id|nct_id|outcome_id|non_inferiority_type|non_inferiority_description|param_type|param_value|dispersion_type|dispersion_value|p_value_modifier|p_value|ci_n_sides|ci_percent|ci_lower_limit|ci_upper_limit|ci_upper_limit_na_comment|p_value_description|method|method_description|estimate_description|groups_description|other_analysis_description|ci_upper_limit_raw|ci_lower_limit_raw|p_value_raw
92146533|NCT01984697|184177826|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the Geometric Mean Titer (GMT) ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.15|||<|0.001|TWO_SIDED|95.0|1.83|2.53|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.53|1.83|<0.001
92209085|NCT01912456|184318851|OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
92209086|NCT01912456|184318851|OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
92209087|NCT01912456|184318851|OTHER||||||=|0.114|||||||Mixed Models Analysis|||||||= 0.114
92209088|NCT01912456|184318852|OTHER||difference in percentages of responder|13.8|||||TWO_SIDED|95.0|-2.8|29.7||||||||29.7|-2.8|
92209089|NCT01912456|184318853|OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
92209090|NCT01912456|184318853|OTHER||||||=|0.018|||||||Mixed Models Analysis|||||||= 0.018
92209091|NCT01912456|184318853|OTHER||||||=|0.31|||||||Mixed Models Analysis|||||||= 0.31
92209092|NCT01340196|184318858|SUPERIORITY_OR_OTHER||Geometric mean ratio|121.89|STANDARD_DEVIATION|14.1|||TWO_SIDED|90.0|111.714|132.999|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|||132.999|111.714|
92209093|NCT01340196|184318859|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.72|STANDARD_DEVIATION|17.2|||TWO_SIDED|90.0|85.215|105.29|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual gCV.|||105.290|85.215|
92146534|NCT01984697|184177826|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.02|||<|0.001|TWO_SIDED|95.0|1.73|2.36|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.36|1.73|<0.001
92209094|NCT01340196|184318860|SUPERIORITY_OR_OTHER||Geometric mean ratio|147.12|STANDARD_DEVIATION|14.6||||90.0|134.482|160.943|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual gCV.|||160.943|134.482|
92146535|NCT01984697|184177826|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|3.47|||<|0.001|TWO_SIDED|95.0|2.93|4.11|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||4.11|2.93|<0.001
92146536|NCT01984697|184177827|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.0|||<|0.001|TWO_SIDED|95.0|-1.8|2.0|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.0|-1.8|<0.001
92209095|NCT01340196|184318861|SUPERIORITY_OR_OTHER||Geometric mean ratio|77.88|STANDARD_DEVIATION|13.4|||TWO_SIDED|90.0|71.24|85.15|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual gCV.|||85.15|71.24|
92271640|NCT03958071|184444971|OTHER||Absolute standardized differences (ASD)|-0.1027||||0.281|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.2810
92395984|NCT04906499|184689142|OTHER||Cohen's d effect size|0.13|||||TWO_SIDED|95.0|-0.68|0.93||||||||0.93|-0.68|
92209096|NCT01340196|184318862|SUPERIORITY_OR_OTHER||Geometric mean ratio|81.73|STANDARD_DEVIATION|20.1|||TWO_SIDED|90.0|71.56|93.34|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual gCV.|||93.34|71.56|
92209097|NCT01340196|184318863|SUPERIORITY_OR_OTHER||Geometric mean ratio|75.27|STANDARD_DEVIATION|13.7|||TWO_SIDED|90.0|68.71|82.45|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual gCV.|||82.45|68.71|
92209098|NCT00320541|184318903|SUPERIORITY_OR_OTHER|||||||0.117||95.0||||Statistical significance at 0.05 level was required.|Fisher Exact|||Assuming the response rate for the PB arm is 34% and the addition of gemcitabine will improve it to 54%, then a sample size of 170 evaluable participants (85 per arm) will give an 80% statistical power to detect the difference, using a 1-sided test at the significance level of 0.05. Confidence levels are exact binomial 95% Confidence Intervals.||||0.117
92209099|NCT00320541|184318904|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||Log Rank|||||||0.247
92209100|NCT00320541|184318905|SUPERIORITY_OR_OTHER|||||||0.475||95.0|||||Log Rank|||||||0.475
92209101|NCT00320541|184318906|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.010
92209102|NCT00320541|184318907|SUPERIORITY_OR_OTHER|||||||0.119||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.119
92209103|NCT00320541|184318908|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.023
92209104|NCT00320541|184318909|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.002
92209105|NCT00320541|184318910|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.004
92209106|NCT00320541|184318911|SUPERIORITY_OR_OTHER|||||||0.067||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.067
92209107|NCT00320541|184318912|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.036
92209108|NCT01097785|184318913|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Student's t-test|||||||<0.05
92209109|NCT01097785|184318914|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Student's t-test|||||||<0.05
92209110|NCT02482870|184318916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.119|TWO_SIDED|||||A priori threshold for statistical significance was 0.05.|Chi-squared|Chi-square value = 2.424; degrees of freedom = 1||Sample size was calculated according to the first 60 patients. To obtain 90% power with an alpha error of 0.05, a total of 378 patients were required. Considering a possible drop-out rate of 2.5% due to unexpected complications, we aimed for 388 patients.||||0.119
92395985|NCT04906499|184689144|OTHER||Cohen's d effect size|0.42|||||TWO_SIDED|95.0|-0.44|1.24||||||||1.24|-0.44|
92209111|NCT02482870|184318917|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.8|||<|0.0001|TWO_SIDED|95.0|3.0|4.6||A priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||||4.6|3|<0.0001
92146537|NCT01984697|184177827|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.3|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.3|-1.0|<0.001
92146538|NCT01984697|184177827|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.1|2.3|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.3|-1.1|<0.001
92146539|NCT01984697|184177828|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.39|||<|0.001|TWO_SIDED|95.0|2.03|2.82|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.82|2.03|<0.001
92146540|NCT01984697|184177828|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.45|||<|0.001|TWO_SIDED|95.0|2.09|2.88|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.88|2.09|<0.001
92146541|NCT01984697|184177828|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|5.07|||<|0.001|TWO_SIDED|95.0|4.32|5.94|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||5.94|4.32|<0.001
92146542|NCT01984697|184177829|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.54|||<|0.001|TWO_SIDED|95.0|2.14|3.0|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.00|2.14|<0.001
92146543|NCT01984697|184177829|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.69|||<|0.001|TWO_SIDED|95.0|2.29|3.15|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.15|2.29|<0.001
92271641|NCT03958071|184444971|OTHER||Absolute standardized differences (ASD)|-0.078||||0.1421|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.1421
92395986|NCT04906499|184689146|OTHER||Cohen's d effect size|0.85|||||TWO_SIDED|95.0|-0.13|1.77||||||||1.77|-0.13|
92209112|NCT02482870|184318918|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.9|||<|0.0001|TWO_SIDED|95.0|0.5|1.4||A priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||||1.4|0.5|<0.0001
92334804|NCT02771860|184572617|SUPERIORITY||Mean Difference (Final Values)|8.9||||0.024|TWO_SIDED|95.0|1.0|16.9|||GEE|||Comparison between groups was done by Generalized Estimation Equations at joint level, accounting for within-patient clustering and adjusted for baseline unbalances. Missing values were imputed according to a predefined imputation model, including randomization group, baseline value and values at other time points available, presence of baseline inflammation, baseline number of affected joints.||16.9|1.0|0.024
92395987|NCT04906499|184689148|OTHER||Cohen's d effect size|0.97|||||TWO_SIDED|95.0|-0.05|1.93||||||||1.93|-0.05|
92209113|NCT02482870|184318919|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.81|||<|0.0001|TWO_SIDED|95.0|-0.95|-0.67||A priori threshold for statistical significance was 0.05.|t-test, 2 sided|t value = -11.224, degrees of freedom = 773.99||"For each patient, the difference between Cormack-Lehane score and Mallampati class was calculated for each laryngoscope. As an example, the first patient had a Mallampati score 3. Macintosh laryngoscope provided a Cormack-Lehane score of 2, therefore the difference is - 1, calculated as 2 - 3. In the same patient, King Vision video laryngoscope provided a Cormack-Lehane score of 1, therefore the difference is - 2, calculated as 1 - 3. T-test was used to compare the differences."||-0.67|-0.95|<0.0001
92209114|NCT02482870|184318920|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|TWO_SIDED|||||A priori threshold for statistical significance was 0.05.|Chi-squared, Corrected|Chi-square test with Yates' continuity correction: chi-square = 0.101; degrees of freedom = 1||||||0.75
92209115|NCT01620255|184318921|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.08||||0.0213|TWO_SIDED|90.0|0.019|0.14||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg versus (vs) placebo, centrally read||0.140|0.019|0.0213
92209116|NCT01620255|184318921|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.128||||0.0025|TWO_SIDED|90.0|0.056|0.199||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, centrally read||0.199|0.056|0.0025
92146544|NCT01984697|184177829|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|4.54|||<|0.001|TWO_SIDED|95.0|3.84|5.37|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||5.37|3.84|<0.001
92209117|NCT01620255|184318921|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.118||||0.004|TWO_SIDED|90.0|0.048|0.188||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, centrally read||0.188|0.048|0.0040
92209118|NCT01620255|184318921|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.026||||0.1803|TWO_SIDED|90.0|-0.012|0.064||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, centrally read||0.064|-0.012|0.1803
92209119|NCT01620255|184318921|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.08||||0.0582|TWO_SIDED|90.0|0.002|0.159||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo, locally read||0.159|0.002|0.0582
92209120|NCT01620255|184318921|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.178||||0.0014|TWO_SIDED|90.0|0.083|0.272||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, locally read||0.272|0.083|0.0014
92209121|NCT01620255|184318921|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.122||||0.0125|TWO_SIDED|90.0|0.036|0.208||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, locally read||0.208|0.036|0.0125
92209122|NCT01620255|184318921|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.066||||0.0927|TWO_SIDED|90.0|-0.009|0.142||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, locally read||0.142|-0.009|0.0927
92209123|NCT01620255|184318922|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.089||||0.1379|TWO_SIDED|90.0|-0.037|0.214||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo, centrally read||0.214|-0.037|0.1379
92209124|NCT01620255|184318922|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.254||||0.0011|TWO_SIDED|90.0|0.121|0.388||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, centrally read||0.388|0.121|0.0011
92209125|NCT01620255|184318922|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.163||||0.0239|TWO_SIDED|90.0|0.032|0.293||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, centrally read||0.293|0.032|0.0239
92271642|NCT03958071|184444971|OTHER||Absolute standardized differences (ASD)|0.0159||||0.0048|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.0048
92209126|NCT01620255|184318922|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.213||||0.0052|TWO_SIDED|90.0|0.08|0.347||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, centrally read||0.347|0.080|0.0052
92146545|NCT01984697|184177830|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.46|||<|0.001|TWO_SIDED|95.0|2.05|2.96|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.96|2.05|<0.001
92146546|NCT01984697|184177830|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.44|||<|0.001|TWO_SIDED|95.0|2.04|2.92|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.92|2.04|<0.001
92209127|NCT01620255|184318922|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.056||||0.2617|TWO_SIDED|90.0|-0.075|0.186||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo, locally read||0.186|-0.075|0.2617
92209128|NCT01620255|184318922|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.212||||0.0058|TWO_SIDED|90.0|0.077|0.347||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, locally read||0.347|0.077|0.0058
92271643|NCT03958071|184444973|OTHER||Absolute standardized differences (ASD)|0.0214||||0.7681|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.7681
92271644|NCT03958071|184444973|OTHER||Absolute standardized differences (ASD)|0.371|||<|0.0001|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||<.0001
92146547|NCT01984697|184177830|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|3.69|||<|0.001|TWO_SIDED|95.0|3.06|4.45|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||4.45|3.06|<0.001
92146548|NCT01984697|184177831|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.51|||<|0.001|TWO_SIDED|95.0|2.1|3.0|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.00|2.10|<0.001
92146549|NCT01984697|184177831|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.62|||<|0.001|TWO_SIDED|95.0|2.2|3.12|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.12|2.20|<0.001
92146550|NCT01984697|184177831|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|3.7|||<|0.001|TWO_SIDED|95.0|3.08|4.45|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||4.45|3.08|<0.001
92209129|NCT01620255|184318922|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.156||||0.0326|TWO_SIDED|90.0|0.022|0.29||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, locally read||0.290|0.022|0.0326
92209130|NCT01620255|184318922|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.185||||0.0145|TWO_SIDED|90.0|0.05|0.32||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, locally read||0.320|0.050|0.0145
92209131|NCT01620255|184318923|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.081||||0.0618|TWO_SIDED|90.0|0.0|0.162||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo, centrally read||0.162|0.000|0.0618
92146551|NCT01984697|184177832|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.96|||<|0.001|TWO_SIDED|95.0|2.5|3.5|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.50|2.50|<0.001
92146552|NCT01984697|184177832|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.99|||<|0.001|TWO_SIDED|95.0|2.55|3.5|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.50|2.55|<0.001
92146553|NCT01984697|184177832|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|6.31|||<|0.001|TWO_SIDED|95.0|5.36|7.43|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||7.43|5.36|<0.001
92146554|NCT01984697|184177833|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|1.67|||<|0.001|TWO_SIDED|95.0|1.38|2.03|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.03|1.38|<0.001
92209132|NCT01620255|184318923|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.187||||0.0009|TWO_SIDED|90.0|0.091|0.284||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, centrally read||0.284|0.091|0.0009
92271645|NCT03958071|184444973|OTHER||Absolute standardized differences (ASD)|0.349|||<|0.0001|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||<.0001
92395988|NCT04906499|184689150|OTHER||Pearson's r Correlation Coefficient|0.32|||||TWO_SIDED|95.0|-0.67|0.9||||||||0.90|-0.67|
92395989|NCT04906499|184689151|OTHER||Pearson's r Correlation Coefficient|0.55|||||TWO_SIDED|95.0|-0.48|0.94||||||||0.94|-0.48|
92146555|NCT01984697|184177833|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|1.65|||<|0.001|TWO_SIDED|95.0|1.37|1.99|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||1.99|1.37|<0.001
92209133|NCT01620255|184318923|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.159||||0.0027|TWO_SIDED|90.0|0.068|0.25||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, centrally read||0.250|0.068|0.0027
92209134|NCT01620255|184318923|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.069||||0.0999|TWO_SIDED|90.0|-0.013|0.151||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, centrally read||0.151|-0.013|0.0999
92209135|NCT01620255|184318923|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.001||||0.5225|TWO_SIDED|90.0|-0.111|0.114||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo, locally read||0.114|-0.111|0.5225
92209136|NCT01620255|184318923|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.154||||0.0246|TWO_SIDED|90.0|0.03|0.278||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, locally read||0.278|0.030|0.0246
92209137|NCT01620255|184318923|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.13||||0.0464|TWO_SIDED|90.0|0.008|0.253||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, locally read||0.253|0.008|0.0464
92209138|NCT01620255|184318923|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.066||||0.2|TWO_SIDED|90.0|-0.053|0.186||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, locally read||0.186|-0.053|0.2000
92209139|NCT01620255|184318925|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean (LSM) Difference|-0.88||||0.0494|TWO_SIDED|90.0|-1.623|-0.145|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 7.5 mg vs placebo, centrally read change||-0.145|-1.623|0.0494
92209140|NCT01620255|184318925|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.53||||0.0005|TWO_SIDED|90.0|-2.254|-0.809|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 22.5 mg vs placebo, centrally read change||-0.809|-2.254|0.0005
92209141|NCT01620255|184318925|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.12||||0.0117|TWO_SIDED|90.0|-1.845|-0.39|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 75 mg vs placebo, centrally read change||-0.390|-1.845|0.0117
92209142|NCT01620255|184318925|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.27||||0.0049|TWO_SIDED|90.0|-2.016|-0.533|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 225 mg vs placebo, centrally read change||-0.533|-2.016|0.0049
92209143|NCT01620255|184318925|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.94||||0.0543|TWO_SIDED|90.0|-1.737|-0.137|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 7.5 mg vs placebo, locally read change||-0.137|-1.737|0.0543
92209144|NCT01620255|184318925|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.6||||0.0008|TWO_SIDED|90.0|-2.372|-0.819|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 22.5 mg vs placebo, locally read change||-0.819|-2.372|0.0008
92271646|NCT03958071|184444974|OTHER||Absolute standardized differences (ASD)|-0.1257||||0.1659|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.1659
92209145|NCT01620255|184318925|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.07||||0.0255|TWO_SIDED|90.0|-1.858|-0.284|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 75 mg vs placebo, locally read change||-0.284|-1.858|0.0255
92146556|NCT01984697|184177833|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|1.96|||<|0.001|TWO_SIDED|95.0|1.61|2.37|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.37|1.61|<0.001
92146557|NCT01984697|184177834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|1.6|||<|0.001|TWO_SIDED|95.0|1.36|1.87|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||1.87|1.36|<0.001
92209146|NCT01620255|184318925|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.29||||0.0079|TWO_SIDED|90.0|-2.082|-0.493|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 225 mg vs placebo, locally read change||-0.493|-2.082|0.0079
92209147|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.25||||0.1016|TWO_SIDED|90.0|-0.511|0.001|||Mixed Models Analysis|Linear Mixed Model (LMM) with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Stool Frequency, W4||0.001|-0.511|0.1016
92334805|NCT02771860|184572618|SUPERIORITY||Odds Ratio (OR)|0.23|||<|0.001|TWO_SIDED|95.0|0.11|0.5|||Regression, Logistic|||||0.50|0.11|<0.001
92209148|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.28||||0.0654|TWO_SIDED|90.0|-0.529|-0.03|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Stool Frequency, W4||-0.030|-0.529|0.0654
92209149|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.22||||0.15|TWO_SIDED|90.0|-0.472|0.031|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Stool Frequency, W4||0.031|-0.472|0.1500
92209150|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.38||||0.0132|TWO_SIDED|90.0|-0.637|-0.129|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Stool Frequency, W4||-0.129|-0.637|0.0132
92146558|NCT01984697|184177834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|1.76|||<|0.001|TWO_SIDED|95.0|1.51|2.05|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.05|1.51|<0.001
92146559|NCT01984697|184177834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|3.08|||<|0.001|TWO_SIDED|95.0|2.64|3.61|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.61|2.64|<0.001
92146560|NCT01984697|184177835|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.55|||<|0.001|TWO_SIDED|95.0|2.15|3.01|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.01|2.15|<0.001
92209151|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.3||||0.0526|TWO_SIDED|90.0|-0.555|-0.046|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Stool Frequency, W8||-0.046|-0.555|0.0526
92209152|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.31||||0.0422|TWO_SIDED|90.0|-0.554|-0.058|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Stool Frequency, W8||-0.058|-0.554|0.0422
92209153|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.39||||0.011|TWO_SIDED|90.0|-0.637|-0.137|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Stool Frequency, W8||-0.137|-0.637|0.0110
92209154|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.5||||0.001|TWO_SIDED|90.0|-0.755|-0.254|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Stool Frequency, W8||-0.254|-0.755|0.0010
92209155|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.22||||0.1611|TWO_SIDED|90.0|-0.475|0.038|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Stool Frequency, W12||0.038|-0.475|0.1611
92271647|NCT03958071|184444974|OTHER||Absolute standardized differences (ASD)|0.1566||||0.0112|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.0112
92369317|NCT03745638|184643544|SUPERIORITY||Least Squares Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|1.67||0.0037|TWO_SIDED|95.0|1.59|8.15|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in EQ VAS score at Week 8||8.15|1.59|0.0037
92395990|NCT04906499|184689152|OTHER||Pearson's r Correlation Coefficient|0.23|||||TWO_SIDED|95.0|-0.88|0.71||||||||0.71|-0.88|
92146561|NCT01984697|184177835|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.7|||<|0.001|TWO_SIDED|95.0|2.3|3.16|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.16|2.30|<0.001
92146562|NCT01984697|184177835|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|4.98|||<|0.001|TWO_SIDED|95.0|4.23|5.86|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||5.86|4.23|<0.001
92168511|NCT05057897|184226810|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|GMT Ratio|0.47|||||TWO_SIDED|95.0|0.06|3.86|||||The GMT ratio was calculated as the ratio of the titer levels in the immunocompromised cohort to the immunocompetent cohort.|Day 57 (28 days post Dose 2)||3.86|0.06|
92209156|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.36||||0.0186|TWO_SIDED|90.0|-0.608|-0.108|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Stool Frequency, W12||-0.108|-0.608|0.0186
92209157|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.21||||0.1647|TWO_SIDED|90.0|-0.465|0.039|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Stool Frequency, W12||0.039|-0.465|0.1647
92209158|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.35||||0.0231|TWO_SIDED|90.0|-0.607|-0.097|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Stool Frequency, W12||-0.097|-0.607|0.0231
92209159|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.46||||0.0002|TWO_SIDED|90.0|-0.658|-0.26|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Rectal Bleeding, W4||-0.260|-0.658|0.0002
92271648|NCT03958071|184444974|OTHER||Absolute standardized differences (ASD)|0.3019|||<|0.0001|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||<.0001
92209160|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.52|||<|0.0001|TWO_SIDED|90.0|-0.71|-0.322|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Rectal Bleeding, W4||-0.322|-0.710|<0.0001
92209161|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.49|||<|0.0001|TWO_SIDED|90.0|-0.686|-0.295|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Rectal Bleeding, W4||-0.295|-0.686|<0.0001
92146563|NCT01984697|184177836|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.1|2.3|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.3|-1.1|<0.001
92146564|NCT01984697|184177836|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.3|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.3|-1.0|<0.001
92146565|NCT01984697|184177836|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.1|2.3|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.3|-1.1|<0.001
92209162|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.39||||0.0012|TWO_SIDED|90.0|-0.587|-0.192|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Rectal Bleeding, W4||-0.192|-0.587|0.0012
92209163|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.28||||0.0207|TWO_SIDED|90.0|-0.475|-0.081|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Rectal Bleeding, W8||-0.081|-0.475|0.0207
92209164|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.24||||0.0402|TWO_SIDED|90.0|-0.432|-0.048|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Rectal Bleeding, W8||-0.048|-0.432|0.0402
92271649|NCT03958071|184444975|OTHER||Absolute standardized differences (ASD)|-0.0209||||0.326|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.3260
92271650|NCT03958071|184444975|OTHER||Absolute standardized differences (ASD)|-0.2694|||<|0.0001|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||<.0001
92146566|NCT01984697|184177837|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.2|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.2|-1.0|<0.001
92146567|NCT01984697|184177837|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.2|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.2|-1.0|<0.001
92209165|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.32||||0.0071|TWO_SIDED|90.0|-0.511|-0.124|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Rectal Bleeding, W8||-0.124|-0.511|0.0071
92209166|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.47|||<|0.0001|TWO_SIDED|90.0|-0.664|-0.275|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Rectal Bleeding, W8||-0.275|-0.664|<0.0001
92209167|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.25||||0.0395|TWO_SIDED|90.0|-0.449|-0.05|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Rectal Bleeding, W12||-0.050|-0.449|0.0395
92209168|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.32||||0.0073|TWO_SIDED|90.0|-0.511|-0.123|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Rectal Bleeding, W12||-0.123|-0.511|0.0073
92271651|NCT03958071|184444975|OTHER||Absolute standardized differences (ASD)|-0.2352|||<|0.0001|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||<.0001
92209169|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.24||||0.0413|TWO_SIDED|90.0|-0.439|-0.047|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Rectal Bleeding, W12||-0.047|-0.439|0.0413
92209170|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.4||||0.0008|TWO_SIDED|90.0|-0.602|-0.206|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Rectal Bleeding, W12||-0.206|-0.602|0.0008
92209171|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.19||||0.1862|TWO_SIDED|90.0|-0.421|0.046|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, PGA, W4||0.046|-0.421|0.1862
92209172|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.23||||0.0998|TWO_SIDED|90.0|-0.455|0.0|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, PGA, W4||-0.000|-0.455|0.0998
92209173|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.22||||0.1085|TWO_SIDED|90.0|-0.453|0.006|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, PGA, W4||0.006|-0.453|0.1085
92209174|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.14||||0.3161|TWO_SIDED|90.0|-0.372|0.09|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, PGA, W4||0.090|-0.372|0.3161
92146568|NCT01984697|184177837|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.2|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.2|-1.0|<0.001
92146569|NCT01984697|184177838|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|1.5|||<|0.001|TWO_SIDED|95.0|0.1|3.8|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||3.8|0.1|<0.001
92209175|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.1||||0.4962|TWO_SIDED|90.0|-0.328|0.136|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, PGA, W8||0.136|-0.328|0.4962
92209176|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.29||||0.0371|TWO_SIDED|90.0|-0.512|-0.06|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, PGA, W8||-0.060|-0.512|0.0371
92209177|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.21||||0.1212|TWO_SIDED|90.0|-0.441|0.013|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, PGA, W8||0.013|-0.441|0.1212
92209178|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.18||||0.187|TWO_SIDED|90.0|-0.41|0.045|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, PGA, W8||0.045|-0.410|0.1870
92146570|NCT01984697|184177838|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|1.5|||<|0.001|TWO_SIDED|95.0|0.1|3.8|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||3.8|0.1|<0.001
92209179|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.23||||0.1133|TWO_SIDED|90.0|-0.459|0.009|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, PGA, W12||0.009|-0.459|0.1133
92209180|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.43||||0.0022|TWO_SIDED|90.0|-0.653|-0.198|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, PGA, W12||-0.198|-0.653|0.0022
92209181|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.25||||0.0788|TWO_SIDED|90.0|-0.475|-0.016|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, PGA, W12||-0.016|-0.475|0.0788
92395991|NCT04906499|184689153|OTHER||Pearson's r Correlation Coefficient|-0.19|||||TWO_SIDED|95.0|-0.87|0.73||||||||0.73|-0.87|
92209182|NCT01620255|184318926|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.25||||0.0717|TWO_SIDED|90.0|-0.485|-0.022|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, PGA, W12||-0.022|-0.485|0.0717
92209183|NCT01620255|184318927|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.08||||0.5406|TWO_SIDED|90.0|-0.286|0.131|||ANCOVA|ANCOVA with model terms: treatment group, baseline, status of anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo||0.131|-0.286|0.5406
92209184|NCT01620255|184318927|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.42||||0.0007|TWO_SIDED|90.0|-0.628|-0.221|||ANCOVA|ANCOVA with model terms: treatment group, baseline, status of anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo||-0.221|-0.628|0.0007
92395992|NCT04906499|184689155|OTHER||Cohen's d effect size|-0.42|||||TWO_SIDED|95.0|-1.24|0.44||||||||0.44|-1.24|
92146571|NCT01984697|184177838|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|1.5|||<|0.001|TWO_SIDED|95.0|0.1|3.8|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||3.8|0.1|<0.001
92146572|NCT01984697|184177839|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.0|||<|0.001|TWO_SIDED|95.0|-1.7|1.8|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||1.8|-1.7|<0.001
92146573|NCT01984697|184177839|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
92146574|NCT01984697|184177839|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
92146575|NCT01984697|184177840|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.0|||<|0.001|TWO_SIDED|95.0|-1.7|1.7|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||1.7|-1.7|<0.001
92146576|NCT01984697|184177840|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.0|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.0|-1.0|<0.001
92209185|NCT01620255|184318927|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.34||||0.0063|TWO_SIDED|90.0|-0.549|-0.137|||ANCOVA|ANCOVA with model terms: treatment group, baseline, status of anti-TNF therapy experience.||PF-00547659 75 mg vs placebo||-0.137|-0.549|0.0063
92209186|NCT01620255|184318927|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.23||||0.0748|TWO_SIDED|90.0|-0.436|-0.018|||ANCOVA|ANCOVA with model terms: treatment group, baseline, status of anti-TNF therapy experience.||PF-00547659 225 mg vs placebo||-0.018|-0.436|0.0748
92209187|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.9||||0.9744|TWO_SIDED|90.0|-101.0|97.14|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 4||97.14|-101.00|0.9744
92209188|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|74.9||||0.2023|TWO_SIDED|90.0|-21.77|171.66|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 4||171.66|-21.77|0.2023
92209189|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|32.9||||0.5808|TWO_SIDED|90.0|-65.09|130.79|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Week 4||130.79|-65.09|0.5808
92209190|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|37.6||||0.5388|TWO_SIDED|90.0|-63.12|138.34|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 4||138.34|-63.12|0.5388
92209191|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-8.2||||0.8902|TWO_SIDED|90.0|-106.24|89.81|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 8||89.81|-106.24|0.8902
92209192|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|10.2||||0.8616|TWO_SIDED|90.0|-86.14|106.54|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 8||106.54|-86.14|0.8616
92146577|NCT01984697|184177840|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.1|2.0|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.0|-1.1|<0.001
92209193|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-34.3||||0.5684|TWO_SIDED|90.0|-133.49|64.79|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Week 8||64.79|-133.49|0.5684
92209194|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|33.8||||0.57|TWO_SIDED|90.0|-64.2|131.86|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 8||131.86|-64.20|0.5700
92209195|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-30.0||||0.6234|TWO_SIDED|90.0|-130.56|70.57|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 12||70.57|-130.56|0.6234
92209196|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|36.0||||0.5474|TWO_SIDED|90.0|-62.44|134.38|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 12||134.38|-62.44|0.5474
92395993|NCT03346434|184689168|SUPERIORITY||Percentage difference|23.8|||<|0.0001|TWO_SIDED|95.0|13.27|34.37||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||34.37|13.27|< 0.0001
92146578|NCT01984697|184177841|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|1.4|||<|0.001|TWO_SIDED|95.0|-0.7|4.0|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||4.0|-0.7|<0.001
92146579|NCT01984697|184177841|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|1.4|||<|0.001|TWO_SIDED|95.0|-0.7|4.0|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||4.0|-0.7|<0.001
92146580|NCT01984697|184177841|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|2.1|||<|0.001|TWO_SIDED|95.0|0.7|4.6|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||4.6|0.7|<0.001
92146581|NCT01984697|184177842|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.0|||<|0.001|TWO_SIDED|95.0|-1.7|1.7|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||1.7|-1.7|<0.001
92209197|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|78.5||||0.1918|TWO_SIDED|90.0|-20.48|177.56|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo,Week 12||177.56|-20.48|0.1918
92209198|NCT01620255|184318928|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-3.0||||0.9615|TWO_SIDED|90.0|-104.88|98.91|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 12||98.91|-104.88|0.9615
92146582|NCT01984697|184177842|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
92146583|NCT01984697|184177842|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
92146584|NCT01984697|184177843|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
92209199|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|6.4||||0.9328|TWO_SIDED|90.0|-118.6|131.41|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 4||131.41|-118.60|0.9328
92209200|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-9.8||||0.8962|TWO_SIDED|90.0|-132.91|113.39|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 4||113.39|-132.91|0.8962
92209201|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|11.5||||0.8775|TWO_SIDED|90.0|-110.83|133.74|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Week 4||133.74|-110.83|0.8775
92209202|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-17.0||||0.8224|TWO_SIDED|90.0|-142.02|107.94|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 4||107.94|-142.02|0.8224
92209203|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-52.7||||0.4831|TWO_SIDED|90.0|-176.48|71.02|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 8||71.02|-176.48|0.4831
92209204|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-115.2||||0.1183|TWO_SIDED|90.0|-236.63|6.13|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 8||6.13|-236.63|0.1183
92209205|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-115.8||||0.1139|TWO_SIDED|90.0|-236.29|4.69|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Week 8||4.69|-236.29|0.1139
92209206|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-96.4||||0.1931|TWO_SIDED|90.0|-218.17|25.46|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 8||25.46|-218.17|0.1931
92209207|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-119.7||||0.1182|TWO_SIDED|90.0|-245.66|6.32|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 12||6.32|-245.66|0.1182
92209208|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-41.7||||0.5784|TWO_SIDED|90.0|-165.34|81.87|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 12||81.87|-165.34|0.5784
92209209|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-163.6||||0.0279|TWO_SIDED|90.0|-285.84|-41.29|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo,Week 12||-41.29|-285.84|0.0279
92209210|NCT01620255|184318929|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-123.5||||0.1053|TWO_SIDED|90.0|-249.0|1.93|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 12||1.93|-249.00|0.1053
92209211|NCT01620255|184318930|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.1||||0.8302|TWO_SIDED|90.0|-9.507|7.317|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, change from BL at W12||7.317|-9.507|0.8302
92209212|NCT01620255|184318930|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|12.33||||0.0141|TWO_SIDED|90.0|4.084|20.567|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, change from BL at W12||20.567|4.084|0.0141
92395994|NCT03346434|184689169|SUPERIORITY||Percentage difference|42.3|||<|0.0001|TWO_SIDED|95.0|29.47|55.16||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||55.16|29.47|< 0.0001
92146585|NCT01984697|184177843|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
92209213|NCT01620255|184318930|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|11.7||||0.0182|TWO_SIDED|90.0|3.564|19.84|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, change from BL at W12||19.840|3.564|0.0182
92209214|NCT01620255|184318930|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|15.48||||0.0026|TWO_SIDED|90.0|7.056|23.907|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, change from BL at W12||23.907|7.056|0.0026
92209215|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.73||||0.6862|TWO_SIDED|90.0|-3.689|2.235|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, bowel fx change from BL at W12||2.235|-3.689|0.6862
92209216|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|4.37||||0.0135|TWO_SIDED|90.0|1.467|7.28|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, bowel fx change from BL at W12||7.280|1.467|0.0135
92209217|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|4.16||||0.0171|TWO_SIDED|90.0|1.293|7.023|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, bowel fx change from BL at W12||7.023|1.293|0.0171
92209218|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|5.2||||0.0041|TWO_SIDED|90.0|2.232|8.172|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, bowel fx change from BL at W12||8.172|2.232|0.0041
92209219|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|0.22||||0.9072|TWO_SIDED|90.0|-2.897|3.339|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, emotional fx change from BL at W12||3.339|-2.897|0.9072
92209220|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|4.47||||0.0161|TWO_SIDED|90.0|1.42|7.522|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, emotional fx change from BL at W12||7.522|1.420|0.0161
92209221|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|4.06||||0.0271|TWO_SIDED|90.0|1.042|7.071|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, emotional fx change from BL at W12||7.071|1.042|0.0271
92209222|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|5.9||||0.002|TWO_SIDED|90.0|2.778|9.026|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, emotional fx change from BL at W12||9.026|2.778|0.0020
92334806|NCT02771860|184572619|SUPERIORITY||Mean Difference (Final Values)|14.3||||0.003|TWO_SIDED|95.0|4.6|24.0|||GEE|||Comparison between groups was done by Generalized Estimation Equations at joint level, accounting for within-patient clustering and adjusted for baseline unbalances. Missing values were imputed according to a predefined imputation model, including randomization group, baseline value and values at other time points available, presence of baseline inflammation, baseline number of affected joints.||24.0|4.6|0.003
92395995|NCT03346434|184689178|SUPERIORITY||Least Square (LS) Mean Difference|-50.4|||<|0.0001|TWO_SIDED|95.0|-62.38|-38.4||Threshold for significance at 0.05 level.|ANCOVA|||||-38.40|-62.38|< 0.0001
92146586|NCT01984697|184177843|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.1|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.1|<0.001
92209223|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.26||||0.7711|TWO_SIDED|90.0|-1.756|1.229|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, systemic symptoms change from BL at W12||1.229|-1.756|0.7711
92209224|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|1.69||||0.0582|TWO_SIDED|90.0|0.223|3.147|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, systemic symptoms change from BL at W12||3.147|0.223|0.0582
92209225|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|1.68||||0.0558|TWO_SIDED|90.0|0.235|3.12|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, systemic symptoms change from BL at W12||3.120|0.235|0.0558
92209226|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|1.66||||0.0686|TWO_SIDED|90.0|0.161|3.153|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, systemic symptoms change from BL at W12||3.153|0.161|0.0686
92209227|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.33||||0.7561|TWO_SIDED|90.0|-2.094|1.429|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, social fx change from BL at W12||1.429|-2.094|0.7561
92334807|NCT04304508|184572626|OTHER|Dose-response test by using multiple comparison procedures (MCP) Mod.||||||0.7976|||||||MCP Mod|||Dose-response test||||0.7976
92395996|NCT03346434|184689179|SUPERIORITY||LS Mean Difference|-47.1|||<|0.0001|TWO_SIDED|95.0|-59.47|-34.79||Threshold for significance at 0.05 level.|ANCOVA|||||-34.79|-59.47|< 0.0001
92209228|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|2.17||||0.0384|TWO_SIDED|90.0|0.447|3.891|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, social fx change from BL at W12||3.891|0.447|0.0384
92209229|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|1.86||||0.0729|TWO_SIDED|90.0|0.154|3.557|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, social fx change from BL at W12||3.557|0.154|0.0729
92209230|NCT01620255|184318931|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|2.95||||0.006|TWO_SIDED|90.0|1.19|4.715|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, social fx change from BL at W12||4.715|1.190|0.0060
92334808|NCT04304508|184572626|OTHER||Crude incidence ratio|1.044|||||TWO_SIDED|90.0|0.8105|1.3478||||||Comparison of the Asundexian 10 mg group versus Placebo group.||1.3478|0.8105|
92209231|NCT01620255|184318932|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.002||||0.5201|TWO_SIDED|90.0|-0.145|0.142||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo||0.142|-0.145|0.5201
92209232|NCT01620255|184318932|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.183||||0.0217|TWO_SIDED|90.0|0.039|0.328||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo||0.328|0.039|0.0217
92209233|NCT01620255|184318932|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.096||||0.1473|TWO_SIDED|90.0|-0.045|0.237||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo||0.237|-0.045|0.1473
92209234|NCT01620255|184318932|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.112||||0.1231|TWO_SIDED|90.0|-0.038|0.261||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo||0.261|-0.038|0.1231
92334809|NCT04304508|184572626|OTHER||Crude incidence ratio|1.1963|||||TWO_SIDED|90.0|0.9281|1.5428||||||Comparison of the Asundexian 20 mg group versus Placebo group.||1.5428|0.9281|
92334810|NCT04304508|184572626|OTHER||Crude incidence ratio|1.0485|||||TWO_SIDED|90.0|0.8082|1.3619||||||Comparison of the Asundexian 50 mg group versus Placebo group.||1.3619|0.8082|
92209235|NCT03794908|184318938|SUPERIORITY||Mean Difference (Net)|3.8|STANDARD_ERROR_OF_MEAN|3.49||0.28|TWO_SIDED|95.0|-3.03|10.64|||Mixed Models Analysis|The comparison was done using a mixed model with assessments at 3 time points (pre-treatment, mid-treatment, and end of treatment).||Test of between-arm difference at mid-treatment.||10.64|-3.03|0.28
92209236|NCT03794908|184318938|SUPERIORITY||Mean Difference (Net)|4.48|STANDARD_ERROR_OF_MEAN|3.53||0.21|TWO_SIDED|95.0|-2.44|11.4|||Mixed Models Analysis|The comparison was done using a mixed model with assessments at 3 time points (pre-treatment, mid-treatment, and end of treatment).||Test of between-arm difference at end of treatment.||11.40|-2.44|0.21
92209237|NCT05062759|184318977|OTHER||Geometric Least square (LS) mean ratio|0.65|||||TWO_SIDED|90.0|0.43|0.98||||||Influenza A H1N1 Ratio of placebo over tezepelumab. Results based on ANCOVA model.||0.98|0.43|
92209238|NCT05062759|184318977|OTHER||Geometeric LS mean ratio|0.83|||||TWO_SIDED|90.0|0.6|1.15||||||Influenza B Yamagata Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.15|0.60|
92209239|NCT05062759|184318977|OTHER||Geometric LS mean ratio|0.99|||||TWO_SIDED|90.0|0.71|1.37||||||Influenza B Victoria Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.37|0.71|
92334811|NCT04304508|184572634|OTHER|Cause specific HRs were only calculated if at least 3 events occurred in 1 of the compared groups and at least 1 event in each of the compared treatment groups.|Cox Proportional Hazard|1.724|||=|0.1507|TWO_SIDED|90.0|0.924|3.215|||Log Rank|||Comparison of the Asundexian 10 mg group versus Placebo group||3.215|0.924|= 0.1507
92395997|NCT03346434|184689180|SUPERIORITY||Percentage difference|39.2|||<|0.0001|TWO_SIDED|95.0|26.18|52.27||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||52.27|26.18|< 0.0001
92209240|NCT05062759|184318978|OTHER||Geometeric LS mean ratio|0.73|||||TWO_SIDED|90.0|0.42|1.28||||||Influenza A H1N1 Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.28|0.42|
92209241|NCT05062759|184318978|OTHER||Geometeric LS mean ratio|1.25|||||TWO_SIDED|90.0|0.72|2.17||||||Influenza A H3N2 Ratio of placebo over tezepelumab. Results based on ANCOVA model||2.17|0.72|
92209242|NCT05062759|184318978|OTHER||Geometric LS mean ratio|1.23|||||TWO_SIDED|90.0|0.73|2.07||||||Influenza B Victoria Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||2.07|0.73|
92209243|NCT05062759|184318978|OTHER||Geometeric LS mean ratio|0.89|||||TWO_SIDED|90.0|0.54|1.48||||||Influenza B Yamagata Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.48|0.54|
92395998|NCT03346434|184689181|SUPERIORITY||Percentage difference|43.3|||<|0.0001|TWO_SIDED|95.0|30.03|56.67||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||56.67|30.03|< 0.0001
92209244|NCT05062759|184318979|OTHER||Geometeric LS mean ratio|0.74|||||TWO_SIDED|90.0|0.52|1.04||||||Influenza A H1N1 Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.04|0.52|
92209245|NCT05062759|184318979|OTHER||Geometeric LS mean ratio|0.96|||||TWO_SIDED|90.0|0.72|1.29||||||Influenza B Yamagata Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.29|0.72|
92209246|NCT05062759|184318979|OTHER||Geometric LS mean ratio|1.03|||||TWO_SIDED|90.0|0.73|1.46||||||Influenza B Victoria Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.46|0.73|
92209247|NCT05062759|184318980|OTHER||Geometeric LS mean ratio|0.79|||||TWO_SIDED|90.0|0.51|1.25||||||Influenza A H1N1 Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.25|0.51|
92209248|NCT05062759|184318980|OTHER||Geometeric LS mean ratio|0.76|||||TWO_SIDED|90.0|0.42|1.28||||||Influenza A H3N2 Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.28|0.42|
92209249|NCT05062759|184318980|OTHER||Geometric LS mean ratio|0.99|||||TWO_SIDED|90.0|0.49|1.99||||||Influenza B Victoria Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.99|0.49|
92209250|NCT05062759|184318980|OTHER||Geometeric LS mean ratio|1.03|||||TWO_SIDED|90.0|0.7|1.52||||||Influenza B Yamagata Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.52|0.70|
92209251|NCT04981366|184318987|SUPERIORITY|||||||0.013|TWO_SIDED|95.0||||We applied the restricted maximum likelihood, compound symmetry covariance structure, and Kenward-Roger degrees of freedom approximation. To maintain the significance level at 0.05, the primary endpoints were assessed using Hochberg's procedure.|Mixed Models Analysis|||||||0.013
92209252|NCT04981366|184318988|SUPERIORITY||||||<|0.001||||||We applied the restricted maximum likelihood, compound symmetry covariance structure, and Kenward-Roger degrees of freedom approximation. To maintain the significance level at 0.05, the primary endpoints were assessed using Hochberg's procedure.|Mixed Models Analysis|||||||<0.001
92209253|NCT04981366|184318989|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92334812|NCT04304508|184572634|OTHER|Cause specific HRs were only calculated if at least 3 events occurred in 1 of the compared groups and at least 1 event in each of the compared treatment groups.|Cox Proportional Hazard|1.285|||=|0.5339|TWO_SIDED|90.0|0.662|2.494|||Log Rank|||Comparison of the Asundexian 20 mg group versus Placebo group||2.494|0.662|= 0.5339
92209254|NCT04981366|184318990|SUPERIORITY|||||||0.007||||||We applied the restricted maximum likelihood, compound symmetry covariance structure, and Kenward-Roger degrees of freedom approximation. To maintain the significance level at 0.05, the primary endpoints were assessed using Hochberg's procedure.|Mixed Models Analysis|||||||0.007
92209255|NCT04981366|184318991|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209256|NCT04981366|184318992|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209257|NCT04981366|184318993|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||||||0.005
92209258|NCT04981366|184318994|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209259|NCT04981366|184318995|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209260|NCT04981366|184318996|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209261|NCT04981366|184318997|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209262|NCT04981366|184318998|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92209263|NCT04981366|184318999|SUPERIORITY|||||||0.033|||||||Mixed Models Analysis|||||||0.033
92209264|NCT04981366|184319000|SUPERIORITY|||||||0.944|||||||Mixed Models Analysis|||||||0.944
92209265|NCT04981366|184319001|SUPERIORITY|||||||0.203|||||||Mixed Models Analysis|||||||0.203
92209266|NCT04981366|184319002|SUPERIORITY|||||||0.027|||||||Mixed Models Analysis|||||||0.027
92209267|NCT04981366|184319003|SUPERIORITY|||||||0.145|||||||Mixed Models Analysis|||||||0.145
92209268|NCT04981366|184319004|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92271652|NCT03958071|184444976|OTHER||Absolute standardized differences (ASD)|0.09||||0.2042|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.2042
92209269|NCT04981366|184319005|SUPERIORITY|||||||0.551|||||||Mixed Models Analysis|||||||0.551
92209270|NCT04981366|184319006|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92209271|NCT04981366|184319007|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92209272|NCT04981366|184319008|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92209273|NCT04981366|184319009|SUPERIORITY|||||||0.008|||||||Mixed Models Analysis|||||||0.008
92209274|NCT04981366|184319010|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209275|NCT04981366|184319011|SUPERIORITY|||||||0.344|||||||Mixed Models Analysis|||||||0.344
92209276|NCT04981366|184319012|SUPERIORITY|||||||0.613|||||||Mixed Models Analysis|||||||0.613
92209277|NCT04981366|184319013|SUPERIORITY|||||||0.944|||||||Mixed Models Analysis|||||||0.944
92209278|NCT04981366|184319014|SUPERIORITY|||||||0.601|||||||Mixed Models Analysis|||||||0.601
92395999|NCT03346434|184689182|SUPERIORITY||Percentage difference|48.5|||<|0.0001|TWO_SIDED|95.0|35.03|62.0||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||62.00|35.03|< 0.0001
92209279|NCT04981366|184319015|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209280|NCT04981366|184319016|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209281|NCT04981366|184319017|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209282|NCT04981366|184319019|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209283|NCT04981366|184319020|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209284|NCT04981366|184319021|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209285|NCT04981366|184319022|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209286|NCT04981366|184319023|SUPERIORITY|||||||0.017|||||||Mixed Models Analysis|||||||0.017
92209287|NCT04981366|184319024|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209288|NCT04981366|184319025|SUPERIORITY|||||||0.949|||||||Mixed Models Analysis|||||||0.949
92209289|NCT04981366|184319026|SUPERIORITY|||||||0.993|||||||Mixed Models Analysis|||||||0.993
92209290|NCT04981366|184319027|SUPERIORITY|||||||0.601|||||||Mixed Models Analysis|||||||0.601
92209291|NCT04981366|184319028|SUPERIORITY|||||||0.408|||||||Mixed Models Analysis|||||||0.408
92209292|NCT04981366|184319029|SUPERIORITY|||||||0.082|||||||Mixed Models Analysis|||||||0.082
92209293|NCT04981366|184319030|SUPERIORITY|||||||0.55|||||||Mixed Models Analysis|||||||0.550
92209294|NCT04981366|184319031|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|||||||0.700
92209295|NCT04981366|184319032|SUPERIORITY|||||||0.254|||||||Mixed Models Analysis|||||||0.254
92209296|NCT04981366|184319033|SUPERIORITY|||||||0.373|||||||Mixed Models Analysis|||||||0.373
92209297|NCT04981366|184319034|SUPERIORITY|||||||0.407|||||||Mixed Models Analysis|||||||0.407
92209298|NCT04981366|184319035|SUPERIORITY|||||||0.051|||||||Mixed Models Analysis|||||||0.051
92209299|NCT04981366|184319036|SUPERIORITY|||||||0.385|||||||Mixed Models Analysis|||||||0.385
92209300|NCT04981366|184319037|SUPERIORITY|||||||0.239|||||||Mixed Models Analysis|||||||0.239
92209301|NCT04981366|184319038|SUPERIORITY|||||||0.463|||||||Mixed Models Analysis|||||||0.463
92209302|NCT04981366|184319039|SUPERIORITY|||||||0.032|||||||Mixed Models Analysis|||||||0.032
92209303|NCT04981366|184319040|SUPERIORITY|||||||0.469|||||||Mixed Models Analysis|||||||0.469
92209304|NCT04981366|184319041|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.013
92209305|NCT04981366|184319042|SUPERIORITY|||||||0.064|||||||Mixed Models Analysis|||||||0.064
92209306|NCT04981366|184319043|SUPERIORITY|||||||0.0314|||||||Mixed Models Analysis|||||||0.0314
92209307|NCT04981366|184319044|SUPERIORITY|||||||0.0147|||||||Mixed Models Analysis|||||||0.0147
92209308|NCT04981366|184319045|SUPERIORITY|||||||0.007|||||||Mixed Models Analysis|||||||0.007
92209309|NCT04981366|184319046|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92209310|NCT04981366|184319047|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92209311|NCT00440999|184319074|NON_INFERIORITY|The primary efficacy analysis tested the non-inferiority of the PA group compared to the comparator group with regard to the crude cure rate on Day 14 using the 2-sided 95% confidence interval (CI) (Newcombe-Wilson score method without continuity correction) and a 10% non-inferiority margin. Non-inferiority was claimed if the lower limit of the 2-sided 95% CI for the difference in cure rates on Day 14 was \>10%.|Difference in cure rate|-0.5|||||TWO_SIDED|95.0|-2.6|1.4|||||Conclusion: non-inferiority between PA \& chloroquine.|"Null hypothesis: The cure rate on Day 14 for the PA group is inferior to the cure rate on Day 14 for the chloroquine group by more than 10%.~Was tested against the alternative:~Alternative hypothesis: The cure rate on Day 14 for the PA group was not inferior to the cure rate on Day 14 for the chloroquine group by more than 10%."||1.4|-2.6|
92209312|NCT04218084|184319083|OTHER|Mixed Model Repeated Measures analysis|Difference in LS mean|-7.73||||0.0043|TWO_SIDED|95.0|-13.03|-2.42|||Mixed Models for Repeated Measures|||Week 24||-2.42|-13.03|0.0043
92209313|NCT03401229|184319103|SUPERIORITY||Mean Difference (Net)|-0.57|||<|0.0001|TWO_SIDED|95.0|-0.852|-0.289||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate. Both of the co-primary endpoints were tested at 0.01 (two-sided).|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||The primary analysis compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in total NPS and/or the change from baseline in NBS are similar between benralizumab and placebo. H1: Both of the change from baseline in total NPS and the change from baseline in NBS are different between benralizumab and placebo.||-0.289|-0.852|<0.0001
92209314|NCT03401229|184319104|SUPERIORITY||Mean Difference (Net)|-0.27||||0.0048|TWO_SIDED|95.0|-0.458|-0.083||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate. Both of the co-primary endpoints were tested at 0.01 (two-sided).|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||The primary analysis compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in total NPS and/or the change from baseline in NBS are similar between benralizumab and placebo. H1: Both of the change from baseline in total NPS and the change from baseline in NBS are different between benralizumab and placebo.||-0.083|-0.458|0.0048
92209315|NCT03401229|184319105|SUPERIORITY||Mean Difference (Net)|-5.212||||0.0821|TWO_SIDED|95.0|-11.087|0.664||Since both primary endpoints were significant at significant level of 0.01 level, this endpoint was tested at significant level of 0.05.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in SNOT-22 total score is similar between benralizumab and placebo. H1: The change from baseline in SNOT-22 total score is different between benralizumab and placebo.||0.664|-11.087|0.0821
92209316|NCT03401229|184319106|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.066|TWO_SIDED|95.0|0.55|1.02||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal because test for change from baseline in SNOT-22 at week 40 was not statistically significant.|Regression, Cox|A Cox proportional hazards model including covariates treatment group, region (US/Non-US) and baseline comorbid asthma status.||This endpoint compared the rate of incidence of first NP surgery and/or SCS use for NP between benralizumab and placebo. H0: The rate is similar between benralizumab and placebo. H1: the rate is different between benralizumab and placebo. Hazard ratio is benralizumab vs placebo and HR less than 1 indicates longer time to event||1.02|0.55|0.0660
92227015|NCT03048422|184356062|SUPERIORITY||Mean Difference (Final Values)|0.028||||0.19|TWO_SIDED|95.0|-0.014|0.07|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TDF - EFV/FTC/TDF).||0.070|-0.014|0.19
92396000|NCT03346434|184689183|SUPERIORITY||Percentage difference|22.5|||=|0.0001|TWO_SIDED|95.0|12.37|32.6||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||32.60|12.37|= 0.0001
92209317|NCT03401229|184319107|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.5008|TWO_SIDED|95.0|0.53|1.36||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|Regression, Cox|A Cox proportional hazards model including covariates treatment group, region (US/Non-US) and baseline comorbid asthma status.||The endpoint compared the rate of incidence of first NP surgery between benralizumab and placebo. H0: The rate is similar between benralizumab and placebo. H1: the rate is different between benralizumab and placebo. Hazard ratio (HR) is benralizumab vs placebo and HR less than 1 indicates longer time to event||1.36|0.53|0.5008
92209318|NCT03401229|184319108|SUPERIORITY||Mean Difference (Net)|-0.218||||0.0029|TWO_SIDED|95.0|-0.361|-0.074||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline DSS score of benralizumab with placebo. H0: The change from baseline in DSS score is similar between benralizumab and placebo. H1: The change from baseline in DSS score is different between benralizumab and placebo.||-0.074|-0.361|0.0029
92209319|NCT03401229|184319109|SUPERIORITY||Mean Difference (Net)|-0.475||||0.0054|TWO_SIDED|95.0|-0.81|-0.141||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in NPS is similar between benralizumab and placebo. H1: The change from baseline in NPS is different between benralizumab and placebo.||-0.141|-0.810|0.0054
92209320|NCT03401229|184319110|SUPERIORITY||Mean Difference (Net)|-0.287||||0.0032|TWO_SIDED|95.0|-0.477|-0.096||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in NBS is similar between benralizumab and placebo. H1: The change from baseline in NBS is different between benralizumab and placebo.||-0.096|-0.477|0.0032
92209321|NCT03401229|184319111|SUPERIORITY||Mean Difference (Net)|-7.492||||0.0188|TWO_SIDED|95.0|-13.741|-1.243||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in SNOT-22 total score is similar between benralizumab and placebo. H1: The change from baseline in SNOT-22 total score is different between benralizumab and placebo.||-1.243|-13.741|0.0188
92209322|NCT03401229|184319112|SUPERIORITY||Mean Difference (Net)|-0.237||||0.0023|TWO_SIDED|95.0|-0.389|-0.084||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline DSS score of benralizumab with placebo. H0: The change from baseline in DSS score is similar between benralizumab and placebo. H1: The change from baseline in DSS score is different between benralizumab and placebo.||-0.084|-0.389|0.0023
92209323|NCT03401229|184319113|SUPERIORITY||Mean Difference (Net)|-0.856||||0.2375|TWO_SIDED|95.0|-2.281|0.57||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following WP (WP for NP surgery), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status.||This endpoint compared the changes from baseline LMS score of benralizumab with placebo. H0: The change from baseline in LMS score is similar between benralizumab and placebo. H1: The change from baseline in LMS score is different between benralizumab and placebo.||0.570|-2.281|0.2375
92209324|NCT03401229|184319114|SUPERIORITY||Odds Ratio (OR)|0.85||||0.5419|TWO_SIDED|95.0|0.51|1.43||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|Cochran-Mantel-Haenszel|The odds ratio estimate was obtained from the Cochran-Mantel-Haenszel test controlling for region (US/non-US) and baseline comorbid asthma status.||This endpoint compared the proportion of subjects with NP surgery between benralizumab and placebo. H0: The proportion is similar between benralizumab and placebo. H1: The proportion is different between benralizumab and placebo.||1.43|0.51|0.5419
92209325|NCT03401229|184319115|SUPERIORITY||Odds Ratio (OR)|0.69||||0.0913|TWO_SIDED|95.0|0.44|1.06||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|Cochran-Mantel-Haenszel|The odds ratio estimate was obtained from the Cochran-Mantel-Haenszel test controlling for region (US/non-US) and baseline comorbid asthma status.||This endpoint compared the proportion of subjects with SCS\_NP between benralizumab and placebo. H0: The proportion is similar between benralizumab and placebo. H1: The proportion is different between benralizumab and placebo.||1.06|0.44|0.0913
92227016|NCT03048422|184356062|SUPERIORITY||Mean Difference (Final Values)|0.086|||<|0.001|TWO_SIDED|95.0|0.04|0.133|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - EFV/FTC/TDF).||0.133|0.040|< 0.001
92396001|NCT03346434|184689184|SUPERIORITY||LS Mean Difference|-24.27|||<|0.0001|TWO_SIDED|95.0|-31.204|-17.329||Threshold for significance at 0.05 level.|ANCOVA|||||-17.329|-31.204|< 0.0001
92396002|NCT03346434|184689185|SUPERIORITY||LS Mean Difference|-9.1|||<|0.0001|TWO_SIDED|95.0|-11.26|-6.89||Threshold for significance at 0.05 level.|ANCOVA|||||-6.89|-11.26|< 0.0001
92396003|NCT03346434|184689186|SUPERIORITY||LS Mean Difference|-38.4|||<|0.0001|TWO_SIDED|95.0|-46.65|-30.21||Threshold for significance at 0.05 level.|ANCOVA|||||-30.21|-46.65|< 0.0001
92396004|NCT03346434|184689187|SUPERIORITY||LS Mean Difference|1.7|||<|0.0001|TWO_SIDED|95.0|1.093|2.317||Threshold significance was at 0.05 level.|ANCOVA|||||2.317|1.093|< 0.0001
92209326|NCT03401229|184319116|SUPERIORITY||Odds Ratio (OR)|0.65||||0.0362|TWO_SIDED|95.0|0.44|0.97||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|Cochran-Mantel-Haenszel|The odds ratio estimate was obtained from the Cochran-Mantel-Haenszel test controlling for region (US/non-US) and baseline comorbid asthma status.||This endpoint compared the proportion of subjects with NP surgery or SCS\_NP between benralizumab and placebo. H0: The proportion is similar between benralizumab and placebo. H1: The proportion is different between benralizumab and placebo.||0.97|0.44|0.0362
92209327|NCT03401229|184319117|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.1505|TWO_SIDED|95.0|0.53|1.1||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|Regression, Cox|A Cox proportional hazards model including covariates treatment group, region (US/Non-US) and baseline comorbid asthma status.||The endpoint compared the rate of incidence of SCS\_NP use between benralizumab and placebo. H0: The rate is similar between benralizumab and placebo. H1: the rate is different between benralizumab and placebo. Hazard ratio (HR) is benralizumab vs placebo and HR less than 1 indicates longer time to event||1.10|0.53|0.1505
92209328|NCT03401229|184319121|SUPERIORITY||Rate Ratio|0.79||||0.2189|TWO_SIDED|95.0|0.54|1.15||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|Negative Bionomial Model|Model included treatment, US/non-US and prior use of SCS\_NP with total number of courses of SCS\_NP as outcome and log of follow-up time as an offset||The endpoint compared the rate of SCS\_NP use between benralizumab and placebo. H0: The rate is similar between benralizumab and placebo. H1: the rate is different between benralizumab and placebo. Rate ratio is benralizumab vs placebo and Rate ratio less than 1 indicates less likely of SCS\_NP use.||1.15|0.54|0.2189
92209329|NCT03401229|184319122|SUPERIORITY||Median Difference (Net)|-1.854||||0.0036|TWO_SIDED|95.0|-3.101|-0.608||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||-0.608|-3.101|0.0036
92209330|NCT03401229|184319123|SUPERIORITY||Mean Difference (Net)|-0.166||||0.0941|TWO_SIDED|95.0|-0.36|0.028||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||0.028|-0.360|0.0941
92209331|NCT03401229|184319124|SUPERIORITY||Mean Difference (Net)|-0.213||||0.0246|TWO_SIDED|95.0|-0.399|-0.027||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||-0.027|-0.399|0.0246
92209332|NCT03401229|184319125|SUPERIORITY||Mean Difference (Net)|0.672||||0.5833|TWO_SIDED|95.0|-1.73|3.074||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||3.074|-1.730|0.5833
92209333|NCT03401229|184319126|SUPERIORITY||Median Difference (Net)|2.684||||0.0619|TWO_SIDED|95.0|-0.134|5.502||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||5.502|-0.134|0.0619
92209334|NCT03401229|184319127|SUPERIORITY||Median Difference (Net)|-5.057||||0.102|TWO_SIDED|95.0|-11.129|1.015||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|Following WP (WP for NP surgery rescued subjects), model included treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||1.015|-11.129|0.1020
92209335|NCT01122862|184319163|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21||||0.0915|TWO_SIDED|95.0|-0.45|0.03||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||0.03|-0.45|0.0915
92271653|NCT03958071|184444976|OTHER||Absolute standardized differences (ASD)|0.21|||<|0.0001|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||<.0001
92396005|NCT03346434|184689188|SUPERIORITY||LS Mean Difference|-3.31|||<|0.0001|TWO_SIDED|95.0|-4.029|-2.6||Threshold significance at 0.05 level.|ANCOVA|||||-2.600|-4.029|< 0.0001
92209336|NCT01122862|184319164|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.66|||<|0.0001|TWO_SIDED|95.0|1.42|1.9||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference in treatments being compared.||1.90|1.42|<0.0001
92209337|NCT01122862|184319165|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.04||||0.6682|TWO_SIDED|95.0|-0.14|0.21|||ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||0.21|-0.14|0.6682
92209338|NCT01122862|184319165|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|0.74|||<|0.0001|TWO_SIDED|95.0|0.57|0.92||No adjustment for multiple comparisons was made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||0.92|0.57|<0.0001
92209339|NCT01122862|184319166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.2||||0.11|TWO_SIDED|95.0|-0.44|0.05||No adjustment for multiple comparisons was made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||0.05|-0.44|0.1100
92209340|NCT01122862|184319166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.68|||<|0.0001|TWO_SIDED|95.0|1.44|1.93||No adjustment for multiple comparisons was made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||1.93|1.44|<0.0001
92209341|NCT01122862|184319167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.03||||0.728||95.0|-0.16|0.23||No adjustment for multiple comparisons was made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||0.23|-0.16|0.7280
92209342|NCT01122862|184319167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.88|||<|0.0001|TWO_SIDED|95.0|0.68|1.08||No adjustment for multiple comparisons was made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||1.08|0.68|<0.0001
92209343|NCT01249274|184319190|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.19||||0.01|TWO_SIDED|95.0|1.04|1.36|||Generalized Estimating Equation|Negative binomial distribution, log link, and first-order autoregressive covariance structure|Estimated value is the risk ratio estimate for the treatment x time interaction term. Time was treated as a continuous variable and progesterone was the reference group for the treatment variable.|||1.36|1.04|0.010
92334813|NCT04304508|184572634|OTHER|Cause specific HRs were only calculated if at least 3 events occurred in 1 of the compared groups and at least 1 event in each of the compared treatment groups.|Cox Proportional Hazard|1.749|||=|0.1401|TWO_SIDED|90.0|0.938|3.262|||Log Rank|||Comparison of the Asundexian 50 mg group versus Placebo group||3.262|0.938|= 0.1401
92334814|NCT04304508|184572634|OTHER|Cause specific HRs were only calculated if at least 3 events occurred in 1 of the compared groups and at least 1 event in each of the compared treatment groups.|Cox Proportional Hazard|1.585|||=|0.1653|TWO_SIDED|90.0|0.918|2.736|||Log Rank|||Comparison of the Total Asundexian group versus Placebo group||2.736|0.918|= 0.1653
92396006|NCT03346434|184689189|SUPERIORITY||LS Mean Difference|-7.8|||<|0.0001|TWO_SIDED|95.0|-9.789|-5.814||Threshold significance at 0.05 level.|ANCOVA|||||-5.814|-9.789|< 0.0001
92396007|NCT03346434|184689190|SUPERIORITY||LS Mean Difference|-7.5|||<|0.0001|TWO_SIDED|95.0|-10.29|-4.75||Threshold significance at 0.05 level.|ANCOVA|||||-4.75|-10.29|< 0.0001
92209344|NCT01249274|184319191|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|30.39||||0.003|TWO_SIDED|95.0|3.18|290.04|||Generalized Estimating Equation|Negative binomial distribution, log link, and first-order autoregressive covariance structure|Estimated value is RR for treatment\*time interaction for placebo at 3-mo post-trial follow-up. Time treated as a 3-level categorical variable; week 0 (ref), week 12 \& 3-month post-trial follow-up. Treatment variable reference group was progesterone.|We calculated that a sample size of 50 women would have 80% power to detect a significant (p\<0.05) difference between groups if the effect size for the primary outcome was large.||290.04|3.18|0.003
92209345|NCT01249274|184319191|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|16.65||||0.038|TWO_SIDED|95.0|1.18|235.52|||Generalized Estimating Equation||Estimated value is RR for treatment\*time interaction term for placebo at week 12. Time was treated as a 3-level categorical variable; week 0 (ref), week 12 and 3-month post-trial follow-up. Treatment variable reference group was progesterone.|Negative binomial distribution, log link, and first-order autoregressive covariance structure||235.52|1.18|0.038
92227017|NCT03048422|184356063|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.11|TWO_SIDED|95.0|-0.005|0.048|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - DTG+FTC/TDF).||0.048|-0.005|0.11
92271654|NCT03958071|184444976|OTHER||Absolute standardized differences (ASD)|0.11||||0.02|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.02
92334815|NCT00885378|184572652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.51|STANDARD_ERROR_OF_MEAN|6.162||0.1248|TWO_SIDED|95.0|-21.68|2.66|||ANCOVA|ANCOVA model: post - pre = pretreatment.|Estimate = adjusted mean change for Saxagliptin - adjusted mean change for Placebo.|||2.66|-21.68|0.1248
92334816|NCT00885378|184572653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.2|||||TWO_SIDED|95.0|1.1|25.4|||||Adjusted for baseline.|||25.4|1.1|
92334817|NCT00885378|184572654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.8|||||TWO_SIDED|95.0|3.0|24.7|||||Adjusted for baseline.|||24.7|3.0|
92334818|NCT00885378|184572661|SUPERIORITY_OR_OTHER||Standard Error of the Mean|-0.34||||0.0063|TWO_SIDED|95.0|-0.58|-0.1||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo at Week 12(LOCF) was adjusted for baseline.|difference between week t value - baseline value = baseline value + treatment.|||-0.10|-0.58|0.0063
92227018|NCT03048422|184356063|SUPERIORITY||Mean Difference (Final Values)|0.024||||0.055|TWO_SIDED|95.0|0.0|0.049|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TDF - EFV/FTC/TDF).||0.049|-0.000|0.055
92334819|NCT02579382|184572664|SUPERIORITY||Least Squares Mean Difference|0.107||||0.227|TWO_SIDED|95.0|-0.067|0.282||MMRM model included treatment, baseline ALT level, HBeAg baseline status, baseline HBsAg, visit and treatment-by-visit interaction as fixed effect and visit as repeated measurement.|MMRM|||||0.282|-0.067|0.227
92396008|NCT03346434|184689191|SUPERIORITY||LS Mean Difference|-8.96|||<|0.0001|TWO_SIDED|95.0|-11.711|-6.202||Threshold significance at 0.05 level.|ANCOVA|||||-6.202|-11.711|< 0.0001
92168512|NCT05057897|184226811|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|Difference in Seroresponse|-25.0|||||TWO_SIDED|95.0|-59.07|2.97||||The 2-sided 95% CI was calculated using the Newcombe score without continuity correction.|The difference in seroresponse 28 days post Dose 2 of AZD1222 was calculated as (seroresponse rate of immunocompromised cohort) - (seroresponse rate of immunocompetent cohort).|Day 57 (28 days post Dose 2)||2.97|-59.07|
92334820|NCT02579382|184572664|SUPERIORITY||Least Squares Mean Difference|0.018||||0.84|TWO_SIDED|95.0|-0.156|0.191||MMRM model included treatment, baseline ALT level, HBeAg baseline status, baseline HBsAg, visit and treatment-by-visit interaction as fixed effect and visit as repeated measurement.|MMRM|||||0.191|-0.156|0.840
92334821|NCT02579382|184572664|SUPERIORITY||Least Squares Mean Difference|0.127||||0.151|TWO_SIDED|95.0|-0.047|0.301||MMRM model included treatment, baseline ALT level, HBeAg baseline status, baseline HBsAg, visit and treatment-by-visit interaction as fixed effect and visit as repeated measurement.|MMRM|||||0.301|-0.047|0.151
92396009|NCT03346434|184689192|SUPERIORITY||||||=|0.0015||||||Threshold significance is at 0.05 level.|ANCOVA|||||||= 0.0015
92334822|NCT01393522|184572701|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|TWO_SIDED||||||ANCOVA|||||||0.1
92334823|NCT01393522|184572701|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88|TWO_SIDED||||||t-test, 2 sided|||||||0.88
92334824|NCT01393522|184572702|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33|TWO_SIDED||||||t-test, 2 sided|||||||0.33
92168513|NCT05057897|184226812|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|GMT Ratio|0.32|||||TWO_SIDED|95.0|0.12|0.8|||||The GMT ratio was calculated as the ratio of the titer levels in the immunocompromised cohort to the immunocompetent cohort.|Day 85 Immunocompromised / Day 211 Immunocompetent (28 days post Dose 3)||0.80|0.12|
92334825|NCT01393522|184572703|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|TWO_SIDED||||||ANCOVA|||||||0.75
92334826|NCT01393522|184572703|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED||||||t-test, 2 sided|||||||0.24
92334827|NCT01393522|184572704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|TWO_SIDED||||||t-test, 2 sided|||||||0.16
92334828|NCT01393522|184572705|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41|TWO_SIDED||||||t-test, 2 sided|||||||0.41
92334829|NCT01393522|184572706|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|TWO_SIDED||||||t-test, 2 sided|||||||0.09
92334830|NCT01393522|184572707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78|TWO_SIDED||||||t-test, 2 sided|||||||0.78
92334831|NCT03746405|184572721|SUPERIORITY||Mean Difference (Final Values)|1.15|||=|0.03|TWO_SIDED|||||Give the limited sample size, this p-value was not adjusted for multiple comparisons. The threshold for statistical significant was p \< 0.05|t-test, 2 sided|||Hypothesis: Active rTMS applied over the node in the medial prefrontal cortex the most strongly negatively connected to the right amygdala will decrease amygdala BOLD activation compared to sham rTMS||||= 0.03
92209346|NCT01249274|184319192|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.99|TWO_SIDED|95.0|0.87|1.15|||Generalized Estimating Equation||Estimated value is the risk ratio for the treatment x time interaction term. Time was treated as a continuous variable and progesterone was the reference group for treatment.|We calculated that a sample size of 50 women would have 80% power to detect a significant (p\<0.05) difference between groups if the effect size for the primary outcome was large.||1.15|0.87|0.99
92209347|NCT01249274|184319193|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.34||||0.75|TWO_SIDED|95.0|0.23|7.88|||Generalized Estimating Equation||Estimated value is RR for treatment\*time interaction for placebo at 3-mo post-trial follow-up. Time treated as a 3-level categorical variable; week 0 (ref), week 12 \& 3-month post-trial follow-up. Treatment variable reference group was progesterone.|We calculated that a sample size of 50 women would have 80% power to detect a significant (p\<0.05) difference between groups if the effect size for the primary outcome was large.||7.88|0.23|0.75
92209348|NCT01249274|184319193|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.18||||0.84|TWO_SIDED|95.0|0.24|5.84|||Generalized Estimating Equation|Negative binomial distribution, log link, and first-order autoregressive covariance structure|Estimated value is RR for treatment\*time interaction for placebo at week 12. Time was treated as a 3-level categorical variable; week 0 (ref), week 12 \& 3-month post-trial follow-up. Treatment variable reference group was progesterone.|||5.84|0.24|0.84
92209349|NCT01249274|184319194|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED||||||Fisher Exact|||||||0.1030
92209350|NCT01249274|184319195|SUPERIORITY_OR_OTHER||Score Statistic For Type 3 GEE Analysis|0.01||||0.9116|TWO_SIDED||||||Generalized Estimating Equation|Gamma distribution, logit link, 1st-order autoregressive covariance structure; p-value is for chi-sq (df=1) for type 3 GEE analysis score statistic|Estimated value is chi-sq (df=1) for type 3 GEE analysis score statistic for week\*treatment interaction term.|||||0.9116
92209351|NCT01249274|184319198|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|4.71||||0.048|TWO_SIDED|95.0|1.09|20.5|||Regression, Cox||Ratio presented is for placebo versus progesterone|||20.50|1.09|0.048
92334832|NCT03479008|184572722|OTHER||||||<|0.0001||||||Statistical significance level was set at p \<0.05 for all tests.|ANOVA|||This presents the p value for the thigh comparison baseline to during stimulation||||<0.0001
92334833|NCT03479008|184572722|SUPERIORITY||||||<|0.0001||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||This presents the p value for the calf comparisons between baseline and during stimulation.||||<0.0001
92334834|NCT03479008|184572722|OTHER||||||<|0.001||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||This statistical analysis presents the data for the biceps comparisons between baseline and during stimulation.||||<0.001
92334835|NCT03479008|184572723|SUPERIORITY||||||<|0.0001|||||||post-hoc analysis|with Bonferroni correction||The P value below applies to the VO2||||<0.0001
92334836|NCT03479008|184572723|SUPERIORITY||||||<|0.001|||||||post-hoc analysis|with Bonferroni correction||This p value applies to the VCO2||||<0.001
92334837|NCT03479008|184572724|SUPERIORITY||||||<|0.0001|||||||post-hoc analysis|with Bonferroni correction||||||<0.0001
92334838|NCT03479008|184572725|SUPERIORITY||||||<|0.0001|||||||post-hoc analysis|with Bonferroni correction||||||<0.0001
92334839|NCT03479008|184572726|SUPERIORITY|||||||0.094|||||||post-hoc analysis|with Bonferroni correction||||||0.094
92209352|NCT01249274|184319199|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|3.5||||0.06|TWO_SIDED|95.0|0.92|13.3|||Regression, Cox||Ratio presented is for placebo versus progesterone|||13.30|0.92|0.06
92334840|NCT03479008|184572727|SUPERIORITY|||||||0.011||||||Statistical significance level was set at p \<0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for Muscle bellies of Soleus (SO)||||0.011
92334841|NCT03479008|184572727|SUPERIORITY|||||||0.012|||||||ANOVA|Statistical significance level was set at p \< 0.05 for all tests.||Comparison of Vibration to Baseline for tibialis anterior (TA)||||0.012
92334842|NCT03479008|184572727|SUPERIORITY|||||||0.003||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for gastrocnemius lateralis (GL)||||0.003
92334843|NCT03479008|184572727|SUPERIORITY||||||<|0.001||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for vastus medialis (VM)||||<0.001
92334844|NCT03479008|184572727|SUPERIORITY||||||<|0.0001||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for vastus lateralis (VL)||||<0.0001
92334845|NCT03479008|184572727|SUPERIORITY|||||||0.59||||||Statistical significance level was set at p \<0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for rectus femoris (RF)||||0.59
92334846|NCT03479008|184572727|SUPERIORITY|||||||0.86||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for semitendinosus (ST)||||0.86
92334847|NCT03479008|184572727|SUPERIORITY|||||||0.006||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for deltoideus medius||||0.006
92334848|NCT00412932|184572728|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|one-sample t-test|||The sample size of this study was not based on the statistical power consideration and was considered as sufficient for the evaluation of the efficacy and safety of the proposed olmesartan medoxomil-based treatment regimen.||||<0.0001
92334849|NCT00412932|184572729|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||One-sample t-test|||||||<0.0001
92334850|NCT00412932|184572730|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments. This P-Value applies to both the daytime and nighttime periods.|one-sample t-test|||||||<0.0001
92334851|NCT00412932|184572731|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments. The P-Value of \<0.0001 applies to both daytime and nighttime periods.|one-sample t-test|||||||<0.0001
92334852|NCT01473940|184572738|OTHER|||||||||||||P-Value not used||||A 3 + 3 enrollment design was adopted to monitor safety and determine the MTD based on DLTs obsesved. The MTD is the highest dose at which 0 of 3 or 1 of 6 DLTs are detected. The MTD is exceeded if 2 of 3 or 2 of 6 DLTs are detected. There will be no dose escalation within a cohort.|The number of DLTs seen at each cohort were used to determine the MTD for the expansion cohort. The MTD was determined to be Gemcitabine - 1,000 mg/m2, Ipilimumab 3 mg/kg|||
92209353|NCT01498653|184319200|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|28.5|||<|0.001|TWO_SIDED|95.0|20.1|36.9|||ANCOVA|||||36.9|20.1|<0.001
92209354|NCT03421431|184319216|SUPERIORITY||Least Squares (LS) mean difference|12.46||||0.0495|TWO_SIDED|95.0|0.029|24.891|||ANCOVA|||||24.891|0.029|0.0495
92209355|NCT03421431|184319216|SUPERIORITY||LS mean difference|6.257||||0.3039|TWO_SIDED|95.0|-5.754|18.268|||ANCOVA|||||18.268|-5.754|0.3039
92209356|NCT03421431|184319216|SUPERIORITY||LS mean difference|6.203||||0.213|TWO_SIDED|95.0|-3.615|16.021|||ANCOVA|||||16.021|-3.615|0.2130
92209357|NCT03421431|184319217|SUPERIORITY||LS mean difference|4.717||||0.0009|TWO_SIDED|95.0|1.98|7.455|||ANCOVA|||||7.455|1.980|0.0009
92209358|NCT03421431|184319217|SUPERIORITY||LS mean difference|0.934||||0.4946|TWO_SIDED|95.0|-1.766|3.635|||ANCOVA|||||3.635|-1.766|0.4946
92209359|NCT03421431|184319217|SUPERIORITY||LS mean difference|3.783||||0.0005|TWO_SIDED|95.0|1.708|5.858|||ANCOVA|||||5.858|1.708|0.0005
92209360|NCT03421431|184319218|SUPERIORITY||LS mean difference|0.076||||0.2756|TWO_SIDED|95.0|-0.062|0.214|||ANCOVA|||||0.214|-0.062|0.2756
92209361|NCT03421431|184319218|SUPERIORITY||LS mean difference|-0.003||||0.9686|TWO_SIDED|95.0|-0.136|0.131|||ANCOVA|||||0.131|-0.136|0.9686
92209362|NCT03421431|184319218|SUPERIORITY||LS mean difference|0.079||||0.1406|TWO_SIDED|95.0|-0.026|0.184|||ANCOVA|||||0.184|-0.026|0.1406
92209363|NCT03421431|184319219|SUPERIORITY||LS mean difference|-0.125||||0.613|TWO_SIDED|95.0|-0.613|0.363|||ANCOVA|||||0.363|-0.613|0.6130
92168514|NCT05057897|184226813|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|Difference in Seroresponse|0.0||||||||||||Due to everyone in both cohorts being a seroresponder, the confidence interval (CI) around the difference is not estimable.|The difference in seroresponse 28 days post Dose 3 of AZD1222 was calculated as (seroresponse rate of immunocompromised cohort) - (seroresponse rate of immunocompetent cohort).|Day 85 Immunocompromised / Day 211 Immunocompetent (28 days post Dose 3)||||
92209364|NCT03421431|184319219|SUPERIORITY||LS mean difference|-0.049||||0.8366|TWO_SIDED|95.0|-0.521|0.423|||ANCOVA|||||0.423|-0.521|0.8366
92209365|NCT03421431|184319219|SUPERIORITY||LS mean difference|-0.076||||0.7015|TWO_SIDED|95.0|-0.466|0.315|||ANCOVA|||||0.315|-0.466|0.7015
92209366|NCT03421431|184319220|SUPERIORITY||LS mean difference|-0.186||||0.3875|TWO_SIDED|95.0|-0.613|0.24|||ANCOVA|||||0.240|-0.613|0.3875
92209367|NCT03421431|184319220|SUPERIORITY||LS mean difference|-0.248||||0.2331|TWO_SIDED|95.0|-0.657|0.162|||ANCOVA|||||0.162|-0.657|0.2331
92209368|NCT03421431|184319220|SUPERIORITY||LS mean difference|0.061||||0.7164|TWO_SIDED|95.0|-0.272|0.395|||ANCOVA|||||0.395|-0.272|0.7164
92209369|NCT03421431|184319221|SUPERIORITY||LS mean difference|0.21|||<|0.0001|TWO_SIDED|95.0|0.11|0.311|||ANCOVA|||||0.311|0.110|<0.0001
92209370|NCT03421431|184319221|SUPERIORITY||LS mean difference|0.046||||0.348|TWO_SIDED|95.0|-0.051|0.143|||ANCOVA|||||0.143|-0.051|0.3480
92209371|NCT03421431|184319221|SUPERIORITY||LS mean difference|0.164|||<|0.0001|TWO_SIDED|95.0|0.085|0.243|||ANCOVA|||||0.243|0.085|<0.0001
92209372|NCT03421431|184319222|SUPERIORITY||LS mean difference|-0.299||||0.0897|TWO_SIDED|95.0|-0.645|0.047|||ANCOVA|||||0.047|-0.645|0.0897
92396010|NCT03346434|184689193|SUPERIORITY||LS Mean Difference|-2.9|||=|0.0997|TWO_SIDED|95.0|-6.35|0.56||Threshold significance at 0.05 level.|ANCOVA|||||0.56|-6.35|= 0.0997
92209373|NCT03421431|184319222|SUPERIORITY||LS mean difference|-0.251||||0.1411|TWO_SIDED|95.0|-0.586|0.085|||ANCOVA|||||0.085|-0.586|0.1411
92209374|NCT03421431|184319222|SUPERIORITY||LS mean difference|-0.048||||0.733|TWO_SIDED|95.0|-0.326|0.23|||ANCOVA|||||0.230|-0.326|0.7330
92209375|NCT03421431|184319223|SUPERIORITY||LS mean difference|51.873||||0.9143|TWO_SIDED|95.0|-901.574|1005.32|||ANCOVA|||||1005.320|-901.574|0.9143
92209376|NCT03421431|184319223|SUPERIORITY||LS mean difference|404.168||||0.3718|TWO_SIDED|95.0|-489.519|1297.854|||ANCOVA|||||1297.854|-489.519|0.3718
92209377|NCT03421431|184319223|SUPERIORITY||LS mean difference|-352.295||||0.3466|TWO_SIDED|95.0|-1091.308|386.719|||ANCOVA|||||386.719|-1091.308|0.3466
92209378|NCT03421431|184319224|SUPERIORITY||LS mean difference|0.173||||0.0003|TWO_SIDED|95.0|0.081|0.264|||ANCOVA|||||0.264|0.081|0.0003
92209379|NCT03421431|184319224|SUPERIORITY||LS mean difference|0.025||||0.5685|TWO_SIDED|95.0|-0.062|0.113|||ANCOVA|||||0.113|-0.062|0.5685
92209380|NCT03421431|184319224|SUPERIORITY||LS mean difference|0.147|||<|0.0001|TWO_SIDED|95.0|0.075|0.219|||ANCOVA|||||0.219|0.075|<0.0001
92209381|NCT03421431|184319225|SUPERIORITY||LS mean difference|-0.133||||0.0282|TWO_SIDED|95.0|-0.252|-0.015|||ANCOVA|||||-0.015|-0.252|0.0282
92209382|NCT03421431|184319225|SUPERIORITY||LS mean difference|-0.068||||0.2412|TWO_SIDED|95.0|-0.182|0.046|||ANCOVA|||||0.046|-0.182|0.2412
92209383|NCT03421431|184319225|SUPERIORITY||LS mean difference|-0.066||||0.1649|TWO_SIDED|95.0|-0.158|0.027|||ANCOVA|||||0.027|-0.158|0.1649
92209384|NCT03421431|184319226|SUPERIORITY||LS mean difference|0.009||||0.4357|TWO_SIDED|95.0|-0.014|0.032|||ANCOVA|||||0.032|-0.014|0.4357
92209385|NCT03421431|184319226|SUPERIORITY||LS mean difference|0.001||||0.8989|TWO_SIDED|95.0|-0.021|0.023|||ANCOVA|||||0.023|-0.021|0.8989
92209386|NCT03421431|184319226|SUPERIORITY||LS mean difference|0.008||||0.412|TWO_SIDED|95.0|-0.011|0.026|||ANCOVA|||||0.026|-0.011|0.4120
92209387|NCT03421431|184319227|SUPERIORITY||LS mean difference|-1.731||||0.0134|TWO_SIDED|95.0|-3.095|-0.368|||ANCOVA|||||-0.368|-3.095|0.0134
92209388|NCT03421431|184319227|SUPERIORITY||LS mean difference|-0.327||||0.6263|TWO_SIDED|95.0|-1.656|1.001|||ANCOVA|||||1.001|-1.656|0.6263
92209389|NCT03421431|184319227|SUPERIORITY||LS mean difference|-1.404||||0.0115|TWO_SIDED|95.0|-2.487|-0.322|||ANCOVA|||||-0.322|-2.487|0.0115
92209390|NCT03421431|184319228|SUPERIORITY||LS mean difference|-3.723||||0.4608|TWO_SIDED|95.0|-13.7|6.253|||ANCOVA|||||6.253|-13.700|0.4608
92209391|NCT03421431|184319228|SUPERIORITY||LS mean difference|-2.377||||0.6238|TWO_SIDED|95.0|-11.962|7.207|||ANCOVA|||||7.207|-11.962|0.6238
92209392|NCT03421431|184319228|SUPERIORITY||LS mean difference|-1.346||||0.7367|TWO_SIDED|95.0|-9.268|6.576|||ANCOVA|||||6.576|-9.268|0.7367
92209393|NCT03421431|184319229|SUPERIORITY||LS mean difference|-0.407||||0.8302|TWO_SIDED|95.0|-4.287|3.474|||ANCOVA|||||3.474|-4.287|0.8302
92209394|NCT03421431|184319229|SUPERIORITY||LS mean difference|-1.28||||0.5053|TWO_SIDED|95.0|-5.192|2.632|||ANCOVA|||||2.632|-5.192|0.5053
92209395|NCT03421431|184319229|SUPERIORITY||LS mean difference|0.873||||0.476|TWO_SIDED|95.0|-1.62|3.366|||ANCOVA|||||3.366|-1.620|0.4760
92209396|NCT03421431|184319230|SUPERIORITY||LS mean difference|-5.91||||0.0639|TWO_SIDED|95.0|-12.171|0.351|||ANCOVA|||||0.351|-12.171|0.0639
92209397|NCT03421431|184319230|SUPERIORITY||LS mean difference|-2.064||||0.4884|TWO_SIDED|95.0|-7.971|3.843|||ANCOVA|||||3.843|-7.971|0.4884
92209398|NCT03421431|184319230|SUPERIORITY||LS mean difference|-3.846||||0.1532|TWO_SIDED|95.0|-9.156|1.464|||ANCOVA|||||1.464|-9.156|0.1532
92209399|NCT03421431|184319231|SUPERIORITY||LS mean difference|-0.46||||0.0811|TWO_SIDED|95.0|-0.978|0.058|||ANCOVA|||||0.058|-0.978|0.0811
92209400|NCT03421431|184319231|SUPERIORITY||LS mean difference|0.117||||0.6312|TWO_SIDED|95.0|-0.367|0.601|||ANCOVA|||||0.601|-0.367|0.6312
92209401|NCT03421431|184319231|SUPERIORITY||LS mean difference|-0.577||||0.0099|TWO_SIDED|95.0|-1.011|-0.143|||ANCOVA|||||-0.143|-1.011|0.0099
92209402|NCT03421431|184319244|SUPERIORITY||LS mean difference|1.356||||0.112|TWO_SIDED|95.0|-0.322|3.034|||ANCOVA|||||3.034|-0.322|0.1120
92209403|NCT03421431|184319244|SUPERIORITY||LS mean difference|0.647||||0.4229|TWO_SIDED|95.0|-0.947|2.24|||ANCOVA|||||2.240|-0.947|0.4229
92209404|NCT03421431|184319244|SUPERIORITY||LS mean difference|0.71||||0.2764|TWO_SIDED|95.0|-0.577|1.996|||ANCOVA|||||1.996|-0.577|0.2764
92209405|NCT03421431|184319245|SUPERIORITY||LS mean difference|0.008||||0.5606|TWO_SIDED|95.0|-0.02|0.037|||ANCOVA|||||0.037|-0.020|0.5606
92209406|NCT03421431|184319245|SUPERIORITY||LS mean difference|0.023||||0.1002|TWO_SIDED|95.0|-0.004|0.05|||ANCOVA|||||0.050|-0.004|0.1002
92209407|NCT03421431|184319245|SUPERIORITY||LS mean difference|-0.014||||0.2002|TWO_SIDED|95.0|-0.036|0.008|||ANCOVA|||||0.008|-0.036|0.2002
92209408|NCT03421431|184319246|SUPERIORITY||LS mean difference|-178.787||||0.7014|TWO_SIDED|95.0|-1098.454|740.88|||ANCOVA|||||740.880|-1098.454|0.7014
92209409|NCT03421431|184319246|SUPERIORITY||LS mean difference|52.307||||0.907|TWO_SIDED|95.0|-830.934|935.547|||ANCOVA|||||935.547|-830.934|0.9070
92209410|NCT03421431|184319246|SUPERIORITY||LS mean difference|-231.094||||0.536|TWO_SIDED|95.0|-967.273|505.086|||ANCOVA|||||505.086|-967.273|0.5360
92369318|NCT03745638|184643544|SUPERIORITY||Least Squares Mean Difference|5.7|STANDARD_ERROR_OF_MEAN|1.66||0.0006|TWO_SIDED|95.0|2.45|8.96|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in EQ VAS score at Week 8||8.96|2.45|0.0006
92209411|NCT03421431|184319247|SUPERIORITY||LS mean difference|-753.153||||0.2985|TWO_SIDED|95.0|-2183.92|677.614|||ANCOVA|||||677.614|-2183.920|0.2985
92209412|NCT03421431|184319247|SUPERIORITY||LS mean difference|139.107||||0.8413|TWO_SIDED|95.0|-1236.689|1514.902|||ANCOVA|||||1514.902|-1236.689|0.8413
92209413|NCT03421431|184319247|SUPERIORITY||LS mean difference|-892.26||||0.1168|TWO_SIDED|95.0|-2011.705|227.186|||ANCOVA|||||227.186|-2011.705|0.1168
92209414|NCT03421431|184319248|SUPERIORITY||LS mean difference|33.491|||<|0.0001|TWO_SIDED|95.0|17.984|48.998|||ANCOVA|||||48.998|17.984|<0.0001
92209415|NCT03421431|184319248|SUPERIORITY||LS mean difference|30.814|||<|0.0001|TWO_SIDED|95.0|15.802|45.825|||ANCOVA|||||45.825|15.802|<0.0001
92209416|NCT03421431|184319248|SUPERIORITY||LS mean difference|2.677||||0.6757|TWO_SIDED|95.0|-9.946|15.3|||ANCOVA|||||15.300|-9.946|0.6757
92209417|NCT03421431|184319249|SUPERIORITY||LS mean difference|21.3||||0.0134|TWO_SIDED|95.0|4.533|38.067|||ANCOVA|||||38.067|4.533|0.0134
92209418|NCT03421431|184319249|SUPERIORITY||LS mean difference|5.847||||0.4686|TWO_SIDED|95.0|-10.116|21.811|||ANCOVA|||||21.811|-10.116|0.4686
92209419|NCT03421431|184319249|SUPERIORITY||LS mean difference|15.453||||0.0181|TWO_SIDED|95.0|2.699|28.206|||ANCOVA|||||28.206|2.699|0.0181
92209420|NCT03421431|184319250|SUPERIORITY||LS mean difference|4.324||||0.0557|TWO_SIDED|95.0|-0.108|8.756|||ANCOVA|||||8.756|-0.108|0.0557
92209421|NCT03421431|184319250|SUPERIORITY||LS mean difference|2.305||||0.2867|TWO_SIDED|95.0|-1.955|6.566|||ANCOVA|||||6.566|-1.955|0.2867
92209422|NCT03421431|184319250|SUPERIORITY||LS mean difference|2.019||||0.2437|TWO_SIDED|95.0|-1.39|5.429|||ANCOVA|||||5.429|-1.390|0.2437
92209423|NCT03421431|184319251|SUPERIORITY||LS mean difference|0.019||||0.9913|TWO_SIDED|95.0|-3.491|3.53|||ANCOVA|||||3.530|-3.491|0.9913
92209424|NCT03421431|184319251|SUPERIORITY||LS mean difference|0.995||||0.553|TWO_SIDED|95.0|-2.323|4.314|||ANCOVA|||||4.314|-2.323|0.5530
92209425|NCT03421431|184319251|SUPERIORITY||LS mean difference|-0.976||||0.4729|TWO_SIDED|95.0|-3.665|1.713|||ANCOVA|||||1.713|-3.665|0.4729
92209426|NCT02513303|184319261|SUPERIORITY|||||||0.2942|||||||Regression, Logistic|||||||0.2942
92209427|NCT01691768|184319262|NON_INFERIORITY|We estimated that we would need to enrol 700 women after taking into account the anticipated loss-to follow-up in order to provide 90% power to demonstrate whether gel use in women attending family planning (intervention) services is similar to, but no more than 20% lower than, gel use among women attending CAPRISA research clinics (control).|Mean Difference (Final Values)|-0.47|||||TWO_SIDED|95.0|-1.16|0.21||||Univariate Linear Mixed Models were used to analyze primary outcome.|The least square mean from the intervention arm was the minuend and the least square mean from the control arm was the subtrahend.|Intent to treat population (all participants who were randomized, met pre-randomization eligibility criteria and who have post-enrollment follow-up data) was used for this analyses.|The primary endpoint was compared using univariate linear mixed model with compound symmetry structure.|0.21|-1.16|
92271655|NCT03958071|184444977|OTHER||Absolute standardized differences (ASD)|0.0241||||0.7395|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.7395
92334853|NCT00929994|184572754|OTHER||||||=|0.06||||||A Bonferroni correction for multiple testing was used for post hoc contrasts. Assumption of sphericity was met for all analyses determined by the Mauchley test of sphericity (all \>.05).|ANOVA|||With 1 group and 3 test times, a repeated measures analysis of variance of 6MWD, was utilized between the 3 test times 0, 3, and 6 months). A Bonferroni correction for multiple testing was used for post hoc contrasts.||||=0.06
92334854|NCT00929994|184572754|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
92334855|NCT00929994|184572755|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92146587|NCT01345630|184177848|NON_INFERIORITY_OR_EQUIVALENCE|For the analysis of the primary endpoint conducted at Week 48, the alternative hypothesis was to test for non-inferiority of MVC+DRV/r to FTC/TDF+DRV/r with a non-inferiority margin of -10%.|Mean Difference (Final Values)|-9.54|||||TWO_SIDED|95.0|-14.83|-4.24||||||The difference in the percentages between the maraviroc and the emtricitabine/tenofovir treatment arms and the 2-sided 95% confidence interval for the difference was provided using the stratum-adjusted Mantel-Haenszel (MH) method over the two assays and the screening plasma HIV-1 RNA levels (\>=100,000 copies/mL or \<100,000 copies/mL). The sample size was chosen to yield a power of ≥90%. The 95% CIs and mean difference (final values) are presented as percentages above.||-4.24|-14.83|
92146588|NCT01345630|184177856|SUPERIORITY_OR_OTHER||Treatment difference|-0.075|STANDARD_ERROR_OF_MEAN|0.0303|||TWO_SIDED|95.0|-0.1343|-0.0157||||||The difference in proportions of patients with plasma HIV-1 RNA \<50 copies/mL at Week 48 between the \[MVC+DRV/r\] and the \[FTC/TDF+DRV/r\] treatment arms, with two-sided 95% confidence interval, is shown for those patients who were R5 by genotype (including all who were originally randomized to ESTA and were R5 by genotype upon retesting), via the maximum likelihood (ML) method.||-0.0157|-0.1343|
92209428|NCT01691768|184319262|NON_INFERIORITY|We estimated that we would need to enrol 700 women after taking into account the anticipated loss-to follow-up in order to provide 90% power to demonstrate whether gel use in women attending family planning (intervention) services is similar to, but no more than 20% lower than, gel use among women attending CAPRISA research clinics (control)|Median Difference (Final Values)|-0.25|||||TWO_SIDED|95.0|-0.98|0.48||||Univariable Linear Mixed Models was used for the analyses|We calculated the difference in means between the two arms. The mean from the intervention arm was the minuend and the mean from the control arm was the subtrahend.|This is the analyses from the per protocol population (excluding all subsequent data collected from participants who were not dispensed product for more than 120 days).||0.48|-0.98|
92209429|NCT01691768|184319263|SUPERIORITY||Incidence rate ratio|0.96||||0.928|TWO_SIDED|95.0|0.4|2.35|||z-test|We used z-test to compare incidence rates between the arms. We did not use log-rank test because we did not present survival curves.|We calculated incidence rate ratio, where the HIV incidence rate for the intervention arm represents the numerator and the HIV incidence rate for the control arm represents the denominator.|The power was not calculated for all the secondary outcomes.||2.35|0.40|0.928
92209430|NCT01691768|184319264|SUPERIORITY||incidence rate ratio|0.96||||0.895|TWO_SIDED|95.0|0.45|2.04|||z-test|We used z-test to compare pregnancy incidence rates between the arms. We did not use log-rank test because we did not present survival curves.|We calculated incidence rate ratio, where the pregnancy incidence rate for the intervention arm represents the numerator and the pregnancy incidence rate for the control arm represents the denominator.|Power was not calculated for all the secondary outcomes.||2.04|0.45|0.895
92209431|NCT01691768|184319265|SUPERIORITY||Risk Ratio (RR)|1.08||||0.304|TWO_SIDED|95.0|0.94|1.24|||Regression, Log-binomial|||Power was not calculated for all secondary outcomes.||1.24|0.94|0.304
92209432|NCT01691768|184319266|SUPERIORITY|||||||0.455|||||||t-test, 2 sided|||||||0.455
92209433|NCT01691768|184319268|SUPERIORITY||incidence rate ratio|0.33||||0.097|TWO_SIDED|95.0|0.06|1.32|||z-test||We calculated incidence rate ratio, where the HPV incidence rate for the intervention arm represents the numerator and the HPV incidence rate for the control arm represents the denominator.|||1.32|0.06|0.097
92209434|NCT01691768|184319269|SUPERIORITY||Risk Ratio (RR)|0.91||||0.462|TWO_SIDED|95.0|0.7|1.18|||Regression, Log-binomial|||||1.18|0.70|0.462
92209435|NCT01809002|184319284|NON_INFERIORITY|The primary endpoint tested non-inferiority as compared to collagen nerve cuff and superior to no treatment. Non-inferiority is defined as the lower limit of the 95% CI about the difference of \> -2 and the upper limit of the 95% CI for s2PD for Avance of \< 13 in ITT table.|Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-1.087|1.574|||ANCOVA|||The analysis was performed using a pre-defined standard statistical analysis with a non-response/failure assigned a worst-case scenario value of 16mm.||1.574|-1.087|
92209436|NCT01809002|184319285|SUPERIORITY|||||||0.035|||||||Wilcoxon (Mann-Whitney)|||||||0.035
92334856|NCT00929994|184572756|SUPERIORITY|||||||0.04||||||A Bonferroni correction for multiple testing was used for post-hoc contrasts.|ANOVA|||With 1 group and 3 test times, a repeated measures analysis of variance with pairwise comparisons of CES-D was utilized between the 3 test times baseline, 3 and 6 months.||||0.04
92396011|NCT03270436|184689226|SUPERIORITY|||||||0.3599||||||The p-value above reflects results of between-arms analysis of change in mean weight from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.3599
92209437|NCT01809002|184319285|SUPERIORITY|||||||0.365|||||||Wilcoxon (Mann-Whitney)|||||||0.365
92209438|NCT01809002|184319286|SUPERIORITY|||||||0.915||||||The number and percentage of all treated subjects who recovered s2PD in the target repair at Month 12 (i.e., s2PD of 2 - 15 mm) were summarized by repair type. Differences between the repair types were assessed using a logistic regression analysis.|Regression, Logistic|||Responders were defined as subjects achieving s2PD of 2-15 mm on the target nerve repair.||||0.915
92209439|NCT01809002|184319287|SUPERIORITY||LS Means difference|-2.84|||||TWO_SIDED|95.0|-11.6316|5.9541||Pre-injury baseline was defined as s2PD in the contralateral digit associated with the target digit.|ANCOVA|This analysis was assessed in the ITT population, at Month 12 using the LS Mean differences from a repeated measures ANCOVA model.||||5.9541|-11.6316|
92209440|NCT01809002|184319288|SUPERIORITY|||||||0.792|||||||Kaplan-Meier median and 95% CI|Differences between the repair types were assessed with a KM log-rank test that was appropriate for the handing of interval-censored data.||||||0.792
92209441|NCT01809002|184319289|SUPERIORITY|||||||0.526|||||||Wilcoxon (Mann-Whitney)|This analysis was completed to detect a distribution shift of the MRCC score between repairs with PNA and repairs with nerve cuff at Month 12.||||||0.526
92209442|NCT01809002|184319290|OTHER||Mean Difference (Final Values)|-24.09|||||TWO_SIDED|||||||||"This analysis compares the change in 12 Month Pain VAS scores from Baseline. Missing or incomplete data was extrapolated using a pre-defined repeated measures modeling approach for calculations in this analysis.~This analysis assesses each treatment group for clinically meaningful improvement in VAS from Baseline assuming a Meaningful Clinically Important Difference delta of 20 points (mm)."||||
92209443|NCT01809002|184319292|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
92209444|NCT01809002|184319293|SUPERIORITY|||||||0.037|||||||Wilcoxon (Mann-Whitney)|This analysis was completed utilizing a one-sided Wilcoxon Rank Sum test.||||||0.037
92209445|NCT01809002|184319294|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|One-sided Wilcoxon Rank Sum test was utilized for this analysis.||||||0.021
92209446|NCT00679627|184319317|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
92209447|NCT00679627|184319318|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.011|TWO_SIDED|95.0|0.37|0.89|||Regression, Cox|||||0.89|0.37|0.011
92209448|NCT00679627|184319319|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
92209449|NCT00679627|184319320|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANCOVA|||||||0.002
92209450|NCT00679627|184319323|SUPERIORITY_OR_OTHER|||||||0.269||||||Baseline|Cochran-Mantel-Haenszel|||||||0.269
92209451|NCT00679627|184319323|SUPERIORITY_OR_OTHER|||||||0.835||||||Month 24|Cochran-Mantel-Haenszel|||||||0.835
92209452|NCT00679627|184319324|SUPERIORITY_OR_OTHER|||||||0.194||||||Orientation subscale|ANCOVA|||||||0.194
92209453|NCT00679627|184319324|SUPERIORITY_OR_OTHER|||||||0.353||||||Registration subscale|ANCOVA|||||||0.353
92209454|NCT00679627|184319324|SUPERIORITY_OR_OTHER|||||||0.009||||||Attention and Calculation subscale|ANCOVA|||||||0.009
92209455|NCT00679627|184319324|SUPERIORITY_OR_OTHER|||||||0.158||||||Recall subscale|ANCOVA|||||||0.158
92334857|NCT00929994|184572757|SUPERIORITY||||||>|0.05||||||A Bonferroni correction for multiple testing was used for post-hoc contrasts|ANOVA|||With 1 group and 3 test times, a repeated measures analysis of variance with pairwise comparisons of MoCA was utilized between the 3 test times (-3, 0 and 6 months). A Bonferroni correction for multiple testing was used for post-hoc contrasts.||||>0.05
92209456|NCT00679627|184319324|SUPERIORITY_OR_OTHER|||||||0.088||||||Language subscale|ANCOVA|||||||0.088
92334858|NCT03258645|184572759|OTHER||||||<|0.001|||||||Regression, Linear|||Univariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of National Institute of Health Stroke Scale (NIHSS) score at index date was applied.||||< 0.001
92146589|NCT01345630|184177861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.975|TWO_SIDED|95.0|-24.4|23.6|||ANCOVA|||Results were from an ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: Treatment group, Screening plasma HIV RNA concentration, Screening Tropism Assay, Baseline value of the response variable.||23.6|-24.4|0.9750
92209457|NCT00679627|184319325|SUPERIORITY_OR_OTHER|||||||0.01||||||Initiation subscale|ANCOVA|||||||0.010
92209458|NCT00679627|184319325|SUPERIORITY_OR_OTHER|||||||0.043||||||Planning and Organization subscale|ANCOVA|||||||0.043
92209459|NCT00679627|184319325|SUPERIORITY_OR_OTHER|||||||0.018||||||Effective Performance subscale|ANCOVA|||||||0.018
92209460|NCT00679627|184319325|SUPERIORITY_OR_OTHER|||||||0.005||||||Basic subscale|ANCOVA|||||||0.005
92209461|NCT00679627|184319325|SUPERIORITY_OR_OTHER|||||||0.054||||||Instrumental subscale|ANCOVA|||||||0.054
92209462|NCT00679627|184319325|SUPERIORITY_OR_OTHER|||||||0.137||||||Leisure subscale|ANCOVA|||||||0.137
92227019|NCT03048422|184356063|SUPERIORITY||Mean Difference (Final Values)|0.046|||<|0.001|TWO_SIDED|95.0|0.022|0.07|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - EFV/FTC/TDF).||0.070|0.022|< 0.001
92227020|NCT03048422|184356064|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.041|TWO_SIDED|95.0|0.001|0.045|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - DTG+FTC/TDF).||0.045|0.001|0.041
92146590|NCT01345630|184177862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.1|-1.5|||ANCOVA|||Results were from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: Treatment group, Screening plasma HIV RNA concentration, Screening Tropism Assay, Baseline value of the response variable.||-1.5|-3.1|<0.0001
92209463|NCT02382016|184319347|SUPERIORITY||ratio of geometric means|0.65||||0.0001|TWO_SIDED|95.0|0.59|0.72|||ANCOVA|ANCOVA model adjusted by treatment, background PAH-specific therapy at baseline and region as factors \& log-transformed PVR at baseline as a covariate||The null hypothesis (change of PVR at Week 12 as a ratio of baseline PVR in subjects treated with placebo or macitentan is the same) is tested on the primary endpoint by means of an analysis of covariance (ANCOVA) model on the log(e) transformed ratio of PVR at Week 12 to baseline PVR.||0.72|0.59|0.0001
92334859|NCT03258645|184572760|OTHER|||||||0.01|||||||Regression, Linear|||Univariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of Modified Rankin Scale (mRS) at index date was applied.||||0.01
92369319|NCT03745638|184643545|SUPERIORITY||Least Squares Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|3.34||0.1417|TWO_SIDED|95.0|-11.49|1.65|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent work time missed due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||1.65|-11.49|0.1417
92146591|NCT01345630|184177863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|127.7|||<|0.0001|TWO_SIDED|95.0|76.5|178.8|||ANCOVA|||Results were from ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: Treatment group, Screening plasma HIV RNA concentration, Screening Tropism Assay, Baseline value of the response variable.||178.8|76.5|<0.0001
92271656|NCT03958071|184444977|OTHER||Absolute standardized differences (ASD)|0.1644||||0.0017|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.0017
92369320|NCT03745638|184643545|SUPERIORITY||Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|3.29||0.6037|TWO_SIDED|95.0|-8.19|4.77|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent work time missed due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||4.77|-8.19|0.6037
92209464|NCT02382016|184319348|SUPERIORITY||Least squares (LS) mean difference|9.73||||0.4264|TWO_SIDED|95.0|-14.5|33.95||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|mixed-effect model repeated measure||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in 6MWD (LS mean difference macitentan 10 mg - placebo).|The main analysis on 6MWD was performed using a mixed-effect model repeated measure (MMRM) adjusted for treatment, visit, region, PAH-specific therapy at baseline, and treatment-by-visit interaction as factors, and baseline 6MWD and WHO functional class (FC) as covariates.||33.95|-14.50|0.4264
92209465|NCT02382016|184319349|SUPERIORITY||Odds Ratio (OR)|6.253||||0.1278|TWO_SIDED|95.0|0.714|298.376||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|Regression, Logistic|||A logistic regression model (exact) adjusted for treatment, PAH-specific therapy at baseline, and region as covariates was used to analyze worsening in WHO FC.||298.376|0.714|0.1278
92209466|NCT02382016|184319350|SUPERIORITY||ratio of geometric means|0.874||||0.3951|TWO_SIDED|95.0|0.639|1.196||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA|||||1.196|0.639|0.3951
92209467|NCT02382016|184319351|SUPERIORITY||Least squares (LS) mean difference|1.67||||0.0637|TWO_SIDED|95.0|-0.1|3.44||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in mRAP (LS mean difference macitentan 10 mg - placebo).|||3.44|-0.10|0.0637
92209468|NCT02382016|184319352|SUPERIORITY||Least squares (LS) mean difference|-5.99||||0.0001|TWO_SIDED|95.0|-8.4|-3.57||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in mPAP (LS mean difference macitentan 10 mg - placebo).|||-3.57|-8.40|0.0001
92209469|NCT02382016|184319353|SUPERIORITY||Least squares (LS) mean difference|0.52||||0.0009|TWO_SIDED|95.0|0.22|0.81||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in cardiac index (LS mean difference macitentan 10 mg - placebo).|||0.81|0.22|0.0009
92209470|NCT02382016|184319354|SUPERIORITY||Least squares (LS) mean difference|-171.48||||0.0001|TWO_SIDED|95.0|-223.67|-119.3||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in TPR (LS mean difference macitentan 10 mg - placebo).|||-119.30|-223.67|0.0001
92209471|NCT02382016|184319355|SUPERIORITY||Least squares (LS) mean difference|0.03||||0.9844|TWO_SIDED|95.0|-2.85|2.91||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in SVO2 (LS mean difference macitentan 10 mg - placebo).|||2.91|-2.85|0.9844
92209472|NCT04363801|184319370|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.9676|TWO_SIDED|95.0|0.98|2.05|||Log Rank|||||2.05|0.98|0.9676
92209473|NCT04363801|184319387|SUPERIORITY||Risk Difference (RD)|2.4||||0.3799|TWO_SIDED|95.0|-12.2|16.9|||Cochran-Mantel-Haenszel|||||16.9|-12.2|0.3799
92209474|NCT04363801|184319390|SUPERIORITY|||||||0.8679|||||||Log Rank|Stratified Log-rank Test||||||0.8679
92209475|NCT04363801|184319390|SUPERIORITY|||||||0.9676|||||||Log Rank|Stratified Log-rank Test||||||0.9676
92209476|NCT04363801|184319390|SUPERIORITY||Hazard Ratio (HR)|1.5|||||TWO_SIDED|95.0|0.74|3.05||||||||3.05|0.74|
92209477|NCT04363801|184319390|SUPERIORITY||Hazard Ratio (HR)|1.42|||||TWO_SIDED|95.0|0.98|2.05||||||||2.05|0.98|
92209478|NCT04363801|184319391|SUPERIORITY||Risk Difference (RD)|8.4||||0.2649|TWO_SIDED|95.0|-18.4|33.6|||Mantel Haenszel||Common Risk Difference and 95% CI: estimated by stratified Newcombe method, weighted by minimum risk|||33.6|-18.4|0.2649
92209479|NCT04363801|184319391|SUPERIORITY||Risk Difference (RD)|2.4||||0.379|TWO_SIDED|95.0|-12.2|16.9|||Mantel Haenszel|||||16.9|-12.2|0.379
92209480|NCT01776424|184319400|SUPERIORITY||Hazard Ratio (HR)|0.76||||4e-05|TWO_SIDED|95.0|0.66|0.86||Independent DSMB recommended to stop rivaroxaban/aspirin arms on 06FEB2017. At first interim analysis(\~50% events) the log-rank test statistic for one primary comparison had crossed the modified Haybittle-Peto boundary(z=4) consistently over 3 months|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||0.86|0.66|0.00004
92209481|NCT01776424|184319400|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.1149|TWO_SIDED|95.0|0.79|1.03|||Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||1.03|0.79|0.11490
92209482|NCT01776424|184319401|SUPERIORITY||Hazard Ratio (HR)|1.7|||<|1e-05|TWO_SIDED|95.0|1.4|2.05|||Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||2.05|1.40|<0.00001
92209483|NCT01776424|184319401|SUPERIORITY||Hazard Ratio (HR)|1.51||||3e-05|TWO_SIDED|95.0|1.25|1.84|||Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||1.84|1.25|0.00003
92209484|NCT01776424|184319402|SUPERIORITY||Hazard Ratio (HR)|0.72||||1e-05|TWO_SIDED|95.0|0.63|0.83||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||0.83|0.63|0.00001
92209485|NCT01776424|184319402|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.06437|TWO_SIDED|95.0|0.77|1.01||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||1.01|0.77|0.06437
92209486|NCT01776424|184319403|SUPERIORITY||Hazard Ratio (HR)|0.74||||1e-05|TWO_SIDED|95.0|0.65|0.85||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||0.85|0.65|0.00001
92209487|NCT01776424|184319403|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.03995||95.0|0.77|0.99||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||0.99|0.77|0.03995
92209488|NCT01776424|184319404|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.01062|TWO_SIDED|95.0|0.71|0.96||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||0.96|0.71|0.01062
92209489|NCT01776424|184319404|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.66418|TWO_SIDED|95.0|0.84|1.12||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||1.12|0.84|0.66418
92209490|NCT00819390|184319412|SUPERIORITY_OR_OTHER|||||||0.428||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05.|Wilcoxon (Mann-Whitney)|No other adjustments||Null hypothesis: There is no difference between the two arms/groups with respect to change in percent CD8 HLA-DR+/CD38+ from baseline to week 12.||||0.428
92209491|NCT00819390|184319412|SUPERIORITY_OR_OTHER|||||||0.247||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05.|Wilcoxon (Mann-Whitney)|No other adjustments.||Null hypothesis: There is no difference between the two arms/groups with respect to change in percent CD8 HLA-DR+/CD38+ from baseline to week 12.||||0.247
92209492|NCT02294227|184319441|SUPERIORITY||Odds Ratio (OR)|3.07||||0.0002|TWO_SIDED|95.0|1.66|5.66|||Chi-squared|||||5.66|1.66|0.0002
92209493|NCT02294227|184319441|SUPERIORITY||Odds Ratio (OR)|3.24||||0.0003|TWO_SIDED|95.0|1.76|5.97|||Chi-squared, Corrected|||||5.97|1.76|0.0003
92209494|NCT00887432|184319447|SUPERIORITY||Mean Difference (Net)|0.24||||0.431|TWO_SIDED|95.0|-0.36|0.84||Significance level of 0.05.|t-test, 2 sided|Paired t-test, df=86||Evaluated the change in PSA under the vitamin D and placebo conditions using the combined data (n=87).||0.84|-0.36|0.431
92209495|NCT00887432|184319448|SUPERIORITY|Comparing the mean PSA slopes between conditions (on vitamin D versus on placebo).|Mean Difference (Net)|-0.00019||||0.112|TWO_SIDED|95.0|-0.00042|0.000045||Significance level of 0.05.|Mixed Models Analysis|||||0.000045|-0.00042|0.112
92209496|NCT00899548|184319450|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.0002|TWO_SIDED|95.0|1.23|2.52|||Gehan|Distributions compared between using the Gehan test, which gives more weight to early differences.||||2.52|1.23|.0002
92209497|NCT00899548|184319451|OTHER||Cox Proportional Hazard|1.19||||0.001|TWO_SIDED|95.0|1.07|1.32|||Regression, Cox|||Hazard ratio||1.32|1.07|0.001
92209498|NCT00899548|184319454|SUPERIORITY||Hazard Ratio (HR)|1.7||||0.001|TWO_SIDED|95.0|1.18|2.45|||Gehan|Distributions compared between using the Gehan test, which gives more weight to early differences.||||2.45|1.18|.001
92405525|NCT04684836|184701271|SUPERIORITY||Mean Difference (Net)|-0.0014||||0.3261|TWO_SIDED|||||This is an adjusted model, which included only an indicator for high telemedicine practice, post-period, and its two-way interaction.|Regression, Linear|||Difference-in-differences model||||0.3261
92405526|NCT04684836|184701271|SUPERIORITY||Mean Difference (Net)|0.0806|||<|0.01|TWO_SIDED|||||This is a fully adjusted regression model, which controlled for patient age group, gender, dual status, race, average percent of 65+ patients, risk score category, rural vs urban, and zip-code level characteristics.|Regression, Linear|||Difference-in-differences model||||<0.01
92209499|NCT01275131|184319467|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|13.95||||0.0009|TWO_SIDED|90.0|7.37|20.54|||Mixed Models Analysis|A mixed model with fixed effects for treatment, day, and interaction of treatment with day was performed using a compound symmetric covariance matrix.||Comparison at Stage 1, Day 2/6||20.54|7.37|0.0009
92209500|NCT01275131|184319467|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|18.14|||<|0.0001|TWO_SIDED|90.0|11.55|24.72|||Mixed Models Analysis|A mixed model with fixed effects for treatment, day, and interaction of treatment with day was performed using a compound symmetric covariance matrix.||Comparison at Stage 1, Day 4/8||24.72|11.55|<0.0001
92209501|NCT01275131|184319469|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|16.41|||<|0.0001|TWO_SIDED|90.0|11.86|20.97|||Mixed Models Analysis|Mixed model with fixed effects for treatment, day, and interaction of treatment with day. A compound symmetric covariance matrix was assumed.||Comparison at Stage 3, Day 2/7||20.97|11.86|<0.0001
92209502|NCT01275131|184319469|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|14.1|||<|0.0001|TWO_SIDED|90.0|9.55|18.65|||Mixed Models Analysis|Mixed model with fixed effects for treatment, day, and interaction of treatment with day. A compound symmetric covariance matrix was assumed.||Comparison at Stage 3, Day 3/8||18.65|9.55|<0.0001
92209503|NCT01275131|184319469|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.32||||0.0552|TWO_SIDED|90.0|0.77|9.88|||Mixed Models Analysis|Mixed model with fixed effects for treatment, day, and interaction of treatment with day. A compound symmetric covariance matrix was assumed.||Comparison at Stage 3, Day 5/10||9.88|0.77|0.0552
92209504|NCT00953745|184319526|SUPERIORITY_OR_OTHER|||||||0.029||||||paired t-test thresholded at cluster level significance of p=0.001; family-wise error multiple comparisons corrected|t-test, 1 sided|||A region of increased relative Fluorodopa (FDOPA) uptake in the right medial caudate was anticipated for the aripiprazole augmentation responders over the 6 weeks of augmentation treatment (Weeks 10-16).||||0.029
92209505|NCT00953745|184319527|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92209506|NCT00953745|184319527|SUPERIORITY_OR_OTHER|||||||0.366|||||||t-test, 2 sided|||||||0.366
92209507|NCT00903682|184319553|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||The hypothesis is that the proportion of patients with at least 1 treatment-emergent Grade 1-4 neuropsychiatric adverse event, observed between Baseline through Week 12 and judged to be at least possibly drug-related, is significantly lower in the ETR arm than in the EFV arm. Assuming a significance level of 5%, a sample size of 75 subjects per arm would provide over 90% power to detect a 29% difference in treatment-emergent, drug-related Grade 1-4 neuropsychiatric adverse events.||||<0.001
92209508|NCT00903682|184319554|SUPERIORITY_OR_OTHER||Difference in proportion of response|1.61|||||TWO_SIDED|95.0|-12.0|15.23|||||Difference in proportion of response ETR minus EFV|||15.23|-12.00|
92209509|NCT03110185|184319568|OTHER|Correlation||||||0.0761||||||Delirium Incidence. There were no multiple comparisons, but includes age as a regressor. a priori threshold was p \< 0.05.|Regression, Logistic|Generalized logistic regression for delirium incidence and total DMN fc with age as a regressor.||||||0.0761
92209510|NCT00600886|184319569|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.942||||0.007|TWO_SIDED|95.0|1.19|3.168|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel adjusting for randomization stratification factor||Overall - All patients||3.168|1.190|0.007
92334860|NCT03258645|184572761|OTHER|CHA2DS2-VASc is the Congestive heart failure, Hypertension, Age (\> 75), Diabetes mellitus, Stroke/TIA, Vascular disease, Age 65-74, Sex Category score. HAS-BLED is the Hypertension, Abnormal renal and liver function, Stroke (1 point), Bleeding history or predisposition, Labile INR, Elderly (\>65 years), Drugs and Alcohol Score.|Odds Ratio (OR)|1.13||||0.016|TWO_SIDED|95.0|1.02|1.25|||Regression, Linear|Relation between age and dabigatran initiation time was reported.||Multivariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of age, Diastolic blood pressure (DBP), CHA2DS2-VASc, HAS-BLED, and History/Predisposition To Bleeding at index date was applied.||1.25|1.02|0.016
92168515|NCT05057897|184226814|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|GMT Ratio|0.56|||||TWO_SIDED|95.0|0.25|1.25|||||The GMT ratio was calculated as the ratio of the titer levels in the immunocompromised cohort to the immunocompetent cohort.|Day 85 Immunocompromised / Day 211 Immunocompetent (28 days post Dose 3)||1.25|0.25|
92209511|NCT00600886|184319569|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.337|||||TWO_SIDED|95.0|1.14|4.79||||||Post surgery - patients with prior surgery but no previous medical treatment for acromegaly||4.790|1.140|
92209512|NCT00600886|184319569|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.654|||||TWO_SIDED|95.0|0.846|3.234||||||De novo - patients with de novo disease who refused pituitary surgery or for whom pituitary surgery was contraindicated.||3.234|0.846|
92334861|NCT03258645|184572762|OTHER|CHA2DS2-VASc is the Congestive heart failure, Hypertension, Age (\> 75), Diabetes mellitus, Stroke/TIA, Vascular disease, Age 65-74, Sex Category score. HAS-BLED is the Hypertension, Abnormal renal and liver function, Stroke (1 point), Bleeding history or predisposition, Labile INR, Elderly (\>65 years), Drugs and Alcohol Score.|Odds Ratio (OR)|1.12||||0.002|TWO_SIDED|95.0|1.04|1.21|||Regression, Linear|Relation between Diastolic blood pressure (DBP) and dabigatran initiation time was reported.||Multivariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of age, Diastolic blood pressure (DBP), CHA2DS2-VASc, HAS-BLED, and History/Predisposition To Bleeding at index date was applied.||1.21|1.04|0.002
92209513|NCT03075410|184319625|OTHER||Ratio|1.07|||||TWO_SIDED|90.0|0.87|1.34|||||Mixed Effect Model has been used to assess Food Effect for the log transformed parameter AUC(0-t). Treatment in the fed/fasted state is fitted as Fixed Effect. Participant is fitted as Random Effect. Variance Components covariance structure is used.|||1.34|0.87|
92209514|NCT03075410|184319626|OTHER||Ratio|0.94|||||TWO_SIDED|90.0|0.71|1.26|||||Mixed Effect Model has been used to assess Food Effect for the log transformed parameter AUC(0-inf). Treatment in the fed/fasted state is fitted as Fixed Effect. Participant is fitted as Random Effect. Variance Components covariance structure is use|||1.26|0.71|
92334862|NCT03258645|184572763|OTHER|CHA2DS2-VASc is the Congestive heart failure, Hypertension, Age (\> 75), Diabetes mellitus, Stroke/TIA, Vascular disease, Age 65-74, Sex Category score. HAS-BLED is the Hypertension, Abnormal renal and liver function, Stroke (1 point), Bleeding history or predisposition, Labile INR, Elderly (\>65 years), Drugs and Alcohol Score.|Odds Ratio (OR)|1.1||||0.04|TWO_SIDED|95.0|1.0|1.21|||Regression, Linear|Relation between CHA2DS2-VASc and dabigatran initiation time was reported.||Multivariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of age, Diastolic blood pressure (DBP), CHA2DS2-VASc, HAS-BLED, and History/Predisposition To Bleeding at index date was applied.||1.21|1.00|0.04
92334863|NCT03258645|184572764|OTHER|CHA2DS2-VASc is the Congestive heart failure, Hypertension, Age (\> 75), Diabetes mellitus, Stroke/TIA, Vascular disease, Age 65-74, Sex Category score. HAS-BLED is the Hypertension, Abnormal renal and liver function, Stroke (1 point), Bleeding history or predisposition, Labile INR, Elderly (\>65 years), Drugs and Alcohol Score.|Odds Ratio (OR)|0.9||||0.051|TWO_SIDED|95.0|0.45|1.0|||Regression, Linear|Relation between HAS-BLED and dabigatran initiation time was reported.||Multivariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of age, Diastolic blood pressure (DBP), CHA2DS2-VASc, HAS-BLED, and History/Predisposition To Bleeding at index date was applied.||1.00|0.45|0.051
92334864|NCT03258645|184572765|OTHER|CHA2DS2-VASc is the Congestive heart failure, Hypertension, Age (\> 75), Diabetes mellitus, Stroke/TIA, Vascular disease, Age 65-74, Sex Category score. HAS-BLED is the Hypertension, Abnormal renal and liver function, Stroke (1 point), Bleeding history or predisposition, Labile INR, Elderly (\>65 years), Drugs and Alcohol Score.|Odds Ratio (OR)|0.91||||0.026|TWO_SIDED|95.0|0.9|0.93|||Regression, Linear|Relation between History/Predisposition To Bleeding and dabigatran initiation time was reported.||Multivariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of age, Diastolic blood pressure (DBP), CHA2DS2-VASc, HAS-BLED, and History/Predisposition To Bleeding at index date was applied.||0.93|0.9|0.026
92334865|NCT01704755|184572806|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response for the ABT-450/r/ABT-333 plus ribavirin 12-week treatment group as compared with the historical rate for telaprevir plus peginterferon-ribavirin. The lower confidence bound of the 2-sided 97.5% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must have exceeded 43% to achieve noninferiority.|Percentage of Participants|91.8|||||TWO_SIDED|97.5|87.6|96.1||||||The study planned to enroll 380 subjects to a 12- or 24-week treatment arm. The primary efficacy endpoint (SVR12) was assessed for each arm. With a total sample size of 380 and assuming that 68% of the subjects in each arm would achieve SVR12, the study had greater than 90% power to demonstrate non-inferiority and superiority with a 2-sided 97.5% lower confidence bound greater than 43% and 54%, respectively, based on the normal approximation of a single binomial proportion.||96.1|87.6|
92369321|NCT03745638|184643545|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|2.99||0.0003|TWO_SIDED|95.0|-16.89|-5.12|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent impairment while working due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-5.12|-16.89|0.0003
92209515|NCT03075410|184319627|OTHER||Ratio|0.97|||||TWO_SIDED|90.0|0.76|1.23|||||Mixed Effect Model has been used to assess Food Effect for the log transformed parameter Cmax. Treatment in the fed/fasted state is fitted as Fixed Effect. Participant is fitted as Random Effect. Variance Components covariance structure is used.|||1.23|0.76|
92146592|NCT01345630|184177864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|||<|0.0001|TWO_SIDED|95.0|1.1|3.1|||ANCOVA|||Results were from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: Treatment group, Screening plasma HIV RNA concentration, Screening Tropism Assay, Baseline value of the response variable.||3.1|1.1|<0.0001
92209516|NCT03075410|184319628|OTHER||Ratio|0.89|||||TWO_SIDED|90.0|0.64|1.23|||||Fixed Effect Model has been used to assess Food Effect for the log transformed parameter t1/2 Treatment in the fed/fasted state is fitted as Fixed Effect.|||1.23|0.64|
92334866|NCT01704755|184572806|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The superiority of the rate of sustained virologic response for the ABT-450/r/ABT-333 plus ribavirin 12-week treatment group as compared with the historical rate for telaprevir plus peginterferon-ribavirin. The lower confidence bound of the 2-sided 97.5% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must have exceeded 54% to achieve superiority.|Percentage of Participants|91.8|||||TWO_SIDED|97.5|87.6|96.1||||||The primary efficacy endpoints were the SVR12 rates in each arm. The overall 2-sided significance level of 0.05 was split between the arms using a Bonferroni correction of 0.025. A 2-sided 97.5% CI of the SVR12 rate per arm was computed using the normal approximation to the binomial distribution. A gatekeeping testing procedure was used to control the Type I error rate at 0.05, and the primary endpoints for Arm A were tested separately from Arm B in a pre-specified order.||96.1|87.6|
92369322|NCT03745638|184643545|SUPERIORITY||Least Squares Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|2.93|<|0.0001|TWO_SIDED|95.0|-17.98|-6.47|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent impairment while working due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-6.47|-17.98|<0.0001
92146593|NCT01345630|184177865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|||<|0.0001|TWO_SIDED|95.0|-0.15|-0.07|||ANCOVA|||Results are from an ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: Treatment group, Screening plasma HIV RNA concentration, Screening Tropism Assay, Baseline value of the response variable.||-0.07|-0.15|<0.0001
92209517|NCT03075410|184319629|OTHER||Median Difference (Final Values)|0.75|||||TWO_SIDED|90.0|-0.5|2.5|||||Hodges-Lehmann estimation is used to calculate the 90% confidence interval.|||2.50|-0.50|
92209518|NCT03075410|184319633|OTHER||Slope|1.1|||||TWO_SIDED|90.0|1.09|1.1|||||Mixed Effect Model has been used to assess Steady State. Day is fitted as a Fixed Effect. Participant is fitted as Random Effect Variance Components covariance structure is used.|Repeat GSK3036656 5mg Day 1-14||1.10|1.09|
92209519|NCT03075410|184319633|OTHER||Slope|1.08|||||TWO_SIDED|90.0|1.07|1.08|||||Mixed Effect Model has been used to assess Steady State. Day is fitted as a Fixed Effect. Participant is fitted as Random Effect Variance Components covariance structure is used.|Repeat GSK3036656 15mg Day 1-14||1.08|1.07|
92334867|NCT01704755|184572806|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response for the ABT-450/r/ABT-333 plus ribavirin 24-week treatment group as compared with the historical rate for telaprevir plus peginterferon-ribavirin. The lower confidence bound of the 2-sided 97.5% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must have exceeded 43% to achieve noninferiority.|Percentage of Participants|96.5|||||TWO_SIDED|97.5|93.4|99.7||||||||99.7|93.4|
92334868|NCT01704755|184572806|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The superiority of the rate of sustained virologic response for the ABT-450/r/ABT-333 plus ribavirin 24-week treatment group as compared with the historical rate for telaprevir plus peginterferon-ribavirin. The lower confidence bound of the 2-sided 97.5% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must have exceeded 54% to achieve superiority.|Percentage of Participants|96.5|||||TWO_SIDED|97.5|93.4|99.7||||||||99.7|93.4|
92146594|NCT01345630|184177866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|75.861||||0.8379|TWO_SIDED|95.0|-658.181|809.903|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||809.903|-658.181|0.8379
92209520|NCT03075410|184319634|OTHER||Slope|0.96|||||TWO_SIDED|90.0|0.82|1.1|||||A slope of 1 indicates the pharmacokinetics are dose proportional. A slope greater than 1 indicates the increase in PK is greater than proportional to dose.||Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect and Participant is fitted as Random Effect. An Unstructured covariance structure is used.|1.10|0.82|
92396012|NCT03270436|184689226|SUPERIORITY|||||||0.3207||||||The p-value above reflects results of between-arms analysis of change in mean weight from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.3207
92146595|NCT01345630|184177867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031||||0.3376|TWO_SIDED|95.0|-0.033|0.094|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||0.094|-0.033|0.3376
92209521|NCT03075410|184319635|OTHER||Slope|1.32|||||TWO_SIDED|90.0|1.24|1.39|||||Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect and Participant is fitted as Random Effect. An Unstructured covariance structure is used.|||1.39|1.24|
92209522|NCT03075410|184319636|OTHER||Slope|0.96|||||TWO_SIDED|90.0|0.81|1.11|||||Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect and Participant is fitted as Random Effect. An Unstructured covariance structure is used.|||1.11|0.81|
92209523|NCT03075410|184319637|OTHER||Slope|1.24|||||TWO_SIDED|90.0|1.15|1.33|||||Day 1.Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect.|||1.33|1.15|
92209524|NCT03075410|184319637|OTHER||Slope|1.06|||||TWO_SIDED|90.0|0.9|1.22|||||Day 14. Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect.|||1.22|0.90|
92209525|NCT03075410|184319638|OTHER||Slope|1.19|||||TWO_SIDED|90.0|0.92|1.46|||||Day 1. Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect.|||1.46|0.92|
92209526|NCT03075410|184319638|OTHER||Slope|1.06|||||TWO_SIDED|90.0|0.89|1.22|||||Day 14. Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect.|||1.22|0.89|
92334869|NCT01704755|184572807|SUPERIORITY_OR_OTHER_LEGACY|||||||0.051|TWO_SIDED||||||Regression, Logistic|||To test the hypothesis that the percentages of participants who achieved sustained virologic response 12 weeks after treatment was different between the two treatment groups, the percentages were compared using a logistic regression model with treatment group, baseline log(subscript)10(subscript) HCV RNA level, HCV subgenotype (1a, non-1a), IL28B genotype (CC, non CC), and peginterferon-ribavirin treatment history (treatment-naïve or treatment-experienced) as predictors.||||0.051
92209527|NCT04546789|184319696|OTHER||Ratio of geometric least squares mean|1.25|||||TWO_SIDED|90.0|0.86|1.82||||||Mild Hepatic Impairment vs Normal Hepatic Function||1.82|0.86|
92334870|NCT01400906|184572810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|||||TWO_SIDED|95.0|-0.037|0.38|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.380|-0.037|
92405527|NCT04684836|184701272|SUPERIORITY||Mean Difference (Net)|-0.0217||||0.1101|TWO_SIDED|||||This is an adjusted unadjusted model, which included only an indicator for high telemedicine practice, post-period, and its two-way interaction.|Regression, Linear|||Difference-in-differences||||0.1101
92146596|NCT01345630|184177868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.014||||0.0043|TWO_SIDED|95.0|0.004|0.023|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||0.023|0.004|0.0043
92209528|NCT04546789|184319696|OTHER||Ratio of geometric least square mean|1.95|||||TWO_SIDED|90.0|1.6|2.38||||||Moderate hepatic impairment vs Normal hepatic impairment||2.38|1.60|
92209529|NCT04546789|184319697|OTHER||Ratio of geometric least square mean|1.24|||||TWO_SIDED|90.0|0.77|1.99||||||Mild Hepatic Impairment vs Normal Hepatic Function||1.99|0.77|
92405528|NCT04684836|184701272|SUPERIORITY||Mean Difference (Net)|0.5551||||0.4618|TWO_SIDED|||||This is a fully adjusted regression model, which controlled for patient age group, gender, dual status, race, average percent of 65+ patients, risk score category, rural vs urban, and zip-code level characteristics.|Regression, Linear|||Difference-in-differences||||0.4618
92209530|NCT04546789|184319697|OTHER||Ratio of geometric least square mean|1.85|||||TWO_SIDED|90.0|1.51|2.26||||||Moderate Hepatic Impairment vs Normal Hepatic Function||2.26|1.51|
92209531|NCT04546789|184319724|OTHER||Ratio of geometric least square mean|0.8|||||TWO_SIDED|90.0|0.55|1.17||||||Mild Hepatic Impairment vs Normal Hepatic Function||1.17|0.55|
92209532|NCT04546789|184319724|OTHER||Ratio of geometric least square mean|0.51|||||TWO_SIDED|90.0|0.42|0.63||||||Moderate Hepatic Impairment vs Normal Hepatic Function||0.63|0.42|
92209533|NCT04546789|184319727|OTHER||Ratio of geometric least square mean|1.44|||||TWO_SIDED|90.0|0.93|2.25||||||Mild Hepatic Impairment vs Normal Hepatic Function||2.25|0.93|
92209534|NCT04546789|184319727|OTHER||Ratio of geometric least square mean|2.55|||||TWO_SIDED|90.0|1.98|3.29||||||Moderate Hepatic Impairment vs Normal Hepatic Function||3.29|1.98|
92209535|NCT04546789|184319728|OTHER||Ratio of geometric least square mean|1.43|||||TWO_SIDED|90.0|0.86|2.39||||||Mild Hepatic Impairment vs Normal Hepatic Function||2.39|0.86|
92405529|NCT04684836|184701274|SUPERIORITY||Mean Difference (Net)|-0.0012||||0.8577|TWO_SIDED|||||This is an unadjusted model, which included only an indicator for high telemedicine practice, post-period, and its two-way interaction|Regression, Linear|||Difference-in-differences||||0.8577
92405530|NCT04684836|184701274|SUPERIORITY||Mean Difference (Net)|0.2014||||0.5954|TWO_SIDED|||||This is the fully adjusted regression model, which controlled for patient age group, gender, dual status, race, average percent of 65+ patients, risk score category, rural vs urban, and zip-code level characteristics.|Regression, Linear|||Difference-in-differences||||0.5954
92405531|NCT02492763|184701339|SUPERIORITY||Difference in Least Squares Means|-0.39||||0.126|TWO_SIDED|95.0|-0.88|0.11|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||0.11|-0.88|0.126
92405532|NCT02492763|184701339|SUPERIORITY||Difference in Least Squares Means|0.6||||0.017|TWO_SIDED|95.0|0.11|1.08|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||1.08|0.11|0.017
92405533|NCT02492763|184701339|SUPERIORITY||Difference in Least Squares Means|-0.61||||0.018|TWO_SIDED|95.0|-1.12|-0.1|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||-0.10|-1.12|0.018
92405534|NCT02492763|184701339|SUPERIORITY||Difference in Least Squares Means|0.37||||0.146|TWO_SIDED|95.0|-0.13|0.87|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||0.87|-0.13|0.146
92405535|NCT02492763|184701339|SUPERIORITY||Difference in the Least Squares Means|-0.98|||<|0.001|TWO_SIDED|95.0|-1.49|-0.48||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment|Longitudinal data analysis|||||-0.48|-1.49|<0.001
92405536|NCT02492763|184701342|SUPERIORITY||Difference in % vs Placebo|-2.3||||0.301|TWO_SIDED|95.0|-12.1|5.6|||Miettinen & Nurminen method|||||5.6|-12.1|0.301
92405537|NCT02492763|184701342|SUPERIORITY||Difference in % vs Placebo|2.2||||0.573|TWO_SIDED|95.0|-8.1|13.2|||Miettinen & Nurminen method|||||13.2|-8.1|0.573
92209536|NCT04546789|184319728|OTHER||Ratio of geometric least square mean|2.42|||||TWO_SIDED|90.0|1.87|3.14||||||Moderate Hepatic Impairment vs Normal Hepatic Function||3.14|1.87|
92209537|NCT04546789|184319729|OTHER||Ratio of geometric least square mean|0.69|||||TWO_SIDED|90.0|0.45|1.08||||||Mild Hepatic Impairment vs Normal Hepatic Function||1.08|0.45|
92146597|NCT01345630|184177869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008||||0.2273|TWO_SIDED|95.0|-0.005|0.022|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||0.022|-0.005|0.2273
92209538|NCT04546789|184319729|OTHER||Ratio of geometric least square mean|0.39|||||TWO_SIDED|90.0|0.3|0.5||||||Moderate Hepatic Impairment vs Normal Hepatic Function||0.50|0.30|
92209539|NCT03430206|184319730|OTHER|||||||0.206|||||||Regression, Negative Binomial|||||||0.206
92209540|NCT03430206|184319731|OTHER|||||||0.101|||||||Regression, Negative Binomial|||||||0.101
92209541|NCT03430206|184319732|OTHER|||||||0.371|||||||Regression, Negative Binomial|||||||0.371
92209542|NCT03430206|184319734|OTHER|||||||0.601|||||||Regression, Negative Binomial|||||||0.601
92209543|NCT03430206|184319735|OTHER|||||||0.738|||||||Regression, Negative Binomial|||||||0.738
92209544|NCT04016558|184319783|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.007|TWO_SIDED||||||ANCOVA|||||||.007
92209545|NCT04016558|184319784|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.006|TWO_SIDED||||||ANCOVA|||||||.006
92209546|NCT04016558|184319785|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.82|TWO_SIDED||||||ANCOVA|||||||0.82
92209547|NCT04016558|184319786|SUPERIORITY||Mean Difference (Final Values)|1.15||||0.01|TWO_SIDED||||||ANCOVA|||||||.01
92209548|NCT04016558|184319787|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.4|TWO_SIDED||||||ANCOVA|||||||.40
92209549|NCT04016558|184319789|SUPERIORITY||Mean Difference (Final Values)|1.65||||0.12|TWO_SIDED||||||ANCOVA|||||||.12
92209550|NCT04016558|184319790|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.39|TWO_SIDED||||||ANCOVA|||||||.39
92405538|NCT02492763|184701342|SUPERIORITY||Difference in % vs Liraglutide|-2.4||||0.295|TWO_SIDED|95.0|-12.4|5.5|||Miettinen & Nurminen method|||||5.5|-12.4|0.295
92405539|NCT02492763|184701342|SUPERIORITY||Difference in % vs Liraglutide|2.2||||0.587|TWO_SIDED|95.0|-8.4|13.2|||Miettinen & Nurminen method|||||13.2|-8.4|0.587
92405540|NCT02492763|184701343|SUPERIORITY||Difference in the LS Means vs. Placebo|6.9|||||TWO_SIDED|95.0|3.42|10.37|||||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||Longitudinal data analysis|10.37|3.42|
92405541|NCT02492763|184701343|SUPERIORITY||Difference in LS Means vs. Liraglutide|3.84|||||TWO_SIDED|95.0|0.35|7.33|||||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||Longitudinal data analysis|7.33|0.35|
92405542|NCT02492763|184701343|SUPERIORITY||Difference in LS Means vs. Placebo|7.7|||||TWO_SIDED|95.0|4.17|11.23|||||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||Longitudinal data analysis|11.23|4.17|
92405543|NCT02492763|184701343|SUPERIORITY||Difference in LS Means vs. Liraglutide|4.65|||||TWO_SIDED|95.0|1.11|8.19|||||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||Longitudinal data analysis|8.19|1.11|
92405544|NCT02492763|184701344|SUPERIORITY||Difference in Least Squares Means|-0.7||||0.285|TWO_SIDED|95.0|-2.0|0.6|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||0.6|-2.0|0.285
92405545|NCT02492763|184701344|SUPERIORITY||Difference in Least Squares Means|0.9||||0.183|TWO_SIDED|95.0|-0.4|2.2|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||2.2|-0.4|0.183
92405546|NCT02492763|184701344|SUPERIORITY||Difference in Least Squares Means|-1.8||||0.01|TWO_SIDED|95.0|-3.1|-0.4|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||-0.4|-3.1|0.010
92405547|NCT02492763|184701344|SUPERIORITY||Difference in Least Squares Means|-0.2||||0.811|TWO_SIDED|95.0|-1.5|1.2|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||1.2|-1.5|0.811
92405548|NCT02492763|184701344|SUPERIORITY||Difference in the Least Squares Means|-1.6||||0.018|TWO_SIDED|95.0|-2.9|-0.3||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment|Longitudinal data analysis|||||-0.3|-2.9|0.018
92405549|NCT02492763|184701345|SUPERIORITY||Difference in Least Squares Means|-8.6||||0.385|TWO_SIDED|95.0|-28.2|10.9|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||10.9|-28.2|0.385
92405550|NCT02492763|184701345|SUPERIORITY||Difference in Least Squares Means|29.1||||0.004|TWO_SIDED|95.0|9.7|48.6|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||48.6|9.7|0.004
92405551|NCT02492763|184701345|SUPERIORITY||Difference in Least Squares Means|-29.5||||0.004|TWO_SIDED|95.0|-49.6|-9.4|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||-9.4|-49.6|0.004
92405552|NCT02492763|184701345|SUPERIORITY||Difference in Least Squares Means|8.3||||0.416|TWO_SIDED|95.0|-11.7|28.2|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||28.2|-11.7|0.416
92405553|NCT02492763|184701345|SUPERIORITY||Difference in the Least Squares Means|-37.8|||<|0.001|TWO_SIDED|95.0|-57.5|-18.0||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment|Longitudinal data analysis|||||-18.0|-57.5|<0.001
92146598|NCT01345630|184177870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005||||0.4188|TWO_SIDED|95.0|-0.007|0.018|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||0.018|-0.007|0.4188
92209551|NCT04016558|184319791|SUPERIORITY||Mean Difference (Final Values)|0.18|||<|0.01|TWO_SIDED||||||ANCOVA|||||||<.01
92209552|NCT04118374|184319808|SUPERIORITY||Median Difference (Final Values)|0.2|||<|0.01|TWO_SIDED|95.0|-0.5|1.8|||ANOVA|||||1.8|-0.5|<0.01
92209553|NCT00557947|184319809|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence is demonstrated if the upper limit of the 95% confidence interval (when subtracting the percentage of DERMABOND PROTAPE successful subjects from the percentage of INTRADERMAL SUTURE successful subjects) does not exceed 12%.|difference proportions of successes (%)|4.8||||0.2188|TWO_SIDED|95.0|0.0|10.9|||McNemar||The level of significance for statistical testing was 0.05 for this study.|||10.9|-0.0|0.2188
92209554|NCT00557947|184319810|SUPERIORITY_OR_OTHER||||||<|0.0001||0.0|||||t-test, 2 sided|||||||<0.0001
92334871|NCT01400906|184572810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|||||TWO_SIDED|95.0|-0.047|0.37|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.370|-0.047|
92209555|NCT00557947|184319811|SUPERIORITY_OR_OTHER|||||||0.3877||0.0|||||McNemar|||||||0.3877
92209556|NCT00557947|184319812|SUPERIORITY_OR_OTHER|||||||0.7539||0.0|||||McNemar|||||||0.7539
92209557|NCT00557947|184319813|SUPERIORITY_OR_OTHER|||||||1||0.0|||||McNemar|||||||1.0000
92209558|NCT04737187|184319815|SUPERIORITY||Hazard Ratio (HR)|0.61|||<|0.001|TWO_SIDED|95.0|0.49|0.77||Stratified log-rank test, with a target p-value \< 0.025 for level of significance.|Stratified log-rank test||Hazard ratio and 95% confidence interval was estimated with stratified Cox proportional hazard model.|Overall Survival Median analysis: The primary estimand was defined to assess the effect of the randomized treatments on the survival duration in all participants regardless of whether or not intercurrent events had occurred (treatment policy strategy).||0.77|0.49|< 0.001
92396013|NCT03270436|184689227|SUPERIORITY|||||||0.5698||||||The p-value above reflects results of between-arms analysis of mean change in HbA1c from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.5698
92146599|NCT01345630|184177871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.12||||0.1722|TWO_SIDED|95.0|-5.17|0.94|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||0.94|-5.17|0.1722
92209559|NCT04737187|184319819|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.001|TWO_SIDED|95.0|0.36|0.54||Stratified log-rank test, with a target p-value \< 0.025 for level of significance.|Stratified log-rank test||Hazard ratio and 95% confidence interval was estimated with stratified Cox proportional hazard model.|PFS Median analysis: A hierarchical testing method was used to control type I error and handle key secondary endpoint analysis. When the primary outcome measure significant testing was then performed sequentially on the key secondary outcome measure. statistically significant at 0.05 level.||0.54|0.36|< 0.001
92227021|NCT03048422|184356064|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.002|TWO_SIDED|95.0|0.013|0.055|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TDF - EFV/FTC/TDF).||0.055|0.013|0.002
92146600|NCT01345630|184177872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-126.78||||0.0071|TWO_SIDED|95.0|-218.34|-35.23|||ANCOVA|||Results are from an ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||-35.23|-218.34|0.0071
92146601|NCT04676425|184177873|OTHER||Least-Squares Geometric Mean Ratio|1.19|||||TWO_SIDED|90.0|0.7|2.01|||||Moderate hepatic impairment participants represent the numerator and healthy participants represent the denominator in the geometric mean ratio.|||2.01|0.70|
92209560|NCT05227703|184319828|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|2.3||0.2925|TWO_SIDED|95.0|-7.0|2.1||Emraclidine 15 mg versus Placebo|Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|||2.1|-7.0|0.2925
92227022|NCT03048422|184356064|SUPERIORITY||Mean Difference (Final Values)|0.057|||<|0.001|TWO_SIDED|95.0|0.036|0.078|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - EFV/FTC/TDF).||0.078|0.036|< 0.001
92146602|NCT04676425|184177874|OTHER||Least-Squares Geometric Mean Ratio|1.22|||||TWO_SIDED|90.0|0.86|1.74|||||Moderate hepatic impairment participants represent the numerator and healthy participants represent the denominator in the geometric mean ratio.|||1.74|0.86|
92146603|NCT02597907|184177905|OTHER||||||<|0.05|||||||Fisher Exact|||||||<0.05
92146604|NCT00949715|184177906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.2352|TWO_SIDED|95.0|-2.7|10.8|||t-test, 2 sided|||HO: Pacing at selective RV sites (mid-septum or apex) has no different impact on the change in LVEF after 24 months follow-up. With 12% SD and 80 subjects in groups will have 90% power to detect an absolute difference in LVEF of 6.2% at 24 months follow-up at an alpha level of 0.05.||10.8|-2.7|0.2352
92146605|NCT00949715|184177907|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.7405|TWO_SIDED|95.0|-7.6|5.5|||t-test, 2 sided|||Ho: Packing at selective RV sites (mid-Septum or apex) has no different impact on LVEF change from 2 weeks to 24 months.||5.5|-7.6|0.7405
92227023|NCT04247425|184356081|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||Baseline compared to end of 12 week exercise intervention||||0.59
92209561|NCT05227703|184319828|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|2.27||0.3914|TWO_SIDED|95.0|-2.5|6.4|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Emraclidine 30 mg versus Placebo||6.4|-2.5|0.3914
92209562|NCT05227703|184319829|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.135||0.1165|TWO_SIDED|95.0|-0.48|0.05|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Emraclidine 15 mg versus Placebo||0.05|-0.48|0.1165
92209563|NCT05227703|184319829|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.134||0.8265|TWO_SIDED|95.0|-0.23|0.29|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Emraclidine 30 mg versus Placebo||0.29|-0.23|0.8265
92209564|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.14||0.1167|TWO_SIDED|95.0|-4.0|0.5|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 1-- Emraclidine 15 mg versus Placebo||0.5|-4.0|0.1167
92227024|NCT04247425|184356082|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Baseline compared to end of 12 week exercise intervention||||0.02
92227025|NCT04247425|184356083|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Baseline compared to end of 12 week exercise intervention||||1.0
92227026|NCT04247425|184356084|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Baseline compared to end of 12 week exercise intervention||||0.09
92405554|NCT02492763|184701349|SUPERIORITY||Difference in Least Squares Means|-3.7||||0.151|TWO_SIDED|95.0|-8.8|1.4|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||1.4|-8.8|0.151
92405555|NCT02492763|184701349|SUPERIORITY||Difference in Least Squares Means|-1.1||||0.682|TWO_SIDED|95.0|-6.2|4.1|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||4.1|-6.2|0.682
92146606|NCT00949715|184177908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.3||||0.1051|TWO_SIDED|95.0|-25.1|2.4|||t-test, 2 sided|||Ho: Pacing at selective sites (RVS or RVA) has no different impact on LV end systolic volume||2.4|-25.1|0.1051
92146607|NCT00949715|184177909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.9||||0.9835||95.0||||Adjusting for age and gender|Wilcoxon (Mann-Whitney)|Rank Sum||Ho: The AT/AF burden in the RVS group is the same as the RVA group.||||0.9835
92146608|NCT01783418|184177933|SUPERIORITY_OR_OTHER|||||||0.613|TWO_SIDED||||||ANOVA|||Baseline and Post-intervention (8 weeks)||||0.613
92146609|NCT01783418|184177934|SUPERIORITY_OR_OTHER|||||||0.957|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention (8 weeks)||||0.957
92146610|NCT01783418|184177935|SUPERIORITY_OR_OTHER|||||||0.256|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention (8 weeks)||||.256
92146611|NCT01783418|184177936|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention (8 weeks)||||0.97
92146612|NCT01783418|184177937|SUPERIORITY_OR_OTHER|||||||0.241|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention||||0.241
92146613|NCT01783418|184177938|SUPERIORITY_OR_OTHER|||||||0.358|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention (8 weeks)||||0.358
92405556|NCT02492763|184701349|SUPERIORITY||Difference in Least Squares Means|-2.5||||0.344|TWO_SIDED|95.0|-7.7|2.7|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||2.7|-7.7|0.344
92405557|NCT02492763|184701349|SUPERIORITY||Difference in Least Squares Means|0.2||||0.948|TWO_SIDED|95.0|-5.0|5.4|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||5.4|-5.0|0.948
92405558|NCT02492763|184701349|SUPERIORITY||Difference in the Least Squares Means|-2.7||||0.306|TWO_SIDED|95.0|-7.8|2.5||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment|Longitudinal data analysis|||||2.5|-7.8|0.306
92405559|NCT02492763|184701350|SUPERIORITY||Difference in Least Squares Means|1.5||||0.347|TWO_SIDED|95.0|-1.7|4.8|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||4.8|-1.7|0.347
92405560|NCT02492763|184701350|SUPERIORITY||Difference in Least Squares Means|-0.1||||0.963|TWO_SIDED|95.0|-3.3|3.2|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||3.2|-3.3|0.963
92405561|NCT02492763|184701350|SUPERIORITY||Difference in Least Squares Means|1.4||||0.394|TWO_SIDED|95.0|-1.9|4.7|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||4.7|-1.9|0.394
92405562|NCT02492763|184701350|SUPERIORITY||Difference in Least Squares Means|-0.2||||0.905|TWO_SIDED|95.0|-3.5|3.1|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||3.1|-3.5|0.905
92405563|NCT02492763|184701350|SUPERIORITY||Difference in the Least Squares Means|1.6||||0.325|TWO_SIDED|95.0|-1.6|4.9|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||4.9|-1.6|0.325
92209565|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.14||0.9254|TWO_SIDED|95.0|-2.1|2.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 1-- Emraclidine 30 mg versus Placebo||2.3|-2.1|0.9254
92209566|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.55||0.8792|TWO_SIDED|95.0|-3.3|2.8|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 2-- Emraclidine 15 mg versus Placebo||2.8|-3.3|0.8792
92209567|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.52||0.5094|TWO_SIDED|95.0|-2.0|4.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 2-- Emraclidine 30 mg versus Placebo||4.0|-2.0|0.5094
92209568|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|1.76||0.4487|TWO_SIDED|95.0|-4.8|2.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 3-- Emraclidine 15 mg versus Placebo||2.1|-4.8|0.4487
92334872|NCT01400906|184572815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.638|||||TWO_SIDED|95.0|0.44|0.836|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.836|0.440|
92334873|NCT01400906|184572815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.661|||||TWO_SIDED|95.0|0.463|0.859|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.859|0.463|
92334874|NCT01400906|184572816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|||||TWO_SIDED|95.0|0.018|0.333|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.333|0.018|
92334875|NCT01400906|184572816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|||||TWO_SIDED|95.0|0.008|0.323|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.323|0.008|
92334876|NCT01400906|184572817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.476|||||TWO_SIDED|95.0|0.326|0.627|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.627|0.326|
92334877|NCT01400906|184572817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53|||||TWO_SIDED|95.0|0.38|0.68|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.680|0.380|
92146614|NCT01783418|184177939|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention (8 weeks)||||0.95
92146615|NCT00508261|184177940|NON_INFERIORITY|Criterion for non-inferiority: The lower limit of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference in the percentages of subjects with serum bactericidal antibodies using baby rabbit complement (rSBA) titer ≥1:8 is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|1.64|||||TWO_SIDED|95.0|-0.33|4.71||||||Demonstration of the non-inferiority of Nimenrix vaccine co-administered with combined Infanrix-hexa vaccine given alone in terms of bactericidal antibodies to Neisseria meningitidis serogroup A, at month 1.||4.71|-0.33|
92334878|NCT02256917|184572819|OTHER|Confirmative one-sided one-sample Poisson-test.|ABR|4.87|||||TWO_SIDED|95.0|4.06|5.79||A respective confirmative one-sided one-sample Poisson-test was used to demonstrate if the mean ABR in patients with individually tailored prophylaxis is at least 50% below the mean ABR rate in the GENA-01 trial.|one-sided one-sample Poisson-test||A confidence interval of 97.5% for confirmative analysis was also used - the respective upper and lower limit CIs were 3.96-5.93|||5.79|4.06|
92334879|NCT02256917|184572819|OTHER|Reduction of the annualized total bleeding rate (ABR) observed in the GENA-01 study vs. GENA-21B analyzed with a Negative Binomial regression model including a correction for overdispersion.|Rate ratio|11.89|||<|0.0001|TWO_SIDED|95.0|7.5|18.86|||Negative binomial regression model|||||18.86|7.50|<0.0001
92334880|NCT02256917|184572819|OTHER|Reduction of the annualized total bleeding rate (ABR) observed in the GENA-01 study vs. GENA-21B analyzed with a Poisson regression model including a correction for overdispersion.|Rate ratio|10.14|||<|0.0001|TWO_SIDED|95.0|6.12|16.8|||Poisson regression model|||||16.80|6.12|<0.0001
92209569|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.72||0.4852|TWO_SIDED|95.0|-2.2|4.6|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||4.6|-2.2|0.4852
92396014|NCT03270436|184689227|SUPERIORITY|||||||0.4106||||||The p-value above reflects results of between-arms analysis of mean change in HbA1c from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.4106
92146616|NCT00508261|184177940|NON_INFERIORITY|Criterion for non-inferiority: The lower limit of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference in the percentages of subjects with serum bactericidal antibodies using baby rabbit complement (rSBA) titer ≥1:8 is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|2.73|||||TWO_SIDED|95.0|0.73|6.24||||||Demonstration of the non-inferiority of the Nimenrix vaccine co-administered with combined Infanrix-hexa vaccine given alone in terms of bactericidal antibodies to Neisseria meningitidis serogroup C, at month 1.||6.24|0.73|
92209570|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.86||0.7593|TWO_SIDED|95.0|-4.2|3.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 4-- Emraclidine 15 mg versus Placebo||3.1|-4.2|0.7593
92209571|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|1.82||0.6792|TWO_SIDED|95.0|-2.8|4.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 4-- Emraclidine 30 mg versus Placebo||4.3|-2.8|0.6792
92146617|NCT00508261|184177940|NON_INFERIORITY|Criterion for non-inferiority: The lower limit of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference in the percentages of subjects with serum bactericidal antibodies using baby rabbit complement (rSBA) titer ≥1:8 is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|1.61|||||TWO_SIDED|95.0|-0.36|4.64||||||Demonstration of the non-inferiority of the Nimenrix vaccine co-administered with combined Infanrix-hexa vaccine given alone in terms of bactericidal antibodies to Neisseria meningitidis serogroup W-135, at month 1.||4.64|-0.36|
92146618|NCT00508261|184177940|NON_INFERIORITY|Criterion for non-inferiority: The lower limit of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference in the percentages of subjects with serum bactericidal antibodies using baby rabbit complement (rSBA) titer ≥1:8 is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|2.7|||||TWO_SIDED|95.0|0.71|6.18||||||Demonstration of the non-inferiority of the Nimenrix vaccine co-administered with combined Infanrix-hexa vaccine given alone in terms of bactericidal antibodies to Neisseria meningitidis serogroup Y, at month 1.||6.18|0.71|
92146619|NCT00508261|184177941|NON_INFERIORITY|Criterion for non-inferiority (1 month after the first study vaccination): The lower limit of the two-sided 95% CI on the GMC ratio for anti-PT (ELISA) is greater than or equal to a pre-defined clinical limit of delta = 0.67.|Adjusted GMC ratios|0.97|||||TWO_SIDED|95.0|0.83|1.12||||||Demonstration of non-inferiority of combined Infanrix-hexa vaccine co-administered with Nimenrix vaccine to Infanrix-hexa vaccine given alone in terms of geometric mean concentrations (GMCs) of antibodies to pertussis toxoid (PT), at month 1.||1.12|0.83|
92146620|NCT00508261|184177941|NON_INFERIORITY|Criterion for non-inferiority (1 month after the first study vaccination): The lower limit of the two-sided 95% CI on the GMC ratio for anti-FHA (ELISA) is greater than or equal to a pre-defined clinical limit of delta = 0.67.|Adjusted GMC ratios|0.98|||||TWO_SIDED|95.0|0.85|1.13||||||Demonstration of non-inferiority of combined Infanrix-hexa vaccine co-administered with Nimenrix vaccine to Infanrix-hexa vaccine given alone in terms of geometric mean concentrations (GMCs) of antibodies to filamentous haemagglutinin (FHA), at month 1.||1.13|0.85|
92209572|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|2.1||0.3983|TWO_SIDED|95.0|-5.9|2.4|||Mixed Model for Repeated Measures (MMRM)|||Week 5-- Emraclidine 15 mg versus Placebo||2.4|-5.9|0.3983
92334881|NCT02256917|184572820|OTHER|A respective confirmative one-sided one-sample Poisson-test was used to demonstrate if the mean spontaneous ABR in patients with individually tailored prophylaxis is at least 50% below the mean ABR rate in the GENA-01 trial.|ABR|3.12|||||TWO_SIDED|95.0|2.48|3.87|||One-sided one-sample Poisso|||||3.87|2.48|
92146621|NCT00508261|184177941|NON_INFERIORITY|Criterion for non-inferiority (1 month after the first study vaccination): The lower limit of the two-sided 95% CI on the GMC ratio for anti-PRN (ELISA) is greater than or equal to a pre-defined clinical limit of delta = 0.67.|Adjusted GMC ratios|0.92|||||TWO_SIDED|95.0|0.78|1.1||||||Demonstration of non-inferiority of combined Infanrix-hexa vaccine co-administered with Nimenrix vaccine to Infanrix-hexa vaccine given alone in terms of geometric mean concentrations (GMCs) of antibodies to pertactin (PRN), at month 1.||1.1|0.78|
92227027|NCT00762515|184356100|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|baseline is used a factor||The null hypothesis states that there is no difference between groups.||||<0.05
92334882|NCT02256917|184572821|OTHER|A respective confirmative one-sided one-sample Poisson-test was used to demonstrate if the mean ABR in patients with 2x/week prophylaxis or less with individually tailored prophylaxis is at least 50% below the mean ABR rate in the GENA-01 trial.|ABR|5.03|||||TWO_SIDED|95.0|3.9|6.39|||One-sided one-sample Poisson-test||A confidence interval of 97.5% for confirmative analysis was also used - the respective upper and lower limit CIs were 3.76-6.60|||6.39|3.90|
92334883|NCT01753115|184572847|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence margin is 0.80 - 1.25.|Ratio of AUC|0.887|||||TWO_SIDED|90.0|0.831|0.948||||||Analysis of Ciprofloxacin Area Under the Curve at Day 5 and Day 44.||0.948|0.831|
92334884|NCT01753115|184572847|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence margin is 0.80 - 1.25.|Ratio of Cmax|0.944|||||TWO_SIDED|90.0|0.852|1.046||||||Analysis of Cmax at Day 5 and Day 44||1.046|0.852|
92334885|NCT01753115|184572848|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.67.|Ratio of GMT|1.267|||||TWO_SIDED|95.0|0.898|1.787||||||||1.787|0.898|
92334886|NCT01515696|184572883|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0||||0.61||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.61
92334887|NCT01515696|184572884|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|7.5||||0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
92334888|NCT01515696|184572885|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92334889|NCT01188668|184572896|SUPERIORITY_OR_OTHER||ratio of adjusted means|105.97|||||TWO_SIDED|90.0|101.39|110.76|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Aripiprazole 5 mg (test) versus Aripiprazole 5 mg (reference)||110.76|101.39|
92334890|NCT01188668|184572897|SUPERIORITY_OR_OTHER||ratio of adjusted means|101.05|||||TWO_SIDED|90.0|92.94|109.87|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Aripiprazole 5 mg (test) versus Aripiprazole 5 mg (reference)||109.87|92.94|
92146622|NCT00508261|184177942|NON_INFERIORITY|Criterion for non-inferiority (1 month after the first study vaccination): The lower limit of the two-sided standardized asymptotic 95% CI for the group difference in the percentages of subjects with anti-HBs antibody concentrations ≥10 mIU/ml is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|1.22|||||TWO_SIDED|95.0|-1.47|4.6||||||||4.6|-1.47|
92209573|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.07||0.3859|TWO_SIDED|95.0|-2.3|5.9|||Mixed Model for Repeated Measures (MMRM)|||Week 5-- Emraclidine 30 mg versus Placebo||5.9|-2.3|0.3859
92209574|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|2.3||0.2925|TWO_SIDED|95.0|-7.0|2.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 6-- Emraclidine 15 mg versus Placebo||2.1|-7.0|0.2925
92334891|NCT01188668|184572902|SUPERIORITY_OR_OTHER||ratio of adjusted means|102.93|||||TWO_SIDED|90.0|94.21|112.46|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Aripiprazole 5 mg (test) versus Aripiprazole 5 mg (reference)||112.46|94.21|
92334892|NCT01188668|184572903|SUPERIORITY_OR_OTHER||ratio of adjusted means|106.27|||||TWO_SIDED|90.0|100.97|111.85|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Aripiprazole 5 mg (test) versus Aripiprazole 5 mg (reference)||111.85|100.97|
92334893|NCT02081001|184572912|SUPERIORITY_OR_OTHER||Point estimate ratio|2.06|STANDARD_ERROR_OF_MEAN|1.19||0.23|TWO_SIDED|90.0|0.74|5.75|||Mixed Models Analysis|||||5.75|0.74|0.23
92334894|NCT02081001|184572912|SUPERIORITY_OR_OTHER||Point estimate ratio|1.25|STANDARD_ERROR_OF_MEAN|0.43||0.52|TWO_SIDED|90.0|0.69|2.28|||Mixed Models Analysis|||||2.28|0.69|0.52
92334895|NCT02081001|184572912|SUPERIORITY_OR_OTHER||Point estimate ratio|0.86|STANDARD_ERROR_OF_MEAN|0.19||0.49|TWO_SIDED|90.0|0.59|1.25|||Mixed Models Analysis|||||1.25|0.59|0.49
92334896|NCT02081001|184572913|SUPERIORITY_OR_OTHER||Point estimate ratio|1.37|STANDARD_ERROR_OF_MEAN|0.34||0.23|TWO_SIDED|90.0|0.88|2.12|||Mixed Models Analysis|||||2.12|0.88|0.23
92334897|NCT02081001|184572913|SUPERIORITY_OR_OTHER||Point estimate ratio|1.29|STANDARD_ERROR_OF_MEAN|0.18||0.09|TWO_SIDED|90.0|1.01|1.65|||Mixed Models Analysis|||||1.65|1.01|0.09
92334898|NCT02081001|184572913|SUPERIORITY_OR_OTHER||Point estimate ratio|1.36|STANDARD_ERROR_OF_MEAN|0.16||0.02|TWO_SIDED|90.0|1.11|1.67|||Mixed Models Analysis|||||1.67|1.11|0.02
92334899|NCT02081001|184572914|SUPERIORITY_OR_OTHER||Point estimate ratio|1.26|STANDARD_ERROR_OF_MEAN|0.19||0.15|TWO_SIDED|90.0|0.97|1.64|||Mixed Models Analysis|||||1.64|0.97|0.15
92334900|NCT02081001|184572914|SUPERIORITY_OR_OTHER||Point estimate ratio|1.29|STANDARD_ERROR_OF_MEAN|0.26||0.24|TWO_SIDED|90.0|0.9|1.84|||Mixed Models Analysis|||||1.84|0.90|0.24
92334901|NCT02081001|184572914|SUPERIORITY_OR_OTHER||Point estimate ratio|0.83|STANDARD_ERROR_OF_MEAN|0.15||0.31|TWO_SIDED|90.0|0.6|1.14|||Mixed Models Analysis|||||1.14|0.60|0.31
92334902|NCT02081001|184572915|SUPERIORITY_OR_OTHER||Point estimate ratio|1.18|STANDARD_ERROR_OF_MEAN|0.11||0.09|TWO_SIDED|90.0|1.01|1.39|||Mixed Models Analysis|||||1.39|1.01|0.09
92334903|NCT02081001|184572915|SUPERIORITY_OR_OTHER||Point estimate ratio|1.12|STANDARD_ERROR_OF_MEAN|0.12||0.29|TWO_SIDED|90.0|0.93|1.35|||Mixed Models Analysis|||||1.35|0.93|0.29
92334904|NCT02081001|184572915|SUPERIORITY_OR_OTHER||Point estimate ratio|1.11|STANDARD_ERROR_OF_MEAN|0.09||0.24|TWO_SIDED|90.0|0.96|1.28|||Mixed Models Analysis|||||1.28|0.96|0.24
92334905|NCT02081001|184572916|SUPERIORITY_OR_OTHER||Point estimate ratio|0.91|STANDARD_ERROR_OF_MEAN|0.22||0.7|TWO_SIDED|90.0|0.6|1.38|||Mixed Models Analysis|||||1.38|0.60|0.70
92334906|NCT02081001|184572916|SUPERIORITY_OR_OTHER||Point estimate ratio|1.26|STANDARD_ERROR_OF_MEAN|0.21||0.19|TWO_SIDED|90.0|0.94|1.68|||Mixed Models Analysis|||||1.68|0.94|0.19
92334907|NCT02081001|184572916|SUPERIORITY_OR_OTHER||Point estmate ratio|1.45|STANDARD_ERROR_OF_MEAN|0.26||0.052|TWO_SIDED|90.0|1.07|1.98|||Mixed Models Analysis|||||1.98|1.07|0.052
92334908|NCT02081001|184572917|SUPERIORITY_OR_OTHER||Point estimate ratio|2.02|STANDARD_ERROR_OF_MEAN|0.95||0.16|TWO_SIDED|90.0|0.87|4.66|||Mixed Models Analysis|||||4.66|0.87|0.16
92334909|NCT02081001|184572917|SUPERIORITY_OR_OTHER||Point estimate ratio|1.31|STANDARD_ERROR_OF_MEAN|0.49||0.48|TWO_SIDED|90.0|0.68|2.54|||Mixed Models Analysis|||||2.54|0.68|0.48
92209575|NCT05227703|184319830|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|2.27||0.3914|TWO_SIDED|95.0|-2.5|6.4|||Mixed Model for Repeated Measures (MMRM)|||Week 6-- Emraclidine 30 mg versus Placebo||6.4|-2.5|0.3914
92209576|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.073||0.0865|TWO_SIDED|95.0|-0.27|0.02|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 1-- Emraclidine 15 mg versus Placebo||0.02|-0.27|0.0865
92209577|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.072||0.9921|TWO_SIDED|95.0|-0.14|0.14|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 1-- Emraclidine 30 mg versus Placebo||0.14|-0.14|0.9921
92334910|NCT02081001|184572917|SUPERIORITY_OR_OTHER||Point estimate ratio|0.8|STANDARD_ERROR_OF_MEAN|0.16||0.28|TWO_SIDED|90.0|0.57|1.13|||Mixed Models Analysis|||||1.13|0.57|0.28
92334911|NCT02081001|184572918|SUPERIORITY_OR_OTHER||Point estimate ratio|1.06|STANDARD_ERROR_OF_MEAN|0.12||0.61|TWO_SIDED|90.0|0.87|1.3|||Mixed Models Analysis|||||1.30|0.87|0.61
92334912|NCT02081001|184572918|SUPERIORITY_OR_OTHER||Point estimate ratio|1.19|STANDARD_ERROR_OF_MEAN|0.16||0.22|TWO_SIDED|90.0|0.94|1.5|||Mixed Models Analysis|||||1.5|0.94|0.22
92334913|NCT02081001|184572918|SUPERIORITY_OR_OTHER||Point estimate ratio|0.84|STANDARD_ERROR_OF_MEAN|0.12||0.26|TWO_SIDED|90.0|0.66|1.09|||Mixed Models Analysis|||||1.09|0.66|0.26
92334914|NCT02081001|184572919|SUPERIORITY_OR_OTHER||Point estimate ratio|1.18|STANDARD_ERROR_OF_MEAN|0.14||0.19|TWO_SIDED|90.0|0.96|1.46|||Mixed Models Analysis|||||1.46|0.96|0.19
92334915|NCT02081001|184572919|SUPERIORITY_OR_OTHER||Point estimate ratio|1.15|STANDARD_ERROR_OF_MEAN|0.12||0.21|TWO_SIDED|90.0|0.95|1.38|||Regression, Cox|||||1.38|0.95|0.21
92209578|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.091||0.972|TWO_SIDED|95.0|-0.18|0.18|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 2-- Emraclidine 15 mg versus Placebo||0.18|-0.18|0.9720
92209579|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.089||0.6621|TWO_SIDED|95.0|-0.14|0.21|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 2-- Emraclidine 30 mg versus Placebo||0.21|-0.14|0.6621
92334916|NCT02081001|184572919|SUPERIORITY_OR_OTHER||Point estimate ratio|1.13|STANDARD_ERROR_OF_MEAN|0.1||0.19|TWO_SIDED|90.0|0.97|1.31|||Mixed Models Analysis|||||1.31|0.97|0.19
92334917|NCT02081001|184572920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|5.4||0.24|TWO_SIDED|95.0|-17.1|4.3|||Mixed Models Analysis|||||4.3|-17.1|0.24
92334918|NCT02081001|184572920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.4|STANDARD_ERROR_OF_MEAN|5.4||0.0005|TWO_SIDED|95.0|-30.1|-8.7|||Mixed Models Analysis|||||-8.7|-30.1|0.0005
92334919|NCT02081001|184572920|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.3|STANDARD_ERROR_OF_MEAN|5.4|<|0.0001|TWO_SIDED|95.0|-34.0|-12.6|||Mixed Models Analysis|||||-12.6|-34.0|<0.0001
92334920|NCT02081001|184572921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|1.6||0.22|TWO_SIDED|95.0|-5.1|1.2|||Mixed Models Analysis|||||1.2|-5.1|0.22
92334921|NCT02081001|184572921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|1.6||0.58|TWO_SIDED|95.0|-4.0|2.3|||Mixed Models Analysis|||||2.3|-4.0|0.58
92334922|NCT02081001|184572921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.6|STANDARD_ERROR_OF_MEAN|1.6||0.03|TWO_SIDED|95.0|-6.7|-0.4|||Mixed Models Analysis|||||-0.4|-6.7|0.03
92334923|NCT02937636|184572925|OTHER||Least square (LS) mean difference|-0.09|||<|0.0001|TWO_SIDED|95.0|-0.12|-0.07|||ANCOVA|From ANCOVA with treatment, gender, smoking status and baseline MGI stratification as factors and baseline as covariate.|Difference is the first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||-0.07|-0.12|<.0001
92334924|NCT04208412|184572931|SUPERIORITY|||||||0.001|||||||Wilcoxon Test (Gehan's Generalized)|||||||0.0010
92334925|NCT04208412|184572932|SUPERIORITY|||||||0.0045|||||||Prescott's Test|||||||0.0045
92334926|NCT04208412|184572933|SUPERIORITY||||||<|0.0001|||||||Wilcoxon Test (Gehan's Generalized)|||"Gehan's Generalized Wilcoxon Test:~600 mg KVD900 vs Placebo"||||<0.0001
92334927|NCT04208412|184572934|SUPERIORITY||||||<|0.0001|||||||Wilcoxon Test (Gehan's Generalized)|||||||<0.0001
92334928|NCT04208412|184572935|SUPERIORITY||||||<|0.0001|||||||Wilcoxon Test (Gehan's Generalized)|||||||<0.0001
92334929|NCT03658642|184572986|SUPERIORITY||Odds Ratio (OR)|1.22||||0.58|TWO_SIDED|95.0|0.61|2.43|||GEE|Obtained from a GEE model accounting for clustering by site and multiple covariates.||||2.43|0.61|0.58
92334930|NCT03658642|184572987|SUPERIORITY||Odds Ratio (OR)|1.03||||0.95|TWO_SIDED|95.0|0.43|2.47|||GEE|Obtained from a GEE model accounting for clustering by site.||||2.47|0.43|0.95
92334931|NCT03658642|184572989|SUPERIORITY||Odds Ratio (OR)|1.55||||0.01|TWO_SIDED|95.0|1.11|2.16|||GEE|Obtained from a GEE model accounting for clustering by site.||||2.16|1.11|0.01
92334932|NCT03658642|184572990|SUPERIORITY||Odds Ratio (OR)|1.13||||0.48|TWO_SIDED|95.0|0.91|1.57|||GEE|Obtained from a GEE model accounting for clustering by site.||||1.57|0.91|0.48
92209580|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.101||0.3617|TWO_SIDED|95.0|-0.29|0.11|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 3-- Emraclidine 15 mg versus Placebo||0.11|-0.29|0.3617
92209581|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.098||0.5456|TWO_SIDED|95.0|-0.13|0.25|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.25|-0.13|0.5456
92209582|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.11||0.8459|TWO_SIDED|95.0|-0.24|0.19|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 4-- Emraclidine 15 mg versus Placebo||0.19|-0.24|0.8459
92334933|NCT03658642|184572991|SUPERIORITY||Odds Ratio (OR)|1.32||||0.27|TWO_SIDED|95.0|0.81|2.14|||GEE|Obtained from a GEE model accounting for clustering by site.||||2.14|0.81|0.27
92146623|NCT00508261|184177943|NON_INFERIORITY|Criterion for non-inferiority (1 month after the first study vaccination): The lower limit of the two-sided standardized asymptotic 95% CI for the group difference in the percentage of subjects with anti-PRP concentrations (ELISA) ≥1.0 μg/mL is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|1.19|||||TWO_SIDED|95.0|-1.45|4.5||||||||4.5|-1.45|
92146624|NCT00180479|184177969|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculation for endpoint of in-segment LL at 240 days is based on these assumptions: one-tailed non-inferiority= (δ)=0.025, Power=99%, Randomization ratio 2:1, True mean in-seg. LL is assumed to be 0.24 mm in both arms.|||||<|0.0001|||||||t-test, 1 sided|||Primary endpoint analyzed for intent-to-treat \& per-treatment evaluable pop. Hypothesis test based on per-subject analysis of intent-to-treat pop. using analysis lesion. The null hypothesis evaluated using non-inferiority test with asymptotic test statistic.||||<0.0001
92146625|NCT00180479|184177970|NON_INFERIORITY_OR_EQUIVALENCE|Study had 89% statistical power based on major secondary endpoint to prove non-inferiority of XIENCE® V to TAXUS®, non-inferiority delta=5.5%, true TVF rate 9.4% in both arms with overall 5% alpha (one-sided), assuming 1% subject dropout rate.|||||<|0.0001|||||||t-test, 1 sided|||Null hypothesis was evaluated using a non-inferiority Z statistic. Non-inferiority was defined as a one-sided alpha of 0.05 and a difference in TVF rate of no more than 5.5%.||||<0.0001
92209583|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.108||0.3922|TWO_SIDED|95.0|-0.12|0.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 4-- Emraclidine 30 mg versus Placebo||0.30|-0.12|0.3922
92334934|NCT00435188|184573024|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Omnibus p value for group difference between groups at the end of the study and group by time interaction|Mixed Models Analysis|||||||<0.001
92146626|NCT01446666|184178017|SUPERIORITY||||||<|0.01|||||||McNemar|||The HCC detection rate was defined as the number of patients with HCC detected by a given modality divided by the total number of patients with HCC detected by all modalities and by follow-up dynamic CT scan. The HCC detection rates from ultrasonography and MRI were compared.||||<0.01
92146627|NCT01446666|184178018|SUPERIORITY||||||<|0.01|||||||McNemar|||||||<0.01
92146628|NCT01446666|184178019|SUPERIORITY||||||<|0.01|||||||McNemar|||||||<0.01
92146629|NCT01446666|184178020|SUPERIORITY|||||||0.004|||||||McNemar|||||||0.004
92146630|NCT00939874|184178026|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92146631|NCT02231177|184178028|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.12|STANDARD_DEVIATION|32.15|||TWO_SIDED|90.0|0.99|1.27|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Olodaterol (Tiotropium+Olodaterol 5/10 μg: Olodaterol 10 µg). No formal testing.||1.27|0.99|
92227028|NCT00762515|184356101|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|baseline to be used a factor||The null hypothesis states that there is no difference between groups.||||<0.05
92227029|NCT00692211|184356102|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.01|TWO_SIDED|95.0|1.04|2.32||Not adjusted for multiple comparisons, a priori threshold of 0.05|Regression, Logistic|||Study powered to detect 10% difference in proportion of screening adherence based on alpha of 0.05, beta 0.20.||2.32|1.04|0.01
92227264|NCT00254566|184356764|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be declared if the lower bound of the 95% CI around the difference in clinical success rates is greater than -10%|Risk Difference (RD)|-0.9||||||95.0|-5.8|3.9|||||Risk difference is the difference in percentage of participants with cure and the 95% Confidence Interval|95% Confidence Interval (CI) for the difference in cure rates will be constructed using a method of linear stratification that weights according to the reciporcal of the variance. Stratification will be by steriod use at time of randomization.||3.9|-5.8|
92209584|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.122||0.2915|TWO_SIDED|95.0|-0.37|0.11|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 5-- Emraclidine 15 mg versus Placebo||0.11|-0.37|0.2915
92209585|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.12||0.4425|TWO_SIDED|95.0|-0.14|0.33|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 5-- Emraclidine 30 mg versus Placebo||0.33|-0.14|0.4425
92209586|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.135||0.1165|TWO_SIDED|95.0|-0.48|0.05|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 6-- Emraclidine 15 mg versus Placebo||0.05|-0.48|0.1165
92209587|NCT05227703|184319831|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.134||0.8265|TWO_SIDED|95.0|-0.23|0.29|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.29|-0.23|0.8265
92209588|NCT05227703|184319832|SUPERIORITY|Odds ratio, 95% confidence interval, and p-value were from a logistic regression with treatment group, geographic region and baseline value as a covariate.|Odds Ratio (OR)|1.26||||0.4597|TWO_SIDED|95.0|0.68|2.33|||Regression, Logistic|||Emraclidine 15 mg versus Placebo||2.33|0.68|0.4597
92209589|NCT05227703|184319832|SUPERIORITY|Odds ratio, 95% confidence interval, and p-value were from a logistic regression with treatment group, geographic region and baseline value as a covariate.|Odds Ratio (OR)|0.57||||0.1205|TWO_SIDED|95.0|0.28|1.16|||Regression, Logistic|||Emraclidine 30 mg versus Placebo||1.16|0.28|0.1205
92209590|NCT05227703|184319839|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0493|TWO_SIDED|95.0|0.0|0.2|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 3-- Emraclidine 15 mg versus Placebo||0.2|0.0|0.0493
92209591|NCT05227703|184319839|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0226|TWO_SIDED|95.0|0.0|0.2|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.2|0.0|0.0226
92209592|NCT05227703|184319839|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.6845|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 6-- Emraclidine 15 mg versus Placebo||0.1|-0.1|0.6845
92209593|NCT05227703|184319839|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.895|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.1|-0.1|0.8950
92209594|NCT05227703|184319840|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.5073|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 3-- Emraclidine 15 mg versus Placebo||0.1|-0.1|0.5073
92209595|NCT05227703|184319840|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.465|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.1|-0.1|0.4650
92209596|NCT05227703|184319840|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.03||0.0672|TWO_SIDED|95.0|-0.1|0.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 6-- Emraclidine 15 mg versus Placebo||0.0|-0.1|0.0672
92271657|NCT03958071|184444977|OTHER||Absolute standardized differences (ASD)|0.1403||||0.0034|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.0034
92209597|NCT05227703|184319840|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.803|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.1|-0.1|0.8030
92146632|NCT02231177|184178029|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.11|STANDARD_DEVIATION|27.17|||TWO_SIDED|90.0|1.01|1.22|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Olodaterol (Tiotropium+Olodaterol 5/10 μg: Olodaterol 10 µg). No formal testing.||1.22|1.01|
92146633|NCT02231177|184178030|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.98|STANDARD_DEVIATION|20.43|||TWO_SIDED|90.0|0.91|1.06|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Tiotropium (Tiotropium+Olodaterol 5/10 μg: Tiotropium 5 µg). No formal testing.||1.06|0.91|
92146634|NCT02231177|184178031|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.05|STANDARD_DEVIATION|19.85|||TWO_SIDED|90.0|0.98|1.13|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Olodaterol (Tiotropium+Olodaterol 5/10 μg: Olodaterol 10 µg). No formal testing.||1.13|0.98|
92146635|NCT02231177|184178032|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.9|STANDARD_DEVIATION|19.81|||TWO_SIDED|90.0|0.83|0.98|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Tiotropium (Tiotropium+Olodaterol 5/10 μg: Tiotropium 5 µg). No formal testing.||0.98|0.83|
92146636|NCT02231177|184178033|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.96|STANDARD_DEVIATION|29.92|||TWO_SIDED|90.0|0.87|1.07|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Tiotropium (Tiotropium+Olodaterol 5/10 μg : Tiotropium 5 µg). No formal testing.||1.07|0.87|
92146637|NCT02231177|184178034|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.02|STANDARD_DEVIATION|21.33|||TWO_SIDED|90.0|0.93|1.12|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Olodaterol (Tiotropium+Olodaterol 5/10 μg : Olodaterol 10 µg). No formal testing.||1.12|0.93|
92146638|NCT02231177|184178035|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.91|STANDARD_DEVIATION|22.61|||TWO_SIDED|90.0|0.84|1.0|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Tiotropium (Tiotropium+Olodaterol 5/10 μg : Tiotropium 5 µg). No formal testing.||1.00|0.84|
92146639|NCT02231177|184178036|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.32|STANDARD_DEVIATION|96.12|||TWO_SIDED|90.0|0.98|1.77|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Olodaterol (Tiotropium+Olodaterol 5/10 μg; Olodaterol 10 µg). No formal testing.||1.77|0.98|
92146640|NCT02231177|184178037|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.99|STANDARD_DEVIATION|72.08|||TWO_SIDED|90.0|0.79|1.24|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Tiotropium (Tiotropium+Olodaterol 5/10 μg; Tiotropium 5 µg). No formal testing.||1.24|0.79|
92146641|NCT02954354|184178076|SUPERIORITY||Difference|-26.5|||<|0.0001|TWO_SIDED|95.0|-35.8|-17.8||Adjusted p-value, two-sided significance level of 0.05|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||The primary analysis of time to alleviation of symptoms was a comparison of baloxavir with placebo in all participants in the intention-to-treat infection population. Statistical tests were performed at the 0.05 significance level.||-17.8|-35.8|<0.0001
92146642|NCT02954354|184178076|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Log Rank|Log rank test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Analysis using the stratified log rank test was performed as a sensitivity analysis.||||<0.0001
92146643|NCT02954354|184178077|SUPERIORITY||Difference|-0.3||||0.756|TWO_SIDED|95.0|-6.6|6.6||Adjusted p-value, two-sided significance level of 0.05|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||A secondary analysis of time to alleviation of symptoms, consisting of a comparison between the 20 to 64 years of age stratum of the baloxavir group and the oseltamivir group, was conducted if statistical significance was observed in the primary analysis in order to maintain the overall Type I error.||6.6|-6.6|0.7560
92146644|NCT02954354|184178077|SUPERIORITY|||||||0.3761||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Log Rank|Log rank test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Analysis using the stratified log rank test was performed as a sensitivity analysis.||||0.3761
92146645|NCT02954354|184178078|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
92271658|NCT02625207|184444988|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|116.73||||0.1318|TWO_SIDED|90.0|98.55|138.26|||Mixed Models Analysis|||||138.26|98.55|0.1318
92209598|NCT05227703|184319841|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.8259|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 3-- Emraclidine 15 mg versus Placebo||0.1|-0.1|0.8259
92209599|NCT05227703|184319841|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.5936|TWO_SIDED|95.0|-0.1|0.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.0|-0.1|0.5936
92146646|NCT02954354|184178078|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
92146647|NCT02954354|184178078|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||<0.0001
92146648|NCT02954354|184178078|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||<0.0001
92209600|NCT05227703|184319841|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.03||0.0253|TWO_SIDED|95.0|0.0|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 6-- Emraclidine 15 mg versus Placebo||0.1|0.0|0.0253
92209601|NCT05227703|184319841|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.271|TWO_SIDED|95.0|0.0|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.1|0.0|0.2710
92209602|NCT03373201|184319857|SUPERIORITY||Difference between LS means|60.3|||<|0.0001|TWO_SIDED|95.0|44.0|76.7|||ANOVA|||||76.7|44.0|<.0001
92209603|NCT03373201|184319858|SUPERIORITY||Difference between LS Means.|85.5|||<|0.0001|TWO_SIDED|95.0|64.3|106.6|||ANOVA|||||106.6|64.3|<.0001
92209604|NCT03373201|184319859|SUPERIORITY||Difference between LS means|-15.1|||<|0.0001|TWO_SIDED|95.0|-26.2|-4.0|||ANOVA|||||-4.0|-26.2|<.0001
92209605|NCT03373201|184319860|SUPERIORITY||Difference between LS means|-74.6|||<|0.0001|TWO_SIDED|95.0|-94.8|-54.3|||ANOVA|||||-54.3|-94.8|<.0001
92209606|NCT03373201|184319861|SUPERIORITY||Difference between LS Means.|-0.5||||0.0083|TWO_SIDED|95.0|-0.9|-0.1|||ANOVA|||||-0.1|-0.9|0.0083
92209607|NCT03373201|184319862|SUPERIORITY||Difference between LS Means.|6.6||||0.0099|TWO_SIDED|95.0|1.6|11.6|||ANOVA|||||11.6|1.6|0.0099
92146649|NCT02954354|184178078|SUPERIORITY|||||||0.4767||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.4767
92209608|NCT03464097|184319863|SUPERIORITY||Odds Ratio (OR)|1.59||||0.0539|TWO_SIDED|95.0|0.99|2.55|||Cochran-Mantel-Haenszel|||||2.55|0.99|0.0539
92209609|NCT03464097|184319864|SUPERIORITY||Odds Ratio (OR)|1.51||||0.1503|TWO_SIDED|95.0|0.86|2.65|||Cochran-Mantel-Haenszel|||||2.65|0.86|0.1503
92209610|NCT03464097|184319865|SUPERIORITY||Odds Ratio (OR)|1.45||||0.1121|TWO_SIDED|95.0|0.92|2.29|||Cochran-Mantel-Haenszel|||||2.29|0.92|0.1121
92209611|NCT03464097|184319866|SUPERIORITY||Odds Ratio (OR)|1.46||||0.1163|TWO_SIDED|95.0|0.91|2.35|||Cochran-Mantel-Haenszel|||||2.35|0.91|0.1163
92209612|NCT03464097|184319867|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0561|TWO_SIDED|95.0|0.98|3.2|||Cochran-Mantel-Haenszel|||||3.20|0.98|0.0561
92209613|NCT03464097|184319868|SUPERIORITY||Odds Ratio (OR)|1.31||||0.5061|TWO_SIDED|95.0|0.6|2.86|||Cochran-Mantel-Haenszel|||||2.86|0.60|0.5061
92209614|NCT03464097|184319869|SUPERIORITY||Odds Ratio (OR)|2.11||||0.1179|TWO_SIDED|95.0|0.82|5.44|||Cochran-Mantel-Haenszel|||||5.44|0.82|0.1179
92209615|NCT03464097|184319870|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0769|TWO_SIDED|95.0|0.94|3.39|||Cochran-Mantel-Haenszel|||||3.39|0.94|0.0769
92209616|NCT03464097|184319871|SUPERIORITY||Odds Ratio (OR)|2.71||||0.0623|TWO_SIDED|95.0|0.92|7.98|||Cochran-Mantel-Haenszel|||||7.98|0.92|0.0623
92209617|NCT03464097|184319872|SUPERIORITY||Odds Ratio (OR)|1.63||||0.1162|TWO_SIDED|95.0|0.89|3.0|||Cochran-Mantel-Haenszel|||||3.00|0.89|0.1162
92209618|NCT03464097|184319873|SUPERIORITY||Odds Ratio (OR)|1.34||||0.2143|TWO_SIDED|95.0|0.85|2.11|||Cochran-Mantel-Haenszel|||||2.11|0.85|0.2143
92209619|NCT03464097|184319874|SUPERIORITY||Odds Ratio (OR)|1.58||||0.0663|TWO_SIDED|95.0|0.97|2.57|||Cochran-Mantel-Haenszel|||||2.57|0.97|0.0663
92209620|NCT03464097|184319875|SUPERIORITY||Odds Ratio (OR)|3.81||||0.0774|TWO_SIDED|95.0|0.78|18.64|||Cochran-Mantel-Haenszel|||||18.64|0.78|0.0774
92209621|NCT03464097|184319877|SUPERIORITY||Odds Ratio (OR)|1.88||||0.0308|TWO_SIDED|95.0|1.06|3.33|||Cochran-Mantel-Haenszel|||||3.33|1.06|0.0308
92209622|NCT03464097|184319878|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8745|TWO_SIDED|95.0|0.57|1.95|||Cochran-Mantel-Haenszel|||||1.95|0.57|0.8745
92209623|NCT03464097|184319879|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0361|TWO_SIDED|95.0|1.04|3.78|||Cochran-Mantel-Haenszel|||||3.78|1.04|0.0361
92146650|NCT02954354|184178078|SUPERIORITY|||||||0.3353||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.3353
92146651|NCT02954354|184178079|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
92146652|NCT02954354|184178079|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
92146653|NCT02954354|184178079|SUPERIORITY|||||||0.0852||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.0852
92146654|NCT02954354|184178079|SUPERIORITY|||||||0.0063||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.0063
92146655|NCT02954354|184178079|SUPERIORITY|||||||0.6187||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.6187
92146656|NCT02954354|184178079|SUPERIORITY|||||||0.8637||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|||Day 9||||0.8637
92146657|NCT02954354|184178080|SUPERIORITY|||||||0.6145||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||0.6145
92334935|NCT00435188|184573027|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||Mixed Models Analysis|||Omnibus P value reporting overall differences between groups for group and group by time interaction with two degrees of freedom||||0.47
92334936|NCT00435188|184573030|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Mixed Models Analysis|||Omnibus P value for overall difference between groups at the end of the study and group by time interaction on two degrees of freedom||||0.04
92271659|NCT02625207|184444988|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|85.85||||0.1369|TWO_SIDED|90.0|72.48|101.68|||Mixed Models Analysis|||||101.68|72.48|0.1369
92334937|NCT00435188|184573031|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Omnibus P value provides the overall differences between groups at the end of the study||||<0.001
92334938|NCT00435188|184573034|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Mixed Models Analysis|||Omnibus P value provides the overall difference between groups at the end of the study||||0.29
92146658|NCT02954354|184178080|SUPERIORITY|||||||0.2505||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||0.2505
92146659|NCT02954354|184178080|SUPERIORITY|||||||0.419||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.4190
92146660|NCT02954354|184178080|SUPERIORITY|||||||0.0095||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.0095
92146661|NCT02954354|184178080|SUPERIORITY|||||||0.7393||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.7393
92146662|NCT02954354|184178080|SUPERIORITY|||||||0.0049||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.0049
92334939|NCT00435188|184573037|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Mixed Models Analysis|||P value provides overall differences between groups at the end of the study||||0.35
92146663|NCT02954354|184178081|SUPERIORITY|||||||0.2266||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||0.2266
92146664|NCT02954354|184178081|SUPERIORITY|||||||0.1379||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||0.1379
92271660|NCT02625207|184444988|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|63.38|||<|0.0001|TWO_SIDED|90.0|53.51|75.07|||Mixed Models Analysis|||||75.07|53.51|< 0.0001
92271661|NCT02625207|184444988|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|73.83||||0.0036|TWO_SIDED|90.0|62.57|87.13|||Mixed Models Analysis|||||87.13|62.57|0.0036
92334940|NCT00435188|184573040|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Mixed Models Analysis|||P value provides the overall differences between groups at the end of the study||||0.08
92369323|NCT03745638|184643545|SUPERIORITY||Least Squares Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|3.85|<|0.0001|TWO_SIDED|95.0|-22.95|-7.81|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent overall work impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-7.81|-22.95|<0.0001
92146665|NCT02954354|184178081|SUPERIORITY|||||||0.5479||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.5479
92146666|NCT02954354|184178081|SUPERIORITY|||||||0.0241||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.0241
92146667|NCT02954354|184178081|SUPERIORITY|||||||0.0898||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.0898
92146668|NCT02954354|184178081|SUPERIORITY|||||||0.2548||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.2548
92146669|NCT02954354|184178082|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
92146670|NCT02954354|184178082|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
92146671|NCT02954354|184178082|SUPERIORITY|||||||0.0008||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.0008
92146672|NCT02954354|184178082|SUPERIORITY|||||||0.0132||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.0132
92146673|NCT02954354|184178082|SUPERIORITY|||||||0.9307||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.9307
92146674|NCT02954354|184178082|SUPERIORITY|||||||0.1677||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.1677
92146675|NCT02954354|184178083|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
92209624|NCT03035201|184319880|OTHER|two-tailed test of the null hypothesis of no differences between groups.|Mean from linear contrast|0.03|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED|95.0|-0.02|0.08||Not adjusted|Mixed Models Analysis||Marginal effect of cocoa flavonal versus cocoa placebo based on the mean difference between linear contrasts.|Marginal comparisons from a repeated measures model using a linear contrast to estimate the mean differences between baseline versus average values across follow-up.|Wald test of a linear contrast from the mixed effects analysis....see protocol.|0.08|-0.02|<0.05
92146676|NCT02954354|184178083|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
92146677|NCT02954354|184178083|SUPERIORITY|||||||0.801||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.8010
92146678|NCT02954354|184178083|SUPERIORITY|||||||0.9451||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.9451
92146679|NCT02954354|184178083|SUPERIORITY|||||||0.2256||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.2256
92146680|NCT02954354|184178083|SUPERIORITY|||||||0.3332||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.3332
92146681|NCT02954354|184178084|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
92146682|NCT02954354|184178084|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
92146683|NCT02954354|184178084|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||<0.0001
92146684|NCT02954354|184178084|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||<0.0001
92146685|NCT02954354|184178084|SUPERIORITY|||||||0.001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.0010
92146686|NCT02954354|184178084|SUPERIORITY|||||||0.0002||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.0002
92146687|NCT02954354|184178085|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
92146688|NCT02954354|184178085|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
92146689|NCT02954354|184178085|SUPERIORITY|||||||0.4148||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.4148
92369324|NCT03745638|184643545|SUPERIORITY||Least Squares Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|3.77||0.0011|TWO_SIDED|95.0|-19.85|-5.01|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent overall work impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-5.01|-19.85|0.0011
92146690|NCT02954354|184178085|SUPERIORITY|||||||0.0338||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.0338
92271662|NCT02625207|184444988|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|73.99||||0.0038|TWO_SIDED|90.0|62.7|87.31|||Mixed Models Analysis|||||87.31|62.70|0.0038
92369325|NCT03745638|184643545|SUPERIORITY||Least Squares Mean Difference|-10.5|STANDARD_ERROR_OF_MEAN|2.13|<|0.0001|TWO_SIDED|95.0|-14.64|-6.29|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent activity impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-6.29|-14.64|<0.0001
92146691|NCT02954354|184178085|SUPERIORITY|||||||0.9619||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.9619
92146692|NCT02954354|184178085|SUPERIORITY|||||||0.8491||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.8491
92146693|NCT02954354|184178086|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||<0.0001
92146694|NCT02954354|184178087|SUPERIORITY|||||||0.0313||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.0313
92146695|NCT02954354|184178088|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||<0.0001
92146696|NCT02954354|184178089|SUPERIORITY|||||||0.2424||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.2424
92146697|NCT02954354|184178090|SUPERIORITY||Difference|-72.0|||<|0.0001|TWO_SIDED|95.0|-72.0|-48.0||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||-48.0|-72.0|<0.0001
92146698|NCT02954354|184178091|SUPERIORITY||Difference|-48.0|||<|0.0001|TWO_SIDED|95.0|-72.0|-24.0||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||-24.0|-72.0|<0.0001
92271663|NCT02625207|184444989|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|82.59||||0.0531|TWO_SIDED|90.0|70.33|96.98|||Mixed Models Analysis|||||96.98|70.33|0.0531
92146699|NCT02954354|184178092|SUPERIORITY||Difference|-24.0||||0.002|TWO_SIDED|95.0|-120.0|0.0||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||0.0|-120.0|0.0020
92146700|NCT02954354|184178093|SUPERIORITY||Difference|-24.0||||0.0102|TWO_SIDED|95.0|-48.0|24.0||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||24.0|-48.0|0.0102
92146701|NCT02954354|184178094|SUPERIORITY|||||||0.5973||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||12 hours||||0.5973
92146702|NCT02954354|184178094|SUPERIORITY|||||||0.001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||24 hours||||0.0010
92146703|NCT02954354|184178094|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||36 hours||||<0.0001
92146704|NCT02954354|184178094|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||48 hours||||<0.0001
92146705|NCT02954354|184178094|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||72 hours||||<0.0001
92209625|NCT03035201|184319881|EQUIVALENCE|two-tailed test of the null hypothesis of no differences between groups.|Mean difference of linear contrasts|0.07|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED|95.0|0.02|0.12||Not adjusted|Wald test||Marginal effects of multivitamin versus multivitamin placebo|Marginal comparisons from a repeated measures model using a linear contrast to estimate the mean differences between baseline versus average values across follow-up.|Wald test of a linear contrast from the mixed effects analysis....see protocol|0.12|0.02|<0.05
92209626|NCT03035201|184319882|EQUIVALENCE|Proportional hazards regression -- unadjusted two-sided test|Hazard Ratio (HR)|0.76||||0.15|TWO_SIDED|95.0|0.52|1.11||Not adjusted|Regression, Cox||Comparison group is placebo|||1.11|0.52|0.15
92209627|NCT03035201|184319883|EQUIVALENCE|Unadjusted 2-sided test|Cox Proportional Hazard|0.91||||0.62|TWO_SIDED|95.0|0.63|1.32||Unadjusted|Regression, Cox||Comparison group is placebo.|||1.32|0.63|0.62
92209628|NCT03035201|184319884|EQUIVALENCE|Cocoa Flavonal minus Placebo|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.24|TWO_SIDED|95.0|-0.02|0.08||Unadjusted|Mixed Models Analysis|Wald test comparing linear contrasts|Cocoa Flavonal minus placebo|||0.08|-0.02|0.24
92209629|NCT03035201|184319885|EQUIVALENCE|two-sided|Median Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.41|TWO_SIDED|95.0|-0.04|0.09||Unadjusted|Mixed Models Analysis|Comparison of linear contrasts: cocoa flavonal minus placebo|Cocoa flavonal minus placebo|Unadjusted 2-tailed test||0.09|-0.04|0.41
92146706|NCT02954354|184178094|SUPERIORITY|||||||0.0115||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||96 hours||||0.0115
92146707|NCT02954354|184178094|SUPERIORITY|||||||0.1298||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||120 hours||||0.1298
92146708|NCT02954354|184178094|SUPERIORITY|||||||0.117||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||144 hours||||0.1170
92146709|NCT02954354|184178094|SUPERIORITY|||||||0.0757||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||168 hours||||0.0757
92146710|NCT02954354|184178094|SUPERIORITY|||||||0.9453||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||192 hours||||0.9453
92146711|NCT02954354|184178094|SUPERIORITY|||||||0.8657||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||216 hours||||0.8657
92209630|NCT03035201|184319886|EQUIVALENCE|2 sided test, multivitamin minus placebo|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.02|TWO_SIDED|95.0|0.01|0.11||Unadjusted|Mixed Models Analysis|Comparison of linear contrasts|Multivitamin minus placebo|2-sided test, unadjusted||0.11|0.01|0.02
92209631|NCT03035201|184319887|EQUIVALENCE|2-sided, unadjusted|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.04|TWO_SIDED|95.0|0.002|0.126||Unadjusted|Mixed Models Analysis|Comparison of linear contrasts|Multivitamin minus placebo|Multivitamin minus placebo||0.126|0.002|0.04
92209632|NCT02390050|184319888|SUPERIORITY||Difference of LS Means|-0.55|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.34||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||||-0.34|-0.76|< 0.0001
92209633|NCT02390050|184319888|SUPERIORITY||Difference of LS Means|-0.68|||<|0.0001|TWO_SIDED|95.0|-0.89|-0.47||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||||-0.47|-0.89|< 0.0001
92146712|NCT02954354|184178095|SUPERIORITY|||||||0.0458||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||12 hours||||0.0458
92146713|NCT02954354|184178095|SUPERIORITY|||||||0.7565||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||24 hours||||0.7565
92146714|NCT02954354|184178095|SUPERIORITY|||||||0.3297||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||36 hours||||0.3297
92146715|NCT02954354|184178095|SUPERIORITY|||||||0.4442||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||48 hours||||0.4442
92146716|NCT02954354|184178095|SUPERIORITY|||||||0.6029||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||72 hours||||0.6029
92146717|NCT02954354|184178095|SUPERIORITY|||||||0.9881||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||96 hours||||0.9881
92146718|NCT02954354|184178095|SUPERIORITY|||||||0.9257||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||120 hours||||0.9257
92146719|NCT02954354|184178095|SUPERIORITY|||||||0.5317||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||144 hours||||0.5317
92146720|NCT02954354|184178095|SUPERIORITY|||||||0.2144||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||168 hours||||0.2144
92209634|NCT02390050|184319888|SUPERIORITY||Difference of LS Means|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.01|-0.59||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||||-0.59|-1.01|< 0.0001
92209635|NCT02390050|184319889|SUPERIORITY||Odds Ratio (OR)|2.1||||0.1308|TWO_SIDED|95.0|0.8|5.3|||Regression, Logistic|Treatment, country, baseline HbA1c and prior anti-diabetic treatment status as predictor variables and a dependable variable of 1 (\<7%) or 0 (\>7%).||Odds ratio of having at least 1 post-baseline HbA1c value \<7% in the 5 mg bexagliflozin group was compared to placebo group.||5.3|0.8|0.1308
92146721|NCT02954354|184178095|SUPERIORITY|||||||0.0413||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||192 hours||||0.0413
92146722|NCT02954354|184178095|SUPERIORITY|||||||0.0409||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||216 hours||||0.0409
92146723|NCT02954354|184178096|SUPERIORITY||Difference|-19.8|||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||<0.0001
92146724|NCT02954354|184178097|SUPERIORITY||Difference|-0.7||||0.4194||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.4194
92146725|NCT02954354|184178098|SUPERIORITY|The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Difference|-23.1|||<|0.0001|||||||Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||<0.0001
92146726|NCT02954354|184178099|SUPERIORITY||Difference|1.3||||0.4856||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.4856
92146727|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7173|TWO_SIDED|95.0|-0.5|0.7||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||12 hours||0.7|-0.5|0.7173
92146728|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.3||0.0009|TWO_SIDED|95.0|-1.7|-0.4||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||24 hours||-0.4|-1.7|0.0009
92209636|NCT02390050|184319889|SUPERIORITY||Odds Ratio (OR)|2.0||||0.1294|TWO_SIDED|95.0|0.8|5.1|||Regression, Logistic|Treatment, country, baseline HbA1c and prior anti-diabetic treatment status as predictor variables and a dependable variable of 1 (\<7%) or 0 (\>7%).||Odds ratio of having at least 1 post-baseline HbA1c value \<7% in the 10 mg bexagliflozin group was compared to placebo group.||5.1|0.8|0.1294
92271664|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|137.07||||0.0106|TWO_SIDED|90.0|112.4|167.15|||Mixed Models Analysis|||Statistical analysis of PF -6857639 was estimated and reported.||167.15|112.40|0.0106
92146729|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.4|-1.1||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||36 hours||-1.1|-2.4|<0.0001
92146730|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.4|-1.2||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||48 hours||-1.2|-2.4|<0.0001
92146731|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.0|-0.9||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||72 hours||-0.9|-2.0|<0.0001
92146732|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3||0.0001|TWO_SIDED|95.0|-1.5|-0.5||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||96 hours||-0.5|-1.5|0.0001
92146733|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1979|TWO_SIDED|95.0|-0.8|0.2||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||120 hours||0.2|-0.8|0.1979
92146734|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.1079|TWO_SIDED|95.0|-0.8|0.1||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||144 hours||0.1|-0.8|0.1079
92146735|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5805|TWO_SIDED|95.0|-0.6|0.3||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||168 hours||0.3|-0.6|0.5805
92146736|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.8057|TWO_SIDED|95.0|-0.4|0.5||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||192 hours||0.5|-0.4|0.8057
92334941|NCT01420016|184573081|EQUIVALENCE|The analysis used a time-by-condition mixed model to estimate the annual rate of change in post-index CV risk values by treatment group. The models included fixed effects for study arm (CDS vs. UC), time (years since index), and study-arm-by-time comparing the rate of change in CDS versus UC and a random clinic intercept. The intervention effect was the difference in rate of change in CDS versus UC clinics, with the study-arm-by-time interaction assessing statistical significance (P\<0.05).|Slope Difference (Net)|-2.25|||<|0.05|TWO_SIDED|95.0|-3.45|-1.04||A priori power analysis (power=.80, α2=.05) estimated detectable group difference in CVR at 1 year of \~2-3%, assuming 18 clinics, 1000 patients per clinic (actual 400), 3 CVR per patient (actual 2.3), and ICC=.01-03 (actual .019). p-value calculated.|Mixed Models Analysis||The intervention effect was the difference in annualized rates of change (slope) in CV risk in CDS versus UC clinics, with the study-arm-by-time interaction assessing statistical significance (P\<0.05).|||-1.04|-3.45|<0.05
92334942|NCT01454414|184573082|SUPERIORITY_OR_OTHER_LEGACY||Protective effectiveness= 1 - rate ratio|0.646||||0.004|TWO_SIDED|95.0|0.288|0.824|||Poisson regression|||Protective effectiveness (1 - the incidence rate ratio) and 95% CIs for comparing reported tick bites between the treatment and control groups were calculated using a GEE model with a Poisson distribution and log link, and included terms for treatment, year of follow-up, and the interaction of treatment and year of follow-up, with an offset variable for log outdoor work hours.||0.824|0.288|0.004
92334943|NCT03403621|184573111|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.42
92334944|NCT03403621|184573111|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.72
92334945|NCT03403621|184573111|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.51
92146737|NCT02954354|184178100|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9525|TWO_SIDED|95.0|-0.6|0.6||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||216 hours||0.6|-0.6|0.9525
92146738|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.4091|TWO_SIDED|95.0|-0.3|0.8||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||12 hours||0.8|-0.3|0.4091
92271665|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|164.06||||0.0001|TWO_SIDED|90.0|134.54|200.06|||Mixed Models Analysis|||Statistical analysis of PF -6857639 was estimated and reported.||200.06|134.54|0.0001
92334946|NCT03403621|184573111|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.58
92334947|NCT03403621|184573112|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.03
92334948|NCT03403621|184573112|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.08
92334949|NCT03403621|184573112|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.02
92146739|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3073|TWO_SIDED|95.0|-0.3|0.8||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||24 hours||0.8|-0.3|0.3073
92146740|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3465|TWO_SIDED|95.0|-0.8|0.3||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||36 hours||0.3|-0.8|0.3465
92146741|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4285|TWO_SIDED|95.0|-0.3|0.7||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||48 hours||0.7|-0.3|0.4285
92146742|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.6703|TWO_SIDED|95.0|-0.4|0.6||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||72 hours||0.6|-0.4|0.6703
92146743|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.7187|TWO_SIDED|95.0|-0.3|0.5||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||96 hours||0.5|-0.3|0.7187
92146744|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.135|TWO_SIDED|95.0|-0.1|0.7||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||120 hours||0.7|-0.1|0.1350
92146745|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.7046|TWO_SIDED|95.0|-0.3|0.5||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||144 hours||0.5|-0.3|0.7046
92146746|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.2765|TWO_SIDED|95.0|-0.2|0.6||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||168 hours||0.6|-0.2|0.2765
92146747|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0274|TWO_SIDED|95.0|0.0|0.8||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||192 hours||0.8|0.0|0.0274
92146748|NCT02954354|184178101|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.6001|TWO_SIDED|95.0|-0.3|0.6||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||216 hours||0.6|-0.3|0.6001
92146749|NCT02954354|184178102|SUPERIORITY||Difference|-17.5|||<|0.0001|TWO_SIDED|95.0|-21.1|-11.9||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||-11.9|-21.1|<0.0001
92146750|NCT02954354|184178103|SUPERIORITY|||||||0.9225||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.9225
92146751|NCT02954354|184178104|SUPERIORITY|||||||0.7866||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||12 hours||||0.7866
92146752|NCT02954354|184178104|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||24 hours||||<0.0001
92146753|NCT02954354|184178104|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||36 hours||||<0.0001
92146754|NCT02954354|184178104|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||48 hours||||<0.0001
92146755|NCT02954354|184178104|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||72 hours||||<0.0001
92146756|NCT02954354|184178104|SUPERIORITY|||||||0.7044||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||96 hours||||0.7044
92146757|NCT02954354|184178104|SUPERIORITY|||||||0.8512||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||120 hours||||0.8512
92146758|NCT02954354|184178104|SUPERIORITY|||||||0.8783||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||144 hours||||0.8783
92146759|NCT02954354|184178104|SUPERIORITY|||||||0.8291||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||168 hours||||0.8291
92146760|NCT02954354|184178104|SUPERIORITY|||||||0.8644||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||192 hours||||0.8644
92146761|NCT02954354|184178104|SUPERIORITY|||||||0.9312||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||216 hours||||0.9312
92146762|NCT02954354|184178105|SUPERIORITY|||||||0.2953||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||12 hours||||0.2953
92146763|NCT02954354|184178105|SUPERIORITY|||||||0.5414||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||24 hours||||0.5414
92146764|NCT02954354|184178105|SUPERIORITY|||||||0.2079||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||36 hours||||0.2079
92146765|NCT02954354|184178105|SUPERIORITY|||||||0.7771||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world)||48 hours||||0.7771
92146766|NCT02954354|184178105|SUPERIORITY|||||||0.0215||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||72 hours||||0.0215
92146767|NCT02954354|184178105|SUPERIORITY|||||||0.8033||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world)||96 hours||||0.8033
92334950|NCT03403621|184573112|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.007
92146768|NCT02954354|184178105|SUPERIORITY|||||||0.4157||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||120 hours||||0.4157
92146769|NCT02954354|184178105|SUPERIORITY|||||||0.5908||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world)||144 hours||||0.5908
92146770|NCT02954354|184178105|SUPERIORITY|||||||0.2975||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||168 hours||||0.2975
92146771|NCT02954354|184178105|SUPERIORITY|||||||0.8644||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||192 hours||||0.8644
92146772|NCT02954354|184178105|SUPERIORITY|||||||0.5573||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.m|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||216 hours||||0.5573
92146773|NCT02954354|184178106|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.08||0.2557|TWO_SIDED|95.0|-0.24|0.06||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||12 hours||0.06|-0.24|0.2557
92271666|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|198.49|||<|0.0001|TWO_SIDED|90.0|162.77|242.05|||Mixed Models Analysis|||Statistical analysis of PF -6857639 was estimated and reported.||242.05|162.77|< 0.0001
92334951|NCT03403621|184573113|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.21
92146774|NCT02954354|184178106|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.46|-0.22||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||24 hours||-0.22|-0.46|<0.0001
92146775|NCT02954354|184178106|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.52|-0.29||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||36 hours||-0.29|-0.52|<0.0001
92271667|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|120.99||||0.1061|TWO_SIDED|90.0|99.65|146.9|||Mixed Models Analysis|||Statistical analysis of PF -6857639 was estimated and reported.||146.90|99.65|0.1061
92334952|NCT03403621|184573113|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.18
92334953|NCT03403621|184573113|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.33
92146776|NCT02954354|184178106|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.48|-0.27||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||48 hours||-0.27|-0.48|<0.0001
92146777|NCT02954354|184178106|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.31|-0.13||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||72 hours||-0.13|-0.31|<0.0001
92146778|NCT02954354|184178106|SUPERIORITY||LS Mean Dfference|-0.04|STANDARD_ERROR_OF_MEAN|0.05||0.4484|TWO_SIDED|95.0|-0.13|0.06||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||96 hours||0.06|-0.13|0.4484
92146779|NCT02954354|184178106|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.5963|TWO_SIDED|95.0|-0.07|0.11||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||0.11|-0.07|0.5963
92146780|NCT02954354|184178107|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.07||0.0937|TWO_SIDED|95.0|-0.02|0.24||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||12 hours||0.24|-0.02|0.0937
92146781|NCT02954354|184178107|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.3343|TWO_SIDED|95.0|-0.05|0.16||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||24 hours||0.16|-0.05|0.3343
92146782|NCT02954354|184178107|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.9258|TWO_SIDED|95.0|-0.09|0.1||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||36 hours||0.10|-0.09|0.9258
92146783|NCT02954354|184178107|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.6574|TWO_SIDED|95.0|-0.1|0.06||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||48 hours||0.06|-0.10|0.6574
92146784|NCT02954354|184178107|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.852|TWO_SIDED|95.0|-0.09|0.07||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||72 hours||0.07|-0.09|0.8520
92146785|NCT02954354|184178107|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.04||0.4532|TWO_SIDED|95.0|-0.05|0.11||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||96 hours||0.11|-0.05|0.4532
92146786|NCT02954354|184178107|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.04||0.157|TWO_SIDED|95.0|-0.02|0.13||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||120 hours||0.13|-0.02|0.1570
92146787|NCT02954354|184178108|SUPERIORITY||Difference|-23.1||||0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Cough||||0.0001
92334954|NCT03403621|184573113|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.5
92334955|NCT01738191|184573143|SUPERIORITY|||||||0.25||||||two sided|Global Statistical Test|df=28||The primary comparison between ATM and placebo used O'Brien's Global Statistical Test (GST) to analyze change from baseline to 10 weeks for the set of neuropsychological measures included in the primary efficacy outcome.||||0.25
92146788|NCT02954354|184178108|SUPERIORITY||Difference|-9.0||||0.0298||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Sore throat||||0.0298
92146789|NCT02954354|184178108|SUPERIORITY||Difference|-11.8||||0.0297||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Headache||||0.0297
92146790|NCT02954354|184178108|SUPERIORITY||Difference|-20.7||||0.0027||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Nasal Congestion||||0.0027
92271668|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|272.07|||<|0.0001|TWO_SIDED|90.0|224.08|330.33|||Mixed Models Analysis|||Statistical analysis of PF -6857639 was estimated and reported.||330.33|224.08|<0.0001
92334956|NCT04811664|184573155|SUPERIORITY||Vaccine efficacy, (1-HR) *100%|52.6|||||TWO_SIDED|95.0|-14.1|80.3|||||"Immediate Vaccination compared to Standard of care (reference). Wald 95% CI."|Cox model on the calendar time scale, stratified by site and adjusted for sex, residence, team sport participation, mask wearing and SARS-CoV-2 exposure risk score. Outside vaccination censoring.||80.3|-14.1|
92146791|NCT02954354|184178108|SUPERIORITY||Difference|-4.9||||0.0003||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world)||Feverishness or chills||||0.0003
92146792|NCT02954354|184178108|SUPERIORITY||Difference|-8.1||||0.0094||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Muscle or joint pain||||0.0094
92146793|NCT02954354|184178108|SUPERIORITY||Difference|-15.3||||0.0007||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Fatigue||||0.0007
92146794|NCT02954354|184178109|SUPERIORITY||Difference|6.8||||0.6623||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Cough||||0.6623
92146795|NCT02954354|184178109|SUPERIORITY||Difference|1.8||||0.8184||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Sore throat||||0.8184
92146796|NCT02954354|184178109|SUPERIORITY||Difference|1.3||||0.9989||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Headache||||0.9989
92146797|NCT02954354|184178109|SUPERIORITY||Difference|1.7||||0.3706||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Nasal congestion||||0.3706
92334957|NCT04811664|184573158|SUPERIORITY||Vaccine efficacy, (1-HR) *100%|71.0|||||TWO_SIDED|95.0|-9.5|92.3|||||"Immediate Vaccination compared to Standard of care (reference). Wald 95% CI."|Cox model on the calendar time scale, stratified by site and adjusted for sex, residence, team sport participation, mask wearing and SARS-CoV-2 exposure risk score. Outside vaccination censoring.||92.3|-9.5|
92334958|NCT04811664|184573159|SUPERIORITY||Vaccine efficacy, (1-HR) *100%|41.2|||||TWO_SIDED|95.0|-37.7|74.9|||||"Immediate Vaccination compared to Standard of care (reference). Wald 95% CI."|Cox model on the calendar time scale, stratified by site and adjusted for sex, residence, team sport participation, mask wearing and SARS-CoV-2 exposure risk score. Outside vaccination censoring.||74.9|-37.7|
92146798|NCT02954354|184178109|SUPERIORITY||Difference|-0.1||||0.9973||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Feverishness or chills||||0.9973
92146799|NCT02954354|184178109|SUPERIORITY||Difference|-0.7||||0.676||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Muscle or joint pain||||0.6760
92146800|NCT02954354|184178109|SUPERIORITY||Difference|2.2||||0.4241||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Fatigue||||0.4241
92146801|NCT02954354|184178110|SUPERIORITY|The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Difference|-39.5||||0.0563|||||||Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.0563
92146802|NCT02954354|184178111|SUPERIORITY||Difference|-0.6||||0.7176||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.7176
92146803|NCT02954354|184178112|SUPERIORITY|||||||0.6728||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||Any Complications||||0.6728
92146804|NCT02954354|184178113|SUPERIORITY|||||||0.2217||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||Any Complications||||0.2217
92146805|NCT03039023|184178120|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.2||||||A p-value \<0.05 was considered significant.|Wilcoxon signed-rank test|||||||0.20
92146806|NCT03039023|184178120|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
92146807|NCT03039023|184178120|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
92271669|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|110.22||||0.3081|TWO_SIDED|90.0|94.05|129.18|||Mixed Models Analysis|||Statistical analysis of PF -6857640 was estimated and reported.||129.18|94.05|0.3081
92146808|NCT03039023|184178120|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
92146809|NCT03039023|184178120|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.27||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.27
92146810|NCT03039023|184178121|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.1||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.10
92146811|NCT03039023|184178121|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.0002||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.0002
92146812|NCT03039023|184178121|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.01||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.01
92146813|NCT03039023|184178121|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.006||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.006
92146814|NCT03039023|184178121|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.79||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.79
92146815|NCT03039023|184178122|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.28||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.28
92146816|NCT03039023|184178122|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
92146817|NCT03039023|184178122|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
92146818|NCT03039023|184178122|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
92334959|NCT02717442|184573173|SUPERIORITY||Risk Ratio (RR)|0.658|||=|0.029|TWO_SIDED|95.0|0.453|0.957||Study week was based on each 4-week interval and was modeled as a categorical variable, and an offset for the log of the number of diary entries recorded for each 4-week interval post-baseline was included for each subject.|Regression, Linear|||The primary efficacy endpoint was compared between OTO-104 and placebo at the 2-tailed 0.05 alpha level using a generalized Poisson linear mixed model. The model included fixed effects for randomized treatment group, sex, study week, a treatment group by study week interaction, and the count of lead-in period DVD standardized to 28 days as a covariate.||0.957|0.453|=0.029
92146819|NCT03039023|184178122|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.11||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.11
92146820|NCT03039023|184178123|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.005||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.005
92271670|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|101.71||||0.8583|TWO_SIDED|90.0|86.79|119.2|||Mixed Models Analysis|||Statistical analysis of PF -6857640 was estimated and reported.||119.20|86.79|0.8583
92334960|NCT02717442|184573174|SUPERIORITY||Risk Ratio (RR)|0.59|||=|0.014|TWO_SIDED|95.0|0.388|0.896|||Regression, Linear|||The primary efficacy endpoint was compared between OTO-104 and placebo at the 2-tailed 0.05 alpha level using a generalized Poisson linear mixed model. The model included fixed effects for randomized treatment group, sex, study week, a treatment group by study week interaction, and the count of lead-in period DVD standardized to 28 days as a covariate.||0.896|0.388|=0.014
92146821|NCT03039023|184178123|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.001
92146822|NCT03039023|184178123|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.001
92146823|NCT03039023|184178123|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.009||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.009
92146824|NCT03039023|184178123|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.04||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.04
92146825|NCT03039023|184178124|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.93||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.93
92146826|NCT03039023|184178124|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.01||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.01
92146827|NCT03039023|184178124|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.003||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.003
92146828|NCT03039023|184178124|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.04||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.04
92146829|NCT03039023|184178124|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.99||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.99
92146830|NCT03039023|184178125|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.02||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.02
92146831|NCT03039023|184178125|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
92146832|NCT03039023|184178125|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
92146833|NCT03039023|184178125|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.001
92146834|NCT03039023|184178125|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.02||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.02
92146835|NCT00448448|184178143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93|||<|0.0267|TWO_SIDED|95.0|1.08|3.46|||Regression, Logistic|The success rate was adjusted for the propensity score (probability of receiving a brace) and the duration of follow-up.||||3.46|1.08|<0.0267
92146836|NCT02684006|184178149|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.0001|TWO_SIDED|95.0|0.475|0.79||2-sided p-value|Log Rank|||||0.790|0.475|0.0001
92146837|NCT02684006|184178150|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.1509|TWO_SIDED|95.0|0.701|1.057||2-sided p-value|Log Rank|||||1.057|0.701|0.1509
92146838|NCT02684006|184178151|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0002|TWO_SIDED|95.0|0.563|0.84||2-sided p-value|Log Rank|||||0.840|0.563|0.0002
92146839|NCT02684006|184178152|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1338|TWO_SIDED|95.0|0.749|1.039||2-sided p-value|Log Rank|||||1.039|0.749|0.1338
92146840|NCT02684006|184178161|SUPERIORITY||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.565|0.768||2-sided p-value|Log Rank|||||0.768|0.565|<.0001
92146841|NCT02684006|184178162|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.551|0.754||||||||0.754|0.551|
92146842|NCT01895972|184178214|OTHER||||||<|0.001||||||The reduction from baseline in IOP was significant at all post-baseline assessment time points through Week 52.|t-test, 2 sided|||comparison vs. baseline||||<0.001
92146843|NCT04085328|184178218|NON_INFERIORITY|Predefined margin of 0.05 for noninferiority|Difference in proportion|-0.0154|||||ONE_SIDED|95.0||-0.0015|||Generalized linear model|Proportion of events was analyzed using a generalized linear model, with a logit link function, accounting for within-subject correlation.|Difference in proportion = LID015385 minus Biofinity.|||-0.0015||
92146844|NCT01422408|184178242|OTHER|Two-sided test that the change is different from zero. Not tested against alternative treatment; single arm study.|||||<|0.001||||||2.5% significance level to account for two co-primary endpoints.|Wilcoxon (Mann-Whitney)|||The primary endpoints (i.e., change in symptoms of vaginal dryness from the baseline to 4 weeks, and change in symptoms of dyspareunia from the baseline to 4 weeks) will be analyzed using Wilcoxon signed rank test with 2.5% significance level to account for two co-primary endpoints.||||<0.001
92146845|NCT01422408|184178242|OTHER|Exact McNemar's test was used to test if the proportion of severe symptoms at baseline are equal to the proportion of severe symptoms at the end of the study.|Odds Ratio (OR)|0.0||||0.001|TWO_SIDED|95.0|0.0|0.36||Since there are two-co-primary endpoints, the significance level is 2.5%|McNemar|||"GEE (general estimating equation) methods were planned as a secondary analysis of the primary endpoints. Missing data for some of the weeks prevented these models from converging and we could not obtain valid results with these methods. Since this is a secondary analysis, we decided to compare symptom severity at baseline vs. week 4 (end of study). Symptoms are considered severe for scores 3 or 4 and not severe for scores 0, 1, 2"||0.36|0|0.001
92334961|NCT03275389|184573226|EQUIVALENCE|The use of the adjuvant (AS03) is to be considered justified if the lower limit of the 94.46% CI of the GMC ratio (adjuvanted vs non-adjuvanted) is \> 1.50|GMC ratio|2.47|||||TWO_SIDED|94.46|2.06|2.95|||Dunnett's t test|Comparison performed using a 2-sided alpha=0.1 and Dunnett adjustment for multiple comparisons,||To evaluate the adjuvant effect of AS03 (Pooling of results at Day 29 of D-SUIV Adjuvant Group 1, at Day 29 of D-SUIV Adjuvant Group 2 and Day 85 of D-SUIV Adjuvant Group 3) on the humoral immune response for anti-H1 stalk antibody by ELISA at Day 29 and Day 85 (i.e. 28 days post-vaccination) when compared to the non-adjuvanted formulations (Pooling of results at Day 29 of D-SUIV Unadjuvanted Group 1, at Day 29 of D-SUIV Unadjuvanted Group 2 and Day 85 of D-SUIV Unadjuvanted Group 3).||2.95|2.06|
92209637|NCT02390050|184319889|SUPERIORITY||Odds Ratio (OR)|4.2||||0.0015|TWO_SIDED|95.0|1.7|10.3|||Regression, Logistic|Treatment, country, baseline HbA1c and prior anti-diabetic treatment status as predictor variables and a dependable variable of 1 (\<7%) or 0 (\>7%).||Odds ratio of having at least 1 post-baseline HbA1c value \<7% in the 20 mg bexagliflozin group was compared to placebo group.||10.3|1.7|0.0015
92271671|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|108.52||||0.3913|TWO_SIDED|90.0|92.6|127.17|||Mixed Models Analysis|||Statistical analysis of PF -6857640 was estimated and reported.||127.17|92.60|0.3913
92146846|NCT01422408|184178243|OTHER|Two-sided test that the change is different from zero. Not tested against alternative treatment; single arm study.||||||0.002||||||2.5% significance level to account for two co-primary endpoints.|Wilcoxon (Mann-Whitney)|||The primary endpoints (i.e., change in symptoms of vaginal dryness from the baseline to 4 weeks, and change in symptoms of dyspareunia from the baseline to 4 weeks) will be analyzed using Wilcoxon signed rank test with 2.5% significance level to account for two co-primary endpoints.||||0.002
92146847|NCT01422408|184178243|OTHER|Exact McNemar's test was used to test if the proportion of severe symptoms at baseline are equal to the proportion of severe symptoms at the end of the study.|Odds Ratio (OR)|0.0||||0.062|TWO_SIDED|95.0|0.0|1.09||Since there are two-co-primary endpoints, the significance level is 2.5%|McNemar|||"GEE (general estimating equations) methods were planned as a secondary analysis of the primary endpoints. Missing data for some of the weeks prevented these models from converging and we could not obtain valid results with these methods. Since this is a secondary analysis, we decided to compare symptom severity at baseline vs. week 4 (end of study). Symptoms are considered severe for scores 3 or 4 and not severe for scores 0, 1, 2"||1.09|0|0.062
92146848|NCT01422408|184178244|OTHER|Two-sided test that the change is different from zero. Not tested against alternative treatment; single arm study.||||||0.001|||||||Wilcoxon (Mann-Whitney)|||The secondary endpoints (i.e., change in symptoms of vaginal itching from the baseline to 4 weeks, and change in vaginal index score from the baseline to 4 weeks) will be analyzed using Wilcoxon signed rank test with 2.5% significance level to account for two co-secondary endpoints.||||0.001
92146849|NCT01422408|184178245|OTHER|2.5% significance level to account for two co-primary endpoints.||||||0.002|||||||Wilcoxon (Mann-Whitney)|||The secondary endpoints (i.e., change in symptoms of vaginal itching from the baseline to 4 weeks, and change in vaginal index score from the baseline to 4 weeks) will be analyzed using Wilcoxon signed rank test with 2.5% significance level to account for two co-secondary endpoints.||||0.002
92146850|NCT01422408|184178247|OTHER|||||||0.1029||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.1029
92146851|NCT01422408|184178248|OTHER|||||||0.2678||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.2678
92146852|NCT01422408|184178249|OTHER|||||||0.2472||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.2472
92146853|NCT01422408|184178250|OTHER|||||||0.507||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.507
92146854|NCT01422408|184178251|OTHER|||||||0.3676||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.3676
92146855|NCT01422408|184178252|OTHER|||||||0.6023||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.6023
92146856|NCT01422408|184178253|OTHER|||||||0.6587||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.6587
92146857|NCT01422408|184178254|OTHER|||||||0.8772||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.8772
92146858|NCT01422408|184178255|OTHER|||||||0.7395||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.7395
92146859|NCT01422408|184178256|OTHER|||||||0.9618||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.9618
92369326|NCT03745638|184643545|SUPERIORITY||Least Squares Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|2.12|<|0.0001|TWO_SIDED|95.0|-16.6|-8.29|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent activity impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-8.29|-16.60|<0.0001
92146860|NCT01422408|184178257|OTHER|||||||0.5113||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.5113
92146861|NCT01422408|184178258|OTHER|||||||0.8833||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.8833
92146862|NCT01422408|184178259|OTHER|||||||0.7983||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.7983
92146863|NCT01422408|184178260|OTHER|||||||0.4937||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.4937
92146864|NCT01422408|184178261|OTHER|||||||0.9106||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.9106
92146865|NCT01422408|184178262|OTHER|||||||0.507||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.507
92209638|NCT02390050|184319890|SUPERIORITY||Difference of LS Means|-0.74|||||TWO_SIDED|95.0|-1.13|-0.36||||||Week 2: Difference in LS mean change in body weight from baseline to week 2 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.36|-1.13|
92146866|NCT01422408|184178263|OTHER|||||||0.3676||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.3676
92146867|NCT01422408|184178264|OTHER|||||||0.6023||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.6023
92146868|NCT01422408|184178265|OTHER|||||||0.08531||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.08531
92146869|NCT01422408|184178266|OTHER|||||||0.2011||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.2011
92146870|NCT01422408|184178267|OTHER|||||||0.1187||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.1187
92146871|NCT02038894|184178275|NON_INFERIORITY|A previous study for evaluating respiratory complications with intubated and insufflated techniques found a difference in the incidence of respiratory complications of 9.1%, a power analysis was determined. 200 subjects per group was estimated provide 82% power to detect a difference. We elected to do an interim analysis when 60 children per group were recruited because of a clinical impression that one of the techniques had a grossly divergent incidence of respiratory complications.|Odds Ratio (OR)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.14||Threshold for significance \<0.05 Comparing SPO2 \<95%|Mean equality test|||||0.14|0|<0.0001
92146872|NCT02038894|184178275|NON_INFERIORITY|A previous study found an incidence of respiratory complications of 9.1%. 200 subjects per group was estimated provide 82% power to detect a difference when conducting a two- sided test at a significance level of a = 0.05.We did an interim analysis when 60 children per group were recruited because of a clinical impression that one of the techniques had a grossly divergent incidence of respiratory complications. Based on the results of that interim analysis, recruitment was discontinued|Odds Ratio (OR)|0.0||||0.0001|TWO_SIDED|95.0|0.0|0.27||p\<0.05. Sp02\<85%|Mean equality test||Odds ratios were calculated to the respiratory complications comparing the different groups and by regrouping by the differences in airway management (IS + IP vs NA) and by the medication used for anesthesia maintenance (IS vs IP + NA)|||0.27|0|0.0001
92146873|NCT02038894|184178276|NON_INFERIORITY|No previous data was available to calculate a power calculation for the secondary outcome.||||||0.901||||||Threshold of Significance|Mean equality test|||Total OR Time||||0.901
92146874|NCT00724152|184178277|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||Null hypothesis: The Cognitive Behavioral Therapy group would not demonstrate decreased distress at post-treatment as compared to the Tinnitus Education group on the primary outcome measure (THI) between pre-treatment and post-treatment.||||<0.05
92146875|NCT03266770|184178288|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.83|TWO_SIDED|95.0|-1.07|1.29|||t-test, 2 sided|||||1.29|-1.07|0.83
92146876|NCT04274894|184178290|NON_INFERIORITY|"The hypothesis for the primary safety analysis is:~H0: Change in 24-hour average SBP from Baseline to EOT ≥ 3 mmHg Vs. H1: Change in 24-hour average SBP from Baseline to EOT \< 3 mmHg"|LS Mean Change from Baseline to EOT|1.9|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|0.63|3.13||||||The primary endpoint of change from Baseline to End of Treatment (EOT) in average 24-hour SBP was evaluated using a linear regression model with change in average 24-hour SBP from Baseline to EOT as the dependent variable, centralized baseline average 24-hour SBP, ongoing medical history of hypertension, and pooled study center as covariates in the per protocol population.||3.13|0.63|
92146877|NCT03848403|184178296|SUPERIORITY||Least Squares (LS) Means Difference|-21.69|||<|0.0001|TWO_SIDED|95.0|-26.9|-16.48|||Mixed Models Analysis|||||-16.48|-26.90|<0.0001
92146878|NCT03848403|184178296|SUPERIORITY||LS Means Difference|-21.14|||<|0.0001|TWO_SIDED|95.0|-26.39|-15.88|||Mixed Models Analysis|||||-15.88|-26.39|<0.0001
92146879|NCT03848403|184178296|SUPERIORITY||LS Means Difference|0.55||||0.8341|TWO_SIDED|95.0|-4.65|5.75|||Mixed Models Analysis|||||5.75|-4.65|0.8341
92146880|NCT00101933|184178306|SUPERIORITY_OR_OTHER|||||||0.0017||95.0||||Since a treatment-by-visit interaction remains in the final model, the results were analyzed by visit. The results shown are for the last month in the blinded phase (month 3-4).|Generalized Estimating Equations|This analysis is adjusted for significant baseline covariates.||The numbers presented are the percentage reduction in the number of seizures in each group. A negative percentage change indicates a seizure reduction.||||0.0017
92146881|NCT00101933|184178308|SUPERIORITY_OR_OTHER||Rate per 1000 years of stimulation|4.9|||||TWO_SIDED|95.0|0.6|17.79|||No statistical test||The rate is calculated per 1000 subject years of follow-up based on 406 subject years of stimulation. The confidence interval is the 95% Poisson confidence interval. Per protocol, only definite and probable SUDEP were included in the calculation.|||17.79|0.60|
92146882|NCT00101933|184178309|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||Fisher Exact|||Fisher's Exact test. The numbers presented in this analysis are the number of subjects who were responders based on a responder definition including all subjects with 50% or greater improvement in total seizure count.||||0.830
92146883|NCT00101933|184178310|SUPERIORITY_OR_OTHER|||||||0.105||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.105
92146884|NCT00101933|184178311|SUPERIORITY_OR_OTHER|||||||0.498||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.498
92146885|NCT00101933|184178312|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92146886|NCT00101933|184178313|SUPERIORITY_OR_OTHER|||||||0.0387||95.0||||Since a visit-by-treatment interaction did not remain in the final model, the results shown are for the entire blinded phase.|Generalized Estimating Equations|This analysis is adjusted for significant baseline covariates.||The numbers presented are the percentage reduction in the number of seizures in each group. A negative percentage change indicates a seizure reduction.||||0.0387
92146887|NCT00101933|184178314|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Wilcoxon (Mann-Whitney)|||Numbers provided indicate the percentage change from baseline in seizure frequency of each participant's most severe seizures. Negative values indicate improvement from baseline.||||0.047
92146888|NCT00251862|184178364|SUPERIORITY_OR_OTHER||Absolute Difference|8.3||||0.046|TWO_SIDED|95.0|-2.2|14.2|||Chi-squared|||Sample size and power considerations focused on a two-group comparison of the DA alone versus control study arms for the primary outcome of colorectal cancer (CRC) screening test completion at 12 months. Based on crude estimates of baseline test completion rates, we calculated that a target sample of 275 subjects per arm provided greater than 80% power of detecting a 54% vs. 40% difference at the P\<0.05 level.||14.2|-2.2|0.046
92146889|NCT00251862|184178364|SUPERIORITY_OR_OTHER||Absolute Difference|6.0||||0.153|TWO_SIDED|95.0|0.2|16.5|||Chi-squared|||||16.5|0.2|0.153
92146890|NCT00251862|184178365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons: DA+YDR vs. Control, P\<0.001; DA alone vs. Control, P\<0.001|ANCOVA|||The three study groups were compared on cumulative pre-test and post-test knowledge through separate one-factor analysis of covariance (ANCOVA); followed pairwise comparisons using Bonferroni's adjusted multiple comparison procedure.||||<0.001
92146891|NCT00251862|184178366|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||The three study groups were compared through separate one-factor analysis of covariance (ANCOVA); followed pairwise comparisons using Bonferroni's adjusted multiple comparison procedure.||||<0.001
92146892|NCT00251862|184178367|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||The three study groups were compared through separate one-factor analysis of covariance (ANCOVA); followed pairwise comparisons using Bonferroni's adjusted multiple comparison procedure.||||<0.001
92146893|NCT01515748|184178369|SUPERIORITY|||||||0.0152||||||Threshold for statistical significance at 0.049.|Stratified Log Rank|||Analysis was performed using Kaplan-Meier method. Comparison was stratified based on site and TNM classification (T4/N-, T2/N+, T3-4/N+).||||0.0152
92146894|NCT01971723|184178406|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||ANOVA|Groups were compared against each other at the two different time points and against themselves at the same time points.||This statistical analysis is for the squat one repetition maximum outcomes, only.||||.38
92146895|NCT01971723|184178406|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANOVA|||This statistical analysis is for the bench press one repetition maximum outcomes, only.||||0.0001
92146896|NCT01971723|184178406|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||ANOVA|||This statistical analysis is for the deadlift one repetition maximum measures, only.||||.3
92146897|NCT01971723|184178406|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANOVA|||This statistical analysis compares the outcomes of the total weight lifted.||||0.0001
92271672|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|106.69||||0.4866|TWO_SIDED|90.0|91.36|124.6|||Mixed Models Analysis|||Statistical analysis of PF -6857640 was estimated and reported.||124.60|91.36|0.4866
92369327|NCT02993822|184643577|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.324|TWO_SIDED|95.0|0.88|1.49|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.49|0.88|0.324
92146898|NCT01971723|184178407|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
92146899|NCT01971723|184178408|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical measurement is for cholesterol measure outcomes, only.||||>.05
92146900|NCT01971723|184178408|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical analysis is for glucose measure outcomes, only.||||>.05
92146901|NCT01971723|184178408|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical analysis is for HDL measure outcomes, only.||||>.05
92146902|NCT01971723|184178408|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical analysis is for LDL measure outcomes, only.||||>.05
92146903|NCT01971723|184178408|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical analysis for the triglyceride measure outcomes, only.||||>.05
92146904|NCT01971723|184178409|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
92146905|NCT01971723|184178410|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
92146906|NCT01971723|184178411|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
92146907|NCT01971723|184178412|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
92146908|NCT01971723|184178413|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
92146909|NCT01971723|184178414|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>.05
92146910|NCT01971723|184178415|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is for deadlift volume measure outcomes, only.||||>.05
92146911|NCT01971723|184178415|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is for auxiliary squat volume measure outcomes, only.||||>.05
92146912|NCT01971723|184178415|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical analysis is for squat volume measure outcomes, only.||||>.05
92146913|NCT01971723|184178415|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is for bench volume measure outcomes, only.||||>.05
92146914|NCT01971723|184178415|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is for total squat volume measures, only.||||>.05
92146915|NCT01971723|184178415|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is for total weight lifted volume measure outcomes, only.||||>.05
92146916|NCT01971723|184178416|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
92146917|NCT01971723|184178417|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
92146918|NCT01971723|184178418|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||ANOVA|||||||.05
92146919|NCT03017079|184178427|NON_INFERIORITY|a:0.05;β：0.01 P=.046||||||0.05|||||||t-test, 2 sided|||P=.046||||0.05
92146920|NCT03017079|184178428|NON_INFERIORITY|a 0.05|Odds Ratio (OR)|0.05||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92146921|NCT03017079|184178429|SUPERIORITY|||||||0.05|||||||Chi-squared, Corrected|||||||0.05
92146922|NCT03017079|184178431|NON_INFERIORITY|According to the rule of a=0.05, P\<0.05 means that the hypothesis was true|||||<|0.05|||||||Chi-squared, Corrected|||||||<0.05
92146923|NCT04450108|184178432|SUPERIORITY|The change of FeNO values will be estimated in ANCOVA with baseline values as the covariable and will be reported as percent change together with the 95%-confidence interval.|||||<|0.001|||||||ANCOVA|||Since the effect size of the change (mean change / standard deviation) is on the order of 1 (resulting in N=10 and 13 for power = 80% and 90%, respectively) and therefore large, the sample size is not determined by the primary objective but by the necessity to achieve representative data of FeNO measurement data over all age groups, measurement ranges (\<, ≥ cut off) and sites. Thus, 120 subjects will be recruited.||||<0.001
92146924|NCT05050578|184178476|NON_INFERIORITY|Noninferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.003|||ONE_SIDED|95.0||0.0||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens by visit interaction, period, sequence) and random (subject) effects. Difference = LID18869 minus AOHG. Sign is retained with the rounded value.|||0.00||
92146925|NCT00990964|184178481|SUPERIORITY_OR_OTHER||One sample proportion|0.94|||||TWO_SIDED|95.0|0.929|0.951||||||||.951|.929|
92146926|NCT00990964|184178482|SUPERIORITY_OR_OTHER||One sample proportion|0.974|||||TWO_SIDED|95.0|0.965|0.98||||||||.980|.965|
92146927|NCT03386032|184178494|SUPERIORITY||||||<|0.05|||||||ANCOVA|Model adjusted means.||Change from baseline in variables were analyzed separately using a mixed model for repeated measures with Subject nested within treatment (random effect), and Treatment, Week, Treatment-by-Week, Age \& Baseline (fixed effects). Last Observation was Carried Forward (LOCF) for drops. Sporadic missing data were left missing.||||<0.05
92146928|NCT03386032|184178495|SUPERIORITY||||||<|0.05|||||||ANCOVA|Model adjusted means. Last Observation was Carried Forward (LOCF) for drops. Sporadic missing data were left miss||"Change from baseline in variables were analyzed separately using a mixed model for repeated measures with Subject nested within treatment (random effect), and Treatment, Week, Treatment-by-Week, Age \& Baseline (fixed effects). Last Observation was Carried Forward (LOCF) for drops. Sporadic missing data were left missing.~Significance level: 0.05 (2-sided)"||||<0.05
92146929|NCT04082442|184178511|SUPERIORITY|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||.0001
92146930|NCT04082442|184178512|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||||||.34
92146931|NCT04525547|184178514|OTHER|||||||0.817|||||||t-test, 2 sided|||||||0.8170
92146932|NCT04525547|184178515|OTHER|||||||0.6533|||||||t-test, 2 sided|||||||0.6533
92146933|NCT01493687|184178550|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92146934|NCT01493687|184178551|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.13|||<|0.001|TWO_SIDED|95.0|-10.12|-6.13|||ANCOVA|||||-6.13|-10.12|<0.001
92146935|NCT01493687|184178552|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92146936|NCT00089141|184178561|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.66||||0.22||95.0|0.7|3.7||P values are 2 sided and are based on likelihood ratio statistics.|Regression, Cox|Analysis for all endpoints was stratified by number of affected organs and type of conditioning regimen.|For all analyses, MMF arm in numerator, and placebo arm in denominator. Hazard ratio estimate includes 3 efficacy success events that occurred after two years in the placebo arm.|||3.7|0.7|.22
92146937|NCT00089141|184178562|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.65||||0.03||95.0|1.1|2.6|||Regression, Cox|Statistical analysis did not count treatment continuing beyond 2 years as efficacy failure (n = 2 in each arm).||||2.6|1.1|.03
92146938|NCT00089141|184178563|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.55||95.0|0.7|2.1|||Regression, Cox|||||2.1|0.7|.55
92146939|NCT00089141|184178564|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.61||||0.48||95.0|0.4|6.0|||Regression, Cox|||||6.0|0.4|.48
92146940|NCT00089141|184178565|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.74||||0.17||95.0|0.8|3.9|||Regression, Cox|adjusted for risk category||||3.9|0.8|.17
92146941|NCT00089141|184178566|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.62||||0.41||95.0|0.5|5.0|||Regression, Cox|||||5.0|0.5|.41
92146942|NCT00089141|184178567|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.69||||0.14||95.0|0.9|3.2|||Regression, Cox|||||3.2|0.9|.14
92146943|NCT00089141|184178568|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.99||||0.1||95.0|0.9|4.3|||Regression, Cox|||||4.3|0.9|.10
92146944|NCT00089141|184178569|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.28||||0.34||95.0|0.08|2.1|||Regression, Cox|||||2.1|.08|.34
92146945|NCT00089141|184178570|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51||||0.28||95.0|0.7|3.2|||Regression, Cox|||||3.2|0.7|.28
92146946|NCT03315143|184178576|SUPERIORITY||Hazard Ratio (HR)|0.74|||<|0.001|TWO_SIDED|95.0|0.63|0.88|||Cox proportional hazards model|||The estimates of the hazard ratio (HR) and corresponding 2-sided 95% confidence interval (CI) was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-cardiovascular (non-CV) death treated as a competing event.||0.88|0.63|<0.001
92146947|NCT03315143|184178577|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|95.0|0.55|0.82|||Cox proportional hazards model|||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.82|0.55|<0.001
92146948|NCT03315143|184178578|SUPERIORITY||Hazard Ratio (HR)|0.9|||=|0.35|TWO_SIDED|95.0|0.73|1.12|||Cox proportional hazards model|||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||1.12|0.73|=0.35
92146949|NCT03315143|184178579|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.63|0.83||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.83|0.63|
92334962|NCT03275389|184573226|EQUIVALENCE|The use of the adjuvant (AS01) is to be considered justified if the lower limit of the 94.46% CI of the GMC ratio (adjuvanted vs non-adjuvanted) is \> 1.50|GMC ratio|1.75|||||TWO_SIDED|94.46|1.46|2.1|||Dunnett's t test|Comparison performed using a 2-sided alpha=0.1 and Dunnett adjustment for multiple comparisons,||To evaluate the adjuvant effect of AS01 (Pooling of results at Day 29 of D-SUIV Adjuvant Group 4, at Day 29 of D-SUIV Adjuvant Group 5 and Day 85 of D-SUIV Adjuvant Group 6) on the humoral immune response for anti-H1 stalk antibody by ELISA at Day 29 and Day 85 (i.e. 28 days post-vaccination) when compared to the non-adjuvanted formulations (Pooling of results at Day 29 of D-SUIV Unadjuvanted Group 1, at Day 29 of D-SUIV Unadjuvanted Group 2 and Day 85 of D-SUIV Unadjuvanted Group 3).||2.1|1.46|
92334963|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.462||0.6797||95.0|-0.83|1.22|||ANOVA|||Difference from placebo (including Baseline), Day 1: 0.5 hours post-dose.||1.22|-0.83|0.6797
92334964|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.528||0.4811||95.0|-1.54|0.77|||ANOVA|||Difference from placebo (including Baseline), Day 1: 1 hour post-dose.||0.77|-1.54|0.4811
92334965|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.454||0.1693||95.0|-1.67|0.33|||ANOVA|||Difference from placebo (including Baseline), Day 1: 2 hours post-dose.||0.33|-1.67|0.1693
92334966|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.487||0.4034||95.0|-1.78|0.87|||ANOVA|||Difference from placebo (including Baseline) , Day 1: 3 hours post-dose.||0.87|-1.78|0.4034
92334967|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.694||0.1935||95.0|-2.36|0.5|||ANOVA|||Difference from placebo (including Baseline), Day 1: 4 hours post-dose.||0.50|-2.36|0.1935
92334968|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.715||0.0694||95.0|-2.83|0.12|||ANOVA|||Difference from placebo (including Baseline), Day 1: 5 hours post-dose.||0.12|-2.83|0.0694
92146950|NCT03315143|184178580|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.65|0.89||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.89|0.65|
92146951|NCT03315143|184178581|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.46|1.08||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||1.08|0.46|
92146952|NCT03315143|184178582|SUPERIORITY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.83|1.18||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction.||1.18|0.83|
92271673|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|119.61||||0.059|TWO_SIDED|90.0|102.42|139.69|||Mixed Models Analysis|||Statistical analysis of PF -6857640 was estimated and reported.||139.69|102.42|0.0590
92334969|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|0.713||0.0396||95.0|-3.02|-0.08|||ANOVA|||Difference from placebo (including Baseline), Day 1: 6 hours post-dose.||-0.08|-3.02|0.0396
92334970|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.319||0.1531||95.0|-1.25|0.24|||ANOVA|||Difference from placebo (including Baseline), Day 1: 8 hours post-dose.||0.24|-1.25|0.1531
92334971|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.637||0.0951||95.0|-2.79|0.29|||ANOVA|||Difference from placebo (including Baseline), Day 1: 10 hours post-dose.||0.29|-2.79|0.0951
92334972|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.615||0.0614||95.0|-2.84|0.09|||ANOVA|||Difference from placebo (including Baseline), Day 1: 12 hours post-dose.||0.09|-2.84|0.0614
92334973|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.619||0.1946||95.0|-2.29|0.54|||ANOVA|||Difference from placebo (including Baseline), Day 8: pre-dose.||0.54|-2.29|0.1946
92334974|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.553||0.2843||95.0|-2.2|0.84|||ANOVA|||Difference from placebo (including Baseline), Day 8: 0.5 hours post-dose.||0.84|-2.20|0.2843
92334975|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.82||0.215||95.0|-2.75|0.65|||ANOVA|||Difference from placebo (including Baseline), Day 8: 1 hour post-dose.||0.65|-2.75|0.2150
92334976|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.189||0.9601||95.0|-0.44|0.42|||ANOVA|||Difference from placebo (including Baseline), Day 8: 2 hours post-dose.||0.42|-0.44|0.9601
92334977|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.311||0.867||95.0|-0.64|0.74|||ANOVA|||Difference from placebo (including baseline), Day 8: 3 hours post-dose.||0.74|-0.64|0.8670
92146953|NCT03315143|184178583|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.65|0.91||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.91|0.65|
92146954|NCT01242748|184178594|NON_INFERIORITY_OR_EQUIVALENCE|Degarelix was considered to be non-inferior to goserelin with regard to the hazard ratio of PSA PFS failure rates as the upper limit of the two-sided 95% CI of the adjusted hazard ratio was less than the non-inferiority margin of 1.33.|Hazard Ratio (HR)|0.774||||0.1589|TWO_SIDED|95.0|0.542|1.106|||Cox proportional hazard model|||The hazard ratio of PSA PFS failure rates was estimated using the Cox proportional hazard model with time to PSA PFS failure as dependent and treatment as independent variables and adjusted for baseline PSA category, prostate cancer stage, weight and geographical region. Degarelix was to be considered non-inferior to goserelin if the upper limit of the two-sided 95% confidence interval (CI) of the adjusted hazard ratio was less than or equal to the non-inferiority margin of 1.33.||1.106|0.542|0.1589
92146955|NCT01242748|184178595|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.783||||0.1244|TWO_SIDED|95.0|0.574|1.07|||Cox proportional hazard model|||The hazard ratio was estimated using the Cox proportional hazard model.||1.070|0.574|0.1244
92146956|NCT01242748|184178596|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.856|||||TWO_SIDED|95.0|0.58|1.263||||||The hazard ratio was estimated using the Cox proportional hazard model.||1.263|0.580|
92146957|NCT01242748|184178597|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.511||||0.0005|TWO_SIDED|95.0|1.739|7.09|||Cox proportional hazard model|||The hazard ratio was estimated using the Cox proportional hazard model.||7.090|1.739|0.0005
92146958|NCT01242748|184178598|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.739||||0.143|TWO_SIDED|95.0|0.493|1.108|||Cox proportional hazard model|||The hazard ratio was estimated using the Cox proportional hazard model.||1.108|0.493|0.143
92146959|NCT01242748|184178599|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.595||||0.2212|TWO_SIDED|95.0|0.259|1.368|||Cox proportional hazard model|||The hazard ratio was estimated using the Cox proportional hazard model.||1.368|0.259|0.2212
92146960|NCT00840801|184178602|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A stratified score test was used to test the non-inferiority with a margin of -10% at 2.5% type I error (one-sided).|||||<|0.001|||||||Stratified score test|||Non-inferiority Test on Seropositive Response Rate||||<0.001
92146961|NCT00335452|184178617|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|6.1||||0.3037|TWO_SIDED|95.0|-5.8|16.6||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by ASA dose level (low or high) and qualifying condition (UA/NSTEMI or STEMI) log-rank test.|The relative risk reduction (high dose treatment regimen (600/150/75 mg) versus standard treatment regimen (300/75/75 mg)) is estimated using stratified Cox proportional hazards model controlling for ASA dose level and qualifying condition.|||16.6|-5.8|0.3037
92146962|NCT00335452|184178618|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||The a priori threshold for statistical significance is ≤0.05.|Regression, Logistic|logistic regression model including terms for ASA dose level (low or high) and qualifying condition (UA/NSTEMI or STEMI).||||||0.012
92146963|NCT00335452|184178619|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|3.1||||0.6047|TWO_SIDED|95.0|-9.2|14.0||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by clopidogrel treatment regimen (300/75/75 mg or 600/150/75 mg) log-rank test.|The relative risk reduction (ASA high dose versus ASA low dose) is estimated using stratified Cox proportional hazards model controlling for Clopidogrel treatment regimen.|||14.0|-9.2|0.6047
92146964|NCT00335452|184178620|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|-6.5||||0.4579|TWO_SIDED|95.0|-26.0|9.9||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by qualifying condition (UA/NSTEMI or STEMI) log-rank test.|The relative risk reduction (high dose treatment regimen (600/150/75 mg) versus standard treatment regimen (300/75/75 mg)) is estimated using a stratified Cox proportional hazards model controlling for qualifying condition.|||9.9|-26.0|0.4579
92334978|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.393||0.9024||95.0|-0.94|0.84|||ANOVA|||Difference from placebo (including baseline), Day 8: 4 hours post-dose.||0.84|-0.94|0.9024
92334979|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.293||0.9708||95.0|-0.67|0.65|||ANOVA|||Difference from placebo (including Baseline), Day 8: 5 hours post-dose.||0.65|-0.67|0.9708
92334980|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.395||0.1078||95.0|-1.62|0.19|||ANOVA|||Difference from placebo (including Baseline), Day 8: 6 hours post-dose.||0.19|-1.62|0.1078
92334981|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.419||0.446||95.0|-1.28|0.61|||ANOVA|||Difference from placebo (including Baseline), Day 8: 8 hours post-dose.||0.61|-1.28|0.4460
92334982|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.394||0.5266||95.0|-1.13|0.62|||ANOVA|||Difference from placebo (including Baseline), Day 8: 10 hours post-dose.||0.62|-1.13|0.5266
92334983|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.273||0.029||95.0|-1.29|-0.08|||ANOVA|||Difference from placebo (including Baseline), Day 8: 12 hours post-dose.||-0.08|-1.29|0.0290
92334984|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.531||0.183||95.0|-2.01|0.45|||ANOVA|||Difference from placebo (including Baseline), Day 8: 24 hours post-dose.||0.45|-2.01|0.1830
92146965|NCT00335452|184178620|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|17.6||||0.0262|TWO_SIDED|95.0|2.2|30.5||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by qualifying condition (UA/NSTEMI or STEMI) log-rank test.|The relative risk reduction (high dose treatment regimen (600/150/75 mg) versus standard treatment regimen (300/75/75 mg)) is estimated using a stratified Cox proportional hazards model controlling for qualifying condition.|||30.5|2.2|0.0262
92146966|NCT00335452|184178620|SUPERIORITY_OR_OTHER|||||||0.0355||95.0||||The a priori threshold for statistical significance is ≤0.05.|Chi-squared|Interaction chi-squared test of the Cox proportional hazards model.||||||0.0355
92146967|NCT00335452|184178621|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|14.7||||0.0332|TWO_SIDED|95.0|1.2|26.3||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by ASA dose level (low or high) and qualifying condition (UA/NSTEMI or STEMI) Log-rank test. No adjustment was made.|The relative risk reduction (high dose treatment regimen (600/150/75 mg) versus standard treatment regimen (300/75/75 mg)) is estimated using a stratified Cox proportional hazards model controlling for ASA dose level and qualifying condition.|||26.3|1.2|0.0332
92146968|NCT00335452|184178622|SUPERIORITY_OR_OTHER|||||||0.945||95.0||||The a priori threshold for statistical significance is ≤0.05.|Regression, Logistic|Logistic regression model including a term for Clopidogrel treatment regimen (300/75/75 mg or 600/150/75 mg).||||||0.945
92146969|NCT00335452|184178623|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|32.6||||0.0004|TWO_SIDED|95.0|16.2|45.8||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by ASA dose level (low or high) and qualifying condition (UA/NSTEMI or STEMI) log-rank test.|The relative risk reduction (high dose treatment regimen (600/150/75 mg) versus standard treatment regimen (300/75/75 mg)) is estimated using a stratified Cox proportional hazards model controlling for ASA dose level and qualifying condition.|||45.8|16.2|0.0004
92146970|NCT02736825|184178624|NON_INFERIORITY|Non-inferiority margin of 15% between two independent percentages using the z-test with unpooled variance||||||0.367|||||||Z-test|||||||0.3670
92146971|NCT02901626|184178643|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.83|1.2||||||||1.20|0.83|
92334985|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.406||0.9884||95.0|-0.9|0.91|||ANOVA|||Difference from placebo (including Baseline), Day 8: 36 hours post-dose.||0.91|-0.90|0.9884
92334986|NCT00978341|184573259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.354||0.8082||95.0|-0.87|0.69|||ANOVA|||Difference from placebo (including Baseline), Day 8: 48 hours post-dose.||0.69|-0.87|0.8082
92334987|NCT00978341|184573260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.714||0.2101||95.0|-2.39|0.55|||ANOVA|||Difference from placebo (including baseline); Day 2. Combined analysis: values for the two patient groups were analyzed together using ANOVA and/or mixed models.||0.55|-2.39|0.2101
92334988|NCT00978341|184573260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.623||0.1065||95.0|-2.33|0.24|||ANOVA|||Difference from placebo (including baseline); Day 3.||0.24|-2.33|0.1065
92334989|NCT00978341|184573260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.254||0.0697||95.0|-1.11|0.05|||ANOVA|||Difference from placebo (including baseline); Day 4.||0.05|-1.11|0.0697
92334990|NCT00978341|184573260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.65||0.4589||95.0|-1.83|0.85|||ANOVA|||Difference from placebo; Day 5.||0.85|-1.83|0.4589
92334991|NCT00978341|184573260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|0.742||0.1326||95.0|-2.69|0.38|||ANOVA|||Difference from placebo; Day 6.||0.38|-2.69|0.1326
92334992|NCT00978341|184573260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.638||0.282||95.0|-2.45|0.9|||ANOVA|||Difference from placebo (including baseline); Day 7.||0.90|-2.45|0.2820
92334993|NCT00978341|184573260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.356||0.0108||95.0|-2.21|-0.44|||ANOVA|||Difference from placebo (including baseline); Day 8.||-0.44|-2.21|0.0108
92334994|NCT00978341|184573261|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.26|STANDARD_ERROR_OF_MEAN|19.06||0.9068||95.0|-41.78|37.27|||ANOVA|||Difference from placebo; Day 1: 4 hours post-dose (including Baseline).||37.27|-41.78|0.9068
92334995|NCT00978341|184573261|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.52|STANDARD_ERROR_OF_MEAN|15.813||0.7807||95.0|-30.53|39.57|||ANOVA|||Difference from placebo; Day 8: pre-dose (including Baseline).||39.57|-30.53|0.7807
92334996|NCT00978341|184573261|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.51|STANDARD_ERROR_OF_MEAN|17.526||0.2293||95.0|-61.79|16.78|||ANOVA|||Difference from placebo; Day 8: 4 hours post-dose (including Baseline).||16.78|-61.79|0.2293
92334997|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.386||0.3774||95.0|-0.54|1.27|||ANOVA|||Difference from placebo (including Baseline); Day 1: 0.5 hours post-dose.||1.27|-0.54|0.3774
92334998|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.215||0.4153||95.0|-0.33|0.7|||ANOVA|||Difference from placebo (including Baseline); Day 1: 1 hour post-dose.||0.70|-0.33|0.4153
92334999|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.48||||0.147||95.0|-0.23|1.2|||ANOVA|||Difference from placebo (including Baseline); Day 1: 2 hours post-dose.||1.20|-0.23|0.1470
92335000|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.3||0.1862||95.0|-1.18|0.29|||ANOVA|||Difference from placebo (including Baseline); Day 1: 3 hours post-dose.||0.29|-1.18|0.1862
92335001|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.22||0.8321||95.0|-0.45|0.55|||ANOVA|||Difference from placebo (including Baseline); Day 1: 4 hours post-dose.||0.55|-0.45|0.8321
92335002|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.269||0.4251||95.0|-0.42|0.88|||ANOVA|||Difference from placebo (including Baseline); Day 1: 5 hours post-dose.||0.88|-0.42|0.4251
92335003|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.269||0.6394||95.0|-0.53|0.8|||ANOVA|||Difference from placebo (including Baseline); Day 1: 6 hours post-dose.||0.80|-0.53|0.6394
92335004|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.302||0.9964||95.0|-0.68|0.68|||ANOVA|||Difference from placebo (including Baseline); Day 8: pre-dose.||0.68|-0.68|0.9964
92335005|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.324||0.3638||95.0|-0.47|1.11|||ANOVA|||Difference from placebo (including Baseline); Day 8: 0.5 hours post-dose.||1.11|-0.47|0.3638
92335006|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.223||0.1202||95.0|-0.15|0.99|||ANOVA|||Difference from placebo (including Baseline); Day 8: 1 hour post-dose.||0.99|-0.15|0.1202
92335007|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.355||0.1204||95.0|-0.19|1.39|||ANOVA|||Difference from placebo (including Baseline); Day 8: 2 hours post-dose.||1.39|-0.19|0.1204
92335008|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.289||0.4213||95.0|-0.44|0.93|||ANOVA|||Difference from placebo (including Baseline); Day 8: 3 hours post-dose.||0.93|-0.44|0.4213
92335009|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.205||0.6028||95.0|-0.34|0.56|||ANOVA|||Difference from placebo (including Baseline); Day 8: 4 hours post-dose.||0.56|-0.34|0.6028
92335010|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.491||0.3624||95.0|-0.68|1.64|||ANOVA|||Difference from placebo (including Baseline); Day 8: 5 hours post-dose.||1.64|-0.68|0.3624
92335011|NCT00978341|184573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.461||0.3163||95.0|-0.52|1.49|||ANOVA|||Difference from placebo (including Baseline); Day 8: 6 hours post-dose.||1.49|-0.52|0.3163
92335012|NCT00978341|184573263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.39|STANDARD_ERROR_OF_MEAN|9.738||0.5919||95.0|-16.26|27.04|||ANOVA|||Difference from placebo (including Baseline); Day 1.||27.04|-16.26|0.5919
92335013|NCT00978341|184573263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.58|STANDARD_ERROR_OF_MEAN|14.603||0.3981||95.0|-17.7|42.87|||ANOVA|||Difference from placebo (including Baseline); Day 8: pre-dose.||42.87|-17.70|0.3981
92335014|NCT00978341|184573263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.64|STANDARD_ERROR_OF_MEAN|12.123||0.8314||95.0|-24.0|29.28|||ANOVA|||Difference from placebo (including Baseline); Day 8: 4 hours post-dose.||29.28|-24.00|0.8314
92335015|NCT00978341|184573264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.054||0.7569||95.0|-0.14|0.1|||ANOVA|||Difference from placebo (including Baseline); Day 1: 2 hours post-dose.||0.10|-0.14|0.7569
92335016|NCT00978341|184573264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.09||0.4814||95.0|-0.26|0.13|||ANOVA|||Difference from placebo (including Baseline); Day 1: 4 hours post-dose.||0.13|-0.26|0.4814
92335017|NCT00978341|184573264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.143||0.6222||95.0|-0.37|0.23|||ANOVA|||Difference from placebo (including Baseline); Day 1: 6 hours post-dose.||0.23|-0.37|0.6222
92146972|NCT02901626|184178644|SUPERIORITY||Median Difference (Net)|2.0|||||TWO_SIDED|95.0|-4.0|8.0||||||||8|-4|
92335018|NCT00978341|184573264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.113||0.3035||95.0|-0.35|0.12|||ANOVA|||Difference from placebo (including Baseline); Day 8: pre-dose.||0.12|-0.35|0.3035
92335019|NCT00978341|184573264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.122||0.1881||95.0|-0.42|0.09|||ANOVA|||Difference from placebo (including Baseline); Day 8: 2 hours post-dose.||0.09|-0.42|0.1881
92146973|NCT02901626|184178645|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-1.06|0.8||||||||0.80|-1.06|
92146974|NCT02901626|184178646|SUPERIORITY||Risk Ratio (RR)|1.26|||||TWO_SIDED|95.0|0.92|1.71||||||||1.71|0.92|
92146975|NCT02901626|184178647|SUPERIORITY||Risk Ratio (RR)|1.2|||||TWO_SIDED|95.0|0.93|1.55||||||||1.55|0.93|
92209639|NCT02390050|184319890|SUPERIORITY||Difference of LS Means|-0.76|||||TWO_SIDED|95.0|-1.15|-0.38||||||Week 2: Difference in LS mean change in body weight from baseline to week 2 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.38|-1.15|
92271674|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|99.7||||0.9816|TWO_SIDED|90.0|80.47|123.53|||Mixed Models Analysis|||Statistical analysis of PF -06927572 was estimated and reported.||123.53|80.47|0.9816
92335020|NCT00978341|184573264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.072||0.3159||95.0|-0.09|0.24|||ANOVA|||Difference from placebo (including Baseline); Day 8: 4 hours post-dose.||0.24|-0.09|0.3159
92335021|NCT00978341|184573264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.103||0.8203||95.0|-0.22|0.27|||ANOVA|||Difference from placebo (including Baseline); Day 8: 6 hours post-dose.||0.27|-0.22|0.8203
92146976|NCT02901626|184178648|SUPERIORITY||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.93|1.45||||||||1.45|0.93|
92335022|NCT03035916|184573267|OTHER|||||||0.454|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.454
92335023|NCT03035916|184573267|OTHER|||||||0.402|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.402
92335024|NCT03035916|184573267|OTHER|||||||0.901|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.901
92335025|NCT03035916|184573267|OTHER|||||||0.54|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.540
92335026|NCT03035916|184573267|OTHER|||||||0.523|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.523
92146977|NCT02901626|184178649|SUPERIORITY||Risk Ratio (RR)|1.3|||||TWO_SIDED|95.0|0.92|1.82||||||||1.82|0.92|
92146978|NCT02901626|184178650|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.79|1.19||||||||1.19|0.79|
92146979|NCT02901626|184178651|SUPERIORITY||Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.61|2.39||||||||2.39|0.61|
92146980|NCT02901626|184178652|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.79|1.31||||||||1.31|0.79|
92146981|NCT02901626|184178653|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.55|2.04||||||||2.04|0.55|
92146982|NCT02901626|184178654|SUPERIORITY||Median Difference (Net)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0|0|
92146983|NCT02901626|184178655|SUPERIORITY||Risk Ratio (RR)|1.36|||||TWO_SIDED|95.0|0.95|1.94||||||||1.94|0.95|
92146984|NCT02901626|184178656|SUPERIORITY||Risk Ratio (RR)|1.45|||||TWO_SIDED|95.0|1.0|2.11||||||||2.11|1.00|
92146985|NCT02901626|184178657|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|0.88|1.18||||||||1.18|0.88|
92146986|NCT02901626|184178658|SUPERIORITY||Median Difference (Net)|0.0|||||TWO_SIDED|95.0|-12.0|12.0||||||||12|-12|
92146987|NCT02901626|184178659|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.69|1.17||||||||1.17|0.69|
92146988|NCT02901626|184178660|SUPERIORITY||Median Difference (Net)|1.0|||||TWO_SIDED|95.0|-12.0|14.0||||||||14|-12|
92146989|NCT02901626|184178661|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.06|15.7||||||||15.7|0.06|
92146990|NCT02901626|184178662|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.25|2.65||||||||2.65|0.25|
92146991|NCT02901626|184178663|SUPERIORITY||Risk Ratio (RR)|0.56|||||TWO_SIDED|95.0|0.17|1.9||||||||1.90|0.17|
92146992|NCT02901626|184178664|SUPERIORITY||Risk Ratio (RR)|1.15|||||TWO_SIDED|95.0|0.68|1.96||||||||1.96|0.68|
92209640|NCT02390050|184319890|SUPERIORITY||Difference of LS Means|-0.99|||||TWO_SIDED|95.0|-1.38|-0.61||||||Week 2: Difference in LS mean change in body weight from baseline to week 2 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.61|-1.38|
92335027|NCT03035916|184573267|OTHER|||||||0.26|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.260
92335028|NCT03035916|184573267|OTHER|||||||0.139|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.139
92335029|NCT03035916|184573267|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
92335030|NCT03035916|184573267|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
92335031|NCT03035916|184573267|OTHER|||||||0.464|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.464
92335032|NCT03035916|184573267|OTHER|||||||0.007|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.007
92335033|NCT03035916|184573267|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
92146993|NCT02901626|184178665|SUPERIORITY||Risk Ratio (RR)|0.95|||||TWO_SIDED|95.0|0.71|1.27||||||||1.27|0.71|
92335034|NCT03035916|184573267|OTHER|||||||0.411|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.411
92146994|NCT02901626|184178666|SUPERIORITY||Risk Ratio (RR)|0.72|||||TWO_SIDED|95.0|0.37|1.41||||||||1.41|0.37|
92146995|NCT02901626|184178667|SUPERIORITY||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.39|3.37||||||||3.37|0.39|
92146996|NCT02901626|184178668|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.78|1.29||||||||1.29|0.78|
92146997|NCT02901626|184178669|SUPERIORITY||Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.58|1.1||||||||1.10|0.58|
92335035|NCT03035916|184573267|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.001
92335036|NCT03035916|184573267|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.001
92335037|NCT03035916|184573268|OTHER|||||||0.412|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.412
92146998|NCT02901626|184178670|SUPERIORITY||Risk Ratio (RR)|2.45|||||TWO_SIDED|95.0|0.48|12.57||||||||12.57|0.48|
92146999|NCT02901626|184178671|SUPERIORITY||Risk Ratio (RR)|0.65|||||TWO_SIDED|95.0|0.27|1.58||||||||1.58|0.27|
92147000|NCT02901626|184178672|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.47|0.97||||||||0.97|0.47|
92147001|NCT02901626|184178673|SUPERIORITY||Risk Ratio (RR)|0.49|||||TWO_SIDED|95.0|0.09|2.66||||||||2.66|0.09|
92335038|NCT03035916|184573268|OTHER|||||||0.592|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.592
92335039|NCT03035916|184573268|OTHER|||||||0.796|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.796
92335040|NCT03035916|184573268|OTHER|||||||0.576|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.576
92147002|NCT02901626|184178674|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.81|1.37||||||||1.37|0.81|
92147003|NCT02901626|184178675|SUPERIORITY||Median Difference (Net)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0|0|
92147004|NCT02901626|184178676|SUPERIORITY||Median Difference (Net)|10.0|||||TWO_SIDED|95.0|-16.0|36.0||||||||36|-16|
92147005|NCT03662074|184178716|OTHER||||||||||||||||||The pre-specified analysis plan as per the protocol is to proceed to the second stage of recruitment for additional participants if the response proportion exceeds the historical control of 10%.|||
92147006|NCT03701399|184178751|SUPERIORITY||Least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.2||0.7581|TWO_SIDED|95.0|-0.47|0.34|||Mixed Models Analysis||Model based summary statistics were from a mixed model with repeated measures, including fixed effects for treatment, randomization stratum (SCA genotype group), visit, treatment-by-visit interaction, and country, baseline score as a covariate|All SCA participants||0.34|-0.47|0.7581
92147007|NCT03701399|184178751|SUPERIORITY||Least square mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.28||0.045|TWO_SIDED|95.0|-1.11|-0.01|||Mixed Models Analysis||Model based summary statistics were from a mixed model with repeated measures, including fixed effects for treatment, randomization stratum (SCA genotype group), visit, treatment-by-visit interaction, and country.|SCA3 genotype participants||-0.01|-1.11|0.0450
92335041|NCT03035916|184573268|OTHER|||||||0.427|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.427
92335042|NCT03035916|184573268|OTHER|||||||0.201|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.201
92335043|NCT03035916|184573268|OTHER|||||||0.872|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.872
92335044|NCT03035916|184573268|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
92335045|NCT03035916|184573268|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
92335046|NCT03035916|184573268|OTHER|||||||0.165|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.165
92335047|NCT03035916|184573268|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
92335048|NCT03035916|184573268|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
92147008|NCT03945292|184178776|SUPERIORITY||Difference|-66.81|STANDARD_ERROR_OF_MEAN|5.107|<|0.0001|TWO_SIDED|95.0|-77.18|-56.45||From a mixed model with repeated measures, including fixed effects for treatment, week, treatment-by-week interaction, presence of metabolic syndrome, presence of NAFLD or NASH, baseline serum Z-AAT as covariate, and subject as a random effect.|Mixed model repeated measures (MMRM)|NAFLD=non-alcoholic fatty liver disease; NSH=non-alcoholic steatohepatitis||||-56.45|-77.18|< 0.0001
92147009|NCT03945292|184178776|SUPERIORITY||Difference|-90.03|STANDARD_ERROR_OF_MEAN|5.26|<|0.0001|TWO_SIDED|95.0|-100.72|-79.34||From a mixed model with repeated measures, including fixed effects for treatment, week, treatment-by-week interaction, presence of metabolic syndrome, presence of NAFLD or NASH, baseline serum Z-AAT as covariate, and subject as a random effect.|MMRM|||||-79.34|-100.72|< 0.0001
92147010|NCT03945292|184178776|SUPERIORITY||Difference|-97.57|STANDARD_ERROR_OF_MEAN|5.24|<|0.0001|TWO_SIDED|95.0|-108.21|-86.94||From a mixed model with repeated measures, including fixed effects for treatment, week, treatment-by-week interaction, presence of metabolic syndrome, presence of NAFLD or NASH, baseline serum Z-AAT as covariate, and subject as a random effect.|MMRM|||||-86.94|-108.21|< 0.0001
92271675|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|105.12||||0.6974|TWO_SIDED|90.0|84.84|130.24|||Mixed Models Analysis|||Statistical analysis of PF -06927572 was estimated and reported.||130.24|84.84|0.6974
92335049|NCT03035916|184573268|OTHER|||||||0.305|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.305
92335050|NCT03035916|184573268|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.001
92147011|NCT03945292|184178780|SUPERIORITY||Least Squares (LS) Mean Difference|-129.31|STANDARD_ERROR_OF_MEAN|36.409||0.0021|TWO_SIDED|95.0|-205.52|-53.11||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline total liver Z-AAT protein as a covariate.|ANCOVA|||||-53.11|-205.52|0.0021
92335051|NCT03035916|184573268|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.001
92335052|NCT03035916|184573269|OTHER|||||||0.673|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.673
92335053|NCT03035916|184573269|OTHER|||||||0.824|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.824
92147012|NCT03945292|184178780|SUPERIORITY||LS Mean Difference|-124.03|STANDARD_ERROR_OF_MEAN|37.207||0.0035|TWO_SIDED|95.0|-201.9|-46.15||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline total liver Z-AAT protein as a covariate.|ANCOVA|||||-46.15|-201.9|0.0035
92209641|NCT02390050|184319890|SUPERIORITY||Difference of LS Means|-1.02|||||TWO_SIDED|95.0|-1.53|-0.52||||||Week 6: Difference in LS mean change in body weight from baseline to week 6 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.52|-1.53|
92271676|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|101.03||||0.9363|TWO_SIDED|90.0|81.54|125.18|||Mixed Models Analysis|||Statistical analysis of PF -06927572 was estimated and reported.||125.18|81.54|0.9363
92335054|NCT03035916|184573269|OTHER|||||||0.547|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.547
92335055|NCT03035916|184573269|OTHER|||||||0.303|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.303
92396015|NCT03270436|184689228|SUPERIORITY|||||||0.0293||||||The p-value above reflects results of between-arms analysis of mean change in systolic blood pressure from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.0293
92396016|NCT03270436|184689228|SUPERIORITY|||||||0.4686||||||The p-value above reflects results of between-arms analysis of mean change in systolic blood pressure from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.4686
92396017|NCT03270436|184689229|SUPERIORITY|||||||0.0068||||||The p-value above reflects results of between-arms analysis of mean change in diastolic blood pressure from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.0068
92396018|NCT03270436|184689229|SUPERIORITY|||||||0.9181||||||The p-value above reflects results of between-arms analysis of mean change in diastolic blood pressure from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.9181
92396019|NCT03270436|184689230|SUPERIORITY|||||||0.5984||||||The p-value above reflects results of between-arms analysis of mean change in sugar-sweetened beverages consumed per day from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.5984
92396020|NCT03270436|184689230|SUPERIORITY|||||||0.3376||||||The p-value above reflects results of between-arms analysis of mean change in sugar-sweetened beverages consumed per day from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.3376
92396021|NCT03270436|184689231|SUPERIORITY|||||||0.296||||||The p-value above reflects results of between-arms analysis of mean change in fruit \& vegetable consumption scores from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.2960
92396022|NCT03270436|184689231|SUPERIORITY|||||||0.1519||||||The p-value above reflects results of between-arms analysis of mean change in fruit \& vegetable consumption scores from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.1519
92396023|NCT03270436|184689232|SUPERIORITY|||||||0.2824||||||The p-value above reflects results of between-arms analysis of change from baseline to immediate post-intervention. Analyses do not include imputed values.|Mantel Haenszel|The model includes only the study arm and time interaction.||Adjusted repeated measures generalized estimating equations (GEE) model.||||0.2824
92396024|NCT03270436|184689232|SUPERIORITY|||||||0.7547||||||The p-value above reflects results of between-arms analysis of change from baseline to 6 months post-intervention. Analyses do not include imputed values.|Mantel Haenszel|The model includes only the study arm and time interaction.||Adjusted repeated measures generalized estimating equations (GEE) model.||||0.7547
92396025|NCT03270436|184689233|SUPERIORITY|||||||0.6928||||||The p-value above reflects results of between-arms analysis of mean change in eating self-efficacy scores from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.6928
92396026|NCT03270436|184689233|SUPERIORITY|||||||0.4947||||||The p-value above reflects results of between-arms analysis of mean change in eating self-efficacy scores from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.4947
92396027|NCT03270436|184689234|SUPERIORITY|||||||0.1539||||||The p-value above reflects results of between-arms analysis of mean change in physical activity self-efficacy scores from baseline to immediate post-intervention. Analyses do not include imputed values|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.1539
92396028|NCT03270436|184689234|SUPERIORITY|||||||0.1878||||||The p-value above reflects results of between-arms analysis of mean change in physical activity self-efficacy scores from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.1878
92209642|NCT02390050|184319890|SUPERIORITY||Difference of LS Means|-1.45|||||TWO_SIDED|95.0|-1.95|-0.94||||||Week 6: Difference in LS mean change in body weight from baseline to week 6 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.94|-1.95|
92396029|NCT03270436|184689235|SUPERIORITY|||||||0.4322||||||The p-value above reflects results of between-arms analysis of mean change in family support scale scores from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.4322
92396030|NCT03270436|184689235|SUPERIORITY|||||||0.9529||||||The p-value above reflects results of between-arms analysis of mean change in family support scale scores from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.9529
92396031|NCT01959503|184689241|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank-Sum Test|||||||<0.0001
92396032|NCT01959503|184689242|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.0|||<|0.0001|TWO_SIDED|95.0|4.07|19.89|||Regression, Logistic|||||19.89|4.07|<0.0001
92396033|NCT01959503|184689243|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.69|||<|0.0001|TWO_SIDED|95.0|3.27|18.11|||Regression, Logistic|||||18.11|3.27|<0.0001
92396034|NCT02413918|184689258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|STANDARD_DEVIATION|20.0|<|0.0094|TWO_SIDED|||||p value is not adjusted for multiple comparisons (see above). A priori threshold for significance was p\<0.05.|t-test, 2 sided|||BISS Outcomes: Mean changes in depression and mania for study completers were measured. The a priori hypothesis was a mean change of 50%.||||<0.0094
92396035|NCT02413918|184689258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.4|STANDARD_DEVIATION|10.1|<|0.0001|TWO_SIDED||||||t-test, 2 sided|||BISS Outcomes: Mean changes in mania for study completers were measured. The a priori hypothesis was a mean change of 50%.||||<0.0001
92396036|NCT04233801|184689259|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-0.99|||<|0.0001|TWO_SIDED|95.0|-1.28|-0.71|||Mixed model repeated measures|||||-0.71|-1.28|< 0.0001
92396037|NCT04233801|184689259|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.26|-0.7|||Mixed model repeated measures|||||-0.70|-1.26|< 0.0001
92396038|NCT04233801|184689260|OTHER|Logistic regression including treatment, baseline Estimated glomerular filtration rate (eGFR), background therapy, and continuous baseline HbA1c.|Odds Ratio (OR)|2.29||||0.1375|TWO_SIDED|95.0|0.77|6.83|||Regression, Logistic|||||6.83|0.77|0.1375
92396039|NCT04233801|184689260|OTHER|Logistic regression including treatment, baseline Estimated glomerular filtration rate (eGFR), background therapy, and continuous baseline HbA1c.|Odds Ratio (OR)|6.01||||0.0008|TWO_SIDED|95.0|2.11|17.1|||Regression, Logistic|||||17.10|2.11|0.0008
92396040|NCT04233801|184689261|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-2.0|||<|0.0001|TWO_SIDED|95.0|-2.66|-1.34|||Mixed model repeated measures|||||-1.34|-2.66|< 0.0001
92147013|NCT03945292|184178780|SUPERIORITY||LS Mean Difference|-140.58|STANDARD_ERROR_OF_MEAN|30.906||0.0002|TWO_SIDED|95.0|-205.27|-75.89||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline total liver Z-AAT protein as a covariate.|ANCOVA|||||-75.89|-205.27|0.0002
92396041|NCT04233801|184689261|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-1.32|||<|0.0001|TWO_SIDED|95.0|-1.96|-0.67|||Mixed model repeated measures|||||-0.67|-1.96|< 0.0001
92396042|NCT04233801|184689262|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-3.6||||0.0774|TWO_SIDED|95.0|-7.61|0.4|||Mixed model repeated measures|||||0.40|-7.61|0.0774
92396043|NCT04233801|184689262|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-1.01||||0.616|TWO_SIDED|95.0|-4.98|2.96|||Mixed model repeated measures|||||2.96|-4.98|0.6160
92396044|NCT04233801|184689263|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-1.78||||0.1222|TWO_SIDED|95.0|-4.05|0.48|||Mixed model repeated measures|||||0.48|-4.05|0.1222
92396045|NCT04233801|184689263|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|0.65||||0.5687|TWO_SIDED|95.0|-1.59|2.89|||Mixed model repeated measures|||||2.89|-1.59|0.5687
92396046|NCT04233801|184689264|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-20.05||||0.0003|TWO_SIDED|95.0|-30.73|-9.38|||Mixed model repeated measures|||||-9.38|-30.73|0.0003
92396047|NCT04233801|184689264|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-24.13|||<|0.0001|TWO_SIDED|95.0|-34.72|-13.54|||Mixed model repeated measures|||||-13.54|-34.72|<0.0001
92209643|NCT02390050|184319890|SUPERIORITY||Difference of LS Means|-1.51|||||TWO_SIDED|95.0|-2.01|-1.01||||||Week 6: Difference in LS mean change in body weight from baseline to week 6 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-1.01|-2.01|
92396048|NCT04233801|184689265|OTHER|The Analysis of covariance (ANCOVA) model included treatment and background therapy as classification effects, baseline PPG and baseline Estimated glomerular filtration rate (eGFR) as the linear covariates.|Adjusted mean|-56.32|||<|0.0001|TWO_SIDED|95.0|-78.22|-34.41|||ANCOVA|||||-34.41|-78.22|<0.0001
92147014|NCT03945292|184178782|SUPERIORITY||LS Mean Difference|-98.07|STANDARD_ERROR_OF_MEAN|20.291||0.0001|TWO_SIDED|95.0|-140.53|-55.6||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline soluble liver Z-AAT protein as a covariate.|ANCOVA|||||-55.6|-140.53|0.0001
92147015|NCT03945292|184178782|SUPERIORITY||LS Mean Difference|-109.56|STANDARD_ERROR_OF_MEAN|21.616|<|0.0001|TWO_SIDED|95.0|-154.81|-64.32||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline soluble liver Z-AAT protein as a covariate.|ANCOVA|||||-64.32|-154.81|< 0.0001
92147016|NCT03945292|184178782|SUPERIORITY||LS Mean Difference|-118.04|STANDARD_ERROR_OF_MEAN|17.16|<|0.0001|TWO_SIDED|95.0|-153.95|-82.12||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline soluble liver Z-AAT protein as a covariate.|ANCOVA|||||-82.12|-153.95|< 0.0001
92147017|NCT03945292|184178784|SUPERIORITY||LS Mean Difference|-180.7|STANDARD_ERROR_OF_MEAN|74.087||0.0247|TWO_SIDED|95.0|-335.77|-25.64||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline insoluble liver Z-AAT protein as a covariate.|ANCOVA|||||-25.64|-335.77|0.0247
92271677|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|96.11||||0.752|TWO_SIDED|90.0|77.94|118.52|||Mixed Models Analysis|||Statistical analysis of PF -06927572 was estimated and reported.||118.52|77.94|0.7520
92147018|NCT03945292|184178784|SUPERIORITY||LS Mean Difference|-163.79|STANDARD_ERROR_OF_MEAN|73.513||0.0382|TWO_SIDED|95.0|-317.65|-9.93||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline insoluble liver Z-AAT protein as a covariate.|ANCOVA|||||-9.93|-317.65|0.0382
92271678|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|100.73||||0.9536|TWO_SIDED|90.0|81.69|124.22|||Mixed Models Analysis|||Statistical analysis of PF -06927572 was estimated and reported.||124.22|81.69|0.9536
92396049|NCT04233801|184689265|OTHER|The Analysis of covariance (ANCOVA) model included treatment and background therapy as classification effects, baseline PPG and baseline Estimated glomerular filtration rate (eGFR) as the linear covariates.|Adjusted mean|-60.71|||<|0.0001|TWO_SIDED|95.0|-82.31|-39.11|||ANCOVA|||||-39.11|-82.31|<0.0001
92147019|NCT03945292|184178784|SUPERIORITY||LS Mean Difference|-193.2|STANDARD_ERROR_OF_MEAN|63.089||0.0064|TWO_SIDED|95.0|-325.25|-61.15||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline insoluble liver Z-AAT protein as a covariate.|ANCOVA|||||-61.15|-325.25|0.0064
92147020|NCT06060457|184178841|OTHER||Geometric Mean Ratio (GMR)|0.625|||||TWO_SIDED|95.0|0.57|0.686||||||RSV-A: Arm 1 versus Arm 2||0.686|0.570|
92271679|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|97.6||||0.8241|TWO_SIDED|90.0|81.28|117.18|||Mixed Models Analysis|||Statistical analysis of PF -06927573 was estimated and reported.||117.18|81.28|0.8241
92147021|NCT06060457|184178841|OTHER||GMR|0.638|||||TWO_SIDED|95.0|0.584|0.697||||||RSV-B: Arm 1 versus Arm 2||0.697|0.584|
92147022|NCT00514735|184178917|SUPERIORITY_OR_OTHER||||||<|0.0001||||||In order to maintain the overall level of significance at the α=0.025 level after a planned interim analysis using α=0.003, this test will actually be performed using an adjusted α=0.0245 at the completion of the study.|Chi-squared|||"H0: Pa ≤ Pm Ha: Pa \> Pm~where Pa is the proportion of successfully treated subjects in the ablation management arm and Pm is the proportion of successfully treated subjects in the optimal medical management/drug therapy arm."||||<0.0001
92271680|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|118.5||||0.1261|TWO_SIDED|90.0|98.69|142.28|||Mixed Models Analysis|||Statistical analysis of PF -06927573 was estimated and reported.||142.28|98.69|0.1261
92147023|NCT00514735|184178918|SUPERIORITY_OR_OTHER|||||||0.1427||||||An exact, one-sample binomial test was conducted at a one-sided α=0.025 level of significance.|Fisher Exact|||"H0: Pa ≥ 0.16 Ha: Pa \< 0.16~where Pa is the proportion of acute safety failures in the ablation management arm."||||0.1427
92147024|NCT00514735|184178919|NON_INFERIORITY_OR_EQUIVALENCE|This objective was not statistically powered. The non-inferiority chronic safety margin was 0.06.||||||0.0033|||||||t-test, 1 sided|||"H0: Pa ≥ Pm + 0.06 Ha: Pa \< Pm + 0.06~where Pa is the proportion of failed subjects in the ablation management arm and Pm is the proportion of failed subjects in the optimal medical management/drug therapy arm."||||0.0033
92271681|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|99.6||||0.9708|TWO_SIDED|90.0|82.95|119.59|||Mixed Models Analysis|||Statistical analysis of PF -06927573 was estimated and reported.||119.59|82.95|0.9708
92271682|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|84.05||||0.1099|TWO_SIDED|90.0|70.29|100.52|||Mixed Models Analysis|||Statistical analysis of PF -06927573 was estimated and reported.||100.52|70.29|0.1099
92147025|NCT00514735|184178921|SUPERIORITY_OR_OTHER|||||||0.35|||||||ANOVA|||"H0: μa = μm Ha: μa ≠ μm~where μa is the change of LAD from baseline to 6 month in Ablation Management arm, and μm is the change of LAD from baseline to 6 month in Medical Management arm."||||0.35
92396050|NCT04233801|184689266|OTHER||Odds Ratio (OR)|1.76||||0.2422|TWO_SIDED|95.0|0.68|4.55|||Regression, Logistic|Logistic regression including treatment and continuous baseline glycosylated haemoglobin A1c (HbA1c).|Odds ratio used Placebo as the reference group.|||4.55|0.68|0.2422
92147026|NCT00514735|184178922|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||"H0: μa = μm Ha: μa ≠ μm~where μa is the change of LVEF from baseline to 6 month in Ablation Management arm, and μm is the change of LVEF from baseline to 6 month in Medical Management arm."||||0.06
92147027|NCT00514735|184178923|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92396051|NCT04233801|184689266|OTHER||Odds Ratio (OR)|0.85||||0.7661|TWO_SIDED|95.0|0.29|2.5|||Regression, Logistic|Logistic regression including treatment and continuous baseline glycosylated haemoglobin A1c (HbA1c).|Odds ratio used Placebo as the reference group.|||2.50|0.29|0.7661
92147028|NCT00514735|184178924|SUPERIORITY_OR_OTHER||||||<|0.025|||||||Mixed Models Analysis|||||||<0.025
92396052|NCT01841281|184689299|OTHER|||||||0.78||||||The p-value is for the interaction term|testing for interaction term|||||||0.78
92147029|NCT02782169|184178925|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||0.32
92147030|NCT02953938|184178944|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_DEVIATION|0.64||0.368|TWO_SIDED|95.0|-1.49|1.07|||Cochran-Mantel-Haenszel|||||1.07|-1.49|0.3680
92147031|NCT02953938|184178945|SUPERIORITY||Mean Difference (Final Values)|-6.58|STANDARD_DEVIATION|3.042||0.0349|TWO_SIDED|95.0|-12.67|-0.48|||ANOVA|||||-0.48|-12.67|0.0349
92396053|NCT01841281|184689300|OTHER|||||||0.09||||||The p-value is for the interaction term|testing for interaction term|||The treatment effect was tested as an interaction term between treatment and FeNO. The null hypothesis is the effect of treatment is stratified by the FeNO status. We used a regression model instead of t-test or Wilcoxon signed-rank test in order to control period and carry-over effect which is common in a cross-over study design||||0.09
92209644|NCT02390050|184319890|SUPERIORITY||Difference of LS Means|-1.44|||<|0.0001|TWO_SIDED|95.0|-2.12|-0.76||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline weight as covariates||Week 12: Difference in LS mean change in body weight from baseline to week 12 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.76|-2.12|< 0.0001
92396054|NCT04024891|184689301|SUPERIORITY||Mean Difference (Net)|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.7|||Mixed Models Analysis|||||-0.7|-1.3|<0.0001
92396055|NCT01751061|184689342|SUPERIORITY|To test the primary hypothesis, we used a general linear model fit with generalized estimating equations, a linear link, and an exchangeable correlation (PROC GENMOD). Model parameters included indictor variables for intervention, Interview 2, the interaction between intervention and Interview 2, and a 4-level site variable. The mean CSCS between-groups difference, corresponding 95% confidence interval (CI), and p value were derived from the intervention-by-Interview 2 interaction term.|||||<|0.05||||||P values were calculated. A two-sided type-I error rate of 0.05 was set for all tests; there were no adjustments for multiple comparisons. All participants were included in analyses as per their group randomization.|GEE|||We estimated that 210 patients (315 surrogates, assuming \~1.5 per patient) would provide a power of 80% to detect a between-groups mean CSCS score difference of 9 percentage points between Interviews 1 and 2, assuming a baseline mean of 50, SD=24, a type-I error=5%, a correlation between interviews of 0.5, an expectation that 50% of patients would have multiple surrogates, an intraclass correlation coefficient of 0.8 for multiple surrogates for a patient, and 5% dropout before Interview 2.||||<0.05
92396056|NCT01751061|184689343|SUPERIORITY||||||<|0.05||||||P values were calculated.|generalized linear model|||Generalized linear model.||||<0.05
92396057|NCT01751061|184689344|SUPERIORITY||||||<|0.05||||||P values were calculated.|generalized linear model|||||||<0.05
92396058|NCT01751061|184689345|SUPERIORITY||||||<|0.05||||||P values were calculated.|generalized linear models|||||||<0.05
92396059|NCT01751061|184689346|SUPERIORITY||||||<|0.05||||||P values were calculated.|generalized linear models|||||||<0.05
92396060|NCT01751061|184689347|SUPERIORITY||||||<|0.05||||||P values were calculated.|generalized linear models|||||||<0.05
92396061|NCT01751061|184689348|SUPERIORITY||||||<|0.05||||||P values were calculated.|GEE|||To test the hypothesis, we used a general linear model fit with generalized estimating equations, a linear link, and an exchangeable correlation (PROC GENMOD). Model parameters included indictor variables for intervention, Interview 2, the interaction between intervention and Interview 2, and a 4-level site variable. The mean CSCS between-groups difference, corresponding 95% confidence interval (CI), and p value were derived from the intervention-by-Interview 2 interaction term.||||<0.05
92396062|NCT00435409|184689373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2239||||0.9409|TWO_SIDED|95.0|0.9487|1.5789||Stratification factors included metastatic organ sites (2 or less versus \[vs\] more than \[\>\] 2 sites), hormone receptor status (HER2-/ER-/PR-) vs all others), and prior chemotherapy regimens (1 vs \>1), from interactive voice response system (IVRS).|Log Rank|||A stratified log-rank test (1-sided, α=0.025) based on randomization stratification factors||1.5789|0.9487|0.9409
92147032|NCT02953938|184178946|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_DEVIATION|0.051||0.2707|TWO_SIDED|95.0|-0.045|0.158|||ANOVA|||||0.158|-0.045|0.2707
92147033|NCT02953938|184178948|SUPERIORITY||Mean Difference (Final Values)|11.32||||0.7602|TWO_SIDED|95.0|-62.65|85.28|||ANOVA|||||85.28|-62.65|0.7602
92168516|NCT05057897|184226815|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|Difference in Seroresponse|0.0||||||||||||Due to everyone in both cohorts being a seroresponder, the confidence interval (CI) around the difference is not estimable.|The difference in seroresponse 28 days post Dose 3 of AZD1222 was calculated as (seroresponse rate of immunocompromised cohort) - (seroresponse rate of immunocompetent cohort).|Day 85 Immunocompromised / Day 211 Immunocompetent (28 days post Dose 3)||||
92147034|NCT01499082|184179012|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"Stepwise closed testing approach was used to assess non-inferiority and superiority sequentially:~1. Non-inferiority of HOE901-U300 vs Lantus: Upper bound of two-sided 95% confidence interval (CI) of difference between HOE901-U300 and Lantus on mITT population is \<0.4%.~2. Superiority (only if non-inferiority has been demonstrated): Upper bound of two-sided 95% CI for difference in mean change in HbA1c from baseline to endpoint between HOE901-U300 and Lantus on mITT population is \<0."|Least Squares (LS) Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.056|||TWO_SIDED|95.0|-0.112|0.107||||||Analysis was performed using an analysis of covariance (ANCOVA) model with treatment, strata of screening HbA1c (\<8.0 and \>=8.0%), and country as fixed effects and using the HbA1c baseline value as a covariate.||0.107|-0.112|
92147035|NCT01499082|184179013|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.79||||0.0045|TWO_SIDED|95.0|0.67|0.93|||Cochran-Mantel-Haenszel|||A one-sided test (at alpha=0.025) for superiority of HOE901-U300 over Lantus was to be performed in case the non-inferiority of HOE901-U300 vs Lantus for the primary endpoint was demonstrated. Analysis was performed using Cochran-Mantel-Haenszel (CMH) method with treatment as a factor and stratified on strata of screening HbA1c (\<8.0 and \>=8.0%).||0.93|0.67|0.0045
92147036|NCT01499082|184179014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.162||0.6909|TWO_SIDED|95.0|-0.383|0.254|||ANCOVA|||Change in pre-injection SMPG was analyzed using an ANCOVA model with treatment, strata of screening HbA1c (\<8.0 and \>=8.0%), and country as fixed effects and using the pre-injection SMPG baseline value as a covariate. A test for superiority of HOE901-U300 over Lantus was to be performed one-sided at level alpha = 0.025 if previous analysis for nocturnal hypoglycemia was significant.||0.254|-0.383|0.6909
92147037|NCT01499082|184179023|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.123|||TWO_SIDED|95.0|-0.189|0.298||||||Analysis was performed using Analysis of covariance (ANCOVA) model with treatment regimen and country as fixed effects and baseline HbA1c value as a covariate.||0.298|-0.189|
92147038|NCT04557930|184179024|SUPERIORITY||Odds Ratio (OR)|0.96||||0.41|TWO_SIDED|95.0|0.88|1.06|||Mixed Models Analysis|||We tested the association between exposure to the intervention and the incidence of ACP billing in the pre- and post-intervention periods using a mixed effects logistic regression model, adjusting for time, patient and hospital covariates.||1.06|0.88|0.41
92147039|NCT04557930|184179024|SUPERIORITY|Sensitivity analysis of the association between the intervention and ACP billing, adjusted for time, patient characteristics, hospital characteristics, and the interaction between step of the trial and the intervention.|Odds Ratio (OR)|1.03||||0.74|TWO_SIDED|95.0|0.89|1.19|||Mixed Models Analysis|Overall effect allowing effect heterogeneity across steps \<0.001 Interaction effect \<0.001|Step 1 cohort|||1.19|0.89|0.74
92209645|NCT02390050|184319890|SUPERIORITY||Difference of LS Means|-1.59|||<|0.0001|TWO_SIDED|95.0|-2.26|-0.91||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline weight as covariates||Week 12: Difference in LS mean change in body weight from baseline to week 12 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.91|-2.26|< 0.0001
92209646|NCT02390050|184319890|SUPERIORITY||Difference of LS Means|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.43|-1.08||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline weight as covariates||Week 12: Difference in LS mean change in body weight from baseline to week 12 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-1.08|-2.43|< 0.0001
92209647|NCT02390050|184319891|SUPERIORITY||Difference of LS Means|-0.48|||||TWO_SIDED|95.0|-0.9|-0.06||||||Week 2: Difference in LS mean change in FPG from baseline to week 2 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.06|-0.90|
92209648|NCT02390050|184319891|SUPERIORITY||Difference of LS Means|-0.9|||||TWO_SIDED|95.0|-1.31|-0.48||||||Week 2: Difference in LS mean change in FPG from baseline to week 2 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.48|-1.31|
92271683|NCT02625207|184444990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|97.21||||0.7913|TWO_SIDED|90.0|81.29|116.25|||Mixed Models Analysis|||Statistical analysis of PF -06927573 was estimated and reported.||116.25|81.29|0.7913
92147040|NCT04557930|184179024|SUPERIORITY||Odds Ratio (OR)|1.15||||0.09|TWO_SIDED|95.0|0.98|1.36|||Mixed Models Analysis|||Sensitivity analysis of the association between the intervention and ACP billing, adjusted for time, patient characteristics, hospital characteristics, and the interaction between step of the trial and the intervention.|Step 2 cohort|1.36|0.98|0.09
92147041|NCT04557930|184179024|SUPERIORITY||Odds Ratio (OR)|1.13||||0.11|TWO_SIDED|95.0|0.97|1.33|||Mixed Models Analysis|||Sensitivity analysis of the association between the intervention and ACP billing, adjusted for time, patient characteristics, hospital characteristics, and the interaction between step of the trial and the intervention.|Step 3 cohort|1.33|0.97|0.11
92209649|NCT02390050|184319891|SUPERIORITY||Difference of LS Means|-1.04|||||TWO_SIDED|95.0|-1.45|-0.62||||||Week 2: Difference in LS mean change in FPG from baseline to week 2 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.62|-1.45|
92209650|NCT02390050|184319891|SUPERIORITY||Difference of LS Means|-0.93|||||TWO_SIDED|95.0|-1.39|-0.48||||||Week 6: Difference in LS mean change in FPG from baseline to week 6 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.48|-1.39|
92209651|NCT02390050|184319891|SUPERIORITY||Difference of LS Means|-1.17|||||TWO_SIDED|95.0|-1.62|-0.72||||||Week 6: Difference in LS mean change in FPG from baseline to week 6 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.72|-1.62|
92209652|NCT02390050|184319891|SUPERIORITY||Difference of LS Means|-1.1|||||TWO_SIDED|95.0|-1.55|-0.65||||||Week 6: Difference in LS mean change in FPG from baseline to week 6 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.65|-1.55|
92271684|NCT02625207|184444991|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|116.65||||0.1338|TWO_SIDED|90.0|98.47|138.18|||Mixed Models Analysis|||||138.18|98.47|0.1338
92209653|NCT02390050|184319891|SUPERIORITY||Difference of LS Means|-0.85||||0.0002|TWO_SIDED|95.0|-1.29|-0.41||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline FPG as covariates||Week 12: Difference in LS mean change in FPG from baseline to week 12 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.41|-1.29|0.0002
92209654|NCT02390050|184319891|SUPERIORITY||Difference of LS Means|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.49|-0.6||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline FPG as covariates||Week 12: Difference in LS mean change in FPG from baseline to week 12 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.60|-1.49|< 0.0001
92209655|NCT02390050|184319891|SUPERIORITY||Difference of LS Means|-1.07|||<|0.0001|TWO_SIDED|95.0|-1.52|-0.63||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline FPG as covariates||Week 12: Difference in LS mean change in FPG from baseline to week 12 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.63|-1.52|< 0.0001
92209656|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-0.19|||||TWO_SIDED|95.0|-3.9|3.51||||||Week 2: Difference in LS mean change in SBP from baseline to week 2 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||3.51|-3.90|
92209657|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-2.41|||||TWO_SIDED|95.0|-6.09|1.28||||||Week 2: Difference in LS mean change in SBP from baseline to week 2 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||1.28|-6.09|
92209658|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-4.25|||||TWO_SIDED|95.0|-7.93|-0.58||||||Week 2: Difference in LS mean change in SBP from baseline to week 2 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.58|-7.93|
92209659|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-0.18|||||TWO_SIDED|95.0|-2.5|2.13||||||Week 2: Difference in LS mean change in DBP from baseline to week 2 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||2.13|-2.50|
92209660|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-1.74|||||TWO_SIDED|95.0|-4.03|0.56||||||Week 2: Difference in LS mean change in DBP from baseline to week 2 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||0.56|-4.03|
92209661|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-2.15|||||TWO_SIDED|95.0|-4.45|0.14||||||Week 2: Difference in LS mean change in DBP from baseline to week 2 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||0.14|-4.45|
92209662|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-0.84|||||TWO_SIDED|95.0|-4.57|2.9||||||Week 6: Difference in LS mean change in SBP from baseline to week 6 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||2.90|-4.57|
92209663|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-3.39|||||TWO_SIDED|95.0|-7.12|0.34||||||Week 6: Difference in LS mean change in SBP from baseline to week 6 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||0.34|-7.12|
92147042|NCT04557930|184179024|SUPERIORITY||Odds Ratio (OR)|0.66|||<|0.001|TWO_SIDED|95.0|0.57|0.76|||Mixed Models Analysis||Step 4 cohort|Sensitivity analysis of the association between the intervention and ACP billing, adjusted for time, patient characteristics, hospital characteristics, and the interaction between step of the trial and the intervention.||0.76|0.57|<0.001
92209664|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-2.51|||||TWO_SIDED|95.0|-6.21|1.2||||||Week 6: Difference in LS mean change in SBP from baseline to week 6 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||1.20|-6.21|
92209665|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|0.25|||||TWO_SIDED|95.0|-2.15|2.66||||||Week 6: Difference in LS mean change in DBP from baseline to week 6 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||2.66|-2.15|
92209666|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-1.02|||||TWO_SIDED|95.0|-3.42|1.38||||||Week 6: Difference in LS mean change in DBP from baseline to week 6 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||1.38|-3.42|
92209667|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-0.84|||||TWO_SIDED|95.0|-3.22|1.54||||||Week 6: Difference in LS mean change in DBP from baseline to week 6 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||1.54|-3.22|
92209668|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-2.16||||0.3001|TWO_SIDED|95.0|-6.26|1.94||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in SBP from baseline to week 12 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||1.94|-6.26|0.3001
92209669|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-4.41||||0.0343|TWO_SIDED|95.0|-8.49|-0.33||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in SBP from baseline to week 12 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.33|-8.49|0.0343
92209670|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-3.83||||0.0679|TWO_SIDED|95.0|-7.95|0.28|||ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in SBP from baseline to week 12 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||0.28|-7.95|0.0679
92209671|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-2.24||||0.0776|TWO_SIDED|95.0|-4.73|0.25||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in DBP from baseline to week 12 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||0.25|-4.73|0.0776
92271685|NCT02625207|184444991|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|85.84||||0.137|TWO_SIDED|90.0|72.46|101.68|||Mixed Models Analysis|||||101.68|72.46|0.1370
92271686|NCT02625207|184444991|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|63.34|||<|0.0001|TWO_SIDED|90.0|53.47|75.04|||Mixed Models Analysis|||||75.04|53.47|< 0.0001
92271687|NCT02625207|184444991|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|73.79||||0.0036|TWO_SIDED|90.0|62.53|87.09|||Mixed Models Analysis|||||87.09|62.53|0.0036
92396063|NCT00435409|184689373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1084||||0.812|TWO_SIDED|95.0|0.8817|1.3935||Stratification factors include metastatic organ sites (2 or less versus \[vs\] 2 or more sites), hormone receptor status (HER2-/ER-/PR-) vs all others), and prior chemotherapy regimens (1 vs more than 1), from IVRS.|Log Rank|||A stratified log-rank test (1-sided, α=0.025) based on randomization stratification factors||1.3935|0.8817|0.8120
92396064|NCT00435409|184689374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.3143|TWO_SIDED|95.0|0.69|1.97||A stratified CMH test stratified by randomization stratification factors was used to compare objective response rate (ORR) between two treatment arms.|Cochran-Mantel-Haenszel|||Independent radiology assessment||1.97|0.69|0.3143
92209672|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-1.47||||0.2415|TWO_SIDED|95.0|-3.95|1.0||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in DBP from baseline to week 12 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||1.00|-3.95|0.2415
92271688|NCT02625207|184444991|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|73.89||||0.0037|TWO_SIDED|90.0|62.61|87.2|||Mixed Models Analysis|||||87.20|62.61|0.0037
92271689|NCT02625207|184444992|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|82.42||||0.0507|TWO_SIDED|90.0|70.2|96.77|||Mixed Models Analysis|||||96.77|70.20|0.0507
92396065|NCT00435409|184689374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.1269|TWO_SIDED|95.0|0.83|2.13||A stratified CMH test stratified by randomization stratification factors was used to compare ORR between two treatment arms.|Cochran-Mantel-Haenszel|||Investigator's assessment||2.13|0.83|0.1269
92271690|NCT02625207|184444993|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|118.19||||0.1997|TWO_SIDED|90.0|95.26|146.63|||Mixed Models Analysis|||||146.63|95.26|0.1997
92271691|NCT02625207|184444993|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|87.28||||0.2947|TWO_SIDED|90.0|70.34|108.28|||Mixed Models Analysis|||||108.28|70.34|0.2947
92271692|NCT02625207|184444993|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|61.23||||0.0004|TWO_SIDED|90.0|49.35|75.97|||Mixed Models Analysis|||||75.97|49.35|0.0004
92271693|NCT02625207|184444993|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|70.16||||0.0071|TWO_SIDED|90.0|56.81|86.63|||Mixed Models Analysis|||||86.63|56.81|0.0071
92147043|NCT04557930|184179024|SUPERIORITY||Odds Ratio (OR)|0.95||||0.49|TWO_SIDED|95.0|0.89|1.19|||Mixed Models Analysis|||Sensitivity analysis of the association between the intervention and ACP billing, adjusted for time, patient characteristics, hospital characteristics, and the interaction between step of the trial and the intervention.|Step 5 cohort|1.19|0.89|0.49
92271694|NCT02625207|184444993|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|72.37||||0.0135|TWO_SIDED|90.0|58.6|89.36|||Mixed Models Analysis|||||89.36|58.60|0.0135
92271695|NCT02625207|184444994|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|68.32||||0.0505|TWO_SIDED|90.0|49.81|93.71|||Mixed Models Analysis|||||93.71|49.81|0.0505
92396066|NCT00435409|184689376|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0372||||0.6275|TWO_SIDED|95.0|0.8322|1.2927||Stratification factors (all from IVRS) included number of metastatic organ sites (\<=2 vs \>2 sites), hormone receptor status (HER2-/ER-/PR- vs all others), and prior chemotherapy regimens (1 vs \>1).|Log Rank||Hazard ratio for sunitinib + capecitabine versus capecitabine.|||1.2927|0.8322|0.6275
92168517|NCT03088813|184226822|OTHER||Hazard Ratio (HR)|1.11||||0.3094|TWO_SIDED|95.0|0.9|1.37|||Stratified log-rank test|From stratified log-rank test, stratified by corrected region and corrected platinum sensitivity.|The associated HR and two-sided 95% Confidence Interval (CI) were estimated using stratified Cox proportional hazards model, stratified by corrected region and corrected platinum sensitivity.|||1.37|0.90|0.3094
92271696|NCT02625207|184444995|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|94.83||||0.6761|TWO_SIDED|90.0|76.7|117.24|||Mixed Models Analysis|||||117.24|76.70|0.6761
92271697|NCT02625207|184444995|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|105.43||||0.6771||90.0|85.28|130.35|||Mixed Models Analysis|||||130.35|85.28|0.6771
92209673|NCT02390050|184319892|SUPERIORITY||Difference of LS Means|-2.04||||0.1086|TWO_SIDED|95.0|-4.54|0.46||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in DBP from baseline to week 12 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||0.46|-4.54|0.1086
92271698|NCT02625207|184444995|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|75.74||||0.0331|TWO_SIDED|90.0|61.26|93.64|||Mixed Models Analysis|||||93.64|61.26|0.0331
92271699|NCT02625207|184444995|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|71.84||||0.0104|TWO_SIDED|90.0|58.38|88.4|||Mixed Models Analysis|||||88.40|58.38|0.0104
92209674|NCT02390050|184319893|SUPERIORITY||Difference of LS Means|-0.09|||||TWO_SIDED|95.0|-0.2|0.03||||||Week 2: Difference in LS Mean change in HbA1c (%) from baseline to Week 2 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||0.03|-0.20|
92209675|NCT02390050|184319893|SUPERIORITY||Difference of LS Means|-0.13|||||TWO_SIDED|95.0|-0.24|-0.02||||||Week 2: Difference in LS Mean change in HbA1c (%) from baseline to Week 2 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.02|-0.24|
92209676|NCT02390050|184319893|SUPERIORITY||Difference of LS Means|-0.13|||||TWO_SIDED|95.0|-0.24|-0.02||||||Week 2: Difference in LS Mean change in HbA1c (%) from baseline to Week 2 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.02|-0.24|
92271700|NCT02625207|184444995|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|71.82||||0.0104|TWO_SIDED|90.0|58.37|88.39|||Mixed Models Analysis|||||88.39|58.37|0.0104
92271701|NCT02625207|184444996|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|99.62||||0.9713|TWO_SIDED|90.0|83.07|119.45|||Mixed Models Analysis|||||119.45|83.07|0.9713
92209677|NCT02390050|184319893|SUPERIORITY||Difference of LS Means|-0.45|||||TWO_SIDED|95.0|-0.62|-0.28||||||Week 6: Difference in LS Mean change in HbA1c (%) from baseline to Week 6 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.28|-0.62|
92209678|NCT02390050|184319893|SUPERIORITY||Difference of LS Means|-0.49|||||TWO_SIDED|95.0|-0.66|-0.32||||||Week 6: Difference in LS Mean change in HbA1c (%) from baseline to Week 6 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.32|-0.66|
92209679|NCT02390050|184319893|SUPERIORITY||Difference of LS Means|-0.53|||||TWO_SIDED|95.0|-0.7|-0.36||||||Week 6: Difference in LS Mean change in HbA1c (%) from baseline to Week 6 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.36|-0.70|
92209680|NCT02390050|184319893|SUPERIORITY||Difference of LS Means|-0.55|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.34||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||Week 12: Difference in LS Mean change in HbA1c (%) from baseline to Week 12 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.34|-0.76|< 0.0001
92209681|NCT02390050|184319893|SUPERIORITY||Difference of LS Means|-0.68|||<|0.0001|TWO_SIDED|95.0|-0.89|-0.47||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||Week 12: Difference in LS Mean change in HbA1c (%) from baseline to Week 12 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.47|-0.89|< 0.0001
92271702|NCT02016755|184445031|SUPERIORITY|||||||0.331|||||||t-test, 2 sided|||Overall (LOCF)||||0.331
92271703|NCT02016755|184445031|SUPERIORITY|||||||0.362|||||||t-test, 2 sided|||Activity (LOCF)||||0.362
92271704|NCT02016755|184445031|SUPERIORITY|||||||0.159|||||||t-test, 2 sided|||Emotional (LOCF)||||0.159
92271705|NCT02016755|184445031|SUPERIORITY|||||||0.468|||||||t-test, 2 sided|||Pain (LOCF)||||0.468
92271706|NCT02016755|184445031|SUPERIORITY|||||||0.197|||||||t-test, 2 sided|||Social (LOCF)||||0.197
92147044|NCT03063294|184179095|SUPERIORITY||Difference in Difference|0.02|||||TWO_SIDED|95.0|-0.47|0.5|||||"The difference in difference equals the follow-up minus baseline change in Hassles scale results for the toolkit plus coaching clinics, minus the follow-up minus baseline change in the Hassles scale results for the toolkit only clinics."|"Zero-inflated negative binomial regression was used to obtain predicted mean Hassles scale scores for the toolkit only clinics and toolkit plus coaching clinics at baseline and follow-up, adjusting for study design and characteristics of survey respondents. The difference-in-difference was then computed as described below, under method of estimation. Bootstrap resampling was used to calculate the 95% confidence intervals around the predicted means and the difference-in-difference."||0.50|-0.47|
92271707|NCT02016755|184445031|SUPERIORITY|||||||0.448|||||||t-test, 2 sided|||Symptom (LOCF)||||0.448
92209682|NCT02390050|184319893|SUPERIORITY||Difference of LS Means|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.01|-0.59||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||Week 12: Difference in LS Mean change in HbA1c (%) from baseline to Week 12 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.59|-1.01|< 0.0001
92209683|NCT02186847|184319913|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.7563|TWO_SIDED|95.0|0.77|1.73|||Log Rank|One-sided significance level = 0.10|Reference level = Chemoradiation|The study was powered to detect an improvement of the 1-year progression-free survival rate from 50% (no metformin) to 65% (metformin) or equivalently a hazard ratio (HR) of 0.622, at one-sided type 1 error of 0.1 and 85% power with at least 102 progression-free survival events.||1.73|0.77|0.7563
92396067|NCT03192176|184689387|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.84||0.024|TWO_SIDED|95.0|-3.56|-0.25||LS Means(LSM), standard errors(SE), confidence intervals(CI), \& p-values come from an ANCOVA model with CFB as the dependent variable \& treatment group, pooled center, smoking status as factors \& baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.25|-3.56|0.0240
92271708|NCT02016755|184445032|SUPERIORITY|||||||0.939|||||||t-test, 2 sided|||Change from Baseline at Month 3||||0.939
92271709|NCT02016755|184445032|SUPERIORITY|||||||0.508|||||||t-test, 2 sided|||Change from Baseline at Month 6||||0.508
92209684|NCT02186847|184319914|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.891|TWO_SIDED|95.0|0.64|1.68|||Log Rank|Two-sided significance level = 0.05|Reference level = Chemoradiation|||1.68|0.64|0.8910
92209685|NCT02186847|184319915|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.4075|TWO_SIDED|95.0|0.71|2.34|||Log Rank|Two-side significance level = 0.05|Reference level = Chemoradiation|||2.34|0.71|0.4075
92209686|NCT02186847|184319916|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.4075|TWO_SIDED|95.0|0.71|2.34|||Log Rank|Two-sided significance level = 0.05|Reference level = Chemoradiation|||2.34|0.71|0.4075
92209687|NCT02186847|184319917|SUPERIORITY||Odds Ratio (OR)|0.92||||0.6266|TWO_SIDED|95.0|0.47|1.8|||Chi-squared|Two-sided significance level = 0.05|Reference level = Chemoradiation|||1.80|0.47|0.6266
92271710|NCT02016755|184445032|SUPERIORITY|||||||0.474|||||||t-test, 2 sided|||Change from Baseline at Month 9||||0.474
92147045|NCT00803452|184179099|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||.001
92147046|NCT01255592|184179122|SUPERIORITY_OR_OTHER||Ratio of AZD5069 80 mg to placebo|0.31||||0.004|TWO_SIDED|90.0|0.17|0.59|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection, and baseline as covariates. The analysis was done on log-transformed data. The results were back-transformed after the analysis on the log scale.||0.59|0.17|0.004
92271711|NCT02016755|184445032|SUPERIORITY|||||||0.361|||||||t-test, 2 sided|||Change from Baseline at Month 12||||0.361
92271712|NCT02016755|184445032|SUPERIORITY|||||||0.258|||||||t-test, 2 sided|||Change from Baseline at Month 15||||0.258
92147047|NCT01255592|184179123|SUPERIORITY_OR_OTHER||Ratio of AZD5069 80 mg to placebo|0.64||||0.008|TWO_SIDED|90.0|0.49|0.84|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection, and baseline as covariates. The analysis was done on log-transformed data. The results were back-transformed after the analysis on the log scale.||0.84|0.49|0.008
92147048|NCT01255592|184179124|SUPERIORITY_OR_OTHER||LS mean difference|6.78|STANDARD_ERROR_OF_MEAN|3.298||0.047|TWO_SIDED|90.0|1.22|12.33|||ANCOVA|||The 24-hour sputum weight on Visit 4 was compared between groups using ANCOVA (additive model) with treatment and inhaled corticosteroids/P. aeruginosa infection as fixed effects and baseline as a covariate.||12.33|1.22|0.047
92271713|NCT02016755|184445032|SUPERIORITY|||||||0.059|||||||t-test, 2 sided|||Change from baseline at Month 18||||0.059
92271714|NCT02016755|184445032|SUPERIORITY|||||||0.023|||||||t-test, 2 sided|||Change from Baseline at LOCF||||0.023
92271715|NCT02016755|184445033|SUPERIORITY|||||||0.655|||||||t-test, 2 sided|||Change from Baseline at Month 3 (Dorsalis pedis)||||0.655
92271716|NCT02016755|184445033|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||Change from Baseline at Month 6 (Dorsalis pedis)||||0.310
92209688|NCT03727438|184319934|EQUIVALENCE|alpha = .05|Mean Difference (Final Values)|-3.7|||<|0.01|TWO_SIDED|95.0|-5.0|-2.4||alpha=.05|Mixed Models Analysis|Model parameters included a common intercept (baseline means constrained to be equal), stratification variables, timepoint, and arm by timepoint.||"Analyses were conducted according to the intention-to-treat principle. All available data, including observations from participants who dropped out of the study, were used for primary and secondary analyses. Our modeling estimation approach was conducted with full-likelihood methods, providing unbiased treatment effect estimates under a missing-data framework known as missing at random (MAR)."||-2.4|-5.0|<0.01
92147049|NCT01255592|184179125|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.092||0.284|TWO_SIDED|90.0|-0.05|0.26|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.26|-0.05|0.284
92147050|NCT01255592|184179126|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.078||0.929|TWO_SIDED|90.0|-0.12|0.14|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.14|-0.12|0.929
92147051|NCT01255592|184179127|SUPERIORITY_OR_OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.062||0.966|TWO_SIDED|90.0|-0.11|0.1|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.10|-0.11|0.966
92209689|NCT03727438|184319935|EQUIVALENCE|alpha= .05|Mean Difference (Final Values)|-19.6|||<|0.01|TWO_SIDED|95.0|-26.7|-12.5||alpha = 0.05|Mixed Models Analysis|||||-12.5|-26.7|<0.01
92147052|NCT01255592|184179128|SUPERIORITY_OR_OTHER||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.09||0.791|TWO_SIDED|90.0|-0.13|0.17|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.17|-0.13|0.791
92271717|NCT02016755|184445033|SUPERIORITY|||||||0.348|||||||t-test, 2 sided|||Change from Baseline at Month 9 (Dorsalis pedis)||||0.348
92147053|NCT01255592|184179129|SUPERIORITY_OR_OTHER||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.7||0.433|TWO_SIDED|90.0|-1.6|0.6|||ANCOVA|||The ANCOVA model used TDI as the response variable with treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and BDI as covariates.||0.6|-1.6|0.433
92209690|NCT03727438|184319936|EQUIVALENCE|alpha = .05|Mean Difference (Final Values)|-20.6|||<|0.01|TWO_SIDED|95.0|-29.1|-12.0||alpha = .05|Mixed Models Analysis|||||-12.0|-29.1|<0.01
92209691|NCT03727438|184319937|EQUIVALENCE|alpha = .05|Mean Difference (Final Values)|11.0|||<|0.01|TWO_SIDED|95.0|7.7|14.3|||Mixed Models Analysis|alpha = 0.05||||14.3|7.7|<0.01
92147054|NCT01255592|184179130|SUPERIORITY_OR_OTHER||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|8.03||0.935|TWO_SIDED|90.0|-12.81|14.13|||ANCOVA|||Morning PEF: Analysis of covariance includes treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||14.13|-12.81|0.935
92209692|NCT03727438|184319938|EQUIVALENCE|Alpha = .05|Mean Difference (Final Values)|-6.2|||>|0.05|TWO_SIDED|95.0|-12.5|0.1||Alpha = .05|Mixed Models Analysis|||||0.1|-12.5|> 0.05
92271718|NCT02016755|184445033|SUPERIORITY|||||||0.501|||||||t-test, 2 sided|||Change from Baseline at Month 12 (Dorsalis pedis)||||0.501
92209693|NCT03727438|184319939|EQUIVALENCE|alpha = .05|Mean Difference (Final Values)|0.0|||>|0.05|TWO_SIDED|95.0|-0.4|0.5||alpha =.05|Mixed Models Analysis|||||.5|-.4|>0.05
92147055|NCT01255592|184179130|SUPERIORITY_OR_OTHER||LS mean difference|3.3|STANDARD_ERROR_OF_MEAN|7.35||0.654|TWO_SIDED|90.0|-9.02|15.64|||ANCOVA|||Evening PEF: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||15.64|-9.02|0.654
92209694|NCT03727438|184319940|EQUIVALENCE|alpha = .05|Mean Difference (Final Values)|1.5|||<|0.05|TWO_SIDED|95.0|0.2|2.9||alpha = .05|Mixed Models Analysis|||||2.9|0.2|<0.05
92271719|NCT02016755|184445033|SUPERIORITY|||||||0.536|||||||t-test, 2 sided|||Change from Baseline at Month 15 (Dorsalis pedis)||||0.536
92209695|NCT06729606|184319941|SUPERIORITY||Odds Ratio (OR)|1.11||||0.54|TWO_SIDED|95.0|0.8|1.55||Proportional odds model stratified by disease severity (high flow nasal canula \[HFNC\]/non-invasive ventilation \[NIV\] or invasive mechanical ventiliation \[IMV\]/ECMO) at study entry to determine the odds of being in a better category at day 90.|Proportional odds model||Summary odds ratio for being in a better category, active/placebo (95% confidence interval); pvalue|||1.55|0.80|0.54
92147056|NCT01255592|184179131|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.329|TWO_SIDED|90.0|-0.09|0.36|||ANCOVA|||Describe your breathing: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.36|-0.09|0.329
92271720|NCT02016755|184445033|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||Change from Baseline at Month 18 (Dorsalis pedis)||||0.140
92271721|NCT02016755|184445033|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||Change from Baseline at LOCF (Dorsalis pedis)||||0.018
92147057|NCT01255592|184179131|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.664|TWO_SIDED|90.0|-0.16|0.27|||ANCOVA|||How often do you cough?: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.27|-0.16|0.664
92209696|NCT06729606|184319942|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.78|TWO_SIDED|95.0|0.77|1.41|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.41|0.77|0.78
92147058|NCT01255592|184179131|SUPERIORITY_OR_OTHER||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.17||0.152|TWO_SIDED|90.0|-0.04|0.54|||ANCOVA|||Night time symptom score: Analysis of covariance includes treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.54|-0.04|0.152
92209697|NCT06729606|184319943|SUPERIORITY||Odds Ratio (OR)|1.4||||0.1|TWO_SIDED|95.0|0.94|2.08|||Regression, Logistic||Odds ratio for active/placebo (95% confidence interval); pvalue|||2.08|0.94|0.10
92147059|NCT01255592|184179131|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.25||0.15|TWO_SIDED|90.0|-0.8|0.05|||ANCOVA|||What color is your sputum?: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.05|-0.80|0.150
92209698|NCT06729606|184319944|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.15|TWO_SIDED|95.0|0.95|1.44|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.44|0.95|0.15
92209699|NCT06729606|184319945|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.71|TWO_SIDED|95.0|0.79|1.42|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.42|0.79|0.71
92209700|NCT02491632|184320015|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
92147060|NCT01255592|184179131|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.248|TWO_SIDED|90.0|-0.06|0.35|||ANCOVA|||The amount of sputum you produced: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.35|-0.06|0.248
92209701|NCT02491632|184320015|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.001
92209702|NCT02491632|184320015|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
92147061|NCT01255592|184179131|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.053|TWO_SIDED|90.0|-0.45|-0.04|||ANCOVA|||Type of sputum: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||-0.04|-0.45|0.053
92147062|NCT01255592|184179131|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.14||0.179|TWO_SIDED|90.0|-0.04|0.42|||ANCOVA|||How do you feel?: Analysis of covariance includes treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.42|-0.04|0.179
92147063|NCT01255592|184179131|SUPERIORITY_OR_OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.43||0.942|TWO_SIDED|90.0|-0.75|0.68|||ANCOVA|||Number of puffs of inhalers: Analysis of covariance includes treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.68|-0.75|0.942
92209703|NCT02491632|184320015|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.001
92209704|NCT02491632|184320016|OTHER||||||=|0.003|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||=.003
92209705|NCT02491632|184320016|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.001
92209706|NCT02491632|184320016|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
92147064|NCT01255592|184179132|SUPERIORITY_OR_OTHER||LS mean difference|-1.66|STANDARD_ERROR_OF_MEAN|3.374||0.625|TWO_SIDED|90.0|-7.32|4.0|||ANCOVA|||Total score: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||4.00|-7.32|0.625
92147065|NCT01255592|184179132|SUPERIORITY_OR_OTHER||LS mean difference|-4.88|STANDARD_ERROR_OF_MEAN|3.342||0.151|TWO_SIDED|90.0|-10.49|0.74|||ANCOVA|||Symptom domain: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.74|-10.49|0.151
92147066|NCT01255592|184179132|SUPERIORITY_OR_OTHER||LS mean difference|-1.31|STANDARD_ERROR_OF_MEAN|4.524||0.773|TWO_SIDED|90.0|-8.91|6.28|||ANCOVA|||Activity domain: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||6.28|-8.91|0.773
92147067|NCT01255592|184179132|SUPERIORITY_OR_OTHER||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|3.845||0.92|TWO_SIDED|90.0|-6.84|6.07|||ANCOVA|||Impact domain: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||6.07|-6.84|0.920
92147068|NCT01255592|184179133|SUPERIORITY_OR_OTHER||Ratio of LS means|0.69||||0.22|TWO_SIDED|90.0|0.42|1.14|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.14|0.42|0.220
92147069|NCT01255592|184179134|SUPERIORITY_OR_OTHER||Ratio of LS means|4.46|||<|0.001|TWO_SIDED|90.0|3.05|6.54|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||6.54|3.05|<0.001
92209707|NCT02491632|184320016|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.001
92209708|NCT02491632|184320017|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
92147070|NCT01255592|184179135|SUPERIORITY_OR_OTHER||Ratio of LS means|0.92||||0.67|TWO_SIDED|90.0|0.68|1.26|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.26|0.68|0.670
92147071|NCT01255592|184179136|SUPERIORITY_OR_OTHER||Ratio of LS means|0.99||||0.968|TWO_SIDED|90.0|0.78|1.27|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.27|0.78|0.968
92147072|NCT01255592|184179137|SUPERIORITY_OR_OTHER||Ratio of LS means|1.43||||0.193|TWO_SIDED|90.0|0.91|2.24|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||2.24|0.91|0.193
92147073|NCT01255592|184179138|SUPERIORITY_OR_OTHER||Ratio of LS means|3.24|||<|0.001|TWO_SIDED|90.0|2.19|4.79|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||4.79|2.19|<0.001
92147074|NCT01255592|184179139|SUPERIORITY_OR_OTHER||Ratio of LS means|1.02||||0.917|TWO_SIDED|90.0|0.71|1.48|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.48|0.71|0.917
92147075|NCT01255592|184179140|SUPERIORITY_OR_OTHER||Ratio of LS means|0.17||||0.111|TWO_SIDED|90.0|0.03|1.08|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.08|0.03|0.111
92147076|NCT01255592|184179141|SUPERIORITY_OR_OTHER||Ratio of LS means|1.33||||0.367|TWO_SIDED|90.0|0.79|2.26|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||2.26|0.79|0.367
92147077|NCT01255592|184179142|SUPERIORITY_OR_OTHER||Ratio of LS means|1.54||||0.112|TWO_SIDED|90.0|0.98|2.4|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||2.40|0.98|0.112
92147078|NCT01255592|184179143|SUPERIORITY_OR_OTHER||Ratio of LS means|1.05||||0.241|TWO_SIDED|90.0|0.98|1.12|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.12|0.98|0.241
92147079|NCT01255592|184179144|SUPERIORITY_OR_OTHER||Ratio of LS means|5.5|||<|0.001|TWO_SIDED|90.0|4.18|7.23|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||7.23|4.18|<0.001
92147080|NCT01255592|184179145|SUPERIORITY_OR_OTHER||Ratio of LS means|1.16||||0.281|TWO_SIDED|90.0|0.92|1.47|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.47|0.92|0.281
92147081|NCT01255592|184179146|SUPERIORITY_OR_OTHER||Ratio of LS means|1.56||||0.001|TWO_SIDED|90.0|1.28|1.91|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.91|1.28|0.001
92147082|NCT01255592|184179147|SUPERIORITY_OR_OTHER||Ratio of LS means|6.07|||<|0.001|TWO_SIDED|90.0|4.42|8.35|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||8.35|4.42|<0.001
92147083|NCT03928028|184179150|SUPERIORITY|||||||0.507||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.507
92209709|NCT02491632|184320017|OTHER||||||<|0.065|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.065
92147084|NCT03928028|184179150|SUPERIORITY|||||||0.017||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.017
92209710|NCT02491632|184320017|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
92209711|NCT02491632|184320017|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.001
92209712|NCT02491632|184320018|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
92209713|NCT02491632|184320018|OTHER||||||=|0.3|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||=.30
92209714|NCT02491632|184320018|OTHER||||||=|0.19|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||=.19
92209715|NCT02491632|184320018|OTHER||||||=|0.27|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||=.27
92147085|NCT03928028|184179150|SUPERIORITY|||||||0.139||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.139
92147086|NCT03928028|184179151|SUPERIORITY|||||||0.389|||||||generalized estimating equation|||This analysis compare mothers in FBT to mothers in FBT+CRTp||||.389
92227030|NCT00670007|184356107|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.279|||=|0.752|TWO_SIDED|95.0|-1.089|0.53||A 1-sided P-value \< 0.025 and a positive estimate of the treatment difference Early Start minus Delayed Start (ie, the lower bound of the 95% confidence interval \[CI\] being \> zero) will indicate superiority of Early Start compared with Delayed Start.|Regression, Linear|||Analysis of the annual rate of change in lung density (for TLC + FRC combined) was a linear random regression model with country, inspiration state, time since Day 1 \[CE1226\_4001\], and treatment-by time interaction as fixed effects and subject and subject-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||0.530|-1.089|= 0.752
92271722|NCT02016755|184445033|SUPERIORITY|||||||0.716|||||||t-test, 2 sided|||Change from baseline at Month 3 (Posterior tibial)||||0.716
92209716|NCT00231153|184320025|SUPERIORITY_OR_OTHER||Net percentage difference|2.25||||0.082||95.0|-0.3|4.81||The primary null hypothesis was tested using the CMH chi-square test stratified region: North America or Europe. Alpha for this test will be 0.05, tow-tailed. No adjustment for multiplicity was performed.|Cochran-Mantel-Haenszel|||Adequate power was provided to test the null hypothesis that there would be no difference between treatment groups for LCSI. Overall LCSI rate was assumed to be approx. 7.5%, with reduction of LCSI by 40% with omiganan. LCSI rates in placebo and omiganan groups would be 9.375% and 5.625%. Sample size of 1548 in MITT set would provide 80% power to detect this difference between treatments. Sample size was also increased by 19% to account for deaths, for total of 1850 planned patients.||4.81|-0.30|0.082
92209717|NCT00231153|184320026|SUPERIORITY_OR_OTHER||Net percentage difference|3.67||||0.002||95.0|1.4|5.93|||Cochran-Mantel-Haenszel|||||5.93|1.40|0.002
92209718|NCT00231153|184320027|SUPERIORITY_OR_OTHER||Net percentage difference|11.4|||<|0.001||95.0|6.7|16.11|||Cochran-Mantel-Haenszel|||||16.11|6.70|<0.001
92271723|NCT02016755|184445033|SUPERIORITY|||||||0.641|||||||t-test, 2 sided|||Change from baseline at Month 6 (Posterior tibial)||||0.641
92209719|NCT00604279|184320039|NON_INFERIORITY_OR_EQUIVALENCE|The predetermined margin for non-inferiority of paliperidone palmitate was 5.5 points|Least Square Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.48||||95.0|-5.2|0.63|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as a factor, and baseline value as a covariate was used.||||0.63|-5.20|
92209720|NCT00604279|184320040|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.34||||95.0|-2.14|3.12|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as a factor, and baseline value as a covariate was used.||||3.12|-2.14|
92209721|NCT00604279|184320041|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||||95.0|-0.33|0.1|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as a factor, and baseline value as a covariate was used.||||0.10|-0.33|
92209722|NCT00604279|184320042|SUPERIORITY_OR_OTHER||Least Square Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|2.08||||95.0|-0.67|7.5|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as a factor, and baseline value as a covariate was used.||Statistical Analysis for Quality of sleep||7.50|-0.67|
92147087|NCT03928028|184179151|SUPERIORITY|||||||0.447||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.447
92147088|NCT03928028|184179151|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||<.001
92209723|NCT00604279|184320042|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.02||||95.0|-5.04|2.9|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as a factor, and baseline value as a covariate was used.||Statistical Analysis for Daytime drowsiness||2.90|-5.04|
92209724|NCT00604279|184320043|SUPERIORITY_OR_OTHER||Point estimate of relative risk|0.9||||||95.0|0.81|1.01|||Cochran-Mantel-Haenszel|||||1.01|0.81|
92209725|NCT03938545|184320044|SUPERIORITY||Risk Difference (RD)|21.4|||=|0.1993|TWO_SIDED|95.0|-11.3|54.1||p-values were obtained from a Mantel-Haenszel test stratified by smoking status at baseline comparing RVT-1401 680 mg/Week group to placebo.|Cochran-Mantel-Haenszel||The risk difference was obtained from a weighted average of the difference within each stratum using Cochran Mantel-Haenszel weights.|||54.1|-11.3|=0.1993
92209726|NCT03938545|184320044|SUPERIORITY||Risk Difference (RD)|24.2|||=|0.1016|TWO_SIDED|95.0|-4.8|53.2||p-values were obtained from a Mantel-Haenszel test stratified by smoking status at baseline comparing RVT-1401 340 mg/Week group to placebo.|Cochran-Mantel-Haenszel||The risk difference was obtained from a weighted average of the difference within each stratum using Cochran Mantel-Haenszel weights.|||53.2|-4.8|=0.1016
92209727|NCT03938545|184320044|SUPERIORITY||Risk Difference (RD)|-8.3|||=|0.2963|TWO_SIDED|95.0|-24.0|7.3||p-values were obtained from a Mantel-Haenszel test stratified by smoking status at baseline comparing RVT-1401 255 mg/Week group to placebo.|Cochran-Mantel-Haenszel||The risk difference was obtained from a weighted average of the difference within each stratum using Cochran Mantel-Haenszel weights.|||7.3|-24.0|=0.2963
92209728|NCT03938545|184320046|SUPERIORITY||Least Square Mean Difference|-60.085|||<|0.001|TWO_SIDED|95.0|-88.857|-31.313|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||||-31.313|-88.857|<0.001
92209729|NCT03938545|184320046|SUPERIORITY||Least Square Mean Difference|-65.143|||<|0.001|TWO_SIDED|95.0|-91.927|-38.358|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||||-38.358|-91.927|<0.001
92147089|NCT03928028|184179152|SUPERIORITY|||||||0.778||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.778
92147090|NCT03928028|184179152|SUPERIORITY|||||||0.297||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.297
92271724|NCT02016755|184445033|SUPERIORITY|||||||0.514|||||||t-test, 2 sided|||Change from baseline at Month 9 (Posterior tibial)||||0.514
92209730|NCT03938545|184320046|SUPERIORITY||Least Square Mean Difference|-37.323|||=|0.0284|TWO_SIDED|95.0|-70.455|-4.19|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||||-4.190|-70.455|=0.0284
92209731|NCT03938545|184320047|SUPERIORITY||Least Square Mean Difference|-73.003|||<|0.001|TWO_SIDED|95.0|-82.309|-63.697|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||Week 13||-63.697|-82.309|<0.001
92209732|NCT03938545|184320047|SUPERIORITY||Least Square Mean Difference|-59.005|||<|0.001|TWO_SIDED|95.0|-67.821|-50.19|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||Week 13||-50.190|-67.821|<0.001
92209733|NCT03938545|184320047|SUPERIORITY||Least Square Mean Difference|-51.836|||<|0.001|TWO_SIDED|95.0|-62.66|-41.012|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||Week 13||-41.012|-62.660|<0.001
92209734|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-81.49|||<|0.001|TWO_SIDED|95.0|-93.203|-69.777|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG1||-69.777|-93.203|<0.001
92209735|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-67.591|||<|0.001|TWO_SIDED|95.0|-78.562|-56.62|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG1||-56.620|-78.562|<0.001
92209736|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-67.233|||<|0.001|TWO_SIDED|95.0|-81.073|-53.394|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG1||-53.394|-81.073|<0.001
92209737|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-74.865|||<|0.001|TWO_SIDED|95.0|-86.898|-62.832|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG2||-62.832|-86.898|<0.001
92209738|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-53.198|||<|0.001|TWO_SIDED|95.0|-64.799|-41.596|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG2||-41.596|-64.799|<0.001
92209739|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-53.398|||<|0.001|TWO_SIDED|95.0|-67.552|-39.245|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG2||-39.245|-67.552|<0.001
92209740|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-88.764|||<|0.001|TWO_SIDED|95.0|-103.039|-74.489|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG3||-74.489|-103.039|<0.001
92209741|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-65.714|||<|0.001|TWO_SIDED|95.0|-78.742|-52.686|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG3||-52.686|-78.742|<0.001
92209742|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-66.685|||<|0.001|TWO_SIDED|95.0|-83.157|-50.214|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG3||-50.214|-83.157|<0.001
92209743|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-68.722|||<|0.001|TWO_SIDED|95.0|-80.877|-56.568|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG4||-56.568|-80.877|<0.001
92209744|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-55.554|||<|0.001|TWO_SIDED|95.0|-67.182|-43.926|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG4||-43.926|-67.182|<0.001
92209745|NCT03938545|184320048|SUPERIORITY||Least Square Mean Difference|-53.079|||<|0.001|TWO_SIDED|95.0|-67.948|-38.21|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG4||-38.210|-67.948|<0.001
92209746|NCT01060540|184320063|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.44|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|Adjusted for family history (low/unknown vs. high/moderate) and BMI\>=35 (yes vs no) stratification variables||||0.7|-0.3|0.44
92209747|NCT01060540|184320064|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.19|TWO_SIDED|95.0|-0.1|0.3||adjusted for baseline BMI class and family history level stratification variables|Mixed Models Analysis|||||0.3|-0.1|0.19
92209748|NCT01060540|184320065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.38|TWO_SIDED|95.0|-0.4|0.1||adjusted for stratification variables baseline BMI and family history|Mixed Models Analysis|||||0.1|-0.4|0.38
92209749|NCT01060540|184320066|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.05|TWO_SIDED|95.0|-0.2|0.0||adjusted for baseline family history and BMI|Mixed Models Analysis|||||0.0|-0.2|0.05
92209750|NCT01060540|184320067|SUPERIORITY_OR_OTHER||incident rate ratio|0.9||||0.68|TWO_SIDED|95.0|0.7|1.2||adjusted for baseline family history and BMI|generalized linear model for count data|||||1.2|0.7|0.68
92209751|NCT02647320|184320071|OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.157||0.755|TWO_SIDED|90.0|-0.211|0.309|||Mixed Model Repeated Measure|||Difference in change at week 12||0.309|-0.211|.755
92209752|NCT02647320|184320071|OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.161||0.512|TWO_SIDED|90.0|-0.16|0.371|||Mixed Model Repeated Measure|||Difference in change at week 12||0.371|-0.160|.512
92209753|NCT02647320|184320071|OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.566|TWO_SIDED|90.0|-0.312|0.151|||Mixed Model Repeated Measure|||Difference in change at week 12||0.151|-0.312|.566
92271725|NCT02016755|184445033|SUPERIORITY|||||||0.808|||||||t-test, 2 sided|||Change from baseline at Month 12 (Posterior tibial)||||0.808
92209754|NCT02647320|184320071|OTHER||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.139||0.002|TWO_SIDED|90.0|-0.655|-0.197|||Mixed Model Repeated Measure|||Difference in change at week 12||-0.197|-0.655|.002
92209755|NCT02647320|184320072|OTHER||LS Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|3.13||0.144|TWO_SIDED|90.0|-9.76|0.58|||Mixed Model Repeated Measure|||Difference in change at week 12||0.58|-9.76|.144
92209756|NCT02647320|184320072|OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|3.16||0.773|TWO_SIDED|90.0|-6.14|4.31|||Mixed Model Repeated Measure|||Difference in change at week 12||4.31|-6.14|.773
92209757|NCT02647320|184320072|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|2.79||0.963|TWO_SIDED|90.0|-4.73|4.48|||Mixed Model Repeated Measure|||Difference in change at week 12||4.48|-4.73|.963
92209758|NCT02647320|184320072|OTHER||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|2.74||0.258|TWO_SIDED|90.0|-7.64|1.42|||Mixed Model Repeated Measure|||Difference in change at week 12||1.42|-7.64|.258
92147091|NCT03928028|184179152|SUPERIORITY|||||||0.062||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.062
92209759|NCT02647320|184320073|OTHER||LS Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|5.5||0.228|TWO_SIDED|90.0|-15.74|2.43|||Mixed Model Repeated Measure|||Difference in change at week 12||2.43|-15.74|.228
92209760|NCT02647320|184320073|OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|5.51||0.894|TWO_SIDED|90.0|-8.36|9.84|||Mixed Model Repeated Measure|||Difference in change at week 12||9.84|-8.36|.894
92209761|NCT02647320|184320073|OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|4.86||0.846|TWO_SIDED|90.0|-8.97|7.08|||Mixed Model Repeated Measure|||Difference in change at week 12||7.08|-8.97|.846
92209762|NCT02647320|184320073|OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|4.77||0.409|TWO_SIDED|90.0|-11.82|3.93|||Mixed Model Repeated Measure|||Difference in change at week 12||3.93|-11.82|.409
92209763|NCT02647320|184320074|OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|2.59||0.576|TWO_SIDED|90.0|-2.83|5.73|||Mixed Model Repeated Measure|||Difference in change at week 12||5.73|-2.83|.576
92209764|NCT02647320|184320074|OTHER||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.62||0.646|TWO_SIDED|90.0|-5.53|3.12|||Mixed Model Repeated Measure|||Difference in change at week 12||3.12|-5.53|.646
92209765|NCT02647320|184320074|OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|2.3||0.902|TWO_SIDED|90.0|-3.52|4.08|||Mixed Model Repeated Measure|||Difference in change at week 12||4.08|-3.52|.902
92147092|NCT03928028|184179153|SUPERIORITY|||||||0.069||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.069
92209766|NCT02647320|184320074|OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|2.27||0.478|TWO_SIDED|90.0|-5.35|2.13|||Mixed Model Repeated Measure|||Difference in change at week 12||2.13|-5.35|.478
92209767|NCT02647320|184320075|OTHER||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|4.22||0.072|TWO_SIDED|90.0|-14.57|-0.64|||Mixed Model Repeated Measure|||Difference in change at week 12||-0.64|-14.57|.072
92209768|NCT02647320|184320075|OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|4.26||0.794|TWO_SIDED|90.0|-8.15|5.92|||Mixed Model Repeated Measure|||Difference in change at week 12||5.92|-8.15|.794
92209769|NCT02647320|184320075|OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|3.75||0.946|TWO_SIDED|90.0|-6.45|5.94|||Mixed Model Repeated Measure|||Difference in change at week 12||5.94|-6.45|.946
92209770|NCT02647320|184320075|OTHER||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|3.68||0.431|TWO_SIDED|90.0|-8.99|3.18|||Mixed Model Repeated Measure|||Difference in change at week 12||3.18|-8.99|.431
92209771|NCT02647320|184320076|OTHER||LS Mean Difference|-10.3|STANDARD_ERROR_OF_MEAN|8.54||0.228|TWO_SIDED|90.0|-24.43|3.78|||Mixed Model Repeated Measure|||Difference in change at week 12||3.78|-24.43|.228
92271726|NCT02016755|184445033|SUPERIORITY|||||||0.396|||||||t-test, 2 sided|||Change from baseline at Month 15 (Posterior tibial)||||0.396
92209772|NCT02647320|184320076|OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|8.62||0.951|TWO_SIDED|90.0|-13.7|14.77|||Mixed Model Repeated Measure|||Difference in change at week 12||14.77|-13.70|.951
92271727|NCT02016755|184445033|SUPERIORITY|||||||0.162|||||||t-test, 2 sided|||Change from baseline at Month 18 (Posterior tibial)||||0.162
92271728|NCT02016755|184445033|SUPERIORITY|||||||0.259|||||||t-test, 2 sided|||Change from baseline at LOCF (Posterior tibial)||||0.259
92271729|NCT02016755|184445034|SUPERIORITY|||||||0.671|||||||t-test, 2 sided|||Change from Baseline at Month 3||||0.671
92147093|NCT03928028|184179153|SUPERIORITY|||||||0.323||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.323
92147094|NCT03928028|184179153|SUPERIORITY|||||||0.225|||||||generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.225
92209773|NCT02647320|184320076|OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|7.59||0.852|TWO_SIDED|90.0|-13.96|11.13|||Mixed Model Repeated Measure|||Difference in change at week 12||11.13|-13.96|.852
92209774|NCT02647320|184320076|OTHER||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|7.45||0.608|TWO_SIDED|90.0|-16.13|8.48|||Mixed Model Repeated Measure|||Difference in change at week 12||8.48|-16.13|.608
92209775|NCT02647320|184320077|OTHER||LS Mean Difference|5.32|STANDARD_ERROR_OF_MEAN|15.289||0.728|TWO_SIDED|90.0|-19.932|30.566|||Mixed Model Repeated Measure|||Difference in change at week 4||30.566|-19.932|.728
92209776|NCT02647320|184320077|OTHER||LS Mean Difference|-3.27|STANDARD_ERROR_OF_MEAN|15.853||0.837|TWO_SIDED|90.0|-29.446|22.914|||Mixed Model Repeated Measure|||Difference in change at week 4||22.914|-29.446|.837
92209777|NCT02647320|184320077|OTHER||LS Mean Difference|-3.65|STANDARD_ERROR_OF_MEAN|13.747||0.791|TWO_SIDED|90.0|-26.352|19.051|||Mixed Model Repeated Measure|||Difference in change at week 4||19.051|-26.352|.791
92209778|NCT02647320|184320077|OTHER||LS Mean Difference|-40.03|STANDARD_ERROR_OF_MEAN|13.472||0.003|TWO_SIDED|90.0|-62.283|-17.787|||Mixed Model Repeated Measure|||Difference in change at week 4||-17.787|-62.283|.003
92209779|NCT02647320|184320078|OTHER||LS Mean Difference|4.39|STANDARD_ERROR_OF_MEAN|20.396||0.83|TWO_SIDED|90.0|-29.312|38.087|||Mixed Model Repeated Measure|||Difference in change at week 12||38.087|-29.312|.830
92209780|NCT02647320|184320078|OTHER||LS Mean Difference|24.25|STANDARD_ERROR_OF_MEAN|20.335||0.235|TWO_SIDED|90.0|-9.354|57.848|||Mixed Model Repeated Measure|||Difference in change at week 12||57.848|-9.354|.235
92209781|NCT02647320|184320078|OTHER||LS Mean Difference|17.25|STANDARD_ERROR_OF_MEAN|17.72||0.331|TWO_SIDED|90.0|-12.03|46.529|||Mixed Model Repeated Measure|||Difference in change at week 12||46.529|-12.030|.331
92209782|NCT02647320|184320078|OTHER||LS Mean Difference|-29.51|STANDARD_ERROR_OF_MEAN|17.393||0.091|TWO_SIDED|90.0|-58.254|-0.775|||Mixed Model Repeated Measure|||Difference in change at week 12||-0.775|-58.254|.091
92271730|NCT02016755|184445034|SUPERIORITY|||||||0.925|||||||t-test, 2 sided|||Change from Baseline at Month 6||||0.925
92271731|NCT02016755|184445034|SUPERIORITY|||||||0.514|||||||t-test, 2 sided|||Change from Baseline at Month 9||||0.514
92209783|NCT02647320|184320079|OTHER||LS Mean Difference|1.49|STANDARD_ERROR_OF_MEAN|9.28||0.873|TWO_SIDED|90.0|-13.835|16.815|||Mixed Model Repeated Measure|||Difference in change at week 4||16.815|-13.835|.873
92209784|NCT02647320|184320079|OTHER||LS Mean Difference|-8.09|STANDARD_ERROR_OF_MEAN|9.505||0.395|TWO_SIDED|90.0|-23.79|7.604|||Mixed Model Repeated Measure|||Difference in change at week 4||7.604|-23.790|.395
92209785|NCT02647320|184320079|OTHER||LS Mean Difference|-2.53|STANDARD_ERROR_OF_MEAN|8.306||0.761|TWO_SIDED|90.0|-16.247|11.185|||Mixed Model Repeated Measure|||Difference in change at week 4||11.185|-16.247|.761
92209786|NCT02647320|184320079|OTHER||LS Mean Difference|-27.73|STANDARD_ERROR_OF_MEAN|8.17|<|0.001|TWO_SIDED|90.0|-41.22|-14.236|||Mixed Model Repeated Measure|||Difference in change at week 4||-14.236|-41.220|<0.001
92209787|NCT02647320|184320080|OTHER||LS Mean Difference|-7.61|STANDARD_ERROR_OF_MEAN|12.001||0.527|TWO_SIDED|90.0|-27.441|12.221|||Mixed Model Repeated Measure|||Difference in change at week 12||12.221|-27.441|.527
92209788|NCT02647320|184320080|OTHER||LS Mean Difference|-7.39|STANDARD_ERROR_OF_MEAN|0.532||0.532|TWO_SIDED|90.0|-26.927|12.138|||Mixed Model Repeated Measure|||Difference in change at week 12||12.138|-26.927|.532
92209789|NCT02647320|184320080|OTHER||LS Mean Difference|-4.41|STANDARD_ERROR_OF_MEAN|10.421||0.672|TWO_SIDED|90.0|-21.635|12.807|||Mixed Model Repeated Measure|||Difference in change at week 12||12.807|-21.635|.672
92209790|NCT02647320|184320080|OTHER||LS Mean Difference|-31.58|STANDARD_ERROR_OF_MEAN|10.229||0.002|TWO_SIDED|90.0|-48.482|-14.676|||Mixed Model Repeated Measure|||Difference in change at week 12||-14.676|-48.482|.002
92209791|NCT02647320|184320081|OTHER||LS Mean Difference|-6.2|STANDARD_ERROR_OF_MEAN|5.9||0.298|TWO_SIDED|90.0|-15.9|3.6|||Mixed Model Repeated Measure|||Difference in change at week 2||3.60|-15.90|.298
92209792|NCT02647320|184320081|OTHER||LS Mean Difference|-16.3|STANDARD_ERROR_OF_MEAN|6.09||0.008|TWO_SIDED|90.0|-26.37|-6.27|||Mixed Model Repeated Measure|||Difference in change at week 2||-6.27|-26.37|.008
92209793|NCT02647320|184320081|OTHER||LS Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|5.32||0.074|TWO_SIDED|90.0|-18.31|-0.75|||Mixed Model Repeated Measure|||Difference in change at week 2||-0.75|-18.31|.074
92209794|NCT02647320|184320081|OTHER||LS Mean Difference|-27.2|STANDARD_ERROR_OF_MEAN|5.32|<|0.001|TWO_SIDED|90.0|-35.96|-18.38|||Mixed Model Repeated Measure|||Difference in change at week 2||-18.38|-35.96|<0.001
92209795|NCT02647320|184320082|OTHER||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|5.96||0.84|TWO_SIDED|90.0|-11.04|8.63|||Mixed Model Repeated Measure|||Difference in change at week 4||8.63|-11.04|.840
92209796|NCT02647320|184320082|OTHER||LS Mean Difference|-11.9|STANDARD_ERROR_OF_MEAN|6.06||0.05|TWO_SIDED|90.0|-21.94|-1.91|||Mixed Model Repeated Measure|||Difference in change at week 4||-1.91|-21.94|.050
92209797|NCT02647320|184320082|OTHER||LS Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|5.31||0.227|TWO_SIDED|90.0|-15.21|2.33|||Mixed Model Repeated Measure|||Difference in change at week 4||2.33|-15.21|.227
92209798|NCT02647320|184320082|OTHER||LS Mean Difference|-13.1|STANDARD_ERROR_OF_MEAN|5.27||0.13|TWO_SIDED|90.0|-21.83|-4.43|||Mixed Model Repeated Measure|||Difference in change at week 4||-4.43|-21.83|0.13
92209799|NCT02647320|184320083|OTHER||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|6.55||0.642|TWO_SIDED|90.0|-7.77|13.88|||Mixed Model Repeated Measure|||Difference in change at week 8||13.88|-7.77|.642
92209800|NCT02647320|184320083|OTHER||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|6.72||0.512|TWO_SIDED|90.0|-15.52|6.68|||Mixed Model Repeated Measure|||Difference in change at week 8||6.68|-15.52|.512
92209801|NCT02647320|184320083|OTHER||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|5.81||0.486|TWO_SIDED|90.0|-13.66|5.54|||Mixed Model Repeated Measure|||Difference in change at week 8||5.54|-13.66|.486
92209802|NCT02647320|184320083|OTHER||LS Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|5.8||0.004|TWO_SIDED|90.0|-26.31|-7.16|||Mixed Model Repeated Measure|||Difference in change at week 8||-7.16|-26.31|.004
92209803|NCT02647320|184320084|OTHER||LS Mean Difference|-8.7|STANDARD_ERROR_OF_MEAN|8.11||0.285|TWO_SIDED|90.0|-22.09|4.7|||Mixed Model Repeated Measure|||Difference in change at week 12||4.70|-22.09|.285
92209804|NCT02647320|184320084|OTHER||LS Mean Difference|-18.6|STANDARD_ERROR_OF_MEAN|7.94||0.02|TWO_SIDED|90.0|-31.73|-5.49|||Mixed Model Repeated Measure|||Difference in change at week 12||-5.49|-31.73|.020
92209805|NCT02647320|184320084|OTHER||LS Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|7.03||0.067|TWO_SIDED|90.0|-24.6|-1.35|||Mixed Model Repeated Measure|||Difference in change at week 12||-1.35|-24.60|.067
92209806|NCT02647320|184320084|OTHER||LS Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|6.88||0.012|TWO_SIDED|90.0|-28.76|-6.03|||Mixed Model Repeated Measure|||Difference in change at week 12||-6.03|-28.76|.012
92209807|NCT00596427|184320086|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||mixed-effects regression models|||Change from baseline between groups were compared.||||<0.01
92209808|NCT00596427|184320087|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||mixed-effects regression models|||Change from baseline between groups was compared.||||<0.001
92209809|NCT00596427|184320088|SUPERIORITY_OR_OTHER||||||<|0.1||95.0|||||mixed-effects regression models|This model had fixed effects of treatment, visit and treatment by visit interaction and a random subject effect.||Comparison of change from baseline between groups (treatment effect)||||<0.1
92209810|NCT00596427|184320089|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||mixed-effects regression models|||||||<0.01
92209811|NCT00596427|184320090|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||mixed-effects regression models|||||||<0.05
92209812|NCT00596427|184320091|SUPERIORITY_OR_OTHER||||||<|0.1||95.0|||||mixed-effects regression models|||Change from baseline between groups were compared (treatment effect)||||<0.1
92209813|NCT00596427|184320092|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||mixed-effects regression models|||||||0.05
92209814|NCT00596427|184320093|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||mixed-effects regression models|||||||0.6
92209815|NCT00596427|184320094|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||mixed-effects regression models|||Treatment effect of change from baseline||||0.3
92209816|NCT00596427|184320095|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||mixed-effects regression models|||Treatment effect of change from baseline||||<0.0001
92209817|NCT00596427|184320096|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||mixed-effects regression models|||Treatment effect of change from baseline||||<0.01
92209818|NCT00596427|184320097|SUPERIORITY_OR_OTHER||||||<|0.1||95.0|||||mixed-effects regression models|||||||<0.1
92209819|NCT02401867|184320098|NON_INFERIORITY_OR_EQUIVALENCE|We selected our initial sample size of 150 participants to detect a clinically meaningful % discordance between the two sampling approaches and achieve 90% power at the 0.05 alpha-level using McNemar's test adjusted for analysis of clustered matched-pair data.||||||0.29||||||Statistical significance was determined at an a priori threshold of p \<0.05|McNemar|Degrees of freedom = 1||Comparing the concordance of the HPV DNA-positive results to the cervical provider swab HPV DNA test results (reference) using the McNemar's test, a two-sample test for binomial proportions for matched-pair data. Null hypothesis: The sensitivities between swab 1 (self-vaginal) and swab 2 (provider-cervical) are equal \[ H0 : p1 = p2 \]||||.29
92209820|NCT02401867|184320098|SUPERIORITY_OR_OTHER||Kappa|0.75|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.58|0.92||A priori threshold: p\<0.05|Kappa||Using the asymptotic standard error assuming the null hypothesis.|Concordance of HPV DNA detection between self-swab and provider swab assessed via an unweighted Kappa (K) statistic to determine the percentage agreement beyond that expected by chance.||0.92|0.58|<0.001
92209821|NCT02401867|184320098|SUPERIORITY_OR_OTHER||Sensitivity|71.43|||||TWO_SIDED|95.0|47.82|88.72|||||Used exact confidence intervals.|Assessed sensitivity of vaginal self-swab HPV DNA with respect to provider cervical HPV DNA (reference test).||88.72|47.82|
92209822|NCT02401867|184320098|NON_INFERIORITY_OR_EQUIVALENCE|Assessed specificity of vaginal self-swab HPV DNA with respect to provider cervical HPV DNA (reference test).|Specificity|98.18|||||TWO_SIDED|95.0|93.59|99.78|||||Used exact confidence intervals.|||99.78|93.59|
92209823|NCT02401867|184320098|SUPERIORITY_OR_OTHER||Positive Predictive Value|88.24|||||TWO_SIDED|95.0|63.56|98.54|||||Used exact confidence intervals.|Assessed positive predictive value of vaginal self-swab HPV DNA with respect to provider cervical HPV DNA (reference test).||98.54|63.56|
92209824|NCT02401867|184320098|SUPERIORITY_OR_OTHER||Negative predictive value|94.74|||||TWO_SIDED|95.0|88.9|98.04|||||Used exact confidence intervals|Assessed negative predictive value of vaginal self-swab HPV DNA with respect to provider cervical HPV DNA (reference test).||98.04|88.90|
92209825|NCT00081770|184320101|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.567||95.0|0.79|1.14||Holm's method for multiplicity adjustment was to be used to control the overall Type I error rate at α = 0.05. However, since there was no significant difference in the overall SVR rates between the three groups, no Type-1 error adjustment was made.|Regression, Logistic|The p-value is based on the logistic regression model that includes treatment and baseline stratification factors (viral load and race).|The odds ratio is based on the logistic regression model that includes treatment and baseline stratification factors: viral load (≤600,000 IU/mL vs \>600,000 IU/mL) and race (Black vs non-Black).|||1.14|0.79|0.567
92209826|NCT00081770|184320101|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.195||95.0|0.9|1.3||Holm's method for multiplicity adjustment was to be used to control the overall Type I error rate at α = 0.05. However, since there was no significant difference in the overall SVR rates between the three groups, no Type-1 error adjustment was made.|Regression, Logistic|The p-value is based on the logistic regression model that includes treatment and baseline stratification factors (viral load and race).|The odds ratio is based on the logistic regression model that includes treatment and baseline stratification factors: viral load (≤600,000 IU/mL vs \>600,000 IU/mL) and race (Black vs non-Black).|||1.30|0.90|0.195
92209827|NCT00081770|184320103|SUPERIORITY_OR_OTHER||Percentage of participants|39.9||||||95.0|36.9|42.9|||||Percentage of participants with undetectable HCV-RNA at Treatment Week 12|||42.9|36.9|
92209828|NCT00081770|184320103|SUPERIORITY_OR_OTHER||Percentage of participants|36.0||||||95.0|33.1|39.0|||||Percentage of participants with undetectable HCV-RNA at Treatment Week 12|||39.0|33.1|
92209829|NCT00081770|184320103|SUPERIORITY_OR_OTHER||Percentage of participants|45.0||||||95.0|42.0|48.1|||||Percentage of participants with undetectable HCV-RNA at Treatment Week 12|||48.1|42.0|
92209830|NCT03435497|184320106|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions in which the response may have come from either follow-up, and the predictors were an indicator for study arm, the baseline value of the outcome, the follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.017|TWO_SIDED||||||Regression, Linear|||||||.017
92209831|NCT03435497|184320107|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical logistic repeated-measures regressions in which the response may have come from either follow-up, and the predictors were an indicator for study arm, the baseline value of the outcome, the follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Net)|0.5||||0.05|TWO_SIDED|95.0|0.2|1.6|||Regression, Logistic|||||1.6|0.2|.05
92271732|NCT02016755|184445034|SUPERIORITY|||||||0.302|||||||t-test, 2 sided|||Change from Baseline at Month 12||||0.302
92271733|NCT02016755|184445034|SUPERIORITY|||||||0.373|||||||t-test, 2 sided|||Change from Baseline at Month 15||||0.373
92209832|NCT03435497|184320108|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions in which the response may have come from either follow-up, and the predictors were an indicator for study arm, the baseline value of the outcome, the follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.48|TWO_SIDED||||||Regression, Linear|||||||0.48
92209833|NCT03435497|184320109|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions in which the response may have come from either follow-up, and the predictors were an indicator for study arm, the baseline value of the outcome, the follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.012|TWO_SIDED||||||Regression, Linear|||||||0.012
92209834|NCT03435497|184320110|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical logistic repeated-measures regressions in which the response may have come from either follow-up, and the predictors were an indicator for study arm, the baseline value of the outcome, the follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Odds Ratio (OR)|10.0||||0.022|TWO_SIDED|95.0|1.5|67.7|||Regression, Logistic|||||67.7|1.5|0.022
92209835|NCT01072877|184320111|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.49|||=|0.0001|TWO_SIDED|95.0|-3.72|-1.27|||ANCOVA|||||-1.27|-3.72|=0.0001
92209836|NCT01072877|184320111|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.54|||<|0.0001|TWO_SIDED|95.0|-4.8|-2.29|||ANCOVA|||||-2.29|-4.80|<0.0001
92209837|NCT01072877|184320111|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.73|||<|0.0001|TWO_SIDED|95.0|-3.98|-1.48|||ANCOVA|||||-1.48|-3.98|<0.0001
92209838|NCT01072877|184320111|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.65|||<|0.0001|TWO_SIDED|95.0|-4.84|-2.46|||ANCOVA|||||-2.46|-4.84|<0.0001
92209839|NCT01072877|184320112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|||=|0.0001|TWO_SIDED|95.0|-1.17|-0.4|||ANCOVA|||||-0.40|-1.17|=0.0001
92209840|NCT01072877|184320112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.26|||<|0.0001|TWO_SIDED|95.0|-1.65|-0.86|||ANCOVA|||||-0.86|-1.65|<0.0001
92209841|NCT01072877|184320112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.45|||<|0.0001|TWO_SIDED|95.0|-1.85|-1.06|||ANCOVA|||||-1.06|-1.85|<0.0001
92209842|NCT01072877|184320112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6|||<|0.0001|TWO_SIDED|95.0|-1.98|-1.23|||ANCOVA|||||-1.23|-1.98|<0.0001
92209843|NCT01072877|184320113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|||=|0.0001|TWO_SIDED|95.0|-0.66|-0.23|||ANCOVA|||||-0.23|-0.66|=0.0001
92209844|NCT01072877|184320113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.76|||<|0.0001|TWO_SIDED|95.0|-0.98|-0.53|||ANCOVA|||||-0.53|-0.98|<0.0001
92209845|NCT01072877|184320113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75|||<|0.0001|TWO_SIDED|95.0|-0.97|-0.53|||ANCOVA|||||-0.53|-0.97|<0.0001
92209846|NCT01072877|184320113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.11|-0.68|||ANCOVA|||||-0.68|-1.11|<0.0001
92209847|NCT00601419|184320116|SUPERIORITY_OR_OTHER||||||=|0.556|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is that there is no difference between \<65 years and \>=65 years in the frequency of treatment related adverse events."||||=0.556
92209848|NCT00601419|184320117|SUPERIORITY_OR_OTHER||||||=|0.845|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is that there is no difference between Male and Female in the frequency of treatment related adverse events."||||=0.845
92209849|NCT00601419|184320118|SUPERIORITY_OR_OTHER||||||=|0.038|TWO_SIDED||||||Fisher Exact|||"The null hypothesis is that there is no difference between With TSH deficiency and Without TSH deficiency in the frequency of treatment related adverse events."||||=0.038
92209850|NCT00601419|184320119|SUPERIORITY_OR_OTHER||||||=|0.013|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Past history. The null hypothesis is that there is no difference between With past history and Without past history in the frequency of treatment related adverse events."||||=0.013
92209851|NCT00601419|184320120|SUPERIORITY_OR_OTHER||||||=|0.037|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Initial Dose. The null hypothesis is that there is no association between Initial Dose and the frequency of treatment related adverse events."||||=0.037
92209852|NCT00601419|184320120|SUPERIORITY_OR_OTHER||||||=|0.063|TWO_SIDED||||||Cochran-Armitage Exact|||"The risk factor tested was Initial Dose. The null hypothesis is that there is no linear trend in the frequency of treatment related adverse events across increasing levels of initial dose."||||=0.063
92209853|NCT00601419|184320122|SUPERIORITY_OR_OTHER||||||=|0.019|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is that there is no difference between \<65 years of age and \>=65 years of age in the efficacy of somatropin."||||=0.019
92209854|NCT00601419|184320123|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is that there is no difference between male and female in the efficacy of somatropin."||||=1.000
92209855|NCT00601419|184320124|SUPERIORITY_OR_OTHER||||||=|0.037|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was ACTH deficiency. The null hypothesis is that there is no difference between With ACTH deficiency and Without ACTH deficiency in the efficacy of somatropin."||||=0.037
92209856|NCT03719170|184320129|SUPERIORITY||Slope|0.0000684|||||TWO_SIDED|95.0|-0.0003|0.000413||||||"Power Calculation:~Assuming approximately the same number of eligible subjects in each VISN (with an average of 10,563 candidates per VISN) and an Intraclass correlation coefficient (ICC) of 0.12, randomizing 17 VISNs will give more than 80% power to detect % days on PPI of 75% vs. 50%, 85% vs. 60%, 80% vs. 55%, or 70% vs. 45%, but to detect a difference between 70% vs. 50%, power is only 61% using 0.05 level 2-sided test."||0.000413|-0.0003|
92209857|NCT04281004|184320130|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92209858|NCT04281004|184320131|SUPERIORITY|||||||0.869|||||||Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.869
92209859|NCT04281004|184320132|SUPERIORITY|||||||0.007||||||Significance of treatment effect at month 1.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.007
92209860|NCT04281004|184320132|SUPERIORITY|||||||0.953||||||Significance of treatment effect at month 3.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.953
92209861|NCT04281004|184320132|SUPERIORITY|||||||0.841||||||Significance of treatment effect at month 6.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.841
92209862|NCT04281004|184320132|SUPERIORITY|||||||0.137||||||Significance of treatment effect at month 12.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.137
92209863|NCT04281004|184320133|SUPERIORITY|||||||0.614|||||||t-test, 2 sided|||||||0.614
92209864|NCT04281004|184320134|SUPERIORITY|||||||0.594|||||||Fisher Exact|||||||0.594
92209865|NCT04281004|184320135|SUPERIORITY|||||||0.663||||||Significance of treatment effect at month 1.|Wilcoxon (Mann-Whitney)|Clustered version of the Wilcoxon test||||||0.663
92209866|NCT04281004|184320135|SUPERIORITY|||||||0.416||||||Significance of treatment effect at month 3.|Wilcoxon (Mann-Whitney)|Clustered version of the Wilcoxon test||||||0.416
92209867|NCT04281004|184320135|SUPERIORITY|||||||0.89||||||Significance of treatment effect at month 6.|Wilcoxon (Mann-Whitney)|Clustered version of the Wilcoxon test||||||0.890
92209868|NCT04281004|184320135|SUPERIORITY|||||||0.192||||||Significance of treatment effect at month 12.|Wilcoxon (Mann-Whitney)|Clustered version of the Wilcoxon test||||||0.192
92209869|NCT04281004|184320136|SUPERIORITY|||||||0.057||||||Significance of treatment effect at month 1.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.057
92209870|NCT04281004|184320136|SUPERIORITY|||||||0.528||||||Significance of treatment effect at month 3.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.528
92209871|NCT04281004|184320136|SUPERIORITY|||||||0.21||||||Significance of treatment effect at month 6.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.210
92209872|NCT04281004|184320136|SUPERIORITY|||||||0.853||||||Significance of treatment effect at month 12.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.853
92209873|NCT02245672|184320146|SUPERIORITY|In order for the bioequivalence results to be valid, assay sensitivity had to be established. For assay sensitivity, the following comparisons were performed using the Full Analysis Set for each co-primary endpoint: MGR001 versus placebo, and Advair Diskus versus placebo. Assay sensitivity was demonstrated if the p-values for active treatment versus placebo were less than 0.05|||||<|0.0001|||||||ANCOVA|||MGR001 (Test) vs Placebo||||<0.0001
92209874|NCT02245672|184320146|SUPERIORITY|In order for the bioequivalence results to be valid, assay sensitivity had to be established.For assay sensitivity, the following comparisons were performed using the Full Analysis Set for each co-primary endpoint: MGR001 versus placebo, and Advair Diskus versus placebo. Assay sensitivity was demonstrated if the p-values for active treatment versus placebo were less than 0.05|||||<|0.0001|||||||ANCOVA|||Advair Diskus (Reference) vs Placebo||||<0.0001
92209875|NCT02245672|184320147|EQUIVALENCE|A linear analysis of covariance (ANCOVA) model was fitted for the endpoint and least-squares (LS) means were derived for each treatment. To assess equivalence, LS means (one for Test and one for Reference) from the ANCOVA models were used to generate Test/Reference ratios and 90% CIs were calculated by using Fieller's theorem. To demonstrate equivalence, the 90% CIs were each required to be wholly contained within the interval 0.80-1.25 (i.e., 80%-125%).|Ratio (MGR001/Advair Diskus)|1.12|||||TWO_SIDED|90.0|1.016|1.237|||||Bioequivalence was established between active treatments (MGR001 and Advair Diskus) for the FEV1 AUEC0-12 clinical endpoint|Equivalence of MGR001 and Advair Diskus is established if the ratio of the LS means and 90% confidence interval are wholly contained within the interval 0.80-1.25 (i.e., 80%-125%).||1.237|1.016|
92209876|NCT02245672|184320148|SUPERIORITY|In order for the bioequivalence results to be valid, assay sensitivity had to be established. For assay sensitivity, the following comparisons were performed using the Full Analysis Set for each co-primary endpoint: MGR001 versus placebo, and Advair Diskus versus placebo. Assay sensitivity was demonstrated if the p-values for active treatment versus placebo were less than 0.05|||||<|0.0001|||||||ANCOVA|||MGR001 (Test) vs Placebo||||<0.0001
92209877|NCT02245672|184320148|SUPERIORITY|In order for the bioequivalence results to be valid, assay sensitivity had to be established. For assay sensitivity, the following comparisons were performed using the Full Analysis Set for each co-primary endpoint: MGR001 versus placebo, and Advair Diskus versus placebo. Assay sensitivity was demonstrated if the p-values for active treatment versus placebo were less than 0.05|||||<|0.0001|||||||ANCOVA|||Advair Diskus (Reference) vs Placebo||||<0.0001
92227265|NCT00254566|184356765|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be declared if the lower bound of the 95% CI around the difference in clinical success rates is greater than -10%|Risk Difference (RD)|-2.5||||||95.0|-8.5|3.4|||||Risk difference is the difference in the percentage of participants with Cure and the 95% CI|95% CI for the difference in cure rates will be constructed using a method of linear stratification that weights according to the reciporcal of the variance. Stratification will be by steriod use at time of randomization.||3.4|-8.5|
92209878|NCT02245672|184320149|EQUIVALENCE|A linear analysis of covariance (ANCOVA) model was fitted for the endpoint and least-squares (LS) means were derived for each treatment. To assess equivalence, LS means (one for Test and one for Reference) from the ANCOVA models were used to generate Test/Reference ratios and 90% CIs were calculated by using Fieller's theorem. To demonstrate equivalence, the 90% CIs were each required to be wholly contained within the interval 0.80-1.25 (i.e., 80%-125%).|Ratio (MGR001/Advair Diskus)|1.069|||||TWO_SIDED|90.0|0.938|1.22|||||Bioequivalence was established between active treatments (MGR001 and Advair Diskus) for change from baseline in trough FEV1 endpoint on Day 29|Equivalence of MGR001 and Advair Diskus is established if the ratio of the LS means and 90% confidence interval are wholly contained within the interval 0.80-1.25 (i.e., 80%-125%).||1.220|0.938|
92209879|NCT00362453|184320150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-118.8||||0.0005|TWO_SIDED|95.0|-183.66|-53.94|||Mixed Models Analysis|||||-53.94|-183.66|0.0005
92209880|NCT00362453|184320151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-324.6||||0.001|TWO_SIDED|95.0|-513.98|-135.22|||Mixed Models Analysis|||12 Week||-135.22|-513.98|0.001
92209881|NCT00362453|184320151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-183.2||||0.06|TWO_SIDED|95.0|-372.58|6.18|||Mixed Models Analysis|||24 Week||6.18|-372.58|0.06
92209882|NCT00362453|184320151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-105.3||||0.3|TWO_SIDED|95.0|-294.68|84.08|||Mixed Models Analysis|||48 week||84.08|-294.68|0.3
92209883|NCT00362453|184320152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.9||||0.1|TWO_SIDED|95.0|-53.04|7.24|||Mixed Models Analysis|||12 week||7.24|-53.04|0.1
92209884|NCT00362453|184320152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.8||||0.3|TWO_SIDED|95.0|-44.94|15.34|||Mixed Models Analysis|||24 week||15.34|-44.94|0.3
92209885|NCT00362453|184320152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.65||||0.8|TWO_SIDED|95.0|-33.79|26.49|||Mixed Models Analysis|||48 Week||26.49|-33.79|0.8
92209886|NCT00362453|184320153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.95||||0.05|TWO_SIDED|95.0|-131.81|-2.09|||Mixed Models Analysis|||24 Week||-2.09|-131.81|0.05
92209887|NCT00362453|184320153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.15||||0.2|TWO_SIDED|95.0|-111.01|18.71|||Mixed Models Analysis|||48 Week||18.71|-111.01|0.2
92209888|NCT00362453|184320154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15||||0.01|TWO_SIDED|95.0|-3.82|-0.49|||Mixed Models Analysis|||12 Week||-0.49|-3.82|0.01
92209889|NCT00362453|184320154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.4|TWO_SIDED|95.0|-2.31|1.02|||Mixed Models Analysis|||24 Week||1.02|-2.31|0.4
92209890|NCT00362453|184320154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||1|TWO_SIDED|95.0|-1.62|1.7|||Mixed Models Analysis|||48 weeks||1.70|-1.62|1.0
92209891|NCT00362453|184320155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71||||0.002|TWO_SIDED|95.0|-2.75|-0.66|||Mixed Models Analysis|||12 Week||-0.66|-2.75|0.002
92209892|NCT00362453|184320155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.3|TWO_SIDED|95.0|-1.58|0.51|||Mixed Models Analysis|||24 Week||0.51|-1.58|0.3
92209893|NCT00362453|184320155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.06|TWO_SIDED|95.0|-2.09|0.02|||Mixed Models Analysis|||48 Week||0.02|-2.09|0.06
92209894|NCT00362453|184320156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.88||||5e-05|TWO_SIDED|95.0|-15.91|-5.84|||Mixed Models Analysis|||12 Week||-5.84|-15.91|0.00005
92209895|NCT00362453|184320156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.12||||0.05|TWO_SIDED|95.0|-10.15|-0.08|||Mixed Models Analysis|||24 Week||-0.08|-10.15|0.05
92209896|NCT00362453|184320156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.98||||0.02|TWO_SIDED|95.0|-11.06|-0.91|||Mixed Models Analysis|||48 Week||-0.91|-11.06|0.02
92209897|NCT00362453|184320157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.08||||0.1|TWO_SIDED|95.0|-10.34|110.5|||Mixed Models Analysis|||12 Week||110.50|-10.34|0.1
92209898|NCT00362453|184320157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.71||||0.1|TWO_SIDED|95.0|-15.07|102.5|||Mixed Models Analysis|||24 Week||102.50|-15.07|0.1
92209899|NCT00362453|184320157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.61||||0.7|TWO_SIDED|95.0|-49.36|78.59|||Mixed Models Analysis|||48 Weeks||78.59|-49.36|0.7
92209900|NCT00362453|184320158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.7|TWO_SIDED|95.0|-0.54|0.34|||Mixed Models Analysis|||12 Weeks||0.34|-0.54|0.7
92209901|NCT00362453|184320158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.7|TWO_SIDED|95.0|-0.37|0.52|||Mixed Models Analysis|||24 Weeks||0.52|-0.37|0.7
92209902|NCT00362453|184320158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.6|TWO_SIDED|95.0|-0.55|0.34|||Mixed Models Analysis|||48 weeks||0.34|-0.55|0.6
92209903|NCT00362453|184320159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7||||0.009|TWO_SIDED|95.0|-11.63|-1.77|||Mixed Models Analysis|||12 Week||-1.77|-11.63|0.009
92209904|NCT00362453|184320159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3||||0.04|TWO_SIDED|95.0|-10.23|-0.37|||Mixed Models Analysis|||24 Weeks||-0.37|-10.23|0.04
92209905|NCT00362453|184320159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.9||||0.0006|TWO_SIDED|95.0|-13.83|-3.97|||Mixed Models Analysis|||48 Week||-3.97|-13.83|0.0006
92209906|NCT00362453|184320160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.04|TWO_SIDED|95.0|0.03|1.39|||Mixed Models Analysis|||12 Weeks||1.39|0.03|0.04
92209907|NCT00362453|184320160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.02|TWO_SIDED|95.0|0.17|1.53|||Mixed Models Analysis|||24 Weeks||1.53|0.17|0.02
92209908|NCT00362453|184320160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96||||0.007|TWO_SIDED|95.0|0.28|1.64|||Mixed Models Analysis|||48 Weeks||1.64|0.28|0.007
92209909|NCT00362453|184320161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.43||||0.004|TWO_SIDED|95.0|2.5|12.36|||Mixed Models Analysis|||12 Weeks||12.36|2.50|0.004
92209910|NCT00362453|184320161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.51||||0.08|TWO_SIDED|95.0|-0.42|9.45|||Mixed Models Analysis|||24 Weeks||9.45|-0.42|0.08
92209911|NCT00362453|184320161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.32||||0.01|TWO_SIDED|95.0|1.38|11.25|||Mixed Models Analysis|||48 Weeks||11.25|1.38|0.01
92209912|NCT00362453|184320162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.9|TWO_SIDED|95.0|-6.15|6.57|||Mixed Models Analysis|||12 Weeks||6.57|-6.15|0.9
92209913|NCT00362453|184320162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||1|TWO_SIDED|95.0|-6.47|6.25|||Mixed Models Analysis|||24 Weeks||6.25|-6.47|1.0
92209914|NCT00362453|184320162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.77||||0.1|TWO_SIDED|95.0|-1.59|11.13|||Mixed Models Analysis|||48 Weeks||11.13|-1.59|0.10
92209915|NCT01535014|184320252|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
92209916|NCT01535014|184320252|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
92209917|NCT01535014|184320252|SUPERIORITY|||||||0.0007|||||||Cochran-Mantel-Haenszel|||||||0.0007
92209918|NCT01535014|184320253|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92209919|NCT01535014|184320253|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
92209920|NCT01535014|184320254|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92209921|NCT01535014|184320254|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
92209922|NCT01535014|184320255|SUPERIORITY||||||<|0.05||||||For week 12, 16, 20, 24|Chi-squared|||||||<0.05
92209923|NCT01535014|184320255|SUPERIORITY||||||<|0.05||||||For week 16, 20, 24|Chi-squared|||||||<0.05
92209924|NCT01535014|184320256|SUPERIORITY|||||||0.019|||||||ANCOVA|||||||0.019
92209925|NCT01535014|184320256|SUPERIORITY|||||||0.043|||||||ANCOVA|||||||0.043
92209926|NCT01535014|184320257|SUPERIORITY|||||||0.2|||||||ANCOVA|||||||0.20
92209927|NCT01535014|184320257|SUPERIORITY|||||||0.75|||||||ANCOVA|||||||0.75
92209928|NCT01535014|184320258|SUPERIORITY|||||||0.02|||||||ANCOVA|||SF-36 Mental Health Domain||||0.02
92209929|NCT01535014|184320258|SUPERIORITY|||||||0.63|||||||ANCOVA|||SF-36 Mental Health Domain||||0.63
92209930|NCT01535014|184320258|SUPERIORITY|||||||0.6|||||||ANCOVA|||SF-36 Physical Health Domain||||0.60
92209931|NCT01535014|184320258|SUPERIORITY|||||||0.98|||||||ANCOVA|||SF-36 Physical Health Domain||||0.98
92209932|NCT00719563|184320282|SUPERIORITY_OR_OTHER|||||||0.0737|||||||Wilcoxon Rank Sum|||||||0.0737
92209933|NCT02047643|184320295|OTHER|||||||0.45|||||||Fisher Exact|Two-sided Fisher Exact test||||||.45
92209934|NCT02047643|184320296|OTHER|||||||0.66|||||||Fisher Exact|Two-sided Fisher Exact test||||||.66
92209935|NCT04256603|184320297|OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||wilcox two sample test||||0.67
92209936|NCT02113241|184320302|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||<0.001
92209937|NCT02113241|184320302|SUPERIORITY|||||||0.089||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.089
92209938|NCT02113241|184320303|SUPERIORITY|||||||0.003||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.003
92209939|NCT02113241|184320303|SUPERIORITY|||||||0.248||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.248
92209940|NCT02113241|184320304|SUPERIORITY|||||||0.161||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.161
92209941|NCT02113241|184320304|SUPERIORITY|||||||0.079||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.079
92209942|NCT02113241|184320305|SUPERIORITY|||||||0.067||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.067
92209943|NCT02113241|184320305|SUPERIORITY|||||||0.918||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.918
92209944|NCT02113241|184320306|SUPERIORITY|||||||0.128||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.128
92209945|NCT02113241|184320306|SUPERIORITY|||||||0.454||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.454
92209946|NCT02113241|184320307|SUPERIORITY|||||||0.433|||||||Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.433
92209947|NCT02113241|184320307|SUPERIORITY|||||||0.407||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.407
92209948|NCT02113241|184320308|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||<0.001
92209949|NCT02113241|184320308|SUPERIORITY|||||||0.826||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.826
92209950|NCT02113241|184320309|SUPERIORITY|||||||0.791||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.791
92209951|NCT02113241|184320309|SUPERIORITY|||||||0.413||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.413
92209952|NCT02113241|184320310|SUPERIORITY|||||||0.075||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.075
92209953|NCT02113241|184320310|SUPERIORITY|||||||0.432||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.432
92209954|NCT02113241|184320311|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||<0.001
92209955|NCT02113241|184320311|SUPERIORITY|||||||0.835||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.835
92209956|NCT02113241|184320312|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||<0.001
92209957|NCT02113241|184320312|SUPERIORITY|||||||0.778||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.778
92209958|NCT02113241|184320313|SUPERIORITY|||||||0.338||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.338
92209959|NCT02113241|184320313|SUPERIORITY|||||||0.309||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.309
92209960|NCT02113241|184320314|SUPERIORITY|||||||0.049||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.049
92209961|NCT02113241|184320314|SUPERIORITY|||||||0.563||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.563
92209962|NCT02113241|184320315|SUPERIORITY|||||||0.85||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.850
92209963|NCT02113241|184320315|SUPERIORITY|||||||0.206||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.206
92209964|NCT02113241|184320316|SUPERIORITY|||||||0.006||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.006
92209965|NCT02113241|184320316|SUPERIORITY|||||||0.95||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.950
92271734|NCT02016755|184445034|SUPERIORITY|||||||0.505|||||||t-test, 2 sided|||Change from Baseline at Month 18||||0.505
92271735|NCT02016755|184445034|SUPERIORITY|||||||0.135|||||||t-test, 2 sided|||Change from Baseline at LOCF||||0.135
92271736|NCT02016755|184445034|SUPERIORITY|||||||0.175|||||||t-test, 2 sided|||Change from baseline at month 3 (Left)||||0.175
92271737|NCT02016755|184445034|SUPERIORITY|||||||0.393|||||||t-test, 2 sided|||Change from baseline at month 6 (Left)||||0.393
92271738|NCT02016755|184445034|SUPERIORITY|||||||0.928|||||||t-test, 2 sided|||Change from baseline at month 9 (Left)||||0.928
92271739|NCT02016755|184445034|SUPERIORITY|||||||0.429|||||||t-test, 2 sided|||Change from baseline at month 12 (Left)||||0.429
92271740|NCT02016755|184445034|SUPERIORITY|||||||0.907|||||||t-test, 2 sided|||Change from baseline at month 15 (Left)||||0.907
92209966|NCT02113241|184320317|SUPERIORITY|||||||0.011||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.011
92209967|NCT02113241|184320317|SUPERIORITY|||||||0.454||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.454
92271741|NCT02016755|184445034|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Change from baseline at month 18 (Left)||||0.300
92271742|NCT02016755|184445034|SUPERIORITY|||||||0.214|||||||t-test, 2 sided|||Change from baseline at LOCF (Left)||||0.214
92271743|NCT02016755|184445035|SUPERIORITY|||||||0.655|||||||t-test, 2 sided|||Change from Baseline at Month 3||||0.655
92271744|NCT02016755|184445035|SUPERIORITY|||||||0.226|||||||t-test, 2 sided|||Change from Baseline at Month 6||||0.226
92271745|NCT02016755|184445035|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||Change from Baseline at Month 9||||0.380
92209968|NCT02113241|184320318|SUPERIORITY|||||||0.652||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.652
92209969|NCT02113241|184320318|SUPERIORITY|||||||0.055||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.055
92209970|NCT02113241|184320319|SUPERIORITY|||||||0.254||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.254
92209971|NCT02113241|184320319|SUPERIORITY|||||||0.787||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.787
92209972|NCT02113241|184320320|SUPERIORITY|||||||0.129||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.129
92209973|NCT02113241|184320320|SUPERIORITY|||||||0.365||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.365
92209974|NCT02113241|184320321|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||<0.001
92209975|NCT02113241|184320321|SUPERIORITY|||||||0.175||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.175
92209976|NCT02113241|184320322|SUPERIORITY|||||||0.392||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.392
92271746|NCT02016755|184445035|SUPERIORITY|||||||0.187|||||||t-test, 2 sided|||Change from Baseline at Month 12||||0.187
92271747|NCT02016755|184445035|SUPERIORITY|||||||0.203|||||||t-test, 2 sided|||Change from Baseline at Month 15||||0.203
92271748|NCT02016755|184445035|SUPERIORITY|||||||0.074|||||||t-test, 2 sided|||Change from Baseline at Month 18||||0.074
92271749|NCT02016755|184445035|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||Change from Baseline at LOCF||||0.038
92271750|NCT02016755|184445036|SUPERIORITY|||||||0.246|||||||t-test, 2 sided|||Change from Baseline at Month 3||||0.246
92271751|NCT02016755|184445036|SUPERIORITY|||||||0.474|||||||t-test, 2 sided|||Change from Baseline at Month 6||||0.474
92271752|NCT02016755|184445036|SUPERIORITY|||||||0.395|||||||t-test, 2 sided|||Change from Baseline at Month 9||||0.395
92271753|NCT02016755|184445036|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|||Change from Baseline at Month 12||||0.220
92271754|NCT02016755|184445036|SUPERIORITY|||||||0.454|||||||t-test, 2 sided|||Change from Baseline at Month 15||||0.454
92271755|NCT02016755|184445036|SUPERIORITY|||||||0.167|||||||t-test, 2 sided|||Change from Baseline at Month 18||||0.167
92271756|NCT02016755|184445036|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||Change from Baseline at LOCF||||0.015
92271757|NCT01398982|184445064|NON_INFERIORITY_OR_EQUIVALENCE|Based on our published prospective, nonrandomized study using TAP block in abdominally-based autologous tissue breast reconstruction, 40 patients per group would achieve 85% power to detect a 65% reduction in mean total opioid consumption between the control and study groups (significance level alpha = 0.05; using a two-sided Wilcoxon rank-sum test).||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.02
92271758|NCT04440163|184445083|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was greater than (\>) minus (-)10 percent (%), the non-inferiority was concluded.|Difference in percentage of participants|2.5|||||TWO_SIDED|95.0|-0.2|6.0|||Based on Miettinen and Nurminen method.|||MenA||6.0|-0.2|
92271759|NCT04440163|184445083|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|41.0|||||TWO_SIDED|95.0|34.4|47.5||||||MenC||47.5|34.4|
92271760|NCT04440163|184445083|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|24.3|||||TWO_SIDED|95.0|18.8|30.4||||||MenW||30.4|18.8|
92271761|NCT04440163|184445083|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|23.8|||||TWO_SIDED|95.0|18.0|30.1||||||MenY||30.1|18.0|
92271762|NCT04440163|184445084|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|-3.2|||||TWO_SIDED|95.0|-6.5|0.5||||||MenA||0.5|-6.5|
92271763|NCT04440163|184445084|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|-0.9|||||TWO_SIDED|95.0|-4.6|3.3||||||MenC||3.3|-4.6|
92271764|NCT04440163|184445084|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|0.7|||||TWO_SIDED|95.0|-2.2|4.3||||||MenW||4.3|-2.2|
92271765|NCT04440163|184445084|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|-0.7|||||TWO_SIDED|95.0|-4.6|3.8||||||MenY||3.8|-4.6|
92271766|NCT04440163|184445085|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|9.6|||||TWO_SIDED|95.0|4.2|15.2||||||||15.2|4.2|
92271767|NCT04440163|184445086|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|4.0|||||TWO_SIDED|95.0|-0.7|8.9||||||A22||8.9|-0.7|
92271768|NCT04440163|184445086|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|1.4|||||TWO_SIDED|95.0|-1.0|4.3||||||A56||4.3|-1.0|
92271769|NCT04440163|184445086|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|10.9|||||TWO_SIDED|95.0|5.2|16.6||||||B24||16.6|5.2|
92271770|NCT04440163|184445086|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage|7.3|||||TWO_SIDED|95.0|2.9|11.9||||||B44||11.9|2.9|
92271771|NCT04440163|184445118|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|1.7|||||TWO_SIDED|95.0|-1.0|5.3||||||MenA||5.3|-1.0|
92271772|NCT04440163|184445118|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|10.5|||||TWO_SIDED|95.0|3.0|17.9||||||MenC||17.9|3.0|
92271773|NCT04440163|184445118|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|6.3|||||TWO_SIDED|95.0|-0.1|13.1||||||MenW||13.1|-0.1|
92271774|NCT04440163|184445118|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|11.4|||||TWO_SIDED|95.0|5.0|18.2||||||MenY||18.2|5.0|
92271775|NCT04440163|184445119|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|-2.2|||||TWO_SIDED|95.0|-5.2|1.4||||||MenA||1.4|-5.2|
92271776|NCT04440163|184445119|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|-1.3|||||TWO_SIDED|95.0|-4.9|2.9||||||MenC||2.9|-4.9|
92271777|NCT04440163|184445119|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|1.0|||||TWO_SIDED|95.0|-1.6|4.6||||||MenW||4.6|-1.6|
92271778|NCT04440163|184445119|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|0.6|||||TWO_SIDED|95.0|-3.0|5.0||||||MenY||5.0|-3.0|
92271779|NCT00589693|184445125|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority will be established if the lower limit of the 2-sided 95% Confidence Interval (CI) of the difference in clinical cure rate (doripenem minus imipenem-cilastatin) is greater than 15%|Difference of 2 binomial proportions|-11.2|||||TWO_SIDED|95.0|-26.3|3.8|||Normal approximation of 2 proportions|||Null Hypothesis: The clinical cure rate of doripenem assessed at the EOT visit is more than 15% inferior to that of imipenem-cilastatin||3.8|-26.3|
92271780|NCT00589693|184445126|SUPERIORITY_OR_OTHER||Difference of 2 binomial proportions|-18.8|||||TWO_SIDED|95.0|-57.2|19.5|||Normal approximation of 2 proportions|||||19.5|-57.2|
92271781|NCT00589693|184445127|SUPERIORITY_OR_OTHER||Difference of 2 binomial proportions|-5.6|||||TWO_SIDED|95.0|-23.0|11.7|||Normal approximation of 2 proportions|||||11.7|-23.0|
92271782|NCT00589693|184445128|SUPERIORITY_OR_OTHER|||||||0.14|||||||Fisher Exact|||||||0.14
92271783|NCT00589693|184445129|SUPERIORITY_OR_OTHER||Difference of 2 binomial proportions|6.7|||||TWO_SIDED|95.0|-5.0|18.5|||Normal approximation of 2 proportions|||||18.5|-5.0|
92271784|NCT01128153|184445130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.099|<|0.0001|TWO_SIDED|95.0|-0.86|-0.47|||ANCOVA||Adjusted mean treatment difference from the ANCOVA model (Saxagliptin - Placebo)|||-0.47|-0.86|<0.0001
92271785|NCT01128153|184445131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.74|STANDARD_ERROR_OF_MEAN|7.667||0.0301|TWO_SIDED|95.0|-31.85|-1.62|||ANCOVA||Adjusted mean treatment difference from the ANCOVA model (Saxagliptin - Placebo)|||-1.62|-31.85|0.0301
92271786|NCT01128153|184445132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.426||0.0301|TWO_SIDED|95.0|-1.77|-0.09|||ANCOVA||Adjusted mean treatment difference from the ANCOVA model (Saxagliptin - Placebo)|||-0.09|-1.77|0.0301
92271787|NCT01128153|184445133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|4.595||0.0868|TWO_SIDED|95.0|-16.96|1.15|||ANCOVA||Adjusted mean treatment difference from the ANCOVA model (Saxagliptin - Placebo)|||1.15|-16.96|0.0868
92271788|NCT01128153|184445134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.255||0.0868|TWO_SIDED|95.0|-0.94|0.06|||ANCOVA||Adjusted mean treatment difference from the ANCOVA model (Saxagliptin - Placebo)|||0.06|-0.94|0.0868
92271789|NCT01128153|184445135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.006|||<|0.0001|TWO_SIDED|95.0|3.852|21.05|||ANCOVA||Estimated Odds Ratio from the logistic regression model (Saxa/Placebo)|||21.05|3.852|<0.0001
92271790|NCT01954082|184445136|SUPERIORITY||Risk Ratio (RR)|1.41||||0.0095|TWO_SIDED|95.0|1.08|1.83||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson|Model adjusted for strata defined by center and gestational age.|In the risk ratio, the numerator represents the Inositol arm and the denominator represents the placebo arm. (RR\>1 implies that the risk of mortality and/or severe ROP is greater in the Inositol group compared to the Placebo group).|The null hypothesis is there is no treatment effect on the development of severe ROP and mortality.||1.83|1.08|0.0095
92271791|NCT01954082|184445137|SUPERIORITY||Risk Ratio (RR)|1.03||||0.6599|TWO_SIDED|95.0|0.91|1.16||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.|In the risk ratio, the numerator represents the Inositol arm and the denominator represents the placebo arm. (RR\>1 implies that the risk of BPD is greater in the Inositol group compared to the Placebo group).|The null hypothesis is there is no treatment effect on the incidence of BPD.||1.16|0.91|0.6599
92271792|NCT01954082|184445138|SUPERIORITY||Risk Ratio (RR)|1.05||||0.3883|TWO_SIDED|95.0|0.94|1.17||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.||The null hypothesis is there is no treatment effect on the incidence of BPD or on mortality due to BDP.||1.17|0.94|0.3883
92271793|NCT01954082|184445139|SUPERIORITY||Risk Ratio (RR)|1.53||||0.0306|TWO_SIDED|95.0|1.03|2.25||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.|In the risk ratio, the numerator represents the Inositol arm and the denominator represents the placebo arm. (RR\>1 implies that the risk of mortality prior to ROP endpoint is greater in the Inositol group compared to the Placebo group).|The null hypothesis is there is no treatment effect on survival to ROP endpoint.||2.25|1.03|0.0306
92271794|NCT01954082|184445140|SUPERIORITY||Risk Ratio (RR)|1.02||||0.7464|TWO_SIDED|95.0|0.91|1.14||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.||The null hypothesis is there is no treatment effect on the incidence of ROP||1.14|0.91|0.7464
92271795|NCT01954082|184445141|SUPERIORITY||Risk Ratio (RR)|0.98||||0.7598|TWO_SIDED|95.0|0.83|1.14||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.|In the risk ratio, the numerator represents the Inositol arm and the denominator represents the placebo arm. (RR\>1 implies that the risk of Type 2 ROP or more severe ROP is greater in the Inositol group compared to the Placebo group).|The null hypothesis is there is no treatment effect on the incidence of Type 2 ROP or more severe ROP.||1.14|0.83|0.7598
92271796|NCT01954082|184445142|SUPERIORITY||Risk Ratio (RR)|1.04||||0.8133|TWO_SIDED|95.0|0.74|1.48||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.|In the risk ratio, the numerator represents the Inositol arm and the denominator represents the placebo arm. (RR\>1 implies that the risk of severe IVH is greater in the Inositol group compared to the Placebo group).|The null hypothesis is there is no treatment effect on the incidence severe IVH.||1.48|0.74|0.8133
92271797|NCT01682512|184445157|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence for the change in DAS28 (ESR) was evaluated based on the two-sided 90% Confidence Interval (CI) for the treatment difference with respect to the mean change in the DAS28(ESR) score compared to baseline. Null hypothesis of non-equivalence was to be rejected if the 90% CI is fully contained within the interval of \[-0.5, 0.5\].|Adjusted mean difference|-0.4|||||TWO_SIDED|90.0|-0.83|-0.03||Model analyzed was: DAS28(ESR) change from Baseline at Week 24 = overall mean + treatment + DAS28(ESR) Baseline score + visit + visit by treatment interaction + baseline-by-visit interaction + random error.|Mixed Models Analysis|A restricted maximum likelihood (REML)-based Mixed-Effect Model Repeated Measure (MMRM) approach was used.|Adjusted mean difference was calculated as: BI 695500 - Rituxan®|||-0.03|-0.83|
92271798|NCT01682512|184445158|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|102.35|STANDARD_ERROR_OF_MEAN|107.7|||TWO_SIDED|90.0|90.5|115.76|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-tz)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus Rituxan®; standard error is geometric standard error|The similarity of AUC(o- tz) was compared between treatment groups BI 695500 and Rituxan.||115.76|90.50|
92271799|NCT01682512|184445158|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|88.21|STANDARD_ERROR_OF_MEAN|107.5|||TWO_SIDED|90.0|78.24|99.46|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-tz)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus MabThera®; standard error is geometric standard error|The similarity of AUC(o- tz) was compared between treatment groups BI 695500 and MabThera.||99.46|78.24|
92271800|NCT01682512|184445158|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|86.18|STANDARD_ERROR_OF_MEAN|107.449|||TWO_SIDED|90.0|76.5|97.09|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-tz)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: Rituxan® versus MabThera®; standard error is geometric standard error|The similarity of AUC(o- tz) was compared between treatment groups Rituxan and MabThera.||97.09|76.50|
92271801|NCT01682512|184445159|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|102.46|STANDARD_ERROR_OF_MEAN|107.939|||TWO_SIDED|90.0|90.26|116.3|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf pred)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus Rituxan®; standard error is geometric standard error|The similarity of AUC(o-inf pred) was compared between treatment groups BI 695500 and Rituxan.||116.30|90.26|
92271802|NCT01682512|184445159|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|86.0|STANDARD_ERROR_OF_MEAN|107.404|||TWO_SIDED|90.0|76.38|96.82|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf pred)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus MabThera®; standard error is geometric standard error|The similarity of AUC(o-inf pred) was compared between treatment groups BI 695500 and MabThera.||96.82|76.38|
92271803|NCT01682512|184445159|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|83.93|STANDARD_ERROR_OF_MEAN|107.386|||TWO_SIDED|90.0|74.57|94.47|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf pred)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: Rituxan® versus MabThera®; standard error is geometric standard error|The similarity of AUC(o-inf pred) was compared between treatment groups Rituxan and MabThera.||94.47|74.57|
92271804|NCT01682512|184445160|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|95.87|STANDARD_ERROR_OF_MEAN|106.608|||TWO_SIDED|90.0|86.21|106.62|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-336)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus Rituxan®; standard error is geometric standard error|The similarity of AUC(0-336) was compared between treatment groups BI 695500 and Rituxan.||106.62|86.21|
92271805|NCT01682512|184445160|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|89.46|STANDARD_ERROR_OF_MEAN|106.775|||TWO_SIDED|90.0|80.23|99.74|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-336)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus MabThera®; standard error is geometric standard error|The similarity of AUC(0-336) was compared between treatment groups BI 695500 and MabThera.||99.74|80.23|
92271806|NCT01682512|184445160|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|93.31|STANDARD_ERROR_OF_MEAN|105.7|||TWO_SIDED|90.0|85.11|102.29|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-336)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: Rituxan® versus MabThera®; standard error is geometric standard error|The similarity of AUC(0-336) was compared between treatment groups Rituxan and MabThera.||102.29|85.11|
92271807|NCT01682512|184445161|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|93.97|STANDARD_ERROR_OF_MEAN|105.995|||TWO_SIDED|90.0|85.32|103.5|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(Cmax)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus Rituxan®; standard error is geometric standard error|The similarity of observed Cmax was compared between treatment groups BI 695500 and Rituxan.||103.50|85.32|
92271808|NCT01682512|184445161|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|89.3|STANDARD_ERROR_OF_MEAN|105.657|||TWO_SIDED|90.0|81.51|97.83|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(Cmax)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus MabThera®; standard error is geometric standard error|The similarity of observed Cmax was compared between treatment groups BI 695500 and MabThera.||97.83|81.51|
92271809|NCT01682512|184445161|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|95.02|STANDARD_ERROR_OF_MEAN|105.744|||TWO_SIDED|90.0|86.62|104.25|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(Cmax)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: Rituxan® versus MabThera®; standard error is geometric standard error|The similarity of observed Cmax was compared between treatment groups Rituxan and MabThera.||104.25|86.62|
92271810|NCT01682512|184445163|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|104.49|STANDARD_ERROR_OF_MEAN|108.044|||TWO_SIDED|90.0|91.92|118.78|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf, ppk)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus Rituxan®; standard error is geometric standard error|The similarity of AUC(0-inf, ppk) was compared between treatment groups BI 695500 and Rituxan.||118.78|91.92|
92271811|NCT01682512|184445163|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|91.39|STANDARD_ERROR_OF_MEAN|107.253|||TWO_SIDED|90.0|81.38|102.64|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf, ppk)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus MabThera®; standard error is geometric standard error|The similarity of AUC(0-inf, ppk) was compared between treatment groups BI 695500 and MabThera.||102.64|81.38|
92271812|NCT01682512|184445163|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|87.47|STANDARD_ERROR_OF_MEAN|107.896|||TWO_SIDED|90.0|77.12|99.21|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf, ppk)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: Rituxan® versus MabThera®; standard error is geometric standard error|The similarity of AUC(0-inf, ppk) was compared between treatment groups Rituxan and MabThera.||99.21|77.12|
92271813|NCT03137082|184445168|SUPERIORITY||||||<|0.03|||||||Mixed Models Analysis|||||||<0.03
92271814|NCT03137082|184445169|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.1
92271815|NCT03137082|184445171|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92271816|NCT03137082|184445172|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92271817|NCT03137082|184445173|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.5
92271818|NCT03137082|184445174|SUPERIORITY||||||<|0.03|||||||Mixed Models Analysis|||||||<.03
92271819|NCT03137082|184445175|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.1
92271820|NCT03137082|184445176|SUPERIORITY||||||<|0.3|||||||Mixed Models Analysis|||||||<0.3
92271821|NCT03137082|184445177|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||0.04
92271822|NCT03137082|184445178|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||0.4
92271823|NCT03137082|184445179|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
92271824|NCT03137082|184445180|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.2
92271825|NCT00417027|184445181|SUPERIORITY_OR_OTHER||||||>|0.05||||||Bonferroni corrected for 6 comparisons|Wilcoxon (Mann-Whitney)|||||||>0.05
92271826|NCT00417027|184445181|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Bonferroni corrected for 6 comparisons|Wilcoxon (Mann-Whitney)|||||||0.005
92271827|NCT00417027|184445181|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||Bonferroni corrected for 6 comparisons|Wilcoxon (Mann-Whitney)|||||||0.02
92271828|NCT00417027|184445182|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Kruskal-Wallis|||||||0.54
92271829|NCT00417027|184445183|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Kruskal-Wallis|||||||0.32
92271830|NCT00417027|184445184|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Kruskal-Wallis|||||||0.69
92271831|NCT00417027|184445185|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||Analysis applies to all rows.|Chi-squared, Corrected|||Analysis apply to all rows. Only 1 comparison was made between the groups in distribution of number of bolus doses.||||0.72
92271832|NCT00417027|184445186|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||Kruskal-Wallis|||||||0.41
92271833|NCT00417027|184445187|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Kruskal-Wallis|||||||0.85
92271834|NCT02787785|184445192|SUPERIORITY||Cox Proportional Hazard|0.49||||0.354|TWO_SIDED|95.0|0.11|2.2|||Regression, Cox|||||2.20|0.11|0.354
92271835|NCT02787785|184445194|SUPERIORITY||Cox Proportional Hazard|0.37||||0.479|TWO_SIDED|95.0|0.02|5.88|||Regression, Cox|||||5.88|0.02|0.479
92271836|NCT01447628|184445222|SUPERIORITY|||||||0.6039|||||||Mixed Models Analysis|||||||0.6039
92271837|NCT01447628|184445223|SUPERIORITY|||||||0.0747|||||||Mixed Models Analysis|||||||0.0747
92271838|NCT01447628|184445223|SUPERIORITY|||||||0.799|||||||Mixed Models Analysis|||||||0.7990
92271839|NCT01447628|184445223|SUPERIORITY|||||||0.2111|||||||Mixed Models Analysis|||This is a combination of the p-values from the separate analyses of each data set.||||0.2111
92271840|NCT01447628|184445224|SUPERIORITY|||||||0.6583|||||||Mixed Models Analysis|||||||0.6583
92271841|NCT01447628|184445224|SUPERIORITY|||||||0.9166|||||||Mixed Models Analysis|||||||0.9166
92271842|NCT01447628|184445224|SUPERIORITY|||||||0.6631|||||||Mixed Models Analysis|||||||0.6631
92271843|NCT01447628|184445225|SUPERIORITY|||||||0.4039|||||||Mixed Models Analysis|||||||0.4039
92271844|NCT01447628|184445225|SUPERIORITY|||||||0.9144|||||||Mixed Models Analysis|||||||0.9144
92271845|NCT01447628|184445225|SUPERIORITY|||||||0.9959|||||||Mixed Models Analysis|||||||0.9959
92271846|NCT01447628|184445226|SUPERIORITY|||||||0.1788|||||||Mixed Models Analysis|||||||0.1788
92271847|NCT01447628|184445226|SUPERIORITY|||||||0.7795|||||||Mixed Models Analysis|||||||0.7795
92271848|NCT01447628|184445226|SUPERIORITY|||||||0.414|||||||Mixed Models Analysis|||||||0.414
92271849|NCT01447628|184445227|SUPERIORITY|||||||0.8688|||||||Mixed Models Analysis|||||||0.8688
92271850|NCT01447628|184445227|SUPERIORITY|||||||0.9999|||||||Mixed Models Analysis|||||||0.9999
92271851|NCT01447628|184445227|SUPERIORITY|||||||0.991|||||||Mixed Models Analysis|||||||0.991
92271852|NCT01447628|184445228|SUPERIORITY|||||||0.5465|||||||Mixed Models Analysis|||||||0.5465
92271853|NCT01447628|184445228|SUPERIORITY|||||||0.4298|||||||Mixed Models Analysis|||||||0.4298
92271854|NCT01447628|184445228|SUPERIORITY|||||||0.5451|||||||Mixed Models Analysis|||||||0.5451
92271855|NCT01447628|184445229|SUPERIORITY|||||||0.6241|||||||Mixed Models Analysis|||Note that Endurance CPET was not done in China, hence only European data provided.||||0.6241
92271856|NCT01447628|184445230|SUPERIORITY|||||||0.4758|||||||Mixed Models Analysis|||||||0.4758
92271857|NCT01447628|184445231|SUPERIORITY|||||||0.205|||||||Mixed Models Analysis|||||||0.2050
92271858|NCT01447628|184445231|SUPERIORITY|||||||0.1993|||||||Mixed Models Analysis|||||||0.1993
92271859|NCT01447628|184445231|SUPERIORITY|||||||0.1993|||||||Mixed Models Analysis|||||||0.1993
92271860|NCT01447628|184445232|SUPERIORITY|||||||0.061|||||||Mixed Models Analysis|||||||0.0610
92271861|NCT01447628|184445232|SUPERIORITY|||||||0.0641|||||||Mixed Models Analysis|||||||0.0641
92271862|NCT01447628|184445233|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||||||0.0003
92271863|NCT01447628|184445233|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
92271864|NCT01447628|184445233|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92271865|NCT01447628|184445234|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92271866|NCT01447628|184445235|SUPERIORITY|||||||0.8093|||||||Mixed Models Analysis|||||||0.8093
92271867|NCT01447628|184445235|SUPERIORITY|||||||0.63|||||||Mixed Models Analysis|||||||0.6300
92271868|NCT01447628|184445235|SUPERIORITY|||||||0.8533|||||||Mixed Models Analysis|||||||0.8533
92271869|NCT01447628|184445236|SUPERIORITY|||||||0.0725|||||||Mixed Models Analysis|||||||0.0725
92271870|NCT01447628|184445236|SUPERIORITY|||||||0.8572|||||||Mixed Models Analysis|||||||0.8572
92271871|NCT01447628|184445236|SUPERIORITY|||||||0.2348|||||||Mixed Models Analysis|||||||0.2348
92271872|NCT01447628|184445237|SUPERIORITY|||||||0.1115|||||||Mixed Models Analysis|||||||0.1115
92271873|NCT01447628|184445238|SUPERIORITY|||||||0.979|||||||Mixed Models Analysis|||||||0.9790
92271874|NCT01447628|184445239|SUPERIORITY|||||||0.7702|||||||Mixed Models Analysis|||||||0.7702
92271875|NCT01447628|184445240|SUPERIORITY|||||||0.2219|||||||Mixed Models Analysis|||||||0.2219
92271876|NCT01447628|184445241|SUPERIORITY|||||||0.1777|||||||Mixed Models Analysis|||||||0.1777
92271877|NCT01447628|184445241|SUPERIORITY|||||||0.7889|||||||Mixed Models Analysis|||||||0.7889
92271878|NCT01447628|184445241|SUPERIORITY|||||||0.4156|||||||Mixed Models Analysis|||||||0.4156
92271879|NCT01447628|184445242|SUPERIORITY|||||||0.7625|||||||Mixed Models Analysis|||||||0.7625
92271880|NCT01447628|184445242|SUPERIORITY|||||||0.2262|||||||Mixed Models Analysis|||||||0.2262
92271881|NCT01447628|184445242|SUPERIORITY|||||||0.4756|||||||Mixed Models Analysis|||||||0.4756
92271882|NCT01447628|184445243|SUPERIORITY|||||||0.7711|||||||Mixed Models Analysis|||||||0.7711
92271883|NCT01447628|184445243|SUPERIORITY|||||||0.7806|||||||Mixed Models Analysis|||||||0.7806
92271884|NCT01447628|184445243|SUPERIORITY|||||||0.9074|||||||Mixed Models Analysis|||||||0.9074
92271885|NCT01447628|184445244|SUPERIORITY|||||||0.9504|||||||Mixed Models Analysis|||||||0.9504
92271886|NCT01447628|184445244|SUPERIORITY|||||||0.8666|||||||Mixed Models Analysis|||||||0.8666
92271887|NCT01447628|184445244|SUPERIORITY|||||||0.8104|||||||Mixed Models Analysis|||||||0.8104
92271888|NCT01447628|184445245|SUPERIORITY|||||||0.4478|||||||Mixed Models Analysis|||||||0.4478
92271889|NCT01447628|184445246|SUPERIORITY|||||||0.459|||||||Mixed Models Analysis|||||||0.4590
92271890|NCT01447628|184445247|SUPERIORITY|||||||0.8086|||||||Mixed Models Analysis|||||||0.8086
92271891|NCT01447628|184445248|SUPERIORITY|||||||0.6944|||||||Mixed Models Analysis|||||||0.6944
92271892|NCT01447628|184445249|SUPERIORITY|||||||0.585|||||||Mixed Models Analysis|||||||0.585
92271893|NCT01447628|184445250|SUPERIORITY|||||||0.4619|||||||Mixed Models Analysis|||||||0.4619
92271894|NCT01447628|184445251|SUPERIORITY|||||||0.7721|||||||Mixed Models Analysis|||||||0.7721
92271895|NCT01447628|184445252|SUPERIORITY|||||||0.8332|||||||Mixed Models Analysis|||||||0.8332
92271896|NCT01447628|184445253|SUPERIORITY|||||||0.2651|||||||Mixed Models Analysis|||||||0.2651
92271897|NCT01029769|184445255|OTHER|"a logistic regression model with remission as the dependent variable and switch of treatment (yes/no) and PANSS-total score at visit 3 as independent variables was used. Multiple imputation (based upon 20 imputations, primary analysis), last observation carried forward and completers only analyses were performed."|||||=|0.01||||||Multiple imputation was performed separately for the switch and non-switch arms and the imputation model included the PANSS total score from all visits from phase II baseline (visit 2) onwards, remission at visit 7 and phase I arm allocation|Regression, Logistic|||Irrespective of the initially assigned antipsychotic treatment in period 1 of the trial (2-week-phase), the patients showing little improvement over the two weeks of treatment in period 1 now switched from the initial treatment in period 2 of the trial (6-week-phase) were grouped together as well as the patients non-switched from their initial treatment.||||=0.01
92271898|NCT03496207|184445263|SUPERIORITY||Difference in Least Squares Means|-151.1|STANDARD_ERROR_OF_MEAN|49.53||0.003|TWO_SIDED|95.0|-249.59|-52.63|||ANCOVA|ANCOVA was used to compare change from baseline values with randomization stratification factor (WHO functional class) and baseline PVR as covariate.||Analysis based on calculated LS means.||-52.63|-249.59|0.0030
92271899|NCT03496207|184445263|SUPERIORITY||Difference in Least Squares Means|-269.4|STANDARD_ERROR_OF_MEAN|48.48|<|0.0001|TWO_SIDED|95.0|-365.81|-173.03|||ANCOVA|ANCOVA was used to compare change from baseline values with randomization stratification factor (WHO functional class) and baseline PVR as covariate.||Analysis based on calculated LS means.||-173.03|-365.81|<.0001
92271900|NCT03496207|184445264|SUPERIORITY||Difference in Least Squares Means|-13.9|STANDARD_ERROR_OF_MEAN|50.95||0.7851|TWO_SIDED|95.0|-113.85|86.06|||ANCOVA|ANCOVA was used to compare change from baseline values with randomization stratification factor (WHO functional class) and baseline PVR as covariate.||Analysis based on calculated LS means.||86.06|-113.85|0.7851
92271901|NCT03496207|184445265|SUPERIORITY||Multiple Imputation Mean Difference|-223.2|STANDARD_ERROR_OF_MEAN|57.45|<|0.0001|TWO_SIDED|95.0|-335.83|-110.49||Comparison of baseline and final value|ANCOVA||Standard multiple imputations are done with imputed values that are within the range of the minimum and maximum observed values using linear regression including baseline measurements.|||-110.49|-335.83|<.0001
92271902|NCT02756078|184445286|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE score.|Posterior Mean Difference|5.0|STANDARD_DEVIATION|1.796|||TWO_SIDED|98.0|1.3|8.73|||Bayesian hierarchical model|A 98% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Mean difference was calculated as Test (senofilcon A) minus Control (samfilcon A)|||8.73|1.30|
92271903|NCT02756078|184445287|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE score.|Posterior Mean Difference|13.7|STANDARD_DEVIATION|1.701|||TWO_SIDED|95.0|10.34|17.05|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Mean difference was calculated as Test (senofilcon A) minus Control (samfilcon A)|||17.05|10.34|
92271904|NCT02756078|184445288|NON_INFERIORITY|A non-inferiority margin of -2 hour was used.|Posterior mean difference|-0.37|STANDARD_DEVIATION|0.313|||TWO_SIDED|95.0|-1.0|0.25|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|||Mean difference was calculated as senofilcon A minus samfilcon A.|0.25|-1.00|
92271905|NCT02756078|184445289|NON_INFERIORITY|A non-inferiority margin of -2 hour was used.|Posterior mean difference|-0.06|STANDARD_DEVIATION|0.107|||TWO_SIDED|95.0|-0.27|0.16|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Mean difference was calculated as senofilcon A minus samfilcon A|||0.16|-0.27|
92271906|NCT02756078|184445290|NON_INFERIORITY|A non-inferiority margin of -2 hour was used.|Posterior mean difference|0.05|STANDARD_DEVIATION|0.261|||TWO_SIDED|95.0|-0.47|0.57|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Mean difference was calculated as senofilcon A minus samfilcon A|||0.57|-0.47|
92271907|NCT02756078|184445291|NON_INFERIORITY|A non-inferiority margin of -2 hour was used.|Posterior mean difference|-0.05|STANDARD_DEVIATION|0.159|||TWO_SIDED|95.0|-0.36|0.26|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Mean difference was calculated as senofilcon A minus samfilcon A.|||0.26|-0.36|
92271908|NCT02756078|184445292|NON_INFERIORITY|A non-inferiority margin of 0.67 was used.|Posterior odds ratio|1.35|STANDARD_DEVIATION|0.203|||TWO_SIDED|95.0|0.99|1.79|||Bayesian multinomial model|A 95% credible interval for the posterior odds ratio was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Odds ratio was calculated as senofilcon A over samfilcon A.|||1.79|0.99|
92271909|NCT00810615|184445294|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANCOVA|A repeated measures model was designed so as to incorporate the adjust for the repeated (dependent) measures within individuals over time.||ANCOVA, baseline measurement was considered as a covariate and group (sham or 2.4 ATA), treatment (15 treatments, 30 treatments, and 6 weeks) as well as the interaction between group and treatment were considered as the independent variables.||||0.05
92271910|NCT00810615|184445306|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5455||||||||||||||Relative Risk of Improvement in 2.4 ATA group vs. Sham in subjects with one significant event (blast or impact resulting in concussion symptoms) per Concussion History. PCL-M with significant improvement defined as a score decrease 10 or more.||||
92271911|NCT00810615|184445307|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||||||||||||Relative Risk of Improvement in 2.4 ATA group vs. Sham in subjects with two significant events (blast or impact resulting in concussion symptoms) per Concussion History. PCL-M with significant improvement defined as a score decrease 10 or more.||||
92271912|NCT00810615|184445308|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1111||||||||||||||Relative Risk of Improvement in 2.4 ATA group vs. Sham in subjects with three significant events (blast or impact resulting in concussion symptoms) per Concussion History. PCL-M with significant improvement defined as a score decrease 10 or more.||||
92271913|NCT00810615|184445309|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||||||||||||Relative Risk of Improvement in 2.4 ATA group vs. Sham in subjects with four or more significant events (blast or impact resulting in concussion symptoms) per Concussion History. PCL-M with significant improvement defined as a score decrease 10 or more.||||
92271914|NCT02618772|184445312|SUPERIORITY_OR_OTHER|||||||0.026|||||||t-test, 2 sided|||||||0.026
92271915|NCT02618772|184445313|SUPERIORITY_OR_OTHER|||||||0.036|||||||t-test, 2 sided|||||||0.036
92271916|NCT02618772|184445314|SUPERIORITY_OR_OTHER|||||||0.151||||||This is in reference to the baseline measure.|t-test, 2 sided|||||||0.151
92271917|NCT02618772|184445314|SUPERIORITY_OR_OTHER|||||||0.02||||||This is in reference to the intervention measure.|t-test, 2 sided|||||||0.020
92271918|NCT02618772|184445314|SUPERIORITY_OR_OTHER|||||||0.198||||||This is in reference to the lidocaine measure.|t-test, 2 sided|||||||0.198
92271919|NCT02618772|184445314|SUPERIORITY_OR_OTHER|||||||0.006||||||This is in reference to the difference between the suturing and baseline measures.|t-test, 2 sided|||||||0.006
92271920|NCT02618772|184445315|SUPERIORITY_OR_OTHER|||||||0.185||||||This is in reference to the baseline measure.|t-test, 2 sided|||||||0.185
92271921|NCT02618772|184445315|SUPERIORITY_OR_OTHER|||||||0.011||||||This is in reference to the intervention measure.|t-test, 2 sided|||||||0.011
92271922|NCT02618772|184445315|SUPERIORITY_OR_OTHER|||||||0.191||||||This is in reference to the lidocaine measure.|t-test, 2 sided|||||||0.191
92271923|NCT02618772|184445315|SUPERIORITY_OR_OTHER|||||||0.008||||||This is in reference to the difference between the suturing and baseline measures.|t-test, 2 sided|||||||0.008
92271924|NCT02618772|184445316|SUPERIORITY_OR_OTHER|||||||0.004||||||This p value is a t-test of the Post STAI minus Pre STAI variable.|t-test, 2 sided|||||||0.004
92271925|NCT02618772|184445317|SUPERIORITY_OR_OTHER|||||||0.015||||||This p value is in reference to the t-test performed for STAI Post Minus STAI Pre.|t-test, 2 sided|||||||0.015
92271926|NCT02618772|184445318|SUPERIORITY_OR_OTHER|||||||0.08|||||||t-test, 2 sided|||||||0.080
92271927|NCT02618772|184445319|SUPERIORITY_OR_OTHER|||||||0.086|||||||t-test, 2 sided|||||||0.086
92271928|NCT02618772|184445320|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92147095|NCT03928028|184179154|SUPERIORITY|||||||0.196||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.196
92147096|NCT03928028|184179154|SUPERIORITY|||||||0.812||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.812
92271929|NCT02618772|184445321|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92147097|NCT03928028|184179154|SUPERIORITY|||||||0.499||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.499
92147098|NCT03928028|184179155|SUPERIORITY|||||||0.446||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.446
92147099|NCT03928028|184179155|SUPERIORITY|||||||0.647|||||||generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.647
92147100|NCT03928028|184179155|SUPERIORITY|||||||0.765||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.765
92209977|NCT02113241|184320322|SUPERIORITY|||||||0.123|||||||Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.123
92335056|NCT03035916|184573269|OTHER|||||||0.026|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.026
92396068|NCT03192176|184689387|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.84||0.0004|TWO_SIDED|95.0|-4.68|-1.38||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.38|-4.68|0.0004
92335057|NCT03035916|184573269|OTHER|||||||0.002|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.002
92396069|NCT03192176|184689387|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.84||0.001|TWO_SIDED|95.0|-4.44|-1.14||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.14|-4.44|0.0010
92335058|NCT03035916|184573269|OTHER|||||||0.057|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.057
92335059|NCT03035916|184573269|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.001
92271930|NCT02058368|184445326|SUPERIORITY||Mean Difference (Final Values)|0.79||||0.069|TWO_SIDED|95.0|-0.06|1.65||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg + Tam 0.2 mg versus Placebo + Tam 0.2mg are based on t-tests from the general linear model. Reported means are model based adjusted means.|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 3.|||1.65|-0.06|0.069
92271931|NCT02058368|184445326|SUPERIORITY||Mean Difference (Final Values)|0.37||||0.43|TWO_SIDED|95.0|-0.55|1.29||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg + Tam 0.2 mg versus Placebo + Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means.|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 6.|||1.29|-0.55|0.43
92147101|NCT03928028|184179156|SUPERIORITY|||||||0.425||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.425
92147102|NCT03928028|184179156|SUPERIORITY|||||||0.63|||||||generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.630
92271932|NCT02058368|184445326|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.76|TWO_SIDED|95.0|-1.05|0.77||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg + Tam 0.2 mg versus Placebo + Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means.|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 9.|||0.77|-1.05|0.76
92335060|NCT03035916|184573269|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.001
92335061|NCT03035916|184573269|OTHER|||||||0.069|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.069
92335062|NCT03035916|184573269|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.001
92147103|NCT03928028|184179156|SUPERIORITY|||||||0.854||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.854
92271933|NCT02058368|184445326|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.41|TWO_SIDED|95.0|-1.27|0.53||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg + Tam 0.2 mg versus Placebo + Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 12.|||0.53|-1.27|0.41
92271934|NCT02058368|184445326|SUPERIORITY||Mean Difference (Final Values)|-0.95||||0.039|TWO_SIDED|95.0|-1.85|-0.05||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg+Tam 0.2 mg versus Placebo+ Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 15.|||-0.05|-1.85|0.039
92335063|NCT03035916|184573269|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.001
92209978|NCT02113241|184320323|SUPERIORITY|||||||0.176||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.176
92209979|NCT02113241|184320323|SUPERIORITY|||||||0.268||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.268
92209980|NCT02113241|184320324|SUPERIORITY|||||||0.064||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.064
92209981|NCT02113241|184320324|SUPERIORITY|||||||0.462||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.462
92209982|NCT02113241|184320325|SUPERIORITY|||||||0.346||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.346
92147104|NCT02802501|184179160|SUPERIORITY||Hazard Ratio (HR)|0.444|||<|0.001|TWO_SIDED|95.0|0.285|0.693|||Cox Proportional Hazard||If hazard ratio was found to be \<1 then there are lower chances of relapse with Tafenoquine+DHA-PQP compared to DHA-PQP only.|||0.693|0.285|<0.001
92335064|NCT03035916|184573269|OTHER|||||||0.561|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.561
92271935|NCT02058368|184445326|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.15|TWO_SIDED|95.0|-1.65|0.26||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg+Tam 0.2 mg versus Placebo+ Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 18.|||0.26|-1.65|0.15
92271936|NCT02058368|184445326|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.15|TWO_SIDED|95.0|-1.68|0.25||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg+Tam 0.2 mg versus Placebo+ Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 21.|||0.25|-1.68|0.15
92209983|NCT02113241|184320325|SUPERIORITY|||||||0.002||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.002
92335065|NCT03035916|184573269|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.001
92335066|NCT03035916|184573269|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.001
92271937|NCT02058368|184445326|SUPERIORITY||Mean Difference (Final Values)|-1.43||||0.004|TWO_SIDED|95.0|-2.4|-0.46||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg+Tam 0.2 mg versus Placebo+ Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 24.|||-0.46|-2.40|0.004
92335067|NCT03035916|184573270|OTHER|||||||0.249|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.249
92147105|NCT02802501|184179161|SUPERIORITY||Hazard Ratio (HR)|1.722|||||TWO_SIDED|95.0|1.031|2.875|||||If hazard ratio was found to be \>1 then there are higher chances of relapse with Tafenoquine+DHA-PQP compared to Primaquine+DHA-PQP.|||2.875|1.031|
92271938|NCT02058368|184445327|SUPERIORITY||Mean Difference (Final Values)|-23.0|STANDARD_ERROR_OF_MEAN|1.48|<|0.001|TWO_SIDED|95.0|-25.9|-20.1||Estimates are based on the adjusted means from the general linear model: Log(Post-Baseline Prostate Volume / Baseline Prostate Volume) = Log(Baseline Prostate Volume) + Treatment + Country. P-values are based on t-tests from the general linear model.|General linear model||The adjusted mean estimates, adjusted mean differences, and confidence intervals are expressed in terms of percentage change from Baseline for Month 12.|||-20.1|-25.9|<.001
92271939|NCT02058368|184445327|SUPERIORITY|Estimates are based on the adjusted means from the general linear model: Log(Post-Baseline Prostate Volume / Baseline Prostate Volume) = Log(Baseline Prostate Volume) + Treatment + Country. P-values are based on t-tests from the general linear model.|Mean Difference (Final Values)|-28.4|STANDARD_ERROR_OF_MEAN|1.65|<|0.001|TWO_SIDED|95.0|-31.7|-25.2|||General linear model||The adjusted mean estimates, adjusted mean differences, and confidence intervals are expressed in terms of percentage change from Baseline for Month 24|||-25.2|-31.7|<.001
92271940|NCT02058368|184445328|SUPERIORITY|||||||0.91||||||P-value for IPSS improvement \>= 3 units has been presented for Month 3|Mantel Haenszel|||||||0.91
92271941|NCT02058368|184445328|SUPERIORITY|||||||0.31||||||P-value for IPSS improvement \>= 2 units has been presented for Month 3|Mantel Haenszel|||||||0.31
92271942|NCT02058368|184445328|SUPERIORITY|||||||0.42||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 3|Mantel Haenszel|||||||0.42
92271943|NCT02058368|184445328|SUPERIORITY|||||||0.92||||||P-value for IPSS improvement \>= 3 units has been presented for Month 6|Mantel Haenszel|||||||0.92
92271944|NCT02058368|184445328|SUPERIORITY|||||||0.89||||||P-value for IPSS improvement \>= 2 units has been presented for Month 6|Mantel Haenszel|||||||0.89
92271945|NCT02058368|184445328|SUPERIORITY|||||||0.81||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 6|Mantel Haenszel|||||||0.81
92271946|NCT02058368|184445328|SUPERIORITY|||||||0.08||||||P-value for IPSS improvement \>= 3 units has been presented for Month 9|Mantel Haenszel|||||||0.080
92271947|NCT02058368|184445328|SUPERIORITY|||||||0.42||||||P-value for IPSS improvement \>= 2 units has been presented for Month 9|Mantel Haenszel|||||||0.42
92271948|NCT02058368|184445328|SUPERIORITY|||||||0.06||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 9|Mantel Haenszel|||||||0.060
92271949|NCT02058368|184445328|SUPERIORITY|||||||0.14||||||P-value for IPSS improvement \>= 3 units has been presented for Month 12|Mantel Haenszel|||||||0.14
92271950|NCT02058368|184445328|SUPERIORITY|||||||0.26||||||P-value for IPSS improvement \>= 2 units has been presented for Month 12|Mantel Haenszel|||||||0.26
92271951|NCT02058368|184445328|SUPERIORITY|||||||0.048||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 12|Mantel Haenszel|||||||0.048
92271952|NCT02058368|184445328|SUPERIORITY|||||||0.17||||||P-value for IPSS improvement \>= 3 units has been presented for Month 15|Mantel Haenszel|||||||0.17
92271953|NCT02058368|184445328|SUPERIORITY|||||||0.11||||||P-value for IPSS improvement \>= 2 units has been presented for Month 15|Mantel Haenszel|||||||0.11
92271954|NCT02058368|184445328|SUPERIORITY|||||||0.022||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 15|Mantel Haenszel|||||||0.022
92271955|NCT02058368|184445328|SUPERIORITY|||||||0.18||||||P-value for IPSS improvement \>= 3 units has been presented for Month 18|Mantel Haenszel|||||||0.18
92147106|NCT02802501|184179162|SUPERIORITY||Hazard Ratio (HR)|0.258|||||TWO_SIDED|95.0|0.155|0.431|||||If hazard ratio was found to be \<1 then there are lower chances of relapse with Primaquine+DHA-PQP compared to DHA-PQP only.|||0.431|0.155|
92147107|NCT02802501|184179163|SUPERIORITY||Hazard Ratio (HR)|0.433|||||TWO_SIDED|95.0|0.273|0.686|||||If hazard ratio was found to be \<1 then there are lower chances of relapse with Tafenoquine+DHA-PQP compared to DHA-PQP only.|||0.686|0.273|
92271956|NCT02058368|184445328|SUPERIORITY|||||||0.19||||||P-value for IPSS improvement \>= 2 units has been presented for Month 18|Mantel Haenszel|||||||0.19
92396070|NCT03192176|184689387|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.84|<|0.0001|TWO_SIDED|95.0|-5.2|-1.89||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.89|-5.20|<0.0001
92168518|NCT03088813|184226826|OTHER||Hazard Ratio (HR)|0.96||||0.7053|TWO_SIDED|95.0|0.77|1.2||From stratified log-rank test, stratified by corrected region and corrected platinum sensitivity|Stratified log-rank test||The associated HR and two-sided 95% CI were estimated using stratified Cox proportional hazards model, stratified by corrected region and corrected platinum sensitivity.|||1.20|0.77|0.7053
92271957|NCT02058368|184445328|SUPERIORITY|||||||0.28||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 18|Mantel Haenszel|||||||0.28
92271958|NCT02058368|184445328|SUPERIORITY|||||||0.39||||||P-value for IPSS improvement \>= 3 units has been presented for Month 21|Mantel Haenszel|||||||0.39
92396071|NCT03192176|184689387|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.84||0.0058||95.0|-4.0|-0.68||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.68|-4.00|0.0058
92271959|NCT02058368|184445328|SUPERIORITY|||||||0.42||||||P-value for IPSS improvement \>= 2 units has been presented for Month 21|Mantel Haenszel|||||||0.42
92271960|NCT02058368|184445328|SUPERIORITY|||||||0.084||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 21|Mantel Haenszel|||||||0.084
92271961|NCT02058368|184445328|SUPERIORITY|||||||0.016||||||P-value for IPSS improvement \>= 3 units has been presented for Month 24|Mantel Haenszel|||||||0.016
92271962|NCT02058368|184445328|SUPERIORITY|||||||0.047||||||P-value for IPSS improvement \>= 2 units has been presented for Month 24|Mantel Haenszel|||||||0.047
92271963|NCT02058368|184445328|SUPERIORITY|||||||0.007||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 24|Mantel Haenszel|||||||0.007
92271964|NCT02058368|184445329|SUPERIORITY||Mean Difference (Final Values)|0.91|STANDARD_ERROR_OF_MEAN|0.33||0.006|TWO_SIDED|95.0|0.26|1.56||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 6|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||1.56|0.26|0.006
92271965|NCT02058368|184445329|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.35||0.005|TWO_SIDED|95.0|0.3|1.69||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 12|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||1.69|0.30|0.005
92335068|NCT03035916|184573270|OTHER|||||||0.091|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.091
92271966|NCT02058368|184445329|SUPERIORITY||Mean Difference (Final Values)|1.46|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|0.63|2.29||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 18|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||2.29|0.63|<.001
92335069|NCT03035916|184573270|OTHER|||||||0.493|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.493
92271967|NCT02058368|184445329|SUPERIORITY||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|0.41||0.001|TWO_SIDED|95.0|0.54|2.15||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 24|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||2.15|0.54|0.001
92271968|NCT02058368|184445330|SUPERIORITY|||||||0.13||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 3 mL/sec for Month 6|Mantel Haenszel|||||||0.13
92271969|NCT02058368|184445330|SUPERIORITY|||||||0.15||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 30 % for Month 6|Mantel Haenszel|||||||0.15
92271970|NCT02058368|184445330|SUPERIORITY||||||<|0.001||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 3 mL/sec for Month 12|Mantel Haenszel|||||||<.001
92271971|NCT02058368|184445330|SUPERIORITY|||||||0.003||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 30 % for Month 12|Mantel Haenszel|||||||0.003
92271972|NCT02058368|184445330|SUPERIORITY|||||||0.002||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 3 mL/sec for Month 18|Mantel Haenszel|||||||0.002
92271973|NCT02058368|184445330|SUPERIORITY|||||||0.009||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 30 % for Month 18|Mantel Haenszel|||||||0.009
92168519|NCT03088813|184226827|OTHER||Difference in ORR|22.29|||<|0.0001|TWO_SIDED|95.0|13.97|30.61||ORR difference, 95% CI and P-value are obtained from the Cochran-Mantel-Haenszel test stratified by corrected region and corrected platinum sensitivity.|Cochran-Mantel-Haenszel|||||30.61|13.97|<0.0001
92271974|NCT02058368|184445330|SUPERIORITY||||||<|0.001||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 3 mL/sec for Month 24|Mantel Haenszel|||||||<.001
92271975|NCT02058368|184445330|SUPERIORITY||||||<|0.001||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 30 % for Month 24|Mantel Haenszel|||||||<.001
92271976|NCT02058368|184445331|SUPERIORITY||Cox Proportional Hazard|0.27||||0.012|TWO_SIDED|95.0|0.09|0.81||Relative Risk (hazard ratio) for Dut+Tam vs. Tam is based on the Cox Proportional Hazards Model with stratification by country.|Log Rank|||||0.81|0.09|0.012
92271977|NCT02058368|184445332|SUPERIORITY||Cox Proportional Hazard|0.15||||0.005|TWO_SIDED|95.0|0.03|0.68||Relative Risk (hazard ratio) for Dut+Tam vs. Tam is based on the Cox Proportional Hazards Model with stratification by country.|Log Rank|||||0.68|0.03|0.005
92209984|NCT02901041|184320326|SUPERIORITY||Mean Difference (Net)|0.02||||0.98|TWO_SIDED|95.0|-1.41|1.45|||t-test, 2 sided|t=0.03, df=79.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||1.45|-1.41|.98
92209985|NCT02901041|184320327|SUPERIORITY||Mean Difference (Net)|-0.83||||0.13|TWO_SIDED|95.0|-1.92|0.26|||t-test, 2 sided|t=-1.52, df=56.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.26|-1.92|.13
92271978|NCT02058368|184445333|SUPERIORITY||Cox Proportional Hazard|0.69||||0.68|TWO_SIDED|95.0|0.11|4.11||Relative Risk (hazard ratio) for Dut+Tam vs. Tam is based on the Cox Proportional Hazards Model with stratification by country.|Log Rank|||||4.11|0.11|0.68
92271979|NCT02058368|184445334|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.1||0.83|TWO_SIDED|95.0|-0.17|0.21||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Country + Baseline Value for Month 3|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.21|-0.17|0.83
92335070|NCT03035916|184573270|OTHER|||||||0.067|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.067
92209986|NCT02901041|184320328|SUPERIORITY||Mean Difference (Net)|-0.07||||0.19|TWO_SIDED|95.0|-0.17|0.03||Equality of variance was not assumed.|t-test, 2 sided|t=-1.33, df=72.65||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.03|-0.17|.19
92209987|NCT02901041|184320329|SUPERIORITY||Mean Difference (Net)|-0.17||||0.05|TWO_SIDED|95.0|-0.34|0.0|||t-test, 2 sided|t=-1.99, df=56.00||||0.00|-0.34|.05
92209988|NCT02901041|184320330|SUPERIORITY||Mean Difference (Net)|0.03||||0.71|TWO_SIDED|95.0|-0.11|0.17|||t-test, 2 sided|t=0.37,df=79.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.17|-0.11|.71
92209989|NCT02901041|184320331|SUPERIORITY||Mean Difference (Net)|-0.11||||0.12|TWO_SIDED|95.0|-0.26|0.03|||t-test, 2 sided|t=-1.59,df=56.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.03|-0.26|.12
92209990|NCT02901041|184320332|SUPERIORITY||Mean Difference (Net)|0.14||||0.98|TWO_SIDED|95.0|-9.89|10.18|||t-test, 2 sided|t=0.03, df=79.00||||10.18|-9.89|.98
92209991|NCT02901041|184320333|SUPERIORITY||Mean Difference (Net)|-5.8||||0.13|TWO_SIDED|95.0|-13.43|1.83|||t-test, 2 sided|t=-1.52, df=56.00||||1.83|-13.43|.13
92209992|NCT02901041|184320334|SUPERIORITY||Mean Difference (Net)|27.07||||0.75|TWO_SIDED|95.0|-144.06|198.2|||t-test, 2 sided|t=0.32,df=61.00||||198.20|-144.06|.75
92209993|NCT02901041|184320335|SUPERIORITY||Mean Difference (Net)|99.05||||0.35|TWO_SIDED|95.0|-111.11|309.21|||t-test, 2 sided|t=0.95, df=46.00||||309.21|-111.11|.35
92209994|NCT02901041|184320336|SUPERIORITY||Mean Difference (Net)|0.85||||0.51|TWO_SIDED|95.0|-1.69|3.4|||t-test, 2 sided|t=0.67, df=58.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||3.40|-1.69|.51
92209995|NCT02901041|184320337|SUPERIORITY||Mean Difference (Net)|-0.42||||0.55|TWO_SIDED|95.0|-1.82|0.98|||t-test, 2 sided|t=-0.61,df=36||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.98|-1.82|.55
92209996|NCT02901041|184320338|SUPERIORITY||Mean Difference (Net)|0.15||||0.95|TWO_SIDED|95.0|-4.15|4.45|||t-test, 2 sided|t=0.07,df=58.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||4.45|-4.15|.95
92271980|NCT02058368|184445334|SUPERIORITY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.1||0.11|TWO_SIDED|95.0|-0.04|0.36||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Country + Baseline Value for Month 6|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.36|-0.04|0.11
92271981|NCT02058368|184445334|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.11||0.21|TWO_SIDED|95.0|-0.07|0.34||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Country + Baseline Value for Month 9|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.34|-0.07|0.21
92209997|NCT02901041|184320339|SUPERIORITY||Mean Difference (Net)|3.34||||0.42|TWO_SIDED|95.0|-4.93|11.62|||t-test, 2 sided|t=0.82, df=38.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||11.62|-4.93|.42
92271982|NCT02058368|184445334|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.1||0.8|TWO_SIDED|95.0|-0.23|0.18||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Country + Baseline Value for Month 12|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.18|-0.23|0.80
92335071|NCT03035916|184573270|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.001
92335072|NCT03035916|184573270|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.001
92209998|NCT02901041|184320340|SUPERIORITY||Mean Difference (Net)|0.32||||0.17|TWO_SIDED|95.0|-0.15|0.8||Equal variance was not assumed.|t-test, 2 sided|t=1.39, df=36.37||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.80|-0.15|.17
92209999|NCT02901041|184320341|SUPERIORITY||Mean Difference (Net)|0.41||||0.14|TWO_SIDED|95.0|-0.14|0.97||Equal variances were not assumed when conducting the t-test.|t-test, 2 sided|t=1.53, df=24.05||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.97|-0.14|0.14
92396072|NCT03192176|184689387|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.82||0.0003|TWO_SIDED|95.0|-4.65|-1.41||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.41|-4.65|0.0003
92396073|NCT03192176|184689387|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.84||0.0042|TWO_SIDED|95.0|-4.06|0.76||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||0.76|-4.06|0.0042
92271983|NCT02058368|184445334|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.37|TWO_SIDED|95.0|-0.3|0.11||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 15|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.11|-0.30|0.37
92396074|NCT03192176|184689388|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.75||0.0154|TWO_SIDED|95.0|-3.3|-0.35||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.35|-3.30|0.0154
92396075|NCT03192176|184689388|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.74||0.0043|TWO_SIDED|95.0|-3.6|-0.67||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.67|-3.60|0.0043
92210000|NCT02901041|184320342|SUPERIORITY||Mean Difference (Net)|3.07||||0.14|TWO_SIDED|95.0|-1.03|7.16||Equal variances were not assumed when conducting the t-tests.|t-test, 2 sided|t=1.51,df=39.34||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||7.16|-1.03|.14
92271984|NCT02058368|184445334|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.11||0.44|TWO_SIDED|95.0|-0.3|0.13||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 18|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.13|-0.30|0.44
92335073|NCT03035916|184573270|OTHER|||||||0.079|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.079
92271985|NCT02058368|184445334|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.11||0.6|TWO_SIDED|95.0|-0.16|0.28||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 21|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.28|-0.16|0.60
92335074|NCT03035916|184573270|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.001
92396076|NCT03192176|184689388|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.75||0.0023|TWO_SIDED|95.0|-3.76|-0.83||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.83|-3.76|0.0023
92147108|NCT05067439|184179190|OTHER||Ratio of Adjusted Geometric Means|288.81|||||TWO_SIDED|90.0|240.56|346.73||||||Omeprazole 10 mg was Reference and abrocitinib 200 mg + omeprazole 10 mg was Test. Natural log-transformed AUCinf was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect and estimates of the adjusted mean differences (Test-Reference) and 90% CIs were obtained. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI.||346.73|240.56|
92147109|NCT05067439|184179191|OTHER||Ratio of Adjusted Geometric Means|139.59|||||TWO_SIDED|90.0|121.98|159.74||||||Caffeine 100 mg was Reference and abrocitinib 200 mg + caffeine 100 mg was Test. Natural log-transformed AUCinfCR was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect and estimates of the adjusted mean differences (Test-Reference) and 90% CIs were obtained. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI.||159.74|121.98|
92271986|NCT02058368|184445334|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.16|TWO_SIDED|95.0|-0.37|0.06||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 24|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.06|-0.37|0.16
92147110|NCT05067439|184179192|OTHER||Ratio of Adjusted Geometric Means|110.1|||||TWO_SIDED|90.0|103.45|117.17||||||Efavirenz 50 mg was Reference and abrocitinib 200 mg + efavirenz 50 mg was Test. Natural log-transformed AUClastCR was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect and estimates of the adjusted mean differences (Test-Reference) and 90% CIs were obtained. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI.||117.17|103.45|
92147111|NCT02323646|184179202|SUPERIORITY|||||||0.0019|||||||Fisher Exact|||||||0.0019
92147112|NCT02323646|184179202|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||||||0.0063
92396077|NCT03192176|184689388|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.75||0.0005|TWO_SIDED|95.0|-4.09|-1.16||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.16|-4.09|0.0005
92147113|NCT02323646|184179203|SUPERIORITY|||||||0.0237|||||||Fisher Exact|||||||0.0237
92147114|NCT02323646|184179203|SUPERIORITY|||||||0.0272|||||||Fisher Exact|||||||0.0272
92147115|NCT02323646|184179204|SUPERIORITY|||||||0.0145|||||||Wilcoxon Rank-Sum Test.|||Percentage change in the last value on drug Course 1.||||0.0145
92147116|NCT02323646|184179204|SUPERIORITY|||||||0.0662|||||||Wilcoxon Rank-Sum Test.|||Percentage change in the last value on drug Course 1.||||0.0662
92147117|NCT02323646|184179204|SUPERIORITY|||||||0.0061|||||||Wilcoxon Rank-Sum Test|||Percentage change in the last value on drug Course 2.||||0.0061
92147118|NCT02323646|184179204|SUPERIORITY|||||||0.0296|||||||Wilcoxon Rank-Sum Test|||Percentage change in the last value on drug Course 2.||||0.0296
92147119|NCT02323646|184179205|SUPERIORITY|||||||0.2642|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.2642
92147120|NCT02323646|184179205|SUPERIORITY|||||||0.4383|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.4383
92147121|NCT02323646|184179205|SUPERIORITY|||||||0.5333|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.5333
92147122|NCT02323646|184179205|SUPERIORITY|||||||0.8791|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.8791
92147123|NCT02323646|184179205|SUPERIORITY|||||||0.3666|||||||Wilcoxon Rank-Sum Test|||Percentage Change: Course 2, Week 24 Follow-up||||0.3666
92147124|NCT02323646|184179205|SUPERIORITY|||||||0.345|||||||Wilcoxon Rank-Sum Test|||Percentage Change: Course 2, Week 24 Follow-up||||0.3450
92147125|NCT02323646|184179206|SUPERIORITY|||||||0.0473|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.0473
92147126|NCT02323646|184179206|SUPERIORITY|||||||0.0191|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.0191
92147127|NCT02323646|184179206|SUPERIORITY|||||||0.0749|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.0749
92147128|NCT02323646|184179206|SUPERIORITY|||||||0.0233|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.0233
92147129|NCT02323646|184179206|SUPERIORITY|||||||0.7569|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.7569
92147130|NCT02323646|184179206|SUPERIORITY|||||||0.5399|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.5399
92147131|NCT02323646|184179207|SUPERIORITY|||||||0.1683|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1683
92147132|NCT02323646|184179207|SUPERIORITY|||||||0.256|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.2560
92147133|NCT02323646|184179207|SUPERIORITY|||||||0.4997|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.4997
92147134|NCT02323646|184179207|SUPERIORITY|||||||0.1334|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.1334
92147135|NCT02323646|184179207|SUPERIORITY|||||||0.0323|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.0323
92147136|NCT02323646|184179207|SUPERIORITY|||||||0.3847|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.3847
92147137|NCT02323646|184179208|SUPERIORITY|||||||0.6356|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.6356
92147138|NCT02323646|184179208|SUPERIORITY|||||||0.9539|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.9539
92147139|NCT02323646|184179208|SUPERIORITY|||||||0.5219|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.5219
92147140|NCT02323646|184179208|SUPERIORITY|||||||0.2678|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.2678
92147141|NCT02323646|184179208|SUPERIORITY|||||||0.3086|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.3086
92147142|NCT02323646|184179208|SUPERIORITY|||||||0.3847|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.3847
92147143|NCT02323646|184179209|SUPERIORITY|||||||0.8393|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.8393
92147144|NCT02323646|184179209|SUPERIORITY|||||||0.1361|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1361
92147145|NCT02323646|184179209|SUPERIORITY|||||||0.0382|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.0382
92147146|NCT02323646|184179209|SUPERIORITY|||||||0.6273|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.6273
92147147|NCT02323646|184179209|SUPERIORITY|||||||0.8237|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.8237
92147148|NCT02323646|184179209|SUPERIORITY|||||||0.137|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.1370
92147149|NCT02323646|184179210|SUPERIORITY|||||||0.7949|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.7949
92147150|NCT02323646|184179210|SUPERIORITY|||||||0.1928|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1928
92147151|NCT02323646|184179210|SUPERIORITY|||||||1|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||1.0000
92147152|NCT02323646|184179210|SUPERIORITY|||||||0.392|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.3920
92147153|NCT02323646|184179210|SUPERIORITY|||||||0.541|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.5410
92147154|NCT02323646|184179210|SUPERIORITY|||||||0.4602|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.4602
92147155|NCT02323646|184179211|SUPERIORITY|||||||0.9536|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.9536
92147156|NCT02323646|184179211|SUPERIORITY|||||||0.1355|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1355
92147157|NCT02323646|184179211|SUPERIORITY|||||||0.9396|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.9396
92147158|NCT02323646|184179211|SUPERIORITY|||||||0.9102|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.9102
92147159|NCT02323646|184179211|SUPERIORITY|||||||0.6266|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.6266
92147160|NCT02323646|184179211|SUPERIORITY|||||||0.9302|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.9302
92147161|NCT02323646|184179212|SUPERIORITY|||||||0.817|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.8170
92147162|NCT02323646|184179212|SUPERIORITY|||||||0.8177|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.8177
92147163|NCT02323646|184179212|SUPERIORITY|||||||0.3167|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.3167
92147164|NCT02323646|184179212|SUPERIORITY|||||||0.5503|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.5503
92147165|NCT02323646|184179212|SUPERIORITY|||||||0.6929|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.6929
92147166|NCT02323646|184179212|SUPERIORITY|||||||0.726|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.7260
92147167|NCT02323646|184179213|SUPERIORITY|||||||0.3896|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.3896
92147168|NCT02323646|184179213|SUPERIORITY|||||||0.1358|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1358
92147169|NCT02323646|184179213|SUPERIORITY|||||||0.7903|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.7903
92147170|NCT02323646|184179213|SUPERIORITY|||||||0.8206|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.8206
92147171|NCT02323646|184179213|SUPERIORITY|||||||0.7891|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.7891
92147172|NCT02323646|184179213|SUPERIORITY|||||||0.401|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.4010
92147173|NCT02323646|184179214|SUPERIORITY|||||||0.0294|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.0294
92147174|NCT02323646|184179214|SUPERIORITY|||||||0.1934|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1934
92147175|NCT02323646|184179214|SUPERIORITY|||||||0.0442|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.0442
92147176|NCT02323646|184179214|SUPERIORITY|||||||0.8314|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.8314
92147177|NCT02459262|184179217|OTHER|ANOVA repeated measures: In-transformed antibody concentrations as dependent variable; dose level, time, presence of adjuvant and dose\*time interaction as fixed effects; subjects as random effects||||||0.0193||||||Adjuvant effect at Day 85, the primary immunological endpoint|ANOVA|Adjuvant effect, with higher antibody concentration values after all dose levels of vaccine was significant at all time points (D29, D43, D57, Day 85)||The objectives for Part A were to evaluate the effect of adjuvant and to inform the selection of dose levels for Part B. The study was not powered for inter-group comparisons.||||0.0193
92147178|NCT02459262|184179218|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
92147179|NCT02459262|184179219|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
92147180|NCT05168579|184179222|SUPERIORITY||Odds Ratio (OR)|13.8|||<|0.001|TWO_SIDED|95.0|2.76|69.6|||Mixed Models Analysis|||||69.6|2.76|<0.001
92147181|NCT02347657|184179239|SUPERIORITY||Least Squares (LS) Mean Difference|4.0|||<|0.0001|TWO_SIDED|95.0|3.1|4.8|||Mixed model for repeated measures (MMRM)|||Testing was performed according to the hierarchical testing procedure to control the overall type I error for tested at α = 0.05.||4.8|3.1|<0.0001
92147182|NCT02347657|184179240|SUPERIORITY||LS mean difference|6.8|||<|0.0001|TWO_SIDED|95.0|5.3|8.3|||MMRM|||Testing was performed according to the hierarchical testing procedure to control the overall type I error for tested at α = 0.05.||8.3|5.3|<0.0001
92147183|NCT02347657|184179241|SUPERIORITY||Event Rate Ratio|0.65||||0.0054|TWO_SIDED|95.0|0.48|0.88|||Negative Binomial Regression|||Testing was performed according to the hierarchical testing procedure to control the overall type I error for tested at α = 0.05.||0.88|0.48|0.0054
92147184|NCT02347657|184179242|SUPERIORITY||LS mean difference|0.06||||0.4127|TWO_SIDED|95.0|-0.08|0.19|||MMRM|||Testing was performed according to the hierarchical testing procedure to control the overall type I error for tested at α = 0.05.||0.19|-0.08|0.4127
92147185|NCT00677352|184179257|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sertraline was concluded to be non-inferior to paroxetine when the upper limit of the CI fell below the non-inferiority margin of 4.|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.5|1.6|||ANCOVA|||The two-sided 95% confidence interval (CI) of the intergroup difference (sertraline group - paroxetine group) of the mean reduction in the PAS total score at each dose during the treatment phase was calculated using an analysis of covariance (ANCOVA) model with treatment group as a factor and baseline PAS total score as a covariate.||1.6|-2.5|
92147186|NCT00677352|184179263|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0062|TWO_SIDED|||||The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05 (two-sided).|Fisher Exact|||||||0.0062
92147187|NCT02182973|184179275|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92147188|NCT02182973|184179276|SUPERIORITY|||||||0.875|||||||t-test, 2 sided|||||||0.875
92147189|NCT02182973|184179277|SUPERIORITY|||||||0.025|||||||t-test, 2 sided|||||||0.025
92147190|NCT01814748|184179280|SUPERIORITY_OR_OTHER||Difference in least squares means|0.12||||0.535|TWO_SIDED|95.0|-0.26|0.49|||Constrained longitudinal data analysis|Terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups.||||0.49|-0.26|0.535
92147191|NCT01814748|184179281|SUPERIORITY_OR_OTHER||Difference in percent|-0.4|||||TWO_SIDED|95.0|-13.8|13.0||||||||13.0|-13.8|
92271987|NCT02058368|184445335|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.18||0.17|TWO_SIDED|95.0|-0.11|0.62||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 3|||0.62|-0.11|0.17
92147192|NCT01814748|184179282|SUPERIORITY_OR_OTHER||Difference in percent|-2.0||||||||||||||||||
92147193|NCT01814748|184179283|SUPERIORITY_OR_OTHER||Difference in least squares means|4.2||||0.685|TWO_SIDED|95.0|-16.1|24.4|||Constrained longitudinal data analysis|Terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups.||||24.4|-16.1|0.685
92147194|NCT01814748|184179284|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.7||||0.586|TWO_SIDED|95.0|-17.1|9.7|||Constrained longitudinal data analysis|Terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups.||||9.7|-17.1|0.586
92147195|NCT01814748|184179285|SUPERIORITY_OR_OTHER||Between-group rate difference|-0.4|||||TWO_SIDED|95.0|-14.0|13.1|||Mietinnen and Nurminen|||||13.1|-14.0|
92147196|NCT01814748|184179286|SUPERIORITY_OR_OTHER||Between-group rate difference|4.0|||||TWO_SIDED|95.0|-7.4|15.5|||Mietinnen and Nurminen|||||15.5|-7.4|
92147197|NCT00762450|184179305|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|paired t-tests||The null hypothesis states that there is no difference between groups.||||0.05
92147198|NCT05614089|184179306|SUPERIORITY|||||||0.43||||||Since this is one of two coprimary outcomes (this outcome and % time-in-range), a win (p\<0.025 for benefit) on either outcome will be considered to be a positive trial.|Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time in serious hypoglycemia at baseline||6-month (primary)||||0.43
92147199|NCT05614089|184179306|SUPERIORITY|||||||0.008||||||Since this is one of two coprimary outcomes (this outcome and % time-in-range), a win (p\<0.025 for benefit) on either outcome will be considered to be a positive trial.|Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time in serious hypoglycemia at baseline||12-month||||0.008
92147200|NCT05614089|184179307|SUPERIORITY|||||||0.71||||||Since this is one of two coprimary outcomes (this outcome and % time in serious hypoglycemia), a win (p\<0.025 for benefit) on either outcome will be considered to be a positive trial.|Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % TIR at baseline||6-month (primary)||||0.71
92147201|NCT05614089|184179307|SUPERIORITY|||||||0.64||||||Since this is one of two coprimary outcomes (this outcome and % time in serious hypoglycemia), a win (p\<0.025 for benefit) on either outcome will be considered to be a positive trial.|Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % TIR at baseline||12-month||||0.64
92147202|NCT05614089|184179308|SUPERIORITY|||||||0.54|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time in hypoglycemia at baseline||6-month||||0.54
92147203|NCT05614089|184179308|SUPERIORITY|||||||0.07|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time in hypoglycemia at baseline||12-month||||0.07
92147204|NCT05614089|184179309|SUPERIORITY|||||||0.58|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time above range at baseline||6-month||||0.58
92147205|NCT05614089|184179309|SUPERIORITY|||||||0.21|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time above range at baseline||12-month||||0.21
92147206|NCT05614089|184179310|SUPERIORITY|||||||0.7|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and number of nocturnal events at baseline||6-month||||0.70
92147207|NCT05614089|184179310|SUPERIORITY|||||||0.02|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and number of nocturnal events at baseline||12-month||||0.02
92147208|NCT05614089|184179311|SUPERIORITY|||||||0.81|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and HbA1c at baseline||6-month||||0.81
92147209|NCT05614089|184179311|SUPERIORITY|||||||0.29|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and HbA1c at baseline||12-month||||0.29
92147210|NCT05614089|184179312|SUPERIORITY|||||||0.98|||||||Negative Binomial Regression|Negative binomial regression model adjusted for age at screening and study site||Through 6-month||||0.98
92147211|NCT05614089|184179312|SUPERIORITY|||||||0.61|||||||Negative Binomial Regression|Negative binomial regression model adjusted for age at screening and study site||Through 12-month||||0.61
92147212|NCT05614089|184179313|SUPERIORITY|||||||0.83|||||||Negative Binomial Regression|Negative binomial regression model adjusted for age at screening and study site||Through 6-month||||0.83
92147213|NCT05614089|184179313|SUPERIORITY|||||||0.09|||||||Negative Binomial Regression|Negative binomial regression model adjusted for age at screening and study site||Through 12-month||||0.09
92147214|NCT05614089|184179314|SUPERIORITY|||||||0.95|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and PedsQL 3.2 DM Diabetes Symptoms score at baseline||6-month||||0.95
92147215|NCT05614089|184179314|SUPERIORITY|||||||0.73|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and PedsQL 3.2 DM Diabetes Symptoms score at baseline||12-month||||0.73
92147216|NCT05614089|184179315|SUPERIORITY|||||||0.81|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and PedsQL 3.2 DM Diabetes Management score at baseline||6-month||||0.81
92147217|NCT05614089|184179315|SUPERIORITY|||||||0.44|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and PedsQL 3.2 DM Diabetes Management score at baseline||12-month||||0.44
92335075|NCT03035916|184573270|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.001
92147218|NCT05614089|184179316|SUPERIORITY|||||||0.04|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and ITSQ at baseline||6-month||||0.04
92147219|NCT05614089|184179316|SUPERIORITY|||||||0.1|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and ITSQ at baseline||12-month||||0.10
92147220|NCT03937219|184179346|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0131|TWO_SIDED|95.0|0.57|0.94|||Log Rank|||||0.94|0.57|0.0131
92147221|NCT05417620|184179348|OTHER||Incidence rate ratio|1.21||||0.707|TWO_SIDED|95.0|0.44|3.31||Threshold for significance: 0.05.|Regression, Poisson|||"This statistical analysis is done at the district level where counts of initiations in intervention districts are compared to standard of care districts. In the measure type we report rate = average counts of PrEP initiations per number of study months."||3.31|0.44|0.707
92147222|NCT04393441|184179359|NON_INFERIORITY|MMRM with fixed effects=treatment, visit, visit by treatment interaction,Baseline total staining stratum(TSS),and Baseline TSS by visit interaction.|Least Squares Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.57||0.0475|TWO_SIDED|95.0|0.01|2.27|||MMRM|||Change from Baseline in Total Staining Score at Day 90: The null hypothesis was that 011516X tear formulation was to be considered noninferior to Systane Ultra MD if the upper limit of 2-sided confidence interval (CI) was less than 2.3 units.||2.27|0.01|0.0475
92147223|NCT04393441|184179360|OTHER|No formal hypothesis was planned. The p-value for treatment differences is reported for reference.|Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|16.32||0.9001|TWO_SIDED|95.0|-30.03|34.14|||MMRM|MMRM with fixed effects=treatment, visit, visit by treatment interaction, Baseline TSS, and Baseline TSS by visit interaction.||||34.14|-30.03|0.9001
92271988|NCT02058368|184445335|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.33|TWO_SIDED|95.0|-0.2|0.59||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 6|||0.59|-0.20|0.33
92271989|NCT02058368|184445335|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.2||0.15|TWO_SIDED|95.0|-0.1|0.68||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 9|||0.68|-0.10|0.15
92271990|NCT02058368|184445335|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.21||0.46|TWO_SIDED|95.0|-0.25|0.55||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 12|||0.55|-0.25|0.46
92147224|NCT03371082|184179390|EQUIVALENCE|The limits of the lower and upper equivalence margin were -11.3 and 11.3, respectively.|Risk Difference (RD)|0.6|STANDARD_ERROR_OF_MEAN|3.63|||TWO_SIDED|90.0|-5.4|6.5|||||The asymptotic standard error was planned and is reported above.|This is a two-arm study.||6.5|-5.4|
92271991|NCT02058368|184445335|SUPERIORITY||Median Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.21||0.59|TWO_SIDED|95.0|-0.51|0.29||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 15|||0.29|-0.51|0.59
92271992|NCT02058368|184445335|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.2||0.56|TWO_SIDED|95.0|-0.52|0.28||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 18|||0.28|-0.52|0.56
92147225|NCT00810264|184179414|NON_INFERIORITY|The primary safety endpoint 1 hypothesis was evaluated by performing an exact, non-inferiority test comparing a binomial proportion (overall SAEFR at 5 years) to 92.5%, with a non-inferiority delta of 5%.|||||<|0.0001|||||||Binomial Proportion|||||||<0.0001
92147226|NCT01648348|184179428|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.57|TWO_SIDED|95.0|0.73|1.77|||Log Rank|||||1.77|0.73|0.57
92147227|NCT01648348|184179429|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92147228|NCT01648348|184179430|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.82|TWO_SIDED|95.0|0.66|1.69|||Log Rank|||||1.69|0.66|0.82
92147229|NCT01648348|184179432|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
92271993|NCT02058368|184445335|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.21||0.51|TWO_SIDED|95.0|-0.56|0.28||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 21|||0.28|-0.56|0.51
92271994|NCT02058368|184445335|SUPERIORITY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.21||0.034|TWO_SIDED|95.0|-0.88|-0.03||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 24|||-0.03|-0.88|0.034
92271995|NCT02058368|184445336|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.54|-0.5||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Country + Baseline Value.P-values for Dut+Tam versus Tam are based on t-tests from the general linear model for Month 12|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam.|||-0.50|-1.54|<.001
92147230|NCT01648348|184179433|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Future uncertainty symptom scale/item t-test, 2-sided, unpooled.||||0.55
92147231|NCT01648348|184179433|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Visual disorder symptom scale/item t-test, 2-sided, unpooled.||||0.16
92147232|NCT01648348|184179433|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||Motor dysfunction symptom scale/item t-test, 2-sided, unpooled.||||0.99
92147233|NCT01648348|184179433|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Communication deficit symptom scale/item t-test, 2-sided, unpooled.||||0.75
92147234|NCT01648348|184179433|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||Headaches symptom scale/item t-test, 2-sided, unpooled.||||0.17
92271996|NCT02058368|184445336|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.27||0.009|TWO_SIDED|95.0|-1.23|-0.18||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model for Month 24|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam.|||-0.18|-1.23|0.009
92271997|NCT02058368|184445341|SUPERIORITY||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-2.1|-1.6||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Baseline Value for Month 6|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam.|||-1.6|-2.1|<.001
92147235|NCT01648348|184179433|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||Seizures symptom scale/item t-test, 2-sided, unpooled.||||0.90
92147236|NCT01648348|184179433|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Drowsiness symptom scale/item t-test, 2-sided, unpooled.||||0.82
92147237|NCT01648348|184179433|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||Itchy skin symptom scale/item t-test, 2-sided, unpooled.||||0.15
92147238|NCT01648348|184179433|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||Hair loss symptom scale/item t-test, 2-sided, unpooled.||||0.77
92147239|NCT01648348|184179433|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Weakness of legs symptom scale/item t-test, 2-sided, unpooled.||||0.10
92147240|NCT01648348|184179433|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||Bladder control symptom scale/item t-test, 2-sided, unpooled.||||0.65
92147241|NCT01648348|184179434|SUPERIORITY|||||||0.83|||||||proportion test|||||||0.83
92147242|NCT00696410|184179438|SUPERIORITY_OR_OTHER|||||||0.068|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||p value represents test of paired (within patient) difference||||0.068
92271998|NCT02058368|184445341|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-2.3|-1.9||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Baseline Value for Month 12|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam.|||-1.9|-2.3|<.001
92271999|NCT02058368|184445341|SUPERIORITY||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-3.1|-2.2||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Baseline Value for Month 24|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam.|||-2.2|-3.1|<.001
92147243|NCT00696410|184179438|SUPERIORITY_OR_OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||p value tests difference between the marker in CHF patients at time 0 and Health Controls (between group)||||0.022
92147244|NCT00696410|184179439|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED|95.0|||||Sign test|||p value represents test of paired (within patient) difference||||0.71
92147245|NCT00696410|184179439|SUPERIORITY_OR_OTHER|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||p value tests difference between the marker in CHF patients at time 0 and Health Controls (between group)||||0.33
92147246|NCT00696410|184179440|SUPERIORITY_OR_OTHER|||||||0.69|||||||Sign test|||p value represents test of paired (within patient) difference||||0.69
92147247|NCT00696410|184179440|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||p value tests difference between the marker in CHF patients at time 0 and Health Controls (between group)||||0.004
92147248|NCT00696410|184179441|SUPERIORITY_OR_OTHER|||||||0.48|||||||Sign test|||p value represents test of paired (within patient) difference||||0.48
92147249|NCT00696410|184179441|SUPERIORITY_OR_OTHER|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||p value tests difference between the marker in CHF patients at time 0 and Health Controls (between group)||||0.39
92147250|NCT00696410|184179442|SUPERIORITY_OR_OTHER|||||||0.92|||||||Sign test|||p value represents test of paired (within patient) difference||||0.92
92147251|NCT00696410|184179442|SUPERIORITY_OR_OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||p value tests difference between the marker in CHF patients at time 0 and Health Controls (between group)||||0.22
92147252|NCT02134587|184179444|SUPERIORITY_OR_OTHER_LEGACY|||||||1e-05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.00001
92147253|NCT02134587|184179445|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92147254|NCT01165775|184179536|SUPERIORITY_OR_OTHER|||||||0.2155|||||||Chi-squared|||||||0.2155
92272000|NCT02058368|184445343|SUPERIORITY|||||||0.77||||||P-value for Dut+Tam vs. Tam is based on a van Elteren test with stratification by country for Month 6|Van Elteren test|||||||0.77
92272001|NCT02058368|184445343|SUPERIORITY|||||||0.84||||||P-value for Dut+Tam vs. Tam is based on a van Elteren test with stratification by country for Month 12|Van Elteren test|||||||0.84
92147255|NCT03355326|184179537|SUPERIORITY|||||||0.971|||||||Wilcoxon (Mann-Whitney)|||||||0.971
92147256|NCT03355326|184179538|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.900
92147257|NCT03355326|184179539|SUPERIORITY|||||||0.648|||||||Wilcoxon (Mann-Whitney)|||||||0.648
92147258|NCT03355326|184179540|SUPERIORITY|||||||0.967|||||||Wilcoxon (Mann-Whitney)|||||||0.967
92147259|NCT03355326|184179541|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92147260|NCT03355326|184179542|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92147261|NCT03355326|184179543|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92147262|NCT00608582|184179553|SUPERIORITY_OR_OTHER||||||<|0.028||||||p\<0.05 considered significant|ANOVA|Post-hoc paired t-tests were performed.||A repeated measures ANOVA is performed with a significance level of p\<0.05 (two-sided). Factors: Time (Baseline vs. 2 Mo. Post rTMS treatment) and Group (Real vs. Sham).||||<0.028
92147263|NCT00608582|184179553|SUPERIORITY_OR_OTHER||||||<|0.05||||||p\<.05 considered significant; Pairwise comparisons not adjusted for multiple comparisons|t-test, 2 sided|||Paired, t-tests were performed if the ANOVA yields a significant interaction (p\<0.05, two-sided) for Baseline vs. 2 months after last rTMS treatment.||||<0.05
92147264|NCT00608582|184179553|SUPERIORITY_OR_OTHER||||||<|0.237||||||p\<0.05 considered significant. Pairwise comparisons were not corrected for multiple comparisons.|t-test, 2 sided|||Paired, t-tests were performed if the ANOVA yields a significant interaction (p\<0.05, two-sided) for Baseline vs. 2 Mo. after last Sham rTMS treatment.||||<0.237
92147265|NCT00608582|184179554|SUPERIORITY_OR_OTHER|||||||0.414||||||p\<0.05 considered significant|ANOVA|||A repeated measures ANOVA is performed with a significance level of p\<0.05 (two-sided). Factors: Time (Baseline vs. 2 months after last rTMS treatment) and Group (Real vs. Sham).||||0.414
92147266|NCT00608582|184179554|SUPERIORITY_OR_OTHER||||||<|0.822||||||p\<0.05 considered significant|ANOVA|||A repeated measures ANOVA is performed with a significance level of p\<0.05 (two-sided). Factors: Time (Baseline vs. 2 months after last rTMS treatment) and Group (Real vs. Sham).||||<0.822
92147267|NCT00608582|184179554|SUPERIORITY_OR_OTHER||||||<|0.835||||||p\<0.05 considered significant|ANOVA|||A repeated measures ANOVA is performed with a significance level of p\<0.05 (two-sided). Factors: Time (Baseline vs. 2 months after last rTMS treatment) and Group (Real vs. Sham).||||<0.835
92147268|NCT04922554|184179555|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Difference in response rates|14.15||||0.2182|TWO_SIDED|||||Nominal p-values are provided for descriptive purposes.|Chi-squared|Analysis stratified by prior NTM antibiotic treatment was not performed due to small sample size in one randomization stratification subgroup.||||||0.2182
92147269|NCT04922554|184179556|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Difference in response rates|22.15||||0.046|TWO_SIDED|||||Nominal p-values are provided for descriptive purposes.|Chi-squared|Analysis stratified by prior NTM antibiotic treatment was not performed due to small sample size in one randomization stratification subgroup.||||||0.0460
92147270|NCT04922554|184179565|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|0.8||||0.824|TWO_SIDED|95.0|-6.01|7.52||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||7.52|-6.01|0.8240
92147271|NCT04922554|184179566|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|5.1||||0.2149|TWO_SIDED|95.0|-3.03|13.2||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||13.20|-3.03|0.2149
92147272|NCT04922554|184179567|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|8.3||||0.123|TWO_SIDED|95.0|-2.31|18.88||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||18.88|-2.31|0.1230
92147273|NCT04922554|184179568|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|5.5||||0.1168|TWO_SIDED|95.0|-1.41|12.43||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||12.43|-1.41|0.1168
92147274|NCT04922554|184179569|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|6.5||||0.0743|TWO_SIDED|95.0|-0.66|13.66||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||13.66|-0.66|0.0743
92147275|NCT04922554|184179570|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|7.1||||0.0899|TWO_SIDED|95.0|-1.13|15.23||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||15.23|-1.13|0.0899
92147276|NCT04922554|184179571|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|0.5||||0.9019|TWO_SIDED|95.0|-7.6|8.59||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||8.59|-7.60|0.9019
92147277|NCT04922554|184179572|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|13.7||||0.0015|TWO_SIDED|95.0|5.43|21.89||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||21.89|5.43|0.0015
92147278|NCT04922554|184179573|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|0.9||||0.8269|TWO_SIDED|95.0|-7.26|9.05||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA||Treatment comparison of Omadacycline and Placebo for activity score has been presented.|||9.05|-7.26|0.8269
92396078|NCT03192176|184689388|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.75||0.0064|TWO_SIDED|95.0|-3.52|-0.58||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.58|-3.52|0.0064
92147279|NCT04922554|184179573|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|-0.2||||0.9584|TWO_SIDED|95.0|-7.74|7.35||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA||Treatment comparison between Omadacycline and Placebo for impact score has been presented|||7.35|-7.74|0.9584
92272002|NCT02058368|184445343|SUPERIORITY|||||||0.98||||||P-value for Dut+Tam vs. Tam is based on a van Elteren test with stratification by country for Month 18|Van Elteren test|||||||0.98
92272003|NCT02058368|184445343|SUPERIORITY|||||||0.28||||||P-value for Dut+Tam vs. Tam is based on a van Elteren test with stratification by country for Month 24|Van Elteren test|||||||0.28
92272004|NCT02441179|184445363|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Kruskal-Wallis|||||||0.006
92147280|NCT04922554|184179573|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|-5.0||||0.2123|TWO_SIDED|95.0|-12.88|2.92||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA||Treatment comparison between Omadacycline and Placebo for symptom score has been presented.|||2.92|-12.88|0.2123
92147281|NCT04922554|184179573|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|-0.8||||0.8161|TWO_SIDED|95.0|-7.58|5.99||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA||Treatment comparison between Omadacycline and Placebo for total score has been presented.|||5.99|-7.58|0.8161
92272005|NCT02441179|184445364|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Kruskal-Wallis|||||||0.012
92147282|NCT04922554|184179574|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|-5.7||||0.001|TWO_SIDED|95.0|-8.95|-2.38||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||-2.38|-8.95|0.0010
92147283|NCT04922554|184179575|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Difference in improvement rates|39.61||||0.002|TWO_SIDED|95.0|16.66|62.56|||Fisher Exact|||||62.56|16.66|0.0020
92272006|NCT02441179|184445365|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Kruskal-Wallis|||||||0.16
92147284|NCT04922554|184179576|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Difference in improvement rates|15.41||||0.3051|TWO_SIDED|95.0|-9.1|39.93|||Fisher Exact|||||39.93|-9.10|0.3051
92147285|NCT04922554|184179577|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.||||||0.3552|||||||Wilcoxon rank sum test|||||||0.3552
92147286|NCT04922554|184179578|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.||||||0.0753|||||||Wilcoxon rank sum test|||||||0.0753
92147287|NCT04922554|184179580|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Odds Ratio (OR)|3.84||||0.0168|TWO_SIDED|95.0|1.24|11.87|||Chi-squared|||||11.87|1.24|0.0168
92147288|NCT04922554|184179581|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.||||||0.0233|||||||Log Rank|||||||0.0233
92147289|NCT04922554|184179582|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.||||||0.0349|||||||Log Rank|||||||0.0349
92168520|NCT04878354|184226837|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.0004|TWO_SIDED|95.0|0.58|2.0|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Adjusted p-value.||2.00|0.58|0.0004
92168521|NCT04878354|184226838|SUPERIORITY||Mean Difference (Final Values)|0.85||||0.001|TWO_SIDED|95.0|0.34|1.35|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Adjusted p-value.||1.35|0.34|0.0010
92168522|NCT04878354|184226839|SUPERIORITY||Mean Difference (Final Values)|0.37||||0.0354|TWO_SIDED|95.0|0.03|0.71|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Adjusted p-value.||0.71|0.03|0.0354
92168523|NCT04878354|184226840|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.0734|TWO_SIDED|95.0|-0.02|0.5|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Adjusted p-value.||0.50|-0.02|0.0734
92210001|NCT02901041|184320343|SUPERIORITY||Mean Difference (Net)|3.18||||0.4|TWO_SIDED|95.0|-4.39|10.75||Equality of variance was not assumed.|t-test, 2 sided|t=0.85, df=39.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||10.75|-4.39|.40
92272007|NCT02441179|184445366|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Chi-squared|||||||0.57
92272008|NCT02441179|184445367|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Chi-squared|||||||0.14
92272009|NCT02441179|184445368|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.43
92272010|NCT02441179|184445369|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.55
92272011|NCT01488071|184445370|NON_INFERIORITY_OR_EQUIVALENCE|"Mixed model for repeated measurements (MMRM), using all available data, with a freely varying mean and covariance structures and with treatment, week, and site group as fixed factors and the baseline score as a covariate. The model also included interaction between week and baseline score, as well as interaction between week and treatment.~Non-inferiority, upper limit of Confidence Interval should not exceed 2."|Mean Difference (Final Values)|-2.16|STANDARD_ERROR_OF_MEAN|0.69||0.0018|TWO_SIDED|95.0|-3.51|-0.81||Under established non-inferiority the p-value is not adjusted.|Mixed Models Analysis|MMRM||||-0.81|-3.51|0.0018
92272012|NCT01488071|184445371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.03|STANDARD_ERROR_OF_MEAN|0.72||0.0054|TWO_SIDED|95.0|-3.45|-0.6||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.60|-3.45|0.0054
92272013|NCT01488071|184445372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.89|STANDARD_ERROR_OF_MEAN|0.56||0.0008|TWO_SIDED|95.0|-2.98|-0.8||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.80|-2.98|0.0008
92272014|NCT01488071|184445373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|0.57||0.0007|TWO_SIDED|95.0|-3.04|-0.81||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.81|-3.04|0.0007
92272015|NCT01488071|184445374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0023|TWO_SIDED|95.0|-0.48|-0.11||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.11|-0.48|0.0023
92147290|NCT03810534|184179613|SUPERIORITY||Mean Difference (Final Values)|-1.64|STANDARD_ERROR_OF_MEAN|3.24||0.62|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.62
92147291|NCT03810534|184179614|SUPERIORITY||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|1.44||0.31|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.31
92147292|NCT03810534|184179615|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.33||0.93|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.93
92147293|NCT03810534|184179616|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.34||0.6|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.60
92147294|NCT03810534|184179617|SUPERIORITY||Mean Difference (Final Values)|2.24|STANDARD_ERROR_OF_MEAN|3.49||0.53|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.53
92147295|NCT03810534|184179618|SUPERIORITY||Mean Difference (Final Values)|0.78|STANDARD_ERROR_OF_MEAN|3.57||0.83|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.83
92147296|NCT03810534|184179619|SUPERIORITY||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|2.05||0.75|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.75
92147297|NCT03810534|184179620|SUPERIORITY||Mean Difference (Final Values)|1.44|STANDARD_ERROR_OF_MEAN|2.07||0.5|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.50
92210002|NCT02901041|184320344|SUPERIORITY||Mean Difference (Net)|0.4||||0.06|TWO_SIDED|95.0|-0.01|0.81||Equal variances were not assumed when conducting the t-test.|t-test, 2 sided|t=1.97, df=38.37||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.81|-0.01|.06
92272016|NCT01488071|184445375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.1||0.0075|TWO_SIDED|95.0|-0.47|-0.07||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.07|-0.47|0.0075
92272017|NCT01488071|184445376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.09||0.0048|TWO_SIDED|95.0|-0.42|-0.08||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.08|-0.42|0.0048
92147298|NCT03810534|184179621|SUPERIORITY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.5||0.48|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.48
92147299|NCT03810534|184179622|SUPERIORITY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.52||0.22|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.22
92147300|NCT03810534|184179623|SUPERIORITY||Mean ratio|0.96|STANDARD_ERROR_OF_MEAN|0.25||0.88|TWO_SIDED||||||Mixed Models Analysis|||||||.88
92147301|NCT03810534|184179624|SUPERIORITY||Mean ratio|0.72|STANDARD_ERROR_OF_MEAN|0.18||0.23|TWO_SIDED||||||Mixed Models Analysis|||||||.23
92147302|NCT03092375|184179632|OTHER|Study is not intended to be powered|Mean Difference (Final Values)|-0.76|||||TWO_SIDED|95.0|-9.48|5.12|||||Excludes re-infection and death|The difference in the percentage of subjects with on-treatment virologic failure (Defined as increase of \>1 log10 IU/mL above nadir during treatment, or HCV RNA \>= 15 IU/mL at end of treatment with at least 6 weeks of treatment between Arms A and B are summarized with two-sided 95% Wilson score intervals.||5.12|-9.48|
92147303|NCT03092375|184179633|OTHER|The difference in the percentage of subjects with post-treatment relapse between Arms A and B are summarized with two-sided 95% Wilson score intervals.|Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-10.49|5.49||||||||5.49|-10.49|
92147304|NCT03092375|184179634|OTHER|Difference in percentage of subjects with on-treatment virologic failure between Arms C and D will be summarized with two-sided 95% Wilson score intervals|Mean Difference (Final Values)|9.52|||||TWO_SIDED|95.0|-3.03|22.08||||||||22.08|-3.03|
92147305|NCT03092375|184179635|OTHER||Mean Difference (Final Values)|-1.81|||||TWO_SIDED|95.0|-13.85|10.22||||||Excludes re-infection and death||10.22|-13.85|
92147306|NCT03092375|184179636|OTHER|Study was not powered to compare efficacy|Logistic Regression Contrast Estimate|-0.812||||0.161|TWO_SIDED|95.0|-1.947|0.323|||Chi-squared|Logistic regression contrast estimates with Wald confidence intervals and Chi-square p values|Comparison of Arm Pair A/C versus B/D overall on mITT population|||0.323|-1.947|0.161
92147307|NCT03092375|184179636|OTHER|Study is not powered to compare efficacy of 12 wks vs 16 weeks of treatment|Logistic regression contrast estimate|0.89||||0.89|TWO_SIDED|95.0|-1.239|1.076|||Chi-squared|Logistic regression contrast estimates with Wald confidence intervals and Chi-square p values|Difference in proportion of SVR12 rates for 12 vs 16 weeks on mITT Comparing Cirrhotic subjects versus non-cirrhotic subjects.|||1.076|-1.239|0.890
92147308|NCT03092375|184179636|OTHER|Study is not powered|Logistic regression contrast estimate|0.977||||0.265|TWO_SIDED|95.0|-0.74|2.694|||Chi-squared|||Comparison of 12 weeks vs 16 weeks in Genotype 1b vs non-1b||2.694|-0.740|0.265
92147309|NCT02790073|184179641|OTHER|Within group comparison vs baseline|||||<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.001
92147310|NCT02790073|184179642|OTHER|Within group comparison vs baseline||||||0.015|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.015
92147311|NCT02790073|184179643|OTHER|Within group comparison vs baseline||||||0.003|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.003
92147312|NCT00861614|184179649|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0127|TWO_SIDED|95.0|0.71|0.96|||Log Rank||Ipilimumab over placebo|||0.96|0.71|0.0127
92147313|NCT00861614|184179651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.61|0.82|||||Ipilimumab over placebo|||0.82|0.61|
92147314|NCT00861614|184179653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.25|||||TWO_SIDED|95.0|0.02|4.0|||||Ipilimumab over placebo|||4.00|0.02|
92147315|NCT00944658|184179663|SUPERIORITY|||||||0.139|||||||ANCOVA|||||||0.139
92147316|NCT00944658|184179664|SUPERIORITY|||||||0.58|||||||ANCOVA|||||||0.58
92147317|NCT00944658|184179665|SUPERIORITY|||||||0.108|||||||ANCOVA|Rank Ancova||||||0.108
92210003|NCT02901041|184320345|SUPERIORITY||Mean Difference (Net)|0.03||||0.96|TWO_SIDED|95.0|-1.0|1.05|||t-test, 2 sided|t=.06, df=39.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||1.05|-1.00|.96
92210004|NCT02901041|184320346|SUPERIORITY||Mean Difference (Net)|2.03||||0.6|TWO_SIDED|95.0|-5.58|9.64|||t-test, 2 sided|t=0.53,df=57.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||9.64|-5.58|.60
92147318|NCT00605202|184179697|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value of the change in the plasma potassium (baseline to 2 weeks) between arms|t-test, 2 sided|||Statistical analysis applies to the change in the plasma potassium (baseline to 2 weeks) between arms||||0.007
92147319|NCT00838682|184179698|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
92147320|NCT00838682|184179699|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
92147321|NCT00838682|184179700|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
92147322|NCT00838682|184179701|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
92147323|NCT00838682|184179702|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92147324|NCT00838682|184179703|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92147325|NCT02305381|184179704|SUPERIORITY_OR_OTHER||Treatment difference|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.01|-1.5|||Mixed Models Analysis||Superiority for change in HbA1c was claimed if the upper limit of the 2-sided 95% CI for the estimated difference was below 0%.|Hierarchical testing was performed as per sequence listed below:Change in HbA1c: semaglutide 1.0 mg vs placebo. Change in HbA1c: semaglutide 0.5 mg vs placebo. Change in body weight: semaglutide 1.0 mg vs placebo. Change in body weight: semaglutide 0.5 mg vs placebo. Analysis was performed using MMRM with treatment, country and stratification variable (HbA1c at screening \[≤8.0% or \>8.0%\] crossed with use of metformin \[yes or no\]; 2 by 2 levels) as fixed factors and baseline value as covariate||-1.50|-2.01|< 0.0001
92147326|NCT02305381|184179704|SUPERIORITY_OR_OTHER||Treatment difference|-1.35|||<|0.0001|TWO_SIDED|95.0|-1.61|-1.1|||Mixed Models Analysis||Superiority for change in HbA1c was claimed if the upper limit of the 2-sided 95% CI for the estimated difference was below 0%.|Hierarchical testing was performed as per sequence listed below:Change in HbA1c: semaglutide 1.0 mg vs placebo. Change in HbA1c: semaglutide 0.5 mg vs placebo. Change in body weight: semaglutide 1.0 mg vs placebo. Change in body weight: semaglutide 0.5 mg vs placebo. Analysis was performed using MMRM with treatment, country and stratification variable (HbA1c at screening \[≤8.0% or \>8.0%\] crossed with use of metformin \[yes or no\]; 2 by 2 levels) as fixed factors and baseline value as covariate||-1.10|-1.61|< 0.0001
92147327|NCT02276066|184179712|OTHER|We performed a delta analysis, by graphing the difference between the two measurements, we wanted to visually assess the degree of agreement or discrepancy between the two methods. We were looking to evaluate the consistency, accuracy, or bias between different measurement techniques.|||||<|0.05|||||||Delta analysis|||||||<0.05
92147328|NCT02943941|184179725|OTHER|||||||0.429|||||||ANOVA|||||||0.429
92147329|NCT02943941|184179726|OTHER|||||||0.059||||||Pressure during coughing versus normal breathing initially measured at baseline.|ANOVA|||||||0.059
92147330|NCT02943941|184179727|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92147331|NCT03286751|184179747|SUPERIORITY||Ratio of Geometric LSMeans|1.01||||0.5495|TWO_SIDED|95.0|0.974|1.05|||Mixed Models Analysis|||||1.05|0.974|0.5495
92147332|NCT03286751|184179747|SUPERIORITY||Ratio of Geometric LSMeans|1.02||||0.2236|TWO_SIDED|95.0|0.986|1.06|||Mixed Models Analysis|||||1.06|0.986|0.2236
92147333|NCT03286751|184179747|SUPERIORITY||Ratio of Geometric LSMeans|1.03||||0.0727|TWO_SIDED|95.0|0.997|1.07|||Mixed Models Analysis|||||1.07|0.997|0.0727
92147334|NCT03286751|184179748|SUPERIORITY||Ratio of Geometric LSMeans|0.97||||0.5749|TWO_SIDED|95.0|0.87|1.08|||Mixed Models Analysis|||||1.08|0.87|0.5749
92147335|NCT03286751|184179748|SUPERIORITY||Ratio of Geometric LSMeans|0.92||||0.1578|TWO_SIDED|95.0|0.83|1.03|||Mixed Models Analysis|||||1.03|0.83|0.1578
92147336|NCT03286751|184179748|SUPERIORITY||Ratio of Geometric LSMeans|0.92||||0.1351|TWO_SIDED|95.0|0.83|1.03|||Mixed Models Analysis|||||1.03|0.83|0.1351
92147337|NCT01301391|184179758|SUPERIORITY||Single proportion|0.54|||<|0.001|TWO_SIDED|95.0|0.33|0.74||A priori threshold for statistical significance = 0.05|Fisher Exact|||H0:p≤ 25% vs H1:p\> 25% with an interesting PFS-3 rate of 50% (median PFS of 3 months), alpha=0.05 and beta=0.10, 30 evaluable patients are required for a single stage trial. If at the end of the trial 12 or more out of 30 evaluable patients are alive and progression-free at 3 months since the treatment start date, the null hypothesis are rejected. A Fleming multiple-testing procedure is applied. If \>=4 successes out of the first 15 patients are observed, accrual will continue up to 30.||0.74|0.33|<0.001
92210005|NCT02901041|184320347|SUPERIORITY||Mean Difference (Net)|-0.06||||0.21|TWO_SIDED|95.0|-0.15|0.03|||t-test, 2 sided|t=-1.27, df=39.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.03|-0.15|.21
92272018|NCT01488071|184445377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.09||0.0055|TWO_SIDED|95.0|-0.42|-0.07||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.07|-0.42|0.0055
92272019|NCT01488071|184445378|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.0012|TWO_SIDED|95.0|1.26|2.6||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||2.60|1.26|0.0012
92272020|NCT01488071|184445379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.0014|TWO_SIDED|95.0|1.26|2.65||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||2.65|1.26|0.0014
92272021|NCT01488071|184445380|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||0.0054|TWO_SIDED|95.0|1.17|2.52||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||2.52|1.17|0.0054
92272022|NCT01488071|184445381|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01||||0.0002|TWO_SIDED|95.0|1.39|2.9||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||2.90|1.39|0.0002
92272023|NCT01488071|184445382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.22|STANDARD_ERROR_OF_MEAN|0.72||0.0021|TWO_SIDED|95.0|-3.63|-0.81||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.81|-3.63|0.0021
92272024|NCT01488071|184445383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75|STANDARD_ERROR_OF_MEAN|0.75||0.0209|TWO_SIDED|95.0|-3.23|-0.27||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.27|-3.23|0.0209
92272025|NCT02139306|184445384|SUPERIORITY||Mean Difference (Net)|0.597|STANDARD_ERROR_OF_MEAN|0.957||0.5336|TWO_SIDED|95.0|-1.2881|2.4813|||Mixed-model, repeated-measures|||||2.4813|-1.2881|0.5336
92210006|NCT02901041|184320348|SUPERIORITY||Mean Difference (Net)|-0.28||||0.09|TWO_SIDED|95.0|-0.6|0.04|||t-test, 2 sided|t=-1.74,df=57.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.04|-0.60|.09
92272026|NCT02139306|184445385|SUPERIORITY||Rate ratio|0.8567|STANDARD_ERROR_OF_MEAN|0.1577||0.4008|TWO_SIDED|95.0|0.5973|1.2288|||Negative binomial regression|||||1.2288|0.5973|0.4008
92272027|NCT02139306|184445386|SUPERIORITY||Mean Difference (Net)|0.272|STANDARD_ERROR_OF_MEAN|1.93||0.8881|TWO_SIDED|95.0|-3.5292|4.0731|||Mixed-model, repeated measures|||||4.0731|-3.5292|0.8881
92272028|NCT02139306|184445387|SUPERIORITY||Mean Difference (Net)|-0.065|STANDARD_ERROR_OF_MEAN|0.1312||0.6208|TWO_SIDED|95.0|-0.3233|0.1934|||Mixed-model, repeated measures|||||0.1934|-0.3233|0.6208
92272029|NCT02278952|184445405|OTHER|Generalized estimating equation-adjusted linear models||||||0.33|||||||GEE-adjusted models|||||||0.33
92272030|NCT02278952|184445406|OTHER|Generalized estimating equation-adjusted linear model|||||<|0.0001|||||||GEE-adjusted linear model|||||||< 0.0001
92272031|NCT02278952|184445407|OTHER|Generalized estimating equation-adjusted linear models||||||0.049|||||||GEE-adjusted linear models|||||||0.049
92147338|NCT00106184|184179773|SUPERIORITY_OR_OTHER||||||=|0.74|TWO_SIDED||||||Log Rank|No confidence intervals as no parameters were estimated.||Proportional hazards model||||=0.74
92272032|NCT02278952|184445408|OTHER|Generalized estimating equation-adjusted linear models||||||0.114|||||||GEE-adjusted linear models|||||||0.114
92272033|NCT02278952|184445409|OTHER|Generalized estimating equation-adjusted linear models||||||0.47|||||||GEE-adjusted linear models|||P-value of tacrolimus dose||||0.470
92272034|NCT02278952|184445409|OTHER|Generalized estimating equation-adjusted linear models||||||0.037|||||||GEE-adjusted linear models|||P-value of Prednisone dose||||0.037
92272035|NCT02278952|184445409|OTHER|Generalized-estimating equation-adjusted linear models||||||0.456|||||||GEE-adjusted linear models|||P-value of mycophenolate mofetil dose||||0.456
92272036|NCT00532779|184445446|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.67|||<|0.001||95.0|-4.5|-2.85|||ANCOVA|||||-2.85|-4.50|<0.001
92272037|NCT00532779|184445446|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.81|||<|0.001|TWO_SIDED|95.0|-5.63|-3.99|||ANCOVA|||||-3.99|-5.63|<0.001
92272038|NCT00532779|184445447|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.42|||<|0.001||95.0|2.52|4.63|||Regression, Logistic|||||4.63|2.52|<0.001
92272039|NCT00532779|184445447|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.86|||<|0.001||95.0|3.6|6.57|||Regression, Logistic|||||6.57|3.60|<0.001
92272040|NCT00532779|184445448|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.21|||<|0.001|TWO_SIDED|95.0|2.14|4.81|||Regression, Logistic|||||4.81|2.14|<0.001
92272041|NCT00532779|184445448|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.19|||<|0.001|TWO_SIDED|95.0|2.82|6.23|||Regression, Logistic|||||6.23|2.82|<0.001
92272042|NCT00532779|184445449|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.58|||<|0.001|TWO_SIDED|95.0|-3.74|-1.43|||ANCOVA|||||-1.43|-3.74|<0.001
92272043|NCT00532779|184445449|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.78|||<|0.001|TWO_SIDED|95.0|-4.93|-2.64|||ANCOVA|||||-2.64|-4.93|<0.001
92272044|NCT00532779|184445450|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.42|||<|0.001|TWO_SIDED|95.0|2.17|4.66|||ANCOVA|||||4.66|2.17|<0.001
92272045|NCT00532779|184445450|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.48|||<|0.001|TWO_SIDED|95.0|2.26|4.7|||ANCOVA|||||4.70|2.26|<0.001
92272046|NCT00532779|184445451|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.88|||=|0.046|TWO_SIDED||||||ANCOVA|||||||=0.046
92272047|NCT00532779|184445451|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.61|||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92272048|NCT00532779|184445452|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.13|||<|0.001|TWO_SIDED|95.0|1.72|4.54|||ANCOVA|||||4.54|1.72|<0.001
92272049|NCT00532779|184445452|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.14|||<|0.001|TWO_SIDED|95.0|2.73|5.56|||ANCOVA|||||5.56|2.73|<0.001
92272050|NCT00532779|184445453|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.36|||=|0.016|TWO_SIDED||||||ANCOVA|||||||=0.016
92272051|NCT00532779|184445453|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.32|||=|0.008|TWO_SIDED||||||ANCOVA|||||||=0.008
92272052|NCT00532779|184445454|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.27|||=|0.063|TWO_SIDED||||||ANCOVA|||||||=0.063
92272053|NCT00532779|184445454|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.57|||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92272054|NCT00532779|184445455|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09|||||TWO_SIDED|95.0|-2.6|0.42||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.42|-2.60|
92272055|NCT00532779|184445455|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.94|||=|0.01|TWO_SIDED|95.0|-3.42|-0.46|||ANCOVA|||||-0.46|-3.42|=0.010
92272056|NCT00532779|184445456|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.43|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
92272057|NCT00532779|184445456|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.29|||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92272058|NCT00532779|184445457|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.81|||||TWO_SIDED|95.0|-6.68|-0.94||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-0.94|-6.68|
92272059|NCT00532779|184445457|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.84|||<|0.001|TWO_SIDED|95.0|-8.71|-2.98|||ANCOVA|||||-2.98|-8.71|<0.001
92272060|NCT00532779|184445458|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39|||||TWO_SIDED|95.0|-3.62|2.84||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||2.84|-3.62|
92272061|NCT00532779|184445458|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.13||||0.484|TWO_SIDED|95.0|-4.29|2.04|||ANCOVA|||||2.04|-4.29|0.484
92272062|NCT00532779|184445459|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.23|||||TWO_SIDED|95.0|1.16|3.3||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||3.30|1.16|
92210007|NCT02901041|184320349|SUPERIORITY||Mean Difference (Net)|-0.35||||0.1|TWO_SIDED|95.0|-0.78|0.07|||t-test, 2 sided|t=-1.69, df=39.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.07|-0.78|.10
92272063|NCT00532779|184445459|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.83|||||TWO_SIDED|95.0|0.76|2.9||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||2.90|0.76|
92272064|NCT00532779|184445460|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.96|||||TWO_SIDED|95.0|0.19|1.73||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.73|0.19|
92272065|NCT00532779|184445460|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9|||||TWO_SIDED|95.0|0.13|1.67||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.67|0.13|
92272066|NCT00532779|184445461|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74|||||TWO_SIDED|95.0|0.19|1.28||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.28|0.19|
92272067|NCT00532779|184445461|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|||||TWO_SIDED|95.0|-0.09|1.0||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.00|-0.09|
92272068|NCT00532779|184445462|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.69|||||TWO_SIDED|95.0|0.14|1.23||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.23|0.14|
92272069|NCT00532779|184445462|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-0.4|0.69||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.69|-0.40|
92272070|NCT00532779|184445463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.53|0.53||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.53|-0.53|
92272071|NCT00532779|184445463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27|||||TWO_SIDED|95.0|-0.8|0.27||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.27|-0.80|
92272072|NCT00828516|184445518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51|STANDARD_DEVIATION|0.96|<|0.001||95.0||||This was not adjusted for multiple comparisons|t-test, 2 sided||"MYMOP uses a 7-point scale, from 0 to 6, with 0 as good as it can be, and 6 as bad as it can be. Higher values represent a worse outcome."|There will be no improvement in MYMOP profile score after 6 acupuncture treatments.||||<0.001
92396079|NCT03192176|184689388|SUPERIORITY||-2.6|-2.6|STANDARD_ERROR_OF_MEAN|0.74||0.0005|TWO_SIDED|95.0|-4.04|-1.15||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.15|-4.04|0.0005
92272073|NCT00828516|184445519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32|STANDARD_DEVIATION|0.94|<|0.001||95.0||||There will be no improvement in MYMOP profile score after 12 treatments|t-test, 2 sided||"MYMOP uses a 7-point scale, from 0 to 6, with 0 as good as it can be, and 6 as bad as it can be. Higher values represent a worse outcome."|||||<0.001
92272074|NCT00689273|184445520|SUPERIORITY||Least Square (LS) Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.57||0.39|TWO_SIDED|80.0|-1.23|0.24|||Mixed Models Analysis|||Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect. One-sided alpha of 0.1 was used for the analysis.||0.24|-1.23|0.39
92272075|NCT00689273|184445521|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.52||0.63|TWO_SIDED|80.0|-0.92|0.42|||Mixed Models Analysis|||Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.42|-0.92|0.63
92272076|NCT00689273|184445522|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.27||0.54|TWO_SIDED|80.0|-0.51|0.18|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.18|-0.51|0.54
92272077|NCT00689273|184445522|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.6|TWO_SIDED|80.0|-0.51|0.21|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.21|-0.51|0.60
92272078|NCT00689273|184445523|SUPERIORITY||LS Mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|1.8||0.44|TWO_SIDED|80.0|-3.69|0.94|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.94|-3.69|0.44
92272079|NCT00689273|184445523|SUPERIORITY||LS Mean Difference|-2.42|STANDARD_ERROR_OF_MEAN|2.0||0.23|TWO_SIDED|80.0|-5.0|0.16|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.16|-5.00|0.23
92272080|NCT00689273|184445524|SUPERIORITY||LS Mean Difference|-1.76|STANDARD_ERROR_OF_MEAN|2.46||0.48|TWO_SIDED|80.0|-4.94|1.41|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||1.41|-4.94|0.48
92272081|NCT00689273|184445524|SUPERIORITY||LS Mean Difference|-3.02|STANDARD_ERROR_OF_MEAN|2.79||0.28|TWO_SIDED|80.0|-6.61|0.57|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.57|-6.61|0.28
92272082|NCT00689273|184445525|SUPERIORITY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.91||0.48|TWO_SIDED|80.0|-1.81|0.52|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.52|-1.81|0.48
92210008|NCT02901041|184320350|SUPERIORITY||Mean Difference (Net)|0.02||||0.8|TWO_SIDED|95.0|-0.15|0.19|||t-test, 2 sided|t=0.25,df=57.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.19|-0.15|0.80
92210009|NCT02901041|184320351|SUPERIORITY||Mean Difference (Net)|-5.61||||0.41|TWO_SIDED|95.0|-14.56|3.34|||t-test, 2 sided|t=-0.84,df=39.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||3.34|-14.56|.41
92272083|NCT00689273|184445525|SUPERIORITY||LS Mean Difference|-1.12|STANDARD_ERROR_OF_MEAN|1.03||0.28|TWO_SIDED|80.0|-2.45|0.2|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.20|-2.45|0.28
92272084|NCT00689273|184445526|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.19||0.28|TWO_SIDED|80.0|-0.46|0.04|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.04|-0.46|0.28
92396080|NCT03192176|184689388|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.75||0.0063|TWO_SIDED|95.0|-3.52|-0.59||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.59|-3.52|0.0063
92396081|NCT03192176|184689389|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0215|TWO_SIDED|95.0|-0.84|-0.07||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.07|-0.84|0.0215
92210010|NCT03249714|184320368|SUPERIORITY||Rate ratio|0.064|||<|0.001|TWO_SIDED|95.0|0.018|0.232|||negative binominal regression model|||||0.232|0.018|<0.001
92210011|NCT03249714|184320369|SUPERIORITY||rate ratio|0.136||||0.003|TWO_SIDED|95.0|0.036|0.513||Statistical significance (2-sided) at the 0.05 level|negative binomial regression|||||0.513|0.036|0.003
92272085|NCT00689273|184445526|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.28||0.14|TWO_SIDED|80.0|-0.78|-0.06|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.06|-0.78|0.14
92272086|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.28||0.55|TWO_SIDED|80.0|-0.52|0.19|||Mixed Models Analysis|||Day 1: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.19|-0.52|0.55
92272087|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.28||0.11|TWO_SIDED|80.0|-0.81|-0.09|||Mixed Models Analysis|||Day 2: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.09|-0.81|0.11
92272088|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.28||0.2|TWO_SIDED|80.0|-0.71|0.0|||Mixed Models Analysis|||Day 3: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.00|-0.71|0.20
92272089|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.28||0.23|TWO_SIDED|80.0|-0.69|0.02|||Mixed Models Analysis|||Day 4: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.02|-0.69|0.23
92272090|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_DEVIATION|0.28||0.41|TWO_SIDED|80.0|-0.58|0.13|||Mixed Models Analysis|||Day 5: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.13|-0.58|0.41
92272091|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.28||0.62|TWO_SIDED|80.0|-0.49|0.22|||Mixed Models Analysis|||Day 6: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.22|-0.49|0.62
92272092|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.28||0.49|TWO_SIDED|80.0|-0.55|0.16|||Mixed Models Analysis|||Day 7: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.16|-0.55|0.49
92272093|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_DEVIATION|0.28||0.1|TWO_SIDED|80.0|-0.81|-0.1|||Mixed Models Analysis|||Day 8: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.10|-0.81|0.10
92272094|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.28||0.24|TWO_SIDED|80.0|-0.69|0.03|||Mixed Models Analysis|||Day 9: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.03|-0.69|0.24
92272095|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.28||0.02|TWO_SIDED|80.0|-1.01|-0.28|||Mixed Models Analysis|||Day 10: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.28|-1.01|0.02
92272096|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.28||0.04|TWO_SIDED|80.0|-0.93|-0.21|||Mixed Models Analysis|||Day 11: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.21|-0.93|0.04
92272097|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.28||0.04|TWO_SIDED|80.0|-0.95|-0.23|||Mixed Models Analysis|||Day 12: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.23|-0.95|0.04
92272098|NCT00689273|184445527|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.28||0.24|TWO_SIDED|80.0|-0.7|0.03|||Mixed Models Analysis|||Day 13: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.03|-0.70|0.24
92272099|NCT00689273|184445527|SUPERIORITY||Slope|-0.45|STANDARD_ERROR_OF_MEAN|0.28||0.11|TWO_SIDED|80.0|-0.82|-0.09|||Mixed Models Analysis|||Day 14: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.09|-0.82|0.11
92272100|NCT00689273|184445528|SUPERIORITY|||||||0.22|||||||Cochran-Mantel-Haenszel|||30% Reduction||||0.22
92272101|NCT00689273|184445528|SUPERIORITY|||||||0.38|||||||Cochran-Mantel-Haenszel|||50% Reduction||||0.38
92272102|NCT00689273|184445529|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.45|TWO_SIDED|80.0|-0.27|0.07|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.07|-0.27|0.45
92272103|NCT00689273|184445529|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.13||0.37|TWO_SIDED|80.0|-0.29|0.05|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.05|-0.29|0.37
92272104|NCT02787746|184445552|OTHER||Odds Ratio (OR)|0.988||||0.9744|TWO_SIDED|95.0|0.466|2.095|||Regression, Logistic|||Age (\>75y vs ≤75y）||2.095|0.466|0.9744
92272105|NCT02787746|184445552|OTHER||Odds Ratio (OR)|3.42||||0.3288|TWO_SIDED|95.0|0.29|40.354|||Regression, Logistic|||APOE ɛ4 (carrier vs non-carrier)||40.354|0.290|0.3288
92272106|NCT02787746|184445552|OTHER||Odds Ratio (OR)|2.107||||0.5732|TWO_SIDED|95.0|0.158|28.171|||Regression, Logistic|||Concomitant medication：Gastrointestinal drugs||28.171|0.158|0.5732
92272107|NCT02787746|184445552|OTHER||Odds Ratio (OR)|0.976||||0.9694|TWO_SIDED|95.0|0.281|3.387|||Regression, Logistic|||Concomitant medication：Hypoglycemic drugs||3.387|0.281|0.9694
92272108|NCT02787746|184445552|OTHER||Odds Ratio (OR)|2.221||||0.0396|TWO_SIDED|95.0|1.039|4.748|||Regression, Logistic|||Concomitant medication：Cardiovascular and Cerebrovascular drugs||4.748|1.039|0.0396
92272109|NCT02787746|184445552|OTHER||Odds Ratio (OR)|2.056||||0.5889|TWO_SIDED|95.0|0.151|28.074|||Regression, Logistic|||Concomitant medication：Hepatology drugs||28.074|0.151|0.5889
92272110|NCT02787746|184445552|OTHER||Odds Ratio (OR)|1.004||||0.1181|TWO_SIDED|95.0|0.999|1.008|||Regression, Logistic|||Duration of previous donepezil 5mg/d therapy (day)||1.008|0.999|0.1181
92272111|NCT03703297|184445564|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.01608|TWO_SIDED|95.0|0.606|0.95|||Log Rank|The analysis was performed using the stratified log-rank test.|Hazard ratio and CI calculated using stratified Cox proportional hazards model,adjusting for tumor,node and metastasis(TNM) stage, receipt of prophylactic cranial irradiation(PCI),with treatment as only covariate and ties handled by Efron approach.|||0.950|0.606|0.01608
92272112|NCT03703297|184445565|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.01042|TWO_SIDED|95.0|0.569|0.928|||Log Rank|The analysis was performed using the stratified log-rank test.|Hazard ratio and CI were calculated using stratified Cox proportional hazards model, adjusting for receipt of PCI, with treatment as only covariate and ties handled by Efron approach.|||0.928|0.569|0.01042
92272113|NCT01142466|184445589|SUPERIORITY_OR_OTHER|||||||0.1384|||||||Log Rank|||Two-sided log rank test with alpha equal to 0.05 was used as the appropriate nonparametric method to compare the two groups.||||0.1384
92272114|NCT01142466|184445590|SUPERIORITY_OR_OTHER|||||||0.2635||95.0|||||Fisher Exact|||||||0.2635
92272115|NCT04084028|184445596|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||||||0.91
92272116|NCT04084028|184445597|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92272117|NCT04084028|184445598|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||||||0.91
92272118|NCT04084028|184445599|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||.19
92272119|NCT04084028|184445600|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||||||.77
92272120|NCT04084028|184445601|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||||||.06
92272121|NCT02414854|184445605|SUPERIORITY|Hierarchical testing procedure was used to control type I error rate at 0.05 level. The procedure included the 2 primary outcome measures and the first 13 secondary outcome measures reported and considered 2 pair-wise comparisons: Dupilumab 200 mg q2w vs Placebo (for Dupilumab 200 mg) q2w and Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w. Testing order is specified in analysis description.|Relative risk|0.54|||<|0.0001|TWO_SIDED|95.0|0.43|0.68||Hierarchical testing sequence performed continued only when previous outcome measures was statistically significant at 0.05. Threshold for significance at 0.05 level.|Negative binomial regression model||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using negative binomial model with total number of events onset from randomization up to Week 52 or last contact date (whichever comes earlier) as response variable; with 4 treatment groups, age, region, baseline eosinophil strata, baseline ICS dose level, number of severe exacerbation events within 1 year prior to study as covariates; and log transformed standardized observation duration as an offset variable. Here, it is test no. 1 of testing order.||0.68|0.43|<0.0001
92272122|NCT02414854|184445605|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|Relative risk|0.523|||<|0.0001|TWO_SIDED|95.0|0.413|0.662||Threshold for significance at 0.05 level.|Negative binomial regression model||Dupilumab 200 mg q2w vs Placebo (for Dupilumab 200 mg) q2w|Analysis was performed using negative binomial model with total number of events onset from randomization up to Week 52 or last contact date (whichever comes earlier) as response variable; with 4 treatment groups, age, region, baseline eosinophil strata, baseline ICS dose level, number of severe exacerbation events within 1 year prior to study as covariates; and log transformed standardized observation duration as an offset variable. Here, it is test no. 3 of testing order.||0.662|0.413|<0.0001
92396082|NCT03192176|184689389|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0017|TWO_SIDED|95.0|-1.01|-0.24||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.24|-1.01|0.0017
92272123|NCT02414854|184445606|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|Least Square (LS) Mean Difference|0.13|||<|0.0001|TWO_SIDED|95.0|0.08|0.18||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using mixed-effect model with repeated measures (MMRM) model with change from baseline in FEV1 values up to Week 12 as response variable; and treatment, age, sex, baseline height, region, baseline eosinophil strata, baseline ICS dose level, visit, treatment by-visit interaction, baseline FEV1 value and baseline-by-visit interaction as covariates. Here, it is test no. 2 of testing order.||0.18|0.08|<0.0001
92272124|NCT02414854|184445606|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|LS Mean Difference|0.14|||<|0.0001|TWO_SIDED|95.0|0.08|0.19||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 200 mg q2w vs Placebo (for Dupilumab 200 mg) q2w|Analysis was performed using MMRM model with change from baseline in FEV1 values up to Week 12 as response variable; and treatment, age, sex, baseline height, region, baseline eosinophil strata, baseline ICS dose level, visit, treatment by-visit interaction, baseline FEV1 value and baseline-by-visit interaction as covariates. Here, it is test no. 4 of testing order.||0.19|0.08|<0.0001
92272125|NCT02414854|184445607|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|LS Mean Difference|9.41|||<|0.0001|TWO_SIDED|95.0|5.74|13.07||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis performed using MMRM model(n=954 for 300 vs placebo)with percent change from baseline in FEV1 values up to Week 12 as response variable; \& treatment, age, sex, baseline height, region, baseline eosinophil strata, baseline ICS dose level, visit, treatment by-visit interaction, baseline FEV1 value \& baseline-by-visit interaction as covariates. Hierarchical testing procedure used to control type I error \& handle multiple secondary endpoint analyses. Here, it is test no. 5 of testing order.||13.07|5.74|<0.0001
92272126|NCT02414854|184445608|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|Relative risk|0.402|||<|0.0001|TWO_SIDED|95.0|0.307|0.526||Threshold for significance at 0.05 level.|Negative binomial regression model||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using negative binomial model with total number of events onset from randomization up to Week 52 or last contact date (whichever comes earlier) as response variable; with 4 treatment groups, age, region, baseline eosinophil strata, baseline ICS dose level, number of severe exacerbation events within 1 year prior to study as covariates; and log transformed standardized observation duration as an offset variable. Here, it is test no. 6 of testing order.||0.526|0.307|<0.0001
92272127|NCT02414854|184445609|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|LS Mean Difference|0.15|||<|0.0001|TWO_SIDED|95.0|0.09|0.21||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using MMRM model with change from baseline in FEV1 values up to Week 12 as response variable; and treatment, age, sex, baseline height, region, baseline eosinophil strata, baseline ICS dose level, visit, treatment by-visit interaction, baseline FEV1 value and baseline-by-visit interaction as covariates. Here, it is test no. 7 of testing order.||0.21|0.09|<0.0001
92147339|NCT00106184|184179774|SUPERIORITY_OR_OTHER||||||>|0.9|TWO_SIDED|95.0|||||Chi-squared|Difference in baseline muscle enzymes therefore tested the difference in the proportions adjusting for the baseline values.||||||>0.90
92147340|NCT00106184|184179775|SUPERIORITY_OR_OTHER||||||>|0.9|||||||Log Rank|||||||>0.90
92147341|NCT00409682|184179787|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.29||||0.075|TWO_SIDED|95.0|-3.14|23.71||There is no adjustment for multiple comparison on the primary outcome measure.|Cochran-Mantel-Haenszel||Difference is between adalimumab High-dose and adalimumab Low-dose group.|The point estimates for the number of subjects who achieved PCDAI clinical remission in each treatment group and the difference in number between the groups were provided. The P value and 95% confidence intervals (CIs) for the difference were provided. The P value is from the CMH test adjusted for infliximab use and response status at Week 4. The primary analysis was performed for the intent-to-treat (ITT) using the non-responder (NRI) imputation method.||23.71|-3.14|0.075
92147342|NCT00409682|184179788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.18||||0.1|TWO_SIDED|95.0|-2.62|22.97||The hierarchical stepwise closed testing procedure was implemented to control the overall significance level at 0.05 in the ITT population.|Cochran-Mantel-Haenszel||A significance test for any individual major secondary efficacy endpoint in the hierarchy was to be inferential only if the hypothesis tests of all preceding major secondary efficacy endpoints were statistically significant at 0.050.|The point estimates for the number of subjects who achieved PCDAI clinical remission in each treatment group and the difference in number between the groups were provided. The P value and 95% CIs for the difference were provided. The analysis was performed for the intent-to-treat (ITT) population using the non-responder imputation (NRI) method.||22.97|-2.62|0.100
92147343|NCT00409682|184179789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.72||||0.073|TWO_SIDED|95.0|-3.45|24.89||The hierarchical stepwise closed testing procedure was implemented to control the overall significance level at 0.05 in the ITT population|Cochran-Mantel-Haenszel||A significance test for any individual major secondary efficacy endpoint in the hierarchy was to be inferential only if the hypothesis tests of all preceding major secondary efficacy endpoints were statistically significant at 0.050.|The point estimates for the number of subjects who achieved PCDAI clinical response in each treatment group and the difference in number between the groups were provided. The P value and 95% confidence intervals (CIs) for the difference were provided. The analysis was performed for the intent-to-treat (ITT) population using the non-responder imputation (NRI) method.||24.89|-3.45|0.073
92147344|NCT00409682|184179790|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.51||||0.038|TWO_SIDED|95.0|-0.01|27.04||The hierarchical stepwise closed testing procedure was implemented to control the overall significance level at 0.05 in the ITT population|Cochran-Mantel-Haenszel||A significance test for any individual major secondary efficacy endpoint in the hierarchy was to be inferential only if the hypothesis tests of all preceding major secondary efficacy endpoints were statistically significant at 0.050.|The point estimates for the number of subjects who achieved PCDAI clinical response in each treatment group and the difference in number between the groups were provided. The P value and 95% confidence intervals (CIs) for the difference were provided. The analysis was performed for the intent-to-treat (ITT) population using the non-responder imputation (NRI) method.||27.04|-0.01|0.038
92147345|NCT00409682|184179791|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1|STANDARD_ERROR_OF_MEAN|2.903||0.161|TWO_SIDED|95.0|-9.86|1.66||The hierarchical stepwise closed testing procedure was implemented to control the overall significance level at 0.05 in the ITT population.|ANCOVA||Difference is between adalimumab High-dose and adalimumab Low-dose groups. Baseline means include subjects who had both Baseline and post-Baseline measurements.|"Analyzed as change from Baseline to Week 26, and compared between the two treatment groups. The estimated treatment mean difference, P values, and 95% CI for the treatment difference were provided. Analysis was conducted in the ITT population for OC.~The P value is from the ANCOVA model with treatment as a factor, adjusted for the baseline value, and the strata (response status at Week 4 and prior infliximab experience)."||1.66|-9.86|0.161
92147346|NCT00409682|184179792|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|2.941||0.735|TWO_SIDED|95.0|-6.88|4.88|||ANCOVA||Difference is between adalimumab High-dose and adalimumab Low-dose groups. Baseline means include subjects who had both Baseline and post-Baseline measurements.|Analyzed as change from Baseline to Week 52, and compared between the two treatment groups. The estimated treatment mean difference, P values, and 95% confidence interval (CI) for the treatment difference were provided. Analysis was conducted in the ITT population for OC.||4.88|-6.88|0.735
92147347|NCT04710927|184179798|OTHER||Odds Ratio (OR)|0.7|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92147348|NCT04710927|184179798|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92147349|NCT03595332|184179799|EQUIVALENCE|The analysis tests whether for both groups combined, the baseline to 10-week follow-up BMI percentile scores are significantly different from zero.|Mean Difference (Final Values)|1.137|STANDARD_ERROR_OF_MEAN|0.9846||0.248|TWO_SIDED|95.0|-0.793|3.067||This test compares baseline to 10-week post-test for both groups combined, to test the null hypothesis that the BMI Percentile score would not be different from zero. A p-value of 0.05 was used as a priori threshold for statistical significance.|Regression, Linear|Linear regression with Generalized Estimating Equations to account for nested data structure of 222 children nested within 150 families and 4 schools.||||3.067|-0.793|0.248
92147350|NCT03595332|184179800|EQUIVALENCE|Analysis tested whether BMI Percentile score change among overweight participants (BMI equal or greater than 85th percentile at baseline) significantly changed from baseline to follow-up (was significantly different from zero). This was a subset analysis among the highest risk participants in the study.|Mean Difference (Final Values)|-3.173|STANDARD_ERROR_OF_MEAN|1.34||0.018|TWO_SIDED|95.0|-5.806|-0.541||The p-value threshold was 0.05 for all comparisons.|Regression, Linear|Linear regression with Generalized Estimating Equations to account for nested data structure of children within schools and families.|A negative parameter suggests a decreased BMI Percentile.|||-0.541|-5.806|0.018
92147351|NCT03595332|184179801|EQUIVALENCE|Analysis tested the difference in BMI percentile between baseline and 1-year follow-up among participants in the immediate intervention group to test the null hypothesis that no change occurred.|Mean Difference (Final Values)|0.363|STANDARD_ERROR_OF_MEAN|1.676||0.829|TWO_SIDED|95.0|-2.922|3.648||A prior threshold for statistical significance was 0.05. No adjustment for multiple comparisons was made.|Regression, Linear|Analysis included Generalized Estimating Equations with linear response variable, accounting for nested data structure.||||3.648|-2.922|0.829
92147352|NCT03595332|184179802|EQUIVALENCE|Analysis test whether for both groups combined, Baseline to 10-week change in reported intention of physical activity was significantly different from zero.|Mean Difference (Final Values)|0.284|STANDARD_ERROR_OF_MEAN|0.128||0.026|TWO_SIDED|95.0|0.034|0.534||A priori threshold for statistical significance is 0.05. No adjustments for multiple comparisons were made.|Regression, Linear|Linear regression models with Generalized Estimating Equations to account for nested data were made.|A positive parameter would suggest an increase in intentions to be physically active.|||0.534|0.034|0.026
92272128|NCT02414854|184445610|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|Relative risk|0.326|||<|0.0001|TWO_SIDED|95.0|0.234|0.454||Threshold for significance at 0.05 level.|Negative binomial regression model||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using negative binomial model with total number of events onset from randomization up to Week 52 or last contact date (whichever comes earlier) as response variable; with 4 treatment groups, age, region, baseline eosinophil strata, baseline ICS dose level, number of severe exacerbation events within 1 year prior to study as covariates; and log transformed standardized observation duration as an offset variable. Here, it is test no. 8 of testing order.||0.454|0.234|<0.0001
92272129|NCT02414854|184445611|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|LS Mean Difference|0.24|||<|0.0001|TWO_SIDED|95.0|0.16|0.32||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using MMRM model with change from baseline in FEV1 values up to Week 12 as response variable; and treatment, age, sex, baseline height, region, baseline eosinophil strata, baseline ICS dose level, visit, treatment by-visit interaction, baseline FEV1 value and baseline-by-visit interaction as covariates. Here, it is test no. 9 of testing order.||0.32|0.16|<0.0001
92272130|NCT02414854|184445612|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|Relative risk|0.834||||0.2599|TWO_SIDED|95.0|0.608|1.144||Threshold for significance at 0.05 level.|Negative binomial regression model||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using negative binomial model with total number of events onset from randomization up to Week 52 or last contact date (whichever comes earlier) as response variable; with 4 treatment groups, age, region, baseline eosinophil strata, baseline ICS dose level, number of severe exacerbation events within 1 year prior to study as covariates; and log transformed standardized observation duration as an offset variable. Here, it is test no. 10 of testing order.||1.144|0.608|0.2599
92272131|NCT01355523|184445644|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Chi-squared|||||||0.008
92272132|NCT01355523|184445644|SUPERIORITY_OR_OTHER||Number need to treat|2.95|||||TWO_SIDED|95.0|1.703|11.024||||||||11.024|1.703|
92272133|NCT01355523|184445644|SUPERIORITY_OR_OTHER||Relative Risk|0.25|||||TWO_SIDED|95.0|0.076|0.797||||||||0.797|0.076|
92272134|NCT01355523|184445645|SUPERIORITY_OR_OTHER|||||||0.125||95.0|||||Fisher Exact|||||||0.125
92272135|NCT01355523|184445646|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Fisher Exact|||||||0.460
92272136|NCT01355523|184445647|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Chi-squared|||||||0.002
92147353|NCT02227875|184179803|NON_INFERIORITY|Mixed-Effect Model for Repeated Measures|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.098|0.218||||||||0.218|-0.098|
92272137|NCT01355523|184445648|SUPERIORITY_OR_OTHER|||||||0.264||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.264
92272138|NCT01355523|184445649|SUPERIORITY_OR_OTHER|||||||0.351||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.351
92272139|NCT01355523|184445650|SUPERIORITY_OR_OTHER|||||||0.446||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.446
92272140|NCT01355523|184445651|SUPERIORITY_OR_OTHER|||||||0.122||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.122
92272141|NCT01355523|184445652|SUPERIORITY_OR_OTHER|||||||0.907||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.907
92272142|NCT01355523|184445653|SUPERIORITY_OR_OTHER|||||||0.555||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.555
92272143|NCT01355523|184445654|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.930
92272144|NCT01355523|184445655|SUPERIORITY_OR_OTHER|||||||0.386||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.386
92272145|NCT01355523|184445656|SUPERIORITY_OR_OTHER|||||||0.241||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.241
92272146|NCT01355523|184445657|SUPERIORITY_OR_OTHER|||||||0.339||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.339
92272147|NCT01355523|184445658|SUPERIORITY_OR_OTHER|||||||0.578||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.578
92272148|NCT01355523|184445659|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||||||1.000
92272149|NCT01160198|184445686|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Paired t-test|||Baseline Hb vs. Hb at Week 8 for Ferrous bisglycinate chelate 60 mg 1 once-daily||||<0.0001
92272150|NCT01160198|184445686|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Paired t-test|||Baseline Hb vs. Hb at Week 8 for Ferrous bisglycinate chelate 60 mg 1 twice-daily||||<0.0001
92272151|NCT01160198|184445688|SUPERIORITY_OR_OTHER|||||||0.788|||||||Chi-squared|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous bisglycinate chelate 60 mg 1 twice-daily||||0.788
92272152|NCT01160198|184445688|SUPERIORITY_OR_OTHER|||||||0.911|||||||Chi-squared|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous ascorbate 100mg 1 once-daily||||0.911
92272153|NCT01160198|184445688|SUPERIORITY_OR_OTHER|||||||0.7|||||||Chi-squared|||Ferrous bisglycinate chelate 60 mg 1 twice-daily vs. Ferrous ascorbate 100mg 1 once-daily||||0.700
92272154|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.29|0.17|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous bisglycinate chelate 60 mg 1 twice-daily at Week 2||0.17|-0.29|1
92272155|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1||95.0|-0.57|0.31|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous bisglycinate chelate 60 mg 1 twice-daily at Week 4||0.31|-0.57|1
92272156|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.75|0.46|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous bisglycinate chelate 60 mg 1 twice-daily at Week 6||0.46|-0.75|1
92272157|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||1|TWO_SIDED|95.0|-1.05|0.53|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous bisglycinate chelate 60 mg 1 twice-daily at Week 8||0.53|-1.05|1
92272158|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.49|TWO_SIDED|95.0|-0.35|0.09|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous ascorbate 100mg 1 once-daily at Week 2||0.09|-0.35|0.490
92272159|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||1|TWO_SIDED|95.0|-0.58|0.29|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 4||0.29|-0.58|1
92272160|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.68|0.51|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 6||0.51|-0.68|1
92272161|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.84|0.72|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 8||0.72|-0.84|1
92272162|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.29|0.15|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 twice-daily vs. Ferrous ascorbate 100mg 1 once-daily at Week 2||0.15|-0.29|1
92272163|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.45|0.42|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 twice-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 4||0.42|-0.45|1
92272164|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||1|TWO_SIDED|95.0|-0.53|0.65|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 twice-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 6||0.65|-0.53|1
92272165|NCT01160198|184445689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||1|TWO_SIDED|95.0|-0.58|0.98|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 twice-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 8||0.98|-0.58|1
92272166|NCT00802529|184445699|SUPERIORITY_OR_OTHER|||||||0.271||||||P-value for Drug x Time interaction.|ANOVA|Time: 2 degrees of freedom (Baseline vs 18-24 months) Drug: 2 degrees of freedom (Gentamicin vs steroid)||||||0.271
92272167|NCT00802529|184445700|SUPERIORITY_OR_OTHER|||||||0.964||||||P-value for Drug x Time interaction.|ANOVA|Time: 6 degrees of freedom (Baseline, 1, 2, 6, 12, 18 and 24 months) Drug: 2 degrees of freedom (Gentamicin vs steroid)||||||0.964
92272168|NCT00802529|184445701|SUPERIORITY_OR_OTHER|||||||0.128||||||P-value for Drug x Time interaction.|ANOVA|Time: 5 degrees of freedom (Baseline, 1, 2, 6, 12 and 24 months) Drug: 2 degrees of freedom (Gentamicin vs steroid)||||||0.128
92396083|NCT03192176|184689389|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.21|-0.44||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.44|-1.21|<0.0001
92272169|NCT02413879|184445702|SUPERIORITY||||||<|0.001|||||||McNemar|||||||<0.001
92272170|NCT02413879|184445704|SUPERIORITY||||||<|0.001|||||||McNemar|||||||<0.001
92272171|NCT00337129|184445744|SUPERIORITY_OR_OTHER||Response probability|0.05|||||TWO_SIDED|95.0|0.01|0.17|||two-stage binomial|||Null hypothesis: response probability \< 5%; alternative hypothesis: response probability \> 20%. A two-stage design was used. If no responses among the first 20 patients, the study would be terminated with the conclusion that E7389 is inactive. However, if at least one response was seen then an additional 20 patients would be accrued. Five or more responses out of 40 would be considered evidence that E7389 warranted further study. This design had a significance level of 5% and a power of 92%.||0.17|0.01|
92272172|NCT02613416|184445826|OTHER|||||||0.026||||||The p value was calculated.|Blyth-Still Casella Confidence Interval|||The primary hypothesis for this early phase study was that at least 30% of women would experience a \>5% relative decrease in their breast density after 6 months of treatment with denosumab 120 mg subcutaneous dose once a month.||||0.026
92272173|NCT00390949|184445830|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|Adjustments for community pair, age-group and value of variable at baseline||||||<0.05
92272174|NCT00390949|184445831|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|Adjusted for community pair, age-group and value of variable at baseline||||||<0.05
92272175|NCT00390949|184445832|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|||||||<0.05
92272176|NCT00390949|184445833|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|Adjusted for community pair, age-group and value at baseline||||||<0.05
92272177|NCT00390949|184445834|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|Adjusted for community pair and age-group||||||<0.05
92272178|NCT00390949|184445835|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|Adjusted for community pair, age-group and value at baseline||||||<0.05
92272179|NCT00763269|184445844|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92272180|NCT00763269|184445845|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92272181|NCT00763269|184445846|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92272182|NCT00763269|184445847|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92272183|NCT02229487|184445849|OTHER|||||||0.209|||||||Wilcoxon (Mann-Whitney)|||||||0.209
92272184|NCT04936334|184445850|SUPERIORITY||McNemar|0.03|||<|0.05|TWO_SIDED||||||McNemar|||||||<0.05
92272185|NCT02209272|184445853|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||||||0.82
92272186|NCT02209272|184445854|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||||||0.21
92272187|NCT02209272|184445855|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||0.57
92272188|NCT01347879|184445864|SUPERIORITY_OR_OTHER||Difference in least square means|-7.35||||0.006|TWO_SIDED|95.0|-12.5|-2.2|||ANCOVA|Lesion count at baseline and center as covariates||||-2.2|-12.5|0.006
92272189|NCT01347879|184445865|SUPERIORITY_OR_OTHER||Difference in least square means|-0.6||||0.8527|TWO_SIDED|95.0|-6.6|5.5|||ANCOVA|Lesion count at baseline and center as covariates||||5.5|-6.6|0.8527
92147354|NCT01069354|184179959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.41|||<|0.0001|TWO_SIDED|||||Paired t-test|t-test, 2 sided|||||||<0.0001
92272190|NCT01347879|184445866|SUPERIORITY_OR_OTHER||Difference in least square means|-20.0||||0.0032|TWO_SIDED|95.0|-33.2|-6.8|||ANCOVA|Lesion count at baseline and center as covariates||||-6.8|-33.2|0.0032
92272191|NCT01347879|184445867|SUPERIORITY_OR_OTHER|||||||0.0125||95.0|||||Regression, Logistic|||||||0.0125
92272192|NCT01347879|184445872|SUPERIORITY_OR_OTHER||Difference in least square means|-2.56||||0.7161|TWO_SIDED|95.0|-16.5|11.3|||ANCOVA|Lesion count at baseline and center as covariate||||11.3|-16.5|0.7161
92147355|NCT01069354|184179960|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Binomial proportion, two-sided Fisher's exact test|Fisher Exact|||91 (90.1%) of 101 subjects had a ≥ 2.0 cm lower VAS Score in treatment versus control NLF at Time 0||||<0.0001
92147356|NCT01069354|184179961|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Paired t-test|t-test, 2 sided|||||||<0.0001
92147357|NCT01069354|184179962|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Paired t-test|t-test, 2 sided|||||||<0.0001
92147358|NCT01069354|184179963|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Paired t-test|t-test, 2 sided|||||||<0.0001
92272193|NCT03747939|184445878|SUPERIORITY||Adjusted difference in proportions|18.5||||0.0008|TWO_SIDED|95.0|8.9|28.1|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per Interactive Web Response System (IWRS) data, using Cochran-Mantel-Haenszel (CMH) weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||28.1|8.9|0.0008
92272194|NCT03747939|184445879|SUPERIORITY||Adjusted difference in proportions|18.6||||0.0017|TWO_SIDED|95.0|7.0|30.2|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||30.2|7.0|0.0017
92272195|NCT03747939|184445880|SUPERIORITY||Adjusted difference in proportions|5.1||||0.3539|TWO_SIDED|95.0|-5.8|16.0|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||16.0|-5.8|0.3539
92272196|NCT03747939|184445881|SUPERIORITY||Adjusted difference in proportions|22.1||||0.0003|TWO_SIDED|95.0|10.4|33.7|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||33.7|10.4|0.0003
92335076|NCT03035916|184573270|OTHER|||||||0.314||||||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."|t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.314
92272197|NCT03747939|184445882|SUPERIORITY||Adjusted difference in proportions|11.8||||0.0286|TWO_SIDED|95.0|1.7|22.0|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||22.0|1.7|0.0286
92272198|NCT03747939|184445883|SUPERIORITY||Adjusted difference in proportions|16.3||||0.0022|TWO_SIDED|95.0|6.9|25.8|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||25.8|6.9|0.0022
92272199|NCT03747939|184445884|SUPERIORITY||Difference in LS means|-1.03|||<|0.0001|TWO_SIDED|95.0|-1.48|-0.59|||MMRM||Apremilast - Placebo|Difference in LS means is based MMRM of the change from baseline.||-0.59|-1.48|<0.0001
92272200|NCT03747939|184445885|SUPERIORITY||Adjusted difference in proportions|17.7||||0.0043|TWO_SIDED|95.0|5.7|29.7|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||29.7|5.7|0.0043
92272201|NCT03111407|184445889|EQUIVALENCE|Data analyzed with SAS Enterprise Guided (version 7.15 HF3, SAS lnstitute lnc., Cary, NC). Significance level set with q = 0.05. Continuous data (e.g. age, weight, EQ-5D) were summarized using mean, standard deviation, minimum, median, maximum and number of observations. Comparison between continuous baseline and patient visits were performed using standard statistical tests (e.g., a t-test, Wilcoxon test, or one-way ANOVA (as appropriate) were performed as required to evaluate the difference).||||||0.2342|||||||t-test, 2 sided|||"Hip Knee Angle value 1 year post surgery: Mean+/- SD (N)(Min, Max) 95%C.I (lower, upper)~iAssist group: 179.9 +/-2.9 (44) (171, 185.3)~Conventional group: 178.9 +/-3.9 (26) (167, 185)"||||0.2342
92272202|NCT03111407|184445890|EQUIVALENCE|Data analyzed with SAS Enterprise Guided (version 7.15 HF3, SAS lnstitute lnc., Cary, NC). Significance level set with q = 0.05. Continuous data (e.g. age, weight, EQ-5D) were summarized using mean, standard deviation, minimum, median, maximum and number of observations. Comparison between continuous baseline and patient visits were performed using standard statistical tests (e.g., a t-test, Wilcoxon test, or one-way ANOVA (as appropriate) were performed as required to evaluate the difference).||||||0.4427|||||||t-test, 2 sided|||"Knee Society Score Assessment 1 year post surgery: Mean+/- SD (N)(Min, Max) 95%C.I (lower, upper)~iAssist group: 74.7 +/- 12.5 \[44\] (30.2, 78.0, 89.5), 95% C.I. (70.9, 78.5)~Conventional group: 72.4 +/- 11.6 \[26\] (45.0, 75.2, 90.1), 95% C.I. (67.7, 77.1)"||||0.4427
92147359|NCT01069354|184179964|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Paired t-test|t-test, 2 sided|||||||<0.0001
92272203|NCT03111407|184445891|EQUIVALENCE|Data analyzed with SAS Enterprise Guided (version 7.15 HF3, SAS lnstitute lnc., Cary, NC). Significance level set with q = 0.05. Continuous data (e.g. age, weight, EQ-5D) were summarized using mean, standard deviation, minimum, median, maximum and number of observations. Comparison between continuous baseline and patient visits were performed using standard statistical tests (e.g., a t-test, Wilcoxon test, or one-way ANOVA (as appropriate) were performed as required to evaluate the difference).||||||0.6154|||||||t-test, 2 sided|||Knee Soceity Score Function 1 year post surgery: Mean+/- SD (N)(Min, Max) 95%C.I (lower, upper) iAssist group: 80.5 +/- 13.8 \[44\] (55.0, 80.0, 100.0), 95% C.I. (76.2, 84.7) Conventional group: 78.5 +/- 19.1 \[26\] (40.0, 80.0, 100.0),95% C.I. (70.8, 86.2)||||0.6154
92272204|NCT03111407|184445892|EQUIVALENCE|Data analyzed with SAS Enterprise Guided (version 7.15 HF3, SAS lnstitute lnc., Cary, NC). Significance level set with q = 0.05. Continuous data (e.g. age, weight, EQ-5D) were summarized using mean, standard deviation, minimum, median, maximum and number of observations. Comparison between continuous baseline and patient visits were performed using standard statistical tests (e.g., a t-test, Wilcoxon test, or one-way ANOVA (as appropriate) were performed as required to evaluate the difference).||||||0.4549|||||||t-test, 2 sided|||EQ-5D score 1 year post surgery: Mean+/- SD (N)(Min, Max) 95%C.I (lower, upper) iAssist group: 0.8 +/- 0.2 \[29\] (0.0, 1.0, 1.0), 95% C.I. (0.7, 0.9) Conventional group: 0.8 +/- 0.3 \[20\] (0.1, 0.8, 1.0), 95% C.I. (0.7, 0.9)||||0.4549
92272205|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.94|-0.64||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||statistical analysis at week 52||-0.64|-0.94|<0.0001
92272206|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.91|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.06|-0.76||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||statistical analysis at week 52||-0.76|-1.06|<0.0001
92272207|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.82|-0.52||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||statistical analysis at week 52||-0.52|-0.82|<0.0001
92147360|NCT01069354|184179965|SUPERIORITY_OR_OTHER|||||||0.5663||||||Paired t-test|t-test, 2 sided|||||||0.5663
92147361|NCT01069354|184179966|SUPERIORITY_OR_OTHER|||||||0.3197||||||Paired t-test|t-test, 2 sided|||||||0.3197
92168524|NCT04878354|184226841|SUPERIORITY||Mean Difference (Final Values)|0.86|||<|0.0001|TWO_SIDED|95.0|0.45|1.28|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||1.28|0.45|<0.0001
92272208|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.1245|TWO_SIDED|95.0|-0.27|0.03||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||statistical analysis at week 52||0.03|-0.27|0.1245
92272209|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.0022|TWO_SIDED|95.0|-0.39|-0.09||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||statistical analysis at week 52||-0.09|-0.39|0.0022
92272210|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.79|-0.41||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.41|-0.79|<0.0001
92272211|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.87|-0.49||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.49|-0.87|<0.0001
92272212|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.75|-0.48||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.48|-0.75|<0.0001
92272213|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.83|-0.55||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.55|-0.83|<0.0001
92272214|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.89|-0.59||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.59|-0.89|<0.0001
92272215|NCT01289990|184445927|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.85|-0.55||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.55|-0.85|<0.0001
92272216|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.04|-0.61||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.61|-1.04|<0.0001
92272217|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.11|-0.69||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.69|-1.11|<0.0001
92272218|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.1||0.0322|TWO_SIDED|95.0|-0.41|-0.02||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.02|-0.41|0.0322
92272219|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.1||0.0038|TWO_SIDED|95.0|-0.48|-0.09||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.09|-0.48|0.0038
92272220|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.83|-0.4||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.40|-0.83|<0.0001
92272221|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.9|-0.33||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.33|-0.90|<0.0001
92210012|NCT03249714|184320369|SUPERIORITY||rate ratio|0.0|||<|0.001|TWO_SIDED|95.0|0.0|0.0|||negative binominal regression|Indicates statistical significance (2-sided) at the 0.05 level.||||0.000|0.000|< 0.001
92272222|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.0|-0.44||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.44|-1.00|<0.0001
92272223|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.87|-0.47||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.47|-0.87|<0.0001
92272224|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.83|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-1.04|-0.63||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.63|-1.04|<0.0001
92272225|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.04|-0.57||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.57|-1.04|<0.0001
92272226|NCT01289990|184445928|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.04|-0.56||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.56|-1.04|<0.0001
92272227|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.6|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-6.8|-2.5||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.5|-6.8|<0.0001
92272228|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.2|STANDARD_ERROR_OF_MEAN|1.1||0.0001|TWO_SIDED|95.0|-6.4|-2.1||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.1|-6.4|0.0001
92272229|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.4|STANDARD_ERROR_OF_MEAN|1.1||0.2107|TWO_SIDED|95.0|-3.5|0.8||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.8|-3.5|0.2107
92396084|NCT03192176|184689389|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.37|-0.59||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.59|-1.37|<0.0001
92396085|NCT03192176|184689389|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0322|TWO_SIDED|95.0|-0.81|-0.04||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.04|-0.81|0.0322
92396086|NCT03192176|184689389|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.19||0.0017|TWO_SIDED|95.0|-0.99|-0.23||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.23|-0.99|0.0017
92396087|NCT03192176|184689389|SUPERIORITY||LSMean differencce|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0004|TWO_SIDED|95.0|-1.08|-0.31||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.31|-1.08|0.0004
92396088|NCT03192176|184689390|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.2324|TWO_SIDED|95.0|-0.67|-0.16||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.16|-0.67|0.2324
92396089|NCT03192176|184689390|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0736|TWO_SIDED|95.0|-0.8|0.04||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||0.04|-0.80|0.0736
92396090|NCT03192176|184689390|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.21||0.008|TWO_SIDED|95.0|-0.98|-0.15||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.15|-0.98|0.0080
92396091|NCT03192176|184689390|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.21||0.0028|TWO_SIDED|95.0|-1.07|-0.22||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.22|-1.07|0.0028
92396092|NCT03192176|184689390|SUPERIORITY||LSMean differnce|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.4647|TWO_SIDED|95.0|-0.58|0.26||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||0.26|-0.58|0.4647
92396093|NCT03192176|184689390|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.016|TWO_SIDED|95.0|-0.92|-0.1||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.10|-0.92|0.0160
92210013|NCT03249714|184320370|SUPERIORITY||Rate ratio|0.284||||0.002|TWO_SIDED|95.0|0.13|0.62|||negative binominal regression|||||0.620|0.130|0.002
92210014|NCT03249714|184320371|SUPERIORITY||Rate ratio|0.42||||0.119|TWO_SIDED|95.0|0.141|1.25|||negative binominal regression|||||1.250|0.141|0.119
92272230|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.3|STANDARD_ERROR_OF_MEAN|1.1||0.0033|TWO_SIDED|95.0|-5.4|-1.1||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.1|-5.4|0.0033
92272231|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.1||0.0105|TWO_SIDED|95.0|-5.0|-0.7||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.7|-5.0|0.0105
92396094|NCT03192176|184689390|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0901|TWO_SIDED|95.0|-0.78|0.06||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||0.06|-0.78|0.0901
92396095|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.79||0.0865|TWO_SIDED|95.0|-2.92|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|MMRM: Mixed Model Repeated Measures||Week 1||0.20|-2.92|0.0865
92396096|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.79||0.0009|TWO_SIDED|95.0|-4.22|-1.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.10|-4.22|0.0009
92396097|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.79|<|1e-05|TWO_SIDED|95.0|-5.06|-1.94||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.94|-5.06|<0.00001
92272232|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.4|STANDARD_ERROR_OF_MEAN|1.3||0.0543|TWO_SIDED|95.0|-4.9|0.0||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.0|-4.9|0.0543
92272233|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.9|STANDARD_ERROR_OF_MEAN|1.2||0.0019|TWO_SIDED|95.0|-6.4|-1.5||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.5|-6.4|0.0019
92272234|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.0|STANDARD_ERROR_OF_MEAN|1.0||0.0045|TWO_SIDED|95.0|-5.0|-0.9||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.9|-5.0|0.0045
92272235|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.5|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-6.6|-2.5||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.5|-6.6|<0.0001
92272236|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.9|STANDARD_ERROR_OF_MEAN|1.0||0.0031|TWO_SIDED|95.0|-4.8|-1.0||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.0|-4.8|0.0031
92272237|NCT01289990|184445929|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.5|STANDARD_ERROR_OF_MEAN|1.0||0.0096|TWO_SIDED|95.0|-4.4|-0.6||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.6|-4.4|0.0096
92272238|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.78|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.94|-0.63||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.63|-0.94|<0.0001
92272239|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.89|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.04|-0.73||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.73|-1.04|<0.0001
92272240|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.82|-0.51||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.51|-0.82|<0.0001
92168525|NCT04878354|184226842|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.0002|TWO_SIDED|95.0|0.26|0.82|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.82|0.26|0.0002
92272241|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.131|TWO_SIDED|95.0|-0.28|0.04||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||0.04|-0.28|0.1310
92272242|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.005|TWO_SIDED|95.0|-0.38|-0.07||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.07|-0.38|0.0050
92272243|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.79|-0.4||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.40|-0.79|<0.0001
92396098|NCT03192176|184689391|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|0.8|<|1e-05|TWO_SIDED|95.0|-5.63|-2.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-2.47|-5.63|<0.00001
92272244|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.88|-0.5||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.50|-0.88|<0.0001
92272245|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.75|-0.46||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.46|-0.75|<0.0001
92272246|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.88|-0.58||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.58|-0.88|<0.0001
92272247|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.87|-0.56|||ANCOVA|||||-0.56|-0.87|<0.0001
92272248|NCT01289990|184445930|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.85|-0.53||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.53|-0.85|<0.0001
92272249|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.4|STANDARD_ERROR_OF_MEAN|1.1||0.0025|TWO_SIDED|95.0|-5.5|-1.2||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.2|-5.5|0.0025
92272250|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.4|STANDARD_ERROR_OF_MEAN|1.1||0.0021|TWO_SIDED|95.0|-5.6|-1.2||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.2|-5.6|0.0021
92272251|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.4|STANDARD_ERROR_OF_MEAN|1.1||0.7241|TWO_SIDED|95.0|-1.8|2.6||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||2.6|-1.8|0.7241
92272252|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.1||0.0008|TWO_SIDED|95.0|-5.9|-1.6||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.6|-5.9|0.0008
92272253|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.8|STANDARD_ERROR_OF_MEAN|1.1||0.0007|TWO_SIDED|95.0|-6.0|-1.6||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.6|-6.0|0.0007
92272254|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.0|STANDARD_ERROR_OF_MEAN|1.2||0.0987|TWO_SIDED|95.0|-4.5|0.4||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.4|-4.5|0.0987
92272255|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.2||0.0028|TWO_SIDED|95.0|-6.1|-1.3||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.3|-6.1|0.0028
92272256|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.4|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-6.6|-2.3||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.3|-6.6|<0.0001
92272257|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.1||0.0008|TWO_SIDED|95.0|-5.9|-1.5||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.5|-5.9|0.0008
92272258|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.2|STANDARD_ERROR_OF_MEAN|1.0||0.0213|TWO_SIDED|95.0|-4.1|-0.3||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.3|-4.1|0.0213
92272259|NCT01289990|184445931|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|1.0||0.0288|TWO_SIDED|95.0|-4.1|-0.2||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-4.1|0.0288
92272260|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.7||0.1058|TWO_SIDED|95.0|-2.4|0.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.2|-2.4|0.1058
92272261|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.0109|TWO_SIDED|95.0|-3.1|-0.4||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.4|-3.1|0.0109
92272262|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.8259|TWO_SIDED|95.0|-1.5|1.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.2|-1.5|0.8259
92272263|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.7||0.166|TWO_SIDED|95.0|-2.3|0.4||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.4|-2.3|0.1660
92272264|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.7||0.0212|TWO_SIDED|95.0|-2.9|-0.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-2.9|0.0212
92272265|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.7||0.0076|TWO_SIDED|95.0|-3.4|-0.5||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.5|-3.4|0.0076
92272266|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.7||0.0003|TWO_SIDED|95.0|-4.1|-1.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.2|-4.1|0.0003
92272267|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.7||0.017|TWO_SIDED|95.0|-3.2|-0.3||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.3|-3.2|0.0170
92272268|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.0236|TWO_SIDED|95.0|-3.1|-0.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-3.1|0.0236
92272269|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2523|TWO_SIDED|95.0|-2.0|0.5||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.5|-2.0|0.2523
92272270|NCT01289990|184445932|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.6||0.3494|TWO_SIDED|95.0|-1.9|0.7||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.7|-1.9|0.3494
92272271|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.7||0.1568|TWO_SIDED|95.0|-2.3|0.4||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.4|-2.3|0.1568
92272272|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.7||0.1323|TWO_SIDED|95.0|-2.4|0.3||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.3|-2.4|0.1323
92272273|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.7||0.4327|TWO_SIDED|95.0|-0.8|1.9||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.9|-0.8|0.4327
92272274|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.7||0.0289|TWO_SIDED|95.0|-2.8|-0.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-2.8|0.0289
92272275|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.7||0.0231|TWO_SIDED|95.0|-2.9|-0.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-2.9|0.0231
92272276|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.8||0.0513|TWO_SIDED|95.0|-3.0|0.0||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.0|-3.0|0.0513
92272277|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.8||0.0038|TWO_SIDED|95.0|-3.7|-0.7||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.7|-3.7|0.0038
92272278|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.7||0.0084|TWO_SIDED|95.0|-3.4|-0.5||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.5|-3.4|0.0084
92272279|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.7||0.0677|TWO_SIDED|95.0|-2.8|0.1||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.1|-2.8|0.0677
92272280|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.7||0.0814|TWO_SIDED|95.0|-2.4|0.1||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.1|-2.4|0.0814
92272281|NCT01289990|184445933|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.7||0.1785|TWO_SIDED|95.0|-2.2|0.4||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.4|-2.2|0.1785
92272282|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.22|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.75|-1.69||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.69|-2.75|<0.0001
92272283|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.14|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.66|-1.61||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.61|-2.66|<0.0001
92272284|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.62|STANDARD_ERROR_OF_MEAN|0.27||0.0223|TWO_SIDED|95.0|0.09|1.14||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.14|0.09|0.0223
92272285|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.84|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-3.37|-2.31||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.31|-3.37|<0.0001
92272286|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.75|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-3.28|-2.22|||ANCOVA|||||-2.22|-3.28|<0.0001
92272287|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.09|STANDARD_ERROR_OF_MEAN|0.34|<|0.0001|TWO_SIDED|95.0|-2.76|-1.41||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.41|-2.76|<0.0001
92272288|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.99|STANDARD_ERROR_OF_MEAN|0.34|<|0.0001|TWO_SIDED|95.0|-2.66|-1.32||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.32|-2.66|<0.0001
92272289|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.73|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.27|-1.19||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.19|-2.27|<0.0001
92272290|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.85|-1.76||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.76|-2.85|<0.0001
92272291|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.97|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.48|-1.47||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.47|-2.48|<0.0001
92272292|NCT01289990|184445934|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.01|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.52|-1.5||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.50|-2.52|<0.0001
92272293|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.81|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.35|-1.26||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.26|-2.35|<0.0001
92396099|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.81||0.236|TWO_SIDED|95.0|-2.55|0.63||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.63|-2.55|0.2360
92272294|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.02|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.56|-1.48||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.48|-2.56|<0.0001
92272295|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.54|STANDARD_ERROR_OF_MEAN|0.28||0.0546|TWO_SIDED|95.0|-0.01|1.08||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.08|-0.01|0.0546
92210015|NCT03818204|184320380|OTHER||||||>=|0.46|||||||Regression, Linear|||The effect of angular position was modeled using linear mixed-effects (multiple regression) models. The five angles were randomly mapped for the dependent variable interpalpebral fissure. Because there were repeated measurements on each eye and each participant might respond differently to each angular position, participant and angular position within participant-eye were included as random effects.||||>=0.46
92272296|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.34|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.89|-1.8||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.80|-2.89|<0.0001
92272297|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.56|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-3.1|-2.01||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.01|-3.10|<0.0001
92272298|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.97|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|95.0|-2.69|-1.24||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.24|-2.69|<0.0001
92272299|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.71|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|95.0|-2.43|-0.99||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.99|-2.43|<0.0001
92272300|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.93|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.52|-1.34||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.34|-2.52|<0.0001
92272301|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.19|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.79|-1.6||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.60|-2.79|<0.0001
92272302|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.81|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.34|-1.27||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.27|-2.34|<0.0001
92272303|NCT01289990|184445935|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.64|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.18|-1.11||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.11|-2.18|<0.0001
92272304|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.5||0.0001|TWO_SIDED|95.0|-3.1|-1.0||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.0|-3.1|0.0001
92272305|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.5||0.0015|TWO_SIDED|95.0|-2.8|-0.7||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.7|-2.8|0.0015
92396100|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|-2.4||0.0032|TWO_SIDED|95.0|-3.92|-0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.80|-3.92|0.0032
92272306|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.5||0.5052|TWO_SIDED|95.0|-0.7|1.4||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.4|-0.7|0.5052
92272307|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|-3.5|-1.4||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.4|-3.5|<0.0001
92272308|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.5||0.0001|TWO_SIDED|95.0|-3.1|-1.0||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.0|-3.1|0.0001
92272309|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.5||0.0064|TWO_SIDED|95.0|-2.6|-0.4||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.4|-2.6|0.0064
92272310|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.5||0.0642|TWO_SIDED|95.0|-2.1|0.1||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.1|-2.1|0.0642
92272311|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.0053|TWO_SIDED|95.0|-1.8|-0.3||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.3|-1.8|0.0053
92272312|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.3|-0.9|||ANCOVA|||||-0.9|-2.3|<0.0001
92272313|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.1|-0.6||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.6|-2.1|0.0010
92272314|NCT01289990|184445936|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.4||0.0015|TWO_SIDED|95.0|-2.1|-0.5||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.5|-2.1|0.0015
92272315|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.5||0.0028|TWO_SIDED|95.0|-2.7|-0.6||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.6|-2.7|0.0028
92272316|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.5||0.0019|TWO_SIDED|95.0|-2.8|-0.6||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.6|-2.8|0.0019
92272317|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.6||0.5044|TWO_SIDED|95.0|-0.7|1.5||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.5|-0.7|0.5044
92272318|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6||0.0003|TWO_SIDED|95.0|-3.1|-0.9||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.9|-3.1|0.0003
92272319|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.6||0.0002|TWO_SIDED|95.0|-3.2|-1.0||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.0|-3.2|0.0002
92272320|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.6||0.0109|TWO_SIDED|95.0|-2.5|-0.3||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.3|-2.5|0.0109
92272321|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.6||0.1238|TWO_SIDED|95.0|-1.9|0.2||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.2|-1.9|0.1238
92272322|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.4|-0.8||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.8|-2.4|<0.0001
92272323|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.4||0.0076|TWO_SIDED|95.0|-1.9|-0.3||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.3|-1.9|0.0076
92272324|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.4||0.0049|TWO_SIDED|95.0|-2.1|-0.4||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.4|-2.1|0.0049
92272325|NCT01289990|184445937|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.0178|TWO_SIDED|95.0|-1.9|-0.2||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-1.9|0.0178
92272326|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-32.3|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-37.8|-26.7||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-26.7|-37.8|<0.0001
92396101|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.79||0.0006|TWO_SIDED|95.0|-4.29|-1.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.19|-4.29|0.0006
92272327|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-37.2|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-42.8|-31.7||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-31.7|-42.8|<0.0001
92272328|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-17.3|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-22.9|-11.7||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-11.7|-22.9|<0.0001
92272329|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-15.0|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-20.6|-9.4||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-9.4|-20.6|<0.0001
92272330|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.9|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-25.5|-14.4||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-14.4|-25.5|<0.0001
92272331|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.1|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001|TWO_SIDED|95.0|-35.0|-19.2||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-19.2|-35.0|<0.0001
92272332|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.0|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001|TWO_SIDED|95.0|-38.9|-23.2||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-23.2|-38.9|<0.0001
92272333|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-24.3|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|-29.7|-18.9||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-18.9|-29.7|<0.0001
92272334|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.3|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-32.7|-21.9||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-21.9|-32.7|<0.0001
92272335|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.8|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-33.6|-22.0||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-22.0|-33.6|<0.0001
92272336|NCT01289990|184445938|SUPERIORITY_OR_OTHER||Adjusted mean difference|-28.7|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|-34.5|-22.8||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-22.8|-34.5|<0.0001
92272337|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.7|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-37.4|-25.9||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-25.9|-37.4|<0.0001
92272338|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-34.9|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-40.7|-29.1||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-29.1|-40.7|<0.0001
92272339|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-16.3|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|-22.1|-10.5||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-10.5|-22.1|<0.0001
92272340|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-15.4|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|-21.2|-9.6||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-9.6|-21.2|<0.0001
92272341|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-18.7|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|-24.5|-12.8||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-12.8|-24.5|<0.0001
92272342|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-23.3|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001|TWO_SIDED|95.0|-31.4|-15.3||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-15.3|-31.4|<0.0001
92272343|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.4|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001|TWO_SIDED|95.0|-35.4|-19.4||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-19.4|-35.4|<0.0001
92272344|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-25.1|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-30.5|-19.6||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-19.6|-30.5|<0.0001
92272345|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.4|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-36.9|-25.9||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-25.9|-36.9|<0.0001
92272346|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.0|STANDARD_ERROR_OF_MEAN|3.1|<|0.0001|TWO_SIDED|95.0|-37.0|-24.9||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-24.9|-37.0|<0.0001
92272347|NCT01289990|184445939|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.8|STANDARD_ERROR_OF_MEAN|3.1|<|0.0001|TWO_SIDED|95.0|-37.9|-25.7||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-25.7|-37.9|<0.0001
92272348|NCT00363129|184445940|SUPERIORITY_OR_OTHER|||||||0.43|||||||Chi-squared|||||||0.43
92272349|NCT00363129|184445941|SUPERIORITY_OR_OTHER|||||||0.49|||||||Fisher Exact|||||||0.49
92272350|NCT00363129|184445942|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
92272351|NCT01345058|184445996|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.49|TWO_SIDED|95.0|0.35|1.65|||Chi-squared||Hazard ratio for seizure occurrence for polytherapy relative to monotherapy.|||1.65|0.35|0.49
92272352|NCT01892020|184446007|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.12|STANDARD_ERROR_OF_MEAN|0.27|<|0.001||95.0|-1.66|-0.58||The 2-h PPG increment was analyzed using a normal linear mixed model with period and treatment as fixed effects and subject as a random effect.|Mixed Models Analysis|||Let D be the treatment difference (BIAsp 50 BID + metformin minus BHI 50 BID + metformin) of 2-h PPG increment after a 4-week treatment. The null hypothesis was D = 0 mmol/L. The alternative hypothesis was D ≠ 0 mmol/L. Sample size was determined using a two-sided one sample t-test at a = 0.05 under the assumption of 0.8 mmol/L mean treatment different and 80% power.||-0.58|-1.66|< 0.001
92272353|NCT02149199|184446023|SUPERIORITY||Odds Ratio (OR)|1.14||||0.046|TWO_SIDED|95.0|1.0|1.3|||Regression, Logistic|Repeated measures logistic regression, with treatment, pre-study treatment, region and study week as fixed effects.|An odds ratio greater than 1 favours Symbicort 'as needed'|||1.30|1.00|0.046
92272354|NCT02149199|184446023|NON_INFERIORITY|Non-inferiority analysis based on CI instead of p-value, hence no p-value calculated for this analysis. Lower limit of the 2-sided 95% CI \>=0.8 indicates Symbicort 'as needed' is non-inferior to Pulmicort bid.|Odds Ratio (OR)|0.64|||||TWO_SIDED|95.0|0.57|0.73|||Regression, Logistic|Repeated measures logistic regression with treatment, pre-study treatment, region and study week as fixed effects.||||0.73|0.57|
92272355|NCT02149199|184446024|SUPERIORITY||Hazard Ratio (HR)|0.435|||<|0.001|TWO_SIDED|95.0|0.328|0.577|||Regression, Cox|Cox-regression model with randomised treatment, pre-study treatment, severe exacerbations in the last 12 months (0, \>=1) and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first severe exacerbation.|||0.577|0.328|<0.001
92272356|NCT02149199|184446024|SUPERIORITY||Hazard Ratio (HR)|0.901||||0.524|TWO_SIDED|95.0|0.653|1.242|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first severe exacerbation.|||1.242|0.653|0.524
92272357|NCT02149199|184446025|SUPERIORITY||Hazard Ratio (HR)|0.429|||<|0.001|TWO_SIDED|95.0|0.348|0.528|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first moderate or severe exacerbation.|||0.528|0.348|<0.001
92272358|NCT02149199|184446025|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.436|TWO_SIDED|95.0|0.718|1.153|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first moderate or severe exacerbation.|||1.153|0.718|0.436
92272359|NCT02149199|184446026|SUPERIORITY||Mean Difference (Net)|53.8|||<|0.001|TWO_SIDED|95.0|29.1|78.5|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and (treatment x visit) as fixed, patient as random and baseline FEV1 as continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'. This is the estimate across all treatment visits.|||78.5|29.1|<0.001
92272360|NCT02149199|184446026|SUPERIORITY||Mean Difference (Net)|-54.3|||<|0.001|TWO_SIDED|95.0|-78.8|-29.8|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and (treatment x visit) as fixed, patient as random and baseline FEV1 as continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'. This is the estimate across all treatment visits.|||-29.8|-78.8|<0.001
92272361|NCT02149199|184446027|SUPERIORITY||Mean Difference (Net)|11.95|||<|0.001|TWO_SIDED|95.0|7.89|16.0|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline PEF as a continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'.|||16.00|7.89|<0.001
92272362|NCT02149199|184446027|SUPERIORITY||Mean Difference (Net)|-9.98|||<|0.001|TWO_SIDED|95.0|-14.03|-5.93|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline PEF as a continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'.|||-5.93|-14.03|<0.001
92272363|NCT02149199|184446028|SUPERIORITY||Mean Difference (Net)|10.94|||<|0.001|TWO_SIDED|95.0|6.99|14.9|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline PEF as a continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'.|||14.90|6.99|<0.001
92272364|NCT02149199|184446028|SUPERIORITY||Mean Difference (Net)|-6.23||||0.002|TWO_SIDED|95.0|-10.18|-2.29|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline PEF as a continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'.|||-2.29|-10.18|0.002
92272365|NCT02149199|184446030|SUPERIORITY||Mean Difference (Net)|-0.12|||<|0.001|TWO_SIDED|95.0|-0.18|-0.06|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline asthma symptom score as a continuous covariate.|Mean difference less than 0 favours Symbicort 'as needed'.|||-0.06|-0.18|<0.001
92272366|NCT02149199|184446030|SUPERIORITY||Mean Difference (Net)|0.09||||0.004|TWO_SIDED|95.0|0.03|0.15|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline asthma symptom score as a continuous covariate.|Mean difference less than 0 favours Symbicort 'as needed'.|||0.15|0.03|0.004
92272367|NCT02149199|184446037|SUPERIORITY||Hazard Ratio (HR)|0.413|||<|0.001|TWO_SIDED|95.0|0.343|0.497|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first additional steroids.|||0.497|0.343|<0.001
92272368|NCT02149199|184446037|SUPERIORITY||Hazard Ratio (HR)|0.865||||0.175|TWO_SIDED|95.0|0.701|1.067|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first additional steroids.|||1.067|0.701|0.175
92272369|NCT02149199|184446038|SUPERIORITY||Mean Difference (Net)|-0.154|||<|0.001|TWO_SIDED|95.0|-0.203|-0.105|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and (treatment x visit) as fixed, patient as random and baseline ACQ-5 as continuous covariate|Mean difference less than 0 favours Symbicort 'as needed'.|||-0.105|-0.203|<0.001
92272370|NCT02149199|184446038|SUPERIORITY||Mean Difference (Net)|0.149|||<|0.001|TWO_SIDED|95.0|0.101|0.198|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and (treatment x visit) as fixed, patient as random and baseline ACQ-5 as continuous covariate|Mean difference less than 0 favours Symbicort 'as needed'.|||0.198|0.101|<0.001
92272371|NCT02149199|184446039|SUPERIORITY||Mean Difference (Net)|0.127|||<|0.001|TWO_SIDED|95.0|0.074|0.181|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and treatment x visit as fixed, patient as random and baseline AQLQ(S) as continuous covariate|Mean difference greater than 0 favours Symbicort 'as needed'.|||0.181|0.074|<0.001
92272372|NCT02149199|184446039|SUPERIORITY||Mean Difference (Net)|-0.102|||<|0.001|TWO_SIDED|95.0|-0.155|-0.049|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and treatment x visit as fixed, patient as random and baseline AQLQ(S) as continuous covariate|Mean difference greater than 0 favours Symbicort 'as needed'.|||-0.049|-0.155|<0.001
92272373|NCT02149199|184446041|SUPERIORITY||Rate ratio|0.36|||<|0.001|TWO_SIDED|95.0|0.27|0.49|||Negative binomial model|Negative binomial model with treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates|A rate ratio less than 1 indicates a lower rate of severe exacerbations in the Symbicort 'as needed' treatment group.|||0.49|0.27|<0.001
92272374|NCT02149199|184446041|SUPERIORITY||Rate ratio|0.83||||0.279|TWO_SIDED|95.0|0.59|1.16|||Negative binomial model|Negative binomial model with treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates|A rate ratio less than 1 indicates a lower rate of severe exacerbations in the Symbicort 'as needed' treatment group.|||1.16|0.59|0.279
92272375|NCT02149199|184446042|SUPERIORITY||Rate ratio|0.4|||<|0.001|TWO_SIDED|95.0|0.32|0.49|||Negative binomial model|Negative binomial model with treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates|A rate ratio less than 1 indicates a lower rate of moderate or severe exacerbations in the Symbicort 'as needed' treatment group.|||0.49|0.32|<0.001
92272376|NCT02149199|184446042|SUPERIORITY||Rate ratio|0.95||||0.663|TWO_SIDED|95.0|0.74|1.21|||Negative binomial model|Negative binomial model with treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates|A rate ratio less than 1 indicates a lower rate of moderate or severe exacerbations in the Symbicort 'as needed' treatment group.|||1.21|0.74|0.663
92272377|NCT01083901|184446136|SUPERIORITY_OR_OTHER|||||||0.38|||||||ANCOVA|Changes from baseline to 16 weeks were regressed on the baseline measurement.||The null hypothesis was that the changes in total body fat-free mass in response to resistance exercise training would not be different among the groups. The expected difference in fat-free mass between the Acetaminophen and Placebo groups was 1.8 +/- 1.0% with a 3.6 +/1 1.0% increase in fat-free mass in the Placebo group. The study was designed to achieve 96% power at the 0.05 level with 10 men in the acetaminophen and placebo groups.||||0.38
92335077|NCT03035916|184573270|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.001
92335078|NCT03035916|184573270|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.001
92272378|NCT01083901|184446137|SUPERIORITY_OR_OTHER|||||||0.23|||||||ANCOVA|The change in fat mass was regressed on the baseline measure.||||||0.23
92272379|NCT01083901|184446138|SUPERIORITY_OR_OTHER|||||||0.3|||||||ANCOVA|Change in strength was regressed on baseline measures.||||||0.30
92272380|NCT01083901|184446139|SUPERIORITY_OR_OTHER|||||||0.37|||||||ANCOVA|Changes in strength were regressed on the baseline measure.||||||0.37
92272381|NCT00563524|184446175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5237|||||||ANCOVA|||Baseline: Analysis of covariance (ANCOVA) with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.5237
92272382|NCT00563524|184446175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8463|||||||ANCOVA|||Day 14: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.8463
92272383|NCT00563524|184446175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4596|||||||ANCOVA|||Day 28: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.4596
92272384|NCT00563524|184446175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6345|||||||ANCOVA|||Day 42: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.6345
92272385|NCT00563524|184446175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6235|||||||ANCOVA|||Day 56: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.6235
92272386|NCT00563524|184446176|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3833|||||||ANCOVA|||Baseline: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.3833
92272387|NCT00563524|184446176|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4909|||||||ANCOVA|||Day 14: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.4909
92396102|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.82||0.1318|TWO_SIDED|95.0|-2.86|0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||0.38|-2.86|0.1318
92147362|NCT03138733|184179969|NON_INFERIORITY|The non-inferiority hypothesis test was a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two sided 95% CI for the difference in response rates in the mITT population was greater than -15%, the non-inferiority of ceftobiprole to daptomycin therapy was to be concluded.|Adjusted proportion difference|2.0|||||TWO_SIDED|95.0|-7.1|11.1||||||The observed difference in percentage of responders at PTE (ceftobiprole group minus the daptomycin group) were determined and a two-sided 95% confidence interval (CI) for the observed difference was computed, with adjustment for actual stratum (dialysis status and prior antibacterial treatment use). Cochran-Mantel-Haenszel (CMH) weights were used for the stratum weight in the calculation of the CI||11.1|-7.1|
92272388|NCT00563524|184446176|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22|||||||ANCOVA|||Day 28: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.2200
92272389|NCT00563524|184446176|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4183|||||||ANCOVA|||Day 42: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.4183
92396103|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.83||0.0014|TWO_SIDED|95.0|-4.3|-1.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-1.04|-4.30|0.0014
92272390|NCT00563524|184446176|SUPERIORITY_OR_OTHER_LEGACY|||||||0.465|||||||ANCOVA|||Day 56: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.4650
92272391|NCT00563524|184446177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7051|||||||ANCOVA|||Baseline: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.7051
92272392|NCT00563524|184446177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1072|||||||ANCOVA|||Day 14: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.1072
92272393|NCT00563524|184446177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANCOVA|||Day 28: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.0020
92272394|NCT00563524|184446177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0079|||||||ANCOVA|||Day 42: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.0079
92272395|NCT00563524|184446177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0308|||||||ANCOVA|||Day 56: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.0308
92272396|NCT01467570|184446185|NON_INFERIORITY_OR_EQUIVALENCE|The differences between study groups were considered significant when the p value was \<0.05 or when the 95% CI for RD or MD did not include 0 (equivalent to p \< 0.05).||||||0.28|||||||t-test, 1 sided|||||||0.28
92272397|NCT03712137|184446195|SUPERIORITY||Responder Rate Difference|30.9||||0.0001|TWO_SIDED|95.0|15.33|46.54|||Multiple Imputation|The procedure used to perform Multiple Imputation is PROC MIANALYZE in SAS with normal approximation||||46.54|15.33|0.0001
92272398|NCT03712137|184446198|SUPERIORITY||Mean Difference (Final Values)|45.9|||<|0.0001|TWO_SIDED|95.0|40.45|51.28|||Paired T-test|||||51.28|40.45|<0.0001
92272399|NCT02580318|184446199|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (poor effort)|t-test, 2 sided|||this p value is calculated for poor effort||||<0.0001
92272400|NCT02580318|184446199|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (hyperventilation - immediate)|t-test, 2 sided|||p value calculated for hyperventilation (immediate)||||<0.0001
92272401|NCT02580318|184446199|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (5 minutes after hyperventilation)|t-test, 2 sided|||p value calculated for hyperventilation (after 5 minutes)||||<0.0001
92272402|NCT02580318|184446199|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (10 minutes after hyperventilation)|t-test, 2 sided|||p value calculated for hyperventilation (after 10 minutes)||||<0.0001
92272403|NCT02580318|184446199|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (immediately after drinking water)|t-test, 2 sided|||p value calculated for drinking water (immediate)||||<0.0001
92147363|NCT03138733|184179970|OTHER||Adjusted proportion difference|0.6|||||TWO_SIDED|95.0|-8.3|9.5|||||The two-sided 95% CI was computed using Cochran-Mantel-Haenszel (CMH) weights method adjusted for actual stratum (dialysis status and prior antibacterial treatment use)|||9.5|-8.3|
92272404|NCT02580318|184446199|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (5 minutes after drinking water)|t-test, 2 sided|||p value calculated for drinking water (5 minutes)||||<0.0001
92396104|NCT03192176|184689391|SUPERIORITY||LSMean differencce|-3.2|STANDARD_ERROR_OF_MEAN|0.82||0.0001|TWO_SIDED|95.0|-4.82|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-1.58|-4.82|0.0001
92147364|NCT03138733|184179971|OTHER||Adjusted proportion difference|5.1|||||TWO_SIDED|95.0|-2.9|13.0|||||The two-sided 95% CI was computed using Cochran-Mantel-Haenszel (CMH) weights method adjusted for actual stratum (dialysis status and prior antibacterial treatment use)|||13|-2.9|
92147365|NCT03138733|184179972|OTHER||Adjusted proportion difference|-0.5|||||TWO_SIDED|95.0|-6.2|5.2|||||The two-sided 95% CI was computed using Cochran-Mantel-Haenszel (CMH) weights method adjusted for actual stratum (dialysis status and prior antibacterial treatment use)|||5.2|-6.2|
92147366|NCT03138733|184179973|OTHER||Adjusted proportion difference|0.1|||||TWO_SIDED|95.0|-4.6|4.8|||||The two-sided 95% CI was computed using Cochran-Mantel-Haenszel (CMH) weights method adjusted for actual stratum (dialysis status and prior antibacterial treatment use)|||4.8|-4.6|
92147367|NCT02521285|184180004|SUPERIORITY|||||||0.343|||||||t-test, 2 sided|||||||0.343
92147368|NCT02521285|184180004|SUPERIORITY|||||||0.149|||||||t-test, 2 sided|||||||0.149
92147369|NCT02521285|184180005|SUPERIORITY|||||||0.878|||||||t-test, 2 sided|||||||0.878
92147370|NCT02521285|184180006|SUPERIORITY|||||||0.382|||||||t-test, 2 sided|||||||0.382
92147371|NCT02521285|184180006|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92147372|NCT02521285|184180007|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
92147373|NCT02521285|184180007|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
92147374|NCT02521285|184180008|SUPERIORITY|||||||0.234|||||||t-test, 2 sided|||||||0.234
92147375|NCT02521285|184180008|SUPERIORITY|||||||0.442|||||||t-test, 2 sided|||||||0.442
92147376|NCT02521285|184180009|SUPERIORITY|||||||0.645|||||||t-test, 2 sided|||||||0.645
92147377|NCT02521285|184180009|SUPERIORITY|||||||0.878|||||||t-test, 2 sided|||||||0.878
92147378|NCT02521285|184180017|SUPERIORITY|||||||0.755|||||||t-test, 2 sided|||||||0.755
92147379|NCT02521285|184180018|SUPERIORITY|||||||0.397|||||||t-test, 2 sided|||Difference between arms||||0.397
92147380|NCT02521285|184180018|SUPERIORITY|||||||0.983|||||||t-test, 2 sided|||Difference in arms.||||0.983
92147381|NCT02521285|184180019|SUPERIORITY|||||||0.065|||||||t-test, 2 sided|||||||0.065
92147382|NCT02521285|184180019|SUPERIORITY|||||||0.203|||||||t-test, 2 sided|||||||0.203
92147383|NCT02521285|184180020|SUPERIORITY|||||||0.755|||||||t-test, 2 sided|||||||0.755
92147384|NCT02521285|184180020|SUPERIORITY|||||||0.343|||||||t-test, 2 sided|||||||0.343
92147385|NCT02521285|184180021|SUPERIORITY|||||||0.281|||||||t-test, 2 sided|||||||0.281
92147386|NCT02521285|184180021|SUPERIORITY|||||||0.189|||||||t-test, 2 sided|||||||0.189
92147387|NCT02521285|184180022|SUPERIORITY|||||||0.083|||||||t-test, 2 sided|||||||0.083
92147388|NCT02521285|184180022|SUPERIORITY|||||||0.195|||||||t-test, 2 sided|||||||0.195
92147389|NCT02521285|184180023|SUPERIORITY|||||||0.755|||||||t-test, 2 sided|||||||0.755
92147390|NCT02521285|184180023|SUPERIORITY|||||||0.432|||||||t-test, 2 sided|||||||0.432
92147391|NCT02521285|184180024|SUPERIORITY|||||||0.463|||||||t-test, 2 sided|||||||0.463
92147392|NCT02521285|184180024|SUPERIORITY|||||||0.189|||||||t-test, 2 sided|||||||0.189
92147393|NCT02521285|184180025|SUPERIORITY|||||||0.105|||||||t-test, 2 sided|||||||0.105
92147394|NCT02521285|184180025|SUPERIORITY|||||||0.161|||||||t-test, 2 sided|||||||0.161
92147395|NCT02521285|184180028|SUPERIORITY|||||||0.518|||||||t-test, 2 sided|||||||0.518
92147396|NCT02521285|184180029|SUPERIORITY|||||||0.876|||||||t-test, 2 sided|||||||0.876
92147397|NCT02521285|184180029|SUPERIORITY|||||||0.505|||||||t-test, 2 sided|||||||0.505
92147398|NCT02521285|184180030|SUPERIORITY|||||||0.463|||||||t-test, 2 sided|||||||0.463
92147399|NCT02521285|184180030|SUPERIORITY|||||||0.094|||||||t-test, 2 sided|||||||0.094
92147400|NCT02521285|184180031|SUPERIORITY|||||||0.105|||||||t-test, 2 sided|||||||0.105
92147401|NCT02521285|184180031|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
92147402|NCT05701995|184180044|SUPERIORITY||Odds Ratio (OR)|7.7||||0.0001|TWO_SIDED|95.0|2.5|23.6|||Stratified Cochran-Mantel-Haenszel (CMH)|||Full Analysis Set||23.6|2.5|0.0001
92147403|NCT05701995|184180044|SUPERIORITY||Odds Ratio (OR)|8.5||||0.0003|TWO_SIDED|95.0|2.4|30.4|||Stratified Cochran-Mantel-Haenszel (CMH)|||Full Analysis Set Sub-population||30.4|2.4|0.0003
92147404|NCT05701995|184180045|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0107|TWO_SIDED|95.0|1.2|4.4|||Stratified Cochran-Mantel-Haenszel (CMH)|||Full Analysis Set||4.4|1.2|0.0107
92147405|NCT05701995|184180045|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0175|TWO_SIDED|95.0|1.2|4.7|||Stratified Cochran-Mantel-Haenszel (CMH)|||Full Analysis Set Sub-population||4.7|1.2|0.0175
92147406|NCT05701995|184180046|SUPERIORITY||Adjusted Mean Difference|-2.0|||<|0.0001|TWO_SIDED|95.0|-2.9|-1.2|||Covariance model|||Full Analysis Set||-1.2|-2.9|<0.0001
92147407|NCT05701995|184180046|SUPERIORITY||Adjusted Mean Difference|-2.2|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.3|||Covariance model|||Full Analysis Set Sub-population||-1.3|-3.0|<0.0001
92147408|NCT05701995|184180047|SUPERIORITY||Odds Ratio (OR)|5.9||||0.0004|TWO_SIDED|95.0|2.0|17.4|||Stratified Cochran-Mantel-Haenszel (CMH)|||Full Analysis Set Sub-population||17.4|2.0|0.0004
92147409|NCT00715429|184180054|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27||||||Daily cramp rate at baseline\& on treatment, were calculated as % of each subjects total # of cramps, for comparison among subjects. Change in % cramp rates from baseline to treatment was computed for each subject in vit D and placebo groups.|t-test, 2 sided|T test was used to compare the change in % cramp rate from baseline to treatment for each subject in each treatment group.||||||0.27
92272405|NCT03870737|184446309|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Time: F = 24.81, df = 1/40.||Outcomes fitted via a mixed effects model with time as predictor.||||<.0001
92147410|NCT00406133|184180056|SUPERIORITY_OR_OTHER|||||||0.29||||||"A P value of 0.0167 was considered the significance level for the primary analysis in each age group to maintain an overall type I error rate of 0.05.~P value is for age 8-14 group."|ANCOVA|Performed in each age group and adjusted for the baseline A1c and clinical center.||The study was to test whether the use of CGM will lower A1c at 26 weeks. The estimated sample size was 110 for each age group, which will provide 90% power to detect a difference between treatment groups in each of the age groups assuming a population difference of 0.5%, a two-tailed test with type I error rate of 5%, standard deviation of the 6 month HbA1c values of 0.9, correlation between baseline and 26-week values of 0.58.||||0.29
92147411|NCT00406133|184180056|SUPERIORITY_OR_OTHER|||||||0.52||||||"A P value of 0.0167 was considered the significance level for the primary analysis in each age group to maintain an overall type I error rate of 0.05.~P value for age 15-24 group."|ANCOVA|Performed in each age group and adjusted for the baseline A1c and clinical center.||||||0.52
92147412|NCT00406133|184180056|SUPERIORITY_OR_OTHER||||||<|0.001||||||"A P value of 0.0167 was considered the significance level for the primary analysis in each age group to maintain an overall type I error rate of 0.05.~P value is for age \>=25 group."|ANCOVA|Performed in each age group and adjusted for the baseline A1c and clinical center.||||||<0.001
92147413|NCT00406133|184180057|SUPERIORITY_OR_OTHER|||||||0.16||||||P-value was for the comparison of RT-CGM group and Control group.|ANCOVA|Based on the ranks of the 26wk values using VDW scores, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.||A sample size of 120 subjects was planned to have 90% power to detect a difference in this outcome between treatment groups, assuming a population difference of 29 min/day, standard deviation of the 26-week values of 59 min/day, correlation between baseline and 26-week values of 0.66, an α=0.05, and no more than 15% losses to follow-up.||||0.16
92147414|NCT00406133|184180058|SUPERIORITY_OR_OTHER|||||||0.74||||||P-value is for N(%) of subjects with \>=1 severe hypo event in the 8-14 year age group.|Fisher Exact|||The proportions of patients experiencing one or more severe hypoglycemic events in each treatment group were compared using Fisher's exact test. Incidences of hypoglycemic events were compared and confidence intervals for the treatment group difference calculated using permutation tests. Similar analyses were performed for the subset of hypoglycemic events associated with seizure or coma.||||0.74
92147415|NCT00406133|184180058|SUPERIORITY_OR_OTHER|||||||0.48||||||P-value is for N(%) of subjects with \>=1 severe hypo event in the 15-24 year age group.|Fisher Exact|||||||0.48
92147416|NCT00406133|184180058|SUPERIORITY_OR_OTHER|||||||1||||||P-value is for N(%) of subjects with \>=1 severe hypo event in the \>=25 year age group.|Fisher Exact|||||||1.0
92147417|NCT00406133|184180058|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|95.0||||P-value is for N(%) of subjects with \>=1 severe hypo event with seizure or comma in the 8-14 year age group.|Fisher Exact|||The proportions of patients experiencing one or more severe hypoglycemic events in each treatment group were compared using Fisher's exact test. Incidences of hypoglycemic events were compared and confidence intervals for the treatment group difference calculated using permutation tests. Similar analyses were performed for the subset of hypoglycemic events associated with seizure or coma.||||0.74
92147418|NCT00406133|184180058|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|95.0||||P-value is for N(%) of subjects with \>=1 severe hypo event with seizure or comma in the 15-24 year age group.|Fisher Exact|||The proportions of patients experiencing one or more severe hypoglycemic events in each treatment group were compared using Fisher's exact test. Incidences of hypoglycemic events were compared and confidence intervals for the treatment group difference calculated using permutation tests. Similar analyses were performed for the subset of hypoglycemic events associated with seizure or coma.||||0.48
92147419|NCT00406133|184180058|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|95.0||||P-value is for N(%) of subjects with \>=1 severe hypo event with seizure or comma in the \>=25 year age group.|Fisher Exact|||The proportions of patients experiencing one or more severe hypoglycemic events in each treatment group were compared using Fisher's exact test. Incidences of hypoglycemic events were compared and confidence intervals for the treatment group difference calculated using permutation tests. Similar analyses were performed for the subset of hypoglycemic events associated with seizure or coma.||||1.0
92147420|NCT00406133|184180059|SUPERIORITY_OR_OTHER|||||||0.53||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Continuous glucose monitoring data in both groups following the 26-week visit (blinded use in the control group and unblinded use in the continuous glucose monitoring group) were used to estimate the amount of time per day the glucose level was hypoglycemic (\<=70 mg/dL and \<=50 mg/dL), hyperglycemic (\>180 mg/dL and \>250 mg/dL), and in the target range (71 to 180 mg/dL).||||0.53
92147421|NCT00406133|184180059|SUPERIORITY_OR_OTHER|||||||0.79||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.79
92147422|NCT00406133|184180059|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|||||||<0.001
92147423|NCT00406133|184180060|SUPERIORITY_OR_OTHER|||||||0.58||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Continuous glucose monitoring data in both groups following the 26-week visit (blinded use in the control group and unblinded use in the continuous glucose monitoring group) were used to estimate the amount of time per day the glucose level was hypoglycemic (\<=70 mg/dL and \<=50 mg/dL), hyperglycemic (\>180 mg/dL and \>250 mg/dL), and in the target range (71 to 180 mg/dL).||||0.58
92147424|NCT00406133|184180060|SUPERIORITY_OR_OTHER|||||||0.85||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.85
92396105|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.6|STANDARD_ERROR_OF_MEAN|0.84|<|0.0001|TWO_SIDED|95.0|-5.3|-2.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-2.00|-5.30|<0.0001
92147425|NCT00406133|184180060|SUPERIORITY_OR_OTHER|||||||0.002||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.002
92147426|NCT00406133|184180061|SUPERIORITY_OR_OTHER|||||||0.18||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Continuous glucose monitoring data in both groups following the 26-week visit (blinded use in the control group and unblinded use in the continuous glucose monitoring group) were used to estimate the amount of time per day the glucose level was hypoglycemic (\<=70 mg/dL and \<=50 mg/dL), hyperglycemic (\>180 mg/dL and \>250 mg/dL), and in the target range (71 to 180 mg/dL).||||0.18
92272406|NCT03870737|184446311|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|Time: F = 5.78, df = 1/39.||Outcome was fitted using a mixed model with time as predictor.||||.02
92272407|NCT03870737|184446312|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|Time: F = 14.28, df = 1/39.||Outcome was fitted using a mixed model with time as predictor.||||.0005
92272408|NCT03870737|184446313|SUPERIORITY|||||||0.67|||||||Mixed Models Analysis|Time: F = .19, df = 1/39.||Outcome was fitted using a mixed model with time as predictor.||||.67
92272409|NCT03870737|184446314|SUPERIORITY|||||||0.76|||||||Mixed Models Analysis|Time: F = .08, df = 1/39.||Outcome was fitted using a mixed model with time as predictor.||||.76
92272410|NCT03870737|184446315|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|Time: F = .06, df = 1/39.||Outcome was fitted using a mixed model with time as predictor.||||.80
92272411|NCT03964220|184446332|OTHER||Hazard Ratio (HR)|0.65||||0.044|TWO_SIDED|95.0|0.427|0.99|||Regression, Cox|||The time to first exacerbation was analysis using Cox Proportional Hazards model with group status as the only independent variable assessing the risk of exacerbation across Tio and NonTio groups.||0.990|0.427|0.044
92272412|NCT03964220|184446333|OTHER||||||<|0.0001|||||||Negative binomial regression|||Analysis for the rate of exacerbation between Tio and NonTio groups within 6 months of follow-up.||||< 0.0001
92272413|NCT03964220|184446333|OTHER||||||<|0.0001|||||||Negative binomial regression|||Analysis for the rate of exacerbation between Tio and NonTio groups within 1 year of follow-up.||||< 0.0001
92272414|NCT00467818|184446338|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||t-test, 2 sided|||||||1.0
92272415|NCT00467818|184446339|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.1|TWO_SIDED||||||Mixed Models Analysis|||||||0.10
92396106|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.84||0.0752|TWO_SIDED|95.0|-3.15|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||0.15|-3.15|0.0752
92147427|NCT00406133|184180061|SUPERIORITY_OR_OTHER|||||||0.44||||||P-value for the comparison of treatment groups at 26wks adjusting for the baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.44
92272416|NCT00467818|184446341|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.5|TWO_SIDED||||||Mixed Models Analysis|||||||<0.5
92272417|NCT00467818|184446342|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.5|TWO_SIDED||||||Mixed Models Analysis|||||||0.5
92272418|NCT02216214|184446351|SUPERIORITY||Least Squares Mean (LSM) Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.05|-0.33||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||-0.33|-1.05|<0.001
92272419|NCT02216214|184446352|SUPERIORITY||LSM Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.82|-0.27||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||-0.27|-0.82|<0.001
92272420|NCT02216214|184446353|SUPERIORITY||LSM Difference|13.68|STANDARD_ERROR_OF_MEAN|4.45||0.002|TWO_SIDED|95.0|4.95|22.42||P-value compares the Mirabegron group to the placebo group.|stratified rank ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the stratified rank ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||22.42|4.95|0.002
92272421|NCT02216214|184446354|SUPERIORITY||LSM Difference|-5.15|STANDARD_ERROR_OF_MEAN|1.37|<|0.001|TWO_SIDED|95.0|-7.84|-2.46||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||-2.46|-7.84|<0.001
92272422|NCT02216214|184446355|SUPERIORITY||LSM Difference|2.72|STANDARD_ERROR_OF_MEAN|1.07||0.011|TWO_SIDED|95.0|0.62|4.83||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||4.83|0.62|0.011
92272423|NCT02216214|184446356|SUPERIORITY||LSM Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.46|-0.16||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||-0.16|-0.46|<0.001
92272424|NCT02216214|184446357|SUPERIORITY||||||<|0.001||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||<0.001
92335079|NCT03035916|184573270|OTHER|||||||0.087|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.087
92272425|NCT02216214|184446358|SUPERIORITY||Rate Ratio|0.68|||<|0.001||||||P-value compares the Mirabegron group to the placebo group.|Negative Binomial Regression Model|||The rate ratio for the number of urgency incontinence episodes reported during 3-day diary prior to each visit between mirabegron total group vs placebo group was calculated from a negative binomial regression model including treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and number of valid diary days as the offset variable.||||<0.001
92272426|NCT02216214|184446359|SUPERIORITY||Rate Ratio|0.84||||0.432||||||P-value compares the Mirabegron group to the placebo group.|Negative Binomial Regression Model|||The rate ratio for the number of nocturia episodes reported during 3-day diary prior to each visit between mirabegron total group vs placebo group is calculated from a negative binomial regression model including treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and number of valid diary days as the offset variable.||||0.432
92272427|NCT02216214|184446360|SUPERIORITY|||||||0.317||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||0.317
92272428|NCT02216214|184446361|SUPERIORITY|||||||0.165||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||0.165
92272429|NCT02216214|184446362|SUPERIORITY||||||<|0.001||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||<0.001
92272430|NCT02216214|184446363|SUPERIORITY|||||||0.019||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Coping Subscale Score||||0.019
92272431|NCT02216214|184446363|SUPERIORITY|||||||0.01||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Concern Subscale Score||||0.010
92272432|NCT02216214|184446363|SUPERIORITY|||||||0.006||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Sleep Subscale Score||||0.006
92272433|NCT02216214|184446363|SUPERIORITY|||||||0.614||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Social Subscale Score||||0.614
92272434|NCT02216214|184446364|SUPERIORITY|||||||0.002||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||0.002
92272435|NCT02216214|184446365|SUPERIORITY|||||||0.755||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||0.755
92272436|NCT02216214|184446366|SUPERIORITY||Rate Ratio|0.8||||0.014|TWO_SIDED|95.0|0.67|0.96||P-value compares the Mirabegron group to the placebo group.|Negative Binomial Regression Model|||Week 4: Rate ratio for the number of incontinence episodes reported during 3-day diary prior to each visit between mirabegron group vs placebo group is calculated from a negative binomial regression model including treatment group, sex, age group (\<75, \>=75 years) and country as factors and number of valid diary days as the offset variable.||0.96|0.67|0.014
92272437|NCT02216214|184446366|SUPERIORITY||Rate Ratio|0.81||||0.043|TWO_SIDED|95.0|0.66|0.99||P-value compares the Mirabegron group to the placebo group.|Negative Binomial Regression Model|||Week 8: Rate ratio for the number of incontinence episodes reported during 3-day diary prior to each visit between mirabegron group vs placebo group is calculated from a negative binomial regression model including treatment group, sex, age group (\<75, \>=75 years) and country as factors and number of valid diary days as the offset variable.||0.99|0.66|0.043
92272438|NCT02216214|184446366|SUPERIORITY||Rate Ratio|0.69||||0.002|TWO_SIDED|95.0|0.54|0.87||P-value compares the Mirabegron group to the placebo group.|Negative Binomial Regression Model|||EOT: Rate ratio for the number of incontinence episodes reported during 3-day diary prior to each visit between mirabegron group vs placebo group is calculated from a negative binomial regression model including treatment group, sex, age group (\<75, \>=75 years) and country as factors and number of valid diary days as the offset variable.||0.87|0.54|0.002
92272439|NCT02216214|184446368|SUPERIORITY||Odds Ratio (OR)|1.5||||0.005||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.005
92335080|NCT03035916|184573270|OTHER|||||||0.023|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.023
92335081|NCT03035916|184573270|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.001
92335082|NCT03035916|184573271|OTHER|||||||0.384|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.384
92335083|NCT03035916|184573271|OTHER|||||||0.53|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.530
92272440|NCT02216214|184446369|SUPERIORITY||Odds Ratio (OR)|1.775|||<|0.001||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||<0.001
92335084|NCT03035916|184573271|OTHER|||||||0.819|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.819
92335085|NCT03035916|184573271|OTHER|||||||0.108|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.108
92335086|NCT03035916|184573271|OTHER|||||||0.667|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.667
92335087|NCT03035916|184573271|OTHER|||||||0.046|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.046
92272441|NCT02216214|184446370|SUPERIORITY||Odds Ratio (OR)|1.501||||0.012||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.012
92272442|NCT02216214|184446371|SUPERIORITY||Odds Ratio (OR)|1.39||||0.034||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||HRQL Subscale - Coping. Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.034
92272443|NCT02216214|184446371|SUPERIORITY||Odds Ratio (OR)|1.327||||0.07||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||HRQL Subscale - Concern. Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.070
92272444|NCT02216214|184446371|SUPERIORITY||Odds Ratio (OR)|1.452||||0.012||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||HRQL Subscale - Sleep. Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.012
92272445|NCT02216214|184446371|SUPERIORITY||Odds Ratio (OR)|1.116||||0.602||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||HRQL Subscale - Social. Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.602
92272446|NCT02216214|184446372|SUPERIORITY||Odds Ratio (OR)|1.634||||0.001||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.001
92272447|NCT02216214|184446373|SUPERIORITY||Odds Ratio (OR)|1.597||||0.003||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.003
92272448|NCT02216214|184446375|SUPERIORITY|||||||0.471||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||0.471
92272449|NCT05354206|184446381|SUPERIORITY||Mean Difference (Final Values)|0.405|STANDARD_DEVIATION|0.285|<|0.05|TWO_SIDED|||||p-values have not been adjusted for multiple comparisons|t-test, 2 sided||Difference of RST from 1 for hip range of motion task without stimulation.|"Reticulospinal tract (RST) contribution computed as RST = (visual - startle)/(visual - auditory) reaction times, where a RST value greater than 1 would indicate a significant contribution of the reticulospinal tract for a given task.~A one sample t-test (or Wilcoxon signed-rank test for non-normally distributed data) was used to test the hypothesis that the RST contribution for a given movement was significantly greater than 1."||||<0.05
92272450|NCT00713830|184446384|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001|TWO_SIDED|95.0|-0.867|-0.621||Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0, \>=8.0%), metformin use (yes, no), country as fixed effects, baseline HbA1c as covariate.|ANCOVA|||To detect a difference of 0.5% (or 0.4%) in change from baseline to Week 24 in HbA1c between lixisenatide and placebo, 570 patients in lixisenatide arm and 285 in placebo arm would provide a power of 99% (or 98%) assuming common standard deviation of 1.3% with a 2-sided test at 5% significance level.||-0.621|-0.867|<0.0001
92272451|NCT01676311|184446400|SUPERIORITY|||||||0.38||||||For each permutation of the data, relevant result was saved and the corresponding p-value represents the proportion of results at least as extreme as observed in the original data.|Regression, Linear|||Regression analysis was run incorporating group, CVLT-II-total learning score at baseline and week 12, and covariates (Beck Depression Index \[BDI\], time post-injury, British Columbia Postconcussion Symptom Inventory \[BC-PSI\]). Regression analyses were repeated, permuting data observations for each outcome. The BDI and BC-PSI are covariates in the regression model and not pre-specified Primary and Secondary Outcome Measures.||||0.38
92272452|NCT01676311|184446400|SUPERIORITY|||||||0.38||||||For each permutation of the data, relevant result was saved and the corresponding p-value represents the proportion of results at least as extreme as observed in the original data.|Regression, Linear|||Regression analysis was run incorporating group (Huperzine A, placebo), baseline CVLT-II-short delay free recall (SDFR) score, outcome (CVLT-II-SDFR at week 12) and covariates (Beck Depression Index, time post-injury, British Columbia Postconcussion Symptom Inventory). Regression analyses were repeated, permuting data observations for each outcome i.e. we permuted the labels (Huperzine A or placebo) among the data observations and re-ran the regression.||||0.38
92272453|NCT01676311|184446400|SUPERIORITY|||||||0.42||||||For each permutation of the data, relevant result was saved and the corresponding p-value represents the proportion of results at least as extreme as observed in the original data.|Regression, Linear|||Regression analysis was run incorporating group (Huperzine A, placebo), baseline CVLT-II-long delay free recall (LDFR) score, outcome (CVLT-II-LDFR at week 12) and covariates (Beck Depression Index, time post-injury, British Columbia Postconcussion Symptom Inventory). Regression analyses were repeated, permuting data observations for each outcome i.e. we permuted the labels (Huperzine A or placebo) among the data observations and re-ran the regression.||||0.42
92272454|NCT01676311|184446403|SUPERIORITY|||||||0.48||||||A chi-square test with factors of group (Huperzine A, placebo) and occurrence of seizure (yes, no) was performed. A permutation test was the used to assess the effect of Huperzine A on the prevalence of seizures.|Chi-squared test and permutation test|||||||0.48
92272455|NCT01676311|184446404|SUPERIORITY|||||||0.44||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of behavioral side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of behavioral side effects.|Chi-squared test and permutation test|||Behavioral side effects statistical analysis||||0.44
92272456|NCT01676311|184446404|SUPERIORITY|||||||0.81||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of cardiac-respiratory side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects.|Chi-squared test and permutation test|||Cardiac-respiratory side effects statistical analysis||||0.81
92335088|NCT03035916|184573271|OTHER|||||||0.006|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.006
92272457|NCT01676311|184446404|SUPERIORITY|||||||0.81||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of dermatological side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of dermatological side effects.|Chi-squared test and permutation test|||Dermatological side effects statistical analysis||||0.81
92272458|NCT01676311|184446404|SUPERIORITY|||||||0.73||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of gastrointestinal side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects.|Chi-squared test and permutation test|||Gastrointestinal side effects statistical analysis||||0.73
92272459|NCT01676311|184446404|SUPERIORITY|||||||0.54||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of genitourinary/neurological side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects|Chi-squared test and permutation test|||Genitourinary/neurological side effects statistical analysis||||0.54
92272460|NCT01676311|184446404|SUPERIORITY|||||||0.27||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of hematological side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects.|Chi-squared test and permutation test|||Hematological side effects statistical analysis||||0.27
92272461|NCT01676311|184446404|SUPERIORITY|||||||0.41||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of musculoskeletal side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects.|Chi-squared test and permutation test|||Musculoskeletal side effects statistical analysis||||0.41
92272462|NCT01676311|184446404|SUPERIORITY|||||||1||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of neurological side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects.|Chi-squared test and permutation test|||Neurological side effects statistical analysis||||1.00
92272463|NCT02164539|184446428|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103||||0.024|TWO_SIDED|95.0|0.014|0.193|||Final step dose response model|||||0.193|0.014|0.024
92272464|NCT02164539|184446428|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103||||0.024|TWO_SIDED|95.0|0.014|0.193|||Final step dose response model|||||0.193|0.014|0.024
92272465|NCT02164539|184446428|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103||||0.024|TWO_SIDED|95.0|0.014|0.193|||Final step dose response model|||||0.193|0.014|0.024
92272466|NCT02164539|184446428|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103||||0.024|TWO_SIDED|95.0|0.014|0.193|||Final step dose response model|||||0.193|0.014|0.024
92272467|NCT02164539|184446428|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.073||||0.152|TWO_SIDED|95.0|-0.027|0.172|||Final dose response model|||||0.172|-0.027|0.152
92272468|NCT02164539|184446429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.01|TWO_SIDED|95.0|-1.7|-0.2|||ANCOVA|||||-0.2|-1.7|0.010
92272469|NCT02164539|184446429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.004|TWO_SIDED|95.0|-1.9|-0.4|||ANCOVA||Statistical analysis presented for daily rescue medication use.|||-0.4|-1.9|0.004
92272470|NCT02164539|184446429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.083|TWO_SIDED|95.0|-1.4|0.1|||ANCOVA||Statistical analysis presented for daily rescue medication use.|||0.1|-1.4|0.083
92272471|NCT02164539|184446429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.014|TWO_SIDED|95.0|-1.5|-0.2|||ANCOVA||Statistical analysis presented for daily rescue medication use.|||-0.2|-1.5|0.014
92272472|NCT02164539|184446429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.031|TWO_SIDED|95.0|-1.4|-0.1|||ANCOVA||Statistical analysis presented for daily rescue medication use.|||-0.1|-1.4|0.031
92272473|NCT02164539|184446430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.1|||<|0.001|TWO_SIDED|95.0|-4.6|-1.7|||ANCOVA|||||-1.7|-4.6|<0.001
92272474|NCT02164539|184446430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0|||<|0.001|TWO_SIDED|95.0|-4.5|-1.6|||ANCOVA|||||-1.6|-4.5|<0.001
92272475|NCT02164539|184446430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.007|TWO_SIDED|95.0|-3.4|-0.6|||ANCOVA|||||-0.6|-3.4|0.007
92272476|NCT02164539|184446430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.002|TWO_SIDED|95.0|-3.2|-0.7|||ANCOVA|||||-0.7|-3.2|0.002
92272477|NCT02164539|184446430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.009|TWO_SIDED|95.0|-2.9|-0.4|||ANCOVA|||||-0.4|-2.9|0.009
92272478|NCT02164539|184446431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.1||||0.004||95.0|5.9|30.3|||ANCOVA|||||30.3|5.9|0.004
92272479|NCT02164539|184446431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.8|||<|0.001|TWO_SIDED|95.0|9.4|34.1|||ANCOVA|||||34.1|9.4|<0.001
92272480|NCT02164539|184446431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.7||||0.001|TWO_SIDED|95.0|7.7|31.7|||ANCOVA|||||31.7|7.7|0.001
92272481|NCT02164539|184446431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.8|||<|0.001|TWO_SIDED|95.0|14.1|35.4|||ANCOVA|||||35.4|14.1|<0.001
92272482|NCT02164539|184446431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.5|||<|0.001|TWO_SIDED|95.0|8.0|29.1|||ANCOVA|||||29.1|8.0|<0.001
92272483|NCT02164539|184446432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.045||||0.264|TWO_SIDED|95.0|-0.034|0.125|||ANCOVA|||||0.125|-0.034|0.264
92272484|NCT02164539|184446432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.328|TWO_SIDED|95.0|-0.041|0.121|||ANCOVA|||||0.121|-0.041|0.328
92272485|NCT02164539|184446432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.025||||0.534|TWO_SIDED|95.0|-0.054|0.103|||ANCOVA|||||0.103|-0.054|0.534
92272486|NCT02164539|184446432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.005||||0.895|TWO_SIDED|95.0|-0.065|0.075|||ANCOVA|||||0.075|-0.065|0.895
92272487|NCT02164539|184446432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.076||||0.031|TWO_SIDED|95.0|0.007|0.146|||ANCOVA|||||0.146|0.007|0.031
92272488|NCT02164539|184446433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.088||||0.019|TWO_SIDED|95.0|-0.162|-0.014|||ANCOVA|||||-0.014|-0.162|0.019
92272489|NCT02164539|184446433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.091||||0.017|TWO_SIDED|95.0|-0.165|-0.016|||ANCOVA|||||-0.016|-0.165|0.017
92272490|NCT02164539|184446433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.089||||0.017|TWO_SIDED|95.0|-0.162|-0.016|||ANCOVA|||||-0.016|-0.162|0.017
92272491|NCT02164539|184446433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.066|TWO_SIDED|95.0|-0.124|0.004|||ANCOVA|||||0.004|-0.124|0.066
92272492|NCT02164539|184446433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.163|||<|0.001|TWO_SIDED|95.0|-0.227|-0.099|||ANCOVA|||||-0.099|-0.227|<0.001
92272493|NCT01255722|184446434|NON_INFERIORITY_OR_EQUIVALENCE|The clinical non-inferiority margin was set to -10% maximum difference with the best comparator (i.e. iopromide).|Mean Difference (Final Values)|-0.033||||0.05|TWO_SIDED|95.0|-0.088|0.021|||Chi-squared|||Iobitridol was compared to the best of the two comparators. The two-sided 95% confidence interval (CI) of the difference between both proportions (Iobitridol - Comparator) was computed and the lower limit of the CI compared to the clinical non-inferiority limit in the study. The non-inferiority of iobitridol over the best comparator was established if the lower limit of the two-sided 95% CI was equal to or higher than the clinical non-inferiority limit.||0.021|-0.088|0.05
92272494|NCT01255722|184446435|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Fisher Exact|||||||0.750
92272495|NCT01255722|184446437|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Fisher Exact|||||||0.001
92272496|NCT01255722|184446438|SUPERIORITY_OR_OTHER|||||||0.109|TWO_SIDED||||||Fisher Exact|||||||0.109
92272497|NCT01255722|184446439|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Fisher Exact|||||||0.09
92272498|NCT03398928|184446440|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92272499|NCT03398928|184446441|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92272500|NCT03398928|184446444|SUPERIORITY|||||||0.002||||||The statistical analysis applies to all the rows|Chi-squared|||||||0.002
92272501|NCT03398928|184446445|SUPERIORITY|||||||0.253|||||||Wilcoxon (Mann-Whitney)|||||||0.253
92272502|NCT04529499|184446451|SUPERIORITY|||||||0.67|||||||Log Rank|||||||0.67
92272503|NCT04529499|184446451|SUPERIORITY||Cox Proportional Hazard|0.991|||||TWO_SIDED|95.0|0.767|1.28|||||Favipiravir + supportive care in numerator and Placebo+ Supportive care in denominator for CPH ratio analysis|||1.280|0.767|
92272504|NCT04529499|184446452|SUPERIORITY|||||||0.34|||||||Fisher Exact|||||||0.34
92272505|NCT01494649|184446470|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1||||0.2294|TWO_SIDED|95.0|-0.26|0.06||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|The model included treatment as a fixed factor and basline Schiff score as a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favoured stannous fluoride toothpaste.|Null hypothesis is no difference between treatments. Tests were 2-sided.||0.06|-0.26|0.2294
92272506|NCT01494649|184446471|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.12||||0.1792||95.0|-0.3|0.06||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment was a fixed factor and baseline Schiff Sensitivity Score was a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favored stannous fluoride toothpaste.|Null hypothesis was no difference between treatments. Tests were 2-sided.||0.06|-0.30|0.1792
92272507|NCT01494649|184446472|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.52|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.3||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment was a fixed factor and baseline Schiff Sensitivity Score was a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favored stannous fluoride toothpaste.|Null hypothesis was no difference between treatments. Tests were 2-sided.||-0.30|-0.74|<0.0001
92272508|NCT01494649|184446473|SUPERIORITY_OR_OTHER||Mean adjusted difference|-0.08||||0.9445|TWO_SIDED|95.0|-2.49|2.32||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment was a fixed factor and baseline Tactile Threshold score was a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favored stannous fluoride toothpaste.|Null hypothesis was no difference between treatments. Tests were 2-sided.||2.32|-2.49|0.9445
92272509|NCT01494649|184446474|SUPERIORITY_OR_OTHER||Adjusted mean|-2.07||||0.22|TWO_SIDED|95.0|-5.38|1.25||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment was a fixed factor and baseline tactile threshold score was a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favored stannous fluoride toothpaste.|Null hypothesis was no difference between treatments. Tests were 2-sided.||1.25|-5.38|0.220
92272510|NCT01494649|184446475|SUPERIORITY_OR_OTHER||Mean adjusted difference|8.69||||0.0004|TWO_SIDED|95.0|3.96|13.43||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment was a fixed factor and baseline tactile threshold score was a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favored stannous fluoride toothpaste.|Null hypothesis was no difference between treatments. Tests were 2-sided.||13.43|3.96|0.0004
92272511|NCT03162354|184446563|OTHER||Odds Ratio (OR)|0.64||||0.11|TWO_SIDED|95.0|0.37|1.11||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|We powered this hypothesis to detect a 17% increase (from 73% to 90%) in higher risk patients evaluated thoroughly for abuse at intervention sites, compared to baseline in prior PediBIRN studies. Generalized linear mixed-effects models were adopted to analyze 1,000 Monte Carlo datasets from simulation. For the target sample size of 304 higher risk patients (152 in each arm), the proportion of simulated datasets that yielded a statistically significant result for the primary hypothesis was 95.7%.||1.11|0.37|0.11
92272512|NCT03162354|184446564|OTHER||Odds Ratio (OR)|0.69||||0.49|TWO_SIDED|95.0|0.24|1.98||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||1.98|0.24|0.49
92272513|NCT03162354|184446565|OTHER||Odds Ratio (OR)|1.88||||0.22|TWO_SIDED|95.0|0.69|5.13||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||5.13|0.69|0.22
92272514|NCT03162354|184446566|OTHER||Odds Ratio (OR)|0.48||||0.01|TWO_SIDED|95.0|0.27|0.85||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||0.85|0.27|0.01
92272515|NCT03162354|184446567|OTHER||Odds Ratio (OR)|1.09||||0.84|TWO_SIDED|95.0|0.46|2.6||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||2.60|0.46|0.84
92272516|NCT03162354|184446568|OTHER||Odds Ratio (OR)|1.84||||0.05|TWO_SIDED|95.0|1.0|3.38||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||3.38|1.00|0.05
92272517|NCT03162354|184446569|OTHER||Odds Ratio (OR)|1.22||||0.71|TWO_SIDED|95.0|0.43|3.49||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||3.49|0.43|0.71
92272518|NCT03162354|184446570|OTHER||Odds Ratio (OR)|1.04||||0.86|TWO_SIDED|95.0|0.7|1.53||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||1.53|0.70|0.86
92272519|NCT03162354|184446571|OTHER||Odds Ratio (OR)|2.02||||0.01|TWO_SIDED|95.0|1.16|3.52||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from baseline prior studies to the cluster randomized trial|||3.52|1.16|0.01
92272520|NCT03162354|184446572|OTHER||Odds Ratio (OR)|0.42|||<|0.001|TWO_SIDED|95.0|0.26|0.67||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from baseline in prior studies to the cluster randomized trial.|||0.67|0.26|<.001
92272521|NCT03162354|184446573|OTHER||Odds Ratio (OR)|0.46||||0.14|TWO_SIDED|95.0|0.16|1.31||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from baseline in prior PediBIRN studies to the clinical trial.|||1.31|0.16|0.14
92272522|NCT03162354|184446575|OTHER||Odds Ratio (OR)|0.74||||0.57|TWO_SIDED|95.0|0.27|2.05||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||2.05|0.27|0.57
92272523|NCT03162354|184446576|OTHER||Odds Ratio (OR)|0.63||||0.04|TWO_SIDED|95.0|0.4|0.99||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||0.99|0.40|0.04
92272524|NCT02508649|184446577|SUPERIORITY||Treatment difference|0.55||||0.3015|TWO_SIDED|95.0|-1.34|2.43|||van Elteren test|||The primary endpoint was analyzed using a van Elteren test. The analysis included a test of superiority using a two-sided 5% significance level.||2.43|-1.34|0.3015
92272525|NCT02508649|184446578|SUPERIORITY||Odds Ratio (OR)|1.049||||0.7694|TWO_SIDED|95.0|0.762|1.445|||Regression, Logistic||An odds ratio \< 1 in proportion of subjects dying indicates lower mortality in the selepressin group.|Mortality was analyzed using a logistic regression model with the individual sequential organ failure assessment (SOFA) scores and age as covariates and treatment arm as factor.||1.445|0.762|0.7694
92272526|NCT02508649|184446579|SUPERIORITY||Treatment difference|0.29||||0.8458|TWO_SIDED|95.0|-2.07|2.65|||van Elteren test|||This endpoint was analyzed using a van Elteren test. The analysis was a test of superiority using a two-sided 5% significance level.||2.65|-2.07|0.8458
92272527|NCT02508649|184446580|SUPERIORITY||Treatment difference|0.49||||0.4124|TWO_SIDED|95.0|-1.22|2.19|||van Elteren test|||This endpoint was analyzed using a van Elteren test. The analysis was a test of superiority using a two-sided 5% significance level.||2.19|-1.22|0.4124
92272528|NCT02508649|184446587|OTHER||Treatment difference|-0.51||||0.2009|TWO_SIDED|95.0|-1.3|0.27|||ANCOVA|||Overall score using a modified version of the SOFA on Day 1||0.27|-1.30|0.2009
92272529|NCT02508649|184446587|OTHER||Treatment difference|0.11||||0.7894|TWO_SIDED|95.0|-0.68|0.9|||ANCOVA|||Overall score using a modified version of the SOFA on Day 3||0.90|-0.68|0.7894
92272530|NCT02508649|184446587|OTHER||Treatment difference|0.55||||0.1888|TWO_SIDED|95.0|-0.27|1.37|||ANCOVA|||Overall score using a modified version of the SOFA on Day 7||1.37|-0.27|0.1888
92272531|NCT02508649|184446587|OTHER||Treatment difference|-0.08||||0.2997|TWO_SIDED|95.0|-0.24|0.07|||ANCOVA|||Individual organ (respiratory) score using a modified version of the SOFA on Day 1||0.07|-0.24|0.2997
92272532|NCT02508649|184446587|OTHER||Treatment difference|-0.03||||0.6796|TWO_SIDED|95.0|-0.19|0.12|||ANCOVA|||Individual organ (respiratory) score using a modified version of the SOFA on Day 3||0.12|-0.19|0.6796
92272533|NCT02508649|184446587|OTHER||Treatment difference|0.03||||0.7467|TWO_SIDED|95.0|-0.14|0.19|||ANCOVA|||Individual organ (respiratory) score using a modified version of the SOFA on Day 7||0.19|-0.14|0.7467
92272534|NCT02508649|184446587|OTHER||Treatment difference|-0.42||||0.0003|TWO_SIDED|95.0|-0.65|-0.19|||ANCOVA|||Individual organ (cardiovascular) score using a modified version of the SOFA on Day 1||-0.19|-0.65|0.0003
92272535|NCT02508649|184446587|OTHER||Treatment difference|-0.25||||0.0349|TWO_SIDED|95.0|-0.49|-0.02|||ANCOVA|||Individual organ (cardiovascular) score using a modified version of the SOFA on Day 3||-0.02|-0.49|0.0349
92272536|NCT02508649|184446587|OTHER||Treatment difference|-0.14||||0.2787|TWO_SIDED|95.0|-0.39|0.11|||ANCOVA|||Individual organ (cardiovascular) score using a modified version of the SOFA on Day 7||0.11|-0.39|0.2787
92272537|NCT02508649|184446587|OTHER||Treatment difference|-0.05||||0.6476|TWO_SIDED|95.0|-0.26|0.16|||ANCOVA|||Individual organ (renal) score using a modified version of the SOFA on Day 1||0.16|-0.26|0.6476
92272538|NCT02508649|184446587|OTHER||Treatment difference|0.08||||0.4313|TWO_SIDED|95.0|-0.13|0.29|||ANCOVA|||Individual organ (renal) score using a modified version of the SOFA on Day 3||0.29|-0.13|0.4313
92272539|NCT02508649|184446587|OTHER||Treatment difference|0.17||||0.1334|TWO_SIDED|95.0|-0.05|0.39|||ANCOVA|||Individual organ (renal) score using a modified version of the SOFA on Day 7||0.39|-0.05|0.1334
92272540|NCT02508649|184446587|OTHER||Treatment difference|0.12||||0.2126|TWO_SIDED|95.0|-0.07|0.3|||ANCOVA|||Individual organ (coagulation) score using a modified version of the SOFA on Day 1||0.30|-0.07|0.2126
92272541|NCT02508649|184446587|OTHER||Treatment Difference|0.23||||0.0174|TWO_SIDED|95.0|0.04|0.41|||ANCOVA|||Individual organ (coagulation) score using a modified version of the SOFA on Day 3||0.41|0.04|0.0174
92272542|NCT02508649|184446587|OTHER||Treatment difference|0.23||||0.0194|TWO_SIDED|95.0|0.04|0.43|||ANCOVA|||Individual organ (coagulation) score using a modified version of the SOFA on Day 7||0.43|0.04|0.0194
92272543|NCT02508649|184446587|OTHER||Treatment difference|-0.15||||0.1284|TWO_SIDED|95.0|-0.35|0.04|||ANCOVA|||Individual organ (liver) score using a modified version of the SOFA on Day 1||0.04|-0.35|0.1284
92272544|NCT02508649|184446587|OTHER||Treatment difference|-0.05||||0.6542|TWO_SIDED|95.0|-0.25|0.15|||ANCOVA|||Individual organ (liver) score using a modified version of the SOFA on Day 3||0.15|-0.25|0.6542
92272545|NCT02508649|184446587|OTHER||Treatment difference|0.17||||0.1079|TWO_SIDED|95.0|-0.04|0.38|||ANCOVA|||Individual organ (liver) score using a modified version of the SOFA on Day 7||0.38|-0.04|0.1079
92272546|NCT02508649|184446588|OTHER||Odds Ratio (OR)|1.4||||0.063|TWO_SIDED|95.0|0.98|2.0|||Regression, Logistic||Odds ratio is equal to Selepressin pooled/Placebo.|Percentage of subjects with new organ dysfunction up to Day 7||2.00|0.98|0.0630
92272547|NCT02508649|184446588|OTHER||Odds Ratio (OR)|1.28||||0.1875|TWO_SIDED|95.0|0.89|1.86|||Regression, Logistic||Odds ratio is equal to Selepressin pooled/Placebo.|Percentage of subjects with new organ dysfunction up to Day 30||1.86|0.89|0.1875
92272548|NCT02508649|184446588|OTHER||Odds Ratio (OR)|1.14||||0.4382|TWO_SIDED|95.0|0.82|1.58|||Regression, Logistic||Odds ratio is equal to Selepressin pooled/Placebo.|Percentage of subjects with new organ failure up to Day 7||1.58|0.82|0.4382
92272549|NCT02508649|184446588|OTHER||Odds Ratio (OR)|1.01||||0.9529|TWO_SIDED|95.0|0.73|1.39|||Regression, Logistic||Odds ratio is equal to Selepressin pooled/Placebo.|Percentage of subjects with new organ failure up to Day 30||1.39|0.73|0.9529
92272550|NCT00446134|184446597|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus ribavirin using a non-inferiority margin of 12%.|Other|12.75|STANDARD_DEVIATION|5.0||0.167|TWO_SIDED|95.0|-3.65|29.15|||Fisher Exact|||||29.15|-3.65|0.167
92272551|NCT00446134|184446597|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus ribavirin using a non-inferiority margin of 12%.|Difference of Proportion|5.71|STANDARD_DEVIATION|5.0||0.611|TWO_SIDED|95.0|-10.76|22.19|||Fisher Exact|||||22.19|-10.76|0.611
92272552|NCT00446134|184446597|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus ribavirin using a non-inferiority margin of 12%.|Difference of Proportion|2.98|STANDARD_DEVIATION|5.0||0.736|TWO_SIDED|95.0|-13.67|19.63|||Fisher Exact|||||19.63|-13.67|0.736
92272553|NCT00446134|184446597|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus taribavirin using a non-inferiority margin of 12%.|Difference of Proportion|7.04|STANDARD_DEVIATION|5.0||0.485|TWO_SIDED|95.0|-9.28|23.35|||Fisher Exact|||||23.35|-9.28|0.485
92272554|NCT00446134|184446597|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus taribavirin using a non-inferiority margin of 12%.|Difference of Proportion|9.77|STANDARD_DEVIATION|5.0||0.295|TWO_SIDED|95.0|-6.72|26.26|||Fisher Exact|||||26.26|-6.72|0.295
92272555|NCT00446134|184446597|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus taribavirin using a non-inferiority margin of 12%.|Difference of Proportion|2.73|STANDARD_DEVIATION|5.0||0.864|TWO_SIDED|95.0|-13.84|19.3|||Fisher Exact|||||19.3|-13.84|0.864
92272556|NCT00446134|184446598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.4|STANDARD_DEVIATION|5.0||0.0304|TWO_SIDED|95.0|2.31|30.57|||Chi-squared|||||30.57|2.31|0.0304
92272557|NCT00446134|184446598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.1|STANDARD_DEVIATION|5.0||0.0293|TWO_SIDED|95.0|3.22|31.06|||Chi-squared|||||31.06|3.22|0.0293
92272558|NCT00446134|184446598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9|STANDARD_DEVIATION|5.0||0.5816|TWO_SIDED|95.0|-10.41|20.24|||Chi-squared|||||20.24|-10.41|0.5816
92272559|NCT00446134|184446599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.22|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-13.78|16.22|||Fisher Exact|||||16.22|-13.78|0.9999
92272560|NCT00446134|184446599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-14.73|14.73|||Fisher Exact|||||14.73|-14.73|0.9999
92272561|NCT00446134|184446599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-14.11|15.71|||Fisher Exact|||||15.71|-14.11|0.9999
92272562|NCT00446134|184446599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.22|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-13.78|16.22|||Fisher Exact|||||16.22|-13.78|0.9999
92396107|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.83||0.0343|TWO_SIDED|95.0|-3.38|-0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.13|-3.38|0.0343
92272563|NCT00446134|184446599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-14.76|15.59|||Fisher Exact|||||15.59|-14.76|0.9999
92272564|NCT00446134|184446599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-15.71|14.11|||Fisher Exact|||||14.11|-15.71|0.9999
92272565|NCT02524665|184446613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.67|STANDARD_DEVIATION|61.97||0.0769||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used|Wilcoxon signed-rank test||Comparison of inflammatory lesion counts between MAXCLARITY II and Murad at Week 8.|||||0.0769
92272566|NCT02524665|184446613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.77|STANDARD_DEVIATION|33.73||0.6698||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used.|Wilcoxon signed-rank test||Comparison of non-inflammatory lesion counts between MAXCLARITY II and Murad at Week 8.|||||0.6698
92272567|NCT02524665|184446613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.66|STANDARD_DEVIATION|17.59||0.6854||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of total lesion counts between MAXCLARITY II and Murad at Week 8.|||||0.6854
92272568|NCT02524665|184446614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|STANDARD_DEVIATION|74.55||0.5031||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used.|Wilcoxon signed-rank test||Comparison of percent change inflammatory lesion counts between MAXCLARITY II and Murad at Week 1.|||||0.5031
92272569|NCT02524665|184446614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.11|STANDARD_DEVIATION|99.76||0.2464||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of percent change inflammatory lesion counts between MAXCLARITY II and Murad at Week 2.|||||0.2464
92272570|NCT02524665|184446614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.03|STANDARD_DEVIATION|65.22||0.8894||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used.|Wilcoxon signed-rank test||Comparison of percent change inflammatory lesion counts between MAXCLARITY II and Murad at Week 4.|||||0.8894
92272571|NCT02524665|184446614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.98|STANDARD_ERROR_OF_MEAN|46.04||0.6722||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used.|Wilcoxon signed-rank test||Comparison of percent change non-inflammatory lesion counts between MAXCLARITY II and Murad at Week 1.|||||0.6722
92272572|NCT02524665|184446614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.99|STANDARD_DEVIATION|39.59||0.3352||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of percent change non-inflammatory lesion counts between MAXCLARITY II and Murad at Week 2.|||||0.3352
92272573|NCT02524665|184446614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.41|STANDARD_DEVIATION|35.46||0.9323||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used.|Wilcoxon signed-rank test||Comparison of percent change non-inflammatory lesion counts between MAXCLARITY II and Murad at Week 4.|||||0.9323
92272574|NCT02524665|184446614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.72|STANDARD_DEVIATION|26.05||0.3513||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of percent change total lesion counts between MAXCLARITY II and Murad at Week 1.|||||0.3513
92272575|NCT02524665|184446614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22|STANDARD_DEVIATION|22.97||0.8199||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of percent change total lesion counts between MAXCLARITY II and Murad at Week 2.|||||0.8199
92272576|NCT02524665|184446614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_DEVIATION|17.83||0.9616||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of percent change total lesion counts between MAXCLARITY II and Murad at Week 4.|||||0.9616
92272577|NCT02524665|184446615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|0.23||1||95.0|||||Wilcoxon signed-rank test||Comparison of ISGA score between MAXCLARITY II and Murad at Week 1|||||1.0000
92147428|NCT00406133|184180061|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||<0.001
92147429|NCT00406133|184180062|SUPERIORITY_OR_OTHER|||||||0.29||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Continuous glucose monitoring data in both groups following the 26-week visit (blinded use in the control group and unblinded use in the continuous glucose monitoring group) were used to estimate the amount of time per day the glucose level was hypoglycemic (\<=70 mg/dL and \<=50 mg/dL), hyperglycemic (\>180 mg/dL and \>250 mg/dL), and in the target range (71 to 180 mg/dL).||||0.29
92272578|NCT02524665|184446615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_DEVIATION|0.66||0.75||95.0|||||Wilcoxon signed-rank test||Comparison of ISGA score between MAXCLARITY II and Murad at Week 2.|||||0.7500
92272579|NCT02524665|184446615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_DEVIATION|0.74||0.7539||95.0|||||Wilcoxon signed-rank test||Comparison of ISGA score between MAXCLARITY II and Murad at Week 4.|||||0.7539
92272580|NCT02524665|184446615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.87||0.3071||95.0|||||Wilcoxon signed-rank test||Comparison of ISGA score between MAXCLARITY II and Murad at Week 8|||||0.3071
92272581|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|0.5||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Erythema score between MAXCLARITY II and Murad at Week 1.|||||0.5000
92272582|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.52||1||95.0|||||Wilcoxon signed-rank test||Comparison of Erythema score between MAXCLARITY II and Murad at Week 2.|||||1.0000
92272583|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.23||1||95.0|||||Wilcoxon signed-rank test||Comparison of Erythema score between MAXCLARITY II and Murad at Week 4.|||||1.0000
92272584|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Erythema score between MAXCLARITY II and Murad at Week 8.|||||0
92272585|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_DEVIATION|0.74||1||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 1.|||||1.0000
92272586|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 2.|||||0
92272587|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 4.|||||0
92272588|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.23||1||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 8.|||||1.0000
92272589|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|0.69||1||95.0|||||Wilcoxon signed-rank test||Comparison of Peeling score between MAXCLARITY II and Murad at Week 1.|||||1.0000
92272590|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Peeling score between MAXCLARITY II and Murad at Week 2.|||||0
92272591|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Peeling score between MAXCLARITY II and Murad at Week 4.|||||0
92272592|NCT02524665|184446616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.23||1||95.0|||||Wilcoxon signed-rank test||Comparison of Peeling score between MAXCLARITY II and Murad at Week 8.|||||1.0000
92272593|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_DEVIATION|0.63||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Redness score between MAXCLARITY II and Murad at Week 1.|||||0.5000
92272594|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|0.5||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Redness score between MAXCLARITY II and Murad at Week 2.|||||0.5000
92272595|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|0.92||1||95.0|||||Wilcoxon signed-rank test||Comparison of Redness score between MAXCLARITY II and Murad at Week 4.|||||1.0000
92272596|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_DEVIATION|0.69||1||95.0|||||Wilcoxon signed-rank test||Comparison of Redness score between MAXCLARITY II and Murad at Week 8.|||||1.0000
92272597|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_DEVIATION|0.88||0.8125||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 1.|||||0.8125
92272598|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_DEVIATION|0.94||0.5742||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 2.|||||0.5742
92147430|NCT00406133|184180062|SUPERIORITY_OR_OTHER|||||||0.79||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.79
92272599|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.93||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 4.|||||0.5000
92272600|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_DEVIATION|0.82||0.25||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 8.|||||0.2500
92272601|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.62||1||95.0|||||Wilcoxon signed-rank test||Comparison of Burning score between MAXCLARITY II and Murad at Week 1.|||||1.0000
92272602|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_DEVIATION|0.74||0.75||95.0|||||Wilcoxon signed-rank test||Comparison of Burning score between MAXCLARITY II and Murad at Week 2.|||||0.7500
92272603|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|0.98||0.75||95.0|||||Wilcoxon signed-rank test||Comparison of Burning score between MAXCLARITY II and Murad at Week 4.|||||0.7500
92272604|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.73||0.25||95.0|||||Wilcoxon signed-rank test||Comparison of Burning score between MAXCLARITY II and Murad at Week 8.|||||0.2500
92272605|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|0.54||0.25||95.0|||||Wilcoxon signed-rank test||Comparison of Itching score between MAXCLARITY II and Murad at Week 1.|||||0.2500
92272606|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_DEVIATION|0.74||0.75||95.0|||||Wilcoxon signed-rank test||Comparison of Itching score between MAXCLARITY II and Murad at Week 2.|||||0.7500
92272607|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_DEVIATION|1.01||0.25||95.0|||||Wilcoxon signed-rank test||Comparison of Itching score between MAXCLARITY II and Murad at Week 4.|||||0.2500
92272608|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_DEVIATION|0.82||0.25||95.0|||||Wilcoxon signed-rank test||Comparison of Itching score between MAXCLARITY II and Murad at Week 8.|||||0.2500
92272609|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|0.5||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Scaling score between MAXCLARITY II and Murad at Week 1.|||||0.5000
92272610|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Scaling score between MAXCLARITY II and Murad at Week 2.|||||0
92272611|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.93||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Scaling score between MAXCLARITY II and Murad at Week 4.|||||0.5000
92272612|NCT02524665|184446617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_DEVIATION|0.81||1||95.0|||||Wilcoxon signed-rank test||Comparison of Scaling score between MAXCLARITY II and Murad at Week 8.|||||1.0000
92272613|NCT02524665|184446618|SUPERIORITY_OR_OTHER|||||||1||95.0||||Comparison of one or more grade improvement between MAXCLARITY II and Murad at Week 1.|McNemar|||||||1.0000
92272614|NCT02524665|184446618|SUPERIORITY_OR_OTHER|||||||0||95.0||||The value is mentioned as '0', as no P-value generated. Comparison of two or more grade improvement between MAXCLARITY II and Murad at Week 1.|McNemar|||||||0
92272615|NCT02524665|184446618|SUPERIORITY_OR_OTHER|||||||0.5637||95.0||||Comparison of one or more grade improvement between MAXCLARITY II and Murad at Week 2.|McNemar|||||||0.5637
92272616|NCT02524665|184446618|SUPERIORITY_OR_OTHER|||||||1||95.0||||Comparison of two or more grade improvement between MAXCLARITY II and Murad at Week 2.|McNemar|||||||1.0000
92272617|NCT02524665|184446618|SUPERIORITY_OR_OTHER|||||||0.4795||95.0||||Comparison of one or more grade improvement between MAXCLARITY II and Murad at Week 4.|McNemar|||||||0.4795
92272618|NCT02524665|184446618|SUPERIORITY_OR_OTHER|||||||1||95.0||||Comparison of two or more grade improvement between MAXCLARITY II and Murad at Week 4.|McNemar|||||||1.0000
92272619|NCT02524665|184446618|SUPERIORITY_OR_OTHER|||||||0.3173||95.0||||Comparison of one or more grade improvement between MAXCLARITY II and Murad at Week 8.|McNemar|||||||0.3173
92272620|NCT02524665|184446618|SUPERIORITY_OR_OTHER|||||||0.1573||95.0||||Comparison of two or more grade improvement between MAXCLARITY II and Murad at Week 8.|McNemar|||||||0.1573
92272621|NCT02989610|184446619|SUPERIORITY|Superiority hypothesis was that 95% lower confidence bound on proportion exceeded a threshold of 60%.|||||<|0.0001|||||||Clopper-Pearson method|||Proportion with wider therapeutic window using directional stimulation was compared to a performance goal of 60%.||||<0.0001
92272622|NCT02989610|184446620|NON_INFERIORITY|Non-inferiority hypothesis was that 95% lower confidence bound on proportion exceeded a threshold of 40%.|||||<|0.0001|||||||Clopper-Pearson method|||Proportion with wider therapeutic window using directional stimulation was compared to a performance goal of 60%.||||<0.0001
92272623|NCT02989610|184446621|SUPERIORITY|||||||1|||||||t-test, 1 sided|Paired t-test.||"Comparison of UPDRS part III on medication from 3 months using omnidirectional stimulation to 6 months using directional stimulation.~The p-value presented is calculated and does not represent the threshold. The statistical test used for this endpoint is single sided, and the observed difference was in the opposite direction of the tested difference, leading to a p-value that is equivalent to 1 within the significance of the statistical software used."||||1.0000
92272624|NCT04179474|184446622|EQUIVALENCE|"No effect of co-administration with erenumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with erenumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|105.55|||||TWO_SIDED|90.0|96.21|115.79|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Erenumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means.||115.79|96.21|
92272625|NCT04179474|184446623|EQUIVALENCE|"No effect of co-administration with galcanezumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with galcanezumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|105.03|||||TWO_SIDED|90.0|89.55|123.19|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Galcanezumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means.||123.19|89.55|
92272626|NCT04179474|184446624|EQUIVALENCE|"No effect of co-administration with erenumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with erenumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|105.38|||||TWO_SIDED|90.0|96.19|115.45|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Erenumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means.||115.45|96.19|
92272627|NCT04179474|184446625|EQUIVALENCE|"No effect of co-administration with galcanezumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with galcanezumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|104.76|||||TWO_SIDED|90.0|89.68|122.38|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Galcanezumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means.||122.38|89.68|
92272628|NCT04179474|184446626|EQUIVALENCE|"No effect of co-administration with erenumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with erenumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|103.86|||||TWO_SIDED|90.0|93.01|115.98|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Erenumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means||115.98|93.01|
92272629|NCT04179474|184446627|EQUIVALENCE|"No effect of co-administration with galcanezumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with galcanezumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|99.55|||||TWO_SIDED|90.0|82.27|120.45|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Galcanezumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means.||120.45|82.27|
92396108|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.82||0.0049|TWO_SIDED|95.0|-3.95|-0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.71|-3.95|0.0049
92272630|NCT04508621|184446671|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.115|TWO_SIDED|95.0|-0.6|0.1|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment difference = TNX-102 SL - Placebo|||0.1|-0.6|0.115
92272631|NCT04508621|184446672|SUPERIORITY|Patients with missing data considered non-responders.|Difference in Proportions|8.0||||0.038|TWO_SIDED|95.0|0.5|15.5|||Pearson Chi-Squared|||||15.5|0.5|0.038
92272632|NCT04508621|184446673|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.55||0.03|TWO_SIDED|95.0|-6.4|-0.3|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment difference = TNX-102 SL - Placebo|||-0.3|-6.4|0.030
92272633|NCT04508621|184446674|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.46||0.797|TWO_SIDED|95.0|-3.2|2.5|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment Difference = TNX-102 SL - Placebo|||2.5|-3.2|0.797
92272634|NCT04508621|184446675|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.8||0.004|TWO_SIDED|95.0|-3.8|-0.7|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment Difference = TNX-102 SL - Placebo|||-0.7|-3.8|0.004
92272635|NCT04508621|184446676|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.74||0.101|TWO_SIDED|95.0|-2.7|0.2|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment Difference = TNX-102 SL - Placebo|||0.2|-2.7|0.101
92272636|NCT04508621|184446677|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.094|TWO_SIDED|95.0|-0.6|0.0|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment Difference = TNX-102 SL - Placebo|||0.0|-0.6|0.094
92272637|NCT00752895|184446678|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295|TWO_SIDED|||||This p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Negative binomial regression|||||||0.295
92272638|NCT00752895|184446679|SUPERIORITY_OR_OTHER_LEGACY|||||||0.82|TWO_SIDED|||||This p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Negative binomial regression|||||||0.820
92272639|NCT01966107|184446704|SUPERIORITY||Rate ratio|0.65||||0.006|TWO_SIDED|95.0|0.48|0.89|||Negative Binomial Regression model||||A rate ratio \<1 represents a favorable outcome for aclidinium bromide 400 μg.|0.89|0.48|0.006
92272640|NCT01966107|184446706|NON_INFERIORITY|Estimate of the hazard ratio and its 95% CI for comparing aclidinium bromide 400 μg versus placebo were derived using the Cox proportional hazard model. A hazard ratio \<1 represents a favorable outcome for aclidinium bromide 400 μg.|Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.64|1.23||||||Composite MACE||1.23|0.64|
92272641|NCT02200614|184446707|SUPERIORITY||Hazard Ratio (HR)|0.413|||<|1e-06|TWO_SIDED|95.0|0.341|0.5|||Log Rank||Hazard ratio and 95% Confidence Interval (CI) was based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.500|0.341|<0.000001
92272642|NCT02200614|184446708|SUPERIORITY||Hazard Ratio (HR)|0.706||||0.04521|TWO_SIDED|95.0|0.501|0.994|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.994|0.501|0.045210
92272643|NCT02200614|184446709|SUPERIORITY||Hazard Ratio (HR)|0.647||||8e-06|TWO_SIDED|95.0|0.533|0.785|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.785|0.533|0.000008
92272644|NCT02200614|184446710|SUPERIORITY||Hazard Ratio (HR)|0.433|||<|1e-06|TWO_SIDED|95.0|0.314|0.595|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.595|0.314|<0.000001
92272645|NCT02200614|184446711|SUPERIORITY||Hazard Ratio (HR)|0.428||||0.011262|TWO_SIDED|95.0|0.218|0.842|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.842|0.218|0.011262
92272646|NCT02200614|184446712|SUPERIORITY||Hazard Ratio (HR)|0.685||||0.003048|TWO_SIDED|95.0|0.533|0.881|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.881|0.533|0.003048
92272647|NCT02200614|184446713|SUPERIORITY||Hazard Ratio (HR)|0.647||||8e-06|TWO_SIDED|95.0|0.533|0.785|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.785|0.533|0.000008
92272648|NCT02200614|184446714|SUPERIORITY||Hazard Ratio (HR)|0.579||||4.4e-05|TWO_SIDED|95.0|0.444|0.755|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.755|0.444|0.000044
92272649|NCT02200614|184446715|SUPERIORITY||Hazard Ratio (HR)|0.484||||0.005294|TWO_SIDED|95.0|0.287|0.815|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.815|0.287|0.005294
92272650|NCT02395536|184446785|NON_INFERIORITY|A non-inferiority margin of 5% was chosen since the inability to rule out a 5% increase in untoward event rate associated with moving the Reveal LINQ procedure in-office may suggest that in-office procedures would too high of a complication rate compared procedures performed in the traditional office setting.|Risk Difference (RD)|-0.001|||<|0.001|TWO_SIDED|95.0|-0.03|0.029||P-value for non-inferiority versus a 5% non-inferiority margin.|Farrington-Manning test||The estimated value and its associated confidence interval are for the in-office minus traditional hospital setting difference in the untoward event rates. The point estimate is negative since the in-office rate was lower than the hospital rate.|The null hypothesis was that Reveal LINQ insertions performed in-office would have a higher untoward event rate than insertions performed in the traditional hospital setting. A sample size of 476 subjects was estimated to provide at least 90% power at a 1-sided alpha level of 2.5% and 5% non-inferiority margin. For the sample size calculation, an event rate of 2.0% was assumed in both arms. The Farrington-Manning test of two indepent proportions was used to compare study arms.||0.029|-0.030|<0.001
92272651|NCT04876482|184446793|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|-10.76|||<|0.05|TWO_SIDED||||||Regression, Linear|||"We hypothesized that the improvements in the AHI would be higher in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).~."||||<0.05
92272652|NCT04876482|184446794|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|2.05|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the upper airway volume would be higher in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
92272653|NCT04876482|184446795|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|0.275|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the minimal area on the tip of epiglottis would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls)||||<0.05
92335089|NCT03035916|184573271|OTHER|||||||0.406|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.406
92147431|NCT00406133|184180062|SUPERIORITY_OR_OTHER|||||||0.41||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.41
92147432|NCT00406133|184180063|SUPERIORITY_OR_OTHER|||||||0.5||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Continuous glucose monitoring data in both groups following the 26-week visit (blinded use in the control group and unblinded use in the continuous glucose monitoring group) were used to estimate the amount of time per day the glucose level was hypoglycemic (\<=70 mg/dL and \<=50 mg/dL), hyperglycemic (\>180 mg/dL and \>250 mg/dL), and in the target range (71 to 180 mg/dL).||||0.50
92147433|NCT00406133|184180063|SUPERIORITY_OR_OTHER|||||||0.99||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.99
92147434|NCT00406133|184180063|SUPERIORITY_OR_OTHER|||||||0.1||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.10
92147435|NCT00406133|184180064|SUPERIORITY_OR_OTHER|||||||0.66||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Glucose variability was assessed by computing the absolute rate of change.||||0.66
92147436|NCT00406133|184180064|SUPERIORITY_OR_OTHER|||||||0.48||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.48
92147437|NCT00406133|184180064|SUPERIORITY_OR_OTHER|||||||0.07||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.07
92147438|NCT00406133|184180065|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|Adjusted for baseline A1c and clinical center.||Other preplanned secondary outcomes included change in A1c from baseline to 26 weeks in an ANCOVA model (adjusted for baseline A1c and clinical center).||||<0.001
92147439|NCT00406133|184180066|SUPERIORITY_OR_OTHER||||||<|0.001||||||Based on the ranks of the 26wk values using VDW scores, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.|ANCOVA|Adjusted for baseline value, clinical center and type of continuous glucose monitor.||Percentages of values less than or greater than a given threshold were converted to minutes per day by multiplying by 1,440. A nonparametric approach was followed using an ANCOVA based on ranks of the 26 week values, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.||||<0.001
92147440|NCT00406133|184180067|SUPERIORITY_OR_OTHER|||||||0.03||||||P-value representative of 13 and 26 weeks combined.|ANCOVA|||Percentages of values less than or greater than a given threshold were converted to minutes per day by multiplying by 1,440. A nonparametric approach was followed using an ANCOVA based on ranks of the 26 week values, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.||||0.03
92147441|NCT00406133|184180068|SUPERIORITY_OR_OTHER|||||||0.04||||||P-value for the 8-14 year old age group|Regression, Logistic|||Within each age group, in addition to the primary ANCOVA analysis, pre-specified 26-week binary glycated hemoglobin outcomes (relative decrease by \>=10%, 26-week level \<7.0%, absolute decrease by \>=0.5%, relative increase by \>=10%, absolute increase by \>=0.5%) were evaluated in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.04
92396109|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.84||0.0285|TWO_SIDED|95.0|-3.5|-0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.20|-3.50|0.0285
92147442|NCT00406133|184180068|SUPERIORITY_OR_OTHER|||||||0.46||||||P-value for the 15-24 year age group|Regression, Logistic|||||||0.46
92147443|NCT00406133|184180068|SUPERIORITY_OR_OTHER|||||||0.003||||||P-value for the \>=25 year age group|Regression, Logistic|||||||0.003
92147444|NCT00406133|184180069|SUPERIORITY_OR_OTHER|||||||0.24||||||P-value for 8-14 year old age group|Regression, Logistic|||Within each age group, in addition to the primary ANCOVA analysis, pre-specified 26-week binary glycated hemoglobin outcomes (relative decrease by \>=10%, 26-week level \<7.0%, absolute decrease by \>=0.5%, relative increase by \>=10%, absolute increase by \>=0.5%) were evaluated in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.24
92147445|NCT00406133|184180069|SUPERIORITY_OR_OTHER|||||||0.98||||||P-value for the 15-24 year old age group|Regression, Logistic|||||||0.98
92147446|NCT00406133|184180069|SUPERIORITY_OR_OTHER|||||||0.48||||||P-value for the \>=25 year old age group|Regression, Logistic|||||||0.48
92147447|NCT00406133|184180070|SUPERIORITY_OR_OTHER|||||||0.005||||||P-value representative of 13 and 26 weeks combined|ANCOVA|||Percentages of values less than or greater than a given threshold were converted to minutes per day by multiplying by 1,440. A nonparametric approach was followed using an ANCOVA based on ranks of the 26 week values, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.||||0.005
92147448|NCT00406133|184180071|SUPERIORITY_OR_OTHER|||||||0.05||||||P-value representative of 13 and 26 weeks combined.|ANCOVA|||Percentages of values less than or greater than a given threshold were converted to minutes per day by multiplying by 1,440. A nonparametric approach was followed using an ANCOVA based on ranks of the 26 week values, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.||||0.05
92147449|NCT00406133|184180072|SUPERIORITY_OR_OTHER|||||||0.39||||||P-value representative of 13 and 26 weeks combined.|ANCOVA|||Glucose variability was assessed by computing the absolute rate of change.||||0.39
92147450|NCT00406133|184180073|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||Nominal p-value not adjusted for multiple comparisons|ANCOVA|||||||0.04
92272654|NCT04876482|184446796|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|-0.14|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the anteror to posterior distance on the tip of epiglottis would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
92272655|NCT04876482|184446797|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|0.01|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the lateral distance on the tip of epiglottis would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
92272656|NCT04876482|184446798|OTHER|Baseline characteristics among the study groups were compared using Fisher exact test for categorical variables. McNemar chi-square test used for within-group analysis.|Number and percentage|0.05|||<|0.05|TWO_SIDED||||||Fisher Exact|||We hypothesized that TORS followed by OPR would improve upper airway obstruction more compared with TORS alone and conservative treatment (control).||||<0.05
92272657|NCT04876482|184446799|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|2.23|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the jaw opening muscle strength would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
92272658|NCT04876482|184446800|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|2.45|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the tongue protrusion muscle strength would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
92272659|NCT04876482|184446801|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|4.81|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the tongue elevation muscle strength would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
92272660|NCT04876482|184446802|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|7.01|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the tongue depression muscle strength would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
92272661|NCT04876482|184446803|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|3.67|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the tongue lateralization muscle strength would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
92147451|NCT00406133|184180074|SUPERIORITY_OR_OTHER||Ratio of treatment differences|408148.0|||||TWO_SIDED|95.0|-176644.0|3475108.0||||||"ICER = Incremental Cost Effectiveness Ratio is defined as the mean difference in costs between the treatment groups divided by the mean difference in QALY (quality-adjusted life-year) between the treatment groups:~(mean cost\[CGM\] - mean cost \[control\]) / (mean QALY\[CGM\] - mean QALY\[SMBG\]).~Units are dollars per QALY."||3475108|-176644|
92210016|NCT01996813|184320381|SUPERIORITY||Odds Ratio (OR)|0.115||||0.0553|TWO_SIDED|95.0|0.002|1.034||The exact p-value was estimated|Regression, Logistic|The method was exact logistic regression||The null hypothesis is that there is no difference in the odds of a cerebral desaturation event between patients wearing versus not wearing thigh-high compression stockings during shoulder arthroscopy in the beach chair position||1.034|0.002|.0553
92272662|NCT02464059|184446813|SUPERIORITY||Mean Difference (Final Values)|-65.5|STANDARD_DEVIATION|207.8||0.21|TWO_SIDED|95.0|-172.4|41.3||P-value is not adjusted for multiple comparisons. A priori threshold for significance is p\<0.05.|t-test, 2 sided|||||41.3|-172.4|0.21
92272663|NCT02464059|184446814|SUPERIORITY||Mean Difference (Final Values)|-0.55|STANDARD_DEVIATION|12.6||0.86|TWO_SIDED|95.0|-7.02|5.91||P-value is not adjusted for multiple comparisons. A priori threshold for significance is p\<0.05.|t-test, 2 sided|||||5.91|-7.02|0.86
92272664|NCT02499406|184446822|SUPERIORITY||||||>|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired sample t-test|df=14||Null hypothesis is that there is no difference between baseline assessment and this 3-month assessment.||||>0.016
92272665|NCT02499406|184446823|SUPERIORITY||||||<|0.016||||||p value was calculated and found to be below the a priori threshold for significance, which was adjusted to p = .016 for multiple comparisons|paired sample t-test|df=11||Null hypothesis is that there is no difference between baseline assessment and this 6-month assessment.||||<0.016
92272666|NCT02499406|184446824|SUPERIORITY||||||<|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired sample t-test|df=11||Null hypothesis is that there is no difference between baseline assessment and this 9-month assessment.||||<0.016
92272667|NCT02499406|184446825|SUPERIORITY||||||<|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired samples t test|df=14||Null hypothesis is that there is no difference in paired samples between baseline and 3-month assessment||||<0.016
92272668|NCT02499406|184446826|SUPERIORITY||||||<|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired samples t test|df=10||Null hypothesis is no difference between baseline and this 6-month assessment.||||<0.016
92272669|NCT02499406|184446827|SUPERIORITY||||||<|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired samples t test|df=11||Null hypothesis is no difference between baseline and this 9-month assessment.||||<0.016
92272670|NCT02499406|184446828|SUPERIORITY||||||>|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired sample t test|df=14||Null hypothesis is that there is no difference between baseline assessment and this 3-month assessment.||||> 0.016
92272671|NCT02499406|184446829|SUPERIORITY||||||=|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired sample t-test|df=10||Null hypothesis is that there is no difference between baseline assessment and this 6-month assessment.||||=.016
92272672|NCT02499406|184446830|SUPERIORITY||||||<|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired sample t-test|df=11||Null hypothesis is that there is no difference between baseline assessment and this 9-month assessment.||||<0.016
92272673|NCT01222715|184446891|SUPERIORITY_OR_OTHER|||||||0.0124|TWO_SIDED|95.0|||||Log Rank|||The event free survival distributions of patients in Regimen A and Regimen B were compared using the log-rank test.||||0.0124
92272674|NCT00948025|184446901|OTHER|Mann-Whitney U test was used to derive p-values.||||||0.0433||||||"1. a priori threshold for statistical significance set at p\<0.05.~2. the p-value was not adjusted for multiple comparisons."|Wilcoxon (Mann-Whitney)|||"1. P-value comparing static 2-point discrimination per visit derived from mixed linear modeling of longitudinal data.~2. P-Value is based on Mann-Whitney U test."||||0.0433
92272675|NCT03555890|184446922|EQUIVALENCE|If the 90 percent (%) confidence interval of the geometric mean ratio (Levocetirizine ODT/ Levocetirizine IRT) was within the acceptable range of 0.80 to 1.25 then Levocetirizine ODT was to be considered bioequivalent to the Levocetirizine IRT.|Ratio of geometric mean|0.975|||||TWO_SIDED|90.0|0.948|1.003||||||||1.003|0.948|
92272676|NCT03555890|184446923|EQUIVALENCE|If the 90 percent (%) confidence interval of the geometric mean ratio (Levocetirizine ODT/ Levocetirizine IRT) was within the acceptable range of 0.80 to 1.25 then Levocetirizine ODT was to be considered bioequivalent to the Levocetirizine IRT.|Ratio of geometric mean|0.978|||||TWO_SIDED|90.0|0.958|0.998||||||||0.998|0.958|
92272677|NCT03555890|184446924|EQUIVALENCE|If the 90 percent (%) confidence interval of the geometric mean ratio (Levocetirizine ODT/ Levocetirizine IRT) was within the acceptable range of 0.80 to 1.25 then Levocetirizine ODT was to be considered bioequivalent to the Levocetirizine IRT.|Ratio of geometric mean|0.934|||||TWO_SIDED|90.0|0.875|0.998||||||||0.998|0.875|
92272678|NCT03555890|184446925|EQUIVALENCE|If the 90 percent (%) confidence interval of the geometric mean ratio (Levocetirizine ODT/ Levocetirizine IRT) was within the acceptable range of 0.80 to 1.25 then Levocetirizine ODT was to be considered bioequivalent to the Levocetirizine IRT.|Ratio of geometric mean|0.857|||||TWO_SIDED|90.0|0.815|0.902||||||||0.902|0.815|
92396110|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.85||0.0004|TWO_SIDED|95.0|-4.69|-1.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.37|-4.69|0.0004
92272679|NCT03372369|184446986|SUPERIORITY||||||<|0.0001||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the contraceptive knowledge score for the CDC poster between baseline and followup is 0.||||<0.0001
92272680|NCT03372369|184446986|SUPERIORITY||||||<|0.0001||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the contraceptive knowledge score for the patient-centered poster between baseline and followup is 0.||||<0.0001
92272681|NCT03372369|184446986|SUPERIORITY||||||<|0.0001||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the patient-centered poster does not produce a larger increase in the contraceptive knowledge score between baseline and followup than the CDC poster.||||<0.0001
92272682|NCT03372369|184446987|SUPERIORITY||||||<|0.001||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the effective contraception preference score for the CDC poster between baseline and followup is 0.||||<0.001
92272683|NCT03372369|184446987|SUPERIORITY||||||<|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the effective contraception preference score for the patient-centered poster between baseline and followup is 0.||||<0.01
92272684|NCT03372369|184446987|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the patient-centered poster does not produce a larger increase in the effective contraception preference score between baseline and followup than the CDC poster.||||>0.01
92272685|NCT03372369|184446988|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the perceived pregnancy risk score for the CDC poster between baseline and followup is 0.||||>0.01
92272686|NCT03372369|184446988|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the perceived pregnancy risk score for the patient-centered poster between baseline and followup is 0.||||>0.01
92272687|NCT03372369|184446988|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the patient-centered poster does not produce a larger increase in the perceived pregnancy risk score between baseline and followup than the CDC poster.||||>0.01
92272688|NCT03372369|184446989|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the accuracy of perceived pregnancy risk score for the CDC poster between baseline and followup is 0.||||>0.01
92335090|NCT03035916|184573271|OTHER|||||||0.042|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.042
92147452|NCT00406133|184180075|SUPERIORITY_OR_OTHER|||||||0.009||||||P-value for the 8-14 year old age group|Regression, Logistic|||Within each age group, in addition to the primary ANCOVA analysis, pre-specified 26-week binary glycated hemoglobin outcomes (relative decrease by \>=10%, 26-week level \<7.0%, absolute decrease by \>=0.5%, relative increase by \>=10%, absolute increase by \>=0.5%) were evaluated in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.009
92147453|NCT00406133|184180075|SUPERIORITY_OR_OTHER|||||||0.57||||||P-value for 15-24 year old age group|Regression, Logistic|||||||0.57
92147454|NCT00406133|184180075|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the \>=25 year old age group|Regression, Logistic|||||||<0.001
92147455|NCT00406133|184180076|SUPERIORITY_OR_OTHER|||||||0.18||||||P-value for 8-14 year age group|Regression, Logistic|||Within each age group, in addition to the primary ANCOVA analysis, pre-specified 26-week binary glycated hemoglobin outcomes (relative decrease by \>=10%, 26-week level \<7.0%, absolute decrease by \>=0.5%, relative increase by \>=10%, absolute increase by \>=0.5%) were evaluated in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.18
92147456|NCT00406133|184180076|SUPERIORITY_OR_OTHER|||||||0.84||||||P-value for 15-24 year old age group.|Regression, Logistic|||||||0.84
92147457|NCT00406133|184180076|SUPERIORITY_OR_OTHER|||||||0.02||||||P-value for \>=25 year old age group.|Regression, Logistic|||||||0.02
92147458|NCT00406133|184180077|SUPERIORITY_OR_OTHER|||||||0.01||||||P-value for 8-14 year age group|Regression, Logistic|||Within each age group, in addition to the primary ANCOVA analysis, pre-specified 26-week binary glycated hemoglobin outcomes (relative decrease by \>=10%, 26-week level \<7.0%, absolute decrease by \>=0.5%, relative increase by \>=10%, absolute increase by \>=0.5%) were evaluated in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.01
92147459|NCT00406133|184180077|SUPERIORITY_OR_OTHER|||||||0.8||||||P-value for 14-24 year age group|Regression, Logistic|||||||0.80
92147460|NCT00406133|184180077|SUPERIORITY_OR_OTHER|||||||0.005||||||P-value for \>=25 year age group|Regression, Logistic|||||||0.005
92147461|NCT00406133|184180078|SUPERIORITY_OR_OTHER|||||||0.02||||||P-value for the 8-14 year age group|Regression, Logistic|||A post-hoc defined binary outcome of 26-week glycated hemoglobin \<7.0% with no severe hypoglycemic events was analyzed in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.02
92147462|NCT00406133|184180078|SUPERIORITY_OR_OTHER|||||||0.67||||||P-value for the 15-24 year old age group|Regression, Logistic|||||||0.67
92147463|NCT00406133|184180078|SUPERIORITY_OR_OTHER|||||||0.006||||||P-value for the \>=25 year old age group|Regression, Logistic|||||||0.006
92147464|NCT00406133|184180079|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Other preplanned secondary outcomes included change in A1c from baseline to 26 weeks in an ANCOVA model (adjusted for baseline A1c and clinical center) and 26-week binary A1c outcomes (decrease and increase in A1C from baseline by \>=0.3% and 26-week value \<7.0%) evaluated similarly using logistic regression models.||||<0.001
92147465|NCT00406133|184180080|SUPERIORITY_OR_OTHER|||||||0.002|||||||Regression, Logistic|||Other preplanned secondary outcomes included change in A1c from baseline to 26 weeks in an ANCOVA model (adjusted for baseline A1c and clinical center) and 26-week binary A1c outcomes (decrease and increase in A1C from baseline by \>=0.3% and 26-week value \<7.0%) evaluated similarly using logistic regression models.||||0.002
92147466|NCT00406133|184180081|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Other preplanned secondary outcomes included change in A1c from baseline to 26 weeks in an ANCOVA model (adjusted for baseline A1c and clinical center) and 26-week binary A1c outcomes (decrease and increase in A1C from baseline by \>=0.3% and 26-week value \<7.0%) evaluated similarly using logistic regression models.||||<0.001
92147467|NCT00386022|184180148|EQUIVALENCE|null hypothesis will be accepted if there is no difference in the LH response to GnRH as a function of dose in young or old postmenopausal women|||||<|0.001||||||LH % change with dose|Repeated measures ANCOVA|||||||<0.001
92147468|NCT00386022|184180148|EQUIVALENCE|null hypothesis will be accepted if there is no difference in the LH response to GnRH between younger and older postmenopausal women|||||<|0.03||||||LH % change with age|Repeated measures ANCOVA|||null hypothesis: there will be no difference in the LH and FSH responses to graded doses of GnRH between younger and older postmenopausal women||||<0.03
92147469|NCT00386022|184180148|EQUIVALENCE|null hypothesis will be accepted if there is no difference in the FSH response to GnRH as a function of dose in younger or older postmenopausal women|||||<|0.001||||||FSH % change with dose|Repeated measures ANCOVA|||||||<0.001
92147470|NCT00386022|184180148|EQUIVALENCE|null hypothesis will be accepted if there is no difference in the FSH response to GnRH between young and old postmenopausal women|||||<|0.005||||||FSH % change with age|Repeated measures ANCOVA|||||||<0.005
92147471|NCT00386022|184180149|EQUIVALENCE|null hypothesis will be accepted if there is no effect of estrogen on the LH response to GnRH in younger and older postmenopausal women|||||<|0.01||||||LH amplitude response with estrogen|Repeated measured ANCOVA|||||||<0.01
92147472|NCT00386022|184180149|EQUIVALENCE|The null hypothesis will be accepted if there is no effect of estrogen on the FSH response to GnRH in younger and older postmenopausal women|||||<|0.0001||||||FSH amplitude response with estrogen|Repeated measures ANCOVA|||||||<0.0001
92147473|NCT00386022|184180149|EQUIVALENCE|The null hypothesis will be accepted if there is no effect of age on the effect of estrogen on the FSH response to GnRH|||||<|0.02||||||FSH amplitude response to estrogen with age|Repeated measures ANCOVA|||||||<0.02
92147474|NCT00386022|184180149|EQUIVALENCE|The null hypothesis will be accepted if there is no effect of age on the effect of estrogen on the LH response to GnRH|||||=|0.4||||||LH amplitude response to estrogen with age|Repeated measures ANCOVA|||||||=0.4
92147475|NCT06916468|184180194|OTHER||Proportion|86.79|||<|0.001|TWO_SIDED||||||Binomial test|Comparing preference to 50/50 baseline||||||<0.001
92147476|NCT06916468|184180195|OTHER||Proportion|13.2|||<|0.001|TWO_SIDED||||||Proportion|Out of the 53 participants , what proportion preferred the device without the cotton dampener on majority of anatomical sites||||||<0.001
92272689|NCT03372369|184446989|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the accuracy of perceived pregnancy risk score for the patient-centered poster between baseline and followup is 0.||||>0.01
92147477|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Total cost comparison.||||< 0.001
92147478|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Total cost comparison.||||< 0.001
92147479|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Total cost comparison.||||< 0.001
92147480|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Inpatient cost comparison||||< 0.001
92147481|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Inpatient cost comparison.||||< 0.001
92147482|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.||||||0.126|||||||Bang and Tsiatis|||Inpatient cost comparison||||0.126
92147483|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Outpatient cost comparison.||||< 0.001
92147484|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Outpatient cost comparison.||||< 0.001
92147485|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Outpatient cost comparison.||||< 0.001
92147486|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Medication cost comparison.||||< 0.001
92147487|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Medication cost comparison.||||< 0.001
92147488|NCT04295005|184180196|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Medication cost comparison.||||< 0.001
92147489|NCT00685945|184180209|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||The effect of bradykinin on net t-PA release was determined using general linear model-repeated measures ANOVA in which the between-subject variable was gender, and the within-subjects variables were drug (control, +L-NMMA, +L-NMMA plus isosorbide, or +L-NMMA plus sildenafil) and dose of bradykinin.||||0.04
92147490|NCT00685945|184180210|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Repeated measures ANOVA||||||<0.001
92147491|NCT00847405|184180218|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.64||||||90.0|95.93|111.97|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||111.97|95.93|
92147492|NCT00847405|184180219|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.81||||||90.0|97.95|107.91|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.91|97.95|
92147493|NCT00847405|184180220|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.25||||||90.0|98.35|108.41|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.41|98.35|
92147494|NCT00514683|184180233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.052||0.853|TWO_SIDED|95.0|-0.086|0.118||The p-value presented is computed in the course of the closing testing procedure.|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.118|-0.086|0.8530
92147495|NCT00514683|184180233|SUPERIORITY_OR_OTHER|||||||0.7558||||||The p-value from the hierarchical testing procedure was calculated as a sensitivity analysis|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.||||||0.7558
92272690|NCT03372369|184446989|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the patient-centered poster does not produce a larger increase in the accuracy of perceived pregnancy risk score between baseline and followup than the CDC poster.||||>0.01
92272691|NCT01791127|184446992|SUPERIORITY|The primary endpoint 1 hypothesis was evaluated by performing an exact, binomial test comparing a binomial proportion (AEFR at 12 months) to 94.0%, with Type I error (alpha) or 0.025 and power of 80%.|||||<|0.0001|||||||Exact, binomial|||||||<0.0001
92272692|NCT01791127|184446993|SUPERIORITY||||||<|0.0001|||||||Exact, binomial|||The primary endpoint 2 hypothesis was evaluated by performing an exact, binomial test comparing a binomial proportion (AEFR at 12 months) to 94.0%, with Type I error (alpha) or 0.025 and power of 80%.||||<0.0001
92272693|NCT01791127|184446994|SUPERIORITY||||||<|0.0001|||||||Exact, binomial|||The primary endpoint 3 hypothesis was evaluated by performing an exact, binomial test comparing a binomial proportion (successful sensing and pacing rate at 12 months) to 97.0%, with Type I error (alpha) or 0.025 and power of 80%.||||<0.0001
92272694|NCT01791127|184446995|SUPERIORITY|||||||||||||||||The primary endpoint 4 hypothesis was evaluated by performing an exact, binomial test comparing a binomial proportion (AEFR at 5 years) to 92.5%, with Type I error (alpha) or 0.025 and power of 80%.|On April 15, 2019, BIOTRONIK received FDA approval to transition the ongoing SIELLO Post Approval Registry to a new EP PASSION real-world data methodology. As of study closure, the number of subjects with complete data required to perform the hypothesis test was not met. Therefore, this outcome measure was not analyzed.|||
92272695|NCT01017029|184447079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.482||||0.1043|TWO_SIDED|95.0|0.922|2.383|||Regression, Cox|||||2.383|0.922|0.1043
92272696|NCT01017029|184447081|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.847||||0.0398|TWO_SIDED|95.0|1.029|3.315|||Regression, Cox|||||3.315|1.029|0.0398
92272697|NCT01017029|184447083|SUPERIORITY_OR_OTHER|||||||0.0234|||||||Fisher Exact|||CMV infections||||0.0234
92272698|NCT01017029|184447084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.403||||0.1966|TWO_SIDED|95.0|0.839|2.347|||Regression, Cox|||||2.347|0.839|0.1966
92272699|NCT00663039|184447124|SUPERIORITY|||||||0.758|||||||Wilcoxon (Mann-Whitney)|||Comparison of Overall Affect Scores between Oxytocin and Placebo Arms||||0.758
92147496|NCT00514683|184180233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.051||0.792|TWO_SIDED|95.0|-0.119|0.08||The p-value presented is computed in the course of the closing testing procedure.|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.080|-0.119|0.7920
92147497|NCT00514683|184180233|SUPERIORITY_OR_OTHER|||||||0.6991||||||The p-value from the hierarchical testing procedure was calculated as a sensitivity analysis|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.||||||0.6991
92272700|NCT00663039|184447124|SUPERIORITY|||||||0.779|||||||Wilcoxon (Mann-Whitney)|||Comparison of Overall Social Skill scores between Oxytocin and Placebo arms||||0.779
92272701|NCT00663039|184447125|SUPERIORITY|||||||0.578|||||||Wilcoxon (Mann-Whitney)|||Comparison of HVLT Trial 1 scores between Oxytocin and Placebo Arms||||0.578
92272702|NCT00663039|184447125|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Comparison of HVLT Trial 2 scores between Oxytocin and Placebo Arms||||0.28
92272703|NCT00663039|184447125|SUPERIORITY|||||||0.707|||||||Wilcoxon (Mann-Whitney)|||Comparison of HVLT Trial 3 scores between Oxytocin and Placebo Arms||||0.707
92272704|NCT00663039|184447126|SUPERIORITY|||||||0.391|||||||Wilcoxon (Mann-Whitney)|||Comparison of the total amount of money offered during the trust game between the Oxytocin and Placebo arms||||0.391
92272705|NCT00663039|184447127|SUPERIORITY|||||||0.559|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean Target Reaction Time between Oxytocin and Placebo arms.||||0.559
92272706|NCT00663039|184447127|SUPERIORITY|||||||0.858|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean Target Reaction Time between Oxytocin and Placebo arms.||||0.858
92272707|NCT00663039|184447127|SUPERIORITY|||||||0.514|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean False Alarms Reaction Time between Oxytocin and Placebo arms||||0.514
92272708|NCT00663039|184447127|SUPERIORITY|||||||0.088|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean False Alarms Reaction Time between Oxytocin and Placebo arms||||0.088
92272709|NCT00663039|184447128|SUPERIORITY|||||||0.296|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean Target Hits between Oxytocin and Placebo arms.||||0.296
92272710|NCT00663039|184447128|SUPERIORITY|||||||0.136|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean Target Hits between Oxytocin and Placebo arms.||||0.136
92272711|NCT00663039|184447128|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean False Alarms between Oxytocin and Placebo arms.||||0.47
92272712|NCT00663039|184447128|SUPERIORITY|||||||0.702|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean Target Hits between Oxytocin and Placebo arms.||||0.702
92272713|NCT00663039|184447129|SUPERIORITY|||||||0.451|||||||Wilcoxon (Mann-Whitney)|||Comparison of Brief Assessments of Cognition for Schizophrenia scores between the Oxytocin and Placebo arms.||||0.451
92272714|NCT00663039|184447130|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.9
92272715|NCT00663039|184447131|SUPERIORITY|||||||0.946|||||||Wilcoxon (Mann-Whitney)|||Comparison of Reading the Mind in the Eyes total scores between Oxytocin and Placebo arms||||0.946
92272716|NCT00663039|184447132|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||Comparison the Facial Affect Recognition Total scores between Oxytocin and Placebo arms||||0.016
92272717|NCT00663039|184447132|SUPERIORITY|||||||0.185|||||||Wilcoxon (Mann-Whitney)|||Comparison the Facial Affect Recognition Hits between Oxytocin and Placebo arms||||0.185
92272718|NCT00663039|184447132|SUPERIORITY|||||||0.404|||||||Wilcoxon (Mann-Whitney)|||Comparison the Facial Affect Recognition False Alarms between Oxytocin and Placebo arms||||0.404
92272719|NCT00323271|184447134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.108||||0.911|TWO_SIDED|95.0|-2.106|1.888|||t-test, 2 sided|||||1.888|-2.106|.911
92272720|NCT00323271|184447135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.644||||0.32|TWO_SIDED|95.0|-1.058|2.345||Multiple imputation used to account for missing variables; pre-treatment rating and years of MS pain were covariates|ANCOVA|||||2.345|-1.058|0.320
92272721|NCT04333199|184447136|SUPERIORITY||Odds Ratio (OR)|2.9903891|||<|0.001|TWO_SIDED|95.0|2.2805876|3.9211066||We used an a priori threshold of p \< .05.|Regression, Logistic|||||3.9211066|2.2805876|<0.001
92272722|NCT04333199|184447137|SUPERIORITY||Odds Ratio (OR)|1.1781659||||0.154|TWO_SIDED|95.0|0.9404654|1.4759445||We used an a priori threshold of p \< .05.|Regression, Logistic|||||1.4759445|0.9404654|0.154
92272723|NCT04333199|184447138|SUPERIORITY||Odds Ratio (OR)|0.9575636||||0.571|TWO_SIDED|95.0|0.8242111|1.1124918||We used an a priori threshold of p \< .05.|Regression, Logistic|||||1.1124918|0.8242111|0.571
92272724|NCT04333199|184447139|SUPERIORITY||Odds Ratio (OR)|1.8562672|||<|0.001|TWO_SIDED|95.0|1.5692523|2.1957769||We used an a priori threshold of p \< .05.|Regression, Logistic|||||2.1957769|1.5692523|<0.001
92272725|NCT04333199|184447141|SUPERIORITY||Odds Ratio (OR)|1.8542767|||<|0.001|TWO_SIDED|95.0|1.5220654|2.2589975||We used an a priori threshold of p \< .05.|Regression, Logistic|||||2.2589975|1.5220654|<0.001
92272726|NCT02981602|184447172|OTHER|||||||0.116||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.116
92272727|NCT02981602|184447172|OTHER||||||<|0.001||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||<0.001
92272728|NCT02981602|184447172|OTHER|||||||0.573||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.573
92272729|NCT02981602|184447173|OTHER|||||||0.609||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.609
92272730|NCT02981602|184447173|OTHER|||||||0.141||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.141
92272731|NCT02981602|184447174|OTHER|Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group||||||0.245|||||||ANCOVA|||||||0.245
92272732|NCT02981602|184447174|OTHER|||||||0.001||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.001
92396111|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.85|<|0.0001|TWO_SIDED|95.0|-5.14|-1.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.84|-5.14|<0.0001
92147498|NCT00514683|184180233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028|STANDARD_ERROR_OF_MEAN|0.051||0.853|TWO_SIDED|95.0|-0.071|0.128||The p-value presented is computed in the course of the closing testing procedure.|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.128|-0.071|0.8530
92272733|NCT02981602|184447174|OTHER|||||||0.762||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.762
92272734|NCT02981602|184447175|OTHER|||||||0.141||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.141
92272735|NCT02981602|184447175|OTHER|||||||0.081||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.081
92272736|NCT02981602|184447175|OTHER|||||||0.616||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.616
92272737|NCT02981602|184447178|OTHER|||||||0.763||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.763
92272738|NCT02981602|184447178|OTHER|||||||0.804||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.804
92272739|NCT02981602|184447179|OTHER|||||||0.372||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.372
92272740|NCT02981602|184447179|OTHER|||||||0.954||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.954
92272741|NCT00666718|184447181|NON_INFERIORITY_OR_EQUIVALENCE|"Assuming a drop-out rate after randomization of approximately 15%, the remaining 160 patients in each treatment group should allow confirmation of noninferiority with no true treatment difference and a noninferiority limit of 0.4% using the upper limit of a 2-sided 95% confidence interval (insulin lispro protamine suspension + insulin lispro minus insulin glargine+insulin lispro) at a significance level of 0.025 with 90% power."|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.11|0.31|||ANCOVA|||||0.31|-0.11|
92272742|NCT00666718|184447182|SUPERIORITY_OR_OTHER|||||||0.458||95.0||||p-value is for Week 12 Change.|Mixed Models Analysis|Change from baseline=Treatment+country+baseline HbA1c+week+treatment\*country+treatment\*week+baseline HbA1c\*treatment (unstructured covariance used).||||||0.4580
92272743|NCT00666718|184447182|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||p-value is for Week 24 Change.|Mixed Models Analysis|Change from baseline=Treatment+country+baseline HbA1c+week+treatment\*country+treatment\*week+baseline HbA1c\*treatment (unstructured covariance used).||||||0.1070
92272744|NCT00666718|184447183|SUPERIORITY_OR_OTHER|||||||0.1333||95.0||||p-value is for HbA1c \<7.0%.|Fisher Exact|||||||0.1333
92272745|NCT00666718|184447183|SUPERIORITY_OR_OTHER|||||||0.1213||95.0||||p-value is for HbA1c \<=6.5%|Fisher Exact|||||||0.1213
92272746|NCT00666718|184447184|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37|||||TWO_SIDED|95.0|-0.43|1.17|||Mixed Models Analysis|Morning Pre-Meal measurement = Treatment+country+week+treatment\*country + treatment\*week (unstructured covariance was used)||||1.17|-0.43|
92272747|NCT00666718|184447184|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26|||||TWO_SIDED|95.0|-0.66|1.19|||Mixed Models Analysis|Morning Postprandial measurement = Treatment +country+week+treatment\*country + treatment\*week (unstructured covariance was used)||||1.19|-0.66|
92272748|NCT00666718|184447184|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|||||TWO_SIDED|95.0|-1.15|0.57|||Mixed Models Analysis|Midday Pre-Meal measurement = Treatment +country + week +treatment\*country + treatment\*week (unstructured covariance was used).||||0.57|-1.15|
92272749|NCT00666718|184447184|SUPERIORITY_OR_OTHER||LS Mean Difference|0.47|||||TWO_SIDED|95.0|-0.46|1.4|||Mixed Models Analysis|Midday Postprandial measurement = Treatment+country+week+treatment\*country + treatment\*week (unstructured covariance was used).||||1.40|-0.46|
92272750|NCT00666718|184447184|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|||||TWO_SIDED|95.0|-0.93|0.83|||Mixed Models Analysis|Evening Pre-Meal measurement = Treatment +country+week+treatment\*country + treatment\*week (unstructured covariance was used).||||0.83|-0.93|
92272751|NCT00666718|184447184|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46|||||TWO_SIDED|95.0|-0.41|1.34|||Mixed Models Analysis|Evening Postprandial measurement = Treatment+country+week +treatment\*country + treatment\*week (unstructured covariance was used).||||1.34|-0.41|
92272752|NCT00666718|184447184|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14|||||TWO_SIDED|95.0|-0.67|0.96|||Mixed Models Analysis|0300 Hours measurement = Treatment+country+week+treatment\*country+treatment\*week (unstructured covariance was used).||||0.96|-0.67|
92272753|NCT00666718|184447185|SUPERIORITY_OR_OTHER|||||||0.5568||95.0||||p-value is for Fasting.|ANCOVA|Glycemic variability = Treatment+country grouping (Mediterranean, rest of Europe)+treatment\*country (Mediterranean, rest of Europe)||||||0.5568
92272754|NCT00666718|184447185|SUPERIORITY_OR_OTHER|||||||0.7523||95.0||||p-value is for Post-breakfast.|ANCOVA|Glycemic variability = Treatment+country grouping (Mediterranean, rest of Europe)+treatment\*country (Mediterranean, rest of Europe)||||||0.7523
92272755|NCT00666718|184447185|SUPERIORITY_OR_OTHER|||||||0.6448||95.0||||p-value is for Post-lunch.|ANCOVA|Glycemic variability = Treatment+country grouping (Mediterranean, rest of Europe)+treatment\*country (Mediterranean, rest of Europe)||||||0.6448
92272756|NCT00666718|184447185|SUPERIORITY_OR_OTHER|||||||0.9122||95.0||||p-value is for Post-dinner.|ANCOVA|Glycemic variability = Treatment+country grouping (Mediterranean, rest of Europe)+ treatment\*country (Mediterranean, rest of Europe)||||||0.9122
92272757|NCT00666718|184447186|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.53|||||TWO_SIDED|95.0|-1.19|0.12|||Mixed Models Analysis|Hypoglycemia rate per 30 days = Treatment+Country+Week+Treatment\*Country+Treatment\*Week (unstructured covariance structure was used)||||0.12|-1.19|
92272758|NCT00666718|184447186|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|||||TWO_SIDED|95.0|-0.2|0.11|||Mixed Models Analysis|Hypoglycemia rate per 30 days = Treatment+Country+Week+Treatment\*Country+Treatment\*Week (unstructured covariance structure was used)||||0.11|-0.20|
92272759|NCT00666718|184447186|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45|||||TWO_SIDED|95.0|-1.06|0.16|||Mixed Models Analysis|Hypoglycemia rate per 30 days = Treatment+Country+Week+Treatment\*Country+Treatment\*Week (unstructured covariance structure was used)||||0.16|-1.06|
92272760|NCT00666718|184447186|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|||||TWO_SIDED|95.0|-0.86|0.06|||Mixed Models Analysis|Hypoglycemia rate per 30 days = Treatment+Country+Week+Treatment\*Country+Treatment\*Week (unstructured covariance structure was used)||||0.06|-0.86|
92147499|NCT00514683|184180233|SUPERIORITY_OR_OTHER|||||||0.5736||||||Additionally the p-value from the hierarchical testing procedure was calculated as a sensitivity analysis|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.||||||0.5736
92147500|NCT00514683|184180233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.053||0.0639|TWO_SIDED|95.0|0.027|0.235||The p-value presented is computed in the course of the closing testing procedure.|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.235|0.027|0.0639
92147501|NCT00514683|184180233|SUPERIORITY_OR_OTHER|||||||0.0136||||||Additionally the p-value from the hierarchical testing procedure was calculated as a sensitivity analysis|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.||||||0.0136
92272761|NCT00666718|184447186|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.14|0.12|||Mixed Models Analysis|Hypoglycemia rate per 30 days=Treatment+Country+Week+Treatment\*Country+Treatment\*Week (unstructured covariance structure was used)||||0.12|-0.14|
92272762|NCT00666718|184447187|SUPERIORITY_OR_OTHER|||||||0.1701||95.0||||p-value is for \>=1 hypoglycemic episode.|Fisher Exact|||||||0.1701
92272763|NCT00666718|184447187|SUPERIORITY_OR_OTHER|||||||0.1727||95.0||||p-value is for \>=1 nocturnal hypoglycemic episode.|Fisher Exact|||||||0.1727
92272764|NCT00666718|184447187|SUPERIORITY_OR_OTHER|||||||0.2094||95.0||||p-value is for \>=1 non-nocturnal hypoglycemic episode.|Fisher Exact|||||||0.2094
92272765|NCT00666718|184447187|SUPERIORITY_OR_OTHER|||||||0.623||95.0||||p-value is for \>=1 severe hypoglycemic episode.|Fisher Exact|||||||0.6230
92272766|NCT00666718|184447189|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16|||||TWO_SIDED|95.0|-0.86|0.55|||ANCOVA|weight change from baseline = Treatment + country + baseline Hb1Ac + baseline weight + treatment\*HbA1c baseline value||||0.55|-0.86|
92272767|NCT00666718|184447190|SUPERIORITY_OR_OTHER||LS Mean Difference|2.18|||||TWO_SIDED|95.0|-8.33|12.68|||Mixed Models Analysis|Total daily insulin dose=Treatment+country+week+treatment\*country+ treatment\*week (unstructured covariance was used).||||12.68|-8.33|
92272768|NCT01032330|184447192|SUPERIORITY||Risk Difference (RD)|0.054||||0.004|ONE_SIDED|95.0|0.02||||One-sided Barnard's Test||||||0.020|0.004
92272769|NCT01032330|184447193|OTHER||cumulative probability|0.15|||||TWO_SIDED|95.0|0.1|0.22|||||Kaplan-Meier estimate of cumulative probability of deterioration by 3 years|||.22|.10|
92272770|NCT01032330|184447194|SUPERIORITY||Risk Difference (RD)|0.024||||0.27|TWO_SIDED|95.0|-0.038|0.094|||One-sided Barnard's Test|||||0.094|-0.038|0.27
92272771|NCT01032330|184447196|OTHER||||||<|0.001|||||||ANCOVA|||P-value for the change between baseline and 3 years. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||<.001
92272772|NCT01032330|184447197|OTHER|||||||0.38|||||||ANCOVA|||Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome; P values for comparisons of binary outcomes are from logistic regression models adjusting for the baseline level of the outcome.||||0.38
92272773|NCT01032330|184447198|OTHER||||||<|0.001|||||||ANCOVA|||P-value for the change between baseline and 3 years. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||<.001
92272774|NCT01032330|184447199|OTHER|||||||0.09|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.09
92272775|NCT01032330|184447199|OTHER|||||||0.02|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.02
92272776|NCT01032330|184447200|OTHER||||||<|0.001|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||<.001
92272777|NCT01032330|184447200|OTHER|||||||0.33|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.33
92335091|NCT03035916|184573271|OTHER|||||||0.655|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.655
92396112|NCT03192176|184689391|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|-5.65|-2.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRm|||Week 3||-2.28|-5.65|<0.0001
92396113|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.86||0.0169|TWO_SIDED|95.0|-3.74|-0.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.37|-3.74|0.0169
92396114|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.84||0.0049|TWO_SIDED|95.0|-4.04|-0.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.73|-4.04|0.0049
92396115|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.84||0.0008|TWO_SIDED|95.0|-4.48|-1.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.18|-4.48|0.0008
92396116|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.84||0.0428|TWO_SIDED|95.0|-3.36|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.06|-3.36|0.0428
92396117|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.84||0.0004|TWO_SIDED|95.0|-4.65|-1.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.34|-4.65|0.0004
92396118|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.2|STANDARD_ERROR_OF_MEAN|-0.84||1e-05|TWO_SIDED|95.0|-4.88|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.58|-4.88|0.00001
92396119|NCT03192176|184689391|SUPERIORITY||LSMean difference|-4.1|STANDARD_ERROR_OF_MEAN|0.85|<|0.0001|TWO_SIDED|95.0|-5.73|-2.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-2.37|-5.73|<0.0001
92147502|NCT00514683|184180234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.43|STANDARD_ERROR_OF_MEAN|1.312||0.2774|TWO_SIDED|95.0|-1.15|4.01|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.01|-1.15|0.2774
92147503|NCT00514683|184180234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|1.312||0.4014|TWO_SIDED|95.0|-1.48|3.68|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||3.68|-1.48|0.4014
92210017|NCT01996813|184320382|SUPERIORITY||Mean Difference (Final Values)|40.31|||<|0.001|TWO_SIDED|95.0|20.22|60.39|||t-test, 2 sided|A Satterthwaite correction was used to adjust the degrees of freedom||The null hypothesis is that there is no difference in the average length of surgery between patients wearing versus not wearing thigh-high compression stockings during shoulder arthroscopy in the beach chair position||60.39|20.22|<.001
92396120|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.85||0.0225|TWO_SIDED|95.0|-3.64|-0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.28|-3.64|0.0225
92396121|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.84||0.0008|TWO_SIDED|95.0|-4.49|-1.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.19|-4.49|0.0008
92396122|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.84||0.0003|TWO_SIDED|95.0|-4.7|-1.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.42|-4.70|0.0003
92335092|NCT03035916|184573271|OTHER|||||||0.262|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.262
92147504|NCT00514683|184180234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.86|STANDARD_ERROR_OF_MEAN|1.324||0.0314|TWO_SIDED|95.0|0.26|5.46|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||5.46|0.26|0.0314
92147505|NCT00514683|184180234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.97|STANDARD_ERROR_OF_MEAN|1.319||0.0002|TWO_SIDED|95.0|2.37|7.56|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||7.56|2.37|0.0002
92147506|NCT00514683|184180235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.046||0.3644|TWO_SIDED|95.0|-0.05|0.13|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.13|-0.05|0.3644
92210018|NCT05754333|184320389|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.2|1.9|||paired t Test||Mean Difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|||1.9|1.2|<0.001
92396123|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.79||0.1168|TWO_SIDED|95.0|-2.8|0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.31|-2.80|0.1168
92396124|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.79||0.0012|TWO_SIDED|95.0|-4.15|-1.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.03|-4.15|0.0012
92396125|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.79||0.0002|TWO_SIDED|95.0|-4.54|-1.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.42|-4.54|0.0002
92396126|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.9|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|TWO_SIDED|95.0|-5.44|-2.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.28|-5.44|<0.0001
92396127|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.8||0.0134|TWO_SIDED|95.0|-3.58|-0.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.42|-3.58|0.0134
92396128|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.79||0.0057|TWO_SIDED|95.0|-3.76|-0.65||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.65|-3.76|0.0057
92396129|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.79||0.0016|TWO_SIDED|95.0|-4.06|-0.96||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.96|-4.06|0.0016
92396130|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.79||0.0843|TWO_SIDED|95.0|-2.94|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||0.19|-2.94|0.0843
92396131|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.8||0.0035|TWO_SIDED|95.0|-3.9|-0.77||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.77|-3.90|0.0035
92396132|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.8||0.0001|TWO_SIDED|95.0|-4.66|-1.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.52|-4.66|0.0001
92147507|NCT00514683|184180235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.046||0.4525|TWO_SIDED|95.0|-0.06|0.13|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.13|-0.06|0.4525
92210019|NCT05754333|184320390|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.2|1.8|||Sign test||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the index ureter (left or right) for each participant.|||1.8|1.2|<0.001
92396133|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-5.28|-2.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-2.10|-5.28|<0.0001
92396134|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.81||0.0315|TWO_SIDED|95.0|-3.33|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.16|-3.33|0.0315
92396135|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.8||0.0063|TWO_SIDED|95.0|-3.75|-0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.62|-3.75|0.0063
92396136|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.79||0.0007|TWO_SIDED|95.0|-4.25|-1.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.14|-4.25|0.0007
92210020|NCT05754333|184320391|SUPERIORITY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.0|1.7|||paired t test||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|||1.7|1.0|<0.001
92147508|NCT00514683|184180235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.046||0.0471|TWO_SIDED|95.0|0.0|0.18|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.18|0.00|0.0471
92396137|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.81||0.109|TWO_SIDED|95.0|-2.89|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||0.29|-2.89|0.1090
92396138|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.81||0.0018|TWO_SIDED|95.0|-4.14|-0.95||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.95|-4.14|0.0018
92396139|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.81||0.0004|TWO_SIDED|95.0|-4.54|-1.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.34|-4.54|0.0004
92396140|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.8|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|95.0|-5.4|-2.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.15|-5.40|<0.0001
92396141|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.82||0.0231|TWO_SIDED|95.0|-3.5|-0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.26|-3.50|0.0231
92396142|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.81||0.0056|TWO_SIDED|95.0|-3.86|-0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.67|-3.86|0.0056
92396143|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.81||0.0007|TWO_SIDED|95.0|-4.35|-1.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.17|-4.35|0.0007
92396144|NCT03192176|184689391|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.81||0.3568|TWO_SIDED|95.0|-2.35|0.85||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.85|-2.35|0.3568
92396145|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.82||0.0129|TWO_SIDED|95.0|-3.65|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.43|-3.65|0.0129
92396146|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.82||0.0018|TWO_SIDED|95.0|-4.19|-0.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.97|-4.19|0.0018
92396147|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.83||0.0003|TWO_SIDED|95.0|-4.7|-1.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-1.42|-4.70|0.0003
92147509|NCT00514683|184180235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.046||0.0004|TWO_SIDED|95.0|0.08|0.26|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.26|0.08|0.0004
92396148|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.83||0.1004|TWO_SIDED|95.0|-3.0|0.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.27|-3.00|0.1004
92396149|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.82||0.0173|TWO_SIDED|95.0|-3.57|-0.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.35|-3.57|0.0173
92396150|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.81||0.0038|TWO_SIDED|95.0|-3.97|-0.77||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.77|-3.97|0.0038
92396151|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.78||0.1767|TWO_SIDED|95.0|-2.57|0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.48|-2.57|0.1767
92335093|NCT03035916|184573271|OTHER|||||||0.143|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.143
92147510|NCT00514683|184180236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91|STANDARD_ERROR_OF_MEAN|1.702||0.592|TWO_SIDED|95.0|-2.43|4.26|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.26|-2.43|0.5920
92210021|NCT05754333|184320393|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|||||
92396152|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.77||0.0308|TWO_SIDED|95.0|-3.2|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.16|-3.20|0.0308
92396153|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.78||0.0013|TWO_SIDED|95.0|-4.07|-1.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.00|-4.07|0.0013
92396154|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.79||0.0003|TWO_SIDED|95.0|-4.47|-1.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.36|-4.47|0.0003
92396155|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.79||0.2109|TWO_SIDED|95.0|-2.55|0.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.56|-2.55|0.2109
92396156|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.78||0.0152|TWO_SIDED|95.0|-3.44|-0.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.37|-3.44|0.0152
92396157|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.77||0.0075|TWO_SIDED|95.0|-3.61|-0.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.56|-3.61|0.0075
92272778|NCT01032330|184447201|OTHER|||||||0.013|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.013
92272779|NCT01032330|184447201|OTHER|||||||0.26|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.26
92396158|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.8||0.0869|TWO_SIDED|95.0|-2.96|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||0.20|-2.96|0.0869
92396159|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.8||0.052|TWO_SIDED|95.0|-3.14|0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||0.01|-3.14|0.0520
92272780|NCT01032330|184447202|OTHER|||||||0.42|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.42
92272781|NCT01032330|184447202|OTHER|||||||0.61|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.61
92147511|NCT00514683|184180236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|1.702||0.6155|TWO_SIDED|95.0|-2.49|4.2|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.20|-2.49|0.6155
92210022|NCT05754333|184320394|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|||||
92147512|NCT00514683|184180236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.81|STANDARD_ERROR_OF_MEAN|1.716||0.0271|TWO_SIDED|95.0|0.43|7.18|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||7.18|0.43|0.0271
92210023|NCT05754333|184320395|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|||||
92272782|NCT01032330|184447203|OTHER|||||||0.012|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.012
92272783|NCT01032330|184447203|OTHER|||||||0.02|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.02
92272784|NCT01032330|184447204|OTHER|||||||0.002|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||.002
92272785|NCT01032330|184447204|OTHER|||||||0.01|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.01
92272786|NCT01032330|184447205|OTHER|||||||0.11|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.11
92272787|NCT01032330|184447205|OTHER|||||||0.1|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.10
92272788|NCT01032330|184447206|OTHER|||||||0.6|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.60
92272789|NCT01032330|184447206|OTHER|||||||0.09|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.09
92272790|NCT02567266|184447214|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.338|TWO_SIDED|95.0|-0.58|0.2||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Post-Treatment||.20|-.58|.338
92272791|NCT02567266|184447214|SUPERIORITY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.2||0.425|TWO_SIDED|95.0|-0.24|0.57||Threshold: p \<.05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Post Treatment||0.57|-0.24|0.425
92272792|NCT02567266|184447214|SUPERIORITY||Mean Difference (Net)|-0.36|STANDARD_ERROR_OF_MEAN|0.21||0.09|TWO_SIDED|95.0|-0.77|0.06||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Post||0.06|-0.77|0.09
92272793|NCT02567266|184447214|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.2||0.126|TWO_SIDED|95.0|-0.72|0.09||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Follow-Up||0.09|-0.72|0.126
92396160|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.81||0.0009|TWO_SIDED|95.0|-4.3|-1.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.12|-4.30|0.0009
92396161|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.82||0.0002|TWO_SIDED|95.0|-4.68|-1.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.46|-4.68|0.0002
92396162|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.82||0.0456|TWO_SIDED|95.0|-3.25|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 10||-0.03|-3.25|0.0456
92396163|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.81||0.0073|TWO_SIDED|95.0|-3.76|-0.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.59|-3.76|0.0073
92396164|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.8||0.0026|TWO_SIDED|95.0|-4.01|-0.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.86|-4.01|0.0026
92396165|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.78||0.0878|TWO_SIDED|95.0|-2.87|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||0.20|-2.87|0.0878
92396166|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.78||0.0182|TWO_SIDED|95.0|-3.39|-0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.32|-3.39|0.0182
92272794|NCT02567266|184447214|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.21||0.28|TWO_SIDED|95.0|-0.65|0.19||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Follow-Up||0.19|-0.65|0.28
92272795|NCT02567266|184447214|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.21||0.697|TWO_SIDED|95.0|-0.51|0.34||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Follow-Up||0.34|-0.51|0.697
92272796|NCT02567266|184447215|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.26||0.779|TWO_SIDED|95.0|-0.6|0.45||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Follow-Up||0.45|-0.6|0.779
92272797|NCT02567266|184447215|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.27||0.66|TWO_SIDED|95.0|-0.42|0.67||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Follow-Up||0.67|-0.42|0.66
92272798|NCT02567266|184447215|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.629|TWO_SIDED|95.0|-0.51|0.31||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Post||0.31|-0.51|0.629
92272799|NCT02567266|184447215|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.2||0.938|TWO_SIDED|95.0|-0.41|0.38||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Post||0.38|-0.41|0.938
92272800|NCT02567266|184447215|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.21||0.68|TWO_SIDED|95.0|-0.32|0.49||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Post||0.49|-0.32|0.68
92272801|NCT02567266|184447215|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.479|TWO_SIDED|95.0|-0.75|0.35||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Follow-Up||0.35|-0.75|0.479
92272802|NCT02567266|184447216|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|1.58||0.852|TWO_SIDED|95.0|-2.85|3.45||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Post||3.45|-2.85|0.852
92272803|NCT02567266|184447216|SUPERIORITY||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|1.62||0.917|TWO_SIDED|95.0|-3.41|3.07||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Post||3.07|-3.41|0.917
92272804|NCT02567266|184447216|SUPERIORITY||Mean Difference (Net)|0.47|STANDARD_ERROR_OF_MEAN|1.66||0.778|TWO_SIDED|95.0|-2.81|3.74||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Post||3.74|-2.81|0.778
92272805|NCT02567266|184447216|SUPERIORITY||Mean Difference (Net)|0.95|STANDARD_ERROR_OF_MEAN|2.12||0.66|TWO_SIDED|95.0|-3.3|5.19||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Follow-Up||5.19|-3.3|0.66
92272806|NCT02567266|184447216|SUPERIORITY||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|2.19||0.935|TWO_SIDED|95.0|-4.55|4.19||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Follow-Up||4.19|-4.55|0.935
92272807|NCT02567266|184447216|SUPERIORITY||Mean Difference (Net)|1.13|STANDARD_ERROR_OF_MEAN|2.21||0.615|TWO_SIDED|95.0|-3.29|5.55||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Follow-Up||5.55|-3.29|0.615
92396167|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.79||0.0002|TWO_SIDED|95.0|-4.55|-1.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.44|-4.55|0.0002
92396168|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.8||0.0002|TWO_SIDED|95.0|-4.53|-1.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.40|-4.53|0.0002
92396169|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.8||0.0387|TWO_SIDED|95.0|-3.22|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.09|-3.22|0.0387
92396170|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.79||0.0031|TWO_SIDED|95.0|-3.89|-0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.80|-3.89|0.0031
92396171|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.78||0.0029|TWO_SIDED|95.0|-3.88|-0.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.81|-3.88|0.0029
92272808|NCT02020785|184447244|SUPERIORITY|Main analyses were intention-to-treat using mixed effects models allowing intercepts to vary for each individual. Carryover effects were examined by using treatment by assignment-order interaction terms. Pre-specified sensitivity analyses were conducted excluding patients who were non-compliant, prior to data analysis: 1st, noncompliance based on missing product pickups and follow-up visits; 2nd, suspected poor compliance (\< 250 mg difference between the higher and lower period).\]|Mean Difference (Final Values)|0.143||||0.05|TWO_SIDED|95.0|-0.025|0.34||For each outcome, a p value \< 0.05 was considered statistically significant without adjustment for multiple comparisons.|Mixed Models Analysis||Estimate (14.3%, 95% CI: -2.5%, 34.0%) is the estimated difference between end of higher phosphorus period and end of lower phosphorus period from mixed effects analyses for log-transformed 24-hour urine albumin excretion|Sample size for this study was calculated using the xsampsi module in STATA, based on a previous study with repeat 24-hour urine collections (standard deviation, 1.04). At an α level of 0.05, we anticipated that a sample size of 30 participants with mean albuminuria of 100 mg/d would result in \>80% power to detect a 13% difference in log- transformed albuminuria between the higher and lower phosphorus additive periods.||0.34|-0.025|0.05
92272809|NCT02020785|184447245|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.05|TWO_SIDED|95.0|-0.059|0.136||For each outcome, a p value \< 0.05 was considered statistically significant without adjustment for multiple comparisons.|Mixed Models Analysis||Estimate (3.4%, 95% CI: -5.9%, 13.6%) is the estimated difference between end of higher phosphorus period and end of lower phosphorus period from mixed effects analyses for log-transformed fibroblast growth factor 23|||0.136|-0.059|0.05
92272810|NCT02020785|184447246|SUPERIORITY||mean difference (during each period)|-1.1||||0.05|TWO_SIDED|95.0|-4.1|1.9||For each outcome, a p value \< 0.05 was considered statistically significant without adjustment for multiple comparisons.|Mixed Models Analysis|||||1.9|-4.1|0.05
92272811|NCT02020785|184447247|SUPERIORITY||mean difference (during each period)|-0.8||||0.05|TWO_SIDED|95.0|-2.7|1.0||For each outcome, a p value \< 0.05 was considered statistically significant without adjustment for multiple comparisons.|Mixed Models Analysis|||||1.0|-2.7|0.05
92335094|NCT03035916|184573271|OTHER|||||||0.494|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.494
92272812|NCT00701935|184447248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|4.432||0.8252|TWO_SIDED|95.0|-9.92|7.95||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline abdominal visceral fat.||"The power calculation is based on a two-sided t-test and significance level of 0.05.~Hypotheses for sample size:~Power: 80% Drop-out rate: 20% Difference in the percentage change in abdominal visceral fat from baseline to 6 months between exenatide and placebo: 10% Common standard deviation: 15%~94 patients are needed to attain the 37 patients randomized and analyzed in each group."||7.95|-9.92|0.8252
92272813|NCT00701935|184447249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.07|STANDARD_ERROR_OF_MEAN|3.193||0.5207|TWO_SIDED|95.0|-8.53|4.39||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline total abdominal fat.||||4.39|-8.53|0.5207
92272814|NCT00701935|184447250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.71|STANDARD_ERROR_OF_MEAN|2.687||0.1755|TWO_SIDED|95.0|-9.15|1.73||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline subcutaneous abdominal fat.||||1.73|-9.15|0.1755
92272815|NCT00701935|184447251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|0.155|<|0.0001|TWO_SIDED|95.0|-1.19|-0.57||p-values were not adjusted for multiple comparisons.|ANCOVA|ANCOVA analysis included the following factors: treatment, gender, investigator and baseline HbA1c||||-0.57|-1.19|<0.0001
92272816|NCT00701935|184447253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39|STANDARD_ERROR_OF_MEAN|0.491||0.0073|TWO_SIDED|95.0|-2.38|-0.4||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline fasting plasma glucose.||||-0.40|-2.38|0.0073
92272817|NCT00701935|184447254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.21|STANDARD_ERROR_OF_MEAN|0.725||0.0035|TWO_SIDED|95.0|-3.66|-0.76||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline body weight.||||-0.76|-3.66|0.0035
92272818|NCT00701935|184447257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.248||0.4145|TWO_SIDED|95.0|-0.71|0.3||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline total cholesterol||||0.30|-0.71|0.4145
92272819|NCT00701935|184447258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.279||0.4007|TWO_SIDED|95.0|-0.8|0.33||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline triglycerides||||0.33|-0.80|0.4007
92272820|NCT00701935|184447259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.048||0.7915|TWO_SIDED|95.0|-0.08|0.11||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline HDL cholesterol||||0.11|-0.08|0.7915
92396172|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.76||0.0653|TWO_SIDED|95.0|-2.9|0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.09|-2.90|0.0653
92272821|NCT00701935|184447260|SUPERIORITY_OR_OTHER||Ratio|3.28|STANDARD_ERROR_OF_MEAN|2.63||0.1388|TWO_SIDED|95.0|0.68|15.77||p-values were not adjusted for multiple comparisons.|Regression, Linear|Generalized linear model was used with the assumption of an underlying Poisson distribution and the logarithm of exposure (years) as offset variable.||Event rate per subject year was calculated for each subject : (number of events observed from a subject/exposure from a subject)\*365.25 where exposure = last post-baseline visit date - baseline visit date.||15.77|0.68|0.1388
92272822|NCT00947518|184447270|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.99
92272823|NCT00947518|184447271|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANOVA|||||||0.46
92272824|NCT00947518|184447272|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
92272825|NCT00947518|184447273|SUPERIORITY||||||<|0.05|||||||Chi-squared||||For comparison of categorical variables among the three groups, Chi2 test followed by Bonferroni's correction was used.|||<0.05
92272826|NCT02065791|184447274|SUPERIORITY||Hazard Ratio (HR)|0.7|||<|0.0001|TWO_SIDED|95.0|0.59|0.82|||Cox Proportional Hazard|||Comparison for canagliflozin versus placebo is reported here.||0.82|0.59|< 0.0001
92272827|NCT02065791|184447275|SUPERIORITY||Hazard Ratio (HR)|0.69|||=|0.0001|TWO_SIDED|95.0|0.57|0.83|||Cox proportional hazard|||Comparison for canagliflozin versus placebo is reported here.||0.83|0.57|=0.0001
92272828|NCT02065791|184447276|SUPERIORITY||Hazard Ratio (HR)|0.8|||=|0.0121|TWO_SIDED|95.0|0.67|0.95|||Cox proportional hazard|||Comparison for canagliflozin versus placebo is reported here.||0.95|0.67|=0.0121
92272829|NCT02065791|184447277|SUPERIORITY||Hazard Ratio (HR)|0.61|||=|0.0003|TWO_SIDED|95.0|0.47|0.8|||Cox proportional hazards|||Comparison for canagliflozin versus placebo is reported here.||0.80|0.47|=0.0003
92272830|NCT02065791|184447278|SUPERIORITY||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.53|0.81|||Cox proportional hazards|||Comparison for canagliflozin versus placebo is reported here.||0.81|0.53|<0.0001
92272831|NCT02065791|184447279|SUPERIORITY||Hazard Ratio (HR)|0.78|||=|0.0502|TWO_SIDED|95.0|0.61|1.0|||Cox proportional hazards|||Comparison for canagliflozin versus placebo is reported here.||1.00|0.61|=0.0502
92272832|NCT02065791|184447280|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.0727|TWO_SIDED|95.0|0.68|1.02|||Cox proportional hazard|||Comparison for canagliflozin versus placebo is reported here.||1.02|0.68|= 0.0727
92272833|NCT02065791|184447281|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0001|TWO_SIDED|95.0|0.63|0.86|||Cox proportional hazards|||Comparison for canagliflozin versus placebo is reported here.||0.86|0.63|0.0001
92272834|NCT04529096|184447282|SUPERIORITY||Posterior Mean Difference|0.52|||||TWO_SIDED|95.0|-0.1|1.14|||Bayesian Mixed Model Analysis|||||1.14|-0.10|
92272835|NCT04529096|184447283|SUPERIORITY||Posterior Mean Difference|1.05|||||TWO_SIDED|95.0|-0.46|2.56|||Bayesian Mixed Model Analysis|||||2.56|-0.46|
92272836|NCT04529096|184447284|SUPERIORITY||Posterior Mean Difference|0.16|||||TWO_SIDED|95.0|-0.25|0.58|||Bayesian Mixed Model Analysis|||||0.58|-0.25|
92272837|NCT04529096|184447285|SUPERIORITY||Posterior Mean Difference|0.48|||||TWO_SIDED|95.0|-0.19|1.17|||Bayesian Mixed Model Analysis|||||1.17|-0.19|
92147513|NCT00514683|184180236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.47|STANDARD_ERROR_OF_MEAN|1.71||0.0015|TWO_SIDED|95.0|2.11|8.83|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||8.83|2.11|0.0015
92272838|NCT04529096|184447286|SUPERIORITY||Posterior Mean Difference|4.63|||||TWO_SIDED|95.0|-3.51|12.59|||Bayesian Mixed Model Analysis|||||12.59|-3.51|
92272839|NCT04529096|184447287|SUPERIORITY||Posterior Mean Difference|0.05|||||TWO_SIDED|95.0|-0.4|0.51|||Bayesian Mixed Model Analysis|||||0.51|-0.40|
92272840|NCT04529096|184447288|SUPERIORITY||Posterior Mean Difference|-15.18|||||TWO_SIDED|95.0|-206.43|175.8|||Bayesian Mixed Model Analysis|||||175.80|-206.43|
92272841|NCT04529096|184447289|SUPERIORITY||Posterior Mean Difference|-0.05|||||TWO_SIDED|95.0|-0.11|0.01|||Bayesian Mixed Model Analysis|||||0.01|-0.11|
92272842|NCT03467971|184447290|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|175.6652|||||TWO_SIDED|90.0|153.779|200.6664||||||Statistical Analysis for Metformin||200.6664|153.7790|
92272843|NCT03467971|184447290|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|104.457|||||TWO_SIDED|90.0|97.766|111.606||||||Statistical Analysis for Gliclazide||111.6060|97.7660|
92272844|NCT03467971|184447291|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|180.7734|||||TWO_SIDED|90.0|157.0135|208.1287||||||Statistical Analysis for Metformin||208.1287|157.0135|
92272845|NCT03467971|184447291|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|105.0818|||||TWO_SIDED|90.0|98.0047|112.6699||||||Statistical Analysis for Gliclazide||112.6699|98.0047|
92396173|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.76||0.0102|TWO_SIDED|95.0|-3.46|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.47|-3.46|0.0102
92147514|NCT00514683|184180237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|1.692||0.5601|TWO_SIDED|95.0|-2.34|4.31||ANCOVA with fixed terms for treatment, baseline, region.|ANCOVA||Mean difference to placebo is calculated. Negative change indicates worsening.|||4.31|-2.34|0.5601
92210024|NCT05754333|184320396|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|||||
92210025|NCT05754333|184320397|SUPERIORITY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.2|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|||||
92272846|NCT03467971|184447292|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|127.7779|||||TWO_SIDED|90.0|110.2732|148.0612||||||Statistical Analysis for Metformin||148.0612|110.2732|
92272847|NCT03467971|184447292|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|105.4183|||||TWO_SIDED|90.0|94.5723|117.5081||||||Statistical Analysis for Gliclazide||117.5081|94.5723|
92272848|NCT00883129|184447338|SUPERIORITY_OR_OTHER|||||||0.24||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in the FVC %-predicted. Covariates were %-predicted FVC, HRCT-defined extent of lung fibrosis in the lobe of maximum involvement, and terms for time-trend, treatment and treatment-time trend interactions.||||0.24
92272849|NCT00883129|184447338|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||The inferential joint model, as described for the primary analysis, was used to estimate the change from baseline to 24 months for the FVC %-predicted for each treatment arm independently.||||<0.05
92272850|NCT00883129|184447338|SUPERIORITY_OR_OTHER|||||||0.55||||||The threshold for statistical significance was a P-Value of \</=0.05.|Fisher Exact|||Based on the absolute difference between the value of FVC %-predicted at baseline and at 24 months for each subject who returned for a 24-month assessment, a frequency distributions was prepared, stratified by treatment arm, to assess the relative distribution of subjects who either had improvements or worsening in the FVC %-predicted.||||0.55
92272851|NCT00883129|184447339|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in the TLC %-predicted.||||>0.05
92272852|NCT00883129|184447340|SUPERIORITY_OR_OTHER||||||<|0.001||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in the DLCO %-predicted.||||<0.001
92272853|NCT00883129|184447340|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||The inferential joint model, as described for the primary analysis, was used to estimate the change from baseline to 24 months for the DLCO %-predicted for each treatment arm independently.||||>0.05
92272854|NCT00883129|184447341|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in the Quantitative Lung Fibrosis Score for the whole lung (QLF-WL).||||>0.05
92272855|NCT00883129|184447342|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in dyspnea as measured by the Transitional Dyspnea Index Score.||||>0.05
92272856|NCT00883129|184447342|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||The inferential joint model, as described for the primary analysis, was used to estimate the change from baseline to 24 months for dyspnea using the Transitional Dyspnea Index Score for each treatment arm independently.||||<0.05
92272857|NCT00883129|184447344|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in modified Rodnan Skin Score (mRSS).||||>0.05
92272858|NCT00883129|184447344|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||The inferential joint model, as described for the primary analysis, was used to estimate the change from baseline to 24 months for the modified Rodnan Skin Score for each treatment arm independently.||||<0.05
92272859|NCT00883129|184447344|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Fisher Exact|||Based on the absolute difference between the value of the mRSS at baseline and at 24 months for each subject who returned for a 24-month assessment, a frequency distributions was prepared, stratified by treatment arm, to assess the relative distribution of subjects who either had improvements or worsening in the mRSS.||||>0.05
92272860|NCT00883129|184447345|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Fisher Exact|The threshold for statistical significance was met only for the frequency of leukopenia and thrombocytopenia, but not for total SAE or death.||Fisher's Exact Test was utilized to compare the number of participants with a protocol-defined adverse event of interest, SAE or death between the MMF and CYC treatment arms.||||<0.05
92272861|NCT00883129|184447346|SUPERIORITY_OR_OTHER|||||||0.019||||||The threshold for statistical significance was a P-Value of \</=0.05.|Log Rank|||A log-rank test was utilized to assess differences between the MMF and CYC treatment arms with respect to the time to withdrawal from study drug or meeting protocol-defined criteria for treatment failure.||||0.019
92272862|NCT03273257|184447347|SUPERIORITY|||||||0.139|||||||2-sample Wilcoxon rank sum test|||The null hypothesis is that there is no difference between the treatment groups in percent change from baseline in PVR immediately before PEA.||||0.139
92272863|NCT00759759|184447418|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|90.46||||||90.0|82.9|98.7|||ANOVA|||ANOVA of ln-transformed plasma morphine Cmax||98.7|82.9|
92396174|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.77||0.0002|TWO_SIDED|95.0|-4.38|-1.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-1.36|-4.38|0.0002
92272864|NCT00759759|184447420|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA performed on the ratio of geometric means|mean ratio|101.1||||||90.0|96.9|105.4|||ANOVA|||Statistical analysis of ln-transformed plasma morphine AUClast||105.4|96.9|
92272865|NCT00759759|184447421|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|101.3||||||90.0|96.2|106.7|||ANOVA|||||106.7|96.2|
92272866|NCT01556165|184447422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|1.32||0.0254|TWO_SIDED|75.0|-4.53|-1.47||No adjustments for multiple comparisons were made.|ANCOVA|||This study was designed to show a trend, that is, to show a clinical difference in the primary efficacy analysis, at a two-sided significance level of 0.25. Assuming a difference between rasagiline and placebo of a 3-point change in the UPDRS total score and a standard deviation on the change from baseline of 7 points, a sample size of 60 patients per treatment group gave an 88% probability of showing a trend. LOCF (last observation carried forward) was used.||-1.47|-4.53|0.0254
92272867|NCT01556165|184447423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.21||0.0032|TWO_SIDED|95.0|-1.03|-0.21|||ANCOVA|The same ANCOVA methodology as for the primary endpoint was used.||LOCF (last observation carried forward) was used.||-0.21|-1.03|0.0032
92272868|NCT01556165|184447424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.52||0.1963|TWO_SIDED|95.0|-1.7|0.35|||ANCOVA|The same ANCOVA methodology as for the primary endpoint was used.||LOCF (last observation carried forward) was used.||0.35|-1.70|0.1963
92272869|NCT01556165|184447425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|0.91||0.0641|TWO_SIDED|95.0|-3.52|0.1|||ANCOVA|The same ANCOVA methodology as for the primary endpoint was used.||LOCF (last observation carried forward) was used.||0.10|-3.52|0.0641
92272870|NCT02450760|184447451|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
92272871|NCT02450760|184447452|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||||||0.95
92272872|NCT02450760|184447456|SUPERIORITY|||||||0.15|||||||Chi-squared|||||||0.15
92272873|NCT02450760|184447457|SUPERIORITY|||||||0.83|||||||Chi-squared|||||||0.83
92272874|NCT02450760|184447458|SUPERIORITY|||||||0.26|||||||Chi-squared|||||||0.26
92272875|NCT01246973|184447461|SUPERIORITY_OR_OTHER|||||||0.6555|TWO_SIDED||||||F-test|||||||0.6555
92272876|NCT01246973|184447462|SUPERIORITY_OR_OTHER|||||||0.3504|TWO_SIDED||||||Chi-squared|||||||0.3504
92272877|NCT02292433|184447528|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.96|STANDARD_ERROR_OF_MEAN|4.841||0.0032|TWO_SIDED|90.0|-28.93|-10.98|||Mixed Models Analysis|||Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-10.98|-28.93|0.0032
92272878|NCT02292433|184447528|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.06|STANDARD_ERROR_OF_MEAN|3.172|<|0.0001|TWO_SIDED|90.0|-46.77|-35.35|||Mixed Models Analysis|||Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-35.35|-46.77|<0.0001
92272879|NCT02292433|184447529|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.18|STANDARD_ERROR_OF_MEAN|2.851||0.0006|TWO_SIDED|90.0|-17.16|-7.21|||Mixed Models Analysis|||Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-7.21|-17.16|0.0006
92396175|NCT03192176|184689391|SUPERIORITY||LSMean difference|-3.2|STANDARD_ERROR_OF_MEAN|0.78|<|0.0001|TWO_SIDED|95.0|-4.72|-1.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-1.67|-4.72|<0.0001
92396176|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.78||0.0231|TWO_SIDED|95.0|-3.3|-0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.25|-3.30|0.0231
92396177|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.78||0.0021|TWO_SIDED|95.0|-3.88|-0.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.87|-3.88|0.0021
92396178|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.76||0.0021|TWO_SIDED|95.0|-3.88|-0.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.87|-3.88|0.0021
92396179|NCT03192176|184689391|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.76||0.0013|TWO_SIDED|95.0|-3.96|-0.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.97|-3.96|0.0013
92396180|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.84||0.146|TWO_SIDED|95.0|-2.89|0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.43|-2.89|0.1460
92396181|NCT03192176|184689391|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.84||0.6066|TWO_SIDED|95.0|-2.1|1.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||1.23|-2.10|0.6066
92396182|NCT03192176|184689391|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.87||0.8422|TWO_SIDED|95.0|-1.88|1.54||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||1.54|-1.88|0.8422
92396183|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.87||0.2346|TWO_SIDED|95.0|-2.74|0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.67|-2.74|0.2346
92396184|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.87||0.1128|TWO_SIDED|95.0|-3.11|0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.33|-3.11|0.1128
92396185|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.87||0.1811|TWO_SIDED|95.0|-2.89|0.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.55|-2.89|0.1811
92396186|NCT03192176|184689391|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.84||0.3521|TWO_SIDED|95.0|-2.45|0.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.87|-2.45|0.3521
92396187|NCT03192176|184689391|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.84||0.357|TWO_SIDED|95.0|-2.44|0.88||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.88|-2.44|0.3570
92396188|NCT03192176|184689391|SUPERIORITY||LSMean differencce|-0.1|STANDARD_ERROR_OF_MEAN|0.84||0.9227|TWO_SIDED|95.0|-1.73|1.57||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.57|-1.73|0.9227
92272880|NCT02292433|184447529|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.81|STANDARD_ERROR_OF_MEAN|2.821|<|0.0001|TWO_SIDED|90.0|-30.73|-20.88|||Mixed Models Analysis|||Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-20.88|-30.73|<0.0001
92272881|NCT02292433|184447530|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.521|STANDARD_ERROR_OF_MEAN|0.7237||0.0447|TWO_SIDED|90.0|-2.752|-0.29|||Mixed Models Analysis|||Analysis for pre-breakfast. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-0.290|-2.752|0.0447
92272882|NCT02292433|184447530|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.949|STANDARD_ERROR_OF_MEAN|0.7249||0.0119|TWO_SIDED|90.0|-3.183|-0.716|||Mixed Models Analysis|||Analysis for pre-breakfast. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-0.716|-3.183|0.0119
92272883|NCT02292433|184447530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.967|STANDARD_ERROR_OF_MEAN|2.3324||0.6873|TWO_SIDED|90.0|-5.195|3.261|||Mixed Models Analysis|||Analysis for pre-lunch. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||3.261|-5.195|0.6873
92272884|NCT02292433|184447530|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.439|STANDARD_ERROR_OF_MEAN|0.9533||0.0659|TWO_SIDED|90.0|-4.502|-0.377|||Mixed Models Analysis|||Analysis for pre-lunch. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-0.377|-4.502|0.0659
92272885|NCT02292433|184447530|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.358|STANDARD_ERROR_OF_MEAN|1.5994||0.4031|TWO_SIDED|90.0|-4.079|1.363|||Mixed Models Analysis|||Analysis for pre-dinner. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||1.363|-4.079|0.4031
92272886|NCT02292433|184447530|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.766|STANDARD_ERROR_OF_MEAN|1.5951||0.0254|TWO_SIDED|90.0|-6.479|-1.052|||Mixed Models Analysis|||Analysis for pre-dinner. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-1.052|-6.479|0.0254
92272887|NCT02292433|184447531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.069||0.0067|TWO_SIDED|90.0|-0.33|-0.09|||Mixed Models Analysis|||Analysis for pre-breakfast. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-0.09|-0.33|0.0067
92272888|NCT02292433|184447531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.071||0.0282|TWO_SIDED|90.0|-0.29|-0.05|||Mixed Models Analysis|||Analysis for pre-breakfast. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-0.05|-0.29|0.0282
92272889|NCT02292433|184447531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.118||0.7877|TWO_SIDED|90.0|-0.18|0.25|||Mixed Models Analysis|||Analysis for pre-lunch. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||0.25|-0.18|0.7877
92272890|NCT02292433|184447531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.156||0.5064|TWO_SIDED|90.0|-0.17|0.39|||Mixed Models Analysis|||Analysis for pre-lunch. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||0.39|-0.17|0.5064
92272891|NCT02292433|184447531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.293||0.4072|TWO_SIDED|90.0|-0.75|0.25|||Mixed Models Analysis|||Analysis for pre-dinner. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||0.25|-0.75|0.4072
92272892|NCT02292433|184447531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.295||0.1422|TWO_SIDED|90.0|-0.95|0.06|||Mixed Models Analysis|||Analysis for pre-dinner. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||0.06|-0.95|0.1422
92272893|NCT02239601|184447532|OTHER||Odds Ratio (OR)|0.41||||0.053|TWO_SIDED|95.0|0.17|1.01|||Mixed Models Analysis|||||1.01|0.17|0.053
92272894|NCT04682639|184447539|OTHER||LS mean difference|-18.54||||0.0103|TWO_SIDED|95.0|-32.6|-4.49|||ANCOVA||Estimates were from ANCOVA model for rank score of percent change from baseline in esophageal PEC.|||-4.49|-32.60|0.0103
92272895|NCT04682639|184447539|OTHER||LS mean difference|-7.53||||0.2861|TWO_SIDED|95.0|-21.48|6.42|||ANCOVA||Estimates were from ANCOVA model for rank score of percent change from baseline in esophageal PEC.|||6.42|-21.48|0.2861
92272896|NCT04682639|184447540|OTHER||LS mean difference|2.38||||0.4894|TWO_SIDED|95.0|-4.43|9.19|||Linear mixed effects model|||||9.19|-4.43|0.4894
92272897|NCT04682639|184447540|OTHER||LS mean difference|4.7||||0.1671|TWO_SIDED|95.0|-2.0|11.41|||Linear mixed effects model|||||11.41|-2.00|0.1671
92272898|NCT04682639|184447541|OTHER||LS mean difference|-54.53||||0.0565|TWO_SIDED|95.0|-110.59|1.54|||ANCOVA|||||1.54|-110.59|0.0565
92272899|NCT04682639|184447541|OTHER||LS mean difference|-13.95||||0.6193|TWO_SIDED|95.0|-69.61|41.71|||ANCOVA|||||41.71|-69.61|0.6193
92272900|NCT04682639|184447542|OTHER||Adjusted difference from placebo|21.9||||0.0007|TWO_SIDED|95.0|9.23|34.57|||Mantel Haenszel|||||34.57|9.23|0.0007
92272901|NCT04682639|184447542|OTHER||Adjusted difference from placebo|13.85||||0.0121|TWO_SIDED|95.0|3.03|24.66|||Mantel Haenszel|||||24.66|3.03|0.0121
92272902|NCT04682639|184447543|OTHER||Adjusted difference from placebo|12.15||||0.0173|TWO_SIDED|95.0|2.15|22.16|||Mantel Haenszel|||||22.16|2.15|0.0173
92272903|NCT04682639|184447543|OTHER||Adjusted difference from placebo|8.37||||0.059|TWO_SIDED|95.0|-0.32|17.07|||Mantel Haenszel|||||17.07|-0.32|0.0590
92272904|NCT00331773|184447584|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This trial was designed to establish with 90% power and a two-sided significance level of 0.05 that Arm 2 (Hypofractionated 3D-CRT) results in a 5-year DFS that is not lower than Arm 1 by more than 7.65% (hazard ratio \[HR\] , 1.52). Patients analyzed according to assignment, with time-to event duration originating at random assignment. DFS distributions calculated using the Kaplan-Meier method. Treatment efficacy for DFS was tested by comparing cause-specific hazards with the log-rank statistic.|Hazard Ratio (HR)|0.85|||<|0.001|TWO_SIDED|95.0|0.64|1.14|||Log Rank||Reference arm = Conventional 3D-CRT|||1.14|0.64|<0.001
92272905|NCT00331773|184447587|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Patients who died without biochemical failure were considered as competing risk at the time of death. Patients alive without biochemical failure at last follow-up were censored at that date. Estimates were calculated using cumulative risk and non-inferiority was assessed against a HR of 1.67. The log-rank test was used with a two-sided p-value of 0.05.|Hazard Ratio (HR)|0.77|||<|0.001|TWO_SIDED|95.0|0.51|1.17|||Log Rank||Reference arm = Conventional 3D-CRT|||1.17|0.51|< 0.001
92147515|NCT00514683|184180237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|1.694||0.6366|TWO_SIDED|95.0|-2.53|4.13|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.13|-2.53|0.6366
92272906|NCT00331773|184447588|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was assessed against a HR of 1.54, translated from a 5% difference in overall survival with 90% overall survival in the Conventional 3D-CRT arm. The log-rank test was used with a two-sided p-value of 0.05.|Hazard Ratio (HR)|0.95||||0.008|TWO_SIDED|95.0|0.64|1.41|||Log Rank||Reference arm = Conventional 3D-CRT|||1.41|0.64|0.008
92272907|NCT00331773|184447589|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.03||||0.85|TWO_SIDED|95.0|0.73|1.46||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Acute GI toxicity rates were tabulated and dichotomized as \< grade 2 vs ≥ grade 2. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% confidence intervals (CIs) were computed.||1.46|0.73|0.85
92272908|NCT00331773|184447589|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.31||||0.72|TWO_SIDED|95.0|0.29|5.81||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Acute GI toxicity rates were tabulated and dichotomized as \< grade 3 vs ≥ grade 3. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||5.81|0.29|0.72
92272909|NCT00331773|184447589|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.99||||0.95|TWO_SIDED|95.0|0.82|1.21||2-sided|Regression, Logistic||Reference Arm = Conventional 3D-CRT|Acute GU toxicity rates were tabulated and dichotomized as \< grade 2 vs ≥ grade 2. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||1.21|0.82|0.95
92272910|NCT00331773|184447589|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.36||||0.39|TWO_SIDED|95.0|0.67|2.74||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Acute GU toxicity rates were tabulated and dichotomized as \< grade 3 vs ≥ grade 3. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||2.74|0.67|0.39
92272911|NCT00331773|184447589|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.59||||0.005|TWO_SIDED|95.0|1.22|2.06||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Late GI toxicity rates were tabulated and dichotomized as \< grade 2 vs ≥ grade 2. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||2.06|1.22|0.005
92272912|NCT00331773|184447589|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.55||||0.19|TWO_SIDED|95.0|0.8|2.99||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Late GI toxicity rates were tabulated and dichotomized as \< grade 3 vs ≥ grade 3. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||2.99|0.80|0.19
92272913|NCT00331773|184447589|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.31||||0.009|TWO_SIDED|95.0|1.07|1.61||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Late GU toxicity rates were tabulated and dichotomized as \< grade 2 vs ≥ grade 2. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||1.61|1.07|0.009
92396189|NCT03192176|184689391|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.87||0.8894|TWO_SIDED|95.0|-1.84|1.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.60|-1.84|0.8894
92210026|NCT05754333|184320398|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.6|||||||||||Mean Difference is calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|||||
92210027|NCT05754333|184320399|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|||||
92272914|NCT00331773|184447589|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.56||||0.22|TWO_SIDED|95.0|0.76|3.18||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Late GU toxicity rates were tabulated and dichotomized as \< grade 3 vs ≥ grade 3. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||3.18|0.76|0.22
92272915|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||EPIC Bowel Domain at 6 months||||0.72
92272916|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.056|||||||Wilcoxon (Mann-Whitney)|||EPIC Urinary Domain at 6 months||||0.056
92272917|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||EPIC Sexual Domain at 6 months||||0.99
92272918|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||EPIC Hormonal Domain at 6 months||||0.49
92272919|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0037|||||||Wilcoxon (Mann-Whitney)|||EPIC Bowel Domain at 12 months||||0.0037
92272920|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||EPIC Urinary Domain at 12 months||||0.062
92272921|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||EPIC Sexual Domain at 12 months||||0.94
92272922|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|||||||Wilcoxon (Mann-Whitney)|||EPIC Hormonal Domain at 12 months||||0.93
92272923|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||EPIC Bowel Domain at 24 months||||0.12
92272924|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||EPIC Urinary Domain at 24 months||||0.81
92272925|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||EPIC Sexual Domain at 24 months||||0.69
92272926|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||EPIC Hormonal Domain at 24 months||||0.68
92272927|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.071|||||||Wilcoxon (Mann-Whitney)|||EPIC Bowel Domain at 60 months||||0.071
92272928|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||EPIC Urinary Domain at 60 months||||0.047
92272929|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||EPIC Sexual Domain at 60 months||||0.4
92272930|NCT00331773|184447590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||EPIC Hormonal Domain at 60 months||||0.91
92396190|NCT03192176|184689391|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.87||0.5074|TWO_SIDED|95.0|-2.29|1.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.13|-2.29|0.5074
92396191|NCT03192176|184689391|SUPERIORITY||LSMean differencce|-1.2|STANDARD_ERROR_OF_MEAN|0.87||0.1753|TWO_SIDED|95.0|-2.91|0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.53|-2.91|0.1753
92396192|NCT03192176|184689391|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.88||0.1212|TWO_SIDED|95.0|-3.09|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.36|-3.09|0.1212
92396193|NCT03192176|184689391|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.84||0.3702|TWO_SIDED|95.0|-2.41|0.9||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.90|-2.41|0.3702
92396194|NCT03192176|184689391|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|0.81||0.6459|TWO_SIDED|95.0|-1.22|1.96||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.96|-1.22|0.6459
92396195|NCT03192176|184689391|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.8||0.8248|TWO_SIDED|95.0|-1.4|1.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.75|-1.40|0.8248
92396196|NCT03192176|184689391|SUPERIORITY||LSMean difference|0.7|STANDARD_ERROR_OF_MEAN|0.84||0.4226|TWO_SIDED|95.0|-0.98|2.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||2.33|-0.98|0.4226
92396197|NCT03192176|184689391|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|0.83||0.6469|TWO_SIDED|95.0|-1.25|2.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||2.01|-1.25|0.6469
92396198|NCT03192176|184689391|SUPERIORITY||LSMean difference|0.3|STANDARD_ERROR_OF_MEAN|0.84||0.7642|TWO_SIDED|95.0|-1.41|1.91||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.91|-1.41|0.7642
92147516|NCT00514683|184180237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.84|STANDARD_ERROR_OF_MEAN|1.702||0.0246|TWO_SIDED|95.0|0.49|7.18|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||7.18|0.49|0.0246
92396199|NCT03192176|184689391|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.84||0.4068|TWO_SIDED|95.0|-2.36|0.966||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.966|-2.36|0.4068
92396200|NCT03192176|184689391|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.8||0.7974|TWO_SIDED|95.0|-1.37|1.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.78|-1.37|0.7974
92396201|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.78||0.0297|TWO_SIDED|95.0|-3.23|-0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.17|-3.23|0.0297
92396202|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.78|<|0.0001|TWO_SIDED|95.0|-4.66|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.58|-4.66|<0.0001
92396203|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.6|STANDARD_ERROR_OF_MEAN|0.78|<|1e-05|TWO_SIDED|95.0|-5.1|-2.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-2.02|-5.10|<0.00001
92147517|NCT00514683|184180237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.44|STANDARD_ERROR_OF_MEAN|1.7||0.0015|TWO_SIDED|95.0|2.1|8.78|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||8.78|2.10|0.0015
92147518|NCT00514683|184180238|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.911||||0.7543|TWO_SIDED|95.0|0.506|1.637|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.637|0.506|0.7543
92210028|NCT05754333|184320400|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|||||
92210029|NCT05754333|184320401|SUPERIORITY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.2|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|||||
92272931|NCT00331773|184447592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||The distribution of HSCL-25 at 6 months was calculated, and Wilcoxon test statistics were used to test the null hypothesis that responses are the same across the two treatment arms versus the alternative hypothesis that they are different. Significance level = 0.0125, two-sided test.||||0.55
92272932|NCT00331773|184447592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||The distribution of HSCL-25 at 12 months was calculated, and Wilcoxon test statistics were used to test the null hypothesis that responses are the same across the two treatment arms versus the alternative hypothesis that they are different. Significance level = 0.0125, two-sided test.||||0.29
92272933|NCT00331773|184447592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||The distribution of HSCL-25 at 24 months was calculated, and Wilcoxon test statistics were used to test the null hypothesis that responses are the same across the two treatment arms versus the alternative hypothesis that they are different. Significance level = 0.0125, two-sided test.||||0.23
92272934|NCT00331773|184447592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||The distribution of HSCL-25 at 60 months (5 years) was calculated, and Wilcoxon test statistics were used to test the null hypothesis that responses are the same across the two treatment arms versus the alternative hypothesis that they are different. Significance level = 0.0125, two-sided test.||||0.028
92272935|NCT00331773|184447593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level = 0.05||Baseline VAS score||||0.037
92272936|NCT00331773|184447593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||Baseline index score||||0.12
92272937|NCT00331773|184447593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||6-month VAS score||||0.70
92272938|NCT00331773|184447593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||6-month index score||||0.20
92396204|NCT03192176|184689392|SUPERIORITY||LSMean difference|-4.2|STANDARD_ERROR_OF_MEAN|0.79|<|0.0001|TWO_SIDED|95.0|-5.78|-2.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-2.66|-5.78|<0.0001
92210030|NCT05754333|184320402|SUPERIORITY||POP with at least 1 Point Higher|67.01|||||||||||||Difference in average index ureter conspicuity scores between NIR-F \& WL across all timepoints was calculated for each participant. These were categorized based on if NIR-F score was at least 1 point higher. POP meeting this criterion was estimated.|||||
92272939|NCT00331773|184447593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||12-month VAS score||||0.31
92272940|NCT00331773|184447593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||12-month index score||||0.19
92272941|NCT00331773|184447593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||24-month VAS score||||0.86
92272942|NCT00331773|184447593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||24-month index score||||0.45
92272943|NCT00331773|184447593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||60-month VAS score||||0.39
92272944|NCT00331773|184447593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||60-month index score||||0.56
92272945|NCT01430182|184447643|SUPERIORITY_OR_OTHER|||||||0.37|||||||t-test, 1 sided|unpaired||||||0.37
92272946|NCT00775983|184447685|NON_INFERIORITY_OR_EQUIVALENCE|Power: We assumed a standard deviation of five minutes based on historical clinic data for surgical abortions during this gestational duration range, a non-inferiority margin of five minutes, and a 10% potential attrition rate to power the study for a non-inferiority hypothesis. Thirty participants in each arm gave us 95% power to conclude non-inferiority of same day Dilapan-S compared to overnight laminaria with respect to procedure time of surgical abortions between 14-18 weeks gestation.|Mean Difference (Final Values)|2.1|||||TWO_SIDED|97.5|-0.3|4.5|||t-test, 2 sided|||Null Hypothesis: A surgical abortion performed between 14-18 weeks gestation performed after the cervix has been prepared with same-day Dilapan-S is inferior with respect to procedure time, which is specifically outside a five minute margin of non-inferiority, when compared to procedures during the same gestational duration range performed after the cervix has been prepared overnight with laminaria.||4.5|-0.3|
92272947|NCT02660385|184447727|SUPERIORITY||Effect Size|-0.6||||0.0002|TWO_SIDED||||||Generalized Linear Mixed Model (GLMM)|GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.||||||0.0002
92272948|NCT02660385|184447728|SUPERIORITY|||||||0.0723||||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0723
92272949|NCT02660385|184447729|SUPERIORITY||effect size|0.42||||0.011|TWO_SIDED||||||GLMM|GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.||||||0.0110
92272950|NCT02660385|184447730|SUPERIORITY||effect size|-0.7|||<|0.0001|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||<0.0001
92272951|NCT02660385|184447731|SUPERIORITY||effect size|-0.12||||0.4356|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.4356
92272952|NCT02660385|184447732|SUPERIORITY|||||||0.0148||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0148
92272953|NCT02660385|184447733|SUPERIORITY|||||||0.013||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0130
92272954|NCT02660385|184447734|SUPERIORITY|||||||0.013||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0130
92147519|NCT00514683|184180238|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.136||||0.6704|TWO_SIDED|95.0|0.631|2.045|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||2.045|0.631|0.6704
92147520|NCT00514683|184180238|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.657||||0.1649|TWO_SIDED|95.0|0.363|1.189|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.189|0.363|0.1649
92147521|NCT00514683|184180238|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.415||||0.0041|TWO_SIDED|95.0|0.227|0.757|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||0.757|0.227|0.0041
92147522|NCT00514683|184180239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.278||||0.5882|TWO_SIDED|95.0|0.526|3.102|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||3.102|0.526|0.5882
92210031|NCT05754333|184320402|SUPERIORITY||POP with at least 2 point higher|40.4|||||||||||||Difference in average index ureter conspicuity scores between NIR-F \& WL across all timepoints was calculated for each participant. These were categorized based on if NIR-F score was at least 2 points higher. POP meeting this criterion was estimated.|||||
92272955|NCT02660385|184447735|SUPERIORITY|||||||0.013||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0130
92272956|NCT02660385|184447736|SUPERIORITY|||||||0.6358||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.6358
92272957|NCT02660385|184447737|SUPERIORITY||effect size|0.35||||0.0318|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0318
92272958|NCT02660385|184447738|SUPERIORITY|||||||0.2722||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.2722
92272959|NCT02660385|184447739|SUPERIORITY||effect size|-0.27||||0.0954|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0954
92272960|NCT02660385|184447740|SUPERIORITY|||||||0.4222||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.4222
92272961|NCT02660385|184447741|SUPERIORITY||effect size|0.09||||0.5781|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.5781
92272962|NCT02660385|184447742|SUPERIORITY|||||||0.1238||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.1238
92272963|NCT02660385|184447743|SUPERIORITY||effect size|-0.3||||0.0558|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0558
92272964|NCT02660385|184447744|SUPERIORITY|||||||0.023||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0230
92272965|NCT02660385|184447745|SUPERIORITY||effect size|0.06||||0.4597|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.4597
92272966|NCT02660385|184447746|SUPERIORITY|||||||0.1943||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.1943
92272967|NCT02660385|184447747|SUPERIORITY||effect size|-0.23||||0.0027|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0027
92272968|NCT02660385|184447748|SUPERIORITY|||||||0.0792||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0792
92147523|NCT00514683|184180239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||0.0653|TWO_SIDED|95.0|0.078|1.081|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.081|0.078|0.0653
92147524|NCT00514683|184180239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35||||0.0847|TWO_SIDED|95.0|0.106|1.154|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.154|0.106|0.0847
92147525|NCT00514683|184180239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.732||||0.5383|TWO_SIDED|95.0|0.271|1.977|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.977|0.271|0.5383
92147526|NCT00514683|184180240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.483||0.3658|TWO_SIDED|95.0|-0.51|1.39|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||1.39|-0.51|0.3658
92147527|NCT00514683|184180240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.478||0.4956|TWO_SIDED|95.0|-0.61|1.27|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||1.27|-0.61|0.4956
92147528|NCT00514683|184180240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|0.482||0.0051|TWO_SIDED|95.0|0.41|2.31|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||2.31|0.41|0.0051
92272969|NCT02660385|184447749|SUPERIORITY||effect size|0.13||||0.0656|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0656
92272970|NCT02660385|184447750|SUPERIORITY|||||||0.2174||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.2174
92272971|NCT02660385|184447751|SUPERIORITY||effect size|0.07||||0.7028|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.7028
92147529|NCT00514683|184180240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|0.483||0.0211|TWO_SIDED|95.0|0.17|2.07|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||2.07|0.17|0.0211
92147530|NCT00514683|184180241|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.428||||0.1021|TWO_SIDED|95.0|0.155|1.184|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.184|0.155|0.1021
92147531|NCT00514683|184180241|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.682||||0.4318|TWO_SIDED|95.0|0.262|1.773|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.773|0.262|0.4318
92147532|NCT00514683|184180241|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.412||||0.0934|TWO_SIDED|95.0|0.146|1.161|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.161|0.146|0.0934
92147533|NCT00514683|184180241|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.313||||0.0317|TWO_SIDED|95.0|0.108|0.903|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||0.903|0.108|0.0317
92272972|NCT02660385|184447752|SUPERIORITY|||||||0.0509||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0509
92396205|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.79||0.1318|TWO_SIDED|95.0|-2.76|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.36|-2.76|0.1318
92147534|NCT00514683|184180242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|2.33||0.6443|TWO_SIDED|95.0|-5.66|3.51|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||3.51|-5.66|0.6443
92147535|NCT00514683|184180242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31|STANDARD_ERROR_OF_MEAN|2.28||0.5656|TWO_SIDED|95.0|-5.8|3.18|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||3.18|-5.80|0.5656
92147536|NCT00514683|184180242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|2.24||0.9181|TWO_SIDED|95.0|-4.18|4.64|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.64|-4.18|0.9181
92147537|NCT00514683|184180242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|2.387||0.697|TWO_SIDED|95.0|-3.77|5.63|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||5.63|-3.77|0.6970
92147538|NCT00514683|184180243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|2.49||0.9811|TWO_SIDED|95.0|-4.84|4.96|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.96|-4.84|0.9811
92147539|NCT00514683|184180243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01|STANDARD_ERROR_OF_MEAN|2.412||0.6772|TWO_SIDED|95.0|-3.74|5.75|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||5.75|-3.74|0.6772
92147540|NCT00514683|184180243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|2.379||0.8631|TWO_SIDED|95.0|-4.27|5.09|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||5.09|-4.27|0.8631
92210032|NCT05754333|184320402|SUPERIORITY||POP with at least 3 point higher|20.2|||||||||||||Difference in average index ureter conspicuity scores between NIR-F \& WL across all timepoints was calculated for each participant. These were categorized based on if NIR-F score was at least 3 points higher. POP meeting this criterion was estimated.|||||
92210033|NCT05754333|184320402|SUPERIORITY||POP with at least 4 point higher|2.1|||||||||||||Difference in average index ureter conspicuity scores between NIR-F \& WL across all timepoints was calculated for each participant. These were categorized based on if NIR-F score was at least 4 points higher. POP meeting this criterion was estimated|||||
92272973|NCT02660385|184447753|SUPERIORITY||Mean Difference (Final Values)|275.0|STANDARD_ERROR_OF_MEAN|1525.0||0.955|TWO_SIDED|95.0|-3288.0|2739.0|||t-test, 2 sided|||||2739|-3288|0.955
92272974|NCT02660385|184447754|SUPERIORITY|||||||0.013||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0130
92147541|NCT00514683|184180243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.35|STANDARD_ERROR_OF_MEAN|2.523||0.5942|TWO_SIDED|95.0|-3.62|6.31|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||6.31|-3.62|0.5942
92147542|NCT00514683|184180244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|0.715||0.2716|TWO_SIDED|95.0|-0.62|2.19|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||2.19|-0.62|0.2716
92147543|NCT00514683|184180244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.696||0.7871|TWO_SIDED|95.0|-1.18|1.56|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||1.56|-1.18|0.7871
92147544|NCT00514683|184180244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.685||0.8721|TWO_SIDED|95.0|-1.46|1.24|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||1.24|-1.46|0.8721
92272975|NCT02660385|184447755|SUPERIORITY||effect size|-0.05||||0.7496|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.7496
92272976|NCT02660385|184447756|SUPERIORITY||effect size|0.06||||0.3821|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.3821
92272977|NCT02660385|184447757|SUPERIORITY|||||||0.7204||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.7204
92272978|NCT02354976|184447941|OTHER||Geometric mean ratio for difference|0.92||||0.407|TWO_SIDED|95.0|0.76|1.12|||Mixed Models Analysis|||||1.12|0.76|0.407
92147545|NCT00514683|184180244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.734||0.8523|TWO_SIDED|95.0|-1.58|1.31|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||1.31|-1.58|0.8523
92147546|NCT00514683|184180245|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.093||||0.7997|TWO_SIDED|95.0|0.549|2.175|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||2.175|0.549|0.7997
92147547|NCT00514683|184180245|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.916||||0.7989|TWO_SIDED|95.0|0.467|1.797|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.797|0.467|0.7989
92147548|NCT00514683|184180245|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.4596|TWO_SIDED|95.0|0.403|1.508|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.508|0.403|0.4596
92210034|NCT05754333|184320403|SUPERIORITY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.6|2.2|||paired t test||Mean Difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 2||2.2|1.6|<0.001
92210035|NCT05754333|184320403|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.221|||||TWO_SIDED|95.0|-0.011|0.431||||||CCC between BICR and investigator (95% CI), Reader 2||0.431|-0.011|
92272979|NCT02354976|184447942|OTHER||Geometric mean ratio for difference|0.84||||0.077|TWO_SIDED|95.0|0.7|1.02|||Mixed Models Analysis|||||1.02|0.70|0.077
92272980|NCT00068445|184447945|SUPERIORITY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||||||0.56
92272981|NCT00068445|184447946|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
92272982|NCT00068445|184447947|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
92272983|NCT00068445|184447948|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
92272984|NCT00068445|184447949|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
92272985|NCT00068445|184447950|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
92272986|NCT00068445|184447951|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
92272987|NCT00068445|184447952|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
92272988|NCT00068445|184447953|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
92272989|NCT00068445|184447954|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92272990|NCT01155284|184447955|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED|||||The p value between treatment groups of C-peptide log (AUC+1) with covariate analysis adjusted for age, sex, baseline C-peptide concentration and duration of diabetes.|ANCOVA|||||||0.81
92147549|NCT00514683|184180245|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.665||||0.2548|TWO_SIDED|95.0|0.33|1.341|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.341|0.330|0.2548
92147550|NCT00514683|184180246|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.051||||0.8887|TWO_SIDED|95.0|0.521|2.122|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||2.122|0.521|0.8887
92147551|NCT00514683|184180246|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.216||||0.5758|TWO_SIDED|95.0|0.613|2.41|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||2.410|0.613|0.5758
92272991|NCT01155284|184447956|SUPERIORITY_OR_OTHER|||||||0.869|TWO_SIDED||||||ANCOVA|||||||0.869
92272992|NCT00123487|184447965|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the QD schedule relative to the BID schedule was claimed if the lower bound of the 95% CI for difference (QD - BD) was ≥ -12%.|Percent Difference|0.2|||||TWO_SIDED|95.0|-7.8|8.1||||||Primary endpoint was to be assessed at 6-Months: Assuming a 45% MaHR rate in the 70 mg BID participants, the primary efficacy analysis required a total of 540 participants, approximately 270 in each dosing schedule, giving at least 80% power to deduce non-inferiority of the QD schedule relative to the BID schedule if the lower bound of the 95% CI for the difference in MaHR rates (MaHRRQD - MaHRRBID) is greater than -12%.||8.1|-7.8|
92272993|NCT05788237|184448012|OTHER||GMR|0.84|||||TWO_SIDED|95.0|0.662|1.062||||||GMR for RSV A: RSVpreF + qIRV combination to RSVpreF alone.||1.062|0.662|
92272994|NCT05788237|184448012|OTHER||GMR|0.79|||||TWO_SIDED|95.0|0.614|1.013||||||GMR for RSV B: RSVpreF + qIRV combination to RSVpreF alone.||1.013|0.614|
92272995|NCT05788237|184448013|OTHER||GMR|0.81|||||TWO_SIDED|95.0|0.632|1.044||||||GMR for HAI: H1N1 A/Wisconsin: RSVpreF + qIRV combination to RSVpreF alone.||1.044|0.632|
92272996|NCT05788237|184448013|OTHER||Geometric Mean Ratio|0.74|||||TWO_SIDED|95.0|0.567|0.957||||||GMR for HAI: H3N2 A/Darwin: RSVpreF + qIRV combination to RSVpreF alone.||0.957|0.567|
92272997|NCT05788237|184448013|OTHER||GMR|0.94|||||TWO_SIDED|95.0|0.741|1.181||||||GMR for HAI: B/Austria: RSVpreF + qIRV combination to RSVpreF alone.||1.181|0.741|
92272998|NCT05788237|184448013|OTHER||GMR|0.91|||||TWO_SIDED|95.0|0.707|1.174||||||GMR for HAI: B/Phuket: RSVpreF + qIRV combination to RSVpreF alone.||1.174|0.707|
92272999|NCT05788237|184448014|OTHER||Geometric Mean Ratio|1.05|||||TWO_SIDED|95.0|0.82|1.339||||||GMR for RSV A: RSVpreF + qIRV 1.0 mL (Group 1) combination to RSVpreF + qIRV 0.5 mL (Group 2)||1.339|0.820|
92273000|NCT05788237|184448014|OTHER||Geometric Mean Ratio|1.06|||||TWO_SIDED|95.0|0.833|1.352||||||GMR for RSV B: RSVpreF + qIRV 1.0 mL (Group 1) to RSVpreF + qIRV 0.5 mL (Group 2)||1.352|0.833|
92147552|NCT00514683|184180246|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.993||||0.9829|TWO_SIDED|95.0|0.506|1.949|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.949|0.506|0.9829
92147553|NCT00514683|184180246|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.972||||0.9375|TWO_SIDED|95.0|0.476|1.985|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.985|0.476|0.9375
92147554|NCT00514683|184180247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.1456||0.4998|TWO_SIDED|95.0|-0.188|0.385|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.385|-0.188|0.4998
92210036|NCT05754333|184320403|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|0.8|1.5|||paired t test||Mean Difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 3||1.5|0.8|<0.001
92147555|NCT00514683|184180247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.155|STANDARD_ERROR_OF_MEAN|0.1399||0.2679|TWO_SIDED|95.0|-0.43|0.12|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.120|-0.430|0.2679
92147556|NCT00514683|184180247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.5678|TWO_SIDED|95.0|-0.355|0.195|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.195|-0.355|0.5678
92147557|NCT00514683|184180247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.121|STANDARD_ERROR_OF_MEAN|0.1448||0.4053|TWO_SIDED|95.0|-0.406|0.164|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.164|-0.406|0.4053
92147558|NCT00514683|184180248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.892||||0.7307|TWO_SIDED|95.0|0.465|1.71|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.710|0.465|0.7307
92147559|NCT00514683|184180248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.317||||0.3869|TWO_SIDED|95.0|0.706|2.458|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||2.458|0.706|0.3869
92147560|NCT00514683|184180248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.931||||0.8237|TWO_SIDED|95.0|0.498|1.741|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.741|0.498|0.8237
92147561|NCT00514683|184180248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.676||||0.1177|TWO_SIDED|95.0|0.878|3.202|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||3.202|0.878|0.1177
92147562|NCT00514683|184180249|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-11.24|STANDARD_ERROR_OF_MEAN|17.089||0.5111|TWO_SIDED|95.0|-44.86|22.37|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||22.37|-44.86|0.5111
92147563|NCT00514683|184180249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.17|STANDARD_ERROR_OF_MEAN|16.234||0.4176|TWO_SIDED|95.0|-45.11|18.76|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||18.76|-45.11|0.4176
92147564|NCT00514683|184180249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13|STANDARD_ERROR_OF_MEAN|16.506||0.9454|TWO_SIDED|95.0|-33.6|31.34|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||31.34|-33.60|0.9454
92147565|NCT00514683|184180249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.32|STANDARD_ERROR_OF_MEAN|16.98||0.7101|TWO_SIDED|95.0|-27.08|39.72|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||39.72|-27.08|0.7101
92147566|NCT00514683|184180250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|STANDARD_ERROR_OF_MEAN|0.2271||0.809|TWO_SIDED|95.0|-0.392|0.502|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.502|-0.392|0.8090
92147567|NCT00514683|184180250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.182|STANDARD_ERROR_OF_MEAN|0.2158||0.3995|TWO_SIDED|95.0|-0.606|0.242|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.242|-0.606|0.3995
92147568|NCT00514683|184180250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.2193||0.8822|TWO_SIDED|95.0|-0.399|0.464|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.464|-0.399|0.8822
92147569|NCT00514683|184180250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.141|STANDARD_ERROR_OF_MEAN|0.2257||0.5338|TWO_SIDED|95.0|-0.584|0.303|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.303|-0.584|0.5338
92147570|NCT00514683|184180251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.3272||0.7329|TWO_SIDED|95.0|-0.532|0.755|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.755|-0.532|0.7329
92147571|NCT00514683|184180251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.078|STANDARD_ERROR_OF_MEAN|0.3109||0.8009|TWO_SIDED|95.0|-0.69|0.533|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.533|-0.690|0.8009
92147572|NCT00514683|184180251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.3159||0.6358|TWO_SIDED|95.0|-0.771|0.472|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.472|-0.771|0.6358
92147573|NCT00514683|184180251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.333|STANDARD_ERROR_OF_MEAN|0.3252||0.3064|TWO_SIDED|95.0|-0.973|0.307|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.307|-0.973|0.3064
92396206|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.78||0.001|TWO_SIDED|95.0|-4.13|-1.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.05|-4.13|0.0010
92147574|NCT00514683|184180252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.014||||0.9646|TWO_SIDED|95.0|0.54|1.906|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo. Negative change indicates worsening.|||1.906|0.540|0.9646
92147575|NCT00514683|184180252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.994||||0.985|TWO_SIDED|95.0|0.536|1.844|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo. Negative change indicates worsening.|||1.844|0.536|0.9850
92147576|NCT00514683|184180252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.123||||0.7136|TWO_SIDED|95.0|0.604|2.089|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo. Negative change indicates worsening.|||2.089|0.604|0.7136
92147577|NCT00514683|184180252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.551||||0.1705|TWO_SIDED|95.0|0.828|2.906|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo. Negative change indicates worsening.|||2.906|0.828|0.1705
92210037|NCT05754333|184320403|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.053|||||TWO_SIDED|95.0|-0.181|0.282||||||CCC between BICR and investigator (95% CI), Reader 3||0.282|-0.181|
92396207|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.78||0.0011|TWO_SIDED|95.0|-4.1|-1.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.04|-4.10|0.0011
92396208|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.79||0.0405|TWO_SIDED|95.0|-3.2|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.07|-3.20|0.0405
92396209|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.8||0.0001|TWO_SIDED|95.0|-4.7|-1.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-1.55|-4.70|0.0001
92396210|NCT03192176|184689392|SUPERIORITY||LSMean differencce|-3.1|STANDARD_ERROR_OF_MEAN|0.8||0.0001|TWO_SIDED|95.0|-4.66|-1.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-1.52|-4.66|0.0001
92396211|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-5.26|-2.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-2.07|-5.26|<0.0001
92396212|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.81||0.0325|TWO_SIDED|95.0|-3.34|-0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.15|-3.34|0.0325
92396213|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.8||0.0035|TWO_SIDED|95.0|-3.92|-0.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.78|-3.92|0.0035
92396214|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.79||0.0102|TWO_SIDED|95.0|-3.61|-0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.49|-3.61|0.0102
92396215|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.81||0.0098|TWO_SIDED|95.0|-3.69|-0.51||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.51|-3.69|0.0098
92396216|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.6|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-5.18|-1.98||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.98|-5.18|<0.0001
92396217|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.3|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-4.89|-1.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.70|-4.89|<0.0001
92396218|NCT03192176|184689392|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|0.82|<|0.0001|TWO_SIDED|95.0|-5.61|-2.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-2.37|-5.61|<0.0001
92396219|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.82||0.0021|TWO_SIDED|95.0|-4.17|-0.93||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.93|-4.17|0.0021
92396220|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.81||0.0001|TWO_SIDED|95.0|-4.71|-1.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.52|-4.71|0.0001
92396221|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.81||0.002|TWO_SIDED|95.0|-4.11|-0.93||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.93|-4.11|0.0020
92396222|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.76||0.021|TWO_SIDED|95.0|-3.27|-0.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.27|-3.27|0.0210
92396223|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.77|<|0.0001|TWO_SIDED|95.0|-4.59|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.58|-4.59|<0.0001
92396224|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.88|STANDARD_ERROR_OF_MEAN|0.77||0.0003|TWO_SIDED|95.0|-4.34|-1.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.33|-4.34|0.0003
92396225|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.8|STANDARD_ERROR_OF_MEAN|0.73|<|0.0001|TWO_SIDED|95.0|-5.29|-2.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.23|-5.29|<0.0001
92147578|NCT00514683|184180253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|0.68||0.0479|TWO_SIDED|95.0|-2.69|-0.01|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated.|||-0.01|-2.69|0.0479
92396226|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.77||0.0023|TWO_SIDED|95.0|-3.91|-0.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.86|-3.91|0.0023
92396227|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.76||0.0004|TWO_SIDED|95.0|-4.25|-1.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.24|-4.25|0.0004
92396228|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.76||0.0036|TWO_SIDED|95.0|-3.73|-0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.74|-3.73|0.0036
92396229|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.77||0.0195|TWO_SIDED|95.0|-3.33|-0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.29|-3.33|0.0195
92396230|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.77||0.0006|TWO_SIDED|95.0|-4.21|-1.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.17|-4.21|0.0006
92396231|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.77||0.0004|TWO_SIDED|95.0|-4.32|-1.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.27|-4.32|0.0004
92396232|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.79|<|0.0001|TWO_SIDED|95.0|-5.01|-1.92||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.92|-5.01|<0.0001
92396233|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.78||0.0061|TWO_SIDED|95.0|-3.71|-0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.62|-3.71|0.0061
92396234|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.77||0.0006|TWO_SIDED|95.0|-4.19|-1.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.14|-4.19|0.0006
92396235|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.77||0.003|TWO_SIDED|95.0|-3.81|-0.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.78|-3.81|0.0030
92396236|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.78||0.0383|TWO_SIDED|95.0|-3.17|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.09|-3.17|0.0383
92396237|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.79||0.0004|TWO_SIDED|95.0|-4.33|-1.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.24|-4.33|0.0004
92396238|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.79||0.0011|TWO_SIDED|95.0|-4.14|-1.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.04|-4.14|0.0011
92396239|NCT03192176|184689392|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|TWO_SIDED|95.0|-5.07|-1.93||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.93|-5.07|<0.0001
92396240|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.8||0.0055|TWO_SIDED|95.0|-3.8|-0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.66|-3.80|0.0055
92396241|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.79||0.0014|TWO_SIDED|95.0|-4.09|-0.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.99|-4.09|0.0014
92396242|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.78||0.004|TWO_SIDED|95.0|-3.8|-0.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.73|-3.80|0.0040
92396243|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.78||0.1502|TWO_SIDED|95.0|-2.68|0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.41|-2.68|0.1502
92396244|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.79||0.0057|TWO_SIDED|95.0|-3.74|-0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.64|-3.74|0.0057
92396245|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.79||0.0054|TWO_SIDED|95.0|-3.76|-0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.66|-3.76|0.0054
92396246|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.8||0.0006|TWO_SIDED|95.0|-4.38|-1.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-1.22|-4.38|0.0006
92396247|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.8||0.0412|TWO_SIDED|95.0|-3.21|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.07|-3.21|0.0412
92396248|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.79||0.0054|TWO_SIDED|95.0|-3.76|-0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.66|-3.76|0.0054
92210038|NCT05754333|184320403|SUPERIORITY||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.9|2.6|||paired t test||Mean Difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 4||2.6|1.9|<0.001
92396249|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.78||0.0167|TWO_SIDED|95.0|-3.43|-0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.34|-3.43|0.0167
92396250|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.75||0.0533|TWO_SIDED|95.0|-2.94|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.02|-2.94|0.0533
92396251|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.75||0.0065|TWO_SIDED|95.0|-3.54|-0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.58|-3.54|0.0065
92396252|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.76||0.0025|TWO_SIDED|95.0|-3.8|-0.82||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.82|-3.80|0.0025
92396253|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.77||0.0005|TWO_SIDED|95.0|-4.22|-1.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.20|-4.22|0.0005
92396254|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.77||0.0541|TWO_SIDED|95.0|-2.99|0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.03|-2.99|0.0541
92396255|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.76||0.0039|TWO_SIDED|95.0|-3.69|-0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.71|-3.69|0.0039
92396256|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.75||0.0245|TWO_SIDED|95.0|-3.18|-0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.22|-3.18|0.0245
92147579|NCT00514683|184180253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24|STANDARD_ERROR_OF_MEAN|0.68||0.0685|TWO_SIDED|95.0|-2.58|0.09|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated.|||0.09|-2.58|0.0685
92335095|NCT03035916|184573271|OTHER|||||||0.001|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.001
92335096|NCT03035916|184573271|OTHER|||||||0.001|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.001
92335097|NCT03035916|184573271|OTHER|||||||0.555|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.555
92335098|NCT03035916|184573271|OTHER|||||||0.411|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.411
92335099|NCT03035916|184573271|OTHER|||||||0.167|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.167
92335100|NCT03035916|184573271|OTHER|||||||0.445|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.445
92335101|NCT03035916|184573271|OTHER|||||||0.489|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.489
92335102|NCT03035916|184573271|OTHER|||||||0.159|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.159
92335103|NCT03035916|184573271|OTHER|||||||0.72|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.720
92335104|NCT03035916|184573271|OTHER|||||||0.026|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.026
92335105|NCT03035916|184573271|OTHER|||||||0.011|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.011
92335106|NCT03035916|184573271|OTHER|||||||0.763|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.763
92335107|NCT03035916|184573271|OTHER|||||||0.187|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.187
92147580|NCT00514683|184180253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77|STANDARD_ERROR_OF_MEAN|0.684||0.0099|TWO_SIDED|95.0|-3.12|-0.43|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated.|||-0.43|-3.12|0.0099
92335108|NCT03035916|184573271|OTHER|||||||0.112|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.112
92335109|NCT03035916|184573272|OTHER|||||||0.645|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.645
92335110|NCT03035916|184573272|OTHER|||||||0.645|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.645
92335111|NCT03035916|184573272|OTHER|||||||0.314|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.314
92335112|NCT03035916|184573272|OTHER|||||||0.003|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.003
92335113|NCT03035916|184573272|OTHER|||||||0.367|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.367
92335114|NCT03035916|184573272|OTHER|||||||0.031|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.031
92335115|NCT03035916|184573272|OTHER|||||||0.009|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.009
92335116|NCT03035916|184573272|OTHER|||||||0.873|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.873
92335117|NCT03035916|184573272|OTHER|||||||0.026|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.026
92335118|NCT03035916|184573272|OTHER|||||||0.411|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.411
92335119|NCT03035916|184573272|OTHER|||||||0.787|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.787
92147581|NCT00514683|184180253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.67|STANDARD_ERROR_OF_MEAN|0.683||0.0152|TWO_SIDED|95.0|-3.01|-0.32|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated.|||-0.32|-3.01|0.0152
92147582|NCT00514683|184180254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|2.253||0.725|TWO_SIDED|95.0|-5.22|3.64|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||3.64|-5.22|0.7250
92335120|NCT03035916|184573272|OTHER|||||||0.306|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.306
92335121|NCT03035916|184573272|OTHER|||||||0.921|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.921
92335122|NCT03035916|184573272|OTHER|||||||0.001|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.001
92335123|NCT03035916|184573272|OTHER|||||||0.001|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.001
92335124|NCT03035916|184573272|OTHER|||||||0.555|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.555
92335125|NCT03035916|184573272|OTHER|||||||0.058|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.058
92273001|NCT05788237|184448015|OTHER||GMR|1.19|||||TWO_SIDED|95.0|0.875|1.614||||||GMR for HAI: H1N1 A/Sydney: RSVpreF + qIRV 1.0 mL (Group 1) to RSVpreF + qIRV 0.5 mL (Group 2)||1.614|0.875|
92335126|NCT03035916|184573272|OTHER|||||||0.166|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.166
92335127|NCT03035916|184573272|OTHER|||||||0.288|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.288
92335128|NCT03035916|184573272|OTHER|||||||0.299|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.299
92335129|NCT03035916|184573272|OTHER|||||||0.051|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.051
92335130|NCT03035916|184573272|OTHER|||||||0.186|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.186
92335131|NCT03035916|184573272|OTHER|||||||0.555|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.555
92335132|NCT03035916|184573272|OTHER|||||||0.065|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.065
92335133|NCT03035916|184573272|OTHER|||||||0.168|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.168
92335134|NCT03035916|184573272|OTHER|||||||0.739|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.739
92335135|NCT03035916|184573272|OTHER|||||||0.079|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.079
92335136|NCT03035916|184573273|OTHER|||||||0.056|||||||t-test, 2 sided|||||||0.056
92335137|NCT03035916|184573273|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
92335138|NCT03035916|184573273|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
92335139|NCT03035916|184573274|OTHER|||||||0.056||||||p\<0.05 indicates that the data difference is statistically significant.|t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 1 hour after surgery row."||||0.056
92335140|NCT03035916|184573274|OTHER|||||||0.009||||||p\<0.05 indicates that the data difference is statistically significant.|t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 1 hour after surgery row."||||0.009
92335141|NCT03035916|184573274|OTHER|||||||0.001||||||p\<0.05 indicates that the data difference is statistically significant.|t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 1 hour after surgery row."||||0.001
92335142|NCT03035916|184573274|OTHER|||||||0.198|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.198
92335143|NCT03035916|184573274|OTHER|||||||0.047|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.047
92335144|NCT03035916|184573274|OTHER|||||||0.002|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.002
92335145|NCT03035916|184573274|OTHER|||||||0.102|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.102
92335146|NCT03035916|184573274|OTHER|||||||0.005|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.005
92335147|NCT03035916|184573274|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.001
92147583|NCT00514683|184180254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.28|STANDARD_ERROR_OF_MEAN|2.213||0.1389|TWO_SIDED|95.0|-7.63|1.07|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||1.07|-7.63|0.1389
92147584|NCT00514683|184180254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.98|STANDARD_ERROR_OF_MEAN|2.221||0.0741|TWO_SIDED|95.0|-8.35|0.39|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.39|-8.35|0.0741
92335148|NCT03035916|184573274|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
92335149|NCT03035916|184573274|OTHER|||||||0.023|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.023
92335150|NCT03035916|184573274|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
92335151|NCT03035916|184573274|OTHER|||||||0.425|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.425
92335152|NCT03035916|184573274|OTHER|||||||0.124|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.124
92335153|NCT03035916|184573274|OTHER|||||||0.052|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.052
92335154|NCT03035916|184573275|OTHER|||||||0.176||||||p\<0.05 indicates that the data difference is statistically significant.|t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 1 hour after surgery row."||||0.176
92335155|NCT03035916|184573275|OTHER|||||||0.001||||||p\<0.05 indicates that the data difference is statistically significant.|t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 1 hour after surgery row."||||0.001
92335156|NCT03035916|184573275|OTHER|||||||0.228|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.228
92335157|NCT03035916|184573275|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
92335158|NCT03035916|184573275|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
92335159|NCT03035916|184573275|OTHER|||||||0.057|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.057
92335160|NCT03035916|184573275|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.001
92335161|NCT03035916|184573275|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.001
92335162|NCT03035916|184573275|OTHER|||||||0.004|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.004
92335163|NCT03035916|184573275|OTHER|||||||0.005|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.005
92335164|NCT03035916|184573275|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
92335165|NCT03035916|184573275|OTHER|||||||0.002|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.002
92335166|NCT03035916|184573275|OTHER|||||||0.002|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.002
92335167|NCT03035916|184573275|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.001
92335168|NCT03035916|184573276|OTHER|||||||0.585|||||||t-test, 2 sided|||||||0.585
92335169|NCT03035916|184573276|OTHER|||||||0.071|||||||t-test, 2 sided|||||||0.071
92335170|NCT03035916|184573276|OTHER|||||||0.13|||||||t-test, 2 sided|||||||0.13
92335171|NCT03035916|184573277|OTHER|||||||0.644|||||||t-test, 2 sided|||||||0.644
92335172|NCT03035916|184573277|OTHER|||||||0.045|||||||t-test, 2 sided|||||||0.045
92335173|NCT03035916|184573277|OTHER|||||||0.031|||||||t-test, 2 sided|||||||0.031
92335174|NCT03035916|184573278|OTHER|||||||0.421|||||||t-test, 2 sided|||||||0.421
92335175|NCT03035916|184573278|OTHER|||||||0.046|||||||t-test, 2 sided|||||||0.046
92335176|NCT03035916|184573278|OTHER|||||||0.007|||||||t-test, 2 sided|||||||0.007
92335177|NCT03035916|184573279|OTHER|||||||0.91|||||||t-test, 2 sided|||||||0.910
92335178|NCT03035916|184573279|OTHER|||||||0.864|||||||t-test, 2 sided|||||||0.864
92147585|NCT00514683|184180254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.12|STANDARD_ERROR_OF_MEAN|2.262||0.0071|TWO_SIDED|95.0|-10.57|-1.67|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||-1.67|-10.57|0.0071
92335179|NCT03035916|184573279|OTHER|||||||0.785|||||||t-test, 2 sided|||||||0.785
92335180|NCT03035916|184573280|OTHER|||||||0.972|||||||t-test, 2 sided|||||||0.972
92335181|NCT03035916|184573280|OTHER|||||||0.987|||||||t-test, 2 sided|||||||0.987
92335182|NCT03035916|184573280|OTHER|||||||0.518|||||||t-test, 2 sided|||||||0.518
92335183|NCT01451554|184573282|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||2 tailed t-test|t-test, 2 sided|||Data were compared between groups using the 2 sample T-test.||||0.06
92335184|NCT01451554|184573283|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||t-test, 2 sided|||Data were compared between groups using a 2 sample T-test.||||0.31
92335185|NCT00076258|184573288|SUPERIORITY_OR_OTHER_LEGACY||Remission rate|29.5|||<|0.05|TWO_SIDED||||||Generalized Linear Mixed Model|Both unadjusted and adjusted rates (for significant covariates) were reported||||||<0.05
92335186|NCT00076258|184573288|SUPERIORITY_OR_OTHER_LEGACY||Remission Rate|28.3|||<|0.05|TWO_SIDED||||||Generalized Linear Mixed Model|||For the covariate adjusted GLMM the remission rates were 15.5 for the LD and 28.3 for the PHD with a p \< 0.06 and the NNT of 7.8 for the PHD versus the LD.||||<0.05
92335187|NCT04378569|184573296|SUPERIORITY||Odds Ratio (OR)|1.11||||0.5788|TWO_SIDED|95.0|0.49|2.53|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|||2.53|0.49|0.5788
92335188|NCT04378569|184573296|SUPERIORITY||Odds Ratio (OR)|0.84||||0.6488|TWO_SIDED|95.0|0.33|2.17|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|||2.17|0.33|0.6488
92335189|NCT04378569|184573296|SUPERIORITY||Odds Ratio (OR)|0.85||||0.5653|TWO_SIDED|95.0|0.32|2.25|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|||2.25|0.32|0.5653
92335190|NCT04378569|184573297|SUPERIORITY||Odds Ratio (OR)|0.84||||0.5033|TWO_SIDED|95.0|0.25|2.78|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|||2.78|0.25|0.5033
92335191|NCT04378569|184573297|SUPERIORITY||Odds Ratio (OR)|0.83||||0.4975|TWO_SIDED|95.0|0.25|2.79|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|||2.79|0.25|0.4975
92335192|NCT04378569|184573297|SUPERIORITY||Odds Ratio (OR)|0.33|||||TWO_SIDED|95.0|0.04|2.55||P value was not evaluable|Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|||2.55|0.04|
92335193|NCT04378569|184573298|SUPERIORITY||Odds Ratio (OR)|0.75||||0.7237|TWO_SIDED|95.0|0.23|2.44|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|||2.44|0.23|0.7237
92335194|NCT04378569|184573298|SUPERIORITY||Odds Ratio (OR)|0.59||||0.838|TWO_SIDED|95.0|0.17|2.1|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|||2.10|0.17|0.8380
92335195|NCT04378569|184573298|SUPERIORITY||Odds Ratio (OR)|0.33|||||TWO_SIDED|95.0|0.04|2.55||p-value was unevaluable||Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|||2.55|0.04|
92335196|NCT04378569|184573299|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9604|TWO_SIDED|95.0|0.31|3.07|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 2||3.07|0.31|0.9604
92335197|NCT04378569|184573299|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9752|TWO_SIDED|95.0|0.32|3.25|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 2||3.25|0.32|0.9752
92335198|NCT04378569|184573299|SUPERIORITY||Odds Ratio (OR)|0.57||||0.5077|TWO_SIDED|95.0|0.11|3.03|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 2||3.03|0.11|0.5077
92335199|NCT04378569|184573299|SUPERIORITY||Odds Ratio (OR)|0.74||||0.5916|TWO_SIDED|95.0|0.26|2.15|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 4||2.15|0.26|0.5916
92335200|NCT04378569|184573299|SUPERIORITY||Odds Ratio (OR)|0.65||||0.332|TWO_SIDED|95.0|0.27|1.57|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 4||1.57|0.27|0.3320
92335201|NCT04378569|184573299|SUPERIORITY||Odds Ratio (OR)|0.47||||0.1922|TWO_SIDED|95.0|0.14|1.57|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 4||1.57|0.14|0.1922
92335202|NCT04378569|184573299|SUPERIORITY||Odds Ratio (OR)|0.65||||0.4188|TWO_SIDED|95.0|0.23|1.81|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 8||1.81|0.23|0.4188
92335203|NCT04378569|184573299|SUPERIORITY||Odds Ratio (OR)|0.74||||0.552|TWO_SIDED|95.0|0.29|1.92|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 8||1.92|0.29|0.5520
92335204|NCT04378569|184573299|SUPERIORITY||Odds Ratio (OR)|0.69||||0.69|TWO_SIDED|95.0|0.21|2.2|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 8||2.20|0.21|0.69
92335205|NCT04378569|184573300|SUPERIORITY|Week 2|Mean Difference (Net)|-0.06||||0.6464|TWO_SIDED|95.0|-0.33|0.21|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|||0.21|-0.33|0.6464
92335206|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.8881|TWO_SIDED|95.0|-0.29|0.25|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 2||0.25|-0.29|0.8881
92335207|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.436|TWO_SIDED|95.0|-0.2|0.46|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 2||0.46|-0.20|0.4360
92147586|NCT00514683|184180255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.06|STANDARD_ERROR_OF_MEAN|3.183||0.337|TWO_SIDED|95.0|-9.32|3.2|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||3.20|-9.32|0.3370
92335208|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.8196|TWO_SIDED|95.0|-0.29|0.36|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 4||0.36|-0.29|0.8196
92335209|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.9217|TWO_SIDED|95.0|-0.31|0.34|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 4||0.34|-0.31|0.9217
92335210|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.4783|TWO_SIDED|95.0|-0.25|0.53|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|||0.53|-0.25|0.4783
92335211|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.7725|TWO_SIDED|95.0|-0.32|0.43|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 8||0.43|-0.32|0.7725
92335212|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.7861|TWO_SIDED|95.0|-0.43|0.33|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 8||0.33|-0.43|0.7861
92335213|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.3521|TWO_SIDED|95.0|-0.24|0.68|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 8||0.68|-0.24|0.3521
92147587|NCT00514683|184180255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.34|STANDARD_ERROR_OF_MEAN|3.126||0.1659|TWO_SIDED|95.0|-10.49|1.81|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||1.81|-10.49|0.1659
92147588|NCT00514683|184180255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.12|STANDARD_ERROR_OF_MEAN|3.138||0.1897|TWO_SIDED|95.0|-10.29|2.05|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||2.05|-10.29|0.1897
92335214|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.2166|TWO_SIDED|95.0|-0.62|0.14|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 12||0.14|-0.62|0.2166
92335215|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.5262|TWO_SIDED|95.0|-0.52|0.27|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 12||0.27|-0.52|0.5262
92335216|NCT04378569|184573300|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.7575|TWO_SIDED|95.0|-0.39|0.54|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 12||0.54|-0.39|0.7575
92335217|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|1.73||||0.2662|TWO_SIDED|95.0|0.64|4.7|||Cochran-Mantel-Haenszel|Stratified|Stratified|Week 2||4.70|0.64|0.2662
92335218|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|1.54||||0.3798|TWO_SIDED|95.0|0.59|4.0|||Cochran-Mantel-Haenszel|||Week 2||4.00|0.59|0.3798
92335219|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|3.18||||0.0611|TWO_SIDED|95.0|0.9|11.17|||Cochran-Mantel-Haenszel|||Week 2||11.17|0.90|0.0611
92335220|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|1.58||||0.3129|TWO_SIDED|95.0|0.64|3.93|||Cochran-Mantel-Haenszel|||Week 4||3.93|0.64|0.3129
92335221|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9586|TWO_SIDED|95.0|0.35|2.74|||Cochran-Mantel-Haenszel|||Week 4||2.74|0.35|0.9586
92335222|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|3.65||||0.0643|TWO_SIDED|95.0|0.87|15.29|||Cochran-Mantel-Haenszel|||Week 4||15.29|0.87|0.0643
92335223|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0932|TWO_SIDED|95.0|0.84|6.88|||Cochran-Mantel-Haenszel|||Week 8||6.88|0.84|0.0932
92335224|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|1.42||||0.573|TWO_SIDED|95.0|0.44|4.59|||Cochran-Mantel-Haenszel|||Week 8||4.59|0.44|0.5730
92335225|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|4.96||||0.0389|TWO_SIDED|95.0|0.96|25.66|||Cochran-Mantel-Haenszel|||Week 8||25.66|0.96|0.0389
92335226|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|1.82||||0.2813|TWO_SIDED|95.0|0.6|5.53|||Cochran-Mantel-Haenszel|||Week 12||5.53|0.60|0.2813
92335227|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|0.72||||0.6841|TWO_SIDED|95.0|0.17|3.03|||Cochran-Mantel-Haenszel|||Week 12||3.03|0.17|0.6841
92335228|NCT04378569|184573302|SUPERIORITY||Odds Ratio (OR)|2.13||||0.3113|TWO_SIDED|95.0|0.49|9.21|||Cochran-Mantel-Haenszel|||Week 12||9.21|0.49|0.3113
92335229|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|2.21||||0.2674|TWO_SIDED|95.0|0.46|10.67|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 2||10.67|0.46|0.2674
92335230|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|2.78||||0.285|TWO_SIDED|95.0|0.44|17.54|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 2||17.54|0.44|0.2850
92335231|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|2.63||||0.3086|TWO_SIDED|95.0|0.42|16.52|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 2||16.52|0.42|0.3086
92210039|NCT05754333|184320403|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.26|||||TWO_SIDED|95.0|0.03|0.464||||||CCC between BICR and investigator (95% CI), Reader 4||0.464|0.030|
92335232|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|4.33||||0.1655|TWO_SIDED|95.0|0.46|40.83|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 4||40.83|0.46|0.1655
92335233|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|1.41||||0.7154|TWO_SIDED|95.0|0.26|7.67|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 4||7.67|0.26|0.7154
92335234|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|2.0||||0.5371|TWO_SIDED|95.0|0.27|14.64|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 4||14.64|0.27|0.5371
92335235|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|5.0||||0.217|TWO_SIDED|95.0|0.43|57.83|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 8||57.83|0.43|0.2170
92335236|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|2.74||||0.3408|TWO_SIDED|95.0|0.41|18.22|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 8||18.22|0.41|0.3408
92335237|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|2.4||||0.327|TWO_SIDED|95.0|0.41|14.2|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 8||14.20|0.41|0.3270
92335238|NCT04378569|184573305|SUPERIORITY|||||||0.0719|||||||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade||Week 12||||0.0719
92335239|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|0.78||||0.8527|TWO_SIDED|95.0|0.07|8.43|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade||Week 12||8.43|0.07|0.8527
92335240|NCT04378569|184573305|SUPERIORITY||Odds Ratio (OR)|2.2||||0.3545|TWO_SIDED|95.0|0.37|13.11|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade||Week 12||13.11|0.37|0.3545
92335241|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-4.4||||0.0725|TWO_SIDED|95.0|-9.2|0.4|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 2||0.4|-9.2|0.0725
92335242|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-5.8||||0.0183|TWO_SIDED|95.0|-10.7|-1.0|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 2||-1.0|-10.7|0.0183
92210040|NCT05754333|184320404|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|1.4|2.0|||Sign test||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the index ureter (left or right) for each participant.|For reader 2||2.0|1.4|<0.001
92335243|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.5701|TWO_SIDED|95.0|-7.7|4.3|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables||Week 2||4.3|-7.7|0.5701
92335244|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.2116|TWO_SIDED|95.0|-10.4|2.3|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 4||2.3|-10.4|0.2116
92335245|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-5.1||||0.1235|TWO_SIDED|95.0|-11.5|1.4|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 4||1.4|-11.5|0.1235
92335246|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.6334|TWO_SIDED|95.0|-9.7|5.9|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 4||5.9|-9.7|0.6334
92335247|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-4.6||||0.1788|TWO_SIDED|95.0|-11.4|2.1|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 8||2.1|-11.4|0.1788
92335248|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-7.6||||0.0292|TWO_SIDED|95.0|-14.4|-0.8|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 8||-0.8|-14.4|0.0292
92335249|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-8.8||||0.0371|TWO_SIDED|95.0|-17.1|-0.5|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 8||-0.5|-17.1|0.0371
92335250|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.2971|TWO_SIDED|95.0|-11.3|3.5|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 12||3.5|-11.3|0.2971
92335251|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-9.5||||0.015|TWO_SIDED|95.0|-17.2|-1.9|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 12||-1.9|-17.2|0.0150
92335252|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-7.0||||0.1245|TWO_SIDED|95.0|-15.8|1.9|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 12||1.9|-15.8|0.1245
92335253|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-5.3||||0.1591|TWO_SIDED|95.0|-12.7|2.1|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 13||2.1|-12.7|0.1591
92335254|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-7.3||||0.06|TWO_SIDED|95.0|-14.8|0.3|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 13||0.3|-14.8|0.0600
92335255|NCT04378569|184573306|SUPERIORITY||Mean Difference (Final Values)|-3.3||||0.464|TWO_SIDED|95.0|-12.0|5.5|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 13||5.5|-12.0|0.4640
92335256|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|-0.066||||0.3184|TWO_SIDED|95.0|-0.196|0.064|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 2||0.064|-0.196|0.3184
92335257|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|-0.013||||0.8514|TWO_SIDED|95.0|-0.149|0.123|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 2||0.123|-0.149|0.8514
92335258|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|0.091||||0.2603|TWO_SIDED|95.0|-0.068|0.249|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 2||0.249|-0.068|0.2603
92147589|NCT00514683|184180255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|3.184||0.0028|TWO_SIDED|95.0|-15.86|-3.34|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||-3.34|-15.86|0.0028
92147590|NCT00514683|184180256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|2.586||0.8458|TWO_SIDED|95.0|-5.59|4.58|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||4.58|-5.59|0.8458
92147591|NCT00514683|184180256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.48|STANDARD_ERROR_OF_MEAN|2.54||0.3286|TWO_SIDED|95.0|-7.48|2.51|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||2.51|-7.48|0.3286
92147592|NCT00514683|184180256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.42|STANDARD_ERROR_OF_MEAN|2.548||0.1799|TWO_SIDED|95.0|-8.43|1.59|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||1.59|-8.43|0.1799
92335259|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|-0.171||||0.0273|TWO_SIDED|95.0|-0.323|-0.019|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 4||-0.019|-0.323|0.0273
92335260|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.0266|TWO_SIDED|95.0|-0.339|-0.021|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 4||-0.021|-0.339|0.0266
92335261|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|-0.012||||0.9023|TWO_SIDED|95.0|-0.196|0.173|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 4||0.173|-0.196|0.9023
92335262|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|-0.096||||0.3298|TWO_SIDED|95.0|-0.291|0.098|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 8||0.098|-0.291|0.3298
92335263|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.6205|TWO_SIDED|95.0|-0.251|0.15|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 8||0.150|-0.251|0.6205
92335264|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|-0.018||||0.8817|TWO_SIDED|95.0|-0.253|0.217|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 8||0.217|-0.253|0.8817
92335265|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|-0.122||||0.1837|TWO_SIDED|95.0|-0.302|0.058|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 12||0.058|-0.302|0.1837
92335266|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|-0.102||||0.2896|TWO_SIDED|95.0|-0.293|0.088|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|||0.088|-0.293|0.2896
92335267|NCT04378569|184573307|SUPERIORITY||Mean Difference (Final Values)|0.031||||0.919|TWO_SIDED|95.0|-0.205|0.227|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 12||0.227|-0.205|0.9190
92335268|NCT02576977|184573321|SUPERIORITY||Hazard Ratio (HR)|1.5||||0.99324|TWO_SIDED|95.0|1.08|2.08|||Log Rank|One-sided p-value based on Stratified log-rank test.|Based on Cox regression model with treatment as a covariate stratified by disease status (refractory vs. sensitive to Lenalidomide) and Lines of previous treatments (two vs. three or more).|||2.08|1.08|0.99324
92335269|NCT02576977|184573322|SUPERIORITY||Hazard Ratio (HR)|1.84||||0.99989|TWO_SIDED|95.0|1.32|2.55|||Log Rank|One-sided p-value based on Stratified log-rank test.|||The Hazard Ratio and 95% confidence intervals were based on Cox regression model with treatment as a covariate stratified by disease status (refractory vs. sensitive to Lenalidomide) and Lines of previous treatments (two vs. three or more).|2.55|1.32|0.99989
92335270|NCT02576977|184573323|SUPERIORITY||Difference in % vs. SOC|-5.2||||0.79921|TWO_SIDED|95.0|-17.1|6.9|||Miettinen & Nurminen method||||Based on Miettinen \& Nurminen method stratified by disease status (refractory vs. sensitive to Lenalidomide) and Lines of previous treatments (two vs. three or more); If there were no participants in one of the treatment groups involved in a comparison for a particular stratum, then that stratum was excluded from the treatment comparison.|6.9|-17.1|0.79921
92335271|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-1.4|||||TWO_SIDED|95.0|-4.4|1.3||||||Serotype 1: 2-Sided 95% CIs are calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||1.3|-4.4|
92335272|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-2.7|||||TWO_SIDED|95.0|-6.2|0.1||||||Serotype 3: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||0.1|-6.2|
92335273|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-2.3|||||TWO_SIDED|95.0|-5.6|0.5||||||Serotype 4: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||0.5|-5.6|
92335274|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-5.0|||||TWO_SIDED|95.0|-9.6|-0.9||||||Serotype 5: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-0.9|-9.6|
92335275|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-8.1|||||TWO_SIDED|95.0|-13.0|-4.0||||||Serotype 6A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-4.0|-13.0|
92335276|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-8.6|||||TWO_SIDED|95.0|-14.0|-3.7||||||Serotype 6B: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-3.7|-14.0|
92335277|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-3.2|||||TWO_SIDED|95.0|-6.8|-0.3||||||Serotype 7F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-0.3|-6.8|
92396257|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.78||0.0187|TWO_SIDED|95.0|-3.36|-0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.31|-3.36|0.0187
92273002|NCT05788237|184448015|OTHER||Geometric Mean Ratio|1.13|||||TWO_SIDED|95.0|0.867|1.473||||||GMR for HAI: H3N2 A/Darwin: RSVpreF + qIRV 1.0 mL (Group 1) to RSVpreF + qIRV 0.5 mL (Group 2)||1.473|0.867|
92335278|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-2.7|||||TWO_SIDED|95.0|-6.4|0.4||||||Serotype 9V: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||0.4|-6.4|
92335279|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-0.9|||||TWO_SIDED|95.0|-4.4|2.4||||||Serotype 14: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.4|-4.4|
92335280|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-2.3|||||TWO_SIDED|95.0|-5.6|0.5||||||Serotype 18C: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||0.5|-5.6|
92335281|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Serotype 19A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.1|-2.1|
92335282|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.7|1.7||||||Serotype 19F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.7|-1.7|
92335283|NCT04530838|184573340|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-4.0|||||TWO_SIDED|95.0|-9.5|1.2||||||Serotype 23F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.2|-9.5|
92335284|NCT04530838|184573340|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|5.9|||||TWO_SIDED|95.0|3.0|10.0||||||Serotype 8: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||10.0|3.0|
92335285|NCT04530838|184573340|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|-33.5|||||TWO_SIDED|95.0|-40.7|-26.2||||||Serotype 10A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-26.2|-40.7|
92335286|NCT04530838|184573340|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|6.4|||||TWO_SIDED|95.0|3.8|10.4||||||Serotype 11A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||10.4|3.8|
92335287|NCT04530838|184573340|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|-19.0|||||TWO_SIDED|95.0|-25.7|-12.5||||||Serotype 12F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-12.5|-25.7|
92335288|NCT04530838|184573340|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|5.5|||||TWO_SIDED|95.0|2.2|9.6||||||Serotype 15B: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||9.6|2.2|
92335289|NCT04530838|184573340|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|6.4|||||TWO_SIDED|95.0|3.8|10.4||||||Serotype 22F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||10.4|3.8|
92335290|NCT04530838|184573340|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|1.3|||||TWO_SIDED|95.0|-3.2|6.0||||||Serotype 33F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||6.0|-3.2|
92147593|NCT00514683|184180256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.35|STANDARD_ERROR_OF_MEAN|2.597||0.0948|TWO_SIDED|95.0|-9.46|0.76|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.76|-9.46|0.0948
92335291|NCT04530838|184573340|OTHER||Percentage Difference|-5.7|||||TWO_SIDED|95.0|-10.4|-1.7||||||Serotype 1: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-1.7|-10.4|
92335292|NCT04530838|184573340|OTHER||Percentage Difference|-1.1|||||TWO_SIDED|95.0|-5.2|2.9||||||Serotype 3: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.9|-5.2|
92335293|NCT04530838|184573340|OTHER||Percentage Difference|-2.0|||||TWO_SIDED|95.0|-6.2|1.9||||||Serotype 4: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.9|-6.2|
92335294|NCT04530838|184573340|OTHER||Percentage Difference|0.7|||||TWO_SIDED|95.0|-4.5|5.8||||||Serotype 5: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||5.8|-4.5|
92335295|NCT04530838|184573340|OTHER||Percentage Difference|4.8|||||TWO_SIDED|95.0|-0.2|10.0||||||Serotype 6A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||10.0|-0.2|
92335296|NCT04530838|184573340|OTHER||Percentage Difference|-5.6|||||TWO_SIDED|95.0|-12.5|1.1||||||Serotype 6B: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.1|-12.5|
92335297|NCT04530838|184573340|OTHER||Percentage Difference|-1.1|||||TWO_SIDED|95.0|-5.4|3.1||||||Serotype 7F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||3.1|-5.4|
92335298|NCT04530838|184573340|OTHER||Percentage Difference|-3.0|||||TWO_SIDED|95.0|-7.7|1.4||||||Serotype 9V: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.4|-7.7|
92335299|NCT04530838|184573340|OTHER||Percentage Difference|-0.6|||||TWO_SIDED|95.0|-4.4|3.2||||||Serotype 14: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||3.2|-4.4|
92335300|NCT04530838|184573340|OTHER||Percentage Difference|-2.0|||||TWO_SIDED|95.0|-6.2|1.9||||||Serotype 18C: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.9|-6.2|
92335301|NCT04530838|184573340|OTHER||Percentage Difference|-0.5|||||TWO_SIDED|95.0|-3.0|1.7||||||Serotype 19A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.7|-3.0|
92147594|NCT00514683|184180257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|2.484||0.9708|TWO_SIDED|95.0|-4.98|4.79|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||4.79|-4.98|0.9708
92147595|NCT00514683|184180257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.94|STANDARD_ERROR_OF_MEAN|2.44||0.1069|TWO_SIDED|95.0|-8.74|0.85|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.85|-8.74|0.1069
92335302|NCT04530838|184573340|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.8|1.7||||||Serotype 19F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.7|-1.8|
92335303|NCT04530838|184573340|OTHER||Percentage Difference|-0.9|||||TWO_SIDED|95.0|-6.9|5.1||||||Serotype 23F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||5.1|-6.9|
92335304|NCT04530838|184573340|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.2|2.1||||||Serotype 8: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.1|-2.2|
92335305|NCT04530838|184573340|OTHER||Percentage Difference|-0.6|||||TWO_SIDED|95.0|-9.8|8.6||||||Serotype 10A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||8.6|-9.8|
92147596|NCT00514683|184180257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.49|STANDARD_ERROR_OF_MEAN|2.453||0.0682|TWO_SIDED|95.0|-9.31|0.34|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.34|-9.31|0.0682
92147597|NCT00514683|184180257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.16|STANDARD_ERROR_OF_MEAN|2.494||0.0043|TWO_SIDED|95.0|-12.06|-2.26|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||-2.26|-12.06|0.0043
92210041|NCT05754333|184320404|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.219|||||TWO_SIDED|95.0|-0.013|0.429||||||CCC between BICR and investigator (95% CI), Reader 2||0.429|-0.013|
92335306|NCT04530838|184573340|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.8|1.7||||||Serotype 11A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.7|-1.8|
92335307|NCT04530838|184573340|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-8.2|8.2||||||Serotype 12F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||8.2|-8.2|
92335308|NCT04530838|184573340|OTHER||Percentage Difference|-0.5|||||TWO_SIDED|95.0|-3.3|2.0||||||Serotype 15B: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.0|-3.3|
92335309|NCT04530838|184573340|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.8|1.7||||||Serotype 22F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.7|-1.8|
92335310|NCT04530838|184573340|OTHER||Percentage Difference|-2.5|||||TWO_SIDED|95.0|-7.5|2.2||||||Serotype 33F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.2|-7.5|
92396258|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.78||0.006|TWO_SIDED|95.0|-3.68|-0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.62|-3.68|0.0060
92147598|NCT00514683|184180258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.2698|TWO_SIDED|95.0|0.72|3.31|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel test to adjust for region effect.|In case of missing data, patient has been set to non-responder. Odds ratio lower than 1 favours the treatment group over placebo.|||3.31|0.72|0.2698
92273003|NCT05788237|184448015|OTHER||Geometric Mean Ratio|1.08|||||TWO_SIDED|95.0|0.849|1.383||||||GMR for HAI: B/Austria: RSVpreF + qIRV 1.0 mL (Group 1) to RSVpreF + qIRV 0.5 mL (Group 2)||1.383|0.849|
92147599|NCT00514683|184180258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.0891|TWO_SIDED|95.0|0.9|4.01|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel test to adjust for region effect.|In case of missing data, patient has been set to non-responder. Odds ratio lower than 1 favours the treatment group over placebo.|||4.01|0.90|0.0891
92335311|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.62|||||TWO_SIDED|95.0|0.54|0.72||||||Serotype 1: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.72|0.54|
92335312|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.71|||||TWO_SIDED|95.0|0.63|0.81||||||Serotype 3: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.81|0.63|
92335313|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.6|||||TWO_SIDED|95.0|0.51|0.7||||||Serotype 4: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.70|0.51|
92335314|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.59|||||TWO_SIDED|95.0|0.49|0.71||||||Serotype 5: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.71|0.49|
92335315|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.59|||||TWO_SIDED|95.0|0.5|0.7||||||Serotype 6A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.70|0.50|
92147600|NCT00514683|184180258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7||||0.0069|TWO_SIDED|95.0|1.29|5.66|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel test to adjust for region effect.|In case of missing data, patient has been set to non-responder. Odds ratio lower than 1 favours the treatment group over placebo.|||5.66|1.29|0.0069
92147601|NCT00514683|184180258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.0341|TWO_SIDED|95.0|1.05|4.61|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel test to adjust for region effect.|In case of missing data, patient has been set to non-responder. Odds ratio lower than 1 favours the treatment group over placebo.|||4.61|1.05|0.0341
92147602|NCT00514683|184180259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.1015||0.8288|TWO_SIDED|95.0|-0.178|0.222|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.222|-0.178|0.8288
92147603|NCT00514683|184180259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.0974||0.1506|TWO_SIDED|95.0|-0.051|0.332|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.332|-0.051|0.1506
92147604|NCT00514683|184180259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.0977||0.1059|TWO_SIDED|95.0|-0.034|0.351|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.351|-0.034|0.1059
92147605|NCT00514683|184180259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.358|STANDARD_ERROR_OF_MEAN|0.1008||0.0004|TWO_SIDED|95.0|0.16|0.556|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.556|0.160|0.0004
92147606|NCT00514683|184180260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.068||0.7789|TWO_SIDED|95.0|-0.153|0.115|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.115|-0.153|0.7789
92273004|NCT05788237|184448015|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.866|1.392||||||GMR for HAI: B/Phuket: RSVpreF + qIRV 1.0 mL (Group 1) to RSVpreF + qIRV 0.5 mL (Group 2)||1.392|0.866|
92335316|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.51|||||TWO_SIDED|95.0|0.4|0.64||||||Serotype 6B: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.64|0.40|
92335317|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.72|||||TWO_SIDED|95.0|0.62|0.84||||||Serotype 7F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.84|0.62|
92335318|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.69|||||TWO_SIDED|95.0|0.6|0.8||||||Serotype 9V: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.80|0.60|
92147607|NCT00514683|184180260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.0652||0.3149|TWO_SIDED|95.0|-0.063|0.194|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.194|-0.063|0.3149
92147608|NCT00514683|184180260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.025|STANDARD_ERROR_OF_MEAN|0.0654||0.7062|TWO_SIDED|95.0|-0.104|0.153|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.153|-0.104|0.7062
92147609|NCT00514683|184180260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.0675||0.0703|TWO_SIDED|95.0|-0.01|0.255|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.255|-0.010|0.0703
92147610|NCT00514683|184180261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.0884||0.4792|TWO_SIDED|95.0|-0.111|0.236|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.236|-0.111|0.4792
92147611|NCT00514683|184180261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.0839||0.2221|TWO_SIDED|95.0|-0.062|0.268|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.268|-0.062|0.2221
92147612|NCT00514683|184180261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.0843||0.151|TWO_SIDED|95.0|-0.044|0.287|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.287|-0.044|0.1510
92147613|NCT00514683|184180261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.337|STANDARD_ERROR_OF_MEAN|0.0874||0.0001|TWO_SIDED|95.0|0.165|0.509|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.509|0.165|0.0001
92147614|NCT00514683|184180262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.0609||0.1129|TWO_SIDED|95.0|-0.023|0.217|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.217|-0.023|0.1129
92147615|NCT00514683|184180262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.0584||0.1498|TWO_SIDED|95.0|-0.031|0.199|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.199|-0.031|0.1498
92147616|NCT00514683|184180262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.109|STANDARD_ERROR_OF_MEAN|0.0585||0.0632|TWO_SIDED|95.0|-0.006|0.224|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.224|-0.006|0.0632
92147617|NCT00514683|184180262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.0604||0.0009|TWO_SIDED|95.0|0.083|0.32|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.320|0.083|0.0009
92147618|NCT00514683|184180263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.0676||0.6306|TWO_SIDED|95.0|-0.165|0.1|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.100|-0.165|0.6306
92147619|NCT00514683|184180263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.065||0.7426|TWO_SIDED|95.0|-0.149|0.106|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.106|-0.149|0.7426
92147620|NCT00514683|184180263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.0651||0.9209|TWO_SIDED|95.0|-0.134|0.121|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.121|-0.134|0.9209
92147621|NCT00514683|184180263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.0671||0.7701|TWO_SIDED|95.0|-0.112|0.152|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.152|-0.112|0.7701
92147622|NCT00514683|184180264|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.6671|TWO_SIDED|95.0|0.36|1.93||Based on the statistic of ln(risk ratio) having a normal distribution N\[0,\[ (1/number with at least one exacerbation in Nintedanib group) + (1//number with at least one exacerbation in placebo) \] \]|Negative binomial model|Default log link function and adjusted for an off-set variable (logarithm of the follow-up time), for gender, height, age and region as fixed effects.|Risk ratio lower than 1 favours the treatment group over placebo.|||1.93|0.36|0.6671
92147623|NCT00514683|184180264|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8||||0.5926|TWO_SIDED|95.0|0.34|1.84||Based on the statistic of ln(risk ratio) having a normal distribution N\[0,\[ (1/number with at least one exacerbation in Nintedanib group) + (1//number with at least one exacerbation in placebo) \] \]|Negative binomial model|Default log link function and adjusted for an off-set variable (logarithm of the follow-up time), for gender, height, age and region as fixed effects.|Risk ratio lower than 1 favours the treatment group over placebo.|||1.84|0.34|0.5926
92147624|NCT00514683|184180264|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.48||||0.1381|TWO_SIDED|95.0|0.18|1.27||Based on the statistic of ln(risk ratio) having a normal distribution N\[0,\[ (1/number with at least one exacerbation in Nintedanib group) + (1//number with at least one exacerbation in placebo) \] \]|Negative binomial model|Default log link function and adjusted for an off-set variable (logarithm of the follow-up time), for gender, height, age and region as fixed effects.|Risk ratio lower than 1 favours the treatment group over placebo.|||1.27|0.18|0.1381
92210042|NCT05754333|184320404|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|0.8|1.4|||Sign test||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the index ureter(left or right) for eachparticipant.|For reader 3||1.4|0.8|<0.001
92210043|NCT05754333|184320404|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.043|||||TWO_SIDED|95.0|-0.191|0.272||||||CCC between BICR and investigator (95% CI), Reader 3||0.272|-0.191|
92210044|NCT05754333|184320404|SUPERIORITY||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.8|2.5|||Sign test||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the index ureter(left or right) for eachparticipant.|For reader 4||2.5|1.8|<0.001
92147625|NCT00514683|184180264|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.16||||0.015|TWO_SIDED|95.0|0.03|0.7||Based on the statistic of ln(risk ratio) having a normal distribution N\[0,\[ (1/number with at least one exacerbation in Nintedanib group) + (1//number with at least one exacerbation in placebo) \] \]|Negative binomial model|Default log link function and adjusted for an off-set variable (logarithm of the follow-up time), for gender, height, age and region as fixed effects.|Risk ratio lower than 1 favours the treatment group over placebo.|||0.70|0.03|0.0150
92147626|NCT00514683|184180265|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9||||0.8282|TWO_SIDED|95.0|0.347|2.336|||Negative binomial model||Risk ratio is actually Rate Ratio. Rate ratio is calculated based on Negative binomial model with default log link function and adjusted for an off-set variable and age, height, gender, region (all effects fixed).|||2.336|0.347|0.8282
92147627|NCT00514683|184180265|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.73||||0.5326|TWO_SIDED|95.0|0.278|1.938|||Negative Binomial model||Risk ratio is actually Rate Ratio. Rate ratio is calculated based on Negative binomial model with default log link function and adjusted for an off-set variable and age, height, gender, region (all effects fixed).|||1.938|0.278|0.5326
92147628|NCT00514683|184180265|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49||||0.1944|TWO_SIDED|95.0|0.167|1.438|||Negative Binomial model||Risk ratio is actually Rate Ratio. Rate ratio is calculated based on Negative binomial model with default log link function and adjusted for an off-set variable and age, height, gender, region (all effects fixed).|||1.438|0.167|0.1944
92147629|NCT00514683|184180265|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.22||||0.0324|TWO_SIDED|95.0|0.056|0.882|||Negative Binomial model||Risk ratio is actually Rate Ratio. Rate ratio is calculated based on Negative binomial model with default log link function and adjusted for an off-set variable and age, height, gender, region (all effects fixed).|||0.882|0.056|0.0324
92147630|NCT00514683|184180266|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.758||||0.5206|TWO_SIDED|95.0|0.326|1.765|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.765|0.326|0.5206
92147631|NCT00514683|184180266|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.841||||0.6862|TWO_SIDED|95.0|0.362|1.952|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.952|0.362|0.6862
92147632|NCT00514683|184180266|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.517||||0.1891|TWO_SIDED|95.0|0.193|1.384|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.384|0.193|0.1891
92147633|NCT00514683|184180266|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.158||||0.0161|TWO_SIDED|95.0|0.035|0.711|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||0.711|0.035|0.0161
92147634|NCT00514683|184180267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.173||||0.7449|TWO_SIDED|95.0|0.448|3.072|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||3.072|0.448|0.7449
92147635|NCT00514683|184180267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.316||||0.0925|TWO_SIDED|95.0|0.083|1.209|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.209|0.083|0.0925
92147636|NCT00514683|184180267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.19||||0.0379|TWO_SIDED|95.0|0.04|0.911|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||0.911|0.040|0.0379
92147637|NCT00514683|184180267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.225||||0.06|TWO_SIDED|95.0|0.048|1.065|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.065|0.048|0.0600
92147638|NCT00514683|184180268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.055||||0.7883|TWO_SIDED|95.0|0.713|1.563|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.563|0.713|0.7883
92147639|NCT00514683|184180268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.958||||0.8293|TWO_SIDED|95.0|0.646|1.419|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.419|0.646|0.8293
92147640|NCT00514683|184180268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.805||||0.303|TWO_SIDED|95.0|0.534|1.216|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.216|0.534|0.3030
92147641|NCT00514683|184180268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.6505|TWO_SIDED|95.0|0.605|1.369|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.369|0.605|0.6505
92147642|NCT01564368|184180270|SUPERIORITY||area under the curve (AUC)|0.53||||0.484|ONE_SIDED|95.0||0.61||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) was considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in Apparent Diffusion Coefficients (ADC1 - ADC0)/ADC0 (Test: %change in ADC; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.61||0.484
92147643|NCT01564368|184180270|SUPERIORITY||area under the curve|0.6||||0.017|ONE_SIDED|95.0||0.68||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) was considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in Apparent Diffusion Coefficients (ADC2 - ADC0)/ADC0 (Test: %change in ADC; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.68||0.017
92147644|NCT01564368|184180270|SUPERIORITY||area under the curve|0.61||||0.013|ONE_SIDED|95.0||0.69||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) is considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in Apparent Diffusion Coefficients (ADC3 - ADC0)/ADC0 (Test: %change in ADC; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.69||0.013
92168526|NCT04878354|184226843|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.1516|TWO_SIDED|95.0|-0.11|0.76|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.76|-0.11|0.1516
92335319|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.84|||||TWO_SIDED|95.0|0.7|1.01||||||Serotype 14: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.01|0.70|
92335320|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.66|||||TWO_SIDED|95.0|0.57|0.77||||||Serotype 18C: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.77|0.57|
92335321|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.76|||||TWO_SIDED|95.0|0.65|0.87||||||Serotype 19A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.87|0.65|
92335322|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.75|||||TWO_SIDED|95.0|0.67|0.85||||||Serotype 19F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.85|0.67|
92335323|NCT04530838|184573341|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.64|||||TWO_SIDED|95.0|0.53|0.78||||||Serotype 23F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.78|0.53|
92335324|NCT04530838|184573341|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|4.01|||||TWO_SIDED|95.0|3.36|4.79||||||Serotype 8: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||4.79|3.36|
92335325|NCT04530838|184573341|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.6|||||TWO_SIDED|95.0|0.48|0.76||||||Serotype 10A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.76|0.48|
92335326|NCT04530838|184573341|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|6.8|||||TWO_SIDED|95.0|5.69|8.13||||||Serotype 11A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||8.13|5.69|
92335327|NCT04530838|184573341|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.95|||||TWO_SIDED|95.0|0.76|1.2||||||Serotype 12F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.20|0.76|
92335328|NCT04530838|184573341|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|8.18|||||TWO_SIDED|95.0|6.75|9.92||||||Serotype 15B: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||9.92|6.75|
92147645|NCT01564368|184180271|SUPERIORITY||area under the curve|0.68|||<|0.001|ONE_SIDED|95.0||0.75||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) was considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in functional tumor volumes (FTV1 - FTV0)/FTV0 (Test: %change in FTV; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.75||<0.001
92147646|NCT01564368|184180271|SUPERIORITY||area under the curve|0.63|||<|0.001|ONE_SIDED|95.0||0.71||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) was considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in functional tumor volumes (FTV2 - FTV0)/FTV0 (Test: %change in FTV; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.71||<0.001
92147647|NCT01564368|184180271|SUPERIORITY||area under the curve|0.68|||<|0.001|ONE_SIDED|95.0||0.75||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) was considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in functional tumor volumes (FTV3 - FTV0)/FTV0 (Test: %change in FTV; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.75||<0.001
92147648|NCT01564368|184180272|EQUIVALENCE|no equivalence margin was used.||||||0.032|||||||z-test|||AUC (optimized) = AUC (ΔADC)||||0.032
92147649|NCT04810221|184180280|OTHER|Paired T-test 0|Mean Difference (Final Values)|0.18||||0.31|TWO_SIDED|95.0|-0.17|0.54|||Paired T-test 0||||Additional statistical analysis were: Bland Altman plot and linear regression analysis.|0.54|-0.17|0.31
92147650|NCT04810221|184180281|OTHER|Paired T test 0|Mean Difference (Final Values)|0.25||||0.32|TWO_SIDED|95.0|-0.24|0.75|||Paired T test 0||||Additional statistical analysis were: Bland Altman plot and linear regression analysis.|0.75|-0.24|0.32
92147651|NCT01181726|184180284|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|104.66|||||TWO_SIDED|90.0|94.22|116.25|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||116.25|94.22|
92210045|NCT05754333|184320404|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.245|||||TWO_SIDED|95.0|0.014|0.451||||||CCC between BICR and investigator (95% CI), Reader 4||0.451|0.014|
92273005|NCT00581386|184448066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.125||||0.013||95.0|1.27|7.67|||Regression, Logistic|Logistic regression Number of obs = 217, LR chi2(2)=10.89, Prob\>chi2=0.0043,Log likelihood = -112.87788, Pseudo R2=0.0460|this is a simple odds ratio|||7.67|1.27|0.013
92273006|NCT00581386|184448066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.81||||0.003||95.0|1.57|9.29|||Odds ratio|||||9.29|1.57|0.003
92273007|NCT00581386|184448067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.006||||0.006||95.0|||||t-test, 2 sided|||||||0.006
92273008|NCT00581386|184448068|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.088||||0.003||95.0|1.728|14.99|||Regression, Logistic|||||14.99|1.728|0.003
92273009|NCT00581386|184448068|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.22||||0.0004||95.0|2.419|21.527|||Regression, Logistic|||||21.527|2.419|0.0004
92273010|NCT00681824|184448070|SUPERIORITY_OR_OTHER|||||||0.7159||95.0|||||likelihood ratio of chi squared test|||||||0.7159
92273011|NCT03101293|184448119|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as fixed effects and participant nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates of the food effect and 90% confidence intervals (CIs).|LS Mean Ratio|1.343||||0.0058|TWO_SIDED|90.0|1.146|1.574|||ANOVA|||||1.574|1.146|0.0058
92273012|NCT03101293|184448120|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as fixed effects and participant nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates of the food effect and 90% CIs.|LS Mean Ratio|1.121||||0.1763|TWO_SIDED|90.0|0.969|1.298|||ANOVA|||||1.298|0.969|0.1763
92273013|NCT03101293|184448121|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as fixed effects and participant nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates of the food effect and 90% CIs.|LS Mean Ratio|1.154||||0.2745|TWO_SIDED|90.0|0.929|1.433|||ANOVA|||||1.433|0.929|0.2745
92273014|NCT03182920|184448145|SUPERIORITY||Ratio of geometric least squares means|1.21|||||TWO_SIDED|90.0|0.962|1.52||||||||1.52|0.962|
92273015|NCT03182920|184448146|SUPERIORITY||Ratio of geometric least squares means|1.26|||||TWO_SIDED|90.0|1.03|1.55||||||||1.55|1.03|
92273016|NCT02314520|184448158|SUPERIORITY|||||||0.271||||||0.05 is the threshold for significance for this primary outcome.|Fisher Exact|||||||0.271
92147652|NCT01181726|184180285|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.4|||||TWO_SIDED|90.0|93.91|101.02|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.02|93.91|
92147653|NCT01181726|184180286|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.6|||||TWO_SIDED|90.0|94.05|101.3|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.30|94.05|
92147654|NCT01181726|184180287|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.35|||||TWO_SIDED|90.0|92.21|107.06|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||107.06|92.21|
92147655|NCT01181726|184180288|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.21|||||TWO_SIDED|90.0|91.21|99.39|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||99.39|91.21|
92147656|NCT01181726|184180289|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.25|||||TWO_SIDED|90.0|91.18|99.51|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||99.51|91.18|
92147657|NCT01181726|184180290|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.33|||||TWO_SIDED|90.0|92.21|107.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||107.00|92.21|
92147658|NCT01181726|184180291|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.19|||||TWO_SIDED|90.0|91.18|99.38|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||99.38|91.18|
92147659|NCT01181726|184180292|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.23|||||TWO_SIDED|90.0|91.17|99.47|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||99.47|91.17|
92147660|NCT01181726|184180293|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.92|||||TWO_SIDED|90.0|93.44|102.61|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.61|93.44|
92147661|NCT01181726|184180294|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.77|||||TWO_SIDED|90.0|93.92|101.78|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.78|93.92|
92210046|NCT05754333|184320405|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.1|1.8|||paired t test||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 2||1.8|1.1|<0.001
92396259|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.78||0.0014|TWO_SIDED|95.0|-4.06|-0.98||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.98|-4.06|0.0014
92147662|NCT01181726|184180295|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.71|||||TWO_SIDED|90.0|94.42|105.3|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||105.30|94.42|
92147663|NCT01181726|184180296|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.19|||||TWO_SIDED|90.0|94.71|103.87|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||103.87|94.71|
92147664|NCT01181726|184180297|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.83|||||TWO_SIDED|90.0|94.55|101.21|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.21|94.55|
92147665|NCT01181726|184180298|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.01|||||TWO_SIDED|90.0|94.54|101.6|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.60|94.54|
92147666|NCT01181726|184180299|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.87|||||TWO_SIDED|90.0|93.22|102.74|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.74|93.22|
92147667|NCT01181726|184180300|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.96|||||TWO_SIDED|90.0|93.66|102.46|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.46|93.66|
92147668|NCT01181726|184180301|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.01|||||TWO_SIDED|90.0|94.17|104.11|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||104.11|94.17|
92147669|NCT01181726|184180302|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.13|||||TWO_SIDED|90.0|94.39|104.1|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||104.10|94.39|
92147670|NCT01181726|184180303|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.72|||||TWO_SIDED|90.0|94.03|101.56|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.56|94.03|
92147671|NCT01181726|184180304|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.99|||||TWO_SIDED|90.0|94.11|102.02|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.02|94.11|
92147672|NCT01264380|184180305|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|4.64|||||TWO_SIDED|90.0|2.83|7.6||||||The point estimate and 90 percent (%) confidence interval (CI) of vemurafenib plasma AUC geometric means ratios of the Fed to Fasted conditions following an oral administration of a single dose of 960 mg vemurafenib were analyzed.||7.60|2.83|
92147673|NCT01264380|184180306|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|5.05|||||TWO_SIDED|90.0|2.99|8.55||||||The point estimate and 90% CI of vemurafenib plasma AUC geometric means ratios of the Fed to Fasted conditions following an oral administration of a single dose of 960 mg vemurafenib were analyzed.||8.55|2.99|
92147674|NCT01264380|184180307|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|2.45|||||TWO_SIDED|90.0|1.81|3.32||||||The point estimate and 90% CI of vemurafenib plasma Cmax geometric means ratios of the Fed to Fasted conditions following an oral administration of a single dose of 960 mg vemurafenib were analyzed.||3.32|1.81|
92210047|NCT05754333|184320405|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.339|||||TWO_SIDED|95.0|0.116|0.529||||||CCC between BICR and investigator (95% CI), Reader 2||0.529|0.116|
92147675|NCT04998604|184180317|SUPERIORITY|At each post-baseline visit, each of the imputed complete data was analyzed by fitting an analysis of covariance (ANCOVA) model with the corresponding baseline value, study treatment (dupilumab, omalizumab), prior surgery (yes, no), ICS doses (low, medium/high), presence of AERD (yes, no), region (EE, ROW) as covariates.|Least squares (LS) mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.182|<|0.001|TWO_SIDED|95.0|-1.96|-1.25||The threshold for statistical significance was 0.05 level.|ANCOVA|||A hierarchical testing procedure was used to control the type-I error and handle multiple secondary endpoint analysis. Testing was performed sequentially in order the endpoints were reported and continued when primary endpoint was statistically significant at 2-sided 0.05.||-1.25|-1.96|<0.001
92147676|NCT04998604|184180318|SUPERIORITY|At each post-baseline visit, each of the imputed complete data was analyzed by fitting an ANCOVA model with the corresponding baseline value, study treatment (dupilumab, omalizumab), prior surgery (yes, no), ICS doses (low, medium/high), presence of AERD (yes, no), region (EE, ROW) as covariates.|LS mean difference|8.0|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|6.3|9.7||The threshold for statistical significance was 0.05 level.|ANCOVA|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9.7|6.3|<0.001
92147677|NCT04998604|184180319|SUPERIORITY|Each of the imputed complete data was analyzed by fitting an ANCOVA model with the corresponding baseline value, study treatment (dupilumab, omalizumab), prior surgery (yes, no), ICS doses (low, medium/high), presence of AERD (yes, no), region (EE, ROW) as covariates.|LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.101|<|0.001|TWO_SIDED|95.0|-1.01|-0.61||The threshold for statistical significance was 0.05 level.|ANCOVA|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.61|-1.01|<0.001
92147678|NCT04998604|184180320|SUPERIORITY|Each of the imputed complete data was analyzed by fitting an ANCOVA model with the corresponding baseline value, study treatment (dupilumab, omalizumab), prior surgery (yes, no), ICS doses (low, medium/high), presence of AERD (yes, no), region (EE, ROW) as covariates.|LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.082|<|0.001|TWO_SIDED|95.0|-0.74|-0.42||The threshold for statistical significance was 0.05 level.|ANCOVA|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.42|-0.74|<0.001
92147679|NCT04998604|184180321|SUPERIORITY|Each of the imputed complete data was analyzed by fitting an ANCOVA model with the corresponding baseline value, study treatment (dupilumab, omalizumab), prior surgery (yes, no), ICS doses (low, medium/high), presence of AERD (yes, no), region (EE, ROW) as covariates.|LS mean difference|-1.74|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-2.15|-1.33||The threshold for statistical significance was 0.05 level.|ANCOVA|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-1.33|-2.15|<0.001
92147680|NCT00643123|184180354|OTHER||Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|2.3||0.45|TWO_SIDED||||||t-test, 2 sided|||||||.45
92147681|NCT00530062|184180408|OTHER||Difference in adjusted mean|0.946||||0.5595|TWO_SIDED|95.0|-2.293|4.185||Threshold for significance at 0.05 level.|ANCOVA|||The analysis was performed using the mixed-effect analysis of variance with fixed effects of center, sequence, treatment group and period, and random effect of the participant within sequence.||4.185|-2.293|0.5595
92147682|NCT01376323|184180426|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|-0.13|0.6||||||||0.60|-0.13|
92147683|NCT01376323|184180426|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-0.37|0.35||||||||0.35|-0.37|
92147684|NCT01376323|184180426|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13|||||TWO_SIDED|95.0|-0.49|0.23||||||||0.23|-0.49|
92147685|NCT01376323|184180426|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-0.66|0.06||||||||0.06|-0.66|
92147686|NCT01376323|184180427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.551|||||TWO_SIDED|95.0|-1.645|0.543|||||Comparison for glucose.|||0.543|-1.645|
92147687|NCT01376323|184180427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.382|||||TWO_SIDED|95.0|-1.472|0.708|||||Comparison for glucose.|||0.708|-1.472|
92147688|NCT01376323|184180427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59|||||TWO_SIDED|95.0|-1.696|0.516|||||Comparison for glucose.|||0.516|-1.696|
92147689|NCT01376323|184180427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.595|||||TWO_SIDED|95.0|-1.669|0.48|||||Comparison for glucose.|||0.480|-1.669|
92147690|NCT01376323|184180427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.036|||||TWO_SIDED|95.0|-0.042|0.113|||||Comparison for NEFA.|||0.113|-0.042|
92147691|NCT01376323|184180427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.004|||||TWO_SIDED|95.0|-0.073|0.081|||||Comparison for NEFA.|||0.081|-0.073|
92147692|NCT01376323|184180427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.021|||||TWO_SIDED|95.0|-0.058|0.099|||||Comparison for NEFA.|||0.099|-0.058|
92147693|NCT01376323|184180427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.083|||||TWO_SIDED|95.0|-0.16|-0.007|||||Comparison for NEFA.|||-0.007|-0.160|
92147694|NCT01376323|184180429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|||||TWO_SIDED|95.0|-0.79|0.94||||||||0.94|-0.79|
92147695|NCT01376323|184180429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04|||||TWO_SIDED|95.0|-0.9|0.82||||||||0.82|-0.90|
92147696|NCT01376323|184180429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.9|0.85||||||||0.85|-0.90|
92147697|NCT01376323|184180429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|||||TWO_SIDED|95.0|-1.27|0.42||||||||0.42|-1.27|
92147698|NCT01376323|184180430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.27|||||TWO_SIDED|95.0|-48.62|53.16||||||||53.16|-48.62|
92147699|NCT01376323|184180430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.67|||||TWO_SIDED|95.0|-58.04|42.7||||||||42.70|-58.04|
92147700|NCT01376323|184180430|SUPERIORITY_OR_OTHER||Median Difference (Net)|24.08|||||TWO_SIDED|95.0|-27.75|75.92||||||||75.92|-27.75|
92147701|NCT01376323|184180430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.09|||||TWO_SIDED|95.0|-52.72|48.53||||||||48.53|-52.72|
92147702|NCT01376323|184180432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.58|||||TWO_SIDED|95.0|-19.36|16.2||||||||16.20|-19.36|
92147703|NCT01376323|184180432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.1|||||TWO_SIDED|95.0|-33.0|2.81||||||||2.81|-33.00|
92147704|NCT01376323|184180432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.09|||||TWO_SIDED|95.0|-32.41|4.23||||||||4.23|-32.41|
92147705|NCT01376323|184180432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.12|||||TWO_SIDED|95.0|-36.55|-1.68||||||||-1.68|-36.55|
92147706|NCT04681729|184180434|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9492|TWO_SIDED|95.0|0.41|2.56||Cochran-Mantel-Haenszel test was performed on the association between the ice cube provocation test result and intervention group, stratified by region and background H1-antihistamine regular/daily use (Yes or No). Threshold of significance at 0.01.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the family-wise type-I error. Testing was then performed sequentially in order the endpoints were reported and continued when primary endpoint was statistically significant at two-sided 0.01.||2.56|0.41|0.9492
92147707|NCT02436811|184180451|SUPERIORITY_OR_OTHER||||||<|0.001||||||A stepwise forward selection model was used. All independent variables with P\<0.20 in the univariate analysis were selected and those which were significant (P\<0.05) were kept in the final model. The level of significance was 5%.|Regression, Poisson|||Univariate and multivariate Poisson regressions with robust variance were obtained to estimate the rate ratios (RR) and their respective 95% confidence intervals. Two Poisson regression models were generated, using the knowledge score 15 minutes after the intervention (post-test) and 4 weeks after the interventions (follow-up test) as dependent variables.||||<0.001
92147708|NCT02856113|184180457|SUPERIORITY||Least Square (LS) Mean Difference|0.102|STANDARD_DEVIATION|0.3677|=|0.782|TWO_SIDED|95.0|-0.627|0.831||P-values was assessed at 0.05 significance level using MMRM.|MMRM||MMRM:Treatment,scheduled visit,antidiabetic therapy,visit-by-treatment interaction-categorical effects;Baseline HbA1c,visit-by-baseline HbA1c interaction-continuous covariates;unstructured covariance matrix for correlation of repeated measurements.|||0.831|-0.627|=0.782
92147709|NCT02856113|184180458|SUPERIORITY||LS Mean Difference|-0.046|STANDARD_DEVIATION|0.2635|=|0.863|TWO_SIDED|95.0|-0.567|0.476||P-values was assessed at 0.05 significance level using MMRM.|MMRM||MMRM:Treatment,scheduled visit,antidiabetic therapy,visit-by-treatment interaction-categorical effects;Baseline HbA1c,visit-by-baseline HbA1c interaction-continuous covariates;unstructured covariance matrix for correlation of repeated measurements.|Change From Baseline at Week 12||0.476|-0.567|=0.863
92147710|NCT02856113|184180458|SUPERIORITY||LS Mean Difference|0.004|STANDARD_DEVIATION|0.3123|=|0.99|TWO_SIDED|95.0|-0.614|0.622||P-values was assessed at 0.05 significance level using MMRM.|MMRM||MMRM:Treatment,scheduled visit,antidiabetic therapy,visit-by-treatment interaction-categorical effects;Baseline HbA1c,visit-by-baseline HbA1c interaction-continuous covariates;unstructured covariance matrix for correlation of repeated measurements.|Change From Baseline at Week 18||0.622|-0.614|=0.990
92147711|NCT02856113|184180458|SUPERIORITY||LS Mean Difference|-0.412|STANDARD_DEVIATION|0.3664|=|0.264|TWO_SIDED|95.0|-1.139|0.316||P-values was assessed at 0.05 significance level using MMRM.|MMRM||MMRM:Treatment,scheduled visit,antidiabetic therapy,visit-by-treatment interaction-categorical effects;Baseline HbA1c,visit-by-baseline HbA1c interaction-continuous covariates;unstructured covariance matrix for correlation of repeated measurements.|Change From Baseline at Week 39||0.316|-1.139|=0.264
92147712|NCT02856113|184180458|SUPERIORITY||LS Mean Difference|-0.483|STANDARD_DEVIATION|0.4165|=|0.25|TWO_SIDED|95.0|-1.314|0.348||P-values was assessed at 0.05 significance level using MMRM.|MMRM||MMRM:Treatment,scheduled visit,antidiabetic therapy,visit-by-treatment interaction-categorical effects;Baseline HbA1c,visit-by-baseline HbA1c interaction-continuous covariates;unstructured covariance matrix for correlation of repeated measurements.|Change From Baseline at Week 52||0.348|-1.314|=0.250
92147713|NCT03494166|184180469|SUPERIORITY|Key parameter was the coefficient for the trial arm variable in the mixed model, reflecting average difference of group means over time (weeks 1-13).|Mean Difference (Final Values)|-1.31|STANDARD_ERROR_OF_MEAN|1.32||0.31|TWO_SIDED|95.0|-3.9|1.25||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was set at .05.|Mixed Models Analysis|Linear mixed effects models were used for 13 repeated measures of symptom severity index, adjusting for baseline value.|The mean of the group that started with SMSH alone minus the mean of the group that started with SMSH+TIPC (average over time).|"The null hypothesis was that the means in two arms were equal, the alternative hypothesis was that the means were not equal.~We planned to randomize 224 survivors in approximately 3:1 ratio in the first randomization; power was 0.92 to detect the adjusted d=0.54 in the comparison of the SMSH and SMSH+TIPC in the first randomization. The planned number of 224 was exceeded because more survivors than planned were determined to have high need for symptom management."||1.25|-3.90|.31
92147714|NCT03494166|184180470|SUPERIORITY|The key parameter was the coefficient for the variable reflecting trial arm from the second randomization in the mixed model. This parameter reflected average difference between means of two groups over time (weeks 5-13).|Mean Difference (Final Values)|-2.18|STANDARD_ERROR_OF_MEAN|3.35||0.52|TWO_SIDED|95.0|-8.91|4.55||The p-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Linear mixed effects models were used for 9 repeated measures of symptom severity index (weeks 5-13), adjusting for baseline value.|The mean of the group that continued with SMSH alone minus the mean of the group that had TIPC added to the SMSH after week 4.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The required sample size was 60 per group for .80 power or greater in two-tailed tests at the 0.05 level of significance using the effect size of Cohen's d=0.54 (adjusted for baseline and repeated measures). The actual sample size was smaller (61 total) due to the higher than planned rate of response to the SMSH alone by week 4.||4.55|-8.91|.52
92147715|NCT03494166|184180471|SUPERIORITY|Key parameter was the coefficient for the trial arm from the first randomization variable in the linear regression model.|Median Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|1.12||0.71|TWO_SIDED|95.0|-2.63|1.81||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Regression, Linear||The mean of group that started with SMSH alone minus the mean of the group that started with SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||1.81|-2.63|.71
92210048|NCT05754333|184320405|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|0.6|1.3|||paired t test||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 3||1.3|0.6|<0.001
92147716|NCT03494166|184180472|SUPERIORITY|The key parameter was the coefficient for the trial arm from the second randomization variable in linear regression model.|Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|2.91||0.79|TWO_SIDED|95.0|-6.53|5.01||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Regression, Linear|The model included the adjustment for baseline value of the outcome.|The mean of the group that continued with SMSH alone minus the mean of the group that had TIPC added to the SMSH after week 4.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||5.01|-6.53|.79
92147717|NCT02110901|184180479|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.254|TWO_SIDED|95.0|0.61|1.14|||Log Rank|||||1.14|0.61|0.254
92147718|NCT02110901|184180480|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.048|TWO_SIDED|95.0|0.43|1.0|||Log Rank|||||1.00|0.43|0.048
92147719|NCT02110901|184180481|SUPERIORITY|||||||0.109|||||||Chi-squared|||||||0.109
92147720|NCT02110901|184180482|SUPERIORITY|||||||0.035|||||||Chi-squared|||||||0.035
92147721|NCT00855595|184180487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0903|||||||ANCOVA|||||||0.0903
92147722|NCT01058304|184180512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.67||||0.1024|TWO_SIDED|95.0|-5.87|0.538|||Mixed Models Analysis|||"The analysis compares study Arm 1 and Arm 2 at 24-week follow-up, with 12-week data also included in the response trajectory.~The hypothesis being tested is that group-based PT (Arm 1) will result in a significantly greater improvement WOMAC scores compared to individual PT (Arm 2)"||0.538|-5.87|0.1024
92147723|NCT01058304|184180512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.444|TWO_SIDED|95.0|-4.64|2.04|||Mixed Models Analysis|||The hypothesis being tested is that the group-based PT program (Arm 1) will result in greater improvements in WOMAC scores at 24-week follow-up (12 weeks after the end of the group program) when compared to usual PT care (Arm 2).||2.04|-4.64|0.444
92147724|NCT01058304|184180513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.113||||0.527|TWO_SIDED|95.0|-0.463|0.238|||Mixed Models Analysis|||The analysis compares Arms 1 and 2 at 12-week follow-up. The hypothesis being tested is that the group-based PT program (Arm 1) will result in a significantly greater improvement in SPPB scores compared with the individual PT program (Arm 2).||0.238|-0.463|0.527
92147725|NCT02496767|184180515|SUPERIORITY||Least squares mean difference|1.707|STANDARD_ERROR_OF_MEAN|1.9365||0.3782|TWO_SIDED|95.0|-2.089|5.503|||Repeated-measures mixed model|||||5.503|-2.089|0.3782
92147726|NCT02496767|184180515|SUPERIORITY||Least squares mean difference|0.612|STANDARD_ERROR_OF_MEAN|2.0245||0.7625|TWO_SIDED|95.0|-3.359|4.583|||Repeated-measures mixed model|||||4.583|-3.359|0.7625
92147727|NCT02496767|184180515|SUPERIORITY||Least squares mean difference|0.428|STANDARD_ERROR_OF_MEAN|2.1081||0.8394|TWO_SIDED|95.0|-3.711|4.566|||Repeated-measures mixed model|||||4.566|-3.711|0.8394
92147728|NCT02496767|184180516|SUPERIORITY||Least squares mean difference|0.31|STANDARD_ERROR_OF_MEAN|0.41||0.4521|TWO_SIDED|95.0|-0.5|1.12|||Repeated-measures mixed model|||||1.12|-0.50|0.4521
92147729|NCT02496767|184180516|SUPERIORITY||Least squares mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.426||0.712|TWO_SIDED|95.0|-1.0|0.68|||Repeated-measures mixed model|||||0.68|-1.00|0.7120
92147730|NCT02496767|184180516|SUPERIORITY||Least squares mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.439||0.451|TWO_SIDED|95.0|-1.19|0.53|||Repeated-measures mixed model|||||0.53|-1.19|0.4510
92147731|NCT02496767|184180517|SUPERIORITY||Mean Difference (Final Values)|-0.0011||||0.9505|TWO_SIDED|95.0|-0.0374|0.0351|||Repeated-measures mixed model|||||0.0351|-0.0374|0.9505
92147732|NCT02496767|184180517|SUPERIORITY||Mean Difference (Final Values)|0.0066||||0.7336|TWO_SIDED|95.0|-0.0317|0.045|||Repeated-measures mixed model|||||0.0450|-0.0317|0.7336
92147733|NCT02496767|184180517|SUPERIORITY||Mean Difference (Final Values)|0.0088||||0.6593|TWO_SIDED|95.0|-0.0303|0.0479|||Repeated-measures mixed model|||||0.0479|-0.0303|0.6593
92147734|NCT02496767|184180518|SUPERIORITY||Hazard Ratio (HR)|0.818||||0.2369|TWO_SIDED|95.0|0.587|1.141|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.141|0.587|0.2369
92147735|NCT02496767|184180518|SUPERIORITY||Hazard Ratio (HR)|0.988||||0.942|TWO_SIDED|95.0|0.711|1.372|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.372|0.711|0.9420
92147736|NCT02496767|184180518|SUPERIORITY||Hazard Ratio (HR)|0.933||||0.6853|TWO_SIDED|95.0|0.668|1.304|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.304|0.668|0.6853
92210049|NCT05754333|184320405|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.186|||||TWO_SIDED|95.0|-0.048|0.4||||||CCC between BICR and investigator (95% CI), Reader 3||0.400|-0.048|
92147737|NCT02496767|184180519|SUPERIORITY||Hazard Ratio (HR)|1.066||||0.7667|TWO_SIDED|95.0|0.698|1.627|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.627|0.698|0.7667
92147738|NCT02496767|184180519|SUPERIORITY||Hazard Ratio (HR)|0.904||||0.6619|TWO_SIDED|95.0|0.577|1.419|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.419|0.577|0.6619
92147739|NCT02496767|184180519|SUPERIORITY||Hazard Ratio (HR)|0.882||||0.5856|TWO_SIDED|95.0|0.561|1.386|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.386|0.561|0.5856
92147740|NCT02496767|184180520|SUPERIORITY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|1.103||0.9991|TWO_SIDED|95.0|-2.17|2.17|||Repeated-measures mixed model|||||2.17|-2.17|0.9991
92147741|NCT02496767|184180520|SUPERIORITY||Least squares mean difference|-0.8|STANDARD_ERROR_OF_MEAN|1.138||0.4808|TWO_SIDED|95.0|-3.04|1.43|||Repeated-measures mixed model|||||1.43|-3.04|0.4808
92147742|NCT02496767|184180520|SUPERIORITY||Least squares mean difference|-0.6|STANDARD_ERROR_OF_MEAN|1.165||0.6082|TWO_SIDED|95.0|-2.89|1.69|||Repeated-measures mixed model|||||1.69|-2.89|0.6082
92147743|NCT02496767|184180521|SUPERIORITY||Hazard Ratio (HR)|0.776||||0.2602|TWO_SIDED|95.0|0.5|1.206|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.206|0.500|0.2602
92147744|NCT02496767|184180521|SUPERIORITY||Hazard Ratio (HR)|1.094||||0.6748|TWO_SIDED|95.0|0.72|1.662|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.662|0.720|0.6748
92210050|NCT05754333|184320405|SUPERIORITY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.6|2.3|||paired t test||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 4||2.3|1.6|<0.001
92147745|NCT02496767|184180521|SUPERIORITY||Hazard Ratio (HR)|0.938||||0.7694|TWO_SIDED|95.0|0.609|1.443|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.443|0.609|0.7694
92147746|NCT00166296|184180522|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.4||||0.441|TWO_SIDED|95.0|0.075|2.141|||Fisher Exact|||||2.141|0.075|0.441
92147747|NCT00166296|184180523|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Chi-squared|||||||>0.05
92147748|NCT00166296|184180524|SUPERIORITY_OR_OTHER_LEGACY|||||||0.443||95.0|||||ANOVA|||||||0.443
92147749|NCT00166296|184180525|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93||95.0|||||ANOVA|||||||0.930
92147750|NCT03477279|184180526|SUPERIORITY||Risk Difference (RD)|0.9|||||TWO_SIDED|95.0|-5.6|7.3|||||Couple (HIV+ Women) - Individual (HIV+ Women)|||7.3|-5.6|
92147751|NCT03477279|184180527|SUPERIORITY||Risk Difference (RD)|6.6|||||TWO_SIDED|95.0|-0.8|14.0|||||Couple (HIV+ Women) - Individual (HIV+ Women)|||14.0|-0.8|
92147752|NCT03477279|184180528|SUPERIORITY||Risk Difference (RD)|10.0|||||TWO_SIDED|95.0|-1.7|21.7|||||Male Partners of Women in Couple - Male Partners of Women in Individual|||21.7|-1.7|
92147753|NCT03477279|184180529|SUPERIORITY||Risk Difference (RD)|16.6|||||TWO_SIDED|95.0|0.9|32.3|||||Male Partners of Women in Couple - Male Partners of Women in Individual|||32.3|0.9|
92147754|NCT03477279|184180530|SUPERIORITY||Risk Difference (RD)|15.1|||||TWO_SIDED|95.0|-1.6|31.8||||||||31.8|-1.6|
92147755|NCT03477279|184180531|SUPERIORITY||Risk Difference (RD)|-2.4|||||TWO_SIDED|95.0|-13.2|8.5|||||Male Partners of Women in Couple - Male Partners of Women in Individual|||8.5|-13.2|
92147756|NCT03477279|184180532|SUPERIORITY||Risk Difference (RD)|-4.5|||||TWO_SIDED|95.0|-10.0|10.7|||||Couple (HIV+ Women) - Individual (HIV+ Women)|||10.7|-10.0|
92147757|NCT03477279|184180533|OTHER||Odds Ratio (OR)|4.9|||||TWO_SIDED|95.0|1.7|13.9||||||||13.9|1.7|
92147758|NCT02277990|184180551|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0406|TWO_SIDED|95.12|0.36|0.98||The 0.05 critical value for assessing the primary endpoint was adjusted to 0.0488, to account for a planned interim analysis.|Regression, Cox|The Cox regression was stratified according to device type (pacemaker or CRT-P vs. ICD or CRT-D).||||0.98|0.36|0.0406
92147759|NCT02277990|184180552|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0248|TWO_SIDED|95.12|0.47|0.96|||Regression, Cox|||||0.96|0.47|0.0248
92147760|NCT02277990|184180553|NON_INFERIORITY|The non-inferiority test was performed on the as-treated cohort, per the statistical analysis plan. The non-inferiority margin for the hazard ratio was 1.33 (i.e., the hazard ratio for complications in the envelope group vs. the control group must be significantly lower than 1.33).|Hazard Ratio (HR)|0.93|||<|0.01|TWO_SIDED|95.12|0.77|1.12|||Regression, Cox|||||1.12|0.77|<0.01
92147761|NCT02277990|184180554|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0402|TWO_SIDED|95.12|0.4|0.98|||Regression, Cox|||||0.98|0.40|0.0402
92147762|NCT04581200|184180555|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.61|TWO_SIDED|95.0|-1.63|2.8|||t-test, 2 sided|||||2.80|-1.63|0.61
92147763|NCT04581200|184180556|OTHER|This is an exploratory pilot trial|Mean Difference (Final Values)|0.21||||0.89|TWO_SIDED|95.0|-2.66|3.08|||t-test, 2 sided|||||3.08|-2.66|0.89
92147764|NCT04581200|184180557|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.81|TWO_SIDED|95.0|-2.58|3.3|||t-test, 2 sided|||||3.30|-2.58|0.81
92147765|NCT04581200|184180558|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.75|TWO_SIDED|95.0|-2.98|2.14|||t-test, 2 sided|||||2.14|-2.98|0.75
92210051|NCT05754333|184320405|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.297|||||TWO_SIDED|95.0|0.07|0.495||||||CCC between BICR and investigator (95% CI), Reader 4||0.495|0.070|
92147766|NCT04581200|184180559|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.45|TWO_SIDED|95.0|-0.57|0.74|||t-test, 2 sided|||||0.74|-0.57|0.45
92147767|NCT04581200|184180560|SUPERIORITY||Mean Difference (Final Values)|0.002||||0.98|TWO_SIDED|95.0|-0.13|0.13|||t-test, 2 sided|||||0.13|-0.13|0.98
92147768|NCT04581200|184180561|SUPERIORITY|||||||0.08|||||||Fisher Exact|||||||0.08
92147769|NCT04581200|184180562|SUPERIORITY|||||||0.69|||||||Fisher Exact|||||||0.69
92147770|NCT04711603|184180565|SUPERIORITY||Placebo difference|-0.97|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.52|-0.42|||MMRM|||||-0.42|-1.52|<0.001
92147771|NCT04672941|184180618|OTHER|Mixed model for repeated measurements (MMRM) assuming random missingness was fitted. The dependent variable was the CAT score at each visit. Visit, Global Initiative for Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates.|Score on a scale|-5.28|||||TWO_SIDED|95.0|-5.67|-4.89|||||Least Square Mean for Visit, change from baseline (3 months - baseline) total CAT Score estimates.|||-4.89|-5.67|
92147772|NCT04672941|184180619|OTHER|The logistic generalized estimating equations (GEE) model with CAT response \>= 10 as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|7.186|||<|0.001|TWO_SIDED|95.0|5.745|8.987|||Regression, Logistic||Odds ratio for Visit.|||8.987|5.745|< 0.001
92147773|NCT04672941|184180620|OTHER|Mixed model for repeated measurements (MMRM) assuming random missingness was fitted. The dependent variable was EQ-VAS score. Visit, Global Initiative for Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates.|Score on a scale|11.8|||||TWO_SIDED|95.0|11.0|12.6|||||Least Square Mean for Visit, mean change from Baseline (3 months - baseline) of EQ-VAS based on non-responder imputation.|||12.60|11.00|
92147774|NCT04672941|184180621|OTHER|The logistic generalized estimating equations (GEE) model with mobility as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|4.48|||<|0.001|TWO_SIDED|95.0|3.9|5.14|||Regression, Logistic||Odds ratio for Visit (3 months / baseline (reference)).|||5.14|3.90|< 0.001
92147775|NCT04672941|184180622|OTHER|The logistic generalized estimating equations (GEE) model with self-care as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|2.64|||<|0.001|TWO_SIDED|95.0|2.35|2.96|||Regression, Logistic||Odds ratio for Visit (3 months / baseline (reference)).|||2.96|2.35|< 0.001
92147776|NCT04672941|184180623|OTHER|The logistic generalized estimating equations (GEE) model with usual activities as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|4.46|||<|0.001|TWO_SIDED|95.0|3.89|5.12|||Regression, Logistic||Odds ratio for Visit (3 months / baseline (reference)).|||5.12|3.89|< 0.001
92147777|NCT04672941|184180624|OTHER|The logistic generalized estimating equations (GEE) model with pain/discomfort as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|3.4|||<|0.001|TWO_SIDED|95.0|3.0|3.85|||Regression, Logistic||Odds ratio for Visit (3 months / baseline (reference)).|||3.85|3.00|< 0.001
92147778|NCT04672941|184180625|OTHER|The logistic generalized estimating equations (GEE) model with anxiety/depression as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|3.32|||<|0.001|TWO_SIDED|95.0|2.95|3.73|||Regression, Logistic||Odds ratio for Visit (3 months / baseline (reference)).|||3.73|2.95|< 0.001
92147779|NCT04672941|184180631|OTHER|Mixed model for repeated measurements (MMRM) assuming random missingness was fitted. The dependent variable was the mMRC score. Visit, Global Initiative for Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates.|Score on a scale|-0.55|||||TWO_SIDED|95.0|-0.6|-0.51|||||Least Square Mean for Visit, change from baseline (3 months - baseline) of mMRC based on non-responder imputation.|||-0.51|-0.60|
92147780|NCT03933826|184180665|SUPERIORITY||Average treatment estimate (ATE)|0.9|||<|0.05|TWO_SIDED|95.0|-0.6|2.4||We tested the hypothesis that the average treatment effect (ATE) is different from zero. This was the only hypothesis test in our primary manuscript, and so no adjustment for multiple comparisons is necessary.|TMLE|TMLE stands for targeted maximum likelihood estimation|The causal mean difference in outcomes if all patients had been treated with radical cystectomy versus with bladder-sparing therapy. A positive value indicates greater physical functioning associated with radical cystectomy.|||2.4|-0.6|<0.05
92147781|NCT03933826|184180668|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|1.2|||||TWO_SIDED|95.0|-0.5|2.9|||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A positive value indicates greater urinary health associated with radical cystectomy.|||2.9|-0.5|
92396260|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.79||0.0003|TWO_SIDED|95.0|-4.49|-1.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.37|-4.49|0.0003
92147782|NCT03933826|184180671|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of average treatment effect (ATE).|TMLE|-11.9|||||TWO_SIDED|95.0|-14.7|-9.0|||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A positive value indicates greater sexual health associated with radical cystectomy.|||-9.0|-14.7|
92147783|NCT03933826|184180674|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|-1.4|||||TWO_SIDED|95.0|-2.5|-0.3|||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A negative value indicates worse bowel health associated with radical cystectomy.|||-0.3|-2.5|
92147784|NCT03933826|184180677|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|1.4|||||TWO_SIDED|95.0|0.2|2.6|||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A positive value indicates greater financial health associated with radical cystectomy.|||2.6|0.2|
92147785|NCT03933826|184180680|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|-2.4|||||TWO_SIDED|95.0|-3.1|-1.6|||||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A negative value indicates lower anxiety associated with radical cystectomy.|-1.6|-3.1|
92147786|NCT03933826|184180683|SUPERIORITY|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|-1.0|||||TWO_SIDED|95.0|-1.8|-0.3|||||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A negative value indicates less depression associated with radical cystectomy.|-0.3|-1.8|
92147787|NCT03933826|184180686|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|0.03|||||TWO_SIDED|95.0|0.01|0.04|||||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A positive value indicates greater quality of life associated with radical cystectomy.|0.04|0.01|
92147788|NCT03933826|184180689|OTHER|We did not conduct a hypothesis test for this outcome.|Risk Ratio (RR)|1.45|||||TWO_SIDED|95.0|1.33|1.59|||||Inverse probability weighted risk ratios calculated using quasi-Poisson regression. A weighted risk ratio \> 1 implies that participants who choose RC have a greater chance of surviving without recurrence than those who choose BST.|||1.59|1.33|
92147789|NCT03933826|184180692|OTHER|We did not conduct a hypothesis test for this outcome.|Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.94|1.03|||||Inverse probability weighted risk ratios calculated using quasi-Poisson regression. A weighted risk ratio \< 1 implies that participants who choose RC have a lower chance of surviving without metastasis than those who choose BST.|||1.03|0.94|
92147790|NCT03933826|184180695|OTHER|We did not conduct a hypothesis test for this outcome.|Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.73|0.88|||||Inverse probability weighted risk ratios calculated using quasi-Poisson regression. A weighted risk ratio \< 1 implies that participants who choose RC have a lower chance of surviving without cancer progression than those who choose BST.|||0.88|0.73|
92210052|NCT05754333|184320406|SUPERIORITY||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 2||||
92147791|NCT03933826|184180698|OTHER|We did not conduct a hypothesis test for this outcome.|Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.96|1.01|||||Inverse probability weighted risk ratios calculated using quasi-Poisson regression. A weighted risk ratio \< 1 implies that participants who choose RC have a lower chance of surviving cancer than those who choose BST.|||1.01|0.96|
92147792|NCT03933826|184180701|SUPERIORITY|Inverse probability weighted risk ratios calculated using quasi-Poisson regression|Risk Ratio (RR)|0.89|||||TWO_SIDED|95.0|0.38|2.08|||||A weighted risk ratio \< 1 implies that participants who choose radical cystectomy have a lower chance of surviving than those who choose bladder-sparing therapy.|||2.08|0.38|
92147793|NCT02638948|184180704|SUPERIORITY||Estimate of Difference (%)|4.9||||0.5224|TWO_SIDED|95.0|-10.2|20.1||Threshold for significance = 0.05|Chi-squared|||||20.1|-10.2|0.5224
92147794|NCT02638948|184180704|SUPERIORITY||Estimate of Difference (%)|11.8||||0.136|TWO_SIDED|95.0|-3.6|27.2||Threshold for significance = 0.05|Chi-squared|||||27.2|-3.6|0.1360
92147795|NCT02638948|184180704|SUPERIORITY||Estimate of Difference (%)|0.1||||0.9922|TWO_SIDED|95.0|-20.5|20.7||Threshold for significance = 0.05|Chi-squared|||||20.7|-20.5|0.9922
92147796|NCT02638948|184180705|SUPERIORITY||Estimate of Difference (%)|0.1||||1|TWO_SIDED|95.0|-16.0|16.5||Threshold for significance = 0.05|Chi-squared|||||16.5|-16.0|1.0000
92147797|NCT02638948|184180705|SUPERIORITY||Estimate of Difference (%)|5.6||||0.2058|TWO_SIDED|95.0|-10.5|21.9||Threshold for significance = 0.05|Chi-squared|||||21.9|-10.5|0.2058
92147798|NCT02638948|184180705|SUPERIORITY||Estimate of Difference (%)|-0.2||||1|TWO_SIDED|95.0|-22.5|22.2||Threshold for significance = 0.05|Chi-squared|||||22.2|-22.5|1.0000
92147799|NCT04506775|184180735|NON_INFERIORITY|As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \<5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively.|Mean Error|0.9|||||TWO_SIDED|||||As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \<5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively.||||||||
92147800|NCT04506775|184180736|NON_INFERIORITY|As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \< 5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively|Mean Error|0.19|||||TWO_SIDED|||||As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \< 5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively|||As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \< 5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively||As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \< 5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively|||
92147801|NCT05007392|184180738|SUPERIORITY||Difference of percentage|35.87|||<|0.001|TWO_SIDED|95.0|27.36|44.37|||Cochran-Mantel-Haenszel|P value based on a Cochran-Mantel-Haenszel test stratified by baseline SUA level and baseline body mass index (BMI) level.|The difference of percentage and stratified 95 percent (%) confidence interval (CI) was based on Mantel-Haenszel method.|||44.37|27.36|<0.001
92273017|NCT00661674|184448162|SUPERIORITY_OR_OTHER|||||||0.0001||||||p-value represents comparison between OOWS scores at T=180 and the baseline measurements at T=-30.|Friedman Test|||"Null Hypothesis: There will be no difference in OOWS scores when comparing treatment groups (Palonosetron \& Palonosetron + Hydroxyzine) with placebo.~Analysis of the data obtained in our prior study indicated that analysis of 10 individuals would provide 90% power to detect a treatment effect. Therefore, we examined the effect of three different pretreatments on naloxone-induced opiate withdrawal signs in 10 healthy individuals."||||0.0001
92147802|NCT05007392|184180739|NON_INFERIORITY|The prespecified non-inferiority margin was -10% in the analysis.|Difference of percentage|5.24|||||TWO_SIDED|95.0|-3.69|14.17|||||The difference of percentage and stratified 95% CI was based on Mantel-Haenszel method.|||14.17|-3.69|
92147803|NCT04058353|184180754|SUPERIORITY||Least Squares (LS) Mean Difference|3.5|||<|0.0001|TWO_SIDED|95.0|2.2|4.7|||Mixed-effects model for repeated measure|||||4.7|2.2|<0.0001
92396261|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.79||0.01|TWO_SIDED|95.0|-3.61|-0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.49|-3.61|0.0100
92147804|NCT04058353|184180755|SUPERIORITY||LS Mean Difference|-23.1|||<|0.0001|TWO_SIDED|95.0|-26.1|-20.1|||Mixed-effects model for repeated measure|||||-20.1|-26.1|<0.0001
92147805|NCT04058353|184180757|SUPERIORITY||LS Mean Difference|8.7|||<|0.0001|TWO_SIDED|95.0|5.3|12.1|||Mixed-effects model for repeated measure|||||12.1|5.3|<0.0001
92147806|NCT00985010|184180762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0|STANDARD_DEVIATION|5.0||0.05|||||||Chi-squared||The difference is between the percentage of deaths (males versus females) after six months in the patients with hepatic encephalophathy.|Clinical evolution was reported as percentage (still alive or death after six months of follow up).||||0.05
92147807|NCT00985010|184180763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.05|STANDARD_DEVIATION|10.72||0.05||95.0|||||Wilcoxon (Mann-Whitney)||The difference is between manganese levels of women minus manganese levels of men.|Laboratory results were expressed in means and standard deviations. Between group comparisons (female versus male values) were made with the Mann-Whitney U test using the Statistical Package for Social Sciences (SPSS) program version 10 (SPSS Inc., North Carolina, USA).||||0.05
92147808|NCT00316173|184180766|SUPERIORITY_OR_OTHER||Percentage of participants with CR+PR|30.9||||||95.0|18.7|43.1||||||||43.1|18.7|
92147809|NCT03764072|184180791|SUPERIORITY|||||||0.2107||||||Dose response Model - Linear|Multiple Comparison Procedure-Modelling|||||||0.2107
92147810|NCT03764072|184180791|SUPERIORITY|||||||0.0766||||||Dose response Model - Emax|Multiple Comparison Procedure-Modelling|||||||0.0766
92147811|NCT03764072|184180791|SUPERIORITY|||||||0.0989||||||Dose response Model - Logistic|Multiple Comparison Procedure-Modelling|||||||0.0989
92147812|NCT03764072|184180791|SUPERIORITY|||||||0.0927||||||Dose-response Model - Sigmoid Emax|Multiple Comparison Procedure-Modelling|||||||0.0927
92147813|NCT03764072|184180793|SUPERIORITY|||||||0.3162|||||||Cochran-Mantel-Haenszel|||||||0.3162
92147814|NCT03764072|184180793|SUPERIORITY|||||||0.4613|||||||Cochran-Mantel-Haenszel|||||||0.4613
92147815|NCT03764072|184180793|SUPERIORITY|||||||0.4095|||||||Cochran-Mantel-Haenszel|||||||0.4095
92147816|NCT03764072|184180793|SUPERIORITY|||||||0.157|||||||Cochran-Mantel-Haenszel|||||||0.1570
92147817|NCT03764072|184180793|SUPERIORITY|||||||0.9843|||||||Cochran-Mantel-Haenszel|||||||0.9843
92147818|NCT03764072|184180794|SUPERIORITY|||||||0.8714|||||||Cochran-Mantel-Haenszel|||||||0.8714
92147819|NCT03764072|184180794|SUPERIORITY|||||||0.5815|||||||Cochran-Mantel-Haenszel|||||||0.5815
92147820|NCT03764072|184180794|SUPERIORITY|||||||0.4308|||||||Cochran-Mantel-Haenszel|||||||0.4308
92147821|NCT03764072|184180794|SUPERIORITY|||||||0.4434|||||||Cochran-Mantel-Haenszel|||||||0.4434
92147822|NCT03764072|184180794|SUPERIORITY|||||||0.855|||||||Cochran-Mantel-Haenszel|||||||0.8550
92147823|NCT03764072|184180795|SUPERIORITY|||||||0.687|||||||Cochran-Mantel-Haenszel|||||||0.6870
92147824|NCT03764072|184180795|SUPERIORITY|||||||0.1515|||||||Cochran-Mantel-Haenszel|||||||0.1515
92147825|NCT03764072|184180795|SUPERIORITY|||||||0.603|||||||Cochran-Mantel-Haenszel|||||||0.6030
92147826|NCT03764072|184180795|SUPERIORITY|||||||0.1361|||||||Cochran-Mantel-Haenszel|||||||0.1361
92147827|NCT03764072|184180795|SUPERIORITY|||||||0.564|||||||Cochran-Mantel-Haenszel|||||||0.5640
92147828|NCT03764072|184180796|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.5405|TWO_SIDED|95.0|0.6|2.67|||Regression, Cox|||||2.67|0.60|0.5405
92147829|NCT03764072|184180796|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.9011|TWO_SIDED|95.0|0.49|2.27|||Regression, Cox|||||2.27|0.49|0.9011
92147830|NCT03764072|184180796|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9127|TWO_SIDED|95.0|0.48|2.26|||Regression, Cox|||||2.26|0.48|0.9127
92147831|NCT03764072|184180796|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.5619|TWO_SIDED|95.0|0.6|2.56|||Regression, Cox|||||2.56|0.60|0.5619
92147832|NCT03764072|184180796|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.709|TWO_SIDED|95.0|0.5|2.79|||Regression, Cox|||||2.79|0.50|0.7090
92147833|NCT03764072|184180797|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.5141|TWO_SIDED|95.0|0.61|2.72|||Regression, Cox|||||2.72|0.61|0.5141
92147834|NCT03764072|184180797|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9614|TWO_SIDED|95.0|0.45|2.12|||Regression, Cox|||||2.12|0.45|0.9614
92147835|NCT03764072|184180797|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9756|TWO_SIDED|95.0|0.46|2.14|||Regression, Cox|||||2.14|0.46|0.9756
92147836|NCT03764072|184180797|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.5582|TWO_SIDED|95.0|0.6|2.57|||Regression, Cox|||||2.57|0.60|0.5582
92147837|NCT03764072|184180797|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.7543|TWO_SIDED|95.0|0.49|2.71|||Regression, Cox|||||2.71|0.49|0.7543
92147838|NCT01024608|184180806|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo|-0.91|||<|0.001|TWO_SIDED|95.0|-1.3|-0.5||A priori threshold for statistical significance is p\<0.05.|ANCOVA|Repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.5|-1.3|<0.001
92147839|NCT01024608|184180807|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo|-0.92|||<|0.001|TWO_SIDED|95.0|-1.3|-0.5||A priori threshold for statistical significance is p\<0.05|ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.5|-1.3|<0.001
92147840|NCT01024608|184180808|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo|-0.48||||0.005|TWO_SIDED|95.0|-0.8|-0.1||A priori threshold for statistical significance is p\<0.05|ANCOVA|Results obtained from ANCOVA with treatment, baseline and center in the model.||||-0.1|-0.8|0.005
92147841|NCT01024608|184180809|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo|-0.56||||0.002|TWO_SIDED|95.0|-0.9|-0.2||A priori threshold for statistical significance is p\<0.05|ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction||||-0.2|-0.9|0.002
92147842|NCT04791761|184180810|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||Null hypothesis: No difference in average pain scores before medication between opioid and non-opioid groups.||||0.8
92147843|NCT04791761|184180810|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference in average pain scores after medication between opioid and non-opioid groups.||||0.7
92147844|NCT04791761|184180811|SUPERIORITY|||||||0.2|||||||Fisher Exact|||Null hypothesis: There will be no difference in the proportion of patients visiting the emergency department or urgent care post-operatively between opioid and non-opioid groups.||||0.2
92147845|NCT00676130|184180837|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.7|||<|0.05||95.0|-9.3|15.0|||Chi-squared|||The study was powered to detect a difference in cure rate of 98% in the intervention group vs. 85% in the control group, with 2-sided alpha 0.05. This would yield a number needed to treat of 7.7 for intervention vs. control, and required 144 subjects to achieve 80% power. No data were analyzed until study completion.||15|-9.3|<0.05
92147846|NCT00676130|184180838|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0|||<|0.05|TWO_SIDED|95.0|-6.5|6.3|||Chi-squared|||We assessed the rate of progression to abscess in the two groups.||6.3|-6.5|<0.05
92147847|NCT01342458|184180857|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Mixed Models Analysis|||Sample size was calculated based on pain WOMAC score and was accomplished using a moderate effect size (f=0.30). Standard deviation estimates were taken from our previous study. A sample size of 56 patients was needed to provide 80% power for detecting a moderate effect difference between the highest and lowest group pain means, with an alpha level of 0.05, a statistical design of F test of repeated measures (between and within effects), and assuming a 10% loss to follow-up.||||0.006
92147848|NCT01342458|184180857|SUPERIORITY_OR_OTHER||Effect Size|1.46|||<|0.001|TWO_SIDED||||||post hoc newman keuls|||From baseline to 3rd month.||||<0.001
92147849|NCT01342458|184180857|SUPERIORITY_OR_OTHER||Effect size|1.94|||<|0.001|TWO_SIDED||||||post hoc Newman Keuls|||From baseline to 6th month.||||<0.001
92147850|NCT01342458|184180857|SUPERIORITY_OR_OTHER||Effect size|0.82||||0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||0.001
92147851|NCT01342458|184180857|SUPERIORITY_OR_OTHER||Effect size|0.66|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
92147852|NCT01342458|184180858|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||0.015
92147853|NCT01342458|184180858|SUPERIORITY_OR_OTHER||Effect size|0.66|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
92147854|NCT01342458|184180858|SUPERIORITY_OR_OTHER||Effect size|0.7|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
92147855|NCT01342458|184180858|SUPERIORITY_OR_OTHER||Effect size|0.25|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
92147856|NCT01342458|184180858|SUPERIORITY_OR_OTHER||Effect size|0.16|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
92147857|NCT01342458|184180859|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls test to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||<0.001
92273018|NCT00661674|184448163|SUPERIORITY_OR_OTHER|||||||0.2244||||||p-value represents comparison between SOWS scores at T=180 and the baseline measurements at T=-30.|Friedman Test|||"Null Hypothesis: There will be no difference in SOWS scores when comparing the 2 treatment groups (Palonosetron \& Palonosetron + Hydroxyzine) with placebo.~Analysis of the data obtained in our prior study indicated that analysis of 10 individuals would provide 90% power to detect a treatment effect. Therefore, we examined the effect of three different pretreatments on naloxone-induced opiate withdrawal signs in 10 healthy individuals."||||0.2244
92335329|NCT04530838|184573341|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|5.97|||||TWO_SIDED|95.0|5.0|7.12||||||Serotype 22F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||7.12|5.00|
92147858|NCT01342458|184180859|SUPERIORITY_OR_OTHER||Effect size|1.28|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
92147859|NCT01342458|184180859|SUPERIORITY_OR_OTHER||Effect size|1.58|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
92147860|NCT01342458|184180859|SUPERIORITY_OR_OTHER||Effect size|0.68|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
92147861|NCT01342458|184180859|SUPERIORITY_OR_OTHER||Effect size|0.42|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
92147862|NCT01342458|184180860|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls test to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||<0.001
92147863|NCT01342458|184180860|SUPERIORITY_OR_OTHER||Effect size|1.45|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
92147864|NCT01342458|184180860|SUPERIORITY_OR_OTHER||Effect size|1.69||||0.019|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||0.019
92147865|NCT01342458|184180860|SUPERIORITY_OR_OTHER||Effect size|0.66|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
92147866|NCT01342458|184180860|SUPERIORITY_OR_OTHER||Effect size|0.44|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
92147867|NCT01342458|184180861|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls test to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||0.019
92147868|NCT01342458|184180861|SUPERIORITY_OR_OTHER||Effect size|1.07|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
92147869|NCT01342458|184180861|SUPERIORITY_OR_OTHER||Effect size|1.31|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
92147870|NCT01342458|184180861|SUPERIORITY_OR_OTHER||Effect size|0.71|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
92147871|NCT01342458|184180861|SUPERIORITY_OR_OTHER||Effect size|0.45|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
92147872|NCT01342458|184180862|SUPERIORITY_OR_OTHER|||||||0.425|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls test to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||0.425
92147873|NCT01342458|184180863|SUPERIORITY_OR_OTHER|||||||0.443|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls test to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||0.443
92147874|NCT01342458|184180864|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference in paracetamol intake at 6-month.||||<0.001
92147875|NCT00261495|184180870|NON_INFERIORITY_OR_EQUIVALENCE|Tested using 95% confidence interval approach. The non-inferiority margin was 1.|Mean Difference (Net)|0.29||||0.011||95.0|-0.27|0.84||Statistical significance level was 0.05. Two-sided 95% CI of the treatment difference based on LS means \& error terms obtained from ANCOVA (covariate: baseline; factors: country, previous pain treatment, underlying disease, and treatment).|ANCOVA|If the right side of CI\<1 then the null hypothesis was rejected in favour of the alternative, and non-inferiority of OROS hydromorphone was concluded.|LS mean difference has been presented, which was calculated as hydromorphone minus oxycodone.|"Null hypothesis: Difference in change from baseline with OROS hydromorphone compared with SR oxycodone was less than or equal to 1.~Alternative hypothesis: Difference in change from baseline with OROS hydromorphone compared with SR oxycodone was greater than 1.~Sample size needed to detect a clinically significant difference of 1 was 151 per treatment arm (standard deviation = 2.4, significance level 0.025 one-sided, based on 90% power)."||0.84|-0.27|0.011
92147876|NCT00261495|184180871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.706||95.0|-0.32|0.47||A two-sided significance level of 0.05 was used. A closed hierarchical testing procedure was used to control the overall Type I error. Procedure was stopped here, subsequent tests were exploratory in nature.|ANCOVA|Superiority of OROS hydromorphone compared to SR oxycodone was evaluated.|Mean difference calculated: hydromorphone minus oxycodone|"Null hypothesis: Difference in change from baseline between hydromorphone and oxycodone was equal to zero.~Alternative hypothesis: Difference in change from baseline between hydromorphone and oxycodone was not equal to zero."||0.47|-0.32|0.706
92147877|NCT00261495|184180872|NON_INFERIORITY_OR_EQUIVALENCE|Tested using 95% confidence interval approach. The non-inferiority margin was 1.|Mean Difference (Net)|-0.12|||<|0.001||95.0|-0.53|0.29||Statistical significance level was 0.05. Two-sided 95% CI of the treatment difference based on LS means \& error terms obtained from ANCOVA (covariate: baseline; factors: country, previous pain treatment, underlying disease, and treatment).|ANCOVA|If the right side of CI\<1 then the null hypothesis was rejected in favour of the alternative, and non-inferiority of OROS hydromorphone was concluded.|Mean difference calculated: hydromorphone minus oxycodone|"Null hypothesis: Difference in change from baseline with OROS hydromorphone compared with SR oxycodone was less than or equal to 1.~Alternative hypothesis: Difference in change from baseline with OROS hydromorphone compared with SR oxycodone was greater than 1.~Sample size needed to detect a clinically significant difference of 1 was 151 per treatment arm (standard deviation = 2.4, significance level 0.025 one-sided, based on 90% power)."||0.29|-0.53|<0.001
92147878|NCT00261495|184180873|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.87||||0.065||95.0|-5.94|0.19||A two-sided significance level of 0.05 was used. A closed hierarchical testing procedure was used to control the overall Type I error. Procedure has been stopped, test is exploratory in nature.|ANCOVA|Superiority of OROS hydromorphone compared to SR oxycodone was evaluated.|Mean difference calculated: hydromorphone minus oxycodone|"Null hypothesis: Difference in change from baseline between hydromorphone and oxycodone was equal to zero.~Alternative hypothesis: Difference in change from baseline between hydromorphone and oxycodone was not equal to zero."||0.19|-5.94|0.065
92147879|NCT00261495|184180874|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.348||95.0|-0.62|0.22||A two-sided significance level of 0.05 was used. A closed hierarchical testing approach was used to control the overall Type I error. Procedure has been stopped, test is exploratory in nature.|ANCOVA|Superiority of OROS hydromorphone compared to SR oxycodone was evaluated.|Mean difference was calculated: hydromorphone minus oxycodone|"Null hypothesis: Difference in change from baseline between hydromorphone and oxycodone was equal to zero.~Alternative hypothesis: Difference in change from baseline between hydromorphone and oxycodone was not equal to zero."||0.22|-0.62|0.348
92147880|NCT00261495|184180875|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.616||95.0|-0.54|0.32||A two-sided significance level of 0.05 was used. A closed hierarchical testing approach was used to control the overall Type I error. Procedure has been stopped, test is exploratory in nature.|ANCOVA|Superiority of OROS hydromorphone compared to SR oxycodone was evaluated.|Mean difference was calculated: hydromorphone minus oxycodone|"Null hypothesis: Difference in change from baseline between hydromorphone and oxycodone was equal to zero.~Alternative hypothesis: Difference in change from baseline between hydromorphone and oxycodone was not equal to zero."||0.32|-0.54|0.616
92147881|NCT00261495|184180876|SUPERIORITY_OR_OTHER|||||||0.249||||||A two-sided significance level of 0.05 was used. A closed hierarchical testing approach was used to control the overall Type I error. Hierarchical testing procedure has been stopped, test is exploratory in nature.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Chi-squared statistic stratified for country was used.||"Null hypothesis: There is no association between study medication and dose escalation.~Alternative hypothesis: There is an association between study medication and dose escalation."||||0.249
92147882|NCT00261495|184180877|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.42||||0.05||95.0|0.0|0.84||0.05 two-sided testing, exploratory comparison|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.84|-0.00|0.050
92147883|NCT00261495|184180878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.105||95.0|-0.06|0.67||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.67|-0.06|0.105
92147884|NCT00261495|184180879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.058||95.0|-0.01|0.79||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.79|-0.01|0.058
92147885|NCT00261495|184180880|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23||||0.21||95.0|-0.13|0.59||0.05 two-sided test|ANCOVA||Mean difference calculated: hdromorphone minus oxycodone|Exploratory comparison||0.59|-0.13|0.210
92147886|NCT00261495|184180881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.941||95.0|-4.87|4.52||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||4.52|-4.87|0.941
92147887|NCT00261495|184180882|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.31||||0.073||95.0|-0.03|0.65||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.65|-0.03|0.073
92147888|NCT00261495|184180883|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.431||95.0|-0.52|0.22||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.22|-0.52|0.431
92147889|NCT00261495|184180884|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.835||95.0|-0.4|0.33||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.33|-0.40|0.835
92147890|NCT00261495|184180885|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51||||0.837||95.0|-5.36|4.35||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||4.35|-5.36|0.837
92147891|NCT00261495|184180886|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.832||95.0|-0.38|0.31||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.31|-0.38|0.832
92147892|NCT00261495|184180887|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.143||95.0|-0.1|0.71||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.71|-0.10|0.143
92147893|NCT00261495|184180888|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.345||95.0|-0.23|0.64||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.64|-0.23|0.345
92147894|NCT00261495|184180889|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14||||0.552||95.0|-0.33|0.61||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.61|-0.33|0.552
92335330|NCT04530838|184573341|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|2.06|||||TWO_SIDED|95.0|1.69|2.51||||||Serotype 33F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||2.51|1.69|
92147895|NCT00261495|184180890|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.47||||0.042||95.0|0.02|0.93||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.93|0.02|0.042
92147896|NCT00261495|184180891|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33||||0.171||95.0|-0.14|0.81||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.81|-0.14|0.171
92147897|NCT00261495|184180892|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.475||95.0|-0.31|0.65||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.65|-0.31|0.475
92147898|NCT00261495|184180893|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23||||0.359||95.0|-0.26|0.72||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.72|-0.26|0.359
92147899|NCT00261495|184180894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.611||95.0|-0.52|0.3||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.30|-0.52|0.611
92147900|NCT00261495|184180895|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.526||95.0|-0.6|0.31||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.31|-0.60|0.526
92147901|NCT00261495|184180896|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.769||95.0|-0.49|0.36||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.36|-0.49|0.769
92147902|NCT00261495|184180897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.843||95.0|-0.4|0.49||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.49|-0.40|0.843
92147903|NCT00261495|184180898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.977||95.0|-0.45|0.44||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.44|-0.45|0.977
92147904|NCT00261495|184180899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.977||95.0|-0.47|0.49||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.49|-0.47|0.977
92147905|NCT00261495|184180900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.902||95.0|-0.51|0.45||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.45|-0.51|0.902
92147906|NCT00261495|184180902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.36||||0.169||95.0|-5.74|1.02||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||1.02|-5.74|0.169
92147907|NCT00261495|184180903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.89||||0.245||95.0|-5.09|1.31||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||1.31|-5.09|0.245
92147908|NCT00261495|184180904|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.64||||0.071||95.0|-5.51|0.23||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.23|-5.51|0.071
92273019|NCT00660790|184448164|OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||The paired student's t-test or the Wilcoxon signed-rank test was used to compare the measurements before and after multifactorial treatment, as appropriate, depending on the distribution of the data.||||0.021
92147909|NCT00261495|184180905|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.03||||0.297||95.0|-5.85|1.8||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||1.80|-5.85|0.297
92147910|NCT00261495|184180906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.41||||0.205||95.0|-1.32|6.14||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||6.14|-1.32|0.205
92147911|NCT00261495|184180907|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.35||||0.107||95.0|-7.43|0.73||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.73|-7.43|0.107
92147912|NCT00261495|184180908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6||||0.475||95.0|-2.8|6.0||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||6.00|-2.80|0.475
92147913|NCT00261495|184180909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.16||||0.02||95.0|-7.67|-0.65||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||-0.65|-7.67|0.020
92147914|NCT00261495|184180910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.88||95.0|-0.3|0.26||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.26|-0.30|0.880
92147915|NCT00261495|184180911|SUPERIORITY_OR_OTHER|||||||0.32|||||||Cochran-Mantel-Haenszel|||Exploratory comparison||||0.320
92147916|NCT00261495|184180916|SUPERIORITY_OR_OTHER|||||||0.575|||||||Cochran-Mantel-Haenszel|||Exploratory comparison||||0.575
92273020|NCT02143947|184448220|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||Mixed Models Analysis|||||||> .10
92147917|NCT00261495|184180917|SUPERIORITY_OR_OTHER|||||||0.807|||||||Cochran-Mantel-Haenszel|||Exploratory comparison||||0.807
92147918|NCT00261495|184180918|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.61||||0.118||95.0|-5.88|0.67|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.67|-5.88|0.118
92147919|NCT00261495|184180919|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.956||95.0|-3.08|2.91|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||2.91|-3.08|0.956
92147920|NCT00261495|184180920|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.299||95.0|-0.08|0.26|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.26|-0.08|0.299
92147921|NCT00261495|184180921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.13||||0.471||95.0|-4.2|1.95|||ANCOVA||Mean difference calculated: hydromorphone minus oxymorphone|Exploratory comparison||1.95|-4.20|0.471
92147922|NCT00261495|184180922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.84||||0.025||95.0|0.48|7.19|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||7.19|0.48|0.025
92147923|NCT00261495|184180923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4||||0.556||95.0|-5.61|10.42|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||10.42|-5.61|0.556
92147924|NCT00261495|184180924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.12||||0.551||95.0|-9.11|4.88|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||4.88|-9.11|0.551
92273021|NCT02143947|184448221|SUPERIORITY_OR_OTHER||||||=|0.036|TWO_SIDED||||||Mixed Models Analysis|||||||= .036
92273022|NCT02143947|184448222|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||Mixed Models Analysis|||||||> .10
92147925|NCT00261495|184180925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.98||||0.207||95.0|-7.63|1.66|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||1.66|-7.63|0.207
92147926|NCT00261495|184180926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.46||||0.123||95.0|-5.6|0.68|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.68|-5.60|0.123
92147927|NCT00261495|184180927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.602||95.0|-4.27|2.48|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||2.48|-4.27|0.602
92147928|NCT00261495|184180928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.65||||0.647||95.0|-2.14|3.44|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||3.44|-2.14|0.647
92147929|NCT00261495|184180929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.627||95.0|-0.17|0.1|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.10|-0.17|0.627
92147930|NCT00261495|184180930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.414||95.0|-4.45|1.84|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||1.84|-4.45|0.414
92147931|NCT00261495|184180931|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.05||||0.01||95.0|0.94|7.16|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||7.16|0.94|0.010
92147932|NCT00261495|184180932|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.955||95.0|-7.2|7.62|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||7.62|-7.20|0.955
92147933|NCT00261495|184180933|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.31||||0.669||95.0|-4.72|7.34|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||7.34|-4.72|0.669
92147934|NCT00261495|184180934|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.17||||0.595||95.0|-3.15|5.49|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||5.49|-3.15|0.595
92147935|NCT00261495|184180935|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.94||||0.543||95.0|-3.98|2.1|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||2.10|-3.98|0.543
92147936|NCT02287584|184180958|SUPERIORITY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|2.04||0.007|TWO_SIDED|95.0|-9.6|-1.6||adjusted p value, Hochberg procedure|Mixed Models Analysis|||Using Mixed Model for Repeated Measures||-1.6|-9.6|0.007
92147937|NCT02287584|184180958|SUPERIORITY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-14.4|-6.4||adjusted p-value, Hochberg procedure|Mixed Models Analysis|||||-6.4|-14.4|<0.001
92147938|NCT01892345|184180973|OTHER|Treatment Effect|Hazard Ratio (HR)|0.058|||<|0.0001|TWO_SIDED|95.0|0.017|0.197|||Stratified Log-Rank Test||HR based on a stratified Cox proportional hazards model. Confidence interval = Wald confidence interval. HR for eculizumab compared with placebo represented a 94.2% reduction in the risk of relapse, 95% Wald confidence interval (80.3%, 98.3%).|||0.197|0.017|<0.0001
92147939|NCT00659984|184180985|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.2||||0.363|TWO_SIDED|95.0|-3.4|13.9|||Cochran Armitage Trend Test|||||13.9|-3.4|0.363
92147940|NCT02623855|184181001|SUPERIORITY|Our hypothesis was that park prescriptions with group visits would have a superior result than park prescriptions alone.||||||0.6099|||||||t-test, 2 sided|||The study is powered for our primary outcome, caregiver stress as measured by the 10-item perceived stress s score (PSS10). Normative data from population samples show a mean PSS10 score of 13.2 points with a standard deviation of 6.35 points and a within-subject correlation coefficient of 0.77 over 2 weeks.We powered the study to detect a three point difference in the change of the PSS10. This effect size is consistent with other estimates of a clinically significant change.||||0.6099
92147941|NCT02623855|184181003|SUPERIORITY|||||||0.0085|||||||t-test, 2 sided|||||||0.0085
92335331|NCT04530838|184573341|OTHER||GMR|0.85|||||TWO_SIDED|95.0|0.73|0.99||||||Serotype 1: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.99|0.73|
92335332|NCT04530838|184573341|OTHER||GMR|0.85|||||TWO_SIDED|95.0|0.74|0.98||||||Serotype 3: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.98|0.74|
92147942|NCT02623855|184181005|SUPERIORITY|||||||0.1749|||||||t-test, 2 sided|||||||0.1749
92147943|NCT01972529|184181025|SUPERIORITY||Difference of proportion vs placebo|42.6|||<|0.0001|TWO_SIDED|95.0|27.2|58.1|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the elective procedure within each baseline platelet count cohort.|Difference of proportion versus (vs) placebo = proportion of Responders for avatrombopag - proportion of Responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the 60 mg avatrombopag and matched placebo treatment groups.||58.1|27.2|<0.0001
92147944|NCT01972529|184181025|SUPERIORITY||Difference of proportion vs placebo|49.9|||<|0.0001|TWO_SIDED|95.0|31.6|68.2|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the elective procedure within each baseline platelet count cohort.|Difference of proportion vs placebo = proportion of Responders for avatrombopag - proportion of Responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the avatrombopag and placebo treatment groups.||68.2|31.6|<0.0001
92147945|NCT01972529|184181026|SUPERIORITY||Difference of proportion vs placebo|64.7|||<|0.0001|TWO_SIDED|95.0|53.6|75.8|||Cochran-Mantel-Haenszel|P-value is stratified by the risk of bleeding associated with the elective procedure within each baseline platelet count cohort.|Difference of proportion vs placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the avatrombopag and placebo treatment groups||75.8|53.6|<0.0001
92147946|NCT01972529|184181026|SUPERIORITY||Difference of percentage vs placebo|67.5|||<|0.0001|TWO_SIDED|95.0|51.6|83.4|||Cochran-Mantel-Haenszel|P-value is stratified by the risk of bleeding associated with the elective procedure within each baseline platelet count cohort.|Difference of proportion vs placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the avatrombopag and placebo treatment groups||83.4|51.6|<0.0001
92147947|NCT01972529|184181027|SUPERIORITY||Difference in change of platelet count|27.5|||<|0.0001|TWO_SIDED|95.0|22.5|32.5|||Wilcoxon (Mann-Whitney)|P-value is based on Wilcoxon rank sum test for each avatrombopag treatment group vs placebo within each baseline platelet count cohort.|Difference in change from baseline of platelet count for avatrombopag vs placebo within each baseline platelet count cohort is based on Hodges-Lehmann estimation; 95% confidence interval is the asymptotic (Moses) CI.|||32.5|22.5|<0.0001
92147948|NCT01972529|184181027|SUPERIORITY||Difference in change of platelet count|33.0|||<|0.0001|TWO_SIDED|95.0|25.5|41.5|||Wilcoxon (Mann-Whitney)|P-value is based on Wilcoxon rank sum test for each avatrombopag treatment group vs placebo within each baseline platelet count cohort.|Difference in change from baseline of platelet count for avatrombopag vs placebo within each baseline platelet count cohort is based on Hodges-Lehmann estimation; 95% confidence interval is the asymptotic (Moses) CI.|||41.5|25.5|<0.0001
92147949|NCT01889186|184181030|SUPERIORITY||||||<|0.001|||||||Clopper-Pearson exact method|||The ORR for ABT-199 was tested to reject the null hypothesis of ORR = 40%. If the null hypothesis is rejected and the ORR is higher than 40%, then ABT-199 has been shown to have an ORR significantly higher than 40%.The p-value is from the exact binomial distribution comparing ABT-199 ORR to the 40% historical control rate.||||<0.001
92147950|NCT00252538|184181043|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||All statistics employed Statistical Package for Social Science (SPSS) 17.0. Analysis of variances were used to compare viral responses in genotypes of interest, employing Scheffe's post-hoc analyses. Repeated-measure mixed-effect analyses were used to compare changes in subjective symptoms over time, including age, gender, and self identified race as covariates. Kaplan-Meier survival analyses examining time until MDD development were compared using theMantel-Cox log rank test.||||>0.05
92147951|NCT00118716|184181046|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.0|STANDARD_ERROR_OF_MEAN|1.29||0.021|TWO_SIDED|95.0|0.5|5.6||LS Mean Difference, SE, CI, and p-value were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA||LS Mean Diff was calculated as FSC 100/50mcg BID-FP 100mcg BID.|FSC 100/50mcg BID versus FP 100mcg BID for maximal percent change in FEV1 following exercise challenge at Week 4.||5.6|0.5|0.021
92147952|NCT00118716|184181047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|STANDARD_ERROR_OF_MEAN|0.085|<|0.001|TWO_SIDED|95.0|0.24|0.58||LS Mean Diff, SE, CI, and p-value were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA||LS Mean Diff was calculated as FSC 100/50mcg BID-FP 100mcg BID.|FSC 100/50mcg BID versus FP 100mcg BID for post-dose FEV1 AUC Day 1.||0.58|0.24|<0.001
92147953|NCT00118716|184181048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.1|STANDARD_ERROR_OF_MEAN|4.83||0.097|TWO_SIDED|95.0|-1.5|17.6||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA||LS Mean Diffs were calculated as FSC 100/50mcg BID-FP 100mcg BID.|FSC 100/50mcg BID versus FP 100mcg BID for AM PEF||17.6|-1.5|0.097
92147954|NCT00118716|184181049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.7|STANDARD_ERROR_OF_MEAN|4.3||0.396|TWO_SIDED|95.0|-4.8|12.1||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA||LS Mean Diffs were calculated as FSC 100/50mcg BID-FP 100mcg BID.|FSC 100/50mcg BID versus FP 100mcg BID PM PEF.||12.1|-4.8|0.396
92147955|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.129||0.168|TWO_SIDED|95.0|-0.08|0.43||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for activity limitation at Week 2||0.43|-0.08|0.168
92147956|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.147||0.465|TWO_SIDED|95.0|-0.18|0.4||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for activity limitation at Week 4.||0.40|-0.18|0.465
92147957|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.133||0.222|TWO_SIDED|95.0|-0.1|0.42||LS Mean Diff, SE, CI, and p-values are from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for activity limitation at Endpoint.||0.42|-0.10|0.222
92147958|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.096||0.294|TWO_SIDED|95.0|-0.29|0.09||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for emotional function at Week 2.||0.09|-0.29|0.294
92147959|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.111||0.828|TWO_SIDED|95.0|-0.24|0.19||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for emotional function at Week 4.||0.19|-0.24|0.828
92147960|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.103||0.903|TWO_SIDED|95.0|-0.19|0.22||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for emotional function at Endpoint.||0.22|-0.19|0.903
92147961|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.112||0.464|TWO_SIDED|95.0|-0.3|0.14|||ANCOVA|LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.||FSC 100/50mcg BID versus FP 100mcg BID for symptoms at Week 2.||0.14|-0.30|0.464
92147962|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.124||0.551|TWO_SIDED|95.0|-0.32|0.17||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for symptoms at Week 4.||0.17|-0.32|0.551
92147963|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.123||0.633|TWO_SIDED|95.0|-0.3|0.18||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for symptoms at Endpoint.||0.18|-0.30|0.633
92147964|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.094||0.7|TWO_SIDED|95.0|-0.22|0.15||LS Mean Diff, SE, CI, and p-values are from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for overall score at Week 2.||0.15|-0.22|0.700
92147965|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.109||0.86|TWO_SIDED|95.0|-0.23|0.2||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for overall score at Week 4.||0.20|-0.23|0.860
92147966|NCT00118716|184181052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.103||0.919|TWO_SIDED|95.0|-0.19|0.21||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for overall score at Endpoint.||0.21|-0.19|0.919
92147967|NCT00855062|184181055|SUPERIORITY_OR_OTHER||Slope|-0.026|STANDARD_ERROR_OF_MEAN|0.248||0.37|TWO_SIDED|95.0|-0.512|0.46||The p-value was not adjusted for multiple comparisons.|Regression, Linear|||"The null hypothesis was that the 24-week changes of U NP Sum between the minocycline and placebo groups are the same.~The sample size calculation showed that 100 (50 participants in each group) were required to detect the clinically meaningful difference of 0.5 with 85% power, 0.05 Type I error, two-sample and two-sided test."||0.460|-0.512|0.370
92147968|NCT00855062|184181057|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.053||||0.613|TWO_SIDED|95.0|0.043|0.062||The p-value is not adjusted for multiple comparisons.|Fisher Exact|||"The null hypothesis is that the percentage of participants feeling better in the minocycline group after 24 week treatment is the same as the one in the placebo group."||0.062|0.043|0.613
92147969|NCT00855062|184181058|SUPERIORITY_OR_OTHER|||||||0.661||95.0||||The p-value is not adjusted for multiple comparisons.|Log Rank|||The null hypothesis is that the survival curve for the first Grade ≥ 2 toxicity and/or sign and symptoms in the minocycline group is the same as the one in the placebo group.||||0.661
92147970|NCT00855062|184181059|SUPERIORITY_OR_OTHER|||||||0.941||95.0||||The p-value is not adjusted for multiple comparisons.|Log Rank|||The null hypothesis is that the 48-week survival curve for the first Grade ≥ 2 toxicity and/or sign and symptoms in the minocycline group is the same as the one in the placebo group.||||0.941
92147971|NCT00855062|184181060|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.11|STANDARD_ERROR_OF_MEAN|17.63||0.647|TWO_SIDED|95.0|-27.23|43.45||The p-value is not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the baseline CD4 counts.||The null hypothesis is that the mean 24-week change of CD4 cell counts in the minocycline group is the same as the one in the placebo group.||43.45|-27.23|0.647
92147972|NCT00855062|184181061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.77|STANDARD_ERROR_OF_MEAN|32.51||0.813|TWO_SIDED|95.0|-59.07|74.6||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the baseline CD4 counts.||The null hypothesis is that the mean 48-week change in CD4 cell counts in the minocycline group is the same as the one in the placebo group.||74.60|-59.07|0.813
92147973|NCT00855062|184181062|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28|STANDARD_ERROR_OF_MEAN|0.82||0.764||95.0|0.26|6.34||The p-value is not adjusted for multiple comparisons.|Regression, Logistic|"The model was not adjusted for any covariate (due to small number of being better in both groups."||"The null hypothesis is that the percentage of being better at week 24 compared to baseline in the minocycline group is the same as the one in the placebo group."||6.34|0.26|0.764
92147974|NCT00855062|184181063|SUPERIORITY_OR_OTHER|||||||0.766||95.0||||The p-value is not adjusted for multiple comparisons.|Kruskal-Wallis|The chi-square score was 0.024 and the degree of freedom was 1.||The null hypothesis is that the median log10-transformed HIV RNA viral loads in the minocycline group is the same as the one in the placebo group.||||0.766
92210053|NCT05754333|184320406|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 3||||
92147975|NCT00855062|184181064|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19|STANDARD_ERROR_OF_MEAN|1.79||0.915|TWO_SIDED|95.0|-3.4|3.78||The p-value is not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the baseline CES-D and MSK scores.||The null hypothesis is that the mean 24-week change of CES-D score in the minocycline group is the same as the one in the placebo group.||3.78|-3.40|0.915
92147976|NCT02657317|184181076|SUPERIORITY||Mean Difference (Final Values)|-9.1||||0.001|TWO_SIDED|95.0|-14.4|-3.7|||GLMM|||To detect a medium effect (d = 0.50) at 2-sided α = 0.05, 50 participants were needed in each study arm (total N = 100). We anticipated 30% attrition in each arm. Data for the primary aim were analyzed using generalized linear mixed models adjusting for baseline levels of prognostic variable and using random intercepts at the level of participants. The primary analysis was based on intent-to-treat.||-3.7|-14.4|.001
92147977|NCT02755597|184181077|SUPERIORITY||Hazard Ratio (HR)|0.656|||=|0.012|TWO_SIDED|95.0|0.471|0.913|||Log Rank||Hazard ratio was estimated by Cox proportional hazards model|Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||0.913|0.471|=0.012
92147978|NCT02755597|184181078|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||||<0.001
92273023|NCT02143947|184448223|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< .05
92147979|NCT02755597|184181080|SUPERIORITY||Hazard Ratio (HR)|0.508|||<|0.001|TWO_SIDED|95.0|0.343|0.753|||Log Rank||Hazard ratio was estimated by Cox proportional hazards model|Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||0.753|0.343|<0.001
92147980|NCT02755597|184181085|SUPERIORITY||Hazard Ratio (HR)|1.191|||=|0.385|TWO_SIDED|95.0|0.802|1.77|||Log Rank||Hazard ratio was estimated by Cox proportional hazards model|Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||1.770|0.802|=0.385
92147981|NCT02755597|184181086|SUPERIORITY||Hazard Ratio (HR)|0.571|||=|0.001|TWO_SIDED|95.0|0.405|0.805|||Log Rank||Hazard ratio was estimated by Cox proportional hazards model|Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||0.805|0.405|=0.001
92147982|NCT02755597|184181087|SUPERIORITY||||||=|0.019|||||||Cochran-Mantel-Haenszel|||Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||||=0.019
92147983|NCT02755597|184181088|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||||<0.001
92147984|NCT04252742|184181111|SUPERIORITY||LSM difference|-7.95|||<|0.001|TWO_SIDED|95.0|-11.45|-4.46||Nominal p-value is presented without multiplicity adjustment.|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates.|Erenumab 140 mg SC Q4W - Placebo|||-4.46|-11.45|< 0.001
92147985|NCT04252742|184181112|SUPERIORITY||LSM difference|-7.36|||<|0.001|TWO_SIDED|95.0|-10.8|-3.92||Nominal p-value is presented without multiplicity adjustment.|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates.|Erenumab 140 mg SC Q4W - Placebo|||-3.92|-10.80|< 0.001
92147986|NCT04252742|184181113|SUPERIORITY||LSM difference|-7.1|||<|0.001|TWO_SIDED|95.0|-10.34|-3.87||Nominal p-value is presented without multiplicity adjustment|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates|Erenumab 140 mg SC Q4W - Placebo|||-3.87|-10.34|< 0.001
92147987|NCT04252742|184181114|SUPERIORITY||LSM difference|-7.05|||<|0.001|TWO_SIDED|95.0|-10.76|-3.34||Nominal p-value is presented without multiplicity adjustment|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates|Erenumab 140 mg SC Q4W - Placebo|||-3.34|-10.76|< 0.001
92147988|NCT04252742|184181115|SUPERIORITY||LSM difference|-6.82|||<|0.001|TWO_SIDED|95.0|-10.37|-3.27||Nominal p-value is presented without multiplicity adjustment|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates|Erenumab 140 mg SC Q4W - Placebo|||-3.27|-10.37|< 0.001
92147989|NCT04252742|184181116|SUPERIORITY||LSM difference|-1.07||||0.013|TWO_SIDED|95.0|-1.92|-0.22||Nominal p-value is presented without multiplicity adjustment.|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates.|Erenumab 140 mg SC Q4W - Placebo|||-0.22|-1.92|0.013
92147990|NCT04252742|184181117|SUPERIORITY||LSM difference|-0.48||||0.011|TWO_SIDED|95.0|-0.85|-0.11||Nominal p-value is presented without multiplicity adjustment|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates|Erenumab 140 mg SC Q4W - Placebo|||-0.11|-0.85|0.011
92147991|NCT01091948|184181133|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Regression, Cox|Intubations accomplished with another device due to difficulty with assigned device and those took \>180 s were considered as failed intubations.||||||0.19
92147992|NCT01091948|184181134|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.89||||0.58|TWO_SIDED|95.0|0.58|1.35|||ANCOVA||The mean intubation difficulty score was tested after logarithmic transformation, and then back transformed for the estimated treatment effect.|||1.35|0.58|0.58
92210054|NCT05754333|184320406|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 4||||
92147993|NCT01091948|184181135|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.13||||0.15|TWO_SIDED|95.0|0.95|1.33|||Cochran-Mantel-Haenszel|||||1.33|0.95|0.15
92147994|NCT01091948|184181136|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.67||||0.57|TWO_SIDED|95.0|0.28|10.2|||Cochran-Mantel-Haenszel|||||10.2|0.28|0.57
92147995|NCT01091948|184181137|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01||||0.79|TWO_SIDED|95.0|0.93|1.09|||Cochran-Mantel-Haenszel|||||1.09|0.93|0.79
92147996|NCT01091948|184181138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.82|TWO_SIDED|95.0|0.45|2.76|||Regression, Logistic|proportional odds logistic regression model||||2.76|0.45|0.82
92147997|NCT01542957|184181158|SUPERIORITY_OR_OTHER||Slope|-0.96|STANDARD_ERROR_OF_MEAN|0.69||0.6|TWO_SIDED|95.0|-3.35|1.43|||Mixed Models Analysis|||||1.43|-3.35|0.60
92147998|NCT01542957|184181159|SUPERIORITY_OR_OTHER||Slope|1.27|STANDARD_ERROR_OF_MEAN|0.53||0.21|TWO_SIDED|95.0|-0.71|3.25|||Mixed Models Analysis|||||3.25|-0.71|0.21
92147999|NCT01542957|184181160|SUPERIORITY_OR_OTHER||Slope|-0.01||||0.84|TWO_SIDED|95.0|-0.14|0.12|||Mixed Models Analysis|||||0.12|-0.14|0.84
92148000|NCT05805657|184181166|SUPERIORITY||Time by treatment interaction coeff.|-7.16|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Immediate TranS-C (Standard/Adapted combined) versus UC-DT on change in sleep disturbance from pre to post.||||<0.001
92148001|NCT05805657|184181166|SUPERIORITY||Time by treatment interaction coeff.|2.22||||0.52|TWO_SIDED|||||Standard TranS-C versus Adapted TranS-C on change in sleep disturbance from pre to post.|Intent-to-treat, multilevel modeling|||||||0.52
92148002|NCT05805657|184181166|SUPERIORITY||Coefficient|-10.89||||0.02|TWO_SIDED||||||Regression, Linear|||Acceptability of intervention measure (AIM) predicting sleep disturbance.||||0.02
92148003|NCT05805657|184181166|SUPERIORITY||Coefficient|-6.26||||0.04|TWO_SIDED||||||Regression, Linear|||Appropriateness of intervention measure (IAM) predicting sleep disturbance.||||0.04
92335333|NCT04530838|184573341|OTHER||GMR|0.98|||||TWO_SIDED|95.0|0.83|1.16||||||Serotype 4: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.16|0.83|
92148004|NCT05805657|184181166|SUPERIORITY||Coefficient|-10.37||||0.001|TWO_SIDED||||||Regression, Linear|||Feasibility of intervention measure (FIM) predicting sleep disturbance.||||0.001
92148005|NCT05805657|184181168|SUPERIORITY||Time by treatment interaction coeff.|-6.44||||0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in sleep- related impairment from pre to post.||||0.001
92148006|NCT05805657|184181168|SUPERIORITY||Time by treatment interaction coeff.|1.36||||0.72|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Standard TranS-C versus Adapted TranS-C on change in sleep-related impairment from pre to post.||||0.72
92148007|NCT05805657|184181168|SUPERIORITY||Coefficient|-3.9||||0.3|TWO_SIDED||||||Regression, Linear|||Acceptability of intervention measure (AIM) predicting sleep-related impairment.||||0.30
92148008|NCT05805657|184181168|SUPERIORITY||Coefficient|0.79||||0.78|TWO_SIDED||||||Regression, Linear|||Appropriateness of intervention measure (IAM) predicting sleep-related impairment.||||0.78
92148009|NCT05805657|184181168|SUPERIORITY||Coefficient|-4.45||||0.15|TWO_SIDED||||||Regression, Linear|||Feasibility of intervention measure (FIM) predicting sleep-related impairment.||||0.15
92148010|NCT05805657|184181169|SUPERIORITY||Time by treatment interaction coeff.|0.55||||0.09|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in Composite Sleep Health Score from pre to post.||||0.09
92148011|NCT05805657|184181169|SUPERIORITY||Time by treatment interaction coeff.|1.05||||0.11|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Standard TranS-C versus Adapted TranS-C on change in sleep health from pre to post.||||0.11
92148012|NCT05805657|184181169|SUPERIORITY||Coefficient|0.45||||0.59|TWO_SIDED||||||Regression, Linear|||Acceptability of intervention measure (AIM) predicting sleep health.||||0.59
92148013|NCT05805657|184181169|SUPERIORITY||Coefficient|0.72||||0.14|TWO_SIDED||||||Regression, Linear|||Appropriateness of intervention measure (IAM) predicting sleep health.||||0.14
92148014|NCT05805657|184181169|SUPERIORITY||Coefficient|0.89||||0.06|TWO_SIDED||||||Regression, Linear|||Feasibility of intervention measure (FIM) predicting sleep health.||||0.06
92148015|NCT05805657|184181170|SUPERIORITY||Time by treatment interaction coeff.|-4.33||||0.002|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in functional impairment from pre to post.||||0.002
92148016|NCT05805657|184181170|SUPERIORITY||Coefficient of indirect effect|-2.2||||0.002|TWO_SIDED|95.0|-3.57|-0.83|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and functional impairment (Sheehan Disability Scale) at post was mediated by sleep disturbance (PROMIS-SD) at post. The parameter of interest was the indirect effect.||-0.83|-3.57|0.002
92210055|NCT05754333|184320407|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|Difference from WL in Means, Reader 2||||
92148017|NCT05805657|184181170|SUPERIORITY||Coefficient of indirect effect|-2.76||||0.001|TWO_SIDED|95.0|-4.44|-1.08|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and functional impairment (Sheehan Disability Scale) at post was mediated by sleep-related impairment (PROMIS-SRI). The parameter of interest was the indirect effect at post||-1.08|-4.44|0.001
92148018|NCT05805657|184181170|SUPERIORITY||Time by treatment interaction coeff.|0.84||||0.78|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Standard TranS-C versus Adapted TranS-C on change in functional impairment from pre to post.||||0.78
92148019|NCT05805657|184181170|SUPERIORITY||Coefficient|-1.41||||0.49|TWO_SIDED||||||Regression, Linear|||Acceptability of intervention measure (AIM) predicting functional impairment.||||0.49
92148020|NCT05805657|184181170|SUPERIORITY||Coefficient|-1.62||||0.27|TWO_SIDED||||||Regression, Linear|||Appropriateness of intervention measure (IAM) predicting functional impairment.||||0.27
92148021|NCT05805657|184181170|SUPERIORITY||Coefficient|-2.07||||0.09|TWO_SIDED||||||Regression, Linear|||Feasibility of intervention measure (FIM) predicting functional impairment.||||0.09
92148022|NCT05805657|184181171|SUPERIORITY||Time by treatment interaction coeff.|-4.25||||0.002|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in psychiatric symptoms from pre to post.||||0.002
92210056|NCT05754333|184320407|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|Difference from WL in Means, Reader 3||||
92210057|NCT05754333|184320407|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|Difference from WL in Means, Reader 4||||
92148023|NCT05805657|184181171|SUPERIORITY||Coefficient of indirect effect|-1.95||||0.02|TWO_SIDED|95.0|-3.54|-0.36|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and psychiatric symptoms (Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by sleep disturbance (PROMIS-SD) at post. The parameter of interest was the indirect effect.||-0.36|-3.54|0.02
92148024|NCT05805657|184181171|SUPERIORITY||Coefficient of indirect effect|-1.62||||0.01|TWO_SIDED|95.0|-2.87|-0.38|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and psychiatric symptoms (Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by sleep-related impairment (PROMIS-SRI) at post. The parameter of interest was the indirect effect.||-0.38|-2.87|0.01
92148025|NCT05805657|184181171|SUPERIORITY||Time by treatment interaction coeff.|1.79||||0.56|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Standard TranS-C versus Adapted TranS-C on change in psychiatric symptoms from pre to post.||||0.56
92148026|NCT05805657|184181171|SUPERIORITY||Coefficient|-3.46||||0.34|TWO_SIDED||||||Regression, Linear|||Acceptability of intervention measure (AIM) predicting psychiatric symptoms.||||0.34
92148027|NCT05805657|184181171|SUPERIORITY||Coefficient|-5.54||||0.01|TWO_SIDED||||||Regression, Linear|||Appropriateness of intervention measure (IAM) predicting psychiatric symptoms.||||0.01
92148028|NCT05805657|184181171|SUPERIORITY||Coefficient|-5.65||||0.01|TWO_SIDED||||||Regression, Linear|||Feasibility of intervention measure (FIM) predicting psychiatric symptoms.||||0.01
92148029|NCT01951638|184181195|OTHER||Log-Scale mean difference|0.137|||=|0.8991|TWO_SIDED|90.0|-0.04|0.31|||t-test, 1 sided|||For the primary analysis, the three highest active treatment groups BAY1021189 (2.5mg, 2.5 to 5mg, 2.5 to 10mg) were pooled and compared to the assigned placebo treatment group with a one-sided two-sample t-test. The Hochberg procedure was used to test the two primary end points at study-wise significance level of 5%. Results are reported including 90% confidence intervals (CI) for the difference of means. The difference between the comparison groups is difference of means on the log scale.||0.31|-0.04|= 0.8991
92148030|NCT01951638|184181195|OTHER||Log-Scale mean difference|0.076|||=|0.7194|TWO_SIDED|95.0|-0.18|0.33|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||0.33|-0.18|= 0.7194
92148031|NCT01951638|184181195|OTHER||Log-Scale mean difference|0.156|||=|0.8653|TWO_SIDED|95.0|-0.12|0.43|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||0.43|-0.12|= 0.8653
92148032|NCT01951638|184181195|OTHER||Log-Scale mean difference|0.171|||=|0.9041|TWO_SIDED|95.0|-0.09|0.43|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||0.43|-0.09|= 0.9041
92148033|NCT01951638|184181195|OTHER||Log-Scale mean difference|0.052|||=|0.6572|TWO_SIDED|95.0|-0.2|0.3|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||0.3|-0.2|= 0.6572
92148034|NCT01951638|184181196|OTHER||Mean Difference (Net)|1.629|||=|0.8156|TWO_SIDED|90.0|-1.36|4.62|||t-test, 1 sided|||For the primary analysis, the three highest active treatment groups (BAY1021189 2.5mg, BAY1021189 2.5 to 5mg, BAY1021189 2.5 to 10mg) were pooled and compared to the assigned placebo treatment group with a one-sided two-sample t-test. The Hochberg procedure was used to test the two primary end points at study-wise significance level of 5%. Results are reported including 90% confidence intervals (CI) for the difference of means.||4.62|-1.36|= 0.8156
92148035|NCT01951638|184181196|OTHER||Mean Difference (Net)|1.707|||=|0.7945|TWO_SIDED|95.0|-2.39|5.8|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||5.8|-2.39|= 0.7945
92148036|NCT01951638|184181196|OTHER||Mean Difference (Net)|2.109|||=|0.7917|TWO_SIDED|95.0|-3.01|7.23|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||7.23|-3.01|= 0.7917
92148037|NCT01951638|184181196|OTHER||Mean Difference (Net)|1.219|||=|0.7241|TWO_SIDED|95.0|-2.82|5.26|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||5.26|-2.82|= 0.7241
92148038|NCT01951638|184181196|OTHER||Mean Difference (Net)|1.198|||=|0.7546|TWO_SIDED|95.0|-2.23|4.63|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||4.63|-2.23|= 0.7546
92148039|NCT01338025|184181201|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Log Rank|||||||0.03
92148040|NCT03188055|184181205|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
92148041|NCT03188055|184181206|SUPERIORITY|||||||0.709|||||||t-test, 2 sided|||||||0.709
92148042|NCT03188055|184181207|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92210058|NCT05754333|184320408|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 2||||
92148043|NCT03188055|184181208|SUPERIORITY|||||||0.063|||||||t-test, 2 sided|||||||0.063
92148044|NCT03188055|184181209|SUPERIORITY|||||||0.892|||||||t-test, 2 sided|||||||0.892
92148045|NCT03188055|184181210|SUPERIORITY||||||>|0.99||||||Using an a priori statistical significance of 0.05.|Fisher Exact|||Comparison of concordance status by intervention status (outcome by predictor).||||> . 99
92148046|NCT03188055|184181211|SUPERIORITY|||||||0.188|||||||t-test, 2 sided|||||||0.188
92148047|NCT03188055|184181212|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||||||0.042
92148048|NCT03188055|184181214|SUPERIORITY|||||||0.698|||||||t-test, 2 sided|||||||0.698
92148049|NCT03188055|184181215|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
92148050|NCT00201864|184181321|SUPERIORITY_OR_OTHER|||||||0.9102|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.9102
92148051|NCT01782742|184181342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.22|TWO_SIDED|95.0|-0.13|0.03|||t-test, 2 sided|||||0.03|-0.13|0.22
92148052|NCT01782742|184181343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.57|TWO_SIDED|95.0|-4.428|2.428|||t-test, 2 sided|||||2.428|-4.428|0.57
92148053|NCT01782742|184181344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.625||||0.83|TWO_SIDED|95.0|-5.029|6.279|||t-test, 2 sided|||||6.279|-5.029|0.83
92148054|NCT01782742|184181345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.000|0.000|
92148055|NCT01782742|184181346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.375||||0.94|TWO_SIDED|95.0|-9.674|8.924|||t-test, 2 sided|||||8.924|-9.674|0.94
92148056|NCT01782742|184181347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.563||||0.18|TWO_SIDED|95.0|-1.975|11.1|||t-test, 2 sided|||||11.100|-1.975|0.18
92148057|NCT01782742|184181355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006||||0.46|TWO_SIDED|95.0|-0.01|0.021|||t-test, 2 sided|||||0.021|-0.010|0.46
92148058|NCT01782742|184181356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.53|TWO_SIDED|95.0|-0.02|0.04|||t-test, 2 sided|||||0.040|-0.020|0.53
92148059|NCT04425902|184181372|OTHER||Ratio of geometric least square mean|1.11|||||TWO_SIDED|90.0|0.94|1.32|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.32|0.94|
92148060|NCT04425902|184181373|OTHER||Ratio of geometric least square mean|1.12|||||TWO_SIDED|90.0|0.95|1.32|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.32|0.95|
92148061|NCT04425902|184181374|OTHER||Ratio of geometric least square mean|0.95|||||TWO_SIDED|90.0|0.83|1.08|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.08|0.83|
92148062|NCT04425902|184181377|OTHER||Ratio of geometric least square mean|1.23|||||TWO_SIDED|90.0|0.71|2.14|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||2.14|0.71|
92148063|NCT04425902|184181378|OTHER||Ratio of geometric least square mean|1.23|||||TWO_SIDED|90.0|0.71|2.14|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||2.14|0.71|
92148064|NCT04425902|184181379|OTHER||Ratio of geometric least square mean|1.11|||||TWO_SIDED|90.0|0.72|1.69|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.69|0.72|
92148065|NCT04425902|184181382|OTHER||Ratio of geometric least square mean|1.08|||||TWO_SIDED|90.0|0.97|1.2|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.20|0.97|
92148066|NCT04425902|184181383|OTHER||Ratio of geometric least square mean|1.09|||||TWO_SIDED|90.0|0.98|1.21|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.21|0.98|
92148067|NCT04425902|184181384|OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|0.92|1.17|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.17|0.92|
92148068|NCT04425902|184181387|OTHER||Ratio of geometric least square mean|1.02|||||TWO_SIDED|90.0|0.88|1.18|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.18|0.88|
92148069|NCT04425902|184181388|OTHER||Ratio of geometric least square mean|1.03|||||TWO_SIDED|90.0|0.89|1.19|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.19|0.89|
92148070|NCT04425902|184181389|OTHER||Ratio of geometric least square mean|1.05|||||TWO_SIDED|90.0|0.93|1.18|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.18|0.93|
92148071|NCT04425902|184181392|OTHER||Ratio of geometric least square mean|1.12|||||TWO_SIDED|90.0|0.72|1.75|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.75|0.72|
92148072|NCT04425902|184181393|OTHER||Ratio of geometric least square mean|0.97|||||TWO_SIDED|90.0|0.54|1.73|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.73|0.54|
92148073|NCT04425902|184181394|OTHER||Ratio of geometric least square mean|1.14|||||TWO_SIDED|90.0|0.73|1.78|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.78|0.73|
92148074|NCT04425902|184181397|OTHER||Ratio of geometric least square mean|0.94|||||TWO_SIDED|90.0|0.8|1.11|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.11|0.80|
92148075|NCT04425902|184181398|OTHER||Ratio of geometric least square mean|0.93|||||TWO_SIDED|90.0|0.79|1.1|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.10|0.79|
92148076|NCT04425902|184181399|OTHER||Ratio of geometric least square mean|0.9|||||TWO_SIDED|90.0|0.73|1.12|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.12|0.73|
92148077|NCT04425902|184181402|OTHER||Ratio of geometric least square mean|1.07|||||TWO_SIDED|90.0|0.94|1.22|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.22|0.94|
92148078|NCT04425902|184181403|OTHER||Ratio of geometric least square mean|1.05|||||TWO_SIDED|90.0|0.92|1.19|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.19|0.92|
92148079|NCT04425902|184181404|OTHER||Ratio of geometric least square mean|1.25|||||TWO_SIDED|90.0|0.96|1.63|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.63|0.96|
92148080|NCT04425902|184181407|OTHER||Ratio of geometric least square mean|0.73|||||TWO_SIDED|90.0|0.52|1.03|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.03|0.52|
92148081|NCT04425902|184181408|OTHER||Ratio of geometric least square mean|0.61|||||TWO_SIDED|90.0|0.45|0.82|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||0.82|0.45|
92148082|NCT04425902|184181409|OTHER||Ratio of geometric least square mean|0.78|||||TWO_SIDED|90.0|0.54|1.14|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.14|0.54|
92273024|NCT05180630|184448332|OTHER|||||||0.012||||||When p-value is adjusted for multiple comparisons, the level of statistical significance must be \</= to 0.01666667 (.05/3). Comparisons were total mean scores for Open dome condition, Vented dome condition, and Custom earmolds with dynamic venting|ANOVA|||Treatment order was not analyzed. A repeated measures ANOVA was performed to compare the effect of the coupling conditions on sound quality ratings for streamed music, but there was no analysis between groups.||||0.012
92148083|NCT04425902|184181515|OTHER||Ratio of geometric least square mean|0.92|||||TWO_SIDED|90.0|0.49|1.71|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.71|0.49|
92148084|NCT04425902|184181516|OTHER||Ratio of geometric least square mean|0.93|||||TWO_SIDED|90.0|0.74|1.16|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.16|0.74|
92148085|NCT04425902|184181517|OTHER||Ratio of geometric least square mean|0.86|||||TWO_SIDED|90.0|0.43|1.72|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.72|0.43|
92148086|NCT04425902|184181520|OTHER||Ratio of geometric least square mean|0.99|||||TWO_SIDED|90.0|0.75|1.29|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.29|0.75|
92148087|NCT04425902|184181521|OTHER||Ratio of geometric least square mean|0.99|||||TWO_SIDED|90.0|0.75|1.29|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.29|0.75|
92148088|NCT04425902|184181522|OTHER||Ratio of geometric least square mean|0.94|||||TWO_SIDED|90.0|0.73|1.22|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.22|0.73|
92148089|NCT04425902|184181525|OTHER||Ratio of geometric least square mean|1.1|||||TWO_SIDED|90.0|0.93|1.3|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.30|0.93|
92148090|NCT04425902|184181526|OTHER||Ratio of geometric least square mean|0.99|||||TWO_SIDED|90.0|0.83|1.19|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.19|0.83|
92148091|NCT04425902|184181527|OTHER||Ratio of geometric least square mean|1.12|||||TWO_SIDED|90.0|0.88|1.44|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.44|0.88|
92148092|NCT04425902|184181530|OTHER||Ratio of geometric least square mean|0.9|||||TWO_SIDED|90.0|0.75|1.09|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.09|0.75|
92148093|NCT04425902|184181531|OTHER||Ratio of geometric least square mean|0.91|||||TWO_SIDED|90.0|0.76|1.09|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.09|0.76|
92148094|NCT04425902|184181532|OTHER||Ratio of geometric least square mean|0.85|||||TWO_SIDED|90.0|0.65|1.1|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.10|0.65|
92148095|NCT01544998|184181548|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||t-test, 2 sided|||This was a within PSD reporting group comparison; between PSD and PDD groups were not compared.||||0.26
92148096|NCT01544998|184181549|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||This was a within PDD reporting group comparison; between PSD and PDD groups were not compared.||||0.90
92148097|NCT01544998|184181550|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||This was a within PSD reporting group comparison; between PSD and PDD groups were not compared.||||0.003
92148098|NCT01544998|184181551|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||This was a within PDD reporting group comparison; between PSD and PDD groups were not compared.||||0.14
92148099|NCT01544998|184181552|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||This was a within PSD reporting group comparison; between PSD and PDD groups were not compared.||||<0.001
92148100|NCT01544998|184181553|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||This was a within PDD reporting group comparison; between PSD and PDD groups were not compared.||||<0.001
92148101|NCT00331344|184181568|OTHER||Dose Level VIa|1.0|||||TWO_SIDED||||||||Dose level VIa (mitoxantrone hydrochloride 12 mg/m2 IV over 30 minutes, ixabepilone 30mg/m2 IV over 3 hours on day 1, pegfilgrastim 6mg SC on day 2, oral prednisone twice daily on days 1-21) was determined to be MTD, based on 1 event of DLT at VIa.|Cohorts of 3 patients will be enrolled at each dose level; if 1 dose limiting toxicity (DLT) is observed then the cohort will be expanded to 6 patients. If a second DLT is observed, the previous dose level will be considered the MTD. If all observed DLT are due to neuropathy (specific to ixabepilone), then we would consider the previous dose level of Ixabepilone the MTD for that drug, and escalate mitoxantrone hydrochloride as described above to a maximum dose of 12 mg/m\^2.||||
92148102|NCT02940574|184181589|OTHER|Linear mixed-effect analyses, exploring whether a single-dose of OT could reduce amygdala connectivity, revealed a tentative effect of 'treatment' (F(1,36)=2.00; p=.08 (one-sided))|||||<|0.08||||||Linear mixed-effect analyses, exploring whether a single-dose of OT could reduce amygdala connectivity, revealed a tentative effect of 'treatment' (F(1,36)=2.00; p=.08 (one-sided))|Mixed Models Analysis|(F(1,36)=2.00; p=.08 (one-sided))||||||<0.08
92148103|NCT00520975|184181607|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.24|TWO_SIDED|95.0|0.43|1.23|||Regression, Cox|||||1.23|0.43|0.24
92148104|NCT00520975|184181608|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.09||||0.75|TWO_SIDED|95.0|0.61|1.97|||Regression, Cox|||||1.97|0.61|0.75
92148105|NCT04382924|184181621|SUPERIORITY||Odds Ratio, log|0.0001|||<|0.025|TWO_SIDED||||||Chi-squared|||||||<0.025
92148106|NCT05383417|184181648|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|||||||0.03
92148107|NCT05383417|184181649|SUPERIORITY|||||||0.18|||||||t-test, 1 sided|||||||0.18
92148108|NCT05383417|184181650|SUPERIORITY|||||||0.007|||||||t-test, 1 sided|Day 2||||||0.007
92148109|NCT05383417|184181650|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|Day 7||||||0.04
92148110|NCT05383417|184181651|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|Day 1||||||0.03
92396262|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.78||0.0019|TWO_SIDED|95.0|-3.98|-0.91||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.91|-3.98|0.0019
92148111|NCT05383417|184181651|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|Day 7||||||0.04
92148112|NCT05383417|184181652|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|Day 1||||||0.04
92148113|NCT05383417|184181653|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|Day2||||||0.02
92148114|NCT05383417|184181654|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92148115|NCT05383417|184181655|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||0.007
92148116|NCT05383417|184181656|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92148117|NCT05383417|184181657|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
92148118|NCT05383417|184181658|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92148119|NCT05383417|184181659|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92148120|NCT03243422|184181660|SUPERIORITY||change in Standard Deviation|0.002||||0.96|TWO_SIDED|95.0|-0.077|0.081|||Mixed Models Analysis|Three-level linear mixed effects model with an unstructured covariance matrix from the baseline and the year 3 in-person neurocognitive assessment||||0.081|-0.077|0.96
92148121|NCT03243422|184181661|SUPERIORITY||Slope|0.079||||0.15|TWO_SIDED|95.0|-0.029|0.187||Secondary outcomes were evaluated with Hochberg modification to the Bonferroni adjustment estimates are considered statistically significant if the largest p-value is \<0·05.|Mixed Models Analysis|||||0.187|-0.029|0.15
92148122|NCT03243422|184181662|SUPERIORITY||Slope|-0.02||||0.69|TWO_SIDED|95.0|-0.118|0.078||Secondary outcomes were evaluated with Hochberg modification to the Bonferroni adjustment estimates are considered statistically significant if the largest p-value is \<0·05.|Mixed Models Analysis|||||0.078|-0.118|0.69
92148123|NCT03243422|184181663|SUPERIORITY||Slope|0.017||||0.7|TWO_SIDED|95.0|-0.07|0.104||Secondary outcomes were evaluated with Hochberg modification to the Bonferroni adjustment estimates are considered statistically significant if the largest p-value is \<0·05.|Mixed Models Analysis|||||0.104|-0.070|0.70
92148124|NCT03243422|184181664|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.59|TWO_SIDED|95.0|0.61|1.33||Secondary outcomes were evaluated with Hochberg modification to the Bonferroni adjustment estimates are considered statistically significant if the largest p-value is \<0·05.|Regression, Cox|Discrete-time interval model||||1.33|0.61|0.59
92148125|NCT03243422|184181665|SUPERIORITY||Slope|0.191||||0.027|TWO_SIDED|95.0|0.022|0.36|||Mixed Models Analysis|||Analysis was restricted to ARIC participants who were enrolled in ACHIEVE||0.360|0.022|0.027
92148126|NCT03243422|184181666|SUPERIORITY||Slope|-0.061||||0.18|TWO_SIDED|95.0|-0.151|0.028|||Mixed Models Analysis|||||0.028|-0.151|0.18
92210059|NCT05754333|184320408|SUPERIORITY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 3||||
92148127|NCT01083654|184181680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.262|TWO_SIDED|95.0|0.2|1.55|||Regression, Logistic|||||1.55|0.20|.262
92148128|NCT03525548|184181707|SUPERIORITY||Least squares (LS) mean difference|10.0|||<|0.0001|TWO_SIDED|95.0|7.4|12.6|||Mixed-effects model for repeated measure|||||12.6|7.4|<0.0001
92148129|NCT03525548|184181708|SUPERIORITY||LS mean difference|-45.1|||<|0.0001|TWO_SIDED|95.0|-50.1|-40.1|||Mixed-effects model for repeated measure|||||-40.1|-50.1|<0.0001
92148130|NCT03525548|184181709|SUPERIORITY||LS mean difference|17.4|||<|0.0001|TWO_SIDED|95.0|11.8|23.0|||Mixed-effects model for repeated measure|||||23.0|11.8|<0.0001
92148131|NCT01226511|184181712|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-2.65|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-4.03|-1.27|||Mixed Models Analysis|||||-1.27|-4.03|<0.001
92148132|NCT02696564|184181726|SUPERIORITY|We will estimate a 95% confidence interval for the losartan vs placebo mean difference, using the regression estimate and the t-distribution; we will reject the null that losartan is equivalent to placebo if the 95% interval excludes 0.0.||||||0.133|||||||Mixed Models Analysis|P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.||||||0.133
92148133|NCT02696564|184181727|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.762||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.762
92148134|NCT02696564|184181728|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.834||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.834
92148135|NCT02696564|184181729|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.783||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.783
92148136|NCT02696564|184181730|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.053||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.053
92148137|NCT02696564|184181731|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.016||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.016
92148138|NCT02696564|184181732|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.065||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.065
92148139|NCT02696564|184181733|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.293||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.293
92148140|NCT02696564|184181734|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.356||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.356
92148141|NCT02696564|184181735|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.009||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.009
92148142|NCT02696564|184181736|SUPERIORITY||Relative rate (losartan to placebo)|0.8||||0.892|TWO_SIDED|95.0|0.03|18.77|||Negative binomial model|||P-value for rate of mild exacerbations between treatment groups (measured in events per 100 person-years).||18.77|0.03|0.892
92148143|NCT02696564|184181736|SUPERIORITY||Relative rate (losartan to placebo)|0.91||||0.946|TWO_SIDED|95.0|0.05|14.97|||Negative binomial model|||P-value for rate of moderate exacerbations between treatment groups (measured in events per 100 person-years).||14.97|0.05|0.946
92148144|NCT02696564|184181736|SUPERIORITY||Relative rate (losartan to placebo)|0.36||||0.487|TWO_SIDED|95.0|0.02|6.51|||Negative binomial model|||P-value for rate of severe exacerbations between treatment groups (measured in events per 100 person-years).||6.51|0.02|0.487
92148145|NCT04067401|184181761|SUPERIORITY||Effect size|-0.13||||0.062|TWO_SIDED|95.0|-0.29|0.01|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||.01|-.29|.062
92148146|NCT04067401|184181762|SUPERIORITY||Effect size|-0.23||||0.001|TWO_SIDED|95.0|-0.39|-0.09|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||-.09|-.39|.001
92148147|NCT04067401|184181763|SUPERIORITY||Effect size|-0.16||||0.027|TWO_SIDED|95.0|-0.34|-0.02|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||-.02|-.34|.027
92148148|NCT04067401|184181764|SUPERIORITY||Effect size|-0.24||||0.002|TWO_SIDED|95.0|-0.41|-0.08|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||-.08|-.41|.002
92148149|NCT04067401|184181765|SUPERIORITY||Effect size|0.01||||0.821|TWO_SIDED|95.0|-0.12|0.11|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||.11|-.12|.821
92148150|NCT04067401|184181766|SUPERIORITY||Effect size|-0.14||||0.024|TWO_SIDED|95.0|-0.31|-0.02|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||-.02|-.31|.024
92148151|NCT04067401|184181767|SUPERIORITY||Effect size|0.18||||0.012|TWO_SIDED|95.0|0.04|0.29|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||.29|.04|.012
92148152|NCT04067401|184181768|SUPERIORITY||Effect size|0.21||||0.01|TWO_SIDED|95.0|0.05|0.35||Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component|Mixed Models Analysis|||||.35|.05|.010
92148153|NCT00141739|184181785|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test||||||0.001
92148154|NCT02798211|184181796|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0011|TWO_SIDED|95.0|1.65|7.45|||Regression, Logistic|Statistical analysis (logistic regression) of ACR20 response in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, 16 weeks||7.45|1.65|0.0011
92148155|NCT02798211|184181796|SUPERIORITY||Odds Ratio (OR)|1.92||||0.0961|TWO_SIDED|95.0|0.89|4.15|||Regression, Logistic|Statistical analysis (logistic regression) of ACR20 response in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, 16 weeks||4.15|0.89|0.0961
92148156|NCT02798211|184181797|SUPERIORITY||Odds Ratio (OR)|0.6||||0.333|TWO_SIDED|95.0|0.22|1.68|||Regression, Logistic|Statistical analysis (logistic regression) of presence of dactylitis by visit in treatment period 1 (non-responder imputation)||secukinumab 300 mg s.c. injection, 16 weeks||1.68|0.22|0.3330
92148157|NCT02798211|184181797|SUPERIORITY||Odds Ratio (OR)|0.4||||0.0841|TWO_SIDED|95.0|0.14|1.13|||Regression, Logistic|Statistical analysis (logistic regression) of presence of dactylitis in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, 16 weeks||1.13|0.14|0.0841
92148158|NCT02798211|184181798|SUPERIORITY||Odds Ratio (OR)|0.52||||0.1618|TWO_SIDED|95.0|0.21|1.3|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (SPARCC) in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, 16 weeks||1.30|0.21|0.1618
92148159|NCT02798211|184181798|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0898|TWO_SIDED|95.0|0.19|1.13|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (SPARCC) in treatment period 1 (non-responder imputation)||secukinumab 150mg s.c. injection, 16 weeks||1.13|0.19|0.0898
92148160|NCT02798211|184181799|SUPERIORITY||Odds Ratio (OR)|0.27||||0.0125|TWO_SIDED|95.0|0.09|0.75|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (LEI) in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, 16 weeks||0.75|0.09|0.0125
92148161|NCT02798211|184181799|SUPERIORITY||Odds Ratio (OR)|0.25||||0.0086|TWO_SIDED|95.0|0.09|0.7|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (SPARCC) in treatment period 1 (non-responder imputation)||secukinumab 150mg s.c. injection, 16 weeks||0.70|0.09|0.0086
92148162|NCT02798211|184181800|SUPERIORITY||Odds Ratio (OR)|0.35||||0.0338|TWO_SIDED|95.0|0.13|0.92|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (SPARCC and LEI) in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, 16 weeks||0.92|0.13|0.0338
92148163|NCT02798211|184181800|SUPERIORITY||Odds Ratio (OR)|0.36||||0.0359|TWO_SIDED|95.0|0.14|0.93|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (SPARCC and LEI) in treatment period 1 (non-responder imputation)||secukinumab 150mg s.c. injection, 16 weeks||0.93|0.14|0.0359
92148164|NCT02798211|184181801|SUPERIORITY||Odds Ratio, log|6.3||||0.0038|TWO_SIDED|95.0|1.81|21.88|||Regression, Logistic|Statistical analysis (logistic regression) of ACR50 response in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, week 16||21.88|1.81|0.0038
92148165|NCT02798211|184181801|SUPERIORITY||Odds Ratio (OR)|4.77||||0.0149|TWO_SIDED|95.0|1.36|16.77|||Regression, Logistic|Statistical analysis (logistic regression) of ACR50 response by visit in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, week 16||16.77|1.36|0.0149
92148166|NCT02798211|184181802|SUPERIORITY||Odds Ratio, log|10.5||||0.0243|TWO_SIDED|95.0|1.36|81.3|||Regression, Logistic|Statistical analysis (logistic regression) of ACR70 response in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, week 16||81.30|1.36|0.0243
92148167|NCT02798211|184181802|SUPERIORITY||Odds Ratio (OR)|5.42||||0.112|TWO_SIDED|95.0|0.67|43.64|||Regression, Logistic|Statistical analysis (logistic regression) of ACR70 response by visit in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, week 16||43.64|0.67|0.1120
92148168|NCT02798211|184181803|SUPERIORITY||Odds Ratio, log|9.49|||<|0.0001|TWO_SIDED|95.0|3.73|24.16|||Regression, Logistic|Statistical analysis (logistic regression) of PASI75 response by visit in treatment period 1 (non-responder imputation)||secukinumab 300 mg s.c. injection, week 16||24.16|3.73|<0.0001
92148169|NCT02798211|184181803|SUPERIORITY||Odds Ratio (OR)|6.38||||0.0001|TWO_SIDED|95.0|2.51|16.24|||Regression, Logistic|Statistical analysis (logistic regression) of PASI75 response by visit - in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, week 16||16.24|2.51|0.0001
92148170|NCT02798211|184181804|SUPERIORITY||Odds Ratio, log|9.86|||<|0.0001|TWO_SIDED|95.0|3.19|30.45|||Regression, Logistic|Statistical analysis (logistic regression) of PASI90 response in treatment period 1 (non-responder imputation)||secukinumab 300 mg s.c. injection, week 16||30.45|3.19|<.0001
92148171|NCT02798211|184181804|SUPERIORITY||Odds Ratio (OR)|5.21||||0.0043|TWO_SIDED|95.0|1.68|16.21|||Regression, Logistic|Statistical analysis (logistic regression) of PASI90 response in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, week 16||16.21|1.68|0.0043
92148172|NCT02798211|184181805|SUPERIORITY||Odds Ratio, log|14.38||||0.0107|TWO_SIDED|95.0|1.86|111.53|||Regression, Logistic|Statistical analysis (logistic regression) of PASI100 response by visit in treatment period 1 (non-responder imputation)||secukinumab 300 mg s.c. injection, week 16||111.53|1.86|0.0107
92148173|NCT02798211|184181805|SUPERIORITY||Odds Ratio (OR)|9.82||||0.0307|TWO_SIDED|95.0|1.24|77.9|||Regression, Logistic|Statistical analysis (logistic regression) of PAS100 response by in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, week 16||77.90|1.24|0.0307
92148174|NCT02798211|184181806|SUPERIORITY||LS Mean of Treatment Difference|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.45|-0.65|||ANCOVA|Statistical analysis (ANCOVA) of change from baseline in DAS28-CRP score in treatment period 1 (LOCF)||secukinumab 300mg s.c. injection, 16 weeks|"Standard Error of Treatment Difference~0.203"|-0.65|-1.45|<.0001
92148175|NCT02798211|184181806|SUPERIORITY||LS Means of Treatment Difference|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.24|-0.43|||ANCOVA|Statistical analysis (ANCOVA) of change from baseline in DAS28-CRP score in treatment period 1 (LOCF)||secukinumab 150 mg s.c. injection|"LS Mean of Treatment Difference~0.207"|-0.43|-1.24|<.0001
92148176|NCT02798211|184181807|SUPERIORITY||LS Mean of Treatment Difference|-0.21||||0.0107|TWO_SIDED|95.0|-0.37|-0.05|||ANCOVA|Statistical analysis (ANCOVA) of change from baseline in HAQ-DI score by in treatment period 1 (LOCF)||secukinumab 300mg s.c. injection|"Standard Error of Treatment Difference~0.081"|-0.05|-0.37|0.0107
92148177|NCT02798211|184181807|SUPERIORITY|secukinumab 150 mg s.c. injection|LS Mean Treatment Difference|-0.13||||0.1109|TWO_SIDED|95.0|-0.3|0.03|||ANCOVA|Statistical analysis (ANCOVA) of change from baseline in HAQ-DI score by visit - in treatment period 1 (LOCF)|||"Standard Error of Treatment Difference~-0.083"|0.03|-0.30|0.1109
92148178|NCT01800968|184181857|SUPERIORITY_OR_OTHER|||||||0.3087|||||||Rank score|||||||0.3087
92148179|NCT01800968|184181858|SUPERIORITY_OR_OTHER|||||||0.1549|||||||Regression, Linear|||||||0.1549
92148180|NCT01800968|184181859|SUPERIORITY_OR_OTHER|||||||0.1932|||||||Regression, Linear|||||||0.1932
92148181|NCT01800968|184181860|SUPERIORITY_OR_OTHER|||||||0.9535|||||||Regression, Linear|||||||0.9535
92148182|NCT01800968|184181861|SUPERIORITY_OR_OTHER|||||||0.8548|||||||Regression, Linear|||||||0.8548
92148183|NCT01800968|184181862|SUPERIORITY_OR_OTHER|||||||0.4266|||||||Regression, Linear|||||||0.4266
92148184|NCT01800968|184181863|SUPERIORITY_OR_OTHER|||||||0.1705|||||||Regression, Linear|||||||0.1705
92148185|NCT01800968|184181864|SUPERIORITY_OR_OTHER|||||||0.1309|||||||Regression, Linear|||||||0.1309
92148186|NCT01800968|184181865|SUPERIORITY_OR_OTHER|||||||0.792|||||||Regression, Linear|||||||0.7920
92148187|NCT01800968|184181866|SUPERIORITY_OR_OTHER|||||||0.7026|||||||Regression, Linear|||||||0.7026
92148188|NCT01800968|184181867|SUPERIORITY_OR_OTHER|||||||0.2662|||||||Regression, Linear|||||||0.2662
92148189|NCT01800968|184181868|SUPERIORITY_OR_OTHER|||||||0.6395|||||||Regression, Linear|||||||0.6395
92148190|NCT01800968|184181869|SUPERIORITY_OR_OTHER|||||||0.8218|||||||Regression, Linear|||||||0.8218
92148191|NCT01800968|184181870|SUPERIORITY_OR_OTHER|||||||0.1124|||||||Regression, Linear|||||||0.1124
92148192|NCT01800968|184181871|SUPERIORITY_OR_OTHER|||||||0.8088|||||||Regression, Linear|||||||0.8088
92148193|NCT01800968|184181872|SUPERIORITY_OR_OTHER|||||||0.7764|||||||Log Rank|||||||0.7764
92148194|NCT01800968|184181873|SUPERIORITY_OR_OTHER|||||||0.1701|||||||Log Rank|||||||0.1701
92148195|NCT01800968|184181874|SUPERIORITY_OR_OTHER|||||||0.6532|||||||Regression, Linear|||||||0.6532
92148196|NCT01800968|184181875|SUPERIORITY_OR_OTHER|||||||0.2033|||||||Rank score|||||||0.2033
92148197|NCT00755040|184181886|SUPERIORITY||Odds Ratio (OR)|1.11|||>|0.99|TWO_SIDED|95.0|||||Fisher Exact|||||||>0.99
92148198|NCT02220894|184181903|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0003|TWO_SIDED|95.0|0.58|0.86||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), and histology (squamous vs. non-squamous).|||0.86|0.58|0.0003
92148199|NCT02220894|184181904|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0012|TWO_SIDED|95.0|0.65|0.91||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||0.91|0.65|0.0012
92148200|NCT02220894|184181905|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0013|TWO_SIDED|95.0|0.71|0.93||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||0.93|0.71|0.0013
92148201|NCT02220894|184181906|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.026|TWO_SIDED|95.0|0.69|1.0||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1) and histology (squamous vs. non-squamous).|||1.00|0.69|0.0260
92148202|NCT02220894|184181907|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.2134|TWO_SIDED|95.0|0.8|1.1||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||1.10|0.80|0.2134
92148203|NCT02220894|184181908|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7964|TWO_SIDED|95.0|0.93|1.19||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||1.19|0.93|0.7964
92148204|NCT02220894|184181909|SUPERIORITY||Difference in Percentage (DP)|7.0||||0.0353|TWO_SIDED|95.0|-0.6|14.6||One-sided p-value for testing. H0: difference in percentages=0 vs. H1: difference in percentages \>0|Stratified Miettinen and Nurminen||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1) and histology (squamous vs. nonsquamous).|||14.6|-0.6|0.0353
92148205|NCT02220894|184181910|SUPERIORITY||Difference in Percentage (DP)|4.6||||0.0744|TWO_SIDED|95.0|-1.7|10.9||One-sided p-value for testing. H0: difference in percentages=0 vs. H1: difference in percentages \>0|Stratified Miettinen and Nurminen||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||10.9|-1.7|0.0744
92148206|NCT02220894|184181911|SUPERIORITY||Difference in Percentage (DP)|0.6||||0.406|TWO_SIDED|95.0|-4.2|5.4||One-sided p-value for testing. H0: difference in percentages=0 vs. H1: difference in percentages \>0|Stratified Miettinen and Nurminen||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||5.4|-4.2|0.4060
92148207|NCT00394355|184181928|SUPERIORITY_OR_OTHER_LEGACY|||||||0.261|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way analysis of variance (ANOVA) model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.261
92148208|NCT00394355|184181928|SUPERIORITY_OR_OTHER_LEGACY|||||||0.644|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way ANOVA model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.644
92148209|NCT00394355|184181929|SUPERIORITY_OR_OTHER_LEGACY|||||||0.359|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way ANOVA model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.359
92148210|NCT00394355|184181929|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way ANOVA model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.390
92396263|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.78||0.0049|TWO_SIDED|95.0|-3.73|-0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.67|-3.73|0.0049
92148211|NCT00394355|184181930|SUPERIORITY_OR_OTHER_LEGACY|||||||0.169|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way ANOVA model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.169
92148212|NCT00394355|184181930|SUPERIORITY_OR_OTHER_LEGACY|||||||0.526|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way ANOVA model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.526
92148213|NCT00394355|184181931|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||Least square means and Pstd (pooled standard deviations) are obtained from the ANOVA model with treatment effects.||||<0.001
92148214|NCT00394355|184181931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|||||||ANOVA|||Least square means and Pstd (pooled standard deviations) are obtained from the ANOVA model with treatment effects.||||0.023
92148215|NCT00079001|184181932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Superiority and futility analysis were conducted for time to first SRE. Lan-Demets analog of the Emerson-Fleming sequential boundary was used to maintain overall significance level of α = .05 while conducting interim analyses on time to first SRE.|Hazard Ratio (HR)|0.97||||0.385|TWO_SIDED|95.0|0.0|1.174||Because of early termination, conditional power was performed under the alternative hypothesis. This is the probability that zoledronic acid is superior to placebo, given time to first SRE data at interim analysis under alternative hypothesis.|Log Rank||Patients randomly assigned to zoledronic acid were compared with patients assigned to placebo|The null hypothesis was that the hazard ratio is greater than or equal to 1.0 versus the alternative hypothesis that the hazard ratio is less than 0.77. With a target of 470 SREs, log-rank statistic had 88% power to detect a 23% decrease in hazard of SRE (equivalent to an increase in median time to SRE from 30 months to 39 months), assuming a one-sided type I error rate of .05.||1.174|0|0.385
92148216|NCT00079001|184181933|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.29|TWO_SIDED|95.0|0.7|1.12|||Log Rank|Adjusted for stratification factors: performance status, prior SRE, and serum alkaline phosphatase.|Zoledronic acid versus placebo group|||1.12|0.70|0.29
92148217|NCT00079001|184181934|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89||||0.22|TWO_SIDED|95.0|0.74|1.07|||Log Rank|Adjusted for stratification factors: performance status, prior SRE, and serum alkaline phosphatase.|Zoledronic acid versus placebo group|||1.07|0.74|0.22
92148218|NCT02618616|184181935|OTHER||least square difference|8.7||||0.8495|ONE_SIDED|90.0|8.4|||The 1-sided p-value tests if the ZPL-389 Least square (LS) mean is \< the placebo LS mean.|ANCOVA|||ANCOVA of PASI at Week 12|||8.4|0.8495
92148219|NCT02618616|184181936|OTHER||Odds Ratio (OR)|0.562||||0.9058|TWO_SIDED|90.0|0.27|1.16|||Regression, Logistic|||Logistic Regression PASI-50||1.16|0.27|0.9058
92148220|NCT02618616|184181936|OTHER||Odds Ratio (OR)|0.946||||0.5422|TWO_SIDED|90.0|0.4|2.25|||Regression, Logistic|||Logistic Regression PASI-75||2.25|0.4|0.5422
92148221|NCT00558064|184181951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.11|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|3.98|6.23|||Mixed Models Analysis||Difference calculated as telmisartan 40 mg plus amlodipine 5 mg fixed-dose combination minus amlodipine 5 mg monotherapy|||6.23|3.98|<0.0001
92148222|NCT05878197|184182001|OTHER|||||||0.024||||||Linear Mixed Models: time-effect|Mixed Models Analysis|||||||0.024
92148223|NCT05878197|184182001|OTHER|||||||0.822||||||Linear mixed models: group-effect|Mixed Models Analysis|||||||0.822
92148224|NCT05878197|184182001|OTHER|||||||0.29||||||Linar mixed models: time\*group-effect|Mixed Models Analysis|||||||0.290
92148225|NCT05878197|184182001|OTHER||Mean Difference (Final Values)|1.8||||0.035|TWO_SIDED|95.0|0.1|3.4||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||3.4|0.1|0.035
92148226|NCT05878197|184182001|OTHER||Mean Difference (Final Values)|1.8||||0.038|TWO_SIDED|95.0|0.1|3.4||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||3.4|0.1|0.038
92148227|NCT05878197|184182001|OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-1.9|1.9||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||1.9|-1.9|1.000
92148228|NCT05878197|184182002|OTHER|||||||0.107||||||Linear mixed models: time-effect|Mixed Models Analysis|||||||0.107
92148229|NCT05878197|184182002|OTHER|||||||0.996||||||Linear mixed models: group-effect|Mixed Models Analysis|||||||0.996
92148230|NCT05878197|184182002|OTHER|||||||0.639||||||Linear mixed models: time\*group-effect|Mixed Models Analysis|||||||0.639
92148231|NCT05878197|184182002|OTHER||Mean Difference (Final Values)|-0.1||||0.731|TWO_SIDED|95.0|-0.6|0.4||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||0.4|-0.6|0.731
92148232|NCT05878197|184182002|OTHER||Mean Difference (Final Values)|-0.4||||0.217|TWO_SIDED|95.0|-1.1|0.3||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||0.3|-1.1|0.217
92148233|NCT05878197|184182002|OTHER||Mean Difference (Final Values)|-0.3||||0.253|TWO_SIDED|95.0|-0.9|0.3||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||0.3|-0.9|0.253
92148234|NCT05878197|184182003|OTHER|||||||0.024||||||Linear mixed models: time-effect|Mixed Models Analysis|||||||0.024
92148235|NCT05878197|184182003|OTHER|||||||0.449||||||Linear mixed models: group-effect|Mixed Models Analysis|||||||0.449
92148236|NCT05878197|184182003|OTHER|||||||0.786||||||Linear mixed models: time\*group-effect|Mixed Models Analysis|||||||0.786
92148237|NCT05878197|184182003|OTHER||Mean Difference (Final Values)|-3.3||||0.099|TWO_SIDED|95.0|-7.2|0.7||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||0.7|-7.2|0.099
92148238|NCT05878197|184182003|OTHER||Mean Difference (Final Values)|-3.9||||0.074|TWO_SIDED|95.0|-8.3|0.4||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||0.4|-8.3|0.074
92148239|NCT05878197|184182003|OTHER||Mean Difference (Final Values)|-1.7||||0.472|TWO_SIDED|95.0|-6.7|3.2||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||3.2|-6.7|0.472
92148240|NCT05878197|184182004|OTHER|||||||0.115||||||Linear mixed models: time-effect|Mixed Models Analysis|||||||0.115
92148241|NCT05878197|184182004|OTHER|||||||0.516||||||Linear mixed models: group-effect|Mixed Models Analysis|||||||0.516
92148242|NCT05878197|184182004|OTHER|||||||0.276||||||Linear mixed models: time\*group-effect|Mixed Models Analysis|||||||0.276
92148243|NCT05878197|184182004|OTHER||Mean Difference (Final Values)|-6.5||||0.025|TWO_SIDED|95.0|-12.2|-0.9||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||-0.9|-12.2|0.025
92148244|NCT05878197|184182004|OTHER||Mean Difference (Final Values)|-0.7||||0.794|TWO_SIDED|95.0|-6.4|4.9||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||4.9|-6.4|0.794
92148245|NCT05878197|184182004|OTHER||Mean Difference (Final Values)|-1.0||||0.76|TWO_SIDED|95.0|-7.7|5.7||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||5.7|-7.7|0.760
92148246|NCT03421808|184182020|SUPERIORITY|||||||0.6|||||||Chi-squared|||For categorical clinical remission data we performed a chi-square test on the IIT and completer sample using Graph-Pad Prism.||||0.6
92148247|NCT07069764|184182030|OTHER|"This study was not designed as a non-inferiority or equivalence trial. It was powered (80% power, α = 0.05) to detect clinically significant differences in pain reduction between 635 nm and 980 nm diode lasers, based on prior LLLT studies in TMD. Sample size was calculated before recruitment."|Effect size (Kendall's W and r)|0.75||||0.05|TWO_SIDED|95.0|0.68|0.79||P-values were adjusted using Bonferroni correction for multiple comparisons. The a priori threshold for statistical significance was set at p \< 0.05.|Friedman test, Mann-Whitney U test|Non-parametric tests were used due to non-normal data distribution (Shapiro-Wilk test). Effect size measures were also reported.||"The study was designed to compare the effects of 635 nm and 980 nm low-level laser therapy on pain and jaw function. Statistical analysis methods are described below."|"Shapiro-Wilk test was used to assess normality. Non-parametric tests were applied. Friedman test for within-group comparisons, followed by Bonferroni-adjusted post hoc tests. Mann-Whitney U test for between-group comparisons. Effect sizes were calculated using Kendall's W (within groups) and r (between groups)."|0.79|0.68|0.05
92148248|NCT03183388|184182050|OTHER|Mixed model with time (baseline and endpoint) as within-subjects factor; compare Least Square (LS) estimate of endpoint minus baseline to zero. The best-fitting model was chosen based on information criteria.|Endpoint minus Baseline|-3.04|STANDARD_ERROR_OF_MEAN|0.5||0.0001|TWO_SIDED|95.0|-4.14|-1.93|||t-test, 2 sided|||||-1.93|-4.14|0.0001
92148249|NCT03183388|184182051|OTHER|Mixed model with time (baseline and midpoint) as within-subjects factor; compare LS estimate of midpoint minus baseline to zero.|Midpoint minus Baseline|-1.37|STANDARD_ERROR_OF_MEAN|2.51||0.6|TWO_SIDED|95.0|-6.97|4.23|||t-test, 2 sided|||||4.23|-6.97|0.60
92148250|NCT03183388|184182052|OTHER|Mixed model with time (baseline and endpoint) as within-subjects factor; compare LS estimate of endpoint minus baseline to zero.|Endpoint minus Baseline|0.11|STANDARD_ERROR_OF_MEAN|0.016||0.0001|TWO_SIDED|95.0|0.074|0.146|||t-test, 2 sided|||||0.146|0.074|0.0001
92148251|NCT03183388|184182053|OTHER|Mixed model with time (baseline and midpoint) as within-subjects factor; compare LS estimate of midpoint minus baseline to zero.|Midpoint minus Baseline|0.031|STANDARD_ERROR_OF_MEAN|0.055||0.58|TWO_SIDED|95.0|-0.095|0.157|||t-test, 2 sided|||||0.157|-0.095|0.58
92148252|NCT00071721|184182070|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.958||||0.88||95.0|||||Cox Proportional Hazards|||||||0.88
92168527|NCT04878354|184226844|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9709|TWO_SIDED|95.0|-0.24|0.25|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.25|-0.24|0.9709
92148253|NCT00803101|184182101|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was -(minus)10%. If the lower limit of the 2-sided 95% CI was \>-10%, then the null-hypothesis was rejected and it was concluded that Beriplex was non-inferior to plasma.~The sample size estimation assumed that hemostatic efficacy would be rated 'effective' in 85% of participants in the plasma group and 90% of participants in the Beriplex group. The power to show non-inferiority with these assumptions was greater than 80% for two treatment groups of 80 participants."|Difference in effective hemostasis (%)|14.3|||||TWO_SIDED|95.0|2.8|25.8||No P-value is provided as non-inferiority was assessed via calculation of the 95% CI for the difference (Beriplex minus plasma) in the percentage of participants with effective hemostasis.|95% confidence interval|The Newcombe-Wilson score method was used to estimate the 95% CI for the difference (Beriplex-plasma) in the % participants with effective hemostasis||The analysis of hemostatic efficacy was via calculation of the 95% confidence interval (CI) for the difference (Beriplex minus plasma) in the percentage of participants with effective hemostasis.||25.8|2.8|
92148254|NCT00803101|184182102|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was -(minus)10%. If the lower limit of the 2-sided 95% CI was \>-10%, then the null-hypothesis was rejected and it was concluded that Beriplex was non-inferior to plasma.~The sample size estimation assumed that hemostatic efficacy would be rated 'effective' in 85% of participants in the plasma group and 90% of participants in the Beriplex group. The power to show non-inferiority with these assumptions was greater than 80% for two treatment groups of 80 participants."|Difference in effective hemostasis (%)|45.3|||||TWO_SIDED|95.0|31.9|56.4||No P-value is provided as non-inferiority was assessed via calculation of the 95% CI for the difference (Beriplex minus plasma) in the percentage of participants with effective hemostasis.|Newcombe-Wilson score method|The Newcombe-Wilson score method was used to estimate the 95% CI for the difference (Beriplex-plasma) in the % pts with rapid decrease of the INR.||The analysis of rapid decrease of the INR was via calculation of the 95% CI for the difference (Beriplex minus plasma) in the percentage of participants with INR ≤ 1.3 at 30 minutes after the end of infusion.||56.4|31.9|
92148255|NCT02026232|184182109|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92148256|NCT01529008|184182111|SUPERIORITY||Proportion treatment responder Differenc|-0.08||||0.539|TWO_SIDED|95.0|-0.35|0.18|||Fisher Exact||"Percentage of treatment responders in PREOB® group is 60.9% ((14/23)\*100), compared with 69.2% ((18/26)\*100) in Placebo.~Difference in percentage is -8.3 Difference in treatment responders proportion: PREOB® (0.609) - Placebo (0.692) = -0.08"|||0.18|-0.35|0.539
92148257|NCT00939731|184182125|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|92.61|||||TWO_SIDED|90.0|84.84|101.09||||||Natural log transformed AUClast of PF-02341066 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||101.09|84.84|
92148258|NCT00939731|184182128|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|92.43|||||TWO_SIDED|90.0|84.86|100.68||||||Natural log transformed AUC (0-∞) of PF-02341066 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||100.68|84.86|
92148259|NCT00939731|184182129|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|98.91|||||TWO_SIDED|90.0|90.18|108.48||||||Natural log transformed Cmax of PF-02341066 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CI for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||108.48|90.18|
92148260|NCT01392300|184182132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA|||||-0.3|-0.7|<0.001
92148261|NCT01392300|184182133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.11||0.003|TWO_SIDED|95.0|0.1|0.5|||ANCOVA|||||0.5|0.1|0.003
92148262|NCT01392300|184182134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.28|||<|0.001|TWO_SIDED|95.0|2.43|7.52|||Regression, Logistic|||||7.52|2.43|<0.001
92148263|NCT01392300|184182135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.69|||<|0.001|TWO_SIDED|95.0|1.56|4.63|||Regression, Logistic|||||4.63|1.56|<0.001
92148264|NCT01392300|184182136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.48||||0.004|TWO_SIDED|95.0|1.33|4.61|||Regression, Logistic|||||4.61|1.33|0.004
92148265|NCT01392300|184182137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.13|||<|0.001|TWO_SIDED|95.0|1.76|5.57|||Regression, Logistic|||||5.57|1.76|<0.001
92148266|NCT01392300|184182138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||0.021|TWO_SIDED|95.0|1.1|3.34|||Regression, Logistic|||||3.34|1.10|0.021
92148267|NCT01392300|184182139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.58||||0.006|TWO_SIDED|95.0|1.32|5.05|||Regression, Logistic|||||5.05|1.32|0.006
92148268|NCT01392300|184182140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.72|||<|0.001|TWO_SIDED|95.0|2.06|6.72|||Regression, Logistic|||||6.72|2.06|<0.001
92148269|NCT01392300|184182141|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.002|TWO_SIDED|95.0|1.4|4.46|||Regression, Logistic|||||4.46|1.40|0.002
92396264|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.75||0.0186|TWO_SIDED|95.0|-3.25|-0.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.30|-3.25|0.0186
92148270|NCT01392300|184182142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.102|TWO_SIDED|95.0|0.9|3.22|||Regression, Logistic|||||3.22|0.90|0.102
92148271|NCT01392300|184182143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.95|||<|0.001|TWO_SIDED|95.0|1.67|5.23|||Regression, Logistic|||||5.23|1.67|<0.001
92148272|NCT01392300|184182144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.46||||0.002|TWO_SIDED|95.0|1.37|4.41|||Regression, Logistic|||||4.41|1.37|0.002
92148273|NCT01392300|184182145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87||||0.069|TWO_SIDED|95.0|0.95|3.69|||Regression, Logistic|||||3.69|0.95|0.069
92148274|NCT01392300|184182146|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05||||0.034|TWO_SIDED|95.0|1.05|4.0|||Regression, Logistic|||||4.00|1.05|0.034
92148275|NCT01392300|184182147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.169|TWO_SIDED|95.0|0.82|3.16|||Regression, Logistic|||||3.16|0.82|0.169
92148276|NCT01392300|184182148|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.92|TWO_SIDED|95.0|0.49|2.18|||Regression, Logistic|||||2.18|0.49|0.920
92148277|NCT01392300|184182149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.56|||<|0.001|TWO_SIDED|95.0|1.83|6.91|||Regression, Logistic|||||6.91|1.83|<0.001
92148278|NCT01392300|184182150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.41||||0.007|TWO_SIDED|95.0|1.28|4.56|||Regression, Logistic|||||4.56|1.28|0.007
92148279|NCT01392300|184182151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.26||||0.018|TWO_SIDED|95.0|1.15|4.41|||Regression, Logistic|||||4.41|1.15|0.018
92148280|NCT01392300|184182152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|||||-0.2|-0.5|<0.001
92148281|NCT01392300|184182153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.011|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|||||-0.1|-0.4|0.011
92148282|NCT01392300|184182154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.032|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.032
92148283|NCT01392300|184182155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.6|-0.2|||ANCOVA|||||-0.2|-0.6|<0.001
92148284|NCT01392300|184182156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|||||-0.1|-0.5|<0.001
92148285|NCT01392300|184182157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.029|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.029
92148286|NCT01392300|184182158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|||||-0.2|-0.5|<0.001
92148287|NCT01392300|184182159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.019|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.019
92148288|NCT01392300|184182160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.137|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.137
92148289|NCT01392300|184182161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.013|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.013
92148290|NCT01392300|184182162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.131|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.131
92148291|NCT01392300|184182163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.714|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.714
92148292|NCT01392300|184182164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|||||-0.2|-0.5|<0.001
92148293|NCT01392300|184182165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.008|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|||||-0.1|-0.4|0.008
92148294|NCT01392300|184182166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.062|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.062
92148295|NCT01392300|184182167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.006|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|||||-0.1|-0.4|0.006
92148296|NCT01392300|184182168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.076|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.076
92148297|NCT01392300|184182169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.416|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.416
92148298|NCT01392300|184182170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|||||-0.1|-0.4|<0.001
92148299|NCT01392300|184182171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.175|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.175
92148300|NCT01392300|184182172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.14|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.140
92148301|NCT01392300|184182173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.007|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|||||-0.1|-0.4|0.007
92148302|NCT01392300|184182174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.018|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.018
92148303|NCT01392300|184182175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.105|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.105
92148304|NCT01392300|184182176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.016|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.016
92148305|NCT01392300|184182177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.014|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.014
92148306|NCT01392300|184182178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.22|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.220
92148307|NCT01392300|184182179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.429|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.429
92148308|NCT01392300|184182180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.884|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|||||0.2|-0.2|0.884
92148309|NCT01392300|184182181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.844|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|||||0.2|-0.2|0.844
92148310|NCT02487498|184182182|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit (LL) of the 97.5% one -sided confidence interval (CI) \> -20 mL|Mean Difference (Net)|-0.0182|STANDARD_ERROR_OF_MEAN|0.00813||0.415|TWO_SIDED|95.0|-0.0342|-0.0023|||Linear Mixed Model|||Ho: QVA149 27.5/12.5 μg b.i.d. is inferior to umeclidinium/vilanterol 62.5/25 μg q.d; Ha: QVA149 27.5/12.5 μg b.i.d. is non-inferior to umeclidinium/vilanterol 62.5/25 μg q.d.||-0.0023|-0.0342|0.415
92148311|NCT02487498|184182183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0182|STANDARD_ERROR_OF_MEAN|0.00813|||TWO_SIDED|95.0|-0.0342|-0.0023||||||||-0.0023|-0.0342|
92148312|NCT02487498|184182184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0091|STANDARD_ERROR_OF_MEAN|0.01132|||TWO_SIDED|95.0|-0.0313|0.0131||||||||0.0131|-0.0313|
92148313|NCT02487498|184182185|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0086|STANDARD_ERROR_OF_MEAN|0.00874|||TWO_SIDED|95.0|-0.0086|0.0258||||||||0.0258|-0.0086|
92148314|NCT00755222|184182191|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|||||||0.001
92148315|NCT00755222|184182192|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||ANOVA|||||||0.046
92148316|NCT00755222|184182193|SUPERIORITY_OR_OTHER|||||||0.164|||||||ANOVA|||||||0.164
92148317|NCT00755222|184182194|SUPERIORITY_OR_OTHER|||||||0.442|||||||ANOVA|||||||0.442
92148318|NCT00755222|184182195|SUPERIORITY_OR_OTHER|||||||0.095|||||||ANOVA|||||||0.095
92148319|NCT02228967|184182209|OTHER||||||=|0.274||||||A priori threshold for statistical significance was 0.05|Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.274
92148320|NCT02228967|184182210|OTHER||||||=|0.083|||||||Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.083
92148321|NCT02228967|184182211|OTHER||||||=|0.028|||||||Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.028
92148322|NCT02228967|184182212|OTHER||||||=|0.708|||||||Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.708
92148323|NCT02228967|184182213|OTHER||||||=|0.197||||||A priori threshold for statistical significance was 0.05.|Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tets (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.197
92148324|NCT02228967|184182214|OTHER||||||=|0.023||||||A priori threshold for statistical significance was 0.05.|Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.023
92148325|NCT02228967|184182215|OTHER||||||<|0.001||||||A priori threshold for statistical significance was 0.05.|Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||<0.001
92148326|NCT02228967|184182216|OTHER||||||=|0.348||||||A priori threshold for statistical significance was 0.05.|Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparison tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare means differences at follow-up.||||=0.348
92148327|NCT02228967|184182217|OTHER||Mean Difference (Final Values)|0.345|STANDARD_ERROR_OF_MEAN|0.203||0.091|TWO_SIDED|||||A priori threshold for statistical significance was 0.05.|Repeated Measures GLM|||Data were analyzed using a GLM repeated measures approach. A priori means comparison tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare means differences at follow-up.||||0.091
92396265|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.75||0.0024|TWO_SIDED|95.0|-3.77|-0.82||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.82|-3.77|0.0024
92148328|NCT02228967|184182218|OTHER||Mean Difference (Net)|0.393|STANDARD_ERROR_OF_MEAN|0.362||0.278|TWO_SIDED|||||A priori alpha set at 0.05|Repeated Measures GLM|||Data were analyzed using a GLM repeated measures approach. A priori means comparison tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare means differences at follow-up.||||.278
92148329|NCT02228967|184182219|OTHER||Mean Difference (Net)|3.163|STANDARD_ERROR_OF_MEAN|1.44||0.029|TWO_SIDED|||||A priori alpha set at 0.05.|Repeated Measures GLM|||Data were analyzed using a GLM repeated measures approach. A priori means comparison tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare means differences at follow-up.||||0.029
92148330|NCT02228967|184182220|OTHER||Mean Difference (Net)|-0.015||||0.897|TWO_SIDED|||||A priori alpha set at 0.05.|Repeated Measures GLM|||Data were analyzed using a GLM repeated measures approach. A priori means comparison tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare means differences at follow-up.||||0.897
92148331|NCT02228967|184182221|OTHER|||||||0.15|||||||Linear mixed effects|||Linear mixed-effects models were used to analyze 5 pooled datasets derived from multiple imputation for intent to treat analyses.||||0.15
92148332|NCT02228967|184182222|OTHER|||||||0.2||||||A priori alpha set at 0.05.|Linear mixed effects|||Linear mixed-effects models were used to analyze 5 pooled datasets derived from multiple imputation for intent to treat analyses.||||0.20
92148333|NCT02228967|184182223|OTHER|||||||0.38||||||A priori alpha set at 0.05.|Linear mixed effects|||Linear mixed-effects models were used to analyze 5 pooled datasets derived from multiple imputation for intent to treat analyses.||||0.38
92148334|NCT02228967|184182224|OTHER|A priori alpha set at 0.05||||||0.48|||||||Linear mixed effects|||Linear mixed-effects models were used to analyze 5 pooled datasets derived from multiple imputation for intent to treat analyses.||||0.48
92148335|NCT02228967|184182225|OTHER|A priori alpha set at 0.05.||||||0.09|||||||Linear mixed effects|||Linear mixed-effects models were used to analyze 5 pooled datasets derived from multiple imputation for intent to treat analyses.||||0.09
92148336|NCT02228967|184182226|OTHER|||||||0.08|||||||Linear mixed effects|||A priori alpha set at 0.05||||0.08
92148337|NCT02228967|184182227|OTHER|||||||0.11|||||||Linear mixed effects|||A priori alpha set at 0.05||||0.11
92148338|NCT02228967|184182228|OTHER|||||||0.84|||||||Linear mixed effects|||A priori alpha set at 0.05||||0.84
92148339|NCT02466646|184182242|OTHER||Mean Difference (Net)|0.3|||<|0.01|TWO_SIDED|||||The threshold for statistical significance was p=0.05|Kruskal-Wallis|||||||<0.01
92148340|NCT02466646|184182243|OTHER||Mean Difference (Net)|2.0|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was P=0.05|Kruskal-Wallis|||||||>0.05
92148341|NCT02466646|184182244|OTHER|||||||0.229||||||Threshold for statistical significance is p=0.05.|Kruskal-Wallis|||||||0.229
92148342|NCT02466646|184182245|OTHER|||||||0.28||||||Threshold for statistical significance is p=0.05.|Kruskal-Wallis|||||||0.280
92148343|NCT02466646|184182246|OTHER|||||||0.712|||||||Kruskal-Wallis|Threshold for statistical significance is p=0.05.||||||0.712
92148344|NCT02466646|184182247|OTHER|||||||0.674||||||The threshold for statistical significance is p=0.05.|Kruskal-Wallis|||||||0.674
92148345|NCT02466646|184182248|OTHER||Mean Difference (Net)|30.0||||0.006|TWO_SIDED|||||The threshold for statistical significance was p=0.05|Kruskal-Wallis|||||||0.006
92148346|NCT02466646|184182249|OTHER||Mean Difference (Net)|0.5||||0.373|TWO_SIDED||||||Kruskal-Wallis|||||||0.373
92210060|NCT05754333|184320408|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 4||||
92210061|NCT05754333|184320409|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 2||||
92210062|NCT05754333|184320409|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 3||||
92210063|NCT05754333|184320409|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|0.5|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 4||||
92210064|NCT05754333|184320410|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-m in WL score of the ureter of interest (left; right) for each participant.|For reader 2||||
92210065|NCT05754333|184320410|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|For reader 3||||
92210066|NCT05754333|184320410|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|For reader 4||||
92210067|NCT05754333|184320411|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 2||||
92210068|NCT05754333|184320411|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 3||||
92210069|NCT05754333|184320411|SUPERIORITY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.5|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 4||||
92210070|NCT05754333|184320412|SUPERIORITY||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 2||||
92210071|NCT05754333|184320412|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 3||||
92210072|NCT05754333|184320412|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 4||||
92148347|NCT02466646|184182250|OTHER||Mean Difference (Net)|0.6||||0.528|TWO_SIDED||||||Kruskal-Wallis|||||||0.528
92148348|NCT02466646|184182251|OTHER||Mean Difference (Net)|1.0||||0.208|TWO_SIDED||||||Kruskal-Wallis|||||||0.208
92148349|NCT02466646|184182252|OTHER|||||||0.051|||||||Kruskal-Wallis|||||||0.051
92148350|NCT02466646|184182253|OTHER|||||||0.647||||||The threshold for statistical significance is p=0.05.|Kruskal-Wallis|||||||0.647
92148351|NCT03261271|184182254|SUPERIORITY|||||||0.6489||||||P value less than 0.05 was considered statistically significant.|Mixed Models Analysis|||||||0.6489
92148352|NCT03261271|184182255|SUPERIORITY|||||||0.0323|||||||Mixed Models Analysis|||||||0.0323
92148353|NCT03261271|184182256|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92148354|NCT03261271|184182257|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92148355|NCT03261271|184182258|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||Difference between groups from Baseline to Study End.||||0.09
92148356|NCT03261271|184182258|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||Difference between groups from baseline to pre-surgery.||||0.04
92148357|NCT02173054|184182259|SUPERIORITY_OR_OTHER|||||||0.001||||||This statistical analysis was used to compare number of participants who had erythema among 3 groups.|Kruskal-Wallis|||||||0.001
92210073|NCT05754333|184320413|SUPERIORITY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|For reader 2||||
92210074|NCT05754333|184320413|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|For reader 3||||
92210075|NCT05754333|184320413|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|For reader 4||||
92210076|NCT05754333|184320414|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.2|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 2||||
92273025|NCT05180630|184448333|OTHER|||||||0.154||||||When p-value is adjusted for multiple comparisons, the level of statistical significance must be \</= to 0.01666667 (.05/3).|ANOVA|||Treatment order was not analyzed. A repeated measures ANOVA was performed to compare the effect of the coupling conditions on sound quality ratings for own voice, but there was no analysis between groups.||||0.154
92210077|NCT05754333|184320414|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.2|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 3||||
92210078|NCT05754333|184320414|SUPERIORITY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.2|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 4||||
92210079|NCT00879762|184320420|NON_INFERIORITY|The non-inferiority margin is 2.5. Non-inferiority of Group B is concluded if the upper limit of the 95% confidence interval for the hazard ratio is less than 2.5.|Hazard Ratio (HR)|0.587|||||TWO_SIDED|95.0|0.398|0.868|||||A survival analysis for interval censored data was performed to estimate the hazard ratio. The 95% CI for the hazard ratio was estimated using bootstrap.|Null hypothesis: Median time to seroconversion among participants receiving one standard dose in Group B is 2.5-fold higher compared to participants receiving one high dose in Group A (hazard ratio = 2.5).||0.868|0.398|
92210080|NCT00879762|184320421|NON_INFERIORITY|The non-inferiority margin is 2.5. Non-inferiority of Group B is concluded if the upper limit of the 95% confidence interval for the hazard ratio is less than 2.5.|Hazard Ratio (HR)|0.583|||||TWO_SIDED|95.0|0.384|0.853|||||A survival analysis for interval censored data was performed to estimate the hazard ratio. The 95% CI for the hazard ratio was estimated using bootstrap.|Null hypothesis: Median time to seroconversion among participants receiving one standard dose in Group B is 2.5-fold higher compared to participants receiving one high dose in Group A (hazard ratio = 2.5).||0.853|0.384|
92210081|NCT00879762|184320427|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group B is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2.5 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|-0.2|0.97|||||Estimate and corresponding 95% confidence interval are calculated on the log2.5 scale.|Null hypothesis: The mean difference in log2.5 transformed peak titers between Group A and Group B \>= 1.||0.97|-0.20|
92210082|NCT00879762|184320428|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group B is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2.5 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|0.42|||||TWO_SIDED|95.0|-0.17|1.0|||||Estimate and corresponding 95% confidence interval are calculated on the log2.5 scale.|Null hypothesis: The mean difference in log2.5 transformed peak titers between Group A and Group B \>= 1.||1.00|-0.17|
92210083|NCT03581825|184320500|SUPERIORITY|Statistically superiority was concluded if the lower limit of the confidence intervals of the Test lens are greater than 40 points.|Least-Square Mean|56.3|STANDARD_ERROR_OF_MEAN|2.55|||TWO_SIDED|95.0|51.2|61.4|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||61.4|51.2|
92210084|NCT03581825|184320501|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control was concluded if the lower confidence limit of LSM difference was above the non-inferiority margin -5.|Least-Square Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-0.5|7.4|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test minus Control|||7.4|-0.5|
92210085|NCT00529958|184320511|EQUIVALENCE|The sample size calculation was based on 88 ACL-deficient patients with surgical intervention and an ACL-QOL score of 74.5 (SD=20.1) at a mean 39-month follow-up, a minimal clinically important difference of 10 points, power=0.80 and p=0.05.|||||<|0.05||||||A Bonferroni adjustment for multiple comparisons was used in the sample size calculation, resulting in 90 patients per group. With a 20% lost-to-follow-up rate, the final sample size was 108 patients per group for a total of 324 patients.|Mixed Models Analysis|||"All patients were analyzed on an intention-to-treat basis using a 5% significance level for all analyses. The ACL-QOL scores for each study group were analyzed using adjusted Bonferroni comparisons and repeated-measures analyses, using a mixed-model analysis of variance for treatment group over time of assessment."||||<0.05
92210086|NCT03756129|184320524|SUPERIORITY||Median Difference (Net)|-8.25||||0.0013|TWO_SIDED|80.0|-11.67|-4.83|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: Pooled MIJ821 0.16 mg/kg minus placebo. The MIJ821 treatment arms vs placebo are primary."||-4.83|-11.67|0.0013
92210087|NCT03756129|184320524|SUPERIORITY||Mean Difference (Net)|-5.71||||0.0196|TWO_SIDED|80.0|-9.22|-2.2|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: Pooled MIJ821 0.32 mg/kg minus placebo. The MIJ821 treatment arms vs placebo are primary."||-2.20|-9.22|0.0196
92210088|NCT03756129|184320525|SUPERIORITY||Mean Difference (Net)|-7.06||||0.013|TWO_SIDED|80.0|-11.06|-3.06|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: Pooled MIJ821 0.16 mg/kg minus placebo."||-3.06|-11.06|0.0130
92210089|NCT03756129|184320525|SUPERIORITY||Median Difference (Net)|-7.37||||0.0133|TWO_SIDED|80.0|-11.57|-3.18|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: Pooled MIJ821 0.32 mg/kg minus placebo."||-3.18|-11.57|0.0133
92210090|NCT03756129|184320526|SUPERIORITY||Mean Difference (Net)|-5.09||||0.1082|TWO_SIDED|80.0|-10.37|0.19|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: MIJ821 0.16 mg/kg weekly minus placebo."||0.19|-10.37|0.1082
92210091|NCT03756129|184320526|SUPERIORITY||Mean Difference (Net)|-5.42||||0.0993|TWO_SIDED|80.0|-10.83|-0.02|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: MIJ821 0.32 mg/kg weekly minus placebo."||-0.02|-10.83|0.0993
92210092|NCT03756129|184320526|SUPERIORITY||Mean Difference (Net)|-6.46||||0.0598|TWO_SIDED|80.0|-11.78|-1.15|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: MIJ821 0.16 mg/kg biweekly minus placebo."||-1.15|-11.78|0.0598
92273026|NCT00709735|184448335|SUPERIORITY||Mean Difference (Final Values)|-13.0|||||TWO_SIDED|95.0|-30.0|4.0|||||Non-Reactivation Propranolol (NRP) - Reactivation Propranolol (RP)|||4.0|-30.0|
92273027|NCT00709735|184448336|SUPERIORITY||Mean Difference (Final Values)|-12.7|||||TWO_SIDED|95.0|-27.4|1.9|||||Non-Reactivation Propranolol (NRP) - Reactivation Propranolol (RP)|||1.9|-27.4|
92273028|NCT00190684|184448355|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for systolic BP|Wilcoxon signed-rank test|Change = endpoint-baseline||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92210093|NCT03756129|184320526|SUPERIORITY||Mean Difference (Net)|-3.06||||0.2491|TWO_SIDED|80.0|-8.86|2.74|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: MIJ821 0.32 mg/kg biweekly minus placebo."||2.74|-8.86|0.2491
92210094|NCT01315353|184320553|SUPERIORITY|Confidence interval estimation was stratified by ART use at screening using Greenwood's variance with the inverse of this variance used for the stratum weights.|Cumulative rate difference|1.7|||||ONE_SIDED|95.0|-7.9||||||The lower bound of the (lower) one-sided 95% confidence interval was provided.|Treatment comparison was made using the difference (arm B - arm A) in the stratified Kaplan-Meier estimate for the week 130 cumulative rate of CIN2+ with 95% one-sided confidence interval.|||-7.9|
92210095|NCT01315353|184320554|OTHER|||||||0.94||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05.|Log Rank|Log-rank test was stratified by ART use at screening.||Null Hypothesis: There is no difference between Arm A and Arm B with respect to time to CIN2+.||||0.94
92210096|NCT01315353|184320555|OTHER||Cumulative rate difference|4.4|||||TWO_SIDED|95.0|-4.8|13.6|||||Confidence interval estimation was stratified by ART use at screening using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (arm B - arm A) in the stratified Kaplan-Meier estimate for the week 130 cumulative rate of CIN3+ with 95% two-sided confidence interval.||13.6|-4.8|
92210097|NCT01315353|184320556|OTHER|||||||0.445||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05.|Fisher Exact|||Null hypothesis: There is no difference between Arm A and Arm B with respect to rate of premature study discontinuation.||||0.445
92210098|NCT01315353|184320557|OTHER|||||||1||||||P-value for the week 26 comparison. The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05.|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with abnormal cervical cytology results at week 26.||||1.000
92210099|NCT01315353|184320557|OTHER|||||||0.279||||||"P-value for the week 52 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between the Arm A and Arm B with respect to the proportion of participants with abnormal cervical cytology results at week 52.||||0.279
92210100|NCT01315353|184320557|OTHER|||||||0.781||||||"P-value for the week 78 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with abnormal cervical cytology results at week 78.||||0.781
92210101|NCT01315353|184320557|OTHER|||||||0.375||||||"P-value for the week 104 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with abnormal cervical cytology results at week 104.||||0.375
92210102|NCT01315353|184320557|OTHER|||||||0.444||||||"P-value for the week 130 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with abnormal cervical cytology results at week 130.||||0.444
92210103|NCT01315353|184320558|OTHER|||||||0.132||||||"P-value for the week 26 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with hr-HPV at week 26.||||0.132
92210104|NCT01315353|184320559|OTHER|||||||0.227||||||"P-value for the week 26 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with hr-HPV at week 26.||||0.227
92210105|NCT01315353|184320560|OTHER|||||||1||||||"P-value for the week 26 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with hr-HPV at week 26.||||1.000
92210106|NCT03319849|184320577|SUPERIORITY||Median Difference (Final Values)|-0.049|STANDARD_ERROR_OF_MEAN|0.0206||0.0186|TWO_SIDED|95.0|-0.089|-0.0082|||Mixed Models Analysis|||||-0.0082|-0.0890|0.0186
92210107|NCT00112047|184320596|NON_INFERIORITY_OR_EQUIVALENCE|Assuming 70% response rate for each group at Week 48, 500 participants (250 per group) were sufficient to achieve at least 85% power to establish non-inferiority between the 2 study groups with a delta of 13%. The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in percentages|11.4||||0.002|TWO_SIDED|95.0|4.3|18.6||The difference and 95% CI are stratum-weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from the Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the percentage of responders (who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 48 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the percentage of responders who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 48 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||18.6|4.3|0.002
92227266|NCT00254566|184356766|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be declared if the lower bound of the 95% CI around the difference in clinical success rates is greater than -10%|Risk Difference (RD)|-2.5||||||95.0|-8.5|3.4|||||Risk difference is the difference in percentage of participants with cure and the 95% Confidence|95% CI for the difference in cure rates will be constructed using a method of linear stratification that weights according to the reciprocal of the variance. Stratification will be by steroid use at time of randomization.||3.4|-8.5|
92273029|NCT00190684|184448355|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for diastolic BP|Wilcoxon sign-rank test|Change = endpoint-baseline||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92210108|NCT00112047|184320597|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in percentages|9.1||||0.021|TWO_SIDED|95.0|1.6|16.6||The difference and 95% CI are stratum-weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from the Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the percentage of responders (who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 48 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the percentage of responders who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 48 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||16.6|1.6|0.021
92210109|NCT00112047|184320598|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in percentages|11.2||||0.004|TWO_SIDED|95.0|3.7|18.6||The difference and 95% CI are stratum-weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from the Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made||Null hypothesis: The percentage of participants with HIV-1 RNA \< 400 c/mL at Week 48 in the EFV+FTC+TDF group is more than 13% worse than the CBV+EFV group. Alternative hypothesis: The percentage of participants with HIV-1 RNA \< 400 c/mL at Week 48 in the EFV+FTC+TDF group is no more than 13% worse than the CBV+EFV group.||18.6|3.7|0.004
92210110|NCT00112047|184320599|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in percentages|7.9||||0.058|TWO_SIDED|95.0|0.1|15.6||The difference and 95% CI are stratum-weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from the Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||Null hypothesis: The percentage of participants with HIV-1 RNA \< 50 c/mL at Week 48 in the EFV+FTC+TDF group is more than 13% worse than the CBV+EFV group. Alternative hypothesis: The percentage of participants with HIV-1 RNA \< 50 c/mL at Week 48 in the EFV+FTC+TDF group is no more than 13% worse than the CBV+EFV group.||15.6|0.1|0.058
92210111|NCT00112047|184320600|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||The distribution of time to loss-of-virologic response was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with Loss of Virologic Response through Week 48 is equal between the two treatment groups. Alternative hypothesis: The percentage of participants with Loss of Virologic Response through Week 48 is different between the two treatment groups.||||0.003
92210112|NCT00112047|184320601|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||The distribution of time to loss-of-virologic response was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null hypothesis: The percentage of participants with Loss of Virologic Response through Week 48 is equal between the two treatment groups. Alternative hypothesis: The percentage of participants with Loss of Virologic Response through Week 48 is different between the two treatment groups.||||0.046
92210113|NCT00112047|184320602|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 48 is equal for the 2 treatment groups. Alternative Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 48 is different between the 2 treatment groups.||||0.026
92210114|NCT00112047|184320603|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 50 c/mL) through Week 48 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 50 c/mL) through Week 48 for the EFV+FTC+TDF and CBV+EFV groups are different.||||0.063
92210115|NCT00112047|184320604|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.31|TWO_SIDED|95.0|-0.16|0.06||The change from baseline to Week 48 in HIV-1 RNA was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference. P-value is from stratum-weighted Van Elteren test.|Van Elteren|No other adjustments were made.||Null Hypothesis: Changes from baseline through Week 48 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline through Week 48 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are different.||0.06|-0.16|0.31
92210116|NCT00112047|184320605|SUPERIORITY_OR_OTHER||stratum-weighted difference|31.74||||0.002||95.0|8.96|54.52||The change from baseline to Week 48 in HIV-1 RNA was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference. P-value is from stratum weighted Van Elteren test.|Van Elteren|No other adjustments were made.||Null Hypothesis: Changes from baseline through Week 48 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline through Week 48 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are different.||54.52|8.96|0.002
92227031|NCT00670007|184356107|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.371|||=|0.823|TWO_SIDED|95.0|-1.159|0.417||A 1-sided P-value \< 0.025 and a positive estimate of the treatment difference Early Start minus Delayed Start (ie, the lower bound of the 95% CI being \> zero) will indicate superiority of Early Start compared with Delayed Start.|Regression, Linear|||Analysis of the annual rate of change in lung density (for TLC) was a linear random regression model with country, time since Day 1 \[CE1226\_4001\], and treatment-by-time interaction as fixed effects and subject and subject-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||0.417|-1.159|= 0.823
92210117|NCT00112047|184320606|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in percentages|12.7||||0.004|TWO_SIDED|95.0|4.3|21.1||The difference and 95% CI are stratum weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from Cochran-Mantel-Haenszel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the percentage of responders (who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 96 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the percentage of responders who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 96 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||21.1|4.3|0.004
92210118|NCT00112047|184320607|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in proportions|6.4||||0.158|TWO_SIDED|95.0|-2.3|15.0||The difference and 95% CI are stratum weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from Cochran-Mantel-Haenszel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the percentage of responders (who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 96 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the percentage of responders who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 96 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||15.0|-2.3|0.158
92210119|NCT00112047|184320608|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||The distribution of time to loss-of-virologic response was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: Ther percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 400 c/mL) at Week 96 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 400 c/mL) at Week 96 for the EFV+FTC+TDF and CBV+EFV groups are different||||0.003
92210120|NCT00112047|184320609|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||The distribution of time to loss-of-virologic response was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 50 c/mL) through Week 96 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 50 c/mL) through Week 96 for the EFV+FTC+TDF and CBV+EFV groups are different||||0.124
92210121|NCT00112047|184320610|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 96 is equal for the 2 treatment groups. Alternative Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 96 is different between the 2 treatment groups.||||0.025
92210122|NCT00112047|184320611|SUPERIORITY_OR_OTHER|||||||0.41||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (HIV-1 RNA \< 50 c/mL) through Week 96 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with pure virological failure (HIV-1 RNA \< 50 c/mL) through Week 96 for the EFV+FTC+TDF and CBV+EFV groups are different||||0.41
92210123|NCT00112047|184320612|SUPERIORITY_OR_OTHER||stratum-weighted difference|-0.05||||0.45||95.0|-0.17|0.08||The change from baseline to Week 96 in HIV-1 RNA was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference.|Van Elteren|No other adjustments were made.||Null Hypothesis: Changes from baseline through Week 96 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline through Week 96 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are different.||0.08|-0.17|0.45
92210124|NCT00112047|184320613|SUPERIORITY_OR_OTHER||stratum-weighted difference|32.93||||0.036||95.0|0.87|64.99||The change from baseline to Week 96 in CD4 cell count was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference. P-value is from stratum weighted Van Elteren test.|Van Elteren|No other adjustments were made.||Null Hypothesis: Changes from baseline through Week 96 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline through Week 96 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are different.||64.99|0.87|0.036
92210125|NCT00112047|184320614|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The change from Week 48 to Week 96 in limb fat was compared between the 2 treatment groups; the P-value is from the Wilcoxon Rank Sum Test.|Wilcoxon Rank Sum Test|No other adjustments were made.||Null Hypothesis: Change from Week 48 to Week 96 in limb fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Change from Week 48 to Week 96 in limb fat for the EFV+FTC+TDF and CBV+EFV groups are not equal||||<0.001
92227267|NCT00254566|184356767|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.6||||||95.0|-4.5|3.3|||||Risk difference is the difference in eradication rates of pathogens by treatment|||3.3|-4.5|
92396266|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.76||0.0003|TWO_SIDED|95.0|-4.28|-1.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.30|-4.28|0.0003
92210126|NCT00112047|184320615|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||The change from Week 48 to Week 96 in trunk fat was compared between the 2 treatment groups; the P-value is from the Wilcoxon Rank Sum Test.|Wilcoxon Rank Sum test|No other adjustments were made.||Null Hypothesis: Changes from Week 48 to Week 96 in Trunk Fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from Week 48 to Week 96 in Trunk Fat for the EFV+FTC+TDF and CBV+EFV groups are different||||0.025
92210127|NCT00112047|184320616|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The change from Week 48 to Week 96 in trunk fat was compared between the 2 treatment groups; the P-value is from the Wilcoxon Rank Sum Test.|Wilcoxon Rank Sum test|No other adjustments were made.||Null Hypothesis: Changes from Week 48 to Week 96 in Total Body Fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from Week 48 to Week 96 in Total Body Fat for the EFV+FTC+TDF and CBV+EFV groups are different||||<0.001
92210128|NCT00112047|184320617|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in proportions|12.9||||0.004|TWO_SIDED|95.0|4.2|21.6||The difference and 95% CI are stratum weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from Cochran-Mantel-Haenzel test.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the proportion of responders (who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 144 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the proportion of responders who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 144 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||21.6|4.2|0.004
92210129|NCT00112047|184320618|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in proportions|8.1||||0.082|TWO_SIDED|95.0|-0.8|17.0||The difference and 95% CI are stratum weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from the Cochran-Mantel-Haenszel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the proportion of responders (who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 144 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the proportion of responders who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 144 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||17.0|-0.8|0.082
92210130|NCT00112047|184320619|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in proportions|11.6||||0.009||95.0|3.1|20.1||The difference and 95% CI are stratum weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||Null Hypothesis: The percentage of participants with HIV-1 RNA \< 400 c/mL at Week 144 in the EFV+FTC+TDF group is more than 13% worse than the CBV+EFV group. Alternative hypothesis: The percentage of participants with HIV-1 RNA \< 400 c/mL at Week 144 in the EFV+FTC+TDF group is no more than 13% worse than the CBV+EFV group.||20.1|3.1|0.009
92210131|NCT00112047|184320620|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in proportions|10.4||||0.019|TWO_SIDED|95.0|1.8|19.0||The p-value for the superiority test is from Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||Null hypothesis: The percentage of participants with HIV-1 RNA \< 50 c/mL at Week 144 in the EFV+FTC+TDF group is more than 13% worse than the CBV+EFV group. Alternative hypothesis: The percentage of participants with HIV-1 RNA \< 50 c/mL at Week 144 in the EFV+FTC+TDF group is no more than 13% worse than the CBV+EFV group.||19.0|1.8|0.019
92210132|NCT00112047|184320621|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||The distribution of loss of virological response was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 400 c/mL) through Week 144 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 400 c/mL) through Week 144 for the EFV+FTC+TDF and CBV+EFV groups are different||||0.003
92210133|NCT00112047|184320622|SUPERIORITY_OR_OTHER|||||||0.056||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 50 c/mL) through Week 144 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 50 c/mL) through Week 144 for the EFV+FTC+TDF and CBV+EFV groups are different||||0.056
92210134|NCT00112047|184320623|SUPERIORITY_OR_OTHER|||||||0.066||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 144 is equal for the 2 treatment groups. Alternative Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 144 is different between the 2 treatment groups||||0.066
92273030|NCT00190684|184448356|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for pulse|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92273031|NCT00190684|184448357|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for weight|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92210135|NCT00112047|184320624|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 50 c/mL) at Week 144 is equal for the 2 treatment groups. Alternative Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 50 c/mL) at Week 144 is different between the 2 treatment groups||||0.30
92396267|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.77||0.0003|TWO_SIDED|95.0|-4.3|-1.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.29|-4.30|0.0003
92210136|NCT00112047|184320625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.39|TWO_SIDED|95.0|-0.16|0.08||The change from baseline to Week 144 in HIV-1 RNA was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference. P-value is from a stratum weighted Van Elteren test.|Van Elteren|No other adjustments were made||Null Hypothesis: Changes from baseline to Week 144 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline to Week 144 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are different.||0.08|-0.16|0.39
92210137|NCT00112047|184320626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|41.3||||0.089|TWO_SIDED|95.0|4.05|78.55||The change from baseline to Week 144 in CD4 cell count was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference. P-value is from a stratum weighted Van Elteren test.|Van Elteren|No other adjustments were made||Null Hypothesis: Changes from baseline toWeek 144 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline to Week 144 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are different.||78.55|4.05|0.089
92210138|NCT00112047|184320627|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value is from the Wilcoxon Rank Sum Test|Wilcoxon Rank Sum test|No other adjustments were made||Null Hypothesis: Changes from Week 48 baseline to Week 144 in Limb Fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from Week 48 baseline to Week 144 in Limb Fat for the EFV+FTC+TDF and CBV+EFV groups are different||||0.001
92210139|NCT00112047|184320628|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value is from the Wilcoxon Rank Sum Test|Wilcoxon Rank Sum test|No other adjustments were made||Null Hypothesis: Changes from Week 48 baseline to Week 144 in Trunk Fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from Week 48 baseline to Week 144 in Trunk Fat for the EFV+FTC+TDF and CBV+EFV groups are different||||0.011
92210140|NCT00112047|184320629|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from the Wilcoxon Rank Sum Test|Wilcoxon Rank Sum test|No other adjustments were made||Null Hypothesis: Changes from Week 48 baseline to Week 144 in Total Body Fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from Week 48 baseline to Week 144 in Total Body Fat for the EFV+FTC+TDF and CBV+EFV groups are different||||<0.001
92210141|NCT00112047|184320639|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||P-value is from the Wilcoxon Signed Rank test. No adjustments for multiple comparisons were made|Wilcoxon Signed Rank test|||Null Hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) limb fat value is equal to zero. Alternative hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) limb fat value is not equal to zero.||||0.16
92210142|NCT00112047|184320640|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||P-value is from the Wilcoxon Signed Rank test. No adjustments for multiple comparisons were made|Wilcoxon Signed Rank test|||Null Hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) trunk fat value is equal to zero. Alternative hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) trunk fat value is not equal to zero.||||0.049
92210143|NCT00112047|184320641|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||P-value is from the Wilcoxon Signed Rank test. No adjustments for multiple comparisons were made|Wilcoxon Signed Rank test|||Null Hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) total body fat value is equal to zero. Alternative hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) total body fat value is not equal to zero.||||0.055
92210144|NCT00112047|184320642|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||"The number and proportion of participants in each category (very satisfied, not very satisfied) were summarized. The P-value for the category shift from Week 144 baseline within a treatment group was calculated using the McNemar test."|McNemar|||Null Hypothesis: There is no category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||<0.001
92210145|NCT00112047|184320643|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||"The number and proportion of participants in each category (very satisfied, not very satisfied) were summarized. The P-value for the category shift from Week 144 baseline within a treatment group was calculated using the McNemar test."|McNemar|||Null Hypothesis: There is no category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.12
92210146|NCT00112047|184320644|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||"The number and proportion of participants in each category (very satisfied, not very satisfied) were summarized. The P-value for the category shift from Week 144 baseline within a treatment group was calculated using the McNemar test."|McNemar|||Null Hypothesis: There is no category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.037
92210147|NCT00112047|184320645|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||"The number and proportion of participants in each category (very satisfied, not very satisfied) were summarized. The P-value for the category shift from Week 144 baseline within a treatment group was calculated using the McNemar test."|McNemar|||Null Hypothesis: There is no category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.013
92273032|NCT00190684|184448358|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for height|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92210148|NCT00112047|184320646|SUPERIORITY_OR_OTHER|||||||0.7||95.0||||"The number and proportion of participants in each category (bothers, does not bother) were summarized. The P-value for the category shift from Week 144 baseline within a treatment group was calculated using the McNemar test."|McNemar|||Null Hypothesis: There is no category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.70
92210149|NCT00112047|184320647|SUPERIORITY_OR_OTHER|||||||0.95||95.0||||P-value is from the Wilcoxon Signed Rank Test.|Wilcoxon Signed Rank Test|||Null Hypothesis: There is no change in the PCS score from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a change in the PCS score from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.95
92210150|NCT00112047|184320648|SUPERIORITY_OR_OTHER|||||||0.23||95.0||||P-value is from the Wilcoxon Signed Rank Test|Wilcoxon Signed Rank Test|||Null Hypothesis: There is no change in the MCS score from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a change in the MCS score from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.23
92210151|NCT00084266|184320687|NON_INFERIORITY_OR_EQUIVALENCE|The final p-value was compared against an O'Brien-Fleming boundary of 0.048.||||||0.042|TWO_SIDED||||||Chi-squared|||"Chi-squared test was used to calculate p-value. P-value was calculated for participants with clinical outcome as cure."||||0.042
92210152|NCT00084266|184320699|SUPERIORITY_OR_OTHER|||||||0.9344|TWO_SIDED||||||Log Rank|||Statistical comparison of survival analysis was performed.Log rank method was used to calculate p-value.||||0.9344
92210153|NCT00084266|184320700|SUPERIORITY_OR_OTHER|||||||0.5985|TWO_SIDED||||||Log Rank|||Statistical comparison of survival analysis was performed.Log rank method was used to calculate p-value.||||0.5985
92210154|NCT00084266|184320701|SUPERIORITY_OR_OTHER|||||||0.859|TWO_SIDED||||||Log Rank|||Statistical comparison of survival analysis was performed.Log rank method was used to calculate p-value.||||0.8590
92210155|NCT01215422|184320702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||>|0.05|ONE_SIDED|95.0|0.15||||Regression, Logistic||||||0.15|>0.05
92210156|NCT01215422|184320703|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||The p-value represents the comparison of the two interventions combined and compared against baseline for Grades III and IV summed together.|Fisher Exact|||||||0.03
92210157|NCT01215422|184320706|SUPERIORITY_OR_OTHER||R-squared|0.16|||>|0.05||95.0||||Correlation between years of experience (all anesthesiologists, pooled) and time to intubation (both GS and KS VLSs, pooled)|Correlation|||||||>0.05
92210158|NCT00420017|184320708|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.38||||0.02|TWO_SIDED|95.0|0.16|0.86|||Chi-squared|||||0.86|0.16|0.02
92210159|NCT00420017|184320709|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.31
92210160|NCT00420017|184320710|SUPERIORITY_OR_OTHER|||||||0.097||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.097
92210161|NCT00420017|184320711|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||Chi-squared|||||||0.66
92210162|NCT06336603|184320721|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||< .001
92210163|NCT06336603|184320722|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||< .001
92210164|NCT06336603|184320723|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||< .001
92210165|NCT00388453|184320730|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||.05
92210166|NCT01259726|184320802|SUPERIORITY_OR_OTHER_LEGACY||||||<=|0.0001|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||<=0.0001
92210167|NCT01259726|184320802|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||<0.0001
92210168|NCT01259726|184320802|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||<0.0001
92273033|NCT00190684|184448359|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for weight 0 to 25th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92210169|NCT01259726|184320803|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.088|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.088
92210170|NCT01259726|184320803|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.002|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.002
92210171|NCT01259726|184320803|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.088|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.088
92210172|NCT01259726|184320804|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.054|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.054
92210173|NCT01259726|184320804|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.008|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.008
92210174|NCT01259726|184320804|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.101|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.101
92210175|NCT01259726|184320805|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.045|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.045
92210176|NCT01259726|184320805|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.066|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.066
92210177|NCT01259726|184320805|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.045|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.045
92210178|NCT01211197|184320810|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|100.59|STANDARD_DEVIATION|7.6|||TWO_SIDED|90.0|95.75|105.67|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Ratio calculated as FDC fasted divided by individual tablets fasted.||105.67|95.75|
92273034|NCT00190684|184448359|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for weight 25th to 50th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92210179|NCT01211197|184320810|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|94.94|STANDARD_DEVIATION|8.0|||TWO_SIDED|90.0|89.85|100.33|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||100.33|89.85|
92210180|NCT01211197|184320811|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|99.31|STANDARD_DEVIATION|12.2|||TWO_SIDED|90.0|91.76|107.49|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fasted divided by individual tablets fasted||107.49|91.76|
92210181|NCT01211197|184320811|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|64.3|STANDARD_DEVIATION|20.6|||TWO_SIDED|90.0|55.97|73.87|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||73.87|55.97|
92210182|NCT01211197|184320812|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|100.94|STANDARD_DEVIATION|7.7|||TWO_SIDED|90.0|96.03|106.11|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fasted divided by individual tablets fasted||106.11|96.03|
92210183|NCT01211197|184320812|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|94.39|STANDARD_DEVIATION|8.2|||TWO_SIDED|90.0|89.22|99.87|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||99.87|89.22|
92210184|NCT01211197|184320813|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|103.13|STANDARD_DEVIATION|11.7|||TWO_SIDED|90.0|95.59|111.25|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fasted divided by individual tablets fasted||111.25|95.59|
92210185|NCT01211197|184320813|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|96.96|STANDARD_DEVIATION|15.5|||TWO_SIDED|90.0|87.23|107.78|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||107.78|87.23|
92210186|NCT01211197|184320814|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|102.15|STANDARD_DEVIATION|13.0|||TWO_SIDED|90.0|93.87|111.15|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fasted divided by individual tablets fasted||111.15|93.87|
92210187|NCT01211197|184320814|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|100.67|STANDARD_DEVIATION|13.7|||TWO_SIDED|90.0|91.7|110.51|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||110.51|91.70|
92210188|NCT01211197|184320815|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|103.49|STANDARD_DEVIATION|12.7|||TWO_SIDED|90.0|95.3|112.39|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fasted divided by individual tablets fasted||112.39|95.30|
92210189|NCT01211197|184320815|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|75.13|STANDARD_DEVIATION|24.5|||TWO_SIDED|90.0|63.68|88.64|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||88.64|63.68|
92210190|NCT01209780|184320883|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV if for all three strains the upper bound of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion control - Seroconversion investigational) at 21 days after last vaccination does not exceed 10 percentage points.|Vaccine group difference (%)|-1.0|||||TWO_SIDED|95.0|-4.0|2.0||||||Non-inferiority of investigational TIV to control TIV against A/H1N1 influenza strain||2|-4|
92210191|NCT01209780|184320883|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV if, for all three strains, the upper bound of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion control - Seroconversion investigational), at 21 days after last vaccination, does not exceed 10 percentage points|Vaccine group difference (%)|10.0|||||TWO_SIDED|95.0|6.0|14.0||||||Non-inferiority of investigational TIV to control TIV against A/H3N2 influenza strain||14|6|
92396268|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.76||0.0058|TWO_SIDED|95.0|-3.63|-0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.62|-3.63|0.0058
92210192|NCT01209780|184320883|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV if, for all three strains, the upper bound of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion control - Seroconversion investigational), at 21 days after last vaccination, does not exceed 10 percentage points|Vaccine group difference (%)|-1.0|||||TWO_SIDED|95.0|-5.0|3.0||||||Non-inferiority of investigational TIV to the control TIV against B influenza strain||3|-5|
92210193|NCT01209780|184320885|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV, if for all three strains, the upper bound of the two-sided 95% CI on the ratio of the GMTs (GMTcontrol/GMTinvestigational) at 21 days after last vaccination does not exceed 1.5|Ratio of GMTs|1.32|||||TWO_SIDED|95.0|1.11|1.56||||||Non-inferiority of investigational TIV to licensed control TIV against A/H1N1 influenza strain||1.56|1.11|
92396269|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.75||0.0008|TWO_SIDED|95.0|-4.04|-1.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.7|-4.04|0.0008
92210194|NCT01209780|184320885|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV, if for all three strains, the upper bound of the two-sided 95% CI on the ratio of the GMTs (GMTcontrol/GMTinvestigational) at 21 days after last vaccination does not exceed 1.5|Ratio of GMTs|1.48|||||TWO_SIDED|95.0|1.34|1.64||||||Non-inferiority of investigational TIV to licensed control TIV against A/H3N2 influenza strain||1.64|1.34|
92210195|NCT01209780|184320885|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV, if for all three strains, the upper bound of the two-sided 95% CI on the ratio of the GMTs (GMTcontrol/GMTinvestigational) at 21 days after last vaccination does not exceed 1.5|Ratio of GMTs|0.95|||||TWO_SIDED|95.0|0.85|1.07||||||Non-inferiority of investigational TIV to licensed control TIV against B influenza strain||1.07|0.85|
92210196|NCT05007808|184320897|SUPERIORITY|ANCOVA model with Change from Baseline to Week 4/EOT as the outcome (dependent) variable, treatment as the independent variable, and baseline score as covariate. The p-value was derived from the t-test for the comparison of adjusted LS means between the treatment groups.|LS Mean Difference|-0.19||||0.6742|TWO_SIDED|95.0|-1.081|0.701|||t-test, 2 sided|||||0.701|-1.081|0.6742
92210197|NCT02318797|184320920|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Treatment by time interaction test||||<0.0001
92210198|NCT02318797|184320920|SUPERIORITY|||||||0.0019|||||||Mixed Models Analysis|||Test for gender by treatment by time interaction||||0.0019
92210199|NCT02318797|184320921|SUPERIORITY|||||||0.4103|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.4103
92210200|NCT02318797|184320921|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for change over time from baseline (only conducted if treatment by time interaction test non-significant)||||<0.0001
92210201|NCT02318797|184320921|SUPERIORITY|||||||0.4068|||||||Mixed Models Analysis|||Test for gender by treatment by time interaction||||0.4068
92210202|NCT02318797|184320921|SUPERIORITY|||||||0.2656|||||||Mixed Models Analysis|||Test for gender by treatment interaction (only calculated if gender by treatment by time non-significant)||||0.2656
92210203|NCT02318797|184320922|SUPERIORITY|||||||0.4582|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.4582
92210204|NCT02318797|184320922|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for change over time from baseline (only conducted if treatment by time interaction test non-significant)||||<0.0001
92210205|NCT02318797|184320922|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Test for gender by treatment by time interaction||||0.05
92210206|NCT02318797|184320922|SUPERIORITY|||||||0.1792|||||||Mixed Models Analysis|||Test for gender by treatment interaction (only calculated if gender by treatment by time non-significant)||||0.1792
92210207|NCT02318797|184320923|SUPERIORITY|||||||0.2179|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.2179
92210208|NCT02318797|184320923|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for change over time from baseline (only conducted if treatment by time interaction test non-significant)||||<0.0001
92210209|NCT02318797|184320923|SUPERIORITY|||||||0.4797|||||||Mixed Models Analysis|||Test for gender by treatment by time interaction||||0.4797
92210210|NCT02318797|184320923|SUPERIORITY|||||||0.0014|||||||Mixed Models Analysis|||Test for gender by treatment interaction (only calculated if gender by treatment by time non-significant)||||0.0014
92210211|NCT02318797|184320924|SUPERIORITY|||||||0.0058|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.0058
92210212|NCT02318797|184320925|SUPERIORITY|||||||0.0014|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.0014
92210213|NCT02318797|184320926|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.0001
92210214|NCT02318797|184320927|SUPERIORITY|||||||0.5566|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.5566
92210215|NCT02318797|184320927|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for change over time (only calculated if treatment by time interaction non-significant)||||<0.0001
92210216|NCT02318797|184320928|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.002
92210217|NCT02318797|184320929|SUPERIORITY|||||||0.0029|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.0029
92210218|NCT02318797|184320930|SUPERIORITY|||||||0.0021|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.0021
92210219|NCT02318797|184320931|SUPERIORITY|||||||0.1183|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.1183
92210220|NCT02318797|184320931|SUPERIORITY|||||||0.0569|||||||Mixed Models Analysis|||Test for change over time (only calculated if treatment by time interaction non-significant)||||0.0569
92210221|NCT02318797|184320932|SUPERIORITY|||||||0.0745|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.0745
92210222|NCT02318797|184320932|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for change over time (only calculated if treatment by time interaction non-significant)||||<0.0001
92210223|NCT02318797|184320933|SUPERIORITY|||||||0.1653|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.1653
92210224|NCT02318797|184320933|SUPERIORITY|||||||0.1772|||||||Mixed Models Analysis|||Test for change over time (only calculated if treatment by time interaction non-significant)||||0.1772
92210225|NCT02318797|184320934|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for treatment by time interaction||||<0.0001
92210226|NCT02318797|184320935|SUPERIORITY|||||||0.0202|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.0202
92210227|NCT02318797|184320936|SUPERIORITY|||||||0.4715|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.4715
92210228|NCT02318797|184320936|SUPERIORITY|||||||0.9209|||||||Mixed Models Analysis|||Test for change over time (only calculated if treatment by time interaction non-significant)||||0.9209
92210229|NCT00926211|184320973|NON_INFERIORITY_OR_EQUIVALENCE|Initial planned sample size of 26 would provide approximately 90% power if the survival rate in the implanted transected follicles is at least 40%. Sample size used was 36 with 35 participants completing the 9 month study.|Mean Difference (Net)|-1.4|STANDARD_DEVIATION|15.5||0.023|ONE_SIDED|97.5||3.9||t-test comparison to the upper limit of the non-inferiority margin|t-test, 1 sided|Paired t-test compared to the non-inferiority margin of 4 follicles.|The number of implanted hairs surviving that were harvested using the computer assisted method was subtracted from the number of implanted hairs surviving that were harvested manually.|The hypothesis to be tested is one of non-inferiority. Tests of non-inferiority are one-sided tests and the significance level will be 0.025.||3.9||0.023
92210230|NCT00926211|184320974|NON_INFERIORITY_OR_EQUIVALENCE|Study was powered for the primary efficacy outcome.|Mean Difference (Final Values)|0.045|STANDARD_DEVIATION|0.146|<|0.001|ONE_SIDED|97.5|-0.004||||t-test, 1 sided|Paired t-test.||Paired data with each subject as their own control (treatment was randomly assigned to the left or right side of the scalp). Paired difference was analyzed.|||-.004|<0.001
92210231|NCT01242800|184320975|SUPERIORITY|||||||0.32|||||||Log Rank|Stratified log rank test was used for arm comparison||||||0.32
92210232|NCT00511901|184320993|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.7||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.02
92210233|NCT00511901|184320994|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8||||1||95.0|||||Wilcoxon (Mann-Whitney)|||FIM at 3 weeks||||1.00
92210234|NCT00511901|184320994|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.3||||0.17||95.0|||||Wilcoxon (Mann-Whitney)|||FIM at 8 weeks||||0.17
92210235|NCT00511901|184320994|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.59||95.0|||||Wilcoxon (Mann-Whitney)|||FIM at 12 weeks||||0.59
92210236|NCT00511901|184320995|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3||||0.21||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.21
92210237|NCT00511901|184320996|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.66||95.0|||||Wilcoxon (Mann-Whitney)|||Grip strength at 3 weeks||||0.66
92210238|NCT00511901|184320996|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||1||95.0|||||Wilcoxon (Mann-Whitney)|||Grip strength at 8 weeks||||1.00
92210239|NCT00511901|184320996|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6||||0.53||95.0|||||Wilcoxon (Mann-Whitney)|||Grip strength at 12 weeks||||0.53
92210240|NCT00511901|184320997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.96||95.0|||||Wilcoxon (Mann-Whitney)|||SPPB at 3 weeks||||0.96
92210241|NCT00511901|184320997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||1||95.0|||||Wilcoxon (Mann-Whitney)|||SPPB at 8 weeks||||1.00
92210242|NCT00511901|184320997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.66||95.0|||||Wilcoxon (Mann-Whitney)|||SPPB at 12 weeks||||0.66
92210243|NCT00511901|184320998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.64||95.0|||||Wilcoxon (Mann-Whitney)|||FACIT at 3 weeks||||0.64
92210244|NCT00511901|184320998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5||||0.83||95.0|||||Wilcoxon (Mann-Whitney)|||FACIT at 8 weeks||||0.83
92210245|NCT00511901|184320998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1||||0.46||95.0|||||Wilcoxon (Mann-Whitney)|||FACIT at 12 weeks||||0.46
92210246|NCT00511901|184320999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.57||||0.37||95.0|||||Wilcoxon (Mann-Whitney)|||Activity Counts at 3 weeks||||0.37
92273035|NCT00190684|184448359|SUPERIORITY_OR_OTHER|||||||0.644||95.0||||p-value is for weight 50th to 75th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.644
92210247|NCT00511901|184320999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.39||||0.69||95.0|||||Wilcoxon (Mann-Whitney)|||Activity Counts at 8 weeks||||0.69
92210248|NCT00511901|184320999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.15||||0.36||95.0|||||Wilcoxon (Mann-Whitney)|||Activity Counts at 12 weeks||||0.36
92210249|NCT00511901|184321000|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.5||||0.97||95.0|||||Wilcoxon (Mann-Whitney)|||POMS at 3 weeks||||0.97
92210250|NCT00511901|184321000|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.0||||0.46||95.0|||||Wilcoxon (Mann-Whitney)|||POMS at 8 weeks||||0.46
92210251|NCT00511901|184321000|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.0||||0.68||95.0|||||Wilcoxon (Mann-Whitney)|||POMS at 12 weeks||||0.68
92210252|NCT06020118|184321005|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.938|TWO_SIDED|95.0||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H1N1)pdm09||||0.938
92210253|NCT06020118|184321005|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.451||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H3N2)||||0.451
92210254|NCT06020118|184321005|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.819||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Victoria||||0.819
92210255|NCT06020118|184321005|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.5||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Yamagata||||0.500
92210256|NCT06020118|184321005|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H1N1)pdm09||||<.001
92210257|NCT06020118|184321005|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.001||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H3N2)||||0.001
92210258|NCT06020118|184321005|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Victoria||||<0.001
92273036|NCT00190684|184448359|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for weight 75th to 100th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92148358|NCT02173054|184182259|SUPERIORITY_OR_OTHER|||||||0.016||||||This statistical analysis was used to compare number of participants who had dryness among 3 groups|Kruskal-Wallis|||||||0.016
92148359|NCT02173054|184182259|SUPERIORITY_OR_OTHER|||||||0.025||||||This statistical analysis was used to compare number of participants who had scaling among 3 groups.|Kruskal-Wallis|||||||0.025
92148360|NCT02173054|184182259|SUPERIORITY_OR_OTHER|||||||0.571||||||This statistical analysis was used to compare number of participants who had stinging among 3 groups.|Kruskal-Wallis|||||||0.571
92148361|NCT02173054|184182259|SUPERIORITY_OR_OTHER|||||||0.449||||||This statistical analysis was used to compare number of participants who had pruritus among 3 groups.|Kruskal-Wallis|||||||0.449
92148362|NCT02173054|184182260|SUPERIORITY_OR_OTHER|||||||0.059||||||This statistical analysis was used to evaluate the change in total lesion counts at baseline and 8th week|wilcoxan signed ranks test|||||||0.059
92148363|NCT02173054|184182260|SUPERIORITY_OR_OTHER|||||||0.697||||||This statistical analysis was used to evaluate the change in total lesion counts at baseline and 8th week|wilcoxan signed ranks test|||||||0.697
92148364|NCT02173054|184182260|SUPERIORITY_OR_OTHER|||||||0.028||||||This statistical analysis was used to evaluate the change in total lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.028
92148365|NCT02173054|184182260|SUPERIORITY_OR_OTHER|||||||0.001||||||This statistical analysis was used to evaluate the change in inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.001
92148366|NCT02173054|184182260|SUPERIORITY_OR_OTHER|||||||0.755||||||This statistical analysis was used to evaluate the change in inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.755
92148367|NCT02173054|184182260|SUPERIORITY_OR_OTHER|||||||0.003||||||This statistical analysis was used to evaluate the change in inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.003
92148368|NCT02173054|184182260|SUPERIORITY_OR_OTHER|||||||0.205||||||This statistical analysis was used to evaluate the change in non inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.205
92148369|NCT02173054|184182260|SUPERIORITY_OR_OTHER|||||||0.576||||||This statistical analysis was used to evaluate the change in non inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.576
92148370|NCT02173054|184182260|SUPERIORITY_OR_OTHER|||||||0.16||||||This statistical analysis was used to evaluate the change in non inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.160
92148371|NCT02173054|184182261|SUPERIORITY_OR_OTHER|||||||0.078||||||This statistical analysis was used to evaluate the change in skin sebum content at baseline and 8th week of the Adapalene gel group|Paired t-test|||||||0.078
92148372|NCT02173054|184182261|SUPERIORITY_OR_OTHER|||||||0.167||||||This statistical analysis was used to evaluate the change in skin sebum content at baseline and 8th week of the Adapalene gel with placebo moisturizer group|Paired t-test|||||||0.167
92148373|NCT02173054|184182261|SUPERIORITY_OR_OTHER|||||||0.134||||||This statistical analysis was used to evaluate the change in skin sebum content at baseline and 8th week of the Adapalene gel with Eucerin group|Paired t-test|||||||0.134
92148374|NCT02173054|184182261|SUPERIORITY_OR_OTHER|||||||0.978||||||This statistical analysis was used to evaluate the change in skin hydration at baseline and 8th week of the Adapalene gel group|Paired t-test|||||||0.978
92148375|NCT02173054|184182261|SUPERIORITY_OR_OTHER|||||||0.273||||||This statistical analysis was used to evaluate the change in skin hydration at baseline and 8th week of the Adapalene gel with placebo moisturizer group|Paired t-test|||||||0.273
92148376|NCT02173054|184182261|SUPERIORITY_OR_OTHER|||||||0.735||||||This statistical analysis was used to evaluate the change in skin hydration at baseline and 8th week of the Adapalene gel with Eucerin group.|Paired t-test|||||||0.735
92148377|NCT02173054|184182262|SUPERIORITY_OR_OTHER|||||||0.0002||||||This statistical analysis was used to evaluate the change in TEWL at baseline and 8th week of the Adapalene gel group.|Paired t-test|||||||0.0002
92148378|NCT02173054|184182262|SUPERIORITY_OR_OTHER|||||||0.007||||||This statistical analysis was used to evaluate the change in TEWL at baseline and 8th week of the Adapalene gel with placebo moisturizer group.|Paired t-test|||||||0.007
92148379|NCT02173054|184182262|SUPERIORITY_OR_OTHER|||||||0.123||||||This statistical analysis was used to evaluate the change in TEWL at baseline and 8th week of the Adapalene gel with Eucerin group.|Paired t-test|||||||0.123
92148380|NCT02173054|184182263|SUPERIORITY_OR_OTHER|||||||0.005||||||This statistical analysis was used to evaluate the change in ASI score at baseline and 8th week.|wilcoxan signed ranks test|||||||0.005
92148381|NCT02173054|184182263|SUPERIORITY_OR_OTHER|||||||0.606||||||This statistical analysis was used to evaluate the change in ASI score at baseline and 8th week.|wilcoxan signed ranks test|||||||0.606
92148382|NCT02173054|184182263|SUPERIORITY_OR_OTHER|||||||0.001||||||This statistical analysis was used to evaluate the change in ASI score at baseline and 8th week.|wilcoxan signed ranks test|||||||0.001
92148383|NCT01932697|184182269|SUPERIORITY|||||||0.01|||||||Paired t-test|||||||.01
92148384|NCT01932697|184182270|SUPERIORITY||||||<|0.001|||||||Paired t-test|||||||<0.001
92148385|NCT01932697|184182271|SUPERIORITY||||||<|0.001|||||||Paired t-test|||||||<0.001
92148386|NCT01932697|184182272|SUPERIORITY||||||<|0.001|||||||Paired t-test|||||||<0.001
92148387|NCT02401464|184182275|NON_INFERIORITY_OR_EQUIVALENCE|Formulations were considered bioequivalent if: 1) 90% Cls of the differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.80)- ln(1.25);2) Differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.9)-ln(1.11),and results of the dissolution test met the conditions specified in the Guideline for Bioequivalence Studies of Generic Products.|Least Squares (LS) mean difference (ln)|0.963|||||TWO_SIDED|90.0|0.927|1.001||||||Based on the analysis of variance (ANOVA) in which the natural logarithms of AUC(0-48) of TAK-536 were used as dependent variables, and formulation, sequence (administration order) and administration period were used as fixed effects, bioequivalence was assessed providing two-sided 90% confidence intervals (CIs) for the differences between the formulations and between the periods.||1.001|0.927|
92210259|NCT06020118|184321005|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Yamagata||||<0.001
92210260|NCT06020118|184321006|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.894||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H1N1)pdm09||||0.894
92210261|NCT06020118|184321006|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.104||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H3N2)||||0.104
92210262|NCT06020118|184321006|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.815||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Victoria||||0.815
92210263|NCT06020118|184321006|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.814||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Yamagata||||0.814
92210264|NCT06020118|184321006|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H1N1)pdm09||||<0.001
92210265|NCT06020118|184321006|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H3N2)||||<0.001
92210266|NCT06020118|184321006|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Victoria||||<0.001
92210267|NCT06020118|184321006|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Yamagata||||<0.001
92210268|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.699||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen A(H1N1)pdm09||||0.699
92210269|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.88||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen A(H1N1)pdm09||||0.880
92210270|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.72||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen A(H3N2)||||0.720
92210271|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.238||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen A(H3N2)||||0.238
92210272|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.28||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen B/Victoria||||0.280
92210273|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.094||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen B/Victoria||||0.094
92210274|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.216||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen B/Yamagata||||0.216
92210275|NCT06020118|184321007|SUPERIORITY|P values and confidence intervals for the geometric mean titer ratio were estimated using a generalized estimating equation logistic regression accounting for site clustering.||||||0.436||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen B/Yamagata||||0.436
92210276|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.615||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen A(H1N1)pdm09||||0.615
92210277|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen A(H1N1)pdm09||||<0.001
92210278|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.87||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen A(H3N2)||||0.870
92210279|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001|||||||Regression, Linear|GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.||Post-vaccine: Antigen A(H3N2)||||<0.001
92210280|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.64||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen B/Victoria||||0.640
92210281|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen B/Victoria||||<0.001
92210282|NCT06020118|184321007|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.444||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen B/Yamagata||||0.444
92210283|NCT06020118|184321007|SUPERIORITY|P values and confidence intervals for the geometric mean titer ratio were estimated using a generalized estimating equation logistic regression accounting for site clustering.|||||<|0.001||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen B/Yamagata||||<0.001
92210284|NCT06020118|184321008|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.793||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: A(H1N1)pdm09||||0.793
92210285|NCT06020118|184321008|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.326||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: A(H3N2)||||0.326
92210286|NCT06020118|184321008|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.933||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: B/Victoria||||0.933
92210287|NCT06020118|184321008|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.424||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: B/Yamagata||||0.424
92210288|NCT06020118|184321008|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: A(H1N1)pdm09||||<0.001
92210289|NCT06020118|184321008|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: A(H3N2)||||<0.001
92210290|NCT06020118|184321008|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: B/Victoria||||<0.001
92210291|NCT06020118|184321008|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: B/Yamagata||||<0.001
92210292|NCT00585195|184321036|SUPERIORITY||Ratio of adjusted geometric means|131.72|||||TWO_SIDED|90.0|96.59|179.63||||||||179.63|96.59|
92210293|NCT00585195|184321036|SUPERIORITY||Ratio of adjusted geometric means|239.03|||||TWO_SIDED|90.0|172.14|331.93||||||||331.93|172.14|
92210294|NCT00585195|184321036|SUPERIORITY||Ratio of adjusted geometric means|201.56|||||TWO_SIDED|90.0|139.33|291.58||||||||291.58|139.33|
92210295|NCT00585195|184321037|SUPERIORITY||Ratio of adjusted geometric means|216.19|||||TWO_SIDED|90.0|161.41|289.56||||||||289.56|161.41|
92210296|NCT00585195|184321037|SUPERIORITY||Ratio of adjusted geometric means|350.0|||||TWO_SIDED|90.0|141.09|868.23||||||||868.23|141.09|
92210297|NCT00585195|184321037|SUPERIORITY||Ratio of adjusted geometric means|365.43|||||TWO_SIDED|90.0|263.22|507.31||||||||507.31|263.22|
92210298|NCT00585195|184321040|SUPERIORITY||Ratio of adjusted geometric mean|15.57|||||TWO_SIDED|90.0|10.89|22.26||||||||22.26|10.89|
92210299|NCT00585195|184321041|SUPERIORITY||Ratio of adjusted geometric mean|20.64|||||TWO_SIDED|90.0|14.59|29.18||||||||29.18|14.59|
92210300|NCT00585195|184321043|SUPERIORITY||Ratio of adjusted geometric means|157.4|||||TWO_SIDED|90.0|136.89|180.97||||||||180.97|136.89|
92210301|NCT00585195|184321044|SUPERIORITY||Ratio of adjusted geometric means|132.81|||||TWO_SIDED|90.0|119.1|148.1||||||||148.10|119.10|
92210302|NCT03081052|184321126|EQUIVALENCE|We estimated sample size based on equivalence test of the incidence rates of a binary outcome (e.g. PGD grade 3 (PGD-3)) of two treatment groups as an illustration. Assuming the incidence rate of PGD-3 under iEPO treatment is 0.30 and acceptable margin of the equivalence is ± 0.19, we will need 200 lung transplant patients to have 80% power to detect an actual difference at α=0.05 between two treatment group under this margin.|Risk Difference (RD)|0.049||||0.019|TWO_SIDED|90.0|-0.064|0.162|||two one sided test p-value|||||0.162|-0.064|0.019
92210303|NCT03081052|184321127|NON_INFERIORITY|We estimated sample size based on equivalence test of the incidence rates of a binary outcome of two treatment groups as an illustration. Assuming the incidence rate of moderate or severe RV failure under iEPO treatment is 0.113 and acceptable margin of the equivalence is ± 0.15, we will need 224 heart failure patients to have 80% power to detect an actual difference at α=0.05 between two treatment group under this margin.|Risk Difference (RD)|0.025||||0.012|TWO_SIDED|90.0|-0.066|0.116|||two one-sided test p-value|||||0.116|-0.066|0.012
92210304|NCT03081052|184321128|OTHER||Hodges-Lehmann Location Shift|0.0||||0.747|TWO_SIDED|95.0|-3.0|3.0|||Log Rank|||||3|-3|0.747
92210305|NCT03081052|184321128|OTHER||Hodges-Lehmann Location Shift|0.0||||0.638|TWO_SIDED|95.0|-1.0|1.0|||Log Rank|||||1|-1|0.638
92210306|NCT03081052|184321130|OTHER||mean ratio|1.19||||0.453|TWO_SIDED|95.0|0.76|1.87|||log-linear regression|||||1.87|0.76|0.453
92210307|NCT03081052|184321130|OTHER||mean ratio|0.94||||0.816|TWO_SIDED|95.0|0.57|1.56|||log-linear regression|||||1.56|0.57|0.816
92210308|NCT03081052|184321131|OTHER||mean ratio|1.03||||0.864|TWO_SIDED|95.0|0.75|1.41|||log-linear regression|||||1.41|0.75|0.864
92210309|NCT03081052|184321131|OTHER||mean ratio|0.97||||0.825|TWO_SIDED|95.0|0.73|1.28|||log-linear regression|||||1.28|0.73|0.825
92210310|NCT03081052|184321132|OTHER||Odds Ratio (OR)|1.43||||0.251|TWO_SIDED|95.0|0.78|2.61|||Chi-squared|||||2.61|0.78|0.251
92210311|NCT03081052|184321132|OTHER||Odds Ratio (OR)|1.2||||0.619|TWO_SIDED|95.0|0.58|2.5|||Chi-squared|||||2.5|0.58|0.619
92210312|NCT03081052|184321134|OTHER||Odds Ratio (OR)|2.13||||0.614|TWO_SIDED|95.0|0.19|23.82|||Fisher Exact|||||23.82|0.19|0.614
92210313|NCT03081052|184321134|OTHER||Odds Ratio (OR)|0.6||||0.5424|TWO_SIDED|95.0|0.17|2.12|||Fisher Exact|||||2.12|0.17|0.5424
92210314|NCT01101477|184321140|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||The patients with at lease one episode of hypoxemia (SPaO2\<90%) during FB were analyzed by Chi-square test. P value less 0.05 means significance, 2-sided.||||0.05
92210315|NCT00720941|184321146|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority is defined as excluding a difference of greater than 25% in the hazards. The upper limit of the 95% confidence interval must be \<1.25.|Hazard Ratio (HR)|1.0466|||||TWO_SIDED|95.0|0.8982|1.2195|||||The HR is estimated by the Cox regression model using treatment stratification factors as covariates. The HR is adjusted for Karnofsky Performance Scale scores, prior nephrectomy, and Baseline levels of lactate dehydrogenase (\<=1.5xULN, \>1.5xULN).|||1.2195|0.8982|
92210316|NCT01605292|184321169|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92210317|NCT01605292|184321170|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||t-test, 2 sided|||||||0.006
92210318|NCT01605292|184321171|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92210319|NCT01605292|184321172|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Fisher Exact|||||||0.56
92210320|NCT01605292|184321173|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92210321|NCT01605292|184321174|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Chi-squared|||||||0.07
92210322|NCT01605292|184321175|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Fisher Exact|||||||0.75
92210323|NCT01605292|184321177|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Fisher Exact|||||||0.007
92210324|NCT01786174|184321190|SUPERIORITY_OR_OTHER||Slope|1.4|STANDARD_ERROR_OF_MEAN|4.3||0.746|TWO_SIDED|95.0|-7.17|9.96|||Random slopes model|||Fingolimod vs. Placebo Weeks 0-4||9.96|-7.17|0.746
92210325|NCT01786174|184321191|SUPERIORITY_OR_OTHER||Slope|0.25|STANDARD_ERROR_OF_MEAN|0.89||0.78|TWO_SIDED|95.0|-1.53|2.03|||Random slopes model|||Fingolimod vs. Placebo Weeks 0-4||2.03|-1.53|0.780
92210326|NCT01786174|184321192|SUPERIORITY_OR_OTHER||Slope|-0.51|STANDARD_ERROR_OF_MEAN|2.26||0.823|TWO_SIDED|95.0|-5.0|3.99|||Random slopes model|||Fingolimod vs. Placebo Weeks 0-4||3.99|-5.00|0.823
92210327|NCT01786174|184321194|SUPERIORITY_OR_OTHER||Slope|4.27|STANDARD_ERROR_OF_MEAN|4.04||0.294|TWO_SIDED|95.0|-3.78|12.33|||Random slopes model|||Fingolimod vs. Placebo Weeks 0-4||12.33|-3.78|0.294
92210328|NCT03442985|184321199|OTHER||Risk Ratio (RR)|2.109||||0.2556|TWO_SIDED|95.0|0.583|7.638||The p-values were not adjusted for multiple testing due to small sample size.|Negative binomial regression model|||Palovarotene 2.5 mg versus (vs) Palovarotene 5.0 mg: The annualized rate for number of new OCs was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||7.638|0.583|0.2556
92210329|NCT03442985|184321199|OTHER||Risk Ratio (RR)|3.04||||0.1788|TWO_SIDED|95.0|0.601|15.373||The p-values were not adjusted for multiple testing due to small sample size.|Negative binomial regression model|||Palovarotene 2.5 mg vs Placebo: The annualized rate for number of new OCs was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||15.373|0.601|0.1788
92210330|NCT03442985|184321199|OTHER||Risk Ratio (RR)|1.441||||0.657|TWO_SIDED|95.0|0.287|7.234||The p-values were not adjusted for multiple testing due to small sample size.|Negative binomial regression model|||Palovarotene 5.0 mg vs Placebo: The annualized rate for number of new OCs was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||7.234|0.287|0.6570
92210331|NCT03442985|184321200|OTHER||Risk Ratio (RR)|-4412.6||||0.4252|TWO_SIDED|95.0|-15257.3|6432.1||The p-values were not adjusted for multiple testing due to small sample size.|Unadjusted estimation equation model|||Palovarotene 2.5 mg vs Palovarotene 5.0 mg: The mean difference in the change from baseline for total OC volume was estimated using an unadjusted estimation equation model with independent working covariance matrix to address potential correlation within the same family members.||6432.1|-15257.3|0.4252
92396270|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.75||0.005|TWO_SIDED|95.0|-3.59|-0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.64|-3.59|0.0050
92210332|NCT03442985|184321200|OTHER||Risk Ratio (RR)|-4640.9||||0.4053|TWO_SIDED|95.0|-15570.8|6289.0||The p-values were not adjusted for multiple testing due to small sample size.|Unadjusted estimation equation model|||Palovarotene 2.5 mg vs Placebo: The mean difference in the change from baseline for total OC volume was estimated using an unadjusted estimation equation model with independent working covariance matrix to address potential correlation within the same family members.||6289.0|-15570.8|0.4053
92210333|NCT03442985|184321200|OTHER||Risk Ratio (RR)|-228.3||||0.9677|TWO_SIDED|95.0|-11265.0|10808.4||The p-values were not adjusted for multiple testings due to small sample size.|Unadjusted estimation equation model|||Palovarotene 5.0 mg vs Placebo: The mean difference in the change from baseline for total OC volume was estimated using an unadjusted estimation equation model with independent working covariance matrix to address potential correlation within the same family members.||10808.4|-11265.0|0.9677
92210334|NCT03442985|184321201|OTHER||Odds Ratio (OR)|0.643||||0.5025|TWO_SIDED|95.0|0.177|2.335|||Regression, Logistic|Logistic regression was adjusted for the following covariates: baseline age, sex, and Ext1/2 mutation status.||||2.335|0.177|0.5025
92210335|NCT03442985|184321201|OTHER||Odds Ratio (OR)|0.528||||0.3763|TWO_SIDED|95.0|0.128|2.175|||Regression, Logistic|Logistic regression was adjusted for the following covariates: baseline age, sex, and Ext1/2 mutation status.||||2.175|0.128|0.3763
92210336|NCT03442985|184321201|OTHER||Odds Ratio (OR)|0.82||||0.7714|TWO_SIDED|95.0|0.215|3.123|||Regression, Logistic|Logistic regression was adjusted for the following covariates: baseline age, sex, and Ext1/2 mutation status.||||3.123|0.215|0.7714
92210337|NCT03442985|184321202|OTHER||Risk Ratio (RR)|0.951||||0.8155|TWO_SIDED|95.0|0.623|1.451||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = compound symmetry was used.|Negative binomial regression model|||Palovarotene 2.5 mg vs Palovarotene 5.0 mg: The annualized rate for number of new or worsening deformities was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||1.451|0.623|0.8155
92210338|NCT03442985|184321202|OTHER||Risk Ratio (RR)|1.003||||0.9918|TWO_SIDED|95.0|0.592|1.699||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = compound symmetry was used.|Negative binomial regression model|||Palovarotene 2.5 mg vs Placebo: The annualized rate for number of new or worsening deformities was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||1.699|0.592|0.9918
92210339|NCT03442985|184321202|OTHER||Risk Ratio (RR)|1.055||||0.7997|TWO_SIDED|95.0|0.7|1.589||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = compound symmetry was used.|Negative binomial regression model|||Palovarotene 5.0 mg vs Placebo: The annualized rate for number of new or worsening deformities was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||1.589|0.700|0.7997
92210340|NCT03442985|184321203|OTHER||Risk Ratio (RR)|1.548||||0.2186|TWO_SIDED|95.0|0.772|3.108||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = independent was used.|Poisson regression model|||Palovarotene 2.5 mg vs Palovarotene 5.0 mg: The annualized rate for number of MO-related surgeries was estimated using an unadjusted poisson regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||3.108|0.772|0.2186
92210341|NCT03442985|184321203|OTHER||Risk Ratio (RR)|1.655||||0.27|TWO_SIDED|95.0|0.676|4.052||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = independent was used.|Poisson regression model|||Palovarotene 2.5 mg vs Placebo: The annualized rate for number of MO-related surgeries was estimated using an unadjusted poisson regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||4.052|0.676|0.2700
92210342|NCT03442985|184321203|OTHER||Risk Ratio (RR)|1.069||||0.8546|TWO_SIDED|95.0|0.524|2.178||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = independent was used.|Poisson regression model|||Palovarotene 5.0 mg vs Placebo: The annualized rate for number of MO-related surgeries was estimated using an unadjusted poisson regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||2.178|0.524|0.8546
92210343|NCT00567268|184321227|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.004|||||||Fisher Exact|||"The risk factor tested was age. The null hypothesis was that there was no association between the age and the number of responders to the treatment with gabapentin."||||=0.004
92210344|NCT00567268|184321228|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.003|||||||Fisher Exact|||"The risk factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across increasing levels of the number of concomitant antiepileptic drugs at baseline."||||=0.003
92273037|NCT00190684|184448359|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for height 0 to 25th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92210345|NCT00567268|184321228|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.003|||||||Cochran-Armitage|||"The risk factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across increasing levels of the number of concomitant antiepileptic drugs at baseline."||||=0.003
92210346|NCT00567268|184321229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The factor tested was age. The null hypothesis was that there was no difference between \<65 years and \>=65 years in the number of participants who responded to the treatment with gabapentin."||||<0.001
92210347|NCT00567268|184321230|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The factor tested was age. The null hypothesis was that there was no association between the age and the number of participants who responded to the treatment with gabapentin."||||<0.001
92210348|NCT00567268|184321230|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Armitage|||"The factor tested was age. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across increasing levels of age categories."||||<0.001
92210349|NCT00567268|184321231|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.008|||||||Chi-squared|||"The factor tested was severity of partial epileptic seizure . The null hypothesis was that there was no association between the degree of severity of partial epileptic seizure (mild, moderate, and severe) and the number of participants who responded to the treatment with gabapentin."||||=0.008
92210350|NCT00567268|184321231|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.002|||||||Cochran-Armitage|||"The factor tested was severity of partial epileptic seizure. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across the degree of severity of partial epileptic seizure (mild, moderate, and severe)."||||=0.002
92210351|NCT00567268|184321232|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.018|||||||Chi-squared|||"The factor tested was baseline frequency of epileptic seizure. The null hypothesis was that there was no difference between the baseline frequency of epileptic seizure and the number of participants who responded to the treatment with gabapentin."||||=0.018
92210352|NCT00567268|184321233|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no association between the number of concomitant antiepileptic drugs at baseline and the number of participants who responded to the treatment with gabapentin."||||<0.001
92210353|NCT00567268|184321233|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Armitage|||"The factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across increasing levels of the number of concomitant antiepileptic drugs at baseline."||||<0.001
92210354|NCT00567268|184321234|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.025|||||||Cochran-Armitage|||"The factor tested was baseline creatinine clearance. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across increasing levels of the baseline creatinine clearance."||||=0.025
92210355|NCT00567268|184321235|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.043|||||||Chi-squared|||"The factor tested was non-drug therapy. The null hypothesis was that there was no difference between the non-drug therapy and the number of participants who responded to the treatment with gabapentin."||||=0.043
92210356|NCT02864381|184321271|SUPERIORITY||Odds Ratio (OR)|1.5||||0.8|TWO_SIDED|95.0|0.4|6.1||P-value is derived from Cochran-Mantel Haenszel (CMH) test stratified by programmed death ligand 1 (PD-L1) stratification factor status.|Cochran-Mantel-Haenszel||Odds Ratio is derived from CMH test stratified by PD-L1 stratification factor status, the Nivolumab alone arm serves as the reference.|||6.1|0.4|0.8
92210357|NCT02864381|184321272|SUPERIORITY||Hazard Ratio (HR)|0.836||||0.306|TWO_SIDED|95.0|0.589|1.189||P-value is derived from log-rank test stratified by PD-L1 stratification factor status.|Log Rank||Hazard ratio is derived from Cox model stratified by PD-L1 stratification factor status, the Nivolumab alone arm serves as the reference.|||1.189|0.589|0.306
92210358|NCT02864381|184321273|SUPERIORITY||Hazard Ratio (HR)|0.786||||0.312|TWO_SIDED|95.0|0.491|1.257||P-value is derived from log-rank test stratified by PD-L1 stratification factor status.|Log Rank||Hazard ratio is derived from Cox model stratified by PD-L1 stratification factor status, the Nivolumab alone arm serves as the reference.|||1.257|0.491|0.312
92210359|NCT00120406|184321284|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 10%.|||||<|0.01||95.0||||P-value has been adjusted for multiplicity.|z-test, one-sided|||||||<0.01
92210360|NCT00120406|184321285|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||P-value has been adjusted for multiplicity.|Generalized estimating equation (GEE)|||||||<0.01
92210361|NCT01313637|184321314|SUPERIORITY_OR_OTHER||Least squares mean difference|0.16|||<|0.001|TWO_SIDED|95.0|0.122|0.198|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC 125 µg minus Placebo.|||0.198|0.122|<0.001
92210362|NCT01313637|184321314|SUPERIORITY_OR_OTHER||Least squares mean difference|0.124|||<|0.001|TWO_SIDED|95.0|0.086|0.162|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=VI 25 µg minus Placebo.|||0.162|0.086|<0.001
92210363|NCT01313637|184321314|SUPERIORITY_OR_OTHER||Least squares mean difference|0.238|||<|0.001|TWO_SIDED|95.0|0.2|0.276|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 µg minus Placebo.|||0.276|0.200|<0.001
92273038|NCT00190684|184448359|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value is for height 25th to 50th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.001
92210364|NCT01313637|184321314|SUPERIORITY_OR_OTHER||Least squares mean difference|0.079|||<|0.001|TWO_SIDED|95.0|0.046|0.112|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 minus UMEC 125 µg.|||0.112|0.046|<0.001
92210365|NCT01313637|184321314|SUPERIORITY_OR_OTHER||Least squares mean difference|0.114|||<|0.001|TWO_SIDED|95.0|0.081|0.148|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 minus VI 25 µg.|||0.148|0.081|<0.001
92210366|NCT00655863|184321412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-307.229|||<|0.001|TWO_SIDED|95.0|-443.168|-171.29||p-value and confidence interval presented without multiplicity adjustment.|ANCOVA|||The null hypothesis that there was no difference between Alogliptin 25 mg QD and placebo groups was tested at a 2-sided 0.05 significance level. The ANCOVA model used for the change in postprandial incremental area the curver for total triglycerides includes treatment and statin use as fixed effects and baseline AUC(0-8h) for total triglycerides as a covariate.||-171.290|-443.168|<0.001
92210367|NCT00655863|184321412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-253.711|||<|0.001||95.0|-394.161|-113.262||p-value and confidence interval presented without multiplicity adjustment.|ANCOVA|||The null hypothesis that there was no difference between Alogliptin 25 mg QD + Pioglitazone 30 mg QD and placebo QD groups was tested at a 2-sided 0.05 significance level. The ANCOVA model used for the change in postprandial incremental area the curve for total triglycerides includes treatment and statin use as fixed effects and baseline AUC(0-8h) for total triglycerides as a covariate.||-113.262|-394.161|<0.001
92210368|NCT01138007|184321430|SUPERIORITY_OR_OTHER||Least Squared Mean Difference|-0.5||||0.853|TWO_SIDED|95.0|-2.7|1.7||The p-value was estimated based on the ANCOVA model including Baseline MADRS score and region as covariates. The multiplicity was adjusted by Dunnett's step-down procedure.|ANCOVA||The confidence interval was estimated based on the ANCOVA model including Baseline MADRS score and region as covariates.|||1.7|-2.7|0.853
92210369|NCT01138007|184321430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|1.0||||95.0|||||||In the analysis plan, the second comparison of interest was not to be performed if the first comparison failed to show statistical significance.|||||
92210370|NCT03548987|184321439|SUPERIORITY||Treatment difference|-14.75|||<|0.0001|TWO_SIDED|95.0|-16.0|-13.5|||ANCOVA|||Treatment policy estimand||-13.50|-16.00|<0.0001
92210371|NCT03548987|184321439|OTHER||Treatment difference|-15.33|||<|0.0001|TWO_SIDED|95.0|-16.52|-14.13|||MMRM (mixed model repeated measurement)|||Hypothetical estimand||-14.13|-16.52|<0.0001
92210372|NCT04572841|184321476|SUPERIORITY||Least Square Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|-1.39|2.02||||||Analysis was performed for change from baseline using a mixed model for repeated measures with visit, intervention group (SAR441344 and Placebo), and visit by intervention group interaction as fixed categorical effects, and participant specific baseline ESSDAI as continuous covariate.||2.02|-1.39|
92210373|NCT00712673|184321514|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.657|-0.312||Stepwise testing procedure applied to control type 1 error: lixisenatide (morning) compared with placebo (combined), if found statistically significant, then lixisenatide (evening) compared with placebo (combined).|ANCOVA|||To detect 0.5%(or 0.4%) difference between 1 lixisenatide arm and placebo(combined), 225 patients in lixisenatide arm, 170 in placebo(combined) would provide a power of 97% (or 87%) assuming common standard deviation=1.3% with 2-sided test at 5% significance. Statistical testing:2-sided at significance level=0.05. Analysis of co-variance(ANCOVA)included treatment arms, randomization strata of screening HbA1c(\<8.0,\>=8.0%),BMI(\<30,\>=30 kg/m\^2),country as fixed effects, baseline HbA1c as covariate.||-0.312|-0.657|<0.0001
92210374|NCT00712673|184321514|SUPERIORITY_OR_OTHER||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.54|-0.193||Stepwise testing procedure applied to control type 1 error: lixisenatide (morning) compared with placebo (combined), if found statistically significant, then lixisenatide (evening) compared with placebo (combined).|ANCOVA|||To detect 0.5%(or 0.4%) difference between 1 lixisenatide arm and placebo(combined), 225 patients in lixisenatide arm, 170 in placebo(combined) would provide a power of 97% (or 87%) assuming common standard deviation=1.3% with 2-sided test at 5% significance. Statistical testing:2-sided at significance level=0.05. Analysis of co-variance(ANCOVA)included treatment arms, randomization strata of screening HbA1c(\<8.0,\>=8.0%),BMI(\<30,\>=30 kg/m\^2),country as fixed effects, baseline HbA1c as covariate.||-0.193|-0.540|<0.0001
92210375|NCT01468831|184321544|OTHER|The mean difference between the minocycline and placebo arms in change in BCVA in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|7.8|STANDARD_DEVIATION|7.4|||TWO_SIDED|95.0|-10.6|26.1|||||Difference = Minocycline - Placebo|||26.1|-10.6|
92148388|NCT02401464|184182276|NON_INFERIORITY_OR_EQUIVALENCE|Formulations were considered bioequivalent if: 1)90% Cls of the differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.80)- ln(1.25);2) Differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.9)-ln(1.11),and results of the dissolution test met the conditions specified in the Guideline for Bioequivalence Studies of Generic Products.|LS mean difference (ln)|0.906|||||TWO_SIDED|90.0|0.88|0.933||||||Based on the ANOVA in which the natural logarithms of Cmax of TAK-536 were used as dependent variables, and formulation, sequence (administration order) and administration period were used as fixed effects, bioequivalence was assessed providing two-sided 90% CIs for the differences between the formulations and between the periods.||0.933|0.880|
92210376|NCT01468831|184321545|OTHER|The mean difference between the minocycline and placebo treatment arms in number of bevacizumab injections received from baseline to Month 12 is reported.|Mean Difference (Net)|1.1|STANDARD_DEVIATION|1.4|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92210377|NCT01468831|184321546|OTHER||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|3.5|||TWO_SIDED||||||||Difference = Minocycline - Placebo|The mean difference between the minocycline and placebo treatment arms in number of bevacizumab injections received from baseline to Month 24 is reported.||||
92210378|NCT01468831|184321547|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 3 compared to baseline is reported.|Mean Difference (Net)|-0.8|STANDARD_DEVIATION|1.3|||TWO_SIDED|95.0|-3.9|2.3|||||Difference = Minocycline - Placebo|||2.3|-3.9|
92210379|NCT01468831|184321548|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 6 compared to baseline is reported.|Mean Difference (Net)|-2.1|STANDARD_DEVIATION|1.0|||TWO_SIDED|95.0|-4.5|0.3|||||Difference = Minocycline - Placebo|||0.3|-4.5|
92210380|NCT01468831|184321549|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|-2.5|STANDARD_DEVIATION|1.8|||TWO_SIDED|95.0|-7.5|2.5|||||Difference = Minocycline - Placebo|||2.5|-7.5|
92210381|NCT01468831|184321550|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 18 compared to baseline is reported.|Mean Difference (Net)|-3.5|STANDARD_DEVIATION|2.2|||TWO_SIDED|95.0|-9.4|2.4|||||Difference = Minocycline - Placebo|||2.4|-9.4|
92210382|NCT01468831|184321551|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|-3.7|STANDARD_DEVIATION|2.4|||TWO_SIDED|95.0|-9.5|2.0|||||Difference = Minocycline - Placebo|||2|-9.5|
92273039|NCT00190684|184448359|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||p-value is for height 50th to 75th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.044
92148389|NCT02401464|184182277|NON_INFERIORITY_OR_EQUIVALENCE|Formulations were considered bioequivalent if: 1) 90% Cls of the differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.80)- ln(1.25);2) Differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.9)-ln(1.11),and results of the dissolution test met the conditions specified in the Guideline for Bioequivalence Studies of Generic Products.|LS mean difference (ln)|0.985|||||TWO_SIDED|90.0|0.958|1.011||||||Based on the ANOVA in which the natural logarithms of AUC(0-48) of TAK-536 were used as dependent variables, and formulation, sequence (administration order) and administration period were used as fixed effects, bioequivalence was assessed providing two-sided 90% CIs for the differences between the formulations and between the periods.||1.011|0.958|
92148390|NCT02401464|184182278|NON_INFERIORITY_OR_EQUIVALENCE|Formulations were considered bioequivalent if: 1) 90% Cls of the differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.80)- ln(1.25);2) Differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.9)-ln(1.11),and results of the dissolution test met the conditions specified in the Guideline for Bioequivalence Studies of Generic Products.|LS mean difference (ln)|0.979|||||TWO_SIDED|90.0|0.938|1.022||||||Based on the ANOVA in which the natural logarithms of Cmax of TAK-536 were used as dependent variables, and formulation, sequence (administration order) and administration period were used as fixed effects, bioequivalence was assessed providing two-sided 90% CIs for the differences between the formulations and between the periods.||1.022|0.938|
92148391|NCT00215540|184182300|SUPERIORITY_OR_OTHER|||||||0.476||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||Null hypothesis: No difference between treatment groups||||0.476
92148392|NCT00215540|184182300|SUPERIORITY_OR_OTHER|||||||0.208||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||Null hypothesis: No difference between treatment groups||||0.208
92148393|NCT00215540|184182301|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||Null hypothesis: No difference between treatment groups||||0.500
92148394|NCT00215540|184182301|SUPERIORITY_OR_OTHER|||||||0.146||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||Null hypothesis: No difference between treatment groups||||0.146
92148395|NCT00215540|184182302|SUPERIORITY_OR_OTHER|||||||0.267||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.267
92148396|NCT00215540|184182302|SUPERIORITY_OR_OTHER|||||||0.313||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.313
92148397|NCT00215540|184182302|SUPERIORITY_OR_OTHER|||||||0.944||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.944
92148398|NCT00215540|184182303|SUPERIORITY_OR_OTHER|||||||0.476||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.476
92148399|NCT00215540|184182303|SUPERIORITY_OR_OTHER|||||||0.208||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.208
92148400|NCT00215540|184182303|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.046
92148401|NCT00215540|184182304|SUPERIORITY_OR_OTHER|||||||0.285||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.285
92148402|NCT00215540|184182304|SUPERIORITY_OR_OTHER|||||||0.229||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.229
92148403|NCT00215540|184182304|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.030
92148404|NCT00215540|184182305|SUPERIORITY_OR_OTHER|||||||0.483||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.483
92273040|NCT00190684|184448359|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for height 75th to 100th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92148405|NCT00215540|184182305|SUPERIORITY_OR_OTHER|||||||0.123||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.123
92148406|NCT00215540|184182305|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.006
92148407|NCT00215540|184182306|SUPERIORITY_OR_OTHER|||||||0.843||95.0|||||ANOVA|Adjusting for pooled study center||||||0.843
92148408|NCT00215540|184182306|SUPERIORITY_OR_OTHER|||||||0.543||95.0|||||ANOVA|Adjusting for pooled study center||||||0.543
92148409|NCT00215540|184182306|SUPERIORITY_OR_OTHER|||||||0.537||95.0|||||ANOVA|Adjusting for pooled study center||||||0.537
92148410|NCT00215540|184182307|SUPERIORITY_OR_OTHER|||||||0.813||95.0|||||ANOVA|Adjusting for pooled study center||||||0.813
92148411|NCT00215540|184182307|SUPERIORITY_OR_OTHER|||||||0.449||95.0|||||ANOVA|Adjusting for pooled study center||||||0.449
92148412|NCT00215540|184182307|SUPERIORITY_OR_OTHER|||||||0.275||95.0|||||ANOVA|Adjusting for pooled study center||||||0.275
92148413|NCT00215540|184182308|SUPERIORITY_OR_OTHER|||||||0.267||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.267
92148414|NCT00215540|184182308|SUPERIORITY_OR_OTHER|||||||0.313||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.313
92148415|NCT00215540|184182309|SUPERIORITY_OR_OTHER|||||||0.311||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.311
92148416|NCT00215540|184182309|SUPERIORITY_OR_OTHER|||||||0.516||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.516
92148417|NCT00215540|184182309|SUPERIORITY_OR_OTHER|||||||0.094||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.094
92148418|NCT00246337|184182311|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||0.05 is the pre-specified significance level.|generalized linear model|The p-value is based on the average response of the MK0974 200mg, 400mg, and 600mg groups vs. placebo.||Only the MK0974 300mg, 400mg, and 600mg groups are included in the comparison with placebo based on the protocol-specified test statistics selection and the fact that all lower doses were discontinued after the interim analysis. Overall power =85%||||0.015
92148419|NCT00246337|184182312|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||0.05 is the pre-specified significance level.|generalized linear model|The p-value is based on the average response of the MK0974 200mg, 400mg, and 600mg groups vs. placebo.||Only the MK0974 300mg, 400mg, and 600mg groups are included in the comparison with placebo based on the protocol-specified test statistics selection and the fact that all lower doses were discontinued after the interim analysis.||||<0.001
92148420|NCT00246337|184182313|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||0.05 is the pre-specified significance level.|generalized linear model|||Only the MK0974 300mg, 400mg, and 600mg groups are included in the comparison with placebo based on the protocol-specified test statistics selection and the fact that all lower doses were discontinued after the interim analysis.||||<0.001
92148421|NCT00246337|184182314|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||0.05 is the pre-specified significance level.|generalized linear model|The p-value is based on the average response of the MK0974 200mg, 400mg, and 600mg groups vs. placebo.||Only the MK0974 300mg, 400mg, and 600mg groups are included in the comparison with placebo based on the protocol-specified test statistics selection and the fact that all lower doses were discontinued after the interim analysis.||||<0.001
92148422|NCT00674570|184182316|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.06|=|0.66|TWO_SIDED|95.0|-0.15|0.1|||Mixed Models Analysis|||Fear Conditioning Beginning (first trial)||.10|-.15|=.66
92273041|NCT00190684|184448359|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for BMI 0 to 25th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92148423|NCT00674570|184182316|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.06|=|0.41|TWO_SIDED|95.0|-0.17|0.07|||Mixed Models Analysis|||Fear Conditioning Beginning (first trial)||.07|-.17|=.41
92148424|NCT00674570|184182316|SUPERIORITY||Median Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.06|=|0.43|TWO_SIDED|95.0|-0.07|0.18|||Mixed Models Analysis|||Fear Conditioning End (last trial)||.18|-.07|=.43
92148425|NCT00674570|184182316|SUPERIORITY||Median Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.06|=|0.47|TWO_SIDED|95.0|-0.07|0.17|||Mixed Models Analysis|||Fear Conditioning End (last trial)||.17|-.07|=.47
92148426|NCT00674570|184182316|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.05|=|0.065|TWO_SIDED|95.0|-0.01|0.2|||Mixed Models Analysis|||Fear Extinction Beginning (first trial)||.20|-.01|=.065
92148427|NCT00674570|184182316|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.05|=|0.34|TWO_SIDED|95.0|-0.05|0.15|||Mixed Models Analysis|||Fear Extinction Beginning (first trial)||.15|-.05|=.34
92148428|NCT00674570|184182316|SUPERIORITY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.05|=|0.003|TWO_SIDED|95.0|0.06|0.26|||Mixed Models Analysis|||Extinction End (last trial)||.26|.06|=.003
92148429|NCT00674570|184182316|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.05||0.02|TWO_SIDED|95.0|0.02|0.22|||Mixed Models Analysis|||Extinction End (last trial)||.22|.02|.02
92148430|NCT00674570|184182316|OTHER||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.06|=|0.006|TWO_SIDED|95.0|0.05|0.3|||Mixed Models Analysis|||Extinction Retention (first 2 trials) First trials were selected as a test of extinction retention, since repeated presentations of the CS without a UCS were expected to result in additional fear extinction.||.30|.05|=.006
92148431|NCT00674570|184182316|OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.06|=|0.01|TWO_SIDED|95.0|0.04|0.28|||Mixed Models Analysis|||Extinction retention||.28|.04|=.01
92148432|NCT01337986|184182317|SUPERIORITY_OR_OTHER_LEGACY|||||||0.84|||||||Mixed Models Analysis|||Per protocol Analysis||||0.84
92148433|NCT01337986|184182317|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Mixed Models Analysis|||Change in EDTRS between Visits 2 and 3.||||.29
92148434|NCT01337986|184182319|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.01||0.64|TWO_SIDED|95.0|||||Mixed Models Analysis|||Null hypothesis: there will be no difference in the change relevant to baseline (visit 1) in EDTRS 5% contrast sensitivity with dalfampridine vs placebo.||||.64
92148435|NCT01337986|184182319|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|||||||Mixed Models Analysis|||Null hypothesis for period effect: there will be no difference in the change relevant to baseline (visit 1) in EDTRS 5% contrast sensitivity for those who started on dalfampridine and crossed over to placebo, compared to those who started on placebo and crossed over to dalfampridine.||||0.11
92148436|NCT01337986|184182320|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|||||||Regression, Logistic|||||||0.93
92148437|NCT01337986|184182321|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34|||||||Regression, Logistic|||||||.34
92148438|NCT01337986|184182323|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.46||||0.04|TWO_SIDED|95.0|1.02|2.1||Probability of being in the lowest quartile for Visual Field Index deficits.|Regression, Logistic||Odds Ratio for Visual Field Index|||2.10|1.02|0.04
92148439|NCT01337986|184182324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94|||||||Regression, Logistic|||||||0.94
92148440|NCT01337986|184182325|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
92148441|NCT01337986|184182326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.72|||||||Regression, Linear|||||||0.72
92148442|NCT02313909|184182328|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.51884|TWO_SIDED|95.0|0.87|1.33|||Log Rank|||Statistical analysis: Stroke + Systemic embolism: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.33|0.87|0.51884
92148443|NCT02313909|184182329|SUPERIORITY||Hazard Ratio (HR)|2.72||||2e-05|TWO_SIDED|95.0|1.68|4.39|||Log Rank|||Statistical analysis: ISTH major bleeding events: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||4.39|1.68|0.00002
92148444|NCT02313909|184182330|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.56922|TWO_SIDED|95.0|0.87|1.29|||Log Rank|||Statistical analysis: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Confidence intervals were calculated, if at least 1 event in each treatment arm existed. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.29|0.87|0.56922
92148445|NCT02313909|184182331|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.22078|TWO_SIDED|95.0|0.87|1.81|||Log Rank|||Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Confidence intervals were calculated, if at least 1 event in each treatment arm existed. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.81|0.87|0.22078
92148446|NCT02313909|184182332|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.4797|TWO_SIDED|95.0|0.87|1.34|||Log Rank|||Statistical analysis 1: Stroke: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.34|0.87|0.47970
92210383|NCT01468831|184321552|OTHER|The mean difference between the minocycline and placebo arms in change in BCVA in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|5.8|STANDARD_DEVIATION|9.1|||TWO_SIDED|95.0|-17.1|28.6|||||Difference = Minocycline - Placebo|||28.6|-17.1|
92148447|NCT02313909|184182332|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.78738|TWO_SIDED|95.0|0.83|1.29|||Log Rank|||Statistical analysis 2: Ischemic stroke: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.29|0.83|0.78738
92148448|NCT02313909|184182332|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.14822|TWO_SIDED|95.0|0.88|2.28|||Log Rank|||Statistical analysis 3: Disabling stroke: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||2.28|0.88|0.14822
92148449|NCT02313909|184182332|SUPERIORITY||Hazard Ratio (HR)|1.48||||0.14051|TWO_SIDED|95.0|0.87|2.52|||Log Rank|||Statistical analysis 4:CV death: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||2.52|0.87|0.14051
92148450|NCT02313909|184182332|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.34284|TWO_SIDED|95.0|0.39|1.38|||Log Rank|||Statistical analysis 5: Myocardial infarction: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.38|0.39|0.34284
92148451|NCT02313909|184182333|SUPERIORITY||Hazard Ratio (HR)|2.34||||0.00443|TWO_SIDED|95.0|1.28|4.29|||Log Rank|||Statistical analysis: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||4.29|1.28|0.00443
92148452|NCT02313909|184182334|SUPERIORITY||Hazard Ratio (HR)|1.51||||0.00451|TWO_SIDED|95.0|1.13|2.0|||Log Rank|||Statistical analysis: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||2.00|1.13|0.00451
92148453|NCT02313909|184182335|SUPERIORITY||Hazard Ratio (HR)|2.01||||0.04409|TWO_SIDED|95.0|1.0|4.02|||Log Rank|||Statistical analysis 1: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||4.02|1.00|0.04409
92148454|NCT04026165|184182358|SUPERIORITY||Difference in Adjusted Mean|1.2|STANDARD_ERROR_OF_MEAN|0.82||0.1439|TWO_SIDED|95.0|-0.41|2.81|||Random Slope Model|||Estimates were from a random slope model with change in eGFRcr from treatment-specific Baselines at Weeks 4, 8, 12, 24, 36, 48, 60, 72, and 84 as outcome, including terms for treatment-specific Baseline eGFRcr, pre-run-in urine albumin to creatinine ratio (UACR) category (\< 1500 mg/g vs. \>= 1500 mg/g), concomitant use of sodium-glucose co-transporter-2 (SGLT-2) inhibitors at Randomization, treatment group, week, and treatment-by-week interaction, where week has a random effect.||2.81|-0.41|0.1439
92148455|NCT04026165|184182359|SUPERIORITY||Difference in Percentage|0.1||||0.8353|TWO_SIDED|95.0|-10.9|11.4||p-value was based on Cochran-Mantel-Haenszel test stratified by Randomization stratification factors. Randomization stratification factors= pre-run-in eGFRcr stratum, pre-run-in UACR category and concomitant use of SGLT-2 inhibitors at Randomization.|Cochran-Mantel-Haenszel||95% exact CI based on the Santner-Snell method was presented for the difference in proportions between SEL and placebo arms.|||11.4|-10.9|0.8353
92148456|NCT04026165|184182360|SUPERIORITY||Hazard Ratio (HR)|1.48||||0.201|TWO_SIDED|95.0|0.81|2.72|||Stratified Log-Rank|P-value was calculated using a stratified log-rank test, stratified by randomization stratification factors.|Hazard ratio and 95% CI were estimated using a stratified Cox proportional hazard model, stratified by randomization stratification factors and were reported only for outcomes with more than 10 events, and have at least 1 event in each treatment arm.|||2.72|0.81|0.2010
92148457|NCT04026165|184182362|SUPERIORITY||Difference in Adjusted Mean|0.44|STANDARD_ERROR_OF_MEAN|0.72||0.5399|TWO_SIDED|95.0|-0.97|1.86|||Random Slope Model|||Estimates were from a random slope model with change in eGFRcys from pre-run-in Baseline at Weeks 4, 8, 12, 24, 36, 48, 60, 72, and 84 as outcome, including terms for pre-run-in Baseline eGFRcys, pre-run-in UACR category (\< 1500 mg/g vs. \>= 1500 mg/g), concomitant use of SGLT-2 inhibitors at Randomization, treatment group, week, and treatment-by-week interaction, where week has a random effect.||1.86|-0.97|0.5399
92148458|NCT01287611|184182366|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Group sample sizes of 51 in study group and 65 in control group achieve 98% power to detect a difference between the group proportions of -0.3300. The proportion in study group is assumed to be 0.4800 under the null hypothesis and 0.1500 under the alternative hypothesis. The proportion in control group is 0.4800. The test statistic used is the two-sided Z test with pooled variance. The significance level of the test was targeted at 0.0500.||||||0.0001|||||||Chi-squared|||||||0.0001
92148459|NCT01287611|184182367|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Group sample sizes of 51 in study group and 65 in control group achieve 98% power to detect a difference between the group proportions of -0.3300. The proportion in study group is assumed to be 0.4800 under the null hypothesis and 0.1500 under the alternative hypothesis. The proportion in control group is 0.4800. The test statistic used is the two-sided Z test with pooled variance. The significance level of the test was targeted at 0.0500.||||||0.001|||||||t-test, 2 sided|||||||0.001
92148460|NCT01856712|184182369|SUPERIORITY||Odds Ratio (OR)|1.71|||||TWO_SIDED|95.0|0.35|9.98||||||||9.98|0.35|
92273042|NCT00190684|184448359|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||p-value is for BMI 25th to 50th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.032
92273043|NCT00190684|184448359|SUPERIORITY_OR_OTHER|||||||0.351||95.0||||p-value is for BMI 50th to 75th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.351
92273044|NCT00190684|184448359|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for BMI 75th to 100th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92273045|NCT00190684|184448360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for RR interval|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92273046|NCT00190684|184448360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for QRS Interval|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92273047|NCT00190684|184448360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for QT Bazett Correction|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92273048|NCT00190684|184448360|SUPERIORITY_OR_OTHER|||||||0.31||95.0||||p-value is for QT Data Correction|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.310
92273049|NCT00190684|184448360|SUPERIORITY_OR_OTHER|||||||0.632||95.0||||p-value is for QT Fridericia Correction|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.632
92273050|NCT00190684|184448361|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for HR.|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92396271|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.85||0.0205|TWO_SIDED|95.0|-3.63|-0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.31|-3.63|0.0205
92396272|NCT03192176|184689392|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.85||0.2818|TWO_SIDED|95.0|-2.58|0.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||0.75|-2.58|0.2818
92396273|NCT03192176|184689392|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.87||0.3102|TWO_SIDED|95.0|-2.6|0.83||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.83|-2.60|0.3102
92273051|NCT00190684|184448363|SUPERIORITY_OR_OTHER||||||p<|0||95.0||||p-value is for Total Score|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||p<0.001
92273052|NCT00190684|184448363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Inattentive Subscale Score|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92273053|NCT00190684|184448363|SUPERIORITY_OR_OTHER||||||p<|0||95.0||||p-value is for Hyperactive Subscale Score|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||p<0.001
92273054|NCT00190684|184448364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for CGI ADHD Severity within group|Wilcoxon signed-rank test|This test is for a significance of a location shift from zero of the change from baseline within a treatment group.||||||<0.001
92273055|NCT00190684|184448365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for CPRS ADHD Index Subscale within group|Wilcoxon signed-rank test|This test is for a significance of a location shift from zero of the change from baseline within a treatment group.||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92273056|NCT00190684|184448365|SUPERIORITY_OR_OTHER||||||p<|0||95.0||||p-value is for CPRS Cognitive Subscale|Wilcoxon signed-rank test|This test is for a significance of a location shift from zero of the change from baseline within a treatment group.||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||p<0.001
92273057|NCT00190684|184448365|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||p-value is for CPRS Hyperactive Subscale|Wilcoxon signed-rank test|This test is for a significance of a location shift from zero of the change from baseline within a treatment group.||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.026
92273058|NCT00190684|184448365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for CPRS Oppositional Subscale|Wilcoxon signed-rank test|This test is for a significance of a location shift from zero of the change from baseline within a treatment group.||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
92273059|NCT00423488|184448387|SUPERIORITY_OR_OTHER_LEGACY||least-squares means|-11.5||||0.005||95.0|-19.4|-3.5|||ANOVA|The analysis of variance (ANOVA) model included term of treatment effect. If more than one basal value was available, the latest was used.||||-3.5|-19.4|0.005
92273060|NCT03118765|184448388|OTHER|ANOVA|LS mean ratio (%)|29.4|||||TWO_SIDED|90.0|21.14|41.0|||||Relative Bioavailability (%) based on CmaxSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on CmaxSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||41.00|21.14|
92273061|NCT03118765|184448388|OTHER|ANOVA|LS mean ratio (%)|57.0|||||TWO_SIDED|90.0|41.37|78.46|||||Relative Bioavailability (%) based on CmaxSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on CmaxSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||78.46|41.37|
92273062|NCT03118765|184448388|OTHER|ANOVA|LS mean ratio (%)|155.8|||||TWO_SIDED|90.0|111.88|216.99|||||Relative Bioavailability (%) based on CmaxSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on CmaxSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||216.99|111.88|
92148461|NCT04074590|184182384|OTHER|A Bayesian analysis of clinical remission rate (based on total Mayo score) with binomial distribution, was modelled with baseline total Mayo score and treatment group as explanatory variables, to compare the remission rates between LYS006 and placebo groups.|Posterior estimate treatment difference|-3.29||||0.314|TWO_SIDED|90.0|-18.02|13.23||Posterior probability that clinical remission rate is better than placebo: Prob (diff\>0)|Bayesian analysis||90% credible intervals are reported on the treatment difference|||13.23|-18.02|0.314
92148462|NCT04074590|184182384|OTHER|A Bayesian analysis of clinical remission rate (based on total Mayo score) with binomial distribution, was modelled with baseline total Mayo score and treatment group as explanatory variables, to compare the remission rates between LYS006 and placebo groups.|Posterior estimate treatment difference|-3.29||||0.037|TWO_SIDED|90.0|-18.02|13.23||Posterior probability that clinical remission rate \>15% over placebo: Prob (diff\>0.15)|Bayesian analysis||90% credible intervals are reported on the treatment difference|||13.23|-18.02|0.037
92148463|NCT01355458|184182386|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||GEE: Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||||<0.001
92148464|NCT00509236|184182387|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Model terms: treatment, prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent), and a covariate for baseline A1c.||||<0.001
92148465|NCT00509236|184182388|SUPERIORITY_OR_OTHER||Difference in % Affected|-4.8||||0.336|TWO_SIDED|95.0|-15.7|5.6||Miettinen \& Nurminen method stratified by prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent).|Miettinen & Nurminen|||||5.6|-15.7|0.336
92148466|NCT00509236|184182389|SUPERIORITY_OR_OTHER||Difference in % Affected|2.8|||||TWO_SIDED|95.0|-10.9|16.5||||||||16.5|-10.9|
92148467|NCT00509236|184182390|SUPERIORITY_OR_OTHER||Change from Baseline in LS Mean|-26.6|||<|0.001|TWO_SIDED|95.0|-38.0|-15.3|||ANCOVA|||Model terms: treatment, prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent), and a covariate for baseline FPG.||-15.3|-38.0|<0.001
92148468|NCT00509236|184182390|SUPERIORITY_OR_OTHER||Change from Baseline in LS Mean|-31.2|||<|0.001|TWO_SIDED|95.0|-42.6|-19.9|||ANCOVA|||Model terms: treatment, prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent), and a covariate for baseline FPG.||-19.9|-42.6|<0.001
92148469|NCT00509236|184182390|SUPERIORITY_OR_OTHER||Difference in LS Means|4.6|||||TWO_SIDED|95.0|-11.5|20.7||||||Model terms: treatment, prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent), and a covariate for baseline FPG.||20.7|-11.5|
92148470|NCT00509236|184182391|SUPERIORITY_OR_OTHER||Difference in LS Means|0.15|||||TWO_SIDED|95.0|-0.18|0.49|||ANCOVA|||Model terms: treatment, prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent), and a covariate for baseline A1c.||0.49|-0.18|
92148471|NCT02709005|184182397|SUPERIORITY||Risk Difference (RD)|-0.08||||0.42|TWO_SIDED|95.0|-0.26|0.08||The test was conducted using a Fisher's exact test at the 5% two-sided level of significance level without adjustment for multiplicity.|Fisher Exact||Difference in Proportion of Participants with Clinical Cure between 5% Monolaurin Vaginal Gel and Placebo Gel|The null hypothesis was that there was no difference in participants with clinical cure between study arms, with a two-sided alternative considering the possibility of a difference in either direction. The statistical informational goal for the study of 90 participants eligible in the modified Intent-to-Treat (mITT) efficacy population was an ad-hoc sample size determined by logistical considerations, as there was insufficient pilot data upon which to base more formal sample size calculations.||0.08|-0.26|0.420
92148472|NCT02709005|184182398|SUPERIORITY||Risk Difference (RD)|0.14||||0.2|TWO_SIDED|95.0|-0.06|0.33||The test was conducted using a Fisher's exact test at the 5% two-sided level of significance level without adjustment for multiplicity.|Fisher Exact||Difference in Proportion of Participants Experiencing Solicited Events between 5% Monolaurin Vaginal Gel and Placebo Gel|The null hypothesis was that there was no difference in participants with solicited urogenital AEs between study arms, with a two-sided alternative considering the possibility of a difference in either direction.||0.33|-0.06|0.200
92148473|NCT02709005|184182399|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|||||No SAEs were reported; therefore the Fisher's Exact Test was not performed.||||The null hypothesis was that there was no difference in participants with related SAEs between study arms, with a two-sided alternative considering the possibility of a difference in either direction.||||
92148474|NCT02709005|184182400|SUPERIORITY||Risk Difference (RD)|0.0|||>|0.999|TWO_SIDED|95.0|-0.13|0.08||The test was conducted using a Fisher's exact test at the 5% two-sided level of significance level without adjustment for multiplicity.|Fisher Exact||Difference in Proportion of Participants with Therapeutic Cure between 5% Monolaurin Vaginal Gel and Placebo Gel|The null hypothesis was that there was no difference in participants with therapeutic cure between study arms, with a two-sided alternative considering the possibility of a difference in either direction.||0.08|-0.13|>0.999
92148475|NCT02709005|184182401|SUPERIORITY||Risk Difference (RD)|-0.09||||0.035|TWO_SIDED|95.0|-0.24|-0.01||The test was conducted using a Fisher's exact test at the 5% two-sided level of significance level without adjustment for multiplicity.|Fisher Exact||Difference in Proportion of Participants with Therapeutic Cure between 5% Monolaurin Vaginal Gel and Placebo Gel|The null hypothesis was that there was no difference in participants with therapeutic cure between study arms, with a two-sided alternative considering the possibility of a difference in either direction.||-0.01|-0.24|0.035
92148476|NCT02709005|184182406|SUPERIORITY||Risk Difference (RD)|0.0|||>|0.999|TWO_SIDED|95.0|-0.18|0.14||The test was conducted using a Fisher's exact test at the 5% two-sided level of significance level without adjustment for multiplicity.|Fisher Exact||Difference in Proportion of Participants with Clinical Cure between 5% Monolaurin Vaginal Gel and Placebo Gel|The null hypothesis was that there was no difference in participants with clinical cure between study arms, with a two-sided alternative considering the possibility of a difference in either direction.||0.14|-0.18|>0.999
92335334|NCT04530838|184573341|OTHER||GMR|0.98|||||TWO_SIDED|95.0|0.81|1.19||||||Serotype 5: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.19|0.81|
92148477|NCT02634788|184182411|OTHER||LS Mean Difference|81.93|STANDARD_ERROR_OF_MEAN|14.283|<|0.0001|TWO_SIDED|95.0|53.82|110.04|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||110.04|53.82|<0.0001
92148478|NCT02634788|184182411|OTHER||LS Mean Difference|36.18|STANDARD_ERROR_OF_MEAN|14.099||0.0108|TWO_SIDED|95.0|8.43|63.93|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||63.93|8.43|0.0108
92148479|NCT02634788|184182411|OTHER||LS Mean Difference|35.46|STANDARD_ERROR_OF_MEAN|14.02||0.012|TWO_SIDED|95.0|7.86|63.05|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||63.05|7.86|0.0120
92148480|NCT01591382|184182468|SUPERIORITY_OR_OTHER|||||||0.0241||||||A P-value of \<0.05 was indicative of statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.0241
92148481|NCT01591382|184182469|SUPERIORITY_OR_OTHER|||||||0.4102||||||A P-value of \<0.05 was indicative of statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.4102
92273063|NCT03118765|184448389|OTHER|ANOVA|LS mean ratio (%)|39.7|||||TWO_SIDED|90.0|29.79|52.87|||||Relative Bioavailability (%) based on AUC0-tauSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on AUC0-tauSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||52.87|29.79|
92148482|NCT01591382|184182470|SUPERIORITY_OR_OTHER|||||||0.1085||||||A P-value of \<0.05 was indicative of statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.1085
92148483|NCT01591382|184182471|SUPERIORITY_OR_OTHER|||||||0.748|||||||Wilcoxon (Mann-Whitney)|||||||0.7480
92148484|NCT01257880|184182518|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U test was used to test the null hypothesis that basilar artery vasomotor reactivity was equivalent between the two groups.||||0.39
92148485|NCT01059630|184182525|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.4|0.7|||Log Rank|||||0.70|0.40|<0.0001
92148486|NCT01059630|184182527|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.45|0.73|||Log Rank|||||0.73|0.45|<0.0001
92148487|NCT01059630|184182528|SUPERIORITY_OR_OTHER_LEGACY||Difference in response rate|0.98||||0.9298|TWO_SIDED|95.0|0.58|1.65|||Cochran-Mantel-Haenszel|||||1.65|0.58|0.9298
92148488|NCT01059630|184182529|SUPERIORITY_OR_OTHER_LEGACY||Difference in response rate|-0.9||||0.7857|TWO_SIDED|95.0|-8.44|6.64|||Cochran-Mantel-Haenszel|||||6.64|-8.44|0.7857
92148489|NCT01059630|184182534|SUPERIORITY_OR_OTHER_LEGACY||Difference in response rate|2.24||||0.8347|TWO_SIDED|95.0|-7.2|11.69|||Cochran-Mantel-Haenszel|||||11.69|-7.20|0.8347
92148490|NCT01059630|184182535|SUPERIORITY_OR_OTHER_LEGACY||Difference in response rate|8.55||||0.0466|TWO_SIDED|95.0|-0.22|17.32|||Cochran-Mantel-Haenszel|||||17.32|-0.22|0.0466
92148491|NCT01059630|184182536|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.43|||||TWO_SIDED|95.0|0.31|0.61||||||||0.61|0.31|
92148492|NCT01059630|184182537|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.39|0.67||||||||0.67|0.39|
92148493|NCT01059630|184182538|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.13|||||TWO_SIDED|95.0|0.04|0.45||||||||0.45|0.04|
92148494|NCT01059630|184182539|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.48|||||TWO_SIDED|95.0|0.29|0.81||||||||0.81|0.29|
92148495|NCT01059630|184182540|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57||||0.0001|TWO_SIDED|95.0|0.44|0.74|||Log Rank|||||0.74|0.44|0.0001
92148496|NCT01059630|184182542|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.081|TWO_SIDED|95.0|0.57|1.03|||Log Rank|||||1.03|0.57|0.0810
92148497|NCT00985985|184182587|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.3851|TWO_SIDED|95.0|0.78|1.92|||Cochran-Mantel-Haenszel||Odds Ratio based on logistic model (adjusted by center)|Null hypothesis considered no treatment difference in the smoking cessation success rate for the active treatment versus its matching placebo.||1.92|0.78|0.3851
92148498|NCT00985985|184182587|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||0.0565|TWO_SIDED|95.0|0.99|3.32|||Cochran-Mantel-Haenszel||Odds Ratio based on logistic model (adjusted by center).|Null hypothesis considered no treatment difference in the smoking cessation success rate for the active treatment versus its matching placebo.||3.32|0.99|0.0565
92148499|NCT03532308|184182615|SUPERIORITY|||||||0.76||||||This is for the effect of treatment with time, risk stratification and treatment\*time interaction in the model.|Mixed Models Analysis|||||||0.76
92148500|NCT03720938|184182621|SUPERIORITY|A sample size of 26 children per group was needed with the assumption of Cohen's d = 0.8, the alpha error of 0.05 and a power of 80%.||||||0.001||||||The outcomes of weight was tested for any difference between groups by covariate analysis (ANCOVA) adjusted for the weight at baseline and confounding variable age.|ANCOVA|||Null hypothesis was the absence of difference between the two groups for the dependent variable weight.||||0.001
92148501|NCT03720938|184182621|OTHER|||||||0.0002535||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable weight.||||0.0002535
92148502|NCT03720938|184182621|SUPERIORITY|||||||0.000397||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable weight.||||0.000397
92148503|NCT03720938|184182622|SUPERIORITY|||||||0.005||||||The outcome of weight z score was tested for any difference between groups by covariate analysis (ANCOVA) adjusted for the weight at baseline and confounding variable age.|ANCOVA|||Null hypothesis was the absence of difference between the two groups for the dependent variable weight z scores.||||0.005
92148504|NCT03720938|184182622|SUPERIORITY|||||||0.002||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable weight z score.||||0.002
92148505|NCT03720938|184182622|SUPERIORITY|||||||0.00386||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality. Adjusted by Satterthwaite's degrees of freedom correction method for cluster effect, and small sample sizes in addition to baseline value and age.||||0.00386
92273064|NCT03118765|184448389|OTHER|ANOVA|LS mean ratio (%)|85.2|||||TWO_SIDED|90.0|64.43|112.64|||||Relative Bioavailability (%) based on AUC0-tauSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on AUC0-tauSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||112.64|64.43|
92273065|NCT03118765|184448389|OTHER|ANOVA|LS mean ratio (%)|211.5|||||TWO_SIDED|90.0|158.8|281.8|||||Relative Bioavailability (%) based on AUC0-tauSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on AUC0-tauSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||281.80|158.80|
92273066|NCT03118765|184448390|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.228|TWO_SIDED|95.0|-0.04|0.17|||MMRM|||GSP 304 vs Placebo comparison for change from baseline in trough FEV1 was tested at 0.05 significance level.||0.17|-0.04|0.228
92273067|NCT03118765|184448390|SUPERIORITY||Mean Difference (Net)|0.02||||0.655|TWO_SIDED|95.0|-0.08|0.13|||MMRM|||GSP 304 vs Placebo comparison for change from baseline in trough FEV1 was tested at 0.05 significance level.||0.13|-0.08|0.655
92273068|NCT03118765|184448390|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.894|TWO_SIDED|95.0|-0.1|0.11|||MMRM|||GSP 304 vs Placebo comparison for change from baseline in trough FEV1 was tested at 0.05 significance level.||0.11|-0.10|0.894
92273069|NCT03118765|184448390|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.26|TWO_SIDED|95.0|-0.04|0.16|||MMRM|||SPIRIVA RESPIMAT 5 μg vs Placebo comparison for change from baseline in trough FEV1 was tested at 0.05 significance level.||0.16|-0.04|0.260
92273070|NCT03118765|184448391|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 1 for GSP304 10 μg was (Geo mean: 108200 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 120300 pg).|||
92273071|NCT03118765|184448391|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 1 for GSP304 20 μg was (Geo mean: 263100 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 120300 pg).|||
92273072|NCT03118765|184448391|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 1 for GSP304 40 μg was (Geo mean: 438300 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 120300 pg).|||
92148506|NCT03720938|184182623|SUPERIORITY|||||||0||||||The outcomes of weight was tested for any difference between groups by covariate analysis (ANCOVA) adjusted for the body mass index at baseline and confounding variable age.|ANCOVA|||Null hypothesis was the absence of difference between the two groups for the dependent variable body mass index.||||0.000
92273073|NCT03118765|184448392|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 21 for GSP304 10 μg was (Geo mean: 293700 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 620200 pg).|||
92273074|NCT03118765|184448392|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 21 for GSP304 20 μg was (Geo mean: 436500 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 620200 pg).|||
92273075|NCT03118765|184448392|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 21 for GSP304 40 μg was (Geo mean: 1249000 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 620200 pg).|||
92273076|NCT03118765|184448393|OTHER||||||||||||||||||For GSP304 10 μg, the geometric mean Fe (%) eliminated in urine was 1.082% on Day 1 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 2.407% on Day 1|||
92273077|NCT03118765|184448393|OTHER||||||||||||||||||For GSP304 20 μg, the geometric mean Fe (%) eliminated in urine was 1.316% on Day 1 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 2.407% on Day 1|||
92273078|NCT03118765|184448393|OTHER||||||||||||||||||For GSP304 40 μg, the geometric mean Fe (%) eliminated in urine was 1.096% on Day 1 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 2.407% on Day 1|||
92273079|NCT03118765|184448394|OTHER||||||||||||||||||For GSP304 10 μg, the geometric mean Fe (%) eliminated in urine was 2.937% on Day 21 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 12.4% on Day 21|||
92273080|NCT03118765|184448394|OTHER||||||||||||||||||For GSP304 20 μg, the geometric mean Fe (%) eliminated in urine was 2.183% on Day 21 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 12.4% on Day 21|||
92273081|NCT03118765|184448394|OTHER||||||||||||||||||For GSP304 40 μg, the geometric mean Fe (%) eliminated in urine was 3.123% on Day 21 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 12.4% on Day 21|||
92273082|NCT03118765|184448395|OTHER||||||||||||||||||For GSP304 10 μg, geometric mean Cmax of tiotropium was 2.191 pg/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean Cmax of tiotropium was 7.327 pg/mL on Day 1.|||
92273083|NCT03118765|184448395|OTHER||||||||||||||||||For GSP304 20 μg, geometric mean Cmax of tiotropium was 4.796 pg/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean Cmax of tiotropium was 7.327 pg/mL on Day 1.|||
92273084|NCT03118765|184448395|OTHER||||||||||||||||||For GSP304 40 μg, geometric mean Cmax of tiotropium was 10.2 pg/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean Cmax of tiotropium was 7.327 pg/mL on Day 1.|||
92273085|NCT03118765|184448396|OTHER||||||||||||||||||For GSP304 10 μg, geometric mean AUC0-tau of tiotropium was 8.597 pg\*h/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean AUC0-tau of tiotropium was 19.59 pg\*h/mL on Day 1.|||
92273086|NCT03118765|184448396|OTHER||||||||||||||||||For GSP304 20 μg, geometric mean AUC0-tau of tiotropium was 18.00 pg\*h/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean AUC0-tau of tiotropium was 19.59 pg\*h/mL on Day 1.|||
92273087|NCT03118765|184448396|OTHER||||||||||||||||||For GSP304 40 μg, geometric mean AUC0-tau of tiotropium was 42.69 pg\*h/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean AUC0-tau of tiotropium was 19.59 pg\*h/mL on Day 1.|||
92273088|NCT03118765|184448399|OTHER||||||||||||||||||For GSP304 10 μg, the geometric mean CavSS was 0.9536 pg/mL on Day 21 and for SPIRIVA RESPIMAT 5 μg, the CavSS was 2.403 pg/mL on Day 21|||
92273089|NCT03118765|184448399|OTHER||||||||||||||||||For GSP304 20 μg, the geometric mean CavSS was 1.998 pg/mL on Day 21 and for SPIRIVA RESPIMAT 5 μg, the CavSS was 2.403 pg/mL on Day 21|||
92273090|NCT03118765|184448399|OTHER||||||||||||||||||For GSP304 40 μg, the geometric mean CavSS was 5.083 pg/mL on Day 21 and for SPIRIVA RESPIMAT 5 μg, the CavSS was 2.403 pg/mL on Day 21|||
92273091|NCT03118765|184448400|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on AUC of 2.617 for GSP304 10 μg and 2.815 for SPIRIVA RESPIMAT 5 μg.|||
92273092|NCT03118765|184448400|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on AUC of 2.522 for GSP304 20 μg and 2.815 for SPIRIVA RESPIMAT 5 μg.|||
92273093|NCT03118765|184448400|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on AUC of 2.926 for GSP304 40 μg and 2.815 for SPIRIVA RESPIMAT 5 μg.|||
92273094|NCT03118765|184448401|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on Cmax of 1.944 for GSP304 10 μg and 1.929 for SPIRIVA RESPIMAT 5 μg.|||
92273095|NCT03118765|184448401|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on Cmax of 1.808 for GSP304 20 μg and 1.929 for SPIRIVA RESPIMAT 5 μg.|||
92273096|NCT03118765|184448401|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on Cmax of 2.125 for GSP304 40 μg and 1.929 for SPIRIVA RESPIMAT 5 μg.|||
92273097|NCT03118765|184448402|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.004|TWO_SIDED|95.0|0.04|0.21|||Mixed Models Analysis|||||0.21|0.04|0.004
92273098|NCT03118765|184448402|SUPERIORITY||Mean Difference (Final Values)|0.17|||<|0.001|TWO_SIDED|95.0|0.08|0.26|||Mixed Models Analysis|||||0.26|0.08|<0.001
92273099|NCT03118765|184448402|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.007|TWO_SIDED|95.0|0.03|0.21|||Mixed Models Analysis|||||0.21|0.03|0.007
92396274|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.87||0.1422|TWO_SIDED|95.0|-2.99|0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.43|-2.99|0.1422
92148507|NCT03720938|184182623|SUPERIORITY|||||||3.06e-06||||||"Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.~Adjusted for cluster effect, and small sample sizes, baseline value and age."|Linear mixed effects model|Satterthwaite's correction method for denominator degrees of freedom.||Null hypothesis was the absence of difference between the two groups for the dependent variable body mass index.||||0.00000306
92148508|NCT03720938|184182623|SUPERIORITY|||||||3.67e-06||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable body mass index.||||0.00000367
92148509|NCT03720938|184182624|SUPERIORITY|||||||0||||||The outcome of body mass index z score was tested for any difference between groups by covariate analysis (ANCOVA) adjusted for the body mass index z score at baseline and confounding variable age.|ANCOVA|||Null hypothesis was the absence of difference between the two groups for the dependent variable body mass index z score.||||0.000
92273100|NCT03118765|184448402|SUPERIORITY||Mean Difference (Final Values)|0.17|||<|0.001|TWO_SIDED|95.0|0.08|0.26|||Mixed Models Analysis|||||0.26|0.08|<0.001
92273101|NCT03118765|184448403|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.001|TWO_SIDED|95.0|0.08|0.28|||Mixed Models Analysis|||||0.28|0.08|0.001
92273102|NCT03118765|184448403|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.005|TWO_SIDED|95.0|0.05|0.25|||Mixed Models Analysis|||||0.25|0.05|0.005
92273103|NCT03118765|184448403|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.032|TWO_SIDED|95.0|0.01|0.21|||Mixed Models Analysis|||||0.21|0.01|0.032
92273104|NCT03118765|184448403|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.001|TWO_SIDED|95.0|0.07|0.27|||Mixed Models Analysis|||||0.27|0.07|0.001
92273105|NCT03118765|184448404|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.166|TWO_SIDED|95.0|-0.04|0.21|||Mixed Models Analysis|||||0.21|-0.04|0.166
92273106|NCT03118765|184448404|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.182|TWO_SIDED|95.0|-0.04|0.21|||Mixed Models Analysis|||||0.21|-0.04|0.182
92273107|NCT03118765|184448404|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.401|TWO_SIDED|95.0|-0.07|0.17|||Mixed Models Analysis|||||0.17|-0.07|0.401
92273108|NCT03118765|184448404|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.574|TWO_SIDED|95.0|-0.09|0.16|||Mixed Models Analysis|||||0.16|-0.09|0.574
92273109|NCT03118765|184448405|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.493|TWO_SIDED|95.0|-0.1|0.21|||Mixed Models Analysis|||||0.21|-0.10|0.493
92273110|NCT03118765|184448405|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.864|TWO_SIDED|95.0|-0.17|0.14|||Mixed Models Analysis|||||0.14|-0.17|0.864
92273111|NCT03118765|184448405|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.978|TWO_SIDED|95.0|-0.16|0.15|||Mixed Models Analysis|||||0.15|-0.16|0.978
92273112|NCT03118765|184448405|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.5|TWO_SIDED|95.0|-0.1|0.2|||Mixed Models Analysis|||||0.20|-0.10|0.500
92273113|NCT03118765|184448406|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.003|TWO_SIDED|95.0|0.04|0.2|||Mixed Models Analysis|||||0.20|0.04|0.003
92273114|NCT03118765|184448406|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.001|TWO_SIDED|95.0|0.06|0.22|||Mixed Models Analysis|||||0.22|0.06|0.001
92273115|NCT03118765|184448406|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.001|TWO_SIDED|95.0|0.06|0.21|||Mixed Models Analysis|||||0.21|0.06|0.001
92273116|NCT03118765|184448406|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.001|TWO_SIDED|95.0|0.08|0.23|||Mixed Models Analysis|||||0.23|0.08|<0.001
92273117|NCT03118765|184448407|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.002|TWO_SIDED|95.0|0.06|0.24|||Mixed Models Analysis|||||0.24|0.06|0.002
92273118|NCT03118765|184448407|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.061|TWO_SIDED|95.0|0.0|0.18|||Mixed Models Analysis|||||0.18|-0.00|0.061
92273119|NCT03118765|184448407|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.14|TWO_SIDED|95.0|-0.02|0.16|||Mixed Models Analysis|||||0.16|-0.02|0.140
92273120|NCT03118765|184448407|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.002|TWO_SIDED|95.0|0.06|0.24|||Mixed Models Analysis|||||0.24|0.06|0.002
92273121|NCT02643966|184448408|OTHER|We compared DBT cancer yield per 1,000 for first observer (usual care) vs DBT and WBUS cancer yield per 1,000 for first observer for Year/Screen 1.|simple proportions|1.3||||0.005|TWO_SIDED|95.0|0.3|2.1||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||The primary unit of analysis was the screening examination. A sample size of 16,700 screens (6,200 women, estimating 8%-10% loss to follow-up each year) was expected to provide 82% power to identify an added cancer detection rate (CDR) from US of 1.1/1,000. Screens were included for analysis if the patient was diagnosed with breast cancer or at least 10.5-month imaging or clinical follow-up (ie, at end of study participation) showed no evidence of breast cancer.||2.1|0.3|0.005
92273122|NCT02643966|184448408|OTHER|We compared DBT cancer yield per 1,000 for first observer (usual care) vs DBT and WBUS cancer yield per 1,000 for first observer for Years/Screens 2 \& 3.|simple proportions|1.0|||<|0.001|TWO_SIDED|95.0|0.4|1.5||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||The primary unit of analysis was the screening examination. A sample size of 16,700 screens (6,200 women, estimating 8%-10% loss to follow-up each year) was expected to provide 82% power to identify an added cancer detection rate (CDR) from US of 1.1/1,000. Screens were included for analysis if the patient was diagnosed with breast cancer or at least 10.5-month imaging or clinical follow-up (ie, at end of study participation) showed no evidence of breast cancer.||1.5|0.4|<0.001
92273123|NCT02643966|184448409|OTHER|We compared DBT true positive findings for first observer (usual care) vs DBT and WBUS true positive findings for first observer for Year/Screen 1.|simple proportions|17.8||||0.005|TWO_SIDED|95.0|4.4|31.1||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||The primary unit of analysis was the screening examination. A sample size of 16,700 screens (6,200 women, estimating 8%-10% loss to follow-up each year) was expected to provide 82% power to identify an added cancer detection rate (CDR) from US of 1.1/1,000. Screens were included for analysis if the patient was diagnosed with breast cancer or at least 10.5-month imaging or clinical follow-up (ie, at end of study participation) showed no evidence of breast cancer.||31.1|4.4|0.005
92273124|NCT02643966|184448409|OTHER|We compared DBT true positive findings for first observer (usual care) vs DBT and WBUS true positive findings for first observer for Years/Screens 2 and 3.|simple proportions|13.5|||<|0.001|TWO_SIDED|95.0|4.9|22.3||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||The primary unit of analysis was the screening examination. A sample size of 16,700 screens (6,200 women, estimating 8%-10% loss to follow-up each year) was expected to provide 82% power to identify an added CDR from US of 1.1/1,000.Screens were included for analysis if the patient was diagnosed with breast cancer or at least 10.5-month imaging or clinical follow-up (ie, at end of study participation) showed no evidence of breast cancer.||22.3|4.9|< 0.001
92273125|NCT02643966|184448411|OTHER|We compared DBT false positive findings for first observer (usual care) vs DBT and WBUS false positive findings for first observer for Year/Screen 1.|Slope|4.5|||<|0.001|TWO_SIDED|95.0|3.8|5.1||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||||5.1|3.8|< 0.001
92273126|NCT02643966|184448411|OTHER|We compared DBT false positive findings for first observer (usual care) vs DBT and WBUS false positive findings for first observer for Years/Screens 2 \& 3.|simple proportions|3.7|||<|0.001|TWO_SIDED|95.0|3.3|4.1||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||||4.1|3.3|< 0.001
92273127|NCT01493531|184448412|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.32|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|0.23|0.41|||Cochran-Mantel-Haenszel|||||0.41|0.23|<0.0001
92273128|NCT01493531|184448412|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.43|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|0.34|0.52|||Cochran-Mantel-Haenszel|||||0.52|0.34|<0.0001
92396275|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.87||0.0064|TWO_SIDED|95.0|-4.12|-0.68||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.68|-4.12|0.0064
92396276|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.87||0.0752|TWO_SIDED|95.0|-3.28|0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.16|-3.28|0.0752
92396277|NCT03192176|184689392|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.85||0.3632|TWO_SIDED|95.0|-2.43|0.89||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.89|-2.43|0.3632
92273129|NCT01493531|184448413|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88||||0.5716|TWO_SIDED|95.0|0.57|1.37|||Negative Binomial Regression|||||1.37|0.57|0.5716
92273130|NCT01493531|184448413|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93||||0.7454|TWO_SIDED|95.0|0.6|1.45|||Negative Binomial Regression|||||1.45|0.60|0.7454
92273131|NCT01493531|184448414|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.02||||0.8466|TWO_SIDED|95.0|-0.24|0.2|||Cochran-Mantel-Haenszel|||||0.2|-0.24|0.8466
92273132|NCT01493531|184448414|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.06||||0.6301|TWO_SIDED|95.0|-0.29|0.17|||Cochran-Mantel-Haenszel|||||0.17|-0.29|0.6301
92273133|NCT03070431|184448434|SUPERIORITY|It was assumed that radiotherapy with 5x4 Gy results in 6-month LPFS of 67% and an increase by 20% is clinically relevant when using 5x5 Gy. For comparison of 5x5 Gy and a historical control (5x4 Gy), it was assumed that it can be performed with a simple Pearson-Chi-Square test (2-sided significance level of 5%, power of 79%) if 40 patients treated with 5x5 Gy and 400 patients of the control group qualified for Propensity-Score adjusted comparison, assuming 6-month LPFS rates of 87% and 67%.|Risk Difference (RD)|20.0|||<|0.05|TWO_SIDED||||||Cochran-Mantel-Haenszel|||historical control group treated with 5 x 4 Gy|"In a prospective study, 6-month LPFS rates were 86% after longer-course (mainly 3Gyx10) and 67% after short-course radiotherapy (mainly 4Gyx5) \[Rades D, et al., Int J Radiat Oncol Biol Phys 2009;73:228-34.\]. For sample size calculations, it was assumed that conventional radiotherapy with 4Gyx5 results in 6-month LPFS of 67% and that an increase by 20% is clinically relevant and realistic with 5Gyx5. A sample size of 40 eligible patients was required for the phase 2 trial assuming that that 6-month LPFS would be 87% and estimated with a precision of +/-20% expressed as the half length of the associated two-sided confidence interval (95%), and power of \>=80%.~For comparison of phase 2 cohort and historical control group, it was assumed that this could be performed with a simple Pearson-Chi-Square test using a two-sided significance level of 5% (10%) and a power of 79% (86%) if 40 patients received 5Gyx5 and N=400 of the control group qualified for Propensity-Score adjusted comparison."|||<0.05
92273134|NCT00370396|184448445|NON_INFERIORITY_OR_EQUIVALENCE|Standardized asymptotic 95% confidence interval (CI) for the difference \[Synflorix-Synflorix minus Prevenar-Prevenar\] in terms of percentages of subjects reporting rectal fever \>39.0°C was computed.|Difference in percentage|-4.43|||||TWO_SIDED|95.0|-11.85|-0.21||||||Analysis aimed at demonstrating the non-inferiority of Synflorix™ vs Prevenar™ vaccine, both co-administered with Infanrix hexa™ vaccine, in terms of post-immunization febrile reactions with rectal fever \> 39.0°C.||-0.21|-11.85|
92273135|NCT02340078|184448483|SUPERIORITY||Subjects % with difference in VAS ≥ 10mm|0.9516|||||TWO_SIDED|95.0|0.87|0.99||||||||0.99|0.87|
92273136|NCT00204932|184448484|NON_INFERIORITY_OR_EQUIVALENCE|Power analysis was based on test-retest variance of body fat mass measure by DEXA|||||<|0.05||95.0|||||ANOVA|||Analysis of variance to test CLA not equal to placebo||||<0.05
92273137|NCT00204932|184448484|SUPERIORITY||||||<|0.05|||||||ANOVA|||Pre- post treatment comparison o fat oxidation found that fat oxidation increased in CLA (4 +/- 8 g) and decreased in placebo (-7 +/- 11 g) groups during sleep. after 6 mo of supplementation.||||<0.05
92273138|NCT02176642|184448487|NON_INFERIORITY|We estimated that women in the placebo group would have mean reduction of 3 UUI episodes per day. Assuming 50% improvement in UUI episodes per day is a clinically significant improvement, we estimated the experimental group would have a mean reduction of 4.5 UUI episodes per day with a SD of 1.5 UUI episodes per day. To detect such a difference with 80% power and alpha 0.05, we would need 88 participants for our analysis. To allow for a 12% dropout rate, our goal was to enroll 100 women.||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
92273139|NCT02176642|184448488|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
92273140|NCT02176642|184448489|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92148510|NCT03720938|184182624|SUPERIORITY|||||||0.0001402||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable body mass index z score.||||0.0001402
92273141|NCT02176642|184448490|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
92273142|NCT02176642|184448491|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
92273143|NCT02176642|184448492|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92273144|NCT02176642|184448493|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
92273145|NCT02176642|184448494|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
92273146|NCT02176642|184448495|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||0.94
92273147|NCT00361257|184448496|SUPERIORITY_OR_OTHER||Slope|0.064|STANDARD_ERROR_OF_MEAN|0.164||0.651|TWO_SIDED|95.0|-0.258|0.386||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratification variables, the CNS penetration score, and the baseline NPZ-8 score.|The total number used for the statistical analysis was 107 (52 in the minocycline arm and 55 in the placebo arm).|The null hypothesis was that the 24-week change of NPZ-8 in the minocycline group was the same as the one in the placebo group.||0.386|-0.258|0.651
92273148|NCT00361257|184448497|SUPERIORITY_OR_OTHER||Slope|0.091|STANDARD_ERROR_OF_MEAN|0.116||0.434|TWO_SIDED|95.0|-0.14|0.323||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratification variables, the CNS penetration score, and the baseline GDS score.||The null hypothesis was that the 24-week changes in Global Deficit Score (GDS) between the minocycline and placebo groups are the same.||0.323|-0.140|0.434
92273149|NCT00361257|184448498|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.569|STANDARD_DEVIATION|0.469||0.337|TWO_SIDED|95.0|0.625|3.936||The p-value was not adjusted for multiple comparisons.|Regression, Cumulative Logistic|The model was adjusted for the stratification variables and the CNS penetration score.||The null hypothesis is that the 24 week changes of participants' clinical status in the minocycline group were the same as the ones in the placebo group based on ICGIS.||3.936|0.625|0.337
92273150|NCT00361257|184448499|SUPERIORITY_OR_OTHER||Slope|0.502|STANDARD_ERROR_OF_MEAN|0.428||0.243|TWO_SIDED|95.0|-0.349|1.354||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the CNS penetration score, and the baseline cognitive gross motor function domain score.||The null hypothesis is that the 24 week change in the cognitive gross motor function domain score in the minocycline group is the same as the one in the placebo group.||1.354|-0.349|0.243
92273151|NCT00361257|184448500|SUPERIORITY_OR_OTHER||Slope|0.293|STANDARD_ERROR_OF_MEAN|0.153||0.059|TWO_SIDED|95.0|-0.011|0.596||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the CNS penetration score, and the baseline fine motor function domain score.||The null hypothesis was that the 24 week change in fine motor function domain score in the minocycline group was the same as the one in the placebo group.||0.596|-0.011|0.059
92273152|NCT00361257|184448501|SUPERIORITY_OR_OTHER||Slope|-0.083|STANDARD_ERROR_OF_MEAN|0.147||0.572|TWO_SIDED|95.0|-0.375|0.209||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratified variables, the baseline CNS penetration score, and the baseline psychomotor function domain score.||The null hypothesis was that the 24 change of psychomotor function domain score in the minocycline group is the same as in the placebo group.||0.209|-0.375|0.572
92273153|NCT00361257|184448502|SUPERIORITY_OR_OTHER||Slope|-0.086|STANDARD_ERROR_OF_MEAN|0.182||0.637|TWO_SIDED|95.0|-0.449|0.276||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the CNS penetration score, and the baseline fine motor/nonverbal function domain score.||The null hypothesis was that the 24 week change of fine motor/nonverbal function domain score in the minocycline group was the same as in the placebo group.||0.276|-0.449|0.637
92273154|NCT00361257|184448503|SUPERIORITY_OR_OTHER||Slope|-0.074|STANDARD_ERROR_OF_MEAN|0.236||0.754|TWO_SIDED|95.0|-0.544|0.396||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the CNS penetration score, and the baseline information processing function domain score.||The null hypothesis was that the 24 week change of information processing function domain score in the minocycline group was the same as the one in the placebo group.||0.396|-0.544|0.754
92273155|NCT00361257|184448504|SUPERIORITY_OR_OTHER||Slope|0.145|STANDARD_ERROR_OF_MEAN|0.207||0.484|TWO_SIDED|95.0|-0.266|0.558||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the baseline CNS penetration score, and the baseline verbal memory domain score.||The null hypothesis was that the 24 week change of verbal memory domain score in the minocycline group was the same as the one in the placebo group.||0.558|-0.266|0.484
92396278|NCT03192176|184689392|SUPERIORITY||LSMean differencce|-1.6|STANDARD_ERROR_OF_MEAN|0.87||0.0625|TWO_SIDED|95.0|-3.32|0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.09|-3.32|0.0625
92148511|NCT03720938|184182624|SUPERIORITY|||||||0.000235||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable body index z score.||||0.000235
92148512|NCT03720938|184182625|SUPERIORITY|||||||0.259||||||The outcomes of fat ratio was tested for any difference between groups by covariate analysis (ANCOVA) adjusted for the fat ratio at baseline and confounding variable age.|ANCOVA|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable fat ratio.||||0.259
92148513|NCT03720938|184182625|SUPERIORITY|||||||0.22||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable fat ratio.||||0.220
92148514|NCT03720938|184182625|SUPERIORITY|||||||0.250006||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable fat ratio.||||0.250006
92148515|NCT03720938|184182626|SUPERIORITY|||||||0||||||The outcome of visual reaction time was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for the weight at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable visual reaction time.||||0.000
92148516|NCT03720938|184182626|SUPERIORITY|Adjusted for the weight at baseline and confounding variable age.||||||1.196e-05||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted for cluster effect in addition to baseline value and age.||The outcome of visual reaction time was tested for any difference between groups by linear mixed-effects model analysis.||||0.00001196
92210384|NCT01468831|184321553|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 6 compared to baseline is reported.|Mean Difference (Net)|-51.8|STANDARD_DEVIATION|70.8|||TWO_SIDED|95.0|-231.2|127.6|||||Difference = Minocycline - Placebo|||127.6|-231.2|
92273156|NCT00361257|184448505|SUPERIORITY_OR_OTHER||Slope|-0.126|STANDARD_ERROR_OF_MEAN|0.172||0.467|TWO_SIDED|95.0|-0.467|0.216||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the baseline CNS penetration score, and the baseline frontal systems function domain score.||The null hypothesis was that the 24 week change of frontal systems function domain score in the minocycline group was the same as the one in the placebo group.||0.216|-0.467|0.467
92273157|NCT00361257|184448506|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.476|STANDARD_DEVIATION|1.048||0.234|TWO_SIDED|95.0|0.575|10.668||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the CNS penetration score. The stratification variables could not be included in the model since the model fit was poor.||"The null hypothesis was that the proportion of being better at 24 weeks in minocycline group was the same as in the placebo group."||10.668|0.575|0.234
92396279|NCT03192176|184689392|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.86||0.6613|TWO_SIDED|95.0|-2.07|1.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.32|-2.07|0.6613
92273158|NCT00361257|184448507|SUPERIORITY_OR_OTHER||Slope|19.09|STANDARD_ERROR_OF_MEAN|33.75||0.574|TWO_SIDED|95.0|-48.26|86.44||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratification variables, the baseline CNS score, and the baseline CD4 cell count.||The null hypothesis was that the 24 week change in CD4 cell counts in the minocycline group was the same as the one in the placebo group.||86.44|-48.26|0.574
92273159|NCT00361257|184448508|SUPERIORITY_OR_OTHER||Slope|40.43|STANDARD_ERROR_OF_MEAN|59.91||0.502|TWO_SIDED|95.0|-79.12|159.97||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the baseline CNS penetration score, and the baseline CD8 cell counts.||The null hypothesis was that the 24 week change in CD8 cell count in the minocycline group was the same as the one in the placebo group.||159.97|-79.12|0.502
92273160|NCT00361257|184448509|SUPERIORITY_OR_OTHER|||||||0.967||95.0|||||Log Rank|||The null hypothesis was that the time to Grade 2 or higher toxicity and/or signs and symptoms in the minocycline group was the same as the one in the placebo group.||||0.967
92273161|NCT00361257|184448511|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.071|STANDARD_ERROR_OF_MEAN|0.497||0.89|TWO_SIDED|95.0|0.405|2.837||The p-value was not adjusted for multiple comparisons.|Regression, Logistic|The model was adjusted for the stratification variables and the baseline CNS penetration score.||The null hypothesis was that the proportion of participants who got better at week 24 compared to baseline in the minocycline group was the same as the one in the placebo group.||2.837|0.405|0.890
92273162|NCT00361257|184448512|SUPERIORITY_OR_OTHER||Slope|-0.405|STANDARD_ERROR_OF_MEAN|0.391||0.304|TWO_SIDED|95.0|-1.182|0.373||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the baseline CNS penetration score, and the baseline medication management score.||The null hypothesis was that the 24 change of medication management test score in the minocycline group was the same as the one in the placebo group.||0.373|-1.182|0.304
92273163|NCT00361257|184448517|SUPERIORITY_OR_OTHER||Slope|-0.097|STANDARD_ERROR_OF_MEAN|0.146||0.506|TWO_SIDED|95.0|-0.388|0.193||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the baseline CNS penetration score, and the baseline alternate psychomotor function score.||The null hypothesis was that the 24 week change in alternate psychomotor function score in the minocycline group was the same as the one in the placebo group.||0.193|-0.388|0.506
92148517|NCT03720938|184182626|SUPERIORITY||||||‬|2.82e-05||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable visual reaction time.||||0.0000282‬
92148518|NCT03720938|184182627|SUPERIORITY|||||||0||||||The outcome of visual reaction time of non-dominant hand was tested for any difference between groups.|ANCOVA|Adjusted for the visual reaction time of non-dominant hand at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable visual reaction time of non-dominant hand.||||0.000
92148519|NCT03720938|184182627|SUPERIORITY|||||||9e-08||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable visual reaction time of non-dominant hand.||||0.00000009
92148520|NCT03720938|184182627|SUPERIORITY|||||||55||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable visual reaction time of non-dominant hand.||||000000055
92148521|NCT03720938|184182628|SUPERIORITY|||||||0||||||The outcomes of auditory reaction time of dominant hand was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for the auditory reaction time of dominant hand at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of dominant hand.||||0.000
92210385|NCT01468831|184321554|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|-45.5|STANDARD_DEVIATION|153.5|||TWO_SIDED|95.0|-522.6|431.6|||||Difference = Minocycline - Placebo|||431.6|-522.6|
92273164|NCT00361257|184448518|SUPERIORITY_OR_OTHER||Slope|0.146|STANDARD_ERROR_OF_MEAN|0.207||0.484|TWO_SIDED|95.0|-0.266|0.558||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratification variables, baseline CNS penetration score, and the baseline alternate verbal memory score.||The null hypothesis was that the 24 week change in the alternate verbal memory score in the minocycline group was the same as the one in the placebo group.||0.558|-0.266|0.484
92273165|NCT00361257|184448519|SUPERIORITY_OR_OTHER||Slope|0.055|STANDARD_ERROR_OF_MEAN|0.137||0.69|TWO_SIDED|95.0|-0.217|0.327||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratification variables, baseline CNS penetration score, and the baseline alternate frontal systems score.||The null hypothesis was the 24 week change of alternate frontal systems score in the minocycline group was the same as the one in the placebo group.||0.327|-0.217|0.690
92273166|NCT03471182|184448520|SUPERIORITY|||||||0.035||||||Primary hypothesis of a group difference (i.e., CUD vs HHC-PET participants) in mGluR5 availability was assessed as the significance level of the fixed-effect of group at a threshold of p\<0.05.|Mixed Models Analysis|||Outcome Measure Data were tested using a single linear mixed effects model. The 9 regions of interest (i.e., all 9 Rows of the Outcome Measure Data) were included in the model as a within-subjects factor for the fixed-effect of region. Group (i.e., CUD, HHC-PET) was included in the model as a between-subjects factor for the fixed-effect of group. The model also included the region-by-group interaction term and a factor to model the random-effect of participant.||||0.035
92335335|NCT04530838|184573341|OTHER||GMR|1.19|||||TWO_SIDED|95.0|0.98|1.44||||||Serotype 6A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.44|0.98|
92273167|NCT03471182|184448521|SUPERIORITY|Outcome Measure Data were tested using a single linear mixed effects model. The 4 brain networks of interest (i.e., all 4 Rows of the Outcome Measure Data) were included in the model as a within-subjects factor for the fixed-effect of network. Group (i.e., CUD, HC-MRI) was included in the model as a between-subjects factor for the fixed-effect of group. The model also included the network-by-group interaction term and a factor to model the random-effect of participant.||||||0.024||||||Primary hypothesis of group differences (i.e., CUD vs HC-MRI participants) in functional brain network engagement was assessed as the significance level of the fixed-effect of group at a threshold of p\<0.05.|Mixed Models Analysis|||||||0.024
92273168|NCT03471182|184448522|SUPERIORITY|||||||0.87||||||Primary hypothesis of group differences (i.e., CUD vs HC-MRI participants) in fALFF was assessed as the significance level of the fixed-effect of group at a threshold of p\<0.05.|Mixed Models Analysis|||Outcome Measure Data were tested using a single linear mixed effects model. The 5 brain networks of interest (i.e., all 5 Rows of the Outcome Measure Data) were included in the model as a within-subjects factor for the fixed-effect of network. Group (i.e., CUD, HC-MRI) was included in the model as a between-subjects factor for the fixed-effect of group. The model also included the network-by-group interaction term and a factor to model the random-effect of participant.||||0.870
92273169|NCT00289731|184448537|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two treatment groups (Twinrix Group minus Engerix-B+Havrix Group), in terms of seropositivity rates for anti-HAV antibody, being - 10%.|Difference in seropositivity rate|-1.66|||||TWO_SIDED|95.0|-5.34|1.48||||||Difference in seropositivity rates against hepatitis A virus (HAV) antigen: To demonstrate that the immunogenicity of Twinrix vaccine (Twinrix Group) administered at Months 0, 1 and 6 was non-inferior to that of separately administered monovalent vaccines Engerix-B at Months 0, 1 and 6 and Havrix at Months 0 and 6 (Engerix-B+Havrix Group), in terms of anti-HAV seropositivity rates, at Month 7.||1.48|-5.34|
92273170|NCT00289731|184448537|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two treatment groups (Twinrix Group minus HB VAX PRO+Vaqta Group), in terms of seropositivity rates for anti-HAV antibody, being - 10%.|Difference in seropositivity rate|-1.63|||||TWO_SIDED|95.0|-5.31|1.6||||||Difference in seropositivity rates against hepatitis A virus (HAV) antigen: To demonstrate that the immunogenicity of Twinrix vaccine (Twinrix Group) administered at Months 0, 1 and 6 was non-inferior to that of separately administered monovalent vaccines HB VAX PRO at Months 0, 1 and 6 and Vaqta at Months 0 and 6 (HB VAX PRO+Vaqta Group), in terms of anti-HAV seropositivity rates, at Month 7.||1.60|-5.31|
92335336|NCT04530838|184573341|OTHER||GMR|0.93|||||TWO_SIDED|95.0|0.72|1.21||||||Serotype 6B: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.21|0.72|
92335337|NCT04530838|184573341|OTHER||GMR|0.96|||||TWO_SIDED|95.0|0.82|1.12||||||Serotype 7F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.12|0.82|
92148522|NCT03720938|184182628|SUPERIORITY|||||||1.633e-05||||||The outcomes of auditory reaction time of dominant hand was tested for any difference between groups by linear mixed-effects analysis.|Linear mixed-effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of dominant hand.||||0.00001633
92148523|NCT03720938|184182628|SUPERIORITY|||||||3.67e-05||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of dominant hand.||||0.0000367
92148524|NCT03720938|184182629|SUPERIORITY|||||||0.008||||||The outcomes of auditory reaction time of non-dominant hand was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for the auditory reaction time of non-dominant hand at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of non-dominant hand.||||0.008
92148525|NCT03720938|184182629|SUPERIORITY|||||||0.006||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of non-dominant hand.||||0.006
92148526|NCT03720938|184182629|SUPERIORITY|||||||0.006602||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of non-dominant hand.||||0.006602
92335338|NCT04530838|184573341|OTHER||GMR|0.99|||||TWO_SIDED|95.0|0.85|1.16||||||Serotype 9V: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.16|0.85|
92335339|NCT04530838|184573341|OTHER||GMR|0.87|||||TWO_SIDED|95.0|0.72|1.04||||||Serotype 14: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.04|0.72|
92335340|NCT04530838|184573341|OTHER||GMR|0.92|||||TWO_SIDED|95.0|0.79|1.07||||||Serotype 18C: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.07|0.79|
92335341|NCT04530838|184573341|OTHER||GMR|0.98|||||TWO_SIDED|95.0|0.84|1.13||||||Serotype 19A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.13|0.84|
92148527|NCT03720938|184182630|SUPERIORITY|||||||0.615648||||||The outcome of self-perception for sports competence was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for sports competence at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of sports competence.||||0.615648
92148528|NCT03720938|184182630|SUPERIORITY|||||||0.608||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||The outcome of self-perception for sports competence was tested for any difference between groups by linear mixed-effects model analysis.||||0.608
92148529|NCT03720938|184182630|SUPERIORITY|||||||0.60938||||||The outcome of self-perception for sports competence was tested for any difference between groups by linear mixed-effects model analysis.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of sports competence.||||0.60938
92148530|NCT03720938|184182631|SUPERIORITY|||||||0.094||||||The outcome of self-perception for physical condition competence was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for physical condition competence at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of physical condition competence.||||0.094
92148531|NCT03720938|184182631|SUPERIORITY|||||||0.085||||||The outcome of self-perception for physical condition competence was tested for any difference between groups by linear mixed-effects model analysis.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of physical condition competence.||||0.085
92148532|NCT03720938|184182631|SUPERIORITY|||||||0.08818||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||The outcome of self-perception for sports competence was tested for any difference between groups by linear mixed-effects model analysis.||||0.08818
92148533|NCT03720938|184182632|SUPERIORITY|||||||0.058102||||||The outcome of self-perception for strength competence was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for strength competence at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of strength competence.||||0.058102
92148534|NCT03720938|184182632|SUPERIORITY|||||||0.051||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of strength competence.||||0.051
92148535|NCT03720938|184182632|SUPERIORITY|||||||0.0534||||||The outcome of self-perception for strength competence was tested for any difference between groups by linear mixed-effects model analysis.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of strength competence.||||0.0534
92148536|NCT03720938|184182633|SUPERIORITY|||||||0.638505||||||The outcome of self-perception for body attractiveness was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for body attractiveness at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of body attractiveness.||||0.638505
92148537|NCT03720938|184182633|SUPERIORITY|||||||0.632||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of body attractiveness.||||0.632
92148538|NCT03720938|184182633|SUPERIORITY|||||||0.6328||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of body attractiveness.||||0.63280
92148539|NCT03720938|184182634|SUPERIORITY|||||||0.007061||||||The outcome of self-perception of global physical self-worth was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for global physical self-worth at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global physical self-worth.||||0.007061
92335342|NCT04530838|184573341|OTHER||GMR|0.98|||||TWO_SIDED|95.0|0.87|1.1||||||Serotype 19F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.10|0.87|
92148540|NCT03720938|184182634|SUPERIORITY|||||||0.005||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global physical self-worth.||||0.005
92210386|NCT01468831|184321555|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 18 compared to baseline is reported.|Mean Difference (Net)|-12.8|STANDARD_DEVIATION|163.8|||TWO_SIDED|95.0|-513.1|487.6|||||Difference = Minocycline - Placebo|||487.6|-513.1|
92335343|NCT04530838|184573341|OTHER||GMR|0.98|||||TWO_SIDED|95.0|0.81|1.19||||||Serotype 23F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.19|0.81|
92335344|NCT04530838|184573341|OTHER||GMR|0.99|||||TWO_SIDED|95.0|0.87|1.13||||||Serotype 8: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.13|0.87|
92148541|NCT03720938|184182634|SUPERIORITY|||||||0.00603||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global physical self-worth.||||0.00603
92148542|NCT03720938|184182635|SUPERIORITY|||||||0.002879||||||The outcome of self-perception for global self-worth was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for global self-worth at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global self-worth.||||0.002879
92148543|NCT03720938|184182635|SUPERIORITY|||||||0.002||||||The outcome of self-perception for sports competence was tested for any difference between groups by linear mixed-effects model analysis.|Linear mixed effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global self-worth.||||0.002
92148544|NCT03720938|184182635|SUPERIORITY|||||||0.00238||||||The outcome of self-perception for sports competence was tested for any difference between groups by linear mixed-effects model analysis.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global self-worth.||||0.00238
92148545|NCT03720938|184182636|SUPERIORITY|||||||0.194||||||Tested the significance of gender between genders|Wilcoxon (Mann-Whitney)|||"Enjoyment scale of physical activity sports in intervention group between male and female genders"||||0.194
92148546|NCT03720938|184182637|SUPERIORITY|||||||0.809|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was the absence of difference between the two genders in the Active video game group for the variable of enjoyment from sports category.||||0.809
92148547|NCT03720938|184182638|SUPERIORITY|||||||0.843|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was the absence of difference between the two genders in the active video game group for the variable of enjoyment from balance category.||||0.843
92148548|NCT03720938|184182639|SUPERIORITY|||||||0.247|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was the absence of difference between the two genders in the active video game group for the variable of enjoyment from aerobic category.||||0.247
92148549|NCT03720938|184182640|SUPERIORITY|||||||0.543|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was the absence of difference between the two genders in the active video game group for the variable of enjoyment from training category.||||0.543
92148550|NCT00499863|184182663|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||The null hypothesis was that there is no difference between MTS and placebo.||||< 0.001
92148551|NCT00499863|184182664|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
92210387|NCT01468831|184321556|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|-9.5|STANDARD_DEVIATION|156.8|||TWO_SIDED|95.0|-487.0|468.0|||||Difference = Minocycline - Placebo|||468|-487|
92210388|NCT01468831|184321557|OTHER|The difference between the minocycline and placebo treatment arms in number of participants improving ≥ 1 logOCT scale step in the study eye at Month 12 compared to baseline is reported.|Difference in Number of Participants|1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92210389|NCT01468831|184321558|OTHER|The difference between the minocycline and placebo treatment arms in number of participants improving ≥ 1 logOCT scale step in the study eye at Month 24 compared to baseline is reported|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92396280|NCT03192176|184689392|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.9||0.4209|TWO_SIDED|95.0|-2.48|1.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.04|-2.48|0.4209
92210390|NCT01468831|184321559|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing a decrease in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|-2.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92210391|NCT01468831|184321559|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing an increase in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92210392|NCT01468831|184321559|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing no change in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|2.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92210393|NCT01468831|184321560|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing a decrease in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|-1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92210394|NCT01468831|184321560|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing an increase in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92210395|NCT01468831|184321560|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing no change in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92210396|NCT01287065|184321602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.377|||||TWO_SIDED|90.0|0.293|0.462|||Mixed Models Analysis||Mean difference =FF/VI 100/25 µg PM minus Placebo|||0.462|0.293|
92210397|NCT01287065|184321602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.422|||||TWO_SIDED|90.0|0.337|0.507|||Mixed Models Analysis||Mean difference =FF/VI 100/25 µg AM minus Placebo|||0.507|0.337|
92210398|NCT01287065|184321602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044|||||TWO_SIDED|90.0|-0.125|0.036|||Mixed Models Analysis||Mean difference =FF/VI 100/25 µg AM minusFF/VI 100/25 µg PM|||0.036|-0.125|
92210399|NCT02656160|184321616|OTHER|||||||0.85||||||P\<0.05 considered statistically significant|Wilcoxon (Mann-Whitney)|||tonic||||0.85
92210400|NCT02656160|184321616|OTHER|||||||0.322||||||P\<0.05 considered statistically significant|Wilcoxon (Mann-Whitney)|||Phasic activity||||0.322
92210401|NCT02656160|184321617|OTHER|||||||0.42||||||P\<0.05 considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.42
92210402|NCT01326533|184321700|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANCOVA|Adjusted for baseline value as covariate||||||<0.01
92210403|NCT01326533|184321701|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||ANCOVA|Adjusted for baseline value as covariate||||||0.013
92210404|NCT02594826|184321711|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|35.8|||<|0.001|TWO_SIDED|95.0|11.1|114.9|||Mixed Models Analysis|This is the calculated p-value, which is adjusted for age, marital status, prior screening, health insurance, and having a healthcare provider.||||114.9|11.1|<0.001
92210405|NCT02594826|184321712|SUPERIORITY|||||||0.005|||||||Regression, Linear|Controlling for: marital status, education, language spoken at home, health insurance, regular physician, language of physician, ever had Pap test.||The null hypothesis is that the two conditions would not differ in their knowledge following program participation. The study biostatistician conducted full regression models to examine change in knowledge (from pre- to post-program) within each group and across groups over time. The models controlled for relevant covariates.||||0.005
92210406|NCT01296347|184321733|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
92210407|NCT01296347|184321734|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||6 weeks||||0.71
92210408|NCT01296347|184321734|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||3 month||||1.0
92210409|NCT01296347|184321734|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||6 months||||0.32
92210410|NCT01296347|184321736|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
92210411|NCT01296347|184321737|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92210412|NCT01296347|184321738|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92210413|NCT01296347|184321739|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92210414|NCT02668185|184321755|SUPERIORITY|Generalised linear mixed model with a Poisson error structure|Mean Difference (Net)|29.66|||<|0.0001|TWO_SIDED|95.0|17.39|42.87||Intention to treat adjusted means.|generalised linear mixed model with a Po|Adjusted for intention to treat||||42.87|17.39|<0.0001
92210415|NCT02668185|184321756|SUPERIORITY||Mean Difference (Net)|50.0|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92210416|NCT02668185|184321757|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92210417|NCT02668185|184321758|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92210418|NCT02668185|184321759|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92210419|NCT01013597|184321764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98|||||||t-test, 2 sided|||||||0.98
92210420|NCT02678247|184321767|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|1.5|<|0.001|TWO_SIDED|95.0|0.8|2.3||alpha = 0.05|t-test, 2 sided|paired t-test||||2.3|0.8|<0.001
92210421|NCT02678247|184321768|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.1||0.664|TWO_SIDED|95.0|-0.06|0.04||p-value was adjusted using a Bonferonni correction with alpha set at 0.017|t-test, 2 sided|paired t-test||||0.04|-0.06|0.664
92210422|NCT02678247|184321769|SUPERIORITY||Mean Difference (Final Values)|-1.7|STANDARD_DEVIATION|3.05||0.026|TWO_SIDED|95.0|-3.17|-0.23||p-value was adjusted using a Bonferonni correction with alpha set at 0.017|t-test, 2 sided|paired t-test||||-0.23|-3.17|0.026
92210423|NCT02678247|184321770|SUPERIORITY||Mean Difference (Final Values)|0.21|STANDARD_DEVIATION|4.58||0.847|TWO_SIDED|95.0|-2.0|2.42||p-value was adjusted using a Bonferonni correction with alpha set at 0.025|t-test, 2 sided|paired t-test||||2.42|-2|0.847
92210424|NCT02678247|184321771|SUPERIORITY||Mean Difference (Final Values)|-1.04|STANDARD_DEVIATION|2.87|<|0.017|TWO_SIDED|95.0|-2.42|0.34||p-value was adjusted using a Bonferonni correction with alpha set at 0.017|t-test, 2 sided|paired t-test||||0.34|-2.42|<0.017
92210425|NCT02678247|184321772|OTHER||Mean Difference (Final Values)|0.12|STANDARD_DEVIATION|4.58||0.7|TWO_SIDED|95.0|-0.53|0.77||p-value was adjusted using a Bonferonni correction with alpha set at 0.025|t-test, 2 sided|paired t-test||||0.77|-0.53|0.7
92210426|NCT02678247|184321773|SUPERIORITY||Mean Difference (Final Values)|2.7|STANDARD_DEVIATION|8.9||0.2|TWO_SIDED|95.0|-1.6|7.0||alpha = 0.05|t-test, 2 sided|paired t-test||||7.0|-1.6|0.20
92210427|NCT02678247|184321774|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|10.0||0.62|TWO_SIDED|95.0|-6.0|3.7||alpha = 0.05|t-test, 2 sided|paired t-test||||3.7|-6.0|0.62
92210428|NCT02678247|184321775|SUPERIORITY||Mean Difference (Final Values)|2.6|STANDARD_DEVIATION|5.7||0.07|TWO_SIDED|95.0|-0.2|5.3||alpha = 0.05|t-test, 2 sided|paired t-test||||5.3|-0.2|0.07
92210429|NCT02678247|184321776|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|6.3||0.18|TWO_SIDED|95.0|-5.4|1.1||alpha = 0.05|t-test, 2 sided|paired t-test||||1.1|-5.4|0.18
92210430|NCT02678247|184321777|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|1.3||0.47|TWO_SIDED|95.0|-0.4|0.9||alpha = 0.05|t-test, 2 sided|paired t-test||||0.9|-0.4|0.47
92210431|NCT02678247|184321778|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|3.5||0.68|TWO_SIDED|95.0|-1.4|2.0||alpha = 0.05|t-test, 2 sided|paired t-test||||2.0|-1.4|0.68
92210432|NCT02425644|184321784|SUPERIORITY||Rate ratio|0.695||||0.0003|TWO_SIDED|99.0|0.536|0.902|||Negative binomial regression model|||||0.902|0.536|0.0003
92210433|NCT02425644|184321785|SUPERIORITY||Mean Difference (Final Values)|-3.57||||0.0019|TWO_SIDED|95.0|-5.83|-1.32|||Mixed Models Analysis|||||-1.32|-5.83|0.0019
92210434|NCT02425644|184321786|SUPERIORITY||Rate Ratio|0.444|||<|0.0001|TWO_SIDED|95.0|0.364|0.542|||Negative binomial regression model|||||0.542|0.364|<.0001
92210435|NCT02425644|184321787|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.2939|TWO_SIDED|95.0|0.58|1.18|||Log Rank|||||1.18|0.58|0.2939
92210436|NCT02425644|184321788|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.372|TWO_SIDED|95.0|0.57|1.24|||Log Rank|||||1.24|0.57|0.3720
92210437|NCT02525861|184321804|OTHER||Geometric Mean Ratio|5.398|||<|0.001|||||||Mixed-effects model|||Statistical analysis was collected and assessed based on A1P1 Levels at baseline and On-treatment BAL visit.||||<0.001
92210438|NCT02525861|184321805|OTHER||Geometric Mean Ratio|2.259|||<|0.001|||||||mixed-effects model|||Statistical analysis was collected and assessed based on functional A1P1 Levels at baseline and On-treatment BAL visit.||||<0.001
92210439|NCT01942720|184321813|SUPERIORITY_OR_OTHER||Sperman correlation coeficient|-0.7||||0.631|TWO_SIDED||||||Sperman test|||Relationship of total PillCam SB Lewis score with PGA score change from baseline visit to 6 month follow-up||||0.631
92210440|NCT01942720|184321813|SUPERIORITY_OR_OTHER||Sperman correlation coeficient|0.022||||0.882|TWO_SIDED||||||Sperman correlation|||Relationship of total PillCam SB CECDEIS score with PGA score change from baseline visit to 6 month follow-up||||0.882
92210441|NCT01942720|184321814|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.735|||<|0.001|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam SB TI Lewis scores with TI SES-CD score at baseline visit||||<0.001
92210442|NCT01942720|184321814|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.726|||<|0.001|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam SB TI CECDEIS scores with TI SES-CD score at baseline visit||||<0.001
92210443|NCT01942720|184321815|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.493||||0.002|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam SB Lewis score with TI SES-CD score change from baseline visit to 6 month follow-up||||0.002
92210444|NCT01942720|184321815|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.531|||<|0.001|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam SB CECDEIS score with TI SES-CD score change from baseline visit to 6 month follow-up||||<0.001
92210445|NCT01942720|184321816|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.752|||<|0.001|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam total SB Lewis score change with TI Leis score change from baseline visit to 6 month follow-up||||<0.001
92210446|NCT01942720|184321816|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.785|||<|0.001|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam total SB CECDEIS score change with TI Leis score change from baseline visit to 6 month follow-up||||<0.001
92210447|NCT00325039|184321847|NON_INFERIORITY_OR_EQUIVALENCE|This study was an equivalence trial and was designed to have 80% power to show equivalence between the two sling procedures, with an equivalence margin of +/- 12 percentage points, at a two-sided significance level of 5%. The margin of +/- 12 was chosen on the basis of clinical considerations and a calculation of the number of patients it was feasible to enroll in the trial.|difference in success rate (RMUS-TMUS)|3.0|||||TWO_SIDED|95.0|-3.6|9.6||||||With 294 women/arm, the study would have 80% power to show equivalence between the two procedures, with an equivalence margin of +/- 12 percentage points, at a two-sided significance level of 5%. A planned time-to-event interim analysis of the primary outcome (objective treatment success) was conducted when 33% of the anticipated treatment failures occurred. We adjusted the primary outcome analysis for this interim look by assigning nominal alpha values of 0.049 to the 95% confidence intervals.||9.6|-3.6|
92210448|NCT00325039|184321848|SUPERIORITY_OR_OTHER||Difference in proportions|-4.1||||0.14||95.0||||This was not adjusted for multiple comparisons; the a priori threshold for statistical significance was 0.05.|Chi-squared|||Although the primary aim of the study was designed as an equivalence trial, the secondary aims were considered as superiority tests.||||0.14
92210449|NCT00325039|184321849|NON_INFERIORITY_OR_EQUIVALENCE|This study was an equivalence trial and was designed to have 80% power to show equivalence between the two sling procedures, with an equivalence margin of +/- 12 percentage points, at a two-sided significance level of 5%. The margin of +/- 12 was chosen on the basis of clinical considerations and a calculation of the number of patients it was feasible to enroll in the trial.|difference in success (RMUS - TMUS)|6.4|||||TWO_SIDED|95.0|-1.6|14.3||||||With 294 women/arm, the study would have 80% power to show equivalence between the two procedures, with an equivalence margin of +/- 12 percentage points, at a two-sided significance level of 5%. A planned time-to-event interim analysis of the primary outcome (objective treatment success) was conducted when 33% of the anticipated treatment failures occurred. We adjusted the primary outcome analysis for this interim look by assigning nominal alpha values of 0.049 to the 95% confidence intervals.||14.3|-1.6|
92210450|NCT00325039|184321850|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||t-test, 2 sided|||The null hypothesis is that the two arms do not differ according to quality of life, as measured by the IIQ.||||0.47
92210451|NCT00325039|184321851|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||t-test, 2 sided|||The UDI measure was compared using a two-sample t test.||||0.41
92210452|NCT00892723|184321900|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.87
92210453|NCT00892723|184321900|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.86
92210454|NCT00892723|184321900|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.11
92210455|NCT00892723|184321900|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.91
92210456|NCT00892723|184321901|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.23
92210457|NCT00892723|184321901|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.82
92210458|NCT00892723|184321901|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.23
92210459|NCT00892723|184321901|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.71
92210460|NCT00892723|184321902|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.73
92210461|NCT00892723|184321902|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.94
92210462|NCT00892723|184321902|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.14
92210463|NCT00892723|184321902|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.68
92210464|NCT00892723|184321902|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.56
92210465|NCT00892723|184321902|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.32
92210466|NCT00892723|184321902|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.33
92210467|NCT00892723|184321902|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.65
92210468|NCT00892723|184321902|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.21
92210469|NCT00892723|184321902|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.90
92210470|NCT00892723|184321903|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|95.0|||||Wilcoxon (signed rank)|For this early phase study, no adjustment was used.||||||0.16
92210471|NCT00892723|184321903|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.74
92210472|NCT00892723|184321903|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED|95.0||||For this early phase study, no adjustments were used.|Wilcoxon (signed rank)|||||||0.45
92210473|NCT00892723|184321903|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED|95.0|||||Wilcoxon (signed rank)|For this early phase study, no adjustments were used.||||||0.079
92210474|NCT00892723|184321903|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|95.0|||||Wilcoxon (signed rank)|For this early phase study, no adjustments were used.||||||0.16
92210475|NCT00892723|184321903|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED|95.0||||For this early phase study, no adjustments were used.|Wilcoxon (signed rank)|For this early phase study, no adjustments were used.||||||0.45
92210476|NCT04508023|184321931|SUPERIORITY||Cox Proportional Hazard|1.16||||0.626|TWO_SIDED|95.0|0.63|2.15|||Log Rank|Log rank test stratified by the time from COVID-19 positive test to randomization.||||2.15|0.63|0.626
92210477|NCT01668667|184321978|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-2.57|STANDARD_ERROR_OF_MEAN|0.745||0.014|TWO_SIDED|95.0|-4.62|-0.52|||ANCOVA|No adjustment for multiplicity will be made for these analyses.|The change from baseline data is analyzed using an ANCOVA model with treatment and pooled site as the main effects and the baseline IRLS Rating Scale total score as a covariate.|The null hypothesis for this study is that there is no difference between GEn and placebo in the change from Baseline to the end of treatment in the IRLS Rating Scale total score. All comparisons will be made at the two-sided 0.05 level of significance.||-0.52|-4.62|0.014
92210478|NCT01668667|184321978|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-2.61|STANDARD_ERROR_OF_MEAN|0.764||0.014|TWO_SIDED|95.0|-4.68|-0.54|||ANCOVA|No adjustment for multiplicity will be made for these analyses.|The change from baseline data is analyzed using an ANCOVA model with treatment and pooled site as the main effects and the baseline IRLS Rating Scale total score as a covariate.|The null hypothesis for this study is that there is no difference between GEn and placebo in the change from Baseline to the end of treatment in the IRLS Rating Scale total score. All comparisons will be made at the two-sided 0.05 level of significance.||-0.54|-4.68|0.014
92210479|NCT01668667|184321978|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-1.55|STANDARD_ERROR_OF_MEAN|0.767||0.144|TWO_SIDED|95.0|-3.63|0.53|||ANCOVA|No adjustment for multiplicity will be made for these analyses.|The change from baseline data is analyzed using an ANCOVA model with treatment and pooled site as the main effects and the baseline IRLS Rating Scale total score as a covariate|The null hypothesis for this study is that there is no difference between GEn and placebo in the change from Baseline to the end of treatment in the IRLS Rating Scale total score. All comparisons will be made at the two-sided 0.05 level of significance.||0.53|-3.63|0.144
92210480|NCT01668667|184321979|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.26||||0.004|TWO_SIDED|95.0|1.3|3.95|||Regression, Logistic||The analysis method used was logistic regression with terms of pooled site and treatment.|"The null hypothesis for this study is that there is no difference between GEn and placebo in the proportion of subjects who are responders with much improved or very much improved on the investigator-rated CGI-I at the end of treatment."||3.95|1.30|0.004
92210481|NCT01668667|184321979|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.15||||0.007|TWO_SIDED|95.0|1.23|3.77|||Regression, Logistic||The analysis method used was logistic regression with terms of pooled site and treatment.|"The null hypothesis for this study is that there is no difference between GEn and placebo in the proportion of subjects who are responders with much improved or very much improved on the investigator-rated CGI-I at the end of treatment."||3.77|1.23|0.007
92210482|NCT01668667|184321979|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.24||||0.005|TWO_SIDED|95.0|1.27|3.94|||Regression, Logistic||The analysis method used was logistic regression with terms of pooled site and treatment.|"The null hypothesis for this study is that there is no difference between GEn and placebo in the proportion of subjects who are responders with much improved or very much improved on the investigator-rated CGI-I at the end of treatment."||3.94|1.27|0.005
92210483|NCT01668667|184321980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|TWO_SIDED||||||ANOVA|||For the mean change from Baseline for IRLS Rating Scale total score at the EOT, the linear contrast test based on an analysis of variance with treatment effect was used to detect linear dose-response trends across increasing levels of GEn dosage.||||0.022
92210484|NCT01668667|184321980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.072|TWO_SIDED||||||ANOVA|||Overall treatment effect||||0.072
92210485|NCT01668667|184321981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|TWO_SIDED|||||A significant p-value will indicate a nonzero linear effect across increasing levels of GEn dosage.|Cochran-Armitage trend test|||||||0.012
92210486|NCT02988622|184321982|SUPERIORITY||Mean Difference (Net)|0.1205|STANDARD_DEVIATION|0.5499||0.0492|TWO_SIDED||||||t-test, 2 sided|||||||0.0492
92210487|NCT02988622|184321983|SUPERIORITY||Mean Difference (Net)|0.241|STANDARD_DEVIATION|0.0817||0.0817|TWO_SIDED||||||t-test, 2 sided|||||||0.0817
92210488|NCT02988622|184321984|SUPERIORITY||Mean Difference (Net)|0.3659|STANDARD_DEVIATION|1.7951||0.0686|TWO_SIDED||||||t-test, 2 sided|||||||0.0686
92210489|NCT02988622|184321985|SUPERIORITY||Mean Difference (Net)|-0.0843|STANDARD_DEVIATION|1.5789||0.6278|TWO_SIDED||||||t-test, 2 sided|||||||0.6278
92210490|NCT02988622|184321986|SUPERIORITY||Mean Difference (Net)|0.3373|STANDARD_DEVIATION|1.7619||0.0848|TWO_SIDED||||||t-test, 2 sided|||||||0.0848
92210491|NCT02988622|184321987|SUPERIORITY||Mean Difference (Net)|0.2195|STANDARD_DEVIATION|2.0788||0.3418|TWO_SIDED||||||t-test, 2 sided|||||||0.3418
92210492|NCT02988622|184321988|SUPERIORITY||Mean Difference (Net)|0.2375|STANDARD_DEVIATION|1.5528||0.1752|TWO_SIDED||||||t-test, 2 sided|||||||0.1752
92148552|NCT00499863|184182665|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92148553|NCT00499863|184182666|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92148554|NCT00499863|184182667|SUPERIORITY_OR_OTHER|||||||0.288||95.0|||||ANCOVA|||||||0.288
92148555|NCT00571701|184182675|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
92148556|NCT00571701|184182676|SUPERIORITY_OR_OTHER|||||||0.43|||||||Fisher Exact|||||||0.43
92148557|NCT00571701|184182677|SUPERIORITY_OR_OTHER||||||>|0.3||||||Adjusted for multiple comparisons|Fisher Exact|||||||>0.3
92148558|NCT00571701|184182678|SUPERIORITY_OR_OTHER|||||||1||||||Adjusted for multiple comparisons|Fisher Exact|||||||1.00
92148559|NCT00571701|184182679|SUPERIORITY_OR_OTHER||||||>|0.5||||||Adjusted for multiple comparisons|Fisher Exact|||||||> 0.5
92148560|NCT00571701|184182680|SUPERIORITY_OR_OTHER||||||>|0.56|||||||t-test, 2 sided|||||||>0.56
92148561|NCT00691132|184182683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7||||0.023|TWO_SIDED|95.0|-13.8|-1.2|||Mixed Models Analysis|||% difference between Placebo and PEITC periods in the ratio of \[pyridine-D4\]Hydroxy acid : \[pyridine-D4\] total NNAL||-1.2|-13.8|0.023
92148562|NCT00691132|184182684|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANOVA|||Total ITC||||0.005
92148563|NCT00691132|184182686|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||ANOVA|||Total ITC||||0.017
92148564|NCT00691132|184182687|SUPERIORITY_OR_OTHER|||||||0.039|||||||Mixed Models Analysis|||||||0.039
92148565|NCT00691132|184182687|SUPERIORITY_OR_OTHER|||||||0.623|||||||Mixed Models Analysis|||||||0.623
92148566|NCT00691132|184182687|SUPERIORITY_OR_OTHER|||||||0.045|||||||Mixed Models Analysis|||||||0.045
92148567|NCT03485911|184182776|SUPERIORITY||negative binomial regression model|30.0||||0.024|TWO_SIDED|95.0|4.6|48.7|||negative binomial regression model|||||48.7|4.6|0.024
92148568|NCT03485911|184182776|SUPERIORITY||negative binomial regression model|44.2|||<|0.001|TWO_SIDED|95.0|23.0|59.5|||negative binomial regression model|||||59.5|23.0|<0.001
92148569|NCT03485911|184182778|SUPERIORITY||Mean Difference (Final Values)|-2.77||||0.453|TWO_SIDED|95.0|-10.08|4.53|||mixed-model repeated measures analysis|||Numerical difference in change from baseline of AE-QoL total score between treatment groups.||4.53|-10.08|0.453
92148570|NCT03485911|184182778|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.188|TWO_SIDED|95.0|-12.23|2.43|||mixed-model repeated measures analysis|||Numerical difference in change from baseline of AE-QoL total score between treatment groups.||2.43|-12.23|0.188
92148571|NCT03485911|184182779|SUPERIORITY||Difference in Least Square Means|-0.062||||0.025|TWO_SIDED|95.0|-0.117|-0.008|||ANCOVA|||Numerical differences from the placebo treatment in the LSM proportion of the 169 days of treatment with angioedema symptoms. In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the second secondary endpoint of proportion of days with angioedema symptoms through 24 weeks for statistical significance would not be completed. P-values that are reported are nominal.||-0.008|-0.117|0.025
92148572|NCT03485911|184182779|SUPERIORITY||Difference in Least Square Means|-0.078||||0.006|TWO_SIDED|95.0|-0.133|-0.023|||ANCOVA|||Numerical differences from the placebo treatment in the LSM proportion of the 169 days of treatment with angioedema symptoms. In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the second secondary endpoint of number and proportion of days with angioedema symptoms through 24 weeks for statistical significance would not be completed. P-values that are reported are nominal.||-0.023|-0.133|0.006
92148573|NCT03485911|184182780|SUPERIORITY||negative binomial regression model|30.4||||0.026|TWO_SIDED|95.0|4.3|49.3|||negative binomial regression model|||In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the third secondary endpoint of rate of expert-confirmed HAE attacks during dosing in the effective treatment period for statistical significance would not be completed. P-values reported are nominal.||49.3|4.3|0.026
92148574|NCT03485911|184182780|SUPERIORITY||negative binomial regression model|46.5|||<|0.001|TWO_SIDED|95.0|25.6|61.5|||negative binomial regression model|||In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the third secondary endpoint of rate of expert-confirmed HAE attacks during dosing in the effective treatment period for statistical significance would not be completed. P-values reported are nominal.||61.5|25.6|<0.001
92148575|NCT04037436|184182793|OTHER|GEE|GEE|1.65||||0.05|TWO_SIDED|95.0|-4.44|7.73|||GEE|To model the interaction between exposure to the MoveStrong program and site on secondary outcomes we applied a generalized estimating equation (GEE).||To model the interaction between exposure to the MoveStrong program and site on secondary outcomes we applied a generalized estimating equation (GEE).||7.73|-4.44|0.05
92148576|NCT01859793|184182804|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||Primary and secondary outcome variables were compared across measurement periods by repeated measures ANOVA and post hoc analyses using Tukey's test were applied if significant differences were detected. A priori sample size calculation demonstrated our study design has 80% power to detect a 1.5% absolute increase in FMD% with 30 subjects completing the entire study protocol at α=0.05.||||<0.05
92148577|NCT01859793|184182805|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||Outcome variables were compared across measurement periods by repeated measures ANOVA and post hoc analyses using Tukey's test were applied if significant differences were detected||||<0.05
92148578|NCT01859793|184182806|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||Outcome variables were compared across measurement periods by repeated measures ANOVA and post hoc analyses using Tukey's test were applied if significant differences were detected||||<0.05
92148579|NCT01064297|184182886|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|2.2||||||95.0|1.6|3.1|||||The percentage of infants with MBDs was calculated as: the number of outcomes with MBDs divided by (the number of outcomes with MBDs + the number of live births without defects).|||3.1|1.6|
92148580|NCT01064297|184182886|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|4.2||||||95.0|1.4|11.0|||||The percentage of infants with MBDs was calculated as: the number of outcomes with MBDs divided by (the number of outcomes with MBDs + the number of live births without defects).|||11.0|1.4|
92148581|NCT01064297|184182886|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|2.4||||||95.0|1.7|3.3|||||The percentage of infants with MBDs was calculated as: the number of outcomes with MBDs divided by (the number of outcomes with MBDs + the number of live births without defects).|||3.3|1.7|
92210493|NCT02988622|184321990|SUPERIORITY||Mean Difference (Net)|0.3824|STANDARD_DEVIATION|1.5685||0.0281|TWO_SIDED||||||t-test, 2 sided|||||||0.0281
92210494|NCT01281969|184322004|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.97||||0.44|TWO_SIDED|95.0|-7.1|3.15||p-value is unadjusted. a priori threshold for statistical significance is .05|ANCOVA|F(1,34)=0.62, p=.44||Analysis of covariance model controlling for baseline scores. A priori power calculations based on the Perlmutter et al. study (IVIG effect size 1.2) suggested that a sample size of 16 per group would be sufficient to detect an effect size of 1.0 with 80% power.||3.15|-7.1|0.44
92210495|NCT01281969|184322005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||p-value is not adjusted.|Wilcoxon (Mann-Whitney)|Mean rank sum in the placebo group = 19.92; mean rank sum in the IVIG group = 15.97. Z = -1.18, p=.12||The Wilcoxon two-sample test was used to compare CGI-Improvement ratings (an ordinal variable) at week 6. Power calculation was based on CYBOCS as primary outcome.||||.12
92210496|NCT01281969|184322006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4||||||p-value is not adjusted for multiple comparisons.|Chi-squared|X2 = 0.72, p=.40||Chi-squared test was used to compare distribution of responders by randomization group. Power calculation was based on CY-BOCS (primary outcome).||||.40
92210497|NCT02240693|184322021|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.075||0.3236|TWO_SIDED|95.0|-0.074|0.223||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 10 milligram (mg) once daily (QD) minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.223|-0.074|0.3236
92210498|NCT02240693|184322021|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.076||0.3694|TWO_SIDED|95.0|-0.22|0.082||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg QD minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.082|-0.220|0.3694
92210499|NCT02240693|184322021|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.078||0.8374|TWO_SIDED|95.0|-0.171|0.139||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 50 mg QD minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.139|-0.171|0.8374
92210500|NCT02240693|184322021|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.077||0.5484|TWO_SIDED|95.0|-0.106|0.199||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg twice daily (BID) minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.199|-0.106|0.5484
92210501|NCT02240693|184322021|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.054||0.7905|TWO_SIDED|95.0|-0.092|0.121||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (Pooled BI 409306 minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.121|-0.092|0.7905
92210502|NCT02240693|184322022|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|1.102||0.8973|TWO_SIDED|95.0|-2.33|2.04||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 10 milligram (mg) once daily (QD) minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|2.04|-2.33|0.8973
92210503|NCT02240693|184322022|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|1.122||0.2141|TWO_SIDED|95.0|-0.82|3.63||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 25 mg QD minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|3.63|-0.82|0.2141
92210504|NCT02240693|184322022|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|1.085||0.6553|TWO_SIDED|95.0|-2.64|1.67||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 50 mg QD minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|1.67|-2.64|0.6553
92210505|NCT02240693|184322022|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|1.144||0.7166|TWO_SIDED|95.0|-1.85|2.69||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 25 mg twice daily (BID) minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|2.69|-1.85|0.7166
92210506|NCT02240693|184322023|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.24||0.9491|TWO_SIDED|95.0|-0.49|0.46||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 10 milligram (mg) once daily (QD) minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.46|-0.49|0.9491
92210507|NCT02240693|184322023|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.25||0.1699|TWO_SIDED|95.0|-0.15|0.84||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg QD minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.84|-0.15|0.1699
92210508|NCT02240693|184322023|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.26||0.4948|TWO_SIDED|95.0|-0.69|0.33||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 50 mg QD minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.33|-0.69|0.4948
92210509|NCT02240693|184322023|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.25||0.7548|TWO_SIDED|95.0|-0.42|0.58||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg twice daily (BID) minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.58|-0.42|0.7548
92210510|NCT02240693|184322024|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|1.081||0.8137|TWO_SIDED|95.0|-2.4|1.89||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 10 milligram (mg) once daily (QD) minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|1.89|-2.40|0.8137
92148582|NCT01064297|184182887|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|10.7||||||95.0|6.4|17.0||||||||17.0|6.4|
92148583|NCT01064297|184182887|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|9.3||||||95.0|5.5|15.2|||||The percentage of infants with MBDs was calculated as: the number of outcomes with MBDs divided by (the number of outcomes with MBDs + the number of live births without defects).|||15.2|5.5|
92148584|NCT01064297|184182888|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|2.8||||||95.0|1.5|5.0||||||||5.0|1.5|
92148585|NCT01064297|184182888|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|2.8||||||95.0|1.6|4.9|||||The percentage of infants with MBDs was calculated as: the number of outcomes with MBDs divided by (the number of outcomes with MBDs + the number of live births without defects).|||4.9|1.6|
92148586|NCT00462280|184182894|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.61
92148587|NCT00947661|184182925|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of covariance included treatment, site, and intraocular pressure group as a covariate. Two-sided 95% confidence interval for the difference between treatment groups in estimated mean change from baseline lease square means was computed for each time point. Non-inferiority of SPARC drug relative to Reference was established if: 95% confidence interval included 0, the upper limit of the 95% CI was \<1.5, and upper limit of 95% CI was \<1 at most (at least 7 of 12) time point.|||||<|0.01|TWO_SIDED||||||ANCOVA|||||||<0.01
92148588|NCT00511875|184182936|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||.70
92148589|NCT00511875|184182937|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||Foveal Sensitivity||||.33
92148590|NCT00511875|184182937|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Mean field sensitivity||||.16
92148591|NCT00511875|184182938|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Foveal Sensitivity||||.02
92148592|NCT00511875|184182938|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||mean FDP sensitivity||||.3
92148593|NCT00511875|184182939|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||||||.98
92148594|NCT00511875|184182940|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||.46
92148595|NCT00511875|184182941|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||||||.81
92148596|NCT00511875|184182942|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||.88
92148597|NCT00511875|184182943|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||.75
92148598|NCT00511875|184182944|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|||||||.62
92148599|NCT01349920|184182955|SUPERIORITY_OR_OTHER|||||||0.071|||||||Multiple Linear Regression|||Week 6||||0.071
92148600|NCT01349920|184182955|SUPERIORITY_OR_OTHER|||||||0.381|||||||Multiple Linear Regression|||Week 22||||0.381
92210511|NCT02240693|184322024|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|1.12||0.5801|TWO_SIDED|95.0|-2.84|1.6||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 25 mg QD minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|1.60|-2.84|0.5801
92210512|NCT02240693|184322024|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|1.072||0.2978|TWO_SIDED|95.0|-3.25|1.0||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 50 mg QD minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|1.00|-3.25|0.2978
92210513|NCT02240693|184322024|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-2.51|STANDARD_ERROR_OF_MEAN|1.072||0.0209|TWO_SIDED|95.0|-4.64|-0.39||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 25 mg twice daily (BID) minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|-0.39|-4.64|0.0209
92210514|NCT02240693|184322025|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.056||0.8694|TWO_SIDED|95.0|-0.101|0.12||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 10 milligram (mg) once daily (QD) minus Placebo matching BI 409306)|"Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.~The study identifier is also a categorical covariate for the twin studies analyses."|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.120|-0.101|0.8694
92210515|NCT02240693|184322025|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.057||0.9512|TWO_SIDED|95.0|-0.116|0.109||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg QD minus Placebo matching BI 409306)|"Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.~The study identifier is also a categorical covariate for the twin studies analyses."|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.109|-0.116|0.9512
92210516|NCT02240693|184322025|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.056||0.9321|TWO_SIDED|95.0|-0.105|0.115||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 50 mg QD minus Placebo matching BI 409306)|"Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.~The study identifier is also a categorical covariate for the twin studies analyses."|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.115|-0.105|0.9321
92210517|NCT02240693|184322025|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.057||0.1288|TWO_SIDED|95.0|-0.199|0.025||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg twice daily (BID) minus Placebo matching BI 409306)|"Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.~The study identifier is also a categorical covariate for the twin studies analyses."|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.025|-0.199|0.1288
92227032|NCT00670007|184356107|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.176|||=|0.648|TWO_SIDED|95.0|-1.09|0.738||A 1-sided P-value \< 0.025 and a positive estimate of the treatment difference Early Start minus Delayed Start (ie, the lower bound of the 95% CI being \> zero) will indicate superiority of Early Start compared with Delayed Start.|Regression, Linear|||Analysis of the annual rate of change in lung density (for FRC) was a linear random regression model with country, time since Day 1 \[CE1226\_4001\], and treatment-by-time interaction as fixed effects and subject and subject-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||0.738|-1.09|= 0.648
92335345|NCT04530838|184573341|OTHER||GMR|0.94|||||TWO_SIDED|95.0|0.73|1.2||||||Serotype 10A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.20|0.73|
92335346|NCT04530838|184573341|OTHER||GMR|0.93|||||TWO_SIDED|95.0|0.81|1.06||||||Serotype 11A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.06|0.81|
92335347|NCT04530838|184573341|OTHER||GMR|0.91|||||TWO_SIDED|95.0|0.71|1.15||||||Serotype 12F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.15|0.71|
92210518|NCT02240693|184322025|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.041||0.6492|TWO_SIDED|95.0|-0.098|0.061||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (Pooled BI 409306 minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.061|-0.098|0.6492
92210519|NCT00413972|184322034|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<.0001
92210520|NCT00413972|184322034|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<.0001
92210521|NCT00413972|184322034|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<.0001
92210522|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.1|1.78||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.78|1.10|
92210523|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.32||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.32|0.90|
92210524|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.6|||||TWO_SIDED|95.0|1.19|2.13||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.13|1.19|
92210525|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.2|||||TWO_SIDED|95.0|0.93|1.62||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.62|0.93|
92210526|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|12.1|||||TWO_SIDED|95.0|8.63|17.08||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||17.08|8.63|
92210527|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.5|||||TWO_SIDED|95.0|1.82|3.48||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.48|1.82|
92210528|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.8|||||TWO_SIDED|95.0|1.98|3.87||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.87|1.98|
92210529|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.9|||||TWO_SIDED|95.0|2.0|4.08||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||4.08|2.00|
92210530|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.64|1.21||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.21|0.64|
92396281|NCT03192176|184689392|SUPERIORITY||LSMean differencce|-0.9|STANDARD_ERROR_OF_MEAN|0.89||0.3288|TWO_SIDED|95.0|-2.63|0.88||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.88|-2.63|0.3288
92210531|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.9|||||TWO_SIDED|95.0|1.39|2.51||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.51|1.39|
92210532|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.9|||||TWO_SIDED|95.0|1.56|2.41||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.41|1.56|
92210533|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.72|1.28||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.28|0.72|
92210534|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|5.2|||||TWO_SIDED|95.0|3.67|7.33||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||7.33|3.67|
92210535|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.08|1.73||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.73|1.08|
92210536|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.81|1.19||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.19|0.81|
92210537|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.07|1.77||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.77|1.07|
92210538|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4||||||95.0|1.01|1.8||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.80|1.01|
92210539|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.7|||||TWO_SIDED|95.0|1.3|2.15||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||2.15|1.30|
92210540|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.6|||||TWO_SIDED|95.0|1.24|2.12||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||2.12|1.24|
92210541|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.03|1.79||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.79|1.03|
92210542|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.5||||||95.0|1.11|1.98||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.98|1.11|
92210543|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.6|||||TWO_SIDED|95.0|1.16|2.12||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||2.12|1.16|
92210544|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.86|1.47||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.47|0.86|
92210545|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.16|1.69||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.69|1.16|
92210546|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.2|||||TWO_SIDED|95.0|0.87|1.54||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.54|0.87|
92210547|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.3|||||TWO_SIDED|95.0|0.94|1.84||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.84|0.94|
92210548|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.4|||||TWO_SIDED|95.0|2.03|2.87||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.87|2.03|
92210549|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.84|1.13||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||1.13|0.84|
92335348|NCT04530838|184573341|OTHER||GMR|1.0|||||TWO_SIDED|95.0|0.85|1.18||||||Serotype 15B: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.18|0.85|
92210550|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.3|||||TWO_SIDED|95.0|1.92|2.76||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.76|1.92|
92210551|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.9|||||TWO_SIDED|95.0|1.55|2.42||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.42|1.55|
92210552|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.2|||||TWO_SIDED|95.0|1.84|2.67||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.67|1.84|
92210553|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.9|||||TWO_SIDED|95.0|4.13|5.93||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||5.93|4.13|
92210554|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.9|||||TWO_SIDED|95.0|2.41|3.49||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||3.49|2.41|
92210555|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.9|||||TWO_SIDED|95.0|2.34|3.52||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||3.52|2.34|
92210556|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.9|||||TWO_SIDED|95.0|4.01|5.93||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||5.93|4.01|
92210557|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.3|||||TWO_SIDED|95.0|1.91|2.79||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.79|1.91|
92210558|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.3|||||TWO_SIDED|95.0|2.02|2.66||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.66|2.02|
92210559|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.0|||||TWO_SIDED|95.0|2.44|3.6||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||3.60|2.44|
92210560|NCT00427895|184322043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.2|||||TWO_SIDED|95.0|3.31|5.31||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||5.31|3.31|
92210561|NCT00427895|184322044|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|Difference in Percentage|39.2|||||TWO_SIDED|95.0|33.0|45.1||||||||45.1|33.0|
92210562|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.4|||||TWO_SIDED|95.0|2.32|5.09||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||5.09|2.32|
92210563|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.6|||||TWO_SIDED|95.0|1.13|2.16||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.16|1.13|
92210564|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.3|||||TWO_SIDED|95.0|0.88|1.98||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.98|0.88|
92210565|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.2|||||TWO_SIDED|95.0|2.04|4.97||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||4.97|2.04|
92210566|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.5|||||TWO_SIDED|95.0|1.5|4.0||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||4.00|1.50|
92210567|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.7|||||TWO_SIDED|95.0|2.76|7.99||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||7.99|2.76|
92210568|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.7|||||TWO_SIDED|95.0|0.93|2.97||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.97|0.93|
92210569|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.5|||||TWO_SIDED|95.0|0.99|2.39||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.39|0.99|
92210570|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.2|||||TWO_SIDED|95.0|1.37|3.5||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||3.50|1.37|
92210571|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.6|||||TWO_SIDED|95.0|1.78|3.68||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||3.68|1.78|
92210572|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.7|||||TWO_SIDED|95.0|1.77|4.01||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||4.01|1.77|
92210573|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.5|||||TWO_SIDED|95.0|1.99|6.13||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||6.13|1.99|
92210574|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.2|||||TWO_SIDED|95.0|2.87|6.08||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||6.08|2.87|
92210575|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.1|||||TWO_SIDED|95.0|2.26|4.3||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||4.30|2.26|
92210576|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT ratio|2.6|||||TWO_SIDED|95.0|1.72|3.8||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||3.80|1.72|
92210577|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|6.5|||||TWO_SIDED|95.0|4.09|10.19||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||10.19|4.09|
92210578|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.9|||||TWO_SIDED|95.0|1.83|4.63||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||4.63|1.83|
92210579|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.8|||||TWO_SIDED|95.0|2.41|6.03||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||6.03|2.41|
92210580|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|5.8|||||TWO_SIDED|95.0|3.13|10.82||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||10.82|3.13|
92210581|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.9|||||TWO_SIDED|95.0|1.3|2.84||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.84|1.30|
92210582|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.1|||||TWO_SIDED|95.0|2.02|4.78||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||4.78|2.02|
92210583|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.7|||||TWO_SIDED|95.0|1.87|3.76||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||3.76|1.87|
92335349|NCT04530838|184573341|OTHER||GMR|0.89|||||TWO_SIDED|95.0|0.78|1.02||||||Serotype 22F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.02|0.78|
92210584|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.4|||||TWO_SIDED|95.0|2.97|6.58||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||6.58|2.97|
92210585|NCT00427895|184322045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|5.5|||||TWO_SIDED|95.0|3.2|9.41||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||9.41|3.20|
92210586|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|6.5|||||TWO_SIDED|95.0|1.9|11.2||||||Serotype 1: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||11.2|1.9|
92210587|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.9|||||TWO_SIDED|95.0|-0.3|8.1||||||Serotype 3: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||8.1|-0.3|
92210588|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.4|||||TWO_SIDED|95.0|-0.2|7.2||||||Serotype 4: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.2|-0.2|
92210589|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|2.3|||||TWO_SIDED|95.0|-2.6|7.2||||||Serotype 5: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.2|-2.6|
92210590|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|26.6|||||TWO_SIDED|95.0|21.7|31.7||||||Serotype 6A: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||31.7|21.7|
92210591|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|7.5|||||TWO_SIDED|95.0|3.2|12.0||||||Serotype 6B: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||12.0|3.2|
92210592|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|12.3|||||TWO_SIDED|95.0|7.3|17.4||||||Serotype 7F: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||17.4|7.3|
92210593|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|14.1|||||TWO_SIDED|95.0|8.7|19.5||||||Serotype 9V: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||19.5|8.7|
92210594|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|-0.9|||||TWO_SIDED|95.0|-5.6|3.8||||||Serotype 14: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||3.8|-5.6|
92210595|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|6.5|||||TWO_SIDED|95.0|2.6|10.5||||||Serotype 18C: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||10.5|2.6|
92335350|NCT04530838|184573341|OTHER||GMR|0.95|||||TWO_SIDED|95.0|0.79|1.15||||||Serotype 33F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.15|0.79|
92210596|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|4.1|||||TWO_SIDED|95.0|1.2|7.1||||||Serotype 19A: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.1|1.2|
92210597|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|Difference in Percentage|-1.2|||||TWO_SIDED|95.0|-5.5|3.2||||||Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.||3.2|-5.5|
92210598|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|23.2|||||TWO_SIDED|95.0|17.0|29.3||||||Serotype 23F: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||29.3|17.0|
92210599|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.6|||||TWO_SIDED|95.0|-0.2|7.5||||||Serotype 1: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.5|-0.2|
92210600|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|0.2|||||TWO_SIDED|95.0|-3.6|4.1||||||Serotype 3: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||4.1|-3.6|
92335351|NCT02672176|184573348|EQUIVALENCE|Information included in Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92335352|NCT02672176|184573349|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92335353|NCT02672176|184573350|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92335354|NCT02672176|184573351|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92210601|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|2.4|||||TWO_SIDED|95.0|-0.4|5.5||||||Serotype 4: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||5.5|-0.4|
92210602|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|-0.9|||||TWO_SIDED|95.0|-5.8|3.9||||||Serotype 5: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||3.9|-5.8|
92210603|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|2.2|||||TWO_SIDED|95.0|-0.4|4.8||||||Serotype 6A: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||4.8|-0.4|
92210604|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|4.0|||||TWO_SIDED|95.0|0.8|7.2||||||Serotype 6B: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.2|0.8|
92210605|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|4.4|||||TWO_SIDED|95.0|0.6|8.2||||||Serotype 7F: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||8.2|0.6|
92210606|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.8|||||TWO_SIDED|95.0|-0.3|7.9||||||Serotype 9V: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.9|-0.3|
92210607|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Perecentage|4.2|||||TWO_SIDED|95.0|-0.1|8.7||||||Serotype 14: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||8.7|-0.1|
92210608|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|-0.6|||||TWO_SIDED|95.0|-3.8|2.5||||||Serotype 18C: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||2.5|-3.8|
92210609|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|-0.1|||||TWO_SIDED|95.0|-2.1|1.9||||||Serotype 19A: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||1.9|-2.1|
92210610|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|1.9|||||TWO_SIDED|95.0|-2.4|6.2||||||Serotype 19F: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||6.2|-2.4|
92210611|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|0.5|||||TWO_SIDED|95.0|-4.7|5.7||||||Serotype 23F: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||5.7|-4.7|
92210612|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|7.2|||||TWO_SIDED|95.0|4.3|10.6||||||Serotype 1: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||10.6|4.3|
92210613|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|2.6|||||TWO_SIDED|95.0|-0.3|5.9||||||Serotype 3: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||5.9|-0.3|
92210614|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|4.2|||||TWO_SIDED|95.0|2.1|6.9||||||Serotype 4: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||6.9|2.1|
92210615|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|5.1|||||TWO_SIDED|95.0|1.4|9.1||||||Serotype 5: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||9.1|1.4|
92210616|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.7|||||TWO_SIDED|95.0|1.7|6.1||||||Serotype 6A: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||6.1|1.7|
92210617|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|6.4|||||TWO_SIDED|95.0|4.1|9.3||||||Serotype 6B: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||9.3|4.1|
92210618|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|8.2|||||TWO_SIDED|95.0|5.4|11.6||||||Serotype 7F: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||11.6|5.4|
92210619|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|7.8|||||TWO_SIDED|95.0|4.8|11.4||||||Serotype 9V: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||11.4|4.8|
92335355|NCT02672176|184573352|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92210620|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|11.2|||||TWO_SIDED|95.0|8.0|14.9||||||Serotype 14: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||14.9|8.0|
92210621|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.1|||||TWO_SIDED|95.0|0.9|5.7||||||Serotype 18C: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||5.7|0.9|
92210622|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|1.4|||||TWO_SIDED|95.0|0.3|3.1||||||Serotype 19A: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||3.1|0.3|
92210623|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|8.4|||||TWO_SIDED|95.0|5.4|12.0||||||Serotype 19F: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||12.0|5.4|
92210624|NCT00427895|184322046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|10.5|||||TWO_SIDED|95.0|6.8|14.7||||||Serotype 23F: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||14.7|6.8|
92210625|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.31|||||TWO_SIDED|95.0|1.52|3.51||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||3.51|1.52|
92210626|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.37|||||TWO_SIDED|95.0|0.95|1.99||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.99|0.95|
92210627|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.32|||||TWO_SIDED|95.0|1.47|3.64||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||3.64|1.47|
92210628|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.4|||||TWO_SIDED|95.0|0.92|2.12||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.12|0.92|
92210629|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.47|||||TWO_SIDED|95.0|1.01|2.16||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.16|1.01|
92210630|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.03|||||TWO_SIDED|95.0|0.67|1.59||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.59|0.67|
92210631|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.34|||||TWO_SIDED|95.0|0.94|1.92||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.92|0.94|
92210632|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.33|||||TWO_SIDED|95.0|0.8|2.23||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.23|0.80|
92210633|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.68|1.59||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.59|0.68|
92210634|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.15|||||TWO_SIDED|95.0|0.8|1.66||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.66|0.80|
92210635|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.79||||||95.0|1.07|3.0||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||3.00|1.07|
92210636|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.45|||||TWO_SIDED|95.0|0.95|2.24||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.24|0.95|
92335356|NCT02672176|184573353|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92335357|NCT02672176|184573354|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92335358|NCT02672176|184573355|EQUIVALENCE|Information in Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92335359|NCT02672176|184573356|EQUIVALENCE|Information included in Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92335360|NCT02362425|184573367|SUPERIORITY|An a priori power calculation, with power at 80% and a two-sided α of 0·05, determined that n=76 participants (n=38 per group) would be required to detect a statistically significant post-intervention difference in plasma glutathione (GSH) concentration between NAC and placebo groups. After the primary endpoint was changed, re-evaluation of the sample size determined that a larger sample (total n=182) would be required. As per protocol, the study was completed at this time.|Mean Difference (Final Values)|0.1||||0.88|TWO_SIDED|95.0|-1.4|1.6|||Regression, Linear|Model comparing 12 m corrected 15-F2t-isoprostane conc. controlling for pre-intervention value. Investigated covariates: smoking and drinking status.||Null Hypothesis: In RYR1-RM myopathy patients, there will be no statistically significant difference in corrected 15-F2t-isoprostane concentration and/or corrected 15=f2t-Isop:PGR2alpha ratio between NAC and placebo groups at month 12, after controlling for established a priori confounders.||1.6|-1.4|0.88
92335361|NCT02362425|184573368|SUPERIORITY||Mean Difference (Final Values)|23.9||||0.11|TWO_SIDED|95.0|-5.5|53.4||Model controlled for six-month(pre-intervention) distance and treatment group. Investigated covariates: height|Regression, Linear|||In RYR1-RM myopathy patients, there will be no statistically significant difference in 6MWT (six minute walk test) total distance between NAC and placebo groups at month 12, after controlling for established a priori confounders.||53.4|-5.5|.11
92335362|NCT02362425|184573369|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.14|TWO_SIDED|95.0|-3.6|0.7|||Regression, Linear|||||0.7|-3.6|0.14
92335363|NCT02362425|184573370|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.62|TWO_SIDED|95.0|-0.5|0.3|||t-test, 2 sided|||||0.3|-0.5|0.62
92335364|NCT02362425|184573371|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.05|TWO_SIDED|95.0|-1.1|0.0|||t-test, 2 sided|||||0.0|-1.1|0.05
92335365|NCT02362425|184573372|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.25|TWO_SIDED|95.0|-2.1|0.6|||t-test, 2 sided|||||0.6|-2.1|0.25
92396282|NCT03192176|184689392|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.9||0.0202|TWO_SIDED|95.0|-3.86|-0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.33|-3.86|0.0202
92396283|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.9||0.0682|TWO_SIDED|95.0|-3.42|0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.12|-3.42|0.0682
92335366|NCT02362425|184573373|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.05|TWO_SIDED|95.0|-2.1|0.0|||t-test, 2 sided|||||0.0|-2.1|0.05
92335367|NCT02362425|184573374|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.09|TWO_SIDED|95.0|-0.6|7.3|||t-test, 2 sided|||||7.3|-0.6|0.09
92335368|NCT02362425|184573375|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.69|TWO_SIDED|95.0|-1.3|2.0|||t-test, 2 sided|||||2.0|-1.3|0.69
92335369|NCT02362425|184573376|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.31|TWO_SIDED|95.0|-3.5|1.1|||t-test, 2 sided|||||1.1|-3.5|0.31
92335370|NCT02362425|184573377|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.22|TWO_SIDED|95.0|-0.8|3.0|||t-test, 2 sided|||||3.0|-0.8|0.22
92335371|NCT02362425|184573378|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.93|TWO_SIDED|95.0|-2.6|2.4|||t-test, 2 sided|||||2.4|-2.6|0.93
92335372|NCT02362425|184573379|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.66|TWO_SIDED|95.0|-1.3|0.8|||t-test, 2 sided|||||0.8|-1.3|0.66
92335373|NCT02362425|184573380|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.09|TWO_SIDED|95.0|-0.4|4.6|||t-test, 2 sided|||||4.6|-0.4|0.09
92335374|NCT02362425|184573381|SUPERIORITY||Mean Difference (Final Values)|4.2||||0.09|TWO_SIDED|95.0|-0.7|9.0|||t-test, 2 sided|||||9.0|-0.7|0.09
92335375|NCT02362425|184573382|SUPERIORITY||Mean Difference (Final Values)|-5.5||||0.15|TWO_SIDED|95.0|-13.4|2.4|||t-test, 2 sided|||||2.4|-13.4|0.15
92335376|NCT02362425|184573383|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.08|TWO_SIDED|95.0|-13.7|1.0|||t-test, 2 sided|||||1.0|-13.7|0.08
92335377|NCT02362425|184573384|SUPERIORITY||Mean Difference (Final Values)|-16.27||||0.39|TWO_SIDED|95.0|-80.1|47.5|||t-test, 2 sided|||||47.5|-80.1|0.39
92335378|NCT02362425|184573385|SUPERIORITY||Mean Difference (Final Values)|10.0||||0.57|TWO_SIDED|95.0|-59.5|39.5|||t-test, 2 sided|||||39.5|-59.5|0.57
92335379|NCT02362425|184573386|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.12|TWO_SIDED|95.0|-5.0|0.6|||t-test, 2 sided|||||0.6|-5.0|0.12
92335380|NCT02362425|184573387|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.76|TWO_SIDED|95.0|-3.6|2.7|||t-test, 2 sided|||||2.7|-3.6|0.76
92335381|NCT02362425|184573388|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.72|TWO_SIDED|95.0|-2.5|3.5|||t-test, 2 sided|||||3.5|-2.5|0.72
92335382|NCT02362425|184573389|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.7|TWO_SIDED|95.0|-1.8|2.7|||t-test, 2 sided|||||2.7|-1.8|0.70
92335383|NCT02362425|184573390|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.88|TWO_SIDED|95.0|-2.8|3.3|||t-test, 2 sided|||||3.3|-2.8|0.88
92335384|NCT02362425|184573391|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.61|TWO_SIDED|95.0|-10.3|15.2|||t-test, 2 sided|||||15.2|-10.3|0.61
92335385|NCT02362425|184573392|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.87|TWO_SIDED|95.0|-7.4|8.5|||t-test, 2 sided|||||8.5|-7.4|0.87
92335386|NCT02362425|184573393|SUPERIORITY||Mean Difference (Final Values)|-12.5||||0.28|TWO_SIDED|95.0|-38.9|13.9|||t-test, 2 sided|||||13.9|-38.9|0.28
92335387|NCT02688764|184573438|SUPERIORITY|||||||0.1465||||||0.05 level of significance|t-test, 2 sided|||Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects.||||0.1465
92335388|NCT02688764|184573441|SUPERIORITY|||||||0.0872||||||0.05 level of significance|t-test, 2 sided|||Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects||||0.0872
92396284|NCT03192176|184689392|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.86||0.3912|TWO_SIDED|95.0|-2.44|0.96||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.96|-2.44|0.3912
92396285|NCT03192176|184689392|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.85||0.4964|TWO_SIDED|95.0|-2.25|1.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.09|-2.25|0.4964
92396286|NCT03192176|184689392|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.84||0.983|TWO_SIDED|95.0|-1.64|1.68||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.68|-1.64|0.9830
92396287|NCT03192176|184689392|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.89||0.9715|TWO_SIDED|95.0|-1.71|1.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.78|-1.71|0.9715
92273171|NCT00289731|184448538|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two treatment groups (Twinrix Group minus Engerix-B+Havrix Group), in terms of seroprotection rates for anti-HBs antibody, being - 10%.|Difference in seroprotection rate|12.04|||||TWO_SIDED|95.0|4.97|19.35||||||Difference in seroprotection rates against hepatitis B surface (HBs) antigen: To demonstrate that the immunogenicity of Twinrix vaccine (Twinrix Group) administered at Months 0, 1 and 6 was non-inferior to that of separately administered monovalent vaccines Engerix-B at Months 0, 1 and 6 and Havrix at Months 0 and 6 (Engerix-B+Havrix Group), in terms of anti-HBs seroprotection rates, at Month 7.||19.35|4.97|
92273172|NCT00289731|184448538|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two treatment groups (Twinrix Group minus HB VAX PRO+Vaqta Group), in terms of seroprotection rates for anti-HBs antibody, being - 15%.|Difference in seroprotection rates|20.69|||||TWO_SIDED|95.0|12.92|28.62||||||Difference in seropositivity rates against hepatitis B surface (HBs) antigen: To demonstrate that the immunogenicity of Twinrix vaccine (Twinrix Group) administered at Months 0, 1 and 6 was non-inferior to that of separately administered monovalent vaccines HB VAX PRO at Months 0, 1 and 6 and Vaqta at Months 0 and 6 (HB VAX PRO+Vaqta Group), in terms of anti-HBs seroprotection rates, at Month 7.||28.62|12.92|
92396288|NCT03192176|184689392|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.87||0.8715|TWO_SIDED|95.0|-1.58|1.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.86|-1.58|0.8715
92396289|NCT03192176|184689392|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.89||0.2233|TWO_SIDED|95.0|-2.83|0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.66|-2.83|0.2233
92273173|NCT01170364|184448568|SUPERIORITY||||||<|0.004|||||||paired sample t-test, two tailed|||||||<0.004
92273174|NCT00368537|184448571|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|0.0||||||95.0|-8.7|8.6|||||Confidence interval calculated using asymptotic method corrected for continuity. Difference= Tigecycline minus Ampicillin-Sulbactam or Amoxicillin-Clavulanate.|||8.6|-8.7|
92273175|NCT00368537|184448572|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|2.2||||||95.0|-9.6|14.0|||||Confidence interval calculated using asymptotic method corrected for continuity. Difference= Tigecycline minus Ampicillin-Sulbactam or Amoxicillin-Clavulanate.|||14.0|-9.6|
92273176|NCT00368537|184448573|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|2.4||||||95.0|-9.6|14.4|||||Confidence interval calculated using asymptotic method corrected for continuity. Difference= Tigecycline minus Ampicillin-Sulbactam or Amoxicillin-Clavulanate.|Group comparison of eradication + presumed eradication||14.4|-9.6|
92273177|NCT00368537|184448575|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.2||||0.444||95.0|-4.4|2.0|||Fisher Exact|2-sided||Intensive care unit||2.0|-4.4|0.444
92273178|NCT01368276|184448588|SUPERIORITY_OR_OTHER||Treatment Difference|-42.9||||0.2645|TWO_SIDED|||||Descriptive|Fisher Exact||Talimogene laherparepvec - GM-CSF|||||0.2645
92273179|NCT01368276|184448589|SUPERIORITY_OR_OTHER||Treatment Difference|-1.2||||1|TWO_SIDED|95.0|-57.3|54.9||Descriptive|Fisher Exact||Talimogene laherparepvec - GM-CSF|||54.9|-57.3|1.0000
92273180|NCT01427920|184448590|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for subject-driven vs. investigator driven titration would be concluded if the upper bound of the two-sided 95% CI was below or equal to 0.4%.|Estimated treatment difference, Mean|0.25||||||95.0|0.04|0.46|||Regression, Linear|Model includes treatment, strata and region as factors and relevant baseline HbA1c as covariate.||FAS||0.46|0.04|
92273181|NCT01427920|184448591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for subject-driven vs. investigator driven titration would be concluded if the upper bound of the two-sided 95% CI was below or equal to 0.4%.|Estimated treatment difference, Mean|0.26||||||95.0|0.05|0.48|||Regression, Linear|Model includes treatment, strata and region as factors and relevant baseline HbA1c as covariate.||PP||0.48|0.05|
92210637|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.18|||||TWO_SIDED|95.0|1.53|3.12||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||3.12|1.53|
92210638|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.42|||||TWO_SIDED|95.0|1.06|1.91||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||1.91|1.06|
92210639|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.47|||||TWO_SIDED|95.0|1.71|3.55||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||3.55|1.71|
92210640|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.99|||||TWO_SIDED|95.0|1.45|2.74||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.74|1.45|
92210641|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.04|||||TWO_SIDED|95.0|1.5|2.76||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.76|1.50|
92210642|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.85|||||TWO_SIDED|95.0|1.32|2.58||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.58|1.32|
92210643|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.96|||||TWO_SIDED|95.0|1.46|2.62||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.62|1.46|
92210644|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.96|||||TWO_SIDED|95.0|1.32|2.91||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.91|1.32|
92210645|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.36|||||TWO_SIDED|95.0|0.94|1.97||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||1.97|0.94|
92210646|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.48|||||TWO_SIDED|95.0|1.08|2.03||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.03|1.08|
92210647|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|3.35|||||TWO_SIDED|95.0|2.19|5.12||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||5.12|2.19|
92210648|NCT00427895|184322048|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.0|||||TWO_SIDED|95.0|1.41|2.83||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.83|1.41|
92210649|NCT03534284|184322080|SUPERIORITY|||||||0.6761||||||0.05 threshold for significance; no adjustment for multiple comparisons|Mixed Models Analysis|||Null hypothesis: average CBT-I=Trazodone=Placebo at week 7||||0.6761
92210650|NCT03534284|184322081|SUPERIORITY|||||||0.8375|||||||Mixed Models Analysis|||Null hypothesis: average CBT-I=Trazodone=Placebo at week 25||||0.8375
92210651|NCT03316300|184322104|SUPERIORITY||Mean Difference (Final Values)|-0.091|STANDARD_ERROR_OF_MEAN|0.0176|<|0.0001|TWO_SIDED|95.0|-0.13|-0.06|||Mixed Models Analysis|||||-0.06|-0.13|<0.0001
92210652|NCT02618642|184322123|SUPERIORITY|||||||0.3879|||||||Wilcoxon (Mann-Whitney)|||the results in the irradiated group (n=45) and the control group (n=15) were compared||||0.3879
92210653|NCT02618642|184322123|SUPERIORITY|||||||0.5361|||||||Kruskal-Wallis|||comparison was conducted of the results obtained with a different filter were compared||||0.5361
92210654|NCT02618642|184322124|SUPERIORITY|||||||0.4669|||||||Wilcoxon (Mann-Whitney)|||the results in the irradiated group (n=45) vs the control group (placebo) (n=15) were compared.||||0.4669
92210655|NCT02618642|184322124|SUPERIORITY|||||||0.4161|||||||Kruskal-Wallis|||||||0.4161
92210656|NCT02618642|184322125|SUPERIORITY|||||||0.9596|||||||Wilcoxon (Mann-Whitney)|||the results in the irradiated group (n=45) and the control group (n=15) were compared.||||0.9596
92210657|NCT02618642|184322125|SUPERIORITY|||||||0.0907|||||||Kruskal-Wallis|||||||0.0907
92210658|NCT02618642|184322126|SUPERIORITY|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||the results in the irradiated group (n=45) and the control group (n=15) were compared.||||0.0110
92210659|NCT02618642|184322126|SUPERIORITY|||||||0.1165|||||||Kruskal-Wallis|||comparison was conducted of the results obtained with a different filter (groups v, x, y,||||0.1165
92210660|NCT02618642|184322127|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||he results in the irradiated group (n=45) and the control group (n=15) were compared||||0.0200
92273182|NCT01427920|184448592|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|0.13||||0.659||95.0|-0.44|0.69|||Regression, Linear|Model includes treatment, strata and region as factors and relevant baseline FPG as covariate.||H0: D = 0.0% against HA: D ≠ 0.0%, where D is the mean treatment difference (subject-driven titration minus investigator-driven titration).||0.69|-0.44|0.659
92273183|NCT03341273|184448597|NON_INFERIORITY|The non-inferiority margin is 12.5%. Non-inferiority of placebo is concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement is greater than -12.5%.|Risk Difference (RD)|-6.0|||||TWO_SIDED|95.0|-15.0|2.0||The null hypothesis was evaluated using a non-inferiority test and non-inferiority of placebo was concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement was greater than -12.5%.|||Multiple imputation with a linear model to impute missing clinical values of improvement. The study day that D5V occurred on was included as a covariate in the final model and the estimates for risk difference assume that study day of D5V is 5.|Null Hypothesis: Proportion in placebo - Proportion in azithromycin = -12.5%||2|-15|
92273184|NCT03341273|184448598|NON_INFERIORITY|The non-inferiority margin is 12.5%. Non-inferiority of placebo is concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement is greater than -12.5%.|Risk Difference (RD)|-4.0|||||TWO_SIDED|95.0|-12.0|3.0||The null hypothesis was evaluated using a non-inferiority test and non-inferiority of placebo was concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement was greater than -12.5%.|||Multiple imputation with a linear model to impute missing clinical values of improvement. The study day that D11V occurred on was included as a covariate in the final model and the estimates for risk difference assume that study day of D11V is 11.|Null Hypothesis: Proportion in placebo - Proportion in azithromycin = -12.5%||3|-12|
92273185|NCT03341273|184448599|NON_INFERIORITY|The non-inferiority margin is 12.5%. Non-inferiority of placebo is concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement is greater than -12.5%.|Risk Difference (RD)|-7.0|||||TWO_SIDED|95.0|-13.0|0.0||The null hypothesis was evaluated using a non-inferiority test and non-inferiority of placebo was concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement was greater than -12.5%.|||Multiple imputation with a linear model to impute missing clinical values of improvement. The study day that D11V occurred on was included as a covariate in the final model and the estimates for risk difference assume that study day of D28V is 28.|Null Hypothesis: Proportion in placebo - Proportion in azithromycin = -12.5%||0|-13|
92273186|NCT03341273|184448600|SUPERIORITY|DOOR is a composite endpoint created using clinical outcomes from Day 1 through Day 5 Visit. It is based on adequate clinical improvement at Day 5 Visit and solicited events from Day 1 through Day 5 Visit.|Pr(Higher DOOR in Placebo at Day 5 Visit|0.63|||<|0.001|TWO_SIDED|95.0|0.57|0.68||Missing DOOR values at Day 5 Visit were first imputed using linear regression using baseline covariates and available DOOR components as covariates.|Wilcoxon (Mann-Whitney)|The Mann-Whitney test was run on the multiple imputed datasets to generate estimates of DOOR probability and p-value||Null: The sum of the probability that a participant assigned to placebo will have a higher DOOR at Day 5 visit than if assigned to the Azithromycin plus one-half the probability of equal DOORs at Day 5 Visit is 50% (i.e., no difference in DOOR at Day 5 Visit).||0.68|0.57|<0.001
92273187|NCT01717456|184448620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_DEVIATION|6.72||0.05|TWO_SIDED|95.0||||No adjustment for multiple comparisons.|t-test, 2 sided|||||||.05
92396290|NCT03192176|184689392|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.89||0.2882|TWO_SIDED|95.0|-2.69|0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.80|-2.69|0.2882
92396291|NCT03192176|184689392|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.84||0.8643||95.0|-1.52|1.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.80|-1.52|0.8643
92210661|NCT02618642|184322127|SUPERIORITY|comparison was conducted of the results obtained with a different filter (groups v, x, y,||||||0.0014|||||||Kruskal-Wallis|||||||0.0014
92210662|NCT00822523|184322150|SUPERIORITY_OR_OTHER|||||||0.61|||||||t-test, 2 sided|||Two sample t-test comparing baseline and day 1 H0: There is no change in mean force between baseline and day 1 HA: There is change in mean force between baseline and day 1||||0.61
92210663|NCT00822523|184322150|SUPERIORITY_OR_OTHER|||||||0.787|||||||t-test, 2 sided|||Two sample t-test comparing baseline and day 2 H0: There is no change in mean force between baseline and day 2 HA: There is change in mean force between baseline and day 2||||0.787
92210664|NCT00822523|184322150|SUPERIORITY_OR_OTHER|||||||0.234|||||||t-test, 2 sided|||Two sample t-test comparing baseline and day 4 H0: There is no change in mean force between baseline and day 4 HA: There is change in mean force between baseline and day 4||||0.234
92210665|NCT00822523|184322150|SUPERIORITY_OR_OTHER|||||||0.256|||||||t-test, 2 sided|||Two sample t-test comparing baseline and day 14 H0: There is no change in mean force between baseline and day 14 HA: There is change in mean force between baseline and day 14||||0.256
92210666|NCT00822523|184322150|SUPERIORITY_OR_OTHER|||||||0.292|||||||t-test, 2 sided|||Two sample t-test comparing baseline and day 21 H0: There is no change in mean force between baseline and day 21 HA: There is change in mean force between baseline and day 21||||0.292
92210667|NCT00822523|184322150|SUPERIORITY_OR_OTHER|||||||0.589|||||||t-test, 2 sided|||Two sample t-test comparing baseline and month 4 H0: There is no change in mean force between baseline and month 4 HA: There is change in mean force between baseline and month 4||||0.589
92273188|NCT04991311|184448682|SUPERIORITY||Mean Difference (Final Values)|398.4|STANDARD_DEVIATION|581.6|=|0.0585|TWO_SIDED|95.0|-17.6|814.4|||Paired t-test (2-sided, alpha=0.05)|||The participants in both comparison groups are the same.||814.4|-17.6|= 0.0585
92273189|NCT00054275|184448710|SUPERIORITY_OR_OTHER||proportion of pts with partial response|0.39||||0.95|TWO_SIDED|95.0|0.23|0.58|||confidence interval for partial response|Confidence interval for partial response rate using Wilson's Method||||0.58|0.23|0.95
92273190|NCT03944707|184448734|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_DEVIATION|0.0698||0.6643|TWO_SIDED|80.0|-0.06|0.119||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|||0.119|-0.060|0.6643
92273191|NCT03944707|184448738|SUPERIORITY||Median Difference (Net)|-0.09|STANDARD_DEVIATION|0.21||0.6609|TWO_SIDED|80.0|-0.35|0.18||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|||0.18|-0.35|0.6609
92273192|NCT03944707|184448739|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_DEVIATION|7.13||0.5107|TWO_SIDED|80.0|-9.0|9.1||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|Change from baseline in mean morning PEF||9.1|-9.0|0.5107
92273193|NCT03944707|184448739|SUPERIORITY||Mean Difference (Net)|-3.4|STANDARD_DEVIATION|9.15||0.3611|TWO_SIDED|80.0|-15.2|8.1||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|Change from baseline in mean evening PEF||8.1|-15.2|0.3611
92273194|NCT03944707|184448740|SUPERIORITY||Mean Difference (Net)|-0.133|STANDARD_DEVIATION|0.1588||0.8022|TWO_SIDED|80.0|-0.336|0.071||Probability LOU064 better than placebo|Bayesian model||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|||0.071|-0.336|0.8022
92273195|NCT03944707|184448741|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_DEVIATION|0.1573||0.6312|TWO_SIDED|80.0|-0.251|0.149||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|Change from baseline in daytime asthma symptom score||0.149|-0.251|0.6312
92273196|NCT03944707|184448741|SUPERIORITY||Mean Difference (Net)|0.075|STANDARD_DEVIATION|0.0819||0.1752|TWO_SIDED|80.0|-0.028|0.18||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|Change from baseline in nighttime asthma symptom score||0.180|-0.028|0.1752
92273197|NCT02444182|184448749|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|STANDARD_DEVIATION|0.21||0.015|TWO_SIDED||||||paired t-test|||Null hypothesis was no difference in Gingival index between probiotics and control groups||||0.015
92273198|NCT02444182|184448750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_DEVIATION|0.09||0.909|TWO_SIDED||||||paired t-test|||Null hypothesis was no difference in plaque index between probiotics and control groups||||0.909
92210668|NCT00822523|184322151|SUPERIORITY_OR_OTHER|||||||0.636|||||||Repeated measure ANOVA|||Repeated measure ANOVA assessing change in the three baseline force measurements H0: There no significant difference in the three baseline force measurements HA: There is a significant difference in the three baseline force measurements||||0.636
92273199|NCT01453374|184448754|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Fisher Exact|||||||>0.05
92273200|NCT01453374|184448755|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Fisher Exact|||||||>0.05
92273201|NCT01453374|184448756|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Fisher Exact|||||||<0.05
92273202|NCT01453374|184448762|SUPERIORITY_OR_OTHER||||||<|0.1|TWO_SIDED||||||Fisher Exact|||||||<0.10
92273203|NCT00996918|184448775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.39|TWO_SIDED|95.0|-4.29|1.68|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 13.~Results are from a restricted maximum likelihood (REML)-based mixed model for repeated measures (MMRM) with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.68|-4.29|0.390
92273204|NCT00996918|184448775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.264|TWO_SIDED|95.0|-1.37|4.97|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 13.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.97|-1.37|0.264
92273205|NCT00996918|184448775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51||||0.357|TWO_SIDED|95.0|-4.74|1.72|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.72|-4.74|0.357
92273206|NCT00996918|184448775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.981|TWO_SIDED|95.0|-3.5|3.42|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.42|-3.50|0.981
92273207|NCT00996918|184448775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95||||0.584|TWO_SIDED|95.0|-4.37|2.47|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 39.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.47|-4.37|0.584
92273208|NCT00996918|184448775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.58||||0.392|TWO_SIDED|95.0|-2.05|5.2|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 39.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.20|-2.05|0.392
92273209|NCT00996918|184448775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||0.345|TWO_SIDED|95.0|-6.34|2.24|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.24|-6.34|0.345
92273210|NCT00996918|184448775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.922|TWO_SIDED|95.0|-4.73|4.28|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.28|-4.73|0.922
92273211|NCT00996918|184448775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.44||||0.384|TWO_SIDED|95.0|-7.97|3.1|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.10|-7.97|0.384
92273212|NCT00996918|184448775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.961|TWO_SIDED|95.0|-6.08|5.78|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.78|-6.08|0.961
92273213|NCT00996918|184448776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.837|TWO_SIDED|95.0|-1.91|2.35|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 13.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.35|-1.91|0.837
92273214|NCT00996918|184448776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.14||||0.064|TWO_SIDED|95.0|-0.13|4.41|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 13.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.41|-0.13|0.064
92273215|NCT00996918|184448776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.99|TWO_SIDED|95.0|-2.32|2.35|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.35|-2.32|0.990
92273216|NCT00996918|184448776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.817|TWO_SIDED|95.0|-2.22|2.82|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.82|-2.22|0.817
92273217|NCT00996918|184448776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.697|TWO_SIDED|95.0|-2.04|3.05|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 39.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.05|-2.04|0.697
92273218|NCT00996918|184448776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.93||||0.158|TWO_SIDED|95.0|-0.76|4.63|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 39.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.63|-0.76|0.158
92273219|NCT00996918|184448776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.829|TWO_SIDED|95.0|-4.06|3.26|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.26|-4.06|0.829
92273220|NCT00996918|184448776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.95|TWO_SIDED|95.0|-3.69|3.93|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.93|-3.69|0.950
92273221|NCT00996918|184448776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.816|TWO_SIDED|95.0|-5.35|4.23|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.23|-5.35|0.816
92273222|NCT00996918|184448776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82||||0.751|TWO_SIDED|95.0|-4.32|5.96|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.96|-4.32|0.751
92273223|NCT00996918|184448777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.967|TWO_SIDED|95.0|-7.22|7.53|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 13.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||7.53|-7.22|0.967
92273224|NCT00996918|184448777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.13||||0.593|TWO_SIDED|95.0|-5.72|9.98|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 13.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||9.98|-5.72|0.593
92273225|NCT00996918|184448777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.968|TWO_SIDED|95.0|-7.32|7.62|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||7.62|-7.32|0.968
92273226|NCT00996918|184448777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.92||||0.473|TWO_SIDED|95.0|-10.92|5.08|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.08|-10.92|0.473
92273227|NCT00996918|184448777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.95||||0.63|TWO_SIDED|95.0|-9.91|6.02|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 39.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||6.02|-9.91|0.630
92273228|NCT00996918|184448777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.53||||0.293|TWO_SIDED|95.0|-13.02|3.95|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 39.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.95|-13.02|0.293
92273229|NCT00996918|184448777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.53||||0.733|TWO_SIDED|95.0|-7.28|10.33|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||10.33|-7.28|0.733
92273230|NCT00996918|184448777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.81||||0.55|TWO_SIDED|95.0|-12.06|6.45|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||6.45|-12.06|0.550
92396292|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0104|TWO_SIDED|95.0|-0.53|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.07|-0.53|0.0104
92210669|NCT00822523|184322151|SUPERIORITY_OR_OTHER|||||||0.178|||||||Repeated measure ANOVA|||Repeated measure ANOVA assessing change in baseline force by treatment arm. H0: There is no difference in mean baseline force by treatment arm HA: There is a difference in mean baseline force by treatment arm||||0.178
92273231|NCT00996918|184448777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73||||0.902|TWO_SIDED|95.0|-11.04|12.5|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||12.50|-11.04|0.902
92273232|NCT00996918|184448777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.07||||0.43|TWO_SIDED|95.0|-17.75|7.61|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||7.61|-17.75|0.430
92273233|NCT00996918|184448778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.683|TWO_SIDED|95.0|-6.01|3.95|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 13.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.95|-6.01|0.683
92273234|NCT00996918|184448778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.69||||0.177|TWO_SIDED|95.0|-1.68|9.06|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 13.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||9.06|-1.68|0.177
92273235|NCT00996918|184448778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89||||0.734|TWO_SIDED|95.0|-6.03|4.25|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.25|-6.03|0.734
92273236|NCT00996918|184448778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.595|TWO_SIDED|95.0|-7.06|4.05|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.05|-7.06|0.595
92273237|NCT00996918|184448778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35||||0.409|TWO_SIDED|95.0|-7.95|3.24|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 39.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.24|-7.95|0.409
92273238|NCT00996918|184448778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74||||0.368|TWO_SIDED|95.0|-8.73|3.24|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 39.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.24|-8.73|0.368
92273239|NCT00996918|184448778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44||||0.458|TWO_SIDED|95.0|-4.01|8.89|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||8.89|-4.01|0.458
92273240|NCT00996918|184448778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04||||0.76|TWO_SIDED|95.0|-7.77|5.68|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.68|-7.77|0.760
92273241|NCT00996918|184448778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09||||0.597|TWO_SIDED|95.0|-5.67|9.86|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||9.86|-5.67|0.597
92273242|NCT00996918|184448778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.87||||0.501|TWO_SIDED|95.0|-11.24|5.5|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.50|-11.24|0.501
92396293|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.006|TWO_SIDED|95.0|-0.56|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.09|-0.56|0.0060
92396294|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.71|-0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.24|-0.71|<0.0001
92210670|NCT00822523|184322152|SUPERIORITY_OR_OTHER|||||||0.995|||||||Repeated measure ANOVA|||Repeated measure ANOVA assessing percent change (from baseline) in force for contrast of day 14 and day 21 H0: There is no difference in percent change in force between day 14 and day 21 HA: There is a difference in percent change in force between day 14 and day 21||||0.995
92273243|NCT00996918|184448779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.183|TWO_SIDED|95.0|-8.91|1.71|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.71|-8.91|0.183
92273244|NCT00996918|184448779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.92|TWO_SIDED|95.0|-5.92|5.35|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.35|-5.92|0.920
92273245|NCT00996918|184448779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.99||||0.133|TWO_SIDED|95.0|-11.52|1.53|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.53|-11.52|0.133
92273246|NCT00996918|184448779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.34||||0.505|TWO_SIDED|95.0|-4.55|9.22|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||9.22|-4.55|0.505
92273247|NCT00996918|184448779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.86||||0.003|TWO_SIDED|95.0|-21.46|-4.25|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||-4.25|-21.46|0.003
92210671|NCT00822523|184322152|SUPERIORITY_OR_OTHER|||||||0.2088|||||||Repeated measure ANOVA|||"Repeated measure ANOVA assessing percent change in force from baseline for day 14 and 21 by treatment arm.~H0: There is no significant different in percent change in force by treatment arm HA: There is a significant different in percent change in force by treatment arm"||||0.2088
92210672|NCT00822523|184322154|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
92210673|NCT00822523|184322154|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
92210674|NCT00822523|184322154|SUPERIORITY_OR_OTHER||r value|0.8||||0.104|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.104
92210675|NCT00822523|184322156|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
92210676|NCT00822523|184322156|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
92210677|NCT00822523|184322156|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.0374
92210678|NCT00822523|184322157|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
92210679|NCT00822523|184322157|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
92210680|NCT00822523|184322157|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.188
92210681|NCT00822523|184322158|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
92210682|NCT00822523|184322158|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
92396295|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.85|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.38|-0.85|<0.0001
92210683|NCT00822523|184322158|SUPERIORITY_OR_OTHER||r value|0.5||||0.391|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.391
92210684|NCT00822523|184322159|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
92273248|NCT00996918|184448779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47||||0.76|TWO_SIDED|95.0|-7.95|10.88|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||10.88|-7.95|0.760
92210685|NCT00822523|184322159|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
92210686|NCT00822523|184322159|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.0374
92210687|NCT00822523|184322160|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
92210688|NCT00822523|184322160|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
92210689|NCT00822523|184322160|SUPERIORITY_OR_OTHER||r value|0.4||||0.505|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.505
92210690|NCT00822523|184322161|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
92210691|NCT00822523|184322161|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
92210692|NCT00822523|184322161|SUPERIORITY_OR_OTHER||r value|0.8||||0.104|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.104
92210693|NCT00822523|184322162|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
92210694|NCT00822523|184322162|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
92210695|NCT00822523|184322162|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.0374
92210696|NCT00822523|184322163|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
92210697|NCT00822523|184322163|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
92210698|NCT00822523|184322163|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.188
92210699|NCT00822523|184322164|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
92210700|NCT00822523|184322164|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
92210701|NCT00822523|184322164|SUPERIORITY_OR_OTHER||r value|0.5||||0.391|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.391
92210702|NCT00822523|184322165|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
92210703|NCT00822523|184322165|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
92210704|NCT00822523|184322165|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.0374
92210705|NCT00822523|184322166|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
92273249|NCT00996918|184448780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08||||0.373|TWO_SIDED|95.0|-6.68|2.52|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.52|-6.68|0.373
92273250|NCT00996918|184448780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.677|TWO_SIDED|95.0|-5.92|3.86|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.86|-5.92|0.677
92273251|NCT00996918|184448780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.28|TWO_SIDED|95.0|-9.61|2.8|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.80|-9.61|0.280
92273252|NCT00996918|184448780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.95|TWO_SIDED|95.0|-6.34|6.76|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||6.76|-6.34|0.950
92273253|NCT00996918|184448780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.06||||0.13|TWO_SIDED|95.0|-23.16|3.05|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.05|-23.16|0.130
92210706|NCT00822523|184322166|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
92273254|NCT00996918|184448780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.48||||0.732|TWO_SIDED|95.0|-11.97|16.94|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||16.94|-11.97|0.732
92273255|NCT00996918|184448781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.938|TWO_SIDED|95.0|-1.12|1.21|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 6.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.21|-1.12|0.938
92273256|NCT00996918|184448781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.753|TWO_SIDED|95.0|-1.43|1.04|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 6.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.04|-1.43|0.753
92396296|NCT03192176|184689393|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.6977|TWO_SIDED|95.0|-0.28|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.19|-0.28|0.6977
92210707|NCT00822523|184322166|SUPERIORITY_OR_OTHER||r value|0.4||||0.505|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.505
92273257|NCT00996918|184448781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.809|TWO_SIDED|95.0|-1.04|1.33|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 19.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.33|-1.04|0.809
92273258|NCT00996918|184448781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.421|TWO_SIDED|95.0|-1.8|0.75|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 19.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||0.75|-1.80|0.421
92273259|NCT00996918|184448781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.535|TWO_SIDED|95.0|-0.85|1.63|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 32.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.63|-0.85|0.535
92273260|NCT00996918|184448781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.445|TWO_SIDED|95.0|-0.82|1.86|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 32.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.86|-0.82|0.445
92273261|NCT00996918|184448781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73||||0.309|TWO_SIDED|95.0|-0.67|2.12|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 45.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.12|-0.67|0.309
92273262|NCT00996918|184448781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.872|TWO_SIDED|95.0|-1.34|1.57|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 45.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.57|-1.34|0.872
92273263|NCT00996918|184448781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.52||||0.004|TWO_SIDED|95.0|0.79|4.26|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.26|0.79|0.004
92273264|NCT00996918|184448781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09||||0.026|TWO_SIDED|95.0|0.25|3.93|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.93|0.25|0.026
92273265|NCT00996918|184448782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.504|TWO_SIDED|95.0|-0.77|1.57|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 6.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.57|-0.77|0.504
92273266|NCT00996918|184448782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.592|TWO_SIDED|95.0|-1.58|0.9|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 6.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||0.90|-1.58|0.592
92273267|NCT00996918|184448782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.441|TWO_SIDED|95.0|-0.72|1.65|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 19.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.65|-0.72|0.441
92273268|NCT00996918|184448782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.288|TWO_SIDED|95.0|-1.97|0.59|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 19.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||0.59|-1.97|0.288
92273269|NCT00996918|184448782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.303|TWO_SIDED|95.0|-0.59|1.9|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 32.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.90|-0.59|0.303
92396297|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0121|TWO_SIDED|95.0|-0.53|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.07|-0.53|0.0121
92273270|NCT00996918|184448782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.713|TWO_SIDED|95.0|-1.09|1.6|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 32.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.60|-1.09|0.713
92335389|NCT02688764|184573442|SUPERIORITY|||||||0.6207||||||0.05 level of significance|t-test, 2 sided|||Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 2 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects.||||0.6207
92335390|NCT02688764|184573442|SUPERIORITY|||||||0.3226||||||0.05 level of significance|t-test, 2 sided|||Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 2 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects.||||0.3226
92335391|NCT02688764|184573460|SUPERIORITY|||||||0.5682||||||0.05 level of significance|t-test, 2 sided|||"Age group of \>=2 years to \<6 years~Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects."||||0.5682
92335392|NCT02688764|184573460|SUPERIORITY|||||||0.2271||||||0.05 level of significance|t-test, 2 sided|||"Age group of \>=6 years to \<12 years~Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects."||||0.2271
92335393|NCT02688764|184573460|SUPERIORITY|||||||0.022||||||0.05 level of significance|t-test, 2 sided|||"Age group of \>=12 years to \<=18 years~Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects."||||0.0220
92335394|NCT02688764|184573461|SUPERIORITY|||||||0.0058||||||0.05 level of significance|t-test, 2 sided|||"Group of SP at baseline above Age Related Normal Range~Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects."||||0.0058
92273271|NCT00996918|184448782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93||||0.198|TWO_SIDED|95.0|-0.49|2.34|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 45.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.34|-0.49|0.198
92273272|NCT00996918|184448782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.756|TWO_SIDED|95.0|-1.7|1.24|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 45.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.24|-1.70|0.756
92273273|NCT00996918|184448782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.45||||0.006|TWO_SIDED|95.0|0.69|4.22|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.22|0.69|0.006
92273274|NCT00996918|184448782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.75||||0.066|TWO_SIDED|95.0|-0.12|3.62|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.62|-0.12|0.066
92273275|NCT01965535|184448784|SUPERIORITY_OR_OTHER||difference in proportions|1.4|||||TWO_SIDED|95.0|-5.9|8.6|||||The 2-sided 95% confidence interval (CI) on the difference in SVR12 rates between the 2 treatment groups was constructed based on stratum-adjusted Mantel-Haenszel (MH) proportions.|A sample size of 75 subjects in each treatment group would provide 80% power to detect a difference of 15% in SVR12 rates (80% vs 95%) between the 2 treatment groups.||8.6|-5.9|
92273276|NCT01946282|184448814|EQUIVALENCE|Assuming a FIT return rate of 29% for the outreach only group at an a=0.05, we estimated more than 90% power to detect an absolute difference greater than 5% when using a chi-square test of proportions to compare patients who received any incentive ($5 or $10) compared with patients who received outreach only.||||||0.59|||||||Chi-squared|||||||0.59
92273277|NCT01946282|184448814|EQUIVALENCE|Assuming a FIT return rate of 29% for the outreach only group at an a=0.05, we estimated more than 90% power to detect an absolute difference greater than 5% when using a chi-square test of proportions to compare patients who received any incentive ($5 or $10) compared with patients who received outreach only.||||||0.75|||||||Chi-squared|||||||.75
92273278|NCT01946282|184448814|EQUIVALENCE|Assuming a FIT return rate of 29% for the outreach only group at an a=0.05, we estimated more than 90% power to detect an absolute difference greater than 5% when using a chi-square test of proportions to compare patients who received any incentive ($5 or $10) compared with patients who received outreach only.||||||0.08|||||||Chi-squared|||||||.080
92273279|NCT01946282|184448815|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.07|||||||Chi-squared|||||||0.070
92273280|NCT01946282|184448815|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.8|||||||Chi-squared|||||||0.80
92273281|NCT01946282|184448815|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.6|||||||Chi-squared|||||||0.60
92273282|NCT01946282|184448815|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.31|||||||Chi-squared|||||||0.31
92273283|NCT01946282|184448815|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.82|||||||Chi-squared|||||||0.82
92335395|NCT02688764|184573461|SUPERIORITY|||||||0.5801||||||0.05 level of significance|t-test, 2 sided|||"Group of SP at baseline below or within Age Related Normal Range~Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects."||||0.5801
92273284|NCT01946282|184448815|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.033|||||||Chi-squared|||||||0.033
92273285|NCT01946282|184448815|EQUIVALENCE|We estimated needing 545 observations per incentive group to achieve power necessary to detect at least a 10% absolute difference in FIT return rate between patients who received the $5 incentive versus patients who received the $10 incentive, with assumed rates of 45% in the $5 incentive group and 53% in the $10 incentive group, a=0.05, and power=90%.||||||0.033|||||||Chi-squared|||||||0.033
92210708|NCT03567434|184322167|SUPERIORITY|The original hypothesis was that resting MSNA burst frequency would be higher the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.||||||0.283||||||The original hypothesis was that resting MSNA burst frequency would be higher the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.|t-test, 2 sided|||Statistical analysis on Burst Frequency (Burst/Min)||||0.283
92210709|NCT03567434|184322167|SUPERIORITY|The original hypothesis was that resting MSNA burst incidence would be higher the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.||||||0.92||||||The original hypothesis was that resting MSNA burst frequency would be higher the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.|t-test, 2 sided|||Statistical analysis on Burst Incidence (Burst/100hb)||||0.920
92210710|NCT03567434|184322169|SUPERIORITY|The original hypothesis was that sympathetic baroreflex sensitivity would be blunted the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.||||||0.888||||||The original hypothesis was that sympathetic baroreflex sensitivity would be blunted the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.|t-test, 2 sided|||||||0.888
92210711|NCT02181387|184322181|OTHER|unpaired t-test compared between groups|||||>|0.05|||||||unpaired t-test compared between groups|||||||>0.05
92210712|NCT02181387|184322181|OTHER|unpaired t-test compared between groups|||||>|0.05|||||||unpaired t-test compared between groups|||||||>0.05
92273286|NCT01946282|184448815|EQUIVALENCE||||||>|0.99|||||||Chi-squared|||||||>0.99
92396298|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0086|TWO_SIDED|95.0|-0.54|-0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.08|-0.54|0.0086
92396299|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.0138|TWO_SIDED|95.0|-0.66|-0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.08|-0.66|0.0138
92273287|NCT01946282|184448815|EQUIVALENCE|||||||0.184|||||||Chi-squared|||||||0.184
92273288|NCT01749033|184448857|SUPERIORITY_OR_OTHER_LEGACY|||||||0.76|||||||Chi-squared|||We planned a sample size of 429 to achieve a 80% power to detect an effect size difference of w=0.15 using 2 degrees of freedom chi-square test with a significance level (alpha) of .05.||||.76
92210713|NCT02881957|184322183|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Two-sided t-test evaluated comparing length of stay in vitamin D3 vs. placebo treated patients utilizing patients as randomized (e.g., intent-to-treat) using a p\<0.05 as significant. Adverse events were monitored until discharge.||||0.2
92210714|NCT02881957|184322184|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||0.4
92210715|NCT02881957|184322185|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.3
92273289|NCT01749033|184448859|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.05|TWO_SIDED||||||Chi-squared||The reported p value was calculated.|We planned a sample size of 429 to achieve a 80% power to detect an effect size difference of w=0.15 using 2 degrees of freedom chi-square test with a significance level (alpha) of .05.||||.05
92273290|NCT01039584|184448895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The primary efficacy measure was the proportion of subjects with therapeutic cure at Visit 3/Test-of-Cure. Therapeutic cure was defined as having both a mycological cure and a clinical cure.|Yates continuity correction|1.5|||||TWO_SIDED|90.0|-9.1|12.3|||Wald's method|||||12.3|-9.1|
92273291|NCT01039584|184448896|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The efficacy measure was the proportion of subjects with clinicl cure at Visit 3/Test-of-Cure.|Yates continuity correction|1.5|||||TWO_SIDED|90.0|-7.3|12.8|||Wald's method|||||12.8|-7.3|
92273292|NCT01039584|184448897|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The efficacy measure was the proportion of subjects with mycological cure at Visit 3/Test-of-Cure|Yates continuity correction|1.5||||0.05|TWO_SIDED|90.0|-11.7|9.4|||Wald's method|||||9.4|-11.7|0.05
92210716|NCT02881957|184322186|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.6
92210717|NCT02881957|184322187|SUPERIORITY|||||||0.7|||||||Chi-squared|||||||0.7
92210718|NCT02881957|184322188|SUPERIORITY|||||||0.99|||||||Chi-squared|||Adverse events were monitored until patient discharge from the hospital.||||0.99
92210719|NCT02881957|184322189|SUPERIORITY|||||||0.6|||||||Chi-squared|||Adverse events were monitored until patient discharge from the hospital.||||0.6
92210720|NCT02881957|184322190|SUPERIORITY|||||||0.7|||||||Chi-squared|||Adverse events were monitored until patient discharge from the hospital.||||0.7
92210721|NCT02881957|184322191|SUPERIORITY|||||||0.4|||||||Chi-squared|||Adverse events were monitored until patient discharge from the hospital.||||0.4
92210722|NCT02881957|184322192|SUPERIORITY|||||||0.1|||||||Chi-squared|||Adverse events were monitored until patient discharge from the hospital.||||0.1
92210723|NCT05269355|184322222|OTHER||Hazard Ratio (HR)|0.61||||0.0017|TWO_SIDED|95.0|0.45|0.83|||Regression, Cox|||||0.83|0.45|0.0017
92210724|NCT01880528|184322244|SUPERIORITY|||||||0.006|||||||Kruskal-Wallis|||||||0.006
92210725|NCT01880528|184322245|SUPERIORITY|||||||0.0337|||||||Kruskal-Wallis|||||||0.0337
92210726|NCT01880528|184322246|SUPERIORITY|||||||0.0427|||||||Kruskal-Wallis|||||||0.0427
92210727|NCT01880528|184322247|SUPERIORITY|||||||0.0237|||||||Kruskal-Wallis|||||||0.0237
92273293|NCT03550794|184448922|OTHER||Mean Difference (Final Values)|-0.57||||0.07|TWO_SIDED|95.0|-1.18|0.04||"Mixed model controlling for repeated measures within patients used to get a mean difference in creatinine between the thiamine and placebo groups at 72 hours.~Missing creatinine imputed using a penalty (20pc increase) as described in SAP."|Mixed Models Analysis|P-value is for the comparison at 72 hours from the mixed model (i.e, not a global p-value)||||0.04|-1.18|0.07
92273294|NCT03550794|184448923|OTHER||Odds Ratio (OR)|0.58||||0.34|TWO_SIDED|95.0|0.18|1.74||P-value from odds ratio from logistic regression model controlling for site, with outcome of receiving renal replacement therapy.|Regression, Logistic|||||1.74|0.18|0.34
92273295|NCT03550794|184448924|OTHER||Median Difference (Final Values)|22.0||||0.002|TWO_SIDED|95.0|7.4|36.6||P-value from quantile regression model controlling for site.|Quantile regression|||||36.6|7.4|0.002
92273296|NCT03550794|184448925|OTHER||Hazard Ratio (HR)|0.62||||0.14|TWO_SIDED|95.0|0.32|1.18||P-value from Cox proportional hazards model adjusting for site.|Regression, Cox|||||1.18|0.32|0.14
92273297|NCT03550794|184448926|OTHER||Odds Ratio (OR)|0.43||||0.07|TWO_SIDED|95.0|0.17|1.06||P-value from logistic regression model controlling for site|Regression, Logistic|||||1.06|0.17|0.07
92273298|NCT03550794|184448927|OTHER||Mean Difference (Final Values)|0.96||||0.79|TWO_SIDED|95.0|0.71|1.3||"Mixed model controlling for repeated measures within patients used to get a mean difference in lactate between the thiamine and placebo groups at 72 hours.~Missing lactate imputed using a penalty (20pc increase) as described in SAP."|Mixed Models Analysis|P-value is for the comparison at 72 hours from the mixed model (i.e, not a global p-value)||||1.30|0.71|0.79
92273299|NCT03550794|184448929|OTHER||Mean Difference (Final Values)|-1.53||||0.16|TWO_SIDED|95.0|-3.63|0.58||"Mixed model controlling for repeated measures within patients used to get a mean difference in SOFA scores between the thiamine and placebo groups at 72 hours.~Missing SOFA imputed using a penalty (20pc increase) as described in SAP."|Mixed Models Analysis|P-value is for the comparison at 72 hours from the mixed model (i.e, not a global p-value)||||0.58|-3.63|0.16
92273300|NCT01864525|184448931|SUPERIORITY|||||||0.0216||||||Statistical results for Magnitude of acoustic amplitude tremor. A priori significance threshold was set at P\<0.05 for each of the two hypothesis-driven acoustic variables.|Mixed Models Analysis|This statistical test did not use the baseline scores as a covariate when comparing post-test scores between placebo and octanoic acid conditions.||Separate measures for magnitude of amplitude tremor and magnitude of frequency tremor were analyzed as these variables can respond differently to treatment and may be differentially affected in essential voice tremor. Statistical modeling tested for post-treatment drug differences, with testing session as a repeated factor. Models were run with and without inclusion of baseline averages as a covariate per recommendations for cross-over treatment studies (Fleiss, Wallenstein \& Rosenfeld, 1985).||||0.0216
92273301|NCT01864525|184448931|SUPERIORITY|||||||0.0499||||||Statistical results for Magnitude of acoustic amplitude tremor. A priori significance threshold was set at P\<0.05 for each of the two hypothesis-driven acoustic variables.|Mixed Models Analysis|This statistical test used the baseline scores as a covariate when comparing post-test scores between placebo and octanoic acid conditions.||Separate measures for magnitude of amplitude tremor and magnitude of frequency tremor were analyzed as these variables can respond differently to treatment and may be differentially affected in essential voice tremor. Statistical modeling tested for post-treatment drug differences, with testing session as a repeated factor. Models were run with and without inclusion of baseline averages as a covariate per recommendations for cross-over treatment studies (Fleiss, Wallenstein \& Rosenfeld, 1985).||||0.0499
92273302|NCT01864525|184448931|SUPERIORITY|||||||0.0339||||||Statistical results for Magnitude of acoustic frequency tremor. A priori significance threshold was set at P\<0.05 for each of the two hypothesis-driven acoustic variables.|Mixed Models Analysis|This statistical test did not use the baseline scores as a covariate when comparing post-test scores between placebo and octanoic acid conditions.||Separate measures for magnitude of amplitude tremor and magnitude of frequency tremor were analyzed as these variables can respond differently to treatment and may be differentially affected in essential voice tremor. Statistical modeling tested for post-treatment drug differences, with testing session as a repeated factor. Models were run with and without inclusion of baseline averages as a covariate per recommendations for cross-over treatment studies (Fleiss, Wallenstein \& Rosenfeld, 1985).||||0.0339
92273303|NCT01864525|184448931|SUPERIORITY|||||||0.045||||||Statistical results for Magnitude of acoustic frequency tremor. A priori significance threshold was set at P\<0.05 for each of the two hypothesis-driven acoustic variables.|Mixed Models Analysis|This statistical test used the baseline scores as a covariate when comparing post-test scores between placebo and octanoic acid conditions.||Separate measures for magnitude of amplitude tremor and magnitude of frequency tremor were analyzed as these variables can respond differently to treatment and may be differentially affected in essential voice tremor. Statistical modeling tested for post-treatment drug differences, with testing session as a repeated factor. Models were run with and without inclusion of baseline averages as a covariate per recommendations for cross-over treatment studies (Fleiss, Wallenstein \& Rosenfeld, 1985).||||0.0450
92273304|NCT01864525|184448932|SUPERIORITY|||||||0.7172||||||A priori significance was set at P\<0.05 for this hypothesis-driven auditory-perceptual variable. Main effect for drug is given above. For the main task effect, P=0.9602. For the interaction effect of drug\*task, P=0.1699.|Mixed Models Analysis|||Statistical modeling tested for main effects of auditory-perceptual ratings for drug and task (sustained vowel and sentence-level ratings), and interaction effects of these variables. The summed scores, averaged across all participants, are provided separately for the sustained vowel and sentence-level ratings. Values range from 0 (no difference between baseline and post-test) to 3 (all three raters indicated that post-test sample was better (less tremor severity).||||0.7172
92273305|NCT01890785|184448933|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.708|||||TWO_SIDED|90.0|0.655|0.766||||||||0.766|0.655|
92273306|NCT01890785|184448933|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.918|||||TWO_SIDED|90.0|0.849|0.992||||||||0.992|0.849|
92273307|NCT01890785|184448934|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.641|||||TWO_SIDED|90.0|0.582|0.707||||||||0.707|0.582|
92273308|NCT01890785|184448934|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.828|||||TWO_SIDED|90.0|0.752|0.912||||||||0.912|0.752|
92273309|NCT01890785|184448935|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.97|||||TWO_SIDED|90.0|0.937|1.004||||||||1.004|0.937|
92273310|NCT01890785|184448935|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.944|||||TWO_SIDED|90.0|0.912|0.977||||||||0.977|0.912|
92273311|NCT01890785|184448936|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.971|||||TWO_SIDED|90.0|0.945|0.998||||||||0.998|0.945|
92273312|NCT01890785|184448936|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.97|||||TWO_SIDED|90.0|0.944|0.997||||||||0.997|0.944|
92273313|NCT03001011|184448947|SUPERIORITY||Median difference (Renvela - Placebo)|-0.21|||<|0.0001|TWO_SIDED|||||Threshold for statistical significance at 0.05.|Wilcoxon rank sum test||Renvela Vs. Placebo|A hierarchical testing procedure was used to control type I error \& handle multiple secondary endpoint analyses. Testing was then performed sequentially in order outcome measures (OM) are reported. The hierarchical testing sequence continued only when previous OM was statistically significant at 0.05 level.||||<0.0001
92273314|NCT02392559|184448968|SUPERIORITY||treatment difference|-38.3|STANDARD_ERROR_OF_MEAN|3.66|<|0.0001|TWO_SIDED|95.0|-45.54|-31.06|||repeated measures model||Treatment difference uses placebo as the reference.|||-31.06|-45.54|< 0.0001
92273315|NCT02392559|184448968|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
92273316|NCT02392559|184448969|SUPERIORITY||treatment difference|-42.09|STANDARD_ERROR_OF_MEAN|3.17|<|0.0001|TWO_SIDED|95.0|-48.34|-35.83|||repeated measures model||Treatment difference uses placebo as the reference.|||-35.83|-48.34|< 0.0001
92273317|NCT02392559|184448969|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
92210728|NCT00081497|184322248|SUPERIORITY_OR_OTHER||Change in Slope Mean|-0.029||||0.013||95.0|-0.051|-0.007|||Mixed Models Analysis|Mixed effects model with a population level (fixed effect) intercept and slope and a subject level (random effect) intercept and slope.||The statistical analysis represents the primary outcome measure results.||-0.007|-0.051|0.0130
92273318|NCT02392559|184448970|SUPERIORITY||treatment difference|-68.6|STANDARD_ERROR_OF_MEAN|7.3|<|0.0001|TWO_SIDED|95.0|-83.1|-54.0||Treatment difference uses placebo as the reference.|repeated measures model|||||-54.0|-83.1|< 0.0001
92273319|NCT02392559|184448970|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
92273320|NCT02392559|184448971|SUPERIORITY||treatment difference|-35.04|STANDARD_ERROR_OF_MEAN|3.41|<|0.0001|TWO_SIDED|95.0|-41.79|-28.3|||repeated measures model||Treatment difference uses placebo as the reference.|||-28.30|-41.79|< 0.0001
92273321|NCT02392559|184448971|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
92273322|NCT02392559|184448972|SUPERIORITY||treatment difference|-32.47|STANDARD_ERROR_OF_MEAN|3.21|<|0.0001|TWO_SIDED|95.0|-38.82|-26.13|||repeated measures model||Treatment difference uses placebo as the reference.|||-26.13|-38.82|< 0.0001
92273323|NCT02392559|184448972|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
92273324|NCT02392559|184448973|SUPERIORITY||treatment difference|-30.3|STANDARD_ERROR_OF_MEAN|3.09|<|0.0001|TWO_SIDED|95.0|-36.4|-24.21|||repeated measures model||Treatment difference uses placebo as the reference.|||-24.21|-36.40|< 0.0001
92273325|NCT02392559|184448973|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
92273326|NCT02392559|184448974|SUPERIORITY||treatment difference|-36.38|STANDARD_ERROR_OF_MEAN|3.33|<|0.0001|TWO_SIDED|95.0|-42.97|-29.8|||repeated measures model||Treatment difference uses placebo as the reference.|||-29.80|-42.97|< 0.0001
92273327|NCT02392559|184448974|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
92273328|NCT03125915|184448987|SUPERIORITY||Beta|-3.62||||0.03|TWO_SIDED|95.0|-6.78|-0.46||A multi-level latent growth curve (LGC) with a intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-leve latent growth curve||For 1-Month Follow-Up, substance use module (SUM) among those who did not view CT Video|||-0.46|-6.78|.03
92273329|NCT03125915|184448987|SUPERIORITY||Beta|-1.67||||0.18|TWO_SIDED|95.0|-4.1|0.76||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow-up, effect of SUM among those who did view the CT video.|||0.76|-4.10|.18
92273330|NCT03125915|184448987|SUPERIORITY||Beta|-0.35||||0.75|TWO_SIDED|95.0|-2.5|1.8||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow up, effect of CT video among those who completed the SUM.|||1.80|-2.50|0.75
92335396|NCT03026283|184573462|OTHER|||||||1||||||In order to evaluate the significance of sensitivity and specificity findings, we implement McNemar's test comparing sensitivity and specificity for CCTA alone and FFR-CT, assuming conditional dependence.|Chi-squared|||Reference test is positive (test of sensitivity).||||1.00
92273331|NCT03125915|184448987|SUPERIORITY||Beta|-2.3||||0.14|TWO_SIDED|95.0|-5.37|0.77||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-Month follow up, effect of CT video among those who did not complete SUM.|||0.77|-5.37|0.14
92273332|NCT03125915|184448987|SUPERIORITY||Beta|-2.79||||0.013|TWO_SIDED|95.0|-5.0|-0.58||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-Month follow up, effect of SUM among those who viewed the CT video.|||-0.58|-5.00|0.013
92273333|NCT03125915|184448987|SUPERIORITY||Beta|-2.09||||0.1|TWO_SIDED|95.0|-4.56|0.38||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-Month follow up, effect of SUM among those who did not view CT video|||0.38|-4.56|0.10
92273334|NCT03125915|184448987|SUPERIORITY||Beta|0.4||||0.78|TWO_SIDED|95.0|-2.35|3.16||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effect of CT Video among those who completed the SUM|A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.||3.16|-2.35|0.78
92273335|NCT03125915|184448987|SUPERIORITY||Beta|-0.3||||0.75|TWO_SIDED|95.0|-2.12|1.53||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effect of CT video among those who did not complete SUM.|||1.53|-2.12|0.75
92273336|NCT03125915|184448987|SUPERIORITY||Beta|-3.93||||0.014|TWO_SIDED|95.0|-7.06|-0.81||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effects of SUM among those who viewed the CT video.|||-0.81|-7.06|0.014
92273337|NCT03125915|184448987|SUPERIORITY||Beta|-0.57||||0.67|TWO_SIDED|95.0|-3.16|2.03||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow up, effect of SUM among those who did not view CT video.|||2.03|-3.16|0.67
92273338|NCT03125915|184448987|SUPERIORITY||Beta|-0.24||||0.83|TWO_SIDED|95.0|-2.39|1.91||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow up, effect of CT video among those who completed the SUM.|||1.91|-2.39|0.83
92273339|NCT03125915|184448987|SUPERIORITY||Beta|3.13||||0.05|TWO_SIDED|95.0|-0.004|6.25||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effects of CT video among those who did not complete SUM.|||6.25|-0.004|0.05
92210729|NCT00081497|184322249|SUPERIORITY_OR_OTHER||Mean Difference|-6.787||||0.0027||95.0|-11.123|-2.45|||Mixed Effects Model|||Statistical Analysis 1 represents the post-hoc outcome results for difference in slope mean of eGFR subgroup \>60.||-2.450|-11.123|0.0027
92273340|NCT03125915|184448988|SUPERIORITY||Beta|0.05||||0.9|TWO_SIDED|95.0|-2.3|2.41||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effect of SUM on the latent intercept factor among those who did not view CT videos|||2.41|-2.30|0.90
92273341|NCT03125915|184448988|SUPERIORITY||Beta|0.26||||0.78|TWO_SIDED|95.0|-2.23|2.75||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effects of CT video on the latent intercept factor among those who did not view SUM.|||2.75|-2.23|0.78
92273342|NCT03125915|184448988|SUPERIORITY||Beta|-1.18||||0.53|TWO_SIDED|95.0|-4.86|2.51||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effects of the interaction between SUM and CT video on the latent intercept.|||2.51|-4.86|0.53
92273343|NCT03125915|184448988|SUPERIORITY||Beta|1.83||||0.14|TWO_SIDED|95.0|-0.62|4.29||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effect of SUM on the latent slope factor among those who did not view CT Videos.|||4.29|-0.62|0.14
92273344|NCT03125915|184448988|SUPERIORITY||Beta|0.35||||0.76|TWO_SIDED|95.0|-2.02|2.72||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effects of CT Video on latent slope factor among those who did not complete the SUM.|||2.72|-2.02|0.76
92335397|NCT03026283|184573462|OTHER||||||<|0.0047||||||In order to evaluate the significance of sensitivity and specificity findings, we implement Mcnemar's test comparing sensitive and pscificity for CCTA and FFR-CT assuming dependence.|Chi-squared|McNemar's chi-squared = 8.00||Reference test is Negative||||<0.0047
92210730|NCT00081497|184322249|SUPERIORITY_OR_OTHER||Mean Difference|2.33||||0.1268||95.0|-0.685|5.345|||Mixed Effects Model|||Statistical Analysis 2 represents the post-hoc outcome results for difference in slope mean of eGFR subgroup ≤ 60.||5.345|-0.685|0.1268
92273345|NCT03125915|184448988|SUPERIORITY||Beta|-1.28||||0.45|TWO_SIDED|95.0|-4.62|2.06||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effects of the interaction between SUM and CT videos in the prediction of the latent slope factor.|||2.06|-4.62|0.45
92273346|NCT03125915|184448989|SUPERIORITY||Beta|-0.75||||0.02|TWO_SIDED|95.0|-1.39|-0.11||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow-up, effect of SUM among those who viewed CT videos.|||-0.11|-1.39|0.02
92273347|NCT03125915|184448989|SUPERIORITY||Beta|-0.49||||0.1|TWO_SIDED|95.0|-1.07|0.09||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow-up, effect of SUM among those who did not view CT videos.|||0.09|-1.07|0.10
92273348|NCT03125915|184448989|SUPERIORITY||Beta|-0.15||||0.63|TWO_SIDED|95.0|-0.77|0.47||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow-up, effects of CT video among those who completed SUM.|||0.47|-0.77|0.63
92273349|NCT03125915|184448989|SUPERIORITY||Beta|-0.41||||0.19|TWO_SIDED|95.0|-1.01|0.2||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow-up, effects of CT video among those who did not complete SUM.|||0.20|-1.01|0.19
92273350|NCT03125915|184448989|SUPERIORITY||Beta|-0.64||||0.01|TWO_SIDED|95.0|-1.13|-0.15||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effect of SUM among those who completed the CT video.|||-0.15|-1.13|0.01
92273351|NCT03125915|184448989|SUPERIORITY||Beta|-0.49||||0.12|TWO_SIDED|95.0|-1.11|0.12||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effects of SUM among those who did not complete CT video.|||0.12|-1.11|0.12
92273352|NCT03125915|184448989|SUPERIORITY||Beta|-0.34||||0.23|TWO_SIDED|95.0|-0.89|0.21||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effects of CT video among those who completed SUM.|||0.21|-0.89|0.23
92396300|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.0014|TWO_SIDED|95.0|-0.78|-0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.19|-0.78|0.0014
92396301|NCT03192176|184689393|SUPERIORITY||LSMean differencce|-0.7|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.02|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.43|-1.02|<0.0001
92273353|NCT03125915|184448989|SUPERIORITY||Beta|-0.19||||0.51|TWO_SIDED|95.0|-0.76|0.38||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effect of CT video among those who did not complete SUM.|||0.38|-0.76|0.51
92273354|NCT03125915|184448989|SUPERIORITY||Beta|-0.79||||0.003|TWO_SIDED|95.0|-1.32|-0.27||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effects of SUM among those who viewed CT videos.|||-0.27|-1.32|0.003
92273355|NCT03125915|184448989|SUPERIORITY||Beta|-0.25||||0.49|TWO_SIDED|95.0|-0.96|0.46||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effect of SUM among those who did not view the CT video.|||0.46|-0.96|0.49
92273356|NCT03125915|184448989|SUPERIORITY||Beta|-0.53||||0.1|TWO_SIDED|95.0|-1.16|0.11||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effect of CT video among those who completed SUM.|||0.11|-1.16|0.10
92273357|NCT03125915|184448989|SUPERIORITY||Beta|-0.02||||0.96|TWO_SIDED|95.0|-0.6|0.64||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effect of CT video among those who did not complete SUM.|||0.64|-0.60|0.96
92273358|NCT02731833|184448990|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.505|-0.3|||ANCOVA|Change from baseline in Schiff Sensitivity Score as response, treatment as factor and baseline Schiff sensitivity score as a covariate.|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|Statistical analyses was conducted under the null hypothesis (H0) of no difference between treatments versus the alternate hypothesis (H1) of a difference between treatments.||-0.300|-0.505|<0.0001
92210731|NCT01439360|184322254|SUPERIORITY_OR_OTHER||Vaccine efficacy (VE)|63.2|||||TWO_SIDED|97.5|51.8|72.3|||Regression, Cox|Adjusted for age category and stratified for cohort.|VE was defined as the hazard ratio of cases of influenza A and or B disease in subjects receiving D-QIV vaccine in contrast with subjects receiving non-influenza vaccine control subtracted from 1.|The efficacy of the D-QIV vaccine would be demonstrated if the LL of the two-sided 97.5% CI for vaccine efficacy (VE) is above (\>) 25%.||72.3|51.8|
92210732|NCT01439360|184322255|SUPERIORITY_OR_OTHER||Vaccine efficacy (VE)|49.8|||||TWO_SIDED|97.5|41.8|56.8|||Regression, Cox|Adjusted for age category and stratified for cohort|VE was defined as the hazard ratio of cases of influenza A and or B disease in subjects receiving D-QIV vaccine in contrast with subjects receiving non-influenza vaccine control subtracted from 1.|The efficacy of the D-QIV vaccine would be demonstrated if the LL of the two-sided 97.5% CI for VE is above 15%.||56.8|41.8|
92227033|NCT00670007|184356108|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.53||||0.526|TWO_SIDED|95.0|-2.179|1.12||Two-sided P-value|ANCOVA|||Analysis of the change in lung density (for TLC + FRC combined) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects and inspiration state as a repeated random effect.||1.120|-2.179|0.526
92227034|NCT00670007|184356108|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.486||||0.558|TWO_SIDED|95.0|-2.126|1.154||Two-sided P-value|ANCOVA|||Analysis of the change in lung density (for TLC) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects.||1.154|-2.126|0.558
92227035|NCT00670007|184356108|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.019||||0.984|TWO_SIDED|95.0|-1.858|1.895||Two-sided P-value|ANCOVA|||Analysis of the change in lung density (for FRC) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects.||1.895|-1.858|0.984
92227036|NCT00670007|184356109|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.294||||0.883|TWO_SIDED|95.0|-3.645|4.233||Two-sided P-value|ANCOVA|||Analysis of the percent change in lung density (for TLC + FRC combined) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects and inspiration state as a repeated random effect.||4.233|-3.645|0.883
92227037|NCT00670007|184356109|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.151||||0.941|TWO_SIDED|95.0|-4.172|3.87||Two-sided P-value|ANCOVA|||Analysis of the percent change in lung density (for TLC) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects.||3.870|-4.172|0.941
92227038|NCT00670007|184356109|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|1.787||||0.404|TWO_SIDED|95.0|-2.44|6.014||Two-sided P-value|ANCOVA|||Analysis of the percent change in lung density (for FRC) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects.||6.014|-2.440|0.404
92227039|NCT00618722|184356119|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.043|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||0.0|-0.9|0.043
92227040|NCT00618722|184356119|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.05|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||0.0|-0.8|0.050
92227041|NCT00618722|184356119|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.249|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||0.2|-0.7|0.249
92227042|NCT00618722|184356120|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9||||0.003|TWO_SIDED|95.0|0.7|3.1|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||3.1|0.7|0.003
92227043|NCT00618722|184356120|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4||||0.03|TWO_SIDED|95.0|0.1|2.6|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||2.6|0.1|0.030
92396302|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.19|-0.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.59|-1.19|<0.0001
92227044|NCT00618722|184356120|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6||||0.012|TWO_SIDED|95.0|0.4|2.8|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||2.8|0.4|0.012
92227045|NCT00618722|184356121|SUPERIORITY_OR_OTHER||Difference from Placebo|38.9||||0.015|TWO_SIDED|95.0|12.6|65.2|||Fisher Exact|||||65.2|12.6|0.015
92227046|NCT00618722|184356121|SUPERIORITY_OR_OTHER||Difference from Placebo|28.9||||0.096|TWO_SIDED|95.0|0.4|57.5|||Fisher Exact|||||57.5|0.4|0.096
92227047|NCT00618722|184356121|SUPERIORITY_OR_OTHER||Difference from Placebo|44.7||||0.003|TWO_SIDED|95.0|20.6|68.8|||Fisher Exact|||||68.8|20.6|0.003
92227048|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.078|TWO_SIDED|95.0|0.0|0.6|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.6|0.0|0.078
92227049|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.781|TWO_SIDED|95.0|-0.3|0.4|||Repeated easures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.4|-0.3|0.781
92273359|NCT00295620|184449009|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.425|TWO_SIDED|95.0|0.79|1.11|||Log Rank|||Arm A: Anastrozole for 2 yerars Arm B: Anastrozole for 5 years Null hypothesis: there is no difference between the two treatment arms in the probability of a DFS event||1.11|0.79|0.425
92227050|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.146|TWO_SIDED|95.0|-0.1|0.5|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.5|-0.1|0.146
92227051|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.076|TWO_SIDED|95.0|0.0|0.6|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.6|0.0|0.076
92273360|NCT00295620|184449010|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.867|TWO_SIDED|95.0|0.83|1.25|||Log Rank|||Arm A: Anastrozole for 2 yerars Arm B: Anastrozole for 5 years Null hypothesis: there is no difference between the two treatment arms in the probability of a death event||1.25|0.83|0.867
92273361|NCT00295620|184449011|SUPERIORITY||Hazard Ratio (HR)|1.35||||0.052|TWO_SIDED|95.0|1.0|1.84|||Log Rank|||Arm A: Anastrozole for 2 yerars Arm B: Anastrozole for 5 years Null hypothesis: there is no difference between the two treatment arms in the probability of a fracture||1.84|1.00|0.052
92273362|NCT00295620|184449012|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.678|TWO_SIDED|95.0|0.81|1.38|||Log Rank|||Arm A: Anastrozole for 2 yerars Arm B: Anastrozole for 5 years Null hypothesis: there is no difference between the two treatment arms in the probability of the occurrence of secondary carcinoma||1.38|0.81|0.678
92273363|NCT00295620|184449013|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.531|TWO_SIDED|95.0|0.75|1.77|||Log Rank|||Arm A: Anastrozole for 2 years Arm B: Anastrozole for 5 years Null hypothesis: there is no difference between the two treatment arms in the probability of the occurrence of contralateral mammacarcinoma||1.77|0.75|0.531
92273364|NCT01625286|184449036|SUPERIORITY|A hazard ratio \< 1 favours AZD5363|Hazard Ratio (HR)|0.8||||0.308|TWO_SIDED|80.0|0.6|1.06||2-sided p-value|Regression, Cox|Cox PH model including treatment and PIK3CA status as factors/covariates||||1.06|0.60|0.308
92273365|NCT01625286|184449037|SUPERIORITY||Mean Difference (Final Values)|-8.9||||0.081|TWO_SIDED|80.0|-17.1|-0.8||1-sided p-value|ANCOVA|||||-0.8|-17.1|0.081
92273366|NCT01625286|184449043|SUPERIORITY||Odds Ratio (OR)|1.53||||0.139|TWO_SIDED|80.0|0.93|2.54||1-sided p-value|Regression, Logistic|including treatment and PIK3CA status as factors/covariates||||2.54|0.93|0.139
92273367|NCT01625286|184449044|SUPERIORITY|A hazard ratio \< 1 favours AZD5363|Hazard Ratio (HR)|0.77||||0.482|TWO_SIDED|80.0|0.48|1.24||2-sided p-value|Log Rank|Cox PH model including treatment and PIK3CA status as factors/covariates||||1.24|0.48|0.482
92396303|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.2831|TWO_SIDED|95.0|-0.46|0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||0.14|-0.46|0.2831
92210733|NCT00826111|184322316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0085|STANDARD_ERROR_OF_MEAN|0.0534||0.88|TWO_SIDED|95.0|-0.139|0.0122|||t-test, 2 sided|||||.01220|-0.1390|0.88
92210734|NCT00826111|184322317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.031|STANDARD_ERROR_OF_MEAN|0.112||0.79|TWO_SIDED|95.0|-0.286|0.224|||t-test, 2 sided|||||0.224|-0.286|0.79
92210735|NCT00826111|184322318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0222|STANDARD_ERROR_OF_MEAN|0.0128||0.16|TWO_SIDED|95.0|-0.58|0.0136|||t-test, 2 sided|||||.0136|-0.580|0.16
92210736|NCT00826111|184322319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.515||0.29|TWO_SIDED|95.0|-1.35|2.77|||t-test, 2 sided|||||2.77|-1.35|0.29
92273368|NCT01963676|184449047|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||There was no adjustment because we just performed one comparison|t-test, 2 sided|Difference from Day 5 to Baseline was compared between the sham and the tDCS group using an unpaired t-test. Degrees of freedom: df = 24||"The null hypothesis was that there is no difference between the changes in the AHRS score from baseline to 5 days between the groups:~H0: μ1 = μ2 μ1: mean(difference 5 days-baseline) for tDCS group (n=13) μ2: mean(difference 5 days-baseline) for sham group (n=13)"||||0.48
92273369|NCT01963676|184449048|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED|||||There was no adjustment because we just performed one comparison|t-test, 2 sided|Difference from 1 Month to Baseline was compared between the sham and the tDCS group using an unpaired t-test. Degrees of freedom: df = 24||"The null hypothesis was that there is no difference between the AHRS score changes from baseline to 1month between the groups:~H0: μ1 = μ2 μ1: mean(difference 1 month-baseline) for tDCS group (n=13) μ2: mean(difference 1 month-baseline) for sham group (n=13)"||||0.86
92273370|NCT00409188|184449086|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.893||||0.1566|TWO_SIDED|95.0|0.763|1.044|||Regression, Cox|||||1.044|0.763|0.1566
92273371|NCT00409188|184449087|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.845||||0.0226|TWO_SIDED|95.0|0.732|0.977|||Regression, Cox|||||0.977|0.732|0.0226
92273372|NCT00409188|184449088|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.868||||0.0528|TWO_SIDED|95.0|0.752|1.002|||Regression, Cox|||||1.002|0.752|0.0528
92273373|NCT01681771|184449141|SUPERIORITY|||||||0.21|||||||ANCOVA|ANCOVA analysis comparing PHQ-9 mean values at 9 weeks follow-up between the I-CBT and discussion group and adjusting for PHQ-9 values baseline||||||0.21
92273374|NCT00265083|184449142|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The positive test is defined if the comparison between combined golimumab and placebo is significant (p-value \<0.05), and at least one of the pair-wise comparisons is also significant (p-value \<0.05).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||Null hypothesis: No difference in ASAS 20 response comparing Groups I vs II and Groups I vs III. The sample size of 75 patients (pts) in placebo and 135 pts per active group will provide \>=99% power to detect a difference in ASAS 20 response between treatment groups at alpha=0.05, assuming 50% of pts with screening CRP\<1.5mg/dL, and the difference in ASAS 20 response of 10-27.5% in pts with screening CRP\<1.5mg/dL and 32.5-45% in pts with screening CRP\>=1.5mg/dL, between Groups I vs II or III.||||<0.001
92273375|NCT00265083|184449142|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||||||<0.001
92273376|NCT00265083|184449142|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||||||<0.001
92335398|NCT02501161|184573469|OTHER||||||<|0.0001|||||||Stratified log-rank test|||Test for no treatment difference was based on using a stratified log-rank test where treatment, baseline HbA1c group and pre-trial OAD treatment group were included as strata in the model.||||<.0001
92335399|NCT02501161|184573470|OTHER||||||<|0.0001|||||||Stratified log-rank test|||Test for no treatment difference was based on using a stratified log-rank test where treatment, baseline HbA1c group and pre-trial OAD treatment group were included as strata in the model.||||<.0001
92335400|NCT04336475|184573531|SUPERIORITY|||||||0.564||||||The threshold for statistical significance was p=0.05. p value stands for the comparison of final oral aperture measurements between two groups. (after 2 months' period)|ANOVA|Repeated Measures ANOVA||||||0.564
92210737|NCT00826111|184322320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0048|STANDARD_ERROR_OF_MEAN|0.005||0.37|TWO_SIDED|95.0|-0.0077|0.0174|||t-test, 2 sided|||||0.0174|-0.0077|0.37
92210738|NCT00826111|184322321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0056|STANDARD_ERROR_OF_MEAN|0.0042||0.21|TWO_SIDED|95.0|-0.0037|0.1481|||t-test, 2 sided|||||0.1481|-0.0037|0.21
92210739|NCT00826111|184322322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.35|STANDARD_ERROR_OF_MEAN|3.94||0.1|TWO_SIDED|95.0|-1.76|16.46|||t-test, 2 sided|||||16.46|-1.76|0.10
92210740|NCT00826111|184322323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|4.06||0.89|TWO_SIDED|95.0|-9.31|10.51|||t-test, 2 sided|||||10.51|-9.31|0.89
92210741|NCT00826111|184322324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|3.78||0.66|TWO_SIDED|95.0|-10.31|6.91|||t-test, 2 sided|||||6.91|-10.31|0.66
92210742|NCT00426153|184322330|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||Rank-sum test|||P values \<0.05 were considered statistically significant.||||0.048
92210743|NCT00426153|184322331|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||P values \< 0.05 were considered statistically significant|Rank sum|||||||0.045
92210744|NCT00426153|184322332|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||P Values \< 0.05 were considered statistically significant|Rank sum|||||||0.98
92210745|NCT00150969|184322334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92335401|NCT01441245|184573533|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.04|TWO_SIDED||||||t-test, 2 sided|||Continuous variables are expressed as mean ± standard deviation (SD) and compared with t test for independent groups. p values \<0.05 were considered significant.||||0.04
92210746|NCT00150969|184322341|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92396304|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.0051|TWO_SIDED|95.0|-0.72|-0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.13|-0.72|0.0051
92210747|NCT01630434|184322361|NON_INFERIORITY|The non-inferiority margin, which is here taken to be 0.04.|difference of proportion|-0.091||||0.004|ONE_SIDED|95.0||-0.01|||Wald Method|||||-0.01||0.004
92210748|NCT01630434|184322361|NON_INFERIORITY|The non-inferiority margin, which is here taken to be 0.04.|difference of proportion|-0.038||||0.06|ONE_SIDED|95.0||0.045|||Wald Method|||||0.045||0.06
92210749|NCT01630434|184322362|NON_INFERIORITY|The non-inferiority margin is 5%.|Difference of proportions|-0.015||||0.0003|ONE_SIDED|95.0||0.016|||Wald Method|||||0.016||0.0003
92210750|NCT01630434|184322362|NON_INFERIORITY|The non-inferiority margin is 5%.|Difference of proportions|0.006||||0.027|ONE_SIDED|95.0||0.044|||Wald Method|||||0.044||0.027
92210751|NCT01630434|184322363|NON_INFERIORITY|The non-inferiority margin is 7.5%.|Difference of proportions|0.035||||0.118|ONE_SIDED|95.0||0.091|||Wald Method|||||0.091||0.118
92210752|NCT01630434|184322363|NON_INFERIORITY|The non-inferiority margin is 7.5%.|Difference of proportions|0.065||||0.389|ONE_SIDED|95.0||0.124|||Wald Method|||||0.124||0.389
92210753|NCT01630434|184322364|NON_INFERIORITY|The non-inferiority margin is 4%|Difference of proportions|0.043|||||ONE_SIDED|95.0||0.071||||||||0.071||
92210754|NCT01630434|184322364|NON_INFERIORITY|The non-inferiority margin is 4%.|Difference of proportions|0.054|||||ONE_SIDED|95.0||0.087||||||||0.087||
92210755|NCT01630434|184322365|NON_INFERIORITY|The non-inferiority margin is 0.7.|Mean Difference (Final Values)|-0.045|||<|0.0001|ONE_SIDED|95.0||0.047|||t-test, 2 sided|||||0.047||<0.0001
92210756|NCT00511472|184322397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.1|STANDARD_ERROR_OF_MEAN|14.15||0.001|TWO_SIDED|90.0|22.71|69.5|||ANOVA|||For the least square mean difference - baseline in the ANOVA model = glucose value at Titration Day 1 pre-Breakfast for Titration Group 1||69.50|22.71|0.001
92210757|NCT00511472|184322397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.28|STANDARD_ERROR_OF_MEAN|13.67|<|0.001|TWO_SIDED|90.0|27.68|72.88|||ANOVA|||For the least square mean difference - baseline in the ANOVA model = glucose value at Titration Day 1 pre-breakfast for Titration Group 2||72.88|27.68|<0.001
92210758|NCT00406653|184322402|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.611|TWO_SIDED|95.0|0.6|2.4||Due to randomization misspecification, 2:2:2:1 ratio applied instead of planned 2:1:2:2 (placebo, ABA 3mg/kg, \~10mg/kg, 30/\~10mg/kg). Only \~half intended number assigned to ABA 30/\~10 mg/kg arm and \~double intended number assigned to ABA 3 mg/kg arm|Cochran-Mantel-Haenszel|Second primary comparison (conditional on first): power=91%, sample size=134, 5% significance; expected PLA response rate= 25%, ABA/\~10 mg/kg=45%|All participants who prematurely discontinued for any reason considered not to have achieved clinical response. Normal approximation used if number of responses in treatment group was ≥5. Otherwise an exact method was used.|Conditional on abatacept (ABA) 30/\~10 mg/kg vs placebo (PLA)comparison being statistically significant at 5% significance level, ABA \~10 mg/kg vs PLA to be tested at 5% significance level. Null hypothesis=no treatment difference (relative risk \[RR\] of ABA over placebo=1).First comparison: power=99%,sample size=134,expected PLA response rate=25%, ABA 30/\~10 mg/kg=55%. Cochran-Mantel-Haenszel Chi square p-value and RR along with 95% confidence interval provided, adjusting for randomization strata||2.4|0.6|0.611
92227052|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.975|TWO_SIDED|95.0|-0.3|0.3|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.3|-0.3|0.975
92335402|NCT01441245|184573534|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.|||||<|0.01|TWO_SIDED||||||Chi-squared|||Qualitative variables are expressed as percentage and compared with chi-square test. p values \<0.05 were considered significant.||||<0.01
92335403|NCT01441245|184573535|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
92335404|NCT01441245|184573536|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||0.02
92335405|NCT01441245|184573537|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.04
92335406|NCT01441245|184573537|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.|Risk Ratio (RR)|2.06||||0.01|TWO_SIDED|95.0|1.65|2.57|||Regression, Linear||BNP levels at discharge \>500 pg/ml (RR: 2.06 \[1.65-2.57\];).|||2.57|1.65|0.01
92335407|NCT01441245|184573538|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.03|TWO_SIDED||||||t-test, 2 sided|||Continuous variables are expressed as mean ± standard deviation (SD) and compared with t test for independent groups. p values \<0.05 were considered significant.||||0.03
92335408|NCT01441245|184573539|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.01|TWO_SIDED||||||t-test, 2 sided|||Continuous variables are expressed as mean ± standard deviation (SD) and compared with t test for independent groups. p values \<0.05 were considered significant.||||0.01
92335409|NCT01441245|184573540|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.05|TWO_SIDED||||||t-test, 2 sided|||Continuous variables are expressed as mean ± standard deviation (SD) and compared with t test for independent groups. p values \<0.05 were considered significant||||0.05
92335410|NCT01441245|184573541|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.|||||<|0.01|TWO_SIDED||||||Chi-squared|||Qualitative variables are expressed as percentage of partecipants and compared with chi-square test. p-value equal or lower than 0.05 are considered statistically significant.||||<0.01
92396305|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.0006|TWO_SIDED|95.0|-0.81|-0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.22|-0.81|0.0006
92396306|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0058|TWO_SIDED|95.0|-0.83|-0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.14|-0.83|0.0058
92227053|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.183|TWO_SIDED|95.0|-0.1|0.5|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.5|-0.1|0.183
92227054|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.017|TWO_SIDED|95.0|0.1|0.7|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.7|0.1|0.017
92335411|NCT03188523|184573542|SUPERIORITY||Posterior Mean Difference|-1.03|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8504 and placebo at least 0.5 log10 copies/mL was \>98%|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).||||
92335412|NCT03188523|184573542|SUPERIORITY||Posterior Mean Difference|-0.92|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8504 and placebo at least 0.5 log10 copies/mL was \>95%|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).||||
92335413|NCT03188523|184573558|OTHER||Posterior Probability (percentage)|99.0|||||||||||||Posterior Probability (percentage) of true geometric mean (GM) C168hr TFV-DP level in PBMCs ≥0.1 μM|PBMC TFV-DP C168hr values pooled, natural log transformed and analyzed based on a linear model containing a fixed effect for dose level. The posterior probability that the true GM of PBMC TFV-DP C168hr level was ≥0.1 μM was calculated for the dose level using flat priors under a normal likelihood assumption. An 80% posterior probability for a dose level that also exhibits acceptable safety and tolerability would satisfy the secondary PK hypothesis.||||
92335414|NCT03188523|184573558|OTHER||Posterior Probability (percentage)|99.0|||||||||||||Posterior Probability (percentage) of true geometric mean (GM) C168hr TFV-DP level in PBMCs ≥0.1 μM|PBMC TFV-DP C168hr values pooled, natural log transformed and analyzed based on a linear model containing a fixed effect for dose level. The posterior probability that the true GM of PBMC TFV-DP C168hr level was ≥0.1 μM was calculated for the dose level using flat priors under a normal likelihood assumption. An 80% posterior probability for a dose level that also exhibits acceptable safety and tolerability would satisfy the secondary PK hypothesis.||||
92335415|NCT04560868|184573565|EQUIVALENCE|The point null hypothesis was a difference in expected number of log ins of exactly 0.|Mean Difference (Final Values)|12.73|||<|0.01|TWO_SIDED|95.0|6.41|19.05|||Regression, Linear||mean difference=experimental-control|Based on a priori power calculations we had 80% power to detect an average increase of 3.8 log ins in the experimental relative to the control arm.||19.05|6.41|<0.01
92335416|NCT04560868|184573566|EQUIVALENCE|The null hypothesis was a point null of relative risk equal to exactly 1.|Risk Ratio (RR)|1.01||||0.98|TWO_SIDED|95.0|0.55|1.85|||Regression, Poisson||relative risk=experimental/control|Based on a priori power calculations, we had 80% power to detect a 33% - 35% increase in the proportion of experimental participants who successfully quit smoking for at least 24 hours relative to controls.||1.85|0.55|0.98
92335417|NCT04560868|184573567|EQUIVALENCE|The null hypothesis was a point null of exactly 0 risk difference between arms.|Risk Difference (RD)|0.08||||0.35|TWO_SIDED|95.0|-0.08|0.24|||Regression, Linear||Risk difference = experimental - control.|Based on a priori power calculations, we had 80% power to detect a 28% - 33% increase in 7-day smoking abstinence in the experimental arm relative to the control arm at 3 months.||0.24|-0.08|0.35
92335418|NCT04560868|184573568|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected score between arms.|Mean Difference (Final Values)|0.26||||0.4|TWO_SIDED|95.0|-0.35|0.87|||Regression, Linear||mean difference=experimental-control|||0.87|-0.35|0.40
92335419|NCT04560868|184573569|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected score between arms.|Mean Difference (Final Values)|-0.04||||0.9|TWO_SIDED|95.0|-0.68|0.6|||Regression, Linear||mean difference=experimental-control|||0.60|-0.68|0.90
92335420|NCT04560868|184573570|EQUIVALENCE|The tested hypothesis was a point null of 0 difference in expected average helpfulness score between arms.|Mean Difference (Final Values)|0.4||||0.39|TWO_SIDED|95.0|-0.5|1.4|||Regression, Linear||mean difference=experimental-control|||1.4|-0.5|0.39
92396307|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18||0.0004|TWO_SIDED|95.0|-0.97|-0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.28|-0.97|0.0004
92227055|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.022|TWO_SIDED|95.0|0.1|0.7|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.7|0.1|0.022
92335421|NCT04560868|184573571|EQUIVALENCE|The tested hypothesis was for a point null of 0 difference in expected average helpfulness score between arms.|Mean Difference (Final Values)|0.6||||0.11|TWO_SIDED|95.0|-0.1|1.3|||Regression, Linear||mean difference=experimental-control|||1.3|-0.1|0.11
92335422|NCT04560868|184573573|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected number of badges earned in each arm by 3 months post-baseline.|Mean Difference (Final Values)|4.2|||<|0.01|TWO_SIDED|95.0|1.72|6.65|||Regression, Linear||mean difference=experimental-control|||6.65|1.72|<0.01
92335423|NCT04560868|184573574|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected score between arms.|Mean Difference (Final Values)|0.08||||0.96|TWO_SIDED|95.0|-1.02|1.18|||Regression, Linear||mean difference=experimental-control|||1.18|-1.02|0.96
92335424|NCT04560868|184573575|EQUIVALENCE|The null hypothesis was a point null hypothesis of exactly 0 difference in expected score between the arms.|Mean Difference (Final Values)|-0.44||||0.31|TWO_SIDED|95.0|-1.55|0.66|||Regression, Linear||mean difference=experimental-control|||0.66|-1.55|0.31
92335425|NCT04560868|184573579|EQUIVALENCE|The point null hypothesis was of the exact same proportion of control and experimental subjects requesting NRT.|Risk Ratio (RR)|3.9||||0.06|TWO_SIDED|95.0|0.9|16.9|||Regression, Poisson||RR=experimental/control|||16.9|0.9|0.06
92335426|NCT04560868|184573580|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in probability of the outcome between arms.|Risk Ratio (RR)|1.01||||0.99|TWO_SIDED|95.0|0.38|2.65|||Regression, Poisson||risk ratio=experimental/control|||2.65|0.38|0.99
92335427|NCT04560868|184573581|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected change from baseline in number of cigarettes smoked per day between arms.|Mean Difference (Net)|1.39||||0.3|TWO_SIDED|95.0|-1.21|3.99|||Regression, Linear||treatment difference=experimental-control, where the outcome for each individual is (one month)-baseline.|||3.99|-1.21|0.30
92335428|NCT04560868|184573582|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected change in daily cigarette usage between arms.|Mean Difference (Net)|1.5||||0.47|TWO_SIDED|95.0|-2.51|5.5|||Regression, Linear||treatment effect=experimental-control, where the outcome for each individual is (three month)-baseline.|||5.5|-2.51|0.47
92396308|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.14|-0.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.46|-1.14|<0.0001
92227056|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.081|TWO_SIDED|95.0|0.0|0.6|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.6|0.0|0.081
92335429|NCT04560868|184573583|EQUIVALENCE|The null hypothesis was risk difference of exactly 0.|Risk Difference (RD)|0.04||||0.3|TWO_SIDED|95.0|-0.03|0.11|||Regression, Linear||risk difference=experimental-control|||0.11|-0.03|0.30
92210759|NCT00406653|184322405|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.18|||||TWO_SIDED|95.0|0.4|3.44||Due to randomization misspecification, 2:2:2:1 ratio applied instead of planned 2:1:2:2 (placebo, ABA mg/kg, \~10 mg/kg, 30/\~10 mg/kg). Only \~half intended number assigned to ABA 30/\~10 mg/kg arm and \~double intended number assigned to ABA 3 mg/kg arm|Cochran-Mantel-Haenszel|Second primary comparison (conditional on first): power=80%, sample size=134, 5% significance; expected PLA response rate= 15%, ABA/\~10 mg/kg=30%|All participants who prematurely discontinued for any reason considered not to have achieved clinical response. Normal approximation used if number of responses in treatment group was ≥5. Otherwise an exact method was used.|Conditional on abatacept (ABA) 30/\~10 mg/kg vs placebo (PLA)comparison being statistically significant at 5% significance level, ABA \~10 mg/kg vs PLA to be tested at 5% signficance level. Null hypothesis=no treatment difference (relative risk \[RR\] of ABA over placebo=1).First comparison: power=95%,sample size=134,expected PLA response rate=15%, ABA 30/\~10 mg/kg=35%. Cochran-Mantel-Haenszel Chi square p-value and RR along with 95% confidence interval provided, adjusting for randomization strata||3.44|0.4|
92210760|NCT00406653|184322406|SUPERIORITY_OR_OTHER|||||||0.436||95.0||||All statistical testing was performed at a pre-specified alpha-level of 5%.|Cochran-Armitage Trend Test|||The Cochran-Armitage trend test was performed to evaluate whether a relationship existed between the response and dose regimen by comparing the proportion of participants in response across all four treatment arms. Normal approximation was used if the number of responses in a treatment group is at least 5. Otherwise an exact method was used.||||0.436
92210761|NCT00406653|184322413|SUPERIORITY_OR_OTHER|||||||0.112|TWO_SIDED|95.0||||All statistical testing was performed at a pre-specified alpha-level of 5%.|Cochran-Armitage Trend Test|||The Cochran-Armitage trend test was performed to evaluate whether a relationship existed between the response and dose regimen by comparing the proportion of participants in response across all four treatment arms. Normal approximation was used if the number of responses in a treatment group is at least 5. Otherwise an exact method was used.||||0.112
92210762|NCT00446992|184322431|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||<0.001
92210763|NCT00446992|184322432|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||.043
92210764|NCT00446992|184322433|SUPERIORITY_OR_OTHER||||||=|0.69|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= 0.690
92210765|NCT00446992|184322434|SUPERIORITY_OR_OTHER||||||=|0.691|TWO_SIDED||||||Intervariate|||Baseline compared to Week 16||||= 0.691
92210766|NCT00446992|184322435|SUPERIORITY_OR_OTHER||||||=|0.877|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= 0.877
92210767|NCT00446992|184322436|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= 0.003
92210768|NCT00446992|184322437|SUPERIORITY_OR_OTHER||||||=|0.005|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= .005
92210769|NCT00446992|184322438|SUPERIORITY_OR_OTHER||||||=|0.696|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= 0.696
92396309|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.27|-0.57||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.57|-1.27|<0.0001
92396310|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0807|TWO_SIDED|95.0|-0.66|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||0.04|-0.66|0.0807
92210770|NCT00446992|184322439|SUPERIORITY_OR_OTHER||||||=|0.013|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= 0.013
92210771|NCT00731120|184322461|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.803||0.279|TWO_SIDED|95.0|-2.45|0.71||Hierarchical testing stopped at 10 mg versus placebo for HAM-A total score at Week 8 in the testing sequence, a nominal p-value is provided.|ANCOVA|Analysis of covariance (ANCOVA), with treatment and center as fixed factors and baseline HAM-A as a covariate.||P-values were tested at the 5% significance level (ie, statistical significance if P\<0.05). To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 10 mg and 2.5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.05, the testing procedure stopped for all subsequent endpoints.||0.71|-2.45|0.279
92210772|NCT00731120|184322461|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.791||0.306|TWO_SIDED|95.0|-2.36|0.74||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.05, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|ANCOVA|Analysis of covariance (ANCOVA), with treatment and center as fixed factors and baseline HAM-A as a covariate.||||0.74|-2.36|0.306
92210773|NCT01054846|184322476|SUPERIORITY_OR_OTHER||z value|2.696|||<|0.01|TWO_SIDED||||||Chi-squared|||Differences between Survey 1 and Survey 2||||<0.01
92210774|NCT01054846|184322476|SUPERIORITY_OR_OTHER||z value|1.351|||>|0.05|TWO_SIDED||||||Chi-squared|||Difference between Survey 1 and Survey 2||||>0.05
92210775|NCT02434939|184322478|NON_INFERIORITY_OR_EQUIVALENCE|a clinically significant difference in validated pain scores was defined as 1.3. assuming both treatments are on average equal, 240 patients provided 95% power to demonstrate that IV low dose ketamine is non inferior to IV morphine with a 0.05 level of significance.|Mean Difference (Final Values)|5.5||||0.18|TWO_SIDED|95.0|-2.2|13.2|||t-test, 2 sided|||||13.2|-2.2|0.18
92335430|NCT01649362|184573584|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||t-test, 2 sided|||||||0.63
92335431|NCT01649362|184573585|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||t-test, 2 sided|||||||0.36
92335432|NCT01649362|184573586|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared|||||||0.02
92335433|NCT02179047|184573651|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.002|TWO_SIDED||||||ANOVA|||||||0.002
92335434|NCT02179047|184573652|SUPERIORITY||Hazard Ratio (HR)|1.05|STANDARD_DEVIATION|0.005||0.002|TWO_SIDED|95.0|||||ANOVA|||||||0.002
92335435|NCT02179047|184573653|SUPERIORITY||Hazard Ratio (HR)|1.39|STANDARD_DEVIATION|0.005||0.001|TWO_SIDED||||||ANCOVA|||||||0.001
92335436|NCT01703169|184573662|OTHER||||||||||||||||||The proportion of platelet response in a previous study (PMID:22762314) was 0.36 (9/25). The null hypothesis of no difference between the platelet response rate in this study and that of the previous study was tested using a two-sided exact test of binomial proportions. A p-value of 0.40 was obtained. The threshold for significance was 0.05.|||
92335437|NCT00905567|184573667|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA's guidleines.|Ratio of the Least Squares Mean|93.01||||||90.0|||||||Bioequivalence is established when Ratio of the Least Squares Mean (test/reference x 100) falls within 80-125.|||||
92335438|NCT00905567|184573668|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA's guidleines.|Ratio of the Least Squares Mean|96.62||||||90.0|||||||Bioequivalence is established when the Ratio of the Least Squares Mean (test/reference x 100) falls within 80-125.|||||
92335439|NCT00905567|184573669|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA's guidleines.|Ratio of the Least Squares Mean|96.43||||||90.0|||||||Bioequivalence is established when the Ratio of the Least Squares Mean (test/reference x 100) falls within 80-125.|||||
92335440|NCT00112918|184573672|SUPERIORITY_OR_OTHER|||||||0.2024||95.0|||||Closed test procedure|||Adjustments for multiplicity was done using a closed test procedure which tests for differences between all three treatment groups at the 5% alpha level first. Only in case of a significant result, the pair-wise comparison between the control arm and each of the bevacizumab arm will be tested, again at the 5% alpha level.||||0.2024
92335441|NCT00828061|184573686|SUPERIORITY_OR_OTHER||Geometric Mean Fold Difference|0.25||||0.002||95.0|0.12|0.54||1-sided, alpha = 0.05|ANOVA|Analysis performed on log-transformed fold change from baseline and results were back-transformed for reporting.||||0.54|0.12|0.002
92396311|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18||0.0014|TWO_SIDED|95.0|-0.91|-0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.22|-0.91|0.0014
92396312|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.17||0.0001|TWO_SIDED|95.0|-1.02|-0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.34|-1.02|0.0001
92210776|NCT02434939|184322481|NON_INFERIORITY_OR_EQUIVALENCE|A clinically meaningful difference in validated pain scores was defined as 1.3.Assuming both treatments are on average equal, a sample size of 240 patients (120 per group) provided 95% power to demonstrate that IV LDK is non-inferior to IV morphine with a 0.05 level of significance.||||||0.07|||||||t-test, 2 sided|||||||0.07
92335442|NCT00828061|184573686|SUPERIORITY_OR_OTHER||Geometric Mean Fold Difference|0.07|||<|0.001||95.0|0.03|0.15||1-sided, alpha = 0.05|ANOVA|Analysis performed on log-transformed fold change from baseline and results were back-transformed for reporting.||||0.15|0.03|<0.001
92335443|NCT00828061|184573687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.537||95.0|-15.48|17.26||1-sided, alpha = 0.05|ANOVA|||||17.26|-15.48|0.537
92335444|NCT02821416|184573689|SUPERIORITY||Median Difference (Final Values)|-5.81||||0.0208|TWO_SIDED|95.0|-10.69|-0.94|||Mixed Models Analysis|Model includes covariates of treatment, time post-allergen challenge , treatment\*time post-allergen challenge, allergen induced at screening||||-0.94|-10.69|0.0208
92335445|NCT02821416|184573690|SUPERIORITY||Median Difference (Final Values)|2.535||||0.363|TWO_SIDED|95.0|-3.045|8.116|||Mixed Models Analysis|Model includes covariates of treatment, maximum percent decrease in FEV1 late asthma response||||8.116|-3.045|0.3630
92335446|NCT01763203|184573692|SUPERIORITY|||||||0.73|||||||Mixed Models Analysis|||||||0.73
92335447|NCT01763203|184573693|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||||||0.77
92335448|NCT01763203|184573695|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||0.002
92335449|NCT01763203|184573696|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|||||||0.86
92335450|NCT01763203|184573697|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.10
92335451|NCT01763203|184573698|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|||||||0.46
92335452|NCT01763203|184573699|SUPERIORITY|||||||0.011|||||||Mixed Models Analysis|||||||0.011
92335453|NCT01763203|184573700|SUPERIORITY|||||||0.47|||||||Mixed Models Analysis|||||||0.47
92335454|NCT01763203|184573701|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis|||||||0.58
92335455|NCT01763203|184573702|SUPERIORITY|||||||0.74|||||||Mixed Models Analysis|||||||0.74
92335456|NCT01763203|184573703|SUPERIORITY|||||||0.0021|||||||Wilcoxon (Mann-Whitney)|||||||0.0021
92335457|NCT01763203|184573704|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|||||||0.07
92335458|NCT01763203|184573705|SUPERIORITY|||||||0.32|||||||Mixed Models Analysis|||||||0.32
92335459|NCT01763203|184573706|SUPERIORITY|||||||0.77|||||||Chi-squared|||||||0.77
92335460|NCT01763203|184573707|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
92335461|NCT01763203|184573708|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||0.45
92335462|NCT01763203|184573709|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||0.93
92335463|NCT01763203|184573710|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.80
92335464|NCT01763203|184573711|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.25
92335465|NCT02756819|184573712|OTHER||||||<|0.001||||||P-value was reported for Change at Month 6 relative to Baseline.|Wilcoxon test|||||||<0.001
92335466|NCT02756819|184573713|OTHER||||||<|0.001||||||P-value was reported for Change at Month 6 relative to Baseline.|Wilcoxon test|||||||<0.001
92335467|NCT02756819|184573716|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Overweight)|Wilcoxon test|||||||<0.001
92335468|NCT02756819|184573716|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class I)|Wilcoxon test|||||||<0.001
92335469|NCT02756819|184573716|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class II)|Wilcoxon test|||||||<0.001
92335470|NCT02756819|184573716|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class III)|Wilcoxon test|||||||<0.001
92335471|NCT02756819|184573716|OTHER||||||<|0.001|||||||Wilcoxon test|P-value was reported for Change from baseline at Month 6 (Normal glucose metabolism)||||||<0.001
92335472|NCT02756819|184573716|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Impaired glucose tolerance)|Wilcoxon test|||||||<0.001
92335473|NCT02756819|184573716|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Diabetes Mellitus - No)|Wilcoxon test|||||||<0.001
92335474|NCT02756819|184573716|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Diabetes Mellitus - Yes)|Wilcoxon test|||||||<0.001
92335475|NCT02756819|184573716|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Neither diabetes mellitus nor metabolic syndrome)|Wilcoxon test|||||||<0.001
92335476|NCT02756819|184573716|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Metabolic syndrome)|Wilcoxon test|||||||<0.001
92335477|NCT02756819|184573717|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Overweight)|Wilcoxon test|||||||<0.001
92335478|NCT02756819|184573717|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class I)|Wilcoxon test|||||||<0.001
92210777|NCT00394953|184322482|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.63|||<|0.0001|TWO_SIDED|95.0|1.83|3.79|||Chi-squared, Corrected|||The proportion of responders treated with methoxy polyethylene glycol-epoetin beta versus the proportion of responders treated with darbepoetin alpha during the evaluation period.||3.79|1.83|<0.0001
92335479|NCT02756819|184573717|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class II)|Wilcoxon test|||||||<0.001
92335480|NCT02756819|184573717|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class III)|Wilcoxon test|||||||<0.001
92335481|NCT02756819|184573717|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Normal glucose metabolism)|Wilcoxon test|||||||<0.001
92335482|NCT02756819|184573717|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Impaired glucose tolerance)|Wilcoxon test|||||||<0.001
92335483|NCT02756819|184573717|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Diabetes Mellitus - No)|Wilcoxon test|||||||<0.001
92335484|NCT02756819|184573717|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Diabetes Mellitus - Yes)|Wilcoxon test|||||||<0.001
92335485|NCT02756819|184573717|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Neither diabetes mellitus nor metabolic syndrome)|Wilcoxon test|||||||<0.001
92335486|NCT02756819|184573717|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Metabolic syndrome)|Wilcoxon test|||||||<0.001
92335487|NCT02700425|184573719|OTHER||||||<|0.001||||||P-value was not adjusted for multiple comparisons. Test was two-tailed, considered statistically significant with a p-value \<0.05, and conducted using SAS version 9.4 (SAS Institute Inc, Cary, NC) and STATA MP version 15 (College Station, TX).|Sign test|Wilcoxon signed rank test||The sample size was estimated based on the primary endpoint of echocardiographic response to test the hypothesis that an absolute 10% greater improvement in LVEF would be observed with His Bundle Pacing compared to Coronary Sinus Pacing, with a significance level of 0.05 and a power of 0.80. Primary outcome was presented at baseline and 6-months as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with the Wilcoxon signed rank test.||||<0.001
92335488|NCT02700425|184573719|OTHER||||||<|0.001||||||P-value was not adjusted for multiple comparisons. Test was two-tailed, considered statistically significant with a p-value \<0.05, and conducted using SAS version 9.4 (SAS Institute Inc, Cary, NC) and STATA MP version 15 (College Station, TX).|Sign test|Wilcoxon signed rank test||The sample size was estimated based on the primary endpoint of echocardiographic response to test the hypothesis that an absolute 10% greater improvement in LVEF would be observed with His Bundle Pacing compared to Coronary Sinus Pacing, with a significance level of 0.05 and a power of 0.80. Primary outcome was presented at baseline and 6-months as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with the Wilcoxon signed rank test.||||<0.001
92335489|NCT02700425|184573720|OTHER|paired t-test||||||0.002||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||0.002
92335490|NCT02700425|184573720|OTHER|paired t-test||||||0.002|||||||t-test, 2 sided|||Primary outcome of His Bundle Pacing was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||0.002
92335491|NCT02700425|184573721|OTHER|Log rank test of a survival analysis||||||0.62||||||P-value did not need to be adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Log Rank|||Primary outcome of time to first cardiovascular hospitalization or death by His Bundle Pacing compared to Coronary Sinus Pacing presented median and interquartile range in years based upon the Shapiro-Wilks test of normality, and then analyzed with a log rank test.||||0.62
92335492|NCT02700425|184573722|OTHER|||||||0.09||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|Wilcoxon sign rank test||NYHA functional class of Coronary Sinus Pacing arm was presented at baseline as medians (interquartile ranges) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon sign rank test.||||0.09
92335493|NCT02700425|184573722|OTHER|||||||0.32||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|Wilcoxon sign rank test||NYHA functional class of the His Bundle Pacing arm was presented at baseline and 12 months as medians (interquartile ranges) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon sign rank test.||||0.32
92396313|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0046|TWO_SIDED|95.0|-0.85|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.16|-0.85|0.0046
92335494|NCT02700425|184573723|OTHER|||||||0.35||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Quality of Life was presented at baseline and 1-year as medians (interquartile range) for patients with His Bundle Pacing based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.35
92335495|NCT02700425|184573723|OTHER|||||||0.07||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Quality of Life was presented at baseline and 1-year as medians (interquartile range) for patients with Coronary Sinus Pacing based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.07
92335496|NCT02700425|184573724|OTHER|Log rank test of a survival analysis||||||0.14||||||P-value did not need to be adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Log Rank|||Primary outcome of time to first cardiovascular rehospitalization by His Bundle Pacing compared to Coronary Sinus Pacing presented median and interquartile range in years based upon the Shapiro-Wilks test of normality, and then analyzed with a log rank test.||||0.14
92335497|NCT02700425|184573725|OTHER|Log rank test of a survival analysis||||||0.14||||||P-value did not need to be adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Log Rank|||Primary outcome of time to first treated VT/VF by His Bundle Pacing compared to Coronary Sinus Pacing presented median and interquartile range in years based upon the Shapiro-Wilks test of normality, and then analyzed with a log rank test.||||0.14
92335498|NCT01639703|184573733|OTHER||Odds Ratio (OR)|0.76||||0.2476|TWO_SIDED|95.0|0.47|1.21|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 5 units for Blood Volume|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||1.21|0.47|0.2476
92335499|NCT01639703|184573734|OTHER||Odds Ratio (OR)|1.13||||0.5354|TWO_SIDED|95.0|0.77|1.66|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 5 units for Blood Volume|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||1.66|0.77|0.5354
92335500|NCT01639703|184573735|OTHER||Odds Ratio (OR)|0.9||||0.3487|TWO_SIDED|95.0|0.71|1.13|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 10 units for Blood Flow|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||1.13|0.71|0.3487
92335501|NCT01639703|184573736|OTHER||Odds Ratio (OR)|1.08||||0.4195|TWO_SIDED|95.0|0.9|1.29|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 10 units for Blood Flow|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||1.29|0.90|0.4195
92396314|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18||0.0003|TWO_SIDED|95.0|-0.99|-0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.29|-0.99|0.0003
92210778|NCT02446886|184322501|SUPERIORITY||Mean Difference (Final Values)|1.65||||0.04|TWO_SIDED||||||t-test, 2 sided|||Previously published reproducibility of our MWF imaging (FAST-T2) has been established to be +/- 2.0 Our hypothesis for this study was the monthly ACTH would lead to greater remylination in acute MS lesions. However, to reach this goal, improvement must be beyond established reproducibility. Note: Since MWF is a fraction of myelin water to total water, it does not have a unit.||||0.04
92335502|NCT01639703|184573737|OTHER||Odds Ratio (OR)|0.9||||0.7127|TWO_SIDED|95.0|0.53|1.54|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 10 units for Permeability Surface|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||1.54|0.53|0.7127
92335503|NCT01639703|184573738|OTHER||Odds Ratio (OR)|1.41||||0.1753|TWO_SIDED|95.0|0.86|2.31|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 10 units for Permeability Surface|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||2.31|0.86|0.1753
92335504|NCT01461473|184573807|SUPERIORITY_OR_OTHER|||||||0.2067|||||||Analysis of covariance (GLM)|||These data were analyzed using an analysis of covariance via general linear model (GLM). The GLM has an indicator variable for PAP vs. OA plus covariates for baseline apnea-hypopnea index, gender, site and baseline NMAP. The primary hypothesis tested is that the 2-month means differ between study arms, after adjustment for the above covariates. A Wald statistic was constructed for hypothesis testing.||||0.2067
92335505|NCT01461473|184573808|SUPERIORITY_OR_OTHER|||||||0.3902|||||||GLMM|||Generalized linear mixed model (GLMM) was fit in which the outcome was regressed on an indicator variable for PAP vs. OA, baseline apnea-hypopnea index, gender, site and baseline value of the outcome. A Wald statistic was constructed for hypothesis testing.||||0.3902
92335506|NCT01461473|184573809|SUPERIORITY_OR_OTHER|||||||0.9319|||||||GLMM|||A GLMM was fit in which the outcome was regressed on an indicator variable for PAP vs. OA, baseline apnea-hypopnea index, gender, site and baseline value of the outcome. A Wald statistic was constructed for hypothesis testing.||||0.9319
92335507|NCT01461473|184573810|SUPERIORITY_OR_OTHER|||||||0.3895|||||||GLMM|||A GLMM was fit in which the outcome was regressed on an indicator variable for PAP vs. OA, baseline apnea-hypopnea index, gender, site and baseline value of the outcome. A Wald statistic was constructed for hypothesis testing.||||0.3895
92335508|NCT01461473|184573811|SUPERIORITY_OR_OTHER|||||||0.3449|||||||see Comments|Analysis of covariance with robust MM regression due to extreme residuals from initial fit showing strong departure from normal distribution.||Using analysis of covariance (robust MM regression), the outcome was regressed on an indicator variable for PAP vs. OA, baseline outcome, baseline apnea-hypopnea index, gender, site, baseline brachial-artery diameter, body mass index, age, and the interaction of gender and study arm. The latter allows for the possibility that treatment effect may differ between males and females. A Wald statistic was constructed for hypothesis testing.||||0.3449
92335509|NCT01461473|184573812|SUPERIORITY_OR_OTHER|||||||0.1531|||||||see Comments|Analysis of covariance with robust MM regression due to extreme residuals from initial fit showing strong departure from normal distribution.||Using analysis of covariance (robust MM regression), the outcome was regressed on an indicator variable for PAP vs. OA, baseline outcome, baseline apnea-hypopnea index, gender, site, baseline brachial-artery diameter, body mass index, age, and the interaction of gender and study arm. The latter allows for the possibility that treatment effect may differ between males and females. A Wald statistic was constructed for hypothesis testing.||||0.1531
92335510|NCT00435461|184573830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.2|-0.7|||ANCOVA|||||-0.7|-1.2|<0.001
92335511|NCT00435461|184573830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.2|-0.7|||ANCOVA|||||-0.7|-1.2|<0.001
92335512|NCT00435461|184573830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.816|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|||||0.2|-0.3|0.816
92335513|NCT00435461|184573831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.6|-0.9|||ANCOVA|||||-0.9|-1.6|<0.001
92335514|NCT00435461|184573831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.4|-0.7|||ANCOVA|||||-0.7|-1.4|<0.001
92227057|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.51|TWO_SIDED|95.0|-0.2|0.4|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.4|-0.2|0.510
92335515|NCT00435461|184573831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.136|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||||0.1|-0.6|0.136
92335516|NCT00435461|184573832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.5|-0.7|||ANCOVA|||||-0.7|-1.5|<0.001
92335517|NCT00435461|184573832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.2|-0.4|||ANCOVA|||||-0.4|-1.2|<0.001
92335518|NCT00435461|184573832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.136|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||||0.1|-0.7|0.136
92335519|NCT00435461|184573833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.6|-0.8|||ANCOVA|||||-0.8|-1.6|<0.001
92335520|NCT00435461|184573833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.3|-0.6|||ANCOVA|||||-0.6|-1.3|<0.001
92335521|NCT00435461|184573833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.136|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||||0.1|-0.6|0.136
92335522|NCT00435461|184573834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.001|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|||||-0.2|-0.8|0.001
92335523|NCT00435461|184573834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.106|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||0|-0.6|0.106
92335524|NCT00435461|184573834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.286|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.286
92335525|NCT00435461|184573835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.007|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|||||-0.1|-0.7|0.007
92335526|NCT00435461|184573835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.286|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.286
92335527|NCT00435461|184573835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.106|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.106
92335528|NCT00435461|184573836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.003|TWO_SIDED|95.0|-0.7|-0.2|||ANCOVA|||||-0.2|-0.7|0.003
92335529|NCT00435461|184573836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.286|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.286
92335530|NCT00435461|184573836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.106|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||0|-0.6|0.106
92335531|NCT00435461|184573837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.7|-1.0|||ANCOVA|||Pre-dose iTNSS||-1|-1.7|<0.001
92335532|NCT00435461|184573837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.4|-0.7|||ANCOVA|||Pre-dose iTNSS||-0.7|-1.4|<0.001
92335533|NCT00435461|184573837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.193|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||Pre-dose iTNSS||0.1|-0.6|0.193
92335534|NCT00435461|184573837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|||Pre-dose iTOSS||-0.2|-0.8|<0.001
92335535|NCT00435461|184573837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.058|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||Pre-dose iTOSS||0|-0.6|0.058
92335536|NCT00435461|184573837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.16|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|||Pre-dose iTOSS||0|-0.5|0.16
92210779|NCT02446886|184322506|SUPERIORITY||Mean Difference (Final Values)|1.65||||0.077|TWO_SIDED||||||Mixed Models Analysis|||Linear mixed-effects models were implemented to assess the variables of interest (lesion MWF) among patients randomized to once versus the monthly ACTH treatment group. The modeling strategy accounts for multiple lesions per patient, repeated measurements (longitudinal analysis) and the following covariates were always considered: patient age, gender, disease duration, individual T2w lesion volume, time on disease modifying treatments (DMT) prior to enrollment, and DMT during the study.|Linear mixed-effects models were implemented|||0.077
92210780|NCT03021954|184322518|SUPERIORITY|||||||0.086|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is in the intervention group, we expect a decrease in the area of the levator hiatus at 40 days and 3 months post-partum. Power 90 % confidence interval β = 0.10, α = 0.05||||0.086
92210781|NCT03021954|184322519|EQUIVALENCE|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is platelet rich plasma can maintain or increase levator ani muscle contractions post-partum||||0.29
92210782|NCT02120716|184322577|OTHER|Logistic regression analysis.|Odds Ratio (OR)|5.5||||0.13|TWO_SIDED|95.0|0.6|51.2|||Regression, Logistic|||||51.2|0.6|0.13
92210783|NCT02120716|184322578|SUPERIORITY||Odds Ratio (OR)|11.7|||<|0.015|TWO_SIDED|95.0|4.2|33.0|||Regression, Logistic|||The reported percentages were captured at two separate time points (baseline, and at 4-Month Follow-Up).||33.0|4.2|<0.015
92210784|NCT04079803|184322579|SUPERIORITY|||||||0.087||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P=0.0088 and CFB was 13.4. In percent change from baseline with these two subjects removed, P=0.004.|||0.087
92210785|NCT04079803|184322579|SUPERIORITY|||||||0.01||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.0006 and CFB was 16.9. In percent change from baseline with this subject removed, P=0.0004.|||0.01
92210786|NCT04079803|184322580|SUPERIORITY||||||<|0.0001||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P\<0.0001 and CFB was -19.8.|||<0.0001
92210787|NCT04079803|184322580|SUPERIORITY|||||||0.0012||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.001 and CFB was -14.9.|||0.0012
92210788|NCT04079803|184322581|SUPERIORITY|||||||0.005||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P=0.003 and CFB was -3.2.|||0.005
92210789|NCT04079803|184322581|SUPERIORITY|||||||0.002||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.003 and CFB was -2.5.|||0.002
92210790|NCT04079803|184322582|SUPERIORITY|||||||0.0002||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P=0.0002 and CFB was -681.|||0.0002
92210791|NCT04079803|184322582|SUPERIORITY|||||||0.0005||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.0005 and CFB was -527.|||0.0005
92210792|NCT04079803|184322583|SUPERIORITY|||||||0.0003||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P=0.0002 and CFB was -78.5.|||0.0003
92227058|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.33|TWO_SIDED|95.0|-0.5|0.2|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.2|-0.5|0.330
92335537|NCT00435461|184573838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.8|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|5.7|11.9|||ANCOVA|||Morning assessment||11.9|5.7|<0.001
92335538|NCT00435461|184573838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|5.3|11.5|||ANCOVA|||Morning assessment||11.5|5.3|<0.001
92335539|NCT00435461|184573838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.59||0.779|TWO_SIDED|95.0|-3.6|2.7|||ANCOVA|||Morning assessment||2.7|-3.6|0.779
92335540|NCT00435461|184573838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3|STANDARD_ERROR_OF_MEAN|1.65|<|0.001|TWO_SIDED|95.0|3.1|9.6|||ANCOVA|||Evening assessment||9.6|3.1|<0.001
92335541|NCT00435461|184573838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|STANDARD_ERROR_OF_MEAN|1.65|<|0.001|TWO_SIDED|95.0|3.8|10.3|||ANCOVA|||Evening assessment||10.3|3.8|<0.001
92335542|NCT00435461|184573838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|1.65||0.662|TWO_SIDED|95.0|-2.5|4.0|||ANCOVA|||Evening assessment||4|-2.5|0.662
92335543|NCT00435461|184573839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA|||||-0.3|-0.7|<0.001
92335544|NCT00435461|184573839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.203|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.203
92396315|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.14|-0.45||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.45|-1.14|<0.0001
92227059|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.72|TWO_SIDED|95.0|-0.3|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.4|-0.3|0.720
92227060|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.205|TWO_SIDED|95.0|-0.1|0.5|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.5|-0.1|0.205
92335545|NCT00435461|184573839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.8|-0.4|||ANCOVA|||||-0.4|-0.8|<0.001
92335546|NCT04676724|184573875|OTHER||Difference in SVR Rate|-3.0|||||TWO_SIDED|95.0|-29.0|11.0|||||The point estimate of SVR and its 95% highest posterior density Credible Interval (CI) are estimated from a Bayesian model that incorporates the analysis stratification factors and treatment arm.|||11|-29|
92335547|NCT00237692|184573889|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|59.8|||||TWO_SIDED|95.0|55.7|63.9|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at Baseline||63.9|55.7|
92335548|NCT00237692|184573889|SUPERIORITY_OR_OTHER||Est. % of patients with controled SBP|59.8|||||TWO_SIDED|95.0|55.7|64.0|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at Baseline||64.0|55.7|
92335549|NCT00237692|184573889|SUPERIORITY_OR_OTHER||Est. % of patinets with controlled SBP|59.8|||||TWO_SIDED|95.0|55.6|63.9|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled BP at Baseline||63.9|55.6|
92335550|NCT00237692|184573889|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|59.8|||||TWO_SIDED|95.0|55.6|63.9|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at Baseline||63.9|55.6|
92335551|NCT00237692|184573890|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|58.0|||||TWO_SIDED|95.0|49.3|66.7|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at 6 months.||66.7|49.3|
92335552|NCT00237692|184573890|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|60.9|||||TWO_SIDED|95.0|52.5|69.3|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 6 months.||69.3|52.5|
92335553|NCT00237692|184573890|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|65.0|||||TWO_SIDED|95.0|56.9|73.1|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 6 months.||73.1|56.9|
92335554|NCT00237692|184573890|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|63.8|||||TWO_SIDED|95.0|55.6|72.0|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 6 months.||72.0|55.6|
92335555|NCT00237692|184573890|SUPERIORITY_OR_OTHER||% diff|2.9|||||TWO_SIDED|95.0|-9.0|14.9|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 2 - Nurse Behavioral and Arm 1 - Control at 6months.||14.9|-9.0|
92335556|NCT00237692|184573890|SUPERIORITY_OR_OTHER||% Diff|6.9|||||TWO_SIDED|95.0|-4.7|18.7|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 2 - Nurse Med Management and Arm 1 - Control at 6months.||18.7|-4.7|
92335557|NCT00237692|184573890|SUPERIORITY_OR_OTHER||% Diff|5.7|||||TWO_SIDED|95.0|-6.0|17.6||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 2 - Combined Behavioral \& Med Mgmt and Arm 1 - Control at 6months.||17.6|-6.0|
92335558|NCT00237692|184573891|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|59.9|||||TWO_SIDED|95.0|51.4|68.3|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 12 months.||68.3|51.4|
92335559|NCT00237692|184573891|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|73.1|||||TWO_SIDED|95.0|65.6|80.7|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 12 months||80.7|65.6|
92335560|NCT00237692|184573891|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|73.4|||||TWO_SIDED|95.0|66.1|80.7|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 12 months.||80.7|66.1|
92335561|NCT00237692|184573891|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|68.6|||||TWO_SIDED|95.0|60.5|76.6|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at 12 months.||76.6|60.5|
92335562|NCT00237692|184573891|SUPERIORITY_OR_OTHER||% Diff|13.2|||||TWO_SIDED|95.0|2.0|24.4||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 2 - Nurse Behavioral and Arm 1 - Control at 12 months.||24.4|2.0|
92335563|NCT00237692|184573891|SUPERIORITY_OR_OTHER||% Diff|13.5|||||TWO_SIDED|95.0|2.4|24.6||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 3 - Nurse Med Management and Arm 1 - Control at 12 months.||24.6|2.4|
92335564|NCT00237692|184573891|SUPERIORITY_OR_OTHER||% diff|8.6|||||TWO_SIDED|95.0|-2.9|20.2||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 4 - Combined Behavioral \& Med Mgmt and Arm 1 - Control at 12 months.||20.2|-2.9|
92335565|NCT00237692|184573892|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|61.8|||||TWO_SIDED|95.0|53.0|70.6|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at 18 months||70.6|53.0|
92335566|NCT00237692|184573892|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|59.4|||||TWO_SIDED|95.0|50.8|67.9|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled BP at 18 months||67.9|50.8|
92335567|NCT00237692|184573892|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|63.5|||||TWO_SIDED|95.0|55.1|72.0|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 18 months.||72.0|55.1|
92396316|NCT03192176|184689393|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.14|-0.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.70|-1.14|<0.0001
92396317|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0209|TWO_SIDED|95.0|-0.77|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.06|-0.77|0.0209
92335568|NCT00237692|184573892|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|71.6|||||TWO_SIDED|95.0|63.7|79.5|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 18 months||79.5|63.7|
92335569|NCT00237692|184573892|SUPERIORITY_OR_OTHER||% Diff|-2.4|||||TWO_SIDED|95.0|-14.6|9.7||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 2 - Nurse Behavioral and Arm 1 - Control at 18 months.||9.7|-14.6|
92335570|NCT00237692|184573892|SUPERIORITY_OR_OTHER||% Diff|1.7|||||TWO_SIDED|95.0|-10.3|13.8||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 3 - Nurse Med Management and Arm 1 - Control at 18 months.||13.8|-10.3|
92335571|NCT00237692|184573892|SUPERIORITY_OR_OTHER||% Diff|9.8|||||TWO_SIDED|95.0|-1.9|21.4||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 4 - Combined Behavioral \& Med Mgmt and Arm 1 - Control at 18 months.||21.4|-1.9|
92335572|NCT00237692|184573894|SUPERIORITY_OR_OTHER||Est. % Diff in Patient w/Controlled SBP|2.0|||||TWO_SIDED|95.0|-3.1|7.1|||||Systolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in systolic blood pressure at 12months between Arm 1 - Control and Arm 2 - Nurse Behavioral||7.1|-3.1|
92335573|NCT00237692|184573894|SUPERIORITY_OR_OTHER||Est. Dif in Patient w/Controlled DBP|0.5|||||TWO_SIDED|95.0|-2.7|3.8|||||Diastolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in diastolic blood pressure at 12months between Arm 1 - Control and Arm 2 - Nurse Behavioral||3.8|-2.7|
92335574|NCT00237692|184573894|SUPERIORITY_OR_OTHER||Est. % Diff in Patient w/Controlled SBP|0.4|||||TWO_SIDED|95.0|-4.8|5.5|||||Systolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in systolic blood pressure at 12months between Arm 1 - Control and Arm 3 - Nurse Med Management.||5.5|-4.8|
92335575|NCT00237692|184573894|SUPERIORITY_OR_OTHER||Est. % Diff in Patient w/Controlled DBP|0.7|||||TWO_SIDED|95.0|-2.6|4.0|||||Diastolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in diastolic blood pressure at 12months between Arm 1 - Control and Arm 3 - Nuse Med Management||4.0|-2.6|
92335576|NCT00237692|184573894|SUPERIORITY_OR_OTHER||Est. % Diff in Patient w/Controlled SBP|1.6|||||TWO_SIDED|95.0|-3.3|6.6|||||Systolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in systolic blood pressure at 12months between Arm 1 - Control and Arm 4 - Combined Behaviorial and Med Management||6.6|-3.3|
92396318|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.6|STANDARD_DEVIATION|0.18||0.0011|TWO_SIDED|95.0|-0.93|-0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.24|-0.93|0.0011
92335577|NCT00237692|184573894|SUPERIORITY_OR_OTHER||Est. % Diff in Patient w/Controlled DBP|3.4|||||TWO_SIDED|95.0|0.3|6.6|||||Diastolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in diastolic blood pressure at 12months between Arm 1 - Control and Arm 4 - Combined Behaviorial and Med Management||6.6|0.3|
92335578|NCT00685360|184573895|SUPERIORITY||Risk Ratio Mean|1.534|||=|0.0083|TWO_SIDED|95.0|1.107|2.124|||Cochran-Mantel-Haenszel|P-value was derived using Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata (cavitation).||||2.124|1.107|=0.0083
92335579|NCT00685360|184573895|SUPERIORITY||Risk Ratio Mean|1.416|||=|0.0393|TWO_SIDED|95.0|1.012|1.98||P-value was derived using CMH test stratified by randomization strata (cavitation).|Cochran-Mantel-Haenszel|||||1.980|1.012|=0.0393
92335580|NCT00685360|184573907|SUPERIORITY||Risk Ratio Mean|1.599|||=|0.0021|TWO_SIDED|95.0|1.175|2.177|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||2.177|1.175|=0.0021
92335581|NCT00685360|184573907|SUPERIORITY||Risk Ratio Mean|1.939|||<|0.0001|TWO_SIDED|95.0|1.449|2.595|||Cochran-Mantel-Haenszel|||||2.595|1.449|<.0001
92335582|NCT00685360|184573908|SUPERIORITY||||||=|0.2419|TWO_SIDED||||||ANCOVA|Pairwise comparison was derived from analysis of covariance(ANCOVA)model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.2419
92335583|NCT00685360|184573908|SUPERIORITY||||||=|0.2239|TWO_SIDED||||||ANCOVA|Pairwise comparison is derived from ANCOVA model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.2239
92335584|NCT00685360|184573908|SUPERIORITY||||||=|0.9544|TWO_SIDED||||||ANCOVA|Pairwise comparison is derived from ANCOVA model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.9544
92335585|NCT00685360|184573909|SUPERIORITY||||||=|0.0246|TWO_SIDED||||||ANCOVA|Pairwise comparison was derived from ANCOVA model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.0246
92396319|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.07|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.38|-1.07|<0.0001
92335586|NCT00685360|184573909|SUPERIORITY||||||=|0.0529|TWO_SIDED||||||ANCOVA|Pairwise comparison was derived from ANCOVA model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.0529
92335587|NCT00685360|184573909|SUPERIORITY||||||=|0.7508|TWO_SIDED||||||ANCOVA|Pairwise comparison was derived from ANCOVA model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.7508
92335588|NCT00685360|184573910|SUPERIORITY||Risk Ratio Mean|1.272|||=|0.0518|TWO_SIDED|95.0|0.995|1.627|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.627|0.995|=0.0518
92335589|NCT00685360|184573910|SUPERIORITY||Risk Ratio Mean|1.203|||=|0.1506|TWO_SIDED|95.0|0.934|1.55|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.550|0.934|=0.1506
92335590|NCT00685360|184573911|SUPERIORITY||Risk Ratio Mean|1.234|||=|0.1201|TWO_SIDED|95.0|0.945|1.612|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.612|0.945|=0.1201
92335591|NCT00685360|184573911|SUPERIORITY||Risk Ratio Mean|1.099|||=|0.5112|TWO_SIDED|95.0|0.829|1.456|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.456|0.829|=0.5112
92335592|NCT00685360|184573912|SUPERIORITY||Risk Ratio Mean|1.323|||=|0.0141|TWO_SIDED|95.0|1.053|1.661|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.661|1.053|=0.0141
92335593|NCT00685360|184573912|SUPERIORITY||Risk Ratio Mean|1.438|||=|0.0008|TWO_SIDED|95.0|1.155|1.791|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.791|1.155|=0.0008
92335594|NCT00685360|184573913|SUPERIORITY||Risk Ratio Mean|1.341|||=|0.0196|TWO_SIDED|95.0|1.044|1.722|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.722|1.044|=0.0196
92335595|NCT00685360|184573913|SUPERIORITY||Risk Ratio Mean|1.503|||=|0.0006|TWO_SIDED|95.0|1.183|1.909|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.909|1.183|=0.0006
92335596|NCT00685360|184573914|SUPERIORITY||||||=|0.0468|||||||Cochran-Armitage Linear Trend Test|Cochran-Armitage test was performed for dose response with the treatment group ordered as placebo, delamanid 100 mg BID, and delamanid 200 mg BID.||||||=0.0468
92335597|NCT00685360|184573915|SUPERIORITY||Hazard Ratio (HR)|1.856|||=|0.0011|TWO_SIDED|95.0|1.255|2.745|||Stratified Log-Rank Test|p-value was derived from log-rank test with SAS Proc lifetest for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.745|1.255|=0.0011
92335598|NCT00685360|184573915|SUPERIORITY||Hazard Ratio (HR)|1.849|||=|0.0013|TWO_SIDED|95.0|1.246|2.743|||Stratified Log-Rank Test|p-value was derived from log-rank test with SAS Proc lifetest for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.743|1.246|=0.0013
92335599|NCT00685360|184573916|SUPERIORITY||Hazard Ratio (HR)|1.926|||=|0.0004|TWO_SIDED|95.0|1.315|2.82|||Stratified Log-Rank Test|P-value was derived from Log-rank test with SAS PROC LIFETEST for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.820|1.315|=0.0004
92335600|NCT00685360|184573916|SUPERIORITY||Hazard Ratio (HR)|2.19|||<|0.0001|TWO_SIDED|95.0|1.504|3.189|||Stratified Log-Rank Test|||||3.189|1.504|<.0001
92335601|NCT00685360|184573917|SUPERIORITY||Hazard Ratio (HR)|1.727|||=|0.0056|TWO_SIDED|95.0|1.152|2.591|||Stratified Log-Rank Test|P-value was derived from Log-rank test with SAS PROC LIFETEST for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.591|1.152|=0.0056
92335602|NCT00685360|184573917|SUPERIORITY||Hazard Ratio (HR)|1.585|||=|0.0232|TWO_SIDED|95.0|1.048|2.399|||Stratified Log-Rank Test|P-value was derived from Log-rank test with SAS PROC LIFETEST for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.399|1.048|=0.0232
92335603|NCT00685360|184573918|SUPERIORITY||Hazard Ratio (HR)|1.846|||=|0.0016|TWO_SIDED|95.0|1.235|2.759|||Stratified Log-Rank Test|P-value was derived from log-rank test with SAS PROC LIFETEST for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.759|1.235|=0.0016
92335604|NCT00685360|184573918|SUPERIORITY||Hazard Ratio (HR)|2.301|||<|0.0001|TWO_SIDED|95.0|1.555|3.405|||Stratified Log-Rank Test|P-value was derived from Log-rank test with SAS PROC LIFETEST for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||3.405|1.555|<.0001
92335605|NCT00803712|184573934|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Hypothesis to be tested: the proportion of participants achieving the specified PTH target of ≥ 30% reduction in PTH from baseline will be greater in the cinacalcet plus low dose active vitamin D group than in the control group during the efficacy assessment phase at month 6 (weeks 22 to 26).||||<0.0001
92335606|NCT00803712|184573935|SUPERIORITY_OR_OTHER|||||||0.0002||||||Multiplicity adjusted p-value is presented, adjusted using the Dubey and Armitage-Parmer method|Cochran-Mantel-Haenszel|||||||0.0002
92335607|NCT00803712|184573936|SUPERIORITY_OR_OTHER|||||||0.0139||||||Adjusted p-value is presented. P-value is adjusted using Dubey and Armitage-Parmer method of adjusting for multiple comparisons|Cochran-Mantel-Haenszel|||||||0.0139
92335608|NCT00803712|184573937|SUPERIORITY_OR_OTHER|||||||0.2386||||||Multiplicity adjusted p-value is presented, adjusted using the Dubey and Armitage-Parmer method|Cochran-Mantel-Haenszel|||||||0.2386
92335609|NCT00803712|184573938|SUPERIORITY_OR_OTHER|||||||0.0875|||||||Cochran-Mantel-Haenszel|||||||0.0875
92335610|NCT00803712|184573939|SUPERIORITY_OR_OTHER|||||||0.4304|||||||Cochran-Mantel-Haenszel|||||||0.4304
92335611|NCT00803712|184573940|SUPERIORITY_OR_OTHER|||||||0.091|||||||Cochran-Mantel-Haenszel|||||||0.0910
92227061|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.41|TWO_SIDED|95.0|-0.5|0.2|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.2|-0.5|0.410
92335612|NCT00803712|184573941|SUPERIORITY_OR_OTHER|||||||0.952|||||||Cochran-Mantel-Haenszel|||||||0.9520
92335613|NCT00803712|184573942|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
92335614|NCT00803712|184573943|SUPERIORITY_OR_OTHER|||||||0.0611|||||||Cochran-Mantel-Haenszel|||||||0.0611
92335615|NCT00803712|184573944|SUPERIORITY_OR_OTHER|||||||0.3298|||||||Cochran-Mantel-Haenszel|||||||0.3298
92335616|NCT00803712|184573945|SUPERIORITY_OR_OTHER|||||||0.4436|||||||Cochran-Mantel-Haenszel|||||||0.4436
92335617|NCT00803712|184573946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata. Due to distributional properties of the data, analysis was performed on log-transformed data||||||<0.0001
92335618|NCT00803712|184573947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata.||||||<0.0001
92335619|NCT00803712|184573948|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANCOVA|Analysis was adjusted for randomization strata. Due to distributional properties of the data, analysis was performed on log-transformed data||||||0.0040
92335620|NCT00803712|184573949|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata.||||||<0.0001
92335621|NCT00803712|184573950|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline corrected serum calcium||||||<0.0001
92335622|NCT00803712|184573951|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline corrected serum calcium.||||||<0.0001
92335623|NCT00803712|184573952|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline corrected serum calcium.||||||<0.0001
92335624|NCT00803712|184573953|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline corrected serum calcium.||||||<0.0001
92335625|NCT00803712|184573954|SUPERIORITY_OR_OTHER|||||||0.0085|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline serum phosphorus.||||||0.0085
92335626|NCT00803712|184573955|SUPERIORITY_OR_OTHER|||||||0.071|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline serum phosphorus.||||||0.0710
92335627|NCT00803712|184573956|SUPERIORITY_OR_OTHER|||||||0.3546|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline serum phosphorus.||||||0.3546
92335628|NCT00803712|184573957|SUPERIORITY_OR_OTHER|||||||0.7518|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline serum phosphorus.||||||0.7518
92335629|NCT01563198|184573968|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Change in Non-completion Rate of MRI Scans From Baseline at Average of One Year (All Schedule Patients)||||<0.0001
92335630|NCT01563198|184573969|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92335631|NCT01563198|184573970|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92335632|NCT01490840|184573975|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 90 in each group would have 80% power to detect a difference in means of 3.8, assuming that the common standard deviation is 9.05, using a two group t-test with a 0.05 2-sided significance level.|Mean Difference (Net)|-1.47||||0.4579|TWO_SIDED|95.0|-5.39|2.44|||ANCOVA|||||2.44|-5.39|0.4579
92335633|NCT02362191|184574002|OTHER|||||||0.758||||||The threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.758
92335634|NCT02362191|184574003|OTHER|||||||0.4||||||The threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.40
92335635|NCT00547248|184574010|NON_INFERIORITY|Non-inferiority was demonstrated if the difference in terms of incidence of post-immunization febrile reactions (rectal temperature \> 39.0°C) in Synflorix™ vaccine minus Prevenar™ did not exceed the pre-defined clinically acceptable threshold of 5% + half the incidence in Prevenar.|Difference in percentage|0.89|||||TWO_SIDED|95.0|-4.82|5.59|||Philips' statistical test|||||5.59|-4.82|
92335636|NCT00534248|184574038|SUPERIORITY_OR_OTHER||point estimate|0.698|||<|0.001|TWO_SIDED|95.0|0.541|0.806|||Conditional Exact Method||The point estimate was for vaccine efficacy with respect to incidence of HZ.|Vaccine efficacy with respect to HZ was defined as the relative reduction in incidence rate of HZ point estimate (95% CI) calculated as 1 minus the ratio of the estimated incidence rates of HZ in the zoster vaccine group and the placebo group.||.806|.541|<.001
92335637|NCT00534248|184574039|SUPERIORITY_OR_OTHER||geometric mean titre ratio|2.3|||<|0.001|TWO_SIDED|95.0|2.2|2.4|||linear mixed longitudinal analysis model|||||2.4|2.2|<.001
92335638|NCT00534248|184574040|SUPERIORITY_OR_OTHER||Relative Risk|1.133|||||TWO_SIDED|95.0|0.805|1.595||||||Analysis of proportion of participants reporting one or more serious adverse experiences reported within 42 days postvaccination.||1.595|.805|
92335639|NCT02259400|184574049|NON_INFERIORITY_OR_EQUIVALENCE|For the calculation of sample size we used the duration of ventilation as the main primary outcome. As no basic data are available for this population, we were able to retrieve from the database of our two NICUs the duration of ventilation on NIV. We assumed a difference of 24-h between the two groups in the duration of NIV as clinically relevant. We used a confidence level α=0.05; the power level desired was 0.80 and consequently we needed 62 patients for each group.|||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
92335640|NCT03498313|184574070|SUPERIORITY||Slope|-0.25|STANDARD_ERROR_OF_MEAN|0.082||0.002|TWO_SIDED|95.0|-0.41|-0.08|||Mixed Models Analysis|This is the p-value for the Treatment X Cycle Phase Interaction. Kenward-Roger Method was utilized for degrees of freedom.|Placebo represents the reference treatment.|Fixed interaction effect of treatment (0=Placebo, 1=E2) by cycle phase (0=Lower-Risk Early Luteal Baseline, 1=Higher-Risk Perimenstrual Phase) predicting SI severity in a multilevel model (with daily observations nested within conditions nested within participants over time).||-.08|-.41|.002
92335641|NCT03498313|184574070|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.083||0.46|TWO_SIDED|95.0|-0.22|0.1|||Mixed Models Analysis|This is the p-value for the Treatment X Cycle Phase Interaction. Kenward-Roger Method was utilized for degrees of freedom.|Placebo Represents the Reference Condition.|Fixed interaction effect of treatment (0=Placebo, 1=P4) by cycle phase (0=Lower-Risk Early Luteal Baseline, 1=Higher-Risk Perimenstrual Phase) predicting SI severity in a multilevel model (with daily observations nested within conditions nested within participants over time).||.10|-.22|.46
92335642|NCT03318003|184574138|SUPERIORITY||Pearson Chi Square|0.76||||0.92|TWO_SIDED|||||no adjustments made|Chi-squared|||||||0.92
92335643|NCT01462305|184574142|SUPERIORITY_OR_OTHER|||||||0.74||||||interaction effect and week of treatment condition|ANOVA|||To test the hypothesis that depressed SAD patients would demonstrate greater antidepressant therapeutic benefit from the \~465nm (shorter wavelength) source compared with the \~595nm (longer wavelength) source, we conducted a repeated-measures ANOVA using PROC MIXED in SAS 9.3 with treatment (\~465nm vs. \~595nm) as a between-subject factor and time (treatment visit 1, treatment visit 2, treatment visit 3, phone assessment 1, phone assessment 2, and treatment visit 4) as a within-subject factor.||||0.74
92335644|NCT01462305|184574142|SUPERIORITY_OR_OTHER|||||||0.9||||||A repeated-measures ANOVA on the 29 subjects revealed no significant effect or interaction effect|ANOVA|||||||0.9
92335645|NCT01462305|184574142|SUPERIORITY_OR_OTHER||||||<|0.0001||||||A repeated-measures ANOVA on the 29 subjects revealed significant effect of treatment week|ANOVA|||||||<0.0001
92335646|NCT01462305|184574144|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||ANOVA|||||||0.20
92396320|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0956|TWO_SIDED|95.0|-0.67|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.05|-0.67|0.0956
92396321|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.005|TWO_SIDED|95.0|-0.89|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.16|-0.89|0.0050
92335647|NCT00169104|184574153|SUPERIORITY||Mean Difference (Net)|-0.2|||>|0.05|TWO_SIDED|||||t=-0.29|t-test, 2 sided|df=15||T test||||>0.05
92335648|NCT02020889|184574169|OTHER||Odds Ratio (OR)|5.91|||<|0.001|TWO_SIDED|95.0|2.68|13.03|||Proportional odds regression model|Proportional odds regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score, region|Mepolizumab 300mg/Placebo|||13.03|2.68|<0.001
92335649|NCT02020889|184574170|OTHER||Odds Ratio (OR)|16.74|||<|0.001|TWO_SIDED|95.0|3.61|77.56|||Regression, Logistic|Logistic regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score and region|Mepolizumab 300mg/Placebo|||77.56|3.61|<0.001
92335650|NCT02020889|184574171|OTHER||Hazard Ratio (HR)|0.322|||<|0.001|TWO_SIDED|95.0|0.206|0.502|||Cox Proportional Hazard regression|Cox proportional hazards model with covariates of treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score and region|Mepolizumab 300mg/Placebo|||0.502|0.206|<0.001
92335651|NCT02020889|184574172|OTHER||Odds Ratio (OR)|0.2|||<|0.001|TWO_SIDED|95.0|0.09|0.41|||Proportional odds regression model|Proportional odds regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score, region|Mepolizumab 300mg/Placebo|||0.41|0.09|<0.001
92335652|NCT02020889|184574173|OTHER||Odds Ratio (OR)|19.65||||0.007|TWO_SIDED|95.0|2.3|167.93|||Regression, Logistic|Logistic regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score and region|Mepolizumab 300mg/Placebo|||167.93|2.30|0.007
92335653|NCT02020889|184574174|OTHER||Odds Ratio (OR)|5.31|||<|0.001|TWO_SIDED|95.0|2.63|10.74|||Proportional odds regression model|Proportional odds regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score, region|Mepolizumab 300mg/Placebo|||10.74|2.63|<0.001
92335654|NCT02020889|184574175|OTHER||Odds Ratio (OR)|7.19|||<|0.001|TWO_SIDED|95.0|2.6|19.87|||Regression, Logistic|Logistic regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score and region|Mepolizumab 300mg/Placebo|||19.87|2.60|<0.001
92335655|NCT02020889|184574176|OTHER||Odds Ratio (OR)|11.39||||0.003|TWO_SIDED|95.0|2.35|55.24|||Regression, Logistic|Logistic regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score and region.|Mepolizumab 300mg/Placebo|||55.24|2.35|0.003
92335656|NCT00809094|184574196|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.14|TWO_SIDED|95.0|-0.07|0.48|||t-test, 2 sided|||Null hypothesis: there will be no difference in the change in human neutrophil activity measured from baseline to end of the study (24 weeks)||0.48|-0.07|0.14
92335657|NCT04819438|184574225|EQUIVALENCE|Acceptance criterion for bioequivalence analysis was that the 90% confidence interval for the Test/Reference ratio of Cmax geometric means was within the 80.00-125.00 range.|Geometric Mean Ratio|117.05|||<|0.0001|TWO_SIDED|90.0|110.43|124.06|||ANOVA|||||124.06|110.43|<0.0001
92335658|NCT04819438|184574226|EQUIVALENCE|Acceptance criterion for bioequivalence analysis was that the 90% confidence interval for the Test/Reference ratio of AUC0-t geometric means was within the 80.00-125.00 range.|Geometric Mean Ratio|111.82|||<|0.0001|TWO_SIDED|90.0|108.25|115.5|||ANOVA|||||115.50|108.25|<0.0001
92335659|NCT04819438|184574228|EQUIVALENCE|Acceptance criterion for bioequivalence analysis was that the 90% confidence interval for the Test/Reference ratio of AUC0-∞ geometric means was within the 80.00-125.00 range.|Geometric Mean Ratio|111.83|||<|0.0001|TWO_SIDED|90.0|108.19|115.29|||ANOVA|||||115.29|108.19|<0.0001
92335660|NCT04607135|184574237|OTHER|||||||0.0003||||||F-statistic = 11.71|Welch's ANOVA|||||||0.0003
92335661|NCT04607135|184574237|OTHER|||||||0.002||||||q-statistic = 6.74|Games-Howell post-hoc test|||||||0.002
92335662|NCT04607135|184574237|OTHER|||||||0.24||||||q-statistic = 2.34|Games-Howell post-hoc test|||||||0.24
92335663|NCT04607135|184574237|OTHER|||||||0.35||||||q-statistic = 2.04|Games-Howell post-hoc test|||||||0.35
92335664|NCT04607135|184574238|OTHER|||||||0.99|||||||Kruskal-Wallis|||||||0.99
92335665|NCT04607135|184574239|OTHER|||||||0.74|||||||Kruskal-Wallis|||||||0.74
92335666|NCT03836209|184574265|SUPERIORITY||Proportion Difference|-0.071||||0.366|TWO_SIDED|90.0|-0.205|0.062||The threshold for statistical significance was p = 0.10.|Fisher Exact||Treatment Difference = Arm A - Arm B|||0.062|-0.205|0.366
92227062|NCT00618722|184356122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.436|TWO_SIDED|95.0|-0.2|0.4|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.4|-0.2|0.436
92335667|NCT03836209|184574266|SUPERIORITY||Proportion Difference|-0.059||||0.446|TWO_SIDED|90.0|-0.191|0.073||The threshold for statistical significance was p = 0.10.|Fisher Exact||Treatment Difference = Arm A - Arm B|||0.073|-0.191|0.446
92335668|NCT03836209|184574267|SUPERIORITY||Proportion Difference|0.047||||0.539|TWO_SIDED|90.0|-0.084|0.178||The threshold for statistical significance was p = 0.10.|Fisher Exact||Treatment Difference = Arm A - Arm B|||0.178|-0.084|0.539
92335669|NCT03836209|184574268|SUPERIORITY||Proportion Difference|0.131||||0.042|TWO_SIDED|90.0|0.02|0.242||The threshold for statistical significance was p = 0.10.|Fisher Exact||Treatment Difference = Arm A - Arm B|||0.242|0.020|0.042
92335670|NCT01768559|184574273|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified non-inferiority margin of 0.4%.|Least Square (LS) Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.059|||TWO_SIDED|95.0|-0.17|0.064|||ANCOVA||Lixisenatide vs Insulin Glulisine QD|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use, and country as fixed effects and baseline HbA1c value as a covariate. The non-inferiority was assessed using upper bound of 2-sided 95% Confidence Interval (CI).||0.064|-0.17|
92335671|NCT01768559|184574273|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified non-inferiority margin of 0.4%.|LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.059|||TWO_SIDED|95.0|0.095|0.328|||ANCOVA||Lixisenatide vs Insulin Glulisine TID|Analysis was performed using ANCOVA model as described above. Hochberg procedure was used to control type 1 error at significance level = 0.025 (1-sided) for comparison between Lixisenatide vs Insulin glulisine TID in HbA1c and body weight. If both comparisons were met, then both would be declared significant. Otherwise, if only one was met, then the one met should be tested at α=0.0125 (1-sided).||0.328|0.095|
92335672|NCT01768559|184574274|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.305|<|0.0001|TWO_SIDED|95.0|-2.593|-1.396||Threshold for significance at 0.025 level.|ANCOVA|The superiority was assessed by comparing the P-value at significance level = 0.025 or 0.0125.|Lixisenatide vs Insulin Glulisine TID|Analysis was performed using ANCOVA model as described above. Hochberg procedure was used to control type 1 error at α = 0.025 (1-sided) for comparison between lixisenatide vs insulin glulisine TID in HbA1c and body weight. If both comparisons were met, then both would be declared significant. Otherwise, if only one was met, then the one met should be tested at α=0.0125 (1-sided).||-1.396|-2.593|< 0.0001
92335673|NCT00351936|184574299|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANCOVA|||||||0.003
92335674|NCT00351936|184574300|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANCOVA|||||||0.003
92335675|NCT00351936|184574301|SUPERIORITY_OR_OTHER|||||||0.747||95.0|||||ANCOVA|||||||0.747
92335676|NCT00351936|184574302|SUPERIORITY_OR_OTHER|||||||0.208||95.0|||||ANCOVA|||||||0.208
92335677|NCT00351936|184574303|SUPERIORITY_OR_OTHER|||||||0.665||95.0|||||ANCOVA|||||||0.665
92335678|NCT00351936|184574304|SUPERIORITY_OR_OTHER|||||||0.999||95.0|||||ANCOVA|||||||0.999
92335679|NCT00351936|184574305|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||||||0.001
92335680|NCT04274075|184574306|OTHER||Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.945|1.12|||||The geometric mean ratio was calculated as Treatment B versus Treatment A.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||1.12|0.945|
92335681|NCT04274075|184574306|OTHER||Geometric Mean Ratio|0.79|||||TWO_SIDED|90.0|0.726|0.859|||||The geometric mean ratio was calculated as Treatment C versus Treatment B.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||0.859|0.726|
92335682|NCT04274075|184574307|OTHER||Median Difference (Net)|0.525|||||TWO_SIDED|90.0|-0.225|1.5|||||The Hodges-Lehmann estimate of median difference was calculated as Treatment B versus Treatment A.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||1.50|-0.225|
92335683|NCT04274075|184574307|OTHER||Median Difference (Net)|1.98|||||TWO_SIDED|90.0|1.26|2.45|||||The Hodges-Lehmann estimate of median difference was calculated as Treatment C versus Treatment B.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||2.45|1.26|
92335684|NCT04274075|184574310|OTHER||Geometric Mean Ratio|0.971|||||TWO_SIDED|90.0|0.903|1.04|||||The geometric mean ratio was calculated as Treatment B versus Treatment A.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||1.04|0.903|
92335685|NCT04274075|184574310|OTHER||Geometric Mean Ratio|0.919|||||TWO_SIDED|90.0|0.855|0.988|||||The geometric mean ratio was calculated as Treatment C versus Treatment B.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||0.988|0.855|
92335686|NCT04274075|184574311|OTHER||Geometric Mean Ratio|0.975|||||TWO_SIDED|90.0|0.908|1.05|||||The geometric mean ratio was calculated as Treatment B versus Treatment A.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||1.05|0.908|
92335687|NCT04274075|184574311|OTHER||Geometric Mean Ratio|0.918|||||TWO_SIDED|90.0|0.856|0.985|||||The geometric mean ratio was calculated as Treatment C versus Treatment B.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||0.985|0.856|
92335688|NCT00583011|184574327|EQUIVALENCE||Median Difference (Final Values)|0.02|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92335689|NCT01386944|184574332|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-0.5|||||TWO_SIDED|95.0|-1.0|-0.5||||||||-0.5|-1.0|
92335690|NCT01386944|184574333|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-1.5|||||TWO_SIDED|95.0|-1.5|-1.0||||||||-1.0|-1.5|
92335691|NCT01386944|184574334|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-2.0||||||95.0|-2.0|-1.5||||||||-1.5|-2.0|
92335692|NCT01386944|184574335|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-2.0||||||95.0|-2.5|-1.5||||||||-1.5|-2.5|
92335693|NCT01386944|184574336|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-2.0||||||95.0|-2.5|-1.5||||||||-1.5|-2.5|
92335694|NCT01386944|184574337|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-2.0||||||95.0|-2.0|-1.5||||||||-1.5|-2.0|
92227063|NCT00618722|184356123|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6||||0.762|TWO_SIDED|95.0|-9.1|12.3|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||12.3|-9.1|0.762
92335695|NCT01129804|184574339|SUPERIORITY|Longitudinal Linear mixed modeling|Slope|0.1|||<|0.04|TWO_SIDED|||||Tested the null hypothesis that slopes of PDA over time would not differ between treatment conditions, as indicated by the significance of the Treatment main effect and Treatment X Time interaction effect, at the level of p \< .05.|Mixed Models Analysis||||Multilevel longitudinal modeling (MLM) with random effects and maximum likelihood estimation (Proc MIXED; SAS Institute, 1999) was used to evaluate the effects of treatment over time for each of the continuously scaled outcome variables described above. The MLM approach was used because it employs maximum likelihood estimation of covariance matrices rather than raw data, allowing us to take advantage of all data collected for anyone randomized to treatment. Each repeated dependent variable was analyzed as a unction of treatment condition, time since intake (in months), and the interaction of treatment condition by time.|||<.04
92335696|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 1-Month for dose level 4000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335697|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 3-Month for dose level 4000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335698|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 6-Month for dose level 4000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335699|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 1-Month for dose level 6000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335700|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 3-Month for dose level 6000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335701|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 6-Month for dose level 6000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335702|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 1-Month for dose level 8000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335703|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 3-Month for dose level 8000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335704|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 6-Month for dose level 8000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335705|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 1-Month for dose level 10000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335706|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 3-Month for dose level 10000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335707|NCT00524680|184574368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 6-Month for dose level 10000 IU. Statistical analysis was done using one sample t-test.||||<.0001
92335708|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.8244|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 1-month for 4000 IU. Statistical analysis was done using one sample t-test.||||0.8244
92335709|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.1025|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 3-month for 4000 IU. Statistical analysis was done using one sample t-test.||||0.1025
92335710|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.1744|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 6-Month for dose level 4000 IU.||||0.1744
92335711|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.1281|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 1-month for 6000 IU. Statistical analysis was done using one sample t-test.||||0.1281
92335712|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.9688|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 3-month for 6000 IU. Statistical analysis was done using one sample t-test.||||0.9688
92335713|NCT00524680|184574369|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 6-month for 6000 IU. Statistical analysis was done using one sample t-test.||||<0.0001
92335714|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.8241|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 1-month for 8000 IU. Statistical analysis was done using one sample t-test.||||0.8241
92335715|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.1828|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 3-month for 8000 IU. Statistical analysis was done using one sample t-test.||||0.1828
92210793|NCT04079803|184322583|SUPERIORITY|||||||0.0058||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.0008 and CFB was -51.0.|||0.0058
92210794|NCT04079803|184322584|SUPERIORITY|||||||0.0001||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P=0.0001 and CFB was -23.7.|||0.0001
92210795|NCT04079803|184322584|SUPERIORITY|||||||0.0001||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.0002 and CFB was -20.9.|||0.0001
92210796|NCT04079803|184322585|OTHER||Effect size|0.23|||||TWO_SIDED||||||||Reported effect size vs. placebo was calculated with Hedge's g (for groups of 20 or fewer) but was identical when calculated by Cohen's d.|This study was not powered for statistical significance on cognitive measures.||||
92210797|NCT04079803|184322585|OTHER||Effect size|0.37|||||TWO_SIDED||||||||Reported effect size vs. placebo was calculated with Hedge's g (for groups of 20 or fewer) but was identical when calculated by Cohen's d.|This study was not powered for statistical significance on cognitive measures.||||
92210798|NCT04079803|184322586|OTHER||Effect size|0.46|||||TWO_SIDED||||||||Reported effect size vs. placebo was calculated with Hedge's g (for groups of 20 or fewer) but was almost identical (0.45) when calculated by Cohen's d.|This study was not powered for statistical significance on cognitive measures.||||
92210799|NCT04079803|184322586|OTHER||Effect size|0.25|||||TWO_SIDED||||||||Reported effect size vs. placebo was calculated with Hedge's g (for groups of 20 or fewer) but was identical when calculated by Cohen's d.|This study was not powered for statistical significance on cognitive measures.||||
92210800|NCT04079803|184322587|SUPERIORITY|||||||0.0078||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for IL-6.||||0.0078
92210801|NCT04079803|184322587|SUPERIORITY|||||||0.019||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for IL-6.||||0.019
92210802|NCT04079803|184322587|SUPERIORITY|||||||0.0002||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for sTREM2.||||0.0002
92210803|NCT04079803|184322587|SUPERIORITY|||||||0.0007||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for sTREM2.||||0.0007
92210804|NCT04079803|184322587|SUPERIORITY|||||||0.0001||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for HMGB1.||||0.0001
92210805|NCT04079803|184322587|SUPERIORITY|||||||0.0001||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for HMGB1.||||0.0001
92210806|NCT04079803|184322587|SUPERIORITY|||||||0.0001||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for albumin.||||0.0001
92210807|NCT04079803|184322587|SUPERIORITY|||||||0.046||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for albumin.||||0.046
92210808|NCT04079803|184322587|SUPERIORITY|||||||0.012||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for Immunoglobulin G.||||0.012
92210809|NCT04079803|184322587|SUPERIORITY|||||||0.014||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for Immunoglobulin G.||||0.014
92210810|NCT04079803|184322588|SUPERIORITY|||||||0.005||||||As secondary endpoints, lymphocyte biomarkers were not adjusted for multiplicity.|ANOVA|ANOVA was used instead of ANCOVA due to the range in baseline values; it was deemed more appropriate to compare to each subject's own baseline value.||Change from baseline in FLNA linkage to alpha7nAChR in subject lymphocytes. FLNA linkage to alpha7nAChR was expressed as the ratio of densitometric units of immunoblot bands of alpha7nAChR (probed with a specific antibody) to densitometric units of total FLNA.||||0.005
92210811|NCT04079803|184322588|SUPERIORITY|||||||0.009||||||As secondary endpoints, lymphocyte biomarkers were not adjusted for multiplicity.|ANOVA|ANOVA was used instead of ANCOVA due to the range in baseline values; it was deemed more appropriate to compare to each subject's own baseline value.||Change from baseline in FLNA linkage to alpha7nAChR in subject lymphocytes. FLNA linkage to alpha7nAChR was expressed as ratios of densitometric units of immunoblot bands of alpha7nAChR (probed with a specific antibody) to densitometric units of total FLNA.||||0.009
92227064|NCT00618722|184356123|SUPERIORITY_OR_OTHER||LS mean Difference|5.2||||0.248|TWO_SIDED|95.0|-3.8|14.2|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||14.2|-3.8|0.248
92335716|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.1348|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 6-month for 8000 IU. Statistical analysis was done using one sample t-test.||||0.1348
92335717|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.2214|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 1-month for 10000 IU. Statistical analysis was done using one sample t-test.||||0.2214
92335718|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.0079|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 3-month for 10000 IU. Statistical analysis was done using one sample t-test.||||0.0079
92335719|NCT00524680|184574369|SUPERIORITY_OR_OTHER|||||||0.0631|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 6-month for 10000 IU. Statistical analysis was done using one sample t-test.||||0.0631
92335720|NCT01096680|184574392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.0|||<|0.0001|TWO_SIDED|95.0|5.0|10.9|||Mixed Models Analysis|||||10.9|5.0|<0.0001
92335721|NCT01096680|184574392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.6|||<|0.0001|TWO_SIDED|95.0|10.2|15.0|||Mixed Models Analysis|||||15.0|10.2|<0.0001
92335722|NCT01096680|184574392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.0|||<|0.0001|TWO_SIDED|95.0|11.7|16.2|||Mixed Models Analysis|||||16.2|11.7|<0.0001
92335723|NCT01096680|184574392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.3|||<|0.0001|TWO_SIDED|95.0|9.9|14.7|||Mixed Models Analysis|||||14.7|9.9|<0.0001
92335724|NCT01096680|184574392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.3||||0.0014|TWO_SIDED|95.0|-6.9|-1.8|||Mixed Models Analysis|||||-1.8|-6.9|0.0014
92227065|NCT00618722|184356123|SUPERIORITY_OR_OTHER||LS Mean Difference|9.3||||0.061|TWO_SIDED|95.0|-0.4|19.1|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||19.1|-0.4|0.061
92335725|NCT01096680|184574392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3||||0.7601|TWO_SIDED|95.0|-1.5|2.1|||Mixed Models Analysis|||||2.1|-1.5|0.7601
92335726|NCT01096680|184574392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.7||||0.0351|TWO_SIDED|95.0|0.1|3.2|||Mixed Models Analysis|||||3.2|0.1|0.0351
92335727|NCT01096680|184574393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.1123|TWO_SIDED|95.0|-1.1|0.1|||Mixed Models Analysis|||||0.1|-1.1|0.1123
92335728|NCT01096680|184574393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0002|TWO_SIDED|95.0|-1.8|-0.6|||Mixed Models Analysis|||||-0.6|-1.8|0.0002
92335729|NCT01096680|184574393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.0|||Mixed Models Analysis|||||-1.0|-2.2|<0.0001
92335730|NCT01096680|184574393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.0947|TWO_SIDED|95.0|-1.1|0.1|||Mixed Models Analysis|||||0.1|-1.1|0.0947
92335731|NCT01096680|184574393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9393|TWO_SIDED|95.0|-0.6|0.6|||Mixed Models Analysis|||||0.6|-0.6|0.9393
92335732|NCT01096680|184574393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.0297|TWO_SIDED|95.0|-1.3|-0.1|||Mixed Models Analysis|||||-0.1|-1.3|0.0297
92335733|NCT01096680|184574393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0004|TWO_SIDED|95.0|-1.7|-0.5|||Mixed Models Analysis|||||-0.5|-1.7|0.0004
92335734|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.7758|TWO_SIDED|95.0|-0.5|0.6|||Mixed Models Analysis|||7:50pm||0.6|-0.5|0.7758
92335735|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.1798|TWO_SIDED|95.0|-0.2|0.9|||Mixed Models Analysis|||7:50pm||0.9|-0.2|0.1798
92335736|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.609|TWO_SIDED|95.0|-0.4|0.7|||Mixed Models Analysis|||7:50pm||0.7|-0.4|0.6090
92335737|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.1169|TWO_SIDED|95.0|-0.1|1.0|||Mixed Models Analysis|||7:50pm||1.0|-0.1|0.1169
92335738|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.3028|TWO_SIDED|95.0|-0.8|0.3|||Mixed Models Analysis|||7:50pm||0.3|-0.8|0.3028
92335739|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9831|TWO_SIDED|95.0|-0.5|0.5|||Mixed Models Analysis|||7:50pm||0.5|-0.5|0.9831
92335740|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.2887|TWO_SIDED|95.0|-0.8|0.2|||Mixed Models Analysis|||7:50pm||0.2|-0.8|0.2887
92335741|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.4395|TWO_SIDED|95.0|-0.8|0.3|||Mixed Models Analysis|||8:50pm||0.3|-0.8|0.4395
92335742|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9019|TWO_SIDED|95.0|-0.5|0.6|||Mixed Models Analysis|||8:50pm||0.6|-0.5|0.9019
92335743|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.3419|TWO_SIDED|95.0|-0.8|0.3|||Mixed Models Analysis|||8:50pm||0.3|-0.8|0.3419
92335744|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9581|TWO_SIDED|95.0|-0.6|0.5|||Mixed Models Analysis|||8:50pm||0.5|-0.6|0.9581
92335745|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.2572|TWO_SIDED|95.0|-0.9|0.2|||Mixed Models Analysis|||8:50pm||0.2|-0.9|0.2572
92335746|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.8085|TWO_SIDED|95.0|-0.6|0.5|||Mixed Models Analysis|||8:50pm||0.5|-0.6|0.8085
92335747|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.3678|TWO_SIDED|95.0|-0.8|0.3|||Mixed Models Analysis|||8:50pm||0.3|-0.8|0.3678
92335748|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.3732|TWO_SIDED|95.0|-0.9|0.4|||Mixed Models Analysis|||9:50pm||0.4|-0.9|0.3732
92335749|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.4924|TWO_SIDED|95.0|-0.9|0.4|||Mixed Models Analysis|||9:50pm||0.4|-0.9|0.4924
92335750|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9798|TWO_SIDED|95.0|-0.7|0.6|||Mixed Models Analysis|||9:50pm||0.6|-0.7|0.9798
92335751|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.8557|TWO_SIDED|95.0|-0.6|0.7|||Mixed Models Analysis|||9:50pm||0.7|-0.6|0.8557
92335752|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.0998|TWO_SIDED|95.0|-1.2|0.1|||Mixed Models Analysis|||9:50pm||0.1|-1.2|0.0998
92335753|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.1479|TWO_SIDED|95.0|-1.1|0.2|||Mixed Models Analysis|||9:50pm||0.2|-1.1|0.1479
92335754|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.8358|TWO_SIDED|95.0|-0.7|0.6|||Mixed Models Analysis|||9:50pm||0.6|-0.7|0.8358
92335755|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.0199|TWO_SIDED|95.0|-1.6|-0.1|||Mixed Models Analysis|||10:50pm||-0.1|-1.6|0.0199
92335756|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.7625|TWO_SIDED|95.0|-0.9|0.6|||Mixed Models Analysis|||10:50pm||0.6|-0.9|0.7625
92335757|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.1936|TWO_SIDED|95.0|-1.2|0.3|||Mixed Models Analysis|||10:50pm||0.3|-1.2|0.1936
92335758|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3||||0.4534|TWO_SIDED|95.0|-0.5|1.0|||Mixed Models Analysis|||10:50pm||1.0|-0.5|0.4534
92335759|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0012|TWO_SIDED|95.0|-2.0|-0.5|||Mixed Models Analysis|||10:50pm||-0.5|-2.0|0.0012
92335760|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.2072|TWO_SIDED|95.0|-1.2|0.3|||Mixed Models Analysis|||10:50pm||0.3|-1.2|0.2072
92335761|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.0413|TWO_SIDED|95.0|-1.5|0.0|||Mixed Models Analysis|||10:50pm||0.0|-1.5|0.0413
92396322|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.18|-0.45||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.45|-1.18|<0.0001
92335762|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.1086|TWO_SIDED|95.0|-1.5|0.1|||Mixed Models Analysis|||11:50pm||0.1|-1.5|0.1086
92335763|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.5843|TWO_SIDED|95.0|-1.0|0.6|||Mixed Models Analysis|||11:50pm||0.6|-1.0|0.5843
92335764|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.0571|TWO_SIDED|95.0|-1.6|0.0|||Mixed Models Analysis|||11:50pm||0.0|-1.6|0.0571
92335765|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.3965|TWO_SIDED|95.0|-1.2|0.5|||Mixed Models Analysis|||11:50pm||0.5|-1.2|0.3965
92335766|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.0009|TWO_SIDED|95.0|-2.2|-0.6|||Mixed Models Analysis|||11:50pm||-0.6|-2.2|0.0009
92335767|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.0211|TWO_SIDED|95.0|-1.8|-0.1|||Mixed Models Analysis|||11:50pm||-0.1|-1.8|0.0211
92335768|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.2863|TWO_SIDED|95.0|-1.2|0.4|||Mixed Models Analysis|||11:50pm||0.4|-1.2|0.2863
92335769|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.0428|TWO_SIDED|95.0|-1.7|0.0|||Mixed Models Analysis|||12:50am||0.0|-1.7|0.0428
92335770|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.3757|TWO_SIDED|95.0|-0.5|1.2|||Mixed Models Analysis|||12:50am||1.2|-0.5|0.3757
92335771|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0002|TWO_SIDED|95.0|-2.4|-0.8|||Mixed Models Analysis|||12:50am||-0.8|-2.4|0.0002
92335772|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.3535|TWO_SIDED|95.0|-1.2|0.4|||Mixed Models Analysis|||12:50am||0.4|-1.2|0.3535
92335773|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.7|-1.1|||Mixed Models Analysis|||12:50am||-1.1|-2.7|<0.0001
92335774|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.1131|TWO_SIDED|95.0|-1.5|0.2|||Mixed Models Analysis|||12:50am||0.2|-1.5|0.1131
92335775|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0039|TWO_SIDED|95.0|-2.0|-0.4|||Mixed Models Analysis|||12:50am||-0.4|-2.0|0.0039
92335776|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.1302|TWO_SIDED|95.0|-1.5|0.2|||Mixed Models Analysis|||1:50am||0.2|-1.5|0.1302
92335777|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.6138|TWO_SIDED|95.0|-0.6|1.1|||Mixed Models Analysis|||1:50am||1.1|-0.6|0.6138
92335778|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5||||0.0008|TWO_SIDED|95.0|-2.3|-0.6|||Mixed Models Analysis|||1:50am||-0.6|-2.3|0.0008
92335779|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.1643|TWO_SIDED|95.0|-1.5|0.3|||Mixed Models Analysis|||1:50am||0.3|-1.5|0.1643
92335780|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7||||0.0002|TWO_SIDED|95.0|-2.5|-0.8|||Mixed Models Analysis|||1:50am||-0.8|-2.5|0.0002
92335781|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.0782|TWO_SIDED|95.0|-1.6|0.1|||Mixed Models Analysis|||1:50am||0.1|-1.6|0.0782
92335782|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.0441|TWO_SIDED|95.0|-1.7|0.0|||Mixed Models Analysis|||1:50am||0.0|-1.7|0.0441
92335783|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0193|TWO_SIDED|95.0|-2.2|-0.2|||Mixed Models Analysis|||2:50am||-0.2|-2.2|0.0193
92335784|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.7071|TWO_SIDED|95.0|-1.2|0.8|||Mixed Models Analysis|||2:50am||0.8|-1.2|0.7071
92335785|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.0002|TWO_SIDED|95.0|-2.9|-0.9|||Mixed Models Analysis|||2:50am||-0.9|-2.9|0.0002
92335786|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.0611|TWO_SIDED|95.0|-1.9|0.0|||Mixed Models Analysis|||2:50am||0.0|-1.9|0.0611
92335787|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.2|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.2|||Mixed Models Analysis|||2:50am||-1.2|-3.2|<0.0001
92335788|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.016|TWO_SIDED|95.0|-2.2|-0.2|||Mixed Models Analysis|||2:50am||-0.2|-2.2|0.0160
92335789|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.048|TWO_SIDED|95.0|-2.0|0.0|||Mixed Models Analysis|||2:50am||0.0|-2.0|0.0480
92335790|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0234|TWO_SIDED|95.0|-2.2|-0.2|||Mixed Models Analysis|||3:50am||-0.2|-2.2|0.0234
92335791|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.5624|TWO_SIDED|95.0|-1.3|0.7|||Mixed Models Analysis|||3:50am||0.7|-1.3|0.5624
92335792|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.5|-1.5|||Mixed Models Analysis|||3:50am||-1.5|-3.5|<0.0001
92335793|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0022|TWO_SIDED|95.0|-2.6|-0.6|||Mixed Models Analysis|||3:50am||-0.6|-2.6|0.0022
92335794|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.7|||<|0.0001|TWO_SIDED|95.0|-3.7|-1.6|||Mixed Models Analysis|||3:50am||-1.6|-3.7|<0.0001
92335795|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8||||0.0008|TWO_SIDED|95.0|-2.8|-0.8|||Mixed Models Analysis|||3:50am||-0.8|-2.8|0.0008
92396323|NCT03192176|184689393|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.4|-0.65||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.65|-1.40|<0.0001
92210812|NCT04079803|184322588|SUPERIORITY|||||||0.01||||||As secondary endpoints, lymphocyte biomarkers were not adjusted for multiplicity.|ANOVA|ANOVA was used instead of ANCOVA due to the range in baseline values; it was deemed more appropriate to compare to each subject's own baseline value.||Change from baseline in FLNA linkage to TLR4 in subject lymphocytes. FLNA linkage to TLR4 was expressed as the ratio of densitometric units of immunoblot bands of TLR4 (probed with a specific antibody) to densitometric units of total FLNA.||||0.01
92210813|NCT04079803|184322588|SUPERIORITY|||||||0.01||||||As secondary endpoints, lymphocyte biomarkers were not adjusted for multiplicity.|ANOVA|ANOVA was used instead of ANCOVA due to the range in baseline values; it was deemed more appropriate to compare to each subject's own baseline value.||Change from baseline in FLNA linkage to TLR4 in subject lymphocytes. FLNA linkage to TLR4 was expressed as the ratio of densitometric units of immunoblot bands of TLR4 (probed with a specific antibody) to densitometric units of total FLNA.||||0.01
92210814|NCT04079803|184322589|SUPERIORITY|||||||0.01|||||||ANOVA|ANOVA followed by Dunnett's multiple comparisons test.||||||0.01
92210815|NCT04079803|184322589|SUPERIORITY|||||||0.02|||||||ANOVA|ANOVA followed by Dunnett's multiple comparisons test.||||||0.02
92210816|NCT04079803|184322589|SUPERIORITY|||||||0.009|||||||ANOVA|This p value is for the main effect of treatment of the ANOVA.||||||0.009
92335796|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.0883|TWO_SIDED|95.0|-1.9|0.1|||Mixed Models Analysis|||3:50am||0.1|-1.9|0.0883
92335797|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.3093|TWO_SIDED|95.0|-1.5|0.5|||Mixed Models Analysis|||4:50am||0.5|-1.5|0.3093
92335798|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.8871|TWO_SIDED|95.0|-0.9|1.1|||Mixed Models Analysis|||4:50am||1.1|-0.9|0.8871
92335799|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.2|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.2|||Mixed Models Analysis|||4:50am||-1.2|-3.2|<0.0001
92335800|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0022|TWO_SIDED|95.0|-2.6|-0.6|||Mixed Models Analysis|||4:50am||-0.6|-2.6|0.0022
92335801|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.4|||<|0.0001|TWO_SIDED|95.0|-3.4|-1.4|||Mixed Models Analysis|||4:50am||-1.4|-3.4|<0.0001
92335802|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8||||0.0006|TWO_SIDED|95.0|-2.8|-0.8|||Mixed Models Analysis|||4:50am||-0.8|-2.8|0.0006
92335803|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.2462|TWO_SIDED|95.0|-1.6|0.4|||Mixed Models Analysis|||4:50am||0.4|-1.6|0.2462
92335804|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.4427|TWO_SIDED|95.0|-1.4|0.6|||Mixed Models Analysis|||5:50am||0.6|-1.4|0.4427
92335805|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.4405|TWO_SIDED|95.0|-0.6|1.4|||Mixed Models Analysis|||5:50am||1.4|-0.6|0.4405
92335806|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.0003|TWO_SIDED|95.0|-3.0|-0.9|||Mixed Models Analysis|||5:50am||-0.9|-3.0|0.0003
92335807|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0279|TWO_SIDED|95.0|-2.2|-0.1|||Mixed Models Analysis|||5:50am||-0.1|-2.2|0.0279
92335808|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.5|-1.5|||Mixed Models Analysis|||5:50am||-1.5|-3.5|<0.0001
92335809|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7||||0.0015|TWO_SIDED|95.0|-2.7|-0.7|||Mixed Models Analysis|||5:50am||-0.7|-2.7|0.0015
92335810|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.1246|TWO_SIDED|95.0|-1.8|0.2|||Mixed Models Analysis|||5:50am||0.2|-1.8|0.1246
92335811|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.3067|TWO_SIDED|95.0|-1.6|0.5|||Mixed Models Analysis|||6:50am||0.5|-1.6|0.3067
92335812|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.894|TWO_SIDED|95.0|-1.0|1.1|||Mixed Models Analysis|||6:50am||1.1|-1.0|0.8940
92335813|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0034|TWO_SIDED|95.0|-2.7|-0.5|||Mixed Models Analysis|||6:50am||-0.5|-2.7|0.0034
92335814|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.0708|TWO_SIDED|95.0|-2.0|0.1|||Mixed Models Analysis|||6:50am||0.1|-2.0|0.0708
92335815|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.6|-1.4|||Mixed Models Analysis|||6:50am||-1.4|-3.6|<0.0001
92335816|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.0006|TWO_SIDED|95.0|-2.9|-0.8|||Mixed Models Analysis|||6:50am||-0.8|-2.9|0.0006
92335817|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.2476|TWO_SIDED|95.0|-1.7|0.4|||Mixed Models Analysis|||6:50am||0.4|-1.7|0.2476
92335818|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.231|TWO_SIDED|95.0|-1.8|0.4|||Mixed Models Analysis|||7:50am||0.4|-1.8|0.2310
92335819|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.8369|TWO_SIDED|95.0|-1.2|1.0|||Mixed Models Analysis|||7:50am||1.0|-1.2|0.8369
92335820|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0035|TWO_SIDED|95.0|-2.7|-0.5|||Mixed Models Analysis|||7:50am||-0.5|-2.7|0.0035
92335821|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0498|TWO_SIDED|95.0|-2.2|0.0|||Mixed Models Analysis|||7:50am||0.0|-2.2|0.0498
92335822|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.6|-1.4|||Mixed Models Analysis|||7:50am||-1.4|-3.6|<0.0001
92335823|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.0007|TWO_SIDED|95.0|-3.0|-0.8|||Mixed Models Analysis|||7:50am||-0.8|-3.0|0.0007
92335824|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.3198|TWO_SIDED|95.0|-1.6|0.5|||Mixed Models Analysis|||7:50am||0.5|-1.6|0.3198
92335825|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.375|TWO_SIDED|95.0|-0.6|1.7|||Mixed Models Analysis|||8:50am||1.7|-0.6|0.3750
92210817|NCT04079803|184322590|SUPERIORITY|||||||0.003|||||||ANOVA|||||||0.003
92335826|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.7978|TWO_SIDED|95.0|-1.3|1.0|||Mixed Models Analysis|||8:50am||1.0|-1.3|0.7978
92335827|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.5197|TWO_SIDED|95.0|-1.5|0.8|||Mixed Models Analysis|||8:50am||0.8|-1.5|0.5197
92335828|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0751|TWO_SIDED|95.0|-2.2|0.1|||Mixed Models Analysis|||8:50am||0.1|-2.2|0.0751
92335829|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.1079|TWO_SIDED|95.0|-2.1|0.2|||Mixed Models Analysis|||8:50am||0.2|-2.1|0.1079
92335830|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0065|TWO_SIDED|95.0|-2.8|-0.5|||Mixed Models Analysis|||8:50am||-0.5|-2.8|0.0065
92335831|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.2529|TWO_SIDED|95.0|-0.5|1.8|||Mixed Models Analysis|||8:50am||1.8|-0.5|0.2529
92335832|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.6364|TWO_SIDED|95.0|-1.3|0.8|||Mixed Models Analysis|||9:50am||0.8|-1.3|0.6364
92335833|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9417|TWO_SIDED|95.0|-1.1|1.0|||Mixed Models Analysis|||9:50am||1.0|-1.1|0.9417
92335834|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||0.02|TWO_SIDED|95.0|-2.3|-0.2|||Mixed Models Analysis|||9:50am||-0.2|-2.3|0.0200
92335835|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0527|TWO_SIDED|95.0|-2.1|0.0|||Mixed Models Analysis|||9:50am||0.0|-2.1|0.0527
92335836|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.0107|TWO_SIDED|95.0|-2.5|-0.3|||Mixed Models Analysis|||9:50am||-0.3|-2.5|0.0107
92335837|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0303|TWO_SIDED|95.0|-2.2|-0.1|||Mixed Models Analysis|||9:50am||-0.1|-2.2|0.0303
92335838|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.6889|TWO_SIDED|95.0|-1.3|0.8|||Mixed Models Analysis|||9:50am||0.8|-1.3|0.6889
92335839|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9552|TWO_SIDED|95.0|-1.2|1.1|||Mixed Models Analysis|||10:50am||1.1|-1.2|0.9552
92335840|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.7558|TWO_SIDED|95.0|-1.0|1.3|||Mixed Models Analysis|||10:50am||1.3|-1.0|0.7558
92335841|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.1824|TWO_SIDED|95.0|-1.9|0.4|||Mixed Models Analysis|||10:50am||0.4|-1.9|0.1824
92335842|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.3323|TWO_SIDED|95.0|-1.7|0.6|||Mixed Models Analysis|||10:50am||0.6|-1.7|0.3323
92335843|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0413|TWO_SIDED|95.0|-2.4|0.0|||Mixed Models Analysis|||10:50am||0.0|-2.4|0.0413
92210818|NCT04079803|184322590|SUPERIORITY|||||||0.016|||||||ANOVA|||||||0.016
92335844|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.0925|TWO_SIDED|95.0|-2.2|0.2|||Mixed Models Analysis|||10:50am||0.2|-2.2|0.0925
92335845|NCT01096680|184574394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.7133|TWO_SIDED|95.0|-1.4|0.9|||Mixed Models Analysis|||10:50am||0.9|-1.4|0.7133
92335846|NCT01096680|184574395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.5|||<|0.0001|TWO_SIDED|95.0|-36.6|-16.5|||Mixed Models Analysis|||||-16.5|-36.6|<0.0001
92335847|NCT01096680|184574395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-35.4|||<|0.0001|TWO_SIDED|95.0|-45.5|-25.4|||Mixed Models Analysis|||||-25.4|-45.5|<0.0001
92335848|NCT01096680|184574395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.7|||<|0.0001|TWO_SIDED|95.0|-36.7|-16.6|||Mixed Models Analysis|||||-16.6|-36.7|<0.0001
92335849|NCT01096680|184574395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.5|||<|0.0001|TWO_SIDED|95.0|-36.6|-16.5|||Mixed Models Analysis|||||-16.5|-36.6|<0.0001
92335850|NCT01096680|184574395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9945|TWO_SIDED|95.0|-10.1|10.0|||Mixed Models Analysis|||||10.0|-10.1|0.9945
92335851|NCT01096680|184574395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.9||||0.0814|TWO_SIDED|95.0|-18.9|1.1|||Mixed Models Analysis|||||1.1|-18.9|0.0814
92335852|NCT01096680|184574395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.9743|TWO_SIDED|95.0|-10.2|9.9|||Mixed Models Analysis|||||9.9|-10.2|0.9743
92335853|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.6||||0.0544|TWO_SIDED|95.0|-19.4|0.2|||Mixed Models Analysis|||9:15pm||0.2|-19.4|0.0544
92335854|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8||||0.441|TWO_SIDED|95.0|-13.6|6.0|||Mixed Models Analysis|||9:15pm||6.0|-13.6|0.4410
92335855|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.1||||0.1046|TWO_SIDED|95.0|-17.9|1.7|||Mixed Models Analysis|||9:15pm||1.7|-17.9|0.1046
92335856|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.3||||0.6467|TWO_SIDED|95.0|-12.0|7.5|||Mixed Models Analysis|||9:15pm||7.5|-12.0|0.6467
92335857|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.4||||0.1971|TWO_SIDED|95.0|-16.2|3.4|||Mixed Models Analysis|||9:15pm||3.4|-16.2|0.1971
92335858|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.9052|TWO_SIDED|95.0|-10.4|9.2|||Mixed Models Analysis|||9:15pm||9.2|-10.4|0.9052
92335859|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.8||||0.242|TWO_SIDED|95.0|-15.6|4.0|||Mixed Models Analysis|||9:15pm||4.0|-15.6|0.2420
92335860|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.7||||0.0001|TWO_SIDED|95.0|-25.1|-8.3|||Mixed Models Analysis|||11:15pm||-8.3|-25.1|0.0001
92335861|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.3||||0.4321|TWO_SIDED|95.0|-5.0|11.6|||Mixed Models Analysis|||11:15pm||11.6|-5.0|0.4321
92335862|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.4|||<|0.0001|TWO_SIDED|95.0|-26.7|-10.1|||Mixed Models Analysis|||11:15pm||-10.1|-26.7|<0.0001
92335863|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6||||0.6999|TWO_SIDED|95.0|-6.7|9.9|||Mixed Models Analysis|||11:15pm||9.9|-6.7|0.6999
92210819|NCT04677179|184322615|SUPERIORITY||Odds Ratio (OR)|0.57||||0.75|TWO_SIDED|95.0|0.03|11.32|||Cochran-Mantel-Haenszel|||||11.32|0.03|0.750
92335864|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.1|||<|0.0001|TWO_SIDED|95.0|-26.4|-9.8|||Mixed Models Analysis|||11:15pm||-9.8|-26.4|<0.0001
92335865|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.9||||0.6566|TWO_SIDED|95.0|-6.4|10.2|||Mixed Models Analysis|||11:15pm||10.2|-6.4|0.6566
92335866|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.0|||<|0.0001|TWO_SIDED|95.0|-28.3|-11.7|||Mixed Models Analysis|||11:15pm||-11.7|-28.3|<0.0001
92335867|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-25.2|||<|0.0001|TWO_SIDED|95.0|-36.1|-14.3|||Mixed Models Analysis|||1:15am||-14.3|-36.1|<0.0001
92335868|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5||||0.7824|TWO_SIDED|95.0|-12.4|9.4|||Mixed Models Analysis|||1:15am||9.4|-12.4|0.7824
92335869|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-25.1|||<|0.0001|TWO_SIDED|95.0|-36.0|-14.3|||Mixed Models Analysis|||1:15am||-14.3|-36.0|<0.0001
92335870|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5||||0.7867|TWO_SIDED|95.0|-12.4|9.4|||Mixed Models Analysis|||1:15am||9.4|-12.4|0.7867
92335871|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.5|||<|0.0001|TWO_SIDED|95.0|-37.4|-15.6|||Mixed Models Analysis|||1:15am||-15.6|-37.4|<0.0001
92335872|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9||||0.6029|TWO_SIDED|95.0|-13.7|8.0|||Mixed Models Analysis|||1:15am||8.0|-13.7|0.6029
92335873|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-23.6|||<|0.0001|TWO_SIDED|95.0|-34.5|-12.8|||Mixed Models Analysis|||1:15am||-12.8|-34.5|<0.0001
92335874|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-37.1|||<|0.0001|TWO_SIDED|95.0|-50.1|-24.1|||Mixed Models Analysis|||3:15am||-24.1|-50.1|<0.0001
92335875|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.8684|TWO_SIDED|95.0|-11.9|14.1|||Mixed Models Analysis|||3:15am||14.1|-11.9|0.8684
92335876|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-53.3|||<|0.0001|TWO_SIDED|95.0|-66.3|-40.3|||Mixed Models Analysis|||3:15am||-40.3|-66.3|<0.0001
92335877|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.1||||0.0228|TWO_SIDED|95.0|-28.1|-2.1|||Mixed Models Analysis|||3:15am||-2.1|-28.1|0.0228
92335878|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-40.0|||<|0.0001|TWO_SIDED|95.0|-53.0|-27.0|||Mixed Models Analysis|||3:15am||-27.0|-53.0|<0.0001
92335879|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8||||0.7852|TWO_SIDED|95.0|-14.8|11.2|||Mixed Models Analysis|||3:15am||11.2|-14.8|0.7852
92335880|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.2|||<|0.0001|TWO_SIDED|95.0|-51.2|-25.2|||Mixed Models Analysis|||3:15am||-25.2|-51.2|<0.0001
92335881|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.2|||<|0.0001|TWO_SIDED|95.0|-51.3|-25.1|||Mixed Models Analysis|||5:15am||-25.1|-51.3|<0.0001
92335882|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.9||||0.5528|TWO_SIDED|95.0|-9.1|17.0|||Mixed Models Analysis|||5:15am||17.0|-9.1|0.5528
92335883|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-53.9|||<|0.0001|TWO_SIDED|95.0|-67.0|-40.9|||Mixed Models Analysis|||5:15am||-40.9|-67.0|<0.0001
92335884|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.8||||0.0747|TWO_SIDED|95.0|-24.9|1.2|||Mixed Models Analysis|||5:15am||1.2|-24.9|0.0747
92335885|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-49.2|||<|0.0001|TWO_SIDED|95.0|-62.2|-36.1|||Mixed Models Analysis|||5:15am||-36.1|-62.2|<0.0001
92335886|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.1||||0.2868|TWO_SIDED|95.0|-20.1|6.0|||Mixed Models Analysis|||5:15am||6.0|-20.1|0.2868
92335887|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-42.1|||<|0.0001|TWO_SIDED|95.0|-55.2|-29.1|||Mixed Models Analysis|||5:15am||-29.1|-55.2|<0.0001
92335888|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-37.6||||0.0007|TWO_SIDED|95.0|-59.1|-16.2|||Mixed Models Analysis|||7:15am||-16.2|-59.1|0.0007
92335889|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.9089|TWO_SIDED|95.0|-22.7|20.2|||Mixed Models Analysis|||7:15am||20.2|-22.7|0.9089
92335890|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-52.9|||<|0.0001|TWO_SIDED|95.0|-74.3|-31.4|||Mixed Models Analysis|||7:15am||-31.4|-74.3|<0.0001
92335891|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.5||||0.1307|TWO_SIDED|95.0|-37.9|5.0|||Mixed Models Analysis|||7:15am||5.0|-37.9|0.1307
92335892|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-36.3||||0.0011|TWO_SIDED|95.0|-57.7|-14.8|||Mixed Models Analysis|||7:15am||-14.8|-57.7|0.0011
92335893|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.9903|TWO_SIDED|95.0|-21.3|21.6|||Mixed Models Analysis|||7:15am||21.6|-21.3|0.9903
92335894|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-36.4||||0.001|TWO_SIDED|95.0|-57.8|-14.9|||Mixed Models Analysis|||7:15am||-14.9|-57.8|0.0010
92335895|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-21.4||||0.1655|TWO_SIDED|95.0|-51.7|9.0|||Mixed Models Analysis|||9:15am||9.0|-51.7|0.1655
92335896|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.8975|TWO_SIDED|95.0|-32.4|28.5|||Mixed Models Analysis|||9:15am||28.5|-32.4|0.8975
92335897|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-36.2||||0.0199|TWO_SIDED|95.0|-66.5|-5.8|||Mixed Models Analysis|||9:15am||-5.8|-66.5|0.0199
92335898|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.8||||0.2785|TWO_SIDED|95.0|-47.2|13.7|||Mixed Models Analysis|||9:15am||13.7|-47.2|0.2785
92396324|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.0915|TWO_SIDED|95.0|-0.69|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.05|-0.69|0.0915
92335899|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.3||||0.5048|TWO_SIDED|95.0|-40.6|20.1|||Mixed Models Analysis|||9:15am||20.1|-40.6|0.5048
92335900|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.1||||0.5533|TWO_SIDED|95.0|-21.3|39.6|||Mixed Models Analysis|||9:15am||39.6|-21.3|0.5533
92335901|NCT01096680|184574396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.4||||0.2098|TWO_SIDED|95.0|-49.9|11.1|||Mixed Models Analysis|||9:15am||11.1|-49.9|0.2098
92335902|NCT04485637|184574433|SUPERIORITY||Odds Ratio (OR)|1.67|||=|0.05|TWO_SIDED|95.0|1.0|2.79|||Regression, Logistic|Adjusted for respondent characteristics as described in statistical analysis plan.||Enhanced table \> Basic table||2.79|1.00|=0.05
92335903|NCT04485637|184574433|SUPERIORITY||Odds Ratio (OR)|1.66|||=|0.05|TWO_SIDED|95.0|1.0|2.76|||Regression, Logistic|Adjusted for respondent characteristics as described in statistical analysis plan.||Enhanced graph \> Basic table||2.76|1.00|=0.05
92335904|NCT04485637|184574434|SUPERIORITY|Enhanced table \> Basic table|Odds Ratio (OR)|1.52|||=|0.29|TWO_SIDED|95.0|0.71|3.26|||Regression, Logistic|Adjusted for respondent characteristics as described in statistical analysis plan.||||3.26|0.71|=0.29
92335905|NCT04485637|184574434|SUPERIORITY|Enhanced graph \> Basic table|Odds Ratio (OR)|0.96|||=|0.9|TWO_SIDED|95.0|0.48|1.93|||Regression, Logistic|Adjusted for respondent characteristics as described in statistical analysis plan.||||1.93|0.48|=0.90
92335906|NCT04485637|184574435|SUPERIORITY||Unst|-0.14|||=|0.13|TWO_SIDED|95.0|-0.32|0.04|||Regression, Linear|Adjusted for respondent characteristics as described in statistical analysis plan.||Enhanced table \> Basic table||0.04|-0.32|=0.13
92335907|NCT04485637|184574435|SUPERIORITY||Unstandardized B|-0.14|||=|0.12|TWO_SIDED|95.0|-0.32|0.04|||Regression, Linear|Adjusted for respondent characteristics as described in statistical analysis plan.||Enhanced graph \> Basic table||0.04|-0.32|=0.12
92335908|NCT04485637|184574436|SUPERIORITY|Enhanced table \> Basic table|Unstandardized B|-0.08|||=|0.33|TWO_SIDED|95.0|-0.25|0.08|||Regression, Linear|||||0.08|-0.25|=0.33
92335909|NCT04485637|184574436|SUPERIORITY||Unstandardized B|-0.09|||=|0.29|TWO_SIDED|95.0|-0.26|0.08|||Regression, Linear|Adjusted for respondent characteristics as described in statistical analysis plan.||||0.08|-0.26|=0.29
92335910|NCT02182830|184574437|SUPERIORITY|A hierarchical multiple testing procedure was used to evaluate superiority of the primary endpoint|Adjusted mean difference|-0.78|STANDARD_ERROR_OF_MEAN|0.2||0.0002|TWO_SIDED|95.0|-1.18|-0.38|||Mixed Models Analysis||Empagliflozin minus Placebo|"MMRM model : HbA1c baseline, treatment, renal function, pre-treatment with metformin, visit, visit by treatment interaction, and HbA1c baseline by treatment interaction. Treatment, renal function, pre-treatment with metformin, visit, and visit by treatment interaction were fixed classification effects, and HbA1c baseline was a linear covariate. The interaction visit by HbA1c baseline interaction was based on the linear covariate HbA1c baseline."||-0.38|-1.18|0.0002
92335911|NCT02182830|184574438|SUPERIORITY|A hierarchical multiple testing procedure was used to evaluate superiority of the endpoint|Adjusted mean difference|-5.21|STANDARD_ERROR_OF_MEAN|2.04||0.0117|TWO_SIDED|95.0|-9.24|-1.18|||ANCOVA||Empagliflozin minus Placebo|"change from baseline in mean 24-hour ambulatory SBP at 12 weeks of treatment was evaluated by using an Analysis of Covariance (ANCOVA) model.~The respective model included treatment, renal function, pretreatment with metformin, continuous baseline HbA1c, and continuous baseline of the endpoint."||-1.18|-9.24|0.0117
92335912|NCT02182830|184574439|SUPERIORITY|A hierarchical multiple testing procedure was used to evaluate superiority of the endpoint|Adjusted mean difference|-5.99|STANDARD_ERROR_OF_MEAN|2.62||0.0237|TWO_SIDED|95.0|-11.16|-0.81|||ANCOVA||Empagliflozin minus Placebo|"ANCOVA mode:~The respective model included treatment, renal function, pretreatment with metformin, continuous baseline HbA1c, and continuous baseline of the endpoint."||-0.81|-11.16|0.0237
92335913|NCT02182830|184574440|SUPERIORITY|A hierarchical multiple testing procedure was used to evaluate superiority of the endpoint|Adjusted mean difference|-1.23|STANDARD_ERROR_OF_MEAN|0.59||0.0382|TWO_SIDED|95.0|-2.39|-0.07|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the key secondary endpoint with continuous baseline HbA1c, continuous baseline key secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline key secondary endpoint.||-0.07|-2.39|0.0382
92335914|NCT02182830|184574441|SUPERIORITY|A hierarchical multiple testing procedure was used to evaluate superiority of the endpoint|Adjusted mean difference|-4.04|STANDARD_ERROR_OF_MEAN|2.59||0.1215|TWO_SIDED|95.0|-9.16|1.09|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the key secondary endpoint with continuous baseline HbA1c, continuous baseline key secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline key secondary endpoint.||1.09|-9.16|0.1215
92335915|NCT02182830|184574442|SUPERIORITY||Adjusted mean difference|-8.39|STANDARD_ERROR_OF_MEAN|2.69||0.0025|TWO_SIDED|95.0|-13.74|-3.04|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the secondary endpoint with continuous baseline HbA1c, continuous baseline secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline secondary endpoint.||-3.04|-13.74|0.0025
92335916|NCT02182830|184574443|SUPERIORITY||Adjusted mean difference|-3.43|STANDARD_ERROR_OF_MEAN|1.25||0.0069|TWO_SIDED|95.0|-5.9|-0.96|||ANCOVA||Empagliflozin minus Placebo|The respective ANCOVA model includes treatment, renal function, pretreatment with metformin, continuous baseline HbA1c, and continuous baseline of the respective secondary endpoint.||-0.96|-5.90|0.0069
92335917|NCT02182830|184574444|SUPERIORITY||Adjusted mean difference|-4.91|STANDARD_ERROR_OF_MEAN|1.74||0.0058|TWO_SIDED|95.0|-8.35|-1.46|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the secondary endpoint with continuous baseline HbA1c, continuous baseline secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline secondary endpoint.||-1.46|-8.35|0.0058
92335918|NCT02182830|184574445|SUPERIORITY||Adjusted mean difference|-7.43|STANDARD_ERROR_OF_MEAN|2.5||0.0036|TWO_SIDED|95.0|-12.37|-2.48|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the secondary endpoint with continuous baseline HbA1c, continuous baseline secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline secondary endpoint.||-2.48|-12.37|0.0036
92335919|NCT02182830|184574446|SUPERIORITY||Adjusted mean difference|-1.84|STANDARD_ERROR_OF_MEAN|1.56||0.2402|TWO_SIDED|95.0|-4.93|1.25|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the secondary endpoint with continuous baseline HbA1c, continuous baseline secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline secondary endpoint.||1.25|-4.93|0.2402
92335920|NCT02182830|184574447|SUPERIORITY||Adjusted mean difference|-4.25|STANDARD_ERROR_OF_MEAN|1.49||0.0053|TWO_SIDED|95.0|-7.21|-1.29|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the secondary endpoint with continuous baseline HbA1c, continuous baseline secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline secondary endpoint.||-1.29|-7.21|0.0053
92335921|NCT04399538|184574448|SUPERIORITY||Difference in least square (LS) mean|-52.36|||<|0.0001||80.0|-60.07|-43.17|||ANCOVA|||Natural log-transformed individual relative change (RC) from baseline to Week 6 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline % liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale.||-43.17|-60.07|<0.0001
92335922|NCT04399538|184574448|SUPERIORITY||Difference in LS mean|-56.58|||<|0.0001||80.0|-63.88|-47.8|||ANCOVA|||Natural log-transformed individual relative change (RC) from baseline to Week 6 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline % liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale.||-47.80|-63.88|<0.0001
92396325|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0378|TWO_SIDED|95.0|-0.75|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.02|-0.75|0.0378
92335923|NCT04399538|184574448|SUPERIORITY||Difference in LS mean|-58.8|||<|0.0001||80.0|-65.66|-50.57|||ANCOVA|||Natural log-transformed individual relative change (RC) from baseline to Week 6 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline % liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. Relative change was converted to percent change as follows: Percent change = 100\*(RC-1). 80% CI was calculated based on difference in LS mean between groups.||-50.57|-65.66|<0.0001
92335924|NCT04399538|184574448|SUPERIORITY||Difference in LS mean|-45.8||||0.0003||80.0|-55.86|-33.46|||ANCOVA|||Natural log-transformed individual relative change (RC) from baseline to Week 6 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline % liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale.||-33.46|-55.86|0.0003
92335925|NCT03268005|184574505|NON_INFERIORITY|The upper limit of the 95% confidence interval for the difference between faster aspart and NovoRapid was compared to a non-inferiority margin of 0.4%. If it was below or equal to 0.4% non-inferiority was considered established and effect demonstrated.|Treatment difference|-0.04||||0.31|TWO_SIDED|95.0|-0.11|0.03|||ANOVA||Faster aspart-NovoRapid|Change from baseline in HbA1c was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model included treatment, region and metformin use at baseline (Yes/No) as factors, and baseline HbA1c as a covariate.||0.03|-0.11|0.310
92335926|NCT00492232|184574563|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.71||||0.484||95.0|0.27|1.85||Statistical significance was determined at the 0.05 level.|Regression, Logistic|Log odds of achieving response were estimated using the logistic regression analysis adjusted for effects of treatment and pooled center.||||1.85|0.27|0.484
92335927|NCT00492232|184574564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.946||95.0|-6.23|5.81||P-values are from t-tests of the analysis of covariance (ANCOVA) model for the difference in least squares (LS) means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg) and pooled center as covariates.||||5.81|-6.23|0.946
92335928|NCT00492232|184574565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.901||95.0|-5.31|6.03||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg) and pooled center as covariates.||||6.03|-5.31|0.901
92335929|NCT00492232|184574566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.538||95.0|-4.32|8.23||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg) and pooled center as covariates.||||8.23|-4.32|0.538
92335930|NCT00492232|184574567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.517||95.0|-9.09|4.6||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg) and pooled center as covariates.||||4.60|-9.09|0.517
92335931|NCT00492232|184574568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.965||95.0|-6.28|6.56||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg) and pooled center as covariates.||||6.56|-6.28|0.965
92335932|NCT00492232|184574569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.617||95.0|-0.27|0.45||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg), baseline zolpidem frequency, and pooled center as covariates.||||0.45|-0.27|0.617
92335933|NCT00492232|184574570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.541||95.0|-0.39|0.74||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg), baseline zolpidem frequency, and pooled center as covariates.||||0.74|-0.39|0.541
92335934|NCT00492232|184574571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55||||0.163||95.0|-0.23|1.33||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg), baseline zolpidem frequency, and pooled center as covariates.||||1.33|-0.23|0.163
92335935|NCT00492232|184574572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.757||95.0|-0.79|1.08||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg), baseline zolpidem frequency, and pooled center as covariates.||||1.08|-0.79|0.757
92335936|NCT00492232|184574573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.82||95.0|-0.93|1.17||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg), baseline zolpidem frequency, and pooled center as covariates.||||1.17|-0.93|0.820
92396326|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0053|TWO_SIDED|95.0|-0.89|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.16|-0.89|0.0053
92396327|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0614|TWO_SIDED|95.0|-0.83|-0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.08|-0.83|0.0614
92335937|NCT00492232|184574575|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.01||||0.284||95.0|0.55|7.34||P-values are from Chi-square tests of the log-regression model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|Regression, Logistic|Log odds of achieving response were estimated using logistic regression analysis adjusted for effects of baseline zolpidem dosage (≤10 mg vs \>10 mg).||||7.34|0.55|0.284
92335938|NCT00492232|184574576|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.42||||0.389||95.0|0.64|3.13||P-values are from Chi-square tests of the log-regression model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|Regression, Logistic|Log odds of achieving response were estimated using logistic regression analysis adjusted for effects of baseline zolpidem dosage (≤10 mg vs \>10 mg).||||3.13|0.64|0.389
92335939|NCT03078127|184574611|SUPERIORITY|||||||0.615||||||ANOVA was performed (with multiple comparisons to compare each intervention to baseline) to assess for difference in MCC with each ACT. The a priori threshold for statistical significance was set to 0.05|ANOVA|||No comparable preliminary data exists on mucociliary clearance (MCC) in response to airway clearance therapy methods (ACTs) for a power calculation. However, prior studies of medication effect on MCC gave a baseline mean change of Ave270 clr of 27.7% (std dev of 15.1%). Thus, the investigators estimated a mean change of 20% for effective ACT with the same estimate for variability (Std Dev of 15.1%). Using a paired 2-tailed test to compare means, 7 subjects were estimated to be needed.||||0.615
92335940|NCT03078127|184574612|SUPERIORITY|||||||0.696||||||ANOVA was performed (with multiple comparisons to compare each intervention to baseline) to assess for difference in MCC with each ACT. The a priori threshold for significance was \< 0.05.|ANOVA|||||||0.696
92335941|NCT03078127|184574614|SUPERIORITY|||||||0.001||||||The a priori threshold of statistical significance was p = 0.05|t-test, 2 sided|||The investigators compared FENO before and after ACT in a pooled manner (i.e., grouping each of the comparisons together), as the study was not powered for FENO comparisons within each ACT type.||||0.001
92396328|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.004|TWO_SIDED|95.0|-0.92|-0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.18|-0.92|0.0040
92335942|NCT03078127|184574614|OTHER|A linear regression was performed between change in FENO and Ave90Clr||||||0.692||||||The a priori threshold for statistical significance (i.e., slope different than zero) between MCC and FENO was 0.05|Regression, Linear|||if the difference between pre and post-ACT FENO was significant (defined as p\<0.05), it was investigated whether change in FENO correlated with MCC (as represented by Ave90Clr)||||0.692
92335943|NCT03078127|184574615|SUPERIORITY|||||||0.146||||||Non-parametric test used due to lack of data normality. The a prior threshold for statistical significance was \< 0.05|Wilcoxon signed-rank test|||The study was not designed or powered to assess for inter-group differences between the types of ACT, and for analytical purposes, these were pooled, with the analysis being a paired comparison within subjects to pre- to post-ACT.||||0.146
92335944|NCT03078127|184574616|SUPERIORITY|||||||0.041||||||Non-parametric test used due to lack of data normality. The a priori threshold for statistical significance was \< 0.05|Wilcoxon signed-rank test|||The study was not designed or powered to assess for inter-group differences between the types of ACT, and for analytical purposes, these were pooled, with the analysis being a paired comparison within subjects to pre- to post-ACT.||||0.041
92335945|NCT03078127|184574616|OTHER|A linear regression was performed between change in pre and post-ACT adenosine (purine) in EBC and Ave90Clr||||||0.047||||||The a priori threshold of statistical significance was p = 0.05|Regression, Linear|||If the difference between pre and post-ACT adenosine (purine) in EBC was significant (defined as p\<0.05), the correlation between change in adenosine concentration and MCC (as represented by Ave90Clr) was investigated.||||0.047
92335946|NCT03078127|184574617|SUPERIORITY|||||||0.07||||||Non-parametric test used due to lack of data normality. The a priori threshold for statistical significance was \< 0.05|Wilcoxon signed-rank test|||The study was not designed or powered to assess for inter-group differences between the types of ACT, and for analytical purposes, these were pooled, with the analysis being a paired comparison within subjects to pre- to post-ACT.||||0.070
92335947|NCT03159299|184574657|SUPERIORITY||Mean Difference (Final Values)|0.11|||<|0.15|TWO_SIDED||||||Mixed Models Analysis|||||||<0.15
92335948|NCT01990573|184574684|OTHER|ANOVA|F statistic|0.002||||0.002|TWO_SIDED||||||ANOVA|||||||.002
92335949|NCT01990573|184574685|OTHER|ANOVA|F statistic|0.962||||0.962|TWO_SIDED||||||ANOVA|||||||.962
92335950|NCT00947310|184574746|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45||||0.01|TWO_SIDED|95.0|0.24|0.85|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm B. Null Hypothesis was that HR = 1||0.85|0.24|0.01
92335951|NCT00947310|184574746|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56||||0.06|TWO_SIDED|95.0|0.3|1.02|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm C. Null Hypothesis was that HR = 1||1.02|0.30|0.06
92335952|NCT00947310|184574747|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.39|TWO_SIDED|95.0|0.71|2.47|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm B. Null Hypothesis was that HR = 1||2.47|0.71|0.39
92335953|NCT00947310|184574747|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.8|TWO_SIDED|95.0|0.58|2.05|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm C. Null Hypothesis was that HR = 1||2.05|0.58|0.80
92335954|NCT00947310|184574748|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|95.0|0.13|0.34|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm B. Null Hypothesis was that HR = 1||0.34|0.13|<0.001
92335955|NCT00947310|184574748|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.24|||<|0.001|TWO_SIDED|95.0|0.15|0.4|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm C. Null Hypothesis was that HR = 1||0.40|0.15|<0.001
92335956|NCT00320242|184574785|SUPERIORITY||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|0.48||0.0152|TWO_SIDED|95.0|0.26|2.23|||t-test, 2 sided|two-tailed paired t-test||||2.23|0.26|0.0152
92335957|NCT00320242|184574786|SUPERIORITY||Mean Difference (Final Values)|50.0|STANDARD_ERROR_OF_MEAN|11.7||0.005|TWO_SIDED|95.0|23.9|76.1|||t-test, 2 sided|||||76.1|23.9|0.005
92335958|NCT00320242|184574787|SUPERIORITY||Mean Difference (Net)|1.11|STANDARD_DEVIATION|1.31||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|two-tailed Wilcoxan signed-rank sum test||two-tailed Wilcoxan signed-rank sum test||||0.02
92335959|NCT00320242|184574788|OTHER|The percentage change in falls was analyzed using a two-tailed one-sample t-test with a hypothesized mean of 0||||||0.002||||||Two-tailed one-sample t-test with a hypothesized mean of 0. This analysis was not adjusted for multiple comparisons.|t-test, 2 sided|||The percentage change in falls was analyzed using a two-tailed one-sample t-test with a hypothesized mean of 0||||0.002
92335960|NCT05133323|184574790|SUPERIORITY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.89||0.0106|ONE_SIDED|90.0||-0.6|||ANCOVA|||||-0.6||0.0106
92335961|NCT00909220|184574794|SUPERIORITY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.06||0.05|TWO_SIDED|95.0|0.27|0.49|||ANCOVA|||ANCOVA comparing groups (HEA v MDD), controlling for baseline depression (IDS-C score at week 0) to estimate depression at the end of treatment (IDS-C score at week 16).||0.49|0.27|0.05
92335962|NCT00909220|184574795|SUPERIORITY|ANCOVA|Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.07|<|0.05|TWO_SIDED|95.0|0.31|0.59|||ANCOVA|||ANCOVA comparing groups (HEA v MDD), controlling for baseline depression (IDS-SR score at week 0) to estimate depression at the end of treatment (IDS-SR score at week 16).||0.59|0.31|<0.05
92335963|NCT00909220|184574796|OTHER|Multiple regression analyses|beta|0.43|STANDARD_ERROR_OF_MEAN|6.75||0.02|TWO_SIDED|||||p \<0.05 a priori threshold for statistical significance.|Regression, Linear|||||||.02
92335964|NCT00909220|184574797|OTHER|Hierarchical linear modeling (HLM) , an ordinary least square (OLS) regression-based analysis.|Slope|2.58|STANDARD_ERROR_OF_MEAN|0.75|<|0.05|TWO_SIDED|95.0|1.22|2.77||The variation of slopes among participants for each variable were calculated. If significant, a second level of analysis focused on predictors of the variation was conducted.|Regression, Logistic|df = 31||A two-level hierarchical linear model assessing the effects of negativity bias and positivity offset at pre-treatment on the rate of depression severity (IDS-SR) over 16 weeks of treatment (time). First level units were 'weeks in BA treatment', with participants limited to those who attended five or more therapy sessions, resulting in a total of 421 treatment weeks for analysis. Second-level units were the 'subjects entering BA treatment'.||2.77|1.22|<0.05
92335965|NCT04152083|184574803|OTHER||Hazard Ratio (HR)|1.54||||0.0006|TWO_SIDED|95.0|1.2|1.98||Threshold for significance at 0.05 level.|Likelihood ratio test|||The median estimate for each treatment group, hazard ratio, and its 95% confidence interval (CI) were based on the stratified Cox model with Efron's method of tie handling. The analysis was censored at the time point of first rescue medication. The stratification factors were concomitant migraine preventive treatment use and region.||1.98|1.20|0.0006
92210820|NCT04677179|184322615|SUPERIORITY||Odds Ratio (OR)|0.8||||0.838|TWO_SIDED|95.0|0.1|6.21|||Cochran-Mantel-Haenszel|||||6.21|0.10|0.838
92335966|NCT04152083|184574804|OTHER||Hazard Ratio (HR)|1.75|||<|0.0001|TWO_SIDED|95.0|1.41|2.19||Threshold for significance at 0.05 level.|Likelihood ratio test|||The median estimate for each treatment group, hazard ratio, and its 95% CI were based on the stratified Cox model with Efron's method of tie handling. The analysis was censored at the time point of first rescue medication. The stratification factors were concomitant migraine preventive treatment use and region.||2.19|1.41|<0.0001
92335967|NCT04152083|184574805|OTHER||Odds Ratio (OR)|2.27||||0.0009|TWO_SIDED|95.0|1.39|3.72||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Odds ratio and 95% CI were based on Cochran-Mantel-Haenszel (CMH) test adjusted for the study's stratification factors of concomitant migraine preventive treatment use and region.||3.72|1.39|0.0009
92335968|NCT04152083|184574806|OTHER||Odds Ratio (OR)|2.25|||<|0.0001|TWO_SIDED|95.0|1.55|3.25||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Odds ratio and 95% CI were based on CMH test adjusted for the study's stratification factors of concomitant migraine preventive treatment use and region.||3.25|1.55|<0.0001
92335969|NCT00411450|184574812|SUPERIORITY_OR_OTHER||Difference|6.0|||||TWO_SIDED|95.0|-11.0|21.0|||||Difference = Wild type - Mutant|Difference at Week 17||21|-11|
92335970|NCT00411450|184574812|SUPERIORITY_OR_OTHER||Difference|8.0|||||TWO_SIDED|95.0|-9.0|23.0||||||Difference at Week 25||23|-9|
92335971|NCT00411450|184574814|SUPERIORITY_OR_OTHER||Difference|7.0|||||TWO_SIDED|95.0|-11.0|23.0|||||Difference = Wild type - Mutant|||23|-11|
92335972|NCT00411450|184574815|SUPERIORITY_OR_OTHER||Difference|12.5|||||TWO_SIDED|95.0|-6.3|31.4|||||Difference = Wild type - Mutant|Difference at Week 17||31.4|-6.3|
92335973|NCT00411450|184574815|SUPERIORITY_OR_OTHER||Difference|10.9|||||TWO_SIDED|95.0|-8.4|30.2||||||Difference at Week 25||30.2|-8.4|
92335974|NCT00411450|184574816|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.1|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with only KRAS effect (Wild type vs. Mutant).|||1.1|0.5|
92335975|NCT00411450|184574817|SUPERIORITY_OR_OTHER||Difference|6.0|||||TWO_SIDED|95.0|-14.0|25.0|||||Difference = Wild type - Mutant|Difference at Week 17||25|-14|
92335976|NCT00411450|184574817|SUPERIORITY_OR_OTHER||Difference|6.0|||||TWO_SIDED|95.0|-14.0|25.0||||||Difference at Week 25||25|-14|
92396329|NCT03192176|184689393|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.33|-0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.58|-1.33|<0.0001
92335977|NCT00411450|184574818|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.2|2.0|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with only KRAS effect (Wild type vs. Mutant).|||2.0|0.2|
92335978|NCT00411450|184574819|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.4|0.9|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with only KRAS effect (Wild type vs. Mutant).|||0.9|0.4|
92335979|NCT00411450|184574820|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.5|1.1|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with only KRAS effect (Wild type vs. Mutant).|||1.1|0.5|
92210821|NCT04677179|184322616|SUPERIORITY||Odds Ratio (OR)|0.57||||0.563|TWO_SIDED|95.0|0.1|3.3|||Cochran-Mantel-Haenszel|||||3.30|0.10|0.563
92335980|NCT00411450|184574821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.2|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with only KRAS effect (Wild type vs. Mutant).|||1.2|0.5|
92335981|NCT00614874|184574826|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||Comparison is between baseline and week 12|ANOVA|||||||0.048
92335982|NCT00614874|184574827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|STANDARD_DEVIATION|35.0||0.183||95.0||||comparison was at baseline and week 12|Friedman|||||||0.183
92335983|NCT00614874|184574828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_DEVIATION|0.95||0.398||95.0||||Comparison was at baseline and week 12|Friedman|||||||0.398
92335984|NCT00705341|184574837|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Regression, Linear|||Log-linear generalized estimating equation (GEE) models were used to assess the dose effect on PC20.||||0.65
92335985|NCT00205660|184574839|SUPERIORITY|||||||0.03||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|ANCOVA|||A repeated measures ANCOVA was used to test for a time by treatment condition interaction that would indicate differences between groups in change over time in the primary outcome. The null hypothesis was that there were no differences between groups in the change over time (time x treatment condition).||||0.03
92335986|NCT00205660|184574840|SUPERIORITY|||||||0.01||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|ANCOVA|||A repeated measures ANCOVA was used to test for a time by treatment condition interaction that would indicate differences between groups in change over time in the primary outcome. The null hypothesis was that there were no differences between groups in the change over time (time x treatment condition).||||0.01
92335987|NCT03124537|184574886|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, and health||Tested whether weekly steps increased from the baseline week in both conditions (main effect of time).||||< .001
92335988|NCT03124537|184574886|SUPERIORITY|||||||0.846||||||Controlling for age, sex, education, and health.|Mixed Models Analysis|||Tested whether weekly step increases from the baseline week differed between the two conditions (time by condition interaction).||||.846
92335989|NCT03124537|184574887|SUPERIORITY|||||||0.571||||||Controlling for age, sex, condition, education, and health.|Mixed Models Analysis|||Tested whether exercise self-efficacy increased from the baseline week to the end of the intervention in both conditions (main effect of time).||||.571
92335990|NCT03124537|184574887|SUPERIORITY|||||||0.361|||||||Mixed Models Analysis|Controlling for age, sex, education, and health.||Tested whether exercise self efficacy increases from the baseline to the end of the intervention differed between the two conditions (time by condition interaction).||||.361
92335991|NCT03124537|184574888|SUPERIORITY|||||||0.564|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, and health.||Tested whether exercise control increased from the baseline week to the end of the intervention in both conditions (main effect of time).||||.564
92335992|NCT03124537|184574888|SUPERIORITY|||||||0.641|||||||Mixed Models Analysis|Controlling for age, sex, education, and health.||Tested whether exercise control belief increases from the baseline to the end of the intervention differed between the two conditions (time by condition interaction).||||.641
92335993|NCT03124537|184574890|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, health, and average steps.||Tested whether daily walking was related to mood within-persons.||||< .001
92335994|NCT03124537|184574890|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|Controlling for age, condition, education, health, and average steps.||Tested whether daily walking was related to energy within-persons.||||.003
92335995|NCT03124537|184574890|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, health, and average steps.||Tested whether the relationship between daily walking and mood differed between males and females (steps by sex interaction).||||< .001
92335996|NCT03124537|184574890|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Controlling for age, condition, education, health, and average steps.||Tested whether the relationship between daily walking and energy differed between males and females (steps by sex interaction).||||< .001
92335997|NCT03124537|184574891|SUPERIORITY|||||||0.011|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, and health.||Tested whether self-reported vigorous physical activity increased from the baseline week to the end of the intervention in both conditions (main effect of time).||||.011
92335998|NCT03124537|184574891|SUPERIORITY|||||||0.232|||||||Mixed Models Analysis|Controlling for age, sex, education, and health.||Tested whether self-reported vigorous physical activity increases from the baseline to the end of the intervention differed between the two conditions (time by condition interaction).||||.232
92335999|NCT03124537|184574892|SUPERIORITY|||||||0.53|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, and health.||Tested whether self-reported moderate physical activity increased from the baseline week to the end of the intervention in both conditions (main effect of time).||||.530
92336000|NCT03124537|184574892|SUPERIORITY|||||||0.831|||||||Mixed Models Analysis|Controlling for age, sex, education, and health.||Tested whether self-reported moderate physical activity increases from the baseline to the end of the intervention differed between the two conditions (time by condition interaction).||||.831
92336001|NCT03124537|184574893|SUPERIORITY|||||||0.199|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, and health.||Tested whether self-reported light physical activity increased from the baseline week to the end of the intervention in both conditions (main effect of time).||||.199
92336002|NCT03124537|184574893|SUPERIORITY|||||||0.203|||||||Mixed Models Analysis|Controlling for age, sex, education, and health.||Tested whether self-reported light physical activity increases from the baseline to the end of the intervention differed between the two conditions (time by condition interaction).||||.203
92336003|NCT02756364|184574911|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.537|TWO_SIDED|95.0|0.47|1.26|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original interactive response technology (IRT) stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.26|0.47|0.537
92336004|NCT02756364|184574911|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.849|TWO_SIDED|95.0|0.53|1.45|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original IRT stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.45|0.53|0.849
92336005|NCT02756364|184574912|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.276|TWO_SIDED|95.0|0.36|1.4|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original IRT stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.40|0.36|0.276
92336006|NCT02756364|184574912|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.47|TWO_SIDED|95.0|0.47|1.68|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original IRT stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.68|0.47|0.470
92336007|NCT02756364|184574913|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.495|TWO_SIDED|95.0|0.46|1.25|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original IRT stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.25|0.46|0.495
92336008|NCT02756364|184574913|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.646|TWO_SIDED|95.0|0.49|1.38|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original IRT stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.38|0.49|0.646
92396330|NCT03192176|184689393|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.47|-0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.71|-1.47|<0.0001
92336009|NCT02756364|184574914|SUPERIORITY||Odds Ratio (OR)|2.23|||||TWO_SIDED|95.0|0.68|7.29|||||The odds ratio and 95% CIs were obtained using a stratified Cochran-Mantel-Haenszel model with the original IRT stratification factors (visceral metastases, previous sensitivity to hormonal therapy, and previous exposure to CDK4/6 inhibitors).|||7.29|0.68|
92336010|NCT02756364|184574914|SUPERIORITY||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.34|4.39|||||The odds ratio and 95% CIs were obtained using a stratified Cochran-Mantel-Haenszel model with the original IRT stratification factors (visceral metastases, previous sensitivity to hormonal therapy, and previous exposure to CDK4/6 inhibitors).|||4.39|0.34|
92336011|NCT02756364|184574915|SUPERIORITY||Odds Ratio (OR)|2.56|||||TWO_SIDED|95.0|0.94|6.94|||||The odds ratio and 95% CIs were obtained using a stratified Cochran-Mantel-Haenszel model with the original IRT stratification factors (visceral metastases, previous sensitivity to hormonal therapy, and previous exposure to CDK4/6 inhibitors).|||6.94|0.94|
92336012|NCT02756364|184574915|SUPERIORITY||Odds Ratio (OR)|1.75|||||TWO_SIDED|95.0|0.69|4.44|||||The odds ratio and 95% CIs were obtained using a stratified Cochran-Mantel-Haenszel model with the original IRT stratification factors (visceral metastases, previous sensitivity to hormonal therapy, and previous exposure to CDK4/6 inhibitors).|||4.44|0.69|
92336013|NCT02223364|184574917|SUPERIORITY|||||||0.144|||||||Wilcoxon (Mann-Whitney)|||||||0.144
92336014|NCT02223364|184574917|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
92336015|NCT02223364|184574917|SUPERIORITY|||||||0.196|||||||Wilcoxon (Mann-Whitney)|||||||0.196
92336016|NCT02223364|184574918|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92336017|NCT02223364|184574918|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92336018|NCT02223364|184574918|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
92336019|NCT02223364|184574919|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92336020|NCT02223364|184574919|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92336021|NCT02223364|184574919|SUPERIORITY|||||||0.257|||||||Wilcoxon (Mann-Whitney)|||||||0.257
92336022|NCT02223364|184574920|SUPERIORITY|||||||0.059|||||||Wilcoxon (Mann-Whitney)|||||||0.059
92336023|NCT02223364|184574920|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92336024|NCT02223364|184574920|SUPERIORITY|||||||0.214|||||||Wilcoxon (Mann-Whitney)|||||||0.214
92336025|NCT02223364|184574921|SUPERIORITY|||||||0.189|||||||Wilcoxon (Mann-Whitney)|||||||0.189
92336026|NCT02223364|184574921|SUPERIORITY|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||||||0.043
92336027|NCT02223364|184574921|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|||||||0.357
92336028|NCT02223364|184574922|SUPERIORITY|||||||0.958|||||||Wilcoxon (Mann-Whitney)|||||||0.958
92336029|NCT02223364|184574922|SUPERIORITY|||||||0.203|||||||Wilcoxon (Mann-Whitney)|||||||0.203
92336030|NCT02223364|184574922|SUPERIORITY|||||||0.132|||||||Wilcoxon (Mann-Whitney)|||||||0.132
92336031|NCT02223364|184574923|SUPERIORITY|||||||0.493|||||||Wilcoxon (Mann-Whitney)|||||||0.493
92336032|NCT02223364|184574923|SUPERIORITY|||||||0.299|||||||Wilcoxon (Mann-Whitney)|||||||0.299
92336033|NCT02223364|184574923|SUPERIORITY|||||||0.797|||||||Wilcoxon (Mann-Whitney)|||||||0.797
92336034|NCT02223364|184574924|SUPERIORITY|||||||0.571|||||||Wilcoxon (Mann-Whitney)|||||||0.571
92336035|NCT02223364|184574924|SUPERIORITY|||||||0.991|||||||Wilcoxon (Mann-Whitney)|||||||0.991
92336036|NCT02223364|184574924|SUPERIORITY|||||||0.496|||||||Wilcoxon (Mann-Whitney)|||||||0.496
92336037|NCT02223364|184574925|SUPERIORITY|||||||0.807|||||||Wilcoxon (Mann-Whitney)|||||||0.807
92336038|NCT02223364|184574925|SUPERIORITY|||||||0.171|||||||Wilcoxon (Mann-Whitney)|||||||0.171
92336039|NCT02223364|184574925|SUPERIORITY|||||||0.104|||||||Wilcoxon (Mann-Whitney)|||||||0.104
92336040|NCT02223364|184574927|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
92336041|NCT02223364|184574927|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92336042|NCT02223364|184574927|SUPERIORITY|||||||0.293|||||||Wilcoxon (Mann-Whitney)|||||||0.293
92336043|NCT02223364|184574928|SUPERIORITY|||||||0.202|||||||Wilcoxon (Mann-Whitney)|||||||0.202
92336044|NCT02223364|184574928|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
92336045|NCT02223364|184574928|SUPERIORITY|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||||||0.148
92336046|NCT02223364|184574929|SUPERIORITY|||||||0.933|||||||Wilcoxon (Mann-Whitney)|||||||0.933
92336047|NCT02223364|184574929|SUPERIORITY|||||||0.169|||||||Wilcoxon (Mann-Whitney)|||||||0.169
92336048|NCT02223364|184574929|SUPERIORITY|||||||0.126|||||||Wilcoxon (Mann-Whitney)|||||||0.126
92336049|NCT02223364|184574930|SUPERIORITY|||||||0.768|||||||Kruskal-Wallis|||||||0.768
92336050|NCT02223364|184574931|SUPERIORITY|||||||0.623|||||||Regression, Cox|||Within group comparison of baseline and 3 months (approximately 12 weeks)||||0.623
92336051|NCT02223364|184574931|SUPERIORITY|||||||0.001|||||||Regression, Cox|||Within group comparison of baseline and 3 months (approximately 12 weeks)||||0.001
92336052|NCT02223364|184574931|SUPERIORITY|||||||0.048|||||||Regression, Cox|||Within group comparison of baseline and three months (approximately 12 weeks)||||0.048
92336053|NCT02685072|184574942|SUPERIORITY||Odds Ratio (OR)|0.5818||||0.3253|TWO_SIDED|95.0|0.1968|1.7202|||Chi-squared|degrees of freedom =1|Odds ratio represents odds of smoking abstinence in TPN + progesterone group versus TPN + placebo group|||1.7202|0.1968|0.3253
92336054|NCT02685072|184574943|SUPERIORITY||Odds Ratio (OR)|1.0781||||0.8944|TWO_SIDED|95.0|0.355|3.2744|||Chi-squared|degrees of freedom = 1|Odds ratio represents odds of CO \< 10 (negative for smoking) in TPN + progesterone versus TPN + placebo groups|||3.2744|0.3550|0.8944
92336055|NCT02685072|184574944|SUPERIORITY||Odds Ratio (OR)|0.7619||||0.662|TWO_SIDED|95.0|0.2247|2.5838|||Chi-squared|degrees of freedom = 1|Odds ratio represents odds of CO \< 10 ppm (negative for smoking) in TPN + progesterone versus TPN + placebo.|||2.5838|0.2247|0.6620
92336056|NCT02685072|184574945|SUPERIORITY||Odds Ratio (OR)|0.913||||0.8661|TWO_SIDED|95.0|0.3171|2.6287|||Chi-squared|degrees of freedom = 1|Odds ratio represents odds of CO \< 10 ppm (negative for smoking) in TPN + progesterone versus TPN + placebo.|||2.6287|0.3171|0.8661
92336057|NCT02685072|184574946|SUPERIORITY||Mean Difference (Final Values)|-9.1|STANDARD_DEVIATION|31.7||0.31|TWO_SIDED|95.0|-27.1|9.0|||t-test, 2 sided||(Placebo + TPN) - (Progesterone + TPN)|||9.0|-27.1|0.31
92336058|NCT02685072|184574947|SUPERIORITY||Mean Difference (Final Values)|0.148||||0.791|TWO_SIDED|95.0|-0.9747|1.2707|||t-test, 2 sided||(placebo + TPN) - (progesterone + TPN)|||1.2707|-0.9747|0.7910
92336059|NCT02685072|184574948|SUPERIORITY||Mean Difference (Final Values)|9.26||||0.0065|TWO_SIDED|95.0|2.71|15.81|||t-test, 2 sided|||||15.81|2.71|0.0065
92336060|NCT02685072|184574959|SUPERIORITY||Odds Ratio (OR)|0.7172||||0.6449|TWO_SIDED|95.0|0.1738|2.9594|||Chi-squared|degrees of freedom = 1|Odds ratio represents odds of CO \< 10 ppm (negative for smoking) in TPN + progesterone versus TPN + placebo.|||2.9594|0.1738|.6449
92336061|NCT02685072|184574960|SUPERIORITY||Odds Ratio (OR)|0.7172||||0.6449|TWO_SIDED|95.0|0.1738|2.9594|||Chi-squared|degrees of freedom = 1|Odds ratio represents odds of prolonged abstinence in TPN + progesterone versus TPN + placebo.|||2.9594|0.1738|0.6449
92336062|NCT03597139|184574962|SUPERIORITY||Mean Difference (Final Values)|4.6||||0.1491|TWO_SIDED|95.0|-1.7|10.9|||ANCOVA|||||10.9|-1.7|0.1491
92336063|NCT03597139|184574963|SUPERIORITY||Mean Difference (Final Values)|6.1||||0.1187|TWO_SIDED|95.0|-1.6|13.9|||ANCOVA|||||13.9|-1.6|0.1187
92336064|NCT03597139|184574964|SUPERIORITY||Mean Difference (Final Values)|6.4||||0.2128|TWO_SIDED|95.0|-3.7|16.5|||ANCOVA|||||16.5|-3.7|0.2128
92336065|NCT03597139|184574965|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.8408|TWO_SIDED|95.0|-11.8|9.6|||ANCOVA|||||9.6|-11.8|0.8408
92336066|NCT03597139|184574966|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.5356|TWO_SIDED|95.0|-6.1|11.6|||ANCOVA|||||11.6|-6.1|0.5356
92336067|NCT03597139|184574967|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.1787|TWO_SIDED|95.0|-2.7|14.1|||ANCOVA|||||14.1|-2.7|0.1787
92336068|NCT03597139|184574968|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.7666|TWO_SIDED|95.0|-12.6|9.3|||ANCOVA|||||9.3|-12.6|0.7666
92336069|NCT03597139|184574969|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.8082|TWO_SIDED|95.0|-10.7|8.4|||ANCOVA|||||8.4|-10.7|0.8082
92336070|NCT03597139|184574970|SUPERIORITY||Mean Difference (Final Values)|11.6||||0.6362|TWO_SIDED|95.0|-37.0|60.3|||ANCOVA|||||60.3|-37|0.6362
92336071|NCT03597139|184574971|SUPERIORITY||Mean Difference (Final Values)|9.6||||0.0961|TWO_SIDED|95.0|-1.7|20.9||Frequency|ANCOVA|||Frequency||20.9|-1.7|0.0961
92336072|NCT03597139|184574971|SUPERIORITY||Mean Difference (Final Values)|7.7||||0.1722|TWO_SIDED|95.0|-3.4|18.7|||ANCOVA|||Severity||18.7|-3.4|0.1722
92336073|NCT03597139|184574972|SUPERIORITY||Mean Difference (Final Values)|5.2||||0.0051|TWO_SIDED|95.0|1.6|8.9||Left Eye|ANCOVA|||Left Eye||8.9|1.6|0.0051
92336074|NCT03597139|184574972|SUPERIORITY||Mean Difference (Final Values)|4.8||||0.0104|TWO_SIDED|95.0|1.1|8.4||Right Eye|ANCOVA|||Right Eye||8.4|1.1|0.0104
92336075|NCT03597139|184574973|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.0003|TWO_SIDED|95.0|-3.2|-1.0||Left Eye|ANCOVA||Add in RE LE info|Left Eye||-1.0|-3.2|0.0003
92336076|NCT03597139|184574973|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.0038|TWO_SIDED|95.0|-2.6|-0.5||Right Eye|ANCOVA|||Right Eye||-0.5|-2.6|0.0038
92336077|NCT05052697|184575022|OTHER||Geometric Mean Ratio|0.86|||||TWO_SIDED|95.0|0.34|2.2|||||GMRs and the corresponding 2-sided 95% CIs were calculated by exponentiating the mean logarithm of the difference (qIRV group minus QIV group) and the corresponding CIs (based on the Student t distribution).|Strain: A1||2.20|0.34|
92336078|NCT05052697|184575022|OTHER||Geometric Mean Ratio|1.53|||||TWO_SIDED|95.0|0.86|2.7|||||GMRs and the corresponding 2-sided 95% CIs were calculated by exponentiating the mean logarithm of the difference (qIRV group minus QIV group) and the corresponding CIs (based on the Student t distribution).|Strain: A2||2.70|0.86|
92336079|NCT05052697|184575022|OTHER||Geometric Mean Ratio|0.96|||||TWO_SIDED|95.0|0.4|2.28|||||GMRs and the corresponding 2-sided 95% CIs were calculated by exponentiating the mean logarithm of the difference (qIRV group minus QIV group) and the corresponding CIs (based on the Student t distribution).|Strain: B1||2.28|0.40|
92336080|NCT05052697|184575022|OTHER||Geometric Mean Ratio|0.54|||||TWO_SIDED|95.0|0.25|1.18|||||GMRs and the corresponding 2-sided 95% CIs were calculated by exponentiating the mean logarithm of the difference (qIRV group minus QIV group) and the corresponding CIs (based on the Student t distribution).|Strain: B2||1.18|0.25|
92336081|NCT05052697|184575023|OTHER||Difference in percentage of participants|26.2|||||TWO_SIDED|95.0|-4.5|53.5|||||Difference in percentage of participants achieving seroconversion, qIRV group - Licensed QIV group as reference, expressed as a percentage.|Strain: A1||53.5|-4.5|
92336082|NCT05052697|184575023|OTHER||Difference in percentage of participants|17.1|||||TWO_SIDED|95.0|-19.2|49.4|||||Difference in percentage of participants achieving seroconversion, qIRV group - Licensed QIV group as reference, expressed as a percentage.|Strain: A2||49.4|-19.2|
92336083|NCT05052697|184575023|OTHER||Difference in percentage of participants|-12.4|||||TWO_SIDED|95.0|-41.7|19.1|||||Difference in percentage of participants achieving seroconversion, qIRV group - Licensed QIV group as reference, expressed as a percentage.|Strain: B1||19.1|-41.7|
92336084|NCT05052697|184575023|OTHER||Difference in percentage of participants|1.4|||||TWO_SIDED|95.0|-29.2|32.5|||||Difference in percentage of participants achieving seroconversion, qIRV group - Licensed QIV group as reference, expressed as a percentage.|Strain: B2||32.5|-29.2|
92336085|NCT03796676|184575042|SUPERIORITY||Estimate of difference|16.7||||0.0147|TWO_SIDED|95.0|3.5|29.9|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 100 mg minus placebo|||29.9|3.5|0.0147
92336086|NCT03796676|184575042|SUPERIORITY||Estimate of difference|20.6||||0.003|TWO_SIDED|95.0|7.3|33.9|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 200 mg minus placebo|||33.9|7.3|0.0030
92336087|NCT03796676|184575043|SUPERIORITY||Estimate of difference|26.5||||0.0002|TWO_SIDED|95.0|13.1|39.8|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 100 mg minus placebo|||39.8|13.1|0.0002
92336088|NCT03796676|184575043|SUPERIORITY||Estimate of difference|29.4|||<|0.0001|TWO_SIDED|95.0|16.3|42.5|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 200 mg minus placebo|||42.5|16.3|<0.0001
92336089|NCT03796676|184575044|SUPERIORITY||Estimate of difference|14.7||||0.0119||95.0|3.5|25.9|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 2 was calculated by PF-04965842 100 mg minus placebo|||25.9|3.5|0.0119
92336090|NCT03796676|184575044|SUPERIORITY||Estimate of difference|26.1|||<|0.0001|TWO_SIDED|95.0|13.9|38.3|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 2 was calculated by PF-04965842 200 mg minus placebo|||38.3|13.9|<0.0001
92336091|NCT03796676|184575044|SUPERIORITY||Estimate of difference|10.9||||0.0971|TWO_SIDED|95.0|-1.8|23.6|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 4 was calculated by PF-04965842 100 mg minus placebo|||23.6|-1.8|0.0971
92336092|NCT03796676|184575044|SUPERIORITY||Estimate of difference|29.4|||<|0.0001|TWO_SIDED|95.0|16.0|42.9|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 4 was calculated by PF-04965842 200 mg minus placebo|||42.9|16.0|<0.0001
92336093|NCT03796676|184575044|SUPERIORITY||Estimate of difference|22.8||||0.0035|TWO_SIDED|95.0|8.0|37.7|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 100 mg minus placebo|||37.7|8.0|0.0035
92336094|NCT03796676|184575044|SUPERIORITY||Estimate of difference|25.6||||0.0013|TWO_SIDED|95.0|10.6|40.6|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 200 mg minus placebo|||40.6|10.6|0.0013
92336095|NCT03796676|184575045|SUPERIORITY||Mean Difference (Net)|-0.5||||0.0664|TWO_SIDED|95.0|-1.1|0.0|||Mixed Models Analysis||The least squares mean difference at Week 12 was calculated by PF-04965842 100 mg minus placebo|||0.0|-1.1|0.0664
92336096|NCT03796676|184575045|SUPERIORITY||Mean Difference (Net)|-0.7||||0.0142|TWO_SIDED|95.0|-1.3|-0.1|||Mixed Models Analysis||The least squares mean difference at Week 12 was calculated by PF-04965842 200 mg minus placebo|||-0.1|-1.3|0.0142
92336097|NCT02724410|184575084|OTHER|Chi Square test of independence||||||0.7188|||||||Chi-squared|||||||0.7188
92336098|NCT02724410|184575085|OTHER|Chi Square test of independence||||||0.5933|||||||Chi-squared|||||||.5933
92336099|NCT02724410|184575086|OTHER|Chi Square test of independence|||||>|0.99|||||||Chi-squared|||||||>.99
92336100|NCT02724410|184575087|OTHER|T-test for difference between groups|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<.0001
92336101|NCT04679948|184575137|OTHER||Ratio of GLSMs [%]|112.06|||||TWO_SIDED|90.0|101.02|124.3|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + caffeine/GLSM of caffeine). Intra-individual geometric coefficient of variation (gCV \[%\]) =16.2."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||124.30|101.02|
92336102|NCT04679948|184575138|OTHER||Ratio of GLSMs [%]|96.74|||||TWO_SIDED|90.0|91.55|102.23|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + caffeine/GLSM of caffeine). Intra-individual geometric coefficient of variation (gCV \[%\]) = 8.6."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||102.23|91.55|
92336103|NCT04679948|184575139|OTHER||Ratio of GLSMs [%]|110.38|||||TWO_SIDED|90.0|107.15|113.71|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + warfarin/GLSM of Warfarin). Intra-individual geometric coefficient of variation (gCV \[%\]) =4.8."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||113.71|107.15|
92336104|NCT04679948|184575140|OTHER||Ratio of GLSMs [%]|108.47|||||TWO_SIDED|90.0|104.11|113.01|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + warfarin/GLSM of Warfarin). Intra-individual geometric coefficient of variation (gCV \[%\]) = 6.6."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||113.01|104.11|
92336105|NCT04679948|184575141|OTHER||Ratio of GLSM [%]|99.74|||||TWO_SIDED|90.0|89.66|110.95|||||"Ratio of Geometric Least Squares Means (GLSM) was calculated as (GLSM of BI 730357 + omeprazole/GLSM of Omeprazole). Intra-individual geometric coefficient of variation (gCV \[%\]) =12.3."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||110.95|89.66|
92336106|NCT04679948|184575142|OTHER||Ratio of GLSMs [%]|71.32|||||TWO_SIDED|90.0|44.64|113.96|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + omeprazole/GLSM of Omeprazole). Intra-individual geometric coefficient of variation (gCV \[%\]) =87.8."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||113.96|44.64|
92336107|NCT04679948|184575143|OTHER||Ratio of GLSMs [%]|126.85|||||TWO_SIDED|90.0|119.15|135.05|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + midazolam/GLSM of Midazolam). Intra-individual geometric coefficient of variation (gCV \[%\]) =10.1."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||135.05|119.15|
92336108|NCT04679948|184575144|OTHER||Ratio of GLSMs [%]|130.25|||||TWO_SIDED|90.0|121.25|139.92|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + midazolam/GLSM of Midazolam). Intra-individual geometric coefficient of variation (gCV \[%\]) =11.6."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||139.92|121.25|
92336109|NCT02636439|184575145|SUPERIORITY||Mean Difference (Final Values)|44.0||||0.21|TWO_SIDED|95.0|-25.0|112.0|||ANCOVA|adjusted for baseline value, age, and sex.||||112|-25|0.21
92336110|NCT02636439|184575146|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.86|TWO_SIDED|95.0|-1.0|0.8|||ANCOVA|Adjusted for baseline value, age, and sex.||||0.8|-1.0|0.86
92336111|NCT02636439|184575147|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.77|TWO_SIDED|95.0|-2.8|3.8|||ANCOVA|Adjusted for baseline value, age, and sex.||||3.8|-2.8|0.77
92336112|NCT02636439|184575148|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.85|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|Adjusted for baseline value, age, and sex.||||0.2|-0.3|0.85
92336113|NCT02636439|184575149|SUPERIORITY||Mean Difference (Final Values)|6.4||||0.053|TWO_SIDED|95.0|-0.1|12.9|||ANCOVA|Adjusted for baseline value, age, and sex.||||12.9|-0.1|0.053
92336114|NCT02636439|184575150|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.043|TWO_SIDED|95.0|0.0|0.13|||ANCOVA|Adjusted for baseline value, age, and sex.||||0.13|0.00|0.043
92336115|NCT02636439|184575151|SUPERIORITY||Mean Difference (Final Values)|-5.0||||0.07|TWO_SIDED|95.0|-10.0|0.0|||ANCOVA|Adjusted for baseline value, age, and sex.||||0|-10|0.07
92336116|NCT02636439|184575152|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.79|TWO_SIDED|95.0|-4.4|3.3|||ANCOVA|Adjusted for baseline value, age, and sex.||||3.3|-4.4|0.79
92336117|NCT02494401|184575155|SUPERIORITY|||||||0.87||||||p value of baseline comparison.|Wilcoxon (Mann-Whitney)|||||||0.87
92336118|NCT02494401|184575155|SUPERIORITY|||||||0.32||||||p value for 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.32
92336119|NCT02494401|184575155|SUPERIORITY|||||||0.3||||||p value for 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.3
92336120|NCT02494401|184575156|SUPERIORITY|||||||0.08||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.08
92336121|NCT02494401|184575156|SUPERIORITY|||||||0.05||||||p value 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.05
92336122|NCT02494401|184575156|SUPERIORITY|||||||0.008||||||p value 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.008
92336123|NCT02494401|184575157|SUPERIORITY|||||||0.68||||||p value baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.68
92336124|NCT02494401|184575157|SUPERIORITY|||||||0.83||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.83
92336125|NCT02494401|184575157|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.23
92336126|NCT02494401|184575158|SUPERIORITY|||||||0.96||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.96
92336127|NCT02494401|184575158|SUPERIORITY|||||||0.69||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.69
92336128|NCT02494401|184575158|SUPERIORITY|||||||0.6||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.6
92336129|NCT02494401|184575159|SUPERIORITY|||||||0.89||||||p value baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.89
92336130|NCT02494401|184575159|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92396331|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.0967|TWO_SIDED|95.0|-0.7|0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||0.06|-0.70|0.0967
92336131|NCT02494401|184575159|SUPERIORITY|||||||0.56||||||p value for 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.56
92336132|NCT02494401|184575160|SUPERIORITY|||||||0.69||||||p value for baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.69
92336133|NCT02494401|184575160|SUPERIORITY|||||||0.29||||||p value for 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.29
92336134|NCT02494401|184575160|SUPERIORITY|||||||0.07||||||p value for 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.07
92336135|NCT02494401|184575161|SUPERIORITY|||||||0.28||||||p value for baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.28
92336136|NCT02494401|184575161|SUPERIORITY|||||||0.16||||||p value for 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.16
92336137|NCT02494401|184575161|SUPERIORITY|||||||0.23||||||p value for 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.23
92336138|NCT02494401|184575162|SUPERIORITY|||||||0.93||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.93
92336139|NCT02494401|184575162|SUPERIORITY|||||||0.54||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.54
92336140|NCT02494401|184575162|SUPERIORITY|||||||0.33||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.33
92336141|NCT02494401|184575163|SUPERIORITY|||||||0.59||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.59
92336142|NCT02494401|184575163|SUPERIORITY|||||||0.25||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.25
92336143|NCT02494401|184575163|SUPERIORITY|||||||0.12||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.12
92336144|NCT02494401|184575164|SUPERIORITY|||||||0.51||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.51
92336145|NCT02494401|184575164|SUPERIORITY|||||||0.93||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.93
92336146|NCT02494401|184575164|SUPERIORITY|||||||0.84||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.84
92336147|NCT02494401|184575165|SUPERIORITY|||||||0.83||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.83
92336148|NCT02494401|184575165|SUPERIORITY|||||||0.27||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.27
92336149|NCT02494401|184575165|SUPERIORITY|||||||0.18||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.18
92336150|NCT02494401|184575166|SUPERIORITY|||||||0.64||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.64
92336151|NCT02494401|184575166|SUPERIORITY|||||||0.8||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.8
92336152|NCT02494401|184575166|SUPERIORITY|||||||0.09||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.09
92336153|NCT02494401|184575167|SUPERIORITY|||||||0.73||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.73
92336154|NCT02494401|184575167|SUPERIORITY|||||||0.82||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.82
92336155|NCT02494401|184575167|SUPERIORITY|||||||0.04||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.04
92336156|NCT02494401|184575168|SUPERIORITY|||||||0.95||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.95
92336157|NCT02494401|184575168|SUPERIORITY|||||||0.87||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.87
92336158|NCT02494401|184575168|SUPERIORITY|||||||0.63||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.63
92336159|NCT02494401|184575169|SUPERIORITY|||||||0.05||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.05
92336160|NCT02494401|184575169|SUPERIORITY|||||||0.62||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.62
92336161|NCT02494401|184575169|SUPERIORITY|||||||0.7||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.7
92336162|NCT02494401|184575170|SUPERIORITY|||||||0.29||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.29
92336163|NCT02494401|184575170|SUPERIORITY|||||||0.58||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.58
92336164|NCT02494401|184575170|SUPERIORITY|||||||0.49||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.49
92336165|NCT02494401|184575171|SUPERIORITY|||||||0.87||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.87
92336166|NCT02494401|184575171|SUPERIORITY|||||||0.89||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.89
92336167|NCT02494401|184575171|SUPERIORITY|||||||0.82||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.82
92336168|NCT00802672|184575212|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For the primary efficacy analysis, a 90% confidence interval was constructed for the difference in the Therapeutic Success rates between the Test Product and Reference Product at Visit 4/Week 6 (Follow-Up). The interval was calculated using Wald's method with Yates' continuity correction. Therapeutic equivalence (bioequivalence) was established if this 90% confidence interval was contained within the interval -0.20 to +0.20 (-0.20% to +0.20%)|Mean Difference (Final Values)|1.0|||||TWO_SIDED|90.0|-17.61|2.45|||Wald's method with Yates' continuity|||||2.45|-17.61|
92336169|NCT03173456|184575276|SUPERIORITY|||||||0.69||||||A priori threshold for statistical significance was 0.05. The plan was to only do individual comparisons between means if the overall test of the analysis of variance (AVOVA) was statistically significant|ANOVA|||The null hypothesis is that all means are equal. The alternate hypothesis is that one or more mean is less than or more than another.||||0.69
92336170|NCT03173456|184575277|SUPERIORITY|||||||0.85||||||Threshold for statistical significance was 0.05. The plan was to only compare means if the overall test of AVOVA was statistically significant.|ANOVA|||||||0.85
92336171|NCT03173456|184575278|SUPERIORITY|||||||0.99||||||Threshold for statistical significance = 0.05|Chi-squared|||||||0.99
92336172|NCT03173456|184575280|SUPERIORITY|||||||0.46|||||||Chi-squared|||||||0.46
92210822|NCT04677179|184322616|SUPERIORITY||Odds Ratio (OR)|0.78||||0.759|TWO_SIDED|95.0|0.17|3.64|||Cochran-Mantel-Haenszel|||||3.64|0.17|0.759
92336173|NCT03173456|184575281|SUPERIORITY|||||||0.0501||||||0.05 was the a priori threshold for statistical significance|Chi-squared|||||||0.0501
92336174|NCT01733121|184575282|OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|95.0|-4.5|-1.6|||ANCOVA|||||-1.6|-4.5|<.0001
92336175|NCT01733121|184575283|OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||ANOVA|||||-0.4|-1.2|<0.0001
92336176|NCT01733121|184575284|OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|0.7||0.0005|TWO_SIDED|95.0|-3.7|-1.1|||ANCOVA|||||-1.1|-3.7|0.0005
92336177|NCT01733121|184575285|OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.2|-0.5|||ANOVA|||||-0.5|-1.2|<.0001
92336178|NCT05446142|184575305|OTHER||Reference/Test Ratio|95.25|||||TWO_SIDED|90.0|90.82|99.9||||||Natural log transformed encorafenib AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||99.90|90.82|
92336179|NCT05446142|184575305|OTHER||Reference/Test Ratio|96.3|||||TWO_SIDED|90.0|91.71|101.12||||||Natural log transformed encorafenib AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||101.12|91.71|
92336180|NCT05446142|184575305|OTHER||Reference/Test Ratio|96.57|||||TWO_SIDED|90.0|82.91|112.47||||||Natural log transformed encorafenib AUCinf was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to eMCC with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to eMCC with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||112.47|82.91|
92396332|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0063|TWO_SIDED|95.0|-0.9|-0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.15|-0.90|0.0063
92336181|NCT05446142|184575305|OTHER||Reference/Test Ratio|88.56|||||TWO_SIDED|90.0|82.59|94.95||||||Natural log transformed encorafenib AUCinf was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to eMCCL with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to eMCCL with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||94.95|82.59|
92210823|NCT04677179|184322617|SUPERIORITY||Odds Ratio (OR)|0.18||||0.163|TWO_SIDED|95.0|0.02|1.93|||Cochran-Mantel-Haenszel|||||1.93|0.02|0.163
92336182|NCT05446142|184575306|OTHER||Reference/Test Ratio|104.31|||||TWO_SIDED|90.0|91.4|119.04||||||Natural log transformed encorafenib Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||119.04|91.40|
92336183|NCT05446142|184575306|OTHER||Reference/Test Ratio|90.35|||||TWO_SIDED|90.0|79.17|103.12||||||Natural log transformed encorafenib Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||103.12|79.17|
92336184|NCT05446142|184575306|OTHER||Reference/Test Ratio|79.66|||||TWO_SIDED|90.0|58.7|108.08||||||Natural log transformed encorafenib Cmax was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to eMCC with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to eMCC with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||108.08|58.70|
92336185|NCT05446142|184575306|OTHER||Reference/Test Ratio|80.78|||||TWO_SIDED|90.0|64.82|100.68||||||Natural log transformed encorafenib Cmax was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to eMCCL with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to eMCCL with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||100.68|64.82|
92336186|NCT05446142|184575307|OTHER||Reference/Test Ratio|95.34|||||TWO_SIDED|90.0|90.37|100.59||||||Natural log transformed encorafenib AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||100.59|90.37|
92336187|NCT05446142|184575307|OTHER||Reference/Test Ratio|94.67|||||TWO_SIDED|90.0|89.73|99.88||||||Natural log transformed encorafenib AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||99.88|89.73|
92336188|NCT05446142|184575307|OTHER||Reference/Test Ratio|95.76|||||TWO_SIDED|90.0|84.1|109.04||||||Natural log transformed encorafenib AUClast was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to eMCC with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to eMCC with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||109.04|84.10|
92336189|NCT05446142|184575307|OTHER||Reference/Test Ratio|88.31|||||TWO_SIDED|90.0|82.36|94.7||||||Natural log transformed encorafenib AUClast was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to eMCCL with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to eMCCL with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||94.70|82.36|
92336190|NCT00547157|184575319|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.09|||||TWO_SIDED|95.0|-0.26|0.07|||||difference is PRT - CRT|||0.07|-0.26|
92336191|NCT00547157|184575320|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.613||||0.0601|TWO_SIDED|95.0|0.98|2.656|||Regression, Cox||Hazard ratio is presented as panitumumab plus radiotherapy:chemoradiotherapy.|||2.656|0.980|0.0601
92336192|NCT00547157|184575321|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.731||||0.0259|TWO_SIDED|95.0|1.068|2.806|||Regression, Cox||Hazard ratio is presented as panitumumab plus radiotherapy:chemoradiotherapy.|||2.806|1.068|0.0259
92336193|NCT00547157|184575322|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.593||||0.1039|TWO_SIDED|95.0|0.909|2.793|||Regression, Cox||Hazard ratio is presented as panitumumab plus radiotherapy:chemoradiotherapy|||2.793|0.909|0.1039
92336194|NCT00547157|184575323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.791||||0.5744|TWO_SIDED|95.0|0.342|1.785|||Regression, Logistic||The odd ratio is defined as the odds of having an objective response in the panitumumab plus radiotherapy arm relative to the odds in the chemoradiotherapy arm.|||1.785|0.342|0.5744
92336195|NCT00547157|184575323|SUPERIORITY_OR_OTHER||Difference in objective response rate|-0.044|||||TWO_SIDED|95.0|-0.187|0.112|||||Difference is objective response rate in the panitumumab plus radiotherapy arm minus the rate in the chemoradiotherapy arm.|||0.112|-0.187|
92336196|NCT00547157|184575324|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.278||||0.807|TWO_SIDED|95.0|0.438|4.043|||Regression, Logistic||The odd ratio is defined as the odds of having an objective response in the panitumumab plus radiotherapy arm relative to the odds in the chemoradiotherapy arm.|||4.043|0.438|0.8070
92210824|NCT04677179|184322617|SUPERIORITY||Odds Ratio (OR)|0.54||||0.439|TWO_SIDED|95.0|0.11|2.77|||Cochran-Mantel-Haenszel|||||2.77|0.11|0.439
92396333|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.13|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.38|-1.13|<0.0001
92396334|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0632|TWO_SIDED|95.0|-0.75|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||0.02|-0.75|0.0632
92210825|NCT04677179|184322618|SUPERIORITY||Odds Ratio (OR)|1.29||||0.821|TWO_SIDED|95.0|0.17|9.88|||Cochran-Mantel-Haenszel|||||9.88|0.17|0.821
92210826|NCT04677179|184322618|SUPERIORITY||Odds Ratio (OR)|1.43||||0.572|TWO_SIDED|95.0|0.37|5.49|||Cochran-Mantel-Haenszel|||||5.49|0.37|0.572
92210827|NCT04677179|184322619|SUPERIORITY||Odds Ratio (OR)|1.18||||0.886|TWO_SIDED|95.0|0.14|10.16|||Cochran-Mantel-Haenszel|||||10.16|0.14|0.886
92210828|NCT04677179|184322619|SUPERIORITY||Odds Ratio (OR)|0.78||||0.784|TWO_SIDED|95.0|0.14|4.18|||Cochran-Mantel-Haenszel|||||4.18|0.14|0.784
92336197|NCT00547157|184575324|SUPERIORITY_OR_OTHER||Difference in complete response rate|0.029|||||TWO_SIDED|95.0|-0.103|0.141|||||Difference is objective response rate in the panitumumab plus radiotherapy arm minus the rate in the chemoradiotherapy arm.|||0.141|-0.103|
92336198|NCT01151345|184575329|SUPERIORITY_OR_OTHER||Adjusted geometric means ratio|88.65|||||TWO_SIDED|90.0|81.23|96.75||||||Natural-log transformed AUC (0-t) was analyzed using a mixed effect model with sequence, period, and treatment as fixed effects and participant within sequence as a random effect.||96.75|81.23|
92336199|NCT01151345|184575330|SUPERIORITY_OR_OTHER||Adjusted geometric means ratio|91.26|||||TWO_SIDED|90.0|83.83|99.34||||||Natural-log transformed AUC (0-∞) was analyzed using a mixed effect model with sequence, period, and treatment as fixed effects and participant within sequence as a random effect.||99.34|83.83|
92336200|NCT01151345|184575331|SUPERIORITY_OR_OTHER||Adjusted geometric means ratio|83.25|||||TWO_SIDED|90.0|67.08|103.31||||||Natural-log transformed Cmax was analyzed using a mixed effect model with sequence, period, and treatment as fixed effects and participant within sequence as a random effect.||103.31|67.08|
92336201|NCT03883477|184575342|OTHER|The trial was powered to detect a difference in POSAS score of 10, deemed to be clinically significant by the investigators. To detect a mean difference in POSAS score of 10 points (SD = 8) with a two-sided significance level of 5% and power of 80% with equal allocation to two arms required 12 patients in each arm of the trial.||||||0.013||||||1 week P-value|Wilcoxon (Mann-Whitney)|||||||0.013
92336202|NCT03883477|184575342|OTHER|||||||0.007||||||1 month P-value|Wilcoxon (Mann-Whitney)|||The trial was powered to detect a difference in POSAS score of 10, deemed to be clinically significant by the investigators. To detect a mean difference in POSAS score of 10 points (SD = 8) with a two-sided significance level of 5% and power of 80% with equal allocation to two arms required 12 patients in each arm of the trial.||||0.007
92336203|NCT03883477|184575342|OTHER|||||||0.804||||||6 month P-value|Wilcoxon (Mann-Whitney)|||The trial was powered to detect a difference in POSAS score of 10, deemed to be clinically significant by the investigators. To detect a mean difference in POSAS score of 10 points (SD = 8) with a two-sided significance level of 5% and power of 80% with equal allocation to two arms required 12 patients in each arm of the trial.||||0.804
92336204|NCT03883477|184575343|OTHER|||||||0.142|||||||Wilcoxon (Mann-Whitney)|||||||0.142
92336205|NCT03883477|184575344|OTHER|||||||0.561|||||||Wilcoxon (Mann-Whitney)|||||||0.561
92336206|NCT03883477|184575345|OTHER|||||||0.748|||||||Wilcoxon (Mann-Whitney)|||||||0.748
92336207|NCT03883477|184575346|OTHER|||||||0.184|||||||Wilcoxon (Mann-Whitney)|||||||0.184
92336208|NCT03883477|184575347|OTHER|||||||0.382|||||||Chi-squared|||||||0.382
92336209|NCT03883477|184575348|OTHER|||||||0.382|||||||Chi-squared|||||||0.382
92336210|NCT02432209|184575365|SUPERIORITY||Risk Ratio (RR)|0.81||||0.404|TWO_SIDED|95.0|0.48|1.34|||Chi-squared|||||1.34|0.48|0.404
92336211|NCT01087203|184575375|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) mean difference|-1.22|STANDARD_ERROR_OF_MEAN|0.53||0.025|TWO_SIDED|95.0|-2.28|-0.16|||ANCOVA|||Analysis of Covariance (ANCOVA) model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||-0.16|-2.28|0.025
92336212|NCT01087203|184575376|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.332|TWO_SIDED|95.0|-0.92|0.32|||ANCOVA|||Week 1: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||0.32|-0.92|0.332
92336213|NCT01087203|184575376|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.38||0.297|TWO_SIDED|95.0|-1.15|0.36|||ANCOVA|||Week 2: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||0.36|-1.15|0.297
92336214|NCT01087203|184575376|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.95|STANDARD_ERROR_OF_MEAN|0.42||0.029|TWO_SIDED|95.0|-1.81|-0.1|||ANCOVA|||Week 4: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||-0.10|-1.81|0.029
92336215|NCT01087203|184575376|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.24|STANDARD_ERROR_OF_MEAN|0.46||0.01|TWO_SIDED|95.0|-2.17|-0.3|||ANCOVA|||Week 6: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||-0.30|-2.17|0.010
92336216|NCT01087203|184575376|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.32|STANDARD_ERROR_OF_MEAN|0.49||0.009|TWO_SIDED|95.0|-2.3|-0.34|||ANCOVA|||Week 8: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||-0.34|-2.30|0.009
92336217|NCT01087203|184575376|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.31|STANDARD_ERROR_OF_MEAN|0.52||0.015|TWO_SIDED|95.0|-2.36|-0.27|||ANCOVA|||Week 12: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||-0.27|-2.36|0.015
92336218|NCT00305565|184575437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.34||||0.803|TWO_SIDED|95.0|-2.34|3.02|||Mixed Models Analysis|||The primary analysis consisted of contrasts comparing High Dose vs. Low Dose and Medium Dose vs. Low Dose averaged over the 4 Acute Phase visits using the Hochberg approach to adjust for multiplicity. If both comparisons involving the Low Dose were significant, then a test of High Dose vs. Medium Dose was evaluated at the P≤0.05 level. The pivotal analysis was performed on the ITT population using the last-observation-carried-forward (LOCF) approach to impute missing data.||3.02|-2.34|0.803
92336219|NCT00305565|184575437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33||||0.813|TWO_SIDED|95.0|-2.39|3.05|||Mixed Models Analysis|||The primary analysis consisted of contrasts comparing High Dose vs. Low Dose and Medium Dose vs. Low Dose averaged over the 4 Acute Phase visits using the Hochberg approach to adjust for multiplicity. If both comparisons involving the Low Dose were significant, then a test of High Dose vs. Medium Dose was evaluated at the P≤0.05 level. The pivotal analysis was performed on the ITT population using the last-observation-carried-forward (LOCF) approach to impute missing data.||3.05|-2.39|0.813
92336220|NCT03790865|184575508|SUPERIORITY||Mean Difference (Net)|4.0|||<|0.025|TWO_SIDED||||||Mixed Models Analysis|||||||<0.025
92336221|NCT00502853|184575512|SUPERIORITY_OR_OTHER|||||||0.1776|||||||Student's t-test|||Change from Baseline to Week 4||||0.1776
92336222|NCT00502853|184575512|SUPERIORITY_OR_OTHER|||||||0.1215|||||||Student's t-test|||Change from Baseline to Week 24||||0.1215
92336223|NCT00502853|184575512|SUPERIORITY_OR_OTHER||Slope|-0.1606|STANDARD_ERROR_OF_MEAN|0.1231||0.2246|||||||Random coefficient model|||Trend over time||||0.2246
92336224|NCT00502853|184575513|SUPERIORITY_OR_OTHER|||||||0.8989|||||||Student's t-test|||Change from Baseline to Week 4||||0.8989
92336225|NCT00502853|184575513|SUPERIORITY_OR_OTHER|||||||0.8834|||||||Student's t-test|||Change from Baseline to Week 24||||0.8834
92336226|NCT00502853|184575513|SUPERIORITY_OR_OTHER||Slope|0.1357|STANDARD_ERROR_OF_MEAN|0.9051||0.8841|||||||Random coefficient model|||Trend over time||||0.8841
92336227|NCT00502853|184575514|SUPERIORITY_OR_OTHER|||||||0.5911|||||||Student's t-test|||Change from Baseline to Week 4||||0.5911
92336228|NCT00502853|184575514|SUPERIORITY_OR_OTHER|||||||0.1475|||||||Student's t-test|||Change from Baseline to Week 24||||0.1475
92336229|NCT00502853|184575514|SUPERIORITY_OR_OTHER||Slope|0.1786|STANDARD_ERROR_OF_MEAN|0.1123||0.1463|||||||Random coefficient model|||Trend over time||||0.1463
92336230|NCT00502853|184575515|SUPERIORITY_OR_OTHER|||||||0.1101|||||||Student's t-test|||Change from Baseline at Week 4||||0.1101
92336231|NCT00502853|184575515|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Student's t-test|||Change from Baseline at Week 12||||0.0003
92336232|NCT00502853|184575515|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Student's t-test|||Change from Baseline at Week 24||||0.0018
92336233|NCT00502853|184575515|SUPERIORITY_OR_OTHER||Slope|-2.0857|STANDARD_ERROR_OF_MEAN|0.4965||0.0023|||||||Random coefficient model|||Trend over time||||0.0023
92336234|NCT00502853|184575516|SUPERIORITY_OR_OTHER|||||||0.3358|||||||Student's t-test|||Change from Baseline at Week 4||||0.3358
92336235|NCT00502853|184575516|SUPERIORITY_OR_OTHER|||||||0.9158|||||||Student's t-test|||Change from Baseline at Week 24||||0.9158
92396335|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.002|TWO_SIDED|95.0|-1.0|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.23|-1.00|0.0020
92210829|NCT04677179|184322620|SUPERIORITY||Odds Ratio (OR)|0.37||||0.331|TWO_SIDED|95.0|0.06|2.43|||Cochran-Mantel-Haenszel|||||2.43|0.06|0.331
92336236|NCT00502853|184575516|SUPERIORITY_OR_OTHER||Slope|0.003418|STANDARD_ERROR_OF_MEAN|0.02345||0.8877|||||||Random coefficient model|||Trend over time||||0.8877
92336237|NCT00502853|184575517|SUPERIORITY_OR_OTHER|||||||0.7624|||||||Student's t-test|||Change from Baseline at Week 4||||0.7624
92336238|NCT00502853|184575517|SUPERIORITY_OR_OTHER|||||||0.0212|||||||Student's t-test|||Change from Baseline at Week 24||||0.0212
92336239|NCT00502853|184575517|SUPERIORITY_OR_OTHER||Slope|-4.2681|STANDARD_ERROR_OF_MEAN|2.0529||0.0712|||||||Random coefficient model|||Trend over time||||0.0712
92336240|NCT00502853|184575518|SUPERIORITY_OR_OTHER|||||||0.024|||||||Student's t-test|||Change from Baseline at Week 4||||0.0240
92336241|NCT00502853|184575518|SUPERIORITY_OR_OTHER|||||||0.0045|||||||Student's t-test|||Change from Baseline at Week 12||||0.0045
92336242|NCT00502853|184575518|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Student's t-test|||Change from Baseline at Week 24||||0.0018
92336243|NCT00502853|184575518|SUPERIORITY_OR_OTHER||Slope|-0.1964|STANDARD_ERROR_OF_MEAN|0.04524||0.0019|||||||Random Coefficient Model|||Trend over time||||0.0019
92336244|NCT00502853|184575519|SUPERIORITY_OR_OTHER||Slope|-6.6294|STANDARD_ERROR_OF_MEAN|1.8623||0.0074|||||||Random Coefficient Model|||Trend over time||||0.0074
92336245|NCT00502853|184575519|SUPERIORITY_OR_OTHER|||||||0.1273|||||||Student's t-test|||Change from Baseline at Week 4||||0.1273
92396336|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.29|-0.51||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.51|-1.29|<0.0001
92210830|NCT04677179|184322620|SUPERIORITY||Odds Ratio (OR)|0.51||||0.407|TWO_SIDED|95.0|0.1|2.52|||Cochran-Mantel-Haenszel|||||2.52|0.10|0.407
92336246|NCT00502853|184575519|SUPERIORITY_OR_OTHER|||||||0.0132|||||||Student's t-test|||Change from Baseline at Week 12||||0.0132
92336247|NCT00502853|184575519|SUPERIORITY_OR_OTHER|||||||0.1542|||||||Student's t-test|||Change from Baseline at Week 24||||0.1542
92336248|NCT00502853|184575520|SUPERIORITY_OR_OTHER|||||||0.1396|||||||Student's t-test|||Change from Baseline at Week 4||||0.1396
92336249|NCT00502853|184575520|SUPERIORITY_OR_OTHER|||||||0.005|||||||Student's t-test|||Change from Baseline at Week 12||||0.0050
92336250|NCT00502853|184575520|SUPERIORITY_OR_OTHER|||||||0.005|||||||Student's t-test|||Change from Baseline at Week 24||||0.0050
92336251|NCT00502853|184575520|SUPERIORITY_OR_OTHER||Slope|-0.2902|STANDARD_ERROR_OF_MEAN|0.07966||0.0054|||||||Random coefficient model|||Trend over time||||0.0054
92336252|NCT00502853|184575521|SUPERIORITY_OR_OTHER|||||||0.0254|||||||Student's t-test|||Change from Baseline at Week 4||||0.0254
92336253|NCT00502853|184575521|SUPERIORITY_OR_OTHER|||||||0.0384|||||||Student's t-test|||Change from Baseline at Week 12||||0.0384
92336254|NCT00502853|184575521|SUPERIORITY_OR_OTHER|||||||0.0271|||||||Student's t-test|||Change from Baseline at Week 24||||0.0271
92336255|NCT00502853|184575521|SUPERIORITY_OR_OTHER||Slope|-4.7586|STANDARD_ERROR_OF_MEAN|1.5278||0.0124|||||||Random coefficient model|||Trend over time||||0.0124
92336256|NCT00502853|184575522|SUPERIORITY_OR_OTHER|||||||0.7376|||||||Student's t-test|||Change from Baseline at Week 4||||0.7376
92336257|NCT00502853|184575522|SUPERIORITY_OR_OTHER|||||||0.1631|||||||Student's t-test|||Change from Baseline at Week 12||||0.1631
92336258|NCT00502853|184575522|SUPERIORITY_OR_OTHER|||||||0.8816|||||||Student's t-test|||Change from Baseline at Week 24||||0.8816
92336259|NCT00502853|184575522|SUPERIORITY_OR_OTHER||Slope|-0.2927|STANDARD_ERROR_OF_MEAN|1.9408||0.8835|||||||Random coefficient model|||Trend over time||||0.8835
92336260|NCT00502853|184575523|SUPERIORITY_OR_OTHER|||||||0.1312|||||||Student's t-test|||Change from Baseline at Week 4||||0.1312
92336261|NCT00502853|184575523|SUPERIORITY_OR_OTHER|||||||0.0662|||||||Student's t-test|||Change from Baseline at Week 12||||0.0662
92336262|NCT00502853|184575523|SUPERIORITY_OR_OTHER|||||||0.4133|||||||Student's t-test|||Change from Baseline at Week 24||||0.4133
92336263|NCT00502853|184575523|SUPERIORITY_OR_OTHER||Slope|8.8196|STANDARD_ERROR_OF_MEAN|16.4534||0.6049|||||||Random coefficient model|||Trend over time||||0.6049
92336264|NCT00502853|184575524|SUPERIORITY_OR_OTHER|||||||0.1725|||||||Student's t-test|||Change from Baseline at Week 4||||0.1725
92336265|NCT00502853|184575524|SUPERIORITY_OR_OTHER|||||||0.0832|||||||Student's t-test|||Change from Baseline at Week 12||||0.0832
92336266|NCT00502853|184575524|SUPERIORITY_OR_OTHER|||||||0.1685|||||||Student's t-test|||Change from Baseline at Week 24||||0.1685
92336267|NCT00502853|184575524|SUPERIORITY_OR_OTHER||Slope|-55.4458|STANDARD_ERROR_OF_MEAN|33.5821||0.1331|||||||Random coefficient model|||Trend over time||||0.1331
92336268|NCT00502853|184575525|SUPERIORITY_OR_OTHER|||||||0.2938|||||||Student's t-test|||Change from Baseline at Week 4||||0.2938
92336269|NCT00502853|184575525|SUPERIORITY_OR_OTHER|||||||0.2216|||||||Student's t-test|||Change from Baseline at Week 12||||0.2216
92336270|NCT00502853|184575525|SUPERIORITY_OR_OTHER|||||||0.567|TWO_SIDED||||||Student's t-test|||Change from Baseline at Week 24||||0.5670
92336271|NCT00502853|184575526|SUPERIORITY_OR_OTHER|||||||0.0934|||||||Student's t-test|||Change from Baseline at Week 4||||0.0934
92336272|NCT00502853|184575526|SUPERIORITY_OR_OTHER|||||||0.4047|||||||Student's t-test|||Change from Baseline at Week 12||||0.4047
92336273|NCT00502853|184575526|SUPERIORITY_OR_OTHER|||||||0.2101|||||||Student's t-test|||Change from Baseline at Week 24||||0.2101
92336274|NCT00502853|184575526|SUPERIORITY_OR_OTHER||Slope|0.3997|STANDARD_ERROR_OF_MEAN|0.2506||0.1451|||||||Random coefficient model|||Trend over time||||0.1451
92336275|NCT00502853|184575527|SUPERIORITY_OR_OTHER|||||||0.4963|||||||Student's t-test|||Change from Baseline at Week 4||||0.4963
92336276|NCT00502853|184575527|SUPERIORITY_OR_OTHER|||||||0.2198|||||||Student's t-test|||Change from Baseline at Week 12||||0.2198
92336277|NCT00502853|184575527|SUPERIORITY_OR_OTHER|||||||0.6773|||||||Student's t-test|||Change from Baseline at Week 24||||0.6773
92336278|NCT00502853|184575527|SUPERIORITY_OR_OTHER||Slope|0.3688|STANDARD_ERROR_OF_MEAN|0.5987||0.5531|||||||Random coefficient model|||Trend over time||||0.5531
92336279|NCT00502853|184575528|SUPERIORITY_OR_OTHER|||||||0.5002|||||||Student's t-test|||Change from Baseline at Week 24||||0.5002
92396337|NCT03192176|184689393|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.48|-0.69||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.69|-1.48|<0.0001
92336280|NCT00502853|184575529|SUPERIORITY_OR_OTHER|||||||1|||||||Student's t-test|||Change from Baseline at Week 24||||1.0000
92336281|NCT00502853|184575530|SUPERIORITY_OR_OTHER|||||||0.7002|||||||Student's t-test|||Change from Baseline at Week 24||||0.7002
92336282|NCT00502853|184575531|SUPERIORITY_OR_OTHER|||||||0.3132|||||||Student's t-test|||Change from Baseline at Week 24||||0.3132
92336283|NCT00502853|184575532|SUPERIORITY_OR_OTHER|||||||0.8597|||||||Student's t-test|||Change from Baseline at Week 24||||0.8597
92336284|NCT00502853|184575533|SUPERIORITY_OR_OTHER|||||||0.3617|||||||Student's t-test|||Change from Baseline at Week 24||||0.3617
92336285|NCT03162328|184575561|SUPERIORITY|||||||0.363|||||||Wilcoxon Signed Ranks Test|||||||0.363
92336286|NCT03162328|184575562|SUPERIORITY|||||||0.291|||||||Wilcoxon Signed Ranks Test|||||||0.291
92336287|NCT01990768|184575574|SUPERIORITY||Odds Ratio (OR)|0.87||||0.1809|ONE_SIDED|||||Based on an interim futility analysis, a one-sided P-value less than .1028 was required to declare benefit.|Regression, Logistic|Analysis was adjusted for regional site. Missing outcomes were multiply imputed.|Odds ratio for unfavorable GOS-E (\<=4) for the Combined TXA Arms (numerator) vs. Placebo (denominator)|This study was designed with an asymmetric boundary for tests for treatment harm and benefit. The conventional 0.025 level was used to test for harm while a 0.1 level was used to determine benefit for this Phase II trial. Statistical significance for the primary analysis was conducted under a group-sequential design that included a single, interim futility analysis using a Wang-Tsiatis boundary with parameter 0.8 based on outcome data from the first 200 subjects.||||.1809
92336288|NCT03479944|184575599|SUPERIORITY||Least Squares Mean Difference|-1.505|||<|0.0001|TWO_SIDED|95.0|-1.72|-1.289|||t-test based on MMRM|MMRM: Mixed Model for Repeated Measures|Least Squares Mean Difference from a Mixed Model for Repeated Measures|||-1.289|-1.720|<0.0001
92336289|NCT03479944|184575600|SUPERIORITY||Least Squares Mean Difference|1.2||||0.2602|TWO_SIDED|95.0|-0.9|3.3|||t-test based on MMRM|MMRM: Mixed Model for Repeated Measures|Least Squares Mean Difference from a Mixed Model for Repeated Measures|||3.3|-0.9|0.2602
92336290|NCT03479944|184575601|SUPERIORITY||Least Squares Mean Difference|-11.52|||||TWO_SIDED|95.0|-15.87|-7.18|||||Least Squares Mean Difference from a Mixed Model for Repeated Measures|||-7.18|-15.87|
92336291|NCT02029274|184575602|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.551|STANDARD_ERROR_OF_MEAN|11.5519||0.9621|TWO_SIDED|95.0|-22.447|23.549|||Repeated measures analysis|||||23.549|-22.447|0.9621
92336292|NCT02029274|184575602|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-15.368|STANDARD_ERROR_OF_MEAN|10.9297||0.1637|TWO_SIDED|95.0|-37.128|6.391|||Repeated measures analysis|||||6.391|-37.128|0.1637
92336293|NCT02029274|184575602|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-13.709|STANDARD_ERROR_OF_MEAN|11.6016||0.2409|TWO_SIDED|95.0|-36.806|9.388|||Repeated measures|||||9.388|-36.806|0.2409
92336294|NCT01249833|184575609|SUPERIORITY_OR_OTHER||LS Means Difference|-30.4||||0.0492|TWO_SIDED|95.0|-60.7|-0.1|||ANCOVA||The LS means for Standard of Care Alone was subtracted from that of Oseltamivir.|||-0.1|-60.7|.0492
92336295|NCT01249833|184575610|SUPERIORITY_OR_OTHER||LS Means Difference|3.8||||0.0054|TWO_SIDED|95.0|1.14|6.42|||ANCOVA||The LS means for Standard of Care Alone was subtracted from that of Oseltamivir.|||6.42|1.14|0.0054
92336296|NCT01249833|184575611|SUPERIORITY_OR_OTHER||LS Means Difference|3.9||||0.9685|TWO_SIDED|95.0|-190.1|197.9|||ANCOVA||The LS means for Standard of Care Alone was subtracted from that of Oseltamivir.|||197.9|-190.1|.9685
92336297|NCT01249833|184575612|SUPERIORITY_OR_OTHER||LS Means Difference|1.9||||0.3195|TWO_SIDED|95.0|-1.9|5.7|||ANCOVA||The LS means for Standard of Care Alone was subtracted from that of Oseltamivir.|Alertness: the higher the value, the greater the alertness.||5.7|-1.9|.3195
92336298|NCT01249833|184575612|SUPERIORITY_OR_OTHER||LS Means Difference|-0.6||||0.7219|TWO_SIDED|95.0|-4.1|2.9|||ANCOVA||The LS means for Standard of Care AL one was subtracted from that of Oseltamivir.|Calmness: the higher the value, the greater the calmness.||2.9|-4.1|.7219
92336299|NCT01249833|184575612|SUPERIORITY_OR_OTHER||LS Means Difference|3.3||||0.1162|TWO_SIDED|95.0|-0.8|7.4|||ANCOVA||The LS means of Standard of Care Alone was subtracted from that of Oseltamivir.|Contentedness: the higher the value, the greater the contentedness.||7.4|-.8|.1162
92369328|NCT02993822|184643577|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.332|TWO_SIDED|95.0|0.88|1.48|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.48|0.88|0.332
92336300|NCT01677182|184575626|SUPERIORITY_OR_OTHER||Least Squares Mean Differences|0.8|STANDARD_ERROR_OF_MEAN|0.98||0.783|TWO_SIDED|97.5|-1.4|3.0||Mixed Model Repeated Measures (MMRM) model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||3.0|-1.4|0.783
92336301|NCT01677182|184575626|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.97||0.329|TWO_SIDED|97.5|-2.6|1.7||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||1.7|-2.6|0.329
92336302|NCT01677182|184575627|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.27||0.088|TWO_SIDED|97.5|-0.1|1.1||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||1.1|-0.1|0.088
92336303|NCT01677182|184575627|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.642|TWO_SIDED|97.5|-0.7|0.5||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||0.5|-0.7|0.642
92336304|NCT01677182|184575628|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.792|TWO_SIDED|97.5|-0.2|0.3||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||0.3|-0.2|0.792
92336305|NCT01677182|184575628|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.171|TWO_SIDED|97.5|-0.4|0.1||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||0.1|-0.4|0.171
92336306|NCT01677182|184575629|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.653|TWO_SIDED|97.5|-0.2|0.3||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||0.3|-0.2|0.653
92336307|NCT01677182|184575629|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.673|TWO_SIDED|97.5|-0.3|0.2||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||0.2|-0.3|0.673
92336308|NCT01677182|184575630|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.51||0.119|TWO_SIDED|97.5|-0.4|2.0||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||2.0|-0.4|0.119
92396338|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0308|TWO_SIDED|95.0|-0.82|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.04|-0.82|0.0308
92210831|NCT04677179|184322621|SUPERIORITY||Risk Ratio (RR)|1.5||||0.564|TWO_SIDED|95.0|0.38|6.0|||Cochran-Mantel-Haenszel|||||6.00|0.38|0.564
92210832|NCT04677179|184322621|SUPERIORITY||Risk Ratio (RR)|1.51||||0.681|TWO_SIDED|95.0|0.21|10.97|||Cochran-Mantel-Haenszel|||||10.97|0.21|0.681
92336309|NCT01677182|184575630|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.51||0.791|TWO_SIDED|97.5|-1.3|1.0||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||1.0|-1.3|0.791
92336310|NCT01677182|184575631|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.7||0.422|TWO_SIDED|97.5|-1.0|2.1||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||2.1|-1.0|0.422
92336311|NCT01677182|184575631|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.655|TWO_SIDED|97.5|-1.3|1.9||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||1.9|-1.3|0.655
92336312|NCT01677182|184575632|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.64||0.696|TWO_SIDED|97.5|-4.5|2.8||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||2.8|-4.5|0.696
92336313|NCT01677182|184575632|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.63||0.472|TWO_SIDED|97.5|-3.6|3.8||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||3.8|-3.6|0.472
92336314|NCT01677182|184575633|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.998||||0.994|TWO_SIDED|95.0|0.651|1.53||Odds ratio, 95% confidence intervals and p-values are analyzed from logistic regression with explanatory variables for treatment and baseline MADRS total score.|Regression, Logistic|||||1.530|0.651|0.994
92336315|NCT01677182|184575633|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.886||||0.575|TWO_SIDED|95.0|0.58|1.352||Odds ratio, 95% confidence intervals and p-values are analyzed from logistic regression with explanatory variables for treatment and baseline MADRS total score.|Regression, Logistic|||||1.352|0.580|0.575
92336316|NCT01677182|184575634|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.978||||0.927|TWO_SIDED|95.0|0.606|1.577||Odds ratio, 95% confidence intervals and p-values are analyzed from logistic regression with explanatory variables for treatment and baseline MADRS total score.|Regression, Logistic|||||1.577|0.606|0.927
92336317|NCT01677182|184575634|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.865||||0.553|TWO_SIDED|95.0|0.536|1.397||Odds ratio, 95% confidence intervals and p-values are analyzed from logistic regression with explanatory variables for treatment and baseline MADRS total score.|Regression, Logistic|||||1.397|0.536|0.553
92336318|NCT00995722|184575636|NON_INFERIORITY_OR_EQUIVALENCE|N=80, (40 per group), 80% power to detect a group difference of 30%-35% and 5% significance level.|Mean Difference (Final Values)|-2.2||||0.37|TWO_SIDED|95.0|-7.2|2.8|||ANCOVA|ANCOVA used to compare mean values adjusting for the baseline value|QMG Score ranges from 0-15, where 0 is normal and a reduction in score represents imrovement.|Mean Ocular QMG Changes from Baseline to Week 16 . 95% CI and p-values obtained from the analysis of covariance model to adjust for the baseline value of the outcome variable.||2.8|-7.20|0.37
92336319|NCT00995722|184575637|NON_INFERIORITY_OR_EQUIVALENCE|Mean Change in quality of life as measured by the NEI-VFQ-25 at the end of Double- Blinded Treatment|Mean Difference (Net)|6.56||||0.13|TWO_SIDED|95.0|-2.59|15.71|||ANCOVA||Scores ranges fro 0-100 , where 100 is normal and an increase in score represents an improvement|Mean Change in quality of life as measured by the NEI-VFQ-25 at the end of Double- Blinded Treatment. 95% CI and p-values obtained from the analysis of covariance model to adjust for the baseline value of the outcome variable.||15.71|-2.59|0.13
92336320|NCT00995722|184575638|NON_INFERIORITY_OR_EQUIVALENCE|Mean Change in quality if life as measured by the MG-QOL-15 score at the end of Double- Blinded Treatment|Mean Difference (Final Values)|-3.81||||0.15|TWO_SIDED|95.0|-9.37|1.75|||ANCOVA||Ranges from 0-60, where 0 is Normal and a reduction in score represents improvement.|Mean Change in quality if life as measured by the MG-QOL-15 score at the end of Double- Blinded Treatment. 95% CI and p-values obtained from the analysis of covariance model to adjust for the baseline value of the outcome variable.||1.75|-9.37|0.15
92336321|NCT00995722|184575639|NON_INFERIORITY_OR_EQUIVALENCE|Mean Change NEI-VFQ-25 10 item neuro-opthtalmological supplement score baseline to week 16.|Mean Difference (Final Values)|16.98||||0.16|TWO_SIDED|95.0|-9.22|43.17|||ANCOVA||Ranges 0-100, where 100 is normal and an increase in score represents an improvement.|Mean Change NEI-VFQ-25 10 item neuro-opthtalmological supplement score baseline to week 16. 95% CI and p-values obtained from the analysis of covariance model to adjust for the baseline value of the outcome variable.||43.17|-9.22|0.16
92336322|NCT01431313|184575652|OTHER|Mixed effects model across all time points.||||||0.002|||||||Mixed Models Analysis|||||||0.002
92336323|NCT01431313|184575652|OTHER|Mixed effects model across all time points.||||||0.003|||||||Mixed Models Analysis|||||||0.003
92336324|NCT01431313|184575652|OTHER|Mixed effects model across all time points.||||||0.66|||||||Mixed Models Analysis|||||||0.66
92336325|NCT01431313|184575654|OTHER|Mixed effects model across all time points.|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92336326|NCT01431313|184575654|OTHER|Mixed effects model across all time points.|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92336327|NCT01431313|184575654|OTHER|Mixed effects model across all time points.|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92336328|NCT01431313|184575655|OTHER|Mixed effects model across all time points.||||||0.8|||||||Mixed Models Analysis|||||||0.8
92336329|NCT01431313|184575655|OTHER|Mixed effects model across all time points.||||||0.01|||||||Mixed Models Analysis|||||||0.01
92336330|NCT01431313|184575655|OTHER|Mixed effects model across all time points.||||||0.01|||||||Mixed Models Analysis|||||||0.01
92210833|NCT04677179|184322622|SUPERIORITY||Risk Difference (RD)|3.6||||0.317|TWO_SIDED|95.0|-3.3|10.4|||Cochran-Mantel-Haenszel|||||10.4|-3.3|0.317
92336331|NCT01431313|184575656|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92336332|NCT01431313|184575656|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92336333|NCT01431313|184575656|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
92336334|NCT01431313|184575657|OTHER|Mixed effects model of concentrations measured at Pre-dose, 15 minutes post 45mg dose and 15 minutes post 90mg dose.|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92336335|NCT01431313|184575657|OTHER|Mixed effects model of concentrations measured at Pre-dose, 15 minutes post 45mg dose and 15 minutes post 90mg dose.|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92336336|NCT01431313|184575657|OTHER|Mixed effects model of concentrations measured at Pre-dose, 15 minutes post 45mg dose and 15 minutes post 90mg dose.|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92336337|NCT01431313|184575658|OTHER|Mixed effects model of concentrations measured at Pre-dose, 15 minutes post 45mg dose and 15 minutes post 90mg dose.|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92336338|NCT01431313|184575658|OTHER|Mixed effects model of concentrations measured at Pre-dose, 15 minutes post 45mg dose and 15 minutes post 90mg dose.|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92336339|NCT01431313|184575659|OTHER|Mixed effects model across all doses.|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92336340|NCT01431313|184575659|OTHER|Mixed effects model across all doses.||||||0.21|||||||Mixed Models Analysis|||||||0.21
92336341|NCT01431313|184575659|OTHER|Mixed effects model across all doses.||||||0.59|||||||Mixed Models Analysis|||||||0.59
92336342|NCT02171429|184575696|SUPERIORITY||Difference in Remission Rates|7.2||||0.1729|TWO_SIDED|95.0|-3.83|16.12||The threshold for statistical significance was a p-value \<0.05.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|The null hypothesis (H0): the percentage of participants achieving remission at Week 10 was the same in both the placebo and etrolizumab arms. The alternative hypothesis (H1): the percentage of participants achieving remission at Week 10 was not the same in the placebo and etrolizumab arms.||16.12|-3.83|0.1729
92336343|NCT02171429|184575697|SUPERIORITY||Difference in Remission Rates|-6.8||||0.1458|TWO_SIDED|95.0|-16.26|2.73||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||2.73|-16.26|0.1458
92210834|NCT04677179|184322622|SUPERIORITY||Risk Difference (RD)|6.9||||0.238|TWO_SIDED|95.0|-2.3|16.1|||Cochran-Mantel-Haenszel|||||16.1|-2.3|0.238
92336344|NCT02171429|184575698|SUPERIORITY||Difference in Remission Rates|-5.0||||1|TWO_SIDED|95.0|-11.66|1.75||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||1.75|-11.66|1
92336345|NCT02171429|184575699|SUPERIORITY||Difference in Response Rates|14.0||||0.1729|TWO_SIDED|95.0|-0.12|27.19||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 1 of the testing procedure; please refer to the statistical analysis plan for details.||27.19|-0.12|0.1729
92336346|NCT02171429|184575699|SUPERIORITY||Difference in Response Rates|-2.5||||0.6726|TWO_SIDED|95.0|-13.83|9.01||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||9.01|-13.83|0.6726
92336347|NCT02171429|184575700|SUPERIORITY||Difference in Response Rates|1.2||||1|TWO_SIDED|95.0|-6.98|9.26||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||9.26|-6.98|1
92336348|NCT02171429|184575701|SUPERIORITY||Difference in Response Rates|9.4||||0.2372|TWO_SIDED|95.0|-4.31|21.95||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 1 of the testing procedure; please refer to the statistical analysis plan for details.||21.95|-4.31|0.2372
92336349|NCT02171429|184575701|SUPERIORITY||Difference in Response Rates|-3.5||||0.5341|TWO_SIDED|95.0|-14.76|7.82||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||7.82|-14.76|0.5341
92336350|NCT02171429|184575702|SUPERIORITY||Difference in Response Rates|1.9||||1|TWO_SIDED|95.0|-6.04|9.88||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||9.88|-6.04|1
92336351|NCT02171429|184575703|SUPERIORITY||Difference in Remission Rates|11.2||||0.2372|TWO_SIDED|95.0|0.59|19.76||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||19.76|0.59|0.2372
92336352|NCT02171429|184575703|SUPERIORITY||Difference in Remission Rates|-7.5||||0.1192|TWO_SIDED|95.0|-17.2|2.33||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||2.33|-17.20|0.1192
92396339|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0105|TWO_SIDED|95.0|-0.89|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.12|-0.89|0.0105
92396340|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED|95.0|-1.03|-0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.26|-1.03|0.0010
92336353|NCT02171429|184575704|SUPERIORITY||Difference in Remission Rates|-3.5||||1|TWO_SIDED|95.0|-10.27|3.3||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||3.30|-10.27|1
92336354|NCT02171429|184575705|SUPERIORITY||Difference in Remission Rates|9.6||||0.2729|TWO_SIDED|95.0|-4.71|22.02||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||22.02|-4.71|0.2729
92336355|NCT02171429|184575705|SUPERIORITY||Difference in Remission Rates|-14.8||||0.0215|TWO_SIDED|95.0|-26.97|-2.04||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||-2.04|-26.97|0.0215
92336356|NCT02171429|184575706|SUPERIORITY||Difference in Remission Rates|-0.3||||1|TWO_SIDED|95.0|-9.13|8.45||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||8.45|-9.13|1
92336357|NCT02171429|184575707|SUPERIORITY|||||||0.1729||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||||0.1729
92336358|NCT02171429|184575707|SUPERIORITY|||||||0.2864||||||Nominal p-value; it has not been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||||0.2864
92336359|NCT02171429|184575708|SUPERIORITY|||||||1||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||||1
92336360|NCT02171429|184575709|SUPERIORITY|||||||0.1729||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||||0.1729
92336361|NCT02171429|184575709|SUPERIORITY|||||||0.4174||||||Nominal p-value; it has not been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||||0.4174
92336362|NCT02171429|184575710|SUPERIORITY|||||||1||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||||1
92396341|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1469|TWO_SIDED|95.0|-0.69|0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.11|-0.69|0.1469
92210835|NCT04677179|184322623|SUPERIORITY||LS Mean Difference|9.71|STANDARD_ERROR_OF_MEAN|10.935||0.378|TWO_SIDED|95.0|-12.17|31.6|||ANCOVA|||||31.60|-12.17|0.378
92336363|NCT02171429|184575711|SUPERIORITY||Mean Difference (Net)|-1.1||||0.1659|TWO_SIDED|95.0|-2.8|0.5||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.5|-2.8|0.1659
92336364|NCT02171429|184575711|SUPERIORITY||Mean Difference (Net)|0.1||||0.9182|TWO_SIDED|95.0|-1.3|1.4||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||1.4|-1.3|0.9182
92336365|NCT02171429|184575712|SUPERIORITY||Mean Difference (Net)|-1.0||||1|TWO_SIDED|95.0|-2.1|0.2||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 4 of the testing procedure; please refer to the statistical analysis plan for details.||0.2|-2.1|1
92336366|NCT02171429|184575712|SUPERIORITY||Mean Difference (Net)|-0.3||||1|TWO_SIDED|95.0|-1.2|0.7||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 6 of the testing procedure; please refer to the statistical analysis plan for details.||0.7|-1.2|1
92336367|NCT02171429|184575713|SUPERIORITY||Mean Difference (Net)|-1.0||||0.0116|TWO_SIDED|95.0|-1.7|-0.2||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||-0.2|-1.7|0.0116
92336368|NCT02171429|184575713|SUPERIORITY||Mean Difference (Net)|-0.1||||0.6771|TWO_SIDED|95.0|-0.8|0.5||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.5|-0.8|0.6771
92336369|NCT02171429|184575714|SUPERIORITY||Mean Difference (Net)|-0.5||||1|TWO_SIDED|95.0|-1.0|0.0||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 4 of the testing procedure; please refer to the statistical analysis plan for details.||0.0|-1.0|1
92336370|NCT02171429|184575714|SUPERIORITY||Mean Difference (Net)|-0.3||||1|TWO_SIDED|95.0|-0.7|0.1||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 6 of the testing procedure; please refer to the statistical analysis plan for details.||0.1|-0.7|1
92336371|NCT02171429|184575715|SUPERIORITY||Difference in Remission Rates|7.9||||0.1382|TWO_SIDED|95.0|-3.19|16.87||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||16.87|-3.19|0.1382
92396342|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0315|TWO_SIDED|95.0|-0.84|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.04|-0.84|0.0315
92336372|NCT02171429|184575715|SUPERIORITY||Difference in Remission Rates|-7.5||||0.1163|TWO_SIDED|95.0|-17.1|2.22||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||2.22|-17.10|0.1163
92336373|NCT02171429|184575716|SUPERIORITY||Difference in Remission Rates|2.9||||0.4772|TWO_SIDED|95.0|-6.47|10.14||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||10.14|-6.47|0.4772
92336374|NCT02171429|184575716|SUPERIORITY||Difference in Remission Rates|-5.2||||0.1801|TWO_SIDED|95.0|-12.95|2.63||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||2.63|-12.95|0.1801
92336375|NCT02171429|184575717|SUPERIORITY||Difference in Adjusted Means|4.0||||0.4833|TWO_SIDED|95.0|-7.2|15.2||Nominal p-value; it has not been adjusted for multiplicity.|ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and IBDQ score at BL.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||15.2|-7.2|0.4833
92336376|NCT02171429|184575717|SUPERIORITY||Difference in Adjusted Means|0.0||||0.9931|TWO_SIDED|95.0|-9.2|9.1||Nominal p-value; it has not been adjusted for multiplicity.|ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and IBDQ score at BL.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||9.1|-9.2|0.9931
92336377|NCT00105989|184575744|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No adjustments were made for multiple comparisons. The primary efficacy analysis compared the time to recurrence during the maintenance phase between all duloxetine and placebo patients using the log-rank test, stratified by country at α=.05.|Log Rank|The log rank method provides a single p-value comparing time to depressive recurrence for placebo and duloxetine.||A total of 257 randomized patients (randomly assigned with equal probability to the two treatment groups) were needed to have 90% power to detect 40% versus 20% recurrence rates over 52 weeks, using a log rank test at a two-sided significance level of .05.||||<0.001
92336378|NCT00105989|184575745|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Frequencies are analyzed using Cochran-Mantel-Haenszel controlling for investigator||||||<0.001
92336379|NCT00105989|184575746|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Log Rank|The log rank method provides a single p-value comparing time to depressive recurrence for placebo and duloxetine.||||||0.003
92336380|NCT00105989|184575747|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Cochran-Mantel-Haenszel|Frequencies were analyzed using Cochran-Mantel-Haenszel controlling for investigator.||||||0.003
92210836|NCT04677179|184322623|SUPERIORITY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|10.406||0.928|TWO_SIDED|95.0|-21.78|19.88|||ANCOVA|||||19.88|-21.78|0.928
92210837|NCT03261700|184322631|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Comparison of groups on Empowerment via the Personal Progress Scale Revised||||<.05
92210838|NCT03261700|184322632|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Comparison of groups on self-efficacy via the General Self-Efficacy Scale||||<.05
92336381|NCT00105989|184575748|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336382|NCT00105989|184575748|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.016
92336383|NCT00105989|184575749|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92210839|NCT01257425|184322659|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin defined as 0.8 to 1.25|Ratio of AUC values|0.977|||||TWO_SIDED|90.0|0.88|1.08|||ANCOVA|||||1.08|0.88|
92210840|NCT01257425|184322660|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin is 0.8 to 1.25|Ratio of AUC values|0.932|||||TWO_SIDED|90.0|0.82|1.06|||ANCOVA|||||1.06|0.82|
92336384|NCT00105989|184575750|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336385|NCT00105989|184575750|SUPERIORITY_OR_OTHER|||||||0.153||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.153
92336386|NCT00105989|184575751|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92336387|NCT00105989|184575752|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean value at endpoint is significant from 4.||||||<0.001
92336388|NCT00105989|184575752|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean value at endpoint is significant from 4.||||||<0.001
92336389|NCT00105989|184575753|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92336390|NCT00105989|184575754|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for Change from Baseline to Endpoint for all Subscales during Acute phase were \<0.001.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336391|NCT00105989|184575754|SUPERIORITY_OR_OTHER|||||||0.334||95.0||||P-value for Anxiety Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.334
92336392|NCT00105989|184575754|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value for Core Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.019
92336393|NCT00105989|184575754|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||P-value for Maier Change from Baseline to Endpoint.|t-test, 2 sided|t-test assessses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.046
92336394|NCT00105989|184575754|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Retardation Change from Baseline to Endpoint.|t-test, 2 sided|t-test assessses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336395|NCT00105989|184575754|SUPERIORITY_OR_OTHER|||||||0.319||95.0||||P-value for Sleep Change from Baseline to Endpoint.|t-test, 2 sided|t-test assessses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.319
92336396|NCT00105989|184575754|SUPERIORITY_OR_OTHER|||||||0.275||95.0||||P-value for Depressed Mood Change from Baseline to Endpoint.|t-test, 2 sided|t-test assessses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.275
92336397|NCT00105989|184575755|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Pairwise comparison of Least Squares Means for Anxiety Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||<0.001
92336398|NCT00105989|184575755|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Pairwise comparison of Least Squares Means for Core Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.002
92336399|NCT00105989|184575755|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Pairwise comparison of Least Squares Means for Maier Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.002
92336400|NCT00105989|184575755|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Pairwise comparison of Least Squares Means for Retardation Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.003
92336401|NCT00105989|184575755|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Pairwise comparison of Least Squares Means for Sleep Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.001
92336402|NCT00105989|184575755|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Pairwise comparison of Least Squares Means for Depressed Mood Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.003
92336403|NCT00105989|184575756|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for all Change from Baseline to Endpoint measures in the Acute Phase were \<0.001.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336404|NCT00105989|184575756|SUPERIORITY_OR_OTHER|||||||0.273||95.0||||P-value for Overall Pain Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.273
92336405|NCT00105989|184575756|SUPERIORITY_OR_OTHER|||||||0.968||95.0||||P-value for Headache Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.968
92336406|NCT00105989|184575756|SUPERIORITY_OR_OTHER|||||||0.998||95.0||||P-value for Back Pain Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.998
92336407|NCT00105989|184575756|SUPERIORITY_OR_OTHER|||||||0.703||95.0||||P-value for Shoulder Pain Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.703
92336408|NCT00105989|184575756|SUPERIORITY_OR_OTHER|||||||0.346||95.0||||P-value for Interference with Daily Activities Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.346
92336409|NCT00105989|184575756|SUPERIORITY_OR_OTHER|||||||0.963||95.0||||P-value for Pain While Awake Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.963
92336410|NCT00105989|184575757|SUPERIORITY_OR_OTHER|||||||0.792||95.0||||P-value for pairwise comparison of Least Squares Means for Overall Pain Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.792
92336411|NCT00105989|184575757|SUPERIORITY_OR_OTHER|||||||0.407||95.0||||P-value for pairwise comparison of Least Squares Means for Headache Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.407
92336412|NCT00105989|184575757|SUPERIORITY_OR_OTHER|||||||0.475||95.0||||P-value for pairwise comparison of Least Squares Means for Back Pain Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.475
92336413|NCT00105989|184575757|SUPERIORITY_OR_OTHER|||||||0.241||95.0||||P-value for pairwise comparison of Least Squares Means for Shoulder Pain Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.241
92336414|NCT00105989|184575757|SUPERIORITY_OR_OTHER|||||||0.885||95.0||||P-value for pairwise comparison of Least Squares Means for Interference with Daily Activities Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.885
92336415|NCT00105989|184575757|SUPERIORITY_OR_OTHER|||||||0.717||95.0||||P-value for pairwise comparison of Least Squares Means for Pain While Awake Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.717
92336416|NCT00105989|184575758|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336417|NCT00105989|184575758|SUPERIORITY_OR_OTHER|||||||0.157||95.0||||P-value for Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.157
92336418|NCT00105989|184575759|SUPERIORITY_OR_OTHER|||||||0.979||95.0|||||t-test, 2 sided|||||||0.979
92336419|NCT00105989|184575760|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline to Endpoint in all SDS items in Acute Phase were \<0.001.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336420|NCT00105989|184575760|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline to Endpoint in all SDS items in the Continuation Phase were \<0.001.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336421|NCT00105989|184575761|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value for pairwise comparison of Least Squares Means for Change from Baseline to Endpoint in Global Score|t-test, 2 sided|||||||0.029
92336422|NCT00105989|184575761|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for pairwise comparison of Least Squares Means for Change from Baseline to Endpoint in Work/School.|t-test, 2 sided|||||||0.022
92336423|NCT00105989|184575761|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||P-value for pairwise comparison of Least Squares Means for Change from Baseline to Endpoint in Social Life.|t-test, 2 sided|||||||0.110
92210841|NCT01257425|184322661|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin is 0.8 to 1.25|Ratio of AUC values|0.91|||||TWO_SIDED|90.0|0.81|1.02|||ANCOVA|||||1.02|0.81|
92336424|NCT00105989|184575761|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value for pairwise comparison of Least Squares Means for Change from Baseline to Endpoint in Family Life/Home Responsibilities.|t-test, 2 sided|||||||0.021
92336425|NCT00105989|184575762|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for Change from Baseline to Endpoint in all SF-36 subscales in the Acute Phase were \<0.001|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336426|NCT00105989|184575762|SUPERIORITY_OR_OTHER|||||||0.947||95.0||||P-value for Physical Component Summary Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.947
92210842|NCT01257425|184322663|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.85|TWO_SIDED|95.0|-0.09|0.11|||ANCOVA|||||0.11|-0.09|0.85
92210843|NCT01257425|184322664|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||Log Rank|||||||0.98
92336427|NCT00105989|184575762|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Mental Component Summary Change to Endpoint|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336428|NCT00105989|184575762|SUPERIORITY_OR_OTHER|||||||0.118||95.0||||P-value for Physical Functioning Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.118
92336429|NCT00105989|184575762|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||P-value for Bodily Pain Change from Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.550
92336430|NCT00105989|184575762|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value for Role Limitations Due to Physical Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.029
92336431|NCT00105989|184575762|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Role Limitations Due to Emotional Problems Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336432|NCT00105989|184575762|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for General Health Perceptions Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.002
92336433|NCT00105989|184575762|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Mental Health Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336434|NCT00105989|184575762|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Social Function Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336435|NCT00105989|184575762|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Vitality Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336436|NCT00105989|184575762|SUPERIORITY_OR_OTHER|||||||0.815||95.0||||P-value for Rate Current Health Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.815
92336437|NCT00105989|184575762|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Health Compared to a Year Ago Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336438|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.415||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Physical Component Summary.|t-test, 2 sided|||||||0.415
92336439|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Mental Component Summary.|t-test, 2 sided|||||||0.002
92336440|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.731||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Physical Functioning.|t-test, 2 sided|||||||0.731
92336441|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.438||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Bodily Pain.|t-test, 2 sided|||||||0.438
92336442|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Role Limitations Due to Physical.|t-test, 2 sided|||||||0.029
92336443|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Role Limitations Due to Emotional problems.|t-test, 2 sided|||||||0.003
92336444|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.391||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-General Health Perceptions.|t-test, 2 sided|||||||0.391
92336445|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Mental Health.|t-test, 2 sided|||||||0.001
92336446|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.142||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Social Functioning.|t-test, 2 sided|||||||0.142
92336447|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.24||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Vitality.|t-test, 2 sided|||||||0.240
92336448|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.615||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Rate General Health.|t-test, 2 sided|||||||0.615
92336449|NCT00105989|184575763|SUPERIORITY_OR_OTHER|||||||0.218||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Health Compared to a Year Ago.|t-test, 2 sided|||||||0.218
92336450|NCT00105989|184575764|SUPERIORITY_OR_OTHER|||||||0.838||95.0||||P-value for change in number of Primary Health Care Provider Visits in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.838
92336451|NCT00105989|184575764|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change in number of Psychiatrist visits in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336452|NCT00105989|184575764|SUPERIORITY_OR_OTHER|||||||0.236||95.0||||P-value for change in number of Psychologist/Therapist visits in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.236
92336453|NCT00105989|184575764|SUPERIORITY_OR_OTHER|||||||0.145||95.0||||P-value for change in number of Other Specialist Physician visits in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.145
92336454|NCT00105989|184575764|SUPERIORITY_OR_OTHER|||||||0.423||95.0||||P-value for change in number of Other (Specified by Patient) visits in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.423
92336455|NCT00105989|184575764|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||P-value for change in number of Primary Health Care Provider visits in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.325
92336456|NCT00105989|184575764|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change in number of Psychiatrist visits in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336457|NCT00105989|184575764|SUPERIORITY_OR_OTHER|||||||0.915||95.0||||P-value for change in number of Psychologist/Therapist visits in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.915
92336458|NCT00105989|184575764|SUPERIORITY_OR_OTHER|||||||0.223||95.0||||P-value for change in number of Other Specialist Physician visits in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.223
92336459|NCT00105989|184575764|SUPERIORITY_OR_OTHER|||||||0.362||95.0||||P-value for change in number of Other (Specified by Patient) visits in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.362
92336460|NCT00105989|184575765|SUPERIORITY_OR_OTHER|||||||0.462||95.0||||P-value for pairwise comparison of means for change from baseline to endpoint in Primary Health Care Provider visits.|t-test, 2 sided|||||||0.462
92336461|NCT00105989|184575765|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||P-value for pairwise comparison of means for change from baseline to endpoint in Psychiatrist visits.|t-test, 2 sided|||||||0.668
92336462|NCT00105989|184575765|SUPERIORITY_OR_OTHER|||||||0.746||95.0||||P-value for pairwise comparison of means for change from baseline to endpoint in Psychologist/Therapist visits.|t-test, 2 sided|||||||0.746
92336463|NCT00105989|184575765|SUPERIORITY_OR_OTHER|||||||0.511||95.0||||P-value for pairwise comparison of means for change from baseline to endpoint in Other Specialist Physician visits.|t-test, 2 sided|||||||0.511
92336464|NCT00105989|184575765|SUPERIORITY_OR_OTHER|||||||0.271||95.0||||P-value for pairwise comparison of means for change from baseline to endpoint in Other (Specified by Patient) Provider visits.|t-test, 2 sided|||||||0.271
92336465|NCT00105989|184575766|SUPERIORITY_OR_OTHER|||||||0.506||95.0||||P-value for Change in Average Number of Hours Worked In a Week in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.506
92336466|NCT00105989|184575766|SUPERIORITY_OR_OTHER|||||||0.057||95.0||||P-value for Change in Average Number of Hours Worked In a Week in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.057
92336467|NCT00105989|184575767|SUPERIORITY_OR_OTHER|||||||0.826||95.0|||||t-test, 2 sided|||||||0.826
92336468|NCT00105989|184575768|SUPERIORITY_OR_OTHER|||||||0.105||95.0||||P-value for Change in Number of Missed Paid Work Hours in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.105
92336469|NCT00105989|184575768|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||P-value for Change in Number of Missed Paid Work Hours in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.174
92210844|NCT01257425|184322665|SUPERIORITY_OR_OTHER|||||||0.84|||||||Log Rank|||||||0.84
92336470|NCT00105989|184575769|SUPERIORITY_OR_OTHER|||||||0.037||95.0|||||t-test, 2 sided|||||||0.037
92336471|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||P-value for Sum Items 1 to 5 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.785
92336472|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.354||95.0||||P-value for Sum Items 1\&2 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.354
92396343|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21||0.0002|TWO_SIDED|95.0|-1.18|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.38|-1.18|0.0002
92396344|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.26|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.43|-1.26|<0.0001
92396345|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.4494|TWO_SIDED|95.0|-0.56|0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.25|-0.56|0.4494
92396346|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0595|TWO_SIDED|95.0|-0.79|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.02|-0.79|0.0595
92396347|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0065|TWO_SIDED|95.0|-0.96|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.16|-0.96|0.0065
92396348|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0745|TWO_SIDED|95.0|-0.77|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.04|-0.77|0.0745
92396349|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.054|TWO_SIDED|95.0|-0.8|0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.01|-0.80|0.0540
92396350|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21||0.0001|TWO_SIDED|95.0|-1.22|-0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.41|-1.22|0.0001
92396351|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.26|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.43|-1.26|<0.0001
92396352|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.5317|TWO_SIDED|95.0|-0.54|0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.28|-0.54|0.5317
92396353|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0424|TWO_SIDED|95.0|-0.83|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.01|-0.83|0.0424
92210845|NCT04262817|184322668|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.01
92210846|NCT04262817|184322668|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.34
92210847|NCT04262817|184322669|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.38
92210848|NCT04262817|184322669|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.85
92210849|NCT04262817|184322670|SUPERIORITY|||||||0.39|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.39
92396354|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0134|TWO_SIDED|95.0|-0.91|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.11|-0.91|0.0134
92396355|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.03|TWO_SIDED|95.0|-0.84|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.04|-0.84|0.0300
92396356|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0605|TWO_SIDED|95.0|-0.78|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||0.02|-0.78|0.0605
92210850|NCT04262817|184322670|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.77
92210851|NCT04262817|184322671|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.43
92210852|NCT04262817|184322671|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.05
92210853|NCT04262817|184322672|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.05
92210854|NCT04262817|184322672|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.04
92210855|NCT04262817|184322673|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.01
92210856|NCT04262817|184322673|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.38
92210857|NCT04947527|184322674|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.279|TWO_SIDED|95.0|-4.2|1.2|||t-test, 2 sided|||||1.2|-4.2|0.279
92336473|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.17||95.0||||P-value for Item 1-Sex Drive Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.170
92336474|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.825||95.0||||P-value for Item 2-Arousal Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.825
92336475|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.877||95.0||||P-value for Item 3-Vaginal Lubrication/Penile Erection Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.877
92336476|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for Item 4-Orgasm Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.009
92336477|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||P-value for Item 5-Satisfaction Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.670
92336478|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||P-value for Sum Items 1 to 5 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.100
92336479|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value for Sum Items 1\&2 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.021
92336480|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-value for Item 1-Sex Drive Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.047
92336481|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value for Item 2-Arousal Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.023
92336482|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||P-value for Item 3-Vaginal Lubrication/Penile Erection Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.668
92336483|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.136||95.0||||P-value for Item 4-Orgasm Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.136
92336484|NCT00105989|184575770|SUPERIORITY_OR_OTHER|||||||0.152||95.0||||P-value for Item 5-Satisfaction Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.152
92336485|NCT00105989|184575771|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Sum Items 1 to 5 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336486|NCT00105989|184575771|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Sum Items 1\&2 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336487|NCT00105989|184575771|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Item 1-Sex Drive Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336488|NCT00105989|184575771|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Item 2-Arousal Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336489|NCT00105989|184575771|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Item 3-Vaginal Lubrication/Penile Erection Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.005
92336490|NCT00105989|184575771|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value for Item 4-Orgasm Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.050
92336491|NCT00105989|184575771|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for Item 5-Satisfaction Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.022
92336492|NCT00105989|184575771|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Sum Items 1 to 5 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.002
92336493|NCT00105989|184575771|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Sum Items 1\&2 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336494|NCT00105989|184575771|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Item 1-Sex Drive Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336495|NCT00105989|184575771|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Item 2-Arousal Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336496|NCT00105989|184575771|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||P-value for Item 3-Vaginal Lubrication/Penile Erection Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.186
92336497|NCT00105989|184575771|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Item 4-Orgasm Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336498|NCT00105989|184575771|SUPERIORITY_OR_OTHER|||||||0.308||95.0||||P-value for Item 5-Satisfaction Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.308
92210858|NCT04947527|184322675|SUPERIORITY||Difference in percentages/proportions|-14.4||||0.023|TWO_SIDED|95.0|-26.7|-2.1|||Chi-squared|||||-2.1|-26.7|0.023
92210859|NCT04947527|184322676|SUPERIORITY||Risk Difference (RD)|-0.09||||0.133|TWO_SIDED||||||Fisher Exact|||||||0.133
92336499|NCT00105989|184575772|SUPERIORITY_OR_OTHER|||||||0.773||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for the Sum of Items 1 to 5.|t-test, 2 sided|||||||0.773
92336500|NCT00105989|184575772|SUPERIORITY_OR_OTHER|||||||0.405||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for the Sum of Items 1 and 2.|t-test, 2 sided|||||||0.405
92336501|NCT00105989|184575772|SUPERIORITY_OR_OTHER|||||||0.443||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 1-Sex Drive.|t-test, 2 sided|||||||0.443
92336502|NCT00105989|184575772|SUPERIORITY_OR_OTHER|||||||0.384||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 2-Arousal.|t-test, 2 sided|||||||0.384
92336503|NCT00105989|184575772|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 3-Vaginal Lubrication/Penile Erection.|t-test, 2 sided|||||||0.268
92336504|NCT00105989|184575772|SUPERIORITY_OR_OTHER|||||||0.093||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 4-Orgasm.|t-test, 2 sided|||||||0.093
92336505|NCT00105989|184575772|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 5-Satisfaction.|t-test, 2 sided|||||||0.566
92336506|NCT00105989|184575773|SUPERIORITY_OR_OTHER|||||||0.979||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for the Sum of Items 1 to 5.|t-test, 2 sided|||||||0.979
92336507|NCT00105989|184575773|SUPERIORITY_OR_OTHER|||||||0.132||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for the Sum of Items 1 and 2.|t-test, 2 sided|||||||0.132
92336508|NCT00105989|184575773|SUPERIORITY_OR_OTHER|||||||0.18||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 1-Sex Drive.|t-test, 2 sided|||||||0.180
92336509|NCT00105989|184575773|SUPERIORITY_OR_OTHER|||||||0.163||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 2-Arousal.|t-test, 2 sided|||||||0.163
92336510|NCT00105989|184575773|SUPERIORITY_OR_OTHER|||||||0.844||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 3-Vaginal Lubrication/Penile Erection.|t-test, 2 sided|||||||0.844
92336511|NCT00105989|184575773|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 4-Orgasm.|t-test, 2 sided|||||||0.609
92336512|NCT00105989|184575773|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 5-Satisfaction.|t-test, 2 sided|||||||0.071
92336513|NCT00105989|184575774|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Weight Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336514|NCT00105989|184575774|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Weight Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336515|NCT00105989|184575775|SUPERIORITY_OR_OTHER|||||||0.314||95.0|||||t-test, 2 sided|||||||0.314
92336516|NCT00105989|184575776|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Pulse Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336517|NCT00105989|184575776|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Pulse Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
92336518|NCT00105989|184575777|SUPERIORITY_OR_OTHER|||||||0.891||95.0|||||t-test, 2 sided|||||||0.891
92336519|NCT00105989|184575778|SUPERIORITY_OR_OTHER|||||||0.659||95.0||||P-value for systolic blood pressure change to endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.659
92336520|NCT00105989|184575778|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||P-value for diastolic blood pressure change to endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.064
92336521|NCT00105989|184575778|SUPERIORITY_OR_OTHER|||||||0.224||95.0||||P-value for systolic blood pressure change to endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.224
92336522|NCT00105989|184575778|SUPERIORITY_OR_OTHER|||||||0.21||95.0||||P-value for diastolic blood pressure change to endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.210
92336523|NCT00105989|184575779|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||P-value for Change from Baseline: systolic blood pressure.|t-test, 2 sided|||||||0.134
92336524|NCT00105989|184575779|SUPERIORITY_OR_OTHER|||||||0.816||95.0||||P-value for Change from Baseline: diastolic blood pressure.|t-test, 2 sided|||||||0.816
92336525|NCT00105989|184575780|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92336526|NCT00105989|184575781|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.007
92336527|NCT00105989|184575782|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.035
92336528|NCT00105989|184575783|SUPERIORITY_OR_OTHER|||||||0.021||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.021
92336529|NCT00105989|184575784|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92336530|NCT00105989|184575785|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||The mean change to endpoint of -0.00 indicates that on average, endpoint score decreased from baseline score by less than 0.005 units.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.019
92336531|NCT00105989|184575786|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.005
92336532|NCT00105989|184575787|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.031
92336533|NCT00105989|184575788|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92336534|NCT00105989|184575789|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92336535|NCT00105989|184575790|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92336536|NCT00105989|184575791|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92336537|NCT00105989|184575792|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92336538|NCT00105989|184575793|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.004
92336539|NCT00105989|184575794|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.010
92336540|NCT00105989|184575795|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.003
92336541|NCT00105989|184575796|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92336542|NCT00105989|184575797|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.015
92336543|NCT00105989|184575798|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||The mean change to endpoint of -0.00 indicates that on average, endpoint score decreased from baseline score by less than 0.005 units.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.021
92336544|NCT00105989|184575799|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92336545|NCT00105989|184575800|SUPERIORITY_OR_OTHER|||||||0.032||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.032
92336546|NCT00105989|184575801|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92336547|NCT00105989|184575802|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
92210860|NCT06609135|184322686|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 31 weeks between participants that were successful in discontinuation of non-invasive ventilation at 32 weeks postmenstrual age and those that were unsuccessful.||||0.045
92336548|NCT00105989|184575803|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.028
92336549|NCT00105989|184575804|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.008
92336550|NCT00105989|184575805|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.046
92336551|NCT00105989|184575806|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||P-value for Change to Endpoint.|ANOVA|Type II Sums of Squares from an analysis of variance (ANOVA) on the Ranks: Model = Pooled Investigator and Therapy.||||||0.035
92336552|NCT00105989|184575807|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for Change to Endpoint.|ANOVA|Type II Sums of Squares from an analysis of variance (ANOVA) on the Ranks: Model = Pooled Investigator and Therapy.||||||0.011
92336553|NCT00105989|184575808|SUPERIORITY_OR_OTHER|||||||0.744||95.0||||P-value for fasting glucose change from baseline to endpoint|ANOVA|Type II Sums of Squares from an analysis of variance (ANOVA) on the Ranks: Model = Pooled Investigator and Therapy.||||||0.744
92336554|NCT00105989|184575808|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value for non-fasting glucose change from baseline to endpoint.|ANOVA|Type II Sums of Squares from an analysis of variance (ANOVA) on the Ranks: Model = Pooled Investigator and Therapy.||||||0.030
92336555|NCT02258217|184575825|EQUIVALENCE|"We created a difference in ADL score variable. This was calculated as follows:~ADL score (new relapse) - ADL score (after treatment of current relapse)~This difference score was tested for equivalence to 0 or not."|Mean Difference (Final Values)|-1.8|STANDARD_DEVIATION|3.03||0.003|TWO_SIDED|95.0|-2.9|-0.66|||Paired t-test, 2 sided|||"We compared the two ADL scores measured in the same arm at different timepoints (new \& after treatment).~Null Hypothesis = Difference in means is = 0 Alternate Hypothesis = Difference in means is not = 0~We used the Paired t-test to compare the pre - post ADL scores."||-0.66|-2.9|0.003
92336556|NCT02258217|184575826|EQUIVALENCE|"We created a difference in ADL score variable. This was calculated as follows:~ADL score (new relapse) - ADL score (after treatment of current relapse) This difference score was tested for equivalence to 0 or not."|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|3.09||0.99|TWO_SIDED|95.0|-1.22|1.22|||Paired t-test, 2 sided|||"We compared the two RSH scores measured in the same arm at different time points (new \& after treatment).~Null Hypothesis = Difference in means is = 0 Alternate Hypothesis = Difference in means is not = 0 We used the Paired t-test to compare the pre - post RSH scores."||1.22|-1.22|0.99
92396357|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.2||0.0001|TWO_SIDED|95.0|-1.2|-0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.40|-1.20|0.0001
92396358|NCT03192176|184689393|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.38|-0.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.56|-1.38|<0.0001
92210861|NCT06609135|184322687|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 31 weeks between participants that were successful in discontinuation of non-invasive ventilation at 32 weeks postmenstrual age and those that were unsuccessful.||||0.045
92210862|NCT06609135|184322688|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 32 weeks between participants that were successful in discontinuation of non-invasive ventilation at 33 weeks postmenstrual age and those that were unsuccessful.||||0.49
92210863|NCT06609135|184322689|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 32 weeks between participants that were successful in discontinuation of non-invasive ventilation at 33 weeks postmenstrual age and those that were unsuccessful.||||0.49
92210864|NCT06609135|184322690|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 34 weeks between participants that were successful in discontinuation of non-invasive ventilation by 36 weeks postmenstrual age and those that were unsuccessful.||||0.56
92210865|NCT06609135|184322691|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 34 weeks between participants that were successful in discontinuation of non-invasive ventilation by 36 weeks postmenstrual age and those that were unsuccessful.||||0.56
92210866|NCT06609135|184322692|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of FLS values at 31 weeks between participants that were successful in discontinuation of non-invasive ventilation at 32 weeks postmenstrual age and those that were unsuccessful.||||0.09
92210867|NCT06609135|184322693|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of FLS values at 31 weeks between participants that were successful in discontinuation of non-invasive ventilation at 32 weeks postmenstrual age and those that were unsuccessful.||||0.09
92210868|NCT06609135|184322694|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of FLS values at 32 weeks between participants that were successful in discontinuation of non-invasive ventilation at 33 weeks postmenstrual age and those that were unsuccessful.||||0.44
92210869|NCT06609135|184322695|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of FLS values at 32 weeks between participants that were successful in discontinuation of non-invasive ventilation at 33 weeks postmenstrual age and those that were unsuccessful.||||0.44
92210870|NCT06609135|184322696|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of FLS values at 34 weeks between participants that were successful in discontinuation of non-invasive ventilation by 36 weeks postmenstrual age and those that were unsuccessful.||||0.59
92210871|NCT06609135|184322697|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 34 weeks between participants that were successful in discontinuation of non-invasive ventilation by 36 weeks postmenstrual age and those that were unsuccessful.||||0.59
92210872|NCT06729593|184322698|SUPERIORITY||Odds Ratio (OR)|0.98||||0.96|TWO_SIDED|95.0|0.45|2.11||Proportional odds model stratified by disease severity (high flow nasal canula(HFNC)/non-invasive ventilation(NIV) or invasive mechanical ventiliation(IMV)/ECMO) at study entry to determine the odds of being in a better category at day 90.|Proportional odds model||Summary odds ratio for being in a better category, active/placebo (95% confidence interval); pvalue|||2.11|0.45|0.96
92210873|NCT06729593|184322699|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.37|TWO_SIDED|95.0|0.39|1.42|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.42|0.39|0.37
92210874|NCT06729593|184322700|SUPERIORITY||Odds Ratio (OR)|0.89||||0.8|TWO_SIDED|95.0|0.37|2.14|||Regression, Logistic||Odds ratio for active/placebo (95% confidence interval); pvalue|||2.14|0.37|0.80
92210875|NCT06729593|184322701|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.88|TWO_SIDED|95.0|0.64|1.67|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.67|0.64|0.88
92210876|NCT06729593|184322702|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.5|TWO_SIDED|95.0|0.43|1.5|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.50|0.43|0.50
92396359|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1848|TWO_SIDED|95.0|-0.68|0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 10||0.13|-0.68|0.1848
92210877|NCT02892344|184322711|SUPERIORITY||Mean Difference (Net)|0.182|||<|0.001|TWO_SIDED|95.0|0.148|0.217|||Mixed Models Analysis|||||0.217|0.148|<0.001
92210878|NCT02892344|184322712|SUPERIORITY||Mean Difference (Net)|-0.218|||<|0.001|TWO_SIDED|95.0|-0.293|-0.143|||Mixed Models Analysis|||||-0.143|-0.293|<0.001
92210879|NCT02892344|184322713|SUPERIORITY||Mean Difference (Net)|0.132|||<|0.001|TWO_SIDED|95.0|0.105|0.158|||Mixed Models Analysis|||||0.158|0.105|<0.001
92210880|NCT02892344|184322714|SUPERIORITY||Mean Difference (Net)|0.176|||<|0.001|TWO_SIDED|95.0|0.145|0.207|||Mixed Models Analysis|||||0.207|0.145|<0.001
92210881|NCT02892344|184322715|SUPERIORITY||Mean Difference (Net)|0.1|||<|0.001|TWO_SIDED|95.0|0.061|0.139|||Mixed Models Analysis|||Pre-dose trough FVC||0.139|0.061|<0.001
92210882|NCT02892344|184322715|SUPERIORITY||Mean Difference (Net)|0.288|||<|0.001|TWO_SIDED|95.0|0.231|0.345|||Mixed Models Analysis|||Pre-dose trough FEF25-75%||0.345|0.231|<0.001
92210883|NCT02892344|184322716|SUPERIORITY||Mean Difference (Net)|27.2|||<|0.001|TWO_SIDED|95.0|22.1|32.4|||Mixed Models Analysis|||Mean Morning PEF||32.4|22.1|<0.001
92210884|NCT02892344|184322716|SUPERIORITY||Mean Difference (Net)|26.1|||<|0.001|TWO_SIDED|95.0|21.0|31.2|||Mixed Models Analysis|||Mean Evening PEF||31.2|21.0|<0.001
92210885|NCT02892344|184322719|SUPERIORITY||Mean Difference (Net)|-0.204|||<|0.001|TWO_SIDED|95.0|-0.277|-0.131|||Mixed Models Analysis|||||-0.131|-0.277|<0.001
92210886|NCT02892344|184322720|SUPERIORITY||Mean Difference (Net)|-0.11|||<|0.001|TWO_SIDED|95.0|-0.16|-0.05|||Mixed Models Analysis|||Night-time number of puffs of rescue medication||-0.05|-0.16|<0.001
92210887|NCT02892344|184322720|SUPERIORITY||Mean Difference (Net)|-0.15|||<|0.001|TWO_SIDED|95.0|-0.22|-0.08|||Mixed Models Analysis|||Daytime number of puffs of rescue medication||-0.08|-0.22|<0.001
92210888|NCT02892344|184322721|SUPERIORITY||Mean Difference (Net)|8.1|||<|0.001|TWO_SIDED|95.0|4.3|11.8|||Mixed Models Analysis|||||11.8|4.3|<0.001
92336557|NCT02258217|184575828|EQUIVALENCE|"We created a difference in PCS score variable. This was calculated as follows:~PCS score (new relapse) - PCS score (after treatment of current relapse). This difference score was tested for equivalence to 0 or not."|Mean Difference (Final Values)|-1.9|STANDARD_DEVIATION|4.42||0.03|TWO_SIDED|95.0|-3.67|-0.18|||Paired t-test, two sided|||"We compared the two PCS scores measured in the same arm at different timepoints (new \& after treatment).~Null Hypothesis = Difference in means is = 0 Alternate Hypothesis = Difference in means is not = 0 We used the Paired t-test to compare the pre - post PCS scores."||-0.18|-3.67|0.03
92336558|NCT02258217|184575829|EQUIVALENCE|"We created a difference in MSIS physical score variable. This was calculated as follows:~MSIS physical score (new relapse) - MSIS physical score (after treatment of current relapse)~This difference score was tested for equivalence to 0 or not."|Median Difference (Final Values)|2.5||||0.19|TWO_SIDED||||||Wilcoxon Signed Rank test|||"We compared the two MSIS physical scores measured in the same arm at different timepoints (new relapse \& after treatment of relapse).~Null Hypothesis = Difference in medians is = 0 Alternate Hypothesis = Difference in medians is not = 0~We used the Wilcoxon Signed rank test to compare the pre - post MSIS physical scores."||||0.19
92336559|NCT02258217|184575830|EQUIVALENCE|"We created a difference in MSIS psychological score variable. This was calculated as follows:~MSIS psychological score (new relapse) - MSIS psychological score (after treatment of current relapse)~This difference score was tested for equivalence to 0 or not."|Mean Difference (Final Values)|3.1|STANDARD_DEVIATION|6.3||0.01|TWO_SIDED|95.0|0.74|5.45|||Paired t-test, 2 sided|||"We compared the two MSIS psychological scores measured in the same arm at different timepoints (new relapse \& after treatment of relapse).~Null Hypothesis = Difference in means is = 0 Alternate Hypothesis = Difference in means is not = 0~We used the Paired t-test to compare the pre - post MSIS psychological scores."||5.45|0.74|0.01
92336560|NCT02258217|184575831|EQUIVALENCE|"We created a difference in EDSS score variable. This was calculated as follows:~EDSS score (new relapse) - EDSS score (after treatment of current relapse)~This difference score was tested for equivalence to 0 or not."|Median Difference (Final Values)|0.0||||0.23|TWO_SIDED||||||Wilcoxon Signed Rank test||The interquartile range for the median difference in EDSS scores is 0.0 to 0.5|"We compared the two EDSS scores measured in the same arm at different timepoints (new relapse \& after treatment of relapse).~Null Hypothesis = Difference in medians is = 0 Alternate Hypothesis = Difference in medians is not = 0~We used the Wilcoxon Signed rank test to compare the pre - post EDSS scores."||||0.23
92336561|NCT02258217|184575832|EQUIVALENCE|"We created a difference in SAGE score variable. This was calculated as follows:~SAGE score (new relapse) - SAGE score (after treatment of current relapse)~This difference score was tested for equivalence to 0 or not."|Median Difference (Final Values)|0.0||||0.44|TWO_SIDED||||||Wilcoxon Signed Rank test||The interquartile range for the difference in medians is -1 to 0.|"We compared the two SAGE scores measured in the same arm at different time points (new relapse \& after treatment of relapse).~Null Hypothesis = Difference in medians is = 0 Alternate Hypothesis = Difference in medians is not = 0~We used the Wilcoxon Signed rank test to compare the pre - post SAGE scores."||||0.44
92336562|NCT01806168|184575835|OTHER|||||||0.046|||||||Mixed Models Analysis|||||||0.046
92336563|NCT01806168|184575835|EQUIVALENCE|a \< 0.05||||||0.021|||||||t-test, 2 sided|||||||0.021
92336564|NCT01806168|184575835|EQUIVALENCE|a \< 0.05||||||0.65|||||||t-test, 2 sided|||||||0.65
92336565|NCT01806168|184575836|OTHER|||||||0.93|||||||Mixed Models Analysis|||To test primary and secondary outcomes, we utilized intention to treat data and linear mixed models with a group random effect. Significance was set to a \< 0.05.||||0.93
92336566|NCT01806168|184575837|OTHER|||||||0.18|||||||Mixed Models Analysis|||||||0.18
92336567|NCT01806168|184575838|OTHER|||||||0.54|||||||Mixed Models Analysis|||||||0.54
92336568|NCT01806168|184575839|OTHER|||||||0.86|||||||Mixed Models Analysis|||||||0.86
92336569|NCT01806168|184575840|OTHER|||||||0.4|||||||Mixed Models Analysis|||||||0.4
92336570|NCT01100723|184575848|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Number of subjects meeting targets were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects with PTH values in the target range was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||< 0.05
92336571|NCT01100723|184575849|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Number of subjects meeting targets were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects with phosphorus values in the target range was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||<0.05
92396360|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0321|TWO_SIDED|95.0|-0.84|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.04|-0.84|0.0321
92336572|NCT01100723|184575850|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Number of subjects meeting targets were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects with PTH values in the target range was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||< 0.05
92336573|NCT01100723|184575851|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Number of subjects meeting targets were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects with phosphorus values in the target range was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||< 0.05
92336574|NCT01100723|184575852|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Number of subjects meeting targets were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects with Ca values in the target range was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||< 0.05
92336575|NCT01100723|184575853|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Proportion of subjects on specified medications were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects on the specified medications was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||< 0.05
92336576|NCT03665077|184575864|OTHER|Linear mixed-effect model of log-transformed oxylipin level, with time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.684|||||||Mixed Models Analysis|Linear mixed-effect model of log-transformed oxylipin level: time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.684
92336577|NCT03665077|184575865|OTHER|Linear mixed-effect model of log-transformed oxylipin level, with time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.02|||||||Mixed Models Analysis|Linear mixed-effect model of log-transformed oxylipin level: time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.02
92336578|NCT03665077|184575866|OTHER|Linear mixed-effect model of log-transformed oxylipin level: time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.058|||||||Mixed Models Analysis|Linear mixed-effect model of log-transformed oxylipin level: time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.058
92336579|NCT02504320|184575876|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|1.0848|||||TWO_SIDED|90.0|0.9528|1.235|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen A) and reference (Regimen D).||1.2350|0.9528|
92336580|NCT02504320|184575876|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|0.7709|||||TWO_SIDED|90.0|0.6767|0.8782|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen B) and reference (Regimen D).||0.8782|0.6767|
92336581|NCT02504320|184575876|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|0.9389|||||TWO_SIDED|90.0|0.8246|1.0689|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen C) and reference (Regimen D).||1.0689|0.8246|
92336582|NCT02504320|184575877|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|1.0435|||||TWO_SIDED|90.0|0.984|1.1066|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen A) and reference (Regimen D).||1.1066|0.9840|
92336583|NCT02504320|184575877|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|0.8777|||||TWO_SIDED|90.0|0.8274|0.9311|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen B) and reference (Regimen D).||0.9311|0.8274|
92336584|NCT02504320|184575877|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|0.954|||||TWO_SIDED|90.0|0.8996|1.0117|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen A) and reference (Regimen D).||1.0117|0.8996|
92336585|NCT02504320|184575878|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|1.0283|||||TWO_SIDED|90.0|0.9691|1.0911|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen A) and reference (Regimen D).||1.0911|0.9691|
92210889|NCT02892344|184322722|SUPERIORITY||Mean Difference (Net)|0.149|||<|0.001|TWO_SIDED|95.0|0.064|0.234|||Mixed Models Analysis|||||0.234|0.064|<0.001
92210890|NCT02892344|184322725|SUPERIORITY||Hazard Ratio (HR)|0.29|||<|0.001|TWO_SIDED|95.0|0.14|0.59|||Regression, Cox|||||0.59|0.14|<0.001
92210891|NCT03938454|184322726|OTHER||Hodges-Lehmann|45.98||||0.0676|TWO_SIDED|95.0|23.5|65.36||P-value is from one-sided Wilcoxon Sign Rank Test with at least 25% percent reduction from Baseline (adjusted for 26 weeks) as outcome variable.|Wilcoxon Sign Rank Test|||||65.36|23.50|0.0676
92210892|NCT03938454|184322732|OTHER||Hodges-Lehmann|50.2||||0.0259|TWO_SIDED|95.0|27.94|67.36||P-value is from one-sided Wilcoxon Sign Rank Test with at least 25% reduction from Baseline (adjusted for 26 weeks) as outcome variable.|Wilcoxon Sign Rank Test|||||67.36|27.94|0.0259
92210893|NCT05888103|184322733|SUPERIORITY||LS Mean Difference|-47.5|||<|0.0001|TWO_SIDED|95.0|-52.35|-42.65|||ANCOVA|||||-42.65|-52.35|<0.0001
92210894|NCT05888103|184322734|SUPERIORITY||LS Mean Difference|-69.73|||<|0.0001|TWO_SIDED|95.0|-76.6|-62.86|||ANCOVA|||||-62.86|-76.60|<0.0001
92336586|NCT02504320|184575878|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|0.9056|||||TWO_SIDED|90.0|0.8516|0.963|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen B) and reference (Regimen D).||0.9630|0.8516|
92336587|NCT02504320|184575878|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimates|0.9463|||||TWO_SIDED|90.0|0.8909|1.0051|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen C) and reference (Regimen D).||1.0051|0.8909|
92336588|NCT02420262|184575882|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for IDegLira vs basal-bolus (IGlar + IAsp) was considered confirmed if the upper boundary of the two-sided 95% confidence interval was strictly below 0.30% or equivalent for non-inferiority using one-sided test for null hypothesis (H0): D ≥0.30% against alternative hypothesis (HA): D \<0.30% was less than or equal to 2.5%, where D is the mean treatment difference (IDegLira minus basal-bolus).|Treatment contrast|-0.02|||<|0.0001|TWO_SIDED|95.0|-0.16|0.12|||Mixed Models Analysis|||Change from baseline in HbA1c was analysed using a mixed model for repeated measurements with an unstructured covariance matrix. The model included treatment, visit and region as fixed factors and baseline HbA1c as covariate. Interactions between visit and all factors and the covariate were also included in the model.||0.12|-0.16|<0.0001
92336589|NCT02420262|184575883|SUPERIORITY_OR_OTHER||Treatment ratio|0.11|||<|0.0001|TWO_SIDED|95.0|0.08|0.17|||Negative binomial regression model||Superiority for IDegLira vs basal-bolus was considered confirmed if the 95% confidence interval for the treatment rate ratio was entirely below 1.0.|Hypoglycaemic episodes were analysed using a negative binomial regression. The model included treatment and region as fixed factors and logarithm of the time period in which a hypoglycaemic episode considered treatment emergent as offset. The test for superiority of the confirmatory secondary endpoints was carried out only if non-inferiority of IDegLira vs basal-bolus for primary endpoint was confirmed.||0.17|0.08|<0.0001
92336590|NCT02420262|184575884|SUPERIORITY_OR_OTHER||Treatment difference|-3.57|||<|0.0001|TWO_SIDED|95.0|-4.19|-2.95|||Mixed Models Analysis||Superiority for IDegLira vs basal-bolus was considered confirmed if the 95% confidence interval for the treatment difference was below 0 or equal to zero.|Body weight measurements were analysed using a linear mixed model with an unstructured covariance matrix. The model included treatment, visit and region as fixed factors and baseline bodyweight as covariate. Interactions between visit and all factors and the covariate were also included in the model. The test for superiority of the confirmatory secondary endpoints was carried out only if non-inferiority of IDegLira vs basal-bolus for primary endpoint was confirmed.||-2.95|-4.19|<0.0001
92336591|NCT02497404|184575887|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.|Proportion (percent)|46.2|||||TWO_SIDED|95.0|30.1|62.8||||||||62.8|30.1|
92336592|NCT02497404|184575888|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.|Proportion (percent)|64.1|||||TWO_SIDED|95.0|47.2|78.8||||||||78.8|47.2|
92336593|NCT02497404|184575889|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.|Proportion (percent)|33.3|||||TWO_SIDED|95.0|19.1|50.2||||||||50.2|19.1|
92396361|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0025|TWO_SIDED|95.0|-1.01|-0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.22|-1.01|0.0025
92396362|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0441|TWO_SIDED|95.0|-0.81|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.01|-0.81|0.0441
92396363|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0422|TWO_SIDED|95.0|-0.82|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.01|-0.82|0.0422
92396364|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.27|-0.45||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.45|-1.27|<0.0001
92396365|NCT03192176|184689393|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.44|-0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.62|-1.44|<0.0001
92396366|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1464|TWO_SIDED|95.0|-0.71|0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||0.11|-0.71|0.1464
92336594|NCT02497404|184575890|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.|Proportion (percent)|89.7|||||TWO_SIDED|95.0|75.8|97.1||||||||97.1|75.8|
92396367|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0144|TWO_SIDED|95.0|-0.91|-0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.10|-0.91|0.0144
92396368|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0013|TWO_SIDED|95.0|-1.06|-0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.26|-1.06|0.0013
92396369|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0596|TWO_SIDED|95.0|-0.8|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.02|-0.80|0.0596
92396370|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.036|TWO_SIDED|95.0|-0.85|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.03|-0.85|0.0360
92396371|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.0006|TWO_SIDED|95.0|-1.15|-0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.32|-1.15|0.0006
92396372|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21||0.0002|TWO_SIDED|95.0|-1.23|-0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.39|-1.23|0.0002
92396373|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.3227|TWO_SIDED|95.0|-0.62|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.21|-0.62|0.3227
92396374|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.022|TWO_SIDED|95.0|-0.89|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.07|-0.89|0.0220
92396375|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.038|TWO_SIDED|95.0|-0.84|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.02|-0.84|0.0380
92396376|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0067|TWO_SIDED|95.0|-0.6|-0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.10|-0.60|0.0067
92396377|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1227|TWO_SIDED|95.0|-0.45|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||0.05|-0.45|0.1227
92396378|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0208|TWO_SIDED|95.0|-0.57|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.05|-0.57|0.0208
92396379|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.2396|TWO_SIDED|95.0|-0.41|0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.10|-0.41|0.2396
92396380|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0022|TWO_SIDED|95.0|-0.67|-0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.15|-0.67|0.0022
92210895|NCT05888103|184322735|SUPERIORITY||LS Mean Difference|-77.83|||<|0.0001|TWO_SIDED|95.0|-85.86|-69.8|||ANCOVA|||||-69.80|-85.86|<0.0001
92396381|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0479|TWO_SIDED|95.0|-0.53|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.00|-0.53|0.0479
92396382|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.4152|TWO_SIDED|95.0|-0.35|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.15|-0.35|0.4152
92396383|NCT03192176|184689393|SUPERIORITY||LSMean differencce|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0262|TWO_SIDED|95.0|-0.52|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.03|-0.52|0.0262
92396384|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.121|TWO_SIDED|95.0|-0.43|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.05|-0.43|0.1210
92396385|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0369|TWO_SIDED|95.0|-0.52|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.02|-0.52|0.0369
92396386|NCT03192176|184689393|SUPERIORITY||LSMean differencce|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.5855|TWO_SIDED|95.0|-0.32|0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.18|-0.32|0.5855
92396387|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0041|TWO_SIDED|95.0|-0.62|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.12|-0.62|0.0041
92396388|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.0614|TWO_SIDED|95.0|-0.5|0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.01|-0.50|0.0614
92396389|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.3391|TWO_SIDED|95.0|-0.36|0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.12|-0.36|0.3391
92396390|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0515|TWO_SIDED|95.0|-0.49|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.00|-0.49|0.0515
92396391|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0667|TWO_SIDED|95.0|-0.47|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.02|-0.47|0.0667
92396392|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0047|TWO_SIDED|95.0|-0.63|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.12|-0.63|0.0047
92396393|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.513|TWO_SIDED|95.0|-0.34|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.17|-0.34|0.5130
92396394|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13||0.0002|TWO_SIDED|95.0|-0.75|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.23|-0.75|0.0002
92396395|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0126|TWO_SIDED|95.0|-0.6|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.07|-0.60|0.0126
92396396|NCT03192176|184689393|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.3507|TWO_SIDED|95.0|-0.36|0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.13|-0.36|0.3507
92396397|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0098|TWO_SIDED|95.0|-0.6|-0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.08|-0.60|0.0098
92396398|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0048|TWO_SIDED|95.0|-0.63|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.11|-0.63|0.0048
92396399|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.8|-0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.28|-0.80|<0.0001
92396400|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.0|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.47|-1.00|<0.0001
92210896|NCT05888103|184322736|SUPERIORITY||LS Mean Difference|-226.61|||<|0.0001|TWO_SIDED|95.0|-244.77|-208.45|||ANCOVA|||||-208.45|-244.77|<0.0001
92210897|NCT05888103|184322737|SUPERIORITY||LS Mean Difference|-31.49|||<|0.0001|TWO_SIDED|95.0|-34.91|-28.07|||ANCOVA|||||-28.07|-34.91|<0.0001
92210898|NCT05888103|184322738|SUPERIORITY||LS Mean Difference|-71.46|||<|0.0001|TWO_SIDED|95.0|-79.24|-63.69|||ANCOVA|||||-63.69|-79.24|<0.0001
92210899|NCT05888103|184322739|SUPERIORITY||LS Mean Difference|2.94||||0.3743|TWO_SIDED|95.0|-3.55|9.42|||ANCOVA|||||9.42|-3.55|0.3743
92396401|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.6761|TWO_SIDED|95.0|-0.32|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.21|-0.32|0.6761
92396402|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0188|TWO_SIDED|95.0|-0.57|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.05|-0.57|0.0188
92396403|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0067|TWO_SIDED|95.0|-0.61|-0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.10|-0.61|0.0067
92396404|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0335|TWO_SIDED|95.0|-0.68|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.03|-0.68|0.0335
92396405|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17||0.0007|TWO_SIDED|95.0|-0.91|-0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.25|-0.91|0.0007
92396406|NCT03192176|184689394|SUPERIORITY||LSMean differencce|-0.8|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.14|-0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.48|-1.14|<0.0001
92396407|NCT03192176|184689394|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.41|-0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.74|-1.41|<0.0001
92396408|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.3227|TWO_SIDED|95.0|-0.5|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||0.17|-0.50|0.3227
92396409|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0085|TWO_SIDED|95.0|-0.77|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.11|-0.77|0.0085
92396410|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17||0.0002|TWO_SIDED|95.0|-0.95|-0.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.30|-0.95|0.0002
92396411|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0102|TWO_SIDED|95.0|-0.87|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.12|-0.87|0.0102
92396412|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.15|-0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.39|-1.15|<0.0001
92396413|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.29|-0.54||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.54|-1.29|<0.0001
92396414|NCT03192176|184689394|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.46|-0.68||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.68|-1.46|<0.0001
92396415|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.074|TWO_SIDED|95.0|-0.73|0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||0.03|-0.73|0.0740
92396416|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.19||0.0024|TWO_SIDED|95.0|-0.97|-0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.21|-0.97|0.0024
92396417|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.17|-0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.41|-1.17|<0.0001
92210900|NCT05888103|184322740|SUPERIORITY||LS Mean Difference|1.07||||0.4228|TWO_SIDED|95.0|-1.54|3.68|||ANCOVA|||||3.68|-1.54|0.4228
92210901|NCT05888103|184322741|SUPERIORITY||LS Mean Difference|-40.57|||<|0.0001|TWO_SIDED|95.0|-44.57|-36.57|||ANCOVA|||||-36.57|-44.57|<0.0001
92396418|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1197|TWO_SIDED|95.0|-0.72|0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.08|-0.72|0.1197
92396419|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0046|TWO_SIDED|95.0|-0.98|-0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.18|-0.98|0.0046
92396420|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.28|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.47|-1.28|<0.0001
92396421|NCT03192176|184689394|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.51|-0.69||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.69|-1.51|<0.0001
92396422|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0553|TWO_SIDED|95.0|-0.8|0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.01|-0.80|0.0553
92396423|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0823|TWO_SIDED|95.0|-0.76|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.05|-0.76|0.0823
92396424|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.006|TWO_SIDED|95.0|-0.96|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.16|-0.96|0.0060
92396425|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0374|TWO_SIDED|95.0|-0.83|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.03|-0.83|0.0374
92396426|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.21||0.0042|TWO_SIDED|95.0|-1.0|-0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.19|-1.00|0.0042
92396427|NCT03192176|184689394|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.38|-0.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.56|-1.38|<0.0001
92396428|NCT03192176|184689394|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.54|-0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.71|-1.54|<0.0001
92396429|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.071|TWO_SIDED|95.0|-0.79|0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||0.03|-0.79|0.0710
92396430|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.016|TWO_SIDED|95.0|-0.91|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.09|-0.91|0.0160
92396431|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.0003|TWO_SIDED|95.0|-1.15|-0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.34|-1.15|0.0003
92396432|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1013|TWO_SIDED|95.0|-0.76|0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||0.07|-0.76|0.1013
92396433|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.0011|TWO_SIDED|95.0|-1.11|-0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.28|-1.11|0.0011
92396434|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.36|-0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.53|-1.36|<0.0001
92396435|NCT03192176|184689394|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.57|-0.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.72|-1.57|<0.0001
92396436|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0476|TWO_SIDED|95.0|-0.85|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.00|-0.85|0.0476
92396437|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.022|TWO_SIDED|95.0|-0.9|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.07|-0.90|0.0220
92396438|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.0019|TWO_SIDED|95.0|-1.07|-0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.24|-1.07|0.0019
92396439|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1457|TWO_SIDED|95.0|-0.74|0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.11|-0.74|0.1457
92396440|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0284|TWO_SIDED|95.0|-0.91|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.05|-0.91|0.0284
92396441|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.22||0.0002|TWO_SIDED|95.0|-1.26|-0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.39|-1.26|0.0002
92396442|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.36|-0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.48|-1.36|<0.0001
92396443|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.4223|TWO_SIDED|95.0|-0.61|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.26|-0.61|0.4223
92396444|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0442|TWO_SIDED|95.0|-0.87|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.01|-0.87|0.0442
92210902|NCT05888103|184322742|SUPERIORITY||LS Mean Difference|-72.34|||<|0.0001|TWO_SIDED|95.0|-79.56|-65.13|||ANCOVA|||||-65.13|-79.56|<0.0001
92210903|NCT05888103|184322743|SUPERIORITY||LS Mean Difference|-36.84|||<|0.0001|TWO_SIDED|95.0|-40.72|-32.96|||ANCOVA|||||-32.96|-40.72|<0.0001
92210904|NCT05888103|184322744|SUPERIORITY||LS Mean Difference|-41.87|||<|0.0001|TWO_SIDED|95.0|-46.28|-37.47|||ANCOVA|||||-37.47|-46.28|<0.0001
92210905|NCT05888103|184322745|SUPERIORITY||LS Mean Difference|2.05||||0.3011|TWO_SIDED|95.0|-1.84|5.93|||ANCOVA|||||5.93|-1.84|0.3011
92210906|NCT05888103|184322746|SUPERIORITY||LS Mean Difference|3.13||||0.2403|TWO_SIDED|95.0|-2.09|8.35|||ANCOVA|||||8.35|-2.09|0.2403
92396445|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.22||0.0071|TWO_SIDED|95.0|-1.02|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.16|-1.02|0.0071
92396446|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0823|TWO_SIDED|95.0|-0.8|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.05|-0.80|0.0823
92396447|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0336|TWO_SIDED|95.0|-0.89|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.04|-0.89|0.0336
92396448|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.32|-0.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.46|-1.32|<0.0001
92396449|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.34|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.47|-1.34|<0.0001
92396450|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.4819|TWO_SIDED|95.0|-0.59|0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.28|-0.59|0.4819
92396451|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0371|TWO_SIDED|95.0|-0.88|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.03|-0.88|0.0371
92396452|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0121|TWO_SIDED|95.0|-0.97|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.12|-0.97|0.0121
92396453|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0281|TWO_SIDED|95.0|-0.89|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.05|-0.89|0.0281
92396454|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0436|TWO_SIDED|95.0|-0.86|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.01|-0.86|0.0436
92396455|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.34|-0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.49|-1.34|<0.0001
92396456|NCT03192176|184689394|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.47|-0.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.60|-1.47|<0.0001
92396457|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1488|TWO_SIDED|95.0|-0.75|0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 10||0.11|-0.75|0.1488
92396458|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0251|TWO_SIDED|95.0|-0.91|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.06|-0.91|0.0251
92396459|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.22||0.0027|TWO_SIDED|95.0|-1.08|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.23|-1.08|0.0027
92396460|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1053|TWO_SIDED|95.0|-0.77|0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||0.07|-0.77|0.1053
92396461|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0304|TWO_SIDED|95.0|-0.9|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.04|-0.90|0.0304
92396462|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.33|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.43|-1.33|<0.0001
92396463|NCT03192176|184689394|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.49|-0.61||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.61|-1.49|<0.0001
92396464|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0873|TWO_SIDED|95.0|-0.81|0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||0.06|-0.81|0.0873
92396465|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0124|TWO_SIDED|95.0|-0.97|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.12|-0.97|0.0124
92396466|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.22||0.0014|TWO_SIDED|95.0|-1.12|-0.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.27|-1.12|0.0014
92396467|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0479|TWO_SIDED|95.0|-0.68|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.00|-0.68|0.0479
92396468|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.2342|TWO_SIDED|95.0|-0.54|0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||0.13|-0.54|0.2342
92396469|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.007|TWO_SIDED|95.0|-0.84|-0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.13|-0.84|0.0070
92396470|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.4291|TWO_SIDED|95.0|-0.49|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.21|-0.49|0.4291
92396471|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0076|TWO_SIDED|95.0|-0.83|-0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.13|-0.83|0.0076
92396472|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.1506|TWO_SIDED|95.0|-0.62|0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.10|-0.62|0.1506
92396473|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.5479|TWO_SIDED|95.0|-0.44|0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.24|-0.44|0.5479
92396474|NCT03192176|184689394|SUPERIORITY||LSMean differencce|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.1427|TWO_SIDED|95.0|-0.57|0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.08|-0.57|0.1427
92210907|NCT05888103|184322747|SUPERIORITY||LS Mean Difference|-30.27|||<|0.0001|TWO_SIDED|95.0|-40.58|-19.95|||ANCOVA|||||-19.95|-40.58|<0.0001
92210908|NCT05888103|184322748|SUPERIORITY||LS Mean Difference|0.68|||<|0.0001|TWO_SIDED|95.0|0.6|0.76|||ANCOVA|||||0.76|0.60|<0.0001
92336595|NCT02497404|184575891|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.|Proportion (percent)|64.1|||||TWO_SIDED|95.0|47.2|78.8||||||||78.8|47.2|
92210909|NCT05888103|184322749|SUPERIORITY||LS Mean Difference|3.01||||0.5877|TWO_SIDED|95.0|-7.88|13.91|||ANCOVA|||||13.91|-7.88|0.5877
92210910|NCT05888103|184322750|SUPERIORITY||LS Mean Difference|-7.96||||0.5019|TWO_SIDED|95.0|-31.17|15.26|||ANCOVA|||||15.26|-31.17|0.5019
92210911|NCT02072434|184322832|OTHER||Odds Ratio (OR)|0.46|||||TWO_SIDED|95.0|0.12|1.43||||||||1.43|0.12|
92336596|NCT02497404|184575892|OTHER||Proportion (percent)|38.5|||||TWO_SIDED|95.0|23.4|55.4||||||Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.||55.4|23.4|
92336597|NCT02497404|184575893|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the graft failure proportion.|Proportion (percent)|2.6|||||TWO_SIDED|95.0|0.07|13.5||||||||13.5|0.07|
92336598|NCT02497404|184575894|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the GVHD proportion.|Proportion (percent)|33.3|||||TWO_SIDED|95.0|19.1|50.2||||||||50.2|19.1|
92336599|NCT02497404|184575895|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the high-risk extensive chronic graft-versus-host-disease proportion.|Proportion (percent)|5.1|||||TWO_SIDED|95.0|0.63|15.3||||||||15.3|0.63|
92336600|NCT01408901|184575896|SUPERIORITY||Mean Difference (Final Values)|28.7||||0.052|TWO_SIDED|95.0|5.1|52.3||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||52.3|5.1|0.052
92336601|NCT01408901|184575896|SUPERIORITY||Mean Difference (Final Values)|-6.3||||0.91|TWO_SIDED|95.0|-30.2|17.6||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||17.6|-30.2|0.91
92336602|NCT01408901|184575896|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0.91|TWO_SIDED|95.0|-25.2|22.4||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||22.4|-25.2|0.91
92336603|NCT01408901|184575896|SUPERIORITY||Mean Difference (Final Values)|33.6||||0.02|TWO_SIDED|95.0|9.4|57.7||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||57.7|9.4|0.02
92336604|NCT01408901|184575897|SUPERIORITY||Hodges-Lehmann estimator|-0.61||||0.49|TWO_SIDED|95.0|-1.67|0.44||The P value is a Hochberg-adjusted P value.|Wilcoxon (Mann-Whitney)|||||0.44|-1.67|0.49
92336605|NCT01408901|184575897|SUPERIORITY||Hodges-Lehmann estimator|-0.67||||0.49|TWO_SIDED|95.0|-1.84|0.51||The P value is a Hochberg-adjusted P value.|Wilcoxon (Mann-Whitney)|||||0.51|-1.84|0.49
92336606|NCT01408901|184575897|SUPERIORITY||Hodges-Lehmann estimator|0.36||||0.49|TWO_SIDED|95.0|-0.66|1.38||The P value is a Hochberg-adjusted P value.|Wilcoxon (Mann-Whitney)|||||1.38|-0.66|0.49
92336607|NCT01408901|184575897|SUPERIORITY||Hodges-Lehmann estimator|0.48||||0.49|TWO_SIDED|95.0|-0.64|1.59||The P value is a Hochberg-adjusted P value.|Wilcoxon (Mann-Whitney)|||||1.59|-0.64|0.49
92336608|NCT01408901|184575898|SUPERIORITY||Mean Difference (Final Values)|3.6|||<|0.01|TWO_SIDED|95.0|2.1|5.0||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||5.0|2.1|<0.01
92336609|NCT01408901|184575898|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.44|TWO_SIDED|95.0|-2.1|0.8||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||0.8|-2.1|0.44
92336610|NCT01408901|184575898|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.44|TWO_SIDED|95.0|-2.1|0.9||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||0.9|-2.1|0.44
92336611|NCT01408901|184575898|SUPERIORITY||Mean Difference (Final Values)|3.7|||<|0.01|TWO_SIDED|95.0|2.2|5.2||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||5.2|2.2|<0.01
92336612|NCT01408901|184575899|SUPERIORITY||Mean Difference (Final Values)|-0.006||||0.09|TWO_SIDED|95.0|-0.012|0.001|||t-test, 2 sided|||||0.001|-0.012|0.09
92396475|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.1498|TWO_SIDED|95.0|-0.56|0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.09|-0.56|0.1498
92396476|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0103|TWO_SIDED|95.0|-0.79|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.11|-0.79|0.0103
92396477|NCT03192176|184689394|SUPERIORITY||LSMean differencce|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.8984|TWO_SIDED|95.0|-0.36|0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.32|-0.36|0.8984
92396478|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0095|TWO_SIDED|95.0|-0.79|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.11|-0.79|0.0095
92396479|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.137|TWO_SIDED|95.0|-0.6|0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.08|-0.60|0.1370
92396480|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.4223|TWO_SIDED|95.0|-0.46|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.19|-0.46|0.4223
92396481|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.3265|TWO_SIDED|95.0|-0.5|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.17|-0.50|0.3265
92396482|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0852|TWO_SIDED|95.0|-0.62|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.04|-0.62|0.0852
92396483|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18||0.0021|TWO_SIDED|95.0|-0.91|-0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.21|-0.91|0.0021
92396484|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5717|TWO_SIDED|95.0|-0.45|0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.25|-0.45|0.5717
92396485|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0084|TWO_SIDED|95.0|-0.82|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.12|-0.82|0.0084
92396486|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0277|TWO_SIDED|95.0|-0.75|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.04|-0.75|0.0277
92396487|NCT03192176|184689394|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.4627|TWO_SIDED|95.0|-0.46|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.21|-0.46|0.4627
92396488|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|1.94||0.0142|TWO_SIDED|95.0|-8.62|-0.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.97|-8.62|0.0142
92396489|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.9|STANDARD_ERROR_OF_MEAN|1.95|<|0.0001|TWO_SIDED|95.0|-11.73|-4.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-4.05|-11.73|<0.0001
92396490|NCT03192176|184689395|SUPERIORITY||LSMean difference|-9.1|STANDARD_ERROR_OF_MEAN|1.95|<|0.0001|TWO_SIDED|95.0|-12.98|-5.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-5.31|-12.98|<0.0001
92396491|NCT03192176|184689395|SUPERIORITY||LSMean difference|-10.5|STANDARD_ERROR_OF_MEAN|1.98|<|0.0001|TWO_SIDED|95.0|-14.39|-6.61||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-6.61|-14.39|<0.0001
92396492|NCT03192176|184689395|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|1.98||0.0819|TWO_SIDED|95.0|-7.36|0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.44|-7.36|0.0819
92396493|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.9|STANDARD_ERROR_OF_MEAN|1.95||0.0004|TWO_SIDED|95.0|-10.78|-3.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-3.09|-10.78|0.0004
92396494|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.9|STANDARD_ERROR_OF_MEAN|1.94||0.0005|TWO_SIDED|95.0|-10.69|-3.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-3.05|-10.69|0.0005
92396495|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.1|STANDARD_ERROR_OF_MEAN|1.98||0.038|TWO_SIDED|95.0|-8.01|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.23|-8.01|0.0380
92396496|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.6|STANDARD_ERROR_OF_MEAN|1.99||0.0002|TWO_SIDED|95.0|-11.46|-3.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-3.64|-11.46|0.0002
92396497|NCT03192176|184689395|SUPERIORITY||LSMean differencce|-8.1|STANDARD_ERROR_OF_MEAN|1.98|<|0.0001|TWO_SIDED|95.0|-11.96|-4.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-4.17|-11.96|<0.0001
92396498|NCT03192176|184689395|SUPERIORITY||LSMean difference|-9.2|STANDARD_ERROR_OF_MEAN|2.01|<|0.0001|TWO_SIDED|95.0|-13.17|-5.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-5.25|-13.17|<0.0001
92396499|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.02||0.0245|TWO_SIDED|95.0|-8.52|-0.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.59|-8.52|0.0245
92396500|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.9|STANDARD_ERROR_OF_MEAN|1.99||0.0031|TWO_SIDED|95.0|-9.83|-2.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-2.01|-9.83|0.0031
92396501|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.98||0.0046|TWO_SIDED|95.0|-9.53|-1.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-1.75|-9.53|0.0046
92396502|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|2.04||0.0064|TWO_SIDED|95.0|-9.61|-1.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.59|-9.61|0.0064
92396503|NCT03192176|184689395|SUPERIORITY||LSMean difference|-8.7|STANDARD_ERROR_OF_MEAN|2.05|<|0.0001|TWO_SIDED|95.0|-12.72|-4.65||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-4.65|-12.72|<0.0001
92396504|NCT03192176|184689395|SUPERIORITY||LSMean difference|-8.8|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-12.78|-4.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-4.75|-12.78|<0.0001
92396505|NCT03192176|184689395|SUPERIORITY||LSMean difference|-10.2|STANDARD_ERROR_OF_MEAN|2.08|<|0.0001|TWO_SIDED|95.0|-14.27|-6.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-6.09|-14.27|<0.0001
92396506|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.4|STANDARD_ERROR_OF_MEAN|2.08||0.0021|TWO_SIDED|95.0|-10.54|-2.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-2.36|-10.54|0.0021
92396507|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.7|STANDARD_ERROR_OF_MEAN|2.05||0.0002|TWO_SIDED|95.0|-11.71|-3.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-3.66|-11.71|0.0002
92396508|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.0|STANDARD_ERROR_OF_MEAN|2.04||0.0007|TWO_SIDED|95.0|-10.96|-2.95||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-2.95|-10.96|0.0007
92396509|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.5|STANDARD_ERROR_OF_MEAN|2.03||0.0075|TWO_SIDED|95.0|-9.46|-1.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.47|-9.46|0.0075
92396510|NCT03192176|184689395|SUPERIORITY||LSMean difference|-8.4|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-12.44|-4.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-4.42|-12.44|<0.0001
92396511|NCT03192176|184689395|SUPERIORITY||LSMean difference|-8.2|STANDARD_ERROR_OF_MEAN|2.03|<|0.0001|TWO_SIDED|95.0|-12.15|-4.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-4.16|-12.15|<0.0001
92396512|NCT03192176|184689395|SUPERIORITY||LSMean difference|-10.2|STANDARD_ERROR_OF_MEAN|2.07|<|0.0001|TWO_SIDED|95.0|-14.3|-6.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-6.16|-14.30|<0.0001
92396513|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.4|STANDARD_ERROR_OF_MEAN|2.06||0.0021|TWO_SIDED|95.0|-10.46|-2.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-2.34|-10.46|0.0021
92396514|NCT03192176|184689395|SUPERIORITY||LSMean difference|-8.3|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-12.25|-4.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-4.25|-12.25|<0.0001
92396515|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.6|STANDARD_ERROR_OF_MEAN|2.02||0.0002|TWO_SIDED|95.0|-11.58|-3.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-3.62|-11.58|0.0002
92396516|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|1.92||0.0123|TWO_SIDED|95.0|-8.6|-1.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.05|-8.60|0.0123
92396517|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.8|STANDARD_ERROR_OF_MEAN|1.92|<|0.0001|TWO_SIDED|95.0|-11.63|-4.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-4.07|-11.63|<0.0001
92396518|NCT03192176|184689395|SUPERIORITY||LSMean difference|-8.0|STANDARD_ERROR_OF_MEAN|1.92|<|0.0001|TWO_SIDED|95.0|-11.8|-4.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-4.23|-11.80|<0.0001
92396519|NCT03192176|184689395|SUPERIORITY||LSMean difference|-9.9|STANDARD_ERROR_OF_MEAN|1.95|<|0.0001|TWO_SIDED|95.0|-13.73|-6.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-6.03|-13.73|<0.0001
92396520|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.3|STANDARD_ERROR_OF_MEAN|1.95||0.0013|TWO_SIDED|95.0|-10.13|-2.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.47|-10.13|0.0013
92396521|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.92||0.0002|TWO_SIDED|95.0|-10.97|-3.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-3.41|-10.97|0.0002
92396522|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.7|STANDARD_ERROR_OF_MEAN|1.91||0.0006|TWO_SIDED|95.0|-10.41|-2.89||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.89|-10.41|0.0006
92396523|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|1.9||0.0119|TWO_SIDED|95.0|-8.54|-1.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.07|-8.54|0.0119
92396524|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.8|STANDARD_ERROR_OF_MEAN|1.9||0.0004|TWO_SIDED|95.0|-10.58|-3.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-3.09|-10.58|0.0004
92396525|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.8|STANDARD_ERROR_OF_MEAN|1.91|<|0.0001|TWO_SIDED|95.0|-11.57|-4.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-4.06|-11.57|<0.0001
92210912|NCT02072434|184322833|OTHER||Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|0.64|3.55||||||||3.55|0.64|
92396526|NCT03192176|184689395|SUPERIORITY||LSMean difference|-9.1|STANDARD_ERROR_OF_MEAN|1.94|<|0.0001|TWO_SIDED|95.0|-12.89|-5.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-5.27|-12.89|<0.0001
92396527|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.4|STANDARD_ERROR_OF_MEAN|1.93||0.0057|TWO_SIDED|95.0|-9.18|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.58|-9.18|0.0057
92396528|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.7|STANDARD_ERROR_OF_MEAN|1.91||0.0006|TWO_SIDED|95.0|-10.4|-2.9||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-2.90|-10.40|0.0006
92396529|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.89||0.0006|TWO_SIDED|95.0|-10.27|-2.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-2.81|-10.27|0.0006
92396530|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.5|STANDARD_ERROR_OF_MEAN|1.93||0.021|TWO_SIDED|95.0|-8.27|-0.68||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.68|-8.27|0.0210
92396531|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.93||0.0002|TWO_SIDED|95.0|-10.98|-3.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-3.38|-10.98|0.0002
92396532|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.3|STANDARD_ERROR_OF_MEAN|1.94||0.0002|TWO_SIDED|95.0|-11.12|-3.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-3.49|-11.12|0.0002
92396533|NCT03192176|184689395|SUPERIORITY||LSMean difference|-9.1|STANDARD_ERROR_OF_MEAN|1.97|<|0.0001|TWO_SIDED|95.0|-12.99|-5.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-5.25|-12.99|<0.0001
92396534|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.96||0.0047|TWO_SIDED|95.0|-9.45|-1.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.73|-9.45|0.0047
92396535|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.94||0.0009|TWO_SIDED|95.0|-10.29|-2.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.67|-10.29|0.0009
92396536|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.92||0.0008|TWO_SIDED|95.0|-10.28|-2.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.71|-10.28|0.0008
92396537|NCT03192176|184689395|SUPERIORITY||LSMean difference|-3.3|STANDARD_ERROR_OF_MEAN|1.93||0.0889|TWO_SIDED|95.0|-7.1|0.51||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.51|-7.10|0.0889
92396538|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.9|STANDARD_ERROR_OF_MEAN|1.94||0.0023|TWO_SIDED|95.0|-9.76|-2.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-2.13|-9.76|0.0023
92396539|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.94||0.0009|TWO_SIDED|95.0|-10.36|-2.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-2.71|-10.36|0.0009
92396540|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.5|STANDARD_ERROR_OF_MEAN|1.98||0.0002|TWO_SIDED|95.0|-11.36|-3.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-3.58|-11.36|0.0002
92396541|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.4|STANDARD_ERROR_OF_MEAN|1.97||0.0255|TWO_SIDED|95.0|-8.3|-0.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.55|-8.30|0.0255
92210913|NCT02072434|184322834|OTHER||Difference between percentages|-0.72|||||TWO_SIDED|95.0|-1.59|0.15||||||||0.15|-1.59|
92210914|NCT01117454|184322837|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank with continuity correction||||||0.008
92396542|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.94||0.0031|TWO_SIDED|95.0|-9.63|-1.98||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-1.98|-9.63|0.0031
92396543|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.7|STANDARD_ERROR_OF_MEAN|1.93||0.0037|TWO_SIDED|95.0|-9.45|-1.85||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-1.85|-9.45|0.0037
92396544|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|1.84||0.0316|TWO_SIDED|95.0|-7.59|-0.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.35|-7.59|0.0316
92396545|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.4|STANDARD_ERROR_OF_MEAN|1.84||0.0036|TWO_SIDED|95.0|-9.02|-1.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.78|-9.02|0.0036
92396546|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.6|STANDARD_ERROR_OF_MEAN|1.85||0.0004|TWO_SIDED|95.0|-10.23|-2.94||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-2.94|-10.23|0.0004
92396547|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.88||0.0001|TWO_SIDED|95.0|-10.93|-3.54||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-3.54|-10.93|0.0001
92396548|NCT03192176|184689395|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.87||0.0502|TWO_SIDED|95.0|-7.37|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.00|-7.37|0.0502
92396549|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.85||0.0025|TWO_SIDED|95.0|-9.28|-1.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.99|-9.28|0.0025
92396550|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.1|STANDARD_ERROR_OF_MEAN|1.84||0.0063|TWO_SIDED|95.0|-8.67|-1.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.44|-8.67|0.0063
92396551|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|1.9||0.0117|TWO_SIDED|95.0|-8.58|-1.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.08|-8.58|0.0117
92396552|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.4|STANDARD_ERROR_OF_MEAN|1.91||0.0047|TWO_SIDED|95.0|-9.17|-1.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.67|-9.17|0.0047
92396553|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.0|STANDARD_ERROR_OF_MEAN|1.92||0.0003|TWO_SIDED|95.0|-10.8|-3.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-3.23|-10.80|0.0003
92396554|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.7|STANDARD_ERROR_OF_MEAN|1.94|<|0.0001|TWO_SIDED|95.0|-11.51|-3.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-3.86|-11.51|<0.0001
92396555|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.2|STANDARD_ERROR_OF_MEAN|1.94||0.0083|TWO_SIDED|95.0|-8.97|-1.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 10||-1.34|-8.97|0.0083
92396556|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.3|STANDARD_ERROR_OF_MEAN|1.92||0.0011|TWO_SIDED|95.0|-10.1|-2.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-2.56|-10.10|0.0011
92396557|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.9||0.0017|TWO_SIDED|95.0|-9.77|-2.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-2.29|-9.77|0.0017
92396558|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.7|STANDARD_ERROR_OF_MEAN|1.86||0.0119|TWO_SIDED|95.0|-8.37|-1.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.05|-8.37|0.0119
92396559|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.86||0.0015|TWO_SIDED|95.0|-9.61|-2.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.29|-9.61|0.0015
92396560|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.7|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-11.38|-3.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-3.99|-11.38|<0.0001
92396561|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.6|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED|95.0|-11.33|-3.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-3.87|-11.33|<0.0001
92396562|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.3|STANDARD_ERROR_OF_MEAN|1.89||0.0051|TWO_SIDED|95.0|-9.07|-1.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.62|-9.07|0.0051
92396563|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.6|STANDARD_ERROR_OF_MEAN|1.87||0.0004|TWO_SIDED|95.0|-10.33|-2.96||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.96|-10.33|0.0004
92396564|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.86||0.0014|TWO_SIDED|95.0|-9.64|-2.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.34|-9.64|0.0014
92396565|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.1|STANDARD_ERROR_OF_MEAN|1.82||0.0054|TWO_SIDED|95.0|-8.67|-1.51||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-1.51|-8.67|0.0054
92396566|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.1|STANDARD_ERROR_OF_MEAN|1.82||0.0008|TWO_SIDED|95.0|-9.71|-2.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.55|-9.71|0.0008
92396567|NCT03192176|184689395|SUPERIORITY||LSMean difference|-7.6|STANDARD_ERROR_OF_MEAN|1.84|<|0.0001|TWO_SIDED|95.0|-11.2|-3.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-3.97|-11.20|<0.0001
92396568|NCT03192176|184689395|SUPERIORITY||LSMean difference|-8.2|STANDARD_ERROR_OF_MEAN|1.85|<|0.0001|TWO_SIDED|95.0|-11.88|-4.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-4.59|-11.88|<0.0001
92396569|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.85||0.0026|TWO_SIDED|95.0|-9.27|-1.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-1.99|-9.27|0.0026
92396570|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.8|STANDARD_ERROR_OF_MEAN|1.83||0.0003|TWO_SIDED|95.0|-10.35|-3.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-3.16|-10.35|0.0003
92396571|NCT03192176|184689395|SUPERIORITY||LSMean difference|-6.3|STANDARD_ERROR_OF_MEAN|1.81||0.0006|TWO_SIDED|95.0|-9.88|-2.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.75|-9.88|0.0006
92396572|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.3|STANDARD_ERROR_OF_MEAN|2.12||0.0126|TWO_SIDED|95.0|-9.48|-1.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-1.15|-9.48|0.0126
92336613|NCT01408901|184575900|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.03|TWO_SIDED|95.0|-0.01|-0.001|||t-test, 2 sided|||||-0.001|-0.010|0.03
92336614|NCT01408901|184575901|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.09|TWO_SIDED|95.0|-0.012|0.001|||t-test, 2 sided|||||0.001|-0.012|0.09
92336615|NCT01408901|184575902|SUPERIORITY||Mean Difference (Final Values)|-0.004||||0.17|TWO_SIDED|95.0|-0.009|0.002|||t-test, 2 sided|||||0.002|-0.009|0.17
92336616|NCT02098395|184575917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|||<|0.0001|TWO_SIDED|95.0|-0.5|-0.2|||Mixed Models Analysis|||Superiority of liraglutide 1.8 mg versus placebo was planned to be concluded if and only if the upper limit of the two-sided 95% confidence interval for the estimated difference in HbA1c was less than zero.||-0.2|-0.5|< 0.0001
92336617|NCT02098395|184575917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|||=|0.0021|TWO_SIDED|95.0|-0.38|-0.08|||Mixed Models Analysis|||Superiority of liraglutide 1.2 mg was planned to be evaluated only if superiority for liraglutide 1.8 mg was concluded.||-0.08|-0.38|= 0.0021
92336618|NCT02098395|184575917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|||=|0.0011|TWO_SIDED|95.0|-0.39|-0.1|||Mixed Models Analysis|||Superiority of liraglutide 0.6 mg versus placebo was planned to be evaluated only if superiority of liraglutide 1.2 mg was concluded.||-0.1|-0.39|= 0.0011
92336619|NCT01509612|184575967|SUPERIORITY|||||||0.397|||||||t-test, 2 sided|||||||0.397
92336620|NCT01509612|184575968|SUPERIORITY|||||||0.02|||||||Chi-squared|||Only those groups were compared who received an intervention||||0.02
92336621|NCT01765569|184575986|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.82|||||TWO_SIDED|90.0|1.63|2.02||||||||2.02|1.63|
92336622|NCT01765569|184575990|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.47|||||TWO_SIDED|90.0|1.3|1.65||||||||1.65|1.3|
92336623|NCT05415462|184576000|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza A H1N1 strain at a 2-sided 0.025 level.|Geometric Mean Ratio (GMR)|1.01|||||TWO_SIDED|97.5|0.952|1.071||||||GMR (mRNA-1010 vs Fluarix) for Influenza A H1N1 Antibody||1.071|0.952|
92336624|NCT05415462|184576000|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza A H3N2 strain at a 2-sided 0.025 level.|GMR|1.657|||||TWO_SIDED|97.5|1.562|1.757||||||GMR (mRNA-1010 vs Fluarix) for Influenza A H3N2 Antibody||1.757|1.562|
92336625|NCT05415462|184576000|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza B Victoria-lineage strain at a 2-sided 0.025 level.|GMR|0.665|||||TWO_SIDED|97.5|0.63|0.702||||||GMR (mRNA-1010 vs Fluarix) for Influenza B/ Victoria Lineage||0.702|0.630|
92336626|NCT05415462|184576000|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza B Yamagata-lineage strain at a 2-sided 0.025 level.|GMR|0.661|||||TWO_SIDED|97.5|0.63|0.693||||||GMR (mRNA-1010 vs Fluarix) for Influenza B/ Yamagata Lineage||0.693|0.630|
92336627|NCT05415462|184576001|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza A H1N1 strain at a 2-sided 0.025 level.|Percentage Difference|5.75|||||TWO_SIDED|97.5|3.12|8.38||||||Percentage Difference (mRNA-1010 vs Fluarix) for Influenza A H1N1 Antibody||8.38|3.12|
92336628|NCT05415462|184576001|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza A H3N2 strain at a 2-sided 0.025 level.|Percentage Difference|16.91|||||TWO_SIDED|97.5|14.27|19.54||||||Percentage Difference (mRNA-1010 vs Fluarix) for Influenza A H3N2 Antibody||19.54|14.27|
92336629|NCT05415462|184576001|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza B Victoria-lineage strain at a 2-sided 0.025 level.|Percentage Difference|-17.34|||||TWO_SIDED|97.5|-20.22|-14.43||||||Percentage Difference (mRNA-1010 vs Fluarix) for Influenza B/Victoria Lineage||-14.43|-20.22|
92336630|NCT05415462|184576001|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza B Yamagata-lineage strain at a 2-sided 0.025 level.|Percentage Difference|-15.68|||||TWO_SIDED|97.5|-18.57|-12.76||||||Percentage Difference (mRNA-1010 vs Fluarix) for Influenza B/Yamagata Lineage||-12.76|-18.57|
92336631|NCT00423813|184576034|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||Overall Comparison||||0.001
92336632|NCT00423813|184576034|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||Pairwise comparison of Xyrem 4.5g and placebo||||<0.001
92336633|NCT00423813|184576034|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||Pairwise comparison of Xyrem 6.0g and placebo||||0.001
92336634|NCT01904032|184576037|SUPERIORITY||Mean Difference (Final Values)|0.7982|STANDARD_ERROR_OF_MEAN|2.0537||0.6982|TWO_SIDED|95.0|-3.2691|4.8656|||t-test, 2 sided|||The null hypothesis is that there is no difference in the CES-D change score between women who received high dose Vitamin D therapy versus low dose Vitamin D therapy.||4.8656|-3.2691|.6982
92336635|NCT01904032|184576038|SUPERIORITY||Mean Difference (Final Values)|-0.0424|STANDARD_ERROR_OF_MEAN|3.6619||0.9908|TWO_SIDED|95.0|-7.2946|7.2097|||t-test, 2 sided|||The null hypothesis is that there is no difference in the PAID change score between women who received high dose Vitamin D therapy versus low dose Vitamin D therapy.||7.2097|-7.2946|.9908
92336636|NCT01904032|184576039|SUPERIORITY||Mean Difference (Final Values)|0.4966|STANDARD_ERROR_OF_MEAN|3.1474||0.8749|TWO_SIDED|95.0|-5.7366|6.7298|||t-test, 2 sided|||The null hypothesis is that there is no difference in the change in systolic blood pressure between women who received high dose Vitamin D therapy versus low dose Vitamin D therapy.||6.7298|-5.7366|.8749
92336637|NCT01904032|184576040|SUPERIORITY||Mean Difference (Final Values)|1.5125|STANDARD_ERROR_OF_MEAN|1.8636||0.4187|TWO_SIDED|95.0|-2.1784|5.2033|||t-test, 2 sided|||The null hypothesis is that there is no difference in the change in diastolic blood pressure between women who received high dose Vitamin D therapy versus low dose Vitamin D therapy.||5.2033|-2.1784|.4187
92336638|NCT02373137|184576057|SUPERIORITY||Coefficient|-1.8|||<|0.001|TWO_SIDED|95.0|-2.8|-1.0|||Regression, Linear|Multiple linear regression model with a covariate for baseline visual acuity.|Coefficient reported in lines, comparing DMEK to UT-DSAEK. Compared to UT-DSAEK, DMEK had 1.8 lines better vision at 6 months.|||-1.0|-2.8|<0.001
92336639|NCT02373137|184576058|SUPERIORITY||Coefficient|-1.5||||0.002|TWO_SIDED|95.0|-2.5|-0.6|||Regression, Linear|Multiple linear regression model with a covariate for baseline visual acuity|Coefficient reported in lines, comparing DMEK to UT-DSAEK. Compared to UT-DSAEK, DMEK had 1.5 lines better vision at 3 months.|Comparison of 3-Month Visual Acuity Between Groups||-0.6|-2.5|0.002
92396573|NCT03192176|184689395|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|2.12||0.1724|TWO_SIDED|95.0|-7.06|1.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||1.27|-7.06|0.1724
92396574|NCT03192176|184689395|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|2.18||0.3548|TWO_SIDED|95.0|-6.31|2.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||2.27|-6.31|0.3548
92396575|NCT03192176|184689395|SUPERIORITY||LSMean difference|-3.8|STANDARD_ERROR_OF_MEAN|2.18||0.086|TWO_SIDED|95.0|-8.04|0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.53|-8.04|0.0860
92396576|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|2.19||0.0111|TWO_SIDED|95.0|-9.89|-1.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-1.28|-9.89|0.0111
92396577|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.19||0.0349|TWO_SIDED|95.0|-8.94|-0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.33|-8.94|0.0349
92396578|NCT03192176|184689395|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|2.12||0.2205|TWO_SIDED|95.0|-6.77|1.57||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||1.57|-6.77|0.2205
92396579|NCT03192176|184689395|SUPERIORITY||LSMean differencce|-4.0|STANDARD_ERROR_OF_MEAN|2.17||0.0645|TWO_SIDED|95.0|-8.29|0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.24|-8.29|0.0645
92396580|NCT03192176|184689395|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|2.16||0.5031|TWO_SIDED|95.0|-5.69|2.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.80|-5.69|0.5031
92396581|NCT03192176|184689395|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|2.24||0.5263|TWO_SIDED|95.0|-5.84|2.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.99|-5.84|0.5263
92396582|NCT03192176|184689395|SUPERIORITY||LSMean differencce|-2.4|STANDARD_ERROR_OF_MEAN|2.24||0.2782|TWO_SIDED|95.0|-6.83|1.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.97|-6.83|0.2782
92396583|NCT03192176|184689395|SUPERIORITY||LSMean difference|-5.3|STANDARD_ERROR_OF_MEAN|2.24||0.0198|TWO_SIDED|95.0|-9.67|-0.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.84|-9.67|0.0198
92396584|NCT03192176|184689395|SUPERIORITY||LSMean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.25||0.0417|TWO_SIDED|95.0|-9.05|-0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.18|-9.05|0.0417
92396585|NCT03192176|184689395|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|2.16||0.2963|TWO_SIDED|95.0|-6.52|2.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.00|-6.52|0.2963
92396586|NCT03192176|184689395|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|2.09||0.5408|TWO_SIDED|95.0|-5.39|2.83||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||2.83|-5.39|0.5408
92396587|NCT03192176|184689395|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|2.07||0.7473|TWO_SIDED|95.0|-4.74|3.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||3.41|-4.74|0.7473
92396588|NCT03192176|184689395|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|2.18||0.9214|TWO_SIDED|95.0|-4.07|4.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.50|-4.07|0.9214
92396589|NCT03192176|184689395|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|2.14||0.9876|TWO_SIDED|95.0|-4.19|4.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.26|-4.19|0.9876
92396590|NCT03192176|184689395|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|2.18||0.2379|TWO_SIDED|95.0|-6.86|1.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.71|-6.86|0.2379
92396591|NCT03192176|184689395|SUPERIORITY||LSMean difference|-3.2|STANDARD_ERROR_OF_MEAN|2.18||0.1491|TWO_SIDED|95.0|-7.45|1.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.14|-7.45|0.1491
92396592|NCT03192176|184689395|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|2.07||0.956|TWO_SIDED|95.0|-3.96|4.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.19|-3.96|0.9560
92396593|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.2|STANDARD_ERROR_OF_MEAN|1.96||0.0089|TWO_SIDED|95.0|-9.01|-1.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.30|-9.01|0.0089
92396594|NCT03192176|184689396|SUPERIORITY||LSMean difference|-8.4|STANDARD_ERROR_OF_MEAN|1.97|<|0.0001|TWO_SIDED|95.0|-12.22|-4.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-4.48|-12.22|<0.0001
92396595|NCT03192176|184689396|SUPERIORITY||LSMean difference|-9.2|STANDARD_ERROR_OF_MEAN|1.96|<|0.0001|TWO_SIDED|95.0|-13.06|-5.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-5.34|-13.06|<0.0001
92396596|NCT03192176|184689396|SUPERIORITY||LSMean difference|-10.7|STANDARD_ERROR_OF_MEAN|1.99|<|0.0001|TWO_SIDED|95.0|-14.58|-6.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-6.75|-14.58|<0.0001
92396597|NCT03192176|184689396|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|2.0||0.063|TWO_SIDED|95.0|-7.65|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.20|-7.65|0.0630
92336640|NCT02373137|184576058|SUPERIORITY||Coefficient|-1.4|||<|0.001|TWO_SIDED|95.0|-2.2|-0.7|||Regression, Linear|Multiple linear regression model with a covariate for baseline visual acuity|Coefficient reported in lines, comparing DMEK to UT-DSAEK. Compared to UT-DSAEK, DMEK had 1.4 lines better vision at 12 months.|Comparison of 12 Month Visual Acuity Between Groups||-0.7|-2.2|<0.001
92396598|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.97||0.0003|TWO_SIDED|95.0|-11.04|-3.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-3.30|-11.04|0.0003
92396599|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.7|STANDARD_ERROR_OF_MEAN|1.96||0.0007|TWO_SIDED|95.0|-10.53|-2.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-2.84|-10.53|0.0007
92336641|NCT02373137|184576060|SUPERIORITY||Coefficient|-77.0||||0.53|TWO_SIDED|95.0|-326.0|172.0|||t-test, 2 sided||Comparing DMEK to UT-DSAEK at 3 months.|||172|-326|0.53
92336642|NCT02373137|184576060|SUPERIORITY||Coefficient|-150.0||||0.17|TWO_SIDED|95.0|-356.0|66.0|||t-test, 2 sided||Comparing DMEK to UT-DSAEK at 6 months.|||66|-356|0.17
92336643|NCT02373137|184576060|SUPERIORITY||Coefficient|-215.0||||0.051|TWO_SIDED|95.0|-430.0|-0.4|||t-test, 2 sided||Comparing DMEK to UT-DSAEK at 12 months.|||-0.4|-430|0.051
92336644|NCT02373137|184576066|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
92336645|NCT02559570|184576080|SUPERIORITY||Least Squares Mean Difference|-0.042|STANDARD_ERROR_OF_MEAN|0.149||0.7789|TWO_SIDED|95.0|-0.335|0.252|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.252|-0.335|0.7789
92336646|NCT02559570|184576080|SUPERIORITY||Least Squares Mean Difference|0.001|STANDARD_ERROR_OF_MEAN|0.143||0.993|TWO_SIDED|95.0|-0.282|0.284|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.284|-0.282|0.9930
92336647|NCT02559570|184576080|SUPERIORITY||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.146||0.4107|TWO_SIDED|95.0|-0.167|0.408|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.408|-0.167|0.4107
92396600|NCT03192176|184689396|SUPERIORITY||LSMean difference|-4.5|STANDARD_ERROR_OF_MEAN|1.98||0.0231|TWO_SIDED|95.0|-8.43|-0.63||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.63|-8.43|0.0231
92396601|NCT03192176|184689396|SUPERIORITY||LSMean difference|-8.0|STANDARD_ERROR_OF_MEAN|1.99|<|0.0001|TWO_SIDED|95.0|-11.94|-4.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-4.09|-11.94|<0.0001
92396602|NCT03192176|184689396|SUPERIORITY||LSMean differencce|-8.0|STANDARD_ERROR_OF_MEAN|1.99|<|0.0001|TWO_SIDED|95.0|-11.87|-4.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-4.05|-11.87|<0.0001
92396603|NCT03192176|184689396|SUPERIORITY||LSMean difference|-9.2|STANDARD_ERROR_OF_MEAN|2.02|<|0.0001|TWO_SIDED|95.0|-13.21|-5.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-5.26|-13.21|<0.0001
92396604|NCT03192176|184689396|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|2.02||0.0177|TWO_SIDED|95.0|-8.8|-0.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.84|-8.80|0.0177
92396605|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.99||0.0012|TWO_SIDED|95.0|-10.45|-2.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-2.60|-10.45|0.0012
92396606|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.6|STANDARD_ERROR_OF_MEAN|2.04||0.0072|TWO_SIDED|95.0|-9.26|-2.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-2.64|-9.26|0.0072
92396607|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.9|STANDARD_ERROR_OF_MEAN|2.04||0.0044|TWO_SIDED|95.0|-9.86|-1.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.84|-9.86|0.0044
92396608|NCT03192176|184689396|SUPERIORITY||LSMean difference|-9.2|STANDARD_ERROR_OF_MEAN|2.05|<|0.0001|TWO_SIDED|95.0|-13.27|-5.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-5.21|-13.27|<0.0001
92396609|NCT03192176|184689396|SUPERIORITY||LSMean difference|-8.6|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-12.57|-4.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-4.55|-12.57|<0.0001
92396610|NCT03192176|184689396|SUPERIORITY||LSMean difference|-10.2|STANDARD_ERROR_OF_MEAN|2.08|<|0.0001|TWO_SIDED|95.0|-14.29|-6.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-6.11|-14.29|<0.0001
92396611|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.0|STANDARD_ERROR_OF_MEAN|2.08||0.0009|TWO_SIDED|95.0|-11.04|-2.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-2.87|-11.04|0.0009
92396612|NCT03192176|184689396|SUPERIORITY||LSMean difference|-8.4|STANDARD_ERROR_OF_MEAN|2.05|<|0.0001|TWO_SIDED|95.0|-12.44|-4.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-4.39|-12.44|<0.0001
92396613|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.6|STANDARD_ERROR_OF_MEAN|2.04||0.0012|TWO_SIDED|95.0|-10.65|-2.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-2.64|-10.65|0.0012
92396614|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.7|STANDARD_ERROR_OF_MEAN|2.04||0.0053|TWO_SIDED|95.0|-9.72|-1.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.71|-9.72|0.0053
92396615|NCT03192176|184689396|SUPERIORITY||LSMean difference|-8.8|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-12.77|-4.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-4.73|-12.77|<0.0001
92396616|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.8|STANDARD_ERROR_OF_MEAN|2.04||0.0001|TWO_SIDED|95.0|-11.84|-3.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-3.84|-11.84|0.0001
92396617|NCT03192176|184689396|SUPERIORITY||LSMean difference|-10.0|STANDARD_ERROR_OF_MEAN|2.07|<|0.0001|TWO_SIDED|95.0|-14.12|-5.96||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-5.96|-14.12|<0.0001
92396618|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.9|STANDARD_ERROR_OF_MEAN|2.07||0.001|TWO_SIDED|95.0|-10.92|-2.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-2.78|-10.92|0.0010
92396619|NCT03192176|184689396|SUPERIORITY||LSMean difference|-8.5|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-12.49|-4.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-4.46|-12.49|<0.0001
92396620|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.1|STANDARD_ERROR_OF_MEAN|2.03||0.0005|TWO_SIDED|95.0|-11.12|-3.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-3.13|-11.12|0.0005
92396621|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.4|STANDARD_ERROR_OF_MEAN|1.93||0.0057|TWO_SIDED|95.0|-9.15|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.58|-9.15|0.0057
92396622|NCT03192176|184689396|SUPERIORITY||LSMean difference|-8.4|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-12.15|-4.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-4.56|-12.15|<0.0001
92396623|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.9|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-11.68|-4.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-4.08|-11.68|<0.0001
92396624|NCT03192176|184689396|SUPERIORITY||LSMean difference|-9.8|STANDARD_ERROR_OF_MEAN|1.96|<|0.0001|TWO_SIDED|95.0|-13.66|-5.93||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-5.93|-13.66|<0.0001
92396625|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.7|STANDARD_ERROR_OF_MEAN|1.95||0.0007|TWO_SIDED|95.0|-10.54|-2.85||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.85|-10.54|0.0007
92396626|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.7|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-11.55|-3.95||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-3.95|-11.55|<0.0001
92396627|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.4|STANDARD_ERROR_OF_MEAN|1.92||0.001|TWO_SIDED|95.0|-10.16|-2.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.60|-10.16|0.0010
92396628|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.2|STANDARD_ERROR_OF_MEAN|1.91||0.0064|TWO_SIDED|95.0|-8.99|-1.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.48|-8.99|0.0064
92396629|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.91||0.0002|TWO_SIDED|95.0|-10.94|-3.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-3.42|-10.94|0.0002
92396630|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.5|STANDARD_ERROR_OF_MEAN|1.92||0.0001|TWO_SIDED|95.0|-11.29|-3.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-3.75|-11.29|0.0001
92396631|NCT03192176|184689396|SUPERIORITY||LSMean difference|-8.9|STANDARD_ERROR_OF_MEAN|1.95|<|0.0001|TWO_SIDED|95.0|-12.69|-5.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-5.03|-12.69|<0.0001
92396632|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.94||0.003|TWO_SIDED|95.0|-9.62|-1.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.99|-9.62|0.0030
92396633|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.1|STANDARD_ERROR_OF_MEAN|1.92||0.0002|TWO_SIDED|95.0|-10.92|-3.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-3.37|-10.92|0.0002
92396634|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.2|STANDARD_ERROR_OF_MEAN|1.9||0.0013|TWO_SIDED|95.0|-9.91|-2.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-2.42|-9.91|0.0013
92210915|NCT00676065|184323034|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.2|0.9|||||Hazard ratio was adjusted for age, BMI, smoking, hypertension and family history|Tested null hypotheses: the ATE hazard ratio for DRSP/E2 vs. OCs containing LNG is higher or equal to 2.||0.9|0.2|
92396635|NCT03192176|184689396|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|1.94||0.0137|TWO_SIDED|95.0|-8.61|-0.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.99|-8.61|0.0137
92396636|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.4|STANDARD_ERROR_OF_MEAN|1.94||0.0002|TWO_SIDED|95.0|-11.24|-3.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-3.60|-11.24|0.0002
92396637|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.0|STANDARD_ERROR_OF_MEAN|1.95||0.0004|TWO_SIDED|95.0|-10.79|-3.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-3.13|-10.79|0.0004
92396638|NCT03192176|184689396|SUPERIORITY||LSMean difference|-8.9|STANDARD_ERROR_OF_MEAN|1.98|<|0.0001|TWO_SIDED|95.0|-12.74|-4.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-4.97|-12.74|<0.0001
92396639|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.9|STANDARD_ERROR_OF_MEAN|1.97||0.0028|TWO_SIDED|95.0|-9.82|-2.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.07|-9.82|0.0028
92396640|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.8|STANDARD_ERROR_OF_MEAN|1.95||0.0006|TWO_SIDED|95.0|-10.6|-2.94||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.94|-10.60|0.0006
92396641|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.93||0.002|TWO_SIDED|95.0|-9.82|-2.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.21|-9.82|0.0020
92396642|NCT03192176|184689396|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.93||0.0588|TWO_SIDED|95.0|-7.46|0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.14|-7.46|0.0588
92396643|NCT03192176|184689396|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.93||0.0018|TWO_SIDED|95.0|-9.9|0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.14|-9.90|0.0018
92396644|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.2|STANDARD_ERROR_OF_MEAN|1.94||0.0017|TWO_SIDED|95.0|-9.98|-2.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-2.34|-9.98|0.0017
92396645|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.97||0.0003|TWO_SIDED|95.0|-11.09|-3.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-3.32|-11.09|0.0003
92396646|NCT03192176|184689396|SUPERIORITY||LSMean difference|-4.7|STANDARD_ERROR_OF_MEAN|1.97||0.081|TWO_SIDED|95.0|-8.55|-0.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.81|-8.55|0.0810
92396647|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.1|STANDARD_ERROR_OF_MEAN|1.94||0.002|TWO_SIDED|95.0|-9.88|-2.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-2.23|-9.88|0.0020
92396648|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.2|STANDARD_ERROR_OF_MEAN|1.93||0.0076|TWO_SIDED|95.0|-8.98|-1.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-1.39|-8.98|0.0076
92396649|NCT03192176|184689396|SUPERIORITY||LSMean difference|-4.4|STANDARD_ERROR_OF_MEAN|1.85||0.0182|TWO_SIDED|95.0|-8.01|-0.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.75|-8.01|0.0182
92396650|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.84||0.0019|TWO_SIDED|95.0|-9.42|-2.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-2.16|-9.42|0.0019
92396651|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.4|STANDARD_ERROR_OF_MEAN|1.86||0.0007|TWO_SIDED|95.0|-10.02|-2.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-2.71|-10.02|0.0007
92396652|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.1|STANDARD_ERROR_OF_MEAN|1.88||0.0002|TWO_SIDED|95.0|-10.76|-3.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-3.35|-10.76|0.0002
92396653|NCT03192176|184689396|SUPERIORITY||LSMean difference|-4.2|STANDARD_ERROR_OF_MEAN|1.88||0.0263|TWO_SIDED|95.0|-7.89|-0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.50|-7.89|0.0263
92396654|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.86||0.0015|TWO_SIDED|95.0|-9.61|-2.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-2.29|-9.61|0.0015
92396655|NCT03192176|184689396|SUPERIORITY||LSMean difference|-4.7|STANDARD_ERROR_OF_MEAN|1.84||0.0113|TWO_SIDED|95.0|-8.32|-1.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.07|-8.32|0.0113
92396656|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.3|STANDARD_ERROR_OF_MEAN|1.91||0.0059|TWO_SIDED|95.0|-9.04|-1.54||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.54|-9.04|0.0059
92396657|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.91||0.0018|TWO_SIDED|95.0|-9.76|-2.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-2.25|-9.76|0.0018
92396658|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.8|STANDARD_ERROR_OF_MEAN|1.93||0.0004|TWO_SIDED|95.0|-10.62|-3.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-3.05|-10.62|0.0004
92396659|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.6|STANDARD_ERROR_OF_MEAN|1.95||0.0001|TWO_SIDED|95.0|-11.39|-3.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-3.73|-11.39|0.0001
92396660|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.94||0.0044|TWO_SIDED|95.0|-9.4|-1.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 10||-1.75|-9.40|0.0044
92396661|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.6|STANDARD_ERROR_OF_MEAN|1.92||0.0006|TWO_SIDED|95.0|-10.4|-2.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-2.84|-10.40|0.0006
92396662|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.91||0.0025|TWO_SIDED|95.0|-9.57|-2.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-2.07|-9.57|0.0025
92396663|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.2|STANDARD_ERROR_OF_MEAN|1.86||0.0059|TWO_SIDED|95.0|-8.81|-1.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.49|-8.81|0.0059
92396664|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.4|STANDARD_ERROR_OF_MEAN|1.86||0.0007|TWO_SIDED|95.0|-10.06|-2.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.74|-10.06|0.0007
92396665|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.5|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-11.18|-3.79||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-3.79|-11.18|<0.0001
92396666|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.5|STANDARD_ERROR_OF_MEAN|1.9||0.0001|TWO_SIDED|95.0|-11.18|-3.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-3.72|-11.18|0.0001
92396667|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.89||0.0022|TWO_SIDED|95.0|-9.56|-2.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.11|-9.56|0.0022
92396668|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.9|STANDARD_ERROR_OF_MEAN|1.87||0.0003|TWO_SIDED|95.0|-10.56|-3.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-3.19|-10.56|0.0003
92396669|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.86||0.002|TWO_SIDED|95.0|-9.44|-2.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.13|-9.44|0.0020
92396670|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.82||0.0023|TWO_SIDED|95.0|-9.18|-2.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.01|-9.18|0.0023
92396671|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.82||0.0004|TWO_SIDED|95.0|-10.06|-2.89||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.89|-10.06|0.0004
92396672|NCT03192176|184689396|SUPERIORITY||LSMean difference|-7.4|STANDARD_ERROR_OF_MEAN|1.84|<|0.0001|TWO_SIDED|95.0|-11.05|-3.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-3.81|-11.05|<0.0001
92396673|NCT03192176|184689396|SUPERIORITY||LSMean difference|-8.1|STANDARD_ERROR_OF_MEAN|1.86|<|0.0001|TWO_SIDED|95.0|-11.8|-4.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-4.49|-11.80|<0.0001
92396674|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.1|STANDARD_ERROR_OF_MEAN|1.85||0.0011|TWO_SIDED|95.0|-9.77|-2.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.47|-9.77|0.0011
92396675|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.9|STANDARD_ERROR_OF_MEAN|1.83||0.0002|TWO_SIDED|95.0|-10.54|-3.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-3.32|-10.54|0.0002
92396676|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.1|STANDARD_ERROR_OF_MEAN|1.82||0.0008|TWO_SIDED|95.0|-9.71|-2.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.56|-9.71|0.0008
92396677|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|2.15||0.0054|TWO_SIDED|95.0|-10.26|-1.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-1.80|-10.26|0.0054
92396678|NCT03192176|184689396|SUPERIORITY||LSMean difference|-3.4|STANDARD_ERROR_OF_MEAN|2.15||0.1145|TWO_SIDED|95.0|-7.63|0.83||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||0.83|-7.63|0.1145
92396679|NCT03192176|184689396|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|2.21||0.2106|TWO_SIDED|95.0|-7.13|1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||1.58|-7.13|0.2106
92396680|NCT03192176|184689396|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|2.21||0.0685|TWO_SIDED|95.0|-8.39|0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.31|-8.39|0.0685
92396681|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.7|STANDARD_ERROR_OF_MEAN|2.22||0.0029|TWO_SIDED|95.0|-11.02|-2.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-2.29|-11.02|0.0029
92396682|NCT03192176|184689396|SUPERIORITY||LSMean difference|-5.0|STANDARD_ERROR_OF_MEAN|2.22||0.0239|TWO_SIDED|95.0|-9.42|-0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.67|-9.42|0.0239
92396683|NCT03192176|184689396|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|2.15||0.2224|TWO_SIDED|95.0|-6.86|1.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||1.60|-6.86|0.2224
92396684|NCT03192176|184689396|SUPERIORITY||LSMean differencce|-4.8|STANDARD_ERROR_OF_MEAN|2.22||0.0308|TWO_SIDED|95.0|-9.17|-0.45||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.45|-9.17|0.0308
92396685|NCT03192176|184689396|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|2.21||0.4194|TWO_SIDED|95.0|-6.13|2.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.56|-6.13|0.4194
92396686|NCT03192176|184689396|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|2.29||0.3759|TWO_SIDED|95.0|-6.55|2.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.48|-6.55|0.3759
92396687|NCT03192176|184689396|SUPERIORITY||LSMean differencce|-2.8|STANDARD_ERROR_OF_MEAN|2.29||0.2285|TWO_SIDED|95.0|-7.26|1.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.74|-7.26|0.2285
92396688|NCT03192176|184689396|SUPERIORITY||LSMean difference|-6.2|STANDARD_ERROR_OF_MEAN|2.29||0.0072|TWO_SIDED|95.0|-10.71|-1.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-1.70|-10.71|0.0072
92396689|NCT03192176|184689396|SUPERIORITY||LSMean difference|-4.9|STANDARD_ERROR_OF_MEAN|2.31||0.0338|TWO_SIDED|95.0|-9.46|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.38|-9.46|0.0338
92396690|NCT03192176|184689396|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|2.21||0.3026|TWO_SIDED|95.0|-6.64|2.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.07|-6.64|0.3026
92396691|NCT03192176|184689396|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|2.16||0.312|TWO_SIDED|95.0|-6.45|2.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||2.07|-6.45|0.3120
92396692|NCT03192176|184689396|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|2.15||0.6816|TWO_SIDED|95.0|-5.11|3.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||3.34|-5.11|0.6816
92396693|NCT03192176|184689396|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|2.26||0.8599|TWO_SIDED|95.0|-4.85|4.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.05|-4.85|0.8599
92396694|NCT03192176|184689396|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|2.23||0.9093|TWO_SIDED|95.0|-4.64|4.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.13|-4.64|0.9093
92396695|NCT03192176|184689396|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|2.26||0.0788|TWO_SIDED|95.0|-8.43|0.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.46|-8.43|0.0788
92396696|NCT03192176|184689396|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|2.26||0.1278|TWO_SIDED|95.0|-7.92|1.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.00|-7.92|0.1278
92396697|NCT03192176|184689396|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|2.15||0.9848|TWO_SIDED|95.0|-4.19|4.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.27|-4.19|0.9848
92396698|NCT03192176|184689397|SUPERIORITY||LSMean difference|14.6|STANDARD_ERROR_OF_MEAN|7.05||0.0388|TWO_SIDED|95.0|0.76|28.49||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|MMRM: Mixed Model Repeated Measures||Week 1||28.49|0.76|0.0388
92396699|NCT03192176|184689397|SUPERIORITY||LSMean difference|23.1|STANDARD_ERROR_OF_MEAN|7.08||0.0012|TWO_SIDED|95.0|9.17|37.02||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||37.02|9.17|0.0012
92396700|NCT03192176|184689397|SUPERIORITY||LSMean difference|37.3|STANDARD_ERROR_OF_MEAN|7.07|<|0.0001|TWO_SIDED|95.0|23.41|51.22||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||51.22|23.41|<0.0001
92396701|NCT03192176|184689397|SUPERIORITY||LSMean difference|41.0|STANDARD_ERROR_OF_MEAN|7.16|<|0.0001|TWO_SIDED|95.0|26.88|55.05||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||55.05|26.88|<0.0001
92396702|NCT03192176|184689397|SUPERIORITY||LSMean difference|8.2|STANDARD_ERROR_OF_MEAN|7.19||0.2569|TWO_SIDED|95.0|-5.98|22.32||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||22.32|-5.98|0.2569
92396703|NCT03192176|184689397|SUPERIORITY||LSMean difference|25.6|STANDARD_ERROR_OF_MEAN|7.07||0.0003|TWO_SIDED|95.0|11.65|39.47||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||39.47|11.65|0.0003
92396704|NCT03192176|184689397|SUPERIORITY||LSMean difference|30.2|STANDARD_ERROR_OF_MEAN|7.03|<|0.0001|TWO_SIDED|95.0|16.39|44.06||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||44.06|16.39|<0.0001
92396705|NCT03192176|184689397|SUPERIORITY||LSMean difference|15.9|STANDARD_ERROR_OF_MEAN|7.02||0.024|TWO_SIDED|95.0|2.11|29.71||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||29.71|2.11|0.0240
92396706|NCT03192176|184689397|SUPERIORITY||LSMean difference|24.5|STANDARD_ERROR_OF_MEAN|7.05||0.0006|TWO_SIDED|95.0|10.62|38.37||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||38.37|10.62|0.0006
92396707|NCT03192176|184689397|SUPERIORITY||LSMean differencce|33.7|STANDARD_ERROR_OF_MEAN|7.03|<|0.0001|TWO_SIDED|95.0|19.87|47.52||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||47.52|19.87|<0.0001
92396708|NCT03192176|184689397|SUPERIORITY||LSMean difference|38.0|STANDARD_ERROR_OF_MEAN|7.15|<|0.0001|TWO_SIDED|95.0|23.93|52.04||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||52.04|23.93|<0.0001
92396709|NCT03192176|184689397|SUPERIORITY||LSMean difference|14.5|STANDARD_ERROR_OF_MEAN|7.16||0.0441|TWO_SIDED|95.0|0.38|28.53||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||28.53|0.38|0.0441
92396710|NCT03192176|184689397|SUPERIORITY||LSMean difference|19.4|STANDARD_ERROR_OF_MEAN|7.04||0.0061|TWO_SIDED|95.0|5.58|33.28||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||33.28|5.58|0.0061
92396711|NCT03192176|184689397|SUPERIORITY||LSMean difference|25.7|STANDARD_ERROR_OF_MEAN|7.01||0.0003|TWO_SIDED|95.0|11.96|39.53||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||39.53|11.96|0.0003
92396712|NCT03192176|184689397|SUPERIORITY||LSMean difference|20.2|STANDARD_ERROR_OF_MEAN|7.55||0.0078|TWO_SIDED|95.0|5.36|35.07||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||35.07|5.36|0.0078
92396713|NCT03192176|184689397|SUPERIORITY||LSMean difference|28.3|STANDARD_ERROR_OF_MEAN|7.59||0.0002|TWO_SIDED|95.0|13.36|43.22||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||43.22|13.36|0.0002
92396714|NCT03192176|184689397|SUPERIORITY||LSMean difference|36.9|STANDARD_ERROR_OF_MEAN|7.55|<|0.0001|TWO_SIDED|95.0|22.07|51.77||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||51.77|22.07|<0.0001
92396715|NCT03192176|184689397|SUPERIORITY||LSMean difference|40.5|STANDARD_ERROR_OF_MEAN|7.69|<|0.0001|TWO_SIDED|95.0|25.41|55.67||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRm|||Week 3||55.67|25.41|<0.0001
92396716|NCT03192176|184689397|SUPERIORITY||LSMean difference|19.7|STANDARD_ERROR_OF_MEAN|7.7||0.0108|TWO_SIDED|95.0|4.59|34.88||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||34.88|4.59|0.0108
92396717|NCT03192176|184689397|SUPERIORITY||LSMean difference|25.0|STANDARD_ERROR_OF_MEAN|7.56||0.0011|TWO_SIDED|95.0|10.09|39.84||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||39.84|10.09|0.0011
92396718|NCT03192176|184689397|SUPERIORITY||LSMean difference|30.9|STANDARD_ERROR_OF_MEAN|7.53|<|0.0001|TWO_SIDED|95.0|16.03|45.67||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||45.67|16.03|<0.0001
92396719|NCT03192176|184689397|SUPERIORITY||LSMean difference|20.5|STANDARD_ERROR_OF_MEAN|7.47||0.0063|TWO_SIDED|95.0|5.84|35.23||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||35.23|5.84|0.0063
92396720|NCT03192176|184689397|SUPERIORITY||LSMean difference|28.7|STANDARD_ERROR_OF_MEAN|7.49||0.0002|TWO_SIDED|95.0|13.98|43.46||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||43.46|13.98|0.0002
92396721|NCT03192176|184689397|SUPERIORITY||LSMean difference|33.3|STANDARD_ERROR_OF_MEAN|7.46|<|0.0001|TWO_SIDED|95.0|18.66|48.0||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||48.00|18.66|<0.0001
92396722|NCT03192176|184689397|SUPERIORITY||LSMean difference|41.5|STANDARD_ERROR_OF_MEAN|7.6|<|0.0001|TWO_SIDED|95.0|26.52|56.41||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||56.41|26.52|<0.0001
92396723|NCT03192176|184689397|SUPERIORITY||LSMean difference|19.7|STANDARD_ERROR_OF_MEAN|7.59||0.0098|TWO_SIDED|95.0|4.78|34.66||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||34.66|4.78|0.0098
92396724|NCT03192176|184689397|SUPERIORITY||LSMean difference|29.9|STANDARD_ERROR_OF_MEAN|7.46|<|0.0001|TWO_SIDED|95.0|15.26|44.61||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||44.61|15.26|<0.0001
92396725|NCT03192176|184689397|SUPERIORITY||LSMean difference|33.1|STANDARD_ERROR_OF_MEAN|7.43|<|0.0001|TWO_SIDED|95.0|18.5|47.73||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||47.73|18.50|<0.0001
92396726|NCT03192176|184689397|SUPERIORITY||LSMean difference|15.4|STANDARD_ERROR_OF_MEAN|7.1||0.0303|TWO_SIDED|95.0|1.48|29.4||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||29.40|1.48|0.0303
92396727|NCT03192176|184689397|SUPERIORITY||LSMean difference|24.8|STANDARD_ERROR_OF_MEAN|7.11||0.0006|TWO_SIDED|95.0|10.77|38.74||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||38.74|10.77|0.0006
92396728|NCT03192176|184689397|SUPERIORITY||LSMean difference|30.8|STANDARD_ERROR_OF_MEAN|7.11|<|0.0001|TWO_SIDED|95.0|16.77|44.75||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||44.75|16.77|<0.0001
92396729|NCT03192176|184689397|SUPERIORITY||LSMean difference|38.8|STANDARD_ERROR_OF_MEAN|7.23|<|0.0001|TWO_SIDED|95.0|24.55|53.0||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||53.00|24.55|<0.0001
92396730|NCT03192176|184689397|SUPERIORITY||LSMean difference|19.1|STANDARD_ERROR_OF_MEAN|7.2||0.0086|TWO_SIDED|95.0|4.88|33.23||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||33.23|4.88|0.0086
92396731|NCT03192176|184689397|SUPERIORITY||LSMean difference|22.3|STANDARD_ERROR_OF_MEAN|7.09||0.0018|TWO_SIDED|95.0|8.33|36.24||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||36.24|8.33|0.0018
92396732|NCT03192176|184689397|SUPERIORITY||LSMean difference|25.1|STANDARD_ERROR_OF_MEAN|7.07||0.0004|TWO_SIDED|95.0|11.24|39.05||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||39.05|11.24|0.0004
92396733|NCT03192176|184689397|SUPERIORITY||LSMean difference|14.6|STANDARD_ERROR_OF_MEAN|6.62||0.0282|TWO_SIDED|95.0|1.56|27.6||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||27.60|1.56|0.0282
92396734|NCT03192176|184689397|SUPERIORITY||LSMean difference|19.9|STANDARD_ERROR_OF_MEAN|6.63||0.0029|TWO_SIDED|95.0|6.85|32.92||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||32.92|6.85|0.0029
92396735|NCT03192176|184689397|SUPERIORITY||LSMean difference|29.7|STANDARD_ERROR_OF_MEAN|6.65|<|0.0001|TWO_SIDED|95.0|16.58|42.73||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||42.73|16.58|<0.0001
92396736|NCT03192176|184689397|SUPERIORITY||LSMean difference|35.7|STANDARD_ERROR_OF_MEAN|6.75|<|0.0001|TWO_SIDED|95.0|22.42|48.99||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||48.99|22.42|<0.0001
92396737|NCT03192176|184689397|SUPERIORITY||LSMean difference|14.6|STANDARD_ERROR_OF_MEAN|6.74||0.0304|TWO_SIDED|95.0|1.4|27.9||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||27.90|1.40|0.0304
92396738|NCT03192176|184689397|SUPERIORITY||LSMean difference|20.4|STANDARD_ERROR_OF_MEAN|6.64||0.0022|TWO_SIDED|95.0|7.38|33.5||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||33.50|7.38|0.0022
92396739|NCT03192176|184689397|SUPERIORITY||LSMean difference|26.5|STANDARD_ERROR_OF_MEAN|6.59|<|0.0001|TWO_SIDED|95.0|13.56|39.5||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||39.50|13.56|<0.0001
92396740|NCT03192176|184689397|SUPERIORITY||LSMean difference|14.4|STANDARD_ERROR_OF_MEAN|6.87||0.0362|TWO_SIDED|95.0|0.93|27.95||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||27.95|0.93|0.0362
92396741|NCT03192176|184689397|SUPERIORITY||LSMean difference|22.9|STANDARD_ERROR_OF_MEAN|6.88||0.0009|TWO_SIDED|95.0|9.41|36.47||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||36.47|9.41|0.0009
92396742|NCT03192176|184689397|SUPERIORITY||LSMean difference|28.9|STANDARD_ERROR_OF_MEAN|6.91|<|0.0001|TWO_SIDED|95.0|15.27|42.46||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||42.46|15.27|<0.0001
92396743|NCT03192176|184689397|SUPERIORITY||LSMean difference|36.8|STANDARD_ERROR_OF_MEAN|7.01|<|0.0001|TWO_SIDED|95.0|22.99|50.57||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||50.57|22.99|<0.0001
92396744|NCT03192176|184689397|SUPERIORITY||LSMean difference|15.6|STANDARD_ERROR_OF_MEAN|6.99||0.0265|TWO_SIDED|95.0|1.83|29.34||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||29.34|1.83|0.0265
92396745|NCT03192176|184689397|SUPERIORITY||LSMean difference|21.2|STANDARD_ERROR_OF_MEAN|6.89||0.0023|TWO_SIDED|95.0|7.6|34.71||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||34.71|7.60|0.0023
92396746|NCT03192176|184689397|SUPERIORITY||LSMean difference|27.1|STANDARD_ERROR_OF_MEAN|6.85|<|0.0001|TWO_SIDED|95.0|13.64|40.59||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||40.59|13.64|<0.0001
92396747|NCT03192176|184689397|SUPERIORITY||LSMean difference|9.6|STANDARD_ERROR_OF_MEAN|6.8||0.158|TWO_SIDED|95.0|-3.75|22.99||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||22.99|-3.75|0.1580
92396748|NCT03192176|184689397|SUPERIORITY||LSMean difference|18.1|STANDARD_ERROR_OF_MEAN|6.8||0.0082|TWO_SIDED|95.0|4.72|31.5||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||31.50|4.72|0.0082
92396749|NCT03192176|184689397|SUPERIORITY||LSMean difference|25.2|STANDARD_ERROR_OF_MEAN|6.85||0.0003|TWO_SIDED|95.0|11.77|38.71||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||38.71|11.77|0.0003
92396750|NCT03192176|184689397|SUPERIORITY||LSMean difference|30.6|STANDARD_ERROR_OF_MEAN|6.96|<|0.0001|TWO_SIDED|95.0|16.93|44.31||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||44.31|16.93|<0.0001
92210916|NCT00676065|184323034|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.2|0.9|||||Hazard ratio was adjusted for age, BMI, smoking, hypertension and family history|Tested null hypotheses: the ATE hazard ratio for DRSP/E2 vs. OCs containing other progestogens is higher or equal to 2.||0.9|0.2|
92396751|NCT03192176|184689397|SUPERIORITY||LSMean difference|11.2|STANDARD_ERROR_OF_MEAN|6.93||0.1074|TWO_SIDED|95.0|-2.45|24.84||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||24.84|-2.45|0.1074
92396752|NCT03192176|184689397|SUPERIORITY||LSMean difference|18.3|STANDARD_ERROR_OF_MEAN|6.83||0.0077|TWO_SIDED|95.0|4.87|31.76||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||31.76|4.87|0.0077
92396753|NCT03192176|184689397|SUPERIORITY||LSMean difference|23.6|STANDARD_ERROR_OF_MEAN|6.79||0.0006|TWO_SIDED|95.0|10.29|37.01||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||37.01|10.29|0.0006
92396754|NCT03192176|184689397|SUPERIORITY||LSMean difference|11.8|STANDARD_ERROR_OF_MEAN|6.47||0.0689|TWO_SIDED|95.0|-0.92|24.53||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||24.53|-0.92|0.0689
92396755|NCT03192176|184689397|SUPERIORITY||LSMean difference|14.6|STANDARD_ERROR_OF_MEAN|6.46||0.025|TWO_SIDED|95.0|1.84|27.27||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||27.27|1.84|0.0250
92396756|NCT03192176|184689397|SUPERIORITY||LSMean difference|24.4|STANDARD_ERROR_OF_MEAN|6.51||0.0002|TWO_SIDED|95.0|11.54|37.17||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||37.17|11.54|0.0002
92396757|NCT03192176|184689397|SUPERIORITY||LSMean difference|29.6|STANDARD_ERROR_OF_MEAN|6.6|<|0.0001|TWO_SIDED|95.0|16.6|42.57||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||42.57|16.60|<0.0001
92396758|NCT03192176|184689397|SUPERIORITY||LSMean difference|8.4|STANDARD_ERROR_OF_MEAN|6.59||0.2041|TWO_SIDED|95.0|-4.58|21.36||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||21.36|-4.58|0.2041
92396759|NCT03192176|184689397|SUPERIORITY||LSMean difference|18.4|STANDARD_ERROR_OF_MEAN|6.5||0.0049|TWO_SIDED|95.0|5.62|31.2||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||31.20|5.62|0.0049
92396760|NCT03192176|184689397|SUPERIORITY||LSMean difference|20.7|STANDARD_ERROR_OF_MEAN|6.45||0.0015|TWO_SIDED|95.0|8.0|33.37||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||33.37|8.00|0.0015
92396761|NCT03192176|184689397|SUPERIORITY||LSMean difference|15.8|STANDARD_ERROR_OF_MEAN|6.66||0.0184|TWO_SIDED|95.0|2.68|28.89||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||28.89|2.68|0.0184
92210917|NCT00676065|184323035|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.8|1.7|||||Hazard ratio was adjusted for age, BMI, current duration of use, and family history of VTE.|Tested null hypotheses: the VTE hazard ratio for DRSP/E2 vs. OCs containing LNG is higher or equal to 2.||1.7|0.8|
92210918|NCT00676065|184323035|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.5|1.0|||||Hazard ratio was adjusted for age, BMI, current duration of use, and family history of VTE.|Tested null hypotheses: the VTE hazard ratio for DRSP/E2 vs. OCs containing other progestogens is higher or equal to 2.||1.0|0.5|
92396762|NCT03192176|184689397|SUPERIORITY||LSMean difference|12.8|STANDARD_ERROR_OF_MEAN|6.66||0.0551|TWO_SIDED|95.0|-0.28|25.93||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||25.93|-0.28|0.0551
92396763|NCT03192176|184689397|SUPERIORITY||LSMean difference|25.8|STANDARD_ERROR_OF_MEAN|6.73||0.0002|TWO_SIDED|95.0|12.51|39.0||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||39.00|12.51|0.0002
92396764|NCT03192176|184689397|SUPERIORITY||LSMean difference|31.6|STANDARD_ERROR_OF_MEAN|6.8|<|0.0001|TWO_SIDED|95.0|18.17|44.93||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||44.93|18.17|<0.0001
92396765|NCT03192176|184689397|SUPERIORITY||LSMean difference|14.3|STANDARD_ERROR_OF_MEAN|6.79||0.0367|TWO_SIDED|95.0|0.89|27.62||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Wek 10||27.62|0.89|0.0367
92396766|NCT03192176|184689397|SUPERIORITY||LSMean difference|21.2|STANDARD_ERROR_OF_MEAN|6.7||0.0017|TWO_SIDED|95.0|7.99|34.34||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||34.34|7.99|0.0017
92396767|NCT03192176|184689397|SUPERIORITY||LSMean difference|24.4|STANDARD_ERROR_OF_MEAN|6.65||0.0003|TWO_SIDED|95.0|11.29|37.44||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||37.44|11.29|0.0003
92396768|NCT03192176|184689397|SUPERIORITY||LSMean difference|14.5|STANDARD_ERROR_OF_MEAN|6.45||0.0255|TWO_SIDED|95.0|1.78|27.15||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||27.15|1.78|0.0255
92396769|NCT03192176|184689397|SUPERIORITY||LSMean difference|15.3|STANDARD_ERROR_OF_MEAN|6.45||0.0186|TWO_SIDED|95.0|2.57|27.94||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||27.94|2.57|0.0186
92396770|NCT03192176|184689397|SUPERIORITY||LSMean difference|26.5|STANDARD_ERROR_OF_MEAN|6.52|<|0.0001|TWO_SIDED|95.0|13.71|39.36||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||39.36|13.71|<0.0001
92396771|NCT03192176|184689397|SUPERIORITY||LSMean difference|29.9|STANDARD_ERROR_OF_MEAN|6.58|<|0.0001|TWO_SIDED|95.0|16.94|42.81||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||42.81|16.94|<0.0001
92396772|NCT03192176|184689397|SUPERIORITY||LSMean difference|13.9|STANDARD_ERROR_OF_MEAN|6.57||0.0347|TWO_SIDED|95.0|1.01|26.85||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||26.85|1.01|0.0347
92396773|NCT03192176|184689397|SUPERIORITY||LSMean difference|21.9|STANDARD_ERROR_OF_MEAN|6.48||0.0008|TWO_SIDED|95.0|9.16|34.65||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||34.65|9.16|0.0008
92396774|NCT03192176|184689397|SUPERIORITY||LSMean difference|23.4|STANDARD_ERROR_OF_MEAN|6.43||0.0003|TWO_SIDED|95.0|10.75|36.04||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||36.04|10.75|0.0003
92396775|NCT03192176|184689397|SUPERIORITY||LSMean difference|14.8|STANDARD_ERROR_OF_MEAN|6.43||0.0221|TWO_SIDED|95.0|2.13|27.43||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||27.43|2.13|0.0221
92396776|NCT03192176|184689397|SUPERIORITY||LSMean difference|17.0|STANDARD_ERROR_OF_MEAN|6.43||0.0087|TWO_SIDED|95.0|4.32|29.62||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||29.62|4.32|0.0087
92396777|NCT03192176|184689397|SUPERIORITY||LSMean difference|26.4|STANDARD_ERROR_OF_MEAN|6.5|<|0.0001|TWO_SIDED|95.0|13.65|39.23||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||39.23|13.65|<0.0001
92396778|NCT03192176|184689397|SUPERIORITY||LSMean difference|31.0|STANDARD_ERROR_OF_MEAN|6.56|<|0.0001|TWO_SIDED|95.0|18.13|43.94||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||43.94|18.13|<0.0001
92396779|NCT03192176|184689397|SUPERIORITY||LSMean difference|14.8|STANDARD_ERROR_OF_MEAN|6.55||0.0244|TWO_SIDED|95.0|1.92|27.7||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||27.70|1.92|0.0244
92396780|NCT03192176|184689397|SUPERIORITY||LSMean difference|21.9|STANDARD_ERROR_OF_MEAN|6.46||0.0008|TWO_SIDED|95.0|9.21|34.62||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||34.62|9.21|0.0008
92396781|NCT03192176|184689397|SUPERIORITY||LSMean difference|23.2|STANDARD_ERROR_OF_MEAN|6.41||0.0003|TWO_SIDED|95.0|10.63|35.83||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||35.83|10.63|0.0003
92396782|NCT03192176|184689397|SUPERIORITY||LSMean difference|9.8|STANDARD_ERROR_OF_MEAN|7.38||0.1871|TWO_SIDED|95.0|-4.77|24.3||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||24.30|-4.77|0.1871
92396783|NCT03192176|184689397|SUPERIORITY||LSMean difference|2.3|STANDARD_ERROR_OF_MEAN|7.38||0.7552|TWO_SIDED|95.0|-12.23|16.83||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMMRM|||Week 13||16.83|-12.23|0.7552
92396784|NCT03192176|184689397|SUPERIORITY||LSMean difference|1.5|STANDARD_ERROR_OF_MEAN|7.61||0.8407|TWO_SIDED|95.0|-13.44|16.5||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||16.50|-13.44|0.8407
92396785|NCT03192176|184689397|SUPERIORITY||LSMean difference|7.2|STANDARD_ERROR_OF_MEAN|7.6||0.345|TWO_SIDED|95.0|-7.77|22.14||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|LSMean difference|||Week 13||22.14|-7.77|0.3450
92396786|NCT03192176|184689397|SUPERIORITY||LSMean difference|5.7|STANDARD_ERROR_OF_MEAN|7.66||0.455|TWO_SIDED|95.0|-9.34|20.8||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||20.80|-9.34|0.4550
92396787|NCT03192176|184689397|SUPERIORITY||LSMean difference|10.4|STANDARD_ERROR_OF_MEAN|7.64||0.1747|TWO_SIDED|95.0|-4.64|25.44||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||25.44|-4.64|0.1747
92396788|NCT03192176|184689397|SUPERIORITY||LSMean difference|4.4|STANDARD_ERROR_OF_MEAN|7.38||0.5476|TWO_SIDED|95.0|-10.08|18.97||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||18.97|-10.08|0.5476
92396789|NCT03192176|184689397|SUPERIORITY||LSMean difference|2.1|STANDARD_ERROR_OF_MEAN|8.01||0.7954|TWO_SIDED|95.0|-13.69|17.84||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||17.84|-13.69|0.7954
92396790|NCT03192176|184689397|SUPERIORITY||LSMean differencce|1.3|STANDARD_ERROR_OF_MEAN|7.96||0.8731|TWO_SIDED|95.0|-14.41|16.95||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||16.95|-14.41|0.8731
92396791|NCT03192176|184689397|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|8.31||0.9689|TWO_SIDED|95.0|-16.68|16.03||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||16.03|-16.68|0.9689
92396792|NCT03192176|184689397|SUPERIORITY||LSMean difference|3.9|STANDARD_ERROR_OF_MEAN|8.28||0.6378|TWO_SIDED|95.0|-12.4|20.21||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||20.21|-12.40|0.6378
92396793|NCT03192176|184689397|SUPERIORITY||LSMean differencce|1.6|STANDARD_ERROR_OF_MEAN|8.33||0.8503|TWO_SIDED|95.0|-14.82|17.97||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||17.97|-14.82|0.8503
92396794|NCT03192176|184689397|SUPERIORITY||LSMean difference|13.0|STANDARD_ERROR_OF_MEAN|8.37||0.1224|TWO_SIDED|95.0|-3.51|29.44||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||29.44|-3.51|0.1224
92396795|NCT03192176|184689397|SUPERIORITY||LSMean difference|7.1|STANDARD_ERROR_OF_MEAN|7.99||0.3743|TWO_SIDED|95.0|-8.62|22.85||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||22.85|-8.62|0.3743
92396796|NCT03192176|184689397|SUPERIORITY||LSMean difference|-7.9|STANDARD_ERROR_OF_MEAN|7.89||0.3173|TWO_SIDED|95.0|-23.44|7.63||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||7.63|-23.44|0.3173
92396797|NCT03192176|184689397|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|7.82||0.7905|TWO_SIDED|95.0|-17.48|13.32||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||13.32|-17.48|0.7905
92396798|NCT03192176|184689397|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|8.24||0.3804|TWO_SIDED|95.0|-23.46|8.98||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||8.98|-23.46|0.3804
92396799|NCT03192176|184689397|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|8.11||0.4905|TWO_SIDED|95.0|-21.58|10.38||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||10.38|-21.58|0.4905
92396800|NCT03192176|184689397|SUPERIORITY||LSMean difference|-12.6|STANDARD_ERROR_OF_MEAN|8.25||0.1289|TWO_SIDED|95.0|-28.83|3.68||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||3.68|-28.83|0.1289
92396801|NCT03192176|184689397|SUPERIORITY||LSMean difference|6.4|STANDARD_ERROR_OF_MEAN|8.24||0.4398|TWO_SIDED|95.0|-9.86|22.61||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||22.61|-9.86|0.4398
92396802|NCT03192176|184689397|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|7.81||0.7921|TWO_SIDED|95.0|-17.45|13.33||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||13.33|-17.45|0.7921
92396803|NCT03192176|184689398|SUPERIORITY||LSMean difference|19.1|STANDARD_ERROR_OF_MEAN|7.28||0.009|TWO_SIDED|95.0|4.82|33.46||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|MMRM: Mixed Model Repeated Measures||Week 1||33.46|4.82|0.0090
92396804|NCT03192176|184689398|SUPERIORITY||LSMean difference|27.0|STANDARD_ERROR_OF_MEAN|7.32||0.0003|TWO_SIDED|95.0|12.61|41.39||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||41.39|12.61|0.0003
92396805|NCT03192176|184689398|SUPERIORITY||LSMean difference|39.5|STANDARD_ERROR_OF_MEAN|7.31|<|0.0001|TWO_SIDED|95.0|25.14|53.9||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||53.90|25.14|<0.0001
92396806|NCT03192176|184689398|SUPERIORITY||LSMean difference|44.8|STANDARD_ERROR_OF_MEAN|7.4|<|0.0001|TWO_SIDED|95.0|30.27|59.39||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||59.39|30.27|<0.0001
92273377|NCT00265083|184449143|SUPERIORITY_OR_OTHER||||||<|0.001||||||The positive test is defined if the comparison between combined golimumab and placebo is significant (p-value \<0.05), and at least one of the pair-wise comparisons is also significant (p-value \<0.05).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||Null hypothesis: No difference in ASAS 20 response comparing Groups I vs. II and Groups I vs. III.||||<0.001
92396807|NCT03192176|184689398|SUPERIORITY||LSMean difference|12.2|STANDARD_ERROR_OF_MEAN|7.43||0.1019|TWO_SIDED|95.0|-2.43|26.79||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||26.79|-2.43|0.1019
92396808|NCT03192176|184689398|SUPERIORITY||LSMean difference|27.8|STANDARD_ERROR_OF_MEAN|7.31||0.0002|TWO_SIDED|95.0|13.45|42.22||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||42.22|13.45|0.0002
92210919|NCT00676065|184323036|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.5|1.4|||||Hazard ratio was adjusted for age, BMI, smoking, educational level and age at menarche.|Tested null hypotheses: the breast cancer hazard ratio for DRSP/E2 vs. OCs containing LNG is higher or equal to 2.||1.4|0.5|
92210920|NCT00676065|184323036|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.6|1.5|||||Hazard ratio was adjusted for age, BMI, smoking, educational level and age at menarche.|Tested null hypotheses: the breast cancer hazard ratio for DRSP/E2 vs. OCs containing other progestogens is higher or equal to 2.||1.5|0.6|
92210921|NCT03952806|184323037|SUPERIORITY||Least Square mean difference|0.35|STANDARD_ERROR_OF_MEAN|0.48||0.4656|TWO_SIDED|95.0|-0.6|1.3|||Mixed Models Analysis|||||1.30|-0.60|0.4656
92210922|NCT02875977|184323078|SUPERIORITY||Odds Ratio (OR)|1.794||||0.17|TWO_SIDED|95.0|0.782|4.119|||Regression, Logistic|||The null hypothesis is that there is no difference in the odds of completing half of the recommended PFPT visits between those assigned to standard versus experimental counseling||4.119|0.782|0.17
92210923|NCT02875977|184323079|SUPERIORITY||Odds Ratio (OR)|0.564||||0.056|TWO_SIDED|95.0|0.314|1.014|||Regression, Logistic|||The null hypothesis is that there is no difference in the odds of initiating PFPT between those assigned to standard versus experimental counseling||1.014|0.314|0.056
92210924|NCT02875977|184323080|SUPERIORITY||Odds Ratio (OR)|1.044||||0.9|TWO_SIDED|95.0|0.517|2.11|||Regression, Logistic|The statistical test of the hypothesis excludes the three individuals with unknown PFPT discharge status||The null hypothesis is that there is no difference in the odds of discharge from PFPT between those assigned to standard versus experimental counseling||2.110|0.517|0.90
92210925|NCT02875977|184323081|SUPERIORITY||Z-Score|-1.4262||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Among those who initiated PFPT therapy, the null hypothesis is that there is no difference in the number of days to initiating PFPT therapy between those assigned to standard versus experimental counseling||||0.16
92210926|NCT02875977|184323082|SUPERIORITY||Mean Difference (Final Values)|-4.456|STANDARD_ERROR_OF_MEAN|6.5481||0.5|TWO_SIDED|95.0|-17.6149|8.7028|||t-test, 2 sided|||The null hypothesis is that there is no difference in the change from pre-PFPT to post-PFPT UDI-6 scores between those assigned to standard versus experimental counseling||8.7028|-17.6149|0.50
92210927|NCT00820027|184323083|SUPERIORITY||Difference in Least Squares Mean|-0.49||||0.018|TWO_SIDED|95.0|-0.89|-0.08|||longitudinal data analysis (LDA)|Estimate from LDA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.||||-0.08|-0.89|0.018
92210928|NCT00820027|184323083|SUPERIORITY||Difference in Least Squares Mean|-0.54||||0.009|TWO_SIDED|95.0|-0.95|-0.14|||LDA|Estimate from LDA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.||||-0.14|-0.95|0.009
92210929|NCT00820027|184323084|SUPERIORITY||Between-Treatment Ratio|0.69|||<|0.001|TWO_SIDED|95.0|0.56|0.85|||ANOVA|Estimate from ANOVA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.|A ratio \<1 indicates a beneficial effect of Etoricoxib.|||0.85|0.56|<0.001
92210930|NCT00820027|184323084|SUPERIORITY||Between-Treatment Ratio|0.66|||<|0.001|TWO_SIDED|95.0|0.54|0.82|||ANOVA|Estimate from ANOVA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.|A ratio \<1 indicates a beneficial effect of Etoricoxib.|||0.82|0.54|<0.001
92210931|NCT00820027|184323085|OTHER||Difference in Percent|0.5||||0.506|TWO_SIDED|95.0|-3.3|2.5|||Miettinen & Nurminen|||||2.5|-3.3|0.506
92210932|NCT00820027|184323085|OTHER||Difference in Percent|0.0|||>|0.999|TWO_SIDED|95.0|-3.8|1.7|||Miettinen & Nurminen|||||1.7|-3.8|>0.999
92210933|NCT00820027|184323085|OTHER||Difference in Percent|0.0|||>|0.999|TWO_SIDED|95.0|-3.8|1.7|||Miettinen & Nurminen|||||1.7|-3.8|>0.999
92210934|NCT00820027|184323085|OTHER||Difference in Percent|0.5||||0.316|TWO_SIDED|95.0|-1.3|2.5|||Miettinen & Nurminen|||||2.5|-1.3|0.316
92210935|NCT00820027|184323085|SUPERIORITY||Difference in Percent|0.0|||>|0.999|TWO_SIDED|95.0|-1.7|1.7|||Miettinen & Nurminen|||||1.7|-1.7|>0.999
92210936|NCT00820027|184323085|OTHER||Difference in Percent|0.0|||>|0.999|TWO_SIDED|95.0|-1.7|3.8|||Miettinen & Nurminen|||Placebo vs. Ibuprofen 1800 mg||3.8|-1.7|>0.999
92210937|NCT00820027|184323085|OTHER||Difference in Percent|-0.5||||0.309|TWO_SIDED|95.0|-2.5|1.2|||Miettinen & Nurminen|||||1.2|-2.5|0.309
92210938|NCT00820027|184323086|OTHER||Difference in Percent|-3.2||||0.054|TWO_SIDED|95.0|-9.2|0.1|||Miettinen & Nurminen|||||0.1|-9.2|0.054
92210939|NCT00820027|184323086|OTHER||Difference in Percent|-2.3||||0.209|TWO_SIDED|95.0|-8.4|1.2|||Miettinen & Nurminen|||||1.2|-8.4|0.209
92210940|NCT00820027|184323086|OTHER||Difference in Percent|-2.3||||0.227|TWO_SIDED|95.0|-8.4|1.3|||Miettinen & Nurminen|||||1.3|-8.4|0.227
92210941|NCT00820027|184323086|OTHER||Difference in Percent|-0.9||||0.415|TWO_SIDED|95.0|-3.7|1.6|||Miettinen & Nurminen|||||1.6|-3.7|0.415
92210942|NCT00820027|184323086|OTHER||Difference in Percent|-0.1||||0.965|TWO_SIDED|95.0|-3.0|2.8|||Miettinen & Nurminen|||||2.8|-3.0|0.965
92210943|NCT00820027|184323086|OTHER||Difference in Percent|2.3||||0.227|TWO_SIDED|95.0|-1.3|8.4|||Miettinen & Nurminen|||Placebo vs. Ibuprofen 1800 mg||8.4|-1.3|0.227
92210944|NCT00820027|184323086|OTHER||Difference in Percent|0.8||||0.437|TWO_SIDED|95.0|-1.7|3.6|||Miettinen & Nurminen|||||3.6|-1.7|0.437
92210945|NCT00820027|184323087|OTHER||Difference in Percent|0.5||||0.806|TWO_SIDED|95.0|-5.3|4.5|||Miettinen & Nurminen|||||4.5|-5.3|0.806
92210946|NCT00820027|184323087|OTHER||Difference in Percent|-1.8||||0.278|TWO_SIDED|95.0|-7.4|1.4|||Miettinen & Nurminen|||||1.4|-7.4|0.278
92210947|NCT00820027|184323087|OTHER||Difference in Percent|0.1||||0.971|TWO_SIDED|95.0|-5.7|3.9|||Miettinen & Nurminen|||||3.9|-5.7|0.971
92210948|NCT00820027|184323087|OTHER||Difference in Percent|0.5||||0.786|TWO_SIDED|95.0|-3.2|4.2|||Miettinen & Nurminen|||||4.2|-3.2|0.786
92210949|NCT00820027|184323087|OTHER||Difference in Percent|-1.8||||0.184|TWO_SIDED|95.0|-5.2|1.0|||Miettinen & Nurminen|||||1.0|-5.2|0.184
92396809|NCT03192176|184689398|SUPERIORITY||LSMean difference|29.5|STANDARD_ERROR_OF_MEAN|7.27|<|0.0001|TWO_SIDED|95.0|15.21|43.82||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||43.82|15.21|<0.0001
92396810|NCT03192176|184689398|SUPERIORITY||LSMean difference|19.9|STANDARD_ERROR_OF_MEAN|7.03||0.0049|TWO_SIDED|95.0|6.1|33.76||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||33.76|6.10|0.0049
92396811|NCT03192176|184689398|SUPERIORITY||LSMean difference|28.6|STANDARD_ERROR_OF_MEAN|7.07|<|0.0001|TWO_SIDED|95.0|14.64|42.46||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||42.46|14.64|<0.0001
92396812|NCT03192176|184689398|SUPERIORITY||LSMean differencce|33.8|STANDARD_ERROR_OF_MEAN|7.05|<|0.0001|TWO_SIDED|95.0|19.96|47.69||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||47.69|19.96|<0.0001
92396813|NCT03192176|184689398|SUPERIORITY||LSMean difference|39.5|STANDARD_ERROR_OF_MEAN|7.16|<|0.0001|TWO_SIDED|95.0|25.4|53.58||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||53.58|25.40|<0.0001
92396814|NCT03192176|184689398|SUPERIORITY||LSMean difference|17.6|STANDARD_ERROR_OF_MEAN|7.17||0.0146|TWO_SIDED|95.0|3.5|31.7||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||31.70|3.50|0.0146
92396815|NCT03192176|184689398|SUPERIORITY||LSMean difference|24.1|STANDARD_ERROR_OF_MEAN|7.06||0.0007|TWO_SIDED|95.0|10.21|38.0||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||38.00|10.21|0.0007
92396816|NCT03192176|184689398|SUPERIORITY||LSMean difference|23.9|STANDARD_ERROR_OF_MEAN|7.03||0.0008|TWO_SIDED|95.0|10.05|37.7||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||37.70|10.05|0.0008
92396817|NCT03192176|184689398|SUPERIORITY||LSMean difference|23.2|STANDARD_ERROR_OF_MEAN|7.46||0.002|TWO_SIDED|95.0|8.56|37.9||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||37.90|8.56|0.0020
92210950|NCT00820027|184323087|OTHER||Difference in Percent|-0.1||||0.971|TWO_SIDED|95.0|-3.9|5.7|||Miettinen & Nurminen|||Placebo vs. Ibuprofen 1800 mg||5.7|-3.9|0.971
92396818|NCT03192176|184689398|SUPERIORITY||LSMean difference|34.4|STANDARD_ERROR_OF_MEAN|7.5|<|0.0001|TWO_SIDED|95.0|19.6|49.11||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||49.11|19.60|<0.0001
92396819|NCT03192176|184689398|SUPERIORITY||LSMean difference|35.6|STANDARD_ERROR_OF_MEAN|7.46|<|0.0001|TWO_SIDED|95.0|20.96|50.32||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||50.32|20.96|<0.0001
92396820|NCT03192176|184689398|SUPERIORITY||LSMean difference|43.0|STANDARD_ERROR_OF_MEAN|7.6|<|0.0001|TWO_SIDED|95.0|28.03|57.93||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||57.93|28.03|<0.0001
92396821|NCT03192176|184689398|SUPERIORITY||LSMean difference|25.4|STANDARD_ERROR_OF_MEAN|7.6||0.0009|TWO_SIDED|95.0|10.48|40.37||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||40.37|10.48|0.0009
92396822|NCT03192176|184689398|SUPERIORITY||LSMean difference|31.2|STANDARD_ERROR_OF_MEAN|7.48|<|0.0001|TWO_SIDED|95.0|16.49|45.9||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||45.90|16.49|<0.0001
92396823|NCT03192176|184689398|SUPERIORITY||LSMean difference|28.9|STANDARD_ERROR_OF_MEAN|7.44||0.0001|TWO_SIDED|95.0|14.24|43.52||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||43.52|14.24|0.0001
92396824|NCT03192176|184689398|SUPERIORITY||LSMean difference|23.1|STANDARD_ERROR_OF_MEAN|7.42||0.0021|TWO_SIDED|95.0|8.46|37.66||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||37.66|8.46|0.0021
92396825|NCT03192176|184689398|SUPERIORITY||LSMean difference|32.1|STANDARD_ERROR_OF_MEAN|7.45|<|0.0001|TWO_SIDED|95.0|17.42|46.71||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||46.71|17.42|<0.0001
92210951|NCT00820027|184323087|OTHER||Difference in Percent|-2.3||||0.113|TWO_SIDED|95.0|-5.8|0.6|||Miettinen & Nurminen|||||0.6|-5.8|0.113
92396826|NCT03192176|184689398|SUPERIORITY||LSMean difference|31.3|STANDARD_ERROR_OF_MEAN|7.42|<|0.0001|TWO_SIDED|95.0|16.73|45.91||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||45.91|16.73|<0.0001
92396827|NCT03192176|184689398|SUPERIORITY||LSMean difference|41.8|STANDARD_ERROR_OF_MEAN|7.56|<|0.0001|TWO_SIDED|95.0|26.95|56.68||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||56.68|26.95|<0.0001
92396828|NCT03192176|184689398|SUPERIORITY||LSMean difference|25.6|STANDARD_ERROR_OF_MEAN|7.54||0.0008|TWO_SIDED|95.0|10.77|40.43||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||40.43|10.77|0.0008
92396829|NCT03192176|184689398|SUPERIORITY||LSMean difference|31.3|STANDARD_ERROR_OF_MEAN|7.42|<|0.0001|TWO_SIDED|95.0|16.75|45.94||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||45.94|16.75|<0.0001
92396830|NCT03192176|184689398|SUPERIORITY||LSMean difference|29.4|STANDARD_ERROR_OF_MEAN|7.39|<|0.0001|TWO_SIDED|95.0|14.91|43.97||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||43.97|14.91|<0.0001
92396831|NCT03192176|184689398|SUPERIORITY||LSMean difference|20.2|STANDARD_ERROR_OF_MEAN|7.05||0.0045|TWO_SIDED|95.0|6.31|34.06||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||34.06|6.31|0.0045
92396832|NCT03192176|184689398|SUPERIORITY||LSMean difference|30.6|STANDARD_ERROR_OF_MEAN|7.07|<|0.0001|TWO_SIDED|95.0|16.68|44.49||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||44.49|16.68|<0.0001
92396833|NCT03192176|184689398|SUPERIORITY||LSMean difference|29.1|STANDARD_ERROR_OF_MEAN|7.08|<|0.0001|TWO_SIDED|95.0|15.14|42.98||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||42.98|15.14|<0.0001
92210952|NCT00820027|184323088|OTHER||Difference in Percent|-5.3||||0.365|TWO_SIDED|95.0|-17.0|6.0|||Miettinen & Nurminen|||||6.0|-17.0|0.365
92210953|NCT00820027|184323088|OTHER||Difference in Percent|-7.2||||0.222||95.0|-18.8|4.2|||Miettinen & Nurminen|||||4.2|-18.8|0.222
92210954|NCT00820027|184323088|OTHER||Difference in Percent|-5.5||||0.349|TWO_SIDED|95.0|-17.2|5.9|||Miettinen & Nurminen|||||5.9|-17.2|0.349
92396834|NCT03192176|184689398|SUPERIORITY||LSMean difference|40.1|STANDARD_ERROR_OF_MEAN|7.19|<|0.0001|TWO_SIDED|95.0|25.96|54.26||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||54.26|25.96|<0.0001
92396835|NCT03192176|184689398|SUPERIORITY||LSMean difference|24.4|STANDARD_ERROR_OF_MEAN|7.15||0.0007|TWO_SIDED|95.0|10.28|38.42||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||38.42|10.28|0.0007
92396836|NCT03192176|184689398|SUPERIORITY||LSMean difference|26.7|STANDARD_ERROR_OF_MEAN|7.06||0.0002|TWO_SIDED|95.0|1.78|40.55||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||40.55|1.78|0.0002
92210955|NCT00820027|184323088|OTHER||Difference in Percent|0.2||||0.965|TWO_SIDED|95.0|-8.7|9.0|||Miettinen & Nurminen|||||9.0|-8.7|0.965
92396837|NCT03192176|184689398|SUPERIORITY||LSMean difference|23.4|STANDARD_ERROR_OF_MEAN|7.03||0.001|TWO_SIDED|95.0|9.55|37.22||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||37.22|9.55|0.0010
92396838|NCT03192176|184689398|SUPERIORITY||LSMean difference|19.1|STANDARD_ERROR_OF_MEAN|6.6||0.004|TWO_SIDED|95.0|6.13|32.11||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||32.11|6.13|0.0040
92396839|NCT03192176|184689398|SUPERIORITY||LSMean difference|23.8|STANDARD_ERROR_OF_MEAN|6.62||0.0004|TWO_SIDED|95.0|10.8|36.83||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||36.83|10.80|0.0004
92210956|NCT00820027|184323088|OTHER||Difference in Percent|-1.6||||0.718|TWO_SIDED|95.0|-10.5|7.3|||Miettinen & Nurminen|||||7.3|-10.5|0.718
92210957|NCT00820027|184323088|OTHER||Difference in Percent|5.5||||0.349|TWO_SIDED|95.0|-5.9|17.2|||Miettinen & Nurminen|||Placebo vs. Ibuprofen 1800 mg||17.2|-5.9|0.349
92210958|NCT00820027|184323088|OTHER||Difference in Percent|1.8||||0.684|TWO_SIDED|95.0|-7.0|10.6|||Miettinen & Nurminen|||||10.6|-7.0|0.684
92210959|NCT00820027|184323089|NON_INFERIORITY|Non-inferiority reached if the upper bound of the 95% confidence interval of the between-treatment difference (Etoricoxib minus Ibuprofen) in LS means is no greater than 1.|Difference in Least Squares Mean|-0.04|||||TWO_SIDED|95.0|-0.36|0.27||||||||0.27|-0.36|
92396840|NCT03192176|184689398|SUPERIORITY||LSMean difference|27.2|STANDARD_ERROR_OF_MEAN|6.64|<|0.0001|TWO_SIDED|95.0|14.1|40.24||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||40.24|14.10|<0.0001
92396841|NCT03192176|184689398|SUPERIORITY||LSMean difference|35.6|STANDARD_ERROR_OF_MEAN|6.75|<|0.0001|TWO_SIDED|95.0|22.34|48.88||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||48.88|22.34|<0.0001
92396842|NCT03192176|184689398|SUPERIORITY||LSMean difference|20.0|STANDARD_ERROR_OF_MEAN|6.72||0.0032|TWO_SIDED|95.0|6.76|33.19||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||33.19|6.76|0.0032
92396843|NCT03192176|184689398|SUPERIORITY||LSMean difference|24.1|STANDARD_ERROR_OF_MEAN|6.64||0.0003|TWO_SIDED|95.0|11.02|37.13||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||37.13|11.02|0.0003
92396844|NCT03192176|184689398|SUPERIORITY||LSMean difference|23.1|STANDARD_ERROR_OF_MEAN|6.59||0.0005|TWO_SIDED|95.0|10.17|36.08||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||36.08|10.17|0.0005
92396845|NCT03192176|184689398|SUPERIORITY||LSMean difference|17.6|STANDARD_ERROR_OF_MEAN|6.82||0.0102|TWO_SIDED|95.0|4.2|31.04||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||31.04|4.20|0.0102
92396846|NCT03192176|184689398|SUPERIORITY||LSMean difference|25.9|STANDARD_ERROR_OF_MEAN|6.83||0.0002|TWO_SIDED|95.0|12.42|39.29||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||39.29|12.42|0.0002
92396847|NCT03192176|184689398|SUPERIORITY||LSMean difference|25.8|STANDARD_ERROR_OF_MEAN|6.87||0.0002|TWO_SIDED|95.0|12.29|39.33||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||39.33|12.29|0.0002
92396848|NCT03192176|184689398|SUPERIORITY||LSMean difference|36.3|STANDARD_ERROR_OF_MEAN|6.97|<|0.0001|TWO_SIDED|95.0|22.58|49.98||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||49.98|22.58|<0.0001
92396849|NCT03192176|184689398|SUPERIORITY||LSMean difference|20.6|STANDARD_ERROR_OF_MEAN|6.94||0.0031|TWO_SIDED|95.0|7.0|34.29||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||34.29|7.00|0.0031
92396850|NCT03192176|184689398|SUPERIORITY||LSMean difference|22.9|STANDARD_ERROR_OF_MEAN|6.85||0.0009|TWO_SIDED|95.0|9.43|36.38||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||36.38|9.43|0.0009
92396851|NCT03192176|184689398|SUPERIORITY||LSMean difference|22.8|STANDARD_ERROR_OF_MEAN|6.8||0.0009|TWO_SIDED|95.0|9.42|36.19||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||36.19|9.42|0.0009
92396852|NCT03192176|184689398|SUPERIORITY||LSMean difference|13.8|STANDARD_ERROR_OF_MEAN|6.71||0.0408|TWO_SIDED|95.0|0.58|26.97||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||26.97|0.58|0.0408
92396853|NCT03192176|184689398|SUPERIORITY||LSMean difference|20.0|STANDARD_ERROR_OF_MEAN|6.72||0.0031|TWO_SIDED|95.0|6.77|33.21||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||33.21|6.77|0.0031
92396854|NCT03192176|184689398|SUPERIORITY||LSMean difference|22.1|STANDARD_ERROR_OF_MEAN|6.76||0.0012|TWO_SIDED|95.0|8.8|35.4||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||35.40|8.80|0.0012
92396855|NCT03192176|184689398|SUPERIORITY||LSMean difference|29.9|STANDARD_ERROR_OF_MEAN|6.87|<|0.0001|TWO_SIDED|95.0|16.39|43.42||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||43.42|16.39|<0.0001
92396856|NCT03192176|184689398|SUPERIORITY||LSMean difference|14.9|STANDARD_ERROR_OF_MEAN|6.84||0.0303|TWO_SIDED|95.0|1.42|28.32||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||28.32|1.42|0.0303
92396857|NCT03192176|184689398|SUPERIORITY||LSMean difference|19.6|STANDARD_ERROR_OF_MEAN|6.75||0.004|TWO_SIDED|95.0|6.3|32.87||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||32.87|6.30|0.0040
92210960|NCT00820027|184323089|NON_INFERIORITY|Non-inferiority reached if the upper bound of the 95% confidence interval of the between-treatment difference (Etoricoxib minus Ibuprofen) in LS means is no greater than 1.|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.42|0.22||||||||0.22|-0.42|
92396858|NCT03192176|184689398|SUPERIORITY||LSMean difference|19.5|STANDARD_ERROR_OF_MEAN|6.71||0.0038|TWO_SIDED|95.0|6.34|32.73||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||32.73|6.34|0.0038
92396859|NCT03192176|184689398|SUPERIORITY||LSMean difference|16.0|STANDARD_ERROR_OF_MEAN|6.45||0.0137|TWO_SIDED|95.0|3.29|28.68||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||28.68|3.29|0.0137
92396860|NCT03192176|184689398|SUPERIORITY||LSMean difference|18.1|STANDARD_ERROR_OF_MEAN|6.45||0.0052|TWO_SIDED|95.0|5.44|30.82||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||30.82|5.44|0.0052
92396861|NCT03192176|184689398|SUPERIORITY||LSMean difference|22.6|STANDARD_ERROR_OF_MEAN|6.5||0.0006|TWO_SIDED|95.0|9.81|35.39||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||35.39|9.81|0.0006
92396862|NCT03192176|184689398|SUPERIORITY||LSMean difference|29.4|STANDARD_ERROR_OF_MEAN|6.58|<|0.0001|TWO_SIDED|95.0|16.41|42.32||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||42.32|16.41|<0.0001
92396863|NCT03192176|184689398|SUPERIORITY||LSMean difference|13.7|STANDARD_ERROR_OF_MEAN|6.57||0.0378|TWO_SIDED|95.0|0.78|26.63||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||26.63|0.78|0.0378
92396864|NCT03192176|184689398|SUPERIORITY||LSMean difference|20.1|STANDARD_ERROR_OF_MEAN|6.49||0.002|TWO_SIDED|95.0|7.31|32.85||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||32.85|7.31|0.002
92396865|NCT03192176|184689398|SUPERIORITY||LSMean difference|17.4|STANDARD_ERROR_OF_MEAN|6.44||0.0071|TWO_SIDED|95.0|4.77|30.09||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||30.09|4.77|0.0071
92396866|NCT03192176|184689398|SUPERIORITY||LSMean difference|20.7|STANDARD_ERROR_OF_MEAN|6.63||0.002|TWO_SIDED|95.0|7.61|33.71||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||33.71|7.61|0.0020
92396867|NCT03192176|184689398|SUPERIORITY||LSMean difference|18.7|STANDARD_ERROR_OF_MEAN|6.63||0.005|TWO_SIDED|95.0|5.68|31.79||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||31.79|5.68|0.0050
92396868|NCT03192176|184689398|SUPERIORITY||LSMean difference|24.4|STANDARD_ERROR_OF_MEAN|6.71||0.0003|TWO_SIDED|95.0|11.2|37.6||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||37.60|11.20|0.0003
92396869|NCT03192176|184689398|SUPERIORITY||LSMean difference|32.1|STANDARD_ERROR_OF_MEAN|6.77|<|0.0001|TWO_SIDED|95.0|18.77|45.42||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||45.42|18.77|<0.0001
92396870|NCT03192176|184689398|SUPERIORITY||LSMean difference|19.1|STANDARD_ERROR_OF_MEAN|6.76||0.005|TWO_SIDED|95.0|5.79|32.38||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Wek 10||32.38|5.79|0.0050
92396871|NCT03192176|184689398|SUPERIORITY||LSMean difference|23.1|STANDARD_ERROR_OF_MEAN|6.68||0.0006|TWO_SIDED|95.0|9.95|36.22||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||36.22|9.95|0.0006
92396872|NCT03192176|184689398|SUPERIORITY||LSMean difference|22.8|STANDARD_ERROR_OF_MEAN|6.62||0.0006|TWO_SIDED|95.0|9.79|35.85||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||35.85|9.79|0.0006
92396873|NCT03192176|184689398|SUPERIORITY||LSMean difference|18.5|STANDARD_ERROR_OF_MEAN|6.32||0.0036|TWO_SIDED|95.0|6.11|30.98||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||30.98|6.11|0.0036
92396874|NCT03192176|184689398|SUPERIORITY||LSMean difference|20.2|STANDARD_ERROR_OF_MEAN|6.32||0.0015|TWO_SIDED|95.0|7.77|32.65||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||32.65|7.77|0.0015
92396875|NCT03192176|184689398|SUPERIORITY||LSMean difference|25.0|STANDARD_ERROR_OF_MEAN|6.39||0.0001|TWO_SIDED|95.0|12.41|37.57||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||37.57|12.41|0.0001
92396876|NCT03192176|184689398|SUPERIORITY||LSMean difference|29.8|STANDARD_ERROR_OF_MEAN|6.45|<|0.0001|TWO_SIDED|95.0|17.12|42.49||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||42.49|17.12|<0.0001
92396877|NCT03192176|184689398|SUPERIORITY||LSMean difference|19.6|STANDARD_ERROR_OF_MEAN|6.43||0.0026|TWO_SIDED|95.0|6.9|32.21||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||32.21|6.90|0.0026
92396878|NCT03192176|184689398|SUPERIORITY||LSMean difference|23.4|STANDARD_ERROR_OF_MEAN|6.36||0.0003|TWO_SIDED|95.0|10.92|35.94||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||35.94|10.92|0.0003
92396879|NCT03192176|184689398|SUPERIORITY||LSMean difference|21.7|STANDARD_ERROR_OF_MEAN|6.3||0.0006|TWO_SIDED|95.0|9.34|34.14||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||34.14|9.34|0.0006
92396880|NCT03192176|184689398|SUPERIORITY||LSMean difference|19.3|STANDARD_ERROR_OF_MEAN|6.37||0.0026|TWO_SIDED|95.0|6.78|31.83||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||31.83|6.78|0.0026
92396881|NCT03192176|184689398|SUPERIORITY||LSMean difference|20.8|STANDARD_ERROR_OF_MEAN|6.36||0.0012|TWO_SIDED|95.0|8.29|33.33||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||33.33|8.29|0.0012
92396882|NCT03192176|184689398|SUPERIORITY||LSMean difference|25.1|STANDARD_ERROR_OF_MEAN|6.44||0.0001|TWO_SIDED|95.0|12.48|37.82||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||37.82|12.48|0.0001
92396883|NCT03192176|184689398|SUPERIORITY||LSMean difference|31.9|STANDARD_ERROR_OF_MEAN|6.5|<|0.0001|TWO_SIDED|95.0|19.11|44.67||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||44.67|19.11|<0.0001
92396884|NCT03192176|184689398|SUPERIORITY||LSMean difference|20.1|STANDARD_ERROR_OF_MEAN|6.48||0.0021|TWO_SIDED|95.0|7.32|32.81||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||32.81|7.32|0.0021
92396885|NCT03192176|184689398|SUPERIORITY||LSMean difference|22.7|STANDARD_ERROR_OF_MEAN|6.4||0.0004|TWO_SIDED|95.0|10.1|35.29||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||35.29|10.10|0.0004
92396886|NCT03192176|184689398|SUPERIORITY||LSMean difference|21.9|STANDARD_ERROR_OF_MEAN|6.34||0.0006|TWO_SIDED|95.0|9.42|34.38||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||34.38|9.42|0.0006
92396887|NCT03192176|184689398|SUPERIORITY||LSMean difference|17.0|STANDARD_ERROR_OF_MEAN|7.82||0.0304|TWO_SIDED|95.0|1.62|32.4||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||32.40|1.62|0.0304
92396888|NCT03192176|184689398|SUPERIORITY||LSMean difference|6.8|STANDARD_ERROR_OF_MEAN|7.82||0.3857|TWO_SIDED|95.0|-8.6|22.19||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMMRM|||Week 13||22.19|-8.60|0.3857
92396889|NCT03192176|184689398|SUPERIORITY||LSMean difference|7.5|STANDARD_ERROR_OF_MEAN|8.06||0.3497|TWO_SIDED|95.0|-8.31|23.4||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||23.40|-8.31|0.3497
92396890|NCT03192176|184689398|SUPERIORITY||LSMean difference|10.9|STANDARD_ERROR_OF_MEAN|8.05||0.1771|TWO_SIDED|95.0|-4.95|26.75||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|LSMean difference|||Week 13||26.75|-4.95|0.1771
92396891|NCT03192176|184689398|SUPERIORITY||LSMean difference|16.3|STANDARD_ERROR_OF_MEAN|8.1||0.0444|TWO_SIDED|95.0|0.41|32.29||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||32.29|0.41|0.0444
92396892|NCT03192176|184689398|SUPERIORITY||LSMean difference|11.7|STANDARD_ERROR_OF_MEAN|8.1||0.15|TWO_SIDED|95.0|-4.25|27.63||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||27.63|-4.25|0.1500
92396893|NCT03192176|184689398|SUPERIORITY||LSMean difference|3.9|STANDARD_ERROR_OF_MEAN|7.83||0.6196|TWO_SIDED|95.0|-11.51|19.29||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||19.29|-11.51|0.6196
92396894|NCT03192176|184689398|SUPERIORITY||LSMean difference|9.4|STANDARD_ERROR_OF_MEAN|8.48||0.2664|TWO_SIDED|95.0|-7.25|26.15||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||26.15|-7.25|0.2664
92396895|NCT03192176|184689398|SUPERIORITY||LSMean differencce|4.0|STANDARD_ERROR_OF_MEAN|8.44||0.6388|TWO_SIDED|95.0|-12.66|20.59||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||20.59|-12.66|0.6388
92396896|NCT03192176|184689398|SUPERIORITY||LSMean difference|4.9|STANDARD_ERROR_OF_MEAN|8.79||0.5797|TWO_SIDED|95.0|-12.43|22.19||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||22.19|-12.43|0.5797
92396897|NCT03192176|184689398|SUPERIORITY||LSMean difference|6.2|STANDARD_ERROR_OF_MEAN|8.78||0.4817|TWO_SIDED|95.0|-11.1|23.47||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||23.47|-11.10|0.4817
92396898|NCT03192176|184689398|SUPERIORITY||LSMean differencce|10.5|STANDARD_ERROR_OF_MEAN|8.8||0.2358|TWO_SIDED|95.0|-6.87|27.79||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||27.79|-6.87|0.2358
92396899|NCT03192176|184689398|SUPERIORITY||LSMean difference|14.3|STANDARD_ERROR_OF_MEAN|8.86||0.107|TWO_SIDED|95.0|-3.11|31.77||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||31.77|-3.11|0.1070
92396900|NCT03192176|184689398|SUPERIORITY||LSMean difference|6.7|STANDARD_ERROR_OF_MEAN|8.47||0.4268|TWO_SIDED|95.0|-9.94|23.43||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||23.43|-9.94|0.4268
92396901|NCT03192176|184689398|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|8.61||0.9197|TWO_SIDED|95.0|-17.81|16.08||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||16.08|-17.81|0.9197
92396902|NCT03192176|184689398|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|8.54||0.9954|TWO_SIDED|95.0|-16.77|16.87||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||16.87|-16.77|0.9954
92210961|NCT00820027|184323090|OTHER|Estimate from ANOVA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.|Between-Treatment Ratio|1.05|||||TWO_SIDED|95.0|0.89|1.23|||||A ratio \<1 indicates a beneficial effect of Etoricoxib.|||1.23|0.89|
92210962|NCT00820027|184323090|OTHER|Estimate from ANOVA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.|Between-Treatment Ratio|1.01|||||TWO_SIDED|95.0|0.85|1.18|||||A ratio \<1 indicates a beneficial effect of Etoricoxib.|||1.18|0.85|
92396903|NCT03192176|184689398|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|9.0||0.9607|TWO_SIDED|95.0|-17.28|18.17||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||18.17|-17.28|0.9607
92396904|NCT03192176|184689398|SUPERIORITY||LSMean difference|-3.9|STANDARD_ERROR_OF_MEAN|8.87||0.6625|TWO_SIDED|95.0|-21.33|13.59||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||13.59|-21.33|0.6625
92396905|NCT03192176|184689398|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|9.01||0.9952|TWO_SIDED|95.0|-17.81|17.7||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||17.70|-17.81|0.9952
92396906|NCT03192176|184689398|SUPERIORITY||LSMean difference|7.6|STANDARD_ERROR_OF_MEAN|9.02||0.4001|TWO_SIDED|95.0|-10.16|25.36||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||25.36|-10.16|0.4001
92396907|NCT03192176|184689398|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|8.54||0.751|TWO_SIDED|95.0|-19.52|14.1||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||14.10|-19.52|0.7510
92396908|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|6.02||||0.0018|TWO_SIDED|95.0|1.95|18.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||18.64|1.95|0.0018
92210963|NCT00820027|184323090|OTHER|Estimate from ANOVA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.|Between-Treatment Ratio|1.04|||||TWO_SIDED|95.0|0.89|1.23|||||A ratio \<1 indicates a beneficial effect of Etoricoxib.|||1.23|0.89|
92396909|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|8.28||||0.0002|TWO_SIDED|95.0|2.7|25.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||25.42|2.70|0.0002
92396910|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|10.92|||<|0.0001|TWO_SIDED|95.0|3.53|33.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||33.74|3.53|<0.0001
92396911|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|12.18|||<|0.0001|TWO_SIDED|95.0|3.91|37.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||37.89|3.91|<0.0001
92396912|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.1||||0.2244|TWO_SIDED|95.0|0.64|6.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||6.92|0.64|0.2244
92396913|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|8.58||||0.0002|TWO_SIDED|95.0|2.77|26.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||26.53|2.77|0.0002
92396914|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|8.25||||0.0002|TWO_SIDED|95.0|2.71|25.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||25.13|2.71|0.0002
92396915|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.04||||0.0149|TWO_SIDED|95.0|1.24|7.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.45|1.24|0.0149
92396916|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|4.65||||0.0011|TWO_SIDED|95.0|1.85|11.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||11.73|1.85|0.0011
92396917|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|6.36||||0.0001|TWO_SIDED|95.0|2.46|16.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||16.45|2.46|0.0001
92396918|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|6.87||||0.0001|TWO_SIDED|95.0|2.56|18.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||18.46|2.56|0.0001
92396919|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.18||||0.0897|TWO_SIDED|95.0|0.89|5.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.34|0.89|0.0897
92396920|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.46||||0.007|TWO_SIDED|95.0|1.42|8.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.53|1.42|0.0070
92396921|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.75||||0.0041|TWO_SIDED|95.0|1.52|9.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||9.23|1.52|0.0041
92396922|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.77||||0.0254|TWO_SIDED|95.0|1.13|6.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.78|1.13|0.0254
92396923|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0032|TWO_SIDED|95.0|1.59|10.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.04|1.59|0.0032
92396924|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|6.25||||0.0002|TWO_SIDED|95.0|2.37|16.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||16.51|2.37|0.0002
92396925|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|8.78|||<|0.0001|TWO_SIDED|95.0|3.0|25.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||25.70|3.00|<0.0001
92396926|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0214|TWO_SIDED|95.0|1.17|7.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.18|1.17|0.0214
92396927|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.67||||0.0049|TWO_SIDED|95.0|1.48|9.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.09|1.48|0.0049
92396928|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0078|TWO_SIDED|95.0|1.38|8.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.22|1.38|0.0078
92396929|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.28||||0.0727|TWO_SIDED|95.0|0.93|5.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.63|0.93|0.0727
92396930|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.94||||0.0199|TWO_SIDED|95.0|1.19|7.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.29|1.19|0.0199
92273378|NCT00265083|184449143|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||Null hypothesis: no difference in ASAS 20 response between Group II and Group I.||||<0.001
92396931|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|4.21||||0.0034|TWO_SIDED|95.0|1.61|11.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||11.01|1.61|0.0034
92396932|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|6.26||||0.0007|TWO_SIDED|95.0|2.16|18.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||18.26|2.16|0.0007
92396933|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1206|TWO_SIDED|95.0|0.83|4.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||4.92|0.83|0.1206
92396934|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.58||||0.007|TWO_SIDED|95.0|1.42|9.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||9.03|1.42|0.0070
92396935|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.41||||0.0088|TWO_SIDED|95.0|1.36|8.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.54|1.36|0.0088
92396936|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.41||||0.4485|TWO_SIDED|95.0|0.58|3.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||3.40|0.58|0.4485
92396937|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.92||||0.0255|TWO_SIDED|95.0|1.14|7.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.47|1.14|0.0255
92396938|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|4.18||||0.0066|TWO_SIDED|95.0|1.49|11.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.75|1.49|0.0066
92396939|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|4.46||||0.0061|TWO_SIDED|95.0|1.53|13.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.01|1.53|0.0061
92396940|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.22||||0.0879|TWO_SIDED|95.0|0.89|5.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.57|0.89|0.0879
92396941|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0389|TWO_SIDED|95.0|1.05|6.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.83|1.05|0.0389
92396942|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0446|TWO_SIDED|95.0|1.02|6.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.73|1.02|0.0446
92396943|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8196|TWO_SIDED|95.0|0.45|2.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||2.72|0.45|0.8196
92396944|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.0||||0.145|TWO_SIDED|95.0|0.79|5.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.10|0.79|0.1450
92396945|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|4.08||||0.0114|TWO_SIDED|95.0|1.37|12.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||12.11|1.37|0.0114
92396946|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.29||||0.0307|TWO_SIDED|95.0|1.12|9.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.71|1.12|0.0307
92396947|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.29||||0.5921|TWO_SIDED|95.0|0.51|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.24|0.51|0.5921
92210964|NCT02604433|184323092|SUPERIORITY||Odds Ratio (OR)|5.62|||<|0.0001|TWO_SIDED|95.0|2.17|14.53||Significance level of 0.050 for 2-sided tests.|Cochran-Mantel-Haenszel|||Odds ratio 95% confidence intervals (CIs), and p-value were estimated from the Cochran Mantel-Haenszel (CMH) test stratified by the geographical regions defined at randomization.||14.53|2.17|<0.0001
92210965|NCT02604433|184323092|SUPERIORITY||Difference in Percentages|16.5|||||TWO_SIDED|95.0|10.0|23.1|||||Luspatercept - Placebo|||23.1|10.0|
92210966|NCT02604433|184323092|SUPERIORITY||Common Risk Difference|16.5||||||95.0|9.9|23.1|||||Luspatercept - Placebo|||23.1|9.9|
92210967|NCT02604433|184323093|SUPERIORITY||Odds Ratio (OR)|6.44|||<|0.0001|TWO_SIDED|95.0|2.27|18.26||Significance level of 0.050 for 2-sided tests.|Cochran-Mantel-Haenszel|||Odds ratio 95% CIs, and p-value were estimated from the CMH test stratified by the geographical regions defined at randomization. To control the overall Type 1 error rate for outcomes 2-4, the testing procedure was implemented strictly in order: the test for this outcome was only conducted when there was evidence showing that erythroid response was achieved in the luspatercept group from Week 13 to Week 24 (primary endpoint).||18.26|2.27|<0.0001
92273379|NCT00265083|184449143|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||Null hypothesis: no difference in ASAS 20 response between Group III and Group I.||||<0.001
92210968|NCT02604433|184323094|SUPERIORITY||Odds Ratio (OR)|4.24||||0.0402|TWO_SIDED|95.0|0.96|18.79||Significance level of 0.050 for 2-sided tests.|Cochran-Mantel-Haenszel|||Odds ratio, 95% CIs, and p-value were estimated from the Cochran-Mantel-Haenszel (CMH) test stratified by the geographical regions defined at randomization. To control the overall Type 1 error rate, the testing procedure was done strictly in order: the test for this outcome was only conducted when there was evidence showing erythroid response was achieved in the luspatercept group for the primary endpoint, and 33% hematological improvement was achieved in the luspatercept group in outcome 2.||18.79|0.96|0.0402
92396948|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0502|TWO_SIDED|95.0|1.0|7.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.26|1.00|0.0502
92396949|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.31||||0.0224|TWO_SIDED|95.0|1.18|9.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.25|1.18|0.0224
92210969|NCT02604433|184323095|SUPERIORITY||Odds Ratio (OR)|11.92||||0.0017|TWO_SIDED|95.0|1.65|86.29||Significance level of 0.050 for 2-sided tests.|Cochran-Mantel-Haenszel|||Odds ratio, 95% CIs, and p-value were estimated from the Cochran-Mantel-Haenszel (CMH) test stratified by the geographical regions defined at randomization. To control the overall Type 1 error rate, the testing procedure was done strictly in order: the test for this outcome was only conducted when there was evidence showing erythroid response was achieved in the luspatercept group for the primary endpoint, and achievement of objective in the luspatercept group in outcomes 2+3.||86.29|1.65|0.0017
92396950|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7225|TWO_SIDED|95.0|0.47|2.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||2.93|0.47|0.7225
92396951|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0762|TWO_SIDED|95.0|0.91|6.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.48|0.91|0.0762
92396952|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0252|TWO_SIDED|95.0|1.17|10.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.53|1.17|0.0252
92396953|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.98||||0.049|TWO_SIDED|95.0|1.0|8.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.87|1.00|0.0490
92396954|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.97||||0.1773|TWO_SIDED|95.0|0.74|5.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.30|0.74|0.1773
92396955|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0609|TWO_SIDED|95.0|0.96|7.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.16|0.96|0.0609
92396956|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.11||||0.1364|TWO_SIDED|95.0|0.79|5.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.61|0.79|0.1364
92396957|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.36||||0.5268|TWO_SIDED|95.0|0.53|3.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.51|0.53|0.5268
92396958|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1645|TWO_SIDED|95.0|0.75|5.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.46|0.75|0.1645
92396959|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.92||||0.0215|TWO_SIDED|95.0|1.22|12.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||12.57|1.22|0.0215
92396960|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.04||||0.06|TWO_SIDED|95.0|0.95|9.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.69|0.95|0.0600
92396961|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.25||||0.6503|TWO_SIDED|95.0|0.47|3.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.32|0.47|0.6503
92396962|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0683|TWO_SIDED|95.0|0.93|7.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.88|0.93|0.0683
92396963|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.83||||0.0618|TWO_SIDED|95.0|0.95|8.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||8.44|0.95|0.0618
92396964|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.34||||0.5621|TWO_SIDED|95.0|0.5|3.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.63|0.50|0.5621
92396965|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.92||||0.2182|TWO_SIDED|95.0|0.68|5.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.40|0.68|0.2182
92396966|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.11||||0.06|TWO_SIDED|95.0|0.95|10.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||10.15|0.95|0.0600
92210970|NCT02604433|184323096|SUPERIORITY||LSM Difference|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.76|-0.93||Significance level of 0.050 for 2-sided tests.|ANCOVA|Estimates were based on an ANCOVA model with geographical regions defined at randomization and baseline transfusion burden as covariates.|luspatercept - placebo|Change from baseline at Week 48 LSM = least squares mean||-0.93|-1.76|<0.0001
92210971|NCT02604433|184323097|SUPERIORITY||LS Mean of Difference|0.2||||0.7598|TWO_SIDED|95.0|-1.1|1.51||Significance level of 0.050 for 2-sided tests.|ANCOVA||luspatercept - placebo|Change from baseline at Week 48 P-value ANCOVA model with geographical regions defined at randomization and baseline LIC as covariates. LS = least square||1.51|-1.10|0.7598
92210972|NCT02604433|184323098|SUPERIORITY||LS Mean of Difference|-68.0||||0.2552|TWO_SIDED|95.0|-185.8|49.7||Significance level of 0.050 for 2-sided tests|ANCOVA|Estimates are based on an ANCOVA model with geographical regions defined at randomization and baseline ICT as covariates.|luspatercept - placebo|Deferasirox: Change from baseline at Week 48 LS = least squares||49.7|-185.8|0.2552
92210973|NCT02604433|184323098|SUPERIORITY||LS Mean of Difference|-76.4||||0.7746|TWO_SIDED|95.0|-612.9|460.1||Significance level of 0.050 for 2-sided tests|ANCOVA|Estimates are based on an ANCOVA model with geographical regions defined at randomization and baseline ICT as covariates.|luspatercept - placebo|Deferiprone: Change from baseline at Week 48 LS = least squares||460.1|-612.9|0.7746
92210974|NCT02604433|184323098|SUPERIORITY||LS Mean of Difference|-147.3||||0.5186|TWO_SIDED|95.0|-673.1|378.5||Significance level of 0.050 for 2-sided tests|ANCOVA|Estimates are based on an ANCOVA model with geographical regions defined at randomization and baseline ICT as covariates.|luspatercept - placebo|Deferoxamine Mesilate / Deferoxamine: Change from baseline at Week 48 LS = least squares||378.5|-673.1|0.5186
92210975|NCT02604433|184323099|SUPERIORITY||LS Mean of Difference|-342.59|||<|0.0001|TWO_SIDED|95.0|-498.3|-186.87||Significance level of 0.050 for 2-sided tests|ANCOVA|Estimates based on an ANCOVA model with geographical regions defined at randomization and baseline serum ferritin as covariates.|luspatercept - placebo|Change from baseline at Week 48 LS = least squares||-186.87|-498.30|<0.0001
92210976|NCT02604433|184323100|SUPERIORITY||LS Mean of Difference|0.0||||0.9201|TWO_SIDED|95.0|-0.01|0.01||Significance level of 0.050 for 2-sided tests.|ANCOVA|Estimates are based on an ANCOVA model with geographical regions defined at randomization and baseline BMD measurement as covariates.|luspatercept - placebo|Total Hip Bone Mineral Density: Change from baseline at Week 48 LS = least squares||0.01|-0.01|0.9201
92210977|NCT02604433|184323100|SUPERIORITY||LS Mean of Difference|-0.01||||0.462|TWO_SIDED|95.0|-0.02|0.01||Significance level of 0.050 for 2-sided tests.|ANCOVA|Estimates are based on an ANCOVA model with geographical regions defined at randomization and baseline BMD measurement as covariates.|luspatercept - placebo|Lumbar Spine Bone Mineral Density: Change from baseline at Week 48 LS = least squares||0.01|-0.02|0.4620
92210978|NCT02604433|184323101|SUPERIORITY||LS Mean of Difference|-2.22||||0.0543|TWO_SIDED|95.0|-4.48|0.04||Significance level of 0.050 for 2-sided tests.|ANCOVA|Estimates were based on an ANCOVA model with geographical regions defined at randomization and baseline myocardial T2\* as covariates.|luspatercept - placebo|Change from baseline at Week 48 LS = least square||0.04|-4.48|0.0543
92210979|NCT02604433|184323102|SUPERIORITY|||||||0.666||||||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided|||Physical Health Domain Score - Change from Baseline at Week 24||||0.666
92210980|NCT02604433|184323102|SUPERIORITY|||||||0.384||||||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided|||Total Score - Change from Baseline at Week 24||||0.384
92210981|NCT02604433|184323103|SUPERIORITY|||||||0.918||||||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided|||Physical Functioning Domain - Change from Baseline at Week 24||||0.918
92210982|NCT02604433|184323103|SUPERIORITY|||||||0.857||||||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided|||General Health Domain - Change from Baseline at Week 24||||0.857
92210983|NCT02604433|184323103|SUPERIORITY|||||||0.839||||||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided|||PCS - Change from Baseline at Week 24||||0.839
92210984|NCT02604433|184323106|SUPERIORITY||Odds Ratio (OR)|7.6||||0.0015|TWO_SIDED|95.0|1.8|32.9||Significance level of 0.050 for 2-sided tests.|Cochran-Mantel-Haenszel|||Odds ratio 95% confidence intervals (CIs), and p-value were estimated from the Cochran Mantel-Haenszel (CMH) test stratified by the geographical regions defined at randomization.||32.9|1.8|0.0015
92210985|NCT02604433|184323109|SUPERIORITY||Mean Difference (Final Values)|-67.27||||0.0195|TWO_SIDED|95.0|-123.63|-10.91||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided||luspatercept - placebo|≥ 33% Transfusion Burden Reduction||-10.91|-123.63|0.0195
92210986|NCT02604433|184323109|SUPERIORITY||Mean Difference (Final Values)|28.24||||0.7473|TWO_SIDED|95.0|-144.87|201.34||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided||luspatercept - placebo|≥ 50% Transfusion Burden Reduction||201.34|-144.87|0.7473
92210987|NCT01128894|184323124|NON_INFERIORITY_OR_EQUIVALENCE|The p-value was from a 1-sided t test testing whether or not the difference of least square means (albiglutide - liraglutide) was less than or equal to the prespecified noninferiority margin of 0.3%.|Mean Difference (Final Values)|0.21||||0.0846|TWO_SIDED|95.0|0.08|0.34|||ANCOVA|||||0.34|0.08|0.0846
92210988|NCT01128738|184323131|SUPERIORITY_OR_OTHER||Percentage difference|50.2|||<|0.001|TWO_SIDED|95.0|38.1|62.3|||Fisher Exact||Percentage difference was estimated as BTX 50 U minus placebo.|||62.3|38.1|<0.001
92210989|NCT00973362|184323179|SUPERIORITY_OR_OTHER||Sensitivity (%)|75.0|||||TWO_SIDED|95.0|53.1|88.8||||||||88.8|53.1|
92396967|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|4.6||||0.029|TWO_SIDED|95.0|1.17|18.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||18.12|1.17|0.0290
92396968|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.1||||0.8485|TWO_SIDED|95.0|0.4|3.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.04|0.40|0.8485
92396969|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.16||||0.1652|TWO_SIDED|95.0|0.73|6.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.42|0.73|0.1652
92210990|NCT00973362|184323179|SUPERIORITY_OR_OTHER||Specificity (%)|62.6|||||TWO_SIDED|95.0|59.2|65.9||||||||65.9|59.2|
92210991|NCT00973362|184323179|SUPERIORITY_OR_OTHER||Positive Predictive Value [PPV] (%)|4.8|||||TWO_SIDED|95.0|3.4|5.8||||||||5.8|3.4|
92210992|NCT00973362|184323179|SUPERIORITY_OR_OTHER||Negative Predictive Value [NPV] (%)|99.0|||||TWO_SIDED|95.0|98.1|99.6||||||||99.6|98.1|
92210993|NCT00973362|184323179|SUPERIORITY_OR_OTHER||Prevalence (%)|2.4|||||TWO_SIDED|||||||||||||
92210994|NCT00973362|184323179|SUPERIORITY_OR_OTHER||Relative Risk|4.8|||||TWO_SIDED|95.0|1.8|13.1|||||The relative risk of CIN2+ is defined as the \[ absolute risk of APTIMA HPV (Positive Result) / absolute risk of APTIMA HPV (Negative Result) \] .|||13.1|1.8|
92210995|NCT00973362|184323180|SUPERIORITY_OR_OTHER||Sensitivity (%)|84.2|||||TWO_SIDED|95.0|62.4|94.5||||||||94.5|62.4|
92210996|NCT00973362|184323180|SUPERIORITY_OR_OTHER||Specificity (%)|48.7|||||TWO_SIDED|95.0|45.2|52.2||||||||52.2|45.2|
92210997|NCT00973362|184323180|SUPERIORITY_OR_OTHER||Positive Predictive Value [PPV] (%)|3.8|||||TWO_SIDED|95.0|2.9|4.4||||||||4.4|2.9|
92210998|NCT00973362|184323180|SUPERIORITY_OR_OTHER||Negative Predictive Value [NPV] (%)|99.2|||||TWO_SIDED|95.0|98.1|99.8||||||||99.8|98.1|
92210999|NCT00973362|184323180|SUPERIORITY_OR_OTHER||Prevalence (%)|2.4|||||TWO_SIDED|||||||||||||
92211000|NCT00973362|184323180|SUPERIORITY_OR_OTHER||Relative Risk|4.9|||||TWO_SIDED|95.0|1.4|16.7|||||The relative risk of CIN2+ is defined as the \[ absolute risk of FDA-Approved HPV DNA Assay (Positive Result) / absolute risk of FDA-Approved HPV DNA Assay (Negative Result) \] .|||16.7|1.4|
92396970|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.94||||0.2244|TWO_SIDED|95.0|0.67|5.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.65|0.67|0.2244
92396971|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.85||||0.2097|TWO_SIDED|95.0|0.71|4.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.84|0.71|0.2097
92396972|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.53||||0.3708|TWO_SIDED|95.0|0.6|3.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.92|0.60|0.3708
92396973|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.66||||0.0704|TWO_SIDED|95.0|0.92|7.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||7.66|0.92|0.0704
92396974|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|7.21||||0.004|TWO_SIDED|95.0|1.88|27.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||27.73|1.88|0.0040
92396975|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.04||||0.1625|TWO_SIDED|95.0|0.75|5.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.55|0.75|0.1625
92396976|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|4.59||||0.0093|TWO_SIDED|95.0|1.46|14.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||14.50|1.46|0.0093
92396977|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|4.44||||0.0103|TWO_SIDED|95.0|1.42|13.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||13.87|1.42|0.0103
92396978|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.89||||0.1965|TWO_SIDED|95.0|0.72|4.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.95|0.72|0.1965
92396979|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0549|TWO_SIDED|95.0|0.98|7.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.42|0.98|0.0549
92396980|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.01||||0.0503|TWO_SIDED|95.0|1.0|9.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.09|1.00|0.0503
92396981|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|7.03||||0.0046|TWO_SIDED|95.0|1.82|27.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||27.10|1.82|0.0046
92396982|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.46||||0.0866|TWO_SIDED|95.0|0.88|6.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.88|0.88|0.0866
92396983|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|5.96||||0.0045|TWO_SIDED|95.0|1.74|20.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||20.40|1.74|0.0045
92396984|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|3.59||||0.0207|TWO_SIDED|95.0|1.22|10.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||10.62|1.22|0.0207
92396985|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.86||||0.2127|TWO_SIDED|95.0|0.7|4.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.91|0.70|0.2127
92396986|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.04||||0.1521|TWO_SIDED|95.0|0.77|5.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.43|0.77|0.1521
92396987|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|5.12||||0.0098|TWO_SIDED|95.0|1.48|17.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||17.70|1.48|0.0098
92211001|NCT00973362|184323181|SUPERIORITY_OR_OTHER||Sensitivity(%)|86.8|||||TWO_SIDED|95.0|78.4|92.3||||||||92.3|78.4|
92211002|NCT00973362|184323181|SUPERIORITY_OR_OTHER||Specificty|62.9|||||TWO_SIDED|95.0|59.6|66.0||||||||66.0|59.6|
92211003|NCT00973362|184323181|SUPERIORITY_OR_OTHER||PPV|20.1|||||TWO_SIDED|95.0|18.1|22.0||||||||22.0|18.1|
92211004|NCT00973362|184323181|SUPERIORITY_OR_OTHER||NPV|97.8|||||TWO_SIDED|95.0|96.5|98.8||||||||98.8|96.5|
92211005|NCT00973362|184323181|SUPERIORITY_OR_OTHER||Prevalence (%)|9.7|||||TWO_SIDED|||||||||||||
92211006|NCT00973362|184323182|SUPERIORITY_OR_OTHER||Sensitivity (%)|88.8|||||TWO_SIDED|95.0|80.5|93.8||||||||93.8|80.5|
92211007|NCT00973362|184323182|SUPERIORITY_OR_OTHER||Specificity(%)|55.8|||||TWO_SIDED|95.0|52.3|59.3||||||||59.3|52.3|
92211008|NCT00973362|184323182|SUPERIORITY_OR_OTHER||PPV(%)|18.7|||||TWO_SIDED|95.0|17.0|20.4||||||||20.4|17.0|
92211009|NCT00973362|184323182|SUPERIORITY_OR_OTHER||NPV(%)|97.7|||||TWO_SIDED|95.0|96.2|98.8||||||||98.8|96.2|
92211010|NCT00973362|184323182|SUPERIORITY_OR_OTHER||Prevalence(%)|10.3|||||TWO_SIDED|||||||||||||
92211011|NCT02683941|184323192|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.866|TWO_SIDED|95.0|0.48|1.95|||Log Rank|||The hazard ratio and the 95% confidence interval (CI) were estimated using a Cox proportional hazards model, stratified for interactive web response system (IWRS) tumour subtype (typical versus \[vs\] atypical) using the exact method for ties. P-value of stratified log rank test comparing lanreotide to placebo with strata based on the IWRS tumour subtype (typical vs atypical) stratification factor.||1.95|0.48|0.866
92396988|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|7.08||||0.0047|TWO_SIDED|95.0|1.82|27.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||27.50|1.82|0.0047
92211012|NCT02683941|184323193|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.837|TWO_SIDED|95.0|0.48|1.88|||Log Rank|||The hazard ratio and the 95% CI were estimated using a Cox proportional hazards model, stratified for IWRS tumour subtype (typical vs atypical) using the exact method for ties. P-value of stratified log rank test comparing lanreotide to placebo with strata based on the IWRS tumour subtype (typical vs atypical) stratification factor.||1.88|0.48|0.837
92211013|NCT02683941|184323194|OTHER||Percentage difference|14.0|||||TWO_SIDED|95.0|-10.97|37.86||||||The treatment difference compares lanreotide to placebo (central review). The 95% exact unconditional CI was used for ORR difference.||37.86|-10.97|
92211014|NCT02683941|184323194|OTHER||Percentage difference|2.0|||||TWO_SIDED|95.0|-22.69|26.53||||||The treatment difference compares lanreotide to placebo (local review). The 95% exact unconditional CI was used for ORR difference.||26.53|-22.69|
92211015|NCT02683941|184323195|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.582|TWO_SIDED|95.0|0.5|1.5|||Log Rank|||The hazard ratio and the 95% CI were estimated using a Cox proportional hazards model, stratified for IWRS tumour subtype (typical vs atypical) using the exact method for ties. P-value of stratified log rank test comparing lanreotide to placebo with strata based on the IWRS tumour subtype (typical vs atypical) stratification factor.||1.50|0.50|0.582
92211016|NCT00307125|184323245|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Fisher Exact|||Analysis by Fisher's exact test counting participants with 50% decrease in anti-HLA antibodies at any time within 12 months post treatment initiation||||>0.999
92211017|NCT00307125|184323250|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Fisher Exact|||||||>0.999
92211018|NCT00307125|184323251|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Fisher Exact|||||||>0.999
92211019|NCT03552822|184323254|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
92211020|NCT03552822|184323255|SUPERIORITY|||||||0.037|||||||Wilcoxon (Mann-Whitney)|||||||0.037
92211021|NCT03552822|184323256|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
92211022|NCT03552822|184323257|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
92211023|NCT03552822|184323258|SUPERIORITY|||||||0.108|||||||Wilcoxon (Mann-Whitney)|||||||0.108
92211024|NCT03552822|184323259|SUPERIORITY|||||||0.159|||||||Fisher Exact|||||||0.159
92211025|NCT03552822|184323260|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
92211026|NCT03552822|184323261|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
92211027|NCT03552822|184323262|SUPERIORITY|||||||0.085|||||||Wilcoxon (Mann-Whitney)|||||||0.085
92211028|NCT00561951|184323279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.002||95.0|-0.56|-0.13||The closed testing procedure was used in order to control the probability of a type 1 error.|ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.13|-0.56|0.002
92211029|NCT00561951|184323279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.001||95.0|-0.6|-0.17||The closed testing procedure was used in order to control the probability of a type 1 error.|ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.17|-0.60|<0.001
92211030|NCT00561951|184323281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.002||95.0|-0.91|-0.22|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.22|-0.91|0.002
92211031|NCT00561951|184323281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|||<|0.001||95.0|-1.01|-0.32|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.32|-1.01|<0.001
92396989|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|2.0||||0.1817|TWO_SIDED|95.0|0.72|5.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.51|0.72|0.1817
92396990|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|6.09||||0.0042|TWO_SIDED|95.0|1.77|20.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||20.95|1.77|0.0042
92396991|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|6.09||||0.0039|TWO_SIDED|95.0|1.78|20.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||20.74|1.78|0.0039
92396992|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.23||||0.7025|TWO_SIDED|95.0|0.42|3.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.57|0.42|0.7025
92396993|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9599|TWO_SIDED|95.0|0.36|2.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||2.97|0.36|0.9599
92396994|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9671|TWO_SIDED|95.0|0.34|3.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.10|0.34|0.9671
92396995|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.26||||0.681|TWO_SIDED|95.0|0.42|3.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.83|0.42|0.6810
92396996|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.31||||0.6346|TWO_SIDED|95.0|0.43|4.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||4.04|0.43|0.6346
92396997|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7929|TWO_SIDED|95.0|0.38|3.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.57|0.38|0.7929
92396998|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.13||||0.8188|TWO_SIDED|95.0|0.39|3.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.28|0.39|0.8188
92396999|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|0.88||||0.8226|TWO_SIDED|95.0|0.3|2.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.60|0.30|0.8226
92397000|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|0.94||||0.9088|TWO_SIDED|95.0|0.32|2.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.72|0.32|0.9088
92211032|NCT00561951|184323283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.003||95.0|-1.07|-0.22|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.22|-1.07|0.003
92211033|NCT00561951|184323283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.002||95.0|-1.09|-0.23|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.23|-1.09|0.002
92397001|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|0.75||||0.6189|TWO_SIDED|95.0|0.24|2.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.35|0.24|0.6189
92397002|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.3||||0.6463|TWO_SIDED|95.0|0.42|4.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.03|0.42|0.6463
92397003|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.47||||0.506|TWO_SIDED|95.0|0.47|4.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.54|0.47|0.5060
92397004|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.67||||0.3842|TWO_SIDED|95.0|0.53|5.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.31|0.53|0.3842
92397005|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.44||||0.5021|TWO_SIDED|95.0|0.49|4.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.23|0.49|0.5021
92397006|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|0.42||||0.1349|TWO_SIDED|95.0|0.14|1.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.31|0.14|0.1349
92397007|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|0.57||||0.3191|TWO_SIDED|95.0|0.19|1.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.71|0.19|0.3191
92397008|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|0.3||||0.0623|TWO_SIDED|95.0|0.09|1.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.06|0.09|0.0623
92397009|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|0.47||||0.1958|TWO_SIDED|95.0|0.15|1.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.48|0.15|0.1958
92397010|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|0.62||||0.4353|TWO_SIDED|95.0|0.19|2.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.05|0.19|0.4353
92397011|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9729|TWO_SIDED|95.0|0.31|3.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.31|0.31|0.9729
92397012|NCT03192176|184689399|SUPERIORITY||Odds Ratio (OR)|0.64||||0.4211|TWO_SIDED|95.0|0.22|1.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.89|0.22|0.4211
92397013|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.05||||0.1938|TWO_SIDED|95.0|0.57|16.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.35|0.57|0.1938
92397014|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|6.97||||0.0162|TWO_SIDED|95.0|1.43|33.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||33.91|1.43|0.0162
92397015|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|14.37||||0.0008|TWO_SIDED|95.0|3.04|67.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||67.96|3.04|0.0008
92397016|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|16.02||||0.0005|TWO_SIDED|95.0|3.39|75.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||75.68|3.39|0.0005
92397017|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.02||||0.1971|TWO_SIDED|95.0|0.56|16.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.17|0.56|0.1971
92211034|NCT00561951|184323285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.002||95.0|-0.63|-0.14|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.14|-0.63|0.002
92397018|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|4.31||||0.0811|TWO_SIDED|95.0|0.83|22.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||22.27|0.83|0.0811
92211035|NCT00561951|184323285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.03||95.0|-0.52|-0.03|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.03|-0.52|0.030
92211036|NCT00561951|184323287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.624||95.0|-0.18|0.11|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||0.11|-0.18|0.624
92211037|NCT00561951|184323287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.129||95.0|-0.26|0.03|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||0.03|-0.26|0.129
92211038|NCT01992393|184323331|OTHER|||||||0.036|||||||GEE|||||||0.036
92211039|NCT01992393|184323332|OTHER|||||||0.042|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.042
92211040|NCT01992393|184323332|OTHER|||||||0.204|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU||||0.204
92211041|NCT01992393|184323333|OTHER|||||||0.129|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.129
92211042|NCT01992393|184323333|OTHER|||||||0.978|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU.||||0.978
92211043|NCT01992393|184323334|OTHER|||||||0.128|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.128
92211044|NCT01992393|184323334|OTHER|||||||0.015|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU.||||0.015
92211045|NCT01992393|184323335|OTHER|||||||0.759|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.759
92211046|NCT01992393|184323335|OTHER|||||||0.471|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU.||||0.471
92211047|NCT01992393|184323336|OTHER|||||||0.775|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.775
92211048|NCT01992393|184323336|OTHER|||||||0.433|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU.||||0.433
92211049|NCT01992393|184323337|OTHER|||||||0.936|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.936
92211050|NCT01992393|184323337|OTHER|||||||0.6|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU.||||0.600
92211051|NCT01992393|184323338|OTHER|||||||0.56|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.560
92211052|NCT01992393|184323338|OTHER|||||||0.305|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.305
92211053|NCT02739412|184323360|SUPERIORITY|Power calculations were not performed in this study.|||||<|0.01|||||||ANOVA|||This is an open label feasibility study to assess the efficacy and safety of a 4 week course of daily subcutaneous IL-2 injections to increase peripheral blood CD4 Tregs. Results are expressed as median, IQR and comparison were performed using one way or two-way ANOVA, followed by Tukey's multiple comparison test. For all comparisons, a p\< 0.05 was considered significant.||||< 0.01
92211054|NCT05497284|184323388|OTHER|Probability (LTP001 is better than placebo)|Slope|-2.6|STANDARD_DEVIATION|2.07|||TWO_SIDED|80.0|-6.9|1.3||Probability that LTP001 is better than placebo is 10.3%|Baysesian random slope model|Bayesian random slope model to assess the difference in reduction rate (slope) in years between the treatment group and placebo group.||||1.3|-6.9|
92211055|NCT02254278|184323404|SUPERIORITY|||||||0.04|||||||binomial|One-sided significance level=0.10||Assuming a binomial distribution, 140 eligible patients per arm were required for 80% power and 1-sided type I error rate of 10% to test the null hypothesis of 2-year progression-free survival (PFS) rate ≤ 85% against the alternative hypothesis of \> 85% with a binomial test. The arms are not compared to each other; they are each tested separately against the null hypothesis.||||0.04
92211056|NCT02254278|184323404|SUPERIORITY|||||||0.23|||||||bionmial|One-sided significance level = 0.10||Assuming a binomial distribution, 140 eligible patients per arm were required for 80% power and 1-sided type I error rate of 10% to test the null hypothesis of 2-year PFS rate ≤ 85% against the alternative hypothesis of \> 85% with a binomial test. The arms are not compared to each other; they are each tested separately against the null hypothesis.||||0.23
92211057|NCT02254278|184323405|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.02|TWO_SIDED|95.0|0.17|0.9|||Log Rank|Two-sided significance level = 0.05|Reference level = IMRT 5 weeks|||0.90|0.17|0.02
92211058|NCT02254278|184323406|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.58|TWO_SIDED|95.0|0.4|5.08|||Log Rank|Two-sided significance level = 0.05|Reference level = IMRT 5 weeks|||5.08|0.4|0.58
92211059|NCT02254278|184323407|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.93|TWO_SIDED|95.0|0.31|2.95||Two-side significance level = 0.05|Log Rank||Reference level = IMRT 5 weeks|||2.95|0.31|0.93
92211060|NCT02254278|184323408|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|Two-sided significance level = 0.05||End of RT||||<0.0001
92211061|NCT02254278|184323408|SUPERIORITY|||||||0.17|||||||Fisher Exact|Two-sided significance level = 0.05||One month after end of RT||||0.17
92211062|NCT02254278|184323408|SUPERIORITY|||||||0.16|||||||Fisher Exact|Two-side significance level = 0.05||Six months after end of RT||||0.16
92211063|NCT02254278|184323408|SUPERIORITY|||||||0.26|||||||Fisher Exact|Two-side significance level = 0.05||One year after end of RT||||0.26
92211064|NCT02254278|184323408|SUPERIORITY|||||||0.82|||||||Fisher Exact|Two-side significance level = 0.05||Two years after the end of RT||||0.82
92211065|NCT02254278|184323410|SUPERIORITY|||||||0.3|||||||binomial test|One-sided significance level = 0.10||Progression-free survival: The null hypothesis of negative predictive value ≤ 90% was tested against the alternative of \> 90% with a 1-sided binomial test at the 0.10 level.||||0.3
92211066|NCT02254278|184323410|SUPERIORITY|||||||0.07|||||||binomial test|One-sided significance level = 0.10||Local-regional control: The null hypothesis of negative predictive value ≤ 90% was tested against the alternative of \> 90% with a 1-sided binomial test at the 0.10 level.||||0.07
92211067|NCT02254278|184323411|SUPERIORITY|||||||0.28|||||||Fisher Exact|Two-sided significance level = 0.05||||||0.28
92211068|NCT02254278|184323412|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|Two-sided significance level = 0.05||||||0.03
92211069|NCT02254278|184323416|SUPERIORITY|||||||0.08|||||||Fisher Exact|Two-sided significance level = 0.05||||||0.08
92211070|NCT02254278|184323417|SUPERIORITY|||||||0.02||||||Two-sided significance level = 0.05|Fisher Exact|||||||0.02
92397019|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|11.44||||0.0021|TWO_SIDED|95.0|2.43|53.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||53.94|2.43|0.0021
92397020|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.11||||0.137|TWO_SIDED|95.0|0.79|5.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.64|0.79|0.1370
92397021|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.2||||0.0181|TWO_SIDED|95.0|1.22|8.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.40|1.22|0.0181
92211071|NCT05437510|184323435|SUPERIORITY||Efficacy|84.04|||<|0.0001|TWO_SIDED|95.0|69.493|92.411|||Exact method using binomial distribution|||The 2-sided 95% confidence interval (CI) for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization.||92.411|69.493|<0.0001
92397022|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|6.43||||0.0002|TWO_SIDED|95.0|2.43|17.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||17.05|2.43|0.0002
92211072|NCT05437510|184323436|SUPERIORITY||Efficacy|77.71||||0.0014|TWO_SIDED|95.0|39.249|93.432|||Exact method using binomial distribution|||The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of very severe RSV LRTI in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization.||93.432|39.249|0.0014
92211073|NCT05437510|184323437|SUPERIORITY||Efficacy|90.7|||<|0.0001|TWO_SIDED|95.0|63.676|98.813||Adjusted p-value is reported.|Exact method using binomial distribution|||Statistical analysis for France: The adjusted 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization. Adjustment based on Bonferroni-Holm procedure.||98.813|63.676|<0.0001
92211074|NCT05437510|184323437|SUPERIORITY||Efficacy|83.2||||0.0036|TWO_SIDED|95.0|33.589|97.593||Adjusted p-value is reported.|Exact method using binomial distribution|||Statistical analysis for UK: The adjusted 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization. Adjustment based on Bonferroni-Holm procedure.||97.593|33.589|0.0036
92211075|NCT05437510|184323437|SUPERIORITY||Efficacy|74.62||||0.0051|TWO_SIDED|95.0|29.74|92.595||Adjusted p-value is reported.|Exact method using binomial distribution|||Statistical analysis for Germany: The adjusted 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization. Adjustment based on Bonferroni-Holm procedure.||92.595|29.740|0.0051
92211076|NCT05437510|184323438|SUPERIORITY||Efficacy|57.97|||<|0.0001|TWO_SIDED|95.0|40.36|70.76|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of all-cause LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||70.760|40.360|<0.0001
92211077|NCT05437510|184323438|SUPERIORITY||Efficacy|52.48||||0.0039|TWO_SIDED|95.0|20.121|72.36|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of all-cause LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||72.360|20.121|0.0039
92211078|NCT05437510|184323438|SUPERIORITY||Efficacy|58.62||||0.0024|TWO_SIDED|95.0|25.115|78.049|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of all-cause LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||78.049|25.115|0.0024
92397023|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|6.08||||0.0003|TWO_SIDED|95.0|2.26|16.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||16.31|2.26|0.0003
92397024|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.65||||0.3241|TWO_SIDED|95.0|0.61|4.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.49|0.61|0.3241
92397025|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.85||||0.2249|TWO_SIDED|95.0|0.68|5.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.03|0.68|0.2249
92211079|NCT05437510|184323438|SUPERIORITY||Efficacy|70.74||||0.0037|TWO_SIDED|95.0|29.567|89.396|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of all-cause LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||89.396|29.567|0.0037
92211080|NCT05437510|184323439|SUPERIORITY||Efficacy|82.44|||<|0.0001|TWO_SIDED|95.0|67.271|91.357|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||91.357|67.271|<0.0001
92397026|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.53||||0.0096|TWO_SIDED|95.0|1.36|9.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||9.18|1.36|0.0096
92397027|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.35||||0.0768|TWO_SIDED|95.0|0.91|6.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.05|0.91|0.0768
92397028|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.91||||0.00251|TWO_SIDED|95.0|1.14|7.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.39|1.14|0.00251
92397029|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|5.99||||0.0002|TWO_SIDED|95.0|2.3|15.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.57|2.30|0.0002
92397030|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|7.29|||<|0.0001|TWO_SIDED|95.0|2.7|19.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||19.71|2.70|<0.0001
92397031|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.14||||0.1144|TWO_SIDED|95.0|0.83|5.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.50|0.83|0.1144
92397032|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1341|TWO_SIDED|95.0|0.8|5.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.30|0.80|0.1341
92397033|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|4.43||||0.0017|TWO_SIDED|95.0|1.75|11.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||11.22|1.75|0.0017
92397034|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1488|TWO_SIDED|95.0|0.77|5.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.50|0.77|0.1488
92397035|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.99||||0.0043|TWO_SIDED|95.0|1.54|10.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.30|1.54|0.0043
92397036|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|5.53||||0.0005|TWO_SIDED|95.0|2.1|14.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||14.57|2.10|0.0005
92397037|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|14.54|||<|0.0001|TWO_SIDED|95.0|4.85|43.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||43.58|4.85|<0.0001
92397038|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.96||||0.0262|TWO_SIDED|95.0|1.14|7.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.68|1.14|0.0262
92397039|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|5.07||||0.0009|TWO_SIDED|95.0|1.95|13.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||13.19|1.95|0.0009
92397040|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|5.33||||0.0006|TWO_SIDED|95.0|2.06|13.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||13.80|2.06|0.0006
92397041|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.52||||0.3673|TWO_SIDED|95.0|0.61|3.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||3.75|0.61|0.3673
92397042|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1207|TWO_SIDED|95.0|0.83|4.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.91|0.83|0.1207
92397043|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|5.01||||0.0011|TWO_SIDED|95.0|1.9|13.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.21|1.90|0.0011
92397044|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|9.19|||<|0.0001|TWO_SIDED|95.0|3.08|27.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||27.38|3.08|<0.0001
92397045|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.38||||0.0594|TWO_SIDED|95.0|0.97|5.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.86|0.97|0.0594
92397046|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.47||||0.05|TWO_SIDED|95.0|1.0|6.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.09|1.00|0.0500
92397047|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.22||||0.0123|TWO_SIDED|95.0|1.29|8.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.03|1.29|0.0123
92397048|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.76||||0.2243|TWO_SIDED|95.0|0.71|4.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.37|0.71|0.2243
92397049|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0976|TWO_SIDED|95.0|0.87|5.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.24|0.87|0.0976
92397050|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|6.09||||0.0004|TWO_SIDED|95.0|2.25|16.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.44|2.25|0.0004
92397051|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|9.13|||<|0.0001|TWO_SIDED|95.0|3.04|27.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||27.40|3.04|<0.0001
92397052|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1237|TWO_SIDED|95.0|0.82|5.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.17|0.82|0.1237
92397053|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.94||||0.0226|TWO_SIDED|95.0|1.16|7.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.41|1.16|0.0226
92397054|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.55||||0.0069|TWO_SIDED|95.0|1.42|8.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.91|1.42|0.0069
92397055|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.9||||0.1666|TWO_SIDED|95.0|0.76|4.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.75|0.76|0.1666
92397056|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0317|TWO_SIDED|95.0|1.09|6.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.67|1.09|0.0317
92397057|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0011|TWO_SIDED|95.0|1.94|14.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||14.39|1.94|0.0011
92397058|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|8.45||||0.0001|TWO_SIDED|95.0|2.81|25.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||25.46|2.81|0.0001
92397059|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.1||||0.1142|TWO_SIDED|95.0|0.84|5.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.27|0.84|0.1142
92397060|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.91||||0.025|TWO_SIDED|95.0|1.14|7.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.39|1.14|0.0250
92397061|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.08||||0.0166|TWO_SIDED|95.0|1.23|7.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.75|1.23|0.0166
92397062|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6033|TWO_SIDED|95.0|0.52|3.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.11|0.52|0.6033
92397063|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.05||||0.117|TWO_SIDED|95.0|0.84|5.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.02|0.84|0.1170
92397064|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.69||||0.04|TWO_SIDED|95.0|1.05|6.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.91|1.05|0.0400
92397065|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|5.61||||0.002|TWO_SIDED|95.0|1.88|16.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||16.72|1.88|0.0020
92397066|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.35||||0.5177|TWO_SIDED|95.0|0.54|3.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.37|0.54|0.5177
92397067|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.79||||0.2117|TWO_SIDED|95.0|0.72|4.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.48|0.72|0.2117
92397068|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0426|TWO_SIDED|95.0|1.03|6.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.67|1.03|0.0426
92397069|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.54||||0.3508|TWO_SIDED|95.0|0.62|3.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.82|0.62|0.3508
92397070|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.42||||0.4431|TWO_SIDED|95.0|0.58|3.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.45|0.58|0.4431
92397071|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|4.27||||0.005|TWO_SIDED|95.0|1.55|11.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||11.78|1.55|0.0050
92397072|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|5.47||||0.0023|TWO_SIDED|95.0|1.84|16.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||16.30|1.84|0.0023
92397073|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.31||||0.5663|TWO_SIDED|95.0|0.52|3.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.32|0.52|0.5663
92397074|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0461|TWO_SIDED|95.0|1.02|6.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.83|1.02|0.0461
92397075|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.5||||0.0552|TWO_SIDED|95.0|0.98|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.38|0.98|0.0552
92397076|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.95||||0.1536|TWO_SIDED|95.0|0.78|4.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.88|0.78|0.1536
92397077|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.69||||0.2575|TWO_SIDED|95.0|0.68|4.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.20|0.68|0.2575
92397078|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.73||||0.0096|TWO_SIDED|95.0|1.38|10.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.11|1.38|0.0096
92211081|NCT05437510|184323439|SUPERIORITY||Efficacy|86.11|||<|0.0001|TWO_SIDED|95.0|60.283|96.459|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||96.459|60.283|<0.0001
92211082|NCT05437510|184323439|SUPERIORITY||Efficacy|85.2||||0.0004|TWO_SIDED|95.0|50.084|97.183|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||97.183|50.084|0.0004
92211083|NCT05437510|184323439|SUPERIORITY||Efficacy|74.36||||0.0055|TWO_SIDED|95.0|29.006|92.518|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||92.518|29.006|0.0055
92211084|NCT05437510|184323440|SUPERIORITY||Efficacy|75.31||||0.0013|TWO_SIDED|95.0|38.012|91.747|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of very severe RSV LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||91.747|38.012|0.0013
92211085|NCT05437510|184323440|SUPERIORITY||Efficacy|78.1||||0.062|TWO_SIDED|95.0|-5.823|97.697|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of very severe RSV LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||97.697|-5.823|0.0620
92211086|NCT05437510|184323440|SUPERIORITY||Efficacy|91.01||||0.006|TWO_SIDED|95.0|38.156|99.791|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of very severe RSV LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||99.791|38.156|0.0060
92211087|NCT05437510|184323440|SUPERIORITY||Efficacy|26.01||||0.9851|TWO_SIDED|95.0|-337.329|89.162|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of very severe RSV LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||89.162|-337.329|0.9851
92211088|NCT05437510|184323441|SUPERIORITY||Efficacy|43.62|||<|0.0001|TWO_SIDED|95.0|24.677|58.057|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||58.057|24.677|<0.0001
92211089|NCT05437510|184323441|SUPERIORITY||Efficacy|34.78||||0.0754|TWO_SIDED|95.0|-4.148|59.648|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||59.648|-4.148|0.0754
92211090|NCT05437510|184323441|SUPERIORITY||Efficacy|40.67||||0.0177|TWO_SIDED|95.0|8.211|62.156|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||62.156|8.211|0.0177
92211091|NCT05437510|184323441|SUPERIORITY||Efficacy|66.38||||0.0046|TWO_SIDED|95.0|25.952|86.137|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||86.137|25.952|0.0046
92211092|NCT05437510|184323446|SUPERIORITY||Efficacy|82.72|||<|0.0001|TWO_SIDED|95.0|67.826|91.49|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations through Day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||91.490|67.826|<0.0001
92211093|NCT05437510|184323446|SUPERIORITY||Efficacy|86.13|||<|0.0001|TWO_SIDED|95.0|60.34|96.464|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations through Day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||96.464|60.340|<0.0001
92397079|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|8.48||||0.0003|TWO_SIDED|95.0|2.69|26.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||26.76|2.69|0.0003
92211094|NCT05437510|184323446|SUPERIORITY||Efficacy|85.92||||0.0002|TWO_SIDED|95.0|52.85|97.311|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations through Day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||97.311|52.850|0.0002
92211095|NCT05437510|184323446|SUPERIORITY||Efficacy|74.39||||0.0054|TWO_SIDED|95.0|29.077|92.525|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations through Day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||92.525|29.077|0.0054
92211096|NCT05437510|184323447|SUPERIORITY||Efficacy|41.89|||<|0.0001|TWO_SIDED|95.0|23.073|56.333|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||56.333|23.073|<0.0001
92211097|NCT05437510|184323447|SUPERIORITY||Efficacy|32.19||||0.1003|TWO_SIDED|95.0|-7.188|57.545|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||57.545|-7.188|0.1003
92211098|NCT05437510|184323447|SUPERIORITY||Efficacy|39.83||||0.0164|TWO_SIDED|95.0|8.449|60.911|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||60.911|8.449|0.0164
92211099|NCT05437510|184323447|SUPERIORITY||Efficacy|64.06||||0.0058|TWO_SIDED|95.0|23.386|84.478|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||84.478|23.386|0.0058
92397080|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.18||||0.1047|TWO_SIDED|95.0|1.48|10.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.35|1.48|0.1047
92397081|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.91||||0.006|TWO_SIDED|95.0|1.48|10.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.35|1.48|0.0060
92397082|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0414|TWO_SIDED|95.0|1.04|6.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.71|1.04|0.0414
92211100|NCT00147823|184323461|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|Using baseline (6 wk) and two year post operative predicted effects data, and setting desirable power to detect our effects to 80%||The sample size provided at least 80% power at a 5% alpha level to detect a medium to large effect in patients receiving Vitoss alone compared to combination therapy consisting of Vitoss with Bone Marrow Aspirate. Since a random coefficients model was used to analyze the data, the sample size calculation was estimated under this model assuming a 3% attrition rate between all measurement times.||||<0.01
92211101|NCT00147823|184323462|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared, Corrected|||||||<0.01
92211102|NCT04987307|184323503|SUPERIORITY||Difference percentage (%)|2.1||||0.7|TWO_SIDED|95.0|-8.6|12.8||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using nonresponder imputation (NRI).|Logistic regression model|||||12.8|-8.6|0.70
92211103|NCT04987307|184323503|SUPERIORITY||Difference %|2.0||||0.72|TWO_SIDED|95.0|-8.6|12.6||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||12.6|-8.6|0.72
92211104|NCT04987307|184323503|SUPERIORITY||Difference %|3.1||||0.58|TWO_SIDED|95.0|-8.0|14.2||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||14.2|-8.0|0.58
92211105|NCT04987307|184323504|SUPERIORITY||Difference %|-1.1||||0.89|TWO_SIDED|95.0|-16.3|14.2||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||14.2|-16.3|0.89
92397083|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.31||||0.0809|TWO_SIDED|95.0|0.9|5.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.89|0.90|0.0809
92397084|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.74||||0.2377|TWO_SIDED|95.0|0.69|4.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.34|0.69|0.2377
92397085|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|4.21||||0.0087|TWO_SIDED|95.0|1.44|12.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.34|1.44|0.0087
92397086|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|6.0||||0.0022|TWO_SIDED|95.0|1.9|18.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||18.94|1.90|0.0022
92397087|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.4||||0.4788|TWO_SIDED|95.0|0.55|3.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.55|0.55|0.4788
92397088|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.98||||0.0074|TWO_SIDED|95.0|1.45|10.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||10.94|1.45|0.0074
92397089|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.26||||0.0187|TWO_SIDED|95.0|1.22|8.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.75|1.22|0.0187
92397090|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.57||||0.3443|TWO_SIDED|95.0|0.62|4.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.00|0.62|0.3443
92397091|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.66||||0.2867|TWO_SIDED|95.0|0.65|4.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.22|0.65|0.2867
92397092|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|5.12||||0.0044|TWO_SIDED|95.0|1.66|15.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||15.78|1.66|0.0044
92397093|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|5.58||||0.0038|TWO_SIDED|95.0|1.74|17.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||17.87|1.74|0.0038
92397094|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.09||||0.1424|TWO_SIDED|95.0|0.78|5.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.60|0.78|0.1424
92397095|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.32||||0.0191|TWO_SIDED|95.0|1.22|9.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.07|1.22|0.0191
92397096|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0244|TWO_SIDED|95.0|1.16|8.56||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.56|1.16|0.0244
92397097|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.63||||0.1462|TWO_SIDED|95.0|0.71|9.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.67|0.71|0.1462
92397098|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.26||||0.7403|TWO_SIDED|95.0|0.32|4.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||4.97|0.32|0.7403
92397099|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.35||||0.2144|TWO_SIDED|95.0|0.61|9.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.07|0.61|0.2144
92397100|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.74||||0.4321|TWO_SIDED|95.0|0.44|6.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.96|0.44|0.4321
92397101|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.53||||0.1778|TWO_SIDED|95.0|0.66|9.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.75|0.66|0.1778
92397102|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|1.21||||0.8016|TWO_SIDED|95.0|0.28|5.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.20|0.28|0.8016
92397103|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|2.62||||0.1486|TWO_SIDED|95.0|0.71|9.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.64|0.71|0.1486
92397104|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.51||||0.2881|TWO_SIDED|95.0|0.15|1.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.77|0.15|0.2881
92397105|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.36||||0.1217|TWO_SIDED|95.0|0.1|1.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.31|0.10|0.1217
92397106|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.36||||0.1027|TWO_SIDED|95.0|0.07|1.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.28|0.07|0.1027
92397107|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.18||||0.0428|TWO_SIDED|95.0|0.03|0.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||0.94|0.03|0.0428
92397108|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.72||||0.5943|TWO_SIDED|95.0|0.21|2.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.44|0.21|0.5943
92397109|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.94||||0.928|TWO_SIDED|95.0|0.27|3.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.28|0.27|0.9280
92397110|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.94||||0.916|TWO_SIDED|95.0|0.3|2.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.94|0.30|0.9160
92397111|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.43||||0.2262|TWO_SIDED|95.0|0.11|1.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.69|0.11|0.2262
92397112|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.48||||0.2682|TWO_SIDED|95.0|0.13|1.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.75|0.13|0.2682
92397113|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.4||||0.2344|TWO_SIDED|95.0|0.09|1.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.81|0.09|0.2344
92397114|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.22||||0.0835|TWO_SIDED|95.0|0.04|1.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.22|0.04|0.0835
92397115|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.72||||0.6322|TWO_SIDED|95.0|0.19|2.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.72|0.19|0.6322
92397116|NCT03192176|184689400|SUPERIORITY||Odds Ratio (OR)|0.65||||0.4845|TWO_SIDED|95.0|0.2|2.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.17|0.20|0.4845
92397117|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9587|TWO_SIDED|95.0|0.06|17.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||17.98|0.06|0.9587
92397118|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9895|TWO_SIDED|95.0|0.06|16.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.89|0.06|0.9895
92397119|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|7.24||||0.0736|TWO_SIDED|95.0|0.83|63.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||63.32|0.83|0.0736
92211106|NCT04987307|184323504|SUPERIORITY||Difference %|4.7||||0.56|TWO_SIDED|95.0|-11.1|20.6||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||20.6|-11.1|0.56
92211107|NCT04987307|184323504|SUPERIORITY||Difference %|4.5||||0.59|TWO_SIDED|95.0|-11.7|20.7||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||20.7|-11.7|0.59
92211108|NCT04987307|184323505|SUPERIORITY||Difference %|4.2||||0.52|TWO_SIDED|95.0|-8.7|17.2||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||17.2|-8.7|0.52
92211109|NCT04987307|184323505|SUPERIORITY||Difference %|0.2||||0.97|TWO_SIDED|95.0|-11.8|12.2||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||12.2|-11.8|0.97
92211110|NCT04987307|184323505|SUPERIORITY||Difference %|1.5||||0.82|TWO_SIDED|95.0|-11.1|14.0||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression mode|||||14.0|-11.1|0.82
92211111|NCT04987307|184323506|SUPERIORITY||Difference %|2.6||||0.72|TWO_SIDED|95.0|-11.6|16.7||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||16.7|-11.6|0.72
92211112|NCT04987307|184323506|SUPERIORITY||Difference %|8.3||||0.28|TWO_SIDED|95.0|-6.6|23.1||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||23.1|-6.6|0.28
92211113|NCT04987307|184323506|SUPERIORITY||Difference %|8.1||||0.3|TWO_SIDED|95.0|-7.1|23.3||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||23.3|-7.1|0.30
92211114|NCT04987307|184323507|SUPERIORITY||Difference %|8.46||||0.11|TWO_SIDED|95.0|0.0|16.9||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||16.9|0.0|0.11
92211115|NCT04987307|184323507|SUPERIORITY||Difference %|2.18||||0.46|TWO_SIDED|95.0|-3.4|7.7||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||7.7|-3.4|0.46
92211116|NCT04987307|184323507|SUPERIORITY||Difference %|0.14||||0.94|TWO_SIDED|95.0|-4.0|4.3||P-value was unadjusted and obtained from logistic regression model including stratification factors as covariates (prior experience with ≥1 biologic or targeted small molecule, corticosteroid use at randomization) using NRI.|Logistic regression model|||||4.3|-4.0|0.94
92211117|NCT04987307|184323508|SUPERIORITY||Treatment Difference|0.2||||0.39|TWO_SIDED|95.0|-0.3|0.7||P-value was obtained from the analysis of covariance (ANCOVA) model which includes stratification factors (prior experience with ≥ 1 biologic or targeted small molecule, corticosteroid use at randomization) as covariates.|ANCOVA|||||0.7|-0.3|0.39
92211118|NCT04987307|184323508|SUPERIORITY||Treatment Difference|0.2||||0.49|TWO_SIDED|95.0|-0.3|0.7||P-value was obtained from the ANCOVA model which includes stratification factors (prior experience with ≥ 1 biologic or targeted small molecule, corticosteroid use at randomization) as covariates.|ANCOVA|||||0.7|-0.3|0.49
92397120|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|7.08||||0.0767|TWO_SIDED|95.0|0.81|61.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||61.78|0.81|0.0767
92397121|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.51||||0.288|TWO_SIDED|95.0|0.35|35.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||35.49|0.35|0.2880
92211119|NCT04987307|184323508|SUPERIORITY||Treatment Difference|0.1||||0.76|TWO_SIDED|95.0|-0.5|0.6||P-value was obtained from the ANCOVA model which includes stratification factors (prior experience with ≥ 1 biologic or targeted small molecule, corticosteroid use at randomization) as covariates.|ANCOVA|||||0.6|-0.5|0.76
92211120|NCT03226392|184323580|SUPERIORITY||Mean Difference (Net)|-0.031||||0.214|TWO_SIDED|95.0|-0.08|0.018|||ANCOVA|||||0.018|-0.080|0.214
92211121|NCT03226392|184323581|SUPERIORITY||Mean Difference (Net)|-0.1||||0.035|TWO_SIDED|0.035|-0.19|0.01|||ANCOVA|||||0.01|-0.19|0.035
92211122|NCT03226392|184323582|SUPERIORITY||Mean Difference (Net)|0.093||||0.893|TWO_SIDED|95.0|-0.2|0.17|||ANCOVA|||||0.17|-0.20|0.893
92211123|NCT03226392|184323583|SUPERIORITY||Mean Difference (Net)|0.061||||0.448|TWO_SIDED|95.0|-0.07|0.17|||ANCOVA|||||0.17|-0.07|0.448
92211124|NCT00402363|184323592|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.263|TWO_SIDED|95.0|0.9|1.46|||Regression, Cox|||||1.46|0.90|0.263
92211125|NCT00402363|184323593|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.64||||0.089|TWO_SIDED|95.0|0.92|2.92|||Log Rank|||||2.92|0.92|0.089
92211126|NCT00402363|184323593|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.081|TWO_SIDED|95.0|0.98|1.52|||Regression, Cox|||||1.52|0.98|0.081
92211127|NCT00402363|184323594|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.213|TWO_SIDED|95.0|0.91|1.49|||Regression, Cox|||||1.49|0.91|0.213
92211128|NCT00402363|184323594|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.5||||0.171|TWO_SIDED|95.0|0.83|2.69|||Log Rank|||||2.69|0.83|0.171
92397122|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.96||||0.5894|TWO_SIDED|95.0|0.17|22.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||22.47|0.17|0.5894
92397123|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.45||||0.3093|TWO_SIDED|95.0|0.44|13.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||13.78|0.44|0.3093
92397124|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.31||||0.1606|TWO_SIDED|95.0|0.62|17.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||17.58|0.62|0.1606
92397125|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|11.92||||0.0019|TWO_SIDED|95.0|2.5|56.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||56.87|2.50|0.0019
92397126|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|14.4||||0.0008|TWO_SIDED|95.0|3.02|68.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||68.73|3.02|0.0008
92397127|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.86||||0.8803|TWO_SIDED|95.0|0.11|6.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.55|0.11|0.8803
92397128|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.98||||0.2096|TWO_SIDED|95.0|0.54|16.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||16.46|0.54|0.2096
92397129|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|7.69||||0.011|TWO_SIDED|95.0|1.6|37.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||37.11|1.60|0.0110
92397130|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.09||||0.0845|TWO_SIDED|95.0|0.86|11.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||11.11|0.86|0.0845
92397131|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.83||||0.1094|TWO_SIDED|95.0|0.79|10.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.13|0.79|0.1094
92397132|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|8.97||||0.0004|TWO_SIDED|95.0|2.68|30.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||30.07|2.68|0.0004
92397133|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|7.11||||0.0016|TWO_SIDED|95.0|2.1|24.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||24.09|2.10|0.0016
92397134|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.71||||0.4375|TWO_SIDED|95.0|0.44|6.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.64|0.44|0.4375
92397135|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.02||||0.0898|TWO_SIDED|95.0|0.84|10.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.85|0.84|0.0898
92397136|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|6.32||||0.0027|TWO_SIDED|95.0|1.9|21.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||21.06|1.90|0.0027
92397137|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.44||||0.1242|TWO_SIDED|95.0|0.78|7.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.64|0.78|0.1242
92397138|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.66||||0.0815|TWO_SIDED|95.0|0.88|8.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.03|0.88|0.0815
92397139|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|6.21||||0.0009|TWO_SIDED|95.0|2.11|18.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||18.27|2.11|0.0009
92211129|NCT00402363|184323595|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.082|TWO_SIDED|95.0|0.98|1.53|||Regression, Cox|||||1.53|0.98|0.082
92211130|NCT00402363|184323596|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.331|TWO_SIDED|95.0|0.89|1.4|||Regression, Cox|||||1.40|0.89|0.331
92211131|NCT00402363|184323596|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.297|TWO_SIDED|95.0|0.79|2.11|||Log Rank|||||2.11|0.79|0.297
92211132|NCT00402363|184323597|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.168|TWO_SIDED|95.0|0.94|1.42|||Regression, Cox|||||1.42|0.94|0.168
92211133|NCT00402363|184323598|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.27|TWO_SIDED|95.0|0.9|1.43|||Regression, Cox|||||1.43|0.90|0.270
92211134|NCT00402363|184323598|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.486|TWO_SIDED|95.0|0.73|1.95|||Log Rank|||||1.95|0.73|0.486
92211135|NCT00402363|184323599|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.167|TWO_SIDED|95.0|0.94|1.42|||Regression, Cox|||||1.42|0.94|0.167
92397140|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0027|TWO_SIDED|95.0|1.78|15.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||15.64|1.78|0.0027
92397141|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.35||||0.6267|TWO_SIDED|95.0|0.41|4.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||4.46|0.41|0.6267
92397142|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.77||||0.0709|TWO_SIDED|95.0|0.92|8.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.38|0.92|0.0709
92397143|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|4.62||||0.0049|TWO_SIDED|95.0|1.59|13.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||13.59|1.59|0.0049
92397144|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.5||||0.5107|TWO_SIDED|95.0|0.45|4.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.98|0.45|0.5107
92397145|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.37||||0.1297|TWO_SIDED|95.0|0.78|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.22|0.78|0.1297
92397146|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|7.04||||0.0005|TWO_SIDED|95.0|2.34|21.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||21.22|2.34|0.0005
92397147|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|8.5||||0.0001|TWO_SIDED|95.0|2.82|25.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||25.63|2.82|0.0001
92397148|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.84||||0.299|TWO_SIDED|95.0|0.58|5.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.81|0.58|0.2990
92397149|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.38||||0.1355|TWO_SIDED|95.0|0.76|7.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.42|0.76|0.1355
92397150|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|5.17||||0.0028|TWO_SIDED|95.0|1.76|15.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||15.14|1.76|0.0028
92397151|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.2||||0.7422|TWO_SIDED|95.0|0.41|3.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.47|0.41|0.7422
92397152|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.44||||0.075|TWO_SIDED|95.0|0.91|6.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.52|0.91|0.0750
92397153|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|6.0||||0.0006|TWO_SIDED|95.0|2.16|16.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.67|2.16|0.0006
92397154|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|7.63||||0.0001|TWO_SIDED|95.0|2.69|21.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||21.65|2.69|0.0001
92397155|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8405|TWO_SIDED|95.0|0.38|3.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.23|0.38|0.8405
92397156|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.3||||0.6257|TWO_SIDED|95.0|0.45|3.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.79|0.45|0.6257
92211136|NCT00402363|184323600|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.565|TWO_SIDED|95.0|0.81|1.47|||Regression, Cox|||||1.47|0.81|0.565
92397157|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.92||||0.006|TWO_SIDED|95.0|1.48|10.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||10.36|1.48|0.0060
92397158|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.74||||0.3556|TWO_SIDED|95.0|0.54|5.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.68|0.54|0.3556
92397159|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.67||||0.019|TWO_SIDED|95.0|1.24|10.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.90|1.24|0.0190
92397160|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|9.9|||<|0.0001|TWO_SIDED|95.0|3.2|30.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||30.68|3.20|<0.0001
92397161|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|14.81|||<|0.0001|TWO_SIDED|95.0|4.67|47.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||47.05|4.67|<0.0001
92397162|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.13||||0.1936|TWO_SIDED|95.0|0.68|6.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.67|0.68|0.1936
92397163|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.39||||0.0335|TWO_SIDED|95.0|1.1|10.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.47|1.10|0.0335
92397164|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|6.18||||0.0009|TWO_SIDED|95.0|2.1|18.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||18.17|2.10|0.0009
92397165|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.9||||0.833|TWO_SIDED|95.0|0.34|2.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||2.39|0.34|0.8330
92397166|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.56||||0.341|TWO_SIDED|95.0|0.62|3.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.91|0.62|0.3410
92397167|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.71||||0.0075|TWO_SIDED|95.0|1.42|9.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.69|1.42|0.0075
92397168|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|4.86||||0.002|TWO_SIDED|95.0|1.78|13.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||13.26|1.78|0.0020
92397169|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.78||||0.6216|TWO_SIDED|95.0|0.29|2.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||2.10|0.29|0.6216
92397170|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.43||||0.4615|TWO_SIDED|95.0|0.55|3.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.71|0.55|0.4615
92397171|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.84||||0.0281|TWO_SIDED|95.0|1.12|7.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.19|1.12|0.0281
92397172|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.88||||0.8028|TWO_SIDED|95.0|0.33|2.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||2.35|0.33|0.8028
92211137|NCT00402363|184323600|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.68||||0.103|TWO_SIDED|95.0|0.89|3.15|||Log Rank|||||3.15|0.89|0.103
92211138|NCT00402363|184323601|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.185|TWO_SIDED|95.0|0.92|1.56|||Regression, Cox|||||1.56|0.92|0.185
92211139|NCT00402363|184323602|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.461|TWO_SIDED|95.0|0.83|1.51|||Regression, Cox|||||1.51|0.83|0.461
92397173|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.21||||0.6846|TWO_SIDED|95.0|0.48|3.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.07|0.48|0.6846
92397174|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.31||||0.0149|TWO_SIDED|95.0|1.26|8.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.67|1.26|0.0149
92397175|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|5.64||||0.0009|TWO_SIDED|95.0|2.03|15.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||15.65|2.03|0.0009
92397176|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.79||||0.6434|TWO_SIDED|95.0|0.29|2.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||2.15|0.29|0.6434
92397177|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.41||||0.4784|TWO_SIDED|95.0|0.54|3.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.69|0.54|0.4784
92397178|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.2||||0.0955|TWO_SIDED|95.0|0.87|5.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.55|0.87|0.0955
92397179|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.06||||0.9082|TWO_SIDED|95.0|0.4|2.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||2.79|0.40|0.9082
92397180|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.25||||0.6478|TWO_SIDED|95.0|0.48|3.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.21|0.48|0.6478
92397181|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.65||||0.0104|TWO_SIDED|95.0|1.35|9.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.82|1.35|0.0104
92397182|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|6.66||||0.0004|TWO_SIDED|95.0|2.34|18.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||18.94|2.34|0.0004
92397183|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.91||||0.856|TWO_SIDED|95.0|0.34|2.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||2.45|0.34|0.8560
92397184|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.6||||0.3319|TWO_SIDED|95.0|0.62|4.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.17|0.62|0.3319
92397185|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.34||||0.0747|TWO_SIDED|95.0|0.92|5.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.95|0.92|0.0747
92397186|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8986|TWO_SIDED|95.0|0.41|2.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||2.76|0.41|0.8986
92397187|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9712|TWO_SIDED|95.0|0.38|2.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||2.53|0.38|0.9712
92397188|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|3.31||||0.091|TWO_SIDED|95.0|1.22|8.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.98|1.22|0.0910
92397189|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|5.68||||0.0011|TWO_SIDED|95.0|2.01|16.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||16.06|2.01|0.0011
92397190|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.91||||0.8466|TWO_SIDED|95.0|0.35|2.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||2.39|0.35|0.8466
92397191|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.03||||0.1409|TWO_SIDED|95.0|0.79|5.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.21|0.79|0.1409
92397192|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1212|TWO_SIDED|95.0|0.82|5.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.25|0.82|0.1212
92397193|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.48||||0.4269|TWO_SIDED|95.0|0.56|3.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.88|0.56|0.4269
92397194|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.34||||0.5454|TWO_SIDED|95.0|0.52|3.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.49|0.52|0.5454
92397195|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0595|TWO_SIDED|95.0|0.96|7.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.15|0.96|0.0595
92397196|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|4.58||||0.0041|TWO_SIDED|95.0|1.62|12.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.98|1.62|0.0041
92397197|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.77||||0.6121|TWO_SIDED|95.0|0.28|2.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||2.13|0.28|0.6121
92397198|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.8||||0.2329|TWO_SIDED|95.0|0.68|4.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.75|0.68|0.2329
92397199|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|2.28||||0.0891|TWO_SIDED|95.0|0.88|5.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.90|0.88|0.0891
92397200|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.55||||0.6857|TWO_SIDED|95.0|0.03|9.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.97|0.03|0.6857
92397201|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.56||||0.7291|TWO_SIDED|95.0|0.12|19.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||19.71|0.12|0.7291
92397202|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.82||||0.8951|TWO_SIDED|95.0|0.05|14.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||14.41|0.05|0.8951
92397203|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.66||||0.6865|TWO_SIDED|95.0|0.14|19.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||19.74|0.14|0.6865
92397204|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.17||||0.9132|TWO_SIDED|95.0|0.07|20.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||20.24|0.07|0.9132
92397205|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.38||||0.7982|TWO_SIDED|95.0|0.12|16.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||16.59|0.12|0.7982
92397206|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|1.17||||0.9029|TWO_SIDED|95.0|0.09|15.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||15.57|0.09|0.9029
92397207|NCT03192176|184689401|SUPERIORITY||Odds Ratio (OR)|0.69||||0.7971|TWO_SIDED|95.0|0.04|11.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||11.94|0.04|0.7971
92397208|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|0.67||||0.7899|TWO_SIDED|95.0|0.04|12.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.34|0.04|0.7899
92211140|NCT00402363|184323602|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51||||0.206|TWO_SIDED|95.0|0.79|2.86|||Log Rank|||||2.86|0.79|0.206
92211141|NCT00402363|184323603|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.188|TWO_SIDED|95.0|0.92|1.57|||Regression, Cox|||||1.57|0.92|0.188
92211142|NCT00402363|184323604|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.07||||0.29|TWO_SIDED|95.0|-0.09|2.08|||non-parametric ANCOVA|||||2.08|-0.09|0.290
92211143|NCT00402363|184323604|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.063||||0.479|TWO_SIDED|95.0|-0.08|2.02|||Wilcoxon (Mann-Whitney)|||||2.02|-0.08|0.479
92211144|NCT00402363|184323604|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.039||||0.218|TWO_SIDED|95.0|-0.06|1.49|||non-parametric ANCOVA|||||1.49|-0.06|0.218
92397209|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|0.86||||0.9186|TWO_SIDED|95.0|0.05|14.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||14.73|0.05|0.9186
92397210|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.19||||0.5303|TWO_SIDED|95.0|0.19|25.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||25.46|0.19|0.5303
92397211|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|5.85||||0.1149|TWO_SIDED|95.0|0.65|52.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||52.66|0.65|0.1149
92397212|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|9.07||||0.0442|TWO_SIDED|95.0|1.06|77.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||77.71|1.06|0.0442
92397213|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.53||||0.2851|TWO_SIDED|95.0|0.35|35.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||35.68|0.35|0.2851
92397214|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|4.22||||0.2073|TWO_SIDED|95.0|0.45|39.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||39.48|0.45|0.2073
92397215|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.68||||0.27|TWO_SIDED|95.0|0.36|37.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||37.16|0.36|0.2700
92397216|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.41||||0.2982|TWO_SIDED|95.0|0.34|34.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||34.27|0.34|0.2982
92397217|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|12.3||||0.0204|TWO_SIDED|95.0|1.47|102.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||102.6|1.47|0.0204
92397218|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|11.1||||0.027|TWO_SIDED|95.0|1.31|93.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||93.74|1.31|0.0270
92397219|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.22||||0.5224|TWO_SIDED|95.0|0.19|25.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||25.68|0.19|0.5224
92397220|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|4.92||||0.1635|TWO_SIDED|95.0|0.52|46.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||46.35|0.52|0.1635
92397221|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|10.97||||0.0266|TWO_SIDED|95.0|1.32|91.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||91.15|1.32|0.0266
92397222|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.69||||0.4299|TWO_SIDED|95.0|0.23|31.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||31.21|0.23|0.4299
92397223|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|4.87||||0.1667|TWO_SIDED|95.0|0.52|45.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||45.84|0.52|0.1667
92397224|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|8.11||||0.0592|TWO_SIDED|95.0|0.92|71.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||71.35|0.92|0.0592
92397225|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|18.28||||0.007|TWO_SIDED|95.0|2.21|151.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||151.2|2.21|0.0070
92211145|NCT00402363|184323605|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.321||||0.218|TWO_SIDED|95.0|-0.18|2.21|||non-parametric ANCOVA|||||2.21|-0.18|0.218
92211146|NCT00402363|184323605|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.216||||0.188|TWO_SIDED|95.0|-0.14|3.14|||Wilcoxon (Mann-Whitney)|||||3.14|-0.14|0.188
92211147|NCT00402363|184323605|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.181||||0.097|TWO_SIDED|95.0|-0.1|2.1|||non-parametric ANCOVA|||||2.10|-0.10|0.097
92211148|NCT00402363|184323606|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.242||||0.239|TWO_SIDED|95.0|-0.19|2.17|||non-parametric ANCOVA|||||2.17|-0.19|0.239
92397226|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.79||||0.2594|TWO_SIDED|95.0|0.37|38.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||38.32|0.37|0.2594
92397227|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|8.14||||0.0589|TWO_SIDED|95.0|0.92|71.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||71.67|0.92|0.0589
92397228|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|10.08||||0.0338|TWO_SIDED|95.0|1.19|85.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||85.20|1.19|0.0338
92397229|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|0.76||||0.7756|TWO_SIDED|95.0|0.12|4.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.88|0.12|0.7756
92397230|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9246|TWO_SIDED|95.0|0.2|5.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.74|0.20|0.9246
92397231|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|5.42||||0.0177|TWO_SIDED|95.0|1.34|21.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||21.93|1.34|0.0177
92397232|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|5.38||||0.0178|TWO_SIDED|95.0|1.34|21.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||21.65|1.34|0.0178
92397233|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|1.17||||0.8564|TWO_SIDED|95.0|0.22|6.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.20|0.22|0.8564
92397234|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.52||||0.2202|TWO_SIDED|95.0|0.58|11.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.00|0.58|0.2202
92397235|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.37||||0.2498|TWO_SIDED|95.0|0.55|10.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||10.25|0.55|0.2498
92397236|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|8.22||||0.0576|TWO_SIDED|95.0|0.93|72.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||72.29|0.93|0.0576
92397237|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.34||||0.3065|TWO_SIDED|95.0|0.33|33.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||33.59|0.33|0.3065
92397238|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|19.9||||0.0056|TWO_SIDED|95.0|2.4|165.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||165.1|2.40|0.0056
92211149|NCT00402363|184323606|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.249||||0.152|TWO_SIDED|95.0|-0.09|4.31|||Wilcoxon (Mann-Whitney)|||||4.31|-0.09|0.152
92397239|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|25.05||||0.0027|TWO_SIDED|95.0|3.05|205.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||205.5|3.05|0.0027
92211150|NCT00402363|184323606|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.2||||0.094|TWO_SIDED|95.0|-0.08|2.11|||non-parametric ANCOVA|||||2.11|-0.08|0.094
92211151|NCT00568321|184323633|SUPERIORITY||LS Mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.43||0.687|TWO_SIDED|90.0|-0.5|0.92|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Least square (LS) mean difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.92|-0.50|0.687
92211152|NCT00568321|184323633|SUPERIORITY||LS Mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.44||0.111|TWO_SIDED|90.0|-1.25|0.19|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||LS mean difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.19|-1.25|0.111
92211153|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.41||0.399|TWO_SIDED|90.0|-0.79|0.58|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.58|-0.79|0.399
92211154|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.42||0.189|TWO_SIDED|90.0|-1.06|0.32|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.32|-1.06|0.189
92211155|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.42||0.802|TWO_SIDED|90.0|-0.33|1.04|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.04|-0.33|0.802
92211156|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.42||0.582|TWO_SIDED|90.0|-0.61|0.78|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.78|-0.61|0.582
92211157|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.42||0.789|TWO_SIDED|90.0|-0.36|1.04|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.04|-0.36|0.789
92211158|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.42||0.29|TWO_SIDED|90.0|-0.94|0.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.47|-0.94|0.290
92211159|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.44||0.568|TWO_SIDED|90.0|-0.65|0.81|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.81|-0.65|0.568
92211160|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.45||0.116|TWO_SIDED|90.0|-1.27|0.2|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.20|-1.27|0.116
92211161|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.46||0.218|TWO_SIDED|90.0|-1.11|0.4|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.40|-1.11|0.218
92211162|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.46||0.261|TWO_SIDED|90.0|-1.06|0.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.47|-1.06|0.261
92211163|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.48||0.252|TWO_SIDED|90.0|-1.11|0.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.47|-1.11|0.252
92211164|NCT00568321|184323634|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.49||0.182|TWO_SIDED|90.0|-1.26|0.36|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.36|-1.26|0.182
92211165|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.39||0.683|TWO_SIDED|90.0|-0.46|0.84|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.84|-0.46|0.683
92211166|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.31|TWO_SIDED|90.0|-0.85|0.46|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.46|-0.85|0.310
92211167|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.37||0.668|TWO_SIDED|90.0|-0.46|0.78|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.78|-0.46|0.668
92211168|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.38||0.165|TWO_SIDED|90.0|-0.99|0.26|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.26|-0.99|0.165
92397240|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.61||||0.2762|TWO_SIDED|95.0|0.36|36.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||36.51|0.36|0.2762
92397241|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|6.93||||0.0851|TWO_SIDED|95.0|0.77|62.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||62.69|0.77|0.0851
92211169|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.36||0.546|TWO_SIDED|90.0|-0.55|0.64|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.64|-0.55|0.546
92397242|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|17.02||||0.0081|TWO_SIDED|95.0|2.09|138.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||138.7|2.09|0.0081
92397243|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|6.37||||0.0995|TWO_SIDED|95.0|0.7|57.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||57.62|0.70|0.0995
92397244|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|5.76||||0.1184|TWO_SIDED|95.0|0.64|51.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||51.80|0.64|0.1184
92397245|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|26.54||||0.0023|TWO_SIDED|95.0|3.23|218.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||218.3|3.23|0.0023
92397246|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|19.09||||0.0062|TWO_SIDED|95.0|2.31|157.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||157.9|2.31|0.0062
92397247|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|7.49||||0.0695|TWO_SIDED|95.0|0.85|65.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||65.87|0.85|0.0695
92211170|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.36||0.19|TWO_SIDED|90.0|-0.92|0.28|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.28|-0.92|0.190
92211171|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.35||0.467|TWO_SIDED|90.0|-0.6|0.55|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.55|-0.60|0.467
92397248|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|8.64||||0.052|TWO_SIDED|95.0|0.98|75.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||75.98|0.98|0.0520
92397249|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|22.3||||0.0036|TWO_SIDED|95.0|2.75|180.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||180.6|2.75|0.0036
92397250|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|4.66||||0.0676|TWO_SIDED|95.0|0.89|24.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||24.23|0.89|0.0676
92397251|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|4.14||||0.0903|TWO_SIDED|95.0|0.8|21.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||21.38|0.80|0.0903
92397252|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|15.46||||0.0007|TWO_SIDED|95.0|3.18|75.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||75.14|3.18|0.0007
92397253|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|10.94||||0.0032|TWO_SIDED|95.0|2.22|53.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||53.77|2.22|0.0032
92397254|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.04||||0.2031|TWO_SIDED|95.0|0.55|16.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||16.85|0.55|0.2031
92397255|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|4.13||||0.0972|TWO_SIDED|95.0|0.77|22.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||22.10|0.77|0.0972
92397256|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|11.04||||0.0027|TWO_SIDED|95.0|2.3|53.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||53.06|2.30|0.0027
92397257|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.06||||0.1306|TWO_SIDED|95.0|0.72|13.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.02|0.72|0.1306
92397258|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|4.83||||0.0248|TWO_SIDED|95.0|1.22|19.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||19.10|1.22|0.0248
92397259|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|7.14||||0.0054|TWO_SIDED|95.0|1.79|28.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||28.53|1.79|0.0054
92397260|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|10.01||||0.001|TWO_SIDED|95.0|2.55|39.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||39.36|2.55|0.0010
92397261|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|1.21||||0.8271|TWO_SIDED|95.0|0.23|6.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.45|0.23|0.8271
92397262|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.27||||0.1089|TWO_SIDED|95.0|0.77|13.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.95|0.77|0.1089
92397263|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|5.58||||0.0138|TWO_SIDED|95.0|1.42|21.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||21.93|1.42|0.0138
92397264|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.4||||0.1987|TWO_SIDED|95.0|0.63|9.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.15|0.63|0.1987
92397265|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|1.8||||0.3984|TWO_SIDED|95.0|0.46|7.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||7.02|0.46|0.3984
92397266|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.92||||0.0402|TWO_SIDED|95.0|1.06|14.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||14.45|1.06|0.0402
92397267|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|8.05||||0.001|TWO_SIDED|95.0|2.32|27.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||27.95|2.32|0.0010
92397268|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|0.84||||0.8287|TWO_SIDED|95.0|0.17|4.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.08|0.17|0.8287
92397269|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.93||||0.1083|TWO_SIDED|95.0|0.79|10.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.92|0.79|0.1083
92397270|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|6.03||||0.0043|TWO_SIDED|95.0|1.76|20.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||20.66|1.76|0.0043
92397271|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.23||||0.1126|TWO_SIDED|95.0|0.76|13.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||13.79|0.76|0.1126
92211172|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.35||0.153|TWO_SIDED|90.0|-0.94|0.22|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.22|-0.94|0.153
92211173|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.41||0.632|TWO_SIDED|90.0|-0.54|0.81|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.81|-0.54|0.632
92273380|NCT00265083|184449144|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The positive test is defined if the comparison between combined golimumab and placebo is significant (p-value \<0.05), and at least one of the pair-wise comparisons is also significant (p-value \<0.05).|ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: No difference in change from baseline in BASFI comparing Groups I vs. II and Groups I vs. III.||||<0.001
92211174|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.41||0.094|TWO_SIDED|90.0|-1.22|0.14|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.14|-1.22|0.094
92211175|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.39||0.468|TWO_SIDED|90.0|-0.68|0.61|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.61|-0.68|0.468
92211176|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.39||0.167|TWO_SIDED|90.0|-1.03|0.27|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.27|-1.03|0.167
92211177|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.37||0.394|TWO_SIDED|90.0|-0.72|0.52|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.52|-0.72|0.394
92397272|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.9||||0.1479|TWO_SIDED|95.0|0.69|12.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.30|0.69|0.1479
92397273|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|10.49||||0.001|TWO_SIDED|95.0|2.59|42.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||42.46|2.59|0.0010
92397274|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|13.01||||0.0002|TWO_SIDED|95.0|3.31|51.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||51.14|3.31|0.0002
92397275|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.91||||0.1483|TWO_SIDED|95.0|0.68|12.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.41|0.68|0.1483
92397276|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|4.03||||0.0557|TWO_SIDED|95.0|0.97|16.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||16.84|0.97|0.0557
92397277|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|6.47||||0.0072|TWO_SIDED|95.0|1.66|25.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||25.28|1.66|0.0072
92397278|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9715|TWO_SIDED|95.0|0.32|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.24|0.32|0.9715
92397279|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|1.49||||0.472|TWO_SIDED|95.0|0.5|4.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.39|0.50|0.4720
92397280|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.35||||0.1262|TWO_SIDED|95.0|0.79|7.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.05|0.79|0.1262
92273381|NCT00265083|184449144|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: no difference in BASFI between Group II and Group I.||||<0.001
92397281|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|3.07||||0.0396|TWO_SIDED|95.0|1.05|8.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.92|1.05|0.0396
92397282|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|0.66||||0.5137|TWO_SIDED|95.0|0.19|2.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||2.29|0.19|0.5137
92397283|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|2.25||||0.137|TWO_SIDED|95.0|0.77|6.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.58|0.77|0.1370
92397284|NCT03192176|184689402|SUPERIORITY||Odds Ratio (OR)|1.39||||0.5526|TWO_SIDED|95.0|0.47|4.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.07|0.47|0.5526
92397285|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|5.75||||0.0012|TWO_SIDED|95.0|1.99|16.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.62|1.99|0.0012
92397286|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|8.86|||<|0.0001|TWO_SIDED|95.0|3.06|25.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||25.68|3.06|<0.0001
92211178|NCT00568321|184323635|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.38||0.138|TWO_SIDED|90.0|-1.04|0.21|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.21|-1.04|0.138
92211179|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.55||0.764|TWO_SIDED|90.0|-0.51|1.3|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.30|-0.51|0.764
92211180|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.55||0.75|TWO_SIDED|90.0|-0.54|1.28|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.28|-0.54|0.750
92211181|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|0.45||0.734|TWO_SIDED|90.0|-0.46|1.03|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.03|-0.46|0.734
92211182|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.45||0.514|TWO_SIDED|90.0|-0.73|0.77|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.77|-0.73|0.514
92211183|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|1.37|STANDARD_ERROR_OF_MEAN|1.89||0.765|TWO_SIDED|90.0|-1.76|4.5|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||4.50|-1.76|0.765
92273382|NCT00265083|184449144|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: no difference in BASFI between Group III and Group I.||||<0.001
92397287|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|11.55|||<|0.0001|TWO_SIDED|95.0|3.94|33.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||33.85|3.94|<0.0001
92397288|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|13.55|||<|0.0001|TWO_SIDED|95.0|4.55|40.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||40.38|4.55|<0.0001
92397289|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0555|TWO_SIDED|95.0|0.98|8.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||8.61|0.98|0.0555
92397290|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|7.98||||0.0001|TWO_SIDED|95.0|2.75|23.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.18|2.75|0.0001
92397291|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|8.07||||0.0001|TWO_SIDED|95.0|2.81|23.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.19|2.81|0.0001
92397292|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.55||||0.0012|TWO_SIDED|95.0|1.82|11.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||11.39|1.82|0.0012
92397293|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|5.25||||0.0005|TWO_SIDED|95.0|2.06|13.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||13.43|2.06|0.0005
92397294|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|5.62||||0.0003|TWO_SIDED|95.0|2.2|14.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||14.39|2.20|0.0003
92397295|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|8.42|||<|0.0001|TWO_SIDED|95.0|2.99|23.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||23.74|2.99|<0.0001
92397296|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0277|TWO_SIDED|95.0|1.12|6.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.70|1.12|0.0277
92397297|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.15||||0.0022|TWO_SIDED|95.0|1.66|10.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.32|1.66|0.0022
92397298|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.06||||0.0314|TWO_SIDED|95.0|1.26|7.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.41|1.26|0.0314
92397299|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.92||||0.0041|TWO_SIDED|95.0|1.54|9.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.97|1.54|0.0041
92397300|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.19||||0.0028|TWO_SIDED|95.0|1.64|10.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.74|1.64|0.0028
92397301|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.96||||0.0011|TWO_SIDED|95.0|1.9|12.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||12.98|1.90|0.0011
92397302|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|8.79||||0.0001|TWO_SIDED|95.0|2.86|26.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||26.99|2.86|0.0001
92397303|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.09||||0.0036|TWO_SIDED|95.0|1.59|10.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.57|1.59|0.0036
92211184|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.71|STANDARD_ERROR_OF_MEAN|1.9||0.646|TWO_SIDED|90.0|-2.43|3.86|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||3.86|-2.43|0.646
92211185|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.55||0.895|TWO_SIDED|90.0|-0.22|1.6|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.60|-0.22|0.895
92397304|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.52||||0.0018|TWO_SIDED|95.0|1.75|11.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||11.67|1.75|0.0018
92397305|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0243|TWO_SIDED|95.0|1.14|6.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.68|1.14|0.0243
92211186|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.56||0.776|TWO_SIDED|90.0|-0.5|1.34|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.34|-0.50|0.776
92211187|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.72|STANDARD_ERROR_OF_MEAN|0.45||0.944|TWO_SIDED|90.0|-0.03|1.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.47|-0.03|0.944
92211188|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|0.46||0.835|TWO_SIDED|90.0|-0.31|1.21|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.21|-0.31|0.835
92211189|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|3.23|STANDARD_ERROR_OF_MEAN|1.9||0.955|TWO_SIDED|90.0|0.09|6.37|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||6.37|0.09|0.955
92211190|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|2.31|STANDARD_ERROR_OF_MEAN|1.93||0.884|TWO_SIDED|90.0|-0.88|5.49|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||5.49|-0.88|0.884
92211191|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.56||0.737|TWO_SIDED|90.0|-0.57|1.28|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.28|-0.57|0.737
92211192|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.56||0.628|TWO_SIDED|90.0|-0.74|1.11|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.11|-0.74|0.628
92211193|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.67|STANDARD_ERROR_OF_MEAN|0.46||0.925|TWO_SIDED|90.0|-0.1|1.43|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.43|-0.10|0.925
92211194|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.46||0.518|TWO_SIDED|90.0|-0.75|0.79|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.79|-0.75|0.518
92211195|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|1.93||0.81|TWO_SIDED|90.0|-1.49|4.88|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||4.88|-1.49|0.810
92211196|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|1.94||0.6|TWO_SIDED|90.0|-2.72|3.7|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||3.70|-2.72|0.600
92211197|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.58||0.651|TWO_SIDED|90.0|-0.73|1.18|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.18|-0.73|0.651
92211198|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.59||0.342|TWO_SIDED|90.0|-1.21|0.73|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.73|-1.21|0.342
92211199|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.48||0.768|TWO_SIDED|90.0|-0.44|1.14|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.14|-0.44|0.768
92397306|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.33||||0.077|TWO_SIDED|95.0|0.91|5.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.96|0.91|0.0770
92397307|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.61||||0.0451|TWO_SIDED|95.0|1.02|6.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.69|1.02|0.0451
92397308|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0165|TWO_SIDED|95.0|1.25|9.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||9.04|1.25|0.0165
92397309|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0037|TWO_SIDED|95.0|1.72|16.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||16.23|1.72|0.0037
92397310|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.29||||0.0812|TWO_SIDED|95.0|0.9|5.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.82|0.90|0.0812
92397311|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.46||||0.0577|TWO_SIDED|95.0|0.97|6.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.22|0.97|0.0577
92397312|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0706|TWO_SIDED|95.0|0.93|5.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.85|0.93|0.0706
92397313|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0404|TWO_SIDED|95.0|1.04|7.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.00|1.04|0.0404
92397314|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.3||||0.0054|TWO_SIDED|95.0|1.54|11.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.99|1.54|0.0054
92397315|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.37||||0.0186|TWO_SIDED|95.0|1.22|9.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.27|1.22|0.0186
92397316|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|6.58||||0.0023|TWO_SIDED|95.0|1.96|22.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||22.14|1.96|0.0023
92397317|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.63||||0.0118|TWO_SIDED|95.0|1.33|9.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.93|1.33|0.0118
92397318|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|5.57||||0.002|TWO_SIDED|95.0|1.88|16.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||16.53|1.88|0.0020
92397319|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.71||||0.043|TWO_SIDED|95.0|1.03|7.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.14|1.03|0.0430
92397320|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.81||||0.2197|TWO_SIDED|95.0|0.7|4.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.66|0.70|0.2197
92397321|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1341|TWO_SIDED|95.0|0.8|5.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.42|0.80|0.1341
92397322|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.69||||0.0196|TWO_SIDED|95.0|1.23|11.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||11.05|1.23|0.0196
92397323|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.79||||0.0121|TWO_SIDED|95.0|1.41|16.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.26|1.41|0.0121
92397324|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1511|TWO_SIDED|95.0|0.77|5.56||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.56|0.77|0.1511
92397325|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.94||||0.0068|TWO_SIDED|95.0|1.55|15.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||15.68|1.55|0.0068
92397326|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.49||||0.0741|TWO_SIDED|95.0|0.91|6.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.79|0.91|0.0741
92397327|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.7||||0.2772|TWO_SIDED|95.0|0.65|4.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.43|0.65|0.2772
92397328|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0705|TWO_SIDED|95.0|0.92|7.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.02|0.92|0.0705
92397329|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.88||||0.022|TWO_SIDED|95.0|1.22|12.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||12.39|1.22|0.0220
92397330|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.33||||0.0196|TWO_SIDED|95.0|1.27|14.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||14.82|1.27|0.0196
92397331|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.09||||0.0433|TWO_SIDED|95.0|1.03|9.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.24|1.03|0.0433
92397332|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0355|TWO_SIDED|95.0|1.08|9.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.20|1.08|0.0355
92397333|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3238|TWO_SIDED|95.0|0.62|4.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.28|0.62|0.3238
92397334|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.68||||0.3208|TWO_SIDED|95.0|0.6|4.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.68|0.60|0.3208
92397335|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.9||||0.2281|TWO_SIDED|95.0|0.67|5.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.40|0.67|0.2281
92397336|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.18||||0.0566|TWO_SIDED|95.0|0.97|10.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.46|0.97|0.0566
92397337|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.39||||0.1491|TWO_SIDED|95.0|0.73|7.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.78|0.73|0.1491
92397338|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.32||||0.1477|TWO_SIDED|95.0|0.74|7.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.23|0.74|0.1477
92397339|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.24||||0.0532|TWO_SIDED|95.0|0.98|10.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.64|0.98|0.0532
92397340|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.22||||0.1616|TWO_SIDED|95.0|0.73|6.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.76|0.73|0.1616
92211200|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.48||0.211|TWO_SIDED|90.0|-1.19|0.41|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.41|-1.19|0.211
92397341|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.5||||0.432|TWO_SIDED|95.0|0.55|4.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.11|0.55|0.4320
92397342|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.9||||0.2231|TWO_SIDED|95.0|0.68|5.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.35|0.68|0.2231
92397343|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.88||||0.0347|TWO_SIDED|95.0|1.1|13.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.64|1.10|0.0347
92397344|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.59||||0.0291|TWO_SIDED|95.0|1.17|18.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||18.07|1.17|0.0291
92397345|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.82||||0.2805|TWO_SIDED|95.0|0.61|5.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.38|0.61|0.2805
92397346|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.1||||0.0602|TWO_SIDED|95.0|0.95|10.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||10.11|0.95|0.0602
92397347|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.41||||0.5087|TWO_SIDED|95.0|0.51|3.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.88|0.51|0.5087
92397348|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.26||||0.1224|TWO_SIDED|95.0|0.8|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.38|0.80|0.1224
92397349|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.85||||0.228|TWO_SIDED|95.0|0.68|5.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.02|0.68|0.2280
92397350|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1835|TWO_SIDED|95.0|0.71|6.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.02|0.71|0.1835
92397351|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|5.85||||0.0107|TWO_SIDED|95.0|1.51|22.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||22.69|1.51|0.0107
92397352|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.94||||0.0576|TWO_SIDED|95.0|0.97|8.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.96|0.97|0.0576
92397353|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|9.68||||0.0047|TWO_SIDED|95.0|2.0|46.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||46.77|2.00|0.0047
92397354|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.89||||0.0569|TWO_SIDED|95.0|0.97|8.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.64|0.97|0.0569
92397355|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.35||||0.1078|TWO_SIDED|95.0|0.83|6.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.68|0.83|0.1078
92397356|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0772|TWO_SIDED|95.0|0.9|7.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.47|0.90|0.0772
92397357|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.36||||0.1311|TWO_SIDED|95.0|0.77|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.22|0.77|0.1311
92397358|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|5.64||||0.01255|TWO_SIDED|95.0|1.45|21.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||21.96|1.45|0.01255
92397359|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.97||||0.0128|TWO_SIDED|95.0|1.41|17.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||17.54|1.41|0.0128
92397360|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|6.32||||0.0079|TWO_SIDED|95.0|1.62|24.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||24.63|1.62|0.0079
92397361|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0572|TWO_SIDED|95.0|0.97|8.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.67|0.97|0.0572
92397362|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|3.33||||0.0284|TWO_SIDED|95.0|1.14|9.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.79|1.14|0.0284
92397363|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.58||||0.0705|TWO_SIDED|95.0|0.92|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.22|0.92|0.0705
92397364|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.81||||0.0136|TWO_SIDED|95.0|1.38|16.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||16.77|1.38|0.0136
92397365|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|9.96||||0.0043|TWO_SIDED|95.0|2.06|48.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||48.29|2.06|0.0043
92397366|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.66||||0.076|TWO_SIDED|95.0|0.9|7.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.83|0.90|0.0760
92397367|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|5.75||||0.0059|TWO_SIDED|95.0|1.65|20.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||20.00|1.65|0.0059
92397368|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|4.22||||0.0143|TWO_SIDED|95.0|1.33|13.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||13.35|1.33|0.0143
92397369|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.82||||0.2779|TWO_SIDED|95.0|0.62|5.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.35|0.62|0.2779
92397370|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7559|TWO_SIDED|95.0|0.41|3.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.41|0.41|0.7559
92397371|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.07||||0.905|TWO_SIDED|95.0|0.35|3.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.23|0.35|0.9050
92397372|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.05||||0.2163|TWO_SIDED|95.0|0.66|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.38|0.66|0.2163
92397373|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.24||||0.1713|TWO_SIDED|95.0|0.7|7.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.14|0.70|0.1713
92397374|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3981|TWO_SIDED|95.0|0.52|5.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.09|0.52|0.3981
92397375|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9692|TWO_SIDED|95.0|0.35|2.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||2.96|0.35|0.9692
92397376|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.77||||0.2978|TWO_SIDED|95.0|0.6|5.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.22|0.60|0.2978
92397377|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8525|TWO_SIDED|95.0|0.38|3.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.18|0.38|0.8525
92397378|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|0.67||||0.5028|TWO_SIDED|95.0|0.21|2.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.13|0.21|0.5028
92397379|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.53||||0.4594|TWO_SIDED|95.0|0.5|4.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.73|0.50|0.4594
92397380|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.56||||0.1124|TWO_SIDED|95.0|0.8|8.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||8.17|0.80|0.1124
92397381|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.75||||0.3415|TWO_SIDED|95.0|0.55|5.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.58|0.55|0.3415
92397382|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.65||||0.3635|TWO_SIDED|95.0|0.56|4.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.83|0.56|0.3635
92397383|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|0.73||||0.5716|TWO_SIDED|95.0|0.24|2.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.20|0.24|0.5716
92397384|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|0.69||||0.5028|TWO_SIDED|95.0|0.23|2.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.05|0.23|0.5028
92397385|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|0.6||||0.3982|TWO_SIDED|95.0|0.18|1.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.98|0.18|0.3982
92397386|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|0.93||||0.93|TWO_SIDED|95.0|0.3|2.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.87|0.30|0.93
92397387|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|2.12||||0.2364|TWO_SIDED|95.0|0.61|7.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||7.32|0.61|0.2364
92397388|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|1.25||||0.7095|TWO_SIDED|95.0|0.39|4.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||4.04|0.39|0.7095
92397389|NCT03192176|184689403|SUPERIORITY||Odds Ratio (OR)|0.75||||0.6011|TWO_SIDED|95.0|0.26|2.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.20|0.26|0.6011
92397390|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|6.78||||0.0181|TWO_SIDED|95.0|1.39|33.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||33.10|1.39|0.0181
92397391|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|9.97||||0.0039|TWO_SIDED|95.0|2.1|47.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||47.48|2.10|0.0039
92397392|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|21.2||||0.0001|TWO_SIDED|95.0|4.51|99.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||99.65|4.51|0.0001
92397393|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|23.97|||<|0.0001|TWO_SIDED|95.0|5.09|112.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||112.9|5.09|<0.0001
92397394|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.17||||0.1766|TWO_SIDED|95.0|0.59|16.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.87|0.59|0.1766
92397395|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|7.68||||0.0116|TWO_SIDED|95.0|1.58|37.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||37.43|1.58|0.0116
92397396|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|12.74||||0.0013|TWO_SIDED|95.0|2.71|59.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||59.81|2.71|0.0013
92211201|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.56|STANDARD_ERROR_OF_MEAN|1.99||0.61|TWO_SIDED|90.0|-2.73|3.85|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||3.85|-2.73|0.610
92211202|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-1.43|STANDARD_ERROR_OF_MEAN|2.02||0.241|TWO_SIDED|90.0|-4.76|1.91|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.91|-4.76|0.241
92211203|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.59||0.789|TWO_SIDED|90.0|-0.5|1.45|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.45|-0.50|0.789
92211204|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.6||0.57|TWO_SIDED|90.0|-0.88|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-0.88|0.570
92211205|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.38|STANDARD_ERROR_OF_MEAN|0.49||0.782|TWO_SIDED|90.0|-0.43|1.19|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.19|-0.43|0.782
92211206|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.49||0.295|TWO_SIDED|90.0|-1.08|0.55|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.55|-1.08|0.295
92211207|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|1.75|STANDARD_ERROR_OF_MEAN|2.04||0.804|TWO_SIDED|90.0|-1.62|5.11|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||5.11|-1.62|0.804
92211208|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|2.06||0.655|TWO_SIDED|90.0|-2.58|4.22|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||4.22|-2.58|0.655
92211209|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.6||0.409|TWO_SIDED|90.0|-1.13|0.86|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.86|-1.13|0.409
92211210|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.61||0.482|TWO_SIDED|90.0|-1.03|0.97|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.97|-1.03|0.482
92211211|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.5||0.592|TWO_SIDED|90.0|-0.71|0.94|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.94|-0.71|0.592
92211212|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.5||0.368|TWO_SIDED|90.0|-1.0|0.66|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.66|-1.00|0.368
92211213|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|2.08||0.396|TWO_SIDED|90.0|-3.98|2.88|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.88|-3.98|0.396
92211214|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|2.09||0.545|TWO_SIDED|90.0|-3.21|3.69|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||3.69|-3.21|0.545
92211215|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.62||0.486|TWO_SIDED|90.0|-1.04|1.0|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.00|-1.04|0.486
92211216|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.63||0.324|TWO_SIDED|90.0|-1.33|0.75|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.75|-1.33|0.324
92211217|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.51||0.563|TWO_SIDED|90.0|-0.76|0.92|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.92|-0.76|0.563
92397397|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.82||||0.0359|TWO_SIDED|95.0|1.07|7.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.43|1.07|0.0359
92397398|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|5.8||||0.0004|TWO_SIDED|95.0|2.2|15.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||15.33|2.20|0.0004
92397399|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|7.13|||<|0.0001|TWO_SIDED|95.0|2.68|18.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||18.98|2.68|<0.0001
92397400|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|6.84||||0.0001|TWO_SIDED|95.0|2.53|18.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||18.46|2.53|0.0001
92397401|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.04||||0.154|TWO_SIDED|95.0|0.76|5.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.47|0.76|0.1540
92397402|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.84||||0.0065|TWO_SIDED|95.0|1.46|10.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.12|1.46|0.0065
92397403|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.9||||0.0052|TWO_SIDED|95.0|1.5|10.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.14|1.50|0.0052
92397404|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.68||||0.0064|TWO_SIDED|95.0|1.44|9.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.39|1.44|0.0064
92397405|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|5.86||||0.0003|TWO_SIDED|95.0|2.26|15.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.21|2.26|0.0003
92397406|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|6.42||||0.0001|TWO_SIDED|95.0|2.47|16.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||16.69|2.47|0.0001
92397407|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|8.21|||<|0.0001|TWO_SIDED|95.0|3.01|22.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||22.42|3.01|<0.0001
92397408|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.12||||0.0171|TWO_SIDED|95.0|1.22|7.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.97|1.22|0.0171
92397409|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.38||||0.002|TWO_SIDED|95.0|1.71|11.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||11.18|1.71|0.0020
92397410|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.97||||0.0034|TWO_SIDED|95.0|1.58|9.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.99|1.58|0.0034
92397411|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.63||||0.0399|TWO_SIDED|95.0|1.05|6.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.59|1.05|0.0399
92397412|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|5.76||||0.0003|TWO_SIDED|95.0|2.23|14.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||14.84|2.23|0.0003
92211218|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.52||0.282|TWO_SIDED|90.0|-1.16|0.56|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.56|-1.16|0.282
92211219|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|2.12||0.409|TWO_SIDED|90.0|-3.99|3.01||P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.|Repeated Measures Model|||Week 16 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||3.01|-3.99|0.409
92211220|NCT00568321|184323636|SUPERIORITY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|2.17||0.293|TWO_SIDED|90.0|-4.76|2.39||P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.|Repeated Measures Model|||Week 16 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.39|-4.76|0.293
92211221|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.5||0.343|TWO_SIDED|90.0|-1.03|0.62|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.62|-1.03|0.343
92211222|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.51||0.576|TWO_SIDED|90.0|-0.75|0.94|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.94|-0.75|0.576
92211223|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.63||0.46|TWO_SIDED|90.0|-1.1|0.98|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.98|-1.10|0.460
92211224|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.63||0.435|TWO_SIDED|90.0|-1.15|0.94|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.94|-1.15|0.435
92211225|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.56||0.104|TWO_SIDED|90.0|-1.62|0.22|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.22|-1.62|0.104
92211226|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.57||0.204|TWO_SIDED|90.0|-1.42|0.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.47|-1.42|0.204
92211227|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.75|STANDARD_ERROR_OF_MEAN|0.5||0.931|TWO_SIDED|90.0|-0.08|1.58|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.58|-0.08|0.931
92211228|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.81|STANDARD_ERROR_OF_MEAN|0.52||0.941|TWO_SIDED|90.0|-0.04|1.67|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.67|-0.04|0.941
92211229|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.96|STANDARD_ERROR_OF_MEAN|0.63||0.936|TWO_SIDED|90.0|-0.08|2.01|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.01|-0.08|0.936
92211230|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|1.17|STANDARD_ERROR_OF_MEAN|0.64||0.965|TWO_SIDED|90.0|0.11|2.23|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.23|0.11|0.965
92211231|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.56||0.855|TWO_SIDED|90.0|-0.33|1.51|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.51|-0.33|0.855
92211232|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.58||0.765|TWO_SIDED|90.0|-0.54|1.38|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.38|-0.54|0.765
92397413|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.05||||0.0031|TWO_SIDED|95.0|1.6|10.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.23|1.60|0.0031
92397414|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|9.82|||<|0.0001|TWO_SIDED|95.0|3.41|28.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||28.28|3.41|<0.0001
92397415|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.96||||0.0036|TWO_SIDED|95.0|1.57|10.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.01|1.57|0.0036
92397416|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.79||||0.0009|TWO_SIDED|95.0|1.89|12.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||12.11|1.89|0.0009
92397417|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.33||||0.0091|TWO_SIDED|95.0|1.35|8.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.21|1.35|0.0091
92397418|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.78||||0.2043|TWO_SIDED|95.0|0.73|4.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.34|0.73|0.2043
92397419|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.7||||0.0012|TWO_SIDED|95.0|1.84|12.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||12.01|1.84|0.0012
92397420|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.77||||0.0058|TWO_SIDED|95.0|1.47|9.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.70|1.47|0.0058
92397421|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|8.07||||0.0002|TWO_SIDED|95.0|2.73|23.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||23.83|2.73|0.0002
92397422|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.88||||0.0221|TWO_SIDED|95.0|1.16|7.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.12|1.16|0.0221
92397423|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0034|TWO_SIDED|95.0|1.58|10.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||10.13|1.58|0.0034
92397424|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.22||||0.0123|TWO_SIDED|95.0|1.29|8.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.04|1.29|0.0123
92397425|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.56||||0.3291|TWO_SIDED|95.0|0.64|3.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.78|0.64|0.3291
92397426|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.27||||0.0118|TWO_SIDED|95.0|1.3|8.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.21|1.30|0.0118
92397427|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.93||||0.0058|TWO_SIDED|95.0|1.49|10.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||10.40|1.49|0.0058
92397428|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|5.98||||0.0012|TWO_SIDED|95.0|2.03|17.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||17.65|2.03|0.0012
92397429|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.13||||0.1043|TWO_SIDED|95.0|0.85|5.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.32|0.85|0.1043
92211233|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.51||0.504|TWO_SIDED|90.0|-0.84|0.85|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.85|-0.84|0.504
92211234|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.52||0.643|TWO_SIDED|90.0|-0.67|1.06|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.06|-0.67|0.643
92211235|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.64||0.486|TWO_SIDED|90.0|-1.09|1.04|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.04|-1.09|0.486
92211236|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.65||0.6|TWO_SIDED|90.0|-0.91|1.24|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.24|-0.91|0.600
92397430|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|5.01||||0.0015|TWO_SIDED|95.0|1.85|13.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||13.54|1.85|0.0015
92211237|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.57||0.418|TWO_SIDED|90.0|-1.05|0.82|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.82|-1.05|0.418
92211238|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.59||0.515|TWO_SIDED|90.0|-0.95|0.99|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.99|-0.95|0.515
92397431|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0658|TWO_SIDED|95.0|0.95|5.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.73|0.95|0.0658
92211239|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.53||0.456|TWO_SIDED|90.0|-0.93|0.81|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.81|-0.93|0.456
92397432|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1253|TWO_SIDED|95.0|0.82|4.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.98|0.82|0.1253
92211240|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.54||0.556|TWO_SIDED|90.0|-0.82|0.97|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.97|-0.82|0.556
92211241|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.67||0.448|TWO_SIDED|90.0|-1.19|1.02|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.02|-1.19|0.448
92211242|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.68||0.6|TWO_SIDED|90.0|-0.95|1.3|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.30|-0.95|0.600
92211243|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.59||0.225|TWO_SIDED|90.0|-1.41|0.52|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.52|-1.41|0.225
92211244|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.61||0.387|TWO_SIDED|90.0|-1.18|0.83|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.83|-1.18|0.387
92211245|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.54||0.657|TWO_SIDED|90.0|-0.67|1.11|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.11|-0.67|0.657
92211246|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.55||0.808|TWO_SIDED|90.0|-0.43|1.4|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.40|-0.43|0.808
92211247|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|0.68||0.742|TWO_SIDED|90.0|-0.68|1.57|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.57|-0.68|0.742
92211248|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.99|STANDARD_ERROR_OF_MEAN|0.7||0.923|TWO_SIDED|90.0|-0.16|2.14|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.14|-0.16|0.923
92211249|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.6||0.49|TWO_SIDED|90.0|-1.01|0.98|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.98|-1.01|0.490
92211250|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.62||0.609|TWO_SIDED|90.0|-0.86|1.2|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.20|-0.86|0.609
92211251|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.55||0.362|TWO_SIDED|90.0|-1.1|0.71|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.71|-1.10|0.362
92211252|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.56||0.61|TWO_SIDED|90.0|-0.77|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-0.77|0.610
92211253|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.7||0.376|TWO_SIDED|90.0|-1.37|0.93|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.93|-1.37|0.376
92211254|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.71||0.733|TWO_SIDED|90.0|-0.73|1.6|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.60|-0.73|0.733
92211255|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.61||0.303|TWO_SIDED|90.0|-1.33|0.69|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.69|-1.33|0.303
92211256|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.63||0.548|TWO_SIDED|90.0|-0.97|1.12|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.12|-0.97|0.548
92211257|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.56||0.609|TWO_SIDED|90.0|-0.77|1.08|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.08|-0.77|0.609
92211258|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.59||0.59|TWO_SIDED|90.0|-0.83|1.1|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.10|-0.83|0.590
92211259|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.71||0.556|TWO_SIDED|90.0|-1.07|1.27|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.27|-1.07|0.556
92211260|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.73||0.443|TWO_SIDED|90.0|-1.32|1.11|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.11|-1.32|0.443
92211261|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.62||0.527|TWO_SIDED|90.0|-0.99|1.07|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.07|-0.99|0.527
92211262|NCT00568321|184323643|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.66||0.583|TWO_SIDED|90.0|-0.95|1.22|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.22|-0.95|0.583
92211263|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.63||0.111|TWO_SIDED|90.0|-1.81|0.27|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.27|-1.81|0.111
92211264|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.64||0.523|TWO_SIDED|90.0|-1.02|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-1.02|0.523
92211265|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|0.77|STANDARD_ERROR_OF_MEAN|0.63||0.887|TWO_SIDED|90.0|-0.28|1.81|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.81|-0.28|0.887
92211266|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|0.85|STANDARD_ERROR_OF_MEAN|0.65||0.903|TWO_SIDED|90.0|-0.23|1.92|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.92|-0.23|0.903
92211267|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.64||0.472|TWO_SIDED|90.0|-1.11|1.02|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.02|-1.11|0.472
92211268|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.66||0.628|TWO_SIDED|90.0|-0.87|1.3|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.30|-0.87|0.628
92211269|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.67||0.243|TWO_SIDED|90.0|-1.58|0.64|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.64|-1.58|0.243
92211270|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.69||0.346|TWO_SIDED|90.0|-1.42|0.87|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.87|-1.42|0.346
92211271|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.69||0.467|TWO_SIDED|90.0|-1.19|1.08|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.08|-1.19|0.467
92211272|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.7||0.67|TWO_SIDED|90.0|-0.85|1.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.47|-0.85|0.670
92211273|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.7||0.286|TWO_SIDED|90.0|-1.55|0.76|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.76|-1.55|0.286
92211274|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.71||0.598|TWO_SIDED|90.0|-1.0|1.35|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.35|-1.00|0.598
92211275|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.71||0.453|TWO_SIDED|90.0|-1.26|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-1.26|0.453
92211276|NCT00568321|184323646|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.74||0.472|TWO_SIDED|90.0|-1.28|1.17|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.17|-1.28|0.472
92211277|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|1.02||0.548|TWO_SIDED|90.0|-1.81|1.56|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.56|-1.81|0.548
92211278|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|1.24|STANDARD_ERROR_OF_MEAN|1.04||0.117|TWO_SIDED|90.0|-0.48|2.96|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.96|-0.48|0.117
92211279|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|1.11||0.779|TWO_SIDED|90.0|-2.69|0.98|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.98|-2.69|0.779
92211280|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|1.14||0.375|TWO_SIDED|90.0|-1.52|2.25|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.25|-1.52|0.375
92211281|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|-1.36|STANDARD_ERROR_OF_MEAN|1.15||0.881|TWO_SIDED|90.0|-3.26|0.54|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.54|-3.26|0.881
92211282|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|1.17||0.636|TWO_SIDED|90.0|-2.33|1.52|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.52|-2.33|0.636
92211283|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|-1.54|STANDARD_ERROR_OF_MEAN|1.17||0.905|TWO_SIDED|90.0|-3.46|0.39|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.39|-3.46|0.905
92211284|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.21||0.499|TWO_SIDED|90.0|-2.0|2.0|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.00|-2.00|0.499
92211285|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.5||0.297|TWO_SIDED|90.0|-0.56|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-0.56|0.297
92211286|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|0.91|STANDARD_ERROR_OF_MEAN|0.5||0.035|TWO_SIDED|90.0|0.09|1.74|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.74|0.09|0.035
92211287|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.54||0.222|TWO_SIDED|90.0|-0.48|1.31|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.31|-0.48|0.222
92211288|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|0.81|STANDARD_ERROR_OF_MEAN|0.54||0.069|TWO_SIDED|90.0|-0.09|1.7|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.70|-0.09|0.069
92397433|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|5.01||||0.0013|TWO_SIDED|95.0|1.88|13.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||13.34|1.88|0.0013
92211289|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.55||0.338|TWO_SIDED|90.0|-0.68|1.15|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.15|-0.68|0.338
92211290|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.56||0.381|TWO_SIDED|90.0|-0.75|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-0.75|0.381
92211291|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.56||0.306|TWO_SIDED|90.0|-0.64|1.21|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.21|-0.64|0.306
92211292|NCT00568321|184323660|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.58||0.44|TWO_SIDED|90.0|-0.87|1.04|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.04|-0.87|0.440
92211293|NCT04266301|184323673|SUPERIORITY||Hazard Ratio (HR)|0.847||||0.0825|TWO_SIDED|95.0|0.671|1.07||P Value is 1-sided|Log Rank|Log-rank test stratified by randomization stratification factor (Intermediate risk MDS, High risk MDS, Very high risk MDS, CMML-2) as per IRT||||1.070|0.671|0.0825
92211294|NCT04266301|184323674|SUPERIORITY||Hazard Ratio (HR)|0.863|||||TWO_SIDED|95.0|0.693|1.076||||||||1.076|0.693|
92211295|NCT04266301|184323675|SUPERIORITY||Hazard Ratio (HR)|0.921||||0.2132|TWO_SIDED|95.0|0.75|1.13||P Value is 1-sided|Log Rank|log-rank test stratified by randomization stratification factor (Intermediate risk MDS, High risk MDS, Very High risk MDS, CMML-2) as per IRT||||1.130|0.750|0.2132
92211296|NCT04266301|184323676|SUPERIORITY|||||||0.4692||||||P Value is 1-sided|negative binomial regression model|negative binomial regression model with log link stratified by randomization stratification factor as per IRT and baseline transfusion status||||||0.4692
92211297|NCT04266301|184323677|SUPERIORITY||Odds Ratio (OR)|0.95||||0.4865|TWO_SIDED|95.0|0.7|1.4||P Value is 1-sided|Cochran-Mantel-Haenszel|exact CMH Chi-square statistic, adjusting for randomization stratification factor as per IRT.||||1.4|0.7|0.4865
92211298|NCT04266301|184323678|SUPERIORITY||Odds Ratio (OR)|1.48||||0.5743|TWO_SIDED|95.0|1.0|2.2||P Value is 1-sided|Cochran-Mantel-Haenszel|exact CMH Chi-square statistic, adjusting for randomization stratification factor as per IRT.||||2.2|1|0.5743
92211299|NCT04266301|184323679|SUPERIORITY||Odds Ratio (OR)|1.18||||0.2126|TWO_SIDED|95.0|0.8|1.7||P Value is 1-sided|Cochran-Mantel-Haenszel|exact CMH Chi-square statistic, adjusting for randomization stratification factor as per IRT.||||1.7|0.8|0.2126
92211300|NCT04266301|184323682|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.576|0.875||||||||0.875|0.576|
92211301|NCT04266301|184323683|SUPERIORITY||Hazard Ratio (HR)|0.815|||||TWO_SIDED|95.0|0.64|1.038||||||||1.038|0.640|
92211302|NCT03215758|184323693|SUPERIORITY||Mean Difference (Net)|0.0238||||0.088|TWO_SIDED|95.0|-0.006|0.088|||ANCOVA|||||0.088|-0.006|0.088
92211303|NCT03215758|184323694|SUPERIORITY||Mean Difference (Net)|-0.06||||0.278|TWO_SIDED|95.0|-0.16|0.05|||ANCOVA|||||0.05|-0.16|0.278
92211304|NCT03215758|184323695|SUPERIORITY||Mean Difference (Net)|-0.08||||0.429|TWO_SIDED|95.0|-0.3|0.13|||ANCOVA|||||0.13|-0.30|0.429
92211305|NCT03215758|184323696|SUPERIORITY||Mean Difference (Net)|0.069||||0.777|TWO_SIDED|95.0|-0.12|0.15|||ANCOVA|||||0.15|-0.12|0.777
92211306|NCT02175004|184323713|SUPERIORITY||Least Squares Mean Difference|-17.84|||<|0.001|TWO_SIDED|95.0|-26.12|-9.56||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS+7 Composite Score at Week 78||-9.56|-26.12|<0.001
92211307|NCT02175004|184323713|SUPERIORITY||Least Squares Mean Difference|-20.11|||<|0.001|TWO_SIDED|95.0|-31.27|-8.95||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS+7 Composite Score at Week 156||-8.95|-31.27|<0.001
92211308|NCT02175004|184323714|SUPERIORITY||Least Squares Mean Difference|-0.06||||0.638|TWO_SIDED|95.0|-0.32|0.2||P-value=MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Heart Rate to Deep Breathing Score at Week 78||0.20|-0.32|0.638
92211309|NCT02175004|184323714|SUPERIORITY||Least Squares Mean Difference|-0.01||||0.965|TWO_SIDED|95.0|-0.3|0.29||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Heart Rate to Deep Breathing Score at Week 156||0.29|-0.30|0.965
92211310|NCT02175004|184323715|SUPERIORITY||Least Squares Mean Difference|-1.09|||<|0.001|TWO_SIDED|95.0|-1.68|-0.5||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Nerve Conduction Score at Week 78||-0.50|-1.68|<0.001
92211311|NCT02175004|184323715|SUPERIORITY||Least Squares Mean Difference|-0.66||||0.067|TWO_SIDED|95.0|-1.38|0.05||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Nerve Conduction Score at Week 156||0.05|-1.38|0.067
92211312|NCT02175004|184323716|SUPERIORITY||Least Squares Mean Difference|0.34||||0.821|TWO_SIDED|95.0|-2.67|3.36||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Heat-Pain Sensory Score at Week 78||3.36|-2.67|0.821
92211313|NCT02175004|184323716|SUPERIORITY||Least Squares Mean Difference|-2.16||||0.293|TWO_SIDED|95.0|-6.21|1.9||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Heat-Pain Sensory Score at Week 156||1.90|-6.21|0.293
92211314|NCT02175004|184323717|SUPERIORITY||Least Squares Mean Difference|-2.78||||0.047|TWO_SIDED|95.0|-5.53|-0.03||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Touch-Pressure Sensory Score at Week 78||-0.03|-5.53|0.047
92211315|NCT02175004|184323717|SUPERIORITY||Least Squares Mean Difference|-3.07||||0.041|TWO_SIDED|95.0|-6.0|-0.13||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Touch-Pressure Sensory Score at Week 156||-0.13|-6.00|0.041
92211316|NCT02175004|184323718|OTHER||Least Squares Mean Difference|-17.48|||<|0.001|TWO_SIDED|95.0|-26.92|-8.03||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the NIS Composite Score at Week 52 of Year 4||-8.03|-26.92|<0.001
92211317|NCT02175004|184323719|SUPERIORITY||Least Squares Mean Difference|-0.01||||0.941|TWO_SIDED|95.0|-0.19|0.17||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change from Baseline in the NIS Component: Cranial Nerves Score Score at Week 52 of Year 4||0.17|-0.19|0.941
92211318|NCT02175004|184323720|SUPERIORITY||Least Squares Mean Difference|-9.56||||0.011|TWO_SIDED|95.0|-16.97|-2.16||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change from Baseline in the NIS Component: Muscle Weakness Score at Week 52 of Years 4||-2.16|-16.97|0.011
92211319|NCT02175004|184323721|SUPERIORITY||Least Squares Mean Difference|-1.05||||0.356|TWO_SIDED|95.0|-3.28|1.18||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change from Baseline in the NIS Component: Reflexes Score at Week 52 of Years 4||1.18|-3.28|0.356
92211320|NCT02175004|184323722|SUPERIORITY||Least Squares Mean Difference|-5.38|||<|0.001|TWO_SIDED|95.0|-8.58|-2.19||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change from Baseline in the NIS Component: Sensory Score at Week 52 of Years 4||-2.19|-8.58|<0.001
92211321|NCT02175004|184323723|SUPERIORITY||Least Squares Mean Difference|-9.31||||0.026|TWO_SIDED|95.0|-17.48|-1.14||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the Norfolk QOL-DN Questionnaire Total Score at Week 78||-1.14|-17.48|0.026
92211322|NCT02175004|184323723|SUPERIORITY||Least Squares Mean Difference|-7.4||||0.107|TWO_SIDED|95.0|-16.41|1.62||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the Norfolk QOL-DN Questionnaire Total Score at Week 156||1.62|-16.41|0.107
92211323|NCT02175004|184323723|SUPERIORITY||Least Squares Mean Difference|-2.72||||0.669|TWO_SIDED|95.0|-15.22|9.77||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the Norfolk QOL-DN Questionnaire Total Score at Week 52 of Year 4||9.77|-15.22|0.669
92211324|NCT02175004|184323724|SUPERIORITY||Least Squares Mean Difference|-6.3||||0.097|TWO_SIDED|95.0|-13.75|1.15||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the Norfolk QOL-DN Change From CS2 Baseline in the Norfolk QOL-DN Questionnaire Total Score at Week 78||1.15|-13.75|0.097
92211325|NCT02175004|184323724|SUPERIORITY||Least Squares Mean Difference|-8.89||||0.081|TWO_SIDED|95.0|-18.88|1.11||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change from Baseline in the Norfolk QoL-DN Physical Functioning/Large Fiber Neuropathy Domain Score at Week 156||1.11|-18.88|0.081
92211326|NCT02175004|184323724|SUPERIORITY||Least Squares Mean Difference|-11.87||||0.171|TWO_SIDED|95.0|-28.89|5.16||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the Norfolk QOL-DN Physical Functioning/Large Fiber Neuropathy Domain Score at Week 52 of Year 4||5.16|-28.89|0.171
92211327|NCT02977988|184323747|SUPERIORITY||||||<|0.05|||||||Regression, Cox|||150 day period was selected for this outcome for a conceptual reason; that being, residential treatment average length of stay||||<0.05
92211328|NCT02977988|184323748|SUPERIORITY||||||<|0.05|||||||Negative Binomial Hurdle Model|||||||<0.05
92211329|NCT02977988|184323749|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
92211330|NCT05630001|184323787|NON_INFERIORITY|Non-inferiority and primary objective was considered met if the lower bound of the estimated two-sided 95% confidence interval (CI) is greater than -1 g/dL.|||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92211331|NCT05630001|184323788|SUPERIORITY|Superiority and the key secondary objective was considered met if the lower bound of the estimated two-sided 95% CI was \> 0 g/dL.|||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92211332|NCT03946670|184323806|SUPERIORITY|||||||0.769|||||||Cochran-Mantel-Haenszel|stratified by the randomization stratification factor IPSS-R category||||||0.769
92211333|NCT03946670|184323807|SUPERIORITY||Cox Proportional Hazard|0.749||||0.1022|TWO_SIDED|95.0|0.479|1.173|||Log Rank|stratified by the randomization stratification factor IPSS-R category||||1.173|0.479|0.1022
92211334|NCT03946670|184323808|SUPERIORITY||Hazard Ratio (HR)|0.795|||||TWO_SIDED|95.0|0.521|1.212|||||Cox model stratified by IPSS-R score as per IRT|||1.212|0.521|
92211335|NCT03946670|184323809|SUPERIORITY||Hazard Ratio (HR)|0.808|||||TWO_SIDED|95.0|0.542|1.205|||||Cox model stratified by IPSS-R score as per Interactive Response Technology (IRT)|||1.205|0.542|
92211336|NCT03946670|184323810|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.589|1.343|||||Cox model stratified by IPSS-R score as per IRT|||1.343|0.589|
92211337|NCT03946670|184323811|SUPERIORITY||Hazard Ratio (HR)|0.906|||||TWO_SIDED|95.0|0.57|1.44|||||Cox model stratified by IPSS-R score as per IRT|||1.440|0.570|
92211338|NCT03946670|184323813|SUPERIORITY||Hazard Ratio (HR)|0.664|||||TWO_SIDED|95.0|0.24|1.838|||||Cox model stratified by IPSS-R score as per IRT|||1.838|0.240|
92211339|NCT03946670|184323814|SUPERIORITY||Hazard Ratio (HR)|1.237|||||TWO_SIDED|95.0|0.588|2.601|||||Cox model stratified by IPSS-R score as per IRT|||2.601|0.588|
92211340|NCT03780725|184323824|OTHER||Mean relative change from baseline|17.1|STANDARD_DEVIATION|47.7|||||||||||Mean relative change from baseline (Cycle 1) to on treatment (Cycle 2) is reported.|"The mean relative change is calculated as first deriving the relative change from baseline for each selected lesion at each time point (96hours, 144hours):~100 \* (SUVpeak,lesion,timepoint,cycle2 - SUVpeak,lesion,timepoint,cycle1) / SUVpeak,lesion,timepoint,cycle1 Then, we calculate the mean over all evaluable lesions (at each time point) At last, the mean relative change is the lower mean value across time points."||||
92211341|NCT03780725|184323825|OTHER||Mean relative change from baseline|-5.9|STANDARD_DEVIATION|28.2|||||||||||Mean relative change from baseline (Cycle 1) to on treatment (Cycle 2) is reported.|"The mean relative change is calculated as first deriving the relative change from baseline for each selected lesion at each time point (96hours, 144hours):~100 \* (SUVpeak,lesion,timepoint,cycle2 - SUVpeak,lesion,timepoint,cycle1) / SUVpeak,lesion,timepoint,cycle1 Then, we calculate the mean over all evaluable lesions (at each time point) At last, the mean relative change is the lower mean value across time points."||||
92211342|NCT02604199|184323881|SUPERIORITY||LS Mean Difference|-0.086|STANDARD_ERROR_OF_MEAN|0.048||0.081|TWO_SIDED|95.0|-0.183|0.011||Mixed effect model repeat measurement (MMRM) includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit.|MMRM|Within-subject covariance is unstructured.||||0.011|-0.183|0.0810
92211343|NCT02604199|184323881|SUPERIORITY||LS Mean Difference|-0.309|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001|TWO_SIDED|95.0|-0.406|-0.212||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||||-0.212|-0.406|<.0001
92211344|NCT02604199|184323881|SUPERIORITY||LS Mean Difference|-0.223|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|-0.322|-0.124||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||||-0.124|-0.322|<.0001
92211345|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.089|STANDARD_ERROR_OF_MEAN|0.046||0.0583|TWO_SIDED|95.0|-0.181|0.003||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 15||0.003|-0.181|0.0583
92211346|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.176|STANDARD_ERROR_OF_MEAN|0.045||0.003|TWO_SIDED|95.0|-0.267|-0.085||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 15||-0.085|-0.267|0.003
92211347|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.087|STANDARD_ERROR_OF_MEAN|0.047||0.067|TWO_SIDED|95.0|-0.181|0.006||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 15||0.006|-0.181|0.0670
92211348|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.07|STANDARD_ERROR_OF_MEAN|0.04||0.0875|TWO_SIDED|95.0|-0.151|0.011||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 29||0.011|-0.151|0.0875
92211349|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.179|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.259|-0.1||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 29||-0.100|-0.259|<.0001
92211350|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.109|STANDARD_ERROR_OF_MEAN|0.041||0.0099|TWO_SIDED|95.0|-0.191|-0.027||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 29||-0.027|-0.191|0.0099
92211351|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.143|STANDARD_ERROR_OF_MEAN|0.043||0.0017|TWO_SIDED|95.0|-0.229|-0.057||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 43||-0.057|-0.229|0.0017
92211352|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.265|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001|TWO_SIDED|95.0|-0.349|-0.18||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 43||-0.180|-0.349|<.0001
92211353|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.122|STANDARD_ERROR_OF_MEAN|0.043||0.0072|TWO_SIDED|95.0|-0.209|-0.035||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 43||-0.035|-0.209|0.0072
92211354|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.118|STANDARD_ERROR_OF_MEAN|0.039||0.0043|TWO_SIDED|95.0|-0.197|-0.039||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 57||-0.039|-0.197|0.0043
92211355|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.298|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|-0.376|-0.221||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 57||-0.221|-0.376|< 0.0001
92211356|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.181|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.261|-0.1||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 57||-0.100|-0.261|<.0001
92211357|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.132|STANDARD_ERROR_OF_MEAN|0.048||0.0084|TWO_SIDED|95.0|-0.228|-0.035||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 71||-0.035|-0.228|0.0084
92211358|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.338|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001|TWO_SIDED|95.0|-0.433|-0.243||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 71||-0.243|-0.433|<.0001
92211359|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.206|STANDARD_ERROR_OF_MEAN|0.049||0.0001|TWO_SIDED|95.0|-0.304|-0.108||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 71||-0.108|-0.304|0.0001
92211360|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.096|STANDARD_ERROR_OF_MEAN|0.05||0.0589|TWO_SIDED|95.0|-0.195|0.004||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 85||0.004|-0.195|0.0589
92211361|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.335|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|-0.433|-0.236||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 85||-0.236|-0.433|<.0001
92211362|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.239|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.34|-0.137||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 85||-0.137|-0.340|<.0001
92397434|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.66||||0.0096|TWO_SIDED|95.0|1.37|9.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.75|1.37|0.0096
92397435|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|6.06||||0.0012|TWO_SIDED|95.0|2.04|17.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||17.96|2.04|0.0012
92397436|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.75||||0.0344|TWO_SIDED|95.0|1.08|7.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.02|1.08|0.0344
92397437|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.07||||0.0045|TWO_SIDED|95.0|1.55|10.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.72|1.55|0.0045
92397438|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.24||||0.081|TWO_SIDED|95.0|0.91|5.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.55|0.91|0.0810
92397439|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.29||||0.0761|TWO_SIDED|95.0|0.92|5.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.70|0.92|0.0761
92397440|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.66||||0.0078|TWO_SIDED|95.0|1.41|9.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.51|1.41|0.0078
92397441|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0253|TWO_SIDED|95.0|1.15|7.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.82|1.15|0.0253
92397442|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|6.23||||0.0017|TWO_SIDED|95.0|1.99|19.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||19.55|1.99|0.0017
92397443|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.55||||0.3512|TWO_SIDED|95.0|0.62|3.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.87|0.62|0.3512
92211363|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.132|STANDARD_ERROR_OF_MEAN|0.052||0.0138|TWO_SIDED|95.0|-0.236|-0.028||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 99||-0.028|-0.236|0.0138
92397444|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.77||||0.0352|TWO_SIDED|95.0|1.07|7.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.13|1.07|0.0352
92397445|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.36||||0.0704|TWO_SIDED|95.0|0.93|5.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.97|0.93|0.0704
92397446|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.94||||0.1651|TWO_SIDED|95.0|0.76|4.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.93|0.76|0.1651
92397447|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.21||||0.0964|TWO_SIDED|95.0|0.87|5.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.62|0.87|0.0964
92397448|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.12||||0.0276|TWO_SIDED|95.0|1.13|8.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.59|1.13|0.0276
92397449|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.99||||0.006|TWO_SIDED|95.0|1.58|15.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||15.70|1.58|0.0060
92397450|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.03||||0.1556|TWO_SIDED|95.0|0.76|5.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.39|0.76|0.1556
92211364|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.355|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|-0.458|-0.252||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 99||-0.252|-0.458|<.0001
92211365|NCT02604199|184323882|SUPERIORITY||LS Mean|-0.223|STANDARD_ERROR_OF_MEAN|0.053||0.0001|TWO_SIDED|95.0|-0.329|-0.117||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 99||-0.117|-0.329|0.0001
92211366|NCT02604212|184323892|SUPERIORITY||LS Mean Difference|-0.042|STANDARD_ERROR_OF_MEAN|0.102||0.6815|TWO_SIDED|95.0|-0.243|0.159|||MMRM|||||0.159|-0.243|0.6815
92211367|NCT02604212|184323892|SUPERIORITY||LS Mean Difference|-0.438|STANDARD_ERROR_OF_MEAN|0.101|<|0.0001|TWO_SIDED|95.0|-0.638|-0.237|||MMRM|||||-0.237|-0.638|<.0001
92211368|NCT02604212|184323892|SUPERIORITY||LS Mean Difference|-0.396|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.569|-0.223|||MMRM|||||-0.223|-0.569|<.0001
92211369|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.208|STANDARD_ERROR_OF_MEAN|0.083||0.0131|TWO_SIDED|95.0|-0.372|-0.044|||MMRM|||Day 15||-0.044|-0.372|0.0131
92211370|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.247|STANDARD_ERROR_OF_MEAN|0.084||0.0036|TWO_SIDED|95.0|-0.412|-0.082|||MMRM|||Day 15||-0.082|-0.412|0.0036
92211371|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.039|STANDARD_ERROR_OF_MEAN|0.077||0.6136|TWO_SIDED|95.0|-0.192|0.113|||MMRM|||Day 15||0.113|-0.192|0.6136
92211372|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.085|STANDARD_ERROR_OF_MEAN|0.083||0.3104|TWO_SIDED|95.0|-0.249|0.08|||MMRM|||Day 29||0.080|-0.249|0.3104
92211373|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.174|STANDARD_ERROR_OF_MEAN|0.084||0.0401|TWO_SIDED|95.0|-0.34|-0.008|||MMRM|||Day 29||-0.008|-0.340|0.0401
92211374|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.089|STANDARD_ERROR_OF_MEAN|0.077||0.2494|TWO_SIDED|95.0|-0.242|0.063|||MMRM|||Day 29||0.063|-0.242|0.2494
92211375|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.211|STANDARD_ERROR_OF_MEAN|0.085||0.0149|TWO_SIDED|95.0|-0.38|-0.042|||MMRM|||Day 43||-0.042|-0.380|0.0149
92211376|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.319|STANDARD_ERROR_OF_MEAN|0.086||0.0003|TWO_SIDED|95.0|-0.489|-0.149|||MMRM|||Day 43||-0.149|-0.489|0.0003
92211377|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.108|STANDARD_ERROR_OF_MEAN|0.078||0.1655|TWO_SIDED|95.0|-0.262|0.045|||MMRM|||Day 29||0.045|-0.262|0.1655
92211378|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.088||0.0889|TWO_SIDED|95.0|-0.324|0.023|||MMRM|||Day 57||0.023|-0.324|0.0889
92211379|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.322|STANDARD_ERROR_OF_MEAN|0.088||0.0004|TWO_SIDED|95.0|-0.497|-0.147|||MMRM|||Day 57||-0.147|-0.497|0.0004
92211380|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.172|STANDARD_ERROR_OF_MEAN|0.078||0.0298|TWO_SIDED|95.0|-0.326|-0.017|||MMRM|||Day 57||-0.017|-0.326|0.0298
92211381|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.184|STANDARD_ERROR_OF_MEAN|0.089||0.0415|TWO_SIDED|95.0|-0.361|-0.007|||MMRM|||Day 71||-0.007|-0.361|0.0415
92211382|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.441|STANDARD_ERROR_OF_MEAN|0.091|<|0.0001|TWO_SIDED|95.0|-0.62|-0.261|||MMRM|||Day 71||-0.261|-0.620|<.0001
92211383|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.257|STANDARD_ERROR_OF_MEAN|0.079||0.0015|TWO_SIDED|95.0|-0.413|-0.1|||MMRM|||Day 71||-0.100|-0.413|0.0015
92211384|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.086|STANDARD_ERROR_OF_MEAN|0.092||0.351|TWO_SIDED|95.0|-0.268|0.096|||MMRM|||Day 85||0.096|-0.268|0.3510
92211385|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.404|STANDARD_ERROR_OF_MEAN|0.094|<|0.0001|TWO_SIDED|95.0|-0.59|-0.219|||MMRM|||Day 85||-0.219|-0.590|<.0001
92211386|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.318|STANDARD_ERROR_OF_MEAN|0.082||0.0002|TWO_SIDED|95.0|-0.481|-0.156|||MMRM|||Day 85||-0.156|-0.481|0.0002
92211387|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.151|STANDARD_ERROR_OF_MEAN|0.096||0.1198|TWO_SIDED|95.0|-0.341|0.04|||MMRM|||Day 99||0.040|-0.341|0.1198
92211388|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.516|STANDARD_ERROR_OF_MEAN|0.097|<|0.0001|TWO_SIDED|95.0|-0.708|-0.325|||MMRM|||Day 99||-0.325|-0.708|<.0001
92211389|NCT02604212|184323893|SUPERIORITY||LS Mean Difference|-0.366|STANDARD_ERROR_OF_MEAN|0.085|<|0.0001|TWO_SIDED|95.0|-0.535|-0.197|||MMRM|||Day 99||-0.197|-0.535|<.0001
92211390|NCT02604212|184323894|SUPERIORITY|||||||0.0867|||||||Fisher Exact|||||||0.0867
92211391|NCT02604212|184323894|SUPERIORITY|||||||0.6285|||||||Fisher Exact|||||||0.6285
92211392|NCT02604212|184323894|SUPERIORITY|||||||0.7214|||||||Fisher Exact|||||||0.7214
92211393|NCT02604212|184323895|SUPERIORITY|||||||0.0325|||||||Fisher Exact|||||||0.0325
92211394|NCT02604212|184323895|SUPERIORITY|||||||0.1409|||||||Fisher Exact|||||||0.1409
92211395|NCT02604212|184323895|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92211396|NCT02604212|184323896|SUPERIORITY|||||||0.0824|||||||Fisher Exact|||||||0.0824
92211397|NCT02604212|184323896|SUPERIORITY|||||||0.2217|||||||Fisher Exact|||||||0.2217
92211398|NCT02604212|184323896|SUPERIORITY|||||||0.1409|||||||Fisher Exact|||||||0.1409
92211399|NCT02604212|184323897|SUPERIORITY|||||||0.0625|||||||Fisher Exact|||||||0.0625
92211400|NCT02604212|184323897|SUPERIORITY|||||||0.0684|||||||Fisher Exact|||||||0.0684
92211401|NCT02604212|184323897|SUPERIORITY|||||||0.2105|||||||Fisher Exact|||||||0.2105
92211402|NCT02604212|184323898|SUPERIORITY|||||||0.175|||||||Fisher Exact|||||||0.1750
92211403|NCT02604212|184323898|SUPERIORITY|||||||0.0229|||||||Fisher Exact|||||||0.0229
92211404|NCT02604212|184323898|SUPERIORITY|||||||0.0294|||||||Fisher Exact|||||||0.0294
92211405|NCT02604212|184323899|SUPERIORITY|||||||0.4615|||||||Fisher Exact|||||||0.4615
92211406|NCT02604212|184323899|SUPERIORITY|||||||0.0508|||||||Fisher Exact|||||||0.0508
92211407|NCT02604212|184323899|SUPERIORITY|||||||0.0769|||||||Fisher Exact|||||||0.0769
92211408|NCT02604212|184323900|SUPERIORITY|||||||0.0699|||||||Fisher Exact|||||||0.0699
92211409|NCT02604212|184323900|SUPERIORITY|||||||0.0179|||||||Fisher Exact|||||||0.0179
92211410|NCT02604212|184323900|SUPERIORITY|||||||0.043|||||||Fisher Exact|||||||0.0430
92211411|NCT02604212|184323901|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92211412|NCT02604212|184323901|SUPERIORITY|||||||0.0849|||||||Fisher Exact|||||||0.0849
92397451|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.33||||0.0202|TWO_SIDED|95.0|1.21|9.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||9.18|1.21|0.0202
92211413|NCT02604212|184323901|SUPERIORITY|||||||0.0849|||||||Fisher Exact|||||||0.0849
92211414|NCT04659863|184323911|OTHER||Mean Difference (Net)|-33.25|||||TWO_SIDED|95.0|-59.17|-7.34||||||||-7.34|-59.17|
92211415|NCT00343252|184323937|SUPERIORITY_OR_OTHER|||||||0.642||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|Chi-square|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with at least a 30% reduction in the severity of worst back pain from baseline to the 6-month endpoint.||||0.642
92211416|NCT00343252|184323938|SUPERIORITY_OR_OTHER|||||||0.683||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|Chi-square|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with at least a 30% reduction in the severity of worst back pain from baseline at the 12-month endpoint.||||0.683
92211417|NCT00343252|184323939|SUPERIORITY_OR_OTHER|||||||0.809||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|Chi-square|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with at least a 30% reduction in the severity of average back pain from baseline to the 6-month endpoint.||||0.809
92211418|NCT00343252|184323940|SUPERIORITY_OR_OTHER|||||||0.986||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|Chi-square|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with at least a 30% reduction in the severity of average back pain from baseline to the 12-month endpoint.||||0.986
92211419|NCT00343252|184323941|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.746|TWO_SIDED|95.0|0.85|1.26||Comparison of the Kaplan-Meier survival curves between treatment groups was conducted using log-rank, significance level of 0.05.|Log Rank|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the time to first occurrence of a \>=30% reduction in worst back pain at the 6-month endpoint.||1.26|0.85|0.746
92211420|NCT00343252|184323942|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.719|TWO_SIDED|95.0|0.86|1.25||Comparison of the Kaplan-Meier survival curves between treatment groups was conducted using log-rank, significance level of 0.05.|Log Rank|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the time to first occurrence of a \>=30% reduction in worst back pain at the 12-month endpoint.||1.25|0.86|0.719
92211421|NCT00343252|184323943|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.681|TWO_SIDED|95.0|0.86|1.26||Comparison of the Kaplan-Meier survival curves between treatment groups was conducted using log-rank, significance level of 0.05.|Log Rank|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the time to first occurrence of a \>=30% reduction for average back pain at the 6-month endpoint.||1.26|0.86|0.681
92211422|NCT00343252|184323944|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.789|TWO_SIDED|95.0|0.86|1.23||Comparison of the Kaplan-Meier survival curves between treatment groups was conducted using log-rank, significance level of 0.05.|Log Rank|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the time to first occurrence of a \>=30% reduction in average back pain at the 12-month endpoint.||1.23|0.86|0.789
92211423|NCT00343252|184323945|SUPERIORITY_OR_OTHER|||||||0.968||95.0||||No adjustments for multiplicity were performed.|ANCOVA|The model includes terms for treatment, pooled site, baseline glucocorticoid usage status (yes/no), and baseline score.||Tested the null hypothesis that there is no statistically significant difference between the treatment groups in the proportion of participants with a reduction in disability at the 3-month endpoint.||||0.968
92211424|NCT00343252|184323946|SUPERIORITY_OR_OTHER|||||||0.568||95.0||||No adjustments for multiplicity were performed.|ANCOVA|The model includes terms for treatment, pooled site, baseline glucocorticoid usage status (yes/no), and baseline score.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with a reduction in disability at the 6-month endpoint.||||0.568
92211425|NCT00343252|184323947|SUPERIORITY_OR_OTHER|||||||0.932||95.0||||No adjustments for multiplicity were performed.|ANCOVA|The model includes terms for treatment, pooled site, baseline glucocorticoid usage status (yes/no), and baseline score.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with a reduction in disability at the 12-month endpoint.||||0.932
92211426|NCT00343252|184323948|SUPERIORITY_OR_OTHER|||||||0.814||95.0||||No adjustments for multiplicity were performed.|ANCOVA|The model includes terms for treatment, pooled site, baseline glucocorticoid usage status (yes/no), and baseline score.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with an improvement in quality of life at the 6-month endpoint.||||0.814
92211427|NCT00343252|184323949|SUPERIORITY_OR_OTHER|||||||0.572||95.0||||No adjustments for multiplicity were performed.|ANCOVA|The model includes terms for treatment, pooled site, baseline glucocorticoid usage status (yes/no), and baseline score.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with an improvement in quality of life at the 12-month endpoint.||||0.572
92211428|NCT00343252|184323952|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||P-value is for responder versus non-responder.|Chi-squared|||||||0.600
92211429|NCT00343252|184323953|SUPERIORITY_OR_OTHER|||||||0.399||95.0||||P-value is for responder versus non-responder.|Chi-squared|||||||0.399
92211430|NCT00343252|184323954|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.453|TWO_SIDED|95.0|0.89|1.28|||Log Rank|||||1.28|0.89|0.453
92211431|NCT00343252|184323955|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.353|TWO_SIDED|95.0|0.91|1.3|||Log Rank|||||1.30|0.91|0.353
92211432|NCT00343252|184323956|SUPERIORITY_OR_OTHER|||||||0.943||95.0|||||ANCOVA|||||||0.943
92211433|NCT00343252|184323957|SUPERIORITY_OR_OTHER|||||||0.553||95.0|||||ANCOVA|||||||0.553
92211434|NCT01592864|184323965|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.2||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a negative difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||-0.2|-0.6|<0.0001
92273383|NCT00265083|184449145|SUPERIORITY_OR_OTHER|||||||0.288||95.0||||The positive test is defined if the comparison between combined golimumab and placebo is significant at the 0.05, and at least one of the pair-wise comparisons is also significant at the 0.05.|ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: No difference in change from baseline in BASMI comparing Groups I vs. II and Groups I vs. III.||||0.288
92273384|NCT00265083|184449145|SUPERIORITY_OR_OTHER|||||||0.444||95.0|||||ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: no difference in BASMI between Group II and Group I.||||0.444
92397452|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.83||||0.2063|TWO_SIDED|95.0|0.72|4.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.67|0.72|0.2063
92211435|NCT01592864|184323966|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.3||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a negative difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||-0.3|-0.6|<0.0001
92211436|NCT01592864|184323967|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|16.9|||<|0.0001|TWO_SIDED|95.0|11.1|22.8||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a positive difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||22.8|11.1|<0.0001
92211437|NCT01592864|184323968|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.6|||<|0.0001|TWO_SIDED|95.0|5.4|13.9||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a positive difference favors first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||13.9|5.4|<0.0001
92211438|NCT01519466|184323974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_DEVIATION|2.32||0.0926|TWO_SIDED|95.0|-1.55|0.12|||t-test, 2 sided|||||0.12|-1.55|0.0926
92211439|NCT01519466|184323974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17|STANDARD_DEVIATION|2.97||||||||||||||||
92211440|NCT01519466|184323975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.49||0.3251|TWO_SIDED|95.0|-0.27|0.09|||t-test, 2 sided|||||0.09|-0.27|0.3251
92211441|NCT01519466|184323975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.51||||||||||||||||
92211442|NCT01519466|184323976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_DEVIATION|1.26||0.5798|TWO_SIDED|95.0|-0.33|0.58|||t-test, 2 sided|||Hyperglycaemia, glucose above 10mmol/l (180mg/dL)||0.58|-0.33|0.5798
92211443|NCT01519466|184323976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_DEVIATION|1.03||0.096|TWO_SIDED|95.0|-0.68|0.06|||t-test, 2 sided|||Hypoglycaemia, glucose below 3.9mmol/l (70mg/dL)||0.06|-0.68|0.0960
92211444|NCT01519466|184323976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.36|STANDARD_DEVIATION|6.53||0.0007|TWO_SIDED|95.0|2.01|6.71|||t-test, 2 sided|||Treatment Satisfaction||6.71|2.01|0.0007
92211445|NCT05135000|184324064|OTHER||Cox Proportional Hazard|0.7||||0.6843|TWO_SIDED|80.0|0.2|2.8|||Log Rank|||||2.8|0.2|0.6843
92211446|NCT04652726|184324066|SUPERIORITY||LS Mean|-28.54|||<|0.0001|TWO_SIDED|95.0|-35.81|-21.27|||ANCOVA|||||-21.27|-35.81|<.0001
92211447|NCT04652726|184324067|SUPERIORITY||LS Mean|-29.3|||<|0.0001|TWO_SIDED|95.0|-36.24|-22.36|||MMRM|||||-22.36|-36.24|<.0001
92211448|NCT04652726|184324068|SUPERIORITY||LS Mean|-49.99|||<|0.0001|TWO_SIDED|95.0|-63.18|-36.81|||ANCOVA|||||-36.81|-63.18|<.0001
92211449|NCT04652726|184324069|SUPERIORITY||LS Mean|-25.7|||<|0.0001|TWO_SIDED|95.0|-31.68|-19.73|||ANCOVA|||||-19.73|-31.68|<.0001
92211450|NCT04652726|184324070|SUPERIORITY||LS Mean|-6.18||||0.1419|TWO_SIDED|95.0|-17.48|5.12|||ANCOVA|||||5.12|-17.48|0.1419
92211451|NCT04652726|184324071|SUPERIORITY||LS Mean|-26.8|||<|0.0001|TWO_SIDED|95.0|-33.63|-19.97|||ANCOVA|||||-19.97|-33.63|<.0001
92211452|NCT04652726|184324072|SUPERIORITY||LS Mean|-19.2|||<|0.0001|TWO_SIDED|95.0|-24.65|-13.75|||ANCOVA|||||-13.75|-24.65|<.0001
92211453|NCT05192382|184324096|SUPERIORITY||Odds Ratio (OR)|42.806|||<|0.0001|TWO_SIDED|95.0|8.444|455.821|||exact logistic regression model|||Treatment comparison of all participants receiving paltusotine irrespective of dose levels with Placebo has been presented.||455.821|8.444|<0.0001
92211454|NCT05192382|184324097|SUPERIORITY||least square mean difference|-0.906|||<|0.0001|TWO_SIDED|95.0|-1.106|-0.706|||ANCOVA|||||-0.706|-1.106|<0.0001
92397453|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0383|TWO_SIDED|95.0|1.06|6.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.92|1.06|0.0383
92211455|NCT05192382|184324098|SUPERIORITY||Odds Ratio (OR)|18.319|||<|0.0001|TWO_SIDED|95.0|5.637|79.156|||exact logistic regression model|||Treatment comparison of all participants receiving paltusotine irrespective of dose levels with Placebo has been presented.||79.156|5.637|<0.0001
92211456|NCT05192382|184324099|SUPERIORITY||Odds Ratio (OR)|7.588|||<|0.0001|TWO_SIDED|95.0|2.776|23.483|||exact logistic regression model|||Treatment comparison of all participants receiving paltusotine irrespective of dose levels with Placebo has been presented.||23.483|2.776|<0.0001
92211457|NCT05192382|184324100|SUPERIORITY||least square mean difference|-5.423||||0.0039|TWO_SIDED|95.0|-9.07|-1.776|||ANCOVA|||||-1.776|-9.070|0.0039
92211458|NCT02076178|184324118|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Fisher Exact|||Any Grade 2 or higher event, any Grade 2 or higher event Vs Cabotegravir||||<0.01
92211459|NCT00051363|184324137|SUPERIORITY_OR_OTHER|||||||0.0074||||||"2M E/F Function- SWMT-OMD; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).~After correction for multiple comparisons (sequential Bonferroni) P Value=0.0444 (NS)"|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||Comparison of means (regression estimates) between arms for 2M E/F Function- SWMT-OMD.||||0.0074
92211460|NCT00051363|184324137|SUPERIORITY_OR_OTHER|||||||0.2254||||||6M E/F Function- SWMT-OMD; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||Comparison of means (regression estimates) between arms for 6M E/F Function- SWMT-OMD.||||0.2254
92211461|NCT00051363|184324138|SUPERIORITY_OR_OTHER|||||||0.4538||||||DX A/P Function- PFN-TOTL; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Parametric survival analysis|Parametric survival analyses were conducted using by-visit comparisons for A/P Function- PFN-TOTL since these data were right censored at 60.||"Comparison of means (regression estimates) between arms for DX A/P Function- PFN-TOTL.~Data were reciprocal transformed for analysis and back-transformed for reporting."||||0.4538
92211462|NCT00051363|184324138|SUPERIORITY_OR_OTHER|||||||0.086||||||2M A/P Function- PFN-TOTL; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Parametric survival analysis|Parametric survival analyses were conducted using by-visit comparisons for A/P Function- PFN-TOTL since these data were right censored at 60.||"Comparison of means (regression estimates) between arms for 2M A/P Function- PFN-TOTL.~Data were reciprocal transformed for analysis and back-transformed for reporting."||||0.0860
92211463|NCT00051363|184324138|SUPERIORITY_OR_OTHER|||||||0.2103||||||6M A/P Function- PFN-TOTL; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Parametric survival analysis|Parametric survival analyses were conducted using by-visit comparisons for A/P Function- PFN-TOTL since these data were right censored at 60.||"Comparison of means (regression estimates) between arms for 6M A/P Function- PFN-TOTL.~Data were reciprocal transformed for analysis and back-transformed for reporting."||||0.2103
92211464|NCT00051363|184324139|SUPERIORITY_OR_OTHER|||||||0.7936||||||DX L/M Function- BSRT-SR; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||Comparison of means (regression estimates) between arms for DX L/M Function- BSRT-SR.||||0.7936
92211465|NCT00051363|184324139|SUPERIORITY_OR_OTHER|||||||0.5444||||||2M L/M Function- BSRT-SR; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||Comparison of means (regression estimates) between arms for 2M L/M Function- BSRT-SR.||||0.5444
92211466|NCT00051363|184324139|SUPERIORITY_OR_OTHER|||||||0.7569||||||6M L/M Function- BSRT-SR; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||Comparison of means (regression estimates) between arms for 6M L/M Function- BSRT-SR.||||0.7569
92211467|NCT00051363|184324140|SUPERIORITY_OR_OTHER|||||||0.5606||||||"2M L/M Function- PN-RT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.5606
92211468|NCT00051363|184324140|SUPERIORITY_OR_OTHER|||||||0.6487||||||"2M L/M Function- PN-RT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.6487
92211469|NCT00051363|184324140|SUPERIORITY_OR_OTHER|||||||0.5667||||||"2M L/M Function- PN-RT (Severe OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.5667
92211470|NCT00051363|184324140|SUPERIORITY_OR_OTHER|||||||0.3972||||||"6M L/M Function- PN-RT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.3972
92211471|NCT00051363|184324140|SUPERIORITY_OR_OTHER|||||||0.3973||||||"6M L/M Function- PN-RT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.3973
92211472|NCT00051363|184324140|SUPERIORITY_OR_OTHER|||||||0.3055||||||"6M L/M Function- PN-RT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.3055
92211473|NCT00051363|184324141|SUPERIORITY_OR_OTHER|||||||0.3699||||||"2M A/P Function- PVT-MedRT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.3699
92211474|NCT00051363|184324141|SUPERIORITY_OR_OTHER|||||||0.9673||||||"2M A/P Function- PVT-MedRT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.9673
92211475|NCT00051363|184324141|SUPERIORITY_OR_OTHER|||||||0.3426||||||"2M A/P Function- PVT-MedRT (Severe OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.3426
92397454|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.46||||0.0118|TWO_SIDED|95.0|1.32|9.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.10|1.32|0.0118
92211476|NCT00051363|184324141|SUPERIORITY_OR_OTHER|||||||0.3901||||||"6M A/P Function- PVT-MedRT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.3901
92211477|NCT00051363|184324141|SUPERIORITY_OR_OTHER|||||||0.9464||||||"6M A/P Function- PVT-MedRT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.9464
92211478|NCT00051363|184324141|SUPERIORITY_OR_OTHER|||||||0.4372||||||"6M A/P Function- PVT-MedRT (Severe OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.4372
92211479|NCT00051363|184324142|SUPERIORITY_OR_OTHER|||||||0.9656||||||"2M A/P Function- PVT-Slo10%RT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.9656
92211480|NCT00051363|184324142|SUPERIORITY_OR_OTHER|||||||0.6765||||||"2M A/P Function- PVT-Slo10%RT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.6765
92211481|NCT00051363|184324142|SUPERIORITY_OR_OTHER|||||||0.5288||||||"2M A/P Function- PVT-Slo10%RT (Severe OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.5288
92211482|NCT00051363|184324142|SUPERIORITY_OR_OTHER|||||||0.7807||||||"6M A/P Function- PVT-Slo10%RT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.7807
92211483|NCT00051363|184324142|SUPERIORITY_OR_OTHER|||||||0.9603||||||"6M A/P Function- PVT-Slo10%RT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.9603
92211484|NCT00051363|184324142|SUPERIORITY_OR_OTHER|||||||0.3075||||||"6M A/P Function- PVT-Slo10%RT (Severe OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.3075
92211485|NCT00051363|184324143|SUPERIORITY_OR_OTHER|||||||0.4262||||||2M L/M Function- BSRTDR-TotRec (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.4262
92211486|NCT00051363|184324143|SUPERIORITY_OR_OTHER|||||||0.3161||||||2M L/M Function- BSRTDR-TotRec (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.3161
92211487|NCT00051363|184324143|SUPERIORITY_OR_OTHER|||||||0.1835||||||2M L/M Function- BSRTDR-TotRec (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.1835
92211488|NCT00051363|184324143|SUPERIORITY_OR_OTHER|||||||0.2462||||||6M L/M Function- BSRTDR-TotRec (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.2462
92211489|NCT00051363|184324143|SUPERIORITY_OR_OTHER|||||||0.2069||||||6M L/M Function- BSRTDR-TotRec (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.2069
92211490|NCT00051363|184324143|SUPERIORITY_OR_OTHER|||||||0.5235||||||6M L/M Function- BSRTDR-TotRec (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.5235
92211491|NCT00051363|184324144|SUPERIORITY_OR_OTHER|||||||0.5419||||||2M E/F Function- SWMT-BehMD (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.5419
92211492|NCT00051363|184324144|SUPERIORITY_OR_OTHER|||||||0.89||||||2M E/F Function- SWMT-BehMD (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.8900
92211493|NCT00051363|184324144|SUPERIORITY_OR_OTHER|||||||0.0031||||||2M E/F Function- SWMT-BehMD (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.0031
92273385|NCT00265083|184449145|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: no difference in BASMI between Group III and Group I.||||0.247
92273386|NCT03154333|184449156|OTHER||Risk Ratio (RR)|1.01||||0.9666|TWO_SIDED|95.0|0.63|1.62|||Cochran-Mantel-Haenszel|Log transformation normalized the Risk Ratio (RR) estimates; the Standard Error (SE) of the estimate was obtained from confidence limits for the RR.||||1.62|0.63|0.9666
92211494|NCT00051363|184324144|SUPERIORITY_OR_OTHER|||||||0.8703||||||6M E/F Function- SWMT-BehMD (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.8703
92273387|NCT03154333|184449157|OTHER||Risk Ratio (RR)|1.53||||0.2861|TWO_SIDED|95.0|0.41|3.28|||Cochran-Mantel-Haenszel|Log transformation normalized the Risk Ratio (RR) estimates; the Standard Error (SE) of the estimate was obtained from confidence limits for the RR.||||3.28|0.41|0.2861
92273388|NCT01872689|184449205|SUPERIORITY||Median Difference (Final Values)|0.98111|STANDARD_ERROR_OF_MEAN|1.31064||0.4555|TWO_SIDED|95.0|-1.61|3.57|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||3.57|-1.61|0.4555
92211495|NCT00051363|184324144|SUPERIORITY_OR_OTHER|||||||0.1838||||||6M E/F Function- SWMT-BehMD (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.1838
92211496|NCT00051363|184324144|SUPERIORITY_OR_OTHER|||||||0.0739||||||6M E/F Function- SWMT-BehMD (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.0739
92211497|NCT00051363|184324145|SUPERIORITY_OR_OTHER|||||||0.045||||||2M E/F Function- SWMT-ActMD (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.0450
92211498|NCT00051363|184324145|SUPERIORITY_OR_OTHER|||||||0.4512||||||2M E/F Function- SWMT-ActMD (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.4512
92211499|NCT00051363|184324145|SUPERIORITY_OR_OTHER|||||||0.6672||||||2M E/F Function- SWMT-ActMD (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.6672
92211500|NCT00051363|184324145|SUPERIORITY_OR_OTHER|||||||0.8197||||||6M E/F Function- SWMT-ActMD (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.8197
92211501|NCT00051363|184324145|SUPERIORITY_OR_OTHER|||||||0.989||||||6M E/F Function- SWMT-ActMD (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.9890
92211502|NCT00051363|184324145|SUPERIORITY_OR_OTHER|||||||0.5029||||||6M E/F Function- SWMT-ActMD (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.5029
92211503|NCT00051363|184324146|SUPERIORITY_OR_OTHER|||||||0.9518||||||2M E/F Function- SAT-D-NumRuCh (Mild OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.9518
92211504|NCT00051363|184324146|SUPERIORITY_OR_OTHER|||||||0.4108||||||2M E/F Function- SAT-D-NumRuCh (Moderate OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.4108
92273389|NCT01872689|184449205|SUPERIORITY||Mean Difference (Final Values)|0.49998|STANDARD_ERROR_OF_MEAN|0.84946||0.5566|TWO_SIDED|95.0|-1.17|2.17|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||2.17|-1.17|0.5566
92211505|NCT00051363|184324146|SUPERIORITY_OR_OTHER|||||||0.4528||||||2M E/F Function- SAT-D-NumRuCh (Severe OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.4528
92211506|NCT00051363|184324146|SUPERIORITY_OR_OTHER|||||||0.8391||||||6M E/F Function- SAT-D-NumRuCh (Mild OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.8391
92211507|NCT00051363|184324146|SUPERIORITY_OR_OTHER|||||||0.2771||||||6M E/F Function- SAT-D-NumRuCh (Moderate OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.2771
92211508|NCT00051363|184324146|SUPERIORITY_OR_OTHER|||||||0.8961||||||6M E/F Function- SAT-D-NumRuCh (Severe OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.8961
92211509|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.654||||||DX- MWT-MSL; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for DX Objective Sleepiness/Alertness- MWT-MSL.||||0.6540
92211510|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.9778||||||DX- MWT-MSL (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for DX Objective Sleepiness/Alertness- MWT-MSL.||||0.9778
92211511|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.8314||||||DX- MWT-MSL (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for DX Objective Sleepiness/Alertness- MWT-MSL.||||0.8314
92211512|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.5018||||||DX- MWT-MSL (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for DX Objective Sleepiness/Alertness- MWT-MSL.||||0.5018
92211513|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.0052||||||2M- MWT-MSL; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 2M Objective Sleepiness/Alertness- MWT-MSL.||||0.0052
92211514|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.2476||||||2M- MWT-MSL (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 2M Objective Sleepiness/Alertness- MWT-MSL.||||0.2476
92211515|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.752||||||2M- MWT-MSL (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 2M Objective Sleepiness/Alertness- MWT-MSL.||||0.7520
92211516|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.0002||||||2M- MWT-MSL (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 2M Objective Sleepiness/Alertness- MWT-MSL.||||0.0002
92211517|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.0022||||||6M- MWT-MSL; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 6M Objective Sleepiness/Alertness- MWT-MSL.||||0.0022
92211518|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.763||||||6M- MWT-MSL (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 6M Objective Sleepiness/Alertness- MWT-MSL.||||0.7630
92211519|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.517||||||6M- MWT-MSL (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 6M Objective Sleepiness/Alertness- MWT-MSL.||||0.5170
92211520|NCT00051363|184324147|SUPERIORITY_OR_OTHER|||||||0.0002||||||6M- MWT-MSL (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 6M Objective Sleepiness/Alertness- MWT-MSL.||||0.0002
92211521|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.9291||||||DX- ESS-TS; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for DX Subjective Sleepiness/Alertness- ESS-TS.||||0.9291
92397455|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.96||||0.0314|TWO_SIDED|95.0|1.1|7.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||7.97|1.10|0.0314
92211522|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.6152||||||DX- ESS-TS (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for DX Subjective Sleepiness/Alertness- ESS-TS.||||0.6152
92211523|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.704||||||DX- ESS-TS (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for DX Subjective Sleepiness/Alertness- ESS-TS.||||0.7040
92211524|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.9537||||||DX- ESS-TS (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for DX Subjective Sleepiness/Alertness- ESS-TS.||||0.9537
92211525|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.0004||||||2M- ESS-TS; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 2M Subjective Sleepiness/Alertness- ESS-TS.||||0.0004
92211526|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.3886||||||2M- ESS-TS (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 2M Subjective Sleepiness/Alertness- ESS-TS.||||0.3886
92211527|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.0236||||||2M- ESS-TS (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 2M Subjective Sleepiness/Alertness- ESS-TS.||||0.0236
92211528|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.0005||||||2M- ESS-TS (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 2M Subjective Sleepiness/Alertness- ESS-TS.||||0.0005
92211529|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.0005||||||6M- ESS-TS; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 6M Subjective Sleepiness/Alertness- ESS-TS.||||0.0005
92211530|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.3796||||||6M- ESS-TS (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 6M Subjective Sleepiness/Alertness- ESS-TS.||||0.3796
92211531|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.0106||||||6M- ESS-TS (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 6M Subjective Sleepiness/Alertness- ESS-TS.||||0.0106
92211532|NCT00051363|184324148|SUPERIORITY_OR_OTHER|||||||0.001||||||6M- ESS-TS (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 6M Subjective Sleepiness/Alertness- ESS-TS.||||0.0010
92211533|NCT05358717|184324163|SUPERIORITY||LS Mean Difference|-15.97|||<|0.0001|TWO_SIDED|95.0|-23.59|-8.34|||Mixed Models Analysis|||||-8.34|-23.59|< 0.0001
92211534|NCT05358717|184324163|SUPERIORITY||LS Mean Difference|-27.28|||<|0.0001|TWO_SIDED|95.0|-34.45|-20.1|||Mixed Models Analysis|||||-20.10|-34.45|< 0.0001
92211535|NCT02640157|184324168|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm A was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was below 92%.|Difference in percentage of participants|-1.2|||||TWO_SIDED|95.0|-5.6|3.1||||||Difference in SVR12 rates (Arm A - Arm B).||3.1|-5.6|
92211536|NCT02640157|184324168|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm A was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was below 92%.|percentage of participants|95.3|||||TWO_SIDED|97.5|92.2|98.4||||||||98.4|92.2|
92211537|NCT02640157|184324168|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm A was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was below 92%.|Difference in percentage of participants|-1.2|||||TWO_SIDED|97.5|-6.2|3.7||||||Difference in SVR12 rates (Arm A - Arm B).||3.7|-6.2|
92211538|NCT02640157|184324169|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm C was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was below 92%.|Difference in percentage of participants|-0.4|||||TWO_SIDED|95.0|-4.8|4.0||||||Difference in SVR12 rates (Arm C - Arm A)||4.0|-4.8|
92397456|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|6.8||||0.001|TWO_SIDED|95.0|2.17|21.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||21.34|2.17|0.0010
92211539|NCT02640157|184324169|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm C was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was below 92%.|Percentage of participants|94.9|||||TWO_SIDED|97.5|91.0|98.8||||||||98.8|91.0|
92211540|NCT02640157|184324169|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm C was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was below 92%.|Difference in percentage of participants|-0.4|||||TWO_SIDED|97.5|-5.4|4.6||||||||4.6|-5.4|
92211541|NCT00710021|184324173|SUPERIORITY_OR_OTHER|||||||0.53||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||0.53
92211542|NCT00710021|184324174|SUPERIORITY_OR_OTHER|||||||0.038||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||0.038
92211543|NCT00710021|184324175|SUPERIORITY_OR_OTHER|||||||0.047||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||0.047
92211544|NCT00710021|184324176|SUPERIORITY_OR_OTHER|||||||0.12||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||0.12
92211545|NCT00710021|184324177|SUPERIORITY_OR_OTHER|||||||0.31||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Ifit1 expression.||||||0.31
92211546|NCT00710021|184324178|SUPERIORITY_OR_OTHER|||||||0.019||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Ifit1 expression.||||||0.019
92211547|NCT00710021|184324179|SUPERIORITY_OR_OTHER|||||||0.28||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Ifi44 expression.||||||0.28
92211548|NCT00710021|184324180|SUPERIORITY_OR_OTHER|||||||0.05||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Ifi44 expression.||||||0.050
92211549|NCT00710021|184324181|SUPERIORITY_OR_OTHER|||||||0.29||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Mx1 expression.||||||0.29
92211550|NCT00710021|184324182|SUPERIORITY_OR_OTHER|||||||0.014||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Mx1 expression.||||||0.014
92211551|NCT00710021|184324183|SUPERIORITY_OR_OTHER|||||||0.96||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline serum C3 level.||||||0.96
92211552|NCT00710021|184324184|SUPERIORITY_OR_OTHER|||||||0.67||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline serum C3 level.||||||0.67
92211553|NCT00710021|184324185|SUPERIORITY_OR_OTHER|||||||0.59||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline serum C4 level.||||||0.59
92211554|NCT00710021|184324186|SUPERIORITY_OR_OTHER|||||||0.65||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline serum C4 level.||||||0.65
92211555|NCT00710021|184324187|SUPERIORITY_OR_OTHER|||||||0.86||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||0.86
92211556|NCT00710021|184324188|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
92211557|NCT00710021|184324189|SUPERIORITY_OR_OTHER|||||||0.62||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline SELENA-SLEDAI score.||||||0.62
92211558|NCT00710021|184324190|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
92211559|NCT00710021|184324191|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
92211560|NCT00710021|184324192|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
92211561|NCT00710021|184324193|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
92211562|NCT00710021|184324194|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
92211563|NCT00710021|184324195|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
92211564|NCT00710021|184324196|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
92211565|NCT00710021|184324197|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
92211566|NCT00710021|184324198|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
92211567|NCT00710021|184324199|SUPERIORITY_OR_OTHER|||||||0.1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Cochran-Mantel-Haenszel|Note that none of the Grade 3 or above events were considered by the investigators to be related to study treatment.||||||0.10
92211568|NCT05741372|184324207|OTHER||Adjusted geometric mean ratio|127.2|||||TWO_SIDED|90.0|85.4|189.6|||||Ratio \[%\]=(adjusted geometric mean Group 2/adjusted geometric mean Group 1)\*100. Total gCV = 23.6%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||189.6|85.4|
92211569|NCT05741372|184324207|OTHER||Adjusted geometric mean ratio|745.7|||||TWO_SIDED|90.0|464.9|1196.0|||||Ratio \[%\]=(adjusted geometric mean Group 3/adjusted geometric mean Group 1)\*100. Total gCV = 28.1%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||1196|464.9|
92211570|NCT05741372|184324208|OTHER||Adjusted geometric mean ratio|183.6|||||TWO_SIDED|90.0|117.3|287.5|||||Ratio \[%\]=(adjusted geometric mean Group 2/adjusted geometric mean Group 1)\*100. Total gCV = 26.6%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||287.5|117.3|
92211571|NCT05741372|184324208|OTHER||Adjusted geometric mean ratio|1712.2|||||TWO_SIDED|90.0|1006.7|2912.2|||||Ratio \[%\]=(adjusted geometric mean Group 3/adjusted geometric mean Group 1)\*100. Total gCV = 31.7%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||2912.2|1006.7|
92211572|NCT05741372|184324209|OTHER||Adjusted geometric mean ratio|96.6|||||TWO_SIDED|90.0|81.0|115.3|||||Ratio \[%\]=(adjusted geometric mean Group 2/adjusted geometric mean Group 1)\*100. Total gCV = 10.3%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||115.3|81.0|
92211573|NCT05741372|184324209|OTHER||Adjusted geometric mean ratio|93.6|||||TWO_SIDED|90.0|75.9|115.3|||||Ratio \[%\]=(adjusted geometric mean Group 3/adjusted geometric mean Group 1)\*100. Total gCV = 12.2%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||115.3|75.9|
92211574|NCT05741372|184324210|OTHER||Adjusted geometric mean ratio|78.9|||||TWO_SIDED|90.0|63.8|97.5|||||Ratio \[%\]=(adjusted geometric mean Group 2/adjusted geometric mean Group 1)\*100. Total gCV = 12.5%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||97.5|63.8|
92211575|NCT05741372|184324210|OTHER||Adjusted geometric mean ratio|83.6|||||TWO_SIDED|90.0|65.0|107.5|||||Ratio \[%\]=(adjusted geometric mean Group 3/adjusted geometric mean Group 1)\*100. Total gCV = 14.8%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||107.5|65.0|
92211576|NCT05741372|184324211|OTHER||Adjusted geometric mean ratio|97.4|||||TWO_SIDED|90.0|83.2|114.0|||||Ratio \[%\]=(adjusted geometric mean Group 2/adjusted geometric mean Group 1)\*100. Total gCV = 9.2%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||114|83.2|
92211577|NCT05741372|184324211|OTHER||Adjusted geometric mean ratio|94.2|||||TWO_SIDED|90.0|78.2|113.5|||||Ratio \[%\]=(adjusted geometric mean Group 3/adjusted geometric mean Group 1)\*100. Total gCV = 10.9%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||113.5|78.2|
92211578|NCT05741372|184324212|OTHER||Adjusted geometric mean ratio|87.3|||||TWO_SIDED|90.0|74.0|102.9|||||Ratio \[%\]=(adjusted geometric mean Group 2/adjusted geometric mean Group 1)\*100. Total gCV = 9.7%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||102.9|74.0|
92211579|NCT05741372|184324212|OTHER||Adjusted geometric mean ratio|83.6|||||TWO_SIDED|90.0|68.8|101.7|||||Ratio \[%\]=(adjusted geometric mean Group 3/adjusted geometric mean Group 1)\*100. Total gCV = 11.5%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||101.7|68.8|
92211580|NCT05741372|184324213|OTHER||Adjusted geometric mean ratio|88.3|||||TWO_SIDED|90.0|71.6|108.8|||||Ratio \[%\]=(adjusted geometric mean Group 2/adjusted geometric mean Group 1)\*100. Total gCV = 12.2%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||108.8|71.6|
92211581|NCT05741372|184324213|OTHER||Adjusted geometric mean ratio|115.5|||||TWO_SIDED|90.0|90.2|148.0|||||Ratio \[%\]=(adjusted geometric mean Group 3/adjusted geometric mean Group 1)\*100. Total gCV = 14.5%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||148.0|90.2|
92211582|NCT05741372|184324214|OTHER||Adjusted geometric mean ratio|76.8|||||TWO_SIDED|90.0|61.1|96.6|||||Ratio \[%\]=(adjusted geometric mean Group 2/adjusted geometric mean Group 1)\*100. Total gCV = 13.4%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||96.6|61.1|
92211583|NCT05741372|184324214|OTHER||Adjusted geometric mean ratio|96.2|||||TWO_SIDED|90.0|73.4|126.1|||||Ratio \[%\]=(adjusted geometric mean Group 3/adjusted geometric mean Group 1)\*100. Total gCV = 15.9%.|The adjusted geometric means ratio based on ANOVA was calculated by using least square means, the 90% CI by using residual error from quantiles from t-distribution. These quantities were back-transformed to original scale.||126.1|73.4|
92211584|NCT04837040|184324215|SUPERIORITY||Odds Ratio (OR)|126.526|||<|0.0001|TWO_SIDED|95.0|13.733|999.999|||exact logistic regression model|||Treatment comparison of all participants receiving paltusotine versus placebo has been presented.||999.999|13.733|<0.0001
92211585|NCT04837040|184324216|SUPERIORITY||least squares means difference|-0.791|||<|0.0001|TWO_SIDED|95.0|-1.057|-0.525|||ANCOVA|||||-0.525|-1.057|<0.0001
92211586|NCT04837040|184324217|SUPERIORITY||Odds Ratio (OR)|16.609||||0.0003|TWO_SIDED|95.0|2.864|181.355|||exact logistic regression model|||Treatment comparison of all participants receiving paltusotine versus placebo has been presented.||181.355|2.864|0.0003
92211587|NCT04837040|184324218|SUPERIORITY||least square mean difference|-5.164||||0.0216|TWO_SIDED|95.0|-9.536|-0.792|||ANCOVA|||||-0.792|-9.536|0.0216
92211588|NCT02961218|184324219|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_DEVIATION|0.57||0.55|TWO_SIDED|90.0|-1.03|0.85||probability reduction of average pain score in ACZ885 \> Placebo|Bayesian model for repeated measures||Lower limit and upper limit represents the credibility interval from the Bayesian analysis.|||0.85|-1.03|0.55
92211589|NCT02961218|184324221|SUPERIORITY||Ratio|0.408||||0.002|TWO_SIDED|90.0|0.253|0.658|||Mixed-effect Model for Repeated Measures|||||0.658|0.253|0.002
92211590|NCT02961218|184324222|SUPERIORITY||Ratio|0.752|||<|0.001|TWO_SIDED|90.0|0.657|0.862|||Mixed-effect Model for Repeated Measures|||||0.862|0.657|<.001
92211591|NCT02961218|184324223|SUPERIORITY||Ratio|0.682||||0.004|TWO_SIDED|90.0|0.547|0.849|||Mixed-effect Model for Repeated Measures|||||0.849|0.547|0.004
92211592|NCT02961218|184324224|SUPERIORITY||Ratio|0.718||||0.032|TWO_SIDED|90.0|0.556|0.925|||Mixed-effect Model for Repeated Measures|||||0.925|0.556|0.032
92211593|NCT02961218|184324231|SUPERIORITY||Ratio|1.4|STANDARD_ERROR_OF_MEAN|0.45||0.455|TWO_SIDED|90.0|0.58|3.4|||Generalized Linear Model (GLM)|||||3.40|0.58|0.455
92211594|NCT00602667|184324241|OTHER||Hazard Ratio (HR)|4.99|||||TWO_SIDED|95.0|1.17|21.23||||||The historical control included 10 medulloblastoma patients treated during 1998-2006 who would have been classified as intermediate risk according to SJYC07 criteria (section 13.1.3 of protocol).||21.23|1.17|
92211595|NCT00602667|184324241|OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.4|1.84||||||The historical control included 14 medulloblastoma patients treated during 1998-2006 who would have been classified as high risk according to SJYC07 criteria (section 13.1.3 of protocol).||1.84|0.40|
92211596|NCT00602667|184324242|OTHER||Hazard Ratio (HR)|1.85|||||TWO_SIDED|95.0|0.42|8.22||||||The historical control included 10 medulloblastoma patients treated during 1998-2006 who would have been classified as intermediate risk according to SJYC07 criteria (section 13.1.3 of protocol).||8.22|0.42|
92211597|NCT00602667|184324242|OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.31|1.79||||||The historical control included 14 medulloblastoma patients treated during 1998-2006 who would have been classified as high risk according to SJYC07 criteria (section 13.1.3 of protocol).||1.79|0.31|
92211598|NCT04647526|184324334|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0088|TWO_SIDED|95.0|0.55|0.92|||Log Rank|||||0.92|0.55|0.0088
92211599|NCT03282240|184324340|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups is \> 0.667 for each of the comparisons.|GMT Ratio (QIV-HD/TIV-HDs)|1.08|||||TWO_SIDED|95.0|0.958|1.224||||||B Victoria: The 2-sided 95% confidence interval (CI) was based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||1.224|0.958|
92211600|NCT03282240|184324340|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups is \> 0.667 for each of the comparisons.|GMT Ratio (QIV-HD/TIV-HDs)|1.0|||||TWO_SIDED|95.0|0.881|1.129||||||B Yamagata: The 2-sided 95% CI was based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||1.129|0.881|
92211601|NCT03282240|184324340|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups is \> 0.667 for each of the comparisons.|GMT Ratio (QIV-HD/TIV-HDs)|0.83|||||TWO_SIDED|95.0|0.744|0.932||||||A/H1N1: The 2-sided 95% CI was based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||0.932|0.744|
92211602|NCT03282240|184324340|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups is \> 0.667 for each of the comparisons.|GMT Ratio (QIV-HD/TIV-HDs)|0.95|||||TWO_SIDED|95.0|0.842|1.066||||||A/H3N2: The 2-sided 95% CI was based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||1.066|0.842|
92211603|NCT03282240|184324341|NON_INFERIORITY|Non-inferiority in seroconversion was concluded if the lower limit of the 2-sided 95% CI of the differences of seroconversion rates between groups is \> -10%.|Difference in Percentage|-2.41|||||TWO_SIDED|95.0|-7.66|2.7||||||B Victoria: The 2-sided 95% CI for the difference is based on the Wilson score method without continuity correction.||2.70|-7.66|
92211604|NCT03282240|184324341|NON_INFERIORITY|Non-inferiority in seroconversion was concluded if the lower limit of the 2-sided 95% CI of the differences of seroconversion rates between groups is \> -10%.|Difference in Percentage|-1.75|||||TWO_SIDED|95.0|-7.04|3.53||||||B Yamagata: The 2-sided 95% CI for the difference is based on the Wilson score method without continuity correction.||3.53|-7.04|
92211605|NCT03282240|184324341|NON_INFERIORITY|Non-inferiority in seroconversion was concluded if the lower limit of the 2-sided 95% CI of the differences of seroconversion rates between groups is \> -10%.|Difference in Percentage|-0.71|||||TWO_SIDED|95.0|-4.83|3.42||||||A/H3N2: The 2-sided 95% CI for the difference is based on the Wilson score method without continuity correction.||3.42|-4.83|
92211606|NCT03282240|184324341|NON_INFERIORITY|Non-inferiority in seroconversion was concluded if the lower limit of the 2-sided 95% CI of the differences of seroconversion rates between groups is \> -10%.|Difference in Percentage|-3.27|||||TWO_SIDED|95.0|-7.37|0.86||||||A/H1N1: The 2-sided 95% CI for the difference is based on the Wilson score method without continuity correction.||0.86|-7.37|
92211607|NCT03282240|184324342|SUPERIORITY|Superiority in GMTs was observed if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups was \> 1.5 for comparison group.|GMT Ratio (QIV-HD/TIV-HDs)|2.04|||||TWO_SIDED|95.0|1.804|2.315||||||The 2-sided 95% CI is based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||2.315|1.804|
92211608|NCT03282240|184324342|SUPERIORITY|Superiority in GMTs was observed if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups was \> 1.5 for comparison group.|GMT Ratio (QIV-HD/TIV-HDs)|2.03|||||TWO_SIDED|95.0|1.802|2.288||||||The 2-sided 95% CI is based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||2.288|1.802|
92211609|NCT03282240|184324344|SUPERIORITY|Superiority in seroconversion was observed if the lower limit of the 2-sided 95% CI of the difference of seroconversion rates between groups is \> 10% for each applicable comparison.|Difference in Percentage|29.27|||||TWO_SIDED|95.0|24.78|33.29||||||B Yamagata: The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.||33.29|24.78|
92211610|NCT03282240|184324344|SUPERIORITY|Superiority in seroconversion was observed if the lower limit of the 2-sided 95% CI of the difference of seroconversion rates between groups is \> 10% for each applicable comparison.|Difference in Percentage|20.78|||||TWO_SIDED|95.0|16.5|24.61||||||B Victoria: The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.||24.61|16.5|
92397457|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.24||||0.0956|TWO_SIDED|95.0|0.87|5.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.80|0.87|0.0956
92211611|NCT02910739|184324357|OTHER|The pharmacokinetic condition to initiate Part 2 of the study would be met if the point estimate for the AUC0-∞ ratio of geometric means (participants with moderate HI / healthy matched control participants) exceeds 1.5.|Geometric least-squares mean ratio (GMR)|1.04|||||TWO_SIDED|90.0|0.83|1.3|||||GMR = geometric least squares mean (GLSM) for moderate HI participants / GLSM for healthy participants.|Per study protocol, the purpose of this analysis is only to estimate the effect of moderate HI on AUC0-∞; no hypothesis testing was planned for this outcome measure.||1.30|0.83|
92211612|NCT02910739|184324358|OTHER||GMR|1.07|||||TWO_SIDED|90.0|0.77|1.5|||||GMR = GLSM for moderate HI participants / GLSM for healthy participants.|Per study protocol, the purpose of this analysis is only to estimate the effect of moderate HI on Cmax; no hypothesis testing was planned for this outcome measure.||1.50|0.77|
92211613|NCT02910739|184324359|OTHER||GMR|1.04|||||TWO_SIDED|90.0|0.82|1.31|||||GMR = GLSM for moderate HI participants / GLSM for healthy participants.|Per study protocol, the purpose of this analysis is only to estimate the effect of moderate HI on AUC0-last; no hypothesis testing was planned for this outcome measure.||1.31|0.82|
92397458|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.8||||0.0027|TWO_SIDED|95.0|1.72|13.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||13.40|1.72|0.0027
92273390|NCT01872689|184449206|SUPERIORITY||Median Difference (Final Values)|21.93023|STANDARD_ERROR_OF_MEAN|21.62248||0.3129|TWO_SIDED|95.0|-20.97|64.83|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||64.83|-20.97|0.3129
92211614|NCT02910739|184324360|OTHER||GMR|1.01|||||TWO_SIDED|90.0|0.8|1.27|||||GMR = GLSM for moderate HI participants / GLSM for healthy participants.|Per study protocol, the purpose of this analysis is only to estimate the effect of moderate HI on AUC0-24hr; no hypothesis testing was planned for this outcome measure.||1.27|0.80|
92211615|NCT02910739|184324361|OTHER||GMR|1.08|||||TWO_SIDED|90.0|0.9|1.3|||||GMR = GLSM for moderate HI participants / GLSM for healthy participants.|Per study protocol, the purpose of this analysis is only to estimate the effect of moderate HI on C24hr; no hypothesis testing was planned for this outcome measure.||1.30|0.90|
92211616|NCT03816891|184324368|SUPERIORITY||LS Mean Difference|-21.2|STANDARD_ERROR_OF_MEAN|9.73||0.0347|TWO_SIDED|95.0|-40.82|-1.6||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||||-1.60|-40.82|0.0347
92211617|NCT03816891|184324368|SUPERIORITY||LS Mean Difference|-41.7|STANDARD_ERROR_OF_MEAN|6.73|<|0.0001|TWO_SIDED|95.0|-54.9|-28.5||Estimated from ANCOVA model with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||||-28.5|-54.9|<0.0001
92211618|NCT03816891|184324368|SUPERIORITY||LS Mean Difference|-36.4|STANDARD_ERROR_OF_MEAN|6.7|<|0.0001|TWO_SIDED|95.0|-49.6|23.3||Estimated from ANCOVA model with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||||23.3|-49.6|<0.0001
92211619|NCT03816891|184324368|SUPERIORITY||LS Mean Difference|-18.4|STANDARD_ERROR_OF_MEAN|6.72||0.0061|TWO_SIDED|95.0|-31.6|-5.3||Estimated from ANCOVA model with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||||-5.3|-31.6|0.0061
92211620|NCT03816891|184324369|SUPERIORITY||Odds Ratio (OR)|2.76||||0.1093|TWO_SIDED|95.0|0.81|9.44||Calculated from Cochran-Mantel-Haenszel (CMH) test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||||9.44|0.81|0.1093
92211621|NCT03816891|184324370|SUPERIORITY||LS Mean Difference|-21.8|STANDARD_ERROR_OF_MEAN|9.86||0.0325|TWO_SIDED|95.0|-41.62|-1.9||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||||-1.90|-41.62|0.0325
92211622|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-11.1|STANDARD_ERROR_OF_MEAN|5.85||0.0657|TWO_SIDED|95.0|-22.85|0.75||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 1||0.75|-22.85|0.0657
92211623|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-13.5|STANDARD_ERROR_OF_MEAN|6.96||0.0595|TWO_SIDED|95.0|-27.48|0.56||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 2||0.56|-27.48|0.0595
92211624|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|7.5||0.0455|TWO_SIDED|95.0|-30.55|-0.33||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 3||-0.33|-30.55|0.0455
92211625|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|8.73||0.0305|TWO_SIDED|95.0|-37.11|-1.93||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 4||-1.93|-37.11|0.0305
92211626|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-18.5|STANDARD_ERROR_OF_MEAN|9.01||0.0456|TWO_SIDED|95.0|-36.69|-0.38||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 5||-0.38|-36.69|0.0456
92211627|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-20.5|STANDARD_ERROR_OF_MEAN|8.73||0.0236|TWO_SIDED|95.0|-38.06|-2.88||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 6||-2.88|-38.06|0.0236
92211628|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-20.8|STANDARD_ERROR_OF_MEAN|9.75||0.0385|TWO_SIDED|95.0|-40.45|-1.15||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 7||-1.15|-40.45|0.0385
92211629|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-21.2|STANDARD_ERROR_OF_MEAN|9.73||0.0347|TWO_SIDED|95.0|-40.82|-1.6||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 8||-1.60|-40.82|0.0347
92211630|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-17.3|STANDARD_ERROR_OF_MEAN|9.3||0.0694|TWO_SIDED|95.0|-36.06|1.44||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 9||1.44|-36.06|0.0694
92211631|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-17.1|STANDARD_ERROR_OF_MEAN|8.93||0.0621|TWO_SIDED|95.0|-35.08|0.9||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 10||0.90|-35.08|0.0621
92211632|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-10.8|STANDARD_ERROR_OF_MEAN|9.52||0.2619|TWO_SIDED|95.0|-30.0|8.37||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 11||8.37|-30.0|0.2619
92211633|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-14.0|STANDARD_ERROR_OF_MEAN|9.17||0.1344|TWO_SIDED|95.0|-32.48|4.5||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 12||4.50|-32.48|0.1344
92211634|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-18.2|STANDARD_ERROR_OF_MEAN|9.17||0.0533|TWO_SIDED|95.0|-36.71|0.27||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 13||0.27|-36.71|0.0533
92211635|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-21.3|STANDARD_ERROR_OF_MEAN|9.7||0.0335|TWO_SIDED|95.0|-40.82|-1.74||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 14||-1.74|-40.82|0.0335
92211636|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-19.1|STANDARD_ERROR_OF_MEAN|9.65||0.0536|TWO_SIDED|95.0|-38.58|0.31||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 15||0.31|-38.58|0.0536
92211637|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-19.1|STANDARD_ERROR_OF_MEAN|8.95||0.0388|TWO_SIDED|95.0|-37.11|-1.03||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 16||-1.03|-37.11|0.0388
92211638|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-10.5|STANDARD_ERROR_OF_MEAN|15.92||0.5181|TWO_SIDED|95.0|-43.94|22.95||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 17||22.95|-43.94|0.5181
92397459|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.41||||0.066|TWO_SIDED|95.0|0.94|6.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.14|0.94|0.0660
92397460|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.32||||0.0853|TWO_SIDED|95.0|0.89|6.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.05|0.89|0.0853
92211639|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-12.8|STANDARD_ERROR_OF_MEAN|15.3||0.4142|TWO_SIDED|95.0|-45.08|19.47||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 18||19.47|-45.08|0.4142
92211640|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-11.6|STANDARD_ERROR_OF_MEAN|14.85||0.445|TWO_SIDED|95.0|-42.94|19.72||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 19||19.72|-42.94|0.4450
92211641|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-6.2|STANDARD_ERROR_OF_MEAN|15.2||0.6897|TWO_SIDED|95.0|-38.23|25.89||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 20||25.89|-38.23|0.6897
92211642|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-9.2|STANDARD_ERROR_OF_MEAN|15.66||0.5636|TWO_SIDED|95.0|-42.25|23.81||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 21||23.81|-42.25|0.5636
92211643|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-12.3|STANDARD_ERROR_OF_MEAN|14.85||0.419|TWO_SIDED|95.0|-43.64|19.04||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 22||19.04|-43.64|0.4190
92397461|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.49||||0.0159|TWO_SIDED|95.0|1.26|9.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.62|1.26|0.0159
92211644|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-14.3|STANDARD_ERROR_OF_MEAN|15.88||0.3818|TWO_SIDED|95.0|-47.76|19.24||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 23||19.24|-47.76|0.3818
92211645|NCT03816891|184324372|SUPERIORITY||LS Mean Difference|-17.9|STANDARD_ERROR_OF_MEAN|16.61||0.2957|TWO_SIDED|95.0|-52.97|17.13||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 24||17.13|-52.97|0.2957
92211646|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|7.64||0.7379|TWO_SIDED|95.0|-17.98|12.83||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 1||12.83|-17.98|0.7379
92211647|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-9.9|STANDARD_ERROR_OF_MEAN|9.45||0.3022|TWO_SIDED|95.0|-28.9|9.17||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 2||9.17|-28.90|0.3022
92211648|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-17.6|STANDARD_ERROR_OF_MEAN|9.15||0.0606|TWO_SIDED|95.0|-36.07|0.82||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 3||0.82|-36.07|0.0606
92211649|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-15.8|STANDARD_ERROR_OF_MEAN|10.65||0.1448|TWO_SIDED|95.0|-37.28|5.66||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 4||5.66|-37.28|0.1448
92211650|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-19.6|STANDARD_ERROR_OF_MEAN|9.65||0.048|TWO_SIDED|95.0|-39.06|-0.18||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 5||-0.18|-39.06|0.0480
92211651|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-18.2|STANDARD_ERROR_OF_MEAN|10.95||0.1032|TWO_SIDED|95.0|-40.3|3.85||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 6||3.85|-40.30|0.1032
92211652|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-20.7|STANDARD_ERROR_OF_MEAN|10.39||0.0523|TWO_SIDED|95.0|-41.66|0.22||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 7||0.22|-41.66|0.0523
92211653|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-21.8|STANDARD_ERROR_OF_MEAN|9.86||0.0325|TWO_SIDED|95.0|-41.62|-1.9||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 8||-1.90|-41.62|0.0325
92211654|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|13.13||0.7274|TWO_SIDED|95.0|-22.83|32.12||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 9||32.12|-22.83|0.7274
92211655|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-14.0|STANDARD_ERROR_OF_MEAN|9.63||0.1523|TWO_SIDED|95.0|-33.47|5.39||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 10||5.39|-33.47|0.1523
92211656|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|14.61||0.9649|TWO_SIDED|95.0|-29.93|31.24||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 11||31.24|-29.93|0.9649
92211657|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-13.1|STANDARD_ERROR_OF_MEAN|8.61||0.1351|TWO_SIDED|95.0|-30.48|4.25||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 12||4.25|-30.48|0.1351
92211658|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|15.01||0.7258|TWO_SIDED|95.0|-36.75|26.07||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 13||26.07|-36.75|0.7258
92211659|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-6.2|STANDARD_ERROR_OF_MEAN|14.14||0.6646|TWO_SIDED|95.0|-35.81|23.36||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 14||23.36|-35.81|0.6646
92211660|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|14.71||0.9151|TWO_SIDED|95.0|-29.2|32.38||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 15||32.38|-29.20|0.9151
92211661|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-20.9|STANDARD_ERROR_OF_MEAN|9.32||0.0304|TWO_SIDED|95.0|-39.66|-2.07||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 16||-2.07|-39.66|0.0304
92211662|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-10.9|STANDARD_ERROR_OF_MEAN|16.62||0.5209|TWO_SIDED|95.0|-45.96|24.17||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 18||24.17|-45.96|0.5209
92211663|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-11.6|STANDARD_ERROR_OF_MEAN|17.93||0.5254|TWO_SIDED|95.0|-49.46|26.2||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 20||26.20|-49.46|0.5254
92211664|NCT03816891|184324374|SUPERIORITY||LS Mean Difference|-13.8|STANDARD_ERROR_OF_MEAN|17.7||0.4458|TWO_SIDED|95.0|-51.16|23.53||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 24||23.53|-51.16|0.4458
92211665|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-13.5|STANDARD_ERROR_OF_MEAN|5.33||0.0149|TWO_SIDED|95.0|-24.22|-2.76||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 2||-2.76|-24.22|0.0149
92211666|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-10.1|STANDARD_ERROR_OF_MEAN|6.73||0.1399|TWO_SIDED|95.0|-23.67|3.44||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 4||3.44|-23.67|0.1399
92211667|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-10.6|STANDARD_ERROR_OF_MEAN|6.47||0.1078|TWO_SIDED|95.0|-23.68|2.42||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 6||2.42|-23.68|0.1078
92211668|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-12.6|STANDARD_ERROR_OF_MEAN|7.02||0.0798|TWO_SIDED|95.0|-26.72|1.56||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 8||1.56|-26.72|0.0798
92211669|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-9.7|STANDARD_ERROR_OF_MEAN|6.49||0.1405|TWO_SIDED|95.0|-22.83|3.34||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 10||3.34|-22.83|0.1405
92211670|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-8.8|STANDARD_ERROR_OF_MEAN|6.77||0.2026|TWO_SIDED|95.0|-22.43|4.9||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 12||4.90|-22.43|0.2026
92211671|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-9.1|STANDARD_ERROR_OF_MEAN|9.77||0.3646|TWO_SIDED|95.0|-29.52|11.37||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 14||11.37|-29.52|0.3646
92211672|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-10.5|STANDARD_ERROR_OF_MEAN|6.45||0.1106|TWO_SIDED|95.0|-23.52|2.5||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 16||2.50|-23.52|0.1106
92397462|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.27||||0.0303|TWO_SIDED|95.0|1.12|9.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.53|1.12|0.0303
92397463|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.84||||0.0071|TWO_SIDED|95.0|1.54|15.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||15.28|1.54|0.0071
92397464|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0621|TWO_SIDED|95.0|0.95|7.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.09|0.95|0.0621
92397465|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.2||||0.0081|TWO_SIDED|95.0|1.45|12.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.15|1.45|0.0081
92397466|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0533|TWO_SIDED|95.0|0.99|7.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.09|0.99|0.0533
92397467|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.71||||0.2666|TWO_SIDED|95.0|0.66|4.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.42|0.66|0.2666
92397468|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.44||||0.0754|TWO_SIDED|95.0|0.91|6.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.52|0.91|0.0754
92397469|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.27||||0.0313|TWO_SIDED|95.0|1.11|9.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.64|1.11|0.0313
92397470|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|5.76||||0.0056|TWO_SIDED|95.0|1.67|19.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||19.88|1.67|0.0056
92397471|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.58||||0.0736|TWO_SIDED|95.0|0.91|7.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.28|0.91|0.0736
92397472|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0184|TWO_SIDED|95.0|1.24|10.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||10.00|1.24|0.0184
92397473|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.18||||0.1187|TWO_SIDED|95.0|0.82|5.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.81|0.82|0.1187
92397474|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|3.8||||0.0299|TWO_SIDED|95.0|1.14|12.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||12.69|1.14|0.0299
92397475|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.4||||0.5989|TWO_SIDED|95.0|0.4|4.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||4.89|0.40|0.5989
92397476|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.61||||0.1337|TWO_SIDED|95.0|0.74|9.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.14|0.74|0.1337
92397477|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.62||||0.4605|TWO_SIDED|95.0|0.45|5.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.89|0.45|0.4605
92397478|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|4.48||||0.0188|TWO_SIDED|95.0|1.28|15.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||15.65|1.28|0.0188
92397479|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.44||||0.5854|TWO_SIDED|95.0|0.39|5.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.42|0.39|0.5854
92397480|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|2.32||||0.1768|TWO_SIDED|95.0|0.68|7.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.86|0.68|0.1768
92211673|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-12.5|STANDARD_ERROR_OF_MEAN|10.74||0.2623|TWO_SIDED|95.0|-35.11|10.2||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 18||10.20|-35.11|0.2623
92397481|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|0.89||||0.8426|TWO_SIDED|95.0|0.29|2.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.78|0.29|0.8426
92397482|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|0.54||||0.3017|TWO_SIDED|95.0|0.17|1.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.73|0.17|0.3017
92397483|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|0.72||||0.5958|TWO_SIDED|95.0|0.21|2.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.43|0.21|0.5958
92397484|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|0.23||||0.0515|TWO_SIDED|95.0|0.05|1.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.01|0.05|0.0515
92397485|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9734|TWO_SIDED|95.0|0.31|3.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.11|0.31|0.9734
92397486|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|0.85||||0.7969|TWO_SIDED|95.0|0.25|2.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.93|0.25|0.7969
92397487|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|0.78||||0.6637|TWO_SIDED|95.0|0.25|2.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.40|0.25|0.6637
92397488|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.53||||0.4921|TWO_SIDED|95.0|0.45|5.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.15|0.45|0.4921
92397489|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.09||||0.891|TWO_SIDED|95.0|0.33|3.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.64|0.33|0.8910
92397490|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|0.68||||0.5881|TWO_SIDED|95.0|0.16|2.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.78|0.16|0.5881
92397491|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|0.11||||0.0523|TWO_SIDED|95.0|0.01|1.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.02|0.01|0.0523
92211674|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-14.6|STANDARD_ERROR_OF_MEAN|11.21||0.2095|TWO_SIDED|95.0|-38.27|9.03||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 20||9.03|-38.27|0.2095
92397492|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.6||||0.4646|TWO_SIDED|95.0|0.46|5.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.61|0.46|0.4646
92397493|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|1.43||||0.5806|TWO_SIDED|95.0|0.4|5.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.14|0.40|0.5806
92397494|NCT03192176|184689404|SUPERIORITY||Odds Ratio (OR)|0.94||||0.922|TWO_SIDED|95.0|0.28|3.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.12|0.28|0.9220
92397495|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|4.45||||0.1933|TWO_SIDED|95.0|0.47|42.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||42.25|0.47|0.1933
92211675|NCT03816891|184324376|SUPERIORITY||LS Mean Difference|-16.1|STANDARD_ERROR_OF_MEAN|12.43||0.2127|TWO_SIDED|95.0|-42.3|10.13||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 24||10.13|-42.30|0.2127
92397496|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|5.61||||0.124|TWO_SIDED|95.0|0.62|50.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||50.44|0.62|0.1240
92397497|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|14.16||||0.014|TWO_SIDED|95.0|1.71|117.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||117.2|1.71|0.0140
92397498|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|17.5||||0.0075|TWO_SIDED|95.0|2.15|142.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||142.7|2.15|0.0075
92397499|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.98||||0.5853|TWO_SIDED|95.0|0.17|22.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||22.96|0.17|0.5853
92397500|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|5.0||||0.1596|TWO_SIDED|95.0|0.53|47.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||47.05|0.53|0.1596
92397501|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|6.48||||0.0908|TWO_SIDED|95.0|0.74|56.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||56.51|0.74|0.0908
92397502|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.97||||0.1318|TWO_SIDED|95.0|0.72|12.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.19|0.72|0.1318
92397503|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|5.99||||0.0093|TWO_SIDED|95.0|1.56|23.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||23.04|1.56|0.0093
92397504|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|10.13||||0.0006|TWO_SIDED|95.0|2.69|38.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||38.22|2.69|0.0006
92397505|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|15.63|||<|0.0001|TWO_SIDED|95.0|4.11|59.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||59.40|4.11|<0.0001
92211676|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|2.96||||0.2474|TWO_SIDED|95.0|0.43|20.56||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 1||20.56|0.43|0.2474
92397506|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.53||||0.2054|TWO_SIDED|95.0|0.6|10.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.64|0.60|0.2054
92397507|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.8||||0.1592|TWO_SIDED|95.0|0.67|11.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||11.72|0.67|0.1592
92211677|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|4.49||||0.0687|TWO_SIDED|95.0|0.83|24.27||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 2||24.27|0.83|0.0687
92397508|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|6.31||||0.007|TWO_SIDED|95.0|1.66|24.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||24.07|1.66|0.0070
92397509|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.39||||0.0392|TWO_SIDED|95.0|1.06|10.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.85|1.06|0.0392
92397510|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|4.49||||0.0096|TWO_SIDED|95.0|1.44|13.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||13.96|1.44|0.0096
92211678|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|6.89||||0.0145|TWO_SIDED|95.0|1.38|34.48||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 3||34.48|1.38|0.0145
92211679|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|4.85||||0.0235|TWO_SIDED|95.0|1.24|18.89||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 4||18.89|1.24|0.0235
92211680|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|3.81||||0.0334|TWO_SIDED|95.0|1.09|13.26||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 5||13.26|1.09|0.0334
92211681|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|3.27||||0.0618|TWO_SIDED|95.0|0.95|11.32||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 6||11.32|0.95|0.0618
92211682|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|2.38||||0.1748|TWO_SIDED|95.0|0.7|8.15||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 7||8.15|0.70|0.1748
92211683|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|2.76||||0.1093|TWO_SIDED|95.0|0.81|9.44||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 8||9.44|0.81|0.1093
92211684|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|2.76||||0.1093|TWO_SIDED|95.0|0.81|9.44||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 9||9.44|0.81|0.1093
92211685|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|2.01||||0.261|TWO_SIDED|95.0|0.6|6.8||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 10||6.80|0.60|0.2610
92211686|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|1.84||||0.2867|TWO_SIDED|95.0|0.59|5.71||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 11||5.71|0.59|0.2867
92211687|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|1.88||||0.2874|TWO_SIDED|95.0|0.59|6.01||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 12||6.01|0.59|0.2874
92211688|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|3.07||||0.0527|TWO_SIDED|95.0|0.94|10.05||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 13||10.05|0.94|0.0527
92211689|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|2.67||||0.0936|TWO_SIDED|95.0|0.82|8.73||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 14||8.73|0.82|0.0936
92211690|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|2.92||||0.083|TWO_SIDED|95.0|0.84|10.21||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 15||10.21|0.84|0.0830
92211691|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|1.68||||0.3786|TWO_SIDED|95.0|0.53|5.33||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 16||5.33|0.53|0.3786
92211692|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|0.7||||0.6949|TWO_SIDED|95.0|0.12|3.99||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 17||3.99|0.12|0.6949
92211693|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|1.81||||0.5288|TWO_SIDED|95.0|0.31|10.66||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 18||10.66|0.31|0.5288
92211694|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|3.18||||0.2613|TWO_SIDED|95.0|0.43|23.37||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 19||23.37|0.43|0.2613
92211695|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|2.23||||0.4208|TWO_SIDED|95.0|0.34|14.81||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 20||14.81|0.34|0.4208
92211696|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|1.32||||0.7884|TWO_SIDED|95.0|0.2|8.76||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 21||8.76|0.20|0.7884
92211697|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|2.68||||0.2982|TWO_SIDED|95.0|0.45|16.04||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 22||16.04|0.45|0.2982
92211698|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|3.18||||0.2613|TWO_SIDED|95.0|0.43|23.37||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 23||23.37|0.43|0.2613
92211699|NCT03816891|184324377|SUPERIORITY||Odds Ratio (OR)|2.23||||0.4208|TWO_SIDED|95.0|0.34|14.81||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 24||14.81|0.34|0.4208
92211700|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-8.9|STANDARD_ERROR_OF_MEAN|13.65||0.5172|TWO_SIDED|95.0|-36.42|18.6||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 1||18.60|-36.42|0.5172
92211701|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-23.2|STANDARD_ERROR_OF_MEAN|14.77||0.1228|TWO_SIDED|95.0|-53.02|6.53||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 2||6.53|-53.02|0.1228
92211702|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-27.6|STANDARD_ERROR_OF_MEAN|26.99||0.3129|TWO_SIDED|95.0|-81.95|26.84||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 3||26.84|-81.95|0.3129
92211703|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-19.2|STANDARD_ERROR_OF_MEAN|12.36||0.1277|TWO_SIDED|95.0|-44.11|5.72||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 4||5.72|-44.11|0.1277
92211704|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-25.8|STANDARD_ERROR_OF_MEAN|12.36||0.0424|TWO_SIDED|95.0|-50.76|-0.92||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 5||-0.92|-50.76|0.0424
92211705|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-32.6|STANDARD_ERROR_OF_MEAN|22.06||0.1465|TWO_SIDED|95.0|-77.08|11.85||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 6||11.85|-77.08|0.1465
92211706|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-28.2|STANDARD_ERROR_OF_MEAN|12.68||0.0316|TWO_SIDED|95.0|-53.71|-2.59||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 7||-2.59|-53.71|0.0316
92211707|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-26.3|STANDARD_ERROR_OF_MEAN|10.59||0.0169|TWO_SIDED|95.0|-47.63|-4.95||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 8||-4.95|-47.63|0.0169
92211708|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|16.1||0.6641|TWO_SIDED|95.0|-40.8|26.59||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 9||26.59|-40.80|0.6641
92211709|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-27.2|STANDARD_ERROR_OF_MEAN|11.26||0.0199|TWO_SIDED|95.0|-49.94|-4.53||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 10||-4.53|-49.94|0.0199
92211710|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|17.96||0.698|TWO_SIDED|95.0|-44.67|30.51||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 11||30.51|-44.67|0.6980
92211711|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-14.5|STANDARD_ERROR_OF_MEAN|10.7||0.1838|TWO_SIDED|95.0|-36.05|7.13||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 12||7.13|-36.05|0.1838
92211712|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-24.8|STANDARD_ERROR_OF_MEAN|18.99||0.2078|TWO_SIDED|95.0|-64.5|14.98||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 13||14.98|-64.50|0.2078
92211713|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-15.2|STANDARD_ERROR_OF_MEAN|17.95||0.409|TWO_SIDED|95.0|-52.72|22.41||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 14||22.41|-52.72|0.4090
92211714|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-12.8|STANDARD_ERROR_OF_MEAN|21.54||0.558|TWO_SIDED|95.0|-57.92|32.23||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 15||32.23|-57.92|0.5580
92397511|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|10.11|||<|0.0001|TWO_SIDED|95.0|3.28|31.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||31.16|3.28|<0.0001
92211715|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-25.2|STANDARD_ERROR_OF_MEAN|12.43||0.0486|TWO_SIDED|95.0|-50.3|-0.16||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 16||-0.16|-50.30|0.0486
92211716|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|17.73||0.3613|TWO_SIDED|95.0|-54.06|20.78||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 18||20.78|-54.06|0.3613
92211717|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-8.1|STANDARD_ERROR_OF_MEAN|20.93||0.7042|TWO_SIDED|95.0|-52.24|36.08||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 20||36.08|-52.24|0.7042
92211718|NCT03816891|184324379|SUPERIORITY||LS Mean Difference|-25.6|STANDARD_ERROR_OF_MEAN|27.27||0.3602|TWO_SIDED|95.0|-83.17|31.89||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 24||31.89|-83.17|0.3602
92211719|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|6.97||0.5896|TWO_SIDED|95.0|-17.83|10.26||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 1||10.26|-17.83|0.5896
92211720|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|7.75||0.8292|TWO_SIDED|95.0|-17.29|13.93||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 2||13.93|-17.29|0.8292
92211721|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|8.23||0.4852|TWO_SIDED|95.0|-22.39|10.8||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 3||10.80|-22.39|0.4852
92211722|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|9.34||0.3731|TWO_SIDED|95.0|-27.24|10.42||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 4||10.42|-27.24|0.3731
92397512|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|11.76|||<|0.0001|TWO_SIDED|95.0|3.75|36.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||36.90|3.75|<0.0001
92211723|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|10.15||0.436|TWO_SIDED|95.0|-28.44|12.48||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 5||12.48|-28.44|0.4360
92211724|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|10.54||0.5655|TWO_SIDED|95.0|-27.36|15.15||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 6||15.15|-27.36|0.5655
92211725|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|10.77||0.6302|TWO_SIDED|95.0|-26.93|16.49||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 7||16.49|-26.93|0.6302
92211726|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|10.89||0.5671|TWO_SIDED|95.0|-28.23|15.67||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 8||15.67|-28.23|0.5671
92211727|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|10.86||0.935|TWO_SIDED|95.0|-22.93|29.83||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 9||29.83|-22.93|0.935
92211728|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|10.08||0.9982|TWO_SIDED|95.0|-20.3|20.34||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 10||20.34|-20.30|0.9982
92397513|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.11||||0.2217|TWO_SIDED|95.0|0.64|7.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.03|0.64|0.2217
92211729|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|10.42||0.8102|TWO_SIDED|95.0|-18.48|23.51||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 11||23.51|-18.48|0.8102
92211730|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|10.34||0.9334|TWO_SIDED|95.0|-21.7|19.97||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 12||19.97|-21.70|0.9334
92211731|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|9.73||0.5873|TWO_SIDED|95.0|-24.92|14.29||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 13||14.29|-24.92|0.5873
92211732|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-8.8|STANDARD_ERROR_OF_MEAN|9.82||0.3737|TWO_SIDED|95.0|-28.61|10.96||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 14||10.96|-28.61|0.3737
92211733|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|9.78||0.3631|TWO_SIDED|95.0|-28.7|10.72||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 15||10.72|-28.70|0.3631
92211734|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|10.06||0.5585|TWO_SIDED|95.0|-26.2|14.34||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 16||14.34|-26.20|0.5585
92211735|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|17.65||0.8889|TWO_SIDED|95.0|-39.58|34.58||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 17||34.58|-39.58|0.8889
92211736|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|17.15||0.7099|TWO_SIDED|95.0|-42.67|29.7||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 18||29.70|-42.67|0.7099
92211737|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|17.2||0.727|TWO_SIDED|95.0|-42.4|30.19||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 19||30.19|-42.40|0.7270
92211738|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|17.45||0.8366|TWO_SIDED|95.0|-40.47|33.16||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 20||33.16|-40.47|0.8366
92211739|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|18.17||0.8013|TWO_SIDED|95.0|-42.99|33.69||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 21||33.69|-42.99|0.8013
92211740|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|17.23||0.681|TWO_SIDED|95.0|-43.56|29.15||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 22||29.15|-43.56|0.6810
92211741|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|17.69||0.8347|TWO_SIDED|95.0|-41.08|33.58||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 23||33.58|-41.08|0.8347
92211742|NCT03816891|184324381|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|17.42||0.9358|TWO_SIDED|95.0|-38.18|35.33||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 24||35.33|-38.18|0.9358
92211743|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|8.08||0.8948|TWO_SIDED|95.0|-15.2|17.35||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week. Program:|ANCOVA|||Week 1||17.35|-15.20|0.8948
92211744|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|7.55||0.8581|TWO_SIDED|95.0|-16.58|13.86||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 2||13.86|-16.58|0.8581
92211745|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-8.8|STANDARD_ERROR_OF_MEAN|8.02||0.2797|TWO_SIDED|95.0|-24.93|7.38||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 3||7.38|-24.93|0.2797
92211746|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|9.5||0.4333|TWO_SIDED|95.0|-26.67|11.64||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 4||11.64|-26.67|0.4333
92211747|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-10.7|STANDARD_ERROR_OF_MEAN|9.77||0.2774|TWO_SIDED|95.0|-30.44|8.95||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 5||8.95|-30.44|0.2774
92211748|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-11.9|STANDARD_ERROR_OF_MEAN|9.77||0.2308|TWO_SIDED|95.0|-31.55|7.82||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 6||7.82|-31.55|0.2308
92211749|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-14.2|STANDARD_ERROR_OF_MEAN|9.99||0.1617|TWO_SIDED|95.0|-34.34|5.91||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 7||5.91|-34.34|0.1617
92211750|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-12.6|STANDARD_ERROR_OF_MEAN|10.16||0.222|TWO_SIDED|95.0|-33.05|7.89||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 8||7.89|-33.05|0.2220
92211751|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|10.15||0.6195|TWO_SIDED|95.0|-25.54|15.38||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 9||15.38|-25.54|0.6195
92211752|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|9.96||0.4984|TWO_SIDED|95.0|-26.86|13.27||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 10||13.27|-26.86|0.4984
92211753|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|10.11||0.8147|TWO_SIDED|95.0|-22.75|17.99||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 11||17.99|-22.75|0.8147
92211754|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|9.94||0.6917|TWO_SIDED|95.0|-24.01|16.07||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 12||16.07|-24.01|0.6917
92211755|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|10.34||0.7437|TWO_SIDED|95.0|-24.24|17.43||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 13||17.43|-24.24|0.7437
92211756|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|11.34||0.7663|TWO_SIDED|95.0|-26.26|19.47||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 14||19.47|-26.26|0.7663
92211757|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|10.71||0.5157|TWO_SIDED|95.0|-28.61|14.75||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 15||14.75|-28.61|0.5157
92211758|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|10.41||0.5115|TWO_SIDED|95.0|-27.86|14.09||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 16||14.09|-27.86|0.5115
92211759|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|17.3||0.8795|TWO_SIDED|95.0|-33.68|39.0||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 17||39.00|-33.68|0.8795
92211760|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|17.11||0.9254|TWO_SIDED|95.0|-37.73|34.48||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 18||34.48|-37.73|0.9254
92211761|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|17.34||0.7718|TWO_SIDED|95.0|-41.68|31.47||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 19||31.47|-41.68|0.7718
92211762|NCT03816891|184324383|OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|17.38||0.9855|TWO_SIDED|95.0|-36.34|36.98||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 20||36.98|-36.34|0.9855
92211763|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|18.21||0.7508|TWO_SIDED|95.0|-44.29|32.54||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 21||32.54|-44.29|0.7508
92211764|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|17.26||0.826|TWO_SIDED|95.0|-40.26|32.55||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 22||32.55|-40.26|0.8260
92211765|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|18.23||0.7259|TWO_SIDED|95.0|-44.95|31.96||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 23||31.96|-44.95|0.7259
92211766|NCT03816891|184324383|SUPERIORITY||LS Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|17.66||0.6826|TWO_SIDED|95.0|-44.61|29.92||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 24||29.92|-44.61|0.6826
92211767|NCT03816891|184324385|SUPERIORITY||LS Mean Difference|-28.0|STANDARD_ERROR_OF_MEAN|8.43||0.0018|TWO_SIDED|95.0|-44.96|-10.97||from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 2||-10.97|-44.96|0.0018
92211768|NCT03816891|184324385|SUPERIORITY||LS Mean Difference|-21.3|STANDARD_ERROR_OF_MEAN|8.2||0.0127|TWO_SIDED|95.0|-37.83|-4.77||from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 4||-4.77|-37.83|0.0127
92211769|NCT03816891|184324385|SUPERIORITY||LS Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|8.53||0.1547|TWO_SIDED|95.0|-29.54|4.84||from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 6||4.84|-29.54|0.1547
92211770|NCT03816891|184324385|SUPERIORITY||LS Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|9.62||0.2048|TWO_SIDED|95.0|-31.78|7.01||from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 8||7.01|-31.78|0.2048
92211771|NCT03816891|184324385|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|13.58||0.9508|TWO_SIDED|95.0|-29.28|27.58||from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 12||27.58|-29.28|0.9508
92211772|NCT03816891|184324385|SUPERIORITY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|8.74||0.614|TWO_SIDED|95.0|-22.07|13.19||from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 16||13.19|-22.07|0.6140
92211773|NCT03816891|184324385|SUPERIORITY||LS Mean Difference|-8.6|STANDARD_ERROR_OF_MEAN|17.12||0.6207|TWO_SIDED|95.0|-44.94|27.66||from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 24||27.66|-44.94|0.6207
92211774|NCT03816891|184324387|SUPERIORITY||LS Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|3.52||0.0079|TWO_SIDED|95.0|-16.89|-2.71||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 2||-2.71|-16.89|0.0079
92211775|NCT03816891|184324387|SUPERIORITY||LS Mean Difference|-13.4|STANDARD_ERROR_OF_MEAN|5.12||0.0122|TWO_SIDED|95.0|-23.69|-3.06||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 4||-3.06|-23.69|0.0122
92211776|NCT03816891|184324387|SUPERIORITY||LS Mean Difference|-11.9|STANDARD_ERROR_OF_MEAN|5.4||0.0328|TWO_SIDED|95.0|-22.8|-1.02||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 6||-1.02|-22.80|0.0328
92211777|NCT03816891|184324387|SUPERIORITY||LS Mean Difference|-13.8|STANDARD_ERROR_OF_MEAN|5.76||0.0212|TWO_SIDED|95.0|-25.36|-2.15||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 8||-2.15|-25.36|0.0212
92211778|NCT03816891|184324387|SUPERIORITY||LS Mean Difference|-8.6|STANDARD_ERROR_OF_MEAN|8.28||0.3112|TWO_SIDED|95.0|-25.95|8.72||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 12||8.72|-25.95|0.3112
92211779|NCT03816891|184324387|SUPERIORITY||LS Mean Difference|-15.2|STANDARD_ERROR_OF_MEAN|5.74||0.0113|TWO_SIDED|95.0|-26.75|-3.61||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 16||-3.61|-26.75|0.0113
92273391|NCT01872689|184449206|SUPERIORITY||Mean Difference (Final Values)|-21.4127|STANDARD_ERROR_OF_MEAN|16.8016||0.2036|TWO_SIDED|95.0|-54.5|11.67|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||11.67|-54.50|0.2036
92211780|NCT03816891|184324387|SUPERIORITY||LS Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|10.11||0.454|TWO_SIDED|95.0|-29.2|13.68||Calculated from ANCOVA models including treatment as fixed effect, sex, atopy and baseline value as covariates by week.|ANCOVA|||Week 24||13.68|-29.20|0.4540
92211781|NCT03816891|184324391|SUPERIORITY||Odds Ratio (OR)|1.23||||0.8436|TWO_SIDED|95.0|0.16|9.64||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 2||9.64|0.16|0.8436
92273392|NCT01872689|184449208|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.4299|TWO_SIDED|95.0|0.44|1.41|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.41|0.44|0.4299
92211782|NCT03816891|184324391|SUPERIORITY||Odds Ratio (OR)|1.99||||0.4922|TWO_SIDED|95.0|0.29|13.75||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 4||13.75|0.29|0.4922
92273393|NCT01872689|184449208|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.3751|TWO_SIDED|95.0|0.56|1.24|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.24|0.56|0.3751
92211783|NCT03816891|184324391|SUPERIORITY||Odds Ratio (OR)|7.7||||0.0064|TWO_SIDED|95.0|1.61|36.91||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 6||36.91|1.61|0.0064
92211784|NCT03816891|184324391|SUPERIORITY||Odds Ratio (OR)|5.14||||0.0201|TWO_SIDED|95.0|1.26|20.91||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 8||20.91|1.26|0.0201
92211785|NCT03816891|184324391|SUPERIORITY||Odds Ratio (OR)|2.95||||0.0841|TWO_SIDED|95.0|0.82|10.55||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 10||10.55|0.82|0.0841
92211786|NCT03816891|184324391|SUPERIORITY||Odds Ratio (OR)|4.14||||0.0292|TWO_SIDED|95.0|1.12|15.22||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 12||15.22|1.12|0.0292
92211787|NCT03816891|184324391|SUPERIORITY||Odds Ratio (OR)|2.76||||0.2259|TWO_SIDED|95.0|0.51|15.0||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 14||15.00|0.51|0.2259
92211788|NCT03816891|184324391|SUPERIORITY||Odds Ratio (OR)|5.44||||0.0104|TWO_SIDED|95.0|1.41|20.95||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 16||20.95|1.41|0.0104
92211789|NCT03816891|184324391|OTHER||Odds Ratio (OR)|13.8||||0.0434|TWO_SIDED|95.0|0.89|214.44||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 18||214.44|0.89|0.0434
92211790|NCT03816891|184324391|SUPERIORITY|||||||0.0093||||||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 20||||0.0093
92211791|NCT03816891|184324391|SUPERIORITY||Odds Ratio (OR)|14.4||||0.029|TWO_SIDED|95.0|1.1|189.25||Calculated from CMH test with sex and atopy as stratification factors and placebo as reference within corresponding cohort.|Cochran-Mantel-Haenszel|||Week 24||189.25|1.10|0.0290
92211792|NCT03816891|184324392|SUPERIORITY||Odds Ratio (OR)|71.24|||<|0.0001|TWO_SIDED|95.0|5.35|948.31||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||||948.31|5.35|<0.0001
92397514|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|4.26||||0.0131|TWO_SIDED|95.0|1.36|13.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||13.38|1.36|0.0131
92211793|NCT03816891|184324392|SUPERIORITY||Odds Ratio (OR)|11.62||||0.0019|TWO_SIDED|95.0|1.62|83.47||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||||83.47|1.62|0.0019
92211794|NCT03816891|184324392|SUPERIORITY||Odds Ratio (OR)|8.84||||0.0117|TWO_SIDED|95.0|1.14|68.26||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||||68.26|1.14|0.0117
92397515|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|5.39||||0.0031|TWO_SIDED|95.0|1.76|16.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||16.46|1.76|0.0031
92211795|NCT03816891|184324393|SUPERIORITY||Odds Ratio (OR)|8.6|||<|0.0001|TWO_SIDED|95.0|3.34|22.14||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||||22.14|3.34|<0.0001
92211796|NCT03816891|184324393|SUPERIORITY||Odds Ratio (OR)|7.6|||<|0.0001|TWO_SIDED|95.0|2.91|19.79||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||||19.79|2.91|<0.0001
92211797|NCT03816891|184324393|SUPERIORITY||Odds Ratio (OR)|2.14||||0.1252|TWO_SIDED|95.0|0.8|5.75||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||||5.75|0.80|0.1252
92211798|NCT03816891|184324394|SUPERIORITY||Odds Ratio (OR)|5.65||||0.0017|TWO_SIDED|95.0|1.83|17.47||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||||17.47|1.83|0.0017
92211799|NCT03816891|184324394|SUPERIORITY||Odds Ratio (OR)|3.61||||0.0196|TWO_SIDED|95.0|1.19|10.99||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||||10.99|1.19|0.0196
92211800|NCT03816891|184324394|SUPERIORITY||Odds Ratio (OR)|1.37||||0.6213|TWO_SIDED|95.0|0.4|4.69||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||||4.69|0.40|0.6213
92211801|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-1.8|-0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 1||-0.7|-1.8|<0.0001
92211802|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.29||0.0287|TWO_SIDED|95.0|-1.2|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 1||-0.1|-1.2|0.0287
92211803|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.29||0.1123|TWO_SIDED|95.0|-1.0|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 1||0.1|-1.0|0.1123
92211804|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-3.0|-1.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-1.3|-3.0|<0.0001
92211805|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.41||0.0044|TWO_SIDED|95.0|-2.0|-0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-0.4|-2.0|0.0044
92211806|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.41||0.0046|TWO_SIDED|95.0|-2.0|-0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-0.4|-2.0|0.0046
92211807|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-3.6|-1.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 3||-1.8|-3.6|<0.0001
92211808|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.44||0.0011|TWO_SIDED|95.0|-2.3|-0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 3||-0.6|-2.3|0.0011
92211809|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.44||0.0171|TWO_SIDED|95.0|-1.9|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 3||-0.2|-1.9|0.0171
92211810|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001|TWO_SIDED|95.0|-4.0|-2.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-2.1|-4.0|<0.0001
92211811|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.46||0.0002|TWO_SIDED|95.0|-2.6|-0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-0.8|-2.6|0.0002
92211812|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.46||0.1146|TWO_SIDED|95.0|-1.6|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||0.2|-1.6|0.1146
92211813|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001|TWO_SIDED|95.0|-4.2|-2.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 5||-2.3|-4.2|<0.0001
92211814|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001|TWO_SIDED|95.0|-3.0|-1.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 5||-1.2|-3.0|<0.0001
92211815|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.46||0.0087|TWO_SIDED|95.0|-2.1|-0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 5||-0.3|-2.1|0.0087
92211816|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-4.3|-2.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 6||-2.4|-4.3|<0.0001
92397516|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.15||||0.1485|TWO_SIDED|95.0|0.76|6.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.10|0.76|0.1485
92211817|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.47|<|0.0001|TWO_SIDED|95.0|-3.3|-1.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 6||-1.4|-3.3|<0.0001
92211818|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.47||0.0013|TWO_SIDED|95.0|-2.5|-0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 6||-0.6|-2.5|0.0013
92211819|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|-4.4|-2.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 7||-2.4|-4.4|<0.0001
92148601|NCT01678131|184182990|SUPERIORITY_OR_OTHER_LEGACY||Posterior Percentage Probability|100.0||||||||||||||The posterior percentage probability of the true success rate of the FNA procedure for the 3 combined treatment groups (n=29) was determined by a Bayesian calculation, using a Jeffrey's prior distribution (i.e. Beta \[0.5,0.5\]) on the true success rate. Neither P-values, nor confidence intervals are estimated in this analysis. The primary hypothesis was met if the posterior percentage probability was \> 80% that the true success rate is at least 60%.||||
92148602|NCT03152084|184183002|OTHER|Within-group change|Least square mean|-5.21||||0.4462|TWO_SIDED|95.0|-19.542|9.12||Start of treatment vs baseline|Mixed Models Analysis|||||9.120|-19.542|0.4462
92148603|NCT03152084|184183003|OTHER|Within-group change|Least square mean|3.69||||0.7842|TWO_SIDED|95.0|-24.817|32.195||End of treatment vs baseline|Mixed Models Analysis|||||32.195|-24.817|0.7842
92148604|NCT03152084|184183003|OTHER|Within-group change|Least square mean|-16.72||||0.0581|TWO_SIDED|95.0|-34.109|0.664||Follow-up vs End of treatment|Regression, Linear|||||0.664|-34.109|0.0581
92148605|NCT03152084|184183004|OTHER|Within-group change|Least square mean|344.85|||<|0.0001|TWO_SIDED|95.0|272.785|416.905||Start of treatment vs baseline|Mixed Models Analysis|||||416.905|272.785|<0.0001
92148606|NCT03152084|184183005|OTHER|Within-group change|Least square mean|311.3|||<|0.0001|TWO_SIDED|95.0|224.528|398.064||End of treatment vs baseline|Mixed Models Analysis|||||398.064|224.528|<0.0001
92148607|NCT03152084|184183006|OTHER|Within-group change|Least square mean|-203.07|||<|0.0001|TWO_SIDED|95.0|-235.983|-170.162||Follow-up vs end of treatment|Regression, Linear|||||-170.162|-235.983|<0.0001
92148608|NCT03152084|184183007|OTHER|Within-group change|Least square mean|-5.2658||||0.0047|TWO_SIDED|95.0|-8.5459|-1.9856||Start of treatment vs baseline|Mixed Models Analysis|||||-1.9856|-8.5459|0.0047
92211820|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.49|<|0.0001|TWO_SIDED|95.0|-3.6|-1.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 7||-1.6|-3.6|<0.0001
92211821|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.5||0.0048|TWO_SIDED|95.0|-2.4|-0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 7||-0.4|-2.4|0.0048
92148609|NCT03152084|184183008|OTHER|Within-group change|Least square mean|-7.0987||||0.0003|TWO_SIDED|95.0|-10.0379|-4.1595||End of treatment vs baseline|Mixed Models Analysis|||||-4.1595|-10.0379|0.0003
92148610|NCT03152084|184183009|OTHER|Within-group change|Least square mean|0.7287||||0.5592|TWO_SIDED|95.0|-1.9894|3.4468||Follow-up vs end of treatment|Regression, Linear|||||3.4468|-1.9894|0.5592
92148611|NCT03152084|184183010|OTHER|Within-group change|Least square mean|0.0315||||0.9288|TWO_SIDED|95.0|-0.7274|0.7904||Start of treatment vs baseline|Mixed Models Analysis|||||0.7904|-0.7274|0.9288
92148612|NCT03152084|184183011|OTHER|Within-group change|Least square mean|-0.4318||||0.1659|TWO_SIDED|95.0|-1.0761|0.2125||End of treatment vs baseline|Mixed Models Analysis|||||0.2125|-1.0761|0.1659
92148613|NCT03152084|184183012|OTHER|Within-group change|Least square mean|0.4755||||0.019|TWO_SIDED|95.0|0.0963|0.8548||Follow-up vs end of treatment|Regression, Linear|||||0.8548|0.0963|0.0190
92211822|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|95.0|-4.5|-2.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-2.4|-4.5|<0.0001
92148614|NCT03152084|184183013|OTHER|Within-group change|Least square mean|-0.6713||||0.0157|TWO_SIDED|95.0|-1.1914|-0.1511||Start of treatment vs baseline|Mixed Models Analysis|||||-0.1511|-1.1914|0.0157
92148615|NCT03152084|184183014|OTHER|Within-group change|Least square mean|-0.0324||||0.87|TWO_SIDED|95.0|-0.4631|0.3984||End of treatment vs baseline|Mixed Models Analysis|||||0.3984|-0.4631|0.8700
92148616|NCT03152084|184183015|OTHER|Within-group change|Least square mean|0.1718||||0.2446|TWO_SIDED|95.0|-0.1358|0.4795||Follow-up vs end of treatment|Regression, Linear|||||0.4795|-0.1358|0.2446
92148617|NCT03152084|184183016|OTHER|Within-group change|Least square mean|-2.1||||0.0023|TWO_SIDED|95.0|-3.299|-0.902||Start of treatment vs baseline|Mixed Models Analysis|||||-0.902|-3.299|0.0023
92148618|NCT03152084|184183016|OTHER|Within-group change|Least square mean|-1.59|||<|0.0001|TWO_SIDED|95.0|-1.929|-1.256||End of treatment vs baseline|Mixed Models Analysis|||||-1.256|-1.929|<0.0001
92148619|NCT03152084|184183016|OTHER|Within-group change|Least square mean|3.88||||0.0002|TWO_SIDED|95.0|2.215|5.553||Follow-up vs end of treatment|Regression, Linear|||||5.553|2.215|0.0002
92148620|NCT05361655|184183058|OTHER||Hazard Ratio (HR)|0.76|||<|0.0001|TWO_SIDED|95.0|0.65|0.87|||Cox proportional hazard model|||||0.87|0.65|<0.0001
92148621|NCT05361655|184183059|OTHER||Hazard Ratio (HR)|0.7|||<|0.0001|TWO_SIDED|95.0|0.62|0.76|||Cox proportional hazards model|||||0.76|0.62|<0.0001
92148622|NCT05361655|184183061|OTHER||||||<|0.0001|||||||score test|||||||<0.0001
92148623|NCT05361655|184183064|OTHER||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.6|0.72|||Cox proportional hazard model|||||0.72|0.60|<0.0001
92148624|NCT05361655|184183065|OTHER||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|95.0|0.51|0.62|||Cox proportional hazard model|||||0.62|0.51|<0.0001
92148625|NCT05361655|184183066|OTHER||Hazard Ratio (HR)|0.77|||<|0.0001|TWO_SIDED|95.0|0.69|0.86|||Cox proportional hazard model|||||0.86|0.69|<0.0001
92148626|NCT05361655|184183067|OTHER||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.54|0.7|||Cox proportional hazards model|||||0.70|0.54|<0.0001
92148627|NCT03750006|184183069|SUPERIORITY|||||||0.0238||||||Not adjusted for multiple comparisons, P \< 0.05 is considered significant.|t-test, 2 sided|paired T-test||||||0.0238
92148628|NCT03750006|184183070|SUPERIORITY|||||||0.3029|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.3029
92148629|NCT03750006|184183071|SUPERIORITY|||||||0.1713|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.1713
92148630|NCT03750006|184183072|SUPERIORITY|||||||0.1261|||||||t-test, 2 sided|paired, P \< 0.05 is considered significant.||||||0.1261
92148631|NCT03750006|184183073|SUPERIORITY|||||||0.1367|||||||t-test, 2 sided|paired, P \< 0.05 is considered significant.||||||0.1367
92211823|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|95.0|-3.6|-1.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-1.6|-3.6|<0.0001
92148632|NCT03750006|184183074|SUPERIORITY|||||||0.0111|||||||t-test, 2 sided|paired, P \< 0.05 is considered significant.||||||0.0111
92148633|NCT03750006|184183075|SUPERIORITY|||||||0.0219|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.0219
92148634|NCT03750006|184183076|SUPERIORITY|||||||0.366|||||||t-test, 2 sided|Paired, P \< 0.05 considered significant.||||||0.3660
92148635|NCT03750006|184183079|SUPERIORITY|||||||0.1563|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.1563
92148636|NCT03750006|184183080|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.0110
92148637|NCT03750006|184183081|OTHER|||||||0.3282|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.3282
92148638|NCT03750006|184183082|SUPERIORITY|||||||0.5244|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.5244
92148639|NCT03750006|184183083|SUPERIORITY|||||||0.5718|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.5718
92148640|NCT02243202|184183098|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.3|-1.8|||Mixed Model for Repeated Measures|||||-1.8|-5.3|<0.001
92148641|NCT02243202|184183098|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.9||0.142|TWO_SIDED|95.0|-3.1|0.4|||Mixed Model for Repeated Measures|||||0.4|-3.1|0.142
92148642|NCT02243202|184183098|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-8.6|-5.2|||Mixed Model for Repeated Measures|||||-5.2|-8.6|<0.001
92148643|NCT02243202|184183099|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.15||||0.002|TWO_SIDED|95.0|1.7|10.14|||Generalized linear Mixed Model|||||10.14|1.70|0.002
92148644|NCT02243202|184183099|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.825|TWO_SIDED|95.0|0.41|3.06|||Generalized linear Mixed Model|||||3.06|0.41|0.825
92148645|NCT02243202|184183099|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.2|||<|0.001|TWO_SIDED|95.0|4.15|25.05|||Generalized linear Mixed Model|||||25.05|4.15|<0.001
92148646|NCT02243202|184183100|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|1.8||0.456|TWO_SIDED|95.0|-2.1|4.8|||Mixed Model for Repeated Measures|||||4.8|-2.1|0.456
92148647|NCT02243202|184183100|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.8||0.827|TWO_SIDED|95.0|-3.9|3.1|||Mixed Model for Repeated Measures|||||3.1|-3.9|0.827
92148648|NCT02243202|184183100|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|1.7||0.015|TWO_SIDED|95.0|-7.7|-0.8|||Mixed Model for Repeated Measures|||||-0.8|-7.7|0.015
92148649|NCT02243202|184183101|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.3|-1.7|||Mixed Model for Repeated Measures|||||-1.7|-5.3|<0.001
92148650|NCT02243202|184183101|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.9||0.153|TWO_SIDED|95.0|-3.1|0.5|||Mixed Model for Repeated Measures|||||0.5|-3.1|0.153
92148651|NCT02243202|184183101|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-8.5|-4.9|||Mixed Model for Repeated Measures|||||-4.9|-8.5|<0.001
92148652|NCT01147822|184183105|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0184|||||TWO_SIDED|95.0|0.7658|1.3542|||||The HR was estimated by the Cox regression model using treatment stratification factors as covariates. The HR was adjusted for Karnofsky Performance Scale scores, prior nephrectomy, and Baseline levels of lactate dehydrogenase.|||1.3542|0.7658|
92148653|NCT01147822|184183106|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.604|TWO_SIDED|95.0|0.808|1.441|||Log Rank||Hazard ratios were estimated using the Pike estimator. A hazard ratio \<1 indicates a lower risk with this treatment compared with Sunitinib.|||1.441|0.808|0.604
92148654|NCT03010462|184183112|SUPERIORITY|||||||0.62|||||||Chi-squared, Corrected|||||||0.62
92148655|NCT03010462|184183113|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
92148656|NCT03010462|184183114|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
92148657|NCT03010462|184183115|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||0.59
92148658|NCT03010462|184183116|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.70
92211824|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.51||0.0124|TWO_SIDED|95.0|-2.3|-0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-0.3|-2.3|0.0124
92148659|NCT01966003|184183117|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence of the primary endpoint was demonstrated by comparing the 2-sided 90% CI of the risk ratio in objective response rate between ABP 215 and bevacizumab with an equivalence margin of (0.67, 1.5).|Risk Ratio (RR)|0.93|||||TWO_SIDED|90.0|0.8|1.09||||||The risk ratio (ABP 215/Bevacizumab) and 90% confidence interval (CI) were estimated using a generalized linear model adjusted for the stratification factors (region, sex, and ECOG performance status).||1.09|0.80|
92148660|NCT01966003|184183117|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.9|||||TWO_SIDED|90.0|-9.26|3.45||||||Risk difference (ABP 215 - Bevacizumab) and 90% CI were estimated using a generalized linear model adjusted for the randomization stratification factors geographic region, ECOG performance status, and sex.||3.45|-9.26|
92148661|NCT01966003|184183119|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03|||||TWO_SIDED|90.0|0.83|1.29||||||The hazard ratio for ABP 215 relative to bevacizumab was based on a stratified Cox proportional hazards model. Stratification factors are geographic region, ECOG performance status, and sex.||1.29|0.83|
92148662|NCT01966003|184183122|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|90.0|0.75|1.61||||||Hazard ratio for ABP 215 relative to bevacizumab, based on a stratified Cox proportional hazards model. Stratification factors are geographic region, ECOG performance status, and sex.||1.61|0.75|
92148663|NCT00871403|184183138|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.2647|TWO_SIDED|95.0|0.43|1.28|||Log Rank||The hazard ratios is estimated using a Pike estimator. The estimated value is the hazard ratio comparing Pazopanib 800 mg plus pemetrexed 500 mg/m\^2 to Cisplatin 75 mg/m\^2 plus pemetrexed 500 mg/m\^2.|||1.28|0.43|0.2647
92148664|NCT00871403|184183141|SUPERIORITY_OR_OTHER||percent difference in response|-12.0||||0.2113|TWO_SIDED|95.0|-30.6|7.2|||Binomial asymptotic||The estimated value is the percent difference in the response rate comparing Pazopanib 800 mg plus pemetrexed 500 mg/m\^2 to Cisplatin 75 mg/m\^2 plus pemetrexed 500 mg/m\^2.|||7.2|-30.6|0.2113
92148665|NCT02007434|184183187|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|0.24|STANDARD_ERROR_OF_MEAN|0.59||0.6803|TWO_SIDED|95.0|-0.93|1.41|||ANCOVA||Paradigm 1 - Paradigm 2|Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.41|-0.93|0.6803
92148666|NCT02007434|184183187|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|0.39|STANDARD_ERROR_OF_MEAN|0.61||0.5206|TWO_SIDED|95.0|-0.82|1.6|||ANCOVA||Paradigm 1 - Paradigm 3|Day 0, 1 Minute. Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.60|-0.82|0.5206
92148667|NCT02007434|184183187|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|0.3|STANDARD_ERROR_OF_MEAN|0.58||0.606|TWO_SIDED|395.0|-0.86|1.46|||ANCOVA||Paradigm 1 - Paradigm 4|Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.46|-0.86|0.6060
92148668|NCT02007434|184183187|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|0.15|STANDARD_ERROR_OF_MEAN|0.56||0.7935|TWO_SIDED|95.0|-0.98|1.27|||ANCOVA||Paradigm 2 - Paradigm 3|Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.27|-0.98|0.7935
92148669|NCT02007434|184183187|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|0.06|STANDARD_ERROR_OF_MEAN|0.55||0.914|TWO_SIDED|95.0|-1.03|1.15|||ANCOVA||Paradigm 2 - Paradigm 4|Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.15|-1.03|0.9140
92148670|NCT02007434|184183187|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.56||0.8754|TWO_SIDED|95.0|-1.21|1.04|||ANCOVA||Paradigm 3 - Paradigm 4|Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.04|-1.21|0.8754
92211825|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-4.5|-2.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 9||-2.5|-4.5|<0.0001
92211826|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.52|<|0.0001|TWO_SIDED|95.0|-3.8|-1.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 9||-1.7|-3.8|<0.0001
92148671|NCT03299686|184183204|SUPERIORITY||Mean Difference (Net)|0.027|STANDARD_DEVIATION|0.043||0.7374|TWO_SIDED|80.0|-0.029|0.082||Probability CJM112 better than placebo|Bayesian linear repeated measures model||||Lower limit and upper limit represents the Credibility Interval from the Bayesian analysis.|0.082|-0.029|0.7374
92148672|NCT03299686|184183205|SUPERIORITY||Mean Difference (Net)|0.913|STANDARD_ERROR_OF_MEAN|1.434||0.263|TWO_SIDED|80.0|-0.939|2.766||1-sided p-value; p-value smaller than 0.1 is considered as statistically significant|Mixed Models Analysis|||||2.766|-0.939|0.263
92148673|NCT03299686|184183206|SUPERIORITY||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.14||0.061|TWO_SIDED|80.0|-0.41|-0.04||1-sided p-value; p-value smaller than 0.1 is considered as statistically significant|Mixed Models Analysis|||||-0.04|-0.41|0.061
92148674|NCT03299686|184183207|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.13||0.04|TWO_SIDED|80.0|-0.4|-0.06||1-sided p-value; p-value smaller than 0.1 is considered as statistically significant|Mixed Models Analysis|||||-0.06|-0.40|0.040
92148675|NCT01060553|184183213|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||t-test, 2 sided|||for mcs||||.15
92148676|NCT01060553|184183213|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||t-test, 2 sided|||for pcs||||.28
92148677|NCT01060553|184183214|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||t-test, 2 sided|||for sleep duration||||.34
92148678|NCT01060553|184183214|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||for sleep disturbance||||.001
92211827|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.52||0.0021|TWO_SIDED|95.0|-2.7|-0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 9||-0.6|-2.7|0.0021
92211828|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-4.6|-2.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 10||-2.4|-4.6|<0.0001
92148679|NCT01060553|184183214|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||t-test, 2 sided|||for sleep latency||||.015
92148680|NCT01991821|184183219|SUPERIORITY|||||||0.093||||||The complete response of the primary efficacy analysis occurred in 95 patients (56.2%; 95% confidence interval \[CI\] 48.4 - 63.8%) in the APD421 group and 83 patients (46.6%; 95% CI 39.1- 54.2%) in the placebo group|Chi-squared, Corrected|Pearson square test with Yates's continuity correction and with the two- sided significance level of 5%||The primary efficacy analysis was a complete response which is defined as protection from PONV1, which was absence of any episode of emesis, significant nausea or use of rescue medication with the first 24 hours post-operatively.||||0.093
92148681|NCT01991821|184183220|SUPERIORITY|||||||0.059||||||Two-sided, significance threshold = 0.05|Chi-squared, Corrected|||||||0.059
92148682|NCT01991821|184183221|SUPERIORITY|||||||0.053||||||Two-sided, significance threshold = 0.05|Chi-squared, Corrected|||||||0.053
92148683|NCT01991821|184183222|SUPERIORITY|||||||0.26||||||Two-sided, significance threshold = 0.05|Chi-squared, Corrected|||||||0.26
92148684|NCT01991821|184183223|SUPERIORITY|||||||0.06||||||Two-sided, significance threshold = 0.05|Chi-squared, Corrected|||||||0.06
92148685|NCT01991821|184183224|SUPERIORITY|||||||0.079||||||Two-sided, significance threshold = 0.05|Chi-squared, Corrected|||||||0.079
92148686|NCT01991821|184183225|SUPERIORITY|||||||0.096|||||||Chi-squared, Corrected|||||||0.096
92148687|NCT03131960|184183229|SUPERIORITY|||||||0.0014|||||||ANCOVA|||||||0.0014
92148688|NCT03131960|184183230|SUPERIORITY|||||||0.0077|||||||ANCOVA|||ANCOVA||||0.0077
92211829|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-4.0|-1.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 10||-1.9|-4.0|<0.0001
92211830|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.54||0.0005|TWO_SIDED|95.0|-3.0|-0.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 10||-0.9|-3.0|0.0005
92148689|NCT03131960|184183231|SUPERIORITY|||||||0.0098|||||||Regression, Logistic|||||||0.0098
92148690|NCT03131960|184183232|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92148691|NCT01625923|184183236|OTHER|T-test comparing GCSI-DD scores before/after intervention||||||0.06|||||||t-test, 2 sided|||||||.06
92211831|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|-4.6|-2.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 11||-2.4|-4.6|<0.0001
92148692|NCT01462162|184183243|SUPERIORITY_OR_OTHER|||||||0.006|||||||Regression, Linear|||change in fatigue score versus change in DAS-28 score||||0.006
92148693|NCT01462162|184183243|SUPERIORITY_OR_OTHER|||||||0|||||||Regression, Linear|||change in fatigue score versus change in sleepiness score||||0.000
92148694|NCT01462162|184183243|SUPERIORITY_OR_OTHER|||||||0|||||||Regression, Linear|||change in fatigue score versus change in depression score||||0.000
92148695|NCT01462162|184183244|SUPERIORITY_OR_OTHER|||||||0.023|||||||Regression, Linear|||change in fatigue score versus change in DAS-28 score||||0.023
92148696|NCT01462162|184183244|SUPERIORITY_OR_OTHER|||||||0.007|||||||Regression, Linear|||change in fatigue score versus change in sleepiness score||||0.007
92148697|NCT01462162|184183244|SUPERIORITY_OR_OTHER|||||||0|||||||Regression, Linear|||change in fatigue score versus change in depression score||||0.000
92148698|NCT01462162|184183245|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline versus Week 12||||<0.001
92148699|NCT01462162|184183245|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline versus Week 24||||<0.001
92148700|NCT01462162|184183246|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
92148701|NCT01462162|184183246|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
92148702|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.003|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in DAS-28 at Week 12||||0.003
92148703|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.006|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in DAS-28 at Week 24||||0.006
92148704|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.791|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in serum hemoglobin Week 12||||0.791
92148705|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.847|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in serum hemoglobin Week 24||||0.847
92148706|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.182|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in swollen joint count Week 12||||0.182
92148707|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.022|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in swollen joint count Week 24||||0.022
92148708|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.163|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in morning stiffness Week 12||||0.163
92148709|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.115|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in morning stiffness Week 24||||0.115
92148710|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.037|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in degree of pain Week 12||||0.037
92148711|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.044|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in degree of pain Week 24||||0.044
92148712|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.003|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in sleepiness at Week 12||||0.003
92148713|NCT01462162|184183247|SUPERIORITY_OR_OTHER|||||||0.001|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in sleepiness at Week 24||||0.001
92148714|NCT01462162|184183247|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in depression Week 12||||<0.001
92148715|NCT01462162|184183247|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in depression at Week 24||||<0.001
92148716|NCT01462162|184183248|SUPERIORITY_OR_OTHER|||||||0.678|||||||Regression, Linear|||change in hemoglobin levels versus change in swollen joint count (Week 12)||||0.678
92148717|NCT01462162|184183248|SUPERIORITY_OR_OTHER|||||||0.348|||||||Regression, Linear|||change in hemoglobin levels versus change in swollen joint count (Week 24)||||0.348
92148718|NCT01462162|184183248|SUPERIORITY_OR_OTHER|||||||0.679|||||||Regression, Linear|||change in hemoglobin levels versus change in morning stiffness (Week 12)||||0.679
92148719|NCT01462162|184183248|SUPERIORITY_OR_OTHER|||||||0.556|||||||Regression, Linear|||change in hemoglobin levels versus change in morning stiffness (Week 24)||||0.556
92148720|NCT01462162|184183248|SUPERIORITY_OR_OTHER|||||||0.692|||||||Regression, Linear|||change in haemoglobin levels versus change in degree of pain (Week 12)||||0.692
92148721|NCT01462162|184183248|SUPERIORITY_OR_OTHER|||||||0.771|||||||Regression, Linear|||change in haemoglobin levels versus change in degree of pain (Week 24)||||0.771
92148722|NCT01462162|184183248|SUPERIORITY_OR_OTHER|||||||0.878|||||||Regression, Linear|||change in haemoglobin levels versus change in sleepiness (Week 12)||||0.878
92148723|NCT01462162|184183248|SUPERIORITY_OR_OTHER|||||||0.139|||||||Regression, Linear|||change in haemoglobin levels versus change in sleepiness (Week 24)||||0.139
92148724|NCT01462162|184183248|SUPERIORITY_OR_OTHER|||||||0.249|||||||Regression, Linear|||change in haemoglobin levels versus change in depression score (Week 12)||||0.249
92148725|NCT01462162|184183248|SUPERIORITY_OR_OTHER|||||||0.61|||||||Regression, Linear|||change in hemoglobin levels versus change in depression score (Week 24)||||0.610
92148726|NCT01462162|184183249|SUPERIORITY_OR_OTHER|||||||0.257|||||||Regression, Linear|||change in haemoglobin levels versus change in swollen joint count (Week 12)||||0.257
92148727|NCT01462162|184183249|SUPERIORITY_OR_OTHER|||||||0.487|||||||Regression, Linear|||change in haemoglobin levels versus change in swollen joint count (Week 24)||||0.487
92148728|NCT01462162|184183249|SUPERIORITY_OR_OTHER|||||||0.644|||||||Regression, Linear|||change in hemoglobin levels versus change in morning stiffness (Week 12)||||0.644
92397517|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.54||||0.0128|TWO_SIDED|95.0|1.31|9.56||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||9.56|1.31|0.0128
92397518|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|6.5||||0.0003|TWO_SIDED|95.0|2.37|17.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||17.81|2.37|0.0003
92397519|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|6.42||||0.0003|TWO_SIDED|95.0|2.32|17.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||17.77|2.32|0.0003
92148729|NCT01462162|184183249|SUPERIORITY_OR_OTHER|||||||0.498|||||||Regression, Linear|||change in hemoglobin levels versus change in morning stiffness (Week 24)||||0.498
92148730|NCT01462162|184183249|SUPERIORITY_OR_OTHER|||||||0.65|||||||Regression, Linear|||change in hemoglobin levels versus change in degree of pain (Week 12)||||0.650
92148731|NCT01462162|184183249|SUPERIORITY_OR_OTHER|||||||0.75|||||||Regression, Cox|||change in hemoglobin levels versus change in degree of pain (Week 24)||||0.750
92148732|NCT01462162|184183249|SUPERIORITY_OR_OTHER|||||||0.936|||||||Regression, Linear|||change in hemoglobin levels versus change in sleepiness (Week 12)||||0.936
92148733|NCT01462162|184183249|SUPERIORITY_OR_OTHER|||||||0.075|||||||Regression, Linear|||change in hemoglobin levels versus change in sleepiness (Week 24)||||0.075
92148734|NCT01462162|184183249|SUPERIORITY_OR_OTHER|||||||0.098|||||||Regression, Linear|||change in hemoglobin levels versus change in depression score (Week 12)||||0.098
92148735|NCT01462162|184183249|SUPERIORITY_OR_OTHER|||||||0.09|||||||Regression, Linear|||change in hemoglobin levels versus change in depression score (Week 24)||||0.090
92148736|NCT01462162|184183250|SUPERIORITY_OR_OTHER|||||||0.077|||||||Multiple Regression|||change in hemoglobin levels versus change in swollen joint count (Week 12)||||0.077
92148737|NCT01462162|184183250|SUPERIORITY_OR_OTHER|||||||0.961|||||||Multiple Regression|||change in hemoglobin levels versus change in swollen joint count (Week 24)||||0.961
92148738|NCT01462162|184183251|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
92148739|NCT01462162|184183251|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
92148740|NCT01462162|184183252|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
92148741|NCT01462162|184183252|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
92148742|NCT01462162|184183253|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
92148743|NCT01462162|184183253|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
92148744|NCT01462162|184183254|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
92148745|NCT01462162|184183254|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
92148746|NCT01462162|184183255|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
92148747|NCT01462162|184183255|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
92211832|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|-4.1|-1.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 11||-1.8|-4.1|<0.0001
92148748|NCT01462162|184183256|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
92148749|NCT01462162|184183256|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
92148750|NCT01462162|184183257|SUPERIORITY_OR_OTHER|||||||0.172|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||0.172
92148751|NCT01462162|184183257|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Regression, Logistic|||Baseline for Week 24 versus Week 24||||<0.05
92148752|NCT01462162|184183258|SUPERIORITY_OR_OTHER|||||||0.162|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||0.162
92148753|NCT01462162|184183258|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 24||||<0.001
92148754|NCT01462162|184183259|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
92148755|NCT01462162|184183259|SUPERIORITY_OR_OTHER||||||<|0.005|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.005
92148756|NCT01462162|184183260|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
92148757|NCT01462162|184183260|SUPERIORITY_OR_OTHER||||||<|0.005|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.005
92148758|NCT01462162|184183261|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
92211833|NCT03816891|184324395|OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.56||0.0044|TWO_SIDED|95.0|-2.7|-0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 11||-0.5|-2.7|0.0044
92211834|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|-4.7|-2.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-2.4|-4.7|<0.0001
92397520|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.87||||0.2354|TWO_SIDED|95.0|0.67|5.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.26|0.67|0.2354
92148759|NCT01462162|184183261|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
92148760|NCT02583763|184183280|SUPERIORITY||||||>|0.05||||||Significance value stated as p\<0.05|t-test, 2 sided|||Paired sample T test were used to analyse normally distributed data.||||>0.05
92148761|NCT02583763|184183281|SUPERIORITY||||||>|0.05||||||Significance value was stated as p\<0.05|t-test, 2 sided|||||||>0.05
92148762|NCT02583763|184183282|SUPERIORITY|||||||0.003||||||Significance value was set to p\<0.05|t-test, 2 sided|||||||0.003
92148763|NCT01987817|184183296|SUPERIORITY||Risk Difference (RD)|60.0|||<|0.0001|TWO_SIDED|95.0|35.0|79.0|||Fisher Exact|||||79|35|<0.0001
92148764|NCT01987817|184183297|SUPERIORITY||Treatment difference|0.912|||<|0.0001|TWO_SIDED|95.0|0.5184|1.3065||The p-value is based on the F-test for treatment effect adjusted for MTD from baseline (log10 mg). The p-value and confidence intervals are based on the normality assumption.|ANCOVA|Least squares means and 95% CIs based on ANCOVA model of change from baseline in MTD at Exit DBPCFC (terms for treatment \& MTD at baseline (log10 mg).||MTD for the baseline and Exit DBPCFC are transformed back to log10 scale before calculations. A value of 0.3 mg is substituted for subjects who could not tolerate the lowest DBPCFC dose before log10 transformation.||1.3065|0.5184|<0.0001
92148765|NCT00279201|184183338|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANCOVA|P-value from ANCOVA, baseline value as covariate. Response = Treatment + Baseline + Country + thiazolidinedione (TZD) use + Sulfonylurea (sulfo) use.||||||0.005
92148766|NCT00279201|184183339|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Log Rank|Stratified by country, thiazolidinedione (TZD) use, sulfo use.||||||0.040
92148767|NCT00279201|184183340|SUPERIORITY_OR_OTHER|||||||0.271||95.0|||||ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.271
92148768|NCT00279201|184183340|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.990
92397521|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0894|TWO_SIDED|95.0|0.87|6.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.65|0.87|0.0894
92148769|NCT00279201|184183341|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo use.||||||0.005
92148770|NCT00279201|184183342|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for \<=7.0%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.002
92148771|NCT00279201|184183342|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for \<7.0%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||<0.001
92148772|NCT00279201|184183342|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||P-value is for \<=6.5%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.174
92148773|NCT00279201|184183343|SUPERIORITY_OR_OTHER|||||||0.416||95.0||||P-value for baseline.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.416
92148774|NCT00279201|184183343|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148775|NCT00279201|184183343|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.003
92148776|NCT00279201|184183343|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.005
92148777|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||P-value is for Baseline mean fasting blood glucose.|ANOVA|ANOVA with treatment, country, TZD use and sulfo use in model.||||||0.179
92148778|NCT00279201|184183344|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for mean fasting blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148779|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.7||95.0||||P-value is for Baseline AM 2-hour postprandial BG.|ANOVA|ANOVA with treatment, country, TZD use and sulfo use in model.||||||0.700
92148780|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value for AM 2-hour postprandial blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.016
92148781|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.971||95.0||||P-value is for Baseline midday premeal BG.|ANOVA|ANOVA with treatment, country, TZD use and sulfo use in model.||||||0.971
92148782|NCT00279201|184183344|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Midday premeal blood glucose (BG).|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148783|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.759||95.0||||P-value is for Baseline midday 2-hour postprandial BG|ANOVA|ANOVA with treatment, country, TZD use and sulfo use in model.||||||0.759
92148784|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.514||95.0||||P-value Midday 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.514
92148785|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.321||95.0||||P-value is for Baseline evening pre-meal BG.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.321
92148786|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value for Evening pre-meal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.161
92148787|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.297||95.0||||P-value is for Baseline evening 2hour postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.297
92148788|NCT00279201|184183344|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value Evening 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148789|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.199||95.0||||P-value is for Baseline 3 AM blood glucose.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.199
92148790|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.693||95.0||||P-value is for 3 AM blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.693
92148791|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value is for Baseline AM 2-hour BG excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.021
92148792|NCT00279201|184183344|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for AM 2-hour blood glucose excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148793|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.567||95.0||||P-value is for Baseline midday 2-hour BG excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.567
92148794|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value is for Midday 2-hour blood glucose excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.005
92148795|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.994||95.0||||P-value is for Baseline PM 2-hour BG excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.994
92148796|NCT00279201|184183344|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for PM 2-hour blood glucose excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148797|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.436||95.0||||P-value is for Baseline mean all meal time excursions.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.436
92148798|NCT00279201|184183344|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Mean of all meal time excursions.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148799|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.628||95.0||||P-value is for Baseline mean all 2hour PP BG.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.628
92148800|NCT00279201|184183344|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Mean of all 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148801|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.677||95.0||||P-value is for Baseline AM/PM 2-hour postprandial BG.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.677
92148802|NCT00279201|184183344|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for AM/PM 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148803|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.364||95.0||||P-value is for Baseline mean all premeal BG.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.364
92397522|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.23||||0.0201|TWO_SIDED|95.0|1.2|8.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.67|1.20|0.0201
92148804|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||P-value is for Mean of all premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.055
92148805|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.165||95.0||||P-value is for Baseline AM/PM 2-hour BG excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.165
92148806|NCT00279201|184183344|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for AM/PM 2-hour blood glucose excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148807|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.464||95.0||||P-value is for Baseline mean of all BG values.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.464
92148808|NCT00279201|184183344|SUPERIORITY_OR_OTHER|||||||0.305||95.0||||P-value is for Mean of all blood glucose values.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.305
92148809|NCT00279201|184183345|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANCOVA|ANCOVA model with treatment, baseline, country, TZD use, and sulfo use.||||||0.003
92148810|NCT00279201|184183346|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change from baseline at Week 6.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92211835|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|-3.8|-1.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-1.6|-3.8|<0.0001
92211836|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.56||0.0231|TWO_SIDED|95.0|-2.4|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-0.2|-2.4|0.0231
92211837|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|-4.5|-2.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 13||-2.2|-4.5|<0.0001
92211838|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|-4.0|-1.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 13||-1.7|-4.0|<0.0001
92148811|NCT00279201|184183346|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change from baseline at Week 12.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148812|NCT00279201|184183346|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change from baseline at Week 18|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148813|NCT00279201|184183346|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change from baseline at Week 24.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148814|NCT00279201|184183346|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change from baseline at endpoint.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148815|NCT00279201|184183347|SUPERIORITY_OR_OTHER|||||||0.497||95.0||||P-value for Actual weight at baseline.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.497
92148816|NCT00279201|184183347|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Actual weight at Week 6.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
92148817|NCT00279201|184183347|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Actual weight at Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo use.||||||<0.001
92148818|NCT00279201|184183347|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Actual weight at Week 18.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo use.||||||<0.001
92148819|NCT00279201|184183347|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Actual weight at Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo use.||||||<0.001
92148820|NCT00279201|184183347|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Actual weight at Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo use.||||||<0.0001
92148821|NCT00279201|184183348|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value is for Hypoglycemic episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.016
92148822|NCT00279201|184183348|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value is for Overall hypoglycemic episodes.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.037
92211839|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.57||0.0074|TWO_SIDED|95.0|-2.7|-0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 13||-0.4|-2.7|0.0074
92397523|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.1||||0.1614|TWO_SIDED|95.0|0.74|5.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.94|0.74|0.1614
92148823|NCT00279201|184183348|SUPERIORITY_OR_OTHER|||||||0.834||95.0||||P-value is for Nocturnal hypoglycemic episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.834
92148824|NCT00279201|184183348|SUPERIORITY_OR_OTHER|||||||0.585||95.0||||P-value is for Nocturnal hypoglycemic episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.585
92148825|NCT00279201|184183348|SUPERIORITY_OR_OTHER|||||||0.241||95.0||||P-value is for Severe hypoglycemic episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.241
92148826|NCT00279201|184183348|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||P-value is for Severe hypoglycemic episodes overall. Initiation phase and maintenance phase are included.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.080
92148827|NCT00279201|184183349|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value is for Nocturnal episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.009
92148828|NCT00279201|184183349|SUPERIORITY_OR_OTHER|||||||0.42||95.0||||P-value is for Nocturnal episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.420
92148829|NCT00279201|184183349|SUPERIORITY_OR_OTHER|||||||0.165||95.0||||P-value is for Severe episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.165
92148830|NCT00279201|184183349|SUPERIORITY_OR_OTHER|||||||0.167||95.0||||P-value is for Severe episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.167
92211840|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|0.58|<|0.0001|TWO_SIDED|95.0|-4.8|-2.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 14||-2.5|-4.8|<0.0001
92148831|NCT00279201|184183349|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is for Hypoglycemia episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.006
92148832|NCT00279201|184183349|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Hypoglycemia episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||<0.001
92148833|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 1.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148834|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 2.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148835|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 3.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148836|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 4.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148837|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 5.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148838|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 6.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148839|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 8.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148840|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 10.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148841|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 12.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148842|NCT00279201|184183350|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value is for Week 18.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||0.001
92148843|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 24.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148844|NCT00279201|184183350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
92148845|NCT00279201|184183351|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
92148846|NCT00279201|184183352|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country, TZD use, and Sulfo use.||||||<0.001
92148847|NCT00279201|184183353|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
92148848|NCT00279201|184183354|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|ANOVA with met goal/did not meet goal, country, TZD use and Sulfo use in model.||||||<0.001
92148849|NCT00279201|184183355|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country, TZD use, and sulfo use.||||||<0.001
92211841|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|0.58|<|0.0001|TWO_SIDED|95.0|-4.3|-2.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 14||-2.1|-4.3|<0.0001
92211842|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.58||0.0013|TWO_SIDED|95.0|-3.0|-0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 14||-0.7|-3.0|0.0013
92148850|NCT00279201|184183356|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
92148851|NCT00279201|184183357|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Pre Meals Blood Glucose.|ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
92148852|NCT00279201|184183357|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Post Meals Blood Glucose.|ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
92148853|NCT00279201|184183357|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Average of All Blood Glucose.|ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
92148854|NCT00279201|184183357|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Fasting Blood Glucose.|ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
92148855|NCT00279201|184183358|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Sulfonylurea/Metformin.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||<0.001
92148856|NCT00279201|184183358|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for TZD/Metformin.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||<0.001
92148857|NCT00279201|184183358|SUPERIORITY_OR_OTHER|||||||0.969||95.0||||P-value is for Sulfonylurea/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.969
92148858|NCT00279201|184183358|SUPERIORITY_OR_OTHER|||||||0.225||95.0||||P-value is for Patients with 3 drugs (Sulfonylurea/TZD/Metformin).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.225
92148859|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||P-value is for Week 0.|ANOVA|ANCOVA used with treatment, country, TZD use, and sulfo use in the model.||||||0.204
92148860|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value is for Week 12.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.004
92148861|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.657||95.0||||P-value is for Week 24.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.657
92148862|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.595||95.0||||P-value is for Week 36.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.595
92148863|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.142||95.0||||P-value for Week 48.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.142
92148864|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.551||95.0||||P-value for Week 60.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.551
92148865|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.779||95.0||||P-value is for Week 72.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.779
92148866|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.175||95.0||||P-value is for Week 84.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.175
92148867|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||P-value for Week 96.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.018
92148868|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-value is for Week 108.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.047
92148869|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-value is for Week 120.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.027
92148870|NCT00279201|184183359|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value is for Endpoint.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.017
92148871|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.218||95.0||||P-value for Baseline mean fasting blood glucose.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.218
92148872|NCT00279201|184183360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint mean fasting blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
92148873|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.897||95.0||||P-value is for Baseline AM 2-hour (hr) postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.897
92148874|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.138||95.0||||P-value is for Endpoint AM 2-hour postprandial.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.138
92148875|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.867||95.0||||P-value is for Baseline midday premeal blood glucose.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.867
92148876|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||P-value is for Endpoint midday premeal blood.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.031
92148877|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.792||95.0||||P-value is for Baseline midday 2hr postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.792
92148878|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.51||95.0||||P-value is for Endpoint midday 2hr postprandial.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.510
92148879|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.535||95.0||||P-value is for Baseline PM pre-meal blood glucose.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.535
92148880|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.517||95.0||||P-value is for Endpoint PM pre-meal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.517
92148881|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.869||95.0||||P-value is for Baseline PM 2hr postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.869
92148882|NCT00279201|184183360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint PM 2hr postprandial.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
92148883|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.164||95.0||||P-value is for Baseline 3AM blood glucose.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.164
92148884|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.234||95.0||||P-value is for Endpoint 3AM blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.234
92148885|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.175||95.0||||P-value is for Baseline AM 2hr excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.175
92148886|NCT00279201|184183360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint AM 2hr excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
92148887|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.589||95.0||||P-value is for Baseline midday 2hr excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.589
92148888|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value is for Endpoint midday 2hr excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.161
92148889|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.674||95.0||||P-value is for Baseline PM 2hr excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.674
92148890|NCT00279201|184183360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint PM 2hr excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
92148891|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.201||95.0||||P-value is for Baseline mean all meal time excursions.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.201
92148892|NCT00279201|184183360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint mean all meal time excursions.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
92148893|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.956||95.0||||P-value is for Baseline mean of all 2hr postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.956
92148894|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value is for Endpoint mean of all 2hr postprandial.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.019
92148895|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.445||95.0||||P-value is for Baseline mean all premeal.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.445
92148896|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.371||95.0||||P-value is for Endpoint mean all premeal.|ANOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.371
92148897|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.848||95.0||||P-value is for Baseline combined AM/PM 2hr postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.848
92148898|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for Endpoint combined AM/PM 2hr postprandial.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.002
92148899|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.281||95.0||||P-value is for Baseline AM/PM 2hr postprandial excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.281
92148900|NCT00279201|184183360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint AM/PM 2hr postprandial excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
92148901|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.588||95.0||||P-value is for Baseline mean all blood glucose values.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.588
92148902|NCT00279201|184183360|SUPERIORITY_OR_OTHER|||||||0.217||95.0||||P-value is for Endpoint mean all blood glucose values.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.217
92148903|NCT00279201|184183361|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||ANCOVA|ANCOVA used with treatment, Baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.300
92148904|NCT00279201|184183362|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||P-value for \<=7.0%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.134
92148905|NCT00279201|184183362|SUPERIORITY_OR_OTHER|||||||0.089||95.0||||P-value is for \<7.0%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.089
92148906|NCT00279201|184183362|SUPERIORITY_OR_OTHER|||||||0.235||95.0||||P-value is for \<=6.5%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.235
92148907|NCT00279201|184183363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 24.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148908|NCT00279201|184183363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 36.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148909|NCT00279201|184183363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 48.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148910|NCT00279201|184183363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 60.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148911|NCT00279201|184183363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 72.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148912|NCT00279201|184183363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 84.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148913|NCT00279201|184183363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 96.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148914|NCT00279201|184183363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 108|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148915|NCT00279201|184183363|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for Change from baseline at Week 120.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||0.002
92148916|NCT00279201|184183363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Endpoint.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
92148917|NCT00279201|184183364|SUPERIORITY_OR_OTHER|||||||0.128||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.128
92148918|NCT00279201|184183364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
92148919|NCT00279201|184183364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 36.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
92148920|NCT00279201|184183364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 48.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
92148921|NCT00279201|184183364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 60.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
92148922|NCT00279201|184183364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 72.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
92148923|NCT00279201|184183364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 84.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
92148924|NCT00279201|184183364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 96.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
92148925|NCT00279201|184183364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 108.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
92148926|NCT00279201|184183364|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for Week 120.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||0.002
92148927|NCT00279201|184183364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
92148928|NCT00279201|184183365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 24.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
92148929|NCT00279201|184183365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 36.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
92148930|NCT00279201|184183365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 48.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
92148931|NCT00279201|184183365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 60.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
92148932|NCT00279201|184183365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 72.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
92148933|NCT00279201|184183365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 84.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
92148934|NCT00279201|184183365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 96.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
92148935|NCT00279201|184183365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 108.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
92148936|NCT00279201|184183365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 120.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
92211843|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|-4.8|-2.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 15||-2.6|-4.8|<0.0001
92211844|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|-4.3|-2.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 15||-2.1|-4.3|<0.0001
92211845|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.57||0.001|TWO_SIDED|95.0|-3.0|-0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 15||-0.8|-3.0|0.0010
92211846|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|-4.8|-2.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-2.5|-4.8|<0.0001
92211847|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|-4.2|-2.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-2.0|-4.2|<0.0001
92211848|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.57||0.004|TWO_SIDED|95.0|-2.8|-0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-0.5|-2.8|0.0040
92397524|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.57||||0.0123|TWO_SIDED|95.0|1.32|9.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.66|1.32|0.0123
92211849|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.59|<|0.0001|TWO_SIDED|95.0|-4.2|-1.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 17||-1.9|-4.2|<0.0001
92211850|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-3.9|-1.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 17||-1.6|-3.9|<0.0001
92211851|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.59||0.0087|TWO_SIDED|95.0|-2.7|-0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 17||-0.4|-2.7|0.0087
92211852|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-3.8|-1.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-1.4|-3.8|<0.0001
92211853|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.6||0.0003|TWO_SIDED|95.0|-3.4|-1.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-1.0|-3.4|0.0003
92211854|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.59||0.359|TWO_SIDED|95.0|-2.4|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-0.1|-2.4|0.359
92211855|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.6||0.0005|TWO_SIDED|95.0|-3.3|-0.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 19||-0.9|-3.3|0.0005
92211856|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.61||0.0027|TWO_SIDED|95.0|-3.1|-0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 19||-0.6|-3.1|0.0027
92211857|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.6||0.0657|TWO_SIDED|95.0|-2.3|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 19||0.1|-2.3|0.0657
92211858|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.6||0.0021|TWO_SIDED|95.0|-3.1|-0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||-0.7|-3.1|0.0021
92211859|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.61||0.0172|TWO_SIDED|95.0|-2.7|-0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||-0.3|-2.7|0.0172
92211860|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.6||0.1344|TWO_SIDED|95.0|-2.1|-0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||-0.3|-2.1|0.1344
92211861|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.61||0.0134|TWO_SIDED|95.0|-2.7|-0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 21||-0.3|-2.7|0.0134
92211862|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.62||0.026|TWO_SIDED|95.0|-2.6|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 21||-0.2|-2.6|0.0260
92211863|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.215|TWO_SIDED|95.0|-1.9|0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 21||0.4|-1.9|0.2150
92211864|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.62||0.0271|TWO_SIDED|95.0|-2.6|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 22||-0.2|-2.6|0.0271
92211865|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.62||0.0502|TWO_SIDED|95.0|-2.5|0.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 22||0.0|-2.5|0.0502
92211866|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.61||0.4138|TWO_SIDED|95.0|-1.7|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 22||0.7|-1.7|0.4138
92211867|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.63||0.0738|TWO_SIDED|95.0|-2.4|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 23||0.1|-2.4|0.0738
92211868|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.63||0.1247|TWO_SIDED|95.0|-2.2|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 23||0.3|-2.2|0.1247
92211869|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.61||0.4572|TWO_SIDED|95.0|-1.7|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 23||0.8|-1.7|0.4572
92211870|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.62||0.0617|TWO_SIDED|95.0|-2.4|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 24||0.1|-2.4|0.0617
92211871|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.63||0.677|TWO_SIDED|95.0|-2.4|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 24||0.1|-2.4|0.677
92211872|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.61||0.4688|TWO_SIDED|95.0|-1.7|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 24||0.8|-1.7|0.4688
92211873|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.62||0.1093|TWO_SIDED|95.0|-2.2|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 25||0.2|-2.2|0.1093
92148937|NCT00279201|184183365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
92148938|NCT00279201|184183366|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||P-value is for Overall hypoglycemic episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.370
92148939|NCT00279201|184183366|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-Value for Overall hypoglycemia episodes.|Cochran-Mantel-Haenszel|Controlling for country, TZD use, and sulfo use.||||||0.006
92148940|NCT00279201|184183366|SUPERIORITY_OR_OTHER|||||||0.397||95.0||||P-value is for Nocturnal episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.397
92148941|NCT00279201|184183366|SUPERIORITY_OR_OTHER|||||||0.253||95.0||||P-value is for Nocturnal episodes overall.|Cochran-Mantel-Haenszel|Controlling for country, TZD use, and sulfo use.||||||0.253
92148942|NCT00279201|184183366|SUPERIORITY_OR_OTHER|||||||0.893||95.0||||P-value is for Severe episodes endpoint.|Cochran-Mantel-Haenszel|Controlling for country, TZD use, and sulfo use.||||||0.893
92148943|NCT00279201|184183366|SUPERIORITY_OR_OTHER|||||||0.391||95.0||||P-value is for Severe episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.391
92148944|NCT00279201|184183367|SUPERIORITY_OR_OTHER|||||||0.497||95.0||||P-value for Hypoglycemia episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.497
92148945|NCT00279201|184183367|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-value is for Hypoglycemia episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.071
92148946|NCT00279201|184183367|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||P-value is for Nocturnal episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.065
92148947|NCT00279201|184183367|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value is for Nocturnal episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.021
92148948|NCT00279201|184183367|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||P-value is for Severe episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.200
92148949|NCT00279201|184183367|SUPERIORITY_OR_OTHER|||||||0.208||95.0||||P-value is for Severe episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.208
92148950|NCT00279201|184183368|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value is for Change.|ANCOVA|ANCOVA model with treatment, baseline, country, TZD use and sulfo use.||||||0.004
92148951|NCT00279201|184183369|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||P-value is for Baseline at Week 0.|ANOVA|ANOVA used with treatment, country, TZD use and Sulfo use in the model.||||||0.204
92148952|NCT00279201|184183369|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-Value is for Change from baseline to endpoint.|ANCOVA|ANCOVA used with treatment, Baseline HbA1c, country, TZD use and sulfo use in the model.||||||0.017
92148953|NCT00279201|184183369|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value is for Change Week 24 to Week 120 endpoint.|ANCOVA|ANCOVA used with treatment, Baseline HbA1c, country, TZD use and sulfo use in the model.||||||0.020
92148954|NCT00279201|184183370|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.036
92148955|NCT00279201|184183371|SUPERIORITY_OR_OTHER|||||||0.708||95.0|||||ANOVA|From ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.708
92148956|NCT00279201|184183372|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country, TZD use, and Sulfo use.||||||0.028
92148957|NCT00279201|184183373|SUPERIORITY_OR_OTHER|||||||0.738||95.0|||||Cochran-Mantel-Haenszel|Stratified by country, TZD use, and sulfo use.||||||0.738
92148958|NCT00279201|184183374|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||<0.001
92148959|NCT00279201|184183375|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.043
92148960|NCT00279201|184183376|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country, TZD use, and sulfo use.||||||<0.001
92148961|NCT00279201|184183377|SUPERIORITY_OR_OTHER|||||||0.032||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country, TZD use, and sulfo use.||||||0.032
92148962|NCT00279201|184183378|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value is for Sulfonylurea/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.037
92148963|NCT00279201|184183378|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P-value is for Sulfonylurea/metformin.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.025
92148964|NCT00279201|184183378|SUPERIORITY_OR_OTHER|||||||0.132||95.0||||P-value is for Metformin/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.132
92148965|NCT00279201|184183378|SUPERIORITY_OR_OTHER|||||||0.849||95.0||||P-value is for Sulfonylurea/metformin/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.849
92148966|NCT00279201|184183379|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is for Sulfonylurea/TZD|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.006
92148967|NCT00279201|184183379|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||P-value is for Sulfonylurea/metformin.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.048
92148968|NCT00279201|184183379|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||P-value is for Metformin/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.258
92148969|NCT00279201|184183379|SUPERIORITY_OR_OTHER|||||||0.848||95.0||||P-value is for Sulfonylurea/metformin/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.848
92148970|NCT00279201|184183380|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.004
92148971|NCT00279201|184183381|SUPERIORITY_OR_OTHER|||||||0.553||95.0|||||ANOVA|From ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.553
92148972|NCT00279201|184183382|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value is for Mean of all post meals blood glucose.|ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.010
92148973|NCT00279201|184183382|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||P-value is for Average of all blood glucose.|ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.035
92148974|NCT00279201|184183383|SUPERIORITY_OR_OTHER|||||||0.516||95.0||||P-value is for Mean of post-meals blood glucose.|ANOVA|From ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.516
92148975|NCT00279201|184183383|SUPERIORITY_OR_OTHER|||||||0.425||95.0||||P-value is for Average of all blood glucose.|ANOVA|From ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.425
92148976|NCT00279201|184183384|SUPERIORITY_OR_OTHER|||||||0.77||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.770
92148977|NCT00279201|184183384|SUPERIORITY_OR_OTHER|||||||0.99||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.990
92148978|NCT00279201|184183384|SUPERIORITY_OR_OTHER|||||||0.552||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.552
92148979|NCT00279201|184183384|SUPERIORITY_OR_OTHER|||||||0.271||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.271
92148980|NCT00279201|184183385|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-value is for \<=7.0%.|Fisher Exact|||||||0.027
92148981|NCT00279201|184183385|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value is for \<7.0%.|Fisher Exact|||||||0.021
92148982|NCT00279201|184183385|SUPERIORITY_OR_OTHER|||||||0.799||95.0||||P-value is for \<=6.5%.|Fisher Exact|||||||0.799
92148983|NCT00279201|184183385|SUPERIORITY_OR_OTHER|||||||0.676||95.0||||P-value is for \<=7.0%.|Fisher Exact|||||||0.676
92148984|NCT00279201|184183385|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for \<7.0%.|Fisher Exact|||||||1.000
92148985|NCT00279201|184183385|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for \<=6.5%.|Fisher Exact|||||||1.000
92148986|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.241||95.0||||P-value is for Mean fast blood glucose (BG).|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.241
92148987|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.305||95.0||||P-value is for AM 2-hour postprandial (PP) BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.305
92148988|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.842||95.0||||P-value is for Midday premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.842
92148989|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.917||95.0||||P-value is for Midday 2-hour (hr) PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.917
92148990|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.648||95.0||||P-value is for PM premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.648
92148991|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.613||95.0||||P-value is for PM 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.613
92148992|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.813||95.0||||P-value is for 3 AM blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.813
92148993|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.953||95.0||||P-value is for AM 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.953
92148994|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.933||95.0||||P-value is for Midday 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.933
92148995|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.348||95.0||||P-value is for PM 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.348
92148996|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.625||95.0||||P-value is for Mean all mealtime excursions.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.625
92148997|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.573||95.0||||P-value is for Mean all 2-hour PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.573
92148998|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.711||95.0||||P-value is for Mean all premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.711
92148999|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.372||95.0||||P-value is for Mean combined AM/PM 2hr PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.372
92149000|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.516||95.0||||P-value is for Mean AM/PM 2hr BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.516
92149001|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.639||95.0||||P-value is for Mean all BG values.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.639
92149002|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.131||95.0||||P-value is for Mean fast blood glucose (BG).|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.131
92149003|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||P-value is for AM 2-hour postprandial (PP) BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.530
92149004|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.578||95.0||||P-value is for Midday premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.578
92149005|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value is for Midday 2-hour (hr) PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.004
92149006|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.951||95.0||||P-value is for PM premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.951
92149007|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.58||95.0||||P-value is for PM 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.580
92149008|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-value is for 3 AM blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.071
92149009|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||P-value is for AM 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.081
92149010|NCT00279201|184183386|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Midday 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||<0.001
92149011|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.542||95.0||||P-value is for PM 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.542
92149012|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value is for Mean all mealtime excursions.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.003
92149013|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.105||95.0||||P-value is for Mean all 2-hour PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.105
92149014|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.487||95.0||||P-value is for Mean all premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.487
92149015|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.491||95.0||||P-value is for Mean combined AM/PM 2hr PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.491
92149016|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||P-value is for Mean AM/PM 2hr BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.127
92149017|NCT00279201|184183386|SUPERIORITY_OR_OTHER|||||||0.861||95.0||||P-value is for Mean all BG values.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.861
92149018|NCT00279201|184183387|SUPERIORITY_OR_OTHER|||||||0.745||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.745
92149019|NCT00279201|184183387|SUPERIORITY_OR_OTHER|||||||0.467||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.467
92149020|NCT00279201|184183387|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||P-value is for Week 6.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.575
92149021|NCT00279201|184183387|SUPERIORITY_OR_OTHER|||||||0.726||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.726
92149022|NCT00279201|184183387|SUPERIORITY_OR_OTHER|||||||0.978||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.978
92149023|NCT00279201|184183387|SUPERIORITY_OR_OTHER|||||||0.345||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.345
92149024|NCT00279201|184183387|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||P-value is for Week 6.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.166
92149025|NCT00279201|184183387|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.064
92149026|NCT00279201|184183387|SUPERIORITY_OR_OTHER|||||||0.199||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.199
92149027|NCT00279201|184183387|SUPERIORITY_OR_OTHER|||||||0.098||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.098
92211874|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.62||0.1196|TWO_SIDED|95.0|-2.2|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 25||0.3|-2.2|0.1196
92211875|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.61||0.5763|TWO_SIDED|95.0|-1.5|0.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 25||0.9|-1.5|0.5763
92211876|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.62||0.0661|TWO_SIDED|95.0|-2.4|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 26||0.1|-2.4|0.0661
92211877|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.62||0.0622|TWO_SIDED|95.0|-2.4|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 26||0.1|-2.4|0.0622
92211878|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.61||0.4677|TWO_SIDED|95.0|-1.6|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 26||0.8|-1.6|0.4677
92211879|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.61||0.0854|TWO_SIDED|95.0|-2.2|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 27||0.1|-2.2|0.0854
92211880|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.62||0.0768|TWO_SIDED|95.0|-2.3|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 27||0.1|-2.3|0.0768
92211881|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.256|TWO_SIDED|95.0|-1.9|0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 27||0.5|-1.9|0.2560
92211882|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.61||0.0337|TWO_SIDED|95.0|-2.5|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 28||-0.1|-2.5|0.0337
92211883|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.62||0.0778|TWO_SIDED|95.0|-2.3|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 28||0.1|-2.3|0.0778
92211884|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.61||0.3218|TWO_SIDED|95.0|-1.8|0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 28||0.6|-1.8|0.3218
92211885|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.59||0.0549|TWO_SIDED|95.0|-2.3|0.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 29||0.0|-2.3|0.0549
92211886|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.6||0.0543|TWO_SIDED|95.0|-2.4|0.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 29||0.0|-2.4|0.0543
92211887|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.59||0.3759|TWO_SIDED|95.0|-1.7|0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 29||0.6|-1.7|0.3759
92211888|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.6||0.0286|TWO_SIDED|95.0|-2.5|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 30||-0.1|-2.5|0.0286
92211889|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.61||0.0477|TWO_SIDED|95.0|-2.4|0.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 30||0.0|-2.4|0.0477
92211890|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2699|TWO_SIDED|95.0|-1.8|0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 30||0.5|-1.8|0.2699
92211891|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.6||0.0294|TWO_SIDED|95.0|-2.5|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 31||-0.1|-2.5|0.0294
92149028|NCT00279201|184183388|SUPERIORITY_OR_OTHER|||||||0.467||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, and TZD use in model.||||||0.467
92211892|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.6||0.0702|TWO_SIDED|95.0|-2.3|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 31||0.1|-2.3|0.0702
92149029|NCT00279201|184183388|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||P-value is for Week 6.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.575
92149030|NCT00279201|184183388|SUPERIORITY_OR_OTHER|||||||0.726||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.726
92149031|NCT00279201|184183388|SUPERIORITY_OR_OTHER|||||||0.978||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.978
92149032|NCT00279201|184183388|SUPERIORITY_OR_OTHER|||||||0.345||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.345
92149033|NCT00279201|184183388|SUPERIORITY_OR_OTHER|||||||0.745||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, and TZD use in model.||||||0.745
92149034|NCT00279201|184183388|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||P-value is for Week 6.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.166
92149035|NCT00279201|184183388|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.064
92149036|NCT00279201|184183388|SUPERIORITY_OR_OTHER|||||||0.199||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.199
92149037|NCT00279201|184183388|SUPERIORITY_OR_OTHER|||||||0.098||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.098
92149038|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||P-value is for Week 1.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.837
92149039|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.205||95.0||||P-value is for Week 2.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.205
92149040|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.704||95.0||||P-value is for Week 3.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.704
92149041|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||P-value is for Week 4.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.610
92149042|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.352||95.0||||P-value is for Week 5.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.352
92149043|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.636||95.0||||P-value is for Week 6.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.636
92149044|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||P-value is for Week 8.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.880
92149045|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.904||95.0||||P-value is for Week 10.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.904
92149046|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.859||95.0||||P-value is for Week 12.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.859
92149047|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.654||95.0||||P-value is for Week 24.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.654
92149048|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||P-value is for Endpoint.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.566
92149049|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.926||95.0||||P-value is for Week 1.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.926
92149050|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.902||95.0||||P-value is for Week 2.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.902
92149051|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.766||95.0||||P-value is for Week 3.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.766
92149052|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.449||95.0||||P-value is for Week 4.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.449
92149053|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.797||95.0||||P-value is for Week 5.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.797
92149054|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.438||95.0||||P-value is for Week 6.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.438
92149055|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.602||95.0||||P-value is for Week 8.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.602
92149056|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.493||95.0||||P-value is for Week 10.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.493
92149057|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.335||95.0||||P-value is for Week 12.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.335
92149058|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.398||95.0||||P-value is for Week 24.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.398
92149059|NCT00279201|184183389|SUPERIORITY_OR_OTHER|||||||0.903||95.0||||P-value is for Endpoint.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.903
92149060|NCT00279201|184183390|SUPERIORITY_OR_OTHER|||||||0.953||95.0||||P-value is for Hypoglycemia episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.953
92149061|NCT00279201|184183390|SUPERIORITY_OR_OTHER|||||||0.953||95.0||||P-value is for Overall hypoglycemia episodes.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.953
92149062|NCT00279201|184183390|SUPERIORITY_OR_OTHER|||||||0.188||95.0||||P-value is for Severe episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.188
92149063|NCT00279201|184183390|SUPERIORITY_OR_OTHER|||||||0.226||95.0||||P-value is for Nocturnal episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.226
92149064|NCT00279201|184183390|SUPERIORITY_OR_OTHER|||||||0.855||95.0||||P-value is for Nocturnal episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.855
92149065|NCT00279201|184183390|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||P-value is for Hypoglycemia episodes at endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.250
92149066|NCT00279201|184183390|SUPERIORITY_OR_OTHER|||||||0.123||95.0||||P-value is for Overall hypoglycemia episodes.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.123
92149067|NCT00279201|184183390|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||P-value is for Severe episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.166
92149068|NCT00279201|184183390|SUPERIORITY_OR_OTHER|||||||0.273||95.0||||P-value is for Nocturnal episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.273
92211893|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.59||0.3636|TWO_SIDED|95.0|-1.7|0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 31||0.6|-1.7|0.3636
92211894|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.59||0.0273|TWO_SIDED|95.0|-2.5|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||-0.1|-2.5|0.0273
92211895|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.59||0.0785|TWO_SIDED|95.0|-2.2|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||0.1|-2.2|0.0785
92211896|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.59||0.4111|TWO_SIDED|95.0|-1.6|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||0.7|-1.6|0.4111
92211897|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.6||0.0471|TWO_SIDED|95.0|-2.4|0.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 33||0.0|-2.4|0.0471
92211898|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.59||0.0891|TWO_SIDED|95.0|-2.2|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 33||0.2|-2.2|0.0891
92211899|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.58||0.482|TWO_SIDED|95.0|-1.6|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 33||0.7|-1.6|0.4820
92211900|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.6||0.0222|TWO_SIDED|95.0|-2.6|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 34||-0.2|-2.6|0.0222
92211901|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.6||0.0682|TWO_SIDED|95.0|-2.3|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 34||0.1|-2.3|0.0682
92211902|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.59||0.4112|TWO_SIDED|95.0|-1.7|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 34||0.7|-1.7|0.4112
92211903|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.6||0.0307|TWO_SIDED|95.0|-2.5|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 35||-0.1|-2.5|0.0307
92211904|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.6||0.1538|TWO_SIDED|95.0|-2.0|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 35||0.3|-2.0|0.1538
92211905|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.59||0.4047|TWO_SIDED|95.0|-1.7|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 35||0.7|-1.7|0.4047
92211906|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.6||0.026|TWO_SIDED|95.0|-2.5|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 36||-0.2|-2.5|0.0260
92211907|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.6||0.1223|TWO_SIDED|95.0|-2.1|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 36||0.3|-2.1|0.1223
92211908|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.59||0.3641|TWO_SIDED|95.0|-1.7|0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 36||0.6|-1.7|0.3641
92149069|NCT00279201|184183390|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||P-value is for Nocturnal episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.039
92397525|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|6.08||||0.0006|TWO_SIDED|95.0|2.17|17.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||17.03|2.17|0.0006
92149070|NCT00279201|184183391|SUPERIORITY_OR_OTHER|||||||0.623||95.0||||P-value is for Hypoglycemia episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.623
92149071|NCT00279201|184183391|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||P-value is for Hypoglycemic episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.949
92149072|NCT00279201|184183391|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||P-value is for Hypoglycemia episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.730
92149073|NCT00279201|184183391|SUPERIORITY_OR_OTHER|||||||0.445||95.0||||P-value is for Hypoglycemia episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.445
92211909|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.61||0.0284|TWO_SIDED|95.0|-2.6|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 37||-0.1|-2.6|0.0284
92211910|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.61||0.1534|TWO_SIDED|95.0|-2.1|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 37||0.3|-2.1|0.1534
92211911|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.59||0.3914|TWO_SIDED|95.0|-1.7|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 37||0.7|-1.7|0.3914
92211912|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.61||0.0265|TWO_SIDED|95.0|-2.6|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 38||-0.2|-2.6|0.0265
92211913|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.6||0.1682|TWO_SIDED|95.0|-2.0|0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 38||0.4|-2.0|0.1682
92211914|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.59||0.4699|TWO_SIDED|95.0|-1.6|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 38||0.7|-1.6|0.4699
92211915|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.59||0.0241|TWO_SIDED|95.0|-2.5|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 39||-0.2|-2.5|0.0241
92211916|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.1064||0.1064|TWO_SIDED|95.0|-2.1|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 39||0.2|-2.1|0.1064
92211917|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.58||0.2948|TWO_SIDED|95.0|-1.7|0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 39||0.5|-1.7|0.2948
92211918|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.59||0.0282|TWO_SIDED|95.0|-2.5|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 40||-0.1|-2.5|0.0282
92211919|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.59||0.1074|TWO_SIDED|95.0|-2.1|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 40||0.2|-2.1|0.1074
92211920|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.58||0.3061|TWO_SIDED|95.0|-1.7|0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 40||0.5|-1.7|0.3061
92397526|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|9.82|||<|0.0001|TWO_SIDED|95.0|3.4|28.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||28.36|3.40|<0.0001
92149074|NCT00279201|184183391|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||P-value is for Nocturnal episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.949
92149075|NCT00279201|184183391|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||P-value is for Nocturnal episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.590
92149076|NCT00279201|184183391|SUPERIORITY_OR_OTHER|||||||0.657||95.0||||P-value is for Nocturnal episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.657
92149077|NCT00279201|184183391|SUPERIORITY_OR_OTHER|||||||0.108||95.0||||P-value is for Nocturnal episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.108
92149078|NCT00279201|184183391|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value is for Severe episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.161
92149079|NCT00279201|184183391|SUPERIORITY_OR_OTHER|||||||0.178||95.0||||P-value is for Severe episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.178
92149080|NCT00279201|184183392|SUPERIORITY_OR_OTHER|||||||0.917||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.917
92149081|NCT00279201|184183392|SUPERIORITY_OR_OTHER|||||||0.754||95.0||||P-value for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.754
92149082|NCT00279201|184183392|SUPERIORITY_OR_OTHER|||||||0.42||95.0||||P-value is for Change.|ANCOVA|ANCOVA model with treatment, baseline, country, and TZD use.||||||0.420
92149083|NCT00279201|184183392|SUPERIORITY_OR_OTHER|||||||0.514||95.0||||P-value for Change.|ANCOVA|ANCOVA model with treatment, baseline, country, and TZD use.||||||0.514
92149084|NCT00279201|184183393|SUPERIORITY_OR_OTHER|||||||0.77||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.770
92149085|NCT00279201|184183393|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.566
92149086|NCT00279201|184183393|SUPERIORITY_OR_OTHER|||||||0.812||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.812
92149087|NCT00279201|184183393|SUPERIORITY_OR_OTHER|||||||0.99||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.990
92149088|NCT00279201|184183393|SUPERIORITY_OR_OTHER|||||||0.552||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.552
92149089|NCT00279201|184183393|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.179
92149090|NCT00279201|184183393|SUPERIORITY_OR_OTHER|||||||0.377||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.377
92149091|NCT00279201|184183393|SUPERIORITY_OR_OTHER|||||||0.271||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.271
92149092|NCT00916032|184183394|SUPERIORITY_OR_OTHER_LEGACY|||||||0.103||95.0|||||paired t-test done on the Log(AUC 0-48h)|||||||0.103
92149093|NCT00916032|184183395|SUPERIORITY_OR_OTHER_LEGACY|||||||0.162||95.0|||||paired t-test done on the Log(AUC 0-48h)|||||||0.162
92149094|NCT05559866|184183477|OTHER|Variance|Mean Difference (Final Values)|0.53|||<|0.01|TWO_SIDED|95.0|0.31|0.74|||t-test, 2 sided|||Scores from the proximal stomach, mid-stomach and distal stomach in the control and treatment groups were analyzed to determine if there was a significant difference between the mean difference in durability scores for the control and treatment groups.||.74|.31|<0.01
92149095|NCT05559866|184183478|OTHER|Variance|Mean Difference (Final Values)|19.125|STANDARD_ERROR_OF_MEAN|0.0000013||1|TWO_SIDED|95.0|19.125|19.125|||ANCOVA|||||19.125|19.125|1.00
92149096|NCT05559866|184183479|OTHER|Variance||||||0.757||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.757
92149097|NCT05559866|184183480|OTHER|Variance||||||0.271||||||Alpha = 0.05|ANCOVA|1 degree of freedom||||||0.271
92149098|NCT05559866|184183481|OTHER|Variance||||||0.29||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.29
92149099|NCT05559866|184183482|OTHER|Variance||||||0.72||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.72
92149100|NCT05559866|184183483|OTHER|Variance||||||0.41||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.41
92149101|NCT05559866|184183484|OTHER|Variance||||||0.53||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.53
92149102|NCT05559866|184183485|OTHER|Variance||||||0.91||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.91
92149103|NCT05559866|184183486|OTHER|||||||0.307|||||||Chi-squared|Chi-Square: 1.043478||||||0.307
92149104|NCT05559866|184183487|OTHER|Association|||||||||||||||||Unable to perform Chi-Square test as data in both categorical sets was identical - there is no variation to test.|||
92149105|NCT03881696|184183514|SUPERIORITY||Odds Ratio (OR)|27.853|||<|1e-05|TWO_SIDED|95.0|9.1274|111.2144||The a priori threshold for statistical significance was p \< 0.0001 at the interim analysis OR p \< 0.05 at the final analysis. Gatekeeping and multiple testing strategies were performed to ensure the overall family-wise error rate was ≤ 5%.|Fisher Exact||The odds ratio (OR) represents the odds of success among subjects randomized to omalizumab (numerator) compared to the odds of success among subjects randomized to placebo (denominator, reference group).|The null hypothesis is that the odds of 'success' (defined as consumption of a single dose of ≥600 mg of peanut protein without dose-limiting symptoms during the DBPCFC at the end of Stage 1) in omalizumab and placebo for omalizumab arms are equal. Participants missing the blinded OFC to peanut at the end of Stage 1 will be considered a 'failure' for the primary efficacy endpoint.||111.2144|9.1274|<0.00001
92149106|NCT05690776|184183611|SUPERIORITY||Mean Difference (Final Values)|12.1|STANDARD_DEVIATION|10.0|<|0.0001|TWO_SIDED|95.0|9.2|15.0|||paired t-test|||||15.0|9.2|<0.0001
92211921|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.59||0.0705|TWO_SIDED|95.0|-2.2|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 41||0.1|-2.2|0.0705
92211922|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.59||0.2405|TWO_SIDED|95.0|-1.9|0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 41||0.5|-1.9|0.2405
92149107|NCT05690776|184183612|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_DEVIATION|0.133|<|0.0001|TWO_SIDED|95.0|0.053|0.128|||paired t-test|||||0.128|0.053|<0.0001
92149108|NCT05690776|184183614|SUPERIORITY||Mean Difference (Final Values)|20.7|STANDARD_DEVIATION|13.2|<|0.0001|TWO_SIDED|95.0|16.9|24.5|||paired t-test|||||24.5|16.9|<0.0001
92149109|NCT00856167|184183620|SUPERIORITY||Regression coefficient|-0.6||||0.02|TWO_SIDED|||||Regression coefficient of TCM indicator variable, with change in CFP as the outcome, and controlling for start of treatment values: CFP, depression, gender, age, site|Regression, Linear|||Participants were allocated to one of the two treatments in order to balance baseline CFP, a depression score, age, gender, and site (Tucson or Portland).|"Since some participants could appear in both the 1st and 2nd period, the regression included random effects to account for correlation between measures on the same person.~In the 1st period, participants could either be allocated to TCM or SC, or if their pain scores were below 5, simply assigned to continuing self-care. Comparisons from this period were only between the allocated TCM and SC groups. In the 2nd period, those allocated or assigned to SC in the 1st period could be allocated to TCM or SC, or again assigned to continuing SC if their pain scores were too low. Comparisons from this period were only between the allocated TCM and SC groups."|||0.020
92149110|NCT01061333|184183623|SUPERIORITY_OR_OTHER||Difference in LS mean|16.22|||<|0.0001|TWO_SIDED|90.0|10.74|21.69||p-value not adjusted for simultaneous multiple comparisons|ANCOVA|||||21.69|10.74|<0.0001
92149111|NCT01061333|184183623|SUPERIORITY_OR_OTHER||Difference in LS Mean|15.51||||0.0001|TWO_SIDED|90.0|10.0|21.02||p-value not adjusted for simultaneous multiple comparisons|ANCOVA|||||21.02|10.00|0.0001
92149112|NCT01061333|184183623|SUPERIORITY_OR_OTHER||Difference in LS Mean|8.49||||0.0432|TWO_SIDED|90.0|1.78|15.2||p-value not adjusted for simultaneous multiple comparisons|ANCOVA|||||15.20|1.78|0.0432
92149113|NCT01061333|184183624|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|1.27||||0.043|TWO_SIDED|90.0|1.05|1.54||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.54|1.05|0.0430
92149114|NCT01061333|184183624|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|1.41||||0.01|TWO_SIDED|90.0|1.15|1.72||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.72|1.15|0.0100
92149115|NCT01061333|184183624|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|1.3||||0.086|TWO_SIDED|90.0|1.01|1.67||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.67|1.01|0.0860
92211923|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.58||0.3726|TWO_SIDED|95.0|-1.7|0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 41||0.6|-1.7|0.3726
92211924|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.58||0.0554|TWO_SIDED|95.0|-2.3|0.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 42||0.0|-2.3|0.0554
92211925|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.58||0.2386|TWO_SIDED|95.0|-1.8|0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 42||0.5|-1.8|0.2386
92211926|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.57||0.5147|TWO_SIDED|95.0|-1.5|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 42||0.8|-1.5|0.5147
92211927|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.58||0.1116|TWO_SIDED|95.0|-2.1|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 43||0.2|-2.1|0.1116
92211928|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.58||0.1266|TWO_SIDED|95.0|-2.0|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 43||0.3|-2.0|0.1266
92211929|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.57||0.3822|TWO_SIDED|95.0|-1.6|0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 43||0.6|-1.6|0.3822
92211930|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.59||0.072|TWO_SIDED|95.0|-2.2|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 44||0.1|-2.2|0.0720
92211931|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.58||0.3434|TWO_SIDED|95.0|-1.7|0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 44||0.6|-1.7|0.3434
92211932|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.58||0.5061|TWO_SIDED|95.0|-1.5|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 44||0.8|-1.5|0.5061
92211933|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.57||0.0366|TWO_SIDED|95.0|-2.3|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 45||-0.1|-2.3|0.0366
92211934|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.57||0.1181|TWO_SIDED|95.0|-2.0|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 45||0.2|-2.0|0.1181
92211935|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.56||0.7078|TWO_SIDED|95.0|-1.3|0.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 45||0.9|-1.3|0.7078
92211936|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.58||0.0868|TWO_SIDED|95.0|-2.1|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 46||0.1|-2.1|0.0868
92211937|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.57||0.1683|TWO_SIDED|95.0|-1.9|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 46||0.3|-1.9|0.1683
92211938|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.57||0.8909|TWO_SIDED|95.0|-1.2|1.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 46||1.1|-1.2|0.8909
92211939|NCT03816891|184324395|OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.59||0.0671|TWO_SIDED|95.0|-2.3|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 47||0.1|-2.3|0.0671
92211940|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.59||0.3325|TWO_SIDED|95.0|-1.7|0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 47||0.6|-1.7|0.3325
92211941|NCT03816891|184324395|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.59||0.8912|TWO_SIDED|95.0|-1.2|1.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 47||1.1|-1.2|0.8912
92211942|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.58||0.0612|TWO_SIDED|95.0|-2.2|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||0.1|-2.2|0.0612
92149116|NCT01061333|184183625|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.59|||<|0.0001|TWO_SIDED|90.0|0.5|0.7||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||0.70|0.50|<0.0001
92149117|NCT01061333|184183625|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.59|||<|0.0001|TWO_SIDED|90.0|0.49|0.7||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||0.70|0.49|<0.0001
92149118|NCT01061333|184183625|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.87||||0.2679|TWO_SIDED|90.0|0.69|1.08||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.08|0.69|0.2679
92149119|NCT01061333|184183626|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.9||||0.7622|TWO_SIDED|90.0|0.51|1.59||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.59|0.51|0.7622
92149120|NCT01061333|184183626|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.94||||0.8468|TWO_SIDED|90.0|0.53|1.65||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated on log scale||||1.65|0.53|0.8468
92149121|NCT01061333|184183626|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.91||||0.614|TWO_SIDED|90.0|0.65|1.26||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.26|0.65|0.6140
92149122|NCT01061333|184183627|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.67||||0.0006|TWO_SIDED|90.0|0.57|0.8||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||0.80|0.57|0.0006
92149123|NCT01061333|184183627|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.79||||0.0291|TWO_SIDED|90.0|0.67|0.94||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||0.94|0.67|0.0291
92149124|NCT01061333|184183627|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.92||||0.3738|TWO_SIDED|90.0|0.77|1.08||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.08|0.77|0.3738
92149125|NCT01061333|184183628|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.03||||0.7501||90.0|0.88|1.2||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.20|0.88|0.7501
92149126|NCT01061333|184183628|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.01||||0.941|TWO_SIDED|90.0|0.81|1.25||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.25|0.81|0.9410
92149127|NCT01061333|184183628|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|0.89||||0.1165|TWO_SIDED|90.0|0.79|1.01||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.01|0.79|0.1165
92149128|NCT01061333|184183629|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.03||||0.8616|TWO_SIDED|90.0|0.76|1.41||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.41|0.76|0.8616
92149129|NCT01061333|184183629|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.06||||0.7512|TWO_SIDED|90.0|0.77|1.45||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.45|0.77|0.7512
92149130|NCT01061333|184183629|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|0.99||||0.9723|TWO_SIDED|90.0|0.72|1.37||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.37|0.72|0.9723
92149131|NCT01061333|184183630|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.3||||0.1983|TWO_SIDED|90.0|0.92|1.82||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.82|0.92|0.1983
92149132|NCT01061333|184183630|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.57||||0.0872|TWO_SIDED|90.0|1.02|2.42||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||2.42|1.02|0.0872
92149133|NCT01061333|184183630|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.22||||0.2499|TWO_SIDED|90.0|0.91|1.62||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.62|0.91|0.2499
92149134|NCT00975221|184183632|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH) statistic|39.866|||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92149135|NCT00975221|184183633|SUPERIORITY_OR_OTHER||CMH statistic|40.953|||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92149136|NCT00975221|184183634|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-13.55|STANDARD_ERROR_OF_MEAN|1.34|<|0.001|TWO_SIDED|95.0|-16.23|-10.88|||ANCOVA|Analysis of covariance (ANCOVA) with baseline corrected serum calcium and baseline bisphosphonate included as covariates.|Treatment difference: cinacalcet-placebo|||-10.88|-16.23|<0.001
92149137|NCT00975221|184183635|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-22.79|STANDARD_ERROR_OF_MEAN|5.61|<|0.001|TWO_SIDED|95.0|-34.01|-11.57|||ANCOVA|Analysis of covariance (ANCOVA) with baseline corrected serum calcium and baseline bisphosphonate included as covariates.|Treatment difference: cinacalcet-placebo|||-11.57|-34.01|<0.001
92149138|NCT04022889|184183636|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.66 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|1.4|STANDARD_DEVIATION|7.7|||TWO_SIDED|95.0|-3.5|6.2|||||The mean treatment difference is defined as Test recovery - (0.66 × Control recovery).|||6.2|-3.5|
92149139|NCT04022889|184183636|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.66 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|-0.8|STANDARD_DEVIATION|8.9|||TWO_SIDED|95.0|-6.4|4.8|||||The mean treatment difference is defined as Test recovery - (0.66 × Control recovery).|||4.8|-6.4|
92149140|NCT04022889|184183636|OTHER|Variant 1-BEST = Test Variant 1 Endpoint - Test BEST Endpoint|Mean Difference (Final Values)|1.8|STANDARD_DEVIATION|10.2|||TWO_SIDED|95.0|-5.0|8.7|||||The mean treatment difference is defined as Test recovery - (0.66 × Control recovery).|||8.7|-5.0|
92149141|NCT04022889|184183636|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.66 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|5.9|||TWO_SIDED|95.0|-2.5|2.6|||||The mean treatment difference is defined as Test recovery - (0.66 × Control recovery).|||2.6|-2.5|
92149142|NCT04022889|184183637|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.58 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|28.9|STANDARD_DEVIATION|16.5|||TWO_SIDED|95.0|18.5|39.4|||||The mean treatment difference is defined as Test survival - (0.58 × Control survival).|||39.4|18.5|
92149143|NCT04022889|184183637|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.58 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|25.5|STANDARD_DEVIATION|25.3|||TWO_SIDED|95.0|9.5|41.6|||||The mean treatment difference is defined as Test survival - (0.58 × Control survival).|||41.6|9.5|
92149144|NCT04022889|184183637|EQUIVALENCE|Variant 1-BEST = Test Variant 1 Endpoint - Test BEST Endpoint|Mean Difference (Final Values)|1.6|STANDARD_DEVIATION|21.3|||TWO_SIDED|95.0|-12.7|15.8|||||The mean treatment difference is defined as Test survival - (0.58 × Control survival).|||15.8|-12.7|
92149145|NCT04022889|184183637|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.58 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|29.8|STANDARD_DEVIATION|18.5|||TWO_SIDED|95.0|21.8|37.8|||||The mean treatment difference is defined as Test survival - (0.58 × Control survival).|||37.8|21.8|
92149146|NCT02202434|184183685|NON_INFERIORITY|10.5% non-inferiority margin|Difference in Percentages|3.1||||0.0027|ONE_SIDED|97.5||8.32|||Farrington-Manning|||||8.32||0.0027
92149147|NCT02202434|184183686|NON_INFERIORITY|9.5% Non-Inferiority margin|Difference in Percentages|-10.1|||<|0.0001|ONE_SIDED|97.5||-4.41|||Farrington-Manning|||||-4.41||<0.0001
92149148|NCT02202434|184183686|SUPERIORITY||Difference in Percentages|-10.2||||0.0006|TWO_SIDED|95.0|-16.3|-4.0|||Chi-squared|||"Superiority analysis was only to be run if the non-inferiority analysis was met.~Superiority analysis was run on Intent to Treat Population."||-4.0|-16.3|0.0006
92149149|NCT02202434|184183687|SUPERIORITY||Difference in Percentages|-6.1|||<|0.0001|TWO_SIDED|95.0|-9.6|-2.6|||Chi-squared|||||-2.6|-9.6|<0.0001
92149150|NCT02207725|184183732|SUPERIORITY||Hodges-Lehman estimate of shift|-74.55|||<|0.0001|TWO_SIDED|95.0|-78.39|-66.28|||2-sided test exact Wilcoxon rank-sum tes|||||-66.28|-78.39|<0.0001
92149151|NCT02207725|184183732|SUPERIORITY||Hodges-Lehman estimate of shift|-59.5|||<|0.0001|TWO_SIDED|95.0|-64.1|-55.17|||2-sided test exact Wilcoxon rank-sum tes|||||-55.17|-64.10|<0.0001
92149152|NCT02207725|184183733|SUPERIORITY||Hodges-Lehman estimate of shift|-77.14|||<|0.0001|TWO_SIDED|95.0|-79.98|-74.04|||2-sided test exact Wilcoxon rank-sum tes|||||-74.04|-79.98|<0.0001
92149153|NCT02207725|184183735|SUPERIORITY||Hodges-Lehman estimate of shift|-7.09|||<|0.0001|TWO_SIDED|95.0|-8.86|-5.42|||2-sided test exact Wilcoxon rank-sum tes|||||-5.42|-8.86|<0.0001
92149154|NCT02207725|184183735|SUPERIORITY||Hodges-Lehman estimate of shift|-3.02||||0.0002|TWO_SIDED|95.0|-5.66|-1.25|||2-sided test exact Wilcoxon rank-sum tes|||||-1.25|-5.66|0.0002
92149155|NCT02207725|184183736|SUPERIORITY||Hodges-Lehman estimate of shift|1227.35|||<|0.0001|TWO_SIDED|95.0|984.01|1456.38|||2-sided test exact Wilcoxon rank-sum tes|||||1456.38|984.01|<0.0001
92149156|NCT02207725|184183736|SUPERIORITY||Hodges-Lehman estimate of shift|999.33|||<|0.0001|TWO_SIDED|95.0|819.5|1200.53|||2-sided test exact Wilcoxon rank-sum tes|||||1200.53|819.50|<0.0001
92149157|NCT03170375|184183757|SUPERIORITY|||||||0.28|||||||Regression, Linear|adjusted for baseline carotid-femoral pulse wave velocity||||||0.28
92149158|NCT03170375|184183758|SUPERIORITY|||||||0.6|||||||Regression, Linear|adjusted for baseline left ventricular mass index||||||0.60
92149159|NCT03170375|184183759|SUPERIORITY|||||||0.27|||||||Regression, Linear|adjusted for baseline global left ventricular longitudinal strain||||||0.27
92149160|NCT03170375|184183760|SUPERIORITY|||||||0.03|||||||Regression, Linear|adjusted for baseline carotid-femoral pulse wave velocity||||||0.03
92149161|NCT03170375|184183764|SUPERIORITY|||||||0.47|||||||generalized estimating equations|Model includes time (baseline, phase 2 month 1, phase 2 month 6), randomization assignment, and time x randomization assignment||||||0.47
92149162|NCT03170375|184183765|SUPERIORITY|||||||0.28|||||||generalized estimating equation|Model includes time (baseline, phase 2 month 1, phase 2 month 6), randomization assignment, and time x randomization assignment||||||0.28
92149163|NCT03170375|184183766|SUPERIORITY|||||||0.43|||||||generalized estimating equations|Model includes time (baseline, phase 2 month 1, phase 2 month 6), randomization assignment, and time x randomization assignment||||||0.43
92149164|NCT03170375|184183767|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||||||0.94
92149165|NCT03170375|184183768|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||||||0.90
92149166|NCT01691521|184183769|SUPERIORITY_OR_OTHER||Rate Ratio|0.53|||<|0.001|TWO_SIDED|95.0|0.4|0.72||Hochberg procedure with a gamma parameter of 1 used for multiplicity adjustment.|Negative binomial model||Number of exacerbations per year in the mepolizumab 75mg IV arm divided by the number of exacerbations per year in the placebo arm.|||0.72|0.40|<0.001
92149167|NCT01691521|184183769|SUPERIORITY_OR_OTHER||Rate Ratio|0.47|||<|0.001|TWO_SIDED|95.0|0.35|0.64||Hochberg procedure with a gamma parameter of 1 used for multiplicity adjustment.|Negative binomial model||Number of exacerbations per year in the mepolizumab 100 mg SC arm divided by the number of exacerbations per year in the placebo arm.|||0.64|0.35|<0.001
92149168|NCT00560612|184183781|SUPERIORITY|||||||0.7054|||||||t-test, 2 sided|||||||0.7054
92149169|NCT00560612|184183782|SUPERIORITY|||||||0.4583|||||||t-test, 2 sided|||||||0.4583
92149170|NCT00560612|184183783|SUPERIORITY|||||||0.7443|||||||t-test, 2 sided|||||||0.7443
92149171|NCT00560612|184183784|SUPERIORITY|||||||0.065|||||||t-test, 2 sided|||||||0.065
92149172|NCT00861601|184183798|SUPERIORITY_OR_OTHER|||||||0.0104||95.0||||Linearity. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0104
92149173|NCT00861601|184183798|SUPERIORITY_OR_OTHER|||||||0.0057||95.0||||Saturation at the medium dose. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0057
92149174|NCT00861601|184183798|SUPERIORITY_OR_OTHER|||||||0.0808||95.0||||Onset of response at the higher dose. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0808
92149175|NCT00861601|184183799|SUPERIORITY_OR_OTHER|||||||0.0116||95.0||||Linearity. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0116
92149176|NCT00861601|184183799|SUPERIORITY_OR_OTHER|||||||0.0066||95.0||||Saturation at the medium dose. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0066
92149177|NCT00861601|184183799|SUPERIORITY_OR_OTHER|||||||0.0846||95.0||||Onset of response at the higher dose. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0846
92149178|NCT04750655|184183825|OTHER|||||||1|||||||Kruskal-Wallis|||Used the Kruskal-Wallis (nonparametric one-way ANOVA), comparing all 3 arms. Note that for each individual, a single number (normalized read) is obtained.||||1
92149179|NCT00879996|184183830|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9134||||0.77|TWO_SIDED|95.0|0.4156|2.007|||Log Rank|||Null hypothesis: Methadone and buprenorphine treatment do not differ in treatment retention.||2.007|0.4156|0.77
92149180|NCT00879996|184183831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||<|0.043||95.0|||||ANOVA|||Null hypothesis: Methadone treatment is as effective as buprenorphine treatment in reducing pain.||||<0.043
92149181|NCT00879996|184183832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|0.0|<|0.665|TWO_SIDED|95.0|||||ANOVA|||null-hypothesis: methadone and buprenorphine treatment are equally effective in reducing self-reported functioning at 6 months.||||<0.665
92149182|NCT00879996|184183833|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|STANDARD_DEVIATION|0.0|<|0.039|TWO_SIDED|95.0|||||Fisher Exact|||Null hypothesis: methadone or buprenorphine treatment equally reduce illicit drug use.||||<0.039
92149183|NCT01148862|184183848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.2||||0.006|||||||ANCOVA|||||||0.006
92149184|NCT01148862|184183849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.015||95.0|||||ANCOVA|||||||0.015
92149185|NCT03815019|184183915|SUPERIORITY||Odds Ratio, log|7.2218|STANDARD_ERROR_OF_MEAN|13083.0|||TWO_SIDED||||||||Participants in the megestrol group who successfully transitioned to oral feeding.|Analysis conducted using Generalized Linear Mixed Models with a logit link within SAS Proc GLIMMIX to model the binary outcome of transitioned to oral feeding (y/n) defined as at least 90 percent of calories consumed orally. Fixed effects (dummy variables) will be entered for each site as described by McNeish and Stapleton (2016) to account for the clustering of the participants within sites. This will result in essentially, a logistic regression model with appropriate standard errors.||||
92149186|NCT03815019|184183915|SUPERIORITY||Odds Ratio, log|9.1544|STANDARD_ERROR_OF_MEAN|13083.0|||TWO_SIDED||||||||Participants in the placebo group who successfully transitioned to oral feeding.|Analysis conducted using Generalized Linear Mixed Models with a logit link within SAS Proc GLIMMIX to model the binary outcome of transitioned to oral feeding (y/n) defined as at least 90 percent of calories consumed orally. Fixed effects (dummy variables) will be entered for each site as described by McNeish and Stapleton (2016) to account for the clustering of the participants within sites. This will result in essentially, a logistic regression model with appropriate standard errors.||||
92149187|NCT03815019|184183917|SUPERIORITY||Mean Difference (Final Values)|0.08|||||TWO_SIDED||||||||Pr(\>F) = 0.7846, Nested model using site as a predictor|||||
92149188|NCT03815019|184183918|SUPERIORITY||Mean Difference (Final Values)|0.15|||||TWO_SIDED||||||||Pr(\>F) = 0.7025, Nested model using site as a predictor|||||
92149189|NCT03815019|184183919|SUPERIORITY||Mean Difference (Final Values)|0.18|||||TWO_SIDED||||||||Pr(\>F) = 0.6764, Nested model using site as a predictor|||||
92149190|NCT03815019|184183920|SUPERIORITY||Mean Difference (Final Values)|0.09|||||TWO_SIDED||||||||Pr(\>F) = 0.7649, Nested model using site as a predictor|||||
92149191|NCT03815019|184183921|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED||||||||Pr(\>F) = 0.9487, Nested model using site as a predictor|||||
92149192|NCT03815019|184183922|SUPERIORITY||Mean Difference (Final Values)|0.09|||||TWO_SIDED||||||||Pr(\>F) = 0.7669, Nested model using site as a predictor|||||
92149193|NCT03815019|184183923|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED||||||||Pr(\>F) = 0.5883, Nested model using site as a predictor|||||
92149194|NCT03815019|184183924|SUPERIORITY||Mean Difference (Final Values)|0.52|||||TWO_SIDED||||||||Pr(\>F) = 0.4749, Nested model using site as a predictor|||||
92149195|NCT03815019|184183925|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED||||||||Pr(\>F) = 0.8781, Nested model using site as a predictor|||||
92149196|NCT04270747|184183952|OTHER|A pre-specified similarity margin of (-3, 3) ETDRS letters was used to demonstrate clinical similarity for the mean change from Baseline in BCVA at Week 8.|Difference between means|0.1|||||TWO_SIDED|90.0|-1.1|1.3|||||Estimated using analysis of covariance (ANCOVA) model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 8.||1.3|-1.1|
92149197|NCT04270747|184183953|OTHER||Risk Difference (RD)|-2.1|||||TWO_SIDED|90.0|-5.2|2.2|||||Estimated using the stratified Newcombe confidence limits (with Mantel-Haenszel weights) adjusting for stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters).|Risk difference in percentage of participants who maintained vision at Week 52.||2.2|-5.2|
92149198|NCT04270747|184183953|OTHER||Risk Difference (RD)|-1.7|||||TWO_SIDED|90.0|-6.2|2.8|||||Estimated using the stratified Newcombe confidence limits (with Mantel-Haenszel weights) adjusting for stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters).|Risk difference in percentage of participants who maintained vision at Week 52.||2.8|-6.2|
92149199|NCT04270747|184183954|OTHER||Difference between means|-0.1|||||TWO_SIDED|90.0|-1.3|1.2|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 4.||1.2|-1.3|
92149200|NCT04270747|184183954|OTHER||Difference between means|-0.8|||||TWO_SIDED|90.0|-2.3|0.7|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 8.||0.7|-2.3|
92211943|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.58||0.1879|TWO_SIDED|95.0|-1.9|0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||0.4|-1.9|0.1879
92149201|NCT04270747|184183954|OTHER||Difference between means|-0.3|||||TWO_SIDED|90.0|-1.9|1.2|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 16.||1.2|-1.9|
92149202|NCT04270747|184183954|OTHER||Difference between means|0.4|||||TWO_SIDED|90.0|-1.3|2.1|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 24.||2.1|-1.3|
92149203|NCT04270747|184183954|OTHER||Difference between means|-1.3|||||TWO_SIDED|90.0|-3.1|0.5|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 32.||0.5|-3.1|
92149204|NCT04270747|184183954|OTHER||Difference between means|-0.5|||||TWO_SIDED|90.0|-2.3|1.4|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 40.||1.4|-2.3|
92149205|NCT04270747|184183954|OTHER||Difference between means|-1.2|||||TWO_SIDED|90.0|-3.2|0.8|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 48.||0.8|-3.2|
92149206|NCT04270747|184183954|OTHER||Difference between means|-1.5|||||TWO_SIDED|2.0|-3.4|0.5|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 52.||0.5|-3.4|
92149207|NCT04270747|184183954|OTHER||Difference between means|-1.5|||||TWO_SIDED|90.0|-3.0|0.0|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 4.||0.0|-3.0|
92149208|NCT04270747|184183954|OTHER||Difference between means|-1.9|||||TWO_SIDED|90.0|-3.6|-0.2|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 8.||-0.2|-3.6|
92149209|NCT04270747|184183954|OTHER||Difference between means|-0.3|||||TWO_SIDED|90.0|-2.1|1.5|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 16.||1.5|-2.1|
92149210|NCT04270747|184183954|OTHER||Difference between means|0.0|||||TWO_SIDED|90.0|-1.9|2.0|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 24.||2.0|-1.9|
92149211|NCT04270747|184183954|OTHER||Difference between means|-1.9|||||TWO_SIDED|90.0|-4.0|0.2|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 32.||0.2|-4.0|
92149212|NCT04270747|184183954|OTHER||Difference between means|0.0|||||TWO_SIDED|90.0|-2.2|2.2|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 40.||2.2|-2.2|
92149213|NCT04270747|184183954|OTHER||Difference between means|-0.6|||||TWO_SIDED|90.0|-2.9|1.7|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 48.||1.7|-2.9|
92149214|NCT04270747|184183954|OTHER||Difference between means|-1.2|||||TWO_SIDED|90.0|-3.5|1.1|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 52.||1.1|-3.5|
92149215|NCT04270747|184183955|OTHER||Risk Difference (RD)|-3.4|||||TWO_SIDED|90.0|-9.8|3.1|||||Estimated using the stratified Newcombe confidence limits (with Mantel-Haenszel weights) adjusting for stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters).|Risk difference in percentage of participants who gained at least 10 letters of vision at Week 8.||3.1|-9.8|
92149216|NCT04270747|184183956|OTHER||Risk Difference (RD)|-5.3|||||TWO_SIDED|90.0|-13.6|2.5|||||Estimated using the stratified Newcombe confidence limits (with Mantel-Haenszel weights) adjusting for stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters).|Risk difference in percentage of participants who gained at least 15 letters of vision at Week 52.||2.5|-13.6|
92149217|NCT04270747|184183956|OTHER||Risk Difference (RD)|-5.2|||||TWO_SIDED|90.0|-14.4|4.2|||||Estimated using the stratified Newcombe confidence limits (with Mantel-Haenszel weights) adjusting for stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters).|Risk difference in percentage of participants who gained at least 15 letters of vision at Week 52.||4.2|-14.4|
92149218|NCT04270747|184183957|OTHER||Difference between means|-0.048|||||TWO_SIDED|90.0|-0.734|0.638|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 8.||0.638|-0.734|
92149219|NCT04270747|184183957|OTHER||Difference between means|0.431|||||TWO_SIDED|90.0|-0.367|1.229|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 16.||1.229|-0.367|
92211944|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.58||0.7696|TWO_SIDED|95.0|-1.3|1.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||1.0|-1.3|0.7696
92149220|NCT04270747|184183957|OTHER||Difference between means|0.197|||||TWO_SIDED|90.0|-0.625|1.019|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 24.||1.019|-0.625|
92149221|NCT04270747|184183957|OTHER||Difference between means|0.156|||||TWO_SIDED|2.0|-0.561|0.872|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 52.||0.872|-0.561|
92149222|NCT04270747|184183957|OTHER||Difference between means|0.105|||||TWO_SIDED|90.0|-0.682|0.891|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 8.||0.891|-0.682|
92149223|NCT04270747|184183957|OTHER||Difference between means|0.245|||||TWO_SIDED|90.0|-0.667|1.158|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 16.||1.158|-0.667|
92149224|NCT04270747|184183957|OTHER||Difference between means|-0.116|||||TWO_SIDED|90.0|-1.065|0.834|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 24.||0.834|-1.065|
92149225|NCT04270747|184183957|OTHER||Difference between means|0.647|||||TWO_SIDED|90.0|-0.186|1.479|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 52.||1.479|-0.186|
92149226|NCT04270747|184183958|OTHER||Difference between means|6.2|||||TWO_SIDED|90.0|-5.6|17.9|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 4.||17.9|-5.6|
92149227|NCT04270747|184183958|OTHER||Difference between means|1.3|||||TWO_SIDED|90.0|-11.0|13.5|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 8.||13.5|-11.0|
92149228|NCT04270747|184183958|OTHER||Difference between means|1.9|||||TWO_SIDED|90.0|-12.9|16.6|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 16.||16.6|-12.9|
92149229|NCT04270747|184183958|OTHER||Difference between means|0.1|||||TWO_SIDED|90.0|-14.1|14.4|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 24.||14.4|-14.1|
92149230|NCT04270747|184183958|OTHER||Difference between means|-1.2|||||TWO_SIDED|90.0|-15.3|12.9|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 32.||12.9|-15.3|
92149231|NCT04270747|184183958|OTHER||Difference between means|0.2|||||TWO_SIDED|90.0|-13.7|14.1|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 40.||14.1|-13.7|
92149232|NCT04270747|184183958|OTHER||Difference between means|7.0|||||TWO_SIDED|90.0|-7.4|21.4|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 48.||21.4|-7.4|
92149233|NCT04270747|184183958|OTHER||Difference between means|1.6|||||TWO_SIDED|2.0|-9.3|12.5|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 52.||12.5|-9.3|
92149234|NCT04270747|184183958|OTHER||Difference between means|6.3|||||TWO_SIDED|90.0|-7.4|20.0|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 4.||20.0|-7.4|
92149235|NCT04270747|184183958|OTHER||Difference between means|-5.1|||||TWO_SIDED|90.0|-19.3|9.1|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 8.||9.1|-19.3|
92149236|NCT04270747|184183958|OTHER||Difference between means|-3.8|||||TWO_SIDED|90.0|-20.9|13.3|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 16.||13.3|-20.9|
92149237|NCT04270747|184183958|OTHER||Difference between means|-6.0|||||TWO_SIDED|90.0|-22.6|10.6|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 24.||10.6|-22.6|
92149238|NCT04270747|184183958|OTHER||Difference between means|-7.0|||||TWO_SIDED|90.0|-23.3|9.3|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 32.||9.3|-23.3|
92149239|NCT04270747|184183958|OTHER||Difference between means|-6.5|||||TWO_SIDED|90.0|-22.8|9.8|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 40.||9.8|-22.8|
92149240|NCT04270747|184183958|OTHER||Difference between means|-0.5|||||TWO_SIDED|90.0|-17.3|16.2|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 48.||16.2|-17.3|
92149241|NCT04270747|184183958|OTHER||Difference between means|2.3|||||TWO_SIDED|90.0|-10.5|15.0|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 52.||15.0|-10.5|
92149242|NCT02134925|184183995|SUPERIORITY|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||||||0.0004
92149243|NCT02134925|184184000|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
92149244|NCT02612064|184184082|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.18||||0.1575|TWO_SIDED|95.0|-0.442|0.072|||ANCOVA|Change from baseline in Schiff Sensitivity Score as response, treatment as a factor and baseline Schiff sensitivity as a covariate.|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|All statistical analyses were conducted under the null hypothesis (H0) of no difference between treatments versus the alternate hypothesis (H1) of a difference between treatments.||0.072|-0.442|0.1575
92149245|NCT02036645|184184098|SUPERIORITY_OR_OTHER||Slope|0.93|||||TWO_SIDED|95.0|0.82|1.04|||Regression, Linear||Since an Estimation approach was taken for the statistical analysis, no p-values were calculated|||1.04|0.82|
92149246|NCT02036645|184184098|SUPERIORITY_OR_OTHER||Slope|1.01|||||TWO_SIDED|95.0|0.71|1.3|||Regression, Linear||Since an Estimation approach was taken for the statistical analysis, no p-values were calculated|||1.30|0.71|
92149247|NCT02036645|184184099|SUPERIORITY_OR_OTHER||Slope|0.9|||||TWO_SIDED|95.0|0.81|0.98|||Regression, Linear||Since an Estimation approach was taken for the statistical analysis, no p-values were calculated|||0.98|0.81|
92149248|NCT02036645|184184099|SUPERIORITY_OR_OTHER||Slope|0.96|||||TWO_SIDED|95.0|0.65|1.27|||Regression, Linear||Since an Estimation approach was taken for the statistical analysis, no p-values were calculated|||1.27|0.65|
92149249|NCT00696384|184184121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.78|||<|0.001|TWO_SIDED|95.0|-9.78|-5.78||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Includes participants with both a double-blind baseline and postbaseline value.|ANCOVA|||||-5.78|-9.78|<0.001
92149250|NCT00696384|184184122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.38|||<|0.001|TWO_SIDED|95.0|-15.47|-9.29||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Includes participants with both a double-blind baseline and postbaseline value.|ANCOVA|||||-9.29|-15.47|<0.001
92149251|NCT04858802|184184156|SUPERIORITY||Mean Difference (Net)|4.19|STANDARD_DEVIATION|19.08||0.059|TWO_SIDED|95.0|-0.2|8.6||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area minus balloon sinus dilation alone mean FSO cross-sectional area|The null hypothesis was that there would no difference in FSO cross-sectional area between treatment and control sides at Day 45.||8.6|-0.2|0.059
92149252|NCT04858802|184184157|SUPERIORITY||Mean Difference (Final Values)|1.48|STANDARD_DEVIATION|12.98||0.328|TWO_SIDED|95.0|-1.5|4.5||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area change from baseline to Day 45 minus balloon sinus dilation alone mean FSO cross-sectional area change from baseline to Day 45|Day 45||4.5|-1.5|0.328
92149253|NCT04858802|184184157|SUPERIORITY||Mean Difference (Final Values)|-2.75|STANDARD_DEVIATION|12.64||0.063|TWO_SIDED|95.0|-5.7|0.2||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area change from baseline to Day 180 minus balloon sinus dilation alone mean FSO cross-sectional area change from baseline to Day 180|Day 180||0.2|-5.7|0.063
92149254|NCT04858802|184184158|SUPERIORITY||Mean Difference (Final Values)|50.94|STANDARD_DEVIATION|430.8||0.306|TWO_SIDED|95.0|-47.5|149.4||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSOT volume minus balloon sinus dilation alone mean FSOT volume|Day 45||149.4|-47.5|0.306
92149255|NCT04858802|184184158|SUPERIORITY||Mean Difference (Final Values)|-27.44|STANDARD_DEVIATION|413.22||0.567|TWO_SIDED|95.0|-122.5|67.6|||t-test, 2 sided|Paired; the threshold for statistical significance was p = 0.05.|Difference = PROPEL Contour Sinus Implant mean FSOT volume minus balloon sinus dilation alone mean FSOT volume|Day 180||67.6|-122.5|0.567
92149256|NCT04858802|184184159|SUPERIORITY||Mean Difference (Net)|0.48|STANDARD_DEVIATION|1.92||0.031|TWO_SIDED|95.0|0.0|0.9||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO minimum diameter minus balloon sinus dilation alone mean FSO minimum diameter|Day 45||0.9|0.0|0.031
92149257|NCT04858802|184184159|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|2.27||0.943|TWO_SIDED|95.0|-0.5|0.5||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO minimum diameter minus balloon sinus dilation alone mean FSO minimum diameter|Day 180||0.5|-0.5|0.943
92149258|NCT04858802|184184160|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|1.24||0.715|TWO_SIDED|95.0|-0.3|0.2|||t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean Zinreich's modified Lund-Mackay score for the frontal sinus minus balloon sinus dilation alone mean Zinreich's modified Lund-Mackay score for the frontal sinus|Day 45||0.2|-0.3|0.715
92149259|NCT04858802|184184160|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_DEVIATION|0.96||0.129|TWO_SIDED|95.0|0.0|0.4|||t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean Zinreich's modified Lund-Mackay score for the frontal sinus minus balloon sinus dilation alone mean Zinreich's modified Lund-Mackay score for the frontal sinus|Day 180||0.4|0.0|0.129
92149260|NCT04858802|184184161|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.28|3.6||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided|||Day 21||3.60|0.28|1.00
92149261|NCT04858802|184184161|SUPERIORITY||Odds Ratio (OR)|0.79||||0.453|TWO_SIDED|95.0|0.36|1.73||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided|||Day 45||1.73|0.36|0.453
92149262|NCT04858802|184184161|SUPERIORITY||Odds Ratio (OR)|0.71||||0.219|TWO_SIDED|95.0|0.31|1.61||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided|||Day 90||1.61|0.31|0.219
92149263|NCT04858802|184184161|SUPERIORITY||Odds Ratio (OR)|0.71||||0.289|TWO_SIDED|95.0|0.31|1.61|||t-test, 2 sided|||Day 180||1.61|0.31|0.289
92149264|NCT04858802|184184162|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|21.12||0.971|TWO_SIDED|95.0|-4.9|4.8||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area minus balloon sinus dilation alone mean FSO cross-sectional area|Day 180||4.8|-4.9|0.971
92149265|NCT04858802|184184163|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.56||1|TWO_SIDED|95.0|-0.1|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided|||Day 45|Difference = PROPEL Contour Sinus Implant mean Lund-Mackay score for the frontal sinus at Day 45 minus balloon sinus dilation alone mean Lund-Mackay score for the frontal sinus at Day 45|0.1|-0.1|1.00
92149266|NCT04858802|184184163|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|0.42||0.288|TWO_SIDED|95.0|0.0|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean Lund-Mackay score for the frontal sinus at Day 180 minus balloon sinus dilation alone mean Lund-Mackay score for the frontal sinus at Day 180|Day 180||0.1|0.0|0.288
92149267|NCT04858802|184184164|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.64||0.225|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean Lund-Mackay score for the frontal sinus at Day 45 minus balloon sinus dilation alone mean Lund-Mackay score for the frontal sinus at Day 45|Day 45||0.1|-0.2|0.225
92149268|NCT04858802|184184164|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.65||0.388|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean Lund-Mackay score for the frontal sinus at Day 180 minus balloon sinus dilation alone modified Lund-Mackay score for the frontal sinus at Day 180|Day 180||0.1|-0.2|0.388
92149269|NCT04858802|184184165|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.68||0.537|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the frontal recess/FSO minus balloon sinus dilation alone mean adhesion/scarring grade in the frontal recess/FSO|Day 21||0.1|-0.2|0.537
92149270|NCT04858802|184184165|SUPERIORITY||Mean Difference (Final Values)|-0.18|STANDARD_DEVIATION|0.54||0.01|TWO_SIDED|95.0|-0.3|0.0||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the frontal recess/FSO minus balloon sinus dilation alone mean adhesion/scarring grade in the frontal recess/FSO|Day 45||0.0|-0.3|0.010
92149271|NCT04858802|184184165|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.7||0.003|TWO_SIDED|95.0|-0.4|-0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the frontal recess/FSO minus balloon sinus dilation alone mean adhesion/scarring grade in the frontal recess/FSO|Day 90||-0.1|-0.4|0.003
92149272|NCT04858802|184184165|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|0.66||0.007|TWO_SIDED|95.0|-0.4|-0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the frontal recess/FSO minus balloon sinus dilation alone mean adhesion/scarring grade in the frontal recess/FSO|Day 180||-0.1|-0.4|0.007
92149273|NCT04858802|184184166|SUPERIORITY||Mean Difference (Final Values)|-2.46|STANDARD_DEVIATION|35.55||0.634|TWO_SIDED|95.0|-12.8|7.9||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean inflammation score in the frontal recess/FSO minus balloon sinus dilation alone mean inflammation score in the frontal recess/FSO|Day 21||7.9|-12.8|0.634
92149274|NCT04858802|184184166|SUPERIORITY||Mean Difference (Final Values)|-7.63|STANDARD_DEVIATION|29.04||0.048|TWO_SIDED|95.0|-15.2|-0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean inflammation score in the frontal recess/FSO minus balloon sinus dilation alone mean inflammation score in the frontal recess/FSO|Day 45||-0.1|-15.2|0.048
92149275|NCT04858802|184184166|SUPERIORITY||Mean Difference (Final Values)|-7.78|STANDARD_DEVIATION|28.79||0.028|TWO_SIDED|95.0|-14.7|-0.9||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean inflammation score in the frontal recess/FSO minus balloon sinus dilation alone mean inflammation score in the frontal recess/FSO|Day 90||-0.9|-14.7|0.028
92211945|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.6||0.1211|TWO_SIDED|95.0|-2.1|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 49||0.2|-2.1|0.1211
92149276|NCT04858802|184184166|SUPERIORITY||Mean Difference (Final Values)|-6.76|STANDARD_DEVIATION|27.99||0.041|TWO_SIDED|95.0|-13.2|-0.3||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean inflammation score in the frontal recess/FSO minus balloon sinus dilation alone mean inflammation score in the frontal recess/FSO|Day 180||-0.3|-13.2|0.041
92149277|NCT04858802|184184167|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.96||0.063|TWO_SIDED|95.0|-0.5|0.0||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polypoid edema grade in the frontal recess/FSO minus balloon sinus dilation alone mean polypoid edema grade in the frontal recess/FSO|Day 21||0.0|-0.5|0.063
92149278|NCT04858802|184184167|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_DEVIATION|0.77||0.015|TWO_SIDED|95.0|-0.4|-0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polypoid edema grade in the frontal recess/FSO minus balloon sinus dilation alone mean polypoid edema grade in the frontal recess/FSO|Day 45||-0.1|-0.4|0.015
92149279|NCT04858802|184184167|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.78||0.007|TWO_SIDED|95.0|-0.4|-0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polypoid edema grade in the frontal recess/FSO minus balloon sinus dilation alone mean polypoid edema grade in the frontal recess/FSO|Day 90||-0.1|-0.4|0.007
92149280|NCT04858802|184184167|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_DEVIATION|0.75||0.034|TWO_SIDED|95.0|-0.4|0.0||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polypoid edema grade in the frontal recess/FSO minus balloon sinus dilation alone mean polypoid edema grade in the frontal recess/FSO|Day 180||0.0|-0.4|0.034
92149281|NCT04858802|184184168|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_DEVIATION|0.65||0.83|TWO_SIDED|95.0|-0.2|0.2||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the ethmoid sinus minus balloon sinus dilation alone mean adhesion/scarring grade in the ethmoid sinus|Day 21||0.2|-0.2|0.830
92149282|NCT04858802|184184168|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.59||0.829|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the ethmoid sinus minus balloon sinus dilation alone mean adhesion/scarring grade in the ethmoid sinus|Day 45||0.1|-0.2|0.829
92149283|NCT04858802|184184168|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_DEVIATION|0.64||0.132|TWO_SIDED|95.0|-0.3|0.0||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the ethmoid sinus minus balloon sinus dilation alone mean adhesion/scarring grade in the ethmoid sinus|Day 90||0.0|-0.3|0.132
92149284|NCT04858802|184184168|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.79||0.31|TWO_SIDED|95.0|-0.3|0.1|||t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the ethmoid sinus minus balloon sinus dilation alone mean adhesion/scarring grade in the ethmoid sinus|Day 180||0.1|-0.3|0.310
92149285|NCT04858802|184184169|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.48||0.666|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polyp grade in the ethmoid sinus minus balloon sinus dilation alone mean polyp grade in the ethmoid sinus|Day 21||0.1|-0.2|0.666
92149286|NCT04858802|184184169|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.46||0.497|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polyp grade in the ethmoid sinus minus balloon sinus dilation alone mean polyp grade in the ethmoid sinus|Day 45||0.1|-0.2|0.497
92149287|NCT04858802|184184169|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_DEVIATION|0.5||0.235|TWO_SIDED|95.0|-0.2|0.0||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polyp grade in the ethmoid sinus minus balloon sinus dilation alone mean polyp grade in the ethmoid sinus|Day 90||0.0|-0.2|0.235
92149288|NCT04858802|184184169|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.41||0.677|TWO_SIDED|95.0|-0.1|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polyp grade in the ethmoid sinus minus balloon sinus dilation alone mean polyp grade in the ethmoid sinus|Day 180||0.1|-0.1|0.677
92149289|NCT04858802|184184170|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|2.48||0.868|TWO_SIDED|95.0|-0.7|0.6||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean CRS side-specific symptom total score minus balloon sinus dilation alone mean CRS side-specific symptom total score|Day 21||0.6|-0.7|0.868
92149290|NCT04858802|184184170|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_DEVIATION|2.3||0.823|TWO_SIDED|95.0|-0.5|0.7||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean CRS side-specific symptom total score minus balloon sinus dilation alone mean CRS side-specific symptom total score|Day 45||0.7|-0.5|0.823
92149291|NCT04858802|184184170|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|2.26||1|TWO_SIDED|95.0|-0.5|0.5||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean CRS side-specific symptom total score minus balloon sinus dilation alone mean CRS side-specific symptom total score|Day 90||0.5|-0.5|1.00
92149292|NCT04858802|184184170|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_DEVIATION|2.16||0.188|TWO_SIDED|95.0|-0.8|0.2||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean CRS side-specific symptom total score minus balloon sinus dilation alone mean CRS side-specific symptom total score|Day 180||0.2|-0.8|0.188
92149293|NCT04858802|184184174|SUPERIORITY||Mean Difference (Net)|6.28|STANDARD_DEVIATION|18.12||0.025|TWO_SIDED|95.0|0.8|11.7||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area minus balloon sinus dilation alone mean FSO cross-sectional area|||11.7|0.8|0.025
92149294|NCT04858802|184184175|SUPERIORITY||Mean Difference (Final Values)|3.98|STANDARD_DEVIATION|12.49||0.04|TWO_SIDED|95.0|0.2|7.8||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area change from baseline to Day 45 minus balloon sinus dilation alone mean FSO cross-sectional area change from baseline to Day 45|Day 45||7.8|0.2|0.04
92149295|NCT04858802|184184175|SUPERIORITY||Median Difference (Final Values)|-3.45|STANDARD_DEVIATION|13.02||0.09|TWO_SIDED|95.0|-7.5|0.6||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area change from baseline to Day 180 minus balloon sinus dilation alone mean FSO cross-sectional area change from baseline to Day 180|Day 180||0.6|-7.5|0.09
92149296|NCT04858802|184184176|SUPERIORITY||Mean Difference (Final Values)|61.54|STANDARD_DEVIATION|460.18||0.375|TWO_SIDED|95.0|-76.7|199.8||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSOT volume minus balloon sinus dilation alone mean FSOT volume|Day 45||199.8|-76.7|0.375
92149297|NCT04858802|184184176|SUPERIORITY||Mean Difference (Final Values)|-51.98|STANDARD_DEVIATION|434.64||0.432|TWO_SIDED|95.0|-184.1|80.2||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSOT volume minus balloon sinus dilation alone mean FSOT volume|Day 180||80.2|-184.1|0.432
92149298|NCT04858802|184184177|SUPERIORITY||Mean Difference (Final Values)|0.74|STANDARD_DEVIATION|2.13||0.023|TWO_SIDED|95.0|0.1|1.4||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO minimum diameter minus balloon sinus dilation alone mean FSO minimum diameter|Day 45||1.4|0.1|0.023
92149299|NCT04858802|184184177|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_DEVIATION|2.24||0.646|TWO_SIDED|95.0|-0.8|0.5||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO minimum diameter minus balloon sinus dilation alone mean FSO minimum diameter|Day 180||0.5|-0.8|0.646
92149300|NCT00332332|184184178|SUPERIORITY_OR_OTHER||Percentage of participants|73.5||||||95.0|67.2|79.1||||||||79.1|67.2|
92149301|NCT02670538|184184201|SUPERIORITY||Least Squares (LS) Mean Difference|-2.5||||0.0417|TWO_SIDED|95.0|-4.6|-0.4||Adjusted p-value: adjustment was performed using matched parallel gatekeeping procedure to control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6.|Contrast t-test|||||-0.4|-4.6|0.0417
92149302|NCT02670538|184184201|SUPERIORITY||LS Mean Difference|-1.8||||0.1051|TWO_SIDED|95.0|-3.9|0.4||Adjusted p-value: adjustment was performed using matched parallel gatekeeping procedure to control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6.|Contrast t-test|||||0.4|-3.9|0.1051
92149303|NCT02670538|184184202|SUPERIORITY||LS Mean Difference|-0.3||||0.0417|TWO_SIDED|95.0|-0.6|-0.1||Adjusted p-value: adjustment was performed using matched parallel gatekeeping procedure to control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6.|Contrast t-test|||||-0.1|-0.6|0.0417
92149304|NCT02670538|184184202|SUPERIORITY||LS Mean Difference|-0.2||||0.137|TWO_SIDED|95.0|-0.4|0.1||Adjusted p-value: adjustment was performed using matched parallel gatekeeping procedure to control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6.|Contrast t-test|||||0.1|-0.4|0.1370
92149305|NCT00708435|184184226|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was -(minus)10%. If the lower limit of the 2-sided 95% CI was \>-10%, then the null-hypothesis was rejected and it was concluded that Beriplex was non-inferior to plasma.~The sample size estimation assumed that hemostatic efficacy would be rated 'effective' in 85% of participants in the plasma group and 90% of participants in the Beriplex group. The power to show non-inferiority with these assumptions was greater than 80% for two treatment groups of 83 participants."|Difference in effective hemostasis (%)|7.1|||||TWO_SIDED|95.0|-5.8|19.9||Both primary endpoints had to be non-inferior for Beriplex to be non-inferior. No P-value is entered as non-inferiority was assessed via the 95% CI calculation for the difference (Beriplex minus plasma) in the % of subjects with effective hemostasis.|95% confidence interval|Farrington and Manning's method was used to estimate the 95% CI for the difference in the percentage of participants with hemostasis.|Both primary endpoints had to be non-inferior for Beriplex to be non-inferior. There is no P-value as non-inferiority was assessed via the 95% CI calculation for the difference (Beriplex minus plasma) in the % of subjects with effective hemostasis.|The analysis of hemostatic efficacy was via calculation of the 95% confidence interval (CI) for the difference (Beriplex minus plasma) in the percentage of participants with effective hemostasis.||19.9|-5.8|
92149306|NCT00708435|184184227|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was -(minus)10%. If the lower limit of the 2-sided 95% CI was \>-10%, then the null-hypothesis was rejected and it was concluded that Beriplex was non-inferior to plasma.~The sample size estimation assumed that hemostatic efficacy would be rated 'effective' in 85% of participants in the plasma group and 90% of participants in the Beriplex group. The power to show non-inferiority with these assumptions was greater than 80% for two treatment groups of 83 participants."|Difference in the decrease of INR (%)|52.6|||||TWO_SIDED|95.0|39.4|65.9||Both primary endpoints had to be non-inferior for Beriplex to be non-inferior. No P-value is entered as non-inferiority was assessed via the 95% CI for the difference (Beriplex minus plasma) in the % of subjects with a rapid decrease of the INR.|95% confidence interval|Farrington and Manning's method was used to estimate the 95% CI for the difference in the percentage of participants with a rapid decrease of the INR.|Both primary endpoints had to be non-inferior for Beriplex to be non-inferior. There is no P-value as non-inferiority was assessed via the 95% CI for the difference (Beriplex minus plasma) in the % of subjects with a rapid decrease of the INR.|The analysis of the percentage of participants who had a rapid decrease of the INR was via calculation of the 95% confidence interval (CI) for the difference (Beriplex minus plasma) in the percentage of participants with a rapid decrease of the INR.||65.9|39.4|
92149307|NCT04766086|184184246|OTHER||Risk difference|0.0||||||95.0|-3.8|3.7||||||||3.7|-3.8|
92149308|NCT04766086|184184247|OTHER||GMR|0.546|||||TWO_SIDED|95.0|0.405|0.736||||||GMR for Anti-PT Antibody: GMR for GBS6 + Tdap/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||0.736|0.405|
92149309|NCT04766086|184184247|OTHER||GMR|0.567|||||TWO_SIDED|95.0|0.455|0.707||||||GMR for Anti-FHA Antibody: GMR for GBS6 + Tdap/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||0.707|0.455|
92149310|NCT04766086|184184247|OTHER||GMR|0.588|||||TWO_SIDED|95.0|0.451|0.766||||||GMR for Anti-PRN Antibody: GMR for GBS6 + Tdap/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||0.766|0.451|
92149311|NCT04766086|184184248|OTHER||GMR|0.89|||||TWO_SIDED|95.0|0.38|2.089||||||GMR for serotype Ia: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||2.089|0.380|
92149312|NCT04766086|184184248|OTHER||GMR|1.149|||||TWO_SIDED|95.0|0.455|2.901||||||GMR for serotype Ib: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||2.901|0.455|
92149313|NCT04766086|184184248|OTHER||GMR|1.032||||||95.0|0.551|1.931||||||GMR for serotype II: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||1.931|0.551|
92149314|NCT04766086|184184248|OTHER||GMR|0.635|||||TWO_SIDED|95.0|0.303|1.329||||||GMR for serotype III: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||1.329|0.303|
92149315|NCT04766086|184184248|OTHER||GMR|1.474|||||TWO_SIDED|95.0|0.842|2.58||||||GMR for serotype IV: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||2.580|0.842|
92149316|NCT04766086|184184248|OTHER||GMR|0.559|||||TWO_SIDED|95.0|0.232|1.349||||||GMR for serotype V: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||1.349|0.232|
92149317|NCT01453348|184184268|NON_INFERIORITY_OR_EQUIVALENCE|(GMC anti-HAV + MenACWY-CRM / GMC anti-HAV)|Ratio of GMC|0.89|||||TWO_SIDED|95.0|0.6|1.32||The testing was done by assessing the confidence interval of the ratio|ANCOVA|The Analysis of variance (ANCOVA) model included vaccine group and center as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity was that the lower-limit of the two-sided 95% Confidence Interval (CI) on the ratio of Enzyme-linked Immunosorbent Assay (ELISA) GMCs (Hep A/B + MenACWY-CRM to Hep A/B) is below or equal to 0.5.||1.32|0.6|
92149318|NCT01453348|184184268|NON_INFERIORITY_OR_EQUIVALENCE|(GMC anti-HBsAg + MenACWY-CRM / GMC anti-HBsAg)|Ratio of GMC|1.19|||||TWO_SIDED|95.0|0.59|2.37||The testing was done by assessing the confidence interval of the ratio|ANCOVA|The ANCOVA model included vaccines group and center as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity was that the the lower-limit of the two-sided 95% CI on the ratio of ELISA GMCs (Hep A/B + MenACWY-CRM to Hep A/B) is below or equal to 0.5.||2.37|0.59|
92149319|NCT01674621|184184299|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0066||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.0066
92149320|NCT01674621|184184299|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.0005
92149321|NCT01674621|184184299|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||<0.0001
92149322|NCT01674621|184184299|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.93|||||TWO_SIDED|95.0|-5.555|-2.305|||||Mean difference of percent change of BMD from baseline to end-of-treatment between treatment groups (transdermal and SC injection).|||-2.305|-5.555|
92149323|NCT01674621|184184299|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.47|||||TWO_SIDED|95.0|-5.104|-1.837|||||Mean difference of percent change of BMD from baseline to end-of-treatment between treatment groups (transdermal and SC injection).|||-1.837|-5.104|
92149324|NCT01674621|184184299|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.856|||||TWO_SIDED|95.0|-4.519|-1.193|||||Mean difference of percent change of BMD from baseline to end-of-treatment between treatment groups (transdermal and SC injection).|||-1.193|-4.519|
92149325|NCT01674621|184184300|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0547||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.0547
92149326|NCT01674621|184184300|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.0056
92149327|NCT01674621|184184300|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0018||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.0018
92149328|NCT01674621|184184300|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.768|||||TWO_SIDED|95.0|-2.864|-0.672|||||Mean difference of percent change off BMD from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||-0.672|-2.864|
92211946|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.61||0.3908|TWO_SIDED|95.0|-1.7|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 49||0.7|-1.7|0.3908
92149329|NCT01674621|184184300|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.42|||||TWO_SIDED|95.0|-2.522|-0.318|||||Mean difference of percent change of BMD from baseline to end-of-treatment between treatment groups (transdermal and SC injection).|||-0.318|-2.522|
92149330|NCT01674621|184184300|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.247|||||TWO_SIDED|95.0|-2.368|-0.126|||||Mean difference of percent change of BMD from baseline to end-of-treatment between treatment groups (transdermal and SC injection).|||-0.126|-2.368|
92149331|NCT01674621|184184301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9493||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of treatment to each transdermal dose group versus placebo.||||||0.9493
92149332|NCT01674621|184184301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9806||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of treatment to each transdermal dose group versus placebo.||||||0.9806
92149333|NCT01674621|184184301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5191||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of treatment to each transdermal dose group versus placebo.||||||0.5191
92149334|NCT01674621|184184301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.564|||||TWO_SIDED|95.0|-2.168|1.04|||||Mean difference of percent change off BMD from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||1.040|-2.168|
92149335|NCT01674621|184184301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.483|||||TWO_SIDED|95.0|-2.115|1.15|||||Mean difference of percent change off BMD from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||1.150|-2.115|
92149336|NCT01674621|184184301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.517|||||TWO_SIDED|95.0|-1.106|2.139|||||Mean difference of percent change off BMD from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||2.139|-1.106|
92149337|NCT01674621|184184302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2549||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BSAP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.2549
92149338|NCT01674621|184184302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9115||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BSAP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.9115
92149339|NCT01674621|184184302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.239||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BSAP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.2390
92149340|NCT01674621|184184302|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.146|||||TWO_SIDED|95.0|-40.501|-3.79|||||Mean difference of percent change from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||-3.790|-40.501|
92149341|NCT01674621|184184302|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.086|||||TWO_SIDED|95.0|-30.543|6.372|||||Mean difference of percent change from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||6.372|-30.543|
92149342|NCT01674621|184184302|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.828|||||TWO_SIDED|95.0|-41.614|-4.041|||||Mean difference of percent change from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||-4.041|-41.614|
92149343|NCT01674621|184184303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1632||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PICP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.1632
92149344|NCT01674621|184184303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9834||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PICP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.9834
92149345|NCT01674621|184184303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2179||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PICP from baseline to end-of-treatment (EOT) to each transdermal dose group versus placebo.||||||0.2179
92149346|NCT01674621|184184303|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.541|||||TWO_SIDED|95.0|-48.557|-6.525|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-6.525|-48.557|
92149347|NCT01674621|184184303|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.702|||||TWO_SIDED|95.0|-39.835|2.43|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||2.430|-39.835|
92149348|NCT01674621|184184303|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.914|||||TWO_SIDED|95.0|-48.424|-5.405|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-5.405|-48.424|
92149349|NCT01674621|184184304|SUPERIORITY_OR_OTHER_LEGACY|||||||1||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of serum osteocalcin from baseline to EOT to each transdermal dose group versus placebo.||||||1.0000
92211947|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.61||0.8036|TWO_SIDED|95.0|-1.1|1.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 49||1.4|-1.1|0.8036
92397527|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1609|TWO_SIDED|95.0|0.75|5.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.81|0.75|0.1609
92397528|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.42||||0.093|TWO_SIDED|95.0|0.86|6.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.79|0.86|0.0930
92149350|NCT01674621|184184304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of serum osteocalcin from baseline to EOT to each transdermal dose group versus placebo.||||||0.1200
92149351|NCT01674621|184184304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9998||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of serum osteocalcin from baseline to EOT to each transdermal dose group versus placebo.||||||0.9998
92149352|NCT01674621|184184304|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-73.906|||||TWO_SIDED|95.0|-96.926|-50.886|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-50.886|-96.926|
92149353|NCT01674621|184184304|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-62.872|||||TWO_SIDED|95.0|-86.019|-39.725|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-39.725|-86.019|
92149354|NCT01674621|184184304|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-73.367|||||TWO_SIDED|95.0|-96.927|-49.807|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-49.807|-96.927|
92149355|NCT01674621|184184305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8569||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PINP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.8569
92149356|NCT01674621|184184305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6091||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PINP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.6091
92149357|NCT01674621|184184305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9999||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PINP from baseline to EOT to each transdermal dose group versus placebo.||||||0.9999
92149358|NCT01674621|184184305|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-110.398|||||TWO_SIDED|95.0|-156.966|-63.831|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-63.831|-156.966|
92149359|NCT01674621|184184305|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-96.115|||||TWO_SIDED|95.0|-142.94|-49.29|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-49.290|-142.940|
92149360|NCT01674621|184184305|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-104.418|||||TWO_SIDED|95.0|-152.079|-56.758|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-56.758|-152.079|
92149361|NCT01674621|184184306|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3483||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of CTXI from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.3483
92149362|NCT01674621|184184306|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6839||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of CTXI from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.6839
92149363|NCT01674621|184184306|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1067||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of CTXI from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.1067
92149364|NCT01674621|184184306|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-43.721|||||TWO_SIDED|95.0|-75.748|-11.694|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-11.694|-75.748|
92149365|NCT01674621|184184306|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-39.461|||||TWO_SIDED|95.0|-71.665|-7.257|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-7.257|-71.665|
92149366|NCT01674621|184184306|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-49.334|||||TWO_SIDED|95.0|-82.113|-16.555|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-16.555|-82.113|
92149367|NCT01725386|184184317|SUPERIORITY_OR_OTHER|||||||0.895|||||||Log Rank (Mantel-Cox)|||||||0.895
92149368|NCT01216163|184184324|SUPERIORITY_OR_OTHER||Least-squares (LS) mean difference|17.68|||<|0.001|TWO_SIDED|95.0|13.08|22.27||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR), gender and treatment-by-baseline PSR terms.|ANOVA|||Treatment difference(Ibuprofen sodium - placebo) and 95 percent(%) confidence interval(CI):based on LS means from Analysis of Variance(ANOVA).Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:Ibuprofen sodium(IBU Na) versus(vs) Placebo(PBO), IBU Na vs Acetaminophen(APAP), APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||22.27|13.08|<0.001
92149369|NCT01216163|184184324|SUPERIORITY_OR_OTHER||LS mean difference|4.96||||0.01|TWO_SIDED|95.0|1.21|8.72||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms.|ANOVA|||Treatment difference (Ibuprofen sodium - Acetaminophen) and 95% CI: based on LS means from ANOVA. Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:IBU Na vs PBO, IBU Na vs APAP, APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||8.72|1.21|0.010
92149370|NCT01216163|184184324|SUPERIORITY_OR_OTHER||LS mean difference|12.71|||<|0.001|TWO_SIDED|95.0|8.12|17.3||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms.|ANOVA|||Treatment difference (Acetaminophen - Placebo) and 95% CI: based on LS means from ANOVA. Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:IBU Na vs PBO, IBU Na vs APAP, APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||17.30|8.12|<0.001
92149371|NCT01216163|184184325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|11.84|||<|0.001|TWO_SIDED|95.0|5.13|27.36||p-value was calculated using PH model with treatment, baseline PSR and gender terms.|Proportional hazards model|||Hazard Ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model. Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:IBU Na vs PBO, IBU Na vs APAP, APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||27.36|5.13|<0.001
92149372|NCT01216163|184184325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.468|TWO_SIDED|95.0|0.81|1.6||p-value was calculated using PH model with treatment, baseline PSR and gender terms.|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model. Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:IBU Na vs PBO, IBU Na vs APAP, APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||1.60|0.81|0.468
92149373|NCT01216163|184184325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|10.43|||<|0.001|TWO_SIDED|95.0|4.5|24.17||p-value was calculated using PH model with treatment, baseline PSR and gender terms.|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model. Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:IBU Na vs PBO, IBU Na vs APAP, APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||24.17|4.50|<0.001
92149374|NCT01216163|184184326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|14.06|||<|0.001|TWO_SIDED|95.0|6.02|32.8||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||32.80|6.02|<0.001
92149375|NCT01216163|184184326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.323|TWO_SIDED|95.0|0.84|1.68||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.68|0.84|0.323
92397529|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|4.02||||0.0063|TWO_SIDED|95.0|1.48|10.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||10.91|1.48|0.0063
92397530|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.76||||0.2621|TWO_SIDED|95.0|0.65|4.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.74|0.65|0.2621
92397531|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.55||||0.0092|TWO_SIDED|95.0|1.37|9.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.21|1.37|0.0092
92397532|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|5.69||||0.0007|TWO_SIDED|95.0|2.09|15.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||15.48|2.09|0.0007
92397533|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|8.85|||<|0.0001|TWO_SIDED|95.0|3.08|25.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||25.43|3.08|<0.0001
92397534|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.5||||0.4259|TWO_SIDED|95.0|0.55|4.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.08|0.55|0.4259
92397535|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.13||||0.1334|TWO_SIDED|95.0|0.79|5.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.74|0.79|0.1334
92397536|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.39||||0.012|TWO_SIDED|95.0|1.31|8.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.77|1.31|0.0120
92397537|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.84||||0.2443|TWO_SIDED|95.0|0.66|5.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.10|0.66|0.2443
92397538|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|4.6||||0.0022|TWO_SIDED|95.0|1.73|12.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||12.25|1.73|0.0022
92397539|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|6.6||||0.0004|TWO_SIDED|95.0|2.35|18.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||18.58|2.35|0.0004
92397540|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|12.17|||<|0.0001|TWO_SIDED|95.0|4.05|36.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||36.63|4.05|<0.0001
92397541|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.7||||0.3101|TWO_SIDED|95.0|0.61|4.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.71|0.61|0.3101
92397542|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.65||||0.0116|TWO_SIDED|95.0|1.34|10.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.00|1.34|0.0116
92397543|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|4.15||||0.0045|TWO_SIDED|95.0|1.56|11.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||11.05|1.56|0.0045
92397544|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.55||||0.3505|TWO_SIDED|95.0|0.62|3.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.88|0.62|0.3505
92397545|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.28||||0.0739|TWO_SIDED|95.0|0.92|5.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.62|0.92|0.0739
92397546|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.19||||0.0163|TWO_SIDED|95.0|1.24|8.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||8.20|1.24|0.0163
92211948|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.63||0.0928|TWO_SIDED|95.0|-2.3|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 50||0.2|-2.3|0.0928
92211949|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.63||0.4439|TWO_SIDED|95.0|-1.7|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 50||0.8|-1.7|0.4439
92211950|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.63||0.7769|TWO_SIDED|95.0|-1.4|1.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 50||1.1|-1.4|0.7769
92211951|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.61||0.0742|TWO_SIDED|95.0|-2.3|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 51||0.1|-2.3|0.0742
92211952|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.63||0.1496|TWO_SIDED|95.0|-2.2|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 51||0.3|-2.2|0.1496
92211953|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.61||0.4901|TWO_SIDED|95.0|-1.6|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 51||0.8|-1.6|0.4901
92211954|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.62||0.0895|TWO_SIDED|95.0|-2.3|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||0.2|-2.3|0.0895
92211955|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.65||0.4572|TWO_SIDED|95.0|-1.8|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||0.8|-1.8|0.4572
92211956|NCT03816891|184324395|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.62||0.8157|TWO_SIDED|95.0|-1.1|1.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||1.4|-1.1|0.8157
92211957|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-14.5|STANDARD_ERROR_OF_MEAN|3.57|<|0.0001|TWO_SIDED|95.0|-21.6|-7.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 1||-7.5|-21.6|<0.0001
92211958|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|3.56||0.0368|TWO_SIDED|95.0|-14.5|-0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 1||-0.5|-14.5|0.0368
92211959|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|3.58||0.17|TWO_SIDED|95.0|-12.0|2.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 1||2.1|-12.0|0.1700
92211960|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-25.2|STANDARD_ERROR_OF_MEAN|5.0|<|0.0001|TWO_SIDED|95.0|-35.1|-15.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-15.3|-35.1|<0.0001
92273394|NCT01872689|184449209|SUPERIORITY||Median Difference (Final Values)|0.54171|STANDARD_ERROR_OF_MEAN|1.05201||0.6075|TWO_SIDED|95.0|-1.54|2.62|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||2.62|-1.54|0.6075
92397547|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|8.49||||0.0001|TWO_SIDED|95.0|2.81|25.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||25.64|2.81|0.0001
92211961|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.9|STANDARD_ERROR_OF_MEAN|4.96||0.0056|TWO_SIDED|95.0|-23.7|-4.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-4.1|-23.7|0.0056
92211962|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.5|STANDARD_ERROR_OF_MEAN|4.99||0.0076|TWO_SIDED|95.0|-23.3|-3.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-3.6|-23.3|0.0076
92211963|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-32.0|STANDARD_ERROR_OF_MEAN|5.33|<|0.0001|TWO_SIDED|95.0|-42.5|-21.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 3||-21.5|-42.5|<0.0001
92211964|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-17.2|STANDARD_ERROR_OF_MEAN|5.32||0.0014|TWO_SIDED|95.0|-27.7|-6.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 3||-6.7|-27.7|0.0014
92397548|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8358|TWO_SIDED|95.0|0.35|2.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||2.35|0.35|0.8358
92397549|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.18||||0.1006|TWO_SIDED|95.0|0.86|5.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.52|0.86|0.1006
92397550|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.53||||0.0484|TWO_SIDED|95.0|1.01|6.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.34|1.01|0.0484
92397551|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6492|TWO_SIDED|95.0|0.5|3.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.08|0.50|0.6492
92397552|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.74||||0.223|TWO_SIDED|95.0|0.71|4.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.27|0.71|0.2230
92397553|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.43||||0.0126|TWO_SIDED|95.0|1.3|9.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||9.02|1.30|0.0126
92397554|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|5.56||||0.0014|TWO_SIDED|95.0|1.94|15.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||15.98|1.94|0.0014
92397555|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|0.7||||0.4713|TWO_SIDED|95.0|0.27|1.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||1.83|0.27|0.4713
92397556|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1397|TWO_SIDED|95.0|0.79|5.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.12|0.79|0.1397
92397557|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.75||||0.2272|TWO_SIDED|95.0|0.71|4.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.34|0.71|0.2272
92397558|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.83||||0.2024|TWO_SIDED|95.0|0.72|4.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.64|0.72|0.2024
92397559|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.9||||0.1716|TWO_SIDED|95.0|0.76|4.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.79|0.76|0.1716
92397560|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.2||||0.0199|TWO_SIDED|95.0|1.2|8.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.51|1.20|0.0199
92397561|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|8.45||||0.0002|TWO_SIDED|95.0|2.8|25.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||25.54|2.80|0.0002
92397562|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.47||||0.4243|TWO_SIDED|95.0|0.57|3.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.77|0.57|0.4243
92397563|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.99||||0.1507|TWO_SIDED|95.0|0.78|5.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.09|0.78|0.1507
92211965|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-11.7|STANDARD_ERROR_OF_MEAN|5.35||0.0296|TWO_SIDED|95.0|-22.3|-1.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 3||-1.2|-22.3|0.0296
92211966|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-35.9|STANDARD_ERROR_OF_MEAN|5.54|<|0.0001|TWO_SIDED|95.0|-46.9|-25.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-25.0|-46.9|<0.0001
92211967|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-20.6|STANDARD_ERROR_OF_MEAN|5.5||0.0002|TWO_SIDED|95.0|-31.4|-9.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-9.7|-31.4|0.0002
92149376|NCT01216163|184184326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|11.81|||<|0.001|TWO_SIDED|95.0|5.06|27.59||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||27.59|5.06|<0.001
92149377|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.53|||<|0.001|TWO_SIDED|95.0|0.24|0.83||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.83|0.24|<0.001
92149378|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.2||||0.101|TWO_SIDED|95.0|-0.04|0.44||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.44|-0.04|0.101
92149379|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.33||||0.029|TWO_SIDED|95.0|0.03|0.62||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.62|0.03|0.029
92149380|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.44|||<|0.001|TWO_SIDED|95.0|1.01|1.87||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.87|1.01|<0.001
92149381|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.24||||0.178|TWO_SIDED|95.0|-0.11|0.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.59|-0.11|0.178
92149382|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.2|||<|0.001|TWO_SIDED|95.0|0.77|1.63||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.63|0.77|<0.001
92149383|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|2.07|||<|0.001|TWO_SIDED|95.0|1.64|2.49||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.49|1.64|<0.001
92211968|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-7.7|STANDARD_ERROR_OF_MEAN|5.53||0.1652|TWO_SIDED|95.0|-18.6|3.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||3.2|-18.6|0.1652
92149384|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.44||||0.014|TWO_SIDED|95.0|0.09|0.78||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.78|0.09|0.014
92149385|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.63|||<|0.001|TWO_SIDED|95.0|1.21|2.06||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.06|1.21|<0.001
92211969|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-38.2|STANDARD_ERROR_OF_MEAN|5.52|<|0.0001|TWO_SIDED|95.0|-49.1|-27.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 5||-27.3|-49.1|<0.0001
92211970|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-24.5|STANDARD_ERROR_OF_MEAN|5.47|<|0.0001|TWO_SIDED|95.0|-35.3|-13.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 5||-13.7|-35.3|<0.0001
92149386|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|2.25|||<|0.001|TWO_SIDED|95.0|1.79|2.7||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.70|1.79|<0.001
92149387|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.37||||0.055|TWO_SIDED|95.0|-0.01|0.74||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.74|-0.01|0.055
92211971|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.6|STANDARD_ERROR_OF_MEAN|5.51||0.0146|TWO_SIDED|95.0|-24.5|-2.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 5||-2.7|-24.5|0.0146
92149388|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.88|||<|0.001|TWO_SIDED|95.0|1.43|2.34||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.34|1.43|<0.001
92149389|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|2.31|||<|0.001|TWO_SIDED|95.0|1.8|2.83||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.83|1.80|<0.001
92149390|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.51||||0.019|TWO_SIDED|95.0|0.08|0.93||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.93|0.08|0.019
92149391|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.81|||<|0.001|TWO_SIDED|95.0|1.29|2.32||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.32|1.29|<0.001
92149392|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|2.1|||<|0.001|TWO_SIDED|95.0|1.53|2.66||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.66|1.53|<0.001
92149393|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.59||||0.013|TWO_SIDED|95.0|0.13|1.05||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.05|0.13|0.013
92149394|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.51|||<|0.001|TWO_SIDED|95.0|0.95|2.07||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.07|0.95|<0.001
92149395|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.97|||<|0.001|TWO_SIDED|95.0|1.39|2.56||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.56|1.39|<0.001
92149396|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.63||||0.01|TWO_SIDED|95.0|0.15|1.1||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.10|0.15|0.010
92211972|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-39.0|STANDARD_ERROR_OF_MEAN|5.66|<|0.0001|TWO_SIDED|95.0|-50.2|-27.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 6||-27.8|-50.2|<0.0001
92149397|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.35|||<|0.001|TWO_SIDED|95.0|0.77|1.93||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.93|0.77|<0.001
92149398|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.54|||<|0.001|TWO_SIDED|95.0|0.95|2.14||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.14|0.95|<0.001
92149399|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.42||||0.088|TWO_SIDED|95.0|-0.06|0.91||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.91|-0.06|0.088
92149400|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.12|||<|0.001|TWO_SIDED|95.0|0.52|1.71||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.71|0.52|<0.001
92149401|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|1.46|||<|0.001|TWO_SIDED|95.0|0.85|2.07||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.07|0.85|<0.001
92211973|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-27.7|STANDARD_ERROR_OF_MEAN|5.59|<|0.0001|TWO_SIDED|95.0|-38.8|-16.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 6||-16.7|-38.8|<0.0001
92149402|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.47||||0.061|TWO_SIDED|95.0|-0.02|0.97||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.97|-0.02|0.061
92149403|NCT01216163|184184327|SUPERIORITY_OR_OTHER||LS mean difference|0.98||||0.002|TWO_SIDED|95.0|0.38|1.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.59|0.38|0.002
92149404|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.31|||<|0.001|TWO_SIDED|95.0|0.13|0.49||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.49|0.13|<0.001
92149405|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.06||||0.387|TWO_SIDED|95.0|-0.08|0.21||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.21|-0.08|0.387
92149406|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.25||||0.007|TWO_SIDED|95.0|0.07|0.42||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.42|0.07|0.007
92149407|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.89|||<|0.001|TWO_SIDED|95.0|0.64|1.15||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.15|0.64|<0.001
92149408|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.25||||0.019|TWO_SIDED|95.0|0.04|0.46||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.46|0.04|0.019
92149409|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.64|||<|0.001|TWO_SIDED|95.0|0.38|0.9||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.90|0.38|<0.001
92149410|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|1.3|||<|0.001|TWO_SIDED|95.0|1.01|1.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.59|1.01|<0.001
92211974|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-17.5|STANDARD_ERROR_OF_MEAN|5.62||0.0022|TWO_SIDED|95.0|-28.5|-6.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 6||-6.4|-28.5|0.0022
92149411|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.33||||0.006|TWO_SIDED|95.0|0.09|0.57||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.57|0.09|0.006
92149412|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.97|||<|0.001|TWO_SIDED|95.0|0.68|1.26||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.26|0.68|<0.001
92149413|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|1.43|||<|0.001|TWO_SIDED|95.0|1.12|1.74||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.74|1.12|<0.001
92149414|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.32||||0.014|TWO_SIDED|95.0|0.07|0.58||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.58|0.07|0.014
92211975|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-39.1|STANDARD_ERROR_OF_MEAN|5.92|<|0.0001|TWO_SIDED|95.0|-50.8|-27.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 7||-27.4|-50.8|<0.0001
92211976|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-30.3|STANDARD_ERROR_OF_MEAN|5.84|<|0.0001|TWO_SIDED|95.0|-41.8|-18.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 7||-18.8|-41.8|<0.0001
92149415|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|1.11|||<|0.001|TWO_SIDED|95.0|0.8|1.42||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.42|0.80|<0.001
92149416|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|1.43|||<|0.001|TWO_SIDED|95.0|1.09|1.78||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.78|1.09|<0.001
92149417|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.31||||0.03|TWO_SIDED|95.0|0.03|0.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.59|0.03|0.030
92149418|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|1.12|||<|0.001|TWO_SIDED|95.0|0.78|1.46||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.46|0.78|<0.001
92149419|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|1.29|||<|0.001|TWO_SIDED|95.0|0.91|1.66||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.66|0.91|<0.001
92149420|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.42||||0.007|TWO_SIDED|95.0|0.12|0.73||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.73|0.12|0.007
92149421|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.87|||<|0.001|TWO_SIDED|95.0|0.49|1.24||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.24|0.49|<0.001
92149422|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|1.27|||<|0.001|TWO_SIDED|95.0|0.89|1.65||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.65|0.89|<0.001
92149423|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.45||||0.004|TWO_SIDED|95.0|0.15|0.76||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.76|0.15|0.004
92149424|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.82|||<|0.001|TWO_SIDED|95.0|0.44|1.19||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.19|0.44|<0.001
92149425|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.92|||<|0.001|TWO_SIDED|95.0|0.54|1.31||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.31|0.54|<0.001
92149426|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.28||||0.084|TWO_SIDED|95.0|-0.04|0.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.59|-0.04|0.084
92149427|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.65||||0.001|TWO_SIDED|95.0|0.27|1.03||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.03|0.27|0.001
92149428|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.93|||<|0.001|TWO_SIDED|95.0|0.54|1.32||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.32|0.54|<0.001
92149429|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.38||||0.02|TWO_SIDED|95.0|0.06|0.69||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.69|0.06|0.020
92211977|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-16.1|STANDARD_ERROR_OF_MEAN|5.87||0.0069|TWO_SIDED|95.0|-27.7|-4.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 7||-4.5|-27.7|0.0069
92211978|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-40.1|STANDARD_ERROR_OF_MEAN|6.09|<|0.0001|TWO_SIDED|95.0|-52.1|-28.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-28.0|-52.1|<0.0001
92149430|NCT01216163|184184328|SUPERIORITY_OR_OTHER||LS mean difference|0.56||||0.005|TWO_SIDED|95.0|0.17|0.94||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.94|0.17|0.005
92149431|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|0.84|||<|0.001|TWO_SIDED|95.0|0.4|1.28||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.28|0.40|<0.001
92149432|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|0.27||||0.148|TWO_SIDED|95.0|-0.1|0.63||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.63|-0.10|0.148
92149433|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|0.57||||0.011|TWO_SIDED|95.0|0.13|1.02||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.02|0.13|0.011
92149434|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|2.34|||<|0.001|TWO_SIDED|95.0|1.68|2.99||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.99|1.68|<0.001
92149435|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|0.49||||0.071|TWO_SIDED|95.0|-0.04|1.03||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.03|-0.04|0.071
92149436|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|1.84|||<|0.001|TWO_SIDED|95.0|1.19|2.5||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.50|1.19|<0.001
92149437|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|3.37|||<|0.001|TWO_SIDED|95.0|2.67|4.06||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.06|2.67|<0.001
92211979|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-30.4|STANDARD_ERROR_OF_MEAN|6.01|<|0.0001|TWO_SIDED|95.0|-42.3|-18.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-18.5|-42.3|<0.0001
92211980|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-14.3|STANDARD_ERROR_OF_MEAN|6.05||0.0194|TWO_SIDED|95.0|-26.2|-2.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-2.3|-26.2|0.0194
92149438|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|0.77||||0.008|TWO_SIDED|95.0|0.2|1.33||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.33|0.20|0.008
92211981|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-40.6|STANDARD_ERROR_OF_MEAN|6.35|<|0.0001|TWO_SIDED|95.0|-53.2|-28.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 9||-28.1|-53.2|<0.0001
92149439|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|2.6|||<|0.001|TWO_SIDED|95.0|1.91|3.3||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.30|1.91|<0.001
92211982|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-32.5|STANDARD_ERROR_OF_MEAN|6.27|<|0.0001|TWO_SIDED|95.0|-44.9|-20.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 9||-20.1|-44.9|<0.0001
92211983|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-17.8|STANDARD_ERROR_OF_MEAN|6.3||0.0054|TWO_SIDED|95.0|-30.2|-5.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 9||-5.3|-30.2|0.0054
92211984|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-40.7|STANDARD_ERROR_OF_MEAN|6.46|<|0.0001|TWO_SIDED|95.0|-53.4|-27.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 10||-27.9|-53.4|<0.0001
92211985|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-35.1|STANDARD_ERROR_OF_MEAN|6.41|<|0.0001|TWO_SIDED|95.0|-47.8|-22.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 10||-22.5|-47.8|<0.0001
92149440|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|3.68|||<|0.001|TWO_SIDED|95.0|2.92|4.43||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.43|2.92|<0.001
92149441|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|0.69||||0.028|TWO_SIDED|95.0|0.07|1.3||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.30|0.07|0.028
92149442|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|2.99|||<|0.001|TWO_SIDED|95.0|2.24|3.74||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.74|2.24|<0.001
92149443|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|3.75|||<|0.001|TWO_SIDED|95.0|2.9|4.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.59|2.90|<0.001
92149444|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|0.82||||0.02|TWO_SIDED|95.0|0.13|1.51||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.51|0.13|0.020
92149445|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|2.93|||<|0.001|TWO_SIDED|95.0|2.09|3.77||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.77|2.09|<0.001
92149446|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|3.38|||<|0.001|TWO_SIDED|95.0|2.46|4.3||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.30|2.46|<0.001
92149447|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|1.01||||0.009|TWO_SIDED|95.0|0.26|1.76||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.76|0.26|0.009
92149448|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|2.38|||<|0.001|TWO_SIDED|95.0|1.46|3.3||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.30|1.46|<0.001
92149449|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|3.24|||<|0.001|TWO_SIDED|95.0|2.3|4.19||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.19|2.30|<0.001
92149450|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|1.08||||0.006|TWO_SIDED|95.0|0.31|1.85||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.85|0.31|0.006
92149451|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|2.16|||<|0.001|TWO_SIDED|95.0|1.22|3.1||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.10|1.22|<0.001
92149452|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|2.47|||<|0.001|TWO_SIDED|95.0|1.51|3.43||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.43|1.51|<0.001
92149453|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|0.7||||0.08|TWO_SIDED|95.0|-0.09|1.49||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.49|-0.09|0.080
92211986|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-21.8|STANDARD_ERROR_OF_MEAN|6.42||0.0009|TWO_SIDED|95.0|-34.4|-9.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 10||-9.1|-34.4|0.0009
92149454|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|1.77|||<|0.001|TWO_SIDED|95.0|0.81|2.73||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.73|0.81|<0.001
92149455|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|2.39|||<|0.001|TWO_SIDED|95.0|1.41|3.37||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.37|1.41|<0.001
92149456|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|0.85||||0.037|TWO_SIDED|95.0|0.05|1.65||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.65|0.05|0.037
92149457|NCT01216163|184184329|SUPERIORITY_OR_OTHER||LS mean difference|1.54||||0.002|TWO_SIDED|95.0|0.57|2.52||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.52|0.57|0.002
92149458|NCT01216163|184184330|SUPERIORITY_OR_OTHER||LS mean difference|2.38|||<|0.001|TWO_SIDED|95.0|1.88|2.88||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.88|1.88|<0.001
92149459|NCT01216163|184184330|SUPERIORITY_OR_OTHER||LS mean difference|0.56||||0.007|TWO_SIDED|95.0|0.15|0.97||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.97|0.15|0.007
92149460|NCT01216163|184184330|SUPERIORITY_OR_OTHER||LS mean difference|1.82|||<|0.001|TWO_SIDED|95.0|1.32|2.32||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.32|1.32|<0.001
92149461|NCT01216163|184184330|SUPERIORITY_OR_OTHER||LS mean difference|3.67|||<|0.001|TWO_SIDED|95.0|2.85|4.49||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.49|2.85|<0.001
92149462|NCT01216163|184184330|SUPERIORITY_OR_OTHER||LS mean difference|0.98||||0.004|TWO_SIDED|95.0|0.31|1.66||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.66|0.31|0.004
92149463|NCT01216163|184184330|SUPERIORITY_OR_OTHER||LS mean difference|2.69|||<|0.001|TWO_SIDED|95.0|1.87|3.51||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.51|1.87|<0.001
92149464|NCT01216163|184184330|SUPERIORITY_OR_OTHER||LS mean difference|6.8|||<|0.001|TWO_SIDED|95.0|4.96|8.64||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-6: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||8.64|4.96|<0.001
92149465|NCT01216163|184184330|SUPERIORITY_OR_OTHER||LS mean difference|2.09||||0.007|TWO_SIDED|95.0|0.59|3.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-6: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.59|0.59|0.007
92149466|NCT01216163|184184330|SUPERIORITY_OR_OTHER||LS mean difference|4.71|||<|0.001|TWO_SIDED|95.0|2.87|6.54||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-6: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||6.54|2.87|<0.001
92149467|NCT01216163|184184331|SUPERIORITY_OR_OTHER||LS mean difference|3.81|||<|0.001|TWO_SIDED|95.0|3.05|4.57||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.57|3.05|<0.001
92149468|NCT01216163|184184331|SUPERIORITY_OR_OTHER||LS mean difference|0.76||||0.016|TWO_SIDED|95.0|0.14|1.38||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.38|0.14|0.016
92149469|NCT01216163|184184331|SUPERIORITY_OR_OTHER||LS mean difference|3.04|||<|0.001|TWO_SIDED|95.0|2.29|3.8||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.80|2.29|<0.001
92211987|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-40.9|STANDARD_ERROR_OF_MEAN|6.66|<|0.0001|TWO_SIDED|95.0|-54.1|-27.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 11||-27.8|-54.1|<0.0001
92211988|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-35.2|STANDARD_ERROR_OF_MEAN|6.64|<|0.0001|TWO_SIDED|95.0|-48.3|-22.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 11||-22.1|-48.3|<0.0001
92211989|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-18.2|STANDARD_ERROR_OF_MEAN|6.61||0.0067|TWO_SIDED|95.0|-31.2|-5.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 11||-5.1|-31.2|0.0067
92211990|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-41.3|STANDARD_ERROR_OF_MEAN|6.64|<|0.0001|TWO_SIDED|95.0|-54.5|-28.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-28.2|-54.5|<0.0001
92211991|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-32.2|STANDARD_ERROR_OF_MEAN|6.63|<|0.0001|TWO_SIDED|95.0|-45.3|-19.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-19.1|-45.3|<0.0001
92211992|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-14.6|STANDARD_ERROR_OF_MEAN|6.6||0.0279|TWO_SIDED|95.0|-27.6|-1.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-1.6|-27.6|0.0279
92211993|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-38.7|STANDARD_ERROR_OF_MEAN|6.7|<|0.0001|TWO_SIDED|95.0|-51.9|-25.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 13||-25.4|-51.9|<0.0001
92211994|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-33.7|STANDARD_ERROR_OF_MEAN|6.69|<|0.0001|TWO_SIDED|95.0|-46.7|-20.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 13||-20.5|-46.7|<0.0001
92211995|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-17.7|STANDARD_ERROR_OF_MEAN|6.65||0.0085|TWO_SIDED|95.0|-30.8|-4.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 13||-4.6|-30.8|0.0085
92211996|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-41.9|STANDARD_ERROR_OF_MEAN|6.85|<|0.0001|TWO_SIDED|95.0|-55.4|-28.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 14||-28.4|-55.4|<0.0001
92211997|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-37.6|STANDARD_ERROR_OF_MEAN|6.84|<|0.0001|TWO_SIDED|95.0|-51.1|-24.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 14||-24.1|-51.1|<0.0001
92211998|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-21.4|STANDARD_ERROR_OF_MEAN|6.8||0.002|TWO_SIDED|95.0|-34.8|-8.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 14||-8.0|-34.8|0.0020
92211999|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-42.7|STANDARD_ERROR_OF_MEAN|6.72|<|0.0001|TWO_SIDED|95.0|-55.9|-29.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 15||-29.4|-55.9|<0.0001
92212000|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-37.2|STANDARD_ERROR_OF_MEAN|6.7|<|0.0001|TWO_SIDED|95.0|-50.4|-24.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 15||-24.0|-50.4|< 0.0001
92212001|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-21.4|STANDARD_ERROR_OF_MEAN|6.67||0.0016|TWO_SIDED|95.0|-34.5|-8.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 15||-8.2|-34.5|0.0016
92212002|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-41.6|STANDARD_ERROR_OF_MEAN|6.77|<|0.0001|TWO_SIDED|95.0|-55.0|-28.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-28.3|-55.0|<0.0001
92212003|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-36.4|STANDARD_ERROR_OF_MEAN|6.75|<|0.0001|TWO_SIDED|95.0|-49.7|-23.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-23.1|-49.7|<0.0001
92273395|NCT01872689|184449209|SUPERIORITY||Mean Difference (Final Values)|0.18203|STANDARD_ERROR_OF_MEAN|0.65206||0.7803|TWO_SIDED|95.0|-1.1|1.47|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||1.47|-1.10|0.7803
92212004|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-18.4|STANDARD_ERROR_OF_MEAN|6.72||0.0067|TWO_SIDED|95.0|-31.7|-5.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-5.2|-31.7|0.0067
92212005|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-35.2|STANDARD_ERROR_OF_MEAN|7.0|<|0.0001|TWO_SIDED|95.0|-49.0|-21.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 17||-21.4|-49.0|<0.0001
92212006|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-32.1|STANDARD_ERROR_OF_MEAN|7.07|<|0.0001|TWO_SIDED|95.0|-46.0|-18.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 17||-18.1|-46.0|<0.0001
92212007|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-17.9|STANDARD_ERROR_OF_MEAN|6.98||0.0111|TWO_SIDED|95.0|-31.7|-4.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 17||-4.1|-31.7|0.0111
92212008|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-29.9|STANDARD_ERROR_OF_MEAN|7.02|<|0.0001|TWO_SIDED|95.0|-43.8|-16.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-16.1|-43.8|<0.0001
92212009|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-26.6|STANDARD_ERROR_OF_MEAN|7.12||0.0003|TWO_SIDED|95.0|-40.6|-12.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-12.5|-40.6|0.0003
92212010|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-14.1|STANDARD_ERROR_OF_MEAN|6.96||0.0445|TWO_SIDED|95.0|-27.8|-0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-0.4|-27.8|0.0445
92212011|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-24.2|STANDARD_ERROR_OF_MEAN|7.06||0.0008|TWO_SIDED|95.0|-38.1|-10.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 19||-10.2|-38.1|0.0008
92212012|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-21.8|STANDARD_ERROR_OF_MEAN|7.17||0.0027|TWO_SIDED|95.0|-36.0|-7.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 19||-7.7|-36.0|0.0027
92212013|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.7|STANDARD_ERROR_OF_MEAN|7.05||0.0724|TWO_SIDED|95.0|-26.7|1.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 19||1.2|-26.7|0.0724
92149470|NCT01216163|184184331|SUPERIORITY_OR_OTHER||LS mean difference|5.9|||<|0.001|TWO_SIDED|95.0|4.66|7.15||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||7.15|4.66|<0.001
92149471|NCT01216163|184184331|SUPERIORITY_OR_OTHER||LS mean difference|1.35||||0.01|TWO_SIDED|95.0|0.33|2.37||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.37|0.33|0.010
92212014|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-21.6|STANDARD_ERROR_OF_MEAN|7.11||0.0028|TWO_SIDED|95.0|-35.7|-7.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||-7.6|-35.7|0.0028
92212015|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-17.6|STANDARD_ERROR_OF_MEAN|7.22||0.0158|TWO_SIDED|95.0|-31.9|-3.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||-3.3|-31.9|0.0158
92212016|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-10.3|STANDARD_ERROR_OF_MEAN|7.06||0.1468|TWO_SIDED|95.0|-24.2|3.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||3.6|-24.2|0.1468
92212017|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|7.21||0.0167|TWO_SIDED|95.0|-31.7|-3.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 21||-3.2|-31.7|0.0167
92212018|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|7.29||0.0242|TWO_SIDED|95.0|-31.0|-2.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 21||-2.2|-31.0|0.0242
92149472|NCT01216163|184184331|SUPERIORITY_OR_OTHER||LS mean difference|4.56|||<|0.001|TWO_SIDED|95.0|3.31|5.8||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||5.80|3.31|<0.001
92149473|NCT01216163|184184331|SUPERIORITY_OR_OTHER||LS mean difference|10.88|||<|0.001|TWO_SIDED|95.0|8.05|13.7||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-6: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||13.70|8.05|<0.001
92273396|NCT01872689|184449211|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0972|TWO_SIDED|95.0|0.39|1.09|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.09|0.39|0.0972
92149474|NCT01216163|184184331|SUPERIORITY_OR_OTHER||LS mean difference|2.87||||0.015|TWO_SIDED|95.0|0.57|5.18||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-6: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||5.18|0.57|0.015
92149475|NCT01216163|184184331|SUPERIORITY_OR_OTHER||LS mean difference|8.0|||<|0.001|TWO_SIDED|95.0|5.18|10.83||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-6: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||10.83|5.18|<0.001
92149476|NCT01216163|184184332|SUPERIORITY_OR_OTHER||LS mean difference|6.19|||<|0.001|TWO_SIDED|95.0|4.96|7.43||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||7.43|4.96|<0.001
92149477|NCT01216163|184184332|SUPERIORITY_OR_OTHER||LS mean difference|1.33||||0.01|TWO_SIDED|95.0|0.32|2.33||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.33|0.32|0.010
92149478|NCT01216163|184184332|SUPERIORITY_OR_OTHER||LS mean difference|4.87|||<|0.001|TWO_SIDED|95.0|3.63|6.1||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||6.10|3.63|<0.001
92149479|NCT01216163|184184332|SUPERIORITY_OR_OTHER||LS mean difference|9.58|||<|0.001|TWO_SIDED|95.0|7.54|11.61||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||11.61|7.54|<0.001
92149480|NCT01216163|184184332|SUPERIORITY_OR_OTHER||LS mean difference|2.33||||0.006|TWO_SIDED|95.0|0.67|4.0||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.00|0.67|0.006
92149481|NCT01216163|184184332|SUPERIORITY_OR_OTHER||LS mean difference|7.24|||<|0.001|TWO_SIDED|95.0|5.21|9.28||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||9.28|5.21|<0.001
92149482|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|21.42|||<|0.001|TWO_SIDED|95.0|12.99|29.84||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportions and the corresponding standard error.||29.84|12.99|<0.001
92149483|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|1.58||||0.799|TWO_SIDED|95.0|-10.54|13.7||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.70|-10.54|0.799
92397564|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0449|TWO_SIDED|95.0|1.02|6.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.60|1.02|0.0449
92149484|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|20.09||||0.001|TWO_SIDED|95.0|11.45|28.72||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||28.72|11.45|0.001
92149485|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|53.22|||<|0.001|TWO_SIDED|95.0|42.92|63.53||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||63.53|42.92|<0.001
92149486|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|-2.98||||0.695|TWO_SIDED|95.0|-17.67|11.7||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.70|-17.67|0.695
92149487|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|57.06|||<|0.001|TWO_SIDED|95.0|46.53|67.6||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||67.60|46.53|<0.001
92212019|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-8.6|STANDARD_ERROR_OF_MEAN|7.08||0.224|TWO_SIDED|95.0|-22.6|5.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 21||5.3|-22.6|0.2240
92149488|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|70.58|||<|0.001|TWO_SIDED|95.0|60.28|80.88||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||80.88|60.28|<0.001
92149489|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|7.99||||0.261|TWO_SIDED|95.0|-5.85|21.84||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||21.84|-5.85|0.261
92149490|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|62.88|||<|0.001|TWO_SIDED|95.0|51.78|73.99||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||73.99|51.78|<0.001
92149491|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|66.24|||<|0.001|TWO_SIDED|95.0|53.77|78.71||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||78.71|53.77|<0.001
92149492|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|4.38||||0.522|TWO_SIDED|95.0|-8.89|17.64||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.64|-8.89|0.522
92149493|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|61.93|||<|0.001|TWO_SIDED|95.0|49.06|74.8||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.80|49.06|<0.001
92149494|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|66.35|||<|0.001|TWO_SIDED|95.0|53.61|79.09||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.09|53.61|<0.001
92149495|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|5.46||||0.415|TWO_SIDED|95.0|-7.53|18.44||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.44|-7.53|0.415
92149496|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|60.92|||<|0.001|TWO_SIDED|95.0|47.65|74.19||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.19|47.65|<0.001
92212020|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-15.9|STANDARD_ERROR_OF_MEAN|7.3||0.031|TWO_SIDED|95.0|-30.3|-1.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 22||-1.5|-30.3|0.0310
92212021|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-14.9|STANDARD_ERROR_OF_MEAN|7.33||0.0437|TWO_SIDED|95.0|-29.4|-0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 22||-0.4|-29.4|0.0437
92149497|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|65.32|||<|0.001|TWO_SIDED|95.0|52.18|78.46||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||78.46|52.18|<0.001
92149498|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|4.21||||0.519|TWO_SIDED|95.0|-8.39|16.81||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.81|-8.39|0.519
92149499|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
92149500|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
92149501|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
92397565|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.68||||0.2759|TWO_SIDED|95.0|0.66|4.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.24|0.66|0.2759
92149502|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
92149503|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
92149504|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
92149505|NCT01216163|184184333|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
92149506|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|26.4|||<|0.001|TWO_SIDED|95.0|15.87|36.93||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||36.93|15.87|<0.001
92149507|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|3.53||||0.602|TWO_SIDED|95.0|-9.85|16.91||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.91|-9.85|0.602
92149508|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|22.72||||0.001|TWO_SIDED|95.0|12.39|33.05||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||33.05|12.39|0.001
92149509|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|60.37|||<|0.001|TWO_SIDED|95.0|48.61|72.12||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||72.12|48.61|<0.001
92149510|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|2.25||||0.761|TWO_SIDED|95.0|-12.1|16.59||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.59|-12.10|0.761
92149511|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|58.32|||<|0.001|TWO_SIDED|95.0|46.59|70.05||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||70.05|46.59|<0.001
92149512|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|67.52|||<|0.001|TWO_SIDED|95.0|54.91|80.12||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||80.12|54.91|<0.001
92149513|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|5.42||||0.41|TWO_SIDED|95.0|-7.34|18.18||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.18|-7.34|0.410
92149514|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|62.13|||<|0.001|TWO_SIDED|95.0|48.96|75.29||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||75.29|48.96|<0.001
92149515|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|68.64|||<|0.001|TWO_SIDED|95.0|56.11|81.16||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.16|56.11|<0.001
92273397|NCT01872689|184449211|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9344|TWO_SIDED|95.0|0.72|1.42|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.42|0.72|0.9344
92149516|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
92149517|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|63.34|||<|0.001|TWO_SIDED|95.0|50.32|76.35||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||76.35|50.32|<0.001
92149518|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
92149519|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
92149520|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
92149521|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
92149522|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
92149523|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
92149524|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
92149525|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
92149526|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
92149527|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
92149528|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
92149529|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
92149530|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
92397566|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.9||||0.17|TWO_SIDED|95.0|0.76|4.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.78|0.76|0.1700
92397567|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.47||||0.0153|TWO_SIDED|95.0|1.27|9.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.51|1.27|0.0153
92397568|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|6.04||||0.0009|TWO_SIDED|95.0|2.08|17.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||17.53|2.08|0.0009
92397569|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6228|TWO_SIDED|95.0|0.5|3.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.23|0.50|0.6228
92397570|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.62||||0.046|TWO_SIDED|95.0|1.02|6.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.76|1.02|0.0460
92397571|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1215|TWO_SIDED|95.0|0.82|5.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.23|0.82|0.1215
92397572|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.75||||0.247|TWO_SIDED|95.0|0.68|4.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.48|0.68|0.2470
92397573|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.83||||0.2072|TWO_SIDED|95.0|0.72|4.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.66|0.72|0.2072
92397574|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.57||||0.0621|TWO_SIDED|95.0|0.95|6.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.94|0.95|0.0621
92149531|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
92212022|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|7.12||0.4123|TWO_SIDED|95.0|-19.9|8.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 22||8.2|-19.9|0.4123
92397575|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|5.67||||0.0016|TWO_SIDED|95.0|1.93|16.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||16.69|1.93|0.0016
92397576|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.47||||0.4372|TWO_SIDED|95.0|0.56|3.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.84|0.56|0.4372
92397577|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.18||||0.11|TWO_SIDED|95.0|0.84|5.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.66|0.84|0.1100
92397578|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0533|TWO_SIDED|95.0|0.99|6.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.59|0.99|0.0533
92397579|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|4.68||||0.1769|TWO_SIDED|95.0|0.5|44.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||44.00|0.50|0.1769
92149532|NCT01216163|184184334|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
92397580|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.26||||0.4942|TWO_SIDED|95.0|0.22|23.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||23.53|0.22|0.4942
92212023|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.1|STANDARD_ERROR_OF_MEAN|7.46||0.0808|TWO_SIDED|95.0|-27.8|1.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 23||1.6|-27.8|0.0808
92212024|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.1|STANDARD_ERROR_OF_MEAN|7.45||0.1064|TWO_SIDED|95.0|-26.8|2.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 23||2.6|-26.8|0.1064
92212025|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|7.24||0.4366|TWO_SIDED|95.0|-19.9|8.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 23||8.6|-19.9|0.4366
92212026|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.8|STANDARD_ERROR_OF_MEAN|7.39||0.0644|TWO_SIDED|95.0|-28.3|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 24||0.8|-28.3|0.0644
92212027|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.9|STANDARD_ERROR_OF_MEAN|7.41||0.0633|TWO_SIDED|95.0|-28.5|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 24||0.8|-28.5|0.0633
92212028|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|7.23||0.4775|TWO_SIDED|95.0|-19.4|9.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 24||9.1|-19.4|0.4775
92212029|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-11.8|STANDARD_ERROR_OF_MEAN|7.33||0.1106|TWO_SIDED|95.0|-26.2|2.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 25||2.7|-26.2|0.1106
92212030|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|7.32||0.1043|TWO_SIDED|95.0|-26.4|2.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 25||2.5|-26.4|0.1043
92212031|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|7.19||0.563|TWO_SIDED|95.0|-18.4|10.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 25||10.0|-18.4|0.5630
92212032|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.6|STANDARD_ERROR_OF_MEAN|7.26||0.0629|TWO_SIDED|95.0|-27.9|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 26||0.7|-27.9|0.0629
92397581|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|12.82||||0.0214|TWO_SIDED|95.0|1.46|112.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||112.7|1.46|0.0214
92212033|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-14.3|STANDARD_ERROR_OF_MEAN|7.34||0.0523|TWO_SIDED|95.0|-28.8|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 26||0.1|-28.8|0.0523
92212034|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|7.15||0.442|TWO_SIDED|95.0|-19.6|8.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 26||8.6|-19.6|0.4420
92212035|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|7.19||0.0908|TWO_SIDED|95.0|-26.4|2.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 27||2.0|-26.4|0.0908
92212036|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.4|STANDARD_ERROR_OF_MEAN|7.32||0.0688|TWO_SIDED|95.0|-27.9|1.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 27||1.0|-27.9|0.0688
92212037|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|7.17||0.2802|TWO_SIDED|95.0|-21.9|6.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 27||6.4|-21.9|0.2802
92212038|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-15.5|STANDARD_ERROR_OF_MEAN|7.24||0.0337|TWO_SIDED|95.0|-29.8|-1.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 28||-1.2|-29.8|0.0337
92212039|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.4|STANDARD_ERROR_OF_MEAN|7.28||0.0673|TWO_SIDED|95.0|-27.8|1.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 28||1.0|-27.8|0.0673
92212040|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|7.27||0.3564|TWO_SIDED|95.0|-21.1|7.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 28||7.6|-21.1|0.3564
92149533|NCT01216163|184184335|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.22||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||0.22|0.08|<0.001
92149534|NCT01216163|184184335|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.303|TWO_SIDED|95.0|0.45|1.28||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.28|0.45|0.303
92149535|NCT01216163|184184335|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.17|||<|0.001|TWO_SIDED|95.0|0.1|0.28||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||0.28|0.10|<0.001
92149536|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-40.1|||<|0.001|TWO_SIDED|95.0|-55.39|-24.8||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-24.80|-55.39|<0.001
92149537|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-0.12||||0.958|TWO_SIDED|95.0|-4.52|4.28||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.28|-4.52|0.958
92149538|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-40.19|||<|0.001|TWO_SIDED|95.0|-55.51|-24.87||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-24.87|-55.51|<0.001
92149539|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-63.4|||<|0.001|TWO_SIDED|95.0|-77.81|-48.99||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-48.99|-77.81|<0.001
92149540|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-7.17||||0.108|TWO_SIDED|95.0|-15.91|1.57||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.57|-15.91|0.108
92149541|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-56.39|||<|0.001|TWO_SIDED|95.0|-71.68|-41.09||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-41.09|-71.68|<0.001
92149542|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-71.01|||<|0.001|TWO_SIDED|95.0|-84.09|-57.93||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-57.93|-84.09|<0.001
92149543|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-9.82||||0.083|TWO_SIDED|95.0|-20.18|1.16||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.16|-20.18|0.083
92149544|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-61.14|||<|0.001|TWO_SIDED|95.0|-75.4|-46.87||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-46.87|-75.40|<0.001
92149545|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-66.37|||<|0.001|TWO_SIDED|95.0|-80.08|-52.66||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-52.66|-80.08|<0.001
92149546|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-11.03||||0.079|TWO_SIDED|95.0|-23.37|1.21||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.21|-23.37|0.079
92149547|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-55.53|||<|0.001|TWO_SIDED|95.0|-70.12|-40.85||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-40.85|-70.12|<0.001
92212041|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.6|STANDARD_ERROR_OF_MEAN|7.08||0.0558|TWO_SIDED|95.0|-27.6|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 29||0.3|-27.6|0.0558
92397582|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.93||||0.6013|TWO_SIDED|95.0|0.16|22.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||22.99|0.16|0.6013
92397583|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|8.6||||0.0537|TWO_SIDED|95.0|0.97|76.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||76.58|0.97|0.0537
92397584|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.8||||0.2662|TWO_SIDED|95.0|0.36|39.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||39.91|0.36|0.2662
92397585|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.51||||0.7431|TWO_SIDED|95.0|0.13|17.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||17.84|0.13|0.7431
92397586|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|3.53||||0.2829|TWO_SIDED|95.0|0.35|35.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||35.22|0.35|0.2829
92397587|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|2.12||||0.5311|TWO_SIDED|95.0|0.2|22.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||22.29|0.20|0.5311
92397588|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|4.71||||0.1857|TWO_SIDED|95.0|0.47|46.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||46.83|0.47|0.1857
92397589|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9879|TWO_SIDED|95.0|0.06|17.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||17.50|0.06|0.9879
92397590|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|4.57||||0.1853|TWO_SIDED|95.0|0.48|43.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||43.19|0.48|0.1853
92397591|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|4.43||||0.217|TWO_SIDED|95.0|0.42|46.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||46.93|0.42|0.2170
92397592|NCT03192176|184689405|SUPERIORITY||Odds Ratio (OR)|0.74||||0.8354|TWO_SIDED|95.0|0.04|12.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||12.62|0.04|0.8354
92397593|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|0.94||||0.9671|TWO_SIDED|95.0|0.06|16.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.04|0.06|0.9671
92397594|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.16||||0.3289|TWO_SIDED|95.0|0.31|31.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||31.87|0.31|0.3289
92397595|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.26||||0.3157|TWO_SIDED|95.0|0.32|32.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||32.71|0.32|0.3157
92397596|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.0||||0.991|TWO_SIDED|95.0|0.06|16.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.83|0.06|0.991
92397597|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.26||||0.5139|TWO_SIDED|95.0|0.2|26.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||26.12|0.20|0.5139
92397598|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.32||||0.3079|TWO_SIDED|95.0|0.33|33.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||33.45|0.33|0.3079
92397599|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|8.83||||0.0469|TWO_SIDED|95.0|1.03|75.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||75.68|1.03|0.0469
92397600|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|14.39||||0.0134|TWO_SIDED|95.0|1.74|119.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||119.1|1.74|0.0134
92397601|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|4.98||||0.1606|TWO_SIDED|95.0|0.53|46.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||46.90|0.53|0.1606
92397602|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|6.69||||0.0854|TWO_SIDED|95.0|0.77|58.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||58.35|0.77|0.0854
92397603|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|6.07||||0.1082|TWO_SIDED|95.0|0.67|54.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||54.72|0.67|0.1082
92149548|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-57.33|||<|0.001|TWO_SIDED|95.0|-71.9|-42.77||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-42.77|-71.90|<0.001
92149549|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-7.73||||0.263|TWO_SIDED|95.0|-21.08|5.63||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||5.63|-21.08|0.263
92149550|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-49.93|||<|0.001|TWO_SIDED|95.0|-64.74|-35.12||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-35.12|-64.74|<0.001
92149551|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-52.75|||<|0.001|TWO_SIDED|95.0|-67.62|-37.88||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-37.88|-67.62|<0.001
92149552|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-5.51||||0.439|TWO_SIDED|95.0|-19.27|8.25||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.25|-19.27|0.439
92149553|NCT01216163|184184336|SUPERIORITY_OR_OTHER||Difference in proportion|-47.72|||<|0.001|TWO_SIDED|95.0|-62.62|-32.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-32.83|-62.62|<0.001
92149554|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|-1.21||||0.294|TWO_SIDED|95.0|-3.59|1.17||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.17|-3.59|0.294
92149555|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|1.21||||0.458|TWO_SIDED|95.0|-1.16|3.58||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.58|-1.16|0.458
92149556|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|6.81||||0.073|TWO_SIDED|95.0|1.57|12.06||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.06|1.57|0.073
92149557|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|1.96||||0.583|TWO_SIDED|95.0|-4.94|8.85||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.85|-4.94|0.583
92149558|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|4.81||||0.137|TWO_SIDED|95.0|0.14|9.49||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.49|0.14|0.137
92149559|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|23.86|||<|0.001|TWO_SIDED|95.0|14.81|32.91||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||32.91|14.81|<0.001
92212042|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-14.3|STANDARD_ERROR_OF_MEAN|7.16||0.0471|TWO_SIDED|95.0|-28.5|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 29||-0.2|-28.5|0.0471
92212043|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|7.03||0.4101|TWO_SIDED|95.0|-19.7|8.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 29||8.1|-19.7|0.4101
92212044|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-15.8|STANDARD_ERROR_OF_MEAN|7.16||0.0287|TWO_SIDED|95.0|-29.9|-1.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 30||-1.7|-29.9|0.0287
92212045|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-14.8|STANDARD_ERROR_OF_MEAN|7.24||0.0427|TWO_SIDED|95.0|-29.1|-0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 30||-0.5|-29.1|0.0427
92212046|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|7.1||0.2828|TWO_SIDED|95.0|-21.7|6.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 30||6.4|-21.7|0.2828
92212047|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-15.7|STANDARD_ERROR_OF_MEAN|7.12||0.0294|TWO_SIDED|95.0|-29.7|-1.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 31||-1.6|-29.7|0.0294
92212048|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.4|STANDARD_ERROR_OF_MEAN|7.15||0.0636|TWO_SIDED|95.0|-27.5|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 31||0.8|-27.5|0.0636
92212049|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-6.2|STANDARD_ERROR_OF_MEAN|7.02||0.3812|TWO_SIDED|95.0|-20.0|7.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 31||7.7|-20.0|0.3812
92212050|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-15.8|STANDARD_ERROR_OF_MEAN|7.06||0.027|TWO_SIDED|95.0|-29.7|-1.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||-1.8|-29.7|0.0270
92212051|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.9|STANDARD_ERROR_OF_MEAN|7.04||0.0679|TWO_SIDED|95.0|-26.9|1.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||1.0|-26.9|0.0679
92212052|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|7.0||0.4452|TWO_SIDED|95.0|-19.2|8.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||8.5|-19.2|0.4452
92212053|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-14.2|STANDARD_ERROR_OF_MEAN|7.08||0.0467|TWO_SIDED|95.0|-28.2|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 33||-0.2|-28.2|0.0467
92212054|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|7.01||0.0829|TWO_SIDED|95.0|-26.1|1.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 33||1.6|-26.1|0.0829
92212055|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|6.89||0.5263|TWO_SIDED|95.0|-18.0|9.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 33||9.2|-18.0|0.5263
92212056|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-16.8|STANDARD_ERROR_OF_MEAN|7.19||0.021|TWO_SIDED|95.0|-31.0|-2.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 34||-2.6|-31.0|0.0210
92212057|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.5|STANDARD_ERROR_OF_MEAN|7.17||0.0623|TWO_SIDED|95.0|-27.6|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 34||0.7|-27.6|0.0623
92212058|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|7.08||0.4899|TWO_SIDED|95.0|-18.9|9.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 34||9.1|-18.9|0.4899
92397604|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|7.22||||0.0737|TWO_SIDED|95.0|0.83|63.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||63.04|0.83|0.0737
92397605|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|11.98||||0.0217|TWO_SIDED|95.0|1.44|99.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||99.74|1.44|0.0217
92149560|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|8.45||||0.165|TWO_SIDED|95.0|-3.43|20.33||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.33|-3.43|0.165
92149561|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|15.46||||0.006|TWO_SIDED|95.0|7.66|23.26||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||23.26|7.66|0.006
92149562|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|29.41|||<|0.001|TWO_SIDED|95.0|19.78|39.05||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||39.05|19.78|<0.001
92149563|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|4.61||||0.497|TWO_SIDED|95.0|-8.78|17.99||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.99|-8.78|0.497
92149564|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|25.13|||<|0.001|TWO_SIDED|95.0|15.81|34.46||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||34.46|15.81|<0.001
92149565|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|31.78|||<|0.001|TWO_SIDED|95.0|20.03|43.53||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||43.53|20.03|<0.001
92149566|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|6.7||||0.349|TWO_SIDED|95.0|-7.38|20.79||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.79|-7.38|0.349
92149567|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|25.34|||<|0.001|TWO_SIDED|95.0|13.73|36.94||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||36.94|13.73|<0.001
92149568|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|37.64|||<|0.001|TWO_SIDED|95.0|25.47|49.81||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||49.81|25.47|<0.001
92149569|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|8.85||||0.233|TWO_SIDED|95.0|-5.72|23.42||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||23.42|-5.72|0.233
92149570|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|28.96|||<|0.001|TWO_SIDED|95.0|17.17|40.75||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||40.75|17.17|<0.001
92149571|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|38.73|||<|0.001|TWO_SIDED|95.0|25.87|51.6||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||51.60|25.87|<0.001
92149572|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|9.83||||0.189|TWO_SIDED|95.0|-4.8|24.45||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||24.45|-4.80|0.189
92149573|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|29.19|||<|0.001|TWO_SIDED|95.0|16.71|41.66||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||41.66|16.71|<0.001
92212059|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-15.8|STANDARD_ERROR_OF_MEAN|7.14||0.0281|TWO_SIDED|95.0|-29.9|-1.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 35||-1.7|-29.9|0.0281
92212060|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-10.7|STANDARD_ERROR_OF_MEAN|7.08||0.1318|TWO_SIDED|95.0|-24.7|3.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 35||3.3|-24.7|0.1318
92149574|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|36.55|||<|0.001|TWO_SIDED|95.0|23.22|49.88||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||49.88|23.22|<0.001
92149575|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|9.83||||0.189|TWO_SIDED|95.0|-4.8|24.45||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||24.45|-4.80|0.189
92149576|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|26.97|||<|0.001|TWO_SIDED|95.0|14.0|39.94||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||39.94|14.00|<0.001
92149577|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|37.72|||<|0.001|TWO_SIDED|95.0|24.36|51.07||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||51.07|24.36|<0.001
92149578|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|10.97||||0.144|TWO_SIDED|95.0|-3.67|25.61||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||25.61|-3.67|0.144
92149579|NCT01216163|184184337|SUPERIORITY_OR_OTHER||Difference in proportion|26.97|||<|0.001|TWO_SIDED|95.0|14.0|39.94||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||39.94|14.00|<0.001
92149580|NCT01216163|184184338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.87|||<|0.001|TWO_SIDED|95.0|0.78|0.96||P-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Ibuprofen sodium - Placebo) and the associated CI were calculated based on the weighted Gamma statistic.||0.96|0.78|<0.001
92149581|NCT01216163|184184338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.02|TWO_SIDED|95.0|0.05|0.45||P-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Ibuprofen sodium - Acetaminophen) and the associated CI were calculated based on the weighted Gamma statistic.||0.45|0.05|0.020
92149582|NCT01216163|184184338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|||<|0.001|TWO_SIDED|95.0|0.63|0.91||P-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Acetaminophen - Placebo) and the associated CI were calculated based on the weighted Gamma statistic.||0.91|0.63|<0.001
92149583|NCT00532155|184184368|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.8985|TWO_SIDED|95.0|0.868|1.174|||Stratified log-rank test|Stratified on ECOG Performance Status (0 vs 1 vs 2) and Prior Bevacizumab (yes vs no) according to IVRS.||||1.174|0.868|0.8985
92149584|NCT00532155|184184369|SUPERIORITY_OR_OTHER_LEGACY||Stratified Hazard ratio|0.819||||0.0035|TWO_SIDED|95.0|0.716|0.937|||Stratified Log-Rank test|Stratified on ECOG Performance Status (0 vs 1 vs 2) and Prior Bevacizumab (yes vs no) according to IVRS.|Stratified on ECOG Performance Status (0 vs 1 vs 2) and Prior Bevacizumab (yes vs no) according to IVRS.|||0.937|0.716|0.0035
92149585|NCT03635489|184184379|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.17|0.53|||Regression, Cox|||||0.53|0.17|<.0001
92149586|NCT03635489|184184379|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.34|||<|0.0001|TWO_SIDED|95.0|0.2|0.58|||Regression, Cox|||||0.58|0.20|<.0001
92212061|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|6.99||0.4458|TWO_SIDED|95.0|-19.1|8.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 35||8.5|-19.1|0.4458
92212062|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-16.3|STANDARD_ERROR_OF_MEAN|7.11||0.0229|TWO_SIDED|95.0|-30.4|-2.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 36||-2.3|-30.4|0.0229
92212063|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-11.8|STANDARD_ERROR_OF_MEAN|7.11||0.0978|TWO_SIDED|95.0|-25.9|2.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 36||2.2|-25.9|0.0978
92149587|NCT03635489|184184380|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.3|1.21||||||||1.21|0.30|
92149588|NCT00361439|184184401|SUPERIORITY_OR_OTHER||||||<|0.02||95.0|||||Wilcoxon (Mann-Whitney)|||||||< 0.02
92149589|NCT00361439|184184402|SUPERIORITY_OR_OTHER||||||<|0.023||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.023
92149590|NCT00361439|184184403|SUPERIORITY_OR_OTHER||||||<|0.002||95.0|||||t-test, 2 sided|||||||<0.002
92149591|NCT00361439|184184404|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.010
92212064|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|6.93||0.3792|TWO_SIDED|95.0|-19.8|7.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 36||7.6|-19.8|0.3792
92149592|NCT01313286|184184415|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Square means|1.08|||||TWO_SIDED|90.0|1.0|1.16|||Mixed Models Analysis|Ratio of test formulation (HCl salt) to reference formulation (free base).||||1.16|1.00|
92149593|NCT01313286|184184416|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Square means|1.18|||||TWO_SIDED|90.0|1.07|1.31|||Mixed Models Analysis|Ratio of test formulation (HCl salt) to reference formulation (free base).||||1.31|1.07|
92149594|NCT04843930|184184429|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.54|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 261.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.54
92149595|NCT04843930|184184430|SUPERIORITY||Mean Difference (Final Values)|2.83||||0.04|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 239.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis."||||0.04
92149596|NCT04843930|184184431|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.79|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 229.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.79
92149597|NCT04843930|184184432|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.45|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 269.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.45
92149598|NCT04843930|184184433|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.02|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 236.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.02
92149599|NCT04843930|184184434|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.96|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 257.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.96
92149600|NCT04843930|184184435|SUPERIORITY||Mean Difference (Final Values)|2.78||||0.04|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 262.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.04
92212065|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-15.9|STANDARD_ERROR_OF_MEAN|7.22||0.029|TWO_SIDED|95.0|-30.2|-1.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 37||-1.7|-30.2|0.0290
92397606|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|19.24||||0.0058|TWO_SIDED|95.0|2.36|157.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||157.1|2.36|0.0058
92397607|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|4.44||||0.1924|TWO_SIDED|95.0|0.47|41.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||41.87|0.47|0.1924
92149601|NCT04843930|184184436|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.6|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 227.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.60
92149602|NCT04843930|184184437|SUPERIORITY||Mean Difference (Final Values)|3.77||||0.06|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 1, 89.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.06
92149603|NCT04843930|184184438|SUPERIORITY||Mean Difference (Final Values)|4.37||||0.04|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 1, 73.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.04
92149604|NCT02552238|184184439|SUPERIORITY|||||||0.0067|||||||McNemar|||Sensitivity: superiority test comparing CE-DSE and UE-DSE based on the difference||||0.0067
92149605|NCT02552238|184184439|SUPERIORITY||||||<|0.0001|||||||McNemar|||Specificity: superiority test comparing CE-DSE and UE-DSE based on the difference||||<0.0001
92149606|NCT02404389|184184448|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|p value is provided|Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.07||0.515|TWO_SIDED|90.0|-0.12|0.12|||Posterior mean|||||0.12|-0.12|0.515
92149607|NCT02404389|184184448|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|p value is provided|Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.07||0.517|TWO_SIDED|90.0|-0.12|0.13|||posterior mean|||||0.13|-0.12|0.517
92149608|NCT01576718|184184454|SUPERIORITY_OR_OTHER|||||||0.0604||||||If the Fp MDPI showed a significantly positive trend, then contrasts for pairwise comparisons of each Fp MDPI dose versus placebo were done in the sequence of highest to lowest Fp MDPI dose.|Regression, Linear|||A linear in log-dose trend contrast was constructed to evaluate the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo). A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level. Specifically, the 2-sided linear in log-dose time-averaged trend test was first performed at the 0.05 level of significance.||||0.0604
92149609|NCT01576718|184184454|SUPERIORITY_OR_OTHER||LSM difference|0.072||||0.0637|TWO_SIDED|95.0|-0.004|0.149||Significance at the 0.05 level.|mixed model for repeated measures||Fp 400 - Placebo|No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||0.149|-0.004|0.0637
92149610|NCT01576718|184184454|SUPERIORITY_OR_OTHER||LSM difference|0.056||||0.1585|TWO_SIDED|95.0|-0.022|0.133||Significance at the 0.05 level|mixed model for repeated measures||Fp 200 - Placebo|No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||0.133|-0.022|0.1585
92149611|NCT01576718|184184454|SUPERIORITY_OR_OTHER||LSM difference|0.048||||0.2221|TWO_SIDED|95.0|-0.029|0.124||Significance at the 0.05 level|mixed model for repeated measures||Fp 100 - Placebo|No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||0.124|-0.029|0.2221
92149612|NCT01576718|184184454|SUPERIORITY_OR_OTHER||LSM difference|0.006|||=|0.8694|TWO_SIDED|95.0|-0.07|0.083||Significance at the 0.05 level|mixed model for repeated measures||Fp 50 - Placebo|No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||0.083|-0.070|=0.8694
92149613|NCT01576718|184184455|SUPERIORITY_OR_OTHER|||||||0.1512||||||If the Fp MDPI showed a significantly positive trend, then contrasts for pairwise comparisons of each Fp MDPI dose versus placebo were done in the sequence of highest to lowest Fp MDPI dose.|Regression, Linear|||A linear in log-dose trend contrast was constructed to evaluate the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo). A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level. Specifically, the 2-sided linear in log-dose time-averaged trend test was first performed at the 0.05 level of significance.||||0.1512
92149614|NCT01576718|184184455|SUPERIORITY_OR_OTHER||LSM difference|7.36||||0.2361|TWO_SIDED|95.0|-4.83|19.56||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||19.56|-4.83|0.2361
92212066|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-10.9|STANDARD_ERROR_OF_MEAN|7.15||0.1306|TWO_SIDED|95.0|-25.0|3.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 37||3.3|-25.0|0.1306
92397608|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|7.54||||0.068|TWO_SIDED|95.0|0.86|66.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||66.00|0.86|0.0680
92397609|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|15.95||||0.0095|TWO_SIDED|95.0|1.97|129.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||129.4|1.97|0.0095
92397610|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.68||||0.269|TWO_SIDED|95.0|0.36|37.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||37.21|0.36|0.2690
92397611|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|10.28||||0.0321|TWO_SIDED|95.0|1.22|86.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||86.53|1.22|0.0321
92149615|NCT01576718|184184455|SUPERIORITY_OR_OTHER||LSM difference|7.78||||0.2169|TWO_SIDED|95.0|-4.59|20.15|||Regression, Linear|Significance at the 0.05 level||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||20.15|-4.59|0.2169
92149616|NCT01576718|184184455|SUPERIORITY_OR_OTHER||LSM difference|7.09||||0.2523|TWO_SIDED|95.0|-5.07|19.26||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||19.26|-5.07|0.2523
92149617|NCT01576718|184184455|SUPERIORITY_OR_OTHER||LSM difference|8.23||||0.1858|TWO_SIDED|95.0|-3.98|20.45||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||20.45|-3.98|0.1858
92149618|NCT01576718|184184456|SUPERIORITY_OR_OTHER|||||||0.2879||||||If the Fp MDPI showed a significantly positive trend, then contrasts for pairwise comparisons of each Fp MDPI dose versus placebo were done in the sequence of highest to lowest Fp MDPI dose.|Regression, Linear|||A linear in log-dose trend contrast was constructed to evaluate the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo). A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level. Specifically, the 2-sided linear in log-dose time-averaged trend test was first performed at the 0.05 level of significance.||||0.2879
92212067|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|6.99||0.3923|TWO_SIDED|95.0|-19.8|7.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 37||7.8|-19.8|0.3923
92397612|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|14.48||||0.0131|TWO_SIDED|95.0|1.75|119.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||119.7|1.75|0.0131
92397613|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|25.22||||0.0025|TWO_SIDED|95.0|3.11|204.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||204.6|3.11|0.0025
92397614|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|4.65||||0.1788|TWO_SIDED|95.0|0.49|43.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||43.72|0.49|0.1788
92397615|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|10.33||||0.032|TWO_SIDED|95.0|1.22|87.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||87.31|1.22|0.0320
92397616|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|11.24||||0.0251|TWO_SIDED|95.0|1.35|93.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||93.33|1.35|0.0251
92397617|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.43||||0.6154|TWO_SIDED|95.0|0.35|5.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.83|0.35|0.6154
92397618|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.37||||0.1906|TWO_SIDED|95.0|0.65|8.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.63|0.65|0.1906
92397619|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.67||||0.045|TWO_SIDED|95.0|1.03|13.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.07|1.03|0.0450
92397620|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|7.19||||0.0017|TWO_SIDED|95.0|2.1|24.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||24.66|2.10|0.0017
92212068|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-16.1|STANDARD_ERROR_OF_MEAN|7.19||0.0265|TWO_SIDED|95.0|-30.3|-1.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 38||-1.9|-30.3|0.0265
92212069|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-10.4|STANDARD_ERROR_OF_MEAN|7.12||0.1456|TWO_SIDED|95.0|-24.5|3.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 38||3.6|-24.5|0.1456
92212070|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|6.96||0.5138|TWO_SIDED|95.0|-18.3|9.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 38||9.2|-18.3|0.5138
92212071|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-15.9|STANDARD_ERROR_OF_MEAN|7.08||0.0265|TWO_SIDED|95.0|-29.8|-1.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 39||-1.9|-29.8|0.0265
92212072|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-11.7|STANDARD_ERROR_OF_MEAN|7.05||0.0986|TWO_SIDED|95.0|-25.7|2.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 39||2.2|-25.7|0.0986
92212073|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|6.91||0.36|TWO_SIDED|95.0|-20.0|7.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 39||7.3|-20.0|0.3600
92212074|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-15.5|STANDARD_ERROR_OF_MEAN|7.09||0.0303|TWO_SIDED|95.0|-29.5|-1.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 40||-1.5|-29.5|0.0303
92212075|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-11.8|STANDARD_ERROR_OF_MEAN|7.07||0.0979|TWO_SIDED|95.0|-25.7|2.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 40||2.2|-25.7|0.0979
92212076|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|6.92||0.3664|TWO_SIDED|95.0|-19.9|7.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 40||7.4|-19.9|0.3664
92212077|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|7.04||0.0806|TWO_SIDED|95.0|-26.3|1.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 41||1.5|-26.3|0.0806
92212078|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-8.5|STANDARD_ERROR_OF_MEAN|7.01||0.226|TWO_SIDED|95.0|-22.4|5.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 41||5.3|-22.4|0.2260
92212079|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|6.92||0.3835|TWO_SIDED|95.0|-19.7|7.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 41||7.6|-19.7|0.3835
92212080|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-13.1|STANDARD_ERROR_OF_MEAN|6.9||0.0594|TWO_SIDED|95.0|-26.7|0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 42||0.5|-26.7|0.0594
92212081|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-8.5|STANDARD_ERROR_OF_MEAN|6.91||0.2189|TWO_SIDED|95.0|-22.2|5.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 42||5.1|-22.2|0.2189
92212082|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|6.79||0.5238|TWO_SIDED|95.0|-17.8|9.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 42||9.1|-17.8|0.5238
92212083|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-10.8|STANDARD_ERROR_OF_MEAN|6.92||0.1204|TWO_SIDED|95.0|-24.5|2.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 43||2.9|-24.5|0.1204
92212084|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-10.9|STANDARD_ERROR_OF_MEAN|6.84||0.1129|TWO_SIDED|95.0|-24.4|2.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 43||2.6|-24.4|0.1129
92212085|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|6.81||0.3911|TWO_SIDED|95.0|-19.3|7.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 43||7.6|-19.3|0.3911
92397621|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.8||||0.3939|TWO_SIDED|95.0|0.47|6.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.97|0.47|0.3939
92212086|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.3|STANDARD_ERROR_OF_MEAN|6.93||0.0784|TWO_SIDED|95.0|-26.0|1.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 44||1.4|-26.0|0.0784
92149619|NCT01576718|184184456|SUPERIORITY_OR_OTHER||LSM difference|7.56||||0.2166|TWO_SIDED|95.0|-4.45|19.56||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||19.56|-4.45|0.2166
92149620|NCT01576718|184184456|SUPERIORITY_OR_OTHER||LSM difference|4.03||||0.5167|TWO_SIDED|95.0|-8.17|16.23||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||16.23|-8.17|0.5167
92149621|NCT01576718|184184456|SUPERIORITY_OR_OTHER||LSM difference|2.99||||0.6258|TWO_SIDED|95.0|-9.06|15.05||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||15.05|-9.06|0.6258
92149622|NCT01576718|184184456|SUPERIORITY_OR_OTHER||LSM difference|0.39||||0.9487|TWO_SIDED|95.0|-11.6|12.39||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||12.39|-11.60|0.9487
92149623|NCT01576718|184184457|SUPERIORITY_OR_OTHER|||||||0.0341||||||Significance level of 0.05.|Log Rank|||P-value for comparison of survival curve to placebo||||0.0341
92149624|NCT01576718|184184457|SUPERIORITY_OR_OTHER|||||||0.034||||||Significance level of 0.05.|Log Rank|||P-value for comparison of survival curve to placebo||||0.0340
92149625|NCT01576718|184184457|SUPERIORITY_OR_OTHER|||||||0.0058||||||Significance level of 0.05.|Log Rank|||P-value for comparison of survival curve to placebo||||0.0058
92149626|NCT01576718|184184457|SUPERIORITY_OR_OTHER|||||||0.0018||||||Significance level of 0.05.|Log Rank|||P-value for comparison of survival curve to placebo||||0.0018
92149627|NCT01576718|184184457|SUPERIORITY_OR_OTHER|||||||0.1006||||||Significance level of 0.05.|Log Rank|||P-value for comparison of survival curve to placebo||||0.1006
92149628|NCT01576718|184184458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.88116|TWO_SIDED|95.0|-11.12|12.91||Significance at the 0.05 level|Regression, Linear|||Estimates computed from a generalized linear logistic model with gender and age as covariates and allows correlation between estimates on the same subject. Interpretation of the estimates is that they are the average over the population at the average level of continuous covariate (age) averaged over discrete covariate (gender).||12.91|-11.12|0.88116
92149629|NCT01576718|184184458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.98||||0.05977|TWO_SIDED|95.0|-22.64|0.68||Significance at the 0.05 level|Regression, Linear|||Estimates computed from a generalized linear logistic model with gender and age as covariates and allows correlation between estimates on the same subject. Interpretation of the estimates is that they are the average over the population at the average level of continuous covariate (age) averaged over discrete covariate (gender).||0.68|-22.64|0.05977
92149630|NCT01576718|184184458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74||||0.90426|TWO_SIDED|95.0|-13.02|11.54||Significance at the 0.05 level|Regression, Linear|||Estimates computed from a generalized linear logistic model with gender and age as covariates and allows correlation between estimates on the same subject. Interpretation of the estimates is that they are the average over the population at the average level of continuous covariate (age) averaged over discrete covariate (gender).||11.54|-13.02|0.90426
92149631|NCT01576718|184184458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.38||||0.4731|TWO_SIDED|95.0|-16.57|7.82||Significance at the 0.05 level|Regression, Linear|||Estimates computed from a generalized linear logistic model with gender and age as covariates and allows correlation between estimates on the same subject. Interpretation of the estimates is that they are the average over the population at the average level of continuous covariate (age) averaged over discrete covariate (gender).||7.82|-16.57|0.47310
92149632|NCT01576718|184184465|SUPERIORITY_OR_OTHER||LSM difference|0.019|||=|0.6161|TWO_SIDED|95.0|-0.057|0.096||0.05 level of significance.|mixed model for repeated measures|||||0.096|-0.057|=0.6161
92336648|NCT02559570|184576081|SUPERIORITY||Least Squares Mean Difference|-0.588|STANDARD_ERROR_OF_MEAN|0.577||0.3097|TWO_SIDED|95.0|-1.729|0.552|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.552|-1.729|0.3097
92149633|NCT01576718|184184465|SUPERIORITY_OR_OTHER||LSM difference|0.004||||0.9245|TWO_SIDED|95.0|-0.973|0.08||0.05 level of significance.|mixed model for repeated measures|||||0.080|-0.973|0.9245
92149634|NCT01576718|184184465|SUPERIORITY_OR_OTHER||LSM difference|-0.008||||0.8434|TWO_SIDED|95.0|-0.083|0.068||0.05 level of significance.|mixed model for repeated measures|||||0.068|-0.083|0.8434
92149635|NCT01576718|184184465|SUPERIORITY_OR_OTHER||LSM difference|-0.047||||0.2241|TWO_SIDED|95.0|-0.122|0.029||0.05 level of significance.|mixed model for repeated measures|||||0.029|-0.122|0.2241
92149636|NCT01576718|184184465|SUPERIORITY_OR_OTHER||LSM difference|-0.053||||0.1822|TWO_SIDED|95.0|-0.13|0.025||0.05 level of significance.|mixed model for repeated measures|||||0.025|-0.130|0.1822
92149637|NCT01576718|184184466|SUPERIORITY_OR_OTHER||LSM difference|-5.56||||0.3568|TWO_SIDED|95.0|-17.42|6.29||0.05 level of significance.|Regression, Linear|||||6.29|-17.42|0.3568
92149638|NCT01576718|184184466|SUPERIORITY_OR_OTHER||LSM difference|-5.68||||0.3531|TWO_SIDED|95.0|-17.67|6.32||0.05 level of significance.|Regression, Linear|||||6.32|-17.67|0.3531
92149639|NCT01576718|184184466|SUPERIORITY_OR_OTHER||LSM difference|-6.58||||0.2724|TWO_SIDED|95.0|-18.35|5.19||0.05 level of significance.|Regression, Linear|||||5.19|-18.35|0.2724
92149640|NCT01576718|184184466|SUPERIORITY_OR_OTHER||LSM difference|-5.11|||=|0.3964|TWO_SIDED|95.0|-16.95|6.72||0.05 level of significance.|Regression, Linear|||||6.72|-16.95|=0.3964
92149641|NCT01576718|184184466|SUPERIORITY_OR_OTHER||LSM difference|-13.45||||0.0296|TWO_SIDED|95.0|-25.57|-1.33||0.05 level of significance.|Regression, Linear|||||-1.33|-25.57|0.0296
92149642|NCT01576718|184184467|SUPERIORITY_OR_OTHER||LSM difference|-0.69||||0.9101|TWO_SIDED|95.0|-12.59|11.22||0.05 level of significance.|Regression, Linear|||||11.22|-12.59|0.9101
92149643|NCT01576718|184184467|SUPERIORITY_OR_OTHER||LSM difference|-4.51||||0.4634|TWO_SIDED|95.0|-16.6|7.57||0.05 level of significance.|Regression, Linear|||||7.57|-16.6|0.4634
92149644|NCT01576718|184184467|SUPERIORITY_OR_OTHER||LSM difference|-5.88||||0.3333|TWO_SIDED|95.0|-17.8|6.05||0.05 level of significance.|Regression, Linear|||||6.05|-17.8|0.3333
92149645|NCT01576718|184184467|SUPERIORITY_OR_OTHER||LSM difference|-8.19||||0.1763|TWO_SIDED|95.0|-20.06|3.69||0.05 level of significance.|Regression, Linear|||||3.69|-20.06|0.1763
92149646|NCT01576718|184184467|SUPERIORITY_OR_OTHER||Slope|-9.05||||0.1469|TWO_SIDED|95.0|-21.3|3.19||0.05 level of significance.|Regression, Linear|||||3.19|-21.3|0.1469
92149647|NCT01742364|184184485|SUPERIORITY_OR_OTHER|||||||0.475|||||||Fisher Exact|||Comparison of all adverse events (both injection site and systemic AEs).||||0.475
92149648|NCT01742364|184184485|SUPERIORITY_OR_OTHER|||||||0.187|||||||Fisher Exact|||Comparison of all adverse events (both injection site and systemic AEs).||||0.187
92149649|NCT01742364|184184487|SUPERIORITY_OR_OTHER|||||||0.205|||||||Wilcoxon (Mann-Whitney)|||||||0.205
92149650|NCT01742364|184184488|SUPERIORITY_OR_OTHER|||||||0.325|||||||Wilcoxon (Mann-Whitney)|||||||0.325
92149651|NCT01742364|184184489|SUPERIORITY_OR_OTHER|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92149652|NCT01742364|184184489|SUPERIORITY_OR_OTHER|||||||0.13|||||||Kruskal-Wallis|||||||0.130
92149653|NCT01742364|184184490|SUPERIORITY_OR_OTHER|||||||0.001|||||||Chi-squared|||||||0.001
92149654|NCT01742364|184184490|SUPERIORITY_OR_OTHER|||||||0.003|||||||Chi-squared|||||||0.003
92212087|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|6.9||0.3046|TWO_SIDED|95.0|-20.7|6.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 44||6.5|-20.7|0.3046
92149655|NCT02821819|184184491|NON_INFERIORITY|The sample size was calculated assuming a non-inferiority margin of 5 eggs SD 6.7. A unilateral alpha level of 0.05 was stablished. With the aim to show that the difference in the mean number of collected eggs will not exceed 5, a statistical power of 80% required 30 patients per group (1:1 allocation, total sample: 60).|Mean Difference (Final Values)|18.0|STANDARD_DEVIATION|8.1||0.8|ONE_SIDED|||||a priori threshold for statistical significance: \<0.05|t-test, 1 sided|||The sample size was calculated assuming a non-inferiority margin of 5 eggs and a standard deviation (SD) of 6.7. A unilateral alpha level of 0.05 was stablished. With the aim to show that the difference in the mean number of collected eggs will not exceed 5, a statistical power of 80% required 30 patients per group (1:1 allocation, total sample: 60).|"Since the number of collected eggs constitutes the main outcome of the study, the sample size was calculated assuming a non-inferiority margin of 5 eggs with an standard deviation of 6.7. A unilateral alpha level of 0.05 was stablished. With the aim to show that the difference in the mean number of collected eggs will not exceed 5, a statistical power of 80% required 30 patients per group (1:1 allocation, total sample: 60).~Statistical analysis was performed using t-student test for continuous variables and chi-square test for categorical parameters. A P value of \<.05 was considered significant."|||0.8
92212088|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|6.82||0.5205|TWO_SIDED|95.0|-17.9|9.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 44||9.1|-17.9|0.5205
92212089|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-14.0|STANDARD_ERROR_OF_MEAN|6.74||0.0388|TWO_SIDED|95.0|-27.3|-0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 45||-0.7|-27.3|0.0388
92397622|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.06||||0.2869|TWO_SIDED|95.0|0.55|7.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.74|0.55|0.2869
92149656|NCT02821819|184184491|NON_INFERIORITY|The sample size was calculated assuming a non-inferiority margin of 5 eggs SD 6.7. A unilateral alpha level of 0.05 was stablished. With the aim to show that the difference in the mean number of collected eggs will not exceed 5, a statistical power of 80% required 30 patients per group (1:1 allocation, total sample: 60). Statistical analysis used t-student test for continuous variables and chi-square test for categorical parameters.|Mean Difference (Final Values)|82.0||||0.8|TWO_SIDED|||||a priori threshold for statistical significance: \<0.05|Chi-squared|||The sample size was calculated assuming a non-inferiority margin of 5 eggs SD 6.7. A unilateral alpha level of 0.05 was stablished. With the aim to show that the difference in the mean number of collected eggs will not exceed 5, a statistical power of 80% required 30 patients per group (1:1 allocation, total sample: 60). Statistical analysis used t-student test for continuous variables and chi-square test for categorical parameters.||||0.8
92149657|NCT02821819|184184492|NON_INFERIORITY|Statistical analysis was performed using t-student test for continuous variables and chi-square test for categorical parameters. A P value of \<.05 was considered significant.|Median Difference (Final Values)|71.1|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92149658|NCT02332590|184184493|SUPERIORITY||LS Mean Difference|-1.077|||<|0.0001|TWO_SIDED|95.0|-1.361|-0.793||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg vs. Adalimumab 40 mg|Analysis was performed using MMRM approach with treatment, region, visits, and treatment-by-visit interaction as fixed effects and baseline DAS28-ESR score as a continuous covariate. Hierarchical testing procedure was used to control overall alpha error rate at 0.05 level and handle multiple endpoint analyses. Testing was then performed sequentially in order endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-0.793|-1.361|<0.0001
92149659|NCT02332590|184184494|SUPERIORITY||Odds Ratio (OR)|4.879|||<|0.0001|TWO_SIDED|95.0|2.536|9.389||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified by region.||9.389|2.536|<0.0001
92149660|NCT02332590|184184495|SUPERIORITY||Odds Ratio (OR)|1.976||||0.0017|TWO_SIDED|95.0|1.289|3.028||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified by region.||3.028|1.289|0.0017
92212090|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-10.8|STANDARD_ERROR_OF_MEAN|6.75||0.1105|TWO_SIDED|95.0|-24.2|2.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 45||2.5|-24.2|0.1105
92212091|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|6.68||0.7039|TWO_SIDED|95.0|-15.7|10.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 45||10.7|-15.7|0.7039
92212092|NCT03816891|184324396|SUPERIORITY||ls|-11.7|STANDARD_ERROR_OF_MEAN|6.82||0.0885|TWO_SIDED|95.0|-25.2|1.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 46||1.8|-25.2|0.0885
92212093|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-9.7|STANDARD_ERROR_OF_MEAN|6.79||0.1535|TWO_SIDED|95.0|-23.1|3.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 46||3.7|-23.1|0.1535
92212094|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|6.76||0.8975|TWO_SIDED|95.0|-14.2|12.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 46||12.5|-14.2|0.8975
92212095|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.8|STANDARD_ERROR_OF_MEAN|6.96||0.0674|TWO_SIDED|95.0|-26.6|0.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 47||0.9|-26.6|0.0674
92212096|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|0.3025||0.3025|TWO_SIDED|95.0|-20.8|6.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 47||6.5|-20.8|0.3025
92212097|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|6.9||0.8964|TWO_SIDED|95.0|-14.5|12.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 47||12.7|-14.5|0.8964
92212098|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.7|STANDARD_ERROR_OF_MEAN|6.79||0.0633|TWO_SIDED|95.0|-26.1|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||0.7|-26.1|0.0633
92212099|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|6.81||0.1665|TWO_SIDED|95.0|-22.9|4.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||4.0|-22.9|0.1665
92212100|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|6.78||0.7748|TWO_SIDED|95.0|-15.3|11.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||11.4|-15.3|0.7748
92212101|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-10.9|STANDARD_ERROR_OF_MEAN|7.04||0.1239|TWO_SIDED|95.0|-24.8|3.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 49||3.0|-24.8|0.1239
92212102|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|7.17||0.3647|TWO_SIDED|95.0|-20.7|7.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 49||7.6|-20.7|0.3647
92212103|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|7.2||0.8056|TWO_SIDED|95.0|-12.5|16.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 49||16.0|-12.5|0.8056
92212104|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-11.9|STANDARD_ERROR_OF_MEAN|7.35||0.1079|TWO_SIDED|95.0|-26.4|2.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 50||2.6|-26.4|0.1079
92397623|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.41||||0.1817|TWO_SIDED|95.0|0.66|8.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.80|0.66|0.1817
92212105|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|7.37||0.4174|TWO_SIDED|95.0|-20.6|8.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 50||8.6|-20.6|0.4174
92212106|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|7.39||0.7815|TWO_SIDED|95.0|-16.7|12.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 50||12.6|-16.7|0.7815
92397624|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|11.41||||0.0256|TWO_SIDED|95.0|1.35|96.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||96.77|1.35|0.0256
92149661|NCT02332590|184184496|SUPERIORITY||Odds Ratio (OR)|2.286||||0.0036|TWO_SIDED|95.0|1.3|4.02||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified by region.||4.020|1.300|0.0036
92149662|NCT02332590|184184497|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0074|TWO_SIDED|95.0|1.168|2.773||Threshold for significance 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified by region.||2.773|1.168|0.0074
92149663|NCT02332590|184184498|SUPERIORITY||LS Mean Difference|-0.182||||0.0037|TWO_SIDED|95.0|-0.305|-0.059||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using MMRM approach with treatment, region, visits, and treatment-by-visit interaction as fixed effects and baseline HAQ-DI score as a continuous covariate.||-0.059|-0.305|0.0037
92149664|NCT02332590|184184499|SUPERIORITY||LS Mean Difference|2.65||||0.0006|TWO_SIDED|95.0|1.147|4.153||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using MMRM approach with treatment, region, visits, and treatment-by-visit interaction as fixed effects and baseline SF-36 PCS score as a continuous covariate.||4.153|1.147|0.0006
92149665|NCT02332590|184184500|SUPERIORITY||LS Mean Difference|1.768||||0.0689|TWO_SIDED|95.0|-0.137|3.674||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using MMRM approach with treatment, region, visits, and treatment-by-visit interaction as fixed effects and baseline FACIT-F score as a continuous covariate.||3.674|-0.137|0.0689
92149666|NCT00811382|184184562|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
92149667|NCT03091673|184184617|OTHER||||||<|0.001||||||P-value was computed using a t-test to determine if change in plasma glucose from baseline to 30 minutes was zero.|t-test, 2 sided|||||||<0.001
92149668|NCT02714868|184184633|OTHER|||||||0.05|||||||t-test, 2 sided|||For goal attainment, we calculated independent t-tests to compare GAS t-scores across groups at outcome. Lowest score is 0, highest score is 100. 100 is highest goal attainment.||||.05
92149669|NCT05056870|184184644|SUPERIORITY|Superiority was declared if the upper limit of the 95% confidence interval of was below 0.00 logMAR.|Mean Difference|-0.097|STANDARD_ERROR_OF_MEAN|0.008|||TWO_SIDED|95.0|-0.113|-0.081|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Mean difference was calculated as Test - Control|||-0.081|-0.113|
92149670|NCT05056870|184184645|SUPERIORITY|Superiority was declared if the lower limit of the 95% confidence interval of was above 0.|Mean Difference|28.0|STANDARD_ERROR_OF_MEAN|2.69|||TWO_SIDED|95.0|22.6|33.3|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Mean difference was calculated as Test - Control|||33.3|22.6|
92149671|NCT05056870|184184646|NON_INFERIORITY|Non-Inferiority was declared if the upper limit of the 95% confidence interval of was below 0.05 logMAR.|Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.0061|||TWO_SIDED|95.0|-0.032|-0.008|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Mean difference was calculated as Test - Control|||-0.008|-0.032|
92149672|NCT05056870|184184647|SUPERIORITY|Superiority was declared if the lower limit of the 95% confidence interval of was above 1.|Mean Ratio|2.98|||||TWO_SIDED|95.0|1.73|5.11|||Generalized Linear Mixed Model||Mean Ratio was calculated as Test over Control|||5.11|1.73|
92149673|NCT01373931|184184689|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|0.976|||||TWO_SIDED|90.0|0.907|1.05|||Mixed Models Analysis|Ratio of Geometric LS mean is for ethinyl estradiol.||||1.05|0.907|
92149674|NCT01373931|184184689|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|0.914|||||TWO_SIDED|90.0|0.842|0.991|||Mixed Models Analysis|Ratio of Geometric LS mean is for norelgestromin.||||0.991|0.842|
92397625|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|13.65||||0.0153|TWO_SIDED|95.0|1.65|112.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||112.8|1.65|0.0153
92149675|NCT01373931|184184690|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.25|||||TWO_SIDED|90.0|-0.73|0.51|||Wilcoxon Signed Rank Test|Median difference is for ethinyl estradiol.||||0.51|-0.73|
92149676|NCT01373931|184184690|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|-0.5|0.5|||Wilcoxon Signed Rank Test|Median difference is for norelgestromin.||||0.50|-0.50|
92149677|NCT01373931|184184691|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|1.07||||||90.0|1.0|1.15|||Mixed Models Analysis|Ratio of Geometric LS mean is for ethinyl estradiol.||||1.15|1.00|
92149678|NCT01373931|184184691|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|1.0||||||90.0|0.944|1.07|||Mixed Models Analysis|Ratio of Geometric LS mean is for norelgestromin.||||1.07|0.944|
92149679|NCT01175148|184184710|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.15|||<|0.05|TWO_SIDED||||||Fisher Exact|||The study used a minimax Simon two-stage design to test the null hypothesis Ho: P \> 0.35 versus the alternative H1: \< 0.15, where P is the probability of grade 2 to 4 acute GVHD at day + 100.||||<0.05
92149680|NCT01010477|184184727|SUPERIORITY_OR_OTHER|||||||0.632||||||threshold for statistical significance: p\< 0.05|Fisher Exact|||Fisher Exact test (2-sided)||||0.632
92149681|NCT01559454|184184728|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|35.4167||||0.097|TWO_SIDED|95.0|-8.7519|79.5852|||t-test, 2 sided|||||79.5852|-8.7519|0.097
92149682|NCT01559454|184184729|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.5||||1|TWO_SIDED|95.0|0.0713|1.8248|||Fisher Exact|||||1.8248|0.0713|1.00
92149683|NCT01559454|184184730|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.55075||||0.348|TWO_SIDED|95.0|-20.37051|51.34968|||t-test, 2 sided|||||51.34968|-20.37051|0.348
92149684|NCT01559454|184184731|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|39.5833||||0.088|TWO_SIDED|95.0|-7.9653|87.132|||t-test, 2 sided|||||87.1320|-7.9653|0.088
92149685|NCT01559454|184184732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.1499||||0.895|TWO_SIDED|95.0|-30.3965|27.0632|||t-test, 2 sided|||||27.0632|-30.3965|0.895
92149686|NCT01559454|184184733|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.6||||0.6999|TWO_SIDED|95.0|0.127|2.8352|||Fisher Exact|||||2.8352|0.127|0.6999
92149687|NCT01114204|184184734|NON_INFERIORITY|The 95% confidence interval (CI) was calculated using the large sample assumption. The pre-defined non-inferiority margin for testing the difference between treatment groups was -15%.|Treatment Difference|2.58||||0.2833|TWO_SIDED|95.0|-3.89|9.06|||Cochran-Mantel-Haenszel|The p-value is the result of the Cochran-Mantel-Haenszel test, adjusted for Baseline hemoglobin level and underlying condition.|The treatment difference (ferumoxytol - iron sucrose) was expressed as a percentage.|"Participants who achieved a ≥2.0 g/dL increase in hemoglobin from Baseline up to Week 5 were analyzed. Statistical comparison was performed for data up to Week 5 only.~Baseline was defined as the Day 1 value (prior to injection of study drug). The screening or most recent value prior to Day 1 was used for any participant with missing Day 1 information."||9.06|-3.89|0.2833
92149688|NCT00991341|184184742|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.44|TWO_SIDED|95.0|-0.6|0.26|||ANCOVA|The treatment groups were compared with respect to the change in MODS, adjusting for baseline MODS.|The longer storage red blood cell units arm is the reference category. After adjusting for baseline MODS, the difference in the means was -0.17, positive values are in favor of longer storage duration.|||0.26|-0.60|0.44
92149689|NCT00991341|184184743|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.5|TWO_SIDED|95.0|0.48|1.43|||Regression, Cox|The treatment groups were compared with respect to all-cause mortality, adjusting for baseline MODS.|The longer storage duration arm is the reference category.|||1.43|0.48|0.50
92149690|NCT00991341|184184744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32||||0.2|TWO_SIDED|95.0|-0.82|0.17|||ANCOVA|The treatment groups were compared with respect to 28-day change in MODS, adjusting for baseline MODS.|The longer storage red blood cell units arm is the reference category. After adjusting for baseline MODS, the difference in the means was -0.32; positive values are in favor of longer storage duration.|||0.17|-0.82|0.20
92149691|NCT00991341|184184745|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.018||||0.5|TWO_SIDED|95.0|-0.033|0.069|||Fisher Exact||The difference in proportions between the two treatment arms was computed as the proportion of subjects with the event in the shorter storage duration arm minus the proportion of subjects with the event in the longer storage duration arm.|||0.069|-0.033|0.50
92149692|NCT00991341|184184746|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.027||||0.4|TWO_SIDED|95.0|-0.09|0.035|||Fisher Exact||The difference in proportions between the two treatment arms was computed as the proportion of subjects with the event in the shorter storage duration arm minus the proportion of subjects with the event in the longer storage duration arm.|||0.035|-0.090|0.40
92149693|NCT00991341|184184747|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.018||||0.41|TWO_SIDED|95.0|-0.059|0.023|||Fisher Exact||The difference in proportions between the two treatment arms was computed as the proportion of subjects with the event in the shorter storage duration arm minus the proportion of subjects with the event in the longer storage duration arm.|||0.023|-0.059|0.41
92149694|NCT00991341|184184748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.75|TWO_SIDED|95.0|-0.62|0.37|||Kruskal-Wallis|||||0.37|-0.62|0.75
92149695|NCT00991341|184184749|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.62|TWO_SIDED|95.0|-0.08|0.05|||ANCOVA|The treatment arms were compared with respect to the change in creatinine, adjusting for the baseline creatinine value.|The longer storage red blood cell units arm is the reference category. After adjusting for baseline creatinine, the difference in the means was -0.02, positive values are in favor of longer storage duration.|||0.05|-0.08|0.62
92149696|NCT00991341|184184750|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.93||||0.35|TWO_SIDED|95.0|-2.11|5.98||The treatment arms were compared with respect to the change in troponin-I, adjusting for the baseline troponin-I value.|ANCOVA||The longer storage red blood cell units arm is the reference category. After adjusting for baseline troponin-I, the change in troponin-I values was 1.9 ng/mL higher in the shorter storage red blood cell units arm.|Troponin-I values recorded as 'too low to detect' were recoded as 0 since the median value of the minimum quantitative troponin-I value obtained among all participating sites was 0.01.||5.98|-2.11|0.35
92149697|NCT00991341|184184751|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Kruskal-Wallis|||||||0.10
92149698|NCT00991341|184184752|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.65|||<|0.01|TWO_SIDED|95.0|-0.89|-0.41|||ANCOVA||The longer storage red blood cell units arm is the reference category. After adjusting for baseline bilirubin, the change in bilirubin values was 0.65 mg/dL lower in the shorter storage red blood cell units arm.|||-0.41|-0.89|<0.01
92149699|NCT00991341|184184754|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.11|TWO_SIDED|95.0|0.98|1.25||The treatment groups were compared with respect to days to first post-operative bowel movement, adjusting for baseline MODS.|Regression, Cox||The longer storage duration arm is reference category.|||1.25|0.98|0.11
92397626|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|21.76||||0.0042|TWO_SIDED|95.0|2.64|179.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||179.2|2.64|0.0042
92149700|NCT00991341|184184755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.22|TWO_SIDED|95.0|0.96|1.22|||Regression, Cox|The treatment groups were compared with respect to days to first post-operative solid food, adjusting for baseline MODS.|The longer storage duration arm is reference category.|||1.22|0.96|0.22
92149701|NCT00991341|184184756|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.71|TWO_SIDED|95.0|-0.59|1.0|||Kruskal-Wallis||The longer storage duration arm is reference category.|||1.00|-0.59|0.71
92149702|NCT00991341|184184757|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.015||||0.53|TWO_SIDED|95.0|-0.057|0.027|||Fisher Exact||The difference in proportions between the two treatment arms was computed as the proportion of subjects with the event in the shorter storage duration arm minus the proportion of subjects with the event in the longer storage duration arm.|||0.027|-0.057|0.53
92149703|NCT00431184|184184796|SUPERIORITY_OR_OTHER|||||||0.22|||||||Mixed Models Analysis|||||||0.22
92149704|NCT00431184|184184797|SUPERIORITY_OR_OTHER|||||||0.83|||||||Mixed Models Analysis|||||||0.83
92149705|NCT02799472|184184798|OTHER||Ratio|14.201|||<|0.001|TWO_SIDED|95.0|6.251|32.262|||Repeated measures analysis|||GM-CSF - Complex, Week 1||32.262|6.251|<0.001
92149706|NCT02799472|184184798|OTHER||Ratio|32.36|||<|0.001|TWO_SIDED|95.0|15.828|66.156|||Repeated measures analysis|||GM-CSF - Complex, Week 2||66.156|15.828|<0.001
92149707|NCT02799472|184184798|OTHER||Ratio|55.772|||<|0.001|TWO_SIDED|95.0|25.646|121.287|||Repeated measures analysis|||GM-CSF - Complex, Week 4||121.287|25.646|<0.001
92149708|NCT02799472|184184798|OTHER||Ratio|48.336|||<|0.001|TWO_SIDED|95.0|19.341|120.798|||Repeated measures analysis|||GM-CSF - Complex, Week 6||120.798|19.341|<0.001
92149709|NCT02799472|184184798|OTHER||Ratio|34.635|||<|0.001|TWO_SIDED|95.0|13.69|87.629|||Repeated measures analysis|||GM-CSF - Complex, Week 8||87.629|13.690|<0.001
92149710|NCT02799472|184184798|OTHER||Ratio|23.249|||<|0.001|TWO_SIDED|95.0|8.579|63.005|||Repeated measures analysis|||GM-CSF - Complex, Week 12||63.005|8.579|<0.001
92149711|NCT02799472|184184798|OTHER||Ratio|1.233||||0.401|TWO_SIDED|95.0|0.742|2.048|||Repeated measures analysis|||GM-CSF - Complex, 12-Week FU||2.048|0.742|0.401
92149712|NCT02799472|184184799|OTHER||Ratio|0.943||||0.193|TWO_SIDED|95.0|0.861|1.032|||Repeated measures analysis|||14-3-3 ETA Protein, Week 1||1.032|0.861|0.193
92149713|NCT02799472|184184799|OTHER||Ratio|1.028||||0.842|TWO_SIDED|95.0|0.776|1.362|||Repeated measures analysis|||14-3-3 ETA Protein, Week 2||1.362|0.776|0.842
92149714|NCT02799472|184184799|OTHER||Ratio|0.743||||0.127|TWO_SIDED|95.0|0.505|1.093|||Repeated measures analysis|||14-3-3 ETA Protein, Week 4||1.093|0.505|0.127
92149715|NCT02799472|184184799|OTHER||Ratio|0.762||||0.137|TWO_SIDED|95.0|0.531|1.095|||Repeated measures analysis|||14-3-3 ETA Protein, Week 6||1.095|0.531|0.137
92149716|NCT02799472|184184799|OTHER||Ratio|0.886||||0.488|TWO_SIDED|95.0|0.623|1.259|||Repeated measures analysis|||14-3-3 ETA Protein, Week 8||1.259|0.623|0.488
92149717|NCT02799472|184184799|OTHER||Ratio|0.793||||0.338|TWO_SIDED|95.0|0.488|1.29|||Repeated measures analysis|||14-3-3 ETA Protein, Week 12||1.290|0.488|0.338
92149718|NCT02799472|184184799|OTHER||Ratio|0.859||||0.582|TWO_SIDED|95.0|0.491|1.502|||Repeated measures analysis|||14-3-3 ETA Protein, 12-Week FU||1.502|0.491|0.582
92149719|NCT02799472|184184799|OTHER||Ratio|0.999||||0.996|TWO_SIDED|95.0|0.699|1.427|||Repeated measures analysis|||S100 CBP A8 and A9, Week 1||1.427|0.699|0.996
92149720|NCT02799472|184184799|OTHER||Ratio|0.944||||0.745|TWO_SIDED|95.0|0.662|1.346|||Repeated measures analysis|||S100 CBP A8 and A9, Week 2||1.346|0.662|0.745
92397627|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|35.75||||0.0008|TWO_SIDED|95.0|4.39|291.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||291.5|4.39|0.0008
92149721|NCT02799472|184184799|OTHER||Ratio|1.017||||0.939|TWO_SIDED|95.0|0.649|1.593|||Repeated measures analysis|||S100 CBP A8 and A9, Week 4||1.593|0.649|0.939
92149722|NCT02799472|184184799|OTHER||Ratio|0.981||||0.937|TWO_SIDED|95.0|0.595|1.617|||Repeated measures analysis|||S100 CBP A8 and A9, Week 6||1.617|0.595|0.937
92149723|NCT02799472|184184799|OTHER||Ratio|1.067||||0.787|TWO_SIDED|95.0|0.659|1.727|||Repeated measures analysis|||S100 CBP A8 and A9, Week 8||1.727|0.659|0.787
92149724|NCT02799472|184184799|OTHER||Ratio|1.267||||0.342|TWO_SIDED|95.0|0.769|2.086|||Repeated measures analysis|||S100 CBP A8 and A9, Week 12||2.086|0.769|0.342
92149725|NCT02799472|184184799|OTHER||Ratio|1.748||||0.026|TWO_SIDED|95.0|1.076|2.838|||Repeated measures analysis|||S100 CBP A8 and A9, 12-Week FU||2.838|1.076|0.026
92149726|NCT02799472|184184800|OTHER||Ratio|0.774||||0.632|TWO_SIDED|95.0|0.261|2.29|||Repeated measures analysis|||Amyloid A, Week 12||2.290|0.261|0.632
92149727|NCT02799472|184184800|OTHER||Ratio|1.176||||0.685|TWO_SIDED|95.0|0.519|2.663|||Repeated measures analysis|||Amyloid A, 12-Week FU||2.663|0.519|0.685
92149728|NCT02799472|184184801|OTHER||Ratio|0.692||||0.097|TWO_SIDED|95.0|0.445|1.074|||Repeated measures analysis|||CL17, Week 1||1.074|0.445|0.097
92149729|NCT02799472|184184801|OTHER||Ratio|0.713||||0.229|TWO_SIDED|95.0|0.407|1.249|||Repeated measures analysis|||CL17, Week 2||1.249|0.407|0.229
92149730|NCT02799472|184184801|OTHER||Ratio|0.608||||0.055|TWO_SIDED|95.0|0.365|1.012|||Repeated measures analysis|||CL17, Week 4||1.012|0.365|0.055
92149731|NCT02799472|184184801|OTHER||Ratio|0.755||||0.307|TWO_SIDED|95.0|0.435|1.309|||Repeated measures analysis|||CL17, Week 6||1.309|0.435|0.307
92149732|NCT02799472|184184801|OTHER||Ratio|0.557||||0.017|TWO_SIDED|95.0|0.348|0.894|||Repeated measures analysis|||CL17, Week 8||0.894|0.348|0.017
92149733|NCT02799472|184184801|OTHER||Ratio|0.52||||0.026|TWO_SIDED|95.0|0.294|0.922|||Repeated measures analysis|||||0.922|0.294|0.026
92149734|NCT02799472|184184801|OTHER||Ratio|0.947||||0.839|TWO_SIDED|95.0|0.548|1.636|||Repeated measures analysis|||CL17, 12-Week FU||1.636|0.548|0.839
92149735|NCT02799472|184184801|OTHER||Ratio|0.764||||0.142|TWO_SIDED|95.0|0.53|1.1|||Repeated measures analysis|||CL13, Week 1||1.100|0.530|0.142
92149736|NCT02799472|184184801|OTHER||Ratio|1.005||||0.976|TWO_SIDED|95.0|0.726|1.39|||Repeated measures analysis|||CL13, Week 2||1.390|0.726|0.976
92149737|NCT02799472|184184801|OTHER||Ratio|1.236||||0.244|TWO_SIDED|95.0|0.859|1.778|||Repeated measures analysis|||CL13, Week 4||1.778|0.859|0.244
92149738|NCT02799472|184184801|OTHER||Ratio|1.237||||0.278|TWO_SIDED|95.0|0.836|1.83|||Repeated measures analysis|||CL13, Week 6||1.830|0.836|0.278
92149739|NCT02799472|184184801|OTHER||Ratio|1.118||||0.677|TWO_SIDED|95.0|0.651|1.92|||Repeated measures analysis|||CL13, Week 8||1.920|0.651|0.677
92149740|NCT02799472|184184801|OTHER||Ratio|1.165||||0.661|TWO_SIDED|95.0|0.573|2.369|||Repeated measures analysis|||CL13, Week 12||2.369|0.573|0.661
92149741|NCT02799472|184184801|OTHER||Ratio|1.581||||0.154|TWO_SIDED|95.0|0.832|3.007|||Repeated measures analysis|||CL13, 12-Week FU||3.007|0.832|0.154
92149742|NCT02799472|184184801|OTHER||Ratio|0.903||||0.751|TWO_SIDED|95.0|0.471|1.729|||Repeated measures analysis|||Interleukin 6, Week 1||1.729|0.471|0.751
92149743|NCT02799472|184184801|OTHER||Ratio|0.72||||0.33|TWO_SIDED|95.0|0.367|1.413|||Repeated measures analysis|||Interleukin 6, Week 2||1.413|0.367|0.330
92149744|NCT02799472|184184801|OTHER||Ratio|0.822||||0.519|TWO_SIDED|95.0|0.447|1.512|||Repeated measures analysis|||Interleukin 6, Week 4||1.512|0.447|0.519
92149745|NCT02799472|184184801|OTHER||Ratio|0.659||||0.147|TWO_SIDED|95.0|0.372|1.167|||Repeated measures analysis|||Interleukin 6, Week 6||1.167|0.372|0.147
92149746|NCT02799472|184184801|OTHER||Ratio|0.684||||0.166|TWO_SIDED|95.0|0.396|1.18|||Repeated measures analysis|||Interleukin 6, Week 8||1.180|0.396|0.166
92149747|NCT02799472|184184801|OTHER||Ratio|1.221||||0.432|TWO_SIDED|95.0|0.734|2.031|||Repeated measures analysis|||Interleukin 6, Week 12||2.031|0.734|0.432
92149748|NCT02799472|184184801|OTHER||Ratio|1.602||||0.216|TWO_SIDED|95.0|0.75|3.423|||Repeated measures analysis|||Interleukin 6, 12-Week FU||3.423|0.750|0.216
92149749|NCT02799472|184184801|OTHER||Ratio|0.926||||0.195|TWO_SIDED|95.0|0.823|1.042|||Repeated measures analysis|||MDC, Week 1||1.042|0.823|0.195
92212107|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.7|STANDARD_ERROR_OF_MEAN|7.22||0.0802|TWO_SIDED|95.0|-27.0|1.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 51||1.6|-27.0|0.0802
92212108|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-11.1|STANDARD_ERROR_OF_MEAN|7.48||0.1386|TWO_SIDED|95.0|-25.9|3.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 51||3.6|-25.9|0.1386
92212109|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|7.26||0.5101|TWO_SIDED|95.0|-19.2|9.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 51||9.6|-19.2|0.5101
92212110|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-12.1|STANDARD_ERROR_OF_MEAN|7.25||0.0972|TWO_SIDED|95.0|-26.5|2.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||2.2|-26.5|0.0972
92397628|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|6.45||||0.0967|TWO_SIDED|95.0|0.71|58.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||58.21|0.71|0.0967
92397629|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|8.3||||0.0564|TWO_SIDED|95.0|0.94|72.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||72.95|0.94|0.0564
92397630|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|23.63||||0.003|TWO_SIDED|95.0|2.93|190.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||190.5|2.93|0.0030
92397631|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|9.72||||0.0384|TWO_SIDED|95.0|1.13|83.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||83.68|1.13|0.0384
92397632|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|13.65||||0.0153|TWO_SIDED|95.0|1.65|112.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||112.9|1.65|0.0153
92397633|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|30.55||||0.0015|TWO_SIDED|95.0|3.72|250.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||250.6|3.72|0.0015
92397634|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|35.99||||0.0008|TWO_SIDED|95.0|4.41|293.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||293.5|4.41|0.0008
92397635|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|12.67||||0.0192|TWO_SIDED|95.0|1.51|106.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||106.1|1.51|0.0192
92397636|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|16.92||||0.0089|TWO_SIDED|95.0|2.03|141.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||141.0|2.03|0.0089
92397637|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|24.96||||0.0025|TWO_SIDED|95.0|3.09|201.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||201.6|3.09|0.0025
92397638|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.03||||0.091|TWO_SIDED|95.0|0.84|10.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.94|0.84|0.0910
92397639|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.96||||0.0296|TWO_SIDED|95.0|1.15|13.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||13.67|1.15|0.0296
92149750|NCT02799472|184184801|OTHER||Ratio|0.984||||0.851|TWO_SIDED|95.0|0.829|1.168|||Repeated measures analysis|||MDC, Week 2||1.168|0.829|0.851
92149751|NCT02799472|184184801|OTHER||Ratio|0.956||||0.637|TWO_SIDED|95.0|0.79|1.158|||Repeated measures analysis|||MDC, Week 4||1.158|0.790|0.637
92149752|NCT02799472|184184801|OTHER||Ratio|1.01||||0.915|TWO_SIDED|95.0|0.833|1.225|||Repeated measures analysis|||MDC, Week 6||1.225|0.833|0.915
92149753|NCT02799472|184184801|OTHER||Ratio|0.857||||0.157|TWO_SIDED|95.0|0.69|1.064|||Repeated measures analysis|||MDC, Week 8||1.064|0.690|0.157
92149754|NCT02799472|184184801|OTHER||Ratio|0.849||||0.142|TWO_SIDED|95.0|0.681|1.059|||Repeated measures analysis|||MDC, Week 12||1.059|0.681|0.142
92149755|NCT02799472|184184801|OTHER||Ratio|1.013||||0.929|TWO_SIDED|95.0|0.745|1.378|||Repeated measures analysis|||MDC, 12-Week FU||1.378|0.745|0.929
92149756|NCT02799472|184184802|OTHER||Ratio|0.887||||0.463|TWO_SIDED|95.0|0.64|1.231|||Repeated measures analysis|||Chitinase 3 Like 1, Week 1||1.231|0.640|0.463
92149757|NCT02799472|184184802|OTHER||Ratio|0.953||||0.782|TWO_SIDED|95.0|0.672|1.352|||Repeated measures analysis|||Chitinase 3 Like 1, Week 2||1.352|0.672|0.782
92149758|NCT02799472|184184802|OTHER||Ratio|1.132||||0.533|TWO_SIDED|95.0|0.759|1.69|||Repeated measures analysis|||Chitinase 3 Like 1, Week 4||1.690|0.759|0.533
92149759|NCT02799472|184184802|OTHER||Ratio|1.149||||0.473|TWO_SIDED|95.0|0.779|1.694|||Repeated measures analysis|||Chitinase 3 Like 1, Week 6||1.694|0.779|0.473
92149760|NCT02799472|184184802|OTHER||Ratio|1.112||||0.608|TWO_SIDED|95.0|0.733|1.687|||Repeated measures analysis|||Chitinase 3 Like 1, Week 8||1.687|0.733|0.608
92149761|NCT02799472|184184802|OTHER||Ratio|1.005||||0.985|TWO_SIDED|95.0|0.613|1.645|||Repeated measures analysis|||Chitinase 3 Like 1, Week 12||1.645|0.613|0.985
92149762|NCT02799472|184184802|OTHER||Ratio|1.386||||0.102|TWO_SIDED|95.0|0.934|2.057|||Repeated measures analysis|||Chitinase 3 Like 1, 12-Week FU||2.057|0.934|0.102
92149763|NCT02799472|184184802|OTHER||Ratio|0.915||||0.259|TWO_SIDED|95.0|0.781|1.071|||Repeated measures analysis|||MMP-3, Week 1||1.071|0.781|0.259
92149764|NCT02799472|184184802|OTHER||Ratio|0.959||||0.621|TWO_SIDED|95.0|0.809|1.137|||Repeated measures analysis|||MMP-3, Week 2||1.137|0.809|0.621
92149765|NCT02799472|184184802|OTHER||Ratio|0.914||||0.354|TWO_SIDED|95.0|0.752|1.11|||Repeated measures analysis|||MMP-3, Week 4||1.110|0.752|0.354
92149766|NCT02799472|184184802|OTHER||Ratio|0.8||||0.448|TWO_SIDED|95.0|0.443|1.444|||Repeated measures analysis|||MMP-3, Week 6||1.444|0.443|0.448
92149767|NCT02799472|184184802|OTHER||Ratio|1.16||||0.402|TWO_SIDED|95.0|0.813|1.653|||Repeated measures analysis|||MMP-3, Week 8||1.653|0.813|0.402
92149768|NCT02799472|184184802|OTHER||Ratio|0.951||||0.745|TWO_SIDED|95.0|0.695|1.301|||Repeated measures analysis|||MMP-3, Week 12||1.301|0.695|0.745
92149769|NCT02799472|184184802|OTHER||Ratio|1.226||||0.279|TWO_SIDED|95.0|0.837|1.796|||Repeated measures analysis|||MMP-3, 12-Week FU||1.796|0.837|0.279
92149770|NCT02799472|184184803|OTHER||Ratio|1.098||||0.621|TWO_SIDED|95.0|0.75|1.606|||Repeated measures analysis|||ARGS Neo-Epitope, Week 1||1.606|0.750|0.621
92149771|NCT02799472|184184803|OTHER||Ratio|1.581||||0.031|TWO_SIDED|95.0|1.046|2.388|||Repeated measures analysis|||ARGS Neo-Epitope, Week 2||2.388|1.046|0.031
92149772|NCT02799472|184184803|OTHER||Ratio|1.222||||0.317|TWO_SIDED|95.0|0.817|1.827|||Repeated measures analysis|||ARGS Neo-Epitope, Week 4||1.827|0.817|0.317
92149773|NCT02799472|184184803|OTHER||Ratio|1.302||||0.113|TWO_SIDED|95.0|0.936|1.81|||Repeated measures analysis|||ARGS Neo-Epitope, Week 6||1.810|0.936|0.113
92149774|NCT02799472|184184803|OTHER||Ratio|1.45||||0.217|TWO_SIDED|95.0|0.795|2.645|||Repeated measures analysis|||ARGS Neo-Epitope, Week 8||2.645|0.795|0.217
92149775|NCT02799472|184184803|OTHER||Ratio|1.266||||0.147|TWO_SIDED|95.0|0.916|1.75|||Repeated measures analysis|||ARGS Neo-Epitope, Week 12||1.750|0.916|0.147
92149776|NCT02799472|184184803|OTHER||Ratio|0.996||||0.985|TWO_SIDED|95.0|0.662|1.499|||Repeated measures analysis|||ARGS Neo-Epitope, 12-Week FU||1.499|0.662|0.985
92149777|NCT02799472|184184803|OTHER||Ratio|0.892||||0.681|TWO_SIDED|95.0|0.511|1.56|||Repeated measures analysis|||CMDV, Week 1||1.560|0.511|0.681
92149778|NCT02799472|184184803|OTHER||Ratio|0.87||||0.668|TWO_SIDED|95.0|0.454|1.669|||Repeated measures analysis|||CMDV, Week 2||1.669|0.454|0.668
92149779|NCT02799472|184184803|OTHER||Ratio|1.12||||0.717|TWO_SIDED|95.0|0.597|2.101|||Repeated measures analysis|||CMDV, Week 4||2.101|0.597|0.717
92149780|NCT02799472|184184803|OTHER||Ratio|0.661||||0.227|TWO_SIDED|95.0|0.333|1.31|||Repeated measures analysis|||CMDV, Week 6||1.310|0.333|0.227
92149781|NCT02799472|184184803|OTHER||Ratio|0.817||||0.471|TWO_SIDED|95.0|0.464|1.437|||Repeated measures analysis|||CMDV, Week 8||1.437|0.464|0.471
92149782|NCT02799472|184184803|OTHER||Ratio|0.816||||0.541|TWO_SIDED|95.0|0.417|1.597|||Repeated measures analysis|||CMDV, Week 12||1.597|0.417|0.541
92149783|NCT02799472|184184803|OTHER||Ratio|0.822||||0.544|TWO_SIDED|95.0|0.422|1.602|||Repeated measures analysis|||CMDV, 12-Week FU||1.602|0.422|0.544
92149784|NCT02799472|184184803|OTHER||Ratio|1.051||||0.537|TWO_SIDED|95.0|0.895|1.233|||Repeated measures analysis|||MMP-Degraded CRP, Week 1||1.233|0.895|0.537
92149785|NCT02799472|184184803|OTHER||Ratio|1.031||||0.635|TWO_SIDED|95.0|0.906|1.173|||Repeated measures analysis|||MMP-Degraded CRP, Week 2||1.173|0.906|0.635
92149786|NCT02799472|184184803|OTHER||Ratio|1.012||||0.866|TWO_SIDED|95.0|0.879|1.165|||Repeated measures analysis|||MMP-Degraded CRP, Week 4||1.165|0.879|0.866
92149787|NCT02799472|184184803|OTHER||Ratio|0.979||||0.78|TWO_SIDED|95.0|0.842|1.139|||Repeated measures analysis|||MMP-Degraded CRP, Week 6||1.139|0.842|0.780
92149788|NCT02799472|184184803|OTHER||Ratio|1.113||||0.212|TWO_SIDED|95.0|0.938|1.32|||Repeated measures analysis|||MMP-Degraded CRP, Week 8||1.320|0.938|0.212
92149789|NCT02799472|184184803|OTHER||Ratio|1.102||||0.242|TWO_SIDED|95.0|0.934|1.3|||Repeated measures analysis|||MMP-Degraded CRP, Week 12||1.300|0.934|0.242
92149790|NCT02799472|184184803|OTHER||Ratio|1.05||||0.597|TWO_SIDED|95.0|0.87|1.267|||Repeated measures analysis|||MMP-Degraded CRP, 12-Week FU||1.267|0.870|0.597
92149791|NCT02799472|184184803|OTHER||Ratio|0.795||||0.047|TWO_SIDED|95.0|0.634|0.997|||Repeated measures analysis|||MD1C, Week 1||0.997|0.634|0.047
92149792|NCT02799472|184184803|OTHER||Ratio|0.883||||0.367|TWO_SIDED|95.0|0.668|1.165|||Repeated measures analysis|||MD1C, Week 2||1.165|0.668|0.367
92149793|NCT02799472|184184803|OTHER||Ratio|0.784||||0.155|TWO_SIDED|95.0|0.558|1.102|||Repeated measures analysis|||MD1C, Week 4||1.102|0.558|0.155
92149794|NCT02799472|184184803|OTHER||Ratio|0.638||||0.004|TWO_SIDED|95.0|0.477|0.855|||Repeated measures analysis|||MD1C, Week 6||0.855|0.477|0.004
92149795|NCT02799472|184184803|OTHER||Ratio|0.799||||0.14|TWO_SIDED|95.0|0.591|1.08|||Repeated measures analysis|||MD1C, Week 8||1.080|0.591|0.140
92149796|NCT02799472|184184803|OTHER||Ratio|0.891||||0.47|TWO_SIDED|95.0|0.647|1.228|||Repeated measures analysis|||MD1C, Week 12||1.228|0.647|0.470
92273398|NCT01872689|184449212|SUPERIORITY||Median Difference (Final Values)|28.12302|STANDARD_ERROR_OF_MEAN|49.47253||0.5707|TWO_SIDED|95.0|-69.8|126.04|||Mixed Models Analysis||Mean Difference = Lebrikizumab - Placebo|Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||126.04|-69.80|0.5707
92149797|NCT02799472|184184803|OTHER||Ratio|0.869||||0.401|TWO_SIDED|95.0|0.621|1.217|||Repeated measures analysis|||MD1C, 12-Week FU||1.217|0.621|0.401
92149798|NCT02799472|184184803|OTHER||Ratio|0.981||||0.887|TWO_SIDED|95.0|0.742|1.296|||Repeated measures analysis|||MD2C, Week 1||1.296|0.742|0.887
92149799|NCT02799472|184184803|OTHER||Ratio|0.97||||0.814|TWO_SIDED|95.0|0.744|1.263|||Repeated measures analysis|||MD2C, Week 2||1.263|0.744|0.814
92149800|NCT02799472|184184803|OTHER||Ratio|0.969||||0.794|TWO_SIDED|95.0|0.762|1.233|||Repeated measures analysis|||MD2C, Week 4||1.233|0.762|0.794
92149801|NCT02799472|184184803|OTHER||Ratio|0.919||||0.539|TWO_SIDED|95.0|0.696|1.213|||Repeated measures analysis|||MD2C, Week 6||1.213|0.696|0.539
92149802|NCT02799472|184184803|OTHER||Ratio|0.937||||0.623|TWO_SIDED|95.0|0.719|1.221|||Repeated measures analysis|||MD2C, Week 8||1.221|0.719|0.623
92149803|NCT02799472|184184803|OTHER||Ratio|0.913||||0.467|TWO_SIDED|95.0|0.711|1.173|||Repeated measures analysis|||MD2C, Week 12||1.173|0.711|0.467
92149804|NCT02799472|184184803|OTHER||Ratio|0.778||||0.108|TWO_SIDED|95.0|0.57|1.061|||Repeated measures analysis|||MD2C, 12-Week FU||1.061|0.570|0.108
92149805|NCT02799472|184184803|OTHER||Ratio|1.01||||0.897|TWO_SIDED|95.0|0.868|1.175|||Repeated measures analysis|||MD3C, Week 1||1.175|0.868|0.897
92149806|NCT02799472|184184803|OTHER||Ratio|1.037||||0.644|TWO_SIDED|95.0|0.884|1.218|||Repeated measures analysis|||MD3C, Week 2||1.218|0.884|0.644
92149807|NCT02799472|184184803|OTHER||Ratio|0.943||||0.53|TWO_SIDED|95.0|0.78|1.139|||Repeated measures analysis|||MD3C, Week 4||1.139|0.780|0.530
92149808|NCT02799472|184184803|OTHER||Ratio|0.882||||0.182|TWO_SIDED|95.0|0.733|1.063|||Repeated measures analysis|||MD3C, Week 6||1.063|0.733|0.182
92149809|NCT02799472|184184803|OTHER||Ratio|0.96||||0.691|TWO_SIDED|10.0|0.779|1.182|||Repeated measures analysis|||MD3C, Week 8||1.182|0.779|0.691
92149810|NCT02799472|184184803|OTHER||Ratio|0.979||||0.843|TWO_SIDED|95.0|0.79|1.214|||Repeated measures analysis|||MD3C, Week 12||1.214|0.790|0.843
92149811|NCT02799472|184184803|OTHER||Ratio|1.075||||0.524|TWO_SIDED|95.0|0.855|1.351|||Repeated measures analysis|||MD3C, 12-Week FU||1.351|0.855|0.524
92149812|NCT02799472|184184804|OTHER||Ratio|0.953||||0.558|TWO_SIDED|95.0|0.809|1.123|||Repeated measures analysis|||Helper/Suppressor, Week 1||1.123|0.809|0.558
92149813|NCT02799472|184184804|OTHER||Ratio|0.947||||0.515|TWO_SIDED|95.0|0.801|1.12|||Repeated measures analysis|||Helper/Suppressor, Week 4||1.120|0.801|0.515
92149814|NCT02799472|184184804|OTHER||Ratio|1.046||||0.565|TWO_SIDED|95.0|0.895|1.222|||Repeated measures analysis|||Helper/Suppressor, Week 12||1.222|0.895|0.565
92149815|NCT02799472|184184804|OTHER||Ratio|1.013||||0.897|TWO_SIDED|95.0|0.822|1.249|||Repeated measures analysis|||Helper/Suppressor, 12-Week FU||1.249|0.822|0.897
92149816|NCT02799472|184184805|OTHER||Ratio|1.037||||0.786|TWO_SIDED|95.0|0.794|1.354|||Repeated measures analysis|||CD16+CD56+, Week 1||1.354|0.794|0.786
92149817|NCT02799472|184184805|OTHER||Ratio|0.818||||0.188|TWO_SIDED|95.0|0.603|1.109|||Repeated measures analysis|||CD16+CD56+, Week 4||1.109|0.603|0.188
92149818|NCT02799472|184184805|OTHER||Ratio|0.763||||0.129|TWO_SIDED|95.0|0.536|1.087|||Repeated measures analysis|||CD16+CD56+, Week 12||1.087|0.536|0.129
92149819|NCT02799472|184184805|OTHER||Ratio|0.709||||0.054|TWO_SIDED|95.0|0.499|1.006|||Repeated measures analysis|||CD16+CD56+, 12-Week FU||1.006|0.499|0.054
92149820|NCT02799472|184184805|OTHER||Ratio|1.119||||0.383|TWO_SIDED|95.0|0.863|1.45|||Repeated measures analysis|||CD19, Week 1||1.450|0.863|0.383
92149821|NCT02799472|184184805|OTHER||Ratio|0.89||||0.51|TWO_SIDED|95.0|0.623|1.271|||Repeated measures analysis|||CD19, Week 4||1.271|0.623|0.510
92149822|NCT02799472|184184805|OTHER||Ratio|0.952||||0.724|TWO_SIDED|95.0|0.718|1.262|||Repeated measures analysis|||CD19, Week 12||1.262|0.718|0.724
92149823|NCT02799472|184184805|OTHER||Ratio|0.958||||0.831|TWO_SIDED|95.0|0.635|1.443|||Repeated measures analysis|||CD19, 12-Week FU||1.443|0.635|0.831
92149824|NCT02799472|184184805|OTHER||Ratio|1.082||||0.437|TWO_SIDED|95.0|0.882|1.328|||Repeated measures analysis|||CD3, Week 1||1.328|0.882|0.437
92149825|NCT02799472|184184805|OTHER||Ratio|0.937||||0.632|TWO_SIDED|95.0|0.711|1.234|||Repeated measures analysis|||CD3, Week 4||1.234|0.711|0.632
92149826|NCT02799472|184184805|OTHER||Ratio|1.088||||0.413|TWO_SIDED|95.0|0.885|1.336|||Repeated measures analysis|||CD3, Week 12||1.336|0.885|0.413
92149827|NCT02799472|184184805|OTHER||Ratio|1.062||||0.567|TWO_SIDED|95.0|0.858|1.316|||Repeated measures analysis|||CD3, 12-Week FU||1.316|0.858|0.567
92149828|NCT02799472|184184805|OTHER||Ratio|1.069||||0.547|TWO_SIDED|95.0|0.855|1.338|||Repeated measures analysis|||CD3+CD4+, Week 1||1.338|0.855|0.547
92149829|NCT02799472|184184805|OTHER||Ratio|0.907||||0.512|TWO_SIDED|95.0|0.673|1.223|||Repeated measures analysis|||CD3+CD4+, Week 4||1.223|0.673|0.512
92149830|NCT02799472|184184805|OTHER||Ratio|1.064||||0.573|TWO_SIDED|95.0|0.853|1.328|||Repeated measures analysis|||CD3+CD4+, Week 12||1.328|0.853|0.573
92149831|NCT02799472|184184805|OTHER||Ratio|1.031||||0.789|TWO_SIDED|95.0|0.818|1.3|||Repeated measures analysis|||CD3+CD4+, 12-Week FU||1.300|0.818|0.789
92149832|NCT02799472|184184806|OTHER||Mean Difference (Net)|0.036||||0.428|TWO_SIDED|95.0|-0.056|0.128|||Repeated measures analysis|||CD3+CD8+, Week 1||0.128|-0.056|0.428
92149833|NCT02799472|184184806|OTHER||Mean Difference (Net)|-0.023||||0.733|TWO_SIDED|95.0|-0.159|0.113|||Repeated measures analysis|||CD3+CD8+, Week 4||0.113|-0.159|0.733
92149834|NCT02799472|184184806|OTHER||Mean Difference (Net)|0.02||||0.677|TWO_SIDED|95.0|-0.076|0.115|||Repeated measures analysis|||CD3+CD8+, Week 12||0.115|-0.076|0.677
92149835|NCT02799472|184184806|OTHER||Mean Difference (Net)|0.033||||0.569|TWO_SIDED|95.0|-0.084|0.151|||Repeated measures analysis|||CD3+CD8+, 12-Week FU||0.151|-0.084|0.569
92149836|NCT02799472|184184806|OTHER||Mean Difference (Net)|0.103||||0.569|TWO_SIDED|95.0|-0.263|0.469|||Repeated measures analysis|||T Cell B Cell NKL, Week 1||0.469|-0.263|0.569
92149837|NCT02799472|184184806|OTHER||Mean Difference (Net)|-0.157||||0.534|TWO_SIDED|95.0|-0.668|0.354|||Repeated measures analysis|||T Cell B Cell NKL, Week 4||0.354|-0.668|0.534
92149838|NCT02799472|184184806|OTHER||Mean Difference (Net)|0.087||||0.668|TWO_SIDED|95.0|-0.323|0.498|||Repeated measures analysis|||T Cell B Cell NKL, Week 12||0.498|-0.323|0.668
92149839|NCT02799472|184184806|OTHER||Mean Difference (Net)|-0.021||||0.934|TWO_SIDED|95.0|-0.526|0.484|||Repeated measures analysis|||T Cell B Cell NKL, 12-Week FU||0.484|-0.526|0.934
92149840|NCT02799472|184184807|OTHER||Ratio|1.112||||0.369|TWO_SIDED|95.0|0.876|1.412|||Repeated measures analysis|||CD3+ CD4+, Week 1||1.412|0.876|0.369
92149841|NCT02799472|184184807|OTHER||Ratio|0.941||||0.641|TWO_SIDED|95.0|0.721|1.228|||Repeated measures analysis|||CD3+ CD4+, Week 4||1.228|0.721|0.641
92149842|NCT02799472|184184807|OTHER||Ratio|1.024||||0.844|TWO_SIDED|95.0|0.804|1.303|||Repeated measures analysis|||CD3+ CD4+, Week 12||1.303|0.804|0.844
92149843|NCT02799472|184184807|OTHER||Ratio|1.082||||0.558|TWO_SIDED|95.0|0.821|1.427|||Repeated measures analysis|||CD3+ CD4+, 12-Week FU||1.427|0.821|0.558
92149844|NCT02799472|184184807|OTHER||Ratio|1.111||||0.363|TWO_SIDED|95.0|0.88|1.402|||Repeated measures analysis|||CD3+ CD8+, Week 1||1.402|0.880|0.363
92149845|NCT02799472|184184807|OTHER||Ratio|0.957||||0.751|TWO_SIDED|95.0|0.724|1.265|||Repeated measures analysis|||CD3+ CD8+, Week 4||1.265|0.724|0.751
92149846|NCT02799472|184184807|OTHER||Ratio|1.076||||0.537|TWO_SIDED|95.0|0.846|1.37|||Repeated measures analysis|||CD3+ CD8+, Week 12||1.370|0.846|0.537
92212111|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|7.61||0.4454|TWO_SIDED|95.0|-20.9|9.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||9.2|-20.9|0.4454
92397640|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|8.23||||0.0009|TWO_SIDED|95.0|2.38|28.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||28.44|2.38|0.0009
92149847|NCT02799472|184184807|OTHER||Ratio|1.032||||0.806|TWO_SIDED|95.0|0.797|1.335|||Repeated measures analysis|||CD3+ CD8+, 12-Week FU||1.335|0.797|0.806
92149848|NCT02799472|184184807|OTHER||Ratio|1.101||||0.405|TWO_SIDED|95.0|0.872|1.391|||Repeated measures analysis|||CD3+, Week 1||1.391|0.872|0.405
92149849|NCT02799472|184184807|OTHER||Ratio|0.907||||0.519|TWO_SIDED|95.0|0.668|1.232|||Repeated measures analysis|||CD3+, Week 4||1.232|0.668|0.519
92149850|NCT02799472|184184807|OTHER||Ratio|1.036||||0.748|TWO_SIDED|95.0|0.831|1.291|||Repeated measures analysis|||CD3+, Week 12||1.291|0.831|0.748
92149851|NCT02799472|184184807|OTHER||Ratio|1.049||||0.704|TWO_SIDED|95.0|0.811|1.356|||Repeated measures analysis|||CD3+, 12-Week FU||1.356|0.811|0.704
92149852|NCT02799472|184184808|OTHER||Mean Difference (Net)|6.5||||0.501|TWO_SIDED|95.0|-13.1|26.1|||Repeated measures analysis|||CD3+CD4+CD25+CD127-, Week 1||26.1|-13.1|0.501
92149853|NCT02799472|184184808|OTHER||Mean Difference (Net)|-1.8||||0.852|TWO_SIDED|95.0|-21.6|18.0|||Repeated measures analysis|||CD3+CD4+CD25+CD127-, Week 4||18.0|-21.6|0.852
92149854|NCT02799472|184184808|OTHER||Mean Difference (Net)|6.3||||0.572|TWO_SIDED|95.0|-16.4|29.0|||Repeated measures analysis|||CD3+CD4+CD25+CD127-, Week 12||29.0|-16.4|0.572
92149855|NCT02799472|184184808|OTHER||Mean Difference (Net)|10.5||||0.363|TWO_SIDED|95.0|-13.0|34.1|||Repeated measures analysis|||CD3+CD4+CD25+CD127-, 12-Week FU||34.1|-13.0|0.363
92149856|NCT02799472|184184808|OTHER||Mean Difference (Net)|2.0||||0.788|TWO_SIDED|95.0|-13.0|17.0|||Repeated measures analysis|||CD3+CD4+foxP3+CD25+CD127-, Week 1||17.0|-13.0|0.788
92149857|NCT02799472|184184808|OTHER||Mean Difference (Net)|-2.2||||0.786|TWO_SIDED|95.0|-18.8|14.4|||Repeated measures analysis|||CD3+CD4+foxP3+CD25+CD127-, Week 4||14.4|-18.8|0.786
92149858|NCT02799472|184184808|OTHER||Mean Difference (Net)|-7.1||||0.433|TWO_SIDED|95.0|-25.4|11.2|||Repeated measures analysis|||CD3+CD4+foxP3+CD25+CD127-, Week 12||11.2|-25.4|0.433
92149859|NCT02799472|184184808|OTHER||Mean Difference (Net)|4.1||||0.55|TWO_SIDED|95.0|-9.8|18.0|||Repeated measures analysis|||CD3+CD4+foxP3+CD25+CD127-, 12-Week FU||18.0|-9.8|0.550
92149860|NCT02799472|184184809|OTHER||Mean Difference (Net)|14.6||||0.35|TWO_SIDED|95.0|-16.9|46.1|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3+38+DR+, Week 1||46.1|-16.9|0.350
92149861|NCT02799472|184184809|OTHER||Mean Difference (Net)|8.4||||0.697|TWO_SIDED|95.0|-35.3|52.0|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3+38+DR+, Week 4||52.0|-35.3|0.697
92149862|NCT02799472|184184809|OTHER||Mean Difference (Net)|-49.2||||0.249|TWO_SIDED|95.0|-135.2|36.8|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3+38+DR+, Week 12||36.8|-135.2|0.249
92149863|NCT02799472|184184809|OTHER||Mean Difference (Net)|-30.1||||0.119|TWO_SIDED|95.0|-68.6|8.3|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3+38+DR+, 12-Week FU||8.3|-68.6|0.119
92149864|NCT02799472|184184809|OTHER||Mean Difference (Net)|6.5||||0.403|TWO_SIDED|95.0|-9.3|22.4|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3-38+DR+, Week 1||22.4|-9.3|0.403
92149865|NCT02799472|184184809|OTHER||Mean Difference (Net)|-2.1||||0.91|TWO_SIDED|95.0|-39.4|35.2|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3-38+DR+, Week 4||35.2|-39.4|0.910
92149866|NCT02799472|184184809|OTHER||Mean Difference (Net)|-6.5||||0.718|TWO_SIDED|95.0|-43.1|30.1|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3-38+DR+, Week 12||30.1|-43.1|0.718
92149867|NCT02799472|184184809|OTHER||Mean Difference (Net)|-5.7||||0.687|TWO_SIDED|95.0|-34.4|23.0|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3-38+DR+, 12-Week FU||23.0|-34.4|0.687
92149868|NCT02799472|184184809|OTHER||Mean Difference (Net)|-56.0||||0.559|TWO_SIDED|95.0|-249.8|137.7|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3+38+DR+, Week 1||137.7|-249.8|0.559
92149869|NCT02799472|184184809|OTHER||Mean Difference (Net)|51.6||||0.47|TWO_SIDED|95.0|-93.9|197.0|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3+38+DR+, Week 4||197.0|-93.9|0.470
92149870|NCT02799472|184184809|OTHER||Mean Difference (Net)|-141.5||||0.675|TWO_SIDED|95.0|-829.2|546.3|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3+38+DR+, Week 12||546.3|-829.2|0.675
92149871|NCT02799472|184184809|OTHER||Mean Difference (Net)|-137.9||||0.08|TWO_SIDED|95.0|-294.0|18.2|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3+38+DR+, 12-Week FU||18.2|-294.0|0.080
92397641|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|8.54||||0.0007|TWO_SIDED|95.0|2.46|29.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||29.63|2.46|0.0007
92149872|NCT02799472|184184809|OTHER||Mean Difference (Net)|0.4||||0.989|TWO_SIDED|95.0|-60.5|61.3|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3-38+DR+, Week 1||61.3|-60.5|0.989
92397642|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.76||||0.4152|TWO_SIDED|95.0|0.45|6.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.86|0.45|0.4152
92397643|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.29||||0.07|TWO_SIDED|95.0|0.91|11.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||11.93|0.91|0.0700
92397644|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|5.83||||0.0048|TWO_SIDED|95.0|1.71|19.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||19.84|1.71|0.0048
92397645|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.44||||0.1497|TWO_SIDED|95.0|0.72|8.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.23|0.72|0.1497
92397646|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.05||||0.0608|TWO_SIDED|95.0|0.95|9.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||9.77|0.95|0.0608
92397647|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|5.99||||0.0028|TWO_SIDED|95.0|1.85|19.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||19.34|1.85|0.0028
92397648|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|7.84||||0.0005|TWO_SIDED|95.0|2.45|25.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||25.13|2.45|0.0005
92397649|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.15||||0.8393|TWO_SIDED|95.0|0.3|4.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.39|0.30|0.8393
92397650|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|4.01||||0.0215|TWO_SIDED|95.0|1.23|13.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.10|1.23|0.0215
92397651|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|4.42||||0.0112|TWO_SIDED|95.0|1.4|13.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.94|1.40|0.0112
92397652|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.71||||0.3498|TWO_SIDED|95.0|0.55|5.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.29|0.55|0.3498
92397653|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.05||||0.1981|TWO_SIDED|95.0|0.69|6.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.08|0.69|0.1981
92397654|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0029|TWO_SIDED|95.0|1.76|15.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||15.78|1.76|0.0029
92397655|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|5.95||||0.0011|TWO_SIDED|95.0|2.03|17.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||17.40|2.03|0.0011
92397656|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9511|TWO_SIDED|95.0|0.29|3.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.23|0.29|0.9511
92397657|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.76||||0.3241|TWO_SIDED|95.0|0.57|5.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.45|0.57|0.3241
92397658|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.9||||0.0111|TWO_SIDED|95.0|1.36|11.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||11.16|1.36|0.0111
92397659|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.51||||0.1375|TWO_SIDED|95.0|0.74|8.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.48|0.74|0.1375
92149873|NCT02799472|184184809|OTHER||Mean Difference (Net)|-17.4||||0.634|TWO_SIDED|95.0|-94.3|59.6|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3-38+DR+, Week 4||59.6|-94.3|0.634
92149874|NCT02799472|184184809|OTHER||Mean Difference (Net)|59.4||||0.789|TWO_SIDED|95.0|-395.2|513.9|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3-38+DR+, Week 12||513.9|-395.2|0.789
92149875|NCT02799472|184184809|OTHER||Mean Difference (Net)|-47.2||||0.249|TWO_SIDED|95.0|-135.5|41.0|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3-38+DR+, 12-Week FU||41.0|-135.5|0.249
92149876|NCT02799472|184184809|OTHER||Mean Difference (Net)|3682.3||||0.234|TWO_SIDED|95.0|-2511.9|9876.5|||Repeated measures analysis|||CD45+CD3+CD8-CD4+, Week 1||9876.5|-2511.9|0.234
92149877|NCT02799472|184184809|OTHER||Mean Difference (Net)|-547.6||||0.875|TWO_SIDED|95.0|-7612.6|6517.3|||Repeated measures analysis|||CD45+CD3+CD8-CD4+, Week 4||6517.3|-7612.6|0.875
92149878|NCT02799472|184184809|OTHER||Mean Difference (Net)|-1106.0||||0.815|TWO_SIDED|95.0|-10706.0|8494.1|||Repeated measures analysis|||CD45+CD3+CD8-CD4+, Week 12||8494.1|-10706.0|0.815
92149879|NCT02799472|184184809|OTHER||Mean Difference (Net)|-3631.0||||0.23|TWO_SIDED|95.0|-9738.9|2476.8|||Repeated measures analysis|||CD45+CD3+CD8-CD4+, 12-Week FU||2476.8|-9738.9|0.230
92149880|NCT02799472|184184809|OTHER||Mean Difference (Net)|-515.6||||0.489|TWO_SIDED|95.0|-2021.4|990.1|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3+, Week 1||990.1|-2021.4|0.489
92149881|NCT02799472|184184809|OTHER||Mean Difference (Net)|-199.8||||0.822|TWO_SIDED|95.0|-2001.7|1602.0|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3+, Week 4||1602.0|-2001.7|0.822
92149882|NCT02799472|184184809|OTHER||Mean Difference (Net)|-253.5||||0.784|TWO_SIDED|95.0|-2136.7|1629.7|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3+, Week 12||1629.7|-2136.7|0.784
92149883|NCT02799472|184184809|OTHER||Mean Difference (Net)|225.1||||0.804|TWO_SIDED|95.0|-1633.1|2083.2|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3+, 12-Week FU||2083.2|-1633.1|0.804
92149884|NCT02799472|184184809|OTHER||Mean Difference (Net)|162.7||||0.719|TWO_SIDED|95.0|-754.5|1079.9|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3-, Week 1||1079.9|-754.5|0.719
92149885|NCT02799472|184184809|OTHER||Mean Difference (Net)|-183.5||||0.742|TWO_SIDED|95.0|-1317.4|950.3|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3-, Week 4||950.3|-1317.4|0.742
92149886|NCT02799472|184184809|OTHER||Mean Difference (Net)|-268.5||||0.658|TWO_SIDED|95.0|-1507.5|970.5|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3-, Week 12||970.5|-1507.5|0.658
92149887|NCT02799472|184184809|OTHER||Mean Difference (Net)|-197.6||||0.755|TWO_SIDED|95.0|-1499.3|1104.2|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3-, 12-Week FU||1104.2|-1499.3|0.755
92149888|NCT02799472|184184809|OTHER||Mean Difference (Net)|1150.0||||0.333|TWO_SIDED|95.0|-1250.0|3550.0|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3+, Week 1||3550.0|-1250.0|0.333
92149889|NCT02799472|184184809|OTHER||Mean Difference (Net)|-268.0||||0.891|TWO_SIDED|95.0|-4269.2|3733.3|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3+, Week 4||3733.3|-4269.2|0.891
92149890|NCT02799472|184184809|OTHER||Mean Difference (Net)|-1347.4||||0.633|TWO_SIDED|95.0|-7073.1|4378.3|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3+, Week 12||4378.3|-7073.1|0.633
92149891|NCT02799472|184184809|OTHER||Mean Difference (Net)|-1688.9||||0.41|TWO_SIDED|95.0|-5864.1|2486.2|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3+, 12-Week FU||2486.2|-5864.1|0.410
92149892|NCT02799472|184184809|OTHER||Mean Difference (Net)|3276.8||||0.196|TWO_SIDED|95.0|-1786.0|8339.6|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3-, Week 1||8339.6|-1786.0|0.196
92149893|NCT02799472|184184809|OTHER||Mean Difference (Net)|-447.3||||0.894|TWO_SIDED|95.0|-7285.5|6390.8|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3-, Week 4||6390.8|-7285.5|0.894
92149894|NCT02799472|184184809|OTHER||Mean Difference (Net)|1435.3||||0.6|TWO_SIDED|95.0|-4101.4|6972.0|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3-, Week 12||6972.0|-4101.4|0.600
92149895|NCT02799472|184184809|OTHER||Mean Difference (Net)|-1210.2||||0.534|TWO_SIDED|95.0|-5213.1|2792.7|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3-, 12-Week FU||2792.7|-5213.1|0.534
92149896|NCT02799472|184184810|OTHER||Mean Difference (Net)|2756.3||||0.328|TWO_SIDED|95.0|-2953.7|8466.3|||Repeated measures analysis|||CD14-HLA-DR+CD11cbr+CD123-, Week 1||8466.3|-2953.7|0.328
92149897|NCT02799472|184184810|OTHER||Mean Difference (Net)|-487.5||||0.895|TWO_SIDED|95.0|-8003.7|7028.6|||Repeated measures analysis|||CD14-HLA-DR+CD11cbr+CD123-, Week 4||7028.6|-8003.7|0.895
92149898|NCT02799472|184184810|OTHER||Mean Difference (Net)|-277.4||||0.961|TWO_SIDED|95.0|-12001.0|11446.2|||Repeated measures analysis|||CD14-HLA-DR+CD11cbr+CD123-, Week 12||11446.2|-12001.0|0.961
92149899|NCT02799472|184184810|OTHER||Mean Difference (Net)|-311.6||||0.956|TWO_SIDED|95.0|-11960.5|11337.4|||Repeated measures analysis|||CD14-HLA-DR+CD11cbr+CD123-, 12-Week FU||11337.4|-11960.5|0.956
92149900|NCT02799472|184184810|OTHER||Mean Difference (Net)|6866.9||||0.212|TWO_SIDED|95.0|-4230.7|17964.6|||Repeated measures analysis|||CD14br+CD16+, Week 1||17964.6|-4230.7|0.212
92149901|NCT02799472|184184810|OTHER||Mean Difference (Net)|8359.6||||0.227|TWO_SIDED|95.0|-5533.3|22252.5|||Repeated measures analysis|||CD14br+CD16+, Week 4||22252.5|-5533.3|0.227
92149902|NCT02799472|184184810|OTHER||Mean Difference (Net)|-22683.6||||0.04|TWO_SIDED|95.0|-44298.5|-1068.8|||Repeated measures analysis|||CD14br+CD16+, Week 12||-1068.8|-44298.5|0.040
92149903|NCT02799472|184184810|OTHER||Mean Difference (Net)|-3757.2||||0.741|TWO_SIDED|95.0|-27146.0|19631.6|||Repeated measures analysis|||CD14br+CD16+, 12-Week FU||19631.6|-27146.0|0.741
92149904|NCT02799472|184184810|OTHER||Mean Difference (Net)|-22417.0||||0.628|TWO_SIDED|95.0|-116677.8|71843.8|||Repeated measures analysis|||CD14br+CD16-, Week 1||71843.8|-116677.8|0.628
92149905|NCT02799472|184184810|OTHER||Mean Difference (Net)|27659.7||||0.321|TWO_SIDED|95.0|-28567.8|83887.1|||Repeated measures analysis|||CD14br+CD16-, Week 4||83887.1|-28567.8|0.321
92149906|NCT02799472|184184810|OTHER||Mean Difference (Net)|16182.9||||0.704|TWO_SIDED|95.0|-70377.0|102742.9|||Repeated measures analysis|||CD14br+CD16-, Week 12||102742.9|-70377.0|0.704
92149907|NCT02799472|184184810|OTHER||Mean Difference (Net)|-63419.4||||0.232|TWO_SIDED|95.0|-170364.9|43526.1|||Repeated measures analysis|||CD14br+CD16-, 12-Week FU||43526.1|-170364.9|0.232
92149908|NCT02799472|184184810|OTHER||Mean Difference (Net)|-6913.6||||0.366|TWO_SIDED|95.0|-22588.4|8761.1|||Repeated measures analysis|||CD14lo+CD16br+, Week 1||8761.1|-22588.4|0.366
92149909|NCT02799472|184184810|OTHER||Mean Difference (Net)|-2231.6||||0.603|TWO_SIDED|95.0|-10976.8|6513.6|||Repeated measures analysis|||CD14lo+CD16br+, Week 4||6513.6|-10976.8|0.603
92149910|NCT02799472|184184810|OTHER||Mean Difference (Net)|-10179.1||||0.084|TWO_SIDED|95.0|-21827.4|1469.2|||Repeated measures analysis|||CD14lo+CD16br+, Week 12||1469.2|-21827.4|0.084
92149911|NCT02799472|184184810|OTHER||Mean Difference (Net)|-20744.2||||0.026|TWO_SIDED|95.0|-38771.8|-2716.5|||Repeated measures analysis|||CD14lo+CD16br+, 12-Week FU||-2716.5|-38771.8|0.026
92149912|NCT02799472|184184811|OTHER||Mean Difference (Net)|178.2||||0.564|TWO_SIDED|95.0|-448.3|804.6|||Repeated measures analysis|||Week 1||804.6|-448.3|0.564
92149913|NCT02799472|184184811|OTHER||Mean Difference (Net)|540.4||||0.216|TWO_SIDED|95.0|-335.7|1416.5|||Repeated measures analysis|||Week 4||1416.5|-335.7|0.216
92149914|NCT02799472|184184811|OTHER||Mean Difference (Net)|-252.6||||0.629|TWO_SIDED|95.0|-1326.0|820.8|||Repeated measures analysis|||Week 12||820.8|-1326.0|0.629
92149915|NCT02799472|184184811|OTHER||Mean Difference (Net)|41.6||||0.932|TWO_SIDED|95.0|-962.2|1045.5|||Repeated measures analysis|||12-Week FU||1045.5|-962.2|0.932
92149916|NCT02799472|184184819|OTHER||Median Difference (Net)|-0.13||||0.547|TWO_SIDED|95.0|-2.32|2.23|||Repeated Measures Bayesian Model|||Week 4, For Posterior Probability Difference \<0||2.23|-2.32|0.547
92149917|NCT02799472|184184819|OTHER||Median Difference (Net)|-2.18||||0.948|TWO_SIDED|95.0|-4.77|0.51|||Repeated Measures Bayesian Model|||Week 12, For Posterior Probability Difference \<0||0.51|-4.77|0.948
92149918|NCT02799472|184184819|OTHER||Median Difference (Net)|-2.28||||0.949|TWO_SIDED|95.0|-5.02|0.45|||Repeated Measures Bayesian Model|||12-Week FU, For Posterior Probability Difference \<0||0.45|-5.02|0.949
92149919|NCT02799472|184184819|OTHER||Median Difference (Net)|-0.13||||0.453|TWO_SIDED|95.0|-2.32|2.23|||Repeated Measures Bayesian Model|||Week 4, For Posterior Probability Difference \>0||2.23|-2.32|0.453
92149920|NCT02799472|184184819|OTHER||Median Difference (Net)|-2.18||||0.052|TWO_SIDED|95.0|-4.77|0.51|||Repeated Measures Bayesian Model|||Week 12, For Posterior Probability Difference \>0||0.51|-4.77|0.052
92149921|NCT02799472|184184819|OTHER||Median Difference (Net)|-2.28||||0.051|TWO_SIDED|95.0|-5.02|0.45|||Repeated Measures Bayesian Model|||12-Week FU, For Posterior Probability Difference \>0||0.45|-5.02|0.051
92212112|NCT03816891|184324396|SUPERIORITY||LS Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|7.28||0.7638|TWO_SIDED|95.0|-12.2|16.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed ( ≥ 10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||16.6|-12.2|0.7638
92336649|NCT02559570|184576081|SUPERIORITY||Least Squares Mean Difference|-0.186|STANDARD_ERROR_OF_MEAN|0.557||0.7384|TWO_SIDED|95.0|-1.286|0.913|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.913|-1.286|0.7384
92149922|NCT02799472|184184820|OTHER||Mean Difference (Net)|0.0||||0.94|TWO_SIDED|95.0|-0.2|0.3|||Repeated measures analysis|||Week 4||0.3|-0.2|0.940
92149923|NCT02799472|184184820|OTHER||Mean Difference (Net)|-0.8||||0.521|TWO_SIDED|95.0|-3.2|1.6|||Repeated measures analysis|||Week 12||1.6|-3.2|0.521
92149924|NCT02799472|184184820|OTHER||Mean Difference (Net)|-1.3||||0.396|TWO_SIDED|95.0|-4.4|1.8|||Repeated measures analysis|||12-Week FU||1.8|-4.4|0.396
92149925|NCT02799472|184184821|OTHER||Mean Difference (Net)|0.0||||0.945|TWO_SIDED|95.0|-1.1|1.2|||Repeated measures analysis|||Week 4||1.2|-1.1|0.945
92149926|NCT02799472|184184821|OTHER||Mean Difference (Net)|-0.4||||0.475|TWO_SIDED|95.0|-1.5|0.7|||Repeated measures analysis|||Week 12||0.7|-1.5|0.475
92149927|NCT02799472|184184821|OTHER||Mean Difference (Net)|-0.9||||0.086|TWO_SIDED|95.0|-2.0|0.1|||Repeated measures analysis|||12-Week FU||0.1|-2.0|0.086
92149928|NCT02799472|184184822|OTHER||Mean Difference (Net)|211.4||||0.874|TWO_SIDED|95.0|-2589.2|3012.0|||Repeated measures analysis|||Week 4||3012.0|-2589.2|0.874
92149929|NCT02799472|184184822|OTHER||Mean Difference (Net)|-504.8||||0.749|TWO_SIDED|95.0|-3730.4|2720.9|||Repeated measures analysis|||Week 12||2720.9|-3730.4|0.749
92149930|NCT02799472|184184822|OTHER||Mean Difference (Net)|-1536.0||||0.352|TWO_SIDED|95.0|-4884.2|1812.1|||Repeated measures analysis|||12-Week FU||1812.1|-4884.2|0.352
92149931|NCT02799472|184184823|OTHER||Mean Difference (Net)|0.0128||||0.291|TWO_SIDED|95.0|-0.0123|0.038|||Repeated measures analysis|||Week 4||0.0380|-0.0123|0.291
92149932|NCT02799472|184184823|OTHER||Mean Difference (Net)|0.0036||||0.375|TWO_SIDED|95.0|-0.0046|0.0118|||Repeated measures analysis|||Week 12||0.0118|-0.0046|0.375
92149933|NCT02799472|184184823|OTHER||Mean Difference (Net)|0.001||||0.588|TWO_SIDED|95.0|-0.0028|0.0049|||Repeated measures analysis|||12-Week FU||0.0049|-0.0028|0.588
92149934|NCT02799472|184184824|OTHER||Mean Difference (Net)|-0.0002||||0.915|TWO_SIDED|95.0|-0.0033|0.0029|||Repeated measures analysis|||Week 4||0.0029|-0.0033|0.915
92149935|NCT02799472|184184824|OTHER||Mean Difference (Net)|-0.0004||||0.771|TWO_SIDED|95.0|-0.0028|0.0021|||Repeated measures analysis|||Week 12||0.0021|-0.0028|0.771
92149936|NCT02799472|184184824|OTHER||Mean Difference (Net)|0.0005||||0.85|TWO_SIDED|95.0|-0.0048|0.0058|||Repeated measures analysis|||12-Week FU||0.0058|-0.0048|0.850
92149937|NCT02801669|184184825|OTHER||Cox Proportional Hazard|0.339||||0.0003|TWO_SIDED|95.0|0.188|0.608|||Regression, Cox|The treatment groups were compared using a Cox proportional hazard model with the CHADS2 score (\<= 2 or \>= 3) as covariate.||This statistical analysis assesses the annual incidence of composite event of stroke and SEE between treatment groups.||0.608|0.188|0.0003
92149938|NCT02801669|184184826|OTHER||Cox Proportional Hazard|0.299|||||TWO_SIDED|95.0|0.157|0.57|||||The treatment groups were compared using a Cox proportional hazard model with the CHADS2 score (\<= 2 or \>= 3) as covariate.|This statistical analysis assesses the annual incidence of stroke between treatment groups.||0.570|0.157|
92149939|NCT02801669|184184826|OTHER||Cox Proportional Hazard|0.503|||||TWO_SIDED|95.0|0.126|2.011|||||The treatment groups were compared using a Cox proportional hazard model with the CHADS2 score (\<= 2 or \>= 3) as covariate.|This statistical analysis assesses the annual incidence of SEE between treatment groups.||2.011|0.126|
92212113|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.95||||0.5673|TWO_SIDED|95.0|0.18|20.86||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 1||20.86|0.18|0.5673
92149940|NCT02801669|184184826|OTHER||Cox Proportional Hazard|0.306|||||TWO_SIDED|95.0|0.16|0.585|||||The treatment groups were compared using a Cox proportional hazard model with the CHADS2 score (\<= 2 or \>= 3) as covariate.|This statistical analysis assesses the annual incidence of ischemic stroke between treatment groups.||0.585|0.160|
92149941|NCT02801669|184184826|OTHER||Cox Proportional Hazard|0.347|||||TWO_SIDED|95.0|0.193|0.624|||||The treatment groups were compared using a Cox proportional hazard model with the CHADS2 score (\<= 2 or \>= 3) as covariate.|This statistical analysis assesses the annual incidence of ischemic stroke/SEE between treatment groups.||0.624|0.193|
92149942|NCT00462670|184184838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.58|-0.6|||t-test, 2 sided|||||-0.60|-1.58|<0.0001
92149943|NCT00462670|184184839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|0.45|<|0.0001|TWO_SIDED|95.0|-2.54|-0.92|||t-test, 2 sided|||||-0.92|-2.54|<0.0001
92149944|NCT00615264|184184847|SUPERIORITY_OR_OTHER|||||||0.2851|||||||Mixed Models Analysis|Calculated with terms for treatment, visit, treatment by visit interaction, baseline C-peptide and country with the unstructured option for the matrix||||||0.2851
92149945|NCT00615264|184184848|SUPERIORITY_OR_OTHER|||||||0.769|||||||Mixed Models Analysis|Calculated with terms for treatment, visit, treatment by visit interaction, baseline C-peptide and country with the unstructured option for the matrix||||||0.7690
92149946|NCT00548132|184184849|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.46|STANDARD_DEVIATION|0.05||0.05|TWO_SIDED|95.0|0.24|0.9|||Cochran-Mantel-Haenszel|This was calculated based on the assumption that only 85% of eligible patients will consent to the study.|The standard of care is the numerator and the intervention group is the denominator|The null hypothesis is that the Bloostream infection per 1000 catheter days will be similar in both groups. In 2004, 6122 catheter days occurred in by both ICUs. If 15% of these were excluded, then 5203 catheter days/year will be eligible for analysis. The difference in infection rates will reach statistical significance at 12 months with a P-value of 0.04. At 24 months, the P-value will be more significant at 0.006.||0.90|0.24|0.05
92149947|NCT01187914|184184851|SUPERIORITY_OR_OTHER||Regression coefficient|0.13||||0.48||95.0|||||Regression, Linear|||||||0.48
92149948|NCT02884414|184184867|OTHER|Paired Student's t-test.||||||0.44|||||||t-test, 2 sided|||||||0.44
92212114|NCT03816891|184324397|SUPERIORITY|||||||0.3173||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 1||||0.3173
92149949|NCT01982435|184184869|OTHER|Measures were summarized using means, range and standard error of the means (SEM).|||||<|0.05||||||Two-sided paired t-tests and two-sided unpaired t-tests were respectively conducted to analyze efficacy endpoints between study initiation to end, and between monthly and TAE injection regimens.|t-test, 2 sided|||All analyses were performed with a significance level of 0.05 being assumed for all tests.||||<0.05
92149950|NCT03315936|184184900|OTHER||geometric mean (gMean) ratio (T/R) %|110.31|||||TWO_SIDED|90.0|100.73|120.79|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variation (%) = 12.3.|The analysis of variance (ANOVA) model on the logarithmic scale including 'sequence', 'period', and 'treatment' as fixed effects and 'subject within sequence' as random effect. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually 12 subjects were analyzed||120.79|100.73|
92149951|NCT03315936|184184901|OTHER||gMean ratio (T/R) %|110.83|||||TWO_SIDED|90.0|101.2|121.38|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variation (%) = 12.3.|The analysis of variance (ANOVA) model on the logarithmic scale including 'sequence', 'period', and 'treatment' as fixed effects and 'subject within sequence' as random effect. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually only 12 subjects were analyzed.||121.38|101.20|
92397660|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.02||||0.067|TWO_SIDED|95.0|0.93|9.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.83|0.93|0.0670
92397661|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|7.57||||0.0009|TWO_SIDED|95.0|2.29|25.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||25.04|2.29|0.0009
92149952|NCT03315936|184184902|OTHER||gMean ratio (T/R) %|110.46|||||TWO_SIDED|90.0|89.74|135.96|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variation (%) = 28.6.|The analysis of variance (ANOVA) model on the logarithmic scale including 'sequence', 'period', and 'treatment' as fixed effects and 'subject within sequence' as random effect. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually only 12 subjects were analyzed.||135.96|89.74|
92149953|NCT03541044|184184945|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for AUC0-t fell completely within the 0.80 - 1.25 range.|Geometric mean ratio|0.95|||||TWO_SIDED|90.0|0.91|1.0|||||GMR= (Prototype mini Lozenge/ Nicorette mini Lozenge)|||1.00|0.91|
92149954|NCT03541044|184184946|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for AUC(0-inf) fell completely within the 0.80 - 1.25 range.|Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.89|1.0|||||GMR = (Prototype mini Lozenge/Nicorette mini Lozenge)|||1.00|0.89|
92149955|NCT03541044|184184947|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for Cmax fell completely within the 0.80 - 1.25 range.|Geometric Mean Ratio|0.89|||||TWO_SIDED|90.0|0.82|0.98|||||GMR = (Prototype mini Lozenge/Nicorette mini Lozenge)|||0.98|0.82|
92212115|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.57||||0.7668|TWO_SIDED|95.0|0.08|29.41||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 1||29.41|0.08|0.7668
92212116|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|6.26||||0.052|TWO_SIDED|95.0|0.76|51.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 2||51.82|0.76|0.0520
92397662|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|9.42||||0.0002|TWO_SIDED|95.0|2.91|30.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||30.49|2.91|0.0002
92397663|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.75||||0.0982|TWO_SIDED|95.0|0.83|9.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.14|0.83|0.0982
92397664|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.6||||0.1233|TWO_SIDED|95.0|0.77|8.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.80|0.77|0.1233
92397665|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|4.63||||0.0091|TWO_SIDED|95.0|1.46|14.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||14.64|1.46|0.0091
92397666|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.03||||0.962|TWO_SIDED|95.0|0.34|3.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.10|0.34|0.9620
92397667|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3527|TWO_SIDED|95.0|0.58|4.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.59|0.58|0.3527
92397668|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.04||||0.0394|TWO_SIDED|95.0|1.06|8.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.76|1.06|0.0394
92397669|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0224|TWO_SIDED|95.0|1.19|9.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.53|1.19|0.0224
92397670|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7891|TWO_SIDED|95.0|0.39|3.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.44|0.39|0.7891
92397671|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.48||||0.0851|TWO_SIDED|95.0|0.88|6.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.99|0.88|0.0851
92397672|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.74||||0.2885|TWO_SIDED|95.0|0.63|4.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.83|0.63|0.2885
92397673|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|0.78||||0.8611|TWO_SIDED|95.0|0.05|13.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||13.30|0.05|0.8611
92397674|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.48||||0.7549|TWO_SIDED|95.0|0.13|17.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||17.42|0.13|0.7549
92397675|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|2.07||||0.5658|TWO_SIDED|95.0|0.17|24.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||24.66|0.17|0.5658
92273399|NCT01872689|184449212|SUPERIORITY||Mean Difference (Final Values)|21.72972|STANDARD_ERROR_OF_MEAN|31.68767||0.4934|TWO_SIDED|95.0|-40.65|84.11|||Mixed Models Analysis||Mean Difference = Lebrikizumab - Placebo|Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||84.11|-40.65|0.4934
92397676|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.83||||0.6319|TWO_SIDED|95.0|0.15|21.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||21.86|0.15|0.6319
92397677|NCT03192176|184689406|SUPERIORITY||Odds Ratio (OR)|1.09||||0.9526|TWO_SIDED|95.0|0.06|18.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||18.96|0.06|0.9526
92397678|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.74||||0.2251|TWO_SIDED|95.0|0.71|4.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||4.26|0.71|0.2251
92212117|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.2||||0.5457|TWO_SIDED|95.0|0.17|28.14||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 2||28.14|0.17|0.5457
92212118|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|6.77||||0.1053|TWO_SIDED|95.0|0.57|79.79||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 2||79.79|0.57|0.1053
92212119|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|11.3||||0.0043|TWO_SIDED|95.0|1.45|88.33||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 3||88.33|1.45|0.0043
92212120|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.06|18.08||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 3||18.08|0.06|1.0000
92212121|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|6.81||||0.1006|TWO_SIDED|95.0|0.59|79.12||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 3||79.12|0.59|0.1006
92212122|NCT03816891|184324397|SUPERIORITY||||||<|0.0001||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 4||||<0.0001
92212123|NCT03816891|184324397|SUPERIORITY|||||||0.0193||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 4||||0.0193
92212124|NCT03816891|184324397|SUPERIORITY|||||||0.0463||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 4||||0.0463
92212125|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|15.95||||0.0002|TWO_SIDED|95.0|2.26|112.81||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 5||112.81|2.26|0.0002
92212126|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|5.82||||0.0917|TWO_SIDED|95.0|0.62|54.99||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 5||54.99|0.62|0.0917
92212127|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|6.81||||0.1006|TWO_SIDED|95.0|0.59|79.12||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 5||79.12|0.59|0.1006
92212128|NCT03816891|184324397|SUPERIORITY|||||||0.0001||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 6||||0.0001
92212129|NCT03816891|184324397|SUPERIORITY|||||||0.0035||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 6||||0.0035
92212130|NCT03816891|184324397|SUPERIORITY|||||||0.0269||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 6||||0.0269
92212131|NCT03816891|184324397|SUPERIORITY||||||<|0.0001||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 7||||<0.0001
92212132|NCT03816891|184324397|SUPERIORITY|||||||0.0009||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 7||||0.0009
92212133|NCT03816891|184324397|SUPERIORITY|||||||0.0098||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 7||||0.0098
92212134|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|28.79|||<|0.0001|TWO_SIDED|95.0|3.21|258.26||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 8||258.26|3.21|<0.0001
92397679|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.57||||0.0084|TWO_SIDED|95.0|1.39|9.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||9.20|1.39|0.0084
92212135|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|10.16||||0.0074|TWO_SIDED|95.0|1.31|79.08||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 8||79.08|1.31|0.0074
92212136|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|3.09||||0.2466|TWO_SIDED|95.0|0.37|26.06||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 8||26.06|0.37|0.2466
92212137|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|11.56||||0.0005|TWO_SIDED|95.0|2.37|56.49||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 9||56.49|2.37|0.0005
92212138|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|6.06||||0.014|TWO_SIDED|95.0|1.25|29.37||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 9||29.37|1.25|0.0140
92212139|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|3.7||||0.0823|TWO_SIDED|95.0|0.76|18.07||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 9||18.07|0.76|0.0823
92212140|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|9.38||||0.0002|TWO_SIDED|95.0|2.51|35.02||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 10||35.02|2.51|0.0002
92212141|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|4.65||||0.0197|TWO_SIDED|95.0|1.2|18.1||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 10||18.10|1.20|0.0197
92212142|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|3.94||||0.0392|TWO_SIDED|95.0|0.99|15.69||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 10||15.69|0.99|0.0392
92212143|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|13.93|||<|0.0001|TWO_SIDED|95.0|3.18|61.09||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 11||61.09|3.18|<0.0001
92212144|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|8.54||||0.0036|TWO_SIDED|95.0|1.72|42.37||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 11||42.37|1.72|0.0036
92212145|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|4.43||||0.0638|TWO_SIDED|95.0|0.81|24.23||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 11||24.23|0.81|0.0638
92212146|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|8.56||||0.0005|TWO_SIDED|95.0|2.28|32.07||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 12||32.07|2.28|0.0005
92212147|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|4.09||||0.0379|TWO_SIDED|95.0|1.03|16.19||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 12||16.19|1.03|0.0379
92212148|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.01||||0.3367|TWO_SIDED|95.0|0.46|8.78||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 12||8.78|0.46|0.3367
92212149|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|9.73||||0.0003|TWO_SIDED|95.0|2.46|38.51||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 13||38.51|2.46|0.0003
92212150|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|6.72||||0.0017|TWO_SIDED|95.0|1.82|24.75||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 13||24.75|1.82|0.0017
92212151|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.93||||0.0831|TWO_SIDED|95.0|0.79|10.83||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 13||10.83|0.79|0.0831
92397680|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|5.71||||0.0007|TWO_SIDED|95.0|2.09|15.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||15.62|2.09|0.0007
92212152|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|8.51||||0.0001|TWO_SIDED|95.0|2.58|28.06||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 14||28.06|2.58|0.0001
92212153|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|4.74||||0.0087|TWO_SIDED|95.0|1.41|15.94||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 14||15.94|1.41|0.0087
92212154|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.61||||0.1361|TWO_SIDED|95.0|0.73|9.37||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 14||9.37|0.73|0.1361
92212155|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|11.72|||<|0.0001|TWO_SIDED|95.0|3.08|44.56||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 15||44.56|3.08|<0.0001
92273400|NCT01872689|184449213|SUPERIORITY||Median Difference (Final Values)|-2.10204|STANDARD_ERROR_OF_MEAN|2.41325||0.3854|TWO_SIDED|95.0|-6.88|2.68|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||2.68|-6.88|0.3854
92212156|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|5.74||||0.0058|TWO_SIDED|95.0|1.51|21.75||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 15||21.75|1.51|0.0058
92212157|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|3.16||||0.1036|TWO_SIDED|95.0|0.77|13.03||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 15||13.03|0.77|0.1036
92212158|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|71.24|||<|0.0001|TWO_SIDED|95.0|5.35|948.31||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 16||948.31|5.35|<0.0001
92212159|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|11.62||||0.0019|TWO_SIDED|95.0|1.62|83.47||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 16||83.47|1.62|0.0019
92397681|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|5.11||||0.0015|TWO_SIDED|95.0|1.87|14.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||14.00|1.87|0.0015
92397682|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6976|TWO_SIDED|95.0|0.48|2.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||2.95|0.48|0.6976
92397683|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|4.57||||0.0021|TWO_SIDED|95.0|1.73|12.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.05|1.73|0.0021
92397684|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.06||||0.0171|TWO_SIDED|95.0|1.22|7.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||7.68|1.22|0.0171
92397685|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.86||||0.2224|TWO_SIDED|95.0|0.69|5.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.04|0.69|0.2224
92397686|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.74||||0.2716|TWO_SIDED|95.0|0.65|4.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.69|0.65|0.2716
92397687|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|4.49||||0.0112|TWO_SIDED|95.0|1.41|14.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||14.32|1.41|0.0112
92397688|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.08||||0.0461|TWO_SIDED|95.0|1.02|9.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||9.31|1.02|0.0461
92397689|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3463|TWO_SIDED|95.0|0.59|4.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.47|0.59|0.3463
92397690|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.05||||0.0419|TWO_SIDED|95.0|1.04|8.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.92|1.04|0.0419
92397691|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.68||||0.2977|TWO_SIDED|95.0|0.63|4.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.46|0.63|0.2977
92397692|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.87||||0.23|TWO_SIDED|95.0|0.67|5.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.21|0.67|0.2300
92397693|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.83||||0.0655|TWO_SIDED|95.0|0.94|8.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.58|0.94|0.0655
92149956|NCT00860067|184184952|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV was to be declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for post dose A/H1N1 GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the A/H1N1 post-dose GMT ratio: (FluMist B/Yamagata A/H1N1 + FluMist B/Victoria A/H1N1) divided by Q/LAIV A/H1N1.|Ratio of geometric mean|1.09|||||TWO_SIDED|95.0|1.01|1.18|||Bootstrapping|Confidence intervals calculated based on bootstrapping method.||A/H1N1: Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CI for the ratio of A/H1N1 GMTs for the specified comparison. Geometric mean titers for the A/H1N1 influenza antibody measurements were calculated as: GMT = antilog\^e (mean \[log\^e x\]) where x was the assay result and e was the natural logarithm.||1.18|1.01|
92212160|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|8.48||||0.0117|TWO_SIDED|95.0|1.14|68.26||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 16||68.26|1.14|0.0117
92397694|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.79||||0.0245|TWO_SIDED|95.0|1.19|12.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||12.11|1.19|0.0245
92397695|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|5.62||||0.0129|TWO_SIDED|95.0|1.44|21.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||21.93|1.44|0.0129
92149957|NCT00860067|184184952|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV was to be declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for post dose A/H3N2 GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the A/H3N2 post-dose GMT ratio: (FluMist B/Yamagata A/H3N2 + FluMist B/Victoria A/H3N2) divided by Q/LAIV A/H3N2.|Ratio of geometric means|1.05|||||TWO_SIDED|95.0|0.96|1.14|||Bootstrapping|Confidence intervals calculated based on bootstrapping method.||A/H3N2: Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CI for the ratio of A/H3N2 GMTs for the specified comparison. Geometric mean titers for the A/H3N2 influenza antibody measurements were calculated as: GMT = antilog\^e (mean \[log\^e x\]) where x was the assay result and e was the natural logarithm.||1.14|0.96|
92212161|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|6.97|||<|0.0001|TWO_SIDED|95.0|2.46|19.76||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 17||19.76|2.46|<0.0001
92397696|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.37||||0.1259|TWO_SIDED|95.0|0.79|7.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.15|0.79|0.1259
92212162|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|3.64||||0.0173|TWO_SIDED|95.0|1.23|10.74||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 17||10.74|1.23|0.0173
92212163|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.93||||0.2598|TWO_SIDED|95.0|0.63|6.0||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 17||6.00|0.63|0.2598
92212164|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|5.09||||0.0003|TWO_SIDED|95.0|1.98|13.11||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 18||13.11|1.98|0.0003
92212165|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0402|TWO_SIDED|95.0|1.05|8.02||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 18||8.02|1.05|0.0402
92212166|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.97||||0.2003|TWO_SIDED|95.0|0.7|5.51||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 18||5.51|0.70|0.2003
92212167|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|3.84||||0.0034|TWO_SIDED|95.0|1.52|9.67||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 19||9.67|1.52|0.0034
92212168|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.31||||0.0749|TWO_SIDED|95.0|0.92|5.8||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 19||5.80|0.92|0.0749
92212169|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1248|TWO_SIDED|95.0|0.82|5.02||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 19||5.02|0.82|0.1248
92212170|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.56||||0.0278|TWO_SIDED|95.0|1.09|6.03||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 20||6.03|1.09|0.0278
92212171|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.2||||0.7001|TWO_SIDED|95.0|0.48|2.97||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 20||2.97|0.48|0.7001
92212172|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.14||||0.7844|TWO_SIDED|95.0|0.46|2.84||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 20||2.84|0.46|0.7844
92212173|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0249|TWO_SIDED|95.0|1.12|6.44||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 21||6.44|1.12|0.0249
92397697|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.4||||0.1015|TWO_SIDED|95.0|0.84|6.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.82|0.84|0.1015
92212174|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.67||||0.0303|TWO_SIDED|95.0|1.09|6.54||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 21||6.54|1.09|0.0303
92212175|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.68||||0.2601|TWO_SIDED|95.0|0.69|4.12||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 21||4.12|0.69|0.2601
92212176|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0691|TWO_SIDED|95.0|0.94|5.46||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 22||5.46|0.94|0.0691
92212177|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|2.32||||0.0538|TWO_SIDED|95.0|0.98|5.52||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 22||5.52|0.98|0.0538
92212178|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6258|TWO_SIDED|95.0|0.52|2.94||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 22||2.94|0.52|0.6258
92212179|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.15||||0.7407|TWO_SIDED|95.0|0.5|2.63||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 23||2.63|0.50|0.7407
92212180|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.31||||0.5218|TWO_SIDED|95.0|0.57|3.06||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 23||3.06|0.57|0.5218
92212181|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9855|TWO_SIDED|95.0|0.43|2.34||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 23||2.34|0.43|0.9855
92397698|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|4.48||||0.0167|TWO_SIDED|95.0|1.31|15.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.33|1.31|0.0167
92212182|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7407|TWO_SIDED|95.0|0.5|2.68||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 24||2.68|0.50|0.7407
92149958|NCT00860067|184184952|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV was to be declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for post dose B/Yamagata GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the B/Yamagata post-dose GMT ratio: (FluMist B/Yamagata) divided by (Q/LAIV B/Yamagata).|Ratio of geometric mean|1.1|||||TWO_SIDED|95.0|0.97|1.25|||Bootstrapping|Confidence intervals calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CI for the ratio of B/Yamagata GMTs for the specified comparison. Geometric mean titers for the B/Yamagata influenza antibody measurements were calculated as: GMT = antilog\^e (mean \[log\^e x\]) where x was the assay result and e was the natural logarithm.||1.25|0.97|
92149959|NCT00860067|184184952|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV was to be declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for post dose B/Victoria GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the B/Victoria post-dose GMT ratio: (FluMist B/Victoria) divided by (Q/LAIV B/Victoria).|Ratio of geometric means|0.92|||||TWO_SIDED|95.0|0.82|1.03|||Bootstrapping|Confidence intervals were calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CI for the ratio of B/Victoria GMTs for the specified comparison. Geometric mean titers for the B/Victoria influenza antibody measurements were calculated as: GMT = antilog\^e (mean \[log\^e x\]) where x was the assay result and e was the natural logarithm.||1.03|0.82|
92149960|NCT00770432|184184994|SUPERIORITY_OR_OTHER|||||||0.0595||95.0|||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel adjusted for study site (the smallest study sites were pooled according to a pre-specified rule).||||||0.0595
92149961|NCT01498822|184184997|NON_INFERIORITY_OR_EQUIVALENCE|The primary analysis of this study aimed to demonstrate that LEV was noninferior to OXC with respect to the treatment failure rate in the Per Protocol Set. The noninferiority margin was 15 %.|Absolut difference|-10.7|||||TWO_SIDED|95.0|-20.2|-1.2|||Wald methodology||"Absolute difference in treatment failure rates of LEV versus OXC is defined as Treatment Failure Rate LEV minus Treatment Failure Rate OXC."|||-1.2|-20.2|
92149962|NCT03592277|184185001|SUPERIORITY|||||||0.344|||||||Chi-squared|||||||0.344
92149963|NCT03592277|184185002|SUPERIORITY|||||||0.526|||||||Chi-squared|||||||0.526
92149964|NCT03592277|184185003|SUPERIORITY|||||||0.123|||||||Chi-squared|||||||0.123
92149965|NCT03592277|184185004|SUPERIORITY|||||||0.66|||||||Fisher Exact|||||||0.660
92397699|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.4||||0.5232|TWO_SIDED|95.0|0.5|3.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||3.95|0.50|0.5232
92149966|NCT03592277|184185005|SUPERIORITY|||||||0.745|||||||t-test, 2 sided|||||||0.745
92149967|NCT03592277|184185006|SUPERIORITY|||||||0.236|||||||Chi-squared|||||||0.236
92149968|NCT02917265|184185024|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92149969|NCT02481375|184185029|OTHER||Marginal means|0.0|||<|0.05|TWO_SIDED|95.0|||||Regression, Linear|||Marginal means (95% CI) of ferritin concentrations at 12-weeks using a generalized mixed-effects model with adjustments for baseline values and village clusters||||<0.05
92149970|NCT05436912|184185040|OTHER||Geometric Mean Ratio|168.9||||0.3601|TWO_SIDED|90.0|61.3|465.3|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||465.3|61.3|0.3601
92212183|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.78||||0.1843|TWO_SIDED|95.0|0.76|4.17||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 24||4.17|0.76|0.1843
92212184|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.22||||0.6364|TWO_SIDED|95.0|0.54|2.77||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 24||2.77|0.54|0.6364
92149971|NCT05436912|184185040|OTHER||Geometric Mean Ratio|92.2||||0.9146|TWO_SIDED|90.0|23.0|368.9|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||368.9|23.0|0.9146
92149972|NCT05436912|184185040|OTHER||Geometric Mean Ratio|119.6||||0.7478|TWO_SIDED|90.0|43.4|329.3|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||329.3|43.4|0.7478
92149973|NCT05436912|184185042|OTHER||Geometric Mean Ratio|126.1||||0.4279|TWO_SIDED|90.0|74.8|212.8|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||212.8|74.8|0.4279
92149974|NCT05436912|184185042|OTHER||Geometric Mean Ratio|92.4||||0.8341|TWO_SIDED|90.0|46.4|183.9|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||183.9|46.4|0.8341
92149975|NCT05436912|184185042|OTHER||Geometric Mean Ratio|169.1||||0.1159|TWO_SIDED|90.0|97.1|294.6|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||294.6|97.1|0.1159
92149976|NCT05436912|184185043|OTHER||Geometric Mean Ratio|126.0||||0.4289|TWO_SIDED|90.0|74.8|212.4|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||212.4|74.8|0.4289
92212185|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9206|TWO_SIDED|95.0|0.45|2.4||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 25||2.40|0.45|0.9206
92212186|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.22||||0.6473|TWO_SIDED|95.0|0.52|2.87||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 25||2.87|0.52|0.6473
92212187|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.93||||0.8733|TWO_SIDED|95.0|0.4|2.15||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 25||2.15|0.40|0.8733
92212188|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.16||||0.738|TWO_SIDED|95.0|0.5|2.68||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 26||2.68|0.50|0.7380
92212189|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.47||||0.3768|TWO_SIDED|95.0|0.63|3.43||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 26||3.43|0.63|0.3768
92212190|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9363|TWO_SIDED|95.0|0.45|2.41||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (\>= 10 years vs. \< 10 years).|Cochran-Mantel-Haenszel|||Week 26||2.41|0.45|0.9363
92212191|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.38||||0.4558|TWO_SIDED|95.0|0.6|3.18||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 27||3.18|0.60|0.4558
92212192|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.36||||0.4883|TWO_SIDED|95.0|0.57|3.24||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 27||3.24|0.57|0.4883
92212193|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.84||||0.697|TWO_SIDED|95.0|0.36|1.96||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 27||1.96|0.36|0.6970
92212194|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.37||||0.4601|TWO_SIDED|95.0|0.6|3.16||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 28||3.16|0.60|0.4601
92212195|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.48||||0.3758|TWO_SIDED|95.0|0.63|3.51||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 28||3.51|0.63|0.3758
92149977|NCT05436912|184185043|OTHER||Geometric Mean Ratio|92.3||||0.8322|TWO_SIDED|90.0|46.5|183.3|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||183.3|46.5|0.8322
92212196|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.86||||0.7248|TWO_SIDED|95.0|0.36|2.02||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 28||2.02|0.36|0.7248
92149978|NCT05436912|184185043|OTHER||Geometric Mean Ratio|169.6||||0.1131|TWO_SIDED|90.0|97.6|294.6|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||294.6|97.6|0.1131
92149979|NCT02413463|184185080|SUPERIORITY|Chi-square test||||||0.18||||||This is the calculated p-value for the success rate in the Augmented Group Vs. Faden Group|Chi-squared|||An estimation of sample size was performed considering a study power of 0.8 with an alpha error of 0.05 aiming to detect a difference of 5 Δ in the postoperative angle disparity between the 2 groups, assuming a postoperative standard deviation of 6 Δ. Based on this estimation, a total of 24 eyes were found to be adequate in each group, and considering a 25% dropout during the follow-up, recruitment of 30 study subjects in each group was targeted||||0.18
92149980|NCT02413463|184185081|SUPERIORITY|||||||0.22||||||This is the calculated p-value for the postoperative angle of deviation with spectacles for distance in Augmented recession vs. Faden group (First row)|t-test, 2 sided|||||||0.22
92212197|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.37||||0.455|TWO_SIDED|95.0|0.6|3.11||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 29||3.11|0.60|0.4550
92212198|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.46||||0.3672|TWO_SIDED|95.0|0.64|3.35||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 29||3.35|0.64|0.3672
92149981|NCT02413463|184185082|SUPERIORITY|||||||0.02||||||This is the calculated p-value for the postoperative angle of deviation without spectacles for near in Augmented recession vs. Faden group (Second row)|t-test, 2 sided|||||||0.02
92212199|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.05||||0.912|TWO_SIDED|95.0|0.47|2.35||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 29||2.35|0.47|0.9120
92212200|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.48||||0.3506|TWO_SIDED|95.0|0.65|3.35||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 30||3.35|0.65|0.3506
92212201|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.35||||0.4969|TWO_SIDED|95.0|0.58|3.16||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 30||3.16|0.58|0.4969
92149982|NCT02413463|184185083|SUPERIORITY|||||||0.03||||||This is the calculated p-value for the postoperative angle disparity in the Augmented Group Vs. Faden Group|t-test, 2 sided|||||||0.03
92149983|NCT02413463|184185084|SUPERIORITY||||||<|0.01||||||This is the calculated p-value for the intraoperative time in the Augmented Group Vs. Faden Group|t-test, 2 sided|||||||<0.01
92149984|NCT04203537|184185089|SUPERIORITY|||||||0.0004|||||||ANOVA|||||||0.0004
92149985|NCT04203537|184185090|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92149986|NCT04203537|184185090|SUPERIORITY|||||||0.0026|||||||ANOVA|||||||0.0026
92149987|NCT01320943|184185091|SUPERIORITY|||||||0.022||||||Log-rank test statistic was used to compare the time to HBsAg loss between the two treatment arms.|Log Rank|||||||0.022
92149988|NCT02439749|184185152|SUPERIORITY||||||<|0.001||||||p\<0.05 required for significance|ANCOVA|||||||<0.001
92149989|NCT02439749|184185156|SUPERIORITY|||||||0.026||||||p\<0.05 required for significance.|ANCOVA|||||||0.026
92149990|NCT02439749|184185157|SUPERIORITY|||||||0.052||||||p\<0.05 required for significance.|ANCOVA|||||||0.052
92149991|NCT02439749|184185158|SUPERIORITY|||||||0.07||||||p\<0.05 required for significance.|ANCOVA|||||||0.070
92149992|NCT02439749|184185159|SUPERIORITY|||||||0.009||||||p=\<0.05 required for significance.|ANCOVA|||||||0.009
92149993|NCT01806584|184185172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.138|TWO_SIDED|||||p-value based on log rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||Analysis of time to loss of patency||||0.138
92149994|NCT01806584|184185173|SUPERIORITY_OR_OTHER_LEGACY|||||||0.312|TWO_SIDED|||||p-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||Analysis of time to loss of patency||||0.312
92212202|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9265|TWO_SIDED|95.0|0.42|2.19||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 30||2.19|0.42|0.9265
92212203|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.65||||0.244|TWO_SIDED|95.0|0.72|3.79||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 31||3.79|0.72|0.2440
92397700|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.0||||0.2055|TWO_SIDED|95.0|0.68|5.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.82|0.68|0.2055
92149995|NCT01806584|184185174|SUPERIORITY_OR_OTHER_LEGACY|||||||0.093|TWO_SIDED|||||p-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||Analysis of time to loss of patency||||0.093
92149996|NCT01806584|184185175|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|0.23|||||TWO_SIDED|95.0|-0.942|1.402||||||||1.402|-0.942|
92149997|NCT00552786|184185204|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Two-sided|ANOVA|Assessing the bioequivalence on temporary threshold shift at3k,4k,6k Hz between NAC and Placebo was carried out using ANOVA for 2×2 crossover design.||||||<0.05
92149998|NCT00552786|184185205|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|Assessing the bioequivalence on temporary threshold shift at 3k,4k,6k Hz between NAC and Placebo was carried out using ANOVA for 2×2 crossover design.||||||<0.05
92149999|NCT03549234|184185206|NON_INFERIORITY|"We tested the noninferiority of ESPB compared to PVB (paravertebral block) using the 95% confidence interval (CI) associated with the Wilcoxon-Mann-Whitney Exact test. If the lower limit of the 95% CI for median average recovery room pain scores was greater than -1.25 (based on PVB minus ESPB), we concluded noninferiority. The noninferiority of ESPBs with regard to opioid consumption was similarly tested with a predefined noninferiority margin of 2 mg intravenous morphine equivalents."||||||0.0011|||||||Wilcoxon (Mann-Whitney)|||We hypothesized that 1) analgesia would be noninferior in the recovery room as measured on a Numeric Rating Scale with ESPB (erector spinae plane block), and 2) opioid consumption would be noninferior in the operating and recovery rooms with ESPB. We simulated pain scores from a discrete distribution with median (interquartile range) 2 (0-3). The sample size of 50 per group provided 81% power to detect noninferiority in pain.||||0.0011
92150000|NCT03549234|184185207|NON_INFERIORITY|"We tested the noninferiority of ESPB compared to PVB using the 95% confidence interval (CI) associated with the Wilcoxon-Mann-Whitney Exact test. If the lower limit of the 95% CI for median average recovery room pain scores was greater than -1.25 (based on PVB minus ESPB), we concluded noninferiority. The noninferiority of ESPBs with regard to opioid consumption was similarly tested with a predefined noninferiority margin of 2 mg intravenous morphine equivalents."||||||0.0043|||||||Wilcoxon (Mann-Whitney)|||||||0.0043
92150001|NCT01265030|184185216|SUPERIORITY||Mean Difference (Net)|0.75||||0.63|TWO_SIDED|95.0|-2.54|4.04|||t-test, 2 sided|||||4.04|-2.54|0.63
92150002|NCT01265030|184185216|SUPERIORITY||Mean Difference (Net)|-1.95||||0.31|TWO_SIDED|95.0|-6.08|2.19|||t-test, 2 sided|||||2.19|-6.08|0.31
92150003|NCT01265030|184185217|SUPERIORITY||Mean Difference (Net)|0.063||||0.68|TWO_SIDED|95.0|-0.286|0.411|||t-test, 2 sided|||The mean difference in pain score at week 1 and before surgery||0.411|-.286|0.68
92150004|NCT01590771|184185233|SUPERIORITY_OR_OTHER||Robust regression|-0.61|||<|0.001|TWO_SIDED|95.0|-0.77|-0.44||The ANCOVA model controlled for treatment, metformin strata (on or not on metformin), and baseline A1C value.|ANCOVA||Based on robust regression using M-estimation with terms for treatment, metformin strata (on or not on metformin), and baseline A1C value.|||-0.44|-0.77|<0.001
92150005|NCT01590771|184185234|SUPERIORITY_OR_OTHER||Difference in least squares mean|-32.9|||<|0.001|TWO_SIDED|95.0|-45.4|-20.4||The ANCOVA model controlled for treatment, metformin strata (on or not on metformin), and baseline 2-hr PMG value.|ANCOVA|||||-20.4|-45.4|<0.001
92150006|NCT01590771|184185235|SUPERIORITY_OR_OTHER||Estimate difference|-16.8|||<|0.001|TWO_SIDED|95.0|-23.3|-10.2||Based on robust regression using M-estimation with terms for treatment, metformin strata (on or not on metformin), and baseline FPG value.|Robust regression|||||-10.2|-23.3|<0.001
92150007|NCT01590771|184185236|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.41|||<|0.001|TWO_SIDED|95.0|-0.63|-0.2||The ANCOVA model controlled for treatment and baseline A1C value.|ANCOVA|||||-0.20|-0.63|<0.001
92212204|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.36||||0.4829|TWO_SIDED|95.0|0.59|3.15||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 31||3.15|0.59|0.4829
92212205|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.15||||0.7382|TWO_SIDED|95.0|0.51|2.61||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 31||2.61|0.51|0.7382
92212206|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8833|TWO_SIDED|95.0|0.47|2.41||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||2.41|0.47|0.8833
92212207|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9385|TWO_SIDED|95.0|0.44|2.41||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||2.41|0.44|0.9385
92212208|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.8||||0.5975|TWO_SIDED|95.0|0.35|1.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||1.82|0.35|0.5975
92212209|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.38||||0.4491|TWO_SIDED|95.0|0.61|3.13||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 33||3.13|0.61|0.4491
92212210|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.71||||0.2348|TWO_SIDED|95.0|0.72|4.05||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 33||4.05|0.72|0.2348
92212211|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.05||||0.9087|TWO_SIDED|95.0|0.46|2.38||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 33||2.38|0.46|0.9087
92212212|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.5||||0.3349|TWO_SIDED|95.0|0.66|3.42||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 34||3.42|0.66|0.3349
92212213|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.36||||0.4806|TWO_SIDED|95.0|0.58|3.17||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 34||3.17|0.58|0.4806
92212214|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.95||||0.8998|TWO_SIDED|95.0|0.42|2.15||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 34||2.15|0.42|0.8998
92212215|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.37||||0.4618|TWO_SIDED|95.0|0.6|3.12||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 35||3.12|0.60|0.4618
92397701|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.0||||0.0658|TWO_SIDED|95.0|0.93|9.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||9.64|0.93|0.0658
92212216|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.25||||0.6154|TWO_SIDED|95.0|0.53|2.93||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 35||2.93|0.53|0.6154
92212217|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9442|TWO_SIDED|95.0|0.45|2.34||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 35||2.34|0.45|0.9442
92212218|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.36||||0.458|TWO_SIDED|95.0|0.6|3.08||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 36||3.08|0.60|0.4580
92397702|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|7.34||||0.0136|TWO_SIDED|95.0|1.51|35.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||35.75|1.51|0.0136
92397703|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.71||||0.3238|TWO_SIDED|95.0|0.59|5.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.00|0.59|0.3238
92150008|NCT01590771|184185237|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.8|||<|0.001|TWO_SIDED|95.0|-1.07|-0.53||The ANCOVA model controlled for treatment and baseline A1C value.|ANCOVA|||||-0.53|-1.07|<0.001
92150009|NCT01590771|184185238|SUPERIORITY_OR_OTHER||Estimate difference|-27.2|||<|0.001|TWO_SIDED|95.0|-41.2|-13.2||Based on robust regression using M-estimation with terms for treatment and baseline 2-hr PMG value.|Robust regression|||||-13.2|-41.2|<0.001
92150010|NCT01590771|184185239|SUPERIORITY_OR_OTHER||Difference in least squares mean|-37.7|||<|0.001|TWO_SIDED|95.0|-56.9|-18.4||The ANCOVA model controlled for treatment and baseline 2-hr PMG value.|ANCOVA|||||-18.4|-56.9|<0.001
92150011|NCT01590771|184185240|SUPERIORITY_OR_OTHER||Estimate Difference|-16.5|||<|0.001|TWO_SIDED|95.0|-25.3|-7.8||Based on robust regression using M-estimation with terms for treatment and baseline FPG value.|Robust Regression|||||-7.8|-25.3|<0.001
92150012|NCT01590771|184185241|SUPERIORITY_OR_OTHER||Estimate Difference|-17.0|||<|0.001|TWO_SIDED|95.0|-26.9|-7.1||Based on robust regression using M-estimation with terms for treatment and baseline FPG value.|Robust Regression|||||-7.1|-26.9|<0.001
92150013|NCT00584701|184185259|SUPERIORITY_OR_OTHER||Dfiference in exon expression|1.5|||<|0.001||||||"Expression difference \>\|1.5\| with p-value adjusted for multiple comparisons."|ANCOVA|Between-group gene expression profiles compared between high versus low responders, controlling for age, gender and batch.||||||<.001
92150014|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for histopathology; Univariate analysis.||||||0.0000
92150015|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0.1038|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for histopathology; Multivariate analysis (6 main effects only).||||||0.1038
92150016|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0.0588|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for stage of disease; Univariate analysis.||||||0.0588
92150017|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0.4802|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for stage of disease; Multivariate analysis (6 main effects only).||||||0.4802
92150018|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0.0147|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for age at consent; Multivariate analysis (6 main effects only).||||||0.0147
92150019|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0.1181|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for age at consent; Multivariate analysis (6 main effects only).||||||0.1181
92150020|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for gender; Univariate analysis.||||||0.0000
92150021|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for gender; Multivariate analysis (6 main effects only).||||||0.0006
92150022|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for race; Univariate analysis.||||||0.0004
92150023|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0.3371|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for race; Multivariate analysis (6 main effects only).||||||0.3371
92150024|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for smoking history; Univariate analysis.||||||0.0000
92150025|NCT01250119|184185274|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for smoking history; Multivariate analysis (6 main effects only).||||||0.0001
92150026|NCT02150837|184185286|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Within group comparison (for each group) using a non-parametric paired Wilcoxon signed rank test comparing repeated measures in a single sample.||||||<0.0001
92150027|NCT02424591|184185418|SUPERIORITY_OR_OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||||||0.86
92150028|NCT02424591|184185419|SUPERIORITY_OR_OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
92150029|NCT02424591|184185420|SUPERIORITY_OR_OTHER|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
92150030|NCT00818363|184185421|SUPERIORITY||LS Mean Difference|-0.64||||0.303|TWO_SIDED|95.0|-1.74|0.47|||ANCOVA|Includes treatment group and trial site as factors and age as a covariate.||||0.47|-1.74|0.303
92150031|NCT00818363|184185422|SUPERIORITY||LS Mean Difference|-10.25||||0.303|TWO_SIDED|95.0|-30.04|9.55|||ANCOVA|Includes treatment group and trial site as factors and age as a covariate.||||9.55|-30.04|0.303
92150032|NCT00988221|184185450|SUPERIORITY_OR_OTHER||Adjusted mean - Placebo|-22.3||||||||||The analysis was adjusted for the randomization stratification factors background use of methotrexate and background use of oral corticosteroids. The analysis was also adjusted for the pain visual analog scale score at Baseline.|ANOVA|||||||
92150033|NCT00988221|184185450|SUPERIORITY_OR_OTHER||Adjusted mean - Tocilizumab|-32.4||||||||||The analysis was adjusted for the randomization stratification factors background use of methotrexate and background use of oral corticosteroids. The analysis was also adjusted for the pain visual analog scale score at Baseline.|ANOVA|||||||
92150034|NCT00988221|184185450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2||||0.0076|TWO_SIDED|95.0|-17.6|-2.7||The analysis was adjusted for the randomization stratification factors background use of methotrexate and background use of oral corticosteroids. The analysis was also adjusted for the pain visual analog scale score at Baseline.|ANOVA|||||-2.7|-17.6|0.0076
92150035|NCT00988221|184185451|SUPERIORITY_OR_OTHER||Weighted difference|18.0||||1|TWO_SIDED|95.0|5.0|32.0||1.000 is used here as the test was considered as not significant due to the break in the hierarchical testing chain.|Cochran-Mantel-Haenszel|The analysis was adjusted for the randomization stratification factors background use of methotrexate and background use of oral corticosteroids.||The analysis used the Cochran-Mantel-Haenszel test adjusted for the randomization stratification factors background use of methotrexate and background use of oral corticosteroids.||32|5|1.000
92150036|NCT00633919|184185470|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED|95.0|||||Linear mixed effect (LME) model|||The null hypothesis is the hypothesis of no difference and the alternative to the null hypothesis is the hypothesis of a difference.||||0.85
92150037|NCT00633919|184185471|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED|95.0|||||Linear mixed effect (LME) model|||The null hypothesis is the hypothesis of no difference and the alternative to the null hypothesis is the hypothesis of a difference.||||0.52
92150038|NCT00633919|184185472|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Proportional odds regression|||The null hypothesis is the hypothesis of no difference and the alternative to the null hypothesis is the hypothesis of a difference.||||>0.05
92150039|NCT00633919|184185473|SUPERIORITY_OR_OTHER|||||||0.0486||95.0|||||Proportional odds regression|||The null hypothesis is the hypothesis of no difference and the alternative to the null hypothesis is the hypothesis of a difference.||||0.0486
92150040|NCT00633919|184185474|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Proportional odds regression|||The null hypothesis is the hypothesis of no difference and the alternative to the null hypothesis is the hypothesis of a difference.||||>0.05
92150041|NCT03885011|184185491|SUPERIORITY||Odds Ratio (OR)|1.103||||0.8445|TWO_SIDED|95.0|0.413|2.949|||Regression, Logistic|||This analysis relates to Day 8 up to when pilocarpine HCl 0.2% either in CSF-1-FDC or as pilocarpine alone was administered for one week.||2.949|0.413|0.8445
92150042|NCT03885011|184185491|SUPERIORITY||Odds Ratio (OR)|1.646||||0.266|TWO_SIDED|95.0|0.684|3.958|||Regression, Logistic|||||3.958|0.684|0.2660
92150043|NCT03885011|184185492|SUPERIORITY||Odds Ratio (OR)|3.664||||0.0015|TWO_SIDED|95.0|1.646|8.154|||Regression, Logistic|||||8.154|1.646|0.0015
92150044|NCT03885011|184185492|SUPERIORITY||Odds Ratio (OR)|4.745||||0.0002|TWO_SIDED|95.0|2.088|10.786|||Regression, Logistic|||||10.786|2.088|0.0002
92150045|NCT03885011|184185493|SUPERIORITY|||||||0.1145|||||||Chi-squared|||||||0.1145
92150046|NCT03885011|184185493|SUPERIORITY|||||||0.0616|||||||Chi-squared|||||||0.0616
92212219|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6275|TWO_SIDED|95.0|0.52|2.95||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 36||2.95|0.52|0.6275
92212220|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.47||||0.3558|TWO_SIDED|95.0|0.65|3.36||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 36||3.36|0.65|0.3558
92212221|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.35||||0.4749|TWO_SIDED|95.0|0.6|3.04||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 37||3.04|0.60|0.4749
92212222|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.48||||0.3672|TWO_SIDED|95.0|0.64|3.46||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 37||3.46|0.64|0.3672
92212223|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.48||||0.3462|TWO_SIDED|95.0|0.65|3.37||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 37||3.37|0.65|0.3462
92212224|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.25||||0.5856|TWO_SIDED|95.0|0.56|2.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 38||2.82|0.56|0.5856
92212225|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.51||||0.3563|TWO_SIDED|95.0|0.64|3.58||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 38||3.58|0.64|0.3563
92212226|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6165|TWO_SIDED|95.0|0.54|2.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 38||2.82|0.54|0.6165
92212227|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.37||||0.4532|TWO_SIDED|95.0|0.6|3.1||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 39||3.10|0.60|0.4532
92212228|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.38||||0.4691|TWO_SIDED|95.0|0.58|3.27||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 39||3.27|0.58|0.4691
92273401|NCT01872689|184449213|SUPERIORITY||Mean Difference (Final Values)|-0.16313|STANDARD_ERROR_OF_MEAN|1.37698||0.9057|TWO_SIDED|95.0|-2.87|2.55|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||2.55|-2.87|0.9057
92150047|NCT03885011|184185494|SUPERIORITY|||||||0.0074|||||||Chi-squared|||||||0.0074
92150048|NCT03885011|184185494|SUPERIORITY|||||||0.0001|||||||Chi-squared|||||||0.0001
92150049|NCT02255032|184185560|SUPERIORITY||Mean Difference (Final Values)|-164.44|STANDARD_DEVIATION|173.148||0.0017|TWO_SIDED|95.0|-256.7|-72.2||The primary analysis of the primary efficacy endpoint was the comparison between the Baseline and Month 2 values for the 4 mg treatment group. No adjustments for multiplicity were necessary.|Paired t-test, two-sided|||"A paired t-test was used to assess the statistical significance of the change between Baseline and Month 2.~A sample size of 16 subjects would have 80% power to detect a difference of 75, assuming a standard deviation of 100, using a paired t-test with a 0.050 two-sided significance level."||-72.2|-256.7|0.0017
92150050|NCT00125593|184185592|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.0021|TWO_SIDED|95.0|0.74|0.94|||Log Rank|||All analyses by intention to treat||0.94|0.74|0.0021
92212229|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.46||||0.3703|TWO_SIDED|95.0|0.64|3.32||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 39||3.32|0.64|0.3703
92212230|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9319|TWO_SIDED|95.0|0.43|2.15||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 40||2.15|0.43|0.9319
92273402|NCT01872689|184449215|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.4433|TWO_SIDED|95.0|0.54|1.31|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.31|0.54|0.4433
92150051|NCT00125593|184185593|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.85||||0.0012|TWO_SIDED|95.0|0.77|0.94|||Log Rank|||All analyses by intention to treat||0.94|0.77|0.0012
92150052|NCT00125593|184185594|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84||||0.001|TWO_SIDED|95.0|0.75|0.93|||Log Rank|||All analyses by intention to treat||0.93|0.75|0.001
92150053|NCT00125593|184185595|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.37|TWO_SIDED|95.0|0.76|1.11|||Log Rank|||All analyses by intention to treat||1.11|0.76|0.37
92150054|NCT00125593|184185596|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75||||0.01|TWO_SIDED|95.0|0.6|0.94|||Log Rank|||All analyses by intention to treat||0.94|0.60|0.01
92150055|NCT00125593|184185597|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79||||0.0036|TWO_SIDED|95.0|0.68|0.93|||Log Rank|||All analyses by intention to treat||0.93|0.68|0.0036
92212231|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6374|TWO_SIDED|95.0|0.52|2.94||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 40||2.94|0.52|0.6374
92212232|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.49||||0.3457|TWO_SIDED|95.0|0.65|3.42||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 40||3.42|0.65|0.3457
92212233|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8906|TWO_SIDED|95.0|0.47|2.37||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 41||2.37|0.47|0.8906
92212234|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.13||||0.7882|TWO_SIDED|95.0|0.47|2.68||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 41||2.68|0.47|0.7882
92150056|NCT00125593|184185598|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.97||||0.41|TWO_SIDED|95.0|0.89|1.05|||Log Rank|||All analyses by intention to treat||1.05|0.89|0.41
92150057|NCT04146896|184185599|SUPERIORITY|||||||0.704|||||||t-test, 2 sided|||||||0.704
92150058|NCT04146896|184185600|SUPERIORITY|||||||0.684|||||||t-test, 2 sided|||||||.684
92150059|NCT04146896|184185601|SUPERIORITY|||||||0.743|||||||t-test, 2 sided|||||||0.743
92150060|NCT04146896|184185602|SUPERIORITY|||||||0.483|||||||t-test, 2 sided|||||||.483
92150061|NCT04146896|184185603|SUPERIORITY|||||||0.199|||||||t-test, 2 sided|||||||.199
92150062|NCT04146896|184185604|SUPERIORITY|||||||0.273|||||||t-test, 2 sided|||||||.273
92150063|NCT04146896|184185605|SUPERIORITY|||||||0.668|||||||t-test, 2 sided|||||||.668
92150064|NCT03107377|184185606|SUPERIORITY||Risk Difference (RD)|-4.81||||0.0256|TWO_SIDED|95.0|-9.02|-0.61|||Chi-squared|||||-0.61|-9.02|0.0256
92150065|NCT03107377|184185607|SUPERIORITY||Risk Difference (RD)|-2.53||||0.0316|TWO_SIDED|95.0|-4.84|-0.23|||Chi-squared|||||-0.23|-4.84|0.0316
92150066|NCT03107377|184185611|SUPERIORITY|||||||1|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with =0% adherence||||1.0000
92150067|NCT03107377|184185611|SUPERIORITY|||||||1|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>0% adherence||||1.0000
92150068|NCT03107377|184185611|SUPERIORITY|||||||0.6278|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=20% adherence||||.6278
92212235|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.12||||0.7898|TWO_SIDED|95.0|0.49|2.59||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 41||2.59|0.49|0.7898
92150069|NCT03107377|184185611|SUPERIORITY|||||||0.6404|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=40% adherence||||.6404
92212236|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9521|TWO_SIDED|95.0|0.44|2.18||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 42||2.18|0.44|0.9521
92150070|NCT03107377|184185611|SUPERIORITY|||||||0.5008|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=60% adherence||||.5008
92150071|NCT03107377|184185611|SUPERIORITY|||||||0.1818|||||||Chi-squared|||A comparison of infection rates between the treatment arms amongst subjects with \>=80% adherence||||.1818
92150072|NCT03107377|184185611|SUPERIORITY|||||||0.0012|||||||Chi-squared|||A comparison of infection rates between the treatment arms amongst subjects with =100% adherence||||0.0012
92150073|NCT03107377|184185612|SUPERIORITY|||||||1|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with =0% adherence||||1.0000
92150074|NCT03107377|184185612|SUPERIORITY|||||||0.4375|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>0% adherence||||0.4375
92150075|NCT03107377|184185612|SUPERIORITY|||||||0.4444|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=20% adherence||||0.4444
92150076|NCT03107377|184185612|SUPERIORITY|||||||0.1836|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=60% adherence||||0.1836
92150077|NCT03107377|184185612|SUPERIORITY|||||||0.5006|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=80% adherence||||0.5006
92150078|NCT03107377|184185612|SUPERIORITY|||||||1|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with =100% adherence||||1.000
92150079|NCT01597505|184185615|NON_INFERIORITY|Surotomycin minus Vancomycin. For surotomycin to be non-inferior to vancomycin the lower bound of a 2-sided 95% CI for the difference between treatment groups had to be ≥ -10%.|Difference in percentage of participants|-4.6|||||TWO_SIDED|95.0|-11.0|1.9|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in percentage of participants||1.9|-11.0|
92150080|NCT01597505|184185616|SUPERIORITY|||||||0.832||||||Log-rank test of equality of survival times, stratified by age group (\< 75, \>= 75 years) and number of CDAD episodes (0, \>= 1). Significance cut-off = 0.05|Log Rank|||Stratified log-rank test p-value||||0.832
92150081|NCT01597505|184185617|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|-0.8|||||TWO_SIDED|95.0|-8.8|7.1|||||The 95% CI was stratified Wilson intervals for group percentages and a stratified Newcombe interval for the difference, using the MRc stratum weights. Stratified by age group and number of CDAD episodes.|Difference in percentage of participants||7.1|-8.8|
92150082|NCT01597505|184185621|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|0.6|||||TWO_SIDED|95.0|-7.2|8.3|||||The 95% CI was stratified Wilson intervals for group percentages and a stratified Newcombe interval for the difference, using the MRc stratum weights. Stratified by age group and number of CDAD episodes.|Difference in percentage of participants||8.3|-7.2|
92150083|NCT01597505|184185622|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|-3.5|||||TWO_SIDED|95.0|-10.0|3.0|||||The 95% CI was stratified Wilson intervals for group percentages and a stratified Newcombe interval for the difference, using the MRc stratum weights. Stratified by age group and number of CDAD episodes.|Difference in percentage of participants||3.0|-10.0|
92150084|NCT01597505|184185623|SUPERIORITY|Surotomycin was superior to vancomycin if the p-value was less than 0.05||||||0.431||||||Log-rank test of equality of survival times, stratified by age group (\< 75, \>= 75 years) and number of CDAD episodes (0, \>= 1). Significance cut-off = 0.05|Log Rank|||Stratified Log-Rank p-Value||||0.431
92150085|NCT01597505|184185624|SUPERIORITY|Surotomycin was superior to vancomycin if the p-value was less than 0.05||||||0.011||||||Log-rank test of equality of survival times, stratified by age group (\< 75, \>= 75 years) and number of CDAD episodes (0, \>= 1). Significance cut-off = 0.05|Log Rank|||Stratified Log-Rank p-Value||||0.011
92273403|NCT01872689|184449217|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.9366|TWO_SIDED|95.0|0.21|5.3|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||5.30|0.21|0.9366
92150086|NCT01597505|184185625|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|2.2|||||TWO_SIDED|95.0|-10.7|14.8|||||Treatment group percentages were stratified by age group (\< 75, ≥ 75) and number of previous CDAD episodes (0, ≥ 1). The 95% CIs were stratified Wilson intervals for the treatment group percentages.|Difference in percentage of participants||14.8|-10.7|
92150087|NCT01597505|184185626|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|-2.4|||||TWO_SIDED|95.0|-7.8|3.0|||||Treatment group proportions were stratified by age group (\< 75, ≥ 75) and number of previous CDAD episodes (0, ≥1). The 95% CIs were stratified Wilson intervals for the treatment group proportions.|Difference in percentage of participants||3.0|-7.8|
92150088|NCT01597505|184185627|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|14.6|||||TWO_SIDED|95.0|-2.7|30.7|||||Treatment group percentages were stratified by age group (\< 75, ≥ 75) and number of previous CDAD episodes (0, ≥ 1). The 95% CIs were stratified Wilson intervals for the treatment group percentages.|Difference in percentage of participants||30.7|-2.7|
92150089|NCT01597505|184185628|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|4.3|||||TWO_SIDED|95.0|-4.2|12.7|||||Treatment group proportions were stratified by age group (\< 75, ≥ 75) and number of previous CDAD episodes (0, ≥1). The 95% CIs were stratified Wilson intervals for the treatment group proportions.|Difference in percentage of participants||12.7|-4.2|
92150090|NCT05652036|184185676|OTHER|||||||0.21||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in NPS score pre- and post-procedure||||0.21
92150091|NCT05652036|184185677|OTHER|||||||0.07||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in overactive bladder symptom bother before and after treatment||||.07
92150092|NCT05652036|184185677|OTHER|||||||0.16||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in overactive bladder HRQL mean before and after treatment||||0.16
92150093|NCT05652036|184185678|OTHER|||||||0.21|||||||Chi-squared|||Participant rated procedural satisfaction assessed 30-days post-procedure.||||0.21
92150094|NCT05652036|184185679|OTHER|Clinical Global Impression of Improvement scale sores reported by participants as very much improved after treatment||||||0.79|||||||Chi-squared|||||||0.79
92150095|NCT05652036|184185679|OTHER|Clinical Global Impression of Improvement scale sores reported by participants as much improved after treatment||||||0.27|||||||Chi-squared|||||||0.27
92150096|NCT05652036|184185679|OTHER|Clinical Global Impression of Improvement scale sores reported by participants as minimally improved after treatment||||||0.14|||||||Chi-squared|||||||0.14
92150097|NCT05652036|184185679|OTHER|Clinical Global Impression of Improvement scale sores reported by participants as no difference after treatment||||||1|||||||Chi-squared|||||||1.0
92212237|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6001|TWO_SIDED|95.0|0.53|3.05||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 42||3.05|0.53|0.6001
92212238|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6054|TWO_SIDED|95.0|0.55|2.8||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 42||2.80|0.55|0.6054
92212239|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.81||||0.6042|TWO_SIDED|95.0|0.36|1.81||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 43||1.81|0.36|0.6042
92273404|NCT01872689|184449217|SUPERIORITY||Hazard Ratio (HR)|0.45||||0.1346|TWO_SIDED|95.0|0.16|1.31|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.31|0.16|0.1346
92150098|NCT05652036|184185680|OTHER|Rates of urinary retention observed in participants after BTX-A treatment.||||||0.5|||||||Chi-squared|||||||0.5
92150099|NCT05652036|184185680|OTHER|Rates of urinary tract infection observed in participants after BTX-A treatment.||||||0.24|||||||Chi-squared|||||||0.24
92150100|NCT05652036|184185680|OTHER|Rates of bleeding requiring evaluation observed in participants after BTX-A treatment.||||||1|||||||Chi-squared|||||||1.0
92150101|NCT05652036|184185680|OTHER|Rates of hematuria observed in participants after BTX-A treatment.||||||0.46|||||||Chi-squared|||||||0.46
92150102|NCT05652036|184185680|OTHER|Rates of bladder pain observed in participants after BTX-A treatment.||||||1|||||||Chi-squared|||||||1.0
92150103|NCT05652036|184185680|OTHER|Rates of ER department evaluations observed in participants after BTX-A treatment.||||||0.5|||||||Chi-squared|||||||0.5
92150104|NCT05454410|184185681|SUPERIORITY||Mean Difference (Net)|-5.2|||||TWO_SIDED|90.0|-9.6|-0.7|||ANCOVA||Placebo adjusted means (MIJ821-Placebo). 90% CIs are nominal and not adjusted for multiplicity.|||-0.7|-9.6|
92150105|NCT05454410|184185681|SUPERIORITY||Mean Difference (Net)|-2.5|||||TWO_SIDED|90.0|-7.0|2.1|||ANCOVA||Placebo adjusted means (MIJ821-Placebo). 90% CIs are nominal and not adjusted for multiplicity.|||2.1|-7.0|
92150106|NCT05454410|184185681|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|90.0|-4.0|5.1|||ANCOVA||Placebo adjusted means (MIJ821-Placebo). 90% CIs are nominal and not adjusted for multiplicity.|||5.1|-4.0|
92150107|NCT05454410|184185687|SUPERIORITY|||||||0.0242||||||P-value for the selected model best representing the underlying DR (the lowest p-value out of the 6 candidate models), adjusted for multiple comparisons.|Multiple contrast test|||MCP-Mod was used to check if there was a DR relationship between the change from baseline to 24 hours in MADRS total score and the doses received. The Least squares means under the primary estimand were used to test the null hypothesis of a flat DR relationship at a one-sided significance level of 5% against the alternative hypothesis of a non-flat DR curve. Six candidate DR curves were used to derive the optimal model contrasts for the multiple contrast tests. A monotone DR was assumed.||||0.0242
92212240|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.54||||0.3465|TWO_SIDED|95.0|0.64|3.73||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 43||3.73|0.64|0.3465
92273405|NCT01872689|184449219|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.6815|TWO_SIDED|95.0|0.52|1.54|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.54|0.52|0.6815
92212241|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.15||||0.7427|TWO_SIDED|95.0|0.5|2.64||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 43||2.64|0.50|0.7427
92150108|NCT00895622|184185700|OTHER||Kappa statistic|0.79|||<|0.0001|TWO_SIDED|95.0|0.71|0.87|||Z test|||"The Kappa (κ) coefficient was used to assess the measure of agreement between the reviewers. κ can be interpreted as follows (κ / Agreement):~\< 0 / Less than chance agreement; 0.01-0.20 / Slight agreement; 0.21-0.40 / Fair agreement; 0.41-0.60 / Moderate agreement; 0.61-0.80 / Substantial agreement; 0.81-0.99 / Almost perfect agreement.~The asymptotic test of the null hypothesis: κ=0 will be performed using the Z-statistic to determine the strength of agreement."||0.87|0.71|<0.0001
92150109|NCT01622010|184185715|EQUIVALENCE|P value 0.05 used||||||0.487|||||||Chi-squared|||||||0.487
92150110|NCT01622010|184185717|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|a non-inferiority margin calculation was not performed for this study prior to its start.||||||0.628|||||||Fisher Exact|||Null hypothesis: Standard care is better than standard care with video enhancement.||||0.628
92150111|NCT01622010|184185718|EQUIVALENCE|P Value 0.05 used||||||0.647|||||||Chi-squared|||||||0.647
92150112|NCT00335257|184185719|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a non-inferiority test of two exponential survival curves.These calculations are based on the following assumptions: 1) one-sided α 0.025; 2) power (1-β) of 0.90; 3) VTE incidence rate of 9/10.000 WY and 4) non-inferiority limit hazard ratio of 2. Furthermore, a study of this size would exclude a threefold risk of ATE.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.3|||||Hazard ratio was adjusted for age, BMI, duration of current use, family history of VTE|Tested null hypotheses: the VTE hazard ratio for DRSP(24d) vs. Non-DRSP is higher or equal to 2||1.3|0.5|
92150113|NCT01412801|184185728|SUPERIORITY_OR_OTHER||Vaccine Group Ratios (Serotype Ia)|0.96|||||TWO_SIDED|98.4|0.71|1.3||||||||1.3|0.71|
92150114|NCT01412801|184185728|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype Ia)|0.81|||||TWO_SIDED|98.4|0.6|1.09||||||||1.09|0.6|
92212242|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9218|TWO_SIDED|95.0|0.47|2.3||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 44||2.30|0.47|0.9218
92150115|NCT01412801|184185728|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype Ia)|0.84|||||TWO_SIDED|98.4|0.63|1.14||||||||1.14|0.63|
92150116|NCT01412801|184185728|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype Ib)|0.8|||||TWO_SIDED|98.4|0.49|1.29||||||||1.29|0.49|
92150117|NCT01412801|184185728|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype Ib)|1.05|||||TWO_SIDED|98.4|0.65|1.69||||||||1.69|0.65|
92150118|NCT01412801|184185728|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype Ib)|1.32|||||TWO_SIDED|98.4|0.85|2.06||||||||2.06|0.85|
92150119|NCT01412801|184185728|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype III)|1.17|||||TWO_SIDED|98.4|0.66|2.07||||||||2.07|0.66|
92150120|NCT01412801|184185728|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype III)|1.06|||||TWO_SIDED|98.4|0.63|1.78||||||||1.78|0.63|
92150121|NCT01412801|184185728|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype III)|0.91|||||TWO_SIDED|98.4|0.52|1.58||||||||1.58|0.52|
92150122|NCT01874145|184185739|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.501|STANDARD_ERROR_OF_MEAN|0.101||0.0006|TWO_SIDED|95.0|0.338|0.743||The overall significance level for this study was 5% using 2-tailed test.|Poisson regression model|Natural log of treatment duration was an offset variable; adjusted for baseline EDSS, treatment group, age, sex, # relapses 2 years prior to screening|GA 40 mg/mL TIW treatment group / GA 20 mg/mL QD treatment group.|Adjusted mean estimates were adjusted estimates of event rates within treatment group. The treatment effect parameter estimate was a risk ratio of the GA 40 mg/mL TIW treatment group divided by the GA 20 mg/mL QD treatment group. The p value tested whether the risk ratio was significantly different from 1.||0.743|0.338|0.0006
92150123|NCT01874145|184185741|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5|STANDARD_ERROR_OF_MEAN|0.101||0.0006|TWO_SIDED|95.0|0.337|0.742||The overall significance level for this study was 5% using 2-tailed test.|Poisson regression model|Natural log of treatment duration was an offset variable; adjusted for baseline EDSS, treatment group, age, sex, # relapses 2 years prior to screening|GA 40 mg/mL TIW treatment group / GA 20 mg/mL QD treatment group|Adjusted mean estimates were adjusted estimates of event rates within treatment group. The treatment effect parameter estimate was a risk ratio of the GA 40 mg/mL TIW treatment group divided by the GA 20 mg/mL QD treatment group. The p value tested whether the risk ratio was significantly different from 1.||0.742|0.337|0.0006
92150124|NCT01874145|184185742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.058|STANDARD_ERROR_OF_MEAN|1.206||0.0897|TWO_SIDED|95.0|-4.438|0.322||The overall significance level for this study was 5% using 2-tailed test.|ANCOVA|In addition to treatment group, month (categorical), treatment-by-month interaction and score at baseline were used as covariates.|GA 40 mg/mL TIW treatment group vs. GA 20 mg/mL QD treatment group.|"To control for type 1 errors, secondary variables were analyzed only if analysis of the primary variable was statistically significant. Gate-keeping procedures offered further control with this hierarchy:~1. the rate of ISRs~2. change from baseline to month 4 (change - M4) in MSIS-20 physical wellbeing~3. change - M4 in MSIS-20 psychological wellbeing~4. change - M4 in TSQM-9 convenience~5. change - M4 in TSQM-9 overall satisfaction"||0.322|-4.438|0.0897
92150125|NCT00402337|184185754|SUPERIORITY_OR_OTHER|||||||0.0337||95.0|||||ANCOVA|||The null hypothesis is that the active treatment group is equal to the placebo group.||||0.0337
92150126|NCT00402337|184185754|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||The null hypothesis is that the active treatment group is equal to the placebo group.||||0.0010
92150127|NCT00402337|184185754|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||The null hypothesis is that the active treatment group is equal to the placebo group.||||<0.0001
92150128|NCT00402337|184185754|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||The null hypothesis is that the active treatment group is equal to the placebo group.||||<0.0001
92150129|NCT00658138|184185769|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No power calculation done - pilot study|Mean Difference (Final Values)|0.05||||0.05|||||||Wilcoxon (Mann-Whitney)|||Hypothesis was no difference between adhesives tested at one year. Restorations were scored using USPHS subjective clinical criteria.||||0.05
92212243|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.37||||0.4909|TWO_SIDED|95.0|0.57|3.3||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 44||3.30|0.57|0.4909
92150130|NCT00658138|184185769|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No power calculation done - pilot study|percentage of Alpha values||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Null hypothesis is adhesives are not different in clinical performance at one year||||>0.05
92150131|NCT03857230|184185784|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline AUC0-192 were used to assess bioequivalence between Primapur and Gonal-F (bioequivalence range of 80.00% to 125.00%)|Geometric Mean Ratio (%)|93.31||||0.05|TWO_SIDED|90.0|87.25|99.79|||ANOVA|||Statistical comparison of the obtained results comprised the calculation of parametric bilateral 90 % CIs for the ratios of the corresponding mean values of the pharmacokinetic parameters of the study and comparator drug. The equivalence of the pharmacokinetics of the drug products will be proven if the limits of the evaluated CIs for the ratios of the mean values are in the range of 80.00-125.00%.||99.79|87.25|0.05
92150132|NCT03857230|184185785|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline Cmax were used to assess bioequivalence between Primapur and Gonal-F (bioequivalence range of 80.00% to 125.00%)|Geometric Mean Ratio (%)|87.93||||0.05|TWO_SIDED|90.0|82.85|93.33|||ANOVA|||||93.33|82.85|0.05
92150133|NCT02707692|184185791|SUPERIORITY||Mean Difference (Final Values)|-988.0||||0.32|TWO_SIDED|95.0|-2996.3|1020.3|||Paired t-test, 2 sided|||Primary hypothesis: Participants will have a higher absolute difference in levels of CD4+ T cell-associated HIV RNA transcription seven days after receiving either Pneumococcal or Influenza vaccinations, when compared to seven days after receiving placebo.||1020.3|-2996.3|0.32
92150134|NCT02707692|184185791|SUPERIORITY||Mean Difference (Final Values)|-405.0||||0.31|TWO_SIDED|95.0|-1199.7|389.7|||Paired t-test, 2 sided|||Primary hypothesis: Participants will have a higher absolute difference in levels of CD4+ T cell-associated HIV RNA transcription seven days after receiving either Pneumococcal or Influenza vaccinations, when compared to seven days after receiving placebo.||389.7|-1199.7|0.31
92150135|NCT02019563|184185796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.34||||0.15|TWO_SIDED|95.0|0.08|1.49|||Chi-squared|||Radiographic outcomes were compared using univariate repeated measures logistic regression. A binary logistic generalized estimating equation model was used to analyze predictor variables such as age, gender, tooth and treatment provider between the treatment groups.||1.49|.08|.15
92150136|NCT02019563|184185797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.38|TWO_SIDED|95.0|0.19|1.89|||Chi-squared|||Radiographic outcomes were compared using univariate repeated measures logistic regression. A binary logistic generalized estimating equation model was used to analyze predictor variables such as age, gender, tooth and treatment provider between the treatment groups.||1.89|.19|.38
92150137|NCT02019563|184185798|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||Fisher Exact|||A binary logistic generalized estimating equation (GEE) model was used to analyze predictor variables such as age, gender, tooth and treatment provider between the treatment groups for radiographic and clinical outcomes.||||.51
92150138|NCT02019563|184185799|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Fisher Exact|||A binary logistic generalized estimating equation (GEE) model was used to analyze predictor variables such as age, gender, tooth and treatment provider between the treatment groups for radiographic and clinical outcomes.||||.64
92397704|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|5.86||||0.0118|TWO_SIDED|95.0|1.48|23.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||23.21|1.48|0.0118
92150139|NCT02019563|184185800|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED|||||The p-value represents the survival rate from the Kaplan-Meier survival analysis from 6 to 36 months.|Log Rank|||||||.11
92150140|NCT00840996|184185803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|97.5|-1.23|-0.4||Test for superiority adjusted for 2 primary comparisons (2 outcomes)|Mixed Models Analysis|Llinear mixed-effects accounts for correlation exhibited by the repeated pain measurements on a given patient (spatial power correlation structure).||Postoperative analgesia was characterized using both pain scores and opioid consumption .We considered one of the groups to be better than the other on postoperative pain control with superiority on either outcome, in the presence of noninferiority on both outcomes. Thus, our primary hypothesis was assessed in a joint hypothesis testing framework .||-0.40|-1.23|<0.001
92150141|NCT00840996|184185804|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin: ratio of the geometric means not more than 1.3 greater (mean mg IV morphine equivalent not more than 30% greater ) than that of the other group|the ratio of the geometric means|0.8||||0.011|TWO_SIDED|95.0|0.65|1.21||Noninferiority hypotheses were evaluated against a one-sided significance criterion of 0.025 \[adjusting for testing in both directions: lidocaine vs. control and vs. control vs. lidocaine \]|Regression, Linear|Log-linear regression model was used; 0.1 mg added before taking the logarithm to accommodate the 2 patients who received 0 mg opioids.||Postoperative analgesia was characterized using both pain scores and opioid consumption .We considered one of the groups to be better than the other on postoperative pain control with superiority on either outcome, in the presence of noninferiority on both outcomes. Thus, our primary hypothesis was assessed in a joint hypothesis testing framework .||1.21|0.65|0.011
92150142|NCT00840996|184185805|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.049|TWO_SIDED|95.0|0.84|1.0|||Regression, Logistic|||||1.00|0.84|0.049
92150143|NCT00840996|184185806|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.31|TWO_SIDED|95.0|0.77|1.09|||Regression, Logistic|||Nausea - POD 2||1.09|0.77|0.31
92150144|NCT00840996|184185806|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.44|TWO_SIDED|95.0|0.94|1.14|||Regression, Logistic|||Vomiting - POD 2||1.14|0.94|0.44
92150145|NCT00840996|184185807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.15|TWO_SIDED|95.0|-2.4|0.4|||Regression, Linear|||||0.4|-2.4|0.15
92150146|NCT00840996|184185808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2||||0.002|TWO_SIDED|95.0|2.3|10.0|||Regression, Linear|||||10|2.3|0.002
92150147|NCT00840996|184185809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6||||0.04|TWO_SIDED|95.0|0.3|8.9|||Regression, Logistic|||||8.9|0.3|0.04
92212244|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.46||||0.3616|TWO_SIDED|95.0|0.65|3.31||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 44||3.31|0.65|0.3616
92397705|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|5.29||||0.0163|TWO_SIDED|95.0|1.36|20.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||20.62|1.36|0.0163
92397706|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.32||||0.6363|TWO_SIDED|95.0|0.42|4.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.18|0.42|0.6363
92397707|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.68||||0.0722|TWO_SIDED|95.0|0.89|15.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||15.25|0.89|0.0722
92397708|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.35||||0.2019|TWO_SIDED|95.0|0.63|8.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.73|0.63|0.2019
92397709|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|10.15||||0.0337|TWO_SIDED|95.0|1.2|86.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||86.09|1.20|0.0337
92397710|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.25||||0.2207|TWO_SIDED|95.0|0.61|8.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.24|0.61|0.2207
92397711|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.5||||0.0849|TWO_SIDED|95.0|0.84|14.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||14.57|0.84|0.0849
92397712|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.47||||0.0844|TWO_SIDED|95.0|0.84|14.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||14.24|0.84|0.0844
92397713|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.15||||0.2383|TWO_SIDED|95.0|0.6|7.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.65|0.60|0.2383
92397714|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.55||||0.1653|TWO_SIDED|95.0|0.68|9.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.58|0.68|0.1653
92150148|NCT01015807|184185827|OTHER|||||||0.48|||||||ANOVA|||We estimated that 25 subjects per group would allow us to detect a reduction of this area from 7.5 cm2 in our placebo group to 3.5 cm2 in the CloTAP group, with SD = 5 cm2 in both groups, owing to improved overall analgesia and reduced pain sensitization in women allocated to receive a TAP block with clonidine (2-tailed \[alpha\] = 0.05, 80% power). To allow for failed TAP blocks and/or exclusions of cases, we included 30 patients per group (n = 90)||||0.48
92150149|NCT01486758|184185883|SUPERIORITY_OR_OTHER|||||||0.6|||||||ANCOVA|||||||0.6
92397715|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.48||||0.1836|TWO_SIDED|95.0|0.65|9.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.48|0.65|0.1836
92397716|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|8.3||||0.0529|TWO_SIDED|95.0|0.97|70.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||70.80|0.97|0.0529
92150150|NCT01486758|184185887|SUPERIORITY_OR_OTHER|||||||0.048|||||||Log Rank|||||||0.048
92150151|NCT03926065|184185895|SUPERIORITY|||||||0.126|||||||Mixed Models Analysis|||Standard Palatability (Standard Portion Size and Larger Portion Size) compared to Enhanced Palatability (Standard Portion Size and Larger Portion Size)||||0.1260
92397717|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.95||||0.3197|TWO_SIDED|95.0|0.52|7.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.27|0.52|0.3197
92397718|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|5.88||||0.0376|TWO_SIDED|95.0|1.11|31.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||31.25|1.11|0.0376
92150152|NCT03926065|184185895|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Standard Portion Size (Standard Palatability and Enhanced Palatability) compared to Larger Portion Size (Standard Palatability and Enhanced Palatability)||||<0.0001
92150153|NCT03926065|184185895|SUPERIORITY|||||||0.0992|||||||Mixed Models Analysis|||Interaction between Portion Size and Palatability||||0.0992
92150154|NCT03926065|184185896|SUPERIORITY|||||||0.5502|||||||Mixed Models Analysis|||Standard Palatability (Standard Portion Size and Larger Portion Size) compared to Enhanced Palatability (Standard Portion Size and Larger Portion Size)||||0.5502
92150155|NCT03926065|184185896|SUPERIORITY|||||||0.0072|||||||Mixed Models Analysis|||Standard Portion Size (Standard Palatability and Enhanced Palatability) compared to Larger Portion Size (Standard Palatability and Enhanced Palatability)||||0.0072
92150156|NCT03926065|184185897|SUPERIORITY|||||||0.103|||||||Mixed Models Analysis|||Standard Palatability (Standard Portion Size and Larger Portion Size) compared to Enhanced Palatability (Standard Portion Size and Larger Portion Size)||||0.1030
92150157|NCT03926065|184185897|SUPERIORITY|||||||0.0178|||||||Mixed Models Analysis|||Standard Portion Size (Standard Palatability and Enhanced Palatability) compared to Larger Portion Size (Standard Palatability and Enhanced Palatability)||||0.0178
92150158|NCT03926065|184185897|SUPERIORITY|||||||0.241|||||||Mixed Models Analysis|||Interaction between Portion Size and Palatability||||0.2410
92150159|NCT03926065|184185898|SUPERIORITY|||||||0.0012|||||||Mixed Models Analysis|||Standard Palatability (Standard Portion Size and Larger Portion Size) compared to Enhanced Palatability (Standard Portion Size and Larger Portion Size)||||0.0012
92150160|NCT03926065|184185898|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Standard Portion Size (Standard Palatability and Enhanced Palatability) compared to Larger Portion Size (Standard Palatability and Enhanced Palatability)||||<0.0001
92150161|NCT02687412|184185927|SUPERIORITY|||||||0.141|||||||t-test, 2 sided|||||||0.141
92150162|NCT02687412|184185928|SUPERIORITY||Mean Difference (Final Values)|-4041.0|STANDARD_ERROR_OF_MEAN|1831.042||0.029|TWO_SIDED|95.0|-7672.301|-411.065|||t-test, 2 sided|||||-411.065|-7672.301|0.029
92150163|NCT02687412|184185929|SUPERIORITY||Mean Difference (Final Values)|20.3739|STANDARD_ERROR_OF_MEAN|6.4198||0.002|TWO_SIDED|95.0|7.6414|33.1065|||t-test, 2 sided|||||33.1065|7.6414|0.002
92150164|NCT02687412|184185930|SUPERIORITY|||||||0.014|||||||Chi-squared|||||||0.014
92150165|NCT02687412|184185931|SUPERIORITY|||||||0.034|||||||Chi-squared|||||||0.034
92150166|NCT02687412|184185932|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92150167|NCT02687412|184185933|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92150168|NCT02687412|184185934|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92150169|NCT02687412|184185935|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92150170|NCT02687412|184185936|SUPERIORITY||Mean Difference (Final Values)|-0.10046|STANDARD_ERROR_OF_MEAN|0.1915||0.601|TWO_SIDED|95.0|-0.4819|0.2817|||t-test, 2 sided|||||0.2817|-0.4819|0.601
92150171|NCT02687412|184185937|SUPERIORITY||Mean Difference (Final Values)|164.746|STANDARD_ERROR_OF_MEAN|317.79||0.605|TWO_SIDED|95.0|-465.0|794.0|||t-test, 2 sided|||||794|-465|0.605
92150172|NCT03239873|184185943|NON_INFERIORITY|The conclusion of non-inferiority (similarity) is based on the lower bound of the 2-sided 95% CI on the risk difference excluding a decrease equal to or more than the prespecified criterion of 10.0 percentage points for Varicella zoster virus.|Risk Difference (RD)|0.0|||<|0.001|TWO_SIDED|95.0|-2.7|2.8|||Miettinen and Nurminen|||||2.8|-2.7|<0.001
92150173|NCT03239873|184185943|OTHER|Acceptability|Antibody Response Rate|98.4|||<|0.001|TWO_SIDED|95.0|95.9|99.6|||Exact CI method/binomial proportion|||The conclusion of acceptability is based on the lower bound of the 95% Confidence Interval (CI) being \>76%, and implies that the value of the parameter is statistically significantly greater than the prespecified acceptability criterion (76%).||99.6|95.9|<0.001
92150174|NCT03239873|184185944|NON_INFERIORITY|The statistical criterion for noninferiority of the GMT corresponds to the lower bound of the 2-sided 95% CI on the GMT ratio \[VARIVAX® PE34 process/VARIVAX® 2016 commercial product\] being \>0.67.|Risk Difference (RD)|1.0|||<|0.001|TWO_SIDED|95.0|0.9|1.1|||Miettinen and Nurminen|||||1.1|0.9|<0.001
92150175|NCT03239873|184185945|OTHER||Difference in Percentage|2.0||||0.436|TWO_SIDED|95.0|-3.1|7.1|||Miettinen & Nurminen|||Up to 42 days after Vaccination 1||7.1|-3.1|0.436
92150176|NCT03239873|184185945|OTHER||Difference in Percentage|2.9||||0.204|TWO_SIDED|95.0|-1.6|7.5|||Miettinen & Nurminen|||Up to 42 days after Vaccination 2||7.5|-1.6|0.204
92150177|NCT03239873|184185946|OTHER||Difference in Percentage|-1.3||||0.102|TWO_SIDED|95.0|-3.5|0.4|||Miettinen & Nurminen|||Measles-like rash||0.4|-3.5|0.102
92150178|NCT03239873|184185946|OTHER||Difference in Percentage|0.3||||0.317|TWO_SIDED|95.0|-0.9|1.9|||Miettinen & Nurminen|||Rubella-like rash||1.9|-0.9|0.317
92150179|NCT03239873|184185946|OTHER||Difference in Percentage|1.3||||0.241||95.0|-1.0|4.0|||Miettinen & Nurminen|||Varicella-like rash||4.0|-1.0|0.241
92150180|NCT03239873|184185946|OTHER||Difference in Percentage|-0.3||||0.318|TWO_SIDED|95.0|-1.9|0.9|||Miettinen & Nurminen|||Zoster-like rash||0.9|-1.9|0.318
92150181|NCT03239873|184185947|OTHER||Difference in Percentage|1.1||||0.17|TWO_SIDED|95.0|-0.7|3.4|||Miettinen & Nurminen|||Measles-like rash||3.4|-0.7|0.170
92150182|NCT03239873|184185947|OTHER||Difference in Percentage|-0.3||||0.576|TWO_SIDED|95.0|-2.2|1.4|||Miettinen & Nurminen|||Varicella-like rash||1.4|-2.2|0.576
92150183|NCT03239873|184185947|OTHER||Difference in Percentage|0.4||||0.312|TWO_SIDED|95.0|-1.0|2.0|||Miettinen & Nurminen|||Zoster-like rash||2.0|-1.0|0.312
92150184|NCT03239873|184185948|OTHER||Difference of Percentage|-1.0||||0.696|TWO_SIDED|95.0|-5.9|4.0|||Miettinen & Nurminen|||Injection site erythema||4.0|-5.9|0.696
92150185|NCT03239873|184185948|OTHER||Difference in Percentage|0.7||||0.796|TWO_SIDED|95.0|-4.7|6.2|||Miettinen & Nurminen|||Injection site pain||6.2|-4.7|0.796
92150186|NCT03239873|184185948|OTHER||Difference in Percentage|-2.7||||0.111||95.0|-6.2|0.7|||Miettinen & Nurminen|||Injection site swelling||0.7|-6.2|0.111
92150187|NCT03239873|184185949|OTHER||Difference in Percentage|-0.3||||0.931|TWO_SIDED|95.0|-6.9|6.4|||Miettinen & Nurminen|||Injection site erythema||6.4|-6.9|0.931
92150188|NCT03239873|184185949|OTHER||Difference in Percentage|-1.6||||0.523|TWO_SIDED|95.0|-6.6|3.4|||Miettinen & Nurminen|||Injection site pain||3.4|-6.6|0.523
92150189|NCT03239873|184185949|OTHER||Difference in Percentage|2.0||||0.415|TWO_SIDED|95.0|-2.9|6.9|||Miettinen & Nurminen|||Injection site swelling||6.9|-2.9|0.415
92150190|NCT03239873|184185950|OTHER||Difference in Percentage|1.6|||||TWO_SIDED|95.0|-3.4|6.7|||||Miettinen \& Nurminen|||6.7|-3.4|
92150191|NCT03239873|184185951|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.5|2.6|||||Miettinen \& Nurminen|||2.6|-2.5|
92150192|NCT03239873|184185952|OTHER||Difference in Percentage|1.9|||||TWO_SIDED|95.0|-6.1|9.8|||||Miettinen \& Nurminen|||9.8|-6.1|
92150193|NCT03239873|184185953|OTHER||Difference in Percentage|2.3|||||TWO_SIDED|95.0|-4.7|9.2|||||Miettinen \& Nurminen|||9.2|-4.7|
92212245|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.14||||0.7578|TWO_SIDED|95.0|0.51|2.55||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 45||2.55|0.51|0.7578
92212246|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.73||||0.2369|TWO_SIDED|95.0|0.71|4.24||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 45||4.24|0.71|0.2369
92212247|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.94||||0.8774|TWO_SIDED|95.0|0.41|2.12||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 45||2.12|0.41|0.8774
92212248|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.14||||0.7578|TWO_SIDED|95.0|0.51|2.55||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 46||2.55|0.51|0.7578
92212249|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.39||||0.4691|TWO_SIDED|95.0|0.58|3.33||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 46||3.33|0.58|0.4691
92212250|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.86||||0.7272|TWO_SIDED|95.0|0.38|1.95||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 46||1.95|0.38|0.7272
92212251|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.05||||0.908|TWO_SIDED|95.0|0.47|2.35||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 47||2.35|0.47|0.9080
92212252|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6001|TWO_SIDED|95.0|0.53|3.05||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 47||3.05|0.53|0.6001
92212253|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.79||||0.5599|TWO_SIDED|95.0|0.35|1.76||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 47||1.76|0.35|0.5599
92212254|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9274|TWO_SIDED|95.0|0.43|2.17||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.17|0.43|0.9274
92150194|NCT03239873|184185958|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-1.3|1.3|||||Miettinen \& Nurminen|||1.3|-1.3|
92150195|NCT03239873|184185959|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-1.3|1.3|||||Miettinen \& Nurminen|||1.3|-1.3|
92212255|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9333|TWO_SIDED|95.0|0.44|2.47||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.47|0.44|0.9333
92212256|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.12||||0.7796|TWO_SIDED|95.0|0.5|2.5||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.50|0.50|0.7796
92150196|NCT03239873|184185962|OTHER||Difference in Percentage|2.9|||||TWO_SIDED|95.0|-4.6|10.3|||||Miettinen and Nurminen|||10.3|-4.6|
92212257|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.46||||0.8861|TWO_SIDED|95.0|0.46|2.44||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 49||2.44|0.46|0.8861
92150197|NCT01703702|184185966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.002|TWO_SIDED|95.0|1.22|2.38|||Chi-squared|||||2.38|1.22|0.002
92212258|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.86||||0.7331|TWO_SIDED|95.0|0.36|2.03||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 49||2.03|0.36|0.7331
92212259|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.79||||0.5686|TWO_SIDED|95.0|0.35|1.78||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 49||1.78|0.35|0.5686
92150198|NCT01703702|184185967|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35||||0.568|TWO_SIDED|95.0|-1.54|0.84|||ANCOVA|Adjusted for: Baseline ADAS-Cog score, study arm, Alzheimer's treatment, country, and interaction between study arm and Alzheimer's treatment.||||0.84|-1.54|0.568
92150199|NCT01703702|184185968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|43.9|||<|0.001|TWO_SIDED|95.0|20.0|96.12|||Chi-squared|||||96.12|20|<0.001
92150200|NCT01703702|184185969|SUPERIORITY_OR_OTHER||LS Mean Difference|20.69|||<|0.001|TWO_SIDED|95.0|18.95|22.43|||ANCOVA|Adjusted for: Cognitive status (mild impairment/dementia), physician/practice type, country and florbetapir F18 PET scan result (Aß+/Aß-)||Comparison of change in diagnostic confidence at follow-up (3 months)||22.43|18.95|<0.001
92212260|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.25||||0.601|TWO_SIDED|95.0|0.55|2.84||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 50||2.84|0.55|0.6010
92212261|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9732|TWO_SIDED|95.0|0.43|2.4||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 50||2.40|0.43|0.9732
92212262|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9378|TWO_SIDED|95.0|0.46|2.32||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 50||2.32|0.46|0.9378
92212263|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.27||||0.5799|TWO_SIDED|95.0|0.55|2.92||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 51||2.92|0.55|0.5799
92212264|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.01||||0.979|TWO_SIDED|95.0|0.42|2.44||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 51||2.44|0.42|0.9790
92273406|NCT01872689|184449221|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.5685|TWO_SIDED|95.0|0.23|2.26|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||2.26|0.23|0.5685
92150201|NCT01703702|184185970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.144|TWO_SIDED|95.0|0.92|1.78|||Chi-squared|||||1.78|0.92|0.144
92150202|NCT01703702|184185971|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16||||0.925|TWO_SIDED|95.0|-3.2|3.53|||ANCOVA|Adjusted for: Baseline scale, Cognitive status (mild impairment/dementia), country and florbetapir F18 PET scan result (Aß+/Aß-).||||3.53|-3.20|0.925
92150203|NCT01703702|184185972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.857|TWO_SIDED|95.0|0.7|1.54|||Chi-squared|||Major Diagnostic Tests||1.54|0.70|0.857
92150204|NCT01703702|184185972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96|||<|0.001|TWO_SIDED|95.0|1.36|2.81|||Chi-squared|||Alzheimer's/Cognitive Medication||2.81|1.36|<0.001
92150205|NCT01703702|184185972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.063|TWO_SIDED|95.0|0.97|2.64|||Chi-squared|||Neuropsychological Tests||2.64|0.97|0.063
92150206|NCT01703702|184185972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.741|TWO_SIDED|95.0|0.69|1.7|||Chi-squared|||Physician Follow-up for Re-evaluation||1.70|0.69|0.741
92150207|NCT01703702|184185972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.046|TWO_SIDED|95.0|1.01|2.08|||Chi-squared|||Specialist Referral||2.08|1.01|0.046
92150208|NCT02002884|184185997|SUPERIORITY||LS Mean difference|-0.22|||=|0.017|TWO_SIDED|95.0|-0.4|-0.04|||MMRM|||LS-Means are from mixed model with treatment group, pooled site and pre-treatment status included as fixed factors and AS at baseline, Gross Motor Function Classification System-Extended and Revised (GMFCS-E\&R) level at screening included as covariates. For MMRM visit\*treatment is interaction term repeated factor.||-0.04|-0.4|= 0.017
92150209|NCT02002884|184185997|SUPERIORITY||LS-Mean difference|-0.07|||=|0.546|TWO_SIDED|95.0|-0.29|0.15|||MMRM|||LS-Means are from mixed model with treatment group, pooled site and pre-treatment status included as fixed factors and AS at baseline, GMFCS-E\&R level at screening included as covariates. For MMRM visit\*treatment is interaction term repeated factor.||0.15|-0.29|= 0.546
92150210|NCT02002884|184185998|SUPERIORITY||LS-Mean difference|0.09|||=|0.34|TWO_SIDED|95.0|-0.1|0.28|||ANCOVA|||LS-Means are from analysis of covariance (ANCOVA) with treatment group, pooled site and pretreatment status included as fixed factors and maximum AS score of the two possible primary target patterns flexed elbow or flexed wrist baseline, GMFCS-E\&R level at screening included as covariates.||0.28|-0.1|= 0.34
92150211|NCT02002884|184185998|SUPERIORITY||LS-Mean difference|-0.12|||=|0.297|TWO_SIDED|95.0|-0.36|0.11|||ANCOVA|||LS-Means are from ANCOVA with treatment group, pooled site and pre-treatment status included as fixed factors and maximum AS score of the two possible primary target patterns flexed elbow or flexed wrist baseline, GMFCS-E\&R level at screening included as covariates.||0.11|-0.36|= 0.297
92150212|NCT02110732|184186012|OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
92150213|NCT02110732|184186013|SUPERIORITY||||||<|0.05|||||||Chi-squared||||Categorical variables were analyzed with Chi-square test or Fisher's exact test. Comparisons between groups were by Levene's test for equality of variances. A P-level \<0.05 was considered statistically significant. Data were analyzed with SPSS v.19 and NCSS.|||< 0.05
92150214|NCT02110732|184186014|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||< 0.05
92150215|NCT02948959|184186015|SUPERIORITY|To control the type-I error rate for the analysis of outcome measure, a hierarchical testing procedure was applied at a 2-sided 5% significant level. Testing was then performed sequentially in the order endpoints were reported. Hierarchical testing sequence continued only if the previous endpoint was statistically significant.|Risk Ratio (RR)|0.353|||<|0.0001|TWO_SIDED|95.0|0.222|0.562||Threshold for statistical significance at 5% significant level.|Negative binomial model||Risk ratio, also called relative risk compares the risk (rate) of an event among one group with the risk (rate) among another group.|Risk ratio and p-value was derived using negative binomial model with total number of events onset from randomization up to Week 52 visit or last contact date (whichever comes earlier) as response variable, with treatment group, age, baseline weight group, region, baseline eosinophil level, baseline FeNO level, baseline ICS dose level and number of severe exacerbation events within 1 year prior to study as covariates and log-transformed standardized observation duration as an offset variable.||0.562|0.222|<0.0001
92150216|NCT02948959|184186016|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|Risk Ratio (RR)|0.407|||<|0.0001|TWO_SIDED|95.0|0.274|0.605||Threshold for statistical significance at 5% significant level.|Negative binomial model||Risk ratio, also called relative risk compares the risk (rate) of an event among one group with the risk (rate) among another group.|Risk ratio and p-value was derived using negative binomial model with total number of events onset from randomization up to Week 52 visit or last contact date (whichever comes earlier) as response variable, with treatment group, age, baseline weight group, region, baseline eosinophil level, baseline FeNO level, baseline ICS dose level and number of severe exacerbation events within 1 year prior to study as covariates and log-transformed standardized observation duration as an offset variable.||0.605|0.274|<0.0001
92150217|NCT02948959|184186017|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|5.32||||0.0036|TWO_SIDED|95.0|1.76|8.88||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in pre-bronchodilator % predicted FEV1 value up to Week 12 as the response variable, and treatment, baseline weight group, region, ethnicity, baseline eosinophil level, baseline FeNO level, baseline ICS dose level, visit, treatment by-visit interaction, baseline % predicted FEV1 value and baseline-by-visit interaction as covariates.||8.88|1.76|0.0036
92150218|NCT02948959|184186018|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|5.21||||0.0009|TWO_SIDED|95.0|2.14|8.27||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in pre-bronchodilator % predicted FEV1 value up to Week 12 as the response variable, and treatment, baseline weight group, region, ethnicity, baseline eosinophil level, baseline FeNO level, baseline ICS dose level, visit, treatment by-visit interaction, baseline % predicted FEV1 value and baseline-by visit interaction as covariates.||8.27|2.14|0.0009
92212265|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7299|TWO_SIDED|95.0|0.51|2.64||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 51||2.64|0.51|0.7299
92212266|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7357|TWO_SIDED|95.0|0.51|2.64||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||2.64|0.51|0.7357
92212267|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.65||||0.3243|TWO_SIDED|95.0|0.28|1.51||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.51|0.28|0.3243
92212268|NCT03816891|184324397|SUPERIORITY||Odds Ratio (OR)|0.72||||0.4364|TWO_SIDED|95.0|0.32|1.63||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.63|0.32|0.4364
92212269|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|5.18||||0.0957|TWO_SIDED|95.0|0.6|44.6||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 1||44.60|0.60|0.0957
92212270|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.2||||0.5457|TWO_SIDED|95.0|0.17|28.14||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 1||28.14|0.17|0.5457
92212271|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|3.14||||0.3797|TWO_SIDED|95.0|0.24|41.51||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 1||41.51|0.24|0.3797
92212272|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|7.97||||0.0042|TWO_SIDED|95.0|1.64|38.75||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||38.75|1.64|0.0042
92212273|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|5.08||||0.0383|TWO_SIDED|95.0|0.99|26.09||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||26.09|0.99|0.0383
92212274|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|5.42||||0.0357|TWO_SIDED|95.0|1.02|28.92||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||28.92|1.02|0.0357
92212275|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|17.35|||<|0.0001|TWO_SIDED|95.0|3.86|77.91||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 3||77.91|3.86|<0.0001
92212276|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|5.04||||0.0408|TWO_SIDED|95.0|0.97|26.01||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 3||26.01|0.97|0.0408
92212277|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|5.42||||0.0357|TWO_SIDED|95.0|1.02|28.92||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 3||28.92|1.02|0.0357
92212278|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|16.8|||<|0.0001|TWO_SIDED|95.0|4.51|62.54||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||62.54|4.51|<0.0001
92212279|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|4.95||||0.0116|TWO_SIDED|95.0|1.31|18.78||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||18.78|1.31|0.0116
92212280|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.95||||0.3738|TWO_SIDED|95.0|0.43|8.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||8.82|0.43|0.3738
92212281|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|44.08|||<|0.0001|TWO_SIDED|95.0|6.06|320.77||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 5||320.77|6.06|<0.0001
92212282|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|27.11||||0.0002|TWO_SIDED|95.0|2.73|268.93||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 5||268.93|2.73|0.0002
92212283|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|17.02||||0.0029|TWO_SIDED|95.0|1.74|166.84||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 5||166.84|1.74|0.0029
92212284|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|17.84|||<|0.0001|TWO_SIDED|95.0|4.7|67.78||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 6||67.78|4.70|<0.0001
92212285|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|9.86||||0.0002|TWO_SIDED|95.0|2.6|37.44||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 6||37.44|2.60|0.0002
92212286|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|5.87||||0.0055|TWO_SIDED|95.0|1.53|22.53||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 6||22.53|1.53|0.0055
92212287|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|14.14|||<|0.0001|TWO_SIDED|95.0|4.37|45.75||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 7||45.75|4.37|<0.0001
92212288|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|6.85||||0.0005|TWO_SIDED|95.0|2.11|22.25||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 7||22.25|2.11|0.0005
92212289|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|4.24||||0.016|TWO_SIDED|95.0|1.25|14.41||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 7||14.41|1.25|0.0160
92212290|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|14.14|||<|0.0001|TWO_SIDED|95.0|4.37|45.75||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||45.75|4.37|<0.0001
92212291|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|6.26||||0.0009|TWO_SIDED|95.0|1.93|20.33||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||20.33|1.93|0.0009
92212292|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|4.19||||0.0151|TWO_SIDED|95.0|1.25|14.04||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||14.04|1.25|0.0151
92212293|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|19.23|||<|0.0001|TWO_SIDED|95.0|5.35|69.06||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 9||69.06|5.35|<0.0001
92212294|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|11.51|||<|0.0001|TWO_SIDED|95.0|3.48|38.09||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 9||38.09|3.48|<0.0001
92212295|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|6.12||||0.0013|TWO_SIDED|95.0|1.86|20.2||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 9||20.20|1.86|0.0013
92212296|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|14.64|||<|0.0001|TWO_SIDED|95.0|4.89|43.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 10||43.82|4.89|<0.0001
92212297|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|9.59|||<|0.0001|TWO_SIDED|95.0|3.44|26.76||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 10||26.76|3.44|<0.0001
92212298|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|4.2||||0.0049|TWO_SIDED|95.0|1.48|11.9||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 10||11.90|1.48|0.0049
92212299|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|8.3|||<|0.0001|TWO_SIDED|95.0|3.17|21.77||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 11||21.77|3.17|<0.0001
92212300|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|5.53|||<|0.0001|TWO_SIDED|95.0|2.2|13.92||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 11||13.92|2.20|<0.0001
92212301|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.23||||0.0939|TWO_SIDED|95.0|0.85|5.86||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 11||5.86|0.85|0.0939
92212302|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|7.68|||<|0.0001|TWO_SIDED|95.0|2.91|20.31||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||20.31|2.91|<0.0001
92212303|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|6.51|||<|0.0001|TWO_SIDED|95.0|2.51|16.93||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||16.93|2.51|<0.0001
92273407|NCT01872689|184449221|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.1976|TWO_SIDED|95.0|0.37|1.23|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.23|0.37|0.1976
92212304|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1425|TWO_SIDED|95.0|0.77|5.28||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||5.28|0.77|0.1425
92212305|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|9.99|||<|0.0001|TWO_SIDED|95.0|3.61|27.64||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 13||27.64|3.61|<0.0001
92212306|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|8.31|||<|0.0001|TWO_SIDED|95.0|3.08|22.43||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 13||22.43|3.08|<0.0001
92212307|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0194|TWO_SIDED|95.0|1.17|8.6||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 13||8.60|1.17|0.0194
92212308|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|9.13|||<|0.0001|TWO_SIDED|95.0|3.5|23.77||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 14||23.77|3.50|<0.0001
92212309|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|8.02|||<|0.0001|TWO_SIDED|95.0|3.11|20.7||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 14||20.70|3.11|<0.0001
92212310|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.96||||0.0266|TWO_SIDED|95.0|1.12|7.87||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 14||7.87|1.12|0.0266
92150219|NCT02948959|184186019|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|-0.46|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.26||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in ACQ-7-IA up to Week 52 as the response variable, and treatment, age, weight group, region, baseline eosinophil level, baseline FeNO level, baseline ICS dose level, visit, treatment by-visit interaction, baseline ACQ-7-IA and baseline-by-visit interaction as covariates.||-0.26|-0.66|<0.0001
92150220|NCT02948959|184186020|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|-0.33||||0.0001|TWO_SIDED|95.0|-0.5|-0.16||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in ACQ-7-IA up to Week 52 as the response variable, and treatment, age, weight group, region, baseline eosinophil level, baseline FeNO level, baseline ICS dose level, visit, treatment by-visit interaction, baseline ACQ-7-IA and baseline-by-visit interaction as covariates.||-0.16|-0.50|0.0001
92150221|NCT02948959|184186021|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|-20.59|||<|0.0001|TWO_SIDED|95.0|-24.6|-16.59||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in FeNO up to Week 12 as the response variable, and treatment, age, weight group, region, baseline eosinophil level, baseline ICS dose level, visit, treatment by-visit interaction, baseline FeNO value and baseline-by-visit interaction as covariates.||-16.59|-24.60|<0.0001
92150222|NCT02948959|184186022|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|-17.84|||<|0.0001|TWO_SIDED|95.0|-21.05|-14.63||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in FeNO up to Week 12 as the response variable, and treatment, age, weight group, region, baseline eosinophil level, baseline ICS dose level, visit, treatment by-visit interaction, baseline FeNO value and baseline-by-visit interaction as covariates.||-14.63|-21.05|<0.0001
92150223|NCT03802864|184186071|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
92150224|NCT03802864|184186072|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||||||0.37
92150225|NCT03802864|184186073|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
92150226|NCT03802864|184186074|SUPERIORITY|||||||0.28|||||||Regression, Linear|||||||0.28
92212311|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|10.39|||<|0.0001|TWO_SIDED|95.0|3.85|28.0||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 15||28.00|3.85|<0.0001
92150227|NCT03802864|184186075|SUPERIORITY|||||||0.78|||||||Log Rank|||||||0.78
92150228|NCT03802864|184186076|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
92150229|NCT03802864|184186077|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
92150230|NCT01480596|184186082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.84|STANDARD_ERROR_OF_MEAN|1.592||0.256|TWO_SIDED|95.0|-5.08|1.4|||Mixed Models Analysis||Standard error of mean is for adjusted difference.|||1.40|-5.08|0.256
92150231|NCT01480596|184186083|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.81||||0.082||95.0|0.87|19.02|||exact methods|||||19.02|0.87|0.082
92336650|NCT02559570|184576081|SUPERIORITY||Least Squares Mean Difference|0.364|STANDARD_ERROR_OF_MEAN|0.563||0.5188|TWO_SIDED|95.0|-0.748|1.477|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||1.477|-0.748|0.5188
92150232|NCT01480596|184186084|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.827||95.0|0.05|4.35|||exact methods|||||4.35|0.05|0.827
92150233|NCT01480596|184186085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51||||0.184|TWO_SIDED|95.0|0.62|10.1|||Cochran-Mantel-Haenszel|||||10.10|0.62|0.184
92150234|NCT01480596|184186087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|1.228||0.175|TWO_SIDED|95.0|-4.2|0.8|||Mixed Models Analysis||Analysis for Week 28. Standard error of mean is for adjusted difference.|||0.80|-4.20|0.175
92150235|NCT01480596|184186087|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.31|STANDARD_ERROR_OF_MEAN|1.267||0.31|TWO_SIDED|95.0|-3.89|1.28|||Mixed Models Analysis||Analysis for Week 32. Standard error of mean is for adjusted difference.|||1.28|-3.89|0.310
92150236|NCT01480596|184186087|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.29|STANDARD_ERROR_OF_MEAN|1.272||0.081|TWO_SIDED|95.0|-4.88|0.3|||Mixed Models Analysis||Analysis for Week 36. Standard error of mean is for adjusted difference.|||0.30|-4.88|0.081
92150237|NCT01480596|184186088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|1.486||0.972|TWO_SIDED|95.0|-2.97|3.07|||Mixed Models Analysis||Standard error of mean is for adjusted difference.|||3.07|-2.97|0.972
92150238|NCT01480596|184186089|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||1|TWO_SIDED|95.0|0.26|5.48|||exact methods|||||5.48|0.26|1.000
92150239|NCT01480596|184186090|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.53|TWO_SIDED|95.0|0.03|2.89|||exact methods|||||2.89|0.03|0.530
92150240|NCT01480596|184186091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7||||0.175|TWO_SIDED|95.0|0.64|11.46|||Cochran-Mantel-Haenszel|||||11.46|0.64|0.175
92150241|NCT01480596|184186093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.245||0.423|TWO_SIDED|95.0|-3.56|1.53|||Mixed Models Analysis||Analysis for Week 28. Standard error of mean is for adjusted difference.|||1.53|-3.56|0.423
92150242|NCT01480596|184186093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|1.361||0.986|TWO_SIDED|95.0|-2.76|2.8|||Mixed Models Analysis||Analysis for Week 32. Standard error of mean is for adjusted difference.|||2.80|-2.76|0.986
92150243|NCT01480596|184186093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|1.43||0.848|TWO_SIDED|95.0|-3.21|2.65|||Mixed Models Analysis||Analysis for Week 36. Standard error of mean is for adjusted difference.|||2.65|-3.21|0.848
92150244|NCT01480596|184186099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.707||0.483|TWO_SIDED|95.0|-1.94|0.93|||Mixed Models Analysis||Statistical analysis is presented for Week 12. Standard error of mean is for adjusted mean difference.|||0.93|-1.94|0.483
92150245|NCT01480596|184186099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.844||0.711|TWO_SIDED|95.0|-2.03|1.4|||Mixed Models Analysis||Statistical analysis is presented for Week 24. Standard error of mean is for adjusted mean difference.|||1.40|-2.03|0.711
92150246|NCT01480596|184186100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75|STANDARD_ERROR_OF_MEAN|0.757||0.028|TWO_SIDED|95.0|-3.3|-0.2|||Mixed Models Analysis||Analysis for Week 28. Standard error of mean is for adjusted difference.|||-0.20|-3.30|0.028
92150247|NCT01480596|184186100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.887||0.756|TWO_SIDED|95.0|-2.1|1.55|||Mixed Models Analysis||Analysis for Week 32. Standard error of mean is for adjusted difference.|||1.55|-2.10|0.756
92150248|NCT01480596|184186100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.909||0.775|TWO_SIDED|95.0|-2.12|1.59|||Mixed Models Analysis||Analysis for Week 36. Standard error of mean is for adjusted difference.|||1.59|-2.12|0.775
92150249|NCT03338621|184186101|SUPERIORITY||Cox Proportional Hazard|2.93|||<|0.001|TWO_SIDED|95.0|2.17|3.96|||Log Rank|||||3.96|2.17|<0.001
92150250|NCT00152009|184186106|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||0.0006
92150251|NCT00152009|184186106|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||0.0005
92150252|NCT00152009|184186106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||<0.0001
92150253|NCT00152009|184186107|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||0.025
92150254|NCT00152009|184186107|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||0.035
92150255|NCT00152009|184186107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||<0.0001
92150256|NCT00152009|184186108|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||<0.0001
92150257|NCT00152009|184186108|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||<0.0001
92150258|NCT00152009|184186108|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||<0.0001
92150259|NCT00152009|184186109|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92150260|NCT00152009|184186109|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0|||||Cochran-Mantel-Haenszel|||||||0.0016
92150261|NCT00152009|184186109|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||0.0001
92150262|NCT00152009|184186110|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92150263|NCT00152009|184186110|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013||95.0|||||Cochran-Mantel-Haenszel|||||||0.0013
92150264|NCT00152009|184186110|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92150265|NCT00152009|184186111|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1438||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||Psychosocial category||||0.1438
92150266|NCT00152009|184186111|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1426||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||Psychosocial category||||0.1426
92150267|NCT00152009|184186111|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0191||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||Psychosocial category||||0.0191
92150268|NCT02037438|184186154|SUPERIORITY_OR_OTHER||Provider-Effect Adjusted Difference|0.03|STANDARD_ERROR_OF_MEAN|0.075||0.687|TWO_SIDED||||||see Comments|Finite-Mixture Models with Fixed Effects for Providers||||||0.687
92150269|NCT02037438|184186155|SUPERIORITY_OR_OTHER||Provider-Effect Adjusted Difference|-0.007|STANDARD_ERROR_OF_MEAN|0.539||0.989|TWO_SIDED||||||see Comments|Heteroscedasticity-Consistent Linear Regression with Fixed Effects for Providers and Baseline Covariate||||||0.989
92150270|NCT02037438|184186156|SUPERIORITY_OR_OTHER||Provider-Effect Adjusted Difference|0.114|STANDARD_ERROR_OF_MEAN|0.141||0.417|TWO_SIDED||||||see Comments|Finite-Mixture Models with Fixed Effects for Providers||||||0.417
92150271|NCT02037438|184186157|SUPERIORITY_OR_OTHER||Provider-Effect Adjusted Difference|0.057|STANDARD_ERROR_OF_MEAN|0.078||0.468|TWO_SIDED||||||see Comments|Finite-Mixture Models with Fixed Effects for Providers||||||0.468
92150272|NCT02037438|184186158|SUPERIORITY_OR_OTHER||Provider-Effect Adjusted Difference|0.177|STANDARD_ERROR_OF_MEAN|0.061||0.003|TWO_SIDED||||||see Comments|Finite-Mixture Models with Fixed Effects for Providers||||||0.003
92150273|NCT05375955|184186169|OTHER||Risk Difference (RD)|12.4||||0.0711|TWO_SIDED|95.0|-4.1|29.4|||Chan and Zhang (1999) method|||||29.4|-4.1|0.0711
92150274|NCT05375955|184186169|OTHER||Risk Difference (RD)|10.1||||0.129|TWO_SIDED|95.0|-6.1|26.8|||Chan and Zhang (1999) method|||||26.8|-6.1|0.1290
92150275|NCT05375955|184186170|OTHER||Risk Difference (RD)|6.3||||0.2712|TWO_SIDED|95.0|-10.8|24.3|||Chan and Zhang (1999) method|||||24.3|-10.8|0.2712
92150276|NCT05375955|184186170|OTHER||Risk Difference (RD)|28.3||||0.0028|TWO_SIDED|95.0|7.7|47.5|||Chan and Zhang (1999) method|||||47.5|7.7|0.0028
92150277|NCT05375955|184186170|OTHER||Risk Difference (RD)|36.6||||0.0003|TWO_SIDED|95.0|14.7|56.4|||Chan and Zhang (1999) method|||||56.4|14.7|0.0003
92150278|NCT05375955|184186171|OTHER||Risk Difference (RD)|0.1||||0.5701|TWO_SIDED|95.0|-10.2|10.7|||Chan and Zhang (1999) method|||Week 1||10.7|-10.2|0.5701
92150279|NCT05375955|184186171|OTHER||Risk Difference (RD)|2.5||||0.3269|TWO_SIDED|95.0|-8.4|14.1|||Chan and Zhang (1999) method|||Week 1||14.1|-8.4|0.3269
92150280|NCT05375955|184186171|OTHER||Risk Difference (RD)|9.6||||0.0532|TWO_SIDED|95.0|-2.0|23.7|||Chan and Zhang (1999) method|||Week 2||23.7|-2.0|0.0532
92150281|NCT05375955|184186171|OTHER||Risk Difference (RD)|4.9||||0.1705|TWO_SIDED|95.0|-6.1|17.6|||Chan and Zhang (1999) method|||Week 2||17.6|-6.1|0.1705
92150282|NCT05375955|184186171|OTHER||Risk Difference (RD)|0.5||||0.5123|TWO_SIDED|95.0|-14.4|15.7|||Chan and Zhang (1999) method|||Week 4||15.7|-14.4|0.5123
92150283|NCT05375955|184186171|OTHER||Risk Difference (RD)|5.3||||0.2751|TWO_SIDED|95.0|-10.7|22.1|||Chan and Zhang (1999) method|||Week 4||22.1|-10.7|0.2751
92150284|NCT05375955|184186171|OTHER||Risk Difference (RD)|7.8||||0.2736|TWO_SIDED|95.0|-8.9|24.8|||Chan and Zhang (1999) method|||Week 6||24.8|-8.9|0.2736
92150285|NCT05375955|184186171|OTHER||Risk Difference (RD)|3.0||||0.3967|TWO_SIDED|95.0|-13.0|19.8|||Chan and Zhang (1999) method|||Week 6||19.8|-13.0|0.3967
92150286|NCT05375955|184186171|OTHER||Risk Difference (RD)|3.1||||0.3997|TWO_SIDED|95.0|-13.6|20.2|||Chan and Zhang (1999) method|||Week 8||20.2|-13.6|0.3997
92150287|NCT05375955|184186171|OTHER||Risk Difference (RD)|-1.6||||0.5461|TWO_SIDED|95.0|-17.7|15.3|||Chan and Zhang (1999) method|||Week 8||15.3|-17.7|0.5461
92150288|NCT05375955|184186171|OTHER||Risk Difference (RD)|7.8||||0.2736|TWO_SIDED|95.0|-8.9|24.8|||Chan and Zhang (1999) method|||Week 10||24.8|-8.9|0.2736
92212312|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|8.15|||<|0.0001|TWO_SIDED|95.0|3.04|21.86||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 15||21.86|3.04|<0.0001
92150289|NCT05375955|184186171|OTHER||Risk Difference (RD)|5.4||||0.2754|TWO_SIDED|95.0|-11.0|22.1|||Chan and Zhang (1999) method|||Week 10||22.1|-11.0|0.2754
92150290|NCT05375955|184186171|OTHER||Risk Difference (RD)|12.6||||0.0977|TWO_SIDED|95.0|-4.8|30.3|||Chan and Zhang (1999) method|||Week 12||30.3|-4.8|0.0977
92150291|NCT05375955|184186171|OTHER||Risk Difference (RD)|14.9||||0.0542|TWO_SIDED|95.0|-2.8|33.2|||Chan and Zhang (1999) method|||Week 12||33.2|-2.8|0.0542
92150292|NCT05375955|184186172|OTHER||Risk Difference (RD)|3.0||||0.2578|TWO_SIDED|95.0|-7.8|15.8|||Chan and Zhang (1999) method|||Week 1||15.8|-7.8|0.2578
92150293|NCT05375955|184186172|OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-10.6|10.1|||Chan and Zhang (1999) method|||Week 1||10.1|-10.6|1.0000
92150294|NCT05375955|184186172|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 1||24.3|-2.1|0.0436
92150295|NCT05375955|184186172|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 2||24.3|-2.1|0.0436
92150296|NCT05375955|184186172|OTHER||Risk Difference (RD)|2.9||||0.2697|TWO_SIDED|95.0|-7.8|14.9|||Chan and Zhang (1999) method|||Week 2||14.9|-7.8|0.2697
92150297|NCT05375955|184186172|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 2||32.0|3.2|0.0104
92150298|NCT05375955|184186172|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 4||32.0|3.2|0.0104
92150299|NCT05375955|184186172|OTHER||Risk Difference (RD)|14.3||||0.0129|TWO_SIDED|95.0|2.6|30.3|||Chan and Zhang (1999) method|||Week 4||30.3|2.6|0.0129
92150300|NCT05375955|184186172|OTHER||Risk Difference (RD)|21.2||||0.0024|TWO_SIDED|95.0|8.0|38.9|||Chan and Zhang (1999) method|||Week 4||38.9|8.0|0.0024
92150301|NCT05375955|184186172|OTHER||Risk Difference (RD)|21.2||||0.0024|TWO_SIDED|95.0|8.0|38.9|||Chan and Zhang (1999) method|||Week 6||38.9|8.0|0.0024
92150302|NCT05375955|184186172|OTHER||Risk Difference (RD)|22.9||||0.0018|TWO_SIDED|95.0|9.5|40.1|||Chan and Zhang (1999) method|||Week 6||40.1|9.5|0.0018
92150303|NCT05375955|184186172|OTHER||Risk Difference (RD)|33.3||||0.0001|TWO_SIDED|95.0|17.8|51.8|||Chan and Zhang (1999) method|||Week 6||51.8|17.8|0.0001
92150304|NCT05375955|184186172|OTHER||Risk Difference (RD)|15.2||||0.0259|TWO_SIDED|95.0|-0.1|32.5|||Chan and Zhang (1999) method|||Week 8||32.5|-0.1|0.0259
92150305|NCT05375955|184186172|OTHER||Risk Difference (RD)|22.8||||0.0038|TWO_SIDED|95.0|6.3|40.4|||Chan and Zhang (1999) method|||Week 8||40.4|6.3|0.0038
92150306|NCT05375955|184186172|OTHER||Risk Difference (RD)|30.4||||0.0007|TWO_SIDED|95.0|12.2|48.9|||Chan and Zhang (1999) method|||Week 8||48.9|12.2|0.0007
92150307|NCT05375955|184186172|OTHER||Risk Difference (RD)|21.5||||0.0146|TWO_SIDED|95.0|2.1|41.2|||Chan and Zhang (1999) method|||Week 10||41.2|2.1|0.0146
92150308|NCT05375955|184186172|OTHER||Risk Difference (RD)|19.7||||0.0205|TWO_SIDED|95.0|1.0|38.9|||Chan and Zhang (1999) method|||Week 10||38.9|1.0|0.0205
92150309|NCT05375955|184186172|OTHER||Risk Difference (RD)|39.7||||0.0002|TWO_SIDED|95.0|17.1|59.3|||Chan and Zhang (1999) method|||Week 10||59.3|17.1|0.0002
92150310|NCT05375955|184186172|OTHER||Risk Difference (RD)|12.6||||0.1245|TWO_SIDED|95.0|-7.8|32.6|||Chan and Zhang (1999) method|||Week 12||32.6|-7.8|0.1245
92150311|NCT05375955|184186172|OTHER||Risk Difference (RD)|11.0||||0.1431|TWO_SIDED|95.0|-9.1|31.5|||Chan and Zhang (1999) method|||Week 12||31.5|-9.1|0.1431
92150312|NCT05375955|184186172|OTHER||Risk Difference (RD)|36.8||||0.0007|TWO_SIDED|95.0|12.2|56.8|||Chan and Zhang (1999) method|||Week 12||56.8|12.2|0.0007
92150313|NCT05375955|184186173|OTHER||Risk Difference (RD)|2.5||||0.3269|TWO_SIDED|95.0|-8.4|14.1|||Chan and Zhang (1999) method|||Week 1||14.1|-8.4|0.3269
92150314|NCT05375955|184186173|OTHER||Risk Difference (RD)|2.5||||0.3269|TWO_SIDED|95.0|-8.4|14.1|||Chan and Zhang (1999) method|||Week 1||14.1|-8.4|0.3269
92150315|NCT05375955|184186173|OTHER||Risk Difference (RD)|4.9||||0.1705|TWO_SIDED|95.0|-6.1|17.6|||Chan and Zhang (1999) method|||Week 2||17.6|-6.1|0.1705
92150316|NCT05375955|184186173|OTHER||Risk Difference (RD)|7.3||||0.1118|TWO_SIDED|95.0|-3.9|20.5|||Chan and Zhang (1999) method|||Week 2||20.5|-3.9|0.1118
92150317|NCT05375955|184186173|OTHER||Risk Difference (RD)|5.2||||0.2751|TWO_SIDED|95.0|-9.5|20.5|||Chan and Zhang (1999) method|||Week 4||20.5|-9.5|0.2751
92150318|NCT05375955|184186173|OTHER||Risk Difference (RD)|2.8||||0.3857|TWO_SIDED|95.0|-11.4|17.6|||Chan and Zhang (1999) method|||Week 4||17.6|-11.4|0.3857
92150319|NCT05375955|184186173|OTHER||Risk Difference (RD)|7.5||||0.1429|TWO_SIDED|95.0|-6.4|22.6|||Chan and Zhang (1999) method|||Week 6||22.6|-6.4|0.1429
92150320|NCT05375955|184186173|OTHER||Risk Difference (RD)|7.5||||0.1429|TWO_SIDED|95.0|-6.4|22.6|||Chan and Zhang (1999) method|||Week 6||22.6|-6.4|0.1429
92150321|NCT05375955|184186173|OTHER||Risk Difference (RD)|9.8||||0.1119|TWO_SIDED|95.0|-4.4|25.3|||Chan and Zhang (1999) method|||Week 8||25.3|-4.4|0.1119
92150322|NCT05375955|184186173|OTHER||Risk Difference (RD)|2.7||||0.3755|TWO_SIDED|95.0|-10.7|16.7|||Chan and Zhang (1999) method|||Week 8||16.7|-10.7|0.3755
92150323|NCT05375955|184186173|OTHER||Risk Difference (RD)|7.7||||0.2547|TWO_SIDED|95.0|-8.4|24.3|||Chan and Zhang (1999) method|||Week 10||24.3|-8.4|0.2547
92150324|NCT05375955|184186173|OTHER||Risk Difference (RD)|2.9||||0.3928|TWO_SIDED|95.0|-12.7|18.6|||Chan and Zhang (1999) method|||Week 10||18.6|-12.7|0.3928
92150325|NCT05375955|184186174|OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-10.6|11.0|||Chan and Zhang (1999) method|||Week 1||11.0|-10.6|1.0000
92150326|NCT05375955|184186174|OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-10.6|10.1|||Chan and Zhang (1999) method|||Week 1||10.1|-10.6|1.0000
92150327|NCT05375955|184186174|OTHER||Risk Difference (RD)|3.0||||0.2578|TWO_SIDED|95.0|-7.8|15.8|||Chan and Zhang (1999) method|||Week 1||15.8|-7.8|0.2578
92150328|NCT05375955|184186174|OTHER||Risk Difference (RD)|6.1||||0.0993|TWO_SIDED|95.0|-4.9|20.7|||Chan and Zhang (1999) method|||Week 2||20.7|-4.9|0.0993
92150329|NCT05375955|184186174|OTHER||Risk Difference (RD)|5.7||||0.114|TWO_SIDED|95.0|-5.3|19.2|||Chan and Zhang (1999) method|||Week 2||19.2|-5.3|0.1140
92212313|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0172|TWO_SIDED|95.0|1.22|9.29||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 15||9.29|1.22|0.0172
92397719|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|10.08||||0.0343|TWO_SIDED|95.0|1.19|85.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||85.64|1.19|0.0343
92150330|NCT05375955|184186174|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 2||24.3|-2.1|0.0436
92150331|NCT05375955|184186174|OTHER||Risk Difference (RD)|6.1||||0.0993|TWO_SIDED|95.0|-4.9|20.7|||Chan and Zhang (1999) method|||Week 4||20.7|-4.9|0.0993
92150332|NCT05375955|184186174|OTHER||Risk Difference (RD)|17.1||||0.0071|TWO_SIDED|95.0|4.9|33.9|||Chan and Zhang (1999) method|||Week 4||33.9|4.9|0.0071
92150333|NCT05375955|184186174|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 4||32.0|3.2|0.0104
92150334|NCT05375955|184186174|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 6||32.0|3.2|0.0104
92150335|NCT05375955|184186174|OTHER||Risk Difference (RD)|17.1||||0.0071|TWO_SIDED|95.0|4.9|33.9|||Chan and Zhang (1999) method|||Week 6||33.9|4.9|0.0071
92150336|NCT05375955|184186174|OTHER||Risk Difference (RD)|24.2||||0.0011|TWO_SIDED|95.0|10.4|42.3|||Chan and Zhang (1999) method|||Week 6||42.3|10.4|0.0011
92150337|NCT05375955|184186174|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 8||24.3|-2.1|0.0436
92150338|NCT05375955|184186174|OTHER||Risk Difference (RD)|28.6||||0.0003|TWO_SIDED|95.0|14.2|46.3|||Chan and Zhang (1999) method|||Week 8||46.3|14.2|0.0003
92150339|NCT05375955|184186174|OTHER||Risk Difference (RD)|27.3||||0.0007|TWO_SIDED|95.0|12.9|45.8|||Chan and Zhang (1999) method|||Week 8||45.8|12.9|0.0007
92150340|NCT05375955|184186174|OTHER||Risk Difference (RD)|9.3||||0.1256|TWO_SIDED|95.0|-6.6|26.4|||Chan and Zhang (1999) method|||Week 10||26.4|-6.6|0.1256
92150341|NCT05375955|184186174|OTHER||Risk Difference (RD)|25.5||||0.0038|TWO_SIDED|95.0|7.0|44.8|||Chan and Zhang (1999) method|||Week 10||44.8|7.0|0.0038
92150342|NCT05375955|184186174|OTHER||Risk Difference (RD)|33.5||||0.0007|TWO_SIDED|95.0|12.8|52.6|||Chan and Zhang (1999) method|||Week 10||52.6|12.8|0.0007
92150343|NCT05375955|184186175|OTHER||Risk Difference (RD)|2.5||||0.3269|TWO_SIDED|95.0|-8.4|14.1|||Chan and Zhang (1999) method|||Week 1||14.1|-8.4|0.3269
92150344|NCT05375955|184186175|OTHER||Risk Difference (RD)|2.5||||0.3269|TWO_SIDED|95.0|-8.4|14.1|||Chan and Zhang (1999) method|||Week 1||14.1|-8.4|0.3269
92150345|NCT05375955|184186175|OTHER||Risk Difference (RD)|2.6||||0.3585|TWO_SIDED|95.0|-9.2|15.5|||Chan and Zhang (1999) method|||Week 2||15.5|-9.2|0.3585
92150346|NCT05375955|184186175|OTHER||Risk Difference (RD)|7.4||||0.129|TWO_SIDED|95.0|-5.3|22.1|||Chan and Zhang (1999) method|||Week 2||22.1|-5.3|0.1290
92150347|NCT05375955|184186175|OTHER||Risk Difference (RD)|5.3||||0.2751|TWO_SIDED|95.0|-10.7|22.1|||Chan and Zhang (1999) method|||Week 4||22.1|-10.7|0.2751
92150348|NCT05375955|184186175|OTHER||Risk Difference (RD)|7.7||||0.2547|TWO_SIDED|95.0|-8.4|24.3|||Chan and Zhang (1999) method|||Week 4||24.3|-8.4|0.2547
92150349|NCT05375955|184186175|OTHER||Risk Difference (RD)|5.2||||0.2751|TWO_SIDED|95.0|-9.5|20.5|||Chan and Zhang (1999) method|||Week 6||20.5|-9.5|0.2751
92150350|NCT05375955|184186175|OTHER||Risk Difference (RD)|12.3||||0.0658|TWO_SIDED|95.0|-3.8|28.8|||Chan and Zhang (1999) method|||Week 6||28.8|-3.8|0.0658
92150351|NCT05375955|184186175|OTHER||Risk Difference (RD)|5.3||||0.2751|TWO_SIDED|95.0|-10.7|22.1|||Chan and Zhang (1999) method|||Week 8||22.1|-10.7|0.2751
92150352|NCT05375955|184186175|OTHER||Risk Difference (RD)|5.3||||0.2751|TWO_SIDED|95.0|-10.7|22.1|||Chan and Zhang (1999) method|||Week 8||22.1|-10.7|0.2751
92150353|NCT05375955|184186175|OTHER||Risk Difference (RD)|3.1||||0.3997|TWO_SIDED|95.0|-13.6|20.2|||Chan and Zhang (1999) method|||Week 10||20.2|-13.6|0.3997
92150354|NCT05375955|184186175|OTHER||Risk Difference (RD)|3.1||||0.3997|TWO_SIDED|95.0|-13.6|20.2|||Chan and Zhang (1999) method|||Week 10||20.2|-13.6|0.3997
92212314|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|8.6|||<|0.0001|TWO_SIDED|95.0|3.34|22.14||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||22.14|3.34|<0.0001
92212315|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|7.6|||<|0.0001|TWO_SIDED|95.0|2.91|19.79||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||19.79|2.91|<0.0001
92212316|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.14||||0.1252|TWO_SIDED|95.0|0.8|5.75||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||5.75|0.80|0.1252
92212317|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|8.01|||<|0.0001|TWO_SIDED|95.0|3.09|20.75||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 17||20.75|3.09|<0.0001
92212318|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|8.6|||<|0.0001|TWO_SIDED|95.0|3.3|22.4||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 17||22.40|3.30|<0.0001
92212319|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|3.39||||0.0074|TWO_SIDED|95.0|1.38|8.34||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 17||8.34|1.38|0.0074
92212320|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|3.94||||0.0015|TWO_SIDED|95.0|1.66|9.33||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||9.33|1.66|0.0015
92212321|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|5.03||||0.0003|TWO_SIDED|95.0|2.04|12.4||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||12.40|2.04|0.0003
92212322|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.82||||0.1667|TWO_SIDED|95.0|0.78|4.23||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||4.23|0.78|0.1667
92150355|NCT05375955|184186175|OTHER||Risk Difference (RD)|7.9||||0.2736|TWO_SIDED|95.0|-9.5|25.7|||Chan and Zhang (1999) method|||Week 12||25.7|-9.5|0.2736
92150356|NCT05375955|184186175|OTHER||Risk Difference (RD)|12.7||||0.1119|TWO_SIDED|95.0|-5.6|31.0|||Chan and Zhang (1999) method|||Week 12||31.0|-5.6|0.1119
92150357|NCT05375955|184186176|OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-10.6|11.0|||Chan and Zhang (1999) method|||Week 1||11.0|-10.6|1.0000
92150358|NCT05375955|184186176|OTHER||Risk Difference (RD)|2.9||||0.2697|TWO_SIDED|95.0|-7.8|14.9|||Chan and Zhang (1999) method|||Week 1||14.9|-7.8|0.2697
92150359|NCT05375955|184186176|OTHER||Risk Difference (RD)|3.0||||0.2578|TWO_SIDED|95.0|-7.8|15.8|||Chan and Zhang (1999) method|||Week 1||15.8|-7.8|0.2578
92150360|NCT05375955|184186176|OTHER||Risk Difference (RD)|6.1||||0.0993|TWO_SIDED|95.0|-4.9|20.7|||Chan and Zhang (1999) method|||Week 2||20.7|-4.9|0.0993
92150361|NCT05375955|184186176|OTHER||Risk Difference (RD)|5.7||||0.114|TWO_SIDED|95.0|-5.3|19.2|||Chan and Zhang (1999) method|||Week 2||19.2|-5.3|0.1140
92150362|NCT05375955|184186176|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 2||24.3|-2.1|0.0436
92150363|NCT05375955|184186176|OTHER||Risk Difference (RD)|6.1||||0.0993|TWO_SIDED|95.0|-4.9|20.7|||Chan and Zhang (1999) method|||Week 4||20.7|-4.9|0.0993
92150364|NCT05375955|184186176|OTHER||Risk Difference (RD)|17.1||||0.0071|TWO_SIDED|95.0|4.9|33.9|||Chan and Zhang (1999) method|||Week 4||33.9|4.9|0.0071
92150365|NCT05375955|184186176|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 4||32.0|3.2|0.0104
92150366|NCT05375955|184186176|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 6||32.0|3.2|0.0104
92150367|NCT05375955|184186176|OTHER||Risk Difference (RD)|17.1||||0.0071|TWO_SIDED|95.0|4.9|33.9|||Chan and Zhang (1999) method|||Week 6||33.9|4.9|0.0071
92150368|NCT05375955|184186176|OTHER||Risk Difference (RD)|24.2||||0.0011|TWO_SIDED|95.0|10.4|42.3|||Chan and Zhang (1999) method|||Week 6||42.3|10.4|0.0011
92150369|NCT05375955|184186176|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 8||24.3|-2.1|0.0436
92150370|NCT05375955|184186176|OTHER||Risk Difference (RD)|28.6||||0.0003|TWO_SIDED|95.0|14.2|46.3|||Chan and Zhang (1999) method|||Week 8||46.3|14.2|0.0003
92150371|NCT05375955|184186176|OTHER||Risk Difference (RD)|27.3||||0.0007|TWO_SIDED|95.0|12.9|45.8|||Chan and Zhang (1999) method|||Week 8||45.8|12.9|0.0007
92150372|NCT05375955|184186176|OTHER||Risk Difference (RD)|6.3||||0.2712|TWO_SIDED|95.0|-10.8|24.3|||Chan and Zhang (1999) method|||Week 10||24.3|-10.8|0.2712
92150373|NCT05375955|184186176|OTHER||Risk Difference (RD)|25.5||||0.0056|TWO_SIDED|95.0|5.4|44.8|||Chan and Zhang (1999) method|||Week 10||44.8|5.4|0.0056
92212323|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|3.12||||0.0087|TWO_SIDED|95.0|1.31|7.41||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 19||7.41|1.31|0.0087
92212324|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|3.26||||0.0079|TWO_SIDED|95.0|1.35|7.87||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 19||7.87|1.35|0.0079
92212325|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.6||||0.2631|TWO_SIDED|95.0|0.71|3.63||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 19||3.63|0.71|0.2631
92212326|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.59||||0.0263|TWO_SIDED|95.0|1.11|6.05||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||6.05|1.11|0.0263
92150374|NCT05375955|184186176|OTHER||Risk Difference (RD)|30.6||||0.0017|TWO_SIDED|95.0|9.7|50.5|||Chan and Zhang (1999) method|||Week 10||50.5|9.7|0.0017
92150375|NCT05375955|184186176|OTHER||Risk Difference (RD)|3.4||||0.3929|TWO_SIDED|95.0|-14.9|21.6|||Chan and Zhang (1999) method|||Week 12||21.6|-14.9|0.3929
92150376|NCT05375955|184186176|OTHER||Risk Difference (RD)|28.2||||0.004|TWO_SIDED|95.0|7.0|47.7|||Chan and Zhang (1999) method|||Week 12||47.7|7.0|0.0040
92150377|NCT05375955|184186176|OTHER||Risk Difference (RD)|33.7||||0.0012|TWO_SIDED|95.0|10.4|53.7|||Chan and Zhang (1999) method|||Week 12||53.7|10.4|0.0012
92150378|NCT05375955|184186179|OTHER||Risk Difference (RD)|2.8||||0.3255|TWO_SIDED|95.0|-8.5|15.8|||Chan and Zhang (1999) method|||Week 1||15.8|-8.5|0.3255
92150379|NCT05375955|184186179|OTHER||Risk Difference (RD)|-2.5||||0.7181|TWO_SIDED|95.0|-13.3|8.3|||Chan and Zhang (1999) method|||Week 1||8.3|-13.3|0.7181
92150380|NCT05375955|184186179|OTHER||Risk Difference (RD)|18.4||||0.0022|TWO_SIDED|95.0|7.0|34.3|||Chan and Zhang (1999) method|||Week 2||34.3|7.0|0.0022
92150381|NCT05375955|184186179|OTHER||Risk Difference (RD)|14.7||||0.0064|TWO_SIDED|95.0|3.7|31.1|||Chan and Zhang (1999) method|||Week 2||31.1|3.7|0.0064
92150382|NCT05375955|184186179|OTHER||Risk Difference (RD)|13.7||||0.0659|TWO_SIDED|95.0|-3.4|31.5|||Chan and Zhang (1999) method|||Week 4||31.5|-3.4|0.0659
92150383|NCT05375955|184186179|OTHER||Risk Difference (RD)|19.4||||0.0189|TWO_SIDED|95.0|0.9|38.5|||Chan and Zhang (1999) method|||Week 4||38.5|0.9|0.0189
92150384|NCT05375955|184186179|OTHER||Risk Difference (RD)|3.6||||0.3962|TWO_SIDED|95.0|-14.9|22.3|||Chan and Zhang (1999) method|||Week 6||22.3|-14.9|0.3962
92150385|NCT05375955|184186179|OTHER||Risk Difference (RD)|9.0||||0.2333|TWO_SIDED|95.0|-10.4|29.1|||Chan and Zhang (1999) method|||Week 6||29.1|-10.4|0.2333
92150386|NCT05375955|184186179|OTHER||Risk Difference (RD)|3.6||||0.3962|TWO_SIDED|95.0|-14.9|22.3|||Chan and Zhang (1999) method|||Week 8||22.3|-14.9|0.3962
92150387|NCT05375955|184186179|OTHER||Risk Difference (RD)|11.9||||0.1353|TWO_SIDED|95.0|-7.9|32.7|||Chan and Zhang (1999) method|||Week 8||32.7|-7.9|0.1353
92150388|NCT05375955|184186179|OTHER||Risk Difference (RD)|6.2||||0.2791|TWO_SIDED|95.0|-12.8|25.7|||Chan and Zhang (1999) method|||Week 10||25.7|-12.8|0.2791
92150389|NCT05375955|184186179|OTHER||Risk Difference (RD)|9.0||||0.2333|TWO_SIDED|95.0|-10.4|29.1|||Chan and Zhang (1999) method|||Week 10||29.1|-10.4|0.2333
92150390|NCT05375955|184186179|OTHER||Risk Difference (RD)|11.3||||0.1295|TWO_SIDED|95.0|-7.3|30.6|||Chan and Zhang (1999) method|||Week 12||30.6|-7.3|0.1295
92150391|NCT05375955|184186179|OTHER||Risk Difference (RD)|20.3||||0.0247|TWO_SIDED|95.0|0.1|40.2|||Chan and Zhang (1999) method|||Week 12||40.2|0.1|0.0247
92150392|NCT05375955|184186180|OTHER||Risk Difference (RD)|-4.3||||0.7278|TWO_SIDED|95.0|-21.9|11.5|||Chan and Zhang (1999) method|||Week 1||11.5|-21.9|0.7278
92150393|NCT05375955|184186180|OTHER||Risk Difference (RD)|8.2||||0.2548|TWO_SIDED|95.0|-11.5|28.2|||Chan and Zhang (1999) method|||Week 1||28.2|-11.5|0.2548
92150394|NCT05375955|184186180|OTHER||Risk Difference (RD)|0.9||||0.5162|TWO_SIDED|95.0|-17.5|21.9|||Chan and Zhang (1999) method|||Week 1||21.9|-17.5|0.5162
92150395|NCT05375955|184186180|OTHER||Risk Difference (RD)|9.3||||0.1663|TWO_SIDED|95.0|-11.4|30.7|||Chan and Zhang (1999) method|||Week 2||30.7|-11.4|0.1663
92150396|NCT05375955|184186180|OTHER||Risk Difference (RD)|16.5||||0.0605|TWO_SIDED|95.0|-4.2|38.3|||Chan and Zhang (1999) method|||Week 2||38.3|-4.2|0.0605
92150397|NCT05375955|184186180|OTHER||Risk Difference (RD)|16.7||||0.0592|TWO_SIDED|95.0|-5.4|41.6|||Chan and Zhang (1999) method|||Week 2||41.6|-5.4|0.0592
92150398|NCT05375955|184186180|OTHER||Risk Difference (RD)|14.0||||0.1246|TWO_SIDED|95.0|-8.6|37.4|||Chan and Zhang (1999) method|||Week 4||37.4|-8.6|0.1246
92150399|NCT05375955|184186180|OTHER||Risk Difference (RD)|16.3||||0.0789|TWO_SIDED|95.0|-7.3|39.7|||Chan and Zhang (1999) method|||Week 4||39.7|-7.3|0.0789
92150400|NCT05375955|184186180|OTHER||Risk Difference (RD)|17.6||||0.0889|TWO_SIDED|95.0|-6.4|43.7|||Chan and Zhang (1999) method|||Week 4||43.7|-6.4|0.0889
92150401|NCT05375955|184186180|OTHER||Risk Difference (RD)|27.5||||0.0097|TWO_SIDED|95.0|4.2|50.7|||Chan and Zhang (1999) method|||Week 6||50.7|4.2|0.0097
92150402|NCT05375955|184186180|OTHER||Risk Difference (RD)|20.7||||0.0294|TWO_SIDED|95.0|-0.8|43.6|||Chan and Zhang (1999) method|||Week 6||43.6|-0.8|0.0294
92150403|NCT05375955|184186180|OTHER||Risk Difference (RD)|37.8||||0.0018|TWO_SIDED|95.0|10.9|62.2|||Chan and Zhang (1999) method|||Week 6||62.2|10.9|0.0018
92150404|NCT05375955|184186180|OTHER||Risk Difference (RD)|23.5||||0.0495|TWO_SIDED|95.0|-3.8|48.9|||Chan and Zhang (1999) method|||Week 8||48.9|-3.8|0.0495
92150405|NCT05375955|184186180|OTHER||Risk Difference (RD)|7.6||||0.289|TWO_SIDED|95.0|-17.3|32.4|||Chan and Zhang (1999) method|||Week 8||32.4|-17.3|0.2890
92150406|NCT05375955|184186180|OTHER||Risk Difference (RD)|35.2||||0.0103|TWO_SIDED|95.0|5.1|62.0|||Chan and Zhang (1999) method|||Week 8||62.0|5.1|0.0103
92150407|NCT05375955|184186180|OTHER||Risk Difference (RD)|19.0||||0.1088|TWO_SIDED|95.0|-7.8|44.8|||Chan and Zhang (1999) method|||Week 10||44.8|-7.8|0.1088
92150408|NCT05375955|184186180|OTHER||Risk Difference (RD)|11.8||||0.2719|TWO_SIDED|95.0|-14.0|36.2|||Chan and Zhang (1999) method|||Week 10||36.2|-14.0|0.2719
92150409|NCT05375955|184186180|OTHER||Risk Difference (RD)|30.0||||0.0227|TWO_SIDED|95.0|0.4|56.6|||Chan and Zhang (1999) method|||Week 10||56.6|0.4|0.0227
92150410|NCT05375955|184186180|OTHER||Risk Difference (RD)|23.5||||0.0495|TWO_SIDED|95.0|-3.8|48.9|||Chan and Zhang (1999) method|||Week 12||48.9|-3.8|0.0495
92150411|NCT05375955|184186180|OTHER||Risk Difference (RD)|15.9||||0.1246|TWO_SIDED|95.0|-10.6|40.6|||Chan and Zhang (1999) method|||Week 12||40.6|-10.6|0.1246
92150412|NCT05375955|184186180|OTHER||Risk Difference (RD)|30.0||||0.0227|TWO_SIDED|95.0|0.4|56.6|||Chan and Zhang (1999) method|||Week 12||56.6|0.4|0.0227
92150413|NCT03976466|184186253|SUPERIORITY||Risk Ratio (RR)|0.049|||<|0.05|TWO_SIDED|95.0|0.015|0.168|||Chi-squared, Corrected||For the Relative risk the control Study group was the numerator and control group denominator. In the 2X2 contingency table the rows correspond to groups and columns for the presence or abscence of periprosthetic infection.|"H0.- There is no significant difference in the incidence of periprosthetic infection in patients with non-modifiable risk factors and prophylactic application of antibiotic loaded calcium sulfate compared with patients without prophylactic treatment with calcium sulfate.~The presence of periprosthetic infection in both groups was evaluated by chi2 and Lambda tests for dichotomous nominal and qualitative variables with longitudinal direction and relative risk factor test."||0.168|0.015|<0.05
92212327|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.29||||0.0643|TWO_SIDED|95.0|0.96|5.46||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||5.46|0.96|0.0643
92212328|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.44||||0.3954|TWO_SIDED|95.0|0.63|3.27||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||3.27|0.63|0.3954
92212329|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.99||||0.1083|TWO_SIDED|95.0|0.86|4.61||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 21||4.61|0.86|0.1083
92212330|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.34||||0.0613|TWO_SIDED|95.0|0.96|5.69||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 21||5.69|0.96|0.0613
92150414|NCT03976466|184186254|SUPERIORITY||||||<|0.01||||||The statistical test of t was performed for the variable length of hospital stay, finding a significant difference with a p value \< 0.01|t-test, 2 sided|||Lenght of stay was the variable that compares both groups and was a continous variable (t-test).||||<0.01
92150415|NCT02247336|184186256|SUPERIORITY||Odds Ratio (OR)|0.7||||0.16|TWO_SIDED|95.0|0.4|1.2||A priori threshold was 0.05.|Regression, Logistic|generalized estimating equation|Generalized estimating equation models were used with a logit link function and an exchangeable correlation structure to account for clustering of participants within provider. Fay and Graubard small sample bias correction was applied.|Using alpha=0.05, 80% power, and a risk-appropriate screening referral rate for the delayed arm ranging from 60% to 70%, n = 250 participants with a completed a family health history assessment per arm with 40 providers was needed to detect differences between arms in appropriate referral ranging from 12% to 13.2%. Sample size calculations accounted for provider clustering using an intra-class correlation coefficient of 0.02 to adjust variance for a Z-test of the difference of two proportions.||1.2|0.4|0.16
92150416|NCT02247336|184186257|SUPERIORITY||Odds Ratio (OR)|0.7||||0.23|TWO_SIDED|95.0|0.04|1.2||The a priori threshold was 0.05.|Regression, Logistic|generalized estimating equation|Generalized estimating equation models were used with a logit link function and an exchangeable correlation structure to account for clustering of participants within provider. Fay and Graubard small sample bias correction was applied.|||1.2|.04|0.23
92150417|NCT00733499|184186259|OTHER|||||||0.9478|||||||t-test, 2 sided|||||||0.9478
92150418|NCT00733499|184186260|OTHER|||||||0.549|||||||t-test, 2 sided|||||||0.5490
92150419|NCT00733499|184186261|OTHER|||||||0.5312|||||||t-test, 2 sided|||||||0.5312
92150420|NCT00733499|184186262|OTHER|||||||0.3549|||||||t-test, 2 sided|||||||0.3549
92150421|NCT00733499|184186263|OTHER|||||||0.0513|||||||t-test, 2 sided|||||||0.0513
92150422|NCT00733499|184186264|OTHER|||||||0.0629|||||||t-test, 2 sided|||||||0.0629
92150423|NCT00733499|184186265|OTHER|||||||0.0327|||||||t-test, 2 sided|||||||0.0327
92150424|NCT00733499|184186266|OTHER|||||||0.0883|||||||t-test, 2 sided|||||||0.0883
92150425|NCT00733499|184186267|OTHER|||||||0.6801|||||||Wilcoxon (Mann-Whitney)|||||||0.6801
92150426|NCT00733499|184186268|OTHER|||||||0.4779|||||||t-test, 2 sided|||||||0.4779
92150427|NCT00733499|184186269|OTHER|||||||0.8007|||||||t-test, 2 sided|||||||0.8007
92150428|NCT00733499|184186270|OTHER|||||||0.3317|||||||t-test, 2 sided|||||||0.3317
92150429|NCT00733499|184186271|OTHER|||||||0.8955|||||||t-test, 2 sided|||||||0.8955
92150430|NCT00733499|184186272|OTHER|||||||0.2116|||||||t-test, 2 sided|||||||0.2116
92150431|NCT00733499|184186273|OTHER|||||||0.4776|||||||t-test, 2 sided|||||||0.4776
92150432|NCT00733499|184186275|OTHER|||||||0.2935|||||||t-test, 2 sided|||||||0.2935
92150433|NCT00733499|184186276|OTHER|||||||0.0062|||||||Wilcoxon (Mann-Whitney)|||||||0.0062
92150434|NCT00733499|184186277|OTHER|||||||0.6896|||||||t-test, 2 sided|||||||0.6896
92150435|NCT00733499|184186278|OTHER|||||||0.1076|||||||t-test, 2 sided|||||||0.1076
92150436|NCT00733499|184186279|OTHER|||||||0.9042|||||||t-test, 2 sided|||||||0.9042
92150437|NCT00733499|184186280|OTHER|||||||0.9637|||||||t-test, 2 sided|||||||0.9637
92150438|NCT00733499|184186281|OTHER|||||||0.0485|||||||t-test, 2 sided|||||||0.0485
92150439|NCT00733499|184186282|OTHER|||||||0.9813|||||||t-test, 2 sided|||||||0.9813
92150440|NCT00733980|184186286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2479||||0.703||80.0|-0.5887|1.0846|||Mixed-Model Repeated-Measure analysis|||||1.0846|-0.5887|0.703
92150441|NCT00733980|184186287|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0169||||0.966|TWO_SIDED|80.0|-0.5231|0.4893|||Mixed Models Analysis|||GSK561679 Vs Placebo, Week 1||0.4893|-0.5231|0.966
92150442|NCT00733980|184186287|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4299||||0.386|TWO_SIDED|80.0|-0.2063|1.0661|||Mixed Models Analysis|||GSK561679 Vs Placebo, Week 2||1.0661|-0.2063|0.386
92150443|NCT00733980|184186287|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9413||||0.095|TWO_SIDED|80.0|0.2203|1.6624|||Mixed Models Analysis|||GSK561679 Vs Placebo, Week 4||1.6624|0.2203|0.095
92150444|NCT00733980|184186288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9495||||0.209|TWO_SIDED|80.0|-0.0185|1.9175|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 1||1.9175|-0.0185|0.209
92150445|NCT00733980|184186288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7638||||0.409|TWO_SIDED|80.0|-0.4243|1.9519|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 2||1.9519|-0.4243|0.409
92150446|NCT00733980|184186288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5363||||0.156|TWO_SIDED|80.0|0.1485|2.9241|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 4||2.9241|0.1485|0.156
92150447|NCT00733980|184186288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6327||||0.599|TWO_SIDED|80.0|-0.9135|2.1789|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 6||2.1789|-0.9135|0.599
92212331|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.92||||0.1354|TWO_SIDED|95.0|0.82|4.47||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 21||4.47|0.82|0.1354
92212332|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.66||||0.2362|TWO_SIDED|95.0|0.72|3.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 22||3.82|0.72|0.2362
92150448|NCT00733980|184186289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9866||||0.181|TWO_SIDED|80.0|-3.8876|-0.0856|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 1||-0.0856|-3.8876|0.181
92150449|NCT00733980|184186289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2538||||0.889|TWO_SIDED|80.0|-2.5922|2.0846|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 2||2.0846|-2.5922|0.889
92150450|NCT00733980|184186289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3242||||0.867|TWO_SIDED|80.0|-2.8165|2.1681|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 3||2.1681|-2.8165|0.867
92150451|NCT00733980|184186289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8107||||0.721|TWO_SIDED|80.0|-2.1036|3.7251|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 4||3.7251|-2.1036|0.721
92150452|NCT00733980|184186289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6273||||0.801|TWO_SIDED|80.0|-3.8337|2.5791|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 6||2.5791|-3.8337|0.801
92150453|NCT00733980|184186290|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.644||||0.355|TWO_SIDED|80.0|-0.2498|1.5378|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 1||1.5378|-0.2498|0.355
92150454|NCT00733980|184186290|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0524||||0.249|TWO_SIDED|80.0|-0.1194|2.2243|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 2||2.2243|-0.1194|0.249
92150455|NCT00733980|184186290|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6473||||0.116|TWO_SIDED|80.0|0.3078|2.9868|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 4||2.9868|0.3078|0.116
92150456|NCT00733980|184186290|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7283||||0.55|TWO_SIDED|80.0|-0.8353|2.292|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 6||2.2920|-0.8353|0.550
92150457|NCT00733980|184186294|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6359||||0.3588|TWO_SIDED|80.0|0.3378|1.1968|||Logistic Model|||GSK561679 350 mg Vs Placebo, Week 2||1.1968|0.3378|0.3588
92150458|NCT00733980|184186294|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7347||||0.4088|TWO_SIDED|80.0|0.4554|1.1853|||Logistic Model|||GSK561679 350 mg Vs Placebo, Week 4||1.1853|0.4554|0.4088
92150459|NCT00733980|184186294|SUPERIORITY_OR_OTHER||Logistic Model|0.9211||||0.8156|TWO_SIDED|80.0|0.5863|1.4471|||Logistic Model|||GSK561679 350 mg Vs Placebo, Week 6/ Early withdrawal||1.4471|0.5863|0.8156
92150460|NCT00733980|184186295|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.4466||||0.361|TWO_SIDED|80.0|-1.3986|8.2917|||ANCOVA|||||8.2917|-1.3986|0.361
92150461|NCT00733980|184186296|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1167||||0.932|TWO_SIDED|80.0|-1.6387|1.8722|||ANCOVA|||||1.8722|-1.6387|0.932
92150462|NCT01986101|184186312|SUPERIORITY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|1.0||0.007|TWO_SIDED|95.0|-4.9|-1.0||Hochberg-adjusted|Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||-1.0|-4.9|0.007
92150463|NCT01986101|184186312|SUPERIORITY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|1.03||0.057|TWO_SIDED|95.0|-4.0|0.1||Hochberg-adjusted.|Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||0.1|-4.0|0.057
92150464|NCT01986101|184186313|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.127||0.002|TWO_SIDED|95.0|-0.65|-0.15|||Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||-0.15|-0.65|0.002
92150465|NCT01986101|184186313|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.13||0.019|TWO_SIDED|95.0|-0.56|-0.05|||Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in SM-13496 group over the placebo group.|||-0.05|-0.56|0.019
92150466|NCT01986101|184186314|SUPERIORITY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.89||0.037|TWO_SIDED|95.0|-3.6|-0.1|||ANCOVA||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||-0.1|-3.6|0.037
92150467|NCT01986101|184186314|SUPERIORITY||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.92||0.223|TWO_SIDED|95.0|-2.9|0.7|||ANCOVA||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||0.7|-2.9|0.223
92150468|NCT01986101|184186315|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.262||0.076|TWO_SIDED|95.0|-0.98|0.05|||Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||0.05|-0.98|0.076
92150469|NCT01986101|184186315|SUPERIORITY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.269||0.075|TWO_SIDED|95.0|-1.01|0.05|||Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||0.05|-1.01|0.075
92150470|NCT01986101|184186316|SUPERIORITY||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.016|TWO_SIDED|95.0|-3.1|-0.3|||ANCOVA||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||-0.3|-3.1|0.016
92150471|NCT01986101|184186316|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.71||0.294|TWO_SIDED|95.0|-2.1|0.7|||ANCOVA||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||0.7|-2.1|0.294
92397720|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.58||||0.4435|TWO_SIDED|95.0|0.49|5.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.09|0.49|0.4435
92397721|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.34||||0.1805|TWO_SIDED|95.0|0.67|8.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.13|0.67|0.1805
92212333|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0949|TWO_SIDED|95.0|0.88|5.17||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 22||5.17|0.88|0.0949
92212334|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5013|TWO_SIDED|95.0|0.58|3.04||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 22||3.04|0.58|0.5013
92212335|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.39||||0.4386|TWO_SIDED|95.0|0.61|3.16||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 23||3.16|0.61|0.4386
92212336|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.49||||0.0504|TWO_SIDED|95.0|0.99|6.24||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 23||6.24|0.99|0.0504
92212337|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.45||||0.3781|TWO_SIDED|95.0|0.64|3.32||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 23||3.32|0.64|0.3781
92212338|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.83||||0.1535|TWO_SIDED|95.0|0.79|4.21||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 24||4.21|0.79|0.1535
92212339|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.09||||0.0925|TWO_SIDED|95.0|0.87|4.99||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 24||4.99|0.87|0.0925
92212340|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.75||||0.1948|TWO_SIDED|95.0|0.75|4.07||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 24||4.07|0.75|0.1948
92212341|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.39||||0.4304|TWO_SIDED|95.0|0.61|3.17||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 25||3.17|0.61|0.4304
92212342|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.17||||0.0873|TWO_SIDED|95.0|0.89|5.31||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 25||5.31|0.89|0.0873
92212343|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.47||||0.3683|TWO_SIDED|95.0|0.64|3.38||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 25||3.38|0.64|0.3683
92397722|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.54||||0.0857|TWO_SIDED|95.0|0.84|14.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||14.95|0.84|0.0857
92212344|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.52||||0.3203|TWO_SIDED|95.0|0.66|3.48||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 26||3.48|0.66|0.3203
92212345|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1284|TWO_SIDED|95.0|0.82|4.98||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 26||4.98|0.82|0.1284
92212346|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.77||||0.179|TWO_SIDED|95.0|0.76|4.11||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 26||4.11|0.76|0.1790
92212347|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.28||||0.547|TWO_SIDED|95.0|0.56|2.91||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 27||2.91|0.56|0.5470
92212348|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.69||||0.2612|TWO_SIDED|95.0|0.68|4.16||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 27||4.16|0.68|0.2612
92212349|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5071|TWO_SIDED|95.0|0.57|3.11||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 27||3.11|0.57|0.5071
92212350|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.4||||0.4175|TWO_SIDED|95.0|0.61|3.19||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 28||3.19|0.61|0.4175
92212351|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.72||||0.284|TWO_SIDED|95.0|0.68|4.32||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 28||4.32|0.68|0.284
92212352|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9281|TWO_SIDED|95.0|0.46|2.33||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 28||2.33|0.46|0.9281
92212353|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.17||||0.6987|TWO_SIDED|95.0|0.51|2.69||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 29||2.69|0.51|0.6987
92212354|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.38||||0.4794|TWO_SIDED|95.0|0.56|3.41||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 29||3.41|0.56|0.4794
92212355|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.1||||0.8164|TWO_SIDED|95.0|0.48|2.52||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 29||2.52|0.48|0.8164
92150472|NCT03324880|184186354|SUPERIORITY||Difference in Least Squares (LS) Mean|-0.53|STANDARD_ERROR_OF_MEAN|0.189|=|0.003|TWO_SIDED|95.0|-0.9|-0.15||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom subscale score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom subscale score.|-0.15|-0.90|=0.003
92212356|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.28||||0.5484|TWO_SIDED|95.0|0.56|2.93||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 30||2.93|0.56|0.5484
92212357|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.53||||0.3596|TWO_SIDED|95.0|0.62|3.76||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 30||3.76|0.62|0.3596
92212358|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.21||||0.6414|TWO_SIDED|95.0|0.53|2.78||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 30||2.78|0.53|0.6414
92212359|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.39||||0.4233|TWO_SIDED|95.0|0.6|3.2||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 31||3.20|0.60|0.4233
92212360|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.51||||0.3632|TWO_SIDED|95.0|0.62|3.7||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 31||3.70|0.62|0.3632
92212361|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8018|TWO_SIDED|95.0|0.49|2.49||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 31||2.49|0.49|0.8018
92212362|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.29||||0.5465|TWO_SIDED|95.0|0.55|3.02||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||3.02|0.55|0.5465
92212363|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.68||||0.256|TWO_SIDED|95.0|0.68|4.14||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||4.14|0.68|0.2560
92212364|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.94||||0.881|TWO_SIDED|95.0|0.42|2.1||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||2.10|0.42|0.8810
92212365|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9701|TWO_SIDED|95.0|0.43|2.24||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 33||2.24|0.43|0.9701
92212366|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.56||||0.3331|TWO_SIDED|95.0|0.62|3.96||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 33||3.96|0.62|0.3331
92212367|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.92||||0.8386|TWO_SIDED|95.0|0.4|2.11||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 33||2.11|0.40|0.8386
92212368|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.41||||0.4091|TWO_SIDED|95.0|0.61|3.28||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 34||3.28|0.61|0.4091
92397723|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|10.5||||0.0316|TWO_SIDED|95.0|1.23|89.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||89.63|1.23|0.0316
92212369|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.48||||0.3746|TWO_SIDED|95.0|0.61|3.57||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 34||3.57|0.61|0.3746
92212370|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8018|TWO_SIDED|95.0|0.49|2.49||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 34||2.49|0.49|0.8018
92212371|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.19||||0.6717|TWO_SIDED|95.0|0.51|2.79||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 35||2.79|0.51|0.6717
92212372|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.99||||0.985|TWO_SIDED|95.0|0.41|2.41||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 35||2.41|0.41|0.9850
92212373|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9983|TWO_SIDED|95.0|0.43|2.31||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 35||2.31|0.43|0.9983
92212374|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.3||||0.5311|TWO_SIDED|95.0|0.56|3.02||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 36||3.02|0.56|0.5311
92212375|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.22||||0.6628|TWO_SIDED|95.0|0.5|2.99||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 36||2.99|0.50|0.6628
92212376|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.32||||0.5208|TWO_SIDED|95.0|0.56|3.09||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 36||3.09|0.56|0.5208
92150473|NCT03324880|184186355|SUPERIORITY||Difference in LS Mean|10.5|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|5.1|15.9||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in FACIT-Fatigue total score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline FACIT-Fatigue total score.|15.9|5.1|<0.001
92150474|NCT03324880|184186356|SUPERIORITY||Difference in LS Mean|4.242|STANDARD_ERROR_OF_MEAN|1.9219|=|0.015|TWO_SIDED|95.0|0.413|8.072||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 PCS score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 PCS score.|8.072|0.413|=0.015
92212377|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.08||||0.8483|TWO_SIDED|95.0|0.46|2.55||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 37||2.55|0.46|0.8483
92212378|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.26||||0.6232|TWO_SIDED|95.0|0.5|3.2||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 37||3.20|0.50|0.6232
92212379|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.1||||0.8312|TWO_SIDED|95.0|0.46|2.61||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 37||2.61|0.46|0.8312
92150475|NCT03324880|184186357|SUPERIORITY||Difference in LS Mean|-0.32|STANDARD_ERROR_OF_MEAN|0.112|=|0.002|TWO_SIDED|95.0|-0.55|-0.1||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD impact subscale score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD impact subscale score.|-0.10|-0.55|=0.002
92150476|NCT03324880|184186358|SUPERIORITY||Difference in LS Mean|-0.28|STANDARD_ERROR_OF_MEAN|0.125|=|0.013|TWO_SIDED|95.0|-0.53|-0.04||1-sided p-value was reported.|MMRM|||Impact on Sleep|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD impact item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD impact item score.|-0.04|-0.53|=0.013
92150477|NCT03324880|184186358|SUPERIORITY||Difference in LS Mean|-0.36|STANDARD_ERROR_OF_MEAN|0.128|=|0.003|TWO_SIDED|95.0|-0.61|-0.11||1-sided p-value was reported.|MMRM|||Ability to Exercise|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD impact item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD impact item score.|-0.11|-0.61|=0.003
92150478|NCT03324880|184186358|SUPERIORITY||Difference in LS Mean|-0.36|STANDARD_ERROR_OF_MEAN|0.123|=|0.002|TWO_SIDED|95.0|-0.61|-0.12||1-sided p-value was reported.|MMRM|||Ability to Complete Work|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD impact item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD impact item score.|-0.12|-0.61|=0.002
92212380|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.35||||0.5083|TWO_SIDED|95.0|0.55|3.3||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 38||3.30|0.55|0.5083
92212381|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8111|TWO_SIDED|95.0|0.44|2.86||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 38||2.86|0.44|0.8111
92212382|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8089|TWO_SIDED|95.0|0.46|2.68||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 38||2.68|0.46|0.8089
92150479|NCT03324880|184186358|SUPERIORITY||Difference in LS Mean|-0.37|STANDARD_ERROR_OF_MEAN|0.121|=|0.002|TWO_SIDED|95.0|-0.61|-0.13||1-sided p-value was reported.|MMRM|||Impact Family Relationships|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD impact item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD impact item score.|-0.13|-0.61|=0.002
92150480|NCT03324880|184186359|SUPERIORITY||Difference in LS Mean|-0.55|STANDARD_ERROR_OF_MEAN|0.203|=|0.004|TWO_SIDED|95.0|-0.96|-0.15||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD anxiety item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD anxiety item score.|-0.15|-0.96|=0.004
92150481|NCT03324880|184186360|SUPERIORITY||Difference in LS Mean|-0.54|STANDARD_ERROR_OF_MEAN|0.2|=|0.004|TWO_SIDED|95.0|-0.93|-0.14||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD sadness or depression item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD sadness or depression item score.|-0.14|-0.93|=0.004
92212383|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9723|TWO_SIDED|95.0|0.41|2.37||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 39||2.37|0.41|0.9723
92212384|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9883|TWO_SIDED|95.0|0.39|2.58||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 39||2.58|0.39|0.9883
92212385|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.83||||0.6781|TWO_SIDED|95.0|0.35|1.98||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 39||1.98|0.35|0.6781
92212386|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.19||||0.6924|TWO_SIDED|95.0|0.5|2.86||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 40||2.86|0.50|0.6924
92150482|NCT03324880|184186361|SUPERIORITY||Difference in LS Mean|-0.56|STANDARD_ERROR_OF_MEAN|0.218|=|0.006|TWO_SIDED|95.0|-0.99|-0.12||1-sided p-value was reported.|MMRM|||Muscle Cramps|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.12|-0.99|=0.006
92150483|NCT03324880|184186361|SUPERIORITY||Difference in LS Mean|-0.54|STANDARD_ERROR_OF_MEAN|0.213|=|0.007|TWO_SIDED|95.0|-0.96|-0.12||1-sided p-value was reported.|MMRM|||Tingling|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.12|-0.96|=0.007
92150484|NCT03324880|184186361|SUPERIORITY||Difference in LS Mean|-0.48|STANDARD_ERROR_OF_MEAN|0.231|=|0.02|TWO_SIDED|95.0|-0.94|-0.02||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.02|-0.94|=0.020
92150485|NCT03324880|184186361|SUPERIORITY||Difference in LS Mean|-0.62|STANDARD_ERROR_OF_MEAN|0.219|=|0.003|TWO_SIDED|95.0|-1.05|-0.18||1-sided p-value was reported.|MMRM|||Muscle Spasms|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.18|-1.05|=0.003
92150486|NCT03324880|184186361|SUPERIORITY||Difference in LS Mean|-0.38|STANDARD_ERROR_OF_MEAN|0.229|=|0.05|TWO_SIDED|95.0|-0.83|0.07||1-sided p-value was reported.|MMRM|||Feelings of Heaviness|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|0.07|-0.83|=0.050
92150487|NCT03324880|184186361|SUPERIORITY||Difference in LS Mean|-0.55|STANDARD_ERROR_OF_MEAN|0.227|=|0.008|TWO_SIDED|95.0|-1.01|-0.1||1-sided p-value was reported.|MMRM|||Physical Fatigue|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.10|-1.01|=0.008
92150488|NCT03324880|184186361|SUPERIORITY||Difference in LS Mean|-0.51|STANDARD_ERROR_OF_MEAN|0.186|=|0.004|TWO_SIDED|95.0|-0.87|-0.14||1-sided p-value was reported.|MMRM|||Brain Fog|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.14|-0.87|=0.004
92150489|NCT03324880|184186363|SUPERIORITY||Difference in LS Mean|-0.9|STANDARD_ERROR_OF_MEAN|0.235|<|0.001|TWO_SIDED|95.0|-1.37|-0.43||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD most bothersome symptom score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD most bothersome symptom score.|-0.43|-1.37|<0.001
92150490|NCT03324880|184186364|SUPERIORITY||Difference in LS Mean|2.1|STANDARD_ERROR_OF_MEAN|1.07|=|0.024|TWO_SIDED|95.0|0.0|4.3||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in FACT-Cog Perceived Cognitive Impairments Subscale score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline FACT-Cog Perceived Cognitive Impairments Subscale score.|4.3|0.0|=0.024
92150491|NCT03324880|184186365|SUPERIORITY||Difference in LS Mean|2.1|STANDARD_ERROR_OF_MEAN|1.07|=|0.024|TWO_SIDED|95.0|0.0|4.3||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in FACT-Cog QoL Subscale score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline FACT-Cog QoL Subscale score.|4.3|0.0|=0.024
92150492|NCT03324880|184186366|SUPERIORITY||Difference in LS Mean|7.21|STANDARD_ERROR_OF_MEAN|2.1376|=|0.001|TWO_SIDED|95.0|2.951|11.469||1-sided p-value was reported.|MMRM|||Standard-Bodily Pain|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|11.469|2.951|=0.001
92150493|NCT03324880|184186366|SUPERIORITY||Difference in LS Mean|5.545|STANDARD_ERROR_OF_MEAN|2.0542|=|0.004|TWO_SIDED|95.0|1.452|9.638||1-sided p-value was reported.|MMRM|||Standard-General Health|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|9.638|1.452|=0.004
92150494|NCT03324880|184186366|SUPERIORITY||Difference in LS Mean|7.857|STANDARD_ERROR_OF_MEAN|2.2913|<|0.001|TWO_SIDED|95.0|3.292|12.423||1-sided p-value was reported.|MMRM|||Standard-Mental Health|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|12.423|3.292|<0.001
92150495|NCT03324880|184186366|SUPERIORITY||MMRM|4.554|STANDARD_ERROR_OF_MEAN|2.1123|=|0.017|TWO_SIDED|95.0|0.345|8.763||1-sided p-value was reported.|MMRM|||Standard-Physical Functioning|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|8.763|0.345|=0.017
92150496|NCT03324880|184186366|SUPERIORITY||Difference in LS Mean|8.42|STANDARD_ERROR_OF_MEAN|2.3186|<|0.001|TWO_SIDED|95.0|3.8|13.04||1-sided p-value was reported.|MMRM|||Standard-Role-Emotional|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|13.040|3.800|<0.001
92150497|NCT03324880|184186366|SUPERIORITY||Difference in LS Mean|4.23|STANDARD_ERROR_OF_MEAN|2.2489|=|0.032|TWO_SIDED|95.0|-0.251|8.711||1-sided p-value was reported.|MMRM|||Standard-Role-Physical|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|8.711|-0.251|=0.032
92150498|NCT03324880|184186366|SUPERIORITY||Difference in LS Mean|3.809|STANDARD_ERROR_OF_MEAN|2.6658|=|0.079|TWO_SIDED|95.0|-1.502|9.121||1-sided p-value was reported.|MMRM|||Standard-Social Functioning|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|9.121|-1.502|=0.079
92150499|NCT03324880|184186366|SUPERIORITY||Difference in LS Mean|7.942|STANDARD_ERROR_OF_MEAN|2.353|=|0.001|TWO_SIDED|95.0|3.253|12.63||1-sided p-value was reported.|MMRM|||Standard-Vitality|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|12.630|3.253|=0.001
92150500|NCT03324880|184186367|SUPERIORITY||Difference in LS Mean|8.3|STANDARD_ERROR_OF_MEAN|2.2642|<|0.001|TWO_SIDED|95.0|3.788|12.811||1-sided p-value|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 MCS score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 MCS score.|12.811|3.788|<0.001
92150501|NCT03324880|184186368|SUPERIORITY||Difference in LS Mean|3.13|STANDARD_ERROR_OF_MEAN|9.578|=|0.627|TWO_SIDED|95.0|-16.33|22.6||1-sided p-value was reported.|MMRM|||Percent Work Time Missed Due to Problem|MMRM analysis over all post-baseline visits, with the change from baseline in WPAI score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline WPAI score.|22.60|-16.33|=0.627
92150502|NCT03324880|184186368|SUPERIORITY||Difference in LS Mean|-14.6|STANDARD_ERROR_OF_MEAN|7.52|=|0.031|TWO_SIDED|95.0|-29.9|0.7||1-sided p-value was reported.|MMRM|||Percent Impairment While Working Due to Problem|MMRM analysis over all post-baseline visits, with the change from baseline in WPAI score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline WPAI score.|0.7|-29.9|=0.031
92150503|NCT03324880|184186368|SUPERIORITY||Difference in LS Mean|-14.9|STANDARD_ERROR_OF_MEAN|6.146|=|0.011|TWO_SIDED|95.0|-27.42|-2.39||1-sided p-value was reported.|MMRM|||Percent Overall Work Impairment Due to Problem|MMRM analysis over all post-baseline visits, with the change from baseline in WPAI score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline WPAI score.|-2.39|-27.42|=0.011
92150504|NCT03324880|184186368|SUPERIORITY||Difference in LS Mean|-13.0|STANDARD_ERROR_OF_MEAN|5.78|=|0.014|TWO_SIDED|95.0|-24.5|-1.5||1-sided p-value was reported.|MMRM|||Percent Activity Impairment Due to Problem|MMRM analysis over all post-baseline visits, with the change from baseline in WPAI score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline WPAI score.|-1.5|-24.5|=0.014
92150505|NCT03324880|184186369|SUPERIORITY||Difference in LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.22|=|0.01|TWO_SIDED|95.0|-1.0|-0.1||1-sided p-value|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in PGI-S score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline PGI-S score.|-0.1|-1.0|=0.010
92150506|NCT03324880|184186371|SUPERIORITY||Difference in LS Mean|0.01|||=|0.516|TWO_SIDED|95.0|-0.03|0.05|||ANCOVA|From an Analysis of Covariance (ANCOVA) with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||Detection||0.05|-0.03|=0.516
92150507|NCT03324880|184186371|SUPERIORITY||Difference in LS Mean|0.02|||=|0.275|TWO_SIDED|95.0|-0.02|0.06|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||Identification||0.06|-0.02|=0.275
92150508|NCT03324880|184186371|SUPERIORITY||Difference in LS Mean|0.01|||=|0.777|TWO_SIDED|95.0|-0.05|0.07|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||One Card Learning||0.07|-0.05|=0.777
92150509|NCT03324880|184186371|SUPERIORITY||Difference in LS Mean|0.01|||=|0.831|TWO_SIDED|95.0|-0.04|0.05|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||One Back (ONB)||0.05|-0.04|=0.831
92150510|NCT03324880|184186371|SUPERIORITY||Difference in LS Mean|9.93|||=|0.075|TWO_SIDED|95.0|-1.0|20.85|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||Groton Maze Learning (GML)||20.85|-1.00|=0.075
92150511|NCT03324880|184186371|SUPERIORITY||Difference in LS Mean|-0.57|||=|0.545|TWO_SIDED|95.0|-2.41|1.27|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||International Shopping List (ISL)||1.27|-2.41|=0.545
92150512|NCT03324880|184186371|SUPERIORITY||Difference in LS Mean|0.55|||=|0.283|TWO_SIDED|95.0|-0.45|1.56|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||International Shopping List Test Delayed Recall (ISRL)||1.56|-0.45|=0.283
92150513|NCT03324880|184186372|SUPERIORITY||Difference in LS Mean|0.01|||=|0.582|TWO_SIDED|95.0|-0.02|0.04||1-sided p-value was reported.|MMRM|||Detection (DET)|From MMRM with visit, treatment group, and visit treatment group as fixed effects, Baseline score as a covariate, and participant as a random effect. By-participant scores, which are summarized in this table, are derived as the average of the planned at-home assessment values that passed the Completion criteria over 14 days preceding the visit.|0.04|-0.02|=0.582
92150514|NCT03324880|184186372|SUPERIORITY||Difference in LS Mean|0.01|||=|0.492|TWO_SIDED|95.0|-0.02|0.04||1-sided p-value was reported.|MMRM|||Identification (IDN)|From MMRM with visit, treatment group, and visit treatment group as fixed effects, Baseline score as a covariate, and participant as a random effect. By-participant scores, which are summarized in this table, are derived as the average of the planned at-home assessment values that passed the Completion criteria over 14 days preceding the visit.|0.04|-0.02|=0.492
92150515|NCT03324880|184186372|SUPERIORITY||Difference in LS Mean|0.01|||=|0.506|TWO_SIDED|95.0|-0.03|0.06||1-sided p-value was reported.|MMRM|||One Card Learning (OCL)|From MMRM with visit, treatment group, and visit treatment group as fixed effects, Baseline score as a covariate, and participant as a random effect. By-participant scores, which are summarized in this table, are derived as the average of the planned at-home assessment values that passed the Completion criteria over 14 days preceding the visit.|0.06|-0.03|=0.506
92150516|NCT03324880|184186372|SUPERIORITY||Difference in LS Mean|0.01|||=|0.438|TWO_SIDED|95.0|-0.02|0.04||1-sided p-value was reported.|MMRM|||One Back Test|From MMRM with visit, treatment group, and visit treatment group as fixed effects, Baseline score as a covariate, and participant as a random effect. By-participant scores, which are summarized in this table, are derived as the average of the planned at-home assessment values that passed the Completion criteria over 14 days preceding the visit.|0.04|-0.02|=0.438
92150517|NCT03324880|184186373|SUPERIORITY||Difference in LS Mean|2.09|STANDARD_ERROR_OF_MEAN|0.871|=|0.991|TWO_SIDED|95.0|0.36|3.83||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in 24-hour urine calcium excretion as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline 24-Hour urine calcium excretion.|3.83|0.36|=0.991
92150518|NCT03324880|184186374|SUPERIORITY||Difference in LS Mean|-0.175|STANDARD_ERROR_OF_MEAN|0.0395|<|0.001|TWO_SIDED|95.0|-0.254|-0.097||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in serum phosphate as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline serum phosphate.|-0.097|-0.254|<0.001
92150519|NCT03324880|184186375|SUPERIORITY||Difference in LS Mean|4.08|STANDARD_ERROR_OF_MEAN|4.654|=|0.81|TWO_SIDED|95.0|-5.06|13.22||1-sided p-value was reported.|MMRM||||From a mixed-effects model for repeated measures (MMRM) analysis over all post-baseline visits, with the change from baseline in active vitamin D supplement dose as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline active vitamin D supplement dose.|13.22|-5.06|=0.810
92150520|NCT03324880|184186376|SUPERIORITY||Difference in LS Mean|-331.3|STANDARD_ERROR_OF_MEAN|132.56|=|0.007|TWO_SIDED|95.0|-594.6|-67.9||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in elemental calcium supplement dose as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline elemental calcium supplement dose.|-67.9|-594.6|=0.007
92150521|NCT03324880|184186379|SUPERIORITY||Difference in LS Mean|22.33|STANDARD_ERROR_OF_MEAN|3.271|<|0.001|TWO_SIDED|95.0|15.83|28.84||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in bone turnover biomarkers as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline bone turnover biomarkers.|28.84|15.83|<0.001
92150522|NCT03324880|184186380|SUPERIORITY||Difference in LS Mean|785.5|STANDARD_ERROR_OF_MEAN|113.65|<|0.001|TWO_SIDED|95.0|559.6|1011.3||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in bone turnover biomarkers as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline bone turnover biomarkers.|1011.3|559.6|<0.001
92150523|NCT03324880|184186381|SUPERIORITY||Difference in LS Mean|56.43|STANDARD_ERROR_OF_MEAN|6.091|<|0.001|TWO_SIDED|95.0|44.33|68.53||1-sided p-value was reported.|MMRM|||Osteocalcin|MMRM analysis over all post-baseline visits, with the change from baseline in bone turnover biomarkers as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline bone turnover biomarkers.|68.53|44.33|<0.001
92150524|NCT03324880|184186381|SUPERIORITY||Difference in LS Mean|226.57|STANDARD_ERROR_OF_MEAN|33.425|<|0.001|TWO_SIDED|95.0|160.17|292.98||1-sided p-value was reported.|MMRM|||Procollagen 1 N-Terminal Propeptide|MMRM analysis over all post-baseline visits, with the change from baseline in bone turnover biomarkers as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline bone turnover biomarkers.|292.98|160.17|<0.001
92150525|NCT05076149|184186416|NON_INFERIORITY|The non-inferiority margin represents a clinically acceptable loss of effectiveness that margin preserve at least 50% of the treatment effect of the active control (ELX/TEZ/IVA) compared to placebo, where the treatment effect is estimated by the lower bound of the 95% confidence interval (CI)|LS Mean difference|0.2|||<|0.0001|TWO_SIDED|95.0|-0.5|0.9|||Mixed Models Repeated Measures|||||0.9|-0.5|< 0.0001
92150526|NCT05076149|184186417|SUPERIORITY||LS Mean difference|-2.8|||=|0.0034|TWO_SIDED|95.0|-4.7|-0.9|||Mixed Models Repeated Measures|||||-0.9|-4.7|=0.0034
92150527|NCT05076149|184186418|OTHER||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.55|3.16|||Generalized Estimated Equation Model|||||3.16|1.55|< 0.0001
92150528|NCT05076149|184186419|OTHER||Odds Ratio (OR)|2.87|||<|0.0001|TWO_SIDED|95.0|2.0|4.12|||Generalized Estimated Equation Model|||||4.12|2.00|< 0.0001
92150529|NCT02087501|184186420|OTHER||Sample proportion|0.0|||||TWO_SIDED|95.0|0.0|11.6|||||The CI is calculated based on Clopper-Pearson method|||11.6|0|
92336651|NCT02559570|184576082|SUPERIORITY||Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.249||0.8426|TWO_SIDED|95.0|-0.543|0.444|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.444|-0.543|0.8426
92150530|NCT02087501|184186420|OTHER||Sample proportion|0.0|||||TWO_SIDED|95.0|0.0|11.6||||||||11.6|0|
92150531|NCT02087501|184186421|OTHER||Sample proportion|100.0|||||TWO_SIDED|95.0|88.4|100.0|||||CI is calculated based on Clopper-Pearson method|||100|88.4|
92150532|NCT02087501|184186422|OTHER||Sample proportion|80.0|||||TWO_SIDED|95.0|61.0|92.0||||||||92|61|
92150533|NCT03682705|184186432|SUPERIORITY||LS Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|90.0|-2.03|-0.85|||t-test, 2 sided|||Mixed-Effect Model Repeated Measure (MMRM) analysis was conducted, testing the superiority of the combination of upadacitinib 15 mg and elsubrutinib 60 mg compared to placebo at Week 12. Data collected after a participant discontinued study drug was considered as missing. The mixed model included the categorical fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline DAS28 (CRP) measurement.||-0.85|-2.03|<0.001
92212387|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9883|TWO_SIDED|95.0|0.4|2.47||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 40||2.47|0.40|0.9883
92212388|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.93||||0.8581|TWO_SIDED|95.0|0.39|2.18||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 40||2.18|0.39|0.8581
92212389|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9723|TWO_SIDED|95.0|0.41|2.37||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 41||2.37|0.41|0.9723
92212390|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9937|TWO_SIDED|95.0|0.38|2.63||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 41||2.63|0.38|0.9937
92212391|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.83||||0.6781|TWO_SIDED|95.0|0.35|1.98||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 41||1.98|0.35|0.6781
92212392|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9723|TWO_SIDED|95.0|0.41|2.37||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 42||2.37|0.41|0.9723
92212393|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9937|TWO_SIDED|95.0|0.38|2.63||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 42||2.63|0.38|0.9937
92212394|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.83||||0.6781|TWO_SIDED|95.0|0.35|1.98||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 42||1.98|0.35|0.6781
92212395|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8892|TWO_SIDED|95.0|0.44|2.57||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 43||2.57|0.44|0.8892
92212396|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.26||||0.6296|TWO_SIDED|95.0|0.5|3.21||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 43||3.21|0.50|0.6296
92212397|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.86||||0.7271|TWO_SIDED|95.0|0.36|2.02||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 43||2.02|0.36|0.7271
92212398|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9636|TWO_SIDED|95.0|0.4|2.42||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 44||2.42|0.40|0.9636
92212399|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.8||||0.6355|TWO_SIDED|95.0|0.32|2.0||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 44||2.00|0.32|0.6355
92212400|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.68||||0.3901|TWO_SIDED|95.0|0.28|1.64||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 44||1.64|0.28|0.3901
92212401|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.35||||0.5177|TWO_SIDED|95.0|0.54|3.36||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 45||3.36|0.54|0.5177
92397724|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.81||||0.3471|TWO_SIDED|95.0|0.52|6.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.27|0.52|0.3471
92212402|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.99||||0.991|TWO_SIDED|95.0|0.4|2.49||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 45||2.49|0.40|0.9910
92212403|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.84||||0.7064|TWO_SIDED|95.0|0.35|2.01||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 45||2.01|0.35|0.7064
92212404|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.1||||0.8373|TWO_SIDED|95.0|0.44|2.77||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 46||2.77|0.44|0.8373
92212405|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.17||||0.7614|TWO_SIDED|95.0|0.44|3.11||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 46||3.11|0.44|0.7614
92212406|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.75||||0.5301|TWO_SIDED|95.0|0.31|1.83||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 46||1.83|0.31|0.5301
92212407|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8248|TWO_SIDED|95.0|0.44|2.8||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 47||2.80|0.44|0.8248
92212408|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.91||||0.8374|TWO_SIDED|95.0|0.35|2.32||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 47||2.32|0.35|0.8374
92212409|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.69||||0.4088|TWO_SIDED|95.0|0.29|1.67||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 47||1.67|0.29|0.4088
92212410|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9745|TWO_SIDED|95.0|0.39|2.5||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.50|0.39|0.9745
92212411|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.72||||0.4916|TWO_SIDED|95.0|0.28|1.84||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||1.84|0.28|0.4916
92212412|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.55||||0.1854|TWO_SIDED|95.0|0.23|1.35||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||1.35|0.23|0.1854
92212413|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.1||||0.8373|TWO_SIDED|95.0|0.44|2.77||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 49||2.77|0.44|0.8373
92397725|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|6.15||||0.0313|TWO_SIDED|95.0|1.18|32.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||32.09|1.18|0.0313
92397726|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|12.49||||0.0208|TWO_SIDED|95.0|1.47|106.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||106.3|1.47|0.0208
92397727|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8669|TWO_SIDED|95.0|0.31|3.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.97|0.31|0.8669
92212414|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.73||||0.5051|TWO_SIDED|95.0|0.29|1.83||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 49||1.83|0.29|0.5051
92397728|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.34||||0.6592|TWO_SIDED|95.0|0.37|4.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.89|0.37|0.6592
92397729|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.23||||0.2923|TWO_SIDED|95.0|0.5|9.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.98|0.50|0.2923
92397730|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|5.78||||0.1145|TWO_SIDED|95.0|0.65|51.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||51.04|0.65|0.1145
92397731|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.77||||0.447|TWO_SIDED|95.0|0.4|7.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.78|0.40|0.4470
92397732|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|7.31||||0.0753|TWO_SIDED|95.0|0.82|65.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||65.41|0.82|0.0753
92397733|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|6.85||||0.0829|TWO_SIDED|95.0|0.78|60.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||60.24|0.78|0.0829
92397734|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9978|TWO_SIDED|95.0|0.28|3.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.59|0.28|0.9978
92397735|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.68||||0.4571|TWO_SIDED|95.0|0.43|6.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.65|0.43|0.4571
92397736|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.99||||0.3681|TWO_SIDED|95.0|0.44|8.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.94|0.44|0.3681
92212415|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.52||||0.1375|TWO_SIDED|95.0|0.21|1.24||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 49||1.24|0.21|0.1375
92212416|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.18||||0.718|TWO_SIDED|95.0|0.49|2.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 50||2.82|0.49|0.7180
92212417|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.88||||0.7838|TWO_SIDED|95.0|0.37|2.13||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 50||2.13|0.37|0.7838
92212418|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.79||||0.5795|TWO_SIDED|95.0|0.34|1.83||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 50||1.83|0.34|0.5795
92212419|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.31||||0.5517|TWO_SIDED|95.0|0.54|3.14||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 51||3.14|0.54|0.5517
92212420|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.8||||0.606|TWO_SIDED|95.0|0.34|1.89||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 51||1.89|0.34|0.6060
92150534|NCT00094328|184186454|OTHER|One sample t-test|Mean Difference (Final Values)|-1.62||||0.278|TWO_SIDED|95.0|-4.72|1.48|||t-test, 2 sided|||The primary efficacy parameter, change in growth rate (cm/year) after 12 months relative to the baseline growth rate was analysed using a one sample t-test. A 95% 2-sided confidence interval was calculated for the mean change in growth rate.||1.48|-4.72|0.278
92150535|NCT00094328|184186455|OTHER|One sample t-test|Median Difference (Final Values)|-0.07||||0.882|TWO_SIDED|95.0|-1.15|1.0|||t-test, 2 sided|||The primary efficacy parameter, change in growth rate (SD units) after 12 months relative to the baseline growth rate was analysed using a one sample t-test. A 95% 2-sided confidence interval was calculated for the mean change in growth rate.||1.00|-1.15|0.882
92150536|NCT00856934|184186528|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
92150537|NCT00856934|184186529|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
92150538|NCT03285295|184186530|SUPERIORITY||Clinical Specificity (%)|99.96|||||TWO_SIDED|95.0|99.92|99.99|||Binomial Distribution|Specificity sample size is a minimum of 15,000 donors.||||99.99|99.92|
92150539|NCT03285295|184186531|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|99.15|100.0|||Sensitivity|||||100.00|99.15|
92150540|NCT03285295|184186532|SUPERIORITY||Clinical Specificity (%)|99.99|||||TWO_SIDED|95.0|99.95|100.0|||Binomial Distribution|||||100.00|99.95|
92150541|NCT03285295|184186533|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|99.48|100.0|||Sensitivity|||||100.00|99.48|
92150542|NCT03285295|184186534|SUPERIORITY||Clinical Specificity (%)|99.92|||||TWO_SIDED|95.0|99.86|99.95|||Binomial Distribution|||||99.95|99.86|
92150543|NCT03285295|184186535|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|99.09|100.0|||Sensitivity|||||100.00|99.09|
92150544|NCT03285295|184186536|SUPERIORITY||Clinical Specificity (%)|99.92|||||TWO_SIDED|95.0|99.87|99.96|||Binomial Exact|||||99.96|99.87|
92150545|NCT03285295|184186537|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|99.72|100.0|||Sensitivity|||||100.00|99.72|
92212421|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.87||||0.7491|TWO_SIDED|95.0|0.38|2.02||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 51||2.02|0.38|0.7491
92150546|NCT03285295|184186538|SUPERIORITY||Clinical Specificity (%)|99.9|||||TWO_SIDED|95.0|99.84|99.94|||Binomial Exact|||||99.94|99.84|
92150547|NCT03285295|184186539|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|99.09|100.0|||Sensitivity|||||100.00|99.09|
92150548|NCT03285295|184186540|SUPERIORITY||Clinical Specificity (%)|99.98|||||TWO_SIDED|95.0|99.94|100.0|||Binomial Exact|||||100.00|99.94|
92150549|NCT03285295|184186541|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|98.85|100.0|||Sensitivity|||||100.00|98.85|
92150550|NCT03285295|184186546|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|95.98|100.0|||Sensitivity|||Sensitivity||100.00|95.98|
92150551|NCT03285295|184186548|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|92.75|100.0|||Sensitivity|||Sensitivity||100.00|92.75|
92150552|NCT03285295|184186549|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|94.87|100.0|||Sensitivity|||Sensitivity||100.00|94.87|
92150553|NCT03285295|184186550|OTHER|95% Confidence Interval provided.|Point Estimate|98.65|||||TWO_SIDED|95.0|95.2|99.84|||Sensitivity|||Sensitivity||99.84|95.20|
92150554|NCT04867785|184186565|SUPERIORITY||Least Squares (LS) Mean Difference|-0.38||||0.188|TWO_SIDED|95.0|-0.94|0.18|||Mixed Models Analysis|||||0.18|-0.94|0.188
92150555|NCT04867785|184186565|SUPERIORITY||LSMean Difference|-1.34|||<|0.001|TWO_SIDED|95.0|-1.84|-0.85|||Mixed Models Analysis|||||-0.85|-1.84|<0.001
92150556|NCT04867785|184186565|SUPERIORITY||LSMean Difference|-1.25|||<|0.001|TWO_SIDED|95.0|-1.85|-0.65|||Mixed Models Analysis|||||-0.65|-1.85|<0.001
92150557|NCT04867785|184186565|SUPERIORITY||LSMean Difference|-1.94|||<|0.001|TWO_SIDED|95.0|-2.44|-1.43|||Mixed Models Analysis|||||-1.43|-2.44|<0.001
92150558|NCT04867785|184186565|SUPERIORITY||LSMean Difference|-1.83|||<|0.001|TWO_SIDED|95.0|-2.42|-1.24|||Mixed Models Analysis|||||-1.24|-2.42|<0.001
92150559|NCT04867785|184186565|SUPERIORITY||LSMean Difference|-1.96|||<|0.001|TWO_SIDED|95.0|-2.43|-1.5|||Mixed Models Analysis|||||-1.50|-2.43|<0.001
92150560|NCT04867785|184186566|SUPERIORITY||LSMean Difference|0.98|||<|0.001|TWO_SIDED|95.0|0.52|1.43|||Mixed Models Analysis|||||1.43|0.52|<0.001
92150561|NCT04867785|184186566|SUPERIORITY||LSMean Difference|0.01||||0.935|TWO_SIDED|95.0|-0.34|0.37|||Mixed Models Analysis|||||0.37|-0.34|0.935
92150562|NCT04867785|184186566|SUPERIORITY||LSMean Difference|0.11||||0.668|TWO_SIDED|95.0|-0.39|0.6|||Mixed Models Analysis|||||0.60|-0.39|0.668
92150563|NCT04867785|184186566|SUPERIORITY||LSMean Difference|-0.58||||0.002|TWO_SIDED|95.0|-0.95|-0.21|||Mixed Models Analysis|||||-0.21|-0.95|0.002
92150564|NCT04867785|184186566|SUPERIORITY||LSMean Difference|-0.47||||0.056|TWO_SIDED|95.0|-0.95|0.01|||Mixed Models Analysis|||||0.01|-0.95|0.056
92212422|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|1.08||||0.8593|TWO_SIDED|95.0|0.45|2.63||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||2.63|0.45|0.8593
92212423|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.55||||0.1868|TWO_SIDED|95.0|0.23|1.32||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.32|0.23|0.1868
92397737|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|6.12||||0.1038|TWO_SIDED|95.0|0.69|54.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||54.38|0.69|0.1038
92150565|NCT04867785|184186566|SUPERIORITY||LSMean Difference|-0.61|||<|0.001|TWO_SIDED|95.0|-0.93|-0.29|||Mixed Models Analysis|||||-0.29|-0.93|<0.001
92150566|NCT04867785|184186567|SUPERIORITY||LSMean Difference|-0.24||||0.448|TWO_SIDED|95.0|-0.85|0.38|||Mixed Models Analysis|||||0.38|-0.85|0.448
92150567|NCT04867785|184186567|SUPERIORITY||LSMean Difference|-0.99||||0.001|TWO_SIDED|95.0|-1.6|-0.38|||Mixed Models Analysis|||||-0.38|-1.60|0.001
92150568|NCT04867785|184186567|SUPERIORITY||LSMean Difference|-1.2|||<|0.001|TWO_SIDED|95.0|-1.8|-0.59|||Mixed Models Analysis|||||-0.59|-1.80|<0.001
92150569|NCT04867785|184186567|SUPERIORITY||LSMean Difference|-1.83|||<|0.001|TWO_SIDED|95.0|-2.41|-1.24|||Mixed Models Analysis|||||-1.24|-2.41|<0.001
92150570|NCT04867785|184186567|SUPERIORITY||LSMean Difference|-1.63|||<|0.001|TWO_SIDED|95.0|-2.27|-0.99|||Mixed Models Analysis|||||-0.99|-2.27|<0.001
92150571|NCT04867785|184186567|SUPERIORITY||LSMean Difference|-1.85|||<|0.001|TWO_SIDED|95.0|-2.39|-1.31|||Mixed Models Analysis|||||-1.31|-2.39|<0.001
92150572|NCT04867785|184186567|SUPERIORITY||LSMean Difference|0.82|||<|0.001|TWO_SIDED|95.0|0.35|1.29|||Mixed Models Analysis|||||1.29|0.35|<0.001
92150573|NCT04867785|184186567|SUPERIORITY||LSMean Difference|0.06||||0.796|TWO_SIDED|95.0|-0.41|0.53|||Mixed Models Analysis|||||0.53|-0.41|0.796
92212424|NCT03816891|184324398|SUPERIORITY||Odds Ratio (OR)|0.61||||0.2436|TWO_SIDED|95.0|0.26|1.41||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.41|0.26|0.2436
92150574|NCT04867785|184186567|SUPERIORITY||LSMean Difference|-0.14||||0.548|TWO_SIDED|95.0|-0.61|0.32|||Mixed Models Analysis|||||0.32|-0.61|0.548
92150575|NCT04867785|184186567|SUPERIORITY||LSMean Difference|-0.77|||<|0.001|TWO_SIDED|95.0|-1.19|-0.36|||Mixed Models Analysis|||||-0.36|-1.19|<0.001
92150576|NCT04867785|184186567|SUPERIORITY||LSMean Difference|-0.57||||0.025|TWO_SIDED|95.0|-1.08|-0.07|||Mixed Models Analysis|||||-0.07|-1.08|0.025
92212425|NCT03816891|184324399|SUPERIORITY|||||||0.0841||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||||0.0841
92150577|NCT04867785|184186567|SUPERIORITY||LSMean Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-1.16|-0.44|||Mixed Models Analysis|||||-0.44|-1.16|<0.001
92150578|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.14||||0.121|TWO_SIDED|95.0|-0.04|0.32|||Regression, Logistic|||||0.32|-0.04|0.121
92150579|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.36||||0.002|TWO_SIDED|95.0|0.13|0.59|||Regression, Logistic|||||0.59|0.13|0.002
92150580|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.48|||<|0.001|TWO_SIDED|95.0|0.28|0.68|||Regression, Logistic|||||0.68|0.28|<0.001
92150581|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.7|||<|0.001|TWO_SIDED|95.0|0.53|0.87|||Regression, Logistic|||||0.87|0.53|<0.001
92150582|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.6|||<|0.001|TWO_SIDED|95.0|0.39|0.82|||Regression, Logistic|||||0.82|0.39|<0.001
92150583|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.68|||<|0.001|TWO_SIDED|95.0|0.51|0.85|||Regression, Logistic|||||0.85|0.51|<0.001
92150584|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|-0.21||||0.03|TWO_SIDED|95.0|-0.39|-0.02|||Regression, Logistic|||||-0.02|-0.39|0.030
92150585|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.01||||0.938|TWO_SIDED|95.0|-0.22|0.24|||Regression, Logistic|||||0.24|-0.22|0.938
92150586|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.13||||0.209|TWO_SIDED|95.0|-0.07|0.33|||Regression, Logistic|||||0.33|-0.07|0.209
92150587|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.35|||<|0.001|TWO_SIDED|95.0|0.18|0.53|||Regression, Logistic|||||0.53|0.18|<0.001
92150588|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.26||||0.024|TWO_SIDED|95.0|0.03|0.48|||Regression, Logistic|||||0.48|0.03|0.024
92150589|NCT04867785|184186568|SUPERIORITY||Risk Difference (RD)|0.33|||<|0.001|TWO_SIDED|95.0|0.16|0.51|||Regression, Logistic|||||0.51|0.16|<0.001
92150590|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.14||||0.169|TWO_SIDED|95.0|-0.06|0.35|||Regression, Logistic|||||0.35|-0.06|0.169
92150591|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.39||||0.001|TWO_SIDED|95.0|0.15|0.63|||Regression, Logistic|||||0.63|0.15|0.001
92150592|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.37||||0.002|TWO_SIDED|95.0|0.14|0.6|||Regression, Logistic|||||0.60|0.14|0.002
92150593|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.59|||<|0.001|TWO_SIDED|95.0|0.39|0.79|||Regression, Logistic|||||0.79|0.39|<0.001
92150594|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.56|||<|0.001|TWO_SIDED|95.0|0.34|0.78|||Regression, Logistic|||||0.78|0.34|<0.001
92150595|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.57|||<|0.001|TWO_SIDED|95.0|0.38|0.76|||Regression, Logistic|||||0.76|0.38|<0.001
92150596|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|-0.23||||0.029|TWO_SIDED|95.0|-0.44|-0.02|||Regression, Logistic|||||-0.02|-0.44|0.029
92150597|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.02||||0.898|TWO_SIDED|95.0|-0.22|0.25|||Regression, Logistic|||||0.25|-0.22|0.898
92150598|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.0||||0.968|TWO_SIDED|95.0|-0.24|0.23|||Regression, Logistic|||||0.23|-0.24|0.968
92150599|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.22||||0.033|TWO_SIDED|95.0|0.02|0.42|||Regression, Logistic|||||0.42|0.02|0.033
92150600|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.19||||0.099|TWO_SIDED|95.0|-0.04|0.41|||Regression, Logistic|||||0.41|-0.04|0.099
92150601|NCT04867785|184186569|SUPERIORITY||Risk Difference (RD)|0.2||||0.044|TWO_SIDED|95.0|0.01|0.39|||Regression, Logistic|||||0.39|0.01|0.044
92212426|NCT03816891|184324399|SUPERIORITY|||||||0.3442||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||||0.3442
92397738|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.74||||0.4639|TWO_SIDED|95.0|0.39|7.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||7.72|0.39|0.4639
92150602|NCT04867785|184186570|SUPERIORITY||LSMean Difference|-2.12||||0.823|TWO_SIDED|95.0|-20.73|16.48|||Mixed Models Analysis|||||16.48|-20.73|0.823
92150603|NCT04867785|184186570|SUPERIORITY||LSMean Difference|-19.6||||0.165|TWO_SIDED|95.0|-47.29|8.1|||Mixed Models Analysis|||||8.10|-47.29|0.165
92150604|NCT04867785|184186570|SUPERIORITY||LSMean Difference|-33.3||||0.001|TWO_SIDED|95.0|-53.56|-13.04|||Mixed Models Analysis|||||-13.04|-53.56|0.001
92150605|NCT04867785|184186570|SUPERIORITY||LSMean Difference|-55.5|||<|0.001|TWO_SIDED|95.0|-69.77|-41.22|||Mixed Models Analysis|||||-41.22|-69.77|<0.001
92150606|NCT04867785|184186570|SUPERIORITY||LSMean Difference|-29.22||||0.015|TWO_SIDED|95.0|-52.84|-5.59|||Mixed Models Analysis|||||-5.59|-52.84|0.015
92150607|NCT04867785|184186570|SUPERIORITY||LSMean Difference|-54.61|||<|0.001|TWO_SIDED|95.0|-69.63|-39.59|||Mixed Models Analysis|||||-39.59|-69.63|<0.001
92150608|NCT04867785|184186570|SUPERIORITY||LSMean Difference|33.54|||<|0.001|TWO_SIDED|95.0|18.26|48.82|||Mixed Models Analysis|||||48.82|18.26|<0.001
92150609|NCT04867785|184186570|SUPERIORITY||LSMean Difference|16.07||||0.231|TWO_SIDED|95.0|-10.25|42.39|||Mixed Models Analysis|||||42.39|-10.25|0.231
92150610|NCT04867785|184186570|SUPERIORITY||LSMean Difference|2.37||||0.804|TWO_SIDED|95.0|-16.28|21.01|||Mixed Models Analysis|||||21.01|-16.28|0.804
92150611|NCT04867785|184186570|SUPERIORITY||LSMean Difference|-19.83|||<|0.001|TWO_SIDED|95.0|-31.01|-8.65|||Mixed Models Analysis|||||-8.65|-31.01|<0.001
92150612|NCT04867785|184186570|SUPERIORITY||LSMean Difference|6.45||||0.586|TWO_SIDED|95.0|-16.75|29.65|||Mixed Models Analysis|||||29.65|-16.75|0.586
92150613|NCT04867785|184186570|SUPERIORITY||LSMean Difference|-18.94||||0.002|TWO_SIDED|95.0|-30.93|-6.96|||Mixed Models Analysis|||||-6.96|-30.93|0.002
92150614|NCT04867785|184186571|SUPERIORITY||LSMean Difference|-0.25||||0.984|TWO_SIDED|95.0|-24.57|24.07|||Mixed Models Analysis|||||24.07|-24.57|0.984
92150615|NCT04867785|184186571|SUPERIORITY||LSMean Difference|-4.2||||0.804|TWO_SIDED|95.0|-37.44|29.03|||Mixed Models Analysis|||||29.03|-37.44|0.804
92150616|NCT04867785|184186571|SUPERIORITY||LSMean Difference|-21.47||||0.167|TWO_SIDED|95.0|-51.91|8.98|||Mixed Models Analysis|||||8.98|-51.91|0.167
92150617|NCT04867785|184186571|SUPERIORITY||LSMean Difference|-51.84|||<|0.001|TWO_SIDED|95.0|-76.09|-27.59|||Mixed Models Analysis|||||-27.59|-76.09|<0.001
92150618|NCT04867785|184186571|SUPERIORITY||LSMean Difference|-23.94||||0.168|TWO_SIDED|95.0|-57.94|10.06|||Mixed Models Analysis|||||10.06|-57.94|0.168
92150619|NCT04867785|184186571|SUPERIORITY||LSMean Difference|-50.58|||<|0.001|TWO_SIDED|95.0|-74.94|-26.22|||Mixed Models Analysis|||||-26.22|-74.94|<0.001
92150620|NCT04867785|184186571|SUPERIORITY||LSMean Difference|10.02||||0.362|TWO_SIDED|95.0|-11.55|31.6|||Mixed Models Analysis|||||31.60|-11.55|0.362
92150621|NCT04867785|184186571|SUPERIORITY||LSMean Difference|6.07||||0.696|TWO_SIDED|95.0|-24.34|36.48|||Mixed Models Analysis|||||36.48|-24.34|0.696
92150622|NCT04867785|184186571|SUPERIORITY||LSMean Difference|-11.19||||0.436|TWO_SIDED|95.0|-39.38|16.99|||Mixed Models Analysis|||||16.99|-39.38|0.436
92150623|NCT04867785|184186571|SUPERIORITY||LSMean Difference|-41.57|||<|0.001|TWO_SIDED|95.0|-62.89|-20.25|||Mixed Models Analysis|||||-20.25|-62.89|<0.001
92150624|NCT04867785|184186571|SUPERIORITY||LSMean Difference|-13.67||||0.418|TWO_SIDED|95.0|-46.75|19.42|||Mixed Models Analysis|||||19.42|-46.75|0.418
92150625|NCT04867785|184186571|SUPERIORITY||LSMean Difference|-40.31|||<|0.001|TWO_SIDED|95.0|-60.77|-19.85|||Mixed Models Analysis|||||-19.85|-60.77|<0.001
92150626|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-0.49||||0.54|TWO_SIDED|95.0|-2.07|1.08|||Mixed Models Analysis|||||1.08|-2.07|0.540
92150627|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-4.41|||<|0.001|TWO_SIDED|95.0|-6.69|-2.13|||Mixed Models Analysis|||||-2.13|-6.69|<0.001
92150628|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-6.78|||<|0.001|TWO_SIDED|95.0|-9.47|-4.09|||Mixed Models Analysis|||||-4.09|-9.47|<0.001
92150629|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-10.13|||<|0.001|TWO_SIDED|95.0|-12.24|-8.03|||Mixed Models Analysis|||||-8.03|-12.24|<0.001
92150630|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-12.06|||<|0.001|TWO_SIDED|95.0|-15.06|-9.06|||Mixed Models Analysis|||||-9.06|-15.06|<0.001
92150631|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-10.99|||<|0.001|TWO_SIDED|95.0|-13.24|-8.73|||Mixed Models Analysis|||||-8.73|-13.24|<0.001
92150632|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-1.19||||0.135|TWO_SIDED|95.0|-2.75|0.37|||Mixed Models Analysis|||||0.37|-2.75|0.135
92150633|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-5.11|||<|0.001|TWO_SIDED|95.0|-7.36|-2.86|||Mixed Models Analysis|||||-2.86|-7.36|<0.001
92150634|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-7.48|||<|0.001|TWO_SIDED|95.0|-10.19|-4.77|||Mixed Models Analysis|||||-4.77|-10.19|<0.001
92150635|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-10.83|||<|0.001|TWO_SIDED|95.0|-12.89|-8.77|||Mixed Models Analysis|||||-8.77|-12.89|<0.001
92150636|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-12.76|||<|0.001|TWO_SIDED|95.0|-15.74|-9.77|||Mixed Models Analysis|||||-9.77|-15.74|<0.001
92150637|NCT04867785|184186572|SUPERIORITY||LSMean Difference|-11.69|||<|0.001|TWO_SIDED|95.0|-13.9|-9.47|||Mixed Models Analysis|||||-9.47|-13.90|<0.001
92150638|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-0.03||||0.979|TWO_SIDED|95.0|-2.18|2.12|||Mixed Models Analysis|||||2.12|-2.18|0.979
92150639|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-4.0||||0.018|TWO_SIDED|95.0|-7.32|-0.68|||Mixed Models Analysis|||||-0.68|-7.32|0.018
92150640|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-7.09|||<|0.001|TWO_SIDED|95.0|-10.46|-3.71|||Mixed Models Analysis|||||-3.71|-10.46|<0.001
92150641|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-13.2|||<|0.001|TWO_SIDED|95.0|-16.74|-9.66|||Mixed Models Analysis|||||-9.66|-16.74|<0.001
92150642|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-12.84|||<|0.001|TWO_SIDED|95.0|-16.5|-9.18|||Mixed Models Analysis|||||-9.18|-16.50|<0.001
92212427|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|3.22||||0.3083|TWO_SIDED|95.0|0.31|33.01||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||33.01|0.31|0.3083
92397739|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|7.15||||0.077|TWO_SIDED|95.0|0.81|63.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||63.27|0.81|0.0770
92150643|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-13.91|||<|0.001|TWO_SIDED|95.0|-17.1|-10.71|||Mixed Models Analysis|||||-10.71|-17.10|<0.001
92150644|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-1.34||||0.213|TWO_SIDED|95.0|-3.45|0.77|||Mixed Models Analysis|||||0.77|-3.45|0.213
92150645|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-5.31||||0.002|TWO_SIDED|95.0|-8.66|-1.97|||Mixed Models Analysis|||||-1.97|-8.66|0.002
92150646|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-8.4|||<|0.001|TWO_SIDED|95.0|-11.76|-5.04|||Mixed Models Analysis|||||-5.04|-11.76|<0.001
92150647|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-14.51|||<|0.001|TWO_SIDED|95.0|-18.0|-11.01|||Mixed Models Analysis|||||-11.01|-18.00|<0.001
92150648|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-14.15|||<|0.001|TWO_SIDED|95.0|-17.77|-10.54|||Mixed Models Analysis|||||-10.54|-17.77|<0.001
92150649|NCT04867785|184186573|SUPERIORITY||LSMean Difference|-15.22|||<|0.001|TWO_SIDED|95.0|-18.36|-12.07|||Mixed Models Analysis|||||-12.07|-18.36|<0.001
92150650|NCT00981474|184186607|SUPERIORITY||Risk Ratio (RR)|0.96||||0.752|TWO_SIDED|95.0|0.82|1.121|||Chi-squared|||||1.121|.82|.752
92150651|NCT00981474|184186608|SUPERIORITY||Risk Ratio (RR)|0.55||||0.053|TWO_SIDED|95.0|0.32|0.93|||Chi-squared|||||.93|.32|.053
92150652|NCT00981474|184186609|SUPERIORITY||Risk Ratio (RR)|0.454||||0.149|TWO_SIDED|95.0|0.18|1.17|||Chi-squared|||||1.17|.18|.149
92150653|NCT00981474|184186610|SUPERIORITY||Hazard Ratio (HR)|0.581||||0.144|TWO_SIDED|95.0|0.3|1.13|||Chi-squared|||||1.13|.30|.144
92150654|NCT00981474|184186611|SUPERIORITY||Risk Ratio (RR)|0.724||||0.439|TWO_SIDED|95.0|0.37|1.41|||Chi-squared|||||1.41|.37|.439
92150655|NCT00981474|184186612|SUPERIORITY||Risk Ratio (RR)|0.872||||0.311|TWO_SIDED|95.0|0.69|1.11|||Chi-squared|||||1.11|.69|.311
92150656|NCT00981474|184186613|SUPERIORITY||Risk Ratio (RR)|0.247||||0.103|TWO_SIDED|95.0|0.005|1.18|||Fisher Exact|Fisher exact test used due to the small number of events.||||1.18|.005|.103
92397740|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9838|TWO_SIDED|95.0|0.26|4.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.01|0.26|0.9838
92150657|NCT00981474|184186614|SUPERIORITY||Risk Ratio (RR)|1.102||||0.608|TWO_SIDED|95.0|0.81|1.5|||Chi-squared|||||1.5|.81|.608
92150658|NCT00981474|184186615|SUPERIORITY||Risk Ratio (RR)|0.564||||0.541|TWO_SIDED|95.0|0.16|1.97|||Fisher Exact|Fisher exact test used due to the small number of events.||||1.97|.16|.541
92150659|NCT00981474|184186616|SUPERIORITY||Risk Ratio (RR)|0.247||||0.103|TWO_SIDED|95.0|0.05|1.18|||Fisher Exact|Fisher exact test used due to small number of events.||||1.18|.05|.103
92150660|NCT00981474|184186617|SUPERIORITY||Risk Ratio (RR)|0.409||||0.129|TWO_SIDED|95.0|0.15|1.14|||Chi-squared|||||1.14|.15|.129
92150661|NCT02991482|184186625|SUPERIORITY|||||||0.76|||||||Log Rank|||||||0.76
92150662|NCT01213043|184186638|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin was: \[0.80, 1.25\]|Geometric Least Square Means Ratio|0.85|||<|0.0001|TWO_SIDED|90.0|0.83|0.88|||ANOVA|||Dose proportionality was analysed using an ANOVA model for the natural log-transformed AUC0-7days with treatment, period, and sequence as fixed effects and subject within sequence as a random effect. The treatment dose of 60 mg/kg was the reference treatment and 120 mg/kg was the test treatment. PK parameters in individual subjects for each treatment dose were dose normalized to 60mg/kg based on the actual dose administered at Week 8 or Week 18 (i.e., (AUC0-7days/Actual Dose in mg/kg)\*60mg/kg).||0.88|0.83|<0.0001
92150663|NCT02887989|184186651|SUPERIORITY|||||||0.657|||||||t-test, 2 sided|||||||.6570
92150664|NCT02887989|184186652|SUPERIORITY|||||||0.6339|||||||t-test, 2 sided|||||||.6339
92150665|NCT01588990|184186755|SUPERIORITY_OR_OTHER|||||||0.101|||||||Cox Proportional Hazards Model|||||||0.101
92150666|NCT01588990|184186767|SUPERIORITY_OR_OTHER|||||||0.052|||||||Cox Proportional Hazards Model|||||||0.052
92150667|NCT01588990|184186768|SUPERIORITY_OR_OTHER|||||||0.797|||||||Cox Proportional Hazards Model|||||||0.797
92150668|NCT01588990|184186769|SUPERIORITY_OR_OTHER|||||||0.188|||||||Cox Proportional Hazards Model|||||||0.188
92150669|NCT01588990|184186770|SUPERIORITY_OR_OTHER|||||||0.016|||||||Cox Proportional Hazards Model|||||||0.016
92150670|NCT02367716|184186780|OTHER|The mean change in QRS duration between Baseline and 6 months|Mean Difference (Final Values)|-13.9|STANDARD_DEVIATION|29.6|||TWO_SIDED|||||||||||||
92150671|NCT01473381|184186781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.57||||0.0073|TWO_SIDED|95.0|-4.3|-0.84||P-value was adjusted for multiplicity.|Mixed-effect model|||||-0.84|-4.30|0.0073
92150672|NCT01473381|184186781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.82||||0.0034|TWO_SIDED|95.0|-4.57|-1.06||P-value was adjusted for multiplicity.|Mixed-effect model|||||-1.06|-4.57|0.0034
92150673|NCT01473381|184186781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74||||0.002|TWO_SIDED|95.0|-4.48|-1.0||P-value was provided for assay sensitivity. It was not adjusted for multiplicity.|Mixed-effect model|||||-1.00|-4.48|0.0020
92150674|NCT01473381|184186782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0073|TWO_SIDED|95.0|-0.58|-0.13||P-value was adjusted for multiplicity.|Mixed-effect model|||||-0.13|-0.58|0.0073
92150675|NCT01473381|184186782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.0097|TWO_SIDED|95.0|-0.55|-0.1||P-value was adjusted for multiplicity.|Mixed-effect model|||||-0.10|-0.55|0.0097
92150676|NCT01473381|184186782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0025|TWO_SIDED|95.0|-0.57|-0.12||P-value was provided for assay sensitivity. It was not adjusted for multiplicity.|Mixed-effect model|||||-0.12|-0.57|0.0025
92150677|NCT01473381|184186783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.3563|TWO_SIDED|95.0|-3.9|10.9||P-value was adjusted for multiplicity.|Cochran-Mantel-Haenszel|The Mean Difference (Final Values), as well as 95% Confidence Interval, are in units of percentage.||||10.9|-3.9|0.3563
92397741|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|0.77||||0.6995|TWO_SIDED|95.0|0.21|2.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||2.86|0.21|0.6995
92150678|NCT01473381|184186783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1||||0.1611|TWO_SIDED|95.0|-0.4|14.6||P-value was adjusted for multiplicity.|Cochran-Mantel-Haenszel|The Mean Difference (Final Values), as well as 95% Confidence Interval, are in units of percentage.||||14.6|-0.4|0.1611
92150679|NCT01473381|184186783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7||||0.2672|TWO_SIDED|95.0|-2.7|12.2||P-value was provided for assay sensitivity. It was not adjusted for multiplicity.|Cochran-Mantel-Haenszel|The Mean Difference (Final Values), as well as 95% Confidence Interval, are in units of percentage.||||12.2|-2.7|0.2672
92150680|NCT01641926|184186810|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|1.6|||||TWO_SIDED|95.0|-8.4|11.6||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (hepatitis B Virus \[HBV\] genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||11.6|-8.4|
92150681|NCT01641926|184186811|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-3.0|||||TWO_SIDED|95.0|-20.2|14.3||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (HBV genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||14.3|-20.2|
92150682|NCT01641926|184186812|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|2.6|||||TWO_SIDED|95.0|-7.2|12.3||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (HBV genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||12.3|-7.2|
92150683|NCT01641926|184186813|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|2.1|||||TWO_SIDED|95.0|-9.5|13.6||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (HBV genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||13.6|-9.5|
92150684|NCT01641926|184186813|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|10.1|||||TWO_SIDED|95.0|-7.2|27.1||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (HBV genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||27.1|-7.2|
92150685|NCT01641926|184186814|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.9|||||TWO_SIDED|95.0|-7.4|9.2||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (HBV genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||9.2|-7.4|
92150686|NCT00098254|184186826|SUPERIORITY_OR_OTHER|||||||0.0027||95.0|||||Kaplan-Meier|||||||0.0027
92150687|NCT00098254|184186828|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||Kaplan-Meier|||||||0.33
92150688|NCT00098254|184186829|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||Kaplan-Meier|||||||0.042
92150689|NCT00098254|184186830|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Kaplan-Meier|||||||0.028
92150690|NCT02118337|184186841|SUPERIORITY||Rate difference|-23.8||||0.5494|TWO_SIDED|95.0|-72.8|31.1|||Fisher Exact|||||31.1|-72.8|0.5494
92150691|NCT02118337|184186841|SUPERIORITY||Rate difference|-7.1||||0.513|TWO_SIDED|95.0|-33.6|20.0|||Fisher Exact|||||20.0|-33.6|0.5130
92150692|NCT01121172|184186908|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|Non parametric test||||||0.001
92150693|NCT01121172|184186909|SUPERIORITY_OR_OTHER|||||||0.232|||||||Chi-squared|Chi-square test of frequency distribution amng obese study group and HapMap-CEU polymorphism distribution||||||0.232
92150694|NCT01003639|184186910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.05|TWO_SIDED|95.0|0.0|1.43|||ANCOVA|||||1.43|0|0.05
92150695|NCT02237508|184186914|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|138.87|||<|0.001|TWO_SIDED|90.0|129.09|149.39|||Mixed Models Analysis|||||149.39|129.09|<0.001
92150696|NCT02237508|184186914|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|136.18|||<|0.001|TWO_SIDED|90.0|126.13|147.04|||Mixed Models Analysis|||||147.04|126.13|<0.001
92150697|NCT02237508|184186915|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|119.73||||0.001|TWO_SIDED|90.0|109.4|131.03|||Mixed Models Analysis|||||131.03|109.40|0.001
92150698|NCT02237508|184186915|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|129.62|||<|0.001|TWO_SIDED|90.0|117.33|143.2|||Mixed Models Analysis|||||143.20|117.33|<0.001
92212428|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|2.2||||0.4905|TWO_SIDED|95.0|0.21|22.64||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||22.64|0.21|0.4905
92150699|NCT02237508|184186916|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|218.13|||<|0.001|TWO_SIDED|90.0|194.02|245.24|||Mixed Models Analysis|||||245.24|194.02|<0.001
92150700|NCT02237508|184186916|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|200.66|||<|0.001|TWO_SIDED|90.0|174.3|231.01|||Mixed Models Analysis|||||231.01|174.30|<0.001
92150701|NCT02237508|184186917|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|126.17|||<|0.001|TWO_SIDED|90.0|115.93|137.32|||Mixed Models Analysis|||||137.32|115.93|<0.001
92150702|NCT02237508|184186917|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|117.08||||0.004|TWO_SIDED|90.0|107.05|128.05|||Mixed Models Analysis|||||128.05|107.05|0.004
92150703|NCT05458024|184186936|SUPERIORITY||Beta coefficient|-0.14||||0.83|TWO_SIDED||||||Mixed Models Analysis|||||||0.83
92150704|NCT05458024|184186937|SUPERIORITY||Beta coefficient|-1.41||||0.21|TWO_SIDED|||||Analyses were adjusted for sex, baseline pain, and baseline vitamin D levels.|Mixed Models Analysis|||||||0.21
92150705|NCT05807919|184186955|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92150706|NCT05807919|184186956|SUPERIORITY|||||||0.39|||||||Fisher Exact|||||||0.39
92150707|NCT05807919|184186957|SUPERIORITY|||||||0.18|||||||Fisher Exact|||||||0.18
92150708|NCT05807919|184186958|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92150709|NCT05807919|184186959|SUPERIORITY|||||||0.39|||||||Fisher Exact|||||||0.39
92150710|NCT05807919|184186960|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.48
92150711|NCT03489057|184186969|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||0.19
92150712|NCT03489057|184186983|SUPERIORITY|||||||0.48|||||||Mixed Models Analysis|||||||0.48
92150713|NCT02277743|184186993|SUPERIORITY||difference in percentages|27.7|||<|0.0001|TWO_SIDED|95.0|20.18|35.17||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||35.17|20.18|< 0.0001
92150714|NCT02277743|184186993|SUPERIORITY||difference in percentages|27.0|||<|0.0001|TWO_SIDED|95.0|19.47|34.44||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||34.44|19.47|< 0.0001
92150715|NCT02277743|184186994|SUPERIORITY||difference in percentages|36.6|||<|0.0001|TWO_SIDED|95.0|28.58|44.63||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.025 level. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||44.63|28.58|< 0.0001
92150716|NCT02277743|184186994|SUPERIORITY||difference in percentages|37.7|||<|0.0001|TWO_SIDED|95.0|29.7|45.77||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.025 level. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||45.77|29.70|< 0.0001
92150717|NCT02277743|184186995|SUPERIORITY||difference in percentages|28.6|||<|0.0001|TWO_SIDED|95.0|20.64|36.52||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||36.52|20.64|< 0.0001
92150718|NCT02277743|184186995|SUPERIORITY||difference in percentages|28.0|||<|0.0001|TWO_SIDED|95.0|19.94|36.13||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||36.13|19.94|< 0.0001
92150719|NCT02277743|184186996|SUPERIORITY||difference in percentages|29.6|||<|0.0001|TWO_SIDED|95.0|21.36|37.88||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||37.88|21.36|< 0.0001
92150720|NCT02277743|184186996|SUPERIORITY||difference in percentages|34.5|||<|0.0001|TWO_SIDED|95.0|26.08|42.84||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||42.84|26.08|< 0.0001
92212429|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|1.81||||0.6379|TWO_SIDED|95.0|0.15|21.08||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||21.08|0.15|0.6379
92150721|NCT02277743|184186997|SUPERIORITY||Least square (LS) mean difference|-24.9|||<|0.0001|TWO_SIDED|95.0|-32.26|-17.52||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-17.52|-32.26|< 0.0001
92150722|NCT02277743|184186997|SUPERIORITY||LS mean difference|-22.8|||<|0.0001|TWO_SIDED|95.0|-30.33|-15.33||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-15.33|-30.33|< 0.0001
92150723|NCT02277743|184186998|SUPERIORITY||difference in percentages|9.8||||0.0012|TWO_SIDED|95.0|3.95|15.71||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||15.71|3.95|0.0012
92150724|NCT02277743|184186998|SUPERIORITY||difference in percentages|17.3|||<|0.0001|TWO_SIDED|95.0|10.57|23.93||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||23.93|10.57|< 0.0001
92150725|NCT02277743|184186999|SUPERIORITY||difference in percentages|6.1||||0.0097|TWO_SIDED|95.0|1.49|10.68||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||10.68|1.49|0.0097
92150726|NCT02277743|184186999|SUPERIORITY||difference in percentages|6.2||||0.0094|TWO_SIDED|95.0|1.45|10.86||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||10.86|1.45|0.0094
92150727|NCT02277743|184187000|SUPERIORITY||LS mean difference|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.236|-1.26||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-1.260|-2.236|< 0.0001
92150728|NCT02277743|184187000|SUPERIORITY||LS mean difference|-1.69|||<|0.0001|TWO_SIDED|95.0|-2.189|-1.186||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-1.186|-2.189|< 0.0001
92150729|NCT02277743|184187001|SUPERIORITY||LS mean difference|-34.6|||<|0.0001|TWO_SIDED|95.0|-42.35|-26.88||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-26.88|-42.35|< 0.0001
92150730|NCT02277743|184187001|SUPERIORITY||LS mean difference|-34.4|||<|0.0001|TWO_SIDED|95.0|-42.17|-26.56||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-26.56|-42.17|< 0.0001
92150731|NCT02277743|184187002|SUPERIORITY||difference in percentages|44.2|||<|0.0001|TWO_SIDED|95.0|35.91|52.48||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||52.48|35.91|< 0.0001
92150732|NCT02277743|184187002|SUPERIORITY||difference in percentages|36.4|||<|0.0001|TWO_SIDED|95.0|27.9|44.96||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||44.96|27.90|< 0.0001
92150733|NCT02277743|184187003|SUPERIORITY||difference in percentages|28.1|||<|0.0001|TWO_SIDED|95.0|20.96|35.29||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||35.29|20.96|< 0.0001
92150734|NCT02277743|184187003|SUPERIORITY||difference in percentages|25.6|||<|0.0001|TWO_SIDED|95.0|18.51|32.68||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||32.68|18.51|< 0.0001
92150735|NCT02277743|184187004|SUPERIORITY||LS mean difference|-17.92|||<|0.0001|TWO_SIDED|95.0|-22.487|-13.353||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-13.353|-22.487|< 0.0001
92150736|NCT02277743|184187004|SUPERIORITY||LS mean difference|-18.89|||<|0.0001|TWO_SIDED|95.0|-23.125|-14.65||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-14.650|-23.125|< 0.0001
92150737|NCT02277743|184187005|SUPERIORITY||LS mean difference|-28.7|||<|0.0001|TWO_SIDED|95.0|-35.79|-21.54||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-21.54|-35.79|< 0.0001
92150738|NCT02277743|184187005|SUPERIORITY||LS mean difference|-28.0|||<|0.0001|TWO_SIDED|95.0|-35.09|-20.87||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-20.87|-35.09|< 0.0001
92150739|NCT02277743|184187006|SUPERIORITY||LS mean difference|-4.0|||<|0.0001|TWO_SIDED|95.0|-5.16|-2.8||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-2.80|-5.16|< 0.0001
92212430|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|7.37||||0.0073|TWO_SIDED|95.0|1.48|36.68||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||36.68|1.48|0.0073
92212431|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|2.68||||0.2453|TWO_SIDED|95.0|0.49|14.66||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||14.66|0.49|0.2453
92212432|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|0.43||||0.4853|TWO_SIDED|95.0|0.04|4.9||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||4.90|0.04|0.4853
92212433|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0205|TWO_SIDED|95.0|1.15|10.68||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||10.68|1.15|0.0205
92212434|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|3.05||||0.0548|TWO_SIDED|95.0|0.95|9.78||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||9.78|0.95|0.0548
92212435|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|0.76||||0.6853|TWO_SIDED|95.0|0.19|2.96||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||2.96|0.19|0.6853
92212436|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|5.65||||0.0017|TWO_SIDED|95.0|1.83|17.47||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||17.47|1.83|0.0017
92212437|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|3.61||||0.0196|TWO_SIDED|95.0|1.19|10.99||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||10.99|1.19|0.0196
92212438|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|1.37||||0.6213|TWO_SIDED|95.0|0.4|4.69||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||4.69|0.40|0.6213
92212439|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|7.44||||0.0003|TWO_SIDED|95.0|2.33|23.73||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||23.73|2.33|0.0003
92212440|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|4.84||||0.006|TWO_SIDED|95.0|1.5|15.58||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||15.58|1.50|0.0060
92150740|NCT02277743|184187006|SUPERIORITY||LS mean difference|-3.7|||<|0.0001|TWO_SIDED|95.0|-4.87|-2.49||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-2.49|-4.87|< 0.0001
92212441|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|1.8||||0.3432|TWO_SIDED|95.0|0.54|6.07||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||6.07|0.54|0.3432
92212442|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|4.96||||0.0012|TWO_SIDED|95.0|1.84|13.37||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||13.37|1.84|0.0012
92150741|NCT02277743|184187007|SUPERIORITY||LS mean difference|-6.5|||<|0.0001|TWO_SIDED|95.0|-8.02|-5.01||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-5.01|-8.02|< 0.0001
92150742|NCT02277743|184187007|SUPERIORITY||LS mean difference|-5.9|||<|0.0001|TWO_SIDED|95.0|-7.44|-4.32||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-4.32|-7.44|< 0.0001
92212443|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|3.21||||0.0121|TWO_SIDED|95.0|1.27|8.11||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||8.11|1.27|0.0121
92212444|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8315|TWO_SIDED|95.0|0.41|3.08||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||3.08|0.41|0.8315
92212445|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|1.43||||0.4161|TWO_SIDED|95.0|0.61|3.35||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||3.35|0.61|0.4161
92212446|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|1.23||||0.6277|TWO_SIDED|95.0|0.54|2.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||2.82|0.54|0.6277
92212447|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|0.69||||0.4128|TWO_SIDED|95.0|0.29|1.64||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||1.64|0.29|0.4128
92212448|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9726|TWO_SIDED|95.0|0.42|2.3||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.30|0.42|0.9726
92212449|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|1.05||||0.907|TWO_SIDED|95.0|0.46|2.39||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.39|0.46|0.9070
92212450|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|0.49||||0.0944|TWO_SIDED|95.0|0.21|1.14||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||1.14|0.21|0.0944
92212451|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|0.83||||0.6513|TWO_SIDED|95.0|0.37|1.88||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.88|0.37|0.6513
92150743|NCT02277743|184187008|SUPERIORITY||LS mean difference|-2.2||||0.0006|TWO_SIDED|95.0|-3.44|-0.95||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-0.95|-3.44|0.0006
92212452|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|0.8||||0.5924|TWO_SIDED|95.0|0.35|1.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.82|0.35|0.5924
92212453|NCT03816891|184324399|SUPERIORITY||Odds Ratio (OR)|0.6||||0.2313|TWO_SIDED|95.0|0.27|1.38||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.38|0.27|0.2313
92212454|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|3.19||||0.3137|TWO_SIDED|95.0|0.31|33.17||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||33.17|0.31|0.3137
92212455|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|2.0||||0.5982|TWO_SIDED|95.0|0.16|25.75||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||25.75|0.16|0.5982
92150744|NCT02277743|184187008|SUPERIORITY||LS mean difference|-2.2||||0.0003|TWO_SIDED|95.0|-3.46|-1.03||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-1.03|-3.46|0.0003
92150745|NCT02277743|184187009|SUPERIORITY||LS mean difference|-27.0|||<|0.0001|TWO_SIDED|95.0|-35.04|-18.91||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-18.91|-35.04|< 0.0001
92212456|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|2.8||||0.3244|TWO_SIDED|95.0|0.31|25.38||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||25.38|0.31|0.3244
92212457|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|7.58||||0.0266|TWO_SIDED|95.0|0.96|59.86||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||59.86|0.96|0.0266
92212458|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|5.2||||0.0892|TWO_SIDED|95.0|0.63|42.8||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||42.80|0.63|0.0892
92212459|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|4.06||||0.1864|TWO_SIDED|95.0|0.44|37.67||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||37.67|0.44|0.1864
92150746|NCT02277743|184187009|SUPERIORITY||LS mean difference|-25.6|||<|0.0001|TWO_SIDED|95.0|-33.06|-18.12||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-18.12|-33.06|< 0.0001
92150747|NCT02277743|184187010|SUPERIORITY||LS mean difference|-16.5|||<|0.0001|TWO_SIDED|95.0|-21.08|-11.9||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-11.90|-21.08|< 0.0001
92150748|NCT02277743|184187010|SUPERIORITY||LS mean difference|-15.1|||<|0.0001|TWO_SIDED|95.0|-19.62|-10.5||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-10.50|-19.62|< 0.0001
92150749|NCT01557322|184187014|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Chi-squared|||Morning Stiffness \> 1 Hour: p-value was calculated using chi-square test.||||0.010
92212460|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|9.27||||0.002|TWO_SIDED|95.0|1.89|45.55||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||45.55|1.89|0.0020
92212461|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|6.42||||0.0141|TWO_SIDED|95.0|1.28|32.22||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||32.22|1.28|0.0141
92212462|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|1.93||||0.4485|TWO_SIDED|95.0|0.34|10.89||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||10.89|0.34|0.4485
92212463|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|3.3||||0.0235|TWO_SIDED|95.0|1.14|9.55||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||9.55|1.14|0.0235
92212464|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|3.29||||0.0252|TWO_SIDED|95.0|1.13|9.59||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||9.59|1.13|0.0252
92150750|NCT01557322|184187014|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Arthritis or Deformity of 3 or More Joint Areas: p-value was calculated using chi-square test.||||<0.001
92150751|NCT01557322|184187014|SUPERIORITY_OR_OTHER|||||||0.363|TWO_SIDED||||||Chi-squared|||Arthritis/Deformity of Hand/Joint: p-value was calculated using chi-square test.||||0.363
92150752|NCT01557322|184187014|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Symmetry: p-value was calculated using chi-square test.||||<0.001
92150753|NCT01557322|184187014|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Nodules: p-value was calculated using chi-square test.||||<0.001
92150754|NCT01557322|184187014|SUPERIORITY_OR_OTHER|||||||0.605|TWO_SIDED||||||Chi-squared|||Rheumatoid Factor Positive: p-value was calculated using chi-square test.||||0.605
92150755|NCT01557322|184187014|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Chi-squared|||Erosions on Hand or Feet X-Ray: p-value was calculated using chi-square test.||||0.038
92150756|NCT01557322|184187015|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Sicca Syndrome: p-value was calculated using chi-square test.||||<0.001
92150757|NCT01557322|184187015|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Chi-squared|||Serosal Involvement: p-value was calculated using chi-square test.||||0.024
92150758|NCT01557322|184187015|SUPERIORITY_OR_OTHER|||||||0.257|TWO_SIDED||||||Chi-squared|||Eye Involvement: p-value was calculated using chi-square test.||||0.257
92150759|NCT01557322|184187015|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||Chi-squared|||Systemic Vasculitis: p-value was calculated using chi-square test.||||0.026
92397742|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8808|TWO_SIDED|95.0|0.26|4.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.71|0.26|0.8808
92150760|NCT01557322|184187015|SUPERIORITY_OR_OTHER|||||||0.725|TWO_SIDED||||||Chi-squared|||Nailfold Vasculitis: p-value was calculated using chi-square test.||||0.725
92150761|NCT01557322|184187015|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Chi-squared|||Pulmonary Fibrosis: p-value was calculated using chi-square test.||||0.220
92150762|NCT01557322|184187015|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED||||||Chi-squared|||Other: p-value was calculated using chi-square test.||||0.620
92150763|NCT01557322|184187016|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Total Knee Replacement: p-value was calculated using chi-square test.||||<0.001
92150764|NCT01557322|184187016|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Total Hip Replacement: p-value was calculated using chi-square test.||||<0.001
92150765|NCT01557322|184187016|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Total Shoulder Replacement: p-value was calculated using chi-square test.||||<0.001
92150766|NCT01557322|184187016|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Total Elbow Replacement: p-value was calculated using chi-square test.||||<0.001
92150767|NCT01557322|184187016|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Chi-squared|||Wrist/Hand/Ankle/Foot Surgery: p-value was calculated using chi-square test.||||0.001
92150768|NCT01557322|184187016|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Neck Surgery: p-value was calculated using chi-square test.||||<0.001
92150769|NCT01557322|184187017|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||P-value was calculated using chi-square test.||||<0.001
92150770|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.381|TWO_SIDED||||||Chi-squared|||High Blood Pressure: p-value was calculated using chi-square test.||||0.381
92150771|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Chi-squared|||Angina: p-value was calculated using chi-square test.||||0.006
92150772|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.215|TWO_SIDED||||||Chi-squared|||Heart Attack: p-value was calculated using chi-square test.||||0.215
92397743|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|4.94||||0.157|TWO_SIDED|95.0|0.54|45.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||45.13|0.54|0.1570
92150773|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.117|TWO_SIDED||||||Chi-squared|||Stroke: p-value was calculated using chi-square test.||||0.117
92150774|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Epilepsy: p-value was calculated using chi-square test.||||1.000
92150775|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.542|TWO_SIDED||||||Chi-squared|||Asthma: p-value was calculated using chi-square test.||||0.542
92150776|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED||||||Chi-squared|||Chronic Bronchitis/Emphysema: p-value was calculated using chi-square test.||||0.027
92150777|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.566|TWO_SIDED||||||Chi-squared|||Peptic Ulcer: p-value was calculated using chi-square test.||||0.566
92150778|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Chi-squared|||Liver Disease: p-value was calculated using chi-square test.||||0.003
92397744|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.19||||0.3742|TWO_SIDED|95.0|0.39|12.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||12.26|0.39|0.3742
92150779|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.526|TWO_SIDED||||||Chi-squared|||Renal Disease: p-value was calculated using chi-square test.||||0.526
92150780|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.802|TWO_SIDED||||||Chi-squared|||Tuberculosis: p-value was calculated using chi-square test.||||0.802
92150781|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Demyelination: p-value was calculated using chi-square test.||||1.000
92150782|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.385|TWO_SIDED||||||Chi-squared|||Diabetes: p-value was calculated using chi-square test.||||0.385
92150783|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||Chi-squared|||Hyperthyroidism: p-value was calculated using chi-square test.||||0.048
92150784|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.308|TWO_SIDED||||||Chi-squared|||Depression: p-value was calculated using chi-square test.||||0.308
92150785|NCT01557322|184187018|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||Chi-squared|||Cancer: p-value was calculated using chi-square test.||||0.033
92150786|NCT01557322|184187019|SUPERIORITY_OR_OTHER|||||||0.188|TWO_SIDED||||||t-test, 2 sided|||P-value was calculated using 2-sided t-test.||||0.188
92212465|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|0.93||||0.9062|TWO_SIDED|95.0|0.27|3.14||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||3.14|0.27|0.9062
92212466|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|4.55||||0.0041|TWO_SIDED|95.0|1.57|13.19||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||13.19|1.57|0.0041
92212467|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|4.72||||0.0025|TWO_SIDED|95.0|1.66|13.39||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||13.39|1.66|0.0025
92212468|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|2.22||||0.1632|TWO_SIDED|95.0|0.73|6.76||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||6.76|0.73|0.1632
92150787|NCT01557322|184187020|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||t-test, 2 sided|||Systolic Blood Pressure: p-value was calculated using 2-sided t-test.||||0.016
92212469|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|4.09||||0.003|TWO_SIDED|95.0|1.57|10.65||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||10.65|1.57|0.0030
92212470|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|5.01||||0.0014|TWO_SIDED|95.0|1.8|13.91||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||13.91|1.80|0.0014
92212471|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|1.73||||0.3017|TWO_SIDED|95.0|0.62|4.82||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||4.82|0.62|0.3017
92212472|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|4.18||||0.0018|TWO_SIDED|95.0|1.67|10.48||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||10.48|1.67|0.0018
92212473|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|4.31||||0.0017|TWO_SIDED|95.0|1.69|10.99||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||10.99|1.69|0.0017
92212474|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|1.36||||0.5365|TWO_SIDED|95.0|0.52|3.55||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||3.55|0.52|0.5365
92212475|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8774|TWO_SIDED|95.0|0.46|2.46||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||2.46|0.46|0.8774
92397745|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|5.24||||0.1436|TWO_SIDED|95.0|0.57|48.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||48.26|0.57|0.1436
92150788|NCT01557322|184187020|SUPERIORITY_OR_OTHER|||||||0.369|TWO_SIDED||||||t-test, 2 sided|||Diastolic Blood Pressure: p-value was calculated using 2-sided t-test.||||0.369
92150789|NCT01557322|184187021|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||<0.001
92150790|NCT01557322|184187021|SUPERIORITY_OR_OTHER|||||||0.3746|TWO_SIDED||||||Regression, Linear|||Change at Month 60: p-value was calculated using multivariate linear regression with baseline DAS28 score and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||0.3746
92150791|NCT01557322|184187022|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||<0.001
92150792|NCT01557322|184187023|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||<0.001
92150793|NCT01557322|184187024|SUPERIORITY_OR_OTHER|||||||0.154|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||0.154
92212476|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7261|TWO_SIDED|95.0|0.5|2.7||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||2.70|0.50|0.7261
92212477|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|0.71||||0.4195|TWO_SIDED|95.0|0.31|1.63||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||1.63|0.31|0.4195
92212478|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9759|TWO_SIDED|95.0|0.42|2.31||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.31|0.42|0.9759
92212479|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6857|TWO_SIDED|95.0|0.51|2.81||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.81|0.51|0.6857
92212480|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|0.44||||0.0633|TWO_SIDED|95.0|0.19|1.04||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||1.04|0.19|0.0633
92212481|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|0.82||||0.6466|TWO_SIDED|95.0|0.36|1.88||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.88|0.36|0.6466
92212482|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9298|TWO_SIDED|95.0|0.41|2.23||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||2.23|0.41|0.9298
92150794|NCT01557322|184187025|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||0.108
92150795|NCT01557322|184187026|SUPERIORITY_OR_OTHER|||||||0.199|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||0.199
92150796|NCT01557322|184187027|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||P-value was calculated using 2-sided t-test.||||<0.001
92150797|NCT01557322|184187028|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||P-value was calculated using 2-sided t-test.||||<0.001
92150798|NCT01557322|184187030|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Current DMARDs, Methotrexate: p-value was calculated using chi-square test.||||<0.001
92150799|NCT01557322|184187030|SUPERIORITY_OR_OTHER|||||||0.313|TWO_SIDED||||||Chi-squared|||Current DMARDs, Azathioprine: p-value was calculated using chi-square test.||||0.313
92150800|NCT01557322|184187030|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Current DMARDs, Cyclophosphamide: p-value was calculated using chi-square test.||||1.000
92150801|NCT01557322|184187030|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED||||||Chi-squared|||Current DMARDs, Cyclosporine: p-value was calculated using chi-square test.||||0.066
92336652|NCT02559570|184576082|SUPERIORITY||Least Squares Mean Difference|-0.038|STANDARD_ERROR_OF_MEAN|0.246||0.877|TWO_SIDED|95.0|-0.525|0.448|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.448|-0.525|0.8770
92150802|NCT01557322|184187030|SUPERIORITY_OR_OTHER|||||||0.099|TWO_SIDED||||||Chi-squared|||Current DMARDs, Leflunomide: p-value was calculated using chi-square test.||||0.099
92150803|NCT01557322|184187030|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Current DMARDs, Sulphasalazine: p-value was calculated using chi-square test.||||<0.001
92150804|NCT01557322|184187030|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Previous DMARDs, Methotrexate: p-value was calculated using chi-square test.||||<0.001
92150805|NCT01557322|184187030|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Previous DMARDs, Azathioprine: p-value was calculated using chi-square test.||||<0.001
92212483|NCT03816891|184324400|SUPERIORITY||Odds Ratio (OR)|0.65||||0.3143|TWO_SIDED|95.0|0.29|1.49||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.49|0.29|0.3143
92150806|NCT01557322|184187030|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Previous DMARDs, Cyclophosphamide: p-value was calculated using chi-square test.||||<0.001
92150807|NCT01557322|184187030|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Previous DMARDs, Cyclosporine: p-value was calculated using chi-square test.||||<0.001
92150808|NCT01557322|184187030|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Previous DMARDs, Leflunomide: p-value was calculated using chi-square test.||||<0.001
92150809|NCT01557322|184187031|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||<0.001
92150810|NCT01557322|184187032|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Baseline PCS: p-value was calculated using 2-sided t-test.||||<0.001
92150811|NCT01557322|184187032|SUPERIORITY_OR_OTHER|||||||0.886|TWO_SIDED||||||t-test, 2 sided|||Baseline MCS: p-value was calculated using 2-sided t-test.||||0.886
92150812|NCT01557322|184187032|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||t-test, 2 sided|||Baseline Vitality Score: p-value was calculated using 2-sided t-test.||||0.680
92150813|NCT01557322|184187042|SUPERIORITY_OR_OTHER|||||||0.0233|TWO_SIDED||||||Chi-squared|||Month 6: p-value was calculated using chi-square test.||||0.0233
92150814|NCT01557322|184187042|SUPERIORITY_OR_OTHER|||||||0.5103|TWO_SIDED||||||Chi-squared|||Month 12: p-value was calculated using chi-square test.||||0.5103
92150815|NCT01557322|184187042|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED||||||Chi-squared|||Month 18: p-value was calculated using chi-square test.||||0.9990
92150816|NCT01557322|184187042|SUPERIORITY_OR_OTHER|||||||0.6495|TWO_SIDED||||||Chi-squared|||Month 24: p-value was calculated using chi-square test.||||0.6495
92150817|NCT01557322|184187042|SUPERIORITY_OR_OTHER|||||||0.3829|TWO_SIDED||||||Chi-squared|||Month 30: p-value was calculated using chi-square test.||||0.3829
92150818|NCT01557322|184187042|SUPERIORITY_OR_OTHER|||||||0.1085|TWO_SIDED||||||Chi-squared|||Month 36: p-value was calculated using chi-square test.||||0.1085
92150819|NCT01557322|184187042|SUPERIORITY_OR_OTHER|||||||0.0472|TWO_SIDED||||||Chi-squared|||Month 48: p-value was calculated using chi-square test.||||0.0472
92150820|NCT01557322|184187042|SUPERIORITY_OR_OTHER|||||||0.4804|TWO_SIDED||||||Chi-squared|||Month 60: p-value was calculated using chi-square test.||||0.4804
92150821|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.0895|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 6: p-value was calculated using chi-square test.||||0.0895
92150822|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.0774|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 12: p-value was calculated using chi-square test.||||0.0774
92150823|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 18: p-value was calculated using chi-square test.||||0.0024
92150824|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.5552|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 30: p-value was calculated using chi-square test.||||0.5552
92150825|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.0793|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 36: p-value was calculated using chi-square test.||||0.0793
92150826|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.0075|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 48: p-value was calculated using chi-square test.||||0.0075
92212484|NCT03816891|184324401|SUPERIORITY|||||||0.1656||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||||0.1656
92150827|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.0895|TWO_SIDED||||||Chi-squared|||Hodgkins Lymphoma, Month 6: p-value was calculated using chi-square test.||||0.0895
92212485|NCT03816891|184324401|SUPERIORITY|||||||0.3026||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||||0.3026
92150828|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Chi-squared|||Hodgkins Lymphoma, Month 18: p-value was calculated using chi-square test.||||0.0024
92150829|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.6301|TWO_SIDED||||||Chi-squared|||Hodgkins Lymphoma, Month 30: p-value was calculated using chi-square test.||||0.6301
92150830|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.0793|TWO_SIDED||||||Chi-squared|||Hodgkins Lymphoma, Month 36: p-value was calculated using chi-square test.||||0.0793
92150831|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.0075|TWO_SIDED||||||Chi-squared|||Hodgkins Lymphoma, Month 48: p-value was calculated using chi-square test.||||0.0075
92150832|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.7253|TWO_SIDED||||||Chi-squared|||Myeloma, Month 12: p-value was calculated using chi-square test.||||0.7253
92150833|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.7336|TWO_SIDED||||||Chi-squared|||Myeloma, Month 30: p-value was calculated using chi-square test.||||0.7336
92150834|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.0044|TWO_SIDED||||||Chi-squared|||Leukaemia, Month 12: p-value was calculated using chi-square test.||||0.0044
92150835|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.4175|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 6: p-value was calculated using chi-square test.||||0.4175
92150836|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.3886|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 12: p-value was calculated using chi-square test.||||0.3886
92150837|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.5102|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 18: p-value was calculated using chi-square test.||||0.5102
92150838|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.9855|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 24: p-value was calculated using chi-square test.||||0.9855
92150839|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.4955|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 30: p-value was calculated using chi-square test.||||0.4955
92150840|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.5404|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 36: p-value was calculated using chi-square test.||||0.5404
92150841|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.3581|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 48: p-value was calculated using chi-square test.||||0.3581
92150842|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.4932|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 6: p-value was calculated using chi-square test.||||0.4932
92150843|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.4818|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 12: p-value was calculated using chi-square test.||||0.4818
92150844|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.3224|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 18: p-value was calculated using chi-square test.||||0.3224
92150845|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.5003|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 24: p-value was calculated using chi-square test.||||0.5003
92150846|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.1134|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 30: p-value was calculated using chi-square test.||||0.1134
92150847|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.3488|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 36: p-value was calculated using chi-square test.||||0.3488
92150848|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.187|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 48: p-value was calculated using chi-square test.||||0.1870
92150849|NCT01557322|184187043|SUPERIORITY_OR_OTHER|||||||0.427|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 60: p-value was calculated using chi-square test.||||0.4270
92150850|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.5817|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 6: p-value was calculated using chi-square test.||||0.5817
92150851|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.2595|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 12: p-value was calculated using chi-square test.||||0.2595
92150852|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.5642|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 18: p-value was calculated using chi-square test.||||0.5642
92150853|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.0034|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 24: p-value was calculated using chi-square test.||||0.0034
92212486|NCT03816891|184324401|SUPERIORITY|||||||0.3442||||||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||||0.3442
92397746|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|5.57||||0.1277|TWO_SIDED|95.0|0.61|50.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||50.77|0.61|0.1277
92150854|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.7137|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 36: p-value was calculated using chi-square test.||||0.7137
92150855|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.963|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 60: p-value was calculated using chi-square test.||||0.9630
92150856|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.7353|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 6: p-value was calculated using chi-square test.||||0.7353
92150857|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.3829|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 12: p-value was calculated using chi-square test.||||0.3829
92150858|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.4532|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 18: p-value was calculated using chi-square test.||||0.4532
92150859|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.4238|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 24: p-value was calculated using chi-square test.||||0.4238
92150860|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.1218|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 30: p-value was calculated using chi-square test.||||0.1218
92212487|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|4.6||||0.1641|TWO_SIDED|95.0|0.47|45.07||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||45.07|0.47|0.1641
92212488|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|2.24||||0.5103|TWO_SIDED|95.0|0.2|25.61||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||25.61|0.20|0.5103
92212489|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|2.03||||0.5457|TWO_SIDED|95.0|0.19|22.02||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||22.02|0.19|0.5457
92212490|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|4.24||||0.0722|TWO_SIDED|95.0|0.8|22.44||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||22.44|0.80|0.0722
92212491|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|2.85||||0.2215|TWO_SIDED|95.0|0.51|16.01||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||16.01|0.51|0.2215
92212492|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|0.42||||0.4872|TWO_SIDED|95.0|0.03|5.06||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||5.06|0.03|0.4872
92212493|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|3.03||||0.055|TWO_SIDED|95.0|0.95|9.68||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||9.68|0.95|0.0550
92212494|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|1.79||||0.3519|TWO_SIDED|95.0|0.52|6.1||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||6.10|0.52|0.3519
92150861|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.4124|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 36: p-value was calculated using chi-square test.||||0.4124
92150862|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.6356|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 48: p-value was calculated using chi-square test.||||0.6356
92150863|NCT01557322|184187044|SUPERIORITY_OR_OTHER|||||||0.5491|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 60: p-value was calculated using chi-square test.||||0.5491
92150864|NCT01557322|184187045|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||P-value was calculated using multivariate linear regression with baseline DAS28 score and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||<0.0001
92150865|NCT01557322|184187046|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||P-value was calculated using multivariate linear regression with baseline HAQ-DI score and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||<0.0001
92150866|NCT01557322|184187047|SUPERIORITY_OR_OTHER|||||||0.2558|TWO_SIDED||||||Regression, Linear|||PCS: p-value was calculated using multivariate linear regression with baseline PCS and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||0.2558
92150867|NCT01557322|184187047|SUPERIORITY_OR_OTHER|||||||0.4908|TWO_SIDED||||||Regression, Linear|||MCS: p-value was calculated using multivariate linear regression with baseline MCS and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||0.4908
92150868|NCT01557322|184187047|SUPERIORITY_OR_OTHER|||||||0.8379|TWO_SIDED||||||Regression, Linear|||Vitality Score: p-value was calculated using multivariate linear regression with baseline vitality score and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||0.8379
92150869|NCT01552954|184187107|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||for albuminuria changes from week 8 at week 16 (week 8 - week 16)|t-test, 2 sided|||Differences with two-tailed P\<0.05 were considered statistically significant.||||0.006
92150870|NCT01552954|184187107|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED|||||for 24-hour urine albumin excretion between 8 weeks and 16 weeks|Mixed Models Analysis|||||||0.99
92150871|NCT01552954|184187107|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||for 24-hour urine albumin excretion between 8 weeks and 16 weeks in intensive education group|Mixed Models Analysis|||||||0.001
92150872|NCT01552954|184187108|SUPERIORITY_OR_OTHER|||||||0.187|TWO_SIDED|||||for hemoglobin changes from week 0 at week 16 (week 0 - week 16)|t-test, 2 sided|||||||0.187
92150873|NCT01552954|184187109|SUPERIORITY_OR_OTHER|||||||0.001||||||for changes from week 8 at week 16 (week 8 - week 16)|t-test, 2 sided|||||||0.001
92150874|NCT01552954|184187110|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||for sBP changes from week 8 at week 16 (week 8 - week 16)|t-test, 2 sided|||||||>0.05
92150875|NCT01552954|184187110|SUPERIORITY_OR_OTHER|||||||0.585|TWO_SIDED|||||for dBP changes from week 8 at week 16 (week 8 - week 16)|t-test, 2 sided|||||||0.585
92150876|NCT01395823|184187115|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Mixed Models Analysis|||||||0.78
92150877|NCT03300570|184187119|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
92150878|NCT00116272|184187122|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.77|||||TWO_SIDED|95.0|1.04|7.35|||||Adjusted oddds ratio for major structural defects in women exposed to etanercept in their 1st trimester versus not exposed computed using logistic regression adjusted for propensity score comprised of asthma and maternal height|||7.35|1.04|
92212495|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|0.86||||0.8266|TWO_SIDED|95.0|0.22|3.34||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||3.34|0.22|0.8266
92212496|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|7.99||||0.0009|TWO_SIDED|95.0|2.11|30.3||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||30.30|2.11|0.0009
92212497|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|4.93||||0.0116|TWO_SIDED|95.0|1.32|18.39||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||18.39|1.32|0.0116
92212498|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|2.5||||0.2127|TWO_SIDED|95.0|0.59|10.6||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||10.60|0.59|0.2127
92150879|NCT00116272|184187123|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.37|||||TWO_SIDED|95.0|1.02|5.52|||||Adjusted oddds ratio for major structural defects in women exposed to etanercept in their 1st trimester versus not exposed computed using logistic regression adjusted for propensity score comprised of asthma and maternal height|||5.52|1.02|
92150880|NCT00116272|184187124|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.7|2.01|||||Unadjusted Odds Ratio computed using logistic regression. No adjusted estimate was computed due to no confirmed confounder.|||2.01|0.70|
92150881|NCT00116272|184187126|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.2|1.12|||||Adjusted HR computed using Cox proportional hazards regression adjusted for propensity score comprised of referral source (3 categories: OTIS, Pharmaceutical Company/Sponsor/HCP, Patient Support Group/Internet/Other), and maternal height.|||1.12|0.20|
92150882|NCT00116272|184187127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.6|||||TWO_SIDED|95.0|0.86|2.98|||||Adjusted HR computed using Cox proportional hazards regression adjusted for preeclampsia|||2.98|0.86|
92150883|NCT00116272|184187128|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|-0.2|||||TWO_SIDED|95.0|-0.65|0.26|||||Computed using linear regression, directly adjusted for referral source (not collapsed), vitamin use (not collapsed), preeclampsia, and asthma because propensity score adjustment was not balanced.|||0.26|-0.65|
92150884|NCT00116272|184187129|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|21.79|||||TWO_SIDED|95.0|-83.32|126.91|||||Computed using linear regression, directly adjusted for asthma, RA2 severity score at 32 weeks, and disease severity score imputation indicator because propensity score adjustment was not balanced.|||126.91|-83.32|
92150885|NCT00116272|184187130|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|0.1|||||TWO_SIDED|95.0|-0.44|0.63|||||Computed using linear regression, adjusted for propensity score comprised of preeclampsia and asthma.|||0.63|-0.44|
92150886|NCT00116272|184187131|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|-0.09|||||TWO_SIDED|95.0|-0.43|0.26|||||Computed using linear regression, adjusted for maternal age (categorical).|||0.26|-0.43|
92150887|NCT00116272|184187132|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.48|||||TWO_SIDED|95.0|0.22|1.05|||||Computed using logistic regression, adjusted for propensity score comprised of maternal height, referral source (OTIS, Sponsor/HCP, Patient Support Group/Internet/Other), PsO disease severity score at 32 weeks, \& disease severity imputation indicator|||1.05|0.22|
92150888|NCT00116272|184187133|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.72|||||TWO_SIDED|95.0|0.31|1.68|||||Unadjusted Odds Ratio computed using logistic regression. An adjusted estimate was not computed due to the small number of events.|||1.68|0.31|
92150889|NCT00116272|184187134|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.4|1.57|||||Computed using logistic regression, adjusted for propensity score comprised of maternal height, referral source (OTIS, Sponsor/HCP, Patient Support Group/Internet/Other), PsO disease severity score at 32 weeks, \& disease severity imputation indicator|||1.57|0.40|
92150890|NCT00116272|184187135|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|0.2|||||TWO_SIDED|95.0|-7.59|7.99|||||Computed using linear regression, adjusted for propensity score comprised of maternal height, vitamin use, primary disease, RA disease severity score at 32 weeks, PsO disease severity score at intake \& 32 weeks, disease severity imputation indicators|||7.99|-7.59|
92150891|NCT00116272|184187136|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|1.53|||||TWO_SIDED|95.0|-5.76|8.81|||||Computed using linear regression, adjusted for propensity score comprised of maternal height, maternal age (categorical), and referral source (3 categories: OTIS, Pharmaceutical Company/Sponsor/HCP, Patient Support Group/Internet/Other).|||8.81|-5.76|
92150892|NCT00116272|184187137|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|0.27|||||TWO_SIDED|95.0|-6.12|6.65|||||Computed using linear regression. Directly adjusted for infant sex and other autoimmune diseases because propensity score adjustment was not balanced.|||6.65|-6.12|
92150893|NCT00116272|184187138|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.37|1.62|||||Computed using logistic regression, adjusted for propensity score comprised of maternal height, RA disease severity score at 32 weeks, and disease severity score imputation indicator.|||1.62|0.37|
92150894|NCT00116272|184187139|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17|||||TWO_SIDED|95.0|0.43|3.14|||||Computed using logistic regression, adjusted for propensity score comprised of country (U.S., Canada), primary disease, and maternal height.|||3.14|0.43|
92150895|NCT00116272|184187140|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.29|2.65|||||Unadjusted Odds Ratio computed using logistic regression. An adjusted estimate was not computed due to the small number of events.|||2.65|0.29|
92150896|NCT00116272|184187141|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.47|4.02|||||Unadjusted Odds Ratio computed using logistic regression. An adjusted estimate was not computed due to no confirmed confounder.|||4.02|0.47|
92150897|NCT00116272|184187143|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.65|1.69|||||Unadjusted Odds Ratio computed using logistic regression. An adjusted estimate was not computed due to no confirmed confounder.|||1.69|0.65|
92150898|NCT02296190|184187151|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||Statistical analysis was performed with the Fisher's exact test to compare the conversion rate between the MSP-2017 groups and the placebo group.||||<0.05
92150899|NCT00717314|184187164|SUPERIORITY_OR_OTHER|||||||0.494|||||||ANOVA|||||||0.494
92150900|NCT00717314|184187167|SUPERIORITY_OR_OTHER|||||||0.374|||||||ANOVA|||Between group comparison at Baseline||||0.374
92150901|NCT00717314|184187167|SUPERIORITY_OR_OTHER|||||||0.685||||||Analysis of covariance (ANCOVA) model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 16||||0.685
92150902|NCT00717314|184187167|SUPERIORITY_OR_OTHER|||||||0.722||||||ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 28||||0.722
92150903|NCT00717314|184187167|SUPERIORITY_OR_OTHER|||||||0.432||||||ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 40||||0.432
92150904|NCT00717314|184187168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-5.342|5.561||||||||5.561|-5.342|
92150905|NCT00717314|184187169|SUPERIORITY_OR_OTHER|||||||0.616||||||ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 16||||0.616
92150906|NCT00717314|184187169|SUPERIORITY_OR_OTHER|||||||0.334||||||ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 28||||0.334
92150907|NCT00717314|184187169|SUPERIORITY_OR_OTHER|||||||0.267||||||ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 40||||0.267
92150908|NCT00717314|184187169|SUPERIORITY_OR_OTHER|||||||0.764|||||||ANCOVA|ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.||Change from Baseline at Week 52||||0.764
92150909|NCT00717314|184187170|SUPERIORITY_OR_OTHER|||||||1|||||||ANCOVA|||||||1.000
92150910|NCT05096208|184187171|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.858|1.169|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in least-square (LS) means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV A||1.169|0.858|
92150911|NCT05096208|184187171|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.05|||||TWO_SIDED|95.0|0.9|1.215|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV A||1.215|0.900|
92150912|NCT05096208|184187171|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.886|1.232|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV A||1.232|0.886|
92150913|NCT05096208|184187171|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.07|||||TWO_SIDED|95.0|0.905|1.261|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV B||1.261|0.905|
92150914|NCT05096208|184187171|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.13|||||TWO_SIDED|95.0|0.953|1.336|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV B||1.336|0.953|
92150915|NCT05096208|184187171|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.06|||||TWO_SIDED|95.0|0.884|1.262|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV B||1.262|0.884|
92150916|NCT01483937|184187181|SUPERIORITY_OR_OTHER|||||||0.533||95.0|||||ANOVA|||||||.533
92150917|NCT00116844|184187200|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Nonparametric tests-Wilcoxon Rank Sum|||||||<0.001
92150918|NCT00116844|184187201|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Nonparametric tests-Wilcoxon Rank Sum|||||||<0.001
92150919|NCT00116844|184187202|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Prescott's method|||||||<0.001
92150920|NCT00116844|184187203|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Nonparametric tests-Wilcoxon Rank Sum|||||||0.800
92150921|NCT00116844|184187204|SUPERIORITY_OR_OTHER|||||||0.229||95.0|||||Nonparametric tests-Wilcoxon Rank Sum|||||||0.229
92150922|NCT00116844|184187205|SUPERIORITY_OR_OTHER|||||||0.0331||95.0|||||Prescott's method|||||||0.0331
92150923|NCT00926003|184187206|SUPERIORITY|||||||0.02|||||||ANCOVA|||Least Square Means from Longitudinal Model, Their Standard Errors by Trial Arm Adjusted for Age, Being on ART at Intake, Socioeconomic Score, Home Score, Recruitment Location, KABC Learning and Delayed Recall Scores at Baseline, and Outcome Score at Baseline||||0.02
92150924|NCT00926003|184187207|SUPERIORITY|||||||0.18|||||||ANCOVA|||Least Square Means from Longitudinal Model, Their Standard Errors by Trial Arm Adjusted for Age, Being on ARV at Intake, Socioeconomic Score, Home Score, Recruitment Location, KABC Learning and Delayed Recall Scores at Baseline, and Outcome Score at Baseline||||0.18
92150925|NCT03017235|184187306|NON_INFERIORITY|The NI margin for the difference between treatments (NaP/MC Oral Solution minus PREPOPIK) was pre-specified at -8% (absolute). If NI was demonstrated for both the primary efficacy endpoint and the secondary efficacy endpoint for the right colon, and if the lower bound of the CI was above 0%, then superiority was declared for the primary endpoint. Thus, the pre-specified superiority analysis was conducted at a one-sided significance level of 2.5%.|Difference in percentage|6.3||||0.0067|TWO_SIDED|95.0|1.8|10.9||The above p-value was calculated for superiority and was based on the stratified percentage difference test, where the stratification weight is based on Cochran-Mantel-Haenszel-weight.|Weighted Percentage Difference|CIs (treatment difference) were calculated using stratified (by site) percentage difference where, weights= Cochran-Mantel-Haenszel weights for site||Difference in the percentage of subjects on NaP/MC or PREPOPIK (NaP/MC - PREPOPIK)|Lower limit of 95% CI \> 0% for the primary efficacy endpoint combined with outcome of secondary efficacy endpoint for the right colon allowed for superiority analysis.|10.9|1.8|0.0067
92212499|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|7.0||||0.0006|TWO_SIDED|95.0|2.17|22.61||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||22.61|2.17|0.0006
92212500|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|4.61||||0.0061|TWO_SIDED|95.0|1.47|14.43||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||14.43|1.47|0.0061
92212501|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|2.08||||0.2317|TWO_SIDED|95.0|0.62|6.9||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||6.90|0.62|0.2317
92212502|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|3.65||||0.0093|TWO_SIDED|95.0|1.36|9.81||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||9.81|1.36|0.0093
92212503|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|3.26||||0.0183|TWO_SIDED|95.0|1.21|8.8||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||8.80|1.21|0.0183
92212504|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7648|TWO_SIDED|95.0|0.4|3.45||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||3.45|0.40|0.7648
92212505|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|1.54||||0.337|TWO_SIDED|95.0|0.65|3.68||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||3.68|0.65|0.3370
92212506|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|1.34||||0.5054|TWO_SIDED|95.0|0.57|3.16||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||3.16|0.57|0.5054
92212507|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|0.49||||0.1341|TWO_SIDED|95.0|0.19|1.24||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||1.24|0.19|0.1341
92212508|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9628|TWO_SIDED|95.0|0.43|2.25||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.25|0.43|0.9628
92212509|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9185|TWO_SIDED|95.0|0.46|2.39||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.39|0.46|0.9185
92212510|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|0.42||||0.0496|TWO_SIDED|95.0|0.18|1.0||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||1.00|0.18|0.0496
92212511|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|0.89||||0.7785|TWO_SIDED|95.0|0.38|2.04||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||2.04|0.38|0.7785
92212512|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|0.94||||0.8857|TWO_SIDED|95.0|0.42|2.13||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||2.13|0.42|0.8857
92168528|NCT04878354|184226845|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.0499|TWO_SIDED|95.0|0.0|0.41|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.41|0.00|0.0499
92212513|NCT03816891|184324401|SUPERIORITY||Odds Ratio (OR)|0.71||||0.4174|TWO_SIDED|95.0|0.31|1.62||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.62|0.31|0.4174
92212514|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|2.02||||0.5673|TWO_SIDED|95.0|0.18|22.87||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||22.87|0.18|0.5673
92212515|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|3.17||||0.3139|TWO_SIDED|95.0|0.31|32.21||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||32.21|0.31|0.3139
92212516|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|1.88||||0.6197|TWO_SIDED|95.0|0.16|22.83||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 2||22.83|0.16|0.6197
92212517|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|6.95||||0.048|TWO_SIDED|95.0|0.8|60.25||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||60.25|0.80|0.0480
92212518|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|5.44||||0.0945|TWO_SIDED|95.0|0.62|48.12||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||48.12|0.62|0.0945
92212519|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|4.29||||0.1745|TWO_SIDED|95.0|0.45|40.6||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 4||40.60|0.45|0.1745
92212520|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|5.49||||0.0233|TWO_SIDED|95.0|1.1|27.25||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||27.25|1.10|0.0233
92150926|NCT03017235|184187307|NON_INFERIORITY|If the lower limit of the 95% CI was greater than the margin (-8%), the null hypothesis was rejected and NaP/MC Oral Solution was claimed as non-inferior to PREPOPIK with respect to right colon cleansing in preparation for colonoscopy.|Difference in percentage|4.6||||0.0099|TWO_SIDED|95.0|1.1|8.0||The p-value was calculated for superiority and was based on the stratified percentage difference test, where the stratification weight is based on Cochran-Mantel-Haenszel-weight.|Weighted Percentage Difference|CIs (treatment difference) were calculated using stratified (by site) percentage difference where, weights= Cochran-Mantel-Haenszel weights for site||Difference in the percentage of subjects on NaP/MC or PREPOPIK (NaP/MC - PREPOPIK)||8.0|1.1|0.0099
92150927|NCT03017235|184187308|NON_INFERIORITY|If the lower limit of the 95% CI was greater than the margin (-8%), the null hypothesis was rejected and NaP/MC Oral Solution was claimed as non-inferior to PREPOPIK with respect to right colon cleansing in preparation for colonoscopy.|Difference in percentage|1.9||||0.1781|TWO_SIDED|95.0|-0.9|4.7||The above p-value was tested for superiority and was based on the stratified percentage difference test, where the stratification weight is based on Cochran Mantel Haenszel weight.|Weighted Percentage Difference|CIs (treatment difference) were calculated using stratified (by site) percentage difference where, weights= Cochran-Mantel-Haenszel weights for site||Difference in percentage of subjects on NaP/MC Oral Solution or PREPOPIK® (NaP/MC - PREPOPIK)||4.7|-0.9|0.1781
92150928|NCT03017235|184187309|NON_INFERIORITY|If the lower limit of the 95% CI was greater than the margin (-8%), the null hypothesis was rejected and NaP/MC Oral Solution was claimed as non-inferior to PREPOPIK with respect to colon cleansing in preparation for colonoscopy.|Difference in percentage|3.5||||0.0391|TWO_SIDED|95.0|0.2|6.7||The above p-value was for superiority and was based on the stratified percentage difference, where the stratification weight is based on Cochran-Mantel-Haenszel weight.|Weighted Percentage Difference|CIs (treatment difference) were calculated using stratified (by site) percentage difference where, weights= Cochran-Mantel-Haenszel weights for site||Difference in percentage of subjects on NaP/MC Oral Solution or PREPOPIK® (NaP/MC-PREPOPIK®)||6.7|0.2|0.0391
92150929|NCT03518658|184187329|SUPERIORITY||Mean Difference (Final Values)|34.7|||<|0.001|TWO_SIDED|95.0|32.4|37.0||The threshold for statistical significance was 0.025.|Generalized estimating equation model|||||37.0|32.4|<0.001
92150930|NCT03518658|184187329|SUPERIORITY||Mean Difference (Final Values)|38.3|||<|0.001|TWO_SIDED|95.0|34.8|41.9||The threshold for statistical significance was 0.025.|Generalized estimating equation model|||||41.9|34.8|<0.001
92150931|NCT00649389|184187331|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92150932|NCT00649389|184187331|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92150933|NCT00649389|184187331|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92150934|NCT00649389|184187332|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Each p-value was obtained from individual Cochran-Mantel-Haenszel tests stratified by age group, race group, and diabetic status comparing the triple combination therapy to each dual combination.||||<0.0001
92397747|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|0.75||||0.6689|TWO_SIDED|95.0|0.2|2.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||2.81|0.20|0.6689
92150935|NCT00649389|184187332|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Each p-value was obtained from individual Cochran-Mantel-Haenszel tests stratified by age group, race group, and diabetic status comparing the triple combination therapy to each dual combination.||||<0.0001
92150936|NCT00649389|184187332|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Each p-value was obtained from individual Cochran-Mantel-Haenszel tests stratified by age group, race group, and diabetic status comparing the triple combination therapy to each dual combination.||||<0.0001
92150937|NCT00649389|184187333|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Diastolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92150938|NCT00649389|184187333|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Diastolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92212521|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|3.21||||0.1422|TWO_SIDED|95.0|0.63|16.53||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||16.53|0.63|0.1422
92212522|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|1.92||||0.481|TWO_SIDED|95.0|0.31|11.77||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 8||11.77|0.31|0.4810
92397748|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.2||||0.8019|TWO_SIDED|95.0|0.29|4.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.95|0.29|0.8019
92212523|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|2.83||||0.0628|TWO_SIDED|95.0|0.93|8.6||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||8.60|0.93|0.0628
92212524|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|2.34||||0.1149|TWO_SIDED|95.0|0.8|6.87||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||6.87|0.80|0.1149
92397749|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9591|TWO_SIDED|95.0|0.23|4.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.05|0.23|0.9591
92150939|NCT00649389|184187333|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|||Diastolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||0.0001
92150940|NCT00649389|184187333|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Systolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92150941|NCT00649389|184187333|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Systolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92150942|NCT00649389|184187333|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Systolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92150943|NCT00649389|184187334|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92150944|NCT00649389|184187334|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92150945|NCT00649389|184187334|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
92150946|NCT02608489|184187341|SUPERIORITY_OR_OTHER|||||||0.221|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.221
92150947|NCT02608489|184187341|SUPERIORITY_OR_OTHER|||||||0.015|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 12 follow-up.||||0.015
92150948|NCT02608489|184187342|SUPERIORITY_OR_OTHER|||||||0.256|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.256
92150949|NCT02608489|184187342|SUPERIORITY_OR_OTHER|||||||0.025|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at Postoperative week 12 follow-up.||||0.025
92150950|NCT02608489|184187343|SUPERIORITY_OR_OTHER|||||||0.08|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.080
92150951|NCT02608489|184187343|SUPERIORITY_OR_OTHER|||||||0.021|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 12 follow-up.||||0.021
92150952|NCT02608489|184187344|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||<0.001
92150953|NCT02608489|184187344|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 4||||<0.001
92150954|NCT02608489|184187344|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 12||||<0.001
92150955|NCT02608489|184187345|SUPERIORITY_OR_OTHER|||||||0.045|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.045
92212525|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9726|TWO_SIDED|95.0|0.3|3.48||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 12||3.48|0.30|0.9726
92212526|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|3.76||||0.0134|TWO_SIDED|95.0|1.28|11.0||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||11.00|1.28|0.0134
92212527|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|3.31||||0.0148|TWO_SIDED|95.0|1.21|9.06||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||9.06|1.21|0.0148
92150956|NCT02608489|184187346|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.001
92150957|NCT02608489|184187346|SUPERIORITY_OR_OTHER|||||||0.002|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 4||||0.002
92150958|NCT02608489|184187346|SUPERIORITY_OR_OTHER|||||||0.034|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 12||||0.034
92150959|NCT02608489|184187347|SUPERIORITY_OR_OTHER|||||||0.151|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.151
92150960|NCT01077362|184187422|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150961|NCT01077362|184187422|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150962|NCT01077362|184187422|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150963|NCT01077362|184187423|SUPERIORITY_OR_OTHER|||||||0.002|||||||re-randomization test|||||||0.002
92397750|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.33||||0.3364|TWO_SIDED|95.0|0.42|13.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||13.06|0.42|0.3364
92150964|NCT01077362|184187423|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150965|NCT01077362|184187423|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150966|NCT01077362|184187424|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150967|NCT01077362|184187424|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150968|NCT01077362|184187424|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150969|NCT01077362|184187425|SUPERIORITY_OR_OTHER|||||||0.018|||||||re-randomization test|||||||0.018
92150970|NCT01077362|184187425|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150971|NCT01077362|184187425|SUPERIORITY_OR_OTHER|||||||0.002|||||||re-randomization test|||||||0.002
92150972|NCT01077362|184187426|SUPERIORITY_OR_OTHER|||||||0.017|||||||re-randomization test|||||||0.017
92150973|NCT01077362|184187426|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150974|NCT01077362|184187426|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92150975|NCT01077362|184187427|SUPERIORITY_OR_OTHER|||||||0.171|||||||re-randomization|||||||0.171
92150976|NCT01077362|184187427|SUPERIORITY_OR_OTHER|||||||0.06|||||||re-randomization test|||||||0.060
92150977|NCT01077362|184187427|SUPERIORITY_OR_OTHER|||||||0.094|||||||re-randomization|||||||0.094
92150978|NCT03587142|184187450|SUPERIORITY||Mean Difference (Net)|-0.11||||0.69|TWO_SIDED|95.0|-0.68|0.45||Nominal P value. Power was determined at a level of P=0.05.|ANCOVA|Multiple imputation using regression and 50 datasets to estimate the outcome for the 18/96 (19%) randomized patients without the f4 visit data.||Primary outcome analysis uses a difference of differences analysis between Buspirone compared to the Placebo arm in which the adjusted mean difference of differences, Wald 95% Confidence interval and 2-sided P values are determined from a Wald Chi-Square test. Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Negative change indicates symptom improvement.||0.45|-0.68|0.69
92150979|NCT03587142|184187450|SUPERIORITY||Mean Difference (Net)|-0.13||||0.62|TWO_SIDED|95.0|-0.65|0.39||P value is nominal; no adjustments made from multiple comparisons. Bonferroni p-value for the 10 sensitivity outcomes is \<0.005.|ANCOVA|||Sensitivity analysis of change from a baseline in ES/PPF (Early Satiety/Postprandial Fullness subscore) using all completers: 39 participants in Buspirone arm, 39 participants in placebo arm.||0.39|-0.65|0.62
92150980|NCT03587142|184187450|SUPERIORITY||Mean Difference (Net)|-0.25||||0.62|TWO_SIDED|95.0|-0.89|0.38||P value is nominal; no adjustments made for multiple comparisons. Bonferroni p-value for the 10 sensitivity outcomes is \<0.005|ANCOVA|||Sensitivity analyses: change in ES/PPF in treatment adherent patients: 23 participants in Buspirone arm, 29 patients in placebo arm.||0.38|-0.89|0.62
92150981|NCT03587142|184187451|SUPERIORITY||Mean Difference (Net)|-0.09||||0.76|TWO_SIDED|95.0|-0.69|0.5||Nominal P value reported. Bonferroni p-value for the 10 sensitivity outcomes is \<0.005|ANCOVA|||The mean difference of differences (DoD) between Buspirone and Placebo, 95% confidence interval and P (2-sided) were derived from an ANCOVA, regressing an indicator for treatment group on fullness severity score, adjusting for the baseline value of fullness severity score.||0.50|-0.69|0.76
92150982|NCT03587142|184187452|SUPERIORITY||Mean Difference (Net)|-0.15||||0.64|TWO_SIDED|95.0|-0.76|0.47||Nominal P values; Bonferroni p value for the 10 sensitivity outcomes is \<0.005|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.47|-0.76|0.64
92212528|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|2.21||||0.1611|TWO_SIDED|95.0|0.73|6.71||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 16||6.71|0.73|0.1611
92212529|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|3.72||||0.0061|TWO_SIDED|95.0|1.44|9.6||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||9.60|1.44|0.0061
92397751|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.2||||0.3698|TWO_SIDED|95.0|0.39|12.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.32|0.39|0.3698
92397752|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|4.92||||0.1587|TWO_SIDED|95.0|0.54|45.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||45.01|0.54|0.1587
92397753|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|5.5||||0.13|TWO_SIDED|95.0|0.61|50.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||50.06|0.61|0.1300
92150983|NCT03587142|184187453|SUPERIORITY||Mean Difference (Net)|-0.14||||0.66|TWO_SIDED|95.0|-0.79|0.5||P values are nominal; Bonferroni p-value for the 10 sensitivity outcomes is \<0.005|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.50|-0.79|0.66
92150984|NCT03587142|184187454|SUPERIORITY||Mean Difference (Net)|-0.12||||0.7|TWO_SIDED|95.0|-0.75|0.5||Nominal P values; Bonferroni p-value for the 10 sensitivity outcomes is \<0.005|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (s-sided) determined from a Wald Chi-Square test.||0.50|-0.75|0.70
92150985|NCT03587142|184187455|SUPERIORITY||Mean Difference (Net)|-0.2||||0.4|TWO_SIDED|95.0|-0.66|0.27||P value is nominal; no adjustments made for multiple comparisons. Bonferrini p-value is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) of change in outcome from baseline and 95% Confidence Intervals were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. P (2-sided) were determined from a Wald Chi-Square test.||0.27|-0.66|0.40
92150986|NCT03587142|184187455|SUPERIORITY||Odds Ratio (OR)|1.31||||0.56|TWO_SIDED|95.0|0.53|3.21||Nominal P value without adjustment for multiple comparisons. Bonferroni threshold for level of significance is \<0.002.|Regression, Logistic|Odds ratio, 95% C.I. and P (two-sided) from a logistic regression of the binary outcome on treatment group for symptomatic improvement in GCSI.||GCSI symptomatic improvement of 1+ points in total GCSI symptom score defined as change in GCSI total score at week 4 from baseline being a decrease of 1 or more points. This is a binary variable where 1=1+ reduction in change in GCSI total score, 0=change in GCSI total score from baseline at 4-weeks is \< 1.0.||3.21|0.53|0.56
92150987|NCT03587142|184187456|SUPERIORITY||Mean Difference (Net)|-0.05||||0.86|TWO_SIDED|95.0|-0.58|0.48||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Squares test.||0.48|-0.58|0.86
92150988|NCT03587142|184187457|SUPERIORITY||Mean Difference (Net)|-0.06||||0.85|TWO_SIDED|95.0|-0.64|0.53||P value is nominal; no adjustments made for multiple comparisons. Bonferroni p-value is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald-Chi Square test.||0.53|-0.64|0.85
92150989|NCT03587142|184187458|SUPERIORITY||Mean Difference (Net)|-0.14||||0.65|TWO_SIDED|95.0|-0.76|0.47||P value is nominal; no adjustments made for multiple comparisons. Bonferroni p-value is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test||0.47|-0.76|0.65
92150990|NCT03587142|184187459|SUPERIORITY||Mean Difference (Net)|-0.41||||0.16|TWO_SIDED|95.0|-0.99|0.16||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.16|-0.99|0.16
92150991|NCT03587142|184187460|SUPERIORITY||Mean Difference (Net)|-0.65||||0.03|TWO_SIDED|95.0|-1.23|-0.08||P values are nominal; no adjustments made for multiple comparisons.|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||-0.08|-1.23|0.03
92150992|NCT03587142|184187461|SUPERIORITY||Mean Difference (Net)|0.17||||0.59|TWO_SIDED|95.0|-0.44|0.77||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.77|-0.44|0.59
92150993|NCT03587142|184187462|SUPERIORITY||Mean Difference (Net)|0.24||||0.46|TWO_SIDED|95.0|-0.39|0.88||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.88|-0.39|0.46
92212530|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|2.84||||0.0228|TWO_SIDED|95.0|1.13|7.18||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||7.18|1.13|0.0228
92150994|NCT03587142|184187463|SUPERIORITY||Mean Difference (Net)|0.09||||0.73|TWO_SIDED|95.0|-0.42|0.59||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.59|-0.42|0.73
92150995|NCT03587142|184187464|SUPERIORITY||Mean Difference (Net)|-0.14||||0.5|TWO_SIDED|95.0|-0.55|0.27||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.27|-0.55|0.50
92150996|NCT03587142|184187465|SUPERIORITY||Mean Difference (Net)|0.32||||0.18|TWO_SIDED|95.0|-0.15|0.79||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.79|-0.15|0.18
92150997|NCT03587142|184187466|SUPERIORITY||Mean Difference (Net)|1.01||||0.19|TWO_SIDED|95.0|-0.49|2.51||P value is nominal: no adjustments made from multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002.|ANCOVA|||Adjusted mean difference from differences (DoD) from the baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Intervals are reported; P value (2-sided) determined from a Wald Chi-Square test.||2.51|-0.49|0.19
92150998|NCT03587142|184187467|SUPERIORITY||Mean Difference (Net)|1.86||||0.02|TWO_SIDED|95.0|0.33|3.38||P value is nominal: no adjustments made for multiple comparisons. Bonferroni P-value threshold for the level of significance is \<=0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the HADS depression score.||3.38|0.33|0.02
92150999|NCT03587142|184187468|SUPERIORITY||Mean Difference (Net)|0.76||||0.4|TWO_SIDED|95.0|-1.02|2.54||P values are nominal; no adjustments for multiple comparisons|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the HADS anxiety total score. 95% Wald Confidence Intervals are reported; P (2-sided) determined from a Wald Chi-Square test||2.54|-1.02|0.40
92151000|NCT03587142|184187469|SUPERIORITY||Mean Difference (Net)|-0.21||||0.25|TWO_SIDED|95.0|-0.57|0.15||P value is nominal with no adjustment for multiple comparisons. The Bonferroni level of significance threshold is \<=0.002.|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of PAGI-QOL total score.||0.15|-0.57|0.25
92151001|NCT03587142|184187470|SUPERIORITY||Mean Difference (Net)|-1.98||||0.36|TWO_SIDED|95.0|-6.2|2.24|||ANCOVA|||Adjusted mean difference of differences (DoD) of change in outcome from baseline and 95% Confidence Intervals were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of outcome. P (2-sided) were determined from a Wald-Chi-Square test.||2.24|-6.20|0.36
92151002|NCT03587142|184187471|SUPERIORITY||Mean Difference (Net)|-2.07||||0.15|TWO_SIDED|95.0|-4.91|0.76||P value is nominal; no adjustments made for multiple comparisons Bonferroni p-value is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.76|-4.91|0.15
92151003|NCT03587142|184187472|SUPERIORITY||Mean Difference (Net)|1.37||||0.76|TWO_SIDED|95.0|-7.51|10.25||P value is nominal: no adjustments made for multiple comparisons. Bonferrini p-value is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Intervals are reported. P (2-sided) determined from a Wald Chi-Square test.||10.25|-7.51|0.76
92151004|NCT03587142|184187473|SUPERIORITY||Mean Difference (Net)|-0.05||||0.1|TWO_SIDED|95.0|-0.12|0.01||Nominal P values; no adjustment for multiple comparisons.|ANCOVA|||Adjusted mean difference of differences (DoD) were computed using ANCOVA, regressing change in IMD from baseline to 4-weeks on treatment group and the baseline value of IMD. Wald 95% Confidence Intervals are reported; P (2-sided) determined from a Wald Chi-Square test.||0.01|-0.12|0.10
92151005|NCT03587142|184187474|SUPERIORITY||Mean Difference (Net)|-21.51||||0.29|TWO_SIDED|95.0|-99.4|56.4||Nominal P values; no adjustments for multiple comparisons.|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of teh outcome. Wald 95% Confidence Limits are reported; P (2-sided) determined from a Wald Chi-Square test.||56.4|-99.4|0.29
92151006|NCT03587142|184187475|SUPERIORITY||Mean Difference (Net)|0.09||||0.84|TWO_SIDED|95.0|-0.78|0.95||P value is nominal; no adjustments made for multiple comparisons. Bonferroni p-value \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to week 4 on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported: P (2-sided) determined from Wald Chi-Square test.||0.95|-0.78|0.84
92151007|NCT03587142|184187476|SUPERIORITY||Mean Difference (Net)|-6.43||||0.27|TWO_SIDED|95.0|-17.9|5.03||P value is nominal|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||5.03|-17.90|0.27
92212531|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3331|TWO_SIDED|95.0|0.61|4.37||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 18||4.37|0.61|0.3331
92397754|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.81||||0.4152|TWO_SIDED|95.0|0.43|7.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.53|0.43|0.4152
92397755|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9645|TWO_SIDED|95.0|0.27|3.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.50|0.27|0.9645
92397756|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.95||||0.3884|TWO_SIDED|95.0|0.43|8.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.96|0.43|0.3884
92397757|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.62||||0.267|TWO_SIDED|95.0|0.48|14.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||14.41|0.48|0.2670
92212532|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|1.84||||0.1718|TWO_SIDED|95.0|0.78|4.38||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||4.38|0.78|0.1718
92212533|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|1.97||||0.1219|TWO_SIDED|95.0|0.83|4.66||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||4.66|0.83|0.1219
92212534|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9755|TWO_SIDED|95.0|0.4|2.45||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 20||2.45|0.40|0.9755
92397758|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|6.91||||0.0861|TWO_SIDED|95.0|0.76|62.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||62.90|0.76|0.0861
92397759|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|7.21||||0.0774|TWO_SIDED|95.0|0.8|64.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||64.66|0.80|0.0774
92397760|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|4.73||||0.0389|TWO_SIDED|95.0|1.08|20.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||20.65|1.08|0.0389
92151008|NCT03587142|184187477|SUPERIORITY||Mean Difference (Net)|-1.02||||0.74|TWO_SIDED|95.0|-6.93|4.89||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Intervals are reported; P (2-sided) determined from a Wald Chi-Square test.||4.89|-6.93|0.74
92212535|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|0.87||||0.7579|TWO_SIDED|95.0|0.38|2.02||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||2.02|0.38|0.7579
92212536|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9213|TWO_SIDED|95.0|0.42|2.19||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||2.19|0.42|0.9213
92212537|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|0.49||||0.1001|TWO_SIDED|95.0|0.21|1.14||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 32||1.14|0.21|0.1001
92212538|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|0.89||||0.7945|TWO_SIDED|95.0|0.39|2.05||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.05|0.39|0.7945
92212539|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|1.17||||0.7214|TWO_SIDED|95.0|0.51|2.69||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||2.69|0.51|0.7214
92397761|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.81||||0.3695|TWO_SIDED|95.0|0.5|6.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.57|0.50|0.3695
92212540|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0727|TWO_SIDED|95.0|0.2|1.07||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 48||1.07|0.20|0.0727
92212541|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|0.74||||0.4871|TWO_SIDED|95.0|0.32|1.72||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.72|0.32|0.4871
92212542|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|0.8||||0.6037|TWO_SIDED|95.0|0.35|1.85||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.85|0.35|0.6037
92212543|NCT03816891|184324402|SUPERIORITY||Odds Ratio (OR)|0.53||||0.1323|TWO_SIDED|95.0|0.23|1.22||Calculated from CMH tests adjusted by the randomization stratification variables: sex and years since the first nodule observed (≥10 vs. \<10 years).|Cochran-Mantel-Haenszel|||Week 52||1.22|0.23|0.1323
92397762|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.95||||0.3501|TWO_SIDED|95.0|0.48|7.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.89|0.48|0.3501
92212544|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-3.8|-1.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-1.6|-3.8|<0.0001
92212545|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-3.3|-1.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-1.2|-3.3|<0.0001
92212546|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.55||0.0125|TWO_SIDED|95.0|-2.5|-0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-0.3|-2.5|0.0125
92212547|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.47|<|0.0001|TWO_SIDED|95.0|-3.8|-2.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-2.0|-3.8|<0.0001
92212548|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-2.9|-1.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-1.0|-2.9|<0.0001
92212549|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.48||0.0198|TWO_SIDED|95.0|-2.1|-0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-0.2|-2.1|0.0198
92397763|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.49||||0.2021|TWO_SIDED|95.0|0.61|10.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||10.14|0.61|0.2021
92397764|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.42||||0.6201|TWO_SIDED|95.0|0.36|5.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.62|0.36|0.6201
92397765|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|13.71||||0.0235|TWO_SIDED|95.0|1.42|132.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||132.0|1.42|0.0235
92397766|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.43||||0.0929|TWO_SIDED|95.0|0.81|14.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||14.48|0.81|0.0929
92397767|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|0.99||||0.982|TWO_SIDED|95.0|0.29|3.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.33|0.29|0.9820
92397768|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.55||||0.4956|TWO_SIDED|95.0|0.44|5.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.41|0.44|0.4956
92397769|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|0.7||||0.5708|TWO_SIDED|95.0|0.2|2.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.44|0.20|0.5708
92397770|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.55||||0.1985|TWO_SIDED|95.0|0.61|10.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||10.61|0.61|0.1985
92397771|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.15||||0.8368|TWO_SIDED|95.0|0.31|4.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.32|0.31|0.8368
92397772|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|3.18||||0.1397|TWO_SIDED|95.0|0.68|14.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||14.76|0.68|0.1397
92212550|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|-3.4|-1.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-1.2|-3.4|<0.0001
92212551|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.57||0.0004|TWO_SIDED|95.0|-3.2|-0.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-0.9|-3.2|0.0004
92151009|NCT03587142|184187478|SUPERIORITY||Mean Difference (Net)|0.03||||0.18|TWO_SIDED|95.0|-0.01|0.08|||ANCOVA|P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold level of significance \<0.002||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. 95% Wald Confidence Intervals are reported; P (2-sided) determined from a Wald Chi-Square test.||0.08|-0.01|0.18
92151010|NCT03587142|184187479|SUPERIORITY||Mean Difference (Net)|-0.39||||0.97|TWO_SIDED|95.0|-20.42|19.64||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. 95% Wald Confidence Intervals are reported; P (2-sided) determined from a Wald Chi-Square test.||19.64|-20.42|0.97
92151011|NCT03587142|184187480|SUPERIORITY||Incident rate ratio|1.27||||0.64|TWO_SIDED|95.0|0.57|2.82||P values are nominal and not adjusted for multiple comparisons.|Exact poisson regression|||Event rates are computed by treatment arm by dividing the total adverse events over 4-weeks by the number of patient-months of follow-up to 4-weeks. Event rates are compared by treatment arm using an exact poisson regression for event rates.||2.82|0.57|0.64
92151012|NCT03587142|184187481|SUPERIORITY||Incident rate ratio|0.95||||0.54|TWO_SIDED|95.0|0.35|2.62||P values are nominal.|Fisher Exact|||A Fisher's Exact test was used for comparisons of events by treatment by severity grade. One patient in the Buspirone arm had 2 AEs during the trial; for analysis by severity grade the maximum severity grade was used.|An exact poisson regression stratified by severity level was used to compute the incident rate ratio and 95% Confidence Intervals for adverse events by severity level.|2.62|0.35|0.54
92151013|NCT03587142|184187482|SUPERIORITY|||||||1||||||P value is nominal.|Fisher Exact|||||||1.00
92151014|NCT03587142|184187483|SUPERIORITY||Incident rate ratio|1.03||||1|TWO_SIDED|95.0|0.0|40.36||P-values are nominal.|Exact poisson regression|||Event rates were computed by dividing the number of hospitalizations over 4-weeks by the number of person-years. An exact poisson regression was used to compare events by treatment group.||40.36|0|1.00
92151015|NCT03587142|184187484|SUPERIORITY|||||||0.52||||||Nominal P value.|Binomial probability test|2-sided test with probability of success=0||||||0.52
92151016|NCT01616771|184187498|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||To verify the difference in C\&L grades using each blade, the ordinal scales of each blade were compared using the Wilcoxon signed rank test. P values and confidence intervals have been corrected for the 3 comparisons.|Wilcoxon (Mann-Whitney)|Hodges-Lehmann method was used to calculate 98.3% CIs of paired differences of 3 comparisons.||An improvement of C\&L grade ordinal scale by 2 was considered a clinically significant change. The mean difference of C\&L grade ordinal scale between DL and GVLw was 1.3, and its standard deviation was 2.0 in our pilot study. The required sample size for the Wilcoxon signed rank test was 21 with an α error of 0.05 and 80% power.||||<0.05
92151017|NCT01616771|184187499|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||To verify the difference in C\&L grades using each blade, the ordinal scales of each blade were compared using the Wilcoxon signed rank test. P values and confidence intervals have been corrected for the 3 comparisons.|Wilcoxon (Mann-Whitney)|Hodges-Lehmann method was used to calculate 98.3% CIs of paired differences of 3 comparisons.||An improvement of C\&L grade ordinal scale by 2 was considered a clinically significant change. The mean difference of C\&L grade ordinal scale between DL and GVLw was 1.3, and its standard deviation was 2.0 in our pilot study. The required sample size for the Wilcoxon signed rank test was 21 with an α error of 0.05 and 80% power.||||<0.05
92212552|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.57||0.0969|TWO_SIDED|95.0|-2.1|0.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||0.2|-2.1|0.0969
92212553|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.61|<|0.0001|TWO_SIDED|95.0|-3.7|-1.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-1.3|-3.7|<0.0001
92151018|NCT02247804|184187531|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.39||0.295|TWO_SIDED|95.0|-1.17|0.36|||MMRM|||Change from Baseline Week 12, Hour 0: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.36|-1.17|0.2950
92151019|NCT02247804|184187531|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.39||0.3904|TWO_SIDED|95.0|-1.09|0.43|||MMRM|||Change from Baseline Week 12, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.43|-1.09|0.3904
92151020|NCT02247804|184187531|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.0464|TWO_SIDED|95.0|-1.4|-0.01|||MMRM|||Change from Baseline Week 12, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Week 12).||-0.01|-1.40|0.0464
92212554|NCT03816891|184324403|SUPERIORITY||ls|-2.0|STANDARD_ERROR_OF_MEAN|0.62||0.0012|TWO_SIDED|95.0|-3.2|-0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-0.8|-3.2|0.0012
92212555|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.63||0.3212|TWO_SIDED|95.0|-1.9|0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||0.6|-1.9|0.3212
92212556|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.61||0.0011|TWO_SIDED|95.0|-3.2|-0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-0.8|-3.2|0.0011
92212557|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.61||0.0044|TWO_SIDED|95.0|-3.0|-0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-0.6|-3.0|0.0044
92212558|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.62||0.3635|TWO_SIDED|95.0|-1.8|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||0.7|-1.8|0.3635
92212559|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.62||0.0172|TWO_SIDED|95.0|-2.7|-0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-0.3|-2.7|0.0172
92212560|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.63||0.0401|TWO_SIDED|95.0|-2.6|-0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-0.1|-2.6|0.0401
92212561|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.63||0.7627|TWO_SIDED|95.0|-1.4|1.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||1.1|-1.4|0.7627
92212562|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.54||0.0827|TWO_SIDED|95.0|-2.0|0.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||0.1|-2.0|0.0827
92212563|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.55||0.1315|TWO_SIDED|95.0|-1.9|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||0.3|-1.9|0.1315
92212564|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.54||0.6133|TWO_SIDED|95.0|-0.8|1.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||1.4|-0.8|0.6133
92336653|NCT02559570|184576082|SUPERIORITY||Least Squares Mean Difference|0.356|STANDARD_ERROR_OF_MEAN|0.246||0.1502|TWO_SIDED|95.0|-0.131|0.842|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.842|-0.131|0.1502
92212565|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.54||0.3136|TWO_SIDED|95.0|-1.6|0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||0.5|-1.6|0.3136
92212566|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.55||0.3218|TWO_SIDED|95.0|-1.6|0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||0.5|-1.6|0.3218
92212567|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.55||0.6576|TWO_SIDED|95.0|-0.8|1.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||1.3|-0.8|0.6576
92212568|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.55||0.1565|TWO_SIDED|95.0|-1.9|0.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||0.3|-1.9|0.1565
92212569|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.55||0.228|TWO_SIDED|95.0|-1.7|0.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||0.4|-1.7|0.2280
92212570|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.54||0.94|TWO_SIDED|95.0|-1.0|1.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||1.1|-1.0|0.9400
92212571|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.57||0.276|TWO_SIDED|95.0|-1.8|0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||0.5|-1.8|0.2760
92212572|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.58||0.4096|TWO_SIDED|95.0|-1.6|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||0.7|-1.6|0.4096
92212573|NCT03816891|184324403|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.58||0.8177|TWO_SIDED|95.0|-1.0|1.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||1.3|-1.0|0.8177
92212574|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-145.0|STANDARD_ERROR_OF_MEAN|36.24||0.0001|TWO_SIDED|95.0|-216.6|-73.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-73.3|-216.6|0.0001
92212575|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-106.4|STANDARD_ERROR_OF_MEAN|35.82||0.0035|TWO_SIDED|95.0|-177.2|-35.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-35.5|-177.2|0.0035
92212576|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-109.9||||0.0031|TWO_SIDED|95.0|-182.2|-37.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 2||-37.6|-182.2|0.0031
92212577|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-75.8|STANDARD_ERROR_OF_MEAN|14.9|<|0.0001|TWO_SIDED|95.0|-105.2|-46.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-46.4|-105.2|<0.0001
92212578|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-55.4|STANDARD_ERROR_OF_MEAN|15.14||0.0003|TWO_SIDED|95.0|-85.3|-25.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-25.5|-85.3|0.0003
92212579|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-43.3|STANDARD_ERROR_OF_MEAN|0.0053||0.0053|TWO_SIDED|95.0|-73.5|-13.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-13.1|-73.5|0.0053
92212580|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-42.6|STANDARD_ERROR_OF_MEAN|21.28||0.0472|TWO_SIDED|95.0|-84.6|-0.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-0.5|-84.6|0.0472
92212581|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-54.0|STANDARD_ERROR_OF_MEAN|21.11||0.0115|TWO_SIDED|95.0|-95.7|-12.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-12.3|-95.7|0.0115
92212582|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-31.1|STANDARD_ERROR_OF_MEAN|21.28||0.1453|TWO_SIDED|95.0|-73.2|10.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||10.9|-73.2|0.1453
92212583|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-88.1|STANDARD_ERROR_OF_MEAN|27.58||0.0017|TWO_SIDED|95.0|-142.5|-33.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-33.6|-142.5|0.0017
92212584|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-71.7|STANDARD_ERROR_OF_MEAN|27.87||0.011|TWO_SIDED|95.0|-126.8|-16.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-16.7|-126.8|0.0110
92212585|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-52.3|STANDARD_ERROR_OF_MEAN|28.46||0.0681|TWO_SIDED|95.0|-108.5|3.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||3.9|-108.5|0.0681
92212586|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-45.0|STANDARD_ERROR_OF_MEAN|13.79||0.0013|TWO_SIDED|95.0|-72.3|-17.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-17.8|-72.3|0.0013
92212587|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-34.0|STANDARD_ERROR_OF_MEAN|13.96||0.0161|TWO_SIDED|95.0|-61.5|-6.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-6.4|-61.5|0.0161
92212588|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-16.3|STANDARD_ERROR_OF_MEAN|14.02||0.2466|TWO_SIDED|95.0|-44.0|11.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||11.4|-44.0|0.2466
92212589|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-32.7|STANDARD_ERROR_OF_MEAN|16.17||0.0451|TWO_SIDED|95.0|-64.6|-0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-0.7|-64.6|0.0451
92212590|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-22.3|STANDARD_ERROR_OF_MEAN|16.43||0.177|TWO_SIDED|95.0|-54.8|10.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||10.2|-54.8|0.1770
92212591|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|16.54||0.6893|TWO_SIDED|95.0|-39.3|26.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||26.1|-39.3|0.6893
92212592|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-37.3|STANDARD_ERROR_OF_MEAN|14.02||0.0087|TWO_SIDED|95.0|-65.0|-9.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||-9.6|-65.0|0.0087
92397773|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.88||||0.0366|TWO_SIDED|95.0|0.52|6.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||6.85|0.52|0.0366
92151021|NCT02247804|184187531|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.35||0.5383|TWO_SIDED|95.0|-0.9|0.47|||MMRM|||Change from Baseline Week 12, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.47|-0.90|0.5383
92151022|NCT02247804|184187532|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.34||0.0033|TWO_SIDED|95.0|-1.68|-0.34|||MMRM|||Week 2, Hour 0: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.34|-1.68|0.0033
92151023|NCT02247804|184187532|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.34||0.0187|TWO_SIDED|95.0|-1.47|-0.13|||MMRM|||Week 2, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.13|-1.47|0.0187
92151024|NCT02247804|184187533|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.31||0.0057||95.0|-1.45|-0.25|||MMRM|||Week 2, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.25|-1.45|0.0057
92151025|NCT02247804|184187533|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.3||0.0031||95.0|-1.5|-0.31|||MMRM|||Week 2, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.31|-1.50|0.0031
92151026|NCT02247804|184187534|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.32||0.0547||95.0|-1.26|0.01|||MMRM|||Week 6, Hour 0: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.01|-1.26|0.0547
92151027|NCT02247804|184187534|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.32||0.0107||95.0|-1.46|-0.19|||MMRM|||Week 6, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.19|-1.46|0.0107
92151028|NCT02247804|184187535|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.32||0.086||95.0|-1.16|0.08|||MMRM|||Week 6, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.08|-1.16|0.0860
92151029|NCT02247804|184187535|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.31||0.0362||95.0|-1.27|-0.04|||MMRM|||Week 6, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.04|-1.27|0.0362
92212593|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-29.3|STANDARD_ERROR_OF_MEAN|14.4||0.0439|TWO_SIDED|95.0|-57.7|-0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||-0.8|-57.7|0.0439
92151030|NCT02247804|184187536|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.39||0.295||95.0|-1.17|0.36|||MMRM|||Week 12, Hour 0: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.36|-1.17|0.2950
92151031|NCT02247804|184187536|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.39||0.3904|TWO_SIDED|95.0|-1.09|0.43|||MMRM|||Week 12, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.43|-1.09|0.3904
92151032|NCT02247804|184187537|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.0464||95.0|-1.4|-0.01|||MMRM|||Week 12, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.01|-1.40|0.0464
92151033|NCT02247804|184187537|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.35||0.5383||95.0|-0.9|0.47|||MMRM|||Week 12, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.47|-0.90|0.5383
92151034|NCT02247804|184187538|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.34||0.0033|TWO_SIDED|95.0|-1.68|-0.34|||MMRM|||Change from Baseline Week 2, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.34|-1.68|0.0033
92151035|NCT02247804|184187538|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.34||0.0187|TWO_SIDED|95.0|-1.47|-0.13|||MMRM|||Change from Baseline Week 2, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.13|-1.47|0.0187
92151036|NCT02247804|184187538|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.31||0.0057|TWO_SIDED|95.0|-1.45|-0.25|||MMRM|||Change from Baseline Week 2, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.25|-1.45|0.0057
92151037|NCT02247804|184187538|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.3||0.0031|TWO_SIDED|95.0|-1.5|-0.31|||MMRM|||Change from Baseline Week 2, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.31|-1.50|0.0031
92212594|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|14.33||0.511|TWO_SIDED|95.0|-37.8|18.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||18.9|-37.8|0.5110
92151038|NCT02247804|184187538|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.32||0.0547|TWO_SIDED|95.0|-1.26|0.01|||MMRM|||Change from Baseline Week 6, Hour 0: The null hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.01|-1.26|0.0547
92212595|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-28.1|STANDARD_ERROR_OF_MEAN|14.76||0.0592|TWO_SIDED|95.0|-57.2|1.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||1.1|-57.2|0.0592
92212596|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-18.2|STANDARD_ERROR_OF_MEAN|15.21||0.2327|TWO_SIDED|95.0|-48.3|11.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||11.8|-48.3|0.2327
92212597|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|15.16||0.8173|TWO_SIDED|95.0|-33.5|26.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||26.4|-33.5|0.8173
92212598|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-27.3|STANDARD_ERROR_OF_MEAN|15.06||0.0725|TWO_SIDED|95.0|-57.1|2.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||2.5|-57.1|0.0725
92212599|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-23.3|STANDARD_ERROR_OF_MEAN|15.25||0.1285|TWO_SIDED|95.0|-53.5|6.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||6.8|-53.5|0.1285
92212600|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|14.82||0.6911|TWO_SIDED|95.0|-35.2|23.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||23.4|-35.2|0.6911
92212601|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-18.4|STANDARD_ERROR_OF_MEAN|15.24||0.2283|TWO_SIDED|95.0|-48.6|11.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||11.7|-48.6|0.2283
92212602|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-16.1|STANDARD_ERROR_OF_MEAN|15.6||0.3049|TWO_SIDED|95.0|-46.9|14.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||14.8|-46.9|0.3049
92212603|NCT03816891|184324404|SUPERIORITY||LS Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|15.62||0.7172|TWO_SIDED|95.0|-36.6|25.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||25.2|-36.6|0.7172
92212604|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-18.0|STANDARD_ERROR_OF_MEAN|3.05|<|0.0001|TWO_SIDED|95.0|-24.1|-12.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-12.0|-24.1|<0.0001
92212605|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-11.7|STANDARD_ERROR_OF_MEAN|3.08||0.0002|TWO_SIDED|95.0|-17.8|-5.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-5.6|-17.8|0.0002
92212606|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-9.9|STANDARD_ERROR_OF_MEAN|3.08||0.0017|TWO_SIDED|95.0|-15.9|-3.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-3.8|-15.9|0.0017
92212607|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-21.0|STANDARD_ERROR_OF_MEAN|3.56|<|0.0001|TWO_SIDED|95.0|-28.0|-13.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-13.9|-28.0|<0.0001
92212608|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-12.3|STANDARD_ERROR_OF_MEAN|3.52||0.0006|TWO_SIDED|95.0|-19.3|-5.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-5.4|-19.3|0.0006
92212609|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|3.53||0.0497|TWO_SIDED|95.0|-13.9|0.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||0.0|-13.9|0.0497
92212610|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-20.6|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001|TWO_SIDED|95.0|-28.9|-12.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-12.3|-28.9|<0.0001
92212611|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-16.3|STANDARD_ERROR_OF_MEAN|4.21||0.0002|TWO_SIDED|95.0|-24.6|-8.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-8.0|-24.6|0.0002
92212612|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-9.1|STANDARD_ERROR_OF_MEAN|4.29||0.0362|TWO_SIDED|95.0|-17.5|-0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-0.6|-17.5|0.0362
92212613|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-21.0|STANDARD_ERROR_OF_MEAN|3.96|<|0.0001|TWO_SIDED|95.0|-28.8|-13.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-13.2|-28.8|<0.0001
92212614|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-15.6|STANDARD_ERROR_OF_MEAN|3.98||0.0001|TWO_SIDED|95.0|-23.5|-7.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-7.7|-23.5|0.0001
92212615|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-10.4|STANDARD_ERROR_OF_MEAN|4.0||0.01|TWO_SIDED|95.0|-18.3|-2.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-2.5|-18.3|0.0100
92151039|NCT02247804|184187538|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.32||0.0107|TWO_SIDED|95.0|-1.46|-0.19|||MMRM|||Change from Baseline Week 6, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.19|-1.46|0.0107
92151040|NCT02247804|184187538|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.32||0.086|TWO_SIDED|95.0|-1.16|0.08|||MMRM|||Change from Baseline Week 6, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.08|-1.16|0.0860
92151041|NCT02247804|184187538|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.31||0.0362||95.0|-1.27|-0.04|||MMRM|||Change from Baseline Week 6, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.04|-1.27|0.0362
92151042|NCT01187329|184187539|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.11|TWO_SIDED|97.5|-2.87|0.48|||t-test, 2 sided|||||0.48|-2.87|0.11
92151043|NCT01187329|184187540|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.007|TWO_SIDED|97.5|-0.3|-0.01|||t-test, 2 sided|paired t-test||||-0.01|-0.3|0.007
92151044|NCT01187329|184187541|SUPERIORITY||Median Difference (Final Values)|-0.6||||0.57|TWO_SIDED|95.0|-2.6|1.5|||t-test, 2 sided|||||1.5|-2.6|0.57
92151045|NCT01187329|184187542|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.45|TWO_SIDED|95.0|-0.2|0.1|||t-test, 2 sided|||||0.1|-0.2|0.45
92151046|NCT00909480|184187550|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin: 0.4%.|Mean Difference (Net)|0.3003||||||95.0|0.1427|0.458|||ANCOVA|Full analysis set, Model adjusted for: HbA1c at baseline, previous oral anti-diabetic treatment and country.||||0.4580|0.1427|
92151047|NCT00393523|184187583|SUPERIORITY_OR_OTHER||Seroprotection rate (SPR)|95.0|||<|0.001||95.2|92.1|97.1||"Adequate SPR required the lower bound of the 95.2% CI for the SPR for subjects in both Group 1 and Group 2 to be \> 90% (P-Value \< .024).~Since only one group met the criteria, that group was retested at α=.012."|Hochberg's step up|The primary hypothesis was evaluated using Hochberg's step up approach to control multiplicity.|Seroprotection rate (SPR)- defined as the percentage of subjects who demonstrate antibodies to hepatitis B surface antigen ≥10 mIU/mL|The primary purpose of this study was to show that subjects who received a primary series of RECOMBIVAX HB™ in the first year of life were adequately protected by RECOMBIVAX HB™ by measuring the immune response to a single booster dose of either a modified process vaccine or ENGERIX-B™.||97.1|92.1|<0.001
92212616|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-12.7|STANDARD_ERROR_OF_MEAN|4.27||0.0035|TWO_SIDED|95.0|-21.1|-4.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-4.3|-21.1|0.0035
92151048|NCT00393523|184187583|SUPERIORITY_OR_OTHER||Seroprotection rate (SPR)|95.0|||<|0.001||97.6|91.6|97.3||Adequate SPR required the lower bound of the 95.2% CI for the SPR for subjects in both Group 1 and Group 2 to be \> 90% (P-Value \< .024). Since only one group met the criteria, that group was retested at α=.012.|Hochberg's step up|The primary hypothesis was evaluated using Hochberg's step up approach to control multiplicity.|Seroprotection rate (SPR)- defined as the percentage of subjects who demonstrate antibodies to hepatitis B surface antigen ≥10 mIU/mL|The primary purpose of this study was to show that subjects who received a primary series of RECOMBIVAX HB™ in the first year of life were adequately protected by RECOMBIVAX HB™ by measuring the immune response to a single booster dose of either a modified process vaccine or ENGERIX-B™.||97.3|91.6|<0.001
92151049|NCT00393523|184187583|SUPERIORITY_OR_OTHER||Seroprotection rate (SPR)|91.6||||0.19||95.2|88.0|94.4||"Adequate SPR required the lower bound of the 95.2% CI for the SPR for subjects in both Group 1 and Group 2 to be \> 90% (P-Value \< .024).~Since only one group met the criteria, that group was retested at α=.012."|Hochberg's step up|The primary hypothesis was evaluated using Hochberg's step up approach to control multiplicity.|Seroprotection rate (SPR)- defined as the percentage of subjects who demonstrate antibodies to hepatitis B surface antigen ≥10 mIU/mL|The primary purpose of this study was to show that subjects who received a primary series of RECOMBIVAX HB™ in the first year of life were adequately protected by RECOMBIVAX HB™ by measuring the immune response to a single booster dose of either a modified process vaccine or ENGERIX-B™.||94.4|88.0|0.19
92151050|NCT00393523|184187584|SUPERIORITY_OR_OTHER||Seroprotection Rate (SPR)|97.3||||||95.0|95.0|98.8|||||"Exact binomial confidence interval~Seroprotection Rate (SPR)- defined as the percentage of subjects who demonstrate antibodies to hepatitis B surface antigen ≥10 mIU/mL"|The purpose of the secondary analysis is to demonstrate that there is an adequate SPR in subjects who received a primary vaccination series of ENGERIX-B™ and a booster dose of modified process hepatitis B vaccine. An adequate response requires the lower bound of the two-sided 95% confidence interval for the SPR to exceed 90%.||98.8|95.0|
92151051|NCT00682643|184187625|SUPERIORITY_OR_OTHER|||||||0.395||95.0||||Wald Chi-Square test based on a proportional hazards model adjusting for age and baseline value|Wald Chi-square|||||||0.395
92151052|NCT00682643|184187626|SUPERIORITY_OR_OTHER|||||||0.342||95.0||||Wald Chi-Square test based on a proportional hazards model adjusting for age and baseline value|Wald Chi-square|||||||0.342
92212617|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|4.33||0.0255|TWO_SIDED|95.0|-18.3|-1.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-1.2|-18.3|0.0255
92151053|NCT03238300|184187643|SUPERIORITY||partial eta squared|0.02|||>|0.05|TWO_SIDED|95.0|0.0|0.22||P-value \>0.05 for main effect of medication (N-acetylcysteine vs. placebo)|Mixed Models Analysis|Random intercepts were used||"With 31 participants, the study has 99% power to detect such effects on glutamate levels (calculated based on d =1.13 \[reported in Schmaal et al., 2012\], α = 0.05, two-tailed).~We used linear mixed effects models with random intercepts with medication, visit, and sequence. Baseline metabolite levels and brain tissue composition \[GM:BM = GM/(GM+WM)\], cannabis use (days), and alcohol use disorder status (Yes/No) were included as covariates."||0.22|0.00|>0.05
92151054|NCT03238300|184187644|SUPERIORITY||||||>|0.05||||||P-value \>0.05 for main effect of medication (N-acetylcysteine vs. placebo) for all ROIs.|Mixed Models Analysis|Random intercepts were used for all models.||Contrast of interest was alcohol beverages vs. non-alcohol beverages. We used linear mixed effects models with random intercepts with medication, visit, and sequence. Baseline reactivity levels for each ROI, cannabis use (days), and an alcohol use covariate (quantity, frequency, AUD status, or AUD severity - depending on which best fit the model) were included as covariates. ROIs included were (left and right hemisphere): amygdala, caudate, insula, putamen, and nucleus accumbens.||||>0.05
92151055|NCT04064242|184187663|OTHER|A Bayesian model for repeated measurements including data collected at Weeks 4, 8, 12 and 16 was applied to compare FVC between CMK389 and placebo groups.|Posterior estimate treatment difference|-1.49|STANDARD_DEVIATION|1.62||0.1804|TWO_SIDED|80.0|-3.56|0.6|||Bayesian analysis|Posterior probability that treatment is better than placebo.|80% credible intervals are reported on the treatment difference|||0.60|-3.56|0.1804
92151056|NCT04064242|184187669|SUPERIORITY||Median Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.045||0.783|TWO_SIDED|80.0|-0.09|0.02|||Mixed effects Model for Repeated Measure||Treatment difference (CMK389-placebo)|||0.02|-0.09|0.783
92151057|NCT04064242|184187670|SUPERIORITY||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.664||0.608|TWO_SIDED|80.0|-1.05|0.68|||Mixed effects Model for Repeated Measure||Treatment difference (CMK389-placebo)|||0.68|-1.05|0.608
92151058|NCT04064242|184187671|SUPERIORITY||Median Difference (Net)|0.71|STANDARD_ERROR_OF_MEAN|13.126||0.479|TWO_SIDED|80.0|-16.35|17.76|||Mixed effects Model for Repeated Measure||Treatment difference (CMK389-placebo)|||17.76|-16.35|0.479
92151059|NCT04512066|184187680|OTHER||treatment effect|0.6||||0.849|TWO_SIDED|90.0|-4.58|5.78|||Mixed Models Analysis|||||5.78|-4.58|0.849
92151060|NCT04512066|184187680|OTHER||treatment effect|-2.83||||0.362|TWO_SIDED|90.0|-7.96|2.29|||Mixed Models Analysis|||||2.29|-7.96|0.362
92151061|NCT04512066|184187680|OTHER||treatment effect|-10.45||||0.001|TWO_SIDED|90.0|-15.46|-5.43|||Mixed Models Analysis|||||-5.43|-15.46|0.001
92151062|NCT00971750|184187706|SUPERIORITY_OR_OTHER|||||||0.763||95.0|||||Chi-squared|||||||0.763
92151063|NCT00971750|184187708|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92151064|NCT01657266|184187709|SUPERIORITY_OR_OTHER|||||||1|||||||Pearson´s Chi-square test|||||||1.00
92212618|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|4.31||0.2869|TWO_SIDED|95.0|-13.1|3.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||3.9|-13.1|0.2869
92151065|NCT00445679|184187719|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority to paroxetine was declared if the lower limit of the 95% two-sided confidence interval for the difference in responders is greater than or equal to -9 percentage points.|Difference|-3.13|||||TWO_SIDED|95.0|-12.62|6.37||||||||6.37|-12.62|
92151066|NCT00445679|184187719|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority to paroxetine was declared if the lower limit of the 95% two-sided confidence interval for the difference in responders is greater than or equal to -9 percentage points.|Difference|0.88|||||TWO_SIDED|95.0|-8.5|10.25||||||||10.25|-8.50|
92151067|NCT00445679|184187719|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority to paroxetine was declared if the lower limit of the 95% two-sided confidence interval for the difference in responders is greater than or equal to -9 percentage points.|Difference|-2.17|||||TWO_SIDED|95.0|-11.68|7.33||||||||7.33|-11.68|
92151068|NCT00445679|184187720|SUPERIORITY_OR_OTHER|||||||0.714||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.714
92151069|NCT00445679|184187720|SUPERIORITY_OR_OTHER|||||||0.653||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.653
92151070|NCT00445679|184187720|SUPERIORITY_OR_OTHER|||||||0.881||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.881
92151071|NCT00445679|184187721|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.450
92151072|NCT00445679|184187721|SUPERIORITY_OR_OTHER|||||||0.452||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.452
92151073|NCT00445679|184187721|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.850
92151074|NCT01316770|184187726|SUPERIORITY|The standard deviation (SD) of the change in salivary flow was assumed to be 0.0168 for the placebo and 0.0906 for the dexamethasone parotid. The within-subject correlation between two glands was assumed to be 0.15. A total of 16 patients would be required to have 80% power to detect a one-sided 40% increase in dexamethasone-irrigated parotid glands compared with the saline irrigated parotid glands with respect to change in salivary flow from Day 0 to Day 56.||||||0.236||||||No corrections were made for multiple comparisons because there was only one primary hypothesis.|one-sided Paired t-test|||The mixed models analysis included all time points but it failed to converge. Therefore, an alternative analysis was performed using a paired t-test. Because the Satterthwaite correction \[that was specified in the statistical analysis plan (SAP) for the mixed model\] is not available for the paired t-test, it was not performed on the paired t-test. The final analysis was based upon the raw non-transformed saliva flow rates, as these measures were appropriate for the model used.||||0.236
92151075|NCT01316770|184187727|SUPERIORITY|||||||0.662|||||||one-sided paired t-test|||The mixed models analysis (including all time points: study days 14, 28, 42, 56) failed to converge; thus, an alternative analysis, as stated in the Statistical Analysis Plan, was performed using the paired t-test. The Satterthwaite correction (Statistical Analysis Plan) is not available for the paired t-test and was not performed on the paired t-test. The final analysis was based upon the raw non-transformed saliva flow rates since this statistical model achieved the best fit to the data.||||0.662
92151076|NCT01316770|184187728|SUPERIORITY|||||||0.607|||||||one-sided paired t-test|||The mixed models analysis (including all time points: study days 14, 28, 42, 56) failed to converge; thus, an alternative analysis, as stated in the Statistical Analysis Plan, was performed using the paired t-test. The Satterthwaite correction (Statistical Analysis Plan) is not available for the paired t-test and was not performed on the paired t-test. The final analysis was based upon the raw non-transformed saliva flow rates since this statistical model achieved the best fit to the data.||||0.607
92151077|NCT01316770|184187729|SUPERIORITY|||||||0.586|||||||one-sided paired t-test|||The mixed models analysis (including all time points: study days 14, 28, 42, 56) failed to converge; thus, an alternative analysis, as stated in the Statistical Analysis Plan, was performed using the paired t-test. The Satterthwaite correction (Statistical Analysis Plan) is not available for the paired t-test and was not performed on the paired t-test. The final analysis was based upon the raw non-transformed saliva flow rates since this statistical model achieved the best fit to the data.||||0.586
92151078|NCT01316770|184187743|OTHER|||||||0.5|||||||McNemar|||"McNemar's test on the study Day 14 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 14 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 14.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 14 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 14."||||0.500
92151079|NCT01316770|184187743|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 28 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 28 is equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 28 is not equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28."||||1.000
92151080|NCT01316770|184187743|OTHER|||||||0.5|||||||McNemar|||"McNemar's test on the study Day 42 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 42 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 42.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 42 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 42."||||0.500
92212619|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|4.09||0.076|TWO_SIDED|95.0|-15.4|0.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||0.8|-15.4|0.0760
92151081|NCT01316770|184187743|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 56 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 56 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 56.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 56 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 56."||||1.000
92151082|NCT01316770|184187745|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 14 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 14 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 14.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 14 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 14."||||1.000
92151083|NCT01316770|184187745|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 28 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 28 is equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 28 is not equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28."||||1.000
92151084|NCT01316770|184187746|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 14 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 14 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 14.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 14 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 14."||||1.000
92212620|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|4.15||0.2673|TWO_SIDED|95.0|-12.8|3.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||3.6|-12.8|0.2673
92397774|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|0.84||||0.7968|TWO_SIDED|95.0|0.23|3.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.05|0.23|0.7968
92151085|NCT01316770|184187746|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 28 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 28 is equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 28 is not equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28."||||1.000
92212621|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|4.14||0.732|TWO_SIDED|95.0|-9.6|6.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||6.8|-9.6|0.7320
92212622|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|4.34||0.0726|TWO_SIDED|95.0|-16.4|0.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||0.7|-16.4|0.0726
92212623|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|4.41||0.4475|TWO_SIDED|95.0|-12.1|5.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||5.4|-12.1|0.4475
92212624|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|4.41||0.6854|TWO_SIDED|95.0|-10.5|6.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||6.9|-10.5|0.6854
92212625|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|4.5||0.3287|TWO_SIDED|95.0|-13.3|4.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||4.5|-13.3|0.3287
92212626|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|4.49||0.9752|TWO_SIDED|95.0|-9.0|8.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||8.7|-9.0|0.9752
92212627|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|4.4||0.5761|TWO_SIDED|95.0|-6.2|11.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||11.2|-6.2|0.5761
92212628|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|4.54||0.2817|TWO_SIDED|95.0|-13.9|4.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||4.1|-13.9|0.2817
92212629|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|4.56||0.3554|TWO_SIDED|95.0|-13.3|4.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||4.8|-13.3|0.3554
92212630|NCT03816891|184324405|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|4.57||0.7713|TWO_SIDED|95.0|-10.4|7.7||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||7.7|-10.4|0.7713
92212631|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-24.8|STANDARD_ERROR_OF_MEAN|4.01|<|0.0001|TWO_SIDED|95.0|-32.8|-16.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-16.9|-32.8|<0.0001
92212632|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|4.04|<|0.0001|TWO_SIDED|95.0|-24.6|-8.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-8.6|-24.6|<0.0001
92212633|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-13.3|STANDARD_ERROR_OF_MEAN|4.05||0.0013|TWO_SIDED|95.0|-21.2|-5.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 4||-5.3|-21.2|0.0013
92212634|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-27.8|STANDARD_ERROR_OF_MEAN|4.4|<|0.0001|TWO_SIDED|95.0|-36.5|-19.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-19.1|-36.5|<0.0001
92212635|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-16.8|STANDARD_ERROR_OF_MEAN|4.35||0.0002|TWO_SIDED|95.0|-25.4|-8.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||-8.2|-25.4|0.0002
92212636|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-8.6|STANDARD_ERROR_OF_MEAN|4.36||0.0511|TWO_SIDED|95.0|-17.2|0.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 8||0.0|-17.2|0.0511
92212637|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-27.5|STANDARD_ERROR_OF_MEAN|5.26|<|0.0001|TWO_SIDED|95.0|-37.8|-17.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-17.1|-37.8|<0.0001
92212638|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-21.9|STANDARD_ERROR_OF_MEAN|5.26|<|0.0001|TWO_SIDED|95.0|-32.3|-11.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-11.5|-32.3|<0.0001
92212639|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-11.2|STANDARD_ERROR_OF_MEAN|5.37||0.0386|TWO_SIDED|95.0|-21.8|-0.6||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 12||-0.6|-21.8|0.0386
92212640|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-28.1|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001|TWO_SIDED|95.0|-37.8|-18.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-18.4|-37.8|<0.0001
92212641|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-21.2|STANDARD_ERROR_OF_MEAN|4.93|<|0.0001|TWO_SIDED|95.0|-31.0|-11.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-11.5|-31.0|<0.0001
92151086|NCT01316770|184187746|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 42 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 42 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 42.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 42 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 42."||||1.000
92151087|NCT01316770|184187746|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 56 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 56 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 56.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 56 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 56."||||1.000
92151088|NCT01316770|184187749|OTHER|||||||0.25|||||||McNemar|||"McNemar's test on the study Day 14 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 14 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 14.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 14 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 14."||||0.250
92151089|NCT01316770|184187749|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 28 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 28 is equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 28 is not equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28."||||1.000
92151090|NCT01316770|184187749|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 42 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 42 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 42.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 42 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 42."||||1.000
92151091|NCT01316770|184187749|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 56 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 56 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 56.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 56 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 56."||||1.000
92151092|NCT01316770|184187750|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 14 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 14 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 14.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 14 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 14."||||1.000
92151093|NCT01316770|184187750|OTHER|||||||0.625|||||||McNemar|||"McNemar's test on the study Day 28 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 28 is equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 28 is not equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28."||||0.625
92151094|NCT01316770|184187750|OTHER|||||||0.5|||||||McNemar|||"McNemar's test on the study Day 42 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 42 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 42.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 42 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 42."||||0.5000
92151095|NCT01316770|184187750|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 56 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 56 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 56.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 56 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 56."||||1.000
92151096|NCT00909428|184187779|SUPERIORITY||Z-Score|2.803||||0.005|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no change from baseline maximal tolerated cystometric capacity following 30 days of treatment with daily 10mg solifenacin succinate.||||.005
92151097|NCT01933880|184187781|SUPERIORITY_OR_OTHER|||||||0.0387|||||||Signed Rank Sum Test|||P-value was calculated to compare the data at Baseline and change at Week 12 for the OROS-MPH group||||0.0387
92212642|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-12.8|STANDARD_ERROR_OF_MEAN|4.95||0.0108|TWO_SIDED|95.0|-22.5|-3.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 16||-3.0|-22.5|0.0108
92151098|NCT01933880|184187782|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||P-value was calculated to compare the data at Baseline and change at Week 1 for the OROS-MPH group||||<0.0001
92151099|NCT01933880|184187783|SUPERIORITY_OR_OTHER|||||||0.0001|||||||t-test, 2 sided|||P-value was calculated to compare the data at Baseline and change at Week 2 for the OROS-MPH group||||0.0001
92151100|NCT01933880|184187784|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||P-value was calculated to compare the data at Baseline and change at Week 3 for the OROS-MPH group||||<0.0001
92151101|NCT01933880|184187785|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||P-value was calculated to compare the data at Baseline and change at Week 7 for the OROS-MPH group||||<0.0001
92151102|NCT01933880|184187786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||P-value was calculated to compare the data at Baseline and change at Week 12 for the OROS-MPH group||||<0.0001
92151103|NCT00069784|184187819|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.022||||0.6273|TWO_SIDED|95.0|0.937|1.114||For the analysis of the two coprimary efficacy outcomes, the overall Type 1 error was partitioned. The first coprimary outcome was tested at 4.4%, whereas the second coprimary outcome was tested at 1% (weighted Hochberg procedure).|Log Rank|Log-rank test stratified by double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event.|Hazard ratio (glargine/standard care) estimated by Cox regression model with treatment (glargine, standard care) as factor, stratified by double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event.|The total required number of first coprimary outcomes (2200) assumed that a hazard reduction of 14-16% was clinically significant and controlled the overall experiment-wise Type 1 error at 5% with a power of 80% for each outcome. The total number of participants needed to achieve this number of events within the planned enrollment and treatment periods was ultimately estimated to be 12 500 based on the CURE and HOPE study databases.||1.114|0.937|0.6273
92151104|NCT00069784|184187820|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.038||||0.2692|TWO_SIDED|95.0|0.972|1.109||The second coprimary outcome was tested at 1% (see above additional information for the first coprimary outcome).|Log Rank|Log-rank test stratified by double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event.|Hazard ratio (glargine/standard care) estimated by Cox regression model with treatment (glargine, standard care) as factor, stratified by double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event.|See above additional details provided for the analysis of the first coprimary outcome.||1.109|0.972|0.2692
92151105|NCT00069784|184187821|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.983|||||TWO_SIDED|95.0|0.899|1.076|||||Hazard ratio (glargine/standard care) estimated by Cox regression model with treatment (glargine, standard care) as factor, with double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event as covariates.|||1.076|0.899|
92151106|NCT00069784|184187822|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.97|||||TWO_SIDED|95.0|0.9|1.047|||||Hazard ratio (glargine/standard care) estimated by Cox regression model with treatment (glargine, standard care) as factor, with double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event as covariates.|||1.047|0.900|
92151107|NCT00069784|184187823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72|||||TWO_SIDED|95.0|0.58|0.91|||||Odds ratio estimated using Cochran-Mantel-Haenszel (CMH) test method stratified by double-blind treatment (omega-3 PUFA or placebo) and previous cardiovascular event (yes or no).|||0.91|0.58|
92151108|NCT01755143|184187826|SUPERIORITY_OR_OTHER||Percentage|100.0|||<|0.0001|ONE_SIDED|97.5|97.7|||A priori threshold for statistical significance was 0.025|exact test of binomial proportions|||Null Hypothesis: MRI-related complication-free rate between the MRI scan and one-month post-MRI \<90%.|||97.7|<0.0001
92151109|NCT01755143|184187827|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Risk Difference (RD)|0.0|||||TWO_SIDED|||||A priori threshold for statistical significance was 0.025. Because there were no failures in either group, a p-value could not be calculated.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group -10%.||||
92151110|NCT01755143|184187828|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Risk Difference (RD)|-0.7|||<|0.0001|TWO_SIDED|95.0|-5.4|4.1||A priori threshold for statistical significance was 0.025.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group -10%.||4.1|-5.4|<0.0001
92151111|NCT01755143|184187829|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Risk Difference (RD)|1.6|||<|0.0001|ONE_SIDED|95.0|-3.2|||A priori threshold for statistical significance was 0.05.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group - 10%.|||-3.2|<0.0001
92151112|NCT01755143|184187830|SUPERIORITY_OR_OTHER||Percentage|0.0|||<|0.0001|ONE_SIDED|95.0||1.9|||exact test of binomial proportions|A priori threshold for statistical significance was 0.05.||Null hypothesis: the proportion of subjects with sustained ventricular arrhythmias and asystole during MRI scans \>= 10%.||1.9||<0.0001
92151113|NCT01755143|184187831|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Risk Difference (RD)|0.2||||0.0004|ONE_SIDED|95.0|-4.8||||Farrington-Manning test|A priori threshold for statistical significance was 0.05.||Null hypothesis: % successes MRI group ≤ % successes Control group - 10%.|||-4.8|0.0004
92151114|NCT04466215|184187832|SUPERIORITY||Slope|-0.063|STANDARD_ERROR_OF_MEAN|0.04||0.065|TWO_SIDED|||||One-tail test of directional hypothesis.|Mixed Models Analysis|||Mixed effect model with directional hypothesis that drug reduces strength of craving (VAS). Principle predictor was drug plasma concentration. Arms were combined for this analysis.||||.065
92151115|NCT00708526|184187850|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||t-test, 2 sided|A Bonferroni correction was used.||We compared times for discharge criteria after general anesthesia with and without the QED.||||>0.05
92336654|NCT02559570|184576082|SUPERIORITY||Least Squares Mean Difference|-0.062|STANDARD_ERROR_OF_MEAN|0.239||0.7949|TWO_SIDED|95.0|-0.535|0.41|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.410|-0.535|0.7949
92151116|NCT00708526|184187851|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0|||||t-test, 2 sided|||The effect of the use of hypercapnia and increased ventilation on the time to recovery events was compared using multivariate analysis of variance with the Hotelling's two sample T2.-test and the two-tailed unpaired t-test; individual comparisons were by Bonferroni adjusted two tailed unpaired t-tests. The data was tested for normality before identifying statistical significance.||||0.039
92151117|NCT02966002|184187872|OTHER|||||||0.96|||||||t-test, 2 sided|||||||0.96
92151118|NCT02966002|184187873|OTHER|||||||0.67|||||||t-test, 2 sided|||||||0.67
92151119|NCT02966002|184187874|OTHER|||||||0.18|||||||t-test, 2 sided|||||||0.18
92151120|NCT02966002|184187875|OTHER|||||||0.25|||||||t-test, 2 sided|||||||0.25
92151121|NCT01350141|184187893|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-21.81|STANDARD_ERROR_OF_MEAN|8.385||0.0137|TWO_SIDED|95.0|-38.85|-4.77|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with treatment, background statin as independent factors and treatment by background statin interaction, baseline LDL-C as covariate.||-4.77|-38.85|0.0137
92212643|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-19.0|STANDARD_ERROR_OF_MEAN|5.39||0.0006|TWO_SIDED|95.0|-29.6|-8.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-8.4|-29.6|0.0006
92151122|NCT01350141|184187893|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.42|STANDARD_ERROR_OF_MEAN|8.463|<|0.0001|TWO_SIDED|95.0|-63.62|-29.22|||ANCOVA|||Analysis was performed using ANCOVA model with treatment, background statin as independent factors and treatment by background statin interaction, baseline LDL-C as covariate.||-29.22|-63.62|<0.0001
92151123|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.825||||0.19|TWO_SIDED|95.0|0.36|169.74|||Regression, Logistic|||Day 29 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||169.74|0.36|0.1900
92151124|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|72.518||||0.0057|TWO_SIDED|95.0|3.48|1512.1|||Regression, Logistic|||Day 29 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||1512.10|3.48|0.0057
92151125|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.75||||0.0013|TWO_SIDED|95.0|3.49|175.63|||Regression, Logistic|||Day 29 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||175.63|3.49|0.0013
92151126|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|47.326||||0.0006|TWO_SIDED|95.0|5.26|426.01|||Regression, Logistic|||Day 29 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||426.01|5.26|0.0006
92151127|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.635||||0.6611|TWO_SIDED|95.0|0.18|14.73|||Regression, Logistic|||Day 57 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||14.73|0.18|0.6611
92151128|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.486||||0.0104|TWO_SIDED|95.0|1.84|98.61|||Regression, Logistic|||Day 57 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||98.61|1.84|0.0104
92151129|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.43||||0.0282|TWO_SIDED|95.0|1.22|33.89|||Regression, Logistic|||Day 57 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||33.89|1.22|0.0282
92151130|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|15.257||||0.0042|TWO_SIDED|95.0|2.36|98.42|||Regression, Logistic|||Day 57 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||98.42|2.36|0.0042
92151131|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.967||||0.5164|TWO_SIDED|95.0|0.11|79.24|||Regression, Logistic|||Day 85 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||79.24|0.11|0.5164
92151132|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.36||||0.0445|TWO_SIDED|95.0|1.08|422.94|||Regression, Logistic|||Day 85 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||422.94|1.08|0.0445
92151133|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.157||||0.0223|TWO_SIDED|95.0|1.35|49.37|||Regression, Logistic|||Day 85 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||49.37|1.35|0.0223
92151134|NCT01350141|184187894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.587||||0.007|TWO_SIDED|95.0|2.04|90.4|||Regression, Logistic|||Day 85 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||90.40|2.04|0.0070
92151135|NCT01350141|184187895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.647||||0.2928|TWO_SIDED|95.0|0.22|142.04|||Regression, Logistic|||Day 29: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||142.04|0.22|0.2928
92151136|NCT01350141|184187895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|591.174||||0.0014|TWO_SIDED|95.0|11.68|29922.99|||Regression, Logistic|||Day 29: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||29922.99|11.68|0.0014
92151137|NCT01350141|184187895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.468||||0.2339|TWO_SIDED|95.0|0.45|26.88|||Regression, Logistic|||Day 57: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||26.88|0.45|0.2339
92151138|NCT01350141|184187895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|23.442||||0.0025|TWO_SIDED|95.0|3.03|181.11|||Regression, Logistic|||Day 57: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||181.11|3.03|0.0025
92151139|NCT01350141|184187895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.502||||0.1786|TWO_SIDED|95.0|0.38|192.32|||Regression, Logistic|||Day 85: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||192.32|0.38|0.1786
92151140|NCT01350141|184187895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|51.185||||0.0121|TWO_SIDED|95.0|2.37|1107.57|||Regression, Logistic|||Day 85: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||1107.57|2.37|0.0121
92151141|NCT01454830|184187951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.44||0.2|TWO_SIDED||||||t-test, 2 sided||unit of measurement, hours/night; positive estimation parameter favors TI group; negative estimation parameter favors UC group|Pilot RCT designed to establish effect size and feasibility outcomes; no a priori power calculation; statistical significance with hypotheses testing was not objective of the pilot trial||||0.20
92212644|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-14.6|STANDARD_ERROR_OF_MEAN|5.45||0.0084|TWO_SIDED|95.0|-25.3|-3.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||-3.8|-25.3|0.0084
92397775|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9074|TWO_SIDED|95.0|0.3|3.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.81|0.30|0.9074
92397776|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|0.41||||0.1987|TWO_SIDED|95.0|0.1|1.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.60|0.10|0.1987
92151142|NCT01454830|184187952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.48||0.9|TWO_SIDED||||||t-test, 2 sided||unit of measurement: hours/night; positive estimation parameter favors TI group; negative estimation parameter favors UC group|Pilot RCT designed to establish effect size and feasibility outcomes; no a priori power calculation; statistical significance with hypotheses testing was not objective of the pilot trial||||0.90
92151143|NCT01454830|184187953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.53||0.89|TWO_SIDED||||||t-test, 2 sided||units of measurement: hours/night; positive estimation parameter favors TI group; negative estimation parameter favors UC group|Pilot RCT designed to establish effect size and feasibility outcomes; no a priori power calculation; statistical significance with hypotheses testing was not objective of the pilot trial||||0.89
92151144|NCT01454830|184187954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|4.09||0.78|TWO_SIDED||||||t-test, 2 sided||units of measurement: % TST; positive estimation parameter favors TI group; negative estimation parameter favors UC group|Exploratory outcome of PAP use defined within the sleep period, TST (total sleep time).||||0.78
92151145|NCT03810313|184187958|NON_INFERIORITY|Non-inferiority was considered to be established if the lower limit of the corresponding 95% CI for the estimated between group difference (brolucizumab vs. aflibercept) on change from baseline in BCVA at Week 24 is \> -4 letters.|Least Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|1.2||0.173|TWO_SIDED|95.0|-5.2|-0.5|||ANOVA|||||-0.5|-5.2|0.173
92151146|NCT00872430|184187981|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92151147|NCT00872430|184187982|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||All data were collected and entered before the opening of the codes of blinding of researchers. We used t test for paired samples and test for repeated measures linear regression for variables with more than two measures.With an improvement of 40% in the tea group and of 20% in the placebo group, with a power (1-ß) of 80% and a alpha error 0.05, it was necessary to include 32 points of comparison, which would be achieved with at least 16 patients, since it's a crossover study.||||<0.001
92151148|NCT02294630|184188020|OTHER|||||||0.399|||||||t-test, 2 sided|||||||0.399
92151149|NCT02567825|184188043|SUPERIORITY||Risk Ratio (RR)|0.97||||0.66|TWO_SIDED|95.0|0.84|1.12|||Generalized linear model|The p-value is adjusted for site, age at enrollment, and exposure or nonexposure to other children.|The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the rate of occurrence of AOM per child-year during the 2-year follow-up period.||1.12|0.84|0.66
92151150|NCT02567825|184188044|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.67|1.01|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator.|Null hypothesis: There is no difference between the two groups in the rate of occurrence of AOM per child-year during the 2 year follow-up among children considered at low risk of AOM recurrences at enrollment..||1.01|0.67|
92151151|NCT02567825|184188044|SUPERIORITY||Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.86|1.33|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator.|Null hypothesis: There is no difference between the two groups in the rate of occurrence of AOM per child-year during the 2 year follow-up among children considered at high risk of AOM recurrences at enrollment.||1.33|0.86|
92151152|NCT02567825|184188044|OTHER|||||||0.08|||||||Generalized linear models|||Null hypothesis: There is no interaction between comparison group (Surgical Management, Non-Surgical Management) and risk group (children considered at low risk of AOM recurrences at enrollment, children considered at high risk of AOM recurrences at enrollment).||||0.08
92151153|NCT02567825|184188045|SUPERIORITY|||||||0.48|||||||Chi-squared|||"Null hypothesis: There is no difference between the two groups in the proportion of children completing the study with 0, 1 or 2, 3 or 4, greater than or equal to 5 episodes of AOM.~."||||0.48
92151154|NCT02567825|184188046|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.58|0.92|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of children experiencing treatment failure.||0.92|0.58|
92151155|NCT02567825|184188047|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.52|0.9|||||The Surgical Management group represents the numerator for the hazard ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups regarding the time to the first episode of AOM.||0.90|0.52|
92397777|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|2.58||||0.204|TWO_SIDED|95.0|0.6|11.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||11.18|0.60|0.2040
92212645|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|5.43||0.2422|TWO_SIDED|95.0|-17.1|4.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 18||4.4|-17.1|0.2422
92212646|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-11.7|STANDARD_ERROR_OF_MEAN|5.17||0.0249|TWO_SIDED|95.0|-21.9|-1.5||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||-1.5|-21.9|0.0249
92212647|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|5.24||0.1497|TWO_SIDED|95.0|-17.9|2.8||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||2.8|-17.9|0.1497
92273408|NCT01042977|184449253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.0489|<|0.0001|TWO_SIDED|95.0|-0.5|-0.3||Significant at alpha=0.025 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group and stratum as effects and baseline value as covariate for each endpoint|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.30|-0.50|<0.0001
92151156|NCT02567825|184188048|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.76|1.09|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of episodes categorized as probably severe.||1.09|0.76|
92151157|NCT02567825|184188049|SUPERIORITY||Risk Ratio (RR)|0.34|||||TWO_SIDED|95.0|0.26|0.44||||||Null hypothesis: There is no difference between the two groups in the proportion of episodes presenting with tympanic membrane bulging rather than otorrhea|The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|0.44|0.26|
92151158|NCT02567825|184188050|SUPERIORITY||Difference of least-squares means|5.21|||||TWO_SIDED|95.0|2.6|7.82|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean days per year children experience tube otorrhea. The analysis uses a weighted regression model with weights equal to the length of follow-up.||7.82|2.60|
92151159|NCT02567825|184188051|SUPERIORITY||Difference of least-squares means|-6.32|||||TWO_SIDED|95.0|-7.55|-5.1|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean days per year children experience AOM symptoms with an intact TM. The analysis uses a weighted regression model with weights equal to the length of follow-up.||-5.10|-7.55|
92151160|NCT02567825|184188052|SUPERIORITY||Difference of least-squares means|-4.5|||||TWO_SIDED|95.0|-6.82|-2.18|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean days per year children receive systemic antimicrobials for AOM. The analysis uses a weighted regression model with weights equal to the length of follow-up.||-2.18|-6.82|
92151161|NCT02567825|184188053|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.44|1.03|||||The Surgical Management group represents the numerator for the hazard ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups regarding the proportion of children for whom PDD was reported.||1.03|0.44|
92151162|NCT02567825|184188054|SUPERIORITY||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.51|1.22|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups regarding the proportion of children for whom diaper dermatitis was reported.||1.22|0.51|
92151163|NCT02567825|184188055|SUPERIORITY||Risk Ratio (RR)|2.57|||||TWO_SIDED|95.0|1.91|3.48|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups regarding the proportion of children for whom tube otorrhea was reported.||3.48|1.91|
92151164|NCT02567825|184188056|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.74|1.24|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of children with no pathogens at enrollment having a penicillin-nonsusceptible nasopharyngeal or throat isolate at some follow-up visit.||1.24|0.74|
92151165|NCT02567825|184188056|SUPERIORITY||Risk Ratio (RR)|1.2|||||TWO_SIDED|95.0|0.83|1.72|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of children positive only for at least 1 penicillin-susceptible pathogen at enrollment having a penicillin-nonsusceptible nasopharyngeal or throat isolate at some follow-up visit.||1.72|0.83|
92212648|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|5.23||0.691|TWO_SIDED|95.0|-12.4|8.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 20||8.2|-12.4|0.6910
92212649|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|5.68||0.0331|TWO_SIDED|95.0|-23.4|-1.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||-1.0|-23.4|0.0331
92151166|NCT02567825|184188056|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.94|1.29|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of children positive for at least 1 penicillin nonsusceptible pathogen at enrollment having a penicillin-nonsusceptible nasopharyngeal or throat isolate at some follow-up visit.||1.29|0.94|
92151167|NCT02567825|184188057|SUPERIORITY||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.84|1.55|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of episodes of AOM at which a nonsusceptible pathogen is recovered.||1.55|0.84|
92151168|NCT02567825|184188058|SUPERIORITY||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.84|1.41|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of routine non-illness visits at which a nonsusceptible pathogen is recovered.||1.41|0.84|
92151169|NCT02567825|184188059|SUPERIORITY|The analysis was ITT. The participants are randomized children with at least one episode of AOM late during the respiratory season at which a nasopharyngeal or throat culture is obtained.|Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.69|1.95|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator.|||1.95|0.69|
92151170|NCT02567825|184188060|SUPERIORITY||Difference of least-squares means|0.25|||||TWO_SIDED|95.0|-0.06|0.56|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean parental satisfaction score||0.56|-0.06|
92151171|NCT02567825|184188061|SUPERIORITY||Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.98|1.18|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of parent reports indicating at least one health care encounter since the previous study visit.||1.18|0.98|
92151172|NCT02567825|184188062|SUPERIORITY|Reports for which the parent did not answer the question were excluded from the analysis.|Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.88|1.41|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of parent reports indicating a parent missed work due to child's illness.||1.41|0.88|
92151173|NCT02567825|184188063|SUPERIORITY|Reports indicating the parent did not answer the question were excluded from the analysis.|Risk Ratio (RR)|1.15|||||TWO_SIDED|95.0|0.89|1.48|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of parent reports indicating the need for special childcare arrangements due to child's illness.||1.48|0.89|
92151174|NCT02567825|184188064|SUPERIORITY||Difference of least-square means|-0.05|||||TWO_SIDED|95.0|-0.13|0.02|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean OM-6 survey score||0.02|-0.13|
92336655|NCT02559570|184576082|SUPERIORITY||Least Squares Mean Difference|-0.074|STANDARD_ERROR_OF_MEAN|0.235||0.7543|TWO_SIDED|95.0|-0.54|0.392|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.392|-0.540|0.7543
92151175|NCT02567825|184188064|SUPERIORITY||Difference of least-square means|0.06|||||TWO_SIDED|95.0|-0.13|0.24|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean OM-6 survey--children's overall QOL score.||0.24|-0.13|
92151176|NCT02567825|184188065|SUPERIORITY||Difference of least-square means|-0.04|||||TWO_SIDED|95.0|-1.55|1.47|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean caregiver impact questionnaire score.||1.47|-1.55|
92151177|NCT02567825|184188065|SUPERIORITY||Difference of least-square means|0.03|||||TWO_SIDED|95.0|-0.14|0.2|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean caregiver impact questionnaire--caregiver's overall QOL score.||0.20|-0.14|
92151178|NCT01737684|184188068|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.27|||||TWO_SIDED|90.0|0.96|1.67|||ANCOVA|||||1.67|0.96|
92151179|NCT01737684|184188071|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.35|||||TWO_SIDED|90.0|0.88|2.06|||ANCOVA|||||2.06|0.88|
92151180|NCT03097861|184188075|OTHER|Treatment p-value is from ANCOVA using SBM count as dependent variable, treatment as fixed effect and baseline count as random effect|||||=|0.002|||||||ANCOVA|||||||=0.0020
92151181|NCT03097861|184188075|OTHER||||||<|0.0001|||||||ANCOVA|||Treatment p-value is from ANCOVA using SBM count as dependent variable, treatment as fixed effect and baseline count as random effect||||<0.0001
92151182|NCT03502616|184188124|SUPERIORITY||Difference in percentage|27.08|STANDARD_ERROR_OF_MEAN|5.71|<|0.0001|TWO_SIDED|95.0|15.89|38.28|||Cochran-Mantel-Haenszel|||Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via Cochran-Mantel-Haenszel (CMH) approach.||38.28|15.89|<0.0001
92212650|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|5.77||0.3709|TWO_SIDED|95.0|-16.6|6.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||6.2|-16.6|0.3709
92151183|NCT03502616|184188125|SUPERIORITY||Difference in percentage|28.17|STANDARD_ERROR_OF_MEAN|5.06|<|0.0001|TWO_SIDED|95.0|18.26|38.09|||Cochran-Mantel-Haenszel|||Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||38.09|18.26|<0.0001
92151184|NCT03502616|184188132|SUPERIORITY||Difference in percentage|18.28|STANDARD_ERROR_OF_MEAN|4.7||0.0001|TWO_SIDED|95.0|9.06|27.5|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||27.50|9.06|0.0001
92151185|NCT03502616|184188132|SUPERIORITY||Difference in percentage|31.35|STANDARD_ERROR_OF_MEAN|5.47|<|0.0001|TWO_SIDED|95.0|20.64|42.06|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||42.06|20.64|<0.0001
92151186|NCT03502616|184188132|SUPERIORITY||Difference in percentage|32.24|STANDARD_ERROR_OF_MEAN|5.57|<|0.0001|TWO_SIDED|95.0|21.32|43.17|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||43.17|21.32|<0.0001
92151187|NCT03502616|184188132|SUPERIORITY||Difference in percentage|34.61|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001|TWO_SIDED|95.0|23.63|45.58|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||45.58|23.63|<0.0001
92151188|NCT03502616|184188132|SUPERIORITY||Difference in percentage|3.65|STANDARD_ERROR_OF_MEAN|5.9||0.536|TWO_SIDED|95.0|-7.92|15.22|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||15.22|-7.92|0.5360
92151189|NCT03502616|184188132|SUPERIORITY||Difference in percentage|3.83|STANDARD_ERROR_OF_MEAN|5.63||0.4971|TWO_SIDED|95.0|-7.22|14.87|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||14.87|-7.22|0.4971
92336656|NCT02559570|184576082|SUPERIORITY||Least Squares Mean Difference|0.262|STANDARD_ERROR_OF_MEAN|0.235||0.2676|TWO_SIDED|95.0|-0.204|0.728|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.728|-0.204|0.2676
92151190|NCT03502616|184188132|SUPERIORITY||Difference in percentage|1.58|STANDARD_ERROR_OF_MEAN|5.65||0.7792|TWO_SIDED|95.0|-9.49|12.66|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||12.66|-9.49|0.7792
92151191|NCT03502616|184188132|SUPERIORITY||Difference in percentage|5.22|STANDARD_ERROR_OF_MEAN|5.8||0.3685|TWO_SIDED|95.0|-6.15|16.58|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||16.58|-6.15|0.3685
92151192|NCT03502616|184188133|SUPERIORITY||Difference in percentage|6.12|STANDARD_ERROR_OF_MEAN|3.19||0.0548|TWO_SIDED|95.0|-0.13|12.37|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||12.37|-0.13|0.0548
92151193|NCT03502616|184188133|SUPERIORITY||Difference in percentage|23.43|STANDARD_ERROR_OF_MEAN|4.15|<|0.0001|TWO_SIDED|95.0|15.3|31.56|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||31.56|15.30|<0.0001
92151194|NCT03502616|184188133|SUPERIORITY||Difference in percentage|28.56|STANDARD_ERROR_OF_MEAN|4.54|<|0.0001|TWO_SIDED|95.0|19.66|37.47|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||37.47|19.66|<0.0001
92151195|NCT03502616|184188133|SUPERIORITY||Difference in percentage|31.18|STANDARD_ERROR_OF_MEAN|5.02|<|0.0001|TWO_SIDED|95.0|21.34|41.02|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||41.02|21.34|<0.0001
92151196|NCT03502616|184188133|SUPERIORITY||Difference in percentage|6.29|STANDARD_ERROR_OF_MEAN|5.98||0.2926|TWO_SIDED|95.0|-5.43|18.01|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.01|-5.43|0.2926
92151197|NCT03502616|184188133|SUPERIORITY||Difference in percentage|6.37|STANDARD_ERROR_OF_MEAN|5.97||0.2856|TWO_SIDED|95.0|-5.32|18.06|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.06|-5.32|0.2856
92151198|NCT03502616|184188133|SUPERIORITY||Difference in percentage|7.83|STANDARD_ERROR_OF_MEAN|5.97||0.1894|TWO_SIDED|95.0|-3.87|19.54|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach||19.54|-3.87|0.1894
92151199|NCT03502616|184188133|SUPERIORITY||Difference in percentage|5.59|STANDARD_ERROR_OF_MEAN|6.04||0.3544|TWO_SIDED|95.0|-6.24|17.43|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach||17.43|-6.24|0.3544
92212651|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|5.77||0.6924|TWO_SIDED|95.0|-13.7|9.1||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 32||9.1|-13.7|0.6924
92212652|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-8.2|STANDARD_ERROR_OF_MEAN|5.78||0.1583|TWO_SIDED|95.0|-19.6|3.2||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||3.2|-19.6|0.1583
92212653|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|5.77||0.7193|TWO_SIDED|95.0|-13.5|9.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||9.3|-13.5|0.7193
92212654|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|5.64||0.7589|TWO_SIDED|95.0|-9.4|12.9||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 48||12.9|-9.4|0.7589
92212655|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|5.91||0.1642|TWO_SIDED|95.0|-20.0|3.4||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||3.4|-20.0|0.1642
92212656|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|5.94||0.2611|TWO_SIDED|95.0|-18.4|5.0||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||5.0|-18.4|0.2611
92212657|NCT03816891|184324406|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|5.94||0.8076|TWO_SIDED|95.0|-13.2|10.3||Estimated from ANCOVA models with treatment and randomization stratification factors of sex and years since the first nodule observed (i.e., ≥10 vs. \<10 years) as fixed effect factors, baseline as covariate.|ANCOVA|||Week 52||10.3|-13.2|0.8076
92212658|NCT04417127|184324409|SUPERIORITY|Analysis of the primary outcome was conducted using a doubly-robust generalized estimating equation (GEE) with a logit link function. Multiple imputation was used to account for missing data on baseline covariates; Rubin's rule was used for variance estimation. The GEE model included the intervention arm, used an independence working correlation matrix and variance was estimated using a sandwich variance estimator for clustered data.|Odds Ratio, log|0.84||||0.23|TWO_SIDED|95.0|0.63|1.12||Baseline values of variables (county, gender, age, education, income, viral load) were used for differential dropout adjustment for the primary comparison and differential dropout and confounding adjustments for comparisons to matched participants.|Wald test|Hypothesis: Microfinance with Integrated, Community-based Care \> Microfinance with Usual Care in terms of viral suppression at 18-months.|The intervention effect was estimated using the log odds ratio coefficient associated with the intervention in the GEE. The primary hypothesis test of intervention effect was conducted using a Wald test and 95% Wald-based confidence intervals.|For the primary outcome, the primary analysis was an intention-to-treat analysis that included all randomized participants comparing viral suppression at 18-months. Following studies of the effect of financial interventions, we powered the study to have at least 80% power to detect a 15% additive increase in viral suppression among microfinance group members receiving integrated community care compared to those receiving facility-based care, assuming 15% dropout.||1.12|0.63|0.23
92212659|NCT04417127|184324409|SUPERIORITY||Odds Ratio, log|2.16|||<|0.001|TWO_SIDED|95.0|1.48|3.19||Hypothesis: Microfinance with Integrated, Community-based Care \> Usual (Facility-based) Care in terms of viral suppression at 18-months.|Wald test|||A secondary analysis of the primary outcome included a comparison of viral suppression at 18- months, between each of the two randomized trial arms and the non-randomized, prospectively-followed, frequency-matched participants who were not engaged in microfinance. The secondary analysis used the same analytic model as the primary analysis, assuming no clustering in the non-randomized sample.||3.19|1.48|<0.001
92212660|NCT04417127|184324409|SUPERIORITY||Odds Ratio, log|1.42||||0.023|TWO_SIDED|95.0|1.05|1.92||Hypothesis: Microfinance with Usual (Facility-based) Care \> Usual (Facility-based) Care in terms of viral suppression at 18-months.|Wald test|||A secondary analysis of the primary outcome included a comparison of viral suppression at 18- months, between each of the two randomized trial arms and the non-randomized, prospectively-followed, frequency-matched participants who were not engaged in microfinance. The secondary analysis used the same analytic model as the primary analysis, assuming no clustering in the non-randomized sample.||1.92|1.05|0.023
92212661|NCT04417127|184324410|SUPERIORITY||Odds Ratio, log|3.31|||<|0.001|TWO_SIDED|95.0|2.58|4.26|||Wald test|||The retention in care analysis was an intention-to-treat analysis that included all enrolled participants and used the same analysis methods as those for the viral suppression (primary outcome) analysis. The retention in care analyses were not adjusted for multiplicity and should be considered hypothesis generating.||4.26|2.58|<0.001
92212662|NCT04417127|184324410|SUPERIORITY||Odds Ratio, log|7.51|||<|0.001|TWO_SIDED|95.0|6.0|9.55|||Wald test|||The retention in care analysis was an intention-to-treat analysis that included all enrolled participants and used the same analysis methods as those for the viral suppression (primary outcome) analysis. The retention in care analyses were not adjusted for multiplicity and should be considered hypothesis generating.||9.55|6.00|<0.001
92212663|NCT04417127|184324410|SUPERIORITY||Odds Ratio, log|2.56|||<|0.001|TWO_SIDED|95.0|2.14|3.06|||Wald test|||The retention in care analysis was an intention-to-treat analysis that included all enrolled participants and used the same analysis methods as those for the viral suppression (primary outcome) analysis. The retention in care analyses were not adjusted for multiplicity and should be considered hypothesis generating.||3.06|2.14|<0.001
92212664|NCT04417127|184324411|SUPERIORITY||Mean Difference (Final Values)|-0.206|||||TWO_SIDED|95.0|-2.595|2.183|||Wald test|||||2.183|-2.595|
92212665|NCT04417127|184324412|SUPERIORITY||Mean Difference (Final Values)|-0.4478|||||TWO_SIDED|95.0|-0.701|-0.194|||Wald test|||||-0.194|-0.701|
92212666|NCT03566810|184324454|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric Least Square(LS)Mean%|98.69|||||TWO_SIDED|90.0|92.2|105.64||||||Statistical Comparison of Test GXR Versus Reference GXR under Fasting conditions.||105.64|92.20|
92212667|NCT03566810|184324454|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric LS Mean Percentage|99.39|||||TWO_SIDED|90.0|93.15|106.05||||||Statistical Comparison of Test GXR Versus Reference GXR under Fed conditions.||106.05|93.15|
92212668|NCT03566810|184324455|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric LS Mean Percentage|98.92|||||TWO_SIDED|90.0|91.08|107.44||||||Statistical Comparison of Test GXR Versus Reference GXR under Fasting conditions.||107.44|91.08|
92212669|NCT03566810|184324455|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric LS Mean Percentage|96.89|||||TWO_SIDED|90.0|89.87|104.46||||||Statistical Comparison of Test GXR Versus Reference GXR under Fed conditions.||104.46|89.87|
92336657|NCT02559570|184576083|SUPERIORITY||Least Squares Mean Difference|-0.053|STANDARD_ERROR_OF_MEAN|0.208||0.7997|TWO_SIDED|95.0|-0.465|0.359|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.359|-0.465|0.7997
92151200|NCT03502616|184188134|SUPERIORITY||LS mean difference|-0.71|STANDARD_ERROR_OF_MEAN|0.072|<|0.0001|TWO_SIDED|95.0|-0.85|-0.57|||Mixed Models Analysis|||Week 2: Analysis performed using Mixed model for repeated measures (MMRM) which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.57|-0.85|<0.0001
92151201|NCT03502616|184188134|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.083|<|0.0001|TWO_SIDED|95.0|-1.07|-0.74|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.74|-1.07|<0.0001
92151202|NCT03502616|184188134|SUPERIORITY||LS mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.095|<|0.0001|TWO_SIDED|95.0|-1.25|-0.87|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.87|-1.25|<0.0001
92151203|NCT03502616|184188134|SUPERIORITY||LS mean difference|-1.09|STANDARD_ERROR_OF_MEAN|0.096|<|0.0001|TWO_SIDED|95.0|-1.28|-0.9|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.90|-1.28|<0.0001
92151204|NCT03502616|184188134|SUPERIORITY||LS mean difference|-0.98|STANDARD_ERROR_OF_MEAN|0.093|<|0.0001|TWO_SIDED|95.0|-1.16|-0.79|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.79|-1.16|<0.0001
92151205|NCT03502616|184188134|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.103||0.0623|TWO_SIDED|95.0|-0.4|0.01|||Mixed Models Analysis|||Week 24: Analysis performed using Mixed model for repeated measures (MMRM) which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.01|-0.40|0.0623
92151206|NCT03502616|184188134|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.106||0.0836|TWO_SIDED|95.0|-0.39|0.02|||Mixed Models Analysis|||Week 32: Analysis performed using Mixed model for repeated measures (MMRM) which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.02|-0.39|0.0836
92212670|NCT03566810|184324456|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Median point estimate difference|0.0|||||TWO_SIDED|90.0|-0.5|0.0||||||Statistical Comparison of Test GXR Versus Reference GXR under Fasting conditions.||0.00|-0.50|
92212671|NCT03566810|184324456|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Median point estimate difference|0.0|||||TWO_SIDED|90.0|-0.5|0.5||||||Statistical Comparison of Test GXR Versus Reference GXR under Fed conditions.||0.50|-0.50|
92151207|NCT03502616|184188134|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.108||0.0205|TWO_SIDED|95.0|-0.47|-0.04|||Mixed Models Analysis|||Week 40: Analysis performed using Mixed model for repeated measures (MMRM) which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.04|-0.47|0.0205
92151208|NCT03502616|184188134|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.108||0.0614|TWO_SIDED|95.0|-0.42|0.01|||Mixed Models Analysis|||Week 48: Analysis performed using Mixed model for repeated measures (MMRM) which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.01|-0.42|0.0614
92212672|NCT03566810|184324458|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric LS Mean Percentage|97.89|||||TWO_SIDED|90.0|91.38|104.86||||||Statistical Comparison of Test GXR Versus Reference GXR under Fasting conditions.||104.86|91.38|
92212673|NCT03566810|184324458|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric LS Mean Percentage|98.08|||||TWO_SIDED|90.0|92.37|104.14||||||Statistical Comparison of Test GXR Versus Reference GXR under Fed conditions.||104.14|92.37|
92212674|NCT01444651|184324477|SUPERIORITY_OR_OTHER||beta estimate|-1.25|STANDARD_ERROR_OF_MEAN|1.29||0.34|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the change in HOMA-IR (3 month minus baseline value), comparing tadalafil versus placebo groups after adjusting for baseline HOMA-IR.||||0.34
92212675|NCT01444651|184324478|SUPERIORITY_OR_OTHER||beta estimate|0.96|STANDARD_ERROR_OF_MEAN|0.68||0.18|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the change in Matsuda Index (3-month minus baseline), comparing tadalafil versus placebo groups after adjusting for baseline value.||||0.18
92212676|NCT01444651|184324479|SUPERIORITY_OR_OTHER||beta estimate|-0.18|STANDARD_ERROR_OF_MEAN|0.58||0.76|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the difference in EndoPAT (3-month minus baseline), comparing tadalafil to placebo groups after adjusting for baseline values.||||0.76
92212677|NCT01444651|184324480|SUPERIORITY_OR_OTHER||beta estimate|1.48|STANDARD_ERROR_OF_MEAN|0.77||0.06|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the change in insulinogenic index (3-month minus baseline), comparing tadalafil to placebo groups after adjusting for baseline value.||||0.06
92212678|NCT01444651|184324481|SUPERIORITY_OR_OTHER||beta estimate|3.76|STANDARD_ERROR_OF_MEAN|1.38||0.009|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the change in oral disposition index (3-month minus baseline), comparing tadalafil versus placebo groups after adjusting for baseline value.||||0.009
92212679|NCT01444651|184324482|SUPERIORITY_OR_OTHER||beta estimate|8.09|STANDARD_ERROR_OF_MEAN|4.05||0.05|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the change in Matsuda disposition index (3-month minus baseline), comparing tadalafil to placebo groups after adjusting for baseline value.||||0.05
92212680|NCT02952001|184324541|SUPERIORITY|||||||0.562||||||The a priori threshold for statistical significance was 0.050. No adjustments made or required for multiplicity.|Log-rank chi-square test|||The null hypothesis of no difference in the survival time distributions was tested.||||0.562
92212681|NCT00148954|184324545|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.34||||0.003|TWO_SIDED|95.0|1.11|1.62|||Regression, Cox|||||1.62|1.11|0.003
92212682|NCT01681628|184324549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.9|STANDARD_ERROR_OF_MEAN|2.0|<|0.001|TWO_SIDED|95.0|16.1|24.0||This was an a priori threshold.|t-test, 2 sided|||Means and differences were calculated for both groups before (time 1) and after treatment (or no treatment) (time 2). Also, the differences in mean scores from time 1 to 2 were compared between the two groups, the primary outcome. The numbers in the groups were considered adequate based on previous similar studies. The null hypothesis was that there would be no difference in any mean change in scores from time 1 to 2, between both groups.||24.0|16.1|<0.001
92212683|NCT01681628|184324549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.4|STANDARD_DEVIATION|14.7|<|0.001|TWO_SIDED|95.0|29.1|34.7|||t-test, 2 sided|||Change in PCL-C scores from before to after treatment.||34.7|29.1|<0.001
92212684|NCT01681628|184324549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.4|STANDARD_DEVIATION|14.2|<|0.001|TWO_SIDED|95.0|11.4|17.1|||t-test, 2 sided|||Changes in PCL-C scores for control group after no treatment.||17.1|11.4|<0.001
92212685|NCT01681628|184324549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.6|STANDARD_DEVIATION|13.5|<|0.001|TWO_SIDED|95.0|17.1|22.5|||t-test, 2 sided|Degrees of freedom 94||Change in control group PCL-C scores after treatment, that is from time 2 to time 3.||22.5|17.1|<0.001
92212686|NCT01681628|184324550|SUPERIORITY_OR_OTHER||percentage of participants|65.7|||<|0.001|TWO_SIDED||||||Chi-squared|||Chi-squared test of any change in PCL-C from time 1 to time 2.||||<0.001
92212687|NCT01681628|184324550|SUPERIORITY_OR_OTHER||% of participants with PCL score > 50|41.0|||<|0.001|TWO_SIDED||||||Chi-squared|||Comparison of the percentage with diagnostic scores in the wait list group after no treatment at times 1 and 2.||||<0.001
92212688|NCT01681628|184324550|SUPERIORITY_OR_OTHER||Percentage|39.9|||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92212689|NCT01681628|184324551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.8|||<|0.001|TWO_SIDED|95.0|15.2|20.5|||t-test, 2 sided|||Both the original treatment and control groups were combined as both groups had been treated at a similar time before the nineteen month assessment. The null hypothesis was that there had been no change in the PCL-C scores at nineteen months compared to one week following treatment.||20.5|15.2|<0.001
92212690|NCT04796896|184324572|NON_INFERIORITY|"The noninferiority of GM value (based on GLSM) was considered demonstrated if:~The lower bound of the 95% confidence interval (CI) of the geometric mean ratio (GMR) was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold)."|GMR|1.224|||||TWO_SIDED|95.0|1.061|1.413||||||||1.413|1.061|
92212691|NCT04796896|184324573|NON_INFERIORITY|"The noninferiority of GM value (based on GLSM) was considered demonstrated if the following were true:~The lower bound of the 95% CI of the GMR was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold)."|GMR|0.995|||||TWO_SIDED|95.0|0.87|1.139||||||||1.139|0.870|
92212692|NCT04796896|184324573|NON_INFERIORITY|"The noninferiority of GM value (based on GLSM) was considered demonstrated if the following were true:~The lower bound of the 95% CI of the GMR was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold)."|GMR|1.257|||||TWO_SIDED|95.0|1.101|1.434||||||||1.434|1.101|
92212693|NCT04796896|184324574|NON_INFERIORITY|The noninferiority of the SRR was considered demonstrated if the following were true: The lower bound of the 95% CI of the SRR difference was \>-10% based on the noninferiority margin of 10% and the SRR difference point estimate was ≥-5% (minimum threshold).|percentage difference|-0.3|||||TWO_SIDED|95.0|-2.2|1.6||||||||1.6|-2.2|
92212694|NCT04796896|184324575|NON_INFERIORITY|The noninferiority of the SRR was considered demonstrated if the following were true: The lower bound of the 95% CI of the SRR difference was \>-10% based on the noninferiority margin of 10% and the SRR difference point estimate was ≥-5% (minimum threshold).|percentage difference|-0.4|||||TWO_SIDED|95.0|-2.5|1.5||||||||1.5|-2.5|
92212695|NCT04796896|184324575|NON_INFERIORITY|The noninferiority of the SRR was considered demonstrated if the following were true: The lower bound of the 95% CI of the SRR difference was \>-10% based on the noninferiority margin of 10% and the SRR difference point estimate was ≥-5% (minimum threshold).|percentage difference|0.7|||||TWO_SIDED|95.0|-0.8|2.4||||||||2.4|-0.8|
92212696|NCT04796896|184324576|NON_INFERIORITY|"The noninferiority of GM value (based on GLSM) was considered demonstrated if the following were true:~The lower bound of the 95% CI of the GMR was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold)."|GMR|3.897|||||TWO_SIDED|95.0|3.158|4.808||||||||4.808|3.158|
92212697|NCT04796896|184324576|NON_INFERIORITY|"The noninferiority of GM value (based on GLSM) was considered demonstrated if the following were true:~The lower bound of the 95% CI of the GMR was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold)."|GMR|3.982|||||TWO_SIDED|95.0|3.404|4.657||||||||4.657|3.404|
92151209|NCT03502616|184188135|SUPERIORITY||LS mean difference|-0.93|STANDARD_ERROR_OF_MEAN|0.113|<|0.0001|TWO_SIDED|95.0|-1.15|-0.7|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.70|-1.15|<0.0001
92151210|NCT03502616|184188135|SUPERIORITY||LS mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.121|<|0.0001|TWO_SIDED|95.0|-1.16|-0.68|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.68|-1.16|<0.0001
92151211|NCT03502616|184188135|SUPERIORITY||LS mean difference|-1.02|STANDARD_ERROR_OF_MEAN|0.196|<|0.0001|TWO_SIDED|95.0|-1.4|-0.63|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.63|-1.40|<0.0001
92151212|NCT03502616|184188135|SUPERIORITY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.115|<|0.0001|TWO_SIDED|95.0|-1.19|-0.74|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.74|-1.19|<0.0001
92151213|NCT03502616|184188135|SUPERIORITY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.122|<|0.0001|TWO_SIDED|95.0|-1.2|-0.72|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.72|-1.20|<0.0001
92151214|NCT03502616|184188135|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.073||0.4731|TWO_SIDED|95.0|-0.2|0.09|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.09|-0.20|0.4731
92151215|NCT03502616|184188135|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.094||0.4055|TWO_SIDED|95.0|-0.26|0.11|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.11|-0.26|0.4055
92151216|NCT03502616|184188135|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.111||0.2648|TWO_SIDED|95.0|-0.34|0.09|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.09|-0.34|0.2648
92151217|NCT03502616|184188135|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.099||0.5558|TWO_SIDED|95.0|-0.25|0.14|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.14|-0.25|0.5558
92151218|NCT03502616|184188136|SUPERIORITY||LS mean difference|-2.02|STANDARD_ERROR_OF_MEAN|0.513||0.0001|TWO_SIDED|95.0|-3.03|-1.01|||ANCOVA|||Week 16: Analysis performed using Analysis of covariance (ANCOVA) model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-1.01|-3.03|0.0001
92151219|NCT03502616|184188136|SUPERIORITY||LS mean difference|-1.26|STANDARD_ERROR_OF_MEAN|0.567||0.027|TWO_SIDED|95.0|-2.38|-0.14|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.14|-2.38|0.0270
92151220|NCT03502616|184188137|SUPERIORITY||LS mean difference|2.22|STANDARD_ERROR_OF_MEAN|0.841||0.0088|TWO_SIDED|95.0|0.56|3.88|||ANCOVA|||Week 16, Physical Functioning: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||3.88|0.56|0.0088
92151221|NCT03502616|184188137|SUPERIORITY||LS mean difference|3.0|STANDARD_ERROR_OF_MEAN|0.939||0.0016|TWO_SIDED|95.0|1.15|4.85|||ANCOVA|||Week 16, Role-Physical: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||4.85|1.15|0.0016
92151222|NCT03502616|184188137|SUPERIORITY||LS mean difference|4.46|STANDARD_ERROR_OF_MEAN|0.9|<|0.0001|TWO_SIDED|95.0|2.69|6.23|||ANCOVA|||Week 16, Bodily Pain: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||6.23|2.69|<0.0001
92151223|NCT03502616|184188137|SUPERIORITY||LS mean difference|3.24|STANDARD_ERROR_OF_MEAN|0.781|<|0.0001|TWO_SIDED|95.0|1.7|4.78|||ANCOVA|||Week 16, General Health: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||4.78|1.70|<0.0001
92151224|NCT03502616|184188137|SUPERIORITY||LS mean difference|1.78|STANDARD_ERROR_OF_MEAN|1.098||0.1065|TWO_SIDED|95.0|-0.38|3.94|||ANCOVA|||Week 16, Vitality: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||3.94|-0.38|0.1065
92151225|NCT03502616|184188137|SUPERIORITY||LS mean difference|2.96|STANDARD_ERROR_OF_MEAN|1.059||0.0055|TWO_SIDED|95.0|0.88|5.05|||ANCOVA|||Week 16, Social Functioning: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||5.05|0.88|0.0055
92151226|NCT03502616|184188137|SUPERIORITY||LS mean difference|2.08|STANDARD_ERROR_OF_MEAN|1.289||0.1084|TWO_SIDED|95.0|-0.46|4.61|||ANCOVA|||Week 16, Role-Emotional: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||4.61|-0.46|0.1084
92151227|NCT03502616|184188137|SUPERIORITY||LS mean difference|1.08|STANDARD_ERROR_OF_MEAN|1.124||0.3379|TWO_SIDED|95.0|-1.13|3.29|||ANCOVA|||Week 16, Mental Health: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||3.29|-1.13|0.3379
92151228|NCT03502616|184188137|SUPERIORITY||LS mean difference|3.55|STANDARD_ERROR_OF_MEAN|0.744|<|0.0001|TWO_SIDED|95.0|2.09|5.02|||ANCOVA|||Week 16, Physical Component Summary: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||5.02|2.09|<0.0001
92151229|NCT03502616|184188137|SUPERIORITY||LS mean difference|1.33|STANDARD_ERROR_OF_MEAN|1.158||0.2529|TWO_SIDED|95.0|-0.95|3.61|||ANCOVA|||Week 16, Mental Component Summary: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||3.61|-0.95|0.2529
92151230|NCT03502616|184188137|SUPERIORITY||LS mean difference|0.86|STANDARD_ERROR_OF_MEAN|0.964||0.3744|TWO_SIDED|95.0|-1.04|2.76|||Mixed Models Analysis|||Week 48, Physical Functioning: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.76|-1.04|0.3744
92151231|NCT03502616|184188137|SUPERIORITY||LS mean difference|1.36|STANDARD_ERROR_OF_MEAN|1.083||0.2091|TWO_SIDED|95.0|-0.77|3.5|||Mixed Models Analysis|||Week 48, Role-Physical: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.50|-0.77|0.2091
92151232|NCT03502616|184188137|SUPERIORITY||LS mean difference|2.12|STANDARD_ERROR_OF_MEAN|1.146||0.0654|TWO_SIDED|95.0|-0.14|4.38|||Mixed Models Analysis|||Week 48, Bodily Pain: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.38|-0.14|0.0654
92151233|NCT03502616|184188137|SUPERIORITY||LS mean difference|1.22|STANDARD_ERROR_OF_MEAN|0.968||0.21|TWO_SIDED|95.0|-0.69|3.12|||Mixed Models Analysis|||Week 48, General Health: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.12|-0.69|0.2100
92151234|NCT03502616|184188137|SUPERIORITY||LS mean difference|0.56|STANDARD_ERROR_OF_MEAN|1.248||0.6568|TWO_SIDED|95.0|-1.9|3.01|||Mixed Models Analysis|||Week 48, Vitality: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.01|-1.90|0.6568
92151235|NCT03502616|184188137|SUPERIORITY||LS mean difference|1.39|STANDARD_ERROR_OF_MEAN|1.152||0.2288|TWO_SIDED|95.0|-0.88|3.66|||Mixed Models Analysis|||Week 48, Social Functioning: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.66|-0.88|0.2288
92212698|NCT04796896|184324578|NON_INFERIORITY|The noninferiority of the SRR was considered demonstrated if the following were true: The lower bound of the 95% CI of the SRR difference was \>-10% based on the noninferiority margin of 10% and the SRR difference point estimate was ≥-5% (minimum threshold).|percentage difference|0.7|||||TWO_SIDED|95.0|-4.4|2.4||||||||2.4|-4.4|
92151236|NCT03502616|184188137|SUPERIORITY||LS mean difference|0.85|STANDARD_ERROR_OF_MEAN|1.25||0.4955|TWO_SIDED|95.0|-1.61|3.32|||Mixed Models Analysis|||Week 48, Role-Emotional: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.32|-1.61|0.4955
92151237|NCT03502616|184188137|SUPERIORITY||LS mean difference|0.65|STANDARD_ERROR_OF_MEAN|1.2||0.5888|TWO_SIDED|95.0|-1.71|3.01|||Mixed Models Analysis|||Week 48, Mental Health: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.01|-1.71|0.5888
92151238|NCT03502616|184188137|SUPERIORITY||LS mean difference|1.42|STANDARD_ERROR_OF_MEAN|0.896||0.115|TWO_SIDED|95.0|-0.35|3.18|||Mixed Models Analysis|||Week 48, Physical Component Summary: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.18|-0.35|0.1150
92151239|NCT03502616|184188137|SUPERIORITY||LS mean difference|0.72|STANDARD_ERROR_OF_MEAN|1.158||0.5347|TWO_SIDED|95.0|-1.56|3.0|||Mixed Models Analysis|||Week 48, Mental Component Summary: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.00|-1.56|0.5347
92151240|NCT03502616|184188138|SUPERIORITY||LS mean difference|1.29|STANDARD_ERROR_OF_MEAN|0.898||0.1513|TWO_SIDED|95.0|-0.48|3.06|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.06|-0.48|0.1513
92151241|NCT03502616|184188138|SUPERIORITY||LS mean difference|1.56|STANDARD_ERROR_OF_MEAN|1.02||0.1279|TWO_SIDED|95.0|-0.45|3.56|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.56|-0.45|0.1279
92212699|NCT04796896|184324578|NON_INFERIORITY|The noninferiority of the SRR was considered demonstrated if the following were true: The lower bound of the 95% CI of the SRR difference was \>-10% based on the noninferiority margin of 10% and the SRR difference point estimate was ≥-5% (minimum threshold).|percentage difference|0.7|||||TWO_SIDED|95.0|-2.2|2.4||||||||2.4|-2.2|
92212700|NCT04796896|184324587|OTHER|The 95% confidence interval (CI) of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.706|||||TWO_SIDED|95.0|0.325|0.873|||||Vaccine efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.873|0.325|
92212701|NCT04796896|184324587|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.409|||||TWO_SIDED|95.0|0.287|0.509|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.509|0.287|
92212702|NCT04796896|184324587|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.324|||||TWO_SIDED|95.0|0.127|0.474|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.474|0.127|
92212703|NCT04796896|184324588|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.683|||||TWO_SIDED|95.0|0.151|0.882|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.882|0.151|
92212704|NCT04796896|184324588|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.281|||||TWO_SIDED|95.0|-0.007|0.48|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.480|-0.007|
92212705|NCT04796896|184324588|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|-0.068|||||TWO_SIDED|95.0|-0.832|0.352|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.352|-0.832|
92212706|NCT04796896|184324589|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.76|||||TWO_SIDED|95.0|-0.416|0.965|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.965|-0.416|
92212707|NCT04796896|184324589|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.466|||||TWO_SIDED|95.0|0.328|0.574|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.574|0.328|
92212708|NCT04796896|184324589|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.432|||||TWO_SIDED|95.0|0.232|0.576|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.576|0.232|
92212709|NCT02021292|184324591|SUPERIORITY||ratio of geometric means|0.84||||0.041|TWO_SIDED|95.0|0.7|0.99|||ANCOVA|ANCOVA model on log-transformed % of baseline PVR at Week 16 adjusted by treatment as a factor and log transformed PVR at baseline as a covariate.||The null hypothesis (change of PVR at rest in Week 16 in percent of baseline PVR in subjects treated with placebo or macitentan is the same) is tested on the primary endpoint by means of an analysis of covariance (ANCOVA) model on the log(e) transformed % of baseline PVR at rest at Week 16.||0.99|0.70|0.0410
92212710|NCT02021292|184324592|SUPERIORITY||least squares (LS) mean difference|34.04||||0.0326|TWO_SIDED|95.0|2.9|65.2||To control multiplicity across all endpoints, secondary endpoints were analyzed in sequence using hierarchical approach based on order and significance as pre-specified in protocol eliminating further adjustment for multiple comparisons.|ANCOVA|||The null hypothesis is that the mean change from baseline in 6MWD at Week 24 is the same in the placebo and the macitentan group. Statistical model is ANCOVA including 6MWD at baseline as a covariate, with treatment as factor in the model.||65.2|2.9|0.0326
92212711|NCT02021292|184324593|SUPERIORITY||least squares (LS) mean difference|-0.39||||0.3492|TWO_SIDED|95.0|-1.21|0.43||To control multiplicity across all endpoints, secondary endpoints were analyzed in sequence using hierarchical approach based on order and significance as pre-specified in protocol eliminating further adjustment for multiple comparisons.|ANCOVA|||The null hypothesis is that the mean change from baseline is the same in the placebo and the macitentan group. Statistical model is Analysis of Covariance including Borg dyspnea index at baseline as a covariate, with Treatment as factor in the model.||0.43|-1.21|0.3492
92212712|NCT02021292|184324594|SUPERIORITY||Odds Ratio (OR)|0.212||||0.0962|TWO_SIDED|95.0|0.001|1.464||To control multiplicity across all endpoints, secondary endpoints were analyzed in sequence using hierarchical approach based on order and significance as pre-specified in protocol eliminating further adjustment for multiple comparisons.|ANCOVA|||The null hypothesis is the odds of worsening are the same in the placebo and the macitentan group. Logistic regression is used for Treatment Group vs. Placebo comparison to generate odds ratio, confidence levels, and p-values with treatment and WHO functional class at baseline as factors in the model.||1.464|0.001|0.0962
92212713|NCT02021292|184324595|SUPERIORITY||Model-adjusted geometric mean ratio|0.81||||0.0098|TWO_SIDED|95.0|0.7|0.95||This is the post-hoc analysis and p-value is an exploratory p-value.|ANCOVA|ANCOVA model on log-transformed % of baseline PVR at Week 16 adjusted by treatment as a factor and log transformed PVR at baseline as a covariate.||The same statistical model as for the predefined analysis (ANCOVA) was applied, including 13 subjects with corrected hemodynamic values.||0.95|0.70|0.0098
92212714|NCT02021292|184324596|SUPERIORITY||Model-adjusted geometric mean ratio|0.79||||0.0061|TWO_SIDED|95.0|0.68|0.93||This is the post-hoc analysis and p-value is an exploratory p-value.|ANCOVA|ANCOVA model on log-transformed % of baseline PVR at Week 16 adjusted by treatment as a factor and log transformed PVR at baseline as a covariate.||||0.93|0.68|0.0061
92212715|NCT02021292|184324597|SUPERIORITY||Geometric mean ratio|0.85||||0.0414|TWO_SIDED|95.0|0.73|0.99||This is the post-hoc analysis and p-value is an exploratory p-value.|ANCOVA|ANCOVA model on log-transformed % of baseline PVR at Week 16 adjusted by treatment as a factor and log transformed PVR at baseline as a covariate.||||0.99|0.73|0.0414
92212716|NCT02021292|184324598|SUPERIORITY||least squares (LS) mean difference|37.19||||0.0468|TWO_SIDED|95.0|0.54|73.83||This is the post-hoc analysis and p-value is an exploratory p-value.|ANCOVA|Statistical model is ANCOVA including 6MWD at baseline as a covariate, with treatment as factor in the model.||||73.83|0.54|0.0468
92212717|NCT04356183|184324599|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
92212718|NCT04356183|184324600|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
92151242|NCT03502616|184188138|SUPERIORITY||LS mean difference|3.83|STANDARD_ERROR_OF_MEAN|1.056||0.0003|TWO_SIDED|95.0|1.75|5.9|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||5.90|1.75|0.0003
92212719|NCT04356183|184324601|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
92212720|NCT01676909|184324622|SUPERIORITY|||||||0.362|||||||Mixed Models Analysis|||To test hypothesis 1, regarding the three SF-12 subscales, a linear mixed effects models was used. All available data were used from all three assessment time points. Group, time, and group-by-time terms were included in the model. To test for a group difference in mean change from baseline to post-intervention, the significance test of the group-by-post-intervention coefficient was performed. A logistic mixed model for change in proportion with an ED visit was used to test hypothesis 2.||||0.362
92212721|NCT01676909|184324623|SUPERIORITY|||||||0.026|||||||Mixed Models Analysis|||To test hypothesis 1, regarding the three SF-12 subscales, a linear mixed effects models was used. All available data were used from all three assessment time points. Group, time, and group-by-time terms were included in the model. To test for a group difference in mean change from baseline to post-intervention, the significance test of the group-by-post-intervention coefficient was performed. A logistic mixed model for change in proportion with an ED visit was used to test hypothesis 2.||||0.026
92212722|NCT01676909|184324624|SUPERIORITY|||||||0.032|||||||Mixed Models Analysis|||To test hypothesis 1, regarding the three SF-12 subscales, a linear mixed effects models was used. All available data were used from all three assessment time points. Group, time, and group-by-time terms were included in the model. To test for a group difference in mean change from baseline to post-intervention, the significance test of the group-by-post-intervention coefficient was performed. A logistic mixed model for change in proportion with an ED visit was used to test hypothesis 2.||||0.032
92212723|NCT01676909|184324625|SUPERIORITY|||||||0.64|||||||Mixed Models Analysis|||A logistic mixed effects model over two 6-month time periods (prior to baseline and between baseline and the 6-month follow-up visit) was used. Terms in the model included group, binary time (pre-f/u versus pre-baseline), and group by time interaction. Two-sided alpha = .05 level tests were used. The hypothesis that the proportion with ER visits would decrease in the Living Well group versus the control group was tests by test of the interaction term.||||.64
92212724|NCT01676909|184324626|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||<.0001
92212725|NCT01676909|184324627|SUPERIORITY|||||||0.038|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.038
92212726|NCT01676909|184324628|SUPERIORITY|||||||0.544|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.544
92212727|NCT01676909|184324629|SUPERIORITY|||||||0.699|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.699
92212728|NCT01676909|184324630|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.006
92212729|NCT01676909|184324631|SUPERIORITY|||||||0.762|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.762
92212730|NCT01676909|184324632|SUPERIORITY|||||||0.326|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.326
92336658|NCT02559570|184576083|SUPERIORITY||Least Squares Mean Difference|-0.121|STANDARD_ERROR_OF_MEAN|0.207||0.5602|TWO_SIDED|95.0|-0.53|0.288|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.288|-0.530|0.5602
92212731|NCT01676909|184324633|SUPERIORITY|||||||0.667|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.667
92151243|NCT03502616|184188138|SUPERIORITY||LS mean difference|3.32|STANDARD_ERROR_OF_MEAN|1.282||0.0102|TWO_SIDED|95.0|0.79|5.84|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||5.84|0.79|0.0102
92151244|NCT03502616|184188138|SUPERIORITY||LS mean difference|4.73|STANDARD_ERROR_OF_MEAN|1.285||0.0003|TWO_SIDED|95.0|2.2|7.26|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||7.26|2.20|0.0003
92151245|NCT03502616|184188138|SUPERIORITY||LS mean difference|0.19|STANDARD_ERROR_OF_MEAN|1.439||0.895|TWO_SIDED|95.0|-2.64|3.02|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.02|-2.64|0.8950
92151246|NCT03502616|184188138|SUPERIORITY||LS mean difference|-0.98|STANDARD_ERROR_OF_MEAN|1.365||0.4732|TWO_SIDED|95.0|-3.67|1.71|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.71|-3.67|0.4732
92151247|NCT03502616|184188138|SUPERIORITY||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|1.523||0.6359|TWO_SIDED|95.0|-3.72|2.28|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.28|-3.72|0.6359
92151248|NCT03502616|184188138|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|1.495||0.6894|TWO_SIDED|95.0|-3.54|2.35|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.35|-3.54|0.6894
92151249|NCT03502616|184188139|SUPERIORITY||LS mean difference|1.39|STANDARD_ERROR_OF_MEAN|0.94||0.141|TWO_SIDED|95.0|-0.46|3.24|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.24|-0.46|0.1410
92151250|NCT03502616|184188139|SUPERIORITY||LS mean difference|2.78|STANDARD_ERROR_OF_MEAN|1.102||0.0122|TWO_SIDED|95.0|0.61|4.95|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.95|0.61|0.0122
92151251|NCT03502616|184188139|SUPERIORITY||LS mean difference|3.32|STANDARD_ERROR_OF_MEAN|1.252||0.0085|TWO_SIDED|95.0|0.86|5.79|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||5.79|0.86|0.0085
92212732|NCT01676909|184324634|SUPERIORITY|||||||0.142|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.142
92212733|NCT01676909|184324635|SUPERIORITY|||||||0.342|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.342
92212734|NCT01676909|184324636|SUPERIORITY|||||||0.563|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.563
92212735|NCT01676909|184324637|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.004
92212736|NCT01676909|184324638|SUPERIORITY|||||||0.727|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.727
92212737|NCT01676909|184324639|SUPERIORITY|||||||0.446|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.446
92212738|NCT01676909|184324640|SUPERIORITY|||||||0.459|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.459
92212739|NCT01676909|184324641|SUPERIORITY|||||||0.038|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.038
92212740|NCT01676909|184324642|SUPERIORITY|||||||0.238|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.238
92212741|NCT01676909|184324643|SUPERIORITY|||||||0.011|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.011
92212742|NCT01676909|184324644|SUPERIORITY|||||||0.709|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.709
92212743|NCT01676909|184324645|SUPERIORITY|||||||0.134|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.134
92212744|NCT01676909|184324646|SUPERIORITY|||||||0.045|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.045
92212745|NCT01676909|184324647|SUPERIORITY|||||||0.099|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.099
92212746|NCT01676909|184324648|SUPERIORITY|||||||0.852|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.852
92212747|NCT01676909|184324649|SUPERIORITY|||||||0.285|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.285
92212748|NCT01676909|184324650|SUPERIORITY|||||||0.222|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.222
92212749|NCT00823901|184324671|SUPERIORITY_OR_OTHER|||||||0.15|||||||t-test, 2 sided|||||||0.15
92212750|NCT01369511|184324672|SUPERIORITY_OR_OTHER|||||||0.527|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 12||||0.527
92212751|NCT01369511|184324672|SUPERIORITY_OR_OTHER|||||||0.291|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 12||||0.291
92212752|NCT01369511|184324672|SUPERIORITY_OR_OTHER|||||||0.129|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 12||||0.129
92212753|NCT01369511|184324673|SUPERIORITY_OR_OTHER|||||||0.751|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 8||||0.751
92212754|NCT01369511|184324673|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 8||||0.066
92212755|NCT01369511|184324673|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 8||||0.031
92212756|NCT01369511|184324673|SUPERIORITY_OR_OTHER|||||||0.315|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 16||||0.315
92212757|NCT01369511|184324673|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 16||||0.002
92212758|NCT01369511|184324673|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 16||||0.007
92212759|NCT01376349|184324674|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92212760|NCT01376349|184324674|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92212761|NCT00696761|184324707|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92212762|NCT00696761|184324708|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Kruskal-Wallis|||The Kruskal-Wallis test, analysis of variance, and the Wilcoxon signed rank-sum test were used to compare changes from baseline to endpoint after treatment.||||<0.05
92212763|NCT01294683|184324766|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.206||||0.654|TWO_SIDED|95.0|-1.434|0.936|||Miettinen and Nurminen|||Periods I/II||0.936|-1.434|0.654
92212764|NCT01294683|184324766|SUPERIORITY_OR_OTHER||Difference in Percentages|1.304||||0.09|TWO_SIDED|95.0|-0.427|3.768|||Miettinen and Nurminen|||Period III||3.768|-0.427|0.090
92212765|NCT01294683|184324767|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.206||||0.563|TWO_SIDED|95.0|-1.303|0.779|||Miettinen and Nurminen|||Periods I/II||0.779|-1.303|0.563
92212766|NCT01294683|184324767|SUPERIORITY_OR_OTHER||Difference in Percentages|0.87||||0.166|TWO_SIDED|95.0|-0.858|3.118|||Miettinen and Nurminen|||Period III||3.118|-0.858|0.166
92212767|NCT01294683|184324769|SUPERIORITY_OR_OTHER||Difference in Percentages|0.87||||0.166|TWO_SIDED|95.0|-0.858|3.118|||Miettinen and Nurminen|||Period III||3.118|-0.858|0.166
92212768|NCT01294683|184324772|SUPERIORITY_OR_OTHER||Difference in Percentages|0.617||||0.255|TWO_SIDED|95.0|-0.575|2.023|||Miettinen and Nurminen|||Periods I/II||2.023|-0.575|0.255
92212769|NCT01294683|184324772|SUPERIORITY_OR_OTHER||Difference in Percentages|0.395||||0.69|TWO_SIDED|95.0|-2.091|2.966|||Miettinen and Nurminen|||Period III||2.966|-2.091|0.690
92212770|NCT01294683|184324773|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-0.967|0.967|||Miettinen and Nurminen|||Periods I/II||0.967|-0.967|>0.999
92212771|NCT01294683|184324774|SUPERIORITY_OR_OTHER||Difference in Percentages|-1.029|||||TWO_SIDED|95.0|-7.301|5.252|||Miettinen and Nurminen||Miettinen and Nurminen Method|Periods I/II||5.252|-7.301|
92212772|NCT01294683|184324774|SUPERIORITY_OR_OTHER||Difference in Percentages|0.889|||||TWO_SIDED|95.0|-7.599|9.338|||||Miettinen and Nurminen Method|Period III||9.338|-7.599|
92212773|NCT01294683|184324775|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.412|||||TWO_SIDED|95.0|-4.28|3.45||||||Periods I/II||3.450|-4.280|
92212774|NCT01294683|184324775|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.533|||||TWO_SIDED|95.0|-3.916|2.619|||||Miettinen and Nurminen Method|Period III||2.619|-3.916|
92212775|NCT01794923|184324776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|TWO_SIDED||||||ANOVA|||Analysis was performed using an analysis of variance (ANOVA) model with treatment, baseline categorical pain severity rating (PSR), sex, and baseline muscle soreness with movement (MSM) terms.||||0.200
92212776|NCT01794923|184324776|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|7.6||||0.23|TWO_SIDED|95.0|-4.81|19.92|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical pain severity rating (PSR), sex, and baseline muscle soreness with movement (MSM) terms.||19.92|-4.81|0.230
92212777|NCT01794923|184324776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.4||||0.484|TWO_SIDED|95.0|-16.81|7.99|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical pain severity rating (PSR), sex, and baseline muscle soreness with movement (MSM) terms.||7.99|-16.81|0.484
92212778|NCT01794923|184324776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|12.0||||0.077|TWO_SIDED|95.0|-1.32|25.25|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical pain severity rating (PSR), sex, and baseline muscle soreness with movement (MSM) terms.||25.25|-1.32|0.077
92212779|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86|TWO_SIDED||||||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.860
92212780|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|7.0||||0.584|TWO_SIDED|95.0|-18.3|32.38|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||32.38|-18.30|0.584
92212781|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.6||||0.838|TWO_SIDED|95.0|-22.77|28.06|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||28.06|-22.77|0.838
92212782|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.4||||0.75|TWO_SIDED|95.0|-22.81|31.61|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||31.61|-22.81|0.750
92212783|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY|||||||0.533|TWO_SIDED||||||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.533
92212784|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-13.9||||0.326|TWO_SIDED|95.0|-41.81|13.95|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||13.95|-41.81|0.326
92273409|NCT01042977|184449254|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.0|||<|0.0001|TWO_SIDED|95.0|4.3|9.8||Significant at alpha=0.025 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|Cochran-Mantel-Haenszel|with age-by-insulin use-by-time from most recent qualifying CV event as stratum||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||9.8|4.3|<0.0001
92397778|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|0.51||||0.3318|TWO_SIDED|95.0|0.13|1.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.99|0.13|0.3318
92397779|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.26||||0.7437|TWO_SIDED|95.0|0.31|5.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.10|0.31|0.7437
92397780|NCT03192176|184689407|SUPERIORITY||Odds Ratio (OR)|1.3||||0.6848|TWO_SIDED|95.0|0.36|4.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||4.71|0.36|0.6848
92397781|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.12||||0.1114|TWO_SIDED|95.0|0.84|5.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||5.32|0.84|0.1114
92151252|NCT03502616|184188139|SUPERIORITY||LS mean difference|3.36|STANDARD_ERROR_OF_MEAN|1.416||0.0184|TWO_SIDED|95.0|0.57|6.15|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.15|0.57|0.0184
92397782|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|4.69||||0.0013|TWO_SIDED|95.0|1.83|12.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.04|1.83|0.0013
92397783|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|7.01|||<|0.0001|TWO_SIDED|95.0|2.65|18.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||18.54|2.65|<0.0001
92397784|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|4.96||||0.001|TWO_SIDED|95.0|1.91|12.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.89|1.91|0.0010
92397785|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.25||||0.6384|TWO_SIDED|95.0|0.49|3.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||3.22|0.49|0.6384
92397786|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|5.77||||0.0003|TWO_SIDED|95.0|2.23|14.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||14.93|2.23|0.0003
92397787|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|4.15||||0.0025|TWO_SIDED|95.0|1.65|10.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||10.45|1.65|0.0025
92397788|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.82||||0.0279|TWO_SIDED|95.0|1.12|7.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.12|1.12|0.0279
92397789|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0114|TWO_SIDED|95.0|1.31|8.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.61|1.31|0.0114
92397790|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|7.55||||0.0001|TWO_SIDED|95.0|2.66|21.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||21.45|2.66|0.0001
92397791|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|6.41||||0.0005|TWO_SIDED|95.0|2.25|18.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||18.26|2.25|0.0005
92397792|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.37||||0.0695|TWO_SIDED|95.0|0.93|6.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.02|0.93|0.0695
92397793|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|4.83||||0.0015|TWO_SIDED|95.0|1.83|12.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.77|1.83|0.0015
92151253|NCT03502616|184188139|SUPERIORITY||LS mean difference|4.19|STANDARD_ERROR_OF_MEAN|1.38||0.0026|TWO_SIDED|95.0|1.47|6.91|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.91|1.47|0.0026
92151254|NCT03502616|184188139|SUPERIORITY||LS mean difference|3.4|STANDARD_ERROR_OF_MEAN|1.495||0.0236|TWO_SIDED|95.0|0.46|6.35|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.35|0.46|0.0236
92151255|NCT03502616|184188139|SUPERIORITY||LS mean difference|3.66|STANDARD_ERROR_OF_MEAN|1.541||0.0182|TWO_SIDED|95.0|0.63|6.7|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.70|0.63|0.0182
92151256|NCT03502616|184188139|SUPERIORITY||LS mean difference|3.85|STANDARD_ERROR_OF_MEAN|1.545||0.0133|TWO_SIDED|95.0|0.81|6.9|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.90|0.81|0.0133
92151257|NCT03502616|184188139|SUPERIORITY||LS mean difference|3.49|STANDARD_ERROR_OF_MEAN|1.541||0.0245|TWO_SIDED|95.0|0.45|6.52|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.52|0.45|0.0245
92151258|NCT03502616|184188140|SUPERIORITY||LS mean difference|0.81|STANDARD_ERROR_OF_MEAN|0.257||0.0018|TWO_SIDED|95.0|0.3|1.32|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.32|0.30|0.0018
92151259|NCT03502616|184188140|SUPERIORITY||LS mean difference|1.06|STANDARD_ERROR_OF_MEAN|0.301||0.0005|TWO_SIDED|95.0|0.47|1.65|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.65|0.47|0.0005
92151260|NCT03502616|184188140|SUPERIORITY||LS mean difference|1.19|STANDARD_ERROR_OF_MEAN|0.305||0.0001|TWO_SIDED|95.0|0.59|1.79|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.79|0.59|0.0001
92151261|NCT03502616|184188140|SUPERIORITY||LS mean difference|1.63|STANDARD_ERROR_OF_MEAN|0.274|<|0.0001|TWO_SIDED|95.0|1.09|2.17|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.17|1.09|<0.0001
92151262|NCT03502616|184188140|SUPERIORITY||LS mean difference|1.87|STANDARD_ERROR_OF_MEAN|0.344|<|0.0001|TWO_SIDED|95.0|1.2|2.55|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.55|1.20|<0.0001
92212785|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.0||||0.945|TWO_SIDED|95.0|-26.98|28.94|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||28.94|-26.98|0.945
92397794|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.28||||0.012|TWO_SIDED|95.0|1.3|8.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.28|1.30|0.0120
92151263|NCT03502616|184188140|SUPERIORITY||LS mean difference|0.95|STANDARD_ERROR_OF_MEAN|0.353||0.0075|TWO_SIDED|95.0|0.26|1.65|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.65|0.26|0.0075
92151264|NCT03502616|184188140|SUPERIORITY||LS mean difference|0.58|STANDARD_ERROR_OF_MEAN|0.403||0.1489|TWO_SIDED|95.0|-0.21|1.38|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.38|-0.21|0.1489
92151265|NCT03502616|184188140|SUPERIORITY||LS mean difference|0.78|STANDARD_ERROR_OF_MEAN|0.417||0.0609|TWO_SIDED|95.0|-0.04|1.61|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.61|-0.04|0.0609
92212786|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.9||||0.327|TWO_SIDED|95.0|-44.85|15.03|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||15.03|-44.85|0.327
92212787|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY|||||||0.988|TWO_SIDED||||||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.988
92397795|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.49||||0.662|TWO_SIDED|95.0|0.94|6.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.57|0.94|0.662
92212788|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.2||||0.887|TWO_SIDED|95.0|-48.31|41.81|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||41.81|-48.31|0.887
92397796|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.22||||0.1019|TWO_SIDED|95.0|0.85|5.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.80|0.85|0.1019
92397797|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|5.44||||0.0023|TWO_SIDED|95.0|1.83|16.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||16.18|1.83|0.0023
92397798|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|7.33||||0.0015|TWO_SIDED|95.0|2.15|25.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||25.02|2.15|0.0015
92397799|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.78||||0.238|TWO_SIDED|95.0|0.68|4.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||4.66|0.68|0.2380
92397800|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.61||||0.012|TWO_SIDED|95.0|1.33|9.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.81|1.33|0.0120
92397801|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.25||||0.091|TWO_SIDED|95.0|0.88|5.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.77|0.88|0.0910
92397802|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.93||||0.1926|TWO_SIDED|95.0|0.72|5.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.18|0.72|0.1926
92397803|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.29||||0.1017|TWO_SIDED|95.0|0.85|6.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.15|0.85|0.1017
92397804|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.85||||0.0153|TWO_SIDED|95.0|1.29|11.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||11.45|1.29|0.0153
92397805|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|7.52||||0.0034|TWO_SIDED|95.0|1.95|28.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||28.98|1.95|0.0034
92397806|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.44||||0.4539|TWO_SIDED|95.0|0.55|3.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||3.76|0.55|0.4539
92397807|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.03||||0.0327|TWO_SIDED|95.0|1.1|8.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.40|1.10|0.0327
92397808|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.67||||0.0555|TWO_SIDED|95.0|0.98|7.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.30|0.98|0.0555
92397809|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.64||||0.3505|TWO_SIDED|95.0|0.58|4.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.67|0.58|0.3505
92397810|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.92||||0.0265|TWO_SIDED|95.0|1.17|13.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.11|1.17|0.0265
92397811|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|4.77||||0.0174|TWO_SIDED|95.0|1.32|17.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||17.32|1.32|0.0174
92397812|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|8.95||||0.0075|TWO_SIDED|95.0|1.8|44.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||44.61|1.80|0.0075
92212789|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.7||||0.907|TWO_SIDED|95.0|-47.88|42.5|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||42.50|-47.88|0.907
92212790|NCT01794923|184324777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.982|TWO_SIDED|95.0|-48.95|47.83|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||47.83|-48.95|0.982
92212791|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63|TWO_SIDED||||||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.630
92151266|NCT03502616|184188140|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.429||0.4822|TWO_SIDED|95.0|-0.54|1.15|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.15|-0.54|0.4822
92151267|NCT03502616|184188141|SUPERIORITY||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.131||0.0047|TWO_SIDED|95.0|0.12|0.63|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.63|0.12|0.0047
92151268|NCT03502616|184188141|SUPERIORITY||LS mean difference|0.52|STANDARD_ERROR_OF_MEAN|0.131||0.0001|TWO_SIDED|95.0|0.26|0.77|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.77|0.26|0.0001
92151269|NCT03502616|184188141|SUPERIORITY||LS mean difference|0.49|STANDARD_ERROR_OF_MEAN|0.148||0.0012|TWO_SIDED|95.0|0.19|0.78|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.78|0.19|0.0012
92151270|NCT03502616|184188141|SUPERIORITY||LS mean difference|0.48|STANDARD_ERROR_OF_MEAN|0.142||0.0008|TWO_SIDED|95.0|0.2|0.76|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.76|0.20|0.0008
92151271|NCT03502616|184188141|SUPERIORITY||LS mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.147||0.0004|TWO_SIDED|95.0|0.24|0.81|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.81|0.24|0.0004
92151272|NCT03502616|184188141|SUPERIORITY||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|0.188||0.0918|TWO_SIDED|95.0|-0.05|0.69|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.69|-0.05|0.0918
92151273|NCT03502616|184188141|SUPERIORITY||LS mean difference|0.25|STANDARD_ERROR_OF_MEAN|0.179||0.16|TWO_SIDED|95.0|-0.1|0.61|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.61|-0.10|0.1600
92151274|NCT03502616|184188141|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.195||0.6776|TWO_SIDED|95.0|-0.3|0.47|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.47|-0.30|0.6776
92397813|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.46||||0.1228|TWO_SIDED|95.0|0.78|7.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.68|0.78|0.1228
92151275|NCT03502616|184188141|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5646|TWO_SIDED|95.0|-0.25|0.46|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.46|-0.25|0.5646
92151276|NCT03502616|184188142|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.161||0.7291|TWO_SIDED|95.0|-0.26|0.37|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.37|-0.26|0.7291
92151277|NCT03502616|184188142|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.184||0.0257|TWO_SIDED|95.0|-0.78|-0.05|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.05|-0.78|0.0257
92212792|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.342|TWO_SIDED|95.0|-0.39|0.14|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.14|-0.39|0.342
92212793|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.6|TWO_SIDED|95.0|-0.34|0.19|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.19|-0.34|0.600
92212794|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.691|TWO_SIDED|95.0|-0.34|0.23|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.23|-0.34|0.691
92212795|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.091|TWO_SIDED||||||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.091
92151278|NCT03502616|184188142|SUPERIORITY||LS mean difference|-0.86|STANDARD_ERROR_OF_MEAN|0.227||0.0002|TWO_SIDED|95.0|-1.31|-0.42|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.42|-1.31|0.0002
92212796|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.351|TWO_SIDED|95.0|-0.44|0.16|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.16|-0.44|0.351
92212797|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.029|TWO_SIDED|95.0|-0.64|-0.04|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||-0.04|-0.64|0.029
92212798|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.238|TWO_SIDED|95.0|-0.13|0.52|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.52|-0.13|0.238
92212799|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.305|TWO_SIDED||||||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.305
92212800|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.37|TWO_SIDED|95.0|-0.54|0.2|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.20|-0.54|0.370
92212801|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.13|TWO_SIDED|95.0|-0.66|0.09|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.09|-0.66|0.130
92212802|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.561|TWO_SIDED|95.0|-0.28|0.51|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.51|-0.28|0.561
92212803|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.209|TWO_SIDED||||||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.209
92212804|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.277|TWO_SIDED|95.0|-0.68|0.19|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.19|-0.68|0.277
92212805|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.085|TWO_SIDED|95.0|-0.82|0.05|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.05|-0.82|0.085
92212806|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.546|TWO_SIDED|95.0|-0.32|0.61|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.61|-0.32|0.546
92212807|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.185|TWO_SIDED||||||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.185
92212808|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.4|TWO_SIDED|95.0|-0.64|0.26|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.26|-0.64|0.400
92212809|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.067|TWO_SIDED|95.0|-0.88|0.03|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.03|-0.88|0.067
92212810|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.35|TWO_SIDED|95.0|-0.25|0.71|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.71|-0.25|0.350
92212811|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.493|TWO_SIDED||||||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.493
92212812|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.922|TWO_SIDED|95.0|-0.53|0.48|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.48|-0.53|0.922
92397814|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.28||||0.0431|TWO_SIDED|95.0|1.04|10.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||10.38|1.04|0.0431
92151279|NCT03502616|184188142|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.216||0.0041|TWO_SIDED|95.0|-1.05|-0.2|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.20|-1.05|0.0041
92151280|NCT03502616|184188142|SUPERIORITY||LS mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.215||0.0062|TWO_SIDED|95.0|-1.02|-0.17|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.17|-1.02|0.0062
92151281|NCT03502616|184188142|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.255||0.014|TWO_SIDED|95.0|-1.13|-0.13|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.13|-1.13|0.0140
92151282|NCT03502616|184188142|SUPERIORITY||LS mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.225||0.0035|TWO_SIDED|95.0|-1.11|-0.22|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.22|-1.11|0.0035
92212813|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.265|TWO_SIDED|95.0|-0.8|0.22|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.22|-0.80|0.265
92212814|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.342|TWO_SIDED|95.0|-0.28|0.81|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.81|-0.28|0.342
92212815|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.311|TWO_SIDED||||||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.311
92212816|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.865|TWO_SIDED|95.0|-0.49|0.58|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.58|-0.49|0.865
92212817|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.193|TWO_SIDED|95.0|-0.89|0.18|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.18|-0.89|0.193
92212818|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.17|TWO_SIDED|95.0|-0.17|0.97|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.97|-0.17|0.170
92212819|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.383|TWO_SIDED||||||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.383
92212820|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.802|TWO_SIDED|95.0|-0.48|0.62|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.62|-0.48|0.802
92212821|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.26|TWO_SIDED|95.0|-0.87|0.24|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.24|-0.87|0.260
92212822|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.199|TWO_SIDED|95.0|-0.21|0.98|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.98|-0.21|0.199
92212823|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.139|TWO_SIDED||||||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.139
92212824|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.441|TWO_SIDED|95.0|-0.35|0.8|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.80|-0.35|0.441
92212825|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.183|TWO_SIDED|95.0|-0.96|0.18|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.18|-0.96|0.183
92212826|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6||||0.05|TWO_SIDED|95.0|0.0|1.23|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.23|-0.00|0.050
92212827|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.221|TWO_SIDED||||||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.221
92212828|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.526|TWO_SIDED|95.0|-0.4|0.79|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.79|-0.40|0.526
92397815|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0851|TWO_SIDED|95.0|0.87|8.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.35|0.87|0.0851
92397816|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.45||||0.4726|TWO_SIDED|95.0|0.53|3.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.99|0.53|0.4726
92397817|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.29||||0.1289|TWO_SIDED|95.0|0.79|6.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.67|0.79|0.1289
92212829|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.4||||0.232|TWO_SIDED|95.0|-0.96|0.23|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.23|-0.96|0.232
92212830|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6||||0.089|TWO_SIDED|95.0|-0.08|1.19|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.19|-0.08|0.089
92212831|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19|TWO_SIDED||||||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.190
92212832|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.365|TWO_SIDED|95.0|-0.31|0.85|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.85|-0.31|0.365
92212833|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.295|TWO_SIDED|95.0|-0.89|0.27|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.27|-0.89|0.295
92212834|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6||||0.069|TWO_SIDED|95.0|-0.05|1.2|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.20|-0.05|0.069
92212835|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.197|TWO_SIDED||||||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.197
92212836|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.309|TWO_SIDED|95.0|-0.29|0.92|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.92|-0.29|0.309
92212837|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.359|TWO_SIDED|95.0|-0.89|0.33|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.33|-0.89|0.359
92212838|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6||||0.072|TWO_SIDED|95.0|-0.05|1.25|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.25|-0.05|0.072
92212839|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.151|TWO_SIDED||||||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.151
92212840|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6||||0.09|TWO_SIDED|95.0|-0.1|1.32|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.32|-0.10|0.090
92212841|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.889|TWO_SIDED|95.0|-0.76|0.66|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.66|-0.76|0.889
92212842|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.7||||0.088|TWO_SIDED|95.0|-0.1|1.42|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.42|-0.10|0.088
92212843|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.673|TWO_SIDED||||||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.673
92212844|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.393|TWO_SIDED|95.0|-0.41|1.04|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.04|-0.41|0.393
92212845|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.887|TWO_SIDED|95.0|-0.67|0.78|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.78|-0.67|0.887
92212846|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.507|TWO_SIDED|95.0|-0.51|1.04|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.04|-0.51|0.507
92212847|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.873|TWO_SIDED||||||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.873
92212848|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.605|TWO_SIDED|95.0|-0.58|1.0|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.00|-0.58|0.605
92212849|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.86|TWO_SIDED|95.0|-0.72|0.86|||ANOVA|||26 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.86|-0.72|0.860
92212850|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.751|TWO_SIDED|95.0|-0.71|0.98|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.98|-0.71|0.751
92212851|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.528|TWO_SIDED||||||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.528
92212852|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.486|TWO_SIDED|95.0|-1.09|0.52|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.52|-1.09|0.486
92212853|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.61|TWO_SIDED|95.0|-0.6|1.02|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.02|-0.60|0.610
92212854|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5||||0.261|TWO_SIDED|95.0|-1.36|0.37|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.37|-1.36|0.261
92212855|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.943|TWO_SIDED||||||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.943
92212856|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.733|TWO_SIDED|95.0|-0.96|0.68|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.68|-0.96|0.733
92212857|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.902|TWO_SIDED|95.0|-0.87|0.77|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.77|-0.87|0.902
92212858|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.84|TWO_SIDED|95.0|-0.97|0.79|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.79|-0.97|0.840
92212859|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.758|TWO_SIDED||||||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.758
92212860|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.493|TWO_SIDED|95.0|-1.12|0.54|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.54|-1.12|0.493
92212861|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.974|TWO_SIDED|95.0|-0.84|0.82|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.82|-0.84|0.974
92212862|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.543|TWO_SIDED|95.0|-1.16|0.61|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.61|-1.16|0.543
92212863|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.238|TWO_SIDED||||||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.238
92212864|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7||||0.106|TWO_SIDED|95.0|-1.46|0.14|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.14|-1.46|0.106
92212865|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.817|TWO_SIDED|95.0|-0.9|0.71|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.71|-0.90|0.817
92212866|NCT01794923|184324778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.197|TWO_SIDED|95.0|-1.43|0.3|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.30|-1.43|0.197
92212867|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.702|TWO_SIDED||||||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||||0.702
92212868|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.8||||0.664|TWO_SIDED|95.0|-9.91|15.53|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||15.53|-9.91|0.664
92212869|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.0||||0.637|TWO_SIDED|95.0|-15.77|9.68|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||9.68|-15.77|0.637
92212870|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.9||||0.401|TWO_SIDED|95.0|-7.85|19.57|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||19.57|-7.85|0.401
92212871|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.926|TWO_SIDED||||||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||||0.926
92212872|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.2||||0.743|TWO_SIDED|95.0|-29.51|21.1|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||21.10|-29.51|0.743
92212873|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.8||||0.952|TWO_SIDED|95.0|-24.55|26.08|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||26.08|-24.55|0.952
92212874|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.0||||0.719|TWO_SIDED|95.0|-32.25|22.3|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||22.30|-32.25|0.719
92212875|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.284|TWO_SIDED||||||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||||0.284
92212876|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-19.0||||0.171|TWO_SIDED|95.0|-46.21|8.28|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||8.28|-46.21|0.171
92212877|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.2||||0.875|TWO_SIDED|95.0|-25.08|29.42|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||29.42|-25.08|0.875
92212878|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-21.1||||0.157|TWO_SIDED|95.0|-50.5|8.23|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||8.23|-50.50|0.157
92212879|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.699|TWO_SIDED||||||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||||0.699
92212880|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-17.8||||0.433|TWO_SIDED|95.0|-62.58|26.9|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||26.90|-62.58|0.433
92212881|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0||||0.966|TWO_SIDED|95.0|-45.73|43.78|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||43.78|-45.73|0.966
92212882|NCT01794923|184324779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-16.9||||0.491|TWO_SIDED|95.0|-65.08|31.36|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||31.36|-65.08|0.491
92212883|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.219|TWO_SIDED||||||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.219
92212884|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.214|TWO_SIDED|95.0|-0.37|0.08|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.08|-0.37|0.214
92212885|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.555|TWO_SIDED|95.0|-0.16|0.29|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.29|-0.16|0.555
92212886|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.09|TWO_SIDED|95.0|-0.45|0.03|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.03|-0.45|0.090
92212887|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.161|TWO_SIDED||||||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.161
92212888|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.056|TWO_SIDED|95.0|-0.55|0.01|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.01|-0.55|0.056
92397818|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.39||||0.04|TWO_SIDED|95.0|1.06|10.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||10.84|1.06|0.0400
92151283|NCT03502616|184188142|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.253||0.0645|TWO_SIDED|95.0|-0.97|0.03|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.03|-0.97|0.0645
92397819|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|8.22||||0.0097|TWO_SIDED|95.0|1.67|40.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||40.55|1.67|0.0097
92151284|NCT03502616|184188142|SUPERIORITY||LS mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.255||0.0341|TWO_SIDED|95.0|-1.05|-0.04|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.04|-1.05|0.0341
92151285|NCT03502616|184188143|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.056||0.0001|TWO_SIDED|95.0|-0.33|-0.11|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.11|-0.33|0.0001
92151286|NCT03502616|184188143|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001|TWO_SIDED|95.0|-0.47|-0.2|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.20|-0.47|<0.0001
92151287|NCT03502616|184188143|SUPERIORITY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|-0.61|-0.31|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.31|-0.61|<0.0001
92151288|NCT03502616|184188143|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|-0.62|-0.32|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.32|-0.62|<0.0001
92151289|NCT03502616|184188143|SUPERIORITY||LS mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.077|<|0.0001|TWO_SIDED|95.0|-0.67|-0.37|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.37|-0.67|<0.0001
92151290|NCT03502616|184188143|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.086||0.0008|TWO_SIDED|95.0|-0.46|-0.12|||LS mean difference|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.12|-0.46|0.0008
92151291|NCT03502616|184188143|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.086||0.0116|TWO_SIDED|95.0|-0.39|-0.05|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.05|-0.39|0.0116
92151292|NCT03502616|184188143|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.093||0.0416|TWO_SIDED|95.0|-0.37|-0.01|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.01|-0.37|0.0416
92212889|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.395|TWO_SIDED|95.0|-0.4|0.16|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.16|-0.40|0.395
92151293|NCT03502616|184188143|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.092||0.0915|TWO_SIDED|95.0|-0.34|0.03|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.03|-0.34|0.0915
92151294|NCT03502616|184188144|SUPERIORITY||LS mean difference|2.85|STANDARD_ERROR_OF_MEAN|0.706|<|0.0001|TWO_SIDED|95.0|1.46|4.24|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.24|1.46|<0.0001
92151295|NCT03502616|184188144|SUPERIORITY||LS mean difference|3.61|STANDARD_ERROR_OF_MEAN|0.761|<|0.0001|TWO_SIDED|95.0|2.11|5.1|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||5.10|2.11|<0.0001
92151296|NCT03502616|184188144|SUPERIORITY||LS mean difference|5.42|STANDARD_ERROR_OF_MEAN|0.902|<|0.0001|TWO_SIDED|95.0|3.65|7.2|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||7.20|3.65|<0.0001
92212890|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.324|TWO_SIDED|95.0|-0.45|0.15|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.15|-0.45|0.324
92212891|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.246|TWO_SIDED||||||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.246
92212892|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.094|TWO_SIDED|95.0|-0.68|0.05|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.05|-0.68|0.094
92212893|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.491|TWO_SIDED|95.0|-0.5|0.24|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.24|-0.50|0.491
92212894|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.359|TWO_SIDED|95.0|-0.58|0.21|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.21|-0.58|0.359
92212895|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.294|TWO_SIDED||||||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.294
92212896|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.136|TWO_SIDED|95.0|-0.74|0.1|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.10|-0.74|0.136
92212897|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.293|TWO_SIDED|95.0|-0.65|0.2|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.20|-0.65|0.293
92212898|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.682|TWO_SIDED|95.0|-0.55|0.36|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.36|-0.55|0.682
92212899|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.747|TWO_SIDED||||||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.747
92212900|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.592|TWO_SIDED|95.0|-0.6|0.34|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.34|-0.60|0.592
92212901|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.473|TWO_SIDED|95.0|-0.64|0.3|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.30|-0.64|0.473
92212902|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.866|TWO_SIDED|95.0|-0.46|0.55|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.55|-0.46|0.866
92212903|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.776|TWO_SIDED||||||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.776
92212904|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.761|TWO_SIDED|95.0|-0.59|0.43|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.43|-0.59|0.761
92212905|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.477|TWO_SIDED|95.0|-0.69|0.33|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.33|-0.69|0.477
92212906|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.705|TWO_SIDED|95.0|-0.44|0.65|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.65|-0.44|0.705
92212907|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|TWO_SIDED||||||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.600
92212908|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.931|TWO_SIDED|95.0|-0.52|0.56|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.56|-0.52|0.931
92212909|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.381|TWO_SIDED|95.0|-0.78|0.3|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.30|-0.78|0.381
92212910|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.371|TWO_SIDED|95.0|-0.32|0.85|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.85|-0.32|0.371
92212911|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.67|TWO_SIDED||||||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.670
92212912|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.941|TWO_SIDED|95.0|-0.54|0.58|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.58|-0.54|0.941
92212913|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.437|TWO_SIDED|95.0|-0.78|0.34|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.34|-0.78|0.437
92212914|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.429|TWO_SIDED|95.0|-0.36|0.84|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.84|-0.36|0.429
92212915|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.484|TWO_SIDED||||||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.484
92212916|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.504|TWO_SIDED|95.0|-0.38|0.78|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.78|-0.38|0.504
92212917|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.528|TWO_SIDED|95.0|-0.77|0.4|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.40|-0.77|0.528
92212918|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.229|TWO_SIDED|95.0|-0.24|1.01|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||1.01|-0.24|0.229
92212919|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.536|TWO_SIDED||||||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.536
92212920|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.728|TWO_SIDED|95.0|-0.49|0.7|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.70|-0.49|0.728
92212921|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.414|TWO_SIDED|95.0|-0.84|0.35|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.35|-0.84|0.414
92212922|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.28|TWO_SIDED|95.0|-0.29|0.99|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.99|-0.29|0.280
92212923|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.402|TWO_SIDED||||||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.402
92212924|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.513|TWO_SIDED|95.0|-0.41|0.81|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.81|-0.41|0.513
92212925|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.424|TWO_SIDED|95.0|-0.86|0.36|||ANOVA|||11 hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.36|-0.86|0.424
92212926|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.178|TWO_SIDED|95.0|-0.21|1.1|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||1.10|-0.21|0.178
92212927|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.442|TWO_SIDED||||||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.442
92212928|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.357|TWO_SIDED|95.0|-0.33|0.91|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.91|-0.33|0.357
92212929|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.675|TWO_SIDED|95.0|-0.75|0.49|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.49|-0.75|0.675
92212930|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.215|TWO_SIDED|95.0|-0.25|1.09|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||1.09|-0.25|0.215
92212931|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.643|TWO_SIDED||||||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.643
92212932|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.466|TWO_SIDED|95.0|-0.46|0.99|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.99|-0.46|0.466
92212933|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.818|TWO_SIDED|95.0|-0.81|0.64|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.64|-0.81|0.818
92212934|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.373|TWO_SIDED|95.0|-0.43|1.13|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||1.13|-0.43|0.373
92212935|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.984|TWO_SIDED||||||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.984
92212936|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.874|TWO_SIDED|95.0|-0.79|0.68|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.68|-0.79|0.874
92212937|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.99|TWO_SIDED|95.0|-0.73|0.74|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.74|-0.73|0.990
92212938|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.875|TWO_SIDED|95.0|-0.85|0.73|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.73|-0.85|0.875
92212939|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.841|TWO_SIDED||||||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.841
92212940|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.58|TWO_SIDED|95.0|-1.01|0.57|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.57|-1.01|0.580
92212941|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.958|TWO_SIDED|95.0|-0.81|0.77|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.77|-0.81|0.958
92212942|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.643|TWO_SIDED|95.0|-1.05|0.65|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.65|-1.05|0.643
92212943|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.299|TWO_SIDED||||||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.299
92212944|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.5||||0.23|TWO_SIDED|95.0|-1.26|0.31|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.31|-1.26|0.230
92151297|NCT03502616|184188144|SUPERIORITY||LS mean difference|5.01|STANDARD_ERROR_OF_MEAN|0.943|<|0.0001|TWO_SIDED|95.0|3.15|6.86|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.86|3.15|<0.0001
92151298|NCT03502616|184188144|SUPERIORITY||LS mean difference|3.43|STANDARD_ERROR_OF_MEAN|1.012||0.0008|TWO_SIDED|95.0|1.44|5.42|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||5.42|1.44|0.0008
92151299|NCT03502616|184188144|SUPERIORITY||LS mean difference|1.58|STANDARD_ERROR_OF_MEAN|1.064||0.139|TWO_SIDED|95.0|-0.52|3.68|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.68|-0.52|0.1390
92151300|NCT03502616|184188144|SUPERIORITY||LS mean difference|0.66|STANDARD_ERROR_OF_MEAN|1.024||0.5217|TWO_SIDED|95.0|-1.36|2.67|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.67|-1.36|0.5217
92151301|NCT03502616|184188144|SUPERIORITY||LS mean difference|1.51|STANDARD_ERROR_OF_MEAN|1.027||0.1415|TWO_SIDED|95.0|-0.51|3.54|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.54|-0.51|0.1415
92151302|NCT03502616|184188144|SUPERIORITY||LS mean difference|2.19|STANDARD_ERROR_OF_MEAN|1.128||0.0533|TWO_SIDED|95.0|-0.03|4.41|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.41|-0.03|0.0533
92151303|NCT03502616|184188145|SUPERIORITY||LS mean difference|1.25|STANDARD_ERROR_OF_MEAN|0.352||0.0005|TWO_SIDED|95.0|0.55|1.94|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.94|0.55|0.0005
92151304|NCT03502616|184188145|SUPERIORITY||LS mean difference|1.7|STANDARD_ERROR_OF_MEAN|0.381|<|0.0001|TWO_SIDED|95.0|0.95|2.45|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.45|0.95|<0.0001
92151305|NCT03502616|184188145|SUPERIORITY||LS mean difference|2.19|STANDARD_ERROR_OF_MEAN|0.423|<|0.0001|TWO_SIDED|95.0|1.35|3.02|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.02|1.35|<0.0001
92151306|NCT03502616|184188145|SUPERIORITY||LS mean difference|1.98|STANDARD_ERROR_OF_MEAN|0.439|<|0.0001|TWO_SIDED|95.0|1.11|2.84|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.84|1.11|<0.0001
92151307|NCT03502616|184188145|SUPERIORITY||LS mean difference|1.56|STANDARD_ERROR_OF_MEAN|0.454||0.0007|TWO_SIDED|95.0|0.67|2.45|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.45|0.67|0.0007
92212945|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.694|TWO_SIDED|95.0|-0.63|0.94|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.94|-0.63|0.694
92212946|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.14|TWO_SIDED|95.0|-1.48|0.21|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.21|-1.48|0.140
92212947|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.503|TWO_SIDED||||||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.503
92151308|NCT03502616|184188145|SUPERIORITY||LS mean difference|0.62|STANDARD_ERROR_OF_MEAN|0.485||0.2018|TWO_SIDED|95.0|-0.33|1.58|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.58|-0.33|0.2018
92151309|NCT03502616|184188145|SUPERIORITY||LS mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.465||0.6432|TWO_SIDED|95.0|-0.7|1.13|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.13|-0.70|0.6432
92151310|NCT03502616|184188145|SUPERIORITY||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|0.47||0.4092|TWO_SIDED|95.0|-0.54|1.31|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.31|-0.54|0.4092
92397820|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.97||||0.226|TWO_SIDED|95.0|0.66|5.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.94|0.66|0.2260
92397821|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|8.63||||0.0031|TWO_SIDED|95.0|2.07|35.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||35.96|2.07|0.0031
92397822|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|10.16||||0.0043|TWO_SIDED|95.0|2.07|49.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||49.90|2.07|0.0043
92212948|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5||||0.262|TWO_SIDED|95.0|-1.28|0.35|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.35|-1.28|0.262
92212949|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.871|TWO_SIDED|95.0|-0.88|0.75|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.75|-0.88|0.871
92212950|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.373|TWO_SIDED|95.0|-1.27|0.48|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.48|-1.27|0.373
92212951|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.413|TWO_SIDED||||||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.413
92212952|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.317|TWO_SIDED|95.0|-1.22|0.4|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.40|-1.22|0.317
92212953|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.708|TWO_SIDED|95.0|-0.66|0.97|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.97|-0.66|0.708
92212954|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.202|TWO_SIDED|95.0|-1.44|0.31|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.31|-1.44|0.202
92212955|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19|TWO_SIDED||||||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.190
92212956|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7||||0.094|TWO_SIDED|95.0|-1.44|0.11|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.11|-1.44|0.094
92212957|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.96|TWO_SIDED|95.0|-0.8|0.76|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.76|-0.80|0.960
92397823|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.38||||0.5571|TWO_SIDED|95.0|0.47|4.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.04|0.47|0.5571
92397824|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.13||||0.1911|TWO_SIDED|95.0|0.69|6.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.59|0.69|0.1911
92397825|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.74||||0.1101|TWO_SIDED|95.0|0.8|9.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.41|0.80|0.1101
92397826|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|6.86||||0.0199|TWO_SIDED|95.0|1.36|34.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||34.74|1.36|0.0199
92397827|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.96||||0.26|TWO_SIDED|95.0|0.61|6.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.33|0.61|0.2600
92397828|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|8.93||||0.009|TWO_SIDED|95.0|1.73|46.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||46.19|1.73|0.0090
92397829|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|17.22||||0.0089|TWO_SIDED|95.0|2.04|145.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||145.2|2.04|0.0089
92212958|NCT01794923|184324780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.132|TWO_SIDED|95.0|-1.48|0.2|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.20|-1.48|0.132
92212959|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.163|TWO_SIDED||||||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.163
92212960|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.6||||0.162|TWO_SIDED|95.0|-1.86|11.02|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||11.02|-1.86|0.162
92212961|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.9||||0.559|TWO_SIDED|95.0|-8.42|4.57|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||4.57|-8.42|0.559
92212962|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.5||||0.066|TWO_SIDED|95.0|-0.44|13.45|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||13.45|-0.44|0.066
92397830|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8966|TWO_SIDED|95.0|0.36|3.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.19|0.36|0.8966
92212963|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.957|TWO_SIDED||||||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.957
92212964|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.1||||0.864|TWO_SIDED|95.0|-11.2|13.33|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||13.33|-11.20|0.864
92212965|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9||||0.883|TWO_SIDED|95.0|-13.3|11.45|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||11.45|-13.30|0.883
92212966|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.0||||0.767|TWO_SIDED|95.0|-11.24|15.22|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||15.22|-11.24|0.767
92212967|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.243|TWO_SIDED||||||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.243
92212968|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-8.2||||0.176|TWO_SIDED|95.0|-20.12|3.7|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||3.70|-20.12|0.176
92212969|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.0||||0.741|TWO_SIDED|95.0|-10.0|14.03|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||14.03|-10.00|0.741
92212970|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-10.2||||0.118|TWO_SIDED|95.0|-23.07|2.62|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||2.62|-23.07|0.118
92212971|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92|TWO_SIDED||||||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.920
92212972|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.2||||0.685|TWO_SIDED|95.0|-24.64|16.23|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||16.23|-24.64|0.685
92212973|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.4||||0.892|TWO_SIDED|95.0|-22.04|19.19|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||19.19|-22.04|0.892
92212974|NCT01794923|184324781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.8||||0.804|TWO_SIDED|95.0|-24.82|19.25|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||19.25|-24.82|0.804
92212975|NCT01794923|184324782|SUPERIORITY_OR_OTHER_LEGACY|||||||0.533|TWO_SIDED||||||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMSM terms.||||0.533
92212976|NCT01794923|184324782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.5||||0.266|TWO_SIDED|95.0|-0.38|1.38|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMSM terms.||1.38|-0.38|0.266
92212977|NCT01794923|184324782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.73|TWO_SIDED|95.0|-0.74|1.05|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMSM terms.||1.05|-0.74|0.730
92397831|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.47||||0.5031|TWO_SIDED|95.0|0.48|4.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.51|0.48|0.5031
92212978|NCT01794923|184324782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.479|TWO_SIDED|95.0|-0.61|1.3|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMSM terms.||1.30|-0.61|0.479
92212979|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.189|TWO_SIDED||||||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.189
92212980|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.389|TWO_SIDED|95.0|-0.17|0.07|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.07|-0.17|0.389
92212981|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.273|TWO_SIDED|95.0|-0.05|0.19|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.19|-0.05|0.273
92212982|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.069|TWO_SIDED|95.0|-0.25|0.01|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.01|-0.25|0.069
92212983|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.716|TWO_SIDED||||||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.716
92212984|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.735|TWO_SIDED|95.0|-0.15|0.11|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.11|-0.15|0.735
92212985|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.414|TWO_SIDED|95.0|-0.19|0.08|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.08|-0.19|0.414
92212986|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.652|TWO_SIDED|95.0|-0.11|0.17|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.17|-0.11|0.652
92212987|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.622|TWO_SIDED||||||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.622
92212988|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.83|TWO_SIDED|95.0|-0.17|0.21|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.21|-0.17|0.830
92151311|NCT03502616|184188145|SUPERIORITY||LS mean difference|0.82|STANDARD_ERROR_OF_MEAN|0.506||0.107|TWO_SIDED|95.0|-0.18|1.81|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.81|-0.18|0.1070
92151312|NCT03502616|184188146|SUPERIORITY||LS mean difference|1.62|STANDARD_ERROR_OF_MEAN|0.428||0.0002|TWO_SIDED|95.0|0.78|2.46|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.46|0.78|0.0002
92151313|NCT03502616|184188146|SUPERIORITY||LS mean difference|1.92|STANDARD_ERROR_OF_MEAN|0.466|<|0.0001|TWO_SIDED|95.0|1.0|2.84|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.84|1.00|<0.0001
92151314|NCT03502616|184188146|SUPERIORITY||LS mean difference|3.26|STANDARD_ERROR_OF_MEAN|0.549|<|0.0001|TWO_SIDED|95.0|2.18|4.34|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.34|2.18|<0.0001
92151315|NCT03502616|184188146|SUPERIORITY||LS mean difference|3.04|STANDARD_ERROR_OF_MEAN|0.564|<|0.0001|TWO_SIDED|95.0|1.93|4.15|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.15|1.93|<0.0001
92151316|NCT03502616|184188146|SUPERIORITY||LS mean difference|1.87|STANDARD_ERROR_OF_MEAN|0.621||0.0028|TWO_SIDED|95.0|0.65|3.09|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.09|0.65|0.0028
92151317|NCT03502616|184188146|SUPERIORITY||LS mean difference|0.97|STANDARD_ERROR_OF_MEAN|0.638||0.1289|TWO_SIDED|95.0|-0.28|2.23|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.23|-0.28|0.1289
92151318|NCT03502616|184188146|SUPERIORITY||LS mean difference|0.45|STANDARD_ERROR_OF_MEAN|0.616||0.4698|TWO_SIDED|95.0|-0.77|1.66|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.66|-0.77|0.4698
92151319|NCT03502616|184188146|SUPERIORITY||LS mean difference|1.13|STANDARD_ERROR_OF_MEAN|0.603||0.0616|TWO_SIDED|95.0|-0.06|2.32|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.32|-0.06|0.0616
92151320|NCT03502616|184188146|SUPERIORITY||LS mean difference|1.37|STANDARD_ERROR_OF_MEAN|0.681||0.0455|TWO_SIDED|95.0|0.03|2.71|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.71|0.03|0.0455
92151321|NCT03502616|184188147|SUPERIORITY||LS mean difference|-0.88|STANDARD_ERROR_OF_MEAN|0.185|<|0.0001|TWO_SIDED|95.0|-1.25|-0.52|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.52|-1.25|<0.0001
92151322|NCT03502616|184188147|SUPERIORITY||LS mean difference|-1.22|STANDARD_ERROR_OF_MEAN|0.215|<|0.0001|TWO_SIDED|95.0|-1.65|-0.8|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.80|-1.65|<0.0001
92151323|NCT03502616|184188147|SUPERIORITY||LS mean difference|-1.71|STANDARD_ERROR_OF_MEAN|0.232|<|0.0001|TWO_SIDED|95.0|-2.17|-1.26|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.26|-2.17|<0.0001
92151324|NCT03502616|184188147|SUPERIORITY||LS mean difference|-1.72|STANDARD_ERROR_OF_MEAN|0.247|<|0.0001|TWO_SIDED|95.0|-2.2|-1.23|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.23|-2.20|<0.0001
92151325|NCT03502616|184188147|SUPERIORITY||LS mean difference|-1.56|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.07|-1.05|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.05|-2.07|<0.0001
92212989|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.442|TWO_SIDED|95.0|-0.26|0.11|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.11|-0.26|0.442
92212990|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.358|TWO_SIDED|95.0|-0.11|0.29|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.29|-0.11|0.358
92212991|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.714|TWO_SIDED||||||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.714
92212992|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.683|TWO_SIDED|95.0|-0.29|0.19|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.19|-0.29|0.683
92212993|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.413|TWO_SIDED|95.0|-0.34|0.14|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.14|-0.34|0.413
92212994|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.699|TWO_SIDED|95.0|-0.21|0.31|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.31|-0.21|0.699
92212995|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.244|TWO_SIDED||||||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.244
92212996|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.833|TWO_SIDED|95.0|-0.21|0.26|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.26|-0.21|0.833
92212997|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.156|TWO_SIDED|95.0|-0.41|0.07|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.07|-0.41|0.156
92212998|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.128|TWO_SIDED|95.0|-0.06|0.46|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.46|-0.06|0.128
92212999|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.359|TWO_SIDED||||||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.359
92213000|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.278|TWO_SIDED|95.0|-0.12|0.43|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.43|-0.12|0.278
92213001|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.699|TWO_SIDED|95.0|-0.33|0.22|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.22|-0.33|0.699
92213002|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.172|TWO_SIDED|95.0|-0.09|0.5|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.50|-0.09|0.172
92213003|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.515|TWO_SIDED||||||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.515
92213004|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.527|TWO_SIDED|95.0|-0.19|0.37|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.37|-0.19|0.527
92397832|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.03||||0.2603|TWO_SIDED|95.0|0.59|6.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.92|0.59|0.2603
92213005|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.545|TWO_SIDED|95.0|-0.37|0.19|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.19|-0.37|0.545
92213006|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.25|TWO_SIDED|95.0|-0.12|0.47|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.47|-0.12|0.250
92213007|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.568|TWO_SIDED||||||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.568
92213008|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.381|TWO_SIDED|95.0|-0.16|0.41|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.41|-0.16|0.381
92213009|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.863|TWO_SIDED|95.0|-0.31|0.26|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.26|-0.31|0.863
92213010|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.33|TWO_SIDED|95.0|-0.16|0.46|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.46|-0.16|0.330
92213011|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.167|TWO_SIDED||||||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.167
92213012|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.165|TWO_SIDED|95.0|-0.09|0.5|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.50|-0.09|0.165
92213013|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.564|TWO_SIDED|95.0|-0.39|0.21|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.21|-0.39|0.564
92213014|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.068|TWO_SIDED|95.0|-0.02|0.62|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.62|-0.02|0.068
92213015|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131|TWO_SIDED||||||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.131
92213016|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.119|TWO_SIDED|95.0|-0.06|0.56|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.56|-0.06|0.119
92397833|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.16||||0.2447|TWO_SIDED|95.0|0.59|7.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.88|0.59|0.2447
92213017|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.616|TWO_SIDED|95.0|-0.39|0.23|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.23|-0.39|0.616
92213018|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.056|TWO_SIDED|95.0|-0.01|0.66|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.66|-0.01|0.056
92213019|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.255|TWO_SIDED||||||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.255
92213020|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.144|TWO_SIDED|95.0|-0.08|0.57|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.57|-0.08|0.144
92213021|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.935|TWO_SIDED|95.0|-0.34|0.31|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.31|-0.34|0.935
92213022|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.153|TWO_SIDED|95.0|-0.1|0.61|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.61|-0.10|0.153
92213023|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.128|TWO_SIDED||||||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.128
92213024|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.067|TWO_SIDED|95.0|-0.02|0.63|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.63|-0.02|0.067
92213025|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.999|TWO_SIDED|95.0|-0.33|0.33|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.33|-0.33|0.999
92213026|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.088|TWO_SIDED|95.0|-0.05|0.66|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.66|-0.05|0.088
92213027|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.195|TWO_SIDED||||||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.195
92213028|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.175|TWO_SIDED|95.0|-0.12|0.67|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.67|-0.12|0.175
92213029|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.61|TWO_SIDED|95.0|-0.5|0.3|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.30|-0.50|0.610
92213030|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.083|TWO_SIDED|95.0|-0.05|0.81|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.81|-0.05|0.083
92213031|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.884|TWO_SIDED||||||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.884
92213032|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.833|TWO_SIDED|95.0|-0.43|0.35|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.35|-0.43|0.833
92213033|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.62|TWO_SIDED|95.0|-0.49|0.29|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.29|-0.49|0.620
92397834|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.64||||0.4239|TWO_SIDED|95.0|0.49|5.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.55|0.49|0.4239
92213034|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.788|TWO_SIDED|95.0|-0.36|0.48|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.48|-0.36|0.788
92213035|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.755|TWO_SIDED||||||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.755
92213036|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.787|TWO_SIDED|95.0|-0.45|0.34|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.34|-0.45|0.787
92213037|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.455|TWO_SIDED|95.0|-0.56|0.25|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.25|-0.56|0.455
92213038|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.654|TWO_SIDED|95.0|-0.33|0.53|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.53|-0.33|0.654
92213039|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED||||||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.370
92213040|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.472|TWO_SIDED|95.0|-0.51|0.24|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.24|-0.51|0.472
92213041|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.427|TWO_SIDED|95.0|-0.23|0.53|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.53|-0.23|0.427
92213042|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.159|TWO_SIDED|95.0|-0.69|0.11|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.11|-0.69|0.159
92213043|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48|TWO_SIDED||||||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.480
92213044|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.238|TWO_SIDED|95.0|-0.59|0.15|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.15|-0.59|0.238
92151326|NCT03502616|184188147|SUPERIORITY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.281||0.0483|TWO_SIDED|95.0|-1.11|0.0|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.00|-1.11|0.0483
92151327|NCT03502616|184188147|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.286||0.0357|TWO_SIDED|95.0|-1.17|-0.04|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.04|-1.17|0.0357
92151328|NCT03502616|184188147|SUPERIORITY||LS mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.278||0.0508|TWO_SIDED|95.0|-1.09|0.0|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.00|-1.09|0.0508
92151329|NCT03502616|184188147|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.282||0.0614|TWO_SIDED|95.0|-1.08|0.03|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.03|-1.08|0.0614
92151330|NCT03502616|184188148|SUPERIORITY||LS mean difference|-0.89|STANDARD_ERROR_OF_MEAN|0.186|<|0.0001|TWO_SIDED|95.0|-1.26|-0.53|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.53|-1.26|<0.0001
92151331|NCT03502616|184188148|SUPERIORITY||LS mean difference|-1.34|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.75|-0.92|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.92|-1.75|<0.0001
92151332|NCT03502616|184188148|SUPERIORITY||LS mean difference|-1.98|STANDARD_ERROR_OF_MEAN|0.221|<|0.0001|TWO_SIDED|95.0|-2.41|-1.54|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.54|-2.41|<0.0001
92151333|NCT03502616|184188148|SUPERIORITY||LS mean difference|-1.89|STANDARD_ERROR_OF_MEAN|0.245|<|0.0001|TWO_SIDED|95.0|-2.37|-1.4|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.40|-2.37|<0.0001
92213045|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.794|TWO_SIDED|95.0|-0.42|0.32|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.32|-0.42|0.794
92213046|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.395|TWO_SIDED|95.0|-0.57|0.23|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.23|-0.57|0.395
92213047|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|TWO_SIDED||||||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.400
92397835|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|11.72||||0.024|TWO_SIDED|95.0|1.38|99.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||99.35|1.38|0.0240
92397836|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.6||||0.1457|TWO_SIDED|95.0|0.72|9.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.41|0.72|0.1457
92397837|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9|TWO_SIDED|95.0|0.34|3.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.38|0.34|0.9000
92151334|NCT03502616|184188148|SUPERIORITY||LS mean difference|-1.62|STANDARD_ERROR_OF_MEAN|0.243|<|0.0001|TWO_SIDED|95.0|-2.1|-1.14|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.14|-2.10|<0.0001
92151335|NCT03502616|184188148|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.261||0.0492|TWO_SIDED|95.0|-1.03|0.0|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.00|-1.03|0.0492
92151336|NCT03502616|184188148|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.266||0.2614|TWO_SIDED|95.0|-0.82|0.22|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.22|-0.82|0.2614
92213048|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.176|TWO_SIDED|95.0|-0.61|0.11|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.11|-0.61|0.176
92213049|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.573|TWO_SIDED|95.0|-0.47|0.26|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.26|-0.47|0.573
92213050|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.466|TWO_SIDED|95.0|-0.53|0.24|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.24|-0.53|0.466
92213051|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.092|TWO_SIDED||||||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.092
92213052|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.086|TWO_SIDED|95.0|-0.67|0.04|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.04|-0.67|0.086
92213053|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.616|TWO_SIDED|95.0|-0.27|0.45|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.45|-0.27|0.616
92213054|NCT01794923|184324783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.04|TWO_SIDED|95.0|-0.79|-0.02|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||-0.02|-0.79|0.040
92213055|NCT01794923|184324784|SUPERIORITY_OR_OTHER_LEGACY|||||||0.751|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for baseline categorical PSR (BLPSR) and sex.||||0.751
92213056|NCT01794923|184324784|SUPERIORITY_OR_OTHER_LEGACY||Weighted Gamma Statistic|0.0||||0.696|TWO_SIDED|95.0|-0.28|0.2|||Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for baseline categorical PSR (BLPSR) and sex.||0.20|-0.28|0.696
92213057|NCT01794923|184324784|SUPERIORITY_OR_OTHER_LEGACY||Weighted Gamma Statistic|0.0||||0.76|TWO_SIDED|95.0|-0.21|0.29|||Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for baseline categorical PSR (BLPSR) and sex.||0.29|-0.21|0.760
92213058|NCT01794923|184324784|SUPERIORITY_OR_OTHER_LEGACY||Weighted Gamma Statistic|-0.1||||0.463|TWO_SIDED|95.0|-0.36|0.16|||Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for baseline categorical PSR (BLPSR) and sex.||0.16|-0.36|0.463
92397838|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.19||||0.7644|TWO_SIDED|95.0|0.39|3.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.64|0.39|0.7644
92213059|NCT01881750|184324788|SUPERIORITY_OR_OTHER|||||||0.42|||||||Mixed Effects Regression Model|||Group X Time Interaction Cohen's d||||0.42
92213060|NCT03318809|184324795|OTHER|Analysis of Variance|Ratio (Group 1/Group 2)|1.24|||||TWO_SIDED|90.0|0.73|2.1|||||The ratio and confidence interval (CI) are based on natural log scale data converted back to the original scale.|||2.10|0.73|
92213061|NCT03318809|184324796|OTHER|Analysis of Variance|Ratio (Group 1/Group 2)|1.41|||||TWO_SIDED|90.0|0.88|2.27|||||The ratio and CI are based on natural log scale data converted back to the original scale.|||2.27|0.88|
92213062|NCT03318809|184324799|OTHER|Analysis of Variance|Ratio (Group 1/Group 2)|1.24|||||TWO_SIDED|90.0|0.73|2.1|||||The ratio and CI are based on natural log scale data converted back to the original scale.|||2.10|0.73|
92213063|NCT04668586|184324801|SUPERIORITY||||||<|0.006|||||||Chi-squared|||||||<0.006
92213064|NCT04668586|184324802|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|Adjusted for four-category stratification group.||||||0.008
92213065|NCT04668586|184324804|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92213066|NCT04668586|184324805|SUPERIORITY|||||||0.09|||||||Chi-squared, Corrected|Adjusted for four-category stratification group.||||||0.09
92213067|NCT02087748|184324938|SUPERIORITY_OR_OTHER|||||||0.0324|||||||t-test, 2 sided|||||||0.0324
92213068|NCT02087748|184324939|SUPERIORITY_OR_OTHER|||||||0.3688|||||||t-test, 2 sided|||||||0.3688
92213069|NCT02087748|184324940|SUPERIORITY_OR_OTHER|||||||0.0275|||||||t-test, 2 sided|||||||0.0275
92213070|NCT03219320|184324945|OTHER|||||||0.004|||||||Mixed Models Analysis|||||||0.004
92213071|NCT03078907|184324946|OTHER||Least Square (LS) mean|13.79|STANDARD_ERROR_OF_MEAN|13.695|||TWO_SIDED|95.0|13.366|40.944|||ANCOVA|||Daily time spent in non-sedentary activity (minutes), Freedson '98||40.944|13.366|
92213072|NCT03078907|184324946|OTHER||LS means|2.31|STANDARD_ERROR_OF_MEAN|6.601|||TWO_SIDED|95.0|-10.782|15.396|||ANCOVA|||Daily time spent in MVPA (minutes), Freedson '98||15.396|-10.782|
92213073|NCT03078907|184324946|OTHER||LS mean|17.81|STANDARD_ERROR_OF_MEAN|12.008|||TWO_SIDED|95.0|-6.003|41.619|||ANCOVA|||Daily time spent in non-sedentary activity (minutes), Koster '16||41.619|-6.003|
92213074|NCT03078907|184324947|OTHER||LS mean|0.67|STANDARD_ERROR_OF_MEAN|1.204|||TWO_SIDED|95.0|-1.713|3.06|||ANCOVA|||Percentage of daily time spent in non-sedentary activity (%), Freedson '98||3.060|-1.713|
92213075|NCT03078907|184324947|OTHER||LS mean|-0.05|STANDARD_ERROR_OF_MEAN|0.658|||TWO_SIDED|95.0|-1.351|1.258|||ANCOVA|||Percentage of daily time spent in MVPA (%), Freedson '98||1.258|-1.351|
92213076|NCT03078907|184324947|OTHER||LS mean|1.26|STANDARD_ERROR_OF_MEAN|1.191|||TWO_SIDED|95.0|-1.104|3.618|||ANCOVA|||Percentage of daily time spent in non-sedentary activity (%), Koster '16||3.618|-1.104|
92213077|NCT03078907|184324948|OTHER||LS mean|20.66|STANDARD_ERROR_OF_MEAN|63.695|||TWO_SIDED|95.0|-105.632|146.958|||ANCOVA|||Volume of total daily activities (counts / minute)||146.958|-105.632|
92213078|NCT03078907|184324948|OTHER||LS means|27.52|STANDARD_ERROR_OF_MEAN|65.291|||TWO_SIDED|95.0|-101.945|156.976|||ANCOVA|||Volume of non-sedentary activity (counts/minute), Koster '16||156.976|-101.945|
92213079|NCT03078907|184324949|OTHER||LS means|58409.0|STANDARD_ERROR_OF_MEAN|64985.0|||TWO_SIDED|95.0|-70444.0|187263.0|||ANCOVA|||||187263|-70444|
92213080|NCT03078907|184324950|OTHER||LS means|201.59|STANDARD_ERROR_OF_MEAN|224.212|||TWO_SIDED|95.0|-242.977|646.163|||ANCOVA|||||646.163|-242.977|
92213081|NCT03078907|184324951|OTHER||LS means|0.07|STANDARD_ERROR_OF_MEAN|0.221|||TWO_SIDED|95.0|-0.366|0.51|||ANCOVA|||||0.510|-0.366|
92213082|NCT01672788|184324968|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose|Geometric Mean Ratio|101.31|STANDARD_DEVIATION|10.7|||TWO_SIDED|90.0|96.89|105.93|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||105.93|96.89|
92397839|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.29||||0.2245|TWO_SIDED|95.0|0.6|8.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.67|0.60|0.2245
92151337|NCT03502616|184188148|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.272||0.0722|TWO_SIDED|95.0|-1.03|0.04|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.04|-1.03|0.0722
92151338|NCT03502616|184188148|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.275||0.0121|TWO_SIDED|95.0|-1.24|-0.15|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.15|-1.24|0.0121
92151339|NCT03502616|184188149|SUPERIORITY||LS mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.207|<|0.0001|TWO_SIDED|95.0|-1.33|-0.51|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.51|-1.33|<0.0001
92151340|NCT03502616|184188149|SUPERIORITY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.216|<|0.0001|TWO_SIDED|95.0|-2.02|-1.17|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.17|-2.02|<0.0001
92151341|NCT03502616|184188149|SUPERIORITY||LS mean difference|-2.02|STANDARD_ERROR_OF_MEAN|0.244|<|0.0001|TWO_SIDED|95.0|-2.5|-1.54|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.54|-2.50|<0.0001
92151342|NCT03502616|184188149|SUPERIORITY||LS mean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.254|<|0.0001|TWO_SIDED|95.0|-2.5|-1.5|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.50|-2.50|<0.0001
92151343|NCT03502616|184188149|SUPERIORITY||LS mean difference|-1.84|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.35|-1.32|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.32|-2.35|<0.0001
92151344|NCT03502616|184188149|SUPERIORITY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.274||0.0785|TWO_SIDED|95.0|-1.02|0.06|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.06|-1.02|0.0785
92151345|NCT03502616|184188149|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.275||0.3047|TWO_SIDED|95.0|-0.82|0.26|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.26|-0.82|0.3047
92151346|NCT03502616|184188149|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.283||0.1009|TWO_SIDED|95.0|-1.02|0.09|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.09|-1.02|0.1009
92151347|NCT03502616|184188149|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.287||0.0764|TWO_SIDED|95.0|-1.08|0.05|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.05|-1.08|0.0764
92151348|NCT03502616|184188150|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.159||0.0089|TWO_SIDED|95.0|-0.73|-0.11|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.11|-0.73|0.0089
92151349|NCT03502616|184188150|SUPERIORITY||LS mean difference|-0.77|STANDARD_ERROR_OF_MEAN|0.179|<|0.0001|TWO_SIDED|95.0|-1.12|-0.42|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.42|-1.12|<0.0001
92151350|NCT03502616|184188150|SUPERIORITY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.202|<|0.0001|TWO_SIDED|95.0|-1.5|-0.7|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.70|-1.50|<0.0001
92213083|NCT01672788|184324968|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose|Geometric Mean Ratio|100.3|STANDARD_DEVIATION|7.0|||TWO_SIDED|90.0|97.4|103.29|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||103.29|97.40|
92213084|NCT01672788|184324969|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose.|Geometric Mean Ratio|101.61|STANDARD_DEVIATION|8.8|||TWO_SIDED|90.0|97.94|105.41|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||105.41|97.94|
92213085|NCT01672788|184324969|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose.|Geometric Mean Ratio|98.56|STANDARD_DEVIATION|10.8|||TWO_SIDED|90.0|94.24|103.08|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||103.08|94.24|
92213086|NCT01672788|184324970|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose|Geometric Mean Ratio|101.2|STANDARD_DEVIATION|10.4|||TWO_SIDED|90.0|96.89|105.71|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||105.71|96.89|
92213087|NCT01672788|184324970|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose|Geometric Mean Ratio|100.31|STANDARD_DEVIATION|7.0|||TWO_SIDED|90.0|97.41|103.3|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||103.30|97.41|
92213088|NCT01672788|184324971|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose|Geometric Mean Ratio|102.7|STANDARD_DEVIATION|9.4|||TWO_SIDED|90.0|98.75|106.81|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||106.81|98.75|
92213089|NCT01672788|184324971|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose|Geometric Mean Ratio|100.97|STANDARD_DEVIATION|12.3|||TWO_SIDED|90.0|95.94|106.27|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||106.27|95.94|
92213090|NCT01672788|184324972|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose .|Geometric Mean Ratio|99.64|STANDARD_DEVIATION|10.5|||TWO_SIDED|90.0|95.39|104.09|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||104.09|95.39|
92213091|NCT01672788|184324972|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose.|Geometric Mean Ratio|97.89|STANDARD_DEVIATION|10.2|||TWO_SIDED|90.0|93.82|102.15|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||102.15|93.82|
92213092|NCT01672788|184324973|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose .|Geometric Mean Ratio|101.51|STANDARD_DEVIATION|8.6|||TWO_SIDED|90.0|97.95|105.21|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||105.21|97.95|
92213093|NCT01672788|184324973|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose .|Geometric Mean Ratio|98.57|STANDARD_DEVIATION|10.1|||TWO_SIDED|90.0|94.5|102.81|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||102.81|94.50|
92151351|NCT03502616|184188150|SUPERIORITY||LS mean difference|-1.29|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.71|-0.88|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.88|-1.71|<0.0001
92213094|NCT02445196|184324974|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.57||||0.035|TWO_SIDED||||||ANOVA|||Repeated measures ANOVAs assessed the condition by time (baseline to posttreatment) interaction effects covarying PTSD treatment. Following the ITT principle, data from all randomized participants were analyzed and multiple imputation replaced missing values. A power analysis indicated that to achieve 80% power to detect an effect size in the magnitude (i.e., d = 0.25 to .33) with alpha of .05 and a correlation between repeated measures of .5, 60 participants per condition would be needed.||||.035
92213095|NCT02445196|184324975|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.87||||0.086|TWO_SIDED||||||ANOVA|||||||.086
92213096|NCT02445196|184324976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75||||0.007|TWO_SIDED||||||ANOVA|||||||.007
92213097|NCT02445196|184324977|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.72||||0.005|TWO_SIDED||||||ANOVA|||||||.005
92213098|NCT02445196|184324978|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.78||||0.113|TWO_SIDED||||||t-test, 2 sided|||||||.113
92213099|NCT02464228|184325003|OTHER|||||||0|||||||Wilson approximation|||Null hypothesis H0: PORR = 10% versus HA: PORR \> 10% will be tested at a = 0.05 significance level using a two-sided binomial test. The choice of test statistics was driven by the method used for interval estimation.||||0.000
92151352|NCT03502616|184188150|SUPERIORITY||LS mean difference|-1.23|STANDARD_ERROR_OF_MEAN|0.217|<|0.0001|TWO_SIDED|95.0|-1.66|-0.8|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.80|-1.66|<0.0001
92213100|NCT02464228|184325003|OTHER|||||||1|||||||Wilson approximation|||Null hypothesis H0: PORR = 10% versus HA: PORR \> 10% will be tested at a = 0.05 significance level using a two-sided binomial test. The choice of test statistics was driven by the method used for interval estimation.||||1.000
92151353|NCT03502616|184188150|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.242||0.1686|TWO_SIDED|95.0|-0.81|0.14|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.14|-0.81|0.1686
92151354|NCT03502616|184188150|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.238||0.28|TWO_SIDED|95.0|-0.72|0.21|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.21|-0.72|0.2800
92397840|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0475|TWO_SIDED|95.0|1.02|27.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||27.40|1.02|0.0475
92397841|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.15||||0.2569|TWO_SIDED|95.0|0.57|8.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.07|0.57|0.2569
92397842|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|9.32||||0.0412|TWO_SIDED|95.0|1.09|79.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||79.44|1.09|0.0412
92151355|NCT03502616|184188150|SUPERIORITY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.243||0.1135|TWO_SIDED|95.0|-0.86|0.09|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.09|-0.86|0.1135
92151356|NCT03502616|184188150|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.247||0.2496|TWO_SIDED|95.0|-0.77|0.2|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.20|-0.77|0.2496
92151357|NCT03502616|184188151|SUPERIORITY||LS mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.191|<|0.0001|TWO_SIDED|95.0|-1.22|-0.47|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.47|-1.22|<0.0001
92151358|NCT03502616|184188151|SUPERIORITY||LS mean difference|-1.48|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.89|-1.07|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.07|-1.89|<0.0001
92151359|NCT03502616|184188151|SUPERIORITY||LS mean difference|-1.61|STANDARD_ERROR_OF_MEAN|0.228|<|0.0001|TWO_SIDED|95.0|-2.06|-1.16|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.16|-2.06|<0.0001
92151360|NCT03502616|184188151|SUPERIORITY||LS mean difference|-1.87|STANDARD_ERROR_OF_MEAN|0.237|<|0.0001|TWO_SIDED|95.0|-2.34|-1.4|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.40|-2.34|<0.0001
92397843|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.84||||0.1201|TWO_SIDED|95.0|0.76|10.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||10.61|0.76|0.1201
92151361|NCT03502616|184188151|SUPERIORITY||LS mean difference|-1.72|STANDARD_ERROR_OF_MEAN|0.236|<|0.0001|TWO_SIDED|95.0|-2.18|-1.25|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.25|-2.18|<0.0001
92151362|NCT03502616|184188151|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.245||0.0385|TWO_SIDED|95.0|-0.99|-0.03|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.03|-0.99|0.0385
92151363|NCT03502616|184188151|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.252||0.0463|TWO_SIDED|95.0|-1.0|-0.01|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.01|-1.00|0.0463
92151364|NCT03502616|184188151|SUPERIORITY||LS mean difference|-0.65|STANDARD_ERROR_OF_MEAN|0.257||0.0126|TWO_SIDED|95.0|-1.15|-0.14|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.14|-1.15|0.0126
92213101|NCT02464228|184325003|OTHER|||||||0.026|||||||Wilson approximation|||Null hypothesis H0: PORR = 10% versus HA: PORR \> 10% will be tested at a = 0.05 significance level using a two-sided binomial test. The choice of test statistics was driven by the method used for interval estimation.||||0.026
92213102|NCT02464228|184325003|OTHER|||||||1|||||||Clopper-Pearson method|||Null hypothesis H0: PORR = 10% versus HA: PORR \> 10% will be tested at a = 0.05 significance level using a two-sided binomial test. The choice of test statistics was driven by the method used for interval estimation.||||1.000
92213103|NCT01177787|184325023|OTHER||Mean Difference (Final Values)|-0.669|STANDARD_DEVIATION|0.03||0.503|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.503
92213104|NCT01570036|184325027|OTHER|Kaplan-Meier Survival Analysis|Hazard Ratio (HR)|0.62||||0.18|TWO_SIDED|95.0|0.31|1.25|||Kaplan-Meier Survival Analysis|||||1.25|.31|0.18
92213105|NCT01570036|184325029|OTHER|||||||0.02||||||Comparison of the mean LVEF from baseline to 3 months, 6 months, and 12 months; this time period includes the therapy period of trastuzumab.|ANOVA|||||||0.02
92213106|NCT01570036|184325029|OTHER|||||||0.58||||||The mean LVEF compared at baseline to 3 months, 6 months, 12 months and 24 months; this time period includes the duration of trastuzumab therapy and 1 year after completion of trastuzumab therapy.|ANOVA|||||||0.58
92213107|NCT01570036|184325029|OTHER|||||||0.65||||||Evaluating LVEF at all time points with a linear mixed regression model, this analysis compared cardiac ejection fraction over time.|Regression, Linear|||||||0.65
92213108|NCT01570036|184325029|OTHER|||||||0.91||||||This analysis evaluated LVEF at all time points with a linear mixed regression model between randomization arms.|Regression, Linear|||||||0.91
92213109|NCT01570036|184325029|OTHER|||||||0.81||||||This analysis evaluated LVEF at all time points with a linear mixed regression model between the arms over time.|Regression, Linear|||||||0.81
92213110|NCT01570036|184325030|OTHER|||||||0.149|||||||Chi-squared|Comparison of the maximum related local toxicity experienced per patient and compared between treatment arms.||The safety group consisted of any patients who received NPS with GM-CSF or placebo with GM-CSF inoculations.||||0.149
92213111|NCT01570036|184325030|OTHER|||||||0.901|||||||Chi-squared|Comparison of the maximum related systemic toxicity experienced per patient and compared between treatment arms.||||||0.901
92397844|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.67||||0.3814|TWO_SIDED|95.0|0.53|5.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.23|0.53|0.3814
92151365|NCT03502616|184188151|SUPERIORITY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.268||0.0372|TWO_SIDED|95.0|-1.09|-0.03|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.03|-1.09|0.0372
92151366|NCT03502616|184188152|SUPERIORITY||Difference in percentage|13.6|STANDARD_ERROR_OF_MEAN|3.53||0.0001|TWO_SIDED|95.0|6.68|20.52|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||20.52|6.68|0.0001
92213112|NCT00819286|184325034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.003|TWO_SIDED|95.0|||||t-test, 2 sided|||3 Month CT Scores (Plates vs Wires)||||0.003
92213113|NCT00819286|184325034|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||6 Month CT Scores (Plates vs Wires)||||0.01
92213114|NCT00819286|184325035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.93||95.0|||||t-test, 1 sided|||Plates vs Wires||||0.93
92213115|NCT05193500|184325036|OTHER|||||||0.085||||||a priori threshold for statistical significance is 0.05|t-test, 2 sided|one-sample t-test, compared to 0.5 (chance)||||||0.085
92397845|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8549|TWO_SIDED|95.0|0.38|3.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.23|0.38|0.8549
92397846|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.77||||0.1274|TWO_SIDED|95.0|0.75|10.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.24|0.75|0.1274
92213116|NCT05193500|184325036|OTHER|||||||0.049||||||a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.049
92213117|NCT05193500|184325037|OTHER|||||||0.015||||||a priori threshold for statistical significance = 0.05|t-test, 2 sided|||||||0.015
92213118|NCT02993523|184325048|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.465|0.723||Stratified log-rank test stratified by age (18 - \< 75, ≥ 75) and cytogenetic risk (intermediate, poor).|Log Rank||HR from Cox proportional hazards model stratified by age (18 - \< 75, ≥ 75) and cytogenetic risk (intermediate, poor).|||0.723|0.465|<0.001
92213119|NCT02993523|184325049|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by age (18 - \< 75, ≥ 75) and cytogenetic risk (intermediate, poor).||||||<0.001
92213120|NCT03694418|184325057|OTHER||Incident Rate Ratio|1.73|STANDARD_DEVIATION|0.35|<|0.05|TWO_SIDED|95.0|1.02|2.95|||Wilcoxon (Mann-Whitney)|||||2.95|1.02|<0.05
92213121|NCT01806129|184325066|SUPERIORITY||Odds Ratio (OR)|2.07|||||TWO_SIDED|90.0|1.29|3.31|||||Odds ratio represents the odds of adopting the appropriate reproductive health management for patients with intervention compared to the odds among patients without intervention. Odds ratio was calculated by GEE analysis.|||3.31|1.29|
92213122|NCT00784693|184325143|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|90.0|-0.87|1.69||||||Week 8: Analysis was based on analysis of co-variance (ANCOVA) model with main effects of treatment, contraceptive use and baseline severity of pain.||1.69|-0.87|
92151367|NCT03502616|184188152|SUPERIORITY||Difference in percentage|28.79|STANDARD_ERROR_OF_MEAN|4.6|<|0.0001|TWO_SIDED|95.0|19.78|37.8|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||37.80|19.78|<0.0001
92151368|NCT03502616|184188152|SUPERIORITY||Difference in percentage|33.31|STANDARD_ERROR_OF_MEAN|4.83|<|0.0001|TWO_SIDED|95.0|23.84|42.78|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||42.78|23.84|<0.0001
92213123|NCT02982187|184325166|SUPERIORITY||Odds Ratio (OR)|29.114|||<|0.001|TWO_SIDED|95.0|11.047||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 1: DISKUS + HandiHaler vs ELLIPTA|||11.047|<0.001
92213124|NCT02982187|184325166|SUPERIORITY||Odds Ratio (OR)|27.744|||<|0.001|TWO_SIDED|95.0|10.512||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||10.512|<0.001
92213125|NCT02982187|184325167|SUPERIORITY||Odds Ratio (OR)|4.248||||0.029|TWO_SIDED|95.0|1.416||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 1:DISKUS + HandiHaler vs ELLIPTA|||1.416|0.029
92213126|NCT02982187|184325167|SUPERIORITY||Odds Ratio (OR)|3.855||||0.026|TWO_SIDED|95.0|1.394||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||1.394|0.026
92213127|NCT02982187|184325168|SUPERIORITY||Odds Ratio (OR)|2.0||||0.4|TWO_SIDED|95.0|0.459||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 1:DISKUS + HandiHaler vs ELLIPTA|||0.459|0.400
92213128|NCT02982187|184325168|SUPERIORITY||Odds Ratio (OR)|1.732||||0.5|TWO_SIDED|95.0|0.397||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||0.397|0.500
92213129|NCT02982187|184325169|SUPERIORITY||Odds Ratio (OR)|24.539|||<|0.001|TWO_SIDED|95.0|9.268||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 1:DISKUS + HandiHaler vs ELLIPTA|||9.268|<0.001
92213130|NCT02982187|184325169|SUPERIORITY||Odds Ratio (OR)|17.974|||<|0.001|TWO_SIDED|95.0|7.239||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||7.239|<0.001
92213131|NCT02982187|184325170|SUPERIORITY||Odds Ratio (OR)|3.237||||0.067|TWO_SIDED|95.0|1.124||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 1:DISKUS + HandiHaler vs ELLIPTA|||1.124|0.067
92213132|NCT02982187|184325170|SUPERIORITY||Odds Ratio (OR)|6.357||||0.003|TWO_SIDED|95.0|2.219||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||2.219|0.003
92397847|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.67||||0.0703|TWO_SIDED|95.0|0.9|15.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||15.01|0.90|0.0703
92151369|NCT03502616|184188152|SUPERIORITY||Difference in percentage|36.37|STANDARD_ERROR_OF_MEAN|4.95|<|0.0001|TWO_SIDED|95.0|26.67|46.07|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||46.07|26.67|<0.0001
92151370|NCT03502616|184188152|SUPERIORITY||Difference in percentage|36.34|STANDARD_ERROR_OF_MEAN|4.74|<|0.0001|TWO_SIDED|95.0|27.05|45.63|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||45.63|27.05|<0.0001
92151371|NCT03502616|184188152|SUPERIORITY||Difference in percentage|5.6|STANDARD_ERROR_OF_MEAN|5.99||0.3498|TWO_SIDED|95.0|-6.14|17.35|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||17.35|-6.14|0.3498
92151372|NCT03502616|184188152|SUPERIORITY||Difference in percentage|-2.4|STANDARD_ERROR_OF_MEAN|5.89||0.6835|TWO_SIDED|95.0|-13.96|9.15|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||9.15|-13.96|0.6835
92151373|NCT03502616|184188152|SUPERIORITY||Difference in percentage|-1.75|STANDARD_ERROR_OF_MEAN|5.98||0.7704|TWO_SIDED|95.0|-13.47|9.98|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||9.98|-13.47|0.7704
92213133|NCT02982187|184325171|SUPERIORITY||||||||||||||stratified exact logistic model|||Sub study 1: DISKUS + HandiHaler vs ELLIPTA|These statistics were only presented when the model successfully converged. A stratified exact logistic model was used with participant included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|||
92213134|NCT02982187|184325171|SUPERIORITY||Odds Ratio (OR)|1.732||||0.5|TWO_SIDED|95.0|0.397||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||0.397|0.500
92213135|NCT02982187|184325172|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|This method of analysis does not take sequence of treatment option into account||Sub study 1:DISKUS + HandiHaler vs ELLIPTA||||<0.001
92213136|NCT02982187|184325172|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|This method of analysis does not take sequence of treatment option into account||Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA||||<0.001
92213137|NCT02982187|184325176|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92213138|NCT02982187|184325176|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92213139|NCT02982187|184325177|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92213140|NCT02982187|184325177|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92213141|NCT02888665|184325182|OTHER||see above|||||||||||see above. target ORR was not met.|||see above. target ORR was not met.|The primary objective of the phase II design compared ORR with historical rates (Judson et al. Lancet Onc., 2014). A 2-stage design with null hypothesis of 15% using a 1-sided 0.05 α level test has 85% power to detect an increase to 35%. This required up to 35 patients. After 2 responses in stage 1 (20 pts), the study moved to stage 2 (15 pts). If 10 responses were seen (29%), this would have ruled out an ORR of 15%. The study was closed when it became clear we would not meet this benchmark.|see above. target ORR was not met.|||
92397848|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.41||||0.1821|TWO_SIDED|95.0|0.66|8.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.76|0.66|0.1821
92213142|NCT02349451|184325187|SUPERIORITY||response rate difference|39.8|||<|0.001|TWO_SIDED|95.0|17.2|57.7||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group. The a priori statistical significance threshold is P = 0.025.|Fisher Exact|||||57.7|17.2|<0.001
92213143|NCT02349451|184325187|SUPERIORITY||response rate difference|50.3|||<|0.001|TWO_SIDED|95.0|28.1|67.4||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group. The a priori statistical significance threshold is P = 0.025.|Fisher Exact|||||67.4|28.1|<0.001
92213144|NCT02349451|184325188|SUPERIORITY||response rate difference|-3.3||||0.723|TWO_SIDED|95.0|-18.5|12.1||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||12.1|-18.5|0.723
92213145|NCT02349451|184325188|SUPERIORITY||response rate difference|7.3||||0.215|TWO_SIDED|95.0|-7.4|21.6||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||21.6|-7.4|0.215
92213146|NCT02349451|184325189|SUPERIORITY||response rate difference|24.1||||0.021|TWO_SIDED|95.0|3.9|39.3||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group.|Fisher Exact|||||39.3|3.9|0.021
92213147|NCT02349451|184325189|SUPERIORITY||response rate difference|-0.9||||0.611|TWO_SIDED|95.0|-16.5|14.8||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||14.8|-16.5|0.611
92213148|NCT02349451|184325189|SUPERIORITY||response rate difference|40.9|||<|0.001|TWO_SIDED|95.0|20.1|55.8||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group.|Fisher Exact|||||55.8|20.1|<0.001
92213149|NCT02349451|184325189|SUPERIORITY||response rate difference|15.9||||0.039|TWO_SIDED|95.0|-0.3|31.3||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||31.3|-0.3|0.039
92213150|NCT02349451|184325190|SUPERIORITY||response rate difference|18.4||||0.034|TWO_SIDED|95.0|1.5|29.7||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group.|Fisher Exact|||||29.7|1.5|0.034
92213151|NCT02349451|184325190|SUPERIORITY||response rate difference|7.3||||0.185|TWO_SIDED|95.0|-5.8|19.9||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||19.9|-5.8|0.185
92213152|NCT02349451|184325190|SUPERIORITY||response rate difference|27.3||||0.004|TWO_SIDED|95.0|9.6|39.0||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group.|Fisher Exact|||||39.0|9.6|0.004
92213153|NCT02349451|184325190|SUPERIORITY||response rate difference|16.2||||0.017|TWO_SIDED|95.0|2.3|29.3||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||29.3|2.3|0.017
92213154|NCT02349451|184325191|SUPERIORITY||||||<|0.001||||||Kolmogorov-Smirnov test based on the empirical distribution function is applied to get the p-value of comparing the ABT-122 treatment group with placebo group.|Kolmogorov-Smirnov test|||||||<0.001
92213155|NCT02349451|184325191|SUPERIORITY|||||||0.561||||||Kolmogorov-Smirnov test based on the empirical distribution function is applied to get the p-value of comparing the ABT-122 treatment group with adalimumab group.|Kolmogorov-Smirnov test|||||||0.561
92213156|NCT02349451|184325191|SUPERIORITY||||||<|0.001||||||Kolmogorov-Smirnov test based on the empirical distribution function is applied to get the p-value of comparing the ABT-122 treatment group with placebo group.|Kolmogorov-Smirnov test|||||||<0.001
92213157|NCT02349451|184325191|SUPERIORITY|||||||0.106||||||Kolmogorov-Smirnov test based on the empirical distribution function is applied to get the p-value of comparing the ABT-122 treatment group with adalimumab group.|Kolmogorov-Smirnov test|||||||0.106
92213158|NCT02349451|184325192|SUPERIORITY||Least squares mean difference|-1.07|||<|0.001|TWO_SIDED|95.0|-1.58|-0.57||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.57|-1.58|<0.001
92213159|NCT02349451|184325192|SUPERIORITY||Least squares mean difference|-0.13||||0.479|TWO_SIDED|95.0|-0.48|0.23||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||0.23|-0.48|0.479
92213160|NCT02349451|184325192|SUPERIORITY||Least squares mean difference|-1.4|||<|0.001|TWO_SIDED|95.0|-1.9|-0.89||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.89|-1.90|<0.001
92213161|NCT02349451|184325192|SUPERIORITY||Least squares mean difference|-0.45||||0.012|TWO_SIDED|95.0|-0.81|-0.1||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.10|-0.81|0.012
92213162|NCT02349451|184325193|SUPERIORITY||Least squares mean difference|-1.17|||<|0.001|TWO_SIDED|95.0|-1.81|-0.53||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.53|-1.81|<0.001
92213163|NCT02349451|184325193|SUPERIORITY||Least squares mean difference|-0.09||||0.696|TWO_SIDED|95.0|-0.54|0.36||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||0.36|-0.54|0.696
92213164|NCT02349451|184325193|SUPERIORITY||Least squares mean difference|-1.41|||<|0.001|TWO_SIDED|95.0|-2.04|-0.77||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.77|-2.04|<0.001
92213165|NCT02349451|184325193|SUPERIORITY||Least squares mean difference|-0.33||||0.151|TWO_SIDED|95.0|-0.77|0.12||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||0.12|-0.77|0.151
92213166|NCT02349451|184325194|SUPERIORITY||Least squares mean difference|-3.17|||<|0.001|TWO_SIDED|95.0|-4.14|-2.19||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-2.19|-4.14|<0.001
92213167|NCT02349451|184325194|SUPERIORITY||Least squares mean difference|-0.81||||0.021|TWO_SIDED|95.0|-1.51|-0.12||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.12|-1.51|0.021
92213168|NCT02349451|184325194|SUPERIORITY||Least squares mean difference|-2.73|||<|0.001|TWO_SIDED|95.0|-3.7|-1.75||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-1.75|-3.70|<0.001
92213169|NCT02349451|184325194|SUPERIORITY||Least squares mean difference|-0.37||||0.288|TWO_SIDED|95.0|-1.06|0.32||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||0.32|-1.06|0.288
92397849|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|12.96||||0.0187|TWO_SIDED|95.0|1.53|109.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||109.5|1.53|0.0187
92397850|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|4.18||||0.0458|TWO_SIDED|95.0|1.03|17.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||17.00|1.03|0.0458
92397851|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6806|TWO_SIDED|95.0|0.41|3.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.89|0.41|0.6806
92397852|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.15||||0.809|TWO_SIDED|95.0|0.38|3.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.45|0.38|0.8090
92397853|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.22||||0.2352|TWO_SIDED|95.0|0.6|8.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.26|0.60|0.2352
92397854|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.04||||0.1231|TWO_SIDED|95.0|0.74|12.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.50|0.74|0.1231
92213170|NCT02168842|184325211|EQUIVALENCE|Comparison of the risk of need for antiparkinsonian therapy in Isradipine group to the risk in placebo group.|Hazard Ratio (HR)|0.79||||0.073|TWO_SIDED|95.0|0.61|1.03|||Log Rank|||||1.03|0.61|0.073
92213171|NCT02168842|184325212|EQUIVALENCE|Comparison the risk of need for dyskinesia in Isradipine group to the risk in a placebo group.|Hazard Ratio (HR)|1.53||||0.21|TWO_SIDED|95.0|0.78|3.01|||Log Rank|||||3.01|0.78|0.21
92213172|NCT02168842|184325213|EQUIVALENCE|Comparison of the risk of need for antiparkinsonian therapy in Isradipine group to the risk in placebo group.|Hazard Ratio (HR)|0.83||||0.35|TWO_SIDED|95.0|0.56|1.22|||Log Rank|||||1.22|0.56|0.35
92213173|NCT00186069|184325235|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.68|TWO_SIDED|95.0|0.77|1.86|||Fisher Exact|||||1.86|0.77|0.68
92213174|NCT00186069|184325236|SUPERIORITY_OR_OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
92213175|NCT00186069|184325237|SUPERIORITY_OR_OTHER|||||||0.95|||||||Fisher Exact|||||||0.95
92213176|NCT02197767|184325311|SUPERIORITY|||||||0.072|||||||t-test, 2 sided|||||||0.072
92213177|NCT02197767|184325312|SUPERIORITY|||||||0.068|||||||t-test, 2 sided|||||||0.068
92213178|NCT04526197|184325320|OTHER|Confidence Interval|Ratio of geometric LS means|0.881|||||TWO_SIDED|90.0|0.776|1.001||||||||1.001|0.776|
92213179|NCT04526197|184325321|OTHER|Confidence Interval|Ratio of geometric LS means|1.016|||||TWO_SIDED|90.0|0.959|1.077||||||||1.077|0.959|
92213180|NCT04526197|184325322|OTHER|Confidence Interval|Ratio of geometric LS means|1.01|||||TWO_SIDED|90.0|0.954|1.07||||||||1.070|0.954|
92213181|NCT03933774|184325372|SUPERIORITY|||||||0.002||||||P value \< 0.05 was considered significant.|t-test, 2 sided|||Null hypothesis: The degree of hyperpigmentation is the same between the tretinoin applied side and placebo applied side.||||0.002
92213182|NCT03933774|184325373|SUPERIORITY|||||||0.479||||||P value \< 0.05 was considered significant.|McNemar|||Null hypothesis: The number of participants who showed ≥75% repigmentation is the same between the tretinoin applied side and placebo applied side.||||0.479
92213183|NCT01783041|184325402|OTHER||||||<|0.05||||||These are calculated p values.|ANOVA|Differences in continuous and categorical variables were compared using ANOVA and either Chi square test or Fisher's exact test, respectively.||||||<0.05
92213184|NCT01783041|184325403|OTHER||||||<|0.05||||||These are calculated p values.|Wilcoxon (Mann-Whitney)|This analysis applies to all sub-scales that were compared between the 2 study groups.||||||<0.05
92213185|NCT01783041|184325404|OTHER||||||<|0.05||||||Reported p values have been calculated.|t-test, 2 sided|Differences between the groups were analyzed using a two sided t-test.||||||<0.05
92213186|NCT01783041|184325405|OTHER||||||<|0.05||||||These are calculated p values.|ANOVA|Differences in continuous and categorical variables were compared using ANOVA and either Chi square test or Fisher's exact test, respectively.||||||<0.05
92213187|NCT02092220|184325439|SUPERIORITY||Mean Difference (Final Values)|-20.28|STANDARD_DEVIATION|24.59|<|0.0001|TWO_SIDED|95.0|-28.0|-12.56||Repeated measures model.|t-test, 2 sided||Bionic Pancreas Arm - Usual Care Arm|||-12.56|-28.00|<0.0001
92213188|NCT02092220|184325440|SUPERIORITY||Mean Difference (Final Values)|1.3|||<|0.0001|TWO_SIDED|95.0|0.8|1.8||Repeated measures model.|t-test, 2 sided|||||1.8|0.8|<0.0001
92213189|NCT00593957|184325472|SUPERIORITY_OR_OTHER||||||<|0.4|||||||t-test, 2 sided|||||||<0.40
92213190|NCT00593957|184325472|SUPERIORITY_OR_OTHER||||||<|0.62||95.0|||||t-test, 2 sided|||||||<0.62
92213191|NCT00593957|184325472|SUPERIORITY_OR_OTHER||||||<|0.38||95.0|||||t-test, 2 sided|||||||<0.38
92213192|NCT00593957|184325474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.38|||<|0.1|||||||ANOVA|||Null hypothesis is that there would be no significant difference in social abilities as measured by the SSI score in this treatment group baseline to 6 months post-treatment.||||<0.10
92213193|NCT00593957|184325474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|||<|0.5|||||||ANOVA|||||||<0.50
92213194|NCT00593957|184325474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|||<|0.48|||||||ANOVA|||||||<0.48
92213195|NCT00593957|184325475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.947|||<|0.05|||||||ANOVA|||||||<0.05
92213196|NCT05089656|184325496|SUPERIORITY||LS-Means difference|1.88|STANDARD_ERROR_OF_MEAN|0.69||0.0074|TWO_SIDED|95.0|0.51|3.25|||Mixed Models Analysis|||Change from baseline at End of Follow-up Period 1||3.25|0.51|0.0074
92213197|NCT05089656|184325497|SUPERIORITY||LS-Means - difference|1.44|STANDARD_ERROR_OF_MEAN|0.889||0.1097|TWO_SIDED|95.0|-0.33|3.22|||Mixed Models Analysis|||Change from baseline at End of Follow-up Period 1||3.22|-0.33|0.1097
92213198|NCT05089656|184325498|SUPERIORITY||LS-Means difference|1.52|STANDARD_ERROR_OF_MEAN|0.599||0.0122|TWO_SIDED|95.0|0.34|2.71|||Mixed Models Analysis|||Change from baseline at End of Follow-up Period 1||2.71|0.34|0.0122
92213199|NCT05089656|184325499|SUPERIORITY||LS-Means difference|1.45|STANDARD_ERROR_OF_MEAN|0.836||0.0873|TWO_SIDED|95.0|-0.22|3.12|||Mixed Models Analysis|||Change from baseline at End of Follow-up Period 1||3.12|-0.22|0.0873
92213200|NCT05089656|184325500|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0879|TWO_SIDED|95.0|0.9|4.57|||Regression, Logistic|||End of Followup Period 1 (Week 52)||4.57|0.90|0.0879
92213201|NCT05089656|184325501|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6448|TWO_SIDED|95.0|0.46|3.56|||Regression, Logistic|||End of Followup Period 1 (Week 52)||3.56|0.46|0.6448
92213202|NCT03662139|184325537|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Between group difference||||<0.01
92213203|NCT03662139|184325537|SUPERIORITY||ICC|0.97|||<|0.05|TWO_SIDED|95.0|0.915|0.99|||Intraclass Correlation Coefficient(ICC)|Two-way random-effect model|Reliability estimates were interpreted as follows: \>0.90=excellent; 0.75-0.90=good; 0.50-0.75=medium; \<0.50=low|Test - Retest Reliability (Difference between 1st and 2nd assessments in Cerebral Palsy group)||0.99|0.915|<0.05
92213204|NCT03662139|184325537|SUPERIORITY||ICC|0.983|||<|0.01|TWO_SIDED|95.0|0.882|0.998|||Intraclass Correlation Coefficient(ICC)|Two-way random-effect model|Reliability estimates were interpreted as follows: \>0.90=excellent; 0.75-0.90=good; 0.50-0.75=medium; \<0.50=low|Interrater Reliability (Difference between 1st and 2nd evaluators in Cerebral Palsy group)||0.998|0.882|<0.01
92213205|NCT03662139|184325538|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Between group difference||||<0.01
92213206|NCT03662139|184325538|SUPERIORITY||Spearman's correlation coefficient (rs)|0.724|||<|0.05|TWO_SIDED||||||Spearman's Correlation Test|The level of relationship was classified as follows \<0.30=small/negligible; 0.30-0.50=low; 0.50-0.70=moderate; 0.70-0.90=high; \>0.90=very high.||Correlation between Dynamic Gait Index (DGI) and Pediatric Balance Scale (PBS) scores in Cerebral Palsy group||||<0.05
92213207|NCT03662139|184325539|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Between group difference||||<0.01
92213208|NCT03662139|184325539|SUPERIORITY||Spearman's correlation coefficient (rs)|-0.828|||<|0.01|TWO_SIDED||||||Spearman's Correlation Test||The level of relationship was classified as follows \<0.30=small/negligible; 0.30-0.50=low; 0.50-0.70=moderate; 0.70-0.90=high; \>0.90=very high.|Correlation between Dynamic Gait Index (DGI) and Timed Up and Go Test (TUG) scores in Cerebral Palsy group||||<0.01
92213209|NCT03662139|184325540|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Between group difference||||<0.01
92213210|NCT03662139|184325540|SUPERIORITY||Spearman's correlation coefficient (rs)|-0.673|||<|0.05|TWO_SIDED||||||Spearman's Correlation Test||The level of relationship was classified as follows \<0.30=small/negligible; 0.30-0.50=low; 0.50-0.70=moderate; 0.70-0.90=high; \>0.90=very high.|Correlation between Dynamic Gait Index (DGI) and Four Square Step Test (FSST) scores in Cerebral Palsy group.||||<0.05
92213211|NCT05104476|184325594|SUPERIORITY||Bayesian Progression Model|0.81|||||TWO_SIDED|95.0|0.56|1.13|||||Reported here is the estimated effect parameter from the Bayesian Progression Model and the associated Credibility Interval for the active arm.|||1.13|0.56|
92213212|NCT03865940|184325613|SUPERIORITY|||||||0.374|TWO_SIDED|95.0||||P-values less than 0.05 considered significant.|Regression, Cox|Testing null hypothesis that guanfacine has no effect on time from injection to return to baseline.||||||0.374
92213213|NCT03865940|184325614|SUPERIORITY||||||<|0.001||||||P-values less than 0.05 considered significant.|Regression, Logistic|Analysis adjusted for pre-injection score and accounted for repeated measures. Effect of study drug was tested using a four degree-of-freedom test.||||||<0.001
92213214|NCT03865940|184325615|SUPERIORITY|||||||0.775|||||||Regression, Linear|The analysis adjusted for pre-injection score and accounted for repeat measures.The results of the analyses tested using a two degree-of-freedom test.||||||0.775
92213215|NCT03865940|184325616|SUPERIORITY|||||||0.099|||||||Regression, Linear|The analysis adjusted for pre-injection score and accounted for repeat measures.The results of the analyses tested using a two degree-of-freedom test.||||||0.099
92213216|NCT03865940|184325617|SUPERIORITY|||||||0.907|||||||Proportional Odds Regression|The analysis was not adjusted for baseline factors.||||||0.907
92213217|NCT03865940|184325618|SUPERIORITY|||||||0.373|||||||Regression, Logistic|Adjusted for use of pain medication at baseline||||||0.373
92213218|NCT01176968|184325621|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.581|||<|0.0001|TWO_SIDED|95.0|0.446|0.756||All analyses for primary endpoint were tested at two-sided, α-level of 0.05, without adjusting for multiplicity.|Regression, Cox|||Hazard ratio, 95% confidence interval (CI) of hazard ratio, and p-value for the Primary Analysis based on a Cox proportional hazard model with treatment as the major factor, adjusted for baseline estimated glomerular filtration rate (eGFR), with/without previous MI, time of first dose administered post onset of index symptom, and location of index MI anterior or non-anterior.||0.756|0.446|< 0.0001
92213219|NCT01176968|184325622|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.562||||0.6406|TWO_SIDED|95.0|0.05|6.308|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as the major factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||6.308|0.050|0.6406
92213220|NCT01176968|184325623|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.726||||0.5338|TWO_SIDED|95.0|0.265|1.99|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as a factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||1.990|0.265|0.5338
92213221|NCT01176968|184325625|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.083||||0.8042|TWO_SIDED|95.0|0.575|2.04|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as the major factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||2.040|0.575|0.8042
92213222|NCT01176968|184325626|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.598||||0.0003|TWO_SIDED|95.0|0.452|0.791|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as a factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||0.791|0.452|0.0003
92213223|NCT01176968|184325627|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.069||||0.9353|TWO_SIDED|95.0|0.213|5.371|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as a factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||5.371|0.213|0.9353
92213224|NCT01176968|184325628|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.6||||0.3757|TWO_SIDED|95.0|0.566|4.525|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as the major factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||4.525|0.566|0.3757
92213225|NCT01176968|184325629|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.45||||0.1744|TWO_SIDED|95.0|-3.55|0.65|||ANCOVA|||ANCOVA model was used with observed value as the dependent variable, treatment as a major factor, and baseline QRS duration, baseline eGFR, with/without previous MI, time (in hours) of first dose administered post onset of index symptom, and location of index MI (anterior versus all other locations) as covariates.||0.65|-3.55|0.1744
92213226|NCT01176968|184325630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.7123|TWO_SIDED|95.0|-0.1|0.14||ANCOVA was used for between-treatment comparisons of the LSMeans, 95% CI of LSMEANS, LSMeans difference, 95% CI of LSMeans difference, and p-value with observed value at the given time point as variable.|ANCOVA|||For the Between-Treatment difference for Eplerenone and Placebo groups of observed value taken at Month 6 visit, ANCOVA model was performed for LAD based on the LOCF method including treatment groups with/without adjustments for baseline eGFR (in mL/min/1.73 m2), previous MI (yes/no), time (in hours) of first dose administered post-onset of symptom, index MI location (anterior versus all others) as covariates.||0.14|-0.10|0.7123
92213227|NCT01176968|184325630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04||||0.4105|TWO_SIDED|95.0|-0.05|0.13||ANCOVA was used for between-treatment comparisons of the LSMeans, 95% CI of LSMEANS, LSMeans difference, 95% CI of LSMeans difference, and p-value with observed value at the given time point as variable.|ANCOVA|||For the Between-Treatment difference for Eplerenone and Placebo groups of observed value taken at Month 6 visit, ANCOVA model was performed for LAD based on the LOCF method including treatment groups with/without adjustments for baseline eGFR (in mL/min/1.73 m2), previous MI (yes/no), time (in hours) of first dose administered post-onset of symptom, index MI location (anterior versus all others) as covariates.||0.13|-0.05|0.4105
92213228|NCT01176968|184325631|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Aldosterone, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
92213229|NCT01176968|184325631|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.5552|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Aldosterone, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.5552
92213230|NCT01176968|184325631|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- Aldosterone, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||< 0.0001
92213231|NCT01176968|184325631|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Serum Cortisol, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
92213232|NCT01176968|184325631|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Serum Cortisol, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
92213233|NCT01176968|184325631|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3347|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- Serum Cortisol, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.3347
92213234|NCT01176968|184325632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005|TWO_SIDED||||||Signed Rank Test|||For Biomarker- PIIINP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.0005
92213235|NCT01176968|184325632|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- PIIINP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
92213236|NCT01176968|184325632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1558|TWO_SIDED||||||Wilcoxon-Rank Sum test|||For Biomarker- PIIINP, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.1558
92213237|NCT01176968|184325632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Galecting 3, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.0008
92213238|NCT01176968|184325632|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Galecting 3, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
92213239|NCT01176968|184325632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0293|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- Galecting 3, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.0293
92213240|NCT01176968|184325632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1723|TWO_SIDED||||||Signed Rank Test|||For Biomarker- PINP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.1723
92213241|NCT01176968|184325632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0295|TWO_SIDED||||||Signed Rank Test|||For Biomarker- PINP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.0295
92213242|NCT01176968|184325632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0865|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- PINP, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.0865
92213243|NCT01176968|184325633|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0944|TWO_SIDED||||||Signed Rank Test|||For Biomarker- ICTP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.0944
92213244|NCT01176968|184325633|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|TWO_SIDED||||||Signed Rank Test|||For Biomarker- ICTP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.0360
92213245|NCT01176968|184325633|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6459|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- ICTP, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.6459
92213246|NCT01176968|184325634|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Interleukin-6, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
92213247|NCT01176968|184325634|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Interleukin-6, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
92213248|NCT01176968|184325634|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0801|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- Interleukin-6, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.0801
92213249|NCT04658186|184325650|SUPERIORITY||Difference in RMET|0.31||||0.647|TWO_SIDED|95.0|-1.0|1.61|||Wald Chi-square||Results were obtained from a generalized linear model for the restricted mean event time (RMET), with gender and age at baseline as covariates and treatment group as the effect of interest.|||1.61|-1.00|0.647
92213250|NCT04658186|184325650|SUPERIORITY||Difference in RMET|0.81||||0.214|TWO_SIDED|95.0|-0.47|2.09|||Wald Chi-square||Results obtained from generalized linear model for RMET, with gender and age at baseline as covariates and treatment group as effect of interest.|||2.09|-0.47|0.214
92213251|NCT04658186|184325653|SUPERIORITY||Difference in RMET|1.0||||0.124|TWO_SIDED|95.0|-0.27|2.27|||Wald Chi-square||Results were obtained from a generalized linear model for the RMET, with gender and age at baseline as covariates and treatment group as the effect of interest.|||2.27|-0.27|0.124
92213252|NCT04658186|184325653|SUPERIORITY||Difference in RMET|1.22||||0.064||95.0|-0.07|2.51|||Wald Chi-sqaure||Results were obtained from a generalized linear model for the RMET, with gender and age at baseline as covariates and treatment group as the effect of interest.|||2.51|-0.07|0.064
92213253|NCT01067326|184325703|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||Change in EPCs from baseline to 4 months||||0.02
92213254|NCT01067326|184325704|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||t-test, 2 sided|||Difference in systolic blood pressure from baseline to 4 months.||||.006
92213255|NCT01067326|184325705|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||t-test, 2 sided|||Difference in diastolic blood pressure from baseline to 4 months.||||0.04
92213256|NCT01067326|184325706|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||t-test, 2 sided|||P-value for intergroup comparison of change from baseline to month 4||||0.94
92213257|NCT00323297|184325707|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.38|STANDARD_ERROR_OF_MEAN|11.722||0.5802|TWO_SIDED|90.0|-21.843|17.087||A sequential closed-testing procedure was implemented for all secondary endpoints. If no statistically significant treatment effect was found for the primary endpoint then statistical tests were not to be performed on the secondary endpoints.|ANCOVA|The mean difference in method of estimation is the difference between Sildenafil - placebo.||"The estimated sample size was based upon the primary endpoint. A sample size of 51 subjects per treatment group was required to detect a difference of 30 meters between treatments with 80% power at a one-sided significance level of 0.05, assuming a standard deviation of 60 meters.~This primary statistical analysis was carried for Week 12 data."||17.087|-21.843|0.5802
92213258|NCT01498289|184325727|SUPERIORITY||Cox Proportional Hazard|0.91||||0.83|TWO_SIDED|95.0|0.41|2.05|||Regression, Cox|||||2.05|0.41|0.83
92213259|NCT01498289|184325728|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.02|TWO_SIDED|95.0|0.5|0.93|||Regression, Cox|||||0.93|0.50|0.02
92213260|NCT01498289|184325729|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.2|TWO_SIDED|95.0|0.61|1.11|||Regression, Cox|||||1.11|0.61|0.20
92213261|NCT01498289|184325730|SUPERIORITY|||||||0.1|||||||Chi-squared|||||||0.10
92213262|NCT01498289|184325731|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.41|TWO_SIDED|95.0|0.44|1.4|||Regression, Cox|||Statistical analysis for Q1 ERCC1||1.40|0.44|0.41
92213263|NCT01498289|184325731|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.06|TWO_SIDED|95.0|0.32|1.02|||Regression, Cox|||Statistical analysis for Q2 ERCC1||1.02|0.32|0.06
92213264|NCT01498289|184325731|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.66|TWO_SIDED|95.0|0.49|1.58|||Regression, Cox|||Statistical analysis for Q3 ERCC1||1.58|0.49|0.66
92213265|NCT01498289|184325731|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.3|TWO_SIDED|95.0|0.42|1.31|||Regression, Cox|||Statistical analysis for Q4 ERCC1||1.31|0.42|0.30
92213266|NCT00078754|184325735|SUPERIORITY_OR_OTHER_LEGACY|||||||0.622|TWO_SIDED||||||ANCOVA|||||||0.622
92213267|NCT00078754|184325736|SUPERIORITY|||||||0.029||||||LHA score main effect.|ANCOVA|The LHA Score F\[1,83\] = 4.91, p = 0.029; Condition F\[2,83\] = 0.20, p = 0.815; Condition x LHA Score F\[2,83\] = 0.255, p = 0.799.||The hypothesis was that subjects with LHA Scores = 18 or more would respond better to divalproex (than fluoxetine) while those with LHA scores = or \< 17 would respond better to fluoxetine (than divalproex).||||0.029
92213268|NCT00078754|184325736|SUPERIORITY||Mean Difference (Final Values)|19.0|STANDARD_ERROR_OF_MEAN|2.7||0.8|TWO_SIDED||||||ANCOVA|Baseline OAS-M Aggression score as covariate.||ANCOVA at endpoint with baseline OAS-M AGG score as covariate.||||0.80
92213269|NCT00809523|184325738|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||Data were analyzed at the follow up timepoint (4 weeks) to test for differences between the experimental groups.||||0.007
92213270|NCT00809523|184325739|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||t-test, 2 sided|||||||0.014
92213271|NCT00752622|184325831|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Comparison of Infliximab from Induction baseline to evaluation Week 10.||||<.0001
92213272|NCT00752622|184325831|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Comparison of Infliximab from Induction baseline to Week 30 of the Observational Phase.||||<.0001
92213273|NCT00752622|184325831|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Comparison of Infliximab from Induction baseline to Week 54 of the Observational Phase.||||<.0001
92213274|NCT00986440|184325874|SUPERIORITY||Z statistic for difference|3.92|||<|0.0001|TWO_SIDED||||||2-sided P value for z test|||||||<0.0001
92213275|NCT00986440|184325874|SUPERIORITY||Hazard Ratio, log|-0.41|||||TWO_SIDED|||||||||||||
92213276|NCT00986440|184325875|SUPERIORITY|||||||0.038|||||||Log Rank|||||||0.0380
92213277|NCT00986440|184325875|SUPERIORITY|||||||0.1773|||||||Peto-Peto-Prentice|||||||0.1773
92213278|NCT00986440|184325875|SUPERIORITY|||||||0.2844|||||||Wilcoxon (Mann-Whitney)|||||||0.2844
92213279|NCT00986440|184325875|SUPERIORITY|||||||0.114|||||||Tarone-Ware|||||||0.1140
92213280|NCT00986440|184325876|SUPERIORITY|||||||0.1213|||||||Log Rank|||||||0.1213
92213281|NCT00178126|184325882|SUPERIORITY_OR_OTHER|||||||0.04|||||||Fisher Exact|||||||0.04
92213282|NCT01323634|184325892|SUPERIORITY_OR_OTHER||Least square mean difference|0.08|||<|0.001|TWO_SIDED|95.0|0.037|0.124|||ANCOVA|||||0.124|0.037|<0.001
92213283|NCT01182194|184325896|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|92.5|||||TWO_SIDED|90.0|85.53|100.03|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||100.03|85.53|
92213284|NCT01182194|184325897|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.76|||||TWO_SIDED|90.0|95.66|101.96|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.96|95.66|
92213285|NCT01182194|184325898|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.47|||||TWO_SIDED|90.0|95.35|101.7|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.70|95.35|
92213286|NCT01182194|184325899|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|101.45|||||TWO_SIDED|90.0|94.36|109.08|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||109.08|94.36|
92213287|NCT01182194|184325900|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.54|||||TWO_SIDED|90.0|94.55|102.71|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||102.71|94.55|
92397855|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.86||||0.1445|TWO_SIDED|95.0|0.7|11.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||11.76|0.70|0.1445
92213288|NCT01182194|184325901|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.7|||||TWO_SIDED|90.0|96.07|103.46|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||103.46|96.07|
92213289|NCT01585987|184325905|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.439||||0.0972|TWO_SIDED|80.0|1.085|1.908||Significance level used: 0.2|Log Rank||The hazard ratio and its associated two-sided 80% confidence interval (CI) was estimated via a stratified Cox model with treatment arm as the only covariate in the model|||1.908|1.085|0.0972
92213290|NCT01585987|184325906|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.588||||0.0336|TWO_SIDED|80.0|1.199|2.103||Significance level used: 0.2|Log Rank|||||2.103|1.199|0.0336
92213291|NCT01585987|184325907|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.874||||0.6433|TWO_SIDED|80.0|0.602|1.269||Significance level used: 0.2|Log Rank||HR was based on a stratified Cox proportional hazards model with treatment arm as the only covariate in the model.|||1.269|0.602|0.6433
92213292|NCT01585987|184325909|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0549||||0.3686|TWO_SIDED|80.0|0.7009|47.6447||Significance level used: 0.2|Cochran-Mantel-Haenszel|||||47.6447|0.7009|0.3686
92213293|NCT03291587|184325910|SUPERIORITY|With 418 analyzable participants across 13 clinics per group, we have 80% power to detect a group difference in primary outcome (7-day abstinence). This assumes control abstinence rate will be 10% versus 20% intervention rate using a 2-sided Z-test for proportions with alpha=0.05 (2-sided). To account for the clustering we used an intra-class correlation value of 0.03. We plan to enroll 1114-1300 patients (or approximately 42-50 per site) to conservatively allow for 25%- 35.5% loss to follow-up.|Odds Ratio (OR)|0.967||||0.865|TWO_SIDED|96.0|0.652|1.433|||Mixed Models Analysis|||A generalized estimating equation marginal model was used in an intent-to-treat analysis to predict the 7-day tobacco use binary outcome. A binomial distribution with logit link was specified with group, time, and the interaction of group by time included as covariates while allowing intercept and time to vary by participants within site with an exchangeable working correlation matrix designation.||1.433|0.652|0.865
92213294|NCT00803270|184325932|SUPERIORITY_OR_OTHER||Difference of proportions|0.08|STANDARD_ERROR_OF_MEAN|0.19||0.99|TWO_SIDED|95.0|-0.28|0.44|||Fisher Exact|||||0.44|-0.28|0.99
92213295|NCT00803270|184325933|SUPERIORITY_OR_OTHER||difference of proportions|0.45|STANDARD_ERROR_OF_MEAN|0.21||0.08|TWO_SIDED|95.0|0.03|0.87||Fisher's Exact Test of equality of percent meeting optimal outcome.|Fisher Exact|||||0.87|0.03|0.08
92213296|NCT01966471|184325934|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.827||95.0|0.71|1.32|||Log Rank|||||1.32|0.71|0.8270
92213297|NCT01966471|184325935|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9291||95.0|0.77|1.34|||Log Rank|||||1.34|0.77|0.9291
92213298|NCT01966471|184325936|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.8756||95.0|0.74|1.3|||Log Rank|||||1.30|0.74|0.8756
92213299|NCT01966471|184325937|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9341||95.0|0.75|1.31|||Log Rank|||||1.31|0.75|0.9341
92213300|NCT01966471|184325938|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.4577||95.0|0.61|1.25|||Log Rank|||||1.25|0.61|0.4577
92213301|NCT01966471|184325939|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.2864||95.0|0.83|1.84|||Log Rank|||||1.84|0.83|0.2864
92213302|NCT04223856|184325945|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|1e-05|TWO_SIDED|95.0|0.377|0.538||P value was calculated using stratified log-rank test. The p-value threshold for statistical significance is 0.005.|Log Rank||HR was calculated using stratified Cox proportional hazards model.|||0.538|0.377|<0.00001
92213303|NCT04223856|184325946|SUPERIORITY|P value was calculated using stratified log-rank test. The p-value threshold for statistical significance is 0.01548.|Hazard Ratio (HR)|0.468|||<|1e-05|TWO_SIDED|95.0|0.376|0.582|||Log Rank||HR was calculated using stratified Cox proportional hazards model.|||0.582|0.376|<0.00001
92213304|NCT03454828|184325968|SUPERIORITY||Mean Difference (Final Values)|0.118||||0.399|TWO_SIDED||||||t-test, 2 sided|||||||0.399
92213305|NCT00992511|184325974|NON_INFERIORITY|Criterion for non-inferiority: upper limit (UL) of the two-sided 95% Confidence Interval (CI) for the ratio of GMT between the initial process-manufactured vaccine (GSK2340272A INI 2D Group) and (over) new process-manufactured vaccine (GSK2340272A NEW 2D Group) was less than or equal to (≤) 2.|Adjusted GMT ratio|1.06|||||TWO_SIDED|95.0|0.77|1.46||||||To evaluate the immunological non-inferiority (in terms of vaccine-homologous virus H1N1 Haemagglutinin Inhibition \[HI\] antibody geometric mean titres \[GMTs\]) of the new process-manufactured A/California/7/2009 (H1N1)v-like antigen compared to the initial process-manufactured A/California/7/2009 (H1N1)v-like antigen, 21 days after first vaccination in healthy subjects aged 18 to 60 years.||1.46|0.77|
92213306|NCT00992511|184325974|NON_INFERIORITY|Criterion for non-inferiority: upper limit (UL) of the two-sided 95% Confidence Interval (CI) for the ratio of GMT between the initial process-manufactured vaccine (GSK2340272A INI 2D Group) and (over) new process-manufactured vaccine (GSK2340272A NEW 2D Group) was less than or equal to (≤) 2.|Adjusted GMT ratio|1.17|||||TWO_SIDED|95.0|0.86|1.61||||||To evaluate the immunological non-inferiority (in terms of vaccine-homologous virus H1N1 Haemagglutinin Inhibition \[HI\] antibody geometric mean titres \[GMTs\]) of the new process-manufactured A/California/7/2009 (H1N1)v-like antigen compared to the initial process-manufactured A/California/7/2009 (H1N1)v-like antigen, 21 days after first vaccination in healthy subjects aged 18 to 60 years.||1.61|0.86|
92213307|NCT00744523|184326000|SUPERIORITY_OR_OTHER||proportion of the primary endpoint|2.7|STANDARD_ERROR_OF_MEAN|5.0|<|0.05|ONE_SIDED|95.0||5.2|||t-test, 1 sided||"Parameter Dispersion Type of Standard Error of the mean is meant to state that 'mean is the mean of proportions in the sense of a central-limit theorem"|The ARMOUR trial tested the null hypothesis that the MACCE rate was greater than or equal to the Performance Goal (PG) of 13% versus the alternative hypothesis that the true MACCE rate was less than the PG. The sample size was calculated based on 90% power and a Type I error rate of 0.05 (one-sided). The Performance Goal was calculated from results of carotid artery stenting trials that utilized embolic protection devices (EPD).||5.2||<0.05
92213308|NCT03588728|184326026|SUPERIORITY|||||||0.781|||||||ANOVA|P value indicates the interaction term.||Test of between-subjects effects||||.781
92213309|NCT03588728|184326027|SUPERIORITY|||||||0.409|||||||ANOVA|P value indicates the interaction term.||Test of between-subjects effects||||.409
92213310|NCT03588728|184326028|SUPERIORITY|||||||0.697|||||||ANOVA|P value indicates the interaction term.||Test of between-subjects effects||||.697
92213311|NCT03588728|184326029|SUPERIORITY|||||||0.193|||||||ANOVA|P value indicates interaction term.||Test of between subjects effects||||.193
92213312|NCT03588728|184326030|SUPERIORITY|||||||0.185|||||||ANOVA|P value indicates the interaction term||Test of between-subjects effects||||.185
92213313|NCT03588728|184326031|SUPERIORITY|||||||0.198|||||||ANOVA|P value indicates the interaction term||Test of between-measures effects||||.198
92213314|NCT03588728|184326032|SUPERIORITY|||||||0.638|||||||ANOVA|||Test of between-subjects effects||||.638
92213315|NCT03588728|184326033|SUPERIORITY|||||||0.574|||||||ANOVA|p-value indicates the interaction term||Test of between-subjects effectd||||.574
92213316|NCT03588728|184326034|SUPERIORITY|||||||0.564|||||||ANOVA|P-value indicates the interaction term||Test of between-subjects effects||||.564
92213317|NCT03588728|184326035|SUPERIORITY|||||||0.998|||||||ANOVA|p-value indicates the interaction term||Tests of between-subjects effects||||.998
92213318|NCT03588728|184326036|SUPERIORITY|||||||0.348|||||||ANOVA|P-value indicates the interaction term||Tests of between-subjecs effects||||.348
92213319|NCT00381303|184326071|NON_INFERIORITY_OR_EQUIVALENCE|Test for non-inferiority (Delta=15%)|Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|0.052||0.3|TWO_SIDED|95.0|-19.85|0.68||P-Value for difference (Female - Male): Test for non-inferiority (Delta=15%)|Regression, Logistic|Estimates from logistic regression analysis include baseline log10 viral load and baseline CD4 cell count as covariates and gender as a factor.||"Confidence interval of the difference in proportion of response between two sexes estimated by:~* Application of delta method to be obtained Standard Error (SE)~* Calculation of lower and upper bound using normal approximation to the difference in response rates"||0.68|-19.85|0.30
92213320|NCT01777269|184326091|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.0|||<|0.001|TWO_SIDED|95.0|-10.22|-5.79|||mixed-model repeated-measures|||||-5.79|-10.22|<0.001
92213321|NCT01777269|184326092|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.11|||<|0.001|TWO_SIDED|95.0|-6.01|-2.21|||mixed-model repeated-measures||Month 1|||-2.21|-6.01|<0.001
92213322|NCT01777269|184326092|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.43|||<|0.001|TWO_SIDED|95.0|-8.45|-4.41|||Adjusted mean difference||Month 3|||-4.41|-8.45|<0.001
92151374|NCT03502616|184188152|SUPERIORITY||Difference in percentage|-1.13|STANDARD_ERROR_OF_MEAN|5.95||0.8492|TWO_SIDED|95.0|-12.8|10.53|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||10.53|-12.80|0.8492
92213323|NCT01777269|184326092|SUPERIORITY_OR_OTHER||Adjusted mean difference|-9.04|||<|0.001|TWO_SIDED|95.0|-11.31|-6.77|||mixed-model repeated-measures||Month 6|||-6.77|-11.31|<0.001
92213324|NCT01777269|184326092|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.82|||<|0.001|TWO_SIDED|95.0|-10.96|-6.67|||mixed-model repeated-measures||Month 9|||-6.67|-10.96|<0.001
92213325|NCT01777269|184326094|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.2||||0.37|TWO_SIDED|95.0|-0.62|0.23|||mixed-model repeated-measures||Month 1|||0.23|-0.62|0.37
92213326|NCT01777269|184326094|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.24||||0.33|TWO_SIDED|95.0|-0.71|0.24|||mixed-model repeated-measures||Month 3|||0.24|-0.71|0.33
92213327|NCT01777269|184326094|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.37||||0.16|TWO_SIDED|95.0|-0.88|0.15|||mixed-model repeated-measures||Month 6|||0.15|-0.88|0.16
92213328|NCT01777269|184326094|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.68||||0.009|TWO_SIDED|95.0|-1.19|-0.17|||mixed-model repeated-measures||Month 9|||-0.17|-1.19|0.009
92213329|NCT01777269|184326094|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.46||||0.091|TWO_SIDED|95.0|-0.99|0.07|||mixed-model repeated-measures||Month 12|||0.07|-0.99|0.091
92213330|NCT01777269|184326095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.89|||<|0.001|TWO_SIDED|95.0|-4.07|-1.7|||mixed-model repeated-measures||Month 1|||-1.70|-4.07|<0.001
92213331|NCT01777269|184326095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.24|||<|0.001|TWO_SIDED|95.0|-6.59|-3.9|||mixed-model repeated-measures||Month 3|||-3.90|-6.59|<0.001
92213332|NCT01777269|184326095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.82|||<|0.001|TWO_SIDED|95.0|-8.3|-5.34|||mixed-model repeated-measures||Month 6|||-5.34|-8.30|<0.001
92213333|NCT01777269|184326095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.05|||<|0.001|TWO_SIDED|95.0|-8.51|-5.59|||mixed-model repeated-measures||Month 9|||-5.59|-8.51|<0.001
92213334|NCT01777269|184326095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.92|||<|0.001|TWO_SIDED|95.0|-8.47|-5.38|||mixed-model repeated-measures||Month 12|||-5.38|-8.47|<0.001
92213335|NCT01777269|184326096|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.94||||0.012|TWO_SIDED|95.0|-1.67|-0.21|||mixed-model repeated-measures||Month 1|||-0.21|-1.67|0.012
92213336|NCT01777269|184326096|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.93||||0.017|TWO_SIDED|95.0|-1.69|-0.17|||mixed-model repeated-measures||Month 3|||-0.17|-1.69|0.017
92151375|NCT03502616|184188153|SUPERIORITY||Difference in percentage|2.24|STANDARD_ERROR_OF_MEAN|1.63||0.1692|TWO_SIDED|95.0|-0.95|5.43|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||5.43|-0.95|0.1692
92213337|NCT01777269|184326096|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.73|||<|0.001|TWO_SIDED|95.0|-2.57|-0.88|||mixed-model repeated-measures||Month 6|||-0.88|-2.57|<0.001
92213338|NCT01777269|184326096|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.15||||0.009|TWO_SIDED|95.0|-2.01|-0.3|||mixed-model repeated-measures||Month 9|||-0.30|-2.01|0.009
92213339|NCT01777269|184326096|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.83||||0.047|TWO_SIDED|95.0|-1.65|-0.01|||mixed-model repeated-measures||Month 12|||-0.01|-1.65|0.047
92213340|NCT01777269|184326097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.65|||<|0.001|TWO_SIDED|95.0|-2.45|-0.85|||mixed-model repeated-measures||Week 2|||-0.85|-2.45|<0.001
92213341|NCT01777269|184326097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.55||||0.24|TWO_SIDED|95.0|-1.47|0.37|||mixed-model repeated-measures||Month 1|||0.37|-1.47|0.24
92213342|NCT01777269|184326097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.27||||0.006|TWO_SIDED|95.0|-2.19|-0.36|||mixed-model repeated-measures||Month 3|||-0.36|-2.19|0.006
92213343|NCT01777269|184326097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.73|||<|0.001|TWO_SIDED|95.0|-2.74|-0.72|||mixed-model repeated-measures||Month 6|||-0.72|-2.74|<0.001
92213344|NCT01777269|184326097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.34||||0.013|TWO_SIDED|95.0|-2.4|-0.28|||mixed-model repeated-measures||Month 9|||-0.28|-2.40|0.013
92213345|NCT01777269|184326097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.97|||<|0.001|TWO_SIDED|95.0|-3.12|-0.83|||mixed-model repeated-measures||Month 12|||-0.83|-3.12|<0.001
92213346|NCT01777269|184326098|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.4||||0.036|TWO_SIDED|95.0|-0.78|-0.03|||mixed-model repeated-measures||Week 2|||-0.03|-0.78|0.036
92213347|NCT01777269|184326098|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.0||||1|TWO_SIDED|95.0|-0.37|0.37|||mixed-model repeated-measures||Month 1|||0.37|-0.37|1.00
92213348|NCT01777269|184326098|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.26||||0.21|TWO_SIDED|95.0|-0.67|0.15|||mixed-model repeated-measures||Month 3|||0.15|-0.67|0.21
92213349|NCT01777269|184326098|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.62||||0.009|TWO_SIDED|95.0|-1.09|-0.15|||mixed-model repeated-measures||Month 6|||-0.15|-1.09|0.009
92213350|NCT01777269|184326098|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.45||||0.056|TWO_SIDED|95.0|-0.91|0.01|||mixed-model repeated-measures||Month 9|||0.01|-0.91|0.056
92213351|NCT01777269|184326098|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.58||||0.023|TWO_SIDED|95.0|-1.08|-0.08|||mixed-model repeated-measures||Month 12|||-0.08|-1.08|0.023
92213352|NCT01777269|184326099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.0|||<|0.001|TWO_SIDED|95.0|-3.89|-2.1|||mixed-model repeated-measures||Week 2|||-2.10|-3.89|<0.001
92213353|NCT01777269|184326099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1|||<|0.001|TWO_SIDED|95.0|-3.15|-1.06|||mixed-model repeated-measures||Month 1|||-1.06|-3.15|<0.001
92213354|NCT01777269|184326099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.11|||<|0.001|TWO_SIDED|95.0|-3.25|-0.98|||mixed-model repeated-measures||Month 3|||-0.98|-3.25|<0.001
92213355|NCT01777269|184326099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.53|||<|0.001|TWO_SIDED|95.0|-3.76|-1.3|||mixed-model repeated-measures||Month 6|||-1.30|-3.76|<0.001
92213356|NCT01777269|184326099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.3||||0.042|TWO_SIDED|95.0|-2.56|-0.05|||mixed-model repeated-measures||Month 9|||-0.05|-2.56|0.042
92213357|NCT01777269|184326099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.51|||<|0.001|TWO_SIDED|95.0|-4.87|-2.14|||mixed-model repeated-measures||Month 12|||-2.14|-4.87|<0.001
92213358|NCT01777269|184326100|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.78|||<|0.001|TWO_SIDED|95.0|-10.07|-5.49|||mixed-model repeated-measures||Par. with IPSS change from baseline \>=2 points improvement at any time post-baseline visit|||-5.49|-10.07|<0.001
92213359|NCT01777269|184326100|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.39|||<|0.001|TWO_SIDED|95.0|-9.79|-4.99|||mixed-model repeated-measures||Par. with IPSS change from baseline \>=3 points improvement at any time post-baseline visit|||-4.99|-9.79|<0.001
92213360|NCT01777269|184326101|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.79|||<|0.001|TWO_SIDED|95.0|-10.22|-5.35|||mixed-model repeated-measures||Par. with IPSS change from baseline \>=25 points improvement at any time post-baseline visit|||-5.35|-10.22|<0.001
92213361|NCT00504881|184326103|SUPERIORITY_OR_OTHER||Percent Reduction over Placebo|7.3|||=|0.125|TWO_SIDED|95.0|-2.2|15.9|||ANCOVA|||ANCOVA on log-transformed partial seizure frequency per week over the treatment period, with log-transformed baseline seizure frequency per week as covariate, and including terms for treatment and stratification factors.||15.9|-2.2|=0.125
92213362|NCT02411578|184326134|SUPERIORITY|||||||0.99||||||Proportions of successes in each arm were compared using a generalized linear mixed model with a logistic link function, random participant effect to account for correlated data from some pts having multiple events, and adjustment for baseline BG.|Mixed Models Analysis|||For the crossover trial primary analysis, analyzed events were study treatment events meeting the following criteria: a) a survey was completed in the smart phone application, b) the initial BG measurement was 40 to 69 mg/dL, c) BG measurements were performed at both the 15-minute (in a window of 13 to 20 minutes) and 30-minute (28 to 40 minutes) time points, and d) appropriate treatment including dose was taken both at the initial and 15-minute time points.||||0.99
92213363|NCT02411578|184326135|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.34
92213364|NCT02411578|184326136|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.01
92213365|NCT02411578|184326137|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.02
92213366|NCT02411578|184326138|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.86
92213367|NCT02411578|184326139|SUPERIORITY|||||||0.95|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.95
92213368|NCT02411578|184326140|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.78
92213369|NCT02411578|184326141|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.21
92213370|NCT02411578|184326142|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.09
92213371|NCT02411578|184326143|SUPERIORITY|||||||0.49|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.49
92213372|NCT02411578|184326144|SUPERIORITY|||||||0.63|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.63
92213373|NCT02411578|184326145|SUPERIORITY|||||||0.41|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.41
92213374|NCT02411578|184326146|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.80
92397856|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|12.03||||0.023|TWO_SIDED|95.0|1.41|102.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||102.7|1.41|0.0230
92397857|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0801|TWO_SIDED|95.0|0.86|14.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||14.36|0.86|0.0801
92397858|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.63||||0.4152|TWO_SIDED|95.0|0.5|5.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.32|0.50|0.4152
92397859|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.7||||0.3845|TWO_SIDED|95.0|0.51|5.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.65|0.51|0.3845
92397860|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.46||||0.1864|TWO_SIDED|95.0|0.65|9.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.39|0.65|0.1864
92397861|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.06||||0.01268|TWO_SIDED|95.0|0.73|12.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.86|0.73|0.01268
92397862|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.8||||0.16|TWO_SIDED|95.0|0.67|11.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||11.76|0.67|0.1600
92397863|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|6.13||||0.0317|TWO_SIDED|95.0|1.17|32.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||32.11|1.17|0.0317
92397864|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|3.73||||0.0709|TWO_SIDED|95.0|0.89|15.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||15.53|0.89|0.0709
92397865|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.6||||0.4533|TWO_SIDED|95.0|0.47|5.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.41|0.47|0.4533
92397866|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.8||||0.7053|TWO_SIDED|95.0|0.24|2.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||2.60|0.24|0.7053
92397867|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.84||||0.3677|TWO_SIDED|95.0|0.49|6.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.99|0.49|0.3677
92397868|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.24||||0.735|TWO_SIDED|95.0|0.35|4.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||4.40|0.35|0.7350
92397869|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.37||||0.6443|TWO_SIDED|95.0|0.36|5.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.15|0.36|0.6443
92397870|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.58||||0.4865|TWO_SIDED|95.0|0.43|5.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.76|0.43|0.4865
92397871|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.52||||0.1628|TWO_SIDED|95.0|0.69|9.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.27|0.69|0.1628
92397872|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.79||||0.6935|TWO_SIDED|95.0|0.24|2.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.57|0.24|0.6935
92213375|NCT02411578|184326147|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.13
92213376|NCT02411578|184326148|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.70
92213377|NCT02411578|184326149|SUPERIORITY|||||||0.93||||||Proportions of successes in each arm were compared using a generalized linear mixed model with a logistic link function, random participant effect to account for correlated data from some pts having multiple events, and adjustment for baseline BG.|Mixed Models Analysis|||||||0.93
92213378|NCT02411578|184326150|SUPERIORITY|||||||0.66||||||Proportions of successes in each arm were compared using a generalized linear mixed model with a logistic link function, random participant effect to account for correlated data from some pts having multiple events, and adjustment for baseline BG.|Mixed Models Analysis|||||||0.66
92213379|NCT02411578|184326151|SUPERIORITY|||||||0.08||||||Proportions of successes in each arm were compared using a generalized linear mixed model with a logistic link function, random participant effect to account for correlated data from some pts having multiple events, and adjustment for baseline BG.|Mixed Models Analysis|||||||0.08
92213380|NCT01231516|184326196|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority of DTG 50 mg and RAL at Week 48 can be concluded if the lower bound of a two-sided 95% confidence interval (CI) for the difference in percentages (DTG - RAL) is greater than -12%. If non-inferiority were established, superiority would be tested at the nominal 5% level based on a pre-specified testing procedure.|Difference in percentage|7.4||||0.03|TWO_SIDED|95.0|0.7|14.2||P-value is for test of superiority.|Cochran-Mantel-Haenszel|Adjusted difference in proportion which is based on the difference in percentage, adjusted for Baseline (BL) stratification factors.|Analysis was adjusted for BL stratification factors: HIV-1 RNA (\<=50000 versus \[vs\]\>50000 c/mL), darunavir-ritonavir use without primary protease inhibitor mutations (yes vs no), and phenotypic susceptibility score (2 vs \<2) to background regimen.|||14.2|0.7|0.030
92213381|NCT04427501|184326212|SUPERIORITY||Odds Ratio (OR)|0.3|||||TWO_SIDED|95.0|0.15|0.58||||||||0.58|0.15|
92213382|NCT04427501|184326212|SUPERIORITY||Odds Ratio (OR)|0.12|||||TWO_SIDED|95.0|0.04|0.31||||||||0.31|0.04|
92213383|NCT04427501|184326213|SUPERIORITY||Odds Ratio (OR)|0.23|||||TWO_SIDED|95.0|0.13|0.4||||||||0.40|0.13|
92213384|NCT04427501|184326214|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.221||0.6921|TWO_SIDED|95.0|-0.35|0.52|||Mixed Models Analysis|||||0.52|-0.35|0.6921
92213385|NCT04427501|184326214|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.219||0.211|TWO_SIDED|95.0|-0.71|0.16|||Mixed Models Analysis|||||0.16|-0.71|0.2110
92213386|NCT04427501|184326214|SUPERIORITY||Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|0.225||0.163|TWO_SIDED|95.0|-0.13|0.76|||Mixed Models Analysis|||||0.76|-0.13|0.1630
92213387|NCT04427501|184326214|SUPERIORITY||Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|0.22||0.0099|TWO_SIDED|95.0|-1.0|-0.14|||Mixed Models Analysis|||||-0.14|-1.00|0.0099
92213388|NCT04427501|184326219|SUPERIORITY||Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|1.13|1.86||||||||1.86|1.13|
92213389|NCT04427501|184326219|SUPERIORITY||Odds Ratio (OR)|1.56|||||TWO_SIDED|95.0|1.24|1.95||||||||1.95|1.24|
92213390|NCT04427501|184326219|SUPERIORITY||Odds Ratio (OR)|1.64|||||TWO_SIDED|95.0|1.06|2.53||||||||2.53|1.06|
92213391|NCT04427501|184326220|SUPERIORITY||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|1.17|1.93||||||||1.93|1.17|
92213392|NCT04427501|184326220|SUPERIORITY||Odds Ratio (OR)|1.67|||||TWO_SIDED|95.0|1.33|2.09||||||||2.09|1.33|
92213393|NCT04427501|184326220|SUPERIORITY||Odds Ratio (OR)|1.88|||||TWO_SIDED|95.0|1.22|2.9||||||||2.9|1.22|
92213394|NCT04427501|184326221|SUPERIORITY||Odds Ratio (OR)|0.34|||||TWO_SIDED|95.0|0.18|0.64||||||||0.64|0.18|
92213395|NCT04427501|184326221|SUPERIORITY||Odds Ratio (OR)|0.17|||||TWO_SIDED|95.0|0.07|0.38||||||||0.38|0.07|
92213396|NCT04427501|184326221|SUPERIORITY||Odds Ratio (OR)|0.25|||||TWO_SIDED|95.0|0.06|1.05||||||||1.05|0.06|
92213397|NCT04427501|184326222|SUPERIORITY||Mean Difference (Net)|-1.2|||<|0|TWO_SIDED|95.0|-1.46|-0.94|||Mixed Models Analysis|||||-0.94|-1.46|<0.0000000
92213398|NCT04427501|184326222|SUPERIORITY||Mean Difference (Net)|-1.09|||<|0|TWO_SIDED|95.0|-1.34|-0.85|||Mixed Models Analysis|||||-0.85|-1.34|<0.0000000
92213399|NCT04427501|184326222|SUPERIORITY||Mean Difference (Net)|-0.99||||3.777e-05|TWO_SIDED|95.0|-1.45|-0.52|||Mixed Models Analysis|||||-0.52|-1.45|0.00003777
92213400|NCT04427501|184326223|SUPERIORITY||Hazard Ratio (HR)|1.213||||0.007|TWO_SIDED||||||Stratified Log-rank|||||||0.007
92213401|NCT04427501|184326223|SUPERIORITY||Hazard Ratio (HR)|1.111||||0.13|TWO_SIDED||||||Stratified Log-rank|||||||0.130
92213402|NCT04427501|184326223|SUPERIORITY||Hazard Ratio (HR)|1.38||||0.012|TWO_SIDED||||||Stratified Log-rank|||||||0.012
92213403|NCT04427501|184326224|SUPERIORITY||Hazard Ratio (HR)|1.355||||0.007|TWO_SIDED||||||Stratified Log-rank|||||||0.007
92213404|NCT04427501|184326224|SUPERIORITY||Hazard Ratio (HR)|1.237||||0.033|TWO_SIDED||||||Stratified Log-rank|||||||0.033
92213405|NCT04427501|184326224|SUPERIORITY||Hazard Ratio (HR)|1.521||||0.017|TWO_SIDED||||||Stratified Log-rank|||||||0.017
92213406|NCT04427501|184326225|SUPERIORITY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.243||0.499|TWO_SIDED|95.0|-0.31|0.64|||Mixed Models Analysis|||||0.64|-0.31|0.499
92213407|NCT04427501|184326225|SUPERIORITY||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.241||0.492|TWO_SIDED|95.0|-0.64|0.31|||Mixed Models Analysis|||||0.31|-0.64|0.492
92213408|NCT04427501|184326225|SUPERIORITY||Mean Difference (Net)|0.38|STANDARD_ERROR_OF_MEAN|0.246||0.125|TWO_SIDED|95.0|-0.11|0.86|||Mixed Models Analysis|||||0.86|-0.11|0.125
92213409|NCT04427501|184326225|SUPERIORITY||Mean Difference (Net)|-0.43|STANDARD_ERROR_OF_MEAN|0.236||0.069|TWO_SIDED|95.0|-0.89|0.03|||Mixed Models Analysis|||||0.03|-0.89|0.069
92213410|NCT04427501|184326226|SUPERIORITY||Odds Ratio (OR)|1.74||||0.034|TWO_SIDED|95.0|1.04|2.9|||Regression, Logistic|||||2.90|1.04|0.034
92213411|NCT04427501|184326226|SUPERIORITY||Odds Ratio (OR)|1.15||||0.594|TWO_SIDED|95.0|0.69|1.91|||Regression, Logistic|||||1.91|0.69|0.594
92213412|NCT04427501|184326226|SUPERIORITY||Odds Ratio (OR)|1.32||||0.291|TWO_SIDED|95.0|0.79|2.2|||Regression, Logistic|||||2.20|0.79|0.291
92213413|NCT04427501|184326226|SUPERIORITY||Odds Ratio (OR)|1.45||||0.143|TWO_SIDED|95.0|0.88|2.4|||Regression, Logistic|||||2.40|0.88|0.143
92213414|NCT04427501|184326227|SUPERIORITY||Odds Ratio (OR)|1.89||||0.014|TWO_SIDED|95.0|1.14|3.15|||Regression, Logistic|||||3.15|1.14|0.014
92213415|NCT04427501|184326227|SUPERIORITY||Odds Ratio (OR)|1.06||||0.828|TWO_SIDED|95.0|0.64|1.74|||Regression, Logistic|||||1.74|0.64|0.828
92213416|NCT04427501|184326227|SUPERIORITY||Odds Ratio (OR)|1.82||||0.022|TWO_SIDED|95.0|1.09|3.02|||Regression, Logistic|||||3.02|1.09|0.022
92213417|NCT04427501|184326227|SUPERIORITY||Odds Ratio (OR)|1.48||||0.119|TWO_SIDED|95.0|0.9|2.43|||Regression, Logistic|||||2.43|0.90|0.119
92213418|NCT04427501|184326230|SUPERIORITY||Odds Ratio (OR)|0.23||||0.098|TWO_SIDED|95.0|0.04|1.31|||Regression, Logistic|||||1.31|0.04|0.098
92151376|NCT03502616|184188153|SUPERIORITY||Difference in percentage|4.46|STANDARD_ERROR_OF_MEAN|2.04||0.0289|TWO_SIDED|95.0|0.46|8.46|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||8.46|0.46|0.0289
92151377|NCT03502616|184188153|SUPERIORITY||Difference in percentage|6.02|STANDARD_ERROR_OF_MEAN|2.59||0.0199|TWO_SIDED|95.0|0.95|11.09|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||11.09|0.95|0.0199
92151378|NCT03502616|184188153|SUPERIORITY||Difference in percentage|12.03|STANDARD_ERROR_OF_MEAN|3.46||0.0005|TWO_SIDED|95.0|5.26|18.81|||Difference in percentage|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.81|5.26|0.0005
92151379|NCT03502616|184188153|SUPERIORITY||Difference in percentage|12.05|STANDARD_ERROR_OF_MEAN|3.45||0.0005|TWO_SIDED|95.0|5.29|18.8|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.80|5.29|0.0005
92151380|NCT03502616|184188153|SUPERIORITY||Difference in percentage|10.03|STANDARD_ERROR_OF_MEAN|4.49||0.0253|TWO_SIDED|95.0|1.24|18.83|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.83|1.24|0.0253
92151381|NCT03502616|184188153|SUPERIORITY||Difference in percentage|7.93|STANDARD_ERROR_OF_MEAN|4.75||0.095|TWO_SIDED|95.0|-1.38|17.24|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||17.24|-1.38|0.0950
92151382|NCT03502616|184188153|SUPERIORITY||Difference in percentage|7.21|STANDARD_ERROR_OF_MEAN|4.86||0.1377|TWO_SIDED|95.0|-2.31|16.73|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||16.73|-2.31|0.1377
92151383|NCT03502616|184188153|SUPERIORITY||Difference in percentage|5.68|STANDARD_ERROR_OF_MEAN|4.91||0.2472|TWO_SIDED|95.0|-3.94|15.3|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||15.30|-3.94|0.2472
92151384|NCT03502616|184188154|SUPERIORITY||LS mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.163|<|0.0001|TWO_SIDED|95.0|-1.05|-0.41|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.41|-1.05|<0.0001
92213419|NCT04427501|184326230|SUPERIORITY||Odds Ratio (OR)|0.37||||0.165|TWO_SIDED|95.0|0.09|1.51|||Regression, Logistic|||||1.51|0.09|0.165
92213420|NCT04427501|184326230|SUPERIORITY||Odds Ratio (OR)|0.39||||0.191|TWO_SIDED|95.0|0.1|1.6|||Regression, Logistic|||||1.60|0.10|0.191
92213421|NCT04427501|184326230|SUPERIORITY||Odds Ratio (OR)|0.21||||0.075|TWO_SIDED|95.0|0.04|1.18|||Regression, Logistic|||||1.18|0.04|0.075
92213422|NCT04427501|184326231|SUPERIORITY|||||||0.616|||||||Stratified Log-rank|||||||0.616
92213423|NCT04427501|184326231|SUPERIORITY|||||||0.281|||||||Stratified Log-rank|||||||0.281
92151385|NCT03502616|184188154|SUPERIORITY||LS mean difference|-1.28|STANDARD_ERROR_OF_MEAN|0.187|<|0.0001|TWO_SIDED|95.0|-1.65|-0.91|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.91|-1.65|<0.0001
92151386|NCT03502616|184188154|SUPERIORITY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.92|-1.09|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.09|-1.92|<0.0001
92151387|NCT03502616|184188154|SUPERIORITY||LS mean difference|-1.68|STANDARD_ERROR_OF_MEAN|0.221|<|0.0001|TWO_SIDED|95.0|-2.11|-1.24|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.24|-2.11|<0.0001
92151388|NCT03502616|184188154|SUPERIORITY||LS mean difference|-1.44|STANDARD_ERROR_OF_MEAN|0.223|<|0.0001|TWO_SIDED|95.0|-1.88|-1.0|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.00|-1.88|<0.0001
92151389|NCT03502616|184188154|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.235||0.088|TWO_SIDED|95.0|-0.86|0.06|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.06|-0.86|0.0880
92151390|NCT03502616|184188154|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.241||0.0921|TWO_SIDED|95.0|-0.88|0.07|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.07|-0.88|0.0921
92151391|NCT03502616|184188154|SUPERIORITY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.243||0.0597|TWO_SIDED|95.0|-0.94|0.02|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.02|-0.94|0.0597
92213424|NCT04427501|184326231|SUPERIORITY|||||||0.815|||||||Stratified Log-rank|||||||0.815
92213425|NCT04427501|184326231|SUPERIORITY|||||||0.334|||||||Stratified Log-rank|||||||0.334
92213426|NCT03170154|184326238|OTHER||1-sided 95% Upper CL|99.99|||||ONE_SIDED||||||||Historical comparison to EN ISO 11979-7:2014: SPE rate of at least 92.5 for the AAS at 12 months.|||||
92213427|NCT03170154|184326239|OTHER||1-sided 95% Upper CL|99.98|||||ONE_SIDED|95.0|||||||Historical comparison to EN ISO 11979-7:2014: SPE rate of at least 96.7 for the BAS at 12 months.|||||
92213428|NCT02460666|184326281|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||||||0.3
92213429|NCT02460666|184326282|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.2
92213430|NCT02460666|184326283|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.5
92213431|NCT02460666|184326284|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
92213432|NCT05266586|184326286|SUPERIORITY||Least Squares (LS) Means|-58.38|STANDARD_ERROR_OF_MEAN|5.138|<|0.0001|TWO_SIDED|95.0|-68.59|-48.18|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-48.18|-68.59|<.0001
92213433|NCT05266586|184326287|SUPERIORITY||Least Squares (LS) Means|-58.38|STANDARD_ERROR_OF_MEAN|5.138|<|0.0001|TWO_SIDED|95.0|-68.59|-48.18|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-48.18|-68.59|<.0001
92213434|NCT05266586|184326288|SUPERIORITY||Least Squares (LS) Means|-58.38|STANDARD_ERROR_OF_MEAN|5.138|<|0.0001|TWO_SIDED|95.0|-68.59|-48.18|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-48.18|-68.59|<.0001
92213435|NCT05266586|184326289|SUPERIORITY||Least Squares (LS) Means|-58.15|STANDARD_ERROR_OF_MEAN|5.195|<|0.0001|TWO_SIDED|95.0|-68.47|-47.83|||ANCOVA|||||-47.83|-68.47|<.0001
92151392|NCT03502616|184188154|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.25||0.0492|TWO_SIDED|95.0|-0.99|0.0|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.00|-0.99|0.0492
92151393|NCT03502616|184188155|SUPERIORITY||Difference in percentage|8.31|STANDARD_ERROR_OF_MEAN|3.29||0.0116|TWO_SIDED|95.0|1.86|14.77|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||14.77|1.86|0.0116
92213436|NCT05266586|184326290|SUPERIORITY||Least Squares (LS) Means|-58.15|STANDARD_ERROR_OF_MEAN|5.195|<|0.0001|TWO_SIDED|95.0|-68.47|-47.83|||ANCOVA|||||-47.83|-68.47|<.0001
92213437|NCT05266586|184326291|SUPERIORITY||Least Squares (LS) Means|-58.15|STANDARD_ERROR_OF_MEAN|5.195|<|0.0001|TWO_SIDED|95.0|-68.47|-47.83|||ANCOVA|||||-47.83|-68.47|<.0001
92213438|NCT05266586|184326292|SUPERIORITY||Least Squares (LS) Means|-38.35|STANDARD_ERROR_OF_MEAN|5.397|<|0.0001|TWO_SIDED|95.0|-49.07|-27.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.63|-49.07|<.0001
92213439|NCT05266586|184326293|SUPERIORITY||Least Squares (LS) Means|-38.35|STANDARD_ERROR_OF_MEAN|5.397|<|0.0001|TWO_SIDED|95.0|-49.07|-27.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.63|-49.07|<.0001
92213440|NCT05266586|184326294|SUPERIORITY||Least Squares (LS) Means|-38.35|STANDARD_ERROR_OF_MEAN|5.397|<|0.0001|TWO_SIDED|95.0|-49.07|-27.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.63|-49.07|<.0001
92213441|NCT05266586|184326295|SUPERIORITY||Least Squares (LS) Means|-37.21|STANDARD_ERROR_OF_MEAN|5.465|<|0.0001|TWO_SIDED|95.0|-48.07|-26.35|||ANCOVA|||||-26.35|-48.07|<.0001
92213442|NCT05266586|184326296|SUPERIORITY||Least Squares (LS) Means|-37.21|STANDARD_ERROR_OF_MEAN|5.465|<|0.0001|TWO_SIDED|95.0|-48.07|-26.35|||ANCOVA|||||-26.35|-48.07|<.0001
92151394|NCT03502616|184188155|SUPERIORITY||Difference in percentage|22.74|STANDARD_ERROR_OF_MEAN|4.46|<|0.0001|TWO_SIDED|95.0|13.99|31.49|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||31.49|13.99|<0.0001
92213443|NCT05266586|184326297|SUPERIORITY||Least Squares (LS) Means|-37.21|STANDARD_ERROR_OF_MEAN|5.465|<|0.0001|TWO_SIDED|95.0|-48.07|-26.35|||ANCOVA|||||-26.35|-48.07|<.0001
92213444|NCT05266586|184326298|SUPERIORITY||Least Squares (LS) Means|-35.68|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-43.23|-28.13|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.13|-43.23|<.0001
92213445|NCT05266586|184326299|SUPERIORITY||Least Squares (LS) Means|-35.68|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-43.23|-28.13|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.13|-43.23|<.0001
92213446|NCT05266586|184326300|SUPERIORITY||Least Squares (LS) Means|-35.68|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-43.23|-28.13|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.13|-43.23|<.0001
92213447|NCT05266586|184326301|SUPERIORITY||Least Squares (LS) Means|-22.28|STANDARD_ERROR_OF_MEAN|3.991|<|0.0001|TWO_SIDED|95.0|-30.21|-14.36|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.36|-30.21|<.0001
92213448|NCT05266586|184326302|SUPERIORITY||Least Squares (LS) Means|-22.28|STANDARD_ERROR_OF_MEAN|3.991|<|0.0001|TWO_SIDED|95.0|-30.21|-14.36|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.36|-30.21|<.0001
92213449|NCT05266586|184326303|SUPERIORITY||Least Squares (LS) Means|-22.28|STANDARD_ERROR_OF_MEAN|3.991|<|0.0001|TWO_SIDED|95.0|-30.21|-14.36|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.36|-30.21|<.0001
92213450|NCT01323621|184326332|SUPERIORITY_OR_OTHER||Least squares mean difference|0.029||||0.267||95.0|-0.022|0.08|||ANCOVA||ANCOVA analysis was conducted with covariates for country, smoking status, reversibility, and Baseline FEV1.|||0.080|-0.022|0.267
92213451|NCT00954421|184326340|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.6|STANDARD_DEVIATION|19.4||0.026|TWO_SIDED|95.0|-30.61|-4.65|||two-sided sign-rank test||p-value assessed via sign-rank test (pre-planned method)|The null hypothesis is that the mean change in Tremor Rating Scale score from baseline to six months post-implant (with VIM and VO stimulators turned ON) will be zero||-4.65|-30.61|.026
92151395|NCT03502616|184188155|SUPERIORITY||Difference in percentage|28.87|STANDARD_ERROR_OF_MEAN|4.99|<|0.0001|TWO_SIDED|95.0|19.09|38.66|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||38.66|19.09|<0.0001
92213452|NCT00954421|184326341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.4|STANDARD_DEVIATION|9.1||0.011|TWO_SIDED|95.0|2.2|14.5||Sign rank test was pre-planned for P-value|Sign-Rank test||p-value assessed using sign rank test|The null hypothesis is that difference in change in Tremor Rating Scale (TRS) score from baseline to 6 months when both stimulators are on (VIM and VO), versus when both stimulators are off, will be zero (i.e., that there will be no difference in effect between having both stimulators on versus both stimulators off)||14.5|2.2|0.011
92213453|NCT00954421|184326341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.73|STANDARD_DEVIATION|8.49||0.68||95.0|-4.96|6.42|||two-sided sign rank test|two sided sign rank test as pre-planned||The null hypothesis is that difference in change in Tremor Rating Scale (TRS) score from baseline to 6 months when VO is on and VIM is off, versus when VIM is on and VO is off, will be zero (i.e., that there will be no difference in effect between having exclusively VIM versus VO on)||6.42|-4.96|.68
92213454|NCT02979925|184326346|SUPERIORITY|||||||0.246|||||||Mixed Models Analysis|||||||0.246
92213455|NCT02979925|184326347|SUPERIORITY|||||||0.651|||||||Mixed Models Analysis|||||||0.651
92213456|NCT02979925|184326348|SUPERIORITY|||||||0.902|||||||Mixed Models Analysis|||||||0.902
92213457|NCT05629962|184326354|SUPERIORITY|||||||0.954|||||||Cochran-Mantel-Haenszel|||||||0.954
92151396|NCT03502616|184188155|SUPERIORITY||Difference in percentage|31.93|STANDARD_ERROR_OF_MEAN|4.92|<|0.0001|TWO_SIDED|95.0|22.28|41.58|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||41.58|22.28|<0.0001
92151397|NCT03502616|184188155|SUPERIORITY||Difference in percentage|25.28|STANDARD_ERROR_OF_MEAN|5.34|<|0.0001|TWO_SIDED|95.0|14.82|35.75|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||35.75|14.82|<0.0001
92151398|NCT03502616|184188155|SUPERIORITY||Difference in percentage|10.71|STANDARD_ERROR_OF_MEAN|5.88||0.0683|TWO_SIDED|95.0|-0.8|22.23|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||22.23|-0.80|0.0683
92151399|NCT03502616|184188155|SUPERIORITY||Difference in percentage|10.05|STANDARD_ERROR_OF_MEAN|5.94||0.0906|TWO_SIDED|95.0|-1.59|21.7|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||21.70|-1.59|0.0906
92151400|NCT03502616|184188155|SUPERIORITY||Difference in percentage|13.03|STANDARD_ERROR_OF_MEAN|5.94||0.0282|TWO_SIDED|95.0|1.39|24.66|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||24.66|1.39|0.0282
92213458|NCT03951220|184326362|SUPERIORITY|||||||0.7343|||||||ANOVA|||||||0.7343
92213459|NCT03951220|184326363|OTHER|Correlation|Spearman (r)|0.39||||0.0445|TWO_SIDED|95.0|0.0|0.68|||Spearman's rank correlation coeffcieitn|||||0.68|0.00|0.0445
92213460|NCT03951220|184326364|SUPERIORITY|||||||0.0079||||||Dunn's multiple comparisons test|Kruskal-Wallis|||For baseline P1NP||||0.0079
92213461|NCT03951220|184326364|SUPERIORITY|||||||0.0482||||||Dunn's multiple comparison test|ANOVA|||For baseline sclerostin||||0.0482
92213462|NCT03951220|184326375|OTHER|||||||0.015|||||||Fisher-Freeman-Halton exact test|||||||0.015
92213463|NCT03951220|184326378|OTHER|||||||0.007|||||||Mann-Whitney test|||||||0.007
92213464|NCT05245097|184326385|OTHER|For the multiple imputation, a total of 50 imputed datasets will be calculated (Graham et al.). Fully conditional specification (FCS) discriminant function method will be used to impute missing primary endpoint using the baseline covariates of age, sex, race, ethnicity, mobility level, and BIMS Score. The FCS logistic method was replaced with the FCS discriminant function method due to a quasi-separation caused by only one observed primary endpoint event in the treatment group.||||||0.004||||||The null hypothesis was tested at a one-sided 0.025 level of significance using a logistic regression analysis to compare treatment groups while controlling for propensity score.|Regression, Logistic|||||||0.004
92213465|NCT05245097|184326386|OTHER|||||||0.003||||||The hip fracture due to fall rate was compared between treatment groups using firth logistic regression while controlling for propensity score. A one-sided 0.025 level of significance was used.|Regression, Logistic|||||||0.003
92213466|NCT05245097|184326386|SUPERIORITY|||||||0.003|||||||Regression, Logistic|||||||0.003
92213467|NCT05245097|184326387|SUPERIORITY|||||||0.001||||||The emergency department visit due to fall rate was compared between treatment groups using firth logistic regression while controlling for propensity score. A one-sided 0.025 level of significance was used.|Regression, Logistic|Subjects with multiple ED visits due to falls are only counted once.||||||0.001
92151401|NCT03502616|184188155|SUPERIORITY||Difference in percentage|10.77|STANDARD_ERROR_OF_MEAN|5.98||0.0719|TWO_SIDED|95.0|-0.96|22.49|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||22.49|-0.96|0.0719
92213468|NCT05245097|184326388|SUPERIORITY|||||||0.003||||||The hospitalization due to fall rate was compared between treatment groups using firth logistic regression while controlling for propensity score. A one-sided 0.025 level of significance was used.|Regression, Logistic|Subjects with multiple hospitalizations due to falls are only counted once.||||||0.003
92151402|NCT03502616|184188156|SUPERIORITY||Difference in percentage|32.79|STANDARD_ERROR_OF_MEAN|4.75|<|0.0001|TWO_SIDED|95.0|23.48|42.11|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||42.11|23.48|<0.0001
92151403|NCT03502616|184188156|SUPERIORITY||Difference in percentage|40.53|STANDARD_ERROR_OF_MEAN|5.19|<|0.0001|TWO_SIDED|95.0|30.37|50.7|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||50.70|30.37|<0.0001
92151404|NCT03502616|184188156|SUPERIORITY||Difference in percentage|45.22|STANDARD_ERROR_OF_MEAN|5.2|<|0.0001|TWO_SIDED|95.0|35.03|55.41|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||55.41|35.03|<0.0001
92151405|NCT03502616|184188156|SUPERIORITY||Difference in percentage|45.23|STANDARD_ERROR_OF_MEAN|5.23|<|0.0001|TWO_SIDED|95.0|34.97|55.49|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||55.49|34.97|<0.0001
92151406|NCT03502616|184188156|SUPERIORITY||Difference in percentage|42.3|STANDARD_ERROR_OF_MEAN|5.4|<|0.0001|TWO_SIDED|95.0|31.73|52.88|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||52.88|31.73|<0.0001
92213469|NCT00883051|184326413|OTHER|A hierarchical test procedure was applied only for analysis of the primary efficacy endpoint.|||||<|0.0001|||||||Cochran-Armitage test for trend|||||||<0.0001
92213470|NCT00883051|184326414|OTHER|A hierarchical test procedure was applied only for analysis of the primary efficacy endpoint.|||||=|0.0006|||||||Cochran-Armitage test for trend]|||||||=0.0006
92213471|NCT00692978|184326431|EQUIVALENCE|Log transformed parametric ANOVA|||||<|0.05||||||calculated|ANOVA|||||||<0.05
92151407|NCT03502616|184188156|SUPERIORITY||Difference in percentage|4.96|STANDARD_ERROR_OF_MEAN|5.85||0.3967|TWO_SIDED|95.0|-6.51|16.42|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||16.42|-6.51|0.3967
92151408|NCT03502616|184188156|SUPERIORITY||Difference in percentage|4.34|STANDARD_ERROR_OF_MEAN|5.67||0.4442|TWO_SIDED|95.0|-6.78|15.46|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||15.46|-6.78|0.4442
92151409|NCT03502616|184188156|SUPERIORITY||Difference in percentage|6.38|STANDARD_ERROR_OF_MEAN|5.92||0.281|TWO_SIDED|95.0|-5.22|17.97|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||17.97|-5.22|0.2810
92151410|NCT03502616|184188156|SUPERIORITY||Difference in percentage|5.54|STANDARD_ERROR_OF_MEAN|5.95||0.3514|TWO_SIDED|95.0|-6.12|17.2|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||17.20|-6.12|0.3514
92151411|NCT03502616|184188157|SUPERIORITY||Difference in percentage|8.84|STANDARD_ERROR_OF_MEAN|2.74||0.0013|TWO_SIDED|95.0|3.46|14.21|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||14.21|3.46|0.0013
92151412|NCT03502616|184188157|SUPERIORITY||Difference in percentage|16.25|STANDARD_ERROR_OF_MEAN|3.63|<|0.0001|TWO_SIDED|95.0|9.13|23.36|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||23.36|9.13|<0.0001
92151413|NCT03502616|184188157|SUPERIORITY||Difference in percentage|20.31|STANDARD_ERROR_OF_MEAN|4.03|<|0.0001|TWO_SIDED|95.0|12.41|28.2|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||28.20|12.41|<0.0001
92213472|NCT00458341|184326436|OTHER|||||||0.133||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||Baseline of Cycle 1 versus Day 14 of Cycle 1||||0.133
92213473|NCT00458341|184326436|OTHER|||||||0.19||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||Baseline of Cycle 1 versus Day 14 of Cycle 1||||0.190
92213474|NCT00458341|184326436|OTHER|||||||0.123||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||Baseline of Cycle 2 versus Day 14 of Cycle 2||||0.123
92213475|NCT00458341|184326436|OTHER|||||||0.592||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||Baseline of Cycle 2 versus Day 14 of Cycle 2||||0.592
92213476|NCT00458341|184326437|OTHER|||||||0.021|||||||Chi-squared|||Analysis of Cycle 1 data. Analysis was to compare the observed rate with the null hypothesis response rate of 10%.||||0.021
92213477|NCT00458341|184326437|OTHER|||||||0.021|||||||Chi-squared|||Analysis of Cycle 1 data. Analysis was to compare the observed rate with the null hypothesis response rate of 10%.||||0.021
92213478|NCT00458341|184326437|OTHER|||||||0.021|||||||Chi-squared|||Analysis of Cycle 2 data. Analysis was to compare the observed rate with the null hypothesis response rate of 10%.||||0.021
92213479|NCT00458341|184326437|OTHER|||||||0.518|||||||Chi-squared|||Analysis of Cycle 2 data. Analysis was to compare the observed rate with the null hypothesis response rate of 10%.||||0.518
92151414|NCT03502616|184188157|SUPERIORITY||Difference in percentage|22.77|STANDARD_ERROR_OF_MEAN|4.24|<|0.0001|TWO_SIDED|95.0|14.46|31.08|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||31.08|14.46|<0.0001
92151415|NCT03502616|184188157|SUPERIORITY||Difference in percentage|25.28|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001|TWO_SIDED|95.0|16.47|34.1|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||34.10|16.47|<0.0001
92151416|NCT03502616|184188157|SUPERIORITY||Difference in percentage|9.41|STANDARD_ERROR_OF_MEAN|5.62||0.0941|TWO_SIDED|95.0|-1.61|20.43|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||20.43|-1.61|0.0941
92151417|NCT03502616|184188157|SUPERIORITY||Difference in percentage|2.52|STANDARD_ERROR_OF_MEAN|5.96||0.6727|TWO_SIDED|95.0|-9.17|14.21|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||14.21|-9.17|0.6727
92151418|NCT03502616|184188157|SUPERIORITY||Difference in percentage|7.29|STANDARD_ERROR_OF_MEAN|5.96||0.2213|TWO_SIDED|95.0|-4.39|18.98|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.98|-4.39|0.2213
92151419|NCT03502616|184188157|SUPERIORITY||Difference in percentage|4.7|STANDARD_ERROR_OF_MEAN|5.76||0.4137|TWO_SIDED|95.0|-6.58|15.98|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||15.98|-6.58|0.4137
92213480|NCT05461794|184326453|OTHER||Odds Ratio (OR)|2.1|||||TWO_SIDED|95.0|0.3|23.9|||||The crude odds ratio was estimated along with exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||23.9|0.3|
92213481|NCT05461794|184326453|OTHER||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-9.3|19.5|||||The risk difference was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||19.5|-9.3|
92151420|NCT03502616|184188158|SUPERIORITY||Difference in percentage|0.75|STANDARD_ERROR_OF_MEAN|1.27||0.5518|TWO_SIDED|95.0|-1.73|3.24|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||3.24|-1.73|0.5518
92151421|NCT03502616|184188158|SUPERIORITY||Difference in percentage|3.72|STANDARD_ERROR_OF_MEAN|1.92||0.0524|TWO_SIDED|95.0|-0.04|7.47|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||7.47|-0.04|0.0524
92151422|NCT03502616|184188158|SUPERIORITY||Difference in percentage|5.25|STANDARD_ERROR_OF_MEAN|2.29||0.0216|TWO_SIDED|95.0|0.77|9.73|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||9.73|0.77|0.0216
92151423|NCT03502616|184188158|SUPERIORITY||Difference in percentage|10.48|STANDARD_ERROR_OF_MEAN|2.9||0.0003|TWO_SIDED|95.0|4.8|16.17|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||16.17|4.80|0.0003
92151424|NCT03502616|184188158|SUPERIORITY||Difference in percentage|6.69|STANDARD_ERROR_OF_MEAN|2.37||0.0047|TWO_SIDED|95.0|2.05|11.33|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||11.33|2.05|0.0047
92151425|NCT03502616|184188158|SUPERIORITY||Difference in percentage|1.07|STANDARD_ERROR_OF_MEAN|3.98||0.7883|TWO_SIDED|95.0|-6.74|8.88|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||8.88|-6.74|0.7883
92151426|NCT03502616|184188158|SUPERIORITY||Difference in percentage|4.85|STANDARD_ERROR_OF_MEAN|4.4||0.2708|TWO_SIDED|95.0|-3.78|13.48|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||13.48|-3.78|0.2708
92151427|NCT03502616|184188158|SUPERIORITY||Difference in percentage|0.44|STANDARD_ERROR_OF_MEAN|4.55||0.9226|TWO_SIDED|95.0|-8.48|9.36|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||9.36|-8.48|0.9226
92151428|NCT03502616|184188158|SUPERIORITY||Difference in percentage|1.84|STANDARD_ERROR_OF_MEAN|4.23||0.663|TWO_SIDED|95.0|-6.44|10.13|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||10.13|-6.44|0.6630
92151429|NCT03502616|184188159|SUPERIORITY||LS mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.319||0.0099|TWO_SIDED|95.0|-1.47|-0.2|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.20|-1.47|0.0099
92151430|NCT03502616|184188159|SUPERIORITY||LS mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.332||0.0275|TWO_SIDED|95.0|-1.4|-0.08|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.08|-1.40|0.0275
92151431|NCT03502616|184188159|SUPERIORITY||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.35||0.042|TWO_SIDED|95.0|-1.41|-0.03|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.03|-1.41|0.0420
92151432|NCT03502616|184188159|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.349||0.1309|TWO_SIDED|95.0|-1.22|0.16|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.16|-1.22|0.1309
92151433|NCT03502616|184188159|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.305||0.5566|TWO_SIDED|95.0|-0.78|0.42|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.42|-0.78|0.5566
92151434|NCT03502616|184188159|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.248||0.4497|TWO_SIDED|95.0|-0.68|0.3|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.30|-0.68|0.4497
92151435|NCT03502616|184188159|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.227||0.9272|TWO_SIDED|95.0|-0.43|0.47|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.47|-0.43|0.9272
92151436|NCT03502616|184188159|SUPERIORITY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.273||0.2539|TWO_SIDED|95.0|-0.85|0.23|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.23|-0.85|0.2539
92151437|NCT03502616|184188160|SUPERIORITY||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.479||0.4379|TWO_SIDED|95.0|-0.58|1.33|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.33|-0.58|0.4379
92213482|NCT05461794|184326455|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.45|1.61|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by PD-L1 tumor area positivity score (\>=10% versus \< 10%)|||1.61|0.45|
92213483|NCT05461794|184326456|OTHER||Odds Ratio (OR)|2.5|||||TWO_SIDED|95.0|0.9|6.8|||||The crude odds ratio was estimated along with exact unconditional 95% CIs constructed by the tail method based on the score statistics|||6.8|0.9|
92213484|NCT05461794|184326456|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.3|3.7|||||The odds ratio was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||3.7|0.3|
92213485|NCT05461794|184326456|OTHER||Risk Difference (RD)|22.0|||||TWO_SIDED|95.0|-1.5|43.3|||||The risk difference was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||43.3|-1.5|
92213486|NCT05461794|184326456|OTHER||Risk Difference (RD)|0.9|||||TWO_SIDED|95.0|-24.5|28.4|||||The risk difference was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||28.4|-24.5|
92213487|NCT05461794|184326457|OTHER||Odds Ratio (OR)|3.9|||||TWO_SIDED|95.0|0.7|40.8|||||The crude odds ratio was estimated along with exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||40.8|0.7|
92213488|NCT05461794|184326457|OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.1|2.9|||||The odds ratio was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||2.9|0.1|
92213489|NCT05461794|184326457|OTHER||Risk Difference (RD)|12.7|||||TWO_SIDED|95.0|-2.3|29.5|||||The risk difference was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||29.5|-2.3|
92213490|NCT05461794|184326457|OTHER||Risk Difference (RD)|-8.4|||||TWO_SIDED|95.0|-34.7|13.8|||||The risk difference was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||13.8|-34.7|
92213491|NCT05461794|184326458|OTHER||Hazard Ratio (HR)|0.53|||||TWO_SIDED|95.0|0.29|0.96|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by the selected stratification factors PD-L1 tumor area positivity score (\>=10% versus \< 10%)|||0.96|0.29|
92151438|NCT03502616|184188160|SUPERIORITY||LS mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.532||0.534|TWO_SIDED|95.0|-0.73|1.39|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.39|-0.73|0.5340
92151439|NCT03502616|184188160|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.582||0.9148|TWO_SIDED|95.0|-1.1|1.22|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.22|-1.10|0.9148
92213492|NCT05461794|184326458|OTHER||Hazard Ratio (HR)|1.96|||||TWO_SIDED|95.0|0.79|4.82|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by the selected stratification factors PD-L1 tumor area positivity score (\>=10% versus \< 10%)|||4.82|0.79|
92213493|NCT05461794|184326459|OTHER||Odds Ratio (OR)|0.4|||||TWO_SIDED|95.0|0.1|2.7|||||The crude odds ratio was estimated along with exact unconditional 95% CIs constructed by the tail method based on the score statistics|||2.7|0.1|
92213494|NCT02083705|184326461|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||"We hypothesised that during neonatal CPR, CC+SI will reduce the time needed to achieve ROSC. Our aim was to examine if CC+SI reduces ROSC compared with 3:1 C:V CPR in preterm infants \<33 weeks of gestation.~For this pilot study, based on the local incidence of CPR in preterm neonates, a convenient sample size of five patients per group was enrolled. Our primary outcome was time to achieve ROSC measured using ECG."||||0.05
92213495|NCT00467285|184326477|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||comparison of changes in BMD at 6months compared to baseline||||<0.05
92213496|NCT03891524|184326512|OTHER|||||||0.0004|||||||MCP-mod analysis|||||||0.0004
92213497|NCT03891524|184326513|OTHER|||||||0.7188|||||||MCP-MOD analysis|||||||0.7188
92213498|NCT03019796|184326520|OTHER|||||||0.04|||||||ANOVA|repeated measures||||||0.040
92213499|NCT03019796|184326521|OTHER|||||||0.054|||||||ANOVA|repeated measures||||||0.054
92213500|NCT03019796|184326522|OTHER|||||||0.04|||||||ANOVA|REPEATED MEASURES||||||0.040
92213501|NCT03019796|184326523|OTHER|||||||0.321|||||||ANOVA|REPEATED MEASURES||||||0.321
92213502|NCT03019796|184326524|OTHER|||||||0.401|||||||ANOVA|REPEATED MEASURES||||||0.401
92213503|NCT03019796|184326525|OTHER|||||||0.021|||||||ANOVA|REPEATED MEASURES||||||0.021
92213504|NCT01389765|184326571|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.01|||||TWO_SIDED|90.0|0.97|1.05|||Mixed Models Analysis|Analyzed was a ratio of geometric LS means between the 2 treatment states (fed/fasted), and the 90% confidence interval for the ratio.||||1.05|0.97|
92213505|NCT01389765|184326572|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.96|||||TWO_SIDED|90.0|0.92|1.01|||Mixed Models Analysis|Analyzed was a ratio of geometric LS means between the 2 treatments states (fed/fasted), and the 90% confidence interval for the ratio.||||1.01|0.92|
92213506|NCT01389765|184326573|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0||||0.0031|TWO_SIDED|90.0|0.5|1.5|||Wilcoxon (Mann-Whitney)|Analyzed were the median of paired differences between the 2 treatment states (fed versus fasted) and the 90% confidence interval.||||1.50|0.50|0.0031
92213507|NCT01598311|184326576|NON_INFERIORITY|Non-inferiority was declared when the lower bound of the 95% CI for the difference in adjusted percentage of cured subjects was \> -10%.|Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-4.9|7.6||||||||7.6|-4.9|
92213508|NCT01598311|184326578|SUPERIORITY|Superiority was declared if the lower bound of the 95% CI of the adjusted difference in sustained response was \> 0.|Mean Difference (Final Values)|4.3|||||TWO_SIDED|95.0|-3.6|12.2||||||||12.2|-3.6|
92213509|NCT06515483|184326589|OTHER||Mean Difference (Final Values)|0.079||||0.323|TWO_SIDED|95.0|-0.095|0.254||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing baseline PLI between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at baseline were compared using non-parametric Wilcoxon Rank Sum tests.||0.254|-0.095|0.323
92213510|NCT06515483|184326589|OTHER||Mean Difference (Final Values)|-0.036||||0.371|TWO_SIDED|95.0|-0.156|0.084||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing 30-day PLI between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at 30 days were compared using non-parametric Wilcoxon Rank Sum tests.||0.084|-0.156|0.371
92213511|NCT06515483|184326589|OTHER||Mean Difference (Net)|-0.115||||0.12|TWO_SIDED|95.0|-0.262|0.031||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Comparing the mean difference in PLI from baseline to 30 days between groups|||0.031|-0.262|0.120
92213512|NCT06515483|184326590|OTHER||Mean Difference (Final Values)|0.078||||0.27|TWO_SIDED|95.0|-0.048|0.204||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing baseline MGI between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at baseline were compared using non-parametric Wilcoxon Rank Sum tests.||0.204|-0.048|0.270
92213513|NCT06515483|184326590|OTHER||Mean Difference (Final Values)|-0.085||||0.071|TWO_SIDED|95.0|-0.203|0.033||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing 30-day MGI between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at 30 days were compared using non-parametric Wilcoxon Rank Sum tests.||0.033|-0.203|0.071
92213514|NCT06515483|184326590|OTHER||Mean Difference (Net)|-0.163|||<|0.001|TWO_SIDED|95.0|-0.249|-0.077|||t-test, 2 sided||Comparing the mean difference in MGI from baseline to 30 days between groups|||-0.077|-0.249|<0.001
92213515|NCT06515483|184326591|OTHER||Mean Difference (Final Values)|0.31||||0.902|TWO_SIDED|95.0|-6.23|6.85||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing baseline BOMP between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at baseline were compared using non-parametric Wilcoxon Rank Sum tests.||6.85|-6.23|0.902
92213516|NCT06515483|184326591|OTHER||Mean Difference (Final Values)|-8.22||||0.006|TWO_SIDED|95.0|-16.46|0.02||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing 30-day BOMP between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at 30 days were compared using non-parametric Wilcoxon Rank Sum tests.||0.02|-16.46|0.006
92213517|NCT06515483|184326591|OTHER||Mean Difference (Net)|-8.53||||0.032|TWO_SIDED|95.0|-16.31|-0.75||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Comparing the mean difference in BOMP from baseline to 30 days between groups|||-0.75|-16.31|0.032
92151440|NCT03502616|184188160|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.548||0.5409|TWO_SIDED|95.0|-1.43|0.76|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.76|-1.43|0.5409
92151441|NCT03502616|184188160|SUPERIORITY||LS mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.607||0.3555|TWO_SIDED|95.0|-1.78|0.65|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.65|-1.78|0.3555
92151442|NCT03502616|184188160|SUPERIORITY||LS mean difference|0.51|STANDARD_ERROR_OF_MEAN|0.436||0.2485|TWO_SIDED|95.0|-0.36|1.38|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.38|-0.36|0.2485
92213518|NCT00523718|184326592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED||||||Chi-squared|||||||.24
92213519|NCT02217436|184326598|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||||||0.98
92213520|NCT02217436|184326599|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92213521|NCT02656420|184326600|EQUIVALENCE|Statistical significance of the treatment effect (p \< 0.01) for the lower doses compared to the high dose as the reference.|Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-1.89|-1.57||Using a linear mixed effects model with random intercepts and slope, SF level (in the log scale) was regressed on categorical treatment group (medium dose and low dose; high as the reference) as well as day (continuous variable).|Mixed Models Analysis|||The null hypothesis is that the urinary sulforaphane levels are equal across treatment arms. Sulforaphane metabolite levels were measured daily for 10 days in each arm.||-1.57|-1.89|<0.001
92213522|NCT02656420|184326601|SUPERIORITY|To summarize first 12-hour SPMA levels over the study course by participant, the SPMA geometric mean (in the log scale) for each individual was calculated and used as the outcome. Treatment arms (placebo, fifth, half and full doses) were independent (categorical) variables in a linear regression model with placebo as the reference.|Mean Difference (Final Values)|63.2|||<|0.05|TWO_SIDED|95.0|10.6|140.9|||Regression, Linear||This Estimation Parameter was based on the comparison between the full dose group and the placebo group.|All broccoli sprout arms were compared with the placebo arm.||140.9|10.6|<0.05
92213523|NCT04533451|184326607|SUPERIORITY|||||||0.0385|||||||Log Rank|||||||0.0385
92213524|NCT04533451|184326609|EQUIVALENCE|Relatively large sample size and groups are independent.||||||0.9829|||||||Chi-squared|||||||0.9829
92151443|NCT03502616|184188160|SUPERIORITY||LS mean difference|0.76|STANDARD_ERROR_OF_MEAN|0.435||0.0866|TWO_SIDED|95.0|-0.11|1.63|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.63|-0.11|0.0866
92213525|NCT05344092|184326611|OTHER|Wilcoxon signed rank test comparing baseline score to post-mobile app intervention score (approximately 4 week) for the VetEd Mobile Application user group.|Median Difference (Net)|-0.84||||0.4|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.40
92213526|NCT05344092|184326613|OTHER|Wilcoxon Signed Rank test comparing baseline score to post-mobile app use score (approximately Week 4) for users of the VetEd mobile app.|Median Difference (Net)|-0.11||||0.92|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.92
92213527|NCT05344092|184326614|OTHER|Wilcoxon Signed Rank test comparing baseline score to post-mobile app use score (approximately Week 4) for users of the VetEd mobile app.|Median Difference (Net)|-0.42||||0.68|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.68
92213528|NCT02634346|184326615|SUPERIORITY||Least square mean difference|-6.4|STANDARD_ERROR_OF_MEAN|1.83|<|0.001|TWO_SIDED|95.0|-10.0|-2.8|||Mixed Models Analysis|Mixed model for repeated measures is based on observed data without imputation of missing data.||||-2.8|-10.0|<0.001
92213529|NCT02634346|184326615|SUPERIORITY||Least square mean difference|-5.3|STANDARD_ERROR_OF_MEAN|1.84||0.004|TWO_SIDED|95.0|-8.9|-1.7|||Mixed Models Analysis|Mixed model for repeated measures is based on observed data without imputation of missing data.||||-1.7|-8.9|0.004
92397873|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9753|TWO_SIDED|95.0|0.32|3.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.28|0.32|0.9753
92151444|NCT03502616|184188160|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.356||0.4101|TWO_SIDED|95.0|-0.42|1.01|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.01|-0.42|0.4101
92151445|NCT03502616|184188160|SUPERIORITY||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.217||0.0237|TWO_SIDED|95.0|0.07|0.94|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.94|0.07|0.0237
92151446|NCT03502616|184188161|SUPERIORITY||LS mean difference|0.31|STANDARD_ERROR_OF_MEAN|0.107||0.0043|TWO_SIDED|95.0|0.1|0.52|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.52|0.10|0.0043
92151447|NCT03502616|184188161|SUPERIORITY||LS mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.121||0.0072|TWO_SIDED|95.0|0.09|0.56|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.56|0.09|0.0072
92151448|NCT03502616|184188161|SUPERIORITY||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.146||0.1101|TWO_SIDED|95.0|-0.05|0.52|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.52|-0.05|0.1101
92151449|NCT03502616|184188161|SUPERIORITY||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|0.13||0.0147|TWO_SIDED|95.0|0.06|0.58|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.58|0.06|0.0147
92151450|NCT03502616|184188161|SUPERIORITY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.162||0.2032|TWO_SIDED|95.0|-0.11|0.53|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.53|-0.11|0.2032
92151451|NCT03502616|184188161|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.168||0.9345|TWO_SIDED|95.0|-0.34|0.32|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.32|-0.34|0.9345
92151452|NCT03502616|184188161|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.187||0.5968|TWO_SIDED|95.0|-0.47|0.27|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.27|-0.47|0.5968
92151453|NCT03502616|184188161|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.166||0.7047|TWO_SIDED|95.0|-0.26|0.39|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.39|-0.26|0.7047
92151454|NCT03502616|184188161|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.157||0.807|TWO_SIDED|95.0|-0.27|0.35|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.35|-0.27|0.8070
92151455|NCT03502616|184188162|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.055||0.003|TWO_SIDED|95.0|-0.28|-0.06|||ANCOVA|||Week 16, Mobility: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-0.06|-0.28|0.0030
92151456|NCT03502616|184188162|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.055||0.897|TWO_SIDED|95.0|-0.11|0.1|||ANCOVA|||Week 16, Self-Care: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||0.10|-0.11|0.8970
92151457|NCT03502616|184188162|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.058||0.1437|TWO_SIDED|95.0|-0.2|0.03|||ANCOVA|||Week 16, Usual Activities: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||0.03|-0.20|0.1437
92151458|NCT03502616|184188162|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.046|<|0.0001|TWO_SIDED|95.0|-0.27|-0.09|||ANCOVA|||Week 16, Pain/Discomfort: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-0.09|-0.27|<0.0001
92213530|NCT02634346|184326616|SUPERIORITY||Least square mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.118||0.002|TWO_SIDED|95.0|-0.61|-0.14|||Mixed Models Analysis|Mixed model for repeated measures is based on observed data without imputation of missing data.||||-0.14|-0.61|0.002
92397874|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.81||||0.7407|TWO_SIDED|95.0|0.23|2.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.81|0.23|0.7407
92397875|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.55||||0.4929|TWO_SIDED|95.0|0.44|5.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.49|0.44|0.4929
92151459|NCT03502616|184188162|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.061||0.8445|TWO_SIDED|95.0|-0.13|0.11|||ANCOVA|||Week 16, Anxiety/Depression: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||0.11|-0.13|0.8445
92151460|NCT03502616|184188162|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.064||0.3473|TWO_SIDED|95.0|-0.19|0.07|||Mixed Models Analysis|||Week 48, Mobility: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.07|-0.19|0.3473
92151461|NCT03502616|184188162|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.059||0.9834|TWO_SIDED|95.0|-0.12|0.12|||Mixed Models Analysis|||Week 48, Self-Care: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.12|-0.12|0.9834
92151462|NCT03502616|184188162|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.066||0.7364|TWO_SIDED|95.0|-0.11|0.15|||Mixed Models Analysis|||Week 48, Usual Activities: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.15|-0.11|0.7364
92151463|NCT03502616|184188162|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.059||0.8075|TWO_SIDED|95.0|-0.13|0.1|||Mixed Models Analysis|||Week 48, Pain/Discomfort: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.10|-0.13|0.8075
92151464|NCT03502616|184188162|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.067||0.5461|TWO_SIDED|95.0|-0.09|0.17|||Mixed Models Analysis|||Week 48, Anxiety/Depression: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.17|-0.09|0.5461
92151465|NCT03502616|184188163|SUPERIORITY||LS mean difference|10.11|STANDARD_ERROR_OF_MEAN|2.331|<|0.0001|TWO_SIDED|95.0|5.52|14.7|||ANCOVA|||Week 16: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||14.70|5.52|<0.0001
92151466|NCT03502616|184188163|SUPERIORITY||LS mean difference|2.63|STANDARD_ERROR_OF_MEAN|2.337||0.2608|TWO_SIDED|95.0|-1.97|7.24|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||7.24|-1.97|0.2608
92151467|NCT03502616|184188164|SUPERIORITY||LS mean difference|-4.53|STANDARD_ERROR_OF_MEAN|3.35||0.1784|TWO_SIDED|95.0|-11.15|2.09|||ANCOVA|||Week 16: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||2.09|-11.15|0.1784
92151468|NCT03502616|184188164|SUPERIORITY||LS mean difference|-2.31|STANDARD_ERROR_OF_MEAN|2.54||0.3651|TWO_SIDED|95.0|-7.34|2.72|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.72|-7.34|0.3651
92213531|NCT02634346|184326616|SUPERIORITY||Least square mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.118|<|0.001|TWO_SIDED|95.0|-0.67|-0.2|||Mixed Models Analysis|Mixed model for repeated measures is based on observed data without imputation of missing data.||||-0.20|-0.67|<0.001
92151469|NCT03502616|184188165|SUPERIORITY||LS mean difference|-12.89|STANDARD_ERROR_OF_MEAN|2.884|<|0.0001|TWO_SIDED|95.0|-18.59|-7.19|||ANCOVA|||Week 16: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-7.19|-18.59|<0.0001
92151470|NCT03502616|184188165|SUPERIORITY||LS mean difference|-2.36|STANDARD_ERROR_OF_MEAN|3.318||0.4788|TWO_SIDED|95.0|-8.92|4.21|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.21|-8.92|0.4788
92151471|NCT03502616|184188166|SUPERIORITY||LS mean difference|-13.85|STANDARD_ERROR_OF_MEAN|3.202|<|0.0001|TWO_SIDED|95.0|-20.18|-7.52|||ANCOVA|||Week 16: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-7.52|-20.18|<0.0001
92151472|NCT03502616|184188166|SUPERIORITY||LS mean difference|-4.41|STANDARD_ERROR_OF_MEAN|3.613||0.2244|TWO_SIDED|95.0|-11.56|2.74|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.74|-11.56|0.2244
92397876|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.88||||0.8496|TWO_SIDED|95.0|0.25|3.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.15|0.25|0.8496
92213532|NCT03801902|184326646|OTHER||||||||||||||||||"If 0-1 of initial 6 evaluable patients on an arm have a safety event, then the regimen will be deemed safe and that arm will continue to the second part of the study to enroll 6 additional evaluable patients. However, if 2 or more of the 6 patients develop a safety event, then that arm is considered not safe and will not continue to second part. The probability of the treatment being judged to be too toxic when the true toxicity rate is ≥ 40% is at least 77%. If the true toxicity rate is ≤ 18%, then the probability that the treatment will be deemed to be safe is at least 70%.~If fewer than 4 of the total of 12 evaluable patients on an arm experience a safety event, then the treatment will be considered tolerable. With a cohort of 12 patients, the probability of the treatment being judged to be too toxic when the true toxicity rate is ≥ 40% at least 78%. If the true toxicity rate is ≤ 18%, the probability that the treatment will be deemed to be safe is 85%."|||
92213533|NCT03153137|184326685|SUPERIORITY|For each stage, the p-value from the ANCOVA model including randomized treatment, geographical region, and baseline peak VO2 was used to construct the final adjusted p-value.|Median unbiased estimate and repeated CI|0.62|||=|0.193|TWO_SIDED|99.0|-0.62|1.85||Final adjusted p-value (from weighted inverse normal combination test)|ANCOVA|||Due to adaptive nature of the design, the main analysis was conducted on FAS using the inverse normal combination method with pre-specified weights to combine first and second stage p-values.||1.85|-0.62|= 0.1930
92213534|NCT01821378|184326712|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.1||||0.255|TWO_SIDED|95.0|-8.4|2.2|||Mixed Models Analysis|||||2.2|-8.4|0.255
92213535|NCT01821378|184326712|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-10.3|||<|-0.001|TWO_SIDED|95.0|-14.9|-5.7|||Mixed Models Analysis|||||-5.7|-14.9|<-0.001
92151473|NCT03502616|184188167|SUPERIORITY||LS mean difference|-13.4|STANDARD_ERROR_OF_MEAN|2.488|<|0.0001|TWO_SIDED|95.0|-18.3|-8.5|||ANCOVA|||Week 16: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-8.50|-18.30|<0.0001
92151474|NCT03502616|184188167|SUPERIORITY||LS mean difference|-7.6|STANDARD_ERROR_OF_MEAN|2.905||0.0095|TWO_SIDED|95.0|-13.32|-1.88|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.88|-13.32|0.0095
92151475|NCT04503096|184188169|OTHER|To monitor safety, paired t-tests were conducted to test for pre- to post-treatment differences in global cognition (i.e., MoCA z-scores).||||||0.725|||||||t-test, 2 sided|||||||0.725
92151476|NCT04503096|184188173|OTHER|Paired t-tests were conducted to test for pre- to post-treatment changes in depression using HAM-D raw scores.||||||0.605|||||||t-test, 2 sided|||||||.605
92151477|NCT04503096|184188174|OTHER|Paired t-tests were conducted to test for pre- to post-treatment changes in depression using GDS raw scores.||||||0.897|||||||t-test, 2 sided|||||||.897
92151478|NCT04503096|184188175|OTHER|Paired t-tests were conducted to test for pre- to post-treatment changes in cognition using Fluid Cognition Composite Scores.|||||<|0.001|||||||t-test, 2 sided|||||||< .001
92151479|NCT01872910|184188178|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.0|||||TWO_SIDED|95.0|-2.1|20.0|||||95% CrI is reported here, not the CI.|||20.0|-2.1|
92151480|NCT01872910|184188178|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-34.6|||||TWO_SIDED|95.0|-45.7|-23.2|||||95% CrI is reported here, not the CI.|||-23.2|-45.7|
92213536|NCT01821378|184326713|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.2||||0.169|TWO_SIDED|95.0|-0.49|0.09|||Mixed Models Analysis|||||0.09|-0.49|0.169
92213537|NCT01821378|184326713|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.57|||<|0.001|TWO_SIDED|95.0|-0.83|-0.32|||Mixed Models Analysis|||||-0.32|-0.83|<0.001
92151481|NCT01872910|184188178|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|43.6|||||TWO_SIDED|95.0|32.7|54.9|||||95% CrI is reported here, not the CI.|||54.9|32.7|
92151482|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-2.9|0.2|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 4 h.|||0.2|-2.9|
92151483|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.5|||||TWO_SIDED|95.0|2.9|6.0|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 4 h.|||6.0|2.9|
92151484|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.9|||||TWO_SIDED|95.0|-7.4|-4.3|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 4 h.|||-4.3|-7.4|
92151485|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-5.2|0.2|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 6 h.|||0.2|-5.2|
92151486|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.1|||||TWO_SIDED|95.0|4.4|9.8|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 6 h.|||9.8|4.4|
92151487|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.6|||||TWO_SIDED|95.0|-12.2|-6.9|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 6 h.|||-6.9|-12.2|
92151488|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-7.9|-0.1|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 8 h.|||-0.1|-7.9|
92151489|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.2|||||TWO_SIDED|95.0|5.3|13.0|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 8 h.|||13.0|5.3|
92151490|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.1|||||TWO_SIDED|95.0|-16.9|-9.3|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 8 h.|||-9.3|-16.9|
92151491|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.8|||||TWO_SIDED|95.0|-13.2|0.5|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 12 h.|||0.5|-13.2|
92151492|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.9|||||TWO_SIDED|95.0|6.6|19.2|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 12 h.|||19.2|6.6|
92151493|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.7|||||TWO_SIDED|95.0|-25.9|-13.5|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 12 h.|||-13.5|-25.9|
92213538|NCT01821378|184326714|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.3||||0.706|TWO_SIDED|95.0|-1.8|1.2|||ANCOVA|||||1.2|-1.8|0.706
92213539|NCT01821378|184326714|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.0||||0.003|TWO_SIDED|95.0|-3.3|-0.7|||ANCOVA|||||-0.7|-3.3|0.003
92151494|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.3|||||TWO_SIDED|95.0|-30.8|-2.0|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 24 h.|||-2.0|-30.8|
92151495|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|23.1|||||TWO_SIDED|95.0|9.0|37.2|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 24 h.|||37.2|9.0|
92151496|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-39.4|||||TWO_SIDED|95.0|-53.2|-25.3|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 24 h.|||-25.3|-53.2|
92151497|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.5|1.6|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 4 h.|||1.6|-1.5|
92151498|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-2.9|2.4|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 6 h.|||2.4|-2.9|
92151499|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-4.7|3.1|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 8 h.|||3.1|-4.7|
92151500|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.1|||||TWO_SIDED|95.0|-8.3|4.1|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 12 h.|||4.1|-8.3|
92151501|NCT01872910|184188179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0|||||TWO_SIDED|95.0|-21.4|7.6|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 24 h.|||7.6|-21.4|
92151502|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.3|||||TWO_SIDED|95.0|-4.2|14.5|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 4 h.|||14.5|-4.2|
92151503|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-32.0|||||TWO_SIDED|95.0|-41.5|-22.4|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 4 h.|||-22.4|-41.5|
92213540|NCT01821378|184326715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.173|TWO_SIDED|95.0|0.8|2.5|||Regression, Logistic|||||2.5|0.8|0.173
92213541|NCT01821378|184326715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.2|||<|0.001|TWO_SIDED|95.0|2.0|5.2|||Regression, Logistic|||||5.2|2.0|<0.001
92151504|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|37.3|||||TWO_SIDED|95.0|27.8|46.5|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 4 h.|||46.5|27.8|
92151505|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.3|||||TWO_SIDED|95.0|-2.9|17.6|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 6 h.|||17.6|-2.9|
92151506|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-35.1|||||TWO_SIDED|95.0|-45.6|-24.6|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 6 h.|||-24.6|-45.6|
92151507|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|42.5|||||TWO_SIDED|95.0|32.1|52.7|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 6 h.|||52.7|32.1|
92151508|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.7|||||TWO_SIDED|95.0|-1.0|23.0|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 12 h.|||23.0|-1.0|
92151509|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-32.7|||||TWO_SIDED|95.0|-45.1|-20.3|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 12 h.|||-20.3|-45.1|
92151510|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|43.5|||||TWO_SIDED|95.0|31.3|55.5|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 12 h.|||55.5|31.3|
92151511|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.4|||||TWO_SIDED|95.0|-1.6|26.2|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 24 h.|||26.2|-1.6|
92151512|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-30.2|||||TWO_SIDED|95.0|-44.0|-16.0|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 24 h.|||-16.0|-44.0|
92151513|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|42.6|||||TWO_SIDED|95.0|28.6|56.5|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 24 h.|||56.5|28.6|
92151514|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|||||TWO_SIDED|95.0|-9.7|12.9|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 4 h.|||12.9|-9.7|
92151515|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.5|||||TWO_SIDED|95.0|-9.8|16.8|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 6 h.|||16.8|-9.8|
92151516|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.5|||||TWO_SIDED|95.0|-9.9|19.0|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 8 h.|||19.0|-9.9|
92151517|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.9|||||TWO_SIDED|95.0|-9.2|21.1|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 12 h.|||21.1|-9.2|
92151518|NCT01872910|184188180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|-8.4|24.2|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 24 h.|||24.2|-8.4|
92151519|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.6|1.9|||||95% CrI is reported here, not the CI. Estimation is SPID 0 to 4 h.|||1.9|-0.6|
92151520|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9|||||TWO_SIDED|95.0|-4.1|-1.7|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 4 h.|||-1.7|-4.1|
92213542|NCT01821378|184326716|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-7.7||||0.023|TWO_SIDED|95.0|-14.3|-1.1|||Mixed Models Analysis|||||-1.1|-14.3|0.023
92213543|NCT01821378|184326717|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.8||||0.464|TWO_SIDED|95.0|-2.9|1.3|||ANCOVA|||||1.3|-2.9|0.464
92213544|NCT01821378|184326717|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.8||||0.122|TWO_SIDED|95.0|-4.1|0.5|||ANCOVA|||||0.5|-4.1|0.122
92213545|NCT01821378|184326718|SUPERIORITY_OR_OTHER||Least Square Mean Difference|2.3||||0.258|TWO_SIDED|95.0|-1.7|6.2|||Mixed Models Analysis|||||6.2|-1.7|0.258
92397877|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|1.92||||0.3248|TWO_SIDED|95.0|0.52|7.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.05|0.52|0.3248
92151521|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.5|||||TWO_SIDED|95.0|2.3|4.8|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 4 h.|||4.8|2.3|
92213546|NCT01821378|184326718|SUPERIORITY_OR_OTHER||Slope|6.6|||<|0.001|TWO_SIDED|95.0|3.2|10.1|||Mixed Models Analysis|||||10.1|3.2|<0.001
92213547|NCT01821378|184326719|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.35||||0.052|TWO_SIDED|95.0|-0.7|0.0|||Mixed Models Analysis|||||0.00|-0.70|0.052
92397878|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|2.03||||0.2589|TWO_SIDED|95.0|0.59|6.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||6.92|0.59|0.2589
92397879|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.54||||0.3318|TWO_SIDED|95.0|0.16|1.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.87|0.16|0.3318
92397880|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.89||||0.8536|TWO_SIDED|95.0|0.26|3.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.01|0.26|0.8536
92397881|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.48||||0.2817|TWO_SIDED|95.0|0.12|1.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.84|0.12|0.2817
92397882|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.59||||0.4091|TWO_SIDED|95.0|0.17|2.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.07|0.17|0.4091
92397883|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.5||||0.3147|TWO_SIDED|95.0|0.13|1.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.93|0.13|0.3147
92397884|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.89||||0.8547|TWO_SIDED|95.0|0.24|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.24|0.24|0.8547
92397885|NCT03192176|184689408|SUPERIORITY||Odds Ratio (OR)|0.66||||0.5023|TWO_SIDED|95.0|0.2|2.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.19|0.20|0.5023
92397886|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.99||||0.0093|TWO_SIDED|95.0|1.41|11.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||11.35|1.41|0.0093
92397887|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.66||||0.0035|TWO_SIDED|95.0|1.66|13.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||13.09|1.66|0.0035
92397888|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|8.48|||<|0.0001|TWO_SIDED|95.0|3.01|23.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.90|3.01|<0.0001
92151522|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-0.9|3.2|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 6 h.|||3.2|-0.9|
92151523|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.8|||||TWO_SIDED|95.0|-6.8|-2.7|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 6 h.|||-2.7|-6.8|
92151524|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.9|||||TWO_SIDED|95.0|3.8|8.0|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 6 h.|||8.0|3.8|
92213548|NCT01821378|184326720|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.084||||0.012|TWO_SIDED|95.0|0.018|0.149|||ANCOVA|||||0.149|0.018|0.012
92213549|NCT01821378|184326720|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.138|||<|0.001|TWO_SIDED|95.0|0.081|0.194|||ANCOVA|||||0.194|0.081|<0.001
92213550|NCT01821378|184326721|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.0||||0.992|TWO_SIDED|95.0|-6.6|6.6|||Mixed Models Analysis|||||6.6|-6.6|0.992
92213551|NCT01821378|184326721|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-7.3||||0.044|TWO_SIDED|95.0|-14.4|-0.2|||Mixed Models Analysis|||||-0.2|-14.4|0.044
92397889|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|7.57||||0.0002|TWO_SIDED|95.0|2.65|21.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||21.59|2.65|0.0002
92151525|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|-1.0|4.8|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 8 h.|||4.8|-1.0|
92151526|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|||||TWO_SIDED|95.0|-9.0|-3.3|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 8 h.|||-3.3|-9.0|
92151527|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.0|||||TWO_SIDED|95.0|5.1|10.9|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 8 h.|||10.9|5.1|
92151528|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.4|||||TWO_SIDED|95.0|-1.3|8.1|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 12 h.|||8.1|-1.3|
92151529|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.2|||||TWO_SIDED|95.0|-12.9|-3.5|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 12 h.|||-3.5|-12.9|
92151530|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.6|||||TWO_SIDED|95.0|7.0|16.5|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 12 h.|||16.5|7.0|
92151531|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|-2.6|18.3|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 24 h.|||18.3|-2.6|
92151532|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.1|||||TWO_SIDED|95.0|-24.7|-3.6|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 24 h.|||-3.6|-24.7|
92151533|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.9|||||TWO_SIDED|95.0|11.5|32.2|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 24 h.|||32.2|11.5|
92213552|NCT01821378|184326722|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.1||||0.578|TWO_SIDED|95.0|-0.45|0.25|||Mixed Models Analysis|||||0.25|-0.45|0.578
92336659|NCT02559570|184576083|SUPERIORITY||Least Squares Mean Difference|-0.236|STANDARD_ERROR_OF_MEAN|0.205||0.2529|TWO_SIDED|95.0|-0.641|0.17|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.170|-0.641|0.2529
92151534|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.6|1.0|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 4 h.|||1.0|-1.6|
92151535|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-2.2|2.1|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 6 h.|||2.1|-2.2|
92151536|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-2.9|3.3|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 8 h.|||3.3|-2.9|
92151537|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-3.9|5.7|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 12 h.|||5.7|-3.9|
92151538|NCT01872910|184188181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.1|||||TWO_SIDED|95.0|-6.8|15.0|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 24 h.|||15.0|-6.8|
92151539|NCT01872910|184188182|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.85|||||TWO_SIDED|95.0|0.99|3.46|||||Hazard ratio (HR) of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||3.46|0.99|
92151540|NCT01872910|184188182|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.34|||||TWO_SIDED|95.0|0.16|0.72|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||0.72|0.16|
92151541|NCT01872910|184188182|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|5.48|||||TWO_SIDED|95.0|2.69|11.16|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||11.16|2.69|
92151542|NCT01872910|184188182|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.22|||||TWO_SIDED|95.0|0.57|2.59|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||2.59|0.57|
92151543|NCT01872910|184188183|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.78|||||TWO_SIDED|95.0|0.41|1.47|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||1.47|0.41|
92151544|NCT01872910|184188183|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|2.15|||||TWO_SIDED|95.0|1.19|3.88|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||3.88|1.19|
92151545|NCT01872910|184188183|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.36|||||TWO_SIDED|95.0|0.19|0.67|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||0.67|0.19|
92151546|NCT01872910|184188184|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.33|||||TWO_SIDED|95.0|0.12|0.88|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||0.88|0.12|
92151547|NCT01872910|184188184|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|4.16|||||TWO_SIDED|95.0|2.04|8.47|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||8.47|2.04|
92151548|NCT01872910|184188184|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.08|||||TWO_SIDED|95.0|0.03|0.21|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||0.21|0.03|
92151549|NCT02387216|184188210|SUPERIORITY||Hazard Ratio (HR)|1.382||||0.2302|TWO_SIDED|95.0|0.813|2.35|||Log Rank|||||2.350|0.813|0.2302
92151550|NCT02387216|184188211|SUPERIORITY||Hazard Ratio (HR)|1.195||||0.5436|TWO_SIDED|95.0|0.673|2.122|||Log Rank|||||2.122|0.673|0.5436
92151551|NCT02387216|184188212|SUPERIORITY||Odds Ratio (OR)|4.3||||0.0455|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0455
92151552|NCT02387216|184188213|SUPERIORITY|||||||0.2726|||||||Log Rank|||||||0.2726
92213553|NCT01821378|184326722|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.58||||0.003|TWO_SIDED|95.0|-0.96|-0.2|||Mixed Models Analysis|||||-0.20|-0.96|0.003
92151553|NCT02091739|184188217|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.031|=|0.004|TWO_SIDED|95.0|-0.15|0.03|||MMRM|||"A fixed sequence test procedure was used for the confirmatory analysis of the co-primary endpoints by comparing the least square (LS) means estimates of an mixed model repeated measurement (MMRM) model (2-sided, significance level alpha=0.05) between treatment groups in the following order:~1. IncobotulinumtoxinA 100 units versus (v) Placebo~2. IncobotulinumtoxinA 75 units v Placebo"||0.03|-0.15|= 0.004
92151554|NCT02091739|184188217|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.03|=|0.542|TWO_SIDED|95.0|-0.08|0.04|||MMRM|||"A fixed sequence test procedure was used for the confirmatory analysis of the co-primary endpoints by comparing the least square means estimates of an MMRM model (2-sided, significance level alpha=0.05) between treatment groups in the following order:~1. IncobotulinumtoxinA 100 units v Placebo~2. IncobotulinumtoxinA 75 units v Placebo"||0.04|-0.08|= 0.542
92151555|NCT02091739|184188218|SUPERIORITY||LS mean difference|0.58|STANDARD_ERROR_OF_MEAN|0.183|=|0.002|TWO_SIDED|95.0|0.22|0.94|||MMRM|||"A fixed sequence test procedure was used for the confirmatory analysis of the co-primary endpoints by comparing the least square means estimates of an MMRM model (2-sided, significance level alpha=0.05) between treatment groups in the following order:~1. IncobotulinumtoxinA 100 units v Placebo~2. IncobotulinumtoxinA 75 units v Placebo"||0.94|0.22|= 0.002
92151556|NCT02091739|184188218|SUPERIORITY||LS mean difference|0.35|STANDARD_ERROR_OF_MEAN|0.181|=|0.055|TWO_SIDED|95.0|-0.01|0.71|||MMRM|||"A fixed sequence test procedure was used for the confirmatory analysis of the co-primary endpoints by comparing the least square means estimates of an MMRM model (2-sided, significance level alpha=0.05) between treatment groups in the following order:~1. IncobotulinumtoxinA 100 units v Placebo~2. IncobotulinumtoxinA 75 units v Placebo"||0.71|-0.01|= 0.055
92151557|NCT03469349|184188221|SUPERIORITY||Least square mean difference|29.19|STANDARD_ERROR_OF_MEAN|10.083||0.0041|TWO_SIDED|95.0|9.35|49.02|||MMRM|||Least squares means, p-values were obtained using a mixed model for repeated measures (MMRM) analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||49.02|9.35|0.0041
92151558|NCT03469349|184188222|SUPERIORITY||Least square mean difference|15.86|STANDARD_ERROR_OF_MEAN|7.814||0.0431|TWO_SIDED|95.0|0.49|31.24|||MMRM|||Week 2: Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||31.24|0.49|0.0431
92151559|NCT03469349|184188222|SUPERIORITY||Least square mean difference|35.51|STANDARD_ERROR_OF_MEAN|12.48||0.0047|TWO_SIDED|95.0|10.96|60.05|||MMRM|||Week 24: Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||60.05|10.96|0.0047
92151560|NCT03469349|184188223|SUPERIORITY|||||||0.0227|||||||MMRM|||Week 2: p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.0227
92151561|NCT03469349|184188223|SUPERIORITY|||||||0.0007|||||||MMRM|||Week 12: p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.0007
92151562|NCT03469349|184188223|SUPERIORITY|||||||0.0023|||||||MMRM|||Week 24: p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.0023
92397890|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.13||||0.1664|TWO_SIDED|95.0|0.73|6.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||6.22|0.73|0.1664
92151563|NCT03469349|184188224|NON_INFERIORITY|As the sample size was too small, clinically significant difference in actovegin and placebo could not be defined, the non-inferiority margin was defined as priori based on clinical reasoning.||||||0.9592||||||p-values were obtained using logistic regression adjusting for treatment.|Regression, Logistic|||Week 12||||0.9592
92151564|NCT03469349|184188224|NON_INFERIORITY|As the sample size was too small, clinically significant difference in actovegin and placebo could not be defined, the non-inferiority margin was defined as priori based on clinical reasoning.||||||0.5823||||||p-values were obtained using logistic regression adjusting for treatment.|Regression, Logistic|||Week 24||||0.5823
92151565|NCT03469349|184188225|NON_INFERIORITY|As the sample size was too small, clinically significant difference in actovegin and placebo could not be defined, the non-inferiority margin was defined as priori based on clinical reasoning.||||||0.9424||||||p-values were obtained using logistic regression adjusting for treatment.|Regression, Logistic|||||||0.9424
92151566|NCT03469349|184188226|SUPERIORITY|||||||0.3758|||||||MMRM|||Physical Health Score: Week 12; Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.3758
92151567|NCT03469349|184188226|SUPERIORITY|||||||0.1412|||||||MMRM|||Physical Health Score: Week 24; Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.1412
92151568|NCT03469349|184188226|SUPERIORITY|||||||0.1009|||||||MMRM|||Mental Health Score: Week 12; Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.1009
92151569|NCT03469349|184188226|SUPERIORITY|||||||0.0015|||||||MMRM|||Mental Health Score: Week 24; Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.0015
92151570|NCT00868699|184188242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.17|<|0.001|||||||Mixed Models Analysis||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||<0.001
92151571|NCT00868699|184188242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.17|<|0.001|||||||Mixed Models Analysis||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||<0.001
92151572|NCT00868699|184188243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.143|<|0.001|||||||Mixed Models Analysis||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||<0.001
92151573|NCT00868699|184188243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.143|<|0.001|||||||Mixed Models Analysis||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||<0.001
92151574|NCT00868699|184188244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|1.05||0.003|||||||ANCOVA||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||0.003
92151575|NCT00868699|184188244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|1.01|<|0.001|||||||ANCOVA||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||<0.001
92151576|NCT00576732|184188271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|2.18|<|0.001|TWO_SIDED|95.0|-12.19|-3.52||Type I error is preserved by the step down procedure, no multiple comparison adjustment is needed. A priori threshold for statistical significance was 0.05.|ANCOVA|ANCOVA model included factors for treatment group, center (after pooling of small centers), baseline weight stratification, and baseline ABC-I value|Mean difference is change in Risperidone high dose arm minus change in placebo arm.|"A step-down testing procedure was employed with the risperidone high dose versus placebo comparison tested first. If this comparison was significant the risperidone low dose versus placebo comparison would be performed.~A clinically relevant difference in the change from baseline on the ABC Irritability subscale was assumed to be 6 with a standard deviation of 8. To achieve 80% power with Type I error rate of 5%, 93 subjects were required."||-3.52|-12.19|<0.001
92151577|NCT00576732|184188271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|2.17||0.164|TWO_SIDED|95.0|-7.36|1.27||Type I error is preserved by the step down procedure, no multiple comparison adjustment is needed. A priori threshold for statistical significance was 0.05.|ANCOVA|ANCOVA model included factors for treatment group, center (after pooling of small centers), baseline weight stratification, and baseline ABC-I value|Mean difference is change in Risperidone low dose arm minus change in placebo arm.|||1.27|-7.36|0.164
92151578|NCT00576732|184188272|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value is not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for center (after pooling small centers) and baseline weight stratification.||||||0.004
92151579|NCT00576732|184188272|SUPERIORITY_OR_OTHER|||||||0.817||95.0||||P-value is not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for center (after pooling small centers) and baseline weight stratification.||||||0.817
92151580|NCT00576732|184188273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.02|-0.33||P-value is not adjusted for multiple comparisons.|ANCOVA|ANCOVA model included factors for treatment group, center (after pooling of small centers), baseline weight stratification, and baseline CGI-S value.|Mean difference is change in Risperidone high dose arm minus change in placebo arm.|||-0.33|-1.02|<0.001
92213554|NCT00195507|184326723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53|||<|0.001||95.0|-0.64|-0.43|||ANCOVA|Treatment and center as main effects, and baseline score as a covariant.||||-0.43|-0.64|<0.001
92151581|NCT00576732|184188273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.769|TWO_SIDED|95.0|-0.39|0.29||P-value is not adjusted for multiple comparisons.|ANCOVA|ANCOVA model included factors for treatment group, center (after pooling of small centers), baseline weight stratification, and baseline CGI-S value|Mean difference is change in Risperidone low dose arm minus change in placebo arm.|||0.29|-0.39|0.769
92151582|NCT00576732|184188274|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for center (after pooling small centers) and baseline weight stratification.||||||<0.001
92151583|NCT00576732|184188274|SUPERIORITY_OR_OTHER|||||||0.985||95.0||||P-value is not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for center (after pooling small centers) and baseline weight stratification.||||||0.985
92151584|NCT00085202|184188314|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8001||95.0|||||Log Rank|||||||0.8001
92151585|NCT00085202|184188314|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5195||95.0|||||Log Rank|||||||0.5195
92151586|NCT00085202|184188314|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7696||95.0|||||Log Rank|||||||0.7696
92151587|NCT00085202|184188315|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0206||95.0|||||Log Rank|||||||0.0206
92151588|NCT00085202|184188317|SUPERIORITY|||||||0.6231|||||||t-test, 2 sided|||Change over time||||0.6231
92151589|NCT00085202|184188317|SUPERIORITY|||||||0.572|||||||t-test, 2 sided|||Baseline||||0.5720
92151590|NCT02081950|184188325|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|93.65|||||TWO_SIDED|90.0|87.56|100.16||||||||100.16|87.56|
92151591|NCT02081950|184188326|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|100.46|||||TWO_SIDED|90.0|95.74|105.42||||||||105.42|95.74|
92151592|NCT02081950|184188327|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|101.16|||||TWO_SIDED|90.0|96.32|106.24||||||||106.24|96.32|
92151593|NCT02081950|184188328|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|94.88|||||TWO_SIDED|90.0|88.49|101.73||||||||101.73|88.49|
92151594|NCT02081950|184188329|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|97.13|||||TWO_SIDED|90.0|89.93|104.91||||||||104.91|89.93|
92213555|NCT00195507|184326724|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92213556|NCT00195507|184326726|SUPERIORITY_OR_OTHER|||||||0.143|||||||Fisher Exact|||||||0.143
92213557|NCT02260882|184326727|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Serotype 3. The statistical success criterion for demonstrating greater geometric mean antibody concentrations at 4 weeks postvaccination is that the lower bound of the 2-sided 95% confidence interval in Geometric Mean Fold Rise will be greater than 1 for all 3 serotypes.||||<0.001
92213558|NCT02260882|184326727|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Serotype 6B. The statistical success criterion for demonstrating greater geometric mean antibody concentrations at 4 weeks postvaccination is that the lower bound of the 2-sided 95% confidence interval in Geometric Mean Fold Rise will be greater than 1 for all 3 serotypes.||||<0.001
92213559|NCT02260882|184326727|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Serotype 23F. The statistical success criterion for demonstrating greater geometric mean antibody concentrations at 4 weeks postvaccination is that the lower bound of the 2-sided 95% confidence interval in Geometric Mean Fold Rise will be greater than 1 for all 3 serotypes.||||<0.001
92213560|NCT01106404|184326821|SUPERIORITY_OR_OTHER||binomial proportion|0.865|||<|0.001|ONE_SIDED|97.5|0.765||||Fisher Exact||In this ITT analysis, the combined percentage of subjects with improved pain relief and/or convenience during the AdaptiveStim programming relative to the manual programming in both groups was reported.|"ITT analysis:~Hypothesis: The percentage of subjects who succeed must be greater than 25%. H0: p ≤ 0.25 HA: p \> 0.25"|||0.765|< 0.001
92213561|NCT01106404|184326821|SUPERIORITY_OR_OTHER||binomial proportion|0.901|||<|0.001|ONE_SIDED|97.5|0.807||||Fisher Exact||In this completed case analysis, the combined percentage of subjects with improved pain relief and/or convenience during the AdaptiveStim programming relative to the manual programming in both groups was reported.|Completed case analysis|||0.807|< 0.001
92213562|NCT01106404|184326822|SUPERIORITY_OR_OTHER||binomial proportion|0.028|||||TWO_SIDED|95.0|0.003|0.098|||||The combined percentage of subjects with worsened pain relief was reported.|||0.098|0.003|
92213563|NCT01106404|184326823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.8|STANDARD_DEVIATION|51.9|<|0.001||95.0|||||Wilcoxon signed rank test|||||||< 0.001
92151595|NCT02081950|184188330|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|108.84|||||TWO_SIDED|90.0|95.61|123.91||||||||123.91|95.61|
92151596|NCT02081950|184188341|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|102.45|||||TWO_SIDED|90.0|96.31|109.0||||||||109.0|96.31|
92151597|NCT02081950|184188342|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|geometric least square mean ratio|95.84|||||TWO_SIDED|90.0|79.11|116.11||||||||116.11|79.11|
92213564|NCT01106404|184326824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.77|STANDARD_DEVIATION|1.93|<|0.001||95.0|||||Wilcoxon signed rank test|||||||< 0.001
92151598|NCT02081950|184188344|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|geometric least square mean ratio|99.54|||||TWO_SIDED|90.0|95.69|103.54||||||||103.54|95.69|
92213565|NCT01106404|184326824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|2.04|<|0.001|TWO_SIDED|95.0|||||Wilcoxon signed rank test|||||||< 0.001
92151599|NCT02081950|184188348|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|geometric least square mean ratio|98.36|||||TWO_SIDED|90.0|95.31|101.51||||||||101.51|95.31|
92151600|NCT02081950|184188349|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject|geometric least square mean ratio|111.3|||||TWO_SIDED|90.0|99.73|124.2||||||||124.2|99.73|
92151601|NCT02081950|184188352|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject|geometric least square mean ratio|98.7|||||TWO_SIDED|90.0|93.16|104.57||||||||104.57|93.16|
92151602|NCT02081950|184188353|OTHER||geometric least square mean ratio|103.43|||||TWO_SIDED|90.0|94.5|113.2||||||||113.2|94.5|
92151603|NCT02081950|184188354|OTHER||geometric least square mean ratio|92.92|||||TWO_SIDED|90.0|80.58|107.16||||||||107.16|80.58|
92151604|NCT00110890|184188362|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.74|||<|0.001||95.0|5.72|13.36|||Cochran-Mantel-Haenszel|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|||13.36|5.72|<0.001
92151605|NCT00110890|184188363|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.74|||<|0.001||95.0|5.38|14.19|||Cochran-Mantel-Haenszel|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|||14.19|5.38|<0.001
92213566|NCT03027557|184326839|SUPERIORITY||||||<|1e-05|||||||ANOVA|||||||< 0.00001
92213567|NCT03027557|184326840|SUPERIORITY||||||<|1e-05|||||||ANOVA|||||||< 0.00001
92213568|NCT03027557|184326841|SUPERIORITY||||||=|0.0019|||||||ANOVA|||||||= 0.0019
92213569|NCT03027557|184326842|SUPERIORITY||||||=|0.096|||||||ANOVA|||||||= 0.096
92213570|NCT03027557|184326843|SUPERIORITY||||||=|0.0001|||||||ANOVA|||||||= 0.0001
92213571|NCT03027557|184326844|SUPERIORITY||||||<|1e-05|||||||ANOVA|||||||< 0.00001
92213572|NCT03027557|184326845|SUPERIORITY||||||=|0.0027|||||||ANOVA|||||||= 0.0027
92213573|NCT03027557|184326846|SUPERIORITY||||||=|0.081|||||||ANOVA|||||||= 0.081
92213574|NCT03027557|184326847|SUPERIORITY||||||=|0.0071|||||||ANOVA|||||||= 0.0071
92213575|NCT03027557|184326848|SUPERIORITY||||||=|0.0001|||||||ANOVA|||||||= 0.0001
92213576|NCT03027557|184326849|SUPERIORITY||||||=|0.0001|||||||Kruskal-Wallis|||||||= 0.0001
92213577|NCT03027557|184326850|SUPERIORITY||||||=|0.38|||||||Kruskal-Wallis|||||||= 0.38
92213578|NCT03027557|184326855|SUPERIORITY||||||=|0.83|||||||Kruskal-Wallis|||||||= 0.83
92213579|NCT03027557|184326858|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||>0.05
92213580|NCT03027557|184326859|SUPERIORITY||||||=|0.0077|||||||ANOVA|||||||= 0.0077
92213581|NCT03027557|184326860|SUPERIORITY||||||=|0.011|||||||ANOVA|||||||= 0.011
92213582|NCT03027557|184326861|SUPERIORITY||||||=|0.011|||||||ANOVA|||||||= 0.011
92213583|NCT03027557|184326862|SUPERIORITY||||||=|0.0001|||||||Kruskal-Wallis|||||||= 0.0001
92213584|NCT03027557|184326863|SUPERIORITY||||||<|1e-05|||||||ANOVA|||||||< 0.00001
92213585|NCT03027557|184326864|SUPERIORITY||||||=|0.0001|||||||Kruskal-Wallis|||||||= 0.0001
92213586|NCT03027557|184326865|SUPERIORITY||||||=|0.0001|||||||ANOVA|||||||= 0.0001
92397891|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|5.39||||0.0012|TWO_SIDED|95.0|1.94|14.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||14.96|1.94|0.0012
92151606|NCT00110890|184188364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.11|||<|0.001||95.0|2.0|4.84|||Cochran-Mantel-Haenszel|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|||4.84|2.00|<0.001
92151607|NCT00110890|184188365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.93|||<|0.001||95.0|4.65|10.34|||Cochran-Mantel-Haenszel|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|||10.34|4.65|<0.001
92151608|NCT00110890|184188366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88||||0.002||95.0|1.26|2.81|||Cochran-Mantel-Haenszel|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|||2.81|1.26|0.002
92151609|NCT01975220|184188375|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|99.98|STANDARD_DEVIATION|5.4|<|0.0001|TWO_SIDED|90.0|97.275|102.751|||ANOVA||Adjusted geometric mean (GM) ratio(%) was calculated as GM of 'High dose, fasted:1 FDC tablet' divided by GM of 'High dose, fasted:3 single tablets'.The 'standard deviation' is actually intra-individual geometric coefficient of variation (gCV (%)).|||102.751|97.275|<0.0001
92151610|NCT01975220|184188375|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|97.09|STANDARD_DEVIATION|6.7|<|0.0001|TWO_SIDED|90.0|93.857|100.436|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||100.436|93.857|<0.0001
92151611|NCT01975220|184188375|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|100.7|STANDARD_DEVIATION|4.9|<|0.0001|TWO_SIDED|90.0|98.28|103.18|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||103.18|98.28|<0.0001
92151612|NCT01975220|184188376|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|94.65|STANDARD_DEVIATION|28.1||0.0256|TWO_SIDED|90.0|82.29|108.88|||ANOVA||The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fasted: 1 FDC tablet' divided by the geometric mean of 'High dose, fasted: 3 single tablets'. The 'standard deviation' is actually the intra-individual gCV (%).|||108.88|82.29|0.0256
92151613|NCT01975220|184188376|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|99.69|STANDARD_DEVIATION|7.1|<|0.0001|TWO_SIDED|90.0|96.25|103.26|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||103.26|96.25|<0.0001
92151614|NCT01975220|184188376|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|99.76|STANDARD_DEVIATION|24.2||0.002|TWO_SIDED|90.0|88.65|112.27|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||112.27|88.65|0.0020
92213587|NCT03027557|184326866|SUPERIORITY||||||=|0.0001|||||||Kruskal-Wallis|||||||= 0.0001
92151615|NCT01975220|184188377|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|100.1|STANDARD_DEVIATION|5.1|<|0.0001|TWO_SIDED|90.0|97.555|102.719|||ANOVA||The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fasted: 1 FDC tablet' divided by the geometric mean of 'High dose, fasted: 3 single tablets'. The 'standard deviation' is actually the intra-individual gCV (%).|||102.719|97.555|<0.0001
92151616|NCT01975220|184188377|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|97.01|STANDARD_DEVIATION|7.0|<|0.0001|TWO_SIDED|90.0|93.622|100.531|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||100.531|93.622|<0.0001
92151617|NCT01975220|184188377|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|100.78|STANDARD_DEVIATION|4.9|<|0.0001|TWO_SIDED|90.0|98.36|103.27|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||103.27|98.36|<0.0001
92151618|NCT01975220|184188378|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|109.07|STANDARD_DEVIATION|17.4||0.0072|TWO_SIDED|90.0|99.892|119.1|||ANOVA||The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fasted: 1 FDC tablet' divided by the geometric mean of 'High dose, fasted: 3 single tablets'. The 'standard deviation' is actually the intra-individual gCV (%).|||119.100|99.892|0.0072
92151619|NCT01975220|184188378|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|92.42|STANDARD_DEVIATION|12.5||0.0004|TWO_SIDED|90.0|86.781|98.428|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||98.428|86.781|0.0004
92213588|NCT03027557|184326868|SUPERIORITY||||||=|0.5|||||||Kruskal-Wallis|||||||= 0.5
92213589|NCT03027557|184326869|SUPERIORITY||||||=|0.85|||||||ANOVA|||||||= 0.85
92213590|NCT03027557|184326870|SUPERIORITY||||||=|0.22|||||||ANOVA|||||||= 0.22
92213591|NCT03027557|184326871|SUPERIORITY||||||=|0.18|||||||Kruskal-Wallis|||||||= 0.18
92213592|NCT02430051|184326876|SUPERIORITY|||||||0.01|||||||Mixed-effects regression model|Adjusted for attained age and first or second clinic visit.||||||0.01
92213593|NCT02430051|184326877|SUPERIORITY|||||||0.25|||||||Mixed-effects regression model|Adjustment for attained age and first and second clinic visit.||||||0.25
92213594|NCT02430051|184326878|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
92213595|NCT02430051|184326879|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92213596|NCT02430051|184326880|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92213597|NCT02430051|184326881|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92213598|NCT02430051|184326882|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92213599|NCT02430051|184326883|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
92213600|NCT02430051|184326884|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
92213601|NCT02430051|184326885|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
92213602|NCT02430051|184326886|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.80
92213603|NCT02430051|184326887|SUPERIORITY||||||<|0.0001|||||||Multivariate linear regression|Adjusted for autism severity, IQ, dental fear and anxiety, sensory over-responsivity, general anxiety, expressive communication, gender, and age.||||||<0.0001
92213604|NCT02430051|184326888|SUPERIORITY|||||||0.61|||||||General linear mixed model|||||||0.61
92213605|NCT00267631|184326910|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Chi-squared|||||||.026
92213606|NCT00372385|184326914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.758||||0.0026|TWO_SIDED|95.0|1.424|5.34|||Regression, Logistic|||||5.340|1.424|0.0026
92213607|NCT00372385|184326914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.709||||0.959|TWO_SIDED|95.0|0.91|3.212|||Regression, Logistic|||||3.212|0.910|0.959
92213608|NCT00372385|184326914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.589||||0.1089|TWO_SIDED|95.0|0.309|1.125|||Regression, Logistic|||||1.125|0.309|0.1089
92213609|NCT00372385|184326915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.632||||0.0041|TWO_SIDED|95.0|1.359|5.097|||Regression, Logistic|||||5.097|1.359|0.0041
92397892|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|9.85|||<|0.0001|TWO_SIDED|95.0|3.49|27.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||27.86|3.49|<0.0001
92213610|NCT00372385|184326915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.623||||0.1324|TWO_SIDED|95.0|0.864|3.05|||Regression, Logistic|||||3.050|0.864|0.1324
92213611|NCT00372385|184326915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.591||||0.1099|TWO_SIDED|95.0|0.311|1.126|||Regression, Logistic|||||1.126|0.311|0.1099
92213612|NCT01009554|184326930|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.126|STANDARD_ERROR_OF_MEAN|0.0905||0.168|TWO_SIDED|95.0|-0.054|0.306||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter values (L, a, and b) and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.306|-0.054|0.168
92213613|NCT01009554|184326932|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.006|STANDARD_ERROR_OF_MEAN|0.067||0.928|TWO_SIDED|95.0|-0.127|0.139||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter values (L, a, and b) and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.139|-0.127|0.928
92213614|NCT01009554|184326933|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.235|STANDARD_ERROR_OF_MEAN|0.0718||0.002|TWO_SIDED|95.0|0.092|0.378||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter values (L, a, and b) and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.378|0.092|0.002
92213615|NCT01009554|184326934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.041|STANDARD_ERROR_OF_MEAN|0.1235||0.741|TWO_SIDED|95.0|-0.205|0.286||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value L and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.286|-0.205|0.741
92213616|NCT01009554|184326935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.161|STANDARD_ERROR_OF_MEAN|0.1386||0.249|TWO_SIDED|95.0|-0.437|0.115||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value L and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.115|-0.437|0.249
92213617|NCT01009554|184326936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.201|STANDARD_ERROR_OF_MEAN|0.1398||0.154|TWO_SIDED|95.0|-0.479|0.077||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value L and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.077|-0.479|0.154
92213618|NCT01009554|184326937|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.195|STANDARD_ERROR_OF_MEAN|0.0746||0.011|TWO_SIDED|95.0|-0.343|-0.047||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value b and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.047|-0.343|0.011
92213619|NCT01009554|184326938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.334|STANDARD_ERROR_OF_MEAN|0.0703|<|0.001|TWO_SIDED|95.0|-0.474|-0.195||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value b and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.195|-0.474|<0.001
92213620|NCT01009554|184326939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.214|STANDARD_ERROR_OF_MEAN|0.0939||0.025|TWO_SIDED|95.0|-0.401|-0.027||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value b and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.027|-0.401|0.025
92151620|NCT01975220|184188378|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|105.37|STANDARD_DEVIATION|17.7||0.0014|TWO_SIDED|90.0|96.6|114.942|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||114.942|96.600|0.0014
92151621|NCT01975220|184188379|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|96.65|STANDARD_DEVIATION|29.8||0.0198|TWO_SIDED|90.0|83.337|112.079|||ANOVA||The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fasted: 1 FDC tablet' divided by the geometric mean of 'High dose, fasted: 3 single tablets'. The 'standard deviation' is actually the intra-individual gCV (%).|||112.079|83.337|0.0198
92151622|NCT01975220|184188379|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|110.17|STANDARD_DEVIATION|12.0||0.0007|TWO_SIDED|90.0|103.809|116.926|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||116.926|103.809|0.0007
92151623|NCT01975220|184188379|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|97.68|STANDARD_DEVIATION|23.8||0.0037|TWO_SIDED|90.0|86.942|109.734|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||109.734|86.942|0.0037
92151624|NCT01975220|184188380|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|95.4|STANDARD_DEVIATION|29.4||0.0254|TWO_SIDED|90.0|82.42|110.44|||ANOVA||The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fasted: 1 FDC tablet' divided by the geometric mean of 'High dose, fasted: 3 single tablets'. The 'standard deviation' is actually the intra-individual gCV (%).|||110.44|82.42|0.0254
92151625|NCT01975220|184188380|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|99.63|STANDARD_DEVIATION|7.1|<|0.0001|TWO_SIDED|90.0|96.21|103.17|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||103.17|96.21|<0.0001
92151626|NCT01975220|184188380|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|101.06|STANDARD_DEVIATION|24.4||0.0029|TWO_SIDED|90.0|89.7|113.86|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||113.86|89.70|0.0029
92151627|NCT03245255|184188440|OTHER|Correlation analysis|Pearson Correlation Coefficient|-0.8|STANDARD_DEVIATION|0.1|||TWO_SIDED|||||||||||||
92151628|NCT01087996|184188442|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
92151629|NCT01087996|184188443|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||ANOVA|||||||0.75
92151630|NCT01087996|184188444|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92151631|NCT01087996|184188445|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92151632|NCT01087996|184188446|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92151633|NCT01087996|184188447|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92151634|NCT01087996|184188448|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Repeated measures ANOVA|||||||0.87
92151635|NCT01087996|184188449|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Repeated measures ANOVA|||||||0.84
92151636|NCT01087996|184188450|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Chi-squared|||||||0.55
92151637|NCT01008475|184188452|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.13|||||TWO_SIDED|95.0|0.78|1.64||||||||1.64|0.78|
92151638|NCT01008475|184188452|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.11|||||TWO_SIDED|95.0|0.77|1.61||||||||1.61|0.77|
92151639|NCT01008475|184188453|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83|||||TWO_SIDED|95.0|0.54|1.28||||||||1.28|0.54|
92151640|NCT01008475|184188453|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8|||||TWO_SIDED|95.0|0.52|1.25||||||||1.25|0.52|
92151641|NCT01008475|184188454|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.11|||||TWO_SIDED|95.0|0.75|1.65||||||||1.65|0.75|
92151642|NCT01008475|184188454|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.11|||||TWO_SIDED|95.0|0.75|1.65||||||||1.65|0.75|
92151643|NCT01008475|184188456|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.95|||||TWO_SIDED|95.0|0.67|1.34||||||||1.34|0.67|
92151644|NCT01008475|184188456|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.05|||||TWO_SIDED|95.0|0.74|1.48||||||||1.48|0.74|
92151645|NCT01301274|184188457|NON_INFERIORITY_OR_EQUIVALENCE|beta error 20%, alfa error 5%, diminished 2 mEq/L between groups||||||0.04||95.0|||||t-test, 2 sided|||||||0.04
92151646|NCT01301274|184188458|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||without adjust|Chi-squared|||||||0.081
92151647|NCT01301274|184188459|SUPERIORITY_OR_OTHER|||||||0.396||95.0|||||t-test, 2 sided|||||||0.396
92151648|NCT01301274|184188460|SUPERIORITY_OR_OTHER|||||||0.129||95.0|||||t-test, 2 sided|||||||0.129
92151649|NCT03021668|184188498|EQUIVALENCE|Chi2 test was performed to analyze difference in rates of Surgical Site Infections (SSIs) between the two groups||||||0.003|||||||Chi-squared|||||||0.003
92151650|NCT03021668|184188499|EQUIVALENCE|Students' T-test was used to evaluate any difference in length of stay between the two groups.||||||0.23|||||||t-test, 2 sided|||||||0.23
92151651|NCT02444988|184188504|SUPERIORITY||Odds Ratio (OR)|0.87|||<|0.05|TWO_SIDED|95.0|0.77|0.99|||Regression, Logistic|||||0.99|0.77|<0.05
92151652|NCT02444988|184188505|SUPERIORITY||Odds Ratio (OR)|0.84|||<|0.05|TWO_SIDED|95.0|0.73|0.97|||Regression, Logistic|||||0.97|0.73|<0.05
92151653|NCT02105636|184188513|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0101|TWO_SIDED|95.0|0.53|0.92||Log-rank Test stratified by prior treatment with cetuximab (yes, no) as entered into the Interactive Voice Response System (IVRS). For OS the boundary for statistical significance requires the p-value to be less than 0.0227.|Log Rank||Hazard ratio (HR) and the corresponding Confidence Interval (CI) were estimated in a stratified Cox proportional hazards model for distribution of OS in each randomized arm.|Stratified Cox proportional hazard model. HR = Nivolumab over investigator's choice therapy (Cetuximab, Methotrexate, or Docetaxel)||0.92|0.53|0.0101
92151654|NCT02105636|184188514|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.68|1.1|||||Number of responders (CR +PR) over number of participants|||1.10|0.68|
92213621|NCT01009554|184326940|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.056|STANDARD_ERROR_OF_MEAN|0.0562||0.319|TWO_SIDED|95.0|-0.055|0.168||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.168|-0.055|0.319
92213622|NCT01009554|184326941|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.272|STANDARD_ERROR_OF_MEAN|0.0668|<|0.001|TWO_SIDED|95.0|0.139|0.405||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.405|0.139|<0.001
92213623|NCT01009554|184326942|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.398|STANDARD_ERROR_OF_MEAN|0.084|<|0.001|TWO_SIDED|95.0|0.231|0.565||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.565|0.231|<0.001
92213624|NCT01009554|184326943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.0271||0.27|TWO_SIDED|95.0|-0.024|0.084||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.084|-0.024|0.270
92213625|NCT01009554|184326944|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.137|STANDARD_ERROR_OF_MEAN|0.0324|<|0.001|TWO_SIDED|95.0|0.073|0.202||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.202|0.073|<0.001
92213626|NCT01009554|184326945|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.193|STANDARD_ERROR_OF_MEAN|0.0399|<|0.001|TWO_SIDED|95.0|0.114|0.273||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.273|0.114|<0.001
92213627|NCT01009554|184326946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.034|STANDARD_ERROR_OF_MEAN|0.0273||0.217|TWO_SIDED|95.0|-0.02|0.088||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.088|-0.020|0.217
92213628|NCT01009554|184326947|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.137|STANDARD_ERROR_OF_MEAN|0.032|<|0.001|TWO_SIDED|95.0|0.073|0.2||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.200|0.073|<0.001
92213629|NCT01009554|184326948|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.195|STANDARD_ERROR_OF_MEAN|0.0406|<|0.001|TWO_SIDED|95.0|0.114|0.276||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.276|0.114|<0.001
92151655|NCT02105636|184188515|SUPERIORITY||Difference in ORR|7.6|||||TWO_SIDED|95.0|1.5|13.6|||||Stratum adjusted difference in response rates (Nivolumab - Investigators Choice) based on the Cochran-Mantel-Haenszel method of weighting.|||13.6|1.5|
92151656|NCT02105636|184188515|SUPERIORITY||CMH Estimate of Common Odds Ratio|2.49|||||TWO_SIDED|95.0|1.07|5.82|||||Stratified by Prior Cetuximab (yes, no) as recorded in the IVRS. Stratum adjusted odds ratio (Nivolumab - Investigators Choice) using Mantel-Haenszel Method.|||5.82|1.07|
92151657|NCT02105636|184188516|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.54|0.85|||||Stratified Cox proportional hazards model. Hazard ratio of nivolumab to investigator's choice therapy.|||0.85|0.54|
92151658|NCT02341287|184188541|SUPERIORITY||Mean Difference (Net)|14.01|STANDARD_DEVIATION|19.4||0.023|TWO_SIDED|95.0|2.29|25.74||Paired t-test of control average sleep latency vs. heated glove average sleep latency as measured by actigraph.|t-test, 2 sided|||||25.74|2.29|.023
92151659|NCT02341287|184188542|SUPERIORITY|Paired t-test of control average sleep latency vs. heated glove average sleep latency as measured by sleep log.|Mean Difference (Net)|13.51|STANDARD_DEVIATION|16.91|<|0.014|TWO_SIDED|95.0|3.29|23.73|||t-test, 2 sided|||||23.73|3.29|<0.014
92151660|NCT02254408|184188543|SUPERIORITY||Treatment Difference|-0.33||||0.04|TWO_SIDED|95.0|-0.64|-0.02|||ANCOVA|||||-0.02|-0.64|0.040
92151661|NCT02254408|184188544|SUPERIORITY||Odds Ratio (OR)|0.5||||0.11|TWO_SIDED|95.0|0.22|1.18|||Cochran-Mantel-Haenszel|||||1.18|0.22|0.11
92151662|NCT02254408|184188544|SUPERIORITY|||||||0.15|||||||Fisher Exact|||||||0.15
92151663|NCT02254408|184188545|SUPERIORITY||Odds Ratio (OR)|1.01||||0.98|TWO_SIDED|95.0|0.28|3.63|||Cochran-Mantel-Haenszel|||||3.63|0.28|0.98
92151664|NCT02254408|184188545|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92151665|NCT01993017|184188546|SUPERIORITY|||||||0.98||||||A 2-step gatekeeping test procedure was used. An omnibus F test using ANOVA comparing the 3 groups was first performed. Pairwise comparisons using a 2-sided t test at 5% nominal significance were planned only if the omnibus F test had a P value \<.05.|ANOVA|||We determined that a sample size per group of 500, assuming 5% loss to follow-up, would yield 80% power for a 2-sided t test at the 5% level. These calculations were based on an assumed SD for QALYs of 0.17, expected prevalence of screening-detected depression of 20%, and assumed net improvement in QALYs of 0.155 over 18 months for individuals with depression who received treatment for depression in the Screen, Notify, and Treat group.||||0.98
92151666|NCT00917267|184188550|NON_INFERIORITY_OR_EQUIVALENCE|Superiority of exenatide once weekly to exenatide twice daily concluded if upper limit of the 2-sided 95% confidence interval for treatment difference is \<0; noninferiority concluded if upper limit is \<0.4%.|Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.49|-0.14|||Mixed Models Analysis|||MMRM analysis of covariance (ANCOVA) model includes treatment, baseline HbA1c, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects. Power: 306 patients per treatment group provides approximately 98% power to detect a true difference between treatments of 0.4% in change in HbA1c from baseline with a 2-sided t test at a significance level of 0.05, assuming a common standard deviation of 1.2%.||-0.14|-0.49|<.001
92151667|NCT00917267|184188551|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Percentage of patients achieving HbA1c target \<=7% at Week 26 were compared between treatments using a Cochran-Mantel-Haenszel (CMH) test, in which country and background OAD served as the stratification factors.||||0.003
92151668|NCT00917267|184188552|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Percentage of patients achieving HbA1c target \<=6.5% at Week 26 were compared between treatments using a CMH test, in which country and background OAD served as the stratification factors.||||<.001
92151669|NCT00917267|184188553|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.67|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|-22.5|-10.83|||Mixed Models Analysis|||MMRM ANCOVA model includes treatment, baseline FSG, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects.||-10.83|-22.50|<.001
92151670|NCT00917267|184188554|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|0.39|1.25|||Mixed Models Analysis|||MMRM ANCOVA model includes treatment, baseline BW, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects.||1.25|0.39|<.001
92151671|NCT00917267|184188555|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|2.56||0.609|TWO_SIDED|95.0|-6.33|3.71|||Mixed Models Analysis|||MMRM ANCOVA model includes treatment, baseline TC, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects.||3.71|-6.33|0.609
92151672|NCT00917267|184188556|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.52||0.476|TWO_SIDED|95.0|-0.65|1.38|||Mixed Models Analysis|||MMRM ANCOVA model includes treatment, baseline HDL, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects.||1.38|-0.65|0.476
92151673|NCT00917267|184188557|SUPERIORITY_OR_OTHER||Geometic Least Squares Mean Ratio|0.99|STANDARD_ERROR_OF_MEAN|0.03||0.807|TWO_SIDED|95.0|0.93|1.06|||Mixed Models Analysis|||TG data were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed using a MMRM ANCOVA model with treatment, baseline TG, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects.||1.06|0.93|0.807
92151674|NCT00423293|184188572|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|95.0||||One-sided p-value comparing to a rate of 78% (the historical rate was updated after the study design).|Chi-squared|||The RT+ 5-FU + Mitomycin-C arm on previous Radiation Therapy Oncology Group (RTOG) study 9811 \[NCT00003596\] had a 77% rate of \>= grade 2 GI and GU adverse events. The null hypothesis for this study design was a 15% reduction for that rate. Fifty-four evaluable patients provides 80% power to detect a 15% reduction, using a one-sided chi-squared test with a type I error rate of 0.05. (With 52 patients, the power is reduced to 78%.)||||0.50
92151675|NCT00423293|184188574|SUPERIORITY|||||||0.5|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with GI grade 2+ adverse events were compared to the historical rate of 73%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.5
92213630|NCT01009554|184326949|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.055|STANDARD_ERROR_OF_MEAN|0.0716||0.444|TWO_SIDED|95.0|-0.087|0.197||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area score for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.197|-0.087|0.444
92151676|NCT00423293|184188574|SUPERIORITY|||||||0.18|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with GU grade 2+ adverse events were compared to the historical rate of 20%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.18
92151677|NCT00423293|184188574|SUPERIORITY|||||||0.032|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with hematologic grade 2+ adverse events were compared to the historical rate of 85%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.032
92151678|NCT00423293|184188574|SUPERIORITY|||||||0.1|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with skin grade 2+ adverse events were compared to the historical rate of 83%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.10
92151679|NCT00423293|184188574|SUPERIORITY|||||||0.12|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with any grade 2+ adverse events were compared to the historical rate of 98%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.12
92151680|NCT00423293|184188574|SUPERIORITY|||||||0.23|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with any grade 3+ adverse events were compared to the historical rate of 87%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.23
92151681|NCT01200030|184188590|OTHER|The effect size of the intervention was adopted from a mate-analysis . The showed an average effect size of 0.59 in improving the motor control of limbs in people with stroke. A sample size for each group was set at 11 . Presuming that there would be a drop-out rate of 10% during the course of study, an extra 1 subject was recruited in each group. the sample size was 36. The statistical significance was set at 5% (alpha \< 0.05) with power equal to 80%|||||<|0.001||||||Post-hoc pairwise comparisons have been conducted. Please refer to subsequent data analyses.|Kruskal-Wallis|||Null hypothesis: No significant differences existed between the percentage of change in Trunk Impairment Scale (TIS) score among the three groups.||||<0.001
92213631|NCT01009554|184326950|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.349|STANDARD_ERROR_OF_MEAN|0.0843|<|0.001|TWO_SIDED|95.0|0.182|0.517||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.517|0.182|<0.001
92397893|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.73||||0.0334|TWO_SIDED|95.0|1.08|6.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.89|1.08|0.0334
92151682|NCT01200030|184188590|OTHER|||||||1||||||The p-value was adjusted for multiple comparisons. A p-value smaller than 0.05 indicated statistical significance.|Wilcoxon (Mann-Whitney)|||Post-Hoc pairwise comparison comparing the effects of electrical stimulation with exercises group and placebo stimulation with exercises group. Null hypothesis: There was no significant difference existed on the changes of the Trunk Impairment Scale score between the two groups.||||1.00
92151683|NCT01200030|184188590|OTHER|||||||0.002||||||The p-value was adjusted for multiple comparisons. A p-value smaller than 0.05 indicated statistical significance.|Wilcoxon (Mann-Whitney)|||"Post-Hoc pairwise comparison comparing the effects of electrical stimulation with exercises group and control group.~Null hypothesis: There was no significant difference existed on the changes of the Trunk Impairment Scale score between the two groups."||||0.002
92151684|NCT01200030|184188590|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||"Post-Hoc pairwise comparison comparing the effects of placebo stimulation with exercises group and control group.~Null hypothesis: There was no significant difference existed on the changes of the Trunk Impairment Scale score between the two groups."||||0.003
92151685|NCT01200030|184188591|OTHER|||||||0.055|||||||Kruskal-Wallis|||Null hypothesis: No significant differences existed between the percentage of change in reaching distance between the three groups.||||0.055
92151686|NCT00136812|184188599|OTHER|We used all available observations in a GEE analysis and did not impute missing data or drop observations.|Odds Ratio (OR)|3.15||||0.018|TWO_SIDED|95.0|1.22|8.14||P-value of \<0.05 is considered statistically significant.|generalized estimating equation model|||To test the primary hypothesis, we ran a generalized estimating equation model with logit link function (PROC GENMOD in SAS version 9.2), to examine abstinence versus smoking status at the 3- through 18-month follow-ups by condition.||8.14|1.22|0.018
92151687|NCT00791921|184188600|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Regression, Logistic|||For ACR20 responder rate at Week 12, comparison between the CDP870 200 mg group and the placebo group was performed.||||<0.05
92151688|NCT00791921|184188601|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Regression, Logistic|||||||<0.05
92151689|NCT02307513|184188638|SUPERIORITY||Difference in LS Mean|-92.6|||<|0.0001|TWO_SIDED|95.0|-130.59|-54.6|||ANCOVA|ANCOVA model with AUC W0-12 as the response variables; treatment arm, sex, region as factors and the number of oral ulcers at baseline as a covariate.|Treatment difference = Apremilast - Placebo|The AUC W0-12 for oral ulcer counts was compared between the placebo treatment group and the apremilast 30 BID treatment group using a 2-tailed parametric analysis of covariance (ANCOVA) test at the 0.05 significance level.||-54.60|-130.59|<0.0001
92151690|NCT02307513|184188639|SUPERIORITY||Difference in LS Mean|-24.8|||<|0.0001|TWO_SIDED|95.0|-32.8|-16.8|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-16.8|-32.8|<0.0001
92397894|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.12||||0.0034|TWO_SIDED|95.0|1.6|10.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.62|1.60|0.0034
92151691|NCT02307513|184188640|SUPERIORITY||Difference in LS Mean|-11.94|||<|0.0001|TWO_SIDED|95.0|-16.2|-7.67|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-7.67|-16.20|<0.0001
92151692|NCT02307513|184188641|SUPERIORITY||Difference in LS Means|-0.5||||0.0335|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-0.0|-1.0|0.0335
92151693|NCT02307513|184188642|SUPERIORITY||Difference in LS Means|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.6|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-0.6|-1.4|<0.0001
92151694|NCT02307513|184188643|SUPERIORITY||Difference in LS Means|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-0.5|-1.3|<0.0001
92151695|NCT02307513|184188644|SUPERIORITY||Adjusted difference in percentages|25.1|||<|0.0001|TWO_SIDED|95.0|15.5|34.6|||Cochran-Mantel-Haenszel|2 sided p-value based on the CMH test adjusting for sex and region.|Adjusted difference was the weighted average of the treatment differences across the 4 strata of combined sex and region factors with the CMH weights.|||34.6|15.5|<0.0001
92151696|NCT02307513|184188645|SUPERIORITY||Hazard Ratio (HR)|2.4|||<|0.0001|TWO_SIDED|95.0|1.692|3.405|||Stratified Log-Rank Test|Treatment comparison is based on the stratified log-rank test, with sex and region as the stratification factors.|The HR is based on the stratified Cox model with baseline number of oral ulcers and sex and region as the stratification factors.|||3.405|1.692|<0.0001
92151697|NCT02307513|184188646|SUPERIORITY||Adjusted difference in percentages|30.6|||<|0.0001|TWO_SIDED|95.0|18.1|43.1|||Cochran-Mantel-Haenszel|2 sided p-value based on the CMH test adjusting for sex and region.|Adjusted difference was the weighted average of the treatment differences across the 4 strata of combined sex and region factors with the CMH weights.|||43.1|18.1|<0.0001
92151698|NCT02307513|184188647|SUPERIORITY||Difference in LS Mean|-3.0||||0.0003|TWO_SIDED|95.0|-4.5|-1.4|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-1.4|-4.5|0.0003
92151699|NCT02307513|184188648|SUPERIORITY||Adjusted difference in percentages|28.4||||0.11|TWO_SIDED|95.0|-3.6|60.4|||Cochran-Mantel-Haenszel|2 sided p-value based on the CMH test adjusting for sex.|Adjusted difference was the weighted average of the treatment differences across the 2 strata of sex with the CMH weights.|||60.4|-3.6|0.1100
92151700|NCT02307513|184188649|SUPERIORITY||Adjusted difference in percentages|17.5||||0.0204|TWO_SIDED|95.0|4.2|30.7|||Cochran-Mantel-Haenszel|Two-sided p-value was based on the CMH test, adjusting for sex and region.|Adjusted difference was the weighted average of the treatment differences across the 4 strata of combined sex and region factors with the CMH weights.|||30.7|4.2|0.0204
92151701|NCT02307513|184188650|SUPERIORITY||Hazard Ratio (HR)|0.611||||0.0112|TWO_SIDED|95.0|0.408|0.915|||Stratified Log Rank Test|Treatment comparison is based on the stratified log-rank test, with sex and region as the stratification factors.|The HR is based on the stratified Cox model with baseline number of oral ulcers and sex and region as the stratification factors|||0.915|0.408|0.0112
92151702|NCT02307513|184188651|SUPERIORITY||Difference in LS Means|-0.4||||0.0683|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|ANCOVA model with treatment group, sex and region as factors and the baseline ulcers number as a covariate.||||0.0|-0.9|0.0683
92151703|NCT02307513|184188652|SUPERIORITY||Difference in LS Mean|-0.1||||0.5944|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|Based on an ANCOVA model for the change from baseline, with treatment arm, sex and region as factors and the baseline score as a covariate.||||0.3|-0.4|0.5944
92151704|NCT02307513|184188653|SUPERIORITY||Difference in LS Mean|-5.5||||0.6182|TWO_SIDED|95.0|-27.6|16.7|||ANCOVA|Based on an ANCOVA model for the change from baseline, with treatment arm, sex and region as factors and the baseline score as a covariate.||||16.7|-27.6|0.6182
92151705|NCT01107743|184188674|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.812|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between male and female in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.812
92151706|NCT01107743|184188675|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=1.000
92151707|NCT01107743|184188676|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypertension. The null hypothesis is there is no difference between with Hypetension and without Hypertension in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=1.000
92151708|NCT01107743|184188677|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.112|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypertension severity. The null hypothesis is there is no difference among ClassⅠHypertension, ClassⅡ Hypertension, and ClassⅢ Hypertension in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.112
92151709|NCT01107743|184188678|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.093|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Angina Pectoris. The null hypothesis is there is no difference between with Angina Pectoris and without Angina Pectoris in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.093
92151710|NCT01107743|184188679|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypercholesterolemia. The null hypothesis is there is no difference between with Hypercholesterolemia and without Hypercholesterolemia in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=1.000
92151711|NCT01107743|184188680|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.839|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypercholesterolemia expression type. The null hypothesis is there is no difference among expression type Ⅰ, expression type Ⅱa, expression type Ⅱb, expression type Ⅲ, expression type, expression type Ⅳ, and expression type Ⅴ in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.839
92151712|NCT01107743|184188681|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Familial Hypercholesterolemia. The null hypothesis is there is no difference between with Familial Hypercholesterolemia and without Familial Hypercholesterolemia in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=1.000
92151713|NCT01107743|184188682|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic Dysfunction. The null hypothesis is there is no difference between with Hepatic Dysfunction and without Hepatic Dysfunction in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=1.000
92151714|NCT01107743|184188683|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.644|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with Renal Dysfunction and without Renal Dysfunction in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.644
92151715|NCT01107743|184188684|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.155|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Complications. The null hypothesis is there is no difference between with Complications and without Complications in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.155
92151716|NCT01107743|184188685|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.305|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Concomitant Drugs. The null hypothesis is there is no difference between with Concomitant Drugs and without Concomitant Drugs in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.305
92151717|NCT01107743|184188686|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.234|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the participants of responders."||||=0.234
92151718|NCT01107743|184188687|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.439|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years in the participants of responders."||||=0.439
92151719|NCT01107743|184188688|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.761|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypertension severity. The null hypothesis is there is no difference among ClassⅠHypertension, ClassⅡ Hypertension, and ClassⅢ Hypertension in the participants of responders."||||=0.761
92151720|NCT01107743|184188689|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic Dysfunction. The null hypothesis is there is no difference between with and without Hepatic Dysfunction in the participants of responders."||||=1.000
92151721|NCT01107743|184188690|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.31|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without Renal Dysfunction in the participants of responders."||||=0.310
92151722|NCT01107743|184188691|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.251|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Complications. The null hypothesis is there is no difference between with and without Complications in the participants of responders."||||=0.251
92213632|NCT01009554|184326951|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.542|STANDARD_ERROR_OF_MEAN|0.1063|<|0.001|TWO_SIDED|95.0|0.331|0.754||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.754|0.331|<0.001
92213633|NCT01009554|184326952|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.032|STANDARD_ERROR_OF_MEAN|0.0344||0.361|TWO_SIDED|95.0|-0.037|0.1||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.100|-0.037|0.361
92151723|NCT01107743|184188692|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.756|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Concomitant Drugs. The null hypothesis is there is no difference between with and without Concomitant Drugs in the participants of responders."||||=0.756
92151724|NCT01107743|184188693|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.706|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the participants of responders."||||=0.706
92151725|NCT01107743|184188694|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.192|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years in the participants of responders."||||=0.192
92151726|NCT01107743|184188695|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.005|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Angina Pectoris Severity. The null hypothesis is there is no difference among Class1, Class2, Class3, and Class4 in the participants of responders."||||=0.005
92151727|NCT01107743|184188696|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic Dysfunction. The null hypothesis is there is no difference between with and without Hepatic Dysfunction in the participants of responders."||||=1.000
92151728|NCT01107743|184188697|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.596|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without Renal Dysfunction in the participants of responders."||||=0.596
92151729|NCT01107743|184188698|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.252|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Complications. The null hypothesis is there is no difference between with and without Complications in the participants of responders."||||=0.252
92151730|NCT01107743|184188699|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Concomitant Drugs. The null hypothesis is there is no difference between with and without Concomitant Drugs in the participants of responders."||||=1.000
92151731|NCT01107743|184188700|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.518|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the participants of responders."||||=0.518
92151732|NCT01107743|184188701|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.645|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years in the participants of responders."||||=0.645
92151733|NCT01107743|184188702|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.13|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypercholesterolemia expression type. The null hypothesis is there is no difference among expression type Ⅰ, expression type Ⅱa, expression type Ⅱb, expression type Ⅲ, expression type, expression type Ⅳ, and expression type Ⅴ in the participants of responders."||||=0.130
92151734|NCT01107743|184188703|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.185|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic Dysfunction. The null hypothesis is there is no difference between with and without Hepatic Dysfunction in the participants of responders."||||=0.185
92397895|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|6.55||||0.0002|TWO_SIDED|95.0|2.45|17.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||17.47|2.45|0.0002
92397896|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.9||||0.0014|TWO_SIDED|95.0|1.85|12.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.98|1.85|0.0014
92151735|NCT01107743|184188704|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.714|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without Renal Dysfunction in the participants of responders."||||=0.714
92151736|NCT01107743|184188705|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.835|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Complications. The null hypothesis is there is no difference between with and without Complications in the participants of responders."||||=0.835
92151737|NCT01107743|184188706|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.252|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Concomitant Drugs. The null hypothesis is there is no difference between with and without Concomitant Drugs in the participants of responders."||||=0.252
92151738|NCT02224482|184188707|SUPERIORITY|||||||0.9634|||||||Mixed Models Analysis|||||||.9634
92151739|NCT02224482|184188708|SUPERIORITY|||||||0.5214|||||||Mixed Models Analysis|||||||.5214
92151740|NCT02224482|184188709|SUPERIORITY|||||||0.4875|||||||Mixed Models Analysis|||||||.4875
92151741|NCT02224482|184188710|SUPERIORITY|||||||0.7938|||||||Mixed Models Analysis|||||||.7938
92151742|NCT02224482|184188711|SUPERIORITY|||||||0.6765|||||||Mixed Models Analysis|||||||.6765
92151743|NCT02224482|184188712|SUPERIORITY|||||||0.7061|||||||Mixed Models Analysis|||||||.7061
92151744|NCT02224482|184188713|SUPERIORITY|||||||0.7593|||||||Mixed Models Analysis|||||||.7593
92151745|NCT00744263|184188714|SUPERIORITY_OR_OTHER||Vaccine Efficacy|45.56||||0.0006|TWO_SIDED|95.2|21.82|62.49|||Clopper-Pearson method|||Vaccine efficacy against first event expressed as percentage. Vaccine efficacy = 1 - (proportion of participants who received 13vPnC with confirmed VT-CAP relative to those who received placebo). p-value and confidence intervals were derived using Clopper-Pearson method. The null hypothesis was vaccine efficacy = 0.||62.49|21.82|0.0006
92213634|NCT01009554|184326953|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.174|STANDARD_ERROR_OF_MEAN|0.0414|<|0.001|TWO_SIDED|95.0|0.092|0.256||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.256|0.092|<0.001
92397897|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0872|TWO_SIDED|95.0|0.89|5.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.74|0.89|0.0872
92151746|NCT00744263|184188715|SUPERIORITY_OR_OTHER||Vaccine Efficacy|45.0||||0.0067|TWO_SIDED|95.2|14.21|65.31|||Clopper-Pearson method|||Vaccine efficacy against first event expressed as percentage. Vaccine efficacy = 1-(proportion of participants who received 13vPnC with confirmed VT-CAP relative to those who received placebo). p-value and confidence intervals were derived using Clopper-Pearson method. The null hypothesis was vaccine efficacy = 0.||65.31|14.21|0.0067
92151747|NCT00744263|184188716|SUPERIORITY_OR_OTHER||Vaccine Efficacy|75.0||||0.0005|TWO_SIDED|95.0|41.43|90.78|||Clopper-Pearson method|||Vaccine efficacy against first event expressed as percentage. Vaccine efficacy = 1-(proportion of participants who received 13vPnC with confirmed VT-CAP relative to those who received placebo). p-value and confidence intervals were derived using Clopper-Pearson method. The null hypothesis was vaccine efficacy = 0.||90.78|41.43|0.0005
92151748|NCT00744263|184188719|SUPERIORITY_OR_OTHER|||||||0.979|TWO_SIDED||||||Fisher Exact|||Fisher exact test, 2-sided, was used to calculate the p-value for the difference between vaccine groups in percentages of participants.||||0.979
92151749|NCT00744263|184188720|SUPERIORITY_OR_OTHER|||||||0.455|TWO_SIDED||||||Fisher Exact|||Fisher exact test, 2-sided, was used to calculate the p-value for the difference between vaccine groups in percentages of participants.||||0.455
92151750|NCT04078035|184188734|SUPERIORITY||Slope|-0.00015|STANDARD_ERROR_OF_MEAN|0.00088||0.86|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.86
92151751|NCT04078035|184188735|SUPERIORITY||Slope|0.00022|STANDARD_ERROR_OF_MEAN|0.00067||0.74|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results present the condition (stress/control) by time interactions.||||0.74
92151752|NCT04078035|184188736|SUPERIORITY||Slope|-0.0012|STANDARD_ERROR_OF_MEAN|0.0019||0.52|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.52
92151753|NCT04078035|184188737|SUPERIORITY|Results present the condition (stress/control) by time\^2 interactions.|Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED||||||Mixed Models Analysis|Likelihood ratio test showed better fit if quadratic for time included χ2 (2) = 77.2, p \< .001.||||||<.001
92151754|NCT04078035|184188738|SUPERIORITY||Slope|0.0021|STANDARD_ERROR_OF_MEAN|0.00027|<|0.001|TWO_SIDED||||||Mixed Models Analysis|Likelihood ratio test showed better fit if quadratic for time included χ2 (2) = 66.4, p \< .001.||Results-interaction between time2 and condition||||<.001
92151755|NCT04078035|184188739|SUPERIORITY||Slope|0.0013|STANDARD_ERROR_OF_MEAN|0.0002|<|0.001|TWO_SIDED||||||Mixed Models Analysis|Likelihood ratio test showed better fit if quadratic for time included χ2 (2) = 77.2, p \< .001.||Results-interaction between time\^2 and condition||||<.001
92151756|NCT04078035|184188740|SUPERIORITY||Slope|0.0037|STANDARD_ERROR_OF_MEAN|0.0013||0.005|TWO_SIDED||||||Mixed Models Analysis|||Results below present the condition (stress/control) by time interactions.||||0.005
92151757|NCT04078035|184188741|SUPERIORITY||Slope|-0.0071|STANDARD_ERROR_OF_MEAN|0.074||0.92|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.92
92213635|NCT01009554|184326954|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.264|STANDARD_ERROR_OF_MEAN|0.0504|<|0.001|TWO_SIDED|95.0|0.164|0.364||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.364|0.164|<0.001
92151758|NCT04078035|184188742|SUPERIORITY||Slope|-0.85|STANDARD_ERROR_OF_MEAN|0.41||0.04|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.04
92151759|NCT04078035|184188743|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.0033||0.002|TWO_SIDED|||||Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.|Mixed Models Analysis|Likelihood ratio test showed better fit if quadratic for time included χ2 (2) = 15.64, p \< .001.||Results-interaction between time\^2 and condition||||0.002
92151760|NCT04078035|184188744|SUPERIORITY||Slope|0.014|STANDARD_ERROR_OF_MEAN|0.0053||0.008|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results \_condition (stress/control) by time interactions.||||0.008
92151761|NCT04078035|184188745|SUPERIORITY||Slope|-0.0003|STANDARD_ERROR_OF_MEAN|0.0014||0.83|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.83
92151762|NCT04078035|184188746|SUPERIORITY||Slope|-0.0074|STANDARD_ERROR_OF_MEAN|0.0033||0.03|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.03
92151763|NCT04078035|184188747|SUPERIORITY||Slope|0.00075|STANDARD_ERROR_OF_MEAN|0.00012||0.51|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.51
92213636|NCT01009554|184326955|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.034|STANDARD_ERROR_OF_MEAN|0.0345||0.331|TWO_SIDED|95.0|-0.035|0.102||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.102|-0.035|0.331
92213637|NCT01009554|184326956|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.177|STANDARD_ERROR_OF_MEAN|0.0414|<|0.001|TWO_SIDED|95.0|0.095|0.259||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.259|0.095|<0.001
92213638|NCT01009554|184326957|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.265|STANDARD_ERROR_OF_MEAN|0.0519|<|0.001|TWO_SIDED|95.0|0.162|0.368||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.368|0.162|<0.001
92213639|NCT01009554|184326958|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.138|STANDARD_ERROR_OF_MEAN|0.0726||0.06|TWO_SIDED|95.0|-0.006|0.282||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.282|-0.006|0.060
92336660|NCT02559570|184576083|SUPERIORITY||Least Squares Mean Difference|-0.054|STANDARD_ERROR_OF_MEAN|0.206||0.7923|TWO_SIDED|95.0|-0.461|0.352|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.352|-0.461|0.7923
92151764|NCT04078035|184188748|SUPERIORITY||Slope|-0.0053|STANDARD_ERROR_OF_MEAN|0.0026||0.04|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.04
92151765|NCT04078035|184188749|SUPERIORITY||Slope|0.0018|STANDARD_ERROR_OF_MEAN|0.0027||0.49|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.49
92151766|NCT04078035|184188750|SUPERIORITY||Slope|0.013|STANDARD_ERROR_OF_MEAN|0.0044||0.002|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.002
92151767|NCT02100722|184188762|NON_INFERIORITY|Noninferiority of FFR-guided PCI to CABG was prespecified as an upper boundary of less than 1.65 for the 95% confidence interval of the hazard ratio.|Hazard Ratio (HR)|1.5||||0.35|TWO_SIDED|95.0|1.1|2.2|||Regression, Cox|||A sample of 712 patients per group (1424 for the entire trial) would be required in order to achieve 90% power to claim noninferiority||2.2|1.1|0.35
92151768|NCT02100722|184188765|OTHER||Hazard Ratio (HR)|1.7|||||TWO_SIDED|95.0|0.7|4.3||||||||4.3|0.7|
92151769|NCT02100722|184188766|OTHER||Hazard Ratio (HR)|1.5|||||TWO_SIDED|95.0|0.9|2.5|||||Hazard ratio for overall number of participants experiencing MI.|||2.5|0.9|
92213640|NCT01009554|184326959|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.338|STANDARD_ERROR_OF_MEAN|0.087|<|0.001|TWO_SIDED|95.0|0.165|0.51||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.510|0.165|<0.001
92213641|NCT01009554|184326960|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.394|STANDARD_ERROR_OF_MEAN|0.1095|<|0.001|TWO_SIDED|95.0|0.176|0.612||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.612|0.176|<0.001
92397898|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.19||||0.0131|TWO_SIDED|95.0|1.28|7.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.98|1.28|0.0131
92151770|NCT02100722|184188767|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.3|2.4||||||||2.4|0.3|
92151771|NCT02100722|184188768|OTHER||Hazard Ratio (HR)|1.5|||||TWO_SIDED|95.0|0.9|2.3|||||Hazard ratio for overall number of participants experiencing repeat revascularization.|||2.3|0.9|
92151772|NCT02100722|184188769|OTHER||||||<|0.01|||||||Fisher Exact|||||||<0.01
92151773|NCT02100722|184188770|OTHER||||||<|0.04|||||||Fisher Exact|||||||<0.04
92151774|NCT02100722|184188771|OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92151775|NCT02100722|184188774|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92151776|NCT03500640|184188787|SUPERIORITY|||||||0.196||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.196
92151777|NCT03500640|184188788|SUPERIORITY|||||||0.8||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.800
92151778|NCT03500640|184188789|SUPERIORITY|||||||0.677|||||||t-test, 2 sided|||||||0.677
92151779|NCT03500640|184188790|SUPERIORITY|||||||0.349||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.349
92151780|NCT03500640|184188791|SUPERIORITY|||||||0.891|||||||t-test, 2 sided|||||||0.891
92151781|NCT03500640|184188792|SUPERIORITY|||||||0.14||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.140
92151782|NCT03500640|184188793|SUPERIORITY|||||||0.732|||||||t-test, 2 sided|||||||0.732
92151783|NCT03500640|184188794|SUPERIORITY|||||||0.637||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.637
92336661|NCT02559570|184576083|SUPERIORITY||Least Squares Mean Difference|-0.113|STANDARD_ERROR_OF_MEAN|0.204||0.5802|TWO_SIDED|95.0|-0.517|0.29|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.290|-0.517|0.5802
92151784|NCT03500640|184188795|SUPERIORITY|||||||0.521||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.521
92151785|NCT03500640|184188796|SUPERIORITY|||||||0.083||||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.083
92151786|NCT03500640|184188797|SUPERIORITY|||||||0.778||||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.778
92151787|NCT03500640|184188798|SUPERIORITY|||||||0.982||||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.982
92151788|NCT03500640|184188799|SUPERIORITY|||||||0.081||||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.081
92151789|NCT03500640|184188800|SUPERIORITY|||||||0.712||||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.712
92151790|NCT03500640|184188801|SUPERIORITY|||||||0.371||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.371
92151791|NCT03500640|184188802|SUPERIORITY|||||||0.801||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.801
92151792|NCT03500640|184188803|SUPERIORITY|||||||0.069||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.069
92151793|NCT03500640|184188804|SUPERIORITY|||||||0.193||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.193
92151794|NCT03500640|184188805|SUPERIORITY|||||||0.197||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.197
92151795|NCT03500640|184188806|SUPERIORITY|||||||0.594||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.594
92151796|NCT03500640|184188807|SUPERIORITY|||||||0.328|||||||t-test, 2 sided|||||||0.328
92151797|NCT03500640|184188808|SUPERIORITY|||||||0.398||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.398
92151798|NCT03500640|184188809|SUPERIORITY|||||||0.288||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.288
92151799|NCT03500640|184188810|SUPERIORITY|||||||0.592||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.592
92151800|NCT03500640|184188811|SUPERIORITY|||||||0.805||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.805
92151801|NCT03500640|184188812|SUPERIORITY|||||||0.421||||||The a priori threshold for significance is 0.05|t-test, 2 sided|||The p value provided here is for the physical component summary score (PCS) only||||0.421
92151802|NCT03500640|184188813|SUPERIORITY|The p value provided here is for the physical component summary score (PCS) only||||||0.16|||||||t-test, 2 sided|||||||0.160
92151803|NCT03500640|184188814|SUPERIORITY|||||||0.196||||||The a priori threshold for significance is 0.05|t-test, 2 sided|||||||0.196
92151804|NCT03500640|184188815|SUPERIORITY|||||||0.532||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.532
92151805|NCT01353222|184188825|SUPERIORITY||Hazard Ratio (HR)|1.141||||0.6188|TWO_SIDED|95.0|0.679|1.918|||From a stratified log-rank test, stratif||Cox regression model with treatment as the independent variable, stratified by randomization strata. Hazard ratio with control as reference.|||1.918|0.679|0.6188
92151806|NCT01807650|184188836|SUPERIORITY_OR_OTHER||||||=|0.0232||||||2-sided, significance level = 0.05|t-test, 2 sided|||"All participants received both treatments and treatments were intra-individually compared.~Hypotheses tested: H0: δ = 0 and H1: δ ≠ 0 with δ being the difference in time to wound closure between treatments."||||=0.0232
92151807|NCT01807650|184188840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1|STANDARD_DEVIATION|17.8|=|0.0005|TWO_SIDED|95.0|2.7|9.4||Day 7|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||9.4|2.7|=0.0005
92151808|NCT01807650|184188840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2|STANDARD_DEVIATION|16.9|=|0.0002|TWO_SIDED|95.0|3.0|9.4||Day 10|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||9.4|3.0|=0.0002
92151809|NCT01807650|184188840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.6|STANDARD_DEVIATION|19.3|=|0.0028|TWO_SIDED|95.0|2.0|9.3||Day 14|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||9.3|2.0|=0.0028
92151810|NCT01807650|184188840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9|STANDARD_DEVIATION|18.0|=|0.0009|TWO_SIDED|95.0|2.5|9.3||Day 18|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||9.3|2.5|=0.0009
92151811|NCT01807650|184188840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.6|STANDARD_DEVIATION|15.8|=|0.0003|TWO_SIDED|95.0|2.6|8.6||Day 21|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||8.6|2.6|=0.0003
92151812|NCT01807650|184188840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6|STANDARD_DEVIATION|15.1|=|0.0145|TWO_SIDED|95.0|0.7|6.4||Day 28|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||6.4|0.7|=0.0145
92151813|NCT02395133|184188878|SUPERIORITY||Percent Change Difference|-14.83|||=|0.0001|TWO_SIDED|95.0|-22.34|-7.33|||ANCOVA|Threshold for significance at 0.05 level.||A 2-sided hierarchical testing procedure was used for the co-primary and key secondary efficacy endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Analysis was performed using ANCOVA method.||-7.33|-22.34|= 0.0001
92397899|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0386|TWO_SIDED|95.0|1.05|6.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.43|1.05|0.0386
92151814|NCT02395133|184188878|SUPERIORITY||Percent Change Difference|-17.83|||<|0.0001|TWO_SIDED|95.0|-25.33|-10.34|||ANCOVA|Threshold for significance at 0.05 level.||A 2-sided hierarchical testing procedure was used for the co-primary and key secondary efficacy endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Analysis was performed using ANCOVA method.||-10.34|-25.33|< 0.0001
92151815|NCT02395133|184188878|SUPERIORITY||Percent Change Difference|-21.61|||<|0.0001|TWO_SIDED|95.0|-28.36|-14.87|||ANCOVA|Threshold for significance at 0.05 level.||A 2-sided hierarchical testing procedure was used for the co-primary and key secondary efficacy endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Analysis was performed using ANCOVA method.||-14.87|-28.36|<0.0001
92151816|NCT02395133|184188879|SUPERIORITY||Percentage difference|24.5|||=|0.004|TWO_SIDED|95.0|9.7|39.29||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||39.29|9.70|= 0.0040
92151817|NCT02395133|184188879|SUPERIORITY||Percentage difference|28.0|||=|0.0004|TWO_SIDED|95.0|13.32|42.58||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||42.58|13.32|= 0.0004
92151818|NCT02395133|184188879|SUPERIORITY||Percentage difference|41.2|||<|0.0001|TWO_SIDED|95.0|28.93|53.52||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||53.52|28.93|<0.0001
92151819|NCT02395133|184188880|SUPERIORITY||Percentage difference|21.4|||=|0.013|TWO_SIDED|95.0|4.86|38.0||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||38.00|4.86|= 0.0130
92151820|NCT02395133|184188880|SUPERIORITY||Percentage difference|33.5|||=|0.0003|TWO_SIDED|95.0|17.38|49.72||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||49.72|17.38|= 0.0003
92151821|NCT02395133|184188880|SUPERIORITY||Percentage difference|42.1|||<|0.0001|TWO_SIDED|95.0|28.36|55.76||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||55.76|28.36|<0.0001
92151822|NCT02395133|184188881|SUPERIORITY||Percentage difference|18.5|||=|0.0209|TWO_SIDED|95.0|4.14|32.91||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||32.91|4.14|= 0.0209
92151823|NCT02395133|184188881|SUPERIORITY||Percentage difference|29.7|||=|0.0007|TWO_SIDED|95.0|14.89|44.42||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||44.42|14.89|= 0.0007
92151824|NCT02395133|184188881|SUPERIORITY||Percentage difference|39.7|||<|0.0001|TWO_SIDED|95.0|27.42|51.95||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||51.95|27.42|<0.0001
92151825|NCT02395133|184188882|SUPERIORITY||Percentage difference|-14.4||||0.1048|TWO_SIDED|95.0|-29.21|0.32||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||0.32|-29.21|0.1048
92151826|NCT02395133|184188882|SUPERIORITY||Percentage difference|-20.6|||=|0.0107|TWO_SIDED|95.0|-35.32|-5.89||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||-5.89|-35.32|= 0.0107
92151827|NCT02395133|184188882|SUPERIORITY||Percentage difference|-36.1|||<|0.0001|TWO_SIDED|95.0|-48.4|-23.74||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||-23.74|-48.40|<0.0001
92151828|NCT03573908|184188906|SUPERIORITY||Least squares (LS) mean difference|-0.715|||<|0.0001|TWO_SIDED|95.0|-0.998|-0.433|||MMRM||Least squares (LS) mean difference (linaclotide - placebo)|The overall family-wise Type I error rate for the primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.433|-0.998|< 0.0001
92213642|NCT01009554|184326961|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.072|STANDARD_ERROR_OF_MEAN|0.0355||0.045|TWO_SIDED|95.0|0.002|0.143||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.143|0.002|0.045
92213643|NCT01009554|184326962|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.178|STANDARD_ERROR_OF_MEAN|0.0415|<|0.001|TWO_SIDED|95.0|0.095|0.26||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.260|0.095|<0.001
92213644|NCT01009554|184326963|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.197|STANDARD_ERROR_OF_MEAN|0.052|<|0.001|TWO_SIDED|95.0|0.094|0.3||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.300|0.094|<0.001
92213645|NCT01009554|184326964|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.077|STANDARD_ERROR_OF_MEAN|0.0355||0.034|TWO_SIDED|95.0|0.006|0.147||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.147|0.006|0.034
92213646|NCT01009554|184326965|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.168|STANDARD_ERROR_OF_MEAN|0.0398|<|0.001|TWO_SIDED|95.0|0.089|0.247||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.247|0.089|<0.001
92213647|NCT01009554|184326966|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.193|STANDARD_ERROR_OF_MEAN|0.0516|<|0.001|TWO_SIDED|95.0|0.091|0.296||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.296|0.091|<0.001
92213648|NCT01009554|184326967|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.031||0.524|TWO_SIDED|95.0|-0.082|0.042||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.042|-0.082|0.524
92213649|NCT01009554|184326968|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.055|STANDARD_ERROR_OF_MEAN|0.0395||0.172|TWO_SIDED|95.0|-0.024|0.133||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.133|-0.024|0.172
92213650|NCT01009554|184326969|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.116|STANDARD_ERROR_OF_MEAN|0.0439||0.01|TWO_SIDED|95.0|0.028|0.203||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.203|0.028|0.010
92151829|NCT03573908|184188907|SUPERIORITY||Hodges-Lehman Estimated Median Threshold|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.88|-0.35|||Wilcoxon Rank Sum Test|P-value comparing change from baseline distributions by treatment using the Wilcoxon rank sum test 2-sided.|95% confidence interval (CI) for Hodges-Lehmann estimated median threshold was generated by Moses confidence limits method.|The overall family-wise Type I error rate for the primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.35|-0.88|< 0.0001
92151830|NCT03573908|184188908|SUPERIORITY||Difference in Responder Rate|17.1|||||TWO_SIDED|95.0|9.9|24.4|||||95% confidence intervals for difference in responder rate are obtained using the normal approximation to the binomial distribution.|||24.4|9.9|
92213651|NCT01009554|184326970|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.014|STANDARD_ERROR_OF_MEAN|0.0145||0.348|TWO_SIDED|95.0|-0.043|0.015||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.015|-0.043|0.348
92213652|NCT01009554|184326971|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.025|STANDARD_ERROR_OF_MEAN|0.0186||0.185|TWO_SIDED|95.0|-0.012|0.062||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.062|-0.012|0.185
92213653|NCT01009554|184326972|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.049|STANDARD_ERROR_OF_MEAN|0.0196||0.014|TWO_SIDED|95.0|0.01|0.088||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.088|0.010|0.014
92213654|NCT01009554|184326973|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.008|STANDARD_ERROR_OF_MEAN|0.016||0.623|TWO_SIDED|95.0|-0.04|0.024||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.024|-0.040|0.623
92213655|NCT01009554|184326974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.024|STANDARD_ERROR_OF_MEAN|0.0186||0.192|TWO_SIDED|95.0|-0.013|0.061||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.061|-0.013|0.192
92213656|NCT01009554|184326975|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.057|STANDARD_ERROR_OF_MEAN|0.0213||0.009|TWO_SIDED|95.0|0.014|0.099||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.099|0.014|0.009
92213657|NCT01009554|184326976|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.005|STANDARD_ERROR_OF_MEAN|0.0384||0.893|TWO_SIDED|95.0|-0.081|0.071||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.071|-0.081|0.893
92213658|NCT01009554|184326977|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.021|STANDARD_ERROR_OF_MEAN|0.0476||0.655|TWO_SIDED|95.0|-0.073|0.116||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.116|-0.073|0.655
92213659|NCT01009554|184326978|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.222|STANDARD_ERROR_OF_MEAN|0.0693||0.002|TWO_SIDED|95.0|0.084|0.359||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.359|0.084|0.002
92213660|NCT01009554|184326979|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.002|STANDARD_ERROR_OF_MEAN|0.0187||0.914|TWO_SIDED|95.0|-0.039|0.035||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.035|-0.039|0.914
92213661|NCT01009554|184326980|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.011|STANDARD_ERROR_OF_MEAN|0.0229||0.646|TWO_SIDED|95.0|-0.035|0.056||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.056|-0.035|0.646
92213662|NCT01009554|184326981|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.102|STANDARD_ERROR_OF_MEAN|0.0309||0.001|TWO_SIDED|95.0|0.04|0.163||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.163|0.040|0.001
92213663|NCT01009554|184326982|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.002|STANDARD_ERROR_OF_MEAN|0.0179||0.93|TWO_SIDED|95.0|-0.034|0.037||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.037|-0.034|0.930
92213664|NCT01009554|184326983|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.016|STANDARD_ERROR_OF_MEAN|0.0224||0.486|TWO_SIDED|95.0|-0.029|0.06||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.060|-0.029|0.486
92213665|NCT01009554|184326984|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.112|STANDARD_ERROR_OF_MEAN|0.0338||0.001|TWO_SIDED|95.0|0.045|0.18||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.180|0.045|0.001
92213666|NCT01009554|184326985|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.1006||0.237|TWO_SIDED|95.0|-0.08|0.32||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.320|-0.080|0.237
92213667|NCT01009554|184326986|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.521|STANDARD_ERROR_OF_MEAN|0.112|<|0.001|TWO_SIDED|95.0|0.298|0.743||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.743|0.298|<0.001
92213668|NCT01009554|184326987|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.567|STANDARD_ERROR_OF_MEAN|0.1367|<|0.001|TWO_SIDED|95.0|0.295|0.839||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.839|0.295|<0.001
92213669|NCT01009554|184326988|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.062|STANDARD_ERROR_OF_MEAN|0.0491||0.21|TWO_SIDED|95.0|-0.036|0.16||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.160|-0.036|0.210
92213670|NCT01009554|184326989|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.262|STANDARD_ERROR_OF_MEAN|0.055|<|0.001|TWO_SIDED|95.0|0.153|0.372||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.372|0.153|<0.001
92213671|NCT01009554|184326990|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.281|STANDARD_ERROR_OF_MEAN|0.0654|<|0.001|TWO_SIDED|95.0|0.151|0.411||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.411|0.151|<0.001
92213672|NCT01009554|184326991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.066|STANDARD_ERROR_OF_MEAN|0.0496||0.187|TWO_SIDED|95.0|-0.033|0.165||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.165|-0.033|0.187
92213673|NCT01009554|184326992|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.256|STANDARD_ERROR_OF_MEAN|0.0544|<|0.001|TWO_SIDED|95.0|0.148|0.364||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.364|0.148|<0.001
92213674|NCT01009554|184326993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.273|STANDARD_ERROR_OF_MEAN|0.0669|<|0.001|TWO_SIDED|95.0|0.14|0.406||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.406|0.140|<0.001
92213675|NCT02554903|184326999|SUPERIORITY||Geometric Mean Ratio|0.7393||||0.0158|TWO_SIDED|95.0|0.5798|0.9426|||ANCOVA|||||0.9426|0.5798|0.0158
92151831|NCT03573908|184188908|SUPERIORITY||Odds Ratio (OR)|2.2|||<|0.0001|TWO_SIDED|95.0|1.55|3.12||Odds ratio, 95% CI for the Odds Ratio and p-value vs. placebo are obtained from the Cochran-Mantel-Haenszel (CMH) tests controlling for geographic region.|Cochran-Mantel-Haenszel|||The overall family-wise Type I error rate for the primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||3.12|1.55|< 0.0001
92213676|NCT01405937|184327008|SUPERIORITY_OR_OTHER||||||<|0.001||||||The Type-I error rate over the multiple tests comparisons was controlled by the Hochberg testing procedure.|exact test for binomial proportion|||The null hypothesis that the percentage of participants achieving SVR24 of vaniprevir treatment was 20% versus the alternative that the percentage of participants achieving SVR24 of vaniprevir treatment was over 20% was tested.||||<0.001
92151832|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.867|||<|0.0001|TWO_SIDED|95.0|-1.219|-0.515||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 12. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.515|-1.219|< 0.0001
92151833|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.719|||<|0.0001|TWO_SIDED|95.0|-1.062|-0.376||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 10. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.376|-1.062|< 0.0001
92213677|NCT01405937|184327008|SUPERIORITY_OR_OTHER||||||<|0.001||||||The Type-I error rate over the multiple tests comparisons was controlled by the Hochberg testing procedure.|exact test for binomial proportion|||The null hypothesis that the percentage of participants achieving SVR24 of vaniprevir treatment was 20% versus the alternative that the percentage of participants achieving SVR24 of vaniprevir treatment was over 20% was tested.||||<0.001
92213678|NCT02340091|184327036|SUPERIORITY||Subjects % with difference in VAS ≥ 10mm|0.9194|||||TWO_SIDED|95.0|0.8|0.97||||||||0.97|0.80|
92151834|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.665||||0.0002|TWO_SIDED|95.0|-1.007|-0.322||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 8. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.322|-1.007|0.0002
92151835|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.831|||<|0.0001|TWO_SIDED|95.0|-1.151|-0.511||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 6. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.511|-1.151|< 0.0001
92151836|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.683|||<|0.0001|TWO_SIDED|95.0|-0.982|-0.383||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 4. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.383|-0.982|< 0.0001
92151837|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.628|||<|0.0001|TWO_SIDED|95.0|-0.888|-0.368||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 2. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.368|-0.888|< 0.0001
92151838|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.435|||<|0.0001|TWO_SIDED|95.0|-0.641|-0.228||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 1. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.228|-0.641|< 0.0001
92151839|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.683|||<|0.0001|TWO_SIDED|95.0|-0.969|-0.398||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 3. Not part of the fixed-sequence testing procedure.||-0.398|-0.969|< 0.0001
92151840|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.768|||<|0.0001|TWO_SIDED|95.0|-1.076|-0.46||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 5. Not part of the fixed-sequence testing procedure.||-0.460|-1.076|< 0.0001
92151841|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.758|||<|0.0001|TWO_SIDED|95.0|-1.086|-0.431||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 7. Not part of the fixed-sequence testing procedure.||-0.431|-1.086|< 0.0001
92397900|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0191|TWO_SIDED|95.0|1.2|8.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.05|1.20|0.0191
92151842|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.703|||<|0.0001|TWO_SIDED|95.0|-1.043|-0.363||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 9. Not part of the fixed-sequence testing procedure.||-0.363|-1.043|< 0.0001
92151843|NCT03573908|184188909|SUPERIORITY||LS mean difference|-0.844|||<|0.0001|TWO_SIDED|95.0|-1.189|-0.498||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 11. Not part of the fixed-sequence testing procedure.||-0.498|-1.189|< 0.0001
92151844|NCT04006925|184188910|OTHER||Median Difference (Net)|-23.5||||0.03|TWO_SIDED|95.0|-41.0|-2.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||-2.0|-41.0|0.03
92151845|NCT04006925|184188910|OTHER||Median Difference (Net)|-9.0||||0.11|TWO_SIDED|95.0|-21.5|0.0|||Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||0.0|-21.5|0.11
92151846|NCT04006925|184188910|SUPERIORITY||Median Difference (Net)|-14.5||||0.27|TWO_SIDED|95.0|-32.0|11.3||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Mann Whitney U test|||Between group analysis of change from baseline.||11.3|-32.0|0.27
92151847|NCT04006925|184188911|OTHER||Median Difference (Net)|-1.0||||0.02|TWO_SIDED|95.0|-3.0|0.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||0.0|-3.0|0.02
92213679|NCT02876835|184327078|NON_INFERIORITY|Non-inferiority was achieved if the upper limit of the two-sided 95% CI for the hazard ratio was below the pre-specified non-inferiority margin of 1.25.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.89|1.19|||||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.19|0.89|
92213680|NCT02876835|184327079|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than -0.75 g/dL.|Least square (LS) mean difference|0.08|||||TWO_SIDED|95.0|0.03|0.13||||||||0.13|0.03|
92213681|NCT02876835|184327080|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.670884|TWO_SIDED|95.0|0.89|1.19||The p-value was compared against 0.008333 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.19|0.89|0.670884
92213682|NCT02876835|184327081|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.800813|TWO_SIDED|95.0|0.93|1.22||The p-value was compared against 0.012500 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.22|0.93|0.800813
92213683|NCT02876835|184327082|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.886195|TWO_SIDED|95.0|0.95|1.24||The p-value was compared against 0.025000 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.24|0.95|0.886195
92213684|NCT02876835|184327083|SUPERIORITY||Subdistribution hazard ratio|0.98||||0.36947|TWO_SIDED|95.0|0.84|1.13|||Wald test||Subdistribution hazard ratio was estimated using Fine and Gray's proportional subdistribution hazard regression model with treatment group, Baseline ESA use, and region as covariates.|||1.13|0.84|0.369470
92213685|NCT02876835|184327084|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.6197|TWO_SIDED|95.0|0.87|1.2|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.20|0.87|0.6197
92213686|NCT02876835|184327085|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.8976|TWO_SIDED|95.0|0.91|1.58|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.58|0.91|0.8976
92213687|NCT02876835|184327086|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.6581|TWO_SIDED|95.0|0.8|1.4|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.40|0.80|0.6581
92213688|NCT02876835|184327087|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.894|TWO_SIDED|95.0|0.85|2.07|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||2.07|0.85|0.8940
92397901|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.84||||0.0291|TWO_SIDED|95.0|1.11|7.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.26|1.11|0.0291
92151848|NCT04006925|184188911|OTHER||Median Difference (Net)|0.0||||0.83|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||1.0|-1.0|0.83
92151849|NCT04006925|184188911|SUPERIORITY||Median Difference (Net)|-1.0||||0.09|TWO_SIDED|95.0|-3.5|0.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Mann Whitney U test|||Between group analysis of change from baseline.||0.0|-3.5|0.09
92213689|NCT02876835|184327088|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.9422|TWO_SIDED|95.0|0.98|1.23|||Chi-squared||Overall HR is presented using Model 1. Model 1 assumed a common treatment effect, regardless of number of events experienced. HR was estimated using a Prentice, Williams and Peterson(PWP) model, with treatment, dialysis type and region as covariates.|||1.23|0.98|0.9422
92151850|NCT04006925|184188912|SUPERIORITY|||||||0.08||||||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Mann Whitney U test|||Between group analysis of change from baseline.||||0.08
92151851|NCT04006925|184188913|SUPERIORITY|||||||0.18||||||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Mann Whitney U test|||Between group analysis of change from baseline.||||0.18
92213690|NCT02876835|184327088|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.8862|TWO_SIDED|95.0|0.95|1.24|||Chi-squared||First Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. Hazard Ratio (HR) was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.24|0.95|0.8862
92213691|NCT02876835|184327088|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.6789|TWO_SIDED|95.0|0.82|1.39|||Chi-squared||Second Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.39|0.82|0.6789
92151852|NCT04006925|184188914|OTHER||Median Difference (Net)|-1.0||||0.26|TWO_SIDED|95.0|-7.0|2.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||2.0|-7.0|0.26
92151853|NCT04006925|184188914|OTHER||Median Difference (Final Values)|-0.5||||0.43|TWO_SIDED|95.0|-3.5|2.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||2.0|-3.5|0.43
92151854|NCT04006925|184188914|SUPERIORITY||Median Difference (Final Values)|-0.5||||0.65|TWO_SIDED|95.0|-4.0|3.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Mann Whitney U test|||Between group analysis of change from baseline.||3.0|-4.0|0.65
92213692|NCT02876835|184327088|SUPERIORITY||Hazard Ratio (HR)|1.37||||0.9016|TWO_SIDED|95.0|0.85|2.19|||Chi-squared||Third Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||2.19|0.85|0.9016
92151855|NCT04006925|184188915|OTHER||Mean Difference (Net)|-6.2||||0.23|TWO_SIDED|95.0|-15.2|1.7||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Unpaired T-test|||Within group analysis of change from baseline.||1.7|-15.2|0.23
92213693|NCT02876835|184327088|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.8862|TWO_SIDED|95.0|0.95|1.24|||Chi-squared||First Event Hazard ratio is presented using Model 3. Model 3 assumed treatment effect for first event differs from a common effect for subsequent events. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.24|0.95|0.8862
92151856|NCT04006925|184188915|OTHER||Mean Difference (Net)|0.2||||0.95|TWO_SIDED|95.0|-4.6|4.5||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Unpaired T-test|||Within group analysis of change from baseline.||4.5|-4.6|0.95
92151857|NCT04006925|184188915|SUPERIORITY||Mean Difference (Net)|-6.4||||0.22|TWO_SIDED|95.0|-16.2|3.1||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Paired T-test|||Between group analysis of change from baseline.||3.1|-16.2|0.22
92151858|NCT00045435|184188919|OTHER||Percent|47.0|||||ONE_SIDED|95.0||69.0|||||The criterion for stopping was not met.|The study was to be stopped after 20 patients if the upper bound of a 1-sided 95% confidence interval for relapse-free survival was \<35%.||69||
92151859|NCT00045435|184188920|OTHER||percent|6.0|||||ONE_SIDED|80.0|1.0||||||The stopping criterion was not met.|The study was to be stopped if the lower bound of a 1-sided 80% confidence interval for NRM was greater than 15%|||1|
92151860|NCT03621202|184188935|OTHER||||||||||||||||||The EBBMS sensitivity was 100%.|||
92151861|NCT03621202|184188936|OTHER||||||||||||||||||The EBBMS specificity was 75%.|||
92151862|NCT02906683|184188944|SUPERIORITY||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|6.8||0.329|TWO_SIDED|95.0|-20.1|6.7|||t-test, 2 sided|||TAS-303 3 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 8||6.7|-20.1|0.329
92151863|NCT02906683|184188944|SUPERIORITY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|6.84||0.285|TWO_SIDED|95.0|-20.9|6.2|||t-test, 2 sided|||TAS-303 6 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 8||6.2|-20.9|0.285
92151864|NCT02906683|184188946|SUPERIORITY||Mean Difference (Final Values)|-11.3|STANDARD_ERROR_OF_MEAN|6.48||0.082|TWO_SIDED|95.0|-24.1|1.5|||t-test, 2 sided|||TAS-303 3 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 4||1.5|-24.1|0.082
92213694|NCT02876835|184327088|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.8989|TWO_SIDED|95.0|0.92|1.46|||Chi-squared||Subsequent Event Hazard ratio is presented using Model 3. Model 3 assumed treatment effect for first event differs from a common effect for subsequent events. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.46|0.92|0.8989
92151865|NCT02906683|184188946|SUPERIORITY||Mean Difference (Final Values)|-12.1|STANDARD_ERROR_OF_MEAN|6.34||0.057|TWO_SIDED|95.0|-24.7|0.4|||t-test, 2 sided|||TAS-303 6 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 4||0.4|-24.7|0.057
92151866|NCT02906683|184188948|SUPERIORITY||Mean Difference (Final Values)|-17.6|STANDARD_ERROR_OF_MEAN|7.38||0.019|TWO_SIDED|95.0|-32.2|-3.0|||t-test, 2 sided|||TAS-303 3 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 4||-3.0|-32.2|0.019
92151867|NCT02906683|184188948|SUPERIORITY||Mean Difference (Final Values)|-16.9|STANDARD_ERROR_OF_MEAN|7.36||0.023|TWO_SIDED|95.0|-31.5|-2.3|||t-test, 2 sided|||TAS-303 6 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 4||-2.3|-31.5|0.023
92151868|NCT02906683|184188950|SUPERIORITY||Mean Difference (Final Values)|-11.4|STANDARD_ERROR_OF_MEAN|7.36||0.125|TWO_SIDED|95.0|-25.9|3.2|||t-test, 2 sided|||TAS-303 3 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 8||3.2|-25.9|0.125
92151869|NCT02906683|184188950|SUPERIORITY||Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|7.8||0.221|TWO_SIDED|95.0|-25.1|5.9|||t-test, 2 sided|||TAS-303 6 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 8||5.9|-25.1|0.221
92151870|NCT01158378|184188958|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin of 10%||||||0.0049|||||||one-sided z-test|||||||0.0049
92151871|NCT01158378|184188959|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin of 10%|||||<|0.0001|||||||one-sided z-test|||||||<0.0001
92151872|NCT01158378|184188959|SUPERIORITY_OR_OTHER|||||||0.0297|||||||one-sided z-test|||Superiority Test||||0.0297
92151873|NCT01158378|184188960|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin of 10%|||||<|0.0001|||||||one-sided z-test|||||||<0.0001
92151874|NCT01158378|184188960|SUPERIORITY_OR_OTHER|||||||0.0561|||||||one-sided z-test|||Superiority Test||||0.0561
92151875|NCT03661996|184189002|NON_INFERIORITY|The treatment regimen is Clinically Acceptable if it is no more than 30% worse than the Breg Cooling Control Group and the lower bound of the 95% CI for Ratio of Geometric LS Means is greater than 0.7.|Ratio of Geometric LS Means|1.063|STANDARD_ERROR_OF_MEAN|1.0216|||TWO_SIDED|95.0|1.019|1.108|||||Parameter dispersion is the Standard Error of the Ratio of Geometric LS Means|Geometric LS means, ratio of geometric LS means, with Breg Cooling as control, and 95% CIs were obtained from an ANCOVA model on the natural log-transformed composite outcome with cooling and injection procedure as the main effect. Baseline K-L grade, baseline BMI category, sex, and reverse-scored and normalized index knee procedure pain were included as covariates. Estimates and CIs on the log scale were exponentiated to obtain ratios of geometric means on the original scale.||1.108|1.019|
92151876|NCT03661996|184189002|NON_INFERIORITY|The treatment regimen is Clinically Acceptable if it is no more than 30% worse than the Breg Cooling Control Group and the lower bound of the 95% CI for Ratio of Geometric LS Means is greater than 0.7.|Ratio of Geometric LS Means|0.959|STANDARD_ERROR_OF_MEAN|1.0221|||TWO_SIDED|95.0|0.919|1.001|||||Parameter dispersion is the Standard Error of the Ratio of Geometric LS Means|Geometric LS means, ratio of geometric LS means, with Breg Cooling as control, and 95% CIs were obtained from an ANCOVA model on the natural log-transformed composite outcome with cooling and injection procedure as the main effect. Baseline K-L grade, baseline BMI category, sex, and reverse-scored and normalized index knee procedure pain were included as covariates. Estimates and CIs on the log scale were exponentiated to obtain ratios of geometric means on the original scale.||1.001|0.919|
92213695|NCT02876835|184327089|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.7673|TWO_SIDED|95.0|0.88|1.33|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.33|0.88|0.7673
92213696|NCT02876835|184327090|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.8601|TWO_SIDED|95.0|0.96|1.15|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.15|0.96|0.8601
92213697|NCT02876835|184327091|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.6207|TWO_SIDED|95.0|0.86|1.22|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.22|0.86|0.6207
92397902|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|6.09||||0.0004|TWO_SIDED|95.0|2.23|16.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||16.58|2.23|0.0004
92151877|NCT03661996|184189002|NON_INFERIORITY|The treatment regimen is Clinically Acceptable if it is no more than 30% worse than the Breg Cooling Control Group and the lower bound of the 95% CI for Ratio of Geometric LS Means is greater than 0.7.|Ratio of Geometric LS Means|1.013|STANDARD_ERROR_OF_MEAN|1.0219|||TWO_SIDED|95.0|0.97|1.057|||||Parameter dispersion is the Standard Error of the Ratio of Geometric LS Means|Geometric LS means, ratio of geometric LS means, with Breg Cooling as control, and 95% CIs were obtained from an ANCOVA model on the natural log-transformed composite outcome with cooling and injection procedure as the main effect. Baseline K-L grade, baseline BMI category, sex, and reverse-scored and normalized index knee procedure pain were included as covariates. Estimates and CIs on the log scale were exponentiated to obtain ratios of geometric means on the original scale.||1.057|0.970|
92151878|NCT03661996|184189002|NON_INFERIORITY|The treatment regimen is Clinically Acceptable if it is no more than 30% worse than the Breg Cooling Control Group and the lower bound of the 95% CI for Ratio of Geometric LS Means is greater than 0.7.|Ratio of Geometric LS Means|0.931|STANDARD_ERROR_OF_MEAN|1.0219|||TWO_SIDED|95.0|0.892|0.972|||||Parameter dispersion is the Standard Error of the Ratio of Geometric LS Means|Geometric LS means, ratio of geometric LS means, with Breg Cooling as control, and 95% CIs were obtained from an ANCOVA model on the natural log-transformed composite outcome with cooling and injection procedure as the main effect. Baseline K-L grade, baseline BMI category, sex, and reverse-scored and normalized index knee procedure pain were included as covariates. Estimates and CIs on the log scale were exponentiated to obtain ratios of geometric means on the original scale.||0.972|0.892|
92151879|NCT03661996|184189003|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|17.15|STANDARD_ERROR_OF_MEAN|1.396|<|0.0001|TWO_SIDED|95.0|14.4|19.9|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||19.90|14.40|<0.0001
92213698|NCT02876835|184327092|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.9393|TWO_SIDED|95.0|0.97|1.26|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.26|0.97|0.9393
92213699|NCT02876835|184327093|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.9412|TWO_SIDED|95.0|0.95|1.56|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.56|0.95|0.9412
92213700|NCT02876835|184327094|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.8994|TWO_SIDED|95.0|0.88|1.84|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.84|0.88|0.8994
92213701|NCT02876835|184327095|SUPERIORITY||Subdistribution hazard ratio|0.92||||0.2073|TWO_SIDED|95.0|0.75|1.13|||Wald test||Subdistribution hazard ratio was estimated using Fine \& Gray's proportional subdistribution hazard regression model with treatment group, Baseline ESA use, and region as covariates.|||1.13|0.75|0.2073
92213702|NCT02876835|184327096|SUPERIORITY||Subdistribution hazard ratio|1.0||||0.5068|TWO_SIDED|95.0|0.84|1.19|||Wald test||Subdistribution hazard ratio was estimated using Fine \& Gray's proportional subdistribution hazard regression model with treatment group, Baseline ESA use, and region as covariates.|||1.19|0.84|0.5068
92213703|NCT02876835|184327097|SUPERIORITY||Subdistribution hazard ratio|0.88||||0.3285|TWO_SIDED|95.0|0.51|1.54|||Wald test||Subdistribution hazard ratio was estimated using Fine \& Gray's proportional subdistribution hazard regression model with treatment group, Baseline ESA use, and region as covariates.|||1.54|0.51|0.3285
92213704|NCT02876835|184327098|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than the pre-specified non-inferiority margin of -0.75 g/dL.|LS mean difference|0.03|||||TWO_SIDED|95.0|-0.05|0.11||||||||0.11|-0.05|
92213705|NCT02876835|184327099|SUPERIORITY||Difference in response rate|8.3|||<|0.0001|TWO_SIDED|95.0|5.2|11.4|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel (CMH) test adjusted for current ESA use and region was used to compare the number of responders between the treatment groups.|||11.4|5.2|<0.0001
92213706|NCT02876835|184327100|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% confidence interval for the treatment difference was greater than non-inferiority margin of -15%.|Mean Difference (Final Values)|4.57|||||TWO_SIDED|95.0|2.04|7.11|||||Hodges-Lehmann estimate of the treatment difference (daprodustat-darbepoetin alfa) and associated two-sided asymptotic 95% CI is presented.|||7.11|2.04|
92213707|NCT02876835|184327101|SUPERIORITY||Probability|0.55|||<|0.0001|TWO_SIDED|95.0|0.53|0.57|||van Elteren test||Mann-Whitney estimate (Probability) of the treatment effect has been presented.|||0.57|0.53|<0.0001
92213708|NCT02876835|184327102|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% confidence interval for the treatment difference was greater than non-inferiority margin of -15%.|Median Difference (Final Values)|3.94|||||TWO_SIDED|95.0|1.9|5.91|||||Hodges-Lehmann estimate of the treatment difference (daprodustat-darbepoetin alfa) and associated two-sided asymptotic 95% CI is presented.|||5.91|1.90|
92213709|NCT02876835|184327103|SUPERIORITY||Probability|0.54|||<|0.0001|TWO_SIDED|95.0|0.52|0.56|||van Elteren test||Mann-Whitney estimate (Probability) of the treatment effect has been presented.|||0.56|0.52|<0.0001
92213710|NCT02876835|184327104|SUPERIORITY||LS mean difference|0.56||||0.7916|TWO_SIDED|95.0|-0.79|1.9|||MMRM||The difference in change from Baseline in SBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||1.90|-0.79|0.7916
92213711|NCT02876835|184327104|SUPERIORITY||LS mean difference|0.65||||0.9581|TWO_SIDED|95.0|-0.09|1.38|||MMRM||The difference in change from Baseline in DBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||1.38|-0.09|0.9581
92213712|NCT02876835|184327104|SUPERIORITY||LS mean difference|0.6||||0.9241|TWO_SIDED|95.0|-0.22|1.43|||MMRM||The difference in change from Baseline in MAP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||1.43|-0.22|0.9241
92213713|NCT02876835|184327105|SUPERIORITY||LS mean difference|-0.08||||0.442|TWO_SIDED|95.0|-1.18|1.02|||ANCOVA||For SBP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, current ESA use at randomization, region and Baseline value.|||1.02|-1.18|0.4420
92213714|NCT02876835|184327105|SUPERIORITY||LS mean difference|0.11||||0.6369|TWO_SIDED|95.0|-0.52|0.75|||ANCOVA||For DBP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, current ESA use at randomization, region and Baseline value.|||0.75|-0.52|0.6369
92213715|NCT02876835|184327105|SUPERIORITY||LS mean difference|0.04||||0.549|TWO_SIDED|95.0|-0.65|0.74|||ANCOVA||For MAP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, current ESA use at randomization, region and Baseline value.|||0.74|-0.65|0.5490
92213716|NCT02876835|184327106|SUPERIORITY||Ratio of exacerbation rate|0.88||||0.0074|TWO_SIDED|95.0|0.79|0.98|||Negative binomial model||Ratio of model estimated exacerbation rates and CIs estimated using negative binomial model with treatment,current ESA use at randomization and region as covariates and logarithm of time on treatment as offset variable for treatment group comparison.|||0.98|0.79|0.0074
92151880|NCT03661996|184189003|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Mean Difference (Final Values)|20.41|STANDARD_ERROR_OF_MEAN|3.692|<|0.0001|TWO_SIDED|95.0|12.79|28.03|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||28.03|12.79|<0.0001
92151881|NCT03661996|184189003|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|20.05|STANDARD_ERROR_OF_MEAN|0.819|<|0.0001|TWO_SIDED|95.0|18.44|21.66|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||21.66|18.44|<0.0001
92151882|NCT03661996|184189003|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|18.4|STANDARD_ERROR_OF_MEAN|1.011|<|0.0001|TWO_SIDED|95.0|16.41|20.38|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||20.38|16.41|<0.0001
92151883|NCT03661996|184189004|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|22.45|STANDARD_ERROR_OF_MEAN|1.478|<|0.0001|TWO_SIDED|95.0|19.54|25.37|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||25.37|19.54|<0.0001
92151884|NCT03661996|184189004|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|23.9|STANDARD_ERROR_OF_MEAN|4.613|<|0.0001|TWO_SIDED|95.0|14.38|33.42|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||33.42|14.38|<0.0001
92151885|NCT03661996|184189004|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.62|STANDARD_ERROR_OF_MEAN|0.865|<|0.0001|TWO_SIDED|95.0|23.92|27.32|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||27.32|23.92|<0.0001
92151886|NCT03661996|184189004|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|22.1|STANDARD_ERROR_OF_MEAN|1.053|<|0.0001|TWO_SIDED|95.0|20.03|24.17|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||24.17|20.03|<0.0001
92151887|NCT03661996|184189005|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|21.1|STANDARD_ERROR_OF_MEAN|1.74|<|0.0001|TWO_SIDED|95.0|17.6|24.5|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms for pooled site group, baseline K-L grade category, baseline BMI category (\<30 kg/m2, ≥30 kg/m2), sex, study visit, and baseline KOOS subscale score as covariates. Study visit was included in the model as a categorical variable.||24.5|17.6|<0.0001
92213717|NCT02876835|184327108|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0113|TWO_SIDED|95.0|0.42|0.94|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model adjusted for treatment group, current ESA use and region.|||0.94|0.42|0.0113
92213718|NCT02876835|184327109|SUPERIORITY||LS mean difference|-0.36||||0.932|TWO_SIDED|95.0|-0.83|0.11|||MMRM||Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time,current ESA use at randomization, region,Baseline value and Baseline value by time and treatment by time interactions|||0.11|-0.83|0.9320
92213719|NCT02876835|184327109|SUPERIORITY||LS mean difference|-0.11||||0.6761|TWO_SIDED|95.0|-0.59|0.36|||MMRM||Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.36|-0.59|0.6761
92213720|NCT02876835|184327109|SUPERIORITY||LS mean difference|0.12||||0.3335|TWO_SIDED|95.0|-0.43|0.67|||MMRM||Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.67|-0.43|0.3335
92213721|NCT02876835|184327109|SUPERIORITY||LS mean difference|-0.2||||0.7423|TWO_SIDED|95.0|-0.81|0.41|||MMRM||Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.41|-0.81|0.7423
92213722|NCT02876835|184327110|SUPERIORITY||LS mean difference|-0.29||||0.8268|TWO_SIDED|95.0|-0.9|0.32|||MMRM||Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions.|||0.32|-0.90|0.8268
92213723|NCT02876835|184327110|SUPERIORITY||LS mean difference|-0.15||||0.6851|TWO_SIDED|95.0|-0.77|0.47|||MMRM||Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.47|-0.77|0.6851
92213724|NCT02876835|184327110|SUPERIORITY||LS mean difference|-0.33||||0.8316|TWO_SIDED|95.0|-1.01|0.35|||MMRM||Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.35|-1.01|0.8316
92213725|NCT02876835|184327110|SUPERIORITY||LS mean difference|-0.35||||0.8032|TWO_SIDED|95.0|-1.16|0.46|||MMRM||Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.46|-1.16|0.8032
92213726|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.34||||0.8562|TWO_SIDED|95.0|-0.95|0.28|||MMRM||B pain,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.28|-0.95|0.8562
92213727|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.15||||0.6849|TWO_SIDED|95.0|-0.77|0.47|||MMRM||B pain,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.47|-0.77|0.6849
92213728|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.49||||0.9074|TWO_SIDED|95.0|-1.22|0.24|||MMRM||B pain,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.24|-1.22|0.9074
92397903|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|7.24||||0.0003|TWO_SIDED|95.0|2.49|21.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||21.02|2.49|0.0003
92151888|NCT03661996|184189005|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.3|STANDARD_ERROR_OF_MEAN|6.06||0.0003|TWO_SIDED|95.0|12.7|37.8|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms for pooled site group, baseline K-L grade category, baseline BMI category (\<30 kg/m2, ≥30 kg/m2), sex, study visit, and baseline KOOS subscale score as covariates. Study visit was included in the model as a categorical variable.||37.8|12.7|0.0003
92213729|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.47||||0.8765|TWO_SIDED|95.0|-1.26|0.32|||MMRM||B pain,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.32|-1.26|0.8765
92213730|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.08||||0.6252|TWO_SIDED|95.0|-0.56|0.4|||MMRM||GH,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.40|-0.56|0.6252
92213731|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.2||||0.7852|TWO_SIDED|95.0|-0.68|0.29|||MMRM||GH,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.29|-0.68|0.7852
92397904|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.22||||0.0992|TWO_SIDED|95.0|0.86|5.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.72|0.86|0.0992
92213732|NCT02876835|184327111|SUPERIORITY||LS mean difference|0.1||||0.3614|TWO_SIDED|95.0|-0.46|0.66|||MMRM||GH,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.66|-0.46|0.3614
92151889|NCT03661996|184189005|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.85|STANDARD_ERROR_OF_MEAN|1.035|<|0.0001|TWO_SIDED|95.0|23.82|27.88|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms for pooled site group, baseline K-L grade category, baseline BMI category (\<30 kg/m2, ≥30 kg/m2), sex, study visit, and baseline KOOS subscale score as covariates. Study visit was included in the model as a categorical variable.||27.88|23.82|<0.0001
92151890|NCT03661996|184189005|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|23.34|STANDARD_ERROR_OF_MEAN|1.238|<|0.0001|TWO_SIDED|95.0|20.91|25.78|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms for pooled site group, baseline K-L grade category, baseline BMI category (\<30 kg/m2, ≥30 kg/m2), sex, study visit, and baseline KOOS subscale score as covariates. Study visit was included in the model as a categorical variable.||25.78|20.91|<0.0001
92151891|NCT03661996|184189006|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|20.86|STANDARD_ERROR_OF_MEAN|1.481|<|0.0001|TWO_SIDED|95.0|17.94|23.78|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||23.78|17.94|<0.0001
92151892|NCT03661996|184189006|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.66|STANDARD_ERROR_OF_MEAN|4.568|<|0.0001|TWO_SIDED|95.0|16.24|35.09|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||35.09|16.24|<0.0001
92151893|NCT03661996|184189006|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.57|STANDARD_ERROR_OF_MEAN|0.861|<|0.0001|TWO_SIDED|95.0|23.88|27.26|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||27.26|23.88|<0.0001
92151894|NCT03661996|184189006|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.69|STANDARD_ERROR_OF_MEAN|0.853|<|0.0001|TWO_SIDED|95.0|24.02|27.37|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||27.37|24.02|<0.0001
92151895|NCT03661996|184189007|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.17|STANDARD_ERROR_OF_MEAN|2.248|<|0.0001|TWO_SIDED|95.0|20.74|29.6|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||29.60|20.74|<0.0001
92151896|NCT03661996|184189007|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|33.11|STANDARD_ERROR_OF_MEAN|5.795|<|0.0001|TWO_SIDED|95.0|21.15|45.07|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||45.07|21.15|<0.0001
92151897|NCT03661996|184189007|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|27.8|STANDARD_ERROR_OF_MEAN|1.233|<|0.0001|TWO_SIDED|95.0|25.38|30.23|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||30.23|25.38|<0.0001
92213733|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.08||||0.5991|TWO_SIDED|95.0|-0.7|0.54|||MMRM||GH,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.54|-0.70|0.5991
92213734|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.31||||0.8526|TWO_SIDED|95.0|-0.88|0.27|||MMRM||MH,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.27|-0.88|0.8526
92213735|NCT02876835|184327111|SUPERIORITY||LS mean difference|0.02||||0.4673|TWO_SIDED|95.0|-0.56|0.61|||MMRM||MH,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.61|-0.56|0.4673
92213736|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.31||||0.8262|TWO_SIDED|95.0|-0.95|0.33|||MMRM||MH,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.33|-0.95|0.8262
92213737|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.25||||0.738|TWO_SIDED|95.0|-1.0|0.51|||MMRM||MH,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.51|-1.00|0.7380
92213738|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.09||||0.5997|TWO_SIDED|95.0|-0.8|0.62|||MMRM||RE,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.62|-0.80|0.5997
92213739|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.26||||0.7649|TWO_SIDED|95.0|-0.98|0.45|||MMRM||RE,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.45|-0.98|0.7649
92213740|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.37||||0.8175|TWO_SIDED|95.0|-1.18|0.43|||MMRM||RE,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.43|-1.18|0.8175
92213741|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.52||||0.8591|TWO_SIDED|95.0|-1.47|0.43|||MMRM||RE,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.43|-1.47|0.8591
92213742|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.5||||0.9588|TWO_SIDED|95.0|-1.06|0.06|||MMRM||RP,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.06|-1.06|0.9588
92213743|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.33||||0.8761|TWO_SIDED|95.0|-0.9|0.23|||MMRM||RP,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.23|-0.90|0.8761
92213744|NCT02876835|184327111|SUPERIORITY||LS mean difference|0.06||||0.4293|TWO_SIDED|95.0|-0.58|0.7|||MMRM||RP,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.70|-0.58|0.4293
92213745|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.19||||0.6983|TWO_SIDED|95.0|-0.92|0.53|||MMRM||RP,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.53|-0.92|0.6983
92213746|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.62||||0.9743|TWO_SIDED|95.0|-1.25|0.0|||MMRM||SF,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.00|-1.25|0.9743
92213747|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.32||||0.8405|TWO_SIDED|95.0|-0.94|0.31|||MMRM||SF,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.31|-0.94|0.8405
92397905|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|5.66||||0.0006|TWO_SIDED|95.0|2.11|15.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.16|2.11|0.0006
92213748|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.13||||0.6459|TWO_SIDED|95.0|-0.82|0.56|||MMRM||SF,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.56|-0.82|0.6459
92213749|NCT02876835|184327111|SUPERIORITY||LS mean difference|-0.38||||0.8272|TWO_SIDED|95.0|-1.17|0.41|||MMRM||SF,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.41|-1.17|0.8272
92213750|NCT02876835|184327112|SUPERIORITY||LS mean difference|-0.56||||0.9786|TWO_SIDED|95.0|-1.09|-0.02|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and model adjusted Week 8 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||-0.02|-1.09|0.9786
92213751|NCT02876835|184327112|SUPERIORITY||LS mean difference|-0.12||||0.6642|TWO_SIDED|95.0|-0.68|0.44|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and model adjusted Week 12 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.44|-0.68|0.6642
92213752|NCT02876835|184327112|SUPERIORITY||LS mean difference|-0.1||||0.6261|TWO_SIDED|95.0|-0.72|0.52|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and model adjusted Week 28 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.52|-0.72|0.6261
92213753|NCT02876835|184327112|SUPERIORITY||LS mean difference|-0.49||||0.9161|TWO_SIDED|95.0|-1.19|0.21|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and model adjusted Week 52 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.21|-1.19|0.9161
92213754|NCT02876835|184327113|SUPERIORITY||LS mean difference|-0.32||||0.8703|TWO_SIDED|95.0|-0.88|0.24|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and model adjusted Week 8 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.24|-0.88|0.8703
92213755|NCT02876835|184327113|SUPERIORITY||LS mean difference|0.13||||0.3167|TWO_SIDED|95.0|-0.41|0.67|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and model adjusted Week 12 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.67|-0.41|0.3167
92213756|NCT02876835|184327113|SUPERIORITY||LS mean difference|0.15||||0.3155|TWO_SIDED|95.0|-0.47|0.78|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and model adjusted Week 28 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.78|-0.47|0.3155
92213757|NCT02876835|184327113|SUPERIORITY||LS mean difference|-0.32||||0.8069|TWO_SIDED|95.0|-1.06|0.41|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and model adjusted Week 52 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.41|-1.06|0.8069
92213758|NCT02876835|184327114|SUPERIORITY||LS mean difference|-0.0234||||0.9724|TWO_SIDED|95.0|-0.0474|0.0005|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.0005|-0.0474|0.9724
92213759|NCT02876835|184327115|SUPERIORITY||LS mean difference|0.7||||0.2687|TWO_SIDED|95.0|-1.5|2.9|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||2.9|-1.5|0.2687
92397906|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.74||||0.006|TWO_SIDED|95.0|1.46|9.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.59|1.46|0.0060
92397907|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.01||||0.1472|TWO_SIDED|95.0|0.78|5.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.14|0.78|0.1472
92151898|NCT03661996|184189007|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|24.8|STANDARD_ERROR_OF_MEAN|1.598|<|0.0001|TWO_SIDED|95.0|21.66|27.94|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||27.94|21.66|<0.0001
92151899|NCT03661996|184189008|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|22.1|STANDARD_ERROR_OF_MEAN|1.898|<|0.0001|TWO_SIDED|95.0|18.37|25.84|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||25.84|18.37|<0.0001
92151900|NCT03661996|184189008|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|16.75|STANDARD_ERROR_OF_MEAN|6.255|<|0.0001|TWO_SIDED|95.0|3.84|29.66|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||29.66|3.84|<0.0001
92151901|NCT03661996|184189008|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|21.52|STANDARD_ERROR_OF_MEAN|1.062|<|0.0001|TWO_SIDED|95.0|19.43|23.6|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||23.60|19.43|<0.0001
92151902|NCT03661996|184189008|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|19.4|STANDARD_ERROR_OF_MEAN|1.365|<|0.0001|TWO_SIDED|95.0|16.72|22.09|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||22.09|16.72|<0.0001
92213760|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.22||||0.978|TWO_SIDED|95.0|-2.4|-0.03|||MMRM||Tired/LE/Weak domain,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.03|-2.40|0.9780
92213761|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.97||||0.943|TWO_SIDED|95.0|-2.18|0.23|||MMRM||Tired/LE/Weak domain,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.23|-2.18|0.9430
92213762|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.6||||0.8042|TWO_SIDED|95.0|-1.98|0.77|||MMRM||Tired/LE/Weak domain,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.77|-1.98|0.8042
92213763|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.57||||0.977|TWO_SIDED|95.0|-3.11|-0.03|||MMRM||Tired/LE/Weak domain,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.03|-3.11|0.9770
92213764|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.2||||0.9905|TWO_SIDED|95.0|-2.2|-0.2|||MMRM||CP/SOB,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.20|-2.20|0.9905
92213765|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.65||||0.8939|TWO_SIDED|95.0|-1.67|0.37|||LS mean difference||CP/SOB,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.37|-1.67|0.8939
92213766|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.52||||0.807|TWO_SIDED|95.0|-1.7|0.66|||MMRM||CP/SOB,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.66|-1.70|0.8070
92151903|NCT03661996|184189009|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|-3.48|STANDARD_ERROR_OF_MEAN|0.191|<|0.0001|TWO_SIDED|95.0|-3.86|-3.1|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The NPRS was collected during the last study visit. Lower scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline pain score as covariates.||-3.10|-3.86|<0.0001
92151904|NCT03661996|184189009|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|-3.52|STANDARD_ERROR_OF_MEAN|0.416|<|0.0001|TWO_SIDED|95.0|-4.38|-2.67|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The NPRS was collected during the last study visit. Lower scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline pain score as covariates.||-2.67|-4.38|<0.0001
92151905|NCT03661996|184189009|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|-4.02|STANDARD_ERROR_OF_MEAN|0.118|<|0.0001|TWO_SIDED|95.0|-4.25|-3.79|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The NPRS was collected during the last study visit. Lower scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline pain score as covariates.||-3.79|-4.25|<0.0001
92151906|NCT03661996|184189009|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|-3.72|STANDARD_ERROR_OF_MEAN|0.122|<|0.0001|TWO_SIDED|95.0|-3.96|-3.48|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The NPRS was collected during the last study visit. Lower scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline pain score as covariates.||-3.48|-3.96|<0.0001
92151907|NCT01161472|184189011|SUPERIORITY_OR_OTHER||Least square (LS) Mean Difference|-0.0285|STANDARD_ERROR_OF_MEAN|0.018||0.1198|TWO_SIDED|95.0|-0.0647|0.0077|||ANCOVA|||Analysis of Covariance (ANCOVA) was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0077|-0.0647|0.1198
92151908|NCT01161472|184189011|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0203|STANDARD_ERROR_OF_MEAN|0.0173||0.2459|TWO_SIDED|95.0|-0.0551|0.0145|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 8 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0145|-0.0551|0.2459
92151909|NCT01161472|184189013|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0037|STANDARD_ERROR_OF_MEAN|0.0115||0.7502|TWO_SIDED|95.0|-0.0268|0.0194|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0194|-0.0268|0.7502
92151910|NCT01161472|184189013|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0085|STANDARD_ERROR_OF_MEAN|0.0119||0.4785|TWO_SIDED|95.0|-0.0325|0.0154|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 8 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0154|-0.0325|0.4785
92151911|NCT01161472|184189015|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0035|STANDARD_ERROR_OF_MEAN|0.0265||0.8944|TWO_SIDED|95.0|-0.0569|0.0498|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0498|-0.0569|0.8944
92151912|NCT01161472|184189015|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0209|STANDARD_ERROR_OF_MEAN|0.0263||0.4308|TWO_SIDED|95.0|-0.032|0.0738|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 8 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0738|-0.0320|0.4308
92151913|NCT01161472|184189017|SUPERIORITY_OR_OTHER||LS Mean Difference|3.6629|STANDARD_ERROR_OF_MEAN|12.4945||0.7707|TWO_SIDED|95.0|-21.4729|28.7987|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||28.7987|-21.4729|0.7707
92213767|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.18||||0.9615|TWO_SIDED|95.0|-2.49|0.13|||MMRM||CP/SOB,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.13|-2.49|0.9615
92213768|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.76||||0.9015|TWO_SIDED|95.0|-1.91|0.39|||MMRM||Cog domain,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.39|-1.91|0.9015
92213769|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.18||||0.9781|TWO_SIDED|95.0|-2.32|-0.03|||MMRM||Cog domain,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.03|-2.32|0.9781
92213770|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.77||||0.8778|TWO_SIDED|95.0|-2.07|0.53|||MMRM||Cog domain,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.53|-2.07|0.8778
92151914|NCT01161472|184189017|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.921|STANDARD_ERROR_OF_MEAN|12.4482||0.1162|TWO_SIDED|95.0|-44.9634|5.1215|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 8 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||5.1215|-44.9634|0.1162
92151915|NCT01161472|184189019|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0068|STANDARD_ERROR_OF_MEAN|4.8707||0.9989|TWO_SIDED|95.0|-9.8297|9.8433|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||9.8433|-9.8297|0.9989
92151916|NCT01161472|184189019|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6251|STANDARD_ERROR_OF_MEAN|5.0346||0.7485|TWO_SIDED|95.0|-11.7926|8.5425|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||8.5425|-11.7926|0.7485
92151917|NCT01161472|184189021|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2684|STANDARD_ERROR_OF_MEAN|0.8243||0.7458|TWO_SIDED|95.0|-1.3788|1.9157|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||1.9157|-1.3788|0.7458
92151918|NCT01161472|184189021|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0661|STANDARD_ERROR_OF_MEAN|0.8277||0.9366|TWO_SIDED|95.0|-1.7202|1.588|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 8 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||1.5880|-1.7202|0.9366
92151919|NCT03980184|184189023|SUPERIORITY|||||||0.08|||||||Fisher Exact|||||||0.08
92151920|NCT03980184|184189024|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<.001
92151921|NCT03980184|184189025|SUPERIORITY|||||||0.703|||||||Fisher Exact|||||||0.703
92151922|NCT03980184|184189027|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
92151923|NCT03980184|184189028|SUPERIORITY|||||||0.647|||||||Fisher Exact|||||||0.647
92151924|NCT03980184|184189029|SUPERIORITY|||||||0.887|||||||Fisher Exact|||||||0.887
92151925|NCT02265224|184189038|EQUIVALENCE|The statistical analysis took into account treatment, period, sequence and subject (sequence) as sources of variation. Acceptance criterion for bioequivalence was that the 94.12% confidence interval for the ratio between test and reference of the geometric means of the parameters under consideration fell within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies and to the Pocock α spending function.|Geometric means ratio|89.81||||0.0136|TWO_SIDED|94.12|82.82|97.4||p value for treatment effect|ANOVA|||||97.40|82.82|0.0136
92151926|NCT02265224|184189039|EQUIVALENCE|The statistical analysis took into account treatment, period, sequence and subject (sequence) as sources of variation. Acceptance criterion for bioequivalence was that the 94.12% confidence interval for the ratio between test and reference of the geometric means of the parameters under consideration fell within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies and to the Pocock α spending function.|Geometric means ratio|90.79||||0.0047|TWO_SIDED|94.12|85.25|96.69|||ANOVA|p value for treatment effect||||96.69|85.25|0.0047
92151927|NCT02265224|184189040|EQUIVALENCE|The statistical analysis took into account treatment, period, sequence and subject (sequence) as sources of variation. Acceptance criterion for bioequivalence was that the 94.12% confidence interval for the ratio between test and reference of the geometric means of the parameters under consideration fell within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies and to the Pocock α spending function.|Geometric means ratio|91.86||||0.0095|TWO_SIDED|94.12|86.45|97.61||p value for treatment effect|ANOVA|||||97.61|86.45|0.0095
92151928|NCT02265224|184189041|EQUIVALENCE|The statistical analysis took into account treatment, period, sequence and subject (sequence) as sources of variation. Acceptance criterion for bioequivalence was that the 94.12% confidence interval for the ratio between test and reference of the geometric means of the parameters under consideration fell within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies and to the Pocock α spending function.||||||0.505|||||||Friedman test|||||||0.5050
92151929|NCT01965158|184189045|SUPERIORITY_OR_OTHER||Difference|13.0|STANDARD_ERROR_OF_MEAN|4.19||0.002|TWO_SIDED|95.0|4.8|21.3||To control the overall type I error rate to be ≤ 0.05 for the primary and secondary efficacy endpoints, a fixed-sequence (hierarchical) testing approach was applied.|Cochran-Mantel-Haenszel|P-value was calculated by Cochran-Mantel-Haenszel test adjusted by the opioid dose strata.||||21.3|4.8|0.0020
92151930|NCT01965158|184189046|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.271|<|0.0001|TWO_SIDED|95.0|0.77|1.83|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.83|0.77|<0.0001
92213771|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.65||||0.9864|TWO_SIDED|95.0|-3.11|-0.19|||MMRM||Cog domain,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.19|-3.11|0.9864
92213772|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.1||||0.9725|TWO_SIDED|95.0|-2.3|0.0|||MMRM||SOB, no activity,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.0|-2.3|0.9725
92213773|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.3||||0.7188|TWO_SIDED|95.0|-1.5|0.8|||MMRM||SOB, no activity,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.8|-1.5|0.7188
92213774|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.9||||0.8903|TWO_SIDED|95.0|-2.3|0.5|||MMRM||SOB, no activity,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.5|-2.3|0.8903
92213775|NCT02876835|184327116|SUPERIORITY||LS mean difference|0.0||||0.5011|TWO_SIDED|95.0|-1.6|1.6|||MMRM||SOB, no activity,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||1.6|-1.6|0.5011
92213776|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.1||||0.9716|TWO_SIDED|95.0|-2.2|0.0|||MMRM||S-SB,Resting, Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.0|-2.2|0.9716
92213777|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.3||||0.6908|TWO_SIDED|95.0|-1.4|0.9|||MMRM||S-SB,Resting, Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.9|-1.4|0.6908
92213778|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.5||||0.7462|TWO_SIDED|95.0|-1.8|0.9|||MMRM||S-SB,Resting, Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.9|-1.8|0.7462
92213779|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.5||||0.977|TWO_SIDED|95.0|-2.9|0.0|||MMRM||S-SB,Resting, Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.0|-2.9|0.9770
92213780|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.4||||0.9471|TWO_SIDED|95.0|-3.2|0.3|||MMRM||Diff std for LT, Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.3|-3.2|0.9471
92213781|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.9||||0.833|TWO_SIDED|95.0|-2.6|0.9|||MMRM||Diff std for LT, Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.9|-2.6|0.8330
92213782|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.2||||0.8918|TWO_SIDED|95.0|-3.2|0.7|||MMRM||Diff std for LT, Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.7|-3.2|0.8918
92213783|NCT02876835|184327116|SUPERIORITY||LS mean difference|-3.2||||0.9986|TWO_SIDED|95.0|-5.4|-1.1|||MMRM||Diff std for LT, Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-1.1|-5.4|0.9986
92213784|NCT02876835|184327116|SUPERIORITY||LS mean difference|0.4||||0.3035|TWO_SIDED|95.0|-1.2|2.1|||MMRM||Diff sleep, Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||2.1|-1.2|0.3035
92213785|NCT02876835|184327116|SUPERIORITY||LS mean difference|-1.4||||0.9563|TWO_SIDED|95.0|-3.1|0.2|||MMRM||Diff sleep, Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.2|-3.1|0.9563
92213786|NCT02876835|184327116|SUPERIORITY||LS mean difference|-0.4||||0.6548|TWO_SIDED|95.0|-2.3|1.5|||MMRM||Diff sleep, Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||1.5|-2.3|0.6548
92213787|NCT02876835|184327116|SUPERIORITY||LS mean difference|-2.4||||0.9832|TWO_SIDED|95.0|-4.5|-0.2|||MMRM||Diff sleep, Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.2|-4.5|0.9832
92151931|NCT01965158|184189047|SUPERIORITY_OR_OTHER||LS Mean Difference|2.11|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|1.6|2.63|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||2.63|1.60|<0.0001
92213788|NCT02876835|184327117|SUPERIORITY||LS mean difference|0.02||||0.6917|TWO_SIDED|95.0|-0.05|0.08|||MMRM||Week 8: Model was fitted from Baseline up to Week52 and model adjusted Week 8 data has been presented, with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.08|-0.05|0.6917
92213789|NCT02876835|184327117|SUPERIORITY||LS mean difference|0.05||||0.951|TWO_SIDED|95.0|-0.01|0.11|||MMRM||Week 12: Model was fitted from Baseline up to Week52 and model adjusted Week 12 data has been presented, with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.11|-0.01|0.9510
92213790|NCT02876835|184327117|SUPERIORITY||LS mean difference|-0.04||||0.1136|TWO_SIDED|95.0|-0.11|0.03|||MMRM||Week 28: Model was fitted from Baseline up to Week52 and model adjusted Week 28 data has been presented, with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.03|-0.11|0.1136
92213791|NCT02876835|184327117|SUPERIORITY||LS mean difference|0.05||||0.8859|TWO_SIDED|95.0|-0.03|0.13|||MMRM||Week 52: Model was fitted from Baseline up to Week52 and model adjusted Week 52 data has been presented, with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.13|-0.03|0.8859
92151932|NCT01965158|184189048|SUPERIORITY_OR_OTHER||LS Mean Difference|1.01|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|0.54|1.48|||ANCOVA|ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.48|0.54|<0.0001
92151933|NCT01965158|184189049|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73|STANDARD_ERROR_OF_MEAN|0.198||0.0003|TWO_SIDED|95.0|0.34|1.12|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.12|0.34|0.0003
92151934|NCT03349268|184189067|SUPERIORITY|||||||0.23|||||||Poisson regression|||||||0.23
92151935|NCT00985543|184189072|NON_INFERIORITY_OR_EQUIVALENCE|Results are considered statistically significant at p\<0.05 or when 90% confidence intervals do not cross the value 1. No adjustments are made for multiple comparisons.|||||<|0.05|TWO_SIDED|90.0|||||maximum likelihood regression|||Dosing regimens lopinavir/ritonavir 200/150mg BID (Phase 2) and lopinavir/ritonavir 200/50mg BID (Phase 3) will be considered equivalent to lopinavir/ritonavir 400/100mg BID (Phase 1) if the 90% confidence interval (CI) for the mean AUC0-12h ratio and maximum concentration (Cmax) ratio lie between 0.80 and 1.25.||||<0.05
92151936|NCT00308737|184189116|NON_INFERIORITY_OR_EQUIVALENCE|Comparison of TI + Usual Care to Usual Care only|Mean Difference (Final Values)|0.037|||||TWO_SIDED|95.0|0.014|0.06|||Mixed Models Analysis|Repeated measures||Mixed model repeated measures with fixed effects diabetes type, visit, pooled site and treatment and baseline FEV1 as a covariate||0.060|0.014|
92151937|NCT00308737|184189117|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis tested was that the FEV1 change from Baseline for the TI group is no greater than 50 mL/year above the change in the usual care treatment group. Assuming SD of 100 mL/y, 80% power, and 5% (1-tailed) significance level, it was determined that 50 subjects were required for each of the diabetes treatment groups. Final sample size was selected for the incidence of a \>= 15% decrease in FEV1 end point.|Mean Difference (Final Values)|0.037|||||TWO_SIDED|95.0|0.016|0.057|||ANCOVA|||ANCOVA model with treatment site, diabetes type, and baseline FEV1||0.057|0.016|
92151938|NCT00308737|184189118|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.034|||||TWO_SIDED|95.0|0.008|0.061|||Mixed Models Analysis|Repeated measures||Mixed model repeated measures with fixed effects diabetes type, visit, pooled site and treatment and baseline FVC as a covariate||0.061|0.008|
92151939|NCT00308737|184189119|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.005|||||TWO_SIDED|95.0|-0.042|0.031|||Mixed Models Analysis|Repeated measures||Mixed model repeated measures with fixed effects diabetes type, visit, pooled site, and treatment and baseline TLC as a covariate||0.031|-0.042|
92151940|NCT00308737|184189120|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.269|||||TWO_SIDED|95.0|-0.037|0.574|||Mixed Models Analysis|Repeated measures||Mixed model repeated measures with fixed effects diabetes type, visit, pooled site, and treatment and baseline TLC as a covariate||0.574|-0.037|
92151941|NCT00308737|184189121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6475|||||TWO_SIDED|95.0|0.3432|1.2219|||Regression, Logistic|||Logistic regression excluding non-diabetics||1.2219|0.3432|
92151942|NCT00308737|184189122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7504|||||TWO_SIDED|95.0|0.251|2.2431|||Regression, Logistic|||Logistic regression excluding non-diabetics||2.2431|0.2510|
92151943|NCT00308737|184189123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8953|||||TWO_SIDED|95.0|0.6703|1.1958|||Regression, Logistic|||Logistic regression excluding non-diabetics||1.1958|0.6703|
92151944|NCT00308737|184189124|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.8509|||||TWO_SIDED|95.0|0.6722|1.077|||Regression, Logistic|||Logistic regression excluding non-diabetics||1.0770|0.6722|
92151945|NCT00308737|184189126|SUPERIORITY_OR_OTHER|||||||0.112||95.0|||||t-test, 2 sided|||Two sample t-test||||0.112
92151946|NCT00308737|184189127|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis tested was that the difference in incidence of a decrease of ≥ 15% in FEV1 between the treatment groups not be greater than 5% for TI when compared with the usual care treatment group. Assuming an incidence rate of 15% for FEV1 and a noninferiority criterion of a 5% difference in incidence between the treatment groups, approximately 625 subjects per group were required for 80% power and an alpha of 5% (1 tailed).|Odds Ratio (OR)|-2.4767|||||TWO_SIDED|95.0|-4.5578|-0.3956|||Regression, Logistic|||Logistic regression excluding non-diabetics||-0.3956|-4.5578|
92151947|NCT01225822|184189129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.375|||<|0.0001||95.0|0.244|0.577||Dose relationship tested using a hierarchical testing procedure to preserve type I error rate at 5%. 225 mg bid was compared to 50 mg bid. If a difference significant at 5% level was found, then 150 mg bid was compared to 50 mg bid|Regression, Logistic|||BIBR 1048 225 mg bid vs. BIBR 1048 50 mg bid comparison. The primary objective of the trial was to establish a dose relationship among BIBR 1048 doses studied in the prevention of VTE. The statistical model was a logistic regression which included treatment and centre..||0.577|0.244|<0.0001
92151948|NCT01225822|184189129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.518||||0.0015||95.0|0.344|0.778||Dose relationship tested using a hierarchical testing procedure to preserve type I error rate at 5%. 225 mg bid was compared to 50 mg bid. If a difference significant at 5% level was found, then 150 mg bid was compared to 50 mg bid|Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 50 mg bid comparison. The primary objective of the trial was to establish a dose relationship among BIBR 1048 doses studied in the prevention of VTE. The statistical model was a logistic regression which included treatment and centre..||0.778|0.344|0.0015
92151949|NCT01225822|184189129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.7856||95.0|0.599|1.473|||Regression, Logistic|||BIBR 1048 300 mg qd vs. BIBR 1048 150 mg bid comparison. Secondary analysis to compare once daily dosing vs. twice daily dosing. . The statistical model was a logistic regression which included treatment and centre.||1.473|0.599|0.7856
92151950|NCT01225822|184189129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.469||||0.0007||95.0|0.302|0.727|||Regression, Logistic|||BIBR 1048 225 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||0.727|0.302|0.0007
92151951|NCT01225822|184189129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.647||||0.0401||95.0|0.427|0.98|||Regression, Logistic|||BIBR 1048 150 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||0.98|0.427|0.0401
92151952|NCT01225822|184189129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.249||||0.2446||95.0|0.859|1.817|||Regression, Logistic|||BIBR 1048 50 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||1.817|0.859|0.2446
92213792|NCT02876835|184327118|SUPERIORITY||LS mean difference|-0.2||||0.7716|TWO_SIDED|95.0|-0.74|0.33|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, current ESA use at randomization, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.33|-0.74|0.7716
92213793|NCT00475033|184327119|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|-2.4|||||TWO_SIDED|95.0|-5.3|-0.1|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|Meningococcal C: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||-0.1|-5.3|
92213794|NCT00475033|184327120|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.19|||||TWO_SIDED|95.0|0.96|1.48|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Ratio of GMs (13vPnC, 7vPnC)||1.48|0.96|
92213795|NCT00475033|184327121|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.6|1.7|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|PT: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||1.7|-1.6|
92213796|NCT00475033|184327121|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.3|1.3|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|FHA: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||1.3|-1.3|
92213797|NCT00475033|184327121|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|1.1|||||TWO_SIDED|95.0|-1.7|4.2|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|PRN: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||4.2|-1.7|
92213798|NCT00475033|184327121|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|-2.1|||||TWO_SIDED|95.0|-5.5|1.2|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|FIM: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage||1.2|-5.5|
92213799|NCT00475033|184327122|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.4|1.4|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|Meningococcal C: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||1.4|-1.4|
92213800|NCT00475033|184327123|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.27|||||TWO_SIDED|95.0|1.08|1.5|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Meningococcal C: Ratio of geometric means (13vPnC, 7vPnC)||1.50|1.08|
92213801|NCT00475033|184327128|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.14|||||TWO_SIDED|95.0|1.02|1.27|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|PT: Ratio of geometric means (13vPnC, 7vPnC)||1.27|1.02|
92213802|NCT00475033|184327128|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.12|||||TWO_SIDED|95.0|1.01|1.25|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|FHA: Ratio of geometric means (13vPnC, 7vPnC)||1.25|1.01|
92213803|NCT00475033|184327128|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.05|||||TWO_SIDED|95.0|0.89|1.24|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|PRN: Ratio of geometric means (13vPnC, 7vPnC)||1.24|0.89|
92213804|NCT00475033|184327128|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.89|||||TWO_SIDED|95.0|0.78|1.02|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|FIM: Ratio of geometric means (13vPnC, 7vPnC)||1.02|0.78|
92213805|NCT00475033|184327129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|-1.8|||||TWO_SIDED|95.0|-4.4|0.1|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||0.1|-4.4|
92213806|NCT00475033|184327130|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.91|||||TWO_SIDED|95.0|0.75|1.12|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|PRP in Hib: Ratio of geometric means (13vPnC, 7vPnC)||1.12|0.75|
92213807|NCT00475033|184327131|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|-3.0|||||TWO_SIDED|95.0|-9.4|3.4|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|PRP: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||3.4|-9.4|
92213808|NCT03645954|184327140|SUPERIORITY||||||<|0.01||||||The threshold for statistical significance was p = 0.05.|Chi-squared|||||||<0.01
92213809|NCT03645954|184327141|SUPERIORITY||||||>|0.05||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||>0.05
92213810|NCT03645954|184327142|OTHER||||||>|0.05||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||>0.05
92213811|NCT03645954|184327143|OTHER||||||>|0.05||||||The threshold for statistical significance was p = 0.05.|Chi-squared|||||||>0.05
92213812|NCT03645954|184327144|OTHER||||||>|0.05||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||>0.05
92213813|NCT03645954|184327145|OTHER||||||>|0.05||||||The threshold for statistical significance was p = 0.05.|Chi-squared|||||||>0.05
92213814|NCT01078220|184327153|SUPERIORITY_OR_OTHER||Relative Risk|6.0|||||TWO_SIDED|95.0|3.91|9.21|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|||9.21|3.91|
92213815|NCT01078220|184327153|SUPERIORITY_OR_OTHER||Relative Risk|2.88|||||TWO_SIDED|95.0|1.18|7.08|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|||7.08|1.18|
92151953|NCT01225822|184189130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.375|||<|0.0001||95.0|0.244|0.577||Dose relationship tested using a hierarchical testing procedure to preserve type I error rate at 5%. 225 mg bid was compared to 50 mg bid. If a difference significant at 5% level was found, then 150 mg bid was compared to 50 mg bid|Regression, Logistic|||BIBR 1048 225 mg bid vs. BIBR 1048 50 mg bid comparison. The primary objective of the trial was to establish a dose relationship among BIBR 1048 doses studied in the prevention of VTE. The statistical model was a logistic regression which included treatment and centre..||0.577|0.244|<0.0001
92151954|NCT01225822|184189130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.518||||0.0015||95.0|0.344|0.778||Dose relationship tested using a hierarchical testing procedure to preserve type I error rate at 5%. 225 mg bid was compared to 50 mg bid. If a difference significant at 5% level was found, then 150 mg bid was compared to 50 mg bid|Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 50 mg bid comparison. The primary objective of the trial was to establish a dose relationship among BIBR 1048 doses studied in the prevention of VTE. The statistical model was a logistic regression which included treatment and centre..||0.778|0.344|0.0015
92151955|NCT01225822|184189130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.7856||95.0|0.599|1.473|||Regression, Logistic|||BIBR 1048 300 mg qd vs. BIBR 1048 150 mg bid comparison. Secondary analysis to compare once daily dosing vs. twice daily dosing. . The statistical model was a logistic regression which included treatment and centre.||1.473|0.599|0.7856
92151956|NCT01225822|184189130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.469||||0.0007||95.0|0.302|0.727|||Regression, Logistic|||BIBR 1048 225 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||0.727|0.302|0.0007
92151957|NCT01225822|184189130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.647||||0.0401||95.0|0.427|0.98|||Regression, Logistic|||BIBR 1048 150 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||0.98|0.427|0.0401
92151958|NCT01225822|184189130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.249||||0.2446||95.0|0.859|1.817|||Regression, Logistic|||BIBR 1048 50 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||1.817|0.859|0.2446
92151959|NCT01225822|184189131|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.334||||0.0373||95.0|0.199|0.938|||Regression, Logistic|||BIBR 1048 225 mg bid vs. BIBR 1048 50 mg bid, same methodology as primary endpoint.||0.938|0.199|0.0373
92213816|NCT01078220|184327157|SUPERIORITY_OR_OTHER||Relative Risk|1.64|||||TWO_SIDED|95.0|1.17|2.3|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|Days 1-14 after vaccination.||2.3|1.17|
92213817|NCT01078220|184327157|SUPERIORITY_OR_OTHER||Relative Risk|1.05|||||TWO_SIDED|95.0|0.82|1.35|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|Days 1-60 after vaccination.||1.35|0.82|
92213818|NCT01078220|184327157|SUPERIORITY_OR_OTHER||Relative Risk|1.02|||||TWO_SIDED|95.0|0.53|1.98|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|Days 1-14 after vaccination.||1.98|0.53|
92151960|NCT01225822|184189131|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.837||||0.6659||95.0|0.374|1.875|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 50 mg bid, same methodology as primary endpoint.||1.875|0.374|0.6659
92213819|NCT01078220|184327157|SUPERIORITY_OR_OTHER||Relative Risk|0.78|||||TWO_SIDED|95.0|0.5|1.21|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|Days 1-60 after vaccination.||1.21|0.5|
92213820|NCT01920594|184327171|SUPERIORITY||Mean Difference (Final Values)|2228.14||||0.082|TWO_SIDED|95.0|-292.84|4749.11|||ANCOVA||The point estimate was calculated as least square (LS) mean difference (final values) of S-100B Protein \[test\] and S-100B Protein \[reference\].|||4749.11|-292.84|0.0820
92151961|NCT01225822|184189131|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.505||||0.1882||95.0|0.183|1.397|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 300 mg qd, same methodology as primary endpoint.||1.397|0.183|0.1882
92151962|NCT01225822|184189131|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.805||||0.5566||95.0|0.39|1.66|||Regression, Logistic|||BIBR 1048 50 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||1.66|0.39|0.5566
92151963|NCT01225822|184189131|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.674||||0.3253||95.0|0.307|1.48|||Regression, Logistic|||BIBR 1048 150 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||1.48|0.307|0.3253
92151964|NCT01225822|184189131|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.269||||0.0114||95.0|0.097|0.744|||Regression, Logistic|||BIBR 1048 225 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||0.744|0.097|0.0114
92151965|NCT01225822|184189132|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.332||||0.036||95.0|0.118|0.931|||Regression, Logistic|||BIBR 1048 225 mg bid vs. BIBR 1048 50 mg bid, same methodology as primary endpoint.||0.931|0.118|0.036
92151966|NCT01225822|184189132|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.687||||0.3884||95.0|0.293|1.611|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 50 mg bid, same methodology as primary endpoint.||1.611|0.293|0.3884
92151967|NCT01225822|184189132|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.616||||0.3674||95.0|0.215|1.766|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 300 mg qd, same methodology as primary endpoint.||1.766|0.215|0.3674
92151968|NCT01225822|184189132|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.809||||0.5663||95.0|0.393|1.668|||Regression, Logistic|||BIBR 1048 50 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||1.668|0.393|0.5663
92151969|NCT01225822|184189132|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.556||||0.1678||95.0|0.242|1.28|||Regression, Logistic|||BIBR 1048 150 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||1.28|0.242|0.1678
92151970|NCT01225822|184189132|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.269||||0.0113||95.0|0.097|0.743|||Regression, Logistic|||BIBR 1048 225 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||0.743|0.097|0.0113
92151971|NCT01225822|184189133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|15.818||||0.0077||95.0|2.077|120.474|||Regression, Logistic|||BIBR 1048 225 mg bid vs. BIBR 1048 50 mg bid, same methodology as for primary endpoint||120.474|2.077|0.0077
92151972|NCT01225822|184189133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.907||||0.0062||95.0|2.229|128.238|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 50 mg bid, same methodology as for primary endpoint||128.238|2.229|0.0062
92397908|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.05||||0.1284|TWO_SIDED|95.0|0.81|5.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.15|0.81|0.1284
92151973|NCT01225822|184189133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.136||||0.7192||95.0|0.567|2.276|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 300 mg qd, same methodology as for primary endpoint||2.276|0.567|0.7192
92151974|NCT01225822|184189133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.121||||0.0472||95.0|0.015|0.974|||Regression, Logistic|||BIBR 1048 50 mg bid vs. Enoxaparin 40 mg qd, same methodology as for primary endpoint||0.974|0.015|0.0472
92151975|NCT01225822|184189133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.049||||0.1043||95.0|0.862|4.868|||Regression, Logistic|||BIBR 1048 150 mg bid vs. Enoxaparin 40 mg qd, same methodology as for primary endpoint||4.868|0.862|0.1043
92151976|NCT01225822|184189133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.917||||0.1448||95.0|0.799|4.597|||Regression, Logistic|||BIBR 1048 225 mg bid vs. Enoxaparin 40 mg qd, same methodology as for primary endpoint||4.597|0.799|0.1448
92213821|NCT01920594|184327172|SUPERIORITY||Mean Difference (Final Values)|777.95||||0.1997|TWO_SIDED|95.0|-424.04|1979.94|||ANCOVA||The point estimate was calculated as LS mean difference (final values) of GFAP \[test\] and GFAP \[reference\].|||1979.94|-424.04|0.1997
92213822|NCT01920594|184327178|SUPERIORITY||Estimate of comparison (Ratio)|1.77||||0.153|TWO_SIDED|95.0|0.8|3.9|||ANOVA||The point estimate was calculated as Geometric mean ratio of S-100B\[test\] and S-100B\[reference\].|||3.90|0.80|0.1530
92213823|NCT01920594|184327179|SUPERIORITY||Estimate of comparison (Ratio)|3.13||||0.1377|TWO_SIDED|95.0|0.69|14.26|||ANOVA||The point estimate was calculated as Geometric mean ratio of GFAP\[test\] and GFAP\[reference\].|||14.26|0.69|0.1377
92213824|NCT01920594|184327180|SUPERIORITY||Mean Difference (Final Values)|34.56|||<|0.0001|TWO_SIDED|95.0|21.95|47.17|||ANCOVA||The point estimate was calculated as LS mean difference final values of Erythropoietin\[test\] and Erythropoietin\[reference\].|||47.17|21.95|<.0001
92213825|NCT01920594|184327181|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.2404|TWO_SIDED|95.0|-0.37|1.45|||ANCOVA||The point estimate was calculated as LS mean difference final values of Lactate Dehydrogenase\[test\] and Lactate Dehydrogenase\[reference\].|||1.45|-0.37|0.2404
92213826|NCT01920594|184327182|SUPERIORITY||Mean Difference (Final Values)|925.88||||0.0526|TWO_SIDED|95.0|-10.73|1862.49|||ANCOVA||The point estimate was calculated as LS mean difference final values of Tau Protein\[test\] and Tau Protein\[reference\].|||1862.49|-10.73|0.0526
92213827|NCT01920594|184327183|SUPERIORITY||Mean Difference (Final Values)|4.11||||0.0893|TWO_SIDED|95.0|-0.65|8.87|||ANCOVA||The point estimate was calculated as LS mean difference final values of Neuron Specific Enolase\[test\] and Neuron Specific Enolase\[reference\].|||8.87|-0.65|0.0893
92213828|NCT01920594|184327188|SUPERIORITY||Ratio of geometric mean|1.84||||0.5012|TWO_SIDED|95.0|0.3|11.32|||ANOVA|||For Troponin I||11.32|0.30|0.5012
92213829|NCT01920594|184327188|SUPERIORITY||Ratio of geometric mean|0.75||||0.8053|TWO_SIDED|95.0|0.07|8.57|||ANOVA|||For Troponin T||8.57|0.07|0.8053
92213830|NCT04498169|184327238|SUPERIORITY|With a sample size of up-to 20 subjects within a treatment group, the study had 80% power to demonstrate a statistically significant mean change from baseline, assuming the true effect size (mean change / SD) was 0.577 or larger (e.g. assuming the true mean change from baseline was 34.6 μm and the SD was 60 μm), a one sample t-test and a two-sided alpha = 0.10.||||||0.0021|||||||One-sample t-test (within group)|||The primary analysis used the mITT population with available data per subject at eye level (ie., ODO). Robustness analyses was also performed based on the MI methodology under different assumptions of missingness and intercurrent events (where missing data or withdrawal due to lack of efficacy or AEs were imputed using FCS regression method and missing data for all other reasons were imputed using worst within subject observation prior to the intercurrent event).||||0.0021
92213831|NCT04682977|184327262|SUPERIORITY||Mean difference (adjusted)|1.58|STANDARD_ERROR_OF_MEAN|0.76||0.04|TWO_SIDED|||||Sidak correction for multiple comparisons.|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF-Control|||||0.04
92213832|NCT04682977|184327263|SUPERIORITY||Mean difference (adjusted)|1.98|STANDARD_ERROR_OF_MEAN|1.75||0.26|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF-Control|||||0.26
92213833|NCT04682977|184327264|SUPERIORITY||Mean difference (adjusted)|-1.06|STANDARD_ERROR_OF_MEAN|1.6||0.51|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF-Control|||||0.51
92213834|NCT04682977|184327265|SUPERIORITY||Mean difference (adjusted)|2.17|STANDARD_ERROR_OF_MEAN|1.78||0.23|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.23
92213835|NCT04682977|184327266|SUPERIORITY||Mean difference (adjusted)|4.65|STANDARD_ERROR_OF_MEAN|5.97||0.44|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.44
92213836|NCT04682977|184327267|SUPERIORITY||Mean difference (adjusted)|4.37|STANDARD_ERROR_OF_MEAN|3.47||0.22|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.22
92213837|NCT04682977|184327268|SUPERIORITY||Mean difference (adjusted)|0.91|STANDARD_ERROR_OF_MEAN|1.8||0.91|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.91
92213838|NCT04682977|184327269|SUPERIORITY||Mean difference (adjusted)|0.18|STANDARD_ERROR_OF_MEAN|0.65||0.78|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.78
92213839|NCT04682977|184327270|SUPERIORITY||Mean difference (adjusted)|-0.12|STANDARD_ERROR_OF_MEAN|0.53||0.83|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.83
92397909|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.55||||0.0117|TWO_SIDED|95.0|1.32|9.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||9.50|1.32|0.0117
92151977|NCT01225822|184189135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.871||||0.0063|TWO_SIDED|95.0|2.221|128.142|||Regression, Logistic|||||128.142|2.221|0.0063
92151978|NCT01225822|184189135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|22.338||||0.0025|TWO_SIDED|95.0|2.983|167.268|||Regression, Logistic|||||167.268|2.983|0.0025
92151979|NCT01225822|184189135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.919||||0.7973|TWO_SIDED|95.0|0.483|1.75|||Regression, Logistic|||||1.750|0.483|0.7973
92151980|NCT01225822|184189135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.068||||0.0097|TWO_SIDED|95.0|0.009|0.522|||Regression, Logistic|||||0.522|0.009|0.0097
92151981|NCT01225822|184189135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.522||||0.2375|TWO_SIDED|95.0|0.758|3.058|||Regression, Logistic|||||3.058|0.758|0.2375
92151982|NCT01225822|184189135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.7104|TWO_SIDED|95.0|0.55|2.403|||Regression, Logistic|||||2.403|0.550|0.7104
92151983|NCT01535274|184189146|SUPERIORITY||||||<|0.001|||||||ANOVA|||P-values represent comparison of successive set points within anesthetic type (i.e.: Set Point 1 compared to Set Point 2, Set Point 2 compared to Set Point 3, etc.). This P-value was determined for each of set points 1, 2, 3, 4, and 5.||||<0.001
92151984|NCT01905046|184189210|SUPERIORITY||Odds Ratio (OR)|0.97||||0.951|TWO_SIDED|95.0|0.36|2.62|||Chi-squared|||||2.62|0.36|0.951
92151985|NCT00405639|184189270|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92151986|NCT00405639|184189271|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92151987|NCT00405639|184189272|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||t-test, 2 sided|||||||0.07
92151988|NCT00405639|184189273|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92151989|NCT00612534|184189279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.26|STANDARD_ERROR_OF_MEAN|7.83||0.194||95.0|-5.32|25.83|||ANCOVA|||||25.83|-5.32|0.194
92151990|NCT00612534|184189279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.67|STANDARD_ERROR_OF_MEAN|7.77||0.268|TWO_SIDED|95.0|-6.78|24.11|||ANCOVA|||||24.11|-6.78|0.268
92151991|NCT00612534|184189279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.05|STANDARD_ERROR_OF_MEAN|8.3||0.018|TWO_SIDED|95.0|3.54|36.56|||ANCOVA|||||36.56|3.54|0.018
92151992|NCT01508013|184189290|SUPERIORITY_OR_OTHER|||||||0.633|||||||Mixed Models Analysis|||||||.633
92151993|NCT01508013|184189291|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||.001
92151994|NCT01508013|184189292|SUPERIORITY_OR_OTHER|||||||0.018|||||||Mixed Models Analysis|||||||.018
92151995|NCT01279343|184189330|SUPERIORITY||Mean Difference (Final Values)|-3.1||||0.03|TWO_SIDED|95.0|-5.9|-0.3|||t-test, 2 sided|||||-0.3|-5.9|0.03
92151996|NCT01279343|184189331|SUPERIORITY||Risk Ratio (RR)|0.99||||0.96|TWO_SIDED|95.0|0.8|1.23|||Chi-squared|||Comparison of vaginal delivery between groups.||1.23|.80|0.96
92151997|NCT01279343|184189331|SUPERIORITY||Risk Ratio (RR)|1.03||||0.9|TWO_SIDED|95.0|0.57|1.9|||Chi-squared|||Cesarean deliveries were compared between the groups.||1.90|0.57|0.90
92151998|NCT03287414|184189340|SUPERIORITY||Least Squares Mean Difference|0.063|STANDARD_ERROR_OF_MEAN|0.1379||0.3248|TWO_SIDED|80.0|-0.115|0.241||1-sided p-values were obtained using MMRM Model.|MMRM|||||0.241|-0.115|0.3248
92151999|NCT03287414|184189341|OTHER|||||||0.868|||||||Log Rank|||||||0.868
92152000|NCT03287414|184189343|OTHER||Hazard Ratio (HR)|2.6||||0.921|TWO_SIDED|80.0|1.1|6.3|||Log Rank|||PFS1||6.3|1.1|0.921
92152001|NCT03287414|184189343|OTHER||Hazard Ratio (HR)|2.2||||0.863|TWO_SIDED|80.0|0.9|5.6|||Log Rank|||PFS2||5.6|0.9|0.863
92152002|NCT03287414|184189344|OTHER||Hazard Ratio (HR)|2.2||||0.863|TWO_SIDED|80.0|0.9|5.6|||Log Rank|||FVC||5.6|0.9|0.863
92152003|NCT03287414|184189344|OTHER||Hazard Ratio (HR)|0.9||||0.457|TWO_SIDED|80.0|0.4|2.0|||Log Rank|||DLCO||2.0|0.4|0.457
92152004|NCT03287414|184189344|OTHER||Hazard Ratio (HR)|0.3||||0.019|TWO_SIDED|80.0|0.1|0.6|||Log Rank|||6MWD||0.6|0.1|0.019
92152005|NCT03287414|184189345|OTHER||Hazard Ratio (HR)|1.1||||0.611|TWO_SIDED|80.0|0.6|2.0|||Log Rank|||Composite Endpoint 1||2.0|0.6|0.611
92152006|NCT03287414|184189345|OTHER||Hazard Ratio (HR)|1.1||||0.549|TWO_SIDED|80.0|0.6|1.9|||Log Rank|||Composite Endpoint 2||1.9|0.6|0.549
92152007|NCT03287414|184189346|SUPERIORITY||Least Squares of the Mean|-0.92|STANDARD_ERROR_OF_MEAN|1.3109||0.7576|TWO_SIDED|80.0|-2.615|0.774||1-sided p-values were obtained using MMRM Model.|MMRM|||||0.774|-2.615|0.7576
92152008|NCT03287414|184189347|SUPERIORITY||Least Squares of the Mean|32.222|STANDARD_ERROR_OF_MEAN|61.8632||0.3018|TWO_SIDED|80.0|-47.572|112.015||1-sided p-values were obtained using MMRM Model.|MMRM|||||112.015|-47.572|0.3018
92152009|NCT03287414|184189348|SUPERIORITY||Least Squares of the Mean|29.166|STANDARD_ERROR_OF_MEAN|60.0143||0.314|TWO_SIDED|80.0|-48.22|106.553||1-sided p-values were obtained using MMRM Model.|MMRM|||||106.553|-48.220|0.3140
92152010|NCT03287414|184189349|SUPERIORITY||Least Squares of the mean|1.77|STANDARD_ERROR_OF_MEAN|1.5422||0.1269|TWO_SIDED|80.0|-0.219|3.759||1-sided p-values were obtained using MMRM Model.|MMRM|||||3.759|-0.219|0.1269
92152011|NCT00663117|184189452|SUPERIORITY_OR_OTHER|||||||0.009||||||The percentage of subjects achieving a 70-point drop in CDAI score in naltrexone treated subjects was the percentage acheiving the same drop in the placebo controls|Fisher Exact|||The proportion of those achieving a response with a 70-point decline in CDAI score was compared between naltrexone and placebo treated subjects using the Fisher's exact test. Analysis was performed with the intent-to-treat criteria. Clinical significance was accepted if the difference met 95% confidence (p\<0.05).||||0.009
92152012|NCT00663117|184189454|SUPERIORITY_OR_OTHER|||||||0.008|ONE_SIDED|95.0|||||Fisher Exact|||Percentage of patients having a 5-point decline in the endoscopic inflammation score||||0.008
92152013|NCT00663117|184189455|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||t-test, 1 sided|||||||0.048
92152014|NCT00437125|184189492|SUPERIORITY_OR_OTHER||Percentage|8.6|||||ONE_SIDED|95.0||13.3||||||||13.3||
92152015|NCT00437125|184189493|SUPERIORITY_OR_OTHER|||||||0.5553||95.0||||p-value is for total UDPRS score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the total UDPRS score from baseline to 12-week endpoint.||||0.5553
92152016|NCT00437125|184189494|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for psychic subscale. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the total psychic subscale score from baseline to 12-week endpoint.||||<0.0001
92152017|NCT00437125|184189494|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for neurological subscale. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the total neurological subscale score from baseline to 12-week endpoint.||||<0.0001
92152018|NCT00437125|184189494|SUPERIORITY_OR_OTHER|||||||0.0014||95.0||||p-value is for autonomic subscale. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the total autonomic subscale score from baseline to 12-week endpoint.||||0.0014
92152019|NCT00437125|184189494|SUPERIORITY_OR_OTHER|||||||0.5586||95.0||||p-value is for other subscale. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the total other subscale score from baseline to 12-week endpoint.||||0.5586
92152020|NCT00437125|184189494|SUPERIORITY_OR_OTHER|||||||0.0848||95.0||||p-value is for global assessment by paticipant. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the global assessment by paticipant subscale score from baseline to 12-week endpoint.||||0.0848
92152021|NCT00437125|184189494|SUPERIORITY_OR_OTHER|||||||0.0263||95.0||||p-value is for global assessment by doctor. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the global assessment by doctor subscale score from baseline to 12-week endpoint.||||0.0263
92152022|NCT00437125|184189495|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for 4 weeks change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the Pittsburgh Sleep Quality Index from baseline to 4-week endpoint.||||<0.0001
92213840|NCT04682977|184327271|SUPERIORITY|||||||0.67||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.67
92213841|NCT04682977|184327272|SUPERIORITY|||||||0.77||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.77
92213842|NCT04682977|184327273|SUPERIORITY|||||||0.79||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.79
92213843|NCT04682977|184327274|SUPERIORITY|||||||0.44||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.44
92213844|NCT04682977|184327275|SUPERIORITY|||||||0.65||||||The threshold for statistical significance was p = 0.05|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r||||||0.65
92213845|NCT04682977|184327276|SUPERIORITY|||||||0.66||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.66
92213846|NCT04682977|184327277|SUPERIORITY|||||||0.81||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.81
92213847|NCT04682977|184327278|SUPERIORITY|||||||0.89||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.89
92213848|NCT00221195|184327292|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||The Wilcoxin signed-rank test was used to compare the frequency of bleeds between the prophylaxis and on-demand periods.||||<0.001
92213849|NCT05640648|184327380|OTHER||Incidence rate ratio|1.84|||<|0.001|TWO_SIDED|95.0|1.62|2.09|||Mixed Models Analysis|Mixed-effects Poisson model adjusting for time and group level (paired health centres, based on randomization) cluster||||2.09|1.62|<0.001
92213850|NCT05640648|184327381|OTHER||Incidence Rate Ratio|7.46||||0.002|TWO_SIDED|95.0|2.06|26.95|||Mixed Models Analysis|Mixed-effects Poisson model adjusting for time and group level (paired health centres, based on randomization) cluster||||26.95|2.06|0.002
92213851|NCT05640648|184327382|OTHER||Incidence Rate Ratio|1.25||||0.5|TWO_SIDED|95.0|0.65|2.42|||Mixed Models Analysis|Mixed effects poisson model adjusting for time and group (paired healthcentres, based on randomization)||||2.42|0.65|0.50
92213852|NCT05640648|184327385|OTHER||Incidence Rate Ratio|4.75|||<|0.001|TWO_SIDED|95.0|2.07|10.91|||Mixed Models Analysis|Mixed-effects Poisson model adjusting for time and group level (paired health centres, based on randomization) cluster||||10.91|2.07|<0.001
92213853|NCT05090995|184327388|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92213854|NCT05090995|184327389|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92213855|NCT05090995|184327390|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92213856|NCT05090995|184327391|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92213857|NCT05090995|184327392|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||For baseline consequences||||<.0001
92213858|NCT05090995|184327392|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||For effects with time||||<.0001
92213859|NCT05090995|184327393|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
92213860|NCT05090995|184327394|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||Effect of baseline sleep scores||||<.0001
92213861|NCT05090995|184327394|OTHER|||||||0.04|||||||Mixed Models Analysis|||For effects with time||||0.04
92213862|NCT05090995|184327395|OTHER|||||||0.02|||||||Mixed Models Analysis|||For interaction between treatment group and time||||0.02
92213863|NCT05090995|184327395|OTHER|||||||0.02|||||||Mixed Models Analysis|||Main effects of sex||||0.02
92213864|NCT05090995|184327395|OTHER|||||||0.0007|||||||Mixed Models Analysis|||Main effects of type of day of the week (weekday vs. weekend)||||0.0007
92213865|NCT05090995|184327395|OTHER|||||||0.02|||||||Mixed Models Analysis|||||||0.02
92213866|NCT05090995|184327396|OTHER|||||||0.0001|||||||Mixed Models Analysis|||Main effect of day of the week.||||0.0001
92152023|NCT00437125|184189495|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for 8 weeks change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the Pittsburgh Sleep Quality Index from baseline to 8-week endpoint.||||<0.0001
92152024|NCT00437125|184189495|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for 12 weeks change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the Pittsburgh Sleep Quality Index from baseline to 12-week endpoint.||||<0.0001
92152025|NCT00437125|184189496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for the HAMD-17 total score. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the HAMD-17 total score from baseline to 12-week endpoint.||||<0.0001
92152026|NCT00437125|184189497|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for Clinical Global Impression-Severity scale - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the Clinical Global Impression-Severity scale score from baseline to end of week 12 of treatment.||||<0.0001
92152027|NCT00437125|184189499|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for BDI score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no difference between baseline and post-baseline in BDI scores||||<0.0001
92152028|NCT00437125|184189500|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||p-value is for VAS overall pain score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS overall pain scores.||||0.0027
92152029|NCT00437125|184189500|SUPERIORITY_OR_OTHER|||||||0.0002||95.0||||p-value is for VAS Headaches score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS headaches scores.||||0.0002
92213867|NCT05090995|184327397|OTHER|||||||0.04|||||||Mixed Models Analysis|||For interaction between treatment condition and time||||0.04
92213868|NCT05090995|184327397|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||Main effects of sex||||<.0001
92213869|NCT05090995|184327397|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||Main effects of type of day of the week (weekday vs. weekend)||||<0.0001
92213870|NCT05090995|184327397|OTHER|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92213871|NCT01005459|184327398|OTHER|unpaired t-test|||||>|0.05|||||||unpaired t-test compared between groups|||||||>0.05
92213872|NCT01005459|184327398|OTHER|unpaired t-test compared between groups|||||>|0.05|||||||unpaired t-test compared between groups|||||||>0.05
92152030|NCT00437125|184189500|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for VAS back ache score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS back ache scores.||||<0.0001
92152031|NCT00437125|184189500|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for VAS shoulder pain score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS shoulder pain score.||||<0.0001
92152032|NCT00437125|184189500|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for VAS interference score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS interference score.||||<0.0001
92152033|NCT00437125|184189500|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for VAS pain while awake score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS pain while awake score.||||<0.0001
92152034|NCT00437125|184189501|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for PDQ-39 total score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in PDQ-39 total score.||||<0.0001
92152035|NCT02248961|184189508|OTHER|It was calculated that at least 140 patients (70 patients per group) must be enrolled into the study to achieve 80% power. With regard to 20% of patients withdrawn prematurely or data not suitable for analysis, it was necessary to include at least 176 patients (88 per group) into the study.|Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|1.0|=|0.39|ONE_SIDED|95.0||1.47|||Mixed Models Analysis|||"The null hypothesis (H0) is that there is a decrease in SBP on the background treatment with Kanarb (fimasartan), that is at least 5.5 mmHg lower compared to Cozaar® (losartan).~Test of the hypotheses was performed using mixed linear models, where the site effect was considered a random effect, and the treatment group effect was considered a fixed effect. Baseline SBP on the study arm was included into the model as a covariate (a fixed effect) in all cases."||1.47||=0.390
92152036|NCT02248961|184189509|OTHER||||||=|0.018|||||||Mixed Models Analysis|The investigational site was included as random effect. The baseline levels of SBP and the treatment group were included as fixed effects.||||||=0.018
92152037|NCT02248961|184189510|OTHER||||||=|0.579|||||||Mixed Models Analysis|The investigational site was included as random effect. The baseline levels of SBP and the treatment group were included as fixed effects.||||||=0.579
92152038|NCT02248961|184189511|OTHER||||||=|0.466|||||||Mixed Models Analysis|The investigational site was included as random effect. The baseline levels of SBP and the treatment group were included as fixed effects.||||||=0.466
92152039|NCT02248961|184189512|OTHER||||||=|0.118|||||||Mixed Models Analysis|The investigational site was included as random effect. The baseline levels of SBP and the treatment group were included as fixed effects.||||||=0.118
92152040|NCT02248961|184189513|OTHER||||||=|0.662|||||||Mixed Models Analysis|The investigational site was included as random effect. The baseline levels of SBP and the treatment group were included as fixed effects.||||||=0.662
92152041|NCT02248961|184189514|OTHER||||||=|0.143|||||||Mantel Haenszel|||||||=0.143
92213873|NCT03049735|184327399|SUPERIORITY||Treatment difference|54.54|||<|0.0001|TWO_SIDED|95.0|44.3|64.78||P-value was stratified by baseline MBL volume (\< 225 mL or ≥ 225 mL) and geographic region (North America or Rest of World). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix + E2/NETA minus placebo.|The primary efficacy analysis was the comparison of the relugolix + E2/NETA group with the placebo group with respect to responder rate.||64.78|44.3|<0.0001
92213874|NCT03049735|184327400|SUPERIORITY||Treatment difference|46.83|||<|0.0001|TWO_SIDED|95.0|37.31|56.35||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America or Rest of World). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference was relugolix plus E2/NETA minus placebo. 95% confidence interval (CI) for difference is based on the normal approximation.|||56.35|37.31|<0.0001
92213875|NCT03049735|184327401|SUPERIORITY||Treatment difference|-61.1|STANDARD_ERROR_OF_MEAN|6.32|<|0.0001|TWO_SIDED|95.0|-73.5|-48.6||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|Assessed at a 2-sided α = 0.05 significance. Treatment difference is relugolix plus E2/NETA minus placebo.||||-48.6|-73.5|<0.0001
92213876|NCT03049735|184327402|SUPERIORITY||Treatment difference|28.26|||=|0.0377|TWO_SIDED|95.0|3.68|52.84||P-value is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo. 95% CI for difference is based on the normal approximation.|||52.84|3.68|= 0.0377
92213877|NCT03049735|184327403|SUPERIORITY||Treatment difference|33.0|||<|0.0001|TWO_SIDED|95.0|18.36|47.56||P-value is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo. 95% CI for difference is based on the normal approximation.|||47.56|18.36|<0.0001
92213878|NCT03049735|184327404|SUPERIORITY||Treatment difference|-12.1|STANDARD_ERROR_OF_MEAN|7.19||0.0921|TWO_SIDED|95.0|-26.3|2.0||Based on analysis of covariance model with treatment, randomization stratification factors, Baseline MBL volume, geographic region (North America, Rest of World), and Baseline values as covariate. Assessed at a 2-sided α = 0.05 significance level.|ANCOVA|||||2|-26.3|0.0921
92152042|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.05|TWO_SIDED|95.0|0.8|2.44|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the past 3 months as a risk factor for used (injected/snorted/smoked) heroin in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||2.44|0.80|0.05
92152043|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76||||0.01|TWO_SIDED|95.0|1.12|2.76|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the past 3 months as a risk factor for having Used (injected/snorted/smoked) powder cocaine in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||2.76|1.12|0.01
92152044|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.05|TWO_SIDED|95.0|1.0|2.44|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the prior 3 months as a risk factor for having Used (injected and/or snorted) crack cocaine in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||2.44|1.00|0.05
92152045|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.03|TWO_SIDED|95.0|0.35|0.98|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the prior 3 months as a risk factor for having Used (injected/snorted/smoked) methamphetamine in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||0.98|0.35|0.03
92152046|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.99|||<|0.01|TWO_SIDED|95.0|1.11|3.59|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the prior 3 months as a risk factor for poly-substance use in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||3.59|1.11|<0.01
92152047|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.87|||<|0.01|TWO_SIDED|95.0|3.84|12.28|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the prior 3 months as a risk factor for Heavy drinking (\>14 and \>21 drinks/week for women and men respectively) in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||12.28|3.84|<0.01
92152048|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.63|||<|0.01|TWO_SIDED|95.0|2.02|6.5|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in the prior 3 months as a risk factor for Drank until blacked out in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||6.50|2.02|<0.01
92152049|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.04|TWO_SIDED|95.0|0.33|0.93|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in the prior 3 months as a risk factor for Injected daily, past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||0.93|0.33|0.04
92152050|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16|||<|0.01|TWO_SIDED|95.0|1.37|3.4|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in the prior 3 months as a risk factor for Median number of injected partners \>= 5 in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||3.40|1.37|<0.01
92152051|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.19|TWO_SIDED|95.0|0.81|1.97|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having Lent a needle/syringe in the past 30 days|Adjusted odds with 95% confidence interval for travel in the prior 3 months as a risk factor for having Lent a needle/syringe in the past 30 days||1.97|0.81|0.19
92152052|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61|||<|0.01|TWO_SIDED|95.0|1.01|2.55|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having Injected with someone else's used needle/syringe in the past 30 days|Adjusted odds ratio with 95 % confidence interval for travel in prior 3 months as a risk factor for having injected with someone else's used needle/syringe in the past 30 days||2.55|1.01|<0.01
92213879|NCT03049735|184327405|SUPERIORITY||Treatment difference|-15.1|STANDARD_ERROR_OF_MEAN|3.98||0.0002|TWO_SIDED|95.0|-23.0|-7.3||Based on analysis of covariance model with treatment, randomization stratification factors, Baseline MBL volume, geographic region (North America, Rest of World), and Baseline values as covariate. Assessed at a 2-sided α = 0.05 significance level.|ANCOVA|||||-7.3|-23|0.0002
92213880|NCT03049735|184327406|SUPERIORITY||Treatment difference|-28.9|STANDARD_ERROR_OF_MEAN|3.75|<|0.0001|TWO_SIDED|95.0|-36.3|-21.5||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|Assessed at a 2-sided α = 0.05 significance level. LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||-21.5|-36.3|<0.0001
92152053|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.07|||<|0.01|TWO_SIDED|95.0|1.79|5.27|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having Pooled money to buy drugs in the past 30 days|Adjusted odds with 95% confidence interval for travel in the prior 3 months as a risk factor for having Pooled money to buy drugs in the past 30 days||5.27|1.79|<0.01
92152054|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||<|0.01|TWO_SIDED|95.0|1.34|3.32|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having Shared cooker/spook to prepare drugs in the past 30 days|Adjusted odds ratios with 95% confidence interval for travel in prior 3 months as risk factor for risk behaviors||3.32|1.34|<0.01
92152055|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87|||<|0.01|TWO_SIDED|95.0|1.19|2.95|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having used Backloaded Syringe in the past 30 days|Adjusted odds with 95 % confidence interval for travel as a risk factor for risk behaviors||2.95|1.19|<0.01
92152056|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.13|TWO_SIDED|95.0|0.83|2.1|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|"Adjusted odds for travel in prior 3 months as a risk factor for having done Someone's rinse in the past 30 days"|Adjusted odds with 95% confidence interval for travel in prior 3 months as a risk factor for risk behavior in past 30 days||2.10|0.83|0.13
92152057|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21|||<|0.01|TWO_SIDED|95.0|1.4|3.49|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for Median number of sexual partners \>=2 in the past 30 days|Adjusted odds ratios and 95% confidence intervals for travel in prior 3 months as a risk factor for risk behaviors in past 30 days||3.49|1.40|<0.01
92152058|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.86|TWO_SIDED|95.0|0.45|1.85|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having Traded sex for money or drugs in the past 30 days|Adjusted odds and 95% confidence interval for travel in prior 3 months as a risk factor for risk behaviors in past 30 days||1.85|0.45|0.86
92152059|NCT00244374|184189550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.73|TWO_SIDED|95.0|0.59|2.02|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for condom use \>90% (if sexually active)|Adjusted odds and 95% confidence interval for travel in prior 3 months as a risk factor for engaging in risk behavior during the past 30 days||2.02|0.59|0.73
92152060|NCT01411501|184189559|SUPERIORITY_OR_OTHER|||||||0.352|TWO_SIDED||||||ANCOVA|||||||0.352
92213881|NCT03049735|184327409|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92152061|NCT01411501|184189560|SUPERIORITY_OR_OTHER|||||||0.968|TWO_SIDED||||||ANCOVA|||||||0.968
92152062|NCT01411501|184189561|SUPERIORITY_OR_OTHER|||||||0.841|TWO_SIDED||||||Kruskal-Wallis|||||||0.841
92152063|NCT01411501|184189562|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANCOVA|||||||0.005
92152064|NCT01411501|184189563|SUPERIORITY_OR_OTHER|||||||0.198|TWO_SIDED||||||ANCOVA|||||||0.198
92152065|NCT01411501|184189564|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Kruskal-Wallis|||||||0.035
92152066|NCT00708721|184189565|OTHER||Maximum Tolerated Dose|1.0|||||TWO_SIDED||||||||Based on cytopenias observed at day 10 (Phase 1 trial only), and the Phase II dose was determined to be 1 mg per day for 7 consecutive days given on a 28 day cycle.|||||
92152067|NCT04105972|184189574|SUPERIORITY||Least Squares (LS) Mean Difference|15.9|||<|0.0001|TWO_SIDED|95.0|11.7|20.1|||Mixed-effects Model for Repeated Measure|||||20.1|11.7|< 0.0001
92152068|NCT04105972|184189575|SUPERIORITY||LS Mean Difference|10.2|||<|0.0001|TWO_SIDED|95.0|8.2|12.1|||Mixed-effects Model for Repeated Measure|||||12.1|8.2|<0.0001
92152069|NCT04105972|184189576|SUPERIORITY||LS Mean Difference|-42.8|||||TWO_SIDED|95.0|-46.2|-39.3||||||||-39.3|-46.2|
92152070|NCT01966796|184189581|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|95.0|||||ANOVA|||The incidence of MDR pathogens (6.7%, 25.5%, 36.9% and 44.6% in PSI II, III, IV, and V, respectively, p=0.002) and mortality rate (0, 5.9%, 12.3%, and 23.8%, respectively, p\<0.001) increased with increasing PSI||||0.002
92152071|NCT00474929|184189633|SUPERIORITY_OR_OTHER||Maximum Tolerated Dose (MTD) Level|1.0|||||TWO_SIDED||||||||Dose Level 1 was chosen as the MTD due to PI concerns about adverse events and frequent dose reductions seen on later cycles at dose level 2. For the best interest of the patients, dose level 1 was chosen as the MTD and the dose level for Phase II.|The Maximum Tolerated Dose (MTD) is defined as the dose level below the lowest dose that induces dose-limiting toxicity (DLT) in at least one-third of patients (at least 2 of a maximum of 6 new patients).||||
92152072|NCT03029247|184189652|SUPERIORITY||LS Mean Difference|-0.17||||0.9694|TWO_SIDED|95.0|-8.8|8.47||p-value for the difference between treatment groups were presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) and its corresponding 95% confidence interval (CI) has been presented.|||8.47|-8.80|0.9694
92152073|NCT03029247|184189653|SUPERIORITY||LS Mean Difference|-1.32||||0.7745|TWO_SIDED|95.0|-10.46|7.83||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) of SBP and its corresponding 95% CI has been presented.|||7.83|-10.46|0.7745
92213882|NCT03049735|184327414|SUPERIORITY||||||<|0.0001||||||P-value is based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix + E2/NETA with placebo.|Log Rank|||||||<0.0001
92213883|NCT03049735|184327415|SUPERIORITY||||||<|0.0001||||||P-value for testing difference between relugolix plus E2/NETA and placebo is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
92213884|NCT03049735|184327416|SUPERIORITY||||||<|0.0001||||||P-value is based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix plus E2/NETA with placebo.|Log Rank|||||||<0.0001
92213885|NCT03049735|184327417|SUPERIORITY||||||<|0.0001||||||P-value was based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix + E2/NETA with placebo.|Log Rank|||||||<0.0001
92213886|NCT03049735|184327418|SUPERIORITY|||||||0.0377||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL).|Cochran-Mantel-Haenszel|||||||0.0377
92213887|NCT03049735|184327419|SUPERIORITY|||||||0.0117||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||0.0117
92213888|NCT03049735|184327420|SUPERIORITY|||||||0.0084||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World). Lower limit of normal is Hgb \< 11.6 g/dL.|Cochran-Mantel-Haenszel|||||||0.0084
92213889|NCT03049735|184327421|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
92213890|NCT03049735|184327422|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
92213891|NCT03049735|184327423|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
92213892|NCT03049735|184327424|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
92213893|NCT03049735|184327425|SUPERIORITY||||||<|0.0001||||||P-value for testing difference between Relugolix plus E2/NETA and placebo is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
92213894|NCT03049735|184327426|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
92213895|NCT03049735|184327427|SUPERIORITY||||||<|0.0001||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
92213896|NCT03049735|184327428|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
92213897|NCT03049735|184327429|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
92213898|NCT03049735|184327431|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
92213899|NCT03049735|184327438|SUPERIORITY|||||||0.0002||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL).|Cochran-Mantel-Haenszel|||||||0.0002
92213900|NCT03254485|184327444|SUPERIORITY||Least Squares Mean Difference|-0.3|||=|0.3681|TWO_SIDED|95.0|-0.95|0.35|||ANCOVA|||||0.35|-0.95|=0.3681
92213901|NCT03254485|184327445|SUPERIORITY||Least Squares Mean Difference|-16.74|||=|0.2817|TWO_SIDED|95.0|-47.38|13.9|||ANCOVA|||||13.90|-47.38|=0.2817
92213902|NCT03254485|184327446|SUPERIORITY||Least Squares Mean Difference|-0.297|||=|0.6508|TWO_SIDED|95.0|-1.591|0.997|||ANCOVA|||||0.997|-1.591|=0.6508
92213903|NCT02146326|184327448|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.80
92213904|NCT02146326|184327449|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.80
92213905|NCT02146326|184327450|SUPERIORITY|||||||0.54|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.54
92213906|NCT02146326|184327451|SUPERIORITY|||||||0.94|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.94
92213907|NCT02146326|184327452|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.96
92213908|NCT02146326|184327453|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.17
92213909|NCT02146326|184327454|SUPERIORITY|||||||0.47|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.47
92213910|NCT02146326|184327455|SUPERIORITY|||||||0.6|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.60
92213911|NCT02146326|184327456|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.37
92213912|NCT02146326|184327457|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.83
92213913|NCT02146326|184327458|SUPERIORITY|||||||0.64|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.64
92213914|NCT02146326|184327459|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.37
92213915|NCT02146326|184327460|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.13
92213916|NCT02146326|184327461|SUPERIORITY|||||||0.93|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.93
92213917|NCT02146326|184327462|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.11
92213918|NCT02146326|184327463|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.21
92213919|NCT02146326|184327465|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.17
92213920|NCT02146326|184327466|SUPERIORITY|||||||0.24|||||||Mixed Models Analysis|||||||0.24
92213921|NCT02146326|184327467|SUPERIORITY|||||||0.35|||||||Chi-squared|||||||0.35
92213922|NCT02146326|184327468|SUPERIORITY|||||||0.67|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.67
92213923|NCT02146326|184327469|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.04
92213924|NCT02146326|184327470|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.34
92213925|NCT02146326|184327471|SUPERIORITY|||||||0.71|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.71
92213926|NCT02146326|184327472|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.22
92213927|NCT02146326|184327473|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.11
92213928|NCT02146326|184327474|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.14
92213929|NCT02146326|184327475|SUPERIORITY|||||||0.55|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.55
92213930|NCT02146326|184327476|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.91
92397910|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.24||||0.0067|TWO_SIDED|95.0|1.49|12.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||12.03|1.49|0.0067
92213931|NCT02146326|184327477|SUPERIORITY|||||||0.48|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.48
92213932|NCT02146326|184327478|SUPERIORITY|||||||0.67|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.67
92213933|NCT02146326|184327479|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.77
92213934|NCT02146326|184327480|SUPERIORITY|||||||0.59|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.59
92213935|NCT02146326|184327481|SUPERIORITY|||||||0.64|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.64
92213936|NCT02146326|184327482|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.05
92213937|NCT02146326|184327483|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.06
92213938|NCT02146326|184327484|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.84
92213939|NCT02146326|184327485|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.14
92213940|NCT02146326|184327486|SUPERIORITY|||||||0.45|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.45
92213941|NCT03153111|184327487|SUPERIORITY||Geometric mean ratio|1.02||||0.7923|TWO_SIDED|90.0|0.88|1.19|||ANCOVA|||||1.19|0.88|0.7923
92213942|NCT03153111|184327488|SUPERIORITY||Least square mean difference|-3.5|STANDARD_ERROR_OF_MEAN|2.82||0.2172|TWO_SIDED|90.0|-8.17|1.17|||ANCOVA|||||1.17|-8.17|0.2172
92213943|NCT03153111|184327489|SUPERIORITY||Least square mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.3665|TWO_SIDED|90.0|-0.05|0.02|||ANCOVA|||||0.02|-0.05|0.3665
92397911|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.47||||0.4088|TWO_SIDED|95.0|0.59|3.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||3.71|0.59|0.4088
92213944|NCT02684357|184327512|OTHER||Adjusted percentage difference|72.5|||<|0.001|TWO_SIDED|95.0|66.8|78.2||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||78.2|66.8|< 0.001
92213945|NCT02684357|184327513|OTHER||Adjusted percentage difference|78.5|||<|0.001|TWO_SIDED|95.0|72.4|84.5||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||84.5|72.4|< 0.001
92213946|NCT02684357|184327514|OTHER||Adjusted percentage difference|47.5|||<|0.001|TWO_SIDED|95.0|40.9|54.2||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||54.2|40.9|< 0.001
92213947|NCT02684357|184327515|OTHER||Adjusted percentage difference|48.2|||<|0.001|TWO_SIDED|95.0|41.9|54.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||54.6|41.9|< 0.001
92152074|NCT03029247|184189653|SUPERIORITY||LS Mean Difference|-1.95||||0.291|TWO_SIDED|95.0|-5.62|1.71||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) of DBP and its corresponding 95% CI has been presented.|||1.71|-5.62|0.2910
92152075|NCT03029247|184189653|SUPERIORITY||LS Mean Difference|-2.4||||0.4611|TWO_SIDED|95.0|-8.88|4.07||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) of MAP and its corresponding 95% CI has been presented.|||4.07|-8.88|0.4611
92152076|NCT03029247|184189654|SUPERIORITY||LS Mean Difference|-2.95||||0.1648|TWO_SIDED|95.0|-7.14|1.24||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) and its corresponding 95% CI has been presented.|||1.24|-7.14|0.1648
92152077|NCT03029247|184189655|SUPERIORITY||LS Mean Difference|-13.42||||0.9142|TWO_SIDED|95.0|-261.75|234.92||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of SBP and its corresponding 95% CI has been presented.|||234.92|-261.75|0.9142
92152078|NCT03029247|184189655|SUPERIORITY||LS Mean Difference|-71.7||||0.2266|TWO_SIDED|95.0|-189.21|45.8||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of DBP and its corresponding 95% CI has been presented.|||45.80|-189.21|0.2266
92152079|NCT03029247|184189655|SUPERIORITY||LS Mean Difference|-54.24||||0.5246|TWO_SIDED|95.0|-223.99|115.51||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of MAP and its corresponding 95% CI has been presented.|||115.51|-223.99|0.5246
92152080|NCT03029247|184189656|SUPERIORITY||LS Mean Difference|-74.4||||0.1563|TWO_SIDED|95.0|-178.15|29.34||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of HR and its corresponding 95% CI has been presented.|||29.34|-178.15|0.1563
92152081|NCT03029247|184189657|SUPERIORITY||LS Mean Difference|-2.06||||0.3247|TWO_SIDED|95.0|-6.23|2.1||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) of DBP and its corresponding 95% CI has been presented.|||2.10|-6.23|0.3247
92152082|NCT03029247|184189657|SUPERIORITY||LS Mean Difference|-2.51||||0.4235|TWO_SIDED|95.0|-8.76|3.74||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) of MAP and its corresponding 95% CI has been presented.|||3.74|-8.76|0.4235
92152083|NCT03029247|184189658|SUPERIORITY||LS Mean Difference|-0.13||||0.9353|TWO_SIDED|95.0|-3.41|3.14||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) and its corresponding 95% CI has been presented.|||3.14|-3.41|0.9353
92152084|NCT03029247|184189659|SUPERIORITY||LS Mean Difference|-144.97||||0.2573|TWO_SIDED|95.0|-399.71|109.76||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of SBP and its corresponding 95% CI has been presented.|||109.76|-399.71|0.2573
92152085|NCT03029247|184189659|SUPERIORITY||LS Mean Difference|-117.49||||0.045|TWO_SIDED|95.0|-232.26|-2.72||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of DBP and its corresponding 95% CI has been presented.|||-2.72|-232.26|0.0450
92152086|NCT03029247|184189659|SUPERIORITY||LS Mean Difference|-131.94||||0.1341|TWO_SIDED|95.0|-306.24|42.36||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of MAP and its corresponding 95% CI has been presented.|||42.36|-306.24|0.1341
92152087|NCT03029247|184189660|SUPERIORITY||LS Mean Difference|-97.67||||0.1119|TWO_SIDED|95.0|-219.05|23.71||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of HR and its corresponding 95% CI has been presented.|||23.71|-219.05|0.1119
92152088|NCT00798174|184189728|SUPERIORITY|The null hypothesis was that the azygos coil does not reduce the DFT. (A reduced DFT is superiority).||||||0.103||||||Threshold for significance is 0.05.|t-test, 2 sided|Paired t-test||"The null hypothesis is that there is no difference between the DFT using the azygos coil vs. the standard configuration.~Paired t-test (two-tailed), used due to construction of study with DFT determined in both configurations in each patient, yields p=0.103"||||0.103
92152089|NCT00999661|184189751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|39.8|STANDARD_DEVIATION|25.12|<|0.0001||95.0|36.6|43.1||One-sample t-test for change from baseline|t-test, 2 sided|||||43.1|36.6|<0.0001
92152090|NCT00999661|184189752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.6|STANDARD_DEVIATION|19.79|<|0.0001||95.0|34.0|39.2|||t-test, 2 sided|||||39.2|34.0|<0.0001
92152091|NCT00999661|184189753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.97|STANDARD_DEVIATION|5.233|<|0.0001||95.0|-8.65|-7.29|||t-test, 2 sided|||||-7.29|-8.65|<0.0001
92213948|NCT02684357|184327516|OTHER||Adjusted percentage difference|62.2|||<|0.001|TWO_SIDED|95.0|55.5|68.9||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||68.9|55.5|< 0.001
92397912|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.09||||0.0194|TWO_SIDED|95.0|1.2|7.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.96|1.20|0.0194
92152092|NCT00312858|184189767|NON_INFERIORITY_OR_EQUIVALENCE|Similarity (non-inferiority) based on lower bound of the 2-sided 95% CI on the risk difference of seroresponse rates excluding a decrease of 10 percentage points or more (lower bound \>-10.0).|Risk Difference (RD)|0.7|||<|0.001||95.0|-1.4|3.8||Similarity (non-inferiority) indicated that the risk difference was statistically significantly greater than the pre-specified clinically relevant difference of -10 percentage points at the 1-sided α=0.025 level.|Miettinen and Nurminen|For testing the non-inferiority of 2 proportions. Stratified by investigator.|Difference in estimated response rates of Arm 1 - Arm 2.|Comparison of the difference (percentage points) in estimated response rates of Arm 1 - Arm 2.||3.8|-1.4|<0.001
92152093|NCT00312858|184189768|NON_INFERIORITY_OR_EQUIVALENCE|Similarity (non-inferiority) based on lower bound of the 2-sided 95% CI on the risk difference seroresponse rates excluding a decrease of 10 percentage points or more (lower bound \>-10.0).|Risk Difference (RD)|-5.1||||0.013||95.0|-9.3|-1.4||Similarity (non-inferiority) indicated that the risk difference was statistically significantly greater than the pre-specified clinically relevant difference of -10 percentage points at the 1-sided multiplicity-adjusted α=0.025 level.|Miettinen and Nurminen|For testing the non-inferiority of 2 proportions. Stratified by investigator.|Difference in estimated response rates of Arm 1 - Arm 2.|Comparison of the difference (percentage points) in estimated response rates of Arm 1 - Arm 2 for participants with initial serostatus \<1.25 gpELISA units/mL||-1.4|-9.3|0.013
92152094|NCT00312858|184189769|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.3|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 4||1.3|0.9|<0.001
92152095|NCT00312858|184189769|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.0|||<|0.001|TWO_SIDED|95.0|0.8|1.2|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 6B||1.2|0.8|<0.001
92152096|NCT00312858|184189769|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|0.9|||<|0.001|TWO_SIDED|95.0|0.8|1.0|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 9V||1.0|0.8|<0.001
92152097|NCT00312858|184189769|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.0|||<|0.001|TWO_SIDED|95.0|0.9|1.2|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 14||1.2|0.9|<0.001
92152098|NCT00312858|184189769|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.3|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 18C||1.3|0.9|<0.001
92152099|NCT00312858|184189769|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.2|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 19F||1.2|0.9|<0.001
92152100|NCT00312858|184189769|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.1|||<|0.001|TWO_SIDED|95.0|1.0|1.3|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 23F||1.3|1.0|<0.001
92152101|NCT02318719|184189803|SUPERIORITY||Difference of least square mean|-0.41||||0.017|TWO_SIDED|95.0|-0.74|-0.07||DS-5565 20 mg and 30 mg vs placebo were tested at level of 0.025. If both were significant, 15 mg was tested at 0.05. If neither were significant, 15 mg was no longer tested. If either 20 mg or 30 mg was significant, 15 mg was tested at 0.025.|Mixed Models Analysis|||Placebo vs DS-5565 15 mg/day at Week 14||-0.07|-0.74|0.0170
92152102|NCT02318719|184189803|SUPERIORITY||Difference of least square means|-0.47||||0.0058|TWO_SIDED|95.0|-0.81|-0.14||DS-5565 20 mg and 30 mg vs placebo were tested at level of 0.025. If both were significant, 15 mg was tested at 0.05. If neither were significant, 15 mg was no longer tested. If either 20 mg or 30 mg was significant, 15 mg was tested at 0.025.|Mixed Models Analysis|||Placebo vs DS-5565 20 mg/day at Week 14||-0.14|-0.81|0.0058
92152103|NCT02318719|184189803|SUPERIORITY||Difference of least square means|-0.77|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.44||DS-5565 20 mg and 30 mg vs placebo were tested at level of 0.025. If both were significant, 15 mg was tested at 0.05. If neither were significant, 15 mg was no longer tested. If either 20 mg or 30 mg was significant, 15 mg was tested at 0.025.|Mixed Models Analysis|||Placebo vs DS-5565 30 mg/day at Week 14||-0.44|-1.10|<0.0001
92152104|NCT00252590|184189805|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||ANOVA|||||||0.32
92213949|NCT02684357|184327517|OTHER||Adjusted percentage difference|31.2|||<|0.001|TWO_SIDED|95.0|25.7|36.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||36.6|25.7|< 0.001
92213950|NCT02684357|184327518|OTHER||Adjusted percentage difference|27.6|||<|0.001|TWO_SIDED|95.0|16.7|38.5||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||38.5|16.7|< 0.001
92213951|NCT02684357|184327519|OTHER||Adjusted percentage difference|22.3|||<|0.001|TWO_SIDED|95.0|12.0|32.5||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||32.5|12.0|< 0.001
92213952|NCT02684357|184327520|OTHER||Adjusted percentage difference|27.0|||<|0.001|TWO_SIDED|95.0|17.0|37.0||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||37.0|17.0|< 0.001
92213953|NCT02684357|184327521|OTHER||Adjusted percentage difference|26.3|||<|0.001|TWO_SIDED|95.0|16.1|36.4||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||36.4|16.1|< 0.001
92213954|NCT02684357|184327522|OTHER||Adjusted percentage difference|30.2|||<|0.001|TWO_SIDED|95.0|19.6|40.9||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||40.9|19.6|< 0.001
92213955|NCT02684357|184327523|OTHER||Adjusted percentage difference|29.5|||<|0.001|TWO_SIDED|95.0|18.9|40.1||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||40.1|18.9|< 0.001
92213956|NCT02684357|184327524|OTHER||Adjusted percentage difference|29.5|||<|0.001|TWO_SIDED|95.0|18.9|40.1||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||40.1|18.9|< 0.001
92213957|NCT02684357|184327525|OTHER||Adjusted percentage difference|19.2|||<|0.001|TWO_SIDED|95.0|9.5|28.8||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||28.8|9.5|< 0.001
92213958|NCT02684357|184327526|OTHER||Adjusted percentage difference|18.0|||<|0.001|TWO_SIDED|95.0|7.8|28.3||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||28.3|7.8|< 0.001
92213959|NCT02684357|184327527|OTHER||Adjusted percentage difference|20.2|||<|0.001|TWO_SIDED|95.0|9.1|31.4||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||31.4|9.1|< 0.001
92213960|NCT02684357|184327528|OTHER||Mean Difference (Final Values)|-6.375|||<|0.001|TWO_SIDED|95.0|-7.102|-5.648|||van Elteren test|||P-value calculated by the van Elteren test stratified for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||-5.648|-7.102|< 0.001
92213961|NCT02684357|184327529|OTHER||Adjusted percentage difference|84.7|||<|0.001|TWO_SIDED|95.0|79.0|90.4||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||90.4|79.0|< 0.001
92397913|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0423|TWO_SIDED|95.0|1.03|6.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.73|1.03|0.0423
92397914|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.86||||0.2151|TWO_SIDED|95.0|0.7|4.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.99|0.70|0.2151
92397915|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.71||||0.0531|TWO_SIDED|95.0|0.99|7.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.42|0.99|0.0531
92213962|NCT02684357|184327530|OTHER||Adjusted percentage difference|29.1|||<|0.001|TWO_SIDED|95.0|18.5|39.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||39.6|18.5|< 0.001
92213963|NCT02684357|184327531|OTHER||Adjusted percentage difference|14.7||||0.001|TWO_SIDED|95.0|5.9|23.5||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||23.5|5.9|0.001
92213964|NCT00174265|184327625|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0148||95.0||||The test of hypothesis was a 2-tailed test with alpha=0.05 (0.049 to adjust for one interim analysis).|Mixed Model for Repeated Measurements|||The null hypothesis was that there was no difference in change from Baseline in NSA Scale total score between asenapine and olanzapine at Day 365.||||0.0148
92213965|NCT00174265|184327626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81||95.0||||Significant level adjusted for one interim analysis was set as 0.049 two-sided.|Mixed Model for Repeated Measurements|||The null hypothesis was that there was no difference in change from Baseline in QLS total score between asenapine and olanzapine at Week 52.||||0.8100
92213966|NCT03231943|184327690|OTHER||Power model|0.9476|||||TWO_SIDED|90.0|0.8982|0.9971|||||The statistical model (power model) is based on the PK parameters (AUC0-inf) from all active doses in Part 1|||0.9971|0.8982|
92213967|NCT03231943|184327691|OTHER||Power model|0.928|||||TWO_SIDED|90.0|0.8877|0.9683|||||The statistical model (power model) is based on the PK parameters (AUC0-24) from all active doses in Part 1|||0.9683|0.8877|
92213968|NCT03231943|184327692|OTHER||Power Model|0.9352|||||TWO_SIDED|90.0|0.897|0.9734|||||The statistical model (power model) is based on the PK parameters (Cmax) from all active doses in Part 1|||0.9734|0.8970|
92213969|NCT03231943|184327693|OTHER||Power model|0.7968|||||TWO_SIDED|90.0|0.6424|0.9512|||||The statistical model (power model) is based on the PK parameters (AUC0-tau) from all active doses in Part 1|||0.9512|0.6424|
92213970|NCT03231943|184327694|OTHER||Power model|0.789|||||TWO_SIDED|90.0|0.6149|0.9631|||||The statistical model (power model) is based on the PK parameters (Ctrough) from all active doses in Part 2|||0.9631|0.6149|
92213971|NCT03231943|184327695|OTHER||Power model|0.7955|||||TWO_SIDED|90.0|0.6562|0.9349|||||The statistical model (power model) is based on the PK parameters (Cmax) from all active doses in Part 2|||0.9349|0.6562|
92213972|NCT03231943|184327700|OTHER||Power model|0.737|||||TWO_SIDED|90.0|0.5649|0.9091|||||The statistical model (power model) is based on the PK parameters (Cmax) from all active doses in Part 2|||0.9091|0.5649|
92213973|NCT03231943|184327701|OTHER||Power model|0.7397|||||TWO_SIDED|90.0|0.5576|0.9218|||||The statistical model (power model) is based on the PK parameters (AUC0-24) from all active doses in Part 2|||0.9218|0.5576|
92213974|NCT03471871|184327702|OTHER||Least squares (LS) mean difference|-0.36||||0.099|TWO_SIDED|95.0|-0.78|0.07||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||0.07|-0.78|0.099
92213975|NCT03471871|184327702|OTHER||LS mean difference|-0.29||||0.176|TWO_SIDED|95.0|-0.72|0.14||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||0.14|-0.72|0.176
92213976|NCT03471871|184327703|OTHER||LS mean difference|-0.06||||0.948|TWO_SIDED|95.0|-1.95|1.83||P-Value was at the 0.05 level of significance.|Mixed effect model|AHI was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||1.83|-1.95|0.948
92213977|NCT03471871|184327704|OTHER||LS mean difference|0.52||||0.639|TWO_SIDED|95.0|-1.72|2.76||P-Value was at the 0.05 level of significance.|Mixed effect model|AHI was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||2.76|-1.72|0.639
92213978|NCT03471871|184327704|OTHER||LS mean difference|-1.16||||0.297|TWO_SIDED|95.0|-3.4|1.08||P-Value was at the 0.05 level of significance.|mixed effect model|AHI was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||1.08|-3.40|0.297
92213979|NCT03471871|184327705|OTHER||LS mean difference|-0.03||||0.979|TWO_SIDED|95.0|-2.22|2.17||P-Value was at the 0.05 level of significance.|Mixed effect model|AHI was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||2.17|-2.22|0.979
92213980|NCT03471871|184327706|OTHER||LS mean difference|0.185||||0.095|TWO_SIDED|95.0|-0.034|0.405||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||SpO2 is \<90%||0.405|-0.034|0.095
92213981|NCT03471871|184327706|OTHER||LS mean difference|0.245||||0.03|TWO_SIDED|95.0|0.025|0.464||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||When SpO2 is \<90%||0.464|0.025|0.030
92213982|NCT03471871|184327706|OTHER||LS mean difference|0.004||||0.885|TWO_SIDED|95.0|-0.058|0.067||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||SpO2 is \<85%||0.067|-0.058|0.885
92213983|NCT03471871|184327706|OTHER||LS mean difference|0.044||||0.158|TWO_SIDED|95.0|-0.018|0.107||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||SpO2 is \<85%||0.107|-0.018|0.158
92213984|NCT03471871|184327706|OTHER||LS mean difference|0.001||||0.462|TWO_SIDED|95.0|-0.002|0.005||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||SpO2 is \<80%||0.005|-0.002|0.462
92213985|NCT03471871|184327706|OTHER||LS mean difference|0.002||||0.166|TWO_SIDED|95.0|-0.001|0.006||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||SpO2 is \<80%||0.006|-0.001|0.166
92213986|NCT03471871|184327708|OTHER||LS mean difference|0.07||||0.699|TWO_SIDED|95.0|-0.31|0.46||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 1: Mean SpO2 during TST||0.46|-0.31|0.699
92213987|NCT03471871|184327708|OTHER||LS mean difference|0.25||||0.169|TWO_SIDED|95.0|-0.11|0.61||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 8: Mean SpO2 during TST||0.61|-0.11|0.169
92213988|NCT03471871|184327709|OTHER||LS mean difference|0.312||||0.472|TWO_SIDED|95.0|-0.558|1.181||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 1: SpO2 is \<90%||1.181|-0.558|0.472
92213989|NCT03471871|184327709|OTHER||LS mean difference|0.067||||0.479|TWO_SIDED|95.0|-0.124|0.258||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 1: SpO2 is \<85%||0.258|-0.124|0.479
92213990|NCT03471871|184327709|OTHER||LS mean difference|0.002||||0.852|TWO_SIDED|95.0|-0.019|0.023||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 1: SpO2 is \<80%||0.023|-0.019|0.852
92213991|NCT03471871|184327709|OTHER||LS mean difference|0.088||||0.733|TWO_SIDED|95.0|-0.431|0.607||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 8: SpO2 is \<90%||0.607|-0.431|0.733
92213992|NCT03471871|184327709|OTHER||LSM difference|0.056||||0.518|TWO_SIDED|95.0|-0.117|0.228||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 8: When SpO2 is \<85%||0.228|-0.117|0.518
92213993|NCT03471871|184327709|OTHER||LS mean difference|0.006||||0.576|TWO_SIDED|95.0|-0.015|0.026||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 8: SpO2 is \<80%||0.026|-0.015|0.576
92273410|NCT01042977|184449255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|0.1957|<|0.0001|TWO_SIDED|95.0|-2.31|-1.54||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.54|-2.31|<0.0001
92213994|NCT03040622|184327717|OTHER|||||||0.06|||||||ANOVA|||||||0.06
92213995|NCT03040622|184327718|OTHER|||||||0.009|||||||ANOVA|||||||0.009
92213996|NCT03040622|184327719|OTHER|||||||0.001|||||||ANOVA|||||||0.001
92213997|NCT02673619|184327749|OTHER||Percentage difference|25.0|||||TWO_SIDED|90.0|-21.1|75.1||||||||75.1|-21.1|
92213998|NCT02673619|184327749|OTHER||Percentage difference|25.5|||||TWO_SIDED|90.0|-10.2|59.2||||||||59.2|-10.2|
92213999|NCT02673619|184327750|OTHER||Percentage Difference|-16.2|||||TWO_SIDED|90.0|-59.7|32.0||||||||32.0|-59.7|
92214000|NCT02673619|184327750|OTHER||Percentage Difference|18.0|||||TWO_SIDED|90.0|-18.8|52.1||||||||52.1|-18.8|
92214001|NCT02673619|184327754|OTHER||Percentage Difference|16.2|||||TWO_SIDED|90.0|-32.0|59.7||||||||59.7|-32.0|
92214002|NCT02673619|184327754|OTHER||Percentage Difference|7.5|||||TWO_SIDED|90.0|-27.7|42.3||||||||42.3|-27.7|
92214003|NCT03444324|184327773|NON_INFERIORITY|The primary efficacy analysis of this endpoint was to test non-inferiority in the Per-protocol Set. The final analysis was performed using a two-way analysis of variance (ANOVA). Non-inferiority was to be demonstrated if the upper confidence limit of the two-sided 95 % confidence interval (CI) for the difference in the least squares mean (LSM) was less than the non-inferiority margin (150 mL).|Difference in LSM|-279.43|||<|0.001|TWO_SIDED|95.0|-552.38|-6.48||p-value from Van Elteren test, stratified by predictive blood loss (\> 1,000 mL to = 2,000 mL and \>2,000 mL)|Van Elteren test|||||-6.48|-552.38|<0.001
92214004|NCT03444324|184327774|OTHER||Difference in response rate|38.1|||<|0.001|TWO_SIDED|95.0|26.0|50.3|||Cochran-Mantel-Haenszel|P-value is from a Cochran-Mantel-Haenszel model stratified by predictive blood loss (\> 1,000 mL to ≤ 2,000 mL and \> 2,000 mL).||||50.3|26|<0.001
92214005|NCT03444324|184327775|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92214006|NCT03444324|184327781|OTHER||Difference in LSM|-15.5|||<|0.831|TWO_SIDED|95.0|-157.83|126.88|||ANOVA|||||126.88|-157.83|<0.831
92214007|NCT03444324|184327782|OTHER||Difference in LSM|12.4|||=|0.809|TWO_SIDED|95.0|-88.84|113.66|||ANOVA|||||113.66|-88.84|=0.809
92397916|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.11||||0.0118|TWO_SIDED|95.0|1.37|12.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||12.34|1.37|0.0118
92214008|NCT03444324|184327783|OTHER||Difference in proportion|-4.8|||=|0.022|TWO_SIDED|95.0|-8.9|-0.7|||Cochran-Mantel-Haenszel|||||-0.7|-8.9|=0.022
92214009|NCT03226275|184327804|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|99.46|||||TWO_SIDED|90.0|93.25|106.09||||||Statistical Comparison of Bisoprolol in Fasting state||106.09|93.25|
92214010|NCT03226275|184327804|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|96.76|||||TWO_SIDED|90.0|92.95|100.73||||||Statistical Comparison of Amlodipine in Fasting State||100.73|92.95|
92214011|NCT03226275|184327804|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|98.95|||||TWO_SIDED|90.0|90.02|108.76||||||Statistical Comparison of Bisoprolol in Fed State||108.76|90.02|
92214012|NCT03226275|184327804|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|103.07|||||TWO_SIDED|90.0|95.53|111.2||||||Statistical Comparison of Amlodipine in Fed State||111.20|95.53|
92214013|NCT03226275|184327805|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|97.85|||||TWO_SIDED|90.0|92.29|103.74||||||Statistical Comparison of Bisoprolol in Fasting State||103.74|92.29|
92214014|NCT03226275|184327805|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|100.03|||||TWO_SIDED|90.0|94.37|106.03||||||Statistical Comparison of Amlodipine in Fasting State||106.03|94.37|
92214015|NCT03226275|184327805|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|93.87|||||TWO_SIDED|90.0|84.56|104.2||||||Statistical Comparison of Bisoprolol in Fed State||104.20|84.56|
92214016|NCT03226275|184327805|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|106.56|||||TWO_SIDED|90.0|97.82|116.08||||||Statistical Comparison of Amlodipine in Fed State||116.08|97.82|
92214017|NCT03226275|184327806|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Median Difference|0.13|||||TWO_SIDED|90.0|0.0|0.5||||||Statistical Comparison of Bisoprolol in Fasting State||0.50|0.00|
92214018|NCT03226275|184327806|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Median Difference|0.0|||||TWO_SIDED|90.0|-1.0|0.0||||||Statistical Comparison of Amlodipine in Fasting State||0.00|-1.00|
92214019|NCT03226275|184327806|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Median Difference|0.0|||||TWO_SIDED|90.0|-1.0|0.5||||||Statistical Comparison of Bisoprolol in Fed State||0.50|-1.00|
92214020|NCT03226275|184327806|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Median Difference|0.0|||||TWO_SIDED|90.0|-1.0|0.5||||||Statistical Comparison of Amlodipine in Fed State||0.50|-1.00|
92214021|NCT03226275|184327808|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|99.98|||||TWO_SIDED|90.0|93.61|106.79||||||Statistical Comparison of Bisoprolol in Fasting State||106.79|93.61|
92214022|NCT03226275|184327808|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|98.68|||||TWO_SIDED|90.0|93.38|104.28||||||Statistical Comparison of Amlodipine in Fasting State||104.28|93.38|
92214023|NCT03226275|184327808|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|98.52|||||TWO_SIDED|90.0|89.75|108.15||||||Statistical Comparison of Bisoprolol in Fed State||108.15|89.75|
92214024|NCT03226275|184327808|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|104.06|||||TWO_SIDED|90.0|96.11|112.66||||||Statistical Comparison of Amlodipine in Fed State||112.66|96.11|
92214025|NCT03824639|184327814|OTHER|Cohen's d will be used to estimate the effect size for comparing change in outcome measurements over 6 months in the exercise group to the control group. This effect size will be used for sample size calculations.|Cohen's d|0.37|||||TWO_SIDED|||||||||||||
92214026|NCT03824639|184327815|OTHER|Cohen's d will be used to estimate the effect size for comparing change in outcome measurements over 6 months in the exercise group to the control group. This effect size will be used for sample size calculations.|Cohen's d|0.18|||||TWO_SIDED|||||||||||||
92214027|NCT01436071|184327835|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.12||||0.012|TWO_SIDED|95.0|0.026|0.213|||ANCOVA|||||0.213|0.026|0.012
92214028|NCT03808688|184327843|OTHER|Descriptive statistics included the number of subjects/eyes(n), mean, SD, median, minimum, and maximum for continuous variables, and frequency and percentages for categorical variables.||||||||||||||||Cohorts assessed versus baseline treatment|All efficacy data were summarized at each timepoint using appropriate descriptive statistics for the overall populations as well as separately for monotherapy and concomitant therapy groups.|||
92214029|NCT02137512|184327853|SUPERIORITY|No adjustments were made for multiple comparisons.|||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214030|NCT02137512|184327853|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214031|NCT02137512|184327853|SUPERIORITY|||||||0.31||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.31
92214032|NCT02137512|184327854|SUPERIORITY|||||||0.002||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.002
92214033|NCT02137512|184327854|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214034|NCT02137512|184327854|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214035|NCT02137512|184327855|SUPERIORITY|||||||0.1||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.10
92214036|NCT02137512|184327855|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92397917|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|16.28||||0.0006|TWO_SIDED|95.0|3.29|80.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||80.46|3.29|0.0006
92214037|NCT02137512|184327855|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214038|NCT02137512|184327856|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214039|NCT02137512|184327856|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214040|NCT02137512|184327856|SUPERIORITY|||||||0.91||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.91
92214041|NCT02137512|184327857|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214042|NCT02137512|184327857|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214043|NCT02137512|184327857|SUPERIORITY|||||||0.2||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.20
92214044|NCT02137512|184327858|SUPERIORITY|||||||0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.001
92214045|NCT02137512|184327858|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214046|NCT02137512|184327858|SUPERIORITY|||||||0.49||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.49
92214047|NCT02137512|184327859|SUPERIORITY|||||||0.009||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.009
92214048|NCT02137512|184327859|SUPERIORITY|||||||0.14||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.14
92214049|NCT02137512|184327859|SUPERIORITY|||||||0.06||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.06
92214050|NCT02137512|184327860|SUPERIORITY|||||||0.002||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.002
92214051|NCT02137512|184327860|SUPERIORITY|||||||0.03||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.03
92214052|NCT02137512|184327860|SUPERIORITY|||||||0.18||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.18
92214053|NCT02137512|184327861|SUPERIORITY|||||||0.07||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.07
92214054|NCT02137512|184327861|SUPERIORITY|||||||0.54||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.54
92214055|NCT02137512|184327861|SUPERIORITY|||||||0.07||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.07
92214056|NCT02137512|184327862|SUPERIORITY|||||||0.005||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.005
92214057|NCT02137512|184327862|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214058|NCT02137512|184327862|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
92214059|NCT02137512|184327863|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214060|NCT02137512|184327863|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214061|NCT02137512|184327863|SUPERIORITY|||||||0.52||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.52
92214062|NCT02137512|184327864|SUPERIORITY|||||||0.13||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.13
92214063|NCT02137512|184327864|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214064|NCT02137512|184327864|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214065|NCT02137512|184327865|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214066|NCT02137512|184327865|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214067|NCT02137512|184327865|SUPERIORITY|||||||0.41||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.41
92214068|NCT02137512|184327866|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214069|NCT02137512|184327866|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214070|NCT02137512|184327866|SUPERIORITY|||||||0.12||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.12
92214071|NCT02137512|184327867|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
92214072|NCT02137512|184327867|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214073|NCT02137512|184327867|SUPERIORITY|||||||0.06||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.06
92214074|NCT02137512|184327868|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214075|NCT02137512|184327868|SUPERIORITY|||||||0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.001
92214076|NCT02137512|184327868|SUPERIORITY|||||||0.26||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.26
92214077|NCT02137512|184327869|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214078|NCT02137512|184327869|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214079|NCT02137512|184327869|SUPERIORITY|||||||0.11||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.11
92397918|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.57||||0.3698|TWO_SIDED|95.0|0.59|4.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.22|0.59|0.3698
92397919|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.58||||0.0059|TWO_SIDED|95.0|1.55|13.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.53|1.55|0.0059
92214080|NCT02137512|184327870|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
92214081|NCT02137512|184327870|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
92214082|NCT02137512|184327870|SUPERIORITY|||||||0.61||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.61
92214083|NCT02137512|184327871|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214084|NCT02137512|184327871|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214085|NCT02137512|184327871|SUPERIORITY|||||||0.29||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.29
92214086|NCT02137512|184327872|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214087|NCT02137512|184327872|SUPERIORITY|||||||0.005||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.005
92214088|NCT02137512|184327872|SUPERIORITY||||||>|0.99||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||>0.99
92214089|NCT02137512|184327873|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
92214090|NCT02137512|184327873|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214091|NCT02137512|184327873|SUPERIORITY|||||||0.09||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.09
92214092|NCT02137512|184327874|SUPERIORITY|||||||0.002||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.002
92214093|NCT02137512|184327874|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214094|NCT02137512|184327874|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214095|NCT02137512|184327875|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214096|NCT02137512|184327875|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214097|NCT02137512|184327875|SUPERIORITY|||||||0.26||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.26
92214098|NCT02137512|184327876|SUPERIORITY|||||||0.04||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.04
92214099|NCT02137512|184327876|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214100|NCT02137512|184327876|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214101|NCT02137512|184327877|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
92214102|NCT02137512|184327877|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214103|NCT02137512|184327877|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214104|NCT02137512|184327878|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 1 sided|||||||<0.001
92214105|NCT02137512|184327878|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214106|NCT02137512|184327878|SUPERIORITY|||||||0.53||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.53
92214107|NCT02137512|184327879|SUPERIORITY|||||||0.05||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.05
92214108|NCT02137512|184327879|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214109|NCT02137512|184327879|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214110|NCT02137512|184327880|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214111|NCT02137512|184327880|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214112|NCT02137512|184327880|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214113|NCT02137512|184327881|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214114|NCT02137512|184327881|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214115|NCT02137512|184327881|SUPERIORITY|||||||0.22||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.22
92214116|NCT02137512|184327882|SUPERIORITY|||||||0.03||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.03
92214117|NCT02137512|184327882|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214118|NCT02137512|184327882|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214119|NCT02137512|184327883|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214120|NCT02137512|184327883|SUPERIORITY|||||||0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.001
92214121|NCT02137512|184327883|SUPERIORITY|||||||0.26||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.26
92214122|NCT02137512|184327884|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92152105|NCT02912468|184189848|SUPERIORITY||LS mean difference|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.07|-0.71|||ANCOVA|||Data were analyzed using a hybrid method of the worst-observation carried forward (WOCF) and multiple imputation (MI). The imputed completed data were analyzed by fitting ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.71|-1.07|<0.0001
92214123|NCT02137512|184327884|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214124|NCT02137512|184327884|SUPERIORITY|||||||0.05||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.05
92214125|NCT02137512|184327885|SUPERIORITY|||||||0.03||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.03
92214126|NCT02137512|184327885|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
92214127|NCT02137512|184327885|SUPERIORITY|||||||0.52||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.52
92214128|NCT02137512|184327886|SUPERIORITY|||||||0.003||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.003
92214129|NCT02137512|184327886|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214130|NCT02137512|184327886|SUPERIORITY|||||||0.71||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.71
92214131|NCT02137512|184327887|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214132|NCT02137512|184327887|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214133|NCT02137512|184327887|SUPERIORITY|||||||0.39||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.39
92214134|NCT02137512|184327888|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214135|NCT02137512|184327888|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214136|NCT02137512|184327888|SUPERIORITY|||||||0.06||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.06
92214137|NCT02137512|184327889|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
92214138|NCT02137512|184327889|SUPERIORITY|||||||0.003||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.003
92214139|NCT02137512|184327889|SUPERIORITY|||||||0.86||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.86
92214140|NCT02137512|184327890|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214141|NCT02137512|184327890|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214142|NCT02137512|184327890|SUPERIORITY|||||||0.74||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.74
92214143|NCT02137512|184327891|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214144|NCT02137512|184327891|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214145|NCT02137512|184327891|SUPERIORITY|||||||0.09||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.09
92214146|NCT02137512|184327892|SUPERIORITY|||||||0.07||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.07
92214147|NCT02137512|184327892|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
92214148|NCT02137512|184327892|SUPERIORITY|||||||0.68||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.68
92214149|NCT02137512|184327893|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
92214150|NCT02137512|184327893|SUPERIORITY|||||||0.005||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.005
92214151|NCT02137512|184327893|SUPERIORITY|||||||0.62||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.62
92214152|NCT02137512|184327894|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214153|NCT02137512|184327894|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
92214154|NCT02137512|184327894|SUPERIORITY|||||||0.23||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.23
92214155|NCT02137512|184327895|SUPERIORITY|||||||0.67||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.67
92214156|NCT02137512|184327895|SUPERIORITY|||||||0.09||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.09
92214157|NCT02137512|184327895|SUPERIORITY|||||||0.22||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.22
92214158|NCT02137512|184327896|SUPERIORITY|||||||0.25||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.25
92214159|NCT02137512|184327897|SUPERIORITY|||||||0.23||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.23
92214160|NCT02137512|184327898|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214161|NCT02137512|184327899|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214162|NCT02137512|184327900|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214163|NCT02137512|184327901|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
92214164|NCT02137512|184327902|SUPERIORITY|||||||0.01||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.01
92214165|NCT02137512|184327903|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
92214166|NCT02137512|184327904|SUPERIORITY|||||||0.14||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.14
92214167|NCT01215175|184327908|OTHER||Risk Difference (RD)|10.0||||||95.0|-7.4|28.3|||||Miettinen \& Nurminen method|||28.3|-7.4|
92214168|NCT01215175|184327909|OTHER||Risk Difference (RD)|8.2||||||95.0|-7.9|26.6|||||Miettinen \& Nurminen method|||26.6|-7.9|
92214169|NCT01215175|184327909|OTHER||Risk Difference (RD)|3.6||||||95.0|-15.5|22.9|||||Miettinen \& Nurminen method|||22.9|-15.5|
92214170|NCT01215175|184327910|OTHER||Risk Difference (RD)|0.0||||||95.0|-11.5|11.5|||||Miettinen \& Nurminen method|||11.5|-11.5|
92214171|NCT01215175|184327911|OTHER||Risk Difference (RD)|0.0||||||95.0|-12.2|10.6|||||Miettinen \& Nurminen method|||10.6|-12.2|
92214172|NCT01215175|184327911|OTHER||Risk Difference (RD)|0.0||||||95.0|-12.3|12.3|||||Miettinen \& Nurminen method|||12.3|-12.3|
92214173|NCT01215175|184327912|OTHER||Risk Difference (RD)|10.0||||||95.0|-7.4|28.3|||||Miettinen \& Nurminen method|||28.3|-7.4|
92214174|NCT01215175|184327913|OTHER||Risk Difference (RD)|9.8||||||95.0|-10.6|30.9|||||Miettinen \& Nurminen method|||30.9|-10.6|
92214175|NCT01215175|184327913|OTHER||Risk Difference (RD)|3.6||||||95.0|-19.1|26.0|||||Miettinen \& Nurminen method|||26.0|-19.1|
92214176|NCT03872453|184327923|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|4.2||||0.1214|TWO_SIDED|98.3|-2.3|10.7||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||10.7|-2.3|0.1214
92214177|NCT03872453|184327923|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|7.0||||0.0113|TWO_SIDED|98.3|0.4|13.7||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||13.7|0.4|0.0113
92214178|NCT03872453|184327923|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|7.7||||0.0055|TWO_SIDED|98.3|1.1|14.3||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||14.3|1.1|0.0055
92214179|NCT03872453|184327924|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|5.4||||0.1162|TWO_SIDED|98.3|-2.8|13.6||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||13.6|-2.8|0.1162
92214180|NCT03872453|184327924|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|8.3||||0.0155|TWO_SIDED|98.3|0.1|16.5||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||16.5|0.1|0.0155
92214181|NCT03872453|184327924|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|8.9||||0.0094|TWO_SIDED|98.3|0.7|17.0||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||17.0|0.7|0.0094
92214182|NCT03872453|184327925|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|7.1||||0.0439|TWO_SIDED|98.3|-1.3|15.4||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||If the coprimary endpoint tests were both significant for a zavegepant dose group versus placebo, the secondary endpoints were tested for that zavegepant dose group versus placebo using a hierarchical gate-keeping procedure in the order the endpoints are reported, with each test in the hierarchy conducted at alpha = 0.0167. If a test in the hierarchy was not significant, any further tests on endpoints in the sequence were not considered significant for any zavegepant dose group versus placebo.||15.4|-1.3|0.0439
92214183|NCT03872453|184327925|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|7.5||||0.0302|TWO_SIDED|98.3|-0.8|15.9||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||If the coprimary endpoint tests were both significant for a zavegepant dose group versus placebo, the secondary endpoints were tested for that zavegepant dose group versus placebo using a hierarchical gate-keeping procedure in the order the endpoints are reported, with each test in the hierarchy conducted at alpha = 0.0167. If a test in the hierarchy was not significant, any further tests on endpoints in the sequence were not considered significant for any zavegepant dose group versus placebo.||15.9|-0.8|0.0302
92214184|NCT02960113|184327953|OTHER|||||||0.98||||||Bonferroni-adjusted P-value, calculated as two times the nominal p-value because there are two primary outcomes|Chi-squared|d.f.=2||Null hypothesis: Percent experiencing nausea equal between groups||||0.98
92214185|NCT02960113|184327954|OTHER|||||||0.9||||||Bonferroni-adjusted P-value, calculated as two times the nominal p-value because there are two primary outcomes|Chi-squared|d.f.=2||Null hypothesis: Percent experiencing vomiting equal across groups||||0.90
92214186|NCT02960113|184327955|OTHER|Null hypothesis: Mean scores equal across treatment groups||||||0.026|||||||ANOVA|||||||0.026
92214187|NCT02960113|184327956|OTHER|Null hypothesis: means equal across treatment groups||||||0.91|||||||ANOVA|||||||0.91
92214188|NCT02960113|184327957|OTHER|||||||0.8|||||||ANOVA|||Null hypothesis: means equal across treatment groups||||0.80
92214189|NCT02960113|184327958|OTHER|||||||0.82|||||||ANOVA|||Null hypothesis: means equal across treatment groups||||0.82
92214190|NCT02960113|184327959|OTHER|||||||0.93|||||||ANOVA|||Null hypothesis: means equal across treatment groups||||0.93
92397920|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.32||||0.0241|TWO_SIDED|95.0|1.17|9.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.44|1.17|0.0241
92214191|NCT02960113|184327960|OTHER|Null hypothesis: percent of vomiting equal across treatment groups||||||0.55|||||||Chi-squared|d.f.=2||||||0.55
92214192|NCT02960113|184327961|OTHER|||||||0.71|||||||Chi-squared|d.f.=2||Null hypothesis: percent of vomiting equal across treatment groups||||0.71
92214193|NCT02960113|184327962|OTHER|||||||0.55|||||||Chi-squared|d.f.=2||Null hypothesis: percent of vomiting equal across treatment groups||||0.55
92214194|NCT02960113|184327963|OTHER|||||||0.2|||||||Chi-squared|d.f.=2||Null hypothesis: percent of vomiting equal across treatment groups||||0.20
92214195|NCT00863109|184327965|SUPERIORITY_OR_OTHER|||||||0.027|||||||Student´s t-test for paired samples|||Within-group comparison of Worry domain between BL Visit and WK72 Visit||||0.027
92214196|NCT00863109|184327966|SUPERIORITY_OR_OTHER|||||||0.038|||||||Student´s t-test for paired samples|||Between-group comparison of change from baseline in MCS||||0.038
92214197|NCT00863109|184327967|SUPERIORITY_OR_OTHER|||||||0.014|||||||Student´s t-test for paired samples|||Between-group comparison of change from baseline in Emotional Function domain||||0.014
92214198|NCT00863109|184327967|SUPERIORITY_OR_OTHER|||||||0.009|||||||Student´s t-test for paired samples|||Between-group comparison of change from baseline in Worry domain||||0.009
92214199|NCT00863109|184327967|SUPERIORITY_OR_OTHER|||||||0.022|||||||Student´s t-test for paired samples|||Between-group comparison of change from baseline in CLDQ-HCV Global domain||||0.022
92214200|NCT00440700|184327992|SUPERIORITY_OR_OTHER||Slope|15.5|||<|0.05||95.0|||||Mixed Models Analysis|||Mixed models analysis was used to determine if there were any differences in anxiety levels in patients who listen to music as compared to headphones only or usual ICU care.||||<0.05
92214201|NCT00440700|184327994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.61|<|0.05|ONE_SIDED|95.0|||||Kruskal-Wallis||Usual care was the reference comparison group.|Length of mechanical ventilatory support was assessed among all 3 groups. Usual usual care was the reference group as compared to the experimental patient-directed music group.||||<0.05
92214202|NCT00440700|184327995|SUPERIORITY_OR_OTHER||Slope|5.0|||<|0.05||95.0|||||Mixed Models Analysis|||Cortisol levels were compared among all 3 groups.||||<0.05
92214203|NCT01008696|184328064|SUPERIORITY_OR_OTHER|||||||0.8849||||||Homozygous extensive metabolizer|Chi-squared|||||||0.8849
92214204|NCT01008696|184328064|SUPERIORITY_OR_OTHER|||||||0.865||||||Heterozygous extensive metabolizer|Chi-squared|||||||0.8650
92214205|NCT01008696|184328064|SUPERIORITY_OR_OTHER|||||||0.266||||||Poor metabolizer|Chi-squared|||||||0.2660
92214206|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.7734||||||Change at Day 57: Heartburn|Wilcoxon rank-sum test|||||||0.7734
92214207|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.6414||||||Change at Day 57: Regurgitation|Wilcoxon rank-sum test|||||||0.6414
92214208|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.7809||||||Change at Day 57: Globus sensation|Wilcoxon rank-sum test|||||||0.7809
92214209|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.8294||||||Change at Day 57: Chronic cough|Wilcoxon rank-sum test|||||||0.8294
92214210|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.9874||||||Change at Day 57: Epigastric pain|Wilcoxon rank-sum test|||||||0.9874
92214211|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.2776||||||Change at Day 57: Non cardiac chest pain|Wilcoxon rank-sum test|||||||0.2776
92214212|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.6295||||||Change at Day 57: Hoarseness|Wilcoxon rank-sum test|||||||0.6295
92214213|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.5335||||||Change at Day 57: Dysphagia|Wilcoxon rank-sum test|||||||0.5335
92214214|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.8068||||||Change at Day 57: Abdominal distension|Wilcoxon rank-sum test|||||||0.8068
92214215|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.568||||||Change at Day 57: Bloating|Wilcoxon rank-sum test|||||||0.5680
92214216|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.5913||||||Change at Day 57: Post-prandial discomfort|Wilcoxon rank-sum test|||||||0.5913
92214217|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.5566||||||Change at Day 57: Early satiety|Wilcoxon rank-sum test|||||||0.5566
92214218|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.7047||||||Change at Day 57: Nausea|Wilcoxon rank-sum test|||||||0.7047
92214219|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.3654||||||Change at Day 57: Vomitting|Wilcoxon rank-sum test|||||||0.3654
92214220|NCT01008696|184328065|SUPERIORITY_OR_OTHER|||||||0.531||||||Change at Day 57: Belching|Wilcoxon rank-sum test|||||||0.5310
92214221|NCT01008696|184328066|SUPERIORITY_OR_OTHER|||||||0.5032|||||||Wilcoxon rank-sum test|||||||0.5032
92214222|NCT01383161|184328067|SUPERIORITY|||||||0.5|||||||mixed-effects general linear model|||||||0.5
92214223|NCT01383161|184328067|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92214224|NCT01383161|184328067|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.2
92214225|NCT01383161|184328068|SUPERIORITY|||||||0.08|||||||mixed-effects general linear model|||||||0.08
92214226|NCT01383161|184328068|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||.006
92214227|NCT01383161|184328068|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
92214228|NCT01383161|184328069|SUPERIORITY|||||||0.05|||||||mixed-effects general linear model|||||||0.05
92214229|NCT01383161|184328069|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.002
92214230|NCT01383161|184328069|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
92214231|NCT01383161|184328070|SUPERIORITY|||||||0.08|||||||mixed-effects general linear model|||||||0.08
92214232|NCT01383161|184328070|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||.002
92214233|NCT01383161|184328070|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.5
92214234|NCT01383161|184328071|SUPERIORITY|||||||0.04|||||||mixed-effects general linear model|||||||0.04
92214235|NCT01383161|184328071|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92214236|NCT01383161|184328071|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
92214237|NCT01383161|184328072|SUPERIORITY|||||||0.3|||||||mixed-effects general linear model|||||||0.3
92214238|NCT01383161|184328072|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92214239|NCT01383161|184328072|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.6
92214240|NCT01423812|184328078|OTHER||||||<|0.05|||||||t-test, 2 sided|||p value||||<0.05
92214241|NCT01423812|184328079|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92214242|NCT02616614|184328083|EQUIVALENCE|Bioequivalence was established if the 90% CI for the difference was contained within the interval \[0.80,1.25\] for the PP population.|Mean Difference (Net)|0.95|||||TWO_SIDED|90.0|0.88|1.03||||||||1.03|0.88|
92214243|NCT02616614|184328083|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||0.0001
92214244|NCT02616614|184328083|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92214245|NCT02616614|184328084|EQUIVALENCE|Bioequivalence was established if the 90% CI for the difference was contained within the interval \[0.80, 1.25\] for the PP population.|Mean Difference (Net)|1.0|||||TWO_SIDED|90.0|0.9|1.11||||||||1.11|0.90|
92214246|NCT02616614|184328084|SUPERIORITY|||||||0.0002|||||||ANOVA|||||||0.0002
92214247|NCT02616614|184328084|SUPERIORITY|||||||0.0006|||||||ANOVA|||||||0.0006
92214248|NCT02616614|184328085|EQUIVALENCE|Bioequivalence was established if the 90% CI for the difference was contained within the interval (-0.20, +0.20).|Mean Difference (Net)|-0.022|||||TWO_SIDED|90.0|-0.087|0.043|||||Equivalence was based on difference in the number of subjects with success. Bioequivalence was established if the 90% CI for the difference was contained within the interval (-0.20, +0.20).|Bioequivalence was established if the 90% CI for the difference was contained within the interval (-0.20, +0.20).||0.043|-0.087|
92214249|NCT02748018|184328086|SUPERIORITY|Test of Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|-0.8|||||ONE_SIDED|97.5||-0.4||||||||-0.4||
92214250|NCT02748018|184328087|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-4.9|||||ONE_SIDED|97.5||-3.6||||||||-3.6||
92214251|NCT02748018|184328088|SUPERIORITY|Test of Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|-0.7|||||ONE_SIDED|97.5||-0.3||||||||-0.3||
92214252|NCT02748018|184328089|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-4.8|||||ONE_SIDED|97.5||-3.1||||||||-3.1||
92214253|NCT02748018|184328090|SUPERIORITY|Test of Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|0.0|||||ONE_SIDED|97.5||0.3||||||||0.3||
92214254|NCT02748018|184328091|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-1.0|||||ONE_SIDED|97.5||-0.2||||||||-0.2||
92214255|NCT02748018|184328092|NON_INFERIORITY|Non-inferiority margin: 2%. Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-2.2|||||ONE_SIDED|97.5||-0.9||||||||-0.9||
92214256|NCT02748018|184328093|NON_INFERIORITY|Non-inferiority margin: 0.4%. Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|-0.3|||||ONE_SIDED|97.5||-0.1||||||||-0.1||
92214257|NCT02748018|184328094|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%) During Night|Mean Difference (Final Values)|-5.4|||||ONE_SIDED|97.5||-3.7||||||||-3.7||
92214258|NCT02748018|184328095|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%) During Night|Mean Difference (Final Values)|18.8|||||ONE_SIDED|97.5|14.5||||||||||14.5|
92214259|NCT02748018|184328096|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%)|Mean Difference (Final Values)|12.0|||||ONE_SIDED|97.5|8.8||||||||||8.8|
92214260|NCT02748018|184328097|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-3.6|||||ONE_SIDED|97.5||-2.6||||||||-2.6||
92214261|NCT02748018|184328098|SUPERIORITY|Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|-0.6|||||ONE_SIDED|97.5||-0.3||||||||-0.3||
92214262|NCT02748018|184328099|NON_INFERIORITY|Non-inferiority margin: 2%. Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-3.6|||||ONE_SIDED|97.5||-1.9||||||||-1.9||
92214263|NCT02748018|184328100|NON_INFERIORITY|Non-inferiority margin: 0.4%. Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|0.1|||||ONE_SIDED|97.5||0.3||||||||0.3||
92214264|NCT02748018|184328101|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%) during Night|Mean Difference (Final Values)|-7.3|||||ONE_SIDED|97.5||-4.7||||||||-4.7||
92214265|NCT02748018|184328102|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%) during Night|Mean Difference (Final Values)|15.9|||||ONE_SIDED|97.5|11.1||||||||||11.1|
92214266|NCT02748018|184328103|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%)|Mean Difference (Final Values)|13.6|||||ONE_SIDED|97.5|9.9||||||||||9.9|
92214267|NCT02748018|184328104|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-4.3|||||ONE_SIDED|97.5||-3.1||||||||-3.1||
92214268|NCT02748018|184328105|SUPERIORITY|Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|-0.2|||||ONE_SIDED|97.5||0.0||||||||0.0||
92214269|NCT02748018|184328106|NON_INFERIORITY|Non-inferiority margin: 2%. Treatment Effect on Time in Hypoglycemic Range (%) with Multiple Imputation|Mean Difference (Final Values)|-0.3|||||ONE_SIDED|97.5||0.7||||||||0.7||
92214270|NCT02748018|184328107|NON_INFERIORITY|Non-inferiority margin: 0.4%. Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|0.0|||||ONE_SIDED|97.5||0.1||||||||0.1||
92214271|NCT02748018|184328108|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%) during Night|Mean Difference (Final Values)|-0.7|||||ONE_SIDED|97.5||0.2||||||||0.2||
92214272|NCT02748018|184328109|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%) during Night|Mean Difference (Final Values)|12.2|||||ONE_SIDED|97.5|8.3||||||||||8.3|
92214273|NCT02748018|184328110|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%)|Mean Difference (Final Values)|6.3|||||ONE_SIDED|97.5|3.3||||||||||3.3|
92214274|NCT02748018|184328111|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-0.8|||||ONE_SIDED|97.5||-0.1||||||||-0.1||
92214275|NCT02748018|184328112|SUPERIORITY|Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|0.0|||||ONE_SIDED|97.5||0.1||||||||0.1||
92214276|NCT03952585|184328130|NON_INFERIORITY|Estimated 9-month PFS = 96.5% and lower acceptable threshold = 91.8%, resulting in a non-inferiority margin of 4.7%. H0: HR = 2.4; alternative hypothesis (HA): HR=1.0. One-sided type I error rate of 10% (20% after Bonferroni adjustment for each experimental arm comparison), 80% power, 24 months of accrual with 1 year of additional follow-up, and 1% increasing yearly rate of drop-out up to 3%, a log rank test requires 22 events from 266 patients per comparison resulting in 133 patients per arm.|Hazard Ratio (HR)|7.42|||||ONE_SIDED|90.0||19.46|||||Reference level = Arm 1|The null hypothesis (H0) for each comparison in phase II will be rejected if the 90% upper confidence of the hazard ratio (HR) (experimental arm / standard arm) is less than HR=2.4.||19.46||
92397921|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.38||||0.5308|TWO_SIDED|95.0|0.5|3.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.77|0.50|0.5308
92397922|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.09||||0.8603|TWO_SIDED|95.0|0.41|2.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||2.90|0.41|0.8603
92152106|NCT02912468|184189849|SUPERIORITY||LS mean difference|-2.06|||<|0.0001|TWO_SIDED|95.0|-2.43|-1.69|||ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-1.69|-2.43|<0.0001
92214277|NCT03952585|184328130|NON_INFERIORITY|Estimated 9-month PFS = 96.5% and lower acceptable threshold = 91.8%, resulting in a non-inferiority margin of 4.7%. H0: HR = 2.4; alternative hypothesis (HA): HR=1.0. One-sided type I error rate of 10% (20% after Bonferroni adjustment for each experimental arm comparison), 80% power, 24 months of accrual with 1 year of additional follow-up, and 1% increasing yearly rate of drop-out up to 3%, a log rank test requires 22 events from 266 patients per comparison resulting in 133 patients per arm.|Hazard Ratio (HR)|5.55|||||ONE_SIDED|90.0||14.85|||||Reference level = Arm 1|The null hypothesis (H0) for each comparison in phase II will be rejected if the 90% upper confidence of the hazard ratio (HR) (experimental arm / standard arm) is less than HR=2.4.||14.85||
92214278|NCT03952585|184328133|SUPERIORITY||Hazard Ratio (HR)|20.56|||||TWO_SIDED|95.0|1.05|403.31|||||Cause-specific; reference level = Arm 1|||403.31|1.05|
92273411|NCT01042977|184449256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.6|STANDARD_ERROR_OF_MEAN|2.149|<|0.0001|TWO_SIDED|95.0|9.4|17.8||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline total body weight and age stratum||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||17.8|9.4|<0.0001
92273412|NCT01042977|184449257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.71|STANDARD_ERROR_OF_MEAN|0.7977||0.0007|TWO_SIDED|95.0|-4.28|-1.15||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.15|-4.28|0.0007
92273413|NCT01042977|184449258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.02|STANDARD_ERROR_OF_MEAN|0.7983||0.0002|TWO_SIDED|95.0|-4.59|-1.46||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.46|-4.59|0.0002
92273414|NCT01042977|184449259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|0.9746||0.0004|TWO_SIDED|95.0|-5.35|-1.53||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.53|-5.35|0.0004
92273415|NCT02499354|184449260|SUPERIORITY|||||||0.2742|||||||t-test, 1 sided|||||||0.2742
92273416|NCT02499354|184449261|SUPERIORITY|||||||0.55|||||||Chi-squared|||||||0.55
92273417|NCT01677910|184449267|SUPERIORITY||Mean Difference (Net)|-0.81|||<|0.001|TWO_SIDED|95.0|-1.283|-0.337|||Wilcoxon rank sum||Mean difference is calculated as LX1606-Placebo|Primary analysis used a blocked 2-sample Wilcoxon rank sum statistic stratified by the urinary 5-HIAA stratification at randomization.||-0.337|-1.283|< 0.001
92273418|NCT01677910|184449267|SUPERIORITY||Mean Difference (Net)|-0.833|||<|0.001|TWO_SIDED|95.0|-1.292|-0.374|||Wilcoxon rank sum||Mean difference is calculated as LX1606-Placebo|Primary analysis used a blocked 2-sample Wilcoxon rank sum statistic stratified by the urinary 5-HIAA stratification at randomization.||-0.374|-1.292|< 0.001
92273419|NCT04132232|184449287|SUPERIORITY|||||||0.06|||||||Chi-squared|||||||0.06
92397923|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.73||||0.0264|TWO_SIDED|95.0|1.17|11.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||11.95|1.17|0.0264
92397924|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.6||||0.0188|TWO_SIDED|95.0|1.29|16.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.42|1.29|0.0188
92273420|NCT00755937|184449288|SUPERIORITY_OR_OTHER||Percentage (no inferential test)|66.3||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
92273421|NCT00755937|184449289|SUPERIORITY_OR_OTHER||percentage (no inferential test)|72.5||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
92273422|NCT00755937|184449290|SUPERIORITY_OR_OTHER||Percentage (no inferential test)|72.1||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
92214279|NCT03952585|184328133|SUPERIORITY||Hazard Ratio (HR)|12.87|||||TWO_SIDED|95.0|0.58|287.93|||||Reference level = Arm 1|||287.93|0.58|
92214280|NCT03952585|184328134|SUPERIORITY||Cox Proportional Hazard|1.78|||||TWO_SIDED|95.0|0.34|9.46|||||Cause-specific; reference level = Arm 1|||9.46|0.34|
92214281|NCT03952585|184328134|SUPERIORITY||Cox Proportional Hazard|1.43|||||TWO_SIDED|95.0|0.24|8.45|||||Cause-specific; reference level = Arm 1|||8.45|0.24|
92152107|NCT02912468|184189850|SUPERIORITY|Hierarchical testing procedure was used to control type I error. For regions outside of Japan, this first secondary endpoint was not tested unless both co-primary endpoints were significant at the 0.05 level. Hierarchical testing continued only when previous endpoint was statistically significant. For Japan submission, LMK was instead a co-primary endpoint which also had to be met before secondary endpoints were tested in the hierarchy. Last endpoint in hierarchy is Week 24 SNOT-22.|LS mean difference|-7.44|||<|0.0001|TWO_SIDED|95.0|-8.35|-6.53||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-6.53|-8.35|<.0001
92152108|NCT02912468|184189851|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-2.61|||<|0.0001|TWO_SIDED|95.0|-3.04|-2.17||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-2.17|-3.04|<.0001
92152109|NCT02912468|184189852|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|10.56|||<|0.0001|TWO_SIDED|95.0|8.79|12.34||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||12.34|8.79|<.0001
92152110|NCT02912468|184189853|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-1.12|||<|0.0001|TWO_SIDED|95.0|-1.31|-0.93||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.93|-1.31|<.0001
92152111|NCT02912468|184189854|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-21.12|||<|0.0001|TWO_SIDED|95.0|-25.17|-17.06||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-17.06|-25.17|<.0001
92152112|NCT01515189|184189885|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.04|TWO_SIDED|95.0|0.7|0.99||Analysis stratified by ECOG performance status (0 vs. 1), prior treatment for metastatic melanoma (yes vs. no) and M-stage (M0/M1a/M1b vs. M1c without brain metastases vs. M1c with brain metastases).|Log Rank||Hazard of 10 mg/kg ipilimumab over hazard of 3 mg/kg, with 2-sided 95% confidence intervals are based on a Cox proportional hazards model|||0.99|0.70|0.0400
92152113|NCT01515189|184189886|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.1548|TWO_SIDED|95.0|0.76|1.04||Analysis stratified by ECOG performance status (0 vs. 1), prior treatment for metastatic melanoma (yes vs. no) and M-stage (M0/M1a/M1b vs. M1c without brain metastases vs. M1c with brain metastases).|Log Rank||Hazard of 10 mg/kg ipilimumab over hazard of 3 mg/kg, with 2-sided 95% confidence intervals are based on a Cox proportional hazards model|||1.04|0.76|0.1548
92273423|NCT00755937|184449291|SUPERIORITY_OR_OTHER||Percentage (no inferential test)|60.3||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
92273424|NCT00755937|184449292|SUPERIORITY_OR_OTHER||Percentage (no inferential test)|64.8||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
92273425|NCT00755937|184449293|SUPERIORITY_OR_OTHER||Percentage (no inferential test)|72.1||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
92273426|NCT03547531|184449301|OTHER||||||>|0.05|||||||t-test, 2 sided|independent t-test||Null hypothesis: the mean of plaque index between groups are not different|the statistical analysis used in this study is independent t-test|||>0.05
92273427|NCT03547531|184449302|OTHER|this data is analyzed using independent t-test|||||>|0.05|||||||t-test, 2 sided|||null hypotesis: there is no difference of mean of gingival index between groups|this data is analyzed using independent t-test|||>0.05
92273428|NCT03547531|184449303|OTHER|this data is analyzed using independent t-test|||||<|0.05|||||||t-test, 2 sided|||null hypotesis: there is no difference of mean of plaque index between groups|this data is analyzed using independent t-test|||<0.05
92273429|NCT03547531|184449304|OTHER|this data is analyzed using independent t-test|||||<|0.05|||||||t-test, 2 sided|||null hypotesis: there is no difference of mean of gingival index between groups|this data is analyzed using independent t-test|||<0.05
92273430|NCT02117479|184449312|OTHER||Hazard Ratio (HR)|0.969|||||TWO_SIDED|95.0|0.747|1.256||||||||1.256|0.747|
92152114|NCT01515189|184189892|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.49|1.04|||||Hazard of 10 mg/kg ipilimumab over hazard of 3 mg/kg. Based on an unstratified Cox proportional hazards model for subset of participants with brain metastases.|||1.04|0.49|
92152115|NCT02541383|184189903|SUPERIORITY||Odds Ratio (OR)|1.6||||0.001|TWO_SIDED|95.0|1.21|2.12|||Cochran-Mantel-Haenszel|||||2.12|1.21|0.0010
92152116|NCT02541383|184189904|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.42|0.68|||Log Rank|||||0.68|0.42|<0.0001
92152117|NCT02541383|184189905|SUPERIORITY||Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.52|0.72|||Log Rank|||||0.72|0.52|<0.0001
92273431|NCT02117479|184449313|OTHER||Hazard Ratio (HR)|1.056|||||TWO_SIDED|95.0|0.827|1.348||||||||1.348|0.827|
92273432|NCT01223196|184449340|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Mann-Whitney test was used to test differences in M/I. Statistical Analysis applies to (M/I) between Pioglitazone and Placebo after 6 months.||Mann-Whitney test was used to test differences in whole body insulin sensitivity (M/I) between groups. Treatment-induced changes were examined by Wilcoxon's rank test. Data were analyzed using SPSS 20 (Statistical Package for Social Sciences 20), Chicago, IL, USA).||||0.04
92397925|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.17||||0.7642|TWO_SIDED|95.0|0.42|3.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.27|0.42|0.7642
92152118|NCT01960530|184189956|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To investigate the absolute and relative bioavailability of cortisol from oral Infacort®, a 20 mg dose of oral Infacort® was compared to a 20 mg dose of i.v. hydrocortisone and hydrocortisone tablets, respectively (Study Periods 3-5). These investigations were conducted in dexamethasone suppressed healthy subjects. Standard bioavailability limits of 80% to 125% were used.|Geometric LSmean ratio|60.12|||||TWO_SIDED|90.0|54.69|66.1||||||Evaluation of Cmax||66.10|54.69|
92214282|NCT03952585|184328135|SUPERIORITY||Hazard Ratio (HR)|5.58|||||TWO_SIDED|95.0|0.67|46.41|||||Reference level = Arm 1|||46.41|0.67|
92273433|NCT01223196|184449340|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Wilcoxon (Mann-Whitney)|Mann-Whitney test was used to test differences in whole body insulin sensitivity (M/I) between groups.||||||0.05
92214283|NCT03952585|184328135|SUPERIORITY||Hazard Ratio (HR)|4.87|||||TWO_SIDED|95.0|0.57|41.74|||||Reference level = Arm 1|||41.74|0.57|
92214284|NCT02119325|184328162|SUPERIORITY_OR_OTHER||Difference in Adjusted Mean|-4.64||||0.0487|TWO_SIDED|95.0|-9.26|-0.03||Statistical significance at the 5% level was required for both co-primary endpoints in order to progress to formal assessment of secondary endpoints.|ANOVA||Difference is test minus placebo such that a positive difference means the test has higher Cmax|"H0: There was no difference in the post prandial glucose peak for participants with IFG between the test and placebo.~The primary parameter was analysed using a mixed effects model with glucose as dependent variable, treatment and period as fixed effects and subject as random effect."||-0.03|-9.26|0.0487
92214285|NCT02119325|184328163|SUPERIORITY_OR_OTHER||Difference in Adjusted Mean|-6.79||||0.6116|TWO_SIDED|95.0|-34.02|20.44||Statistical significance at the 5% level was required for both co-primary endpoints in order to progress to formal assessment of secondary endpoints.|ANOVA||Difference is test minus placebo such that a positive difference means the test has higher Cmax|"H0: There was no difference in the post prandial triglyceride peak for participants with IFG between the test and placebo.~The primary parameter was analysed using a mixed effects model with triglyceride as dependent variable, treatment and period as fixed effects and subject as random effect."||20.44|-34.02|0.6116
92214286|NCT01372410|184328187|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Day 8 analysis.|Wald Test|||||||<0.0001
92214287|NCT01372410|184328187|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Pooled Day 7 and 8 analysis.|Wald Test|||||||<0.0001
92214288|NCT01372410|184328188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|||<|0.001|TWO_SIDED|95.0|0.058|0.168|||Mixed Models Analysis|||||0.168|0.058|<0.001
92214289|NCT01372410|184328188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|||<|0.001|TWO_SIDED|95.0|0.045|0.158|||Mixed Models Analysis|||||0.158|0.045|<0.001
92214290|NCT01372410|184328188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.124|||<|0.001|TWO_SIDED|95.0|0.068|0.179|||Mixed Models Analysis|||||0.179|0.068|<0.001
92214291|NCT01372410|184328188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|||<|0.001|TWO_SIDED|95.0|0.127|0.239|||Mixed Models Analysis|||||0.239|0.127|<0.001
92214292|NCT01372410|184328188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|||<|0.001|TWO_SIDED|95.0|0.069|0.182|||Mixed Models Analysis|||||0.182|0.069|<0.001
92214293|NCT01372410|184328188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|||<|0.001|TWO_SIDED|95.0|0.083|0.196|||Mixed Models Analysis|||||0.196|0.083|<0.001
92214294|NCT01372410|184328188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|||<|0.001|TWO_SIDED|95.0|0.045|0.157|||Mixed Models Analysis|||||0.157|0.045|<0.001
92214295|NCT00852592|184328225|SUPERIORITY_OR_OTHER||||||=|0.005|||||||ANOVA|||||||=0.005
92214296|NCT00852592|184328226|SUPERIORITY_OR_OTHER||||||=|0.004|||||||ANOVA|||||||=0.004
92214297|NCT01862640|184328228|SUPERIORITY||Least square (LS) mean difference|-3.77|||=|0.0404|TWO_SIDED|95.0|-7.38|-0.17|||Mixed-effect model repeated measure|||||-0.17|-7.38|=0.0404
92214298|NCT01862640|184328228|SUPERIORITY||LS mean difference|0.23|||=|0.9015|TWO_SIDED|95.0|-3.4|3.86|||Mixed-effect model repeated measure|||||3.86|-3.40|=0.9015
92214299|NCT01862640|184328229|SUPERIORITY||LS mean difference|-0.16|||=|0.1566|TWO_SIDED|95.0|-0.39|0.06|||Mixed-effect model repeated measure|||||0.06|-0.39|=0.1566
92214300|NCT01862640|184328229|SUPERIORITY||LS mean difference|0.09|||=|0.444|TWO_SIDED|95.0|-0.14|0.32|||Mixed-effect model repeated measure|||||0.32|-0.14|=0.4440
92214301|NCT02178553|184328230|NON_INFERIORITY|We determined that a difference of 1 unit between groups would be the bound for non-inferiorty.|Confidence Interval|1.0||||0.142|TWO_SIDED|90.0|-0.1|1.8|||t-test, 2 sided|||||1.8|-0.1|0.142
92214302|NCT02178553|184328231|NON_INFERIORITY|We determined that a difference of 1 unit between groups would be the bound for non-inferiorty.|Confidence Interval|1.0||||0.101|TWO_SIDED|90.0|0.4|1.9|||t-test, 2 sided|||||1.9|0.4|0.101
92214303|NCT02178553|184328232|NON_INFERIORITY|We determined that a difference of 1 unit between groups would be the bound for non-inferiorty.|Confidence Interval|1.0||||0.014|TWO_SIDED|90.0|0.4|1.9|||t-test, 2 sided|||||1.9|0.4|0.014
92214304|NCT02178553|184328233|NON_INFERIORITY|We determined that a difference of 1 unit between groups would be the bound for non-inferiorty.|Confidence Interval|1.0||||0.375|TWO_SIDED|90.0|-0.3|1.0|||t-test, 2 sided|||||1.0|-0.3|0.375
92214305|NCT00448435|184328256|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin + or - 15 L/min|Mean Difference (Net)|2.8|STANDARD_ERROR_OF_MEAN|5.91||0.6383||95.0|-9.1|14.69||Confidence Interval|Mixed Models Analysis|||Difference between treatments \[(SLM + FP)- SFC\](SE) 2.8 (5.91)||14.69|-9.10|0.6383
92214306|NCT00412971|184328275|SUPERIORITY_OR_OTHER||difference in recurrence rate|0.25||||0.05|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.05
92214307|NCT01387230|184328278|SUPERIORITY_OR_OTHER||Least squares mean difference|0.127|||<|0.001|TWO_SIDED|95.0|0.052|0.202|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)|Least squares mean difference=UMEC 62.5 µg minus Placebo.|||0.202|0.052|<0.001
92214308|NCT01387230|184328278|SUPERIORITY_OR_OTHER||Least squares mean difference|0.152|||<|0.001|TWO_SIDED|95.0|0.076|0.229|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)|Least squares mean difference=UMEC 125 µg minus Placebo.|||0.229|0.076|<0.001
92214309|NCT01163721|184328281|SUPERIORITY_OR_OTHER||difference in least squares mean (LSM)|-0.53|STANDARD_ERROR_OF_MEAN|0.2||0.01|TWO_SIDED|95.0|-0.93|-0.13||P-value is from an Analysis of Covariance (ANCOVA) model with treatment as factor and baseline HbA1c value as covariate. Due to the exploratory nature of this study, there were no adjustments for multiplicity.|ANCOVA|||Assuming a common standard deviation of 1.1%, 60 evaluable participants would provide 93% power to detect a statistically significant -1.0% difference in change from baseline HbA1c at Week 12 between ranolazine and placebo (2-sided alpha = 0.05). 80 participants were randomized to ensure at least 60 evaluable participants.||-0.13|-0.93|0.010
92152119|NCT01960530|184189956|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To investigate the absolute and relative bioavailability of cortisol from oral Infacort®, a 20 mg dose of oral Infacort® was compared to a 20 mg dose of i.v. hydrocortisone and hydrocortisone tablets, respectively (Study Periods 3-5). These investigations were conducted in dexamethasone suppressed healthy subjects. Standard bioavailability limits of 80% to 125% were used.|Geometric LSmean ratio|106.83|||||TWO_SIDED|90.0|96.92|117.76||||||||117.76|96.92|
92152120|NCT01960530|184189961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|86.99|||||TWO_SIDED|90.0|79.23|95.52||||||||95.52|79.23|
92152121|NCT01960530|184189961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|89.96|||||TWO_SIDED|90.0|81.72|99.04||||||||99.04|81.72|
92152122|NCT01022073|184189971|SUPERIORITY_OR_OTHER|||||||0.808|||||||t-test, 2 sided|This analysis is based on the completers. We are working on the imputation methods to account for the missing data and will revise results later.||||||0.808
92152123|NCT00510458|184189988|OTHER|It is expected that the mean linear wear rate is not more than 0.08 mm per year or 0.05 mm per year superior to the reference control, which was 0.13 mm per year. The reference control was determined from the control group within the Post-approval Study of the ABC and Trident® Systems (NCT00960206).|mean linear wear rate at 5 yrs|0.008|||||TWO_SIDED|90.0|-0.0107|0.0267||||||||.0267|-0.0107|
92152124|NCT00510458|184189989|OTHER|To test if the change from pre-operative HHS compared to the post-operative HHS at all intervals is statistically significant.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92152125|NCT00510458|184189990|OTHER|To test if the change from pre-operative HHS pain score compared to the post-operative HHS pain score at all intervals is statistically significant.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92152126|NCT00510458|184189991|OTHER|To test if the change from pre-operative HHS ROM compared to the post-operative HHS ROM at all intervals is statistically significant.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92214310|NCT01163721|184328282|SUPERIORITY_OR_OTHER||difference in LSM|-15.4|STANDARD_ERROR_OF_MEAN|12.83||0.234|TWO_SIDED|95.0|-41.0|10.2||P-value is from an ANCOVA model with treatment and baseline HbA1c stratification as factors and baseline value as covariate.|ANCOVA|||||10.2|-41.0|0.234
92152127|NCT00510458|184189992|OTHER|To test if the change from pre-operative SF-12 Physical component score compared to the post-operative SF-12 Physical component score at all intervals is statistically significant.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92152128|NCT00510458|184189992|OTHER|To test if the change from pre-operative SF-12 Mental component score compared to the post-operative SF-12 Mental component score at 1 year is statistically significant.||||||0.0394|||||||t-test, 2 sided|||||||0.0394
92152129|NCT00510458|184189992|OTHER|To test if the change from pre-operative SF-12 Mental component score compared to the post-operative SF-12 Mental component score at 3 years is statistically significant.||||||0.4974|||||||t-test, 2 sided|||||||0.4974
92152130|NCT00510458|184189992|OTHER|To test if the change from pre-operative SF-12 Mental component score compared to the post-operative SF-12 Mental component score at 5 years is statistically significant.||||||0.677|||||||t-test, 2 sided|||||||0.6770
92152131|NCT00510458|184189993|OTHER|To test if the change from pre-operative LEAS compared to the post-operative LEAS at 1 year and 3 years is statistically significant.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92152132|NCT00510458|184189993|OTHER|To test if the change from pre-operative LEAS compared to the post-operative LEAS at 5 years is statistically significant.||||||0.0006|||||||t-test, 2 sided|||||||0.0006
92152133|NCT03535337|184190002|SUPERIORITY||Slope|2.44|STANDARD_ERROR_OF_MEAN|1.1||0.03|TWO_SIDED|95.0|0.28|4.59|||Mixed Models Analysis|||||4.59|0.28|0.03
92152134|NCT03535337|184190003|SUPERIORITY||Slope|0.17|STANDARD_ERROR_OF_MEAN|0.76||0.82|TWO_SIDED|95.0|-1.32|1.66|||Mixed Models Analysis|||||1.66|-1.32|0.82
92152135|NCT05879198|184190005|SUPERIORITY|||||||0.473|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in total scale scores.||||.473
92152136|NCT05879198|184190006|SUPERIORITY|||||||0.469|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in total scale scores.||||.469
92152137|NCT05879198|184190007|SUPERIORITY|||||||0.155|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in total scale scores.||||.155
92152138|NCT05879198|184190008|SUPERIORITY|||||||0.346|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in total scale scores.||||.346
92152139|NCT05879198|184190010|SUPERIORITY|||||||0.075|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in AEQ-positive scale scores.||||.075
92152140|NCT05879198|184190010|SUPERIORITY|||||||0.32|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in AEQ-negative scale scores.||||.320
92152141|NCT05879198|184190010|SUPERIORITY|||||||0.049|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in MEEQ-positive scale scores.||||.049
92152142|NCT05879198|184190010|SUPERIORITY|||||||0.089|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in MEEQ-negative scale scores.||||.089
92152143|NCT01598298|184190011|OTHER|Two-sided test at the alpha=0.05 level|Coefficient for treatment term|-0.82||||0.0002|TWO_SIDED|95.0|-1.24|-0.4||Two-sided p-value; alpha=0.05|Mixed Models Analysis|Adjusted for the protocol-specified stratification factors (baseline average pain and prior taxane use)|The estimation parameter is the model-based coefficient for the treatment term, with placebo as the reference level.|The primary analysis will rely on longitudinal measures of BPI at Weeks 2, 6, and 12 for improved power. Assessment windows of +/- 7 days, +/- 14 days, and +/- 14 days will be allowed for the 2, 6, and 12 week timepoints. The analysis will be performed using mixed models, adjusted for the stratification factors.||-0.40|-1.24|0.0002
92214311|NCT01163721|184328283|SUPERIORITY_OR_OTHER||difference in least squares mean (LSM)|-2.5|STANDARD_ERROR_OF_MEAN|9.38||0.794|TWO_SIDED|95.0|-21.1|16.2||P-value is from an ANCOVA model with treatment and baseline HbA1c stratification as factors and baseline value as covariate.|ANCOVA|||||16.2|-21.1|0.794
92214312|NCT01786239|184328286|SUPERIORITY_OR_OTHER|||||||0.0493|||||||Mixed Models Analysis|||||||0.0493
92152144|NCT01598298|184190012|OTHER|Two-sided test at the alpha=0.05 level|Coefficient for treatment term|-1.06|||<|0.0001|TWO_SIDED|95.0|-1.57|-0.55||Two-sided p-value; alpha=0.05|Mixed Models Analysis|Adjusted for baseline worst pain score and the protocol-specified stratification factors (baseline average pain and prior taxane use).|The estimation parameter is the model-based coefficient for the treatment term, with placebo as the reference level.|The primary analysis will rely on longitudinal measures of BPI at Weeks 2, 6, and 12 for improved power. Assessment windows of +/- 7 days, +/- 14 days, and +/- 14 days will be allowed for the 2, 6, and 12 week timepoints. The analysis will be performed using mixed models, adjusted for baseline worst pain score and the stratification factors.||-0.55|-1.57|<0.0001
92152145|NCT01598298|184190013|OTHER|Two-sided test at the alpha=0.05 level|Coefficient fro treatment term|-0.95|||<|0.0001|TWO_SIDED|95.0|-1.35|-0.55||Two-sided p-value; alpha=0.05|Mixed Models Analysis|Adjusted for baseline pain interference score and the protocol-specified stratification factors (baseline average pain and prior taxane use).|The estimation parameter is the model-based coefficient for the treatment term, with placebo as the reference level.|The primary analysis will rely on longitudinal measures of pain interference scores at Weeks 2, 6, and 12 for improved power. Assessment windows of +/- 7 days, +/- 14 days, and +/- 14 days will be allowed for the 2, 6, and 12 week timepoints. The analysis will be performed using mixed models, adjusted for baseline pain interference score and the stratification factors.||-0.55|-1.35|<0.0001
92152146|NCT01355419|184190016|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||A power analysis conducted prior to the study predicted that a sample of 144 patients would provide an 80% power to detect a mean difference in sleep time of 40 minutes, assuming a standard deviation of 85 minutes and using a two-sided significance level of 5%.||||<0.05
92152147|NCT01355419|184190017|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Multiple regression modelling was used to determine whether actigraphic or polysomnographic data were predictors for physical activity, independently from age and BMI, stepwise forward selection of variables was performed.|Regression, Linear|||Multiple regression modelling was used to determine whether actigraphic or polysomnographic data were predictors for physical activity, independently from age and BMI, stepwise forward selection of variables was performed.||||<0.05
92152148|NCT02951351|184190018|NON_INFERIORITY|By non-inferiority analysis, proparacaine was inferior to povidone iodine with a 5% margin for non-inferiority. To detect non-inferiority with one positive culture in the proparacaine group, 45 patients would be required in the proparacaine group with a 5% margin.||||||0.28|||||||Wilcoxon (Mann-Whitney)|||||||0.28
92152149|NCT02951351|184190019|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
92152150|NCT02951351|184190020|SUPERIORITY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||||||0.86
92152151|NCT02951351|184190021|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92152152|NCT02951351|184190022|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
92152153|NCT02951351|184190023|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
92152154|NCT02951351|184190024|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92152155|NCT02951351|184190025|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||||||0.67
92152156|NCT00474175|184190035|SUPERIORITY_OR_OTHER||Treatment difference|16.46|||<|0.001|TWO_SIDED|95.0|7.2|25.7||Alternative hypotheses tested in the study was that benzocaine 20% was significantly (p less than or equal to \[=\<\] 0.05) more effective than placebo.|Cochran-Mantel-Haenszel|||P-value was calculated using Cochran-Mantel-Haenszel (CMH) test which was adjusted for site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and its associated confidence interval (C.I.) was calculated based on CMH weighted percentages and the corresponding standard error.||25.7|7.2|<0.001
92152157|NCT00474175|184190035|SUPERIORITY_OR_OTHER||Treatment difference|9.8||||0.038|TWO_SIDED|95.0|0.3|19.3||Alternative hypotheses tested in the study was that benzocaine 10% was significantly (p=\<0.05) more effective than placebo provided that benzocaine 20% was more effective than placebo.|Cochran-Mantel-Haenszel|||P-value was calculated using CMH test which was adjusted for site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and its associated C.I. was calculated based on CMH weighted percentages and the corresponding standard error.||19.3|0.3|0.038
92152158|NCT00474175|184190035|SUPERIORITY_OR_OTHER||Treatment difference|6.72||||0.047|TWO_SIDED|95.0|0.2|13.3|||Cochran-Mantel-Haenszel|Dose response was considered established if the percentage of responders between the 20% and 10% was greater than or equal to 5%.||P-value was calculated using CMH test which was adjusted for site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and its associated C.I. was calculated based on CMH weighted percentages and the corresponding standard error.||13.3|0.2|0.047
92152159|NCT00474175|184190036|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.02|||<|0.001|TWO_SIDED|95.0|1.55|2.64||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. Hazard Ratio (HR) of Benzocaine 20% relative to the Placebo was calculated. C.I. was based on the Wald statistic.||2.64|1.55|<0.001
92152160|NCT00474175|184190036|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.63|||<|0.001|TWO_SIDED|95.0|1.26|2.12||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. HR of Benzocaine 10% relative to the Placebo was calculated. C.I. was based on the Wald statistic.||2.12|1.26|<0.001
92152161|NCT00474175|184190036|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.03|TWO_SIDED|95.0|1.02|1.51||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. HR of Benzocaine 20% relative to the Benzocaine 10% was calculated. C.I. was based on the Wald statistic.||1.51|1.02|0.030
92152162|NCT00474175|184190037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.04|||<|0.001|TWO_SIDED|95.0|1.57|2.66||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. HR of Benzocaine 20% relative to the Placebo was calculated. C.I. was based on the Wald statistic.||2.66|1.57|<0.001
92273434|NCT01223196|184449341|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Mann-Whitney test was used to test differences in TACE activity in skeletal muscle between groups.||Mann-Whitney test was used to test differences in TACE activity in skeletal muscle between groups. Treatment-induced changes were examined by Wilcoxon's rank test. Data were analyzed using SPSS 20 (Statistical Package for Social Sciences, Chicago, IL, USA).||||<0.05
92273435|NCT01223196|184449341|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|Statistical Analysis applies toTNF (Tumor Necrosis Factor) alpha converting enzyme (TACE) activity between Pioglitazone and Placebo after 6 months.||Statistical analysis 2 also used 2-sided t-test similar to Statistical analysis -1||||<0.05
92227066|NCT00925600|184356125|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper bound of the 97.5% one-sided confidence interval, or equivalently upper bound of two-sided 95% confidence interval was less than the pre-specified non-inferiority bound of 10%.|Risk Difference (RD)|0.4|STANDARD_ERROR_OF_MEAN|3.4||0.0026|TWO_SIDED|95.0|-6.3|7.2|||Mantel Haenszel|||The primary endpoint was summarized with the point estimate of absolute risk difference (difference in incidence rates, denosumab minus placebo) and the corresponding 95% confidence interval using the Mantel-Haenszel method adjusting for the stratification factors: baseline LOCS III status (\< 3.0 at all sites \[P, C, and NO\] vs. ≥ 3.0 at any of these sites), age group (\< 75, ≥ 75 years), and patient-reported history of cataract (yes/no).||7.2|-6.3|0.0026
92152163|NCT00474175|184190037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.73|||<|0.001|TWO_SIDED|95.0|1.34|2.25||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. HR of Benzocaine 10% relative to the Placebo was calculated. C.I. was based on the Wald statistic.||2.25|1.34|<0.001
92152164|NCT00474175|184190037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.1|TWO_SIDED|95.0|0.97|1.43||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. HR of Benzocaine 20% relative to the Benzocaine 10% was calculated. C.I. was based on the Wald statistic.||1.43|0.97|0.100
92152165|NCT00474175|184190039|SUPERIORITY_OR_OTHER||Treatment difference|0.49||||0.035|TWO_SIDED|95.0|0.03|0.95||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 60: P-value was calculated using Analysis of Variance (ANOVA) which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.95|0.03|0.035
92152166|NCT00474175|184190039|SUPERIORITY_OR_OTHER||Treatment difference|0.32||||0.173|TWO_SIDED|95.0|-0.14|0.78||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 60: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.78|-0.14|0.173
92152167|NCT00474175|184190039|SUPERIORITY_OR_OTHER||Treatment difference|0.18||||0.358|TWO_SIDED|95.0|-0.2|0.55||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 60: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.55|-0.20|0.358
92152168|NCT00474175|184190039|SUPERIORITY_OR_OTHER||Treatment difference|0.75||||0.135|TWO_SIDED|95.0|-0.23|1.72||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 120: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.72|-0.23|0.135
92152169|NCT00474175|184190039|SUPERIORITY_OR_OTHER||Treatment difference|0.48||||0.332|TWO_SIDED|95.0|-0.49|1.46||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 120: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.46|-0.49|0.332
92152170|NCT00474175|184190039|SUPERIORITY_OR_OTHER||Treatment difference|0.26||||0.517|TWO_SIDED|95.0|-0.53|1.06||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 120: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.06|-0.53|0.517
92273436|NCT01223196|184449342|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Mann-Whitney test was used to test differences in Heamoglobin A1c between groups.||Mann-Whitney test was used to test differences Haemoglobin A1C between groups. Treatment-induced changes were examined by Wilcoxon's rank test. Data were analyzed using SPSS 20 (Statistical Package for Social Sciences, Chicago, IL, USA).||||<0.05
92273437|NCT02629133|184449343|SUPERIORITY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||||||0.560
92152171|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.93|||<|0.001|TWO_SIDED|95.0|0.5|1.35||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||5 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.35|0.50|<0.001
92152172|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.55||||0.011|TWO_SIDED|95.0|0.13|0.97||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||5 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.97|0.13|0.011
92273438|NCT02629133|184449343|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Differences between conditions in the change in % heavy drinking/using days from baseline to 6 months||||0.760
92273439|NCT02629133|184449344|SUPERIORITY|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||||||0.026
92273440|NCT02629133|184449344|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||Distributions were badly skewed, and the sample was too small for ZINB or other analyses. Therefore, we analyzed differences between conditions in changes in services/day over time (i.e., from baseline to 6 month post-shelter follow-up) using the Mann-Whitney U.||||0.029
92273441|NCT02629133|184449345|SUPERIORITY||Mean Difference (Final Values)|4.5||||0.325|TWO_SIDED|95.0|-4.5|13.5||We used hierarchical linear modeling (HLM) to predict 3-mo and 6-mo post-shelter scores from treatment condition, using baseline score as a covariate.|Mixed Models Analysis|||||13.5|-4.5|0.325
92273442|NCT02629133|184449346|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.192|TWO_SIDED|95.0|-0.61|2.98||We used HLM to predict Cyber-Stalking Scores across 3 and 6 month post shelter follow-up points from treatment condition, using baseline score as a covariate.|Mixed Models Analysis||Higher scores represent more cyber-stalking over follow-up.|||2.98|-0.61|0.192
92273443|NCT02629133|184449347|SUPERIORITY||Mean Difference (Final Values)|-1.43||||0.119|TWO_SIDED|95.0|-3.24|0.38||We conducted HLM predicting SBC Total scores at 3 and 6 months post-shelter release from treatment condition, using baseline SBC score as a covariate.|Mixed Models Analysis||Higher is better (reflecting more safety behaviors used).|||0.38|-3.24|0.119
92273444|NCT02328807|184449353|OTHER||Negative biopsy rate at 6 months after R|0.667|||||TWO_SIDED|95.0|0.223|0.957|||||Two-sided exact confidence interval was calculated using Clopper-Pearson method.|This trail is a single cohort study and no statistical hypothesis test for the primary outcome was planned.||0.957|0.223|
92273445|NCT00078819|184449356|SUPERIORITY|The significance levels for primary and secondary efficacy end points were controlled at 0.05 with the use of a sequential testing scheme in this order: PASI 75, PASI 50, a physician's global assessment of clear or almost clear, percentage improvement from baseline in CDLQI, and PASI 90.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test stratified by age group||||||<0.0001
92273446|NCT00078819|184449357|SUPERIORITY|The significance levels for primary and secondary efficacy end points were controlled at 0.05 with the use of a sequential testing scheme in this order: PASI 75, PASI 50, a physician's global assessment of clear or almost clear, percentage improvement from baseline in CDLQI, and PASI 90.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test stratified by age group||||||<0.0001
92273447|NCT00078819|184449358|SUPERIORITY|The significance levels for primary and secondary efficacy end points were controlled at 0.05 with the use of a sequential testing scheme in this order: PASI 75, PASI 50, a physician's global assessment of clear or almost clear, percentage improvement from baseline in CDLQI, and PASI 90.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test stratified by age group||||||<0.0001
92273448|NCT00078819|184449359|SUPERIORITY|The significance levels for primary and secondary efficacy end points were controlled at 0.05 with the use of a sequential testing scheme in this order: PASI 75, PASI 50, a physician's global assessment of clear or almost clear, percentage improvement from baseline in CDLQI, and PASI 90.|||||<|0.0001|||||||Van Elteren test|Two-sided van Elteren's test stratified by age group||||||<0.0001
92397926|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.91||||0.0101|TWO_SIDED|95.0|1.46|16.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.53|1.46|0.0101
92397927|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.88||||0.0572|TWO_SIDED|95.0|0.97|8.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.55|0.97|0.0572
92397928|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.19||||0.7348|TWO_SIDED|95.0|0.44|3.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||3.20|0.44|0.7348
92273449|NCT00078819|184449360|SUPERIORITY|The significance levels for primary and secondary efficacy end points were controlled at 0.05 with the use of a sequential testing scheme in this order: PASI 75, PASI 50, a physician's global assessment of clear or almost clear, percentage improvement from baseline in CDLQI, and PASI 90.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test stratified by age group||||||<0.0001
92273450|NCT00065065|184449406|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0||||0.005||95.0|1.5|10.5|||Regression, Logistic|||||10.5|1.5|.005
92273451|NCT02556632|184449465|OTHER|||||||0.9306|||||||ANOVA|||||||0.9306
92273452|NCT02556632|184449466|OTHER|||||||0.8048|||||||Fisher Exact|||||||0.8048
92273453|NCT02556632|184449467|OTHER|||||||0.8591|||||||ANOVA|||||||0.8591
92273454|NCT04355767|184449497|SUPERIORITY|||||||||||||||||Analysis is of patients with a disease-progression event. The trial required a sample size of 900 patients to detect an absolute between-group difference of 10 percentage points (the minimum difference that we considered to be clinically important) with a power of 85%.|A Bayesian framework was used to calculate a risk difference of 1.9 percentage points (placebo group minus convalescent-plasma group) with a 95% credible interval of -6.0 to 9.8. The posterior probability of superiority was calculated to be 0.68. Efficacy was defined as a posterior probability of 0.975 or more that the proportion of patients with outcome events was higher in the placebo group.|||
92273455|NCT04355767|184449497|SUPERIORITY||Risk Difference (RD)|2.2|||||TWO_SIDED|95.0|-5.9|10.4|||||Risk difference after adjustment for age, sex, symptom duration.|Analysis is of patients with a disease-progression event.||10.4|-5.9|
92273456|NCT04355767|184449498|SUPERIORITY|||||||||||||||||Analysis is of patients with a disease-progression event.|A Bayesian framework was used to calculate a risk difference of 3.0 percentage points (placebo group minus convalescent-plasma group) with a 95% credible interval of -4.9 to 10.8. The posterior probability of superiority was calculated to be 0.76. Efficacy was defined as a posterior probability of 0.975 or more that the proportion of patients with outcome events was higher in the placebo group.|||
92273457|NCT04355767|184449500|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.69|1.17||||||||1.17|0.69|
92273458|NCT04355767|184449501|OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.4|1.1||||||||1.1|-0.4|
92214313|NCT01295281|184328303|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"Two catheters were tested regarding subjects' perception when using them, in a cross over design. After using each catheter for 1 week the subjects were asked: Do you experience discomfort when using your catheter?, and the subjects were supposed to answer Yes or No. The hypothesis to be investigated was that the tolerability/perception was about the same for each type of catheter, i.e. the POBE 2.0 should be non-inferior compared to PVC. H0: p(disc. POBE - Yes) = p(disc. PVC - Yes)"||||||0.0066|||||||McNemar|||The size of the target population was estimated by calculating 95% Confidence Interval (CI) of a possible difference between the two catheter types. The width of the interval was decided on the proportion of patients who would prefer one or the other catheter. Max width was seen when both proportions were 0.5. A total of 90 evaluable subjects limited the maximum width to 0.41, which was considered narrow enough from a scientific point of view, why this sample size was used in the study.||||0.0066
92214314|NCT00292461|184328316|SUPERIORITY_OR_OTHER|||||||0.24|||||||ANOVA|||||||0.240
92214315|NCT00292461|184328317|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Cochran-Mantel-Haenszel|||||||0.460
92214316|NCT00292461|184328318|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||Cochran-Mantel-Haenszel|||||||0.079
92214317|NCT00292461|184328319|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Cochran-Mantel-Haenszel|||||||0.860
92214318|NCT02708095|184328322|SUPERIORITY||Odds Ratio (OR)|1.28||||0.392|TWO_SIDED|95.0|0.73|2.27|||Regression, Logistic|||||2.27|0.73|0.392
92214319|NCT02708095|184328322|SUPERIORITY||Odds Ratio (OR)|1.84||||0.041|TWO_SIDED|95.0|1.02|3.29|||Regression, Logistic|||||3.29|1.02|0.041
92214320|NCT02708095|184328323|SUPERIORITY||Odds Ratio, log|1.25||||0.44|TWO_SIDED|95.0|0.71|2.19|||Regression, Logistic|||||2.19|0.71|0.440
92214321|NCT02708095|184328323|SUPERIORITY||Odds Ratio (OR)|2.04||||0.015|TWO_SIDED|95.0|1.15|3.62|||Regression, Logistic|||||3.62|1.15|0.015
92273459|NCT00301873|184449520|SUPERIORITY_OR_OTHER||Slope|-0.107|STANDARD_ERROR_OF_MEAN|0.0855||0.2212||95.0||||The p-value is a test of whether the slope of the regression line is non-zero.|Regression, Linear|The linear regression assesses the relationship between baseline baseline steroid use and BMD change at 6 months (outcome).||59 patients were accrued to the study. The 27 patients with follow-up at 6 months are included in an analysis to assess the association between baseline steroid use and bone mass density at 6 months using linear regression.||||.2212
92273460|NCT00301873|184449520|SUPERIORITY_OR_OTHER||Slope|0.2357|STANDARD_ERROR_OF_MEAN|0.1091||0.0413||95.0||||this p-value is at test of whether the slope of the regression line is non-zero.|Regression, Linear|The linear regression assesses the relationship between anticonvulsant use and BMD change at 6 months (outcome).||59 patients were accrued to the study. The 27 patients with follow-up at 6 months are included in an analysis to assess the association between baseline anticonvulsant use and bone mass density at 6 months using linear regression||||.0413
92273461|NCT00301873|184449520|SUPERIORITY_OR_OTHER||Slope|-0.232|STANDARD_ERROR_OF_MEAN|0.1029||0.0418||95.0||||this p-value is at test of whether the slope of the regression line is non-zero.|Regression, Linear|The linear regression assesses the relationship between baseline steroid use and BMD change at 12 months (outcome).||59 patients were accrued to the study. The 19 patients with follow-up at 12 months are included in an analysis to assess the association between baseline steroid use and bone mass density at 12 months using linear regression||||.0418
92273462|NCT00301873|184449520|SUPERIORITY_OR_OTHER||Slope|0.2123|STANDARD_ERROR_OF_MEAN|0.1209||0.1026||95.0||||the p-value is a test of whether the slope ofl the regression line is non-zero.|Regression, Linear|The linear regression assesses the relationship between anticonvulsant use and BMD change at 12 months.||59 patients were accrued to the study. The 19 patients with follow-up at 12 months are included in an analysis to assess the association between baseline anti-convulsant use and bone mass density at 12 months using linear regression||||.1026
92273463|NCT04583592|184449523|SUPERIORITY|||||||0.787||||||\<0.05|Chi-squared|||||||0.787
92214322|NCT02708095|184328324|SUPERIORITY||LS Mean Difference (Final Vaules)|-0.26||||0.6|TWO_SIDED|95.0|-1.23|0.71|||Mixed Models Analysis|||||0.71|-1.23|0.600
92214323|NCT02708095|184328324|SUPERIORITY||LS Mean Difference (Final Vaules)|-0.58||||0.243|TWO_SIDED|95.0|-1.55|0.39|||Mixed Models Analysis|||||0.39|-1.55|0.243
92214324|NCT02708095|184328325|SUPERIORITY||LS Mean Difference (Final Vaules)|-0.16||||0.285|TWO_SIDED|95.0|-0.45|0.13|||Mixed Models Analysis|||||0.13|-0.45|0.285
92214325|NCT02708095|184328325|SUPERIORITY||LS Mean Difference (Final Vaules)|-0.33||||0.026|TWO_SIDED|95.0|-0.62|-0.04|||Mixed Models Analysis|||||-0.04|-0.62|0.026
92214326|NCT03602261|184328386|OTHER|||||||0.5536|||||||Fisher Exact|||||||0.5536
92214327|NCT03258554|184328402|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.8878|TWO_SIDED|95.0|0.84|2.12||One-sided significance level = 0.2|Log Rank||Reference arm = radiation therapy + cetuximab|Sixty-nine progression-free survival (PFS) events provides 0.80 power for a log-rank test with one-sided alpha of 0.20 to detect an improvement in PFS corresponding to a median of 2.35 years (RT+Durvalumab) compared to 1.53 years (RT+Cetuximab). A hazard ratio (RT+Durvalumab/RT+Cetuximab) ≤ 0.806 would indicate a rejection of the null hypothesis (no difference between the arms) and the study would continue to phase III; otherwise, the study would not continue to phase III.||2.12|0.84|0.8878
92214328|NCT03258554|184328403|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.8175|TWO_SIDED|95.0|0.74|2.28||One-side significance level = 0.025|Log Rank|||||2.28|0.74|0.8175
92214329|NCT03258554|184328404|SUPERIORITY||Hazard Ratio (HR)|1.71||||0.1001|TWO_SIDED|95.0|0.89|3.28||Two-sided significance level = 0.05|Log Rank||Reference level = RT+ Cetuximab|||3.28|0.89|0.1001
92214330|NCT03258554|184328405|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.5197|TWO_SIDED|95.0|0.32|1.77||Two-sided significance level = 0.05|Log Rank||Reference level = RT+ Cetuximab|||1.77|0.32|0.5197
92214331|NCT03258554|184328406|SUPERIORITY||Hazard Ratio (HR)|1.75||||0.3201|TWO_SIDED|95.0|0.57|5.38||Two-sided significance level = 0.05|Log Rank|||||5.38|0.57|0.3201
92214332|NCT03258554|184328407|SUPERIORITY|||||||1||||||Two-sided significance level = 0.05|Fisher Exact|||||||1.00
92214333|NCT03258554|184328408|SUPERIORITY|||||||0.0688||||||Two-side significance level = 0.05|Fisher Exact|||||||0.0688
92273464|NCT04523831|184449539|SUPERIORITY||Cox Proportional Hazard|0.53|||<|0.03|TWO_SIDED|95.0|0.3|0.96|||Regression, Linear|||||0.96|0.30|<0.03
92273465|NCT04523831|184449540|SUPERIORITY||Cox Proportional Hazard|0.51|||<|0.004|TWO_SIDED|95.0|0.32|0.8|||Regression, Logistic|||||0.80|0.32|<0.004
92273466|NCT04523831|184449541|SUPERIORITY||Cox Proportional Hazard|0.45|||<|0.013|TWO_SIDED|95.0|0.23|0.85|||Regression, Logistic|||||0.85|0.23|<0.013
92273467|NCT04523831|184449542|SUPERIORITY||Cox Proportional Hazard|0.58|||<|0.001|TWO_SIDED|95.0|0.44|0.81|||Regression, Logistic|||||0.81|0.44|<0.001
92273468|NCT02517099|184449556|SUPERIORITY||Median Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.384||0.05|TWO_SIDED|95.0|1.591|8.8|||Wilcoxon (Mann-Whitney)|||||8.80|1.591|0.05
92273469|NCT00766506|184449560|SUPERIORITY_OR_OTHER||Least square mean difference|-2.23|||<|0.001|TWO_SIDED|95.0|-2.55|-1.91|||ANCOVA|P-value was calculated from analysis of covariance (ANCOVA), with centre, surgery type and treatment included as covariates in the analysis.|Least square mean difference = Least square mean value for Fentanyl IONSYS group minus Least square mean value for Morphine IV PCA group|||-1.91|-2.55|<0.001
92273470|NCT00766506|184449561|SUPERIORITY_OR_OTHER|||||||0.219|||||||ANCOVA|P-value was calculated from ANCOVA, with centre, surgery type and treatment included as covariates in the analysis.||At Hour 24||||0.219
92273471|NCT00766506|184449561|SUPERIORITY_OR_OTHER|||||||0.299|||||||ANCOVA|P-value was calculated from ANCOVA, with centre, surgery type and treatment included as covariates in the analysis.||At Hour 48||||0.299
92273472|NCT00766506|184449561|SUPERIORITY_OR_OTHER|||||||0.136|||||||ANCOVA|P-value was calculated from ANCOVA, with centre, surgery type and treatment included as covariates in the analysis.||At study discontinuation or withdrawal||||0.136
92273473|NCT00766506|184449562|SUPERIORITY_OR_OTHER||Least square mean difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.74|-0.3|||ANCOVA|P-value was calculated from ANCOVA, with centre, surgery type and treatment included as covariates in the analysis.|Least square mean difference = Least square mean value for Fentanyl IONSYS group minus Least square mean value for Morphine IV PCA group|||-0.30|-0.74|<0.001
92273474|NCT00766506|184449563|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.131|TWO_SIDED|95.0|0.84|3.92|||Mantel Haenszel|P-value was calculated from a Mantel-Haenszel Chi-Squared test.||||3.92|0.84|0.131
92273475|NCT00766506|184449564|SUPERIORITY_OR_OTHER|||||||0.342|||||||Log Rank|P-value was calculated from a log-rank test stratified for surgery type.||||||0.342
92273476|NCT00766506|184449565|SUPERIORITY_OR_OTHER|||||||0.836|||||||Log Rank|P-value was calculated from a log-rank test stratified for surgery type.||||||0.836
92273477|NCT00766506|184449566|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0||||0.029|TWO_SIDED|95.0|1.04|24.03|||Chi-squared|||||24.03|1.04|0.029
92273478|NCT00766506|184449568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.23|TWO_SIDED|95.0|0.74|3.53|||Chi-squared|||Paracetamol: P-value was calculated using Chi-squared test.||3.53|0.74|0.230
92273479|NCT00766506|184449568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||0.163|TWO_SIDED|95.0|0.8|3.7|||Chi-squared|||NSAID's: P-value was calculated using Chi-squared test.||3.70|0.80|0.163
92273480|NCT03053622|184449570|OTHER||Ratio of Geometric Least Squares Means|0.996|||||TWO_SIDED|90.0|0.807|1.23||||||||1.23|0.807|
92273481|NCT03053622|184449570|OTHER||Ratio of Geometric Least Squares Means|0.729|||||TWO_SIDED|90.0|0.591|0.898||||||||0.898|0.591|
92273482|NCT03053622|184449570|OTHER||Ratio of Geometric Least Squares Means|0.422|||||TWO_SIDED|90.0|0.343|0.518||||||||0.518|0.343|
92273483|NCT03053622|184449570|OTHER||Ratio of Geometric Least Squares Means|0.307|||||TWO_SIDED|90.0|0.249|0.379||||||||0.379|0.249|
92273484|NCT03053622|184449571|OTHER||Ratio of Geometric Least Squares Means|0.986|||||TWO_SIDED|90.0|0.81|1.2||||||||1.20|0.810|
92273485|NCT03053622|184449571|OTHER||Ratio of Geometric Least Squares Means|0.753|||||TWO_SIDED|90.0|0.619|0.916||||||||0.916|0.619|
92273486|NCT03053622|184449572|OTHER||Median Difference (Final Values)|0.28|||||TWO_SIDED|90.0|-0.1|48.4||||||||48.40|-0.10|
92273487|NCT03053622|184449572|OTHER||Median Difference (Final Values)|0.25|||||TWO_SIDED|90.0|-0.25|23.97|||||"In this outcome, the median difference is not calculated by subtracting two observations, it is derived by Hodges-Lehmann approach to estimating location shift. This method will give the value of 0.25."|||23.97|-0.25|
92273488|NCT01406873|184449621|SUPERIORITY||||||<|0.01|||||||ANCOVA|||||||<0.01
92273489|NCT03990389|184449625|SUPERIORITY|||||||0.0618||||||Three degrees of freedom for the interaction test|Mixed Models Analysis|||||||0.0618
92273490|NCT03990389|184449625|SUPERIORITY||estimated treatment effect at month 1|-2.29|STANDARD_ERROR_OF_MEAN|1.8||0.63|TWO_SIDED|||||Bonferroni correction for 3 times points|Mixed Models Analysis|||||||0.63
92273491|NCT03990389|184449625|SUPERIORITY||estimated treatment effect at month 2|-5.19|STANDARD_ERROR_OF_MEAN|1.9||0.018|TWO_SIDED|||||Bonferroni correction for 3 times points|Mixed Models Analysis|||||||0.018
92273492|NCT03990389|184449625|SUPERIORITY||estimated treatment effect at month 3|-3.3|STANDARD_ERROR_OF_MEAN|1.9||0.234|TWO_SIDED|||||Bonferroni correction for 3 times points|Mixed Models Analysis|||||||0.234
92273493|NCT03990389|184449626|OTHER|||||||0.116|||||||t-test, 2 sided|||||||0.116
92273494|NCT00207714|184449631|SUPERIORITY_OR_OTHER|||||||0.01||||||A positive test is concluded if there is a significant difference between combined golimumab and placebo groups and at least one of the pair-wise comparisons at 0.05 level.|Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Week 16 between combined golimumab groups and Placebo +MTX group. Sample of 35 participants per treatment groups (140 in combined golimumab group and 35 in Placebo +MTX group) provides greater than 90% power assuming 60% golimumab response and 25 % response in Placebo +MTX.||||0.010
92273495|NCT00207714|184449631|SUPERIORITY_OR_OTHER|||||||0.056|||||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 16 between golimumab 50 mg every 4 weeks and Placebo + MTX. Sample of 35 participants per treatment groups (140 in combined golimumab group and 35 in Placebo +MTX group) provides greater than 90% power assuming 60% golimumab response and 25% response in placebo.||||0.056
92273496|NCT00207714|184449631|SUPERIORITY_OR_OTHER|||||||0.281|||||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 16 between Golimumab 50 mg every 2 or 4 Weeks and Placebo + MTX. Sample of 35 participants per treatment groups (140 in combined golimumab group and 35 in Placebo +MTX group) provides greater than 90% power assuming 60% golimumab response and 25% response in placebo.||||0.281
92273497|NCT00207714|184449631|SUPERIORITY_OR_OTHER|||||||0.119|||||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 16 between Golimumab 100 mg every 4 weeks and Placebo + MTX. Sample of 35 participants per treatment groups (140 in combined golimumab group and 35 in Placebo +MTX group) provides greater than 90% power assuming 60% golimumab response and 25% response in placebo.||||0.119
92273498|NCT00207714|184449631|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 16 between Golimumab 100 mg every 2 or 4 Weeks and Placebo + MTX. Sample of 35 participants per treatment groups (140 in combined golimumab group and 35 in Placebo +MTX group) provides greater than 90% power assuming 60% golimumab response and 25% response in placebo.||||<0.001
92214334|NCT03258554|184328411|SUPERIORITY||Cox Proportional Hazard|1.11|||||TWO_SIDED|95.0|0.62|1.97|||||Reference arm = RT + Cetuximab|CPS ≥ 1||1.97|0.62|
92214335|NCT03258554|184328411|SUPERIORITY||Cox Proportional Hazard|1.64|||||TWO_SIDED|95.0|0.66|4.06|||||Reference arm = RT + Cetuximab|CPS = 0||4.06|0.66|
92152173|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.38||||0.031|TWO_SIDED|95.0|0.03|0.72||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||5 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.72|0.03|0.031
92152174|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.78|||<|0.001|TWO_SIDED|95.0|0.33|1.23||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||10 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.23|0.33|<0.001
92152175|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.49||||0.031|TWO_SIDED|95.0|0.04|0.94||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||10 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.94|0.04|0.031
92152176|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.29||||0.119|TWO_SIDED|95.0|-0.07|0.66||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||10 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.66|-0.07|0.119
92152177|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.77||||0.002|TWO_SIDED|95.0|0.28|1.25||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||15 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.25|0.28|0.002
92152178|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.46||||0.061|TWO_SIDED|95.0|-0.02|0.95||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||15 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.95|-0.02|0.061
92152179|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.3||||0.131|TWO_SIDED|95.0|-0.09|0.7||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||15 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.70|-0.09|0.131
92152180|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.52||||0.044|TWO_SIDED|95.0|0.01|1.03||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||20 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.03|0.01|0.044
92214336|NCT03258554|184328411|SUPERIORITY|||||||0.41||||||Testing the interaction of treatment arm and PD-L1 expression (CPS ≥ 1, CPS = 0)|Regression, Cox|||Interaction||||0.41
92152181|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.43||||0.099|TWO_SIDED|95.0|-0.08|0.93||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||20 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.93|-0.08|0.099
92152182|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.1||||0.647|TWO_SIDED|95.0|-0.32|0.51||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||20 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.51|-0.32|0.647
92152183|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.6||||0.023|TWO_SIDED|95.0|0.08|1.11||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||25 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.11|0.08|0.023
92214337|NCT03258554|184328412|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.57|2.51|||||Reference arm = RT + cetuximab|p16-positive||2.51|0.57|
92214338|NCT03258554|184328412|SUPERIORITY||Hazard Ratio (HR)|1.55|||||TWO_SIDED|95.0|0.83|2.89|||||Reference arm = RT + cetuximab|p16-negative||2.89|0.83|
92214339|NCT03258554|184328412|SUPERIORITY|||||||0.61||||||Testing the interaction of treatment arm and p16 status (positive, negative)|Regression, Cox|||Interaction||||0.61
92214340|NCT01214187|184328416|SUPERIORITY||Mean Difference (Net)|-1.04|STANDARD_ERROR_OF_MEAN|0.81||0.2072|TWO_SIDED||||||ANOVA|Repeated measure ANOVA|Difference = (Change from baseline to Week 12 for Carbon monoxide group) minus (Change from baseline to Week 12 for Placebo group)|||||0.2072
92214341|NCT01214187|184328417|SUPERIORITY||Mean Difference (Net)|-0.85|STANDARD_ERROR_OF_MEAN|1.57||0.5882|TWO_SIDED||||||ANOVA|Repeated Measure ANOVA|Difference = (Change from baseline to week 12 for CO group) minus (Change from baseline to week 12 for placebo group)|||||0.5882
92214342|NCT01214187|184328418|SUPERIORITY||Mean Difference (Net)|0.64|STANDARD_ERROR_OF_MEAN|1.93||0.7401|TWO_SIDED||||||ANOVA|Repeated Measure ANOVA|difference=(change from baseline to week 12 for CO group) minus (change from baseline to week 12 for placebo group)|||||0.7401
92214343|NCT01214187|184328419|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-48.46|STANDARD_ERROR_OF_MEAN|18.14||0.0099|TWO_SIDED||||||ANOVA|Repeated measure ANOVA|Difference=(Change from baseline to week 12 for CO group) minus (Change from baseline to week 12 for placebo group)|||||0.0099
92214344|NCT01214187|184328420|SUPERIORITY||Mean Difference (Net)|-0.58|STANDARD_ERROR_OF_MEAN|2.42||0.8124|TWO_SIDED||||||ANOVA|Repeated measure ANOVA||||||0.8124
92214345|NCT00998426|184328425|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|||||This is the p value for the meter by time interaction|Random intercept model|||A random intercept model was used to fit the five subjects' glucose reading data over time. The fixed effect glucose meters, time effect and their interactions were included in the model.||||0.59
92214346|NCT02308007|184328427|SUPERIORITY|||||||0.03|||||||Chi-squared, Corrected|||||||0.030
92214347|NCT02308007|184328427|SUPERIORITY|||||||0.073|||||||Chi-squared, Corrected|||||||0.073
92214348|NCT02308007|184328427|SUPERIORITY|||||||0.0204|||||||Cochran-Mantel-Haenszel|||Stratified by race (black, white, or other race)||||0.0204
92214349|NCT02308007|184328427|SUPERIORITY|||||||0.0493|||||||Cochran-Mantel-Haenszel|||Stratified by race (black, white, or other race)||||0.0493
92214350|NCT02308007|184328428|SUPERIORITY|||||||0.015|||||||Chi-squared, Corrected|||||||0.015
92214351|NCT02308007|184328428|SUPERIORITY|||||||0.193|||||||Chi-squared, Corrected|||Difference for Terconazole/metronidazole vaginal gel cures minus metronidazole vaginal gel cures||||0.193
92214352|NCT02308007|184328429|SUPERIORITY|||||||0.012|||||||Chi-squared, Corrected|||||||0.012
92214353|NCT02308007|184328429|SUPERIORITY|||||||0.918|||||||Chi-squared, Corrected|||||||0.918
92214354|NCT01233869|184328437|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.86|||<|0.0001|TWO_SIDED|95.0|2.02|5.74|||Mixed Models Analysis|||Statistical Analysis 1 is comparison of annualized rate of kidney enlargement: placebo versus pooled bosutinib.||5.74|2.02|<0.0001
92273499|NCT00207714|184449632|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA on van der Waerden normal scores.|||No difference in ACRn scores measured as percentage of improvement from baseline at Week 16 between Placebo + MTX and combined golimumab groups.||||0.001
92273500|NCT00207714|184449632|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA on van der Waerden normal scores.|||No difference in ACRn scores measured as percentage of improvement from baseline at Week 16 between Placebo + MTX and Golimumab 50 mg every 4 weeks||||0.006
92214355|NCT01233869|184328437|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.83||||0.1234|TWO_SIDED|95.0|-0.5|4.22|||Mixed Models Analysis|||Statistical Analysis 2 is comparison of annualized rate of kidney enlargement: bosutinib 200 mg/day versus bosutinib 400/200 mg/day.||4.22|-0.50|0.1234
92214356|NCT01233869|184328437|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.06||||0.005|TWO_SIDED|95.0|0.93|5.23|||Mixed Models Analysis|||Statistical Analysis 3 is comparison of annualized rate of kidney enlargement: placebo versus bosutinib 200 mg/day.||5.23|0.93|0.0050
92214357|NCT01233869|184328437|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.41||||0.1336|TWO_SIDED|95.0|-1.03|8.05|||Mixed Models Analysis|||Statistical Analysis 4 is comparison of annualized rate of kidney enlargement: placebo versus bosutinib 400 mg/day.||8.05|-1.03|0.1336
92214358|NCT01233869|184328437|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.95|||<|0.0001|TWO_SIDED|95.0|2.65|7.3|||Mixed Models Analysis|||Statistical Analysis 5 is comparison of annualized rate of kidney enlargement: placebo versus bosutinib 400/200 mg/day.||7.30|2.65|<0.0001
92214359|NCT01324323|184328459|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean (%)|179.3|||||TWO_SIDED|90.0|160.3|200.7|||ANOVA||"Ratio (Romidepsin + rifampin/Romidepsin) and 90% CI of the ratio of geometric means are from an ANOVA model with treatment as fixed effect and subject as random effect on the natural log transformed PK values."|||200.7|160.3|
92214360|NCT01324323|184328460|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|178.3|||||TWO_SIDED|90.0|159.4|199.4|||ANOVA||"Ratio (Romidepsin + rifampin/Romidepsin) and 90% CI of the ratio of geometric means are from an ANOVA model with treatment as fixed effect and subject as random effect on the natural log transformed PK values."|||199.4|159.4|
92214361|NCT01324323|184328461|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|179.6|||||TWO_SIDED|90.0|160.5|201.0|||ANOVA||"Ratio (Romidepsin + rifampin/Romidepsin) and 90% CI of the ratio of geometric means are from an ANOVA model with treatment as fixed effect and subject as random effect on the natural log transformed PK values."|||201.0|160.5|
92214362|NCT01324323|184328462|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|159.1|||||TWO_SIDED|90.0|135.8|186.5|||ANOVA||"Ratio (Romidepsin + rifampin/Romidepsin) and 90% CI of the ratio of geometric means are from an ANOVA model with treatment as fixed effect and subject as random effect on the natural log transformed PK values."|||186.5|135.8|
92214363|NCT01324323|184328463|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.15||||0.791|TWO_SIDED|90.0|-1.0|1.01|||Wilcoxon signed-rank|||"Note: The median, median difference (romidepsin + rifampin minus romidepsin) and 90% CI of the median difference are from Hodges-Lehmann Estimate. The P-value is from Wilcoxon signed-rank test."||1.01|-1.0|0.7910
92214364|NCT00537485|184328468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|1.2||0.002|TWO_SIDED|95.0|-3.7|1.1|||t-test, 2 sided|||||1.1|-3.7|0.002
92214365|NCT00537485|184328469|SUPERIORITY_OR_OTHER||Risk Difference (RD)|30.7|||<|0.001|TWO_SIDED|95.0|16.7|44.6|||Chi-squared, Corrected|||||44.6|16.7|<0.001
92273501|NCT00207714|184449632|SUPERIORITY_OR_OTHER|||||||0.095|||||||ANOVA on van der Waerden normal scores.|||No difference in ACRn scores measured as percentage of improvement from baseline at Week 16 between Placebo + MTX and Golimumab 50 mg every 2 or 4 Weeks||||0.095
92273502|NCT00207714|184449632|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANOVA on van der Waerden normal scores.|ANOVA on van der Waerden normal scores||No difference in ACRn scores measured as percentage of improvement from baseline at Week 16 between Placebo + MTX Golibumab 100 mg every 4 weeks||||0.010
92214366|NCT00537485|184328469|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.1|||<|0.001|TWO_SIDED|95.0|12.0|40.2|||Chi-squared, Corrected|||||40.2|12.0|<0.001
92214367|NCT02967354|184328478|SUPERIORITY|||||||0.5875||||||Treshold for significance P\<0.05|ANOVA|||||||0.5875
92214368|NCT02967354|184328479|SUPERIORITY|||||||0.0065||||||Treshold for significance P\<0.05|ANOVA|||||||0.0065
92214369|NCT02967354|184328480|SUPERIORITY|||||||0.0072||||||Treshold for significance P\<0.05|ANOVA|||||||0.0072
92214370|NCT02967354|184328481|SUPERIORITY|||||||0.9472||||||Treshold for significance P\<0.05|ANOVA|||||||0.9472
92214371|NCT02967354|184328482|SUPERIORITY|||||||0.0048||||||Treshold for significance P\<0.05|ANOVA|||||||0.0048
92214372|NCT01158651|184328483|SUPERIORITY|The treatment regimen was considered promising for further study if after 48 weeks of treatment there was at least a 25% response rate compared to an expected response rate of 5% or less, which was considered evidence of an unpromising regimen. Assuming the true response rate is 5%, the binomial distribution was used to calculate Type I errors and power.|Proportion responding|0.682|||<|0.001|TWO_SIDED|95.0|0.4872|0.8764|||Exact test|||||0.8764|0.4872|<0.001
92397929|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.2||||0.1397|TWO_SIDED|95.0|0.77|6.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.25|0.77|0.1397
92214373|NCT01191541|184328485|NON_INFERIORITY|The primary objective was to demonstrate the noninferiority of DNR alone to DNR+ARA-C in the rate of DFS at 2 years. Assuming a 95% rate of DFS in the two groups, a margin of -15% , 5% type 1 error, 80% power, 30 evaluable patients per group were required to draw a noninferiority conclusion.|||||<|0.05||||||the p-value is not adjusted|Log Rank|||The characteristics of all of the included patients were summarized using cross-tabulations (for categorical variables) and quantiles. Nonparametric tests were used to analyse comparisons between groups .EFS、disease-free survival (DFS) and OS were estimated using the Kaplan -Meier method, and log-rank tests were used. All P values were two-sided, and those with values of 0.05 or less were considered to be statistically significant.||||<0.05
92214374|NCT01601847|184328488|SUPERIORITY||Risk Ratio (RR)|0.66||||0.02|TWO_SIDED|95.0|0.47|0.94|||Poisson|Poisson regression using GEE with robust variance estimation (e.g. Zou, American Journal Epidemiology, 2004)||||0.94|0.47|0.02
92273503|NCT00207714|184449632|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on van der Waerden normal scores.|||No difference in ACRn scores measured as percentage of improvement from baseline at Week 16 between Placebo + MTX Golimumab 100 mg every 2 or 4 Weeks||||<0.001
92214375|NCT01601847|184328488|SUPERIORITY||Odds Ratio (OR)|0.522||||0.0185|TWO_SIDED|95.0|0.304|0.897|||logistic regression with GEE|||||0.897|0.304|0.0185
92214376|NCT01601847|184328489|SUPERIORITY|||||||0.228|||||||Regression, Logistic|||For secondary outcomes, GEE is used to assess randomization arm association.||||0.228
92214377|NCT01601847|184328490|SUPERIORITY|||||||0.798|||||||Regression, Logistic|||||||0.798
92214378|NCT04464265|184328503|OTHER|Our study adopted a within-subject design, which is not a randomized controlled trial (RCT). The P-value below indicates if propofol administration has a statistically significant impact on the brain activity in response to sensory stimuli.|Mean Difference (Net)|-3.0|STANDARD_DEVIATION|2.0|<|0.001|TWO_SIDED|||||The threshold for statistical significance was p=0.05. The p-value was not adjusted for multiple comparisons, as only one comparison was performed.|t-test, 2 sided||Difference = BOLD Response During Sedation - BOLD Response During Baseline|The null hypothesis is no difference in BOLD response between sedated state and baseline. For an fMRI study of cognitive function, Desmond and Glover (J. Neurosci. Methods., 2002) reported that about 25 subjects are necessary to achieve 80% power for a 0.5% increase of activity. We analyzed 27 subjects that fulfilled the suggested optimal group size for reliable statistics in functional MRI studies (also see Thirion et al., Neuroimage, 2007).||||<0.001
92214379|NCT04464265|184328504|OTHER|Our study adopted a within-subject design, which is not a randomized controlled trial (RCT). The P-value below indicates if propofol administration has a statistically significant impact on the brain activity in response to sensory stimuli.|Mean Difference (Net)|-2.72|STANDARD_DEVIATION|3.17|<|0.001|TWO_SIDED|||||The threshold for statistical significance was p=0.05. The p-value was not adjusted for multiple comparisons, as only one comparison was performed.|t-test, 2 sided||Difference = Squeeze Pressure During Sedation - Squeeze Pressure During Baseline|||||<0.001
92214380|NCT01063829|184328505|SUPERIORITY_OR_OTHER|||||||0.007|||||||Fisher Exact|||||||0.007
92214381|NCT01063829|184328505|SUPERIORITY_OR_OTHER|||||||0.014|||||||Fisher Exact|||||||0.014
92214382|NCT01063829|184328505|SUPERIORITY_OR_OTHER|||||||0.321|||||||Fisher Exact|||||||0.321
92214383|NCT01063829|184328506|SUPERIORITY_OR_OTHER|||||||0.002|||||||Log Rank|||||||0.002
92214384|NCT01063829|184328506|SUPERIORITY_OR_OTHER|||||||0.126|||||||Log Rank|||||||0.126
92214385|NCT01063829|184328506|SUPERIORITY_OR_OTHER|||||||0.148|||||||Log Rank|||||||0.148
92214386|NCT01063829|184328507|SUPERIORITY_OR_OTHER|||||||0.007|||||||Fisher Exact|||||||0.007
92214387|NCT01063829|184328507|SUPERIORITY_OR_OTHER|||||||0.014|||||||Fisher Exact|||||||0.014
92214388|NCT01063829|184328507|SUPERIORITY_OR_OTHER|||||||0.321|||||||Fisher Exact|||||||0.321
92214389|NCT01603082|184328575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-159.1|STANDARD_ERROR_OF_MEAN|17.9|<|0.001|TWO_SIDED|95.0|-194.7|-123.5|||t-test, 2 sided||Ticagrelor minus clopidogrel.|||-123.5|-194.7|<0.001
92214390|NCT01603082|184328576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.4|STANDARD_ERROR_OF_MEAN|15.2||0.182|TWO_SIDED|95.0|-50.5|9.7|||t-test, 2 sided||Ticagrelor minus clopidogrel.|Analysis at 0.5 hours after the loading dose||9.7|-50.5|0.182
92214391|NCT01603082|184328576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-158.5|STANDARD_ERROR_OF_MEAN|15.5|<|0.001|TWO_SIDED|95.0|-189.4|-127.7|||t-test, 2 sided||Ticagrelor minus clopidogrel.|Analysis at 8 hours after the loading dose.||-127.7|-189.4|<0.001
92214392|NCT01603082|184328576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.6|STANDARD_ERROR_OF_MEAN|16.5||0.01|TWO_SIDED|95.0|-76.5|-10.7|||t-test, 2 sided||Ticagrelor minus clopidogrel.|Analysis at end of PCI.||-10.7|-76.5|0.010
92273504|NCT02595528|184449633|SUPERIORITY||Least Squares (LS)|-2.5543||||0.0029|||||||Mixed model for repeated measures|||AGN-190584 Quadratic||||0.0029
92273505|NCT02595528|184449633|SUPERIORITY||Least Squares (LS)|6.6961|||<|0.0001|||||||Mixed model for repeated measures|||AGN-190584 Linear||||<0.0001
92273506|NCT02595528|184449633|SUPERIORITY||Least Squares (LS)|-69.89||||0.4126|||||||Mixed model for repeated measures|||AGN-199201 Quadratic||||0.4126
92397930|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.07||||0.0231|TWO_SIDED|95.0|1.21|13.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||13.64|1.21|0.0231
92397931|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.54||||0.0196|TWO_SIDED|95.0|1.27|16.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||16.15|1.27|0.0196
92152184|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.47||||0.072|TWO_SIDED|95.0|-0.04|0.98||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||25 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.98|-0.04|0.072
92152185|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.13||||0.551|TWO_SIDED|95.0|-0.29|0.55||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||25 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.55|-0.29|0.551
92152186|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.54||||0.047|TWO_SIDED|95.0|0.01|1.08||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||30 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.08|0.01|0.047
92152187|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.27||||0.316|TWO_SIDED|95.0|-0.26|0.81||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||30 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.81|-0.26|0.316
92152188|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.27||||0.224|TWO_SIDED|95.0|-0.17|0.71||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||30 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.71|-0.17|0.224
92152189|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.46||||0.099|TWO_SIDED|95.0|-0.09|1.01||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||40 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.01|-0.09|0.099
92152190|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.37||||0.186|TWO_SIDED|95.0|-0.18|0.92||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||40 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.92|-0.18|0.186
92152191|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.09||||0.684|TWO_SIDED|95.0|-0.35|0.54||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||40 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.54|-0.35|0.684
92152192|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.21||||0.452|TWO_SIDED|95.0|-0.34|0.76||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||50 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.76|-0.34|0.452
92152193|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.2||||0.479|TWO_SIDED|95.0|-0.35|0.75||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||50 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.75|-0.35|0.479
92152194|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.01||||0.955|TWO_SIDED|95.0|-0.44|0.46||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||50 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.46|-0.44|0.955
92273507|NCT02595528|184449633|SUPERIORITY||Least Squares (LS)|10.5017||||0.3752|||||||Mixed model for repeated measures|||AGN-199201 Linear||||0.3752
92273508|NCT03202511|184449634|EQUIVALENCE|0.8 to 1.25 equivalence margin was used.|Geometric Mean Ratio|1.61|||||TWO_SIDED|90.0|1.47|1.77||||||||1.77|1.47|
92273509|NCT03202511|184449635|EQUIVALENCE|80 to 125% equivalence margin was used.|Geometric Mean Ratio|77.4|||||TWO_SIDED|90.0|61.4|97.6||||||||97.6|61.4|
92273510|NCT02082912|184449654|SUPERIORITY||F statistic|0.216||||0.651|TWO_SIDED||||||ANOVA|||Values represent the time x treatment group interaction.||||0.651
92397932|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7703|TWO_SIDED|95.0|0.42|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||3.24|0.42|0.7703
92152195|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.21||||0.465|TWO_SIDED|95.0|-0.36|0.79||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||60 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.79|-0.36|0.465
92152196|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.0||||0.992|TWO_SIDED|95.0|-0.57|0.58||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||60 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.58|-0.57|0.992
92152197|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.21||||0.376|TWO_SIDED|95.0|-0.26|0.68||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||60 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.68|-0.26|0.376
92152198|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.36||||0.229|TWO_SIDED|95.0|-0.22|0.93||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||70 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.93|-0.22|0.229
92152199|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.16||||0.581|TWO_SIDED|95.0|-0.41|0.74||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||70 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.74|-0.41|0.581
92152200|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.19||||0.422|TWO_SIDED|95.0|-0.28|0.66||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||70 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.66|-0.28|0.422
92152201|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.33||||0.271|TWO_SIDED|95.0|-0.26|0.91||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||80 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.91|-0.26|0.271
92152202|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.15||||0.612|TWO_SIDED|95.0|-0.43|0.73||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||80 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.73|-0.43|0.612
92273511|NCT02082912|184449655|SUPERIORITY||F statistic|0.633||||0.447|TWO_SIDED||||||ANOVA|||Values represent the time x treatment group interaction.||||0.447
92397933|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.83||||0.0222|TWO_SIDED|95.0|1.21|12.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||12.12|1.21|0.0222
92152203|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.18||||0.465|TWO_SIDED|95.0|-0.3|0.65||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||80 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.65|-0.30|0.465
92152204|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.32||||0.29|TWO_SIDED|95.0|-0.27|0.91||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||90 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.91|-0.27|0.290
92152205|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.25||||0.412|TWO_SIDED|95.0|-0.34|0.83||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||90 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.83|-0.34|0.412
92152206|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.07||||0.769|TWO_SIDED|95.0|-0.41|0.55||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||90 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.55|-0.41|0.769
92273512|NCT02082912|184449656|SUPERIORITY||F statistic|0.557||||0.471|TWO_SIDED||||||ANOVA|||Values represent the time x treatment group interaction.||||0.471
92152207|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.15||||0.61|TWO_SIDED|95.0|-0.43|0.74||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||100 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.74|-0.43|0.610
92152208|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.2||||0.511|TWO_SIDED|95.0|-0.39|0.78||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||100 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.78|-0.39|0.511
92152209|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|-0.04||||0.859|TWO_SIDED|95.0|-0.52|0.43||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||100 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.43|-0.52|0.859
92152210|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.26||||0.386|TWO_SIDED|95.0|-0.33|0.84||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||110 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.84|-0.33|0.386
92152211|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.17||||0.563|TWO_SIDED|95.0|-0.41|0.76||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||110 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.76|-0.41|0.563
92152212|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.09||||0.721|TWO_SIDED|95.0|-0.39|0.56||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||110 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.56|-0.39|0.721
92152213|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.1||||0.725|TWO_SIDED|95.0|-0.48|0.69||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||120 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.69|-0.48|0.725
92152214|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.06||||0.839|TWO_SIDED|95.0|-0.52|0.64||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||120 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.64|-0.52|0.839
92152215|NCT00474175|184190041|SUPERIORITY_OR_OTHER||Treatment difference|0.04||||0.855|TWO_SIDED|95.0|-0.43|0.52||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||120 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.52|-0.43|0.855
92152216|NCT00474175|184190042|SUPERIORITY_OR_OTHER||Treatment difference|0.17||||0.035|TWO_SIDED|95.0|0.01|0.33||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test with modified ridit scores, adjusted for site baseline pain intensity. Treatment difference (Benzocaine 20% versus Placebo) and the associated confidence interval were calculated based on the weighted Gamma statistic.||0.33|0.01|0.035
92214393|NCT00846885|184328577|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|110.0||||||90.0|103.0|117.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||117|103|
92273513|NCT00782275|184449659|SUPERIORITY|||||||0.081|||||||exact binomial test|||The regimen was evaluated against an historical control with null and alternative 4-month PFS rates of 50% and 70%, respectively. With the final sample size of 40 eligible patients and using the same operating characteristics (alpha and beta 10%), the decision rule changes such that if 25 or more patients of 40 are alive and progression-free at 4 months then this regimen is considered promising.||||0.081
92273514|NCT04378010|184449663|OTHER||LS mean difference|1.88|STANDARD_ERROR_OF_MEAN|1.788||0.454|TWO_SIDED|95.0|-3.479|7.239|||Mixed model repeated measures|||||7.239|-3.479|0.454
92397934|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.77||||0.0668|TWO_SIDED|95.0|0.93|8.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.21|0.93|0.0668
92397935|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7533|TWO_SIDED|95.0|0.43|3.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.22|0.43|0.7533
92214394|NCT00846885|184328578|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|106.0||||||90.0|102.0|111.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||111|102|
92214395|NCT00846885|184328579|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|105.0||||||90.0|101.0|110.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||110|101|
92214396|NCT04884763|184328580|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.567|TWO_SIDED|95.0|-0.76|1.35||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.35|-0.76|0.567
92214397|NCT04884763|184328581|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.778|TWO_SIDED|95.0|-0.91|1.21||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.21|-0.91|0.778
92214398|NCT04884763|184328582|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.105|TWO_SIDED|95.0|-0.2|1.96||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.96|-0.20|0.105
92214399|NCT04884763|184328583|SUPERIORITY||Mean Difference (Final Values)|17.5||||0.163|TWO_SIDED|95.0|-7.6|42.7||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||42.7|-7.6|0.163
92214400|NCT04884763|184328584|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.91|TWO_SIDED|95.0|-1.13|1.01||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.01|-1.13|0.910
92214401|NCT04884763|184328585|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.972|TWO_SIDED|95.0|-0.83|0.8||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||0.80|-0.83|0.972
92214402|NCT04884763|184328586|SUPERIORITY||Mean Difference (Final Values)|2.81||||0.037|TWO_SIDED|95.0|0.18|5.43||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||5.43|0.18|0.037
92214403|NCT04884763|184328587|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.885|TWO_SIDED|95.0|-3.95|3.43||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||3.43|-3.95|0.885
92273515|NCT04378010|184449663|OTHER||LS mean difference|-0.439|STANDARD_ERROR_OF_MEAN|1.553||0.848|TWO_SIDED|95.0|-5.458|4.579|||Mixed model repeated measures|||||4.579|-5.458|0.848
92152217|NCT00474175|184190042|SUPERIORITY_OR_OTHER||Treatment difference|0.16||||0.039|TWO_SIDED|95.0|0.0|0.33||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test with modified ridit scores, adjusted for site baseline pain intensity. Treatment difference (Benzocaine 10% versus Placebo) and the associated confidence interval were calculated based on the weighted Gamma statistic.||0.33|-0.00|0.039
92152218|NCT00474175|184190042|SUPERIORITY_OR_OTHER||Treatment difference|-0.01||||0.944|TWO_SIDED|95.0|-0.15|0.13||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test with modified ridit scores, adjusted for site baseline pain intensity. Treatment difference (Benzocaine 20% versus Benzocaine 10%) and the associated confidence interval were calculated based on the weighted Gamma statistic.||0.13|-0.15|0.944
92152219|NCT00058019|184190099|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Fisher Exact|||||||0.022
92152220|NCT00058019|184190100|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
92152221|NCT00058019|184190102|SUPERIORITY_OR_OTHER|||||||0.695|TWO_SIDED|95.0|||||Log Rank|||||||0.695
92152222|NCT00058019|184190103|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED|95.0|||||Log Rank|||||||0.55
92152223|NCT00007475|184190109|SUPERIORITY_OR_OTHER||Proportion with reduced proteinuria|0.6363|STANDARD_ERROR_OF_MEAN|0.0698|<|0.0001|TWO_SIDED|95.0|0.3079|0.8907||Exact binomial test of proportion of participants exhibiting reduction in proteinuria (see definition below), under null hypothesis that the overall proportion is zero.|Exact binomial test|Tested under null hypothesis that the overall proportion is zero.|Proportion event definition: exhibiting reduction in proteinuria post-cyclophosphamide (complete- \[urine protein {UP} \<0.3\] or or partial-remission \[between 0.3 \& 2.0, inclusive\], limited response \[UP between 2.0 \& 3.5\] yet no relapse \[UP 3.5+\]).|No groups compared, yet null hypothesis: pooled proportion = 0, tested using counts pooled across baseline FPF assay-availability groups (7 across 3 arms) excluding 4 non-completers (yielding 7/11 with event below). Given the modest group-specific sample sizes and tendency for zero outcomes to be observed in a group, we employ exact binomial 95% confidence intervals using the method of Clopper and Pearson (1934; calculated along with corresponding tests using Michael Fay's exactci package in R).||0.8907|0.3079|<0.0001
92152224|NCT00737061|184190120|SUPERIORITY_OR_OTHER||Pregnancy Prevention Rate|98.9||||||95.0|97.9|100.0||||||1-sided confidence interval. No statistical hypothesis testing was performed. Confidence interval represents a 1-sided confidence interval for the pregnancy prevention rate in the EASE Trial. 95% confidence interval derived using Kaplan Meier methods (log-log with PETO adjustment).||100|97.9|
92152225|NCT00737061|184190120|SUPERIORITY_OR_OTHER||Pregnancy Prevention Rate|98.9||||||95.0|97.6|99.5||||||2-sided confidence interval. No statistical hypothesis testing was performed. Confidence interval represents a 2-sided confidence interval for the pregnancy prevention rate in the EASE Trial. 95% confidence interval derived using Kaplan Meier methods (log-log with PETO adjustment).||99.5|97.6|
92152226|NCT00737061|184190130|SUPERIORITY_OR_OTHER||Pregnancy Prevention Rate|98.4||||||95.0|97.2|100.0||||No statistical hypothesis testing was performed.||"1-sided Confidence Interval.~No hypothesis testing was performed. Confidence interval represents a 1-sided confidence interval for the pregnancy prevention rate in the EASE trial. 95% confidence interval derived using Kaplan Meier methods (log-log with PETO adjustment)."||100|97.2|
92152227|NCT00737061|184190130|SUPERIORITY_OR_OTHER||Pregnancy Prevention Rate|98.4||||||95.0|96.9|99.1||||No statistical hypothesis testing was performed.||"2-sided Confidence Interval~No hypothesis testing was performed. Confidence interval represents a 2-sided confidence interval for the pregnancy prevention rate in the EASE trial. 95% confidence interval derived using Kaplan Meier methods (log-log with PETO adjustment)."||99.1|96.9|
92152228|NCT00692406|184190153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0023|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
92152229|NCT00692406|184190154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1167|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
92152230|NCT00692406|184190155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0253|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
92152231|NCT00692406|184190156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1432|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
92152232|NCT00692406|184190157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0489|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
92152233|NCT00692406|184190158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0096|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
92152234|NCT00692406|184190159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0372|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
92152235|NCT00692406|184190160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
92152236|NCT01407354|184190181|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Chi-squared, Corrected|||||||0.05
92152237|NCT01407354|184190181|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|threshold p value for statistical significance=0.05||||||0.024
92152238|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-75.0||||0.4788|TWO_SIDED|95.0|-284.8|134.9|||Mixed Models Analysis|||Placebo versus GSK1399686 10 mg for ACTH 1||134.9|-284.8|0.4788
92152239|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|124.1||||0.2309|TWO_SIDED|95.0|-80.6|328.9|||Mixed Models Analysis|||Placebo versus GSK1399686 30 mg for ACTH 1||328.9|-80.6|0.2309
92152240|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-185.1||||0.0758|TWO_SIDED|95.0|-389.8|19.7|||Mixed Models Analysis|||Placebo versus GSK1399686 100 mg for ACTH 1||19.7|-389.8|0.0758
92214404|NCT04884763|184328588|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.474|TWO_SIDED|95.0|-0.87|1.81||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.81|-0.87|0.474
92214405|NCT04884763|184328589|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.822|TWO_SIDED|95.0|-1.94|1.56||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.56|-1.94|0.822
92214406|NCT04884763|184328590|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.455|TWO_SIDED|95.0|-0.88|1.91||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.91|-0.88|0.455
92214407|NCT04884763|184328591|SUPERIORITY||Mean Difference (Final Values)|7.1||||0.467|TWO_SIDED|95.0|-12.8|27.0||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||27.0|-12.8|0.467
92214408|NCT04884763|184328592|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.755|TWO_SIDED|95.0|-0.79|1.07||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.07|-0.79|0.755
92214409|NCT04884763|184328593|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.613|TWO_SIDED|95.0|-1.18|0.71||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||0.71|-1.18|0.613
92214410|NCT04884763|184328594|SUPERIORITY||Mean Difference (Final Values)|2.58||||0.003|TWO_SIDED|95.0|0.94|4.22||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||4.22|0.94|0.003
92214411|NCT04884763|184328595|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.536|TWO_SIDED|95.0|-2.7|5.08||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||5.08|-2.70|0.536
92273516|NCT04378010|184449674|OTHER||LS mean difference|-11.718|STANDARD_ERROR_OF_MEAN|7.052||0.114|TWO_SIDED|95.0|-26.342|2.906|||ANCOVA|||||2.906|-26.342|0.114
92273517|NCT04378010|184449674|OTHER||LS mean difference|-11.261|STANDARD_ERROR_OF_MEAN|6.879||0.099|TWO_SIDED|95.0|-24.723|2.2|||ANCOVA|||||2.200|-24.723|0.099
92273518|NCT04378010|184449675|OTHER||LS mean difference|1.05|STANDARD_ERROR_OF_MEAN|0.331||0.003|TWO_SIDED|95.0|0.365|1.736|||ANCOVA|||||1.736|0.365|0.003
92273519|NCT04378010|184449675|OTHER||LS mean difference|0.591|STANDARD_ERROR_OF_MEAN|0.315||0.064|TWO_SIDED|95.0|-0.035|1.216|||ANCOVA|||||1.216|-0.035|0.064
92273520|NCT04378010|184449679|OTHER||LS mean difference|12.986|STANDARD_ERROR_OF_MEAN|5.472||0.04|TWO_SIDED|95.0|0.608|25.363|||Mixed model repeated measures|||||25.363|0.608|0.040
92273521|NCT04378010|184449679|OTHER||LS mean difference|7.211|STANDARD_ERROR_OF_MEAN|5.724||0.242|TWO_SIDED|95.0|-4.997|19.418|||Mixed model repeated measures|||||19.418|-4.997|0.242
92273522|NCT01928446|184449717|SUPERIORITY||Cox Proportional Hazard|1.1||||0.61|TWO_SIDED|95.0|0.77|1.55|||Log Rank|||Model1 - Treatment only: unadjusted for other covariates||1.55|0.77|0.61
92273523|NCT01928446|184449717|SUPERIORITY||Cox Proportional Hazard|1.08||||0.67|TWO_SIDED|95.0|0.76|1.53|||Log Rank|||Model2 - Treatment only: unadjusted with Site as random Effect||1.53|0.76|0.67
92273524|NCT01928446|184449718|SUPERIORITY||Cox Proportional Hazard|1.49||||0.37|TWO_SIDED|95.0|0.61|3.64|||Log Rank|||||3.64|0.61|0.37
92273525|NCT01928446|184449719|SUPERIORITY||Cox Proportional Hazard|1.14||||0.77|TWO_SIDED|95.0|0.48|2.69|||Log Rank|||Model 5: Non-fatal self-directed violence subgroup||2.69|0.48|0.77
92152241|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Median Difference (Net)|130.4||||0.2084|TWO_SIDED|95.0|-74.4|335.1|||Mixed Models Analysis|||Placebo versus GSK1399686 300 mg for ACTH 1||335.1|-74.4|0.2084
92152242|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|132.6||||0.1684|TWO_SIDED|95.0|-57.4|322.6|||Mixed Models Analysis|||Placebo versus Asacol for ACTH 1||322.6|-57.4|0.1684
92152243|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-90.4||||0.5122|TWO_SIDED|95.0|-364.7|184.0|||Mixed Models Analysis|||Placebo versus GSK1399686 10 mg for ACTH 2||184.0|-364.7|0.5122
92152244|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-75.5||||0.5417|TWO_SIDED|95.0|-321.7|170.7|||Mixed Models Analysis|||Placebo versus GSK1399686 30 mg for ACTH 2||170.7|-321.7|0.5417
92152245|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.4||||0.6511|TWO_SIDED|95.0|-294.2|185.3|||Mixed Models Analysis|||Placebo versus GSK1399686 100 mg for ACTH 2||185.3|-294.2|0.6511
92152246|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|64.7||||0.6117|TWO_SIDED|95.0|-189.1|318.5|||Mixed Models Analysis|||Placebo versus GSK1399686 300 mg for ACTH 2||318.5|-189.1|0.6117
92152247|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-99.7||||0.3882|TWO_SIDED|95.0|-329.3|129.9|||Mixed Models Analysis|||Placebo versus Asacol for ACTH 2||129.9|-329.3|0.3882
92152248|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-125.5||||0.4781|TWO_SIDED|95.0|-477.5|226.5|||Mixed Models Analysis|||Placebo versus GSK1399686 10 mg for ACTH effect||226.5|-477.5|0.4781
92152249|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-277.9||||0.0834|TWO_SIDED|95.0|-593.7|37.9|||Mixed Models Analysis|||Placebo versus GSK1399686 30 mg for ACTH effect||37.9|-593.7|0.0834
92152250|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|121.7||||0.4313|TWO_SIDED|95.0|-185.8|429.3|||Mixed Models Analysis|||Placebo versus GSK1399686 100 mg for ACTH effect||429.3|-185.8|0.4313
92152251|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-73.5||||0.6528|TWO_SIDED|95.0|-399.1|252.0|||Mixed Models Analysis|||Placebo versus GSK1399686 300 mg for ACTH effect||252.0|-399.1|0.6528
92152252|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-248.5||||0.0966|TWO_SIDED|95.0|-542.9|46.0|||Mixed Models Analysis|||Placebo versus Asacol for ACTH effect||46.0|-542.9|0.0966
92152253|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.2||||0.7704|TWO_SIDED|95.0|-187.6|252.0|||Mixed Models Analysis|||Placebo versus GSK1399686 10 mg for ACTH morning||252.0|-187.6|0.7704
92152254|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|165.3||||0.0988|TWO_SIDED|95.0|-32.0|362.5|||Mixed Models Analysis|||Placebo versus GSK1399686 30 mg for ACTH morning||362.5|-32.0|0.0988
92273526|NCT01928446|184449719|SUPERIORITY||Cox Proportional Hazard|1.61||||0.22|TWO_SIDED|95.0|0.75|3.43|||Log Rank|||Model 6: Interrupted self-directed violence subgroup||3.43|0.75|0.22
92152255|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-153.4||||0.1153|TWO_SIDED|95.0|-345.5|38.7|||Mixed Models Analysis|||Placebo versus GSK1399686 100 mg for ACTH morning||38.7|-345.5|0.1153
92152256|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.7||||0.9636|TWO_SIDED|95.0|-198.7|208.0|||Mixed Models Analysis|||Placebo versus GSK1399686 300 mg for ACTH morning||208.0|-198.7|0.9636
92152257|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|119.8||||0.1972|TWO_SIDED|95.0|-64.1|303.8|||Mixed Models Analysis|||Placebo versus Asacol for ACTH morning||303.8|-64.1|0.1972
92152258|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-207.6||||0.0495|TWO_SIDED|95.0|-414.6|-0.5|||Mixed Models Analysis|||Asacol versus GSK1399686 10 mg for ACTH 1||-0.5|-414.6|0.0495
92152259|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.5||||0.9333|TWO_SIDED|95.0|-210.4|193.4|||Mixed Models Analysis|||Asacol versus GSK1399686 30 mg for ACTH 1||193.4|-210.4|0.9333
92152260|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-317.7||||0.0025|TWO_SIDED|95.0|-519.6|-115.8|||Mixed Models Analysis|||Asacol versus GSK1399686 100 mg for ACTH 1||-115.8|-519.6|0.0025
92152261|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.9823|TWO_SIDED|95.0|-204.1|199.6|||Mixed Models Analysis|||Asacol versus GSK1399686 300 mg for ACTH 1||199.6|-204.1|0.9823
92152262|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.3||||0.946|TWO_SIDED|95.0|-265.0|283.7|||Mixed Models Analysis|||Asacol versus GSK1399686 10 mg for ACTH 2||283.7|-265.0|0.9460
92152263|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.2||||0.8445|TWO_SIDED|95.0|-222.0|270.4|||Mixed Models Analysis|||Asacol versus GSK1399686 30 mg for ACTH 2||270.4|-222.0|0.8445
92152264|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|45.3||||0.7069|TWO_SIDED|95.0|-194.5|285.0|||Mixed Models Analysis|||Asacol versus GSK1399686 100 mg for ACTH 2||285.0|-194.5|0.7069
92273527|NCT01928446|184449719|SUPERIORITY||Cox Proportional Hazard|0.92||||0.71|TWO_SIDED|95.0|0.58|1.45|||Log Rank|||Model 7: Hospitalization to prevent suicide||1.45|0.58|0.71
92273528|NCT01244815|184449726|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares (LS) Means|-3.2||||0.008|TWO_SIDED|95.0|-5.6|-0.8||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|Mixed Model for Repeated Measures (MMRM)|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.8|-5.6|0.008
92273529|NCT01244815|184449726|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-5.3|||<|0.001|TWO_SIDED|95.0|-7.7|-2.9||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-2.9|-7.7|<0.001
92214412|NCT04561765|184328656|SUPERIORITY|||||||0.051|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at discharge||||0.051
92214413|NCT04561765|184328656|SUPERIORITY|||||||0.206|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at discharge.||||0.206
92214414|NCT04561765|184328656|SUPERIORITY|||||||0.765|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at discharge||||0.765
92214415|NCT04561765|184328656|SUPERIORITY|||||||0.991|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at follow-up.||||0.991
92214416|NCT04561765|184328656|SUPERIORITY|||||||0.963|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at discharge.||||0.963
92214417|NCT04561765|184328656|SUPERIORITY|||||||0.916|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at discharge.||||0.916
92214418|NCT04561765|184328657|SUPERIORITY|||||||0.005|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.005
92214419|NCT04561765|184328657|SUPERIORITY|||||||0.27|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.270
92214420|NCT04561765|184328657|SUPERIORITY|||||||0.177|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.177
92397936|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.67||||0.3325|TWO_SIDED|95.0|0.59|4.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.73|0.59|0.3325
92397937|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.71||||0.0899|TWO_SIDED|95.0|0.86|8.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||8.57|0.86|0.0899
92397938|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.31||||0.0642|TWO_SIDED|95.0|0.93|11.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||11.79|0.93|0.0642
92214421|NCT04561765|184328657|SUPERIORITY|||||||0.3|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P Value at follow-up.||||0.300
92214422|NCT04561765|184328657|SUPERIORITY|||||||0.996|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.996
92214423|NCT04561765|184328657|SUPERIORITY|||||||0.334|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.334
92214424|NCT04561765|184328659|SUPERIORITY|||||||0.212|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.212
92214425|NCT04561765|184328659|SUPERIORITY|||||||0.965|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.965
92214426|NCT04561765|184328659|SUPERIORITY|||||||0.294|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.294
92214427|NCT04561765|184328659|SUPERIORITY|||||||0.207|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.207
92214428|NCT04561765|184328659|SUPERIORITY|||||||0.158|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.158
92214429|NCT04561765|184328659|SUPERIORITY|||||||0.988|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.988
92214430|NCT04561765|184328661|SUPERIORITY|||||||0.295|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.295
92214431|NCT04561765|184328661|SUPERIORITY|||||||0.718|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.718
92214432|NCT04561765|184328661|SUPERIORITY|||||||0.738|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.738
92214433|NCT04561765|184328661|SUPERIORITY|||||||0.797|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.797
92214434|NCT04561765|184328661|SUPERIORITY|||||||0.26|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.260
92214435|NCT04561765|184328661|SUPERIORITY|||||||0.616|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.616
92214436|NCT04561765|184328662|SUPERIORITY|||||||0.333|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.333
92214437|NCT04561765|184328662|SUPERIORITY|||||||0.003|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.003
92214438|NCT04561765|184328662|SUPERIORITY|||||||0.106|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.106
92214439|NCT04561765|184328662|SUPERIORITY|||||||0.541|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.541
92214440|NCT04561765|184328662|SUPERIORITY|||||||0.202|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.202
92214441|NCT04561765|184328662|SUPERIORITY|||||||0.791|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.791
92214442|NCT04561765|184328663|SUPERIORITY|||||||0.026|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.026
92214443|NCT04561765|184328663|SUPERIORITY|||||||0.15|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.15
92214444|NCT04561765|184328663|SUPERIORITY|||||||0.745|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.745
92214445|NCT04561765|184328663|SUPERIORITY|||||||0.021|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.021
92214446|NCT04561765|184328663|SUPERIORITY|||||||0.155|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.155
92214447|NCT04561765|184328663|SUPERIORITY|||||||0.652|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.652
92214448|NCT04561765|184328664|SUPERIORITY|||||||0.343|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.343
92214449|NCT04561765|184328664|SUPERIORITY|||||||0.995|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.995
92214450|NCT04561765|184328664|SUPERIORITY|||||||0.371|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.371
92214451|NCT04561765|184328664|SUPERIORITY|||||||0.228|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.228
92214452|NCT04561765|184328664|SUPERIORITY|||||||0.282|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.282
92214453|NCT04561765|184328664|SUPERIORITY|||||||0.986|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.986
92214454|NCT04561765|184328665|SUPERIORITY|||||||0.421|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.421
92214455|NCT04561765|184328665|SUPERIORITY|||||||0.556|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.556
92214456|NCT01699789|184328668|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.57|0.95||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||0.95|0.57|
92214457|NCT01699789|184328669|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.48|1.26||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.26|0.48|
92214458|NCT01699789|184328670|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.61|0.97||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a logit link function was used with adjustment for covariates.|In an analysis of change from baseline in likelihood of Poor Mental Health Quality of Life, CEP showed a significant advantage at 6 months, but not at 12 months.|0.97|0.61|
92214459|NCT01699789|184328671|SUPERIORITY||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.7|2.3||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients at 3 years to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.3|0.7|
92273530|NCT01244815|184449726|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-6.2|||<|0.001|TWO_SIDED|95.0|-8.6|-3.8||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-3.8|-8.6|<0.001
92397939|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.34||||0.5964|TWO_SIDED|95.0|0.46|3.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.89|0.46|0.5964
92397940|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.43||||0.0224|TWO_SIDED|95.0|1.23|15.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||15.91|1.23|0.0224
92214460|NCT01699789|184328672|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.6|1.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients at 3 years to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.7|0.6|
92214461|NCT01699789|184328673|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.75|||||TWO_SIDED|95.0|1.19|2.59||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.59|1.19|
92214462|NCT01699789|184328674|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|1.03|2.04||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.04|1.03|
92397941|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.72||||0.3139|TWO_SIDED|95.0|0.6|4.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.96|0.60|0.3139
92152265|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|164.4||||0.1998|TWO_SIDED|95.0|-89.4|418.2|||Mixed Models Analysis|||Asacol versus GSK1399686 300 mg for ACTH 2||418.2|-89.4|0.1998
92273531|NCT01244815|184449726|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-4.92|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 1 (Placebo\<2.5 mg=5.0 mg=10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 1. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
92273532|NCT01244815|184449726|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-4.87|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 2 (Placebo=2.5 mg\<5.0 mg=10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 2. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
92273533|NCT01244815|184449726|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-3.4||||0.0021||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 3 (Placebo=2.5 mg=5.0 mg\<10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 3. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||0.0021
92273534|NCT01244815|184449726|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-5.28|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 4 (Placebo\<2.5 mg\<5.0 mg\<10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 4. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
92273535|NCT01244815|184449726|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-4.64|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 5 (Placebo=2.5 mg\<5.0 mg\<10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 5. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
92273536|NCT01244815|184449726|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-5.07|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 6 (Placebo\<2.5 mg=5.0 mg\<10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 6. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
92273537|NCT01244815|184449726|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-5.49|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 7 (Placebo\<2.5 mg\<5.0 mg=10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 7. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
92273538|NCT01244815|184449727|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.3||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.3|-0.9|<0.001
92273539|NCT01244815|184449727|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.7|||<|0.001|TWO_SIDED|95.0|-0.9|-0.4||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.4|-0.9|<0.001
92273540|NCT01244815|184449727|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.7|||<|0.001|TWO_SIDED|95.0|-1.0|-0.4||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.4|-1.0|<0.001
92214463|NCT01699789|184328675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|1.14|1.98||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.98|1.14|
92214464|NCT01699789|184328676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.61|||||TWO_SIDED|95.0|0.38|0.96||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||0.96|0.38|
92214465|NCT01699789|184328677|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09|||||TWO_SIDED|95.0|0.69|1.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.70|0.69|
92214466|NCT01699789|184328678|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.59|||||TWO_SIDED|95.0|0.32|1.09||||||Adjusted analyses used multiply imputed data (N= 249), weighted for eligible sample for enrollment; logistic regression model adjusted for baseline and covariates and accounted for the design effect of the cluster randomization.||1.09|0.32|
92214467|NCT01699789|184328679|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.51|||||TWO_SIDED|95.0|0.28|0.95||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||0.95|0.28|
92214468|NCT01699789|184328680|SUPERIORITY||Odds Ratio (OR)|0.34|||||TWO_SIDED|95.0|0.14|0.88||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||0.88|0.14|
92214469|NCT01699789|184328681|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.52|1.25|||||Median cut point for baseline variable.|Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.25|0.52|
92214470|NCT01699789|184328682|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.69|1.41||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition||1.41|0.69|
92214471|NCT01699789|184328683|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.7|1.46||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.46|0.70|
92214472|NCT01699789|184328684|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.63|||<|0.01|TWO_SIDED|95.0|1.4|4.94|||Regression, Logistic|||Adjusted analyses used multiply imputed data (N=298), weighted for eligible sample for enrollment; logistic regression model adjusted for baseline and covariates and accounted for the design effect of the cluster randomization.||4.94|1.40|<.01
92214473|NCT01699789|184328685|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.66|1.21||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a generalized estimating equation logistic regression model adjusted for covariates, accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.21|0.66|
92273541|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.0||||0.018|TWO_SIDED|95.0|1.2|7.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 4 (LOCF)||7.6|1.2|0.018
92214474|NCT01699789|184328686|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.61|1.4||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.40|0.61|
92152266|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|123.0||||0.4871|TWO_SIDED|95.0|-229.0|474.9|||Mixed Models Analysis|||Asacol versus GSK1399686 10 mg for ACTH effect||474.9|-229.0|0.4871
92152267|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.4||||0.8527|TWO_SIDED|95.0|-345.2|286.4|||Mixed Models Analysis|||Asacol versus GSK1399686 30 mg for ACTH effect||286.4|-345.2|0.8527
92152268|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|370.2||||0.0192|TWO_SIDED|95.0|62.6|677.8|||Mixed Models Analysis|||Asacol versus GSK1399686 100 mg for ACTH effect||677.8|62.6|0.0192
92152269|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|174.9||||0.2865|TWO_SIDED|95.0|-150.6|500.5|||Mixed Models Analysis|||Asacol versus GSK1399686 300 mg for ACTH effect||500.5|-150.6|0.2865
92152270|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-87.6||||0.4279|TWO_SIDED|95.0|-307.5|132.2|||Mixed Models Analysis|||Asacol versus GSK1399686 10 mg for ACTH morning||132.2|-307.5|0.4279
92152271|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|45.4||||0.6464|TWO_SIDED|95.0|-151.8|242.7|||Mixed Models Analysis|||Asacol versus GSK1399686 30 mg for ACTH morning||242.7|-151.8|0.6464
92152272|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-273.3||||0.0061|TWO_SIDED|95.0|-465.4|-81.2|||Mixed Models Analysis|||Asacol versus GSK1399686 100 mg for ACTH morning||-81.2|-465.4|0.0061
92152273|NCT01036022|184190188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-115.2||||0.2614|TWO_SIDED|95.0|-318.5|88.1|||Mixed Models Analysis|||Asacol versus GSK1399686 300 mg for ACTH morning||88.1|-318.5|0.2614
92152274|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.7559|TWO_SIDED|95.0|-2.0|1.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 1 SCCAI score||1.5|-2.0|0.7559
92152275|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.1238|TWO_SIDED|95.0|-0.4|3.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 1 SCCAI score||3.2|-0.4|0.1238
92152276|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.6302|TWO_SIDED|95.0|-1.3|2.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 1 SCCAI score||2.2|-1.3|0.6302
92152277|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.2777|TWO_SIDED|95.0|-0.8|2.8|||Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 1 SCCAI score||2.8|-0.8|0.2777
92152278|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.8069|TWO_SIDED|95.0|-1.4|1.8||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 1 SCCAI score||1.8|-1.4|0.8069
92152279|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.7699|TWO_SIDED|95.0|-1.6|2.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 2 SCCAI score||2.2|-1.6|0.7699
92152280|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.3869|TWO_SIDED|95.0|-1.1|2.8||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 2 SCCAI score||2.8|-1.1|0.3869
92152281|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.6695|TWO_SIDED|95.0|-2.4|1.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 2 SCCAI score||1.5|-2.4|0.6695
92152282|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.5152|TWO_SIDED|95.0|-1.4|2.7||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 2 SCCAI score||2.7|-1.4|0.5152
92152283|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.4507|TWO_SIDED|95.0|-2.4|1.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 2 SCCAI score||1.1|-2.4|0.4507
92152284|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.8707|TWO_SIDED|95.0|-1.9|2.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 3 SCCAI score||2.3|-1.9|0.8707
92152285|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.2915|TWO_SIDED|95.0|-0.9|3.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 3 SCCAI score||3.1|-0.9|0.2915
92152286|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.7251|TWO_SIDED|95.0|-2.4|1.7||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 3 SCCAI score||1.7|-2.4|0.7251
92152287|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.4556|TWO_SIDED|95.0|-1.3|2.9||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 3 SCCAI score||2.9|-1.3|0.4556
92152288|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.662|TWO_SIDED|95.0|-2.3|1.4||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 3 SCCAI score||1.4|-2.3|0.6620
92152289|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.2844|TWO_SIDED|95.0|-1.1|3.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 4 SCCAI score||3.5|-1.1|0.2844
92214475|NCT01699789|184328687|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.34|1.25||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.25|0.34|
92273542|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.4||||0.008|TWO_SIDED|95.0|1.4|8.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 4 (LOCF)||8.6|1.4|0.008
92397942|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.3||||0.6343|TWO_SIDED|95.0|0.45|3.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.76|0.45|0.6343
92152290|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.2799|TWO_SIDED|95.0|-1.0|3.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 4 SCCAI score||3.5|-1.0|0.2799
92152291|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.7655|TWO_SIDED|95.0|-1.9|2.6||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 4 SCCAI score||2.6|-1.9|0.7655
92152292|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.3332|TWO_SIDED|95.0|-1.2|3.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 4 SCCAI score||3.5|-1.2|0.3332
92152293|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.6985|TWO_SIDED|95.0|-1.6|2.4||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 4 SCCAI score||2.4|-1.6|0.6985
92152294|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.3256|TWO_SIDED|95.0|-1.3|3.7||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 5 SCCAI score||3.7|-1.3|0.3256
92152295|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.65|TWO_SIDED|95.0|-1.9|3.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 5 SCCAI score||3.0|-1.9|0.6500
92152296|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.8758|TWO_SIDED|95.0|-2.3|2.7||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 5 SCCAI score||2.7|-2.3|0.8758
92152297|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.7298|TWO_SIDED|95.0|-2.1|3.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 5 SCCAI score||3.0|-2.1|0.7298
92152298|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.5963|TWO_SIDED|95.0|-2.8|1.6||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 5 SCCAI score||1.6|-2.8|0.5963
92152299|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.6498|TWO_SIDED|95.0|-2.0|3.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 6 SCCAI score||3.1|-2.0|0.6498
92152300|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.7061|TWO_SIDED|95.0|-2.0|3.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 6 SCCAI score||3.0|-2.0|0.7061
92273543|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.1||||0.129|TWO_SIDED|95.0|0.8|5.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 4 (LOCF)||5.6|0.8|0.129
92397943|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6557|TWO_SIDED|95.0|0.45|3.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.61|0.45|0.6557
92152301|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.8549|TWO_SIDED|95.0|-2.7|2.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 6 SCCAI score||2.3|-2.7|0.8549
92152302|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.6533|TWO_SIDED|95.0|-2.0|3.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 6 SCCAI score||3.1|-2.0|0.6533
92152303|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.4378|TWO_SIDED|95.0|-3.1|1.4||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 6 SCCAI score||1.4|-3.1|0.4378
92214476|NCT01699789|184328688|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio (RR)|0.49|||||TWO_SIDED|95.0|0.3|0.82||||||Adjusted analyses used multiply imputed data (N=553), weighted for eligible sample for enrollment; Poisson regression model adjusted for baseline and covariates and accounted for the design effect of the cluster randomization.||0.82|0.30|
92397944|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.66||||0.0516|TWO_SIDED|95.0|0.99|13.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.51|0.99|0.0516
92214477|NCT01699789|184328689|SUPERIORITY||Rate Ratio (RR)|2.84|||||TWO_SIDED|95.0|1.39|5.8||||||Adjusted analyses used multiply imputed data (N=588), weighted for eligible sample for enrollment; Poisson regression model adjusted for baseline status of the dependent variable and covariates and accounted for the design effect of the cluster randomization.||5.80|1.39|
92214478|NCT01699789|184328690|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio (RR)|6.2|||||TWO_SIDED|95.0|1.5|24.9||||||Adjusted analyses used multiply imputed data (N=410), weighted for eligible sample for enrollment; Poisson regression model adjusted for baseline and covariates and accounted for the design effect of the cluster randomization.||24.9|1.5|
92214479|NCT01699789|184328691|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.59|1.57||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.57|0.59|
92214480|NCT01699789|184328692|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.4|1.22|||||When analyzed as change from baseline, CEP showed significant reductions in likelihood of behavioral health hospitalizations at 6 months (P \< 0.01) and 12 months (P \< 0.01).|Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a generalized estimating equation logistic regression model adjusted for covariates, accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.22|.40|
92214481|NCT01699789|184328693|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.66|1.66||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a logit link function was used with adjustment for covariates.||1.66|.66|
92214482|NCT01699789|184328694|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.74|1.42||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a generalized estimating equation logistic regression model adjusted for covariates, accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.42|0.74|
92214483|NCT01699789|184328695|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.6|1.05||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a logit link function was used with adjustment for covariates.||1.05|.60|
92214484|NCT01699789|184328696|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.72|1.32||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a logit link function was used with adjustment for covariates.||1.32|0.72|
92214485|NCT01699789|184328697|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.55|1.39||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a logit link function was used with adjustment for covariates.||1.39|0.55|
92214486|NCT01699789|184328698|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.65|1.29||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a log link function was used with adjustment for covariates.||1.29|0.65|
92214487|NCT01699789|184328699|SUPERIORITY||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|0.2|2.0||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a linear regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.0|0.2|
92214488|NCT01699789|184328700|SUPERIORITY||Rate Ratio (RR)|0.2|||||TWO_SIDED|95.0|0.1|0.8||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||0.8|0.1|
92214489|NCT01699789|184328701|SUPERIORITY||Rate Ratio (RR)|1.2|||||TWO_SIDED|95.0|0.4|3.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||3.7|0.4|
92152304|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.5917|TWO_SIDED|95.0|-2.2|1.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 1 SCCAI score||1.3|-2.2|0.5917
92273544|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.9||||0.003|TWO_SIDED|95.0|1.4|5.9||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 7 (LOCF)||5.9|1.4|0.003
92273545|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.8||||0.005|TWO_SIDED|95.0|1.4|5.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 7 (LOCF)||5.6|1.4|0.005
92273546|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.6|||<|0.001|TWO_SIDED|95.0|1.8|7.3||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 7 (LOCF)||7.3|1.8|<0.001
92273547|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.2||||0.018|TWO_SIDED|95.0|1.1|4.1||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 14 (LOCF)||4.1|1.1|0.018
92273548|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.1|||<|0.001|TWO_SIDED|95.0|2.2|7.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 14 (LOCF)||7.6|2.2|<0.001
92273549|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.1|||<|0.001|TWO_SIDED|95.0|2.2|7.6|||Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 14 (LOCF)||7.6|2.2|<0.001
92273550|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.042|TWO_SIDED|95.0|1.0|3.4||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 21 (LOCF)||3.4|1.0|0.042
92273551|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.2|||<|0.001|TWO_SIDED|95.0|1.7|5.8||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 21 (LOCF)||5.8|1.7|<0.001
92273552|NCT01244815|184449728|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.9|||<|0.001||95.0|1.6|5.3||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 21 (LOCF)||5.3|1.6|<0.001
92273553|NCT01244815|184449729|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25||||0.014|TWO_SIDED|95.0|-0.45|-0.05|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.05|-0.45|0.014
92273554|NCT01244815|184449729|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.17||||0.107|TWO_SIDED|95.0|-0.37|0.04|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.04|-0.37|0.107
92273555|NCT01244815|184449729|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.21||||0.039|TWO_SIDED|95.0|-0.42|-0.01|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.01|-0.42|0.039
92273556|NCT01244815|184449730|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.33||||0.006|TWO_SIDED|95.0|-0.56|-0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.10|-0.56|0.006
92273557|NCT01244815|184449730|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.35||||0.003|TWO_SIDED|95.0|-0.59|-0.12|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.12|-0.59|0.003
92397945|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.38||||0.04|TWO_SIDED|95.0|1.07|17.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||17.91|1.07|0.0400
92273558|NCT01244815|184449730|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.44|||<|0.001|TWO_SIDED|95.0|-0.67|-0.21|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.21|-0.67|<0.001
92397946|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.37||||0.5825|TWO_SIDED|95.0|0.44|4.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.24|0.44|0.5825
92152305|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.1764|TWO_SIDED|95.0|-0.5|2.9||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 1 SCCAI score||2.9|-0.5|0.1764
92273559|NCT01244815|184449731|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.34||||0.011|TWO_SIDED|95.0|-0.61|-0.08|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.08|-0.61|0.011
92273560|NCT01244815|184449731|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.63|||<|0.001|TWO_SIDED|95.0|-0.89|-0.36|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.36|-0.89|<0.001
92273561|NCT01244815|184449731|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.61|||<|0.001|TWO_SIDED|95.0|-0.88|-0.35|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.35|-0.88|<0.001
92273562|NCT01244815|184449732|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.61|||<|0.001|TWO_SIDED|95.0|-0.9|-0.32|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.32|-0.90|<0.001
92273563|NCT01244815|184449732|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.75|||<|0.001|TWO_SIDED|95.0|-1.04|-0.46|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.46|-1.04|<0.001
92273564|NCT01244815|184449732|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.74|||<|0.001|TWO_SIDED|95.0|-1.03|-0.45|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.45|-1.03|<0.001
92273565|NCT01244815|184449733|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.07||||0.536|TWO_SIDED|95.0|-0.28|0.15|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.15|-0.28|0.536
92397947|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|7.46||||0.0152|TWO_SIDED|95.0|1.47|37.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||37.83|1.47|0.0152
92152306|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.7914|TWO_SIDED|95.0|-1.5|2.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 1 SCCAI score||2.0|-1.5|0.7914
92152307|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.3578|TWO_SIDED|95.0|-0.9|2.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 1 SCCAI score||2.5|-0.9|0.3578
92152308|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.3247|TWO_SIDED|95.0|-1.0|2.9||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 2 SCCAI score||2.9|-1.0|0.3247
92152309|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.1153|TWO_SIDED|95.0|-0.4|3.4||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 2 SCCAI score||3.4|-0.4|0.1153
92152310|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.7995|TWO_SIDED|95.0|-1.7|2.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 2 SCCAI score||2.2|-1.7|0.7995
92152311|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.1786|TWO_SIDED|95.0|-0.6|3.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 2 SCCAI score||3.3|-0.6|0.1786
92152312|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.5824|TWO_SIDED|95.0|-1.5|2.7||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 3 SCCAI score||2.7|-1.5|0.5824
92214490|NCT01699789|184328702|SUPERIORITY||Rate Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.8|1.5||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.5|0.8|
92214491|NCT01699789|184328703|SUPERIORITY||Rate Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.5|2.1||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.1|0.5|
92214492|NCT01699789|184328704|SUPERIORITY||Rate Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.7|1.6||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.6|0.7|
92214493|NCT01699789|184328705|SUPERIORITY||Rate Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.3|4.0||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||4.0|0.3|
92214494|NCT01699789|184328706|SUPERIORITY||Rate Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.4|2.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.7|0.4|
92214495|NCT01699789|184328707|SUPERIORITY||Rate Ratio (RR)|1.4|||||TWO_SIDED|95.0|0.2|8.6||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||8.6|0.2|
92214496|NCT01699789|184328708|SUPERIORITY||Rate Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.4|1.8||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.8|0.4|
92214497|NCT01699789|184328709|SUPERIORITY||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|1.2|2.6||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.6|1.2|
92214498|NCT01699789|184328710|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.5|1.5||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.5|0.5|
92214499|NCT01699789|184328711|SUPERIORITY||Odds Ratio (OR)|2.9|||||TWO_SIDED|95.0|1.0|8.3||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||8.3|1.0|
92214500|NCT01699789|184328712|SUPERIORITY||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.7|1.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.7|0.7|
92214501|NCT01699789|184328713|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.5|2.0||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.0|0.5|
92214502|NCT01699789|184328714|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|1.0|2.0||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.0|1.0|
92152313|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.1392|TWO_SIDED|95.0|-0.5|3.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 3 SCCAI score||3.5|-0.5|0.1392
92152314|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9665|TWO_SIDED|95.0|-2.0|2.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 3 SCCAI score||2.1|-2.0|0.9665
92152315|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.2455|TWO_SIDED|95.0|-0.9|3.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 3 SCCAI score||3.3|-0.9|0.2455
92152316|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.4644|TWO_SIDED|95.0|-1.4|3.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 4 SCCAI score||3.1|-1.4|0.4644
92152317|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.4567|TWO_SIDED|95.0|-1.4|3.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 4 SCCAI score||3.0|-1.4|0.4567
92152318|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.9594|TWO_SIDED|95.0|-2.3|2.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 4 SCCAI score||2.2|-2.3|0.9594
92152319|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.5122|TWO_SIDED|95.0|-1.5|3.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 4 SCCAI score||3.0|-1.5|0.5122
92152320|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.1493|TWO_SIDED|95.0|-0.7|4.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 5 SCCAI score||4.3|-0.7|0.1493
92152321|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.3478|TWO_SIDED|95.0|-1.3|3.6||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 5 SCCAI score||3.6|-1.3|0.3478
92152322|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.5238|TWO_SIDED|95.0|-1.7|3.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 5 SCCAI score||3.2|-1.7|0.5238
92152323|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.4091|TWO_SIDED|95.0|-1.4|3.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 5 SCCAI score||3.5|-1.4|0.4091
92214503|NCT01699789|184328715|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.6|1.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.7|0.6|
92273566|NCT01244815|184449733|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.811|TWO_SIDED|95.0|-0.24|0.19|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.19|-0.24|0.811
92273567|NCT01244815|184449733|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.07||||0.556|TWO_SIDED|95.0|-0.15|0.28|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.28|-0.15|0.556
92214504|NCT01699789|184328716|SUPERIORITY||Cox Proportional Hazard|1.12|||>|0.05|TWO_SIDED|95.0|0.83|1.5|||Regression, Cox|||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Cox proportional-hazards model adjusted for baseline covariates. Data were multiply imputed and weighted for eligible sample for enrollment, accounted for the design effect of the cluster randomization.||1.50|0.83|>.05
92397948|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.3||||0.1565|TWO_SIDED|95.0|0.73|7.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||7.30|0.73|0.1565
92152324|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.2604|TWO_SIDED|95.0|-1.1|4.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 6 SCCAI score||4.0|-1.1|0.2604
92152325|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.2809|TWO_SIDED|95.0|-1.1|3.8||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 6 SCCAI score||3.8|-1.1|0.2809
92152326|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.6038|TWO_SIDED|95.0|-1.8|3.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 6 SCCAI score||3.1|-1.8|0.6038
92214505|NCT01699789|184328717|SUPERIORITY||Cox Proportional Hazard|1.23|||>|0.05|TWO_SIDED|95.0|0.99|1.52|||Regression, Cox|||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Cox proportional-hazards model adjusted for baseline covariates. Data were multiply imputed and weighted for eligible sample for enrollment, accounted for the design effect of the cluster randomization.||1.52|0.99|>0.05
92397949|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.45||||0.4932|TWO_SIDED|95.0|0.5|4.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.25|0.50|0.4932
92214506|NCT01699789|184328718|SUPERIORITY||Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|1.0|2.99||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline covariates. Data were multiply imputed and weighted for eligible sample for enrollment, accounted for the design effect of the cluster randomization.||2.99|1.00|
92214507|NCT01699789|184328719|SUPERIORITY||Odds Ratio (OR)|2.62|||||TWO_SIDED|95.0|1.24|5.54||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline covariates. Data were multiply imputed and weighted for eligible sample for enrollment, accounted for the design effect of the cluster randomization.||5.54|1.24|
92214508|NCT02511678|184328736|SUPERIORITY|||||||0.0746||||||The 1-sided p-value was based on a t-test against a performance goal of -2.|t-test, 1 sided|||||||0.0746
92214509|NCT03829319|184328792|OTHER||Hazard Ratio (HR)|0.88||||0.07976|TWO_SIDED|95.0|0.74|1.05|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.05|0.74|0.07976
92214510|NCT03829319|184328793|OTHER||Hazard Ratio (HR)|1.05||||0.70818|TWO_SIDED|95.0|0.88|1.26|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.26|0.88|0.70818
92214511|NCT03829319|184328794|OTHER||Percent Difference|6.3||||0.08643|TWO_SIDED|95.0|-2.8|15.4|||Stratified Miettinen & Nurminen|One-sided p-value for testing. H0: difference in percent = 0 versus H1: difference in percent \> 0.||Comparison based on Miettinen \& Nurminen method stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50% ).||15.4|-2.8|0.08643
92214512|NCT03829319|184328798|OTHER||Difference in Least Square Means|-1.01||||0.4805|TWO_SIDED|95.0|-3.83|1.8|||t-test, 2 sided|||Comparision based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (baseline ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status ( \<50% versus ≥50%)) as covariates.||1.80|-3.83|0.4805
92214513|NCT03829319|184328799|OTHER||Difference in Least Square Means|-0.29||||0.8747|TWO_SIDED|95.0|-3.95|3.36|||t-test, 2 sided|||Comparision based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (baseline ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status ( \<50% versus ≥50%)) as covariates.||3.36|-3.95|0.8747
92214514|NCT03829319|184328800|OTHER||Difference in Least Square Means|-0.91||||0.5941|TWO_SIDED|95.0|-4.24|2.43|||t-test, 2 sided|||Comparision based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (baseline ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (\<50% versus ≥50%)) as covariates.||2.43|-4.24|0.5941
92214515|NCT03829319|184328801|OTHER||covariate|-2.16||||0.3115|TWO_SIDED|95.0|-6.36|2.03|||t-test, 2 sided|||Comparision based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (baseline ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status ( \<50% versus ≥50%)) as covariates.||2.03|-6.36|0.3115
92214516|NCT03829319|184328802|OTHER||covariate|-0.37||||0.8134|TWO_SIDED|95.0|-3.47|2.72|||t-test, 2 sided|||Comparision based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (baseline ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status ( \<50% versus ≥50%)) as covariates.||2.72|-3.47|0.8134
92214517|NCT03829319|184328803|OTHER||Hazard Ratio (HR)|1.16||||0.2133|TWO_SIDED|95.0|0.92|1.47|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.47|0.92|0.2133
92214518|NCT03829319|184328804|OTHER||Hazard Ratio (HR)|1.41||||0.0377|TWO_SIDED|95.0|1.02|1.94|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.94|1.02|0.0377
92273568|NCT01244815|184449734|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.21||||0.053|TWO_SIDED|95.0|-0.42|0.0|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.00|-0.42|0.053
92214519|NCT03829319|184328805|OTHER||Hazard Ratio (HR)|0.87||||0.4084|TWO_SIDED|95.0|0.62|1.21|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.21|0.62|0.4084
92273569|NCT01244815|184449734|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.18||||0.094|TWO_SIDED|95.0|-0.4|0.03|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.03|-0.40|0.094
92273570|NCT01244815|184449734|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.15||||0.178|TWO_SIDED|95.0|-0.36|0.07|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.07|-0.36|0.178
92273571|NCT01244815|184449735|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.08||||0.506|TWO_SIDED|95.0|-0.33|0.16|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.16|-0.33|0.506
92273572|NCT01244815|184449735|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.19||||0.131|TWO_SIDED|95.0|-0.43|0.06|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.06|-0.43|0.131
92273573|NCT01244815|184449735|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.16||||0.211|TWO_SIDED|95.0|-0.4|0.09|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.09|-0.40|0.211
92273574|NCT01244815|184449736|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.23||||0.079|TWO_SIDED|95.0|-0.49|0.03|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.03|-0.49|0.079
92273575|NCT01244815|184449736|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.34||||0.01|TWO_SIDED|95.0|-0.6|-0.08|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.08|-0.60|0.010
92273576|NCT01244815|184449736|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.2||||0.139|TWO_SIDED|95.0|-0.46|0.06|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.06|-0.46|0.139
92273577|NCT01244815|184449737|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.61||||0.004|TWO_SIDED|95.0|-4.38|-0.83|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.83|-4.38|0.004
92273578|NCT01244815|184449737|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.17||||0.017|TWO_SIDED|95.0|-3.95|-0.39|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.39|-3.95|0.017
92273579|NCT01244815|184449737|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.16||||0.017|TWO_SIDED|95.0|-3.93|-0.38|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.38|-3.93|0.017
92273580|NCT01244815|184449738|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.79||||0.395|TWO_SIDED|95.0|-2.62|1.04|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||1.04|-2.62|0.395
92273581|NCT01244815|184449738|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.44||||0.009|TWO_SIDED|95.0|-4.26|-0.63|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.63|-4.26|0.009
92273582|NCT01244815|184449738|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.44||||0.121|TWO_SIDED|95.0|-3.27|0.38|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.38|-3.27|0.121
92397950|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8504|TWO_SIDED|95.0|0.39|3.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.12|0.39|0.8504
92152327|NCT01036022|184190190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.2511|TWO_SIDED|95.0|-1.1|3.9||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 6 SCCAI score||3.9|-1.1|0.2511
92273583|NCT01244815|184449739|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.44||||0.135|TWO_SIDED|95.0|-3.33|0.45|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.45|-3.33|0.135
92273584|NCT01244815|184449739|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.19||||0.023|TWO_SIDED|95.0|-4.08|-0.3|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.30|-4.08|0.023
92273585|NCT01244815|184449739|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.28||||0.189|TWO_SIDED|95.0|-3.2|0.63|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.63|-3.20|0.189
92397951|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.07||||0.0759|TWO_SIDED|95.0|0.89|10.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.61|0.89|0.0759
92273586|NCT01244815|184449740|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|4.29||||0.002|TWO_SIDED|95.0|1.56|7.02|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||7.02|1.56|0.002
92273587|NCT01244815|184449740|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|6.95|||<|0.001|TWO_SIDED|95.0|4.22|9.68|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||9.68|4.22|<0.001
92273588|NCT01244815|184449740|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|5.11|||<|0.001|TWO_SIDED|95.0|2.31|7.91|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||7.91|2.31|<0.001
92273589|NCT01244815|184449741|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|2.24||||0.05|TWO_SIDED|95.0|0.0|4.48|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||4.48|-0.00|0.050
92273590|NCT01244815|184449741|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|1.35||||0.239|TWO_SIDED|95.0|-0.9|3.59|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||3.59|-0.90|0.239
92273591|NCT01244815|184449741|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|2.78||||0.018|TWO_SIDED|95.0|0.48|5.08|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||5.08|0.48|0.018
92273592|NCT01244815|184449742|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.39||||0.001|TWO_SIDED|95.0|0.15|0.62|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||0.62|0.15|0.001
92273593|NCT01244815|184449742|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.18||||0.135|TWO_SIDED|95.0|-0.06|0.41|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||0.41|-0.06|0.135
92273594|NCT01244815|184449742|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.25||||0.044|TWO_SIDED|95.0|0.01|0.49|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||0.49|0.01|0.044
92273595|NCT02572427|184449777|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|TWO_SIDED||||||t-test, 2 sided|||||||0.039
92273596|NCT02572427|184449778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
92273597|NCT00386100|184449823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49|||<|0.0001|TWO_SIDED|95.0|-0.669|-0.305||No adjustment for multiple comparisons|ANCOVA|ANCOVA with terms for treatment, region, gender, and baseline value with LOCF from Week 32 for withdrawn participants or missing values|AVM mean change from baseline minus MET mean change from baseline based on ANCOVA model|||-0.305|-0.669|<0.0001
92273598|NCT00386100|184449824|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.69|-0.3||No adjustment for multiple comparisons|Repeated measures analysis|Repeated measures analysis with terms for baseline, region, treatment, gender, time, and treatment by time interaction|AVM mean change from baseline minus MET mean change from baseline based on repeated measures analysis model|||-0.30|-0.69|<0.0001
92273599|NCT00386100|184449825|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.0046|TWO_SIDED|95.0|1.18|2.46||Hb1AC \<= 6.5%|Regression, Logistic|Logistic reggression with terms for treatment, region, gender, and baseline Hb1AC with LOCF from Week 32.|Odds of having an HbA1c \<= 6.5% at Week 80 on Avandamet compared to Metformin.|||2.46|1.18|0.0046
92273600|NCT00386100|184449825|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.59|||<|0.0001|TWO_SIDED|95.0|1.75|3.81||Hb1AC \< 7%|Regression, Logistic|Logistic reggression with terms for treatment, region, gender, and baseline Hb1AC with LOCF from Week 32|Odds of having an HbA1c \<7% at Week 80 on Avandamet compared to Metformin|||3.81|1.75|<0.0001
92152328|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.75|||||TWO_SIDED|95.0|0.24|2.39||||||Placebo versus GSK1399686 10 mg for Week 1 fecal calprotectin levels||2.39|0.24|
92152329|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.64|||||TWO_SIDED|95.0|0.21|1.92||||||Placebo versus GSK1399686 30 mg for Week 1 fecal calprotectin levels||1.92|0.21|
92152330|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.8|||||TWO_SIDED|95.0|0.26|2.48||||||Placebo versus GSK1399686 100 mg for Week 1 fecal calprotectin levels||2.48|0.26|
92152331|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.85|||||TWO_SIDED|95.0|0.27|2.68||||||Placebo versus GSK1399686 300 mg for Week 1 fecal calprotectin levels||2.68|0.27|
92152332|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.64|||||TWO_SIDED|95.0|0.23|1.81||||||Placebo versus Asacol for Week 1 fecal calprotectin levels||1.81|0.23|
92152333|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.85|||||TWO_SIDED|95.0|0.26|2.73||||||Placebo versus GSK1399686 10 mg for Week 2 fecal calprotectin levels||2.73|0.26|
92152334|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.55|||||TWO_SIDED|95.0|0.18|1.68||||||Placebo versus GSK1399686 30 mg for Week 2 fecal calprotectin levels||1.68|0.18|
92152335|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.67|||||TWO_SIDED|95.0|0.21|2.18||||||Placebo versus GSK1399686 100 mg for Week 2 fecal calprotectin levels||2.18|0.21|
92152336|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.62|||||TWO_SIDED|95.0|0.19|2.03||||||Placebo versus GSK1399686 300 mg for Week 2 fecal calprotectin levels||2.03|0.19|
92152337|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.64|||||TWO_SIDED|95.0|0.22|1.9||||||Placebo versus Asacol for Week 2 fecal calprotectin levels||1.90|0.22|
92152338|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|1.07|||||TWO_SIDED|95.0|0.28|4.09||||||Placebo versus GSK1399686 10 mg for Week 3 fecal calprotectin levels||4.09|0.28|
92214520|NCT03829319|184328806|OTHER||Hazard Ratio (HR)|1.04||||0.7955|TWO_SIDED|95.0|0.79|1.36|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.36|0.79|0.7955
92214521|NCT03829319|184328808|OTHER||Hazard Ratio (HR)|1.04||||0.7191|TWO_SIDED|95.0|0.84|1.28|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.28|0.84|0.7191
92214522|NCT04484259|184328809|NON_INFERIORITY|non-inferiority margin 45 PRU|Mean Difference (Final Values)|7.0|||||TWO_SIDED|95.0|-23.0|38.0||||||The primary end point was non-inferiority of Ticagrelor 60 mg monotherapy vs. aspirin plus Ticagrelor 60 mg||38|-23|
92214523|NCT04498832|184328813|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% Confidence Interval (CI) for the ratio of GMTs was greater than (\>) 1 between groups for each of the comparisons.|GMT ratio|2.81|||||TWO_SIDED|95.0|2.46|3.2|||||The 2-sided 95% CI was based on the student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.|A/H1N1||3.20|2.46|
92397952|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.69||||0.0477|TWO_SIDED|95.0|1.01|13.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||13.46|1.01|0.0477
92214524|NCT04498832|184328813|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95%CI for the ratio of GMTs was \>1 between groups for each of the comparisons.|GMT ratio|2.25|||||TWO_SIDED|95.0|2.03|2.5|||||The 2-sided 95% CI was based on the student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.|A/H3N2-like||2.50|2.03|
92214525|NCT04498832|184328813|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95%CI for the ratio of GMTs was \>1 between groups for each of the comparisons.|GMT ratio|2.55|||||TWO_SIDED|95.0|2.31|2.81|||||The 2-sided 95% CI was based on the student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.|B/Victoria-like||2.81|2.31|
92273601|NCT00386100|184449826|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.15|||<|0.0001||95.0|-1.54|-0.77|||Repeated measures analysis|Terms for baseline, region, treatment, pre-screening Hb1Ac strata, gender, time, and treatment by time interaction|AVM mean change from baseline minus MET mean change from baseline based on repeated measures analysis model|||-0.77|-1.54|<0.0001
92214526|NCT04498832|184328813|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95%CI for the ratio of GMTs was \>1 between groups for each of the comparisons.|GMT ratio|3.12|||||TWO_SIDED|95.0|2.85|3.42|||||The 2-sided 95% CI was based on the student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.|B/Yamagata||3.42|2.85|
92214527|NCT04498832|184328814|SUPERIORITY|Superiority on seroconversions was concluded if the lower limit of the 2-sided 95% CI of the difference in percentage between groups was \> 0% for each of the comparisons.|Difference in percentage|29.7|||||TWO_SIDED|95.0|25.7|33.5|||||The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.|A/H1N1||33.5|25.7|
92397953|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.47||||0.1448|TWO_SIDED|95.0|0.73|8.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.36|0.73|0.1448
92152339|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.74|||||TWO_SIDED|95.0|0.23|2.43||||||Placebo versus GSK1399686 30 mg for Week 3 fecal calprotectin levels||2.43|0.23|
92152340|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.62|||||TWO_SIDED|95.0|0.18|2.08||||||Placebo versus GSK1399686 100 mg for Week 3 fecal calprotectin levels||2.08|0.18|
92152341|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.6|||||TWO_SIDED|95.0|0.17|2.08||||||Placebo versus GSK1399686 300 mg for Week 3 fecal calprotectin levels||2.08|0.17|
92152342|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.44|||||TWO_SIDED|95.0|0.15|1.32||||||Placebo versus Asacol for Week 3 fecal calprotectin levels||1.32|0.15|
92152343|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|1.29|||||TWO_SIDED|95.0|0.33|5.04||||||Placebo versus GSK1399686 10 mg for Week 4 fecal calprotectin levels||5.04|0.33|
92152344|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.64|||||TWO_SIDED|95.0|0.2|2.02||||||Placebo versus GSK1399686 30 mg for Week 4 fecal calprotectin levels||2.02|0.20|
92152345|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.96|||||TWO_SIDED|95.0|0.29|3.23||||||Placebo versus GSK1399686 100 mg for Week 4 fecal calprotectin levels||3.23|0.29|
92152346|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|1.36|||||TWO_SIDED|95.0|0.39|4.72||||||Placebo versus GSK1399686 300 mg for Week 4 fecal calprotectin levels||4.72|0.39|
92152347|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.82|||||TWO_SIDED|95.0|0.28|2.42||||||Placebo versus Asacol for Week 4 fecal calprotectin levels||2.42|0.28|
92152348|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.61|||||TWO_SIDED|95.0|0.14|2.66||||||Placebo versus GSK1399686 10 mg for Week 5 fecal calprotectin levels||2.66|0.14|
92152349|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|1.25|||||TWO_SIDED|95.0|0.35|4.38||||||Placebo versus GSK1399686 30 mg for Week 5 fecal calprotectin levels||4.38|0.35|
92152350|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.71|||||TWO_SIDED|95.0|0.2|2.47||||||Placebo versus GSK1399686 100 mg for Week 5 fecal calprotectin levels||2.47|0.20|
92152351|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.41|||||TWO_SIDED|95.0|0.11|1.46||||||Placebo versus GSK1399686 300 mg for Week 5 fecal calprotectin levels||1.46|0.11|
92152352|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.47|||||TWO_SIDED|95.0|0.15|1.48||||||Placebo versus Asacol for Week 5 fecal calprotectin levels||1.48|0.15|
92152353|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.66|||||TWO_SIDED|95.0|0.13|3.39||||||Placebo versus GSK1399686 10 mg for Week 6 fecal calprotectin levels||3.39|0.13|
92152354|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.44|||||TWO_SIDED|95.0|0.11|1.84||||||Placebo versus GSK1399686 30 mg for Week 6 fecal calprotectin levels||1.84|0.11|
92152355|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.37|||||TWO_SIDED|95.0|0.09|1.48||||||Placebo versus GSK1399686 100 mg for Week 6 fecal calprotectin levels||1.48|0.09|
92152356|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.76|||||TWO_SIDED|95.0|0.19|2.99||||||Placebo versus GSK1399686 300 mg for Week 6 fecal calprotectin levels||2.99|0.19|
92152357|NCT01036022|184190193|SUPERIORITY_OR_OTHER||Ratio|0.72|||||TWO_SIDED|95.0|0.21|2.49||||||Placebo versus Asacol for Week 6 fecal calprotectin levels||2.49|0.21|
92152358|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.19|||||TWO_SIDED|95.0|0.42|3.38||||||Placebo versus GSK1399686 10 mg for Week 1 fecal lactoferrin levels||3.38|0.42|
92152359|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.35|||||TWO_SIDED|95.0|0.5|3.65||||||Placebo versus GSK1399686 30 mg for Week 1 fecal lactoferrin levels||3.65|0.50|
92152360|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.25|||||TWO_SIDED|95.0|0.45|3.47||||||Placebo versus GSK1399686 100 mg for Week 1 fecal lactoferrin levels||3.47|0.45|
92152361|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.26|||||TWO_SIDED|95.0|0.44|3.59||||||Placebo versus GSK1399686 300 mg for Week 1 fecal lactoferrin levels||3.59|0.44|
92152362|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.28|||||TWO_SIDED|95.0|0.5|3.28||||||Placebo versus Asacol for Week 1 fecal lactoferrin levels||3.28|0.50|
92152363|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.76|||||TWO_SIDED|95.0|0.26|2.19||||||Placebo versus GSK1399686 10 mg for Week 2 fecal lactoferrin levels||2.19|0.26|
92152364|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.59|||||TWO_SIDED|95.0|0.22|1.63||||||Placebo versus GSK1399686 30 mg for Week 2 fecal lactoferrin levels||1.63|0.22|
92152365|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.35|||||TWO_SIDED|95.0|0.12|1.0||||||Placebo versus GSK1399686 100 mg for Week 2 fecal lactoferrin levels||1.00|0.12|
92152366|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.93|||||TWO_SIDED|95.0|0.31|2.77||||||Placebo versus GSK1399686 300 mg for Week 2 fecal lactoferrin levels||2.77|0.31|
92152367|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.7|||||TWO_SIDED|95.0|0.26|1.87||||||Placebo versus Asacol for Week 2 fecal lactoferrin levels||1.87|0.26|
92152368|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.53|||||TWO_SIDED|95.0|0.15|1.84||||||Placebo versus GSK1399686 10 mg for Week 3 fecal lactoferrin levels||1.84|0.15|
92152369|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.96|||||TWO_SIDED|95.0|0.32|2.87||||||Placebo versus GSK1399686 30 mg for Week 3 fecal lactoferrin levels||2.87|0.32|
92152370|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.52|||||TWO_SIDED|95.0|0.17|1.56||||||Placebo versus GSK1399686 100 mg for Week 3 fecal lactoferrin levels||1.56|0.17|
92152371|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.42|||||TWO_SIDED|95.0|0.45|4.46||||||Placebo versus GSK1399686 300 mg for Week 3 fecal lactoferrin levels||4.46|0.45|
92152372|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.37|||||TWO_SIDED|95.0|0.14|1.01||||||Placebo versus Asacol for Week 3 fecal lactoferrin levels||1.01|0.14|
92152373|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.33|||||TWO_SIDED|95.0|0.1|1.15||||||Placebo versus GSK1399686 10 mg for Week 4 fecal lactoferrin levels||1.15|0.10|
92152374|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.68|||||TWO_SIDED|95.0|0.23|2.03||||||Placebo versus GSK1399686 30 mg for Week 4 fecal lactoferrin levels||2.03|0.23|
92152375|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.56|||||TWO_SIDED|95.0|0.19|1.68||||||Placebo versus GSK1399686 100 mg for Week 4 fecal lactoferrin levels||1.68|0.19|
92152376|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.19|||||TWO_SIDED|95.0|0.38|3.7||||||Placebo versus GSK1399686 300 mg for Week 4 fecal lactoferrin levels||3.70|0.38|
92152377|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.71|||||TWO_SIDED|95.0|0.26|1.89||||||Placebo versus Asacol for Week 4 fecal lactoferrin levels||1.89|0.26|
92152378|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.05|||||TWO_SIDED|95.0|0.27|4.07||||||Placebo versus GSK1399686 10 mg for Week 5 fecal lactoferrin levels||4.07|0.27|
92152379|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.48|||||TWO_SIDED|95.0|0.46|4.73||||||Placebo versus GSK1399686 30 mg for Week 5 fecal lactoferrin levels||4.73|0.46|
92152380|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.33|||||TWO_SIDED|95.0|0.11|1.02||||||Placebo versus GSK1399686 100 mg for Week 5 fecal lactoferrin levels||1.02|0.11|
92152381|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.16|||||TWO_SIDED|95.0|0.36|3.73||||||Placebo versus GSK1399686 300 mg for Week 5 fecal lactoferrin levels||3.73|0.36|
92152382|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.82|||||TWO_SIDED|95.0|0.29|2.33||||||Placebo versus Asacol for Week 5 fecal lactoferrin levels||2.33|0.29|
92152383|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.44|||||TWO_SIDED|95.0|0.31|6.59||||||Placebo versus GSK1399686 10 mg for Week 6 fecal lactoferrin levels||6.59|0.31|
92152384|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|2.21|||||TWO_SIDED|95.0|0.54|9.04||||||Placebo versus GSK1399686 30 mg for Week 6 fecal lactoferrin levels||9.04|0.54|
92152385|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.41|||||TWO_SIDED|95.0|0.11|1.48||||||Placebo versus GSK1399686 100 mg for Week 6 fecal lactoferrin levels||1.48|0.11|
92152386|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|1.64|||||TWO_SIDED|95.0|0.46|5.91||||||Placebo versus GSK1399686 300 mg for Week 6 fecal lactoferrin levels||5.91|0.46|
92152387|NCT01036022|184190194|SUPERIORITY_OR_OTHER||Ratio|0.84|||||TWO_SIDED|95.0|0.27|2.62||||||Placebo versus Asacol for Week 6 fecal lactoferrin levels||2.62|0.27|
92152388|NCT01065350|184190215|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.87|||<|0.001|TWO_SIDED|95.0|2.07|26.15||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Systolic Blood Pressure (SBP) from baseline to 5 minutes post induction was compared between treatment groups.||26.15|2.07|<0.001
92152389|NCT01065350|184190215|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.24|||<|0.01|TWO_SIDED|95.0|1.21|8.75||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Systolic Blood Pressure (SBP) from baseline to 10 minutes post induction was compared between treatment groups.||8.75|1.21|<0.01
92152390|NCT01065350|184190215|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.39|TWO_SIDED|95.0|0.52|4.55||A p value of \< 0.005 was considered to indicate statistical significance.|Chi-squared|||Systolic Blood Pressure (SBP) from baseline to 30 minutes post induction was compared between treatment groups||4.55|0.52|0.39
92152391|NCT01065350|184190216|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.64|||<|0.01|TWO_SIDED|95.0|1.54|14.92||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Diastolic Blood Pressure (DBP) from baseline to 5 minutes post induction was compared between treatment groups.||14.92|1.54|<0.01
92152392|NCT01065350|184190216|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.05|TWO_SIDED|95.0|0.91|6.29||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Diastolic Blood Pressure (DBP) from baseline to 10 minutes post induction was compared between treatment groups.||6.29|0.91|0.05
92152393|NCT01065350|184190216|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.74||||0.11|TWO_SIDED|95.0|0.68|13.19||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Diastolic Blood Pressure (DBP) from baseline to 30 minutes post induction was compared between treatment groups.||13.19|0.68|0.11
92152394|NCT01065350|184190217|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.12|||<|0.001|TWO_SIDED|95.0|1.98|31.64||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Mean Arterial Pressure (MAP) from baseline to 5 minutes post induction was compared between treatment groups.||31.64|1.98|<0.001
92152395|NCT01065350|184190217|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84||||0.02|TWO_SIDED|95.0|1.07|7.65||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Mean Arterial Pressure (MAP) from baseline to 10 minutes post induction was compared between treatment groups.||7.65|1.07|0.02
92152396|NCT01065350|184190217|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.33|TWO_SIDED|95.0|0.51|5.97||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Mean Arterial Pressure (MAP) from baseline to 30 minutes post induction was compared between treatment groups.||5.97|0.51|0.33
92152397|NCT01065350|184190218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.19|TWO_SIDED|95.0|-0.1|0.5|||t-test, 2 sided|||Average change in Cardiac Output (CO) from baseline to 5 minutes post induction was compared between treatment groups.||0.5|-0.1|0.19
92273602|NCT00386100|184449827|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.07|||<|0.001|TWO_SIDED|95.0|-1.425|-0.71||No adjustment for multiple comparisons|ANCOVA|Terms for treatment, region, gender, pre-screening Hb1Ac strata, and baseline with LOCF from Week 32 for withdrawn participants or missing values|AVM mean change from baseline minus MET mean change from baseline based on ANCOVA model|||-0.710|-1.425|<0.001
92152398|NCT01065350|184190218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.6|TWO_SIDED|95.0|-0.3|0.5|||t-test, 2 sided|||Average change in Cardiac Output (CO) from baseline to 10 minutes post induction was compared between treatment groups.||0.5|-0.3|0.6
92152399|NCT01065350|184190219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.26|TWO_SIDED|95.0|-0.1|0.3|||t-test, 2 sided|||Average change in Cardiac Index (CI) from baseline to 5 minutes post induction was compared between treatment groups.||0.3|-0.1|0.26
92152400|NCT01065350|184190219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.71|TWO_SIDED|95.0|-0.2|0.3|||t-test, 2 sided|||Average change in Cardiac Index (CI) from baseline to 10 minutes post induction was compared between treatment groups.||0.3|-0.2|0.71
92152401|NCT01065350|184190220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.61|TWO_SIDED|95.0|-2.9|1.7|||t-test, 2 sided|||Average heart rate from baseline to 5 minutes post induction was compared between treatment groups.||1.7|-2.9|0.61
92152402|NCT01065350|184190220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.22|TWO_SIDED|95.0|-4.8|1.1|||t-test, 2 sided|||Average heart rate from baseline to 10 minutes post induction was compared between treatment groups.||1.1|-4.8|0.22
92273603|NCT00386100|184449828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.47|||<|0.0001|TWO_SIDED|95.0|2.94|6.81||FPG \<=6.1 mmol/l|Regression, Logistic|Terms for treatment, region, gender, pre-screening Hb1Ac strata, and baseline with LOCF from Week 32.|Odds of having an FPG \<=6.1 mmol/l at Week 80 on Avandamet compared to Metformin|||6.81|2.94|<0.0001
92152403|NCT01065350|184190221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.7|||<|0.001|TWO_SIDED|95.0|7.5|20.0|||t-test, 2 sided|||Average change in Systolic Blood Pressure from baseline to 5 minutes post induction was compared between treatment groups.||20.0|7.5|<0.001
92152404|NCT01065350|184190221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.8||||0.017|TWO_SIDED|95.0|0.2|9.5|||t-test, 2 sided|||Average change in Systolic Blood Pressure from baseline to 10 minutes post induction was compared between treatment groups.||9.5|0.2|0.017
92152405|NCT01065350|184190222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||<|0.01|TWO_SIDED|95.0|2.7|11.5|||t-test, 2 sided|||Average change in Diastolic Blood Pressure from baseline to 5 minutes post induction was compared between treatment groups.||11.5|2.7|<0.01
92152406|NCT01065350|184190222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8||||0.042|TWO_SIDED|95.0|0.2|9.5|||t-test, 2 sided|||Average change in Diastolic Blood Pressure from baseline to 10 minutes post induction was compared between treatment groups.||9.5|0.2|0.042
92152407|NCT01065350|184190223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4|||<|0.001|TWO_SIDED|95.0|4.8|13.9|||t-test, 2 sided|||Average change in Mean Arterial Pressure (MAP) from baseline to 5 minutes post induction was compared between treatment groups.||13.9|4.8|<0.001
92152408|NCT01065350|184190223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3||||0.013|TWO_SIDED|95.0|1.4|11.3|||t-test, 2 sided|||Average change in Mean Arterial Pressure from baseline to 10 minutes post induction was compared between treatment groups.||11.3|1.4|0.013
92152409|NCT01065350|184190224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|113.6|||<|0.01|TWO_SIDED|95.0|28.1|199.1|||t-test, 2 sided|||Average change in Total Peripheral Resistance (TPR) from baseline to 5 minutes post induction was compared between treatment groups.||199.1|28.1|<0.01
92152410|NCT01065350|184190224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|86.8||||0.12|TWO_SIDED|95.0|-21.7|195.3|||t-test, 2 sided|||Average change in Total Peripheral Resistance (TPR) from baseline to 10 minutes post induction was compared between treatment groups.||195.3|-21.7|0.12
92152411|NCT01065350|184190225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|182.6||||0.017|TWO_SIDED|95.0|33.8|331.3|||t-test, 2 sided|||Average change in Total Peripheral Resistance Index (TPRI) from baseline to 5 minutes post induction was compared between treatment groups.||331.3|33.8|0.017
92152412|NCT01065350|184190225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|128.7||||0.17|TWO_SIDED|95.0|-58.1|315.5|||t-test, 2 sided|||Average change in Total Peripheral Resistance Index (TPRI) from baseline to 10 minutes post induction was compared between treatment groups.||315.5|-58.1|0.17
92152413|NCT01065350|184190226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4||||0.029|TWO_SIDED|95.0|0.5|8.4|||t-test, 2 sided|||Average change in Stroke Volume (SV) from baseline to 5 minutes post induction was compared between treatment groups.||8.4|0.5|0.029
92152414|NCT01065350|184190226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8||||0.051|TWO_SIDED|95.0|0.0|9.7|||t-test, 2 sided|||Average change in Cardiac Index (CI) from baseline to 10 minutes post induction was compared between treatment groups.||9.7|-0.0|0.051
92152415|NCT01065350|184190227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.027|TWO_SIDED|95.0|0.3|4.7|||t-test, 2 sided|||Average change in Stroke Volume Index (SVI) from baseline to 5 minutes post induction was compared between treatment groups.||4.7|0.3|0.027
92152416|NCT01065350|184190227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.052|TWO_SIDED|95.0|0.0|5.2|||t-test, 2 sided|||Average change in Stroke Volume Index (SVI) from baseline to 10 minutes post induction was compared between treatment groups.||5.2|-0.0|0.052
92152417|NCT01065350|184190228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.44|TWO_SIDED|95.0|-1.4|0.6|||t-test, 2 sided|||Average change in Stroke Volume Variation (SVV) from baseline to 5 minutes post induction was compared between treatment groups.||0.6|-1.4|0.44
92152418|NCT01065350|184190228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.37|TWO_SIDED|95.0|-1.6|0.6|||t-test, 2 sided|||Average change in Stroke Volume Variation (SVV) from baseline to 10 minutes post induction was compared between treatment groups.||0.6|-1.6|0.37
92152419|NCT01555164|184190238|SUPERIORITY_OR_OTHER||difference in least squares mean (LSM)|-0.11||||0.306|TWO_SIDED|95.0|-0.31|0.1||P-value from a mixed-effect model including terms for baseline HbA1c value, treatment group, visit week, and treatment by visit week interaction. Unstructured covariance matrix was used.|Mixed Effects Model Analysis||The estimation (LSM) is of the placebo-corrected change from baseline.|Assuming a common standard deviation of 1.2%, an effective sample size of 400 would provide at least 90% power to detect a statistically significant treatment difference of -0.4% (ranolazine vs. placebo) for the reduction of HbA1c from baseline at Week 24 based on a 2-sided alpha of 0.05 and 1:1 randomization.||0.10|-0.31|0.306
92152420|NCT00697190|184190241|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|97.5|-0.29|0.04|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senoflicon A toric is non-inferior to galyfilcon A toric in conjunctival hyperemia.||0.04|-0.29|
92152421|NCT00697190|184190242|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|97.5|-0.1|0.06|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in conjunctival hyperemia.||0.06|-0.10|
92397954|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|5.54||||0.0173|TWO_SIDED|95.0|1.35|22.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||22.71|1.35|0.0173
92152422|NCT00697190|184190243|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|97.5|-0.23|0.1|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in conjunctival hyperemia.||0.10|-0.23|
92152423|NCT00697190|184190244|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|97.5|-0.25|0.04|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in limbal hyperemia.||0.04|-0.25|
92152424|NCT00697190|184190245|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|97.5|-0.16|0.07|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in limbal hyperemia.||0.07|-0.16|
92152425|NCT00697190|184190246|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|97.5|-0.25|0.14|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in limbal hyperemia.||0.14|-0.25|
92152426|NCT00697190|184190247|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|97.5|0.04|0.32|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in corneal staining.||0.32|0.04|
92152427|NCT00697190|184190248|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|97.5|-0.26|0.08|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in corneal staining.||0.08|-0.26|
92214528|NCT04498832|184328814|SUPERIORITY|Superiority on seroconversions was concluded if the lower limit of the 2-sided 95% CI of the difference in percentage between groups was \> 0% for each of the comparisons.|Difference in percentage|28.1|||||TWO_SIDED|95.0|24.0|32.0|||||The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.|A/H3N2-like||32.0|24.0|
92152428|NCT00697190|184190249|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Median Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.08||||97.5|0.02|0.33|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in corneal staining.||0.33|0.02|
92273604|NCT00386100|184449828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.33|||<|0.0001|TWO_SIDED|95.0|2.25|4.92||FPG \<=7 mmol/l|Regression, Logistic|Terms for treatment, region, gender, pre-screening Hb1Ac, and baseline with LOCF from Week 32.|Odds of having an FPG \<=7 mmol/l at Week 80 on Avandamet compared to Metformin|||4.92|2.25|<0.0001
92273605|NCT00386100|184449829|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.45|0.74|||Regression, Cox|Cox proportional hazard regression with terms for treatment, region, baseline Hb1Ac strata, and gender||||0.74|0.45|<0.0001
92273606|NCT00386100|184449830|SUPERIORITY_OR_OTHER||Percent difference from metformin|5.97||||0.0006|TWO_SIDED|95.0|2.522|9.526||Total cholesterol. No adjustment for multiple comparisons. Log transformed|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||9.526|2.522|0.0006
92273607|NCT00386100|184449830|SUPERIORITY_OR_OTHER||Percent difference from metformin|8.71||||0.056|TWO_SIDED|95.0|2.486|15.304||LDL cholesterol. No adjustment for multiple comparisons. Log transformed|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||15.304|2.486|0.056
92273608|NCT00386100|184449830|SUPERIORITY_OR_OTHER||Percent difference from metformin|2.58||||0.072|TWO_SIDED|95.0|-0.232|5.47||HDL cholesterol. No adjustment for multiple comparison. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||5.470|-0.232|0.072
92273609|NCT00386100|184449830|SUPERIORITY_OR_OTHER||Percent difference from metformin|0.743||||0.835|TWO_SIDED|95.0|-6.056|8.035||Triglycerides. No adjustment for multiple comparisons. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||8.035|-6.056|0.835
92397955|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.57||||0.1101|TWO_SIDED|95.0|0.81|8.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.17|0.81|0.1101
92214529|NCT04498832|184328814|SUPERIORITY|Superiority on seroconversions was concluded if the lower limit of the 2-sided 95% CI of the difference in percentage between groups was \> 0% for each of the comparisons.|Difference in percentage|31.4|||||TWO_SIDED|95.0|27.4|35.2|||||The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.|B/Victoria-like||35.2|27.4|
92273610|NCT00386100|184449831|SUPERIORITY_OR_OTHER||Percent difference from metformin|102.24|||<|0.0001|TWO_SIDED|95.0|79.23|128.19||No adjustment for multiple comparisons. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||128.19|79.23|<0.0001
92397956|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.32||||0.6022|TWO_SIDED|95.0|0.46|3.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.78|0.46|0.6022
92214530|NCT04498832|184328814|SUPERIORITY|Superiority on seroconversions was concluded if the lower limit of the 2-sided 95% CI of the difference in percentage between groups was \> 0% for each of the comparisons.|Difference in percentage|35.4|||||TWO_SIDED|95.0|31.4|39.3|||||The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.|B/Yamagata||39.3|31.4|
92214531|NCT01313650|184328826|SUPERIORITY_OR_OTHER||Least squares mean difference|0.115|||<|0.001|TWO_SIDED|95.0|0.076|0.155|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC 62.5 µg minus Placebo.|||0.155|0.076|<0.001
92214532|NCT01313650|184328826|SUPERIORITY_OR_OTHER||Least squares mean difference|0.072|||<|0.001|TWO_SIDED|95.0|0.032|0.112|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=VI 25 µg minus Placebo.|||0.112|0.032|<0.001
92214533|NCT01313650|184328826|SUPERIORITY_OR_OTHER||Least squares mean difference|0.167|||<|0.001|TWO_SIDED|95.0|0.128|0.207|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.207|0.128|<0.001
92214534|NCT01313650|184328826|SUPERIORITY_OR_OTHER||Least squares mean difference|0.052||||0.004|TWO_SIDED|95.0|0.017|0.087|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 minus UMEC 62.5 µg.|||0.087|0.017|0.004
92214535|NCT01313650|184328826|SUPERIORITY_OR_OTHER||Least squares mean difference|0.095|||<|0.001|TWO_SIDED|95.0|0.06|0.13|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 minus VI 25 µg.|||0.130|0.060|<0.001
92214536|NCT04029480|184328830|SUPERIORITY||Difference in Bayesian Means|-0.67|||||TWO_SIDED|95.0|-1.06|-0.29||||||This analysis is based on a Bayesian ANCOVA model including terms for Baseline A1C, treatment, age (10 to 14 years/15 to 17 years), and insulin use (yes/no) at Screening and calculated by Rubin's Rule. The 95% confidence interval actually refers to a credible interval.||-0.29|-1.06|
92214537|NCT04029480|184328831|OTHER||Difference in Percent|-6.8|||||TWO_SIDED|95.0|-22.2|9.3||||||This analysis is based on Miettinen \& Nurminen method.||9.3|-22.2|
92214538|NCT04029480|184328832|OTHER||Difference in Percent|-12.4|||||TWO_SIDED|95.0|-25.9|2.8||||||This analysis is based on Miettinen \& Nurminen method.||2.8|-25.9|
92214539|NCT04029480|184328833|OTHER||Difference in Percent|0.0|||||||||||||No confidence intervals (CIs) were calculated. CIs were computed only for those endpoints where at least ≥8 participants in the combined ertugliflozin group or ≥2 participants in the placebo group had events.|This analysis is based on Miettinen \& Nurminen method.||||
92214540|NCT04029480|184328834|OTHER||Difference in Percent|-1.8|||||||||||||No confidence intervals (CIs) were calculated. CIs were computed only for those endpoints where at least ≥8 participants in the combined ertugliflozin group or ≥2 participants in the placebo group had events.|This analysis is based on Miettinen \& Nurminen method.||||
92214541|NCT04029480|184328835|SUPERIORITY||Difference in Least Squares Means|-0.66||||0.021|TWO_SIDED|95.0|-1.23|-0.1|||ANCOVA|||This analysis is based on an ANCOVA model including terms for Baseline A1C, treatment, age (10 to 14 years/15 to 17 years), and insulin use (yes/no) at Screening and calculated by Rubin's Rule.||-0.10|-1.23|0.021
92273611|NCT00386100|184449832|SUPERIORITY_OR_OTHER||Percent difference from metformin|-8.2||||0.138|TWO_SIDED|95.0|-18.04|2.82||No adjustment for multiple comparisons. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||2.82|-18.04|0.1380
92273612|NCT00386100|184449833|SUPERIORITY_OR_OTHER||Percent difference from metformin|-11.308||||0.0342|TWO_SIDED|95.0|-20.617|-0.899||No adjustment for multiple comparisons. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||-0.899|-20.617|0.0342
92397957|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.31||||0.6128|TWO_SIDED|95.0|0.46|3.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.73|0.46|0.6128
92152429|NCT00697190|184190250|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|97.5|-0.27|0.26|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in conjunctival staining.||0.26|-0.27|
92152430|NCT00697190|184190251|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|97.5|-0.34|-0.08|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in conjunctival staining.||-0.08|-0.34|
92152431|NCT00697190|184190252|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|97.5|-0.54|-0.15|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in conjunctival staining.||-0.15|-0.54|
92152432|NCT00697190|184190253|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|97.5|-0.12|0.14|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in papillary conjunctivitis.||0.14|-0.12|
92152433|NCT00697190|184190254|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|97.5|-0.23|0.05|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in papillary conjunctivitis.||0.05|-0.23|
92152434|NCT00697190|184190255|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|97.5|-0.2|0.02|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in papillary conjunctivitis.||0.02|-0.20|
92214542|NCT04029480|184328836|SUPERIORITY||Difference in Least Squares Means|-0.86||||0.001|TWO_SIDED|95.0|-1.39|-0.33|||ANCOVA|||This analysis is based on an ANCOVA model including terms for Baseline A1C, treatment, age (10 to 14 years/15 to 17 years), and insulin use (yes/no) at Screening and calculated by Rubin's Rule.||-0.33|-1.39|0.001
92214543|NCT04029480|184328837|SUPERIORITY||Difference in Least Squares Means|-29.0||||0.001|TWO_SIDED|95.0|-44.4|-13.6|||cLDA|||This analysis is based on a constrained longitudinal data analysis (cLDA) model including terms for treatment, time, age (10 to 14 years/15 to 17 years), insulin use (yes/no), interaction of time by treatment with the constraint that the model estimated a single baseline mean (applicable to all treatment groups).||-13.6|-44.4|0.001
92273613|NCT00386100|184449834|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-33.7||||0.0042|TWO_SIDED|95.0|-56.666|-0.99||No adjustment for multiple comparisons.|ANCOVA|ANCOVA with terms for treatment, region, gender, pre-screening HbA1c strata, and baseline.|AVM mean change from baseline minus MET mean change from baseline based on ANCOVA model|||-0.99|-56.666|0.0042
92273614|NCT00386100|184449835|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.229||||0.0006|TWO_SIDED|95.0|-0.359|-0.099||No adjustment for multiple comparisons.|ANCOVA|ANCOVA with terms for treatment, region, gender, pre-screening HbA1c strata, and baseline|AVM mean change from baseline minus MET mean change from baseline based on ANCOVA model|||-0.099|-0.359|0.0006
92397958|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.82||||0.1001|TWO_SIDED|95.0|0.82|9.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.68|0.82|0.1001
92152435|NCT01871558|184190271|SUPERIORITY_OR_OTHER|||||||0.139|||||||Chi-squared|||||||0.139
92152436|NCT01709305|184190278|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion are met when the upper limit of the two-sided 98.34% CI for the difference in LS means is less than or equal to the pre-specified non-inferiority margin of 0.3%.|Difference in LS Means|0.19|||||TWO_SIDED|98.34|0.02|0.36||||||Pairwise Comparison||0.36|0.02|
92152437|NCT01709305|184190278|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion are met when the upper limit of the two-sided 98.34% CI for the difference in LS means is less than or equal to the pre-specified non-inferiority margin of 0.3%.|Difference in LS Means|0.03|||||TWO_SIDED|98.34|-0.15|0.21||||||Pairwise Comparison||0.21|-0.15|
92152438|NCT01709305|184190278|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion are met when the upper limit of the two-sided 98.34% CI for the difference in LS means is less than or equal to the pre-specified non-inferiority margin of 0.3%.|Difference in LS Means|-0.05|||||TWO_SIDED|98.34|-0.23|0.14||||||Pairwise Comparison||0.14|-0.23|
92152439|NCT01709305|184190280|SUPERIORITY_OR_OTHER||Estimate|-8.4|||<|0.001|TWO_SIDED|95.0|-11.1|-6.1|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||-6.1|-11.1|<0.001
92152440|NCT01709305|184190280|SUPERIORITY_OR_OTHER||Estimate|-2.9||||0.072|TWO_SIDED|95.0|-6.1|0.3|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.3|-6.1|0.072
92152441|NCT01709305|184190280|SUPERIORITY_OR_OTHER||Estimate|-5.3|||<|0.001|TWO_SIDED|95.0|-8.3|-2.5|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||-2.5|-8.3|<0.001
92273615|NCT00386100|184449836|SUPERIORITY_OR_OTHER||Percent difference from metformin|2.4||||0.7148|TWO_SIDED|95.0|-9.87|16.34||HOMA-B. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||16.34|-9.87|0.7148
92273616|NCT00386100|184449836|SUPERIORITY_OR_OTHER||percent difference from metformin|31.14|||<|0.001|TWO_SIDED|95.0|14.82|49.78||HOMA-S. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||49.78|14.82|<0.001
92273617|NCT00386100|184449837|SUPERIORITY_OR_OTHER||Mean Difference (Net)|80.85||||0.319|TWO_SIDED|95.0|-79.035|240.744|||Repeated measures analysis|Repeated measures analysis with terms for baseline, region, treatment, gender, pre-screening Hb1AC, time, and treatment by time interaction||||240.744|-79.035|0.319
92273618|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.0012|TWO_SIDED|95.0|-3.5|-0.9||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.9|-3.5|0.0012
92273619|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.0031|TWO_SIDED|95.0|-2.7|-0.6||Overall population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.6|-2.7|0.0031
92273620|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.0308|TWO_SIDED|95.0|-2.0|-0.1||Overall population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.1|-2.0|0.0308
92273621|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.0954|TWO_SIDED|95.0|-3.7|0.3||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.3|-3.7|0.0954
92273622|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9||||0.0015|TWO_SIDED|95.0|-4.7|-1.2||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-1.2|-4.7|0.0015
92152442|NCT01709305|184190281|SUPERIORITY_OR_OTHER||Estimate|0.4||||0.158|TWO_SIDED|95.0|-0.3|1.3|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||1.3|-0.3|0.158
92273623|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3||||0.0045|TWO_SIDED|95.0|-3.9|-0.7||Female population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.7|-3.9|0.0045
92273624|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.0005|TWO_SIDED|95.0|-3.3|-1.0||Female population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-1.0|-3.3|0.0005
92273625|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.2363|TWO_SIDED|95.0|-4.6|1.2||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.2|-4.6|0.2363
92273626|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3||||0.0161|TWO_SIDED|95.0|-5.9|-0.6||Postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.6|-5.9|0.0161
92273627|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.0338|TWO_SIDED|95.0|-4.9|-0.2||Postmenopausal female population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.2|-4.9|0.0338
92152443|NCT01709305|184190281|SUPERIORITY_OR_OTHER||Estimate|0.0|||>|0.999|TWO_SIDED|95.0|-0.7|0.7|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.7|-0.7|>0.999
92273628|NCT00386100|184449839|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.6||||0.002|TWO_SIDED|95.0|-4.1|-1.0||Postmenopausal female population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-1.0|-4.1|0.0020
92397959|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.95||||0.0255|TWO_SIDED|95.0|1.22|20.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||20.12|1.22|0.0255
92152444|NCT01709305|184190281|SUPERIORITY_OR_OTHER||Estimate|0.2||||0.318|TWO_SIDED|95.0|-0.5|1.0|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||1.0|-0.5|0.318
92152445|NCT01709305|184190282|SUPERIORITY_OR_OTHER||Estimate|0.0||||0.998|TWO_SIDED|95.0|-0.9|0.9|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.9|-0.9|0.998
92152446|NCT01709305|184190282|SUPERIORITY_OR_OTHER||Estimate|-0.2||||0.319|TWO_SIDED|95.0|-1.0|0.5|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.5|-1.0|0.319
92152447|NCT01709305|184190282|SUPERIORITY_OR_OTHER||Estimate|0.0||||0.999|TWO_SIDED|95.0|-0.9|0.9|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.9|-0.9|0.999
92152448|NCT01709305|184190283|SUPERIORITY_OR_OTHER||Estimate|-0.2||||0.651|TWO_SIDED|95.0|-1.3|0.8|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.8|-1.3|0.651
92273629|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.0005|TWO_SIDED|95.0|-2.3|-0.7||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.7|-2.3|0.0005
92397960|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.42||||0.1521|TWO_SIDED|95.0|0.72|8.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.10|0.72|0.1521
92152449|NCT01709305|184190283|SUPERIORITY_OR_OTHER||Estimate|-0.2||||0.66|TWO_SIDED|95.0|-1.3|0.8|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.8|-1.3|0.660
92273630|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.0||||0.011|TWO_SIDED|95.0|-1.7|-0.2||Overall population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.2|-1.7|0.0110
92273631|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.0618|TWO_SIDED|95.0|-1.1|0.0||Overall population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.0|-1.1|0.0618
92273632|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.011|TWO_SIDED|95.0|-2.3|-0.3||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.3|-2.3|0.0110
92273633|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.0272|TWO_SIDED|95.0|-1.9|-0.1||Male population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.1|-1.9|0.0272
92273634|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.0337|TWO_SIDED|95.0|-1.6|-0.1||Male population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.1|-1.6|0.0337
92273635|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.7||||0.0152|TWO_SIDED|95.0|-3.1|-0.3||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.3|-3.1|0.0152
92273636|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.057|TWO_SIDED|95.0|-2.4|0.0||Female population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.0|-2.4|0.0570
92273637|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.2||||0.0296|TWO_SIDED|95.0|-4.3|-0.2||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.2|-4.3|0.0296
92273638|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4||||0.0155|TWO_SIDED|95.0|-4.4|-0.5||Premenopausal female population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.5|-4.4|0.0155
92273639|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.4||||0.587|TWO_SIDED|95.0|-1.7|1.0||Premenopausal female population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.0|-1.7|0.5870
92273640|NCT00386100|184449840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.1854|TWO_SIDED|95.0|-3.6|0.7||Postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.7|-3.6|0.1854
92273641|NCT00386100|184449841|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.9||||0.0038|TWO_SIDED|95.0|-3.2|-0.6||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.6|-3.2|0.0038
92152450|NCT01709305|184190283|SUPERIORITY_OR_OTHER||Estimate|0.4||||0.48|TWO_SIDED|95.0|-0.8|1.6|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||1.6|-0.8|0.480
92273642|NCT00386100|184449841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.0134|TWO_SIDED|95.0|-2.7|-0.3||Overall population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.3|-2.7|0.0134
92152451|NCT01709305|184190284|SUPERIORITY_OR_OTHER||Estimate|0.4||||0.158|TWO_SIDED|95.0|-0.3|1.3|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||1.3|-0.3|0.158
92152452|NCT01709305|184190284|SUPERIORITY_OR_OTHER||Estimate|0.0|||>|0.999|TWO_SIDED|95.0|-0.7|0.7|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.7|-0.7|>0.999
92273643|NCT00386100|184449841|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.7||||0.0967|TWO_SIDED|95.0|-1.5|0.1||Overall population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.1|-1.5|0.0967
92273644|NCT00386100|184449841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.0512|TWO_SIDED|95.0|-3.0|0.0||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.0|-3.0|0.0512
92273645|NCT00386100|184449841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4||||0.033|TWO_SIDED|95.0|-4.6|-0.2||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.2|-4.6|0.0330
92273646|NCT00386100|184449841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8||||0.0547|TWO_SIDED|95.0|-3.7|0.0||Female population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.0|-3.7|0.0547
92273647|NCT00386100|184449841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.1||||0.0613|TWO_SIDED|95.0|-6.3|0.2||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.2|-6.3|0.0613
92397961|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|9.37||||0.0071|TWO_SIDED|95.0|1.84|47.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||47.69|1.84|0.0071
92397962|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.52||||0.115|TWO_SIDED|95.0|0.8|7.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.93|0.80|0.1150
92397963|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.14||||0.8101|TWO_SIDED|95.0|0.4|3.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.22|0.40|0.8101
92397964|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.49||||0.4663|TWO_SIDED|95.0|0.51|4.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.33|0.51|0.4663
92397965|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.8||||0.0453|TWO_SIDED|95.0|1.03|14.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||14.01|1.03|0.0453
92397966|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0659|TWO_SIDED|95.0|0.92|12.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.21|0.92|0.0659
92397967|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.83||||0.3117|TWO_SIDED|95.0|0.57|5.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.86|0.57|0.3117
92397968|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|6.02||||0.0129|TWO_SIDED|95.0|1.46|24.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||24.73|1.46|0.0129
92397969|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|4.12||||0.0303|TWO_SIDED|95.0|1.14|14.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||14.83|1.14|0.0303
92397970|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.94||||0.2772|TWO_SIDED|95.0|0.59|6.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.42|0.59|0.2772
92397971|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9432|TWO_SIDED|95.0|0.29|3.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.16|0.29|0.9432
92397972|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.08||||0.2577|TWO_SIDED|95.0|0.59|7.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.36|0.59|0.2577
92397973|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.55||||0.1496|TWO_SIDED|95.0|0.71|9.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.12|0.71|0.1496
92397974|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.05||||0.2874|TWO_SIDED|95.0|0.55|7.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.67|0.55|0.2874
92152453|NCT01709305|184190284|SUPERIORITY_OR_OTHER||Estimate|0.2||||0.318|TWO_SIDED|95.0|-0.5|1.0|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||1.0|-0.5|0.318
92152454|NCT02875834|184190287|OTHER||Mean Difference (Final Values)|0.904|||<|0.001|TWO_SIDED|95.0|0.876|0.933|||Mixed Models Analysis|||Results derived from a mixed effects model of log-transformed S-K levels. Fixed effects are: treatment group; visit; treatment-by-visit interaction; baseline S-K values (OLP and RTP); baseline eGFR; age category; country; baseline RAAS inhibitor, chronic kidney disease, heart failure, and diabetes mellitus statuses. Patient is a random effect. p-values given are for differences of LSMEANS. The back-transformation is to the original scale of the S-K measurement.||0.933|0.876|<0.001
92152455|NCT02875834|184190287|OTHER||Mean Difference (Final Values)|0.823|||<|0.001|TWO_SIDED|95.0|0.797|0.85|||Mixed Models Analysis|||||0.850|0.797|<0.001
92214544|NCT04029480|184328838|SUPERIORITY||Difference in Least Squares Means|-1.03||||0.003|TWO_SIDED|95.0|-1.7|-0.35|||cLDA|||This analysis is a based on a constrained longitudinal data analysis (cLDA) model including terms for treatment, time, age (10 to 14 years/15 to 17 years), insulin use (yes/no), interaction of time by treatment with the constraint that the model estimated a single baseline mean (applicable to all treatment groups).||-0.35|-1.70|0.003
92214545|NCT04029480|184328839|SUPERIORITY||Difference in Least Squares Means|-33.1||||0.001|TWO_SIDED|95.0|-53.0|-13.1|||cLDA|||This analysis is based on a constrained longitudinal data analysis (cLDA) model including terms for treatment, time, age (10 to 14 years/15 to 17 years), insulin use (yes/no), interaction of time by treatment with the constraint that the model estimated a single baseline mean (applicable to all treatment groups).||-13.1|-53.0|0.001
92214546|NCT01839487|184328863|OTHER||Hazard Ratio (HR)|0.74||||0.058|TWO_SIDED|95.0|0.54|1.01||Threshold for significance at 0.1 level.|Log Rank|P-value was based on stratified log-rank test with the KPS category at screening as the stratification factor.||Hazard ratio PAG/AG was based on Cox proportional hazards model stratified by the Karnofsky Performance Status (KPS) category (70-80% and 90-100%) at screening using AG as the reference arm.||1.01|0.54|0.058
92214547|NCT01839487|184328865|OTHER||Hazard Ratio (HR)|0.57||||0.092|TWO_SIDED|95.0|0.3|1.1||Threshold for significance at 0.1 level.|Log Rank|P-value was based on stratified log-rank test with the KPS category at screening as the stratification factor.||Hazard ratio PAG/AG for HA-high was based on Cox proportional hazards model stratified by the KPS category (70-80% and 90-100%) at screening using AG as the reference arm.||1.10|0.30|0.092
92214548|NCT01839487|184328865|OTHER||Hazard Ratio (HR)|0.88||||0.514|TWO_SIDED|95.0|0.59|1.31||Threshold for significance at 0.1 level.|Log Rank|P-value was based on stratified log-rank test with the KPS category at screening as the stratification factor.||Hazard ratio PAG/AG for HA-low was based on Cox proportional hazards model stratified by the KPS category (70-80% and 90-100%) at screening using AG as the reference arm.||1.31|0.59|0.514
92214549|NCT01839487|184328866|OTHER||Risk Ratio (RR)|1.22||||0.225|TWO_SIDED|95.0|0.88|1.68||Threshold for significance at 0.1 level.|Cochran-Mantel-Haenszel|||p-Value and relative risk were based on a stratified Cochran-Mantel-Haenszel method using KPS category at screening as the stratification factor.||1.68|0.88|0.225
92214550|NCT01839487|184328867|OTHER||Hazard Ratio (HR)|0.91||||0.495|TWO_SIDED|95.0|0.7|1.19||Threshold for significance at 0.1 level.|Log Rank|P-value was based on stratified log-rank test with the KPS category at screening as the stratification factor.||Hazard ratio PAG/AG was based on Cox proportional hazards model stratified by the KPS category (70-80% and 90-100%) at screening using AG as the reference arm.||1.19|0.70|0.495
92214551|NCT03714425|184328877|SUPERIORITY||||||<|0.05||||||The primary research objective to measure perceived improvement in pain at three months was assessed using a two-sample t-test of PGIC scores between the two treatment groups using a type I error rate of 0.05 (two-sided).|t-test, 2 sided|Most of the analyses involved delta scores reflecting changes within subjects, though we compared PGIC raw scores rather than change scores.||||||<0.05
92214552|NCT03877432|184328879|SUPERIORITY|||||||0.012|||||||ANOVA|||All data were presented as means ± standard deviations (SDs). Analysis of variance (ANOVA) was used to compare the effects of 1T stimulation amplitude changes on bladder capacity.||||0.012
92214553|NCT03877432|184328879|SUPERIORITY|||||||0.017|||||||ANOVA|||All data were presented as means ± standard deviations (SDs). Analysis of variance (ANOVA) was used to compare the effects of 2T stimulation amplitude changes on bladder capacity.||||0.017
92214554|NCT03877432|184328879|SUPERIORITY|||||||0.003|||||||ANOVA|||All data were presented as means ± standard deviations (SDs). Analysis of variance (ANOVA) was used to compare the effects of 3T stimulation amplitude changes on bladder capacity.||||0.003
92214555|NCT03877432|184328879|SUPERIORITY|||||||0.004|||||||ANOVA|||All data were presented as means ± standard deviations (SDs). Analysis of variance (ANOVA) was used to compare the effects of 4T stimulation amplitude changes on bladder capacity.||||0.004
92214556|NCT01474863|184328897|SUPERIORITY|||||||0.86|||||||ANOVA|||||||0.86
92214557|NCT02038920|184328898|SUPERIORITY||Odds Ratio (OR)|1.8||||0.1448|TWO_SIDED|95.0|0.816|3.958|||Cochran-Mantel-Haenszel||MLN0002 group/placebo group. Cochran-Mantel-Haenszel (CMH) test was used for analysis. Prior tumor necrosis factor alpha (TNFα) antagonist use (yes/no) was used as stratification factor.|||3.958|0.816|0.1448
92214558|NCT02038920|184328899|SUPERIORITY||Odds Ratio (OR)|3.57||||0.1779|TWO_SIDED|95.0|0.532|23.953|||Pearson's Chi-square Test||MLN0002 group/placebo group|||23.953|0.532|0.1779
92214559|NCT02038920|184328905|SUPERIORITY||Odds Ratio (OR)|1.83||||0.1963|TWO_SIDED|95.0|0.72|4.673|||Cochran-Mantel-Haenszel||MLN0002 group/placebo group. Cochran-Mantel-Haenszel (CMH) test was used for analysis. Prior tumor necrosis factor alpha (TNFα) antagonist use (yes/no) was used as stratification factor.|||4.673|0.720|0.1963
92214560|NCT02038920|184328907|SUPERIORITY||Odds Ratio (OR)|15.4||||0.0094|TWO_SIDED|95.0|1.473|160.972|||Pearson's Chi-square Test|||||160.972|1.473|0.0094
92214561|NCT02038920|184328908|SUPERIORITY||Odds Ratio (OR)|1.5||||0.6534|TWO_SIDED|95.0|0.254|8.844|||Pearson's Chi-square Test||MLN0002 group/placebo group.|||8.844|0.254|0.6534
92214562|NCT02038920|184328909|SUPERIORITY|||||||0.2059|||||||Pearson's Chi-square Test|||||||0.2059
92152456|NCT02875834|184190292|OTHER||Odds Ratio (OR)|6.3436|||<|0.001|TWO_SIDED|95.0|2.6866|14.9782|||Regression, Logistic|||Treatment group comparisons were made using a logistic regression model containing the following covariates: treatment group; both baseline S-K values (48-hours open-label initial phase and double-blind randomized phase); baseline eGFR (during 48-hour open-label initial phase); age category (\<55, 55-64, \>=65 years); country; baseline RAAS inhibitor, chronic kidney disease, heart failure, and diabetes mellitus statuses.||14.9782|2.6866|<0.001
92152457|NCT02875834|184190292|OTHER||Odds Ratio (OR)|18.1876|||<|0.001|TWO_SIDED|95.0|7.1591|46.2054|||Regression, Logistic|||||46.2054|7.1591|<0.001
92152458|NCT02875834|184190294|OTHER||Mean Difference (Final Values)|7.266|||<|0.001|TWO_SIDED|95.0|4.318|10.214|||Regression, Linear|||Results derived from a linear regression model with the following covariates: treatment group; baseline S-K values (Open-label phase and Randomized treatment phase); baseline eGFR; age category; country; baseline RAAS inhibitor, chronic kidney disease, heart failure, and diabetes mellitus statuses.||10.214|4.318|<0.001
92152459|NCT02875834|184190294|OTHER||Mean Difference (Final Values)|12.079|||<|0.001|TWO_SIDED|95.0|9.118|15.04|||Regression, Linear|||||15.040|9.118|<0.001
92152460|NCT02875834|184190297|OTHER||Hazard Ratio (HR)|0.443|||<|0.001|TWO_SIDED|95.0|0.2954|0.6631|||Regression, Cox|||Results derived from a Cox Proportional Hazards model with the following covariates: treatment group, both baseline S-K values (48-hours open-label initial phase and double-blind randomized phase), baseline eGFR, age category (\<55, 55-64, \>=65 years), country, baseline RAAS inhibitor, chronic kidney, disease heart failure, and diabetes mellitus statuses.||0.6631|0.2954|<0.001
92152461|NCT02875834|184190297|OTHER||Hazard Ratio (HR)|0.158|||<|0.001|TWO_SIDED|95.0|0.0992|0.2508|||Regression, Cox|||||0.2508|0.0992|<0.001
92214563|NCT00866697|184328918|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.766||||0.0021|TWO_SIDED|95.0|0.643|0.911||The P-value from the stratified log-rank test was adjusted for the two stratification factors.|Log Rank||The Hazard Ratio was estimated using a Pike estimator.|||0.911|0.643|0.0021
92152462|NCT01302938|184190300|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|-1.6|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-3.9|0.6||||||Change at Week 12: Analysis was performed using an analysis of covariance (ANCOVA) with term for treatment with baseline value as a covariate.||0.6|-3.9|
92152463|NCT01302938|184190301|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|29.4|STANDARD_ERROR_OF_MEAN|35.4|||TWO_SIDED|95.0|-47.8|106.6||||||Change at Week 1: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||106.6|-47.8|
92273648|NCT00386100|184449841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.5||||0.1369|TWO_SIDED|95.0|-3.9|1.7||Postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.7|-3.9|0.1369
92397975|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|2.26||||0.1981|TWO_SIDED|95.0|0.65|7.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.78|0.65|0.1981
92152464|NCT01302938|184190301|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|28.0|STANDARD_ERROR_OF_MEAN|38.9|||TWO_SIDED|95.0|-55.4|111.4||||||Change at Week 4: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||111.4|-55.4|
92152465|NCT01302938|184190301|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|43.0|STANDARD_ERROR_OF_MEAN|31.4|||TWO_SIDED|95.0|-24.2|110.3||||||Change at Week 12: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||110.3|-24.2|
92152466|NCT01302938|184190302|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-0.67|1.67||||||Change at Week 1: Non-parametric Hodges-Lehmann's method was used to obtain median difference and 95 percent (%) confidence intervals (CI).||1.67|-0.67|
92152467|NCT01302938|184190302|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.58|||||TWO_SIDED|95.0|-1.0|1.83||||||Change at Week 4: Non-parametric Hodges-Lehmann's method was used to obtain median difference and 95% CI.||1.83|-1.00|
92152468|NCT01302938|184190302|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-3.0|1.0||||||Change at Week 12: Non-parametric Hodges-Lehmann's method was used to obtain median difference and 95% CI.||1.00|-3.00|
92152469|NCT01302938|184190303|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-1.3|1.8||||||Change at Week 1: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||1.8|-1.3|
92152470|NCT01302938|184190303|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-2.2|0.9||||||Change at Week 4: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||0.9|-2.2|
92152471|NCT01302938|184190306|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-0.8|1.9||||||Change at Week 1: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||1.9|-0.8|
92152472|NCT01302938|184190306|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|-3.7|0.8||||||Change at Week 4: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||0.8|-3.7|
92152473|NCT01302938|184190306|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.9|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|95.0|-6.3|0.4||||||Change at Week 12: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||0.4|-6.3|
92152474|NCT01302938|184190309|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-10.0|STANDARD_ERROR_OF_MEAN|10.8|||TWO_SIDED|95.0|-33.2|13.2||||||Change at Week 12: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||13.2|-33.2|
92152475|NCT01302938|184190310|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|11.7|STANDARD_ERROR_OF_MEAN|8.6|||TWO_SIDED|95.0|-6.9|30.3||||||Change at Week 12; Coping Subscale: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||30.3|-6.9|
92214564|NCT00866697|184328919|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.6431|TWO_SIDED|95.0|0.805|1.145|||Log Rank|Stratified Log-Rank P-Value.|"The HR was estimated using a Pike estimator.~CIs were estimated using the Brookmeyer-Crowley method."|||1.145|0.805|0.6431
92214565|NCT01703663|184328945|SUPERIORITY_OR_OTHER||absolute difference|-5.73||||0.183|TWO_SIDED|95.0|-14.4|2.97|||ANOVA|||||2.97|-14.4|0.183
92273649|NCT00386100|184449842|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.7||||0.126|TWO_SIDED|95.0|-1.7|0.2||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.2|-1.7|0.1260
92273650|NCT00386100|184449842|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.7||||0.3117|TWO_SIDED|95.0|-2.2|0.7||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.7|-2.2|0.3117
92273651|NCT00386100|184449842|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.1776|TWO_SIDED|95.0|-2.2|0.4||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.4|-2.2|0.1776
92397976|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|3.35||||0.0531|TWO_SIDED|95.0|0.98|11.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||11.43|0.98|0.0531
92397977|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.72||||0.5858|TWO_SIDED|95.0|0.22|2.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.35|0.22|0.5858
92273652|NCT00386100|184449842|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.2||||0.2259|TWO_SIDED|95.0|-3.2|0.8||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.8|-3.2|0.2259
92273653|NCT00386100|184449842|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.384|TWO_SIDED|95.0|-2.8|1.1||postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.1|-2.8|0.3840
92273654|NCT00386100|184449843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.6102|TWO_SIDED|95.0|-1.9|1.1||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.1|-1.9|0.6102
92273655|NCT00386100|184449843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.3445|TWO_SIDED|95.0|-2.9|1.0||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.0|-2.9|0.3445
92397978|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.68||||0.5122|TWO_SIDED|95.0|0.21|2.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.16|0.21|0.5122
92397979|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.55||||0.3415|TWO_SIDED|95.0|0.16|1.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.89|0.16|0.3415
92397980|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.87||||0.8263|TWO_SIDED|95.0|0.25|2.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.98|0.25|0.8263
92397981|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.86||||0.8085|TWO_SIDED|95.0|0.24|3.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.03|0.24|0.8085
92397982|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.3||||0.6745|TWO_SIDED|95.0|0.38|4.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.43|0.38|0.6745
92397983|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9019|TWO_SIDED|95.0|0.34|3.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.45|0.34|0.9019
92397984|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.62||||0.4425|TWO_SIDED|95.0|0.18|2.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.10|0.18|0.4425
92152476|NCT01302938|184190310|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|8.0|STANDARD_ERROR_OF_MEAN|11.4|||TWO_SIDED|95.0|-16.7|32.7||||||Change at Week 12; Concern Subscale: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||32.7|-16.7|
92152477|NCT01302938|184190310|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|10.3|STANDARD_ERROR_OF_MEAN|10.9|||TWO_SIDED|95.0|-13.3|33.8||||||Change at Week 12; Sleep Subscale: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||33.8|-13.3|
92397985|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.54||||0.3106|TWO_SIDED|95.0|0.17|1.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.77|0.17|0.3106
92397986|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.32||||0.0912|TWO_SIDED|95.0|0.08|1.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.20|0.08|0.0912
92397987|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.7||||0.5681|TWO_SIDED|95.0|0.2|2.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.41|0.20|0.5681
92397988|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.58||||0.4261|TWO_SIDED|95.0|0.15|2.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.21|0.15|0.4261
92152478|NCT01302938|184190310|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|9.0|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|95.0|-11.0|29.0||||||Change at Week 12; Total HRQL Score: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||29.0|-11.0|
92152479|NCT01302938|184190311|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|4.0|||||TWO_SIDED|95.0|-20.0|20.0||||||Change at Week 12; Social Subscale: Non-parametric Hodges-Lehmann's method was used to obtain median difference and 95% CI.||20.00|-20.00|
92152480|NCT01672853|184190332|SUPERIORITY||Difference in LS Mean|-0.4|||||TWO_SIDED|95.0|-2.3|1.6||||||A mixed-effect model for repeated measures (MMRM) with an unstructured variance-covariance matrix for each participant was used to calculate a point estimate and a 95% confidence interval (CI) for the treatment difference between each treatment arm and placebo in least squares mean (LSMean) change from baseline in MQC at Week 96. With MMRM setting, all participants with available data from the 3 treatment groups with change in MQC at Week 48 and/or Week 96 contributed to the overall model.||1.6|-2.3|
92152481|NCT01672853|184190332|SUPERIORITY||Difference in LS Mean|1.0|||||TWO_SIDED|95.0|-1.0|3.0||||||A MMRM with an unstructured variancecovariance matrix for each participant was used to calculate a point estimate and a 95% CI for the treatment difference between each treatment arm and placebo in LSMean change from baseline in MQC at Week 96. With MMRM setting, all participants with available data from the 3 treatment groups with change in MQC at Week 48 and/or Week 96 contributed to the overall model.||3.0|-1.0|
92152482|NCT02969525|184190336|OTHER||Correlation statistic|4.6|||=|0.031|||||||Cochran-Mantel-Haenszel|||"Statistic and p-value were calculated using a Cochran-Mantel-Haenszel test (test for non-zero correlation statistic) based on modified ridit scores and including geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure as stratification factors.~The 160 loading dose arm was not considered in the dose-response because this is a mixed dose and the test is examining linear dose response."||||=0.031
92152483|NCT02969525|184190336|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|4.2|||=|0.032|TWO_SIDED|95.0|1.13|15.23||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Factor Necrosis (TNF) inhibitor exposure.||15.23|1.13|=0.032
92152484|NCT02969525|184190336|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|8.1|||=|0.001|TWO_SIDED|95.0|2.28|28.74||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Factor Necrosis (TNF) inhibitor exposure.||28.74|2.28|=0.001
92152485|NCT02969525|184190336|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|9.7|||<|0.001|TWO_SIDED|95.0|2.73|34.26||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Factor Necrosis (TNF) inhibitor exposure.||34.26|2.73|<0.001
92152486|NCT02969525|184190336|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|3.7|||=|0.051|TWO_SIDED|95.0|1.0|13.68||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Factor Necrosis (TNF) inhibitor exposure.||13.68|1.00|=0.051
92152487|NCT02969525|184190337|OTHER||Odds Ratio (OR)|4.6|||=|0.002|TWO_SIDED|95.0|1.73|12.39||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||12.39|1.73|=0.002
92397989|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.82||||0.7514|TWO_SIDED|95.0|0.24|2.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.82|0.24|0.7514
92273656|NCT00386100|184449843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.9735|TWO_SIDED|95.0|-2.4|2.3||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||2.3|-2.4|0.9735
92273657|NCT00386100|184449843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4||||0.4861|TWO_SIDED|95.0|-5.8|2.9||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||2.9|-5.8|0.4861
92273658|NCT00386100|184449843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.877|TWO_SIDED|95.0|-3.5|4.0||Postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||4.0|-3.5|0.8770
92273659|NCT00386100|184449844|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.2||||0.7015|TWO_SIDED|95.0|-1.5|1.0||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.0|-1.5|0.7015
92273660|NCT00386100|184449844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.6767|TWO_SIDED|95.0|-0.7|1.0||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.0|-0.7|0.6767
92273661|NCT00386100|184449844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.4199|TWO_SIDED|95.0|-3.4|1.5||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.5|-3.4|0.4199
92273662|NCT00386100|184449844|SUPERIORITY_OR_OTHER||Median Difference (Net)|-5.5||||0.2526|TWO_SIDED|95.0|-16.4|5.4||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||5.4|-16.4|0.2526
92397990|NCT03192176|184689409|SUPERIORITY||Odds Ratio (OR)|0.52||||0.2712|TWO_SIDED|95.0|0.16|1.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.67|0.16|0.2712
92397991|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|4.89||||0.0103|TWO_SIDED|95.0|1.46|16.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.40|1.46|0.0103
92397992|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|7.19||||0.0011|TWO_SIDED|95.0|2.2|23.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.48|2.20|0.0011
92273663|NCT00386100|184449844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.4153|TWO_SIDED|95.0|-1.8|0.8||postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.8|-1.8|0.4153
92273664|NCT00386100|184449845|SUPERIORITY_OR_OTHER||Percent difference from metformin|0.168||||0.7895|TWO_SIDED|95.0|-1.066|1.417||Overall population, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||1.417|-1.066|0.7895
92273665|NCT00386100|184449845|SUPERIORITY_OR_OTHER||Percent difference from metformin|0.745||||0.4155|TWO_SIDED|95.0|-1.064|2.587||Males, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||2.587|-1.064|0.4155
92273666|NCT00386100|184449845|SUPERIORITY_OR_OTHER||Percent difference from metformin|-0.452||||0.6223|TWO_SIDED|95.0|-2.253|1.382||Females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||1.382|-2.253|0.6223
92273667|NCT00386100|184449845|SUPERIORITY_OR_OTHER||Percent difference from metformin|-0.638||||0.5908|TWO_SIDED|95.0|-3.043|1.826||Premenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||1.826|-3.043|0.5908
92273668|NCT00386100|184449845|SUPERIORITY_OR_OTHER||Percent difference from metformin|-0.155||||0.9154|TWO_SIDED|95.0|-3.037|2.814||Postmenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||2.814|-3.037|0.9154
92273669|NCT00386100|184449846|SUPERIORITY_OR_OTHER||Percent difference from metformin|1.467||||0.8682|TWO_SIDED|95.0|-14.785|20.818||Overall population, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||20.818|-14.785|0.8682
92273670|NCT00386100|184449846|SUPERIORITY_OR_OTHER||Percent difference from metformin|0.328||||0.974|TWO_SIDED|95.0|-18.308|23.214||Males, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||23.214|-18.308|0.9740
92273671|NCT00386100|184449846|SUPERIORITY_OR_OTHER||Percent difference from metformin|2.986||||0.8378|TWO_SIDED|95.0|-22.997|37.735||Females, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||37.735|-22.997|0.8378
92273672|NCT00386100|184449846|SUPERIORITY_OR_OTHER||Percent difference from metformin|8.19||||0.7889|TWO_SIDED|95.0|-43.839|108.422||Pre-menopausal females, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||108.422|-43.839|0.7889
92273673|NCT00386100|184449846|SUPERIORITY_OR_OTHER||Percent difference from metformin|3.344||||0.88|TWO_SIDED|95.0|-34.853|63.935||Postmenopausal females, Week 80. Log transformed.|ANCOVA|.Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||63.935|-34.853|0.8800
92273674|NCT00386100|184449847|SUPERIORITY_OR_OTHER||Percent difference from metformin|1.2168||||0.9069|TWO_SIDED|95.0|-17.6057|24.3392||Overall population, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||24.3392|-17.6057|0.9069
92152488|NCT02969525|184190337|OTHER||Odds Ratio (OR)|11.0|||<|0.001|TWO_SIDED|95.0|3.91|30.95||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||30.95|3.91|<0.001
92152489|NCT02969525|184190337|OTHER||Odds Ratio (OR)|6.2|||<|0.001|TWO_SIDED|95.0|2.31|16.84||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||16.84|2.31|<0.001
92273675|NCT00386100|184449847|SUPERIORITY_OR_OTHER||Percent difference from metformin|-10.1648||||0.5118|TWO_SIDED|95.0|-35.6298|25.3742||Males, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||25.3742|-35.6298|0.5118
92273676|NCT00386100|184449847|SUPERIORITY_OR_OTHER||Percent difference from metformin|8.8777||||0.5816|TWO_SIDED|95.0|-20.2636|48.6692||Females, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||48.6692|-20.2636|0.5816
92273677|NCT00386100|184449847|SUPERIORITY_OR_OTHER||Percent difference from metformin|-1.0031||||0.9587|TWO_SIDED|95.0|-35.928|52.959||Pre-menopausal females, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||52.9590|-35.9280|0.9587
92397993|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|11.06|||<|0.0001|TWO_SIDED|95.0|3.41|35.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||35.86|3.41|<0.0001
92397994|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|10.48||||0.0001|TWO_SIDED|95.0|3.18|34.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||34.55|3.18|0.0001
92152490|NCT02969525|184190337|OTHER||Odds Ratio (OR)|4.2|||=|0.004|TWO_SIDED|95.0|1.59|11.35||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||11.35|1.59|=0.004
92273678|NCT00386100|184449847|SUPERIORITY_OR_OTHER||Percent difference from metformin|4.7614||||0.8337|TWO_SIDED|95.0|-34.4741|67.4901||Postmenopausal females, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||67.4901|-34.4741|0.8337
92273679|NCT00386100|184449848|SUPERIORITY_OR_OTHER||Percent difference from metformin|7.527||||0.7041|TWO_SIDED|95.0|-26.773|57.892||Females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||57.892|-26.773|0.7041
92273680|NCT00386100|184449848|SUPERIORITY_OR_OTHER||Percent difference from metformin|30.211||||0.6403|TWO_SIDED|95.0|-61.586|341.371||Pre-menopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||341.371|-61.586|0.6403
92273681|NCT00386100|184449848|SUPERIORITY_OR_OTHER||Percent difference from metformin|1.929||||0.8474|TWO_SIDED|95.0|-17.015|25.198||Postmenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|.Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||25.198|-17.015|0.8474
92273682|NCT00386100|184449849|SUPERIORITY_OR_OTHER||Percent difference from metformin|5.7||||0.486|TWO_SIDED|95.0|-9.6|23.6||Overall, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||23.6|-9.6|0.4860
92397995|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.46||||0.1571|TWO_SIDED|95.0|0.71|8.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||8.55|0.71|0.1571
92397996|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|7.14||||0.001|TWO_SIDED|95.0|2.21|23.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.04|2.21|0.0010
92397997|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|7.35||||0.0008|TWO_SIDED|95.0|2.29|23.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.61|2.29|0.0008
92397998|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.78||||0.0342|TWO_SIDED|95.0|1.08|7.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.18|1.08|0.0342
92397999|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.98||||0.0231|TWO_SIDED|95.0|1.16|7.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.66|1.16|0.0231
92273683|NCT00386100|184449849|SUPERIORITY_OR_OTHER||Percent difference from metformin|12.3||||0.3791|TWO_SIDED|95.0|-13.7|46.1||Males, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||46.1|-13.7|0.3791
92273684|NCT00386100|184449849|SUPERIORITY_OR_OTHER||Percent difference from metformin|4.0||||0.7065|TWO_SIDED|95.0|-15.3|27.6||Females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||27.6|-15.3|0.7065
92273685|NCT00386100|184449849|SUPERIORITY_OR_OTHER||Percent difference from metformin|32.1||||0.1381|TWO_SIDED|95.0|-9.5|92.7||Pre-menopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||92.7|-9.5|0.1381
92273686|NCT00386100|184449849|SUPERIORITY_OR_OTHER||Percent difference from metformin|-4.3||||0.7195|TWO_SIDED|95.0|-25.4|22.7||Postmenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|.Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||22.7|-25.4|0.7195
92273687|NCT00386100|184449850|SUPERIORITY_OR_OTHER||Percent difference from metformin|-3.0||||0.5595|TWO_SIDED|95.0|-12.3|7.4||Overall, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||7.4|-12.3|0.5595
92273688|NCT00386100|184449850|SUPERIORITY_OR_OTHER||Percent difference from metformin|1.0||||0.9125|TWO_SIDED|95.0|-15.3|20.4||Males, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||20.4|-15.3|0.9125
92273689|NCT00386100|184449850|SUPERIORITY_OR_OTHER||Percent difference from metformin|-0.8||||0.9122|TWO_SIDED|95.0|-14.0|14.5||Females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||14.5|-14.0|0.9122
92273690|NCT00386100|184449850|SUPERIORITY_OR_OTHER||Percent difference from metformin|4.6||||0.7435|TWO_SIDED|95.0|-21.2|38.7||Pre-menopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||38.7|-21.2|0.7435
92273691|NCT00386100|184449850|SUPERIORITY_OR_OTHER||Percent difference from metformin|-7.5||||0.3897|TWO_SIDED|95.0|-23.0|11.0||Postmenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|.Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||11.0|-23.0|0.3897
92398000|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|4.12||||0.0032|TWO_SIDED|95.0|1.6|10.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.55|1.60|0.0032
92398001|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.89||||0.0059|TWO_SIDED|95.0|1.48|10.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.22|1.48|0.0059
92398002|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.76||||0.2471|TWO_SIDED|95.0|0.68|4.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.59|0.68|0.2471
92152491|NCT02969525|184190338|OTHER||Odds Ratio (OR)|2.4|||=|0.279|TWO_SIDED|95.0|0.5|11.31||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||11.31|0.50|=0.279
92152492|NCT02969525|184190338|OTHER||Odds Ratio (OR)|4.1|||=|0.065|TWO_SIDED|95.0|0.92|17.88||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||17.88|0.92|=0.065
92152493|NCT02969525|184190338|OTHER||Odds Ratio (OR)|7.5|||=|0.006|TWO_SIDED|95.0|1.77|31.28||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||31.28|1.77|=0.006
92152494|NCT02969525|184190338|OTHER||Odds Ratio (OR)|2.9|||=|0.172|TWO_SIDED|95.0|0.63|13.39||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||13.39|0.63|=0.172
92152495|NCT03445065|184190363|SUPERIORITY||Mean Difference (Net)|-0.1||||0.341|TWO_SIDED|95.0|-0.4|0.1||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The ANCOVA model included arm, centre, and type of diabetes as fixed classification effects, and HbA1c (%) at inclusion as baseline covariate.|The mean difference in HbA1c (%) at Day 180 was calculated as the Enabled group minus the Control group.|||0.1|-0.4|0.341
92152496|NCT03445065|184190364|SUPERIORITY||Mean Difference (Net)|-1.6||||0.03892|TWO_SIDED|95.0|-3.1|-0.1||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The ANCOVA model included arm and centre as fixed classification effects and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||-0.1|-3.1|0.03892
92152497|NCT03445065|184190368|SUPERIORITY||Mean Difference (Net)|5.4||||0.056|TWO_SIDED|95.0|-0.1|10.9||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm, centre, and diabetes type as fixed classification effects, and % time in euglycemic range (Day0-30) as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||10.9|-0.1|0.056
92152498|NCT03445065|184190368|SUPERIORITY||Mean Difference (Net)|4.7||||0.01255|TWO_SIDED|95.0|1.0|8.4||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in euglycemic range (Day0-30) as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||8.4|1.0|0.01255
92152499|NCT03445065|184190369|SUPERIORITY||Mean Difference (Net)|-5.5||||0.015|TWO_SIDED|95.0|-9.9|-1.1||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hyperglycemia \>250mg/dL Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||-1.1|-9.9|0.015
92273692|NCT00386100|184449851|SUPERIORITY_OR_OTHER||Percent difference from metformin|-2.83||||0.5176|TWO_SIDED|95.0|-10.97|6.06||Overall, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||6.06|-10.97|0.5176
92152500|NCT03445065|184190369|SUPERIORITY||Mean Difference (Net)|-1.0||||0.50266|TWO_SIDED|95.0|-4.0|2.0||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hyperglycemia (\>250mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||2.0|-4.0|0.50266
92152501|NCT03445065|184190370|SUPERIORITY||Mean Difference (Net)|-5.1||||0.08|TWO_SIDED|95.0|-10.9|0.6||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hyperglycemia \>180mg/dL Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.6|-10.9|0.080
92152502|NCT03445065|184190370|SUPERIORITY||Mean Difference (Net)|-3.3||||0.10637|TWO_SIDED|95.0|-7.3|0.7||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hyperglycemia (\>180mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.7|-7.3|0.10637
92152503|NCT03445065|184190371|SUPERIORITY||Mean Difference (Net)|-0.2||||0.671|TWO_SIDED|95.0|-1.2|0.7||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hypoglycemia (\<70mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.7|-1.2|0.671
92152504|NCT03445065|184190371|SUPERIORITY||Mean Difference (Net)|-1.8||||0.12935|TWO_SIDED|95.0|-4.1|0.5||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hypoglycemia (\<70mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.5|-4.1|0.12935
92152505|NCT03445065|184190372|SUPERIORITY||Mean Difference (Net)|-0.1||||0.693|TWO_SIDED|95.0|-0.6|0.4||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.4|-0.6|0.693
92152506|NCT03445065|184190373|SUPERIORITY||Mean Difference (Net)|-0.9||||0.753|TWO_SIDED|95.0|-6.7|4.9||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in euglycemic range (Day0-30) as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||4.9|-6.7|0.753
92273693|NCT00386100|184449851|SUPERIORITY_OR_OTHER||Percent difference from metformin|-6.26||||0.362|TWO_SIDED|95.0|-18.62|7.97||Males, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||7.97|-18.62|0.3620
92273694|NCT00386100|184449851|SUPERIORITY_OR_OTHER||Percent difference from metformin|0.72||||0.9115|TWO_SIDED|95.0|-11.39|14.48||Females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||14.48|-11.39|0.9115
92273695|NCT00386100|184449851|SUPERIORITY_OR_OTHER||Percent difference from metformin|-13.51||||0.1956|TWO_SIDED|95.0|-30.35|8.31||Pre-menopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||8.31|-30.35|0.1956
92273696|NCT00386100|184449851|SUPERIORITY_OR_OTHER||Percent difference from metformin|3.75||||0.6749|TWO_SIDED|95.0|-13.09|23.85||Postmenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|.Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||23.85|-13.09|0.6749
92273697|NCT00919802|184449868|OTHER|||||||0.688|||||||t-test, 2 sided|||Global Response Assessment (GRA) scores were obtained 6 and 24 hours post oxytocin or saline administration.||||0.688
92273698|NCT00919802|184449869|OTHER|paired t-test comparison of change in VAR from baseline 6 hours after drug; a change in VAR score was calculated for each subject for each arm and compared using a paired t-test||||||0.7252|||||||t-test, 2 sided|||||||0.7252
92273699|NCT02059187|184449896|NON_INFERIORITY_OR_EQUIVALENCE|MK-1293 was to be considered non-inferior to Lantus in type 2 diabetes mellitus (T2DM) if the upper bound of the two-sided 95% confidence interval (CI) for the between-treatment difference (MK-1293 minus Lantus) in least-squares (LS) means was below 0.4% based on a cLDA model.|Difference in least squares means|0.03|||||TWO_SIDED|95.0|-0.12|0.18||||||||0.18|-0.12|
92398003|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.66||||0.0381|TWO_SIDED|95.0|1.05|6.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.70|1.05|0.0381
92152507|NCT03445065|184190373|SUPERIORITY||Mean Difference (Net)|-0.4||||0.84307|TWO_SIDED|95.0|-4.6|3.8||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effect, and % time in euglycemic range (Day0-30) as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||3.8|-4.6|0.84307
92152508|NCT03445065|184190374|SUPERIORITY||Mean Difference (Net)|-0.9||||0.653|TWO_SIDED|95.0|-4.8|3.0||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hyperglycemia (\>250mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||3.0|-4.8|0.653
92273700|NCT02059187|184449897|SUPERIORITY_OR_OTHER||Difference in percentage|5.7|||||TWO_SIDED|95.0|-2.3|13.7||||||||13.7|-2.3|
92273701|NCT02059187|184449899|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-8.5|8.5||||||||8.5|-8.5|
92273702|NCT02059187|184449900|SUPERIORITY_OR_OTHER||Difference in percent|6.8|||||TWO_SIDED|95.0|-0.6|14.2||||||||14.2|-0.6|
92273703|NCT02059187|184449901|SUPERIORITY_OR_OTHER||Difference in LS means|1.4|||||TWO_SIDED|95.0|-2.2|4.9||||||||4.9|-2.2|
92273704|NCT02059187|184449902|SUPERIORITY_OR_OTHER||Dofference in LS means|0.01|||||TWO_SIDED|95.0|-0.02|0.05||||||||0.05|-0.02|
92273705|NCT02059187|184449903|SUPERIORITY_OR_OTHER||Difference in LS means|3.5|||||TWO_SIDED|95.0|-3.7|10.7||||||||10.7|-3.7|
92273706|NCT02059187|184449904|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.4|||||TWO_SIDED|95.0|-11.3|4.4||||||||4.4|-11.3|
92152509|NCT03445065|184190374|SUPERIORITY||Mean Difference (Net)|2.3||||0.07261|TWO_SIDED|95.0|-0.2|4.8||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hyperglycemia (\>250mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||4.8|-0.2|0.07261
92273707|NCT02059187|184449905|SUPERIORITY_OR_OTHER||Adjusted difference in percent|2.8|||||TWO_SIDED|95.0|-6.1|11.6|||||Calculated via Miettinen and Nurminen method, stratified by prior insulin status.|||11.6|-6.1|
92273708|NCT02059187|184449906|SUPERIORITY_OR_OTHER||Adjusted difference in percent|-0.9|||||TWO_SIDED|95.0|-8.3|6.5|||||Calculated via Miettinen and Nurminen method, stratified by prior insulin status.|||6.5|-8.3|
92273709|NCT03751020|184449907|SUPERIORITY||Mean Difference (Net)|-6.34|||<|0.01|TWO_SIDED|95.0|-11.03|-1.64|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||-1.64|-11.03|<0.01
92273710|NCT03751020|184449908|SUPERIORITY||Mean Difference (Net)|-0.33||||0.03|TWO_SIDED|95.0|-0.62|-0.03|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||-0.03|-0.62|0.03
92273711|NCT03751020|184449909|SUPERIORITY||Mean Difference (Net)|-4.03||||0.07|TWO_SIDED|95.0|-8.55|0.47|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||0.47|-8.55|0.07
92273712|NCT03751020|184449910|SUPERIORITY||Mean Difference (Net)|1.12||||0.73|TWO_SIDED|95.0|-6.48|8.77|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||8.77|-6.48|0.73
92273713|NCT03751020|184449911|SUPERIORITY||Mean Difference (Net)|-1.28||||0.1|TWO_SIDED|95.0|-2.8|0.24|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||0.24|-2.80|0.10
92273714|NCT03751020|184449912|SUPERIORITY||Mean Difference (Net)|0.09||||0.76|TWO_SIDED|95.0|-1.19|1.57|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||1.57|-1.19|0.76
92152510|NCT03445065|184190375|SUPERIORITY||Mean Difference (Net)|1.3||||0.685|TWO_SIDED|95.0|-4.9|7.4||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hyperglycemia (\>180mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||7.4|-4.9|0.685
92273715|NCT00528879|184449937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.1014||0.0002||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||0.0002
92273716|NCT00528879|184449937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.1016|<|0.0001||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||<0.0001
92273717|NCT00528879|184449937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.1021|<|0.0001||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||<0.0001
92273718|NCT00528879|184449938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.8|STANDARD_ERROR_OF_MEAN|3.774|<|0.0019||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0019
92273719|NCT00528879|184449938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.5|STANDARD_ERROR_OF_MEAN|3.781|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
92273720|NCT00528879|184449938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.5|STANDARD_ERROR_OF_MEAN|3.819|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
92273721|NCT00528879|184449939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32|STANDARD_ERROR_OF_MEAN|0.3344|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
92273722|NCT00528879|184449939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16|STANDARD_ERROR_OF_MEAN|0.3344|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
92273723|NCT00528879|184449939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97|STANDARD_ERROR_OF_MEAN|0.3365|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
92273724|NCT00528879|184449940|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|7.1||||0.1775||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|Modified logistic regression|||||||0.1775
92273725|NCT00528879|184449940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7||||0.0275||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|Modified logistic regression|||||||0.0275
92273726|NCT00528879|184449940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.7||||0.0062||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|Modified logistic regression|||||||0.0062
92273727|NCT00528879|184449941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.3515||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|ANCOVA|||||||
92273728|NCT00528879|184449941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.3022||0.0068||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||0.0068
92273729|NCT00528879|184449941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.3535||0.029||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||0.0290
92273730|NCT00528879|184449942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.3681||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|ANCOVA|||||||
92273731|NCT00528879|184449942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|0.3745|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
92152511|NCT03445065|184190375|SUPERIORITY||Mean Difference (Net)|3.1||||0.19785|TWO_SIDED|95.0|-1.6|7.8||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hyperglycemia (\>180mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||7.8|-1.6|0.19785
92273732|NCT00528879|184449942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08|STANDARD_ERROR_OF_MEAN|0.3791|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
92273733|NCT00528879|184449949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.1109||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|ANCOVA|||||||
92273734|NCT00528879|184449949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1129||0.0004||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||0.0004
92273735|NCT00528879|184449949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.1146|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
92273736|NCT00528879|184449950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.1|STANDARD_ERROR_OF_MEAN|2.769||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|ANCOVA|||||||
92273737|NCT00528879|184449950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.1|STANDARD_ERROR_OF_MEAN|2.762|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
92273738|NCT00528879|184449950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.7|STANDARD_ERROR_OF_MEAN|2.808|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
92273739|NCT00528879|184449951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.9||||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|Modified logistic regression|||||||
92273740|NCT00528879|184449951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.8627|||||||Modified logistic regression|||||||0.8627
92273741|NCT00528879|184449951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.3||||0.0149||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|Modified logistic regression|||||||0.0149
92273742|NCT02555618|184449954|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|1.7|||||TWO_SIDED|95.0|-7.983|11.415|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for A/H1N1 Strain-Day 22.||11.415|-7.983|
92152512|NCT03445065|184190376|SUPERIORITY||Mean Difference (Net)|-0.4||||0.549|TWO_SIDED|95.0|-1.5|0.8||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hypoglycemia (\<70mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.8|-1.5|0.549
92152513|NCT03445065|184190376|SUPERIORITY||Mean Difference (Net)|-3.3||||0.0318|TWO_SIDED|95.0|-6.3|-0.3||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hypoglycemia (\<70mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||-0.3|-6.3|0.03180
92152514|NCT03445065|184190377|SUPERIORITY||Mean Difference (Net)|0.1||||0.859|TWO_SIDED|95.0|-0.6|0.7||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.7|-0.6|0.859
92152515|NCT03445065|184190377|SUPERIORITY||Mean Difference (Net)|-2.6||||0.01124|TWO_SIDED|95.0|-4.5|-0.6||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||-0.6|-4.5|0.01124
92152516|NCT03445065|184190378|SUPERIORITY||Mean Difference (Net)|-0.802|STANDARD_ERROR_OF_MEAN|0.391||0.045|TWO_SIDED|95.0|-1.1585|-0.018||The significance level was set to p\<0.05 (two-sided).|Mixed Models Analysis|The model included time and centre as fixed classification effects and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled (D150-180) group minus the Enabled (D90-120) group.|||-0.018|-1.1585|0.045
92152517|NCT03445065|184190379|SUPERIORITY||Mean Difference (Net)|0.47|STANDARD_ERROR_OF_MEAN|1.54||0.763|TWO_SIDED|95.0|-2.741|3.682||The significance level was set to p\<0.05 (two-sided).|Mixed Model for Repeated Measures|The model included time and centre as fixed classification effects and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Switch to Enabled (D150-180) group minus the Control (D90-120) group.|||3.682|-2.741|0.763
92152518|NCT03445065|184190380|SUPERIORITY||Mean Difference (Net)|1.3||||0.14|TWO_SIDED|95.0|-0.4|3.0||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and glucose variability Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||3.0|-0.4|0.140
92152519|NCT03445065|184190380|SUPERIORITY||Mean Difference (Net)|-0.5||||0.6411|TWO_SIDED|95.0|-2.6|1.6||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and glucose variability Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||1.6|-2.6|0.64110
92152520|NCT03445065|184190381|SUPERIORITY||Mean Difference (Net)|1.0||||0.339|TWO_SIDED|95.0|-1.1|3.1||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and glucose variability Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||3.1|-1.1|0.339
92152521|NCT03445065|184190381|SUPERIORITY||Mean Difference (Net)|-0.7||||0.57677|TWO_SIDED|95.0|-3.0|1.7||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and glucose variability Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||1.7|-3.0|0.57677
92152522|NCT03445065|184190382|SUPERIORITY||Mean Difference (Net)|-0.1||||0.558|TWO_SIDED|95.0|-0.3|0.2||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm, centre, and diabetes type as fixed classification effects, and HbA1c (%) at inclusion as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.2|-0.3|0.558
92152523|NCT03445065|184190382|SUPERIORITY||Mean Difference (Net)|-0.1||||0.408|TWO_SIDED|95.0|-0.3|0.1||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and HbA1c (%) at inclusion as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.1|-0.3|0.408
92152524|NCT03445065|184190383|SUPERIORITY||Mean Difference (Net)|0.1||||0.616|TWO_SIDED|95.0|-0.2|0.4||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and HbA1c (%) at inclusion as baseline covariate.|The mean difference in HbA1c (%) at Day 180 was calculated as the Enabled group minus the Control group.|||0.4|-0.2|0.616
92214566|NCT00726622|184329042|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Assuming a baseline rate of 90% oncologic success for the open resection arm, the sample size provided 80% power to declare non-inferiority if oncologic success rates were truly identical, using a 1-sided z score with α = .10 for falsely declaring non-inferiority when the true oncologic success rate for laparoscopic resection was 84%. Calculations were based on a 2-sample binomial non-inferiority calculation with a 90% success rate for the control group and a 6% non-inferiority margin.||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
92152525|NCT02172625|184190405|SUPERIORITY_OR_OTHER||week-to-week coefficient of variation %|26.0|||||TWO_SIDED||||||||This was the week-to-week coefficient of variation (CV) obtained at baseline over two different weeks in a fasted state measured at rest.|||||
92152526|NCT02172625|184190406|SUPERIORITY_OR_OTHER||week-to-week coefficient of variation %|15.0|||||TWO_SIDED||||||||This was the week-to-week coefficient of variation (CV) obtained at baseline over two different weeks in a fasted state measured at rest.|||||
92152527|NCT02172625|184190410|SUPERIORITY_OR_OTHER||week-to-week coefficient of variation %|24.0|||||TWO_SIDED||||||||This was the week-to-week coefficient of variation (CV) obtained at baseline over two different weeks in a fasted state measured at rest.|||||
92152528|NCT03315130|184190411|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.7|=|0.0941|TWO_SIDED|80.0|-4.5|-0.1||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-0.1|-4.5|=0.0941
92273743|NCT02555618|184449954|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-4.8|||||TWO_SIDED|95.0|-13.974|4.403|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for A/H3N2 Strain-Day 22.||4.403|-13.974|
92152529|NCT03315130|184190411|SUPERIORITY||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|1.7|=|0.0538|TWO_SIDED|80.0|-5.1|-0.6||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-0.6|-5.1|=0.0538
92152530|NCT03315130|184190412|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|1.3|=|0.047|TWO_SIDED|80.0|-3.9|-0.5||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-0.5|-3.9|=0.0470
92152531|NCT03315130|184190412|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.3|=|0.0392|TWO_SIDED|80.0|-4.0|-0.6||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-0.6|-4.0|=0.0392
92152532|NCT03315130|184190413|SUPERIORITY||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|2.4|=|0.017|TWO_SIDED|80.0|-8.4|-2.1||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-2.1|-8.4|=0.0170
92152533|NCT03315130|184190413|SUPERIORITY||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|2.4|=|0.0624|TWO_SIDED|80.0|-6.9|-0.6||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-0.6|-6.9|=0.0624
92152534|NCT03315130|184190414|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.2|=|0.1866|TWO_SIDED|80.0|-4.9|0.9||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||0.9|-4.9|=0.1866
92152535|NCT03315130|184190414|SUPERIORITY||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|2.2|=|0.0391|TWO_SIDED|80.0|-7.0|-1.1||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-1.1|-7.0|=0.0391
92152536|NCT03315130|184190418|SUPERIORITY||LS Mean Difference|-82.597|STANDARD_ERROR_OF_MEAN|3.563|<|0.0001|TWO_SIDED|80.0|-87.249|-77.946||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-77.946|-87.249|<0.0001
92152537|NCT03315130|184190418|SUPERIORITY||LS Mean Difference|-95.689|STANDARD_ERROR_OF_MEAN|3.91|<|0.0001|TWO_SIDED|80.0|-100.794|-90.585||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-90.585|-100.794|<0.0001
92152538|NCT03315130|184190419|SUPERIORITY||LS Mean Difference|60.123|STANDARD_ERROR_OF_MEAN|9.394|<|0.0001|TWO_SIDED|80.0|47.839|72.408||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||72.408|47.839|<0.0001
92152539|NCT03315130|184190419|SUPERIORITY||LS Mean Difference|57.076|STANDARD_ERROR_OF_MEAN|9.269|<|0.0001|TWO_SIDED|80.0|44.955|69.197||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||69.197|44.955|<0.0001
92152540|NCT00524030|184190424|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wald Test|2-sided 95% adjusted confidence interval constructed using KM product limit estimation and Greenwood's formula for variance with continuity correction||Null hypothesis (H0): Exit rate greater than or equal to (≥)74%||||<0.001
92152541|NCT00524030|184190424|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wald Test|2-sided 95% adjusted confidence interval constructed using KM product limit estimation and Greenwood's formula for variance with continuity correction||H0: Exite rate ≥68%||||<0.001
92152542|NCT00524030|184190425|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wald test|2-sided 95% adjusted confidence interval constructed using KM product limit estimation and Greenwood's formula for variance with continuity correction||H0: Exit rate ≥74%||||<0.001
92214567|NCT02462928|184329058|NON_INFERIORITY|For hypothesis testing, if the lower limit of 95.1% Confidence Interval (CI) for the difference between an abicipar group and ranibizumab was greater than or equal to -10%, non-inferiority of abicipar was established.|Percentage Difference|-3.8|||||TWO_SIDED|95.1|-8.2|0.3|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as stratification factor.|||0.3|-8.2|
92152543|NCT00524030|184190425|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||Wald test|2-sided 95% adjusted confidence interval constructed using KM product limit estimation and Greenwood's formula for variance with continuity correction||H0: Exit rate ≥68%||||0.001
92152544|NCT05473000|184190473|SUPERIORITY|||||||0.092|||||||t-test, 2 sided|||||||0.092
92152545|NCT02714205|184190474|SUPERIORITY||Model generated Least Square Mean|-0.54||||0.34|TWO_SIDED|95.0|-1.66|0.58|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||0.58|-1.66|0.34
92152546|NCT02714205|184190475|SUPERIORITY||Model generated Least Square Mean|0.51||||0.88|TWO_SIDED|95.0|-6.15|7.18|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix.|Model generated LS Mean Differences|||7.18|-6.15|0.88
92273744|NCT02555618|184449954|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|2.6|||||TWO_SIDED|95.0|-6.082|11.32|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for B Strain-Day 22.||11.320|-6.082|
92273745|NCT02555618|184449955|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|0.99|||||TWO_SIDED|95.0|0.7984|1.2253|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H1N1 Strain-Day 22.||1.2253|0.7984|
92398004|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.34||||0.0113|TWO_SIDED|95.0|1.31|8.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.48|1.31|0.0113
92398005|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.56||||0.0486|TWO_SIDED|95.0|1.01|6.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.52|1.01|0.0486
92214568|NCT02462928|184329058|NON_INFERIORITY|For hypothesis testing, if the lower limit of 95.1% Confidence Interval (CI) for the difference between an abicipar group and ranibizumab was greater than or equal to -10%, non-inferiority of abicipar was established.|Percentage Difference|-4.2|||||TWO_SIDED|95.1|-8.7|0.0|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as stratification factor.|||0.0|-8.7|
92273746|NCT02555618|184449955|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|0.76|||||TWO_SIDED|95.0|0.5544|1.05|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H3N2 Strain-Day 22.||1.0500|0.5544|
92273747|NCT02555618|184449955|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.06|||||TWO_SIDED|95.0|0.8134|1.3931|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for B Strain-Day 22.||1.3931|0.8134|
92273748|NCT02555618|184449958|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|6.8|||||TWO_SIDED|95.0|-3.02|16.348||||||The analysis is difference of seroconversion rate between treatment groups for A/H1N1 Strain-Day 22.||16.348|-3.020|
92273749|NCT02555618|184449958|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-8.8|||||TWO_SIDED|95.0|-18.282|0.901||||||The analysis is difference of seroconversion rate between treatment groups for A/H3N2 Strain-Day 22.||0.901|-18.282|
92273750|NCT02555618|184449958|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-2.3|||||TWO_SIDED|95.0|-11.461|6.835||||||The analysis is difference of seroconversion rate between treatment groups for B Strain-Day 22.||6.835|-11.461|
92273751|NCT02555618|184449959|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.05|||||TWO_SIDED|95.0|0.9559|1.1473|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H1N1 Strain-Day 22.||1.1473|0.9559|
92273752|NCT02555618|184449959|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|0.9|||||TWO_SIDED|95.0|0.7862|1.0241|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H3N2 Strain-Day 22.||1.0241|0.7862|
92273753|NCT02555618|184449959|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|0.98|||||TWO_SIDED|95.0|0.9273|1.0364|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for B Strain-Day 22.||1.0364|0.9273|
92273754|NCT02555618|184449962|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|14.7|||||TWO_SIDED|95.0|5.489|23.577||||||The analysis is difference of seroconversion rate between treatment groups for A/H1N1 Strain-Day 22.||23.577|5.489|
92273755|NCT02555618|184449962|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-1.9|||||TWO_SIDED|95.0|-10.614|6.928||||||The analysis is difference of seroconversion rate between treatment groups for A/H3N2 Strain-Day 22.||6.928|-10.614|
92273756|NCT02555618|184449962|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-2.4|||||TWO_SIDED|95.0|-10.346|5.579||||||The analysis is difference of seroconversion rate between treatment groups for B-Strain.||5.579|-10.346|
92273757|NCT02555618|184449963|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.48|||||TWO_SIDED|95.0|1.1221|1.9623|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H1N1 Strain-Day 22.||1.9623|1.1221|
92273758|NCT02555618|184449963|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.07|||||TWO_SIDED|95.0|0.7806|1.4564|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H3N2 Strain-Day 22.||1.4564|0.7806|
92398006|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.71||||0.035|TWO_SIDED|95.0|1.07|6.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.87|1.07|0.0350
92273759|NCT02555618|184449963|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.07|||||TWO_SIDED|95.0|0.8166|1.3934|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for B Strain-Day 22.||1.3934|0.8166|
92273760|NCT02555618|184449966|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|1.1|||||TWO_SIDED|95.0|-7.195|9.423|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for A/H1N1 Strain-Day 22.||9.423|-7.195|
92273761|NCT02555618|184449966|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-0.8|||||TWO_SIDED|95.0|-10.369|8.803|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for A/H3N2 Strain-Day 22.||8.803|-10.369|
92273762|NCT02555618|184449966|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|3.2|||||TWO_SIDED|95.0|-6.406|12.757|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for B Strain-Day 22.||12.757|-6.406|
92273763|NCT02555618|184449967|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.07|||||TWO_SIDED|95.0|0.9106|1.2484|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H1N1 Strain-Day 22.||1.2484|0.9106|
92273764|NCT02555618|184449967|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|0.98|||||TWO_SIDED|95.0|0.8686|1.0969|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H3N2-Day 22.||1.0969|0.8686|
92273765|NCT02555618|184449967|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.05|||||TWO_SIDED|95.0|0.9622|1.1427|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for B Strain-Day 22.||1.1427|0.9622|
92398007|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|4.24||||0.0027|TWO_SIDED|95.0|1.65|10.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.90|1.65|0.0027
92152547|NCT02714205|184190476|SUPERIORITY||Model generated Least Square Mean|-0.2||||0.57|TWO_SIDED|95.0|-0.88|0.48|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||0.48|-0.88|0.57
92152548|NCT02714205|184190477|SUPERIORITY||Model generated Least Square Mean Differ|-0.09||||0.81|TWO_SIDED|95.0|-0.8|0.63|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||0.63|-0.8|0.81
92273766|NCT00845026|184449975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.184||95.0||||No adjustments were made for multiplicity. All treatment comparisons were evaluated based on a two-sided significance level of 0.05.|Log Rank|||||||0.184
92273767|NCT03672396|184450022|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|0.13||||0.378|TWO_SIDED|95.0|-0.2|0.4|||t-test, 2 sided|||||0.4|-0.2|0.378
92273768|NCT03672396|184450023|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|0.35||||0.586|TWO_SIDED|95.0|-1.0|1.7|||t-test, 2 sided|||||1.7|-1.0|0.586
92273769|NCT03672396|184450024|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.25||||0.252|TWO_SIDED|95.0|-0.7|0.2|||t-test, 2 sided|||||0.2|-0.7|0.252
92273770|NCT03672396|184450025|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-16.3||||0.111|TWO_SIDED|95.0|-36.9|4.3|||t-test, 2 sided|Mean difference calculated as Post - Pre.||||4.3|-36.9|0.111
92273771|NCT03672396|184450026|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|1.4||||0.579|TWO_SIDED|95.0|-4.3|7.2|||t-test, 2 sided|||||7.2|-4.3|0.579
92273772|NCT03672396|184450027|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.1||||0.948|TWO_SIDED|95.0|-3.9|3.7|||t-test, 2 sided|||||3.7|-3.9|0.948
92273773|NCT03672396|184450028|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.2||||0.594|TWO_SIDED|95.0|-1.1|0.7|||t-test, 2 sided|||||0.7|-1.1|0.594
92273774|NCT03672396|184450029|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.8||||0.274|TWO_SIDED|95.0|-2.3|0.7|||t-test, 2 sided|||||0.7|-2.3|0.274
92273775|NCT03672396|184450030|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|1.89||||0.013|TWO_SIDED|95.0|0.48|3.29|||t-test, 2 sided|||||3.29|0.48|0.013
92273776|NCT03672396|184450031|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|4.16||||0.369|TWO_SIDED|95.0|-5.54|13.85|||t-test, 2 sided|||||13.85|-5.54|0.369
92273777|NCT03672396|184450032|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.4||||0.945|TWO_SIDED|95.0|-13.5|12.7|||t-test, 2 sided|||||12.7|-13.5|0.945
92273778|NCT03672396|184450033|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|1.3||||0.42|TWO_SIDED|95.0|-2.0|4.6|||t-test, 2 sided|||||4.6|-2.0|0.420
92152549|NCT02714205|184190478|SUPERIORITY||Model generated Least Square Mean Differ|0.43||||0.3|TWO_SIDED|95.0|-0.38|1.23|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||1.23|-0.38|0.3
92273779|NCT03672396|184450034|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.6||||0.941|TWO_SIDED|95.0|-16.9|15.8|||t-test, 2 sided|||||15.8|-16.9|0.941
92273780|NCT03672396|184450035|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|2.3||||0.203|TWO_SIDED|95.0|-1.4|5.9|||t-test, 2 sided|||||5.9|-1.4|0.203
92273781|NCT03672396|184450036|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|1.3||||0.057|TWO_SIDED|95.0|-0.04|2.6|||t-test, 2 sided|||||2.6|-0.04|0.057
92273782|NCT03672396|184450037|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|0.1||||0.809|TWO_SIDED|95.0|-1.0|1.3|||t-test, 2 sided|||||1.3|-1.0|0.809
92273783|NCT03672396|184450038|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|0.4||||0.191|TWO_SIDED|95.0|-0.3|1.1|||t-test, 2 sided|||||1.1|-0.3|0.191
92273784|NCT03672396|184450039|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|0.5||||0.237|TWO_SIDED|95.0|-0.3|1.3|||t-test, 2 sided|||||1.3|-0.3|0.237
92273785|NCT02522949|184450095|SUPERIORITY|||||||0.7146|||||||ANCOVA|||Oropharyngeal||||0.7146
92273786|NCT02522949|184450095|SUPERIORITY|||||||0.3543|||||||ANCOVA|||Nasal||||0.3543
92273787|NCT02522949|184450103|OTHER|||||||0.0232|||||||Exact Wilcoxon rank sum test|||||||0.0232
92214569|NCT02462928|184329059|NON_INFERIORITY|For hypothesis testing, non-inferiority of abicipar is established if the lower limit of the CI is \> - 5.0 letters.|Least Squares (LS) Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.2|||TWO_SIDED|95.1|-4.7|-0.1|||||MMRM included treatment, region, BL BCVA, BL CRT ≤400 or \>400, choroidal neovascularization lesion type, visit, visit-by-BL BCVA interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||-0.1|-4.7|
92214570|NCT02462928|184329059|NON_INFERIORITY|For hypothesis testing, non-inferiority of abicipar is established if the lower limit of the CI is \> - 5.0 letters.|LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|1.2|||TWO_SIDED|95.1|-6.0|-1.3|||||MMRM included treatment, region, BL BCVA, BL CRT ≤400 or \>400, choroidal neovascularization lesion type, visit, visit-by-BL BCVA interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||-1.3|-6.0|
92214571|NCT02462928|184329060|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|LS Mean Difference|8.6|STANDARD_ERROR_OF_MEAN|6.3|||TWO_SIDED|95.1|-3.8|20.9|||||MMRM was used for analyses with covariates (treatment, region, baseline BCVA, CRT, choroidal neovascularization lesion type, visit, visit by baseline BCVA and treatment by visit interaction) with unstructured covariance matrix.|||20.9|-3.8|
92214572|NCT02462928|184329060|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|LS Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|6.3|||TWO_SIDED|95.1|-10.1|14.7|||||MMRM was used for analyses with covariates (treatment, region, baseline BCVA, CRT, choroidal neovascularization lesion type, visit, visit by baseline BCVA and treatment by visit interaction) with unstructured covariance matrix.|||14.7|-10.1|
92214573|NCT02462928|184329061|SUPERIORITY||Percentage Difference|-4.7|||||TWO_SIDED|95.1|-11.5|2.1|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as the stratification factor.|||2.1|-11.5|
92214574|NCT02462928|184329061|SUPERIORITY||Percentage Difference|-8.2|||||TWO_SIDED|95.1|-14.7|-1.5|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as the stratification factor.|||-1.5|-14.7|
92214575|NCT02462928|184329062|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.1|-3.7|0.0|||||MMRM was used for analyses with covariates (treatment, region, baseline BCVA, visual function questionnaire (VFQ) score, visit, visit by baseline BCVA and treatment by visit interaction) with unstructured covariance matrix.|||-0.0|-3.7|
92214576|NCT02462928|184329062|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.1|-2.7|1.0|||||MMRM was used for analyses with covariates (treatment, region, baseline BCVA, visual function questionnaire (VFQ) score, visit, visit by baseline BCVA and treatment by visit interaction) with unstructured covariance matrix.|||1.0|-2.7|
92214577|NCT00395863|184329063|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Reader 1|wilcoxon signed-rank test|||||||< 0.0001
92214578|NCT00395863|184329063|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Reader 2|wilcoxon signed-rank test|||||||<0.0001
92214579|NCT00395863|184329063|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Reader 3|wilcoxon signed-rank test|||||||< 0.0001
92214580|NCT00395863|184329064|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||Reader 1|wilcoxon signed-rank test|||||||0.0001
92214581|NCT00395863|184329064|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||||||Reader 2|wilcoxon signed-rank test|||||||0.001
92214582|NCT00395863|184329064|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||||||Reader 3|wilcoxon signed-rank test|||||||0.0002
92214583|NCT00395863|184329065|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Reader 1|wilcoxon signed-rank test|||||||<0.0001
92214584|NCT00395863|184329065|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Reader 2|wilcoxon signed-rank test|||||||<0.0001
92214585|NCT00395863|184329065|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Reader 3|wilcoxon signed-rank test|||||||<0.0001
92214586|NCT00395863|184329066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_DEVIATION|0.22|<|0.0001||95.0|0.14|0.3||Mean difference of MultiHance minus Magnevist for change from baseline|t-test, 2 sided|||||0.30|0.14|<0.0001
92214587|NCT00395863|184329067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|0.2|<|0.0001||95.0|0.22|0.38||Mean difference of Multihance minus Magnevist for change from baseline|t-test, 2 sided|||||0.38|0.22|<0.0001
92214588|NCT00395863|184329068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_DEVIATION|0.19|<|0.0001||95.0|0.18|0.33||Mean difference of Multihance minus Magnevist for change from baseline|t-test, 2 sided|||||0.33|0.18|<0.0001
92214589|NCT00395863|184329069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.99|STANDARD_DEVIATION|59.78||0.0062||95.0|20.72|61.26||Mean difference of Multihance minus Magnevist for change from baseline|t-test, 2 sided|||||61.26|20.72|0.0062
92273788|NCT00725725|184450115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5299||||0.3934|TWO_SIDED|95.0|-2.0781|5.138|||Mixed Models Analysis|||||5.1380|-2.0781|0.3934
92214590|NCT00395863|184329070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|30.95|STANDARD_DEVIATION|48.64||0.0027||95.0|16.57|45.33||Mean difference of Multihance minus Magnevist for change from baseline|t-test, 2 sided|||||45.33|16.57|0.0027
92214591|NCT00395863|184329071|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|25.04|STANDARD_DEVIATION|37.37||0.02||95.0|12.41|37.67||Mean difference of Multihance minus Magnevist for change from baseline|t-test, 2 sided|||||37.67|12.41|0.02
92214592|NCT00395863|184329072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|32.77|STANDARD_DEVIATION|48.51||0.0019||95.0|14.28|51.25||Mean difference of Multihance minus Magnevist|t-test, 2 sided|||||51.25|14.28|0.0019
92214593|NCT00395863|184329073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|33.61|STANDARD_DEVIATION|43.16||0.0008||95.0|16.75|50.47||Mean difference of Multihance minus Magnevist|t-test, 2 sided|||||50.47|16.75|0.0008
92214594|NCT00395863|184329074|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|33.72|STANDARD_DEVIATION|48.5||0.0026||95.0|14.63|52.81||Mean difference of Multihance minus Magnevist|t-test, 2 sided|||||52.81|14.63|0.0026
92273789|NCT00725725|184450115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2667||||0.3515|TWO_SIDED|95.0|-1.4665|4.0|||Mixed Models Analysis|||||4.0000|-1.4665|0.3515
92398008|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|4.68||||0.002|TWO_SIDED|95.0|1.76|12.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||12.47|1.76|0.0020
92398009|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0686|TWO_SIDED|95.0|0.94|6.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.19|0.94|0.0686
92398010|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|4.02||||0.0034|TWO_SIDED|95.0|1.58|10.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.21|1.58|0.0034
92398011|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0222|TWO_SIDED|95.0|1.16|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.22|1.16|0.0222
92398012|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.28||||0.0876|TWO_SIDED|95.0|0.89|5.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.84|0.89|0.0876
92273790|NCT00725725|184450116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8246||||0.3597|TWO_SIDED|95.0|-5.8307|2.1815|||Mixed Models Analysis|||||2.1815|-5.8307|0.3597
92273791|NCT00725725|184450116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4414||||0.777|TWO_SIDED|95.0|-3.5952|2.7124|||Mixed Models Analysis|||||2.7124|-3.5952|0.7770
92273792|NCT00725725|184450117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3356||||0.2683|TWO_SIDED|95.0|-1.8933|6.5644|||Mixed Models Analysis|||||6.5644|-1.8933|0.2683
92273793|NCT00725725|184450117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1317||||0.0844|TWO_SIDED|95.0|-0.4518|6.7152|||Mixed Models Analysis|||||6.7152|-0.4518|0.0844
92273794|NCT00725725|184450121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3456||||0.8894|TWO_SIDED|95.0|-4.6211|5.3124|||Mixed Models Analysis|||||5.3124|-4.6211|0.8894
92273795|NCT00725725|184450121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0417||||0.3765|TWO_SIDED|95.0|-2.5526|6.636|||Mixed Models Analysis|||||6.6360|-2.5526|0.3765
92273796|NCT00725725|184450122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2502||||0.8073|TWO_SIDED|95.0|-11.4963|8.9958|||Mixed Models Analysis|||||8.9958|-11.4963|0.8073
92273797|NCT00725725|184450122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0291||||0.661|TWO_SIDED|95.0|-7.2132|11.2714|||Mixed Models Analysis|||||11.2714|-7.2132|0.6610
92273798|NCT00725725|184450123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7296||||0.7895|TWO_SIDED|95.0|-4.7291|6.1883|||Mixed Models Analysis|||||6.1883|-4.7291|0.7895
92273799|NCT00725725|184450123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.526||||0.5488|TWO_SIDED|95.0|-3.5495|6.6015|||Mixed Models Analysis|||||6.6015|-3.5495|0.5488
92273800|NCT00725725|184450124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2766||||0.6516|TWO_SIDED|95.0|-6.9269|4.3738|||Mixed Models Analysis|||||4.3738|-6.9269|0.6516
92398013|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.72||||0.0345|TWO_SIDED|95.0|1.08|6.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.88|1.08|0.0345
92398014|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0319|TWO_SIDED|95.0|1.09|6.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.99|1.09|0.0319
92398015|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|5.27||||0.0013|TWO_SIDED|95.0|1.92|14.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||14.47|1.92|0.0013
92273801|NCT00725725|184450124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1867||||0.0256|TWO_SIDED|95.0|-11.5864|-0.7869|||Mixed Models Analysis|||||-0.7869|-11.5864|0.0256
92273802|NCT04288115|184450138|NON_INFERIORITY|An one-sided α-level of 0.05 will be used to determine the statistical significance of the non-inferiority test.|Difference in Group Means|-5.3||||0.0913|TWO_SIDED|90.0|-16.1|5.4||Group differences.|Welch's two-sample t-test|A one-sided p-value \< 0.05 indicates the discontinuation mean falls within the non-inferiority limit.|Differences reported as the sham discontinuation mean minus the real discontinuation mean.|A one-sided t-test will be used to determine whether the mean Hypothyroid Symptoms score for the real discontinuation group is no more than 14 points worse than the score of the sham discontinuation group at 6 months.||5.4|-16.1|0.0913
92273803|NCT04288115|184450138|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical difference.|Difference in Group Means|0.8||||0.8793|TWO_SIDED|95.0|-9.4|10.9||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates the real discontinuation mean and the sham discontinuation mean are different. Adjusted for gender and baseline HSSs.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline hypothyroid symptom scores.|Analysis of 6-week outcome||10.9|-9.4|0.8793
92273804|NCT04288115|184450138|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-2.3||||0.686|TWO_SIDED|95.0|-14.0|9.3||Group differences.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline HSS.|Differences are reported as sham discontinuation mean minus real discontinuation mean. These differences have been adjusted for gender and baseline hypothyroid symptom scores.|Analysis of 6-month outcome||9.3|-14.0|0.6860
92398016|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.91||||0.1751|TWO_SIDED|95.0|0.75|4.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||4.87|0.75|0.1751
92152550|NCT02714205|184190479|SUPERIORITY||Model generated Least Square Mean Differ|0.4||||0.68|TWO_SIDED|95.0|-1.52|2.32|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||2.32|-1.52|0.68
92152551|NCT02714205|184190480|SUPERIORITY||Model generated Least Square Mean Differ|-0.83||||0.12|TWO_SIDED|95.0|-1.89|0.23|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||0.23|-1.89|0.12
92152552|NCT02714205|184190481|SUPERIORITY||Model generated Least Square Mean Differ|-1.41||||0.25|TWO_SIDED|95.0|-3.81|0.99|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||0.99|-3.81|0.25
92152553|NCT00186498|184190488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||||||Test of within subjects contrast: CVLT Long Delay Free Recall Time 1 (baseline) vs Time 2 (30 days): Placebo (F 4.093) p= 0.071; Memantine (F 35.042) p=0.006|Regression, Linear|||||||0.006
92152554|NCT01693692|184190498|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.25||0.1683|ONE_SIDED|95.0||0.2|||ANCOVA|||||0.2||0.1683
92273805|NCT04288115|184450139|NON_INFERIORITY|A one-sided α-level of 0.05 will be used to determine the statistical significance of the non-inferiority test.|Difference in Group Means|5.2||||0.0036|TWO_SIDED|90.0|-6.2|16.6||Group differences.|Welch's two-sample t-test|A one-sided p-value \< 0.05 indicates the discontinuation mean falls within the non-inferiority limit.|Differences reported as the sham discontinuation mean minus the real discontinuation mean.|A one-sided t-test will be used to determine whether the mean Tiredness score for the real discontinuation group is no more than 14 points worse than the score of the sham discontinuation group at 6 months.||16.6|-6.2|0.0036
92273806|NCT04288115|184450139|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|2.3||||0.7104|TWO_SIDED|95.0|-10.1|14.7||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline score.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These mean differences have been adjusted for gender and baseline tiredness score.|Analysis of 6-week outcome||14.7|-10.1|0.7104
92273807|NCT04288115|184450139|OTHER|A two-sided α-level of 0.05 will be used to determine statistical significance.|Difference in Group Means|5.4||||0.3381|TWO_SIDED|95.0|-5.9|16.7||Group differences.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline score.|Differences reported as sham discontinuation mean minus real discontinuation mean. These differences have been adjusted for gender and baseline tiredness scores.|Analysis of 6-month outcome||16.7|-5.9|0.3381
92273808|NCT04288115|184450140|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-0.02||||0.4684|TWO_SIDED|95.0|-0.076|0.036||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline score.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline EQ-5D Descriptive scores.|Analysis of 6-week EQ-5D Descriptive score outcome.||0.036|-0.076|0.4684
92273809|NCT04288115|184450140|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|0.003||||0.9585|TWO_SIDED|95.0|-0.102|0.107||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline score.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline EQ-5D Descriptive scores.|Analysis of 6-month EQ-5D Descriptive score outcome.||0.107|-0.102|0.9585
92273810|NCT04288115|184450140|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|7.0||||0.0643|TWO_SIDED|95.0|-0.4|14.4||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline score.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline EQ-5D VAS scores.|Analysis of 6-week EQ-5D VAS score outcome.||14.4|-0.4|0.0643
92398017|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|4.46||||0.0019|TWO_SIDED|95.0|1.73|11.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||11.50|1.73|0.0019
92152555|NCT01693692|184190498|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.25||0.0277|ONE_SIDED|95.0||-0.1|||ANCOVA|||||-0.1||0.0277
92152556|NCT01693692|184190499|SUPERIORITY||Mean Difference (Final Values)|-1.57|STANDARD_ERROR_OF_MEAN|2.48||0.2637|ONE_SIDED|95.0||2.5|||ANCOVA|||||2.5||0.2637
92152557|NCT01693692|184190499|SUPERIORITY||Mean Difference (Final Values)|-5.8|STANDARD_ERROR_OF_MEAN|2.47||0.0097|ONE_SIDED|95.0||-1.7|||ANCOVA|||||-1.7||0.0097
92152558|NCT01693692|184190500|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.16||0.0639|ONE_SIDED|95.0||0.0|||ANCOVA|||||0.0||0.0639
92152559|NCT01693692|184190500|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.16||0.007|ONE_SIDED|95.0||-0.1|||ANCOVA|||||-0.1||0.0070
92152560|NCT01811563|184190521|EQUIVALENCE|Main effect for implant independent of time||||||0.661|||||||ANOVA|||||||0.661
92152561|NCT01811563|184190521|EQUIVALENCE|Main effect for time independent of implant|||||<|0.001|||||||ANOVA|||||||<0.001
92152562|NCT01811563|184190521|EQUIVALENCE|Interaction between implant and time||||||0.27|||||||ANOVA|||||||0.270
92152563|NCT01811563|184190522|EQUIVALENCE|Main effect for implant independent of time||||||0.856|||||||ANOVA|Main effect for implant, LQ-YBT Baseline to 52 weeks||||||0.856
92152564|NCT01811563|184190522|EQUIVALENCE|Time independent of implant, Baseline to 52 Weeks|||||<|0.001|||||||ANOVA|||||||<0.001
92273811|NCT04288115|184450140|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-6.2||||0.1742|TWO_SIDED|95.0|-15.3|2.9||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline scores.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline EQ-5D VAS scores.|Analysis of 6-month EQ-5D VAS score outcome.||2.9|-15.3|0.1742
92273812|NCT04288115|184450141|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-12.0||||0.1695|TWO_SIDED|95.0|-29.3|5.3||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline value.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline total cholesterol value.|Analysis of 6-month total cholesterol outcome.||5.3|-29.3|0.1695
92273813|NCT04288115|184450141|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-6.8||||0.3805|TWO_SIDED|95.0|-22.2|8.6||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline value.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline LDL values.|Analysis of 6-month LDL outcome.||8.6|-22.2|0.3805
92273814|NCT04288115|184450141|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|1.7||||0.5724|TWO_SIDED|95.0|-4.44|7.9||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline value.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline HDL values.|Analysis of 6-month HDL outcome.||7.9|-4.44|0.5724
92273815|NCT04288115|184450141|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-17.8||||0.3939|TWO_SIDED|95.0|-59.4|23.9||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline value.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline triglyceride values.|Analysis of 6-month triglyceride outcome.||23.9|-59.4|0.3939
92273816|NCT04542330|184450144|SUPERIORITY||||||<|0.05|||||||Andersen-Gill Cox|||Acute infection was analysed as recurrent events using an Andersen-Gill Cox proportional hazards regression model with time since inclusion as underlying time scale. The analysis was done for the composite outcome and for all subcomponents separately, presenting Hazard Ratios (HR) with 95% Confidence Intervals (CI) for each. For all recurrent outcomes, a wash-out period of 14 days was used to define new events.||||< 0.05
92273817|NCT04542330|184450145|SUPERIORITY||||||<|0.05|||||||Regression, Cox|||Verified SARS-CoV-2 infection (first event) and all-cause hospitalisation (first event) was analysed using standard Cox proportional hazards models, but otherwise as described for primary outcome.||||< 0.05
92273818|NCT04542330|184450146|SUPERIORITY||||||<|0.05|||||||Andersen-Gill Cox|||The secondary outcome, self-reported respiratory symptoms, was analysed the same way as the primary outcome (recurrent events).||||< 0.05
92273819|NCT04542330|184450147|SUPERIORITY||||||<|0.05|||||||Regression, Cox|||Verified SARS-CoV-2 infection (first event) and all-cause hospitalisation (first event) was analysed using standard Cox proportional hazards models, but otherwise as described for the primary outcome.||||< 0.05
92152565|NCT01811563|184190522|EQUIVALENCE|Implant by Time interaction, Baseline to 52 Weeks between Zimmer and Stryker||||||0.822|||||||ANOVA|||||||0.822
92152566|NCT01811563|184190523|EQUIVALENCE|Main effect for implant, Baseline to 52 weeks||||||0.158|||||||ANOVA|||||||.158
92152567|NCT01811563|184190523|EQUIVALENCE|Main effect for time, Baseline to 52 weeks|||||<|0.001|||||||ANOVA|||||||<0.001
92152568|NCT01811563|184190523|EQUIVALENCE|Interaction of time by implant, Baseline to 52 weeks||||||0.365|||||||ANOVA|||||||0.365
92152569|NCT01811563|184190525|EQUIVALENCE|Main effect for implant, baseline to 52 weeks||||||0.416|||||||ANOVA|||||||.416
92152570|NCT01811563|184190525|EQUIVALENCE|Main effect for time, Baseline to 52 weeks|||||<|0.001|||||||ANOVA|||||||<0.001
92152571|NCT01811563|184190525|EQUIVALENCE|Implant by time interaction, baseline to 52 weeks||||||0.917|||||||ANOVA|||||||0.917
92152572|NCT01811563|184190527|EQUIVALENCE|Main effect by implant, Baseline to 52 weeks||||||0.83|||||||ANOVA|||||||0.830
92273820|NCT03877237|184450166|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|4.23||||0.02164|TWO_SIDED|95.0|0.96|8.22||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate.|Rank ANCOVA|Model includes baseline rank of outcome variable as a covariate, treatment group as a factor, and is stratified by T2DM status at randomization.||"For the primary efficacy endpoint KCCQ-TSS, the following hypothesis was tested using the significance level 0.04990~* H0: m(r(A)) = m(r(C)) versus~* H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, KCCQ-TSS, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively."||8.22|0.96|0.02164
92273821|NCT03877237|184450167|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|4.17||||0.05842|TWO_SIDED|95.0|0.03|8.33||KCCQ-PLS was tested at the alpha level of 0.04990 because KCCQ-TSS had a statistically significant p-value, in accordance with the pre-specified testing strategy.|Rank ANCOVA|Model includes baseline rank of outcome variable as a covariate, treatment group as a factor, and is stratified by T2DM status at randomization.||"For the primary efficacy endpoint KCCQ-PLS, the following hypothesis was tested at significant level of 0.04990~* H0: m(r(A)) = m(r(C)) versus~* H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, KCCQ-PLS, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively."||8.33|0.03|0.05842
92273822|NCT03877237|184450168|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|3.2||||0.68626|TWO_SIDED|95.0|-6.5|13.0||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate.|Rank ANCOVA|Model includes baseline rank of outcome variable as a covariate, treatment group as a factor, and is stratified by T2DM status at randomization.||"For the primary efficacy endpoint 6MWD, the following hypothesis was tested using the significance level 0.00010:~H0: m(r(A)) = m(r(C)) versus H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, 6MWD, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively."||13.0|-6.5|0.68626
92273823|NCT03877237|184450169|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|-0.16||||0.19748|TWO_SIDED|95.0|-0.55|0.22||Total time spent in LVPA was not tested for statistical significance and the p-value is considered nominal because the test for 6MWD was not statistically significant.|Rank ANCOVA|Model includes baseline rank of outcome variable as a covariate, treatment group as a factor, and is stratified by T2DM status at randomization.||"For the secondary efficacy endpoint, total time spent in LVPA, the testing hypothesis is~* H0: m(r(A)) = m(r(C)) versus~* H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in secondary efficacy endpoint, total time spent in LVPA, from baseline to End of study among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively."||0.22|-0.55|0.19748
92273824|NCT00382291|184450170|SUPERIORITY_OR_OTHER|||||||0.2106||95.0|||||Kruskal-Wallis|||Data were analyzed using two-sided Kruskal-Wallis test with level of significance = .05. Null hypothesis was that there were no group differences. The maximum CGI-SA obtained over course of study was the outcome measure.||||.2106
92273825|NCT00382291|184450171|SUPERIORITY_OR_OTHER|||||||0.8831|TWO_SIDED|95.0|||||ANCOVA|||Data were analyzed using ANCOVA modeling with two-sided testing and level of significance = .05. The dependent variable was last measured CY-BOCS score, the independent variable was randomized group assignment and the covariate was the CY-BOCS score at baseline. The null hypothesis was that there were no group differences.||||.8831
92273826|NCT02270983|184450194|SUPERIORITY||Least squares mean difference|1.325|STANDARD_ERROR_OF_MEAN|0.45||0.0035|TWO_SIDED|95.0|0.439|2.211|||ANCOVA|||||2.211|0.439|0.0035
92273827|NCT02270983|184450194|SUPERIORITY||Least squares mean difference|1.908|STANDARD_ERROR_OF_MEAN|0.451|<|0.0001|TWO_SIDED|95.0|1.021|2.796|||ANCOVA|||||2.796|1.021|<0.0001
92398018|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.79||||0.0284|TWO_SIDED|95.0|1.11|6.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.97|1.11|0.0284
92152573|NCT01811563|184190527|EQUIVALENCE|Main effect by time, baseline to 52 weeks|||||<|0.001|||||||ANOVA|||||||<0.001
92273828|NCT02270983|184450195|SUPERIORITY||Cox Proportional Hazard|1.28||||0.1429|TWO_SIDED|95.0|0.92|1.77|||Log Rank|||||1.77|0.92|0.1429
92273829|NCT02270983|184450195|SUPERIORITY||Cox Proportional Hazard|1.43||||0.0287|TWO_SIDED|95.0|1.04|1.97|||Log Rank|||||1.97|1.04|0.0287
92273830|NCT02270983|184450196|SUPERIORITY||Odds Ratio (OR)|1.37||||0.3332|TWO_SIDED|95.0|0.73|2.58|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel tests comparing specified treatment groups, controlling for geographic region.||||2.58|0.73|0.3332
92273831|NCT02270983|184450196|SUPERIORITY||Odds Ratio (OR)|1.92||||0.0506|TWO_SIDED|95.0|1.0|3.68|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel tests comparing specified treatment groups, controlling for geographic region.||||3.68|1.00|0.0506
92273832|NCT02270983|184450197|SUPERIORITY||Least squares mean difference|0.751|STANDARD_ERROR_OF_MEAN|0.217||0.0007|TWO_SIDED|95.0|0.324|1.178|||ANCOVA|||||1.178|0.324|0.0007
92273833|NCT02270983|184450197|SUPERIORITY||Least squares mean difference|0.987|STANDARD_ERROR_OF_MEAN|0.217|<|0.0001|TWO_SIDED|95.0|0.558|1.416|||ANCOVA|||||1.416|0.558|<0.0001
92273834|NCT02270983|184450198|SUPERIORITY||Least squares mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.145||0.0017|TWO_SIDED|95.0|-0.746|-0.174|||ANCOVA|||||-0.174|-0.746|0.0017
92273835|NCT02270983|184450198|SUPERIORITY||Least squares mean difference|-0.669|STANDARD_ERROR_OF_MEAN|0.146|<|0.0001|TWO_SIDED|95.0|-0.957|-0.382|||ANCOVA|||||-0.382|-0.957|<0.0001
92398019|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.72||||0.265|TWO_SIDED|95.0|0.66|4.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.45|0.66|0.2650
92152574|NCT01811563|184190527|EQUIVALENCE|Interaction between implant and time, baseline to 52 weeks||||||0.728|||||||ANOVA|||||||0.728
92152575|NCT01811563|184190528|EQUIVALENCE|Between implants at 6 weeks||||||0.319|||||||t-test, 2 sided|||||||0.319
92273836|NCT02270983|184450199|SUPERIORITY||Least squares mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.205||0.872|TWO_SIDED|95.0|-0.371|0.437|||ANCOVA|||||0.437|-0.371|0.8720
92152576|NCT04424290|184190537|OTHER||Adjusted mean difference|-0.0234|STANDARD_ERROR_OF_MEAN|0.0157|||TWO_SIDED|95.0|-0.0558|0.0089|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||0.0089|-0.0558|
92152577|NCT04424290|184190538|OTHER||Adjusted mean difference|0.0215|STANDARD_ERROR_OF_MEAN|0.0429|||TWO_SIDED|95.0|-0.067|0.11|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||0.1100|-0.0670|
92398020|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.1||||0.1238|TWO_SIDED|95.0|0.82|5.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.38|0.82|0.1238
92152578|NCT04424290|184190539|OTHER||Adjusted mean difference|-0.0109|STANDARD_ERROR_OF_MEAN|0.0145|||TWO_SIDED|95.0|-0.0412|0.0195|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||0.0195|-0.0412|
92152579|NCT04424290|184190540|OTHER||Adjusted mean difference|-0.0228|STANDARD_ERROR_OF_MEAN|0.0603|||TWO_SIDED|95.0|-0.1477|0.1021|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||0.1021|-0.1477|
92152580|NCT04424290|184190541|OTHER||Adjusted mean difference|-1.3|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|-8.1|5.5|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||5.5|-8.1|
92152581|NCT04424290|184190542|OTHER||Adjusted mean difference|4.4|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-7.3|16.2|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||16.2|-7.3|
92152582|NCT04424290|184190543|OTHER||Adjusted mean difference|-3.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-9.6|3.0|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||3.0|-9.6|
92152583|NCT04424290|184190544|OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|-7.3|6.1|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||6.1|-7.3|
92152584|NCT04424290|184190545|OTHER||Adjusted mean difference|-2.8|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-8.7|3.1|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||3.1|-8.7|
92273837|NCT02270983|184450199|SUPERIORITY||Least squares mean difference|-0.607|STANDARD_ERROR_OF_MEAN|0.205||0.0034|TWO_SIDED|95.0|-1.011|-0.203|||ANCOVA|||||-0.203|-1.011|0.0034
92273838|NCT00747747|184450205|SUPERIORITY_OR_OTHER||Frequency|0.0|||<|0.05|||||||Chi-squared|||Null hypothesis: no difference among groups.||||<0.05
92273839|NCT00747747|184450210|SUPERIORITY_OR_OTHER||Frequency|0.0|||<|0.05|||||||Chi-squared|||Null hypotheis: no difference among the groups.||||<0.05
92273840|NCT02919475|184450211|SUPERIORITY|||||||0.842|||||||Fisher Exact|||||||0.842
92273841|NCT02919475|184450211|SUPERIORITY|||||||0.841|||||||Fisher Exact|||||||0.841
92273842|NCT02919475|184450211|SUPERIORITY|||||||0.842|||||||Fisher Exact|||||||0.842
92273843|NCT02919475|184450211|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92273844|NCT02919475|184450212|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92273845|NCT02919475|184450212|SUPERIORITY|||||||0.832|||||||Fisher Exact|||||||0.832
92398021|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.22||||0.0219|TWO_SIDED|95.0|1.18|8.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.74|1.18|0.0219
92152585|NCT04424290|184190546|OTHER||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-4.9|5.4|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||5.4|-4.9|
92398022|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|5.46||||0.0022|TWO_SIDED|95.0|1.84|16.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||16.16|1.84|0.0022
92152586|NCT04424290|184190547|OTHER||Adjusted mean difference|2.6|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|-2.7|7.9|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||7.9|-2.7|
92152587|NCT04424290|184190548|OTHER||Adjusted mean difference|7.7|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-1.2|16.5|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||16.5|-1.2|
92152588|NCT04424290|184190549|OTHER||Adjusted mean difference|13.8|STANDARD_ERROR_OF_MEAN|7.8|||TWO_SIDED|95.0|-2.3|29.8|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||29.8|-2.3|
92273846|NCT02919475|184450212|SUPERIORITY|||||||0.682|||||||Fisher Exact|||||||0.682
92273847|NCT02919475|184450212|SUPERIORITY|||||||0.665|||||||Fisher Exact|||||||0.665
92273848|NCT02919475|184450213|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92273849|NCT02919475|184450213|SUPERIORITY|||||||0.627|||||||Fisher Exact|||||||0.627
92273850|NCT02919475|184450213|SUPERIORITY|||||||0.794|||||||Fisher Exact|||||||0.794
92273851|NCT02919475|184450213|SUPERIORITY|||||||0.453|||||||Fisher Exact|||||||0.453
92273852|NCT02919475|184450214|SUPERIORITY|||||||0.113|||||||Fisher Exact|||||||0.113
92273853|NCT02919475|184450214|SUPERIORITY|||||||0.024|||||||Fisher Exact|||||||0.024
92273854|NCT02919475|184450214|SUPERIORITY|||||||0.056|||||||Fisher Exact|||||||0.056
92273855|NCT02919475|184450214|SUPERIORITY|||||||0.035|||||||Fisher Exact|||||||0.035
92273856|NCT02186808|184450284|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92273857|NCT04356573|184450304|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92273858|NCT01577537|184450305|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92273859|NCT00472446|184450310|SUPERIORITY_OR_OTHER|||||||0.028|||||||t-test, 2 sided|||null hypothesis: no difference in outcome measure between superficial cervical block and placebo treatment (irrespective of timing of treatment)||||.028
92273860|NCT00472446|184450311|SUPERIORITY_OR_OTHER|||||||0.016|||||||Non-parametric ANOVA-type statistic|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||null hypothesis: no difference in outcome measure between superficial cervical block and placebo treatment (irrespective of timing of treatment)||||0.016
92273861|NCT00472446|184450311|SUPERIORITY_OR_OTHER|||||||0.723|||||||Non-parametric ANOVA-type statistic|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||null hypothesis: no difference in outcome measure pre-operative versus post-operative application||||0.723
92273862|NCT00472446|184450313|SUPERIORITY_OR_OTHER|||||||0.94|TWO_SIDED||||||Fisher Exact|mid p value of the two-sided Fisher test||"null hypothesis: outcome measure (Proportion of patients taking analgetics) is equal between superficial cervical block and placebo treatment (irrespective of timing)~Proportion taking Paracetamol:"||||0.94
92273863|NCT00472446|184450313|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Fisher Exact|mid p value of two-sided Fisher test||"null hypothesis: outcome measure (Proportion of patients taking analgetics) is equal between superficial cervical block and placebo treatment (irrespective of timing)~Proportion taking Metamizole:"||||0.58
92273864|NCT00472446|184450314|SUPERIORITY_OR_OTHER|||||||0.328|TWO_SIDED||||||Non-parametric ANOVA-type|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||"null hypothesis: no difference in pooled dose of analgetics, superficial block versus Placebo~outcome: paracetamol"||||0.328
92273865|NCT00472446|184450314|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||Non-parametric ANOVA-type|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||"null hypothesis: no difference in pooled dose of analgetics, superficial block versus Placebo~outcome: metamizole"||||0.81
92273866|NCT00472446|184450314|SUPERIORITY_OR_OTHER|||||||0.331|TWO_SIDED||||||Non-parametric ANOVA-type statistic|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||"null hypothesis: no difference in outcome measure pre-operative and post-operative application~outcome measure: pooled paracetamol dose"||||0.331
92273867|NCT00472446|184450314|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||Non-parametric ANOVA-type statistic|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||"null hypothesis: no difference in outcome measure pre-operative and post-operative application~outcome measure: pooled metamizole dose"||||0.440
92273868|NCT00472446|184450315|SUPERIORITY_OR_OTHER|||||||0.925|TWO_SIDED||||||non-parametric ANOVA-type statistic|non-parametric ANOVA-type statistic for pooled main effects, full model||null hypothesis: no difference in outcome measure for superficial cervical block versus placebo treatment||||0.925
92152589|NCT04424290|184190550|OTHER||Adjusted mean difference|6.8|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-0.9|14.5|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||14.5|-0.9|
92152590|NCT04249336|184190563|SUPERIORITY||Mean Difference (Net)|36.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = BioMin F- Colgate Total|It was calculated that 140 participants randomized in a 1:1:1:1 fashion between the four arms would have at least 80 % power to detect a difference of 0.20 mean scores between four treatments from baseline to week 4. Sample size was determined using PAS V.11, two independent sample t-test with 95% confidence interval.||||<0.05
92273869|NCT03211156|184450316|OTHER|||||||0.757|||||||Chi-squared, Corrected|||||||0.757
92273870|NCT03211156|184450317|OTHER|||||||0.048|||||||Fisher Exact|||||||0.048
92273871|NCT01202994|184450318|OTHER||correlation coefficient|-0.45|||<|0.05|TWO_SIDED|||||This is a calculated p-value.|correlation|||The primary analysis is to examine the correlation between the practice effect z-score (presented in the Secondary Outcome section) and the standardized uptake value of flutemetamol (presented in the Outcome module).||||<0.05
92273872|NCT00837577|184450320|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-1.09|-0.75||Adjusted for other prior antihyperglycemic medications (absence, presence).|Longitudinal data analysis (LDA)|LDA model included both baseline and post-baseline measurements as response variables. P-value calculated using least squares mean.||||-0.75|-1.09|<.001
92273873|NCT00837577|184450321|SUPERIORITY_OR_OTHER||Least squares mean difference|-51.3|STANDARD_ERROR_OF_MEAN|5.6|<|0.001|TWO_SIDED|95.0|-62.3|-40.2||Adjusted for other prior antihyperglycemic medications (absence, presence).|Longitudinal data analysis (LDA)|LDA model included both baseline and post-baseline measurements as response variables. P-value calculated using least squares mean.||||-40.2|-62.3|<.001
92152591|NCT04249336|184190563|SUPERIORITY||Mean Difference (Net)|33.0|||<|0.05|TWO_SIDED|95.0||||Threshold P\<0.05|ANOVA||Treatment difference in percent = Colgate Sensitive Pro relief - Colgate Total|||||<0.05
92152592|NCT04249336|184190563|SUPERIORITY||Mean Difference (Net)|23.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = Sensodyne Rapid Action - Colgate Total|||||<0.05
92152593|NCT04249336|184190564|SUPERIORITY||Mean Difference (Net)|32.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANCOVA||Treatment difference in percent = BioMin F- Colgate Total|It was calculated that 140 participants randomized in a 1:1:1:1 fashion between the four arms would have at least 80 % power to detect a difference of 0.20 mean scores between four treatments from baseline to week 4. Sample size was determined using PAS V.11, two independent sample t-test with 95% confidence interval.||||<0.05
92152594|NCT04249336|184190564|SUPERIORITY||Mean Difference (Net)|39.0|||<|0.05|TWO_SIDED|||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = Colgate Sensitive Pro relief - Colgate Total|||||<0.05
92152595|NCT04249336|184190564|SUPERIORITY||Mean Difference (Net)|30.0|||<|0.05|TWO_SIDED|||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = Sensodyne Rapid Action - Colgate Total|||||<0.05
92273874|NCT00837577|184450322|SUPERIORITY_OR_OTHER||Least squares mean difference|-22.5|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-30.0|-15.0||Adjusted for other prior antihyperglycemic medications (absence, presence).|Longitudinal data analysis (LDA)|LDA model included both baseline and post-baseline measurements as response variables. P-value calculated using least squares mean.||||-15.0|-30.0|<.001
92273875|NCT00272961|184450326|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|8.37|STANDARD_ERROR_OF_MEAN|6.19||0.185|TWO_SIDED|95.0|-4.21|20.96|||ANCOVA|||Sitting SBP: p-value was obtained using an Analysis of Co-variance (ANCOVA) model on the maximum increase observed with baseline value as a covariate.||20.96|-4.21|0.185
92273876|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|5.59||0.97|TWO_SIDED|95.0|-11.16|11.59|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||11.59|-11.16|0.970
92273877|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|5.71||0.994|TWO_SIDED|95.0|-11.66|11.57|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||11.57|-11.66|0.994
92398023|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.82||||0.223|TWO_SIDED|95.0|0.69|4.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.77|0.69|0.2230
92273878|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|1.01|STANDARD_ERROR_OF_MEAN|5.72||0.861|TWO_SIDED|95.0|-10.62|12.64|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||12.64|-10.62|0.861
92273879|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|6.1|STANDARD_ERROR_OF_MEAN|4.9||0.221|TWO_SIDED|95.0|-3.79|15.99|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||15.99|-3.79|0.221
92273880|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|0.68|STANDARD_ERROR_OF_MEAN|4.49||0.88|TWO_SIDED|95.0|-8.37|9.73|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||9.73|-8.37|0.880
92273881|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|4.56||0.9|TWO_SIDED|95.0|-9.78|8.63|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||8.63|-9.78|0.900
92273882|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.71|STANDARD_ERROR_OF_MEAN|4.56||0.218|TWO_SIDED|95.0|-14.91|3.5|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||3.50|-14.91|0.218
92152596|NCT04249336|184190565|SUPERIORITY||Median Difference (Net)|36.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANCOVA||Treatment difference in percent = BioMin F- Colgate Total|It was calculated that 140 participants randomized in a 1:1:1:1 fashion between the four arms would have at least 80 % power to detect a difference of 0.20 mean scores between four treatments from baseline to week 4. Sample size was determined using PAS V.11, two independent sample t-test with 95% confidence interval.||||<0.05
92152597|NCT04249336|184190565|SUPERIORITY||Mean Difference (Net)|28.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = Colgate Sensitive Pro relief - Colgate Total|||||<0.05
92273883|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|5.62|STANDARD_ERROR_OF_MEAN|2.68||0.044|TWO_SIDED|95.0|0.17|11.08|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||11.08|0.17|0.044
92273884|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|1.43|STANDARD_ERROR_OF_MEAN|2.41||0.557|TWO_SIDED|95.0|-3.47|6.33|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||6.33|-3.47|0.557
92273885|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|6.37|STANDARD_ERROR_OF_MEAN|2.5||0.016|TWO_SIDED|95.0|1.28|11.45|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||11.45|1.28|0.016
92273886|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|0.99|STANDARD_ERROR_OF_MEAN|2.5||0.695|TWO_SIDED|95.0|-4.09|6.07|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||6.07|-4.09|0.695
92398024|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|5.05||||0.0018|TWO_SIDED|95.0|1.83|13.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.97|1.83|0.0018
92398025|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0205|TWO_SIDED|95.0|1.19|8.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.42|1.19|0.0205
92398026|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.44||||0.4628|TWO_SIDED|95.0|0.54|3.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.81|0.54|0.4628
92398027|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.51||||0.4015|TWO_SIDED|95.0|0.58|3.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.92|0.58|0.4015
92398028|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|5.39||||0.0031|TWO_SIDED|95.0|1.76|16.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.47|1.76|0.0031
92398029|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|4.15||||0.0115|TWO_SIDED|95.0|1.38|12.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||12.50|1.38|0.0115
92398030|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.81||||0.2513|TWO_SIDED|95.0|0.66|4.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.98|0.66|0.2513
92398031|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.94||||0.0099|TWO_SIDED|95.0|1.39|11.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||11.14|1.39|0.0099
92398032|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.19||||0.0242|TWO_SIDED|95.0|1.16|8.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.74|1.16|0.0242
92398033|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1518|TWO_SIDED|95.0|0.77|5.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.60|0.77|0.1518
92398034|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.95||||0.1811|TWO_SIDED|95.0|0.73|5.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.17|0.73|0.1811
92152598|NCT04249336|184190565|SUPERIORITY||Mean Difference (Net)|25.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = Sensodyne Rapid Action - Colgate Total|||||<0.05
92273887|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|4.8|STANDARD_ERROR_OF_MEAN|2.56||0.067|TWO_SIDED|95.0|-0.36|9.95|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||9.95|-0.36|0.067
92273888|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|2.36||0.737|TWO_SIDED|95.0|-3.96|5.55|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||5.55|-3.96|0.737
92273889|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|5.64|STANDARD_ERROR_OF_MEAN|2.4||0.023|TWO_SIDED|95.0|0.8|10.47|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||10.47|0.80|0.023
92273890|NCT00272961|184450326|SUPERIORITY_OR_OTHER||LS Mean Difference|1.65|STANDARD_ERROR_OF_MEAN|2.4||0.495|TWO_SIDED|95.0|-3.2|6.5|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||6.50|-3.20|0.495
92273891|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|232.59|STANDARD_ERROR_OF_MEAN|201.83||0.2577|TWO_SIDED|95.0|-178.5|643.7|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||643.7|-178.5|0.2577
92273892|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|103.67|STANDARD_ERROR_OF_MEAN|173.86||0.5552|TWO_SIDED|95.0|-250.5|457.8|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||457.8|-250.5|0.5552
92273893|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|41.26|STANDARD_ERROR_OF_MEAN|177.26||0.8174|TWO_SIDED|95.0|-319.8|402.3|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||402.3|-319.8|0.8174
92152599|NCT01189890|184190567|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.4%.|Difference in LS Means|0.19|||||TWO_SIDED|95.0|0.03|0.34|||ANCOVA|Controlled for treatment, estimated glomerular filtration rate (eGFR) stratum, age stratum, and baseline HbA1C.||||0.34|0.03|
92152600|NCT01189890|184190568|SUPERIORITY_OR_OTHER||Difference in Percent Incidence|-3.9||||0.009|TWO_SIDED|95.0|-7.5|-1.2|||Miettinen & Nurminen|Stratified by estimated glomerular filtration rate (eGFR) stratum and age stratum.||||-1.2|-7.5|0.009
92152601|NCT01189890|184190571|SUPERIORITY_OR_OTHER||Difference in LS Means|6.7|||||TWO_SIDED|95.0|0.7|12.7|||ANCOVA|Controlled for treatment, eGFR stratum, age stratum, and baseline FPG.||||12.7|0.7|
92273894|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|166.4|STANDARD_ERROR_OF_MEAN|177.55||0.3557|TWO_SIDED|95.0|-195.3|528.1|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||528.1|-195.3|0.3557
92273895|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|163.04|STANDARD_ERROR_OF_MEAN|130.15||0.2172|TWO_SIDED|95.0|-99.6|425.7|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||425.7|-99.6|0.2172
92273896|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|115.35|STANDARD_ERROR_OF_MEAN|116.03||0.3258|TWO_SIDED|95.0|-118.8|349.5|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||349.5|-118.8|0.3258
92273897|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|24.67|STANDARD_ERROR_OF_MEAN|117.88||0.8352|TWO_SIDED|95.0|-213.2|262.6|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||262.6|-213.2|0.8352
92152602|NCT01189890|184190572|SUPERIORITY_OR_OTHER||Relative Risk|0.7|||||TWO_SIDED|95.0|0.6|0.9|||Miettinen & Nurminen|Stratified by eGFR stratum and age stratum.||||0.9|0.6|
92152603|NCT01189890|184190573|SUPERIORITY_OR_OTHER||Relative Risk|0.4|||||TWO_SIDED|95.0|0.3|0.7|||Miettinen & Nurminen|Stratified by eGFR stratum and age stratum.||||0.7|0.3|
92273898|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|50.59|STANDARD_ERROR_OF_MEAN|117.93||0.6701|TWO_SIDED|95.0|-187.4|288.6|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||288.6|-187.4|0.6701
92273899|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|225.57|STANDARD_ERROR_OF_MEAN|108.95||0.0466|TWO_SIDED|95.0|3.6|447.5|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||447.5|3.6|0.0466
92273900|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|114.77|STANDARD_ERROR_OF_MEAN|93.2637||0.2274|TWO_SIDED|95.0|-75.2|304.8|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||304.8|-75.2|0.2274
92273901|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|224.89|STANDARD_ERROR_OF_MEAN|96.9259||0.0269|TWO_SIDED|95.0|27.5|422.3|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||422.3|27.5|0.0269
92336662|NCT02559570|184576083|SUPERIORITY||Least Squares Mean Difference|-0.199|STANDARD_ERROR_OF_MEAN|0.202||0.3263|TWO_SIDED|95.0|-0.6|0.201|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.201|-0.600|0.3263
92336663|NCT02559570|184576084|SUPERIORITY||Least Squares Mean Difference|0.048|STANDARD_ERROR_OF_MEAN|0.152||0.7507|TWO_SIDED|95.0|-0.252|0.349|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.349|-0.252|0.7507
92152604|NCT01189890|184190574|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.011|TWO_SIDED|95.0|-1.3|-0.2|||ANCOVA|Controlled for treatment, eGFR stratum, age stratum, and baseline body weight.||||-0.2|-1.3|0.011
92152605|NCT00077636|184190575|NON_INFERIORITY_OR_EQUIVALENCE|These results indicated that sustained virological response achieved with 16 weeks of treatment was not equivalent to that achieved with 24 week of treatment.|Odds Ratio (OR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.46|0.76|||Cochran-Mantel-Haenszel|stratified by country and HCV genotype.||||0.76|0.46|<.0001
92273902|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|133.22|STANDARD_ERROR_OF_MEAN|96.7383||0.178|TWO_SIDED|95.0|-63.8|330.3|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||330.3|-63.8|0.1780
92273903|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|240.64|STANDARD_ERROR_OF_MEAN|114.32||0.0413|TWO_SIDED|95.0|9.9|471.4|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||471.4|9.9|0.0413
92273904|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|157.99|STANDARD_ERROR_OF_MEAN|102.21||0.1297|TWO_SIDED|95.0|-48.3|364.3|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||364.3|-48.3|0.1297
92273905|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|254.9|STANDARD_ERROR_OF_MEAN|104.0||0.0185|TWO_SIDED|95.0|45.0|464.8|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||464.8|45.0|0.0185
92273906|NCT00272961|184450327|SUPERIORITY_OR_OTHER||LS Mean Difference|157.66|STANDARD_ERROR_OF_MEAN|104.33||0.1382|TWO_SIDED|95.0|-52.9|368.2|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||368.2|-52.9|0.1382
92273907|NCT00272961|184450332|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86|STANDARD_ERROR_OF_MEAN|3.0||0.7758|TWO_SIDED|95.0|-5.31|7.03|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||7.03|-5.31|0.7758
92398035|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.88||||0.015|TWO_SIDED|95.0|1.3|11.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||11.55|1.30|0.0150
92152606|NCT00077636|184190576|NON_INFERIORITY_OR_EQUIVALENCE|In the analysis based on the standard population, end of treatment virological response was equivalent in the two treatment arms (94% in the 16-week arm and 92% in the 24-week arm).|Odds Ratio (OR)|1.32||||0.1941|TWO_SIDED|95.0|0.86|2.03|||Cochran-Mantel-Haenszel|stratified by country.||||2.03|0.86|0.1941
92152607|NCT00077636|184190577|NON_INFERIORITY_OR_EQUIVALENCE|These results indicated that sustained virological response achieved with 16 weeks of treatment was not equivalent to that achieved with 24 week of treatment.|Odds Ratio (OR)|0.65||||0.0003|TWO_SIDED|95.0|0.52|0.82|||Cochran-Mantel-Haenszel|stratified by country and HCV genotype.||||0.82|0.52|0.0003
92273908|NCT00272961|184450332|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|2.45||0.888|TWO_SIDED|95.0|-5.4|4.71|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||4.71|-5.40|0.8880
92273909|NCT00272961|184450332|SUPERIORITY_OR_OTHER||LS Mean Difference|1.86|STANDARD_ERROR_OF_MEAN|2.46||0.4573|TWO_SIDED|95.0|-3.21|6.93|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||6.93|-3.21|0.4573
92273910|NCT00272961|184450332|SUPERIORITY_OR_OTHER||LS Mean Difference|2.17|STANDARD_ERROR_OF_MEAN|2.78||0.4424|TWO_SIDED|95.0|-3.56|7.91|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||7.91|-3.56|0.4424
92398036|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0046|TWO_SIDED|95.0|1.67|16.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||16.68|1.67|0.0046
92398037|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.58||||0.3788|TWO_SIDED|95.0|0.57|4.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.34|0.57|0.3788
92152608|NCT01976364|184190593|OTHER||Least Squares (LS) Mean difference|0.0255|||||TWO_SIDED|95.0|-0.0513|0.1022||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Analysis was based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1022|-0.0513|
92152609|NCT01976364|184190594|OTHER||LS mean difference|0.091|||||TWO_SIDED|95.0|-0.131|0.313||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.313|-0.131|
92152610|NCT01976364|184190628|OTHER||LS Mean Difference|0.0486|||||TWO_SIDED|95.0|-0.0192|0.1163||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1163|-0.0192|
92273911|NCT00272961|184450332|SUPERIORITY_OR_OTHER||LS Mean Difference|3.18|STANDARD_ERROR_OF_MEAN|3.32||0.347|TWO_SIDED|95.0|-3.65|10.01|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||10.01|-3.65|0.3470
92273912|NCT00272961|184450332|SUPERIORITY_OR_OTHER||LS Mean Difference|1.34|STANDARD_ERROR_OF_MEAN|2.72||0.6249|TWO_SIDED|95.0|-4.25|6.94|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||6.94|-4.25|0.6249
92398038|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.82||||0.0424|TWO_SIDED|95.0|1.04|7.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.70|1.04|0.0424
92273913|NCT00272961|184450332|SUPERIORITY_OR_OTHER||LS Mean Difference|3.92|STANDARD_ERROR_OF_MEAN|2.73||0.1625|TWO_SIDED|95.0|-1.69|9.54|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||9.54|-1.69|0.1625
92273914|NCT00272961|184450332|SUPERIORITY_OR_OTHER||LS Mean Difference|0.97|STANDARD_ERROR_OF_MEAN|3.08||0.7556|TWO_SIDED|95.0|-5.38|7.31|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||7.31|-5.38|0.7556
92273915|NCT00272961|184450333|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.99|STANDARD_ERROR_OF_MEAN|1.59||0.0714|TWO_SIDED|95.0|-6.25|0.28|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||0.28|-6.25|0.0714
92273916|NCT00272961|184450333|SUPERIORITY_OR_OTHER||LS Mean Difference|0.47|STANDARD_ERROR_OF_MEAN|1.34||0.7269|TWO_SIDED|95.0|-2.29|3.24|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||3.24|-2.29|0.7269
92273917|NCT00272961|184450333|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|1.36||0.8656|TWO_SIDED|95.0|-2.58|3.04|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||3.04|-2.58|0.8656
92273918|NCT00272961|184450333|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|1.4||0.7113|TWO_SIDED|95.0|-3.41|2.36|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||2.36|-3.41|0.7113
92273919|NCT00272961|184450333|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.77|STANDARD_ERROR_OF_MEAN|2.21||0.2204|TWO_SIDED|95.0|-7.32|1.77|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||1.77|-7.32|0.2204
92273920|NCT00272961|184450333|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|1.87||0.5298|TWO_SIDED|95.0|-5.04|2.66|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||2.66|-5.04|0.5298
92273921|NCT00272961|184450333|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.95|STANDARD_ERROR_OF_MEAN|1.9||0.3135|TWO_SIDED|95.0|-5.86|1.96|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||1.96|-5.86|0.3135
92273922|NCT00272961|184450333|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.08|STANDARD_ERROR_OF_MEAN|1.95||0.2962|TWO_SIDED|95.0|-6.09|1.93|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||1.93|-6.09|0.2962
92273923|NCT00272961|184450334|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.74|STANDARD_ERROR_OF_MEAN|5.39||0.4933|TWO_SIDED|95.0|-14.84|7.35|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||7.35|-14.84|0.4933
92273924|NCT00272961|184450334|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.85|STANDARD_ERROR_OF_MEAN|4.57||0.408|TWO_SIDED|95.0|-13.26|5.57|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||5.57|-13.26|0.4080
92273925|NCT00272961|184450334|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.47|STANDARD_ERROR_OF_MEAN|4.56||0.5936|TWO_SIDED|95.0|-11.86|6.93|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||6.93|-11.86|0.5936
92273926|NCT00272961|184450334|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|4.79||0.7883|TWO_SIDED|95.0|-11.17|8.57|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||8.57|-11.17|0.7883
92273927|NCT00272961|184450334|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|5.12||0.5719|TWO_SIDED|95.0|-13.46|7.6|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||7.60|-13.46|0.5719
92273928|NCT00272961|184450334|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.21|STANDARD_ERROR_OF_MEAN|4.33||0.3401|TWO_SIDED|95.0|-13.11|4.7|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||4.70|-13.11|0.3401
92273929|NCT00272961|184450334|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|4.34||0.6329|TWO_SIDED|95.0|-11.01|6.82|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||6.82|-11.01|0.6329
92273930|NCT00272961|184450334|SUPERIORITY_OR_OTHER||LS Mean Difference|3.83|STANDARD_ERROR_OF_MEAN|4.51||0.4037|TWO_SIDED|95.0|-5.45|13.11|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||13.11|-5.45|0.4037
92273931|NCT00272961|184450335|SUPERIORITY_OR_OTHER||LS Mean Difference|1.21|STANDARD_ERROR_OF_MEAN|4.08||0.7685|TWO_SIDED|95.0|-7.19|9.62|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||9.62|-7.19|0.7685
92152611|NCT01976364|184190628|OTHER||LS Mean Difference|0.0325|||||TWO_SIDED|95.0|-0.0372|0.1021||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1021|-0.0372|
92152612|NCT01976364|184190628|OTHER||LS Mean Difference|-0.0058|||||TWO_SIDED|95.0|-0.0941|0.0825||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.0825|-0.0941|
92152613|NCT01976364|184190628|OTHER||LS Mean Difference|0.0096|||||TWO_SIDED|95.0|-0.0734|0.0927||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.0927|-0.0734|
92152614|NCT01976364|184190629|OTHER||LS Mean Difference|0.032|||||TWO_SIDED|95.0|-0.163|0.227||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.227|-0.163|
92152615|NCT01976364|184190629|OTHER||LS Mean Difference|-0.024|||||TWO_SIDED|95.0|-0.266|0.219||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.219|-0.266|
92152616|NCT01976364|184190629|OTHER||LS Mean Difference|0.213|||||TWO_SIDED|95.0|-0.045|0.47||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.470|-0.045|
92152617|NCT01976364|184190629|OTHER||LS Mean Difference|-0.061|||||TWO_SIDED|95.0|-0.309|0.188||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.188|-0.309|
92152618|NCT01976364|184190630|OTHER||Difference in percentage of participants|-0.14|||||TWO_SIDED|95.0|-9.76|9.48||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 1: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||9.48|-9.76|
92152619|NCT01976364|184190630|OTHER||Difference in percentage of participants|-4.57|||||TWO_SIDED|95.0|-12.91|3.77||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 3: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||3.77|-12.91|
92214595|NCT00702845|184329085|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence margins of -3 and +5 were applied for the difference in the mean number of oocytes between the treatment groups. Org 36286 treatment was considered equivalent to the reference treatment (recFSH) if the two-sided 95% confidence interval of the difference was between -3 and +5 oocytes.|Mean Difference (Final Values)|2.5|||<|0.001|TWO_SIDED|95.0|1.2|3.9|||ANOVA|||||3.9|1.2|<0.001
92214596|NCT04697264|184329109|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.026||||||Adjustments to the p-values for multiple comparison were performed using Benjamini and Hochberg approach on 'R' and represented in the text as adjusted p-value.|Regression, Linear|||The influence of age on adiponectin levels was analysed by dividing the population into binary groups (\<60 years and \>/= 60 years) to facilitate comparison.||||0.026
92152620|NCT01976364|184190630|OTHER||Difference in percentage of participants|-5.69|||||TWO_SIDED|95.0|-14.26|2.87||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 6: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||2.87|-14.26|
92152621|NCT01976364|184190630|OTHER||Difference in percentage of participants|-2.36|||||TWO_SIDED|95.0|-11.59|6.87||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 9: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||6.87|-11.59|
92152622|NCT01976364|184190630|OTHER||Difference in percentage of participants|-10.15|||||TWO_SIDED|95.0|-18.16|-2.14||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 12: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||-2.14|-18.16|
92152623|NCT01976364|184190631|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.1|0.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.5|-0.1|
92152624|NCT01976364|184190631|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.1|0.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.6|-0.1|
92152625|NCT01976364|184190631|OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|0.0|0.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.6|0.0|
92152626|NCT01976364|184190631|OTHER||LS mean difference|0.5|||||TWO_SIDED|95.0|0.1|0.8||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.8|0.1|
92152627|NCT01976364|184190631|OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|-0.1|0.7||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.7|-0.1|
92152628|NCT01976364|184190632|OTHER||LS mean difference|-19.43|||||TWO_SIDED|95.0|-58.06|19.21||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: At Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||19.21|-58.06|
92152629|NCT01976364|184190632|OTHER||LS mean difference|-30.11|||||TWO_SIDED|95.0|-83.58|23.37||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: At Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||23.37|-83.58|
92152630|NCT01976364|184190632|OTHER||LS mean difference|-24.33|||||TWO_SIDED|95.0|-83.35|34.69||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: At Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||34.69|-83.35|
92152631|NCT01976364|184190632|OTHER||LS mean difference|-11.64|||||TWO_SIDED|95.0|-60.87|37.58||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: At Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||37.58|-60.87|
92152632|NCT01976364|184190632|OTHER||LS mean difference|7.02|||||TWO_SIDED|95.0|-49.73|63.77||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: At Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||63.77|-49.73|
92152633|NCT01976364|184190634|OTHER||Difference in percentage of participants|6.25|||||TWO_SIDED|95.0|-59.58|72.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 1: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||72.08|-59.58|
92152634|NCT01976364|184190634|OTHER||Difference in percentage of participants|6.25|||||TWO_SIDED|95.0|-59.58|72.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 3: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||72.08|-59.58|
92152635|NCT01976364|184190634|OTHER||Difference in percentage of participants|6.25|||||TWO_SIDED|95.0|-59.58|72.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 6: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||72.08|-59.58|
92214597|NCT04697264|184329109|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.496||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of age on adiponectin levels was analysed by dividing the population into binary groups (\<60years and \>/=60years) to facilitate comparison.||||0.496
92152636|NCT01976364|184190634|OTHER||Difference in percentage of participants|6.25|||||TWO_SIDED|95.0|-59.58|72.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 9: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||72.08|-59.58|
92152637|NCT01976364|184190634|OTHER||Difference in percentage of participants|6.25|||||TWO_SIDED|95.0|-59.58|72.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 12: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||72.08|-59.58|
92152638|NCT01976364|184190635|OTHER||LS mean difference|-0.2|||||TWO_SIDED|95.0|-0.9|0.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.5|-0.9|
92152639|NCT01976364|184190635|OTHER||LS mean difference|-0.2|||||TWO_SIDED|95.0|-0.9|0.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.5|-0.9|
92152640|NCT01976364|184190635|OTHER||LS mean difference|-0.2|||||TWO_SIDED|95.0|-1.1|0.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.6|-1.1|
92152641|NCT01976364|184190635|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.6|1.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.1|-0.6|
92152642|NCT01976364|184190635|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.6|1.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.0|-0.6|
92152643|NCT01976364|184190637|OTHER||Difference in percentage of participants|11.67|||||TWO_SIDED|95.0|-15.65|38.98||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 1: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||38.98|-15.65|
92152644|NCT01976364|184190637|OTHER||Difference in percentage of participants|30.42|||||TWO_SIDED|95.0|0.64|60.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 3: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||60.20|0.64|
92152645|NCT01976364|184190637|OTHER||Difference in percentage of participants|29.58|||||TWO_SIDED|95.0|-3.46|62.62||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 6: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||62.62|-3.46|
92152646|NCT01976364|184190637|OTHER||Difference in percentage of participants|24.17|||||TWO_SIDED|95.0|-5.14|53.47||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 9: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||53.47|-5.14|
92152647|NCT01976364|184190637|OTHER||Difference in percentage of participants|17.08|||||TWO_SIDED|95.0|-15.96|50.12||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 12: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||50.12|-15.96|
92214598|NCT04697264|184329109|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.|||||>|0.05|||||||Regression, Linear|||The influence of age on leptin levels was analysed by dividing the population into binary groups (\<60years and \>/=60years) to facilitate comparison.||||>0.05
92152648|NCT01976364|184190638|OTHER||Difference in percentage of participants|4.99|||||TWO_SIDED|95.0|-9.61|19.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 1: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||19.60|-9.61|
92152649|NCT01976364|184190638|OTHER||Difference in percentage of participants|3.88|||||TWO_SIDED|95.0|-10.74|18.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 3: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||18.50|-10.74|
92152650|NCT01976364|184190638|OTHER||Difference in percentage of participants|2.82|||||TWO_SIDED|95.0|-11.8|17.45||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 6: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||17.45|-11.80|
92152651|NCT01976364|184190638|OTHER||Difference in percentage of participants|3.97|||||TWO_SIDED|95.0|-10.58|18.52||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 9: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||18.52|-10.58|
92152652|NCT01976364|184190638|OTHER||Difference in percentage of participants|2.87|||||TWO_SIDED|95.0|-11.63|17.37||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 12: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||17.37|-11.63|
92152653|NCT01976364|184190639|OTHER||LS mean difference|-0.4|||||TWO_SIDED|95.0|-1.5|0.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.6|-1.5|
92273932|NCT00272961|184450335|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.88|STANDARD_ERROR_OF_MEAN|3.49||0.1739|TWO_SIDED|95.0|-12.07|2.3|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||2.30|-12.07|0.1739
92214599|NCT04697264|184329109|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.|||||>|0.05||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of age on IGF1 and 2 levels were analysed by dividing the population into binary groups (\<60years and \>/=60years) to facilitate comparison.||||>0.05
92214600|NCT04697264|184329109|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|||||>|0.05||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of age on IGF1 and 2 levels were analysed by dividing the population into binary groups (\<60years and \>/=60years) to facilitate comparison.||||>0.05
92273933|NCT00272961|184450335|SUPERIORITY_OR_OTHER||LS Mean Difference|2.71|STANDARD_ERROR_OF_MEAN|3.61||0.4612|TWO_SIDED|95.0|-4.74|10.15|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||10.15|-4.74|0.4612
92398039|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.69||||0.0139|TWO_SIDED|95.0|1.3|10.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.43|1.30|0.0139
92214601|NCT04697264|184329109|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.|||||>|0.05||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of menopausal status on levels of adiponectin, leptin, IGF1 and 2 were analysed by dividing the population into binary groups (pre-menopausal and menopausal) to facilitate comparison.||||>0.05
92273934|NCT00272961|184450335|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|3.67||0.7172|TWO_SIDED|95.0|-8.9|6.21|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||6.21|-8.90|0.7172
92273935|NCT00272961|184450335|SUPERIORITY_OR_OTHER||LS Mean Difference|3.45|STANDARD_ERROR_OF_MEAN|4.12||0.4098|TWO_SIDED|95.0|-5.01|11.91|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||11.91|-5.01|0.4098
92273936|NCT00272961|184450335|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|3.48||0.6943|TWO_SIDED|95.0|-8.54|5.78|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||5.78|-8.54|0.6943
92398040|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.67||||0.3057|TWO_SIDED|95.0|0.63|4.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.42|0.63|0.3057
92152654|NCT01976364|184190639|OTHER||LS mean difference|-0.4|||||TWO_SIDED|95.0|-1.6|0.8||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.8|-1.6|
92152655|NCT01976364|184190639|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-1.0|1.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.0|-1.0|
92152656|NCT01976364|184190639|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.9|0.9||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.9|-0.9|
92152657|NCT01976364|184190639|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.7|1.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.1|-0.7|
92152658|NCT01976364|184190640|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.3|0.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.5|-0.3|
92152659|NCT01976364|184190640|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.6|0.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.6|-0.6|
92152660|NCT01976364|184190640|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.4|0.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.5|-0.4|
92152661|NCT01976364|184190640|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.3|0.7||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.7|-0.3|
92152662|NCT01976364|184190640|OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-0.5|0.3||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.3|-0.5|
92152663|NCT01976364|184190641|OTHER||LS mean difference|0.26|||||TWO_SIDED|95.0|-2.51|3.02||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.02|-2.51|
92152664|NCT01976364|184190641|OTHER||LS mean difference|0.77|||||TWO_SIDED|95.0|-2.64|4.18||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||4.18|-2.64|
92152665|NCT01976364|184190641|OTHER||LS mean difference|0.47|||||TWO_SIDED|95.0|-2.26|3.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.20|-2.26|
92152666|NCT01976364|184190641|OTHER||LS mean difference|2.18|||||TWO_SIDED|95.0|-1.46|5.81||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||5.81|-1.46|
92152667|NCT01976364|184190641|OTHER||LS mean difference|-0.12|||||TWO_SIDED|95.0|-3.25|3.01||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.01|-3.25|
92152668|NCT01976364|184190642|OTHER||LS mean difference|-2.03|||||TWO_SIDED|95.0|-5.58|1.52||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.52|-5.58|
92152669|NCT01976364|184190642|OTHER||LS mean difference|-0.43|||||TWO_SIDED|95.0|-4.69|3.84||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.84|-4.69|
92152670|NCT01976364|184190642|OTHER||LS mean difference|1.29|||||TWO_SIDED|95.0|-3.48|6.06||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||6.06|-3.48|
92214602|NCT04697264|184329109|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.014||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of menopausal status on levels of adiponectin was analysed by dividing the population into binary groups (pre-menopausal and menopausal) to facilitate comparison.||||0.014
92152671|NCT01976364|184190642|OTHER||LS mean difference|0.64|||||TWO_SIDED|95.0|-4.03|5.32||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||5.32|-4.03|
92214603|NCT04697264|184329109|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.006||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of menopausal status on levels of leptin was analysed by dividing the population into binary groups (pre-menopausal and menopausal) to facilitate comparison.||||0.006
92273937|NCT00272961|184450335|SUPERIORITY_OR_OTHER||LS Mean Difference|4.78|STANDARD_ERROR_OF_MEAN|3.67||0.2042|TWO_SIDED|95.0|-2.76|12.31|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||12.31|-2.76|0.2042
92273938|NCT00272961|184450335|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07|STANDARD_ERROR_OF_MEAN|3.77||0.7791|TWO_SIDED|95.0|-6.69|8.83|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||8.83|-6.69|0.7791
92152672|NCT01976364|184190642|OTHER||LS mean difference|-0.13|||||TWO_SIDED|95.0|-4.64|4.38||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||4.38|-4.64|
92152673|NCT01976364|184190643|OTHER||LS mean difference|-1.11|||||TWO_SIDED|95.0|-4.96|2.74||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.74|-4.96|
92152674|NCT01976364|184190643|OTHER||LS mean difference|-1.23|||||TWO_SIDED|95.0|-5.11|2.65||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.65|-5.11|
92152675|NCT01976364|184190643|OTHER||LS mean difference|0.95|||||TWO_SIDED|95.0|-3.78|5.69||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||5.69|-3.78|
92152676|NCT01976364|184190643|OTHER||LS mean difference|2.01|||||TWO_SIDED|95.0|-2.92|6.93||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||6.93|-2.92|
92152677|NCT01976364|184190643|OTHER||LS mean difference|0.66|||||TWO_SIDED|95.0|-4.03|5.35||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||5.35|-4.03|
92152678|NCT01976364|184190644|OTHER||LS mean difference|-0.1535|||||TWO_SIDED|95.0|-2.1444|1.8374||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.8374|-2.1444|
92152679|NCT01976364|184190644|OTHER||LS mean difference|-0.566|||||TWO_SIDED|95.0|-1.9054|0.7735||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.7735|-1.9054|
92152680|NCT01976364|184190644|OTHER||LS mean difference|-0.7991|||||TWO_SIDED|95.0|-3.0053|1.4071||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.4071|-3.0053|
92152681|NCT01976364|184190644|OTHER||LS mean difference|0.0626|||||TWO_SIDED|95.0|-1.5767|1.7018||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.7018|-1.5767|
92214604|NCT04697264|184329109|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.019||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of menopausal status on levels of IGF1 and IGF2 were analysed by dividing the population into binary groups (pre-menopausal and menopausal) to facilitate comparison.||||0.019
92214605|NCT04697264|184329110|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.033||||||Adjustments to the p-values for multiple comparison were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||Effects of LVSI on adiponectin levels were assessed using multivariate linear regression, with binary categorisations (presence and absence of LVSI) to facilitate comparisons.||||0.033
92273939|NCT01507831|184450337|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.9|||<|0.0001|TWO_SIDED|95.0|-64.3|-59.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-59.4|-64.3|<0.0001
92152682|NCT01976364|184190644|OTHER||LS mean difference|0.3672|||||TWO_SIDED|95.0|-1.8107|2.545||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.5450|-1.8107|
92152683|NCT01976364|184190645|OTHER||LS mean difference|0.33|||||TWO_SIDED|95.0|-0.85|1.51||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.51|-0.85|
92273940|NCT01507831|184450338|SUPERIORITY_OR_OTHER||LS Mean Difference|-63.5|||<|0.0001|TWO_SIDED|95.0|-65.9|-61.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|A hierarchial testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchial testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-61.2|-65.9|<0.0001
92273941|NCT01507831|184450339|SUPERIORITY_OR_OTHER||LS Mean Difference|-64.8|||<|0.0001|TWO_SIDED|95.0|-67.2|-62.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-62.4|-67.2|<0.0001
92273942|NCT01507831|184450340|SUPERIORITY_OR_OTHER||LS Mean Difference|-65.5|||<|0.0001|TWO_SIDED|95.0|-67.9|-63.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-63.2|-67.9|<0.0001
92273943|NCT01507831|184450341|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.3|||<|0.0001|TWO_SIDED|95.0|-64.0|-58.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-58.5|-64.0|<0.0001
92273944|NCT01507831|184450342|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.0|||<|0.0001|TWO_SIDED|95.0|-56.3|-51.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-51.7|-56.3|<0.0001
92273945|NCT01507831|184450343|SUPERIORITY_OR_OTHER||LS Mean Difference|-55.5|||<|0.0001|TWO_SIDED|95.0|-57.7|-53.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-53.2|-57.7|<0.0001
92273946|NCT01507831|184450344|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.3|||<|0.0001|TWO_SIDED|95.0|-54.4|-50.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-50.2|-54.4|<0.0001
92273947|NCT01507831|184450345|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.7|||<|0.0001|TWO_SIDED|95.0|-55.7|-51.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-51.6|-55.7|<0.0001
92273948|NCT01507831|184450346|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.5|||<|0.0001|TWO_SIDED|95.0|-39.1|-35.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-35.9|-39.1|<0.0001
92273949|NCT01507831|184450347|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.0|||<|0.0001|TWO_SIDED|95.0|-58.3|-53.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-53.7|-58.3|<0.0001
92273950|NCT01507831|184450348|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.6|||<|0.0001|TWO_SIDED|95.0|-56.6|-52.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-52.6|-56.6|<0.0001
92273951|NCT01507831|184450349|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.0|||<|0.0001|TWO_SIDED|95.0|-40.4|-37.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-37.5|-40.4|<0.0001
92273952|NCT01507831|184450350|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|71.5|||<|0.0001|TWO_SIDED|95.0|51.6|99.1||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||99.1|51.6|<0.0001
92273953|NCT01507831|184450351|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|93.4|||<|0.0001|TWO_SIDED|95.0|66.1|132.0||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||132.0|66.1|<0.0001
92273954|NCT01507831|184450352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|74.6|||<|0.0001|TWO_SIDED|95.0|53.3|104.4||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||104.4|53.3|<0.0001
92273955|NCT01507831|184450353|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|97.3|||<|0.0001|TWO_SIDED|95.0|68.2|138.9||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||138.9|68.2|<0.0001
92273956|NCT01507831|184450354|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.6|||<|0.0001|TWO_SIDED|95.0|-28.1|-23.1||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-23.1|-28.1|<0.0001
92273957|NCT01507831|184450355|SUPERIORITY_OR_OTHER||LS Mean Difference|4.6|||<|0.0001|TWO_SIDED|95.0|3.3|5.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.9|3.3|<0.0001
92398041|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.55||||0.3717|TWO_SIDED|95.0|0.59|4.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.02|0.59|0.3717
92273958|NCT01507831|184450356|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.3|||<|0.0001|TWO_SIDED|95.0|-20.1|-14.6||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-14.6|-20.1|<0.0001
92273959|NCT01507831|184450357|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|||<|0.0001|TWO_SIDED|95.0|1.6|4.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.2|1.6|<0.0001
92273960|NCT01507831|184450358|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.1|||<|0.0001|TWO_SIDED|95.0|-27.4|-22.7||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-22.7|-27.4|<0.0001
92273961|NCT01507831|184450359|SUPERIORITY_OR_OTHER||LS Mean Difference|5.6|||<|0.0001|TWO_SIDED|95.0|4.3|6.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||6.8|4.3|<0.0001
92398042|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.32||||0.0252|TWO_SIDED|95.0|1.16|9.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.50|1.16|0.0252
92398043|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.56||||0.0235|TWO_SIDED|95.0|1.19|10.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.69|1.19|0.0235
92273962|NCT01507831|184450360|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.9|||<|0.0001|TWO_SIDED|95.0|-20.5|-15.3||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-15.3|-20.5|<0.0001
92273963|NCT01507831|184450361|SUPERIORITY_OR_OTHER||LS Mean Difference|4.0|||<|0.0001|TWO_SIDED|95.0|2.8|5.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.2|2.8|<0.0001
92273964|NCT01455545|184450374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.999||||0.967|TWO_SIDED|95.0|0.962|1.037|||Regression, Logistic|||Ho = no differences in ASK-20 results between both groups H1= there are differences between both groups. Comparison of two means. Unilateral test. (1-alpha)=95%. Statistic power: 90%. Precision: 10. S square: 256. Sample size: 44. Sample size adjusted to losses: 46 patients.||1.037|0.962|0.967
92273965|NCT01455545|184450375|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.001||||0.861|TWO_SIDED|95.0|0.985|1.018|||Regression, Logistic|||||1.018|0.985|0.861
92273966|NCT01455545|184450376|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.625||||0.252|TWO_SIDED|95.0|0.706|3.739|||Chi-squared|||Ho = no differences in gender results between both groups H1= there are differences between both groups. Cross tab Chi square||3.739|0.706|0.252
92273967|NCT01455545|184450377|SUPERIORITY_OR_OTHER|||||||0.217||95.0|||||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Chi - square||||0.217
92273968|NCT01455545|184450378|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.643|TWO_SIDED|95.0|0.376|1.829|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Cross tabs Chi square||1.829|0.376|0.643
92273969|NCT01455545|184450379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.556||||0.155|TWO_SIDED|95.0|0.247|1.253|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Cross tabs Chi squared test.||1.253|0.247|0.155
92273970|NCT01455545|184450380|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.19||||0.107|TWO_SIDED|95.0|0.02|1.763|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Cross tabs Chi squared test.||1.763|0.020|0.107
92273971|NCT01455545|184450381|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.849||||0.196|TWO_SIDED|95.0|1.541|2.219|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Cross tabs Chi squared test.||2.219|1.541|0.196
92273972|NCT01455545|184450382|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.135||||0.15|TWO_SIDED|95.0|0.618|15.91|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Cross tabs Chi squared test.||15.91|0.618|0.150
92273973|NCT01455545|184450383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.096||||0.822|TWO_SIDED|95.0|0.492|2.441|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Comparison of two proportions. Unilateral test. (1-alpha)=95%. Proportion: 90%. Precision: 10%. Sample size: 35. Sample size adjusted to losses: 41 patients.||2.441|0.492|0.822
92273974|NCT01455545|184450384|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
92273975|NCT01455545|184450384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.038||||0.005|TWO_SIDED|95.0|1.012|1.065|||Regression, Logistic|||||1.065|1.012|0.005
92273976|NCT01455545|184450385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.35||||0.013|TWO_SIDED|95.0|0.153|0.799|||Regression, Logistic|||Ho = no differences between both groups H1= there are differences between both groups.||0.799|0.153|0.013
92273977|NCT03276962|184450454|SUPERIORITY||Incremental vaccine efficacy|-21.0||||0.154|TWO_SIDED|95.0|-57.0|7.0|||Regression, Cox|The 95% Confidence Interval of the incremental vaccine efficacy estimates was calculated from Cox regression model.||To demonstrate the superiority of a 3-dose schedule of GSK Biologicals' malaria vaccine RTS,S/AS01E with a fractional third dose at Month 2 (Fx012-14-mFxD Group) compared to a standard schedule of RTS,S/AS01E with 3 full doses (R012-20 + R012-14 Group) in terms of vaccine efficacy against clinical malaria (primary case definition) over 12 months post-Dose 3.||7|-57|0.154
92273978|NCT03056001|184450488|OTHER|Estimation only.|Rate|0.0333|||||TWO_SIDED|95.0|0.0008|0.1722|||||Confidence interval estimated using the Clopper Pearson method.|The reported severe or life-threatening adverse event rate with weekly doxorubicin and dacarbazine was 0.55. If it became evident that the rate of severe or life-threatening toxicity convincingly exceeded 0.55, the study would have been halted. Convincing evidence of exceeding 0.55 was based on Bayesian methods and continuous monitoring, where the stopping rule would have held enrollment if the posterior probability at any point exceeded 0.75 or higher.||0.1722|0.0008|
92273979|NCT03056001|184450489|OTHER|Estimation only|Median|1.3|||||TWO_SIDED|95.0|0.8|2.1|||||The Kaplan Meier method was used to estimate the median OS (in years) for the population. The Greenwood method was used to estimate the confidence limits of the median overall survival.|||2.1|0.8|
92273980|NCT03056001|184450490|OTHER|Estimation only|Median|5.7|||||TWO_SIDED|95.0|4.1|8.3|||||The Kaplan Meier method was used to estimate the median PFS (in months) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||8.3|4.1|
92273981|NCT03056001|184450491|OTHER|Estimation only.|Rate|0.367|||||TWO_SIDED|95.0|0.199|0.561|||||Confidence interval estimated using the Clopper Pearson method.|||0.561|0.199|
92273982|NCT03056001|184450492|OTHER|Estimation only|Median|8.0|||||TWO_SIDED|95.0|2.8|34.6|||||The Kaplan Meier method was used to estimate the median DoR (in months) for the population. The Greenwood method was used to estimate the confidence limits of the median duration of response.|||34.6|2.8|
92214606|NCT04697264|184329110|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.015||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||Effects of MELF on TNF levels were assessed using multivariate linear regression, with binary categorisations (presence and absence of MELF) to facilitate comparisons.||||0.015
92227067|NCT00925600|184356126|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.2|STANDARD_ERROR_OF_MEAN|2.1|||TWO_SIDED|95.0|-6.4|2.0||||||The point estimate of absolute risk difference (difference in incidence rates, denosumab minus placebo) and the corresponding 95% confidence interval was constructed using the Mantel-Haenszel method adjusting for the stratification factors: baseline LOCS III status (\< 3.0 at all sites \[P, C, and NO\] vs. ≥ 3.0 at any of these sites), age group (\< 75, ≥ 75 years), and patient-reported history of cataract (yes/no).||2.0|-6.4|
92152684|NCT01976364|184190645|OTHER||LS mean difference|0.33|||||TWO_SIDED|95.0|-1.04|1.69||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.69|-1.04|
92152685|NCT01976364|184190645|OTHER||LS mean difference|-0.77|||||TWO_SIDED|95.0|-2.09|0.55||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.55|-2.09|
92152686|NCT01976364|184190645|OTHER||LS mean difference|-0.77|||||TWO_SIDED|95.0|-2.44|0.91||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.91|-2.44|
92152687|NCT01976364|184190645|OTHER||LS mean difference|0.52|||||TWO_SIDED|95.0|-0.96|2.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.00|-0.96|
92152688|NCT01976364|184190646|OTHER||LS mean difference|-0.47|||||TWO_SIDED|95.0|-2.22|1.29||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.29|-2.22|
92152689|NCT01976364|184190646|OTHER||LS mean difference|-0.86|||||TWO_SIDED|95.0|-2.65|0.92||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.92|-2.65|
92152690|NCT01976364|184190646|OTHER||LS mean difference|-0.66|||||TWO_SIDED|95.0|-2.68|1.36||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.36|-2.68|
92152691|NCT01976364|184190646|OTHER||LS mean difference|0.76|||||TWO_SIDED|95.0|-1.31|2.83||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.83|-1.31|
92152692|NCT01976364|184190646|OTHER||LS mean difference|-0.09|||||TWO_SIDED|95.0|-2.01|1.84||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.84|-2.01|
92152693|NCT01976364|184190647|OTHER||LS mean difference|0.22|||||TWO_SIDED|95.0|-1.09|1.53||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.53|-1.09|
92152694|NCT01976364|184190647|OTHER||LS mean difference|0.17|||||TWO_SIDED|95.0|-1.39|1.73||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.73|-1.39|
92152695|NCT01976364|184190647|OTHER||LS mean difference|-0.53|||||TWO_SIDED|95.0|-2.15|1.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.08|-2.15|
92152696|NCT01976364|184190647|OTHER||LS mean difference|0.32|||||TWO_SIDED|95.0|-1.49|2.13||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.13|-1.49|
92227068|NCT00925600|184356127|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-5.9|5.3||||||The point estimate of absolute risk difference (difference in incidence rates, denosumab minus placebo) and the corresponding 95% confidence interval was constructed using the Mantel-Haenszel method adjusting for the stratification factors: baseline LOCS III status (\< 3.0 at all sites \[P, C, and NO\] vs. ≥ 3.0 at any of these sites), age group (\< 75, ≥ 75 years), and patient-reported history of cataract (yes/no).||5.3|-5.9|
92227069|NCT00925600|184356128|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.2|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-7.6|3.3||||||The point estimate of absolute risk difference (difference in incidence rates, denosumab minus placebo) and the corresponding 95% confidence interval was constructed using the Mantel-Haenszel method adjusting for the stratification factors: baseline LOCS III status (\< 3.0 at all sites \[P, C, and NO\] vs. ≥ 3.0 at any of these sites), age group (\< 75, ≥ 75 years), and patient-reported history of cataract (yes/no).||3.3|-7.6|
92227070|NCT00624221|184356132|NON_INFERIORITY_OR_EQUIVALENCE|The sample size of 40 subjects was estimated based on having 80% power to determine greater than 10% difference in cell loss between groups with estimated standard deviation of 17 and estimated correlation of 0.5.||||||0.1|TWO_SIDED|95.0|||||paired difference t-test|||||||0.10
92152697|NCT01976364|184190647|OTHER||LS mean difference|-0.01|||||TWO_SIDED|95.0|-1.89|1.86||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.86|-1.89|
92152698|NCT01976364|184190648|OTHER||LS mean difference|0.48|||||TWO_SIDED|95.0|-1.08|2.05||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.05|-1.08|
92152699|NCT01976364|184190648|OTHER||LS mean difference|1.25|||||TWO_SIDED|95.0|-0.49|2.99||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.99|-0.49|
92152700|NCT01976364|184190648|OTHER||LS mean difference|0.7|||||TWO_SIDED|95.0|-0.91|2.31||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.31|-0.91|
92152701|NCT01976364|184190648|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-1.57|1.96||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.96|-1.57|
92152702|NCT01976364|184190648|OTHER||LS mean difference|1.73|||||TWO_SIDED|95.0|-0.06|3.52||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.52|-0.06|
92152703|NCT01976364|184190649|OTHER||LS mean difference|0.71|||||TWO_SIDED|95.0|-1.01|2.42||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.42|-1.01|
92152704|NCT01976364|184190649|OTHER||LS mean difference|0.34|||||TWO_SIDED|95.0|-1.49|2.18||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.18|-1.49|
92152705|NCT01976364|184190649|OTHER||LS mean difference|-1.81|||||TWO_SIDED|95.0|-3.7|0.09||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.09|-3.70|
92152706|NCT01976364|184190649|OTHER||LS mean difference|-1.76|||||TWO_SIDED|95.0|-3.99|0.48||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.48|-3.99|
92152707|NCT01976364|184190649|OTHER||LS mean difference|-0.3|||||TWO_SIDED|95.0|-2.3|1.69||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.69|-2.30|
92152708|NCT01976364|184190650|OTHER||LS mean difference|-0.68|||||TWO_SIDED|95.0|-2.05|0.69||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.69|-2.05|
92152709|NCT01976364|184190650|OTHER||LS mean difference|-1.13|||||TWO_SIDED|95.0|-2.57|0.31||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.31|-2.57|
92152710|NCT01976364|184190650|OTHER||LS mean difference|-0.81|||||TWO_SIDED|95.0|-2.17|0.56||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.56|-2.17|
92152711|NCT01976364|184190650|OTHER||LS mean difference|0.01|||||TWO_SIDED|95.0|-1.54|1.57||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.57|-1.54|
92152712|NCT01976364|184190650|OTHER||LS mean difference|0.04|||||TWO_SIDED|95.0|-1.46|1.53||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.53|-1.46|
92152713|NCT01976364|184190651|OTHER||LS mean difference|-0.36|||||TWO_SIDED|95.0|-2.06|1.35||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.35|-2.06|
92152714|NCT01976364|184190651|OTHER||LS mean difference|-0.86|||||TWO_SIDED|95.0|-2.51|0.79||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.79|-2.51|
92152715|NCT01976364|184190651|OTHER||LS mean difference|-1.71|||||TWO_SIDED|95.0|-3.66|0.23||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.23|-3.66|
92152716|NCT01976364|184190651|OTHER||LS mean difference|-0.47|||||TWO_SIDED|95.0|-2.25|1.32||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.32|-2.25|
92152717|NCT01976364|184190651|OTHER||LS mean difference|0.95|||||TWO_SIDED|95.0|-0.82|2.73||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.73|-0.82|
92152718|NCT01976364|184190652|OTHER||LS mean difference|0.78|||||TWO_SIDED|95.0|-1.27|2.82||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.82|-1.27|
92152719|NCT01976364|184190652|OTHER||LS mean difference|-0.38|||||TWO_SIDED|95.0|-2.46|1.71||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.71|-2.46|
92152720|NCT01976364|184190652|OTHER||LS mean difference|-0.57|||||TWO_SIDED|95.0|-2.72|1.57||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.57|-2.72|
92152721|NCT01976364|184190652|OTHER||LS mean difference|0.28|||||TWO_SIDED|95.0|-1.81|2.36||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.36|-1.81|
92152722|NCT01976364|184190652|OTHER||LS mean difference|0.53|||||TWO_SIDED|95.0|-1.58|2.63||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.63|-1.58|
92152723|NCT01976364|184190653|OTHER||LS mean difference|-1.67|||||TWO_SIDED|95.0|-3.67|0.32||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.32|-3.67|
92152724|NCT01976364|184190653|OTHER||LS mean difference|-0.61|||||TWO_SIDED|95.0|-2.86|1.63||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.63|-2.86|
92152725|NCT01976364|184190653|OTHER||LS mean difference|-0.09|||||TWO_SIDED|95.0|-2.27|2.09||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.09|-2.27|
92152726|NCT01976364|184190653|OTHER||LS mean difference|0.73|||||TWO_SIDED|95.0|-1.49|2.95||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.95|-1.49|
92152727|NCT01976364|184190653|OTHER||LS mean difference|-0.79|||||TWO_SIDED|95.0|-3.1|1.53||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.53|-3.10|
92398044|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.25||||0.658|TWO_SIDED|95.0|0.46|3.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.39|0.46|0.6580
92227071|NCT00200057|184356177|SUPERIORITY_OR_OTHER||Proportion|0.73|||<|0.0001|TWO_SIDED|95.0|0.64|0.81||No multiplicity adjustments were made for the primary outcome analysis. Two-tailed p-values were considered statistically significant if they were less than 0.05.|Exact Binomial|||The exact Binomial test (two-sided) for one-sample proportions was used to test the null hypothesis that the success rate is equal to 0.5.||0.81|0.64|<0.0001
92152728|NCT01976364|184190654|OTHER||LS mean difference|0.93|||||TWO_SIDED|95.0|-0.95|2.81||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.81|-0.95|
92152729|NCT01976364|184190654|OTHER||LS mean difference|0.11|||||TWO_SIDED|95.0|-1.72|1.95||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.95|-1.72|
92152730|NCT01976364|184190654|OTHER||LS mean difference|-0.25|||||TWO_SIDED|95.0|-2.4|1.9||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.90|-2.40|
92152731|NCT01976364|184190654|OTHER||LS mean difference|1.07|||||TWO_SIDED|95.0|-0.93|3.07||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.07|-0.93|
92152732|NCT01976364|184190654|OTHER||LS mean difference|0.38|||||TWO_SIDED|95.0|-1.62|2.38||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.38|-1.62|
92152733|NCT01976364|184190655|OTHER||LS mean difference|0.8|||||TWO_SIDED|95.0|-0.9|2.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.5|-0.9|
92152734|NCT01976364|184190655|OTHER||LS mean difference|0.5|||||TWO_SIDED|95.0|-1.1|2.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.2|-1.1|
92152735|NCT01976364|184190655|OTHER||LS mean difference|-0.7|||||TWO_SIDED|95.0|-2.4|1.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.0|-2.4|
92152736|NCT01976364|184190655|OTHER||LS mean difference|1.1|||||TWO_SIDED|95.0|-0.8|2.9||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.9|-0.8|
92152737|NCT01976364|184190655|OTHER||LS mean difference|0.8|||||TWO_SIDED|95.0|-1.1|2.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.6|-1.1|
92152738|NCT01976364|184190656|OTHER||LS mean difference|0.4|||||TWO_SIDED|95.0|-0.4|1.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.2|-0.4|
92152739|NCT01976364|184190656|OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-1.0|0.7||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.7|-1.0|
92152740|NCT01976364|184190656|OTHER||LS mean difference|-0.7|||||TWO_SIDED|95.0|-1.6|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-1.6|
92273983|NCT03567239|184450493|OTHER|"The PIADS is broken into 3 subgroups - Competence, Adaptability, and Self-Esteem. The minimum possible score is -3 and the maximum possible score is 3 for each subgroup - with positive 3 being the best. The 7-Point Likert scale was used in response to the question The device provided increased my ability to … in relation to the custom need they had. A response of 1 = Strongly disagree and 7 = strongly agree."|||||||||||||||||Median values: Overall = 2.42, Competence = 2.58, Adaptability = 2.33, Self-Esteem = 2.00, Likert = 7|||
92152741|NCT01976364|184190656|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.9|0.8||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.8|-0.9|
92152742|NCT01976364|184190656|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.9|0.8||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.8|-0.9|
92152743|NCT01976364|184190657|OTHER||LS mean difference|0.5|||||TWO_SIDED|95.0|-0.6|1.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.6|-0.6|
92152744|NCT01976364|184190657|OTHER||LS mean difference|0.7|||||TWO_SIDED|95.0|-0.3|1.7||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.7|-0.3|
92152745|NCT01976364|184190657|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-1.0|1.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.2|-1.0|
92152746|NCT01976364|184190657|OTHER||LS mean difference|1.2|||||TWO_SIDED|95.0|0.0|2.3||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.3|0.0|
92152747|NCT01976364|184190657|OTHER||LS mean difference|0.8|||||TWO_SIDED|95.0|-0.3|1.9||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.9|-0.3|
92152748|NCT01976364|184190658|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
92273984|NCT03567239|184450494|OTHER|||||||||||||||||The NASA Task Load Index ranges from 1 to 21 with the lower the score the better.|Median vales: Overall = 4.83, Mental demand = 11, Physical demand = 4, Temporal demand = 6, Performance = 3, Effort = 3, Frustration = 5.|||
92273985|NCT03567239|184450495|OTHER|Median QUEST scores: Overall = 4.33, Device = 4.38, Services = 4.25.||||||||||||||||The QUEST (Quebec User Evaluation of Satisfaction with Assistive Technology) evaluates a patient's satisfaction with various assistive technologies. It has two subgroups, Device and Service on a scale of 1-5 with 5 being the best score.|Median QUEST scores: Overall = 4.33, Device = 4.38, Services = 4.25.|||
92152749|NCT01976364|184190658|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
92152750|NCT01976364|184190658|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
92273986|NCT02766400|184450512|SUPERIORITY_OR_OTHER_LEGACY||Cohen's d effect size at 12 months|0.53|||<|0.001|TWO_SIDED|95.0|-0.12|1.19||a priori threshold was set at p\<0.05|Linear mixed models|F(4,150)=5.11|Effect size was calculated using mean change scores (baseline to month 12) and standard error of change (baseline to month 12) for each group.|All analyses were performed using the intent-to-treat principle so that comparisons were made according to the assigned intervention group regardless of study completion.||1.19|-0.12|<0.001
92273987|NCT03593772|184450515|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.04819|STANDARD_ERROR_OF_MEAN|0.02482||0.0535|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total POQ Score as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.0535
92398045|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|4.58||||0.0061|TWO_SIDED|95.0|1.54|13.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||13.62|1.54|0.0061
92152751|NCT01976364|184190658|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
92152752|NCT01976364|184190658|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|0.0|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|0.0|
92152753|NCT01976364|184190659|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|0.0|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|0.0|
92152754|NCT01976364|184190659|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|0.0|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|0.0|
92152755|NCT01976364|184190659|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|0.0|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|0.0|
92152756|NCT01976364|184190659|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
92152757|NCT01976364|184190659|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
92152758|NCT01976364|184190660|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
92152759|NCT01976364|184190660|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
92152760|NCT01976364|184190660|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|0.0|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|0.0|
92152761|NCT01976364|184190660|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
92152762|NCT01976364|184190660|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
92398046|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.7||||0.0149|TWO_SIDED|95.0|1.29|10.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.61|1.29|0.0149
92152763|NCT01976364|184190661|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
92398047|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.95||||0.9282|TWO_SIDED|95.0|0.35|2.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||2.62|0.35|0.9282
92398048|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.87||||0.7902|TWO_SIDED|95.0|0.33|2.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||2.35|0.33|0.7902
92152764|NCT01976364|184190661|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
92152765|NCT01976364|184190661|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
92152766|NCT01976364|184190661|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
92152767|NCT01976364|184190661|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
92152768|NCT01976364|184190662|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.2|
92152769|NCT01976364|184190662|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.2|
92152770|NCT01976364|184190662|OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-0.2|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.2|
92152771|NCT01976364|184190662|OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-0.3|0.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.0|-0.3|
92152772|NCT01976364|184190662|OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-0.2|0.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.0|-0.2|
92152773|NCT01976364|184190663|OTHER||LS mean difference|-2.9|||||TWO_SIDED|95.0|-6.2|0.4||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.4|-6.2|
92152774|NCT01976364|184190663|OTHER||LS mean difference|-1.5|||||TWO_SIDED|95.0|-5.8|2.7||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.7|-5.8|
92152775|NCT01976364|184190663|OTHER||LS mean difference|-6.3|||||TWO_SIDED|95.0|-10.2|-2.4||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||-2.4|-10.2|
92152776|NCT01976364|184190663|OTHER||LS mean difference|-2.8|||||TWO_SIDED|95.0|-7.3|1.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.6|-7.3|
92152777|NCT01976364|184190663|OTHER||LS mean difference|-4.9|||||TWO_SIDED|95.0|-9.9|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-9.9|
92152778|NCT02914184|184190698|OTHER|The two-sided 95% CIs for the ratio of anti RV IgA antibody GMCs should be within the \[0.5; 2\] clinical limit interval.|GMC Ratio at At Month 2-4|1.07|||||TWO_SIDED|95.0|0.79|1.44|||ANOVA|||GMC Ratio of Anti-RV IgA antibody for Liq\_A and Liq\_B groups was calculated using ANOVA model with vaccine groups and country as fixed effects.||1.44|0.79|
92152779|NCT02914184|184190698|OTHER|The two-sided 95% CIs for the ratio of anti RV IgA antibody GMCs should be within the \[0.5; 2\] clinical limit interval.|GMC Ratio at At Month 2-4|0.88|||||TWO_SIDED|95.0|0.65|1.19|||ANOVA|||GMC Ratio of Anti-RV IgA antibody for Liq\_A and Liq\_C groups was calculated using ANOVA model with vaccine groups and country as fixed effects.||1.19|0.65|
92152780|NCT02914184|184190698|OTHER|The two-sided 95% CIs for the ratio of anti RV IgA antibody GMCs should be within the \[0.5; 2\] clinical limit interval.|GMC Ratio at At Month 2-4|0.82|||||TWO_SIDED|95.0|0.61|1.11|||ANOVA|||GMC Ratio of Anti-RV IgA antibody for Liq\_B and Liq\_C groups was calculated using ANOVA model with vaccine groups and country as fixed effects.||1.11|0.61|
92152781|NCT02914184|184190699|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in SCR for antibodies to rota virus at month 2-4 between the Liq\_Pool group and Lyo Control group should be ≥ -10%.|SCR difference at Month 2-4|-2.49|||||TWO_SIDED|95.0|-7.15|2.63||||||Non-inferiority of Liq\_Pool group compared to Lyo Control group in terms of difference in % of subjects with anti-RV IgA titer ≥ specified cut off with its 2-sided 95% CI in initially seronegative subjects||2.63|-7.15|
92152782|NCT02914184|184190701|NON_INFERIORITY|LL of the two-sided 95% CI for the ratio of anti-RV IgA antibody GMCs between the Liq\_Pool Group and Control group should be ≥ 0.67.|GMC Ratio at At Month 2-4|1.04|||||TWO_SIDED|95.0|0.82|1.33|||ANOVA|||Non-inferiority of Liq\_Pool Group as compared to Lyo Control group in terms of the GMC ratio calculated using ANOVA model with vaccine groups and country as fixed effects||1.33|0.82|
92152783|NCT00806624|184190713|SUPERIORITY_OR_OTHER||difference in percentages|-3.5|||||TWO_SIDED|95.0|-16.2|9.4||||||||9.4|-16.2|
92152784|NCT00806624|184190713|SUPERIORITY_OR_OTHER||difference in percentages|-9.1|||||TWO_SIDED|95.0|-22.4|4.5||||||||4.5|-22.4|
92152785|NCT00806624|184190713|SUPERIORITY_OR_OTHER||difference in percentage|-5.6|||||TWO_SIDED|95.0|-19.3|8.2||||||||8.2|-19.3|
92152786|NCT01863043|184190760|SUPERIORITY|||||||0.27|||||||Mixed Models Analysis|||||||0.27
92152787|NCT01863043|184190761|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|||||||0.12
92152788|NCT01863043|184190762|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|||||||0.28
92152789|NCT01863043|184190763|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|||||||0.15
92152790|NCT01863043|184190764|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92152791|NCT01863043|184190765|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92152792|NCT01863043|184190766|SUPERIORITY|||||||0.59|||||||Accelerated failure time regression mode|||||||0.59
92152793|NCT01863043|184190767|SUPERIORITY|||||||0.64|||||||Accelerated failure time regression mode|||||||0.64
92152794|NCT01863043|184190768|SUPERIORITY|||||||0.95|||||||Accelerated failure time regression mode|||||||0.95
92152795|NCT01863043|184190769|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92152796|NCT01863043|184190770|SUPERIORITY|||||||0.23|||||||Accelerated failure time regression mode|||||||0.23
92152797|NCT01863043|184190771|SUPERIORITY|||||||0.98|||||||Mixed Models Analysis|||||||0.98
92152798|NCT01863043|184190772|SUPERIORITY|||||||0.01|||||||Accelerated failure time regression mode|||||||0.01
92152799|NCT01863043|184190773|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
92152800|NCT01863043|184190774|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
92152801|NCT01863043|184190776|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92152802|NCT01863043|184190777|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||||||0.17
92152803|NCT01863043|184190778|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||||||0.17
92152804|NCT01863043|184190779|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||||||0.43
92152805|NCT01863043|184190780|SUPERIORITY|||||||0.694|||||||Wilcoxon (Mann-Whitney)|||||||0.694
92152806|NCT01863043|184190781|SUPERIORITY|||||||0.97|||||||Accelerated failure time regression mode|||||||0.97
92152807|NCT01863043|184190782|SUPERIORITY|||||||0.6|||||||Mixed Models Analysis|||||||0.60
92152808|NCT01863043|184190783|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
92152809|NCT01863043|184190784|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92152810|NCT01863043|184190785|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||0.002
92152811|NCT01863043|184190786|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92152812|NCT01863043|184190787|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||||||0.56
92152813|NCT01863043|184190788|SUPERIORITY|||||||0.59|||||||Mixed Models Analysis|||||||0.59
92152814|NCT01863043|184190789|SUPERIORITY|||||||0.888|||||||Mixed Models Analysis|||||||0.888
92152815|NCT01863043|184190790|SUPERIORITY|||||||0.694|||||||Regression, Linear|||||||0.694
92152816|NCT01863043|184190791|SUPERIORITY|||||||0.248|||||||general linear mixed model|||||||0.248
92152817|NCT01863043|184190792|SUPERIORITY|||||||0.694|||||||general linear mixed model|||||||0.694
92152818|NCT01863043|184190793|SUPERIORITY|||||||0.195|||||||Regression, Linear|||||||0.195
92152819|NCT01987596|184190799|SUPERIORITY|||||||1|||||||McNemar|||||||1.00
92152820|NCT01987596|184190800|SUPERIORITY||||||<|0.0001|||||||ANOVA|||two-period crossover design analysis||||<0.0001
92152821|NCT01987596|184190801|SUPERIORITY||||||<|0.0001|||||||ANOVA|||2 treatment, 2 periiod cross-over analysis||||<0.0001
92152822|NCT02632786|184190804|SUPERIORITY||Risk Ratio (RR)|0.82||||0.319|TWO_SIDED|95.0|0.55|1.21|||Cochran-Mantel-Haenszel|||||1.21|0.55|0.3190
92152823|NCT02632786|184190805|SUPERIORITY||Mean Difference (Net)|-0.78||||0.5563|TWO_SIDED|95.0|-3.37|1.81|||Mixed Models Analysis|||||1.81|-3.37|0.5563
92152824|NCT02632786|184190806|SUPERIORITY||Mean Difference (Net)|5.0||||0.8992|TWO_SIDED|95.0|-11.5|23.0|||ANCOVA|||||23.00|-11.50|0.8992
92152825|NCT02632786|184190807|SUPERIORITY||Risk Ratio (RR)|1.54||||0.3529|TWO_SIDED|95.0|0.6|3.94|||Cochran-Mantel-Haenszel|||||3.94|0.60|0.3529
92152826|NCT02632786|184190808|SUPERIORITY||Mean Difference (Net)|-0.6||||0.757|TWO_SIDED|95.0|-4.2|3.0|||Mixed Models Analysis|||||3.0|-4.2|0.7570
92152827|NCT02632786|184190809|SUPERIORITY||Slope|-71.97||||0.0729|TWO_SIDED|95.0|-150.72|6.79|||Mixed Models Analysis|||||6.79|-150.72|0.0729
92152828|NCT02632786|184190810|SUPERIORITY|||||||0.4142|||||||Cochran-Mantel-Haenszel|||||||0.4142
92152829|NCT02674490|184190827|SUPERIORITY|||||||0.54||||||Threshold for significance is two-sided alpha of 0.05.|Regression, Linear|The primary analysis was adjusted for aphasia type (Anomia, Broca, or other type), baseline aphasia severity (AQ), and age.||Sample Size Determination If sample size in each group is 20, we will have 89% power to detect a difference in means of 23 (the difference between A-tDCS mean change in accuracy of 33 and a sham mean change in accuracy of 10) assuming that the SD of change for both groups is 22.2 using a two group t-test with a two-sided alpha of 0.05.||||0.54
92398049|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.22||||0.1603|TWO_SIDED|95.0|0.73|6.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.74|0.73|0.1603
92152830|NCT03154359|184190841|OTHER|||||||0.197|||||||t-test, 2 sided|||Comparing 6-week responders and 6-week non-responders||||0.197
92152831|NCT03154359|184190841|OTHER|||||||0.562|||||||t-test, 2 sided|||Comparing 18-week responders and 18-week non-responders||||0.562
92152832|NCT03154359|184190842|OTHER|||||||0.558|||||||t-test, 2 sided|||||||0.558
92152833|NCT03154359|184190843|OTHER|||||||0.147|||||||t-test, 2 sided|||||||0.147
92398050|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.55||||0.1144|TWO_SIDED|95.0|0.8|8.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.14|0.80|0.1144
92152834|NCT03154359|184190844|OTHER|||||||0.495|||||||t-test, 2 sided|||Comparing 6-week responders and 6-week non-responders||||0.495
92152835|NCT03154359|184190844|OTHER|||||||0.955|||||||t-test, 2 sided|||Comparing 18-week responders and 18-week non-responders||||0.955
92398051|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.75||||0.5903|TWO_SIDED|95.0|0.26|2.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||2.13|0.26|0.5903
92398052|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.89||||0.029|TWO_SIDED|95.0|1.15|13.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.16|1.15|0.0290
92398053|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.12||||0.1721|TWO_SIDED|95.0|0.72|6.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.26|0.72|0.1721
92398054|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.83||||0.2439|TWO_SIDED|95.0|0.66|5.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.09|0.66|0.2439
92398055|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7402|TWO_SIDED|95.0|0.44|3.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.19|0.44|0.7402
92398056|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0422|TWO_SIDED|95.0|1.04|9.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.63|1.04|0.0422
92398057|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|5.44||||0.0061|TWO_SIDED|95.0|1.62|18.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||18.27|1.62|0.0061
92398058|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.71||||0.3191|TWO_SIDED|95.0|0.59|4.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.92|0.59|0.3191
92398059|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|5.91||||0.0037|TWO_SIDED|95.0|1.78|19.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||19.66|1.78|0.0037
92398060|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|4.02||||0.0139|TWO_SIDED|95.0|1.33|12.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||12.20|1.33|0.0139
92398061|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.59||||0.3757|TWO_SIDED|95.0|0.57|4.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.42|0.57|0.3757
92398062|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.21||||0.7087|TWO_SIDED|95.0|0.45|3.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.28|0.45|0.7087
92398063|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.53||||0.1083|TWO_SIDED|95.0|0.81|7.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.88|0.81|0.1083
92398064|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.21||||0.0473|TWO_SIDED|95.0|1.01|10.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||10.14|1.01|0.0473
92398065|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.89||||0.2481|TWO_SIDED|95.0|0.64|5.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.60|0.64|0.2481
92152836|NCT03154359|184190845|OTHER|||||||0.991|||||||t-test, 2 sided|||||||0.991
92152837|NCT03154359|184190846|OTHER|||||||0.759|||||||t-test, 2 sided|||||||0.759
92152838|NCT03154359|184190847|OTHER|||||||0.456|||||||t-test, 2 sided|||Comparing 6-week responders and 6-week non-responders||||0.456
92152839|NCT03154359|184190847|OTHER|||||||0.822|||||||t-test, 2 sided|||Comparing 18-week responders and 18-week non-responders||||0.822
92152840|NCT03154359|184190848|OTHER|||||||0.343|||||||t-test, 2 sided|||||||0.343
92152841|NCT03154359|184190849|OTHER|||||||0.539|||||||t-test, 2 sided|||||||0.539
92227072|NCT00200057|184356178|SUPERIORITY_OR_OTHER||Proportion|0.73|||<|0.0001|TWO_SIDED|95.0|0.64|0.81||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Exact Binomial|||The exact Binomial test (two-sided) for one-sample proportions was used to test the null hypothesis that the success rate is equal to 0.5.||0.81|0.64|<0.0001
92152842|NCT03154359|184190850|OTHER|||||||0.13|||||||t-test, 2 sided|||||||0.130
92152843|NCT03154359|184190851|OTHER|||||||0.652|||||||t-test, 2 sided|||||||0.652
92152844|NCT04250337|184190852|SUPERIORITY||Risk Difference (RD)|18.3||||0.011|TWO_SIDED|95.0|5.1|31.5|||Cochran-Mantel-Haenszel|||||31.5|5.1|0.011
92152845|NCT04250337|184190853|SUPERIORITY||Risk Difference (RD)|26.4|||<|0.001|TWO_SIDED|95.0|12.1|40.8|||Cochran-Mantel-Haenszel|||||40.8|12.1|<.001
92152846|NCT04250337|184190854|SUPERIORITY||Risk Difference (RD)|18.9||||0.008|TWO_SIDED|95.0|6.1|31.7|||Cochran-Mantel-Haenszel|||||31.7|6.1|0.008
92152847|NCT04250337|184190855|SUPERIORITY||LS Mean Difference (Final Values)|-15.21|STANDARD_ERROR_OF_MEAN|6.373||0.017263|TWO_SIDED|95.0|-27.7|-2.7|||ANCOVA|||||-2.7|-27.7|0.017263
92152848|NCT04250337|184190856|SUPERIORITY||Risk Difference (RD)|19.2||||0.017|TWO_SIDED|95.0|4.3|34.1|||Cochran-Mantel-Haenszel|||||34.1|4.3|0.017
92152849|NCT04250337|184190857|SUPERIORITY||Risk Difference (RD)|21.6||||0.007|TWO_SIDED|95.0|7.1|36.1|||Cochran-Mantel-Haenszel|||||36.1|7.1|0.007
92152850|NCT04250337|184190858|SUPERIORITY||LS Mean Difference (Final Values)|-23.64|STANDARD_ERROR_OF_MEAN|5.074||3e-06|TWO_SIDED|95.0|-33.6|-13.7|||ANCOVA|||||-13.7|-33.6|0.000003
92152851|NCT04250337|184190859|SUPERIORITY||LS Mean Difference (Final Values)|-12.28|STANDARD_ERROR_OF_MEAN|2.428|<|0.001|TWO_SIDED|95.0|-17.07|-7.49|||Mixed Models Analysis|||||-7.49|-17.07|<0.001
92152852|NCT04250337|184190860|SUPERIORITY||Risk Difference (RD)|3.5||||0.454|TWO_SIDED|95.0|-4.9|11.8|||Cochran-Mantel-Haenszel|||||11.8|-4.9|0.454
92152853|NCT04250337|184190861|SUPERIORITY||Markov Chain Monte Carlo (MCMC)|-20.14|STANDARD_ERROR_OF_MEAN|12.81||0.117607|TWO_SIDED|95.0|-45.4|5.1|||ANCOVA|||||5.1|-45.4|0.117607
92152854|NCT04250337|184190862|SUPERIORITY||Markov Chain Monte Carlo (MCMC)|-0.3|STANDARD_ERROR_OF_MEAN|0.134||0.025293|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||-0.0|-0.6|0.025293
92152855|NCT04250337|184190863|SUPERIORITY||Risk Difference (RD)|14.2||||0.022|TWO_SIDED|95.0|3.8|24.7|||Cochran-Mantel-Haenszel|||||24.7|3.8|0.022
92152856|NCT04250337|184190864|SUPERIORITY||Risk Difference (RD)|1.2||||0.764|TWO_SIDED|95.0|-7.3|9.7|||Cochran-Mantel-Haenszel|||||9.7|-7.3|0.764
92152857|NCT04250337|184190865|SUPERIORITY||Risk Difference (RD)|1.9||||0.498|TWO_SIDED|95.0|-2.9|6.7|||Cochran-Mantel-Haenszel|||||6.7|-2.9|0.498
92152858|NCT04250337|184190866|SUPERIORITY||Risk Difference (RD)|15.6||||0.014|TWO_SIDED|95.0|5.3|25.9|||Cochran-Mantel-Haenszel|||||25.9|5.3|0.014
92152859|NCT04250337|184190867|SUPERIORITY||Risk Difference (RD)|1.1||||0.818|TWO_SIDED|95.0|-8.0|10.2|||Cochran-Mantel-Haenszel|||||10.2|-8.0|0.818
92152860|NCT04250337|184190868|SUPERIORITY||Risk Difference (RD)|2.0||||0.499|TWO_SIDED|95.0|-3.1|7.1|||Cochran-Mantel-Haenszel|||||7.1|-3.1|0.499
92152861|NCT04250337|184190869|SUPERIORITY||LS Mean Difference (Final Values)|7.29|STANDARD_ERROR_OF_MEAN|5.104||0.155|TWO_SIDED|95.0|-2.78|17.36|||Mixed Models Analysis|||||17.36|-2.78|0.155
92152862|NCT04250337|184190871|SUPERIORITY||LS Mean Difference (Final Values)|-17.69|STANDARD_ERROR_OF_MEAN|4.403|<|0.001|TWO_SIDED|95.0|-26.37|-9.01|||ANCOVA|||||-9.01|-26.37|<0.001
92227073|NCT00200057|184356179|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Wilcoxon signed-rank test|||||||<0.0001
92227074|NCT00200057|184356180|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Wilcoxon signed-rank test|||||||<0.0001
92227075|NCT00200057|184356181|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Wilcoxon signed-rank test|||||||<0.0001
92227076|NCT00200057|184356182|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Wilcoxon signed-rank test|||||||<0.0001
92227077|NCT00200057|184356183|SUPERIORITY_OR_OTHER||Proportion|0.71|||<|0.0001|TWO_SIDED|95.0|0.62|0.79||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Exact Binomial|||The exact Binomial test (two-sided) for one-sample proportions was used to test the null hypothesis that the success rate is equal to 0.5.||0.79|0.62|<0.0001
92227078|NCT00778830|184356200|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3176|||||TWO_SIDED|95.0|0.8078|2.1491||||||||2.1491|0.8078|
92227079|NCT05512949|184356204|NON_INFERIORITY|The ID-dose regimen is considered non-inferior if the lower bound of the confidence interval (original scale) is no less than half that of the standard dose, giving a NI margin of 0.5 (NI= -0.301 log10 scale).|Geometric mean titer ratio (GMTR)|0.7||||0.045|TWO_SIDED|95.0|0.5|1.0||Significance can be considered if P \<0.05. Not adjusted for multiple comparisons.|t-test, 2 sided|Two-sample t-test with unequal variance, noninferiority (NI) margin of 0.5 and two-sided type I error rate of 0.05.||The selection of the noninferiority (NI) margin was based on the pivotal Phase 3 trial by Pittman et al., in 2019 comparing one dose of ACAM2000 and the now licensed 2-dose standard MVA-BN regimen, which provided an estimated relative (peak) immune response of approximately 2-times higher for MVA-BN. An NI margin of 0.5 corresponds to an immune response of the lower-dose MVA-BN at least as high as what would be expected for ACAM2000.||1.0|0.5|0.045
92152863|NCT04250337|184190872|SUPERIORITY||LS Mean Difference (Final Values)|-3.33|STANDARD_ERROR_OF_MEAN|1.014||0.001031|TWO_SIDED|95.0|-5.3|-1.3|||ANCOVA|||||-1.3|-5.3|0.001031
92152864|NCT04250337|184190873|SUPERIORITY||Risk Difference (RD)|17.2||||0.036|TWO_SIDED|95.0|0.1|34.3|||Cochran-Mantel-Haenszel|||||34.3|0.1|0.036
92152865|NCT04250337|184190874|SUPERIORITY||LS Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.025|<|0.001|TWO_SIDED|95.0|0.06|0.16|||ANCOVA|||Health State Index UK||0.16|0.06|<0.001
92152866|NCT04250337|184190874|SUPERIORITY||LS Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.018|<|0.001|TWO_SIDED|95.0|0.04|0.11|||ANCOVA|||Health State Index US||0.11|0.04|<0.001
92152867|NCT04250337|184190875|SUPERIORITY||LS Mean Difference (Final Values)|3.62|STANDARD_ERROR_OF_MEAN|2.386||0.131|TWO_SIDED|95.0|-1.08|8.32|||ANCOVA|||||8.32|-1.08|0.131
92152868|NCT04250337|184190876|SUPERIORITY||LS Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|1.145|<|0.001|TWO_SIDED|95.0|-6.26|-1.74|||Mixed Models Analysis|||||-1.74|-6.26|<0.001
92152869|NCT04250337|184190877|SUPERIORITY||LS Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.407||0.571|TWO_SIDED|95.0|-3.58|1.98|||ANCOVA|||||1.98|-3.58|0.571
92273988|NCT03593772|184450515|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00163|STANDARD_ERROR_OF_MEAN|0.001826||0.3729|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain Rating as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.3729
92273989|NCT03593772|184450515|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00593|STANDARD_ERROR_OF_MEAN|0.007228||0.4124|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Mobility as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.4124
92152870|NCT04250337|184190878|SUPERIORITY||LS Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|1.127||0.882|TWO_SIDED|95.0|-2.4|2.06|||ANCOVA|||||2.06|-2.40|0.882
92152871|NCT04250337|184190879|SUPERIORITY||LS Mean Difference (Final Values)|3.46|STANDARD_ERROR_OF_MEAN|2.48||0.171|TWO_SIDED|95.0|-1.56|8.48|||ANCOVA|||||8.48|-1.56|0.171
92152872|NCT04250337|184190880|SUPERIORITY||LS Mean Difference (Final Values)|4.43|STANDARD_ERROR_OF_MEAN|2.697||0.109|TWO_SIDED|95.0|-1.03|9.89|||ANCOVA|||||9.89|-1.03|0.109
92152873|NCT04250337|184190881|SUPERIORITY||LS Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.116||0.922|TWO_SIDED|95.0|-0.22|0.24|||ANCOVA|||||0.24|-0.22|0.922
92152874|NCT04250337|184190882|SUPERIORITY||LS Mean Difference (Final Values)|-4.62|STANDARD_ERROR_OF_MEAN|1.271||0.001|TWO_SIDED|95.0|-7.22|-2.03|||Mixed Models Analysis|||||-2.03|-7.22|0.001
92152875|NCT00569803|184190891|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.86|||||TWO_SIDED|90.0|0.68|1.08|||||Ratio of Geometric Means: 50mg SC over 125mg IV|||1.08|0.68|
92152876|NCT00569803|184190891|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.61|||||TWO_SIDED|90.0|0.48|0.77|||||Ratio of Geometric Means: 100mg SC over 125mg IV|||0.77|0.48|
92152877|NCT00569803|184190891|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.78|||||TWO_SIDED|90.0|0.62|0.99|||||Ratio of Geometric Means: 125mg SC over 125mg IV|||0.99|0.62|
92152878|NCT00569803|184190891|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.89|||||TWO_SIDED|90.0|0.71|1.13|||||Ratio of Geometric Means: 150mg SC over 125mg IV|||1.13|0.71|
92152879|NCT00569803|184190891|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.88|||||TWO_SIDED|90.0|0.69|1.11|||||Ratio of Geometric Means: 200mg SC over 125mg IV|||1.11|0.69|
92152880|NCT00569803|184190891|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.73|||||TWO_SIDED|90.0|0.57|0.92|||||Ratio of Geometric Means: 250mg SC over 125mg IV|||0.92|0.57|
92152881|NCT00569803|184190892|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.87|||||TWO_SIDED|90.0|0.69|1.1|||||Ratio of Geometric Means: 50mg SC over 125mg IV|||1.10|0.69|
92152882|NCT00569803|184190892|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.61|||||TWO_SIDED|90.0|0.48|0.77|||||Ratio of Geometric Means: 100mg SC over 125mg IV|||0.77|0.48|
92152883|NCT00569803|184190892|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.79|||||TWO_SIDED|90.0|0.62|1.0|||||Ratio of Geometric Means: 125mg SC over 125mg IV|||1.00|0.62|
92152884|NCT00569803|184190892|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.9|||||TWO_SIDED|90.0|0.71|1.14|||||Ratio of Geometric Means: 150mg SC over 125mg IV|||1.14|0.71|
92152885|NCT00569803|184190892|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.88|||||TWO_SIDED|90.0|0.69|1.12|||||Ratio of Geometric Means: 200mg SC over 125mg IV|||1.12|0.69|
92152886|NCT00569803|184190892|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.73|||||TWO_SIDED|90.0|0.57|0.92|||||Ratio of Geometric Means: 250mg SC over 125mg IV|||0.92|0.57|
92152887|NCT00569803|184190898|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.9|||||TWO_SIDED|90.0|0.75|1.07|||||AUC(0-T) Ratio of Geometric Means: 1 injection site over 2 injection sites|||1.07|0.75|
92152888|NCT00569803|184190898|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.9|||||TWO_SIDED|90.0|0.75|1.07|||||AUC(INF) Ratio of Geometric Means: 1 injection site over 2 injection sites|||1.07|0.75|
92152889|NCT02006420|184190910|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|Unequal variance assumption||This is the p value for the mean skin thickness of the forearm.||||0.005
92152890|NCT02006420|184190910|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|Unequal variance assumption||This is the p value for the mean skin stiffness of the thigh||||0.71
92152891|NCT02006420|184190911|SUPERIORITY|||||||0.002|||||||Pearson correlation|||This is the p-value for the forearm||||0.002
92152892|NCT02006420|184190911|SUPERIORITY|||||||0.007|||||||Pearson correlation|||This is the p-value for the thigh||||0.007
92152893|NCT02006420|184190912|SUPERIORITY|||||||0.002|||||||Pearson correlation|||This is the p value for the forearm.||||0.002
92152894|NCT02006420|184190912|SUPERIORITY|||||||0.007|||||||Pearson correlation|||This is the p value for the thigh||||0.007
92152895|NCT02006420|184190914|SUPERIORITY||||||<|0.0001|||||||Pearson correlation|||This is the p-value for the forearm||||<.0001
92152896|NCT02006420|184190914|SUPERIORITY||||||<|0.0001|||||||Pearson correlation|||This is the p-value for the thigh||||<0.0001
92152897|NCT02006420|184190916|SUPERIORITY|||||||0.01|||||||Pearson correlation|||This is the p-value for the forearm||||0.01
92152898|NCT02006420|184190916|SUPERIORITY|||||||0.1|||||||Pearson correlation|||This is the p-value for the thigh||||0.10
92152899|NCT00453479|184190939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97|STANDARD_ERROR_OF_MEAN|5.596|||TWO_SIDED|95.0|-12.68|10.75|||||Comparison of SBP Day 1.|||10.75|-12.68|
92152900|NCT00453479|184190939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1|STANDARD_ERROR_OF_MEAN|4.215|||TWO_SIDED|95.0|-12.92|4.72|||||Comparison of SBP Day 7.|||4.72|-12.92|
92152901|NCT00453479|184190939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.21|STANDARD_ERROR_OF_MEAN|5.727|||TWO_SIDED|95.0|-5.78|18.19|||||Comparison of SBP Day 1.|||18.19|-5.78|
92152902|NCT00453479|184190939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.76|STANDARD_ERROR_OF_MEAN|4.314|||TWO_SIDED|95.0|-13.79|4.27|||||Comparison of SBP Day 7.|||4.27|-13.79|
92214607|NCT04697264|184329110|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.|||||>|0.05||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||Effects of tumour grade (Grade 1/2), stage (Stage 1/ \>/=1), histology (type 1 and type 2), and MSI (presence or absence) on the biomarker levels (adiponectin, leptin, IGF 1 and 2, IL6 and TNF) were assessed using multivariate linear regression, with binary categorisations to facilitate comparisons.||||>0.05
92152903|NCT00453479|184190939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|2.138|||TWO_SIDED|95.0|-3.89|5.06|||||Comparison of DBP Day 1.|||5.06|-3.89|
92152904|NCT00453479|184190939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.64|STANDARD_ERROR_OF_MEAN|2.382|||TWO_SIDED|95.0|-11.62|-1.65|||||Comparison of DBP Day 7.|||-1.65|-11.62|
92152905|NCT00453479|184190939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.98|STANDARD_ERROR_OF_MEAN|2.248|||TWO_SIDED|95.0|-3.73|5.68|||||Comparison of DBP Day 1.|||5.68|-3.73|
92152906|NCT00453479|184190939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.81|STANDARD_ERROR_OF_MEAN|2.504|||TWO_SIDED|95.0|-16.05|-5.57|||||Comparison of DBP Day 7.|||-5.57|-16.05|
92152907|NCT00453479|184190940|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.26|STANDARD_ERROR_OF_MEAN|3.745|||TWO_SIDED|95.0|-5.58|10.1|||||Comparison at Day 1.|||10.10|-5.58|
92152908|NCT00453479|184190940|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.62|STANDARD_ERROR_OF_MEAN|3.785|||TWO_SIDED|95.0|-5.3|10.54|||||Comparison at Day 7.|||10.54|-5.30|
92152909|NCT00453479|184190940|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|3.979|||TWO_SIDED|95.0|-8.17|8.48|||||Comparison at Day 1.|||8.48|-8.17|
92152910|NCT00453479|184190940|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.44|STANDARD_ERROR_OF_MEAN|4.021|||TWO_SIDED|95.0|-13.86|2.97|||||Comparison at Day 7.|||2.97|-13.86|
92152911|NCT00453479|184190941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.78|STANDARD_ERROR_OF_MEAN|4.611|||TWO_SIDED|95.0|-12.43|6.87|||||Comparison of SBP Day 1.|||6.87|-12.43|
92152912|NCT00453479|184190941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.88|STANDARD_ERROR_OF_MEAN|3.913|||TWO_SIDED|95.0|-10.07|6.31|||||Comparison of SBP Day 7.|||6.31|-10.07|
92152913|NCT00453479|184190941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.01|STANDARD_ERROR_OF_MEAN|4.718|||TWO_SIDED|95.0|-6.87|12.88|||||Comparison of SBP Day 1.|||12.88|-6.87|
92152914|NCT00453479|184190941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|4.005|||TWO_SIDED|95.0|-11.88|4.89|||||Comparison of SBP Day 7.|||4.89|-11.88|
92152915|NCT00453479|184190941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|1.822|||TWO_SIDED|95.0|-4.09|3.54|||||Comparison of DBP Day 1.|||3.54|-4.09|
92152916|NCT00453479|184190941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.89|STANDARD_ERROR_OF_MEAN|2.116|||TWO_SIDED|95.0|-8.32|0.54|||||Comparison of DBP Day 7.|||0.54|-8.32|
92152917|NCT00453479|184190941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.75|STANDARD_ERROR_OF_MEAN|1.916|||TWO_SIDED|95.0|-5.76|2.26|||||Comparison of DBP Day 1.|||2.26|-5.76|
92152918|NCT00453479|184190941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.39|STANDARD_ERROR_OF_MEAN|2.224|||TWO_SIDED|95.0|-14.04|-4.73|||||Comparison of DBP Day 7.|||-4.73|-14.04|
92152919|NCT00453479|184190942|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-5.52|5.79|||||Comparison at Day 1.|||5.79|-5.52|
92152920|NCT00453479|184190942|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.39|STANDARD_ERROR_OF_MEAN|2.813|||TWO_SIDED|95.0|-3.5|8.28|||||Comparison at Day 7.|||8.28|-3.50|
92152921|NCT00453479|184190942|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.67|STANDARD_ERROR_OF_MEAN|2.869|||TWO_SIDED|95.0|-8.67|3.34|||||Comparison at Day 1.|||3.34|-8.67|
92152922|NCT00453479|184190942|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.84|STANDARD_ERROR_OF_MEAN|2.989|||TWO_SIDED|95.0|-10.1|2.41|||||Comparison at Day 7.|||2.41|-10.10|
92152923|NCT00453479|184190944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.42|STANDARD_ERROR_OF_MEAN|8.157|||TWO_SIDED|95.0|-12.66|21.49|||||Comparison of QTcB Day 1.|||21.49|-12.66|
92152924|NCT00453479|184190944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.02|STANDARD_ERROR_OF_MEAN|6.76|||TWO_SIDED|95.0|-5.13|23.17|||||Comparison of QTcB Day 7.|||23.17|-5.13|
92152925|NCT00453479|184190944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.57|STANDARD_ERROR_OF_MEAN|8.51|||TWO_SIDED|95.0|-7.24|28.38|||||Comparison of QTcB Day 1.|||28.38|-7.24|
92152926|NCT00453479|184190944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.5|STANDARD_ERROR_OF_MEAN|7.052|||TWO_SIDED|95.0|1.74|31.26|||||Comparison of QTcB Day 7.|||31.26|1.74|
92273990|NCT03593772|184450515|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00432|STANDARD_ERROR_OF_MEAN|0.009334||0.6442|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Activities of Daily Living as outcome variable. Linear mixed models were constructed with fixed effects terms for treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test if the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.6442
92273991|NCT03593772|184450515|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00898|STANDARD_ERROR_OF_MEAN|0.006436||0.1641|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Vitality as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.1641
92273992|NCT03593772|184450515|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.01952|STANDARD_ERROR_OF_MEAN|0.009846||0.0487|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Neg. Affect as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.0487
92273993|NCT03593772|184450515|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.0066|STANDARD_ERROR_OF_MEAN|0.004644||0.1554|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Fear as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.1554
92273994|NCT03593772|184450516|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00113|STANDARD_ERROR_OF_MEAN|0.000863||0.1924|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1924
92273995|NCT03593772|184450516|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.0019|STANDARD_ERROR_OF_MEAN|0.001152||0.1002|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Stress as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1002
92273996|NCT03593772|184450516|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000343|STANDARD_ERROR_OF_MEAN|0.000996||0.7311|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Tension as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7311
92336664|NCT02559570|184576084|SUPERIORITY||Least Squares Mean Difference|0.028|STANDARD_ERROR_OF_MEAN|0.146||0.8505|TWO_SIDED|95.0|-0.262|0.317|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.317|-0.262|0.8505
92152927|NCT00453479|184190944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.13|STANDARD_ERROR_OF_MEAN|8.908|||TWO_SIDED|95.0|-16.51|20.78|||||Comparison of QTcF Day 1.|||20.78|-16.51|
92152928|NCT00453479|184190944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.29|STANDARD_ERROR_OF_MEAN|5.298|||TWO_SIDED|95.0|1.2|23.38|||||Comparison of QTcF Day 7.|||23.38|1.20|
92152929|NCT00453479|184190944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.66|STANDARD_ERROR_OF_MEAN|9.171|||TWO_SIDED|95.0|-1.53|36.85|||||Comparison of QTcF Day 1.|||36.85|-1.53|
92152930|NCT00453479|184190944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.32|STANDARD_ERROR_OF_MEAN|5.454|||TWO_SIDED|95.0|10.9|33.73|||||Comparison of QTcF Day 7.|||33.73|10.90|
92152931|NCT00453479|184190945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.55|STANDARD_ERROR_OF_MEAN|5.262|||TWO_SIDED|95.0|-1.46|20.57|||||Comparison of QTcB Day 1.|||20.57|-1.46|
92152932|NCT00453479|184190945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.39|STANDARD_ERROR_OF_MEAN|5.902|||TWO_SIDED|95.0|-3.97|20.74|||||Comparison of QTcB Day 7.|||20.74|-3.97|
92152933|NCT00453479|184190945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.47|STANDARD_ERROR_OF_MEAN|5.49|||TWO_SIDED|95.0|-0.02|22.96|||||Comparison of QTcB Day 1.|||22.96|-0.02|
92152934|NCT00453479|184190945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.28|STANDARD_ERROR_OF_MEAN|6.157|||TWO_SIDED|95.0|2.39|28.17|||||Comparison of QTcB Day 7.|||28.17|2.39|
92152935|NCT00453479|184190945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.32|STANDARD_ERROR_OF_MEAN|4.622|||TWO_SIDED|95.0|-1.35|18.0|||||Comparison of QTcF Day 1.|||18.00|-1.35|
92152936|NCT00453479|184190945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.75|STANDARD_ERROR_OF_MEAN|5.239|||TWO_SIDED|95.0|-2.21|19.72|||||Comparison of QTcF Day 7.|||19.72|-2.21|
92152937|NCT00453479|184190945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.83|STANDARD_ERROR_OF_MEAN|4.759|||TWO_SIDED|95.0|6.87|26.79|||||Comparison of QTcF Day 1.|||26.79|6.87|
92273997|NCT03593772|184450517|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00241|STANDARD_ERROR_OF_MEAN|0.001716||0.1622|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1622
92273998|NCT03593772|184450517|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00235|STANDARD_ERROR_OF_MEAN|0.002052||0.254|TWO_SIDED||||||Mixed Models Analysis|||Analysis performed on Pain Interference with Activity as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2540
92398066|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|5.84||||0.0066|TWO_SIDED|95.0|1.64|20.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||20.89|1.64|0.0066
92398067|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.06||||0.0466|TWO_SIDED|95.0|1.02|9.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.18|1.02|0.0466
92152938|NCT00453479|184190945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.46|STANDARD_ERROR_OF_MEAN|5.394|||TWO_SIDED|95.0|9.17|31.75|||||Comparison of QTcF Day 7.|||31.75|9.17|
92152939|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|STANDARD_ERROR_OF_MEAN|0.0921|||TWO_SIDED|95.0|-0.035|0.328|||||Comparison of FEV1, Day 1, 1 hour|||0.328|-0.035|
92152940|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.171|STANDARD_ERROR_OF_MEAN|0.0944|||TWO_SIDED|95.0|-0.015|0.357|||||Comparison of FEV1, Day 1, 2 hour|||0.357|-0.015|
92152941|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.085|||TWO_SIDED|95.0|-0.107|0.228|||||Comparison of FEV1, Day 1, 4 hour|||0.228|-0.107|
92214608|NCT04697264|184329111|OTHER||||||<|0.0001||||||Adjustments to the p-values for multiple comparison were performed using the Benjamini and Hochberg approach in 'R'.|Regression, Linear|||To compare biomarker levels between study and control populations, a linear regression model was used, adjusting for BMI, diabetes, and parity, which are the unmatched factors between the study and control groups. This adjustment aimed to mitigate the confounding impact of these factors, considering their individual influence on the risk of endometrial cancer.||||<0.0001
92152942|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.1195|||TWO_SIDED|95.0|-0.085|0.386|||||Comparison of FEV1, Day 1, 9 hour|||0.386|-0.085|
92152943|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.124|STANDARD_ERROR_OF_MEAN|0.1107|||TWO_SIDED|95.0|-0.094|0.343|||||Comparison of FEV1, Day 1, 12 hour|||0.343|-0.094|
92273999|NCT03593772|184450517|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00612|STANDARD_ERROR_OF_MEAN|0.002297||0.0082|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain Interference with Sleep as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0082
92152944|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.163|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|95.0|-0.077|0.404|||||Comparison of FEV1, Day 1, 24 hour|||0.404|-0.077|
92152945|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.236|STANDARD_ERROR_OF_MEAN|0.1057|||TWO_SIDED|95.0|0.027|0.444|||||Comparison of FEV1, Day 7, Baseline|||0.444|0.027|
92152946|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.229|STANDARD_ERROR_OF_MEAN|0.1292|||TWO_SIDED|95.0|-0.026|0.483|||||Comparison of FEV1, Day 7, 1 hour|||0.483|-0.026|
92152947|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.095|STANDARD_ERROR_OF_MEAN|0.1309|||TWO_SIDED|95.0|-0.163|0.353|||||Comparison of FEV1, Day 7, 2 hour|||0.353|-0.163|
92398068|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.92||||0.8769|TWO_SIDED|95.0|0.34|2.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||2.53|0.34|0.8769
92152948|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.173|STANDARD_ERROR_OF_MEAN|0.1243|||TWO_SIDED|95.0|-0.072|0.418|||||Comparison of FEV1, Day 7, 4 hour|||0.418|-0.072|
92152949|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.205|STANDARD_ERROR_OF_MEAN|0.1499|||TWO_SIDED|95.0|-0.09|0.501|||||Comparison of FEV1, Day 7, 9 hour|||0.501|-0.090|
92152950|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.143|||TWO_SIDED|95.0|-0.062|0.502|||||Comparison of FEV1, Day 7, 12 hour|||0.502|-0.062|
92152951|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.206|STANDARD_ERROR_OF_MEAN|0.152|||TWO_SIDED|95.0|-0.093|0.506|||||Comparison of FEV1, Day 7, 24 hour|||0.506|-0.093|
92152952|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.206|STANDARD_ERROR_OF_MEAN|0.097|||TWO_SIDED|95.0|0.015|0.397|||||Comparison of FEV1, Day 1, 1 hour|||0.397|0.015|
92152953|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.329|STANDARD_ERROR_OF_MEAN|0.0994|||TWO_SIDED|95.0|0.133|0.525|||||Comparison of FEV1, Day 1, 2 hour|||0.525|0.133|
92152954|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.266|STANDARD_ERROR_OF_MEAN|0.0895|||TWO_SIDED|95.0|0.09|0.443|||||Comparison of FEV1, Day 1, 4 hour|||0.443|0.090|
92152955|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.32|STANDARD_ERROR_OF_MEAN|0.1258|||TWO_SIDED|95.0|0.072|0.568|||||Comparison of FEV1, Day 1, 9 hour|||0.568|0.072|
92152956|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.172|STANDARD_ERROR_OF_MEAN|0.1165|||TWO_SIDED|95.0|-0.058|0.402|||||Comparison of FEV1, Day 1, 12 hour|||0.402|-0.058|
92152957|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.154|STANDARD_ERROR_OF_MEAN|0.1285|||TWO_SIDED|95.0|-0.099|0.407|||||Comparison of FEV1, Day 1, 24 hour|||0.407|-0.099|
92152958|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.256|STANDARD_ERROR_OF_MEAN|0.1113|||TWO_SIDED|95.0|0.036|0.475|||||Comparison of FEV1, Day 7, Baseline|||0.475|0.036|
92274000|NCT03593772|184450517|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00636|STANDARD_ERROR_OF_MEAN|0.002378||0.0079|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain Interference with Mood as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0079
92336665|NCT02559570|184576084|SUPERIORITY||Least Squares Mean Difference|0.039|STANDARD_ERROR_OF_MEAN|0.149||0.7933|TWO_SIDED|95.0|-0.254|0.332|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.332|-0.254|0.7933
92152959|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.296|STANDARD_ERROR_OF_MEAN|0.1361|||TWO_SIDED|95.0|0.027|0.564|||||Comparison of FEV1, Day 7, 1 hour|||0.564|0.027|
92152960|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.202|STANDARD_ERROR_OF_MEAN|0.1378|||TWO_SIDED|95.0|-0.069|0.474|||||Comparison of FEV1, Day 7, 2 hour|||0.474|-0.069|
92152961|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.207|STANDARD_ERROR_OF_MEAN|0.1309|||TWO_SIDED|95.0|-0.051|0.465|||||Comparison of FEV1, Day 7, 4 hour|||0.465|-0.051|
92152962|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.1579|||TWO_SIDED|95.0|-0.032|0.591|||||Comparison of FEV1, Day 7, 9 hour|||0.591|-0.032|
92152963|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.193|STANDARD_ERROR_OF_MEAN|0.1506|||TWO_SIDED|95.0|-0.104|0.49|||||Comparison of FEV1, Day 7, 12 hour|||0.490|-0.104|
92152964|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.1601|||TWO_SIDED|95.0|-0.136|0.495|||||Comparison of FEV1, Day 7, 24 hour|||0.495|-0.136|
92152965|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.137|STANDARD_ERROR_OF_MEAN|0.2029|||TWO_SIDED|95.0|-0.263|0.537|||||Comparison of FVC, Day 1, 1 hour|||0.537|-0.263|
92152966|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.131|STANDARD_ERROR_OF_MEAN|0.1965|||TWO_SIDED|95.0|-0.257|0.518|||||Comparison of FVC, Day 1, 2 hour|||0.518|-0.257|
92152967|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.038|STANDARD_ERROR_OF_MEAN|0.1908|||TWO_SIDED|95.0|-0.414|0.338|||||Comparison of FVC, Day 1, 4 hour|||0.338|-0.414|
92152968|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.2013|||TWO_SIDED|95.0|-0.337|0.457|||||Comparison of FVC, Day 1, 9 hour|||0.457|-0.337|
92152969|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.115|STANDARD_ERROR_OF_MEAN|0.2322|||TWO_SIDED|95.0|-0.343|0.572|||||Comparison of FVC, Day 1, 12 hour|||0.572|-0.343|
92152970|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.115|STANDARD_ERROR_OF_MEAN|0.1988|||TWO_SIDED|95.0|-0.277|0.507|||||Comparison of FVC, Day 1, 24 hour|||0.507|-0.277|
92152971|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.362|STANDARD_ERROR_OF_MEAN|0.2801|||TWO_SIDED|95.0|-0.19|0.914|||||Comparison of FVC, Day 7, Baseline|||0.914|-0.190|
92152972|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.269|STANDARD_ERROR_OF_MEAN|0.2696|||TWO_SIDED|95.0|-0.263|0.8|||||Comparison of FVC, Day 7, 1 hour|||0.800|-0.263|
92152973|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.021|STANDARD_ERROR_OF_MEAN|0.2648|||TWO_SIDED|95.0|-0.501|0.543|||||Comparison of FVC, Day 7, 2 hour|||0.543|-0.501|
92152974|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.177|STANDARD_ERROR_OF_MEAN|0.2606|||TWO_SIDED|95.0|-0.337|0.691|||||Comparison of FVC, Day 7, 4 hour|||0.691|-0.337|
92152975|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.266|STANDARD_ERROR_OF_MEAN|0.2684|||TWO_SIDED|95.0|-0.263|0.795|||||Comparison of FVC, Day 7, 9 hour|||0.795|-0.263|
92336666|NCT02559570|184576085|SUPERIORITY||Least Squares Mean Difference|-0.425|STANDARD_ERROR_OF_MEAN|0.45||0.3461|TWO_SIDED|95.0|-1.313|0.463|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.463|-1.313|0.3461
92152976|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.367|STANDARD_ERROR_OF_MEAN|0.2923|||TWO_SIDED|95.0|-0.209|0.943|||||Comparison of FVC, Day 7, 12 hour|||0.943|-0.209|
92152977|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.242|STANDARD_ERROR_OF_MEAN|0.2665|||TWO_SIDED|95.0|-0.283|0.768|||||Comparison of FVC, Day 7, 24 hour|||0.768|-0.283|
92152978|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.152|STANDARD_ERROR_OF_MEAN|0.2106|||TWO_SIDED|95.0|-0.263|0.567|||||Comparison of FVC, Day 1, 1 hour|||0.567|-0.263|
92152979|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.321|STANDARD_ERROR_OF_MEAN|0.2039|||TWO_SIDED|95.0|-0.081|0.723|||||Comparison of FVC, Day 1, 2 hour|||0.723|-0.081|
92152980|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.311|STANDARD_ERROR_OF_MEAN|0.1981|||TWO_SIDED|95.0|-0.079|0.701|||||Comparison of FVC, Day 1, 4 hour|||0.701|-0.079|
92152981|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.348|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|95.0|-0.064|0.76|||||Comparison of FVC, Day 1, 9 hour|||0.760|-0.064|
92152982|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.245|STANDARD_ERROR_OF_MEAN|0.241|||TWO_SIDED|95.0|-0.23|0.72|||||Comparison of FVC, Day 1, 12 hour|||0.720|-0.230|
92336667|NCT02559570|184576085|SUPERIORITY||Least Squares Mean Difference|-0.235|STANDARD_ERROR_OF_MEAN|0.435||0.5892|TWO_SIDED|95.0|-1.095|0.624|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.624|-1.095|0.5892
92152983|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.162|STANDARD_ERROR_OF_MEAN|0.2063|||TWO_SIDED|95.0|-0.245|0.569|||||Comparison of FVC, Day 1, 24 hour|||0.569|-0.245|
92152984|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.535|STANDARD_ERROR_OF_MEAN|0.2907|||TWO_SIDED|95.0|-0.038|1.108|||||Comparison of FVC, Day 7, Baseline|||1.108|-0.038|
92152985|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.623|STANDARD_ERROR_OF_MEAN|0.2798|||TWO_SIDED|95.0|0.072|1.175|||||Comparison of FVC, Day 7, 1 hour|||1.175|0.072|
92152986|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.459|STANDARD_ERROR_OF_MEAN|0.2748|||TWO_SIDED|95.0|-0.083|1.0|||||Comparison of FVC, Day 7, 2 hour|||1.000|-0.083|
92152987|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.464|STANDARD_ERROR_OF_MEAN|0.2705|||TWO_SIDED|95.0|-0.069|0.997|||||Comparison of FVC, Day 7, 4 hour|||0.997|-0.069|
92398069|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.37||||0.5448|TWO_SIDED|95.0|0.49|3.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.82|0.49|0.5448
92152988|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.445|STANDARD_ERROR_OF_MEAN|0.2786|||TWO_SIDED|95.0|-0.104|0.994|||||Comparison of FVC, Day 7, 9 hour|||0.994|-0.104|
92152989|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.284|STANDARD_ERROR_OF_MEAN|0.3034|||TWO_SIDED|95.0|-0.314|0.882|||||Comparison of FVC, Day 7, 12 hour|||0.882|-0.314|
92152990|NCT00453479|184190946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.384|STANDARD_ERROR_OF_MEAN|0.2766|||TWO_SIDED|95.0|-0.162|0.929|||||Comparison of FVC, Day 7, 24 hour|||0.929|-0.162|
92152991|NCT00453479|184190951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.233|STANDARD_ERROR_OF_MEAN|3.3333|||TWO_SIDED|95.0|-4.743|9.21|||||Comparison of maximum heart rate Day 1.|||9.210|-4.743|
92152992|NCT00453479|184190951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.73|STANDARD_ERROR_OF_MEAN|8.0907|||TWO_SIDED|95.0|-11.2|22.664|||||Comparison of maximum heart rate Day 7.|||22.664|-11.200|
92152993|NCT00453479|184190951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.272|STANDARD_ERROR_OF_MEAN|3.239|||TWO_SIDED|95.0|-8.051|5.507|||||Comparison of maximum heart rate Day 1.|||5.507|-8.051|
92152994|NCT00453479|184190951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.988|STANDARD_ERROR_OF_MEAN|7.8616|||TWO_SIDED|95.0|-15.47|17.443|||||Comparison of maximum heart rate Day 7.|||17.443|-15.470|
92274001|NCT03593772|184450517|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00334|STANDARD_ERROR_OF_MEAN|0.002367||0.1588|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain Interference with Stress as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1588
92274002|NCT03593772|184450518|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00974|STANDARD_ERROR_OF_MEAN|0.01379||0.4808|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PCL-5 Total Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.4808
92274003|NCT03593772|184450519|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00033|STANDARD_ERROR_OF_MEAN|0.00856||0.9692|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Physical Health Domain Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9692
92398070|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.57||||0.4125|TWO_SIDED|95.0|0.53|4.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.64|0.53|0.4125
92152995|NCT00453479|184190951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.734|STANDARD_ERROR_OF_MEAN|3.441|||TWO_SIDED|95.0|-4.468|9.936|||||Comparison of mean heart rate Day 1.|||9.936|-4.468|
92152996|NCT00453479|184190951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.783|STANDARD_ERROR_OF_MEAN|2.9409|||TWO_SIDED|95.0|-1.372|10.938|||||Comparison of mean heart rate Day 7.|||10.938|-1.372|
92152997|NCT00453479|184190951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.074|STANDARD_ERROR_OF_MEAN|3.3103|||TWO_SIDED|95.0|-8.003|5.854|||||Comparison of mean heart rate Day 1.|||5.854|-8.003|
92152998|NCT00453479|184190951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.569|STANDARD_ERROR_OF_MEAN|2.8291|||TWO_SIDED|95.0|-4.353|7.49|||||Comparison of mean heart rate Day 7.|||7.490|-4.353|
92152999|NCT00453479|184190955|SUPERIORITY_OR_OTHER||Ratio|1.139|STANDARD_ERROR_OF_MEAN|0.1939|||TWO_SIDED|90.0|0.811|1.601|||||SE logs is presented as standard error of mean. Comparison of GSK233705 50 µg twice daily Day 7 versus Day 1.|||1.601|0.811|
92153000|NCT00453479|184190955|SUPERIORITY_OR_OTHER||Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.2057|||TWO_SIDED|90.0|0.739|1.52|||||SE logs is presented as standard error of mean. Comparison of GSK233705 100 µg twice daily Day 7 versus Day 1.|||1.520|0.739|
92153001|NCT00453479|184190956|SUPERIORITY_OR_OTHER||Ratio|1.408|STANDARD_ERROR_OF_MEAN|0.234|||TWO_SIDED|90.0|0.934|2.122|||||SE logs is presented as standard error of mean. Comparison of Cmax AM dose for GSK233705 50 µg twice daily Day 7 versus Day 1.|||2.122|0.934|
92398071|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.36||||0.05|TWO_SIDED|95.0|1.0|11.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||11.30|1.00|0.0500
92398072|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.32||||0.6167|TWO_SIDED|95.0|0.45|3.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.87|0.45|0.6167
92153002|NCT00453479|184190956|SUPERIORITY_OR_OTHER||Ratio|1.19|STANDARD_ERROR_OF_MEAN|0.2482|||TWO_SIDED|90.0|0.77|1.838|||||SE logs is presented as standard error of mean. Comparison of Cmax AM dose for GSK233705 100 µg twice daily Day 7 versus Day 1.|||1.838|0.770|
92153003|NCT00453479|184190956|SUPERIORITY_OR_OTHER||Ratio|0.979|STANDARD_ERROR_OF_MEAN|0.2269|||TWO_SIDED|90.0|0.658|1.457|||||SE logs is presented as standard error of mean. Comparison of Cmax PM dose for GSK233705 50 µg twice daily Day 7 versus Day 1.|||1.457|0.658|
92398073|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0233|TWO_SIDED|95.0|1.21|13.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||13.26|1.21|0.0233
92398074|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0803|TWO_SIDED|95.0|0.89|8.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.09|0.89|0.0803
92398075|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.64||||0.1274|TWO_SIDED|95.0|0.76|9.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.18|0.76|0.1274
92398076|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.05||||0.9445|TWO_SIDED|95.0|0.29|3.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.71|0.29|0.9445
92398077|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.69||||0.4204|TWO_SIDED|95.0|0.47|6.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.03|0.47|0.4204
92398078|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.78||||0.1315|TWO_SIDED|95.0|0.74|10.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||10.49|0.74|0.1315
92398079|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|3.24||||0.0944|TWO_SIDED|95.0|0.82|12.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||12.87|0.82|0.0944
92398080|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.99||||0.2801|TWO_SIDED|95.0|0.57|6.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.89|0.57|0.2801
92398081|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.44||||0.1524|TWO_SIDED|95.0|0.72|8.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||8.30|0.72|0.1524
92398082|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.38||||0.6129|TWO_SIDED|95.0|0.4|4.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.75|0.40|0.6129
92398083|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.63||||0.4617|TWO_SIDED|95.0|0.18|2.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.18|0.18|0.4617
92398084|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.74||||0.6519|TWO_SIDED|95.0|0.2|2.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.70|0.20|0.6519
92398085|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.84||||0.8011|TWO_SIDED|95.0|0.22|3.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.18|0.22|0.8011
92398086|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.95||||0.3254|TWO_SIDED|95.0|0.51|7.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.41|0.51|0.3254
92398087|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|2.0||||0.273|TWO_SIDED|95.0|0.58|6.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||6.94|0.58|0.2730
92274004|NCT03593772|184450519|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.01738|STANDARD_ERROR_OF_MEAN|0.007848||0.0277|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Mental Health Domain Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0277
92274005|NCT03593772|184450520|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00188|STANDARD_ERROR_OF_MEAN|0.003253||0.5642|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total PSQI Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.5642
92336668|NCT02559570|184576085|SUPERIORITY||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.44||0.856|TWO_SIDED|95.0|-0.789|0.949|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.949|-0.789|0.8560
92336669|NCT01680653|184576121|SUPERIORITY_OR_OTHER|||||||0.106||||||In analyzing prolonged events on remote monitoring versus control, we used x squared analysis or Fisher's exact test to analyze data on 2 x 2 contingency tables. Significance was defined as P\<0.05.|Wilcoxon (Mann-Whitney)|||The study was a feasibility and preliminary safety study. As such, the sample size was not statistically derived and the protocol was not powered to provide for definitive conclusions. The study was limited to 20 participants at each camp session. A hypoglycemic event was defined as at least two consecutive CGM readings (10 mins) below the hypoglycemic threshold of \<70 mg/dL. Recovery from a hypoglycemic event required readings above threshold for \> or = 25 minutes.||||0.106
92336670|NCT01680653|184576122|SUPERIORITY_OR_OTHER|||||||0.078|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.078
92336671|NCT01680653|184576123|SUPERIORITY_OR_OTHER||Fisher's exact test|||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This is the P value for the number of events \<70 mg/dL longer than one hour||||0.003
92336672|NCT01680653|184576123|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Fisher's exact test|||This is the p value for the number of events \<70 mg/dL that were greater than 2 hours||||0.010
92336673|NCT01680653|184576123|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Fisher's exact test|||This is the p value for the number of events that were \<50 mg/dL for \> 30 minutes||||0.021
92336674|NCT01680653|184576123|SUPERIORITY_OR_OTHER|||||||0.077|TWO_SIDED||||||Fisher's exact|||This is the P value for the number of events \<50 mg/dL that were \>1 hr||||0.077
92398088|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.31||||0.6601|TWO_SIDED|95.0|0.39|4.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.41|0.39|0.6601
92153004|NCT00453479|184190956|SUPERIORITY_OR_OTHER||Ratio|1.028|STANDARD_ERROR_OF_MEAN|0.2407|||TWO_SIDED|90.0|0.674|1.568|||||SE logs is presented as standard error of mean. Comparison of Cmax PM dose for GSK233705 100 µg twice daily Day 7 versus Day 1.|||1.568|0.674|
92336675|NCT01554163|184576131|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Etoricoxib 30 mg will be considered non-inferior to celecoxib 200 mg if the upper bound of the two-sided 95% confidence interval of the betweentreatment difference in LS mean time-weighted average change from baseline over 12 weeks in WOMAC Pain Subscale (VAS) is no greater than 10 mm (non-inferiority margin).|Difference in LS Mean Change|-1.63||||0.39|TWO_SIDED|95.0|-5.37|2.1|||ANCOVA|||||2.10|-5.37|0.390
92398089|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.74||||0.6588|TWO_SIDED|95.0|0.2|2.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.76|0.20|0.6588
92153005|NCT00453479|184190958|SUPERIORITY_OR_OTHER||Ratio|2.556|STANDARD_ERROR_OF_MEAN|0.131|||TWO_SIDED|90.0|2.033|3.213|||||SE logs is presented as standard error of mean. Comparison of Ae AM dose for GSK233705 50 µg twice daily Day 7 versus Day 1.|||3.213|2.033|
92153006|NCT00453479|184190958|SUPERIORITY_OR_OTHER||Ratio|1.644|STANDARD_ERROR_OF_MEAN|0.138|||TWO_SIDED|90.0|1.29|2.095|||||SE logs is presented as standard error of mean. Comparison of Ae AM dose for GSK233705 100 µg twice daily Day 7 versus Day 1.|||2.095|1.290|
92336676|NCT01554163|184576132|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Etoricoxib 30 mg will be considered non-inferior to celecoxib 200 mg if the upper bound of the two-sided 95% confidence interval of the between-treatment difference in LS means (etoricoxib minus celecoxib) is no greater than 10 mm.|Difference in LS Mean Change|-1.32||||0.464|TWO_SIDED|95.0|-4.88|2.23|||ANCOVA|||||2.23|-4.88|0.464
92336677|NCT01554163|184576133|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Etoricoxib 30 mg will be considered non-inferior to celecoxib 200 mg if the upper bound of the two-sided 95% confidence interval of the between-treatment difference in LS means (etoricoxib minus celecoxib) is no greater than 10 mm.|Difference in LS Mean Change|-1.09||||0.624|TWO_SIDED|95.0|-5.48|3.3|||ANCOVA|||||3.30|-5.48|0.624
92336678|NCT01554163|184576134|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean Change|-0.08||||0.369|TWO_SIDED|95.0|-0.26|0.1|||ANCOVA|||||0.10|-0.26|0.369
92336679|NCT01554163|184576135|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean Change|-0.09||||0.294|TWO_SIDED|95.0|-0.25|0.08|||ANCOVA|||||0.08|-0.25|0.294
92336680|NCT01554163|184576136|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean Change|-0.86||||0.679|TWO_SIDED|95.0|-4.96|3.24|||ANCOVA|||||3.24|-4.96|0.679
92336681|NCT01554163|184576137|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean Change|-0.1||||0.314|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.10|-0.30|0.314
92153007|NCT03029780|184190961|SUPERIORITY||DIFFERENCE IN INCIDENCE RATES|0.0|||||TWO_SIDED|95.0|-12.3|12.3||||||||12.3|-12.3|
92153008|NCT03029780|184190961|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.3|3.39|||Cochran-Mantel-Haenszel|||||3.39|0.30|
92153009|NCT03029780|184190962|SUPERIORITY||DIFFERENCE IN INCIDENCE RATES|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.00|0.00|
92153010|NCT03029780|184190963|SUPERIORITY||DIFFERENCE IN INCIDENCE RATES|5.8|||||TWO_SIDED|95.0|-13.3|24.8||||||||24.8|-13.3|
92153011|NCT03029780|184190963|SUPERIORITY||Odds Ratio (OR)|1.27|||||TWO_SIDED|95.0|0.58|2.78|||Cochran-Mantel-Haenszel|||||2.78|0.58|
92153012|NCT03029780|184190964|SUPERIORITY||DIFFERENCE IN INCIDENCE RATES|7.7|||||TWO_SIDED|95.0|-10.1|25.5||||||||25.5|-10.1|
92153013|NCT03029780|184190964|SUPERIORITY||Odds Ratio (OR)|1.42|||||TWO_SIDED|95.0|0.62|3.24|||Cochran-Mantel-Haenszel|||||3.24|0.62|
92153014|NCT01763788|184190975|SUPERIORITY||Stratified Hazard Ratio|0.656||||0.0161|TWO_SIDED|95.0|0.465|0.926|||Stratified Log Rank|||||0.926|0.465|0.0161
92153015|NCT02006121|184190993|SUPERIORITY|||||||0.0047|||||||Mixed Models Analysis|||||||0.0047
92398090|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.52||||0.3257|TWO_SIDED|95.0|0.14|1.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.92|0.14|0.3257
92153016|NCT02006121|184190994|SUPERIORITY|||||||0.0022|||||||Mixed Models Analysis|||||||0.0022
92153017|NCT02006121|184190995|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92153018|NCT02006121|184190996|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||||||0.005
92153019|NCT02006121|184190997|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92153020|NCT02354859|184190998|SUPERIORITY||Difference in Proportions|5.9||||0.811|TWO_SIDED|95.0|-11.2|22.4|||Cochran-Mantel-Haenszel||The estimate is adjusted for baseline FEV1 % predicted strata (\<50% of predicted, between 50% and 70% of predicted, and \>70% of predicted).|||22.4|-11.2|0.811
92153021|NCT02354859|184190999|SUPERIORITY||Difference in Proportions-SAE inicidence|3.1||||0.807|TWO_SIDED|95.0|-10.6|16.6|||Fisher Exact||95% confidence interval calculated using the Newcombe-Wilson method without continuity correction.|||16.6|-10.6|0.807
92153022|NCT02354859|184191000|SUPERIORITY||Rate Ratio|0.81||||0.002|TWO_SIDED|95.0|0.71|0.93|||Poisson Regression|||Rate Ratio for Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks of all participants (not per participant) in the trial was as follows: in the IV Gallium group was 486.86 and in the Placebo group was 473.57.||0.93|0.71|0.002
92153023|NCT02354859|184191000|SUPERIORITY||Rate Ratio|0.89||||0.783|TWO_SIDED|95.0|0.39|2.03|||Poisson Regression|||Rate Ratio for Serious Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks in the IV Gallium group was 486.86 and in the Placebo group was 473.57.||2.03|0.39|0.783
92153024|NCT02354859|184191001|SUPERIORITY||Mean Difference (Final Values)|2.05||||0.479|TWO_SIDED|95.0|-3.66|7.77|||Mixed Models Analysis||Analysis includes all data for relative change from baseline at Day 6, Day 14, Day 28, and Day 56. Mixed-effects repeated measures model includes terms for the baseline FEV1 (liters), treatment, visit and a visit-by-visit interaction.|||7.77|-3.66|0.479
92153025|NCT02354859|184191002|SUPERIORITY||Mean Difference (Final Values)|-0.74||||0.054|TWO_SIDED|95.0|-1.49|0.01|||Mixed Models Analysis||Analysis includes all data for relative change from baseline at Day 28 and Day 56. Mixed-effects repeated measures model includes terms for the baseline Pa density (log10 (CFU)), treatment, visit and a visit-by-visit interaction.|||0.01|-1.49|0.054
92153026|NCT02354859|184191003|SUPERIORITY||Mean Difference (Final Values)|4.23||||0.053|TWO_SIDED|95.0|-0.06|8.53|||Mixed Models Analysis||Analysis includes all data for relative change from baseline at Day 6, Day 14, Day 28, and Day 56. Mixed-effects repeated measures model includes terms for the baseline CFRSD-CRISS score, treatment, visit and a visit-by-visit interaction.|||8.53|-0.06|0.053
92153027|NCT01003184|184191038|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.6|||<|0.0001|TWO_SIDED|95.0|3.17|13.73|||Regression, Logistic|Logistic regression model includes treatment group, use of SU (yes/no), baseline HbA1c and baseline weight as main factors.||"Primary objective: to test hypothesis that the percentage of patients with HbA1c ≤7.0% with weight loss (≥1.0 kg) after exenatide QW is superior to insulin detemir.~Sample size estimation: based on the test for difference in percentage between Exenatide QW and insulin detemir. Assuming: common drop-out rate 20%, response rate at endpoint 50% in the exenatide QW group and 25% in the insulin detemir group; 5% significance. 214 patients will provide 90% power to detect a difference."||13.73|3.17|<.0001
92153028|NCT01003184|184191039|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.06|||<|0.0001|TWO_SIDED|95.0|3.64|13.7|||Regression, Logistic|Logistic regression model includes the independent variables treatment group, use of SU (yes/no), baseline HbA1c and baseline weight.||||13.70|3.64|<.0001
92153029|NCT01003184|184191040|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.104||0.0001|TWO_SIDED|95.0|-0.62|-0.2|||Mixed Models Analysis|||Mixed model repeated measures (MMRM) includes baseline value as covariate, study treatment, use of SU (yes/no), week of visit and treatment-by-week interaction as fixed effects and patient and error as random effects.||-0.20|-0.62|0.0001
92153030|NCT01003184|184191041|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.67|STANDARD_ERROR_OF_MEAN|0.488|<|0.0001|TWO_SIDED|95.0|-4.63|-2.71|||Mixed Models Analysis|||Mixed model repeated measures MMRM) includes baseline value as covariate, study treatment, use of SU (yes/no), baseline HbA1c stratum, week of visit and treatment-by-week interaction as fixed effects and patient and error as random effects.||-2.71|-4.63|<.0001
92398091|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.42||||0.2229|TWO_SIDED|95.0|0.1|1.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.69|0.10|0.2229
92398092|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.43||||0.2425|TWO_SIDED|95.0|0.1|1.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.77|0.10|0.2425
92274006|NCT03593772|184450520|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00092|STANDARD_ERROR_OF_MEAN|0.00079||0.2438|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Subjective Sleep Quality Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2438
92274007|NCT03593772|184450520|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000304|STANDARD_ERROR_OF_MEAN|0.000885||0.7317|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Sleep latency Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7317
92274008|NCT03593772|184450520|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00062|STANDARD_ERROR_OF_MEAN|0.001327||0.6393|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Sleep duration Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.6393
92274009|NCT03593772|184450520|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00112|STANDARD_ERROR_OF_MEAN|0.000873||0.1995|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Sleep efficiency Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1995
92274010|NCT03593772|184450520|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00072|STANDARD_ERROR_OF_MEAN|0.000675||0.2886|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Sleep disturbance Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2886
92274011|NCT03593772|184450520|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.002048|STANDARD_ERROR_OF_MEAN|0.001356||0.1323|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Use of sleep medication Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1323
92336682|NCT02634983|184576149|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|2.11||0.0254|TWO_SIDED|90.0|1.4|8.6|||t-test, 2 sided|||Global Ventilated Lung Volume||8.60|1.40|0.0254
92398093|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9672|TWO_SIDED|95.0|0.23|4.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||4.11|0.23|0.9672
92153031|NCT01003184|184191042|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79||||0.0497|TWO_SIDED|95.0|1.0|3.18|||Regression, Logistic|||Logistic regression model includes independent variables treatment group, use of SU (yes/no), and baseline HbA1c.||3.18|1.00|0.0497
92153032|NCT01003184|184191043|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21||||0.0074|TWO_SIDED|95.0|1.24|3.96|||Regression, Logistic|||Logistic regression model includes independent variables treatment group, use of SU (yes/no), and baseline HbA1c.||3.96|1.24|0.0074
92398094|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|1.43||||0.5838|TWO_SIDED|95.0|0.4|5.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.09|0.40|0.5838
92153033|NCT01003184|184191044|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.89||||0.0002|TWO_SIDED|95.0|2.1|11.35|||Regression, Logistic|||Logistic regression model includes independent variables treatment group, use of SU (yes/no), and baseline HbA1c.||11.35|2.10|0.0002
92398095|NCT03192176|184689410|SUPERIORITY||Odds Ratio (OR)|0.95||||0.9361|TWO_SIDED|95.0|0.28|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.24|0.28|0.9361
92274012|NCT03593772|184450520|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000209|STANDARD_ERROR_OF_MEAN|0.000793||0.7923|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Daytime dysfunction Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7923
92274013|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00046|STANDARD_ERROR_OF_MEAN|0.001074||0.6679|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on COS Total Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.6679
92153034|NCT01003184|184191045|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.257||0.6993|TWO_SIDED|95.0|-0.41|0.61|||ANCOVA|||ANCOVA model includes treatment group, baseline value, use of SU (yes/no) and baseline HbA1c stratum as factors.||0.61|-0.41|0.6993
92153035|NCT01003184|184191046|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.72|STANDARD_ERROR_OF_MEAN|1.853||0.0116|TWO_SIDED|95.0|-8.37|-1.07|||Mixed Models Analysis|||Mixed model repeated measures (MMRM) includes baseline value as covariate, study treatment, use of SU (yes/no), baseline HbA1c stratum, week of visit and treatment-by-week interaction as fixed effects and patient and error as random effects.||-1.07|-8.37|0.0116
92153036|NCT01003184|184191047|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|1.179||0.7034|TWO_SIDED|95.0|-2.77|1.88|||Mixed Models Analysis|||Mixed model repeated measures (MMRM) includes baseline value as covariate, study treatment, use of SU (yes/no), baseline HbA1c stratum, week of visit and treatment-by-week interaction as fixed effects and patient and error as random effects.||1.88|-2.77|0.7034
92153037|NCT01003184|184191048|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.1061|TWO_SIDED|95.0|-0.32|0.03|||ANCOVA|||ANCOVA model includes treatment group, baseline value, use of SU (yes/no) and baseline HbA1c stratum as factors.||0.03|-0.32|0.1061
92153038|NCT01003184|184191049|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.4638|TWO_SIDED|95.0|-0.05|0.02|||ANCOVA|||ANCOVA model includes treatment group, baseline value, use of SU (yes/no) and baseline HbA1c stratum as factors.||0.02|-0.05|0.4638
92153039|NCT01003184|184191050|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.107||0.4967|TWO_SIDED|95.0|-0.14|0.28|||ANCOVA|||ANCOVA model includes treatment group, baseline value, use of SU (yes/no) and baseline HbA1c stratum as factors.||0.28|-0.14|0.4967
92153040|NCT01003184|184191051|SUPERIORITY_OR_OTHER||Ratio|0.58|STANDARD_ERROR_OF_MEAN|0.322||0.3247|TWO_SIDED|95.0|0.19|1.72|||Poisson regression|||The number of episodes by patient were compared between treatment groups using a poisson model with effects for treatment and baseline HbA1c and the logarithm of the days of exposure as the offset variable.||1.72|0.19|0.3247
92153041|NCT05266963|184191093|SUPERIORITY|Statistical analysis will be performed using a paired samples Wilcoxon test to compare differences between the two groups.||||||0.43|||||||Wilcoxon (Mann-Whitney)|Wilcoxon matched-pairs||||||0.43
92153042|NCT05266963|184191094|SUPERIORITY|Statistical analysis will be performed using a standard two-tailed t test to compare differences between the two groups.||||||0.52|||||||t-test, 2 sided|||||||0.52
92153043|NCT00152971|184191095|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 9.2% on the absolute risk difference scale|Risk Difference (Percentage)|5.8||||0.0234||95.0|0.8|10.8||Hierarchical testing procedure: first non-inferiority, second superiority|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||10.8|0.8|0.0234
92153044|NCT00152971|184191095|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 9.2% on the absolute risk difference scale|Risk Difference (Percentage)|8.4||||0.0009||95.0|3.4|13.3||Hierarchical testing procedure: first non-inferiority, second superiority|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||13.3|3.4|0.0009
92153045|NCT00152971|184191096|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|1.2||||0.2139||95.0|-0.7|3.0|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||3.0|-0.7|0.2139
92153046|NCT00152971|184191096|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.8||||0.3628||95.0|-0.9|2.5|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.5|-0.9|0.3628
92153047|NCT00152971|184191097|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.9||||0.2309||95.0|-0.6|2.5|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.5|-0.6|0.2309
92153048|NCT00152971|184191097|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|1.5||||0.0602||95.0|-0.1|3.2|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||3.2|-0.1|0.0602
92153049|NCT00152971|184191098|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|5.9||||0.0194||95.0|1.0|10.9|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||10.9|1.0|0.0194
92153050|NCT00152971|184191098|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|8.9||||0.0004||95.0|4.0|13.9|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||13.9|4.0|0.0004
92153051|NCT00152971|184191099|SUPERIORITY_OR_OTHER|||||||0.5774||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.5774
92153052|NCT00152971|184191099|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
92153053|NCT00152971|184191100|SUPERIORITY_OR_OTHER|||||||0.7724||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.7724
92153054|NCT00152971|184191100|SUPERIORITY_OR_OTHER|||||||0.0308||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0308
92153055|NCT00152971|184191101|SUPERIORITY_OR_OTHER|||||||0.4968||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.4968
92153056|NCT00152971|184191101|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
92153057|NCT00152971|184191103|SUPERIORITY_OR_OTHER|||||||0.1416||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.1416
92153058|NCT00152971|184191103|SUPERIORITY_OR_OTHER|||||||0.0942||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0942
92153059|NCT04091360|184191108|OTHER||GeoMean Ratio|1.221|||<|0.0001|TWO_SIDED|95.0|1.163|1.281|||ANCOVA|||||1.281|1.163|<0.0001
92153060|NCT04091360|184191108|OTHER||GeoMean Ratio|1.203|||<|0.0001|TWO_SIDED|95.0|1.146|1.263|||ANCOVA|||||1.263|1.146|<0.0001
92153061|NCT04091360|184191108|OTHER||GeoMean Ratio|1.139|||<|0.0001|TWO_SIDED|95.0|1.085|1.195|||ANCOVA|||||1.195|1.085|<0.0001
92153062|NCT04091360|184191109|OTHER||GeoMean Ratio|1.253|||<|0.0001|TWO_SIDED|95.0|1.151|1.363|||ANCOVA|||||1.363|1.151|<0.0001
92153063|NCT04091360|184191109|OTHER||GeoMean Ratio|1.146||||0.0022|TWO_SIDED|95.0|1.054|1.246|||ANCOVA|||||1.246|1.054|0.0022
92153064|NCT04091360|184191109|OTHER||GeoMean Ratio|1.102||||0.0295|TWO_SIDED|95.0|1.01|1.202|||ANCOVA|||||1.202|1.010|0.0295
92153065|NCT04091360|184191109|OTHER||GeoMean Ratio|1.129||||0.0098|TWO_SIDED|95.0|1.032|1.235|||ANCOVA|||||1.235|1.032|0.0098
92153066|NCT04091360|184191109|OTHER||GeoMean Ratio|1.028||||0.54|TWO_SIDED|95.0|0.939|1.125|||ANCOVA|||||1.125|0.939|0.54
92153067|NCT04091360|184191110|OTHER||GeoMean Ratio|1.228|||<|0.0001|TWO_SIDED|95.0|1.142|1.319|||ANCOVA|||||1.319|1.142|<0.0001
92153068|NCT04091360|184191110|OTHER||GeoMean Ratio|1.155||||0.0002|TWO_SIDED|95.0|1.075|1.24|||ANCOVA|||||1.240|1.075|0.0002
92153069|NCT04091360|184191110|OTHER||GeoMean Ratio|1.1||||0.0129|TWO_SIDED|95.0|1.022|1.184|||ANCOVA|||||1.184|1.022|0.0129
92153070|NCT04091360|184191110|OTHER||GeoMean Ratio|1.112||||0.0079|TWO_SIDED|95.0|1.03|1.201|||ANCOVA|||||1.201|1.030|0.0079
92274014|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001083|STANDARD_ERROR_OF_MEAN|0.000769||0.1607|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on COS Total Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1607
92274015|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000984|STANDARD_ERROR_OF_MEAN|0.00064||0.126|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS- Total as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1260
92153071|NCT04091360|184191110|OTHER||GeoMean Ratio|1.033||||0.39|TWO_SIDED|95.0|0.957|1.116|||ANCOVA|||||1.116|0.957|0.39
92153072|NCT04091360|184191111|OTHER||GeoMean Ratio|1.137|||<|0.0001|TWO_SIDED|95.0|1.073|1.204|||ANCOVA|||||1.204|1.073|<0.0001
92153073|NCT04091360|184191111|OTHER||GeoMean Ratio|1.091||||0.0041|TWO_SIDED|95.0|1.03|1.155|||ANCOVA|||||1.155|1.030|0.0041
92153074|NCT04091360|184191111|OTHER||GeoMean Ratio|1.019||||0.53|TWO_SIDED|95.0|0.96|1.081|||ANCOVA|||||1.081|0.960|0.53
92153075|NCT04091360|184191119|OTHER||GeoMean Ratio|1.21|||<|0.0001|TWO_SIDED|95.0|1.153|1.27|||ANCOVA|||||1.270|1.153|<0.0001
92153076|NCT04091360|184191119|OTHER||GeoMean Ratio|1.193|||<|0.0001|TWO_SIDED|95.0|1.136|1.252|||ANCOVA|||||1.252|1.136|<0.0001
92153077|NCT04091360|184191119|OTHER||GeoMean Ratio|1.124|||<|0.0001|TWO_SIDED|95.0|1.071|1.179|||ANCOVA|||||1.179|1.071|<0.0001
92153078|NCT04091360|184191120|OTHER||GeoMean Ratio|1.139|||<|0.0001|TWO_SIDED|95.0|1.087|1.194|||ANCOVA|||||1.194|1.087|<0.0001
92153079|NCT04091360|184191120|OTHER||GeoMean Ratio|1.142|||<|0.0001|TWO_SIDED|95.0|1.089|1.197|||ANCOVA|||||1.197|1.089|<0.0001
92153080|NCT04091360|184191120|OTHER||GeoMean Ratio|1.08||||0.0018|TWO_SIDED|95.0|1.031|1.132|||ANCOVA|||||1.132|1.031|0.0018
92153081|NCT04091360|184191121|OTHER||GeoMean Ratio|1.08||||0.0066|TWO_SIDED|95.0|1.022|1.14|||ANCOVA|||||1.140|1.022|0.0066
92153082|NCT04091360|184191121|OTHER||GeoMean Ratio|1.074||||0.0115|TWO_SIDED|95.0|1.017|1.134|||ANCOVA|||||1.134|1.017|0.0115
92153083|NCT04091360|184191121|OTHER||GeoMean Ratio|1.037||||0.18|TWO_SIDED|95.0|0.982|1.096|||ANCOVA|||||1.096|0.982|0.18
92153084|NCT04091360|184191122|OTHER||GeoMean Ratio|1.162|||<|0.0001|TWO_SIDED|95.0|1.122|1.203|||ANCOVA|||||1.203|1.122|<0.0001
92153085|NCT04091360|184191122|OTHER||GeoMean Ratio|1.15|||<|0.0001|TWO_SIDED|95.0|1.111|1.19|||ANCOVA|||||1.190|1.111|<0.0001
92153086|NCT04091360|184191122|OTHER||GeoMean Ratio|1.112|||<|0.0001|TWO_SIDED|95.0|1.074|1.152|||ANCOVA|||||1.152|1.074|<0.0001
92153087|NCT04091360|184191123|OTHER||GeoMean Ratio|1.157|||<|0.0001|TWO_SIDED|95.0|1.119|1.196|||ANCOVA|||||1.196|1.119|<0.0001
92153088|NCT04091360|184191123|OTHER||GeoMean Ratio|1.147|||<|0.0001|TWO_SIDED|95.0|1.11|1.186|||ANCOVA|||||1.186|1.110|<0.0001
92153089|NCT04091360|184191123|OTHER||GeoMean Ratio|1.105|||<|0.0001|TWO_SIDED|95.0|1.068|1.142|||ANCOVA|||||1.142|1.068|<0.0001
92153090|NCT04091360|184191124|OTHER||GeoMean Ratio|1.098|||<|0.0001|TWO_SIDED|95.0|1.059|1.137|||ANCOVA|||||1.137|1.059|<0.0001
92153091|NCT04091360|184191124|OTHER||GeoMean Ratio|1.111|||<|0.0001|TWO_SIDED|95.0|1.072|1.15|||ANCOVA|||||1.150|1.072|<0.0001
92153092|NCT04091360|184191124|OTHER||GeoMean Ratio|1.07||||0.0003|TWO_SIDED|5.0|1.033|1.109|||ANCOVA|||||1.109|1.033|0.0003
92214609|NCT04697264|184329112|OTHER||||||>|0.05||||||Adjustments to the p-values for multiple comparison were performed using the Benjamini and Hochberg approach in 'R'.|Regression, Linear|||To compare biomarker levels between study and control populations, a linear regression model was used, adjusting for BMI, diabetes, and parity, which are the unmatched factors between the study and control groups. This adjustment aimed to mitigate the confounding impact of these factors, considering their individual influence on the risk of endometrial cancer.||||>0.05
92153093|NCT04091360|184191125|OTHER||Median Difference (Final Values)|8.5||||0.47|TWO_SIDED||||||Hodges-Lehmann|||||||0.47
92153094|NCT04091360|184191125|OTHER||Mean Difference (Final Values)|18.0||||0.0059|TWO_SIDED||||||Hodges-Lehmann|||||||0.0059
92214610|NCT04697264|184329113|OTHER||||||<|0.05||||||Adjustments to the p-values for multiple comparison were performed using the Benjamini and Hochberg approach in 'R'.|Regression, Linear|||To compare biomarker levels between study and control populations, a linear regression model was used, adjusting for BMI, diabetes, and parity, which are the unmatched factors between the study and control groups. This adjustment aimed to mitigate the confounding impact of these factors, considering their individual influence on the risk of endometrial cancer.||||<0.05
92214611|NCT04697264|184329114|OTHER||||||>|0.05||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the associations between adiponectin and the BMI of the study population at baseline."||||>0.05
92214612|NCT04697264|184329114|OTHER|||||||0.09||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the associations between leptin and the BMI of the study population at baseline."||||0.09
92214613|NCT04697264|184329114|OTHER||||||>|0.05||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the association between IL6, TNFα, IGF1, and IGF2 and the BMI of the study population at baseline."||||>0.05
92214614|NCT04697264|184329115|OTHER|||||||0.004||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the associations between adiponectin and the BMI of the control population at baseline."||||0.004
92214615|NCT04697264|184329115|OTHER|||||||0.0002||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the associations between leptin and the BMI of the control population at baseline."||||0.0002
92214616|NCT04697264|184329115|OTHER||||||>|0.05||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the associations between IL6, TNFα, IGF1, and IGF2 and the BMI of the control population at baseline."||||>0.05
92214617|NCT04697264|184329116|OTHER|||||||0.0007||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Mixed Models Analysis|||||||0.0007
92214618|NCT04697264|184329117|OTHER||||||>|0.05||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Mixed Models Analysis|||Leptin levels were compared between the day 0 and 6 months post-operative bloods.||||>0.05
92214619|NCT04697264|184329117|OTHER|||||||0.004||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Mixed Models Analysis|||IGF1 levels were compared between the day 0 and 6 months post-operative bloods.||||0.004
92214620|NCT04697264|184329117|OTHER||||||<|0.0001||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Mixed Models Analysis|||IGF2 levels were compared between the day 0 and 6 months post-operative bloods.||||<0.0001
92214621|NCT04697264|184329119|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Expression of adiponectin was studied in endometrial cancer tissue and fat tissue using qRT-PCR.||||<0.0001
92214622|NCT04697264|184329119|OTHER||||||<|0.05|||||||t-test, 2 sided|||Expression of leptin and their receptors were studied in endometrial cancer tissue and fat tissue using qRT-PCR.||||<0.05
92214623|NCT04697264|184329119|OTHER||||||>|0.05|||||||t-test, 2 sided|||Expression of adiponectin receptors were studied in endometrial cancer tissue and fat tissue using qRT-PCR.||||>0.05
92214624|NCT04697264|184329120|OTHER|||||||0.0002|||||||t-test, 2 sided|||Expression of adiponectin was studied in endometrial cancer tissue and lymph node tissue using qRT-PCR.||||0.0002
92214625|NCT04697264|184329120|OTHER|||||||0.011|||||||t-test, 2 sided|||Expression of leptin was studied in endometrial cancer tissue and lymphnode tissue using qRT-PCR.||||0.011
92214626|NCT04697264|184329120|OTHER|||||||0.009|||||||t-test, 2 sided|||The expression of IL6 receptor (IL6R) was studied in endometrial cancer tissue and lymphnode tissue using qRT-PCR.||||0.009
92214627|NCT04697264|184329120|OTHER||||||>|0.05|||||||t-test, 2 sided|||The expression of adiponectin receptor, leptin receptor, IGF1 and IGF 2 receptors, IL6, TNF, IGF1 and IGF2 were studied in endometrial cancer tissue and lymphnode tissue using qRT-PCR.||||>0.05
92153095|NCT02597933|184191133|OTHER||Mean Difference (Final Values)|40.95|STANDARD_ERROR_OF_MEAN|19.38||0.035|TWO_SIDED|95.0|2.88|79.01|||random coefficient regression||The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.|The primary analysis is a restricted maximum likelihood (REML) based approach using a random slope \& intercept model. The analysis included the fixed, categorical effects of treatment, ATA status \& gender, fixed continuous effects of time \& baseline FVC (mL), age and height as well as the treatment-by time \& baseline-by-time interactions. Random effects was included for patient response for both time \& intercept.Within-patient errors are modelled by an unstructured variance-covariance matrix||79.01|2.88|0.0350
92153096|NCT02597933|184191133|OTHER||Mean Difference (Final Values)|43.13||||0.0378|TWO_SIDED|95.0|2.44|83.83|||random coefficient regression|The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||"This is a sensitivity analysis (SA) on primary endpoint including only on-trt measurements of FVC \[mL\]. The random coefficient model was used. The analysis included fixed, categorical effects of trt, ATA status \& gender, fixed continuous effects of time \& bl. FVC (mL), age, height, trt -by time \& bl.-by-time interactions. Random effects included for patient response for both time \& intercept.~Within-patient errors were modelled by an Unstructured variance-covariance matrix."||83.83|2.44|0.0378
92153097|NCT02597933|184191133|OTHER||Mean Difference (Final Values)|30.0||||0.1046|TWO_SIDED|95.0|-6.22|66.22|||random coefficient regression|||In multiple imputation SA 1, missing FVC values at wk 52 in pts who were alive at wk 52 were imputed assuming similar rate of FVC decline as in pts from corresponding trt group who prematurely disc. trial drug but had wk 52 FVC value. Missing FVC values at wk 52 in pts who died before wk 52 were imputed assuming similar rate of FVC decline as in pl. pts with wk 52 FVC value who prematurely disc. trial drug with most severe declines.The imputation model was similar to statistical model of PA.||66.22|-6.22|0.1046
92153098|NCT02597933|184191133|OTHER||Mean Difference (Final Values)|32.93||||0.074|TWO_SIDED|95.0|-3.19|69.06|||random coefficient regression|||In multiple imputation SA 2, missing FVC values at wk 52 in pts who were alive at wk 52 were imputed assuming similar rate of FVC decline as in pts from pl. group who prematurely disc. trial drug but had a wk 52 FVC value. Missing FVC values at wk 52 in pts who died before wk 52 were imputed assuming similar rate of FVC decline as in pl. pts with a wk 52 FVC value who prematurely disc. trial drug with most severe declines. The imputation model was similar to the statistical model of the PA||69.06|-3.19|0.0740
92153099|NCT02597933|184191133|OTHER||Mean Difference (Final Values)|33.86||||0.0644|TWO_SIDED|95.0|-2.03|69.75|||random coefficient regression|||In multiple imputation SA 3, missing FVC values at wk 52 in pts who were alive at wk 52 were imputed assuming a similar rate of FVC decline as in all pts in the pl. group who were included in the PA. Missing FVC values at wk 52 in pts who died before wk 52 were imputed assuming a similar rate of FVC decline as in all placebo patients included in the primary analysis with the most severe declines. The imputation model was similar to the statistical model of the PA.||69.75|-2.03|0.0644
92153100|NCT02597933|184191133|OTHER||Mean Difference (Final Values)|40.95||||0.0351|TWO_SIDED|95.0|2.88|79.01|||random coefficient regression|||This is sensitivity analysis using the model similar to the primary analysis but including a different set of covariates: the fixed, categorical effects of treatment, ATA status, the fixed continuous effects of time, baseline FVC (mL), and the treatment-by-time and baseline-by-time interactions.Random effects was included for patient response for both time and intercept.||79.01|2.88|0.0351
92153101|NCT02597933|184191133|OTHER||Mean Difference (Final Values)|40.98||||0.0349|TWO_SIDED|95.0|2.92|79.04|||random coefficient regression|||This is sensitivity analysis using the model similar to the primary analysis but including a different set of covariates: the fixed, categorical effects of treatment, ATA status (Positive / Negative), gender and mycophenolate mofetil /sodium background therapy use (Yes / No), fixed continuous effects of time, age , height and baseline FVC (mL), the treatment-by-time and baseline-by-time interactions. Random effects was included for patient response for both time and intercept||79.04|2.92|0.0349
92214628|NCT04697264|184329121|OTHER||||||>|0.05|||||||Pearson's correlation test|||Circulating adiponectin levels and the expression of these markers and their receptors in endometrial tissue were compared using correlation studies.||||>0.05
92153102|NCT02597933|184191134|OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.37||0.5785|TWO_SIDED|95.0|-0.94|0.53|||MMRM|||The mixed model repeated measures (MMRM) approach was used. The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||0.53|-0.94|0.5785
92214629|NCT04697264|184329122|OTHER||||||>|0.05|||||||Pearson's correlation test|||Circulating leptin, IGF1 and IGF2 levels and the expression of these markers and their receptors in endometrial tissue were compared using Pearson's correlation studies.||||>0.05
92214630|NCT04697264|184329123|OTHER||||||>|0.05|||||||Pearson's correlation test|||Circulating IL6 and TNF levels and the expression of these markers and their receptors in endometrial tissue were compared using Pearson's correlation studies.||||>0.05
92214631|NCT00813319|184329130|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||This comparison is for participants in the Girls OnGuard/HPV Awareness condition compared to the General Health Promotion condition||||>.05
92214632|NCT00813319|184329131|SUPERIORITY_OR_OTHER||||||=|0.52|||||||Chi-squared|||||||=.52
92214633|NCT00813319|184329132|SUPERIORITY_OR_OTHER||||||=|0.12|||||||Chi-squared|Degrees of freedom = 2||This comparison is for total doses received (26 in Girls OnGuard/HPV Awareness condition compared to 17 in General Health Promotion condition)||||=.12
92214634|NCT03434353|184329133|OTHER||Percentage Difference|-2.0|||||TWO_SIDED|95.0|-30.4|26.4|||||The percentage difference (Group 1 - Group 2) \& corresponding 2-sided 95% confidence interval (CI) were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline hepatitis B e antigen (HBeAg) status (positive,negative).|||26.4|-30.4|
92214635|NCT03434353|184329133|OTHER||Percentage Difference|-24.7|||||TWO_SIDED|95.0|-49.2|-0.2|||||The percentage difference (Group 3 - Group 2) and the corresponding 2-sided 95% CI were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline HBeAg status (positive, negative).|||-0.2|-49.2|
92214636|NCT03434353|184329133|OTHER||Percentage Difference|-17.8|||||TWO_SIDED|95.0|-43.7|8.2|||||The percentage difference (Group 5 - Group 2) and the corresponding 2-sided 95% CI were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline HBeAg status (positive, negative).|||8.2|-43.7|
92153103|NCT02597933|184191135|OTHER||Mean Difference (Final Values)|1.69|STANDARD_ERROR_OF_MEAN|1.24||0.1711|TWO_SIDED|95.0|-0.73|4.12|||MMRM|The MMRM model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||4.12|-0.73|0.1711
92214637|NCT03434353|184329135|OTHER||Percentage Difference|-16.6|||||TWO_SIDED|95.0|-37.7|4.4|||||The percentage difference (Group 1 - Group 2) and the corresponding 2-sided 95% CI were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline HBeAg status (positive, negative).|||4.4|-37.7|
92153104|NCT02597933|184191136|OTHER||Mean Difference (Final Values)|1.15|STANDARD_ERROR_OF_MEAN|0.54||0.0331|TWO_SIDED|1.15|0.09|2.21|||MMRM|The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||"Based on a random coefficient regression with fixed categorical effects of treatment, ATA status, fixed continuous effects of time, baseline FVC \[% pred\], \& including treatment-by-time and baseline-by-time interactions. Random effect was included for patient specific intercept \& time.~Within-patient errors are modelled by an Unstructured variance-covariance matrix.~Inter-individual variability is modelled by a Variance-Components variance-covariance matrix."||2.21|0.09|0.0331
92153105|NCT02597933|184191137|OTHER||Mean Difference (Final Values)|46.41|STANDARD_ERROR_OF_MEAN|19.51||0.0177|TWO_SIDED|95.0|8.09|84.73|||MMRM|The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||84.73|8.09|0.0177
92153106|NCT02597933|184191138|OTHER||Mean Difference (Final Values)|-6.28|STANDARD_ERROR_OF_MEAN|8.39||0.4547|TWO_SIDED|95.0|-22.77|10.21|||MMRM|The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||10.21|-22.77|0.4547
92153107|NCT02597933|184191139|OTHER||Hazard Ratio (HR)|1.16||||0.7535|TWO_SIDED|95.0|0.47|2.84|||Regression, Cox|Based on Cox's regression model (Wald test), stratified by ATA status.||||2.84|0.47|0.7535
92153108|NCT02597933|184191140|OTHER||Odds Ratio (OR)|1.03||||0.9115|TWO_SIDED|95.0|0.57|1.88|||Cochran-Mantel-Haenszel|||The comparison between both treatment groups was performed using a Cochran-Mantel-Haenszel test. CRISS score at Week 52 was transformed into 100 binary responder endpoints using multiple imputation. These were analyzed using a Cochran-Mantel-Haenszel test, stratified by ATA status OR and the 95% confidence interval (CI) as obtained from all 100 imputations were combined using Rubin´s rule.|Missing values were imputed using worst case, i.e. considered having disease progression.|1.88|0.57|0.9115
92153109|NCT02597933|184191141|OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.76||0.5668|TWO_SIDED|95.0|-1.94|1.06|||MMRM|||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||1.06|-1.94|0.5668
92153110|NCT02597933|184191142|OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.5914|TWO_SIDED|95.0|-0.16|0.09|||MMRM|||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||0.09|-0.16|0.5914
92153111|NCT02597933|184191143|OTHER||Mean Difference (Final Values)|0.032|STANDARD_ERROR_OF_MEAN|0.034||0.3447|TWO_SIDED|95.0|-0.035|0.099|||MMRM|||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||0.099|-0.035|0.3447
92153112|NCT02597933|184191144|OTHER||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.58||0.2727|TWO_SIDED|95.0|-0.51|1.79|||MMRM|||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||1.79|-0.51|0.2727
92153113|NCT01097915|184191149|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Fisher Exact|||||||<0.01
92153114|NCT01097915|184191150|SUPERIORITY_OR_OTHER||||||<|0.004|||||||ANOVA|||||||<0.004
92153115|NCT01097915|184191151|SUPERIORITY_OR_OTHER||||||<|0.048|||||||ANCOVA|the three factors of the Stunkard and Messick Questionnaire were considered as covariates.||||||<0.048
92153116|NCT01097915|184191152|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||ANOVA|||||||< 0.00001
92153117|NCT01097915|184191153|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||ANOVA|||||||< 0.00001
92153118|NCT01097915|184191154|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||Chi-squared|||||||< 0.00001
92153119|NCT04534114|184191277|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|0.94||||0.944|TWO_SIDED|95.0|0.19|4.68|||Log Rank|||||4.68|0.19|0.944
92214638|NCT03434353|184329135|OTHER||Percentage Difference|-16.9|||||TWO_SIDED|95.0|-38.1|4.3|||||The percentage difference (Group 3 - Group 2) and the corresponding 2-sided 95% CI were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline HBeAg status (positive, negative).|||4.3|-38.1|
92274016|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000909|STANDARD_ERROR_OF_MEAN|0.000933||0.3311|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Self-Kindness Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.3311
92274017|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001041|STANDARD_ERROR_OF_MEAN|0.000887||0.2416|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Self-Judgment Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2416
92274018|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00087|STANDARD_ERROR_OF_MEAN|0.001016||0.3903|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Common Humanity Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.3903
92274019|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001186|STANDARD_ERROR_OF_MEAN|0.00095||0.2131|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Isolation Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2131
92274020|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001485|STANDARD_ERROR_OF_MEAN|0.000933||0.113|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Mindfulness Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1130
92274021|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001983|STANDARD_ERROR_OF_MEAN|0.000939||0.0358|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Over-identification Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0358
92274022|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00019|STANDARD_ERROR_OF_MEAN|0.000495||0.7027|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS- Total Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7027
92274023|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000761|STANDARD_ERROR_OF_MEAN|0.00073||0.2979|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Self-Kindness Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2979
92336683|NCT02634983|184576150|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|4.77|STANDARD_ERROR_OF_MEAN|2.15||0.035|TWO_SIDED|90.0|1.11|8.44|||t-test, 2 sided|||Lung, Left Ventilation||8.44|1.11|0.0350
92153120|NCT04534114|184191277|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|0.95||||0.953|TWO_SIDED|95.0|0.19|4.72|||Log Rank|||||4.72|0.19|0.953
92214639|NCT03434353|184329135|OTHER||Percentage Difference|-16.7|||||TWO_SIDED|95.0|-37.9|4.4|||||The percentage difference (Group 5 - Group 2) and the corresponding 2-sided 95% CI were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline HBeAg status (positive, negative).|||4.4|-37.9|
92153121|NCT04534114|184191277|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|0.63||||0.605|TWO_SIDED|95.0|0.1|3.75|||Log Rank|||||3.75|0.10|0.605
92153122|NCT04534114|184191278|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|1.45||||0.612|TWO_SIDED|95.0|0.34|6.08|||Log Rank|||||6.08|0.34|0.612
92153123|NCT04534114|184191278|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|1.27||||0.757|TWO_SIDED|95.0|0.28|5.66|||Log Rank|||||5.66|0.28|0.757
92153124|NCT04534114|184191278|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|0.91||||0.909|TWO_SIDED|95.0|0.18|4.52|||Log Rank|||||4.52|0.18|0.909
92153125|NCT04765735|184191294|SUPERIORITY||||||<|0.001||||||"It is hypothesized that the proportion of subjects with a reduction in overstimulation sensation during CL compared to OL period exceeds a performance goal of 50%.~H0: p ≤ 50% HA: p \> 50%"|Binomial Exact Test|||||||<0.001
92153126|NCT02791490|184191321|SUPERIORITY||Difference in Least Squares Means|-0.41|||<|0.001|TWO_SIDED|95.0|-0.59|-0.23|||Longitudinal Data Analysis|||||-0.23|-0.59|<0.001
92153127|NCT02791490|184191322|OTHER|95% CI|Difference in % vs Placebo|-1.7|||||TWO_SIDED|95.0|-10.8|7.4|||Miettinen and Nurminen method|||||7.4|-10.8|
92153128|NCT02791490|184191324|SUPERIORITY||Relative Risk|1.7||||0.002|TWO_SIDED|95.0|1.2|2.5|||Miettinen and Nurminen method|||||2.5|1.2|0.002
92153129|NCT02791490|184191325|SUPERIORITY||Difference in Least Squares Means|-12.4||||0.002|TWO_SIDED|95.0|-20.2|-4.6|||Longitudinal Data Analysis|||||-4.6|-20.2|0.002
92153130|NCT02960763|184191328|SUPERIORITY|Repeated measure of 2\*2\*3 ANOVA with age (60 - 70, \> 70), time (baseline, end of Active phase of Step 1) by treatment group (3 levels). Tests were conducted with a Hochberg Step-down procedure. If the comparison with the lowest p-value \< 0.05/3 it is significant. If the second lowest p-value is also \< 0.05/2 then it also will be significant and if the third p-value is \< 0.05 then it also will be significant.||||||0.01||||||Equivalence of group|ANOVA|||||||0.010
92153131|NCT02960763|184191328|SUPERIORITY|Repeated measure of 2\*2\*3 ANOVA with age (60 - 70, \> 70), time (baseline, end of Active phase of Step 1) by treatment group (3 levels). Tests were conducted with a Hochberg Step-down procedure. If the comparison with the lowest p-value \< 0.05/3 it is significant. If the second lowest p-value is also \< 0.05/2 then it also will be significant and if the third p-value is \< 0.05 then it also will be significant.||||||0.004||||||augment with aripiprazole vs switch to bupropion|ANOVA|||||||0.004
92153132|NCT02960763|184191328|SUPERIORITY|Repeated measure of 2\*2\*3 ANOVA with age (60 - 70, \> 70), time (baseline, end of Active phase of Step 1) by treatment group (3 levels). Tests were conducted with a Hochberg Step-down procedure. If the comparison with the lowest p-value \< 0.05/3 it is significant. If the second lowest p-value is also \< 0.05/2 then it also will be significant and if the third p-value is \< 0.05 then it also will be significant.||||||0.017||||||augment with bupropion vs switch to bupropion|ANOVA|||||||0.017
92153133|NCT02960763|184191328|SUPERIORITY|||||||0.65|||||||ANOVA|||Repeated measure of 2\*2\*3 ANOVA with age (60 - 70, \> 70), time (baseline, end of Active phase of Step 1) by treatment group (3 levels). Tests were conducted with a Hochberg Step-down procedure. If the comparison with the lowest p-value \< 0.05/3 it is significant. If the second lowest p-value is also \< 0.05/2 then it also will be significant and if the third p-value is \< 0.05 then it also will be significant.||||0.650
92398096|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0429|TWO_SIDED|95.0|1.03|6.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||6.55|1.03|0.0429
92153134|NCT02960763|184191328|SUPERIORITY|||||||0.003||||||augmentation versus switch|ANOVA|||Repeated measure of 2\*2\*3 ANOVA with age (60 - 70, \> 70), time (baseline, end of Active phase of Step 1) by treatment group (3 levels). Tests were conducted with a Hochberg Step-down procedure. If the comparison with the lowest p-value \< 0.05/3 it is significant. If the second lowest p-value is also \< 0.05/2 then it also will be significant and if the third p-value is \< 0.05 then it also will be significant.||||0.003
92153135|NCT02960763|184191328|SUPERIORITY|For those who proceed to Step 2, analogous repeated measures 2\*2\*2 ANOVA will be used with a significance level of .05 for the time\*treatment group comparison.||||||0.385|||||||ANOVA|||||||0.385
92153136|NCT02960763|184191329|SUPERIORITY|||||||0.038||||||Group effect|generalized linear model with logistic l|||||||0.038
92153137|NCT02960763|184191329|SUPERIORITY|||||||0.021||||||augmentation with aripiprazole vs switch to bupropion|generalized linear model with logistic l|||||||0.021
92153138|NCT02960763|184191329|SUPERIORITY|||||||0.027||||||augmentation with bupropion vs switch to bupropion|generalized linear model with logistic l|||||||0.027
92153139|NCT02960763|184191329|SUPERIORITY|||||||0.934||||||Augmentation with aripiprazole v augmentation with bupropion|generalized linear model with logistic l|||||||0.934
92153140|NCT02960763|184191329|SUPERIORITY|||||||0.011||||||augmentation versus switch|generalized linear model with logistic l|||||||0.011
92153141|NCT02960763|184191329|SUPERIORITY|||||||0.5|||||||generalized linear model with logistic l|||||||0.500
92336684|NCT02634983|184576150|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|4.96|STANDARD_ERROR_OF_MEAN|2.86||0.0946|TWO_SIDED|90.0|0.08|9.84|||t-test, 2 sided|||Lung, Left Lower Lobe Ventilation||9.84|0.08|0.0946
92153142|NCT02960763|184191330|SUPERIORITY|||||||0.164||||||Cox models time to event comparing treatment arms.|Regression, Cox|||||||0.164
92153143|NCT02960763|184191330|SUPERIORITY|||||||0.103|||||||Regression, Cox|||||||0.103
92336685|NCT02634983|184576150|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|4.97|STANDARD_ERROR_OF_MEAN|2.41||0.0486|TWO_SIDED|90.0|0.87|9.07|||t-test, 2 sided|||Lung, Left Upper Lobe Ventilation||9.07|0.87|0.0486
92153144|NCT02960763|184191330|SUPERIORITY|||||||0.127|||||||Regression, Cox|||||||0.127
92153145|NCT02960763|184191330|SUPERIORITY|||||||0.524||||||Cox models to examine time to event comparing treatment arms.|Regression, Cox|||||||0.524
92153146|NCT01017120|184191331|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for ILs|ANCOVA|||||||<0.001
92153147|NCT01017120|184191331|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for NILs|ANCOVA|||||||<0.001
92153148|NCT01017120|184191331|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for TLs|ANCOVA|||||||<0.001
92153149|NCT01017120|184191332|SUPERIORITY_OR_OTHER||Percentage of participants|32.2|||<|0.001|TWO_SIDED|95.0|27.4|36.9|||Cochran-Mantel-Haenszel||The estimated value represents the percentage of participants receiving tazarotene foam with a minimum 2 G improvement in the ISGA score from Baseline at Week 12.|||36.9|27.4|<0.001
92153150|NCT01017120|184191332|SUPERIORITY_OR_OTHER||Percentage of participants|18.2|||||TWO_SIDED|95.0|14.2|22.1|||||The estimated value represents the percentage of participants receiving vehicle foam with a minimum 2 G improvement in the ISGA score from Baseline at Week 12.|||22.1|14.2|
92153151|NCT01017120|184191333|SUPERIORITY_OR_OTHER||Percentage of participants|27.6|||<|0.001|TWO_SIDED|95.0|23.1|32.2|||Cochran-Mantel-Haenszel||The estimated value represents the percentage of participants receiving tazarotene foam with an ISGA score of 0 or 1 at Week 12.|||32.2|23.1|<0.001
92153152|NCT01017120|184191333|SUPERIORITY_OR_OTHER||Percentage of participants|13.3|||||TWO_SIDED|95.0|9.8|16.7|||||The estimated value represents the percentage of participants receiving vehicle foam with an ISGA score of 0 or 1 at Week 12.|||16.7|9.8|
92153153|NCT01928225|184191390|SUPERIORITY||Risk Ratio (RR)|1.18||||0.29|TWO_SIDED|95.0|0.87|1.6||\<0.05 was considered statistically significant.|Chi-squared|||||1.6|.87|.29
92153154|NCT01928225|184191391|SUPERIORITY||Risk Ratio (RR)|1.26||||0.22|TWO_SIDED|95.0|0.85|1.95|||Chi-squared|||||1.95|.85|.22
92214640|NCT03739762|184329146|SUPERIORITY||Mean Difference (Final Values)|-31.85||||0.003|TWO_SIDED|95.0|-52.91|-10.79|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||The sample size of 284 ensured 90% power to detect a 41-minute difference in sitting time between I-STAND and the attention control from baseline to 6 months, assuming a standard deviation (SD) of 97 minutes/day for change in sitting time (based on our pilot data), and 15% loss to follow-up. Sample and power calculations were performed using R software version 3.5 \[39\] via simulation, assuming specified SDs and differences between means.||-10.79|-52.91|0.003
92214641|NCT03739762|184329147|SUPERIORITY||Mean Difference (Final Values)|-3.48||||0.033|TWO_SIDED|95.0|-6.68|-0.28|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||||-0.28|-6.68|.033
92214642|NCT03739762|184329148|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.784|TWO_SIDED|95.0|-1.63|2.16|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||||2.16|-1.63|.784
92214643|NCT03739762|184329149|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.927|TWO_SIDED|95.0|-2.61|2.38|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||||2.38|-2.61|.927
92336686|NCT02634983|184576150|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|5.39|STANDARD_ERROR_OF_MEAN|2.33||0.0286|TWO_SIDED|90.0|1.42|9.35|||t-test, 2 sided|||Lung, Right Ventilation||9.35|1.42|0.0286
92336687|NCT02634983|184576150|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|3.27|STANDARD_ERROR_OF_MEAN|2.29||0.165|TWO_SIDED|90.0|-0.63|7.17|||t-test, 2 sided|||Lung, Right Lower Lobe Ventilation||7.17|-0.63|0.1650
92153155|NCT00574990|184191397|SUPERIORITY_OR_OTHER||chi square|12.99|STANDARD_ERROR_OF_MEAN|1.4||0.01|TWO_SIDED|||||Differences between roles and communication event content were assessed by Chi squared|Chi-squared|||Descriptive counts and chi squared were done on the observation data.||||0.01
92153156|NCT03560258|184191428|SUPERIORITY|||||||0.137|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm B: Full-length Gag DNA in additional number of CEs with a CD4 or CD8 T cell response from week 0 to week 26.||||0.137
92153157|NCT03560258|184191428|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD4 or CD8 T cell response from week 0 to week 26.||||0.014
92153158|NCT03560258|184191428|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: Full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD4 or CD8 T cell response from week 0 to week 26.||||0.100
92153159|NCT03560258|184191430|SUPERIORITY|||||||0.222|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm B: Full-length Gag DNA in additional number of CEs with a CD4 T cell response at week 26 from baseline.||||0.222
92153160|NCT03560258|184191430|SUPERIORITY|||||||0.222|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD4 T cell response at week 26 from baseline.||||0.222
92336688|NCT02634983|184576150|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|5.61|STANDARD_ERROR_OF_MEAN|3.71||0.1421|TWO_SIDED|90.0|-0.71|11.94|||t-test, 2 sided|||Lung, Right Middle Lobe Ventilation||11.94|-0.71|0.1421
92153161|NCT03560258|184191430|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: Full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD4 T cell response at week 26 from baseline.||||1.00
92153162|NCT03560258|184191431|SUPERIORITY|||||||0.678|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm B: Full-length Gag DNA in additional number of CEs with a CD8 T cell response from week 0 to week 26.||||0.678
92153163|NCT03560258|184191431|SUPERIORITY|||||||0.037|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD8 T cell response from week 0 to week 26.||||0.037
92153164|NCT03560258|184191431|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: Full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD8 T cell response from week 0 to week 26.||||0.100
92153165|NCT03560258|184191432|SUPERIORITY|||||||0.303|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm B: Full-length Gag DNA in change in the magnitude of CD4 T cell responses from week 0 to week 26.||||0.303
92153166|NCT03560258|184191432|SUPERIORITY|||||||0.457|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm C: Placebo in change in the magnitude of CD4 T cell responses from week 0 to week 26.||||0.457
92153167|NCT03560258|184191432|SUPERIORITY|||||||0.678|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: Full-length Gag DNA and Arm C: Placebo in change in the magnitude of CD4 T cell responses from week 0 to week 26.||||0.678
92153168|NCT03560258|184191433|SUPERIORITY|||||||0.755|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm B: Full-length Gag DNA in change in the magnitude of CD8 T cell responses from week 0 to week 26.||||0.755
92153169|NCT03560258|184191433|SUPERIORITY|||||||0.867|||||||Wilcoxon (Mann-Whitney)|||||||0.867
92153170|NCT03560258|184191433|SUPERIORITY|||||||0.521|||||||Wilcoxon (Mann-Whitney)|||||||0.521
92153171|NCT01460160|184191434|SUPERIORITY||Estimate of Difference|16.86||||0.032|TWO_SIDED|90.0|3.9|29.8||Superiority test versus AIEOP-BFM 2000|Chi-squared||Treatment difference (CA180372 - AIEOP-BFM 2000)|Difference in 3-year binomial EFS rate in all treated participants (dasatinib plus chemotherapy) vs. chemotherapy alone in AIEOP-BFM 2000 historical control||29.8|3.9|0.032
92153172|NCT01460160|184191434|NON_INFERIORITY|non-inferiority margin = 5%. One-sided type I error rate of 0.05|Estimate of difference|6.91||||0.271|TWO_SIDED|90.0|-3.3|17.2||Superiority test versus EsPhALL|Chi-squared||Treatment difference (CA180372 - EsPhALL) Test if lower confidence limit is above -5%|Difference in 3-year binomial EFS rate for all treated participants (dasatinib plus chemotherapy) vs. continuous imatinib plus chemotherapy in the Amended EsPhALL Trial Historical Control||17.2|-3.3|0.271
92153173|NCT01460160|184191434|SUPERIORITY|Difference in 3-year binomial EFS rate in all treated participants (dasatinib plus chemotherapy) vs. chemotherapy alone in COG AALL0031 historical control|Estimate of difference|-10.75||||0.157|TWO_SIDED|90.0|-22.7|1.2|||Chi-squared||Treatment difference (CA180372 - COG AALL0031)|||1.2|-22.7|0.157
92153174|NCT01678820|184191463|SUPERIORITY_OR_OTHER||Difference in least squares means|0.19||||0.267|TWO_SIDED|95.0|-0.14|0.52|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment||||0.52|-0.14|0.267
92153175|NCT01678820|184191464|SUPERIORITY_OR_OTHER||Difference in percents|-0.4|||||TWO_SIDED|95.0|-10.2|9.3|||||Based on Miettinen \& Nurminen method|||9.3|-10.2|
92153176|NCT01678820|184191464|SUPERIORITY_OR_OTHER||Difference in percents|-4.3|||||TWO_SIDED|95.0|-14.7|5.8|||||Based on Miettinen \& Nurminen method|||5.8|-14.7|
92153177|NCT01678820|184191466|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.62|||<|0.001|TWO_SIDED|95.0|-0.95|-0.28|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-0.28|-0.95|<0.001
92153178|NCT01678820|184191467|SUPERIORITY_OR_OTHER||Difference in least squares means|1.7||||0.856|TWO_SIDED|95.0|-17.1|20.6|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||20.6|-17.1|0.856
92153179|NCT01678820|184191467|SUPERIORITY_OR_OTHER||Difference in least squares means|-29.2||||0.002|TWO_SIDED|95.0|-47.9|-10.6|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-10.6|-47.9|0.002
92153180|NCT01678820|184191468|SUPERIORITY_OR_OTHER||Difference in least squares means|-25.6|||<|0.001|TWO_SIDED|95.0|-35.6|-15.6|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-15.6|-35.6|<0.001
92153181|NCT01678820|184191468|SUPERIORITY_OR_OTHER||Difference in least squares means|5.3||||0.286|TWO_SIDED|95.0|-4.5|15.2|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||15.2|-4.5|0.286
92153182|NCT01678820|184191469|SUPERIORITY_OR_OTHER||Difference in least squares means|-18.1|||<|0.001|TWO_SIDED|95.0|-24.2|-12.0|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-12.0|-24.2|<0.001
92153183|NCT01678820|184191469|SUPERIORITY_OR_OTHER||Difference in least squares means|0.0||||0.99|TWO_SIDED|95.0|-6.0|6.0|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||6.0|-6.0|0.990
92153184|NCT01678820|184191470|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.2|||<|0.001|TWO_SIDED|95.0|-28.3|-12.2|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-12.2|-28.3|<0.001
92153185|NCT01678820|184191470|SUPERIORITY_OR_OTHER||Difference in least squares means|2.9||||0.469|TWO_SIDED|95.0|-5.0|10.7|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||10.7|-5.0|0.469
92214644|NCT03739762|184329150|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.916|TWO_SIDED|95.0|-0.42|0.47|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||||0.47|-0.42|.916
92336689|NCT02634983|184576150|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|7.73|STANDARD_ERROR_OF_MEAN|2.78||0.0099|TWO_SIDED|90.0|2.98|12.47|||t-test, 2 sided|||Lung, Right Upper Lobe Ventilation||12.47|2.98|0.0099
92398097|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.81||||0.0296|TWO_SIDED|95.0|1.11|7.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||7.12|1.11|0.0296
92153186|NCT01678820|184191471|SUPERIORITY_OR_OTHER||Difference in least squares means|-24.4|||<|0.001|TWO_SIDED|95.0|-32.6|-16.3|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-16.3|-32.6|<0.001
92153187|NCT01678820|184191471|SUPERIORITY_OR_OTHER||Difference in least squares means|0.3||||0.937|TWO_SIDED|95.0|-7.7|8.3|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||8.3|-7.7|0.937
92153188|NCT01678820|184191472|SUPERIORITY_OR_OTHER||Difference in estimated means|-15.5||||0.068|TWO_SIDED|95.0|-32.2|1.2|||Robust regression|Using M-estimation with treatment, region, and a covariate for baseline triglycerides (mg/dL). Missing data were imputed by multiple imputations.||||1.2|-32.2|0.068
92153189|NCT01678820|184191472|SUPERIORITY_OR_OTHER||Difference in estimated means|-10.3||||0.365|TWO_SIDED|95.0|-33.6|13.0|||Robust regression|Using M-estimation with treatment, region, and a covariate for baseline triglycerides (mg/dL). Missing data were imputed by multiple imputations.||||13.0|-33.6|0.365
92153190|NCT01678820|184191473|SUPERIORITY_OR_OTHER||Difference in least squares means|0.5||||0.857|TWO_SIDED|95.0|-4.8|5.8|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||5.8|-4.8|0.857
92153191|NCT01678820|184191473|SUPERIORITY_OR_OTHER||Difference in least squares means|0.4||||0.879|TWO_SIDED|95.0|-4.8|5.6|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||5.6|-4.8|0.879
92153192|NCT01678820|184191474|SUPERIORITY_OR_OTHER||Difference in least squares means|-30.4||||0.004|TWO_SIDED|95.0|-51.0|-9.7|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-9.7|-51.0|0.004
92153193|NCT01678820|184191474|SUPERIORITY_OR_OTHER||Difference in least squares means|-15.3||||0.141|TWO_SIDED|95.0|-35.8|5.1|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||5.1|-35.8|0.141
92153194|NCT01678820|184191475|SUPERIORITY_OR_OTHER||Difference in percents|0.3|||||TWO_SIDED|95.0|-12.2|12.9|||||Based on Miettinen \& Nurminen method. Missing data were imputed by multiple impuattions.|||12.9|-12.2|
92153195|NCT01678820|184191475|SUPERIORITY_OR_OTHER||Difference in percents|12.3|||||TWO_SIDED|95.0|0.7|24.0|||||Based on Miettinen \& Nurminen method. Missing data were imputed by multiple imputations.|||24.0|0.7|
92153196|NCT01381874|184191476|SUPERIORITY||Hazard Ratio (HR)|1.143||||0.437|TWO_SIDED|95.0|0.816|1.603|||stratified log-rank test|||||1.603|0.816|0.437
92153197|NCT01381874|184191476|SUPERIORITY||Hazard Ratio (HR)|0.958||||0.794|TWO_SIDED|95.0|0.695|1.32|||stratified log-rank test|||||1.320|0.695|0.794
92153198|NCT01381874|184191477|SUPERIORITY||Hazard Ratio (HR)|1.074||||0.807|TWO_SIDED|95.0|0.608|1.896|||stratified log-rank test|||||1.896|0.608|0.807
92153199|NCT01381874|184191477|SUPERIORITY||Hazard Ratio (HR)|1.183||||0.542|TWO_SIDED|95.0|0.688|2.036|||stratified log-rank test|||||2.036|0.688|0.542
92153200|NCT01381874|184191478|SUPERIORITY||Risk Ratio (RR)|0.909||||1|TWO_SIDED|95.0|0.213|3.878|||Fisher Exact|||||3.878|0.213|1.000
92153201|NCT01381874|184191478|SUPERIORITY||Risk Ratio (RR)|1.909||||0.366|TWO_SIDED|95.0|0.605|6.026|||Fisher Exact|||||6.026|0.605|0.366
92153202|NCT01381874|184191479|SUPERIORITY||Risk Ratio (RR)|0.757||||0.603|TWO_SIDED|95.0|0.264|2.175|||Chi-squared|||||2.175|0.264|0.603
92153203|NCT01381874|184191479|SUPERIORITY||Risk Ratio (RR)|1.79||||0.137|TWO_SIDED|95.0|0.816|3.926|||Chi-squared|||||3.926|0.816|0.137
92153204|NCT02761629|184191509|SUPERIORITY_OR_OTHER||Difference in Response Rates|12.7||||0.0536|TWO_SIDED|95.0|-0.01|26.6|||Fisher Exact||Exact 95% confidence interval was from the binomial distribution for response rate.|||26.6|-0.01|0.0536
92153205|NCT02761629|184191512|SUPERIORITY_OR_OTHER|||||||0.0175|||||||Fisher Exact|||||||0.0175
92153206|NCT06173570|184191541|SUPERIORITY||Mean Difference (Net)|-35.27|||<|0.001|TWO_SIDED|95.0|-43.61|-26.93|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 LDL-C values handled by the MMRM under MAR. Hierarchical testing (in the order of decreasing dose of study treatment) controls two-sided alpha = 0.05.||-26.93|-43.61|< 0.001
92153207|NCT06173570|184191541|SUPERIORITY||Mean Difference (Net)|-37.91|||<|0.001|TWO_SIDED|95.0|-46.31|-29.51|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 LDL-C values handled by the MMRM under MAR. Hierarchical testing (in the order of decreasing dose of study treatment) controls two-sided alpha = 0.05.||-29.51|-46.31|< 0.001
92153208|NCT06173570|184191541|SUPERIORITY||Mean Difference (Net)|-45.17|||<|0.001|TWO_SIDED|95.0|-53.47|-36.86|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 LDL-C values handled by the MMRM under MAR. Hierarchical testing (in the order of decreasing dose of study treatment) controls two-sided alpha = 0.05.||-36.86|-53.47|< 0.001
92153209|NCT06173570|184191541|SUPERIORITY||Mean Difference (Net)|-50.7|||<|0.001|TWO_SIDED|95.0|-59.03|-42.37|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 LDL-C values handled by the MMRM under MAR. Hierarchical testing (in the order of decreasing dose of study treatment) controls two-sided alpha = 0.05.||-42.37|-59.03|< 0.001
92274024|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00063|STANDARD_ERROR_OF_MEAN|0.000798||0.4278|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Self-Judgment Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.4278
92274025|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.0000074|STANDARD_ERROR_OF_MEAN|0.000877||0.9933|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Common Humanity Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9933
92274026|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00115|STANDARD_ERROR_OF_MEAN|0.000816||0.1589|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Isolation Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1589
92274027|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000109|STANDARD_ERROR_OF_MEAN|0.000767||0.8875|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Mindfulness Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.8875
92274028|NCT03593772|184450521|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00032|STANDARD_ERROR_OF_MEAN|0.00078||0.6859|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Over-identification Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.6859
92274029|NCT03593772|184450522|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.01408|STANDARD_ERROR_OF_MEAN|0.01085||0.1959|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on BDI total score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1959
92274030|NCT03593772|184450523|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00788|STANDARD_ERROR_OF_MEAN|0.005845||0.1792|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Perceived Stress Scale Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1792
92274031|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.00132|STANDARD_ERROR_OF_MEAN|0.01039||0.8991|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total RDAS as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.8991
92153210|NCT06173570|184191542|SUPERIORITY||Mean Difference (Net)|-33.85|||<|0.001|TWO_SIDED|95.0|-42.34|-25.37|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-25.37|-42.34|< 0.001
92398098|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|4.48||||0.0032|TWO_SIDED|95.0|1.65|12.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.13|1.65|0.0032
92153211|NCT06173570|184191542|SUPERIORITY||Mean Difference (Net)|-36.73|||<|0.001|TWO_SIDED|95.0|-45.3|-28.17|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-28.17|-45.30|< 0.001
92153212|NCT06173570|184191542|SUPERIORITY||Mean Difference (Net)|-43.86|||<|0.001|TWO_SIDED|95.0|-52.31|-35.41|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-35.41|-52.31|< 0.001
92153213|NCT06173570|184191542|SUPERIORITY||Mean Difference (Net)|-49.8|||<|0.001|TWO_SIDED|95.0|-58.35|-41.25|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-41.25|-58.35|< 0.001
92153214|NCT06173570|184191543|SUPERIORITY||Mean Difference (Net)|-21.22|||<|0.001|TWO_SIDED|95.0|-26.27|-16.18|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-16.18|-26.27|< 0.001
92153215|NCT06173570|184191543|SUPERIORITY||Mean Difference (Net)|-22.39|||<|0.001|TWO_SIDED|95.0|-27.48|-17.3|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-17.30|-27.48|< 0.001
92214645|NCT03739762|184329151|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.325|TWO_SIDED|95.0|-1.09|0.36|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||||0.36|-1.09|.325
92214646|NCT02645760|184329235|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||It was calculated that 38 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% power to detect a difference of 2.26 points in mean 11-point NRS pain score between core stabilization exercise and conventional treatment from baseline to week 7.||||<0.001
92214647|NCT02645760|184329236|SUPERIORITY_OR_OTHER|||||||0.009|||||||ANCOVA|||It was calculated that 38 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% power to detect a difference of 2.68 points in mean disability score (RMDQ score) between core stabilization exercise and conventional treatment from baseline to week 7.||||0.009
92214648|NCT02645760|184329237|SUPERIORITY_OR_OTHER|||||||0.013|||||||ANCOVA|||It was calculated that 38 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% power to detect a difference of 0.79 centimeter in mean range of motion between core stabilization exercise and conventional treatment from baseline to week 7.||||0.013
92214649|NCT02645760|184329238|SUPERIORITY_OR_OTHER|||||||0.012|||||||ANCOVA|||It was calculated that 38 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% power to detect a difference of 0.30 centimeter in mean repositioning error between core stabilization exercise and conventional treatment from baseline to week 7.||||0.012
92214650|NCT02267603|184329239|OTHER|The null hypothesis will be rejected if 3 or more responses are observed in 24 patients. This design yields a type I error rate of 0.10 and power of 0.90 when the true response rate is 25%. Progression-free survival (PFS) at 16 months will be estimated by Kaplan-Meier method. Unless otherwise stated, all statistical tests will be conducted at the α=0.05 (1-sided) level.||||||||||||||||The protocol was designed w/ a standard Simon 2 stage design. Null hypothesis that true response rate is 5% was tested against a 1-sided alternative. In stage 1, 9 patients were accrued. If no responses in these 9 patients, study was to stop. Otherwise,15 more patients were to be accrued for a total of 24 patients. Study was amended to increase number of patients to 50, following discussion w/ pharmaceutical collaborator and FDA.|ORR will be estimated as the # of responders as a % of the # of eligible participants who received at least 1 dose of treatment. If a substantial amount of primary endpoint data are missing (at least 1 value missing from more than 20% of participants), using nonparametric estimation to estimate the ORR requires the missing completely at random assumption may give misleading results. In this case, analyses of the primary endpoint will be performed using parametric generalized linear models fit by maximum likelihood. These methods provide unbiased estimation and inferences under the parametric modeling assumptions and the assumption that the missing data are missing at random (MAR). MAR assumes that the probability of an observation being missing may depend upon the observed responses and upon observed covariates. A generalized linear model for the ORR will use a binomial error distribution. The model will include as covariates all available baseline predictors of the missing outcomes.|||
92214651|NCT01346488|184329258|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
92214652|NCT01346488|184329258|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
92214653|NCT01346488|184329258|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
92214654|NCT01346488|184329258|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
92214655|NCT01346488|184329258|SUPERIORITY_OR_OTHER|||||||1||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||1.0000
92214656|NCT01346488|184329258|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
92214657|NCT01346488|184329259|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
92214658|NCT01346488|184329259|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
92214659|NCT01346488|184329259|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
92153216|NCT06173570|184191543|SUPERIORITY||Mean Difference (Net)|-27.14|||<|0.001|TWO_SIDED|95.0|-32.16|-22.11|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-22.11|-32.16|< 0.001
92274032|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.002105|STANDARD_ERROR_OF_MEAN|0.002349||0.3711|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Decision Making Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.3711
92274033|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001864|STANDARD_ERROR_OF_MEAN|0.002348||0.428|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Values Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.4280
92274034|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00007|STANDARD_ERROR_OF_MEAN|0.003205||0.9831|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Affection Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9831
92274035|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.003052|STANDARD_ERROR_OF_MEAN|0.006364||0.632|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Consensus Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.6320
92274036|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.00007|STANDARD_ERROR_OF_MEAN|0.002259||0.9755|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Stability Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9755
92274037|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.00056|STANDARD_ERROR_OF_MEAN|0.001818||0.7584|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Conflict Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7584
92274038|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000297|STANDARD_ERROR_OF_MEAN|0.003444||0.9313|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Satisfaction Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9313
92274039|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00129|STANDARD_ERROR_OF_MEAN|0.002097||0.5401|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Activities Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.5401
92274040|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.00018|STANDARD_ERROR_OF_MEAN|0.002471||0.9421|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Discussion Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9421
92153217|NCT06173570|184191543|SUPERIORITY||Mean Difference (Net)|-29.36|||<|0.001|TWO_SIDED|95.0|-34.4|-24.31|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-24.31|-34.40|< 0.001
92153218|NCT06173570|184191544|SUPERIORITY||Mean Difference (Net)|-3.53||||0.111|TWO_SIDED|95.0|-7.87|0.81|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||0.81|-7.87|0.111
92153219|NCT06173570|184191544|SUPERIORITY||Mean Difference (Net)|0.38||||0.864|TWO_SIDED|95.0|-3.98|4.74|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||4.74|-3.98|0.864
92274041|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00151|STANDARD_ERROR_OF_MEAN|0.003983||0.7042|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Cohesion Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7042
92274042|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.02128|STANDARD_ERROR_OF_MEAN|0.008331||0.0114|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total RDAS Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0114
92153220|NCT06173570|184191544|SUPERIORITY||Mean Difference (Net)|-1.68||||0.445|TWO_SIDED|95.0|-5.99|2.63|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||2.63|-5.99|0.445
92153221|NCT06173570|184191544|SUPERIORITY||Mean Difference (Net)|1.01||||0.648|TWO_SIDED|95.0|-3.32|5.34|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||5.34|-3.32|0.648
92153222|NCT06173570|184191545|SUPERIORITY||Mean Difference (Net)|-6.5||||0.266|TWO_SIDED|95.0|-17.97|4.96|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||4.96|-17.97|0.266
92214660|NCT01346488|184329259|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
92214661|NCT01346488|184329259|SUPERIORITY_OR_OTHER|||||||0.0054||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||0.0054
92214662|NCT01346488|184329259|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
92214663|NCT01346488|184329260|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||<0.0001
92214664|NCT01346488|184329260|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||<0.0001
92214665|NCT01346488|184329260|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
92214666|NCT01346488|184329260|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||<0.0001
92214667|NCT01346488|184329260|SUPERIORITY_OR_OTHER|||||||0.0592||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||0.0592
92214668|NCT01346488|184329260|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
92214669|NCT01346488|184329261|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
92214670|NCT01346488|184329261|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||<0.0001
92214671|NCT01346488|184329261|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||<0.0001
92214672|NCT01346488|184329261|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||<0.0001
92214673|NCT01346488|184329261|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
92214674|NCT01346488|184329261|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
92214675|NCT01346488|184329262|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
92214676|NCT01346488|184329262|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
92214677|NCT01346488|184329262|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
92214678|NCT01346488|184329262|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
92214679|NCT01346488|184329262|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
92214680|NCT01346488|184329262|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
92214681|NCT01346488|184329263|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 12 (Remission)||||<0.0001
92274043|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.002587|STANDARD_ERROR_OF_MEAN|0.001727||0.1358|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Decision Making Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1358
92274044|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001402|STANDARD_ERROR_OF_MEAN|0.001796||0.4354|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Values Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.4354
92274045|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.005759|STANDARD_ERROR_OF_MEAN|0.002113||0.007|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on AffectionSubdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0070
92274046|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.01037|STANDARD_ERROR_OF_MEAN|0.004485||0.0217|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Consensus Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0217
92274047|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00039|STANDARD_ERROR_OF_MEAN|0.001461||0.7881|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Stability Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7881
92274048|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.004717|STANDARD_ERROR_OF_MEAN|0.00141||0.001|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Conflict Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0010
92274049|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.004393|STANDARD_ERROR_OF_MEAN|0.002415||0.0693|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Satisfaction Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0693
92274050|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.002959|STANDARD_ERROR_OF_MEAN|0.001887||0.1184|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Activities Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1184
92153223|NCT06173570|184191545|SUPERIORITY||Mean Difference (Net)|-6.67||||0.256|TWO_SIDED|95.0|-18.17|4.84|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||4.84|-18.17|0.256
92153224|NCT06173570|184191545|SUPERIORITY||Mean Difference (Net)|-7.63||||0.186|TWO_SIDED|95.0|-18.95|3.69|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||3.69|-18.95|0.186
92153225|NCT06173570|184191545|SUPERIORITY||Mean Difference (Net)|-10.0||||0.086|TWO_SIDED|95.0|-21.44|1.43|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||1.43|-21.44|0.086
92398099|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|7.11||||0.0006|TWO_SIDED|95.0|2.31|21.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||21.90|2.31|0.0006
92153226|NCT06173570|184191546|SUPERIORITY||Mean Difference (Net)|-30.38|||<|0.001|TWO_SIDED|95.0|-38.63|-22.12|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-22.12|-38.63|< 0.001
92153227|NCT06173570|184191546|SUPERIORITY||Mean Difference (Net)|-33.39|||<|0.001|TWO_SIDED|95.0|-41.71|-25.08|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-25.08|-41.71|< 0.001
92153228|NCT06173570|184191546|SUPERIORITY||Mean Difference (Net)|-38.66|||<|0.001|TWO_SIDED|95.0|-46.9|-30.43|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-30.43|-46.90|< 0.001
92153229|NCT06173570|184191546|SUPERIORITY||Mean Difference (Net)|-45.18|||<|0.001|TWO_SIDED|95.0|-53.43|-36.94|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-36.94|-53.43|< 0.001
92153230|NCT06173570|184191547|SUPERIORITY||Mean Difference (Net)|-6.06||||0.276|TWO_SIDED|95.0|-16.96|4.84|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||4.84|-16.96|0.276
92153231|NCT06173570|184191547|SUPERIORITY||Mean Difference (Net)|-3.17||||0.568|TWO_SIDED|95.0|-14.08|7.73|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||7.73|-14.08|0.568
92153232|NCT06173570|184191547|SUPERIORITY||Mean Difference (Net)|-4.98||||0.363|TWO_SIDED|95.0|-15.71|5.75|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||5.75|-15.71|0.363
92153233|NCT06173570|184191547|SUPERIORITY||Mean Difference (Net)|-6.73||||0.223|TWO_SIDED|95.0|-17.57|4.11|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||4.11|-17.57|0.223
92153234|NCT06173570|184191548|SUPERIORITY||Mean Difference (Net)|-2.79||||0.146|TWO_SIDED|95.0|-6.56|0.98|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||0.98|-6.56|0.146
92153235|NCT06173570|184191548|SUPERIORITY||Mean Difference (Net)|-1.21||||0.53|TWO_SIDED|95.0|-4.98|2.56|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||2.56|-4.98|0.530
92153236|NCT06173570|184191548|SUPERIORITY||Mean Difference (Net)|-0.85||||0.654|TWO_SIDED|95.0|-4.56|2.87|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||2.87|-4.56|0.654
92153237|NCT06173570|184191548|SUPERIORITY||Mean Difference (Net)|1.26||||0.509|TWO_SIDED|95.0|-2.48|5.0|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||5.00|-2.48|0.509
92214682|NCT01346488|184329263|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 24 (Remission)||||< 0.0001
92214683|NCT01346488|184329263|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 36 (Remission)||||< 0.0001
92214684|NCT01346488|184329263|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 48 (Remission)||||< 0.0001
92214685|NCT01346488|184329263|SUPERIORITY_OR_OTHER||||||=|0.0005||||||P-value adjusted for multiplicity|McNemar|||at discontinuation of ADA therapy (Remission)||||= 0.0005
92214686|NCT01346488|184329263|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at final assessment (Remission)||||< 0.0001
92214687|NCT01346488|184329264|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
92214688|NCT01346488|184329264|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
92214689|NCT01346488|184329264|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
92214690|NCT01346488|184329264|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
92214691|NCT01346488|184329264|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
92214692|NCT01346488|184329264|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
92214693|NCT01346488|184329265|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 12 (Remission)||||< 0.0001
92214694|NCT01346488|184329265|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 24 (Remission)||||< 0.0001
92398100|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.8||||0.2073|TWO_SIDED|95.0|0.72|4.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||4.47|0.72|0.2073
92398101|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.54||||0.0096|TWO_SIDED|95.0|1.36|9.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||9.20|1.36|0.0096
92398102|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.52||||0.0462|TWO_SIDED|95.0|1.02|6.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||6.27|1.02|0.0462
92153238|NCT06173570|184191549|SUPERIORITY||Mean Difference (Net)|-27.0|||<|0.001|TWO_SIDED|95.0|-33.08|-20.93|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-20.93|-33.08|< 0.001
92153239|NCT06173570|184191549|SUPERIORITY||Mean Difference (Net)|-28.31|||<|0.001|TWO_SIDED|95.0|-34.42|-22.2|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-22.20|-34.42|< 0.001
92153240|NCT06173570|184191549|SUPERIORITY||Mean Difference (Net)|-37.25|||<|0.001|TWO_SIDED|95.0|-43.27|-31.23|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-31.23|-43.27|< 0.001
92153241|NCT06173570|184191549|SUPERIORITY||Mean Difference (Net)|-39.87|||<|0.001|TWO_SIDED|95.0|-45.92|-33.83|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-33.83|-45.92|< 0.001
92153242|NCT06173570|184191550|SUPERIORITY||Mean Difference (Net)|-19.96|||<|0.001|TWO_SIDED|95.0|-25.09|-14.84|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-14.84|-25.09|< 0.001
92153243|NCT06173570|184191550|SUPERIORITY||Mean Difference (Net)|-21.54|||<|0.001|TWO_SIDED|95.0|-26.73|-16.35|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-16.35|-26.73|< 0.001
92153244|NCT06173570|184191550|SUPERIORITY||Mean Difference (Net)|-26.27|||<|0.001|TWO_SIDED|95.0|-31.37|-21.18|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-21.18|-31.37|< 0.001
92153245|NCT06173570|184191550|SUPERIORITY||Mean Difference (Net)|-28.64|||<|0.001|TWO_SIDED|95.0|-33.8|-23.48|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-23.48|-33.80|< 0.001
92153246|NCT06173570|184191551|SUPERIORITY||Mean Difference (Net)|-2.31||||0.292|TWO_SIDED|95.0|-6.62|1.99|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||1.99|-6.62|0.292
92153247|NCT06173570|184191551|SUPERIORITY||Mean Difference (Net)|0.55||||0.802|TWO_SIDED|95.0|-3.76|4.86|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||4.86|-3.76|0.802
92153248|NCT06173570|184191551|SUPERIORITY||Mean Difference (Net)|-0.94||||0.664|TWO_SIDED|95.0|-5.21|3.32|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||3.32|-5.21|0.664
92153249|NCT06173570|184191551|SUPERIORITY||Mean Difference (Net)|1.54||||0.481|TWO_SIDED|95.0|-2.74|5.82|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||5.82|-2.74|0.481
92214695|NCT01346488|184329265|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 36 (Remission)||||< 0.0001
92214696|NCT01346488|184329265|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 48 (Remission)||||< 0.0001
92214697|NCT01346488|184329265|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at discontinuation of ADA therapy (Remission)||||< 0.0001
92214698|NCT01346488|184329265|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at final assessment (Remission)||||< 0.0001
92214699|NCT01346488|184329266|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
92153250|NCT06173570|184191552|SUPERIORITY||Mean Difference (Net)|-6.23||||0.278|TWO_SIDED|95.0|-17.5|5.03|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||5.03|-17.50|0.278
92153251|NCT06173570|184191552|SUPERIORITY||Mean Difference (Net)|-6.87||||0.234|TWO_SIDED|95.0|-18.19|4.45|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||4.45|-18.19|0.234
92153252|NCT06173570|184191552|SUPERIORITY||Mean Difference (Net)|-7.32||||0.196|TWO_SIDED|95.0|-18.41|3.78|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||3.78|-18.41|0.196
92153253|NCT06173570|184191552|SUPERIORITY||Mean Difference (Net)|-9.87||||0.086|TWO_SIDED|95.0|-21.14|1.41|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||1.41|-21.14|0.086
92153254|NCT06173570|184191553|SUPERIORITY||Mean Difference (Net)|-28.99|||<|0.001|TWO_SIDED|95.0|-37.16|-20.81|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-20.81|-37.16|<0.001
92153255|NCT06173570|184191553|SUPERIORITY||Mean Difference (Net)|-32.28|||<|0.001|TWO_SIDED|95.0|-40.54|-24.02|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-24.02|-40.54|<0.001
92153256|NCT06173570|184191553|SUPERIORITY||Mean Difference (Net)|-37.63|||<|0.001|TWO_SIDED|95.0|-45.82|-29.44|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-29.44|-45.82|<0.001
92153257|NCT06173570|184191553|SUPERIORITY||Mean Difference (Net)|-44.21|||<|0.001|TWO_SIDED|95.0|-52.47|-35.94|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-35.94|-52.47|<0.001
92153258|NCT06173570|184191554|SUPERIORITY||Mean Difference (Net)|-5.93||||0.275|TWO_SIDED|95.0|-16.57|4.71|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||4.71|-16.57|0.275
92153259|NCT06173570|184191554|SUPERIORITY||Mean Difference (Net)|-4.06||||0.451|TWO_SIDED|95.0|-14.63|6.51|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||6.51|-14.63|0.451
92153260|NCT06173570|184191554|SUPERIORITY||Mean Difference (Net)|-4.97||||0.351|TWO_SIDED|95.0|-15.41|5.47|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||5.47|-15.41|0.351
92153261|NCT06173570|184191554|SUPERIORITY||Mean Difference (Net)|-6.32||||0.243|TWO_SIDED|95.0|-16.92|4.29|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||4.29|-16.92|0.243
92153262|NCT06173570|184191555|SUPERIORITY||Mean Difference (Net)|-1.3||||0.501|TWO_SIDED|95.0|-5.08|2.48|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||2.48|-5.08|0.501
92153263|NCT06173570|184191555|SUPERIORITY||Mean Difference (Net)|-0.93||||0.634|TWO_SIDED|95.0|-4.74|2.89|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||2.89|-4.74|0.634
92153264|NCT06173570|184191555|SUPERIORITY||Mean Difference (Net)|-0.02||||0.99|TWO_SIDED|95.0|-3.74|3.7|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||3.70|-3.74|0.990
92153265|NCT06173570|184191555|SUPERIORITY||Mean Difference (Net)|1.73||||0.366|TWO_SIDED|95.0|-2.03|5.5|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||5.50|-2.03|0.366
92153266|NCT06173570|184191556|SUPERIORITY||Mean Difference (Net)|-25.79|||<|0.001|TWO_SIDED|95.0|-32.08|-19.51|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-19.51|-32.08|<0.001
92153267|NCT06173570|184191556|SUPERIORITY||Mean Difference (Net)|-26.97|||<|0.001|TWO_SIDED|95.0|-33.33|-20.62|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-20.62|-33.33|<0.001
92153268|NCT06173570|184191556|SUPERIORITY||Mean Difference (Net)|-36.29|||<|0.001|TWO_SIDED|95.0|-42.5|-30.08|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-30.08|-42.50|<0.001
92153269|NCT06173570|184191556|SUPERIORITY||Mean Difference (Net)|-39.3|||<|0.001|TWO_SIDED|95.0|-45.61|-32.99|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-32.99|-45.61|<0.001
92153270|NCT03820323|184191561|SUPERIORITY||Risk Ratio (RR)|0.99||||0.55|TWO_SIDED|95.0|0.94|1.03|||Modified Poisson regression|||||1.03|0.94|0.55
92153271|NCT03820323|184191562|SUPERIORITY||Risk Ratio (RR)|0.86||||0.28|TWO_SIDED|95.0|0.66|1.13|||Modified Poission regression|||||1.13|0.66|0.28
92153272|NCT00366301|184191586|SUPERIORITY_OR_OTHER||Percent Change in Log CRP|20.0|STANDARD_ERROR_OF_MEAN|10.0|<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Adjusted models included terms for baseline HbA1c and weight and change in weight at each time point.||As hsCRP was measured at both 6 and 14 weeks, linear mixed models conditioning on baseline hsCRP and adjusting for treatment stratum were constructed with the dependent variable being change in lnCRP. The means at each time point were estimated from a repeated-measures model incorporating all 3 time points. The interventions were assessed by fitting terms corresponding to study drug and treatment arm assignment.||||<0.05
92153273|NCT05952297|184191670|SUPERIORITY|||||||0.88|||||||mixed model|linear mixed model, time x condition effect||||||.88
92153274|NCT03959592|184191685|OTHER|||||||0.14|||||||Generalized Estimating Equations|||||||0.14
92153275|NCT03959592|184191686|OTHER|||||||0.423|||||||Generalized Estimating Equations|||||||0.423
92153276|NCT03959592|184191689|OTHER|||||||0.985|||||||Generalized Estimating Equations|||||||0.985
92153277|NCT03959592|184191690|OTHER|||||||0.545|||||||Generalized Estimating Equations|||||||0.545
92153278|NCT04362137|184191692|SUPERIORITY||Odds Ratio (OR)|0.91||||0.769|TWO_SIDED|95.0|0.48|1.73|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|||1.73|0.48|0.769
92153279|NCT04362137|184191694|SUPERIORITY||Odds Ratio (OR)|0.89||||0.647|TWO_SIDED|95.0|0.55|1.46|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 15||1.46|0.55|0.647
92153280|NCT04362137|184191694|SUPERIORITY||Odds Ratio (OR)|1.0||||0.997|TWO_SIDED|95.0|0.52|1.92|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 29||1.92|0.52|0.997
92153281|NCT04362137|184191695|SUPERIORITY||Odds Ratio (OR)|0.98||||0.946|TWO_SIDED|95.0|0.51|1.87|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 15||1.87|0.51|0.946
92153282|NCT04362137|184191695|SUPERIORITY||Odds Ratio (OR)|0.79||||0.573|TWO_SIDED|95.0|0.35|1.79|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 29||1.79|0.35|0.573
92153283|NCT04362137|184191696|SUPERIORITY||Odds Ratio (OR)|0.75||||0.532|TWO_SIDED|95.0|0.31|1.83|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|Day 15||1.83|0.31|0.532
92153284|NCT04362137|184191696|SUPERIORITY||Odds Ratio (OR)|1.18||||0.764|TWO_SIDED|95.0|0.4|3.49|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|Day 29||3.49|0.40|0.764
92153285|NCT04362137|184191697|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.33|TWO_SIDED|95.0|0.9|1.37|||Proportional hazards model||Between group comparison using competing risk framework. A hazard ratio \> 1 favors the ruxolitinib 5 mg arm|||1.37|0.90|0.330
92153286|NCT04362137|184191698|SUPERIORITY||Least squares (LS) mean|-0.03|STANDARD_ERROR_OF_MEAN|0.144||0.831|TWO_SIDED|95.0|-0.31|0.25|||ANCOVA|||Day 15||0.25|-0.31|0.831
92153287|NCT04362137|184191698|SUPERIORITY||LS Mean|0.08|STANDARD_ERROR_OF_MEAN|0.155||0.624|TWO_SIDED|95.0|-0.23|0.38|||ANCOVA|||Day 29||0.38|-0.23|0.624
92153288|NCT04362137|184191699|SUPERIORITY||Odds Ratio (OR)|0.94||||0.944|TWO_SIDED|95.0|0.2|5.57|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|Day 15||5.57|0.20|0.944
92153289|NCT04362137|184191699|SUPERIORITY||Odds Ratio (OR)|1.21||||0.775|TWO_SIDED|95.0|0.35|5.11|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|Day 29||5.11|0.35|0.775
92153290|NCT04362137|184191700|SUPERIORITY||Odds Ratio (OR)|0.99||||0.987|TWO_SIDED|95.0|0.45|2.21|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|||2.21|0.45|0.987
92153291|NCT04362137|184191701|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.738|TWO_SIDED|95.0|0.84|1.28|||Proportional hazards model||Between group comparison using competing risk framework. A hazard ratio \> 1 favors the ruxolitinib 5 mg arm|||1.28|0.84|0.738
92153292|NCT04362137|184191702|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.869|TWO_SIDED|95.0|0.84|1.23|||Proportional hazards model||Between group comparison using competing risk framework. A hazard ratio \> 1 favors the ruxolitinib 5 mg arm|||1.23|0.84|0.869
92153293|NCT04362137|184191705|SUPERIORITY||Odds Ratio (OR)|0.61||||0.325|TWO_SIDED|95.0|0.23|1.63|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 15||1.63|0.23|0.325
92214700|NCT01346488|184329266|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
92214701|NCT01346488|184329266|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
92214702|NCT01346488|184329266|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
92214703|NCT01346488|184329266|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
92214704|NCT01346488|184329266|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
92336690|NCT02634983|184576151|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.92||0.323|TWO_SIDED|90.0|-0.64|2.5|||t-test, 2 sided|||Lung Perfusion||2.50|-0.64|0.3230
92153294|NCT04362137|184191705|SUPERIORITY||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.25|5.4||P-value was not estimable because \>97% patients fall into one category (responders) in both groups, and very few patients fall into the other one (non-responders), which made the logistic regression model fail to converge even with Firth's correction|Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 29||5.40|0.25|
92336691|NCT02634983|184576151|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|0.95||0.1717|TWO_SIDED|90.0|-0.29|2.97|||t-test, 2 sided|||Lung, Left Perfusion||2.97|-0.29|0.1717
92336692|NCT02634983|184576151|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|1.02||0.5031|TWO_SIDED|90.0|-1.05|2.43|||t-test, 2 sided|||Lung, Left Lower Lobe Perfusion||2.43|-1.05|0.5031
92336693|NCT02634983|184576151|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|1.03||0.076|TWO_SIDED|90.0|0.15|3.65|||t-test, 2 sided|||Lung, Left Upper Lobe Perfusion||3.65|0.15|0.0760
92336694|NCT02634983|184576151|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.93||0.5465|TWO_SIDED|90.0|-1.02|2.16|||t-test, 2 sided|||Lung, Right Perfusion||2.16|-1.02|0.5465
92214705|NCT01346488|184329267|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 12 (Remission)||||< 0.0001
92336695|NCT02634983|184576151|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|1.08||0.9913|TWO_SIDED|90.0|-1.85|1.87|||t-test, 2 sided|||Lung, Right Lower Lobe Perfusion||1.87|-1.85|0.9913
92336696|NCT02634983|184576151|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|1.51|STANDARD_ERROR_OF_MEAN|1.7||0.3837|TWO_SIDED|90.0|-1.39|4.4|||t-test, 2 sided|||Lung, Right Middle Lobe Perfusion||4.40|-1.39|0.3837
92336697|NCT02634983|184576151|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|0.94||0.3624|TWO_SIDED|90.0|-0.73|2.48|||t-test, 2 sided|||Lung, Right Upper Lobe Perfusion||2.48|-0.73|0.3624
92336698|NCT02634983|184576152|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|90.0|0.11|0.18|||t-test, 2 sided|||FEV1 Day 1 (0.25 hrs post-dose)||0.18|0.11|<0.0001
92214706|NCT01346488|184329267|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 24 (Remission)||||< 0.0001
92214707|NCT01346488|184329267|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 36 (Remission)||||< 0.0001
92214708|NCT01346488|184329267|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 48 (Remission)||||< 0.0001
92214709|NCT01346488|184329267|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at discontinuation of ADA therapy (Remission)||||< 0.0001
92214710|NCT01346488|184329267|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at final assessment (Remission)||||< 0.0001
92214711|NCT01346488|184329268|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
92214712|NCT01346488|184329268|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
92214713|NCT01346488|184329268|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
92214714|NCT01346488|184329268|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
92214715|NCT01346488|184329268|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
92214716|NCT01346488|184329268|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
92214717|NCT01346488|184329269|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 12 (Remission)||||< 0.0001
92214718|NCT01346488|184329269|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 24 (Remission)||||< 0.0001
92214719|NCT01346488|184329269|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 36 (Remission)||||< 0.0001
92214720|NCT01346488|184329269|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 48 (Remission)||||< 0.0001
92214721|NCT01346488|184329269|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at discontinuation of ADA therapy (Remission)||||< 0.0001
92214722|NCT01346488|184329269|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at final assessment (Remission)||||< 0.0001
92214723|NCT01346488|184329270|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
92214724|NCT01346488|184329270|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
92214725|NCT01346488|184329270|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
92214726|NCT01346488|184329270|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
92214727|NCT01346488|184329270|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
92398103|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.26||||0.1387|TWO_SIDED|95.0|0.77|6.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.63|0.77|0.1387
92398104|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.71||||0.313|TWO_SIDED|95.0|0.6|4.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.84|0.60|0.3130
92398105|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.32||||0.0392|TWO_SIDED|95.0|1.06|10.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.40|1.06|0.0392
92398106|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.7||||0.0135|TWO_SIDED|95.0|1.43|22.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||22.71|1.43|0.0135
92153295|NCT03556358|184191723|EQUIVALENCE|"Two one-sided hypothesis tests were performed for pCR in order to show that TX05 is equivalent to Herceptin:~* TEST 1: H0a: θ1 / θ2 \> 1.325 vs. H1a: θ1 / θ2 \< 1.325~* TEST 2: H0b: θ1 / θ2 \< 0.755 vs. H1b: θ1 / θ2 \> 0.755~Where θ1 is the proportion of pCR for subjects randomized to TX05 group, θ2 is the proportion of pCR for subjects randomized to Herceptin. Equivalence was concluded if the 95% CI of the risk ratio is completely contained within the pre-defined interval \[0.755, 1.325\]."|Risk Ratio (RR)|1.0783|||||TWO_SIDED|95.0|0.9185|1.2659||||||||1.2659|0.9185|
92153296|NCT05067933|184191737|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.953|||||||Wilcoxon rank sum tests|||||||0.953
92153297|NCT05067933|184191738|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.5|||||||Wilcoxon rank sum tests|||||||0.500
92153298|NCT05067933|184191739|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.912|||||||Wilcoxon rank sum tests|||||||0.912
92153299|NCT05067933|184191740|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.678|||||||Wilcoxon rank sum tests|||||||0.678
92153300|NCT05067933|184191741|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.257|||||||Wilcoxon rank sum tests|||||||0.257
92153301|NCT05067933|184191742|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.748|||||||Wilcoxon rank sum tests|||||||0.748
92153302|NCT05067933|184191743|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.946|||||||Wilcoxon rank sum tests|||||||0.946
92153303|NCT05067933|184191746|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.356|||||||Wilcoxon rank sum tests|||||||0.356
92153304|NCT05067933|184191747|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.267|||||||Wilcoxon rank sum tests|||||||0.267
92153305|NCT01373450|184191748|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.87||||0.024|TWO_SIDED|90.0|0.77|0.98|||t-test, 1 sided|||||0.98|0.77|0.024
92153306|NCT01373450|184191749|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.77||||0.004|TWO_SIDED|90.0|0.66|0.9|||t-test, 1 sided|||||0.90|0.66|0.004
92153307|NCT01373450|184191750|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.014|||<|0.001|TWO_SIDED|90.0|0.008|0.019|||t-test, 1 sided|||||0.019|0.008|<0.001
92153308|NCT01373450|184191751|SUPERIORITY_OR_OTHER||Intraclass Correlation Coefficient|0.92|||||TWO_SIDED|90.0|0.72|0.98||||||||0.98|0.72|
92153309|NCT01373450|184191752|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.77||||0.003|TWO_SIDED|90.0|0.66|0.9|||t-test, 1 sided|||||0.90|0.66|0.003
92153310|NCT01373450|184191752|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.58|||<|0.001|TWO_SIDED|90.0|0.45|0.74|||t-test, 1 sided|||||0.74|0.45|<0.001
92153311|NCT01373450|184191752|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.99||||0.473|TWO_SIDED|90.0|0.85|1.16|||t-test, 1 sided|||||1.16|0.85|0.473
92153312|NCT01373450|184191752|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.75||||0.049|TWO_SIDED|90.0|0.56|1.0|||t-test, 1 sided|||||1.00|0.56|0.049
92153313|NCT01373450|184191753|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.021|||<|0.001|TWO_SIDED|90.0|0.015|0.026|||t-test, 1 sided|||||0.026|0.015|<0.001
92153314|NCT01373450|184191753|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.03|||<|0.001|TWO_SIDED|90.0|0.021|0.038|||t-test, 1 sided|||||0.038|0.021|<0.001
92153315|NCT01373450|184191753|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.007||||0.0163|TWO_SIDED|90.0|0.002|0.012|||t-test, 1 sided|||||0.012|0.002|0.0163
92153316|NCT01373450|184191753|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.016||||0.0056|TWO_SIDED|90.0|0.006|0.026|||t-test, 1 sided|||||0.026|0.006|0.0056
92153317|NCT00550550|184191755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63|||=|0.001|TWO_SIDED|95.0|-2.6|-0.66|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.66|-2.60|=0.001
92153318|NCT00550550|184191756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||=|0.005|TWO_SIDED|95.0|-1.95|-0.45|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.45|-1.95|=0.005
92153319|NCT00550550|184191757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||=|0.066|TWO_SIDED|95.0|-0.88|0.03|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||0.03|-0.88|=0.066
92153320|NCT00550550|184191758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|||=|0.042|TWO_SIDED|95.0|-0.6|-0.03|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.03|-0.60|=0.042
92153321|NCT02459093|184191759|SUPERIORITY||Risk Ratio (RR)|0.61||||0.04|TWO_SIDED|95.0|0.37|0.99|||Chi-squared|||||0.99|0.37|0.04
92153322|NCT02459093|184191760|SUPERIORITY||Risk Ratio (RR)|0.6||||0.05|TWO_SIDED|95.0|0.36|1.01|||Chi-squared|||||1.01|0.36|0.05
92398107|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.85||||0.084|TWO_SIDED|95.0|0.87|9.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||9.36|0.87|0.0840
92398108|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|4.47||||0.0163|TWO_SIDED|95.0|1.32|15.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||15.17|1.32|0.0163
92398109|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.41||||0.5056|TWO_SIDED|95.0|0.52|3.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||3.84|0.52|0.5056
92153323|NCT01103960|184191780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1881|STANDARD_ERROR_OF_MEAN|0.803||0.007||95.0|0.6082|3.7681||This was the first step in the closed testing procedure of multiple endpoints. The p-value was \<0.05 so this test was considered confirmatory. Proceeding to the next step was allowed, testing the same endpoint in the subgroup of Chinese patients.|ANCOVA|||A5 minus T80/A5||3.7681|0.6082|0.007
92153324|NCT01103960|184191781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9195|STANDARD_ERROR_OF_MEAN|0.9015||0.034||95.0|0.1443|3.6947||This was the second step in the closed testing procedure of multiple endpoints. The p-value was again \<0.05 so this test was also considered confirmatory.|ANCOVA|||A5 minus T80/A5||3.6947|0.1443|0.034
92153325|NCT01103960|184191782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4879|STANDARD_ERROR_OF_MEAN|1.1217|<|0.001||95.0|2.2807|6.695|||ANCOVA|||A5 minus T80/A5||6.6950|2.2807|<0.001
92153326|NCT04921969|184191790|SUPERIORITY||Odds Ratio (OR)|4.74||||0.0001|TWO_SIDED|95.0|1.951|13.315||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||13.315|1.951|0.0001
92153327|NCT04921969|184191790|SUPERIORITY||Odds Ratio (OR)|10.72|||<|0.0001|TWO_SIDED|95.0|4.429|30.042||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||30.042|4.429|<0.0001
92153328|NCT04921969|184191791|SUPERIORITY||Odds Ratio (OR)|1.41||||0.4198|TWO_SIDED|95.0|0.61|3.268||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||3.268|0.610|0.4198
92153329|NCT04921969|184191791|SUPERIORITY||Odds Ratio (OR)|1.8||||0.1685|TWO_SIDED|95.0|0.779|4.174||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||4.174|0.779|0.1685
92153330|NCT01242176|184191810|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|101.67|STANDARD_DEVIATION|6.7|||TWO_SIDED|90.0|98.1|105.37|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV).|Ratio calculated as empa final formulation divided by empa trial formulation 2||105.37|98.10|
92153331|NCT01242176|184191811|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|99.46|STANDARD_DEVIATION|18.7|||TWO_SIDED|90.0|90.18|109.68|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV.|Ratio calculated as empa final formulation divided by empa trial formulation 2||109.68|90.18|
92153332|NCT01242176|184191812|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|101.8|STANDARD_DEVIATION|6.7|||TWO_SIDED|90.0|98.26|105.48|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV.|Ratio calculated as empa final formulation divided by empa trial formulation 2||105.48|98.26|
92153333|NCT00358215|184191813|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.871|TWO_SIDED|95.0|0.9|1.13||Stratification factors are: region and type of device (cardiac resynchronization therapy (CRT) with or without implantable cardioverter defibrillator (ICD), ICD without CRT, or none)|Stratified Log Rank||The hazard ratio and 95% confidence intervals are from the Cox proportional hazards model adjusted by the stratification factors.|||1.13|0.90|0.871
92153334|NCT00358215|184191814|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.512|TWO_SIDED|95.0|0.92|1.19||Stratification factors are: region and type of device (cardiac resynchronization therapy (CRT) with or without implantable cardioverter defibrillator (ICD), ICD without CRT, or none).|Stratified Log Rank||The hazard ratio and 95% confidence intervals are from the Cox proportional hazards model adjusted by the stratification factors.|||1.19|0.92|0.512
92214728|NCT01346488|184329270|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
92214729|NCT01621230|184329290|OTHER|The median (first and third quartile) lengths of the second stage of labor were estimated at 28min (15, 58) in women without epidural analgesia. Assuming a one-third increase in the length of the second stage to 37min due to epidural bupivacaine, a sample size of 155 per arm (310 total) was required for 80% power to detect such a difference using a two-sided Wilcoxon rank sum test.||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
92214730|NCT01621230|184329293|OTHER|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||.55
92214731|NCT01621230|184329294|OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||.57
92214732|NCT00733304|184329316|SUPERIORITY||Mean Difference (Net)|-0.43|STANDARD_ERROR_OF_MEAN|1.362|||TWO_SIDED|95.0|-3.18|2.31||Analysis of covariance (ANCOVA) model was used to perform statistical analysis based on treatment, visit, fixed effect terms etc.|ANCOVA|||Month 2 versus screening visit||2.31|-3.18|
92274051|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.003436|STANDARD_ERROR_OF_MEAN|0.002262||0.1301|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Discussion Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1301
92274052|NCT03593772|184450524|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.006022|STANDARD_ERROR_OF_MEAN|0.003697||0.1049|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Cohesion Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1049
92274053|NCT02795780|184450560|OTHER|||||||0.0166||||||No adjustments for multiplicity. No a priori threshold defined.|ANCOVA|Adjusted for baseline SUVr, age, and diagnosis group (AD/MCI)||Test of whether difference in least squares mean change is 0||||0.0166
92274054|NCT02795780|184450560|OTHER|||||||0.0108||||||No adjustments for multiplicity. No a priori threshold defined.|ANCOVA|Adjusted for baseline SUVr, age, and diagnosis group (AD/MCI)||Test of whether difference in least squares mean change is 0||||0.0108
92274055|NCT01364259|184450562|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.175|TWO_SIDED||||||Fisher Exact||Our odds ratio is equal to 0\*5/9\*2 because we have a zero cell in the two by two table. Hence the OR = 0.|||||0.175
92274056|NCT01164137|184450569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.87|TWO_SIDED|95.0|-0.98|0.84|||t-test, 2 sided|||||.84|-.98|.87
92274057|NCT01164137|184450570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.32|TWO_SIDED|95.0|-0.62|1.88|||t-test, 2 sided|||||1.88|-.62|.32
92274058|NCT01164137|184450571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21||||0.18|TWO_SIDED|95.0|-0.57|3.01|||t-test, 2 sided|||||3.01|-.57|.18
92274059|NCT01164137|184450572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.71||||0.11|TWO_SIDED|95.0|-0.39|3.81|||t-test, 2 sided|||||3.81|-.39|.11
92274060|NCT01164137|184450573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.85||||0.13|TWO_SIDED|95.0|-0.56|4.27|||t-test, 2 sided|||||4.27|-.56|.13
92274061|NCT03033069|184450584|SUPERIORITY||Least Squares (LS ) Mean Difference|-5.99|||=|0.0021|TWO_SIDED|95.0|-9.79|-2.19|||Mixed Model Repeated Measures (MMRM)|||MMRM analysis with an unstructured (UN) variance covariance structure was performed. The model included fixed class-effect terms for treatment, trial site, type of trauma (combat related Yes/No), visit week, and an interaction term of treatment by visit week and included the interaction term of baseline values of CAPS-5 total score by visit week as a covariate.||-2.19|-9.79|=0.0021
92274062|NCT03033069|184450584|SUPERIORITY||LS Mean Difference|-1.74|||=|0.3868|TWO_SIDED|95.0|-5.7|2.22|||MMRM|||MMRM analysis with an UN variance covariance structure was performed. The model included fixed class-effect terms for treatment, trial site, type of trauma (combat related Yes/No), visit week, and an interaction term of treatment by visit week and included the interaction term of baseline values of CAPS-5 total score by visit week as a covariate.||2.22|-5.70|=0.3868
92274063|NCT03033069|184450584|SUPERIORITY||LS Mean Difference|-0.91|||=|0.6399|TWO_SIDED|95.0|-4.74|2.92|||MMRM|||MMRM analysis with an UN variance covariance structure was performed. The model included fixed class-effect terms for treatment, trial site, type of trauma (combat related Yes/No), visit week, and an interaction term of treatment by visit week and included the interaction term of baseline values of CAPS-5 total score by visit week as a covariate.||2.92|-4.74|=0.6399
92274064|NCT03033069|184450584|SUPERIORITY||LS Mean Difference|-5.08|||=|0.0106|TWO_SIDED|95.0|-8.96|-1.2|||MMRM|||MMRM analysis with an UN variance covariance structure was performed. The model included fixed class-effect terms for treatment, trial site, type of trauma (combat related Yes/No), visit week, and an interaction term of treatment by visit week and included the interaction term of baseline values of CAPS-5 total score by visit week as a covariate.||-1.20|-8.96|=0.0106
92274065|NCT03033069|184450584|SUPERIORITY||LS Mean Difference|-4.24|||=|0.0384|TWO_SIDED|95.0|-8.26|-0.23|||MMRM|||MMRM analysis with an UN variance covariance structure was performed. The model included fixed class-effect terms for treatment, trial site, type of trauma (combat related Yes/No), visit week, and an interaction term of treatment by visit week and included the interaction term of baseline values of CAPS-5 total score by visit week as a covariate.||-0.23|-8.26|=0.0384
92274066|NCT00430638|184450585|SUPERIORITY_OR_OTHER||||||<|0.0001||||||No multiplicity adjustments|ANCOVA|The ANCOVA model included randomized treatment and baseline cuff blood pressure stage as factors and study baseline systolic BP value as a covariate.||Null hypothesis: For the entire efficacy population, Olmesartan had the same effect on change from baseline in systolic blood pressure at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
92274067|NCT00430638|184450586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|The ANCOVA Model included randomized treatment and baseline cuff BP stage as factors and study baseline diastolic BP as a covariate.||Null hypothesis: For the entire efficacy population, Olmesartan had the same effect on change from baseline in diastolic blood pressure at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
92274068|NCT00430638|184450587|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (male systolic blood pressure (SBP)): For the male efficacy population, Olmesartan had the same effect on change from baseline in systolic blood pressure at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
92274069|NCT00430638|184450587|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Males - diastolic blood pressure (DBP)): For the male efficacy population, Olmesartan had the same effect on change from baseline in diastolic blood pressure at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
92274070|NCT00430638|184450588|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Systolic blood pressure (SBP) - females): For the female efficacy population, Olmesartan had the same effect on change from baseline in systolic blood pressure at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
92274071|NCT00430638|184450588|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) - females): For the female efficacy population, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
92274072|NCT00430638|184450589|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis(Systolic blood pressure (SBP) - less than 65 years of age): For the efficacy population \< 65 years of age, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
92274073|NCT00430638|184450589|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) - less than 65 years of age): For the efficacy population \< 65 years of age, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
92274074|NCT00430638|184450590|SUPERIORITY_OR_OTHER|||||||0.0125||95.0|||||ANCOVA|||Null hypothesis (Systolic blood pressure (SBP) - \> or equal to 65 years old): For the efficacy population \> or = to 65 years of age, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||0.0125
92274075|NCT00430638|184450590|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) \> or equal to 65): For the efficacy population \> or = to 65 years of age, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||0.0006
92274076|NCT00430638|184450591|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Systolic blood pressure (SBP) - Black participants): For the Black efficacy population, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
92274077|NCT00430638|184450591|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) - Black participants): For the Black efficacy population, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
92274078|NCT00430638|184450592|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis(Systolic blood pressure (SBP) - non-Black participants): For the Non-Black efficacy population, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
92274079|NCT00430638|184450592|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis(Diastolic blood pressure (DBP) - non-Black participants): For the Non-Black efficacy population, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
92274080|NCT00430638|184450593|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis(Systolic blood pressure (SBP) - Stage 1 hypertensive participants): For the Stage 1 efficacy population, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
92274081|NCT00430638|184450593|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) - Stage 1 hypertensive participants): For the Stage 1 efficacy population, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
92153335|NCT00358215|184191815|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.922|TWO_SIDED|95.0|0.89|1.14||Stratification factors are: region and type of device (cardiac resynchronization therapy (CRT) with or without implantable cardioverter defibrillator (ICD), ICD without CRT, or none).|Stratified Log Rank||The hazard ratio and 95% confidence intervals are from the Cox proportional hazards model adjusted by the stratification factors.|||1.14|0.89|0.922
92274082|NCT00430638|184450594|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Systolic blood pressure (SBP) - Stage 2 hypertensive participants): For the Stage 2 efficacy population, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
92274083|NCT00430638|184450594|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) - Stage 2 hypertensive participants): For the Stage 2 efficacy population, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
92274084|NCT01529749|184450595|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274085|NCT01529749|184450596|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274086|NCT01529749|184450597|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274087|NCT01529749|184450598|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274088|NCT01529749|184450599|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274089|NCT01529749|184450600|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274090|NCT01529749|184450601|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92153336|NCT00358215|184191816|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|0.79||0.005|TWO_SIDED|95.0|0.65|3.75|||Mixed Models Analysis|Mixed effects model estimating treatment effect adjusted for region, type of device, and Baseline KCCQ score.||||3.75|0.65|0.005
92274091|NCT01529749|184450602|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274092|NCT01529749|184450603|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
92274093|NCT01529749|184450604|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274094|NCT01529749|184450605|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274095|NCT01529749|184450606|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274096|NCT01529749|184450607|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274097|NCT01529749|184450608|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274098|NCT01529749|184450609|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
92274099|NCT01529749|184450610|SUPERIORITY|||||||0.49|||||||Chi-squared, Corrected|||||||0.49
92274100|NCT01529749|184450611|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|||||||0.02
92274101|NCT02623426|184450623|SUPERIORITY||Ratio of the proportion of baseline|1.36|||<|0.001|TWO_SIDED|95.0|1.19|1.56||A Bonferroni correction was used to adjust for the co-primary hypotheses;a two-sided type I error rate of 0.05/2 = 0.025 was used to determine statistical significance for the two pairwise comparisons (Ozurdex vs Methotrexate and Ozurdex vs Lucentis)|mixed effects model||The treatment effect is the ratio of the proportions of baseline retinal thickness (Methotrexate/Ozurdex). Values greater than 1 indicate less reduction in retinal thickness in the Methotrexate treated group compared to Ozurdex|A sample size of 240 was calculated to provide 91% power to detect a 25% reduction for Ozurdex, a 38% reduction for Methotrexate and Lucentis assuming a standard deviation of 0.33, 25% with bilateral disease, between-eye correlation of 0.4, 10% loss to follow-up, and a two-sided type 1 error rate of 0.025 for each pairwise comparison.||1.56|1.19|<0.001
92274102|NCT02623426|184450623|SUPERIORITY||Ratio of the proportion of BL|1.22||||0.012|TWO_SIDED|95.0|1.04|1.43||A Bonferroni correction was used to adjust for the co-primary hypotheses;a two-sided type I error rate of 0.05/2 = 0.025 was used to determine statistical significance for the two pairwise comparisons (Ozurdex vs Methotrexate and Ozurdex vs Lucentis)|mixed effects model||The treatment effect is the ratio of the proportions of baseline retinal thickness (Lucentis/Ozurdex) at 12 weeks. Values greater than 1 indicate less reduction in retinal thickness in the Lucentis treated group compared to Ozurdex|A sample size of 240 was calculated to provide 91% power to detect a 25% reduction for Ozurdex, a 38% reduction for methotrexate and Lucentis assuming a standard deviation of 0.33, 25% with bilateral disease, between-eye correlation of 0.4, 10% loss to follow-up, and a two-sided type 1 error rate of 0.025 for each pairwise comparison.||1.43|1.04|0.012
92274103|NCT02094937|184450624|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.31|2.49||||||||2.49|0.31|
92274104|NCT02094937|184450624|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.28|2.19||||||||2.19|0.28|
92274105|NCT02094937|184450625|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93|||||TWO_SIDED|95.0|0.9|4.12||||||||4.12|0.90|
92274106|NCT02094937|184450625|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|0.66|3.2||||||||3.20|0.66|
92274107|NCT05166421|184450650|OTHER||Geometric mean ratio|0.938|||||TWO_SIDED|90.0|0.8458|1.0403||||||Statistical Comparison of AUCinf of AZD7442||1.0403|0.8458|
92274108|NCT05166421|184450650|OTHER||Geometric mean ratio|0.9968|||||TWO_SIDED|90.0|0.898|1.1066||||||Statistical Comparison of AUCinf of AZD7442||1.1066|0.8980|
92274109|NCT05166421|184450650|OTHER||Geometric mean ratio|1.0627|||||TWO_SIDED|90.0|0.9579|1.179||||||Statistical Comparison of AUCinf of AZD7442||1.1790|0.9579|
92274110|NCT05166421|184450650|OTHER||Geometric mean ratio|0.8992|||||TWO_SIDED|90.0|0.8107|0.9974||||||Statistical Comparison of AUCinf of AZD8895||0.9974|0.8107|
92274111|NCT05166421|184450650|OTHER||Geometric mean ratio|0.9826|||||TWO_SIDED|90.0|0.8854|1.0905||||||Statistical Comparison of AUCinf of AZD8895||1.0905|0.8854|
92274112|NCT05166421|184450650|OTHER||Geometric mean ratio|1.0928|||||TWO_SIDED|90.0|0.9853|1.212||||||Statistical Comparison of AUCinf of AZD8895||1.2120|0.9853|
92274113|NCT05166421|184450650|OTHER||Geometric mean ratio|1.0039|||||TWO_SIDED|90.0|0.9029|1.1161||||||Statistical Comparison of AUCinf of AZD1061||1.1161|0.9029|
92274114|NCT05166421|184450650|OTHER||Geometric mean ratio|1.0336|||||TWO_SIDED|90.0|0.9288|1.1503||||||Statistical Comparison of AUCinf of AZD1061||1.1503|0.9288|
92274115|NCT05166421|184450650|OTHER||Geometric mean ratio|1.0296|||||TWO_SIDED|90.0|0.9258|1.1451||||||Statistical Comparison of AUCinf of AZD1061||1.1451|0.9258|
92274116|NCT05166421|184450651|OTHER||Geometric mean ratio|0.9418|||||TWO_SIDED|90.0|0.8512|1.0421||||||Statistical Comparison of AUClast of AZD7442||1.0421|0.8512|
92274117|NCT05166421|184450651|OTHER||Geometric mean ratio|0.9973|||||TWO_SIDED|90.0|0.9004|1.1046||||||Statistical Comparison of AUClast of AZD7442||1.1046|0.9004|
92274118|NCT05166421|184450651|OTHER||Geometric mean ratio|1.0589|||||TWO_SIDED|90.0|0.9559|1.173||||||Statistical Comparison of AUClast of AZD7442||1.1730|0.9559|
92274119|NCT05166421|184450651|OTHER||Geometric mean ratio|0.8812|||||TWO_SIDED|90.0|0.7933|0.9788||||||Statistical Comparison of AUClast of AZD8895||0.9788|0.7933|
92274120|NCT05166421|184450651|OTHER||Geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.8633|1.0674||||||Statistical Comparison of AUClast of AZD8895||1.0674|0.8633|
92274121|NCT05166421|184450651|OTHER||Geometric mean ratio|1.0894|||||TWO_SIDED|90.0|0.9796|1.2116||||||Statistical Comparison of AUClast of AZD8895||1.2116|0.9796|
92274122|NCT05166421|184450651|OTHER||Geometric mean ratio|1.0065|||||TWO_SIDED|90.0|0.9061|1.118||||||Statistical Comparison of AUClast of AZD1061||1.1180|0.9061|
92274123|NCT05166421|184450651|OTHER||Geometric mean ratio|1.0293|||||TWO_SIDED|90.0|0.9257|1.1446||||||Statistical Comparison of AUClast of AZD1061||1.1446|0.9257|
92274124|NCT05166421|184450651|OTHER||Geometric mean ratio|1.0227|||||TWO_SIDED|90.0|0.9196|1.1373||||||Statistical Comparison of AUClast of AZD1061||1.1373|0.9196|
92274125|NCT05166421|184450652|OTHER||Geometric mean ratio|1.0308|||||TWO_SIDED|90.0|0.9451|1.1243||||||Statistical Comparison of Cmax of AZD7442||1.1243|0.9451|
92398110|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.69||||0.3358|TWO_SIDED|95.0|0.58|4.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||4.90|0.58|0.3358
92153337|NCT00358215|184191817|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.29|STANDARD_ERROR_OF_MEAN|0.9||0.011|TWO_SIDED|95.0|0.53|4.05|||Mixed Models Analysis|Mixed effects model estimating treatment effect adjusted for region, type of device, and Baseline KCCQ score.||||4.05|0.53|0.011
92153338|NCT00871351|184191818|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-10.6|||<|0.0001|TWO_SIDED|95.0|-15.4|-5.8|||Hochberg's method|||||-5.8|-15.4|<0.0001
92153339|NCT00871351|184191818|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-26.5|||<|0.0001|TWO_SIDED|95.0|-31.8|-21.2|||Hochberg's method|||||-21.2|-31.8|<0.0001
92153340|NCT00871351|184191819|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||Hochberg's method|||||||0.0003
92153341|NCT00871351|184191819|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Hochberg's method|||||||<0.0001
92153342|NCT01118455|184191825|SUPERIORITY_OR_OTHER|||||||0.507|||||||Cochran-Mantel-Haenszel|||||||0.507
92153343|NCT01118455|184191825|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Cochran-Mantel-Haenszel|||||||0.220
92153344|NCT01118455|184191825|SUPERIORITY_OR_OTHER|||||||0.168||95.0|||||Cochran-Mantel-Haenszel|||||||0.168
92153345|NCT01118455|184191825|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Cochran-Mantel-Haenszel|||||||0.620
92274126|NCT05166421|184450652|OTHER||Geometric mean ratio|0.993|||||TWO_SIDED|90.0|0.9112|1.0822||||||Statistical Comparison of Cmax of AZD7442||1.0822|0.9112|
92274127|NCT05166421|184450652|OTHER||Geometric mean ratio|0.9634|||||TWO_SIDED|90.0|0.8833|1.0507||||||Statistical Comparison of Cmax of AZD7442||1.0507|0.8833|
92274128|NCT05166421|184450652|OTHER||Geometric mean ratio|0.9701|||||TWO_SIDED|90.0|0.8894|1.0582||||||Statistical Comparison of Cmax of AZD8895||1.0582|0.8894|
92274129|NCT05166421|184450652|OTHER||Geometric mean ratio|0.9629|||||TWO_SIDED|90.0|0.8835|1.0494||||||Statistical Comparison of Cmax of AZD8895||1.0494|0.8835|
92274130|NCT05166421|184450652|OTHER||Geometric mean ratio|0.9926|||||TWO_SIDED|90.0|0.91|1.0826||||||Statistical Comparison of Cmax of AZD8895||1.0826|0.9100|
92274131|NCT05166421|184450652|OTHER||Geometric mean ratio|1.0976|||||TWO_SIDED|90.0|0.9992|1.2057||||||Statistical Comparison of Cmax of AZD1061||1.2057|0.9992|
92274132|NCT05166421|184450652|OTHER||Geometric mean ratio|1.0195|||||TWO_SIDED|90.0|0.929|1.119||||||Statistical Comparison of Cmax of AZD1061||1.1190|0.9290|
92274133|NCT05166421|184450652|OTHER||Geometric mean ratio|0.9289|||||TWO_SIDED|90.0|0.8457|1.0203||||||Statistical Comparison of Cmax of AZD1061||1.0203|0.8457|
92274134|NCT02290028|184450677|SUPERIORITY||||||<|0.0001|||||||Exact, binomial|||Primary endpoint 1 was evaluated by performing an exact, binomial test comparing the observed proportion (overall complication-free rate at 6 months) to the performance goal of 90.0%, with Type I error (alpha) of 0.025 and power of 80%. The lower, two-sided 95% confidence bound for the overall complication-free rate must be greater than 90.0%.||||<0.0001
92274135|NCT02290028|184450678|SUPERIORITY||||||=|0.002|||||||Exact, binomial|||Primary endpoint 2 was evaluated by performing an exact, binomial test comparing an observed proportion (rate of acceptable LV pacing thresholds at the permanently programmed pacing vector at 3 months) to 88%, with Type I error (alpha) of 0.025 and power of 80%. The lower, two-sided 95% confidence bound for the percentage of subjects with an acceptable LV pacing threshold in the permanently programmed pacing vector must be greater than 88.0%.||||=0.002
92274136|NCT02290028|184450679|SUPERIORITY|||||||||||||||||Primary endpoint 3 will be evaluated by performing an exact, binomial test comparing the observed proportion (overall complication-free rate at 5 years) to the performance goal of 92.5%, with Type I error (alpha) of 0.025 and power of 80%. The lower, two-sided 95% confidence bound for the overall complication-free rate must be greater than 92.5%|On September 24, 2019, BIOTRONIK received FDA approval to transition the ongoing Sentus Post Approval Registry to a new EP PASSION real-world data methodology. As of study closure, the number of subjects with complete data required to perform the hypothesis test was not met. Therefore, this outcome measure was not analyzed.|||
92274137|NCT00830063|184450710|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.24|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.76|-0.72||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Least square (LS) mean was estimated from the corresponding analysis of covariance (ANCOVA) model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95 percent (%) confidence interval (CI) was calculated on LS mean difference.||-0.72|-1.76|<0.001
92274138|NCT00830063|184450710|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.52|-0.49||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.49|-1.52|<0.001
92274139|NCT00830063|184450710|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.26||0.007|TWO_SIDED|95.0|-1.23|-0.2||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.20|-1.23|0.007
92214733|NCT00733304|184329316|SUPERIORITY||Mean Difference (Net)|-3.8|STANDARD_ERROR_OF_MEAN|1.659|||TWO_SIDED|95.0|-7.13|-0.46||Analysis of covariance (ANCOVA) model was used to perform statistical analysis based on treatment, visit, fixed effect terms etc.|ANCOVA|||Month 5 versus screening visit||-0.46|-7.13|
92153346|NCT01118455|184191826|SUPERIORITY_OR_OTHER|||||||0.727|||||||Wilcoxon (Mann-Whitney)|||||||0.727
92153347|NCT01118455|184191826|SUPERIORITY_OR_OTHER|||||||0.217|||||||Wilcoxon (Mann-Whitney)|||||||0.217
92153348|NCT01118455|184191826|SUPERIORITY_OR_OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.270
92153349|NCT01118455|184191826|SUPERIORITY_OR_OTHER|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||||||0.036
92153350|NCT01118455|184191827|SUPERIORITY_OR_OTHER|||||||0.448||95.0|||||t-test, 2 sided|||||||0.448
92153351|NCT01118455|184191827|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||t-test, 2 sided|||||||0.025
92153352|NCT01118455|184191827|SUPERIORITY_OR_OTHER|||||||0.799|||||||t-test, 2 sided|||||||0.799
92153353|NCT01118455|184191827|SUPERIORITY_OR_OTHER|||||||0.142|||||||t-test, 2 sided|||||||0.142
92153354|NCT01118455|184191828|SUPERIORITY_OR_OTHER|||||||0.714||95.0|||||t-test, 2 sided|||||||0.714
92153355|NCT01118455|184191828|SUPERIORITY_OR_OTHER|||||||0.426||95.0|||||t-test, 2 sided|||||||0.426
92153356|NCT01118455|184191828|SUPERIORITY_OR_OTHER|||||||0.467|||||||t-test, 2 sided|||||||0.467
92153357|NCT01118455|184191828|SUPERIORITY_OR_OTHER|||||||0.654|||||||t-test, 2 sided|||||||0.654
92153358|NCT01118455|184191829|SUPERIORITY_OR_OTHER|||||||0.691|||||||ANOVA|||||||0.691
92153359|NCT01118455|184191829|SUPERIORITY_OR_OTHER|||||||0.494|||||||ANOVA|||||||0.494
92214734|NCT00733304|184329316|SUPERIORITY||Mean Difference (Net)|-4.15|STANDARD_ERROR_OF_MEAN|1.672|||TWO_SIDED|95.0|-7.52|-0.78||Analysis of covariance (ANCOVA) model was used to perform statistical analysis based on treatment, visit, fixed effect terms etc.|ANCOVA|||Month 2 versus screening visit||-0.78|-7.52|
92214735|NCT00733304|184329316|SUPERIORITY||Mean Difference (Net)|-4.03|STANDARD_ERROR_OF_MEAN|1.74|||TWO_SIDED|95.0|-7.53|0.53||Analysis of covariance (ANCOVA) model was used to perform statistical analysis based on treatment, visit, fixed effect terms etc.|ANCOVA|||Month 5 versus screening visit||0.53|-7.53|
92214736|NCT00733304|184329317|SUPERIORITY||Mean Difference (Net)|8.28|STANDARD_ERROR_OF_MEAN|16.899|||TWO_SIDED|95.0|-25.72|42.29||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||For Month 1 versus Screening visit||42.29|-25.72|
92214737|NCT00733304|184329317|SUPERIORITY||Mean Difference (Net)|-1.21|STANDARD_ERROR_OF_MEAN|17.177|||TWO_SIDED|95.0|-35.73|33.31||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 2 versus Screening visit||33.31|-35.73|
92214738|NCT00733304|184329317|SUPERIORITY||Mean Difference (Net)|-5.11|STANDARD_ERROR_OF_MEAN|17.958|||TWO_SIDED|95.0|-41.08|30.86||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 3 versus Screening visit||30.86|-41.08|
92214739|NCT00733304|184329317|SUPERIORITY||Mean Difference (Net)|-9.92|STANDARD_ERROR_OF_MEAN|18.996|||TWO_SIDED|95.0|-47.83|28.0||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 4 versus Screening visit||28.00|-47.83|
92214740|NCT00733304|184329317|SUPERIORITY||Mean Difference (Net)|2.42|STANDARD_ERROR_OF_MEAN|18.996|||TWO_SIDED|95.0|-35.5|40.33||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 5 versus Screening visit||40.33|-35.50|
92214741|NCT00733304|184329317|SUPERIORITY||Mean Difference (Net)|9.05|STANDARD_ERROR_OF_MEAN|20.931|||TWO_SIDED|95.0|-33.09|51.2||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 1 versus Screening visit||51.20|-33.09|
92214742|NCT00733304|184329317|SUPERIORITY||Mean Difference (Net)|-1.24|STANDARD_ERROR_OF_MEAN|21.29|||TWO_SIDED|95.0|-44.05|41.57||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 2 versus Screening visit||41.57|-44.05|
92214743|NCT00733304|184329317|SUPERIORITY||Mean Difference (Net)|15.39|STANDARD_ERROR_OF_MEAN|21.757|||TWO_SIDED|95.0|-28.28|59.06||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 3 versus Screening visit||59.06|-28.28|
92214744|NCT00733304|184329317|SUPERIORITY||Mean Difference (Net)|-16.82|STANDARD_ERROR_OF_MEAN|22.183|||TWO_SIDED|95.0|-61.28|27.63||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 4 versus Screening visit||27.63|-61.28|
92214745|NCT00733304|184329317|SUPERIORITY||Mean Difference (Net)|-2.16|STANDARD_ERROR_OF_MEAN|21.757|||TWO_SIDED|95.0|-45.83|41.51||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 5 versus Screening visit||41.51|-45.83|
92214746|NCT02856893|184329339|OTHER|The decision rule is based on confidence intervals. The treatment strategy will be considered feasible (H0 is rejected) if the lower bound of the 84% two-sided confidence interval of the PFS rate at 18 months is greater than 40%.|Kaplan-Meier survival rate|67.2|||||TWO_SIDED|84.0|56.4|75.9|||||"The population parameter is PFS Rate at 18 months in the Gefitinib till + blood test/progression then Osimertinib arm. The decision rule is based on the lower bound of the estimated confidence interval around the point estimate."|Each arm will be assessed individually against a historical control with a single proportion test. The test is designed to reject a PFS rate at 18 months of 40% (null hypothesis) at the 0.08 significance level. Under the alternative hypothesis of a PFS rate at 18 months of 60%, 49 patients are required to reach a power of 84%.||75.9|56.4|
92274140|NCT00830063|184450710|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.26||0.068|TWO_SIDED|95.0|-0.99|0.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.03|-0.99|0.068
92274141|NCT00830063|184450711|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.25|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.73|-0.77||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.77|-1.73|<0.001
92274142|NCT00830063|184450711|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.03|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.51|-0.55||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.55|-1.51|<0.001
92274143|NCT00830063|184450711|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.24||0.002|TWO_SIDED|95.0|-1.24|-0.28||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.28|-1.24|0.002
92274144|NCT00830063|184450711|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.24||0.03|TWO_SIDED|95.0|-1.01|-0.05||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.05|-1.01|0.030
92274145|NCT00830063|184450712|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.5|-0.16||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.16|-0.50|<0.001
92274146|NCT00830063|184450712|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.09||0.014|TWO_SIDED|95.0|-0.39|-0.04||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.04|-0.39|0.014
92274147|NCT00830063|184450712|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.09||0.026|TWO_SIDED|95.0|-0.36|-0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.02|-0.36|0.026
92274148|NCT00830063|184450712|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.09||0.349|TWO_SIDED|95.0|-0.25|0.09||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.09|-0.25|0.349
92274149|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.24||0.355|TWO_SIDED|95.0|-0.69|0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.25|-0.69|0.355
92274150|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.24||0.017|TWO_SIDED|95.0|-1.04|-0.1||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.10|-1.04|0.017
92274151|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.56|STANDARD_ERROR_OF_MEAN|0.24||0.02|TWO_SIDED|95.0|0.09|1.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||1.03|0.09|0.020
92274152|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.24||0.388|TWO_SIDED|95.0|-0.26|0.67||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.67|-0.26|0.388
92274153|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.65|-0.7||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.70|-1.65|<0.001
92153360|NCT01118455|184191829|SUPERIORITY_OR_OTHER|||||||0.343|||||||ANOVA|||||||0.343
92153361|NCT01118455|184191829|SUPERIORITY_OR_OTHER|||||||0.295|||||||ANOVA|||||||0.295
92153362|NCT01421589|184191873|SUPERIORITY_OR_OTHER|||||||0.02|||||||Regression, Linear|||Univariate regression analyses was performed to assess the relationship between change in skeletal muscle IGF-1 mRNA expression after 12 weeks treatment with rhGH and change in ViPCr.||||0.02
92153363|NCT01421589|184191874|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92153364|NCT01421589|184191875|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92153365|NCT01421589|184191876|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92153366|NCT01421589|184191877|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92153367|NCT01421589|184191878|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92153368|NCT01421589|184191879|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92274154|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.07|-1.13||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.13|-2.07|<0.001
92214747|NCT02856893|184329339|OTHER|The decision rule is based on confidence intervals. The treatment strategy will be considered feasible (H0 is rejected) if the lower bound of the 84% two-sided confidence interval of the PFS rate at 18 months is greater than 40%.|Kaplan-Meier survival rate|53.5|||||TWO_SIDED|84.0|42.3|63.5|||||"The population parameter is PFS Rate at 18 months in the Gefitinib till progression than Osimertinib arm. The decision rule is based on the lower bound of the estimated confidence interval around the point estimate."|Each arm will be assessed individually against a historical control with a single proportion test. The test is designed to reject a PFS rate at 18 months of 40% (null hypothesis) at the 0.08 significance level. Under the alternative hypothesis of a PFS rate at 18 months of 60%, 49 patients are required to reach a power of 84%.||63.5|42.3|
92214748|NCT00528567|184329348|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.181|TWO_SIDED|95.0|0.72|1.07|||Log Rank|Stratification factors were axillary nodal status, choice of adjuvant chemotherapy, hormone receptor status, surgery.||||1.07|0.72|0.1810
92214749|NCT00528567|184329350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.5247|TWO_SIDED|95.0|0.74|1.17|||Log Rank|Stratification factors are Axillary nodal status, Choice of adjuvant chemotherapy, Hormone receptor status, Surgery||||1.17|0.74|0.5247
92214750|NCT00528567|184329352|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1966|TWO_SIDED|95.0|0.71|1.07|||Log Rank||Stratification factors were axillary nodal status, choice of adjuvant chemotherapy, hormone receptor status, surgery.|||1.07|0.71|0.1966
92214751|NCT00528567|184329353|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.2318|TWO_SIDED|95.0|0.64|1.12|||Log Rank|||||1.12|0.64|0.2318
92214752|NCT00528567|184329356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.2792|TWO_SIDED|95.0|0.72|1.1|||Log Rank||Stratification factors were axillary nodal status, choice of adjuvant chemotherapy, hormone receptor status, surgery.|||1.10|0.72|0.2792
92214753|NCT00528567|184329358|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1832|TWO_SIDED|95.0|0.72|1.07|||Log Rank||Stratification factors were axillary nodal status, choice of adjuvant chemotherapy, hormone receptor status, surgery.|||1.07|0.72|0.1832
92214754|NCT00528567|184329360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.3309|TWO_SIDED|95.0|0.72|1.12|||Log Rank||Stratification factors were axillary nodal status, choice of adjuvant chemotherapy, hormone receptor status, surgery.|||1.12|0.72|0.3309
92214755|NCT01284062|184329366|SUPERIORITY_OR_OTHER||Least squares (LS) mean|0.41|||||TWO_SIDED|80.0|0.225|0.766|||||LS mean and confidence interval (CI) were based on back log-transformation of those from the analysis of covariance (ANCOVA) model.|||0.766|0.225|
92214756|NCT01284062|184329366|SUPERIORITY_OR_OTHER||LS mean|0.29|||||TWO_SIDED|80.0|0.187|0.446|||||LS mean and CI were based on back log-transformation of those from the ANCOVA model.|||0.446|0.187|
92214757|NCT01284062|184329366|SUPERIORITY_OR_OTHER||LS mean|0.79|||||TWO_SIDED|80.0|0.517|1.203|||||LS mean and CI were based on back log-transformation of those from the ANCOVA model.|||1.203|0.517|
92214758|NCT01284062|184329366|SUPERIORITY_OR_OTHER||LS mean|1.24|||||TWO_SIDED|80.0|0.794|1.949|||||LS mean and CI were based on back log-transformation of those from the ANCOVA model.|||1.949|0.794|
92214759|NCT01284062|184329366|SUPERIORITY_OR_OTHER||LS mean ratio|0.7||||0.532|TWO_SIDED|80.0|0.329|1.472|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||1.472|0.329|0.5320
92274155|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.24||0.274|TWO_SIDED|95.0|-0.73|0.21||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.21|-0.73|0.274
92214760|NCT01284062|184329366|SUPERIORITY_OR_OTHER||LS mean ratio|1.9||||0.27|TWO_SIDED|80.0|0.9|4.013|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||4.013|0.900|0.2700
92214761|NCT01284062|184329366|SUPERIORITY_OR_OTHER||LS mean ratio|3.0||||0.0666|TWO_SIDED|80.0|1.403|6.409|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||6.409|1.403|0.0666
92214762|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.7|||||TWO_SIDED|80.0|0.466|1.048||||||Week 2: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.048|0.466|
92214763|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.81|||||TWO_SIDED|80.0|0.552|1.185||||||Week 2: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.185|0.552|
92214764|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.71|||||TWO_SIDED|80.0|0.488|1.027||||||Week 2: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.027|0.488|
92214765|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.77|||||TWO_SIDED|80.0|0.5|1.195||||||Week 2: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.195|0.500|
92214766|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.92|||||TWO_SIDED|80.0|0.631|1.328||||||Week 4: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.328|0.631|
92214767|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.47|||||TWO_SIDED|80.0|0.339|0.655||||||Week 4: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||0.655|0.339|
92214768|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.92|||||TWO_SIDED|80.0|0.669|1.269||||||Week 4: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.269|0.669|
92214769|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.55|||||TWO_SIDED|80.0|0.388|0.779||||||Week 4: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||0.779|0.388|
92214770|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.78|||||TWO_SIDED|80.0|0.454|1.331||||||Week 8: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.331|0.454|
92274156|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.24||0.004|TWO_SIDED|95.0|-1.16|-0.22||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.22|-1.16|0.004
92398111|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.05||||0.0696|TWO_SIDED|95.0|0.91|10.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.18|0.91|0.0696
92398112|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.8||||0.0794|TWO_SIDED|95.0|0.89|8.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.82|0.89|0.0794
92398113|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|7.32||||0.0149|TWO_SIDED|95.0|1.48|36.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||36.28|1.48|0.0149
92398114|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|4.37||||0.0377|TWO_SIDED|95.0|1.09|17.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||17.59|1.09|0.0377
92398115|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.32||||0.0454|TWO_SIDED|95.0|1.03|10.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.77|1.03|0.0454
92398116|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.77||||0.039|TWO_SIDED|95.0|1.07|13.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||13.26|1.07|0.0390
92398117|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.12||||0.1947|TWO_SIDED|95.0|0.68|6.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.64|0.68|0.1947
92398118|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.79||||0.2913|TWO_SIDED|95.0|0.61|5.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.25|0.61|0.2913
92398119|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.21||||0.1665|TWO_SIDED|95.0|0.72|6.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.82|0.72|0.1665
92153369|NCT00114634|184191913|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||||||1.0
92153370|NCT02223065|184191919|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|0.975||||0.495|TWO_SIDED|90.0|0.915|1.038|||ANOVA|||||1.038|0.915|0.4950
92153371|NCT02223065|184191920|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|0.993||||0.865|TWO_SIDED|90.0|0.932|1.06|||ANOVA|||||1.060|0.932|0.8650
92153372|NCT02223065|184191921|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|1.022||||0.2344|TWO_SIDED|90.0|0.991|1.054|||ANOVA|||||1.054|0.991|0.2344
92153373|NCT02223065|184191922|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|1.016||||0.2458|TWO_SIDED|90.0|0.993|1.038|||ANOVA|||||1.038|0.993|0.2458
92153374|NCT02223065|184191923|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|1.024||||0.1947|TWO_SIDED|90.0|0.993|1.056|||ANOVA|||||1.056|0.993|0.1947
92153375|NCT02223065|184191924|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|1.013||||0.3191|TWO_SIDED|90.0|0.992|1.034|||ANOVA|||||1.034|0.992|0.3191
92153376|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.4|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.4
92153377|NCT01614847|184191937|EQUIVALENCE|two-tailed, alpha = 0.05||||||0.109|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.109
92153378|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.779|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.779
92153379|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.262|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.262
92153380|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.15|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.150
92274157|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.25|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.74|-0.75||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.75|-1.74|<0.001
92398120|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|13.41||||0.0157|TWO_SIDED|95.0|1.63|110.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||110.3|1.63|0.0157
92153381|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.726|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.726
92153382|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.055|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.055
92153383|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.945|||||||Wilcoxon (Mann-Whitney)|df=7||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.945
92153384|NCT01614847|184191937|EQUIVALENCE|Alpha = 0.05||||||0.844|||||||Wilcoxon (Mann-Whitney)|df=7||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.844
92153385|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.945||||||df=7|Wilcoxon (Mann-Whitney)|||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.945
92153386|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.383||||||Alpha = 0.05|Wilcoxon (Mann-Whitney)|df=7||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.383
92153387|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.383|||||||Wilcoxon (Mann-Whitney)|df=7||Mean change in osmolarity from baseline. H0: No change (e.g. mean change = 0) H1: Significant change (mean change ≠ 0)||||0.383
92153388|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.672|||||||Wilcoxon (Mann-Whitney)|df=7||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.672
92153389|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.107|||||||Wilcoxon (Mann-Whitney)|df=7||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.107
92153390|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.64|||||||Wilcoxon (Mann-Whitney)|df=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.64
92153391|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.04|||||||Wilcoxon (Mann-Whitney)|df=14||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.040
92153392|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.2|||||||Wilcoxon (Mann-Whitney)|df=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.20
92153393|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.15|||||||Wilcoxon (Mann-Whitney)|df-=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.150
92153394|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.73|||||||Wilcoxon (Mann-Whitney)|df=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.730
92153395|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.89|||||||Wilcoxon (Mann-Whitney)|df=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.89
92153396|NCT01614847|184191937|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.89|||||||Wilcoxon (Mann-Whitney)|df=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.89
92153397|NCT03662997|184191941|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.046||||||Five-layer vs Hydrocellular arm, Weeks 1 \& 3|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||0.046
92153398|NCT03662997|184191941|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.56||||||Five-layer vs Hydrocellular arm; Weeks 2 \& 4|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||0.56
92153399|NCT03662997|184191941|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.01||||||Five-layer vs Hydropolymer arm; Weeks 1 \& 3|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||0.010
92214771|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.36|||||TWO_SIDED|80.0|0.236|0.553||||||Week 8: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||0.553|0.236|
92214772|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|1.14|||||TWO_SIDED|80.0|0.757|1.722||||||Week 8: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.722|0.757|
92214773|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.52|||||TWO_SIDED|80.0|0.338|0.788||||||Week 8: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||0.788|0.338|
92214774|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.64|||||TWO_SIDED|80.0|0.374|1.084||||||Week 12: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.084|0.374|
92214775|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.19|||||TWO_SIDED|80.0|0.122|0.297||||||Week 12: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||0.297|0.122|
92214776|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.96|||||TWO_SIDED|80.0|0.623|1.465||||||Week 12: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.465|0.623|
92214777|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean|0.67|||||TWO_SIDED|80.0|0.411|1.076||||||Week 12: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.076|0.411|
92214778|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|1.16||||0.7352|TWO_SIDED|80.0|0.663|2.021|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 2: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||2.021|0.663|0.7352
92214779|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|1.01||||0.9754|TWO_SIDED|80.0|0.586|1.753|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 2: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||1.753|0.586|0.9754
92214780|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|1.11||||0.8277|TWO_SIDED|80.0|0.609|2.008|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 2: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||2.008|0.609|0.8277
92214781|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|0.51||||0.0885|TWO_SIDED|80.0|0.313|0.846|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 4: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||0.846|0.313|0.0885
92214782|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|1.01||||0.9856|TWO_SIDED|80.0|0.617|1.644|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 4: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||1.644|0.617|0.9856
92214783|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|0.6||||0.1996|TWO_SIDED|80.0|0.361|1.0|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 4: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||1.000|0.361|0.1996
92214784|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|0.46||||0.1553|TWO_SIDED|80.0|0.233|0.926|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 8: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||0.926|0.233|0.1553
92214785|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|1.47||||0.4633|TWO_SIDED|80.0|0.748|2.882|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 8: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||2.882|0.748|0.4633
92214786|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|0.66||||0.4409|TWO_SIDED|80.0|0.335|1.316|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 8: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||1.316|0.335|0.4409
92214787|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|0.3||||0.0283|TWO_SIDED|80.0|0.15|0.598|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 12: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||0.598|0.150|0.0283
92214788|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|1.5||||0.4434|TWO_SIDED|80.0|0.758|2.97|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 12: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||2.970|0.758|0.4434
92214789|NCT01284062|184329373|SUPERIORITY_OR_OTHER||LS mean ratio|1.04||||0.9372|TWO_SIDED|80.0|0.51|2.141|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 12: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||2.141|0.510|0.9372
92214790|NCT01284062|184329378|SUPERIORITY_OR_OTHER||percentage of participants|41.67|||||TWO_SIDED|80.0|25.53|59.81|||||CI was assessed by Wilson score method.|||59.81|25.53|
92214791|NCT01284062|184329378|SUPERIORITY_OR_OTHER||percentage of participants|60.0|||||TWO_SIDED|80.0|43.59|74.43|||||CI was assessed by Wilson score method.|||74.43|43.59|
92214792|NCT01284062|184329378|SUPERIORITY_OR_OTHER||percentage of participants|50.0|||||TWO_SIDED|80.0|34.74|65.26|||||CI was assessed by Wilson score method.|||65.26|34.74|
92214793|NCT01284062|184329378|SUPERIORITY_OR_OTHER||percentage of participants|15.38|||||TWO_SIDED|80.0|6.58|31.96|||||CI was assessed by Wilson score method.|||31.96|6.58|
92214794|NCT01284062|184329378|SUPERIORITY_OR_OTHER||percent difference|18.33||||0.4495|TWO_SIDED|80.0|-6.13|39.98|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||39.98|-6.13|0.4495
92398121|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.01||||0.0846|TWO_SIDED|95.0|0.86|10.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.49|0.86|0.0846
92398122|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.42||||0.0171|TWO_SIDED|95.0|1.35|21.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||21.75|1.35|0.0171
92214795|NCT01284062|184329378|SUPERIORITY_OR_OTHER||percent difference|8.33||||0.7177|TWO_SIDED|80.0|-15.37|30.54|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||30.54|-15.37|0.7177
92214796|NCT01284062|184329378|SUPERIORITY_OR_OTHER||percent difference|-26.28||||0.2016|TWO_SIDED|80.0|-46.45|-3.15|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||-3.15|-46.45|0.2016
92214797|NCT01284062|184329379|SUPERIORITY_OR_OTHER||percentage of participants|16.67|||||TWO_SIDED|80.0|7.14|34.22|||||CI was assessed by Wilson score method.|||34.22|7.14|
92214798|NCT01284062|184329379|SUPERIORITY_OR_OTHER||percentage of participants|33.33|||||TWO_SIDED|80.0|20.08|49.88|||||CI was assessed by Wilson score method.|||49.88|20.08|
92214799|NCT01284062|184329379|SUPERIORITY_OR_OTHER||percentage of participants|18.75|||||TWO_SIDED|80.0|9.4|33.92|||||CI was assessed by Wilson score method.|||33.92|9.40|
92214800|NCT01284062|184329379|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|80.0|0.0|11.22|||||CI was assessed by Wilson score method.|||11.22|0.00|
92214801|NCT01284062|184329379|SUPERIORITY_OR_OTHER||percent difference|16.67||||0.4082|TWO_SIDED|80.0|-5.33|35.76|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||35.76|-5.33|0.4082
92214802|NCT01284062|184329379|SUPERIORITY_OR_OTHER||percent difference|2.08||||1|TWO_SIDED|80.0|-17.8|19.99|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||19.99|-17.80|1.0000
92214803|NCT01284062|184329379|SUPERIORITY_OR_OTHER||percent difference|-16.67||||0.22|TWO_SIDED|80.0|-34.22|-1.95|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||-1.95|-34.22|0.2200
92214804|NCT01284062|184329380|SUPERIORITY_OR_OTHER||LS mean|-1.32|||||TWO_SIDED|80.0|-2.332|-0.3||||||||-0.300|-2.332|
92214805|NCT01284062|184329380|SUPERIORITY_OR_OTHER||LS mean|-2.28|||||TWO_SIDED|80.0|-3.19|-1.374||||||||-1.374|-3.190|
92214806|NCT01284062|184329380|SUPERIORITY_OR_OTHER||LS mean|-2.3|||||TWO_SIDED|80.0|-3.178|-1.419||||||||-1.419|-3.178|
92214807|NCT01284062|184329380|SUPERIORITY_OR_OTHER||LS mean|-0.79|||||TWO_SIDED|80.0|-1.761|0.19||||||||0.190|-1.761|
92214808|NCT01284062|184329380|SUPERIORITY_OR_OTHER||LS mean difference|-0.97||||0.3639|TWO_SIDED|80.0|-2.335|0.403|||ANCOVA|||P-value was analyzed from ANCOVA model with terms for treatment group and baseline.||0.403|-2.335|0.3639
92214809|NCT01284062|184329380|SUPERIORITY_OR_OTHER||LS mean difference|-0.98||||0.3446|TWO_SIDED|80.0|-2.32|0.355|||ANCOVA|||P-value was analyzed from ANCOVA model with terms for treatment group and baseline.||0.355|-2.320|0.3446
92214810|NCT01284062|184329380|SUPERIORITY_OR_OTHER||LS mean difference|0.53||||0.6285|TWO_SIDED|80.0|-0.884|1.945|||ANCOVA|||P-value was analyzed from ANCOVA model with terms for treatment group and baseline.||1.945|-0.884|0.6285
92214811|NCT05341700|184329402|SUPERIORITY|||||||0.246|||||||Mixed Models Analysis|||Null hypothesis is that there was no difference in change of PINP between RUN and RUN+J.||||0.246
92214812|NCT05341700|184329403|SUPERIORITY|||||||0.714|||||||Mixed Models Analysis|||Null hypothesis is that there was no difference in change of CTX between RUN and RUN+J.||||0.714
92214813|NCT05341700|184329404|SUPERIORITY|||||||0.309|||||||Mixed Models Analysis|||||||0.309
92214814|NCT05341700|184329405|SUPERIORITY|||||||0.308|||||||Mixed Models Analysis|||Null hypothesis is that there was no difference in change of IGF1 between RUN and RUN+J.||||0.308
92214815|NCT05341700|184329406|SUPERIORITY|||||||0.207|||||||Mixed Models Analysis|||Null hypothesis is that there was no difference in change of ferritin between RUN and RUN+J.||||0.207
92214816|NCT03610165|184329478|SUPERIORITY||Median Difference (Final Values)|0.0||||0.757|TWO_SIDED|95.0|-0.03|0.04|||Wilcoxon (Mann-Whitney)|||||0.04|-0.03|0.757
92214817|NCT03610165|184329479|SUPERIORITY||Median Difference (Final Values)|-1.3||||0.715|TWO_SIDED|95.0|-12.0|7.0|||Wilcoxon (Mann-Whitney)|||||7|-12|0.715
92214818|NCT03610165|184329480|SUPERIORITY||Median Difference (Final Values)|-1.0||||0.328|TWO_SIDED|95.0|-3.3|1.0|||Wilcoxon (Mann-Whitney)|||||1|-3.3|0.328
92214819|NCT03610165|184329481|SUPERIORITY||Median Difference (Final Values)|0.0||||0.376|TWO_SIDED|95.0|-0.001|0.011|||Wilcoxon (Mann-Whitney)|||||0.011|-0.001|0.376
92214820|NCT03610165|184329482|SUPERIORITY||Median Difference (Final Values)|0.0||||0.226|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.226
92214821|NCT03610165|184329483|SUPERIORITY||Median Difference (Final Values)|0.0||||0.61|TWO_SIDED|95.0|-0.67|2.0|||Wilcoxon (Mann-Whitney)|||||2.00|-0.67|0.610
92214822|NCT03610165|184329484|SUPERIORITY||Median Difference (Final Values)|0.0||||0.302|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.302
92214823|NCT03610165|184329485|SUPERIORITY||Median Difference (Final Values)|0.0||||0.889|TWO_SIDED|95.0|-0.67|0.67|||Wilcoxon (Mann-Whitney)|||||0.67|-0.67|0.889
92214824|NCT03610165|184329486|SUPERIORITY||Median Difference (Final Values)|0.0||||0.403|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.403
92214825|NCT02113579|184329520|SUPERIORITY_OR_OTHER||Success rate difference (%)|24.7|||<|0.001|TWO_SIDED|||||Per statistical analysis plan, if experimental rinse was significantly better than placebo (p\<0.05) with estimated difference of \>= 20%, testing proceeded to Mean Cold Air Stimulus VAS Score at Week 4. Family-wise error was controlled at 0.05.|Regression, Logistic|Study center and mean baseline cold air stimulus VAS score as covariate. For subjects with no score at Week 4, non-response was imputed.|Estimated by calculating the model predicted success probabilities assuming all subjects received 12027-033 and then assuming all subjects received placebo, and then calculating mean of subjects' differences between these predicted probabilities.|The null hypothesis was no difference in success rates between treatment groups. The alternative hypothesis was a difference in success rates between treatment groups.||||<0.001
92153400|NCT03662997|184191941|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.25||||||Five-layer vs Hydropolymer arm; Weeks 2 \& 4|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||0.25
92274158|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-2.0|-1.01||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.01|-2.00|<0.001
92274159|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.25||0.051|TWO_SIDED|95.0|-0.99|0.0||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.00|-0.99|0.051
92274160|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.75|STANDARD_ERROR_OF_MEAN|0.25||0.003|TWO_SIDED|95.0|-1.24|-0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.25|-1.24|0.003
92274161|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.59|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.12|-1.07||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference||-1.07|-2.12|<0.001
92274162|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.37|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.9|-0.85||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference||-0.85|-1.90|<0.001
92274163|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.89|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.42|-0.37||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.37|-1.42|<0.001
92274164|NCT00830063|184450713|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.27||0.012|TWO_SIDED|95.0|-1.19|-0.15||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.15|-1.19|0.012
92274165|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.24||0.355|TWO_SIDED|95.0|-0.69|0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.25|-0.69|0.355
92274166|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.24||0.017|TWO_SIDED|95.0|-1.04|-0.1||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.10|-1.04|0.017
92274167|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.56|STANDARD_ERROR_OF_MEAN|0.24||0.02|TWO_SIDED|95.0|0.09|1.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||1.03|0.09|0.020
92274168|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.24||0.388|TWO_SIDED|95.0|-0.26|0.67||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.67|-0.26|0.388
92274169|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.98|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.45|-0.52||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.52|-1.45|<0.001
92274170|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.56|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.02|-1.1||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.10|-2.02|<0.001
92274171|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.24||0.361|TWO_SIDED|95.0|-0.68|0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.25|-0.68|0.361
92274172|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.25|-0.33||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.33|-1.25|<0.001
92274173|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.54|-0.59||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.59|-1.54|<0.001
92274174|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.57|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.04|-1.09||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.09|-2.04|<0.001
92274175|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.24||0.063|TWO_SIDED|95.0|-0.93|0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.02|-0.93|0.063
92274176|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.43|-0.48||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.48|-1.43|<0.001
92274177|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.7|-0.71||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.71|-1.70|<0.001
92274178|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.35|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.85|-0.86||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.86|-1.85|<0.001
92274179|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.25||0.006|TWO_SIDED|95.0|-1.19|-0.21||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.21|-1.19|0.006
92274180|NCT00830063|184450714|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.34|-0.36||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.36|-1.34|<0.001
92274181|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.24||0.355|TWO_SIDED|95.0|-0.69|0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.25|-0.69|0.355
92274182|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.24||0.017|TWO_SIDED|95.0|-1.04|-0.1||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.10|-1.04|0.017
92274183|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.56|STANDARD_ERROR_OF_MEAN|0.24||0.02|TWO_SIDED|95.0|0.09|1.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||1.03|0.09|0.020
92274184|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.24||0.388|TWO_SIDED|95.0|-0.26|0.67||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.67|-0.26|0.388
92274185|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.65|-0.7||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.70|-1.65|<0.001
92274186|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.07|-1.13||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference||-1.13|-2.07|<0.001
92274187|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.24||0.274|TWO_SIDED|95.0|-0.73|0.21||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.21|-0.73|0.274
92274188|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.24||0.004|TWO_SIDED|95.0|-1.16|-0.22||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.22|-1.16|0.004
92274189|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.25|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.74|-0.75||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.75|-1.74|<0.001
92274190|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-2.0|-1.01||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.01|-2.00|<0.001
92274191|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.25||0.051|TWO_SIDED|95.0|-0.99|0.0||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.00|-0.99|0.051
92153401|NCT03662997|184191942|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.046||||||Five-layer vs Hydrocellular; End of Weeks 1 and 3.|Chi-squared, Corrected||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||0.046
92274192|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.75|STANDARD_ERROR_OF_MEAN|0.25||0.003|TWO_SIDED|95.0|-1.24|-0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.25|-1.24|0.003
92398123|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|4.71||||0.0262|TWO_SIDED|95.0|1.2|18.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||18.49|1.20|0.0262
92398124|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.88||||0.2858|TWO_SIDED|95.0|0.59|5.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.95|0.59|0.2858
92398125|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|7.65||||0.0155|TWO_SIDED|95.0|1.47|39.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||39.72|1.47|0.0155
92398126|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.66||||0.1249|TWO_SIDED|95.0|0.76|9.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.31|0.76|0.1249
92398127|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.85||||0.0616|TWO_SIDED|95.0|0.94|15.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||15.82|0.94|0.0616
92274193|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||-1.59|-1.59|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.12|-1.07||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.07|-2.12|<0.001
92274194|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.37|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.9|-0.85||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.85|-1.90|<0.001
92274195|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.89|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.42|-0.37||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.37|-1.42|<0.001
92274196|NCT00830063|184450715|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.27||0.012|TWO_SIDED|95.0|-1.19|-0.15||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.15|-1.19|0.012
92274197|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.23||0.026|TWO_SIDED|95.0|-0.96|-0.06||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.06|-0.96|0.026
92274198|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.32|-0.43||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.43|-1.32|<0.001
92274199|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.23||0.333|TWO_SIDED|95.0|-0.23|0.67||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.67|-0.23|0.333
92153402|NCT03662997|184191942|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.01||||||Five-layer vs Hydropolymer; End of Weeks 1 \& 3|Chi-squared, Corrected||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups|||0.010
92153403|NCT03662997|184191950|SUPERIORITY|This secondary outcome measure was not planned for at the initiation of the study. Compliance rates were calculated by combining the number incidences that dressings were worn for the full 7 days and when the dressings do not have strike-through during first the week of treatment.|||||<|0.05||||||Five-layer vs Hydrocellular arm, first week of treatment|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||<0.05
92274200|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.23||0.527|TWO_SIDED|95.0|-0.59|0.3||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.30|-0.59|0.527
92274201|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.03|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.48|-0.57||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.57|-1.48|<0.001
92214826|NCT02113579|184329521|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-14.27|STANDARD_ERROR_OF_MEAN|2.239|<|0.001|TWO_SIDED|95.0|-18.68|-9.87||Per statistical analysis plan, if experimental rinse was significantly better than placebo (p\<0.05), testing proceeded to Mean Tactile Sensitivity Score at Week 4. Family-wise error was controlled at 0.05.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-9.87|-18.68|<0.001
92274202|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.71|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-2.16|-1.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.25|-2.16|<0.001
92274203|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.23||0.574|TWO_SIDED|95.0|-0.58|0.32||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.32|-0.58|0.574
92274204|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.26|-0.36||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.36|-1.26|<0.001
92274205|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.13|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.6|-0.67||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.67|-1.60|<0.001
92274206|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.64|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.1|-1.17||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.17|-2.10|<0.001
92274207|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.24||0.055|TWO_SIDED|95.0|-0.92|0.01||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.01|-0.92|0.055
92274208|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.42|-0.49||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.49|-1.42|<0.001
92274209|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.27|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.75|-0.79||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.79|-1.75|<0.001
92274210|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.47|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.95|-0.99||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.99|-1.95|<0.001
92274211|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.24||0.006|TWO_SIDED|95.0|-1.15|-0.19||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.19|-1.15|0.006
92274212|NCT00830063|184450716|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.34|-0.39||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.39|-1.34|<0.001
92274213|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.045|TWO_SIDED|95.0|-0.32|0.0||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.00|-0.32|0.045
92398128|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|8.32||||0.0126|TWO_SIDED|95.0|1.58|43.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||43.90|1.58|0.0126
92274214|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.03|TWO_SIDED|95.0|-0.33|-0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.02|-0.33|0.030
92398129|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.1||||0.0853|TWO_SIDED|95.0|0.85|11.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.23|0.85|0.0853
92274215|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.08||0.027|TWO_SIDED|95.0|0.02|0.34||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.34|0.02|0.027
92274216|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.08||0.04|TWO_SIDED|95.0|0.01|0.32||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.32|0.01|0.040
92274217|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.66|-0.35||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.35|-0.66|<0.001
92398130|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.56||||0.1562|TWO_SIDED|95.0|0.7|9.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.35|0.70|0.1562
92398131|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.83||||0.1297|TWO_SIDED|95.0|0.74|10.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||10.91|0.74|0.1297
92153404|NCT03662997|184191950|SUPERIORITY|This secondary outcome measure was not planned for at the initiation of the study. Compliance rates were calculated by combining the number incidences that dressings were worn for the full 7 days and when the dressings do not have strike-through during the first week of treatment.|||||<|0.05||||||Five-layer vs Hydropolymer, first week of treatment.|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||<0.05
92153405|NCT00936221|184191961|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.3873|TWO_SIDED|80.0|0.67|1.28||1-sided p-value|Regression, Cox|Cox model adjusting for treatment, WHO performance status, LDH, M status and tumour sub-type.||If the true hazard ratio (HR) is 0.57, 58 deaths provides at least 80% power to demonstrate a statistically significant difference for OS, assuming a 1-sided 10% significance level.||1.28|0.67|0.3873
92153406|NCT01844115|184191966|SUPERIORITY||Least Squares Mean Difference|-2.2||||0.0048|TWO_SIDED|95.0|-3.72|-0.68|||MMRM|||||-0.68|-3.72|0.0048
92153407|NCT01844115|184191967|SUPERIORITY||Least Squares Mean Difference|-1.89||||0.0236|TWO_SIDED|95.0|-3.52|-0.26|||MMRM|||||-0.26|-3.52|0.0236
92153408|NCT00545363|184191969|SUPERIORITY_OR_OTHER||||||=|0.8989|||||||ANOVA|||Statistical analysis was done to compare the participant satisfaction between the Biofeedback and No-feedback arms.||||=0.8989
92153409|NCT00545363|184191970|SUPERIORITY_OR_OTHER||||||=|0.453|||||||ANOVA|||Statistical analysis was done to compare the participant perception between the Biofeedback and No-feedback arms.||||=0.453
92153410|NCT00545363|184191971|SUPERIORITY_OR_OTHER||||||=|0.4917|||||||ANOVA|||Statistical analysis was done to compare the effect of adherence (Yes/No) on percent change from baseline in CTX between the Biofeedback and No-feedback arms.||||=0.4917
92153411|NCT03125941|184191976|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.49|2.05|||Chi-squared|||||2.05|0.49|1
92153412|NCT03125941|184191977|SUPERIORITY|||||||0.114|||||||Wilcoxon (Mann-Whitney)|||||||0.114
92153413|NCT03125941|184191978|SUPERIORITY|||||||0.294|||||||Wilcoxon (Mann-Whitney)|||||||0.294
92153414|NCT03125941|184191981|SUPERIORITY|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.350
92153415|NCT03125941|184191982|SUPERIORITY|||||||0.217|||||||Wilcoxon (Mann-Whitney)|||||||0.217
92153416|NCT03125941|184191984|SUPERIORITY||||||>|0.193||||||a priori threshold, bonferroni corrected 0.0125|Wilcoxon (Mann-Whitney)|||||||>0.193
92153417|NCT03125941|184191985|SUPERIORITY||||||>|0.2|||||||Wilcoxon (Mann-Whitney)|||||||>0.2
92153418|NCT03125941|184191986|SUPERIORITY||||||>|0.136|||||||Chi-squared|||||||>0.136
92214827|NCT02113579|184329522|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|13.45|STANDARD_ERROR_OF_MEAN|1.844|<|0.001|TWO_SIDED|95.0|9.83|17.08||Per statistical analysis plan, if experimental rinse was significantly better than placebo (p\<0.05), testing proceeded to Mean Cold Air Stimulus VAS Score at Week 2 and Mean Tactile Sensitivity Score at Week 2. Family-wise error controlled at 0.05.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||17.08|9.83|<0.001
92214828|NCT02113579|184329523|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.67|STANDARD_ERROR_OF_MEAN|1.809|<|0.001|TWO_SIDED|95.0|-11.23|-4.11||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate secondary outcomes Mean Cold Air Stimulus VAS Score at Wk 2 and Mean Tactile Sensitivity Score at Wk 2. Family-wise error controlled at 0.05.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-4.11|-11.23|<0.001
92214829|NCT02113579|184329524|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|0.975|<|0.001|TWO_SIDED|95.0|2.78|6.62||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate secondary outcomes Mean Cold Air Stimulus VAS Score at Wk 2 and Mean Tactile Sensitivity Score at Wk 2. Family-wise error controlled at 0.05.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||6.62|2.78|<0.001
92214830|NCT02113579|184329525|SUPERIORITY_OR_OTHER||Success rate difference (%)|15.44||||0.002|TWO_SIDED|||||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Regression, Logistic|Study center and mean baseline cold air stimulus VAS score as covariate. For subjects with no score at Week 2, non-response was imputed.|Estimated by calculating the model predicted success probabilities assuming all subjects received 12027-033 and then assuming all subjects received placebo, and then calculating mean of subjects' differences between these predicted probabilities.|The null hypothesis was no difference in success rates between treatment groups. The alternative hypothesis was a difference in success rates between treatment groups.||||0.002
92214831|NCT02113579|184329526|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.67|STANDARD_ERROR_OF_MEAN|1.65|<|0.001|TWO_SIDED|95.0|-9.92|-3.43||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-3.43|-9.92|<0.001
92214832|NCT02113579|184329527|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.52|STANDARD_ERROR_OF_MEAN|1.92|<|0.001|TWO_SIDED|95.0|-15.3|-7.75||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-7.75|-15.30|<0.001
92214833|NCT02113579|184329528|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|1.422||0.023|TWO_SIDED|95.0|-6.04|-0.45||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.45|-6.04|0.023
92214834|NCT02113579|184329529|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.61|STANDARD_ERROR_OF_MEAN|1.873|<|0.001|TWO_SIDED|95.0|-11.29|-3.93||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups||-3.93|-11.29|<0.001
92214835|NCT00789867|184329530|OTHER|||||||0.0002|||||||Kruskal-Wallis|||||||0.0002
92214836|NCT00789867|184329531|OTHER|||||||0.22|||||||Kruskal-Wallis|||||||0.22
92214837|NCT00789867|184329532|OTHER|||||||0.06|||||||Kruskal-Wallis|||||||0.06
92214838|NCT00789867|184329533|OTHER|||||||0.08|||||||Kruskal-Wallis|||||||0.08
92398132|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.34||||0.2001|TWO_SIDED|95.0|0.64|8.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.55|0.64|0.2001
92398133|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|8.6||||0.0495|TWO_SIDED|95.0|1.0|73.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||73.70|1.00|0.0495
92398134|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.86||||0.1553|TWO_SIDED|95.0|0.67|12.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||12.20|0.67|0.1553
92153419|NCT03125941|184191987|SUPERIORITY||||||>|0.003||||||A priori threshold for statistical significans was 0.00125 due to multiple comparisons|Chi-squared|||||||>0.003
92153420|NCT03125941|184191988|SUPERIORITY||Odds Ratio (OR)|3.53||||0.03|TWO_SIDED|95.0|1.07|11.6|||Chi-squared|||||11.6|1.07|0.030
92153421|NCT00406419|184191999|SUPERIORITY||Weighted difference|18.5|||<|0.0001|TWO_SIDED|95.0|11.0|25.9|||Cochran-Mantel-Haenszel|||||25.9|11|< 0.0001
92153422|NCT00406419|184191999|SUPERIORITY||Weighted difference|21.4|||<|0.0001|TWO_SIDED|95.0|14.1|28.8|||Cochran-Mantel-Haenszel|||||28.8|14.1|< 0.0001
92153423|NCT00406419|184192000|SUPERIORITY||Weighted difference|30.8|||<|0.0001|TWO_SIDED|95.0|23.7|37.9|||Cochran-Mantel-Haenszel|||||37.9|23.7|< 0.0001
92153424|NCT00406419|184192000|SUPERIORITY||Weighted difference|34.5|||<|0.0001|TWO_SIDED|95.0|27.4|41.5|||Cochran-Mantel-Haenszel|||||41.5|27.4|< 0.0001
92153425|NCT01461993|184192025|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.82||||||95.0|0.72|0.94||||||HPV-6||0.94|0.72|
92153426|NCT01461993|184192025|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.82|||||TWO_SIDED|95.0|0.74|0.91||||||HPV-11||0.91|0.74|
92153427|NCT01461993|184192025|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.78|||||TWO_SIDED|95.0|0.68|0.88||||||HPV-16||0.88|0.68|
92153428|NCT01461993|184192025|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.71|||||TWO_SIDED|95.0|0.62|0.81||||||HPV-18||0.81|0.62|
92153429|NCT01461993|184192026|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.92|||||TWO_SIDED|95.0|0.85|1.0||||||PMB80 \[A22\]||1.00|0.85|
92153430|NCT01461993|184192026|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.92|||||TWO_SIDED|95.0|0.84|1.01||||||PMB2948 \[B24\]||1.01|0.84|
92153431|NCT01121484|184192041|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||Analysis of Covariance used change from baseline at Week 8 as a response variable, site and treatment as factors, and baseline score as a covariate.|ANCOVA|||Null hypothesis: no difference between treatment groups||||0.004
92153432|NCT01121484|184192042|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CGI-I analyzed as a categorical variable by Cochran-Mantel-Haenszel row-mean-score-difference test using ridit scores, controlling for the effect of region; p-value obtained from the alternative hypothesis of Row Mean Score Differences.|Cochran-Mantel-Haenszel|||||||<0.001
92153433|NCT01121484|184192043|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Analysis of Covariance used change from baseline at Week 8 as a response variable, site and treatment as factors, and baseline score as a covariate.|ANCOVA|||||||0.002
92153434|NCT01121484|184192044|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Analysis of Covariance used change from baseline at Week 8 as a response variable, site and treatment as factors, and baseline score as a covariate.|ANCOVA|||||||0.002
92153435|NCT01121484|184192045|SUPERIORITY_OR_OTHER|||||||0.158|TWO_SIDED|||||Analysis of Covariance used change from baseline at Week 8 as a response variable, site and treatment as factors, and baseline score as a covariate.|ANCOVA|||||||0.158
92153436|NCT01121484|184192046|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Analysis of Covariance used change from baseline at Week 8 as a response variable, site and treatment as factors, and baseline score as a covariate.|ANCOVA|||||||<0.001
92153437|NCT05408468|184192087|SUPERIORITY||Mean Difference (Net)|-5.595|STANDARD_ERROR_OF_MEAN|1.731||0.387|TWO_SIDED||||||Mixed Models Analysis||Baseline 1.731 One week 1.894|||||0.387
92153438|NCT05408468|184192087|SUPERIORITY||Mean Difference (Net)|-3.782|STANDARD_ERROR_OF_MEAN|2.048||0.387|TWO_SIDED||||||Mixed Models Analysis||Baseline 2.048 One week 2.122|||||0.387
92153439|NCT05408468|184192088|SUPERIORITY||Mean Difference (Net)|-4.5|STANDARD_ERROR_OF_MEAN|1.693||0.062|TWO_SIDED||||||Mixed Models Analysis||Baseline 1.693 One week 1.840|||||0.062
92153440|NCT05408468|184192088|SUPERIORITY||Mean Difference (Net)|-0.764|STANDARD_ERROR_OF_MEAN|2.003||0.062|TWO_SIDED||||||Mixed Models Analysis||Baseline 2.003 One week 2.069|||||0.062
92153441|NCT05408468|184192090|SUPERIORITY||Median Difference (Final Values)|2.58|STANDARD_ERROR_OF_MEAN|2.84||0.369|TWO_SIDED||||||t-test, 2 sided|||||||0.369
92153442|NCT05408468|184192091|SUPERIORITY||Median Difference (Final Values)|2.59|STANDARD_ERROR_OF_MEAN|3.79||0.498|TWO_SIDED||||||t-test, 2 sided|||||||0.498
92153443|NCT01396395|184192125|SUPERIORITY_OR_OTHER||Ratio|0.503|||<|0.0001|TWO_SIDED|95.0|0.435|0.581|||poisson regression: Non-calibration mode|||||0.581|0.435|<0.0001
92153444|NCT01396395|184192125|SUPERIORITY_OR_OTHER||Ratio|0.503|||=|0.0086|TWO_SIDED|95.0|0.301|0.84|||Poisson regression: Calibration model|||||0.840|0.301|=0.0086
92153445|NCT02120664|184192142|SUPERIORITY_OR_OTHER||R squared|0.907|||||TWO_SIDED||||||Regression, Linear|||||||
92153446|NCT02120664|184192143|SUPERIORITY_OR_OTHER||Coefficient of Variation|2.53|||||TWO_SIDED|||||||||||||
92153447|NCT02120664|184192143|SUPERIORITY_OR_OTHER||Coefficient of Variation|6.69|||||TWO_SIDED|||||||||||||
92153448|NCT01351025|184192175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94|TWO_SIDED|||||Two-sided p-values of \< 0.05 without adjustments for multiple testing were considered statistically significant.|Wilcoxon (Mann-Whitney)|Exact Wilcoxon rank sum test was used||The null hypothesis is that there is no difference between arm A and arm B in the differences of the changes (\[week 44 - week 24\] - \[week 20 - baseline\]) in log10 IL-6||||0.94
92153449|NCT01351025|184192176|SUPERIORITY_OR_OTHER_LEGACY|||||||0.495|TWO_SIDED|||||Two-sided p-values of \< 0.05 without adjustments for multiple testing were considered statistically significant.|Wilcoxon (Mann-Whitney)|exact Wilcoxon rank sun test was used||The null hypothesis is that there is no difference between arm A and arm B in the differences of the changes (\[week 44 - week 24\] - \[week 20 - baseline\]) in CD4+ T-cell activation percent (% CD38+/DR+ of CD4)||||0.495
92153450|NCT01351025|184192177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.704|TWO_SIDED|||||Two-sided p-values of \< 0.05 without adjustments for multiple testing were considered statistically significant.|Wilcoxon (Mann-Whitney)|exact Wilcoxon rank sum test was used||The null hypothesis is that there is no difference between arm A and arm B in the differences of the changes (\[week 44 - week 24\] - \[week 20 - baseline\]) in log10 D-dimer||||0.704
92214839|NCT00789867|184329534|OTHER|||||||0.22|||||||Kruskal-Wallis|||||||0.22
92153451|NCT01351025|184192178|SUPERIORITY_OR_OTHER_LEGACY|||||||0.508|TWO_SIDED|||||Two-sided p-values of \< 0.05 without adjustments for multiple testing were considered statistically significant.|Wilcoxon (Mann-Whitney)|Exact Wilcoxon rank sum test was used||The null hypothesis is that there is no difference between arm A and arm B in the differences of the changes (\[week 44 - week 24\] - \[week 20 - baseline\]) in CD8+ T-cell activation percent (% CD38+/DR+ of CD8+)||||0.508
92153452|NCT02066896|184192191|OTHER|ANOVA repeated measures||||||0.05|||||||ANOVA|ANOVA repeated measures||||||0.05
92214840|NCT00789867|184329535|OTHER|||||||0.003|||||||Kruskal-Wallis|||||||0.003
92214841|NCT00594516|184329536|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of (-2, 2). A prespecified equivalence margin of (-2,2) was used for equivalence analysis.|Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.09||||95.0|-0.09|0.28||||||Comparison of Tapentadol IR to ER analysis of variance model with factors for treatment, double blind cross-over period and subject.||0.28|-0.09|
92214842|NCT01448213|184329554|SUPERIORITY_OR_OTHER|||||||0.17|||||||Log Rank|||||||0.17
92214843|NCT01448213|184329555|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Log Rank|||||||0.0005
92214844|NCT03503513|184329559|SUPERIORITY||Risk Ratio (RR)|0.17|||<|0.0001|TWO_SIDED|95.0|0.03|0.2|||differences in incidence rate ratio|An incidence rate ratio per person/month was determined by comparing the total number of UTIs in relation to time points.||comparison between pre and during treatment rates of UTI||0.20|0.03|<0.0001
92214845|NCT03503513|184329560|SUPERIORITY||Mean Difference (Final Values)|-3.8|STANDARD_DEVIATION|6.13|<|0.06|TWO_SIDED|95.0|-7.9|0.3||a priori threshold p value of \<0.05|t-test, 2 sided||Baseline to end of 6 month treatment score comparisons; (higher numbers represent more symptoms or complications)|NBSS Domain score for incontinence pre-post comparison; small sample size did not allow for power calculation.||0.3|-7.9|<0.06
92214846|NCT03503513|184329560|SUPERIORITY||Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|4.09|<|0.39|TWO_SIDED|95.0|-3.8|1.7||a priori threshold p\<0.05|t-test, 2 sided||(higher numbers represent more symptoms or complications)|NBSS Domain score for storage and voiding; pre-post comparison. Due to small sample size (n=11) no power calculations were conducted.||1.7|-3.8|<0.39
92214847|NCT03503513|184329560|SUPERIORITY||Mean Difference (Final Values)|-1.9|STANDARD_DEVIATION|3.99|<|0.14|TWO_SIDED|95.0|-4.6|0.8|||t-test, 2 sided||Higher numbers represent more symptoms or complications referred as consequences.|Pre and post test comparisons of mean NBSS scores for the consequences domain. Power calculations were not conducted due to small sample size.||0.8|-4.6|<0.14
92214848|NCT03503513|184329561|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|6.99|<|0.34|TWO_SIDED|95.0|-6.8|2.6|||t-test, 2 sided|||||2.6|-6.8|<0.34
92214849|NCT05696236|184329660|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||||||0.77
92214850|NCT05696236|184329661|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
92214851|NCT05696236|184329662|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
92214852|NCT01829360|184329664|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|The significance of fixed effects (e.g.,treatment) was evaluated using Wald tests||||||<0.05
92214853|NCT01829360|184329664|OTHER|A secondary analysis was performed to examine individual differences in treatment outcomes. This was done collapsed across all arms because the difference between the arms/treatments was not significant in the primary analysis. This was done by adding predictors to the primary analysis model to determine if learner characteristics were significantly related to growth in word defining. All continuous learner characteristics were grand mean centered.|||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92214854|NCT01829360|184329665|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||The interim definition data were analyzed with the primary pre-/post-definition data to capture growth across the entire treatment period.||||<0.05
92214855|NCT01026142|184329667|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0731|TWO_SIDED|95.0|0.65|1.02||The primary endpoint, IRF-assessed PFS, is tested at a two-sided 5% significance level.|Log Rank|Two-sided and stratified by: prior CNS disease present/absent, measurable disease at baseline, and response to trastuzumab in 1L metastatic setting.|The stratified Cox proportional hazard model will be used to estimate the HR between the two treatment arms and its 95% CI.|"The null hypothesis for the primary endpoint is that the survival distributions of IRF-assessed PFS in the two treatment groups are the same. The alternative hypothesis is that the survival distributions of IRF-assessed PFS in the treatment and the control arms are different:~H0: IRF PFS\<pertuzumab\> = IRF PFS\<control\> vs. H1: IRF PFS\<pertuzumab\> ≠ IRF PFS\<control\>"||1.02|0.65|0.0731
92214856|NCT00778622|184329680|SUPERIORITY_OR_OTHER|||||||0.0806||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in HbA1c at Week 16 was dependent variable, BMI was fixed main effect, baseline HbA1c was covariate.||"Standard deviation assumed for changes from baseline in HbA1c maximally was 1.0 across the baseline BMI subgroups. 97 participants in a single subgroup would be sufficient to estimate mean change in HbA1c with precision of 0.20% within the subgroup. Given number of baseline BMI subgroups and no correction for reason of multiplicity was made to the 95% CI within each BMI subgroup, total sample size calculated as 291. Sample size used the method CI for mean for one group in nQuery Advisor v6.0."||||0.0806
92214857|NCT00778622|184329680|SUPERIORITY_OR_OTHER|||||||0.1984||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.1984
92214858|NCT00778622|184329680|SUPERIORITY_OR_OTHER|||||||0.0232||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.0232
92214859|NCT00778622|184329680|SUPERIORITY_OR_OTHER|||||||0.3589||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.3589
92214860|NCT00778622|184329681|SUPERIORITY_OR_OTHER|||||||0.4614||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in FPG at Week 16 was dependent variable, BMI was fixed main effect, baseline FPG was covariate.||||||0.4614
92214861|NCT00778622|184329681|SUPERIORITY_OR_OTHER|||||||0.4696||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.4696
92214862|NCT00778622|184329681|SUPERIORITY_OR_OTHER|||||||0.5305||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.5305
92274218|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.72|-0.41||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.41|-0.72|<0.001
92274219|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.041|TWO_SIDED|95.0|-0.32|-0.01||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.01|-0.32|0.041
92274220|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.006|TWO_SIDED|95.0|-0.38|-0.06||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.06|-0.38|0.006
92274221|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.6|-0.27||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.27|-0.60|<0.001
92274222|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.62|-0.29||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.29|-0.62|<0.001
92274223|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.011|TWO_SIDED|95.0|-0.38|-0.05||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.05|-0.38|0.011
92274224|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.08||0.006|TWO_SIDED|95.0|-0.4|-0.07||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.07|-0.40|0.006
92274225|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.6|-0.26||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.26|-0.60|<0.001
92274226|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.48|-0.14||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference||-0.14|-0.48|<0.001
92274227|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.08||0.003|TWO_SIDED|95.0|-0.42|-0.09||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.09|-0.42|0.003
92274228|NCT00830063|184450717|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.08||0.105|TWO_SIDED|95.0|-0.3|0.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.03|-0.30|0.105
92274229|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.045|TWO_SIDED|95.0|-0.32|0.0||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.00|-0.32|0.045
92274230|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.03|TWO_SIDED|95.0|-0.33|-0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.02|-0.33|0.030
92274231|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.08||0.027|TWO_SIDED|95.0|0.02|0.34||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.34|0.02|0.027
92274232|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.08||0.04|TWO_SIDED|95.0|0.01|0.32||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.32|0.01|0.040
92398135|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|7.67||||0.0199|TWO_SIDED|95.0|1.38|42.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||42.67|1.38|0.0199
92398136|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0472|TWO_SIDED|95.0|1.02|27.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||27.34|1.02|0.0472
92274233|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.64|-0.32||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.32|-0.64|<0.001
92274234|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.74|-0.42||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.42|-0.74|<0.001
92274235|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.08||0.094|TWO_SIDED|95.0|-0.3|0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.02|-0.30|0.094
92274236|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.003|TWO_SIDED|95.0|-0.4|-0.08||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.08|-0.40|0.003
92274237|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.23||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.23|-0.57|<0.001
92274238|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.68|-0.35||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.35|-0.68|<0.001
92274239|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.032|TWO_SIDED|95.0|-0.35|-0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.02|-0.35|0.032
92398137|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.75||||0.3736|TWO_SIDED|95.0|0.51|5.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.98|0.51|0.3736
92398138|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.06||||0.2628|TWO_SIDED|95.0|0.58|7.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.26|0.58|0.2628
92153453|NCT00405353|184192212|OTHER||||||<|0.05|||||||Mixed Models Analysis|Linear regressions were used to determine slopes of brain volume changes. Statistical software package SAS was used to perform the analysis.||Percent change in brain volume against time scatter plot with a Loess regression curve was produced and a first-degree spline model was developed. This model fitted line pieces for pre-treatment and early treatment periods (month -6 to month 3) and treatment response period (months 3-12), and these pieces were joined together to achieve continuity. Slopes of these lines were estimated and compared. A random intercept was set in the model to allow the difference among subjects.||||<0.05
92153454|NCT03469284|184192213|OTHER|||||||0.0034|||||||ANOVA|||||||0.0034
92153455|NCT03469284|184192214|OTHER|||||||0.0008|||||||ANOVA|||||||0.0008
92153456|NCT03469284|184192216|OTHER|||||||0.9182|||||||Fisher Exact|||||||0.9182
92153457|NCT03469284|184192217|OTHER|||||||0.1046|||||||Fisher Exact|||||||0.1046
92153458|NCT02291289|184192245|SUPERIORITY||Hazard Ratio (HR)|0.95|||=|0.872|TWO_SIDED|95.0|0.5|1.82|||Log Rank|||||1.82|0.50|= 0.872
92153459|NCT02291289|184192245|SUPERIORITY||Hazard Ratio (HR)|0.95|||=|0.666|TWO_SIDED|95.0|0.77|1.18|||Log Rank|||||1.18|0.77|= 0.666
92153460|NCT02291289|184192245|SUPERIORITY||Hazard Ratio (HR)|1.44|||=|0.128|TWO_SIDED|95.0|0.9|2.29|||Log Rank|||||2.29|0.90|= 0.128
92274240|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.46|-0.13||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.13|-0.46|<0.001
92274241|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.54|-0.21||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.21|-0.54|<0.001
92274242|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.52|-0.19||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.19|-0.52|<0.001
92274243|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.012|TWO_SIDED|95.0|-0.38|-0.05||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.05|-0.38|0.012
92274244|NCT00830063|184450718|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.021|TWO_SIDED|95.0|-0.36|-0.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.03|-0.36|0.021
92274245|NCT00936884|184450782|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|83.6|||<|0.0001|TWO_SIDED|97.5|6.5|1074.7||Comparison of the MNTX group and the placebo group in the proportion of subjects having a RFBM within 4 hours after the first injection was performed by using a 2-sided Cochran-Mantel-Haenszel Chi square test at the alpha level of 0.025.|Chi-squared|||||1074.7|6.50|<0.0001
92274246|NCT00936884|184450783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|56.64|||<|0.0001|TWO_SIDED|97.5|40.62|72.66||Comparison of the MNTX group and the placebo group was based on ANOVA model with the proportion of injections resulting in RFBM within 4 hours during the double-blind period as the dependent variable and the treatment group as the fixed effect. .|ANOVA||Estimated value is the difference in least squared means for MNTX vs. placebo (MNTX minus placebo). Based on the ANOVA model, there is 97.5% confidence that the difference between MNTX and placebo falls between the lower and upper limits presented.|||72.66|40.62|<0.0001
92274247|NCT00936884|184450784|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|23.38|||<|0.0001|TWO_SIDED|97.5|10.91|50.14||Comparison of the MNTX group and the placebo group in the proportion of subjects having a RFBM within 4 hours after each injection was performed by using a 2-sided Cochran-Mantel-Haenszel Chi square test at the alpha level of 0.025.|Chi-squared|||||50.14|10.91|< 0.0001
92274248|NCT01663714|184450785|SUPERIORITY_OR_OTHER||percentage of participants|100.0|||||TWO_SIDED|95.0|100.0|100.0|||||The estimated value represents the percentage of participants with unconfirmed response.|||100|100|
92274249|NCT01663714|184450786|SUPERIORITY_OR_OTHER||percentage of participants|100.0|||||TWO_SIDED|95.0|100.0|100.0|||||The estimated value represents the percentage of participants with confirmed response.|||100|100|
92274250|NCT00597584|184450807|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 95% confidence interval for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.078|||TWO_SIDED|95.0|-0.05|0.26|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study has been determined based on a two group evaluation of non-inferiority using the t-distribution (one-sided significance level 0.025) with a non inferiority margin of -1.0 g/dL. A sample size of approximately 750 (peginesatide group of 500 and epoetin group of 250) provided at least 99% power for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a standard deviation of 1.5 g/dL.||0.26|-0.05|
92274251|NCT00597584|184450808|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.5|1.24|||Cochran-Mantel-Haenszel|||||1.24|0.50|
92274252|NCT00597584|184450809|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.87|1.07|||Cochran-Mantel-Haenszel|||||1.07|0.87|
92274253|NCT03840811|184450831|OTHER|||||||0.23|||||||Sign test|||To assess whether the fitness of a given mutant is different than that of wild-type, the ratio of colony-forming units of the mutant strain was compared to those of the WT strain at the time of treatment and in the inoculum using a Wilcoxon Signed-Rank Test with a significance level of 0.025. CIs of participants in Mixed FA1090 + FA7537 group were compared to mean = 1.||||0.230
92274254|NCT03840811|184450832|OTHER||Risk Difference (RD)|-0.14||||0.54|TWO_SIDED|95.0|-0.58|0.34||One-sided Fisher's Exact Test with alpha=0.025|Fisher Exact|||||0.34|-0.58|0.54
92274255|NCT04126733|184450857|EQUIVALENCE|H0: ORR ≤ 5% versus H1: ORR \>5% The hypothesis was tested by a one-sided exact binomial test, assuming a background response rate for the combination to be at most 5%.|Rate|7.1||||0.2721||95.0|2.4|15.9||The target response rate for the combination treatment was 17%. Using a one-sided exact binomial test at a type-I error of at most 2.5% at least 8 responders out of the 70 patients were needed to achieve significance.|Exact Binomial Test|||||15.9|2.4|0.2721
92274256|NCT03726437|184450865|SUPERIORITY|Analyses were performed to determine whether RealConsent was superior to Stress and Mood Management in reducing incidence of sexual violence victimization.|Risk Ratio (RR)|0.48||||0.0002|TWO_SIDED|95.0|0.33|0.69|||Mixed Models Analysis|Models adjusted for fixed effects.||||.69|.33|.0002
92274257|NCT03726437|184450865|SUPERIORITY||Odds Ratio (OR)|0.77||||0.31|TWO_SIDED|95.0|0.47|1.28|||Mixed Models Analysis|Models adjusted for fixed effects.||||1.28|.47|.31
92153461|NCT02291289|184192246|SUPERIORITY||Hazard Ratio (HR)|0.71|||=|0.276|TWO_SIDED|95.0|0.39|1.32|||Log Rank|||||1.32|0.39|= 0.276
92274258|NCT03726437|184450866|SUPERIORITY||Adjusted OR|1.17||||0.03|TWO_SIDED|95.0|0.12|1.22|||Mixed Models Analysis|Model adjusted for fixed effects.||||1.22|0.12|.03
92274259|NCT03726437|184450867|SUPERIORITY||Adjusted OR|-0.5|||<|0.05|TWO_SIDED|95.0|-1.27|0.27|||Mixed Models Analysis|Model adjusted for fixed effects.||||0.27|-1.27|<.05
92274260|NCT03726437|184450868|SUPERIORITY||Incidence rate ratio|0.81||||0.02|TWO_SIDED|95.0|0.67|0.97|||Mixed Models Analysis|Model adjusted for fixed effects.||||.97|.67|.02
92274261|NCT03726437|184450869|SUPERIORITY||Incidence rate ratio|1.05||||0.43|TWO_SIDED|95.0|0.92|1.2|||Mixed Models Analysis|Model adjusted for fixed effects.||||1.20|.92|.43
92153462|NCT02291289|184192246|SUPERIORITY||Hazard Ratio (HR)|0.81|||=|0.076|TWO_SIDED|95.0|0.64|1.02|||Log Rank|||||1.02|0.64|= 0.076
92274262|NCT03726437|184450870|SUPERIORITY||Adjusted OR|1.72||||0.006|TWO_SIDED|95.0|1.17|2.55|||Mixed Models Analysis|Model adjusted for fixed effects.||||2.55|1.17|.006
92274263|NCT01889862|184450879|SUPERIORITY||Mean Difference (Net)|-973.02|||<|0.0001|TWO_SIDED|95.0|-1204.19|-741.85||Based on Mixed-Effect Model Repeated Measure (MMRM) model with change from baseline as the response variable, and treatment, visit and treatment by visit interaction and baseline blood phe concentration as factors.|ANCOVA|||Change in blood Phe concentration during Part 2 in subjects previously exposed to BMN165 who self administer BMN165 20mg/day compared with those who self administer matching placebo.||-741.85|-1204.19|<0.0001
92274264|NCT01889862|184450879|SUPERIORITY||Mean Difference (Net)|-588.5|||<|0.0001|TWO_SIDED|95.0|-830.07|-346.94||Based on Mixed-Effect Model Repeated Measure (MMRM) model with change from baseline as the response variable, and treatment, visit and treatment by visit interaction and baseline blood phe concentration as factors.|ANCOVA|||Change in blood Phe concentration during Part 2 in subjects previously exposed to BMN165 who self administer BMN165 40mg/day compared with those who self administer matching placebo.||-346.94|-830.07|<0.0001
92398139|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.43||||0.1998|TWO_SIDED|95.0|0.63|9.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.39|0.63|0.1998
92398140|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.89||||0.1507|TWO_SIDED|95.0|0.68|12.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||12.28|0.68|0.1507
92398141|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.92||||0.0385|TWO_SIDED|95.0|1.1|31.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||31.94|1.10|0.0385
92398142|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|10.85||||0.0299|TWO_SIDED|95.0|1.26|93.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||93.28|1.26|0.0299
92398143|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.19||||0.8034|TWO_SIDED|95.0|0.3|4.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.74|0.30|0.8034
92398144|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.14||||0.8532|TWO_SIDED|95.0|0.29|4.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.42|0.29|0.8532
92398145|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8823|TWO_SIDED|95.0|0.28|4.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.41|0.28|0.8823
92398146|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|4.79||||0.1651|TWO_SIDED|95.0|0.52|43.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||43.76|0.52|0.1651
92398147|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|6.36||||0.1048|TWO_SIDED|95.0|0.68|59.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||59.55|0.68|0.1048
92398148|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.87||||0.1168|TWO_SIDED|95.0|0.64|53.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||53.53|0.64|0.1168
92398149|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.31||||0.6936|TWO_SIDED|95.0|0.35|4.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.95|0.35|0.6936
92153463|NCT02291289|184192246|SUPERIORITY||||||=|0.157|||||||Log Rank|||||||= 0.157
92153464|NCT02291289|184192246|SUPERIORITY||Hazard Ratio (HR)|1.25|||=|0.415|TWO_SIDED|95.0|0.73|2.14|||Log Rank|||||2.14|0.73|= 0.415
92153465|NCT02291289|184192248|SUPERIORITY||||||=|0.064|||||||Chi-squared|||||||= 0.064
92153466|NCT02291289|184192248|SUPERIORITY||||||=|0.658|||||||Chi-squared|||||||= 0.658
92153467|NCT02291289|184192248|SUPERIORITY|||||||0.093|||||||Chi-squared|||||||0.093
92153468|NCT02291289|184192249|SUPERIORITY||||||=|0.125|||||||Chi-squared|||||||= 0.125
92153469|NCT02291289|184192249|SUPERIORITY||||||=|0.739|||||||Chi-squared|||||||= 0.739
92153470|NCT02291289|184192249|SUPERIORITY|||||||0.362|||||||Chi-squared|||||||0.362
92153471|NCT02291289|184192251|SUPERIORITY||||||=|0.421|||||||Log Rank|||||||= 0.421
92153472|NCT02291289|184192251|SUPERIORITY||||||=|0.495|||||||Log Rank|||||||= 0.495
92153473|NCT02291289|184192251|SUPERIORITY|||||||0.357|||||||Log Rank|||||||0.357
92153474|NCT01622543|184192253|SUPERIORITY||Hazard Ratio (HR)|1.59||||0.046|TWO_SIDED|95.0|1.0|2.53|||Log Rank|||||2.53|1.00|0.046
92153475|NCT01622543|184192254|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||0.45
92153476|NCT01622543|184192255|SUPERIORITY||Odds Ratio (OR)|2.09||||0.06|TWO_SIDED|95.0|0.96|4.55|||Cochran-Mantel-Haenszel|||||4.55|0.96|0.06
92153477|NCT01622543|184192256|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.36|TWO_SIDED|95.0|0.78|1.98|||Log Rank|||||1.98|0.78|0.36
92153478|NCT00249496|184192258|SUPERIORITY||Odds Ratio (OR)|3.73||||0.004|TWO_SIDED|95.0|1.6|8.69|||General Estimating Equation (GEE)|||||8.69|1.60|.004
92153479|NCT00249496|184192260|SUPERIORITY||Odds Ratio (OR)|0.8|||=|0.57|TWO_SIDED|95.0|0.26|2.43|||General Estimating Equation (GEE)|||||2.43|0.26|=0.57
92153480|NCT00249496|184192262|SUPERIORITY||Odds Ratio (OR)|0.0||||0.046|TWO_SIDED|95.0|0.0|0.0|||General Estimating Equation (GEE)||The Odds Ratio and Confidence Intervals could not be calculated because one of the groups was at 0.|||0|0|0.046
92153481|NCT02524054|184192265|SUPERIORITY|||||||0.35||||||The p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||This is a paired t-test comparing the treatment effect of furosemide to the treatment effect of saline in each individual.||||0.35
92153482|NCT02524054|184192266|SUPERIORITY||||||<|0.001||||||The p-value is not adjusted for multiple comparisons, and the a priori threshold for significance was 0.05.|t-test, 2 sided|||||||<0.001
92153483|NCT02693834|184192267|OTHER|Paired t test||||||0.293|||||||t-test, 2 sided|||In order to test the difference in gait endurance,between the two AFO conditions at baseline, a paired t-test was analyzed||||.293
92153484|NCT02693834|184192268|OTHER|Repeated measures ANOVA||||||0.077||||||The above value was the interaction between the type of AFO and practice time.|repeated measures ANOVA|||A repeated measures ANOVA was calculated to find the differences in gait endurance between the type of AFO and practice time.||||0.077
92153485|NCT02693834|184192268|OTHER|Repeated measures ANOVA||||||0.046||||||main effect of the type of AFO: F(1, 19) = 4.58, ηp2= .194|repeated measures ANOVA|||The main effect of type of AFO||||.046
92153486|NCT02693834|184192268|OTHER|Repeated measures ANOVA|||||<|0.001||||||main effect of practice: F(1, 19) = 43.94, ηp2 = .698|repeated measures ANOVA|||Main effect of practice||||<.001
92153487|NCT02693834|184192269|OTHER|paired t test||||||0.688|||||||t-test, 2 sided|||The significance of differences in gait symmetry, between the two AFO conditions at baseline were analyzed using a paired t test for self selected velocity||||.688
92153488|NCT02693834|184192269|OTHER|repeated measures MANOVA||||||0.397||||||The above p value is for the interaction effects between type of AFO and practice time for gait symmetry at the self selected velocity F(1, 19)= 0.75, ηp2 = .038|repeated measures MANOVA|||The significance of differences in gait symmetry at self select velocity, between the two AFO conditions and two practice conditions were analyzed using repeated measures MANOVA.||||.397
92153489|NCT02693834|184192269|OTHER|A repeated measures MANOVA||||||0.95||||||Main effect of AFO on gait symmetry at SSV: F(1, 19) = 0.004, ηp2 =.00|Repeated measures MANOVA|||Main effect of AFO on gait symmetry was analyzed at self selected velocity||||.950
92153490|NCT02693834|184192269|OTHER|Repeated measures MANOVA||||||0.111||||||The main effect of practice on gait symmetry at self selected velocity F(1, 19) = 2.79, ηp2 = .128|repeated measures MANOVA|||Main effect of practice on gait symmetry at Self selected velocity||||.111
92153491|NCT02693834|184192269|OTHER|||||||0.26|||||||t-test, 2 sided|||The significance of differences in gait symmetry, between the two AFO conditions at baseline were analyzed using a paired t test for fast paced velocity||||.260
92153492|NCT02693834|184192269|OTHER|repeated measures MANOVA||||||0.113||||||The above p value is for the interaction effects between type of AFO and practice time for gait symmetry at fast paced velocity FPV F(1, 19) = 2.76,, ηp2 = .127|repeated measures MANOVA|||The significance of differences in gait symmetry at fast paced velocity, between the two AFO conditions and two practice conditions were analyzed using repeated measures MANOVA||||.113
92153493|NCT02693834|184192269|OTHER|Repeated measures MANOVA||||||0.918||||||The main effect of AFO on gait symmetry at fast paced velocity: F(1, 19) = 0.01, ηp2 = 0.001|repeated measures MANOVA|||The main effect of AFO on gait symmetry at fast paced velocity walk was assessed with repeated measures MANOVA||||.918
92153494|NCT02693834|184192269|OTHER|Repeated measures MANOVA||||||0.077||||||The main effect of practice on gait symmetry at fast paced velocity: F(1, 19) = 3.50, ηp2 = .155|repeated measures MANOVA|||The main effect of practice on gait symmetry at fast paced velocity walk was assessed with repeated measures MANOVA||||.077
92153495|NCT02693834|184192270|OTHER|A repeated measures MANOVA||||||0.209||||||The above p value is for the interaction effects between the type of AFO and practice time at self selected velocity: F(1, 19) = 1.69, ηp2 = .082|Repeated measures MANOVA|||The significance of differences in gait velocity at self select velocity, between the two AFO conditions and two practice conditions were analyzed using repeated measures MANOVA.||||.209
92153496|NCT02693834|184192270|OTHER|Repeated measures MANOVA||||||0.32||||||Main effect of AFO on gait velocity at self selected velocity: F(1, 19) = 1.05, ηp2 = .05|repeated measures MANOVA|||Main effect of AFO on gait velocity was analyzed at self selected velocity||||.32
92153497|NCT02693834|184192270|OTHER|Repeated measures MANOVA||||||0.001||||||Main effect of practice on gait velocity at self selected velocity:F(1, 19) = 14.38, ηp2 = .431|repeated measures MANOVA|||Main effect of Practice on gait velocity was analyzed at self selected velocity||||.001
92153498|NCT02693834|184192270|OTHER|repeated measures MANOVA||||||0.28||||||The above p value is for the interaction effects between the type of AFO and practice time at fast paced velocity: F( 1, 19) = 1.24, ηp2 = .61|repeated measures MANOVA|||The significance of differences in gait velocity at fast paced velocity, between the two AFO conditions and two practice conditions were analyzed using repeated measures MANOVA.||||.280
92153499|NCT02693834|184192270|OTHER|repeated measures MANOVA||||||0.072||||||Main effect of AFO on gait velocity was analyzed at self selected velocity:FPV F(1, 19) = 3.63, ηp2 =.16|repeated measures MANOVA|||Main effect of AFO on gait velocity was analyzed for self selected velocity||||.072
92153500|NCT02693834|184192270|OTHER|Repeated measures MANOVA|||||<|0.001||||||Main effect of Practice on gait velocity for fast paced velocity: F(1, 19) = 23.73, ηp2 = .555|repeated measures MANOVA|||Main effect of Practice on gait velocity was analyzed for fast paced velocity||||<.001
92153501|NCT00759772|184192275|SUPERIORITY||||||<|0.01||||||Calculated p-value.|t-test, 2 sided|||||||< 0.01
92153502|NCT04548531|184192315|SUPERIORITY||Mean Difference (Final Values)|0.67|||<|0.001|TWO_SIDED|95.0|0.41|0.94|||t-test, 2 sided|||||0.94|0.41|<.001
92153503|NCT04548531|184192316|SUPERIORITY||Risk Difference (RD)|21.0||||0.003|TWO_SIDED|95.0|7.0|35.0|||Chi-squared|||||35|7|0.003
92153504|NCT04548531|184192317|SUPERIORITY||Risk Difference (RD)|3.0||||0.75|TWO_SIDED|95.0|-10.0|16.0|||Chi-squared|||We tested for a clear preference for screening, if a patient chose a colonoscopy or a stool-based test vs. the other response options.||16|-10|.75
92153505|NCT04548531|184192318|SUPERIORITY||Risk Difference (RD)|11.0||||0.14|TWO_SIDED|95.0|-3.0|26.0|||Chi-squared|||We categorized for likelihood to follow through with screening. We reported on results from patients who indicated 'Very Likely' on their response option vs. the other options (likely, unsure, unlikely, very unlikely)||26|-3|0.14
92153506|NCT04548531|184192319|SUPERIORITY||Risk Difference (RD)|13.0|||<|0.001|TWO_SIDED|95.0|6.0|18.0|||Chi-squared|||Assessed how many patients completed any colorectal cancer screening test within 6-months after randomization.||18|6|<.001
92153507|NCT01108510|184192357|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: ATV+COBI+FTC/TDF group was at least 12% worse than the ATV+RTV+FTC/TDF group; alternative hypothesis: ATV+COBI+FTC/TDF group was less than 12% worse than the ATV+RTV+FTC/TDF group. ATV+COBI+FTC/TDF was noninferior if the lower bound of the 2-sided 95.2% confidence interval (CI) (COBI group - RTV group) was \> -12%.|Difference in percentages|-2.2|||||TWO_SIDED|95.2|-7.4|3.0|||||Difference in percentages of success and its 95.2% confidence interval (CI) were calculated based on baseline HIV-1 RNA stratum-adjusted Mantel-Haenszel (MH) proportion.|700 planned subjects had 95% power to evaluate noninferiority assuming a response rate of 79.5% for both arms and a noninferiority margin of 12%.||3.0|-7.4|
92153508|NCT01108510|184192358|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was at least 12% worse than the response rate in ATV+RTV+FTC/TDF group; the alternative hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was less than 12% worse than that in the ATV+RTV+FTC/TDF group.|Difference in percentages|-1.4|||||TWO_SIDED|95.0|-7.6|4.7|||||Difference in percentages of success and its 95% CI were calculated based on baseline HIV-1 RNA stratum-adjusted MH proportion.|||4.7|-7.6|
92153509|NCT01108510|184192359|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was at least 12% worse than the response rate in ATV+RTV+FTC/TDF group; the alternative hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was less than 12% worse than that in the ATV+RTV+FTC/TDF group.|Difference in percentages|-2.1|||||TWO_SIDED|95.0|-8.7|4.5|||||Difference in percentages of success and its 95% CI were calculated based on baseline HIV-1 RNA stratum-adjusted MH proportion.|||4.5|-8.7|
92214863|NCT00778622|184329681|SUPERIORITY_OR_OTHER|||||||0.9145||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.9145
92214864|NCT00778622|184329682|SUPERIORITY_OR_OTHER|||||||0.0305||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in TC at Week 16 was dependent variable, BMI was fixed main effect, baseline TC was covariate.||||||0.0305
92214865|NCT00778622|184329682|SUPERIORITY_OR_OTHER|||||||0.008||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.0080
92214866|NCT00778622|184329682|SUPERIORITY_OR_OTHER|||||||0.0422||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.0422
92214867|NCT00778622|184329683|SUPERIORITY_OR_OTHER|||||||0.4508||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in LDL-C at Week 16 was dependent variable, BMI was fixed main effect, baseline LDL-C was covariate.||||||0.4508
92214868|NCT00778622|184329683|SUPERIORITY_OR_OTHER|||||||0.0526||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.0526
92214869|NCT00778622|184329683|SUPERIORITY_OR_OTHER|||||||0.1295||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.1295
92214870|NCT00778622|184329684|SUPERIORITY_OR_OTHER|||||||0.1431||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in HDL-C at Week 16 was dependent variable, BMI was fixed main effect, baseline HDL-C was covariate.||||||0.1431
92214871|NCT00778622|184329684|SUPERIORITY_OR_OTHER|||||||0.4066||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.4066
92214872|NCT00778622|184329684|SUPERIORITY_OR_OTHER|||||||0.4071||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.4071
92214873|NCT00778622|184329685|SUPERIORITY_OR_OTHER|||||||0.021||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in TG at Week 16 was dependent variable, BMI was fixed main effect, baseline TG was covariate.||||||0.0210
92214874|NCT00778622|184329685|SUPERIORITY_OR_OTHER|||||||0.2507||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.2507
92214875|NCT00778622|184329685|SUPERIORITY_OR_OTHER|||||||0.6546||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.6546
92214876|NCT04722250|184329716|NON_INFERIORITY|The endpoint is designed to test whether the Medtronic SE TAV is non-inferior to Edwards BE TAV in the composite event rate of all-cause mortality, disabling stroke or heart failure rehospitalization at 12 months post-procedure with an absolute non-inferiority margin of 8.0%.|Risk Difference (RD)|-1.2|||<|0.001|TWO_SIDED|90.0|-4.9|2.5|||z-test on Kaplan-Meier percentages|||||2.5|-4.9|<0.001
92214877|NCT04722250|184329717|SUPERIORITY||Risk Difference (RD)|-32.2|||<|0.001|TWO_SIDED|95.0|-38.7|-25.6|||z-test on Kaplan-Meier percentages|||||-25.6|-38.7|<0.001
92214878|NCT04556396|184329737|SUPERIORITY||Odds Ratio (OR)|0.2|||<|0.01|TWO_SIDED|95.0|0.1|0.4|||Chi-squared|||||0.4|0.1|<0.01
92214879|NCT04908189|184329792|SUPERIORITY||Adjusted Mean Difference|-0.4743|STANDARD_ERROR_OF_MEAN|0.08735|<|0.0001|TWO_SIDED|95.0|-0.6455|-0.3031|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|||-0.3031|-0.6455|<0.0001
92214880|NCT04908189|184329793|SUPERIORITY||Adjusted mean difference|-0.1126|STANDARD_ERROR_OF_MEAN|0.03511||0.0013|TWO_SIDED|95.0|-0.1814|-0.0438|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|||-0.0438|-0.1814|0.0013
92214881|NCT04908189|184329795|SUPERIORITY||Adjusted mean difference|2.042|STANDARD_ERROR_OF_MEAN|0.5421||0.0002|TWO_SIDED|95.0|0.98|3.105|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|||3.105|0.980|0.0002
92214882|NCT04908189|184329798|SUPERIORITY||Adjusted mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.61||0.2017|TWO_SIDED|95.0|-0.4|2.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|||2.0|-0.4|0.2017
92214883|NCT04908189|184329802|SUPERIORITY||Adjusted mean difference|0.0643|STANDARD_ERROR_OF_MEAN|0.02831||0.0231|TWO_SIDED|95.0|0.0088|0.1198|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 2||0.1198|0.0088|0.0231
92214884|NCT04908189|184329802|SUPERIORITY||Adjusted mean difference|0.0085|STANDARD_ERROR_OF_MEAN|0.03126||0.7865|TWO_SIDED|95.0|-0.0528|0.0697|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.0697|-0.0528|0.7865
92214885|NCT04908189|184329802|SUPERIORITY||Adjusted mean difference|-0.0515|STANDARD_ERROR_OF_MEAN|0.03386||0.128|TWO_SIDED|95.0|-0.1179|0.0148|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||0.0148|-0.1179|0.1280
92214886|NCT04908189|184329802|SUPERIORITY||Adjusted mean differnce|-0.0541|STANDARD_ERROR_OF_MEAN|0.0346||0.118|TWO_SIDED|95.0|-0.1219|0.0137|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||0.0137|-0.1219|0.1180
92214887|NCT04908189|184329802|SUPERIORITY||Adjusted mean difference|-0.1126|STANDARD_ERROR_OF_MEAN|0.03511||0.0013|TWO_SIDED|95.0|-0.1814|-0.0438|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-0.0438|-0.1814|0.0013
92214888|NCT04908189|184329807|SUPERIORITY||Adjusted mean difference|0.692|STANDARD_ERROR_OF_MEAN|0.4384||0.1147|TWO_SIDED|95.0|-0.168|1.551|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||1.551|-0.168|0.1147
92214889|NCT04908189|184329807|SUPERIORITY||Adjusted mean difference|1.999|STANDARD_ERROR_OF_MEAN|0.5147||0.0001|TWO_SIDED|95.0|0.991|3.008|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||3.008|0.991|0.0001
92214890|NCT04908189|184329807|SUPERIORITY||Adjusted mean difference|2.042|STANDARD_ERROR_OF_MEAN|0.5421||0.0002|TWO_SIDED|95.0|0.98|3.105|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||3.105|0.980|0.0002
92214891|NCT04908189|184329811|SUPERIORITY||Adjusted mean difference|-0.284|STANDARD_ERROR_OF_MEAN|0.567||0.6159|TWO_SIDED|95.0|-1.396|0.827|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.827|-1.396|0.6159
92214892|NCT04908189|184329811|SUPERIORITY||Adjusted mean difference|0.829|STANDARD_ERROR_OF_MEAN|0.625||0.1847|TWO_SIDED|95.0|-0.396|2.054|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||2.054|-0.396|0.1847
92214893|NCT04908189|184329811|SUPERIORITY||Adjusted mean difference|1.145|STANDARD_ERROR_OF_MEAN|0.673||0.0888|TWO_SIDED|95.0|-0.174|2.464|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||2.464|-0.174|0.0888
92214894|NCT04908189|184329812|SUPERIORITY||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.49||0.1924|TWO_SIDED|95.0|-1.6|0.3|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 2||0.3|-1.6|0.1924
92214895|NCT04908189|184329812|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.51||0.7601|TWO_SIDED|95.0|-1.2|0.8|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.8|-1.20|0.7601
92214896|NCT04908189|184329812|SUPERIORITY||Adjusted mean difference|1.3|STANDARD_ERROR_OF_MEAN|0.59||0.0303|TWO_SIDED|95.0|0.1|2.4|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||2.4|0.1|0.0303
92214897|NCT04908189|184329812|SUPERIORITY||Adjusted mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.63||0.4747|TWO_SIDED|95.0|-0.8|1.7|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||1.7|-0.8|0.4747
92274265|NCT00033631|184450885|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.83|1.2||Two-sided test, significance level = 0.05|Log Rank||Reference level = 70.2 Gy arm|The original target sample size was 1520 patients with a requirement of 715 deaths to test the hypothesis of overall survival (OS) efficacy of the 79.2 Gy arm. The trial was designed to detect a hazard ratio (HR) of 1.30 (standard/high-dose) with 90% statistical power at a one-sided significance level of 0.025.||1.2|0.83|0.98
92274266|NCT00033631|184450886|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.5|0.7||Two-sided significance level = 0.05|Gray's test|Reference arm is 70.2 Gy arm||||0.70|0.50|<0.0001
92274267|NCT00033631|184450887|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66||||0.14|TWO_SIDED|95.0|0.38|1.15|||Gray's test|Two-sided significance level = 0.05|Reference level is 70.2 Gy arm|||1.15|0.38|0.14
92274268|NCT00033631|184450888|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.41||||0.0001|TWO_SIDED|95.0|0.25|0.66|||Gray's test|Two-sided significance level = 0.05|Reference level = 70.2 Gy arm|||0.66|0.25|0.0001
92274269|NCT00033631|184450889|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65||||0.051|TWO_SIDED|95.0|0.42|1.01||Two-sided significance level = 0.05|Gray's test||Reference level is the 70.2 Gy level|||1.01|0.42|0.051
92274270|NCT00033631|184450890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||Two-sided significance level = 0.05|Chi-squared|||||||0.29
92274271|NCT00033631|184450891|SUPERIORITY|||||||0.0513|||||||Chi-squared|Two-sided significance level = 0.05||With an expected percentage of erectile disfunction (ED) at 12 months of 29%, a two-sided significance level of 0.05, and 688 patients per arm provides 90% statistical power to detect a reduction in ED to 19%. This calculation assumes 26% ED at baseline and 80% compliance at 12 months. Only participants with baseline ED are analyzed.||||0.0513
92274272|NCT00033631|184450892|SUPERIORITY|||||||0.59|||||||Chi-squared|Two-sided significance level = 0.05||||||0.59
92274273|NCT00711867|184450896|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was defined as -0.5 C.|Mean Difference (Final Values)|-0.34||||||95.0|-0.55|-0.14|||t-test, 2 sided|||H0: Mu\_VH - Mu\_BH \<= -0.5 C.||-0.14|-0.55|
92274274|NCT01827371|184450903|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|1.32|||||TWO_SIDED|98.33|0.72|1.93||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm B)) ≥ 1 or GMT(Arm A)/GMT (Arm B) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm B)) \< 1 or GMT(Arm A)/GMT(Arm B) \< 2.~Sample Size: The SD for log2 PRNT based on a prior study was\~1.9. The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used. Power=80%"||1.93|0.72|
92274275|NCT01827371|184450903|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|0.86|||||TWO_SIDED|98.33|0.26|1.47||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm C)) ≥ 1 or GMT(Arm A)/GMT (Arm C) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm C)) \< 1 or GMT(Arm A)/GMT(Arm C) \< 2.~Sample Size: The SD for log2 PRNT based on a prior study was\~1.9. The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used. Power=80%"||1.47|0.26|
92274276|NCT01827371|184450903|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|0.41|||||TWO_SIDED|98.33|-0.17|1.0007||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm D)) ≥ 1 or GMT(Arm A)/GMT (Arm D) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm D)) \< 1 or GMT(Arm A)/GMT(Arm D) \< 2.~Sample Size: The SD for log2 PRNT based on a prior study was\~1.9. The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used. Power=80%"||1.0007|-0.17|
92274277|NCT01827371|184450904|SUPERIORITY_OR_OTHER|||||||0.4782|TWO_SIDED|||||alpha= 5%|Fisher Exact|||"Hypothesis:~H0: Pr('Pain at Injection Site ' Arm A) = Pr('Pain at Injection Site ' Arm D) H1: Pr('Pain at Injection Site ' Arm A) not = Pr('Pain at Injection Site ' Arm D)"||||0.4782
92274278|NCT01827371|184450904|SUPERIORITY_OR_OTHER|||||||0.1704|TWO_SIDED|||||alpha= 5%|Fisher Exact|||"Hypothesis:~H0: Pr('Itchiness at Injection Site' Arm A) = Pr('Itchiness at Injection Site' Arm D) H1: Pr('Itchiness at Injection Site' Arm A) not = Pr('Itchiness at Injection Site' Arm D)"||||0.1704
92398150|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.74||||0.4315|TWO_SIDED|95.0|0.44|6.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.90|0.44|0.4315
92153510|NCT01108510|184192360|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was at least 12% worse than the response rate in ATV+RTV+FTC/TDF group; the alternative hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was less than 12% worse than that in the ATV+RTV+FTC/TDF group.|Difference in percentages|-8.0|||||TWO_SIDED|95.0|-22.2|6.3|||||Difference in percentages of success and its 95% CI were calculated based on baseline HIV-1 RNA stratum-adjusted MH proportion.|||6.3|-22.2|
92153511|NCT01108510|184192361|SUPERIORITY_OR_OTHER||Difference in least squares mean (LSM)|-5.0||||0.67|TWO_SIDED|95.0|-28.0|18.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||18|-28|0.67
92274279|NCT01827371|184450904|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||alpha= 5%|Fisher Exact|||"Hypothesis:~H0: Pr('Underarm pain' Arm A) = Pr('Underarm pain' Arm D) H1: Pr('Underarm pain' Arm A) not = Pr('Underarm pain' Arm D)"||||1.000
92274280|NCT01827371|184450904|SUPERIORITY_OR_OTHER|||||||0.6171|TWO_SIDED|||||alpha= 5%|Fisher Exact|||"Hypothesis:~H0: Pr('Underarm swelling' Arm A) = Pr('Underarm swelling' Arm D) H1: Pr('Underarm swelling' Arm A) not = Pr('Underarm swelling' Arm D)"||||0.6171
92274281|NCT01827371|184450904|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||alpha=5%|Fisher Exact|||"Hypothesis:~H0: Pr('Redness at Injection Site' Arm A) = Pr('Redness at Injection Site' Arm D) H1: Pr('Redness at Injection Site' Arm A) not = Pr('Redness at Injection Site' Arm D)"||||<0.0001
92274282|NCT01827371|184450904|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||alpha=5%|Fisher Exact|||"Hypothesis:~H0: Pr('Swelling at Injection Site' Arm A) = Pr('Swelling at Injection Site' Arm D) H1: Pr('Swelling at Injection Site' Arm A) not = Pr('Swelling at Injection Site' Arm D)"||||0.0050
92274283|NCT01827371|184450904|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED|||||alpha=5%|Fisher Exact|||"Hypothesis:~H0: Pr('Any Solicited Local Reaction' Arm A) = Pr('Any Solicited Local Reaction' Arm D) H1: Pr('Any Solicited Local Reaction' Arm A) not = Pr('Any Solicited Local Reaction' Arm D)"||||0.0012
92274284|NCT01827371|184450905|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|0.76|||||TWO_SIDED|98.33|0.37|1.15||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm B)) ≥ 1 or GMT(Arm A)/GMT (Arm B) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm B)) \< 1 or GMT(Arm A)/GMT(Arm B) \< 2.~The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used."||1.15|0.37|
92274285|NCT01827371|184450905|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|0.3|||||TWO_SIDED|98.33|-0.06|0.67||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm C)) ≥ 1 or GMT(Arm A)/GMT (Arm C) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm C)) \< 1 or GMT(Arm A)/GMT(Arm C) \< 2.~The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used."||0.67|-0.06|
92274286|NCT01827371|184450905|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|-0.1|||||TWO_SIDED|98.33|-0.5|0.3||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm D)) ≥ 1 or GMT(Arm A)/GMT (Arm D) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm D)) \< 1 or GMT(Arm A)/GMT(Arm D) \< 2.~The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used."||0.30|-0.50|
92274287|NCT00950599|184450907|SUPERIORITY_OR_OTHER|||||||0.9888||95.0||||A significance level of alpha = 0.05 was used for the trend test.|Kruskal-Wallis|ANCOVA Model: post-pre=pre treatment.||A test for log-linear trend across saxagliptin doses was performed using a linear contrast among the saxagliptin doses from an analysis of covariance (ANCOVA) model. The ANCOVA model was the same model used for the first secondary endpoint.||||0.9888
92274288|NCT00950599|184450908|SUPERIORITY_OR_OTHER|||||||0.9888||95.0||||Positive efficacy trend among doses of saxagliptin by assessing the adjusted mean change from baseline in A1C in the 0-40 mg cohort.|ANCOVA|ANCOVA Model: post-pre=pretreatment. Contrast Coefficients: -2, -1, 0, 1 2.||||||0.9888
92274289|NCT03803085|184450999|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||||||0.02
92274290|NCT03803085|184451000|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92274291|NCT03803085|184451001|SUPERIORITY|||||||0.06||||||p\<0.05 was considered significant.|Mixed Models Analysis|||||||0.06
92274292|NCT01361607|184451002|SUPERIORITY||Median Difference (Final Values)|-1.84||||0.2735|TWO_SIDED|95.0|-6.19|1.5|||Wilcoxon (Mann-Whitney)|||||1.50|-6.19|0.2735
92274293|NCT00125931|184451013|SUPERIORITY_OR_OTHER|||||||0.01|ONE_SIDED|95.0|||||ANOVA|||comparison of mean scores at hour 2 vs 3||||0.01
92274294|NCT00125931|184451014|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 1 sided|||comparison of mean score on treatment vs post-treatment days||||0.01
92274295|NCT00125931|184451014|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||t-test, 1 sided|||comparison of mean scores at pre-treatment vs treatment days||||0.4
92398151|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.19||||0.7936|TWO_SIDED|95.0|0.31|4.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.53|0.31|0.7936
92274296|NCT02273206|184451017|SUPERIORITY|||||||0.2562|||||||Chi-squared|p\<0.05||Colorectal Cancer Screening Intervention Arm Difference||||0.2562
92274297|NCT02273206|184451017|SUPERIORITY|||||||0.9795|||||||Chi-squared|p\<0.05||Breast Cancer Screening Intervention Arm Difference||||0.9795
92274298|NCT02273206|184451017|SUPERIORITY|||||||0.3917|||||||Chi-squared|p\<0.05||Cervical Cancer Screening Intervention Arm Difference||||0.3917
92274299|NCT02273206|184451018|SUPERIORITY|Test the coefficient for intervention|Odds Ratio (OR)|1.346||||0.0677|TWO_SIDED|95.0|0.979|1.851||Treatment Group (CCI vs PCM)|Regression, Logistic|p\<0.05|In the logistic regression model, adjustments were made for PHQ9 at baseline, improvement of depression by one level, baseline colorectal cancer up to date status, age, and income.|||1.851|0.979|0.0677
92274300|NCT02273206|184451019|SUPERIORITY|Test the coefficient for intervention|Odds Ratio (OR)|1.031||||0.8501|TWO_SIDED|95.0|0.753|1.41||Treatment Group (CCI vs PCM)|Regression, Logistic|p\<0.05|In the logistic regression model, adjustments were made for PHQ9 at baseline, improvement of depression by one level, baseline breast cancer up to date status, age, and income|||1.410|0.753|0.8501
92274301|NCT02273206|184451020|SUPERIORITY|Test the coefficient for intervention|Odds Ratio (OR)|0.876||||0.4432|TWO_SIDED|95.0|0.625|1.228||Treatment Group(CCI vs PCM)|Regression, Logistic|p\<0.05|In the logistic regression model, adjustments were made for PHQ9 at baseline, improvement of depression by one level, baseline cervical cancer up to date status, age, and income.|||1.228|0.625|0.4432
92274302|NCT02273206|184451021|SUPERIORITY|||||||0.39|||||||Two-sample t-test|p\<0.05||PHQ9 Intervention Arm Difference between baseline and 12-month follow up||||0.39
92274303|NCT02273206|184451022|SUPERIORITY|||||||0.6|||||||Chi-squared|||The Hopkins Symptom Checklist (SCL-20) at baseline.||||0.60
92274304|NCT02273206|184451022|SUPERIORITY|||||||0.86|||||||Chi-squared|||The Hopkins Symptom Checklist (SCL-20) at 6 Months||||0.86
92274305|NCT02273206|184451023|SUPERIORITY|||||||0.6|||||||Chi-squared|||The Hopkins Symptom Checklist (SCL-20) at Baseline.||||0.60
92274306|NCT02273206|184451023|SUPERIORITY|||||||0.23|||||||Chi-squared|||The Hopkins Symptom Checklist (SCL-20) at 12 months.||||0.23
92274307|NCT02273206|184451024|SUPERIORITY|||||||0.4483|||||||Chi-squared|p\<0.05||Colorectal Cancer Screening Intervention Arm Difference at 12 Months||||0.4483
92274308|NCT02273206|184451024|SUPERIORITY|||||||0.1706|||||||Chi-squared|p\<0.05||Cervical Cancer Screening Intervention Arm Difference at 12 Months||||0.1706
92274309|NCT02273206|184451024|SUPERIORITY|||||||0.3568|||||||Chi-squared|p\<0.05||Breast Cancer Screening Intervention Arm Difference at 12 Months||||0.3568
92274310|NCT02273206|184451025|SUPERIORITY|||||||0.85|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Visits at baseline.||||0.85
92274311|NCT02273206|184451025|SUPERIORITY|||||||0.23|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Visits at 6 months.||||0.23
92274312|NCT02273206|184451025|SUPERIORITY|||||||0.98|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Visits at 12 months.||||0.98
92274313|NCT02273206|184451025|SUPERIORITY|||||||0.57|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Prescriptions at baseline.||||0.57
92398152|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|6.3||||0.099|TWO_SIDED|95.0|0.71|56.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||56.03|0.71|0.0990
92274314|NCT02273206|184451025|SUPERIORITY|||||||0.92|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Prescriptions at 6 months.||||0.92
92274315|NCT02273206|184451025|SUPERIORITY|||||||0.99|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Prescriptions at 12 months.||||0.99
92274316|NCT02273206|184451026|SUPERIORITY|||||||0.2|||||||Chi-squared|||Satisfaction with decision to participate in colorectal cancer screening at baseline.||||0.20
92274317|NCT02273206|184451026|SUPERIORITY|||||||0.17|||||||Chi-squared|||Satisfaction with decision to participate in colorectal cancer screening at 6 months.||||0.17
92274318|NCT02273206|184451026|SUPERIORITY|||||||0.69|||||||Chi-squared|||Satisfaction with decision to participate in colorectal cancer screening at 12 months.||||0.69
92274319|NCT02273206|184451026|SUPERIORITY|||||||0.72|||||||Chi-squared|||Satisfaction with decision to participate in breast cancer screening at baseline.||||0.72
92274320|NCT02273206|184451026|SUPERIORITY|||||||0.72|||||||Chi-squared|||Satisfaction with decision to participate in breast cancer screening at 6 months.||||0.72
92274321|NCT02273206|184451026|SUPERIORITY|||||||0.87|||||||Chi-squared|||Satisfaction with decision to participate in breast cancer screening at 12 months.||||0.87
92274322|NCT02273206|184451026|SUPERIORITY|||||||0.65|||||||Chi-squared|||Satisfaction with decision to participate in cervical cancer screening at baseline.||||0.65
92274323|NCT02273206|184451026|SUPERIORITY|||||||0.82|||||||Chi-squared|||Satisfaction with decision to participate in cervical cancer screening at 6 months.||||0.82
92274324|NCT02273206|184451026|SUPERIORITY|||||||0.92|||||||Chi-squared|||Satisfaction with decision to participate in cervical cancer screening at 12 months.||||0.92
92274325|NCT02273206|184451026|SUPERIORITY|||||||0.56|||||||Chi-squared|||Satisfaction with decision to participate in Mental Health Care at 12 months.||||0.56
92274326|NCT02273206|184451027|SUPERIORITY|||||||0.17|||||||Chi-squared|||Physician Recommendation of Colorectal Cancer Screening at baseline.||||0.17
92274327|NCT02273206|184451027|SUPERIORITY|||||||0.38|||||||Chi-squared|||Physician Recommendation of Colorectal Cancer Screening at 6 months.||||0.38
92274328|NCT02273206|184451027|SUPERIORITY|||||||0.07|||||||Chi-squared|||Physician Recommendation of Colorectal Cancer Screening at 12 months.||||0.07
92274329|NCT02273206|184451027|SUPERIORITY|||||||0.99|||||||Chi-squared|||Physician Recommendation of Breast Cancer Screening at baseline.||||0.99
92274330|NCT02273206|184451027|SUPERIORITY|||||||0.15|||||||Chi-squared|||Physician Recommendation of Breast Cancer Screening at 6 months.||||0.15
92274331|NCT02273206|184451027|SUPERIORITY|||||||0.55|||||||Chi-squared|||Physician Recommendation of Breast Cancer Screening at 12 months.||||0.55
92274332|NCT02273206|184451027|SUPERIORITY|||||||0.34|||||||Chi-squared|||Physician Recommendation of Cervical Cancer Screening at baseline.||||0.34
92274333|NCT02273206|184451027|SUPERIORITY|||||||0.31|||||||Chi-squared|||Physician Recommendation of Cervical Cancer Screening at 6 months. .||||0.31
92274334|NCT02273206|184451027|SUPERIORITY|||||||0.39|||||||Chi-squared|||Physician Recommendation of Cervical Cancer Screening at 12 months.||||0.39
92274335|NCT02273206|184451027|SUPERIORITY|||||||0.87|||||||Chi-squared|||Physician Recommendation of Mental Health Care at baseline.||||0.87
92274336|NCT02273206|184451027|SUPERIORITY|||||||0.83|||||||Chi-squared|||Physician Recommendation of Mental Health Care at 6 months.||||0.83
92274337|NCT02273206|184451027|SUPERIORITY|||||||0.36|||||||Chi-squared|||Physician Recommendation of Mental Health Care at 12 months.||||0.36
92274338|NCT02273206|184451028|SUPERIORITY|||||||0.95|||||||Chi-squared|||Generalized Anxiety Disorder scale at baseline. Coding of the measure was based on Spitzer, R.L., Kroenke, K., Williams, J.B., \& Lowe, B. (2006).||||0.95
92274339|NCT02273206|184451028|SUPERIORITY|||||||0.08|||||||Chi-squared|||Generalized Anxiety Disorder scale score at 6 months. Coding of the measure was based on Spitzer, R.L., Kroenke, K., Williams, J.B., \& Lowe, B. (2006).||||0.08
92398153|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.86||||0.1128|TWO_SIDED|95.0|0.66|52.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||52.21|0.66|0.1128
92153512|NCT01108510|184192362|SUPERIORITY_OR_OTHER||Difference in LSM|-10.0||||0.51|TWO_SIDED|95.0|-38.0|19.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||19|-38|0.51
92153513|NCT01108510|184192363|SUPERIORITY_OR_OTHER||Difference in LSM|-22.0||||0.18|TWO_SIDED|95.0|-54.0|10.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||10|-54|0.18
92153514|NCT01108510|184192364|SUPERIORITY_OR_OTHER||Difference in LSM|6.0||||0.84|TWO_SIDED|95.0|-55.0|67.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||67|-55|0.84
92153515|NCT01544491|184192398|NON_INFERIORITY|Kaplan-Meier estimates and between treatment differences are estimated using the Kaplan-Meier product-limit formula and 80% confidence intervals derived using standard errors estimated from Greenwood's formula.|Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|5.25||0.9712|TWO_SIDED|80.0|-6.6|6.8|||Log Rank|||at 12 months||6.8|-6.6|0.9712
92153516|NCT01544491|184192398|NON_INFERIORITY|Kaplan-Meier estimates and between treatment differences are estimated using the Kaplan-Meier product-limit formula and 80% confidence intervals derived using standard errors estimated from Greenwood's formula.|Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|5.84||0.9634|TWO_SIDED|80.0|-7.3|7.7|||Log Rank|||36 months||7.7|-7.3|0.9634
92153517|NCT01544491|184192399|NON_INFERIORITY|KM estimates and between treatment differences are estimated using the Kaplan-Meier product-limit formula and 80% confidence intervals derived using standard errors estimated from Greenwood's formula.|Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|5.26||0.3455|TWO_SIDED|80.0|-1.8|11.8|||t-test, 2 sided|||at 12 months||11.8|-1.8|0.3455
92153518|NCT01544491|184192399|NON_INFERIORITY|KM estimates and between treatment differences are estimated using the Kaplan-Meier product-limit formula and 80% confidence intervals derived using standard errors estimated from Greenwood's formula.|Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|4.95||0.8642|TWO_SIDED|80.0|-5.5|7.2|||t-test, 2 sided|||36 months||7.2|-5.5|0.8642
92153519|NCT01234649|184192411|SUPERIORITY||||||<|0.04|||||||ANOVA|||Factorial repeated measures design||||<0.04
92153520|NCT01234649|184192412|SUPERIORITY||||||<|0.005|||||||ANOVA|||Factorial repeated measures ANOVA||||<.005
92153521|NCT01234649|184192413|SUPERIORITY||||||<|0.011|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.011
92153522|NCT01234649|184192414|SUPERIORITY||||||>|0.05|||||||ANOVA|||Nested repeated measures design||||>0.05
92153523|NCT01234649|184192415|SUPERIORITY||||||<|0.03|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.03
92153524|NCT01234649|184192416|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
92153525|NCT01234649|184192417|SUPERIORITY||||||<|0.048|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.048
92153526|NCT01234649|184192418|SUPERIORITY||||||<|0.04|||||||ANOVA|||||||<0.04
92153527|NCT01234649|184192419|SUPERIORITY||||||<|0.047|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.047
92153528|NCT01234649|184192420|SUPERIORITY||||||<|0.023|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.023
92153529|NCT01234649|184192421|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
92153530|NCT01234649|184192422|SUPERIORITY|||||||0.042|||||||ANOVA|||Factorial repeated measures ANOVA||||0.042
92153531|NCT01234649|184192423|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
92153532|NCT01234649|184192424|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
92153533|NCT01234649|184192425|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
92153534|NCT01234649|184192426|SUPERIORITY||||||<|0.046|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.046
92153535|NCT01234649|184192427|SUPERIORITY||||||<|0.049|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.049
92153536|NCT01234649|184192428|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
92153537|NCT01234649|184192429|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
92153538|NCT01234649|184192430|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
92153539|NCT01234649|184192431|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
92153540|NCT01234649|184192432|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
92153541|NCT00680056|184192440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|56.0|STANDARD_DEVIATION|60.0||0.038||95.0|||||t-test, 2 sided||Mean difference= Formoterol plus Tiotropium minus Formoterol plus Placebo(Tiotropium)|It was calculated a total sample size of a 2x2 cross-over design as 24 for a two-sided t-test achieves 85% power to infer that the mean difference is not zero, the actual mean difference is 20, the standard deviation of the differences is 15, and the significance level is 0.05||||0.038
92153542|NCT00680056|184192441|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.88|STANDARD_DEVIATION|2.39||0.054||95.0|||||t-test, 2 sided||Mean difference=Arm 2 minus Arm 1|||||0.054
92153543|NCT03688711|184192442|SUPERIORITY||||||<|0.0001|||||||Log Rank|||The recovery rates of dasiglucagon and placebo were evaluated using a Kaplan Meier (KM) approach, with treatment group as a stratification factor. Differences between the KM curves (dasiglucagon versus placebo) were evaluated inferentially using pairwise two-sided log-rank tests stratified by injection site.||||<0.0001
92153544|NCT03688711|184192443|SUPERIORITY|||||||0.0012|||||||Fisher Exact|||Assessed at 30 minutes. The recovery rates of dasiglucagon and placebo were compared at each time point using a Fisher's exact test. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||0.0012
92214898|NCT04908189|184329812|SUPERIORITY||Adjusted mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.61||0.2017|TWO_SIDED|95.0|-0.4|2.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||2.0|-0.4|0.2017
92153545|NCT03688711|184192443|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Assessed at 20 minutes. The recovery rates of dasiglucagon and placebo were compared at each time point using a Fisher's exact test. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
92153546|NCT03688711|184192443|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Assessed at 15 minutes. The recovery rates of dasiglucagon and placebo were compared at each time point using a Fisher's exact test. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
92153547|NCT03688711|184192443|SUPERIORITY|||||||0.0006|||||||Fisher Exact|||Assessed at 10 minutes. The recovery rates of dasiglucagon and placebo were compared at each time point using a Fisher's exact test. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||0.0006
92153548|NCT03688711|184192444|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Change from baseline in plasma glucose at 30 minutes after investigational product injection was calculated using nominal sampling times and analyzed using an analysis of variance model with treatment, age group and injection site for each endpoint. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
92153549|NCT03688711|184192444|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Change from baseline in plasma glucose at 20 minutes after investigational product injection was calculated using nominal sampling times and analyzed using an analysis of variance model with treatment, age group and injection site for each endpoint. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
92153550|NCT03688711|184192444|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Change from baseline in plasma glucose at 15 minutes after investigational product injection was calculated using nominal sampling times and analyzed using an analysis of variance model with treatment, age group and injection site for each endpoint. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
92153551|NCT03688711|184192444|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Change from baseline in plasma glucose at 10 minutes after investigational product injection was calculated using nominal sampling times and analyzed using an analysis of variance model with treatment, age group and injection site for each endpoint. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
92153552|NCT03688711|184192445|SUPERIORITY||||||<|0.0001|||||||Log Rank|||Evaluated using a Kaplan Meier (KM) approach, with treatment group as a stratification factor, analogous to that used for the primary endpoint analysis. Differences between the KM curves (dasiglucagon versus placebo) were evaluated inferentially using pairwise two-sided log-rank tests. Subjects whose time to first plasma glucose concentration ≥70 mg/dL (3.9 mmol/L) was not met within 45 minutes post-dosing were censored, at the time of the last valid plasma glucose measurement up to 45 minutes.||||<0.0001
92153553|NCT03688711|184192446|SUPERIORITY||Odds Ratio (OR)|4.05|||<|0.0001|TWO_SIDED|95.0|2.71|6.05|||ANCOVA|||The analysis was an analysis of covariance (ANCOVA) model with treatment group as factor and the baseline of the dependent variable plasma glucose as a covariate.||6.05|2.71|<0.0001
92153554|NCT01370005|184192475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.72|-0.52||Hierarchical testing, no adjustment of p-values.|ANCOVA|Model includes baseline HbA1c as lin. covariate and treatment, baseline renal function, region and baseline N of antihyperten. med. as fixed effects|Difference calculated as empa 10mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-0.52|-0.72|<0.0001
92214899|NCT04908189|184329814|SUPERIORITY||Adjusted mean difference|-0.077|STANDARD_ERROR_OF_MEAN|0.1015||0.4459|TWO_SIDED|95.0|-0.276|0.122|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 2||0.122|-0.276|0.4459
92274340|NCT02273206|184451028|SUPERIORITY|||||||0.27|||||||Chi-squared|||Generalized Anxiety Disorder scale score at 12 months. Coding of the measure was based on Spitzer, R.L., Kroenke, K., Williams, J.B., \& Lowe, B. (2006).||||0.27
92398154|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|7.36||||0.0732|TWO_SIDED|95.0|0.83|65.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||65.38|0.83|0.0732
92153555|NCT01370005|184192475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.75|-0.55||Hierarchical testing, no adjustment of p-values|ANCOVA|Model includes baseline HbA1c as lin. covariate and treatment, baseline renal function, region and baseline N of antihyperten. med. as fixed effects|Difference calculated as empa 25mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-0.55|-0.75|<0.0001
92214900|NCT04908189|184329814|SUPERIORITY||Adjusted mean difference|-0.232|STANDARD_ERROR_OF_MEAN|0.1164||0.0461|TWO_SIDED|95.0|-0.46|-0.004|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||-0.004|-0.460|0.0461
92274341|NCT02273206|184451029|SUPERIORITY|||||||0.54|||||||Chi-squared|||Medical Outcomes Study Health Survey at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.54
92274342|NCT02273206|184451029|SUPERIORITY|||||||0.68|||||||Chi-squared|||Medical Outcomes Study Health Survey at 6 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.68
92274343|NCT02273206|184451029|SUPERIORITY|||||||0.68|||||||Chi-squared|||Medical Outcomes Study Health Survey at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.68
92274344|NCT02273206|184451030|SUPERIORITY|||||||0.74|||||||Chi-squared|||Colorectal Cancer Screening attitudes at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.74
92274345|NCT02273206|184451030|SUPERIORITY|||||||0.86|||||||Chi-squared|||Colorectal Cancer Screening attitudes at 6 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.86
92274346|NCT02273206|184451030|SUPERIORITY|||||||0.79|||||||Chi-squared|||Colorectal Cancer Screening attitudes at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.79
92274347|NCT02273206|184451030|SUPERIORITY|||||||0.91|||||||Chi-squared|||Breast Cancer Screening attitudes at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.91
92274348|NCT02273206|184451030|SUPERIORITY|||||||0.71|||||||Chi-squared|||Breast Cancer Screening attitudes at 6 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.71
92274349|NCT02273206|184451030|SUPERIORITY|||||||0.77|||||||Chi-squared|||Breast Cancer Screening attitudes at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.77
92274350|NCT02273206|184451030|SUPERIORITY|||||||0.64|||||||Chi-squared|||Cervical Cancer Screening attitudes at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.64
92274351|NCT02273206|184451030|SUPERIORITY|||||||0.11|||||||Chi-squared|||Cervical Cancer Screening attitudes at 6 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.11
92274352|NCT02273206|184451030|SUPERIORITY|||||||1|||||||Chi-squared|||Cervical Cancer Screening attitudes at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||1.00
92153556|NCT01370005|184192476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|0.69|<|0.0001|TWO_SIDED|95.0|-4.78|-2.09||Hierarchical testing, no adjustment of p-values.|ANCOVA|Model incl. baseline (bl) HbA1c, bl mean 24h SBP as lin. covariates; treatment, bl renal function, region, bl N of antihyperten. med. as fixed effects|Difference calculated as empa 10mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-2.09|-4.78|<0.0001
92153557|NCT01370005|184192476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.16|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED|95.0|-5.5|-2.83||Hierarchical testing, no adjustment of p-values.|ANCOVA|Model incl. baseline (bl) HbA1c, bl mean 24h SBP as lin. covariates; treatment, bl renal function, region, bl N of antihyperten. med. as fixed effects|Difference calculated as empa 25mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-2.83|-5.50|<0.0001
92274353|NCT02273206|184451032|SUPERIORITY|||||||0.56|||||||Chi-squared|||Satisfaction with decision to participate in Mental Health Care at 12 months. Recoding of the continuous measure was based on quartiles.||||0.56
92274354|NCT02273206|184451033|SUPERIORITY|||||||0.18|||||||Chi-squared|||Devaluation-Discrimination Scale Score at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.18
92274355|NCT02273206|184451033|SUPERIORITY|||||||0.32|||||||Chi-squared|||Devaluation-Discrimination Scale score at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.32
92274356|NCT02273206|184451034|SUPERIORITY|||||||0.5|||||||Chi-squared|||Ambulatory Care Experiences - Shared Decision Making at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.50
92274357|NCT02273206|184451034|SUPERIORITY|||||||0.51|||||||Chi-squared|||Ambulatory Care Experiences - Shared Decision Making at six months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.51
92274358|NCT02273206|184451034|SUPERIORITY|||||||0.02|||||||Chi-squared|||Ambulatory Care Experiences - Shared Decision Making at twelve months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.02
92274359|NCT02273206|184451034|SUPERIORITY|||||||0.91|||||||Chi-squared|||Ambulatory Care Experiences - Access at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.91
92274360|NCT02273206|184451034|SUPERIORITY|||||||0.69|||||||Chi-squared|||Ambulatory Care Experiences - Access at six months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.69
92274361|NCT02273206|184451034|SUPERIORITY|||||||0.63|||||||Chi-squared|||Ambulatory Care Experiences - Access at twelve months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.63
92274362|NCT02273206|184451034|SUPERIORITY|||||||0.55|||||||Chi-squared|||Ambulatory Care Experiences - Care Coordination at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.55
92274363|NCT02273206|184451034|SUPERIORITY|||||||0.34|||||||Chi-squared|||Ambulatory Care Experiences - Care Coordination at six months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.34
92274364|NCT02273206|184451034|SUPERIORITY|||||||0.19|||||||Chi-squared|||Ambulatory Care Experiences - Care Coordination at twelve months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.19
92214901|NCT04908189|184329814|SUPERIORITY||Adjusted mean difference|-0.598|STANDARD_ERROR_OF_MEAN|0.1321|<|0.0001|TWO_SIDED|95.0|-0.857|-0.339|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||-0.339|-0.857|<0.0001
92214902|NCT04908189|184329814|SUPERIORITY||Adjusted mean difference|-0.605|STANDARD_ERROR_OF_MEAN|0.1416|<|0.0001|TWO_SIDED|95.0|-0.882|-0.327|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||-0.327|-0.882|<0.0001
92214903|NCT04908189|184329814|SUPERIORITY||Adjusted mean difference|-0.786|STANDARD_ERROR_OF_MEAN|0.1455|<|0.0001|TWO_SIDED|95.0|-1.071|-0.501|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-0.501|-1.071|<0.0001
92214904|NCT04908189|184329815|SUPERIORITY||Adjusted mean difference|0.3525|STANDARD_ERROR_OF_MEAN|0.9227||0.7025|TWO_SIDED|95.0|-1.456|2.1609|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 2||2.1609|-1.4560|0.7025
92214905|NCT04908189|184329815|SUPERIORITY||Adjusted mean difference|-1.373|STANDARD_ERROR_OF_MEAN|0.93331||0.1413|TWO_SIDED|95.0|-3.2023|0.4562|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.4562|-3.2023|0.1413
92214906|NCT04908189|184329815|SUPERIORITY||Adjused mean difference|-3.7522|STANDARD_ERROR_OF_MEAN|1.10374||0.0007|TWO_SIDED|95.0|-5.9155|-1.589|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||-1.5890|-5.9155|0.0007
92214907|NCT04908189|184329815|SUPERIORITY||Adjusted mean difference|-4.8072|STANDARD_ERROR_OF_MEAN|1.13857|<|0.0001|TWO_SIDED|95.0|-7.0388|-2.5757|||ANOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||-2.5757|-7.0388|<0.0001
92214908|NCT04908189|184329815|SUPERIORITY||Adjusted mean difference|-6.2006|STANDARD_ERROR_OF_MEAN|1.2284|<|0.0001|TWO_SIDED|95.0|-8.6082|-3.793|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-3.7930|-8.6082|<0.0001
92214909|NCT04908189|184329819|SUPERIORITY||Adjusted mean difference|0.0318|STANDARD_ERROR_OF_MEAN|0.05613||0.5707|TWO_SIDED|95.0|-0.0782|0.1419|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 2||0.1419|-0.0782|0.5707
92214910|NCT04908189|184329819|SUPERIORITY||Adjusted mean difference|-0.0833|STANDARD_ERROR_OF_MEAN|0.06303||0.1862|TWO_SIDED|95.0|-0.2069|0.0402|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.0402|-0.2069|0.1862
92274365|NCT02273206|184451034|SUPERIORITY|||||||0.47|||||||Chi-squared|||Ambulatory Care Experiences - Quality at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.47
92214911|NCT04908189|184329819|SUPERIORITY||Adjusted mean difference|-0.2958|STANDARD_ERROR_OF_MEAN|0.07854||0.0002|TWO_SIDED|95.0|-0.4497|-0.1418|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||-0.1418|-0.4497|0.0002
92214912|NCT04908189|184329819|SUPERIORITY||Adjusted mean difference|-0.3262|STANDARD_ERROR_OF_MEAN|0.083|<|0.0001|TWO_SIDED|95.0|-0.4889|-0.1635|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||-0.1635|-0.4889|<0.0001
92214913|NCT04908189|184329819|SUPERIORITY||Adjusted mean difference|-0.4743|STANDARD_ERROR_OF_MEAN|0.08735|<|0.0001|TWO_SIDED|95.0|-0.6455|-0.3031|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-0.3031|-0.6455|<0.0001
92214914|NCT04908189|184329822|SUPERIORITY||Adjusted mean difference|-0.0758|STANDARD_ERROR_OF_MEAN|0.07069||0.2836|TWO_SIDED|95.0|-0.2144|0.0627|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.0627|-0.2144|0.2836
92274366|NCT02273206|184451034|SUPERIORITY|||||||0.38|||||||Chi-squared|||Ambulatory Care Experiences - Quality at six months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.38
92214915|NCT04908189|184329822|SUPERIORITY||Adjusted mean difference|-0.5548|STANDARD_ERROR_OF_MEAN|0.09431|<|0.0001|TWO_SIDED|95.0|-0.7396|-0.3699|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||-0.3699|-0.7396|<0.0001
92214916|NCT04908189|184329822|SUPERIORITY||Adjusted mean difference|-0.5835|STANDARD_ERROR_OF_MEAN|0.10162|<|0.0001|TWO_SIDED|95.0|-0.7826|-0.3843|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-0.3843|-0.7826|<0.0001
92214917|NCT04908189|184329823|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.2143|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.1|-0.4|0.2143
92214918|NCT04908189|184329823|SUPERIORITY||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13||0.0001|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||-0.2|-0.8|0.0001
92214919|NCT04908189|184329823|SUPERIORITY||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.0|-0.4|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||-0.4|-1.0|<0.0001
92214920|NCT04908189|184329823|SUPERIORITY||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-0.4|-0.9|<0.0001
92274367|NCT02273206|184451034|SUPERIORITY|||||||0.98|||||||Chi-squared|||Ambulatory Care Experiences - Quality at twelve months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.98
92274368|NCT02273206|184451035|SUPERIORITY|||||||0.78|||||||Chi-squared|||Medication Adherence at baseline. Coding of the measure was based on Morisky et al. (2008).||||0.78
92398155|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.39||||0.6559|TWO_SIDED|95.0|0.33|5.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.91|0.33|0.6559
92398156|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|0.8||||0.7333|TWO_SIDED|95.0|0.21|2.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||2.96|0.21|0.7333
92398157|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|0.94||||0.9266|TWO_SIDED|95.0|0.24|3.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.74|0.24|0.9266
92398158|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.04||||0.1518|TWO_SIDED|95.0|0.55|46.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||46.13|0.55|0.1518
92398159|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|4.69||||0.1714|TWO_SIDED|95.0|0.51|42.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||42.91|0.51|0.1714
92274369|NCT02273206|184451035|SUPERIORITY|||||||0.2|||||||Chi-squared|||Medication Adherence at 6 months. Coding of the measure was based on Morisky et al. (2008).||||0.20
92274370|NCT02273206|184451035|SUPERIORITY|||||||0.77|||||||Chi-squared|||Medication Adherence at 12 Months. Coding of the measure was based on Morisky et al. (2008).||||0.77
92274371|NCT02273206|184451036|SUPERIORITY|||||||0.7|||||||Chi-squared|||Self-efficacy at baseline.Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.70
92398160|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.6||||0.1299|TWO_SIDED|95.0|0.6|51.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||51.95|0.60|0.1299
92398161|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.75||||0.2495|TWO_SIDED|95.0|0.49|15.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||15.44|0.49|0.2495
92398162|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.32||||0.7065|TWO_SIDED|95.0|0.31|5.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.60|0.31|0.7065
92398163|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.26||||0.7504|TWO_SIDED|95.0|0.3|5.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.24|0.30|0.7504
92398164|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|0.83||||0.7862|TWO_SIDED|95.0|0.21|3.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.29|0.21|0.7862
92398165|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|4.98||||0.155|TWO_SIDED|95.0|0.54|45.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||45.59|0.54|0.1550
92398166|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|4.7||||0.1706|TWO_SIDED|95.0|0.51|42.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||42.96|0.51|0.1706
92398167|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.31||||0.1415|TWO_SIDED|95.0|0.57|49.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||49.11|0.57|0.1415
92274372|NCT02273206|184451036|SUPERIORITY|||||||0.89|||||||Chi-squared|||Self-efficacy at 6 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.89
92274373|NCT02273206|184451036|SUPERIORITY|||||||0.95|||||||Chi-squared|||Self-efficacy at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.95
92274374|NCT02741271|184451046|SUPERIORITY||LSM Difference|5.21|||<|0.001|TWO_SIDED|95.0|3.21|7.2|||cLDA with multiple imputation|Primary Analysis Method, using the constrained Longitudinal Data Analysis (cLDA) model for missing data|Between-Treatment Difference|||7.20|3.21|<0.001
92274375|NCT02741271|184451049|SUPERIORITY||LSM Difference|6.05|||<|0.001|TWO_SIDED|95.0|3.53|8.56|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 4 hr Post-Dose|||8.56|3.53|<0.001
92274376|NCT02741271|184451049|SUPERIORITY||LSM Difference|7.04|||<|0.001|TWO_SIDED|95.0|4.74|9.35|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 2 hr Post-Dose|||9.35|4.74|<0.001
92274377|NCT02741271|184451049|SUPERIORITY||LSM Difference|6.19|||<|0.001|TWO_SIDED|95.0|4.09|8.28|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 60 min Post-Dose|||8.28|4.09|<0.001
92274378|NCT02741271|184451049|SUPERIORITY||LSM Difference|6.89|||<|0.001|TWO_SIDED|95.0|5.1|8.67|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 30 min Post-Dose|||8.67|5.10|<0.001
92274379|NCT02741271|184451049|SUPERIORITY||LSM Difference|6.64|||<|0.001|TWO_SIDED|95.0|4.89|8.39|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 15 min Post-Dose|||8.39|4.89|<0.001
92274380|NCT02741271|184451049|SUPERIORITY||LSM Difference|4.2|||<|0.001|TWO_SIDED|95.0|2.5|5.91|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 5 min Post-Dose|||5.91|2.50|<0.001
92274381|NCT02741271|184451050|SUPERIORITY||LSM Difference|6.32|||<|0.001|TWO_SIDED|95.0|4.36|8.27|||cLDA|Secondary Outcome Measure on Day 1|Between-Treatment Difference at 4 hr Post-Dose|||8.27|4.36|<0.001
92274382|NCT02741271|184451050|SUPERIORITY||LSM Difference|3.33||||0.026|TWO_SIDED|95.0|0.41|6.26|||cLDA|Secondary Outcome Measure at Week 12|Between-Treatment Difference at 4 hr Post-Dose|||6.26|0.41|0.026
92274383|NCT02741271|184451051|SUPERIORITY||LSM Difference|1.63||||0.197|TWO_SIDED|95.0|-0.85|4.11|||cLDA|Secondary Outcome Measure|Between-Treatment Difference|||4.11|-0.85|0.197
92274384|NCT00373685|184451059|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|TWO_SIDED|||||Life Table Extension of Cochran-Mantel-Haenszel (CMH) Test|Life Table Extension of CMH Test|||||||0.0003
92274385|NCT00373685|184451060|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0035|TWO_SIDED||||||Life Table Extension of CMH Test|||||||0.0035
92274386|NCT00373685|184451061|SUPERIORITY_OR_OTHER_LEGACY|||||||0.614|TWO_SIDED||||||Life Table Extension of CMH Test|||||||0.6140
92274387|NCT00373685|184451063|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||P-value associated with Overall (LOCF)|ANCOVA|||||||<0.0001
92274388|NCT00373685|184451065|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||P-value associated with Overall (LOCF)|ANCOVA|||||||<0.0001
92274389|NCT00373685|184451066|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0023|TWO_SIDED|||||P-value associated with Overall (LOCF)|Cochran-Mantel-Haenszel|||||||0.0023
92274390|NCT00373685|184451067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1008|TWO_SIDED||||||Chi-squared|||Baseline||||0.1008
92274391|NCT00373685|184451067|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 8||||<0.0001
92274392|NCT00373685|184451067|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 16||||<0.0001
92274393|NCT00373685|184451067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005|TWO_SIDED||||||Chi-squared|||Week 24 or ET||||0.0005
92274394|NCT00373685|184451067|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 24/LOCF||||<0.0001
92274395|NCT00373685|184451068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6562|TWO_SIDED||||||Chi-squared|||Baseline||||0.6562
92274396|NCT00373685|184451068|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 8||||<0.0001
92274397|NCT00373685|184451068|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 16||||<0.0001
92274398|NCT00373685|184451068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0245|TWO_SIDED||||||Chi-squared|||Week 24 or ET||||0.0245
92274399|NCT00373685|184451068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0074|TWO_SIDED||||||Chi-squared|||Week 24/LOCF||||0.0074
92274400|NCT00373685|184451069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4074|TWO_SIDED||||||Chi-squared|||Baseline||||0.4074
92274401|NCT00373685|184451069|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 8||||<0.0001
92274402|NCT00373685|184451069|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 16||||<0.0001
92274403|NCT00373685|184451069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0127|TWO_SIDED||||||Chi-squared|||Week 24 or ET||||0.0127
92274404|NCT00373685|184451069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019|TWO_SIDED||||||Chi-squared|||Week 24/LOCF||||0.0019
92274405|NCT00373685|184451070|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2699|TWO_SIDED||||||Chi-squared|||Baseline||||0.2699
92274406|NCT00373685|184451070|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 8||||<0.0001
92274407|NCT00373685|184451070|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 16||||<0.0001
92274408|NCT00373685|184451070|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0027|TWO_SIDED||||||Chi-squared|||Week 24 or ET||||0.0027
92274409|NCT00373685|184451070|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED||||||Chi-squared|||Week 24/LOCF||||0.0001
92274410|NCT02570165|184451074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|191.1|||||TWO_SIDED|95.0|101.07|284.26|||||The 95% Bayesian credible interval for the mean difference between batefenterol 37.5 µg dose and placebo (batefenterol 37.5 µg minus placebo) was estimated.|||284.26|101.07|
92274411|NCT02570165|184451074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|231.6|||||TWO_SIDED|95.0|149.31|310.02|||||The 95% Bayesian credible interval for differences between each individual batefenterol 75 µg dose and placebo was estimated.|||310.02|149.31|
92274412|NCT02570165|184451074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|261.8|||||TWO_SIDED|95.0|189.85|332.25|||||The 95% Bayesian credible interval for differences between each individual batefenterol 150 µg dose and placebo was estimated.|||332.25|189.85|
92274413|NCT02570165|184451074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|281.4|||||TWO_SIDED|95.0|212.35|351.3|||||The 95% Bayesian credible interval for differences between each individual batefenterol 300 µg dose and placebo was estimated.|||351.30|212.35|
92274414|NCT02570165|184451074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|292.8|||||TWO_SIDED|95.0|223.02|364.42|||||The 95% Bayesian credible interval for differences between each individual batefenterol 600 µg dose and placebo was estimated.|||364.42|223.02|
92274415|NCT02570165|184451075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|182.2|||||TWO_SIDED|95.0|99.8|264.6|||||The 95% confidence interval for the difference between 37.5 µg Batefenterol and Placebo was estimated.|||264.60|99.80|
92274416|NCT02570165|184451075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|196.6|||||TWO_SIDED|95.0|128.4|264.8|||||The 95% confidence interval for the difference between 75 µg Batefenterol and Placebo was estimated.|||264.80|128.40|
92274417|NCT02570165|184451075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|204.6|||||TWO_SIDED|95.0|137.2|272.1|||||The 95% confidence interval for the difference between 150 µg Batefenterol and Placebo was estimated.|||272.10|137.20|
92214921|NCT04908189|184329826|SUPERIORITY||Adjusted mean difference|-0.38|STANDARD_ERROR_OF_MEAN|1.801||0.8316|TWO_SIDED|95.0|-3.91|3.15|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Absenteeism||3.15|-3.91|0.8316
92214922|NCT04908189|184329826|SUPERIORITY||Adjusted mean difference|-2.95|STANDARD_ERROR_OF_MEAN|1.827||0.106|TWO_SIDED|95.0|-6.54|0.63|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Presenteeism||0.63|-6.54|0.1060
92214923|NCT04908189|184329826|SUPERIORITY||Adjusted mean difference|-2.71|STANDARD_ERROR_OF_MEAN|1.918||0.1578|TWO_SIDED|95.0|-6.47|1.05|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Work Productivity||1.05|-6.47|0.1578
92214924|NCT04908189|184329826|SUPERIORITY||Adjusted mean difference|-7.59|STANDARD_ERROR_OF_MEAN|1.719|<|0.0001|TWO_SIDED|95.0|-10.96|-4.22|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Activity Impairment||-4.22|-10.96|<0.0001
92274418|NCT02570165|184451075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|208.9|||||TWO_SIDED|95.0|138.7|279.2|||||The 95% confidence interval for the difference between 300 µg Batefenterol and Placebo was estimated.|||279.20|138.70|
92274419|NCT02570165|184451075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|211.1|||||TWO_SIDED|95.0|138.6|283.7|||||The 95% confidence interval for the difference between 600 µg Batefenterol and Placebo was estimated.|||283.70|138.60|
92274420|NCT04428502|184451112|EQUIVALENCE|Hypothesis tested was to evaluate that there is no difference in response between ACCP positive and ACCP negative PsA participants who were treated with etanercept.||||||0.6|||||||Student's t-test|||At Month 1: P-value \<0.05 was considered statistically significant, without multiplicity adjustment.||||0.6
92274421|NCT04428502|184451112|EQUIVALENCE|Hypothesis tested was to evaluate that there is no difference in response between ACCP positive and ACCP negative PsA participants who were treated with etanercept.||||||0.007|||||||Student's t-test|||At Month 6: P-value \<0.05 was considered statistically significant, without multiplicity adjustment.||||0.007
92274422|NCT04428502|184451112|EQUIVALENCE|Hypothesis tested was to evaluate that there is no difference in response between ACCP positive and ACCP negative PsA participants who were treated with etanercept.||||||0.004|||||||Student's t-test|||At Month 12: P-value \<0.05 was considered statistically significant, without multiplicity adjustment.||||0.004
92274423|NCT02295280|184451119|SUPERIORITY|||||||0.14||||||Reduction in pain scores by at least 2 units six hours post administration|Mann Whitney U test|Mann Whitney U test used for analysis of this continuous variable as data were not normally distributed. Outcome was comparable at the 6-hour mark.||A sample size calculation of 35 patients in each group was based on an estimated reduction in headache pain score by at least two points, with an a of 0.05 and power of 90%, which is similar to estimates reported in prior studies in non-pregnant patients and felt to be a clinically significant decrease. Statistical analyses were performed using chi-square, Fisher's exact test for categorical variables, the independent Student's t-test and Kolmogorov-Smirnov for continuous variables.||||0.14
92274424|NCT01241565|184451139|SUPERIORITY_OR_OTHER||Rate of incidence of PAL|10.6|||||TWO_SIDED|95.0|3.9|21.3|||||Incidence of Prolonged Air Leak (PAL) is estimated at between 5-10% in literature. PAL of 10%of evaluable cases was used to determine study success.|||21.3|3.9|
92214925|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|-0.0026|STANDARD_ERROR_OF_MEAN|0.01224||0.8487|TWO_SIDED|95.0|-0.0291|0.0239|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Utility Score||0.0239|-0.0291|0.8487
92214926|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|0.0365|STANDARD_ERROR_OF_MEAN|0.01531||0.0171|TWO_SIDED|95.0|0.0065|0.0665|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Utility Score||0.0665|0.0065|0.0171
92214927|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9254|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Mobility||0.1|-0.1|0.9254
92274425|NCT02713243|184451146|SUPERIORITY||Mean Difference (Net)|4.04||||0.01|TWO_SIDED|95.0|0.98|7.11|||Mixed Models Analysis|||Week 1 (Period 1 \& 2)||7.11|0.98|0.01
92274426|NCT02713243|184451146|SUPERIORITY||Mean Difference (Net)|1.31||||0.401|TWO_SIDED|95.0|-1.77|4.38|||Mixed Models Analysis|||Week 2 (Period 1 \& 2)||4.38|-1.77|0.401
92274427|NCT02713243|184451146|SUPERIORITY||Mean Difference (Net)|2.67||||0.019|TWO_SIDED|95.0|0.46|4.89|||Mixed Models Analysis|||Week 1\&2 (Period 1 \& 2)||4.89|0.46|0.019
92274428|NCT02713243|184451151|SUPERIORITY||Mean Difference (Net)|0.12||||0.533|TWO_SIDED|95.0|-0.27|0.52|||Mixed Models Analysis|||Week 1 (Period 1 \& 2)||0.52|-0.27|0.533
92274429|NCT02713243|184451151|SUPERIORITY||Mean Difference (Net)|-0.09||||0.64|TWO_SIDED|95.0|-0.49|0.3|||Mixed Models Analysis|||Week 2 (Period 1 \& 2)||0.30|-0.49|0.640
92214928|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.0566|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Mobility||0.0|-0.2|0.0566
92214929|NCT04908189|184329827|SUPERIORITY||Ajudted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.8933|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Self-Care||0.1|-0.1|0.8933
92214930|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05||0.0738|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Self-Care||0.0|-0.2|0.0738
92274430|NCT02713243|184451151|SUPERIORITY||Mean Difference (Net)|0.02||||0.916|TWO_SIDED|95.0|-0.27|0.3|||Mixed Models Analysis|||Week 1\&2 (Period 1 \& 2)||0.30|-0.27|0.916
92153558|NCT01370005|184192477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.4||0.0008|TWO_SIDED|95.0|-2.15|-0.56||Hierarchical testing, no adjustment of p-values.|ANCOVA|Model incl. baseline (bl) HbA1c, bl mean 24h DBP as lin. covariates; treatment, bl renal function, region, bl N of antihyperten. med. as fixed effects|Difference calculated as empa 10mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-0.56|-2.15|0.0008
92153559|NCT01370005|184192477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.51|-0.93||Hierarchical testing, no adjustment of p-values.|ANCOVA|Model incl. baseline (bl) HbA1c, bl mean 24h DBP as lin. covariates; treatment, bl renal function, region, bl N of antihyperten. med. as fixed effects|Difference calculated as empa 25mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-0.93|-2.51|<0.0001
92153560|NCT01370005|184192478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.26|||<|0.0001|TWO_SIDED|95.0|3.51|11.18|||Regression, Logistic|Logistic regression model includes treatment, baseline renal function, region, baseline number of antihypertensive medications and baseline HbA1c||||11.18|3.51|<0.0001
92153561|NCT01370005|184192478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.59|||<|0.0001|TWO_SIDED|95.0|3.7|11.75|||Regression, Logistic|Logistic regression model includes treatment, baseline renal function, region, baseline number of antihypertensive medications and baseline HbA1c||||11.75|3.70|<0.0001
92153562|NCT01370005|184192479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.76|STANDARD_ERROR_OF_MEAN|2.63|<|0.0001|TWO_SIDED|95.0|-28.91|-18.6|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline FPG|Difference calculated as empa 10mg minus placebo.|||-18.60|-28.91|<0.0001
92153563|NCT01370005|184192479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|2.61|<|0.0001|TWO_SIDED|95.0|-35.32|-25.08|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline FPG|Difference calculated as empa 25mg minus placebo.|||-25.08|-35.32|<0.0001
92153564|NCT01370005|184192480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.49|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.85|-1.13|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline number of antihypertensive med., baseline HbA1c and baseline weight|Difference calculated as empa 10mg minus placebo.|||-1.13|-1.85|<0.0001
92153565|NCT01370005|184192480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.33|-1.62|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline number of antihypertensive med., baseline HbA1c and baseline weight|Difference calculated as empa 10mg minus placebo.|||-1.62|-2.33|<0.0001
92153566|NCT01370005|184192481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.94|STANDARD_ERROR_OF_MEAN|0.73|<|0.0001|TWO_SIDED|95.0|-5.37|-2.52|||ANCOVA|Model includes treatment, baseline renal function, geographical region, N of antihypertensive medications, baseline HbA1c and baseline daytime SBP|Difference calculated as empa 10mg minus placebo.|||-2.52|-5.37|<0.0001
92153567|NCT01370005|184192481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.78|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-6.2|-3.36|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline daytime SBP|Difference calculated as empa 25mg minus placebo.|||-3.36|-6.20|<0.0001
92153568|NCT01370005|184192482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.56|STANDARD_ERROR_OF_MEAN|0.44||0.0004|TWO_SIDED|95.0|-2.42|-0.69|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline daytime DBP|Difference calculated as empa 10mg minus placebo.|||-0.69|-2.42|0.0004
92153569|NCT01370005|184192482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-2.84|-1.12|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline daytime DBP|Difference calculated as empa 25mg minus placebo.|||-1.12|-2.84|<0.0001
92153570|NCT01370005|184192483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.81||0.0021|TWO_SIDED|95.0|-4.09|-0.91|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline night-time SBP|Difference calculated as empa 10mg minus placebo.|||-0.91|-4.09|0.0021
92153571|NCT01370005|184192483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|0.81||0.0003|TWO_SIDED|95.0|-4.48|-1.32|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline night-time SBP|Difference calculated as empa 25mg minus placebo.|||-1.32|-4.48|0.0003
92153572|NCT01370005|184192484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.5||0.0566|TWO_SIDED|95.0|-1.93|0.03|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline night-time DBP|Difference calculated as empa 10mg minus placebo.|||0.03|-1.93|0.0566
92274431|NCT03404206|184451170|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92274432|NCT03404206|184451170|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92274433|NCT03404206|184451171|SUPERIORITY||Least squares means|-34.73|||||TWO_SIDED|95.0|-45.67|-23.8|||ANCOVA|||||-23.8|-45.67|
92274434|NCT03404206|184451171|SUPERIORITY||Least squares means|-73.43|||||TWO_SIDED|95.0|-89.01|-57.85|||ANCOVA|||||-57.85|-89.01|
92214931|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.6176|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Usual Activities||0.1|-0.1|0.6176
92214932|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.1544|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Usual Activities||0.0|-0.2|0.1544
92214933|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.4707|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Pain/Discomfort||0.1|-0.2|0.4707
92274435|NCT03404206|184451171|SUPERIORITY||Least squares means|-38.7|||||TWO_SIDED|95.0|-54.29|-23.11|||ANCOVA|||||-23.11|-54.29|
92274436|NCT03404206|184451172|SUPERIORITY||Least squares means|-18.21|||||TWO_SIDED|95.0|-23.52|-12.89|||ANCOVA|||||-12.89|-23.52|
92274437|NCT03404206|184451172|SUPERIORITY||Least squares means|-33.72|||||TWO_SIDED|95.0|-41.29|-26.14|||ANCOVA|||||-26.14|-41.29|
92274438|NCT03404206|184451172|SUPERIORITY||Least squares means|-15.51|||||TWO_SIDED|95.0|-23.09|-7.93|||ANCOVA|||||-7.93|-23.09|
92274439|NCT01133392|184451173|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.99|||||TWO_SIDED|90.0|0.948|1.034||||||||1.034|0.948|
92274440|NCT01133392|184451174|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.933|||||TWO_SIDED|90.0|0.897|0.972||||||||0.972|0.897|
92214934|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06||0.0114|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Pain/Discomfort||0.0|-0.3|0.0114
92274441|NCT01133392|184451175|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.005|||||TWO_SIDED|90.0|0.958|1.054||||||||1.054|0.958|
92274442|NCT01133392|184451176|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.1|||||TWO_SIDED|90.0|-0.4|0.5||||||||0.500|-0.400|
92274443|NCT01133392|184451177|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.014|||||TWO_SIDED|90.0|0.961|1.07||||||||1.070|0.961|
92274444|NCT03751124|184451178|OTHER|Chi-square test was used for the comparison between relugolix plus E2/NETA group and placebo group.|Treatment difference|63.36|||<|0.0001|TWO_SIDED|95.0|52.85|73.86||P-value was based on the stratified test statistics via log-log transformation of the difference in survival curve at a fixed time point stratified by pivotal study baseline MBL volume and duration of prior exposure to relugolix.|Log-Log transformation|Log-Log transformation of survival curve based on stratified Kaplan-Meier analysis|The 95% confidence interval (CI) of treatment difference was calculated via linear transformation of the difference in survival function with pooled variance.|The primary efficacy analysis was the comparison of the relugolix plus E2/NETA group with the placebo group with respect to responder rate.||73.86|52.85|<0.0001
92274445|NCT03751124|184451179|OTHER|Stratified log-rank test was used for the comparison between relugolix plus E2/NETA group and placebo group.|Hazard Ratio (HR)|0.13|||<|0.0001|TWO_SIDED|95.0|0.08|0.2||P-value for comparison of relugolix plus E2/NETA to placebo was based on the stratified log-rank test.|Log Rank||Hazard ratio (95% CI) of relugolix plus E2/NETA to placebo was based on a proportional hazard model stratified by pivotal study baseline MBL volume (\<225 mL or ≥225 mL) and duration of prior exposure to relugolix (28 weeks or 52 weeks).|||0.20|0.08|<0.0001
92274446|NCT03751124|184451180|OTHER|Chi-square test was used for the comparison between relugolix plus E2/NETA group and placebo group.|Treatment difference|58.04|||<|0.0001|TWO_SIDED|95.0|46.97|69.11||P-value was based on the stratified test statistics via log-log transformation of the difference in survival curve at a fixed time point stratified by pivotal study baseline MBL volume and duration of prior exposure to relugolix.|Log-Log transformation|Log-Log transformation of survival curve based on stratified Kaplan-Meier analysis|The 95% CI of treatment difference was calculated via linear transformation of the difference in survival function with pooled variance.|||69.11|46.97|<0.0001
92274447|NCT03751124|184451181|SUPERIORITY||Treatment difference|44.12|||<|0.0001|TWO_SIDED|95.0|33.13|55.11||P-value for difference between relugolix plus E2/NETA and placebo is based on Cochran-Mantel-Haenszel test stratified by pivotal study baseline MBL volume (\<225 mL or ≥225 mL) and duration of prior exposure to relugolix (28 weeks or 52 weeks).|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo. 95% CI for difference is based on the normal approximation.|||55.11|33.13|<0.0001
92274448|NCT02496221|184451242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0021||||0.1229|TWO_SIDED|95.0|-20.5781|2.5739|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||2.5739|-20.5781|0.1229
92274449|NCT02496221|184451243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-545.9585||||0.1291|TWO_SIDED|95.0|-1260.0|168.0858|||Mixed Models Analysis|||||168.0858|-1260.00|0.1291
92274450|NCT02496221|184451245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2992||||0.0317|TWO_SIDED|95.0|-31.0762|-1.5223|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||-1.5223|-31.0762|0.0317
92153573|NCT01370005|184192484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.5||0.0208|TWO_SIDED|95.0|-2.12|-0.18|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline night-time DBP|Difference calculated as empa 25mg minus placebo.|||-0.18|-2.12|0.0208
92153574|NCT01370005|184192485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.92|STANDARD_ERROR_OF_MEAN|0.99|<|0.0001|TWO_SIDED|95.0|-5.86|-1.98|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline seated SBP|Difference calculated as empa 10mg minus placebo.|||-1.98|-5.86|<0.0001
92153575|NCT01370005|184192485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|0.98|<|0.0001|TWO_SIDED|95.0|-6.73|-2.87|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline seated SBP|Difference calculated as empa 25mg minus placebo.|||-2.87|-6.73|<0.0001
92153576|NCT01370005|184192486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|0.55||0.0005|TWO_SIDED|95.0|-3.01|-0.84|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline seated DBP|Difference calculated as empa 10mg minus placebo.|||-0.84|-3.01|0.0005
92153577|NCT01370005|184192486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.89|STANDARD_ERROR_OF_MEAN|0.55||0.0006|TWO_SIDED|95.0|-2.97|-0.82|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline seated DBP|Difference calculated as empa 25mg minus placebo.|||-0.82|-2.97|0.0006
92153578|NCT01370005|184192487|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.49||||0.0021|TWO_SIDED|95.0|1.39|4.45|||Regression, Logistic|Logistic regression model includes treatment, baseline renal function, region, baseline number of antihypertensive medications and baseline HbA1c||||4.45|1.39|0.0021
92153579|NCT01370005|184192487|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.0088|TWO_SIDED|95.0|1.22|3.96|||Regression, Logistic|Logistic regression model includes treatment, baseline renal function, region, baseline number of antihypertensive medications and baseline HbA1c||||3.96|1.22|0.0088
92153580|NCT03691948|184192495|SUPERIORITY|||||||0.531|||||||ANOVA|||||||.531
92153581|NCT03691948|184192496|SUPERIORITY|||||||0.076|||||||ANOVA|||||||0.076
92153582|NCT04524598|184192539|SUPERIORITY||t|-1.911||||0.06|TWO_SIDED||||||Mixed Models Analysis|||A linear mixed-effects model (LMM) analysis was implemented on an averaged imputed dataset to evaluate main effects of Group (Spark, Control) and Week (0-5), and the Group x Week interaction. Group and Week were entered as fixed factors. Spark version, and assessment completion days since baseline were included as fixed factors to control for effects of app version and differences in time between completion of successive weekly assessments.||||0.06
92153583|NCT04524598|184192539|SUPERIORITY||t|-2.546||||0.01|TWO_SIDED||||||Mixed Models Analysis|||We used a Per Protocol approach that included participants who completed the PHQ at baseline and each week. A linear mixed-effects model (LMM) analysis was implemented on an averaged imputed dataset to evaluate main effects of Group (Spark, Control) and Week (0-5), and the Group x Week interaction.||||0.01
92153584|NCT04524598|184192542|SUPERIORITY||F|1.46||||0.23|TWO_SIDED||||||ANOVA|||We conducted a repeated measures ANOVA (Group x Time) on GAD-7 scores to compare the change in anxiety symptoms from Baseline to Post treatment for Phase II participants who had a baseline PHQ-8 score \>= 10. The interaction term is presented.||||0.23
92153585|NCT04524598|184192542|SUPERIORITY||F|2.59||||0.11|TWO_SIDED||||||ANOVA|||We conducted a repeated measures ANOVA (Group x Time) on the PROMIS - General Health Score to compare the change in general health from Baseline to Post treatment for Phase II participants who had a baseline PHQ-8 score \>= 10. The interaction term is reported.||||0.11
92153586|NCT04524598|184192543|SUPERIORITY||F|0.94||||0.33|TWO_SIDED||||||ANOVA|||We conducted a repeated measures ANOVA (Time x Group) on the MFQ to compare the change in parent report of depressive symptoms from Baseline to Post treatment for Phase II participants who had a baseline PHQ-8 score \>= 10. The interaction term is presented.||||0.33
92153587|NCT04524598|184192543|SUPERIORITY||F|0.02||||0.9|TWO_SIDED||||||ANOVA|||We conducted a repeated measures ANOVA (Group x Time) on the PROMIS Parent Proxy - General Health Score to compare the change in parent reported general health from Baseline to Post treatment for Phase II participants who had a baseline PHQ-8 score \>= 10. The interaction term is reported.||||0.90
92153588|NCT04195880|184192557|SUPERIORITY||||||<|0.05|TWO_SIDED|5.0|||||negative-binomial regression coefficient|||We assumed the average monthly pre-intervention hospitalization rates of intervention and control CLCs were equal, so only average monthly post-intervention hospitalization rates might diverge. Each CLC had its own start month and contributed 18 months pre-intervention and 18 months post-intervention. Hospitalizations rates were modeled using a multilevel negative-binomial regression because it allows for over-dispersion, which is commonly observed with medical events such as a count.||||<.05
92153589|NCT02306122|184192559|SUPERIORITY||Risk Difference (RD)|-0.015|STANDARD_ERROR_OF_MEAN|0.034|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is control arm|||||<0.01
92153590|NCT02306122|184192559|SUPERIORITY||Risk Difference (RD)|-0.015|STANDARD_ERROR_OF_MEAN|0.041|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is control arm|||||<0.01
92153591|NCT02306122|184192559|SUPERIORITY||Risk Difference (RD)|0.012|STANDARD_ERROR_OF_MEAN|0.029|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is control arm|||||<0.01
92153592|NCT02306122|184192560|SUPERIORITY||Mean Difference (Final Values)|-0.128|STANDARD_ERROR_OF_MEAN|2.523|<|0.01|TWO_SIDED||||||Regression, Linear||Comparator is the control arm|||||<0.01
92153593|NCT02306122|184192560|SUPERIORITY||Mean Difference (Final Values)|-1.582|STANDARD_ERROR_OF_MEAN|2.997|<|0.01|TWO_SIDED||||||Regression, Linear||Comparator is the control arm|||||<0.01
92153594|NCT02306122|184192560|SUPERIORITY||Mean Difference (Final Values)|0.308|STANDARD_ERROR_OF_MEAN|2.38|<|0.01|TWO_SIDED||||||Regression, Linear||Comparator is the control arm|||||<0.01
92153595|NCT02306122|184192561|SUPERIORITY||Risk Difference (RD)|-0.043|STANDARD_ERROR_OF_MEAN|0.068|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is the information arm|||||<0.01
92153596|NCT02306122|184192561|SUPERIORITY||Risk Difference (RD)|0.06|STANDARD_ERROR_OF_MEAN|0.063|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is the information arm|||||<0.01
92153597|NCT02306122|184192562|SUPERIORITY||Risk Difference (RD)|0.42|STANDARD_ERROR_OF_MEAN|0.071|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is the choice arm|||||<0.01
92153598|NCT00180713|184192576|SUPERIORITY|||||||0.028|||||||ANOVA|||||||0.028
92274451|NCT02496221|184451246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|252.6099||||0.0291|TWO_SIDED|95.0|29.5081|475.7117|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||475.7117|29.5081|0.0291
92274452|NCT02496221|184451247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3748||||0.7961|TWO_SIDED|95.0|-3.4109|2.6614|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||2.6614|-3.4109|0.7961
92274453|NCT02496221|184451249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001526||||0.9424|TWO_SIDED|95.0|-0.045665|0.048717|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||0.048717|-0.045665|0.9424
92274454|NCT02496221|184451250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01456||||0.0733|TWO_SIDED|95.0|-0.030666|0.001554|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||0.001554|-0.030666|0.0733
92274455|NCT01335399|184451257|SUPERIORITY|||||||0.4358|||||||Stratified Log Rank|||||||0.4358
92274456|NCT01335399|184451257|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.71|0.77|1.12|||||E-Ld/Ld. Calculated using Cox proportional hazards modeling|||1.12|0.77|
92274457|NCT01335399|184451258|SUPERIORITY||CMH ESTIMATE OF COMMON ODDS RATIO|1.26||||0.2232|TWO_SIDED|95.0|0.87|1.82|||CMH ESTIMATE OF COMMON ODDS RATIO|||||1.82|0.87|0.2232
92274458|NCT01335399|184451259|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.8932|TWO_SIDED|95.0|0.82|1.19|||Stratified log rank test||Stratified by stage of disease (International Staging System 1 - 2 vs 3), age (\<75 years old vs \>= 75 years old) and ECOG performance status (0 vs 1 - 2) at randomization.|||1.19|0.82|0.8932
92274459|NCT01335399|184451261|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.4358|TWO_SIDED|95.0|0.78|1.12|||Hazard Ratio|||||1.12|0.78|0.4358
92153599|NCT00180713|184192577|SUPERIORITY|||||||0.86|||||||ANOVA|||Analysis was performed by intention to treat at 6 months and per protocol at 12 months. Missing variables were replaced with medians or means (for variables missing at baseline) or with expected variables calculated on the percentage change between baseline and 24 weeks observed for the group (placebo or statin) as a whole (a technique called imputation). Missing variables accounted for less than 5% of the data and there were no missing CMR data at baseline.||||0.86
92153600|NCT00180713|184192578|SUPERIORITY|||||||0.4|||||||ANOVA|||Analysis was performed by intention to treat at 6 months and per protocol at 12 months. Missing variables were replaced with medians or means (for variables missing at baseline) or with expected variables calculated on the percentage change between baseline and 24 weeks observed for the group (placebo or statin) as a whole (a technique called imputation). Missing variables accounted for less than 5% of the data and there were no missing CMR data at baseline.||||0.4
92214935|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.6594|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Anxiety/Depression||0.1|-0.1|0.6594
92153601|NCT00180713|184192579|SUPERIORITY|||||||0.041|||||||ANOVA|||||||0.041
92153602|NCT00180713|184192580|SUPERIORITY|||||||0.26|||||||ANOVA|||||||0.26
92153603|NCT05295732|184192581|SUPERIORITY||treatment difference|-1.0||||0.39|TWO_SIDED|95.0|-18.4|16.5|||Cochran-Mantel-Haenszel|||||16.5|-18.4|0.39
92153604|NCT02322814|184192612|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.247||95.0|0.43|1.24|||Log Rank|||||1.24|0.43|0.2470
92153605|NCT02322814|184192614|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.5912||95.0|0.65|2.13|||Log Rank|||||2.13|0.65|0.5912
92153606|NCT01744860|184192649|SUPERIORITY_OR_OTHER||Kappa coefficient|0.8611|||||TWO_SIDED|95.0|0.8125|0.9097||||||"Kappa coefficient was used to compare the concordance between INCa Molecular Genetics Laboratory in-house methods and Cobas 4800 Mutation Test."||0.9097|0.8125|
92153607|NCT00309608|184192695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.95|-0.39||There was no adjustment for multiple testing, however a hierarchy approach to control for the Type-I error was used. If the 10mg was not successful, any analysis of the 5mg will be descriptive, and similarly for the next step for the 1mg.|Pairwise comparison based on ANCOVA|||"Linagliptin 10 mg vs. Placebo~Missing endpoints after 12 weeks of treatment were replaced using Last Observation Carried Forward (LOCF)"||-0.39|-0.95|<0.0001
92153608|NCT00309608|184192695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-1.01|-0.44||There was no adjustment for multiple testing, however a hierarchy approach to control for the Type-I error was used. If the 10mg was not successful, any analysis of the 5mg will be descriptive, and similarly for the next step for the 1mg.|Pairwise comparison based on ANCOVA|||"Linagliptin 5 mg vs. Placebo~missing endpoints after 12 weeks of treatment were replaced using Last Observation Carried Forward (LOCF)"||-0.44|-1.01|<0.0001
92153609|NCT00309608|184192695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.0055||95.0|-0.68|-0.12||There was no adjustment for multiple testing, however a hierarchy approach to control for the Type-I error was used. If the 10mg was not successful, any analysis of the 5mg will be descriptive, and similarly for the next step for the 1mg.|Pairwise comparison based on ANCOVA|||"Linagliptin 1 mg vs. Placebo~Missing endpoints after 12 weeks of treatment were replaced using Last Observation Carried Forward (LOCF)"||-0.12|-0.68|0.0055
92153610|NCT00309608|184192695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.99|-0.46|||Pairwise comparison based on ANCOVA|||"Placebo vs. Linagliptin 10 mg~Analysis additionally adjusted for previous anti-diabetic medication.~Missing endpoints after 12 weeks of treatment were replaced using Last Observation Carried Forward (LOCF)."||-0.46|-0.99|<0.0001
92214936|NCT04908189|184329827|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.7123|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Anxiety/Depression||0.1|-0.1|0.7123
92214937|NCT04908189|184329828|SUPERIORITY||Adjusted mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.498||0.9834|TWO_SIDED|95.0|-0.99|0.97|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.97|-0.99|0.9834
92214938|NCT04908189|184329828|SUPERIORITY||Adjusted mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.565||0.6099|TWO_SIDED|95.0|-1.39|0.82|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||0.82|-1.39|0.6099
92214939|NCT04908189|184329828|SUPERIORITY||Adjusted mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.538||0.2205|TWO_SIDED|95.0|-1.71|0.4|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||0.40|-1.71|0.2205
92214940|NCT05118204|184329829|SUPERIORITY||Odds Ratio (OR)|0.91|STANDARD_ERROR_OF_MEAN|1.346||1|TWO_SIDED|95.0|0.05|16.54|||Fisher Exact|||||16.540|0.050|1.00
92214941|NCT00607022|184329834|OTHER|Kruskal-Wallis values between each loading group and for Wilcoxon Signed Rank for measures on the mesial vs buccal side of the implant.|||||>|0.05||||||0.0501 \< p \< 0.9797|Kruskal-Wallis|Kruskal-Wallis test evaluated ISQ at each time point..||Comparison between loading groups at 16 weeks - loading at baseline, Loading at 6 weeks, and loading at 12 weeks. Scores for all groups were compared at 16 weeks from implant placement..||||>0.05
92214942|NCT04409353|184329847|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 30, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.47||||0.4884|TWO_SIDED|95.0|-0.87|1.81||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The primary analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 7, 15, 21, and 30, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||1.81|-0.87|0.4884
92214943|NCT04409353|184329847|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 30, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.16||||0.8095|TWO_SIDED|95.0|-1.12|1.43||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The primary analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 7, 15, 21, and 30, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||1.43|-1.12|0.8095
92398168|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.67||||0.1241|TWO_SIDED|95.0|0.62|51.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||51.74|0.62|0.1241
92398169|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.64||||0.2169|TWO_SIDED|95.0|0.57|12.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.29|0.57|0.2169
92398170|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9982|TWO_SIDED|95.0|0.28|3.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.60|0.28|0.9982
92336699|NCT02634983|184576152|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.15|0.25|||t-test, 2 sided|||FEV1 Day 1 (1 hrs post-dose)||0.25|0.15|<0.0001
92336700|NCT02634983|184576152|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.13|0.24|||t-test, 2 sided|||FEV1 Day 1 (2 hrs post-dose)||0.24|0.13|<0.0001
92336701|NCT02634983|184576152|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.16|0.27|||t-test, 2 sided|||FEV1 Day 8 (-0.75 hrs post-dose)||0.27|0.16|<0.0001
92336702|NCT02634983|184576152|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.16|0.28|||t-test, 2 sided|||FEV1 Day 8 (-0.25 hrs post-dose)||0.28|0.16|<0.0001
92398171|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.57||||0.5364|TWO_SIDED|95.0|0.38|6.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.54|0.38|0.5364
92398172|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.68||||0.121|TWO_SIDED|95.0|0.63|51.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||51.07|0.63|0.1210
92398173|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|7.65||||0.0726|TWO_SIDED|95.0|0.83|70.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||70.58|0.83|0.0726
92336703|NCT02634983|184576152|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.23|0.33|||t-test, 2 sided|||FEV1 Day 8 (0.25 hrs post-dose)||0.33|0.23|<0.0001
92398174|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|7.34||||0.0749|TWO_SIDED|95.0|0.82|65.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||65.81|0.82|0.0749
92336704|NCT02634983|184576152|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.26|0.37|||t-test, 2 sided|||FEV1 Day 8 (1 hrs post-dose)||0.37|0.26|<0.0001
92336705|NCT02634983|184576152|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|90.0|0.26|0.38|||t-test, 2 sided|||FEV1 Day 8 (2 hrs post-dose)||0.38|0.26|<0.0001
92336706|NCT02634983|184576153|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|90.0|0.15|0.33|||t-test, 2 sided|||FVC Day 1 (0.25 hrs post-dose)||0.33|0.15|<0.0001
92336707|NCT02634983|184576153|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|90.0|0.25|0.45|||t-test, 2 sided|||FVC Day 1 (1 hrs post-dose)||0.45|0.25|<0.0001
92336708|NCT02634983|184576153|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|90.0|0.2|0.42|||t-test, 2 sided|||FVC Day 1 (2 hrs post-dose)||0.42|0.20|<0.0001
92336709|NCT02634983|184576153|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|90.0|0.25|0.45|||t-test, 2 sided|||FVC Day 8 (-0.75 hrs post-dose)||0.45|0.25|<0.001
92336710|NCT02634983|184576153|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|90.0|0.19|0.37|||t-test, 2 sided|||FVC Day 8 (-0.25 hrs post-dose)||0.37|0.19|<0.0001
92336711|NCT02634983|184576153|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|90.0|0.33|0.53|||t-test, 2 sided|||FVC Day 8 (0.25 hrs post-dose)||0.53|0.33|<0.0001
92336712|NCT02634983|184576153|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|90.0|0.36|0.54|||t-test, 2 sided|||FVC Day 8 (1 hrs post-dose)||0.54|0.36|<0.0001
92336713|NCT02634983|184576153|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|90.0|0.33|0.55|||t-test, 2 sided|||FVC Day 8 (2 hrs post-dose)||0.55|0.33|<0.0001
92336714|NCT02634983|184576154|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|2.17|STANDARD_ERROR_OF_MEAN|0.56||0.0006|TWO_SIDED|90.0|1.21|3.12|||t-test, 2 sided|||FEV1/FVC Day 1 (0.25 hrs post-dose)||3.12|1.21|0.0006
92336715|NCT02634983|184576154|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|2.06|STANDARD_ERROR_OF_MEAN|0.75||0.0106|TWO_SIDED|90.0|0.78|3.33|||t-test, 2 sided|||FEV1/FVC Day 1 (1 hrs post-dose)||3.33|0.78|0.0106
92336716|NCT02634983|184576154|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|2.32|STANDARD_ERROR_OF_MEAN|0.66||0.0013|TWO_SIDED|90.0|1.2|3.44|||t-test, 2 sided|||FEV1/FVC Day 1 (2 hrs post-dose)||3.44|1.20|0.0013
92398175|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|4.01||||0.053|TWO_SIDED|95.0|0.98|16.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||16.35|0.98|0.0530
92336717|NCT02634983|184576154|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|2.82|STANDARD_ERROR_OF_MEAN|0.83||0.0017|TWO_SIDED|90.0|1.41|4.23|||t-test, 2 sided|||FEV1/FVC Day 8 (-0.75 hrs post-dose)||4.23|1.41|0.0017
92336718|NCT02634983|184576154|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|3.8|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001|TWO_SIDED|90.0|2.51|5.09|||t-test, 2 sided|||FEV1/FVC Day 8 (-0.25 hrs post-dose)||5.09|2.51|<0.0001
92336719|NCT02634983|184576154|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|3.74|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED|90.0|2.45|5.02|||t-test, 2 sided|||FEV1/FVC Day 8 (0.25 hrs post-dose)||5.02|2.45|<0.0001
92336720|NCT02634983|184576154|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|4.6|STANDARD_ERROR_OF_MEAN|0.85|<|0.0001|TWO_SIDED|90.0|3.16|6.03|||t-test, 2 sided|||FEV1/FVC Day 8 (1 hrs post-dose)||6.03|3.16|<0.0001
92336721|NCT02634983|184576154|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|4.98|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|90.0|3.56|6.39|||t-test, 2 sided|||FEV1/FVC Day 8 (2 hrs post-dose)||6.39|3.56|<0.0001
92336722|NCT02634983|184576155|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.36||0.982|TWO_SIDED|90.0|-0.62|0.6|||t-test, 2 sided|||Lung Clearance Index||0.60|-0.62|0.9820
92336723|NCT02634983|184576156|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.36||0.0821|TWO_SIDED|90.0|0.04|1.27|||t-test, 2 sided|||Diffusion Capacity of Lung for CO||1.27|0.04|0.0821
92336724|NCT00762762|184576212|OTHER|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.05
92336725|NCT00762762|184576213|OTHER|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.05
92336726|NCT00762762|184576214|OTHER|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.05
92336727|NCT00762762|184576215|OTHER|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.05
92336728|NCT00762762|184576216|OTHER|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.05
92336729|NCT00762762|184576217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92336730|NCT00762762|184576218|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92336731|NCT00762762|184576219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92336732|NCT00762762|184576220|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92398176|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.32||||0.2134|TWO_SIDED|95.0|0.62|8.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||8.72|0.62|0.2134
92398177|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.88||||0.3688|TWO_SIDED|95.0|0.48|7.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.41|0.48|0.3688
92336733|NCT00762762|184576221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92336734|NCT02861664|184576232|OTHER||Least square (LS) mean difference|-0.6|||<|0.0001||95.0|-0.8|-0.4||From ANCOVA model with change from baseline in Schiff Sensitivity Score as response and treatment and baseline Schiff sensitivity score as covariates.|ANCOVA||Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|||-0.4|-0.8|<.0001
92398178|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|4.61||||0.0563|TWO_SIDED|95.0|0.96|22.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||22.11|0.96|0.0563
92274460|NCT01893983|184451266|EQUIVALENCE|Compare whether 2 groups had any difference in risk/hazard of mental health engagement at any time during follow-up.|Cox Proportional Hazard|1.13||||0.66|TWO_SIDED|95.0|0.81|1.58||P value 0.05 is the threshold for statistical significance|Regression, Cox|Adjusted for site, mental health treatment history and mental health symptom severity at baseline, baseline amphetamine and opioid scores.|The referral alone arm is the reference group (denominator), and the motivational coaching arm is the numerator.|Compare 2 groups in regard to time to first mental health treatment using Cox proportional hazards regression.||1.58|0.81|0.660
92274461|NCT01120600|184451270|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|5.59|||<|0.001|TWO_SIDED|95.0|4.48|6.7|||cLDA|||A constrained full likelihood longitudinal data analysis (cLDA) method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||6.7|4.48|< 0.001
92277608|NCT01379781|184457264|SUPERIORITY||Slope|-6.54||||0.01|TWO_SIDED||||||Mixed Models Analysis|||Mixed effect model was used to compare Hamilton Rating Scales of Depression (HRSD) for women who received the PREPP intervention between the pre-randomization assessment and the 6 weeks postpartum session.||||.01
92277609|NCT02247479|184457265|SUPERIORITY||Difference in Adjusted Means|-0.019||||0.8381|TWO_SIDED|95.0|-0.206|0.167|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.167|-0.206|0.8381
92277610|NCT02247479|184457265|SUPERIORITY||Difference in Adjusted Means|0.051||||0.5901|TWO_SIDED|95.0|-0.134|0.236|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.236|-0.134|0.5901
92277611|NCT02247479|184457266|SUPERIORITY||Difference in Adjusted Means|-0.2||||0.935|TWO_SIDED|95.0|-5.2|4.8|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline number of absolute scotomatous points, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||4.8|-5.2|0.9350
92277612|NCT02247479|184457266|SUPERIORITY||Difference in Adjusted Means|0.1||||0.9789|TWO_SIDED|95.0|-5.0|5.2|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline number of absolute scotomatous points, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||5.2|-5.0|0.9789
92277613|NCT02247479|184457267|SUPERIORITY||Difference in Adjusted Means|0.28||||0.5538|TWO_SIDED|95.0|-0.66|1.22|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline mean macular sensitivity, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||1.22|-0.66|0.5538
92277614|NCT02247479|184457267|SUPERIORITY||Difference in Adjusted Means|-0.63||||0.2032|TWO_SIDED|95.0|-1.6|0.35|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline mean macular sensitivity, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.35|-1.60|0.2032
92277615|NCT02247479|184457268|SUPERIORITY||Difference in Adjusted Means|1.0||||0.2547|TWO_SIDED|95.0|-0.7|2.8|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline BCVA, GA lesion location, biomarker status, and sex.||2.8|-0.7|0.2547
92277616|NCT02247479|184457268|SUPERIORITY||Difference in Adjusted Means|-0.2||||0.8423|TWO_SIDED|95.0|-1.9|1.6|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline BCVA, GA lesion location, biomarker status, and sex.||1.6|-1.9|0.8423
92277617|NCT02247479|184457269|SUPERIORITY||Odds Ratio (OR)|1.3||||0.3248|TWO_SIDED|95.0|0.8|2.2|||Regression, Logistic|||Week 48: The adjusted analysis was based on a logistic regression analysis. The model included terms for treatment group, baseline BCVA, baseline GA lesion location, biomarker status, and sex.||2.2|0.8|0.3248
92277618|NCT02247479|184457269|SUPERIORITY||Odds Ratio (OR)|1.1||||0.7209|TWO_SIDED|95.0|0.7|1.8|||Regression, Logistic|||Week 48: The adjusted analysis was based on a logistic regression analysis. The model included terms for treatment group, baseline BCVA, baseline GA lesion location, biomarker status, and sex.||1.8|0.7|0.7209
92277619|NCT02247479|184457270|SUPERIORITY||Difference in Adjusted Means|0.6||||0.5695|TWO_SIDED|95.0|-1.4|2.6|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline LLVA, GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||2.6|-1.4|0.5695
92277620|NCT02247479|184457270|SUPERIORITY||Difference in Adjusted Means|0.3||||0.7865|TWO_SIDED|95.0|-1.7|2.3|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline LLVA, GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||2.3|-1.7|0.7865
92277621|NCT02247479|184457271|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9448|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Week 48: The adjusted analysis was based on a logistic regression analysis. The model included terms for treatment group, baseline LLVA, baseline GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||1.7|0.6|0.9448
92277622|NCT02247479|184457271|SUPERIORITY||Odds Ratio (OR)|1.0||||0.8764|TWO_SIDED|95.0|0.6|1.8|||Regression, Logistic|||Week 48: The adjusted analysis was based on a logistic regression analysis. The model included terms for treatment group, baseline LLVA, baseline GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||1.8|0.6|0.8764
92153611|NCT00309608|184192695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-1.02|-0.48|||Pairwise comparison based on ANCOVA|||"Linagliptin 5 mg vs. Placebo~Analysis additionally adjusted for previous anti-diabetic medication.~Missing endpoints after 12 weeks of treatment were replaced using last observation carried forward (LOCF)."||-0.48|-1.02|<0.0001
92153612|NCT00309608|184192695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.14||0.0049||95.0|-0.66|-0.12|||Pairwise comparison based on ANCOVA|||"Linagliptin 1 mg vs. Placebo~Analysis additionally adjusted for previous anti-diabetic medication.~Missing endpoints after 12 weeks of treatment were replaced using last observation carried forward (LOCF)."||-0.12|-0.66|0.0049
92274462|NCT01120600|184451271|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.02|||<|0.001|TWO_SIDED|95.0|1.27|2.77|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||2.77|1.27|< 0.001
92274463|NCT01120600|184451272|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.69|||=|0.008|TWO_SIDED|95.0|0.45|2.93|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||2.93|0.45|= 0.008
92274464|NCT01120600|184451273|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.12|||<|0.001|TWO_SIDED|95.0|0.93|3.3|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||3.3|0.93|< 0.001
92274465|NCT01120600|184451274|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-76.58|||<|0.001|TWO_SIDED|95.0|-92.56|-60.61|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||-60.61|-92.56|< 0.001
92274466|NCT01120600|184451275|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-68.08|||<|0.001|TWO_SIDED|95.0|-78.1|-58.06|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||-58.06|-78.1|< 0.001
92274467|NCT01120600|184451276|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-7.94|||=|0.019|TWO_SIDED|95.0|-14.58|-1.31|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||-1.31|-14.58|= 0.019
92274468|NCT01120600|184451277|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-16.0|||=|0.001|TWO_SIDED|95.0|-25.74|-6.27|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||-6.27|-25.74|= 0.001
92274469|NCT01735877|184451321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|1.52||0.77|||||||t-test, 2 sided|||At Baseline||||0.77
92274470|NCT01735877|184451321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.12|||<|0.0001|TWO_SIDED|95.0|11.02|17.25|||ANCOVA|||Mean Change from baseline to 1 month||17.25|11.02|<0.0001
92274471|NCT01735877|184451321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.56|||<|0.0001|TWO_SIDED|95.0|18.65|26.48|||ANCOVA|||Baseline to 3 month||26.48|18.65|<0.0001
92274472|NCT01735877|184451321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.28|||<|0.0001|TWO_SIDED|95.0|18.94|27.62|||ANCOVA|||Baseline to 6 month||27.62|18.94|<0.0001
92274473|NCT01735877|184451322|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|||At Baseline||||0.99
92274474|NCT01735877|184451322|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|||At 1 month||||0.99
92274475|NCT01735877|184451322|SUPERIORITY_OR_OTHER|||||||0.03|||||||Chi-squared|||At 3 months||||0.03
92274476|NCT01735877|184451322|SUPERIORITY_OR_OTHER|||||||0.004|||||||Chi-squared|||At 6 months||||0.004
92274477|NCT01735877|184451323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51|STANDARD_ERROR_OF_MEAN|3.25||0.64|||||||t-test, 2 sided|||At Baseline||||0.64
92274478|NCT01735877|184451323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.92||||0.002|TWO_SIDED|95.0|2.24|9.6|||ANCOVA|||Mean change from baseline to 1 month||9.60|2.24|0.002
92274479|NCT01735877|184451323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.71||||0.005|TWO_SIDED|95.0|2.8|14.63|||ANCOVA|||Mean change from baseline to 3 month||14.63|2.80|0.005
92274480|NCT01735877|184451323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.63||||0.006|TWO_SIDED|95.0|2.67|14.6|||ANCOVA|||Mean change from baseline to 6 month||14.60|2.67|0.006
92274481|NCT01735877|184451324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.24||0.99|||||||t-test, 2 sided|||Baseline||||0.99
92274482|NCT01735877|184451324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.68|||<|0.0001|TWO_SIDED|95.0|2.93|4.42|||ANCOVA|||Mean change from baseline to 1 month||4.42|2.93|<0.0001
92274483|NCT01735877|184451324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.41|||<|0.0001|TWO_SIDED|95.0|2.61|4.21|||ANCOVA|||Mean change from baseline to 3 month||4.21|2.61|<0.0001
92274484|NCT01735877|184451324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.21|||<|0.0001|TWO_SIDED|95.0|2.4|4.02|||ANCOVA|||Mean change from baseline to 6 month||4.02|2.40|<0.0001
92274485|NCT01735877|184451325|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|||At Baseline||||0.99
92274486|NCT01735877|184451325|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|||At month 1||||0.99
92336735|NCT02542397|184576235|SUPERIORITY|"It has been reported that, based on the Edmonton Symptom Assessment Scale (ESAS) pain scale, about 30% of cancer patients receiving standard of care pain management experienced \>= 2-point improvement in pain score between visits \[Ref\].~Ref: Scharpf, J., et al., The role of pain in head and neck cancer recurrence and survivorship. Arch Otolaryngol Head Neck Surg, 2009. 135(8): p. 789-94."|Exact binomial proportion|0.5556|||<|0.0001|TWO_SIDED|95.0|0.414|0.6908||The a priori threshold for statistical significance was alpha = 0.10.|Exact binomial test of proportions|||A single-stage design was used to test the hypothesis that the pain improvement rate, assessed by the Edmonton Symptom Assessment Scale, is \<= 0.30. Our study targeted enrollment of 71 evaluable subjects for the final analysis; 54 subjects met the criteria at study closure. Assuming a one-sided alpha=0.10 significance level, 71 evaluable subjects would provide approximately 90% power to reject the null hypothesis (based on an exact binomial test) assuming the true pain improvement rate is 0.45.||.6908|.4140|<0.0001
92336736|NCT01724177|184576259|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||"A one sample binomial one sided exact test for the ORR (CR, CRu, or PR) was performed to provide the p-value (significance level: 0.05). The hypotheses of interest:~H0: ORR ≤ 5% versus H1: ORR \> 5%"|Exact Test|||||||<0.0001
92336737|NCT03397121|184576267|SUPERIORITY||Mean Difference (Final Values)|-49.52|||<|0.0001|TWO_SIDED|95.0|-55.04|-43.99||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-43.99|-55.04|<.0001
92336738|NCT03397121|184576268|SUPERIORITY||Mean Difference (Final Values)|-44.3|||<|0.0001|TWO_SIDED|95.0|-48.48|-40.12||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-40.12|-48.48|<0.0001
92336739|NCT03397121|184576269|SUPERIORITY||Mean Difference (Final Values)|-68.89|||<|0.0001|TWO_SIDED|95.0|-77.11|-60.67||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-60.67|-77.11|<0.0001
92336740|NCT03397121|184576270|SUPERIORITY||Mean Difference (Final Values)|-62.74|||<|0.0001|TWO_SIDED|95.0|-69.01|-56.48||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-56.48|-69.01|<0.0001
92336741|NCT03397121|184576271|SUPERIORITY||Mean Difference (Final Values)|-78.34|||<|0.0001|TWO_SIDED|95.0|-83.65|-73.04||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-73.04|-83.65|<0.0001
92336742|NCT03397121|184576272|SUPERIORITY|LS Mean Difference (95% CI) from Placebo|Mean Difference (Final Values)|-31.77|||<|0.0001|TWO_SIDED|95.0|-35.59|-27.94||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-27.94|-35.59|<0.0001
92336743|NCT03397121|184576273|SUPERIORITY||Mean Difference (Final Values)|-36.06|||<|0.0001|TWO_SIDED|95.0|-39.99|-32.14||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-32.14|-39.99|<0.0001
92336744|NCT03397121|184576274|SUPERIORITY||Mean Difference (Final Values)|-42.36|||<|0.0001|TWO_SIDED|95.0|-47.32|-37.4||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-37.40|-47.32|<0.0001
92153613|NCT00309608|184192696|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|18.575||||0.0054|TWO_SIDED|95.0|2.367|145.781|||Regression, Logistic|||Linagliptin 10 mg vs. Placebo||145.781|2.367|0.0054
92336745|NCT00472732|184576275|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||The Bonferroni-corrected a priori p-value was 0.007 (a priori alpha=0.05/number of tests=7).|t-test, 2 sided|||The null hypothesis predicted that the concentration of myoinositol in posterior cingulate gray matter will be the same in OTCD patients as in controls.||||0.003
92336746|NCT00472732|184576275|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The Bonferroni-corrected a priori p-value was 0.007 (a priori alpha=0.05/number of tests=7).|t-test, 2 sided|||The null hypothesis predicted that the concentration of myoinositol in parietal white matter will be the same in OTCD patients as in controls.||||<0.001
92336747|NCT00472732|184576275|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||The Bonferroni-corrected a priori p-value was 0.007 (a priori alpha=0.05/number of tests=7).|t-test, 2 sided|||The null hypothesis predicted that the concentration of glutamine in posterior cingulate gray matter would be the same for OTCD patients as for controls.||||0.001
92336748|NCT00472732|184576275|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The Bonferroni-corrected a priori p-value was 0.007 (a priori alpha=0.05/number of tests=7).|t-test, 2 sided|||The null hypothesis predicted that the concentration of glutamine in parietal white matter would be the same for OTCD patients as for controls.||||<0.001
92336749|NCT00472732|184576276|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||This p-value is adjusted for family wise error rate correction.|t-test, 2 sided|||Two-way between-group t-tests restricted to the prefrontal cortex were performed to compare activation during for the 2-Back\> 1-Back contrast between OTCD patients and controls.||||<0.05
92336750|NCT00472732|184576277|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis predicted that fractional anisotropy, a marker of white matter integrity, would be the same for OTCD patients as for controls.||||<0.001
92398179|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.94||||0.0935|TWO_SIDED|95.0|0.79|19.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||19.52|0.79|0.0935
92398180|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.71||||0.0901|TWO_SIDED|95.0|0.81|16.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||16.93|0.81|0.0901
92153614|NCT00309608|184192696|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.715||||0.0214|TWO_SIDED|95.0|1.439|95.351|||Regression, Logistic|||Linagliptin 5 mg vs. Placebo||95.351|1.439|0.0214
92153615|NCT00309608|184192696|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.776||||0.0167|TWO_SIDED|95.0|1.586|102.895|||Regression, Logistic|||Linagliptin 1 mg vs. Placebo||102.895|1.586|0.0167
92153616|NCT00309608|184192696|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|31.36||||0.001|TWO_SIDED|95.0|4.063|242.028|||Regression, Logistic|||Glimepiride vs. Placebo||242.028|4.063|0.0010
92153617|NCT00309608|184192697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.5|STANDARD_ERROR_OF_MEAN|6.07|<|0.0001||95.0|-41.4|-17.5|||Pairwise comparison based on ANCOVA|||Linagliptin 10mg vs. Placebo||-17.5|-41.4|<0.0001
92153618|NCT00309608|184192697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-34.92|STANDARD_ERROR_OF_MEAN|6.16|<|0.0001||95.0|-47.0|-22.8|||Pairwise comparison based on ANCOVA|||Linagliptin 5mg vs. Placebo||-22.8|-47.0|<0.0001
92153619|NCT00309608|184192697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.95|STANDARD_ERROR_OF_MEAN|6.13||0.0022||95.0|-31.0|-6.87|||Pairwise comparison based on ANCOVA|||Linagliptin 1 mg vs. Placebo||-6.87|-31.0|0.0022
92153620|NCT05200936|184192698|SUPERIORITY|||||||0.7145||||||p-value is 1-sided|Mixed Models Analysis|||||||0.7145
92153621|NCT05200936|184192699|SUPERIORITY|||||||0.9613|||||||ANCOVA|||||||0.9613
92274487|NCT01735877|184451325|SUPERIORITY_OR_OTHER|||||||0.04|||||||Chi-squared|||At month 3||||0.04
92274488|NCT01735877|184451325|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||At month 6||||0.01
92274489|NCT02544633|184451349|SUPERIORITY|An exact test for single proportion (two-sided a=5%) will be performed to test H0: ORR \<=20% against H1: ORR \>20%.|Objective response rate|10.7||||0.94|TWO_SIDED|95.0|2.27|28.23|||exact test|||||28.23|2.27|0.94
92274490|NCT02544633|184451349|SUPERIORITY||Objective response rate|15.0||||0.79|TWO_SIDED|95.0|3.21|37.89|||exact test|||||37.89|3.21|0.79
92274491|NCT02544633|184451349|SUPERIORITY||Objective response rate|25.0||||0.47|TWO_SIDED|95.0|3.19|65.09|||Exact Test|||||65.09|3.19|0.47
92274492|NCT02544633|184451349|SUPERIORITY||Objective response rate|0.0|||>|0.999|TWO_SIDED|95.0|0.0|26.46|||Exact test|||||26.46|0.00|>0.999
92274493|NCT02092961|184451366|SUPERIORITY_OR_OTHER||Treatment difference|-1.75||||0.022|TWO_SIDED|90.0|-2.75|-0.42||A negative value for change from baseline in OMERACT RAMRIS synovitis score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|6 weeks||-0.42|-2.75|0.022
92274494|NCT02092961|184451366|SUPERIORITY_OR_OTHER||Treatment difference|0.5||||0.402|TWO_SIDED|90.0|-1.0|2.0||A negative value for change from baseline in OMERACT RAMRIS synovitis score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|24 weeks||2.00|-1.00|0.402
92274495|NCT02092961|184451367|SUPERIORITY_OR_OTHER||Treatment difference|0.0||||0.746|TWO_SIDED|90.0|-1.0|0.5||A negative value for change from baseline in OMERACT RAMRIS osteitis score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|6 weeks||0.50|-1.00|0.746
92274496|NCT02092961|184451367|SUPERIORITY_OR_OTHER||Treatment difference|1.0||||0.413|TWO_SIDED|90.0|-1.5|3.5||A negative value for change from baseline in OMERACT RAMRIS synovitis score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|24 weeks||3.50|-1.50|0.413
92274497|NCT02092961|184451368|SUPERIORITY_OR_OTHER||Treatment difference|0.0||||0.491|TWO_SIDED|90.0|0.0|0.0||A negative value for change from baseline in JSN score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|6 weeks||0.00|0.00|0.491
92274498|NCT02092961|184451368|SUPERIORITY_OR_OTHER||Treatment difference|0.0||||0.341|TWO_SIDED|90.0|0.0|0.0||A negative value for change from baseline in JSN score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|24 weeks||0.00|0.00|0.341
92274499|NCT02092961|184451369|SUPERIORITY_OR_OTHER||Treatment difference|0.0||||0.366|TWO_SIDED|90.0|-0.5|0.0||A negative value for change from baseline in OMERACT RAMRIS erosions score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|6 weeks||0.00|-0.50|0.366
92274500|NCT02092961|184451369|SUPERIORITY_OR_OTHER||Treatment difference|1.25||||0.053|TWO_SIDED|90.0|0.5|2.5||A negative value for change from baseline in OMERACT RAMRIS erosions score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|24 weeks||2.50|0.50|0.053
92336751|NCT04846270|184576282|OTHER|||||||0.0006|||||||Wilcoxon (Mann-Whitney)|A Wilcoxon Signed-Rank test was used to test if the number of manual checks has been reduced.||"POWER is a single arm investigation with cross-over design. Each participating subject will use the study device and act as its own control.~The null hypothesis (H0) is that there is no difference in the mean number of checks performed during the investigation week compared to the baseline week.~The alternate hypothesis (H1) is that there is a reduction in the mean number of checks performed during the investigation week compared to the baseline week."||||0.0006
92336752|NCT04846270|184576284|OTHER|||||||0.0051|||||||Wilcoxon (Mann-Whitney)|A Wilcoxon Signed-Rank test was used to test if the number of leakages had been reduced.||||||0.0051
92336753|NCT04846270|184576287|OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|A Wilcoxon Signed-Rank test was used to test if the number of fecal incidents had been reduced.||||||0.76
92336754|NCT04085601|184576292|SUPERIORITY||Difference|0.7311|||<|0.0001|TWO_SIDED|95.0|0.572|0.8902||Cochran-Mantel-Haenszel test is stratified by number of packed red blood cell (PRBC) within 12 months prior to screening (\<4, ≥ 4) reported in electronic data capture (EDC) data.|Cochran-Mantel-Haenszel|||||0.8902|0.572|<0.0001
92336755|NCT04085601|184576293|SUPERIORITY||LS mean difference|-1470.38|||<|0.0001|TWO_SIDED|95.0|-2113.44|-827.32||p-value for Baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||-827.32|-2113.44|<0.0001
92336756|NCT04085601|184576294|SUPERIORITY||Difference|0.5411|||<|0.0001|TWO_SIDED|95.0|0.339|0.7431||Cochran-Mantel-Haenszel test is stratified by number of PRBC within 12 months prior to screening (\<4, ≥ 4) reported in EDC data.|Cochran-Mantel-Haenszel|||||0.7431|0.339|<0.0001
92336757|NCT04085601|184576295|SUPERIORITY||LS mean difference|-103.82||||0.0002|TWO_SIDED|95.0|-158.9|-48.74||P-value for Baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||-48.74|-158.9|0.0002
92336758|NCT04085601|184576296|SUPERIORITY||LS mean difference|2.67||||0.0019|TWO_SIDED|95.0|0.99|4.35||P-value for baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||4.35|0.99|0.0019
92336759|NCT04085601|184576297|SUPERIORITY||Difference|-0.7505|||<|0.0001|TWO_SIDED|95.0|-0.9041|-0.5969||Cochran-Mantel-Haenszel test is stratified by number of PRBC within 12 months prior to screening (\<4, ≥4) reported in EDC data.|Cochran-Mantel-Haenszel|||||-0.5969|-0.9041|<0.0001
92336760|NCT04085601|184576298|SUPERIORITY||Difference|0.7241|||<|0.0001|TWO_SIDED|95.0|0.5583|0.8899||Cochran-Mantel-Haenszel test is stratified by number of PRBC within 12 months prior to screening (\<4, ≥4) reported in EDC data.|Cochran-Mantel-Haenszel|||||0.8899|0.5583|<0.0001
92336761|NCT04085601|184576299|SUPERIORITY||Median Difference (Net)|3.0|||<|0.0001|TWO_SIDED|95.0|2.0|4.0||Wilcoxon rank-sum test p-value for the comparison between treatments is based on median using stratified non-parametric analysis. The 95% confidence interval (CI) is constructed using Hodges-Lehmann Estimation of Location Shift.|Wilcoxon Rank-Sum Test|||||4|2|<0.0001
92153622|NCT01288781|184192719|SUPERIORITY_OR_OTHER|||||||0.98||||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.98
92336762|NCT04085601|184576300|SUPERIORITY||LS mean difference|4.51||||0.061|TWO_SIDED|95.0|-0.21|9.24||P-value for baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||9.24|-0.21|0.061
92336763|NCT04085601|184576301|SUPERIORITY||Difference|0.3645||||0.001|TWO_SIDED|95.0|0.1648|0.5642|||Cochran-Mantel-Haenszel|||||0.5642|0.1648|0.001
92153623|NCT01288781|184192720|SUPERIORITY_OR_OTHER|||||||0.63||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.63
92153624|NCT01288781|184192721|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.20
92398181|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|2.84||||0.1366|TWO_SIDED|95.0|0.72|11.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||11.26|0.72|0.1366
92153625|NCT01288781|184192722|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||<0.01
92336764|NCT04085601|184576302|SUPERIORITY||Difference|0.5592|||<|0.0001|TWO_SIDED|95.0|0.3682|0.7502|||Cochran-Mantel-Haenszel|||||0.7502|0.3682|<0.0001
92336765|NCT04085601|184576303|SUPERIORITY||LS mean difference|21.75||||0.0006|TWO_SIDED|95.0|9.35|34.16||P-value for baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||34.16|9.35|0.0006
92336766|NCT04085601|184576304|SUPERIORITY||LS mean difference|55.79||||0.005|TWO_SIDED|95.0|16.83|94.74||P-value for baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||94.74|16.83|0.005
92336767|NCT04085601|184576305|SUPERIORITY||Difference|0.4639||||0.0002|TWO_SIDED|95.0|0.2529|0.675||Cochran-Mantel-Haenszel test is stratified by number of PRBC within 12 months prior to screening (\<4, ≥ 4) reported in EDC data.|Cochran-Mantel-Haenszel|||||0.675|0.2529|0.0002
92336768|NCT04085601|184576306|SUPERIORITY||Stratified Hazard Ratio|0.02|||<|0.0001|TWO_SIDED|95.0|0.004|0.091||Hazard ratio is based on cox proportional hazards model.|Stratified Wilcoxon|||||0.091|0.004|<0.0001
92336769|NCT04085601|184576307|SUPERIORITY||Stratified Hazard Ratio|0.025|||<|0.0001|TWO_SIDED|95.0|0.005|0.121|||Stratified Wilcoxon|||||0.121|0.005|<0.0001
92336770|NCT03492437|184576308|OTHER||Ratio of Geometric Least square Mean|151.38|||||TWO_SIDED|90.0|127.35|179.93||||||||179.93|127.35|
92336771|NCT03492437|184576309|OTHER||Ratio of Geometric Least square Mean|144.7|||||TWO_SIDED|90.0|122.89|170.39||||||||170.39|122.89|
92336772|NCT03492437|184576310|OTHER||Ratio of Geometric Least square Mean|138.45|||||TWO_SIDED|90.0|121.59|157.65||||||||157.65|121.59|
92336773|NCT03492437|184576311|OTHER||Median Difference (Net)|0.5|||||TWO_SIDED|90.0|-0.3|1.0||||||||1.0|-0.3|
92336774|NCT02418234|184576322|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92336775|NCT02418234|184576323|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92336776|NCT02915159|184576324|SUPERIORITY|||||||0.4421|||||||longitudinal repeated measures analysis|||||||0.4421
92336777|NCT02915159|184576325|SUPERIORITY|||||||0.3367|||||||longitudinal repeated measures analysis|||||||0.3367
92336778|NCT02915159|184576326|SUPERIORITY|||||||0.5841|||||||longitudinal repeated measures analysis|||||||.5841
92336779|NCT04534517|184576365|SUPERIORITY|The superiority of the Test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold 32 points|Mean Estimate|58.6|STANDARD_DEVIATION|3.26|||TWO_SIDED|95.0|52.3|64.9|||Bayesian multivariate random-effects||Included Hyperope group only|It was calculated that 60 participants would have \> 99% power to for the mean CLUE vision scores for each sphere stratum to be above the hypothesis threshold at the 2-week follow-up. Sample size was determined using one sample means test for equivalence||64.9|52.3|
92336780|NCT04534517|184576365|SUPERIORITY|The superiority of the Test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold 40 points for Myopes|Mean Estimate|63.8|STANDARD_DEVIATION|2.97|||TWO_SIDED|95.0|57.9|69.6|||Bayesian multivariate random-effects||Included myope group only.|It was calculated that 60 participants would have \> 99% power to for the mean CLUE vision scores for each sphere stratum to be above the hypothesis threshold at the 2-week follow-up. Sample size was determined using one sample means test for equivalence||69.6|57.9|
92336781|NCT04534517|184576366|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold +0.10 logMAR for Distance|Mean estimate|-0.09|STANDARD_DEVIATION|0.0172|||TWO_SIDED|95.0|-0.125|-0.057|||Bayesian normal random-effects model|Repeated Measures||It was calculated that 60 participants would have \> 99% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 2-week follow-up. Sample size was determined using one sample means test for equivalence||-0.057|-0.125|
92336782|NCT04534517|184576366|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold +0.17 logMAR for Intermediate|Mean Estimate|-0.057|STANDARD_DEVIATION|0.0171|||TWO_SIDED|95.0|-0.091|-0.024|||Bayesian normal random-effects model|Repeated Measures||It was calculated that 60 participants would have \> 99% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 2-week follow-up. Sample size was determined using one sample means test for equivalence||-0.024|-0.091|
92398182|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.19||||0.7876|TWO_SIDED|95.0|0.34|4.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.08|0.34|0.7876
92336783|NCT04534517|184576366|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold +0.17 logMAR for Near|Mean Estimate|0.066|STANDARD_DEVIATION|0.0171|||TWO_SIDED|95.0|0.031|0.098|||Bayesian normal random-effects model|Repeated Measures||It was calculated that 60 participants would have \> 99% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 2-week follow-up. Sample size was determined using one sample means test for equivalence||0.098|0.031|
92336784|NCT04534517|184576367|SUPERIORITY|A superiority margin of 5% was used. Upper limit of 95% credible interval was compared to 5%.|Mean Proportion|0.001|STANDARD_DEVIATION|0.0012|||TWO_SIDED|95.0|0.0|0.004|||Bayesian beta-binomial model|Correlated Binary Data||||0.004|0.000|
92336785|NCT04534517|184576368|SUPERIORITY|A superiority margin of 5% was used. Upper limit of the 95% credible interval was compared to 5%|Mean Proportion|0.005|STANDARD_DEVIATION|0.0048|||TWO_SIDED|95.0|0.0|0.018|||Bayesian beta-binomial model|Correlated Binary Data||||0.018|0.000|
92336786|NCT04534517|184576369|SUPERIORITY|A superiority margin of 90% was used. Lower limit of the 95% credible interval was compared to 90%|Mean Proportion|0.992|STANDARD_DEVIATION|0.0072|||TWO_SIDED|95.0|0.973|0.999|||Bayesian beta-binomial model|Correlated Binary Data||||0.999|0.973|
92336787|NCT02121795|184576370|NON_INFERIORITY|Noninferiority was assessed using a conventional 95.002% confidence interval (CI) approach, with a noninferiority margin of 10%.|Percentage difference|1.3||||0.5|TWO_SIDED|95.002|-2.5|5.1|||Cochran-Mantel-Haenszel|P-value was from Cochran-Mantel-Haenszel (CMH) test stratified by third agent.|Difference in percentages of virologic success between treatment groups and its 95.002% CI were calculated based on the Mantel-Haenszel (MH) proportions adjusted by the third agent stratum.|||5.1|-2.5|0.5
92336788|NCT00572455|184576403|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|3.02||||0.028|TWO_SIDED|90.0|0.78|5.25|||ANCOVA|||Analysis was based on analysis of covariance (ANCOVA) model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||5.25|0.78|0.028
92336789|NCT00572455|184576403|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.73|||<|0.001|TWO_SIDED|90.0|2.5|6.96|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.96|2.50|<0.001
92336790|NCT00572455|184576403|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.56|||<|0.001|TWO_SIDED|90.0|4.33|8.79|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.79|4.33|<0.001
92336791|NCT00572455|184576403|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.78|||<|0.001|TWO_SIDED|90.0|3.6|7.95|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.95|3.60|<0.001
92336792|NCT00572455|184576403|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.06|||<|0.001|TWO_SIDED|90.0|2.74|7.37|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.37|2.74|<0.001
92336793|NCT00572455|184576403|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.02|||<|0.001|TWO_SIDED|90.0|3.79|8.25|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.25|3.79|<0.001
92336794|NCT00572455|184576404|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.06||||0.171|TWO_SIDED|90.0|-0.21|2.32|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.32|-0.21|0.171
92336795|NCT00572455|184576404|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.45||||0.553|TWO_SIDED|90.0|-0.8|1.7|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.70|-0.80|0.553
92336796|NCT00572455|184576404|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.45||||0.555|TWO_SIDED|90.0|-0.8|1.7|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.70|-0.80|0.555
92336797|NCT00572455|184576404|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.48||||0.053|TWO_SIDED|90.0|0.22|2.73|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.73|0.22|0.053
92153626|NCT01288781|184192722|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Step down Holm Bonferroni correction was applied|t-test, 2 sided|||Post hoc follow up test. T test between acetazolamide and placebo on data at 24 hr time point.||||<0.01
92153627|NCT01288781|184192723|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.98
92153628|NCT01288781|184192724|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.98
92153629|NCT01288781|184192725|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.98
92214944|NCT04409353|184329848|OTHER|The inference will be based on the treatment comparison of least squares means for Day 60, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.79||||0.3101|TWO_SIDED|95.0|-0.74|2.32||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 60 and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||2.32|-0.74|0.3101
92336798|NCT00572455|184576404|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.54|||<|0.001|TWO_SIDED|90.0|1.29|3.8|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.80|1.29|<0.001
92336799|NCT00572455|184576404|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.81||||0.018|TWO_SIDED|90.0|0.56|3.07|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to Latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.07|0.56|0.018
92336800|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.62||||0.011|TWO_SIDED|90.0|1.34|5.9|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||5.90|1.34|0.011
92336801|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.19||||0.004|TWO_SIDED|90.0|1.91|6.47|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.47|1.91|0.004
92336802|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.47|||<|0.001|TWO_SIDED|90.0|4.19|8.75|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.75|4.19|<0.001
92153630|NCT01946243|184192726|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED||||||t-test, 2 sided|||Paired t-test to test whether the change is equal to zero or not.||||0.0029
92336803|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.32|||<|0.001|TWO_SIDED|90.0|3.11|7.54|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.54|3.11|<0.001
92153631|NCT01946243|184192727|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority demonstrated if the lower bound of the one-sided 97.5% confidence interval is greater than -3%.|Mean Difference (Net)|4.2|||||ONE_SIDED|97.5|2.7||||||Units: Percent Accuracy||||2.7|
92274501|NCT02092961|184451370|SUPERIORITY_OR_OTHER||Least Square Mean Treatment Difference|0.89||||0.006|TWO_SIDED|90.0|0.36|1.41|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and DMARD naivety (DMARD naive vs DMARD-IR/intolerant) as factors.||Change from baseline at Week 6. Nonresponder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data. Patients who prematurely withdrew due to project closure have no imputation applied.||1.41|0.36|0.006
92274502|NCT02092961|184451370|SUPERIORITY_OR_OTHER||Least Square Mean Treatment Difference|-0.34||||0.496|TWO_SIDED|90.0|-1.16|0.49|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and DMARD naivety (DMARD naive vs DMARD-IR/intolerant) as factors.||Change from baseline at Week 24. Nonresponder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data. Patients who prematurely withdrew due to project closure have no imputation applied.||0.49|-1.16|0.496
92274503|NCT04364165|184451409|SUPERIORITY||Odds Ratio (OR)|2.0||||0.01|TWO_SIDED|95.0|1.44|2.78|||Regression, Logistic|||||2.78|1.44|.01
92274504|NCT04364165|184451410|SUPERIORITY||Odds Ratio (OR)|1.44||||0.41|TWO_SIDED|95.0|0.36|5.78|||Regression, Logistic|||||5.78|0.36|.41
92274505|NCT00325403|184451411|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|23.0||||0.0125|TWO_SIDED|95.0|4.0|41.0||P-Value|ANCOVA|||Using an allocation ratio of 2:1 between oral treprostinil and placebo, a fixed sample size of approximately 195 subjects with access to 0.25 mg tablets at randomization would provide at least 90% power at a significance level of 0.01 (two-sided hypothesis) to detect a between-treatment difference in the change from Baseline to Week 12 in distance traversed during the 6-minute walk, assuming a true underlying treatment difference of 45 meters with a SD of 75 meters in both treatment groups.||41|4|0.0125
92274506|NCT00325403|184451412|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|13.0||||0.0653|TWO_SIDED|95.0|-2.0|33.0|||ANCOVA|||||33|-2|0.0653
92274507|NCT00325403|184451413|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|17.0||||0.0307|TWO_SIDED|95.0|1.0|33.0|||ANCOVA|||||33|1|0.0307
92274508|NCT00325403|184451414|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|12.0||||0.0518|TWO_SIDED|95.0|0.0|24.0|||ANCOVA|||||24|0|0.0518
92274509|NCT00325403|184451415|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Fisher Exact|||||||1.000
92274510|NCT00325403|184451416|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|0.0||||0.738|TWO_SIDED|95.0|0.0|0.0||"In cases where the value corresponding to overall poorest relative change was imputed for walk distance, a value of IV was used for the WHO functional classification for PAH."|Wilcoxon rank sum test||The values for the estimated parameter and 95% confidence interval were calculated.|||0|0|0.7380
92274511|NCT00325403|184451417|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|0.0||||0.4887|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||||0|-1|0.4887
92274512|NCT00325403|184451418|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|0.0||||0.6116|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon sum-rank test|||||1|0|0.6116
92274513|NCT00325403|184451420|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|26.0||||0.0326|TWO_SIDED|95.0|1.0|49.0|||ANCOVA|||||49|1|0.0326
92274514|NCT00325403|184451421|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|16.0||||0.2275|TWO_SIDED|95.0|-15.0|47.0|||ANCOVA|||||47|-15|0.2275
92274515|NCT00325403|184451422|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|32.0||||0.0024|TWO_SIDED|95.0|10.0|55.0|||ANCOVA|||||55|10|0.0024
92274516|NCT00325403|184451423|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|25.5||||0.0001|TWO_SIDED|95.0|10.0|41.0|||ANCOVA|||||41|10|0.0001
92274517|NCT00325403|184451424|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|17.0||||0.0025|TWO_SIDED|95.0|3.0|33.0|||ANCOVA|||||33|3|0.0025
92274518|NCT00325403|184451425|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|20.0||||0.0008|TWO_SIDED|95.0|7.0|34.0|||ANCOVA|||||34|7|0.0008
92274519|NCT00325403|184451426|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|14.0||||0.0025|TWO_SIDED|95.0|3.9|25.0|||ANCOVA|||||25|3.9|0.0025
92274520|NCT01625845|184451435|SUPERIORITY_OR_OTHER|||||||0.474|TWO_SIDED|95.0|||||ANCOVA|||||||.474
92274521|NCT01625845|184451436|SUPERIORITY_OR_OTHER|||||||0.068|TWO_SIDED|95.0|||||ANCOVA|||||||.068
92274522|NCT01625845|184451437|SUPERIORITY_OR_OTHER|||||||0.296|TWO_SIDED|95.0|||||ANCOVA|||||||.296
92274523|NCT01625845|184451438|SUPERIORITY_OR_OTHER|||||||0.203|TWO_SIDED|95.0|||||ANCOVA|||||||.203
92274524|NCT01625845|184451439|SUPERIORITY_OR_OTHER|||||||0.906|TWO_SIDED||||||ANCOVA|||||||.906
92274525|NCT01625845|184451440|SUPERIORITY_OR_OTHER|||||||0.869|TWO_SIDED|95.0|||||ANCOVA|||||||.869
92274526|NCT01625845|184451441|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|95.0|||||ANCOVA|||||||.026
92274527|NCT01294592|184451459|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.8|-1.7||Month 1|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.7|-2.8|<0.001
92274528|NCT01294592|184451459|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.7|-1.5||Month 3|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.5|-2.7|<0.001
92274529|NCT01294592|184451459|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.1|-0.9||Month 6|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-0.9|-2.1|<0.001
92274530|NCT01294592|184451459|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.2|-1.0||Month 9|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.0|-2.2|<0.001
92398183|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.59||||0.4658|TWO_SIDED|95.0|0.45|5.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.59|0.45|0.4658
92398184|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8707|TWO_SIDED|95.0|0.25|3.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.20|0.25|0.8707
92336804|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.0|||<|0.001|TWO_SIDED|90.0|3.66|8.33|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.33|3.66|<0.001
92398185|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.89||||0.3584|TWO_SIDED|95.0|0.49|7.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.36|0.49|0.3584
92398186|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|3.13||||0.1455|TWO_SIDED|95.0|0.67|14.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||14.57|0.67|0.1455
92398187|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|5.07||||0.0661|TWO_SIDED|95.0|0.9|28.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||28.66|0.90|0.0661
92398188|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.97||||0.3034|TWO_SIDED|95.0|0.54|7.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.17|0.54|0.3034
92336805|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.8|||<|0.001|TWO_SIDED|90.0|3.52|8.08|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.08|3.52|<0.001
92336806|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.44||||0.12|TWO_SIDED|90.0|-0.14|5.02|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||5.02|-0.14|0.120
92336807|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.55||||0.005|TWO_SIDED|90.0|1.97|7.14|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.14|1.97|0.005
92398189|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9901|TWO_SIDED|95.0|0.28|3.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.60|0.28|0.9901
92398190|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.55||||0.507|TWO_SIDED|95.0|0.42|5.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.68|0.42|0.5070
92398191|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|0.83||||0.7927|TWO_SIDED|95.0|0.21|3.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.26|0.21|0.7927
92398192|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.71||||0.4426|TWO_SIDED|95.0|0.44|6.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||6.69|0.44|0.4426
92398193|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|0.91||||0.8925|TWO_SIDED|95.0|0.23|3.56||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.56|0.23|0.8925
92398194|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.79||||0.4285|TWO_SIDED|95.0|0.42|7.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||7.52|0.42|0.4285
92336808|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.17|||<|0.001|TWO_SIDED|90.0|3.58|8.75|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.75|3.58|<0.001
92153632|NCT01946243|184192728|SUPERIORITY_OR_OTHER||lower bound of two-sided 95% CI|0.06|||||TWO_SIDED|95.0|0.018|0.112||||||Superiority demonstrated if lower bound of two-sided 95% confidence interval (CI) greater than 0, for the change in kappa statistic.||0.112|0.018|
92153633|NCT01946243|184192729|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority demonstrated if the lower bound of the one-sided 97.5% confidence interval is greater than -3%.|Mean Difference (Net)|2.3|||||ONE_SIDED|97.5|0.8||||||Units: Percent Accuracy||||0.8|
92336809|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.03|||<|0.001|TWO_SIDED|90.0|3.52|8.54|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.54|3.52|<0.001
92336810|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.31|||<|0.001|TWO_SIDED|90.0|4.66|9.95|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.95|4.66|<0.001
92336811|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.5|||<|0.001|TWO_SIDED|90.0|2.91|8.08|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its Vehicle with treatment and baseline IOP as covariates.||8.08|2.91|<0.001
92336812|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.04||||0.009|TWO_SIDED|90.0|1.56|6.53|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.53|1.56|0.009
92336813|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.0|||<|0.001|TWO_SIDED|90.0|4.49|9.5|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.50|4.49|<0.001
92336814|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.61|||<|0.001|TWO_SIDED|90.0|5.11|10.11|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||10.11|5.11|<0.001
92336815|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.08|||<|0.001|TWO_SIDED|90.0|4.64|9.53|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.53|4.64|<0.001
92336816|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.01|||<|0.001|TWO_SIDED|90.0|3.4|8.62|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.62|3.40|<0.001
92336817|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|8.7|||<|0.001|TWO_SIDED|90.0|6.11|11.3|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||11.30|6.11|<0.001
92336818|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.66||||0.066|TWO_SIDED|90.0|0.29|5.02|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||5.02|0.29|0.066
92336819|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.13||||0.006|TWO_SIDED|90.0|1.76|6.5|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.50|1.76|0.006
92336820|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.13|||<|0.001|TWO_SIDED|90.0|3.76|8.49|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.49|3.76|<0.001
92336821|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.81|||<|0.001|TWO_SIDED|90.0|3.51|8.11|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.11|3.51|<0.001
92398195|NCT03192176|184689411|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9|TWO_SIDED|95.0|0.31|3.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.72|0.31|0.9000
92398196|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0602|TWO_SIDED|95.0|0.96|6.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||6.06|0.96|0.0602
92153634|NCT01946243|184192730|SUPERIORITY_OR_OTHER||lower bound of two-sided 95% CI|0.07||||0.028|TWO_SIDED|95.0|0.007|0.125|||Monte Carlo test|||Superiority demonstrated if lower bound of two-sided 95% CI greater than 0, for the change in kappa statistic.||0.125|0.007|0.0280
92336822|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.02||||0.01|TWO_SIDED|90.0|1.53|6.5|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.50|1.53|0.010
92336823|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.48|||<|0.001|TWO_SIDED|90.0|3.03|7.93|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.93|3.03|<0.001
92336824|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.55||||0.006|TWO_SIDED|90.0|1.91|7.19|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.19|1.91|0.006
92336825|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.3||||0.002|TWO_SIDED|90.0|2.66|7.94|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.94|2.66|0.002
92336826|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.51|||<|0.001|TWO_SIDED|90.0|4.87|10.16|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||10.16|4.87|<0.001
92398197|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|4.88||||0.001|TWO_SIDED|95.0|1.89|12.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.57|1.89|0.0010
92398198|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|5.24||||0.0006|TWO_SIDED|95.0|2.03|13.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||13.51|2.03|0.0006
92214945|NCT04409353|184329848|OTHER|The inference will be based on the treatment comparison of least squares means for Day 60, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.42||||0.6328|TWO_SIDED|95.0|-2.13|1.3||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 60 and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||1.30|-2.13|0.6328
92214946|NCT04409353|184329848|OTHER|The inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|1.16||||0.126|TWO_SIDED|95.0|-0.33|2.64||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 60 and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||2.64|-0.33|0.1260
92277623|NCT02247479|184457272|SUPERIORITY||Difference in Adjusted Means|5.66||||0.0991|TWO_SIDED|95.0|-1.07|12.38|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, type of reading charts, baseline BCVA of better seeing eye, biomarker status, and sex.||12.38|-1.07|0.0991
92277624|NCT02247479|184457272|SUPERIORITY||Difference in Adjusted Means|-0.99||||0.7713|TWO_SIDED|95.0|-7.66|5.69|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, type of reading charts, baseline BCVA of better seeing eye, biomarker status, and sex.||5.69|-7.66|0.7713
92277625|NCT02247479|184457273|SUPERIORITY||Difference in Adjusted Means|1.72||||0.6204|TWO_SIDED|95.0|-5.09|8.53|||MMRM|||MMRM analysis uses change as response variable included terms for treatment group, baseline maximum reading speed, type of reading charts, biomarker status, modified baseline BCVA and sex.||8.53|-5.09|0.6204
92277626|NCT02247479|184457273|SUPERIORITY||Difference in Adjusted Means|1.47||||0.6705|TWO_SIDED|95.0|-5.31|8.25|||MMRM|||MMRM analysis uses change as response variable included terms for treatment group, baseline maximum reading speed, type of reading charts, biomarker status, modified baseline BCVA and sex.||8.25|-5.31|0.6705
92277627|NCT02247479|184457274|SUPERIORITY||Difference in Adjusted Means|-0.36||||0.7246|TWO_SIDED|95.0|-2.35|1.64|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||1.64|-2.35|0.7246
92277628|NCT02247479|184457274|SUPERIORITY||Difference in Adjusted Means|-1.56||||0.1193|TWO_SIDED|95.0|-3.53|0.4|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.40|-3.53|0.1193
92277629|NCT02247479|184457275|SUPERIORITY||Difference in Adjusted Means|-0.22||||0.8659|TWO_SIDED|95.0|-2.84|2.39|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||2.39|-2.84|0.8659
92277630|NCT02247479|184457275|SUPERIORITY||Difference in Adjusted Means|-1.94||||0.1399|TWO_SIDED|95.0|-4.51|0.64|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.64|-4.51|0.1399
92277631|NCT02247479|184457276|SUPERIORITY||Difference in Adjusted Means|0.99||||0.4855|TWO_SIDED|95.0|-1.79|3.76|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||3.76|-1.79|0.4855
92277632|NCT02247479|184457276|SUPERIORITY||Difference in Adjusted Means|-1.6||||0.2515|TWO_SIDED|95.0|-4.33|1.13|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||1.13|-4.33|0.2515
92277633|NCT02247479|184457277|SUPERIORITY||Difference in Adjusted Means|-0.07||||0.2075|TWO_SIDED|95.0|-0.18|0.04|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline Mean FRI Index score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.04|-0.18|0.2075
92277634|NCT02247479|184457277|SUPERIORITY||Difference in Adjusted Means|-0.08||||0.1222|TWO_SIDED|95.0|-0.19|0.02|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline Mean FRI Index score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.02|-0.19|0.1222
92214947|NCT04409353|184329848|OTHER|The inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.51||||0.515|TWO_SIDED|95.0|-2.05|1.03||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 60 and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||1.03|-2.05|0.5150
92214948|NCT04409353|184329849|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|1.43||||0.018|TWO_SIDED|95.0|0.25|2.61||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PCS SF-6 score obtained at Days 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PCS SF-6 t-score as a continuous covariate.||2.61|0.25|.0180
92214949|NCT04409353|184329849|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.33||||0.5742|TWO_SIDED|95.0|-1.48|0.82||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PCS SF-6 score obtained at Days 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PCS SF-6 t-score as a continuous covariate.||0.82|-1.48|0.5742
92214950|NCT04409353|184329850|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.39||||0.7338|TWO_SIDED|95.0|-1.85|2.62||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS- Anxiety score obtained at Day 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Anxiety t-score as a continuous covariate.||2.62|-1.85|0.7338
92274531|NCT01294592|184451459|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.32|<|0.001|TWO_SIDED|95.0|-2.2|-1.0||Month 12|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.0|-2.2|<0.001
92274532|NCT01294592|184451459|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-2.3|-1.0||Month 15|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.0|-2.3|<0.001
92274533|NCT01294592|184451459|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.35|<|0.001|TWO_SIDED|95.0|-2.4|-1.0||Month 18|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.0|-2.4|<0.001
92274534|NCT01294592|184451459|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-2.5|-1.2||Month 21|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.2|-2.5|<0.001
92274535|NCT01294592|184451459|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-2.5|-1.2||Month 24|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.2|-2.5|<0.001
92274536|NCT00623623|184451470|OTHER||Relative risk|0.86||||0.195|TWO_SIDED|95.0|0.68|1.08|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.08|0.68|0.195
92398199|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|9.07|||<|0.0001|TWO_SIDED|95.0|3.23|25.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||25.45|3.23|<0.0001
92153635|NCT01946243|184192731|SUPERIORITY_OR_OTHER|||||||0.0025|TWO_SIDED||||||t-test, 2 sided|||Paired t-test to test whether the change is equal to zero or not.||||0.0025
92336827|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|9.14|||<|0.001|TWO_SIDED|90.0|6.57|11.71|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||11.71|6.57|<0.001
92336828|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.69||||0.002|TWO_SIDED|90.0|2.94|8.44|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.44|2.94|0.002
92336829|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.89|||<|0.001|TWO_SIDED|90.0|4.16|9.62|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.62|4.16|<0.001
92336830|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.83||||0.269|TWO_SIDED|90.0|-0.91|4.58|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||4.58|-0.91|0.269
92336831|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.49||||0.009|TWO_SIDED|90.0|1.75|7.24|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.24|1.75|0.009
92336832|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.83|||<|0.001|TWO_SIDED|90.0|4.08|9.57|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.57|4.08|<0.001
92336833|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.18|||<|0.001|TWO_SIDED|90.0|3.52|8.84|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.84|3.52|<0.001
92336834|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.52||||0.002|TWO_SIDED|90.0|2.71|8.33|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.33|2.71|0.002
92336835|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.76|||<|0.001|TWO_SIDED|90.0|4.01|9.5|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.50|4.01|<0.001
92336836|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.36||||0.024|TWO_SIDED|90.0|0.95|5.76|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||5.76|0.95|0.024
92336837|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.24|||<|0.001|TWO_SIDED|90.0|2.82|7.66|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.66|2.82|<0.001
92336838|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.64|||<|0.001|TWO_SIDED|90.0|4.23|9.06|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.06|4.23|<0.001
92336839|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.22|||<|0.001|TWO_SIDED|90.0|2.87|7.58|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.58|2.87|<0.001
92336840|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.88||||0.012|TWO_SIDED|90.0|1.39|6.37|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.37|1.39|0.012
92336841|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.98|||<|0.001|TWO_SIDED|90.0|4.48|9.48|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.48|4.48|<0.001
92398200|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1259|TWO_SIDED|95.0|0.82|5.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||5.22|0.82|0.1259
92153636|NCT03377790|184192865|SUPERIORITY||||||<|0.0001||||||Differences between treatments arms are compared using a chi-square test.|Chi-squared|||||||<0.0001
92153637|NCT03377790|184192866|SUPERIORITY|||||||0.0067|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||0.0067
92336842|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.41||||0.003|TWO_SIDED|90.0|2.11|6.72|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.72|2.11|0.003
92336843|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.02|||<|0.001|TWO_SIDED|90.0|2.72|7.33|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.33|2.72|<0.001
92336844|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.58|||<|0.001|TWO_SIDED|90.0|4.27|8.88|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.88|4.27|<0.001
92336845|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.54|||<|0.001|TWO_SIDED|90.0|3.31|7.78|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.78|3.31|<0.001
92398201|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|7.05|||<|0.0001|TWO_SIDED|95.0|2.65|18.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||18.71|2.65|<0.0001
92398202|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.51||||0.007|TWO_SIDED|95.0|1.41|8.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||8.76|1.41|0.0070
92398203|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0193|TWO_SIDED|95.0|1.2|8.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.23|1.20|0.0193
92214951|NCT04409353|184329850|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.63||||0.5279|TWO_SIDED|95.0|-1.34|2.6||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-Anxiety score obtained at Days 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Anxiety t-score as a continuous covariate.||2.60|-1.34|0.5279
92214952|NCT04409353|184329851|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|1.19||||0.1833|TWO_SIDED|95.0|-0.56|2.94||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-Sleep Disturbance score obtained at Days 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Sleep Disturbance t-score as a continuous covariate.||2.94|-0.56|0.1833
92227268|NCT00254566|184356768|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.33||||0.159||95.0|0.9|2.0||p-value was estimated from Cox's Proportional Hazard model with steriod use and country as factors and baseline FEV1 fitted as covariate|Regression, Cox|||Kaplan-Meier method was used to estimate time taken for 1st 25th quartile of subjects to experience recurrence of AECB. Estimate of median time to event couldn't be calculated because \<50% of subjects in analysis population experienced a recurrence. The ratio of the treatment groups' recurrence rate (hazard ratio) estimated using Cox proportional hazards model adjusting for steroid use, frequency of AECB in previous 12 months, country and baseline Forced expiratory volume in 1 second (FEV1).||2.0|0.9|0.159
92336846|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.44||||0.003|TWO_SIDED|90.0|2.06|6.82|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.82|2.06|0.003
92336847|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.08|||<|0.001|TWO_SIDED|90.0|4.7|9.47|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.47|4.70|<0.001
92336848|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.41||||0.103|TWO_SIDED|90.0|-0.02|4.84|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||4.84|-0.02|0.103
92398204|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.34||||0.0148|TWO_SIDED|95.0|1.27|8.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.81|1.27|0.0148
92336849|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.75||||0.013|TWO_SIDED|90.0|1.32|6.18|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.18|1.32|0.013
92336850|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.96|||<|0.001|TWO_SIDED|90.0|3.53|8.39|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.39|3.53|<0.001
92398205|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|5.05||||0.0018|TWO_SIDED|95.0|1.83|13.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||13.94|1.83|0.0018
92398206|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|7.27||||0.0007|TWO_SIDED|95.0|2.32|22.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||22.78|2.32|0.0007
92398207|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0246|TWO_SIDED|95.0|1.16|8.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.35|1.16|0.0246
92336851|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.87|||<|0.001|TWO_SIDED|90.0|3.5|8.23|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.23|3.50|<0.001
92336852|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.65|||<|0.001|TWO_SIDED|90.0|3.18|8.11|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.11|3.18|<0.001
92336853|NCT00572455|184576408|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.97|||<|0.001|TWO_SIDED|90.0|3.46|8.48|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.48|3.46|<0.001
92336854|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.72||||0.377|TWO_SIDED|90.0|-0.63|2.08|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.08|-0.63|0.377
92336855|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.68||||0.039|TWO_SIDED|90.0|-3.01|-0.35|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||-0.35|-3.01|0.039
92336856|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.34||||0.668|TWO_SIDED|90.0|-1.67|0.98|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||0.98|-1.67|0.668
92336857|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.26||||0.121|TWO_SIDED|90.0|-0.07|2.59|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.59|-0.07|0.121
92336858|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.67||||0.039|TWO_SIDED|90.0|0.34|2.99|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.99|0.34|0.039
92336859|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.99||||0.22|TWO_SIDED|90.0|-0.34|2.31|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.31|-0.34|0.220
92336860|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.3||||0.098|TWO_SIDED|90.0|0.01|2.59|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.59|0.01|0.098
92336861|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.5||||0.519|TWO_SIDED|90.0|-0.77|1.77|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.77|-0.77|0.519
92336862|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.27||||0.724|TWO_SIDED|90.0|-1.0|1.55|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.55|-1.00|0.724
92336863|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.46||||0.059|TWO_SIDED|90.0|0.19|2.74|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.74|0.19|0.059
92336864|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.71|||<|0.001|TWO_SIDED|90.0|1.43|3.98|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.98|1.43|<0.001
92336865|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.09||||0.008|TWO_SIDED|90.0|0.82|3.37|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.37|0.82|0.008
92227269|NCT00254566|184356769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.57||95.0|-0.21|0.12|||ANCOVA|Estimated from ANCOVA with treatment, steriod use, and country fitted as factor and baseline CCQ total scores and FEV1 fitted as covariates||||0.12|-0.21|0.57
92336866|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.32||||0.068|TWO_SIDED|90.0|0.13|2.51|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.51|0.13|0.068
92336867|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01||||0.994|TWO_SIDED|90.0|-1.16|1.18|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.18|-1.16|0.994
92336868|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.5||||0.494|TWO_SIDED|90.0|-0.7|1.69|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.69|-0.70|0.494
92336869|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.39||||0.063|TWO_SIDED|90.0|0.16|2.62|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.62|0.16|0.063
92336870|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.15||||0.004|TWO_SIDED|90.0|0.95|3.34|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.34|0.95|0.004
92336871|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.17||||0.004|TWO_SIDED|90.0|0.97|3.38|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.38|0.97|0.004
92336872|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.55||||0.038|TWO_SIDED|90.0|0.32|2.77|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.77|0.32|0.038
92336873|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.48||||0.512|TWO_SIDED|90.0|-0.72|1.68|||ANCOVA|||Change at Day 7 1 PM : Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.68|-0.72|0.512
92336874|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.66||||0.373|TWO_SIDED|90.0|-0.56|1.89|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.89|-0.56|0.373
92336875|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.31||||0.088|TWO_SIDED|90.0|0.05|2.56|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.56|0.05|0.088
92336876|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.21||||0.004|TWO_SIDED|90.0|0.98|3.44|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.44|0.98|0.004
92336877|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.33||||0.003|TWO_SIDED|90.0|1.09|3.57|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.57|1.09|0.003
92336878|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.87||||0.01|TWO_SIDED|90.0|0.69|3.04|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.04|0.69|0.010
92336879|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.89||||0.205|TWO_SIDED|90.0|-0.27|2.05|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.05|-0.27|0.205
92153638|NCT03377790|184192867|SUPERIORITY|||||||0.0152|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||0.0152
92336880|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.44||||0.045|TWO_SIDED|90.0|0.26|2.63|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.63|0.26|0.045
92336881|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.09||||0.005|TWO_SIDED|90.0|0.88|3.31|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.31|0.88|0.005
92336882|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.51|||<|0.001|TWO_SIDED|90.0|1.33|3.7|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.70|1.33|<0.001
92153639|NCT03377790|184192868|SUPERIORITY|||||||0.0302|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||0.0302
92153640|NCT03377790|184192869|SUPERIORITY|||||||0.5921|||||||ANCOVA|Differences between Tx arms are compared using an ANCOVA with treatment as the independent factor and baseline CDLQI composite score as the covariate.||||||0.5921
92214953|NCT04409353|184329851|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.33||||0.7006|TWO_SIDED|95.0|-2.04|1.37||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-Sleep Disturbance score obtained at Days 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Sleep Disturbance t-score as a continuous covariate.||1.37|-2.04|0.7006
92214954|NCT04409353|184329852|OTHER||Common Odds Ratio|0.76||||0.1913|TWO_SIDED|95.0|0.5|1.15||A two-sided test performed at the 0.05 level of significance without the continuity correction.|Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) test was used to compare the association between time (baseline and day 90) and response (yes or no) while stratifying for the treatment groups. The null hypothesis is that the common odds ratio of the association between time and response across the treatment groups is equal to 1, versus the alternative hypothesis that the common odds ratio is not equal to 1.||1.15|0.50|0.1913
92214955|NCT04409353|184329852|OTHER||Common Odds Ratio|0.83||||0.367|TWO_SIDED|95.0|0.55|1.24||A two-sided test performed at the 0.05 level of significance without the continuity correction.|Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) test was used to compare the association between time (baseline and day 90) and response (yes or no) while stratifying for the treatment groups. The null hypothesis is that the common odds ratio of the association between time and response across the treatment groups is equal to 1, versus the alternative hypothesis that the common odds ratio is not equal to 1.||1.24|0.55|0.3670
92214956|NCT04409353|184329853|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.83||||0.1619|TWO_SIDED|95.0|-1.98|0.33||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS- PF score obtained for Day 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PF t-score as a continuous covariate.||0.33|-1.98|0.1619
92214957|NCT04409353|184329853|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.04||||0.9569|TWO_SIDED|95.0|-1.31|1.24||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS- PF score obtained for Day 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PF t-score as a continuous covariate.||1.24|-1.31|0.9569
92214958|NCT04409353|184329854|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.03||||0.9727|TWO_SIDED|95.0|-1.8|1.86||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-Depression score obtained for Day 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Depression t-score as a continuous covariate.||1.86|-1.80|0.9727
92214959|NCT04409353|184329854|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.43||||0.6427|TWO_SIDED|95.0|-1.4|2.26||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-Depression score obtained for Day 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Depression t-score as a continuous covariate.||2.26|-1.40|0.6427
92214960|NCT04409353|184329855|OTHER|The inference will be based on the treatment comparison of least squares means for week 12, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the change in the average weekly steps between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|691.58||||0.291|TWO_SIDED|95.0|-602.98|1986.14||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline average weekly steps obtained at weeks 1 thorough 12, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline average weekly steps as a continuous covariate.||1986.14|-602.98|0.2910
92214961|NCT04409353|184329855|OTHER|The inference will be based on the treatment comparison of least squares means for week 12, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the change in the average weekly steps between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|405.68||||0.4842|TWO_SIDED|95.0|-741.79|1553.15||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline average weekly steps obtained at weeks 1 thorough 12, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline average weekly steps as a continuous covariate.||1553.15|-741.79|0.4842
92214962|NCT04409353|184329856|OTHER|The inference will be based on the treatment comparison of least squares means for week 12, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the change in the average weekly sleep scores between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|1.0||||0.4228|TWO_SIDED|95.0|-1.48|3.49||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline average weekly sleep scores obtained at weeks 1 thorough 12, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline sleep score as a continuous covariate.||3.49|-1.48|0.4228
92214963|NCT04409353|184329856|OTHER|The inference will be based on the treatment comparison of least squares means for week 12, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the change in the average weekly sleep scores between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.28||||0.8363|TWO_SIDED|95.0|-2.92|2.37||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline average weekly sleep scores obtained at weeks 1 thorough 12, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline sleep score as a continuous covariate.||2.37|-2.92|0.8363
92214964|NCT04409353|184329857|OTHER||Odds Ratio (OR)|0.83||||0.514|TWO_SIDED|95.0|0.48|1.44||A two-sided test performed at the 0.05 level of significance.|Regression, Logistic||Sham VR as the reference group.|"Responder status (Yes vs. No) will be analyzed as the dependent variable using logistic regression, with terms for treatment groups and baseline PROMIS-PI as predictors. The null hypothesis is that there is no difference between the treatment groups, versus the alternative hypothesis that there a difference exists between the treatment groups."||1.44|0.48|0.514
92214965|NCT04409353|184329857|OTHER||Odds Ratio (OR)|1.35||||0.28|TWO_SIDED|95.0|0.78|2.36||A two-sided test performed at the 0.05 level of significance.|Regression, Logistic||Sham VR as the reference group.|"Responder status (Yes vs. No) will be analyzed as the dependent variable using logistic regression, with terms for treatment groups and baseline PROMIS-PI as predictors. The null hypothesis is that there is no difference between the treatment groups, versus the alternative hypothesis that there a difference exists between the treatment groups."||2.36|0.78|0.280
92214966|NCT03622619|184329897|OTHER|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
92214967|NCT03622619|184329898|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
92214968|NCT03622619|184329899|SUPERIORITY|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||||||0.055
92214969|NCT03622619|184329900|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|Burning/stinging||||||0.90
92214970|NCT03622619|184329900|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|Grittiness/foreign body sensation||||||0.30
92214971|NCT03622619|184329900|SUPERIORITY|||||||0.66||||||Dryness|Wilcoxon (Mann-Whitney)|||||||0.66
92214972|NCT03622619|184329900|SUPERIORITY|||||||0.14||||||Blurred vision|Wilcoxon (Mann-Whitney)|||||||0.14
92214973|NCT03622619|184329900|SUPERIORITY|||||||0.3||||||Overall discomfort|Wilcoxon (Mann-Whitney)|||||||0.30
92214974|NCT01658826|184329912|SUPERIORITY||Risk Ratio (RR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.3|0.63|||non-linear mixed effects model|||||0.63|0.30|<0.0001
92214975|NCT02383589|184329920|SUPERIORITY||Difference in proportion|30.8|||<|0.0001|TWO_SIDED|95.0|14.7|45.15||The analysis was stratified by the stratification factors applied at randomization.|Cochran-Mantel-Haenszel|||||45.15|14.70|<0.0001
92214976|NCT02383589|184329921|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||||||0.0005
92214977|NCT02383589|184329922|SUPERIORITY||Adjusted Rate Ratio|0.12|||<|0.0001|TWO_SIDED|95.0|0.05|0.29||The model was adjusted for the following covariates in addition to log (each participant's duration in study) as an offset: treatment, region, duration of illness, baseline PDAI activity score, and baseline prednisone dose.|Negative Binominal Regression|||||0.29|0.05|<0.0001
92214978|NCT02383589|184329923|SUPERIORITY||Hazard Ratio (HR)|4.83||||0.0003|TWO_SIDED|95.0|1.97|11.81||P-value is from a stratified log-rank test used to test the time to first disease flare between the RTX and MMF treatment arms over the 52-week treatment period, adjusting for the stratification factors applied at randomization|Log Rank|||||11.81|1.97|0.0003
92214979|NCT02383589|184329924|SUPERIORITY||Hazard Ratio (HR)|0.15|||<|0.0001|TWO_SIDED|95.0|0.06|0.39||P-value is from a stratified log-rank test used to test the time to first disease flare between the RTX and MMF treatment arms over the 52-week treatment period, adjusting for the stratification factors applied at randomization|Log Rank|||||0.39|0.06|<0.0001
92214980|NCT02383589|184329925|SUPERIORITY||Difference in Estimated Means|-2.872||||0.0012|TWO_SIDED|95.0|-4.577|-1.167||P-value is from Mixed Model Repeated Measures (MMRM) with unstructured covariance matrix, adjusting for treatment, region, duration of illness, baseline DLQI score, visit, and an interaction terms for visit × baseline DLQI score and visit × treatment|Mixed Model Repeated Measures|||||-1.167|-4.577|0.0012
92214981|NCT04600336|184329929|SUPERIORITY||Mean Difference (Final Values)|-9.11||||0.0019|TWO_SIDED|90.0|-13.76|-4.46|||t-test, 2 sided|||||-4.46|-13.76|0.0019
92214982|NCT04600336|184329929|SUPERIORITY||Mean Difference (Final Values)|-5.09||||0.0732|TWO_SIDED|90.0|-9.7|-0.48|||t-test, 2 sided|||||-0.48|-9.70|0.0732
92214983|NCT04600336|184329932|SUPERIORITY|||||||0.012|||||||Kruskal-Wallis|||||||0.0120
92214984|NCT04600336|184329935|SUPERIORITY|||||||0.0057|||||||Kruskal-Wallis|||||||0.0057
92214985|NCT04223791|184329936|NON_INFERIORITY|Non-inferiority is concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI for the difference in the percentage of participants with HIV-1 RNA ≥50 copies/mL (DOR/ISL-BIC/FTC/TAF) is less than 4 percentage points.|Estimated difference|0.31|||<|0.001|TWO_SIDED|95.0|-1.19|1.96||p-value for the treatment differences in percent response were calculated using the unstratified Miettinen and Nurminen method.|Unstratified Miettinen and Nurminen||Treatment difference for DOR/ISL group-BIC/FTC/TAF group.|||1.96|-1.19|<.001
92214986|NCT04223791|184329937|OTHER|Difference between treatment groups|Difference in % (DOR/ISL- BIC/FTC/TAF)|-3.5|||||TWO_SIDED|95.0|-10.4|3.4|||||Based on Miettinen and Nurminen method|||3.4|-10.4|
92336883|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.29||||0.002|TWO_SIDED|90.0|1.1|3.48|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.48|1.10|0.002
92214987|NCT04223791|184329938|OTHER|Difference between treatment groups|Difference in % (DOR/ISL- BIC/FTC/TAF)|-0.02|||||TWO_SIDED|95.0|-2.7|2.6|||||Based on Miettinen and Nurminen method|||2.6|-2.7|
92214988|NCT04223791|184329951|SUPERIORITY||Treatment Difference|-0.3||||0.392|TWO_SIDED|95.0|-0.99|0.39|||ANCOVA|Model included terms for baseline weight, sex, race, and treatment.|Treatment difference for DOR/ISL group-BIC/FTC/TAF group.|||0.39|-0.99|0.392
92214989|NCT01493557|184329956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.31||||0.2554|TWO_SIDED|95.0|-6.54|29.49|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||29.49|-6.54|0.2554
92214990|NCT01493557|184329957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1||||0.3165|TWO_SIDED|95.0|-11.24|24.58|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||24.58|-11.24|0.3165
92214991|NCT01493557|184329958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.41||||0.0273|TWO_SIDED|95.0|0.71|35.98|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||35.98|0.71|0.0273
92214992|NCT01493557|184329959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.52||||0.7104|TWO_SIDED|95.0|-44.22|28.4|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||28.40|-44.22|0.7104
92214993|NCT01493557|184329960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.81||||1|TWO_SIDED|95.0|-32.94|40.44|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||40.44|-32.94|1.0000
92214994|NCT01493557|184329961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.71||||1|TWO_SIDED|95.0|-41.25|28.77|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||28.77|-41.25|1.0000
92214995|NCT01493557|184329965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-9.9|8.9|||||Mean difference = (Mean number of days for Pradaxa w/meal) - (Mean number of days for pantoprazole).|Mean difference for the Duration of gastrointestinal symptoms (GIS).||8.9|-9.9|
92214996|NCT01493557|184329965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-3.5|6.3|||||Mean difference = (Mean number of days for Pradaxa w/meal) - (Mean number of days for pantoprazole).|Mean difference for Time to first complete effectiveness. Complete effectiveness of a gastrointestinal symptoms (GIS) management strategy can only be measured at a point in time. Because the same or a different GIS could occur after a time of effective GIS management, the patients who indicated some degree of effectiveness at one visit may not be the same patients who experience effectiveness at a subsequent visit.||6.3|-3.5|
92214997|NCT01493557|184329965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.2|||||TWO_SIDED|95.0|-8.2|48.5|||||Mean difference = (Mean number of days for Pradaxa w/meal) - (Mean number of days for pantoprazole).|Mean difference for Time to first complete effectiveness. Partial effectiveness of a gastrointestinal symptoms (GIS) management strategy can only be measured at a point in time. Because the same or a different GIS could occur after a time of effective GIS management, the patients who indicated some degree of effectiveness at one visit may not be the same patients who experience effectiveness at a subsequent visit.||48.5|-8.2|
92214998|NCT02973425|184329968|OTHER||Cox Proportional Hazard|1.68||||0.02|TWO_SIDED|95.0|1.09|2.6|||Regression, Cox|||The primary hypothesis was tested through a time-to-event analysis implemented using Cox proportional hazards models||2.60|1.09|0.02
92214999|NCT02973425|184329969|OTHER||Linear regression|0.03||||0.03|TWO_SIDED|95.0|||||Regression, Linear|||For hypothesis 3, we compared the mean score on the SEQ-12 and its subscales at 6 months, adjusting for baseline.||||0.03
92215000|NCT02973425|184329970|OTHER|Six-month OR, 95%CI, and P value were calculated from generalized estimating equation marginal models with a logit link and an exchangeable correlation matrix.|Odds Ratio (OR)|1.92||||0.048|TWO_SIDED|95.0|1.01|3.68||Analysis models were adjusted by study site, having quit attempts in the past 12 months measured at baseline, cigarettes per day measured at baseline, quit attempts in the past 12 months measured at baseline.|Chi-squared|||||3.68|1.01|0.048
92215001|NCT02973425|184329971|OTHER||Odds Ratio (OR)|2.01||||0.01|TWO_SIDED|95.0|||||Regression, Linear|||During the first 3 weeks from randomization, both the Take a Break and comparison groups reported the number of cigarettes smoked daily (by texting); texting response rate (responded on at least 1 day).||||0.01
92215002|NCT03823404|184329978|SUPERIORITY||||||<|0.0455||||||The interim analysis was conducted at significance level of 0.05 and the significance level was adjusted for final analysis.|mixed-effects model for repeated measure|||||||<0.0455
92215003|NCT03823404|184329979|SUPERIORITY||||||<|455|||||||Mixed Models Analysis|||||||<0455
92336884|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.27||||0.757|TWO_SIDED|90.0|-1.15|1.69|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.69|-1.15|0.757
92336885|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13||||0.878|TWO_SIDED|90.0|-1.54|1.27|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.27|-1.54|0.878
92336886|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24||||0.78|TWO_SIDED|90.0|-1.64|1.17|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.17|-1.64|0.780
92336887|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.36||||0.67|TWO_SIDED|90.0|-1.04|1.77|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.77|-1.04|0.670
92398208|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|5.22||||0.0016|TWO_SIDED|95.0|1.87|14.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||14.60|1.87|0.0016
92215004|NCT00698451|184329992|SUPERIORITY_OR_OTHER||Percentage|72.2||||0.05|TWO_SIDED|95.0|58.4|83.5|||Exact Binomial Distribution|||||83.5|58.4|0.05
92215005|NCT05178134|184329998|NON_INFERIORITY|Non-inferiority margin was set to -15% (on an absolute scale)|Difference in response rates|-0.02|||||TWO_SIDED|95.0|-0.108|0.069||||||||0.069|-0.108|
92215006|NCT03239483|184330021|SUPERIORITY|||||||0.072|||||||Fisher Exact|||two-sided Fisher's Exact Test||||0.072
92215007|NCT03239483|184330026|SUPERIORITY|||||||1||||||This is a calculated p-value. P-values of 1.0 are possible when using the Fisher Exact test method.|Fisher Exact|||||||1.00
92215008|NCT03239483|184330027|SUPERIORITY|||||||0.591|||||||Fisher Exact|||||||0.591
92336888|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.98||||0.021|TWO_SIDED|90.0|0.58|3.38|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.38|0.58|0.021
92215009|NCT00056862|184330093|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||Null hypothesis: first phase decline in HCV RNA are the same for the two groups||||0.002
92215010|NCT00056862|184330095|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Null hypothesis: the second phase slopes of HCV RNA are the same for the two groups||||0.2
92215011|NCT00056862|184330096|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED|95.0|||||Log Rank|||Null hypothesis: the time to negativity for the two groups are same||||0.047
92215012|NCT00729781|184330110|SUPERIORITY_OR_OTHER||Percent of subjects with improvement|57.8||||0.19|ONE_SIDED|97.5|42.2||||One-sided, binomial exact test|||This study had two independent primary endpoints (cosmetic and functional improvement). Therefore, the assumed type I error rate for each was 2.5% in order to maintain an overall 5% type I error rate. For each endpoint, the percent of subjects with improvement of the total number implanted was to be compared to a rate of 50% using a one-sided, binomial exact test. If the p-value was \< 0.025, the objective would have been met.|||42.2|0.19
92215013|NCT00729781|184330111|SUPERIORITY_OR_OTHER||Percent of subjects with improvement|15.6|||>|0.99|ONE_SIDED|97.5|0.05||||One-sided, binomial exact test||||||0.05|>0.99
92215014|NCT01936909|184330127|SUPERIORITY||||||>|0.2|||||||ANOVA|||This test reflects a comparison between baseline and 2 weeks (both rows).||||>0.20
92215015|NCT01936909|184330128|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Paired analysis versus baseline||||<0.01
92215016|NCT01936909|184330129|SUPERIORITY|Log-rank test||||||0.12|||||||Log Rank|||||||0.12
92215017|NCT00312221|184330130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.126|TWO_SIDED|95.0|-0.8562|0.1054|||Mixed Models Analysis||Treatment comparison between BTDS 20 and BTDS 5 during the 12-week double-blind phase|||0.1054|-0.8562|0.126
92215018|NCT00312221|184330130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.14||95.0|-0.8455|0.1189|||Mixed Models Analysis||Treatment comparison between BTDS 5 and oxycodone immediate-release during the 12-week double-blind phase.|||0.1189|-0.8455|0.140
92215019|NCT00312221|184330131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.007|TWO_SIDED|95.0|-1.47|-0.2|||ANCOVA||Treatment comparison between BTDS 5 and BTDS 20 during the 12-week double-blind phase.|||-0.20|-1.47|0.007
92215020|NCT00312221|184330131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.011|TWO_SIDED|95.0|-1.47|-0.17|||ANCOVA||Treatment comparison between BTDS 5 and oxycodone immediate-release during the 12-week double-blind phase.|||-0.17|-1.47|0.011
92336889|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.31||||0.126|TWO_SIDED|90.0|-0.1|2.71|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.71|-0.10|0.126
92336890|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.97||||0.215|TWO_SIDED|90.0|-0.32|2.26|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.26|-0.32|0.215
92336891|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.37||||0.635|TWO_SIDED|90.0|-1.65|0.91|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||0.91|-1.65|0.635
92336892|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06||||0.934|TWO_SIDED|90.0|-1.35|1.22|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.22|-1.35|0.934
92336893|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.56||||0.478|TWO_SIDED|90.0|-0.74|1.87|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.87|-0.74|0.478
92336894|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.57||||0.002|TWO_SIDED|90.0|1.26|3.87|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.87|1.26|0.002
92336895|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.99||||0.013|TWO_SIDED|90.0|0.68|3.3|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.30|0.68|0.013
92336896|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.27||||0.736|TWO_SIDED|90.0|-1.04|1.57|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.57|-1.04|0.736
92336897|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.68||||0.386|TWO_SIDED|90.0|-1.96|0.61|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||0.61|-1.96|0.386
92336898|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05||||0.948|TWO_SIDED|90.0|-1.35|1.24|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.24|-1.35|0.948
92336899|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09||||0.908|TWO_SIDED|90.0|-1.41|1.22|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.22|-1.41|0.908
92336900|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.97||||0.015|TWO_SIDED|90.0|0.65|3.28|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.28|0.65|0.015
92336901|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.6||||0.046|TWO_SIDED|90.0|0.29|2.92|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.92|0.29|0.046
92336902|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.6||||0.042|TWO_SIDED|90.0|0.31|2.89|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.89|0.31|0.042
92336903|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.06||||0.94|TWO_SIDED|90.0|-1.22|1.34|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.34|-1.22|0.940
92336904|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.24||||0.114|TWO_SIDED|90.0|-0.05|2.53|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.53|-0.05|0.114
92336905|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.97||||0.228|TWO_SIDED|90.0|-0.35|2.28|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.28|-0.35|0.228
92336906|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.29||||0.005|TWO_SIDED|90.0|0.98|3.6|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.60|0.98|0.005
92215021|NCT00312221|184330132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.707|TWO_SIDED|95.0|-3.0054|2.0397|||Mixed Models Analysis||Treatment comparison between BTDS 5 and BTDS 20 during the 12-week double-blind phase.|||2.0397|-3.0054|0.707
92398209|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.25||||0.0825|TWO_SIDED|95.0|0.9|5.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.62|0.90|0.0825
92274537|NCT00623623|184451471|OTHER||Relative risk|1.03||||0.904|TWO_SIDED|95.0|0.68|1.55|||modified Poisson regression|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.55|0.68|0.904
92274538|NCT00623623|184451472|OTHER||Relative risk|0.97||||0.905|TWO_SIDED|95.0|0.6|1.58|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.58|0.60|0.905
92274539|NCT00623623|184451473|SUPERIORITY_OR_OTHER||Relative risk|0.73||||0.12|TWO_SIDED|95.0|0.49|1.08|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.08|0.49|0.120
92274540|NCT00623623|184451474|OTHER||Relative risk|0.79||||0.17|TWO_SIDED|95.0|0.57|1.11|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.11|0.57|0.170
92274541|NCT00623623|184451475|OTHER||Relative risk|1.1||||0.758|TWO_SIDED|95.0|0.61|1.97|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.97|0.61|0.758
92274542|NCT00623623|184451476|OTHER||Relative risk|1.1||||0.663|TWO_SIDED|95.0|0.73|1.66|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.66|0.73|0.663
92274543|NCT00623623|184451477|OTHER||Relative risk|1.72||||0.148|TWO_SIDED|95.0|0.82|3.6|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||3.60|0.82|0.148
92274544|NCT00623623|184451478|OTHER||Relative risk|0.5||||0.572|TWO_SIDED|95.0|0.05|5.52|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||5.52|0.05|0.572
92274545|NCT00623623|184451479|OTHER||Relative risk|0.81||||0.207|TWO_SIDED|95.0|0.58|1.13|||modified Poission Regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.13|0.58|0.207
92274546|NCT00623623|184451480|OTHER||Relative risk|0.81||||0.1|TWO_SIDED|95.0|0.63|1.04|||modified Poission Regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.04|0.63|0.100
92274547|NCT00623623|184451481|OTHER||Relative Risk|0.91||||0.511|TWO_SIDED|95.0|0.67|1.22|||modified Poission Regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.22|0.67|0.511
92274548|NCT00623623|184451482|OTHER||Relative Risk|1.75||||0.369|TWO_SIDED|95.0|0.52|5.97|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||5.97|0.52|0.369
92274549|NCT00623623|184451483|OTHER||Relative Risk|4.99||||0.168|TWO_SIDED|95.0|0.51|49.08|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||49.08|0.51|0.168
92274550|NCT00623623|184451484|OTHER||Relative Risk|8.02||||0.049|TWO_SIDED|95.0|1.0|63.97|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||63.97|1.00|0.049
92274551|NCT00623623|184451485|OTHER||Relative Risk|4.51||||0.054|TWO_SIDED|95.0|0.98|20.82|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||20.82|0.98|0.054
92274552|NCT00623623|184451486|OTHER||Relative Risk|2.0||||0.324|TWO_SIDED|95.0|0.5|7.99|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||7.99|0.50|0.324
92274553|NCT00623623|184451487|OTHER||Relative Risk|3.01||||0.032|TWO_SIDED|95.0|1.1|8.24|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||8.24|1.10|0.032
92336907|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.48||||0.063|TWO_SIDED|90.0|0.17|2.79|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.79|0.17|0.063
92336908|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.5||||0.562|TWO_SIDED|90.0|-0.92|1.91|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.91|-0.92|0.562
92336909|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.67||||0.431|TWO_SIDED|90.0|-0.73|2.07|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.07|-0.73|0.431
92336910|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.22||||0.795|TWO_SIDED|90.0|-1.18|1.62|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.62|-1.18|0.795
92336911|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.83||||0.032|TWO_SIDED|90.0|0.43|3.23|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.23|0.43|0.032
92336912|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.73||||0.002|TWO_SIDED|90.0|1.34|4.13|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||4.13|1.34|0.002
92336913|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.04||||0.017|TWO_SIDED|90.0|0.64|3.44|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.44|0.64|0.017
92336914|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.26||||0.124|TWO_SIDED|90.0|-0.09|2.6|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.60|-0.09|0.124
92398210|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.66||||0.0542|TWO_SIDED|95.0|0.98|7.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.20|0.98|0.0542
92336915|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.08||||0.92|TWO_SIDED|90.0|-1.25|1.41|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.41|-1.25|0.920
92336916|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12||||0.887|TWO_SIDED|90.0|-1.46|1.22|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.22|-1.46|0.887
92336917|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.42||||0.083|TWO_SIDED|90.0|0.08|2.77|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.77|0.08|0.083
92336918|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.65||||0.002|TWO_SIDED|90.0|1.29|4.01|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||4.01|1.29|0.002
92336919|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.3||||0.006|TWO_SIDED|90.0|0.94|3.66|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.66|0.94|0.006
92336920|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.49||||0.533|TWO_SIDED|90.0|-0.8|1.78|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.78|-0.80|0.533
92336921|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02||||0.985|TWO_SIDED|90.0|-1.29|1.26|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.26|-1.29|0.985
92336922|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.34||||0.665|TWO_SIDED|90.0|-0.95|1.62|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.62|-0.95|0.665
92336923|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.86||||0.276|TWO_SIDED|90.0|-0.44|2.15|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.15|-0.44|0.276
92398211|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.38||||0.0837|TWO_SIDED|95.0|0.89|6.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.33|0.89|0.0837
92398212|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.67||||0.0131|TWO_SIDED|95.0|1.31|10.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.26|1.31|0.0131
92153641|NCT03377790|184192870|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Differences between treatment arms are compared using an ANCOVA, with treatment as the independent factor and baseline lesion count as the covariate.||||||<0.0001
92153642|NCT03377790|184192871|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Differences between treatment arms are compared using an ANCOVA, with treatment as the independent factor and baseline lesion count as the covariate.||||||<0.0001
92153643|NCT03377790|184192872|SUPERIORITY||||||<|0.0001|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||<0.0001
92153644|NCT03377790|184192873|SUPERIORITY||||||<|0.0001|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||<0.0001
92153645|NCT03377790|184192874|SUPERIORITY|||||||0.052|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||0.0520
92153646|NCT02564055|184192906|OTHER||Difference in percentages|22.6|||||TWO_SIDED|95.0|-2.4|45.5|||||Difference between GSK2894512 1 percent BID and Vehicle BID has been presented.|||45.5|-2.4|
92153647|NCT02564055|184192906|OTHER||Difference in percentages|7.4|||||TWO_SIDED|95.0|-18.3|32.0|||||Difference between GSK2894512 1 percent QD and Vehicle QD has been presented.|||32.0|-18.3|
92153648|NCT02564055|184192906|OTHER||Difference in percentages|14.3|||||TWO_SIDED|95.0|-11.2|38.7|||||Difference between GSK2894512 0.5 percent BID and Vehicle BID has been presented.|||38.7|-11.2|
92153649|NCT02564055|184192906|OTHER||Difference in percentages|-4.0|||||TWO_SIDED|95.0|-29.3|21.6|||||Difference between GSK2894512 0.5 percent QD and Vehicle QD has been presented.|||21.6|-29.3|
92153650|NCT02564055|184192914|OTHER||Difference in percentages|21.1|||||TWO_SIDED|95.0|-2.7|43.1|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 1 has been presented.|||43.1|-2.7|
92153651|NCT02564055|184192914|OTHER||Difference in percentages|26.5|||||TWO_SIDED|95.0|3.3|47.5|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 1 has been presented.|||47.5|3.3|
92153652|NCT02564055|184192914|OTHER||Difference in percentages|2.3|||||TWO_SIDED|95.0|-19.5|24.5|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 1 has been presented.|||24.5|-19.5|
92153653|NCT02564055|184192914|OTHER||Difference in percentages|9.1|||||TWO_SIDED|95.0|-14.5|32.0|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 1 has been presented.|||32.0|-14.5|
92153654|NCT02564055|184192914|OTHER||Difference in percentages|23.1|||||TWO_SIDED|95.0|-0.3|44.6|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 2 has been presented.|||44.6|-0.3|
92274554|NCT00623623|184451488|OTHER||Relative Risk|1.36||||0.111|TWO_SIDED|95.0|0.93|1.97|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.97|0.93|0.111
92153655|NCT02564055|184192914|OTHER||Difference in percentages|37.7|||||TWO_SIDED|95.0|14.7|57.6|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 2 has been presented.|||57.6|14.7|
92274555|NCT00623623|184451489|OTHER||Relative Risk|1.08||||0.397|TWO_SIDED|95.0|0.91|1.28|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.28|0.91|0.397
92274556|NCT00623623|184451490|OTHER||Relative Risk|1.13||||0.107|TWO_SIDED|95.0|0.97|1.31|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.31|0.97|0.107
92274557|NCT00623623|184451491|OTHER||Relative Risk|0.84||||0.471|TWO_SIDED|95.0|0.53|1.34|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.34|0.53|0.471
92274558|NCT00623623|184451492|SUPERIORITY||Relative Risk|0.35||||0.003|TWO_SIDED|95.0|0.17|0.71|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||0.71|0.17|0.003
92274559|NCT00623623|184451493|OTHER||Relative risk|1.17||||0.451|TWO_SIDED|95.0|0.78|1.73|||modified Poisson regression model|modified Poisson regression model with robust error variance||||1.73|0.78|0.451
92274560|NCT00623623|184451494|OTHER||Relative Risk|0.87||||0.22|TWO_SIDED|95.0|0.69|1.09|||modified Poisson regression model|modified Poisson regression model with robust error variance||||1.09|0.69|0.220
92274561|NCT02144259|184451529|SUPERIORITY_OR_OTHER||||||<|0.05|||||||GEE|||Because the expected amount of postpartum weight loss in non-breastfeeding women is not documented in the literature, we chose a sample size that would enable us to detect a one standard deviation difference in weight loss between the 3 groups at the primary 6 month endpoint. We used generalized estimating equations (GEEs) to test differences among all 3 groups over all the study periods.||||<0.05
92274562|NCT02144259|184451531|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92274563|NCT01154153|184451584|SUPERIORITY_OR_OTHER||Treatment Ratio of Geometric mean|0.966|||||TWO_SIDED|95.0|0.892|1.045|||ANCOVA||The treatment ratio was calculated as an exponential of the mean difference between treatments in log scale.|Missing cortisol values were imputed with multiple imputation. AUC(0-24 hr) was calculated for each imputation and analyzed with log-transformation using an ANCOVA model and analyzed with treatment, sex, and age group as fixed effects, and log-transformed baseline value as a covariate. The mean difference in log scale between treatments and its standard error were calculated by Least Squares mean. Results from multiply imputed data were combined using SAS procedure MIANALYZE.||1.045|0.892|
92274564|NCT01154153|184451585|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.24||0.0007|TWO_SIDED|95.0|-1.34|-0.37|||ANCOVA|For ANCOVA, treatment arm, randomization strata were fixed effects and baseline value was a covariate.||||-0.37|-1.34|0.0007
92274565|NCT01154153|184451586|SUPERIORITY_OR_OTHER|||||||0.1332||95.0||||Based on the ordinal evaluation score and adjusted for the randomization strata.|Cochran-Mantel-Haenszel|||||||0.1332
92274566|NCT01154153|184451587|SUPERIORITY_OR_OTHER|||||||0.3314||95.0||||Based on the ordinal evaluation score and adjusted for the randomization strata.|Cochran-Mantel-Haenszel|||||||0.3314
92398213|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|9.34||||0.0012|TWO_SIDED|95.0|2.41|36.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||36.19|2.41|0.0012
92398214|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.1||||0.0359|TWO_SIDED|95.0|1.08|8.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.93|1.08|0.0359
92398215|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|5.86||||0.0019|TWO_SIDED|95.0|1.91|17.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||17.92|1.91|0.0019
92398216|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0715|TWO_SIDED|95.0|0.93|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.38|0.93|0.0715
92398217|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.89||||0.0465|TWO_SIDED|95.0|1.02|8.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.20|1.02|0.0465
92215022|NCT00312221|184330132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.79||||0.187|TWO_SIDED|95.0|-4.4459|0.8706|||Mixed Models Analysis||Treatment comparison between BTDS 5 and oxycodone immediate-release during the 12-week double-blind phase.|||0.8706|-4.4459|0.187
92398218|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0839|TWO_SIDED|95.0|0.89|6.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.53|0.89|0.0839
92398219|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.56||||0.0191|TWO_SIDED|95.0|1.23|10.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.28|1.23|0.0191
92398220|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|12.11||||0.0019|TWO_SIDED|95.0|2.52|58.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||58.22|2.52|0.0019
92215023|NCT00312221|184330133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.685|TWO_SIDED|95.0|-5.6177|3.693|||Mixed Models Analysis||Treatment comparison between BTDS 5 and BTDS 20 during the 12-week double-blind phase.|||3.6930|-5.6177|0.685
92398221|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0593|TWO_SIDED|95.0|0.96|7.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.90|0.96|0.0593
92215024|NCT00312221|184330133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81||||0.443|TWO_SIDED|95.0|-6.4415|2.8255|||Mixed Models Analysis||Treatment comparison between BTDS 5 and oxycodone immediate-release during the 12-week double-blind phase.|||2.8255|-6.4415|0.443
92215025|NCT00728481|184330143|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison between arms for a histologic response||||1.00
92215026|NCT00728481|184330148|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Fisher Exact|||Comparison between arms for a symptomatic response||||0.76
92227270|NCT00254566|184356769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.82||95.0|-0.13|0.1|||Mixed Models Analysis|Estimated from linear mixed model with treatment, steroid use, FEV1, country and time point as factors and baseline CCQ scores as a covariate||||0.10|-0.13|0.82
92227271|NCT00254566|184356770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.81||95.0|-0.21|0.17|||ANCOVA|Estimated from ANCOVA with treatment, steriod use and country fitted as factors and baseline CCQ total score and FEV1 fitted as covariates||||0.17|-0.21|0.81
92227272|NCT00254566|184356770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.87||95.0|-0.12|0.14|||Mixed Models Analysis|Estimated from linear mixed model with treatment, steroid use, FEV1, country and time point as factors and baseline CCQ scores as a covariate||||0.14|-0.12|0.87
92227273|NCT00254566|184356771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.385||95.0|-0.27|0.1|||ANCOVA|Estimated from ANCOVA with treatment, steriod use and country fitted as factors and baseline CCQ total score and FEV1 fitted as covariates||||0.10|-0.27|0.385
92227274|NCT00254566|184356771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.56||95.0|-0.17|0.09|||Mixed Models Analysis|Estimated from linear mixed model with treatment, steroid use, FEV1, country and time point as factors and baseline CCQ scores as a covariate||||0.09|-0.17|0.56
92227275|NCT00254566|184356772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.62||95.0|-0.26|0.16|||ANCOVA|Estimated from ANCOVA with treatment, steriod use and country fitted as factors and baseline CCQ total score and FEV1 fitted as covariates||||0.16|-0.26|0.62
92227276|NCT00254566|184356772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.8||95.0|-0.18|0.14|||Mixed Models Analysis|Estimated from linear mixed model with treatment, steroid use, FEV1, country and time point as factors and baseline CCQ scores as a covariate||||0.14|-0.18|0.80
92227277|NCT03222427|184356773|OTHER||Ratio of Geometric Least Squares Means|0.952|||||TWO_SIDED|90.0|0.769|1.18||||||||1.18|0.769|
92227278|NCT01989221|184356775|SUPERIORITY||Mean Difference (Final Values)|0.55|STANDARD_DEVIATION|0.12|<|0.01|TWO_SIDED|95.0||||Threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean GCSI-DD scores during one week at baseline were compared to mean GCSI-DD scores during the second week of Sancuso treatment.|||||<0.01
92336924|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.34||||0.004|TWO_SIDED|90.0|1.04|3.65|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.65|1.04|0.004
92336925|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.04||||0.011|TWO_SIDED|90.0|0.74|3.35|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.35|0.74|0.011
92336926|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.78||||0.033|TWO_SIDED|90.0|0.41|3.14|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.14|0.41|0.033
92336927|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.84||||0.302|TWO_SIDED|90.0|-0.5|2.19|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.19|-0.50|0.302
92336928|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.94||||0.255|TWO_SIDED|90.0|-0.42|2.3|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.30|-0.42|0.255
92336929|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.08||||0.198|TWO_SIDED|90.0|-0.3|2.46|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.46|-0.30|0.198
92336930|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.68||||0.002|TWO_SIDED|90.0|1.3|4.06|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||4.06|1.30|0.002
92336931|NCT00572455|184576410|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.68||||0.046|TWO_SIDED|90.0|0.3|3.06|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.06|0.30|0.046
92336932|NCT02609386|184576414|OTHER||Cox Proportional Hazard|1.102||||0.6176|TWO_SIDED|95.0|0.6|2.1|||Log Rank|||||2.1|0.6|0.6176
92336933|NCT02609386|184576415|OTHER||Cox Proportional Hazard|1.009||||0.3889|TWO_SIDED|95.0|0.5|2.2|||Log Rank|||||2.2|0.5|0.3889
92336934|NCT02609386|184576416|OTHER||Cox Proportional Hazard|1.009||||0.5091|TWO_SIDED|95.0|0.5|2.2|||Log Rank|||||2.2|0.5|0.5091
92336935|NCT00141518|184576433|SUPERIORITY_OR_OTHER||mean change from baseline|-9.4|STANDARD_DEVIATION|17.5||0.017|TWO_SIDED||||||Wilcoxon tests|||Total Score, Change From Baseline for the Duodopa Naïve group at Month 12 (n=25)||||0.017
92336936|NCT00141518|184576434|SUPERIORITY_OR_OTHER||mean change from baseline|0.02|STANDARD_DEVIATION|0.29||0.919|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 12 (n=25)||||0.919
92336937|NCT00141518|184576435|SUPERIORITY_OR_OTHER||mean change from baseline|0.18|STANDARD_DEVIATION|0.24||0.002|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 12 (n=25)||||0.002
92336938|NCT00141518|184576462|SUPERIORITY_OR_OTHER||mean change from baseline|-6.5|STANDARD_DEVIATION|9.6||0.001|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 0 (n=27)||||0.001
92336939|NCT00141518|184576462|SUPERIORITY_OR_OTHER||mean change from baseline|-9.2|STANDARD_DEVIATION|9.0|<|0.001|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 3 (n=23)||||<0.001
92336940|NCT00141518|184576462|SUPERIORITY_OR_OTHER||mean change from baseline|-5.9|STANDARD_DEVIATION|11.2||0.022|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 6 (n=24)||||0.022
92336941|NCT00141518|184576462|SUPERIORITY_OR_OTHER||mean change from baseline|-7.5|STANDARD_DEVIATION|11.6||0.005|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 9 (n=23)||||0.005
92336942|NCT00141518|184576462|SUPERIORITY_OR_OTHER||mean change from baseline|-5.3|STANDARD_DEVIATION|13.9||0.126|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 12 (n=23)||||0.126
92336943|NCT00141518|184576462|SUPERIORITY_OR_OTHER||mean change from baseline|-5.2|STANDARD_DEVIATION|12.3||0.049|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 18 (n=22)||||0.049
92336944|NCT00141518|184576462|SUPERIORITY_OR_OTHER||mean change from baseline|-3.1|STANDARD_DEVIATION|9.9||0.203|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 24 (n=21)||||0.203
92336945|NCT00141518|184576462|SUPERIORITY_OR_OTHER||mean change from baseline|0.8|STANDARD_DEVIATION|13.2||0.733|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 30 (n=21)||||0.733
92336946|NCT00141518|184576462|SUPERIORITY_OR_OTHER||mean change from baseline|4.4|STANDARD_DEVIATION|14.3||0.414|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 36 (n=20)||||0.414
92336947|NCT00141518|184576462|SUPERIORITY_OR_OTHER||mean change from baseline|2.3|STANDARD_DEVIATION|14.9||0.534|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Endpoint (n=27)||||0.534
92336948|NCT00141518|184576471|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.016
92336949|NCT00141518|184576471|SUPERIORITY_OR_OTHER|||||||0.188|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.188
92336950|NCT00141518|184576472|SUPERIORITY_OR_OTHER|||||||0.008|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.008
92336951|NCT00141518|184576472|SUPERIORITY_OR_OTHER|||||||0.107|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.107
92336952|NCT00141518|184576473|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.002
92336953|NCT00141518|184576473|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.010
92336954|NCT00141518|184576474|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.048
92398222|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|4.95||||0.0048|TWO_SIDED|95.0|1.63|15.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||15.04|1.63|0.0048
92215027|NCT01505010|184330151|SUPERIORITY||Mean Difference (Final Values)|22.4|STANDARD_ERROR_OF_MEAN|8.5||0.018|TWO_SIDED||||||Mixed Models Analysis|Adjusted for the baseline 24-h systolic blood pressure|Difference at 6 months in 24-h systolic blood pressure (control minus intervention)|We used mixed models to compare blood pressure changes between randomized groups at 6 months, while adjusting for the baseline blood pressure; statistical significance was a P-value less than 0.05 on two-sided tests.||||0.018
92215028|NCT01505010|184330152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|4.87||0.86|TWO_SIDED||||||t-test, 2 sided|||Difference between control and intervention group at 6 months||||0.86
92215029|NCT01505010|184330153|SUPERIORITY||Median Difference (Final Values)|1.7||||0.032|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcocon rank sum test||||0.032
92215030|NCT01505010|184330153|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|0.8||0.032|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.032
92215031|NCT02558231|184330181|SUPERIORITY||Ratio of geometric Least Square mean|0.96||||0.4239|TWO_SIDED|95.0|0.86|1.07|||ANCOVA|||||1.07|0.86|0.4239
92215032|NCT02558231|184330182|SUPERIORITY||Least Square (LS) Mean difference|-1.43||||0.8758|TWO_SIDED|95.0|-19.393|16.538|||ANCOVA|||||16.538|-19.393|0.8758
92215033|NCT02558231|184330183|SUPERIORITY||Ratio of geometric LS mean|1.03||||0.8529|TWO_SIDED|95.0|0.77|1.371|||ANCOVA|||||1.371|0.770|0.8529
92274567|NCT05478603|184451643|OTHER||Ratio of adjusted geometric means|94.88|||||TWO_SIDED|90.0|70.86|127.04|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||127.04|70.86|
92274568|NCT05478603|184451643|OTHER||Ratio of adjusted geometric means|99.75|||||TWO_SIDED|90.0|74.5|133.56|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||133.56|74.50|
92274569|NCT05478603|184451643|OTHER||Ratio of adjusted geometric means|68.7|||||TWO_SIDED|90.0|51.31|91.98|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||91.98|51.31|
92277635|NCT02247479|184457278|SUPERIORITY||Difference in Adjusted Means|-0.022||||0.8612|TWO_SIDED|95.0|-0.266|0.223|||MMRM|||CFI Positive: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.223|-0.266|0.8612
92277636|NCT02247479|184457278|SUPERIORITY||Difference in Adjusted Means|0.077||||0.5317|TWO_SIDED|95.0|-0.165|0.319|||MMRM|||CFI Positive: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.319|-0.165|0.5317
92277637|NCT02247479|184457278|SUPERIORITY||Difference in Adjusted Means|-0.033||||0.824|TWO_SIDED|95.0|-0.322|0.257|||MMRM|||CFI Negative: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.257|-0.322|0.8240
92277638|NCT02247479|184457278|SUPERIORITY||Difference in Adjusted Means|0.006||||0.9676|TWO_SIDED|95.0|-0.283|0.294|||MMRM|||CFI Negative: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.294|-0.283|0.9676
92277639|NCT01506323|184457363|SUPERIORITY_OR_OTHER||||||<|0.006|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|Mixed-effects, repeated measures models adjusting for demographic factors were implemented.||This analysis is from baseline (week 0) to post-treatment (week 8). Cronbach's alpha for this study was .92 at baseline.||||<.006
92215034|NCT02558231|184330185|SUPERIORITY||LS Mean Difference|-0.72||||0.4998|TWO_SIDED|95.0|-2.834|1.386|||ANCOVA|||||1.386|-2.834|0.4998
92215035|NCT02558231|184330186|SUPERIORITY||LS Mean Difference|-0.09||||0.8528|TWO_SIDED|95.0|-1.003|0.83|||ANCOVA|||||0.830|-1.003|0.8528
92277640|NCT01506323|184457363|SUPERIORITY_OR_OTHER||repeated measures||||<|0.031|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using false discovery rate.|Mixed Models Analysis|This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.||This analysis is from baseline (week 0) to 2 months follow-up.||||<.031
92277641|NCT01506323|184457364|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED|||||The p-value is based on false discovery rate adjustment for multiple comparisons.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .86 at baseline.||||0.82
92277642|NCT01506323|184457364|SUPERIORITY_OR_OTHER|||||||0.82|ONE_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2 months post-treatment.||||0.82
92277643|NCT01506323|184457365|SUPERIORITY_OR_OTHER||||||<|0.008|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|repeated measures|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .85 at baseline.||||<0.008
92277644|NCT01506323|184457365|SUPERIORITY_OR_OTHER||||||<|0.09|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2 months post-treatment||||<0.09
92336955|NCT00141518|184576474|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.003
92336956|NCT00141518|184576475|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.001
92336957|NCT00141518|184576475|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.003
92336958|NCT00141518|184576476|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||1.000
92336959|NCT00141518|184576476|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.002
92336960|NCT00141518|184576477|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.017
92336961|NCT00141518|184576477|SUPERIORITY_OR_OTHER|||||||0.191|||||||Wilcoxon tests|||||||0.191
92336962|NCT00141518|184576478|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.002
92336963|NCT00141518|184576478|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||<0.001
92336964|NCT00141518|184576479|SUPERIORITY_OR_OTHER|||||||0.047|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.047
92336965|NCT00141518|184576479|SUPERIORITY_OR_OTHER|||||||0.847|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.847
92398223|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.75||||0.0494|TWO_SIDED|95.0|1.0|7.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.57|1.00|0.0494
92336966|NCT00141518|184576480|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.012
92336967|NCT00141518|184576480|SUPERIORITY_OR_OTHER|||||||0.035|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.035
92336968|NCT00141518|184576481|SUPERIORITY_OR_OTHER|||||||0.599|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.599
92336969|NCT00141518|184576481|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.048
92336970|NCT00141518|184576482|SUPERIORITY_OR_OTHER|||||||0.026|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.026
92336971|NCT00141518|184576482|SUPERIORITY_OR_OTHER|||||||0.208|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.208
92336972|NCT00141518|184576483|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.010
92336973|NCT00141518|184576483|SUPERIORITY_OR_OTHER|||||||0.073|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.073
92336974|NCT00141518|184576484|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.048
92336975|NCT00141518|184576484|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.030
92336976|NCT00141518|184576485|SUPERIORITY_OR_OTHER|||||||0.208|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.208
92336977|NCT00141518|184576485|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.048
92336978|NCT03060291|184576505|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.549|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.549
92336979|NCT03060291|184576505|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.854|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.854
92336980|NCT03060291|184576505|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.469|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.469
92336981|NCT03060291|184576506|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.535|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.535
92336982|NCT03060291|184576506|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.081|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.081
92336983|NCT03060291|184576506|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.295|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.295
92336984|NCT03060291|184576507|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.149|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.149
92336985|NCT03060291|184576507|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.207|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.207
92336986|NCT03060291|184576507|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.871|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.871
92336987|NCT03060291|184576508|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.547|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.547
92336988|NCT03060291|184576508|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.575|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.575
92336989|NCT03060291|184576508|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.964|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.964
92336990|NCT03060291|184576509|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.236|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.236
92336991|NCT03060291|184576509|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.142|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.142
92336992|NCT03060291|184576509|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.81|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.810
92336993|NCT03060291|184576510|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.599|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.599
92336994|NCT03060291|184576510|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.523|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.523
92336995|NCT03060291|184576510|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.252|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.252
92336996|NCT03060291|184576511|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.867|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.867
92336997|NCT03060291|184576511|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.127|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.127
92336998|NCT03060291|184576511|SUPERIORITY||Mean Difference (Final Values)|-0.51||||0.101|TWO_SIDED||||||t-test, 2 sided||||Mean difference in slope with the web/mobile only as the reference group.|||.101
92336999|NCT00718094|184576512|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.03
92337000|NCT00941304|184576524|SUPERIORITY_OR_OTHER||LS Mean Difference|3.34||||0.4739|TWO_SIDED|95.0|-5.94|12.62|||ANCOVA|||||12.62|-5.94|.4739
92337001|NCT00941304|184576524|SUPERIORITY_OR_OTHER||LS Mean Difference|6.26||||0.2183|TWO_SIDED|95.0|-3.81|16.34|||ANCOVA|||||16.34|-3.81|.2183
92337002|NCT00941304|184576524|SUPERIORITY_OR_OTHER||LS Mean Difference|8.74||||0.0809|TWO_SIDED|95.0|-1.11|18.56|||ANCOVA|||||18.56|-1.11|.0809
92337003|NCT03681184|184576600|SUPERIORITY||Difference in Least Squares (LS) Mean|-53.546|STANDARD_ERROR_OF_MEAN|4.3224|<|0.0001|TWO_SIDED|95.0|-62.314|-44.778||P=1.685E-14|MMRM|||The Mixed-Effect Model Repeated Measures (MMRM) includes fixed effects of treatment arms (lumasiran vs. placebo) and scheduled visits (months 3, 4, 5, and 6), baseline 24-hour urinary oxalate corrected for BSA as a continuous fixed covariate, and patient as a random effect. The variance-covariance matrix is assumed to be unstructured. Satterthwaite approximation is used to estimate denominator degrees of freedom.||-44.778|-62.314|<0.0001
92337004|NCT03681184|184576601|SUPERIORITY||Difference in LS Mean|-0.975|STANDARD_ERROR_OF_MEAN|0.0998|<|0.0001|TWO_SIDED|95.0|-1.177|-0.772||P=1.225E-11|MMRM|||The MMRM includes fixed effects of treatment arms (lumasiran vs. placebo) and scheduled visits (months 3, 4, 5, and 6), baseline 24-hour urinary oxalate corrected for BSA as a continuous fixed covariate, and patient as a random effect. The variance-covariance matrix is assumed to be unstructured. Satterthwaite approximation is used to estimate denominator degrees of freedom.||-0.772|-1.177|<0.0001
92337005|NCT03681184|184576602|SUPERIORITY||Difference in LS Mean|-51.7718|STANDARD_ERROR_OF_MEAN|6.16118|<|0.0001|TWO_SIDED|95.0|-64.2653|-39.2784||P=5.032E-10|MMRM|||The MMRM includes fixed effects of treatment arms (lumasiran vs. placebo) and scheduled visits (months 3, 4, 5, and 6), baseline 24-hour urinary oxalate:creatinine ratio as a continuous fixed covariate, and patient as a random effect. The variance-covariance matrix is assumed to be unstructured. Satterthwaite approximation is used to estimate denominator degrees of freedom.||-39.2784|-64.2653|<0.0001
92337006|NCT03681184|184576603|SUPERIORITY||Difference in Proportions|0.84|||<|0.0001|TWO_SIDED|95.0|0.55|0.94||P=8.341E-07|Cochran-Mantel-Haenszel|||The proportion of participants (lumasiran vs. placebo) with 24-hour urinary oxalate ≤1.5 x ULN at Month 6 is analyzed using the Cochran-Mantel-Haenszel test, stratified by baseline 24-hour urinary oxalate corrected for BSA (≤1.70 mmol/24hr/1.73m\^2 vs. \>1.70 mmol/24hr/1.73m\^2). The difference in proportion (lumasiran vs. placebo) and the corresponding 95% confidence interval are calculated using the Newcombe method, based on the Wilson score.||0.94|0.55|<0.0001
92398224|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.15||||0.1887|TWO_SIDED|95.0|0.69|6.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.70|0.69|0.1887
92398225|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.06||||0.0717|TWO_SIDED|95.0|0.91|10.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||10.7|0.91|0.0717
92398226|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.43||||0.1419|TWO_SIDED|95.0|0.74|7.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.92|0.74|0.1419
92337007|NCT03681184|184576604|SUPERIORITY||Difference in Proportions|0.52||||0.001|TWO_SIDED|95.0|0.23|0.7|||Cochran-Mantel-Haenszel|||The proportion of participants (lumasiran vs. placebo) with 24-hour urinary oxalate ≤ULN at Month 6 is analyzed using the Cochran-Mantel-Haenszel test, stratified by baseline 24-hour urinary oxalate corrected for BSA (≤1.70 mmol/24hr/1.73m\^2 vs. \>1.70 mmol/24hr/1.73m\^2). The difference in proportion (lumasiran vs. placebo) and the corresponding 95% confidence interval are calculated using the Newcombe method, based on the Wilson score.||0.70|0.23|0.0010
92337008|NCT03681184|184576605|SUPERIORITY||Difference in LS Mean|-39.48|STANDARD_ERROR_OF_MEAN|5.181|<|0.0001|TWO_SIDED|95.0|-50.1|-28.87||P=2.862E-08|MMRM|||The MMRM includes fixed effects of treatment arms (lumasiran vs. placebo) and scheduled visits (months 3, 4, 5, and 6), baseline plasma oxalate as a continuous fixed covariate, and patient as a random effect. The variance-covariance matrix is assumed to be unstructured. Satterthwaite approximation is used to estimate denominator degrees of freedom.||-28.87|-50.10|<0.0001
92337009|NCT03681184|184576606|SUPERIORITY||Difference in LS Mean|-8.71|STANDARD_ERROR_OF_MEAN|1.338|<|0.0001|TWO_SIDED|95.0|-11.45|-5.98||P=3.893E-07|MMRM|||The MMRM includes fixed effects of treatment arms (lumasiran vs. placebo) and scheduled visits (months 3, 4, 5, and 6), baseline plasma oxalate as a continuous fixed covariate, and patient as a random effect. The variance-covariance matrix is assumed to be unstructured. Satterthwaite approximation is used to estimate denominator degrees of freedom.||-5.98|-11.45|<0.0001
92337010|NCT04672044|184576640|SUPERIORITY|||||||0.896|||||||Wilcoxon (Mann-Whitney)|||||||0.896
92337011|NCT00792116|184576646|NON_INFERIORITY_OR_EQUIVALENCE|||||||0.05||95.0|||||ANCOVA|Repeated Measures||||||.05
92337012|NCT00792116|184576647|NON_INFERIORITY_OR_EQUIVALENCE|||||||0.05||95.0|||||ANCOVA|Repeated Measures||||||.05
92398227|NCT03192176|184689412|SUPERIORITY|0.0141|Odds Ratio (OR)|14.37||||0.0141|TWO_SIDED|95.0|1.71|120.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||120.6|1.71|0.0141
92215036|NCT02558231|184330187|SUPERIORITY||LS Mean Difference|2.4||||0.9474|TWO_SIDED|95.0|-69.368|74.178|||ANCOVA|||||74.178|-69.368|0.9474
92215037|NCT02558231|184330188|SUPERIORITY||LS Mean Difference|0.13||||0.1902|TWO_SIDED|95.0|-0.066|0.328|||ANCOVA|||||0.328|-0.066|0.1902
92215038|NCT02558231|184330189|SUPERIORITY||LS Mean Difference|-1.2||||0.1227|TWO_SIDED|95.0|-2.737|0.327|||ANCOVA|||||0.327|-2.737|0.1227
92215039|NCT02558231|184330190|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0867|TWO_SIDED|95.0|0.32|1.09|||Log Rank|||||1.09|0.32|0.0867
92398228|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.19||||0.0775|TWO_SIDED|95.0|0.88|11.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.54|0.88|0.0775
92398229|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|4.35||||0.0283|TWO_SIDED|95.0|1.17|16.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||16.19|1.17|0.0283
92398230|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.21||||0.1767|TWO_SIDED|95.0|0.7|6.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.96|0.70|0.1767
92215040|NCT04721821|184330196|SUPERIORITY||Odds Ratio (OR)|1.09|||||TWO_SIDED|95.0|0.82|1.44||||||||1.44|0.82|
92215041|NCT04721821|184330197|SUPERIORITY||Odds Ratio (OR)|0.72|||||TWO_SIDED|95.0|0.44|1.16||||||||1.16|0.44|
92274570|NCT05478603|184451644|OTHER||Ratio of adjusted geometric means|101.87|||||TWO_SIDED|90.0|59.74|173.71|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||173.71|59.74|
92274571|NCT05478603|184451644|OTHER||Ratio of adjusted geometric means|156.07|||||TWO_SIDED|90.0|91.53|266.14|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||266.14|91.53|
92274572|NCT05478603|184451644|OTHER||Ratio of adjusted geometric means|96.48|||||TWO_SIDED|90.0|56.58|164.51|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||164.51|56.58|
92274573|NCT05478603|184451645|OTHER||Ratio of adjusted geometric means|102.21|||||TWO_SIDED|90.0|59.91|174.39|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||174.39|59.91|
92274574|NCT05478603|184451645|OTHER||Ratio of adjusted geometric means|152.91|||||TWO_SIDED|90.0|89.62|260.9|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||260.90|89.62|
92274575|NCT05478603|184451645|OTHER||Ratio of adjusted geometric means|97.08|||||TWO_SIDED|90.0|56.9|165.65|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||165.65|56.90|
92274576|NCT05478603|184451646|OTHER||Ratio of adjusted geometric means|93.29|||||TWO_SIDED|90.0|64.61|134.69|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||134.69|64.61|
92277645|NCT01506323|184457366|SUPERIORITY_OR_OTHER||||||<|0.006|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .78 at baseline.||||<.006
92215042|NCT04721821|184330198|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.73|1.27||||||||1.27|0.73|
92215043|NCT04721821|184330199|SUPERIORITY||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.79|1.88||||||||1.88|0.79|
92215044|NCT04721821|184330200|SUPERIORITY||Odds Ratio (OR)|1.14|||||TWO_SIDED|95.0|0.79|1.67||||||||1.67|0.79|
92215045|NCT04721821|184330201|SUPERIORITY||Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|0.94|1.76||||||||1.76|0.94|
92215046|NCT04721821|184330202|SUPERIORITY||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.7|1.89||||||||1.89|0.70|
92215047|NCT04721821|184330203|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.69|1.32||||||||1.32|0.69|
92215048|NCT04721821|184330204|SUPERIORITY||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.81|2.16||||||||2.16|0.81|
92215049|NCT04721821|184330205|SUPERIORITY||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|0.81|1.87||||||||1.87|0.81|
92215050|NCT04721821|184330206|SUPERIORITY||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.8|1.66||||||Month 6 follow-up visit analysis||1.66|0.80|
92215051|NCT04721821|184330206|SUPERIORITY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.75|1.65||||||Month 12 follow-up visit analysis||1.65|0.75|
92215052|NCT04721821|184330207|SUPERIORITY||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.57|1.99||||||Month 6 follow-up visit analysis||1.99|0.57|
92215053|NCT04721821|184330207|SUPERIORITY||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.49|1.75||||||Month 12 follow-up visit analysis||1.75|0.49|
92215054|NCT04721821|184330208|SUPERIORITY||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.79|1.58||||||Month 6 follow-up visit analysis||1.58|0.79|
92215055|NCT04721821|184330208|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.6|1.35||||||Month 12 follow-up visit analysis||1.35|0.60|
92215056|NCT04721821|184330209|SUPERIORITY||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.77|2.29||||||Month 6 follow-up visit analysis||2.29|0.77|
92215057|NCT04721821|184330209|SUPERIORITY||Odds Ratio (OR)|1.49|||||TWO_SIDED|95.0|0.82|2.71||||||Month 12 follow-up visit analysis||2.71|0.82|
92337013|NCT02453256|184576648|SUPERIORITY||Difference in least square means|-1.73||||0.0983|TWO_SIDED|95.0|-3.78|0.32|||Repeated Measure|||Difference in least square means between the TCZ group and the Placebo group at week 48. Null hypothesis: There is no difference between the TCZ group and the placebo group in mean change in mRSS from baseline to Week 48.||0.32|-3.78|0.0983
92337014|NCT02453256|184576649|SUPERIORITY||Weighted difference|21.91||||0.0007|TWO_SIDED|95.0|9.2|34.6|||Cochran-Mantel-Haenszel|||This statistical analysis applies to participants with ≥ 20% improvement in mRSS.||34.6|9.2|0.0007
92215058|NCT04721821|184330210|SUPERIORITY||Odds Ratio (OR)|1.35|||||TWO_SIDED|95.0|0.81|2.24||||||Month 6 follow-up visit analysis||2.24|0.81|
92215059|NCT04721821|184330210|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.5|1.62||||||Month 12 follow-up visit analysis||1.62|0.50|
92215060|NCT04721821|184330211|SUPERIORITY||Mean Difference (Net)|0.21|||||TWO_SIDED|95.0|-0.88|1.31||||||Month 6 follow-up visit analysis||1.31|-0.88|
92215061|NCT04721821|184330211|SUPERIORITY||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-2.73|-0.27||||||Month 12 follow-up visit analysis||-0.27|-2.73|
92215062|NCT04721821|184330212|SUPERIORITY||Median Difference (Net)|0.39|||||TWO_SIDED|95.0|-1.24|2.02||||||Month 6 follow-up visit analysis||2.02|-1.24|
92215063|NCT04721821|184330212|SUPERIORITY||Median Difference (Net)|0.96|||||TWO_SIDED|95.0|-0.92|2.84||||||Month 12 follow-up visit analysis||2.84|-0.92|
92215064|NCT04721821|184330213|SUPERIORITY||Mean Difference (Net)|-0.56|||||TWO_SIDED|95.0|-1.68|0.56||||||Month 6 follow-up visit analysis||0.56|-1.68|
92215065|NCT04721821|184330213|SUPERIORITY||Mean Difference (Net)|0.74|||||TWO_SIDED|95.0|-0.51|1.99||||||Month 12 follow-up visit analysis||1.99|-0.51|
92215066|NCT04721821|184330214|SUPERIORITY||Mean Difference (Net)|-1.11|||||TWO_SIDED|95.0|-2.66|0.45||||||Month 6 follow-up visit analysis||0.45|-2.66|
92215067|NCT04721821|184330214|SUPERIORITY||Mean Difference (Net)|-1.73|||||TWO_SIDED|95.0|-3.52|0.05||||||Month 12 follow-up visit analysis||0.05|-3.52|
92215068|NCT04721821|184330215|SUPERIORITY||Mean Difference (Net)|-0.93|||||TWO_SIDED|95.0|-2.3|0.44||||||Month 6 follow-up visit analysis||0.44|-2.30|
92215069|NCT04721821|184330215|SUPERIORITY||Mean Difference (Net)|-0.99|||||TWO_SIDED|95.0|-2.6|0.62||||||Month 12 follow-up visit analysis||0.62|-2.60|
92215070|NCT04721821|184330216|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.8|1.35||||||Month 6 follow-up visit analysis: mACR 20||1.35|0.80|
92215071|NCT04721821|184330216|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.86|1.67||||||Month 6 follow-up visit analysis: mACR 50||1.67|0.86|
92215072|NCT04721821|184330216|SUPERIORITY||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.57|1.54||||||Month 6 follow-up visit analysis: mACR 70||1.54|0.57|
92337015|NCT02453256|184576649|SUPERIORITY||Weighted difference|4.32||||0.5139|TWO_SIDED|95.0|-8.7|17.3|||Cochran-Mantel-Haenszel|||This statistical analysis applies to participants with ≥ 40% improvement in mRSS.||17.3|-8.7|0.5139
92215073|NCT04721821|184330216|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.77|1.41||||||Month 12 follow-up visit analysis: mACR 20||1.41|0.77|
92215074|NCT04721821|184330216|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.89|1.95||||||Month 12 follow-up visit analysis: mACR 50||1.95|0.89|
92215075|NCT04721821|184330216|SUPERIORITY||Odds Ratio (OR)|1.49|||||TWO_SIDED|95.0|0.85|2.6||||||Month 12 follow-up visit analysis: mACR 70||2.60|0.85|
92215076|NCT04721821|184330217|SUPERIORITY||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.59|1.34||||||Month 6 follow-up visit analysis: mACR 20||1.34|0.59|
92215077|NCT04721821|184330217|SUPERIORITY||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.39|1.15||||||Month 6 follow-up visit analysis: mACR 50||1.15|0.39|
92215078|NCT04721821|184330217|SUPERIORITY||Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.34|1.83||||||Month 6 follow-up visit analysis: mACR 70||1.83|0.34|
92215079|NCT04721821|184330217|SUPERIORITY||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.56|1.42||||||Month 12 follow-up visit analysis: mACR 20||1.42|0.56|
92215080|NCT04721821|184330217|SUPERIORITY||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.46|1.8||||||Month 12 follow-up visit analysis: mACR 50||1.80|0.46|
92215081|NCT04721821|184330217|SUPERIORITY||Odds Ratio (OR)|0.54|||||TWO_SIDED|95.0|0.19|1.48||||||Month 12 follow-up visit analysis: mACR 70||1.48|0.19|
92215082|NCT04721821|184330218|SUPERIORITY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.86|1.45||||||Month 6 follow-up visit analysis: mACR 20||1.45|0.86|
92215083|NCT04721821|184330218|SUPERIORITY||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.67|1.26||||||Month 6 follow-up visit analysis: mACR 50||1.26|0.67|
92215084|NCT04721821|184330218|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.44|1.09||||||Month 6 follow-up visit analysis: mACR 70||1.09|0.44|
92215085|NCT04721821|184330218|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.74|1.38||||||Month 12 follow-up visit analysis: mACR 20||1.38|0.74|
92215086|NCT04721821|184330218|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.69|1.52||||||Month 12 follow-up visit analysis: mACR 50||1.52|0.69|
92215087|NCT04721821|184330218|SUPERIORITY||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.46|1.33||||||Month 12 follow-up visit analysis: mACR 70||1.33|0.46|
92215088|NCT04721821|184330219|SUPERIORITY||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.78|1.77||||||Month 6 follow-up visit analysis: mACR 20||1.77|0.78|
92337016|NCT02453256|184576649|SUPERIORITY||Weighted difference|-5.41||||0.3276|TWO_SIDED|95.0|-16.2|5.4|||Cochran-Mantel-Haenszel|||This statistical analysis applies to participants with ≥ 60% improvement in mRSS.||5.4|-16.2|0.3276
92337017|NCT02453256|184576650|SUPERIORITY|||||||0.0015||||||P-value from Van Elteren analysis stratified by IL-6 level (\<10; \>=10 pg/mL) at screening.|Van Elteren|||||||0.0015
92215089|NCT04721821|184330219|SUPERIORITY||Odds Ratio (OR)|1.17|||||TWO_SIDED|95.0|0.71|1.95||||||Month 6 follow-up visit analysis: mACR 50||1.95|0.71|
92215090|NCT04721821|184330219|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.45|2.39||||||Month 6 follow-up visit analysis: mACR 70||2.39|0.45|
92398231|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.2||||0.1675|TWO_SIDED|95.0|0.72|6.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.72|0.72|0.1675
92398232|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.84||||0.2717|TWO_SIDED|95.0|0.62|5.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.49|0.62|0.2717
92215091|NCT04721821|184330219|SUPERIORITY||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.5|1.4||||||Month 12 follow-up visit analysis: mACR 20||1.40|0.50|
92215092|NCT04721821|184330219|SUPERIORITY||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.49|1.83||||||Month 12 follow-up visit analysis: mACR 50||1.83|0.49|
92215093|NCT04721821|184330219|SUPERIORITY||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.33|1.95||||||Month 12 follow-up visit analysis: mACR 70||1.95|0.33|
92215094|NCT04721821|184330220|SUPERIORITY||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.76|1.49||||||Month 6 follow-up visit analysis: mACR 20||1.49|0.76|
92215095|NCT04721821|184330220|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.55|1.37||||||Month 6 follow-up visit analysis: mACR 50||1.37|0.55|
92215096|NCT04721821|184330220|SUPERIORITY||Odds Ratio (OR)|0.62|||||TWO_SIDED|95.0|0.32|1.2||||||Month 6 follow-up visit analysis: mACR 70||1.20|0.32|
92215097|NCT04721821|184330220|SUPERIORITY||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.59|1.3||||||Month 12 follow-up visit analysis: mACR 20||1.30|0.59|
92215098|NCT04721821|184330220|SUPERIORITY||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.65|1.86||||||Month 12 follow-up visit analysis: mACR 50||1.86|0.65|
92215099|NCT04721821|184330220|SUPERIORITY||Odds Ratio (OR)|1.43||||||95.0|0.62|3.28||||||Month 12 follow-up visit analysis: mACR 70||3.28|0.62|
92215100|NCT04721821|184330221|SUPERIORITY||Odds Ratio (OR)|1.42|||||TWO_SIDED|95.0|0.94|2.15||||||Month 6 follow-up visit analysis||2.15|0.94|
92398233|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.4||||0.1367|TWO_SIDED|95.0|0.76|7.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.64|0.76|0.1367
92215101|NCT04721821|184330221|SUPERIORITY||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.68|1.84||||||Month 12 follow-up visit analysis||1.84|0.68|
92398234|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|13.53||||0.0162|TWO_SIDED|95.0|1.62|113.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||113.0|1.62|0.0162
92215102|NCT04721821|184330222|SUPERIORITY||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.41|1.67||||||Month 6 follow-up visit analysis||1.67|0.41|
92215103|NCT04721821|184330222|SUPERIORITY||Odds Ratio (OR)|1.38|||||TWO_SIDED|95.0|0.62|3.07||||||Month 12 follow-up visit analysis||3.07|0.62|
92215104|NCT04721821|184330223|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.66|1.52||||||Month 6 follow-up visit analysis||1.52|0.66|
92215105|NCT04721821|184330223|SUPERIORITY||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.64|1.74||||||Month 12 follow-up visit analysis||1.74|0.64|
92215106|NCT04721821|184330224|SUPERIORITY||Odds Ratio (OR)|1.54|||||TWO_SIDED|95.0|0.8|2.94||||||Month 6 follow-up visit analysis||2.94|0.80|
92215107|NCT04721821|184330224|SUPERIORITY||Odds Ratio (OR)|1.72|||||TWO_SIDED|95.0|0.76|3.87||||||Month 12 follow-up visit analysis||3.87|0.76|
92215108|NCT04721821|184330225|SUPERIORITY||Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|0.73|2.27||||||Month 6 follow-up visit analysis||2.27|0.73|
92215109|NCT04721821|184330225|SUPERIORITY||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.63|2.23||||||Month 12 follow-up visit analysis||2.23|0.63|
92215110|NCT04721821|184330226|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.06|0.04||||||Month 6 follow-up visit analysis||0.04|-0.06|
92215111|NCT04721821|184330226|SUPERIORITY||Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|-0.01|0.09||||||Month 12 follow-up visit analysis||0.09|-0.01|
92215112|NCT04721821|184330227|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.08|0.06||||||Month 6 follow-up visit analysis||0.06|-0.08|
92215113|NCT04721821|184330227|SUPERIORITY||Median Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.11|0.05||||||Month 12 follow-up visit analysis||0.05|-0.11|
92215114|NCT04721821|184330228|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.07|0.03||||||Month 6 follow-up visit analysis||0.03|-0.07|
92215115|NCT04721821|184330228|SUPERIORITY||Odds Ratio (OR)|0.01|||||TWO_SIDED|95.0|-0.05|0.07||||||Month 12 follow-up visit analysis||0.07|-0.05|
92215116|NCT04721821|184330229|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.06|0.07||||||Month 6 follow-up visit analysis||0.07|-0.06|
92215117|NCT04721821|184330229|SUPERIORITY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.12|0.06||||||Month 12 follow-up visit analysis||0.06|-0.12|
92215118|NCT04721821|184330230|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.09|0.04||||||Month 6 follow-up visit analysis||0.04|-0.09|
92215119|NCT04721821|184330230|SUPERIORITY||Odds Ratio (OR)|0.02|||||TWO_SIDED|95.0|-0.06|0.09||||||Month 12 follow-up visit analysis||0.09|-0.06|
92215120|NCT04721821|184330231|SUPERIORITY||Odds Ratio (OR)|1.14|||||TWO_SIDED|95.0|0.9|1.45||||||Month 6 follow-up visit analysis||1.45|0.90|
92215121|NCT04721821|184330231|SUPERIORITY||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.54|0.94||||||Month 12 follow-up visit analysis||0.94|0.54|
92215122|NCT04721821|184330232|SUPERIORITY||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.53|1.11||||||Month 6 follow-up visit analysis||1.11|0.53|
92215123|NCT04721821|184330232|SUPERIORITY||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.72|1.61||||||Month 12 follow-up visit analysis||1.61|0.72|
92215124|NCT04721821|184330233|SUPERIORITY||Odds Ratio (OR)|0.94|||||TWO_SIDED|95.0|0.73|1.21||||||Month 6 follow-up visit analysis||1.21|0.73|
92215125|NCT04721821|184330233|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.77|1.39||||||Month 12 follow-up visit analysis||1.39|0.77|
92337018|NCT02453256|184576651|SUPERIORITY||Difference in least square means|0.167||||0.0001|TWO_SIDED|95.0|0.083|0.25|||Repeated Measure|||||0.250|0.083|0.0001
92337019|NCT02453256|184576652|SUPERIORITY||Difference in least square means|-0.053||||0.4489|TWO_SIDED|95.0|-0.192|0.085|||Repeated Measure|||||0.085|-0.192|0.4489
92337020|NCT02453256|184576653|SUPERIORITY||Difference in least square means|-2.44||||0.4339|TWO_SIDED|95.0|-8.57|3.7|||Repeated Measure|||||3.70|-8.57|0.4339
92337021|NCT02453256|184576654|SUPERIORITY||Difference in least square means|-2.46||||0.4378|TWO_SIDED|95.0|-8.72|3.79|||Repeated Measure|||||3.79|-8.72|0.4378
92337022|NCT02453256|184576655|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0821|TWO_SIDED|95.0|0.37|1.06|||Cox-proportional hazards model|||||1.06|0.37|0.0821
92337023|NCT03373461|184576700|OTHER|||||||0.038|||||||Multiple Comparison Procedure-Modeling|||||||0.038
92337024|NCT03373461|184576700|OTHER||Ratio to placebo (of ratio to baseline)|0.99|||||TWO_SIDED|80.0|0.86|1.0||||||||1.00|0.86|
92337025|NCT03373461|184576700|OTHER||Ratio to placebo (of ratio to baseline)|0.94|||||TWO_SIDED|80.0|0.76|0.98||||||||0.98|0.76|
92337026|NCT03373461|184576700|OTHER||Ratio to placebo (of ratio to baseline)|0.87|||||TWO_SIDED|80.0|0.72|0.96||||||||0.96|0.72|
92337027|NCT03373461|184576700|OTHER||Ratio to placebo (of ratio to baseline)|0.77|||||TWO_SIDED|80.0|0.66|0.92||||||||0.92|0.66|
92153656|NCT02564055|184192914|OTHER||Difference in percentages|5.1|||||TWO_SIDED|95.0|-18.0|27.8|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 2 has been presented.|||27.8|-18.0|
92153657|NCT02564055|184192914|OTHER||Difference in percentages|17.1|||||TWO_SIDED|95.0|-6.4|39.0|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 2 has been presented.|||39.0|-6.4|
92337028|NCT03373461|184576701|OTHER||Mean Difference (Final Values)|3.28|||||TWO_SIDED|80.0|0.21|6.344||||||||6.344|0.210|
92337029|NCT03373461|184576701|OTHER||Mean Difference (Final Values)|5.83|||||TWO_SIDED|80.0|2.642|9.01||||||||9.010|2.642|
92398235|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.23||||0.0765|TWO_SIDED|95.0|0.88|11.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||11.78|0.88|0.0765
92153658|NCT02564055|184192914|OTHER||Difference in percentages|39.6|||||TWO_SIDED|95.0|16.0|60.0|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 4 has been presented.|||60.0|16.0|
92153659|NCT02564055|184192914|OTHER||Difference in percentages|31.2|||||TWO_SIDED|95.0|7.8|52.1|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 4 has been presented.|||52.1|7.8|
92153660|NCT02564055|184192914|OTHER||Difference in percentages|26.5|||||TWO_SIDED|95.0|2.3|48.4|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 4 has been presented.|||48.4|2.3|
92153661|NCT02564055|184192914|OTHER||Difference in percentages|18.3|||||TWO_SIDED|95.0|-5.3|40.5|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 4 has been presented.|||40.5|-5.3|
92153662|NCT02564055|184192914|OTHER||Difference in percentages|21.9|||||TWO_SIDED|95.0|-2.3|44.7|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 8 has been presented.|||44.7|-2.3|
92337030|NCT03373461|184576701|OTHER||Mean Difference (Final Values)|3.56|||||TWO_SIDED|80.0|0.427|6.7||||||||6.700|0.427|
92337031|NCT03373461|184576701|OTHER||Mean Difference (Final Values)|5.76|||||TWO_SIDED|80.0|2.882|8.638||||||||8.638|2.882|
92337032|NCT03373461|184576702|OTHER||Mean Difference (Final Values)|-9.2|||||TWO_SIDED|80.0|-15.253|-3.145||||||||-3.145|-15.253|
92337033|NCT03373461|184576702|OTHER||Mean Difference (Final Values)|-9.25|||||TWO_SIDED|80.0|-15.499|-3.0||||||||-3.000|-15.499|
92337034|NCT03373461|184576702|OTHER||Mean Difference (Final Values)|-5.89|||||TWO_SIDED|80.0|-12.04|0.26||||||||0.260|-12.040|
92337035|NCT03373461|184576702|OTHER||Mean Difference (Final Values)|-10.12|||||TWO_SIDED|80.0|-15.763|-4.471||||||||-4.471|-15.763|
92337036|NCT03373461|184576704|OTHER||Ratio to placebo (of ratio to baseline)|0.95|||||TWO_SIDED|80.0|0.742|1.222||||||||1.222|0.742|
92337037|NCT03373461|184576704|OTHER||Ratio to placebo (of ratio to baseline)|1.06|||||TWO_SIDED|80.0|0.83|1.356||||||||1.356|0.830|
92337038|NCT03373461|184576704|OTHER||Ratio to placebo (of ratio to baseline)|0.73|||||TWO_SIDED|80.0|0.569|0.928||||||||0.928|0.569|
92337039|NCT03373461|184576704|OTHER||Ratio to placebo (of ratio to baseline)|0.84|||||TWO_SIDED|80.0|0.669|1.05||||||||1.050|0.669|
92337040|NCT03373461|184576705|OTHER||Ratio to placebo (of ratio to baseline)|0.96|||||TWO_SIDED|80.0|0.741|1.25||||||||1.250|0.741|
92337041|NCT03373461|184576705|OTHER||Ratio to placebo (of ratio to baseline)|1.13|||||TWO_SIDED|80.0|0.872|1.458||||||||1.458|0.872|
92337042|NCT03373461|184576705|OTHER||Ratio to placebo (of ratio to baseline)|0.74|||||TWO_SIDED|80.0|0.574|0.957||||||||0.957|0.574|
92337043|NCT03373461|184576705|OTHER||Ratio to placebo (of ratio to baseline)|0.89|||||TWO_SIDED|80.0|0.706|1.132||||||||1.132|0.706|
92337044|NCT03373461|184576706|OTHER||Ratio to placebo (of ratio to baseline)|0.98|||||TWO_SIDED|80.0|0.794|1.214||||||||1.214|0.794|
92337045|NCT03373461|184576706|OTHER||Ratio to placebo (of ratio to baseline)|1.03|||||TWO_SIDED|80.0|0.835|1.269||||||||1.269|0.835|
92337046|NCT03373461|184576706|OTHER||Ratio to placebo (of ratio to baseline)|0.76|||||TWO_SIDED|80.0|0.616|0.942||||||||0.942|0.616|
92337047|NCT03373461|184576706|OTHER||Ratio to placebo (of ratio to baseline)|0.85|||||TWO_SIDED|80.0|0.704|1.027||||||||1.027|0.704|
92337048|NCT03373461|184576707|OTHER||Ratio to placebo (of ratio to baseline)|0.92|||||TWO_SIDED|80.0|0.723|1.172||||||||1.172|0.723|
92337049|NCT03373461|184576707|OTHER||Ratio to placebo (of ratio to baseline)|0.98|||||TWO_SIDED|80.0|0.767|1.249||||||||1.249|0.767|
92337050|NCT03373461|184576707|OTHER||Ratio to placebo (of ratio to baseline)|0.74|||||TWO_SIDED|80.0|0.577|0.937||||||||0.937|0.577|
92337051|NCT03373461|184576707|OTHER||Ratio to placebo (of ratio to baseline)|0.84|||||TWO_SIDED|80.0|0.678|1.052||||||||1.052|0.678|
92337052|NCT03373461|184576716|OTHER||Mean Difference (Final Values)|3.95|||||TWO_SIDED|80.0|0.42|7.472||||||||7.472|0.420|
92337053|NCT03373461|184576716|OTHER||Mean Difference (Final Values)|0.82|||||TWO_SIDED|80.0|-2.747|4.39||||||||4.390|-2.747|
92337054|NCT03373461|184576716|OTHER||Mean Difference (Final Values)|0.26|||||TWO_SIDED|80.0|-2.745|3.262||||||||3.262|-2.745|
92337055|NCT03373461|184576716|OTHER||Mean Difference (Final Values)|1.98|||||TWO_SIDED|80.0|-1.368|5.337||||||||5.337|-1.368|
92337056|NCT03373461|184576717|OTHER||Ratio to placebo (of ratio to baseline)|1.04|||||TWO_SIDED|80.0|0.68|1.579||||||||1.579|0.680|
92337057|NCT03373461|184576717|OTHER||Ratio to placebo (of ratio to baseline)|0.92|||||TWO_SIDED|80.0|0.607|1.39||||||||1.390|0.607|
92215126|NCT04721821|184330234|SUPERIORITY||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.64|1.32||||||Month 6 follow-up visit analysis||1.32|0.64|
92215127|NCT04721821|184330234|SUPERIORITY||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.69|1.64||||||Month 12 follow-up visit analysis||1.64|0.69|
92215128|NCT04721821|184330235|SUPERIORITY||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.84|1.59||||||Month 6 follow-up visit analysis||1.59|0.84|
92337058|NCT03373461|184576717|OTHER||Ratio to placebo (of ratio to baseline)|0.8|||||TWO_SIDED|80.0|0.558|1.153||||||||1.153|0.558|
92277646|NCT01506323|184457366|SUPERIORITY_OR_OTHER||||||<|0.03|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|repeated measures|||This analysis is from baseline to 2 months post-treatment.||||<.03
92215129|NCT04721821|184330235|SUPERIORITY||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.65|1.32||||||Month 12 follow-up visit analysis||1.32|0.65|
92215130|NCT04721821|184330236|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.03|0.04||||||Month 6 follow-up visit analysis||0.04|-0.03|
92215131|NCT04721821|184330236|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.04|0.05||||||Month 12 follow-up visit analysis||0.05|-0.04|
92215132|NCT04721821|184330237|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.05|0.05||||||Month 6 follow-up visit analysis||0.05|-0.05|
92215133|NCT04721821|184330237|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.07|0.06||||||Month 12 follow-up visit analysis||0.06|-0.07|
92215134|NCT04721821|184330238|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.06|0.02||||||Month 6 follow-up visit analysis||0.02|-0.06|
92277647|NCT01506323|184457367|SUPERIORITY_OR_OTHER||||||<|0.0008|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|repeated measures|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .89 at baseline.||||<0.0008
92277648|NCT01506323|184457367|SUPERIORITY_OR_OTHER||||||<|0.006|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Wilcoxon (Mann-Whitney)|||This analysis is from baseline to 2 months post-treatment.||||<0.006
92277649|NCT01506323|184457368|SUPERIORITY_OR_OTHER||||||<|0.1|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing. Raw p-value was \<0.02.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for total score in this study was .86 at baseline.||||<0.10
92277650|NCT01506323|184457368|SUPERIORITY_OR_OTHER||||||<|0.49|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment.||||<0.49
92277651|NCT01506323|184457369|SUPERIORITY_OR_OTHER||||||<|0.78|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .96 at baseline.||||<0.78
92277652|NCT01506323|184457369|SUPERIORITY_OR_OTHER||||||<|0.99|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2-months post-treatment.||||<0.99
92277653|NCT01506323|184457370|SUPERIORITY_OR_OTHER||||||<|0.04|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis was from baseline to post-treatment. Cronbach's alpha for this study was .92 at baseline.||||<0.04
92277654|NCT01506323|184457370|SUPERIORITY_OR_OTHER||||||<|0.25|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2-months post-treatment.||||<0.25
92277655|NCT01506323|184457371|SUPERIORITY_OR_OTHER||||||<|0.99|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .89 at baseline.||||<0.99
92277656|NCT01506323|184457371|SUPERIORITY_OR_OTHER||||||<|0.94|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2-months post-treatment.||||<0.94
92277657|NCT01506323|184457372|SUPERIORITY_OR_OTHER||||||<|0.12|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .88 at baseline.||||<0.12
92277658|NCT01506323|184457372|SUPERIORITY_OR_OTHER||||||<|0.49|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2-months post-treatment.||||<0.49
92277659|NCT01506323|184457373|SUPERIORITY_OR_OTHER||||||<|0.59|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for total score was .89 at baseline.||||<0.59
92277660|NCT01506323|184457373|SUPERIORITY_OR_OTHER||||||<|0.1|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|Mixed-effects, repeated measures models adjusting for demographic factors were implemented.||This analysis is from baseline to 2-months post-treatment.||||<0.10
92277661|NCT03907280|184457374|OTHER|Absolute bioavailability comparison|Ratio of the geometric means (T1/R) [%]|0.5|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|0.39|0.63|||Mixed Models Analysis||The standard error of the mean is actually the geometric standard error.|Exploratory trial, no formal hypotheses were tested. Analysis of variance (ANOVA) on the logarithmic scale including effects for treatment sequence ('fixed effect'), subjects nested within treatment sequences ('random effect'), and treatment ('fixed effect').||0.63|0.39|
92277662|NCT03907280|184457374|OTHER|Absolute bioavailability comparison|Ratio of the geometric means (T2/R) [%]|40.26|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|31.68|51.15|||Mixed Models Analysis||The standard error of the mean is actually the geometric standard error.|Exploratory trial, no formal hypotheses were tested. Analysis of variance (ANOVA) on the logarithmic scale including effects for treatment sequence ('fixed effect'), subjects nested within treatment sequences ('random effect'), and treatment ('fixed effect').||51.15|31.68|
92215135|NCT04721821|184330238|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.04|0.04||||||Month 12 follow-up visit analysis||0.04|-0.04|
92337059|NCT03373461|184576717|OTHER||Ratio to placebo (of ratio to baseline)|0.91|||||TWO_SIDED|80.0|0.614|1.362||||||||1.362|0.614|
92337060|NCT03373461|184576719|OTHER||Geometric mean ratio|1.16|||||TWO_SIDED|80.0|0.792|1.692||||||||1.692|0.792|
92337061|NCT03373461|184576719|OTHER||Geometric mean ratio|0.65|||||TWO_SIDED|80.0|0.446|0.945||||||||0.945|0.446|
92337062|NCT03373461|184576719|OTHER||Geometric mean ratio|0.72|||||TWO_SIDED|80.0|0.518|0.997||||||||0.997|0.518|
92337063|NCT03373461|184576719|OTHER||Geometric mean ratio|0.8|||||TWO_SIDED|80.0|0.558|1.146||||||||1.146|0.558|
92337064|NCT03373461|184576720|OTHER||Ratio to placebo (of ratio to baseline)|1.14|||||TWO_SIDED|80.0|0.765|1.699||||||||1.699|0.765|
92337065|NCT03373461|184576720|OTHER||Ratio to placebo (of ratio to baseline)|0.66|||||TWO_SIDED|80.0|0.446|0.984||||||||0.984|0.446|
92337066|NCT03373461|184576720|OTHER||Ratio to placebo (of ratio to baseline)|0.71|||||TWO_SIDED|80.0|0.501|0.995||||||||0.995|0.501|
92337067|NCT03373461|184576720|OTHER||Ratio to placebo (of ratio to baseline)|0.76|||||TWO_SIDED|80.0|0.52|1.107||||||||1.107|0.520|
92337068|NCT01243177|184576731|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"The hypothesis was as follows:~H0: \[S(t)LCM\] - \[S(t)CBZ-CR\] ≤ -12 % versus HA: \[S(t)LCM\] - \[S(t)CBZ-CR\] \> -12 %, where S(t) (t= 182 days) is the cumulative rate of subjects remaining seizure free for 6 months following stabilization at the last evaluated dose (also known as the survivorship function), and -12 % represents the noninferiority margin based on absolute difference."|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-5.5|2.8|||Mantel Haenszel|The analysis was stratified based on the number of seizures in the 3 months preceding enrollment (≤ 2 and \>2).|The lower limit of the confidence interval was \>-12 %, noninferiority of LCM to CBZ-CR was demonstrated. Additionally, the lower confidence limit relative to the CBZ-CR seizure freedom rate was \>- 20 %.|This was a noninferiority assessment of Lacosamide versus Carbamazepine-CR for the proportion of subjects remaining seizure free for 6 months at the last evaluated dose.||2.8|-5.5|
92337069|NCT01243177|184576732|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"The hypothesis was as follows:~H0: \[S(t)LCM\] - \[S(t)CBZ-CR\] ≤ -12 % versus HA: \[S(t)LCM\] - \[S(t)CBZ-CR\] \> -12 %, where S(t) (t= 182 days) is the cumulative rate of subjects remaining seizure free for 6 months following stabilization at the last evaluated dose (also known as the survivorship function), and -12 % represents the noninferiority margin based on absolute difference."|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-5.3|2.7|||Mantel Haenszel|The analysis was stratified based on the number of seizures in the 3 months preceding enrollment (≤ 2 and \>2).|The lower limit of the confidence interval was \>-12 %, noninferiority of LCM to CBZ-CR was demonstrated. Additionally, the lower confidence limit relative to the CBZ-CR seizure freedom rate was \>- 20 %.|This was a noninferiority assessment of Lacosamide versus Carbamazepine-CR for the proportion of subjects remaining seizure free for 6 months at the last evaluated dose.||2.7|-5.3|
92337070|NCT03020550|184576737|SUPERIORITY|||||||0.034|||||||ANOVA|Adjusted for baseline GERD symptom severity.||The outcome measure was calculated using a general linear model with average daily post GERD symptom severity as the dependent variable with the following independent variables: baseline average GERD symptom severity and change in GSR (galvanic skin response). No term for visit type assignment was included in the model.||||0.034
92337071|NCT03020550|184576738|SUPERIORITY|||||||0.56|||||||ANOVA|Adjusted for baseline GERD symptom severity||The outcome measure was calculated using a general linear model with average daily post GERD symptom severity as the dependent variable with the following independent variables: baseline average GERD symptom severity and change in RMSSD (high frequency HRV). No term for visit type assignment was included in the model.||||0.56
92337072|NCT03020550|184576739|SUPERIORITY|||||||0.8|||||||Pearson's correlation test|||The outcome measure was calculated using a Pearson correlation to compare the session index representing the amount of concordance in GSR between patient and physician and the percent change in patients' GERD symptoms. Visit type assignment was not included in the analysis.||||0.80
92337073|NCT00913081|184576750|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that quercetin, at any dose, does not attenuate niacin-induced increases in dermal blood flow. Because quercetin has not been used to inhibit flushing from niacin in humans, sample size could not be determined statistically. A sample size of 8 men and 8 women was expected to allow separate estimates of effect size, variability, and shape of distribution for men and women.||||0.5
92337074|NCT00913081|184576750|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that quercetin, at any dose, does not attenuate niacin-induced increases in dermal blood flow.||||0.8
92398236|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|7.8||||0.0061|TWO_SIDED|95.0|1.79|33.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||33.87|1.79|0.0061
92337075|NCT00913081|184576750|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that quercetin, at any dose, does not attenuate niacin-induced increases in dermal blood flow.||||0.5
92337076|NCT01000974|184576756|NON_INFERIORITY|To demonstrate the non-inferiority of Test Hib to Control Hib, each co-administered with DTPa-HBV-IPV, 13Pn and HRV vaccines, following 3 primary vaccine doses in terms of anti-PRP antibody concentration ≥ 1.0 μg/mL.|difference in percentage|-8.59|||||TWO_SIDED|95.0|-12.28|-4.07|||Non-inferiority analysis|||Non-inferiority Anti-PRP concentration ≥ 1.0 μg/mL||-4.07|-12.28|
92337077|NCT01000974|184576756|NON_INFERIORITY|To demonstrate the non-inferiority of Test Hib to Control Hib, each co-administered with DTPa-HBVIPV, 13Pn and HRV vaccines, following 3 primary vaccine doses in terms of anti-PRP antibody concentrations ≥ 0.15 μg/mL.|Difference in percentage|-0.11|||||TWO_SIDED|95.0|-1.98|2.82|||Non-inferiority analysis|||Non-inferiority Anti-PRP concentration≥ 0.15 μg/mL||2.82|-1.98|
92337078|NCT01000974|184576757|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to diphtheria (Anti-D).|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.26|1.81|||Non-inferiority analysis|||Non-inferiority Anti-D antibody concentrations||1.81|-1.26|
92215136|NCT04721821|184330239|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.06|0.04||||||Month 6 follow-up visit analysis||0.04|-0.06|
92398237|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|5.4||||0.0181|TWO_SIDED|95.0|1.33|21.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||21.85|1.33|0.0181
92398238|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3925|TWO_SIDED|95.0|0.53|4.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.99|0.53|0.3925
92398239|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.66||||0.374|TWO_SIDED|95.0|0.54|5.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.12|0.54|0.3740
92398240|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.33||||0.1753|TWO_SIDED|95.0|0.69|7.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.93|0.69|0.1753
92398241|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|12.85||||0.0195|TWO_SIDED|95.0|1.51|109.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||109.5|1.51|0.0195
92398242|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.29||||0.1932|TWO_SIDED|95.0|0.66|8.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.02|0.66|0.1932
92398243|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.55||||0.0537|TWO_SIDED|95.0|0.98|12.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||12.86|0.98|0.0537
92398244|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|7.72||||0.0144|TWO_SIDED|95.0|1.5|39.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||39.66|1.50|0.0144
92153663|NCT02564055|184192914|OTHER||Difference in percentages|36.3|||||TWO_SIDED|95.0|12.1|57.6|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 8 has been presented.|||57.6|12.1|
92153664|NCT02564055|184192914|OTHER||Difference in percentages|26.7|||||TWO_SIDED|95.0|1.7|49.0|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 8 has been presented.|||49.0|1.7|
92153665|NCT02564055|184192914|OTHER||Difference in percentages|23.4|||||TWO_SIDED|95.0|-1.5|46.1|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 8 has been presented.|||46.1|-1.5|
92215137|NCT04721821|184330239|SUPERIORITY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.1|0.03||||||Month 12 follow-up visit analysis||0.03|-0.10|
92215138|NCT04721821|184330240|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.05|0.04||||||Month 6 follow-up visit analysis||0.04|-0.05|
92215139|NCT04721821|184330240|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.06|0.06||||||Month 12 follow-up visit analysis||0.06|-0.06|
92215140|NCT04721821|184330241|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-2.65|2.45||||||Month 6 follow-up visit analysis||2.45|-2.65|
92215141|NCT04721821|184330241|SUPERIORITY||Mean Difference (Final Values)|0.26|||||TWO_SIDED|95.0|-2.59|3.11||||||Month 12 follow-up visit analysis||3.11|-2.59|
92398245|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.29||||0.666|TWO_SIDED|95.0|0.41|4.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.09|0.41|0.6660
92398246|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7923|TWO_SIDED|95.0|0.37|3.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.62|0.37|0.7923
92398247|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.73||||0.3796|TWO_SIDED|95.0|0.51|5.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.90|0.51|0.3796
92398248|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|4.2||||0.0874|TWO_SIDED|95.0|0.81|21.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||21.73|0.81|0.0874
92398249|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.6||||0.1925|TWO_SIDED|95.0|0.62|10.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.96|0.62|0.1925
92398250|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.99||||0.0651|TWO_SIDED|95.0|0.92|17.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||17.38|0.92|0.0651
92398251|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.46||||0.5361|TWO_SIDED|95.0|0.44|4.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.81|0.44|0.5361
92215142|NCT04721821|184330242|SUPERIORITY||Mean Difference (Final Values)|0.83|||||TWO_SIDED|95.0|-2.71|4.38||||||Month 6 follow-up visit analysis||4.38|-2.71|
92337079|NCT01000974|184576757|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to tetanus (Anti-T).|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.26|1.8|||Non-inferiority analysis|||Non-inferiority Anti-T antibody concentrations||1.8|-1.26|
92337080|NCT01000974|184576759|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to pertussis toxoid \[PT\].|GMC ratio|1.017|||||TWO_SIDED|97.5|0.918|1.127|||Non-inferiority analysis|||Non-inferiority GMC ratio anti-PT||1.127|0.918|
92337081|NCT01000974|184576759|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to filamentous hemagglutinin \[FHA\].|GMC ratio|1.088|||||TWO_SIDED|97.5|0.983|1.204|||Non-inferiority analysis|||Non-inferiority GMC ratio anti-FHA||1.204|0.983|
92337082|NCT01000974|184576759|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to pertactin \[PRN\]|GMC ratio|1.193|||||TWO_SIDED|97.5|1.03|1.382|||Non-inferiority analysis|||Non-inferiority GMC ratio anti-PRN||1.382|1.03|
92337083|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs|GMC ratio|1.006|||||TWO_SIDED|97.5|0.873|1.159|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 1 concentrations||1.159|0.873|
92337084|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.048|||||TWO_SIDED|97.5|0.921|1.192|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 3 concentrations||1.192|0.921|
92337085|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.001|||||TWO_SIDED|97.5|0.886|1.13|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 4 concentrations||1.13|0.886|
92337086|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.02|||||TWO_SIDED|97.5|0.874|1.19|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 5 concentrations||1.19|0.874|
92337087|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs|GMC ratio|1.031|||||TWO_SIDED|97.5|0.894|1.188|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 6A concentrations||1.188|0.894|
92337088|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs|GMC ratio|1.072|||||TWO_SIDED|97.5|0.871|1.32|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 6B concentrations||1.32|0.871|
92337089|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.098|||||TWO_SIDED|97.5|0.964|1.251|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 7F concentrations||1.251|0.964|
92337090|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.035|||||TWO_SIDED|97.5|0.89|1.204|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 9V concentrations||1.204|0.89|
92337091|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.096|||||TWO_SIDED|97.5|0.929|1.294|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 14 concentrations||1.294|0.929|
92337092|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.042|||||TWO_SIDED|97.5|0.9|1.207|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 18C concentrations||1.207|0.9|
92337093|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.001|||||TWO_SIDED|97.5|0.859|1.167|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 19A concentrations||1.167|0.859|
92215143|NCT04721821|184330242|SUPERIORITY||Mean Difference (Final Values)|-1.09|||||TWO_SIDED|95.0|-5.12|2.95||||||Month 12 follow-up visit analysis||2.95|-5.12|
92215144|NCT04721821|184330243|SUPERIORITY||Mean Difference (Final Values)|-1.25|||||TWO_SIDED|95.0|-3.94|1.45||||||Month 6 follow-up visit analysis||1.45|-3.94|
92215145|NCT04721821|184330243|SUPERIORITY||Mean Difference (Final Values)|-0.59|||||TWO_SIDED|95.0|-3.61|2.42||||||Month 12 follow-up visit analysis||2.42|-3.61|
92215146|NCT04721821|184330244|SUPERIORITY||Mean Difference (Final Values)|-0.67|||||TWO_SIDED|95.0|-4.39|3.05||||||Month 6 follow-up visit analysis||3.05|-4.39|
92215147|NCT04721821|184330244|SUPERIORITY||Mean Difference (Final Values)|-4.84|||||TWO_SIDED|95.0|-9.19|-0.48||||||Month 12 follow-up visit analysis||-0.48|-9.19|
92215148|NCT04721821|184330245|SUPERIORITY||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-3.59|2.82||||||Month 6 follow-up visit analysis||2.82|-3.59|
92215149|NCT04721821|184330245|SUPERIORITY||Mean Difference (Final Values)|0.76|||||TWO_SIDED|95.0|-2.97|4.49||||||Month 12 follow-up visit analysis||4.49|-2.97|
92215150|NCT04721821|184330246|SUPERIORITY||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.73|1.34||||||Month 6 follow-up visit analysis||1.34|0.73|
92398252|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.33||||0.6258|TWO_SIDED|95.0|0.42|4.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.17|0.42|0.6258
92398253|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.32||||0.6275|TWO_SIDED|95.0|0.43|4.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.06|0.43|0.6275
92398254|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.21||||0.2212|TWO_SIDED|95.0|0.62|7.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||7.90|0.62|0.2212
92398255|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|11.13||||0.028|TWO_SIDED|95.0|1.3|95.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||95.49|1.30|0.0280
92215151|NCT04721821|184330246|SUPERIORITY||Odds Ratio (OR)|0.94|||||TWO_SIDED|95.0|0.66|1.34||||||Month 12 follow-up visit analysis||1.34|0.66|
92215152|NCT04721821|184330247|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.62|1.73||||||Month 6 follow-up visit analysis||1.73|0.62|
92153666|NCT02564055|184192914|OTHER||Difference in percentages|19.0|||||TWO_SIDED|95.0|-6.0|42.3|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 12 has been presented.|||42.3|-6.0|
92153667|NCT02564055|184192914|OTHER||Difference in percentages|-0.2|||||TWO_SIDED|95.0|-25.0|25.0|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 12 has been presented.|||25.0|-25.0|
92153668|NCT02564055|184192914|OTHER||Difference in percentages|32.6|||||TWO_SIDED|95.0|6.9|55.0|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 12 has been presented.|||55.0|6.9|
92215153|NCT04721821|184330247|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.5|1.6||||||Month 12 follow-up visit analysis||1.60|0.50|
92215154|NCT04721821|184330248|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.64|1.19||||||Month 6 follow-up visit analysis||1.19|0.64|
92215155|NCT04721821|184330248|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.6|1.26||||||Month 12 follow-up visit analysis||1.26|0.60|
92215156|NCT04721821|184330249|SUPERIORITY||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.55|1.46||||||Month 6 follow-up visit analysis||1.46|0.55|
92215157|NCT04721821|184330249|SUPERIORITY||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.47|1.51||||||Month 12 follow-up visit analysis||1.51|0.47|
92215158|NCT04721821|184330250|SUPERIORITY||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.6|1.38||||||Month 6 follow-up visit analysis||1.38|0.60|
92215159|NCT04721821|184330250|SUPERIORITY||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.56|1.5||||||Month 12 follow-up visit analysis||1.50|0.56|
92215160|NCT04721821|184330251|SUPERIORITY||Mean Difference (Final Values)|1.71|||||TWO_SIDED|95.0|-0.69|4.11||||||Month 6 follow-up visit analysis||4.11|-0.69|
92215161|NCT04721821|184330251|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-2.79|2.77||||||Month 12 follow-up visit analysis||2.77|-2.79|
92215162|NCT04721821|184330252|SUPERIORITY||Mean Difference (Final Values)|-1.71|||||TWO_SIDED|95.0|-5.02|1.6||||||Month 6 follow-up visit analysis||1.60|-5.02|
92215163|NCT04721821|184330252|SUPERIORITY||Mean Difference (Final Values)|1.06|||||TWO_SIDED|95.0|-2.85|4.96||||||Month 12 follow-up visit analysis||4.96|-2.85|
92215164|NCT04721821|184330253|SUPERIORITY||Mean Difference (Final Values)|-1.15|||||TWO_SIDED|95.0|-3.75|1.45||||||Month 6 follow-up visit analysis||1.45|-3.75|
92215165|NCT04721821|184330253|SUPERIORITY||Median Difference (Final Values)|-0.53|||||TWO_SIDED|95.0|-3.54|2.47||||||Month 12 follow-up visit analysis||2.47|-3.54|
92215166|NCT04721821|184330254|SUPERIORITY||Mean Difference (Final Values)|1.19|||||TWO_SIDED|95.0|-2.36|4.73||||||Month 6 follow-up visit analysis||4.73|-2.36|
92215167|NCT04721821|184330254|SUPERIORITY||Mean Difference (Final Values)|-3.15|||||TWO_SIDED|95.0|-7.36|1.07||||||Month 12 follow-up visit analysis||1.07|-7.36|
92215168|NCT04721821|184330255|SUPERIORITY||Mean Difference (Final Values)|2.37|||||TWO_SIDED|95.0|-0.66|5.41||||||Month 6 follow-up visit analysis||5.41|-0.66|
92215169|NCT04721821|184330255|SUPERIORITY||Mean Difference (Final Values)|1.01|||||TWO_SIDED|95.0|-2.69|4.71||||||Month 12 follow-up visit analysis||4.71|-2.69|
92398256|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|4.88||||0.0589|TWO_SIDED|95.0|0.94|25.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||25.32|0.94|0.0589
92398257|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.63||||0.0799|TWO_SIDED|95.0|0.86|15.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||15.39|0.86|0.0799
92398258|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.91||||0.1112|TWO_SIDED|95.0|0.78|10.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||10.87|0.78|0.1112
92153669|NCT02564055|184192914|OTHER||Difference in percentages|-9.7|||||TWO_SIDED|95.0|-34.6|16.1|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 12 has been presented.|||16.1|-34.6|
92153670|NCT02564055|184192914|OTHER||Difference in percentages|22.3|||||TWO_SIDED|95.0|-3.1|45.3|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 14 has been presented.|||45.3|-3.1|
92153671|NCT02564055|184192914|OTHER||Difference in percentages|6.3|||||TWO_SIDED|95.0|-19.5|31.5|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 14 has been presented.|||31.5|-19.5|
92153672|NCT02564055|184192914|OTHER||Difference in percentages|17.7|||||TWO_SIDED|95.0|-8.4|41.9|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 14 has been presented.|||41.9|-8.4|
92153673|NCT02564055|184192914|OTHER||Difference in percentages|7.8|||||TWO_SIDED|95.0|-17.8|33.1|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 14 has been presented.|||33.1|-17.8|
92153674|NCT02564055|184192914|OTHER||Difference in percentages|9.8|||||TWO_SIDED|95.0|-15.5|33.9|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 16 has been presented.|||33.9|-15.5|
92153675|NCT02564055|184192914|OTHER||Difference in percentages|5.8|||||TWO_SIDED|95.0|-19.7|30.5|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 16 has been presented.|||30.5|-19.7|
92153676|NCT02564055|184192914|OTHER||Difference in percentages|17.2|||||TWO_SIDED|95.0|-9.0|41.4|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 16 has been presented.|||41.4|-9.0|
92153677|NCT02564055|184192914|OTHER||Difference in percentages|-0.6|||||TWO_SIDED|95.0|-26.0|25.0|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 16 has been presented.|||25.0|-26.0|
92153678|NCT02564055|184192914|OTHER||Difference in percentages|33.3|||||TWO_SIDED|95.0|-31.9|90.6|||||Difference between GSK2894512 1 % BID and Vehicle BID at EW has been presented.|||90.6|-31.9|
92153679|NCT02564055|184192914|OTHER||Difference in percentages|-9.1|||||TWO_SIDED|95.0|-62.4|47.8|||||Difference between GSK2894512 1 % QD and Vehicle QD at EW has been presented.|||47.8|-62.4|
92215170|NCT04721821|184330256|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.16|0.4||||||Month 6 follow-up visit analysis||0.40|-0.16|
92215171|NCT04721821|184330256|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.21|0.45||||||Month 12 follow-up visit analysis||0.45|-0.21|
92337094|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|0.969|||||TWO_SIDED|97.5|0.855|1.098|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 19F concentrations||1.098|0.855|
92153680|NCT02564055|184192914|OTHER||Difference in percentages|28.6|||||TWO_SIDED|95.0|-19.2|71.0|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at EW has been presented.|||71.0|-19.2|
92153681|NCT02564055|184192914|OTHER||Difference in percentages|24.2|||||TWO_SIDED|95.0|-40.3|80.9|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at EW has been presented.|||80.9|-40.3|
92153682|NCT02564055|184192915|OTHER||Difference in percentages|5.3|||||TWO_SIDED|95.0|-18.3|28.4|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 1 has been presented.|||28.4|-18.3|
92337095|NCT01000974|184576760|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.031|||||TWO_SIDED|97.5|0.862|1.232|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 23F concentrations||1.232|0.862|
92215172|NCT04721821|184330257|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.4|0.43||||||Month 6 follow-up visit analysis||0.43|-0.40|
92215173|NCT04721821|184330257|SUPERIORITY||Mean Difference (Final Values)|-0.23|||||TWO_SIDED|95.0|-0.74|0.29||||||Month 12 follow-up visit analysis||0.29|-0.74|
92337096|NCT01000974|184576761|OTHER|To rule out 10% decrease in seroresponse to FHA in subjects receiving DTPa-HBV-IPV coadministered with Test Hib,13Pn \& HRV vaccines compared to subjects receiving DTPa-HBV-IPV co-administered with Control Hib, 13Pn \&HRV vaccines,following 3 primary vaccine doses where seroresponse wasdefined as percentage of subjects showing aconcentration above a threshold that led to 95% seroresponse in control|||||<|0.0001|||||||t-test, 1 sided|P-value is computed by integrating on the p-values of one-sided test with alpha=0.025 \& the posterior probability of the cut-off in the control group||Difference in seroresponse Anti-FHA||||<0.0001
92337097|NCT01000974|184576761|OTHER|To rule out 10% decrease in seroresponse to PT in subjects receiving DTPa-HBV-IPV coadministered with Test Hib,13Pn \& HRV vaccines compared to subjects receiving DTPa-HBV-IPV co-administered with Control Hib, 13Pn \&HRV vaccines,following 3 primary vaccine doses where seroresponse wasdefined as percentage of subjects showing aconcentration above a threshold that led to 95% seroresponse in control|||||<|0.0001||||||P-value is computed by integrating on the p-values of one-sided test with alpha=0.025 and the posterior probability of the cut-off in the control group|t-test, 1 sided|||Difference in seroresponse Anti-PT||||<0.0001
92337098|NCT01000974|184576761|OTHER|To rule out 10% decrease in seroresponse to PRN in subjects receiving DTPa-HBV-IPV coadministered with Test Hib,13Pn \& HRV vaccines compared to subjects receiving DTPa-HBV-IPV co-administered with Control Hib, 13Pn \&HRV vaccines,following 3 primary vaccine doses where seroresponse wasdefined as percentage of subjects showing aconcentration above a threshold that led to 95% seroresponse in control|||||<|0.0001||||||P-value is computed by integrating on the p-values of one-sided test with alpha=0.025 and the posterior probability of the cut-off in the control group|t-test, 1 sided|||Difference in seroresponse Anti-PRN||||<0.0001
92337099|NCT01000974|184576762|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to poliovirus 1.|Difference in percentage|-0.67|||||TWO_SIDED|97.5|-2.24|0.87|||Non-inferiority analysis|||Non-inferiority Anti-Polio 1 concentrations||0.87|-2.24|
92153683|NCT02564055|184192915|OTHER||Difference in percentages|5.9|||||TWO_SIDED|95.0|-17.1|28.4|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 1 has been presented.|||28.4|-17.1|
92153684|NCT02564055|184192915|OTHER||Difference in percentages|-0.8|||||TWO_SIDED|95.0|-24.0|22.7|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 1 has been presented.|||22.7|-24.0|
92153685|NCT02564055|184192915|OTHER||Difference in percentages|11.4|||||TWO_SIDED|95.0|-12.0|33.9|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 2 has been presented.|||33.9|-12.0|
92153686|NCT02564055|184192915|OTHER||Difference in percentages|30.2|||||TWO_SIDED|95.0|6.8|51.0|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 2 has been presented.|||51.0|6.8|
92153687|NCT02564055|184192915|OTHER||Difference in percentages|3.7|||||TWO_SIDED|95.0|-19.4|26.6|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 2 has been presented.|||26.6|-19.4|
92153688|NCT02564055|184192915|OTHER||Difference in percentages|17.4|||||TWO_SIDED|95.0|-6.0|39.5|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 2 has been presented.|||39.5|-6.0|
92153689|NCT02564055|184192915|OTHER||Difference in percentages|16.8|||||TWO_SIDED|95.0|-7.1|39.4|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 4 has been presented.|||39.4|-7.1|
92153690|NCT02564055|184192915|OTHER||Difference in percentages|41.9|||||TWO_SIDED|95.0|19.2|61.2|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 4 has been presented.|||61.2|19.2|
92153691|NCT02564055|184192915|OTHER||Difference in percentages|8.9|||||TWO_SIDED|95.0|-14.9|32.0|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 4 has been presented.|||32.0|-14.9|
92215174|NCT04721821|184330258|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.51|0.1||||||Month 6 follow-up visit analysis||0.10|-0.51|
92153692|NCT02564055|184192915|OTHER||Difference in percentages|16.3|||||TWO_SIDED|95.0|-7.3|38.3|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 4 has been presented.|||38.3|-7.3|
92153693|NCT02564055|184192915|OTHER||Difference in percentages|13.4|||||TWO_SIDED|95.0|-11.3|36.5|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 8 has been presented.|||36.5|-11.3|
92153694|NCT02564055|184192915|OTHER||Difference in percentages|30.8|||||TWO_SIDED|95.0|6.1|52.8|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 8 has been presented.|||52.8|6.1|
92153695|NCT02564055|184192915|OTHER||Difference in percentages|21.9|||||TWO_SIDED|95.0|-3.0|44.9|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 8 has been presented.|||44.9|-3.0|
92153696|NCT02564055|184192915|OTHER||Difference in percentages|10.9|||||TWO_SIDED|95.0|-13.5|34.7|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 8 has been presented.|||34.7|-13.5|
92153697|NCT02564055|184192915|OTHER||Difference in percentages|27.4|||||TWO_SIDED|95.0|2.5|49.9|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 12 has been presented.|||49.9|2.5|
92153698|NCT02564055|184192915|OTHER||Difference in percentages|16.8|||||TWO_SIDED|95.0|-9.0|40.7|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 12 has been presented.|||40.7|-9.0|
92153699|NCT02564055|184192915|OTHER||Difference in percentages|29.5|||||TWO_SIDED|95.0|3.7|52.3|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 12 has been presented.|||52.3|3.7|
92153700|NCT02564055|184192915|OTHER||Difference in percentages|5.7|||||TWO_SIDED|95.0|-20.1|30.9|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 12 has been presented.|||30.9|-20.1|
92153701|NCT02564055|184192915|OTHER||Difference in percentages|9.3|||||TWO_SIDED|95.0|-16.2|33.8|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 14 has been presented.|||33.8|-16.2|
92153702|NCT02564055|184192915|OTHER||Difference in percentages|12.6|||||TWO_SIDED|95.0|-13.4|37.3|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 14 has been presented.|||37.3|-13.4|
92153703|NCT02564055|184192915|OTHER||Difference in percentages|27.0|||||TWO_SIDED|95.0|0.7|50.5|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 14 has been presented.|||50.5|0.7|
92153704|NCT02564055|184192915|OTHER||Difference in percentages|0.4|||||TWO_SIDED|95.0|-25.6|25.6|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 14 has been presented.|||25.6|-25.6|
92153705|NCT02564055|184192915|OTHER||Difference in percentages|2.6|||||TWO_SIDED|95.0|-22.6|27.6|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 16 has been presented.|||27.6|-22.6|
92153706|NCT02564055|184192915|OTHER||Difference in percentages|6.9|||||TWO_SIDED|95.0|-18.7|31.7|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 16 has been presented.|||31.7|-18.7|
92153707|NCT02564055|184192915|OTHER||Difference in percentages|16.8|||||TWO_SIDED|95.0|-9.5|41.4|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 16 has been presented.|||41.4|-9.5|
92153708|NCT02564055|184192915|OTHER||Difference in percentages|10.9|||||TWO_SIDED|95.0|-14.9|35.8|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 16 has been presented.|||35.8|-14.9|
92153709|NCT02564055|184192915|OTHER||Difference in percentages|33.3|||||TWO_SIDED|95.0|-31.9|90.6|||||Difference between GSK2894512 1 % BID and Vehicle BID at EW has been presented.|||90.6|-31.9|
92153710|NCT02564055|184192915|OTHER||Difference in percentages|-9.1|||||TWO_SIDED|95.0|-62.4|47.8|||||Difference between GSK2894512 1 % QD and Vehicle QD at EW has been presented.|||47.8|-62.4|
92153711|NCT02564055|184192915|OTHER||Difference in percentages|14.3|||||TWO_SIDED|95.0|-32.2|57.9|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at EW has been presented.|||57.9|-32.2|
92153712|NCT02564055|184192915|OTHER||Difference in percentages|24.2|||||TWO_SIDED|95.0|-40.3|80.9|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at EW has been presented.|||80.9|-40.3|
92153713|NCT02564055|184192922|OTHER||Difference in percentages|-7.7|||||TWO_SIDED|95.0|-45.8|32.5|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 1 has been presented.|||32.5|-45.8|
92153714|NCT02564055|184192922|OTHER||Difference in percentages|15.4|||||TWO_SIDED|95.0|-25.7|52.6|||||Difference between GSK2894512 1 % QD and vehicle QD at Week 1 has been presented.|||52.6|-25.7|
92153715|NCT02564055|184192922|OTHER||Difference in percentages|-7.7|||||TWO_SIDED|95.0|-46.0|32.6|||||Difference between GSK2894512 0.5 % BID and vehicle BID at Week 1 has been presented.|||32.6|-46.0|
92153716|NCT02564055|184192922|OTHER||Difference in percentages|9.1|||||TWO_SIDED|95.0|-32.2|48.8|||||Difference between GSK2894512 0.5 % QD and vehicle QD at Week 1 has been presented.|||48.8|-32.2|
92215175|NCT04721821|184330258|SUPERIORITY||Mean Difference (Final Values)|-0.05|||||TWO_SIDED|95.0|-0.42|0.31||||||Month 12 follow-up visit analysis||0.31|-0.42|
92337100|NCT01000974|184576762|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to poliovirus 2.|Difference in percentage|0.45|||||TWO_SIDED|97.5|-1.45|2.91|||Non-inferiority analysis|||Non-inferiority Anti-Polio 2 concentration||2.91|-1.45|
92153717|NCT02564055|184192922|OTHER||Difference in percentages|-24.2|||||TWO_SIDED|95.0|-60.8|14.8|||||Difference between GSK2894512 1 % BID and vehicle BID at Week 2 has been presented.|||14.8|-60.8|
92153718|NCT02564055|184192922|OTHER||Difference in percentages|28.5|||||TWO_SIDED|95.0|-13.7|63.0|||||Difference between GSK2894512 1 % QD and vehicle QD at Week 2 has been presented.|||63.0|-13.7|
92153719|NCT02564055|184192922|OTHER||Difference in percentages|-33.3|||||TWO_SIDED|95.0|-67.4|6.1|||||Difference between GSK2894512 0.5 % BID and vehicle BID at Week 2 has been presented.|||6.1|-67.4|
92153720|NCT02564055|184192922|OTHER||Difference in percentages|-0.9|||||TWO_SIDED|95.0|-40.7|40.7|||||Difference between GSK2894512 0.5 % QD and vehicle QD at Week 2 has been presented.|||40.7|-40.7|
92153721|NCT02564055|184192922|OTHER||Difference in percentages|-15.2|||||TWO_SIDED|95.0|-53.8|23.5|||||Difference between GSK2894512 1 % BID and vehicle BID at Week 4 has been presented.|||23.5|-53.8|
92153722|NCT02564055|184192922|OTHER||Difference in percentages|43.4|||||TWO_SIDED|95.0|2.7|74.6|||||Difference between GSK2894512 1 % QD and vehicle QD at Week 4 has been presented.|||74.6|2.7|
92153723|NCT02564055|184192922|OTHER||Difference in percentages|-15.2|||||TWO_SIDED|95.0|-53.8|23.5|||||Difference between GSK2894512 0.5 % BID and vehicle BID at Week 4 has been presented.|||23.5|-53.8|
92153724|NCT02564055|184192922|OTHER||Difference in percentages|9.1|||||TWO_SIDED|95.0|-35.6|51.2|||||Difference between GSK2894512 0.5 % QD and vehicle QD at Week 4 has been presented.|||51.2|-35.6|
92153725|NCT02564055|184192922|OTHER||Difference in percentages|18.3|||||TWO_SIDED|95.0|-25.1|57.1|||||Difference between GSK2894512 1 % BID and vehicle BID at Week 8 has been presented.|||57.1|-25.1|
92153726|NCT02564055|184192922|OTHER||Difference in percentages|47.7|||||TWO_SIDED|95.0|4.8|78.7|||||Difference between GSK2894512 1 % QD and vehicle QD at Week 8 has been presented.|||78.7|4.8|
92337101|NCT01000974|184576762|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to poliovirus 3.|Difference in percentage|-0.66|||||TWO_SIDED|97.5|-2.2|0.88|||Non-inferiority analysis|||Non-inferiority Anti-Polio 3 concentration||0.88|-2.2|
92337102|NCT03365934|184576790|SUPERIORITY|||||||0.071225|||||||t-test, 2 sided|||||||0.071225
92337103|NCT03365934|184576790|SUPERIORITY|||||||0.092027|||||||t-test, 2 sided|||||||0.092027
92337104|NCT03365934|184576790|SUPERIORITY|||||||0.601716|||||||t-test, 2 sided|||||||0.601716
92153727|NCT02564055|184192922|OTHER||Difference in percentages|-11.7|||||TWO_SIDED|95.0|-51.3|30.2|||||Difference between GSK2894512 0.5 % BID and vehicle BID at Week 8 has been presented.|||30.2|-51.3|
92153728|NCT02564055|184192922|OTHER||Difference in percentages|9.1|||||TWO_SIDED|95.0|-35.6|51.2|||||Difference between GSK2894512 0.5 % QD and vehicle QD at Week 8 has been presented.|||51.2|-35.6|
92153729|NCT02564055|184192922|OTHER||Difference in percentages|6.4|||||TWO_SIDED|95.0|-35.4|48.5|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 12 has been presented.|||48.5|-35.4|
92153730|NCT02564055|184192922|OTHER||Difference in percentages|6.0|||||TWO_SIDED|95.0|-35.8|47.1|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 12 has been presented.|||47.1|-35.8|
92153731|NCT02564055|184192922|OTHER||Difference in percentages|-13.6|||||TWO_SIDED|95.0|-54.0|31.2|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 12 has been presented.|||31.2|-54.0|
92153732|NCT02564055|184192922|OTHER||Difference in percentages|-25.6|||||TWO_SIDED|95.0|-65.3|22.4|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 12 has been presented.|||22.4|-65.3|
92153733|NCT02564055|184192922|OTHER||Difference in percentages|-1.0|||||TWO_SIDED|95.0|-44.5|42.7|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 14 has been presented.|||42.7|-44.5|
92153734|NCT02564055|184192922|OTHER||Difference in percentages|5.6|||||TWO_SIDED|95.0|-37.8|47.3|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 14 has been presented.|||47.3|-37.8|
92153735|NCT02564055|184192922|OTHER||Difference in percentages|-5.5|||||TWO_SIDED|95.0|-47.9|37.6|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 14 has been presented.|||37.6|-47.9|
92153736|NCT02564055|184192922|OTHER||Difference in percentages|-4.4|||||TWO_SIDED|95.0|-48.3|41.5|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 14 has been presented.|||41.5|-48.3|
92153737|NCT02564055|184192922|OTHER||Difference in percentages|-1.0|||||TWO_SIDED|95.0|-44.5|42.7|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 16 has been presented.|||42.7|-44.5|
92153738|NCT02564055|184192922|OTHER||Difference in percentages|8.3|||||TWO_SIDED|95.0|-35.0|49.2|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 16 has been presented.|||49.2|-35.0|
92153739|NCT02564055|184192922|OTHER||Difference in percentages|-3.3|||||TWO_SIDED|95.0|-46.0|42.3|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 16 has been presented.|||42.3|-46.0|
92153740|NCT04542226|184192946|OTHER||||||<|1e-07||||||the a priori threshold for statistical significance p\<0.05|Wilcoxon (Mann-Whitney)|Wilcoxon signed-rank test for repeated measures was used to compare with baseline.||||||<0.0000001
92153741|NCT00919893|184192957|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||t-test, 2 sided|||"Null hypothesis: Cernilton compared to placebo induces a better or the same outcome of symptomatic improvement in the pain domain of symptomatic Pelvic Pain Syndrome verified by the National Institutes of Health-Chronic Prostatitis Symptom Index (NIH-CPSI).~Power calculation: A power of 1-beta=0.8 was calculated."||||<0.05
92153742|NCT01580098|184192964|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.025
92153743|NCT01580098|184192965|SUPERIORITY_OR_OTHER|||||||0.182|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Blood pressure: diastolic||||0.182
92153744|NCT00345384|184192972|SUPERIORITY_OR_OTHER||Precentage Difference|41.0||||0.03|TWO_SIDED|95.0|||||t-test, 2 sided||The percentage in opioid use by the dexmedetomidine group in comparison to the placebo for the period of time on study drug is calculated as follows: numerator = 29, denominator = 49.|||||0.03
92337105|NCT03365934|184576790|SUPERIORITY|||||||0.639911|||||||t-test, 2 sided|||||||0.639911
92337106|NCT03365934|184576790|SUPERIORITY|||||||0.842476|||||||t-test, 2 sided|||||||0.842476
92215176|NCT04721821|184330259|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.34|0.32||||||Month 6 follow-up visit analysis||0.32|-0.34|
92215177|NCT04721821|184330259|SUPERIORITY||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.69|0.31||||||Month 12 follow-up visit analysis||0.31|-0.69|
92215178|NCT04721821|184330260|SUPERIORITY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.37|0.32||||||Month 6 follow-up visit analysis||0.32|-0.37|
92215179|NCT04721821|184330260|SUPERIORITY||Mean Difference (Final Values)|0.15|||||TWO_SIDED|95.0|-0.3|0.59||||||Month 12 follow-up visit analysis||0.59|-0.30|
92215180|NCT03836807|184330261|SUPERIORITY|||||||0.02|||||||ANOVA|||||||0.020
92215181|NCT03836807|184330262|SUPERIORITY|||||||0.026|||||||ANOVA|||||||0.026
92215182|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-0.3||||0.914|TWO_SIDED|95.0|-5.5|5.0|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at Baseline (at 0')||5.0|-5.5|0.914
92215183|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|1.3||||0.685|TWO_SIDED|95.0|-4.9|7.4|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 5'||7.4|-4.9|0.685
92215184|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-0.3||||0.93|TWO_SIDED|95.0|-7.4|6.8|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 10'||6.8|-7.4|0.930
92337107|NCT03365934|184576790|SUPERIORITY|||||||0.999941|||||||t-test, 2 sided|||||||0.999941
92337108|NCT03365934|184576790|SUPERIORITY|||||||0.883479|||||||t-test, 2 sided|||||||0.883479
92215185|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-2.1||||0.615|TWO_SIDED|95.0|-10.3|6.1|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 15'||6.1|-10.3|0.615
92215186|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-8.5||||0.051|TWO_SIDED|95.0|-17.0|0.0|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 30'||0|-17.0|0.051
92215187|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-8.4||||0.043|TWO_SIDED|95.0|-16.6|-0.3|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 45'||-0.3|-16.6|0.043
92215188|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-9.0||||0.023|TWO_SIDED|95.0|-16.7|-1.3|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 1h||-1.3|-16.7|0.023
92398259|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0959|TWO_SIDED|95.0|0.84|9.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.11|0.84|0.0959
92215189|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-10.5||||0.009|TWO_SIDED|95.0|-18.2|-2.7|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 1.5h||-2.7|-18.2|0.009
92215190|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-9.3||||0.018|TWO_SIDED|95.0|-17.0|-1.7|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 2h||-1.7|-17.0|0.018
92215191|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-5.5||||0.182|TWO_SIDED|95.0|-13.6|2.6|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 3h||2.6|-13.6|0.182
92337109|NCT03365934|184576790|SUPERIORITY|||||||0.782208|||||||t-test, 2 sided|||||||0.782208
92337110|NCT03365934|184576790|SUPERIORITY|||||||0.607134|||||||t-test, 2 sided|||||||0.607134
92337111|NCT03365934|184576790|SUPERIORITY|||||||0.939549|||||||t-test, 2 sided|||||||0.939549
92215192|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-4.8||||0.236|TWO_SIDED|95.0|-12.9|3.2|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 4h||3.2|-12.9|0.236
92215193|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-3.6||||0.32|TWO_SIDED|95.0|-10.6|3.5|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 5h||3.5|-10.6|0.320
92215194|NCT03836807|184330263|SUPERIORITY||adjusted least square mean|-2.2||||0.572|TWO_SIDED|95.0|-10.0|5.6|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 6h||5.6|-10.0|0.572
92215195|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|2.7||||0.361|TWO_SIDED|95.0|-3.1|8.4|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 5'||8.4|-3.1|0.361
92215196|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|4.2||||0.298|TWO_SIDED|95.0|-3.8|12.3|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 10'||12.3|-3.8|0.298
92337112|NCT03365934|184576790|SUPERIORITY|||||||0.86475|||||||t-test, 2 sided|||||||0.86475
92337113|NCT03365934|184576790|SUPERIORITY|||||||0.704759|||||||t-test, 2 sided|||||||0.704759
92337114|NCT03365934|184576790|SUPERIORITY|||||||0.999989|||||||t-test, 2 sided|||||||0.999989
92337115|NCT03365934|184576790|SUPERIORITY|||||||0.997568|||||||t-test, 2 sided|||||||0.997568
92337116|NCT03365934|184576790|SUPERIORITY|||||||0.999518|||||||t-test, 2 sided|||||||0.999518
92337117|NCT03365934|184576791|SUPERIORITY|||||||0.985332|||||||t-test, 2 sided|||||||0.985332
92337118|NCT03365934|184576791|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
92337119|NCT03365934|184576791|SUPERIORITY|||||||0.870459|||||||t-test, 2 sided|||||||0.870459
92337120|NCT03365934|184576791|SUPERIORITY|||||||0.004963|||||||t-test, 2 sided|||||||0.004963
92337121|NCT03365934|184576791|SUPERIORITY|||||||0.071935|||||||t-test, 2 sided|||||||0.071935
92274577|NCT05478603|184451646|OTHER||Ratio of adjusted geometric means|106.68|||||TWO_SIDED|90.0|73.89|154.03|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||154.03|73.89|
92274578|NCT05478603|184451646|OTHER||Ratio of adjusted geometric means|246.28|||||TWO_SIDED|90.0|170.57|355.58|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||355.58|170.57|
92337122|NCT03365934|184576791|SUPERIORITY|||||||0.988995|||||||t-test, 2 sided|||||||0.988995
92337123|NCT03365934|184576791|SUPERIORITY|||||||0.545378|||||||t-test, 2 sided|||||||0.545378
92337124|NCT03365934|184576791|SUPERIORITY|||||||0.000649|||||||t-test, 2 sided|||||||0.000649
92398260|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.62||||0.3886|TWO_SIDED|95.0|0.54|4.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.85|0.54|0.3886
92398261|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.0||||0.0864|TWO_SIDED|95.0|0.85|10.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.52|0.85|0.0864
92398262|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|14.22||||0.0145|TWO_SIDED|95.0|1.69|119.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||119.5|1.69|0.0145
92153745|NCT00345384|184192972|SUPERIORITY_OR_OTHER||Percentage difference|35.0||||0.04|TWO_SIDED|95.0|||||t-test, 2 sided||A measure of opioid use, weighted for total time on study drug. This is examined by a comparison of the dexmedetomidine group to the placebo group: numerator = 35, denominator = 54.|||||0.04
92153746|NCT00345384|184192973|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||The p-value reported in this table corresponds with the 6 to 16 hour time frame.||||0.02
92153747|NCT00365378|184192974|SUPERIORITY_OR_OTHER||Vaccine Efficacy|94.3||||||95.0|87.8|97.7|||||"Vaccine Efficacy (% relative risk reduction)~Confidence Interval based on binomial tail probabilities and not from a dispersion parameter."|||97.7|87.8|
92153748|NCT00365378|184192975|SUPERIORITY_OR_OTHER||Vaccine Efficacy|100.0||||||95.0|84.0|100.0|||||"Vaccine Efficacy (% relative risk reduction)~Confidence Interval based on binomial tail probabilities and not from a dispersion parameter."|||100.0|84.0|
92153749|NCT00708305|184193032|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0||||0.9762||95.0|-0.21|0.2||No adjustment was made for multiple comparisons as the primary comparison was predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis is no difference between treatments in comparison. Tests were 2-sided at 5% significance levels.||0.20|-0.21|0.9762
92153750|NCT00708305|184193033|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|0.49|||<|0.0001|TWO_SIDED|95.0|0.28|0.7||No adjustment was made for multiple comparisons as the comparisons were predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis is no difference between treatments being compared. Tests were 2 sided at 5% significance levels.||0.70|0.28|<0.0001
92153751|NCT00708305|184193033|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.44|||<|0.0001||95.0|1.23|1.65||No adjustment was made for multiple comparisons because the comparisons were predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||1.65|1.23|<0.0001
92153752|NCT00708305|184193033|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.49|||<|0.0001||95.0|0.28|0.7||No adjustment was made for multiple comparisons because the comparisons were predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||0.70|0.28|<0.0001
92153753|NCT00708305|184193033|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.44|||<|0.0001|TWO_SIDED|95.0|1.23|1.65||No adjustment was made for multiple comparisons because the comparison was predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||1.65|1.23|<0.0001
92337125|NCT03365934|184576791|SUPERIORITY|||||||0.0146|||||||t-test, 2 sided|||||||0.014600
92337126|NCT03365934|184576791|SUPERIORITY|||||||0.854566|||||||t-test, 2 sided|||||||0.854566
92337127|NCT03365934|184576791|SUPERIORITY|||||||0.004322|||||||t-test, 2 sided|||||||0.004322
92337128|NCT03365934|184576791|SUPERIORITY|||||||0.0651|||||||t-test, 2 sided|||||||0.0651
92337129|NCT03365934|184576791|SUPERIORITY|||||||0.300536|||||||t-test, 2 sided|||||||0.300536
92337130|NCT03365934|184576791|SUPERIORITY|||||||0.753883|||||||t-test, 2 sided|||||||0.753883
92153754|NCT00708305|184193033|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.95|||<|0.0001|TWO_SIDED|95.0|0.74|1.16||No adjustment was made for multiple comparisons as the comparisons were predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||1.16|0.74|<0.0001
92153755|NCT00708305|184193034|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.83||||0.0151|TWO_SIDED|95.0|0.12|1.72||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||1.72|0.12|0.0151
92153756|NCT00708305|184193034|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.36|||<|0.0001|TWO_SIDED|95.0|0.69|2.36||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||2.36|0.69|<0.0001
92153757|NCT00708305|184193034|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.01|||<|0.0001|TWO_SIDED|95.0|2.06|4.05||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis is no difference between treatments. Tests were 2-sided.||4.05|2.06|<0.0001
92153758|NCT00708305|184193034|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.75|||<|0.0001|TWO_SIDED|95.0|0.41|1.27||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||1.27|0.41|<0.0001
92153759|NCT00708305|184193034|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.1|||<|0.0001|TWO_SIDED|95.0|1.5|2.74||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||2.74|1.50|<0.0001
92153760|NCT00708305|184193034|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.01|||<|0.0001|TWO_SIDED|95.0|0.73|1.35||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||1.35|0.73|<0.0001
92337131|NCT03365934|184576791|SUPERIORITY|||||||0.97621|||||||t-test, 2 sided|||||||0.97621
92153761|NCT00708305|184193035|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.08||||0.5545|TWO_SIDED|95.0|-0.22|0.47||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.47|-0.22|0.5545
92153762|NCT00708305|184193035|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.4||||0.0003|TWO_SIDED|95.0|0.15|0.71||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.71|0.15|0.0003
92215197|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|8.9||||0.112|TWO_SIDED|95.0|-2.1|19.8|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 15'||19.8|-2.1|0.112
92215198|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|22.3||||0.003|TWO_SIDED|95.0|7.8|36.8|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 30'||36.8|7.8|0.003
92215199|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|21.2||||0.008|TWO_SIDED|95.0|5.6|36.7|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 45'||36.7|5.6|0.008
92215200|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|18.7||||0.018|TWO_SIDED|95.0|3.3|34.0|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 1h||34.0|3.3|0.018
92215201|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|22.3||||0.003|TWO_SIDED|95.0|7.7|37.0|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 1.5h||37.0|7.7|0.003
92215202|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|22.0||||0.003|TWO_SIDED|95.0|8.0|36.1|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 2h||36.1|8.0|0.003
92215203|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|16.7||||0.015|TWO_SIDED|95.0|3.4|30.0|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 3h||30.0|3.4|0.015
92215204|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|10.8||||0.103|TWO_SIDED|95.0|-2.2|23.9|||ANOVA|||at 4h||23.9|-2.2|0.103
92215205|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|5.9||||0.311|TWO_SIDED|95.0|-5.6|17.5|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 5'||17.5|-5.6|0.311
92337132|NCT03365934|184576792|SUPERIORITY|||||||0.027774|||||||t-test, 2 sided|||||||0.027774
92337133|NCT03365934|184576792|SUPERIORITY|||||||0.08431|||||||t-test, 2 sided|||||||0.08431
92215206|NCT03836807|184330264|SUPERIORITY||adjusted least square mean|2.8||||0.638|TWO_SIDED|95.0|-9.0|14.5|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 6h||14.5|-9.0|0.638
92215207|NCT03836807|184330265|SUPERIORITY|||||||0.007|||||||ANOVA|||in the ITT population||||0.007
92215208|NCT03836807|184330265|SUPERIORITY|||||||0.009|||||||ANOVA|||in the PP population||||0.009
92215209|NCT03836807|184330266|SUPERIORITY|||||||0.004|||||||Log Rank|||||||0.004
92215210|NCT03836807|184330267|SUPERIORITY|||||||0.002|||||||Log Rank|||||||0.002
92215211|NCT03836807|184330268|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.480
92215212|NCT03531788|184330277|OTHER|||||||||||||||||Activity counts from the ActiGraph GT9x activity monitor provide data per participant during testing of upper extremity activities/tasks and were collected while wearing the device (Kinova and WREX) and without the device (Kinova and WREX). For each upper extremity task, we summed all activity count data for all tasks completed. We then computed means and standard deviations. Data presented are within group data change and not between group data comparisons.|Due to the small sample size, we utilized change in activity count data when comparing two upper limb testing sessions: one without the use of an arm support device (Kinova or WREX) and one while using the arm support device. For each upper extremity task, we summed all activity count data for all tasks completed. We then computed means and standard deviations. Data presented are within group data change and not between group data comparisons.|||
92215213|NCT03531788|184330278|OTHER|||||||||||||||||Activity counts from the ActiGraph GT9x activity monitor were collected during baseline (without a device) and throughout the 4 week device trial (with the device). For each time period, activity count data were averaged across the day. We then compared the baseline time period to the device trial period to understand the difference in movement and upper extremity positioning during the device trial. Data presented are within group change scores and not between group data comparisons.|Counts from each axis (x, y, z) were measured across baseline and during the 4-week trial to explore arm movement and positioning during the use of an upper extremity arm device. Counts (within each participant) were summed. A change score from trial minus baseline was calculated for each axis. We provide an average change score and standard deviation across participants with Kinova and participants with WREX.|||
92337134|NCT03365934|184576792|SUPERIORITY|||||||0.049247|||||||t-test, 2 sided|||||||0.049247
92215214|NCT03531788|184330279|OTHER|||||||||||||||||Three goals were identified for each participant and scored without using an arm support device to serve as a baseline measure of abilities. These scores were compared to the scores achieved on the same goals using the arm support device.|We compared the change in GAS scores when using an arm support device on three goal areas identified as important for each participant. For each goal, we measured abilities at baseline and with the device (Kinova and WREX). We calculated the change in score for each goal and averaged these change scores across all participants. While our groups are too small to complete statistical tests to estimate the significance of the differences participants noted in activity and independence while using both arm supports, our results quantify the amount of increased success participants noted with the use of the arm support device.|||
92215215|NCT02019420|184330280|NON_INFERIORITY|Difference in ITT all-cause mortality (linezolid - tedizolid). Noninferiority is declared when the lower bound of the 95% CI \> -10.|Difference in all-cause mortality|-1.8|||||TWO_SIDED|95.0|-8.2|4.7|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||4.7|-8.2|
92215216|NCT02019420|184330281|OTHER|Difference in mITT all-cause mortality (linezolid - tedizolid)|Difference in all-cause mortality|-1.6|||||TWO_SIDED|95.0|-10.3|7.1|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||7.1|-10.3|
92215217|NCT02019420|184330282|OTHER|Difference in ITT clinical success (tedizolid - linezolid)|Difference in clinical success|-7.6|||||TWO_SIDED|95.0|-14.7|-0.5|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||-0.5|-14.7|
92337135|NCT03365934|184576792|SUPERIORITY|||||||0.000126|||||||t-test, 2 sided|||||||0.000126
92215218|NCT02019420|184330283|OTHER|Difference in CE clinical success (tedizolid - linezolid)|Difference in clinical success|-6.5|||||TWO_SIDED|95.0|-15.1|2.1|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||2.1|-15.1|
92337136|NCT03365934|184576792|SUPERIORITY|||||||0.010829|||||||t-test, 2 sided|||||||0.010829
92337137|NCT03365934|184576792|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337138|NCT03365934|184576792|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337139|NCT03365934|184576792|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92215219|NCT02019420|184330284|OTHER|Difference in MSSA mITT all-cause mortality (linezolid - tedizolid)|Difference in all-cause mortality|-1.5|||||TWO_SIDED|95.0|-12.5|9.5|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||9.5|-12.5|
92215220|NCT02019420|184330285|OTHER|Difference in MRSA mITT all-cause mortality (linezolid - tedizolid)|Difference in all-cause mortality|3.1|||||TWO_SIDED|95.0|-12.8|18.9|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||18.9|-12.8|
92215221|NCT02019420|184330286|OTHER|Difference in mITT favorable response (tedizolid - linezolid)|Difference in clinical success|-13.1|||||TWO_SIDED|95.0|-21.7|-4.5|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||-4.5|-21.7|
92215222|NCT02019420|184330287|OTHER|Difference in ME-1 favorable response (tedizolid - linezolid)|Difference in clinical success|-13.1|||||TWO_SIDED|95.0|-21.7|-4.5|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||-4.5|-21.7|
92337140|NCT03365934|184576792|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337141|NCT03365934|184576792|SUPERIORITY|||||||0.999533|||||||t-test, 2 sided|||||||0.999533
92337142|NCT03365934|184576792|SUPERIORITY|||||||0.4205363|||||||t-test, 2 sided|||||||0.4205363
92337143|NCT03365934|184576792|SUPERIORITY|||||||0.9802252|||||||t-test, 2 sided|||||||0.9802252
92337144|NCT03365934|184576792|SUPERIORITY|||||||0.6845362|||||||t-test, 2 sided|||||||0.6845362
92337145|NCT03365934|184576792|SUPERIORITY|||||||0.9992002|||||||t-test, 2 sided|||||||0.9992002
92337146|NCT03365934|184576792|SUPERIORITY|||||||0.8562779|||||||t-test, 2 sided|||||||0.8562779
92337147|NCT03365934|184576793|SUPERIORITY|||||||0.0403539|||||||t-test, 2 sided|||||||0.0403539
92337148|NCT03365934|184576793|SUPERIORITY|||||||0.2953049|||||||t-test, 2 sided|||||||0.2953049
92153763|NCT00708305|184193035|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.91|||<|0.0001|TWO_SIDED|95.0|0.58|1.56||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||1.56|0.58|<0.0001
92153764|NCT00708305|184193035|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.36|||<|0.0001|TWO_SIDED|95.0|0.15|0.68||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signal Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.68|0.15|<0.0001
92153765|NCT00708305|184193035|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.91|||<|0.0001|TWO_SIDED|95.0|0.58|1.35||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||1.35|0.58|<0.0001
92153766|NCT00708305|184193035|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.37|||<|0.0001|TWO_SIDED|95.0|0.26|0.56||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.56|0.26|<0.0001
92153767|NCT00708305|184193036|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.02||||0.6865|TWO_SIDED|95.0|-0.13|0.08||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.08|-0.13|0.6865
92153768|NCT00708305|184193036|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.04||||0.1756|TWO_SIDED|95.0|-0.02|0.12||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.12|-0.02|0.1756
92153769|NCT00708305|184193036|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.24|||<|0.0001|TWO_SIDED|95.0|0.16|0.38||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.38|0.16|<0.0001
92153770|NCT00708305|184193036|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.11||||0.0023|TWO_SIDED|95.0|0.04|0.22||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.22|0.04|0.0023
92153771|NCT00708305|184193036|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.34|||<|0.0001|TWO_SIDED|95.0|0.22|0.51||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.51|0.22|<0.0001
92215223|NCT02019420|184330288|OTHER|Difference in mITT favorable response (tedizolid - linezolid)|Difference in clinical success|-12.5|||||TWO_SIDED|95.0|-21.5|-3.5|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||-3.5|-21.5|
92337149|NCT03365934|184576793|SUPERIORITY|||||||0.290551|||||||t-test, 2 sided|||||||0.290551
92337150|NCT03365934|184576793|SUPERIORITY|||||||2.47e-05|||||||t-test, 2 sided|||||||0.0000247
92337151|NCT03365934|184576793|SUPERIORITY|||||||0.0133001|||||||t-test, 2 sided|||||||0.0133001
92153772|NCT00708305|184193036|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.18|||<|0.0001|TWO_SIDED|95.0|0.12|0.25||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.25|0.12|<0.0001
92153773|NCT00708305|184193037|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.04||||0.0783|TWO_SIDED|95.0|-0.08|0.0||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.00|-0.08|0.0783
92153774|NCT00708305|184193037|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.03||||0.0531|TWO_SIDED|95.0|0.0|0.07||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.07|0.00|0.0531
92215224|NCT02019420|184330289|OTHER|Difference in ME-2 favorable response (tedizolid - linezolid)|Difference in clinical success|-13.7|||||TWO_SIDED|95.0|-26.2|-1.2|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||-1.2|-26.2|
92337152|NCT03365934|184576793|SUPERIORITY|||||||1.67e-05|||||||t-test, 2 sided|||||||0.0000167
92337153|NCT03365934|184576793|SUPERIORITY|||||||2.12e-05|||||||t-test, 2 sided|||||||0.0000212
92337154|NCT03365934|184576793|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337155|NCT03365934|184576793|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92153775|NCT00708305|184193037|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.1|||<|0.0001|TWO_SIDED|95.0|0.07|0.14||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.14|0.07|<0.0001
92153776|NCT00708305|184193037|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.08||||0.0005|TWO_SIDED|95.0|0.03|0.15||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.15|0.03|0.0005
92153777|NCT00708305|184193037|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.12|||<|0.0001|TWO_SIDED|95.0|0.08|0.2||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.20|0.08|<0.0001
92153778|NCT00708305|184193037|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.07|||<|0.0001|TWO_SIDED|95.0|0.04|0.1||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.10|0.04|<0.0001
92153779|NCT00708305|184193038|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.01||||0.4309|TWO_SIDED|95.0|-0.03|0.01||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.01|-0.03|0.4309
92337156|NCT03365934|184576793|SUPERIORITY|||||||0.99999995|||||||t-test, 2 sided|||||||0.99999995
92337157|NCT03365934|184576793|SUPERIORITY|||||||0.0792013|||||||t-test, 2 sided|||||||0.0792013
92337158|NCT03365934|184576793|SUPERIORITY|||||||0.870163|||||||t-test, 2 sided|||||||0.870163
92337159|NCT03365934|184576793|SUPERIORITY|||||||0.103828|||||||t-test, 2 sided|||||||0.103828
92337160|NCT03365934|184576793|SUPERIORITY|||||||0.900265|||||||t-test, 2 sided|||||||0.900265
92215225|NCT02469896|184330292|SUPERIORITY||Risk Ratio (RR)|0.875||||0.602|TWO_SIDED|95.0|0.556|1.377|||Fisher Exact|||||1.377|0.556|0.602
92215226|NCT02469896|184330293|SUPERIORITY||||||||||||||||||No statistical data was obtain because no patients died during the trial.|||
92215227|NCT02469896|184330294|SUPERIORITY||Slope|0.099||||0.922|TWO_SIDED|95.0|-1.902|2.099||Unadjusted|Mixed Models Analysis|||||2.099|-1.902|0.922
92215228|NCT02469896|184330295|SUPERIORITY||Difference of slopes|-0.008||||0.983|TWO_SIDED|95.0|-0.761|0.745|||Mixed Models Analysis|||||0.745|-0.761|0.983
92215229|NCT02469896|184330297|SUPERIORITY||Ratio of geometric means|1.15||||0.684|TWO_SIDED|95.0|0.566|2.337|||t-test, 2 sided|||PBMC IL-6 fold-change||2.337|0.566|0.684
92215230|NCT02469896|184330297|SUPERIORITY||Ratio of geometric means|1.344||||0.663|TWO_SIDED|95.0|0.331|2.08|||t-test, 2 sided|||||2.080|0.331|0.663
92215231|NCT02469896|184330297|SUPERIORITY||Ratio of geometric means|1.198||||0.5|TWO_SIDED|95.0|0.691|2.08|||t-test, 2 sided|||||2.080|0.691|0.500
92215232|NCT02469896|184330298|SUPERIORITY||Ratio of fold change|0.047|||<|0.001|TWO_SIDED|95.0|0.01|0.217|||Mixed Models Analysis|||||0.217|0.010|<0.001
92215233|NCT02469896|184330298|SUPERIORITY||Ratio of fold change|1.306||||0.247|TWO_SIDED|95.0|0.828|2.059|||Mixed Models Analysis|||||2.059|0.828|0.247
92215234|NCT02469896|184330298|SUPERIORITY||Ratio of fold change|19.591|||<|0.001|TWO_SIDED|95.0|11.143|34.446|||Mixed Models Analysis|||||34.446|11.143|<0.001
92215235|NCT02469896|184330298|SUPERIORITY||Ratio of fold change|1.264||||0.185|TWO_SIDED|95.0|0.892|1.791|||Mixed Models Analysis|||||1.791|0.892|0.185
92215236|NCT02469896|184330298|SUPERIORITY||Ratio of fold change|1.396||||0.427|TWO_SIDED|95.0|0.608|3.206|||Mixed Models Analysis|||||3.206|0.608|0.427
92215237|NCT02469896|184330298|SUPERIORITY||Ratio of fold change|0.893||||0.285|TWO_SIDED|95.0|0.725|1.1|||Mixed Models Analysis|||||1.100|0.725|0.285
92215238|NCT02469896|184330299|SUPERIORITY||Ratio of fold change|0.167||||0.011|TWO_SIDED|95.0|0.043|0.643|||Mixed Models Analysis|||||0.643|0.043|0.011
92215239|NCT02469896|184330299|SUPERIORITY||Ratio of fold change|0.741||||0.604|TWO_SIDED|95.0|0.228|2.405|||Mixed Models Analysis|||||2.405|0.228|0.604
92215240|NCT02469896|184330299|SUPERIORITY||Ratio of fold change|2.94|||<|0.001|TWO_SIDED|95.0|1.823|4.74|||Mixed Models Analysis|||||4.740|1.823|<0.001
92215241|NCT02469896|184330299|SUPERIORITY||Ratio of fold change|1.078||||0.587|TWO_SIDED|95.0|0.813|1.431|||Mixed Models Analysis|||||1.431|0.813|0.587
92215242|NCT02469896|184330299|SUPERIORITY||Ratio of fold change|1.078||||0.697|TWO_SIDED|95.0|0.728|1.595|||Mixed Models Analysis|||||1.595|0.728|0.697
92215243|NCT02469896|184330300|SUPERIORITY||Ratio of fold change|1.785|||<|0.001|TWO_SIDED|95.0|1.502|2.121|||Mixed Models Analysis|||||2.121|1.502|<0.001
92215244|NCT02510560|184330302|SUPERIORITY|||||||0.115|||||||Stratified Van Elteren Test|||||||0.115
92215245|NCT02510560|184330302|SUPERIORITY|||||||0.243|||||||Stratified Van Elteren Test|||||||0.243
92215246|NCT02510560|184330303|SUPERIORITY|||||||0.714|||||||Stratified Van Elteren Test|||||||0.714
92215247|NCT02510560|184330303|SUPERIORITY|||||||0.243|||||||Stratified Van Elteren Test|||||||0.243
92215248|NCT01294150|184330305|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||Assuming unequal variances comparing mean improvement in the UL group to 125% of the mean improvement in the Control group. A p-value of 0.025 or less associated with UL is considered evidence of statistical significance|t-test, 2 sided|||||||0.003
92227279|NCT01989221|184356776|OTHER||Mean Difference (Final Values)|1.01|STANDARD_DEVIATION|0.27|<|0.01|TWO_SIDED|95.0||||Threshold for statistical significance was p \< 0.05|t-test, 2 sided||Mean nausea and vomiting symptom scores during one week at baseline were compared to mean symptom scores during the second week of Sancuso treatment.|||||<0.01
92153780|NCT00708305|184193038|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.02||||0.0726|TWO_SIDED|95.0|0.0|0.04||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.04|0.00|0.0726
92153781|NCT00708305|184193038|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.04|||<|0.0001|TWO_SIDED|95.0|0.03|0.06||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.06|0.03|<0.0001
92153782|NCT00708305|184193038|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.03||||0.0107|TWO_SIDED|95.0|0.01|0.06||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.06|0.01|0.0107
92153783|NCT00708305|184193038|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.05|||<|0.0001|TWO_SIDED|95.0|0.03|0.07|||Wilcoxon Signed Rank Test|No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.07|0.03|<0.0001
92153784|NCT00708305|184193038|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.03||||0.0012|TWO_SIDED|95.0|0.01|0.04||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.04|0.01|0.0012
92153785|NCT04711460|184193039|SUPERIORITY|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Mean Difference (Final Values)|0.003|STANDARD_DEVIATION|5.59||0.003|TWO_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|t-test, 2 sided|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||||0.003
92153786|NCT04711460|184193039|SUPERIORITY|The threshold for statistical significance was set at p=0.05. No power analysis was conducted.|Mean Difference (Final Values)|0.009|STANDARD_DEVIATION|5.59||0.009|ONE_SIDED|95.0||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|ANOVA|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|||||0.009
92274579|NCT05478603|184451647|OTHER||Ratio of adjusted geometric means|88.5|||||TWO_SIDED|90.0|64.13|122.12|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||122.12|64.13|
92274580|NCT05478603|184451647|OTHER||Ratio of adjusted geometric means|106.4|||||TWO_SIDED|90.0|77.11|146.83|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||146.83|77.11|
92274581|NCT05478603|184451647|OTHER||Ratio of adjusted geometric means|169.19|||||TWO_SIDED|90.0|122.61|233.47|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||233.47|122.61|
92274582|NCT05478603|184451648|OTHER||Ratio of adjusted geometric means|95.12|||||TWO_SIDED|90.0|52.6|172.03|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||172.03|52.60|
92274583|NCT05478603|184451648|OTHER||Ratio of adjusted geometric means|166.77|||||TWO_SIDED|90.0|92.21|301.62|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||301.62|92.21|
92153787|NCT04711460|184193039|SUPERIORITY|The Tukey Kramer Post Hoc Test q value = 0.05 threshold|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.609|<|0.05|TWO_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Tukey Kramer Post-Hoc|Threshold of statistically significance was set at p=0.05.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|||||<0.05
92153788|NCT04711460|184193039|SUPERIORITY|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|5.13||0.003|TWO_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|t-test, 2 sided|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||0.003
92337161|NCT03365934|184576793|SUPERIORITY|||||||0.570015|||||||t-test, 2 sided|||||||0.570015
92337162|NCT03365934|184576794|SUPERIORITY|||||||0.882449|||||||t-test, 2 sided|||||||0.882449
92337163|NCT03365934|184576794|SUPERIORITY|||||||0.088558|||||||t-test, 2 sided|||||||0.088558
92337164|NCT03365934|184576794|SUPERIORITY|||||||0.081846|||||||t-test, 2 sided|||||||0.081846
92337165|NCT03365934|184576794|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337166|NCT03365934|184576794|SUPERIORITY|||||||3.03e-05|||||||t-test, 2 sided|||||||0.0000303
92337167|NCT03365934|184576794|SUPERIORITY|||||||0.001817|||||||t-test, 2 sided|||||||0.001817
92337168|NCT03365934|184576794|SUPERIORITY|||||||0.001825|||||||t-test, 2 sided|||||||0.001825
92153789|NCT04711460|184193039|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|5.07||0.454|ONE_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|ANOVA|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||0.454
92215249|NCT03684642|184330317|NON_INFERIORITY|Non-inferiority of Efpeglenatide vs. Dulaglutide was demonstrated if the upper bound of the two-sided 95% confidence interval (CI) for the difference between groups was \<=0.3%.|Least Square (LS) Mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.2|0.14||||||A hierarchical step-down testing procedure was used to control type 1 error. Analysis was performed using ANCOVA model with the treatment groups, randomization strata, and geographical region as fixed classification effects, and baseline HbA1c value as a continuous covariate.||0.14|-0.20|
92215250|NCT03684642|184330317|NON_INFERIORITY|Non-inferiority of Efpeglenatide vs. Dulaglutide was demonstrated if the upper bound of the two-sided 95% CI for the difference between groups was \<=0.3%.|LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.25|0.09||||||A hierarchical step-down testing procedure was used to control type 1 error. Analysis was performed using ANCOVA model with the treatment groups, randomization strata, and geographical region as fixed classification effects, and baseline HbA1c value as a continuous covariate.||0.09|-0.25|
92215251|NCT03684642|184330317|SUPERIORITY|||||||0.7064||||||Threshold for significance at the level of 0.05.|ANCOVA|||||||0.7064
92215252|NCT03684642|184330317|SUPERIORITY|||||||0.3427||||||Threshold for significance at the level of 0.05.|ANCOVA|||||||0.3427
92215253|NCT04252287|184330346|SUPERIORITY||LS mean difference|4.3||||0.016|TWO_SIDED|95.0|0.8|7.8|||ANCOVA|||||7.8|0.8|0.016
92337169|NCT03365934|184576794|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337170|NCT03365934|184576794|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337171|NCT03365934|184576794|SUPERIORITY|||||||0.999999|||||||t-test, 2 sided|||||||0.999999
92398263|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|13.08||||0.018|TWO_SIDED|95.0|1.56|110.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||110.0|1.56|0.0180
92215254|NCT04252287|184330347|SUPERIORITY||LS mean difference|29.8||||0.852|TWO_SIDED|95.0|-284.4|344.1|||ANCOVA|||||344.1|-284.4|0.852
92215255|NCT02564926|184330360|OTHER||LS mean difference (kg)|-2.6|||<|0.001|TWO_SIDED|95.0|-3.346|-1.819|||ANCOVA|||||-1.819|-3.346|<0.001
92215256|NCT02564926|184330361|OTHER||LS mean difference (%)|-0.46||||0.014|TWO_SIDED|95.0|-0.821|-0.094|||Mixed Models Analysis|||||-0.094|-0.821|0.014
92215257|NCT02564926|184330362|OTHER||Odds Ratio (OR)|1.45||||0.343|TWO_SIDED|95.0|0.673|3.113|||Regression, Logistic|||||3.113|0.673|0.343
92337172|NCT03365934|184576794|SUPERIORITY|||||||0.038836|||||||t-test, 2 sided|||||||0.038836
92337173|NCT03365934|184576794|SUPERIORITY|||||||0.184508|||||||t-test, 2 sided|||||||0.184508
92337174|NCT03365934|184576794|SUPERIORITY|||||||0.062829|||||||t-test, 2 sided|||||||0.062829
92337175|NCT03365934|184576794|SUPERIORITY|||||||0.253458|||||||t-test, 2 sided|||||||0.253458
92337176|NCT03365934|184576794|SUPERIORITY|||||||0.987798|||||||t-test, 2 sided|||||||0.987798
92337177|NCT03365934|184576795|SUPERIORITY|||||||0.516068|||||||t-test, 2 sided|||||||0.516068
92337178|NCT03365934|184576795|SUPERIORITY|||||||0.358412|||||||t-test, 2 sided|||||||0.358412
92337179|NCT03365934|184576795|SUPERIORITY|||||||0.834145|||||||t-test, 2 sided|||||||0.834145
92337180|NCT03365934|184576795|SUPERIORITY|||||||3.5e-05|||||||t-test, 2 sided|||||||0.000035
92337181|NCT03365934|184576795|SUPERIORITY|||||||0.000843|||||||t-test, 2 sided|||||||0.000843
92337182|NCT03365934|184576795|SUPERIORITY|||||||0.002997|||||||t-test, 2 sided|||||||0.002997
92337183|NCT03365934|184576795|SUPERIORITY|||||||0.051717|||||||t-test, 2 sided|||||||0.051717
92337184|NCT03365934|184576795|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337185|NCT03365934|184576795|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337186|NCT03365934|184576795|SUPERIORITY|||||||0.985602|||||||t-test, 2 sided|||||||0.985602
92337187|NCT03365934|184576795|SUPERIORITY|||||||0.046422|||||||t-test, 2 sided|||||||0.046422
92337188|NCT03365934|184576795|SUPERIORITY|||||||0.28061|||||||t-test, 2 sided|||||||0.28061
92337189|NCT03365934|184576795|SUPERIORITY|||||||0.011015|||||||t-test, 2 sided|||||||0.011015
92337190|NCT03365934|184576795|SUPERIORITY|||||||0.089156|||||||t-test, 2 sided|||||||0.089156
92337191|NCT03365934|184576795|SUPERIORITY|||||||0.963882|||||||t-test, 2 sided|||||||0.963882
92337192|NCT03365934|184576796|SUPERIORITY|||||||0.00526|||||||t-test, 2 sided|||||||0.00526
92337193|NCT03365934|184576796|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
92337194|NCT03365934|184576796|SUPERIORITY|||||||0.914409|||||||t-test, 2 sided|||||||0.914409
92337195|NCT03365934|184576796|SUPERIORITY|||||||0.013004|||||||t-test, 2 sided|||||||0.013004
92337196|NCT03365934|184576796|SUPERIORITY|||||||0.028517|||||||t-test, 2 sided|||||||0.028517
92337197|NCT03365934|184576796|SUPERIORITY|||||||0.001356|||||||t-test, 2 sided|||||||0.001356
92337198|NCT03365934|184576796|SUPERIORITY|||||||5.9e-05|||||||t-test, 2 sided|||||||0.000059
92337199|NCT03365934|184576796|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337200|NCT03365934|184576796|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337201|NCT03365934|184576796|SUPERIORITY|||||||0.859272|||||||t-test, 2 sided|||||||0.859272
92215258|NCT02564926|184330363|OTHER||LS mean difference (mg/dL)|-18.25||||0.006|TWO_SIDED|95.0|-31.14|-5.351|||Mixed Models Analysis|||||-5.351|-31.140|0.006
92215259|NCT02564926|184330364|OTHER||LS mean difference (kg)|-3.7|||<|0.001|TWO_SIDED|95.0|-4.667|-2.631|||Mixed Models Analysis|||||-2.631|-4.667|<0.001
92215260|NCT02564926|184330365|OTHER||LS mean difference (cm)|-2.21||||0.006|TWO_SIDED|95.0|-3.785|-0.635|||Mixed Models Analysis|||||-0.635|-3.785|0.006
92215261|NCT02564926|184330366|OTHER||LS mean difference (kg/m2)|-1.37|||<|0.001|TWO_SIDED|95.0|-1.742|-0.99|||Mixed Models Analysis|||||-0.990|-1.742|<0.001
92215262|NCT02564926|184330367|OTHER||LS mean difference (mmHg)|-6.81||||0.002|TWO_SIDED|95.0|-10.969|-2.641|||Mixed Models Analysis|||||-2.641|-10.969|0.002
92215263|NCT02564926|184330368|OTHER||LS mean difference (mmHg)|-2.61||||0.11|TWO_SIDED|95.0|-5.829|0.6|||Mixed Models Analysis|||||0.600|-5.829|0.110
92215264|NCT02564926|184330369|OTHER||LS mean difference (cm2)|-17.55||||0.002|TWO_SIDED|95.0|-28.603|-6.489|||ANCOVA|||||-6.489|-28.603|0.002
92215265|NCT02564926|184330370|OTHER||LS mean difference (cm2)|-18.39|||<|0.001|TWO_SIDED|95.0|-27.561|-9.218|||ANCOVA|||||-9.218|-27.561|<0.001
92215266|NCT02564926|184330371|OTHER||LS mean difference|-0.03||||0.503|TWO_SIDED|95.0|-0.127|0.063|||ANCOVA|||||0.063|-0.127|0.503
92215267|NCT02564926|184330372|OTHER||LS mean difference|-1.3|||<|0.001|TWO_SIDED|95.0|-1.992|-0.54|||ANCOVA|||||-0.540|-1.992|<0.001
92215268|NCT02564926|184330373|OTHER||LS mean difference (ng/mL)|657.71||||0.044|TWO_SIDED|95.0|18.325|1297.101|||ANCOVA|||||1297.101|18.325|0.044
92215269|NCT02564926|184330374|OTHER||LS mean difference (mg/L)|-0.12||||0.756|TWO_SIDED|95.0|-0.858|0.625|||ANCOVA|||||0.625|-0.858|0.756
92215270|NCT02564926|184330375|OTHER||LS mean difference (%)|-1.94|||<|0.001|TWO_SIDED|95.0|-2.807|-1.082|||ANCOVA|||||-1.082|-2.807|<0.001
92215271|NCT01554488|184330378|OTHER||Mean Difference (Net)|-1.03|||||TWO_SIDED|95.0|-5.03|2.92||||||All of the comparisons were based on mixed effects linear regression models with visit and group\*visit as fixed effects and subject as a random effect. Confidence intervals for the treatment difference (group\*visit interaction) were constructed using the Wald method.||2.92|-5.03|
92215272|NCT00447382|184330396|SUPERIORITY_OR_OTHER_LEGACY||Treatment Ratio|1.04||||0.649||95.0|0.86|1.26|||ANOVA|Treatment, previous insulin detemir exposure and country as fixed effects and the baseline value as a covariate. (Log transformed data).|The treatment ratio calculated is the NN729-NN304 ratio for the change from baseline to Week 52. The 95% confidence interval for this ratio was also calculated.|"Null hypothesis:Treatment with detemir produced with the NN729 process result in a similar change in cross reacting antibody levels as the NN304 process. Alternative hypothesis: change in antibody levels differ after treatment with detemir produced by the two manufacturing processes.~The statistical analysis applies to the change from baseline to week 52 which was analysed using ANOVA."||1.26|0.86|0.649
92215273|NCT00447382|184330398|SUPERIORITY_OR_OTHER_LEGACY||Estimated treatment difference|-0.03||||0.758||95.0|-0.21|0.15|||ANOVA|Adjustments: Treatment, previous insulin detemir exposure and country as fixed effects and the baseline value as covariate.|The estimated treatment difference calculated is the NN729-NN304 treatment difference for the change from baseline to Week 52. The 95% confidence interval for this difference was also calculated.|The statistical analysis applies to the change from baseline to week 52 which was analysed using ANOVA.||0.15|-0.21|0.758
92215274|NCT00447382|184330399|SUPERIORITY_OR_OTHER_LEGACY||Estimated treatment difference|-0.1||||0.812||95.0|-0.89|0.7|||ANOVA|Adjustments: Treatment, previous insulin detemir exposure and country as fixed effects and the baseline value as covariate.|The estimated treatment difference calculated is the NN729-NN304 treatment difference for the change from baseline to Week 52. The 95% confidence interval for this difference was also calculated|The statistical analysis applies to the change from baseline to week 52 which was analysed using ANOVA.||0.7|-0.89|0.812
92215275|NCT00447382|184330401|SUPERIORITY_OR_OTHER_LEGACY||Treatment Ratio|0.93||||0.15||95.0|0.84|1.03|||ANOVA|Adjustments:Treatment, previous insulin detemir exposure and country as fixed effects and the baseline value as a covariate. (Log transformed data)|The treatment ratio calculated is the NN729-NN304 ratio for the change from baseline to Week 52. The 95% confidence interval for this ratio was also calculated.|The statistical analysis applies to the change from baseline to week 52 which was analysed using ANOVA. The analysis was based on an assumption of a log-normal distribution for antibody data and was thus built on log-transformed data.||1.03|0.84|0.15
92215276|NCT00447382|184330402|SUPERIORITY_OR_OTHER_LEGACY||Treatment Ratio|1.0||||0.966||95.0|0.87|1.15|||ANOVA|Adjustments: Treatment, previous insulin detemir exposure and country as fixed effects and the baseline value as a covariate. (Log transformed data)|The treatment ratio calculated is the NN729-NN304 ratio for the change from baseline to Week 52. The 95% confidence interval for this ratio was also calculated.|The statistical analysis applies to the change from baseline to week 52 which was analysed using ANOVA. The analysis was based on an assumption of a log-normal distribution for antibody data and was thus built on log-transformed data.||1.15|0.87|0.966
92215277|NCT01681810|184330424|OTHER|Paired t-test comparing insulin stimulated glucose disposal at end of 12 weeks on nitrite drug to baseline (pre-drug) insulin stimulated glucose disposal.||||||0.2068|||||||t-test, 2 sided|||||||0.2068
92215278|NCT01681810|184330425|OTHER|One-way repeated measures ANOVA comparing blood pressure over time on nitrite drug to baseline (pre-drug) blood pressure.||||||0.0074||||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|||||||0.0074
92215279|NCT01681810|184330426|OTHER|One-way repeated measures ANOVA comparing blood pressure over time on nitrite drug to baseline (pre-drug) blood pressure.|||||<|0.0001||||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|||||||<0.0001
92215280|NCT01681810|184330427|OTHER|One-way repeated measures ANOVA comparing blood pressure over time on nitrite drug to baseline (pre-drug) blood pressure.|||||<|0.0001||||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|||||||<0.0001
92215281|NCT01681810|184330428|OTHER|One-way repeated measures ANOVA comparing methemoglobin percent over time on nitrite drug to baseline (pre-drug) methemoglobin percent.||||||0.0127||||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|||||||0.0127
92215282|NCT03627767|184330437|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.286|0.424||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate P value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% CI.||0.424|0.286|< 0.0001
92337202|NCT03365934|184576796|SUPERIORITY|||||||0.002821|||||||t-test, 2 sided|||||||0.002821
92337203|NCT03365934|184576796|SUPERIORITY|||||||0.007492|||||||t-test, 2 sided|||||||0.007492
92337204|NCT03365934|184576796|SUPERIORITY|||||||0.208803|||||||t-test, 2 sided|||||||0.208803
92337205|NCT03365934|184576796|SUPERIORITY|||||||0.341884|||||||t-test, 2 sided|||||||0.341884
92337206|NCT03365934|184576796|SUPERIORITY|||||||0.999531|||||||t-test, 2 sided|||||||0.999531
92337207|NCT03365934|184576797|SUPERIORITY|||||||0.066788|||||||t-test, 2 sided|||||||0.066788
92337208|NCT03365934|184576797|SUPERIORITY|||||||0.942653|||||||t-test, 2 sided|||||||0.942653
92337209|NCT03365934|184576797|SUPERIORITY|||||||0.893545|||||||t-test, 2 sided|||||||0.893545
92337210|NCT03365934|184576797|SUPERIORITY|||||||0.165225|||||||t-test, 2 sided|||||||0.165225
92337211|NCT03365934|184576797|SUPERIORITY|||||||0.140475|||||||t-test, 2 sided|||||||0.140475
92337212|NCT03365934|184576797|SUPERIORITY|||||||0.002026|||||||t-test, 2 sided|||||||0.002026
92337213|NCT03365934|184576797|SUPERIORITY|||||||0.001916|||||||t-test, 2 sided|||||||0.001916
92215283|NCT03627767|184330437|SUPERIORITY||Hazard Ratio (HR)|0.22|||<|0.0001|TWO_SIDED|95.0|0.176|0.27||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate P value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% CI.||0.270|0.176|< 0.0001
92337214|NCT03365934|184576797|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337215|NCT03365934|184576797|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337216|NCT03365934|184576797|SUPERIORITY|||||||0.999957|||||||t-test, 2 sided|||||||0.999957
92337217|NCT03365934|184576797|SUPERIORITY|||||||0.672573|||||||t-test, 2 sided|||||||0.672573
92337218|NCT03365934|184576797|SUPERIORITY|||||||0.630145|||||||t-test, 2 sided|||||||0.630145
92337219|NCT03365934|184576797|SUPERIORITY|||||||0.832757|||||||t-test, 2 sided|||||||0.832757
92337220|NCT03365934|184576797|SUPERIORITY|||||||0.803277|||||||t-test, 1 sided|||||||0.803277
92337221|NCT03365934|184576797|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
92337222|NCT03365934|184576798|SUPERIORITY|||||||0.943522|||||||t-test, 2 sided|||||||0.943522
92337223|NCT03365934|184576798|SUPERIORITY|||||||0.002376|||||||t-test, 2 sided|||||||0.002376
92337224|NCT03365934|184576798|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337225|NCT03365934|184576798|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337226|NCT03365934|184576798|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337227|NCT03365934|184576798|SUPERIORITY|||||||0.061015|||||||t-test, 2 sided|||||||0.061015
92337228|NCT03365934|184576798|SUPERIORITY|||||||0.000211|||||||t-test, 2 sided|||||||0.000211
92337229|NCT03365934|184576798|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337230|NCT03365934|184576798|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337231|NCT03365934|184576798|SUPERIORITY|||||||0.412626|||||||t-test, 2 sided|||||||0.412626
92337232|NCT03365934|184576798|SUPERIORITY|||||||0.104388|||||||t-test, 2 sided|||||||0.104388
92337233|NCT03365934|184576798|SUPERIORITY|||||||0.197791|||||||t-test, 2 sided|||||||0.197791
92337234|NCT03365934|184576798|SUPERIORITY|||||||0.994413|||||||t-test, 2 sided|||||||0.994413
92337235|NCT03365934|184576798|SUPERIORITY|||||||0.999851|||||||t-test, 2 sided|||||||0.999851
92337236|NCT03365934|184576798|SUPERIORITY|||||||0.999621|||||||t-test, 2 sided|||||||0.999621
92337237|NCT03365934|184576799|SUPERIORITY|||||||0.193667|||||||t-test, 2 sided|||||||0.193667
92337238|NCT03365934|184576799|SUPERIORITY|||||||0.526573|||||||t-test, 2 sided|||||||0.526573
92337239|NCT03365934|184576799|SUPERIORITY|||||||0.898749|||||||t-test, 2 sided|||||||0.898749
92337240|NCT03365934|184576799|SUPERIORITY|||||||0.975044|||||||t-test, 2 sided|||||||0.975044
92337241|NCT03365934|184576799|SUPERIORITY|||||||0.760706|||||||t-test, 2 sided|||||||0.760706
92337242|NCT03365934|184576799|SUPERIORITY|||||||0.985237|||||||t-test, 2 sided|||||||0.985237
92337243|NCT03365934|184576799|SUPERIORITY|||||||0.837995|||||||t-test, 2 sided|||||||0.837995
92337244|NCT03365934|184576799|SUPERIORITY|||||||0.592697|||||||t-test, 2 sided|||||||0.592697
92337245|NCT03365934|184576799|SUPERIORITY|||||||0.912495|||||||t-test, 2 sided|||||||0.912495
92337246|NCT03365934|184576799|SUPERIORITY|||||||0.99245|||||||t-test, 2 sided|||||||0.99245
92337247|NCT03365934|184576799|SUPERIORITY|||||||0.925553|||||||t-test, 2 sided|||||||0.925553
92337248|NCT03365934|184576799|SUPERIORITY|||||||0.999171|||||||t-test, 2 sided|||||||0.999171
92337249|NCT03365934|184576799|SUPERIORITY|||||||0.999324|||||||t-test, 2 sided|||||||0.999324
92337250|NCT03365934|184576799|SUPERIORITY|||||||0.999913|||||||t-test, 2 sided|||||||0.999913
92337251|NCT03365934|184576799|SUPERIORITY|||||||0.990516|||||||t-test, 2 sided|||||||0.990516
92337252|NCT03365934|184576800|SUPERIORITY|||||||0.92106|||||||t-test, 2 sided|||||||0.92106
92337253|NCT03365934|184576800|SUPERIORITY|||||||0.976812|||||||t-test, 2 sided|||||||0.976812
92337254|NCT03365934|184576800|SUPERIORITY|||||||0.233992|||||||t-test, 2 sided|||||||0.233992
92337255|NCT03365934|184576800|SUPERIORITY|||||||0.007591|||||||t-test, 2 sided|||||||0.007591
92337256|NCT03365934|184576800|SUPERIORITY|||||||0.038958|||||||t-test, 2 sided|||||||0.038958
92337257|NCT03365934|184576800|SUPERIORITY|||||||0.99809|||||||t-test, 2 sided|||||||0.99809
92337258|NCT03365934|184576800|SUPERIORITY|||||||0.773028|||||||t-test, 2 sided|||||||0.773028
92337259|NCT03365934|184576800|SUPERIORITY|||||||0.135805|||||||t-test, 2 sided|||||||0.135805
92337260|NCT03365934|184576800|SUPERIORITY|||||||0.350556|||||||t-test, 2 sided|||||||0.350556
92337261|NCT03365934|184576800|SUPERIORITY|||||||0.61046|||||||t-test, 2 sided|||||||0.61046
92337262|NCT03365934|184576800|SUPERIORITY|||||||0.062163|||||||t-test, 2 sided|||||||0.062163
92337263|NCT03365934|184576800|SUPERIORITY|||||||0.203418|||||||t-test, 2 sided|||||||0.203418
92337264|NCT03365934|184576800|SUPERIORITY|||||||0.942304|||||||t-test, 2 sided|||||||0.942304
92337265|NCT03365934|184576800|SUPERIORITY|||||||0.995238|||||||t-test, 2 sided|||||||0.995238
92337266|NCT03365934|184576800|SUPERIORITY|||||||0.99858|||||||t-test, 2 sided|||||||0.99858
92337267|NCT03365934|184576801|SUPERIORITY|||||||0.998949|||||||t-test, 2 sided|||||||0.998949
92337268|NCT03365934|184576801|SUPERIORITY|||||||0.111084|||||||t-test, 2 sided|||||||0.111084
92337269|NCT03365934|184576801|SUPERIORITY|||||||0.456846|||||||t-test, 2 sided|||||||0.456846
92398264|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|18.53||||0.008|TWO_SIDED|95.0|2.14|160.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||160.6|2.14|0.0080
92398265|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|5.07||||0.0236|TWO_SIDED|95.0|1.24|20.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||20.65|1.24|0.0236
92398266|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.59||||0.4303|TWO_SIDED|0.4303|0.5|5.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.07|0.50|0.4303
92398267|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.41||||0.5529|TWO_SIDED|95.0|0.45|4.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.39|0.45|0.5529
92153790|NCT04711460|184193040|SUPERIORITY|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|7.194||0.002|TWO_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|t-test, 2 sided|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|||||0.002
92215284|NCT03627767|184330437|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.503|0.78||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate P value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% CI.||0.780|0.503|< 0.0001
92337270|NCT03365934|184576801|SUPERIORITY|||||||0.00062|||||||t-test, 2 sided|||||||0.00062
92337271|NCT03365934|184576801|SUPERIORITY|||||||0.006871|||||||t-test, 2 sided|||||||0.006871
92398268|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.87||||0.3268|TWO_SIDED|95.0|0.53|6.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.55|0.53|0.3268
92398269|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|10.02||||0.0343|TWO_SIDED|95.0|1.19|84.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||84.66|1.19|0.0343
92398270|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|9.45||||0.0391|TWO_SIDED|95.0|1.12|79.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||79.82|1.12|0.0391
92153791|NCT04711460|184193040|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|6.09||0.054|ONE_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|ANOVA|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||0.054
92215285|NCT03627767|184330438|SUPERIORITY||Difference in percentage|0.0|||=|0.9495|TWO_SIDED|95.0|-1.0|1.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||1.1|-1.0|= 0.9495
92215286|NCT03627767|184330438|SUPERIORITY||Difference in percentage|-0.4|||=|0.5717|TWO_SIDED|95.0|-1.6|0.9||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||0.9|-1.6|= 0.5717
92337272|NCT03365934|184576801|SUPERIORITY|||||||0.039407|||||||t-test, 2 sided|||||||0.039407
92337273|NCT03365934|184576801|SUPERIORITY|||||||0.245375|||||||t-test, 2 sided|||||||0.245375
92337274|NCT03365934|184576801|SUPERIORITY|||||||0.000113|||||||t-test, 2 sided|||||||0.000113
92337275|NCT03365934|184576801|SUPERIORITY|||||||0.001612|||||||t-test, 2 sided|||||||0.001612
92337276|NCT03365934|184576801|SUPERIORITY|||||||0.988067|||||||t-test, 2 sided|||||||0.988067
92337277|NCT03365934|184576801|SUPERIORITY|||||||0.599171|||||||t-test, 2 sided|||||||0.599171
92337278|NCT03365934|184576801|SUPERIORITY|||||||0.928722|||||||t-test, 2 sided|||||||0.928722
92337279|NCT03365934|184576801|SUPERIORITY|||||||0.256079|||||||t-test, 2 sided|||||||0.256079
92337280|NCT03365934|184576801|SUPERIORITY|||||||0.626498|||||||t-test, 2 sided|||||||0.626498
92337281|NCT03365934|184576801|SUPERIORITY|||||||0.988693|||||||t-test, 2 sided|||||||0.988693
92337282|NCT03365934|184576802|SUPERIORITY|||||||0.99916|||||||t-test, 2 sided|||||||0.99916
92337283|NCT03365934|184576802|SUPERIORITY|||||||0.016246|||||||t-test, 2 sided|||||||0.016246
92337284|NCT03365934|184576802|SUPERIORITY|||||||0.289112|||||||t-test, 2 sided|||||||0.289112
92337285|NCT03365934|184576802|SUPERIORITY|||||||3.8e-05|||||||t-test, 2 sided|||||||0.000038
92337286|NCT03365934|184576802|SUPERIORITY|||||||0.014558|||||||t-test, 2 sided|||||||0.014558
92337287|NCT03365934|184576802|SUPERIORITY|||||||0.03731|||||||t-test, 2 sided|||||||0.03731
92337288|NCT03365934|184576802|SUPERIORITY|||||||0.465745|||||||t-test, 2 sided|||||||0.465745
92215287|NCT03627767|184330438|SUPERIORITY||Difference in percentage|-0.4|||||TWO_SIDED|95.0|-1.7|0.9||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||0.9|-1.7|
92215288|NCT03627767|184330438|SUPERIORITY||Difference in percentage|40.5|||<|0.0001|TWO_SIDED|95.0|33.1|47.8||P-value was adjusted by disease severity at baseline and randomization strata|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||47.8|33.1|< 0.0001
92215289|NCT03627767|184330438|SUPERIORITY||Difference in percentage|62.6|||<|0.0001|TWO_SIDED|95.0|56.1|69.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||69.2|56.1|< 0.0001
92215290|NCT03627767|184330438|SUPERIORITY||Difference in percentage|22.1|||||TWO_SIDED|95.0|14.3|29.9||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||29.9|14.3|
92215291|NCT03627767|184330438|SUPERIORITY||Difference in percentage|35.1|||<|0.0001|TWO_SIDED|95.0|28.1|42.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||42.0|28.1|< 0.0001
92215292|NCT03627767|184330438|SUPERIORITY||Difference in percentage|51.5|||<|0.0001|TWO_SIDED|95.0|44.6|58.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||58.4|44.6|< 0.0001
92215293|NCT03627767|184330438|SUPERIORITY||Difference in percentage|16.5|||||TWO_SIDED|95.0|8.1|24.8||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||24.8|8.1|
92215294|NCT03627767|184330438|SUPERIORITY||Difference in percentage|32.2|||<|0.0001|TWO_SIDED|95.0|25.2|39.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||39.2|25.2|< 0.0001
92215295|NCT03627767|184330438|SUPERIORITY||Difference in percentage|46.9|||<|0.0001|TWO_SIDED|95.0|39.9|53.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||53.8|39.9|< 0.0001
92215296|NCT03627767|184330438|SUPERIORITY||Difference in percentage|14.2|||||TWO_SIDED|95.0|5.9|22.6||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||22.6|5.9|
92215297|NCT03627767|184330438|SUPERIORITY||Difference in percentage|25.5|||<|0.0001|TWO_SIDED|95.0|18.5|32.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||32.5|18.5|< 0.0001
92337289|NCT03365934|184576802|SUPERIORITY|||||||0.000112|||||||t-test, 2 sided|||||||0.000112
92215298|NCT03627767|184330438|SUPERIORITY||Difference in percentage|42.5|||<|0.0001|TWO_SIDED|95.0|35.3|49.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||49.7|35.3|< 0.0001
92398271|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|13.31||||0.0187|TWO_SIDED|95.0|1.54|115.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||115.1|1.54|0.0187
92215299|NCT03627767|184330438|SUPERIORITY||Difference in percentage|17.1|||||TWO_SIDED|95.0|8.6|25.5||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.5|8.6|
92337290|NCT03365934|184576802|SUPERIORITY|||||||0.034575|||||||t-test, 2 sided|||||||0.034575
92337291|NCT03365934|184576802|SUPERIORITY|||||||0.889597|||||||t-test, 2 sided|||||||0.889597
92337292|NCT03365934|184576802|SUPERIORITY|||||||0.726932|||||||t-test, 2 sided|||||||0.726932
92337293|NCT03365934|184576802|SUPERIORITY|||||||0.999998|||||||t-test, 2 sided|||||||0.999998
92337294|NCT03365934|184576802|SUPERIORITY|||||||0.130235|||||||t-test, 2 sided|||||||0.130235
92337295|NCT03365934|184576802|SUPERIORITY|||||||0.910989|||||||t-test, 2 sided|||||||0.910989
92337296|NCT03365934|184576802|SUPERIORITY|||||||0.616933|||||||t-test, 2 sided|||||||0.616933
92337297|NCT03365934|184576803|SUPERIORITY|||||||0.999952|||||||t-test, 2 sided|||||||0.999952
92337298|NCT03365934|184576803|SUPERIORITY|||||||0.421347|||||||t-test, 2 sided|||||||0.421347
92337299|NCT03365934|184576803|SUPERIORITY|||||||0.598141|||||||t-test, 2 sided|||||||0.598141
92398272|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.6||||0.1475|TWO_SIDED|95.0|0.71|9.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.47|0.71|0.1475
92398273|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.19||||0.2161|TWO_SIDED|95.0|0.63|7.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.55|0.63|0.2161
92153792|NCT04711460|184193040|SUPERIORITY|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|6.93||0.019|TWO_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|t-test, 2 sided|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||0.019
92337300|NCT03365934|184576803|SUPERIORITY|||||||0.000197|||||||t-test, 2 sided|||||||0.000197
92337301|NCT03365934|184576803|SUPERIORITY|||||||0.000115|||||||t-test, 2 sided|||||||0.000115
92337302|NCT03365934|184576803|SUPERIORITY|||||||0.511155|||||||t-test, 2 sided|||||||0.511155
92337303|NCT03365934|184576803|SUPERIORITY|||||||0.693868|||||||t-test, 2 sided|||||||0.693868
92337304|NCT03365934|184576803|SUPERIORITY|||||||0.000232|||||||t-test, 2 sided|||||||0.000232
92337305|NCT03365934|184576803|SUPERIORITY|||||||0.000133|||||||t-test, 2 sided|||||||0.000133
92337306|NCT03365934|184576803|SUPERIORITY|||||||0.999894|||||||t-test, 2 sided|||||||0.999894
92337307|NCT03365934|184576803|SUPERIORITY|||||||0.078046|||||||t-test, 2 sided|||||||0.078046
92153793|NCT04711460|184193040|SUPERIORITY|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|6.04||0.101|ONE_SIDED|95.0||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|ANOVA|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||0.101
92153794|NCT00192023|184193043|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change to Week 8 Endpoint. Change = Endpoint minus baseline. Model: Change to Week 8=score at Week 8+treatment+site+treatment-by-site interaction. If treatment-by-site interaction isn't significant it will be removed from model.|ANCOVA|||Using an estimate of the common standard deviation of 13 points, the planned sample size will give about 80% power to detect a difference between the groups of 8 points on the SNAP-IV. The sample size was determined using a two-sided test with p=0.05, and assumes that up to 10% of patients will discontinue the study without providing post-baseline efficacy data in Study Period III.||||<0.001
92215300|NCT03627767|184330439|SUPERIORITY||Difference in percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||0.0|0.0|
92337308|NCT03365934|184576803|SUPERIORITY|||||||0.054975|||||||t-test, 2 sided|||||||0.054975
92337309|NCT03365934|184576803|SUPERIORITY|||||||0.050132|||||||t-test, 2 sided|||||||0.050132
92337310|NCT03365934|184576803|SUPERIORITY|||||||0.034793|||||||t-test, 2 sided|||||||0.034793
92337311|NCT03365934|184576803|SUPERIORITY|||||||0.999993|||||||t-test, 2 sided|||||||0.999993
92337312|NCT03365934|184576804|SUPERIORITY|||||||0.997406|||||||t-test, 2 sided|||||||0.997406
92337313|NCT03365934|184576804|SUPERIORITY|||||||0.354187|||||||t-test, 2 sided|||||||0.354187
92153795|NCT00192023|184193044|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||<0.001
92337314|NCT03365934|184576804|SUPERIORITY|||||||0.883222|||||||t-test, 2 sided|||||||0.883222
92337315|NCT03365934|184576804|SUPERIORITY|||||||0.000412|||||||t-test, 2 sided|||||||0.000412
92337316|NCT03365934|184576804|SUPERIORITY|||||||0.000332|||||||t-test, 2 sided|||||||0.000332
92337317|NCT03365934|184576804|SUPERIORITY|||||||0.626878|||||||t-test, 2 sided|||||||0.626878
92337318|NCT03365934|184576804|SUPERIORITY|||||||0.984465|||||||t-test, 2 sided|||||||0.984465
92337319|NCT03365934|184576804|SUPERIORITY|||||||0.001845|||||||t-test, 2 sided|||||||0.001845
92337320|NCT03365934|184576804|SUPERIORITY|||||||0.001507|||||||t-test, 2 sided|||||||0.001507
92337321|NCT03365934|184576804|SUPERIORITY|||||||0.970029|||||||t-test, 2 sided|||||||0.970029
92337322|NCT03365934|184576804|SUPERIORITY|||||||0.19886|||||||t-test, 2 sided|||||||0.19886
92337323|NCT03365934|184576804|SUPERIORITY|||||||0.177549|||||||t-test, 2 sided|||||||0.177549
92337324|NCT03365934|184576804|SUPERIORITY|||||||0.041698|||||||t-test, 2 sided|||||||0.041698
92337325|NCT03365934|184576804|SUPERIORITY|||||||0.036131|||||||t-test, 2 sided|||||||0.036131
92337326|NCT03365934|184576804|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
92337327|NCT03365934|184576805|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
92337328|NCT03365934|184576805|SUPERIORITY|||||||0.317315|||||||t-test, 2 sided|||||||0.317315
92337329|NCT03365934|184576805|SUPERIORITY|||||||0.829352|||||||t-test, 2 sided|||||||0.829352
92337330|NCT03365934|184576805|SUPERIORITY|||||||0.010561|||||||t-test, 2 sided|||||||0.010561
92337331|NCT03365934|184576805|SUPERIORITY|||||||0.001099|||||||t-test, 2 sided|||||||0.001099
92337332|NCT03365934|184576805|SUPERIORITY|||||||0.175148|||||||t-test, 2 sided|||||||0.175148
92337333|NCT03365934|184576805|SUPERIORITY|||||||0.728796|||||||t-test, 2 sided|||||||0.728796
92337334|NCT03365934|184576805|SUPERIORITY|||||||0.001992|||||||t-test, 2 sided|||||||0.001992
92337335|NCT03365934|184576805|SUPERIORITY|||||||0.000113|||||||t-test, 2 sided|||||||0.000113
92337336|NCT03365934|184576805|SUPERIORITY|||||||0.974567|||||||t-test, 2 sided|||||||0.974567
92215301|NCT03627767|184330439|SUPERIORITY||Difference in percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions. P-value was adjusted by disease severity at baseline and randomization strata.||0.0|0.0|
92337337|NCT03365934|184576805|SUPERIORITY|||||||0.668933|||||||t-test, 2 sided|||||||0.668933
92337338|NCT03365934|184576805|SUPERIORITY|||||||0.239446|||||||t-test, 2 sided|||||||0.239446
92215302|NCT03627767|184330439|SUPERIORITY||Difference in percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||0.0|0.0|
92215303|NCT03627767|184330439|SUPERIORITY||Difference in percentage|42.7|||<|0.0001|TWO_SIDED|95.0|35.3|50.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||50.1|35.3|< 0.0001
92215304|NCT03627767|184330439|SUPERIORITY||Difference in percentage|55.4|||<|0.0001|TWO_SIDED|95.0|49.1|61.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||61.7|49.1|< 0.0001
92215305|NCT03627767|184330439|SUPERIORITY||Difference in percentage|12.9|||||TWO_SIDED|95.0|7.9|17.9||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||17.9|7.9|
92215306|NCT03627767|184330439|SUPERIORITY||Difference in percentage|45.5|||<|0.0001|TWO_SIDED|95.0|37.9|53.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||53.0|37.9|< 0.0001
92215307|NCT03627767|184330439|SUPERIORITY||Difference in percentage|63.0|||<|0.0001|TWO_SIDED|95.0|56.4|69.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||69.5|56.4|< 0.0001
92337339|NCT03365934|184576805|SUPERIORITY|||||||0.283848|||||||t-test, 2 sided|||||||0.283848
92337340|NCT03365934|184576805|SUPERIORITY|||||||0.06829|||||||t-test, 2 sided|||||||0.06829
92215308|NCT03627767|184330439|SUPERIORITY||Difference in percentage|17.7|||||TWO_SIDED|95.0|10.7|24.7||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions||24.7|10.7|
92215309|NCT03627767|184330439|SUPERIORITY||Difference in percentage|41.0|||<|0.0001|TWO_SIDED|95.0|33.6|48.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||48.5|33.6|< 0.0001
92215310|NCT03627767|184330439|SUPERIORITY||Difference in percentage|58.3|||<|0.0001|TWO_SIDED|95.0|51.3|65.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||65.2|51.3|< 0.0001
92215311|NCT03627767|184330439|SUPERIORITY||Difference in percentage|17.5|||||TWO_SIDED|95.0|9.6|25.5||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.5|9.6|
92215312|NCT03627767|184330439|SUPERIORITY||Difference in percentage|35.3|||<|0.0001|TWO_SIDED|95.0|27.8|42.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||42.8|27.8|< 0.0001
92337341|NCT03365934|184576805|SUPERIORITY|||||||0.979516|||||||t-test, 2 sided|||||||0.979516
92337342|NCT03365934|184576806|SUPERIORITY|||||||0.996522|||||||t-test, 2 sided|||||||0.996522
92337343|NCT03365934|184576806|SUPERIORITY|||||||0.875832|||||||t-test, 2 sided|||||||0.875832
92337344|NCT03365934|184576806|SUPERIORITY|||||||0.938|||||||t-test, 2 sided|||||||0.938
92337345|NCT03365934|184576806|SUPERIORITY|||||||0.038527|||||||t-test, 2 sided|||||||0.038527
92337346|NCT03365934|184576806|SUPERIORITY|||||||0.018334|||||||t-test, 2 sided|||||||0.018334
92337347|NCT03365934|184576806|SUPERIORITY|||||||0.512209|||||||t-test, 2 sided|||||||0.512209
92337348|NCT03365934|184576806|SUPERIORITY|||||||0.665529|||||||t-test, 2 sided|||||||0.665529
92337349|NCT03365934|184576806|SUPERIORITY|||||||0.002257|||||||t-test, 2 sided|||||||0.002257
92337350|NCT03365934|184576806|SUPERIORITY|||||||0.000728|||||||t-test, 2 sided|||||||0.000728
92337351|NCT03365934|184576806|SUPERIORITY|||||||0.999993|||||||t-test, 2 sided|||||||0.999993
92337352|NCT03365934|184576806|SUPERIORITY|||||||0.417914|||||||t-test, 2 sided|||||||0.417914
92337353|NCT03365934|184576806|SUPERIORITY|||||||0.277469|||||||t-test, 2 sided|||||||0.277469
92337354|NCT03365934|184576806|SUPERIORITY|||||||0.385419|||||||t-test, 2 sided|||||||0.385419
92337355|NCT03365934|184576806|SUPERIORITY|||||||0.257647|||||||t-test, 2 sided|||||||0.257647
92337356|NCT03365934|184576806|SUPERIORITY|||||||0.999897|||||||t-test, 2 sided|||||||0.999897
92337357|NCT03365934|184576807|SUPERIORITY|||||||0.862516|||||||t-test, 2 sided|||||||0.862516
92215313|NCT03627767|184330439|OTHER||Difference in percentage|55.3|||<|0.0001|TWO_SIDED|95.0|48.3|62.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||62.4|48.3|< 0.0001
92215314|NCT03627767|184330439|SUPERIORITY||Difference in percentage|20.3|||||TWO_SIDED|95.0|12.1|28.5||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||28.5|12.1|
92215315|NCT03627767|184330440|SUPERIORITY||Difference in percentage|0.7|||=|0.1848|TWO_SIDED|95.0|-0.3|1.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||1.7|-0.3|= 0.1848
92215316|NCT03627767|184330440|SUPERIORITY||Difference in percentage|0.3|||=|0.5971|TWO_SIDED|95.0|-0.9|1.6||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||1.6|-0.9|= 0.5971
92215317|NCT03627767|184330440|SUPERIORITY||Difference in percentage|-0.4|||||TWO_SIDED|95.0|-1.1|0.4||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||0.4|-1.1|
92215318|NCT03627767|184330440|SUPERIORITY||Difference in percentage|49.4|||<|0.0001|TWO_SIDED|95.0|42.0|56.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||56.8|42.0|< 0.0001
92215319|NCT03627767|184330440|SUPERIORITY||Difference in percentage|65.5|||<|0.0001|TWO_SIDED|95.0|59.3|71.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||71.7|59.3|< 0.0001
92337358|NCT03365934|184576807|SUPERIORITY|||||||0.00473|||||||t-test, 2 sided|||||||0.00473
92337359|NCT03365934|184576807|SUPERIORITY|||||||0.085238|||||||t-test, 2 sided|||||||0.085238
92153796|NCT00192023|184193045|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.001
92153797|NCT00192023|184193046|SUPERIORITY_OR_OTHER|||||||0.836||95.0||||P-value for Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.836
92153798|NCT00192023|184193047|SUPERIORITY_OR_OTHER|||||||0.87||95.0||||P-value for Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.870
92153799|NCT00192023|184193048|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Oppositional Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.002
92215320|NCT03627767|184330440|SUPERIORITY||Difference in percentage|16.3|||||TWO_SIDED|95.0|10.3|22.3||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||22.3|10.3|
92337360|NCT03365934|184576807|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337361|NCT03365934|184576807|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92337362|NCT03365934|184576807|SUPERIORITY|||||||0.168409|||||||t-test, 2 sided|||||||0.168409
92337363|NCT03365934|184576807|SUPERIORITY|||||||0.652654|||||||t-test, 2 sided|||||||0.652654
92337364|NCT03365934|184576807|SUPERIORITY|||||||0.001436|||||||t-test, 2 sided|||||||0.001436
92337365|NCT03365934|184576807|SUPERIORITY|||||||0.000235|||||||t-test, 2 sided|||||||0.000235
92337366|NCT03365934|184576807|SUPERIORITY|||||||0.974842|||||||t-test, 2 sided|||||||0.974842
92153800|NCT00192023|184193048|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Cognitive Problems Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||<0.001
92153801|NCT00192023|184193048|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for Hyperactivity Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.022
92153802|NCT00192023|184193048|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for ADHD Index Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||<0.001
92153803|NCT00192023|184193049|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-value for Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.071
92153804|NCT00192023|184193050|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Oppositional Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.002
92153805|NCT00192023|184193050|SUPERIORITY_OR_OTHER|||||||0.113||95.0||||P-value for Cognitive Problems Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.113
92153806|NCT00192023|184193050|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value for Hyperactivity Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.051
92153807|NCT00192023|184193050|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||P-value for ADHD Index Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.061
92337367|NCT03365934|184576807|SUPERIORITY|||||||0.557877|||||||t-test, 2 sided|||||||0.557877
92337368|NCT03365934|184576807|SUPERIORITY|||||||0.277244|||||||t-test, 2 sided|||||||0.277244
92337369|NCT03365934|184576807|SUPERIORITY|||||||0.195527|||||||t-test, 2 sided|||||||0.195527
92215321|NCT03627767|184330440|SUPERIORITY||Difference in percentage|42.7|||<|0.0001|TWO_SIDED|95.0|35.2|50.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||50.2|35.2|< 0.0001
92153808|NCT02572817|184193066|SUPERIORITY||Odds Ratio (OR)|1.22||||0.54|TWO_SIDED|95.0|0.65|2.29|||Regression, Logistic|||||2.29|0.65|0.54
92153809|NCT02572817|184193067|SUPERIORITY||Odds Ratio (OR)|0.86||||0.66|TWO_SIDED|95.0|0.45|1.66|||Regression, Logistic|||||1.66|0.45|0.66
92153810|NCT02572817|184193068|SUPERIORITY||Odds Ratio (OR)|0.95||||0.87|TWO_SIDED|95.0|0.5|1.8|||Regression, Logistic|||||1.8|0.5|0.87
92153811|NCT02572817|184193069|SUPERIORITY||Odds Ratio (OR)|1.26||||0.49|TWO_SIDED|95.0|0.65|2.41|||Regression, Logistic|||||2.41|0.65|0.49
92153812|NCT02572817|184193070|SUPERIORITY||Odds Ratio (OR)|1.07||||0.83|TWO_SIDED|95.0|0.55|2.08|||Regression, Logistic|||||2.08|0.55|0.83
92153813|NCT02572817|184193071|SUPERIORITY||Odds Ratio (OR)|1.29||||0.47|TWO_SIDED|95.0|0.65|2.56|||Regression, Logistic|||||2.56|0.65|0.47
92153814|NCT02572817|184193072|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
92215322|NCT03627767|184330440|SUPERIORITY||Difference in percentage|62.6|||<|0.0001|TWO_SIDED|95.0|56.0|69.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||69.2|56.0|< 0.0001
92215323|NCT03627767|184330440|SUPERIORITY||Difference in percentage|19.8|||||TWO_SIDED|95.0|12.3|27.4||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||27.4|12.3|
92337370|NCT03365934|184576807|SUPERIORITY|||||||0.070843|||||||t-test, 2 sided|||||||0.070843
92337371|NCT03365934|184576807|SUPERIORITY|||||||0.997565|||||||t-test, 2 sided|||||||0.997565
92337372|NCT03365934|184576808|SUPERIORITY|||||||0.016628|||||||t-test, 2 sided|||||||0.016628
92337373|NCT03365934|184576808|SUPERIORITY|||||||0.217862|||||||t-test, 2 sided|||||||0.217862
92153815|NCT02572817|184193073|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.64|TWO_SIDED|95.0|0.21|2.64|||Log Rank|||||2.64|0.21|0.64
92153816|NCT02572817|184193074|SUPERIORITY|||||||0.69|||||||Fisher Exact|||||||0.69
92153817|NCT02572817|184193075|SUPERIORITY||Odds Ratio (OR)|1.33||||0.43|TWO_SIDED|95.0|0.65|2.71|||Regression, Logistic|||Composite mortality and hospitalization, Day 7||2.71|0.65|0.43
92153818|NCT02572817|184193075|SUPERIORITY||Odds Ratio (OR)|1.11||||0.79|TWO_SIDED|95.0|0.5|2.48|||Regression, Logistic|||Composite mortality and hospitalization, Day 14||2.48|0.5|0.79
92153819|NCT02572817|184193075|SUPERIORITY||Odds Ratio (OR)|1.65||||0.29|TWO_SIDED|95.0|0.66|4.12|||Regression, Logistic|||Composite mortality and hospitalization, Day 28||4.12|0.66|0.29
92153820|NCT02572817|184193076|SUPERIORITY||Hodges-Lehman estimate of location shift|-1.0||||0.2|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||Change in NEW from baseline to Day 3||0|-2|0.2
92153821|NCT02572817|184193076|SUPERIORITY||Hodges-Lehman estimate of location shift|0.0||||0.66|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||Change in NEW from baseline to Day 3||1|-1|0.66
92153822|NCT02572817|184193077|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Change in PEW from baseline to Day 3||||0.18
92153823|NCT02572817|184193077|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||Change in PEW from baseline to Day 7||||0.61
92153824|NCT02572817|184193078|SUPERIORITY||Hodges-Lehman estimate of location shift|0.0||||0.68|TWO_SIDED|95.0|-2.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-2|0.68
92153825|NCT02572817|184193079|SUPERIORITY||Odds Ratio (OR)|1.42||||0.98|TWO_SIDED|95.0|0.23|11.01|||Regression, Logistic|||||11.01|0.23|0.98
92153826|NCT02572817|184193080|SUPERIORITY||Hodges-Lehman estimate of location shift|-1.5||||0.37|TWO_SIDED|95.0|-6.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|-6|0.37
92153827|NCT02572817|184193081|SUPERIORITY|||||||0.55|||||||Fisher Exact|||||||0.55
92153828|NCT02572817|184193082|SUPERIORITY||Hodges-Lehman estimate of location shift|-3.0||||0.22|TWO_SIDED|95.0|-14.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|-14|0.22
92153829|NCT02572817|184193083|SUPERIORITY||Odds Ratio (OR)|0.74||||1|TWO_SIDED|95.0|0.08|9.29|||Regression, Logistic|||||9.29|0.08|1
92153830|NCT02572817|184193085|SUPERIORITY||Odds Ratio (OR)|0.33||||0.24|TWO_SIDED|95.0|0.05|1.79|||Regression, Logistic|||||1.79|0.05|0.24
92153831|NCT02572817|184193087|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92153832|NCT02572817|184193088|SUPERIORITY||Hodges-Lehman estimate of location shift|0.0||||0.06|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||Change in SOFA from baseline to Day 3||0|-1|0.06
92153833|NCT02572817|184193088|SUPERIORITY||Hodges-Lehman estimate of location shift|-1.0||||0.13|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||Change in SOFA from baseline to Day 7||0|-1|0.13
92153834|NCT02572817|184193089|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||Change in PELOD from baseline to Day 3||||0.36
92153835|NCT02572817|184193089|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Change in PELOD from baseline to Day 7||||0.15
92153836|NCT02572817|184193090|SUPERIORITY||Odds Ratio (OR)|1.73||||0.12|TWO_SIDED|95.0|0.87|3.44|||Regression, Logistic|||||3.44|0.87|0.12
92153837|NCT02572817|184193091|SUPERIORITY||Odds Ratio (OR)|0.47||||0.23|TWO_SIDED|95.0|0.13|1.43|||Regression, Logistic|||||1.43|0.13|0.23
92153838|NCT02340520|184193146|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92153839|NCT02340520|184193147|OTHER||||||>|0.1|||||||ANOVA|||||||>0.1
92337374|NCT03365934|184576808|SUPERIORITY|||||||0.812915|||||||t-test, 2 sided|||||||0.812915
92337375|NCT03365934|184576808|SUPERIORITY|||||||0.999971|||||||t-test, 2 sided|||||||0.999971
92337376|NCT03365934|184576808|SUPERIORITY|||||||0.275557|||||||t-test, 2 sided|||||||0.275557
92337377|NCT03365934|184576808|SUPERIORITY|||||||0.870124|||||||t-test, 2 sided|||||||0.870124
92337378|NCT03365934|184576808|SUPERIORITY|||||||0.380144|||||||t-test, 2 sided|||||||0.380144
92337379|NCT03365934|184576808|SUPERIORITY|||||||0.029518|||||||t-test, 2 sided|||||||0.029518
92337380|NCT03365934|184576808|SUPERIORITY|||||||0.815476|||||||t-test, 2 sided|||||||0.815476
92337381|NCT03365934|184576808|SUPERIORITY|||||||0.944307|||||||t-test, 2 sided|||||||0.944307
92337382|NCT03365934|184576808|SUPERIORITY|||||||0.313389|||||||t-test, 2 sided|||||||0.313389
92337383|NCT03365934|184576808|SUPERIORITY|||||||0.999996|||||||t-test, 2 sided|||||||0.999996
92337384|NCT03365934|184576808|SUPERIORITY|||||||0.894272|||||||t-test, 2 sided|||||||0.894272
92337385|NCT03365934|184576808|SUPERIORITY|||||||0.969093|||||||t-test, 2 sided|||||||0.969093
92337386|NCT03365934|184576808|SUPERIORITY|||||||0.383434|||||||t-test, 2 sided|||||||0.383434
92337387|NCT03365934|184576809|SUPERIORITY|||||||0.393119|||||||t-test, 2 sided|||||||0.393119
92337388|NCT03365934|184576809|SUPERIORITY|||||||0.890335|||||||t-test, 2 sided|||||||0.890335
92337389|NCT03365934|184576809|SUPERIORITY|||||||0.021978|||||||t-test, 2 sided|||||||0.021978
92215324|NCT03627767|184330440|SUPERIORITY||Difference in percentage|39.5|||<|0.0001|TWO_SIDED|95.0|32.1|46.9||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||46.9|32.1|< 0.0001
92215325|NCT03627767|184330440|SUPERIORITY||Difference in percentage|56.7|||<|0.0001|TWO_SIDED|95.0|49.8|63.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||63.7|49.8|< 0.0001
92337390|NCT03365934|184576809|SUPERIORITY|||||||0.000983|||||||t-test, 2 sided|||||||0.000983
92337391|NCT03365934|184576809|SUPERIORITY|||||||0.006615|||||||t-test, 2 sided|||||||0.006615
92337392|NCT03365934|184576809|SUPERIORITY|||||||0.951883|||||||t-test, 2 sided|||||||0.951883
92337393|NCT03365934|184576809|SUPERIORITY|||||||0.692455|||||||t-test, 2 sided|||||||0.692455
92337394|NCT03365934|184576809|SUPERIORITY|||||||0.257254|||||||t-test, 2 sided|||||||0.257254
92337395|NCT03365934|184576809|SUPERIORITY|||||||0.530181|||||||t-test, 2 sided|||||||0.530181
92337396|NCT03365934|184576809|SUPERIORITY|||||||0.219274|||||||t-test, 2 sided|||||||0.219274
92337397|NCT03365934|184576809|SUPERIORITY|||||||0.029675|||||||t-test, 2 sided|||||||0.029675
92337398|NCT03365934|184576809|SUPERIORITY|||||||0.111454|||||||t-test, 2 sided|||||||0.111454
92337399|NCT03365934|184576809|SUPERIORITY|||||||0.995849|||||||t-test, 2 sided|||||||0.995849
92337400|NCT03365934|184576809|SUPERIORITY|||||||0.999994|||||||t-test, 2 sided|||||||0.999994
92337401|NCT03365934|184576809|SUPERIORITY|||||||0.998744|||||||t-test, 2 sided|||||||0.998744
92337402|NCT03365934|184576810|SUPERIORITY|||||||0.999858|||||||t-test, 2 sided|||||||0.999858
92337403|NCT03365934|184576810|SUPERIORITY|||||||0.215132|||||||t-test, 2 sided|||||||0.215132
92337404|NCT03365934|184576810|SUPERIORITY|||||||0.958812|||||||t-test, 2 sided|||||||0.958812
92337405|NCT03365934|184576810|SUPERIORITY|||||||0.00622|||||||t-test, 2 sided|||||||0.00622
92337406|NCT03365934|184576810|SUPERIORITY|||||||0.017733|||||||t-test, 2 sided|||||||0.017733
92337407|NCT03365934|184576810|SUPERIORITY|||||||0.330576|||||||t-test, 2 sided|||||||0.330576
92337408|NCT03365934|184576810|SUPERIORITY|||||||0.990334|||||||t-test, 2 sided|||||||0.990334
92337409|NCT03365934|184576810|SUPERIORITY|||||||0.013025|||||||t-test, 2 sided|||||||0.013025
92337410|NCT03365934|184576810|SUPERIORITY|||||||0.034707|||||||t-test, 2 sided|||||||0.034707
92337411|NCT03365934|184576810|SUPERIORITY|||||||0.771698|||||||t-test, 2 sided|||||||0.771698
92337412|NCT03365934|184576810|SUPERIORITY|||||||0.790117|||||||t-test, 2 sided|||||||0.790117
92337413|NCT03365934|184576810|SUPERIORITY|||||||0.923224|||||||t-test, 2 sided|||||||0.923224
92337414|NCT03365934|184576810|SUPERIORITY|||||||0.112245|||||||t-test, 2 sided|||||||0.112245
92337415|NCT03365934|184576810|SUPERIORITY|||||||0.216229|||||||t-test, 2 sided|||||||0.216229
92337416|NCT03365934|184576810|SUPERIORITY|||||||0.999663|||||||t-test, 2 sided|||||||0.999663
92337417|NCT03365934|184576811|SUPERIORITY|||||||0.91874|||||||t-test, 2 sided|||||||0.91874
92337418|NCT03365934|184576811|SUPERIORITY|||||||0.013582|||||||t-test, 2 sided|||||||0.013582
92337419|NCT03365934|184576811|SUPERIORITY|||||||0.523284|||||||t-test, 2 sided|||||||0.523284
92337420|NCT03365934|184576811|SUPERIORITY|||||||0.000315|||||||t-test, 2 sided|||||||0.000315
92337421|NCT03365934|184576811|SUPERIORITY|||||||0.059485|||||||t-test, 2 sided|||||||0.059485
92337422|NCT03365934|184576811|SUPERIORITY|||||||0.15037|||||||t-test, 2 sided|||||||0.15037
92337423|NCT03365934|184576811|SUPERIORITY|||||||0.967277|||||||t-test, 2 sided|||||||0.967277
92337424|NCT03365934|184576811|SUPERIORITY|||||||0.008729|||||||t-test, 2 sided|||||||0.008729
92337425|NCT03365934|184576811|SUPERIORITY|||||||0.421603|||||||t-test, 2 sided|||||||0.421603
92337426|NCT03365934|184576811|SUPERIORITY|||||||0.647267|||||||t-test, 2 sided|||||||0.647267
92337427|NCT03365934|184576811|SUPERIORITY|||||||0.953645|||||||t-test, 2 sided|||||||0.953645
92337428|NCT03365934|184576811|SUPERIORITY|||||||0.987387|||||||t-test, 2 sided|||||||0.987387
92337429|NCT03365934|184576811|SUPERIORITY|||||||0.147361|||||||t-test, 2 sided|||||||0.147361
92337430|NCT03365934|184576811|SUPERIORITY|||||||0.930371|||||||t-test, 2 sided|||||||0.930371
92337431|NCT03365934|184576811|SUPERIORITY|||||||0.6094|||||||t-test, 2 sided|||||||0.6094
92337432|NCT03365934|184576812|SUPERIORITY|||||||0.99253|||||||t-test, 2 sided|||||||0.99253
92337433|NCT03365934|184576812|SUPERIORITY|||||||0.795279|||||||t-test, 2 sided|||||||0.795279
92337434|NCT03365934|184576812|SUPERIORITY|||||||0.855067|||||||t-test, 2 sided|||||||0.855067
92337435|NCT03365934|184576812|SUPERIORITY|||||||0.003915|||||||t-test, 2 sided|||||||0.003915
92337436|NCT03365934|184576812|SUPERIORITY|||||||0.000221|||||||t-test, 2 sided|||||||0.000221
92337437|NCT03365934|184576812|SUPERIORITY|||||||0.97816|||||||t-test, 2 sided|||||||0.97816
92337438|NCT03365934|184576812|SUPERIORITY|||||||0.98972|||||||t-test, 2 sided|||||||0.98972
92337439|NCT03365934|184576812|SUPERIORITY|||||||0.01764|||||||t-test, 2 sided|||||||0.01764
92337440|NCT03365934|184576812|SUPERIORITY|||||||0.001185|||||||t-test, 2 sided|||||||0.001185
92337441|NCT03365934|184576812|SUPERIORITY|||||||0.999999|||||||t-test, 2 sided|||||||0.999999
92337442|NCT03365934|184576812|SUPERIORITY|||||||0.119961|||||||t-test, 2 sided|||||||0.119961
92337443|NCT03365934|184576812|SUPERIORITY|||||||0.013468|||||||t-test, 2 sided|||||||0.013468
92337444|NCT03365934|184576812|SUPERIORITY|||||||0.112192|||||||t-test, 2 sided|||||||0.112192
92337445|NCT03365934|184576812|SUPERIORITY|||||||0.013135|||||||t-test, 2 sided|||||||0.013135
92337446|NCT03365934|184576812|SUPERIORITY|||||||0.965966|||||||t-test, 2 sided|||||||0.965966
92337447|NCT03365934|184576813|SUPERIORITY|||||||0.968005|||||||t-test, 2 sided|||||||0.968005
92337448|NCT03365934|184576813|SUPERIORITY|||||||0.526293|||||||t-test, 2 sided|||||||0.526293
92337449|NCT03365934|184576813|SUPERIORITY|||||||0.994384|||||||t-test, 2 sided|||||||0.994384
92337450|NCT03365934|184576813|SUPERIORITY|||||||0.004967|||||||t-test, 2 sided|||||||0.004967
92337451|NCT03365934|184576813|SUPERIORITY|||||||0.000948|||||||t-test, 2 sided|||||||0.000948
92337452|NCT03365934|184576813|SUPERIORITY|||||||0.936394|||||||t-test, 2 sided|||||||0.936394
92337453|NCT03365934|184576813|SUPERIORITY|||||||0.999945|||||||t-test, 2 sided|||||||0.999945
92337454|NCT03365934|184576813|SUPERIORITY|||||||0.050032|||||||t-test, 2 sided|||||||0.050032
92337455|NCT03365934|184576813|SUPERIORITY|||||||0.01256|||||||t-test, 2 sided|||||||0.01256
92337456|NCT03365934|184576813|SUPERIORITY|||||||0.886978|||||||t-test, 2 sided|||||||0.886978
92337457|NCT03365934|184576813|SUPERIORITY|||||||0.391295|||||||t-test, 2 sided|||||||0.391295
92337458|NCT03365934|184576813|SUPERIORITY|||||||0.163678|||||||t-test, 2 sided|||||||0.163678
92337459|NCT03365934|184576813|SUPERIORITY|||||||0.047937|||||||t-test, 2 sided|||||||0.047937
92337460|NCT03365934|184576813|SUPERIORITY|||||||0.013231|||||||t-test, 2 sided|||||||0.013231
92337461|NCT03365934|184576813|SUPERIORITY|||||||0.996358|||||||t-test, 2 sided|||||||0.996358
92337462|NCT03365934|184576814|SUPERIORITY|||||||0.995862|||||||t-test, 2 sided|||||||0.995862
92337463|NCT03365934|184576814|SUPERIORITY|||||||0.223341|||||||t-test, 2 sided|||||||0.223341
92337464|NCT03365934|184576814|SUPERIORITY|||||||0.834338|||||||t-test, 2 sided|||||||0.834338
92337465|NCT03365934|184576814|SUPERIORITY|||||||0.030267|||||||t-test, 2 sided|||||||0.030267
92337466|NCT03365934|184576814|SUPERIORITY|||||||0.00104|||||||t-test, 2 sided|||||||0.00104
92337467|NCT03365934|184576814|SUPERIORITY|||||||0.377217|||||||t-test, 2 sided|||||||0.377217
92337468|NCT03365934|184576814|SUPERIORITY|||||||0.965547|||||||t-test, 2 sided|||||||0.965547
92337469|NCT03365934|184576814|SUPERIORITY|||||||0.052284|||||||t-test, 2 sided|||||||0.052284
92337470|NCT03365934|184576814|SUPERIORITY|||||||0.001348|||||||t-test, 2 sided|||||||0.001348
92337471|NCT03365934|184576814|SUPERIORITY|||||||0.927936|||||||t-test, 2 sided|||||||0.927936
92337472|NCT03365934|184576814|SUPERIORITY|||||||0.946487|||||||t-test, 2 sided|||||||0.946487
92337473|NCT03365934|184576814|SUPERIORITY|||||||0.327918|||||||t-test, 2 sided|||||||0.327918
92337474|NCT03365934|184576814|SUPERIORITY|||||||0.475038|||||||t-test, 2 sided|||||||0.475038
92337475|NCT03365934|184576814|SUPERIORITY|||||||0.060057|||||||t-test, 2 sided|||||||0.060057
92337476|NCT03365934|184576814|SUPERIORITY|||||||0.857177|||||||t-test, 2 sided|||||||0.857177
92337477|NCT03365934|184576815|SUPERIORITY|||||||0.999997|||||||t-test, 2 sided|||||||0.999997
92337478|NCT03365934|184576815|SUPERIORITY|||||||0.938793|||||||t-test, 2 sided|||||||0.938793
92337479|NCT03365934|184576815|SUPERIORITY|||||||0.965993|||||||t-test, 2 sided|||||||0.965993
92337480|NCT03365934|184576815|SUPERIORITY|||||||0.057803|||||||t-test, 2 sided|||||||0.057803
92337481|NCT03365934|184576815|SUPERIORITY|||||||0.022816|||||||t-test, 2 sided|||||||0.022816
92337482|NCT03365934|184576815|SUPERIORITY|||||||0.945179|||||||t-test, 2 sided|||||||0.945179
92337483|NCT03365934|184576815|SUPERIORITY|||||||0.972522|||||||t-test, 2 sided|||||||0.972522
92337484|NCT03365934|184576815|SUPERIORITY|||||||0.033704|||||||t-test, 2 sided|||||||0.033704
92337485|NCT03365934|184576815|SUPERIORITY|||||||0.010747|||||||t-test, 2 sided|||||||0.010747
92337486|NCT03365934|184576815|SUPERIORITY|||||||0.999999|||||||t-test, 2 sided|||||||0.999999
92337487|NCT03365934|184576815|SUPERIORITY|||||||0.385474|||||||t-test, 2 sided|||||||0.385474
92337488|NCT03365934|184576815|SUPERIORITY|||||||0.213798|||||||t-test, 2 sided|||||||0.213798
92337489|NCT03365934|184576815|SUPERIORITY|||||||0.388682|||||||t-test, 2 sided|||||||0.388682
92337490|NCT03365934|184576815|SUPERIORITY|||||||0.22386|||||||t-test, 2 sided|||||||0.22386
92337491|NCT03365934|184576815|SUPERIORITY|||||||0.999494|||||||t-test, 2 sided|||||||0.999494
92337492|NCT03365934|184576816|SUPERIORITY|||||||0.891244|||||||t-test, 2 sided|||||||0.891244
92337493|NCT03365934|184576816|SUPERIORITY|||||||0.022659|||||||t-test, 2 sided|||||||0.022659
92337494|NCT03365934|184576816|SUPERIORITY|||||||0.693615|||||||t-test, 2 sided|||||||0.693615
92337495|NCT03365934|184576816|SUPERIORITY|||||||0.000237|||||||t-test, 2 sided|||||||0.000237
92337496|NCT03365934|184576816|SUPERIORITY|||||||5e-06|||||||t-test, 2 sided|||||||0.000005
92337497|NCT03365934|184576816|SUPERIORITY|||||||0.352008|||||||t-test, 2 sided|||||||0.352008
92337498|NCT03365934|184576816|SUPERIORITY|||||||0.998761|||||||t-test, 2 sided|||||||0.998761
92337499|NCT03365934|184576816|SUPERIORITY|||||||0.017832|||||||t-test, 2 sided|||||||0.017832
92337500|NCT03365934|184576816|SUPERIORITY|||||||0.000974|||||||t-test, 2 sided|||||||0.000974
92337501|NCT03365934|184576816|SUPERIORITY|||||||0.638238|||||||t-test, 2 sided|||||||0.638238
92337502|NCT03365934|184576816|SUPERIORITY|||||||0.777423|||||||t-test, 2 sided|||||||0.777423
92337503|NCT03365934|184576816|SUPERIORITY|||||||0.249909|||||||t-test, 2 sided|||||||0.249909
92337504|NCT03365934|184576816|SUPERIORITY|||||||0.068196|||||||t-test, 2 sided|||||||0.068196
92337505|NCT03365934|184576816|SUPERIORITY|||||||0.005786|||||||t-test, 2 sided|||||||0.005786
92337506|NCT03365934|184576816|SUPERIORITY|||||||0.954163|||||||t-test, 2 sided|||||||0.954163
92337507|NCT03365934|184576818|SUPERIORITY||Mean Difference (Net)|-7.5|STANDARD_ERROR_OF_MEAN|2.851||0.009|TWO_SIDED|95.0|-13.1279|-1.8688|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 1||-1.8688|-13.1279|0.009
92337508|NCT03365934|184576818|SUPERIORITY||Mean Difference (Net)|-5.08|STANDARD_ERROR_OF_MEAN|2.851||0.077|TWO_SIDED|95.0|-10.7083|0.5508|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 1||0.5508|-10.7083|0.077
92337509|NCT03365934|184576818|SUPERIORITY||Mean Difference (Net)|-2.41|STANDARD_ERROR_OF_MEAN|2.851||0.399|TWO_SIDED|95.0|-8.0399|3.2192|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 1||3.2192|-8.0399|0.399
92398274|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.79||||0.3478|TWO_SIDED|95.0|0.53|6.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.04|0.53|0.3478
92398275|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.22||||0.2269|TWO_SIDED|95.0|0.61|8.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.14|0.61|0.2269
92153840|NCT01586338|184193149|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance = 0.05.|Paired t-test|||||||<0.0001
92153841|NCT01586338|184193149|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Sign Rank Test|||||||<0.0001
92153842|NCT05064735|184193215|SUPERIORITY||Estimated Treatment Difference|-10.48|||<|0.0001|TWO_SIDED|95.0|-12.34|-8.63|||ANCOVA|||The responses at week 68 were analyzed using an analysis of covariance model with randomized treatment as factor and baseline body weight as covariate.||-8.63|-12.34|<0.0001
92153843|NCT05064735|184193216|SUPERIORITY||Estimated Treatment Difference|-14.14|||<|0.0001|TWO_SIDED|95.0|-19.98|-8.3|||ANCOVA|||The responses at week 68 were analyzed using an analysis of covariance model with randomized treatment as factor and baseline WOMAC pain score as covariate.||-8.30|-19.98|<0.0001
92153844|NCT00930943|184193240|SUPERIORITY||||||<|0.001||||||repeated-measure ANOVA tested time-post-dose effect for Rapid Visual Information Processing (RVP): sensitivity (A')|ANOVA|||The a priori sample-size estimation for a power of 80% with alpha = 0.05 was based on the primary-outcome measure, the rapid visual information processing (RVP) sensitivity (A') score. Using a repeated-measure ANOVA for the food effect (fed versus fasting) and assuming an effect size of f =0.26 generated a required sample size of 32 participants. However, only 30 subjects completed both testing visits, generating a power of 78.2%.|(F\[1,28\] = 22.71; η2 = 0.45)|||<0.001
92215326|NCT03627767|184330440|SUPERIORITY||Difference in percentage|17.4|||||TWO_SIDED|95.0|9.3|25.5||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.5|9.3|
92337510|NCT03365934|184576818|SUPERIORITY||Mean Difference (Net)|0.72|STANDARD_ERROR_OF_MEAN|2.851||0.802|TWO_SIDED|95.0|-4.9144|6.3446|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 1||6.3446|-4.9144|0.802
92398276|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|4.66||||0.0683|TWO_SIDED|95.0|0.89|24.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||24.35|0.89|0.0683
92153845|NCT00930943|184193240|SUPERIORITY|||||||0.01||||||repeated-measure ANOVA tested food x time-post-dose effect for Rapid Visual Information Processing (RVP): sensitivity (A')|ANOVA||||F\[1,28\]=6.88; η2=0.20|||0.01
92153846|NCT00930943|184193240|SUPERIORITY||||||>|0.05||||||repeated-measure ANOVA testing food effect for Rapid Visual Information Processing (RVP): sensitivity (A')|ANOVA|||||||>0.05
92153847|NCT00930943|184193241|SUPERIORITY||||||<|0.001||||||Repeated-measure ANOVA testing time-post-dose effect for Rapid Visual Information Processing (RVP): response latency|ANOVA||||(F\[1,28\] = 14.05; η2 = 0.33)|||<0.001
92153848|NCT00930943|184193241|SUPERIORITY||||||>|0.05||||||"repeated-measure ANOVA testing food and food x time post dose effect for Rapid Visual Information Processing (RVP): response latency"|ANOVA|||||||>0.05
92153849|NCT00930943|184193242|SUPERIORITY||||||>|0.05||||||"repeated-measure ANOVA testing food, time-post-dose, and food x time-post-dose effect for SRM percentage of correct hits"|ANOVA|||||||>0.05
92153850|NCT00930943|184193243|SUPERIORITY||||||<|0.001||||||Repeated-measure ANOVA testing time-post-dose effect for Spatial Recognition Memory (SRM) response latency|ANOVA||||(F\[1,28\] = 31.26; η2 = 0.53)|||<0.001
92153851|NCT00930943|184193243|SUPERIORITY||||||>|0.05||||||"repeated-measure ANOVA testing food and food x time-post-dose effect for SRM response latency"|ANOVA|||||||>0.05
92153852|NCT00930943|184193244|SUPERIORITY||||||>|0.05||||||"repeated-measure ANOVA testing food, time-post-dose, and food x time-post-dose effect for SWM total errors"|ANOVA|||||||>0.05
92153853|NCT00930943|184193245|SUPERIORITY||||||>|0.05||||||"repeated-measure ANOVA testing food, time-post-dose, and food x time-post-dose effect for SWM strategy score"|ANOVA|||||||>0.05
92337511|NCT03365934|184576819|SUPERIORITY||Mean Difference (Net)|-11.37|STANDARD_ERROR_OF_MEAN|3.038|<|0.001|TWO_SIDED|95.0|-17.3738|-5.3723|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 2||-5.3723|-17.3738|<0.001
92337512|NCT03365934|184576819|SUPERIORITY||Mean Difference (Net)|-12.68|STANDARD_ERROR_OF_MEAN|3.038|<|0.001|TWO_SIDED|95.0|-18.6789|-6.6775|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 2||-6.6775|-18.6789|<0.001
92337513|NCT03365934|184576819|SUPERIORITY||Mean Difference (Net)|-1.96|STANDARD_ERROR_OF_MEAN|3.038||0.521|TWO_SIDED|95.0|-7.9571|4.0444|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 2||4.0444|-7.9571|0.521
92337514|NCT03365934|184576819|SUPERIORITY||Mean Difference (Net)|8.39|STANDARD_ERROR_OF_MEAN|3.038||0.006|TWO_SIDED|95.0|2.3925|14.394|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 2||14.3940|2.3925|0.006
92337515|NCT03365934|184576820|SUPERIORITY||Mean Difference (Net)|-31.83|STANDARD_ERROR_OF_MEAN|4.847|<|0.001|TWO_SIDED|95.0|-41.3967|-22.2538|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 3||-22.2538|-41.3967|<0.001
92337516|NCT03365934|184576820|SUPERIORITY||Mean Difference (Net)|-27.3|STANDARD_ERROR_OF_MEAN|4.847|<|0.001|TWO_SIDED|95.0|-36.8727|-17.7298|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 3||-17.7298|-36.8727|<0.001
92337517|NCT03365934|184576820|SUPERIORITY||Mean Difference (Net)|-13.71|STANDARD_ERROR_OF_MEAN|4.847||0.005|TWO_SIDED|95.0|-23.2784|-4.1355|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 3||-4.1355|-23.2784|0.005
92337518|NCT03365934|184576820|SUPERIORITY||Mean Difference (Net)|10.07|STANDARD_ERROR_OF_MEAN|4.847||0.039|TWO_SIDED|95.0|0.4969|19.6398|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 3||19.6398|0.4969|0.039
92337519|NCT03365934|184576821|SUPERIORITY||Mean Difference (Net)|-40.39|STANDARD_ERROR_OF_MEAN|5.39|<|0.001|TWO_SIDED|95.0|-51.0324|-29.7496|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 4||-29.7496|-51.0324|<0.001
92337520|NCT03365934|184576821|SUPERIORITY||Mean Difference (Net)|-37.84|STANDARD_ERROR_OF_MEAN|5.39|<|0.001|TWO_SIDED|95.0|-48.4787|-27.1959|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 4||-27.1959|-48.4787|<0.001
92337521|NCT03365934|184576821|SUPERIORITY||Mean Difference (Net)|-20.99|STANDARD_ERROR_OF_MEAN|5.39|<|0.001|TWO_SIDED|95.0|-31.6336|-10.3508|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 4||-10.3508|-31.6336|<0.001
92337522|NCT03365934|184576821|SUPERIORITY||Mean Difference (Net)|8.75|STANDARD_ERROR_OF_MEAN|5.39||0.106|TWO_SIDED|95.0|-1.8871|19.3957|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 4||19.3957|-1.8871|0.106
92337523|NCT03365934|184576822|SUPERIORITY||Mean Difference (Net)|-32.9|STANDARD_ERROR_OF_MEAN|5.276|<|0.001|TWO_SIDED|95.0|-43.3249|-22.4838|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 5||-22.4838|-43.3249|<0.001
92337524|NCT03365934|184576822|SUPERIORITY||Mean Difference (Net)|-27.31|STANDARD_ERROR_OF_MEAN|5.276|<|0.001|TWO_SIDED|95.0|-37.7279|-16.8868|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 5||-16.8868|-37.7279|<0.001
92337525|NCT03365934|184576822|SUPERIORITY||Mean Difference (Net)|-18.76|STANDARD_ERROR_OF_MEAN|5.276|<|0.001|TWO_SIDED|95.0|-29.1785|-8.3374|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 5||-8.3374|-29.1785|<0.001
92337526|NCT03365934|184576822|SUPERIORITY||Mean Difference (Net)|6.79|STANDARD_ERROR_OF_MEAN|5.276||0.2|TWO_SIDED|95.0|-3.6303|17.2107|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 5||17.2107|-3.6303|0.200
92337527|NCT03365934|184576823|SUPERIORITY||Mean Difference (Net)|-30.9|STANDARD_ERROR_OF_MEAN|4.371|<|0.001|TWO_SIDED|95.0|-39.5325|-22.265|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 6||-22.2650|-39.5325|<0.001
92337528|NCT03365934|184576823|SUPERIORITY||Mean Difference (Net)|-25.33|STANDARD_ERROR_OF_MEAN|4.371|<|0.001|TWO_SIDED|95.0|-33.9669|-16.6993|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 6||-16.6993|-33.9669|<0.001
92337529|NCT03365934|184576823|SUPERIORITY||Mean Difference (Net)|-20.63|STANDARD_ERROR_OF_MEAN|4.371|<|0.001|TWO_SIDED|95.0|-29.2588|-11.9912|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 6||-11.9912|-29.2588|<0.001
92337530|NCT03365934|184576823|SUPERIORITY||Mean Difference (Net)|4.27|STANDARD_ERROR_OF_MEAN|4.371||0.33|TWO_SIDED|95.0|-4.362|12.9055|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 6||12.9055|-4.3620|0.330
92337531|NCT03365934|184576824|SUPERIORITY||Mean Difference (Net)|-13.95|STANDARD_ERROR_OF_MEAN|3.754|<|0.001|TWO_SIDED|95.0|-21.368|-6.5419|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 7||-6.5419|-21.3680|<0.001
92337532|NCT03365934|184576824|SUPERIORITY||Mean Difference (Net)|-11.54|STANDARD_ERROR_OF_MEAN|3.754||0.002|TWO_SIDED|95.0|-18.9563|-4.1302|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 7||-4.1302|-18.9563|0.002
92398277|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|7.11||||0.0228|TWO_SIDED|95.0|1.31|38.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||38.49|1.31|0.0228
92337533|NCT03365934|184576824|SUPERIORITY||Mean Difference (Net)|-10.07|STANDARD_ERROR_OF_MEAN|3.754||0.008|TWO_SIDED|95.0|-17.4867|-2.6606|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 7||-2.6606|-17.4867|0.008
92337534|NCT03365934|184576824|SUPERIORITY||Mean Difference (Net)|6.87|STANDARD_ERROR_OF_MEAN|3.754||0.069|TWO_SIDED|95.0|-0.5447|14.2814|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 7||14.2814|-0.5447|0.069
92215327|NCT03627767|184330440|SUPERIORITY||Difference in percentage|33.0|||<|0.0001|TWO_SIDED|95.0|25.7|40.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||40.4|25.7|< 0.0001
92337535|NCT03365934|184576825|SUPERIORITY||Mean Difference (Net)|-2.76|STANDARD_ERROR_OF_MEAN|3.244||0.397|TWO_SIDED|95.0|-9.1631|3.6504|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 14||3.6504|-9.1631|0.397
92215328|NCT03627767|184330440|SUPERIORITY||Difference in percentage|51.7|||<|0.0001|TWO_SIDED|95.0|44.6|58.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||58.8|44.6|< 0.0001
92215329|NCT03627767|184330440|SUPERIORITY||Difference in percentage|19.2|||||TWO_SIDED|95.0|10.8|27.6||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||27.6|10.8|
92215330|NCT03627767|184330441|SUPERIORITY||Difference in percentage|2.6|||=|0.3994|TWO_SIDED|95.0|-3.3|8.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||8.4|-3.3|= 0.3994
92215331|NCT03627767|184330441|SUPERIORITY||Difference in percentage|1.8|||=|0.5542|TWO_SIDED|95.0|-4.1|7.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||7.8|-4.1|= 0.5542
92215332|NCT03627767|184330441|SUPERIORITY||Difference in percentage|-0.8|||||TWO_SIDED|95.0|-6.5|5.0||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||5.0|-6.5|
92215333|NCT03627767|184330441|SUPERIORITY||Difference in percentage|37.5|||<|0.0001|TWO_SIDED|95.0|30.2|44.9||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||44.9|30.2|< 0.0001
92215334|NCT03627767|184330441|SUPERIORITY||Difference in percentage|63.3|||<|0.0001|TWO_SIDED|95.0|56.8|69.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||69.8|56.8|< 0.0001
92215335|NCT03627767|184330441|SUPERIORITY||Difference in percentage|25.5|||||TWO_SIDED|95.0|17.7|33.4||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||33.4|17.7|
92215336|NCT03627767|184330441|SUPERIORITY||Difference in percentage|36.9|||<|0.0001|TWO_SIDED|95.0|29.9|44.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||44.0|29.9|< 0.0001
92215337|NCT03627767|184330441|SUPERIORITY||Difference in percentage|54.2|||<|0.0001|TWO_SIDED|95.0|47.3|61.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||61.0|47.3|< 0.0001
92337536|NCT03365934|184576825|SUPERIORITY||Mean Difference (Net)|0.81|STANDARD_ERROR_OF_MEAN|3.244||0.804|TWO_SIDED|95.0|-5.6006|7.2129|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 14||7.2129|-5.6006|0.804
92337537|NCT03365934|184576825|SUPERIORITY||Mean Difference (Net)|-9.32|STANDARD_ERROR_OF_MEAN|3.244||0.005|TWO_SIDED|95.0|-15.7231|-2.9096|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 14||-2.9096|-15.7231|0.005
92337538|NCT03365934|184576825|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|3.244||0.985|TWO_SIDED|95.0|-6.3452|6.4683|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 14||6.4683|-6.3452|0.985
92215338|NCT03627767|184330441|SUPERIORITY||Difference in percentage|17.2|||||TWO_SIDED|95.0|8.9|25.5||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.5|8.9|
92337539|NCT03365934|184576827|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.044||0.348|TWO_SIDED|95.0|-0.129|0.0458|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 1||0.0458|-0.1290|0.348
92337540|NCT03365934|184576827|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.044||0.019|TWO_SIDED|95.0|-0.1904|-0.0178|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 1||-0.0178|-0.1904|0.019
92337541|NCT03365934|184576827|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.043||0.183|TWO_SIDED|95.0|-0.1437|0.0278|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 1||0.0278|-0.1437|0.183
92337542|NCT03365934|184576827|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.044||0.736|TWO_SIDED|95.0|-0.0725|0.1023|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 1||0.1023|-0.0725|0.736
92337543|NCT03365934|184576828|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.052||0.516|TWO_SIDED|95.0|-0.136|0.0687|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 2||0.0687|-0.1360|0.516
92337544|NCT03365934|184576828|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.052||0.006|TWO_SIDED|95.0|-0.2459|-0.0412|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 2||-0.0412|-0.2459|0.006
92337545|NCT03365934|184576828|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.051||0.671|TWO_SIDED|95.0|-0.1235|0.0798|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 2||0.0798|-0.1235|0.671
92337546|NCT03365934|184576828|SUPERIORITY||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.052||0.004|TWO_SIDED|95.0|0.0504|0.2578|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 2||0.2578|0.0504|0.004
92337547|NCT03365934|184576829|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.062||0.292|TWO_SIDED|95.0|-0.1896|0.0579|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 3||0.0579|-0.1896|0.292
92337548|NCT03365934|184576829|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.062||0.016|TWO_SIDED|95.0|-0.2773|-0.0297|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 3||-0.0297|-0.2773|0.016
92337549|NCT03365934|184576829|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.062||0.538|TWO_SIDED|95.0|-0.1622|0.0853|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 3||0.0853|-0.1622|0.538
92398278|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.95||||0.062|TWO_SIDED|95.0|0.93|16.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||16.72|0.93|0.0620
92337550|NCT03365934|184576829|SUPERIORITY||Mean Difference (Net)|0.012|STANDARD_ERROR_OF_MEAN|0.065||0.061|TWO_SIDED|95.0|-0.0059|0.2515|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 3||0.2515|-0.0059|0.061
92153854|NCT00856661|184193246|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.229|TWO_SIDED|95.0|0.79|2.64|||Regression, Logistic|If no assessment was available for last observation carried forward after baseline, the mRS score was set to 5 if alive, or 6, if otherwise = death||All patients who were treated and had at least one valid post-baseline assessment of the mRS. As death is a valid outcome on the mRS, patients who died within 90 days after IMP administration were included.||2.64|0.79|0.2290
92153855|NCT00856661|184193247|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9401|TWO_SIDED|95.0|0.59|1.62|||Regression, Logistic|||||1.62|0.59|0.9401
92337551|NCT03365934|184576830|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.06||0.001|TWO_SIDED|95.0|-0.3265|-0.0895|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 4||-0.0895|-0.3265|0.001
92337552|NCT03365934|184576830|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.3614|-0.1243|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 4||-0.1243|-0.3614|<0.001
92337553|NCT03365934|184576830|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.06||0.236|TWO_SIDED|95.0|-0.1899|0.0471|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 4||0.0471|-0.1899|0.236
92337554|NCT03365934|184576830|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.061||0.627|TWO_SIDED|95.0|-0.0902|0.1492|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 4||0.1492|-0.0902|0.627
92337555|NCT03365934|184576831|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.051|<|0.001|TWO_SIDED|95.0|-0.3331|-0.1305|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 5||-0.1305|-0.3331|<0.001
92153856|NCT00856661|184193248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.5076|TWO_SIDED|95.0|0.68|2.18|||Regression, Logistic|||All patients treated, who had at least one valid post-baseline assessment of the mRS and with a baseline NIHSS score of 8 to 24. If no assessment was available for last observation carried forward after baseline, the mRS score was set to 5 if the patient was known to be alive, or 6, if otherwise = dead.||2.18|0.68|0.5076
92153857|NCT00856661|184193249|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.6146|TWO_SIDED|95.0|0.72|1.75|||Regression, Logistic|||all patients treated, who had at least one valid post-baseline assessment of the mRS. As death is a valid outcome on the mRS, patients who died within 90 days after IMP administration were included||1.75|0.72|0.6146
92153858|NCT02301156|184193250|SUPERIORITY|||||||0.0463|||||||Cochran-Mantel-Haenszel|P-value was estimated by Cochran-Mantel-Haenszel (CMH) test stratified by the randomization strata prior lines of therapy.||||||0.0463
92153859|NCT02301156|184193251|SUPERIORITY|||||||0.0159|||||||Cochran-Mantel-Haenszel|P-value was estimated by CMH test stratified by the randomization strata prior lines of therapy.||||||0.0159
92337556|NCT03365934|184576831|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.3091|-0.1092|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 5||-0.1092|-0.3091|<0.001
92337557|NCT03365934|184576831|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.05||0.005|TWO_SIDED|95.0|-0.2439|-0.0457|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 5||-0.0457|-0.2439|0.005
92337558|NCT03365934|184576831|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.052||0.02|TWO_SIDED|95.0|0.0197|0.2252|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 5||0.2252|0.0197|0.020
92337559|NCT03365934|184576832|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.4019|-0.2044|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 6||-0.2044|-0.4019|<0.001
92337560|NCT03365934|184576832|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.3655|-0.1679|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 6||-0.1679|-0.3655|<0.001
92337561|NCT03365934|184576832|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.3338|-0.1377|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 6||-0.1377|-0.3338|<0.001
92337562|NCT03365934|184576832|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.646|TWO_SIDED|95.0|-0.0767|0.1231|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 6||0.1231|-0.0767|0.646
92337563|NCT03365934|184576833|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.047||0.006|TWO_SIDED|95.0|-0.2254|-0.0384|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 7||-0.0384|-0.2254|0.006
92337564|NCT03365934|184576833|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.047||0.002|TWO_SIDED|95.0|-0.2444|-0.0574|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 7||-0.0574|-0.2444|0.002
92337565|NCT03365934|184576833|SUPERIORITY||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.047||0.001|TWO_SIDED|95.0|-0.2541|-0.0682|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 7||-0.0682|-0.2541|0.001
92337566|NCT03365934|184576833|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.048||0.911|TWO_SIDED|95.0|-0.0891|0.0998|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 7||0.0998|-0.0891|0.911
92337567|NCT03365934|184576834|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.04||0.937|TWO_SIDED|95.0|-0.0818|0.0755|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 14||0.0755|-0.0818|0.937
92398279|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.18||||0.2251|TWO_SIDED|95.0|0.62|7.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.67|0.62|0.2251
92153860|NCT02301156|184193252|SUPERIORITY||Rate Difference|35.64|||<|0.0001|TWO_SIDED|95.0|21.39|49.88|||Cochran-Mantel-Haenszel|P-value was estimated using CMH test stratified by the randomization strata prior lines of therapy.|95% Confidence Interval (CI) was estimated using Clopper-Pearson method based on the binomial distribution.|||49.88|21.39|<0.0001
92153861|NCT02301156|184193253|SUPERIORITY||Hazard Ratio (HR)|0.573||||0.0961|TWO_SIDED|95.0|0.295|1.113|||Log Rank|P-value was estimated by stratified log rank test and the stratification was based on the randomization strata prior lines of therapy.|Stratified Hazard Ratio and 95% CI were estimated using Cox proportion hazard model and the stratification was based on the randomization strata prior lines of therapy.|||1.113|0.295|0.0961
92153862|NCT02301156|184193254|SUPERIORITY||Hazard Ratio (HR)|0.569||||0.1486|TWO_SIDED|95.0|0.263|1.234|||Log Rank|P-value was estimated by stratified log rank test and the stratification was based on the randomization strata prior lines of therapy.|Stratified Hazard Ratio and 95% CI were estimated using Cox proportion hazard model and the stratification was based on the randomization strata prior lines of therapy.|||1.234|0.263|0.1486
92153863|NCT02301156|184193255|SUPERIORITY||Hazard Ratio (HR)|2.163||||0.0004|TWO_SIDED|95.0|1.399|3.344|||Log Rank|P-value was estimated by stratified log rank test and the stratification was based on the randomization strata prior lines of therapy.|Stratified Hazard Ratio and 95% CI were estimated using Cox proportion hazard model and the stratification was based on the randomization strata prior lines of therapy.|||3.344|1.399|0.0004
92153864|NCT03012061|184193286|SUPERIORITY||Mean Difference (Net)|0.1758|STANDARD_ERROR_OF_MEAN|0.0426|<|0.001|TWO_SIDED|95.0|0.092|0.2595|||Mixed-model repeated measures (MMRM)||UMEC 31.25 mcg versus placebo|||0.2595|0.0920|<0.001
92337568|NCT03365934|184576834|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.039||0.026|TWO_SIDED|95.0|-0.1663|-0.0108|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 14||-0.0108|-0.1663|0.026
92153865|NCT03012061|184193286|SUPERIORITY||Mean Difference (Net)|0.1841|STANDARD_ERROR_OF_MEAN|0.0424|<|0.001|TWO_SIDED|95.0|0.1008|0.2675|||MMRM||UMEC 62.5 mcg versus placebo|||0.2675|0.1008|<0.001
92153866|NCT03012061|184193287|SUPERIORITY||Mean Difference (Net)|0.1895|STANDARD_ERROR_OF_MEAN|0.0455|<|0.001|TWO_SIDED|95.0|0.1|0.2789||Analysis of covariance (ANCOVA)|ANCOVA||UMEC 31.25 mcg vs Placebo|||0.2789|0.1000|<0.001
92153867|NCT03012061|184193287|SUPERIORITY||Mean Difference (Net)|0.1976|STANDARD_ERROR_OF_MEAN|0.0453|<|0.001|TWO_SIDED|95.0|0.1086|0.2866|||ANCOVA||UMEC 62.5 mcg vs Placebo|||0.2866|0.1086|<0.001
92337569|NCT03365934|184576834|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.039||0.045|TWO_SIDED|95.0|-0.1562|-0.0017|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 14||-0.0017|-0.1562|0.045
92337570|NCT03365934|184576834|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.039||0.956|TWO_SIDED|95.0|-0.0799|0.0755|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 14||0.0755|-0.0799|0.956
92337571|NCT04194489|184576842|OTHER|Effect size calculation|Cohen's d|0.43|||||TWO_SIDED|||||||||Cohen's d effect size was calculated using baseline and follow-up means and standard deviations. An effect size of 0.2 is small, 0.5 is medium and 0.8 is large.||||
92337572|NCT04194489|184576843|OTHER|Effect size|Cohen's d|0.17|||||TWO_SIDED|||||||||Cohen's d effect size was calculated using baseline and follow-up means and standard deviations. An effect size of 0.2 is small, 0.5 is medium and 0.8 is large.||||
92337573|NCT04194489|184576844|OTHER|Effect size calculation|Cohen's d|0.27|||||TWO_SIDED|||||||||Cohen's d effect size was calculated using baseline and follow-up means and standard deviations. An effect size of 0.2 is small, 0.5 is medium and 0.8 is large.||||
92337574|NCT04194489|184576845|OTHER|Effect size calculation|Cohen's d|0.02|||||TWO_SIDED|||||||||Cohen's d effect size was calculated using baseline and follow-up means and standard deviations. An effect size of 0.2 is small, 0.5 is medium and 0.8 is large.||||
92337575|NCT02964338|184576852|OTHER||Least square (LS) mean difference|3.5||||0.2741|TWO_SIDED|95.0|-2.8|9.82||Threshold for significance at 0.05 level.|ANCOVA|||||9.82|-2.80|0.2741
92337576|NCT02964338|184576852|OTHER||LS mean difference|-3.3||||0.3047|TWO_SIDED|95.0|-9.59|3.01||Threshold for significance at 0.05 level.|ANCOVA|||||3.01|-9.59|0.3047
92337577|NCT04611542|184576872|SUPERIORITY||Mean Difference (Final Values)|1.02|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92337578|NCT04611542|184576873|SUPERIORITY||Median Difference (Final Values)|1.12|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
92337579|NCT04611542|184576874|SUPERIORITY||Mean Difference (Final Values)|6.32|||<|0.001|TWO_SIDED||||||t-test, 2 sided||Investigators tested whether pretest to posttest change was significantly greater than 0 at P \< 0.05.|||||<0.001
92337580|NCT02291029|184576875|SUPERIORITY||Mean Difference (Net)|-0.41||||0.397|TWO_SIDED|95.0|-3.7|2.89||One-sided p-value|Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||2.89|-3.70|0.397
92337581|NCT02291029|184576875|SUPERIORITY||Mean Difference (Net)|-5.21||||0.009|TWO_SIDED|95.0|-9.46|-0.96||One-sided p-value|Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate.||||-0.96|-9.46|0.009
92337582|NCT02291029|184576875|SUPERIORITY||Mean Difference (Net)|2.34||||0.344|TWO_SIDED|95.0|-2.78|7.45||two-sided p-value|Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate.||||7.45|-2.78|0.344
92153868|NCT03012061|184193290|SUPERIORITY||Median Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|1.0||0.083|TWO_SIDED|95.0|-0.2|3.7|||MMRM||UMEC 31.25 mcg vs Placebo, SBP, Week 4|||3.7|-0.2|0.083
92153869|NCT03012061|184193290|SUPERIORITY||Median Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.11||0.636|TWO_SIDED|95.0|-2.7|1.7|||MMRM||UMEC 31.25 mcg vs Placebo, SBP, Week 12|||1.7|-2.7|0.636
92153870|NCT03012061|184193290|SUPERIORITY||Mean Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|1.1||0.115|TWO_SIDED|95.0|-0.4|3.9|||MMRM||UMEC 31.25 mcg vs Placebo, SBP, Week 24|||3.9|-0.4|0.115
92215339|NCT03627767|184330441|SUPERIORITY||Difference in percentage|29.8|||<|0.0001|TWO_SIDED|95.0|22.7|37.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||37.0|22.7|< 0.0001
92215340|NCT03627767|184330441|SUPERIORITY||Difference in percentage|46.7|||<|0.0001|TWO_SIDED|95.0|39.6|53.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||53.8|39.6|< 0.0001
92337583|NCT02291029|184576876|SUPERIORITY||Mean Difference (Net)|-1.09||||0.205|TWO_SIDED|95.0|-2.97|0.8|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||0.80|-2.97|0.205
92337584|NCT02291029|184576876|SUPERIORITY||Mean Difference (Net)|-0.95||||0.188|TWO_SIDED|95.0|-2.41|0.5|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||0.50|-2.41|0.188
92337585|NCT02291029|184576876|SUPERIORITY||Mean Difference (Net)|-0.37||||0.663|TWO_SIDED|95.0|-2.08|1.35|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||1.35|-2.08|0.663
92337586|NCT02291029|184576877|SUPERIORITY||Mean Difference (Net)|-15.26||||0.161|TWO_SIDED|95.0|-37.9|7.38|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||7.38|-37.90|0.161
92337587|NCT02291029|184576877|SUPERIORITY||Mean Difference (Net)|-12.16||||0.017|TWO_SIDED|95.0|-21.94|-2.38|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||-2.38|-21.94|0.017
92337588|NCT02291029|184576878|SUPERIORITY||Mean Difference (Net)|-9.45||||0.456|TWO_SIDED|95.0|-36.2|17.3|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||17.30|-36.20|0.456
92337589|NCT02291029|184576878|SUPERIORITY||Mean Difference (Net)|-8.14||||0.376|TWO_SIDED|95.0|-26.67|10.39|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||10.39|-26.67|0.376
92153871|NCT03012061|184193290|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|0.99||0.336|TWO_SIDED|95.0|-1.0|2.9|||MMRM||UMEC 62.5 mcg vs Placebo, SBP, Week 4|||2.9|-1.0|0.336
92153872|NCT03012061|184193290|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|1.11||0.787|TWO_SIDED|95.0|-1.9|2.5|||MMRM||UMEC 62.5 mcg vs Placebo, SBP, Week 12|||2.5|-1.9|0.787
92153873|NCT03012061|184193290|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|1.1||0.625|TWO_SIDED|95.0|-1.6|2.7|||MMRM||UMEC 62.5 mcg vs Placebo, SBP, Week 24|||2.7|-1.6|0.625
92153874|NCT03012061|184193290|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|0.79||0.309|TWO_SIDED|95.0|-0.7|2.3|||MMRM||UMEC 31.25 mcg vs Placebo, DBP, Week 4|||2.3|-0.7|0.309
92153875|NCT03012061|184193290|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.82||0.521|TWO_SIDED|95.0|-2.1|1.1|||MMRM||UMEC 31.25 mcg vs Placebo, DBP, Week 12|||1.1|-2.1|0.521
92215341|NCT03627767|184330441|SUPERIORITY||Difference in percentage|16.9|||||TWO_SIDED|95.0|8.5|25.3||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.3|8.5|
92215342|NCT03627767|184330441|SUPERIORITY||Difference in percentage|27.4|||<|0.0001|TWO_SIDED|95.0|20.4|34.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||34.3|20.4|< 0.0001
92215343|NCT03627767|184330441|SUPERIORITY||Difference in percentage|43.8|||<|0.0001|TWO_SIDED|95.0|36.7|50.9||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||50.9|36.7|< 0.0001
92215344|NCT03627767|184330441|SUPERIORITY||Difference in percentage|16.8|||||TWO_SIDED|95.0|8.4|25.2||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.2|8.4|
92215345|NCT03627767|184330442|SUPERIORITY||Difference in percentage|0.3|||=|0.9313|TWO_SIDED|95.0|-7.5|8.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||8.1|-7.5|= 0.9313
92215346|NCT03627767|184330442|SUPERIORITY||Difference in percentage|-2.1|||=|0.6043|TWO_SIDED|95.0|-9.8|5.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||5.7|-9.8|= 0.6043
92215347|NCT03627767|184330442|SUPERIORITY||Difference in percentage|-2.3|||||TWO_SIDED|95.0|-10.0|5.4||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||5.4|-10.0|
92215348|NCT03627767|184330442|SUPERIORITY||Difference in percentage|11.6|||<|0.0001|TWO_SIDED|95.0|6.6|16.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||16.5|6.6|< 0.0001
92215349|NCT03627767|184330442|SUPERIORITY||Difference in percentage|25.3|||<|0.0001|TWO_SIDED|95.0|19.4|31.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||31.2|19.4|< 0.0001
92215350|NCT03627767|184330442|SUPERIORITY||Difference in percentage|13.5|||||TWO_SIDED|95.0|6.6|20.4||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||20.4|6.6|
92215351|NCT03627767|184330442|SUPERIORITY||Difference in percentage|12.9|||<|0.0001|TWO_SIDED|95.0|7.7|18.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||18.0|7.7|< 0.0001
92215352|NCT03627767|184330442|SUPERIORITY||Difference in percentage|26.0|||<|0.0001|TWO_SIDED|95.0|19.9|32.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||32.0|19.9|< 0.0001
92215353|NCT03627767|184330442|SUPERIORITY||Difference in percentage|13.4|||||TWO_SIDED|95.0|6.3|20.6||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||20.6|6.3|
92215354|NCT03627767|184330442|SUPERIORITY||Difference in percentage|11.7|||<|0.0001|TWO_SIDED|95.0|6.5|16.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||16.8|6.5|< 0.0001
92215355|NCT03627767|184330442|SUPERIORITY||Difference in percentage|25.7|||<|0.0001|TWO_SIDED|95.0|19.6|31.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||31.8|19.6|< 0.0001
92215356|NCT03627767|184330442|SUPERIORITY||Difference in percentage|14.1|||||TWO_SIDED|95.0|7.0|21.2||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||21.2|7.0|
92337590|NCT02291029|184576879|SUPERIORITY||Mean Difference (Net)|-5.5||||0.172|TWO_SIDED|95.0|-13.91|2.91|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||2.91|-13.91|0.172
92337591|NCT02291029|184576879|SUPERIORITY||Mean Difference (Net)|3.83||||0.175|TWO_SIDED|95.0|-1.81|9.48|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||9.48|-1.81|0.175
92337592|NCT02291029|184576880|SUPERIORITY||Mean Difference (Net)|-0.07||||0.986|TWO_SIDED|95.0|-8.49|8.35|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||8.35|-8.49|0.986
92337593|NCT02291029|184576880|SUPERIORITY||Mean Difference (Net)|3.83||||0.175|TWO_SIDED|95.0|-1.81|9.48|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||9.48|-1.81|0.175
92337594|NCT02291029|184576881|SUPERIORITY||Mean Difference (Net)|1.34||||0.807|TWO_SIDED|95.0|-10.48|13.15|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||13.15|-10.48|0.807
92337595|NCT02291029|184576881|SUPERIORITY||Mean Difference (Net)|-9.83||||0.074|TWO_SIDED|95.0|-20.66|1.01|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||1.01|-20.66|0.074
92337596|NCT00823264|184576885|SUPERIORITY_OR_OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||0.049
92337597|NCT00856999|184576886|EQUIVALENCE|Non-parametric test equivalent to the dependent t-test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<.001
92337598|NCT00856999|184576887|EQUIVALENCE|Non-parametric test equivalent to the dependent t-test|||||<|0.0004|||||||Wilcoxon (Mann-Whitney)|||||||<.0004
92337599|NCT01065571|184576901|EQUIVALENCE|Non-parametric analysis of interval to relapse||||||0.046||||||result from log rank test|Log Rank|||Kaplan-Meier life table analysis was performed to compare the two groups. The null hypothesis was that there would be no difference in relapses between the two groups during the study.||||0.046
92337600|NCT01065571|184576902|SUPERIORITY|fecal calprotectin (micrograms/gm stool)||||||0.06|||||||t-test, 2 sided|||||||0.06
92337601|NCT01065571|184576903|SUPERIORITY|||||||0.02||||||not adjusted for muliple comparisons, a priori threshold of 0.05|t-test, 2 sided|||paired t-test comparing baseline and value at end of participation||||0.02
92398280|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7908|TWO_SIDED|95.0|0.35|3.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.99|0.35|0.7908
92337602|NCT03280056|184576914|SUPERIORITY||Odds Ratio (OR)|1.33||||0.453|TWO_SIDED|95.0|0.632|2.798|||Chi-squared|||||2.798|0.632|0.453
92398281|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.84||||0.3735|TWO_SIDED|95.0|0.48|7.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.06|0.48|0.3735
92337603|NCT03280056|184576915|SUPERIORITY||Odds Ratio (OR)|0.998||||0.997|TWO_SIDED|95.0|0.416|2.395|||Chi-squared|||||2.395|0.416|0.997
92337604|NCT03280056|184576916|SUPERIORITY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.926||0.693|TWO_SIDED|95.0|-1.47|2.2|||Mixed Models Analysis|||||2.20|-1.47|0.693
92337605|NCT03280056|184576917|SUPERIORITY||Mean Difference (Final Values)|1.53|STANDARD_ERROR_OF_MEAN|6.176||0.804|TWO_SIDED|95.0|-10.65|13.72|||ANCOVA|||||13.72|-10.65|0.804
92337606|NCT00397189|184576947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.6|STANDARD_DEVIATION|47.0|<|0.05|TWO_SIDED|95.0|-25.3|-6.0|||ANCOVA|||The analysis was a comparison of sleep latency as measured by the sleep diary at Visit 3 in the ITT 65-80 population, using a linear regression model with terms for treatment (Circadin® 2mg vs. Placebo) and baseline sleep latency.||-6|-25.3|<0.05
92337607|NCT00872521|184576967|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Chi-squared|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.09
92337608|NCT00872521|184576968|SUPERIORITY_OR_OTHER|||||||0.23|||||||Chi-squared|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.23
92337609|NCT00872521|184576969|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Chi-squared|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.23
92337610|NCT00872521|184576970|SUPERIORITY_OR_OTHER|||||||0.56|||||||Chi-squared|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.56
92337611|NCT00872521|184576971|SUPERIORITY_OR_OTHER|||||||0.01|||||||Log Rank|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.01
92337612|NCT00872521|184576972|SUPERIORITY_OR_OTHER|||||||0.28|||||||Log Rank|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.28
92337613|NCT01029262|184576993|SUPERIORITY||Risk Ratio (RR)|10.616|||<|0.001|TWO_SIDED|95.0|2.639|42.702|||Fisher Exact|p-value is from Fisher's exact test to compare lenalidomide treatment group to placebo group||||42.702|2.639|<0.001
92337614|NCT01029262|184576994|SUPERIORITY|||||||1|||||||Fisher Exact|p-value is from Fisher's exact test to compare lenalidomide treatment group to placebo group.||||||1.000
92337615|NCT01029262|184576995|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.0|||<|0.001|TWO_SIDED|95.0|0.0||NA for risk ratio is due to 0 responder in placebo group.|P-value is from Fisher's exact test to compare the lenalidomide arm to the placebo arm.|Fisher Exact||||||0|< 0.001
92337616|NCT01029262|184576996|SUPERIORITY|||||||0.639|TWO_SIDED||||||Log Rank|p-value from log-rank test to compare lenalidomide and placebo.||||||0.639
92337617|NCT01029262|184576997|SUPERIORITY||Risk Ratio (RR)|1.276||||0.252|TWO_SIDED|95.0|0.867|1.877||p-value is from Fisher's exact test to compare the lenalidomide arm to the placebo arm.|Fisher Exact|||||1.877|0.867|0.252
92337618|NCT01029262|184576999|SUPERIORITY|||||||0.864|TWO_SIDED|||||p-value from log-rank test to compare lenalidomide and placebo.|Log Rank|||||||0.864
92215357|NCT03627767|184330442|SUPERIORITY||Difference in percentage|14.6|||<|0.0001|TWO_SIDED|95.0|9.2|20.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||20.0|9.2|< 0.0001
92215358|NCT03627767|184330442|SUPERIORITY||Difference in percentage|24.5|||<|0.0001|TWO_SIDED|95.0|18.4|30.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||30.5|18.4|< 0.0001
92215359|NCT03627767|184330442|SUPERIORITY||Difference in percentage|10.0|||||TWO_SIDED|95.0|2.7|17.2||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||17.2|2.7|
92337619|NCT01029262|184577000|SUPERIORITY|||||||0.98||||||p-value from log-rank test to compare lenalidomide and placebo.|Log Rank|||||||0.980
92337620|NCT01029262|184577002|SUPERIORITY|||||||0.823|TWO_SIDED||||||Fisher Exact|The p-values are calculated based on the Fisher exact test||Baseline||||0.823
92337621|NCT01029262|184577002|SUPERIORITY|||||||0.371|TWO_SIDED||||||Fisher Exact|The p-values are calculated based on the Fisher exact test||Week 12 (±3 days)||||0.371
92337622|NCT01029262|184577002|SUPERIORITY|||||||0.391|TWO_SIDED||||||Fisher Exact|The p-values are calculated based on the Fisher exact test||Week 24 (±3 days)||||0.391
92337623|NCT01029262|184577002|SUPERIORITY|||||||1|TWO_SIDED||||||Fisher Exact|The p-values are calculated based on the Fisher exact test||Week 36 (±3 days)||||1.000
92398282|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.49||||0.1856|TWO_SIDED|95.0|0.64|9.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.64|0.64|0.1856
92215360|NCT03627767|184330443|SUPERIORITY||Difference in percentage|1.8|||=|0.6082|TWO_SIDED|95.0|-5.0|8.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||8.5|-5.0|= 0.6082
92215361|NCT03627767|184330443|SUPERIORITY||Difference in percentage|0.2|||=|0.964|TWO_SIDED|95.0|-6.7|7.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||7.0|-6.7|= 0.9640
92215362|NCT03627767|184330443|SUPERIORITY||Difference in percentage|-2.4|||||TWO_SIDED|95.0|-9.1|4.4||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||4.4|-9.1|
92215363|NCT03627767|184330443|SUPERIORITY||Difference in percentage|38.9|||<|0.0001|TWO_SIDED|95.0|31.2|46.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||46.5|31.2|< 0.0001
92337624|NCT01029262|184577002|SUPERIORITY|||||||0.508|TWO_SIDED||||||Fisher Exact|The p-values are calculated based on the Fisher exact test||Week 48 (±3 days)||||0.508
92337625|NCT01029262|184577003|SUPERIORITY|||||||0.323|TWO_SIDED||||||ANOVA|P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.||Week 12||||0.323
92337626|NCT01029262|184577003|SUPERIORITY|||||||0.071|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 24||||0.071
92337627|NCT01029262|184577004|SUPERIORITY|||||||0.76|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score|ANOVA|||Week 12||||0.760
92337628|NCT01029262|184577004|SUPERIORITY|||||||0.251|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 24||||0.251
92337629|NCT01029262|184577005|SUPERIORITY|||||||0.424|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 12||||0.424
92337630|NCT01029262|184577005|SUPERIORITY|||||||0.116|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 24||||0.116
92337631|NCT01029262|184577006|SUPERIORITY|||||||0.746|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 12||||0.746
92337632|NCT01029262|184577006|SUPERIORITY|||||||0.46|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||||||0.460
92337633|NCT01029262|184577007|SUPERIORITY|||||||0.265|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 12||||0.265
92337634|NCT01029262|184577007|SUPERIORITY|||||||0.047|TWO_SIDED|||||3\]: P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 24||||0.047
92337635|NCT01029262|184577008|SUPERIORITY|||||||0.2909|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments.|t-test, 2 sided|||Week 12||||0.2909
92337636|NCT01029262|184577008|SUPERIORITY|||||||0.0759|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments.|t-test, 2 sided|||Week 24||||0.0759
92337637|NCT01029262|184577009|SUPERIORITY|||||||0.6957|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments|t-test, 2 sided|||Week 12||||0.6957
92153876|NCT03012061|184193290|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|0.81||0.047|TWO_SIDED|95.0|0.0|3.2|||MMRM||UMEC 31.25 mcg vs Placebo, DBP, Week 24|||3.2|0.0|0.047
92153877|NCT03012061|184193290|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.78||0.779|TWO_SIDED|95.0|-1.3|1.8|||MMRM||UMEC 62.5 mcg versus placebo, DBP, Week 4|||1.8|-1.3|0.779
92153878|NCT03012061|184193290|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|0.82||0.204|TWO_SIDED|95.0|-0.6|2.6|||MMRM||UMEC 62.5 mcg versus placebo, DBP, Week 12|||2.6|-0.6|0.204
92153879|NCT03012061|184193290|SUPERIORITY||Mean Difference (Net)|1.5|STANDARD_ERROR_OF_MEAN|0.81||0.066|TWO_SIDED|95.0|-0.1|3.1|||MMRM||UMEC 62.5 mcg versus placebo, DBP, Week 24|||3.1|-0.1|0.066
92153880|NCT03012061|184193291|SUPERIORITY||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|0.97||0.195|TWO_SIDED|95.0|-0.7|3.2|||MMRM||UMEC 31.25 mcg vs Placebo, Week 4|||3.2|-0.7|0.195
92153881|NCT03012061|184193291|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.84||0.457|TWO_SIDED|95.0|-1.0|2.3|||MMRM||UMEC 31.25 mcg versus Placebo, Week 12|||2.3|-1.0|0.457
92153882|NCT03012061|184193291|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|1.07||0.3|TWO_SIDED|95.0|-1.0|3.2|||MMRM||UMEC 31.25 mcg versus Placebo, Week 24|||3.2|-1.0|0.300
92153883|NCT03012061|184193291|SUPERIORITY||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|0.97||0.14|TWO_SIDED|95.0|-0.5|3.3|||MMRM||UMEC 62.5 mcg versus Placebo, Week 4|||3.3|-0.5|0.140
92153884|NCT03012061|184193291|SUPERIORITY||Mean Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|0.84||0.045|TWO_SIDED|95.0|0.0|3.3|||MMRM||UMEC 62.5 mcg versus Placebo, Week 12|||3.3|0.0|0.045
92153885|NCT03012061|184193291|SUPERIORITY||Mean Difference (Net)|3.4|STANDARD_ERROR_OF_MEAN|1.07||0.002|TWO_SIDED|95.0|1.3|5.5|||MMRM||UMEC 62.5 mcg versus Placebo, Week 24|||5.5|1.3|0.002
92153886|NCT02736968|184193292|SUPERIORITY||Difference in Proportions|0.0|||>|0.999|TWO_SIDED|95.0|-0.12|0.12||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Fisher Exact||Adjusted Wald Intervals|The null hypothesis is that the probability of resolution of diarrhea by Day 5 for participants receiving auranofin is equal to that for those receiving placebo.||0.12|-0.12|>0.999
92153887|NCT02736968|184193293|SUPERIORITY||Difference in Proportions|0.0|||>|0.999|TWO_SIDED|95.0|-0.34|0.34||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Fisher Exact||Adjusted Wald Intervals|The null hypothesis is that the probability of parasitological response by Day 5 for participants receiving auranofin is equal to that for those receiving placebo.||0.34|-0.34|>0.999
92153888|NCT02736968|184193298|SUPERIORITY|||||||0.142||||||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Log Rank|||The null hypothesis is that there is no difference in time to resolution of diarrhea between treatment arms, with a two-sided alternative.||||0.142
92215364|NCT03627767|184330443|SUPERIORITY||Difference in percentage|59.7|||<|0.0001|TWO_SIDED|95.0|52.7|66.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||66.7|52.7|< 0.0001
92153889|NCT02294474|184193312|NON_INFERIORITY|Non-inferiority of SAR342434 over Humalog was demonstrated if upper bound of 2-sided 95% confidence interval(CI) of difference between SAR342434 \& Humalog was \<0.3%.Inverse non-inferiority of Humalog over SAR342434 was tested using hierarchical step-down testing procedure: if non-inferiority of SAR342434 over Humalog was demonstrated,then inverse non-inferiority of Humalog over SAR342434 was tested and demonstrated if lower bound of 2-sided 95% CI of difference between SAR342434 \& Humalog\>-0.3%.|Least Square (LS) Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.072|||TWO_SIDED|95.0|-0.215|0.067|||||SAR342434 vs. Humalog|Analysis was performed using a MMRM approach with treatment groups, randomization strata, visit (Week 12, Week 26) and treatment-by-visit interaction as fixed categorical effects and baseline HbA1c value and baseline HbA1c value-by-visit interaction as continuous fixed covariates. An unstructured correlation matrix was used to model within-participant errors.||0.067|-0.215|
92153890|NCT02041923|184193341|EQUIVALENCE|A t-test was conducted to evaluate equivalency.|Mean Difference (Net)|46.3|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92153891|NCT02023879|184193367|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-56.4|||<|0.0001|TWO_SIDED|95.0|-62.9|-49.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Alirocumab 150 mg Q4W/up to 150 mg Q2W was compared to placebo group using an appropriate contrast statement.||-49.9|-62.9|<0.0001
92153892|NCT02023879|184193368|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.7|||<|0.0001|TWO_SIDED|95.0|-65.6|-53.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-53.8|-65.6|<0.0001
92153893|NCT02023879|184193369|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.9|||<|0.0001|TWO_SIDED|95.0|-51.8|-38.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-38.1|-51.8|<0.0001
92153894|NCT02023879|184193370|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.4|||<|0.0001|TWO_SIDED|95.0|-54.8|-41.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-41.9|-54.8|<0.0001
92153895|NCT02023879|184193371|SUPERIORITY_OR_OTHER||LS Mean Difference|-55.5|||<|0.0001|TWO_SIDED|95.0|-61.1|-49.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-49.8|-61.1|<0.0001
92153896|NCT02023879|184193372|SUPERIORITY_OR_OTHER||LS Mean Difference|-58.6|||<|0.0001|TWO_SIDED|95.0|-63.8|-53.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-53.4|-63.8|<0.0001
92337638|NCT01029262|184577009|SUPERIORITY|||||||0.1729|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments|t-test, 2 sided|||Week 24||||0.1729
92153897|NCT02023879|184193373|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.4|||<|0.0001|TWO_SIDED|95.0|-52.4|-40.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-40.4|-52.4|<0.0001
92153898|NCT02023879|184193374|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.6|||<|0.0001|TWO_SIDED|95.0|-54.3|-42.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-42.8|-54.3|<0.0001
92153899|NCT02023879|184193375|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.0|||<|0.0001|TWO_SIDED|95.0|-54.9|-43.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-43.2|-54.9|<0.0001
92153900|NCT02023879|184193376|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.7|||<|0.0001|TWO_SIDED|95.0|-57.1|-46.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-46.4|-57.1|<0.0001
92153901|NCT02023879|184193377|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.3|||<|0.0001|TWO_SIDED|95.0|-39.8|-30.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.8|-39.8|<0.0001
92153902|NCT02023879|184193378|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.2|||<|0.0001|TWO_SIDED|95.0|-44.3|-32.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-32.1|-44.3|<0.0001
92153903|NCT02023879|184193379|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.9|||<|0.0001|TWO_SIDED|95.0|-43.9|-31.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-31.8|-43.9|<0.0001
92153904|NCT02023879|184193380|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.3|||<|0.0001|TWO_SIDED|95.0|-30.9|-21.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-21.7|-30.9|<0.0001
92153905|NCT02023879|184193381|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|279.8|||<|0.0001|TWO_SIDED|95.0|29.1|2690.1||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||2690.1|29.1|<0.0001
92153906|NCT02023879|184193382|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|354.7|||<|0.0001|TWO_SIDED|95.0|36.2|3479.5||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||3479.5|36.2|<0.0001
92153907|NCT02023879|184193383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|126.0|||<|0.0001|TWO_SIDED|95.0|20.0|9999.0||Threshold for significance at 0.05 level.|Regression, Logistic|LOCF approach followed by logistic regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo (Confidence interval should be read as 20.0 to \>9999)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9999|20.0|<0.0001
92153908|NCT02023879|184193384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|141.5|||<|0.0001|TWO_SIDED|95.0|22.2|9999.0||Threshold for significance at 0.05 level.|Regression, Logistic|LOCF approach followed by logistic regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo (Confidence interval should be read as 20.0 to \>9999)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9999|22.2|<0.0001
92153909|NCT02023879|184193385|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.6||||0.0002|TWO_SIDED|95.0|-29.8|-9.4||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-9.4|-29.8|0.0002
92337639|NCT01029262|184577010|SUPERIORITY|||||||0.3975|TWO_SIDED||||||t-test, 2 sided|P-value is based on a two-sample t-test comparing the difference between treatments.||Week 12||||0.3975
92153910|NCT02023879|184193386|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.9||||0.0892|TWO_SIDED|95.0|-17.1|1.2||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1.2|-17.1|0.0892
92153911|NCT00874432|184193394|SUPERIORITY|||||||0.685|||||||t-test, 2 sided|||p-value for CBPWV between CKD and Control groups||||0.685
92153912|NCT00874432|184193394|SUPERIORITY|||||||0.739|||||||t-test, 2 sided|||p-value for CRPWV between CKD and Control groups||||0.739
92153913|NCT00874432|184193394|SUPERIORITY|||||||0.471|||||||t-test, 2 sided|||p-value for CFPWV between CKD and Control groups||||0.471
92153914|NCT00874432|184193395|SUPERIORITY|||||||0.685|||||||t-test, 2 sided|||This p-value compares the baseline CBPWV measures for the CKD vs Controls group||||0.685
92153915|NCT00874432|184193395|SUPERIORITY|||||||0.869|||||||t-test, 2 sided|||This p-value compares the 12 month CBPWV measures for the CKD vs Controls group||||0.869
92337640|NCT01029262|184577010|SUPERIORITY|||||||0.1714|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments.|t-test, 2 sided|||Week 24||||0.1714
92337641|NCT01029262|184577011|SUPERIORITY|||||||0.6408|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments.|t-test, 2 sided|||Week 12||||0.6408
92337642|NCT01029262|184577011|SUPERIORITY|||||||0.575|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments.|t-test, 2 sided|||Week 24||||0.5750
92337643|NCT01029262|184577012|SUPERIORITY|||||||0.2848|TWO_SIDED||||||t-test, 2 sided|P-value is based on a two-sample t-test comparing the difference between treatments||Week 12||||0.2848
92337644|NCT01029262|184577012|SUPERIORITY|||||||0.1053|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments|t-test, 1 sided|||Week 24||||0.1053
92337645|NCT01029262|184577013|SUPERIORITY|||||||0.042|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 12||||0.042
92337646|NCT01029262|184577013|SUPERIORITY|||||||0.448|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 24||||0.448
92337647|NCT01029262|184577014|SUPERIORITY|||||||0.825|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 12||||0.825
92337648|NCT01029262|184577014|SUPERIORITY|||||||0.568|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 24||||0.568
92337649|NCT01029262|184577015|SUPERIORITY|||||||0.119|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 12||||0.119
92398283|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.67||||0.01798|TWO_SIDED|95.0|0.64|11.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||11.20|0.64|0.01798
92398284|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.19||||0.1101|TWO_SIDED|95.0|0.77|13.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||13.22|0.77|0.1101
92153916|NCT00874432|184193395|SUPERIORITY|||||||0.709|||||||t-test, 2 sided|||This p-value compares the baseline CRPWV measures for the CKD vs Controls group||||0.709
92153917|NCT00874432|184193395|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||This p-value compares the 12 month CBPWV measures for the CKD vs Controls group||||0.340
92153918|NCT00874432|184193395|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||This p-value compares the baseline CFPWV measures for the CKD vs Controls group||||0.730
92153919|NCT00874432|184193395|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||This p-value compares the 12 month CFPWV measures for the CKD vs Controls group||||0.204
92153920|NCT00874432|184193395|SUPERIORITY|||||||0.963|||||||t-test, 2 sided|||This compares the 12 month CBPWV measure of ACE-I CKD and Control groups||||0.963
92153921|NCT00874432|184193395|SUPERIORITY|||||||0.991|||||||t-test, 2 sided|||This compares the 12 month CRPWV measure of ACE-I CKD and Control groups||||0.991
92153922|NCT00874432|184193395|SUPERIORITY|||||||0.176|||||||t-test, 2 sided|||This compares the 12 month CFPWV measure of ACE-I CKD and Control groups||||0.176
92153923|NCT00874432|184193395|SUPERIORITY|||||||0.402|||||||t-test, 2 sided|||This compares the baseline and 12 month CBPWV measure of the ACE-I CKD||||0.402
92153924|NCT00874432|184193395|SUPERIORITY|||||||0.586|||||||t-test, 2 sided|||This compares the baseline and 12 month CRPWV measure of the ACE-I CKD||||0.586
92337650|NCT01029262|184577015|SUPERIORITY|||||||0.172|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 24||||0.172
92337651|NCT01029262|184577016|SUPERIORITY|||||||0.792|TWO_SIDED|||||The P-values were calculated based on Fisher exact test.|Fisher Exact|||Week 12||||0.792
92337652|NCT01029262|184577016|SUPERIORITY|||||||0.279|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 24||||0.279
92337653|NCT01029262|184577017|SUPERIORITY|||||||0.476|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 12||||0.476
92337654|NCT01029262|184577017|SUPERIORITY|||||||0.052|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 24||||0.052
92337655|NCT01029262|184577018|SUPERIORITY||Risk Ratio (RR)|1.759||||0.017|TWO_SIDED|95.0|1.083|2.856||p-value is from Fisher's exact test to compare lenalidomide treatment group to placebo group.|Fisher Exact|||||2.856|1.083|0.017
92337656|NCT01468454|184577026|OTHER||Specificity|89.5|||||TWO_SIDED|95.0|75.2|97.1||||||||97.1|75.2|
92337657|NCT01468454|184577026|OTHER||Sensitivity|83.9|||||TWO_SIDED|95.0|72.3|92.0||||||||92|72.3|
92337658|NCT03428100|184577032|SUPERIORITY||Odds Ratio (OR)|1.78||||0.071|TWO_SIDED|95.0|0.95|3.32|||Regression, Logistic|||||3.32|0.95|0.071
92337659|NCT03428100|184577032|SUPERIORITY||Odds Ratio (OR)|2.15||||0.031|TWO_SIDED|95.0|1.07|4.3|||Regression, Logistic|||||4.30|1.07|0.031
92337660|NCT03428100|184577033|SUPERIORITY||Odds Ratio (OR)|1.34||||0.427|TWO_SIDED|95.0|0.65|2.77|||Regression, Logistic|||||2.77|0.65|0.427
92337661|NCT03428100|184577034|SUPERIORITY||Odds Ratio (OR)|1.35||||0.513|TWO_SIDED|95.0|0.55|3.35|||Regression, Logistic|||||3.35|0.55|0.513
92337662|NCT03428100|184577034|SUPERIORITY||Odds Ratio (OR)|1.6||||0.242|TWO_SIDED|95.0|0.73|3.53|||Regression, Logistic|||||3.53|0.73|0.242
92337663|NCT03428100|184577034|SUPERIORITY||Odds Ratio (OR)|2.54||||0.03|TWO_SIDED|95.0|1.09|5.9|||Regression, Logistic|||||5.90|1.09|0.030
92337664|NCT03428100|184577035|SUPERIORITY||Odds Ratio (OR)|1.32||||0.611|TWO_SIDED|95.0|0.45|3.83|||Regression, Logistic|||||3.83|0.45|0.611
92337665|NCT03428100|184577035|SUPERIORITY||Odds Ratio (OR)|1.59||||0.325|TWO_SIDED|95.0|0.63|3.99|||Regression, Logistic|||||3.99|0.63|0.325
92337666|NCT03428100|184577035|SUPERIORITY||Odds Ratio (OR)|2.29||||0.1|TWO_SIDED|95.0|0.85|6.14|||Regression, Logistic|||||6.14|0.85|0.100
92337667|NCT03428100|184577036|SUPERIORITY||Mean Difference (Final Values)|-17.65|STANDARD_ERROR_OF_MEAN|5.627||0.002|TWO_SIDED|95.0|-28.71|-6.58|||Mixed Models Analysis|||||-6.58|-28.71|0.002
92337668|NCT03428100|184577036|SUPERIORITY||Mean Difference (Final Values)|-13.35|STANDARD_ERROR_OF_MEAN|4.82||0.006|TWO_SIDED|95.0|-22.83|-3.87|||Mixed Models Analysis|||||-3.87|-22.83|0.006
92337669|NCT03428100|184577036|SUPERIORITY||Mean Difference (Final Values)|-20.62|STANDARD_ERROR_OF_MEAN|5.554||0.0002|TWO_SIDED|95.0|-31.54|-9.7|||Mixed Models Analysis|||||-9.70|-31.54|0.0002
92337670|NCT03428100|184577037|SUPERIORITY||Odds Ratio (OR)|4.14||||0.115|TWO_SIDED|95.0|0.71|24.29|||Regression, Logistic|||||24.29|0.71|0.115
92337671|NCT03428100|184577037|SUPERIORITY||Odds Ratio (OR)|5.85||||0.037|TWO_SIDED|95.0|1.11|30.88|||Regression, Logistic|||||30.88|1.11|0.037
92337672|NCT03428100|184577037|SUPERIORITY||Odds Ratio (OR)|4.78||||0.083|TWO_SIDED|95.0|0.81|28.08|||Regression, Logistic|||||28.08|0.81|0.083
92337673|NCT03428100|184577038|SUPERIORITY||Odds Ratio (OR)|3.28||||0.012|TWO_SIDED|95.0|1.29|8.32|||Regression, Logistic|||||8.32|1.29|0.012
92337674|NCT03428100|184577038|SUPERIORITY||Odds Ratio (OR)|3.71||||0.002|TWO_SIDED|95.0|1.59|8.66|||Regression, Logistic|||||8.66|1.59|0.002
92337675|NCT03428100|184577038|SUPERIORITY||Odds Ratio (OR)|6.85||||2e-05|TWO_SIDED|95.0|2.79|16.82|||Regression, Logistic|||||16.82|2.79|0.00002
92337676|NCT03428100|184577039|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.203||0.039|TWO_SIDED|95.0|-0.82|-0.02|||Mixed Models Analysis|||||-0.02|-0.82|0.039
92337677|NCT03428100|184577039|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.175||0.23|TWO_SIDED|95.0|-0.56|0.13|||Mixed Models Analysis|||||0.13|-0.56|0.23
92337678|NCT03428100|184577039|SUPERIORITY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.201||0.0001|TWO_SIDED|95.0|-1.18|-0.39|||Mixed Models Analysis|||||-0.39|-1.18|0.0001
92337679|NCT03428100|184577040|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.388||0.0714|TWO_SIDED|95.0|-1.47|0.06|||Mixed Models Analysis|||||0.06|-1.47|0.0714
92398285|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|2.99||||0.106|TWO_SIDED|95.0|0.79|11.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||11.31|0.79|0.1060
92398286|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.47||||0.5258|TWO_SIDED|95.0|0.45|4.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.86|0.45|0.5258
92398287|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.1||||0.8746|TWO_SIDED|95.0|0.34|3.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.50|0.34|0.8746
92398288|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|0.82||||0.7434|TWO_SIDED|95.0|0.24|2.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.77|0.24|0.7434
92398289|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.9||||0.3211|TWO_SIDED|95.0|0.53|6.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||6.80|0.53|0.3211
92398290|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.51||||0.533|TWO_SIDED|95.0|0.41|5.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.48|0.41|0.5330
92153925|NCT00874432|184193395|SUPERIORITY|||||||0.455|||||||t-test, 2 sided|||This compares the baseline and 12 month CFPWV measure of the ACE-I CKD||||0.455
92153926|NCT00874432|184193395|SUPERIORITY|||||||0.418|||||||t-test, 2 sided|||This compares the baseline and 12 month CBPWV measure of the ACE-I Control Group||||0.418
92153927|NCT00874432|184193395|SUPERIORITY|||||||0.091|||||||t-test, 2 sided|||This compares the baseline and 12 month CRPWV measure of the ACE-I Control Group||||0.091
92337680|NCT03428100|184577040|SUPERIORITY||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.337||0.0134|TWO_SIDED|95.0|-1.5|-0.17|||Mixed Models Analysis|||||-0.17|-1.50|0.0134
92337681|NCT03428100|184577040|SUPERIORITY||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.386||0.0002|TWO_SIDED|95.0|-2.21|-0.69|||Mixed Models Analysis|||||-0.69|-2.21|0.0002
92337682|NCT03428100|184577041|SUPERIORITY||Odds Ratio (OR)|1.71||||0.183|TWO_SIDED|95.0|0.78|3.75|||Regression, Logistic|||||3.75|0.78|0.183
92337683|NCT03428100|184577041|SUPERIORITY||Odds Ratio (OR)|1.54||||0.235|TWO_SIDED|95.0|0.76|3.11|||Regression, Logistic|||||3.11|0.76|0.235
92337684|NCT03428100|184577041|SUPERIORITY||Odds Ratio (OR)|1.01||||0.991|TWO_SIDED|95.0|0.43|2.36|||Regression, Logistic|||||2.36|0.43|0.991
92337685|NCT03428100|184577042|SUPERIORITY||Odds Ratio (OR)|1.41||||0.263|TWO_SIDED|95.0|0.77|2.57|||Regression, Logistic|||||2.57|0.77|0.263
92337686|NCT03428100|184577042|SUPERIORITY||Odds Ratio (OR)|1.89||||0.016|TWO_SIDED|95.0|1.13|3.19|||Regression, Logistic|||||3.19|1.13|0.016
92337687|NCT03428100|184577042|SUPERIORITY||Odds Ratio (OR)|1.93||||0.031|TWO_SIDED|95.0|1.06|3.52|||Regression, Logistic|||||3.52|1.06|0.031
92337688|NCT03428100|184577043|SUPERIORITY||Odds Ratio (OR)|1.97||||0.058|TWO_SIDED|95.0|0.98|3.96|||Regression, Logistic|||||3.96|0.98|0.058
92337689|NCT03428100|184577043|SUPERIORITY||Odds Ratio (OR)|1.77||||0.072|TWO_SIDED|95.0|0.95|3.32|||Regression, Logistic|||||3.32|0.95|0.072
92337690|NCT03428100|184577043|SUPERIORITY||Odds Ratio (OR)|1.56||||0.224|TWO_SIDED|95.0|0.76|3.18|||Regression, Logistic|||||3.18|0.76|0.224
92337691|NCT03428100|184577044|SUPERIORITY||Odds Ratio (OR)|5.03||||0.265|TWO_SIDED|95.0|0.29|86.08|||Regression, Logistic|||||86.08|0.29|0.265
92337692|NCT03428100|184577044|SUPERIORITY||Odds Ratio (OR)|2.54||||0.52|TWO_SIDED|95.0|0.15|43.09|||Regression, Logistic|||||43.09|0.15|0.520
92337693|NCT03428100|184577044|SUPERIORITY||Odds Ratio (OR)|7.17||||0.164|TWO_SIDED|95.0|0.45|99.99|||Regression, Logistic|||||99.99|0.45|0.164
92337694|NCT03428100|184577045|SUPERIORITY||Mean Difference (Final Values)|-6.08|STANDARD_ERROR_OF_MEAN|2.948||0.04|TWO_SIDED|95.0|-11.88|-0.29|||Mixed Models Analysis|||||-0.29|-11.88|0.040
92337695|NCT03428100|184577045|SUPERIORITY||Mean Difference (Final Values)|-6.56|STANDARD_ERROR_OF_MEAN|2.533||0.01|TWO_SIDED|95.0|-11.54|-1.58|||Mixed Models Analysis|||||-1.58|-11.54|0.010
92337696|NCT03428100|184577045|SUPERIORITY||Mean Difference (Final Values)|-9.77|STANDARD_ERROR_OF_MEAN|2.919|<|0.001|TWO_SIDED|95.0|-15.51|-4.03|||Mixed Models Analysis|||||-4.03|-15.51|<0.001
92337697|NCT03428100|184577046|SUPERIORITY||Odds Ratio (OR)|4.75||||0.265|TWO_SIDED|95.0|0.31|73.93|||Regression, Logistic|||||73.93|0.31|0.265
92337698|NCT03428100|184577046|SUPERIORITY||Odds Ratio (OR)|2.5||||0.511|TWO_SIDED|95.0|0.16|38.4|||Regression, Logistic|||||38.40|0.16|0.511
92337699|NCT03428100|184577046|SUPERIORITY||Odds Ratio (OR)|4.95||||0.253|TWO_SIDED|95.0|0.32|77.11|||Regression, Logistic|||||77.11|0.32|0.253
92337700|NCT03428100|184577047|SUPERIORITY||Mean Difference (Final Values)|-6.21|STANDARD_ERROR_OF_MEAN|3.078||0.044|TWO_SIDED|95.0|-12.26|-0.16|||Mixed Models Analysis|||||-0.16|-12.26|0.044
92337701|NCT03428100|184577047|SUPERIORITY||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|2.632||0.037|TWO_SIDED|95.0|-10.67|-0.32|||Mixed Models Analysis|||||-0.32|-10.67|0.037
92337702|NCT03428100|184577047|SUPERIORITY||Mean Difference (Final Values)|-8.41|STANDARD_ERROR_OF_MEAN|3.03||0.006|TWO_SIDED|95.0|-14.37|-2.45|||Mixed Models Analysis|||||-2.45|-14.37|0.006
92337703|NCT03428100|184577048|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>.999
92337704|NCT03428100|184577048|SUPERIORITY|||||||0.797|||||||Fisher Exact|||||||0.797
92337705|NCT03428100|184577048|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>.999
92337706|NCT03428100|184577049|SUPERIORITY||Mean Difference (Final Values)|8.62|STANDARD_ERROR_OF_MEAN|4.49||0.056|TWO_SIDED|95.0|-0.22|17.45|||ANCOVA|||||17.45|-0.22|0.056
92337707|NCT03428100|184577049|SUPERIORITY||Mean Difference (Final Values)|5.48|STANDARD_ERROR_OF_MEAN|3.92||0.164|TWO_SIDED|95.0|-2.24|13.19|||ANCOVA|||||13.19|-2.24|0.164
92337708|NCT03428100|184577049|SUPERIORITY||Mean Difference (Final Values)|7.25|STANDARD_ERROR_OF_MEAN|4.53||0.11|TWO_SIDED|95.0|-1.66|16.15|||ANCOVA|||||16.15|-1.66|0.110
92398291|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|3.0||||0.1119|TWO_SIDED|95.0|0.77|11.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||11.64|0.77|0.1119
92337709|NCT03428100|184577050|SUPERIORITY||Mean Difference (Final Values)|-48.06|STANDARD_ERROR_OF_MEAN|35.63||0.178|TWO_SIDED|95.0|-118.0|21.88|||ANOVA|||||21.88|-118.00|0.178
92337710|NCT03428100|184577050|SUPERIORITY||Mean Difference (Final Values)|-56.9|STANDARD_ERROR_OF_MEAN|30.9||0.066|TWO_SIDED|95.0|-117.56|3.77|||ANOVA|||||3.77|-117.56|0.066
92337711|NCT03428100|184577050|SUPERIORITY||Mean Difference (Final Values)|-71.42|STANDARD_ERROR_OF_MEAN|35.57||0.045|TWO_SIDED|95.0|-141.24|-1.6|||ANOVA|||||-1.60|-141.24|0.045
92337712|NCT03428100|184577051|SUPERIORITY||Mean Difference (Final Values)|-11.32|STANDARD_ERROR_OF_MEAN|6.62||0.088|TWO_SIDED|95.0|-24.33|1.7|||Mixed Models Analysis|||||1.70|-24.33|0.088
92337713|NCT03428100|184577051|SUPERIORITY||Mean Difference (Final Values)|-15.41|STANDARD_ERROR_OF_MEAN|5.725||0.007|TWO_SIDED|95.0|-26.67|-4.16|||Mixed Models Analysis|||||-4.16|-26.67|0.007
92337714|NCT03428100|184577051|SUPERIORITY||Mean Difference (Final Values)|-19.76|STANDARD_ERROR_OF_MEAN|6.583||0.003|TWO_SIDED|95.0|-32.71|-6.82|||Mixed Models Analysis|||||-6.82|-32.71|0.003
92337715|NCT03428100|184577052|SUPERIORITY||Mean Difference (Final Values)|-14.0|STANDARD_ERROR_OF_MEAN|7.263||0.055|TWO_SIDED|95.0|-28.28|0.28|||Mixed Models Analysis|||||0.28|-28.28|0.055
92337716|NCT03428100|184577052|SUPERIORITY||Mean Difference (Final Values)|-14.76|STANDARD_ERROR_OF_MEAN|6.297||0.02|TWO_SIDED|95.0|-27.15|-2.38|||Mixed Models Analysis|||||-2.38|-27.15|0.020
92337717|NCT03428100|184577052|SUPERIORITY||Mean Difference (Final Values)|-17.82|STANDARD_ERROR_OF_MEAN|7.216||0.014|TWO_SIDED|95.0|-32.01|-3.62|||Mixed Models Analysis|||||-3.62|-32.01|0.014
92337718|NCT03428100|184577053|SUPERIORITY||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|1.229||0.095|TWO_SIDED|95.0|-4.47|-0.36|||Mixed Models Analysis|||||-0.36|-4.47|0.095
92337719|NCT03428100|184577053|SUPERIORITY||Mean Difference (Final Values)|-3.09|STANDARD_ERROR_OF_MEAN|1.057||0.004|TWO_SIDED|95.0|-5.16|-1.01|||Mixed Models Analysis|||||-1.01|-5.16|0.004
92337720|NCT03428100|184577053|SUPERIORITY||Mean Difference (Final Values)|-5.09|STANDARD_ERROR_OF_MEAN|1.216|<|0.001|TWO_SIDED|95.0|-7.48|-2.7|||Mixed Models Analysis|||||-2.70|-7.48|<0.001
92337721|NCT03428100|184577054|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.146||0.097|TWO_SIDED|95.0|-0.53|0.04|||Mixed Models Analysis|||||0.04|-0.53|0.097
92337722|NCT03428100|184577054|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.126||0.033|TWO_SIDED|95.0|-0.52|-0.02|||Mixed Models Analysis|||||-0.02|-0.52|0.033
92337723|NCT03428100|184577054|SUPERIORITY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.145|<|0.001|TWO_SIDED|95.0|-0.86|-0.29|||Mixed Models Analysis|||||-0.29|-0.86|<0.001
92337724|NCT03428100|184577055|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.516||0.272|TWO_SIDED|95.0|-1.58|0.45|||Mixed Models Analysis|||Anxiety||0.45|-1.58|0.272
92337725|NCT03428100|184577055|SUPERIORITY||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.446||0.013|TWO_SIDED|95.0|-1.99|-0.24|||Mixed Models Analysis|||Anxiety||-0.24|-1.99|0.013
92337726|NCT03428100|184577055|SUPERIORITY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.511||0.099|TWO_SIDED|95.0|-1.85|0.16|||Mixed Models Analysis|||Anxiety||0.16|-1.85|0.099
92337727|NCT03428100|184577055|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.519||0.584|TWO_SIDED|95.0|-1.3|0.74|||Mixed Models Analysis|||Depression||0.74|-1.30|0.584
92337728|NCT03428100|184577055|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.448||0.162|TWO_SIDED|95.0|-1.51|0.25|||Mixed Models Analysis|||Depression||0.25|-1.51|0.162
92337729|NCT03428100|184577055|SUPERIORITY||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|0.515||0.024|TWO_SIDED|95.0|-2.18|-0.15|||Mixed Models Analysis|||Depression||-0.15|-2.18|0.024
92337730|NCT03428100|184577056|SUPERIORITY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|1.018||0.228|TWO_SIDED|95.0|-3.23|0.77|||Mixed Models Analysis|||||0.77|-3.23|0.228
92337731|NCT03428100|184577056|SUPERIORITY||Mean Difference (Final Values)|-1.62|STANDARD_ERROR_OF_MEAN|0.876||0.065|TWO_SIDED|95.0|-3.35|0.1|||Mixed Models Analysis|||||0.10|-3.35|0.065
92337732|NCT03428100|184577056|SUPERIORITY||Mean Difference (Final Values)|-3.01|STANDARD_ERROR_OF_MEAN|1.007||0.003|TWO_SIDED|95.0|-4.99|-1.02|||Mixed Models Analysis|||||-1.02|-4.99|0.003
92337733|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|3.339||0.784|TWO_SIDED|95.0|-7.5|5.67|||Mixed Models Analysis|||Change from Baseline (CFB) Absenteeism||5.67|-7.50|0.784
92337734|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|1.79|STANDARD_ERROR_OF_MEAN|2.813||0.525|TWO_SIDED|95.0|-3.75|7.34|||Mixed Models Analysis|||CFB Absenteeism||7.34|-3.75|0.525
92337735|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|3.204||0.947|TWO_SIDED|95.0|-6.11|6.53|||Mixed Models Analysis|||CFB Absenteeism||6.53|-6.11|0.947
92398292|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.76||||0.354|TWO_SIDED|95.0|0.53|5.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.85|0.53|0.3540
92153928|NCT00874432|184193395|SUPERIORITY|||||||0.034|||||||t-test, 2 sided|||This compares the baseline and 12 month CFPWV measure of the ACE-I Control Group||||0.034
92153929|NCT00874432|184193395|SUPERIORITY|||||||0.921|||||||t-test, 2 sided|||This compares the 12 month CBPWV measure of the CKD and Control groups||||0.921
92153930|NCT00874432|184193395|SUPERIORITY|||||||0.887|||||||t-test, 2 sided|||This compares the 12 month CRPWV measure of the CKD and Control groups||||0.887
92153931|NCT00874432|184193395|SUPERIORITY|||||||0.759|||||||t-test, 2 sided|||This compares the 12 month CFPWV measure of the CKD and Control groups||||0.759
92153932|NCT00874432|184193395|SUPERIORITY|||||||0.851|||||||t-test, 2 sided|||This compares the baseline and 12 month CBPWV measure of the Control groups||||0.851
92153933|NCT00874432|184193395|SUPERIORITY|||||||0.733|||||||t-test, 2 sided|||This compares the baseline and 12 month CRPWV measure of the Control groups||||0.733
92153934|NCT00874432|184193395|SUPERIORITY|||||||0.902|||||||t-test, 2 sided|||This compares the baseline and 12 month CFPWV measure of the Control groups||||0.902
92153935|NCT00874432|184193395|SUPERIORITY|||||||0.414|||||||t-test, 2 sided|||This compares the 12 month CBPWV measure between the CKD ACE-I and CKD Control groups.||||0.414
92153936|NCT00874432|184193395|SUPERIORITY|||||||0.942|||||||t-test, 2 sided|||This compares the 12 month CRPWV measure between the CKD ACE-I and CKD Control groups.||||0.942
92337736|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|3.06|STANDARD_ERROR_OF_MEAN|4.409||0.488|TWO_SIDED|95.0|-5.62|11.74|||Mixed Models Analysis|||CFB Presenteeism||11.74|-5.62|0.488
92153937|NCT00874432|184193395|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||This compares the 12 month CFPWV measure between the CKD ACE-I and CKD Control groups.||||0.990
92153938|NCT00874432|184193395|SUPERIORITY|||||||0.273|||||||t-test, 2 sided|||This compares the 12 month CBPWV measure between the ACE-I Control and CKD Control groups.||||0.273
92153939|NCT00874432|184193395|SUPERIORITY|||||||0.516|||||||t-test, 2 sided|||This compares the 12 month CRPWV measure between the ACE-I Control and CKD Control groups.||||0.516
92153940|NCT00874432|184193395|SUPERIORITY|||||||0.102|||||||t-test, 2 sided|||This compares the 12 month CFPWV measure between the ACE-I Control and CKD Control groups.||||0.102
92153941|NCT00802737|184193430|SUPERIORITY_OR_OTHER||proportion of responders|0.24|||||TWO_SIDED|95.0|0.07|0.5|||||Two-sided 95% exact confidence intervals were calculated based on the binomial distribution. The estimated value was calculated using the number of responders (CR+nPR+PR) as the numerator and the total number of par. in the group as the denominator.|||0.50|0.07|
92153942|NCT00802737|184193430|SUPERIORITY_OR_OTHER||proportion of responders|0.18|||||TWO_SIDED|95.0|0.02|0.52|||||Two-sided 95% exact confidence intervals were calculated based on the binomial distribution. The estimated value was calculated using the number of responders (CR+nPR+PR) as the numerator and the total number of par. in the group as the denominator.|||0.52|0.02|
92153943|NCT00802737|184193430|SUPERIORITY_OR_OTHER||proportion of responders|1.0|||||TWO_SIDED|95.0|0.03|1.0|||||Two-sided 95% exact confidence intervals were calculated based on the binomial distribution. The estimated value was calculated using the number of responders (CR+nPR+PR) as the numerator and the total number of par. in the group as the denominator.|||1.00|0.03|
92153944|NCT00445601|184193446|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.01|TWO_SIDED|95.0|0.48|0.9|||Log Rank|||||0.90|0.48|0.01
92153945|NCT00445601|184193447|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.23|TWO_SIDED|95.0|0.18|1.49|||Log Rank|||||1.49|0.18|0.23
92153946|NCT00619476|184193453|SUPERIORITY_OR_OTHER||Adjusted Mean difference versus placebo|-0.81||||0.013|TWO_SIDED|95.0|-1.4|-0.23||This p-value has been adjusted for multiplicity using a step-down procedure that uses Dunnett's test within a closed testing scheme for multiple comparisons with a common control in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|An ANCOVA model with body mass index (BMI), baseline 24-hour average pain intensity, and grouped center as covariates was used.||||-0.23|-1.40|0.013
92215365|NCT03627767|184330443|SUPERIORITY||Difference in percentage|20.9|||||TWO_SIDED|95.0|12.7|29.0||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||29.0|12.7|
92337737|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|3.72||0.936|TWO_SIDED|95.0|-7.02|7.62|||Mixed Models Analysis|||CFB Presenteeism||7.62|-7.02|0.936
92153947|NCT00619476|184193453|SUPERIORITY_OR_OTHER||Adjusted Mean difference versus placebo|-0.7||||0.029|TWO_SIDED|95.0|-1.33|-0.07||This p-value has been adjusted for multiplicity using a step-down procedure that uses Dunnett's test within a closed testing scheme for multiple comparisons with a common control in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|An ANCOVA model with body mass index (BMI), baseline 24-hour average pain intensity, and grouped center as covariates was used.||||-0.07|-1.33|0.029
92337738|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|4.267||0.991|TWO_SIDED|95.0|-8.35|8.45|||Mixed Models Analysis|||CFB Presenteeism||8.45|-8.35|0.991
92337739|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|1.15|STANDARD_ERROR_OF_MEAN|4.938||0.816|TWO_SIDED|95.0|-8.57|10.88|||Mixed Models Analysis|||CFB Work Productivity Loss||10.88|-8.57|0.816
92337740|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|4.178||0.971|TWO_SIDED|95.0|-8.08|8.38|||Mixed Models Analysis|||CFB Work Productivity Loss||8.38|-8.08|0.971
92337741|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|4.804||0.852|TWO_SIDED|95.0|-10.36|8.56|||Mixed Models Analysis|||CFB Work Productivity Loss||8.56|-10.36|0.852
92337742|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|-1.99|STANDARD_ERROR_OF_MEAN|3.877||0.607|TWO_SIDED|95.0|-9.61|5.63|||Mixed Models Analysis|||CFB Activity Impairment||5.63|-9.61|0.607
92337743|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|-4.4|STANDARD_ERROR_OF_MEAN|3.319||0.186|TWO_SIDED|95.0|-10.92|2.12|||Mixed Models Analysis|||CFB Activity Impairment||2.12|-10.92|0.186
92337744|NCT03428100|184577057|SUPERIORITY||Mean Difference (Final Values)|-7.45|STANDARD_ERROR_OF_MEAN|3.82||0.052|TWO_SIDED|95.0|-14.96|0.06|||Mixed Models Analysis|||CFB Activity Impairment||0.06|-14.96|0.052
92337745|NCT03428100|184577058|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.022||0.131|TWO_SIDED|95.0|-0.01|0.08|||Mixed Models Analysis|||CFB US Health State Index||0.08|-0.01|0.131
92337746|NCT03428100|184577058|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.019||0.017|TWO_SIDED|95.0|0.01|0.08|||Mixed Models Analysis|||CFB US Health State Index||0.08|0.01|0.017
92337747|NCT03428100|184577058|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.022||0.003|TWO_SIDED|95.0|0.02|0.11|||Mixed Models Analysis|||CFB US Health State Index||0.11|0.02|0.003
92337748|NCT03428100|184577058|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.031||0.102|TWO_SIDED|95.0|-0.01|0.11|||Mixed Models Analysis|||CFB UK Health State Index||0.11|-0.01|0.102
92337749|NCT03428100|184577058|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.027||0.014|TWO_SIDED|95.0|0.01|0.12|||Mixed Models Analysis|||CFB UK Health State Index||0.12|0.01|0.014
92337750|NCT03428100|184577058|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.031||0.003|TWO_SIDED|95.0|0.03|0.15|||Mixed Models Analysis|||CFB UK Health State Index||0.15|0.03|0.003
92398293|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|0.65||||0.5076|TWO_SIDED|95.0|0.19|2.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.29|0.19|0.5076
92153948|NCT00619476|184193453|SUPERIORITY_OR_OTHER||Adjusted Mean difference versus placebo|-1.07||||0.002|TWO_SIDED|95.0|-1.68|-0.45||This p-value has been adjusted for multiplicity using a step-down procedure that uses Dunnett's test within a closed testing scheme for multiple comparisons with a common control in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|An ANCOVA model with body mass index (BMI), baseline 24-hour average pain intensity, and grouped center as covariates was used.||||-0.45|-1.68|0.002
92215366|NCT03627767|184330443|SUPERIORITY||Difference in percentage|33.9|||<|0.0001|TWO_SIDED|95.0|26.6|41.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||41.2|26.6|< 0.0001
92337751|NCT03428100|184577059|SUPERIORITY||Mean Difference (Final Values)|3.99|STANDARD_ERROR_OF_MEAN|3.256||0.221|TWO_SIDED|95.0|-2.41|10.39|||Mixed Models Analysis|||||10.39|-2.41|0.221
92337752|NCT03428100|184577059|SUPERIORITY||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|2.807||0.689|TWO_SIDED|95.0|-4.4|6.65|||Mixed Models Analysis|||||6.65|-4.40|0.689
92337753|NCT03428100|184577059|SUPERIORITY||Mean Difference (Final Values)|3.39|STANDARD_ERROR_OF_MEAN|3.226||0.294|TWO_SIDED|95.0|-2.95|9.74|||Mixed Models Analysis|||||9.74|-2.95|0.294
92337754|NCT03428100|184577060|SUPERIORITY||Odds Ratio (OR)|1.33||||0.382|TWO_SIDED|95.0|0.7|2.54|||Regression, Logistic|||||2.54|0.70|0.382
92337755|NCT03428100|184577060|SUPERIORITY||Odds Ratio (OR)|1.15||||0.638|TWO_SIDED|95.0|0.65|2.02|||Regression, Logistic|||||2.02|0.65|0.638
92337756|NCT03428100|184577060|SUPERIORITY||Odds Ratio (OR)|1.56||||0.169|TWO_SIDED|95.0|0.83|2.96|||Regression, Logistic|||||2.96|0.83|0.169
92337757|NCT03428100|184577061|SUPERIORITY||LS Mean Difference (Final Values)|-7.36|STANDARD_ERROR_OF_MEAN|9.674||0.447|TWO_SIDED|95.0|-26.38|11.66|||Regression, Linear|||||11.66|-26.38|0.447
92337758|NCT03428100|184577061|SUPERIORITY||LS Mean Difference (Final Values)|-3.88|STANDARD_ERROR_OF_MEAN|8.454||0.646|TWO_SIDED|95.0|-20.5|12.74|||Regression, Linear|||||12.74|-20.50|0.646
92337759|NCT03428100|184577061|SUPERIORITY||LS Mean Difference (Final Values)|-17.18|STANDARD_ERROR_OF_MEAN|9.64||0.075|TWO_SIDED|95.0|-36.14|1.77|||Regression, Linear|||||1.77|-36.14|0.075
92337760|NCT03990051|184577104|SUPERIORITY|Comparison of changes in score from baseline, Active - Placebo.||||||0.0197|||||||Mixed Models Analysis|||||||0.0197
92337761|NCT03990051|184577105|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0039|||||||Mixed Models Analysis|||||||0.0039
92337762|NCT03990051|184577106|SUPERIORITY|Comparison of changes in score from baseline.|||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92337763|NCT03990051|184577107|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0002|||||||ANCOVA|||||||0.0002
92337764|NCT03990051|184577108|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0138|||||||Mixed Models Analysis|||||||0.0138
92337765|NCT03990051|184577109|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0014|||||||Mixed Models Analysis|||||||0.0014
92337766|NCT03990051|184577110|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0849|||||||Mixed Models Analysis|||||||0.0849
92337767|NCT03990051|184577111|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0041|||||||Mixed Models Analysis|||||||0.0041
92337768|NCT03990051|184577112|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0006|||||||Mixed Models Analysis|||||||0.0006
92337769|NCT03990051|184577113|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0143|||||||Mixed Models Analysis|||||||0.0143
92337770|NCT03990051|184577114|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0398|||||||Mixed Models Analysis|||||||0.0398
92337771|NCT03990051|184577115|SUPERIORITY|Comparison of changes in score from baseline.||||||-3.97|||||||Mixed Models Analysis|||||||-3.97
92337772|NCT03990051|184577116|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0005|||||||Mixed Models Analysis|||||||0.0005
92337773|NCT03990051|184577117|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0005|||||||Mixed Models Analysis|||||||0.0005
92337774|NCT03990051|184577118|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0067|||||||Mixed Models Analysis|||||||0.0067
92337775|NCT03990051|184577119|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0636|||||||Mixed Models Analysis|||||||0.0636
92337776|NCT03990051|184577120|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0028|||||||Mixed Models Analysis|||||||0.0028
92337777|NCT03990051|184577121|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0067|||||||Mixed Models Analysis|||||||0.0067
92337778|NCT03990051|184577122|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0105|||||||Mixed Models Analysis|||||||0.0105
92337779|NCT03990051|184577123|SUPERIORITY|Comparison of changes in score from baseline.||||||0.001|||||||Mixed Models Analysis|||||||0.0010
92337780|NCT03990051|184577124|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0155|||||||Mixed Models Analysis|||||||0.0155
92337781|NCT03990051|184577125|SUPERIORITY|Comparison of changes in score from baseline.||||||0.016|||||||Mixed Models Analysis|||||||0.0160
92337782|NCT03990051|184577126|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0117|||||||Mixed Models Analysis|||||||0.0117
92337783|NCT03990051|184577127|SUPERIORITY|Comparison of changes in score from baseline.||||||0.4649|||||||Mixed Models Analysis|||||||0.4649
92337784|NCT03990051|184577128|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0082|||||||Mixed Models Analysis|||||||0.0082
92337785|NCT03990051|184577129|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0225|||||||Mixed Models Analysis|||||||0.0225
92398294|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|0.71||||0.5801|TWO_SIDED|95.0|0.21|2.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.41|0.21|0.5801
92153949|NCT00214903|184193499|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a non-inferiority test to exclude a two-fold risk of cardiovascular events in users of DRSP/E2 compared to other oral continuous combined HRT. These calculations are based on the following assumptions: 1) one-sided α 0.05; 2) power (1-β) of 0.80; 3) Estimated incidence of cardiovascular events, ATE and VTE would be at least 1.0, 0.3 and 0.2 event/100 woman-years and 4) non-inferiority limit hazard ratio of 2.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.3|||||Hazard ratio was adjusted for age, BMI, duration of current use, family history of VTE, region, and HRT user status.|Tested null hypotheses: the VTE hazard ratio for DRSP/E2 vs. ooccHRT is higher or equal to 2.||1.3|0.5|
92337786|NCT03990051|184577130|SUPERIORITY|Comparison of changes in score from baseline.||||||0.1822|||||||Mixed Models Analysis|||||||0.1822
92337787|NCT03990051|184577131|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0515|||||||Mixed Models Analysis|||||||0.0515
92337788|NCT03990051|184577132|SUPERIORITY|Comparison of changes in score from baseline.||||||0.044|||||||Mixed Models Analysis|||||||0.044
92337789|NCT03990051|184577133|SUPERIORITY|Comparison of changes of score from baseline.||||||0.083|||||||Mixed Models Analysis|||||||0.083
92337790|NCT03990051|184577134|SUPERIORITY|Comparison of changes in score from baseline.||||||0.7147|||||||Mixed Models Analysis|||||||0.7147
92337791|NCT03990051|184577135|SUPERIORITY|Comparison of changes in score from baseline.||||||0.8251|||||||Mixed Models Analysis|||||||0.8251
92337792|NCT03990051|184577136|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0435|||||||Mixed Models Analysis|||||||0.0435
92337793|NCT03990051|184577137|SUPERIORITY|Comparison of changes in score from baseline.||||||0.013|||||||Mixed Models Analysis|||||||0.0130
92337794|NCT03990051|184577138|SUPERIORITY|Comparison of changes in score from baseline.||||||0.3205|||||||Mixed Models Analysis|||||||0.3205
92337795|NCT03990051|184577139|SUPERIORITY|Comparison of changes in score from baseline.||||||0.1401|||||||Mixed Models Analysis|||||||0.1401
92337796|NCT03990051|184577140|SUPERIORITY|Comparison in changes in score from baseline.||||||0.0098|||||||ANCOVA|||||||0.0098
92337797|NCT03990051|184577141|SUPERIORITY|Comparison of changes in score from baseline.||||||0.1032|||||||Mixed Models Analysis|||||||0.1032
92337798|NCT03990051|184577142|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0389|||||||Mixed Models Analysis|||||||0.0389
92337799|NCT03990051|184577143|OTHER||||||<|1e-05|||||||t-test, 2 sided|||Score in 1 year compared to baseline||||<0.00001
92337800|NCT03990051|184577144|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337801|NCT03990051|184577145|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337802|NCT03990051|184577146|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337803|NCT03990051|184577147|OTHER|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
92337804|NCT03990051|184577148|OTHER|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92337805|NCT03990051|184577149|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337806|NCT03990051|184577150|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337807|NCT03990051|184577151|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337808|NCT03990051|184577152|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337809|NCT03990051|184577153|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337810|NCT03990051|184577154|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337811|NCT03990051|184577155|OTHER|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92337812|NCT03990051|184577156|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337813|NCT03990051|184577157|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337814|NCT03990051|184577158|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337815|NCT03990051|184577159|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337816|NCT03990051|184577160|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
92337817|NCT01411852|184577162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.39|||||TWO_SIDED|95.0|0.12|1.25|||||Adjusted for age (linear spline with knot at 45 years), penetrating vs. blunt or no trauma (1 patient had neither blunt nor penetrating trauma), and Injury Severity Score (ISS). ISS multiply imputed for one patient.|||1.25|0.12|
92337818|NCT01411852|184577163|SUPERIORITY_OR_OTHER||percent difference|-16.0|||||TWO_SIDED|95.0|-26.5|-5.5||||||||-5.5|-26.5|
92337819|NCT01411852|184577164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18|||||TWO_SIDED|95.0|-2.76|0.4||||||||0.40|-2.76|
92337820|NCT01411852|184577165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|||||TWO_SIDED|95.0|-1.61|0.08||||||||0.08|-1.61|
92337821|NCT01411852|184577166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-1.8|2.2||||||||2.2|-1.8|
92337822|NCT01411852|184577167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.3|1.0||||||||1.0|-0.3|
92337823|NCT01411852|184577168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.4|||||TWO_SIDED|95.0|-42.5|1.6||||||||1.6|-42.5|
92337824|NCT01411852|184577169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.06|0.1||||||||0.10|-0.06|
92337825|NCT01411852|184577170|SUPERIORITY_OR_OTHER||percent difference|-10.2|||||TWO_SIDED|95.0|-22.4|2.0||||||||2.0|-22.4|
92337826|NCT01411852|184577171|SUPERIORITY_OR_OTHER||percent difference|-18.9|||||TWO_SIDED|95.0|-39.2|1.4||||||||1.4|-39.2|
92337827|NCT01411852|184577172|SUPERIORITY_OR_OTHER||percent difference|-10.4|||||TWO_SIDED|95.0|-29.6|8.8||||||||8.8|-29.6|
92337828|NCT01411852|184577173|SUPERIORITY_OR_OTHER||percent difference|-4.4|||||TWO_SIDED|95.0|-16.6|7.8||||||||7.8|-16.6|
92337829|NCT01411852|184577174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-3.8|2.1||||||||2.1|-3.8|
92337830|NCT01411852|184577175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-3.6|2.4||||||||2.4|-3.6|
92337831|NCT01411852|184577176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-2.9|3.1||||||||3.1|-2.9|
92337832|NCT01411852|184577177|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.17|||||TWO_SIDED|95.0|0.03|0.92|||||Adjusted for age (linear spline with knot at 45 years) and Injury Severity Score (ISS). ISS multiply imputed for one patient.|||0.92|0.03|
92398295|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|0.48||||0.2785|TWO_SIDED|95.0|0.13|1.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.82|0.13|0.2785
92153950|NCT00214903|184193500|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a non-inferiority test to exclude a two-fold risk of cardiovascular events in users of DRSP/E2 compared to other oral continuous combined HRT. These calculations are based on the following assumptions: 1) one-sided α 0.05; 2) power (1-β) of 0.80; 3) Estimated incidence of cardiovascular events, ATE and VTE would be at least 1.0, 0.3 and 0.2 event/100 woman-years and 4) non-inferiority limit hazard ratio of 2.|Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.3|0.8|||||Hazard ratio was adjusted for age, BMI, hypertension, diabetes, family history of fatal ATE, region, and smoking.|Tested null hypotheses: the ATE hazard ratio for DRSP/E2 vs. ooccHRT is higher or equal to 2.||0.8|0.3|
92215367|NCT03627767|184330443|SUPERIORITY||Difference in percentage|55.3|||<|0.0001|TWO_SIDED|95.0|48.2|62.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||62.3|48.2|< 0.0001
92337833|NCT01411852|184577178|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92|||||TWO_SIDED|95.0|0.19|19.11|||||Adjusted for age (linear spline with knot at 45 years) and Injury Severity Score (ISS).|||19.11|0.19|
92337834|NCT01411852|184577179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62|||||TWO_SIDED|95.0|0.22|1.77|||||Adjusted for age (linear spline with knot at 45 years), penetrating mechanism (yes/no), and ISS (linear).|||1.77|0.22|
92337835|NCT03193047|184577183|SUPERIORITY||Least squares mean difference|-30.261|STANDARD_ERROR_OF_MEAN|5.502|<|0.001|TWO_SIDED|95.0|-41.324|-19.199|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|||-19.199|-41.324|<0.001
92337836|NCT03193047|184577184|SUPERIORITY||Lease squares mean difference|-35.884|STANDARD_ERROR_OF_MEAN|5.159|<|0.001|TWO_SIDED|95.0|-46.303|-25.466|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|||-25.466|-46.303|<0.001
92337837|NCT03193047|184577185|SUPERIORITY||Least squares mean difference|-38.25|STANDARD_ERROR_OF_MEAN|5.602|<|0.001|TWO_SIDED|95.0|-49.558|-26.944|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|Month 1||-26.944|-49.558|<0.001
92337838|NCT03193047|184577185|SUPERIORITY||Least squares mean difference|-29.9|STANDARD_ERROR_OF_MEAN|5.606|<|0.001|TWO_SIDED|95.0|-41.176|-18.626|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|Month 2||-18.626|-41.176|<0.001
92337839|NCT03193047|184577186|SUPERIORITY||Least squares mean difference|-27.031|STANDARD_ERROR_OF_MEAN|5.15|<|0.001|TWO_SIDED|95.0|-37.509|-16.553|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|Apo B at Month 1||-16.553|-37.509|<0.001
92337840|NCT03193047|184577186|SUPERIORITY||Least squares mean difference|-24.469|STANDARD_ERROR_OF_MEAN|4.33|<|0.001|TWO_SIDED|95.0|-33.225|-15.713|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|Apo B at Month 2||-15.713|-33.225|<0.001
92337841|NCT03193047|184577186|SUPERIORITY||Least squares mean difference|-31.64|STANDARD_ERROR_OF_MEAN|4.689|<|0.001|TWO_SIDED|95.0|-41.116|-22.163|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|non-HDL-C at Month 1||-22.163|-41.116|<0.001
92337842|NCT03193047|184577186|SUPERIORITY||Least squares mean difference|-24.246|STANDARD_ERROR_OF_MEAN|4.838|<|0.001|TWO_SIDED|95.0|-33.987|-14.505|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|non-HDL-C at Month 2||-14.505|-33.987|<0.001
92337843|NCT03193047|184577186|SUPERIORITY||Least squares mean difference|-21.941|STANDARD_ERROR_OF_MEAN|3.572|<|0.001|TWO_SIDED|95.0|-29.153|-14.729|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|TC at Month 1||-14.729|-29.153|<0.001
92337844|NCT03193047|184577186|SUPERIORITY||Least squares mean difference|-17.52|STANDARD_ERROR_OF_MEAN|3.809|<|0.001|TWO_SIDED|95.0|-25.201|-9.839|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|TC at Month 2||-9.839|-25.201|<0.001
92337845|NCT03193047|184577187|SUPERIORITY||Median treatment difference|-32.479|STANDARD_ERROR_OF_MEAN|17.395||0.046|TWO_SIDED|95.0|-70.524|-2.339|||Wilcoxon rank sum test||The median treatment difference (location shift) and the 95% confidence limits are from Hodges-Lehmann estimates.|hs-CRP at Month 1||-2.339|-70.524|0.046
92337846|NCT03193047|184577187|SUPERIORITY||Median treatment difference|-28.512|STANDARD_ERROR_OF_MEAN|12.124||0.029|TWO_SIDED|95.0|-51.455|-3.93|||Wilcoxon rank sum test||The median treatment difference (location shift) and the 95% confidence limits are from Hodges-Lehmann estimates.|hs-CRP at Month 2||-3.930|-51.455|0.029
92337847|NCT00996034|184577219|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||This is a comparison of scan 1 and scan 2||||<0.05
92337848|NCT01720524|184577220|SUPERIORITY||Least square (LS) mean difference|0.0|STANDARD_ERROR_OF_MEAN|1.02||0.985|TWO_SIDED|95.0|-2.08|2.04|||ANCOVA|||||2.04|-2.08|0.9850
92337849|NCT01720524|184577221|SUPERIORITY||Difference in percentage|7.6||||0.4935|TWO_SIDED|95.0|-14.1|29.3|||Chi-squared|||||29.3|-14.1|0.4935
92337850|NCT01720524|184577222|SUPERIORITY|||||||0.9885|||||||Log Rank|||||||0.9885
92337851|NCT01720524|184577223|SUPERIORITY|||||||0.491|||||||Log Rank|||||||0.4910
92337852|NCT01720524|184577224|SUPERIORITY||Difference in Percentage|3.8||||0.7065|TWO_SIDED|95.0|-15.2|22.9|||Fisher Exact|||Additional Treatment||22.9|-15.2|0.7065
92337853|NCT01720524|184577224|SUPERIORITY||Difference in Percentage|0.3|||>|0.999|TWO_SIDED|95.0|-18.5|18.5|||Fisher Exact|||ECMO||18.5|-18.5|>0.999
92337854|NCT01720524|184577224|SUPERIORITY||Difference in Percentage|6.9||||0.2373|TWO_SIDED|95.0|-5.5|22.8|||Fisher Exact|||Death||22.8|-5.5|0.2373
92337855|NCT01720524|184577225|SUPERIORITY||LS Mean Difference|3.9||||0.4984|TWO_SIDED|95.0|-7.5|15.3|||ANCOVA|||Hour 6||15.3|-7.5|0.4984
92337856|NCT01720524|184577225|SUPERIORITY||LS Mean Difference|4.1||||0.3956|TWO_SIDED|95.0|-5.5|13.7|||ANCOVA|||Hour 12||13.7|-5.5|0.3956
92337857|NCT01720524|184577225|SUPERIORITY||LS Mean Difference|-2.2||||0.4249|TWO_SIDED|95.0|-7.6|3.3|||ANCOVA|||Hour 24||3.3|-7.6|0.4249
92337858|NCT01720524|184577226|SUPERIORITY||LS Mean Difference|0.7||||0.7686|TWO_SIDED|95.0|-4.3|5.8|||ANCOVA|||Hour 6||5.8|-4.3|0.7686
92337859|NCT01720524|184577226|SUPERIORITY||LS Mean Difference|-8.0||||0.1112|TWO_SIDED|95.0|-17.8|1.9|||ANCOVA|||Hour 12||1.9|-17.8|0.1112
92337860|NCT01720524|184577226|SUPERIORITY||LS Mean Difference|-8.2||||0.2089|TWO_SIDED|95.0|-21.2|4.8|||ANCOVA|||Hour 24||4.8|-21.2|0.2089
92337861|NCT01720524|184577227|SUPERIORITY||LS Mean Difference|37.2||||0.0829|TWO_SIDED|95.0|-5.0|79.5|||ANCOVA|||Hour 6||79.5|-5.0|0.0829
92337862|NCT01720524|184577227|SUPERIORITY||LS Mean Difference|26.6||||0.1802|TWO_SIDED|95.0|-12.7|65.9|||ANCOVA|||Hour 12||65.9|-12.7|0.1802
92337863|NCT01720524|184577227|SUPERIORITY||LS Mean Difference|79.9||||0.1576|TWO_SIDED|95.0|-32.5|192.2|||ANCOVA|||Hour 24||192.2|-32.5|0.1576
92337864|NCT00527826|184577261|NON_INFERIORITY_OR_EQUIVALENCE|Negative binomial model for the rate of exacerbations (per year) using the treatment duration as offset term and treatment, COPD severity (stratum) and interaction as fixed factors. This model took further into account a strata imbalance of 73% COPD III vs. 27% COPD IV according to the observed rates (SAS code: proc GENMOD).||||||0.73||95.0|||||Negative binomial model|Least square means adjusted for COPD severity (stratum), interaction of stratum with treatment, and strata imbalance of 73% COPD III vs. 27% COPD IV.||||||0.73
92337865|NCT00527826|184577263|NON_INFERIORITY_OR_EQUIVALENCE|Poisson model for the rate of exacerbations (per year) using the treatment duration as offset term and treatment, COPD severity (stratum) and interaction as fixed factors. This model took further into account a strata imbalance of 73% COPD III vs. 27% COPD IV according to the observed rates (SAS code: proc GENMOD).||||||0.66||95.0|||||Poisson model|Least square means adjusted for COPD severity (stratum), interaction of stratum with treatment, and strata imbalance of 73% COPD III vs. 27% COPD IV.||||||0.66
92337866|NCT00158262|184577276|SUPERIORITY||Mean Difference (Final Values)|7.0|||||TWO_SIDED|95.0|-2.7|16.7|||||Placebo-Propranolol|||16.7|-2.7|
92337867|NCT00158262|184577277|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-15.5|15.3|||||Placebo-Propranolol|CAPS Total Score at Month 1||15.3|-15.5|
92337868|NCT00158262|184577277|SUPERIORITY||Mean Difference (Final Values)|-2.2|||||TWO_SIDED|95.0|-20.3|16.0||||||CAPS Total Score at Month 3||16.0|-20.3|
92337869|NCT00158262|184577278|SUPERIORITY||Mean Difference (Final Values)|2.9|||||TWO_SIDED|95.0|-4.8|10.7|||||Placebo-Propranolol|||10.7|-4.8|
92337870|NCT01150903|184577290|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||Chi-square test was used to calculate p-value.||||<0.001
92337871|NCT01150903|184577291|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||Chi-square test was used to calculate p-value.||||<0.001
92337872|NCT03293394|184577298|SUPERIORITY||||||=|0.001|||||||ANCOVA|||||||=0.001
92337873|NCT03293394|184577299|SUPERIORITY|||||||0.011|||||||ANOVA|||||||0.011
92337874|NCT03293394|184577300|SUPERIORITY|||||||0.19|||||||ANCOVA|||||||0.190
92337875|NCT03293394|184577301|SUPERIORITY|||||||0.652|||||||ANCOVA|||||||0.652
92337876|NCT03293394|184577302|SUPERIORITY|||||||0.19|||||||ANCOVA|||||||0.190
92337877|NCT03293394|184577303|SUPERIORITY|||||||0.011|||||||ANCOVA|||||||0.011
92337878|NCT03293394|184577304|SUPERIORITY|||||||0.003|||||||ANCOVA|||||||0.003
92337879|NCT03293394|184577305|SUPERIORITY|||||||0.001|||||||ANOVA|||||||0.001
92337880|NCT02716584|184577306|SUPERIORITY||Effect size|0.41||||0.02|TWO_SIDED||||||ANCOVA|||Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of exercise sessions attended as a covariate.||||0.02
92337881|NCT02716584|184577307|SUPERIORITY||Effect size|0.35||||0.06|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.06
92337882|NCT02716584|184577308|SUPERIORITY|||||||0.13|||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.13
92337883|NCT02716584|184577309|SUPERIORITY||Effect size|0.19||||0.73|TWO_SIDED|||||The analyses for cohorts 1 and 2 utilized the a priori endpoint assessment conducted 1-2 weeks after completion of training.|ANCOVA|The data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.73
92337884|NCT02716584|184577309|SUPERIORITY||Effect size|0.73||||0.33|TWO_SIDED|||||For cohort 3, positive affect was measured at baseline and a midpoint assessment.|ANCOVA|The data were analyzed using a 2 (groups) x 2 (time: baseline, midpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||.33
92337885|NCT02716584|184577310|SUPERIORITY||Effect size|-0.21||||0.62|TWO_SIDED|||||The analyses for cohorts 1 and 2 utilized the a priori endpoint assessment conducted 1-2 weeks after completion of training.|ANCOVA|The data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.62
92337886|NCT02716584|184577310|SUPERIORITY||Effect size|0.77||||0.23|TWO_SIDED|||||For cohort 3, positive affect was measured at a baseline and midpoint assessment.|ANCOVA|The data were analyzed using a 2 (groups) x 2 (time: baseline, midpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||.23
92337887|NCT02716584|184577311|SUPERIORITY||Effect size|0.02||||0.57|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.57
92337888|NCT02716584|184577312|SUPERIORITY||Effect size|0.35||||0.12|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.12
92337889|NCT02716584|184577313|SUPERIORITY||Effect size|0.72||||0.07|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.07
92337890|NCT02716584|184577314|SUPERIORITY||Effect size|0.0||||0.88|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.88
92153951|NCT01625910|184193506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.1|0.21||||||Baseline data by group assignment status (intervention or control) using means of the calculated BMI z-scores (U.S. CDC-2000 growth charts) implemented by applying the published LMS (shape, median, and scale) age- and sex/gender-specific parameters. Because of random assignment of a reasonably large number of children, an unadjusted analysis of change in outcomes between intervention and control groups is presented as well as the covariate-adjusted analysis of differences in changes.||0.21|-0.10|
92153952|NCT01625910|184193507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.74|0.4||||||unadjusted net difference between groups||0.40|-0.74|
92215368|NCT03627767|184330443|SUPERIORITY||Difference in percentage|21.7|||||TWO_SIDED|95.0|13.2|30.2||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||30.2|13.2|
92215369|NCT03627767|184330443|SUPERIORITY||Difference in percentage|29.7|||<|0.0001|TWO_SIDED|95.0|22.7|36.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||36.7|22.7|< 0.0001
92215370|NCT03627767|184330443|SUPERIORITY||Difference in percentage|45.5|||<|0.0001|TWO_SIDED|95.0|38.4|52.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||52.7|38.4|< 0.0001
92215371|NCT03627767|184330443|SUPERIORITY||Difference in percentage|16.0|||||TWO_SIDED|95.0|7.4|24.6||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||24.6|7.4|
92215372|NCT03627767|184330443|SUPERIORITY||Difference in percentage|19.9|||<|0.0001|TWO_SIDED|95.0|13.0|26.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||26.8|13.0|< 0.0001
92215373|NCT03627767|184330443|SUPERIORITY||Difference in percentage|40.5|||<|0.0001|TWO_SIDED|95.0|32.8|48.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||48.1|32.8|< 0.0001
92215374|NCT03627767|184330443|SUPERIORITY||Difference in percentage|20.9|||||TWO_SIDED|95.0|11.8|30.0||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||30.0|11.8|
92215375|NCT03627767|184330446|SUPERIORITY||LSM difference|0.0|||=|0.9207|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||Pruritus VAS: Week 12: The least squares mean (LSM) differences between treatment groups were derived from the statistical model. Mixed model repeated measure (MMRM) contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.3|= 0.9207
92215376|NCT03627767|184330446|SUPERIORITY||LSM difference|0.0|||=|0.9998|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||Pruritus VAS: Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.3|= 0.9998
92215377|NCT03627767|184330446|SUPERIORITY||LSM difference|0.0|||||TWO_SIDED|95.0|-0.3|0.3||||||Pruritus VAS: Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.3|
92215378|NCT03627767|184330446|SUPERIORITY||LSM difference|-2.1|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.7|||Mixed Models Analysis|||Pruritus VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.7|-2.5|< 0.0001
92215379|NCT03627767|184330446|SUPERIORITY||LSM difference|-3.2|||<|0.0001|TWO_SIDED|95.0|-3.6|-2.8|||Mixed Models Analysis|||Pruritus VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.8|-3.6|< 0.0001
92215380|NCT03627767|184330446|SUPERIORITY||LSM difference|-1.1|||||TWO_SIDED|95.0|-1.4|-0.7||||||Pruritus VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.7|-1.4|
92215381|NCT03627767|184330446|SUPERIORITY||LSM difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-2.0|-0.8|||Mixed Models Analysis|||Pruritus VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.8|-2.0|< 0.0001
92337891|NCT02716584|184577315|SUPERIORITY||Effect size|0.05||||0.86|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.86
92153953|NCT03918239|184193552|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|1.079|||||TWO_SIDED|90.0|0.986|1.181|||ANOVA|||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and treatment group as a fixed effect variable.||1.181|0.986|
92153954|NCT03918239|184193553|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|1.079|||||TWO_SIDED|90.0|0.987|1.179||||||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and treatment group as a fixed effect variable.||1.179|0.987|
92337892|NCT01903993|184577321|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||=|0.0106|TWO_SIDED|95.0|0.52|0.92|||Log rank (Stratified)|||Hazard ratios (HR) were estimated by a Cox regression model.||0.92|0.52|= 0.0106
92337893|NCT01903993|184577322|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|0.59|||=|0.8884|TWO_SIDED|95.0|-7.67|8.85|||Cochran-Mantel-Haenszel|||||8.85|-7.67|= 0.8884
92337894|NCT01903993|184577323|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92|||=|0.5563|TWO_SIDED|95.0|0.71|1.2|||Log rank (Stratified)|||HR were estimated by a Cox regression model. The two treatment comparison was based on a stratified log-rank test.||1.20|0.71|=0.5563
92337895|NCT01903993|184577324|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.32|||=|0.0028|TWO_SIDED|95.0|0.15|0.7|||Log rank (unstratified)|||HR were estimated by a unstratified Cox regression model.||0.70|0.15|= 0.0028
92337896|NCT02500719|184577361|SUPERIORITY||Mean Difference (Net)|0.1319||||0.029|ONE_SIDED||||||t-test, 1 sided|||This test is to determine if the difference between engagement and disengagement of emotional arousal is increased by real-time neurofeedback guidance in PTSD participants.||||.029
92337897|NCT03538691|184577370|SUPERIORITY||Hazard Ratio (HR)|1.138||||0.51|TWO_SIDED|95.0|0.776|1.669|||Log Rank||The hazard ratio and 95% confidence interval (CI) were derived from the Cox proportional hazard model with treatment as fixed effect.|||1.669|0.776|0.5100
92337898|NCT03538691|184577371|SUPERIORITY||Least Squares (LS) Mean Difference|0.23||||0.2393|TWO_SIDED|95.0|-0.16|0.62||P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.|ANCOVA|||||0.62|-0.16|0.2393
92337899|NCT03538691|184577372|SUPERIORITY||Hazard Ratio (HR)|1.177||||0.3086|TWO_SIDED|95.0|0.857|1.615|||Log Rank||The hazard ratio and 95% CI were derived from the Cox proportional hazard model with treatment as fixed effect.|||1.615|0.857|0.3086
92337900|NCT03538691|184577373|SUPERIORITY|||||||0.603|||||||Chi-squared|||||||0.6030
92215382|NCT03627767|184330446|SUPERIORITY||LSM difference|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.3|||Mixed Models Analysis|||Pruritus VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.3|-2.5|< 0.0001
92337901|NCT03538691|184577374|SUPERIORITY|||||||0.7081|||||||Chi-squared|||Week 21||||0.7081
92337902|NCT03538691|184577374|SUPERIORITY|||||||0.4589|||||||Chi-squared|||Week 23||||0.4589
92337903|NCT03538691|184577374|SUPERIORITY|||||||0.5314|||||||Chi-squared|||Week 25||||0.5314
92337904|NCT03538691|184577374|SUPERIORITY|||||||0.1433|||||||Chi-squared|||Week 29||||0.1433
92337905|NCT03538691|184577374|SUPERIORITY|||||||0.9636|||||||Chi-squared|||Week 33||||0.9636
92337906|NCT03538691|184577374|SUPERIORITY|||||||0.7596|||||||Chi-squared|||Week 37||||0.7596
92337907|NCT03538691|184577374|SUPERIORITY|||||||0.2402|||||||Chi-squared|||Week 41||||0.2402
92337908|NCT03538691|184577374|SUPERIORITY|||||||0.8363|||||||Chi-squared|||Week 45||||0.8363
92337909|NCT03538691|184577374|SUPERIORITY|||||||0.8308|||||||Chi-squared|||Week 46||||0.8308
92337910|NCT03538691|184577375|SUPERIORITY||LS Mean Difference|-0.12||||0.8806|TWO_SIDED|95.0|-1.73|1.49|||ANCOVA|P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.||||1.49|-1.73|0.8806
92337911|NCT03538691|184577376|SUPERIORITY||LS Mean Difference|0.03||||0.7956|TWO_SIDED|95.0|-0.18|0.24|||ANCOVA|P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.||||0.24|-0.18|0.7956
92337912|NCT03538691|184577377|SUPERIORITY||LS Mean Difference|0.15||||0.5223|TWO_SIDED|95.0|-0.31|0.61||P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.|ANCOVA|||SDS Individual Item: Work/School||0.61|-0.31|0.5223
92337913|NCT03538691|184577377|SUPERIORITY||LS Mean Difference|0.36||||0.0904|TWO_SIDED|95.0|-0.06|0.77||P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.|ANCOVA|||SDS Individual Item: Social Life||0.77|-0.06|0.0904
92337914|NCT03538691|184577377|SUPERIORITY||LS Mean Difference|0.25||||0.2289|TWO_SIDED|95.0|-0.16|0.67||P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.|ANCOVA|||SDS Individual Item: Family Life||0.67|-0.16|0.2289
92337915|NCT00636636|184577394|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.2||0.0125|TWO_SIDED|95.0|-0.88|-0.11|||ANCOVA|||||-0.11|-0.88|0.0125
92337916|NCT00636636|184577395|SUPERIORITY_OR_OTHER||Difference in proportion|0.092||||0.0434|TWO_SIDED|95.0|0.0|0.18|||Z test|||P-value (vs Placebo) for pairwise test of treatment effect between G-ER group and Placebo group is based on Z test for difference between the 2 groups in proportion of participants who were categorized as very much or much improved in PGIC at endpoint. Proportion in each group calculated from number of participants categorized as very much or much improved relative to total number of participants in ITT population.||0.18|-0.00|0.0434
92337917|NCT00636636|184577396|SUPERIORITY_OR_OTHER||Difference in proportion|0.102||||0.0268|TWO_SIDED|95.0|0.01|0.19|||Z test|||P-value (vs Placebo) for pairwise test of treatment effect between G-ER group and Placebo group is based on Z test for difference between the 2 groups in proportion of participants who were categorized as very much or much improved in CGIC at endpoint. Proportion in each group calculated from number of participants categorized as very much or much improved relative to total number of participants in ITT population.||0.19|0.01|0.0268
92337918|NCT00636636|184577397|SUPERIORITY_OR_OTHER||Least square mean difference|-0.71|STANDARD_ERROR_OF_MEAN|0.18||0.0001|TWO_SIDED|95.0|-1.07|-0.35|||ANCOVA||P-value versus Placebo for pairwise test of difference of LS mean change from baseline between G-ER and Placebo groups is based on t-test of Type III analysis.|||-0.35|-1.07|0.0001
92337919|NCT00636636|184577398|SUPERIORITY_OR_OTHER||Least square mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.2||0.007|TWO_SIDED|95.0|-0.96|-0.15|||ANCOVA|||||-0.15|-0.96|0.007
92337920|NCT04776928|184577423|SUPERIORITY|||||||0.01|||||||Two-part regression model|||||||0.010
92337921|NCT00103285|184577426|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.17|||||TWO_SIDED|95.0|1.61|16.63|||Mixed Models Analysis||Odds Ratios in this Statistical Analysis corresponds to all four time points.|Physical Functioning: Parents of 160 SR-ALL patients enrolled on Children's Oncology Group (COG) therapeutic trial AALL0331 at 31 sites completed the Pediatric Quality of Life Inventory (PedsQL) 4.0 Generic Core Scales (physical, emotional and social functioning) and Family Assessment Device-General Functioning (FAD-GF) at 1, 6 and 12 months after diagnosis, and 3 months post-therapy.||16.63|1.61|
92215383|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.5|||||TWO_SIDED|95.0|-0.9|-0.1||||||Pruritus VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-0.9|
92215384|NCT03627767|184330446|SUPERIORITY||LSM difference|-1.0|||=|0.0039|TWO_SIDED|95.0|-1.7|-0.3|||Mixed Models Analysis|||Pruritus VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-1.7|= 0.0039
92215385|NCT03627767|184330446|SUPERIORITY||LSM difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.2|||Mixed Models Analysis|||Pruritus VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.2|-2.5|< 0.0001
92215386|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.8|||||TWO_SIDED|95.0|-1.3|-0.4||||||Pruritus VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.4|-1.3|
92215387|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.5|||=|0.1488|TWO_SIDED|95.0|-1.2|0.2|||Mixed Models Analysis|||Pruritus VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-1.2|= 0.1488
92215388|NCT03627767|184330446|SUPERIORITY||LSM difference|-1.3|||=|0.0003|TWO_SIDED|95.0|-2.0|-0.6|||Mixed Models Analysis|||Pruritus VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-2.0|= 0.0003
92215389|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.8|||||TWO_SIDED|95.0|-1.2|-0.3||||||Pruritus VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-1.2|
92215390|NCT03627767|184330446|SUPERIORITY||LSM difference|0.0|||=|0.9294|TWO_SIDED|95.0|-0.2|0.2|||Mixed Models Analysis|||Sleep Loss VAS: Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-0.2|= 0.9294
92398296|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|0.69||||0.5656|TWO_SIDED|95.0|0.19|2.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.45|0.19|0.5656
92215391|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.1|||=|0.4081|TWO_SIDED|95.0|-0.3|0.1|||Mixed Models Analysis|||Sleep Loss VAS: Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-0.3|= 0.4081
92215392|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.1|||||TWO_SIDED|95.0|-0.3|0.1||||||Sleep Loss VAS: Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-0.3|
92215393|NCT03627767|184330446|SUPERIORITY||LSM difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.1|-1.4|||Mixed Models Analysis|||Sleep Loss VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.4|-2.1|< 0.0001
92215394|NCT03627767|184330446|SUPERIORITY||LSM difference|-2.3|||<|0.0001|TWO_SIDED|95.0|-2.7|-2.0|||Mixed Models Analysis|||Sleep Loss VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.0|-2.7|< 0.0001
92215395|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.6|||||TWO_SIDED|95.0|-0.9|-0.2||||||Sleep Loss VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-0.9|
92337922|NCT00103285|184577426|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.99|||||TWO_SIDED|95.0|1.21|3.27|||Mixed Models Analysis||Odds Ratios in this Statistical Analysis corresponds to all four time points|Social Functioning: Parents of 160 SR-ALL patients enrolled on Children's Oncology Group (COG) therapeutic trial AALL0331 at 31 sites completed the Pediatric Quality of Life Inventory (PedsQL) 4.0 Generic Core Scales (physical, emotional and social functioning) and Family Assessment Device-General Functioning (FAD-GF) at 1, 6 and 12 months after diagnosis, and 3 months post-therapy.||3.27|1.21|
92398297|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|0.73||||0.6445|TWO_SIDED|95.0|0.19|2.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.81|0.19|0.6445
92337923|NCT00103285|184577426|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|1.03|3.34|||Mixed Models Analysis||Odds Ratios in this Statistical Analysis corresponds to all four time points|Parents of 160 SR-ALL patients enrolled on Children's Oncology Group (COG) therapeutic trial AALL0331 at 31 sites completed the Pediatric Quality of Life Inventory (PedsQL) 4.0 Generic Core Scales (physical, emotional and social functioning) and Family Assessment Device-General Functioning (FAD-GF) at 1, 6 and 12 months after diagnosis, and 3 months post-therapy.||3.34|1.03|
92337924|NCT00103285|184577427|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.542|||||TWO_SIDED|95.0|1.974|3.273|||Regression, Cox|||4981 eligible evaluable patients enrolled on AALL0331 had MRD evaluation at Day 29 of induction. MRD status defined as negative (\<0.1%) or positive (\>=0.1%). MRD status ( positive vs. negative) was correlated with EFS using Cox regression analysis.||3.273|1.974|
92337925|NCT00103285|184577429|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.131|||||TWO_SIDED|95.0|0.101|0.17|||Chi-squared|||MRD status ( positive vs. negative) was correlated with Early Marrow Status (M1 vs M2/M3) using Chi Square test.||0.17|0.101|
92337926|NCT00103285|184577430|OTHER||Odds Ratio (OR)|4.1|||||TWO_SIDED|95.0|1.31|12.73|||Regression, Logistic|||Parents of 159 SR-ALL patients enrolled on Children's Oncology Group (COG) therapeutic trial AALL0331 at 31 sites completed the BASC-2 Anxiety Scale at 1 month after diagnosis, and 3 months post-therapy. Of these 159 had data at 1 month after diagnosis and 96 at 3 months post therapy.||12.73|1.31|
92337927|NCT03654729|184577516|SUPERIORITY||Risk Ratio (RR)|1.3842||||0.2266|TWO_SIDED|95.0|0.8172|2.3446|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel estimate of the common relative risk of moderate to severe CIPN.||2.3446|0.8172|0.2266
92337928|NCT03654729|184577516|SUPERIORITY||Risk Ratio (RR)|1.0951||||0.7434|TWO_SIDED|95.0|0.6356|1.887|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel estimate of the common relative risk of moderate to severe CIPN.||1.8870|0.6356|0.7434
92398298|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|1.27||||0.7363|TWO_SIDED|95.0|0.32|4.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||4.99|0.32|0.7363
92398299|NCT03192176|184689412|SUPERIORITY||Odds Ratio (OR)|0.56||||0.3455|TWO_SIDED|95.0|0.17|1.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.86|0.17|0.3455
92398300|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|4.3||||0.0037|TWO_SIDED|95.0|1.6|11.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||11.54|1.60|0.0037
92398301|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|3.95||||0.0057|TWO_SIDED|95.0|1.49|10.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||10.48|1.49|0.0057
92398302|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|6.03||||0.0003|TWO_SIDED|95.0|2.26|16.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.13|2.26|0.0003
92153955|NCT03918239|184193554|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|1.157|||||TWO_SIDED|90.0|1.044|1.281||||||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and treatment group as a fixed effect variable.||1.281|1.044|
92337929|NCT03272347|184577532|OTHER|The 95% confidence intervals (CIs) were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|2.9|||||TWO_SIDED|95.0|-12.5|18.3|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||18.3|-12.5|
92337930|NCT03272347|184577532|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|9.6|||||TWO_SIDED|95.0|-3.8|23.0|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||23.0|-3.8|
92337931|NCT03272347|184577532|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|0.2|||||TWO_SIDED|95.0|-16.0|16.3|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||16.3|-16.0|
92337932|NCT03272347|184577533|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|6.1|||||TWO_SIDED|95.0|-12.2|24.4|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||24.4|-12.2|
92337933|NCT03272347|184577533|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|6.2|||||TWO_SIDED|95.0|-12.2|24.6|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||24.6|-12.2|
92337934|NCT03272347|184577533|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-6.1|||||TWO_SIDED|95.0|-27.1|14.8|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||14.8|-27.1|
92398303|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|6.42||||0.0003|TWO_SIDED|95.0|2.37|17.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||17.39|2.37|0.0003
92398304|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.11||||0.141|TWO_SIDED|95.0|0.78|5.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||5.73|0.78|0.1410
92398305|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|5.85||||0.0004|TWO_SIDED|95.0|2.2|15.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||15.55|2.20|0.0004
92398306|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|5.5||||0.0006|TWO_SIDED|95.0|2.08|14.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||14.54|2.08|0.0006
92398307|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|4.09||||0.0037|TWO_SIDED|95.0|1.58|10.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.57|1.58|0.0037
92398308|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|4.31||||0.0026|TWO_SIDED|95.0|1.67|11.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||11.16|1.67|0.0026
92398309|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|6.26||||0.0002|TWO_SIDED|95.0|2.63|16.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||16.60|2.63|0.0002
92398310|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|9.4|||<|0.0001|TWO_SIDED|95.0|3.23|27.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||27.34|3.23|<0.0001
92398311|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0431|TWO_SIDED|95.0|1.03|6.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.76|1.03|0.0431
92215396|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.7|||=|0.0035|TWO_SIDED|95.0|-1.2|-0.2|||Mixed Models Analysis|||Sleep Loss VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-1.2|= 0.0035
92215397|NCT03627767|184330446|SUPERIORITY||LSM difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.7|||Mixed Models Analysis|||Sleep Loss VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.7|-1.6|< 0.0001
92215398|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.5|||||TWO_SIDED|95.0|-0.8|-0.1||||||Sleep Loss VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-0.8|
92398312|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|4.4||||0.002|TWO_SIDED|95.0|1.72|11.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||11.29|1.72|0.0020
92215399|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.7|||=|0.0136|TWO_SIDED|95.0|-1.2|-0.1|||Mixed Models Analysis|||Sleep Loss VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-1.2|= 0.0136
92215400|NCT03627767|184330446|SUPERIORITY||LSM difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.6|||Mixed Models Analysis|||Sleep Loss VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-1.6|< 0.0001
92215401|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.4|||||TWO_SIDED|95.0|-0.8|0.0||||||Sleep Loss VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.0|-0.8|
92398313|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0291|TWO_SIDED|95.0|1.11|6.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.86|1.11|0.0291
92398314|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|3.96||||0.0063|TWO_SIDED|95.0|1.48|10.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.61|1.48|0.0063
92398315|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0202|TWO_SIDED|95.0|1.19|8.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.11|1.19|0.0202
92337935|NCT03272347|184577534|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|2.6|||||TWO_SIDED|95.0|-15.7|20.5|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||20.5|-15.7|
92337936|NCT03272347|184577534|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|2.9|||||TWO_SIDED|95.0|-15.0|20.8|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||20.8|-15.0|
92337937|NCT03272347|184577534|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|-9.7|||||TWO_SIDED|95.0|-29.4|10.1|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||10.1|-29.4|
92337938|NCT03272347|184577535|OTHER|Based on Miettinen \& Nurminen method|Difference in %|0.2|||||TWO_SIDED|95.0|-13.4|14.5|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||14.5|-13.4|
92337939|NCT03272347|184577535|OTHER|Based on Miettinen \& Nurminen method|Difference in %|-3.2|||||TWO_SIDED|95.0|-16.4|8.5|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||8.5|-16.4|
92337940|NCT03272347|184577535|OTHER|Based on Miettinen \& Nurminen method|Difference in %|3.2|||||TWO_SIDED|95.0|-10.8|18.1|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||18.1|-10.8|
92337941|NCT03272347|184577536|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-9.7|||||TWO_SIDED|95.0|-26.1|6.6|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||6.6|-26.1|
92337942|NCT03272347|184577536|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-6.2|||||TWO_SIDED|95.0|-21.5|9.1|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||9.1|-21.5|
92398316|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|4.1||||0.0044|TWO_SIDED|95.0|1.55|10.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.84|1.55|0.0044
92215402|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.3|||=|0.2887|TWO_SIDED|95.0|-1.0|0.3|||Mixed Models Analysis|||Sleep Loss VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-1.0|= 0.2887
92215403|NCT03627767|184330446|SUPERIORITY||LSM difference|-1.0|||=|0.0025|TWO_SIDED|95.0|-1.6|-0.3|||Mixed Models Analysis|||Sleep Loss VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-1.6|= 0.0025
92337943|NCT03272347|184577536|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-7.5|||||TWO_SIDED|95.0|-23.9|8.8|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||8.8|-23.9|
92337944|NCT03272347|184577537|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|2.2|||||TWO_SIDED|95.0|-23.4|27.7|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||27.7|-23.4|
92337945|NCT03272347|184577537|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-3.7|||||TWO_SIDED|95.0|-29.6|22.1|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||22.1|-29.6|
92337946|NCT03272347|184577537|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-1.3|||||TWO_SIDED|95.0|-27.7|25.2|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||25.2|-27.7|
92337947|NCT03272347|184577539|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|78.4|||||TWO_SIDED|95.0|18.8|138.1|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||138.1|18.8|
92337948|NCT03272347|184577539|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|50.7|||||TWO_SIDED|95.0|-31.7|133.1|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||133.1|-31.7|
92337949|NCT03272347|184577539|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|0.8|||||TWO_SIDED|95.0|-63.0|64.7|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||64.7|-63.0|
92337950|NCT03272347|184577540|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|0.6|||||TWO_SIDED|95.0|-74.1|75.3|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||75.3|-74.1|
92337951|NCT03272347|184577540|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|1.5|||||TWO_SIDED|95.0|-70.7|73.8|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||73.8|-70.7|
92337952|NCT03272347|184577540|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-80.8|||||TWO_SIDED|95.0|-165.6|4.0|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||4.0|-165.6|
92337953|NCT03272347|184577541|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-25.5|||||TWO_SIDED|95.0|-134.8|83.8|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||83.8|-134.8|
92337954|NCT03272347|184577541|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-107.6|||||TWO_SIDED|95.0|-212.1|-3.1|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||-3.1|-212.1|
92337955|NCT03272347|184577541|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-132.4|||||TWO_SIDED|95.0|-242.9|-21.9|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||-21.9|-242.9|
92337956|NCT03272347|184577542|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-65.6|||||TWO_SIDED|95.0|-195.3|64.0|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||64.0|-195.3|
92337957|NCT03272347|184577542|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-61.0|||||TWO_SIDED|95.0|-188.7|66.8|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||66.8|-188.7|
92337958|NCT03272347|184577542|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-107.1|||||TWO_SIDED|95.0|-231.2|16.9|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||16.9|-231.2|
92337959|NCT03272347|184577544|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|4.9|||||TWO_SIDED|95.0|-20.3|29.6|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||29.6|-20.3|
92337960|NCT03272347|184577544|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|9.5|||||TWO_SIDED|95.0|-15.4|33.5|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||33.5|-15.4|
92337961|NCT03272347|184577544|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|-5.3|||||TWO_SIDED|95.0|-30.6|20.7|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||20.7|-30.6|
92337962|NCT03272347|184577545|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|-3.6|||||TWO_SIDED|95.0|-17.9|8.5|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||8.5|-17.9|
92337963|NCT03272347|184577545|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|-3.6|||||TWO_SIDED|95.0|-17.9|8.2|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||8.2|-17.9|
92398317|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|9.21||||0.0002|TWO_SIDED|95.0|2.89|29.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||29.38|2.89|0.0002
92337964|NCT03272347|184577545|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|3.8|||||TWO_SIDED|95.0|-11.5|20.6|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||20.6|-11.5|
92337965|NCT05076604|184577595|SUPERIORITY|||||||0.354|||||||t-test, 2 sided|||Intraoperative packed red blood cell transfusion||||0.354
92337966|NCT05076604|184577595|SUPERIORITY|||||||0.314|||||||t-test, 2 sided|||Postoperative red blood cell transfusion||||0.314
92337967|NCT04391179|184577605|SUPERIORITY||Slope|-0.033|STANDARD_ERROR_OF_MEAN|0.027||0.24|TWO_SIDED|95.0|-0.089|0.023|||Mixed Models Analysis||Estimation represents log-scale difference between average daily change in D-Dimer for Dipyridamole patients minus placebo average daily change. Negative estimates indicate that D-Dimer levels decline faster in Dipyridamole versus placebo patients.|||.023|-.089|0.24
92337968|NCT04391179|184577606|SUPERIORITY||win ratio|1.0||||0.98|TWO_SIDED|97.8|0.78|1.29|||Mantel Haenszel||win ratio= (the probability of a win for the dipyridamole patient)/(probability of a win for the placebo patient)|A win ratio analysis of the hierarchical composite outcome requiring direct comparison of outcomes between each dipyridamole patient and placebo patient. The patient with the superior outcome is adjudicated the 'winner' and receives a +1 score, while the 'loser' scores -1.||1.29|0.78|.98
92337969|NCT04391179|184577607|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||.08
92337970|NCT04391179|184577608|SUPERIORITY|||||||0.09|||||||Log Rank|||||||.09
92337971|NCT04391179|184577609|SUPERIORITY||Mean Difference (Net)|0.29||||0.36|TWO_SIDED|95.0|0.02|3.94|||regression, negative binomial||estimated ratio of days on mechanical ventilation for dipyridamole and placebo|||3.94|0.02|0.36
92337972|NCT04391179|184577610|SUPERIORITY||Odds Ratio (OR)|1.04||||0.94|TWO_SIDED|95.0|0.43|2.51|||Regression, Logistic||Odds of a 50 point drop in the dipyridamole group relative to the placebo group.|||2.51|0.43|.94
92337973|NCT04391179|184577611|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||.95
92337974|NCT01001520|184577623|SUPERIORITY_OR_OTHER|||||||0.88||||||"Because the five a priori brain regions of interest (ROIs) are highly correlated, the significance threshold was adjusted to p=0.014."|Regression, Linear|BOLD signal change was examined using random effects maximum likelihood regression.||"We hypothesized that tolcapone would increase BOLD signal, meaning there would be an increase in brain activity, in the right dorsolateral prefrontal cortex, a part of the brain known to be involved in working memory.~We analyzed for main effects of treatment (tolcapone vs. placebo), back level (0, 1, 2, and 3), treatment order, and relevant covariates (genotype, race, age, sex, FTND score, Shipley IQ score)."||||0.88
92337975|NCT01001520|184577624|SUPERIORITY_OR_OTHER|||||||0.017||||||The threshold for statistical significance was not adjusted. Significance remained at p=0.05.|Regression, Linear|Accuracy was examined using random effects maximum likelihood regression.||We hypothesized that tolcapone (vs. placebo) would increase subject's accuracy during the N-back working memory task.||||0.017
92337976|NCT01001520|184577625|SUPERIORITY_OR_OTHER|||||||0.88||||||The threshold for statistical significance was not adjusted. Significance remained at p=0.05.|Regression, Linear|Examined using random effects maximum likelihood regression.||We hypothesized that tolcapone (vs. placebo) would reduce subject's reaction time during the N-back working memory task.||||0.88
92337977|NCT01001520|184577626|SUPERIORITY_OR_OTHER|||||||0.85||||||The threshold for statistical significance was not adjusted. Significance remained at p=0.05.|Regression, Linear|Examined using random effects maximum likelihood regression.||We hypothesized that smokers would smoke fewer cigarettes while taking tolcapone (vs. placebo).||||0.85
92337978|NCT01001520|184577627|SUPERIORITY_OR_OTHER|||||||0.4||||||The threshold for statistical significance was not adjusted. Significance remained at p=0.05.|Regression, Linear|Examined using random effects maximum likelihood regression.||We hypothesized that smokers, while taking tolcapone (vs. placebo), would experience less cigarette craving during their 24-hour abstinence period.||||0.40
92337979|NCT01001520|184577628|SUPERIORITY_OR_OTHER|||||||0.43||||||The threshold for statistical significance was not adjusted. Significance remained at p=0.05.|Regression, Linear|Examined using random effects maximum likelihood regression.||We hypothesized that smokers, while taking tolcapone (vs. placebo), would experience fewer withdrawal symptoms during their 24-hour abstinence period.||||0.43
92215404|NCT03627767|184330446|SUPERIORITY||LSM difference|-0.6|||||TWO_SIDED|95.0|-1.0|-0.2||||||Sleep Loss VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-1.0|
92215405|NCT03627767|184330447|SUPERIORITY||Difference in percentage|1.0|||=|0.4244|TWO_SIDED|95.0|-1.4|3.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||3.4|-1.4|= 0.4244
92215406|NCT03627767|184330447|SUPERIORITY||Difference in percentage|-0.3|||=|0.8092|TWO_SIDED|95.0|-3.1|2.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||2.4|-3.1|= 0.8092
92398318|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0706|TWO_SIDED|95.0|0.93|6.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.37|0.93|0.0706
92274584|NCT05478603|184451648|OTHER||Ratio of adjusted geometric means|237.76|||||TWO_SIDED|90.0|131.46|430.0|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||430.00|131.46|
92274585|NCT05478603|184451649|OTHER||Ratio of adjusted geometric means|95.34|||||TWO_SIDED|90.0|52.67|172.59|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||172.59|52.67|
92274586|NCT05478603|184451649|OTHER||Ratio of adjusted geometric means|163.09|||||TWO_SIDED|90.0|90.1|295.22|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||295.22|90.10|
92274587|NCT05478603|184451649|OTHER||Ratio of adjusted geometric means|239.47|||||TWO_SIDED|90.0|132.29|433.47|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||433.47|132.29|
92274588|NCT05003167|184451700|SUPERIORITY||F|8.48||||0.001|TWO_SIDED|95.0|||||ANOVA|||A mixed model ANOVA with session (pre-post-training) as a main effect and participant as a random factor was run via SAS 9.4. Alpha was set at .05.||||.001
92274589|NCT05003167|184451702|SUPERIORITY||F|2.29||||0.113|TWO_SIDED|95.0|||||ANOVA|df = 2,44||A mixed model ANOVA with session (pre-post-training) as a main effect and participant as a random factor was run via SAS 9.4. Alpha was set at .05.||||.113
92274590|NCT05003167|184451703|SUPERIORITY||F|3.17||||0.052|TWO_SIDED|95.0|||||ANOVA|||A mixed model ANOVA with session (pre-post-training) as a main effect and participant as a random factor was run via SAS 9.4. Alpha was set at .05.||||.052
92274591|NCT05003167|184451704|SUPERIORITY||F|0.07||||0.931|TWO_SIDED|95.0|||||ANOVA|||"A mixed model ANOVA with session (pre-post-training) as a main effect and participant as a random factor was run via SAS 9.4. Alpha was set at .05.~Results here are for percent of breaths at major boundaries."||||.931
92274592|NCT05003167|184451704|SUPERIORITY||F|0.23||||0.164|TWO_SIDED|95.0|||||ANOVA|||A mixed model ANOVA with session (pre-post-training) as a main effect and participant as a random factor was run via SAS 9.4. Alpha was set at .05. Results reflect percent of breaths at boundaries unrelated to syntax.||||0.164
92274593|NCT01010230|184451712|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.69|TWO_SIDED|95.0|-5.59|3.11||The threshold for significance was established a priori at alpha=0.05.|ANOVA|BMC was normalized for height and adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8% we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||3.11|-5.59|0.69
92274594|NCT01010230|184451713|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|0.18||||0.18|TWO_SIDED|95.0|0.0|0.35||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.35|0.00|0.18
92274595|NCT01010230|184451714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.16||||0.85|TWO_SIDED|95.0|-6.93|9.25||The threshold for significance was established a priori at alpha=0.05|ANOVA|BMC was normalized for height and adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8% we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||9.25|-6.93|0.85
92398319|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|8.2||||0.0001|TWO_SIDED|95.0|2.79|24.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||24.08|2.79|0.0001
92215407|NCT03627767|184330447|SUPERIORITY||Difference in percentage|-1.5|||||TWO_SIDED|95.0|-4.1|1.0||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||1.0|-4.1|
92215408|NCT03627767|184330447|SUPERIORITY||Difference in percentage|46.7|||<|0.0001|TWO_SIDED|95.0|39.2|54.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||54.2|39.2|< 0.0001
92215409|NCT03627767|184330447|SUPERIORITY||Difference in percentage|63.6|||<|0.0001|TWO_SIDED|95.0|57.2|70.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||70.0|57.2|< 0.0001
92215410|NCT03627767|184330447|SUPERIORITY||Difference in percentage|17.0|||||TWO_SIDED|95.0|10.4|23.5||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||23.5|10.4|
92398320|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|3.24||||0.0146|TWO_SIDED|95.0|1.26|8.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.32|1.26|0.0146
92153956|NCT01984424|184193578|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-37.79|STANDARD_ERROR_OF_MEAN|2.29|<|0.0001|TWO_SIDED|95.0|-42.31|-33.28|||Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from baseline at week 24 of part B or in the mean percent change from baseline at weeks 22 and 24 of part B in LDL-C between evolocumab 420 mg and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-33.28|-42.31|<0.0001
92153957|NCT01984424|184193579|SUPERIORITY||LS Mean Treatment Difference|-36.07|STANDARD_ERROR_OF_MEAN|2.53|<|0.0001|TWO_SIDED|95.0|-41.07|-31.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from baseline at week 24 of part B or in the mean percent change from baseline at weeks 22 and 24 of part B in LDL-C between evolocumab 420 mg and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-31.08|-41.07|<0.0001
92153958|NCT01984424|184193580|SUPERIORITY||LS Mean Treatment Difference|-75.8|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001|TWO_SIDED|95.0|-84.7|-67.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-67.0|-84.7|<0.0001
92153959|NCT01984424|184193581|SUPERIORITY||LS Mean Treatment Difference|-71.7|STANDARD_ERROR_OF_MEAN|4.8|<|0.0001|TWO_SIDED|95.0|-81.3|-62.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-62.2|-81.3|<0.0001
92153960|NCT01984424|184193582|SUPERIORITY||Treatment Difference|28.5|||<|0.0001|TWO_SIDED|95.0|19.1|36.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (screening LDL-C).||||36.7|19.1|<0.0001
92153961|NCT01984424|184193583|SUPERIORITY||Treatment Difference|27.4|||<|0.0001|TWO_SIDED|95.0|17.7|36.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (screening LDL-C).||||36.1|17.7|<0.0001
92153962|NCT01984424|184193584|SUPERIORITY||LS Mean Treatment Difference|-26.61|STANDARD_ERROR_OF_MEAN|1.69|<|0.0001|TWO_SIDED|95.0|-29.95|-23.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-23.27|-29.95|<0.0001
92153963|NCT01984424|184193585|SUPERIORITY||LS Mean Treatment Difference|-25.08|STANDARD_ERROR_OF_MEAN|1.82|<|0.0001|TWO_SIDED|95.0|-28.67|-21.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-21.48|-28.67|<0.0001
92153964|NCT01984424|184193586|SUPERIORITY||LS Mean Treatment Difference|-33.06|STANDARD_ERROR_OF_MEAN|2.06|<|0.0001|TWO_SIDED|95.0|-37.12|-28.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-28.99|-37.12|<0.0001
92153965|NCT01984424|184193587|SUPERIORITY||LS Mean Treatment Difference|-31.1|STANDARD_ERROR_OF_MEAN|2.2|<|0.0001|TWO_SIDED|95.0|-35.44|-16.76||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-16.76|-35.44|<0.0001
92153966|NCT01984424|184193588|SUPERIORITY||LS Mean Treatment Difference|-33.86|STANDARD_ERROR_OF_MEAN|2.17|<|0.0001|TWO_SIDED|95.0|-38.15|-29.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-29.58|-38.15|<0.0001
92337980|NCT01001520|184577629|SUPERIORITY_OR_OTHER|||||||0.18||||||"Because the five a priori brain regions of interest (ROIs) are highly correlated, the significance threshold was adjusted to p=0.014."|Regression, Linear|BOLD signal change was examined using random effects maximum likelihood regression.||"We hypothesized that tolcapone would increase BOLD signal, meaning there would be an increase in brain activity, in the left dorsolateral prefrontal cortex, a part of the brain known to be involved in working memory.~We analyzed for main effects of treatment (tolcapone vs. placebo), back level (0, 1, 2, and 3), treatment order, and relevant covariates (genotype, race, age, sex, FTND score, Shipley IQ score)."||||0.18
92337981|NCT01001520|184577630|SUPERIORITY_OR_OTHER|||||||0.67||||||"Because the five a priori brain regions of interest (ROIs) are highly correlated, the significance threshold was adjusted to p=0.014."|Regression, Linear|BOLD signal change was examined using random effects maximum likelihood regression.||"We hypothesized that tolcapone would increase BOLD signal, meaning there would be an increase in brain activity, in the dorsal cingulate/medial prefrontal cortex, a part of the brain known to be involved in working memory.~We analyzed for main effects of treatment (tolcapone vs. placebo), back level (0, 1, 2, and 3), treatment order, and relevant covariates (genotype, race, age, sex, FTND score, Shipley IQ score)."||||0.67
92337982|NCT01001520|184577631|SUPERIORITY_OR_OTHER|||||||0.98||||||"Because the five a priori brain regions of interest (ROIs) are highly correlated, the significance threshold was adjusted to p=0.014."|Regression, Linear|BOLD signal change was examined using random effects maximum likelihood regression.||"We hypothesized that tolcapone would increase suppression of BOLD signal, meaning an increase in suppression of brain activity, in the posterior cingulate cortex, a part of the brain known to be involved in working memory.~We analyzed for main effects of treatment (tolcapone vs. placebo), back level (0, 1, 2, and 3), treatment order, and relevant covariates (genotype, race, age, sex, FTND score, Shipley IQ score)."||||0.98
92337983|NCT01001520|184577632|SUPERIORITY_OR_OTHER|||||||0.002||||||"Because the five a priori brain regions of interest (ROIs) are highly correlated, the significance threshold was adjusted to p=0.014."|Regression, Linear|BOLD signal change was examined using random effects maximum likelihood regression.||"We hypothesized that tolcapone would increase suppression of BOLD signal, meaning an increase in suppression of brain activity, in the ventromedial prefrontal cortex, a part of the brain known to be involved in working memory.~We analyzed for main effects of treatment (tolcapone vs. placebo), back level (0, 1, 2, and 3), treatment order, and relevant covariates (genotype, race, age, sex, FTND score, Shipley IQ score)."||||0.002
92337984|NCT02820870|184577648|SUPERIORITY||Odds Ratio (OR)|3.0|||<|0.01|TWO_SIDED|95.0|1.84|4.9|||Regression, Logistic|With clustering by provider and team.||||4.9|1.84|<0.01
92337985|NCT02820870|184577649|SUPERIORITY||Odds Ratio (OR)|1.65||||0.06|TWO_SIDED|95.0|0.99|2.77|||Regression, Logistic|With cluster by provider and team.||||2.77|0.99|0.06
92337986|NCT02754518|184577652|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
92337987|NCT02754518|184577653|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
92337988|NCT02754518|184577654|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
92337989|NCT02754518|184577655|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
92337990|NCT02754518|184577656|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
92398321|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.37||||0.0816|TWO_SIDED|95.0|0.9|6.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.24|0.90|0.0816
92398322|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.25||||0.093|TWO_SIDED|95.0|0.87|5.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.81|0.87|0.0930
92398323|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.81||||0.365|TWO_SIDED|95.0|1.07|7.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.39|1.07|0.365
92398324|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|4.93||||0.0042|TWO_SIDED|95.0|1.65|14.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||14.73|1.65|0.0042
92153967|NCT01984424|184193589|SUPERIORITY||LS Mean Treatment Difference|-31.75|STANDARD_ERROR_OF_MEAN|2.33|<|0.0001|TWO_SIDED|95.0|-36.35|-27.16||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-27.16|-36.35|<0.0001
92215411|NCT03627767|184330447|SUPERIORITY||Difference in percentage|41.3|||<|0.0001|TWO_SIDED|95.0|33.9|48.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||48.7|33.9|< 0.0001
92215412|NCT03627767|184330447|SUPERIORITY||Difference in percentage|59.9|||<|0.0001|TWO_SIDED|95.0|53.1|66.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||66.7|53.1|< 0.0001
92215413|NCT03627767|184330447|SUPERIORITY||Difference in percentage|18.7|||||TWO_SIDED|95.0|10.8|26.6||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||26.6|10.8|
92215414|NCT03627767|184330447|SUPERIORITY||Difference in percentage|37.0|||<|0.0001|TWO_SIDED|95.0|29.6|44.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||44.4|29.6|< 0.0001
92337991|NCT02754518|184577657|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
92337992|NCT02754518|184577658|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
92337993|NCT02754518|184577659|OTHER|||||||0.13||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.|paired t-test|||0.13
92215415|NCT03627767|184330447|SUPERIORITY||Difference in percentage|54.6|||<|0.0001|TWO_SIDED|95.0|47.6|61.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||61.7|47.6|< 0.0001
92215416|NCT03627767|184330447|SUPERIORITY||Difference in percentage|17.7|||||TWO_SIDED|95.0|9.4|26.0||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||26.0|9.4|
92337994|NCT02754518|184577660|OTHER|||||||0.95||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||0.95
92337995|NCT02754518|184577661|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
92337996|NCT02754518|184577662|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
92215417|NCT03627767|184330447|SUPERIORITY||Difference in percentage|30.0|||<|0.0001|TWO_SIDED|95.0|22.6|37.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||37.4|22.6|< 0.0001
92215418|NCT03627767|184330447|SUPERIORITY||Difference in percentage|50.9|||<|0.0001|TWO_SIDED|95.0|43.8|58.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||58.1|43.8|< 0.0001
92215419|NCT03627767|184330447|SUPERIORITY||Difference in percentage|21.1|||||TWO_SIDED|95.0|12.8|29.5||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||29.5|12.8|
92337997|NCT02754518|184577663|OTHER|||||||0.65||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired T-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||0.65
92337998|NCT02754518|184577664|OTHER|||||||0.06||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||0.06
92337999|NCT02754518|184577665|OTHER|||||||0.76||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.76
92398325|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.73||||0.0488|TWO_SIDED|95.0|1.01|7.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.41|1.01|0.0488
92215420|NCT03627767|184330448|SUPERIORITY||Difference in percentage|1.4|||=|0.7232|TWO_SIDED|95.0|-6.1|8.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||8.8|-6.1|= 0.7232
92215421|NCT03627767|184330448|SUPERIORITY||Difference in percentage|-2.2|||=|0.5694|TWO_SIDED|95.0|-9.8|5.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||5.4|-9.8|= 0.5694
92215422|NCT03627767|184330448|SUPERIORITY||Difference in percentage|-3.7|||||TWO_SIDED|95.0|-11.2|3.8||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||3.8|-11.2|
92338000|NCT02754518|184577666|OTHER|||||||0.07||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Fisher Exact|||Primary outcome was presented at baseline and 1-year as frequency and percentages based upon the Shapiro-Wilks test of normality, and then analyzed with the Fisher exact test.||||0.07
92338001|NCT02754518|184577667|OTHER|||||||0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.001
92398326|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|3.85||||0.0075|TWO_SIDED|95.0|1.43|10.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.36|1.43|0.0075
92153968|NCT01984424|184193590|SUPERIORITY||LS Mean Treatment Difference|-29.91|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED|95.0|-34.06|-25.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-25.77|-34.06|<0.0001
92153969|NCT01984424|184193591|SUPERIORITY||LS Mean Treatment Difference|-27.2|STANDARD_ERROR_OF_MEAN|2.22|<|0.0001|TWO_SIDED|95.0|-31.58|-22.82||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-22.82|-31.58|<0.0001
92153970|NCT01984424|184193592|SUPERIORITY||LS Mean Treatment Difference|-34.13|STANDARD_ERROR_OF_MEAN|2.26|<|0.0001|TWO_SIDED|95.0|-38.59|-29.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-29.67|-38.59|<0.0001
92153971|NCT01984424|184193593|SUPERIORITY||LS Mean Treatment Difference|-31.98|STANDARD_ERROR_OF_MEAN|2.36|<|0.0001|TWO_SIDED|95.0|-36.64|-27.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-27.32|-36.64|<0.0001
92153972|NCT01984424|184193594|SUPERIORITY||LS Mean Treatment Difference|-21.08|STANDARD_ERROR_OF_MEAN|3.33|<|0.0001|TWO_SIDED|95.0|-27.65|-14.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-14.51|-27.65|<0.0001
92153973|NCT01984424|184193595|SUPERIORITY||LS Mean Treatment Difference|-21.24|STANDARD_ERROR_OF_MEAN|3.64|<|0.0001|TWO_SIDED|95.0|-28.42|-14.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-14.05|-28.42|<0.0001
92215423|NCT03627767|184330448|SUPERIORITY||Difference in percentage|29.0|||<|0.0001|TWO_SIDED|95.0|22.2|35.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||35.8|22.2|< 0.0001
92398327|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.2||||0.0984|TWO_SIDED|95.0|0.86|5.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.59|0.86|0.0984
92338002|NCT02754518|184577670|OTHER|||||||0.03||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.03
92338003|NCT02754518|184577671|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
92338004|NCT02754518|184577672|OTHER|||||||0.02||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.02
92338005|NCT02754518|184577673|OTHER||||||<|0.001||||||P-Values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
92338006|NCT02754518|184577674|OTHER|||||||0.82||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.82
92338007|NCT02754518|184577675|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
92338008|NCT02754518|184577676|OTHER|||||||0.01||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.01
92338009|NCT02754518|184577677|OTHER|||||||0.11||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.11
92398328|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.89||||0.2226|TWO_SIDED|95.0|0.68|5.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.29|0.68|0.2226
92153974|NCT01984424|184193596|SUPERIORITY||LS Mean Treatment Difference|-4.44|STANDARD_ERROR_OF_MEAN|4.72||0.37|TWO_SIDED|95.0|-13.74|4.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||4.87|-13.74|0.37
92338010|NCT02754518|184577678|OTHER|||||||0.17||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.17
92338011|NCT02754518|184577679|OTHER|||||||0.035||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.035
92398329|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.16||||0.1467|TWO_SIDED|95.0|0.76|6.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.08|0.76|0.1467
92153975|NCT01984424|184193597|SUPERIORITY||LS Mean Treatment Difference|-1.82|STANDARD_ERROR_OF_MEAN|6.0||0.37|TWO_SIDED|95.0|-13.64|10.01||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||10.01|-13.64|0.37
92215424|NCT03627767|184330448|SUPERIORITY||Difference in percentage|57.9|||<|0.0001|TWO_SIDED|95.0|51.2|64.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||64.5|51.2|< 0.0001
92153976|NCT01984424|184193598|SUPERIORITY||LS Mean Treatment Difference|6.18|STANDARD_ERROR_OF_MEAN|2.05||0.0083|TWO_SIDED|95.0|2.15|10.22||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||10.22|2.15|0.0083
92215425|NCT03627767|184330448|SUPERIORITY||Difference in percentage|28.9|||||TWO_SIDED|95.0|20.8|37.0||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||37.0|20.8|
92338012|NCT02754518|184577680|OTHER|||||||0.059||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.059
92153977|NCT01984424|184193599|SUPERIORITY||LS Mean Treatment Difference|4.5|STANDARD_ERROR_OF_MEAN|2.27||0.0083|TWO_SIDED|95.0|0.02|8.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||8.98|0.02|0.0083
92153978|NCT01984424|184193600|SUPERIORITY||LS Mean Treatment Difference|-4.65|STANDARD_ERROR_OF_MEAN|3.85||0.37|TWO_SIDED|95.0|-12.25|2.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||2.94|-12.25|0.37
92153979|NCT01984424|184193601|SUPERIORITY||LS Mean Treatment Difference|-1.23|STANDARD_ERROR_OF_MEAN|4.67||0.37|TWO_SIDED|95.0|-10.45|7.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||7.98|-10.45|0.37
92153980|NCT01807221|184193607|OTHER||Mean Difference (Final Values)|-6.3||||0.8771|TWO_SIDED|90.0|-14.9|2.3|||Chi-squared|||Estimates and two-sided 90% confidence intervals are provided for each treatment group and for the treatment differences πBi - πC. Clopper-Pearson confidence intervals were calculated for each treatment group, while for treatment differences the exact unconditional confidence limits were calculated.||2.3|-14.9|0.8771
92153981|NCT01807221|184193607|OTHER||Mean Difference (Final Values)|-4.7||||0.7945|TWO_SIDED|90.0|-13.4|4.0|||Chi-squared|||Estimates and two-sided 90% confidence intervals are provided for each treatment group and for the treatment differences πBi - πC. Clopper-Pearson confidence intervals were calculated for each treatment group, while for treatment differences the exact unconditional confidence limits were calculated.||4|-13.4|0.7945
92153982|NCT01807221|184193607|OTHER||Mean Difference (Final Values)|0.1||||0.5|TWO_SIDED|90.0|-8.5|8.8|||Chi-squared|||Estimates and two-sided 90% confidence intervals are provided for each treatment group and for the treatment differences πBi - πC. Clopper-Pearsonconfidence intervals were calculated for each treatment group, while for treatment differences the exact unconditional confidence limits were calculated.||8.8|-8.5|0.5
92153983|NCT01807221|184193607|OTHER||Mean Difference (Final Values)|1.6||||0.4225|TWO_SIDED|90.0|-7.1|10.2|||Chi-squared|||Estimates and two-sided 90% confidence intervals are provided for each treatment group and for the treatment differences πBi - πC. Clopper-Pearsonconfidence intervals were calculated for each treatment group, while for treatment differences the exact unconditional confidence limits were calculated.||10.2|-7.1|0.4225
92153984|NCT01807221|184193607|OTHER||Mean Difference (Final Values)|-3.0||||0.6865|TWO_SIDED|90.0|-11.7|5.7|||Chi-squared|||Estimates and two-sided 90% confidence intervals are provided for each treatment group and for the treatment differences πBi - πC. Clopper-Pearson confidence intervals were calculated for each treatment group, while for treatment differences the exact unconditional confidence limits were calculated.||5.7|-11.7|0.6865
92153985|NCT02441946|184193681|SUPERIORITY||Ratio of Geometric Means|0.19|||<|0.001|TWO_SIDED|90.0|0.13|0.28|||t-test, 1 sided|||||0.28|0.13|<0.001
92153986|NCT02441946|184193681|SUPERIORITY||Ratio of Geometric Means|0.25|||<|0.001|TWO_SIDED|90.0|0.17|0.38|||t-test, 1 sided|||||0.38|0.17|<0.001
92153987|NCT00600743|184193688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|128.2|STANDARD_ERROR_OF_MEAN|41.4||0.007|TWO_SIDED|95.0||||t test following ANOVA for difference between drug and placebo - There were 3 doses, and the value reported is for the highest and only effective dose|t-test, 2 sided|The overall error term was used to compare differences between placebo and drug||Repeated measures ANOVA||||0.007
92153988|NCT00600743|184193689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.4|STANDARD_ERROR_OF_MEAN|22.8||0.033|TWO_SIDED|95.0||||t-test after ANOVA with repeated measures on placebo minus drug (within groups) between binge and normal instructions (between groups)|t-test, 2 sided|This was part of an overall ANOVA (SAS proc mixed) with all four groups (3 doses eat normally. 4 ng dose, binge eat) and the error term had 76 df.||Each group was compared separately in an overall ANOVA with all dose groups included. The results are presented for the groups which received 4 mg dose and instructions to eat normally (normal group) or to binge eat (binge group). The test is the interaction between drug and group i.e. drug effect difference (placebo minus drug) in fullness between the group instructed to binge and the group instructed to eat normally.||||.033
92153989|NCT00600743|184193690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.4286|STANDARD_ERROR_OF_MEAN|13.134|<|0.014|TWO_SIDED|||||p-value is based on ANOVA with all groups and conditions and is a planned comparison|ANOVA||df = 53. 26 Used proc GLMMIX in SAS 9.4.|Tests the difference between drug and placebo for group = binge instructions||||<.014
92153990|NCT00579982|184193691|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Paired t-test|t-test, 2 sided|||||||<0.001
92153991|NCT00988351|184193707|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin -0.55 (mean hours of APAP arm no lower than 0.55 hours below CPAP arm)|Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.4|=|0.27|TWO_SIDED|95.0|-0.35|1.26||level of significance \<0.05, Power = 0.80|t-test, 2 sided|||||1.26|-.35|= 0.27
92153992|NCT00988351|184193708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||=|0.65|TWO_SIDED|95.0|-1.3|2.1|||t-test, 2 sided|||Patients using PAP (average of \>=1/2 hour per night) at 6 weeks clinic visit||2.1|-1.3|= 0.65
92153993|NCT00988351|184193709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.71|=|0.33|TWO_SIDED|95.0|-0.73|2.1||\< 0.05 criteria for statistical significance|t-test, 2 sided|||Patients using PAP (average \>=1/2 hour per nightly use) at 6 weeks clinic visit||2.1|-0.73|=0.33
92153994|NCT00988351|184193710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|||=|0.49|TWO_SIDED|95.0|-1.12|2.29|||t-test, 2 sided|||Patients using PAP (average \>= 1/2 hour of nightly use) at 6 weeks clinic visit||2.29|-1.12|=0.49
92153995|NCT00988351|184193711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.51|=|0.07|TWO_SIDED|95.0|-1.92|0.09||P \< 0.05 considered statistically significant|t-test, 2 sided|||participants using PAP (average \>=1/2 hour of use) at 6 weeks clinic visit||0.09|-1.92|=0.07
92398330|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0705|TWO_SIDED|95.0|0.92|8.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.19|0.92|0.0705
92398331|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|26.62||||0.0025|TWO_SIDED|95.0|3.16|223.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||223.9|3.16|0.0025
92398332|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.75||||0.0757|TWO_SIDED|95.0|0.9|8.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.40|0.90|0.0757
92398333|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|5.66||||0.0045|TWO_SIDED|95.0|1.71|18.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||18.74|1.71|0.0045
92398334|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.63||||0.0771|TWO_SIDED|95.0|0.9|7.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.67|0.90|0.0771
92398335|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.03||||0.1856|TWO_SIDED|95.0|0.71|5.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.81|0.71|0.1856
92398336|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.31||||0.5973|TWO_SIDED|95.0|0.48|3.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.54|0.48|0.5973
92398337|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.57||||0.0935|TWO_SIDED|95.0|0.85|7.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.77|0.85|0.0935
92398338|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|5.52||||0.0157|TWO_SIDED|95.0|1.38|22.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||22.10|1.38|0.0157
92398339|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1963|TWO_SIDED|95.0|0.68|6.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.32|0.68|0.1963
92398340|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|5.31||||0.0085|TWO_SIDED|95.0|1.53|18.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||18.43|1.53|0.0085
92398341|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.21||||0.1433|TWO_SIDED|95.0|0.76|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.38|0.76|0.1433
92398342|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.17||||0.1577|TWO_SIDED|95.0|0.74|6.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.37|0.74|0.1577
92398343|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.16||||0.1608|TWO_SIDED|95.0|0.74|6.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.34|0.74|0.1608
92215426|NCT03627767|184330448|SUPERIORITY||Difference in percentage|30.5|||<|0.0001|TWO_SIDED|95.0|23.9|37.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||37.2|23.9|< 0.0001
92398344|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.96||||0.0693|TWO_SIDED|95.0|0.92|9.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.53|0.92|0.0693
92215427|NCT03627767|184330448|SUPERIORITY||Difference in percentage|48.9|||<|0.0001|TWO_SIDED|95.0|42.1|55.6||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||55.6|42.1|< 0.0001
92398345|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|9.57||||0.0063|TWO_SIDED|95.0|1.89|48.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||48.39|1.89|0.0063
92338013|NCT02754518|184577681|OTHER|||||||0.054||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.054
92338014|NCT02754518|184577682|OTHER|||||||0.28||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.28
92398346|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.25||||0.1637|TWO_SIDED|95.0|0.72|7.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.05|0.72|0.1637
92398347|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|3.57||||0.0326|TWO_SIDED|95.0|1.11|11.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||11.47|1.11|0.0326
92398348|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.24||||0.1455|TWO_SIDED|95.0|0.76|6.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.67|0.76|0.1455
92398349|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1951|TWO_SIDED|95.0|0.69|6.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.32|0.69|0.1951
92398350|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.56||||0.4097|TWO_SIDED|95.0|0.54|4.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.53|0.54|0.4097
92338015|NCT02754518|184577683|OTHER|||||||0.002||||||P-Values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.002
92398351|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.29||||0.1554|TWO_SIDED|95.0|0.73|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.22|0.73|0.1554
92398352|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|4.22||||0.044|TWO_SIDED|95.0|1.04|17.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||17.14|1.04|0.0440
92398353|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.23||||0.1928|TWO_SIDED|95.0|0.67|7.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.47|0.67|0.1928
92153996|NCT01304082|184193805|SUPERIORITY_OR_OTHER|||||||0.7535||||||Bonferroni correction for pairwise comparisons|non-parametric Friedman ANOVA test|||"Analysis: Non-parametric Friedman ANOVA test on rank-transformed outcome with Bonferroni correction for pairwise comparisons.~Null hypothesis: No difference between the groups"||||0.7535
92153997|NCT01304082|184193806|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Bonferroni correction for pairwise comparisons|non-parametric Friedman ANOVA test|||"Analysis: Non-parametric Friedman ANOVA test on rank-transformed outcome with Bonferroni correction for pairwise comparisons.~Null hypothesis: No difference between the groups"||||<0.0001
92215428|NCT03627767|184330448|SUPERIORITY||Difference in percentage|18.2|||||TWO_SIDED|95.0|9.8|26.6||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||26.6|9.8|
92215429|NCT03627767|184330448|SUPERIORITY||Difference in percentage|25.0|||<|0.0001|TWO_SIDED|95.0|18.4|31.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||31.5|18.4|< 0.0001
92274596|NCT01010230|184451715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.19||||0.12|TWO_SIDED|95.0|0.43|5.95||The threshold for significance was established a priori at alpha=0.05.|ANOVA|Adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8%3 we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||5.95|0.43|0.12
92274597|NCT01010230|184451716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.97|TWO_SIDED|95.0|-4.24|4.05||The threshold for significance was established a priori at alpha=0.05.|ANOVA|Adjusted for sex and tanner stage (from general linear model).||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8%3 we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||4.05|-4.24|0.97
92215430|NCT03627767|184330448|SUPERIORITY||Difference in percentage|39.6|||<|0.0001|TWO_SIDED|95.0|32.7|46.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||46.5|32.7|< 0.0001
92215431|NCT03627767|184330448|SUPERIORITY||Difference in percentage|14.5|||||TWO_SIDED|95.0|6.3|22.8||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||22.8|6.3|
92215432|NCT03627767|184330448|SUPERIORITY||Difference in percentage|24.7|||<|0.0001|TWO_SIDED|95.0|18.1|31.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||31.2|18.1|< 0.0001
92215433|NCT03627767|184330448|SUPERIORITY||Difference in percentage|38.5|||<|0.0001|TWO_SIDED|95.0|31.6|45.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||45.3|31.6|< 0.0001
92215434|NCT03627767|184330448|SUPERIORITY||Difference in percentage|13.9|||||TWO_SIDED|95.0|5.6|22.3||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||22.3|5.6|
92215435|NCT03627767|184330456|SUPERIORITY||Difference in percentage|3.0|||=|0.4815|TWO_SIDED|95.0|-5.3|11.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||11.3|-5.3|= 0.4815
92338016|NCT02754518|184577684|OTHER|||||||0.008||||||P-Values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.008
92338017|NCT02754518|184577685|OTHER|||||||0.005||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.005
92338018|NCT02754518|184577686|OTHER|||||||0.056||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.056
92398354|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|4.67||||0.0222|TWO_SIDED|95.0|1.25|17.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||17.47|1.25|0.0222
92215436|NCT03627767|184330456|SUPERIORITY||Difference in percentage|-1.8|||=|0.6748|TWO_SIDED|95.0|-10.3|6.6||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||6.6|-10.3|= 0.6748
92215437|NCT03627767|184330456|SUPERIORITY||Difference in percentage|-5.1|||||TWO_SIDED|95.0|-13.4|3.2||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||3.2|-13.4|
92215438|NCT03627767|184330456|SUPERIORITY||Difference in percentage|24.0|||<|0.0001|TWO_SIDED|95.0|17.8|30.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||30.3|17.8|< 0.0001
92338019|NCT04501952|184577730|SUPERIORITY||Hazard Ratio (HR)|0.134||||0.0076|TWO_SIDED|95.0|0.031|0.586|||Regression, Cox|P-value was estimated using the Cox regression with baseline stratification factors as covariates.|Hazard ratio and two-sided 95% confidence interval (CI) were estimated using the Cox regression with baseline stratification factors as covariates.|||0.586|0.031|0.0076
92338020|NCT04501952|184577732|SUPERIORITY||Hazard Ratio (HR)|0.191||||0.0024|TWO_SIDED|95.0|0.065|0.555|||Regression, Cox|P-value was estimated using the Cox regression with baseline stratification factors as covariates.|Hazard ratio and two-sided 95% CI were estimated using the Cox regression with baseline stratification factors as covariates.|||0.555|0.065|0.0024
92398355|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.58||||0.4075|TWO_SIDED|95.0|0.54|4.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.65|0.54|0.4075
92398356|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.65||||0.3659|TWO_SIDED|95.0|0.56|4.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.93|0.56|0.3659
92338021|NCT04501952|184577735|SUPERIORITY||Hazard Ratio (HR)|0.134||||0.0076|TWO_SIDED|95.0|0.031|0.586|||Regression, Cox|P-value were estimated using the Cox regression with baseline stratification factors as covariates.|Hazard ratio and two-sided 95% CI were estimated using the Cox regression with baseline stratification factors as covariates.|||0.586|0.031|0.0076
92338022|NCT04501952|184577736|SUPERIORITY||Hazard Ratio (HR)|0.1||||0.0019|TWO_SIDED|95.0|0.023|0.43|||Regression, Cox|P-value were estimated using the Cox regression with baseline stratification factors as covariates.|Hazard ratio and two-sided 95% CI were estimated using the Cox regression with baseline stratification factors as covariates.|||0.430|0.023|0.0019
92338023|NCT04501952|184577737|SUPERIORITY||Least Squares Mean|0.07|STANDARD_ERROR_OF_MEAN|0.09||0.4318|TWO_SIDED|95.0|-0.1|0.24|||ANCOVA|P-value were from an ANCOVA model with baseline viral load as a covariate.|Least squares Mean (LSM), standard error (SE) and 95% CI were from an ANCOVA model with baseline viral load as a covariate.|||0.24|-0.10|0.4318
92338024|NCT04501952|184577738|SUPERIORITY||Hazard Ratio (HR)|1.405||||0.2987|TWO_SIDED|95.0|0.733|2.693|||Log Rank|p-value was based on stratified log-rank test with baseline stratification factor as strata.|Hazard ratio and two-sided 95% CI were estimated using the Cox regression with baseline stratification factors as covariates.|||2.693|0.733|0.2987
92398357|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.15||||0.7878|TWO_SIDED|95.0|0.41|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.24|0.41|0.7878
92398358|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|3.26||||0.0635|TWO_SIDED|95.0|0.94|11.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||11.38|0.94|0.0635
92153998|NCT01304082|184193807|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Bonferroni correction for pairwise comparisons|non-parametric Friedman ANOVA test|||"Analysis: Non-parametric Friedman ANOVA test on rank-transformed outcome with Bonferroni correction for pairwise comparisons.~Null hypothesis: No difference between the groups"||||<0.0001
92153999|NCT01304082|184193808|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Bonferroni correction for pairwise comparisons|non-parametric Friedman ANOVA test|||"Analysis: Non-parametric Friedman ANOVA test on rank-transformed outcome with Bonferroni correction for pairwise comparisons.~Null hypothesis: No difference between the groups"||||<0.0001
92154000|NCT03912220|184193809|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
92154001|NCT03912220|184193810|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
92154002|NCT04654468|184193824|SUPERIORITY||||||<|0.0001|||||||Paired McNemar|||Percentage of participants who achieved TA from baseline through Week 25 were compared with the percentage of participants who reported TA within 24 weeks prior to screening.||||<.0001
92154003|NCT03757234|184193890|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-2.6|||||TWO_SIDED|95.0|-12.4|6.9|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||6.9|-12.4|
92154004|NCT03757234|184193890|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-9.9|||||TWO_SIDED|95.0|-34.8|5.3|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||5.3|-34.8|
92338025|NCT04501952|184577740|SUPERIORITY|||||||0.2163|||||||Fisher Exact|||||||0.2163
92154005|NCT03757234|184193890|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-5.0|||||TWO_SIDED|95.0|-30.6|8.2|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||8.2|-30.6|
92154006|NCT03757234|184193890|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment Difference|0.9|||||TWO_SIDED|95.0|-22.4|11.8|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||11.8|-22.4|
92154007|NCT03757234|184193891|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-5.4|||||TWO_SIDED|95.0|-23.6|12.7|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||12.7|-23.6|
92154008|NCT03757234|184193891|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-47.7|||||TWO_SIDED|95.0|-71.3|-6.0|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||-6.0|-71.3|
92154009|NCT03757234|184193891|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-10.7|||||TWO_SIDED|95.0|-40.8|15.1|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||15.1|-40.8|
92154010|NCT03757234|184193891|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-36.5|||||TWO_SIDED|95.0|-62.6|-1.1|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||-1.1|-62.6|
92338026|NCT00086450|184577744|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|7.9||||0.005||95.0|3.3|12.5|||Regression, Cox|||||12.5|3.3|0.005
92338027|NCT00086450|184577745|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.74||||0.004||95.0|1.91|3.89|||Regression, Cox|||||3.89|1.91|0.004
92338028|NCT00086450|184577746|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.4||||0.049||95.0|||||Log Rank|||||||0.049
92338029|NCT00086450|184577747|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||Regression, Cox|||||||0.68
92338030|NCT04550364|184577751|OTHER|Semi-structured interview, background information, DSM 5 diagnosis and ED symptoms.||||||||||||||||23 of 24 women were used ideal type analysis as the methods. EDE-Q and DSM 5 diagnosis were measured.|Ideal type analysis as main method of analysis|||
92338031|NCT04550364|184577752|OTHER|Interpretative phenomenological analysis (IPA)||||||||||||||||of the 24 mothers there were 7 of them that had undergone In vitro fertilization. These women were interviewed twice and IPA were used in analysis the material.|IPA|||
92338032|NCT04550364|184577753|OTHER|Grounded theory was used analysis method. 5 distinct ED trajectories into motherhood were identified based on the womens experiences from pregnancy to postpartum.||||||||||||||||This study was based on interviews conducted with 24 participants during pregnancy and postpartum. Semi-structured interview with 24 women at two time points: 1. During pregnancy and 2. 4-6 months after birth. DSM 5 diagnosis at both time points were also assessed and symptoms at eating disorders through EDE-Q.|Qualitative methods using Ground theory|||
92338033|NCT03138577|184577783|OTHER||||||||||||||||||Counts and percentages of cases with paralysis were calculated separately for each volume of local anesthetic.|||
92338034|NCT03138577|184577784|OTHER|||||||||||||||Counts and percentages of cases with paralysis were calculated separately for each volume of local anesthetic.|||Counts and percentages of cases with paralysis were calculated separately for each volume of local anesthetic.|||
92338035|NCT03138577|184577785|OTHER||Median Difference (Final Values)|7.5||||0.01|TWO_SIDED||||||Sign test|||||||0.01
92338036|NCT03138577|184577785|OTHER||Median Difference (Final Values)|0.0||||1|TWO_SIDED||||||Sign test|||||||1.00
92338037|NCT03138577|184577786|OTHER||||||||||||||||||Dose response data was fit with a non-parametric smoothing technique for locally weighted regression (lowess) to produce a dose response curve.|||
92338038|NCT03138577|184577787|OTHER||||||||||||||||||Dose response data was fit with a non-parametric smoothing technique for locally weighted regression (lowess) to produce a dose response curve.|||
92338039|NCT03138577|184577788|OTHER||Median Difference (Final Values)|-1.0||||0.01|TWO_SIDED||||||Sign test|||||||0.01
92338040|NCT03138577|184577788|OTHER||Median Difference (Final Values)|0.0||||1|TWO_SIDED||||||Sign test|||||||1.00
92338041|NCT03138577|184577789|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92338042|NCT02497937|184577801|OTHER||Mean Difference (Net)|0.793|||||TWO_SIDED|95.0|-0.925|2.512|||||Difference estimate of DLco on Day 7 has been presented for Mayo site|||2.512|-0.925|
92154011|NCT01152294|184193910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.6|STANDARD_DEVIATION|2.4||0.01|TWO_SIDED|95.0|1.02|7.96|||t-test, 2 sided|||We tested for a difference in the mean total knowledge score between the decision aid and control groups using independent t-test (2 sided). With 100 patients in each arm, the study had more than 90% power to detect a 10% difference in knowledge assuming a common standard deviation of 18%.||7.96|1.02|0.01
92154012|NCT00610701|184193912|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
92154013|NCT01518946|184193916|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|521.0||||0.0131|TWO_SIDED|95.0|124.2|917.7|||ANOVA|||||917.7|124.2|0.0131
92338043|NCT00534638|184577882|SUPERIORITY||Vaccine effectiveness percentage|49.6||||0.004|TWO_SIDED|95.0|20.1|68.2||An objective was reached if the 2-sided p-value associated to the objective was below 5%.|Cochran-Mantel-Haenszel|||Overall efectiveness against HPV-16/18 Cervarix/Engerix-B B Group vs Engerix-B Group: The analysis of the overall effectiveness of GSK's HPV-16/18 vaccine against HPV-16/18 genital infection in Cervarix/Engerix-B B Group versus Engerix-B Group was based on stratified Mantel-Haenszel adjusted for clustering.||68.2|20.1|0.004
92154014|NCT00381641|184193917|SUPERIORITY|"Null (historical) response rate for iodine refractory subgroup is 10%. Power=90% for 30% alternative.~Null (historical) response rate for metastatic medullary subgroup is 5%. Power=88% for 25% alternative."|||||<|0.1||||||"For iodine refractory subgroup, null hypothesis could be rejected if 6 or more responses were observed.~For metastatic medullary subgroup, null hypothesis could be rejected if 3 or more responses were observed."|Simon, two-stage design|||Note. The objective was not to compare the two arms (subgroups), but to compare each with historical data.||||<0.10
92168529|NCT04878354|184226846|SUPERIORITY||Median Difference (Final Values)|1.45|||<|0.0001|TWO_SIDED|95.0|0.73|2.18|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||2.18|0.73|<0.0001
92338044|NCT00534638|184577882|SUPERIORITY||Vaccine effectiveness percentage|23.8||||0.232|TWO_SIDED|95.0|-19.0|51.1||An objective was reached if the 2-sided p-value associated to the objective was below 5%.|Cochran-Mantel-Haenszel|||Overall efectiveness against HPV-16/18 Cervarix/Engerix-B A Group vs Engerix-B Group: The analysis of the overall effectiveness of GSK's HPV-16/18 vaccine against HPV-16/18 genital infection in Cervarix/Engerix-B A Group versus Engerix-B Group was based on stratified Mantel-Haenszel adjusted for clustering.||51.1|-19.0|0.232
92338045|NCT00534638|184577883|SUPERIORITY||Vaccine effectiveness percentage|-52.2||||0.069|TWO_SIDED|95.0|-139.4|3.3||An objective was reached if the 2-sided p-value associated to the objective was below 5%.|Cochran-Mantel-Haenszel|||Overall efectiveness against HPV-16/18 Cervarix/Engerix-B A Group vs Cervarix/Engerix-B B Group: The analysis of the overall effectiveness of GSK's HPV-16/18 vaccine against HPV-16/18 genital infection in Cervarix/Engerix-B A Group versus Cervarix/Engerix-B B was based on stratified Mantel-Haenszel adjusted for clustering.||3.3|-139.4|0.069
92338046|NCT00282152|184577901|NON_INFERIORITY|Because the purpose of this trial was to provide preliminary safety and tolerability data, the primary hypothesis was that the DBS+ODT group would not worsen more quickly than the ODT group. The primary endpoint was defined as the time to reach a four-point worsening of the UPDRS-III score following a one week treatment washout as assessed by the blinded rater.||||||0.968|||||||Log Rank|||||||0.968
92338047|NCT00282152|184577902|OTHER|||||||0.4|||||||t-test, 2 sided|||Study power was calculated based on the amount of PD medication consumed. We anticipated that the control group (ODT) would have a baseline value of 400 which would increase to 600, and that the treated group (DBS+ODT) would decrease from 400 to 300. A sample size of 12 patients per group (n=15, assuming 20% drop out) would have 80% power to detect a difference in means of 300 assuming that the common standard deviation is 250 using a two group t-test with a 0.05 two-sided significance level.||||0.40
92338048|NCT01919164|184577914|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.01|0.03||||||Descriptive statistics was provided for primary endpoint.||0.03|-0.01|
92338049|NCT01919164|184577914|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.01|0.04||||||Descriptive statistics was provided for primary endpoint.||0.04|-0.01|
92338050|NCT01919164|184577914|SUPERIORITY||Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|0.02|0.06||||||Descriptive statistics was provided for primary endpoint.||0.06|0.02|
92338051|NCT01919164|184577914|SUPERIORITY||Mean Difference (Final Values)|0.05|||||TWO_SIDED|95.0|0.03|0.07||||||Descriptive statistics was provided for primary endpoint.||0.07|0.03|
92338052|NCT03569098|184577950|SUPERIORITY||Difference in LS mean|0.32|STANDARD_ERROR_OF_MEAN|0.441||0.7669|TWO_SIDED|95.0|-0.55|1.19||One-sided P-value. The model includes the fixed categorical effects of treatment group, visit, treatment group-by-visit interaction, and the stratification factor as fixed categorical covariates and the Baseline value as a fixed continuous covariate.|Mixed Model for Repeated Measures (MMRM)|||Dysport 300 U versus Placebo.||1.19|-0.55|0.7669
92338053|NCT03569098|184577950|SUPERIORITY||Difference in LS mean|-0.36|STANDARD_ERROR_OF_MEAN|0.444||0.2085|TWO_SIDED|95.0|-1.24|0.51||One-sided P-value. The model includes the fixed categorical effects of treatment group, visit, treatment group-by-visit interaction, and the stratification factor as fixed categorical covariates and the Baseline value as a fixed continuous covariate.|MMRM|||Dysport 500 U versus Placebo.||0.51|-1.24|0.2085
92338054|NCT02485483|184577979|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.67|||<|0.001|TWO_SIDED|95.0|0.59|0.74||"Convergent Validity Criterion Correlation coefficient (ρ) \> \|0.50\|"|t-test, 2 sided||Convergent correlation between PHQ-9 and MADRS|Number of participants analyzed (N) = 221||0.74|0.59|<0.001
92338055|NCT02485483|184577979|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.69|||<|0.001|TWO_SIDED|95.0|0.62|0.76||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between PHQ-9 and BDI-II|Number of participants analyzed (N) = 222||0.76|0.62|<0.001
92338056|NCT02485483|184577980|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.58||||0.057|TWO_SIDED|95.0|0.48|0.66||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between PHQ-9 and MADRS|Number of participants analyzed (N) = 203||0.66|0.48|0.057
92154015|NCT00900627|184193943|SUPERIORITY_OR_OTHER||Maximum Tolerated Dose|40.0|||||||||||||Dosing started at 160mg. Based on the data seen, 240mg with 33% patients with DLTs, 120mg with 50% patients with DLTs, 80mg with 33% of patients with DLTs and 40mg with 0% patients with DLTs, 40mg was deemed the maximum tolerated dose.|A tolerated dose was defined as one where ≤25% of the patients experienced a DLT. If a dose was tolerated, an increased dose was to be investigated in another group of 3-6 evaluable patients. A non-tolerated dose was defined as one where \>25% of the patients experience a DLT. If a dose was non tolerated, a decreased/intermediate dose could be investigated in another group of 3-6 evaluable patients. The maximum tolerated dose was determined as the maximum dose level that was defined as tolerated.||||
92154016|NCT00900627|184193944|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.679|TWO_SIDED|95.0|0.76|1.52||Statistical significance threshold at this analysis was 5%|Cox Proportional Hazard model|Cox PH test with terms for treatment , prior taxane, hormone receptor status, prior chemotherapy for breast cancer and AZD8931 diagnostic test|The Hazard Ratio is for AZD8931 40mg + paclitaxel / Placebo + paclitaxel, ie a hazard ratio \<1 favours AZD8931 40mg + paclitaxel|Originally, 166 patients were to be randomised to observe at least 133 progression events, based on HR=0.67, 80% power, 2-sided 5% significant level and a median of 6 months for the placebo arm. After 190 patients were randomised, the analysis was agreed to be performed at an similar level of maturity (70%) as originally planned (72%), after approximately 133 events.||1.52|0.76|0.679
92154017|NCT00900627|184193945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.02||||0.026|TWO_SIDED|95.0|1.09|3.75||Statistical significance threshold at this analysis was 5%|Logistic Regression|Logistic reg. model with terms for treatment, prior taxane, hormone receptor status, prior chemotherapy for breast cancer and AZD8931 diagnostic test|The odds Ratio is for AZD8931 40mg + paclitaxel / Placebo + paclitaxel, ie a odds ratio \<1 favours AZD8931 40mg + paclitaxel|Originally, 166 patients were to be randomised to observe at least 133 progression events, based on HR=0.67, 80% power, 2-sided 5% significant level and a median of 6 months for the placebo arm. After 190 patients were randomised, the analysis was agreed to be performed at an similar level of maturity (70%) as originally planned (72%), after approximately 133 events.||3.75|1.09|0.026
92215439|NCT03627767|184330456|SUPERIORITY||Difference in percentage|42.3|||<|0.0001|TWO_SIDED|95.0|35.6|49.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||49.0|35.6|< 0.0001
92338057|NCT02485483|184577980|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.74|||<|0.001|TWO_SIDED|95.0|0.67|0.8||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between PHQ-9 and BDI-II|Number of participants analyzed (N) = 200||0.80|0.67|<0.001
92338058|NCT02485483|184577981|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.73|||<|0.001|TWO_SIDED|95.0|0.67|0.79||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between BDI-II and MADRS|Number of participants analyzed (N) = 258||0.79|0.67|<0.001
92338059|NCT02485483|184577982|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.71|||<|0.001|TWO_SIDED|95.0|0.64|0.77||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between BDI-II and MADRS|Number of participants analyzed (N) = 214||0.77|0.64|<0.001
92338060|NCT02485483|184577983|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.59||||0.034|TWO_SIDED|95.0|-0.67|-0.49||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and MADRS|Number of participants analyzed (N) = 222||-0.49|-0.67|0.034
92338061|NCT02485483|184577983|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.61||||0.01|TWO_SIDED|95.0|-0.68|-0.52||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and BDI-II|Number of participants analyzed (N) = 223||-0.52|-0.68|0.010
92338062|NCT02485483|184577983|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.73|||<|0.001|TWO_SIDED|95.0|-0.78|-0.66||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and PHQ-9|Number of participants analyzed (N) = 222||-0.66|-0.78|<0.001
92338063|NCT02485483|184577984|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.54||||0.219|TWO_SIDED|95.0|-0.63|-0.43||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and MADRS|Number of participants analyzed (N) = 202||-0.43|-0.63|0.219
92215440|NCT03627767|184330456|SUPERIORITY||Difference in percentage|18.4|||||TWO_SIDED|95.0|10.2|26.6||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions||26.6|10.2|
92154018|NCT00900627|184193946|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.607|TWO_SIDED|95.0|0.67|2.01||Statistical significance threshold at this analysis was 5%|Cox proportional hazard model|Cox PH test with terms for treatment , prior taxane, hormone receptor status, prior chemotherapy for breast cancer|The Hazard Ratio is for AZD8931 40mg + paclitaxel / Placebo + paclitaxel, ie a hazard ratio \<1 favours AZD8931 40mg + paclitaxel|Originally, 166 patients were to be randomised to observe at least 133 progression events, based on HR=0.67, 80% power, 2-sided 5% significant level and a median of 6 months for the placebo arm. After 190 patients were randomised, the analysis was agreed to be performed at an similar level of maturity (70%) as originally planned (72%), after approximately 133 events.||2.01|0.67|0.607
92154019|NCT01087723|184193960|SUPERIORITY_OR_OTHER||Relative risk|0.6||||0.0014|TWO_SIDED|95.0|0.43|0.82|||Chi-squared|||||0.82|0.43|0.0014
92154020|NCT01649596|184193982|SUPERIORITY_OR_OTHER||percent|10.0||||0.12|TWO_SIDED||||||Chi-squared|||||||0.12
92154021|NCT01649596|184193983|SUPERIORITY_OR_OTHER||percent|48.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|A t-test for percents was used to compare the number of participants (%) from each group reporting satisfaction (somewhat and highly satisfied).||||||<0.05
92154022|NCT01757665|184193987|SUPERIORITY||percent of patients|0.1|||||ONE_SIDED|95.0||0.7|||||Upper 95% CI was calculated by the method of Clopper and Pearson, using the Beta distribution with parameters x + 1 and n - x where x is the number of SVD events by POD 390 and n is the number of subjects followed at the 1 year assessment.|The null hypothesis is that the rate of structural valve deterioration at one year is greater than 1%. The alternative hypothesis is that this rate is less than 1%.||0.7||
92154023|NCT02500979|184194033|SUPERIORITY_OR_OTHER||Least squares mean difference|-21.5|STANDARD_ERROR_OF_MEAN|7.88||0.0118|TWO_SIDED|95.0|-37.8|-5.2|||Linear mixed-effects model|||||-5.2|-37.8|0.0118
92154024|NCT02500979|184194034|SUPERIORITY_OR_OTHER||LS mean difference (pramlintide-placebo)|-7.897||||0.0013|TWO_SIDED|95.0|-12.356|-3.438|||Linear mixed effects model|||||-3.438|-12.356|0.0013
92154025|NCT02500979|184194035|SUPERIORITY_OR_OTHER||LS mean difference (pramlintide-placebo)|-5.277||||0.0091|TWO_SIDED|95.0|-9.175|-1.378|||Linear mixed effects model|||||-1.378|-9.175|0.0091
92154026|NCT02500979|184194036|SUPERIORITY_OR_OTHER||LS mean difference (pramlintide-placebo)|-4.435||||0.0057|TWO_SIDED|95.0|-7.445|-1.424|||Linear mixed effects model|||||-1.424|-7.445|0.0057
92215441|NCT03627767|184330456|SUPERIORITY||Difference in percentage|24.6|||<|0.0001|TWO_SIDED|95.0|18.2|31.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||31.0|18.2|< 0.0001
92154027|NCT02500979|184194037|SUPERIORITY_OR_OTHER||Least squares mean difference|-28733.0|STANDARD_ERROR_OF_MEAN|4163.6|<|0.0001|TWO_SIDED|95.0|-37326.0|-20139.0|||Linear mixed-effects model|||||-20139|-37326|<0.0001
92154028|NCT02500979|184194038|SUPERIORITY_OR_OTHER||LS mean difference|-28.418||||0.0258|TWO_SIDED|95.0|-53.099|-3.737|||Linear mixed-effects model|||||-3.737|-53.099|0.0258
92215442|NCT03627767|184330456|SUPERIORITY||Difference in percentage|40.5|||<|0.0001|TWO_SIDED|95.0|33.7|47.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||47.3|33.7|< 0.0001
92154029|NCT02500979|184194040|SUPERIORITY_OR_OTHER||LS Mean Ratio (Pramlintide/Placebo)|1.31||||0.0456|TWO_SIDED|95.0|1.01|1.7|||Linear mixed-effects model|||||1.70|1.01|0.0456
92154030|NCT02500979|184194041|SUPERIORITY_OR_OTHER||LS mean ratio (pramlintide/placebo)|0.951||||0.1015|TWO_SIDED|95.0|0.896|1.011|||Linear mixed-effects model|||||1.011|0.896|0.1015
92154031|NCT02500979|184194043|SUPERIORITY_OR_OTHER||LS mean ratio (pramlintide/placebo)|1.085||||0.373|TWO_SIDED|95.0|0.901|1.307|||Linear mixed effects model|||||1.307|0.901|0.3730
92154032|NCT00267111|184194048|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||Statistical analyses were performed using SPSS v12, USA). Pain scores were compared between groups by means of the Student t-test. A p-value of \< 0.05 was considered significant.|t-test, 2 sided|||We hypothesized that topical amethocaine gel 4% would reduce the pain from IM injection. The sample size was based on the pain scores obtained from a previous study that compared pain response during IM injection. To achieve a clinically significant reduction in pain scores by 20% between groups with 80% power and an alpha value of \< 0.05, we estimated sample size of 49 neonates in each group. A total of 110 neonates were enrolled to account for possible dropouts and missing data.||||< 0.05
92154033|NCT00267111|184194049|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||Statistical analyses were performed using SPSS v12, USA). Pain scores were compared between groups by means of the Student t-test. A p-value of \< 0.05 was considered significant|t-test, 2 sided|||We hypothesized that parents and nurses will report lower pain scores as assessed by visual analogue scale in topical amethocaine gel 4% compared to placebo group. This was a secondary outcome and no power calculation was performed.||||<0.05
92154034|NCT01613027|184194050|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Paired t-test|||Difference in change at Month 6||||<0.001
92154035|NCT01613027|184194050|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Paired t-test|||Difference in change at Month 12||||<0.001
92154036|NCT04267614|184194066|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92154037|NCT04267614|184194067|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92154038|NCT04267614|184194068|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92154039|NCT04267614|184194069|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92154040|NCT00183456|184194081|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.28|||<|0.01|TWO_SIDED|95.0|0.13|0.63|||Generalized Estimating Equations|||||0.63|0.13|<0.01
92154041|NCT00183456|184194082|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.68||||0.05|TWO_SIDED|95.0|1.22|5.89|||Generalized Estimating Equations|||||5.89|1.22|0.05
92215443|NCT03627767|184330456|SUPERIORITY||Difference in percentage|15.9|||||TWO_SIDED|95.0|7.6|24.1||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||24.1|7.6|
92215444|NCT03627767|184330456|SUPERIORITY||Difference in percentage|18.8|||<|0.0001|TWO_SIDED|95.0|12.6|25.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.1|12.6|< 0.0001
92215445|NCT03627767|184330456|SUPERIORITY||Difference in percentage|34.5|||<|0.0001|TWO_SIDED|95.0|27.6|41.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||41.5|27.6|< 0.0001
92215446|NCT03627767|184330456|SUPERIORITY||Difference in percentage|15.6|||||TWO_SIDED|95.0|7.5|23.7||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||23.7|7.5|
92215447|NCT03627767|184330456|SUPERIORITY||Difference in percentage|18.7|||<|0.0001|TWO_SIDED|95.0|12.4|25.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.0|12.4|< 0.0001
92215448|NCT03627767|184330456|SUPERIORITY||Difference in percentage|32.3|||<|0.0001|TWO_SIDED|95.0|25.4|39.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||39.2|25.4|< 0.0001
92215449|NCT03627767|184330456|SUPERIORITY||Difference in percentage|13.7|||||TWO_SIDED|95.0|5.6|21.7||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||21.7|5.6|
92215450|NCT03627767|184330457|SUPERIORITY||LSM difference|0.1|||=|0.7373|TWO_SIDED|95.0|-0.5|0.7|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.7|-0.5|= 0.7373
92215451|NCT03627767|184330457|SUPERIORITY||LSM difference|-0.1|||=|0.8092|TWO_SIDED|95.0|-0.7|0.5|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.5|-0.7|= 0.8092
92215452|NCT03627767|184330457|SUPERIORITY||LSM difference|-0.2|||||TWO_SIDED|95.0|-0.8|0.4||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.4|-0.8|
92215453|NCT03627767|184330457|SUPERIORITY||LSM difference|-5.1|||<|0.0001|TWO_SIDED|95.0|-6.1|-4.0|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-4.0|-6.1|< 0.0001
92215454|NCT03627767|184330457|SUPERIORITY||LSM difference|-6.6|||<|0.0001|TWO_SIDED|95.0|-7.6|-5.5|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-5.5|-7.6|< 0.0001
92215455|NCT03627767|184330457|SUPERIORITY||LSM difference|-1.5|||||TWO_SIDED|95.0|-2.4|-0.6||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-2.4|
92215456|NCT03627767|184330457|SUPERIORITY||LSM difference|-4.0|||<|0.0001|TWO_SIDED|95.0|-5.3|-2.7|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.7|-5.3|< 0.0001
92274598|NCT01010230|184451717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.91|TWO_SIDED|95.0|-4.05|4.68||The threshold for significance was established a priori at alpha=0.05.|ANOVA|Adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8%3 we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||4.68|-4.05|0.91
92274599|NCT01010230|184451718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29||||0.4|TWO_SIDED|95.0|-0.69|3.11||The threshold for significance was established a priori at alpha=0.05.|ANOVA|Adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8%3 we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||3.11|-0.69|0.40
92338064|NCT02485483|184577984|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.68|||<|0.001|TWO_SIDED|95.0|-0.75|-0.6||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and BDI-II|Number of participants analyzed (N) = 199||-0.60|-0.75|<0.001
92215457|NCT03627767|184330457|SUPERIORITY||LSM difference|-5.2|||<|0.0001|TWO_SIDED|95.0|-6.4|-3.9|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-3.9|-6.4|< 0.0001
92215458|NCT03627767|184330457|SUPERIORITY||LSM difference|-1.2|||||TWO_SIDED|95.0|-2.1|-0.3||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-2.1|
92215459|NCT03627767|184330457|SUPERIORITY||LSM difference|-1.9|||=|0.015|TWO_SIDED|95.0|-3.5|-0.4|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.4|-3.5|= 0.0150
92215460|NCT03627767|184330457|SUPERIORITY||LSM difference|-3.2|||<|0.0001|TWO_SIDED|95.0|-4.7|-1.7|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.7|-4.7|< 0.0001
92215461|NCT03627767|184330457|SUPERIORITY||LSM difference|-1.3|||||TWO_SIDED|95.0|-2.3|-0.3||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-2.3|
92215462|NCT03627767|184330457|SUPERIORITY||LSM difference|-0.8|||=|0.3616|TWO_SIDED|95.0|-2.4|0.9|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.9|-2.4|= 0.3616
92215463|NCT03627767|184330457|SUPERIORITY||LSM difference|-2.7|||=|0.0012|TWO_SIDED|95.0|-4.3|-1.1|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.1|-4.3|= 0.0012
92215464|NCT03627767|184330457|SUPERIORITY||LSM difference|-1.9|||||TWO_SIDED|95.0|-3.0|-0.8||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.8|-3.0|
92338065|NCT02485483|184577984|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.77|||<|0.001|TWO_SIDED|95.0|-0.82|-0.7||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and PHQ-9|Number of participants analyzed (N) = 205||-0.70|-0.82|<0.001
92338066|NCT00377637|184577990|SUPERIORITY_OR_OTHER|||||||0.478||95.0|||||Regression, Logistic|Covariates included Treatment, Race, Geographical Region, and WHO Lupus Nephritis Class V and specified interaction terms.||||||0.478
92338067|NCT00377637|184577991|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Testing at the alpha=0.05 level was applied with no adjustments made for multiplicity.|Log Rank|||The difference in Kaplan-Meier survival curves between treatment groups (MMF-AZA) was assessed using a log-rank test, which is a non-parametric test to compare the survival distributions of two groups commonly used to analyze time-to-event endpoints.||||0.003
92338068|NCT02922153|184578007|SUPERIORITY|||||||0.0223|TWO_SIDED|95.0|||||t-test, 1 sided|One-sided, two-sample t-test.||||||0.0223
92215465|NCT03627767|184330458|SUPERIORITY||LSM difference|0.6|||=|0.3339|TWO_SIDED|95.0|-0.6|1.8|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.8|-0.6|= 0.3339
92215466|NCT03627767|184330458|SUPERIORITY||LSM difference|0.5|||=|0.4653|TWO_SIDED|95.0|-0.8|1.7|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.7|-0.8|= 0.4653
92215467|NCT03627767|184330458|SUPERIORITY||LSM difference|-0.1|||||TWO_SIDED|95.0|-1.3|1.1||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.1|-1.3|
92215468|NCT03627767|184330458|SUPERIORITY||LSM difference|-4.3|||<|0.0001|TWO_SIDED|95.0|-6.2|-2.3|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.3|-6.2|< 0.0001
92215469|NCT03627767|184330458|SUPERIORITY||LSM difference|-6.2|||<|0.0001|TWO_SIDED|95.0|-8.2|-4.3|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-4.3|-8.2|< 0.0001
92215470|NCT03627767|184330458|SUPERIORITY||LSM difference|-2.0|||||TWO_SIDED|95.0|-3.6|-0.3||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-3.6|
92338069|NCT02922153|184578008|SUPERIORITY|||||||0.6259|TWO_SIDED|95.0|||||t-test, 1 sided|One-sided two-sample t-test.||||||0.6259
92338070|NCT02922153|184578008|SUPERIORITY|||||||0.518|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon two-sample test.||||||0.518
92338071|NCT02922153|184578009|SUPERIORITY|||||||0.0201||||||FEV1 one-sided, two-sample t-test|t-test, 1 sided|||||||0.0201
92338072|NCT02922153|184578009|SUPERIORITY|||||||0.06||||||FVC one-sided, two-sample t-test|t-test, 1 sided|||||||0.06
92338073|NCT02922153|184578009|SUPERIORITY|||||||0.09||||||SVC one-sided, two-sample t-test|t-test, 1 sided|||||||0.09
92338074|NCT02922153|184578010|SUPERIORITY|||||||0.3085||||||72 Hours Post-Op|Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test||||||0.3085
92338075|NCT02922153|184578010|SUPERIORITY|||||||0.8196||||||96 Hours Post-Op|Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test.||||||0.8196
92338076|NCT02922153|184578010|SUPERIORITY|||||||0.7269||||||120 Hours Post-Op|Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test.||||||0.7269
92338077|NCT02922153|184578012|SUPERIORITY|||||||0.4421|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test||Analysis is the time from end of procedure to oral endotracheal extubation||||0.4421
92338078|NCT02922153|184578013|SUPERIORITY|||||||0.4352||||||Total Post-Procedure for Hospital Stay|Wilcoxon (Mann-Whitney)|Wilcoxon Rank-Sum Test||||||0.4352
92338079|NCT02922153|184578014|SUPERIORITY|||||||0.2939||||||ICU Length of Stay|Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test||||||0.2939
92338080|NCT02922153|184578014|SUPERIORITY|||||||0.0998||||||Hospital Length of Stay|Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test||||||0.0998
92338081|NCT02922153|184578015|SUPERIORITY|||||||0.2877|||||||Chi-squared|||48 Hours Post-Op: Patient able to sit up in bed||||0.2877
92338082|NCT02922153|184578015|SUPERIORITY|||||||0.5311|||||||Fisher Exact|||48 Hours Post-Op: Patient able to stand up||||0.5311
92338083|NCT02922153|184578015|SUPERIORITY|||||||0.4908|||||||Fisher Exact|||48 Hours Post-Op: Patient able to walk||||0.4908
92398359|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|14.62||||0.0137|TWO_SIDED|95.0|1.73|123.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||123.3|1.73|0.0137
92338084|NCT02922153|184578015|SUPERIORITY|||||||0.8621|||||||Fisher Exact|||48 Hours Post-Op: Right Shoulder Flexion Movement||||0.8621
92154042|NCT00183456|184194083|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.05|TWO_SIDED|95.0|0.16|0.84|||Generalized Estimating Equations|||||0.84|0.16|0.05
92338085|NCT02922153|184578015|SUPERIORITY|||||||1|||||||Fisher Exact|||48 Hours Post-Op: Left Shoulder Flexion Movement||||1
92338086|NCT02922153|184578015|SUPERIORITY|||||||0.0133|||||||Fisher Exact|||72 Hours Post-Op: Patient able to sit up in bed||||0.0133
92338087|NCT02922153|184578015|SUPERIORITY|||||||0.0037|||||||Fisher Exact|||72 Hours Post-Op: Patient able to stand up||||0.0037
92154043|NCT00183456|184194084|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.82||||0.01|TWO_SIDED|95.0|1.41|5.64|||Generalized Estimating Equations|||||5.64|1.41|0.01
92338088|NCT02922153|184578015|SUPERIORITY|||||||0.1671|||||||Fisher Exact|||72 Hours Post-Op: Patient able to walk||||0.1671
92338089|NCT02922153|184578015|SUPERIORITY|||||||1|||||||Fisher Exact|||72 Hours Post-Op: Right Shoulder Flexion Movement||||1.000
92338090|NCT02922153|184578015|SUPERIORITY|||||||1|||||||Fisher Exact|||72 Hours Post-Op: Left Shoulder Flexion Movement||||1
92338091|NCT02922153|184578015|SUPERIORITY|||||||1|||||||Fisher Exact|||96 Hours Post-Op: Patient able to sit up in bed||||1
92338092|NCT02922153|184578015|SUPERIORITY|||||||0.2757|||||||Fisher Exact|||96 Hours Post-Op: Patient able to stand up||||0.2757
92338093|NCT02922153|184578015|SUPERIORITY|||||||0.9025|||||||Fisher Exact|||96 Hours Post-Op: Patient able to walk||||0.9025
92338094|NCT02922153|184578015|SUPERIORITY|||||||0.7942|||||||Fisher Exact|||96 Hours Post-Op: Right Shoulder Flexion Movement||||0.7942
92338095|NCT02922153|184578015|SUPERIORITY|||||||1|||||||Fisher Exact|||96 Hours Post-Op: Left Shoulder Flexion Movement||||1
92338096|NCT02922153|184578015|SUPERIORITY|||||||0.3492|||||||Fisher Exact|||120 Hours Post-Op: Patient able to sit up in bed||||0.3492
92338097|NCT02922153|184578015|SUPERIORITY|||||||0.2644|||||||Fisher Exact|||120 Hours Post-Op: Patient able to stand up||||0.2644
92338098|NCT02922153|184578015|SUPERIORITY|||||||0.8258|||||||Fisher Exact|||120 Hours Post-Op: Patient able to walk||||0.8258
92338099|NCT02922153|184578015|SUPERIORITY|||||||0.67|||||||Fisher Exact|||120 Hours Post-Op: Right Shoulder Flexion Movement||||0.67
92338100|NCT02922153|184578015|SUPERIORITY|||||||0.5693|||||||Fisher Exact|||120 Hours Post-Op: Left Shoulder Flexion Movement||||0.5693
92338101|NCT02922153|184578015|SUPERIORITY|||||||0.1189|||||||Chi-squared|||Discharge: Patient able to sit up in bed||||0.1189
92338102|NCT02922153|184578015|SUPERIORITY|||||||1|||||||Fisher Exact|||Discharge: Patient able to stand up||||1
92338103|NCT02922153|184578015|SUPERIORITY|||||||0.6992|||||||Fisher Exact|||Discharge: Patient able to walk||||0.6992
92338104|NCT02922153|184578015|SUPERIORITY|||||||0.4429|||||||Fisher Exact|||Discharge: Right Shoulder Flexion Movement||||0.4429
92338105|NCT02922153|184578015|SUPERIORITY|||||||0.4563|||||||Fisher Exact|||Discharge: Left Shoulder Flexion Movement||||0.4563
92338106|NCT01116921|184578016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3||||0.006|TWO_SIDED|95.0|0.13|0.7|||Regression, Logistic|||||0.70|0.13|0.006
92338107|NCT00522548|184578022|SUPERIORITY|||||||0.29||||||A p value of less than 0.05 was considered statistically significant.|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||.29
92338108|NCT00522548|184578023|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|95.0||||A p value of less than 0.05 was considered statistically significant.|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.39
92338109|NCT00522548|184578024|SUPERIORITY|||||||1||||||A p value of less than 0.05 was considered statistically significant.|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||1.0
92338110|NCT00522548|184578025|SUPERIORITY|||||||1||||||A p value of less than 0.05 was considered significant.|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||1.00
92398360|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.91||||0.1069|TWO_SIDED|95.0|0.79|10.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||10.62|0.79|0.1069
92154044|NCT00183456|184194085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.24||||0.01|TWO_SIDED|95.0|0.09|0.68|||Generalized Estimating Equations|||||0.68|0.09|0.01
92154045|NCT00183456|184194086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.05|TWO_SIDED|95.0|0.25|0.87|||Generalized Estimating Equations|||||0.87|0.25|0.05
92154046|NCT00183456|184194087|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41||||0.01|TWO_SIDED|95.0|0.21|0.77|||Generalized Estimating Equations|||||0.77|0.21|0.01
92154047|NCT00183456|184194088|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.33||||0.05|TWO_SIDED|95.0|0.14|0.79|||Generalized Estimating Equations|||||0.79|0.14|0.05
92154048|NCT00183456|184194089|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3||||0.01|TWO_SIDED|95.0|0.14|0.64|||Generalized Estimating Equations|||||0.64|0.14|0.01
92154049|NCT00183456|184194090|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.41||||0.01|TWO_SIDED|95.0|1.25|4.65|||Generalized Estimating Equations|||||4.65|1.25|0.01
92154050|NCT00981825|184194108|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92154051|NCT03881059|184194113|SUPERIORITY||Slope Coefficient of Dose|0.11|||<|0.001|TWO_SIDED|95.0|0.05|0.17|||Regression, Logistic|||||0.17|0.05|<0.001
92154052|NCT01263106|184194287|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.12|||||TWO_SIDED|90.0|1.05|1.2|||Mixed Models Analysis|||||1.20|1.05|
92154053|NCT01263106|184194288|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|0.96|||||TWO_SIDED|90.0|0.92|1.01|||Mixed Models Analysis|||||1.01|0.92|
92154054|NCT01263106|184194289|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8008|TWO_SIDED|90.0|-3.0|1.0|||Wilcoxon (Mann-Whitney)|||||1.00|-3.00|0.8008
92154055|NCT05027074|184194311|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.47|TWO_SIDED|95.0|0.6|1.26||From log-rank test stratified by region (US, Non-US), previous thrombosis of active AVG (yes, no) and regular aspirin use up to 150 mg daily at baseline (yes, no).|Log Rank||HR based on stratified Cox model with Efron's method of tie handling and with a single treatment covariate, controlling for stratification factors of region, previous thrombosis of active AVG and regular aspirin use up to 150 mg daily at baseline.|||1.26|0.60|0.470
92154056|NCT05027074|184194311|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.57|1.19|||||HR based on stratified Cox model with Efron's method of tie handling and with a single treatment covariate, controlling for stratification factors of region, previous thrombosis of active AVG and regular aspirin use up to 150 mg daily at baseline.|||1.19|0.57|
92154057|NCT05027074|184194312|OTHER||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.68|1.21|||||HR based on Andersen-Gill model with stratification factors of region, previous thrombosis of active AVG, and regular aspirin use up to 150 mg daily at baseline as fixed effect.|||1.21|0.68|
92154058|NCT05027074|184194312|OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.7|1.23|||||HR based on Andersen-Gill model with stratification factors of region, previous thrombosis of active AVG, and regular aspirin use up to 150 mg daily at baseline as fixed effect.|||1.23|0.70|
92154059|NCT05027074|184194314|OTHER||Hazard Ratio (HR)|1.68||||0.022|TWO_SIDED|95.0|1.07|2.62||From log-rank test stratified by region (US, Non-US), previous thrombosis of active AVG (yes, no) and regular aspirin use up to 150 mg daily at baseline (yes, no).|Log Rank||HR based on stratified Cox model with Efron's method of tie handling and with a single treatment covariate, controlling for stratification factors of region, previous thrombosis of active AVG and regular aspirin use up to 150 mg daily at baseline.|||2.62|1.07|0.022
92154060|NCT05027074|184194314|OTHER||Hazard Ratio (HR)|1.27||||0.311|TWO_SIDED|95.0|0.8|2.0||From log-rank test stratified by region (US, Non-US), previous thrombosis of active AVG (yes, no) and regular aspirin use up to 150 mg daily at baseline (yes, no).|Log Rank||HR based on stratified Cox model with Efron's method of tie handling and with a single treatment covariate, controlling for stratification factors of region, previous thrombosis of active AVG and regular aspirin use up to 150 mg daily at baseline.|||2.00|0.800|0.311
92154061|NCT03169881|184194316|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.88|TWO_SIDED|95.0|-3.09|2.64||The mean difference in Bayley-III cognitive scores between treatment groups was adjusted for center, gestational age group, and familial clustering.|Mixed Models Analysis||Adjusted mean difference in cognitive score for the Darbepoetin minus Placebo treatment groups.|Null hypothesis: Weekly administration of Darbepoetin during the neonatal period will not impact neurocognitive outcomes at 22-26 months compared to Placebo in premature infants 23 to 28 weeks gestation.||2.64|-3.09|0.88
92154062|NCT02090634|184194353|SUPERIORITY|||||||0.95||||||Cliff's d = 0.01; calculated to estimate the effect size for between-group comparisons with non-parametric data|Wilcoxon (Mann-Whitney)|||We conducted Wilcoxon rank sum (Mann-Whitney) tests in order to examine group (i.e., iTAB vs. CTRL) differences on overall adherence to ARV medications.||||0.95
92154063|NCT02090634|184194353|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|Cliff's d = -0.13; calculated to estimate the effect size for between-group comparisons with non-parametric data||We conducted Wilcoxon rank sum (Mann-Whitney) tests in order to examine group (i.e., iTAB vs. CTRL) differences on overall adherence to PSY medications.||||0.43
92154064|NCT02090634|184194354|SUPERIORITY|||||||0.02||||||Cliff's d = 0.37; calculated to estimate the effect size for between-group comparisons with non-parametric data|Wilcoxon (Mann-Whitney)|||We conducted Wilcoxon rank sum (Mann-Whitney) tests in order to examine group (i.e., iTAB vs. CTRL) differences on overall dose timing windows for ARV medications.||||0.02
92154065|NCT02090634|184194354|SUPERIORITY|||||||0.42||||||Cliff's d = 0.14; calculated to estimate the effect size for between-group comparisons with non-parametric data|Wilcoxon (Mann-Whitney)|||We conducted Wilcoxon rank sum (Mann-Whitney) tests in order to examine group (i.e., iTAB vs. CTRL) differences on overall dose timing windows for PSY medications.||||0.42
92154066|NCT01861457|184194373|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92154067|NCT01861457|184194374|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92338111|NCT00522548|184578026|SUPERIORITY|||||||0.14||||||a p value of less than 0.05 was considered statistically significant|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.14
92398361|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|5.6||||0.0186|TWO_SIDED|95.0|1.33|23.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||23.47|1.33|0.0186
92274600|NCT01010230|184451719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67||||0.73|TWO_SIDED|95.0|-2.02|3.33||The threshold for significance was established a priori at alpha=0.05.|ANOVA|Adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8%3 we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||3.33|-2.02|0.73
92274601|NCT01010230|184451720|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|0.2||||0.08|TWO_SIDED|95.0|0.06|0.34||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.34|0.06|0.08
92274602|NCT01010230|184451721|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|0.13||||0.17|TWO_SIDED|95.0|0.0|0.26||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.26|0.00|0.17
92274603|NCT01010230|184451722|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|0.08||||0.38|TWO_SIDED|95.0|-0.04|0.2||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.20|-0.04|0.38
92274604|NCT01010230|184451723|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|-0.02||||0.88|TWO_SIDED|95.0|-0.22|0.18||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.18|-0.22|0.88
92274605|NCT01010230|184451724|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|0.28||||0.06|TWO_SIDED|95.0|0.09|0.46||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.46|0.09|0.06
92274606|NCT00530439|184451731|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.014
92274607|NCT02367781|184451734|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.639|||<|0.0001|TWO_SIDED|95.0|0.536|0.763|||Log Rank|||||0.763|0.536|<.0001
92274608|NCT02367781|184451735|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.788||||0.0298|TWO_SIDED|95.0|0.636|0.977|||Log Rank|||||0.977|0.636|0.0298
92274609|NCT02367781|184451736|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.647|||<|0.0001|TWO_SIDED|95.0|0.545|0.768|||Log Rank|||ITT Population||0.768|0.545|<0.0001
92274610|NCT02367781|184451736|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.561|||<|0.0001|TWO_SIDED|95.0|0.432|0.728|||Log Rank|||TC1/2/3 or IC1/2/3-WT ITT Population||0.728|0.432|<0.0001
92274611|NCT02367781|184451736|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.549|||<|0.0001|TWO_SIDED|95.0|0.425|0.708|||Log Rank|||TC1/2/3 or IC1/2/3 ITT Population||0.708|0.425|<0.0001
92274612|NCT02367781|184451737|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.837||||0.0732|TWO_SIDED|95.0|0.689|1.017|||Log Rank|||||1.017|0.689|0.0732
92274613|NCT02367781|184451738|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.752||||0.083|TWO_SIDED|95.0|0.545|1.039|||Log Rank|||TC1/2/3 or IC1/2/3 ITT Population||1.039|0.545|0.0830
92274614|NCT02367781|184451738|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.746||||0.0813|TWO_SIDED|95.0|0.536|1.038|||Log Rank|||TC1/2/3 or IC1/2/3 WT ITT Population||1.038|0.536|0.0813
92274615|NCT02367781|184451739|SUPERIORITY|Stratified Analysis|Difference in Response Rate|19.21|||<|0.0001|TWO_SIDED|95.0|11.05|27.37|||Cochran-Mantel-Haenszel||Wald with Continuity Correction|||27.37|11.05|<.0001
92274616|NCT02367781|184451740|SUPERIORITY|Unstratified Analysis|Difference in Response Rate|16.89|||<|0.0001|TWO_SIDED|95.0|8.9|24.88|||Cochran-Mantel-Haenszel||Wald with Continuity Correction|ITT Population||24.88|8.90|<.0001
92274617|NCT02367781|184451740|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.22|||||TWO_SIDED|95.0|1.38|3.56||||||TC1/2/3 or IC1/2/3 ITT WT Population||3.56|1.38|
92274618|NCT02367781|184451740|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.21||||0.0007|TWO_SIDED|95.0|1.39|3.51|||Cochran-Mantel-Haenszel|||TC1/2/3 or IC1/2/3 ITT Population||3.51|1.39|0.0007
92274619|NCT02367781|184451741|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.614||||0.0002|TWO_SIDED|95.0|0.473|0.797|||Log Rank|||ITT Population||0.797|0.473|0.0002
92274620|NCT02367781|184451741|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.6||||0.0002|TWO_SIDED|95.0|0.458|0.785|||Log Rank|||ITT-WT Population||0.785|0.458|0.0002
92274621|NCT02367781|184451741|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.548||||0.0011|TWO_SIDED|95.0|0.379|0.791|||Log Rank|||TC1/2/3 or IC1/2/3 ITT Population||0.791|0.379|0.0011
92274622|NCT02367781|184451741|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.551||||0.0014|TWO_SIDED|95.0|0.381|0.798|||Log Rank|||TC1/2/3 or IC1/2/3 ITT WT Population||0.798|0.381|0.0014
92274623|NCT02367781|184451742|SUPERIORITY||Difference in Event Free Rate|7.46||||0.0647|TWO_SIDED|95.0|-0.45|15.37|||Z-test|||Event Free Rate (%) at Year 1 ITT WT Population||15.37|-0.45|0.0647
92274624|NCT02367781|184451742|SUPERIORITY||Difference in Event Free Rate|8.07||||0.0516|TWO_SIDED|95.0|-0.06|16.19|||Z-test|||Event Free Rate (%) at Year 2 ITT WT Population||16.19|-0.06|0.0516
92274625|NCT02367781|184451742|SUPERIORITY||Difference in Event Free Rate|7.19||||0.0683|TWO_SIDED|95.0|-0.54|14.91|||Z-test|||Event Free Rate (%) at Year 1 ITT Population||14.91|-0.54|0.0683
92274626|NCT02367781|184451742|SUPERIORITY||Difference in Event Free Rate|7.53||||0.0625|TWO_SIDED|95.0|-0.39|15.44|||Z-test|||Event Free Rate (%) at Year 2 ITT Population||15.44|-0.39|0.0625
92274627|NCT02367781|184451743|SUPERIORITY||Difference in Event Free Rate|6.69||||0.2385|TWO_SIDED|95.0|-4.44|17.83|||Z-test|||Event Free Rate (%) at Year 1 TC1/2/3 or IC1/2/3 ITT||17.83|-4.44|0.2385
92215471|NCT03627767|184330458|SUPERIORITY||LSM difference|0.1|||=|0.9083|TWO_SIDED|95.0|-1.8|2.1|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||2.1|-1.8|= 0.9083
92215472|NCT03627767|184330458|SUPERIORITY||LSM difference|-1.1|||=|0.2439|TWO_SIDED|95.0|-3.0|0.8|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.8|-3.0|= 0.2439
92215473|NCT03627767|184330458|SUPERIORITY||LSM difference|-1.2|||||TWO_SIDED|95.0|-2.6|0.1||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-2.6|
92154068|NCT01567865|184194380|EQUIVALENCE|The 3 lots of new GMP facility LJEVac would be considered equivalent (i.e., the SP does not differ between lots by ≥10%) if all 3 null hypotheses are rejected, and the alternate hypotheses are accepted.|Mean Difference (Net)|1.84|||||TWO_SIDED|95.0|-5.97|9.66||||||"Null hypotheses: each new lot does not differ in seroprotection (SP) rates among each other by more than 10%.~Slower than anticipated enrollment resulted in a smaller number of subjects with antibody response data for analysis. Consequently, additional power estimates were made in anticipation of the occurrence of smaller sample sizes. With a total study population of only 772 subjects, the power of the study to test lot-to-lot consistency declined from 90% to 85%."||9.66|-5.97|
92154069|NCT01567865|184194380|EQUIVALENCE|The 3 lots of new GMP facility LJEVac would be considered equivalent (i.e., the SP does not differ between lots by ≥10%) if all 3 null hypotheses are rejected, and the alternate hypotheses are accepted.|Mean Difference (Net)|-2.48|||<|0.05|TWO_SIDED|95.0|-9.92|4.98|||t-test, 2 sided|The 95% CI for the difference in rates is calculated based on the Newcombe-Wilson method without continuity correction.||"Null hypotheses: each new lot does not differ in seroprotection (SP) rates among each other by more than 10%.~Slower than anticipated enrollment resulted in a smaller number of subjects with antibody response data for analysis. Consequently, additional power estimates were made in anticipation of the occurrence of smaller sample sizes. With a total study population of only 772 subjects, the power of the study to test lot-to-lot consistency declined from 90% to 85%."||4.98|-9.92|<0.05
92154070|NCT01567865|184194380|EQUIVALENCE|The 3 lots of new GMP facility LJEVac would be considered equivalent (i.e., the SP does not differ between lots by ≥10%) if all 3 null hypotheses are rejected, and the alternate hypotheses are accepted.|Mean Difference (Net)|-4.33|||<|0.05|TWO_SIDED|95.0|-11.94|3.31|||t-test, 2 sided|||"Null hypotheses: each new lot does not differ in seroprotection (SP) rates among each other by more than 10%.~Slower than anticipated enrollment resulted in a smaller number of subjects with antibody response data for analysis. Consequently, additional power estimates were made in anticipation of the occurrence of smaller sample sizes. With a total study population of only 772 subjects, the power of the study to test lot-to-lot consistency declined from 90% to 85%."||3.31|-11.94|<0.05
92274628|NCT02367781|184451743|SUPERIORITY||Difference in Event Free Rate|8.64||||0.271|TWO_SIDED|95.0|-6.75|24.03|||Z-test|||Event Free Rate (%) at Year 2 TC1/2/3 or IC1/2/3 ITT||24.03|-6.75|0.2710
92274629|NCT02367781|184451743|SUPERIORITY||Difference in Event Free Rate|6.34||||0.2733|TWO_SIDED|95.0|-5.0|17.67|||Z-test|||Event Free Rate (%) Year 1 TC1/2/3 or IC1/2/3 ITT WT||17.67|-5.00|0.2733
92274630|NCT02367781|184451743|SUPERIORITY||Difference in Event Free Rate|8.69||||0.2909|TWO_SIDED|95.0|-7.44|24.81|||Z-test|||Event Free Rate (%) Year 2 TC1/2/3 or IC1/2/3 ITT WT||24.81|-7.44|0.2909
92274631|NCT02367781|184451744|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.893||||0.3342|TWO_SIDED|95.0|0.711|1.123|||Log Rank|||||1.123|0.711|0.3342
92274632|NCT02462382|184451756|EQUIVALENCE|The univariate analyses were conducted using Independent t-Tests for continuous variables and Fisher Exact Tests or Chi-Square Tests of Independence for categorical comparisons.|Fisher Exact Tests|0.041||||0.006|TWO_SIDED|||||POD 1 1cm incision.|Chi-squared|||Comparisons of pain scores using a Visual Analog Scale (VAS) based on Post-Operative Day (POD).||||.006
92274633|NCT02060461|184451766|OTHER|||||||0.003|||||||t-test, 2 sided|||Paired Students t-test of FS200 and IntraLase intraoperative flap thickness measurements obtained by ultrasound pachymetry||||.003
92274634|NCT00740727|184451769|SUPERIORITY_OR_OTHER||% of subjects with infusion pain|11.1||||||95.0|1.4|34.7|||95% binomial exact confidence interval|||This analysis reports the number of subjects (of 18 possible) who experienced pain, during EASI placement or infusion, at the a priori-defined level of at least 3 on a 10-point pain scale.||34.7|1.4|
92274635|NCT00740727|184451770|SUPERIORITY_OR_OTHER||% subjects with next-day EASI site pain|0.0||||||97.5|0.0|18.5|||binomial exact confidence interval|Because the point estimate was zero, the statistical software (STATA version 10MP) reports a one-sided 97.5% confidence interval.||This analysis reports the number of subjects (of 18 possible) who experienced pain, as assessed on next-day follow-up (24 hours after EASI infusion), at the a priori-defined level of at least 3 on a 10-point pain scale.||18.5|0|
92274636|NCT05321810|184451776|OTHER|||||||0.016|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||0.016
92274637|NCT05321810|184451781|OTHER||Hazard Ratio (HR)|0.812||||0.013|TWO_SIDED|95.0|0.69|0.957|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|0.957|0.690|0.013
92274638|NCT05321810|184451787|OTHER|||||||0.002|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||0.002
92274639|NCT05321810|184451790|OTHER||||||<|0.001|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||<0.001
92274640|NCT05321810|184451791|OTHER||Hazard Ratio (HR)|0.57|||<|0.001|TWO_SIDED|95.0|0.42|0.773|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|0.773|0.420|<0.001
92274641|NCT05321810|184451793|OTHER|||||||0.35|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||0.350
92274642|NCT05321810|184451794|OTHER||Hazard Ratio (HR)|1.155||||0.324|TWO_SIDED|95.0|0.867|1.54|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|1.540|0.867|0.324
92215474|NCT03627767|184330458|SUPERIORITY||LSM difference|-0.3|||=|0.7405|TWO_SIDED|95.0|-2.4|1.7|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.7|-2.4|= 0.7405
92215475|NCT03627767|184330458|SUPERIORITY||LSM difference|-2.1|||=|0.041|TWO_SIDED|95.0|-4.1|-0.1|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-4.1|= 0.0410
92215476|NCT03627767|184330458|SUPERIORITY||LSM difference|-1.7|||||TWO_SIDED|95.0|-3.1|-0.4||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.4|-3.1|
92338112|NCT00522548|184578027|SUPERIORITY|||||||0.34||||||A p value of less than 0.05 was considered statistically significant.|Chi-squared|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.34
92338113|NCT00522548|184578028|SUPERIORITY_OR_OTHER|||||||0.51||||||A p-value of less than 0.05 was considered statistically significant.|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||.51
92338114|NCT00522548|184578029|SUPERIORITY|||||||0.95|TWO_SIDED|95.0||||A p-value of less than 0.05 was considered statistically significant.|t-test, 2 sided|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study.||||0.95
92338115|NCT00522548|184578030|SUPERIORITY|||||||0.57||||||The p value was not adjusted for multiple comparisons. A p-value of less than 0.05 was considered statistically significant.|t-test, 2 sided|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study.||||0.57
92215477|NCT03627767|184330458|SUPERIORITY||LSM difference|-1.0|||=|0.4026|TWO_SIDED|95.0|-3.5|1.4|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.4|-3.5|= 0.4026
92215478|NCT03627767|184330458|SUPERIORITY||LSM difference|-1.9|||=|0.0944|TWO_SIDED|95.0|-4.2|0.3|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-4.2|= 0.0944
92215479|NCT03627767|184330458|SUPERIORITY||LSM difference|-0.9|||||TWO_SIDED|95.0|-2.5|0.7||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.7|-2.5|
92338116|NCT00522548|184578031|SUPERIORITY|||||||0.45|TWO_SIDED|95.0||||This represents p value for week 4 data. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.45
92338117|NCT00522548|184578031|SUPERIORITY|||||||0.58|TWO_SIDED|95.0||||This represents p value for week 24 data. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||Sample size was arbitrarily determined as 40 patients (20 in CellCept group and 20 in the Myfortic group) in this proof of concept study.||||0.58
92338118|NCT00522548|184578032|SUPERIORITY|||||||0.012||||||This p value is for data at week 4. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.012
92398362|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.37||||0.1434|TWO_SIDED|95.0|0.75|7.56||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||7.56|0.75|0.1434
92215480|NCT03627767|184330459|SUPERIORITY||Hazard Ratio (HR)|0.27|||<|0.0001|TWO_SIDED|95.0|0.211|0.341||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate p-value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% confidence interval (CI).||0.341|0.211|< 0.0001
92215481|NCT03627767|184330459|SUPERIORITY||Hazard Ratio (HR)|0.1|||<|0.0001|TWO_SIDED|95.0|0.07|0.136||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate P value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% CI.||0.136|0.070|< 0.0001
92215482|NCT03627767|184330459|SUPERIORITY||Hazard Ratio (HR)|0.36|||<|0.0001|TWO_SIDED|95.0|0.255|0.516||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate P value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% CI.||0.516|0.255|< 0.0001
92215483|NCT03627767|184330460|SUPERIORITY||LSM difference|0.1|||=|0.7556|TWO_SIDED|95.0|-0.4|0.6|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.6|-0.4|= 0.7556
92338119|NCT00522548|184578032|SUPERIORITY|||||||0.046|TWO_SIDED|95.0||||This p value was for data at week 24. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic Group) in this proof of concept study.||||0.046
92338120|NCT00522548|184578033|SUPERIORITY|||||||0.27||||||p value represents data for week 4. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.27
92338121|NCT00522548|184578033|SUPERIORITY|||||||0.23|TWO_SIDED|95.0||||p value represents data for week 24. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.23
92338122|NCT03506438|184578036|SUPERIORITY||Mean Difference (Net)|-6.7||||0.018|TWO_SIDED|95.0|-12.2|-1.2|||Mixed Models Analysis|||||-1.2|-12.2|0.018
92338123|NCT03506438|184578037|SUPERIORITY||Mean Difference (Net)|0.3||||0.48|TWO_SIDED|95.0|-0.5|1.1|||Mixed Models Analysis|||||1.1|-0.5|0.48
92338124|NCT03506438|184578038|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.73|TWO_SIDED|95.0|-1.4|1.0|||Mixed Models Analysis|||||1.0|-1.4|0.73
92338125|NCT03506438|184578039|SUPERIORITY||estimated mean difference|0.6||||0.47|TWO_SIDED|95.0|-1.0|2.1|||Mixed Models Analysis|||||2.1|-1.0|0.47
92338126|NCT03506438|184578040|SUPERIORITY||Odds Ratio (OR)|1.8||||0.29|TWO_SIDED|95.0|0.6|5.2|||Regression, Logistic|||||5.2|0.6|0.29
92338127|NCT03506438|184578041|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
92338128|NCT03506438|184578042|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
92338129|NCT03506438|184578043|SUPERIORITY|||||||0.08|||||||Regression, Logistic|||||||0.08
92338130|NCT04155463|184578054|OTHER||Median Percent Change|-18.4||||0.17|TWO_SIDED||||||Wilcoxon signed rank test|Two-tailed test for paired data|This calculation shows the median percent change in urinary glyphosate concentrations going from the conventional diet to organic diet for all participants. Interquartile range for this was -37.4 to 29.8.|Based on previous pesticide research, we calculated a sample size of 40 participants to provide a power of 0.80 at a 0.05 significance level in a two-sided test. We assumed a standard deviation of 0.5 µg/L.||||0.17
92338131|NCT04155463|184578054|OTHER||Median Percent Change|-24.2||||0.06|TWO_SIDED||||||Wilcoxon signed rank test|Two-tailed test for paired data|This calculation shows the median percent change in urinary glyphosate concentrations going from the conventional diet to organic diet for far-field participants. Interquartile range for this was -37.4 to -8.8.|||||0.06
92338132|NCT04155463|184578054|OTHER||Median Percent Change|1.4||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-tailed test for paired data|This calculation shows the median percent change in urinary glyphosate concentrations going from the conventional diet to organic diet for near-field participants. Interquartile range for this was -41.9 to 43.0.|||||0.83
92338133|NCT00113295|184578056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3|||<|0.05||||||No adjustment for multiple testing|t-test, 2 sided||This analysis applies to the additional reduction from phase 2 randomization to phase 2 endpoint in HAM-A scores.|In phase 2, comprising randomized double-blind quetiapine augmentation, change scores were examined with two-tailed, two-sample t tests, utilizing scores at phase 2 randomization as baseline. All analyses were intention to treat (ITT) with the last visit carried forward (LVCF) for subjects that did not complete the study.||||<0.05
92338134|NCT01053741|184578061|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there is no difference in epithelial surface disruption when comparing the two interventions. Power calculation was based on identifying a median difference in histology grade of 0.83, using a two-sided alpha of 0.05 with 90% power in 10 subjects.||||<0.05
92338135|NCT00875563|184578137|NON_INFERIORITY_OR_EQUIVALENCE|An exact test method (Sidik K. 2003, Statistics in Medicine 22: 265-278) for matched controls was used, at a type I error rate of 0.05 and a non-inferiority margin of 10%. 38 pairs of patients were determined necessary, and the power was calculated to be 0.92.||||||0.02|TWO_SIDED||||||Exact test for matched pairs|||Patients treated with the Zenith® Fenestrated AAA Endovascular Graft were compared with matched patients treated with the Zenith® AAA Endovascular Graft.||||0.02
92338136|NCT00313846|184578138|SUPERIORITY_OR_OTHER|||||||0.0026|||||||Kaplan-Meier estimate mean|||||||.0026
92338137|NCT02028507|184578158|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.003|TWO_SIDED|95.0|0.55|0.89|||Regression, Cox|||This statistical Analysis corresponds to Global health status/quality of life scale||0.89|0.55|0.003
92338138|NCT02028507|184578158|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.5|0.76|||Regression, Cox|||This statistical Analysis corresponds to Physical functioning scale||0.76|0.50|<0.001
92338139|NCT02028507|184578158|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.51|0.79|||Regression, Cox|||This statistical Analysis corresponds to Role functioning scale||0.79|0.51|<0.001
92338140|NCT02028507|184578158|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.818|TWO_SIDED|95.0|0.76|1.25|||Regression, Cox|||This statistical Analysis corresponds to Emotional functioning scale||1.25|0.76|0.818
92338141|NCT02028507|184578158|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.004|TWO_SIDED|95.0|0.54|0.89|||Regression, Cox|||This statistical Analysis corresponds to Cognitive functioning scale||0.89|0.54|0.004
92338142|NCT02028507|184578158|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.49|0.78|||Regression, Cox|||This Statistical Analysis corresponds to Social functioning scale||0.78|0.49|<0.001
92338143|NCT02028507|184578159|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.001|TWO_SIDED|95.0|0.57|0.86|||Regression, Cox|||This Statistical Analysis corresponds to Fatigue scale||0.86|0.57|0.001
92398363|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.2||||0.167|TWO_SIDED|95.0|0.72|6.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.75|0.72|0.1670
92338144|NCT02028507|184578159|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.45|0.76|||Regression, Cox|||This Statistical Analysis corresponds to Nausea and vomiting scale||0.76|0.45|<0.001
92338145|NCT02028507|184578159|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.042|TWO_SIDED|95.0|0.62|0.99|||Regression, Cox|||This Statistical Analysis corresponds to Pain scale||0.99|0.62|0.042
92338146|NCT02028507|184578159|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.599|TWO_SIDED|95.0|0.81|1.44|||Regression, Cox|||This Statistical Analysis corresponds to Dyspnea scale||1.44|0.81|0.599
92338147|NCT02028507|184578159|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.196|TWO_SIDED|95.0|0.64|1.1|||Regression, Cox|||This Statistical Analysis corresponds to Insomnia scale||1.10|0.64|0.196
92398364|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.16||||0.781|TWO_SIDED|95.0|0.41|3.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.28|0.41|0.7810
92154071|NCT01567865|184194380|NON_INFERIORITY|The new GMP facility lots will be considered non-inferior (i.e., equivalent) to the existing facility lot if the null hypothesis is rejected and the alternate hypothesis is accepted.|Mean Difference (Net)|-4.03|||<|0.05|TWO_SIDED|95.0|-9.74|3.1|||t-test, 2 sided|The 95% CI for the difference in rates is calculated based on the Newcombe-Wilson method without continuity correction.||"Null hypothesis: reference lot vs. Lot 1, 2, and 3 combined do differ in seroprotection (SP) rates among each other by more than 10%.~Slower than anticipated enrollment resulted in a smaller number of subjects with antibody response data for analysis. Consequently, additional power estimates were made in anticipation of the occurrence of smaller sample sizes. The power of the study to test non-inferiority of the combined new lots compared to the reference lot dropped from 99% to 87%."||3.1|-9.74|<0.05
92154072|NCT05569954|184194432|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|-1.6|||||TWO_SIDED|95.0|-4.0|0.7|||||V116 minus PPSV23|Injection site erythema: estimated difference in percent||0.7|-4.0|
92154073|NCT05569954|184194432|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|3.7|||||TWO_SIDED|95.0|-1.2|8.7|||||V116 minus PPSV23|Injection site pain: estimated difference in percent||8.7|-1.2|
92154074|NCT05569954|184194432|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|0.6|||||TWO_SIDED|95.0|-1.6|2.7|||||V116 minus PPSV23|Injection site swelling: estimated difference in percent||2.7|-1.6|
92154075|NCT05569954|184194433|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|0.9|||||TWO_SIDED|95.0|-2.9|4.6|||||V116 minus PPSV23|Fatigue: estimated difference in percent||4.6|-2.9|
92154076|NCT05569954|184194433|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|1.7||||||95.0|-1.8|5.1|||||V116 minus PPSV23|Headache: estimated difference in percent||5.1|-1.8|
92154077|NCT05569954|184194433|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|-0.7||||||95.0|-3.1|1.7|||||V116 minus PPSV23|Myalgia: estimated difference in percent||1.7|-3.1|
92154078|NCT05569954|184194433|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|-0.3||||||95.0|-1.5|0.9|||||V116 minus PPSV23|Pyrexia: estimated difference in percent||0.9|-1.5|
92154079|NCT05569954|184194434|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|0.0||||||95.0|-0.5|0.5|||||V116 minus PPSV23|Vaccine-Related Serious Adverse Events||0.5|-0.5|
92154080|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.96|1.23||1-sided|cLDA model||V116/PPSV23|Serotype 3: V116/PPSV23 GMT Ratio||1.23|0.96|<0.001
92154081|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.47|||<|0.001|TWO_SIDED|95.0|1.29|1.68||1-sided|cLDA model||V116/PPSV23|Serotype 7F: V116/PPSV23 GMT Ratio||1.68|1.29|<0.001
92154082|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.17|||<|0.001|TWO_SIDED|95.0|1.04|1.32||1-sided|cLDA model||V116/PPSV23|Serotype 8: V116/PPSV23 GMT Ratio||1.32|1.04|<0.001
92154083|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.12|||<|0.001||95.0|1.0|1.26||1-sided|cLDA model||V116/PPSV23|Serotype 9N: V116/PPSV23 GMT Ratio||1.26|1.00|<0.001
92154084|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.55|||<|0.001|TWO_SIDED|95.0|1.37|1.77|||cLDA model||V116/PPSV23|Serotype 10A: V116/PPSV23 GMT Ratio||1.77|1.37|<0.001
92154085|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|2.05|||<|0.001||95.0|1.82|2.31|||cLDA model||V116/PPSV23|Serotype 11A: V116/PPSV23 GMT Ratio||2.31|1.82|<0.001
92154086|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.63|||<|0.001|TWO_SIDED|95.0|1.4|1.9|||cLDA model||V116/PPSV23|Serotype 12F: V116/PPSV23 GMT Ratio||1.90|1.40|<0.001
92154087|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|2.02|||<|0.001|TWO_SIDED|95.0|1.77|2.31|||cLDA model||V116/PPSV23|Serotype 17F: V116/PPSV23GMT Ratio||2.31|1.77|<0.001
92154088|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.42|||<|0.001|TWO_SIDED|95.0|1.26|1.6|||cLDA model||V116/PPSV23|Serotype 19A: V116/PPSV23 GMT Ratio||1.60|1.26|<0.001
92154089|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.66|||<|0.001|TWO_SIDED|95.0|1.46|1.88|||cLDA model||V116/PPSV23|Serotype 20A: V116/PPSV23 GMT Ratio||1.88|1.46|<0.001
92154090|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.53|||<|0.001|TWO_SIDED|95.0|1.34|1.75|||cLDA model||V116/PPSV23|Serotype 22F: V116/PPSV23 GMT Ratio||1.75|1.34|<0.001
92154091|NCT05569954|184194435|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.76|1.04|||cLDA model||V116/PPSV23|Serotype 33F: V116/PPSV23 GMT Ratio||1.04|0.76|<0.001
92274643|NCT05321810|184451796|OTHER|||||||0.111|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||0.111
92154092|NCT05569954|184194435|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|3.31|||<|0.001|TWO_SIDED|95.0|2.84|3.87||1-sided|cLDA model||V116/PPSV23|Serotype 6A: V116/PPSV23 GMT Ratio||3.87|2.84|<0.001
92154093|NCT05569954|184194435|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|4.61|||<|0.001|TWO_SIDED|95.0|3.99|5.33||1-sided|cLDA model||V116/PPSV23|Serotype 15A: V116/PPSV23 GMT Ratio||5.33|3.99|<0.001
92154094|NCT05569954|184194435|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|2.92|||<|0.001||95.0|2.5|3.42||1-sided|cLDA model||V116/PPSV23|Serotype 15C: V116/PPSV23 GMT Ratio||3.42|2.50|<0.001
92154095|NCT05569954|184194435|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|4.5|||<|0.001|TWO_SIDED|95.0|3.99|5.09||1-sided|cLDA model||V116/PPSV23|Serotype 16F: V116/PPSV23 GMT Ratio||5.09|3.99|<0.001
92154096|NCT05569954|184194435|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|5.74|||<|0.001|TWO_SIDED|95.0|4.81|6.85||1-sided|cLDA model||V116/PPSV23|Serotype 23A: V116/PPSV23 GMT Ratio||6.85|4.81|<0.001
92154097|NCT05569954|184194435|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|16.42|||<|0.001|TWO_SIDED|95.0|13.46|20.03||1-sided|cLDA model||V116/PPSV23|Serotype 23B: V116/PPSV23 GMT Ratio||20.03|13.46|<0.001
92154098|NCT05569954|184194435|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|3.39|||<|0.001||95.0|2.97|3.87||1-sided|cLDA model||V116/PPSV23|Serotype 24F: V116/PPSV23 GMT Ratio||3.87|2.97|<0.001
92154099|NCT05569954|184194435|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|11.89|||<|0.001|TWO_SIDED|95.0|10.16|13.91||1-sided|cLDA model||V116/PPSV23|Serotype 31: V116/PPSV23 GMT Ratio||13.91|10.16|<0.001
92154100|NCT05569954|184194435|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|6.17|||<|0.001|TWO_SIDED|95.0|5.54|6.87||1-sided|cLDA model||V116/PPSV23|Serotype 35B: V116/PPSV23 GMT Ratio||6.87|5.54|<0.001
92154101|NCT05569954|184194436|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|26.0|||<|0.001|TWO_SIDED|95.0|20.9|31.0||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 6A: V116-PPSV23 Percentage Difference||31.0|20.9|<0.001
92154102|NCT05569954|184194436|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|39.4|||<|0.001|TWO_SIDED|95.0|33.6|44.8||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 15A: V116-PPSV23 Percentage Difference||44.8|33.6|<0.001
92154103|NCT05569954|184194436|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|11.7||||0.214|TWO_SIDED|95.0|7.5|15.9||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 15C: V116-PPSV23 Percentage Difference||15.9|7.5|0.214
92154104|NCT05569954|184194436|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|42.9|||<|0.001|TWO_SIDED|95.0|37.8|47.8||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 16F: V116-PPSV23 Percentage Difference||47.8|37.8|<0.001
92215484|NCT03627767|184330460|SUPERIORITY||LSM difference|0.1|||=|0.7484|TWO_SIDED|95.0|-0.4|0.6|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.6|-0.4|= 0.7484
92154105|NCT05569954|184194436|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|35.9|||<|0.001||95.0|29.6|41.8||1-sided|Stratified Miettinen & Nurminen method||V16 minus PPSV23|Serotype 23A: V116-PPSV23 Percentage Difference||41.8|29.6|<0.001
92154106|NCT05569954|184194436|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|42.4|||<|0.001|TWO_SIDED|95.0|37.6|47.0||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 23B: V116-PPSV23 Percentage Difference||47.0|37.6|<0.001
92154107|NCT05569954|184194436|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|35.9|||<|0.001||95.0|30.6|41.0||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 24F: V116-PPSV23 Percentage Difference||41.0|30.6|<0.001
92215485|NCT03627767|184330460|SUPERIORITY||LSM difference|0.0|||||TWO_SIDED|95.0|-0.5|0.5||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.5|-0.5|
92338148|NCT02028507|184578159|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.011|TWO_SIDED|95.0|0.54|0.92|||Regression, Cox|||This Statistical Analysis corresponds to Appetite loss scale||0.92|0.54|0.011
92338149|NCT02028507|184578159|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.564|TWO_SIDED|95.0|0.83|1.41|||Regression, Cox|||This Statistical Analysis corresponds to Constipation scale||1.41|0.83|0.564
92338150|NCT02028507|184578159|SUPERIORITY||Hazard Ratio (HR)|0.42|||<|0.001|TWO_SIDED|95.0|0.32|0.55|||Regression, Cox|||This Statistical Analysis corresponds to Diarrhea scale||0.55|0.32|<0.001
92338151|NCT02028507|184578159|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.118|TWO_SIDED|95.0|0.56|1.07|||Regression, Cox|||This Statistical Analysis corresponds to Financial difficulties scale||1.07|0.56|0.118
92338152|NCT02028507|184578160|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.659|TWO_SIDED|95.0|0.74|1.21|||Regression, Cox|||This Statistical Analysis corresponds to Body image scale||1.21|0.74|0.659
92338153|NCT02028507|184578160|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.928|TWO_SIDED|95.0|0.74|1.39|||Regression, Cox|||This Statistical Analysis corresponds to Future perspective scale||1.39|0.74|0.928
92338154|NCT02028507|184578161|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.029|TWO_SIDED|95.0|0.64|0.98|||Regression, Cox|||This Statistical Analysis corresponds to Systemic side-effects scale||0.98|0.64|0.029
92338155|NCT02028507|184578161|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.571|TWO_SIDED|95.0|0.71|1.21|||Regression, Cox|||This Statistical Analysis corresponds to Breast symptoms scale||1.21|0.71|0.571
92338156|NCT02028507|184578161|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.187|TWO_SIDED|95.0|0.66|1.09|||Regression, Cox|||This Statistical Analysis corresponds to Arm symptoms scale||1.09|0.66|0.187
92338157|NCT01556932|184578166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|3.2541|||TWO_SIDED|||||||||||||
92338158|NCT02038179|184578170|SUPERIORITY|||||||0.83||||||Intent-to-Treat Analysis using multiple imputation. Imputed Means and Imputed Standard Errors of the Mean.|paired t-test|||||||0.83
92338159|NCT02038179|184578171|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92154108|NCT05569954|184194436|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|56.2|||<|0.001|TWO_SIDED|95.0|51.5|60.5||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 31: V116-PPSV23 Percentage Difference||60.5|51.5|<0.001
92215486|NCT03627767|184330460|SUPERIORITY||LSM difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.6|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-1.6|< 0.0001
92338160|NCT02038179|184578172|SUPERIORITY|||||||0.84|||||||paired t-test|||||||0.84
92338161|NCT01808261|184578194|OTHER||Mean Difference (Net)|0.0443|STANDARD_ERROR_OF_MEAN|0.0809||0.713||95.0|-0.119|0.2||P-value presented is the posterior probability that the treatment difference (GSK249320 15mg/kg - placebo) is greater than 0 m/s at Month 3/Day 90.|Bayesian method|||Credible intervals are displayed as confidence intervals. Posterior means, standard deviations, and credible intervals are provided in the table.||0.2|-0.119|0.713
92338162|NCT01808261|184578195|OTHER||Mean Difference (Net)|0.0794|STANDARD_ERROR_OF_MEAN|0.0857||0.828|TWO_SIDED|95.0|-0.093|0.247||P-value presented is the posterior probability that the treatment difference (GSK249320 15mg/kg - placebo) is greater than 0 m/s at Month 6/Day 180.|Bayesian method|||Credible intervals are displayed as confidence intervals. Posterior means, standard deviations, and credible intervals are provided in the table.||0.247|-0.093|0.828
92338163|NCT01808261|184578197|OTHER||Mean Difference (Net)|2.408|STANDARD_ERROR_OF_MEAN|2.7495|||TWO_SIDED|95.0|-3.067|7.883||||||Statistical data for Day 30. The point estimate and confidence interval are for the adjusted mean difference based on least square estimates.||7.883|-3.067|
92338164|NCT01808261|184578197|OTHER||Mean Difference (Net)|3.015|STANDARD_ERROR_OF_MEAN|2.8732|||TWO_SIDED|95.0|-2.704|8.735||||||Statistical data for Day 60. The point estimate and confidence interval are for the adjusted mean difference based on least square estimates.||8.735|-2.704|
92338165|NCT01808261|184578197|OTHER||Mean Difference (Net)|2.435|STANDARD_ERROR_OF_MEAN|3.5633|||TWO_SIDED|95.0|-4.668|9.538||||||Statistical data for Day 90. The point estimate and confidence interval are for the adjusted mean difference based on least square estimates.||9.538|-4.668|
92338166|NCT01808261|184578197|OTHER||Mean Difference (Net)|3.944|STANDARD_ERROR_OF_MEAN|3.5635|||TWO_SIDED|95.0|-3.15|11.037||||||Statistical data for Day 180. The point estimate and confidence interval are for the adjusted mean difference based on least square estimates.||11.037|-3.15|
92338167|NCT02585713|184578224|SUPERIORITY|||||||0.1316|||||||Log Rank|||||||0.1316
92338168|NCT02080364|184578226|SUPERIORITY|||||||0.3386||||||p-value for comparison to Placebo|Mixed Models Analysis|||||||0.3386
92338169|NCT02080364|184578226|SUPERIORITY|||||||0.1992||||||p-value for compairons to Placebo|Mixed Models Analysis|||||||0.1992
92338170|NCT02080364|184578227|SUPERIORITY|||||||0.9394||||||p-value for comparison to Placebo.|Mixed Models Analysis|||||||0.9394
92338171|NCT02080364|184578227|SUPERIORITY||||||||||||||||||MMRM model does not converge. LS Mean and p-value are NA.|||
92338172|NCT02609984|184578236|OTHER||Hazard Ratio (HR)|0.8568||||0.49|TWO_SIDED|95.0|0.5507|1.333||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank||Hazard ratio is from Cox proportional hazards model stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|||1.3330|0.5507|0.4900
92338173|NCT02609984|184578237|OTHER||Hazard Ratio (HR)|1.2145||||0.4737|TWO_SIDED|95.0|0.7131|2.0684||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank||Hazard ratio is from Cox proportional hazards model stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|||2.0684|0.7131|0.4737
92398365|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.27||||0.1682|TWO_SIDED|95.0|0.71|7.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||7.26|0.71|0.1682
92338174|NCT02609984|184578241|OTHER|||||||0.3645||||||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank|||||||0.3645
92338175|NCT02609984|184578242|OTHER|||||||0.3466||||||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank|||||||0.3466
92338176|NCT02609984|184578243|OTHER||Hazard Ratio (HR)|0.7006||||0.1622|TWO_SIDED|95.0|0.4241|1.1574||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank||Hazard ratio is from Cox proportional hazards model stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|||1.1574|0.4241|0.1622
92338177|NCT02609984|184578244|OTHER||Hazard Ratio (HR)|1.1849||||0.6397|TWO_SIDED|95.0|0.5817|2.4134||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank||Hazard ratio is from Cox proportional hazards model stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|||2.4134|0.5817|0.6397
92338178|NCT02609984|184578245|OTHER|||||||0.1128|||||||exact Pearson chi-square test|||||||0.1128
92398366|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|5.22||||0.0215|TWO_SIDED|95.0|1.28|21.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||21.39|1.28|0.0215
92154109|NCT05569954|184194436|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|58.7|||<|0.001||95.0|54.6|62.7||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 35B: V116-PPSV23 Percentage Difference||62.7|54.6|<0.001
92154110|NCT05569954|184194437|OTHER|"A conclusion of acceptability is based on the lower bound of the 95% CI of the percentages of participants with a~≥4 fold rise from baseline to 30 days postvaccination being \>50 percentage points (1-sided p-value \<0.025)."||||||0.093||||||1-sided|Clopper-Pearson method|||Serotype 6C||||0.093
92154111|NCT05569954|184194437|OTHER|"A conclusion of acceptability is based on the lower bound of the 95% CI of the percentages of participants with a~≥4 fold rise from baseline to 30 days postvaccination being \>50 percentage points (1-sided p-value \<0.025)."|||||<|0.001||||||1-sided|Clopper-Pearson method|||Serotype 15B||||<0.001
92154112|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.14|||||TWO_SIDED|95.0|1.04|1.25|||||V116/PPSV23|Serotype 3: V116/PPSV23 GMC Ratio||1.25|1.04|
92154113|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.86|||||TWO_SIDED|95.0|1.65|2.1|||||V116/PPSV23|Serotype 7F: V116/PPSV23 GMC Ratio||2.10|1.65|
92154114|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.17|||||TWO_SIDED|95.0|1.04|1.31|||||V116/PPSV23|Serotype 8: V116/PPSV23 GMC Ratio||1.31|1.04|
92154115|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.55|||||TWO_SIDED|95.0|1.37|1.76|||||V116/PPSV23|Serotype 9N: V116/PPSV23 GMC Ratio||1.76|1.37|
92154116|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|2.03|||||TWO_SIDED|95.0|1.79|2.31|||||V116/PPSV23|Serotype 10A: V116/PPSV23 GMC Ratio||2.31|1.79|
92154117|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|2.2|||||TWO_SIDED|95.0|1.97|2.46|||||V116/PPSV23|Serotype 11A: V116/PPSV23 GMC Ratio||2.46|1.97|
92215487|NCT03627767|184330460|SUPERIORITY||LSM difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.9|-0.9|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.9|-1.9|< 0.0001
92215488|NCT03627767|184330460|SUPERIORITY||LSM difference|-0.3|||||TWO_SIDED|95.0|-0.7|0.1||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-0.7|
92154118|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.99|||||TWO_SIDED|95.0|1.72|2.3|||||V116/PPSV23|Serotype 12F: V116/PPSV23 GMC Ratio||2.30|1.72|
92154119|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|2.39|||||TWO_SIDED|95.0|2.12|2.7|||||V116/PPSV23|Serotype 17F: V116/PPSV23 GMC Ratio||2.70|2.12|
92154120|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.49|||||TWO_SIDED|95.0|1.32|1.67||||||Serotype 19A: V116/PPSV23 GMC Ratio|V116/PPSV23|1.67|1.32|
92154121|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.86|||||TWO_SIDED|95.0|1.65|2.1|||||V116/PPSV23|Serotype 20A: V116/PPSV23 GMC Ratio||2.10|1.65|
92154122|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.77|||||TWO_SIDED|95.0|1.55|2.02|||||V116/PPSV23|Serotype 22F: V116/PPSV23 GMC Ratio||2.02|1.55|
92154123|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.22|||||TWO_SIDED|95.0|1.08|1.37|||||V116/PPSV23|Serotype 33F: V116/PPSV23 GMC Ratio||1.37|1.08|
92215489|NCT03627767|184330460|SUPERIORITY||LSM difference|-0.6|||=|0.0242|TWO_SIDED|95.0|-1.2|-0.1|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-1.2|= 0.0242
92338179|NCT02609984|184578246|OTHER||||||<|0.0001|||||||exact Pearson chi-square test|||||||<0.0001
92338180|NCT02609984|184578247|OTHER|||||||0.405|||||||exact Pearson chi-square test|||||||0.4050
92338181|NCT02609984|184578248|OTHER|||||||0.0127|||||||exact Pearson chi-square test|||||||0.0127
92338182|NCT02256839|184578267|EQUIVALENCE|A 2x2 contingency table with 95% CI.|2 x 2 contingency table|98.1|||||TWO_SIDED|95.0|95.3|99.3||||||||99.3|95.3|
92338183|NCT02256839|184578267|EQUIVALENCE|A 2x2 contingency table with 95% CI|2 x 2 contingency table|96.1|||||TWO_SIDED|95.0|85.4|99.3||||||||99.3|85.4|
92398367|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|4.75||||0.0306|TWO_SIDED|95.0|1.16|19.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||19.52|1.16|0.0306
92154124|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|3.78|||||TWO_SIDED|95.0|3.29|4.35|||||V116/PPSV23|Serotype 6A: V116/PPSV23 GMC Ratio||4.35|3.29|
92274644|NCT05321810|184451797|OTHER||Hazard Ratio (HR)|0.866||||0.1|TWO_SIDED|95.0|0.73|1.028|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|1.028|0.730|0.100
92274645|NCT05321810|184451799|OTHER|||||||0.979|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||0.979
92274646|NCT05321810|184451800|OTHER||Hazard Ratio (HR)|1.002||||0.978|TWO_SIDED|95.0|0.854|1.177|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|1.177|0.854|0.978
92154125|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|8.92|||||TWO_SIDED|95.0|7.89|10.09|||||V116/PPSV23|Serotype 15A: V116/PPSV23 GMC Ratio||10.09|7.89|
92154126|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|3.43|||||TWO_SIDED|95.0|3.01|3.92|||||V116/PPSV23|Serotype 15C: V116/PPSV23 GMC Ratio||3.92|3.01|
92154127|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|9.84|||||TWO_SIDED|95.0|8.83|10.97|||||V116/PPSV23|Serotype 16F: V116/PPSV23 GMC Ratio||10.97|8.83|
92274647|NCT05321810|184451802|OTHER||||||<|0.001|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||<0.001
92274648|NCT05321810|184451803|OTHER||Hazard Ratio (HR)|0.428|||<|0.001|TWO_SIDED|95.0|0.263|0.697|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|0.697|0.263|<0.001
92274649|NCT05321810|184451807|OTHER||Hazard Ratio (HR)|0.727||||0.001|TWO_SIDED|95.0|0.599|0.881|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|0.881|0.599|0.001
92274650|NCT01133821|184451822|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||time effect for HRSD-17||||<0.0001
92274651|NCT01133821|184451823|SUPERIORITY||||||>|0.05|||||||Regression, Linear|Adjusted for baseline scores||||||>0.05
92274652|NCT00803959|184451824|NON_INFERIORITY_OR_EQUIVALENCE|The investigators selected the 11% noninferiority margin on the basis of clinical judgement that it was a reasonable threshold for a trade-off between a decrease in the rate of successful treatment and the potential benefits of eliminating UDS studies from preoperative assessment. To minimize bias toward noninferiority, only women treated per protocol (e.g. who underwent the randomly assigned evaluation) were considered in the primary outcome analysis (ITT analysis considered secondary).|Difference in success % (UDS - no UDS)|-0.3|||||TWO_SIDED|95.0|-7.5|6.9|||Chi-squared|Noninferiority declared if the upper boundary of the two-sided 95% confidence interval for the difference in % success (UDS - no UDS) was \< 11%.|Point estimates of success percentage are calculated as 200/259= 77.2% for Office Evaluation Only and 203/264 = 76.9% for Urodynamic Testing arm.|The null hypothesis was that the no UDS group was non-inferior to those in the UDS group. Assuming a significance level of 5% and a true success rate in each group of 70% with a noninferiority margin of 11 percentage points, we needed to enroll 270 women/group to have 80% power for determining whether the results in the no UDS group were non inferior to those in the UDS group. Assuming a 10% dropout rate, a sample of 300 women per group was required.||6.9|-7.5|
92274653|NCT00803959|184451825|SUPERIORITY_OR_OTHER|||||||0.63||95.0||||The p-value is not adjusted for multiple comparisons. Alpha level is considered to be 0.05.|Chi-squared|No adjustments were made; test had 1 degree of freedom.||Null hypothesis is that the two groups will not differ in the percent meeting 70% reduction in Urogenital Distress Inventory score.||||0.63
92274654|NCT00803959|184451826|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||P-value not adjusted for multiple comparisons; a priori threshold for statistical significance set at alpha = 0.05.|Chi-squared|No adjustments made; 1 degree of freedom test.||"Null hypothesis is that there is no difference in the proportion responding very much better or much better on the Patient Global Impression of Improvement at the 12 month visit."||||0.68
92274655|NCT00803959|184451827|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||P-value is not adjusted for multiple comparisons; a priori threshold for statistical significance was set at alpha = 0.05.|t-test, 2 sided|One df t test assumed equal variance; no evidence was found to the contrary.||Null hypothesis is that the two arms do not differ according to change in UDI score.||||0.68
92274656|NCT00803959|184451828|SUPERIORITY_OR_OTHER|||||||0.4||95.0||||P-value was not adjusted for multiple comparisons; a priori threshold for statistical significance set at alpha = 0.05.|t-test, 2 sided|Test was 1 df t-test assuming equal variances; no evidence to the contrary was found.||Null hypothesis is that the 2 arms do not differ according to change in ISI score.||||0.40
92274657|NCT00803959|184451829|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||P-value not adjusted for multiple comparisons; a priori threshold was alpha = 0.05.|t-test, 2 sided|The t test had 1 df assuming equal variances; no evidence of unequal variances was found.||Null hypothesis is that the 2 arms do not differ in change in MESA stress score.||||0.50
92274658|NCT00803959|184451830|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||P-value not adjusted for multiple comparisons and a priori threshold for statistical significance set at alpha = 0.05.|t-test, 2 sided|The t test had 1 df and assumed equal variances; no evidence of different variances was found.||Null hypothesis is that the two arms do not differ according to change in MESA urgency score.||||0.19
92274659|NCT00803959|184451831|SUPERIORITY_OR_OTHER|||||||0.49||95.0||||P-value not adjusted for multiple comparisons and a priori threshold for statistical significance set at alpha = 0.05|t-test, 2 sided|T test had 1 df and assumed equal variance; no evidence of different variances was found.||Null hypothesis is that the 2 arms do not differ according to mean change in IIQ score.||||0.49
92274660|NCT00803959|184451832|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value not adjusted for multiple comparisons and a priori threshold for statistical significance set at alpha = 0.05.|t-test, 2 sided|T test had 1 df assuming equal variances; no evidence of unequal variances was found.||Null hypothesis is that the 2 arms do not differ according to mean change in SF-12 scores.||||0.02
92274661|NCT00803959|184451833|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||t-test, 2 sided|The t test had 1 df and assumed equal variance; no evidence of different variances was found.||Null hypothesis is that the 2 arms do not differ according to mean change in PGI-S score.||||0.51
92215490|NCT03627767|184330460|SUPERIORITY||LSM difference|-0.9|||=|0.0012|TWO_SIDED|95.0|-1.4|-0.4|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.4|-1.4|= 0.0012
92215491|NCT03627767|184330460|SUPERIORITY||LSM difference|-0.3|||||TWO_SIDED|95.0|-0.6|0.1||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-0.6|
92215492|NCT03627767|184330460|SUPERIORITY||LSM difference|-0.6|||=|0.124|TWO_SIDED|95.0|-1.3|0.2|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-1.3|= 0.1240
92215493|NCT03627767|184330460|SUPERIORITY||LSM difference|-0.9|||=|0.0107|TWO_SIDED|95.0|-1.6|-0.2|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-1.6|= 0.0107
92215494|NCT03627767|184330460|SUPERIORITY||LSM difference|-0.3|||||TWO_SIDED|95.0|-0.8|0.1||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-0.8|
92215495|NCT03627767|184330460|SUPERIORITY||LSM difference|-0.4|||=|0.3139|TWO_SIDED|95.0|-1.1|0.3|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-1.1|= 0.3139
92215496|NCT03627767|184330460|SUPERIORITY||LSM difference|-0.6|||=|0.0853|TWO_SIDED|95.0|-1.3|0.1|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-1.3|= 0.0853
92215497|NCT03627767|184330460|SUPERIORITY||LSM difference|-0.2|||||TWO_SIDED|95.0|-0.7|0.2||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-0.7|
92398368|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|10.1||||0.0059|TWO_SIDED|95.0|1.92|52.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||52.29|1.92|0.0059
92398369|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.64||||0.1004|TWO_SIDED|95.0|0.83|8.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.43|0.83|0.1004
92215498|NCT03627767|184330461|SUPERIORITY||LSM difference|0.4|||=|0.0674|TWO_SIDED|95.0|0.0|0.8|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.8|0.0|= 0.0674
92215499|NCT03627767|184330461|SUPERIORITY||LSM difference|0.3|||=|0.1437|TWO_SIDED|95.0|-0.1|0.7|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.7|-0.1|= 0.1437
92215500|NCT03627767|184330461|SUPERIORITY||LSM difference|-0.1|||||TWO_SIDED|95.0|-0.5|0.3||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.5|
92215501|NCT03627767|184330461|SUPERIORITY||LSM difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.8|-0.9|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.9|-1.8|< 0.0001
92215502|NCT03627767|184330461|SUPERIORITY||LSM difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.8|-0.9|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.9|-1.8|< 0.0001
92215503|NCT03627767|184330461|SUPERIORITY||LSM difference|0.0|||||TWO_SIDED|95.0|-0.4|0.4||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.4|-0.4|
92398370|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.11||||0.1837|TWO_SIDED|95.0|0.7|6.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.36|0.70|0.1837
92274662|NCT00803959|184451834|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Chi-squared|Chi-squared test had 1 df and no adjustments.||Null hypothesis is that the 2 arms do not differ in the proportion of women who score moderate or severe on the PGI-S at 12 months||||0.51
92338184|NCT01843803|184578268|SUPERIORITY||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|1.5||0.029|TWO_SIDED|||||"P-Value = 0.029 after adjusting for clinical and demographic, and accounting for clustering of patients within providers.~Comparison of adjusted CARES score yielded a significant difference."|Mixed Models Analysis|A mixed model was ran with CARES as the dependent variable, adjusted for demographic and clinical measures , and provider as a random effect.||Mixed model adjusted for gender, race, education, marital status, mental health condition, substance disorder, COPD, heart failure, diabetes, coronary artery disease, study site and accounting for clustering of patients within providers.||||0.029
92398371|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5929|TWO_SIDED|95.0|0.47|3.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.75|0.47|0.5929
92398372|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.93||||0.2588|TWO_SIDED|95.0|0.62|6.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.07|0.62|0.2588
92398373|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|7.69||||0.0129|TWO_SIDED|95.0|1.54|38.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||38.41|1.54|0.0129
92215504|NCT03627767|184330461|SUPERIORITY||LSM difference|-0.4|||=|0.1136|TWO_SIDED|95.0|-1.0|0.1|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-1.0|= 0.1136
92338185|NCT01843803|184578270|SUPERIORITY||Odds Ratio (OR)|1.69||||0.065|TWO_SIDED|95.0|0.99|2.86||P-Value derived after adjusting model provider clustering and treating it as a random effect.|Mixed Models Analysis|||Assessed whether a person in the intervention group vs the attention control group was more likely to be probed at least once by their provider after adjusting for other measures and accounting for the provider clustering.||2.86|0.99|.065
92398374|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|7.12||||0.0168|TWO_SIDED|95.0|1.42|35.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||35.61|1.42|0.0168
92398375|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|9.95||||0.0058|TWO_SIDED|95.0|1.94|50.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||50.97|1.94|0.0058
92398376|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1934|TWO_SIDED|95.0|0.69|6.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.26|0.69|0.1934
92398377|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.01||||0.2181|TWO_SIDED|95.0|0.66|6.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.12|0.66|0.2181
92398378|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.58||||0.4116|TWO_SIDED|95.0|0.53|4.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.71|0.53|0.4116
92398379|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.84||||0.0938|TWO_SIDED|95.0|0.84|9.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.66|0.84|0.0938
92398380|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|8.02||||0.0125|TWO_SIDED|95.0|1.57|41.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||41.08|1.57|0.0125
92398381|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|3.29||||0.0761|TWO_SIDED|95.0|0.88|12.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.23|0.88|0.0761
92398382|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|4.02||||0.0305|TWO_SIDED|95.0|1.14|14.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||14.16|1.14|0.0305
92398383|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|3.42||||0.0501|TWO_SIDED|95.0|1.0|11.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||11.68|1.00|0.0501
92215505|NCT03627767|184330461|SUPERIORITY||LSM difference|-0.6|||=|0.0276|TWO_SIDED|95.0|-1.1|-0.1|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-1.1|= 0.0276
92338186|NCT01843803|184578271|SUPERIORITY||||||<|0.05|||||||Chi-squared|||chi-square||||<0.05
92338187|NCT01850394|184578272|SUPERIORITY_OR_OTHER||Mean Difference (Net)|180.0|STANDARD_DEVIATION|300.0|<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
92154128|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|7.59|||||TWO_SIDED|95.0|6.68|8.61|||||V116/PPSV23|Serotype 23A: V116/PPSV23 GMC Ratio||8.61|6.68|
92154129|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|4.79|||||TWO_SIDED|95.0|4.26|5.38|||||V116/PPSV23|Serotype 23B: V116/PPSV23 GMC Ratio||5.38|4.26|
92154130|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|21.19||||||95.0|18.98|23.65|||||V116/PPSV23|Serotype 24F: V116/PPSV23 GMC Ratio||23.65|18.98|
92154131|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|8.69|||||TWO_SIDED|95.0|7.82|9.65|||||V116/PPSV23|Serotype 31: V116/PPSV23 GMC Ratio||9.65|7.82|
92338188|NCT01850394|184578272|SUPERIORITY_OR_OTHER||Mean Difference (Net)|150.0|STANDARD_DEVIATION|200.0|<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
92398384|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.61||||0.1212|TWO_SIDED|95.0|0.78|8.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||8.77|0.78|0.1212
92398385|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.13||||0.8332|TWO_SIDED|95.0|0.35|3.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.68|0.35|0.8332
92398386|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.66||||0.4285|TWO_SIDED|95.0|0.48|5.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.76|0.48|0.4285
92154132|NCT05569954|184194439|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|15.53|||||TWO_SIDED|95.0|14.13|17.07|||||V116/PPSV23|Serotype 35B: V116/PPSV23 GMC Ratio||17.07|14.13|
92154133|NCT02708433|184194443|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|49.0||0.74|TWO_SIDED|95.0|-0.49|0.57|||Wilcoxon (Mann-Whitney)|||||0.57|-0.49|0.74
92154134|NCT02708433|184194444|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|48.0||0.5|TWO_SIDED|95.0|-0.89|0.52|||Wilcoxon (Mann-Whitney)|||||0.52|-0.89|0.5
92154135|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-3.8|3.9||||||For Meningococcal C the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 titer was calculated||3.9|-3.8|
92274663|NCT00803959|184451835|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was alpha = 0.05.|t-test, 2 sided|T test had 1 df and assumed equal variances; no evidence of unequal variances was found.||Null hypothesis is that the 2 arms do not differ according to mean overall patient satisfaction score at 12 months.||||0.28
92274664|NCT00803959|184451836|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||P-values was not adjusted for multiple comparisons and the a priori threshold for statistical significance was set at alpha = 0.05.|Chi-squared|Chi-squared test had 1 df and no adjustments.||Null hypothesis is that the proportion having a positive provocative stress test at 12 months was the same in both treatment arms.||||0.19
92274665|NCT01859390|184451837|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.46|TWO_SIDED|95.0|-0.49|0.22|||t-test, 2 sided|||Two-sample T-test||0.22|-0.49|0.460
92274666|NCT01859390|184451837|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.325|TWO_SIDED|95.0|-0.513|0.173|||Regression, Linear||"Regression Model predictors include: AquADEKs-2 arm, Age \>=18 years, Sex, Screening FEV1%Predicted \>70%, Chronic use of Inhaled Antibiotics and Azithromycin.~The estimated value is the mean difference between groups for 16 week change in log10 MPO."|||0.173|-0.513|0.325
92274667|NCT01859390|184451838|SUPERIORITY||Difference in Proportions-SAE incidence|-12.9||||0.302|TWO_SIDED|95.0|-32.1|7.8|||Fisher Exact|||||7.8|-32.1|0.302
92274668|NCT01859390|184451839|SUPERIORITY||Rate Ratio|0.94||||0.486|TWO_SIDED|95.0|0.78|1.13|||Poisson Model|||Rate Ratio for Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks in the AquADEKs-2 group was 642 and in the Control group was 639.||1.13|0.78|0.486
92274669|NCT01859390|184451839|SUPERIORITY|Rate Ratio for Serious Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks in the AquADEKs-2 group was 642 and in the Control group was 639.|Rate Ratio|0.74||||0.269|TWO_SIDED|95.0|0.43|1.26|||Poisson Regression|||||1.26|0.43|0.269
92274670|NCT01859390|184451840|SUPERIORITY|Two sample T-test|Median Difference (Final Values)|1.43||||0.4463|TWO_SIDED|95.0|-2.3|5.16|||t-test, 2 sided|||||5.16|-2.30|0.4463
92274671|NCT01859390|184451841|SUPERIORITY||Median Difference (Final Values)|0.04||||0.8623|TWO_SIDED|95.0|-0.37|0.44|||t-test, 2 sided|||||0.44|-0.37|0.8623
92274672|NCT01859390|184451842|SUPERIORITY||Cox Proportional Hazard|0.536||||0.0534|TWO_SIDED|95.0|0.284|1.009||Not adjusted for multiple comparisons. Alpha at 0.05.|Regression, Cox||"Cox model parameters include: AquADEKs-2 arm, Age \>=18 years, Sex, Screening FEV1 % Predicted \>70%, Chronic use of Inhaled Antibiotics and Azithromycin.~The parameter of interest is the Hazard Ratio comparing the AquADEKs-2 arm to the control arm."|||1.009|0.284|0.0534
92274673|NCT01859390|184451843|SUPERIORITY||Rate Ratio|0.72||||0.1731|TWO_SIDED|95.0|0.44|1.16|||Poisson Model|||Rate Ratio for PEx calculated using Poisson Regression with an offset for the log of follow-up time in months. The total number of follow-up months in the AquADEKs-2 group was 148 and in the Control group was 147.||1.16|0.44|0.1731
92274674|NCT01859390|184451844|SUPERIORITY|Difference in Proportions|Mean Difference (Final Values)|-14.8||||0.2363|TWO_SIDED|95.0|-35.1|7.4||Not adjusted for multiple comparisons. Alpha at 0.05.|Fisher Exact|||||7.4|-35.1|0.2363
92338189|NCT01850394|184578273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|140.0|STANDARD_DEVIATION|15.0|<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
92338190|NCT01850394|184578273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0|STANDARD_DEVIATION|4.0|<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
92338191|NCT01850394|184578274|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.25|STANDARD_ERROR_OF_MEAN|0.1|<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||||||<0.05
92338192|NCT01850394|184578275|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.1|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||||||<0.05
92154136|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.5||||||95.0|-7.1|3.7||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15 µg/mL threshold was calculated||3.7|-7.1|
92215506|NCT03627767|184330461|SUPERIORITY||LSM difference|-0.2|||||TWO_SIDED|95.0|-0.5|0.2||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-0.5|
92154137|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-4.1||||||95.0|-13.4|5.1||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0 µg/mL threshold was calculated||5.1|-13.4|
92154138|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-3.2|3.3||||||For Pertussis PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||3.3|-3.2|
92154139|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|1.1||||||95.0|-4.5|7.1||||||For Pertussis PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 17 EU/mL threshold was calculated||7.1|-4.5|
92154140|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-3.2|3.2||||||For Pertussis FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||3.2|-3.2|
92154141|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-3.2|3.2||||||For Pertussis FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 7.82 EU/mL threshold was calculated||3.2|-3.2|
92154142|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.5||||||95.0|-7.9|4.8||||||For Pertussis FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 20 EU/mL threshold was calculated||4.8|-7.9|
92154143|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-3.2|3.2||||||For Pertussis PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||3.2|-3.2|
92154144|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-3.1||||||95.0|-10.0|3.4||||||For Pertussis PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 15 EU/mL threshold was calculated||3.4|-10.0|
92154145|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|2.7||||||95.0|-0.5|7.6||||||For Pertussis FIM the difference in percentage between the two groups (13vPnC - 7vPnC) at 2.2 EU/mL threshold was calculated||7.6|-0.5|
92154146|NCT00384059|184194447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|1.0||||||95.0|-4.1|6.5||||||For Pertussis FIM the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||6.5|-4.1|
92154147|NCT00384059|184194448|SUPERIORITY_OR_OTHER||Difference|-5.3||||||95.0|-19.7|8.8||||||For Meningococcal C the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 titer was calculated||8.8|-19.7|
92274675|NCT01859390|184451845|SUPERIORITY|Difference in Proportions|Median Difference (Final Values)|-15.7||||0.19|TWO_SIDED|95.0|-34.5|4.8|||Fisher Exact|||||4.8|-34.5|0.1900
92154148|NCT00384059|184194448|SUPERIORITY_OR_OTHER||Difference|-0.1||||||95.0|-8.0|8.1||||||For Meningococcal C the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 titer was calculated||8.1|-8.0|
92154149|NCT00384059|184194449|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-3.5|3.8||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15 µg/mL threshold was calculated||3.8|-3.5|
92154150|NCT00384059|184194449|SUPERIORITY_OR_OTHER||Difference|-1.0||||||95.0|-5.3|2.8||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0 µg/mL threshold was calculated||2.8|-5.3|
92154151|NCT00384059|184194450|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.89||||||95.0|0.68|1.16||||||For Meningococcal C the GMC ratio (13vPnC/7vPnC) was calculated||1.16|0.68|
92154152|NCT00384059|184194451|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.77||||||95.0|0.54|1.08||||||For Haemophilus influenzae type b the GMC ratio (13vPnC/7vPnC) was calculated||1.08|0.54|
92154153|NCT00384059|184194452|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.98||||||95.0|0.82|1.16||||||For Pertussis FHA the GMC ratio (13vPnC/7vPnC) was calculated||1.16|0.82|
92215507|NCT03627767|184330461|SUPERIORITY||LSM difference|-0.9|||=|0.0108|TWO_SIDED|95.0|-1.5|-0.2|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-1.5|= 0.0108
92274676|NCT01151813|184451847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||t-test, 2 sided|||||||.02
92274677|NCT01151813|184451848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92215508|NCT03627767|184330461|SUPERIORITY||LSM difference|-0.6|||=|0.0677|TWO_SIDED|95.0|-1.3|0.0|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.0|-1.3|= 0.0677
92215509|NCT03627767|184330461|SUPERIORITY||LSM difference|0.3|||||TWO_SIDED|95.0|-0.2|0.7||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.7|-0.2|
92215510|NCT03627767|184330461|SUPERIORITY||LSM difference|-0.5|||=|0.132|TWO_SIDED|95.0|-1.1|0.1|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-1.1|= 0.1320
92215511|NCT03627767|184330461|SUPERIORITY||LSM difference|-0.3|||=|0.2975|TWO_SIDED|95.0|-0.9|0.3|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.9|= 0.2975
92215512|NCT03627767|184330461|SUPERIORITY||LSM difference|0.2|||||TWO_SIDED|95.0|-0.2|0.6||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.6|-0.2|
92398387|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.98||||0.0954|TWO_SIDED|95.0|0.83|10.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||10.74|0.83|0.0954
92215513|NCT03627767|184330462|SUPERIORITY||LSM difference|-0.4|||=|0.3531|TWO_SIDED|95.0|-1.3|0.4|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.4|-1.3|= 0.3531
92215514|NCT03627767|184330462|SUPERIORITY||LSM difference|0.0|||=|0.9282|TWO_SIDED|95.0|-0.8|0.9|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.9|-0.8|= 0.9282
92215515|NCT03627767|184330462|SUPERIORITY||LSM difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.3|-0.4|
92274678|NCT01151813|184451849|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92215516|NCT03627767|184330462|SUPERIORITY||LSM difference|-6.1|||<|0.0001|TWO_SIDED|95.0|-7.3|-5.0|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-5.0|-7.3|< 0.0001
92215517|NCT03627767|184330462|SUPERIORITY||LSM difference|-9.2|||<|0.0001|TWO_SIDED|95.0|-10.3|-8.1|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-8.1|-10.3|< 0.0001
92274679|NCT01151813|184451850|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92274680|NCT01084005|184451862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.81|-0.48|||ANCOVA|||||-0.48|-0.81|<0.0001
92274681|NCT01084005|184451863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.45|-0.24|||ANCOVA|||||-0.24|-0.45|<0.0001
92274682|NCT01084005|184451864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|-0.71|-0.43|||ANCOVA|||||-0.43|-0.71|<0.0001
92274683|NCT01084005|184451865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.77|-0.47|||ANCOVA|||||-0.47|-0.77|<0.0001
92274684|NCT01084005|184451866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.7|STANDARD_ERROR_OF_MEAN|4.8|<|0.0001||95.0|-30.2|-11.2|||ANCOVA|||||-11.2|-30.2|<0.0001
92274685|NCT01084005|184451867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.6|STANDARD_ERROR_OF_MEAN|3.1|<|0.0001||95.0|-24.7|-12.6|||Mixed Models Analysis|||||-12.6|-24.7|<0.0001
92274686|NCT01084005|184451868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.5|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-28.1|-14.8|||Mixed Models Analysis|||||-14.8|-28.1|<0.0001
92215518|NCT03627767|184330462|SUPERIORITY||LSM difference|-3.1|||||TWO_SIDED|95.0|-4.0|-2.1||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.1|-4.0|
92274687|NCT01084005|184451869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.6|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001||95.0|-29.8|-13.4|||Mixed Models Analysis|||||-13.4|-29.8|<0.0001
92274688|NCT01084005|184451870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.319|||<|0.0001||95.0|3.321|20.837|||Regression, Logistic|||||20.837|3.321|<0.0001
92274689|NCT01084005|184451873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.214||||0.0048|TWO_SIDED|95.0|0.073|0.625|||Regression, Logistic|||Lina 5 mg qd vs Placebo||0.625|0.073|0.0048
92274690|NCT00606684|184451899|SUPERIORITY_OR_OTHER||Least squares mean difference|0.092|||<|0.001|TWO_SIDED|95.0|0.039|0.144|||ANCOVA|||||0.144|0.039|<0.001
92338193|NCT01850394|184578276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.66|STANDARD_DEVIATION|1.0||0.05|TWO_SIDED|95.0|||||ANOVA|||||||0.05
92338194|NCT00436826|184578300|SUPERIORITY||Relative Risk|0.37|||<|0.001|TWO_SIDED|95.0|0.22|0.63|||Wald Chi-square|||||0.63|0.22|<0.001
92338195|NCT00784719|184578320|SUPERIORITY_OR_OTHER||Median|59.0|||||TWO_SIDED|80.0|57.0||Upper limit of 80% CI was not estimable as there were insufficient number of participants, who achieved \>=10 mm Schirmer test score in this reporting group, for the analysis.||||||||57.0|
92338196|NCT00784719|184578320|SUPERIORITY_OR_OTHER||Median|58.0|||||TWO_SIDED|80.0|58.0||Upper limit of 80% CI was not estimable as there were insufficient number of participants, who achieved \>=10 mm Schirmer test score in this reporting group, for the analysis.||||||||58.0|
92338197|NCT00784719|184578320|SUPERIORITY_OR_OTHER||Median|57.0|||||TWO_SIDED|80.0|29.0||Upper limit of 80% CI was not estimable as there were insufficient number of participants, who achieved \>=10 mm Schirmer test score in this reporting group, for the analysis.||||||||29.0|
92338198|NCT00784719|184578322|SUPERIORITY_OR_OTHER||Median|15.0|||||TWO_SIDED|80.0|9.0|28.0||||||||28.0|9.0|
92338199|NCT00784719|184578322|SUPERIORITY_OR_OTHER||Median|8.5|||||TWO_SIDED|80.0|8.0|27.0||||||||27.0|8.0|
92398388|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.98||||0.111|TWO_SIDED|95.0|0.78|11.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||11.38|0.78|0.1110
92154154|NCT00384059|184194452|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.99||||||95.0|0.83|1.17||||||For Pertussis PT the GMC ratio (13vPnC/7vPnC) was calculated||1.17|0.83|
92154155|NCT00384059|184194452|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0||||||95.0|0.8|1.26||||||For Pertussis PRN the GMC ratio (13vPnC/7vPnC) was calculated||1.26|0.80|
92154156|NCT00384059|184194452|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0||||||95.0|0.81|1.23||||||For Pertussis FIM the GMC ratio (13vPnC/7vPnC) was calculated||1.23|0.81|
92154157|NCT00384059|184194453|SUPERIORITY_OR_OTHER||Ratio|1.13||||||95.0|0.83|1.53||||||For Haemophilus influenzae type b the GMC ratio (13vPnC/7vPnC) was calculated||1.53|0.83|
92154158|NCT00384059|184194458|SUPERIORITY_OR_OTHER||Ration|0.85||||||95.0|0.48|1.49||||||For Meningococcal C the GMC ratio (13vPnC/7vPnC) was calculated||1.49|0.48|
92154159|NCT02959138|184194498|OTHER|The test-to-reference ratio (geometric least squares mean (GLSM) ratio) and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|111.68|||||TWO_SIDED|90.0|86.94|143.47||||||The Estimate statement was used to produce the point estimate and the corresponding 90% confidence interval of the difference in PK parameters of interest on a logarithmic scale.||143.47|86.94|
92154160|NCT02959138|184194498|OTHER|The test-to-reference ratio GLSM ratio and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|107.04|||||TWO_SIDED|90.0|78.47|146.02||||||The Estimate statement was used to produce the point estimate and the corresponding 90% CI of the difference in PK parameters of interest on a logarithmic scale.||146.02|78.47|
92215519|NCT03627767|184330462|SUPERIORITY||LSM difference|-4.6|||<|0.0001|TWO_SIDED|95.0|-6.2|-2.9|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.9|-6.2|< 0.0001
92338200|NCT00784719|184578322|SUPERIORITY_OR_OTHER||Median|15.0|||||TWO_SIDED|80.0|15.0|27.0||||||||27.0|15.0|
92338201|NCT00784719|184578322|SUPERIORITY_OR_OTHER||Median|9.5|||||TWO_SIDED|80.0|8.0|15.0||||||||15.0|8.0|
92338202|NCT00784719|184578322|SUPERIORITY_OR_OTHER||Median|9.0|||||TWO_SIDED|80.0|8.0|15.0||||||||15.0|8.0|
92338203|NCT00784719|184578322|SUPERIORITY_OR_OTHER||Median|15.0|||||TWO_SIDED|80.0|8.0|43.0||||||||43.0|8.0|
92338204|NCT00784719|184578322|SUPERIORITY_OR_OTHER||Median|16.0|||||TWO_SIDED|80.0|15.0|30.0||||||||30.0|15.0|
92338205|NCT02651337|184578348|OTHER|It is a one arm clinical study. No comparison between groups was made.|||||||||||||||||The study tested the hypothesis that the Alivio flusher could increase flow in occluded or sluggish flowing catheters. Analysis was made on the basis of the procedural results related to priming the flusher, connecting the flusher to the shunt, flushing the system by dome compression, the ability to refill the dome, and the ability to evacuate the dome.|||
92338206|NCT00869128|184578364|SUPERIORITY_OR_OTHER|||||||0.04|||||||ANOVA|The effect of Circadin was checked by means of 2 x 2 mixed design analysis of variance for repeated measurement.||ANOVA, The effect of Circadin was checked by means of 2 x 2 mixed design analysis of variance for repeated measurement.||||0.04
92338207|NCT03828214|184578386|SUPERIORITY||Mean Difference (Final Values)|2.4|STANDARD_DEVIATION|9.2||0.973|TWO_SIDED|||||a priori threshold for statistical significance was 0.05.|ANOVA|||C2, C3, C4 were compared to C1 the comparison condition.||||0.973
92338208|NCT04388176|184578394|EQUIVALENCE|Differences in treatment groups in the primary endpoint (log (AUC)) was to be detected with a power of 90% and alpha=0.1.|Ratio in least square means|1.0146|||=|0.3801|TWO_SIDED|90.0|0.9859|1.0442|||ANCOVA|||||1.0442|0.9859|=0.3801
92338209|NCT04388176|184578395|EQUIVALENCE|Differences between treatment groups was to be detected with a power of 90% and alpha=0.1.|Ratio in least square means|1.0346|||=|0.0356|TWO_SIDED|90.0|1.0086|1.0613|||ANCOVA|||||1.0613|1.0086|=0.0356
92338210|NCT04388176|184578396|EQUIVALENCE|Differences between treatment groups was to be detected with a power of 90% and alpha=0.1.|Difference in least square means|-0.4991|||=|0.0154|TWO_SIDED|90.0|-0.8234|-0.1749|||ANCOVA|||Analysis at the 10 min point||-0.1749|-0.8234|=0.0154
92338211|NCT04388176|184578397|EQUIVALENCE|Differences between treatment groups was to be detected with a power of 90% and alpha=0.1.|Ratio in least square means|0.8301|||=|0.282|TWO_SIDED|90.0|0.6206|1.1102|||ANCOVA|||||1.1102|0.6206|=0.282
92274691|NCT00606684|184451899|SUPERIORITY_OR_OTHER||Least squares mean difference|0.098|||<|0.001|TWO_SIDED|95.0|0.046|0.15|||ANCOVA|||||0.150|0.046|<0.001
92274692|NCT00606684|184451899|SUPERIORITY_OR_OTHER||Least squares mean difference|0.11|||<|0.001|TWO_SIDED|95.0|0.057|0.162|||ANCOVA|||||0.162|0.057|<0.001
92274693|NCT00606684|184451899|SUPERIORITY_OR_OTHER||Least squares mean difference|0.137|||<|0.001|TWO_SIDED|95.0|0.085|0.19|||ANCOVA|||||0.190|0.085|<0.001
92274694|NCT00606684|184451899|SUPERIORITY_OR_OTHER||Least squares mean difference|0.165|||<|0.001|TWO_SIDED|95.0|0.112|0.217|||ANCOVA|||||0.217|0.112|<0.001
92274695|NCT02967133|184451908|SUPERIORITY|||||||0.5186|||||||Log Rank|||||||0.5186
92274696|NCT00950833|184451913|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 1.|GMC ratio for anti-1|6.17|||||TWO_SIDED|95.0|5.03|7.58|||ANOVA|||To demonstrate the immunological memory induced for anti-pneumococcal serotype 1 following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||7.58|5.03|
92274697|NCT00950833|184451913|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled SynflorixI+II Group over Synflorix Group) was higher than 1 for pneumococcal serotype 4.|GMC ratio for anti-4|2.86|||||TWO_SIDED|95.0|2.38|3.45|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 4 induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||3.45|2.38|
92274698|NCT00950833|184451913|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 5.|GMC ratio for anti-5|13.47|||||TWO_SIDED|95.0|10.96|16.55|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 5 induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||16.55|10.96|
92274699|NCT00950833|184451913|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 6B.|GMC ratio for anti-6B|28.81|||||TWO_SIDED|95.0|22.54|36.81|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 6B induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||36.81|22.54|
92274700|NCT00950833|184451913|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 7F.|GMC ratio for anti-7F|4.75|||||TWO_SIDED|95.0|3.9|5.78|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 7F induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||5.78|3.9|
92274701|NCT00950833|184451913|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 9V.|GMC ratio for anti-9V|14.1|||||TWO_SIDED|95.0|11.21|17.75|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 9V induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||17.75|11.21|
92274702|NCT00950833|184451913|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 14.|GMC ratio for anti-14|22.92|||||TWO_SIDED|95.0|17.51|30.0|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 14 induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||30|17.51|
92274703|NCT00950833|184451913|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 18C.|GMC ratio for anti-18C|10.01|||||TWO_SIDED|95.0|7.95|12.61|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 18C induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||12.61|7.95|
92274704|NCT00950833|184451913|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 19F.|GMC ratio for anti-19F|9.25|||||TWO_SIDED|95.0|7.29|11.74|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 19F induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||11.74|7.29|
92215520|NCT03627767|184330462|SUPERIORITY||LSM difference|-6.7|||<|0.0001|TWO_SIDED|95.0|-8.3|-5.1|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-5.1|-8.3|< 0.0001
92338212|NCT04388176|184578398|EQUIVALENCE|Differences between treatment groups was to be detected with a power of 90% and alpha=0.1|Difference in least square means|-0.3989|||=|0.3722|TWO_SIDED|90.0|-1.1718|0.3739|||ANCOVA|||||0.3739|-1.1718|=0.3722
92338213|NCT04388176|184578399|EQUIVALENCE|Differences between treatment groups was to be detected with a power of 90% and alpha=0.1|Difference in least square means|-0.109|||=|0.4982|TWO_SIDED|90.0|-0.4074|0.1895|||ANCOVA|||Analysis of capillaroscopy before cold||0.1895|-0.4074|=0.4982
92154161|NCT02959138|184194499|OTHER|The test-to-reference ratio GLSM ratio and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|111.92|||||TWO_SIDED|90.0|86.92|144.12||||||The Estimate statement was used to produce the point estimate and the corresponding 90% CI of the difference in PK parameters of interest on a logarithmic scale.||144.12|86.92|
92154162|NCT02959138|184194499|OTHER|The test-to-reference ratio GLSM ratio and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|107.69|||||TWO_SIDED|90.0|79.63|145.65||||||The Estimate statement was used to produce the point estimate and the corresponding 90% CI of the difference in PK parameters of interest on a logarithmic scale.||145.65|79.63|
92154163|NCT02959138|184194500|OTHER|The test-to-reference ratio GLSM ratio and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|102.0|||||TWO_SIDED|90.0|81.42|127.79||||||The Estimate statement was used to produce the point estimate and the corresponding 90% CI of the difference in PK parameters of interest on a logarithmic scale.||127.79|81.42|
92154164|NCT02959138|184194500|OTHER|The test-to-reference ratio GLSM ratio and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|87.8|||||TWO_SIDED|90.0|68.14|113.13||||||The Estimate statement was used to produce the point estimate and the corresponding 90% CI of the difference in PK parameters of interest on a logarithmic scale.||113.13|68.14|
92154165|NCT01327547|184194561|SUPERIORITY_OR_OTHER||Difference in proportion|-0.002||||0.4598|TWO_SIDED|95.0|-0.0417|0.0376|||Cochran-Mantel-Haenszel||Difference in proportion: CMH approach weighted by hepatitis B virus (HBV) status and usage of protease inhibitor (PI) regimen strata was used to calculate the statistics.|A stratified analysis was conducted by summarizing the difference in proportions adjusted for the randomization strata formed by crossing levels of stratification variables. The Cochran-Mantel-Haenszel (CMH) approach was used. No formal hypothesis test was performed.||0.0376|-0.0417|0.4598
92154166|NCT01327547|184194562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0167|||||TWO_SIDED|95.0|-0.0653|0.0319|||||CMH approach weighted by HBV status and usage of PI regiment strata, is used to calculate the statistics. The point estimate and 95% CI are difference in proportions between MVC and placebo for the participants meeting secondary endpoint.|||0.0319|-0.0653|
92154167|NCT01327547|184194562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0177|||||TWO_SIDED|95.0|-0.0805|0.0452|||||CMH approach weighted by HBV status and usage of PI regiment strata, is used to calculate the statistics. The point estimate and 95% CI are difference in proportions between maraviroc and placebo for the participants meeting secondary endpoint.|||0.0452|-0.0805|
92154168|NCT01327547|184194567|SUPERIORITY_OR_OTHER||Difference in proportion|-0.015|||||TWO_SIDED|95.0|-0.1484|0.1185|||||Difference in proportion: CMH approach weighted by HBV status and usage of PI regimen strata was used to calculate the statistics.|A stratified analysis was conducted by summarizing the difference in proportions adjusted for the randomization strata formed by crossing levels of stratification variables. The CMH approach was used. No formal hypothesis test was performed. Week 48 data presented here.||0.1185|-0.1484|
92154169|NCT01327547|184194567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0255|||||TWO_SIDED|95.0|-0.1784|0.1274|||||Difference in proportion: CMH approach weighted by HBV status and usage of PI regimen strata was used to calculate the statistics.|A stratified analysis was conducted by summarizing the difference in proportions adjusted for the randomization strata formed by crossing levels of stratification variables. The CMH approach was used. No formal hypothesis test was performed. Week 96 data presented here.||0.1274|-0.1784|
92154170|NCT01327547|184194567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083|||||TWO_SIDED|95.0|-0.2421|0.0761|||||Difference in proportion: CMH approach weighted by HBV status and usage of PI regimen strata was used to calculate the statistics.|A stratified analysis was conducted by summarizing the difference in proportions adjusted for the randomization strata formed by crossing levels of stratification variables. The CMH approach was used. No formal hypothesis test was performed. Week 144 data presented here.||0.0761|-0.2421|
92154171|NCT01327547|184194568|SUPERIORITY_OR_OTHER||Difference in Least Square (LS) Mean|-41.12||||0.1174|TWO_SIDED|95.0|-92.72|10.49|||ANCOVA||Difference in Least Square (LS) Mean|The above analysis is for CD4+ cells at week 48. Results are from an analysis of covariance (ANCOVA) model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||10.49|-92.72|0.1174
92338214|NCT04388176|184578399|EQUIVALENCE|A difference between treatment groups was detected with a power of 90% and alpha=0.1|Difference in least square means|-0.0637|||=|0.6219|TWO_SIDED|90.0|-0.3037|0.1763|||ANCOVA|||Analysis of capillaroscopy post recovery||0.1763|-0.3037|=0.6219
92338215|NCT01689441|184578400|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.25
92338216|NCT01689441|184578401|SUPERIORITY_OR_OTHER_LEGACY|||||||0.51|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.51
92338217|NCT01689441|184578402|SUPERIORITY_OR_OTHER_LEGACY|||||||0.54|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.54
92338218|NCT01237327|184578429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7799||||0.3348|TWO_SIDED|95.0|0.47|1.294|||Log Rank|||Overall survival compared using the hazard ratio; hazard ratio \<1.0 is in favor of exemestane.||1.294|0.47|0.3348
92215521|NCT03627767|184330462|SUPERIORITY||LSM difference|-2.1|||||TWO_SIDED|95.0|-3.3|-0.9||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.9|-3.3|
92215522|NCT03627767|184330462|SUPERIORITY||LSM difference|-2.6|||=|0.0082|TWO_SIDED|95.0|-4.5|-0.7|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.7|-4.5|= 0.0082
92215523|NCT03627767|184330462|SUPERIORITY||LSM difference|-5.5|||<|0.0001|TWO_SIDED|95.0|-7.4|-3.6|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-3.6|-7.4|< 0.0001
92274705|NCT00950833|184451913|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 23F.|GMC ratio for anti-23F|36.52|||||TWO_SIDED|95.0|27.59|48.34|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 23F induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||48.34|27.59|
92154172|NCT01327547|184194568|SUPERIORITY_OR_OTHER||Difference in LS Mean|-21.96||||0.593|TWO_SIDED|95.0|-103.05|59.12|||ANCOVA||Difference in LS Mean|The above analysis is for CD8+ cells at Week 48. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||59.12|-103.05|0.5930
92154173|NCT01327547|184194568|SUPERIORITY_OR_OTHER||Difference in LS Mean|-48.26||||0.0669|TWO_SIDED|95.0|-99.93|3.41|||ANCOVA|||The above analysis is for CD4+ cells at Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||3.41|-99.93|0.0669
92154174|NCT01327547|184194568|SUPERIORITY_OR_OTHER||Difference in LS Mean|-65.28||||0.1799|TWO_SIDED|95.0|-161.07|30.5|||ANCOVA|||The above analysis is for CD8+ cells at Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||30.50|-161.07|0.1799
92154175|NCT01327547|184194568|SUPERIORITY_OR_OTHER||Difference in LS Mean|-27.71||||0.3859|TWO_SIDED|95.0|-90.71|35.29|||ANCOVA|||The above analysis is for CD4+ cells at Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||35.29|-90.71|0.3859
92154176|NCT01327547|184194568|SUPERIORITY_OR_OTHER||Difference in LS Mean|-31.86||||0.5571|TWO_SIDED|95.0|-138.93|75.21|||ANCOVA|||The above analysis is for CD8+ cells at Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||75.21|-138.93|0.5571
92154177|NCT01327547|184194569|SUPERIORITY_OR_OTHER||Difference in LS Mean|-56.06||||0.0153|TWO_SIDED|95.0|-101.2|-10.92|||ANCOVA||Difference in LS Mean|The above analysis is for CD38 expression on CD4 and CD8 cells at Week 48. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||-10.92|-101.20|0.0153
92154178|NCT01327547|184194569|SUPERIORITY_OR_OTHER||Difference in LS Mean|-44.93||||0.0947|TWO_SIDED|95.0|-97.72|7.87|||ANCOVA|||The above analysis is for CD38 expression on CD4 and CD8 cells for Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||7.87|-97.72|0.0947
92154179|NCT01327547|184194569|SUPERIORITY_OR_OTHER||Difference in LS Mean|-29.75||||0.3595|TWO_SIDED|95.0|-93.74|34.24|||ANCOVA|||The above analysis is for CD38 expression on CD4 and CD8 cells for Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||34.24|-93.74|0.3595
92154180|NCT01327547|184194570|SUPERIORITY_OR_OTHER||Difference in LS Mean|-2.53||||0.4476|TWO_SIDED|95.0|-9.11|4.05|||ANCOVA||Difference in LS Mean|The above analysis is for C-reactive protein cells at Week 48. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||4.05|-9.11|0.4476
92215524|NCT03627767|184330462|SUPERIORITY||LSM difference|-2.9|||||TWO_SIDED|95.0|-4.2|-1.6||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.6|-4.2|
92215525|NCT03627767|184330462|SUPERIORITY||LSM difference|-2.4|||=|0.0313|TWO_SIDED|95.0|-4.5|-0.2|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-4.5|= 0.0313
92274706|NCT01828255|184451956|OTHER||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
92274707|NCT04169282|184452006|SUPERIORITY|||||||0.108|||||||t-test, 1 sided|paired t-test for normally distributed and transformed data or Wilcoxon's Signed Rank test for non-parametric paired data||||||0.108
92154181|NCT01327547|184194570|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.67||||0.3012|TWO_SIDED|95.0|-0.61|1.96|||ANCOVA|||The above analysis is for C-reactive protein cells at Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1.96|-0.61|0.3012
92154182|NCT01327547|184194570|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.92||||0.4196|TWO_SIDED|95.0|-1.33|3.17|||ANCOVA|||The above analysis is for C-reactive protein cells at Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||3.17|-1.33|0.4196
92154183|NCT01327547|184194571|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.3||||0.9904|TWO_SIDED|95.0|-48.66|49.26||Not specifed.|ANCOVA||Difference in LS Mean|The above analysis is for D-Dimer cells at Week 48. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||49.26|-48.66|0.9904
92154184|NCT01327547|184194571|SUPERIORITY_OR_OTHER||Difference in LS Mean|10.87||||0.7697|TWO_SIDED|95.0|-62.44|84.18|||ANCOVA||Difference in LS Mean|The above analysis is for D-Dimer cells at Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||84.18|-62.44|0.7697
92274708|NCT04169282|184452007|SUPERIORITY|||||||0.003|||||||t-test, 1 sided|paired t-test for normally distributed and transformed data or Wilcoxon's Signed Rank test for non-parametric paired data||||||0.003
92274709|NCT04169282|184452008|SUPERIORITY|||||||0.025|||||||t-test, 1 sided|paired t-test for normally distributed and transformed data or Wilcoxon's Signed Rank test for non-parametric paired data||||||0.025
92274710|NCT01275313|184452010|EQUIVALENCE|Power calculation: To determine a difference of 20% in the control group and 10% in the treatment group with 80% power, 440 participants would be needed.||||||0.77|||||||Chi-squared, Corrected|||Null hypothesis: At-risk nursing home residents provided with an individually-configured manual lightweight wheelchair and skin protection cushion have the same incidence of pressure injury development compared to individuals using a facility-provided manual wheelchair modified with a skin protection cushion and related adjustments.||||0.77
92274711|NCT00322309|184452022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|2.6|>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||It was hypothesized that there would be no significant difference between the two treatment groups for benzoylecgonine data collected for Week 11.||||>0.05
92274712|NCT00322309|184452023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8|STANDARD_DEVIATION|6.6|>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||It was hypothesized that means scores for the CGI-O would not differ significantly for these values obtained in the final treatment week, Week 11.||||>0.05
92274713|NCT00322309|184452024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|5.4|>|0.05|TWO_SIDED|||||This analysis involves a between group comparison.|t-test, 2 sided|||It hypothesized that the two treatment groups would not differ significantly with respect to the total HAM-D scores obtained in the final week of the study (Week 11).||||>0.05
92274714|NCT00322309|184452025|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|18.0|>|0.05||95.0||||Percent of capsules administered does not differ significantly between the two groups.|t-test, 2 sided|||It was hypothesized that there would be no significant difference in the mean percentage of capsules of those dispensed between the two groups.||||>0.05
92274715|NCT00322309|184452026|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|8.5|>|0.05||95.0|||||t-test, 2 sided|||It was hypothesized that there would not be a significant difference between the two groups in the mean percent of urines positive for riboflavin.||||>0.05
92274716|NCT01165684|184452028|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% CI was below or equal to 0.4% or equivalently if the p-value for the one-sided test of was less than or equal to 2.5%, where D is the mean treatment difference (step-wise regimen minus basal-bolus regimen).|Estimated treatment difference, Mean|0.14||||0.088||95.0|-0.02|0.3|||Regression, Linear|||||0.30|-0.02|0.088
92274717|NCT01165684|184452029|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|0.55|||<|0.001||95.0|0.42|0.69|||Regression, Linear|||||0.69|0.42|<0.001
92274718|NCT01165684|184452030|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|0.37|||<|0.001||95.0|0.21|0.53|||Regression, Linear|||||0.53|0.21|<0.001
92274719|NCT01165684|184452031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.85|||<|0.001||95.0|4.12|11.39|||Regression, Logistic|||||11.39|4.12|<0.001
92274720|NCT01165684|184452032|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38|||<|0.001||95.0|1.56|3.64|||Regression, Logistic|||||3.64|1.56|<0.001
92274721|NCT01165684|184452033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.146||95.0|0.9|2.07|||Regression, Logistic|||||2.07|0.90|0.146
92274722|NCT01165684|184452036|SUPERIORITY_OR_OTHER||Estimated Mean|0.12||||0.635||95.0|-0.37|0.6|||Regression, Linear|||||0.60|-0.37|0.635
92274723|NCT01165684|184452039|SUPERIORITY_OR_OTHER||Estimated mean|0.36||||0.046||95.0|0.01|0.71|||Regression, Linear|||||0.71|0.01|0.046
92274724|NCT01165684|184452040|SUPERIORITY_OR_OTHER||Estimated mean|-0.48||||0.228||95.0|-1.25|0.3|||Regression, Linear|||||0.30|-1.25|0.228
92274725|NCT01165684|184452041|SUPERIORITY_OR_OTHER||Estimated mean|-0.17||||0.224||95.0|-0.45|0.11|||Regression, Linear|||||0.11|-0.45|0.224
92274726|NCT04549259|184452052|SUPERIORITY||Odds Ratio (OR)|3.23||||0.33|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.33
92154185|NCT01327547|184194571|SUPERIORITY_OR_OTHER||Difference in LS Mean|-24.49||||0.5816|TWO_SIDED|95.0|-112.21|63.23|||ANCOVA||Difference in LS Mean|The above analysis is for D-Dimer cells at Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||63.23|-112.21|0.5816
92338219|NCT01972464|184578442|SUPERIORITY||Odds Ratio (OR)|1.77||||0.39|TWO_SIDED|95.0|0.48|6.52||a priori threshold for statistical significance = 0.05|Regression, Logistic|adjusted for age (18-25 years versus \>25 years) and pre-quit smoking level (\<10 versus \>10 cigarettes per day)|OR represents of odds of abstinence in progesterone group versus placebo group|Null hypothesis- odds of week 8 point prevalence abstinence were equal between placebo and progesterone group.||6.52|0.48|0.39
92338220|NCT01972464|184578443|SUPERIORITY||Hazard Ratio (HR)|1.39||||0.41|TWO_SIDED|95.0|0.66|3.38||a priori threshold = 0.05|Regression, Cox|Adjusted for age and pre-quit smoking level|Hazard ratio is placebo / progesterone|||3.38|0.66|0.41
92338221|NCT01972464|184578444|SUPERIORITY||Risk Ratio (RR)|0.91|||<|0.001|TWO_SIDED|95.0|0.86|0.96|||general estimating equation|adjusted for age \& pre-quit smoking level; specified a gamma distribution, log link, autoregressive correlation structure|risk ratio is progesterone versus placebo|null hypothesis rate of change in QSU-brief scores were equal between treatment groups||0.96|0.86|<0.001
92338222|NCT02358031|184578445|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.21211|TWO_SIDED|95.0|0.78|1.11||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||PFS in all participants of the pembro combo arm was compared to PFS in all participants of the control arm to address the sixth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||1.11|0.78|0.21211
92338223|NCT02358031|184578446|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.03697|TWO_SIDED|95.0|0.69|1.02||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||PFS in CPS ≥1 participants of the pembro combo arm was compared to PFS in CPS ≥1 participants of the control arm to address the fifth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||1.02|0.69|0.03697
92338224|NCT02358031|184578447|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.02951|TWO_SIDED|95.0|0.58|1.01||One-sided p-value based on log-rank test stratified by ECOG and HPV status.|Regression, Cox|||PFS in CPS ≥20 participants of the pembro combo arm was compared to PFS in CPS ≥20 participants of the control arm to address the fourth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG and HPV status.||1.01|0.58|0.02951
92338225|NCT02358031|184578448|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.00025|TWO_SIDED|95.0|0.6|0.87||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||OS in all participants of the pembro combo arm was compared to OS in all participants of the control arm to address the fourteenth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||0.87|0.60|0.00025
92338226|NCT02358031|184578449|SUPERIORITY||Hazard Ratio (HR)|0.65||||2e-05|TWO_SIDED|95.0|0.53|0.8||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||OS in CPS ≥1 participants of the pembro combo arm was compared to OS in CPS ≥1 participants of the control arm to address the twelfth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||0.80|0.53|0.00002
92338227|NCT02358031|184578450|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.00044|TWO_SIDED|95.0|0.45|0.82||One-sided p-value based on log-rank test stratified by ECOG and HPV status.|Regression, Cox|||OS in CPS ≥20 participants of the pembro combo arm was compared to OS in CPS ≥20 participants of the control arm to address the eleventh primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG and HPV status.||0.82|0.45|0.00044
92398389|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.44||||0.1642|TWO_SIDED|95.0|0.69|8.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||8.55|0.69|0.1642
92398390|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|2.19||||0.1976|TWO_SIDED|95.0|0.66|7.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.24|0.66|0.1976
92398391|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.4||||0.5761|TWO_SIDED|95.0|0.43|4.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.58|0.43|0.5761
92398392|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|0.64||||0.454|TWO_SIDED|95.0|0.2|2.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.04|0.20|0.4540
92398393|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|0.57||||0.3732|TWO_SIDED|95.0|0.17|1.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.96|0.17|0.3732
92398394|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.59||||0.4665|TWO_SIDED|95.0|0.46|5.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.50|0.46|0.4665
92338228|NCT02358031|184578451|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.9983|TWO_SIDED|95.0|1.09|1.53||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||PFS in all participants of the pembro mono arm was compared to PFS in all participants of the control arm to address the third primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||1.53|1.09|0.99830
92338229|NCT02358031|184578452|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.8958|TWO_SIDED|95.0|0.94|1.36||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||PFS in CPS ≥1 participants of the pembro mono arm was compared to PFS in CPS ≥1 participants of the control arm to address the second primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||1.36|0.94|0.89580
92338230|NCT02358031|184578453|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.46791|TWO_SIDED|95.0|0.76|1.29||One-sided p-value based on log-rank test stratified by ECOG and HPV status.|Regression, Cox|||PFS in CPS ≥20 participants of the pembro mono arm was compared to PFS in CPS ≥20 participants of the control arm to address the first primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG and HPV status.||1.29|0.76|0.46791
92338231|NCT02358031|184578454|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.01985|TWO_SIDED|95.0|0.7|0.99||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||OS in all participants of the pembro mono arm was compared to OS in all participants of the control arm to address the tenth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||0.99|0.70|0.01985
92338232|NCT02358031|184578455|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.00133|TWO_SIDED|95.0|0.61|0.9||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||OS in CPS ≥1 participants of the pembro mono arm was compared to OS in CPS ≥1 participants of the control arm to address the eighth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||0.90|0.61|0.00133
92338233|NCT02358031|184578456|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.0001|TWO_SIDED|95.0|0.44|0.78||One-sided p-value based on log-rank test stratified by ECOG and HPV status.|Regression, Cox|||OS in CPS ≥20 participants of the pembro mono arm was compared to OS in CPS ≥20 participants of the control arm to address the seventh primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG and HPV status.||0.78|0.44|0.00010
92338234|NCT02358031|184578463|OTHER||Difference in ORR Percentage|-0.8||||0.574|TWO_SIDED|95.0|-8.7|7.2||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in all participants of the pembro combo arm was compared to ORR in all participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||7.2|-8.7|0.5740
92338235|NCT02358031|184578464|OTHER||Difference in ORR Percentage|0.5||||0.4586|TWO_SIDED|95.0|-8.2|9.1||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in CPS ≥1 participants of the pembro combo arm was compared to ORR in CPS ≥1 participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||9.1|-8.2|0.4586
92338236|NCT02358031|184578465|OTHER||Difference in ORR Percentage|5.0||||0.2161|TWO_SIDED|95.0|-7.5|17.4||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in CPS ≥20 participants of the pembro combo arm was compared to ORR in CPS ≥20 participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1) and HPV status (Positive vs. Negative).||17.4|-7.5|0.2161
92338237|NCT02358031|184578466|OTHER||Difference in LS Means|0.4||||0.839|TWO_SIDED|95.0|-3.46|4.26||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|constrained Longitudinal Data Analysis|||Change from baseline to Week 15 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro combo arm and the control arm. Comparison based on constrained longitudinal data analysis (cLDA) model with GHS/QoL score as response variable and treatment by visit interaction, stratification factors (ECOG \[0 vs. 1\], HPV status \[Positive vs. Negative\] and PD-L1 TPS status \[Strongly Positive, Not Strongly Positive\]) as covariates.||4.26|-3.46|0.839
92338238|NCT02358031|184578467|OTHER||Hazard Ratio (HR)|1.37||||0.9497|TWO_SIDED|95.0|0.94|2.0||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in GHS/QoL combined score was compared between all participants of the pembro combo arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||2.00|0.94|0.9497
92338239|NCT02358031|184578468|OTHER||Hazard Ratio (HR)|1.37||||0.9476|TWO_SIDED|95.0|0.93|2.02||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in EORTC QLQ-H\&N35 Pain Score was compared between all participants of the pembro combo arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||2.02|0.93|0.9476
92154186|NCT01327547|184194572|SUPERIORITY_OR_OTHER||Difference in LS Mean|498.04||||0.3786|TWO_SIDED|95.0|-617.33|1613.41|||ANCOVA||Difference in LS Mean|The above analysis is for TGF-beta cells at Week 48. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1613.41|-617.33|0.3786
92154187|NCT01327547|184194572|SUPERIORITY_OR_OTHER||Difference in LS Mean|348.7||||0.4388|TWO_SIDED|95.0|-539.61|1237.01|||ANCOVA||Difference in LS Mean|The above analysis is for TGF-beta cells at Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1237.01|-539.61|0.4388
92398395|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.46||||0.5634|TWO_SIDED|95.0|0.41|5.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.25|0.41|0.5634
92274727|NCT04549259|184452052|SUPERIORITY||Odds Ratio (OR)|1.76||||0.63|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.63
92398396|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.65||||0.4297|TWO_SIDED|95.0|0.48|5.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.70|0.48|0.4297
92398397|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9789|TWO_SIDED|95.0|0.31|3.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.14|0.31|0.9789
92398398|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|0.81||||0.7357|TWO_SIDED|95.0|0.24|2.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.70|0.24|0.7357
92398399|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|0.46||||0.1977|TWO_SIDED|95.0|0.14|1.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.50|0.14|0.1977
92398400|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|0.52||||0.3203|TWO_SIDED|95.0|0.14|1.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.88|0.14|0.3203
92398401|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9739|TWO_SIDED|95.0|0.3|3.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.44|0.30|0.9739
92154188|NCT01327547|184194572|SUPERIORITY_OR_OTHER||Difference in LS Mean|-173.57||||0.8559|TWO_SIDED|95.0|-2060.81|1713.68|||ANCOVA||Difference in LS Mean|The above analysis is for TGF-beta cells at Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1713.68|-2060.81|0.8559
92154189|NCT01327547|184194573|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.03||||0.8024|TWO_SIDED|95.0|-0.22|0.28|||ANCOVA||Difference in LS Mean|The above analysis is change for baseline in Log10 plasma HCV RNA at 48 Weeks. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.28|-0.22|0.8024
92154190|NCT01327547|184194573|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.15||||0.266|TWO_SIDED|95.0|-0.12|0.43|||ANCOVA||Difference in LS Mean|The above analysis is change for baseline in Log10 plasma HCV RNA at 96 Weeks. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.43|-0.12|0.2660
92154191|NCT01327547|184194573|SUPERIORITY_OR_OTHER||Difference in LS mean|0.15||||0.2855|TWO_SIDED|95.0|-0.12|0.41|||ANCOVA||Difference in LS mean|The above analysis is change for baseline in Log10 plasma HCV RNA at 144 Weeks. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.41|-0.12|0.2855
92154192|NCT01327547|184194574|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.15||||0.7778|TWO_SIDED|95.0|-0.93|1.23|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 48 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1.23|-0.93|0.7778
92154193|NCT01327547|184194574|SUPERIORITY_OR_OTHER||Difference in LS mean|0.0||||0.9991|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 96 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.10|-0.10|0.9991
92154194|NCT01327547|184194574|SUPERIORITY_OR_OTHER||Difference in LS mean|-0.02||||0.7275|TWO_SIDED|95.0|-0.16|0.11|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 144 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.11|-0.16|0.7275
92154195|NCT01327547|184194575|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.07||||0.5201|TWO_SIDED|95.0|-0.15|0.3|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 48 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.30|-0.15|0.5201
92154196|NCT01327547|184194575|SUPERIORITY_OR_OTHER||Difference in LS Mean|-0.08||||0.4657|TWO_SIDED|95.0|-0.28|0.13|||ANCOVA|||Results are from an ANCOVA model with change from baseline at Week 96 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.13|-0.28|0.4657
92338240|NCT02358031|184578469|OTHER||Hazard Ratio (HR)|1.05||||0.5836|TWO_SIDED|95.0|0.69|1.59||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in EORTC QLQ-H\&N35 Swallowing Score was compared between all participants of the pembro combo arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||1.59|0.69|0.5836
92398402|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|1.33||||0.6714|TWO_SIDED|95.0|0.36|4.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||4.97|0.36|0.6714
92398403|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|0.75||||0.6375|TWO_SIDED|95.0|0.22|2.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.52|0.22|0.6375
92398404|NCT03192176|184689413|SUPERIORITY||Odds Ratio (OR)|0.54||||0.298|TWO_SIDED|95.0|0.17|1.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.71|0.17|0.2980
92398405|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|5.35||||0.0044|TWO_SIDED|95.0|1.69|16.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.96|1.69|0.0044
92398406|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|8.65||||0.0002|TWO_SIDED|95.0|2.79|26.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||26.83|2.79|0.0002
92338241|NCT02358031|184578476|OTHER||Difference in ORR Percentage|-19.0||||1|TWO_SIDED|95.0|-25.8|-12.1||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in all participants of the pembro mono arm was compared to ORR in all participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive , Not Strongly Positive).||-12.1|-25.8|1.0000
92398407|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|10.82|||<|0.0001|TWO_SIDED|95.0|3.49|33.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||33.54|3.49|<0.0001
92398408|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|10.01|||<|0.0001|TWO_SIDED|95.0|3.2|31.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||31.29|3.20|<0.0001
92398409|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.51||||0.1266|TWO_SIDED|95.0|0.77|8.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||8.15|0.77|0.1266
92398410|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|5.72||||0.0024|TWO_SIDED|95.0|1.85|17.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||17.66|1.85|0.0024
92398411|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|7.93||||0.0003|TWO_SIDED|95.0|2.59|24.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||24.26|2.59|0.0003
92154197|NCT01327547|184194575|SUPERIORITY_OR_OTHER||Difference in LS Mean|-0.03||||0.8087|TWO_SIDED|95.0|-0.25|0.2|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 144 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.20|-0.25|0.8087
92154198|NCT01327547|184194576|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.84||||0.1417|TWO_SIDED|95.0|-4.31|0.63|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 48 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.63|-4.31|0.1417
92154199|NCT01327547|184194576|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.44||||0.2679|TWO_SIDED|95.0|-4.01|1.14|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 96 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1.14|-4.01|0.2679
92154200|NCT01327547|184194576|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.48||||0.1366|TWO_SIDED|95.0|-3.45|0.49|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 144 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.49|-3.45|0.1366
92154201|NCT03390036|184194583|SUPERIORITY|||||||0.8106|||||||ANOVA|||||||0.8106
92154202|NCT03390036|184194584|SUPERIORITY|||||||0.3007|||||||ANOVA|||||||0.3007
92154203|NCT03390036|184194585|SUPERIORITY|||||||0.6354|||||||ANOVA|||||||0.6354
92215526|NCT03627767|184330462|SUPERIORITY||LSM difference|-5.1|||<|0.0001|TWO_SIDED|95.0|-7.1|-3.0|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-3.0|-7.1|< 0.0001
92338242|NCT02358031|184578477|OTHER||Difference in ORR Percentage|-15.9||||1|TWO_SIDED|95.0|-23.4|-8.3||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in CPS ≥1 participants of the pembro mono arm was compared to ORR in CPS ≥1 participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||-8.3|-23.4|1.0000
92338243|NCT02358031|184578478|OTHER||Difference in ORR Percentage|-12.8||||0.9869|TWO_SIDED|95.0|-23.8|-1.5||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in CPS ≥20 participants of the pembro mono arm was compared to ORR in CPS ≥20 participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1) and HPV status (Positive vs. Negative).||-1.5|-23.8|0.9869
92338244|NCT02358031|184578479|OTHER||Difference in LS Means|0.24||||0.893|TWO_SIDED|95.0|-3.34|3.82||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|constrained Longitudinal Data Analysis|||Change from baseline to Week 15 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro mono arm and the control arm. Comparison based on cLDA model with GHS/QoL score as response variable and treatment by visit interaction, stratification factors (ECOG \[0 vs. 1\], HPV status \[Positive vs. Negative\] and PD-L1 TPS status \[Strongly Positive, Not Strongly Positive\]) as covariates.||3.82|-3.34|0.893
92338245|NCT02358031|184578480|OTHER||Hazard Ratio (HR)|1.38||||0.953|TWO_SIDED|95.0|0.95|2.0||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in GHS/QoL combined score was compared between all participants of the pembro mono arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||2.00|0.95|0.9530
92338246|NCT02358031|184578481|OTHER||Hazard Ratio (HR)|0.8||||0.1501|TWO_SIDED|95.0|0.53|1.21||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in EORTC QLQ-H\&N35 Pain Score was compared between all participants of the pembro mono arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||1.21|0.53|0.1501
92338247|NCT02358031|184578482|OTHER||Hazard Ratio (HR)|1.26||||0.8751|TWO_SIDED|95.0|0.85|1.88||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in EORTC QLQ-H\&N35 Swallowing Score was compared between all participants of the pembro mono arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||1.88|0.85|0.8751
92338248|NCT03442725|184578488|OTHER||Geometric Mean Ratio|1.297|||||TWO_SIDED|90.0|0.6|2.805||||||Analysis of variance (ANOVA) comparison of Cmax for telotristat ethyl between test group versus the control group.||2.805|0.600|
92338249|NCT03442725|184578488|OTHER||Geometric Mean Ratio|1.423|||||TWO_SIDED|90.0|0.901|2.247||||||ANOVA comparison of Cmax for LP-778902 between test group versus the control group.||2.247|0.901|
92338250|NCT03442725|184578489|OTHER|Estimate of the median difference and 90% confidence intervals (CIs) was determined by Hodges-Lehmann estimation.|Median Difference|0.0||||0.7452|TWO_SIDED|90.0|-1.0|0.95|||Wilcoxon (Mann-Whitney)|||Comparison of tmax for telotristat ethyl between test group versus the control group.||0.950|-1.000|0.7452
92338251|NCT03442725|184578489|OTHER|Estimate of the median difference and 90% CIs was determined by Hodges-Lehmann estimation.|Median Difference|0.0||||0.7039|TWO_SIDED|90.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||Comparison of tmax for LP-778902 between test group versus the control group.||1.000|-1.000|0.7039
92338252|NCT03442725|184578491|OTHER||Geometric Mean Ratio|1.506|||||TWO_SIDED|90.0|0.914|2.48||||||ANOVA comparison of AUC0-inf for LP-778902 between test group versus the control group.||2.480|0.914|
92338253|NCT03442725|184578492|OTHER||Geometric Mean Ratio|1.512|||||TWO_SIDED|90.0|0.915|2.498||||||ANOVA comparison of AUC0-tlast for LP-778902 between test group versus the control group.||2.498|0.915|
92338254|NCT03442725|184578496|OTHER||Arithmetic Mean Difference|0.019|||||TWO_SIDED|90.0|-0.03|0.068||||||ANOVA comparison of fu of LP-778902 between test group versus the control group.||0.068|-0.030|
92338255|NCT03442725|184578497|OTHER||Geometric Mean Ratio|1.727|||||TWO_SIDED|90.0|0.866|3.443||||||ANOVA comparison of Cmaxu for LP-778902 between test group versus the control group.||3.443|0.866|
92338256|NCT03442725|184578498|OTHER||Geometric Mean Ratio|1.828|||||TWO_SIDED|90.0|0.903|3.699||||||ANOVA comparison of AUC0-infu for LP-778902 between test group versus the control group.||3.699|0.903|
92338257|NCT03442725|184578499|OTHER||Geometric Mean Ratio|1.835|||||TWO_SIDED|90.0|0.904|3.726||||||ANOVA comparison of AUC0-tlastu for LP-778902 between test group versus the control group.||3.726|0.904|
92215527|NCT03627767|184330462|SUPERIORITY||LSM difference|-2.7|||||TWO_SIDED|95.0|-4.1|-1.3||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.3|-4.1|
92338258|NCT00511173|184578532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|STANDARD_DEVIATION|4.5|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Null hypothesis: there is no difference in warfarin dose (mg/wk) between pharmacist dosing and algorithm dosing. In order to gather all SNP groups, the power analysis resulted in \> 100 patients enrolled into each group.||||< 0.05
92369329|NCT02993822|184643577|SUPERIORITY||Mean Difference (Final Values)|0.92||||0.531|TWO_SIDED|95.0|0.71|1.2|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.20|0.71|0.531
92398412|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0217|TWO_SIDED|95.0|1.18|8.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.17|1.18|0.0217
92398413|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|4.63||||0.0021|TWO_SIDED|95.0|1.75|12.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.25|1.75|0.0021
92398414|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|4.72||||0.0016|TWO_SIDED|95.0|1.8|12.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.37|1.80|0.0016
92398415|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|4.8||||0.0018|TWO_SIDED|95.0|1.79|12.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.86|1.79|0.0018
92398416|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0467|TWO_SIDED|95.0|1.01|7.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.14|1.01|0.0467
92398417|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|4.7||||0.0016|TWO_SIDED|95.0|1.8|12.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.28|1.80|0.0016
92398418|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.98||||0.0234|TWO_SIDED|95.0|1.16|7.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.65|1.16|0.0234
92398419|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.88||||0.0294|TWO_SIDED|95.0|1.11|7.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.46|1.11|0.0294
92215528|NCT03627767|184330463|SUPERIORITY||LSM difference|-0.1|||=|0.4832|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-0.4|= 0.4832
92338259|NCT02603211|184578547|OTHER||||||||||||||||||"We will obtain 20 tactile image data sets from the breast tumor patients. The tactile images will be converted to size and deformation index. Then these two parameters will be converted to the risk score. This is a small number of patients for statistically significance study. Therefore, we plan to use the Leave-One-Out-Cross-Validation (LOOCV) technique to validate the human test results to determine the performance of the device.~We obtain the Risk Score. Risk Score is a unit less numerical value, which can be used as a scale to classify the tumor as malignant and benign. Based on the calculated size of the tumor and measured deformation index, the breast tumors are classified as benign and malignant using scoring method. The risk score will range from 0 to 5, where 0 represents the benign and 5 represents the malignant tumor.~Comparing the Risk Score and the Pathology reports we obtain sensitivity, specificity and accuracy of the system."|||
92338260|NCT00758498|184578552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9|||<|0.0001|TWO_SIDED|95.0|2.07|3.71|||ANCOVA|Treatment was a factor and baseline value was a co-variate||||3.71|2.07|<0.0001
92398420|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.74||||0.0068|TWO_SIDED|95.0|1.44|9.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.73|1.44|0.0068
92398421|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|4.35||||0.0025|TWO_SIDED|95.0|1.68|11.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||11.29|1.68|0.0025
92398422|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|5.82||||0.0006|TWO_SIDED|95.0|2.13|15.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.92|2.13|0.0006
92398423|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.53||||0.0572|TWO_SIDED|95.0|0.97|6.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.61|0.97|0.0572
92398424|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|6.03||||0.0003|TWO_SIDED|95.0|2.28|15.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.97|2.28|0.0003
92398425|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.55||||0.046|TWO_SIDED|95.0|1.02|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.38|1.02|0.0460
92338261|NCT00758498|184578552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.9|||<|0.0001|TWO_SIDED|95.0|6.06|7.69|||ANCOVA|Treatment was a factor and baseline value was a co-variate||||7.69|6.06|<0.0001
92338262|NCT00758498|184578553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8341|TWO_SIDED|95.0|-0.2|0.25|||ANOVA|||||0.25|-0.20|0.8341
92338263|NCT00758498|184578553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.0441|TWO_SIDED|95.0|-0.5|-0.05|||ANCOVA|||||-0.05|-0.50|0.0441
92338264|NCT00758498|184578554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92338265|NCT00758498|184578554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92338266|NCT00758498|184578555|SUPERIORITY_OR_OTHER|||||||0.0012|||||||ANCOVA|Treatment comparisons made use of an analysis of covariance (ANCOVA) analysis with treatment as a factor and baseline value as a covariate||||||0.0012
92338267|NCT00758498|184578555|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis by ANCOVA with treatment as a factor and the baseline value as a covariate||||||<0.0001
92338268|NCT00758498|184578556|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Analysis of treatment comparisons is based on an analysis of variance (ANCOVA) with treatment as a factor and the baseline value as covariate|ANCOVA|||||||<0.0001
92338269|NCT00758498|184578556|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is based on an ANCOVA with treatment as a factor and baseline value as a covariate||||||<0.0001
92215529|NCT03627767|184330463|SUPERIORITY||LSM difference|-0.1|||=|0.6553|TWO_SIDED|95.0|-0.3|0.2|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-0.3|= 0.6553
92215530|NCT03627767|184330463|SUPERIORITY||LSM difference|0.0|||||TWO_SIDED|95.0|-0.2|0.3||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.2|
92338270|NCT00758498|184578557|SUPERIORITY_OR_OTHER|||||||0.0022|||||||ANCOVA|Analysis of treatment comparisons is based on analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate||||||0.0022
92338271|NCT00758498|184578557|SUPERIORITY_OR_OTHER|||||||0.0033|||||||ANCOVA|Analysis of treatment comparisons was based on ANCOVA with treatment as a factor and the baseline as a covariate||||||0.0033
92338272|NCT00758498|184578563|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is based on analysis of covariance (ANCOVA) with treatment as factor and baseline value as a covariate.||||||<0.0001
92338273|NCT00758498|184578563|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is based on ANCOVA with treatment as factor and baseline value as a covariate||||||<0.0001
92338274|NCT00758498|184578564|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is based on analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate||||||<0.0001
92338275|NCT00758498|184578564|SUPERIORITY_OR_OTHER||Least square mean||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is based on ANCOVA with treatment as a factor and the baseline value as a covariate||||||<0.0001
92338276|NCT00758498|184578565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||||<0.0001
92398426|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.03||||0.1406|TWO_SIDED|95.0|0.79|5.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.23|0.79|0.1406
92398427|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.97||||0.0234|TWO_SIDED|95.0|1.16|7.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.63|1.16|0.0234
92398428|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.82||||0.0302|TWO_SIDED|95.0|1.1|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.22|1.10|0.0302
92338277|NCT00758498|184578565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is from an ANCOVA with treatment as a factor and the baseline value as a covariate||||||<0.0001
92338278|NCT00758498|184578567|SUPERIORITY_OR_OTHER|||||||0.8262|||||||ANOVA|||||||0.8262
92338279|NCT00758498|184578567|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANOVA|||||||0.0040
92338280|NCT00758498|184578568|SUPERIORITY_OR_OTHER|||||||0.9595|||||||ANOVA|||||||0.9595
92338281|NCT00758498|184578568|SUPERIORITY_OR_OTHER||Least square mean|||||0.3539|||||||ANOVA|||||||0.3539
92338282|NCT00758498|184578569|SUPERIORITY_OR_OTHER|||||||0.1038|||||||ANOVA|||||||0.1038
92338283|NCT00758498|184578569|SUPERIORITY_OR_OTHER|||||||0.8112|||||||ANOVA|||||||0.8112
92338284|NCT03782987|184578581|OTHER||Geometric mean (gMean) ratio (%) (T/ R)|649.48|STANDARD_ERROR_OF_MEAN|27.7|||TWO_SIDED|90.0|541.29|779.29|||||Confidence intervals were calculated based on the residual error from the ANOVA. Standard error of the mean is actually intra-individual geometric coefficient of variance (gCV).|Statistical model was an analysis of variance (ANOVA) on the logarithmic scale including 'subjects' as random effect and 'treatment' as fixed effect.||779.29|541.29|
92338285|NCT03782987|184578582|OTHER||gMean ratio (%) (T/ R)|166.88|STANDARD_ERROR_OF_MEAN|17.7|||TWO_SIDED|90.0|148.42|187.64|||||Confidence intervals were calculated based on the residual error from the ANOVA. Standard error of the mean is actually intra-individual geometric coefficient of variance (gCV).|Statistical model was an analysis of variance (ANOVA) on the logarithmic scale including 'subjects' as random effect and 'treatment' as fixed effect.||187.64|148.42|
92338286|NCT03782987|184578583|OTHER||gMean ratio (%) (T/ R)|931.41|STANDARD_ERROR_OF_MEAN|25.9|||TWO_SIDED|90.0|785.19|1104.85|||||Confidence intervals were calculated based on the residual error from the ANOVA. Standard error of the mean is actually intra-individual geometric coefficient of variance (gCV).|Statistical model was an analysis of variance (ANOVA) on the logarithmic scale including 'subjects' as random effect and 'treatment' as fixed effect.||1104.85|785.19|
92215531|NCT03627767|184330463|SUPERIORITY||LSM difference|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.5|-1.1|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.1|-1.5|< 0.0001
92215532|NCT03627767|184330463|SUPERIORITY||LSM difference|-2.0|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.7|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.7|-2.2|< 0.0001
92215533|NCT03627767|184330463|SUPERIORITY||LSM difference|-0.7|||||TWO_SIDED|95.0|-0.9|-0.4||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.4|-0.9|
92215534|NCT03627767|184330463|SUPERIORITY||LSM difference|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.0|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.0|-1.7|< 0.0001
92215535|NCT03627767|184330463|SUPERIORITY||LSM difference|-2.2|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.8|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.8|-2.5|< 0.0001
92215536|NCT03627767|184330463|SUPERIORITY||LSM difference|-0.8|||||TWO_SIDED|95.0|-1.1|-0.5||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.5|-1.1|
92338287|NCT01516736|184578586|EQUIVALENCE|The testing procedure was set up in a hierarchical structure, where first equivalence between LA-EP2006 and Neulasta® was assessed (margin ±1 day) and only if this was successfully established, non-inferiority between the two products was tested using a tighter margin of -0.6 days.|Mean Difference (Net)|-0.16||||0.05|TWO_SIDED|95.0|-0.4|0.08|||ANCOVA|The primary endpoints was analyzed with analysis of covariance (ANCOVA).||"The primary objective of the study was to compare LA-EP2006 and Neulasta in terms of the DSN in Cycle 1. It was to be shown in a hierarchical way:~1. that LA-EP2006 is equivalent (margin: ±1 day) to Neulasta® with respect to DSN duration in Cycle 1 and, if this was successfully established,~2. that LA-EP2006 is non-inferior (margin: -0.6 days) to Neulasta® with respect to DSN duration in Cycle 1."||0.08|-0.40|0.05
92338288|NCT01516736|184578586|NON_INFERIORITY|The testing procedure was set up in a hierarchical structure, where first equivalence between LA-EP2006 and Neulasta® was assessed (margin ±1 day) and only if this was successfully established, non-inferiority between the two products was tested using a tighter margin of -0.6 days.|Mean Difference (Net)|-0.16||||0.05|TWO_SIDED|95.0|-0.4|0.08|||ANCOVA|The primary endpoints was analyzed with analysis of covariance (ANCOVA).||"The primary objective of the study was to compare LA-EP2006 and Neulasta in terms of the DSN in Cycle 1. It was to be shown in a hierarchical way:~1. that LA-EP2006 is equivalent (margin: ±1 day) to Neulasta® with respect to DSN duration in Cycle 1 and, if this was successfully established,~2. that LA-EP2006 is non-inferior (margin: -0.6 days) to Neulasta® with respect to DSN duration in Cycle 1."||0.08|-0.40|0.05
92338289|NCT00524771|184578601|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a non-inferiority test of two exponential survival curves . These calculations are based on the following assumptions: 1) one-sided α of 0.025; 2) power (1-β) of 0.80; VTE incidence rate of 9.1 VTE/10.000 WY and 4) non-inferiority limit on hazard ratio of 2.|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.5|1.5|||||Hazard ratio was adjusted age, BMI, duration of current use and family history of VTE.|Tested null hypothesis: VTE hazard ratio for NuvaRing vs. COCs is higher or equal to 2. This analysis represents the a priori defined primary statistical analysis.||1.5|0.5|
92338290|NCT00524771|184578601|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.4|1.7|||||Hazard ratio was adjusted age, BMI, duration of current use and family history of VTE.|Tested null hypothesis: VTE hazard ratio for NuvaRing vs. COC2 is higher or equal to 2.||1.7|0.4|
92338291|NCT00524771|184578601|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.3|2.2|||||Hazard ratio was adjusted age, BMI, duration of current use and family history of VTE.|Like analysis 1 (see above) but restricted to exposure period of less than 6 months.||2.2|0.3|
92338292|NCT00524771|184578601|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.3|2.6|||||Hazard ratio was adjusted age, BMI, duration of current use and family history of VTE.|Like analysis 1 (see above) but restricted to exposure period of 6 - 12 months.||2.6|0.3|
92215537|NCT03627767|184330463|SUPERIORITY||LSM difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.6|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-1.4|< 0.0001
92215538|NCT03627767|184330463|SUPERIORITY||LSM difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.4|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.4|-2.2|< 0.0001
92215539|NCT03627767|184330463|SUPERIORITY||LSM difference|-0.8|||||TWO_SIDED|95.0|-1.1|-0.5||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.5|-1.1|
92338293|NCT00524771|184578601|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.3|2.3|||||Hazard ratio was adjusted age, BMI, duration of current use and family history of VTE.|Like analysis 1 (see above) but restricted to exposure period of \> 12 months.||2.3|0.3|
92338294|NCT00524771|184578602|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.2|2.3|||||The hazard ratio was adjusted for age, BMI, Smoking, and treated hypertension.|||2.3|0.2|
92338295|NCT00524771|184578602|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.2|2.6|||||Hazard ratio was adjusted for age, BMI, smoking, and treated hypertension.|||2.6|0.2|
92338296|NCT02781818|184578603|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||||||0.77
92338297|NCT02781818|184578603|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|||||||0.46
92338298|NCT02781818|184578604|SUPERIORITY|||||||0.65|||||||Mixed Models Analysis|||||||.65
92338299|NCT02781818|184578604|SUPERIORITY|||||||0.98|||||||Mixed Models Analysis|||||||0.98
92338300|NCT02781818|184578605|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.50
92338301|NCT02781818|184578605|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|||||||0.70
92338302|NCT01877668|184578606|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.13|STANDARD_ERROR_OF_MEAN|6.67||0.0102|TWO_SIDED|95.0|4.06|30.21|||Large sample approximation|Missing response (MR)=non-response (NR)||||30.21|4.06|0.0102
92338303|NCT01877668|184578606|SUPERIORITY_OR_OTHER||Risk Difference (RD)|27.24|STANDARD_ERROR_OF_MEAN|6.64|<|0.0001|TWO_SIDED|95.0|14.22|40.26|||Large sample approximation|MR=NR||||40.26|14.22|<0.0001
92338304|NCT01877668|184578606|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.55|STANDARD_ERROR_OF_MEAN|6.69||0.0055|TWO_SIDED|95.0|5.45|31.66|||Large sample approximation|MR=NR||||31.66|5.45|0.0055
92338305|NCT01877668|184578607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1697|STANDARD_ERROR_OF_MEAN|0.06173||0.0062|TWO_SIDED|95.0|-0.291|-0.0483|||Mixed Models Analysis|No imputation.||||-0.0483|-0.2910|0.0062
92338306|NCT01877668|184578607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2196|STANDARD_ERROR_OF_MEAN|0.06184||0.0004|TWO_SIDED|95.0|-0.3411|-0.098|||Mixed Models Analysis|No imputation.||||-0.0980|-0.3411|0.0004
92398429|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|5.23||||0.0016|TWO_SIDED|95.0|1.87|14.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||14.63|1.87|0.0016
92398430|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.82||||0.2105|TWO_SIDED|95.0|0.71|4.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||4.64|0.71|0.2105
92398431|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|4.17||||0.0033|TWO_SIDED|95.0|1.61|10.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.81|1.61|0.0033
92154204|NCT03390036|184194586|SUPERIORITY|||||||0.5754|||||||ANOVA|||||||0.5754
92338307|NCT01877668|184578607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2005|STANDARD_ERROR_OF_MEAN|0.06145||0.0012|TWO_SIDED|95.0|-0.3213|-0.0797|||Mixed Models Analysis|No imputation.||||-0.0797|-0.3213|0.0012
92338308|NCT00707057|184578661|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||The null versus alternative hypothesis regarding the analgesic efficacy using the SPID 8-12 was compared between the 2 treatment groups using an analysis of covariance (ANCOVA)model with each subject's outcome being his/her SPID 8-12 as the dependent variable in the ANCOVA model with terms for gender, treatment, and baseline pain score categories (stratified as ≤7 and \>7).||||<0.0001
92338309|NCT00707057|184578662|SUPERIORITY_OR_OTHER||||||<|0.0017||95.0|||||ANCOVA|||The null versus alternative hypothesis regarding the durability of analgesic efficacy using the PID scores at 24, 36, and 48 hours.An individual subject was to achieve the 2-point reduction at all 3 terminal time points in order to be defined as responder.||||<0.0017
92338310|NCT00707057|184578663|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Time to confirmed first perceptible relief was defined as the time to first perceptible relief, provided that the subject also stopped the second stopwatch indicating meaningful relief. For those who failed to achieve confirmed first perceptible and/or meaningful relief, a censored time was assigned.||||<0.0001
92338311|NCT00707057|184578664|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Time to confirmed first perceptible relief was defined as the time to first perceptible relief, provided that the subject also stopped the second stopwatch indicating meaningful relief. For those who failed to achieve confirmed first perceptible and/or meaningful relief, a censored time was assigned.||||<0.0001
92338312|NCT00707057|184578665|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92338313|NCT00707057|184578666|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92338314|NCT00707057|184578666|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Estimated Confidence Interval: 95%Method: Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel|||||||<0.0001
92338315|NCT00707057|184578667|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|With terms for treatment, gender, and baseline pain score categories stratified as ≤7 and \>7.||The PID at each time point prior to dose 2 was derived by substracting the pain intensity from the base line pain intensity, so that a higher value was indicative of a greater improvement. Time weighted SPID for each specified interval was derived by first multiplying each PID score by the time from the previous time point, and adding them together for each scheduled time point within the time interval. Time weighted TOTPAR for ech specified interval was similarly derived.||||<0.0001
92338316|NCT00707057|184578668|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<0.0001
92338317|NCT00707057|184578669|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||The proportions of subjects who rescued at or prior to hour 8, hour 10, and hour 12 were reported and 95% confidence intervals for the corresponding parameters were calculated.||||<0.0001
92398432|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.1||||0.1087|TWO_SIDED|95.0|0.85|5.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.21|0.85|0.1087
92338318|NCT00707057|184578670|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||The pain relief and PID scores at individual time points were summarized by descriptive statistics. The test and reference were compared at each individual time point at 24, 36 and 48 hours.||||<0.0001
92338319|NCT00707057|184578671|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Global evaluation for dose 1, either at the time of rescue or at dose 2 whichever came first were summarized by descriptive statistics based on non-missing data. The range went from 0 (Very poor) to 10 (Excellent) units on an 11-point Pain Intensity Numerical Rating Scale (PI-NRS).||||<0.0001
92338320|NCT00707057|184578672|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P- value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||"Global evaluation scores for dose 2 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics.~The subjects were to provide global evaluation of dose 2 study medication using a range that went from 0 (Very poor) to 10 (Excellent) units on an 11-point Pain Intensity Numerical Rating Scale (PI-NRS)in response to pain relief."||||<0.0001
92338321|NCT00707057|184578672|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain scores categories.|ANCOVA|||"Maximum relief scores for dose 2 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics.~The subjects were to provide maximum relief scores for dose 2 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief."||||<0.0001
92338322|NCT00707057|184578672|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||"Overall relief scores for dose 2 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics.~The subjects were to provide overall relief scores for dose 2 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief."||||<0.0001
92338323|NCT00707057|184578673|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Global evaluation scores for dose 3 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide global evaluation of dose 3 study medication using a range that went from 0 (Very poor) to 10 (Excellent) units on an 11-point Pain Intensity Numerical Rating Scale (PI-NRS)in response to pain relief.||||<0.0001
92338324|NCT00707057|184578673|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and basee pain score categories.|ANCOVA|||Maximum relief scores for dose 3 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide maximum relief of dose 3 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief.||||<0.0001
92338325|NCT00707057|184578673|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Overall relief scores for dose 3 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide overall relief of dose 3 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief.||||<0.0001
92338326|NCT00707057|184578674|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Global evaluation scores for dose 4 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide global evaluation of dose 4 study medication using a range that went from 0 (Very poor) to 10 (Excellent) units on an 11-point Pain Intensity Numerical Rating Scale (PI-NRS)in response to pain relief.||||<0.0001
92338327|NCT00707057|184578674|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Maximum relief scores for dose 4 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide maximum relief of dose 4 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief.||||<0.0001
92398433|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.56||||0.36|TWO_SIDED|95.0|0.6|4.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.03|0.60|0.3600
92398434|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.05||||0.1394|TWO_SIDED|95.0|0.79|5.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.32|0.79|0.1394
92398435|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0522|TWO_SIDED|95.0|0.99|7.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.36|0.99|0.0522
92154205|NCT03390036|184194587|SUPERIORITY|||||||0.4759|||||||ANOVA|||||||0.4759
92154206|NCT03390036|184194588|SUPERIORITY|||||||0.5596|||||||ANOVA|||||||0.5596
92154207|NCT03390036|184194589|SUPERIORITY|||||||0.4551|||||||ANOVA|||||||0.4551
92154208|NCT03390036|184194590|SUPERIORITY|||||||0.7931|||||||ANOVA|||||||0.7931
92154209|NCT01474512|184194596|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92154210|NCT01474512|184194596|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92215540|NCT03627767|184330463|SUPERIORITY||LSM difference|-0.8|||=|0.002|TWO_SIDED|95.0|-1.2|-0.3|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-1.2|= 0.0020
92338328|NCT00707057|184578674|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Overall relief scores for dose 4 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide overall relief of dose 4 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief.||||<0.0001
92338329|NCT01781208|184578732|SUPERIORITY_OR_OTHER||||||<|0.0001||||||r=0.68, unadjusted for age, gender, and histologic inflammation.|Pearson Correlation|||Continuous data were summarized using means and standard deviations. The relationship between ARFI (VTQ) liver shear wave speed and liver histologic fibrosis score were assessed using Pearson correlation. No a priori power analysis was performed.||||<0.0001
92338330|NCT01781208|184578732|SUPERIORITY_OR_OTHER||||||<|0.0001||||||r=0.73, unadjusted for age, gender, and histologic inflammation score|Pearson Correlation|||Continuous data were summarized using means and standard deviations. The relationship between ARFI (VTIQ) liver shear wave speed and liver histologic fibrosis score were assessed using Pearson correlation. No a priori power analysis was performed.||||<0.0001
92338331|NCT00823134|184578750|OTHER||Mean Difference (Final Values)|2.8|STANDARD_DEVIATION|4.7||0.021|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.021
92338332|NCT00823134|184578751|OTHER|The number of events found per category (PSG and ApneaLink Plus recording) will be compared. Events are Apneas and Hypopneas per hour of sleep, measured as Apnea-Hypopnea-Index (AHI), Apnea-Index (AI), Obstructive AI, Central AI, Hypopnea-Index (HI) and Oxygen Desaturation Index (ODI).|Correlation coefficient (Bland-Altman)|0.75|||||TWO_SIDED|||||||||Per recording, the number of events found per category with PSG and ApneaLink Plus will be compared. As a summary, all PSG values and all ApneaLink Plus values per category will be collected in one graph (Bland-Altmann Plot). The correlation coefficient will be calculated per category. A correlation of \>75% will be seen as threshold for validity.||||
92338333|NCT00078403|184578757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58||||||P-value is pre-specified 1-sided test that PEG slows liver fibrosis progression. Accrual and follow-up on Arms A and B were halted at interim review for lack of fibrosis progression in Arm B (control arm). P-value is unadjusted for interim analysis.|Exact Wilcoxon rank sum test|||Accrual and follow-up on Arms A and B were halted for futility at the first independent interim review of the primary endpoint conducted on May 2, 2007.||||0.58
92338334|NCT00619827|184578796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97||||0.0003|TWO_SIDED|95.0|-2.99|-0.94|||ANCOVA|||||-0.94|-2.99|0.0003
92338335|NCT04878055|184578803|SUPERIORITY||Odds Ratio (OR)|1.626||||0.216|TWO_SIDED|95.0|0.752|3.514|||Two-sided regression, Logistic|||Analysis is based on logistic regression model with Multiple Imputation under missing not at random using retrieve dropouts with proportion of patients alive and free of respiratory failure at Day 28 as dependent variable, treatment, age group, gender and presence of concomitant disease at baseline as qualitative independent variables. Site is considered as random effects that vary randomly among patients.||3.514|0.752|0.216
92338336|NCT04878055|184578804|SUPERIORITY|||||||0.377|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test.||||||0.377
92338337|NCT04878055|184578805|SUPERIORITY|Analysis is based on logistic regression model with proportion of patients died up to Date 28 as dependent variable, treatment, age group, gender and presence of concomitant disease at baseline as qualitative independent variables. Site is considered as random effects that vary randomly among patients.|Odds Ratio (OR)|0.468||||0.17|TWO_SIDED|95.0|0.158|1.386|||Two-sided regression, Logistic|||||1.386|0.158|0.17
92338338|NCT04878055|184578806|SUPERIORITY||Odds Ratio (OR)|0.561||||0.168|TWO_SIDED|95.0|0.247|1.277|||Regression, Logistic|||||1.277|0.247|0.168
92338339|NCT04878055|184578807|SUPERIORITY|Estimates are calculated using a nonparametric method for cumulative incidence function with competing risks data. Estimates were calculated taking into account the following competing risks: Death, discontinuation for AEs and patient transferred to another institution.||||||0.167|||||||Gray's Test|||Until Day 28||||0.167
92338340|NCT04878055|184578808|SUPERIORITY|||||||0.55||||||Comparison between treatment arms is performed by means of a Fisher's Exact test.|Fisher Exact|||At Day 3 - please note that the number of subjects is 268 (180+88) and not 270.||||0.55
92338341|NCT04878055|184578808|SUPERIORITY|||||||0.128|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared mean.||At Day 7 - Please note that the total of subjects in this analysis is not 270 but 266 (n=179 in the Reparixin group and n=87 in the placebo group).||||0.128
92398436|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.97||||0.0119|TWO_SIDED|95.0|1.63|11.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.61|1.63|0.0119
92398437|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1474|TWO_SIDED|95.0|0.77|5.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.53|0.77|0.1474
92215541|NCT03627767|184330463|SUPERIORITY||LSM difference|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.2|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.2|-2.2|< 0.0001
92338342|NCT04878055|184578808|SUPERIORITY|||||||0.235|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test.||At Day 14 - Please note that the total of subjects in this analysis is not 270 but 256 (n=173 in the Reparixin group and n=83 in the placebo group).||||0.235
92338343|NCT04878055|184578808|SUPERIORITY|||||||0.281|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test.||At Day 21 - Please note that the total of subjects in this analysis is not 270 but 255 (n=172 in the Reparixin group and n=83 in the placebo group).||||0.281
92274728|NCT04549259|184452052|SUPERIORITY||Odds Ratio (OR)|0.68||||0.78|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.78
92274729|NCT04549259|184452052|SUPERIORITY||Odds Ratio (OR)|0.87||||0.9|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.90
92338344|NCT04878055|184578808|SUPERIORITY|||||||0.273|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test.||At Day 90 - Please note that the total of subjects in this analysis is not 270 but 50 (n=33 in the Reparixin group and n=17 in the placebo group).||||0.273
92338345|NCT04878055|184578809|SUPERIORITY|||||||0.047||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||At Day 3 - Please note that the number of subjects in this analysis is not 270 but 255||||0.047
92338346|NCT04878055|184578809|SUPERIORITY|||||||0.262|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||||||0.262
92274730|NCT04549259|184452052|OTHER|Single group change over time.|Odds Ratio (OR)|2.89||||0.38|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.38
92274731|NCT04549259|184452052|OTHER|Single group change over time.|Odds Ratio (OR)|1.25||||0.78|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.78
92274732|NCT04549259|184452052|OTHER|Single group change over time.|Odds Ratio (OR)|2.32||||0.45|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.45
92274733|NCT04549259|184452052|OTHER|Single group change over time.|Odds Ratio (OR)|0.92||||0.91|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.91
92274734|NCT04549259|184452053|SUPERIORITY||B|2.58|STANDARD_ERROR_OF_MEAN|2.8||0.36|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.36
92274735|NCT04549259|184452053|SUPERIORITY||B|-0.42|STANDARD_ERROR_OF_MEAN|2.78||0.88|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.88
92338347|NCT04878055|184578809|SUPERIORITY|||||||0.367|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At Day 14 - Please note that the number of subjects in this analysis is not 270 but 209||||0.367
92338348|NCT04878055|184578809|SUPERIORITY|||||||0.882||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||At Day 21 - Please note that the number of subjects in this analysis is not 270 but 176||||0.882
92398438|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|5.08||||0.0026|TWO_SIDED|95.0|1.76|14.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||14.67|1.76|0.0026
92398439|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.11||||0.1263|TWO_SIDED|95.0|0.81|5.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.51|0.81|0.1263
92398440|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.83||||0.2327|TWO_SIDED|95.0|0.68|4.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.95|0.68|0.2327
92398441|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.12||||0.1359|TWO_SIDED|95.0|0.79|5.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.70|0.79|0.1359
92398442|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.35||||0.0258|TWO_SIDED|95.0|1.16|9.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.69|1.16|0.0258
92398443|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|4.77||||0.0076|TWO_SIDED|95.0|1.51|15.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||15.04|1.51|0.0076
92398444|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.36||||0.1088|TWO_SIDED|95.0|0.83|6.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.75|0.83|0.1088
92398445|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|4.89||||0.0045|TWO_SIDED|95.0|1.64|14.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||14.62|1.64|0.0045
92398446|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0493|TWO_SIDED|95.0|1.0|7.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.50|1.00|0.0493
92398447|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0376|TWO_SIDED|95.0|1.06|8.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.41|1.06|0.0376
92154211|NCT01474512|184194597|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92154212|NCT01474512|184194597|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92154213|NCT01474512|184194598|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|Due to the zero count in placebo group, p-values from Logistic Regression were not obtainable, therefore the p-value is from Fisher's exact test.||||||<0.001
92398448|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.53||||0.0723|TWO_SIDED|95.0|0.92|6.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.94|0.92|0.0723
92398449|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0396|TWO_SIDED|95.0|1.06|9.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.17|1.06|0.0396
92398450|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|6.18||||0.0031|TWO_SIDED|95.0|1.85|20.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||20.67|1.85|0.0031
92338349|NCT04878055|184578809|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At Day 28 - Please note that the number of subjects in this analysis is not 270 but 190||||0.19
92154214|NCT01474512|184194598|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|Due to the zero count in placebo group, p-values from Logistic Regression were not obtainable, therefore the p-value is from Fisher's exact test.||||||<0.001
92154215|NCT01474512|184194599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PASI90.|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92154216|NCT01474512|184194599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PASI90.|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92398451|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.41||||0.1044|TWO_SIDED|95.0|0.83|6.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.96|0.83|0.1044
92338350|NCT04878055|184578809|SUPERIORITY|||||||0.161||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||At Day 60 - Please note that the number of subjects in this analysis is not 270 but 201||||0.161
92338351|NCT04878055|184578809|SUPERIORITY|||||||0.853|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At Day 90 - Please note that the number of subjects in this analysis is not 270 but 18||||0.853
92338352|NCT04878055|184578809|SUPERIORITY|||||||0.068|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At EOS - Please note that the number of subjects in this analysis is not 270 but 229||||0.068
92338353|NCT04878055|184578809|SUPERIORITY|||||||0.672|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At hospital discharge (HD) - Please note that the number of subjects in this analysis is not 270 but 195||||0.672
92338354|NCT04878055|184578809|SUPERIORITY|||||||0.153|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At end of treatment (EoT) - Please note that the number of subjects in this analysis is not 270 but 241||||0.153
92338355|NCT04878055|184578810|SUPERIORITY|Estimates are calculated using a nonparametric method for cumulative incidence function with competing risks data. The null hypothesis is that the cumulative incidence functions are identical across treatment groups and estimates are calculated taking into consideration the following competing risks: Death, reasons for discontinuation for Adverse events and patient transferred to another institution.||||||0.07|||||||Grey's test|||||||0.07
92338356|NCT04878055|184578811|SUPERIORITY|||||||0.07|||||||Gray's test|||number of patients included in the analysis=25||||0.07
92154217|NCT01474512|184194599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PASI100.|Fisher Exact|Due to the zero count in placebo group, p-values from Logistic Regression were not obtainable; therefore the p-value is from Fisher's exact test.||||||<0.001
92154218|NCT01474512|184194599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PASI100.|Fisher Exact|Due to the zero count in placebo group, p-values from Logistic Regression were not obtainable; therefore the p-value is from Fisher's exact test.||||||<0.001
92338357|NCT04878055|184578812|SUPERIORITY|Estimates are calculated using a nonparametric method for cumulative incidence function with competing risks data. The null hypothesis is that the cumulative incidence functions are identical across treatment groups and estimates are calculated taking into consideration the following competing risks: Reasons for discontinuation for Adverse events and patient transferred to another institution.||||||0.668|||||||Gray's test|||Comparison at day 28||||0.668
92154219|NCT01474512|184194600|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment and baseline weight category as factors.||||||<0.001
92154220|NCT01474512|184194600|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment and baseline weight category as factors.||||||<0.001
92154221|NCT01474512|184194601|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92338358|NCT04878055|184578813|SUPERIORITY|||||||0.668|||||||Gray's test|||Number of patients included in the analysis = 59||||0.668
92154222|NCT01474512|184194601|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92154223|NCT01474512|184194602|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92154224|NCT01474512|184194602|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92154225|NCT01474512|184194603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92154226|NCT01474512|184194603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92154227|NCT01474512|184194604|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92154228|NCT01474512|184194604|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92154229|NCT01474512|184194605|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92338359|NCT04878055|184578814|SUPERIORITY|||||||0.23|||||||Gray's test|||Estimates are calculated using a nonparametric method for cumulative incidence function with competing risks data. The null hypothesis is that the cumulative incidence functions are identical across treatment groups and estimates are calculated taking into consideration the following competing risks: Reasons for discontinuation for Adverse events and patient transferred to another institution.||||0.23
92338360|NCT04878055|184578815|SUPERIORITY|||||||0.444|||||||Wilcoxon (Mann-Whitney)|||day 3 - please note that the number of subjects in this analysis is not 270 but 255||||0.444
92338361|NCT04878055|184578815|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|||day 7 - please note that the number of subjects in this analysis is not 270 but 246||||0.357
92215542|NCT03627767|184330463|SUPERIORITY||LSM difference|-0.9|||||TWO_SIDED|95.0|-1.3|-0.6||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-1.3|
92338362|NCT04878055|184578815|SUPERIORITY|||||||0.484|||||||Wilcoxon (Mann-Whitney)|||day 14 - please note that the number of subjects in this analysis is not 270 but 209||||0.484
92338363|NCT04878055|184578815|SUPERIORITY|||||||0.753|||||||Wilcoxon (Mann-Whitney)|||day 21 - please note that the number of subjects in this analysis is not 270 but 176||||0.753
92338364|NCT04878055|184578815|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||day 28 - please note that the number of subjects in this analysis is not 270 but 190||||0.26
92154230|NCT01474512|184194605|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92215543|NCT02953639|184330471|SUPERIORITY||Treatment Difference|-0.36||||0.73|TWO_SIDED|90.0|-2.11|1.38|||Mixed Models Analysis|||Week 12 Day 84||1.38|-2.11|0.730
92215544|NCT02953639|184330471|SUPERIORITY||Treatment Difference|0.28||||0.793|TWO_SIDED|90.0|-1.47|2.02|||Mixed Models Analysis|||Week 24 Day 168||2.02|-1.47|0.793
92215545|NCT02953639|184330472|SUPERIORITY||Treatment Difference|-0.91||||0.556|TWO_SIDED|90.0|-3.46|1.64|||Mixed Models Analysis|||Week 12 Day 84 (Attention/Vigilance)||1.64|-3.46|0.556
92154231|NCT01474512|184194606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for Absenteeism.||||||<0.001
92154232|NCT01474512|184194606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for absenteeism.||||||0.003
92215546|NCT02953639|184330472|SUPERIORITY||Treatment Difference|-0.27||||0.848|TWO_SIDED|90.0|-2.59|2.05|||Mixed Models Analysis|||Week 24 Day 168 (Attention/Vigilance)||2.05|-2.59|0.848
92338365|NCT04878055|184578815|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||day 60 - please note that the number of subjects in this analysis is not 270 but 201||||0.19
92338366|NCT04878055|184578815|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||day 90 - please note that the number of subjects in this analysis is not 270 but 18||||1.000
92338367|NCT04878055|184578815|SUPERIORITY|||||||0.074|||||||Wilcoxon (Mann-Whitney)|||EOS - please note that the number of subjects in this analysis is not 270 but 229||||0.074
92398452|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|5.47||||0.0029|TWO_SIDED|95.0|1.78|16.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||16.75|1.78|0.0029
92154233|NCT01474512|184194606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for activity impairment.||||||<0.001
92154234|NCT01474512|184194606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for activity impairment.||||||<0.001
92215547|NCT02953639|184330472|SUPERIORITY||Treatment Difference|0.04||||0.973|TWO_SIDED|90.0|-2.08|2.16|||Mixed Models Analysis|||Week 12 Day 84 (Reasoning and Problem Solving)||2.16|-2.08|0.973
92215548|NCT02953639|184330472|SUPERIORITY||Treatment Difference|0.57||||0.651|TWO_SIDED|90.0|-1.53|2.67|||Mixed Models Analysis|||Week 24 Day 168 (Reasoning and Problem Solving)||2.67|-1.53|0.651
92215549|NCT02953639|184330472|SUPERIORITY||Treatment Difference|-1.44||||0.35|TWO_SIDED|90.0|-3.89|1.08|||Mixed Models Analysis|||Week 12 Day 84 (Social Cognition)||1.08|-3.89|0.350
92215550|NCT02953639|184330472|SUPERIORITY||Treatment Difference|2.18||||0.121|TWO_SIDED|90.0|-0.14|4.5|||Mixed Models Analysis|||Week 24 Day 168 (Social Cognition)||4.50|-0.14|0.121
92215551|NCT02953639|184330472|SUPERIORITY||Treatment Difference|-0.13||||0.911|TWO_SIDED|90.0|-2.1|1.83|||Mixed Models Analysis|||Week 12 Day 84 (Speed of Processing)||1.83|-2.10|0.911
92215552|NCT02953639|184330472|SUPERIORITY||Treatment Difference|0.02||||0.987|TWO_SIDED|90.0|-1.99|2.03|||Mixed Models Analysis|||Week 24 Day 168 (Speed of Processing)||2.03|-1.99|0.987
92215553|NCT02953639|184330472|SUPERIORITY||Treatment Difference|-0.34||||0.803|TWO_SIDED|90.0|-2.62|1.93|||Mixed Models Analysis|||Week 12 Day 84 (Verbal Learning)||1.93|-2.62|0.803
92215554|NCT02953639|184330472|SUPERIORITY||Treatment Difference|-0.94||||0.502|TWO_SIDED|90.0|-3.26|1.38|||Mixed Models Analysis|||Week 24 Day 168 (Verbal Learning)||1.38|-3.26|0.502
92215555|NCT02953639|184330472|SUPERIORITY||Treatment Difference|-0.11||||0.945|TWO_SIDED|90.0|-2.74|2.52|||Mixed Models Analysis|||Week 12 Day 84 (Visual Learning)||2.52|-2.74|0.945
92215556|NCT02953639|184330472|SUPERIORITY||Treatment Difference|1.11||||0.488|TWO_SIDED|90.0|-1.54|3.76|||Mixed Models Analysis|||Week 24 Day 168 (Visual Learning)||3.76|-1.54|0.488
92215557|NCT02953639|184330472|SUPERIORITY||Treatment Difference|-1.37||||0.262|TWO_SIDED|90.0|-3.38|0.64|||Mixed Models Analysis|||Week 12 Day 84 (Working Memory)||0.64|-3.38|0.262
92215558|NCT02953639|184330472|SUPERIORITY||Treatment Difference|-0.89||||0.489|TWO_SIDED|90.0|-3.01|1.23|||Mixed Models Analysis|||Week 24 Day 168 (Working Memory)||1.23|-3.01|0.489
92338368|NCT04878055|184578815|SUPERIORITY|||||||0.193|||||||two-sample Mann-Whitney U test|||EOT - please note that the number of subjects in this analysis is not 270 but 241||||0.193
92338369|NCT04878055|184578815|SUPERIORITY|||||||0.131|||||||two-sample Mann-Whitney U test|||Hospital discharge - please note that the number of subjects in this analysis is not 270 but 195||||0.131
92338370|NCT04878055|184578816|SUPERIORITY|||||||0.997|||||||Wilcoxon (Mann-Whitney)|||at day 3 - Please note that the number of subjects in this analysis is not 270 but 155.||||0.997
92338371|NCT04878055|184578816|SUPERIORITY|||||||0.712|||||||Wilcoxon (Mann-Whitney)|||at day 7 - Please note that the number of subjects in this analysis is not 270 but 143.||||0.712
92398453|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.01||||0.0364|TWO_SIDED|95.0|1.07|8.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.45|1.07|0.0364
92398454|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.26||||0.6396|TWO_SIDED|95.0|0.47|3.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.37|0.47|0.6396
92398455|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.47||||0.4378|TWO_SIDED|95.0|0.55|3.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.91|0.55|0.4378
92398456|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.95||||0.2045|TWO_SIDED|95.0|0.7|5.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.44|0.70|0.2045
92398457|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.54||||0.0958|TWO_SIDED|95.0|0.85|7.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.62|0.85|0.0958
92398458|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.7||||0.321|TWO_SIDED|95.0|0.6|4.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.85|0.60|0.3210
92338372|NCT04878055|184578816|SUPERIORITY|||||||0.241|||||||Wilcoxon (Mann-Whitney)|||at day 14 - Please note that the number of subjects in this analysis is not 270 but 115.||||0.241
92338373|NCT04878055|184578816|SUPERIORITY|||||||0.528|||||||Wilcoxon (Mann-Whitney)|||at day 21 - Please note that the number of subjects in this analysis is not 270 but 92.||||0.528
92338374|NCT04878055|184578816|SUPERIORITY|||||||0.814|||||||Wilcoxon (Mann-Whitney)|||at day 28 - Please note that the number of subjects in this analysis is not 270 but 106.||||0.814
92338375|NCT04878055|184578816|SUPERIORITY|||||||0.242|||||||Wilcoxon (Mann-Whitney)|||at EOT - Please note that the number of subjects in this analysis is not 270 but 115.||||0.242
92154235|NCT01474512|184194606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for presenteeism.||||||<0.001
92338376|NCT04878055|184578816|SUPERIORITY|||||||0.722|||||||Wilcoxon (Mann-Whitney)|||at hospital discharge (HD) - Please note that the number of subjects in this analysis is not 270 but 65.||||0.722
92338377|NCT04878055|184578817|SUPERIORITY|||||||0.053|||||||two-sample Mann-Whitney U test|||at day 3 - Please note that the number of subjects in this analysis is not 270, but it is 246.||||0.053
92338378|NCT04878055|184578817|SUPERIORITY|||||||0.245|||||||two-sample Mann-Whitney U test|||at day 7 - Please note that the number of subjects in this analysis is not 270, but it is 225.||||0.245
92338379|NCT04878055|184578817|SUPERIORITY|||||||0.067|||||||two-sample Mann-Whitney U test|||at day 14 - Please note that the number of subjects in this analysis is not 270, but it is 118.||||0.067
92338380|NCT04878055|184578817|SUPERIORITY|||||||0.051|||||||two-sample Mann-Whitney U test|||at day 21 - Please note that the number of subjects in this analysis is not 270, but it is 54.||||0.051
92338381|NCT04878055|184578817|SUPERIORITY|||||||0.684|||||||two-sample Mann-Whitney U test|||at day 28 - Please note that the number of subjects in this analysis is not 270, but it is 32.||||0.684
92338382|NCT04878055|184578817|SUPERIORITY|||||||1|||||||two-sample Mann-Whitney U test|||at EOS - Please note that the number of subjects in this analysis is not 246, but it is 14.||||1.00
92338383|NCT04878055|184578817|SUPERIORITY|||||||0.48|||||||two-sample Mann-Whitney U test|||at Day 60 - Please note that the number of subjects in this analysis is not 246, but it is 3.||||0.48
92338384|NCT04878055|184578817|SUPERIORITY|||||||0.638|||||||two-sample Mann-W hitney U test|||at Hospital discharge - Please note that the number of subjects in this analysis is 152.||||0.638
92338385|NCT04878055|184578817|SUPERIORITY|||||||0.137|||||||two-sample Mann-W hitney U test|||at EoT - Please note that the number of subjects in this analysis is 212.||||0.137
92338386|NCT04878055|184578818|SUPERIORITY|||||||0.399|||||||Wilcoxon (Mann-Whitney)|||at day 3 - Please note that the number of subjects in this analysis is not 270, but it is 157||||0.399
92338387|NCT04878055|184578818|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||at day 7 - Please note that the number of subjects in this analysis is not 270, but it is 139||||0.07
92338388|NCT04878055|184578818|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||at day 14 - Please note that the number of subjects in this analysis is not 270, but it is 73||||0.4
92398459|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.75||||0.0199|TWO_SIDED|95.0|1.23|11.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||11.39|1.23|0.0199
92398460|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.26||||0.1219|TWO_SIDED|95.0|0.8|6.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.36|0.80|0.1219
92398461|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.72||||0.2975|TWO_SIDED|95.0|0.62|4.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.76|0.62|0.2975
92398462|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.75||||0.2763|TWO_SIDED|95.0|0.64|4.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.80|0.64|0.2763
92154236|NCT01474512|184194606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for presenteeism.||||||<0.001
92154237|NCT01474512|184194606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for work productively loss.||||||<0.001
92154238|NCT01474512|184194606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for work productively loss.||||||<0.001
92154239|NCT01474512|184194607|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS Mean and p-values were calculated using an ANCOVA model that included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline QIDS value in the model.|ANCOVA|||||||<0.001
92154240|NCT01474512|184194607|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS Mean and p-values were calculated using an ANCOVA model that included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline QIDS value in the model.|ANCOVA|||||||<0.001
92154241|NCT01474512|184194608|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline SF-36 value in the model.|ANCOVA|P-value is for PCS.||||||<0.001
92154242|NCT01474512|184194608|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline SF-36 value in the model.|ANCOVA|P-value is for PCS.||||||<0.001
92154243|NCT01474512|184194608|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline SF-36 value in the model.|ANCOVA|P-value is for MCS.||||||<0.001
92154244|NCT01474512|184194608|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline SF-36 value in the model.|ANCOVA|P-value is for MCS.||||||<0.001
92154245|NCT01474512|184194609|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92154246|NCT01474512|184194609|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92274736|NCT04549259|184452053|SUPERIORITY||B|0.38|STANDARD_ERROR_OF_MEAN|2.8||0.89|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.89
92274737|NCT04549259|184452053|SUPERIORITY||B|-0.99|STANDARD_ERROR_OF_MEAN|2.78||0.73|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.73
92274738|NCT04549259|184452053|OTHER|Single group change over time.|B|4.88|STANDARD_ERROR_OF_MEAN|1.83||0.01|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.01
92277663|NCT03907280|184457374|OTHER|Absolute bioavailability comparison|Ratio of the geometric means (T3/R) [%]|40.24|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|31.86|50.83|||Mixed Models Analysis|The standard error of the mean is actually the geometric standard error.||Exploratory trial, no formal hypotheses were tested. Analysis of variance (ANOVA) on the logarithmic scale including effects for treatment sequence ('fixed effect'), subjects nested within treatment sequences ('random effect'), and treatment ('fixed effect').||50.83|31.86|
92277664|NCT02637076|184457394|OTHER|||||||0.31|||||||repeated measures ANOVA|F(2,36)=1.26||||||0.31
92398463|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.33||||0.1235|TWO_SIDED|95.0|0.79|6.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.82|0.79|0.1235
92398464|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|4.24||||0.019|TWO_SIDED|95.0|1.27|14.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||14.19|1.27|0.0190
92398465|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.98||||0.2213|TWO_SIDED|95.0|0.66|5.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.93|0.66|0.2213
92398466|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|5.88||||0.005|TWO_SIDED|95.0|1.71|20.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||20.25|1.71|0.0050
92398467|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.39||||0.1053|TWO_SIDED|95.0|0.83|6.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.85|0.83|0.1053
92398468|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.39||||0.0991|TWO_SIDED|95.0|0.85|6.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.72|0.85|0.0991
92398469|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.93||||0.2056|TWO_SIDED|95.0|0.7|5.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.32|0.70|0.2056
92154247|NCT01474512|184194610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PPASI50.|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92215559|NCT02953639|184330473|SUPERIORITY||Treatment Difference|-1.63||||0.211|TWO_SIDED|90.0|-3.78|0.52|||Mixed Models Analysis|||Week 12 Day 84 (VPA I total raw score)||0.52|-3.78|0.211
92338389|NCT04878055|184578818|SUPERIORITY|||||||0.517|||||||Wilcoxon (Mann-Whitney)|||at day 21 - Please note that the number of subjects in this analysis is not 270, but it is 23||||0.517
92338390|NCT04878055|184578818|SUPERIORITY|||||||0.445|||||||Wilcoxon (Mann-Whitney)|||at day 28 - Please note that the number of subjects in this analysis is not 270, but it is 17||||0.445
92398470|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0407|TWO_SIDED|95.0|1.05|9.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.57|1.05|0.0407
92398471|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|5.47||||0.0059|TWO_SIDED|95.0|1.63|18.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||18.30|1.63|0.0059
92398472|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.85||||0.023|TWO_SIDED|95.0|1.2|12.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||12.30|1.20|0.0230
92398473|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|7.36||||0.0015|TWO_SIDED|95.0|2.14|25.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||25.29|2.14|0.0015
92398474|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.45||||0.0248|TWO_SIDED|95.0|1.17|10.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.16|1.17|0.0248
92154248|NCT01474512|184194610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PPASI50.|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92154249|NCT01474512|184194610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PPASI75|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92215560|NCT02953639|184330473|SUPERIORITY||Treatment Difference|0.35||||0.787|TWO_SIDED|90.0|-1.81|2.52|||Mixed Models Analysis|||Week 24 Day 168 (VPA I total raw score)||2.52|-1.81|0.787
92215561|NCT02953639|184330473|SUPERIORITY||Treatment Difference|0.28||||0.477|TWO_SIDED|90.0|-0.37|0.94|||Mixed Models Analysis|||Week 12 Day 84 (VPA II total raw score)||0.94|-0.37|0.477
92338391|NCT04878055|184578818|SUPERIORITY|||||||0.324|||||||Wilcoxon (Mann-Whitney)|||at EoT - Please note that the number of subjects in this analysis is not 270, but it is 113||||0.324
92338392|NCT04878055|184578818|SUPERIORITY|||||||0.752|||||||Wilcoxon (Mann-Whitney)|||at Hospital discharge - Please note that the number of subjects in this analysis is not 270, but it is 67.||||0.752
92338393|NCT04878055|184578819|SUPERIORITY|||||||0.447|||||||two-sample Mann-Whitney U test|||Please note that the number of patients in this analysis is not 270 but 255, because patients who used supplement oxygen were 174 in the Reparixin group and 81 in the placebo group.||||0.447
92338394|NCT04878055|184578820|SUPERIORITY|||||||0.065||||||Comparison between treatment arms is performed by means of a Chi-squared test|Chi-squared|||At day 28 - Please note that the number of patients in this analysis is not 270 but 245, because patients requiring IMV or ECMO were 163 in the Reparixin group and 82 in the placebo group.||||0.065
92398475|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.37||||0.1091|TWO_SIDED|95.0|0.82|6.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.83|0.82|0.1091
92398476|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.71||||0.3054|TWO_SIDED|95.0|0.61|4.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.75|0.61|0.3054
92398477|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.48||||0.1129|TWO_SIDED|95.0|0.81|7.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.61|0.81|0.1129
92398478|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.28||||0.0432|TWO_SIDED|95.0|1.04|10.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||10.37|1.04|0.0432
92398479|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.77||||0.0315|TWO_SIDED|95.0|1.13|12.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.60|1.13|0.0315
92398480|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|4.26||||0.0147|TWO_SIDED|95.0|1.33|13.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||13.64|1.33|0.0147
92398481|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.18||||0.0405|TWO_SIDED|95.0|1.05|9.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.59|1.05|0.0405
92154250|NCT01474512|184194610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PPASI75|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92398482|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.4||||0.5238|TWO_SIDED|95.0|0.5|3.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.93|0.50|0.5238
92398483|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.73||||0.306|TWO_SIDED|95.0|0.6|4.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.97|0.60|0.3060
92154251|NCT01474512|184194610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PPASI100|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92154252|NCT01474512|184194610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value if for PPASI100.|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
92154253|NCT01089556|184194625|SUPERIORITY_OR_OTHER||LS Mean Differences (Final Values)|-0.192||||0.37||95.0|||||Mixed Models Analysis|||||||0.370
92154254|NCT01089556|184194626|SUPERIORITY_OR_OTHER||LS Mean Differences (Final Values)|-0.614|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92154255|NCT01089556|184194627|SUPERIORITY_OR_OTHER||LS Mean Differences (Final Values)|-0.003||||0.991||95.0|||||Mixed Models Analysis|||||||0.991
92154256|NCT01089556|184194628|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.431|||<|0.001|TWO_SIDED|95.0|1.233|1.662|||Cochran-Mantel-Haenszel|||||1.662|1.233|<0.001
92338395|NCT04878055|184578820|SUPERIORITY|||||||0.072|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test||||||0.072
92338396|NCT04878055|184578821|SUPERIORITY|||||||0.485||||||Number of subjects included in analysis: 98|two-sample Mann-Whitney U test|||||||0.485
92338397|NCT04878055|184578822|SUPERIORITY|||||||0.267|||||||two-sample Mann-Whitney U test|||Number of subjects included in analysis: 17||||0.267
92338398|NCT04878055|184578823|SUPERIORITY|||||||0.137|||||||two-sample Mann-Whitney U test|||||||0.137
92338399|NCT04878055|184578824|SUPERIORITY|||||||0.002|||||||two-sample Mann-Whitney U test|||at day 3 - Please note that the number of subjects in this analysis is 168||||0.002
92338400|NCT04878055|184578824|SUPERIORITY|||||||0.943|||||||two-sample Mann-Whitney U test|||at day 7 - Please note that the number of subjects in this analysis is not 168, but it is 146||||0.943
92398484|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.64||||0.3747|TWO_SIDED|95.0|0.55|4.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.86|0.55|0.3747
92154257|NCT01089556|184194629|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.052||||0.565|TWO_SIDED|95.0|0.884|1.253|||Cochran-Mantel-Haenszel|||||1.253|0.884|0.565
92154258|NCT01089556|184194630|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.467|||<|0.001|TWO_SIDED|95.0|1.214|1.771|||Cochran-Mantel-Haenszel|||||1.771|1.214|<0.001
92154259|NCT01089556|184194631|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.233||||0.068|TWO_SIDED|95.0|0.98|1.55|||Cochran-Mantel-Haenszel|||||1.550|0.980|0.068
92154260|NCT01089556|184194632|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.279|||<|0.001|TWO_SIDED|95.0|1.125|1.456|||Cochran-Mantel-Haenszel|||||1.456|1.125|<0.001
92154261|NCT01089556|184194633|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.985||||0.843|TWO_SIDED|95.0|0.842|1.151|||Cochran-Mantel-Haenszel|||||1.151|0.842|0.843
92154262|NCT01089556|184194634|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.341|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92154263|NCT01089556|184194635|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.073||||0.475||95.0|||||Mixed Models Analysis|||||||0.475
92154264|NCT01089556|184194636|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-4.758|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92154265|NCT01089556|184194637|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-1.933||||0.289||95.0|||||Mixed Models Analysis|||||||0.289
92154266|NCT01089556|184194638|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-1.02||||0.071||95.0|||||ANCOVA|||||||0.071
92154267|NCT01089556|184194639|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.193||||0.78||95.0|||||ANCOVA|||||||0.780
92154268|NCT01089556|184194640|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.558||||0.008||95.0||||P-value is for anxiety subscale score.|Mixed Models Analysis|||||||0.008
92154269|NCT01089556|184194640|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.423||||0.031||95.0||||p-value is for depression subscale score.|Mixed Models Analysis|||||||0.031
92154270|NCT01089556|184194641|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.615||||0.049||95.0||||P-value is for anxiety subscale score.|Mixed Models Analysis|||||||0.049
92154271|NCT01089556|184194641|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.378||||0.198||95.0||||P-value is for depression subscale score.|Mixed Models Analysis|||||||0.198
92154272|NCT01089556|184194646|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.343|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92154273|NCT01089556|184194647|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.095||||0.385||95.0|||||Mixed Models Analysis|||||||0.385
92154274|NCT01089556|184194648|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-2.02||||0.064||95.0||||P-value is for systolic BP.|ANCOVA|||||||0.064
92154275|NCT01089556|184194648|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|0.135||||0.843||95.0||||P-value is for diastolic BP.|ANCOVA|||||||0.843
92338401|NCT04878055|184578824|SUPERIORITY|||||||0.88|||||||two-sample Mann-Whitney U test|||at day 14 - Please note that the number of subjects in this analysis is not 168, but it is 76||||0.88
92338402|NCT04878055|184578824|SUPERIORITY|||||||0.458|||||||Wilcoxon (Mann-Whitney)|||at day 21 - Please note that the number of subjects in this analysis is not 168, but it is 38||||0.458
92338403|NCT04878055|184578824|SUPERIORITY|||||||0.285|||||||two-sample Mann-Whitney U test|||at day 28 - Please note that the number of subjects in this analysis is not 168, but it is 23.||||0.285
92338404|NCT04878055|184578824|SUPERIORITY|||||||0.885|||||||two-sample Mann-Whitney U test|||at EOS - Please note that the number of subjects in this analysis is not 168, but it is 8||||0.885
92338405|NCT04878055|184578824|SUPERIORITY||||||=|0.583|||||||two-sample Mann-Whitney U test|||at HD - Please note that the number of subjects in this analysis is not 270, but it is 74||||= 0.583
92338406|NCT04878055|184578824|SUPERIORITY|||||||0.5|||||||two-sample Mann-Whitney U test|||at End of treatment - Please note that the number of subjects in this analysis is not 270, but it is 131.||||0.5
92338407|NCT04878055|184578825|SUPERIORITY|||||||0.005||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test|Mann-Whitney U test|||at day 3 - Please note that the number of subjects in this analysis is not 270, but it is 245||||0.005
92338408|NCT04878055|184578825|SUPERIORITY|||||||0.283||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||at day 7 - Please note that the number of subjects in this analysis is not 270, but it is 221||||0.283
92338409|NCT04878055|184578825|SUPERIORITY|||||||0.512||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||at day 14 - Please note that the number of subjects in this analysis is not 270, but it is 117||||0.512
92338410|NCT04878055|184578825|SUPERIORITY|||||||0.174|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||at day 21 - Please note that the number of subjects in this analysis is not 270, but it is 51||||0.174
92338411|NCT04878055|184578825|SUPERIORITY|at EOT - Please note that the number of subjects in this analysis is not 270, but it is 206||||||0.133|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||||||0.133
92398485|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.49||||0.0443|TWO_SIDED|95.0|1.03|11.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||11.80|1.03|0.0443
92398486|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.49||||0.1269|TWO_SIDED|95.0|0.77|8.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.06|0.77|0.1269
92154276|NCT01089556|184194649|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-1.329||||0.354||95.0||||P-value is for systolic BP.|ANCOVA|||||||0.354
92154277|NCT01089556|184194649|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.003||||0.997||95.0||||P-value is for diastolic BP.|ANCOVA|||||||0.997
92154278|NCT01089556|184194650|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|3.317|||<|0.001||95.0|||||ANCOVA|||||||<0.001
92154279|NCT01089556|184194651|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.942||||0.332||95.0|||||ANCOVA|||||||0.332
92154280|NCT01089556|184194652|SUPERIORITY_OR_OTHER|||||||0.618||95.0|||||Fisher Exact|||||||0.618
92154281|NCT01089556|184194653|SUPERIORITY_OR_OTHER|||||||0.571||95.0|||||Fisher Exact|||||||0.571
92154282|NCT01089556|184194654|SUPERIORITY_OR_OTHER|||||||0.744||95.0|||||Fisher Exact|||||||0.744
92154283|NCT01089556|184194655|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.000
92274739|NCT04549259|184452053|OTHER|Single group change over time.|B|3.28|STANDARD_ERROR_OF_MEAN|2.03||0.12|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.12
92274740|NCT04549259|184452053|OTHER|Single group change over time.|B|3.82|STANDARD_ERROR_OF_MEAN|2.06||0.08|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.08
92274741|NCT04549259|184452053|OTHER|Single group change over time.|B|3.19|STANDARD_ERROR_OF_MEAN|1.99||0.12|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.12
92274742|NCT04549259|184452054|SUPERIORITY||Odds Ratio (OR)|22.3||||0.049|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.049
92274743|NCT04549259|184452054|SUPERIORITY||Odds Ratio (OR)|1.86||||0.66|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.66
92274744|NCT04549259|184452054|SUPERIORITY||Odds Ratio (OR)|0.68||||0.78|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.78
92274745|NCT04549259|184452054|SUPERIORITY||Odds Ratio (OR)|0.43||||0.54|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.54
92215562|NCT02953639|184330473|SUPERIORITY||Treatment Difference|0.91||||0.028|TWO_SIDED|90.0|0.23|1.58|||Mixed Models Analysis|||Week 24 Day 168 (VPA II total raw score)||1.58|0.23|0.028
92215563|NCT02953639|184330473|SUPERIORITY||Treatment Difference|-0.3||||0.683|TWO_SIDED|90.0|-1.51|0.91|||Mixed Models Analysis|||Week 12 Day 84 (VPA II recognition total raw score)||0.91|-1.51|0.683
92215564|NCT02953639|184330473|SUPERIORITY||Treatment Difference|0.04||||0.954|TWO_SIDED|90.0|-1.13|1.22|||Mixed Models Analysis|||Week 24 Day 168 (VPA II recognition total raw score)||1.22|-1.13|0.954
92215565|NCT02953639|184330474|SUPERIORITY||Treatment Difference|1.45||||0.164|TWO_SIDED|90.0|-0.27|3.17|||Mixed Models Analysis|||Week 12 Day 84 (LM I)||3.17|-0.27|0.164
92215566|NCT02953639|184330474|SUPERIORITY||Treatment Difference|0.56||||0.559|TWO_SIDED|90.0|-1.02|2.14|||Mixed Models Analysis|||Week 24 Day 168 (LM I)||2.14|-1.02|0.559
92215567|NCT02953639|184330474|SUPERIORITY||Treatment Difference|0.12||||0.912|TWO_SIDED|90.0|-1.7|1.94|||Mixed Models Analysis|||Week 12 Day 84 (LM II)||1.94|-1.70|0.912
92215568|NCT02953639|184330474|SUPERIORITY||Treatment Difference|-0.36||||0.706|TWO_SIDED|90.0|-1.93|1.22|||Mixed Models Analysis|||Week 24 Day 168 (LM II)||1.22|-1.93|0.706
92215569|NCT02953639|184330475|SUPERIORITY||Treatment Difference|1.04||||0.527|TWO_SIDED|90.0|0.94|1.15|||Mixed Models Analysis|||Week 12 Day 84||1.15|0.94|0.527
92215570|NCT02953639|184330475|SUPERIORITY||Treatment Difference|1.04||||0.636|TWO_SIDED|90.0|0.92|1.17|||Mixed Models Analysis|||Week 24 Day 168||1.17|0.92|0.636
92215571|NCT02953639|184330476|SUPERIORITY||Treatment Difference|-1.36||||0.323|TWO_SIDED|90.0|-3.63|0.91|||Mixed Models Analysis|||Week 12 Day 84||0.91|-3.63|0.323
92274746|NCT04549259|184452054|OTHER|Single group change over time.|Odds Ratio (OR)|6.26||||0.09|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.09
92277665|NCT02637076|184457399|OTHER|||||||0.748|||||||repeated measures ANOVA|||||||0.748
92215572|NCT02953639|184330476|SUPERIORITY||Treatment Difference|-0.95||||0.579|TWO_SIDED|90.0|-3.77|1.88|||Mixed Models Analysis|||Week 24 Day 168||1.88|-3.77|0.579
92215573|NCT02953639|184330477|SUPERIORITY||Treatment Difference|-0.67||||0.493|TWO_SIDED|90.0|-2.27|0.94|||Mixed Models Analysis|||Week 12 Day 84||0.94|-2.27|0.493
92215574|NCT02953639|184330477|SUPERIORITY||Treatment Difference|-0.12||||0.926|TWO_SIDED|90.0|-2.32|2.07|||Mixed Models Analysis|||Week 24 Day 168||2.07|-2.32|0.926
92215575|NCT02953639|184330478|SUPERIORITY||Treatment Difference|-0.02||||0.839|TWO_SIDED|90.0|-0.22|0.17|||Mixed Models Analysis|||Week 12 Day 84||0.17|-0.22|0.839
92215576|NCT02953639|184330478|SUPERIORITY||Treatment Difference|-0.06||||0.625|TWO_SIDED|90.0|-0.27|0.15|||Mixed Models Analysis|||Week 24 Day 168||0.15|-0.27|0.625
92215577|NCT02953639|184330479|SUPERIORITY||Treatment Difference|-0.03||||0.865|TWO_SIDED|90.0|-0.28|0.23|||Mixed Models Analysis|||Week 12 Day 84||0.23|-0.28|0.865
92215578|NCT02953639|184330479|SUPERIORITY||Treatment Difference|-0.01||||0.964|TWO_SIDED|90.0|-0.31|0.29|||Mixed Models Analysis|||Week 24 Day 168||0.29|-0.31|0.964
92215579|NCT02953639|184330480|SUPERIORITY||Treatment Difference|3.27||||0.142|TWO_SIDED|90.0|-0.4|6.95|||Mixed Models Analysis|||Week 12 Day 84 (SQLS Cognition \& Vitality Score)||6.95|-0.40|0.142
92215580|NCT02953639|184330480|SUPERIORITY||Treatment Difference|-2.32||||0.416|TWO_SIDED|90.0|-7.04|2.4|||Mixed Models Analysis|||Week 24 Day 168 (SQLS Cognition \& Vitality Score)||2.40|-7.04|0.416
92215581|NCT02953639|184330480|SUPERIORITY||Treatment Difference|1.98||||0.394|TWO_SIDED|90.0|-1.86|5.83|||Mixed Models Analysis|||Week 12 Day 84 (SQLS Psychosocial Score)||5.83|-1.86|0.394
92215582|NCT02953639|184330480|SUPERIORITY||Treatment Difference|0.71||||0.776|TWO_SIDED|90.0|-3.44|4.87|||Mixed Models Analysis|||Week 24 Day 168 (SQLS Psychosocial Score)||4.87|-3.44|0.776
92215583|NCT02953639|184330480|SUPERIORITY||Treatment Difference|2.43||||0.254|TWO_SIDED|90.0|-1.09|5.94|||Mixed Models Analysis|||Week 12 Day 84 (SQLS Total Score)||5.94|-1.09|0.254
92215584|NCT02953639|184330480|SUPERIORITY||Treatment Difference|-0.57||||0.816|TWO_SIDED|90.0|-4.64|3.5|||Mixed Models Analysis|||Week 24 Day 168 (SQLS Total Score)||3.50|-4.64|0.816
92215585|NCT03034460|184330493|SUPERIORITY||||||=|0.158|||||||Wilcoxon rank signed test|||This analysis was performed in participants applied CD5024 1% Cream on one side of face and CD5024 1% Cream Matched Placebo on other side of face for paired difference between Active - Vehicle (CD5024 1% Cream \[n=48\] versus CD5024 1% Cream Matched Placebo \[n=48\]).||||= 0.158
92215586|NCT03034460|184330493|SUPERIORITY||||||=|0.002|||||||Wilcoxon rank signed test|||This analysis was performed in participants applied Adapalene Benzoyl Peroxyde on one side of face and Adapalene Benzoyl Peroxyde Matched Placebo on the other side of face for paired difference between Active - Vehicle (Adapalene Benzoyl Peroxyde \[n=22\] versus Adapalene Benzoyl Peroxyde Matched Placebo \[n=22\]).||||= 0.002
92215587|NCT02294682|184330504|SUPERIORITY_OR_OTHER||Microbio Response Urogenital Gonorrhea|97.0|||||ONE_SIDED|95.0|85.1||||||GSK2140944 1500 mg||||85.1|
92215588|NCT02294682|184330504|SUPERIORITY_OR_OTHER||Microbio Response Urogenital Gonorrhea|95.0|||||ONE_SIDED|95.0|84.7||||||GSK2140944 3000 mg||||84.7|
92215589|NCT01516970|184330522|SUPERIORITY_OR_OTHER|||||||0.2434||||||The discontinuation rates were compared with a statistical test (Cochran-Mantel-Haenszel \[CMH\]-Test) with p-value: 0.2434|Cochran-Mantel-Haenszel|||||||0.2434
92215590|NCT01516970|184330523|SUPERIORITY_OR_OTHER|||||||0.8839||||||The percentage of participants with TEAEs were compared with a statistical test (Fisher's Exact Test) with p-value: 0.8839.|Fisher Exact|||||||0.8839
92215591|NCT02366728|184330527|OTHER|||||||0.072|||||||Log Rank|||||||0.072
92215592|NCT02366728|184330527|OTHER|||||||0.089|||||||Log Rank|||||||0.089
92215593|NCT02366728|184330528|OTHER|||||||0.0195|||||||Wilcoxon (Mann-Whitney)|||||||0.0195
92215594|NCT02366728|184330529|OTHER|||||||0.4|||||||Log Rank|||||||0.40
92215595|NCT02366728|184330530|OTHER|||||||0.4|||||||Log Rank|||||||0.40
92338412|NCT04878055|184578825|SUPERIORITY|||||||0.009|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||at day 28 ± 2 - Please note that the number of subjects in this analysis is not 270, but it is 29||||0.009
92338413|NCT04878055|184578825|SUPERIORITY|||||||0.593|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||to HD - Please note that the number of subjects in this analysis is not 270, but it is 144||||0.593
92338414|NCT04878055|184578825|SUPERIORITY|||||||0.54|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||to day 60 - Please note that the number of subjects in this analysis is not 270, but it is 3||||0.540
92338415|NCT04878055|184578825|SUPERIORITY|||||||0.224|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||to EOS - Please note that the number of subjects in this analysis is not 270, but it is 13||||0.224
92398487|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|5.15||||0.0095|TWO_SIDED|95.0|1.49|17.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||17.13|1.49|0.0095
92398488|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.34||||0.1254|TWO_SIDED|95.0|0.79|6.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.94|0.79|0.1254
92215596|NCT02366728|184330531|OTHER|||||||0.16|||||||Log Rank|||||||0.16
92338416|NCT04878055|184578826|SUPERIORITY|||||||0.68|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||to day 3 - Please note that the number of subjects in this analysis is not 270, but it is 15||||0.68
92338417|NCT04878055|184578826|SUPERIORITY|||||||0.272||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to day 7 - Please note that the number of subjects in this analysis is not 270, but it is 13||||0.272
92338418|NCT04878055|184578826|SUPERIORITY|||||||1||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to day 14 - Please note that the number of subjects in this analysis is not 270, but it is 13||||1.000
92215597|NCT02366728|184330531|OTHER|||||||0.078|||||||Log Rank|||||||0.078
92338419|NCT04878055|184578826|SUPERIORITY|||||||0.903||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to day 21 - Please note that the number of subjects in this analysis is not 270, but it is 9||||0.903
92338420|NCT04878055|184578826|SUPERIORITY|||||||0.432||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to EOT - Please note that the number of subjects in this analysis is not 270, but it is 13||||0.432
92338421|NCT04878055|184578826|SUPERIORITY|||||||0.105||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to day 28 - Please note that the number of subjects in this analysis is not 270, but it is 6||||0.105
92338422|NCT04878055|184578826|SUPERIORITY|||||||0.551||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to HD - Please note that the number of subjects in this analysis is not 270, but it is 8||||0.551
92215598|NCT02366728|184330532|OTHER|||||||0.64|||||||Log Rank|||||||0.64
92215599|NCT02366728|184330533|OTHER|||||||0.29|||||||Log Rank|||||||0.29
92338423|NCT04878055|184578827|SUPERIORITY||Odds Ratio (OR)|0.52||||0.232|TWO_SIDED|95.0|0.178|1.522||Analysis is based on logistic regression model with proportion of patients died up to Day 60 as dependent variable, treatment, age group, gender and presence of concomitant disease at baseline as qualitative independent variables.|Regression, Logistic|||up to day 60||1.522|0.178|0.232
92338424|NCT04878055|184578827|SUPERIORITY|Analysis is based on logistic regression model with proportion of patients died up to Day 90 as dependent variable, treatment, age group, gender and presence of concomitant disease at baseline as qualitative independent variables.|Odds Ratio (OR)|0.246||||0.158|TWO_SIDED|95.0|0.034|1.782|||Regression, Logistic|||Up to Day 90||1.782|0.034|0.158
92338425|NCT04878055|184578828|SUPERIORITY|Freedom from (time to) death or respiratory failure (need of invasive mechanical ventilation or ECMO or admission to ICU linked to worsening of respiratory parameters compared to baseline) up to Day 90 was performed using the same Kaplan-Meier analysis and the one-sided log-rank test that were used to test for differences between groups||||||0.33607|||||||Log Rank|||||||0.33607
92338426|NCT01004978|184578849|SUPERIORITY|||||||0.4||||||one-sided p-value|Cochran-Mantel-Haenszel|||||||0.4
92338427|NCT01004978|184578850|SUPERIORITY|||||||0.76|||||||Log Rank|||||||0.76
92338428|NCT00814138|184578859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-488.0||||0.26|TWO_SIDED|95.0|-2443.4|1467.3|||Wilcoxon (Mann-Whitney)|||If a study participant terminated, their last results were pulled forward.||1467.3|-2443.4|0.26
92338429|NCT00814138|184578860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.26|TWO_SIDED|95.0|-9.7|5.8|||Wilcoxon (Mann-Whitney)|||If a study participant terminated, their last results were pulled forward.||5.8|-9.7|0.26
92338430|NCT00814138|184578861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.29|TWO_SIDED|95.0|-4.9|1.5|||t-test, 2 sided|||If a study participant terminated, their last results were pulled forward.||1.5|-4.9|0.29
92338431|NCT00814138|184578862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.28|TWO_SIDED|95.0|-6.3|1.8|||t-test, 2 sided|||If a study participant terminated, their last results were pulled forward.||1.8|-6.3|0.28
92338432|NCT00814138|184578863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.82|TWO_SIDED|95.0|-7.2|5.4|||Wilcoxon (Mann-Whitney)|||If a study participant terminated, their last results were pulled forward.||5.4|-7.2|0.82
92338433|NCT00814138|184578864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.21|TWO_SIDED|95.0|-3.7|0.8|||t-test, 2 sided|||If a study participant terminated, their last results were pulled forward.||0.8|-3.7|0.21
92338434|NCT00814138|184578865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3||||0.09|TWO_SIDED|95.0|-7.1|0.5|||t-test, 2 sided|||If a study participant terminated, their last results were pulled forward.||0.5|-7.1|0.09
92338435|NCT02372344|184578866|SUPERIORITY_OR_OTHER||Geometric least square (LS) mean ratio|0.64|||||TWO_SIDED|95.0|0.54|0.77||||||Total EPA: Ratio of Fasting to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.77|0.54|
92338436|NCT02372344|184578866|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.71|||||TWO_SIDED|95.0|0.59|0.86||||||Total EPA: Ratio of Before meal to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.86|0.59|
92338437|NCT02372344|184578867|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.35|||||TWO_SIDED|95.0|0.27|0.47||||||Total EPA: Ratio of Fasting to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (Cmax) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.47|0.27|
92338438|NCT02372344|184578867|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.44|||||TWO_SIDED|95.0|0.33|0.59||||||Total EPA: Ratio of Before meal to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (Cmax) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.59|0.33|
92338439|NCT02372344|184578867|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.46|||||TWO_SIDED|95.0|0.36|0.57||||||Total DHA: Ratio of Fasting to After meal. Primary comparisons for total DHA were based on a linear mixed-effect model. This model included log-transformed PK parameter (Cmax) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.57|0.36|
92338440|NCT02372344|184578867|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.57|||||TWO_SIDED|95.0|0.45|0.71||||||Total DHA: Ratio of Before meal to After meal. Primary comparisons for total DHA were based on a linear mixed-effect model. This model included log-transformed PK parameter (Cmax) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.71|0.45|
92338441|NCT02372344|184578868|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.56|||||TWO_SIDED|95.0|0.45|0.69||||||Total EPA: Ratio of Fasting to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC0-72) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.69|0.45|
92338442|NCT02372344|184578868|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.55||||||95.0|0.44|0.69||||||Total EPA: Ratio of Before Meal to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC0-72) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.69|0.44|
92154284|NCT01027364|184194712|SUPERIORITY_OR_OTHER_LEGACY||Bleeding Rate Ratio|0.17|||<|0.001|TWO_SIDED|95.0|0.11|0.24||A hierarchical approach was applied to the comparison of the annualized bleeding rates between the prophylaxis arms and the episodic arm.|negative binomial model|||The null hypothesis for the primary endpoint is no difference between any prevention regimen and the on-demand regimen. The sample size of this study was mainly based on clinical rather than statistical considerations. However it was projected to have \> 95% power at the 2-sided 0.05 level of significance, based upon this hypothesis test.||0.24|0.11|<0.001
92154285|NCT01027364|184194712|SUPERIORITY_OR_OTHER_LEGACY||Bleeding Rate Ratio|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.2||A hierarchical approach was applied to the comparison of the annualized bleeding rates between the prophylaxis arms and the episodic arm.|negative binomial model|||The null hypothesis for the primary endpoint is no difference between any prevention regimen and the on-demand regimen. The sample size of this study was mainly based on clinical rather than statistical considerations.||0.20|0.08|<0.001
92154286|NCT02354963|184194725|SUPERIORITY|||||||0.302|||||||Wilcoxon (Mann-Whitney)|||||||0.302
92154287|NCT02354963|184194726|SUPERIORITY|||||||0.449|||||||Wilcoxon (Mann-Whitney)|||||||0.449
92154288|NCT02354963|184194727|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
92338443|NCT02372344|184578868|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.87|||||TWO_SIDED|95.0|0.73|1.04||||||Total DHA: Ratio of Fasting to After meal. Primary comparisons for total DHA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC0-72) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||1.04|0.73|
92154289|NCT02354963|184194728|SUPERIORITY|||||||0.427|||||||Wilcoxon (Mann-Whitney)|||||||0.427
92154290|NCT02354963|184194729|SUPERIORITY|||||||0.496|||||||Wilcoxon (Mann-Whitney)|||||||0.496
92154291|NCT02354963|184194730|SUPERIORITY||Risk Ratio (RR)|0.71||||0.684|TWO_SIDED|95.0|0.13|3.68|||Chi-squared|||||3.68|0.13|0.684
92154292|NCT02354963|184194731|SUPERIORITY|||||||0.48|||||||Chi-squared|||||||0.480
92154293|NCT02354963|184194732|SUPERIORITY|||||||0.236|||||||Chi-squared|||||||0.236
92154294|NCT02354963|184194733|SUPERIORITY||Risk Ratio (RR)|0.71||||0.684|TWO_SIDED|95.0|0.13|3.68|||Chi-squared|||||3.68|0.13|0.684
92154295|NCT02354963|184194734|SUPERIORITY||Risk Ratio (RR)|0.36||||0.512|TWO_SIDED|95.0|0.04|3.05|||Chi-squared|||||3.05|0.04|0.512
92338444|NCT02372344|184578868|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.86|||||TWO_SIDED|95.0|0.72|1.02||||||Total DHA: Ratio of Before meal to After meal. Primary comparisons for total DHA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC0-72) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||1.02|0.72|
92154296|NCT00119262|184194736|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED|95.0|||||Fisher Exact|||||||0.12
92154297|NCT00119262|184194737|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Fisher Exact|||||||0.32
92154298|NCT00305864|184194782|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Log Rank|One-sided||A one-sided one-sample log-rank test at significance level of 0.10 was predicted to have 85% power to detect a survival difference against the historical control (13.7 vs. 18.5 months) with 60 deaths.||||0.27
92398489|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|3.66||||0.0402|TWO_SIDED|95.0|1.06|12.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||12.63|1.06|0.0402
92398490|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.59||||0.4547|TWO_SIDED|95.0|0.47|5.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.42|0.47|0.4547
92398491|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.71||||0.4008|TWO_SIDED|95.0|0.49|5.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.99|0.49|0.4008
92398492|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.55||||0.1535|TWO_SIDED|95.0|0.71|9.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.22|0.71|0.1535
92398493|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|7.19||||0.0055|TWO_SIDED|95.0|1.79|28.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||28.95|1.79|0.0055
92398494|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.19||||0.2116|TWO_SIDED|95.0|0.64|7.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.50|0.64|0.2116
92215600|NCT01002456|184330534|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0|1.1|3.2|||||Proportional odds ratio to measure the trend of change in concordance with guideline recommendations, with Arm 1 as the comparator.|||3.2|1.1|
92398495|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.34||||0.1668|TWO_SIDED|95.0|0.7|7.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.83|0.70|0.1668
92398496|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.32||||0.1824|TWO_SIDED|95.0|0.67|7.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.98|0.67|0.1824
92398497|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|0.85||||0.797|TWO_SIDED|95.0|0.25|2.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.90|0.25|0.7970
92398498|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|0.78||||0.7065|TWO_SIDED|95.0|0.21|2.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.85|0.21|0.7065
92398499|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9126|TWO_SIDED|95.0|0.29|3.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.93|0.29|0.9126
92398500|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.82||||0.1282|TWO_SIDED|95.0|0.74|10.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||10.70|0.74|0.1282
92398501|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.03||||0.2661|TWO_SIDED|95.0|0.58|7.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.04|0.58|0.2661
92398502|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.22||||0.7457|TWO_SIDED|95.0|0.36|4.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.09|0.36|0.7457
92398503|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.73||||0.4095|TWO_SIDED|95.0|0.47|6.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||6.41|0.47|0.4095
92398504|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9571|TWO_SIDED|95.0|0.28|3.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.77|0.28|0.9571
92398505|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8827|TWO_SIDED|95.0|0.23|3.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.59|0.23|0.8827
92398506|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|0.69||||0.5944|TWO_SIDED|95.0|0.17|2.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.74|0.17|0.5944
92215601|NCT03829241|184330541|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.7||0.917|TWO_SIDED|95.0|-1.45|1.3|||Mixed Models Analysis|||Model-based summary statistics are from a mixed model with repeated measures, including fixed effects for treatment, visit, treatment-by-visit interaction, baseline score, baseline score-by-visit interaction as covariates, and participant as random effect.||1.30|-1.45|0.917
92398507|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.74||||0.1647|TWO_SIDED|95.0|0.66|11.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||11.39|0.66|0.1647
92398508|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|2.07||||0.2684|TWO_SIDED|95.0|0.57|7.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||7.48|0.57|0.2684
92398509|NCT03192176|184689414|SUPERIORITY||Odds Ratio (OR)|1.48||||0.5338|TWO_SIDED|95.0|0.43|5.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.07|0.43|0.5338
92154299|NCT02065570|184194784|SUPERIORITY||Adjusted risk difference|0.3||||0.939|TWO_SIDED|95.0|-8.1|8.8||Adjusted for previous infliximab use (or prior anti-tumor necrosis factor (TNF) use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||8.8|-8.1|0.939
92154300|NCT02065570|184194785|SUPERIORITY||Adjusted risk difference|3.2||||0.462|TWO_SIDED|95.0|-5.3|11.7||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||11.7|-5.3|0.462
92154301|NCT02065570|184194787|SUPERIORITY||Adjusted risk difference|4.6||||0.269|TWO_SIDED|95.0|-3.6|12.8||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||12.8|-3.6|0.269
92277666|NCT04604184|184457437|OTHER||Risk Difference (RD)|-5.39||||0.3232|TWO_SIDED|95.0|-16.08|5.3|||Regression, Logistic|includes treatment, age, severity grade and creatinine at baseline, duration of symptoms before hospitalisation as covariates||||5.30|-16.08|0.3232
92277667|NCT04604184|184457438|OTHER||Risk Difference (RD)|-9.86||||0.1274|TWO_SIDED|95.0|-22.54|2.82|||Regression, Logistic|includes treatment, age, severity grade and creatinine at baseline, duration of symptoms before hospitalisation as covariates||||2.82|-22.54|0.1274
92277668|NCT04604184|184457439|OTHER||Risk Difference (RD)|2.66||||0.6828|TWO_SIDED|95.0|-10.11|15.43|||Regression, Logistic|includes treatment, age, severity grade and creatinine at baseline, duration of symptoms before hospitalisation as covariates||||15.43|-10.11|0.6828
92277669|NCT04604184|184457440|OTHER||Rate Ratio|0.67||||0.0445|TWO_SIDED|95.0|0.46|0.99|||Regression, Cox|Covariates are treatment, age, severity grade and creatinine at baseline and duration of symptoms before hospitalization||||0.99|0.46|0.0445
92277670|NCT04604184|184457441|OTHER||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.35||0.5526|TWO_SIDED|95.0|-3.47|1.87|||ANCOVA|Fixed effects of treatment, age, severity grade and creatinine at baseline and duration of symptoms before hospitalisation as covariates|Difference = covariate adjusted BI 764198 - covariate adjusted Placebo|||1.87|-3.47|0.5526
92277671|NCT04604184|184457442|OTHER||Risk Difference (RD)|5.32||||0.0995|TWO_SIDED|95.0|-1.01|11.65|||Regression, Logistic|Includes treatment, age, severity grade and creatinine at baseline, and duration of symptoms before hospitalisation as covariates||Day 15||11.65|-1.01|0.0995
92277672|NCT04604184|184457442|OTHER||Risk Difference (RD)|6.06||||0.1992|TWO_SIDED|95.0|-3.19|15.31|||Regression, Logistic|Includes treatment, age, severity grade and creatinine at baseline, and duration of symptoms before hospitalisation as covariates||Day 29||15.31|-3.19|0.1992
92277673|NCT04604184|184457442|OTHER||Risk Difference (RD)|8.93||||0.0709|TWO_SIDED|95.0|-0.76|18.62|||Regression, Logistic|Includes treatment, age, severity grade and creatinine at baseline, and duration of symptoms before hospitalisation as covariates||Day 60||18.62|-0.76|0.0709
92277674|NCT04604184|184457442|OTHER||Risk Difference (RD)|10.35||||0.0412|TWO_SIDED|95.0|0.41|20.28|||Regression, Logistic|Includes treatment, age, severity grade and creatinine at baseline, and duration of symptoms before hospitalisation as covariates||Day 90||20.28|0.41|0.0412
92277675|NCT03734237|184457453|EQUIVALENCE|Null Hypothesis: RR=1, Alternative hypothesis: RR not equal to 1|Risk Ratio (RR)|-26.7||||0.1412|TWO_SIDED|95.0|-73.7|7.6|||Chi-squared|||Relative vaccine effectiveness with the outcome laboratory confirmed influenza identified via surveillance and/or abstracted from clinical records.||7.6|-73.7|0.1412
92277676|NCT03734237|184457453|EQUIVALENCE|Null Hypothesis: RR=1, Alternative hypothesis: RR not equal to 1.|Risk Ratio (RR)|-13.1||||0.4552|TWO_SIDED|95.0|-56.4|18.2|||Chi-squared|||Relative vaccine effectiveness with the outcome laboratory confirmed influenza identified via surveillance and/or abstracted from clinical records.||18.2|-56.4|0.4552
92277677|NCT01844583|184457468|SUPERIORITY_OR_OTHER||LS Mean Ratio|1.14|||||TWO_SIDED|90.0|0.97|1.35|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||1.35|0.97|
92277678|NCT01844583|184457469|SUPERIORITY_OR_OTHER||LS Mean Ratio|1.25|||||TWO_SIDED|90.0|1.08|1.45|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||1.45|1.08|
92215602|NCT00006392|184330616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13|||<|0.01|TWO_SIDED|99.0|0.95|1.35||The p-value was adjusted for multiple comparisons.|Regression, Cox|||Per study design, with a sample size of 32,400 men, using a 1-sided alpha=.005 level (equivalent to a 2-sided alpha=.01 level) there was 96% power to detect a 25% reduction in prostate cancer for either agent vs. Placebo.||1.35|0.95|< .01
92338445|NCT01096160|184578934|OTHER|Difference in change from baseline in SBP (TWA\^0-24hrs)|Mean Difference (Final Values)|-7.08||||0.1194|TWO_SIDED|90.0|-17.1|2.92|||Linear mixed effects model|||||2.92|-17.1|0.1194
92338446|NCT01096160|184578934|OTHER|Difference in change from baseline in SBP (TWA\^0-24hrs)|Mean Difference (Final Values)|-13.1||||0.0224|TWO_SIDED|90.0|-23.7|-2.48|||Linear mixed effects model|||||-2.48|-23.7|0.0224
92398510|NCT03192176|184689415|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.45||0.0179|TWO_SIDED|95.0|-1.95|-0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|Mixed model repeated measures (MMRM)|||Week 4||-0.18|-1.95|0.0179
92398511|NCT03192176|184689415|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.45||0.0027|TWO_SIDED|95.0|-2.25|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.47|-2.25|0.0027
92215603|NCT00006392|184330616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04|||<|0.01|TWO_SIDED|99.0|0.87|1.24||The p-value was adjusted for multiple comparisons.|Regression, Cox|||Per study design, with a sample size of 32,400 men, using a 1-sided alpha=.005 level (equivalent to a 2-sided alpha=.01 level) there was 96% power to detect a 25% reduction in prostate cancer for either agent vs. Placebo.||1.24|0.87|< .01
92215604|NCT00006392|184330616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|||<|0.01||99.0|0.88|1.25||The p-value was adjusted for multiple comparisons.|Regression, Cox|||Per study design, with a sample size of 32,400 men, using a 1-sided alpha=.005 level (equivalent to a 2-sided alpha=.01 level) there was 99% power to detect a 44% reduction in prostate cancer for combination vs. Placebo.||1.25|.88|< .01
92215605|NCT00006392|184330617|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||>|0.05||99.0|0.64|1.55||The trial was designed to study prostate cancer and lung cancer has a lower incidence rate, there was limited power to look at lung cancer incidence. A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|||1.55|.64|> .05
92215606|NCT00006392|184330617|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12|||>|0.01|TWO_SIDED|99.0|0.73|1.72||The trial was designed to study prostate cancer and lung cancer has a lower incidence rate, there was limited power to look at lung cancer incidence. A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|||1.72|0.73|> .01
92215607|NCT00006392|184330617|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16|||>|0.01|TWO_SIDED|99.0|0.9|1.16||The trial was designed to study prostate cancer and lung cancer has a lower incidence rate, there was limited power to look at lung cancer incidence. A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|||1.16|0.90|>.01
92215608|NCT00006392|184330618|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09|||>|0.05|TWO_SIDED|99.0|0.69|1.73||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The trial was designed to study prostate cancer and colorectal cancer has a lower incidence rate, there was limited power to look at colorectal cancer incidence.||1.73|0.69|> .05
92215609|NCT00006392|184330618|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|||>|0.05|TWO_SIDED|99.0|0.66|1.67||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The trial was designed to study prostate cancer and colorectal cancer has a lower incidence rate, there was limited power to look at colorectal cancer incidence.||1.67|0.66|> .05
92338447|NCT01096160|184578934|OTHER|Difference in change from baseline in SBP (TWA\^0-24hrs)|Mean Difference (Final Values)|0.33||||0.4791|TWO_SIDED|90.0|-10.3|10.91|||Linear mixed effects model|||||10.91|-10.3|0.4791
92338448|NCT01096160|184578934|OTHER|Difference in change from baseline in SBP (TWA\^0-24hrs)|Mean Difference (Final Values)|-8.21||||0.0705|TWO_SIDED|90.0|-17.4|1.01|||Linear mixed effcts model|||Panel D and Panel E had identical treatments (MK-8266 0.8 mg TID), which were combined for this analysis. Panel D was completed prior to initiation of Panel E.||1.01|-17.4|0.0705
92215610|NCT00006392|184330618|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.28|||>|0.05|TWO_SIDED|99.0|0.82|2.0||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The trial was designed to study prostate cancer and colorectal cancer has a lower incidence rate, there was limited power to look at colorectal cancer incidence.||2.00|0.82|> .05
92215611|NCT00006392|184330619|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03|||>|0.05|TWO_SIDED|99.0|0.91|1.17||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The power to look at all cancer incidence is greater than 90%.||1.17|0.91|> .05
92215612|NCT00006392|184330619|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01|||>|0.05|TWO_SIDED|99.0|0.89|1.15||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The power to look at all cancer incidence is greater than 90%.||1.15|0.89|> .05
92215613|NCT00006392|184330619|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02|||>|0.05||99.0|0.9|1.16||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The power to look at all cancer incidence is greater than 90%.||1.16|0.90|> .05
92215614|NCT00006392|184330620|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93|||>|0.05||99.0|0.77|1.13||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo is the denominator.|Only results from overall survival are presented as the number of cancer-specific deaths is too few to be meaningful.||1.13|0.77|> .05
92338449|NCT01096160|184578935|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|3.85||||0.1161|TWO_SIDED|90.0|-1.51|9.22|||Linear mixed effects model|||||9.22|-1.51|0.1161
92338450|NCT01096160|184578935|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|7.28||||0.0189|TWO_SIDED|90.0|1.6|12.97|||Linear mixed effects model|||||12.97|1.60|0.0189
92338451|NCT01096160|184578935|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|0.26||||0.4689|TWO_SIDED|90.0|-5.42|5.95|||Linear mixed effects model|||||5.95|-5.42|0.4689
92338452|NCT01096160|184578935|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|4.06||||0.0869|TWO_SIDED|90.0|-0.89|9.01|||Linear mixed effects model|||Panel D and Panel E had identical treatments (MK-8266 0.8 mg TID), which were combined for this analysis. Panel D was completed prior to initiation of Panel E.||9.01|-0.89|0.0869
92338453|NCT01096160|184578936|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|-9.87||||0.003|TWO_SIDED|90.0|-15.7|-4.09|||Linear mixed effects model|||||-4.09|-15.7|0.003
92338454|NCT01096160|184578936|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|-11.2||||0.002|TWO_SIDED|90.0|-17.3|-5.1|||Linear mixed effects model|||||-5.10|-17.3|0.002
92338455|NCT01096160|184578936|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|-5.18||||0.08|TWO_SIDED|90.0|-11.3|0.95|||Linear mixed effcts model|||||0.95|-11.3|0.080
92338456|NCT01096160|184578936|OTHER|Difference in change from baseline in AIx (TWA\^0-24hrs)|Mean Difference (Final Values)|-6.79||||0.019|TWO_SIDED|90.0|-12.1|-1.46|||Linear mixed effcts model|||Panel D and Panel E had identical treatments (MK-8266 0.8 mg TID), which were combined for this analysis. Panel D was completed prior to initiation of Panel E.||-1.46|-12.1|0.019
92398512|NCT03192176|184689415|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.45||0.0004|TWO_SIDED|95.0|-2.5|-0.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.73|-2.50|0.0004
92154302|NCT02065570|184194788|SUPERIORITY||Adjusted risk difference|1.8||||0.61|TWO_SIDED|95.0|-5.1|8.7||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||8.7|-5.1|0.610
92154303|NCT02065570|184194789|SUPERIORITY||Adjusted risk difference|11.2||||0.008|TWO_SIDED|95.0|2.9|19.6||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||19.6|2.9|0.008
92154304|NCT02065570|184194790|SUPERIORITY||Adjusted risk difference|6.0||||0.336|TWO_SIDED|95.0|-6.2|18.2||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||18.2|-6.2|0.336
92154305|NCT02065570|184194791|SUPERIORITY||Adjusted risk difference|1.5||||0.694|TWO_SIDED|95.0|-6.1|9.1||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||9.1|-6.1|0.694
92154306|NCT02065570|184194792|SUPERIORITY||LS Mean of Difference|6.8||||0.946|TWO_SIDED|95.0|-192.3|205.9|||Cochran-Mantel-Haenszel|||||205.9|-192.3|0.946
92154307|NCT02065570|184194793|SUPERIORITY||Adjusted risk difference|4.0||||0.293|TWO_SIDED|95.0|-3.5|11.5||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||11.5|-3.5|0.293
92215615|NCT00006392|184330620|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99|||>|0.05|TWO_SIDED|99.0|0.82|1.19||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|Only results from overall survival are presented as the number of cancer-specific deaths is too few to be meaningful.||1.19|0.82|> .05
92338457|NCT01096160|184578937|OTHER|Difference in change from baseline in cGMP|Geometric Mean Ratio|1.28||||0.318|TWO_SIDED|90.0|0.53|3.05|||Linear mixed effects model|||||3.05|0.53|0.318
92338458|NCT01096160|184578937|OTHER|Difference in change from baseline in cGMP|Geometric Mean Ratio|1.66||||0.17|TWO_SIDED|90.0|0.66|4.17|||Linear mixed effects model|||||4.17|0.66|0.17
92338459|NCT01096160|184578937|OTHER|Difference in change from baseline in cGMP|Geometric Mean Ratio|0.41||||0.054|TWO_SIDED|90.0|0.16|1.02|||Linear mixed effcts model|||||1.02|0.16|0.054
92338460|NCT01096160|184578937|OTHER|Difference in change from baseline in cGMP|Geometric Mean Ratio|0.78||||0.297|TWO_SIDED|90.0|0.35|1.73|||Linear mixed effcts model|||Panel D and Panel E had identical treatments (MK-8266 0.8 mg TID), which were combined for this analysis. Panel D was completed prior to initiation of Panel E.||1.73|0.35|0.297
92338461|NCT04767373|184578952|OTHER||Efficacy estimate|60.4|||<|0.001|TWO_SIDED|95.0|44.1|71.9|||Exact method|One-sided p-value was estimated using an exact method.|A modified Poisson regression with robust variance method was used to generate efficacy estimate (1- Relative Risk \[RR\]) \& 95% confidence interval (CI). The model included region, gestational age, and age at randomization as covariates.|||71.9|44.1|<0.001
92338462|NCT04767373|184578953|OTHER||Estimated Percentage Difference|-0.5|||||TWO_SIDED|95.0|-2.6|1.5|||||Estimated percentage difference beteween Clesrovimab 105 mg arm and placebo arm and associated 95% CI were calculated based on the Miettinen \& Nurminen method.|||1.5|-2.6|
92338463|NCT04767373|184578954|OTHER||Estimated Percentage Difference|-0.6|||||TWO_SIDED|95.0|-1.4|0.0|||||Estimated percentage difference between Clesrovimab 105 mg arm and placebo arm and associated 95% CI were calculated based on the Miettinen \& Nurminen method.|||-0.0|-1.4|
92338464|NCT04767373|184578955|OTHER||Estimated Percentage Difference|-1.8|||||TWO_SIDED|95.0|-5.0|1.2|||||Estimated percentage difference between Clesrovimab 105 mg arm and placebo arm and associated 95% CI were calculated based on the Miettinen \& Nurminen method.|||1.2|-5.0|
92338465|NCT04767373|184578956|OTHER||Estimated Percentage Difference|0.0|||||TWO_SIDED|95.0|-0.3|0.2|||||Estimated percentage difference between Clesrovimab 105 mg arm and placebo arm and associated 95% CI were calculated based on the Miettinen \& Nurminen method.|||0.2|-0.3|
92338466|NCT04767373|184578957|OTHER||Estimated Percentage Difference|0.1|||||TWO_SIDED|95.0|-0.4|0.5|||||Estimated percentage difference between Clesrovimab 105 mg arm and placebo arm and associated 95% CI were calculated based on the Miettinen \& Nurminen method.|||0.5|-0.4|
92338467|NCT04767373|184578960|OTHER||Efficacy estimate|84.2|||<|0.001|TWO_SIDED|95.0|66.6|92.6||One-sided p-value was estimated using an exact method.|Exact method||A modified Poisson regression with robust variance method was used to generate efficacy estimate (1- RR) \& 95% CI. The model included region, gestational age, and age at randomization as covariates.|||92.6|66.6|<0.001
92338468|NCT04767373|184578961|OTHER||Efficacy estimate|59.5|||||TWO_SIDED|95.0|43.3|71.1|||||A modified Poisson regression with robust variance method was used to generate efficacy estimate (1- RR) \& 95% CI. The model included region, gestational age, and age at randomization as covariates.|||71.1|43.3|
92338469|NCT00121719|184578978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0146|||||||Wilcoxon signed-rank test|||This was a pilot study and a statistical sample size calculation was not performed.||||0.0146
92338470|NCT04346199|184578996|OTHER|No formal hypothesis testing for this endpoint.|Hazard Ratio (HR)|0.758|||||TWO_SIDED|95.0|0.323|1.722||P-value not generated.|Regression, Cox|Adjusting for age (\<65 vs \>=65 years) and comorbidities (present vs absent). Ties handled by Efron approach. HR CI using profile likelihood approach.||||1.722|0.323|
92338471|NCT04346199|184579004|OTHER|No formal hypothesis testing for this endpoint.|Hazard Ratio (HR)|0.967||||||95.0|0.69|1.353|||Regression, Cox|Adjusting for age (\<65 vs \>=65 years) and comorbidities (present vs absent). Ties handled by Efron approach. HR CI using profile likelihood approach.||||1.353|0.690|
92338472|NCT05568797|184579012|NON_INFERIORITY|The non-inferiority is demonstrated if the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is less than or equal (\<=) 1.5.|GMT Ratio|1.32|||||TWO_SIDED|0.95|1.13|1.53|||||The comparison was done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group and the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu A/Darwin/6/2021 H3N2 strain, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.53|1.13|
92398513|NCT03192176|184689415|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.46||0.0009|TWO_SIDED|95.0|-2.43|-0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.64|-2.43|0.0009
92398514|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.45||0.5806|TWO_SIDED|95.0|-1.14|0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||0.64|-1.14|0.5806
92398515|NCT03192176|184689415|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.45||0.0105|TWO_SIDED|95.0|-2.03|-0.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.27|-2.03|0.0105
92398516|NCT03192176|184689415|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.45||0.0048|TWO_SIDED|95.0|-2.16|-0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.39|-2.16|0.0048
92398517|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.46||0.1801|TWO_SIDED|95.0|-1.52|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.29|-1.52|0.1801
92398518|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.46||0.0609|TWO_SIDED|95.0|-1.76|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.04|-1.76|0.0609
92338473|NCT05568797|184579012|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|1.04|||||TWO_SIDED|0.95|0.91|1.18|||||The comparison was done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group and the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu A/Victoria/2570/2019 H1N1 influenza strain included in the FLU vaccine, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.18|0.91|
92338474|NCT05568797|184579012|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|0.97|||||TWO_SIDED|0.95|0.9|1.06|||||The comparison was done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group and the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu B/Austria/1359417/2021 influenza strain included in the FLU vaccine, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.06|0.90|
92398519|NCT03192176|184689415|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.47||0.0028|TWO_SIDED|95.0|-2.33|-0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.49|-2.33|0.0028
92398520|NCT03192176|184689415|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.47||0.0018|TWO_SIDED|95.0|-2.4|-0.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.55|-2.40|0.0018
92398521|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.46||0.5519|TWO_SIDED|95.0|-1.19|0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.64|-1.19|0.5519
92398522|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.46||0.1922|TWO_SIDED|95.0|-1.51|0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.31|-1.51|0.1922
92398523|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.46||0.0463|TWO_SIDED|95.0|-1.82|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.02|-1.82|0.0463
92398524|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.44||0.1288|TWO_SIDED|95.0|-1.53|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.19|-1.53|0.1288
92398525|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.44||0.0577|TWO_SIDED|95.0|-1.72|0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.03|-1.72|0.0577
92398526|NCT03192176|184689415|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.45||0.0027|TWO_SIDED|95.0|-2.26|-0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.48|-2.26|0.0027
92398527|NCT03192176|184689415|SUPERIORITY||-1.3|-1.3|STANDARD_ERROR_OF_MEAN|0.45||0.0043|TWO_SIDED|95.0|-2.2|-0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.41|-2.20|0.0043
92398528|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.45||0.4089|TWO_SIDED|95.0|-1.27|0.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.52|-1.27|0.4089
92215616|NCT00006392|184330620|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||>|0.05|TWO_SIDED|99.0|0.77|1.13||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox|||Only results from overall survival are presented as the number of cancer-specific deaths is too few to be meaningful.||1.13|0.77|> .05
92398529|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.44||0.205|TWO_SIDED|95.0|-1.44|0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.31|-1.44|0.2050
92398530|NCT03192176|184689415|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.44||0.0265|TWO_SIDED|95.0|-1.84|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.11|-1.84|0.0265
92398531|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.53||0.7617|TWO_SIDED|95.0|-1.2|0.88||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.88|-1.20|0.7617
92398532|NCT03192176|184689415|SUPERIORITY||LSMean difference|0.3|STANDARD_ERROR_OF_MEAN|0.53||0.6061|TWO_SIDED|95.0|-0.77|1.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.32|-0.77|0.6061
92398533|NCT03192176|184689415|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.54||0.7997|TWO_SIDED|95.0|-0.93|1.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.21|-0.93|0.7997
92398534|NCT03192176|184689415|SUPERIORITY||LSMean difference|0.5|STANDARD_ERROR_OF_MEAN|0.55||0.3391|TWO_SIDED|95.0|-0.55|1.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.60|-0.55|0.3391
92215617|NCT00006392|184330621|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98|||>|0.05|TWO_SIDED|99.0|0.88|1.09||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Chi-squared||The placebo was the denominator.|||1.09|0.88|> .05
92398535|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.55||0.3934|TWO_SIDED|95.0|-1.55|0.61||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.61|-1.55|0.3934
92398536|NCT03192176|184689415|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.54||0.975|TWO_SIDED|95.0|-1.08|1.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.04|-1.08|0.9750
92154308|NCT02065570|184194794|SUPERIORITY||Adjusted risk difference|3.0||||0.304|TWO_SIDED|95.0|-2.7|8.6||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||8.6|-2.7|0.304
92154309|NCT02065570|184194795|SUPERIORITY||Adjusted risk difference|4.2||||0.092|TWO_SIDED|95.0|-0.7|9.1||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||9.1|-0.7|0.092
92154310|NCT02065570|184194796|SUPERIORITY||Adjusted risk difference|3.6||||0.278|TWO_SIDED|95.0|-2.9|10.2||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||10.2|-2.9|0.278
92154311|NCT02065570|184194797|SUPERIORITY||Adjusted risk difference|3.7||||0.353|TWO_SIDED|95.0|-4.1|11.5||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||11.5|-4.1|0.353
92154312|NCT02065570|184194798|SUPERIORITY||Adjusted risk difference|8.9||||0.015|TWO_SIDED|95.0|1.8|16.0||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||16.0|1.8|0.015
92154313|NCT02065570|184194799|SUPERIORITY||Adjusted risk difference|3.4||||0.394|TWO_SIDED|95.0|-4.4|11.1||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||11.1|-4.4|0.394
92154314|NCT02065570|184194800|SUPERIORITY||Adjusted risk difference|3.6||||0.349|TWO_SIDED|95.0|-4.0|11.2||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose)|||11.2|-4.0|0.349
92154315|NCT02065570|184194801|SUPERIORITY||Adjusted risk difference|7.6||||0.054|TWO_SIDED|95.0|-0.1|15.3||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose)|||15.3|-0.1|0.054
92154316|NCT02743793|184194802|OTHER|No test was performed.|Kaplan-Meier survival estimate|64.0|||||TWO_SIDED|95.0|21.3|87.9|||||Percent of participants that remained tolerant during study participation.|||87.9|21.3|
92154317|NCT02733042|184194855|OTHER|||||||||||||||||The safety review committee identified a preliminary recommended Phase 2 dose (RP2D) for each dose finding cohort based on an integrated assessment of the safety, pharmacokinetic, pharmacodynamic, and preliminary efficacy (as available).|For Arm B, ibrutinib 420 mg was confirmed as the RP2D for CLL/SLL participants and ibrutinib 560 mg was confirmed as the RP2D for MCL participants.|||
92154318|NCT02733042|184194855|OTHER|||||||||||||||||The safety review committee identified a preliminary recommended Phase 2 dose (RP2D) for each dose finding cohort based on an integrated assessment of the safety, pharmacokinetic, pharmacodynamic, and preliminary efficacy (as available).|For Arm C the RP2D was confirmed as rituximab 375 mg/m² + bendamustine 70 mg/m².|||
92398537|NCT03192176|184689415|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.53||0.883|TWO_SIDED|95.0|-1.13|0.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.97|-1.13|0.8830
92154319|NCT01088529|184194883|SUPERIORITY_OR_OTHER||Relative risk|1.432||||0.2148|TWO_SIDED|90.0|0.859|2.386|||Chi-squared|||||2.386|0.859|0.2148
92154320|NCT01088529|184194884|SUPERIORITY_OR_OTHER||Relative risk|0.477||||0.1796|TWO_SIDED|90.0|0.205|1.109|||Fisher Exact|||||1.109|0.205|0.1796
92154321|NCT01088529|184194885|SUPERIORITY_OR_OTHER||Relative risk|6.523|||<|0.0001|TWO_SIDED|90.0|2.701|15.753|||Chi-squared|||||15.753|2.701|<0.0001
92154322|NCT00337662|184194935|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Between-group p-values for each baseline to post-baseline visit were the same, p\<0.001.|Mixed Effects Model Repeated Measures|||||||<0.001
92154323|NCT00337662|184194936|SUPERIORITY_OR_OTHER|||||||0.266||95.0||||Change from Week 2 to Week 3 p-value|Mixed-Effects Model Repeated-Measures|||||||0.266
92154324|NCT00337662|184194936|SUPERIORITY_OR_OTHER|||||||0.884||95.0||||Change from Week 2 to Week 4 p-value|Mixed-Effects Model Repeated-Measures|||||||0.884
92154325|NCT00337662|184194936|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||Change from Week 2 to Week 6 p-value|Mixed-Effects Model Repeated-Measures|||||||0.151
92338475|NCT05568797|184579012|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|1.04|||||TWO_SIDED|0.95|0.95|1.13|||||The comparison was done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group and the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the Flu vaccine administered alone, in terms of HI GMTs against the Flu B/Phuket/3073/2013 Yamagata influenza strain included in the FLU vaccine, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.13|0.95|
92398538|NCT03192176|184689416|SUPERIORITY||LSMean difference|2.3|STANDARD_ERROR_OF_MEAN|4.27||0.5872|TWO_SIDED|95.0|-6.09|10.73||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||10.73|-6.09|0.5872
92398539|NCT03192176|184689416|SUPERIORITY||LSMean difference|3.8|STANDARD_ERROR_OF_MEAN|4.33||0.3779|TWO_SIDED|95.0|-4.7|12.35||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||12.35|-4.70|0.3779
92398540|NCT03192176|184689416|SUPERIORITY||LSMean difference|-4.1|STANDARD_ERROR_OF_MEAN|4.34||0.3506|TWO_SIDED|95.0|-12.61|4.49||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||4.49|-12.61|0.3506
92398541|NCT03192176|184689416|SUPERIORITY||LSMean difference|1.0|STANDARD_ERROR_OF_MEAN|4.39||0.8236|TWO_SIDED|95.0|-7.66|9.62||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||9.62|-7.66|0.8236
92398542|NCT03192176|184689416|SUPERIORITY||LSMean difference|2.3|STANDARD_ERROR_OF_MEAN|4.35||0.5949|TWO_SIDED|95.0|-6.24|10.87||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||10.87|-6.24|0.5949
92398543|NCT03192176|184689416|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|4.19||0.9237|TWO_SIDED|95.0|-8.65|7.85||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||7.85|-8.65|0.9237
92398544|NCT03192176|184689416|SUPERIORITY||LSMean difference|4.0|STANDARD_ERROR_OF_MEAN|4.32||0.3599|TWO_SIDED|95.0|-4.54|12.46||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||12.46|-4.54|0.3599
92398545|NCT03192176|184689416|SUPERIORITY||LSMean difference|1.7|STANDARD_ERROR_OF_MEAN|5.08||0.7422|TWO_SIDED|95.0|-8.33|11.68||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||11.68|-8.33|0.7422
92338476|NCT05568797|184579013|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the GMT ratio (Control group divided by Co-Ad group) for RSV-A neutralizing antibody vaccine is \<=1.5.|GMT Ratio|0.99|||||TWO_SIDED|0.95|0.87|1.12|||||The comparison is done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group and the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when co-administered with the FLU vaccine compared to the RSVPreF3 OA vaccine administered alone, in terms of RSV-A neutralizing antibody titers, at 1 month after the RSVPreF3 OA vaccine dose (Day 31 for the Co-Ad Group and Day 61 for the Control Group).||1.12|0.87|
92369330|NCT02993822|184643578|SUPERIORITY||Mean Difference (Final Values)|0.93||||0.482|TWO_SIDED|95.0|0.75|1.15|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.15|0.75|0.482
92398546|NCT03192176|184689416|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|5.09||0.603|TWO_SIDED|95.0|-12.67|7.37||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||7.37|-12.67|0.6030
92398547|NCT03192176|184689416|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|5.14||0.2478|TWO_SIDED|95.0|-16.07|4.17||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||4.17|-16.07|0.2478
92398548|NCT03192176|184689416|SUPERIORITY||LSMean difference|3.3|STANDARD_ERROR_OF_MEAN|5.18||0.5295|TWO_SIDED|95.0|-6.94|13.47||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||13.47|-6.94|0.5295
92338477|NCT05568797|184579014|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the GMT ratio (Control group divided by Co-Ad group) for RSV-B neutralizing antibody vaccine is \<=1.5.|GMT Ratio|1.16|||||TWO_SIDED|0.95|1.03|1.3|||||The comparison is done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when co-administered with the FLU vaccine compared to the RSVPreF3 OA vaccine administered alone, in terms of RSV-B neutralizing antibody titers, at 1 month after the RSVPreF3 OA vaccine dose (Day 31 for the CoAd Group and Day 61 for the Control Group).||1.30|1.03|
92338478|NCT05568797|184579015|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|10.25|||||TWO_SIDED|0.95|3.5|16.9||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu A/Darwin/6/2021 H3N2 strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||16.90|3.50|
92338479|NCT05568797|184579015|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|1.66|||||TWO_SIDED|0.95|-5.16|8.47||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu A/Victoria/2570/2019 H1N1 strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||8.47|-5.16|
92338480|NCT05568797|184579015|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|0.25|||||TWO_SIDED|0.95|-4.92|5.46||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu B/Austria/1359417/2021 Victoria at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||5.46|-4.92|
92154326|NCT00337662|184194936|SUPERIORITY_OR_OTHER|||||||0.216||95.0||||Change from Week 2 to Week 8 p-value|Mixed-Effects Model Repeated-Measures|||||||0.216
92154327|NCT00337662|184194936|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||Change from Week 2 to Week 12 p-value|Mixed-Effects Model Repeated-Measures|||||||0.020
92154328|NCT00337662|184194937|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92154329|NCT00337662|184194938|SUPERIORITY_OR_OTHER|||||||0.604||95.0|||||Fisher Exact|||||||0.604
92154330|NCT00337662|184194939|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92154331|NCT00337662|184194940|SUPERIORITY_OR_OTHER|||||||0.745||95.0|||||Fisher Exact|||||||0.745
92154332|NCT00337662|184194941|SUPERIORITY_OR_OTHER|||||||0.474||95.0|||||Fisher Exact|||||||0.474
92154333|NCT00337662|184194942|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.034
92154334|NCT00337662|184194942|SUPERIORITY_OR_OTHER|||||||0.125||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.125
92154335|NCT00337662|184194943|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||All comparisons between EO-RIS and NEO-RIS and between NEO-RIS and NEO-OLZ had p-values greater than 0.05.|Fisher Exact|||||||>0.05
92154336|NCT00337662|184194944|SUPERIORITY_OR_OTHER|||||||0.355||95.0|||||ANOVA|p-value is from ANOVA with treatment and pooled investigator in the model.||||||0.355
92154337|NCT00337662|184194944|SUPERIORITY_OR_OTHER|||||||0.244||95.0|||||ANOVA|p-value is from ANOVA with treatment and pooled investigator in the model.||||||0.244
92154338|NCT00337662|184194945|SUPERIORITY_OR_OTHER|||||||0.998||95.0|||||ANOVA|P-value is from ANOVA with treatment and pooled investigator in the model.||||||0.998
92154339|NCT00337662|184194945|SUPERIORITY_OR_OTHER|||||||0.505||95.0|||||ANOVA|P-value is from ANOVA with treatment and pooled investigator in the model.||||||0.505
92154340|NCT00337662|184194946|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||ANOVA|P-value is from ANOVA with treatment and pooled investigator in the model.||||||0.266
92154341|NCT00337662|184194946|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANOVA|P-value is from ANOVA with treatment and pooled investigator in the model.||||||0.015
92154342|NCT00337662|184194947|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.140
92154343|NCT00337662|184194947|SUPERIORITY_OR_OTHER|||||||0.181||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.181
92154344|NCT00337662|184194948|SUPERIORITY_OR_OTHER|||||||0.254||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.254
92154345|NCT00337662|184194948|SUPERIORITY_OR_OTHER|||||||0.299||95.0|||||ANOVA|P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.||||||0.299
92154346|NCT00337662|184194949|SUPERIORITY_OR_OTHER|||||||0.291||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.291
92154347|NCT00337662|184194949|SUPERIORITY_OR_OTHER|||||||0.259||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.259
92154348|NCT00337662|184194950|SUPERIORITY_OR_OTHER|||||||0.209||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.209
92338481|NCT05568797|184579015|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|0.79|||||TWO_SIDED|0.95|-4.54|6.17||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu B/Phuket/3073/2013 Yamagata strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||6.17|-4.54|
92215618|NCT00006392|184330621|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02|||>|0.05|TWO_SIDED|99.0|0.92|1.13||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Chi-squared||The placebo was the denominator.|||1.13|0.92|> .05
92215619|NCT00006392|184330621|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|||>|0.05|TWO_SIDED|99.0|0.89|1.1||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Chi-squared||The placebo was the denominator.|||1.10|0.89|> .05
92215620|NCT01186796|184330622|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92215621|NCT01186796|184330623|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|Two-way ANOVA in a 2x4 factorial nested design with repeated measures.||||||<0.05
92215622|NCT01186796|184330624|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||"Unit of mass secreted per burst is in ug/L. An automated deconvolution method was used and mathematically verified by direct statistical proof and empirically validated using hypothalamopituitary sampling and a simulated pulsatile time series."|ANOVA|Two-way ANOVA in a 2x4 factorial nested design with repeated measures.||||||<0.05
92215623|NCT01186796|184330625|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|Two-way ANOVA in a 2x4 factorial nested design with repeated measures.||||||<0.05
92215624|NCT01186796|184330626|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|Two-way ANOVA in a 2x4 factorial nested design with repeated measures.||||||<0.05
92338482|NCT00099632|184579026|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by ARV regimen and the actual receipt of antenatal ZDV||Compare proportion of women with new NNRTI-resistant variants between treatment durations (7-day vs. 21 day), pooled over ARV regimens (3TC/ZDV, FTC/TDF, and LPV/r), stratified by ARV regimen and the actual receipt of antenatal ZDV||||0.37
92215625|NCT02378220|184330631|OTHER||Risk Ratio (RR)|0.65||||0.21|TWO_SIDED|95.0|0.32|1.28||P-value for 30 days measure.|Regression, Poisson|||||1.28|0.32|0.21
92215626|NCT02378220|184330631|OTHER||Risk Ratio (RR)|0.48||||0.007|TWO_SIDED|95.0|0.27|0.82||P-Value for 60 days measure|Regression, Poisson|||||0.82|0.27|0.007
92398549|NCT03192176|184689416|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|5.16||0.6938|TWO_SIDED|95.0|-12.2|8.13||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||8.13|-12.20|0.6938
92215627|NCT02378220|184330632|OTHER||Risk Ratio (RR)|0.62||||0.16|TWO_SIDED|95.0|0.31|1.21||P-Value for 30 days measure|Regression, Poisson|||||1.21|0.31|0.16
92215628|NCT02378220|184330632|OTHER||Risk Ratio (RR)|0.58||||0.045|TWO_SIDED|95.0|0.34|0.99|||Regression, Poisson|||||0.99|0.34|0.045
92398550|NCT03192176|184689416|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|4.97||0.9765|TWO_SIDED|95.0|-9.93|9.63||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||9.63|-9.93|0.9765
92215629|NCT02378220|184330633|OTHER||Hazard Ratio (HR)|0.59||||0.1|TWO_SIDED|95.0|0.31|1.12|||Log Rank|||||1.12|0.31|0.10
92215630|NCT02378220|184330634|OTHER||Hazard Ratio (HR)|0.6||||0.09|TWO_SIDED|95.0|0.33|1.1|||Log Rank|||||1.10|0.33|0.09
92215631|NCT00578786|184330647|SUPERIORITY_OR_OTHER||Mean Difference (Net)|38.0|STANDARD_DEVIATION|74.28|||TWO_SIDED|95.0|22.7|53.3|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||53.3|22.7|
92215632|NCT00578786|184330647|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.5|STANDARD_DEVIATION|78.55|||TWO_SIDED|95.0|21.1|43.8|||||Applies to Ambrisentan 5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||43.8|21.1|
92215633|NCT00578786|184330647|SUPERIORITY_OR_OTHER||Mean Difference (Net)|40.9|STANDARD_DEVIATION|72.85|||TWO_SIDED|95.0|26.1|55.7|||||Applies to Ambrisentan 10 mg group only. LOCF method of imputation. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||55.7|26.1|
92215634|NCT00578786|184330647|SUPERIORITY_OR_OTHER||Mean Difference (Net)|36.0|STANDARD_DEVIATION|75.97|||TWO_SIDED|95.0|28.3|43.7|||||Applies to Ambrisentan combined group only. LOCF method of imputation.|||43.7|28.3|
92215635|NCT00578786|184330648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.9|STANDARD_DEVIATION|96.14|||TWO_SIDED|95.0|5.1|44.7|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||44.7|5.1|
92215636|NCT00578786|184330648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.9|STANDARD_DEVIATION|94.5|||TWO_SIDED|95.0|14.2|41.6|||||Applies to Ambrisentan 5.0 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||41.6|14.2|
92215637|NCT00578786|184330648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.2|STANDARD_DEVIATION|72.97|||TWO_SIDED|95.0|22.4|52.0|||||Applies to Ambrisentan 10 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||52.0|22.4|
92215638|NCT00578786|184330648|SUPERIORITY_OR_OTHER||Median Difference (Net)|29.5|STANDARD_DEVIATION|89.81|||TWO_SIDED|95.0|20.4|38.7|||||Applies to Ambrisentan combined group only. LOCF method of imputation.|||38.7|20.4|
92215639|NCT00578786|184330649|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.7|STANDARD_DEVIATION|97.48|||TWO_SIDED|95.0|-13.4|26.8|||||Applies to Ambrisentan 2.5 mg group only. LOCF method of imputation.|||26.8|-13.4|
92215640|NCT00578786|184330649|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.2|STANDARD_DEVIATION|100.69|||TWO_SIDED|95.0|8.7|37.8|||||Applies to Ambrisentan 5 mg group only. LOCF method of imputation.|||37.8|8.7|
92215641|NCT00578786|184330649|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.0|STANDARD_DEVIATION|84.38|||TWO_SIDED|95.0|10.9|45.1|||||Applies to Ambrisentan 10 mg group only. LOCF method of imputation.|||45.1|10.9|
92338483|NCT00099632|184579026|SUPERIORITY_OR_OTHER_LEGACY|||||||0.091||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by treatment duration and the actual receipt of antenatal ZDV||Compare proportion of women with new NNRTI-resistant variants among ARV regimens (3TC/ZDV vs. FTC/TDF vs. LPV/r), pooled over treatment durations 7-day and 21-day, stratified by treatment duration and the actual receipt of antenatal ZDV||||0.091
92338484|NCT03131687|184579031|OTHER||Posterior Mean Difference|-1.0|STANDARD_DEVIATION|0.17|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
92338485|NCT03131687|184579031|OTHER||Posterior Mean Difference|-1.67|STANDARD_DEVIATION|0.17|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
92338486|NCT03131687|184579031|OTHER||Posterior Mean Difference|-1.83|STANDARD_DEVIATION|0.17|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
92338487|NCT03131687|184579031|OTHER||Posterior Mean Difference|-1.89|STANDARD_DEVIATION|0.17|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
92338488|NCT03131687|184579032|OTHER||Posterior Mean Difference|-0.89|STANDARD_DEVIATION|0.15|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
92338489|NCT03131687|184579032|OTHER||Posterior Mean Difference|-1.49|STANDARD_DEVIATION|0.15|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
92398551|NCT03192176|184689416|SUPERIORITY||LSMean difference|3.7|STANDARD_ERROR_OF_MEAN|5.13||0.4771|TWO_SIDED|95.0|-6.45|13.76||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||13.76|-6.45|0.4771
92398552|NCT03192176|184689416|SUPERIORITY||LSMean difference|3.5|STANDARD_ERROR_OF_MEAN|4.44||0.4256|TWO_SIDED|95.0|-5.19|12.27||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||12.27|-5.19|0.4256
92398553|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|4.45||0.9559|TWO_SIDED|95.0|-8.52|9.01||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||9.01|-8.52|0.9559
92154349|NCT00337662|184194950|SUPERIORITY_OR_OTHER|||||||0.411||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.411
92154350|NCT00337662|184194951|SUPERIORITY_OR_OTHER|||||||0.544||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.544
92154351|NCT00337662|184194951|SUPERIORITY_OR_OTHER|||||||0.386||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.386
92154352|NCT00337662|184194952|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.026
92154353|NCT00337662|184194952|SUPERIORITY_OR_OTHER|||||||0.143||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.143
92154354|NCT00882921|184194953|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|2.873||||0.1309|TWO_SIDED|95.0|0.731|11.296|||Negative Binomial Model|||The groups compared are Ab+ vs Ab-||11.296|0.731|0.1309
92154355|NCT00882921|184194953|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|2.082||||0.2718|TWO_SIDED|95.0|0.563|7.706|||Negative Binomial Model|||The groups compared are Ab+ (age adjusted) vs Ab- (age adjusted)||7.706|0.563|0.2718
92154356|NCT03662360|184194955|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The Mann-Whitney test has been used to evaluate the statistical significance of the difference between the variations in scores (T3 - T1) regarding the two interest groups of patients (control and treated).||||<0.001
92154357|NCT03662360|184194956|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||The Mann-Whitney test has been used to evaluate the statistical significance of the difference between the variations scores in T3 and T1, concerning the distress of the professional caregivers in the two intereste groups of patients||||<0.01
92338490|NCT03131687|184579032|OTHER||Posterior Mean Difference|-1.62|STANDARD_DEVIATION|0.15|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
92338491|NCT03131687|184579032|OTHER||Posterior Mean Difference|-1.67|STANDARD_DEVIATION|0.15|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
92338492|NCT03131687|184579033|OTHER||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Models Analysis|||||-0.4|-1.2|<0.001
92338493|NCT03131687|184579033|OTHER||Median Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.2|-1.3|||Mixed Models Analysis|||||-1.3|-2.2|<0.001
92338494|NCT03131687|184579033|OTHER||Median Difference (Final Values)|-2.1|||<|0.001|TWO_SIDED|95.0|-2.5|-1.6|||Mixed Models Analysis|||||-1.6|-2.5|<0.001
92338495|NCT03131687|184579033|OTHER||Median Difference (Final Values)|-2.5|||<|0.001|TWO_SIDED|95.0|-2.9|-2.0|||Mixed Models Analysis|||||-2.0|-2.9|<0.001
92338496|NCT03131687|184579034|OTHER||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4|||Mixed Models Analysis|||||-0.4|-1.1|<0.001
92338497|NCT03131687|184579034|OTHER||Mean Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.0|-1.3|||Mixed Models Analysis|||||-1.3|-2.0|<0.001
92338498|NCT03131687|184579034|OTHER||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.3|-1.5|||Mixed Models Analysis|||||-1.5|-2.3|<0.001
92338499|NCT03131687|184579034|OTHER||Mean Difference (Final Values)|-2.1|||<|0.001|TWO_SIDED|95.0|-2.4|-1.7|||Mixed Models Analysis|||||-1.7|-2.4|<0.001
92338500|NCT03131687|184579035|OTHER||Mean Difference (Final Values)|-0.5||||0.655|TWO_SIDED|95.0|-2.7|1.7|||Mixed Models Analysis|||||1.7|-2.7|0.655
92338501|NCT03131687|184579035|OTHER||Mean Difference (Final Values)|-4.4|||<|0.001|TWO_SIDED|95.0|-6.6|-2.3|||Mixed Models Analysis|||||-2.3|-6.6|<0.001
92338502|NCT03131687|184579035|OTHER||Mean Difference (Final Values)|-8.3|||<|0.001|TWO_SIDED|95.0|-10.5|-6.0|||Mixed Models Analysis|||||-6.0|-10.5|<0.001
92338503|NCT03131687|184579035|OTHER||Median Difference (Final Values)|-10.9|||<|0.001|TWO_SIDED|95.0|-13.3|-8.6|||Mixed Models Analysis|||||-8.6|-13.3|<0.001
92338504|NCT03131687|184579036|OTHER|||||||0.053|||||||Regression, Logistic|||||||0.053
92338505|NCT03131687|184579036|OTHER|||||||0.002|||||||Regression, Logistic|||||||0.002
92338506|NCT03131687|184579036|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92338507|NCT03131687|184579036|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92338508|NCT03131687|184579037|OTHER|||||||0.193|||||||Regression, Logistic|||||||0.193
92338509|NCT03131687|184579037|OTHER|||||||0.036|||||||Regression, Logistic|||||||0.036
92338510|NCT03131687|184579037|OTHER|||||||0.003|||||||Regression, Logistic|||||||0.003
92338511|NCT03131687|184579037|OTHER|||||||0.003|||||||Regression, Logistic|||||||0.003
92338512|NCT03131687|184579038|OTHER|||||||0.03|||||||Regression, Logistic|||||||0.030
92398554|NCT03192176|184689416|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|4.49||0.2003|TWO_SIDED|95.0|-14.6|3.07||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||3.07|-14.60|0.2003
92338513|NCT03131687|184579038|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92338514|NCT03131687|184579038|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92338515|NCT03131687|184579038|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92338516|NCT03131687|184579039|OTHER|||||||0.008|||||||Regression, Logistic|||||||0.008
92154358|NCT01233609|184194965|SUPERIORITY||Mean Difference (Net)|-150.43|STANDARD_ERROR_OF_MEAN|71.37||0.035|TWO_SIDED||||||Mixed Models Analysis|degrees of freedom = 830|Right eye and Left Eye within each of the 2 treatment groups (Placebo and Valproic Acid) were combined to estimate the difference|||||0.035
92338517|NCT03131687|184579039|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92338518|NCT03131687|184579039|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92338519|NCT03131687|184579039|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92338520|NCT03131687|184579040|OTHER||Mean Difference (Final Values)|-22.4||||0.01|TWO_SIDED|95.0|-39.4|-5.3|||Mixed Models Analysis|||||-5.3|-39.4|0.010
92338521|NCT03131687|184579040|OTHER||Mean Difference (Final Values)|-56.2|||<|0.001|TWO_SIDED|95.0|-72.9|-39.5|||Mixed Models Analysis|||||-39.5|-72.9|<0.001
92338522|NCT03131687|184579040|OTHER||Odds Ratio (OR)|-76.3|||<|0.001|TWO_SIDED|95.0|-93.3|-59.2|||Mixed Models Analysis|||||-59.2|-93.3|<0.001
92338523|NCT03131687|184579040|OTHER||Mean Difference (Final Values)|-73.0|||<|0.001|TWO_SIDED|95.0|-90.9|-55.2|||Mixed Models Analysis|||||-55.2|-90.9|<0.001
92338524|NCT03131687|184579041|OTHER||Mean Difference (Final Values)|0.0||||0.396|TWO_SIDED|95.0|-0.1|0.0|||Mixed Models Analysis|||||0.0|-0.1|0.396
92338525|NCT03131687|184579041|OTHER||Mean Difference (Final Values)|0.0||||0.903|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||||0.1|-0.1|0.903
92338526|NCT03131687|184579041|OTHER||Mean Difference (Final Values)|0.0||||0.536|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||||0.1|-0.1|0.536
92154359|NCT01233609|184194966|SUPERIORITY|||||||0.581|||||||Mixed Models Analysis|||||||0.581
92154360|NCT01233609|184194967|SUPERIORITY|||||||0.409|||||||Wilcoxon (Mann-Whitney)|||||||0.409
92154361|NCT01233609|184194968|SUPERIORITY|||||||0.229|||||||Wilcoxon (Mann-Whitney)|||||||0.229
92154362|NCT03677128|184194977|OTHER||Mean Difference (Final Values)|23.8|||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
92338527|NCT03131687|184579041|OTHER||Mean Difference (Final Values)|0.0||||0.325|TWO_SIDED|95.0|0.0|0.1|||Mixed Models Analysis|||||0.1|-0.0|0.325
92338528|NCT03131687|184579042|OTHER||Mean Difference (Final Values)|-0.1||||0.565|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|||||0.2|-0.4|0.565
92338529|NCT03131687|184579042|OTHER||Mean Difference (Final Values)|-0.4||||0.01|TWO_SIDED|95.0|-0.7|-0.1|||Mixed Models Analysis|||||-0.1|-0.7|0.010
92338530|NCT03131687|184579042|OTHER||Median Difference (Final Values)|-0.5||||0.001|TWO_SIDED|95.0|-0.9|-0.2|||Mixed Models Analysis|||||-0.2|-0.9|0.001
92338531|NCT03131687|184579042|OTHER||Median Difference (Final Values)|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.3|||Mixed Models Analysis|||||-0.3|-0.9|<0.001
92338532|NCT03131687|184579043|OTHER||Mean Difference (Final Values)|-0.3||||0.164|TWO_SIDED|95.0|-0.7|0.1|||Mixed Models Analysis|||||0.1|-0.7|0.164
92338533|NCT03131687|184579043|OTHER||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4|||Mixed Models Analysis|||||-0.4|-1.1|<0.001
92338534|NCT03131687|184579043|OTHER||Mean Difference (Final Values)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.4|-0.6|||Mixed Models Analysis|||||-0.6|-1.4|<0.001
92338535|NCT03131687|184579043|OTHER||Median Difference (Final Values)|-1.1|||<|0.001|TWO_SIDED|95.0|-1.5|-0.7|||Mixed Models Analysis|||||-0.7|-1.5|<0.001
92338536|NCT03131687|184579044|OTHER||Mean Difference (Final Values)|0.0||||0.919|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||||0.3|-0.3|0.919
92338537|NCT03131687|184579044|OTHER||Mean Difference (Final Values)|-0.2||||0.194|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||||0.1|-0.5|0.194
92338538|NCT03131687|184579044|OTHER||Mean Difference (Final Values)|-0.2||||0.145|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||||0.1|-0.5|0.145
92338539|NCT03131687|184579044|OTHER||Mean Difference (Final Values)|-0.3||||0.067|TWO_SIDED|95.0|-0.6|0.0|||Mixed Models Analysis|||||0.0|-0.6|0.067
92398555|NCT03192176|184689416|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|4.53||0.6692|TWO_SIDED|95.0|-10.86|6.98||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||6.98|-10.86|0.6692
92338540|NCT03131687|184579045|OTHER||Mean Difference (Final Values)|-0.7||||0.539|TWO_SIDED|95.0|-3.1|1.6|||Mixed Models Analysis|||||1.6|-3.1|0.539
92338541|NCT03131687|184579045|OTHER||Mean Difference (Final Values)|-3.8||||0.001|TWO_SIDED|95.0|-6.1|-1.5|||Mixed Models Analysis|||||-1.5|-6.1|0.001
92338542|NCT03131687|184579045|OTHER||Mean Difference (Final Values)|-6.0|||<|0.001|TWO_SIDED|95.0|-8.4|-3.7|||Mixed Models Analysis|||||-3.7|-8.4|<0.001
92398556|NCT03192176|184689416|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|4.51||0.6894|TWO_SIDED|95.0|-10.68|7.08||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||7.08|-10.68|0.6894
92398557|NCT03192176|184689416|SUPERIORITY||LSMean difference|-6.1|STANDARD_ERROR_OF_MEAN|4.35||0.1627|TWO_SIDED|95.0|-14.66|2.48||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||2.48|-14.66|0.1627
92398558|NCT03192176|184689416|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|4.48||0.9371|TWO_SIDED|95.0|-9.18|8.47||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||8.47|-9.18|0.9371
92398559|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.8|STANDARD_ERROR_OF_MEAN|4.53||0.8521|TWO_SIDED|95.0|-8.07|9.77||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||9.77|-8.07|0.8521
92398560|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|4.56||0.9367|TWO_SIDED|95.0|-8.62|9.35||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||9.35|-8.62|0.9367
92398561|NCT03192176|184689416|SUPERIORITY||LSMean difference|-8.8|STANDARD_ERROR_OF_MEAN|4.57||0.0551|TWO_SIDED|95.0|-17.82|0.19||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||0.19|-17.82|0.0551
92398562|NCT03192176|184689416|SUPERIORITY||LSMean differencce|-3.2|STANDARD_ERROR_OF_MEAN|4.64||0.4936|TWO_SIDED|95.0|-12.32|5.96||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||5.96|-12.32|0.4936
92398563|NCT03192176|184689416|SUPERIORITY||LSMean difference|2.1|STANDARD_ERROR_OF_MEAN|4.59||0.6404|TWO_SIDED|95.0|-6.89|11.17||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||11.17|-6.89|0.6404
92398564|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.6|STANDARD_ERROR_OF_MEAN|4.45||0.8955|TWO_SIDED|95.0|-8.17|9.34||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||9.34|-8.17|0.8955
92398565|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|4.59||0.9776|TWO_SIDED|95.0|-8.91|9.17||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||9.17|-8.91|0.9776
92398566|NCT03192176|184689416|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|4.14||0.7852|TWO_SIDED|95.0|-9.27|7.01||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||7.01|-9.27|0.7852
92398567|NCT03192176|184689416|SUPERIORITY||LSMean difference|1.2|STANDARD_ERROR_OF_MEAN|4.15||0.7812|TWO_SIDED|95.0|-7.02|9.33||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||9.33|-7.02|0.7812
92154363|NCT03677128|184194977|OTHER||Mean Difference (Final Values)|21.1|||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
92154364|NCT04834362|184194992|OTHER|||||||0.677|||||||t-test, 2 sided|||||||0.677
92154365|NCT04834362|184194993|OTHER|||||||0.053|||||||t-test, 2 sided|||||||0.053
92154366|NCT04834362|184194994|OTHER|||||||0.918|||||||t-test, 2 sided|||||||0.918
92154367|NCT04834362|184194995|OTHER|||||||0.729|||||||Chi-squared|||||||0.729
92154368|NCT06017999|184195002|SUPERIORITY||Least Square Mean (LSM) difference|-153.35|||<|0.0001|TWO_SIDED|95.0|-173.8|-132.91|||ANCOVA|||||-132.91|-173.80|<0.0001
92338543|NCT03131687|184579045|OTHER||Mean Difference (Final Values)|-8.8|||<|0.001|TWO_SIDED|95.0|-11.3|-6.4|||Mixed Models Analysis|||||-6.4|-11.3|<0.001
92398568|NCT03192176|184689416|SUPERIORITY||LSMean difference|-4.7|STANDARD_ERROR_OF_MEAN|4.23||0.2648|TWO_SIDED|95.0|-13.07|3.61||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||3.61|-13.07|0.2648
92154369|NCT06017999|184195003|SUPERIORITY||Least Square Mean (LSM) difference|-131.64|||<|0.0001|TWO_SIDED|95.0|-153.13|-110.16|||ANCOVA|||||-110.16|-153.13|<0.0001
92274747|NCT04549259|184452054|OTHER|Single group change over time.|Odds Ratio (OR)|2.05||||0.4|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.40
92274748|NCT04549259|184452054|OTHER|Single group change over time.|Odds Ratio (OR)|1.42||||0.66|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.66
92274749|NCT04549259|184452054|OTHER|Single group change over time.|Odds Ratio (OR)|1.14||||0.87|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.87
92274750|NCT04549259|184452055|SUPERIORITY||B|-1.74|STANDARD_ERROR_OF_MEAN|1.47||0.24|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.24
92274751|NCT04549259|184452055|SUPERIORITY||B|-2.05|STANDARD_ERROR_OF_MEAN|1.46||0.17|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.17
92277679|NCT01844583|184457470|SUPERIORITY_OR_OTHER||LS Mean Ratio|1.28|||||TWO_SIDED|90.0|1.07|1.53|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||1.53|1.07|
92277680|NCT01844583|184457473|SUPERIORITY_OR_OTHER||LS Mean Ratio|1.03|||||TWO_SIDED|90.0|0.84|1.26|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||1.26|0.84|
92277681|NCT01844583|184457474|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.51|||||TWO_SIDED|90.0|0.41|0.62|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||0.62|0.41|
92277682|NCT01844583|184457475|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.53|||||TWO_SIDED|90.0|0.41|0.7|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||0.70|0.41|
92277683|NCT01625377|184457481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.34|||<|0.0001|TWO_SIDED|95.0|-21.34|-7.34|||ANCOVA|||||-7.34|-21.34|<0.0001
92277684|NCT03513497|184457494|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
92277685|NCT03513497|184457495|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92277686|NCT03513497|184457496|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.6
92277687|NCT03513497|184457497|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92277688|NCT01412541|184457500|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The evaluable sample size required for 90% power is 150 (50 Control plus 100 Test). This endpoint is not the sample-size driver of the study. Randomization of 476 subjects is expected to provide at least 405 evaluable subjects, after adjustment for up to 15% censoring) and approximately 99% power.||||||0.025|||||||Farrington and Manning|||"To assess if proportion of subjects with at least one safety event\* in the Test group is inferior or not inferior to that of Control group through 12-months Post index procedure (PPI) H0: The proportion of subjects with safety events in the Test group through 12-months PPI is clinically inferior to that of the Control group.~H1: The proportion of subjects with safety events in the Test group through 12-months PPI is clinically non-inferior to that of the Control group."||||0.025
92398569|NCT03192176|184689416|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|4.25||0.6312|TWO_SIDED|95.0|-10.41|6.32||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||6.32|-10.41|0.6312
92338544|NCT02137226|184579048|NON_INFERIORITY_OR_EQUIVALENCE|The 90% Confidence Interval (CI) for ACR20 at Week 12, rounded to 1 decimal place, had to be entirely contained in the predefined equivalence region \[-12.0%, 15.0%\]|Difference in proportions|5.9|||||TWO_SIDED|90.0|-0.9|12.7|||Regression, Logistic||Results from logistic regression model adjusted for treatment, prior exposure to a biologic agent (yes / no), Baseline DAS28 (ESR). Difference in ACR20 Response Rate (BI695501 - Humira, %) is presented.|The week 12 confidence interval for the estimated difference in proportion is produced using the cumulative distribution function method of Reeve||12.7|-0.9|
92338545|NCT02137226|184579049|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin is not applicable|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|90.0|-0.25|0.05|||ANCOVA||Difference in least square means of BI 695501 - Humira is presented.|Results based on DAS28 (ESR) mean changes from Baseline after 12 weeks of treatment = overall mean + treatment group + Baseline DAS28 (ESR) + prior exposure to a biologic agent + random error.||0.05|-0.25|
92338546|NCT02137226|184579049|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin is not applicable|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.17|0.23|||ANCOVA||Difference in least square means of BI 695501 - Humira is presented.|Results based on DAS28 (ESR) mean changes from Baseline after 24 weeks of treatment = overall mean + treatment group + Baseline DAS28 (ESR) + prior exposure to a biologic agent + random error.||0.23|-0.17|
92338547|NCT02137226|184579051|NON_INFERIORITY_OR_EQUIVALENCE|The 95% Confidence Interval (CI) for ACR20 at Week 24, rounded to 1 decimal place, had to be entirely contained in the predefined equivalence region \[-15.0%;+15.0%\]|Difference in proportions|4.5|||||TWO_SIDED|95.0|-3.4|12.5|||Regression, Logistic||Results from logistic regression model adjusted for treatment, prior exposure to a biologic agent (yes / no), Baseline DAS28 (ESR). Difference in ACR20 Response Rate (BI695501 - Humira, %) is presented.|The week 24 confidence interval for the estimated difference in proportion is produced using the cumulative distribution function method of Reeve||12.5|-3.4|
92338548|NCT01603407|184579075|SUPERIORITY|||||||0.3904|||||||Mixed Models Analysis|||||||0.3904
92398570|NCT03192176|184689416|SUPERIORITY||LSMean difference|1.4|STANDARD_ERROR_OF_MEAN|4.2||0.7416|TWO_SIDED|95.0|-6.89|9.67||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||9.67|-6.89|0.7416
92398571|NCT03192176|184689416|SUPERIORITY||LSMean difference|3.3|STANDARD_ERROR_OF_MEAN|4.12||0.4254|TWO_SIDED|95.0|-4.83|11.41||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||11.41|-4.83|0.4254
92398572|NCT03192176|184689416|SUPERIORITY||LSMean difference|3.4|STANDARD_ERROR_OF_MEAN|4.11||0.4038|TWO_SIDED|95.0|-4.66|11.54||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||11.54|-4.66|0.4038
92398573|NCT03192176|184689416|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|4.91||0.327|TWO_SIDED|95.0|-14.49|4.85||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||4.85|-14.49|0.3270
92398574|NCT03192176|184689416|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|4.85||0.7333|TWO_SIDED|95.0|-11.21|7.9||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||7.90|-11.21|0.7333
92398575|NCT03192176|184689416|SUPERIORITY||LSMean difference|-7.5|STANDARD_ERROR_OF_MEAN|4.99||0.1319|TWO_SIDED|95.0|-17.36|2.28||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||2.28|-17.36|0.1319
92398576|NCT03192176|184689416|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|5.0||0.6132|TWO_SIDED|95.0|-12.38|7.32||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||7.32|-12.38|0.6132
92398577|NCT03192176|184689416|SUPERIORITY||LSMean difference|-4.2|STANDARD_ERROR_OF_MEAN|4.98||0.4024|TWO_SIDED|95.0|-13.98|5.63||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||5.63|-13.98|0.4024
92398578|NCT03192176|184689416|SUPERIORITY||LSMean difference|-3.4|STANDARD_ERROR_OF_MEAN|4.88||0.4904|TWO_SIDED|95.0|-12.97|6.23||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||6.23|-12.97|0.4904
92398579|NCT03192176|184689416|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|4.87||0.5521|TWO_SIDED|95.0|-12.48|6.69||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||6.69|-12.48|0.5521
92398580|NCT03192176|184689416|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|4.5||0.737|TWO_SIDED|95.0|-10.38|7.35||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||7.35|-10.38|0.7370
92338549|NCT01603407|184579075|SUPERIORITY|||||||0.569|||||||Mixed Models Analysis|||||||0.5690
92338550|NCT01603407|184579075|SUPERIORITY|||||||0.1518|||||||Mixed Models Analysis|||||||0.1518
92338551|NCT01603407|184579076|SUPERIORITY|||||||0.7365|||||||Mixed Models Analysis|||||||0.7365
92215642|NCT00578786|184330649|SUPERIORITY_OR_OTHER||Median Difference (Net)|20.3|STANDARD_DEVIATION|96.05|||TWO_SIDED|95.0|10.6|30.1|||||Applies to Ambrisentan combined group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||30.1|10.6|
92215643|NCT00578786|184330650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7|STANDARD_DEVIATION|95.21|||TWO_SIDED|95.0|-18.9|20.3|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||20.3|-18.9|
92215644|NCT00578786|184330650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.8|STANDARD_DEVIATION|101.22|||TWO_SIDED|95.0|4.2|33.5|||||Applies to Ambrisentan 5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||33.5|4.2|
92215645|NCT00578786|184330650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.8|STANDARD_DEVIATION|87.07|||TWO_SIDED|95.0|10.1|45.4|||||Applies to Ambrisentan 10 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||45.4|10.1|
92215646|NCT00578786|184330650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.6|STANDARD_DEVIATION|96.54|||TWO_SIDED|95.0|6.8|26.4|||||Applies to Ambrisentan combined group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||26.4|6.8|
92215647|NCT00578786|184330652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08|STANDARD_DEVIATION|2.254|||TWO_SIDED|95.0|-0.55|0.38|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.38|-0.55|
92215648|NCT00578786|184330652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59|STANDARD_DEVIATION|2.45|||TWO_SIDED|95.0|-0.94|-0.23|||||Applies to Ambrisentan 5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.23|-0.94|
92215649|NCT00578786|184330652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_DEVIATION|2.4|||TWO_SIDED|95.0|-1.0|-0.03|||||Applies to Ambrisentan 10 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.03|-1.00|
92398581|NCT03192176|184689416|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|4.46||0.5269|TWO_SIDED|95.0|-11.62|5.96||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||5.96|-11.62|0.5269
92398582|NCT03192176|184689416|SUPERIORITY||LSMean difference|-3.9|STANDARD_ERROR_OF_MEAN|4.58||0.3937|TWO_SIDED|95.0|-12.93|5.11||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||5.11|-12.93|0.3937
92398583|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.9|STANDARD_ERROR_OF_MEAN|4.59||0.846|TWO_SIDED|95.0|-8.15|9.94||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||9.94|-8.15|0.8460
92215650|NCT00578786|184330652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_DEVIATION|2.393|||TWO_SIDED|95.0|-0.69|-0.2|||||Applies to Ambrisentan combined group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.20|-0.69|
92215651|NCT00578786|184330653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|STANDARD_DEVIATION|2.603|||TWO_SIDED|95.0|-0.31|0.76|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.76|-0.31|
92215652|NCT00578786|184330653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.33|STANDARD_DEVIATION|2.477|||TWO_SIDED|95.0|-0.68|0.03|||||Applies to Ambrisentan 5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.03|-0.68|
92215653|NCT00578786|184330653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.65|STANDARD_DEVIATION|2.305|||TWO_SIDED|95.0|-1.12|-0.18|||||Applies to Ambrisentan 10 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.18|-1.12|
92215654|NCT00578786|184330653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27|STANDARD_DEVIATION|2.48|||TWO_SIDED|95.0|-0.52|-0.02|||||Applies to Ambrisentan combined group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.02|-0.52|
92215655|NCT00578786|184330654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|2.593|||TWO_SIDED|95.0|-0.33|0.74|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.74|-0.33|
92215656|NCT00578786|184330654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14|STANDARD_DEVIATION|2.514|||TWO_SIDED|95.0|-0.51|0.22|||||Applies to Ambrisentan 5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.22|-0.51|
92215657|NCT00578786|184330654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48|STANDARD_DEVIATION|2.215|||TWO_SIDED|95.0|-0.93|-0.03|||||Applies to Ambrisentan 10 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.03|-0.93|
92215658|NCT00578786|184330654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14|STANDARD_DEVIATION|2.467|||TWO_SIDED|95.0|-0.39|0.11|||||Applies to Ambrisentan combined group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.11|-0.39|
92215659|NCT05105789|184330688|SUPERIORITY|"One-sample binomial test. Null hypothesis: NPV of BinaxNOW at Home testing is at most 91%.~Alternative hypothesis: NPV of BinaxNOW at Home testing is greater than 91%."|Kappa Co-efficient|100.0||||0.0015|TWO_SIDED|95.0|95.0|100.0|||one-sample binomial test||binary outcome|Negative Predictive Value||100|95|0.0015
92215660|NCT05105789|184330688|NON_INFERIORITY|non-inferiority margin of δ=5% and a sensitivity/specificity of PCR of 99%||||||0.3308|||||||one-sample binomial test|||Sensitivity H0: Sens-0.99 ≤ 0.05 vs. HA: Sens-0.99 \> -0.05||||0.3308
92338552|NCT01603407|184579076|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92215661|NCT05105789|184330688|NON_INFERIORITY|a non-inferiority margin of δ=5% and a sensitivity/specificity of PCR of 99%||||||0.0536|||||||one-sample binomial test|||Specificity H0: Spec-0.99 ≤ 0.05 vs. HA: Spec-0.99 \> -0.05||||0.0536
92215662|NCT05105789|184330689|EQUIVALENCE|Concordance between the PCR test results will be evaluated by calculating the Kappa statistic which will be reported along with corresponding two-sided 95% confidence interval. The nonparametric bootstrap technique will be used to construct the confidence interval. A kappa statistic of \>0.95 will be considered as sufficient to define lollipop swab test non-inferior to the gold-standard PCR testing of nasal swabs.|Kappa Co-efficient|0.91|||||TWO_SIDED|95.0|0.78|1.0||||||Kappa statistics for Nasal Swab PCR vs Lollipop Swab PCR||1.00|0.78|
92215663|NCT05105789|184330690|NON_INFERIORITY|a non-inferiority margin of δ=5% and a sensitivity/specificity of PCR testing of 99%||||||0.201|||||||one-sample binomial test|||Sensitivity H0: Sens-0.99 ≤ 0.05 vs. HA: Sens-0.99 \> -0.05||||0.2010
92215664|NCT05105789|184330690|NON_INFERIORITY|non-inferiority margin of δ=5% and a sensitivity/specificity of PCR testing of 99%||||||0.0705|||||||one-sample binomial test|||Specificity H0: Spec-0.99 ≤ 0.05 vs. HA: Spec-0.99 \> -0.05||||0.0705
92215665|NCT00038727|184330701|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.87|TWO_SIDED|95.0|0.81|1.28|||Log Rank|||||1.28|0.81|0.87
92215666|NCT00038727|184330701|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.95|TWO_SIDED|95.0|0.79|1.25|||Log Rank|||||1.25|0.79|0.95
92215667|NCT04178967|184330729|SUPERIORITY||Risk Difference (RD)|21.9||||4e-06|TWO_SIDED|95.0|14.2|29.6|||Cochran-Mantel-Haenszel|||||29.6|14.2|0.000004
92215668|NCT04178967|184330730|SUPERIORITY||Risk Difference (RD)|33.3|||<|1e-06|TWO_SIDED|95.0|24.4|42.2|||Cochran-Mantel-Haenszel|||||42.2|24.4|<0.000001
92215669|NCT04178967|184330731|SUPERIORITY||Risk Difference (RD)|0.7||||0.308463|TWO_SIDED|95.0|-0.3|1.7|||Cochran-Mantel-Haenszel|||||1.7|-0.3|0.308463
92215670|NCT04178967|184330732|SUPERIORITY||Risk Difference (RD)|8.1||||0.001607|TWO_SIDED|95.0|4.1|12.0|||Cochran-Mantel-Haenszel|||||12.0|4.1|0.001607
92215671|NCT04178967|184330733|SUPERIORITY||Risk Difference (RD)|21.9||||4e-06|TWO_SIDED|95.0|14.2|29.6|||Cochran-Mantel-Haenszel|||||29.6|14.2|0.000004
92215672|NCT04178967|184330734|SUPERIORITY||Risk Difference (RD)|20.7||||8e-06|TWO_SIDED|95.0|13.3|28.1|||Cochran-Mantel-Haenszel|||||28.1|13.3|0.000008
92215673|NCT04178967|184330735|SUPERIORITY||LS Mean Difference (Final Values)|-27.53|||<|1e-06|TWO_SIDED|95.0|-34.9|-20.2|||ANCOVA|||||-20.2|-34.9|<0.000001
92215674|NCT04178967|184330736|SUPERIORITY||Risk Difference (RD)|28.3|||<|1e-06|TWO_SIDED|95.0|20.0|36.5|||Cochran-Mantel-Haenszel|||||36.5|20.0|<0.000001
92215675|NCT04178967|184330737|SUPERIORITY||Risk Difference (RD)|29.7|||<|1e-06|TWO_SIDED|95.0|21.0|38.4|||Cochran-Mantel-Haenszel|||||38.4|21.0|<0.000001
92215676|NCT04178967|184330738|SUPERIORITY||LS Mean Difference (Final Values)|-33.57|||<|1e-06|TWO_SIDED|95.0|-41.2|-26.0|||ANCOVA|||||-26.0|-41.2|<0.000001
92215677|NCT04178967|184330739|SUPERIORITY||LS Mean Difference (Final Values)|-16.2|||<|1e-06|TWO_SIDED|95.0|-20.3|-12.0|||Mixed Models Analysis|||||-12.0|-20.3|<0.000001
92215678|NCT04178967|184330740|SUPERIORITY||Risk Difference (RD)|4.9||||0.022921|TWO_SIDED|95.0|1.4|8.4|||Cochran-Mantel-Haenszel|||||8.4|1.4|0.022921
92215679|NCT04178967|184330741|SUPERIORITY||LS Mean Difference (Final Values)|-4.9|||<|1e-06|TWO_SIDED|95.0|-6.3|-3.5|||ANCOVA|||||-3.5|-6.3|<0.000001
92215680|NCT04178967|184330742|SUPERIORITY||Risk Difference (RD)|32.9||||1e-06|TWO_SIDED|95.0|22.2|43.6|||Cochran-Mantel-Haenszel|||||43.6|22.2|0.000001
92215681|NCT04178967|184330743|SUPERIORITY||Risk Difference (RD)|33.0||||1e-06|TWO_SIDED|95.0|22.2|43.8|||Cochran-Mantel-Haenszel|||||43.8|22.2|0.000001
92215682|NCT04178967|184330744|SUPERIORITY||LS Mean Difference (Final Values)|-37.09|||<|1e-06|TWO_SIDED|95.0|-47.4|-26.8|||ANCOVA|||||-26.8|-47.4|<0.000001
92215683|NCT04178967|184330745|SUPERIORITY||LS Mean Difference (Final Values)|-0.7|||<|1e-06|TWO_SIDED|95.0|-0.9|-0.5|||ANCOVA|||||-0.5|-0.9|<0.000001
92215684|NCT04178967|184330746|SUPERIORITY||Risk Difference (RD)|18.9||||0.000571|TWO_SIDED|95.0|9.6|28.1|||Cochran-Mantel-Haenszel|||||28.1|9.6|0.000571
92215685|NCT04178967|184330747|SUPERIORITY||Risk Difference (RD)|0.4||||0.469221|TWO_SIDED|95.0|-0.4|1.2|||Cochran-Mantel-Haenszel|||||1.2|-0.4|0.469221
92215686|NCT04178967|184330748|SUPERIORITY||Risk Difference (RD)|2.7||||0.113194|TWO_SIDED|95.0|-0.1|5.4|||Cochran-Mantel-Haenszel|||||5.4|-0.1|0.113194
92215687|NCT04178967|184330749|SUPERIORITY||Risk Difference (RD)|13.2||||0.00023|TWO_SIDED|95.0|7.7|18.7|||Cochran-Mantel-Haenszel|||||18.7|7.7|0.000230
92215688|NCT04178967|184330750|SUPERIORITY||Risk Difference (RD)|0.4||||0.46816|TWO_SIDED|95.0|-0.4|1.3|||Cochran-Mantel-Haenszel|||||1.3|-0.4|0.468160
92215689|NCT04178967|184330751|SUPERIORITY||Risk Difference (RD)|2.9||||0.11577|TWO_SIDED|95.0|-0.1|5.8|||Cochran-Mantel-Haenszel|||||5.8|-0.1|0.115770
92215690|NCT04178967|184330752|SUPERIORITY||Risk Difference (RD)|14.2||||0.000252|TWO_SIDED|95.0|8.2|20.1|||Cochran-Mantel-Haenszel|||||20.1|8.2|0.000252
92215691|NCT04178967|184330753|SUPERIORITY||LS Mean Difference (Final Values)|-30.76|||<|1e-06|TWO_SIDED|95.0|-36.93|-24.59|||ANCOVA|||||-24.59|-36.93|<0.000001
92215692|NCT04178967|184330755|SUPERIORITY||Risk Difference (RD)|12.8||||0.238245|TWO_SIDED|95.0|-9.5|35.1|||Cochran-Mantel-Haenszel|||||35.1|-9.5|0.238245
92215693|NCT04178967|184330755|SUPERIORITY||Risk Difference (RD)|4.8||||0.612427|TWO_SIDED|95.0|-17.8|27.3|||Cochran-Mantel-Haenszel|||||27.3|-17.8|0.612427
92215694|NCT04178967|184330756|SUPERIORITY||Risk Difference (RD)|32.6||||0.033876|TWO_SIDED|95.0|2.6|62.5|||Cochran-Mantel-Haenszel|||||62.5|2.6|0.033876
92215695|NCT04178967|184330756|SUPERIORITY||Risk Difference (RD)|13.4||||0.407417|TWO_SIDED|95.0|-17.5|44.3|||Cochran-Mantel-Haenszel|||||44.3|-17.5|0.407417
92215696|NCT04178967|184330757|SUPERIORITY||Risk Difference (RD)|20.3||||0.159281|TWO_SIDED|95.0|-11.4|52.0|||Cochran-Mantel-Haenszel|||||52.0|-11.4|0.159281
92215697|NCT04178967|184330757|SUPERIORITY||Risk Difference (RD)|20.4||||0.16495|TWO_SIDED|95.0|-10.6|51.4|||Cochran-Mantel-Haenszel|||||51.4|-10.6|0.164950
92215698|NCT04178967|184330758|SUPERIORITY||Risk Difference (RD)|19.7||||0.179704|TWO_SIDED|95.0|-12.2|51.2|||Cochran-Mantel-Haenszel|||||51.2|-12.2|0.179704
92215699|NCT04178967|184330758|SUPERIORITY||Risk Difference (RD)|24.3||||0.08308|TWO_SIDED|95.0|-6.5|55.1|||Cochran-Mantel-Haenszel|||||55.1|-6.5|0.083080
92338553|NCT01603407|184579076|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92338554|NCT01603407|184579077|SUPERIORITY|||||||0.2456|||||||Mixed Models Analysis|||||||0.2456
92338555|NCT01603407|184579077|SUPERIORITY|||||||0.0369|||||||Mixed Models Analysis|||||||0.0369
92338556|NCT01603407|184579077|SUPERIORITY|||||||0.3589|||||||Mixed Models Analysis|||||||0.3589
92338557|NCT01603407|184579078|SUPERIORITY|||||||0.7335|||||||Mixed Models Analysis|||||||0.7335
92398584|NCT03192176|184689416|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|4.57||0.5673|TWO_SIDED|95.0|-11.62|6.38||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||6.38|-11.62|0.5673
92398585|NCT03192176|184689416|SUPERIORITY||LSMean difference|4.0|STANDARD_ERROR_OF_MEAN|4.49||0.3791|TWO_SIDED|95.0|-4.88|12.79||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||12.79|-4.88|0.3791
92398586|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.9|STANDARD_ERROR_OF_MEAN|4.47||0.834|TWO_SIDED|95.0|-7.86|9.73||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||9.73|-7.86|0.8340
92338558|NCT01603407|184579078|SUPERIORITY|||||||0.0004|||||||Mixed Models Analysis|||||||0.0004
92338559|NCT01603407|184579078|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
92398587|NCT03192176|184689416|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|4.67||0.9457|TWO_SIDED|95.0|-9.51|8.88||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||8.88|-9.51|0.9457
92398588|NCT03192176|184689416|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|4.65||0.657|TWO_SIDED|95.0|-11.22|7.09||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||7.09|-11.22|0.6570
92398589|NCT03192176|184689416|SUPERIORITY||LSMean difference|-5.7|STANDARD_ERROR_OF_MEAN|4.73||0.231|TWO_SIDED|95.0|-15.0|3.64||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||3.64|-15.00|0.2310
92398590|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.6|STANDARD_ERROR_OF_MEAN|4.77||0.9066|TWO_SIDED|95.0|-8.84|9.96||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||9.96|-8.84|0.9066
92398591|NCT03192176|184689416|SUPERIORITY||LSMean differnce|-5.0|STANDARD_ERROR_OF_MEAN|4.71||0.2914|TWO_SIDED|95.0|-14.26|4.3||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||4.30|-14.26|0.2914
92398592|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|4.64||0.9277|TWO_SIDED|95.0|-8.73|9.57||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||9.57|-8.73|0.9277
92338560|NCT01603407|184579079|SUPERIORITY|||||||0.9532|||||||Mixed Models Analysis|||||||0.9532
92338561|NCT01603407|184579079|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||||||0.0040
92338562|NCT01603407|184579079|SUPERIORITY|||||||0.0046|||||||Mixed Models Analysis|||||||0.0046
92338563|NCT01603407|184579080|SUPERIORITY|||||||0.332|||||||Mixed Models Analysis|||||||0.3320
92338564|NCT01603407|184579080|SUPERIORITY|||||||0.1248|||||||Mixed Models Analysis|||||||0.1248
92338565|NCT01603407|184579080|SUPERIORITY|||||||0.5854|||||||Mixed Models Analysis|||||||0.5854
92338566|NCT01603407|184579081|SUPERIORITY|||||||0.30814|||||||Mixed Models Analysis|||||||0.30814
92338567|NCT01603407|184579081|SUPERIORITY|||||||0.1405|||||||Mixed Models Analysis|||||||0.1405
92338568|NCT01603407|184579081|SUPERIORITY|||||||0.664|||||||Mixed Models Analysis|||||||0.6640
92338569|NCT01603407|184579083|SUPERIORITY|||||||0.8345|||||||Mixed Models Analysis|||||||0.8345
92338570|NCT01603407|184579083|SUPERIORITY|||||||0.3762|||||||Mixed Models Analysis|||||||0.3762
92338571|NCT01603407|184579083|SUPERIORITY|||||||0.5059|||||||Mixed Models Analysis|||||||0.5059
92338572|NCT01603407|184579084|SUPERIORITY|||||||0.5947|||||||Mixed Models Analysis|||||||0.5947
92338573|NCT01603407|184579084|SUPERIORITY|||||||0.1098|||||||Mixed Models Analysis|||||||0.1098
92338574|NCT01603407|184579084|SUPERIORITY|||||||0.2803|||||||Mixed Models Analysis|||||||0.2803
92338575|NCT01603407|184579085|SUPERIORITY|||||||0.3875|||||||Mixed Models Analysis|||||||0.3875
92338576|NCT01603407|184579085|SUPERIORITY|||||||0.424|||||||Mixed Models Analysis|||||||0.4240
92338577|NCT01603407|184579085|SUPERIORITY|||||||0.9683|||||||Mixed Models Analysis|||||||0.9683
92338578|NCT01603407|184579086|SUPERIORITY|||||||0.6161|||||||Mixed Models Analysis|||||||0.6161
92338579|NCT01603407|184579086|SUPERIORITY|||||||0.7302|||||||Mixed Models Analysis|||||||0.7302
92338580|NCT01603407|184579086|SUPERIORITY|||||||0.9007|||||||Mixed Models Analysis|||||||0.9007
92338581|NCT01603407|184579087|SUPERIORITY|||||||0.8138|||||||Mixed Models Analysis|||||||0.8138
92338582|NCT01603407|184579087|SUPERIORITY|||||||0.5995|||||||Mixed Models Analysis|||||||0.5995
92338583|NCT01603407|184579087|SUPERIORITY|||||||0.7616|||||||Mixed Models Analysis|||||||0.7616
92338584|NCT01603407|184579088|SUPERIORITY|||||||0.68|||||||Mixed Models Analysis|||||||0.6800
92215700|NCT04178967|184330759|SUPERIORITY||LS Mean Difference (Final Values)|-6.29||||0.176748|TWO_SIDED|95.0|-15.46|2.87|||ANCOVA|||||2.87|-15.46|0.176748
92215701|NCT04178967|184330759|SUPERIORITY||LS Mean Difference (Final Values)|-6.25||||0.183151|TWO_SIDED|95.0|-15.48|2.99|||ANCOVA|||||2.99|-15.48|0.183151
92338585|NCT01603407|184579088|SUPERIORITY|||||||0.4365|||||||Mixed Models Analysis|||||||0.4365
92338586|NCT01603407|184579088|SUPERIORITY|||||||0.7281|||||||Mixed Models Analysis|||||||0.7281
92338587|NCT01603407|184579089|SUPERIORITY||Mean Difference (Net)|-1.545||||0.0041|TWO_SIDED|98.3|-2.6611|-0.2479|||Mixed Models Analysis|||||-0.2479|-2.6611|0.0041
92338588|NCT01603407|184579089|SUPERIORITY||Mean Difference (Net)|0.9076||||0.9076|TWO_SIDED|98.3|-1.248|1.1331|||Mixed Models Analysis|||||1.1331|-1.248|0.9076
92338589|NCT01603407|184579089|SUPERIORITY||Mean Difference (Net)|1.3971||||0.0054|TWO_SIDED|98.3|0.2014|2.5927|||Mixed Models Analysis|||||2.5927|0.2014|0.0054
92338590|NCT01603407|184579090|SUPERIORITY||Mean Difference (Net)|-1.48|||<|0.0001|TWO_SIDED|98.3|-2.3242|-0.6358|||Mixed Models Analysis|||||-0.6358|-2.3242|<0.0001
92338591|NCT01603407|184579090|SUPERIORITY||Mean Difference (Net)|3.054|||<|0.0001|TWO_SIDED|98.3|2.2222|3.8857|||Mixed Models Analysis|||||3.8857|2.2222|<0.0001
92338592|NCT01603407|184579090|SUPERIORITY||Mean Difference (Net)|4.534|||<|0.0001|TWO_SIDED|98.3|3.6941|5.3738|||Mixed Models Analysis|||||5.3738|3.6941|<0.0001
92338593|NCT01603407|184579091|SUPERIORITY||Mean Difference (Net)|-0.6205||||0.0853|TWO_SIDED|98.3|-1.4845|0.2434|||Mixed Models Analysis|||||0.2434|-1.4845|0.0853
92338594|NCT01603407|184579091|SUPERIORITY||Mean Difference (Net)|-0.876||||0.0143|TWO_SIDED|98.3|-1.7292|-0.0229|||Mixed Models Analysis|||||-0.0229|-1.7292|0.0143
92338595|NCT01603407|184579091|SUPERIORITY||Mean Difference (Net)|-0.2555||||0.4731|TWO_SIDED|98.3|-1.1117|0.6007|||Mixed Models Analysis|||||0.6007|-1.1117|0.4731
92398593|NCT03192176|184689416|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|4.64||0.9367|TWO_SIDED|95.0|-9.51|8.77||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||8.77|-9.51|0.9367
92338596|NCT02692586|184579104|SUPERIORITY|To detect an RV/LV ratio change \> 0.12 with a power of 80% at one-sided alpha = 0.025, the necessary sample size was calculated to be ≥ 52, 31, or 21 patients (to detect RV/LV ratio changes of 0.20, 0.225, or 0.25, respectively).|||||<|0.0001|||||||t-test, 1 sided|||||||< 0.0001
92338597|NCT02692586|184579105|SUPERIORITY|The hypothesized composite MAE rate was expected to be about 13%. The necessary sample size to detect a difference from an expected MAE rate of 13% with 80% power was calculated to be 103 patients (with a one-sided p value = 0.05).|||||<|0.0001|||||||t-test, 1 sided|||||||< 0.0001
92338598|NCT01063855|184579123|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.69|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|0.837|2.542||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error was rate.|ANCOVA|ANCOVA model included treatment, PDE5I stratum, baseline Average IELT stratum, and region, as cofactors and baseline Average IELT as a covariate.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm minus PDE5I + Placebo arm difference.|Null Hypothesis: No difference at Week 12 last postbaseline observations carried forward (LPOCF) Alternative Hypothesis:- Difference at Week 12 LPOCF \>0.||2.542|0.837|<0.001
92398594|NCT03192176|184689416|SUPERIORITY||LSMean difference|5.1|STANDARD_ERROR_OF_MEAN|4.35||0.2407|TWO_SIDED|95.0|-3.46|13.69||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||13.69|-3.46|0.2407
92338599|NCT01063855|184579124|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.6||||0.001|TWO_SIDED|95.0|4.9|22.3||A hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type 1 error rate.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test, controlling for type of PDE5I stratum, baseline average IELT stratum, and region.|Risk Difference (RD) = PDE5I + Dapoxetine arm - PDE5I + placebo arm.|Null hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF). Alternative hypothesis: Difference at Week 12 LPOCF \> 0.||22.3|4.9|0.001
92398595|NCT03192176|184689416|SUPERIORITY||LSMean difference|6.9|STANDARD_ERROR_OF_MEAN|4.55||0.1305|TWO_SIDED|95.0|-2.06|15.89||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||15.89|-2.06|0.1305
92338600|NCT01063855|184579125|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.2||||0.013|TWO_SIDED|95.0|1.1|17.2||A hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type 1 error rate.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel (CMH) test, controlling for type of PDE5I stratum, baseline average IELT stratum, and region.|Risk Difference (RD) = PDE5I + Dapoxetine arm - PDE5I + Placebo arm.|Null Hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF).||17.2|1.1|0.013
92215702|NCT04178967|184330760|SUPERIORITY||LS Mean Difference (Final Values)|0.1||||1e-06|TWO_SIDED|95.0|0.1|0.1|||ANCOVA|||UK||0.1|0.1|0.000001
92215703|NCT04178967|184330760|SUPERIORITY||LS Mean Difference (Final Values)|0.1||||1e-06|TWO_SIDED|95.0|0.0|0.1|||ANCOVA|||US||0.1|0.0|0.000001
92215704|NCT04178967|184330761|SUPERIORITY||LS Mean Difference (Final Values)|4.5||||0.005304|TWO_SIDED|95.0|1.3|7.6|||ANCOVA|||||7.6|1.3|0.005304
92215705|NCT04178967|184330762|SUPERIORITY||LS Mean Difference (Final Values)|-6.0|||<|1e-06|TWO_SIDED|95.0|-7.7|-4.3|||Mixed Models Analysis|||||-4.3|-7.7|<0.000001
92215706|NCT04178967|184330763|SUPERIORITY||LS Mean Difference (Final Values)|-2.91||||0.241275|TWO_SIDED|95.0|-7.85|2.03|||ANCOVA|||||2.03|-7.85|0.241275
92215707|NCT04178967|184330764|SUPERIORITY||LS Mean Difference (Final Values)|-2.74||||0.000116|TWO_SIDED|95.0|-4.12|-1.36|||ANCOVA|||||-1.36|-4.12|0.000116
92215708|NCT04178967|184330765|SUPERIORITY||LS Mean Difference (Final Values)|-1.1||||0.645132|TWO_SIDED|95.0|-5.86|3.67|||ANCOVA|||||3.67|-5.86|0.645132
92215709|NCT04178967|184330766|SUPERIORITY||LS Mean Difference (Final Values)|-2.75||||3.1e-05|TWO_SIDED|95.0|-4.03|-1.47|||ANCOVA|||||-1.47|-4.03|0.000031
92338601|NCT01063855|184579126|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78||||0.002|TWO_SIDED|95.0|1.204|2.619||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error.|Regression, Logistic|Logistic Regression model included treatment, type of PDE5i stratum, baseline Average IELT stratum, and region, as factors.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm over PDE5I + Placebo arm ratio.|Null Hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF) Alternative Hypothesis: PDE5I + Dapoxetine is superior to PDE5I + Placebo with respect to the outcome measure at Week 12 LPOCF.||2.619|1.204|0.002
92338602|NCT01063855|184579127|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63||||0.007|TWO_SIDED|95.0|1.108|2.394||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error was rate.|Regression, Logistic|Logistic Regression model included treatment, type of PDE5i stratum, baseline Average IELT stratum, and region, as factors.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm over PDE5I + Placebo arm ratio.|Null Hypothesis: No difference at Week 12 last postbaseline observation carrried forward (LPOCF) Alternative Hypothesis:- PDE5I + Dapoxetine is superior to PDE5I + Placebo with respect to the outcome measure at Week 12 LPOCF.||2.394|1.108|0.007
92338603|NCT01063855|184579128|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.42|||<|0.001|TWO_SIDED|95.0|1.642|3.568||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error was rate|Regression, Logistic|Logistic Regression model included treatment, type of PDE5i stratum, baseline Average IELT stratum, and region, as factors.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm over PDE5I + Placebo arm ratio.|Null Hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF) Alternative Hypothesis:- PDE5I + Dapoxetine is superior to PDE5I + Placebo with respect to the outcome measure at Week 12.||3.568|1.642|<0.001
92338604|NCT01063855|184579129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33|||>|0.05|TWO_SIDED|95.0|0.897|1.965||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error was rate.|Regression, Logistic|Logistic Regression model included treatment, type of PDE5i stratum, baseline Average IELT stratum, and region, as factors.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm over PDE5I + Placebo arm ratio.|Null Hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF) Alternative Hypothesis:- PDE5I + Dapoxetine is superior to PDE5I + Placebo with respect to the outcome measure at Week 12 LPOCF.||1.965|0.897|>0.05
92338605|NCT01063855|184579130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21|||<|0.001|TWO_SIDED|95.0|1.425|3.423||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error was rate.|Regression, Logistic|Logistic Regression model included treatment, type of PDE5i stratum, baseline Average IELT stratum, and region, as factors.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm over PDE5I + Placebo arm ratio.|Null Hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF) Alternative Hypothesis:- PDE5I + Dapoxetine is superior to PDE5I + Placebo with respect to the outcome measure at Week 12.||3.423|1.425|<0.001
92338606|NCT01165307|184579131|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92338607|NCT01165307|184579132|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||Comparison between the groups for the SF-12 Physical Scale.||||0.82
92338608|NCT01165307|184579132|SUPERIORITY_OR_OTHER|||||||0.11|||||||t-test, 2 sided|||Comparison between the groups for the SF-12 mental scale.||||0.11
92338609|NCT01165307|184579133|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92338610|NCT01165307|184579134|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
92338611|NCT01165307|184579135|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92338612|NCT01165307|184579136|SUPERIORITY_OR_OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
92338613|NCT01165307|184579137|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
92338614|NCT01165307|184579141|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92338615|NCT02492802|184579143|OTHER|||||||0.77|||||||The Wald Type III test|||||||0.77
92338616|NCT01111565|184579211|SUPERIORITY||Treatment Difference|-5.4|||=|0.079|TWO_SIDED|95.0|-11.5|0.7|||ANCOVA|||||0.7|-11.5|=0.079
92338617|NCT01111565|184579211|SUPERIORITY||Treatment Difference|-5.2|||=|0.085|TWO_SIDED|95.0|-11.2|0.7|||ANCOVA|||||0.7|-11.2|=0.085
92338618|NCT01111565|184579212|SUPERIORITY||Treatment Difference|-0.5|||=|0.148|TWO_SIDED|95.0|-1.1|0.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Row Mean Scores Test was used to determine the p-value.||||0.1|-1.1|=0.148
92338619|NCT01111565|184579212|SUPERIORITY||Treatment Difference|-0.4|||=|0.242|TWO_SIDED|95.0|-1.0|0.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Row Mean Scores Test was used to determine the p-value.||||0.3|-1.0|=0.242
92338620|NCT01111565|184579213|SUPERIORITY||Treatment Difference|0.1|||=|0.91|TWO_SIDED|95.0|-1.8|2.1|||ANCOVA|||||2.1|-1.8|=0.910
92338621|NCT01111565|184579213|SUPERIORITY||Treatment Difference|-1.0|||=|0.291|TWO_SIDED|95.0|-3.0|0.9|||ANCOVA|||||0.9|-3.0|=0.291
92338622|NCT02683239|184579230|SUPERIORITY||Least Squares Mean|-0.73|STANDARD_ERROR_OF_MEAN|0.221|=|0.001|TWO_SIDED|95.0|-1.159|-0.293|||Mixed Models Analysis|||||-0.293|-1.159|= 0.0010
92338623|NCT02683239|184579230|SUPERIORITY||Least Squares Mean|-1.22|STANDARD_ERROR_OF_MEAN|0.217|<|0.0001|TWO_SIDED|95.0|-1.646|-0.793|||Mixed Models Analysis|||||-0.793|-1.646|< 0.0001
92338624|NCT02683239|184579230|SUPERIORITY||Least Squares Mean|-1.23|STANDARD_ERROR_OF_MEAN|0.222|<|0.0001|TWO_SIDED|95.0|-1.664|-0.793|||Mixed Models Analysis|||||-0.793|-1.664|< 0.0001
92215710|NCT04178967|184330767|SUPERIORITY||LS Mean Difference (Final Values)|0.0||||0.974417|TWO_SIDED|95.0|-0.27|0.26|||ANCOVA|||||0.26|-0.27|0.974417
92215711|NCT04178967|184330768|SUPERIORITY||LS Mean Difference (Final Values)|-4.2||||0.084769|TWO_SIDED|95.0|-9.1|0.6|||Mixed Models Analysis|||||0.6|-9.1|0.084769
92338625|NCT02683239|184579230|SUPERIORITY||Least Squares Mean|-1.04|STANDARD_ERROR_OF_MEAN|0.222|<|0.0001|TWO_SIDED|95.0|-1.477|-0.606|||Mixed Models Analysis|||||-0.606|-1.477|< 0.0001
92338626|NCT02683239|184579231|SUPERIORITY||Least Squares Mean|-0.74|STANDARD_ERROR_OF_MEAN|0.218|=|0.0007|TWO_SIDED|95.0|-1.163|-0.309|||Mixed Models Analysis|||||-0.309|-1.163|= 0.0007
92338627|NCT02683239|184579231|SUPERIORITY||Least Squares Mean|-1.2|STANDARD_ERROR_OF_MEAN|0.218|<|0.0001|TWO_SIDED|95.0|-1.624|-0.768|||Mixed Models Analysis|||||-0.768|-1.624|< 0.0001
92338628|NCT02683239|184579231|SUPERIORITY||Least Squares Mean|-1.26|STANDARD_ERROR_OF_MEAN|0.223|<|0.0001|TWO_SIDED|95.0|-1.698|-0.822|||Mixed Models Analysis|||||-0.822|-1.698|< 0.0001
92338629|NCT02683239|184579231|SUPERIORITY||Least Squares Mean|-1.13|STANDARD_ERROR_OF_MEAN|0.222|<|0.0001|TWO_SIDED|95.0|-1.564|-0.695|||Mixed Models Analysis|||||-0.695|-1.564|< 0.0001
92398596|NCT03192176|184689416|SUPERIORITY||LSMean difference|5.7|STANDARD_ERROR_OF_MEAN|4.59||0.2152|TWO_SIDED|95.0|-3.34|14.75||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||14.75|-3.34|0.2152
92154370|NCT01702428|184195034|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% confidence interval (CI) on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to measles virus.|Difference in seroresponse rate|-0.54|||||TWO_SIDED|95.0|-1.69|0.58|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L2 Group) in percentage of subjects with anti-measles antibody concentration ≥200 mIU/mL.||0.58|-1.69|
92154371|NCT01702428|184195034|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% confidence interval (CI) on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to measles virus.|Difference in seroresponse rate|0.79|||||TWO_SIDED|95.0|-0.35|1.98|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L2 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-measles antibody concentration ≥200 mIU/mL.||1.98|-0.35|
92154372|NCT01702428|184195034|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% confidence interval (CI) on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to measles virus.|Difference in seroresponse rate|0.25|||||TWO_SIDED|95.0|-0.98|1.5|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-measles antibody concentration ≥200 mIU/mL.||1.50|-0.98|
92154373|NCT01702428|184195035|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|0.99|||||TWO_SIDED|95.0|0.91|1.06|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L2 Group) for antibodies to measles virus at Day 42.||1.06|0.91|
92154374|NCT01702428|184195035|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|0.97|||||TWO_SIDED|95.0|0.9|1.05|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L3 Group) for antibodies to measles virus at Day 42.||1.05|0.90|
92338630|NCT02683239|184579232|SUPERIORITY||Least Squares Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.09|=|0.023|TWO_SIDED|95.0|-0.38|-0.028|||Mixed Models Analysis|||||-0.028|-0.380|= 0.0230
92338631|NCT02683239|184579232|SUPERIORITY||Least Squares Mean|-0.27|STANDARD_ERROR_OF_MEAN|0.088|=|0.0025|TWO_SIDED|95.0|-0.437|-0.093|||Mixed Models Analysis|||||-0.093|-0.437|= 0.0025
92338632|NCT02683239|184579232|SUPERIORITY||Least Squares Mean|-0.32|STANDARD_ERROR_OF_MEAN|0.09|=|0.0003|TWO_SIDED|95.0|-0.496|-0.145|||Mixed Models Analysis|||||-0.145|-0.496|= 0.0003
92338633|NCT02683239|184579232|SUPERIORITY||Least Squares Mean|-0.29|STANDARD_ERROR_OF_MEAN|0.089|=|0.001|TWO_SIDED|95.0|-0.466|-0.118|||Mixed Models Analysis|||||-0.118|-0.466|= 0.0010
92338634|NCT03150082|184579261|EQUIVALENCE|Bio-equivalence analysis comparing ciprofloxacin test and reference product has been presented.|Percent ratio|96.88|||||TWO_SIDED|90.0|91.13|103.0|||||Percent ratio (GR37547 500 mg/ciprofloxacin 500 mg reference) has been presented.|||103.00|91.13|
92338635|NCT03150082|184579262|EQUIVALENCE|Bio-equivalence analysis comparing ciprofloxacin test and reference product has been presented.|Percent ratio|93.16|||||TWO_SIDED|90.0|86.09|100.82|||||Percent ratio (GR37547 500 mg/ciprofloxacin 500 mg reference) has been presented.|||100.82|86.09|
92338636|NCT03150082|184579263|EQUIVALENCE|Bio-equivalence analysis comparing ciprofloxacin test and reference product has been presented.|Percent ratio|96.96|||||TWO_SIDED|90.0|91.17|103.11|||||Percent ratio (GR37547 500 mg/ciprofloxacin 500 mg reference) has been presented.|||103.11|91.17|
92338637|NCT03150082|184579264|EQUIVALENCE|Bio-equivalence analysis comparing ciprofloxacin test and reference product has been presented.||||||0.3499||||||"P value was analyzed using a nonparametric Wilcoxon signed-rank test."|Wilcoxon signed-rank test|||||||0.3499
92338638|NCT01718483|184579286|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.35|||<|0.001|TWO_SIDED|95.0|-1.7|-1.01|||Mixed Models Repeated Measures Analysis|||||-1.01|-1.70|<0.001
92338639|NCT01718483|184579287|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92338640|NCT01718483|184579288|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92338641|NCT01718483|184579289|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-6.35|||<|0.001|TWO_SIDED|95.0|-7.17|-5.54|||Mixed Models Repeated Measures Analysis|||||-5.54|-7.17|<0.001
92338642|NCT01718483|184579290|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-7.4|||<|0.001|TWO_SIDED|95.0|-8.93|-5.88|||Mixed Models Repeated Measures Analysis|||||-5.88|-8.93|<0.001
92338643|NCT01718483|184579291|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.199|||<|0.001|TWO_SIDED|95.0|-0.31|-0.088|||ANCOVA|||||-0.088|-0.310|<0.001
92338644|NCT01718483|184579292|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.211|||<|0.001|TWO_SIDED|95.0|-0.33|-0.092|||ANCOVA|||||-0.092|-0.330|<0.001
92274752|NCT04549259|184452055|SUPERIORITY||B|0.64|STANDARD_ERROR_OF_MEAN|1.47||0.66|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.66
92398597|NCT03192176|184689416|SUPERIORITY||LSMean difference|7.6|STANDARD_ERROR_OF_MEAN|4.72||0.1099|TWO_SIDED|95.0|-1.73|16.89||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||16.89|-1.73|0.1099
92398598|NCT03192176|184689416|SUPERIORITY||LSMean difference|7.4|STANDARD_ERROR_OF_MEAN|4.75||0.1219|TWO_SIDED|95.0|-1.99|16.75||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||16.75|-1.99|0.1219
92398599|NCT03192176|184689416|SUPERIORITY||LSMean difference|9.6|STANDARD_ERROR_OF_MEAN|4.44||0.0316|TWO_SIDED|95.0|0.85|18.36||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||18.36|0.85|0.0316
92398600|NCT03192176|184689416|SUPERIORITY||LSMean difference|6.4|STANDARD_ERROR_OF_MEAN|4.47||0.1557|TWO_SIDED|95.0|-2.44|15.16||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||15.16|-2.44|0.1557
92398601|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.9|STANDARD_ERROR_OF_MEAN|4.97||0.8592|TWO_SIDED|95.0|-8.91|10.67||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||10.67|-8.91|0.8592
92398602|NCT03192176|184689416|SUPERIORITY||LSMean difference|2.1|STANDARD_ERROR_OF_MEAN|5.15||0.6891|TWO_SIDED|95.0|-8.08|12.2||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||12.20|-8.08|0.6891
92154375|NCT01702428|184195035|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.01|||||TWO_SIDED|95.0|0.94|1.09|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L1 Group) for antibodies to measles virus at Day 42.||1.09|0.94|
92274753|NCT04549259|184452055|SUPERIORITY||B|-0.21|STANDARD_ERROR_OF_MEAN|1.46||0.89|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.89
92274754|NCT04549259|184452055|OTHER|Single group change over time.|B|-1.6|STANDARD_ERROR_OF_MEAN|0.75||0.045|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.045
92274755|NCT04549259|184452055|OTHER|Single group change over time.|B|-1.81|STANDARD_ERROR_OF_MEAN|0.95||0.07|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.07
92274756|NCT04549259|184452055|OTHER|Single group change over time.|B|-0.51|STANDARD_ERROR_OF_MEAN|0.88||0.57|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.57
92338645|NCT01718483|184579293|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.02||||0.308|TWO_SIDED|95.0|-0.07|0.02|||ANCOVA|||||0.02|-0.07|0.308
92338646|NCT01718483|184579294|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Cochran-Mantel-Haenszel|||||||<0.001
92338647|NCT01718483|184579295|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.77|||<|0.001|TWO_SIDED|95.0|-2.24|-1.3||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||||-1.30|-2.24|<0.001
92338648|NCT01718483|184579296|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.65|||<|0.001|TWO_SIDED|95.0|0.72|2.57||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Cognitive Restraint of Eating||2.57|0.72|<0.001
92338649|NCT01718483|184579296|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-4.19|||<|0.001|TWO_SIDED|95.0|-4.98|-3.39||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Disinhibition of Eating||-3.39|-4.98|<0.001
92338650|NCT01718483|184579296|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-4.7|||<|0.001|TWO_SIDED|95.0|-5.49|-3.91||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Perceived Hunger||-3.91|-5.49|<0.001
92338651|NCT01718483|184579297|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-10.32|||<|0.001|TWO_SIDED|95.0|-12.43|-8.21||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||||-8.21|-12.43|<0.001
92338652|NCT01718483|184579298|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.31||||0.706|TWO_SIDED|95.0|-1.93|1.31||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|ANCOVA|||||1.31|-1.93|0.706
92338653|NCT02363387|184579322|SUPERIORITY||Odds Ratio (OR)|7.1|||<|0.001|TWO_SIDED|95.0|2.7|18.8|||Regression, Logistic|||||18.8|2.7|<0.001
92398603|NCT03192176|184689416|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|5.2||0.9481|TWO_SIDED|95.0|-10.59|9.92||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||9.92|-10.59|0.9481
92398604|NCT03192176|184689416|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|5.36||0.7246|TWO_SIDED|95.0|-12.46|8.68||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||8.68|-12.46|0.7246
92338654|NCT00357877|184579356|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.44||0.56|TWO_SIDED|95.0|-0.6|1.11||No interim analyses were done and no adjustment made for multiple comparisons. Identical analyses were run on each imputed dataset, with results combined with SAS® PROC MIANALZE to obtain final p-values.|Regression, Linear|The primary outcome analysis included treatment and site as class variables and age and age-squared as continuous covariates.||We hypothesized a lower increment score for the active treatment group but carried out two-tailed hypothesis testing. Sample size was estimated with simulated data with rank normalized scores. We calculated that 832 participants would yield a power of 90% to detect a 20% reduction in caries incidence (from a hypothesized mean increment of 1.5), and adopted a target of 1000 randomized participants to allow for attrition.||1.11|-0.60|0.56
92338655|NCT00357877|184579357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.57||0.54|TWO_SIDED|95.0|-0.77|1.46||No adjustment for multiple comparisons. Identical analyses were run on each imputed dataset, with results combined with SAS® PROC MIANALYZE to obtain final p-values.|Regression, Linear|Model included treatment and site as class variables and age and age-squared as continuous covariates.||hypothesized a reduced caries increment in active arm, though conducted two-tailed hypothesis test.||1.46|-0.77|0.54
92338656|NCT00357877|184579358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.38||0.18|TWO_SIDED|95.0|-1.25|0.23||No adjustment for multiple comparisons. Identical analyses were run on each imputed dataset, with results combined with SAS® PROC MIANALYZE to obtain final p-values.|Regression, Linear|treatment and site included as class variables and age and age-squared as continuous covariates.||Hypothesized lower increment in active arm, though hypothesis testing was two-sided.||0.23|-1.25|0.18
92338657|NCT00357877|184579359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.68|STANDARD_DEVIATION|0.57||0.24|TWO_SIDED|95.0|-1.8|0.45||No adjustment for multiple comparisons. Identical analyses were run on each imputed dataset, with results combined with SAS® PROC MIANALYZE to obtain final p-values.|Regression, Linear|Model included treatment and site as class variables, and age and age-squared as continuous covariates.||Hypothesized a lower increment for active treatment arm, although hypothesis testing was two-sided.||0.45|-1.80|0.24
92338658|NCT03570047|184579360|OTHER||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.558|0.766|||Cox proportional hazards model|||||0.766|0.558|<0.0001
92338659|NCT03570047|184579360|OTHER||Hazard Ratio (HR)|0.79||||0.0291|TWO_SIDED|95.0|0.642|0.977|||Cox proportional hazards model|||||0.977|0.642|0.0291
92338660|NCT03570047|184579360|OTHER||Hazard Ratio (HR)|0.71||||0.0001|TWO_SIDED|95.0|0.592|0.842|||Cox proportional hazards model|||||0.842|0.592|0.0001
92338661|NCT03570047|184579360|OTHER||Hazard Ratio (HR)|0.72||||0.0012|TWO_SIDED|95.0|0.591|0.879|||Cox proportional hazards model|||||0.879|0.591|0.0012
92338662|NCT03570047|184579361|OTHER||Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|95.0|0.614|0.843|||Cox proportional hazards model|||||0.843|0.614|<0.0001
92338663|NCT03570047|184579361|OTHER||Hazard Ratio (HR)|0.66||||0.0003|TWO_SIDED|95.0|0.529|0.825|||Cox proportional hazards model|||||0.825|0.529|0.0003
92338664|NCT03570047|184579361|OTHER||Hazard Ratio (HR)|0.74||||0.0007|TWO_SIDED|95.0|0.618|0.879|||Cox proportional hazards model|||||0.879|0.618|0.0007
92338665|NCT03570047|184579361|OTHER||Hazard Ratio (HR)|0.71||||0.0011|TWO_SIDED|95.0|0.583|0.874|||Cox proportional hazards model|||||0.874|0.583|0.0011
92338666|NCT03570047|184579362|OTHER||Hazard Ratio (HR)|0.93||||0.0127|TWO_SIDED|95.0|0.872|0.984|||Cox proportional hazards model|||||0.984|0.872|0.0127
92338667|NCT03570047|184579362|OTHER||Hazard Ratio (HR)|0.96||||0.2893||95.0|0.881|1.039|||Cox proportional hazards model|||||1.039|0.881|0.2893
92338668|NCT03570047|184579362|OTHER||Hazard Ratio (HR)|0.94||||0.064|TWO_SIDED|95.0|0.881|1.004|||Cox proportional hazards model|||||1.004|0.881|0.0640
92398605|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.8|STANDARD_ERROR_OF_MEAN|5.45||0.8842|TWO_SIDED|95.0|-9.94|11.53||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||11.53|-9.94|0.8842
92398606|NCT03192176|184689416|SUPERIORITY||LSMean difference|1.2|STANDARD_ERROR_OF_MEAN|5.05||0.8103|TWO_SIDED|95.0|-8.74|11.17||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||11.17|-8.74|0.8103
92398607|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|5.1||0.9631|TWO_SIDED|95.0|-9.81|10.28||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||10.28|-9.81|0.9631
92398608|NCT03192176|184689416|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|4.87||0.9788|TWO_SIDED|95.0|-9.73|9.47||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||9.47|-9.73|0.9788
92398609|NCT03192176|184689416|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|5.02||0.7875|TWO_SIDED|95.0|-11.26|8.54||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||8.54|-11.26|0.7875
92398610|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|5.08||0.9746|TWO_SIDED|95.0|-9.85|10.17||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||10.17|-9.85|0.9746
92398611|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.6|STANDARD_ERROR_OF_MEAN|5.21||0.9092|TWO_SIDED|95.0|-9.67|10.86||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||10.86|-9.67|0.9092
92398612|NCT03192176|184689416|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|5.27||0.9745|TWO_SIDED|95.0|-10.55|10.21||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||10.21|-10.55|0.9745
92398613|NCT03192176|184689416|SUPERIORITY||LSMean difference|4.7|STANDARD_ERROR_OF_MEAN|4.95||0.3458|TWO_SIDED|95.0|-5.08|14.44||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||14.44|-5.08|0.3458
92398614|NCT03192176|184689416|SUPERIORITY||LSMean differnce|3.6|STANDARD_ERROR_OF_MEAN|4.98||0.4657|TWO_SIDED|95.0|-6.17|13.45||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||13.45|-6.17|0.4657
92398615|NCT03192176|184689416|SUPERIORITY||LSMean difference|2.8|STANDARD_ERROR_OF_MEAN|5.07||0.5838|TWO_SIDED|95.0|-7.2|12.76||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||12.76|-7.20|0.5838
92398616|NCT03192176|184689416|SUPERIORITY||LSMean difference|1.1|STANDARD_ERROR_OF_MEAN|5.22||0.8322|TWO_SIDED|95.0|-9.18|11.39||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||11.39|-9.18|0.8322
92398617|NCT03192176|184689416|SUPERIORITY||LSMean difference|1.8|STANDARD_ERROR_OF_MEAN|5.26||0.7366|TWO_SIDED|95.0|-8.59|12.13||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||12.13|-8.59|0.7366
92398618|NCT03192176|184689416|SUPERIORITY||LSMean difference|5.6|STANDARD_ERROR_OF_MEAN|5.4||0.2971|TWO_SIDED|95.0|-4.99|16.28||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||16.28|-4.99|0.2971
92398619|NCT03192176|184689416|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|5.41||0.9562|TWO_SIDED|95.0|-10.96|10.37||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||10.37|-10.96|0.9562
92398620|NCT03192176|184689416|SUPERIORITY||0.28|8.7|STANDARD_ERROR_OF_MEAN|5.13||0.0926|TWO_SIDED|95.0|-1.44|18.76||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||18.76|-1.44|0.0926
92338669|NCT03570047|184579362|OTHER||Hazard Ratio (HR)|1.03||||0.4404|TWO_SIDED|95.0|0.958|1.103|||Cox proportional hazards model|||||1.103|0.958|0.4404
92338670|NCT00583908|184579406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.5|STANDARD_DEVIATION|17.1|<|0.0001||95.0||||Paired t-test|t-test, 1 sided||mean difference was senofilcon A minus balafilcon A|Alternative Hypothesis was senofilcon A toric was superior to balafilcon A toric by having less degrees of rotation||||<0.0001
92338671|NCT00583908|184579406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.4|STANDARD_DEVIATION|17.8||0.0002||95.0||||paired t-test|t-test, 1 sided||mean difference is senofilcon A minus lotrafilcon B|Hypothesis was senofilcon A toric was superior to lotrafilcon B toric by having less degree of rotation||||0.0002
92338672|NCT00583908|184579406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.0|STANDARD_DEVIATION|12.4|<|0.0001||95.0||||paired t-test|t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|Hypothesis was senofilcon A toric was superior to omafilcon A toric by having less degree of rotation||||<0.0001
92338673|NCT00583908|184579407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_DEVIATION|0.15||0.0083||95.0|||||t-test, 1 sided||Mean difference was senofilcon A minus balafilcon A|Alternative hypothesis was senofilcon A toric was superior to balafilcon A toric by having a lower logMAR score||||0.0083
92338674|NCT00583908|184579407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.09||0.052||95.0|||||t-test, 1 sided||Mean difference was senofilcon A minus lotrafilcon B|Alternative hypothesis was senofilcon A toric was superior to lotrafilcon B toric by having a lower logMAR score||||0.052
92338675|NCT00583908|184579407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_DEVIATION|0.14||0.015||95.0|||||t-test, 1 sided||Mean difference was senofilcon A minus omafilcon A|Alternative hypothesis was senofilcon A toric was superior to omafilcon A toric by having a lower logMAR score||||0.015
92398621|NCT03192176|184689416|SUPERIORITY||LSMean difference|3.5|STANDARD_ERROR_OF_MEAN|5.18||0.4996|TWO_SIDED|95.0|-6.7|13.7||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||13.70|-6.70|0.4996
92398622|NCT03192176|184689416|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|4.76||0.896|TWO_SIDED|95.0|-9.99|8.75||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||8.75|-9.99|0.8960
92154376|NCT01702428|184195035|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|0.99|||||TWO_SIDED|95.0|0.91|1.06|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L3 Group) for antibodies to measles virus at Day 42.||1.06|0.91|
92398623|NCT03192176|184689416|SUPERIORITY||LSMean difference|2.9|STANDARD_ERROR_OF_MEAN|4.89||0.5471|TWO_SIDED|95.0|-6.68|12.58||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||12.58|-6.68|0.5471
92338676|NCT00583908|184579408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_DEVIATION|6.5||0.16||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.16
92338677|NCT00583908|184579408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|3.5||0.73||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.73
92338678|NCT00583908|184579408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_DEVIATION|4.4||0.044||95.0|||||t-test, 1 sided||Mean difference was senofilcon A minus omafilcon A|||||0.044
92338679|NCT00583908|184579409|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.1|STANDARD_DEVIATION|5.0||0.044||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.044
92338680|NCT00583908|184579409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|STANDARD_DEVIATION|4.7||0.31||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.31
92338681|NCT00583908|184579409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_DEVIATION|5.9||0.44||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.44
92338682|NCT00583908|184579410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|6.5||0.78||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.78
92338683|NCT00583908|184579410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_DEVIATION|6.3||0.68||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.68
92338684|NCT00583908|184579410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|7.6||0.78||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.78
92338685|NCT00583908|184579411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|STANDARD_DEVIATION|6.5||0.11||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.11
92338686|NCT00583908|184579411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_DEVIATION|4.3||0.31||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.31
92338687|NCT00583908|184579411|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.0|STANDARD_DEVIATION|6.3||0.16||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.16
92338688|NCT00583908|184579412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_DEVIATION|6.8||0.061||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.061
92338689|NCT00583908|184579412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|3.9||0.47||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.47
92338690|NCT00583908|184579412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_DEVIATION|3.6||0.38||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.38
92338691|NCT00583908|184579413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_DEVIATION|3.5||0.17||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.17
92338692|NCT00583908|184579413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|5.0||0.89||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.89
92338693|NCT00583908|184579413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|STANDARD_DEVIATION|5.8||0.56||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.56
92338694|NCT00583908|184579414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|STANDARD_DEVIATION|6.8||0.008||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.0080
92338695|NCT00583908|184579414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_DEVIATION|3.1||0.0049||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.0049
92338696|NCT00583908|184579414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4|STANDARD_DEVIATION|5.6||0.0058||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.0058
92338697|NCT00583908|184579415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|3.7||0.27||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.27
92398624|NCT03192176|184689416|SUPERIORITY||LSMean difference|1.7|STANDARD_ERROR_OF_MEAN|4.93||0.738|TWO_SIDED|95.0|-8.06|11.36||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||11.36|-8.06|0.7380
92398625|NCT03192176|184689416|SUPERIORITY||LSMean difference|9.6|STANDARD_ERROR_OF_MEAN|5.14||0.0644|TWO_SIDED|95.0|-0.58|19.69||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||19.69|-0.58|0.0644
92398626|NCT03192176|184689416|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|5.04||0.8475|TWO_SIDED|95.0|-10.9|8.96||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||8.96|-10.90|0.8475
92338698|NCT00583908|184579415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|6.0||0.85||95.0|||||t-test, 1 sided||Mean difference is senofilocon A minus lotrafilcon B|||||0.85
92338699|NCT00583908|184579415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|2.6||0.73||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omifilcon A|||||0.73
92338700|NCT00249873|184579444|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.0133||95.0|0.81|0.98||Cumulative incidence functions in each treatment group were calculated using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. The primary comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of any component of the primary event for the clopidogrel group compared with the Placebo group.|||0.98|0.81|0.0133
92338701|NCT00249873|184579445|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||<|0.001||95.0|0.62|0.83||Cumulative incidence functions in each treatment group were calculated using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. The primary comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of stroke for the clopidogrel group compared with the Placebo group.|||0.83|0.62|<0.001
92338702|NCT00249873|184579446|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.696||95.0|0.89|1.08||Cumulative incidence functions in each treatment group were calculated using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. The primary comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of death from any cause for the clopidogrel group compared with the Placebo group.|||1.08|0.89|0.696
92338703|NCT00249873|184579447|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92338704|NCT02762084|184579452|OTHER|Pairwise comparison||||||0.03|||||||ANCOVA|ANCOVA with treatment group as a factor and Baseline value as a covariate||at Week 26||||0.030
92338705|NCT02762084|184579452|OTHER|Pairwise comparison||||||0.756|||||||ANCOVA|ANCOVA with treatment group as a factor and Baseline value as a covariate||at Week 26||||0.756
92338706|NCT02762084|184579453|OTHER|Pairwise comparison||||||0.5|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 6||||0.500
92338707|NCT02762084|184579453|OTHER|Pairwise comparison||||||0.681|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 6||||0.681
92338708|NCT02762084|184579457|OTHER|One-sided comparison||||||0.048|||||||Mann Whitey U|||at Week 26||||0.048
92338709|NCT02762084|184579457|OTHER|Two-sided comparison||||||0.096|||||||Mann Whitey U|||at Week 26||||0.096
92338710|NCT02762084|184579458|OTHER|Two-sided comparison||||||0.008|||||||Mann Whitey U|||at Week 26||||0.008
92338711|NCT00928434|184579464|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was defined as a lower bound (LCL) of the 95% confidence interval for the difference between the intermittent and pooled continuous treatments, CADT, (intermittent - continuous) of greater than -12.5%.|Percentage difference|1.57|||||TWO_SIDED|95.0|-0.19|3.33||||||||3.33|-0.19|
92398627|NCT03192176|184689416|SUPERIORITY||LSMean difference|5.0|STANDARD_ERROR_OF_MEAN|4.86||0.3044|TWO_SIDED|95.0|-4.57|14.59||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||14.59|-4.57|0.3044
92398628|NCT03192176|184689416|SUPERIORITY||LSMean difference|4.2|STANDARD_ERROR_OF_MEAN|4.89||0.3895|TWO_SIDED|95.0|-5.42|13.86||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||13.86|-5.42|0.3895
92398629|NCT03192176|184689416|SUPERIORITY||LSMean difference|-4.5|STANDARD_ERROR_OF_MEAN|6.07||0.4551|TWO_SIDED|95.0|-16.5|7.42||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||7.42|-16.50|0.4551
92398630|NCT03192176|184689416|SUPERIORITY||LSMean differencce|-2.2|STANDARD_ERROR_OF_MEAN|6.1||0.7182|TWO_SIDED|95.0|-14.21|9.81||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||9.81|-14.21|0.7182
92398631|NCT03192176|184689416|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|6.21||0.6259|TWO_SIDED|95.0|-15.26|9.2||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||9.20|-15.26|0.6259
92398632|NCT03192176|184689416|SUPERIORITY||LSMean difference|6.6|STANDARD_ERROR_OF_MEAN|6.5||0.312|TWO_SIDED|95.0|-6.22|19.4||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||19.40|-6.22|0.3120
92398633|NCT03192176|184689416|SUPERIORITY||LSMean difference|-6.3|STANDARD_ERROR_OF_MEAN|6.41||0.3297|TWO_SIDED|95.0|-18.89|6.37||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||6.37|-18.89|0.3297
92398634|NCT03192176|184689416|SUPERIORITY||LSMean difference|3.1|STANDARD_ERROR_OF_MEAN|6.16||0.613|TWO_SIDED|95.0|-9.02|15.26||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||15.26|-9.02|0.6130
92398635|NCT03192176|184689416|SUPERIORITY||LSMean difference|2.2|STANDARD_ERROR_OF_MEAN|6.22||0.7292|TWO_SIDED|95.0|-10.09|14.4||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||14.40|-10.09|0.7292
92398636|NCT03192176|184689416|SUPERIORITY||LSMean difference|0.9|STANDARD_ERROR_OF_MEAN|5.6||0.8695|TWO_SIDED|95.0|-1.11|11.96||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||11.96|-1.11|0.8695
92398637|NCT03192176|184689416|SUPERIORITY||LSMean difference|3.1|STANDARD_ERROR_OF_MEAN|5.64||0.58|TWO_SIDED|95.0|-7.99|14.25||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||14.25|-7.99|0.5800
92398638|NCT03192176|184689416|SUPERIORITY||LSMean difference|2.2|STANDARD_ERROR_OF_MEAN|5.74||0.7024|TWO_SIDED|95.0|-9.11|13.5||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||13.50|-9.11|0.7024
92398639|NCT03192176|184689416|SUPERIORITY||LSMean difference|11.4|STANDARD_ERROR_OF_MEAN|5.99||0.0572|TWO_SIDED|95.0|-0.35|23.23||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||23.23|-0.35|0.0572
92398640|NCT03192176|184689416|SUPERIORITY||LSMean difference|1.6|STANDARD_ERROR_OF_MEAN|5.93||0.783|TWO_SIDED|95.0|-10.04|13.31||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||13.31|-10.04|0.7830
92398641|NCT03192176|184689416|SUPERIORITY||0.1|15.4|STANDARD_ERROR_OF_MEAN|5.71||0.0074|TWO_SIDED|95.0|4.19|26.67||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||26.67|4.19|0.0074
92398642|NCT03192176|184689416|SUPERIORITY||LSMean difference|11.0|STANDARD_ERROR_OF_MEAN|5.73||0.0551|TWO_SIDED|95.0|-0.24|22.32||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||22.32|-0.24|0.0551
92215712|NCT00628251|184330782|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.6604|TWO_SIDED|95.0|0.51|1.56||If the observed p-value for the combined olaparib groups is \<0.02 (1-sided) then the result will be regarded as statistically significant.|Regression, Cox|Cox proportional hazards model with factors for treatment, BRCA (1 or 2) and platinum sensitivity (sensitive=1 or resistant/refractory=0).||Analysis of olaparib 200 or 400 mg bd (n=64) versus liposomal doxorubicin (n=33). A hazard ratio \< 1 favours olaparib.||1.56|0.51|0.6604
92215713|NCT00628251|184330782|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.7794||95.0|0.48|1.74||An observed p-value of \<0.005 (1-sided) will be regarded as statistically significant for a given pairwise comparison.|Regression, Cox|Cox proportional hazards model with factors for treatment, BRCA (1 or 2) and platinum sensitivity (sensitive=1 or resistant/refractory=0).||Analysis of olaparib 200 (n=32) versus liposomal doxorubicin (n=33). A hazard ratio \< 1 favours olaparib.||1.74|0.48|0.7794
92398643|NCT03192176|184689416|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|5.51||0.2959|TWO_SIDED|95.0|-16.63|5.08||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||5.08|-16.63|0.2959
92398644|NCT03192176|184689416|SUPERIORITY||LSMean difference|5.8|STANDARD_ERROR_OF_MEAN|5.55||0.2976|TWO_SIDED|95.0|-5.14|16.74||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||16.74|-5.14|0.2976
92398645|NCT03192176|184689416|SUPERIORITY||LSMean difference|2.0|STANDARD_ERROR_OF_MEAN|5.62||0.7236|TWO_SIDED|95.0|-9.07|13.05||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||13.05|-9.07|0.7236
92398646|NCT03192176|184689416|SUPERIORITY||LSMean difference|10.1|STANDARD_ERROR_OF_MEAN|5.88||0.0884|TWO_SIDED|95.0|-1.52|21.63||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||21.63|-1.52|0.0884
92398647|NCT03192176|184689416|SUPERIORITY||LSMean difference|-5.0|STANDARD_ERROR_OF_MEAN|5.77||0.3887|TWO_SIDED|95.0|-16.35|6.38||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||6.38|-16.35|0.3887
92215714|NCT00628251|184330782|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.6604|TWO_SIDED|95.0|0.45|1.62||An observed p-value of \<0.005 (1-sided) will be regarded as statistically significant for a given pairwise comparison.|Regression, Cox|Cox proportional hazards model with factors for treatment, BRCA (1 or 2) and platinum sensitivity (sensitive=1 or resistant/refractory=0).||Analysis of olaparib 400 (n=32) versus liposomal doxorubicin (n=33). A hazard ratio \< 1 favours olaparib.||1.62|0.45|0.6604
92398648|NCT03192176|184689416|SUPERIORITY||LSMean difference|6.2|STANDARD_ERROR_OF_MEAN|5.59||0.2671|TWO_SIDED|95.0|-4.8|17.24||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||17.24|-4.80|0.2671
92398649|NCT03192176|184689416|SUPERIORITY||LSMean difference|2.9|STANDARD_ERROR_OF_MEAN|5.63||0.6076|TWO_SIDED|95.0|-8.2|13.99||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||13.99|-8.20|0.6076
92398650|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.91||0.2159|TWO_SIDED|95.0|-2.93|0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||0.67|-2.93|0.2159
92398651|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.92||0.0405|TWO_SIDED|95.0|-3.7|-0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||-0.08|-3.70|0.0405
92398652|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.93||0.0115|TWO_SIDED|95.0|-4.18|-0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||-0.53|-4.18|0.0115
92215715|NCT00628251|184330783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.27||||0.1291|TWO_SIDED|95.0|0.79|7.32||2-sided p-value|Regression, Logistic|Analysis was performed using logistic regression with factors for treatment, BRCA status and platinum sensitivity.|An odds ratio \>1 favoured olaparib|Analysis of olaparib 200 or 400 (n=64) versus liposomal doxorubicin (n=33).||7.32|0.79|0.1291
92215716|NCT00628251|184330783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.3131|TWO_SIDED|95.0|0.55|7.01||2-sided p-value|Regression, Logistic|Analysis was performed using logistic regression with factors for treatment, BRCA status and platinum sensitivity.|An odds ratio \>1 favoured olaparib.|Analysis of olaparib 200 (n=32) versus liposomal doxorubicin (n=33).||7.01|0.55|0.3131
92215717|NCT00628251|184330783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.69||||0.1079|TWO_SIDED|95.0|0.81|9.76|||Regression, Logistic|The analysis was performed using logistic regression with factors for treatment, BRCA status and platinum sensitivity.|An odds ratio \>1 favoured olaparib|Analysis of olaparib 400 (n=32) versus liposomal doxorubicin (n=33).||9.76|0.81|0.1079
92338712|NCT00447772|184579485|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.322|||=|0.2552|TWO_SIDED|95.0|-0.877|0.233|||ANCOVA||The comparative analysis is based on adjusted means data.|An analysis of covariance (ANCOVA) model included the baseline total Tsui score (patient in sitting position) as covariate and the main type of CD as between-group factor (due to non-significance the interaction between baseline total Tsui score and the main type of CD was removed from the model).||0.233|-0.877|=0.2552
92338713|NCT01765296|184579494|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"The SD for the primary efficacy outcome measure (WOMAC-Pain Subscale in the index joint) has been assumed to be 11 units. A 10% between-group difference was chosen as the non-inferiority margin for this study. The following parameters were used to calculate the sample size needed for this non-inferiority study.~* Level of significance, α = 0.025(one-sided)~* Statistical power, 1-β = 0.95~* Difference between test group and comparison group, Δ=0, δ (\>0) = non-inferiority margin"||||||0.011|||||||ANCOVA|||The primary efficacy outcome measure is the change in the WOMAC-Pain Subscale in the index joint at Week 6 vs. pre-dose Baseline and was analyzed using a mixed effect ANCOVA. Statistical tests to determine superiority between two treatment arms, CG100649 2 mg and placebo, are two-sided, and Non-inferiority between two treatment arms, CG100649 2 mg and celecoxib 200 mg is based on a one-sided 97.5% confidence interval of the difference.||||0.011
92338714|NCT01765296|184579494|NON_INFERIORITY|"The SD for the primary efficacy outcome measure (WOMAC-Pain Subscale in the index joint) has been assumed to be 11 units. A 10% between-group difference was chosen as the non-inferiority margin for this study. The following parameters were used to calculate the sample size needed for this non-inferiority study.~* Level of significance, α = 0.025(one-sided)~* Statistical power, 1-β = 0.95~* Difference between test group and comparison group, Δ=0, δ (\>0) = non-inferiority margin"||||||0.425|||||||ANCOVA|||||||0.425
92338715|NCT00656175|184579564|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon sign-rank test used for statistical significance.||||0.52
92338716|NCT04878120|184579565|SUPERIORITY|||||||0.733||||||For interaction between study group and intervention|ANOVA|||"The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. To test the hypothesis that HCL Control with Smart Bolus Calculator reduces exposure to hypoglycemia with respect to Standard HCL Control, a mixed ANOVA was performed with LBGI as outcome measure, study group as between-subject factor, and intervention type as within-subject factor."||||0.733
92338717|NCT04878120|184579566|SUPERIORITY|||||||0.824||||||For interaction between study group and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with percentage of time spent below 70 mg/dL as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.824
92338718|NCT04878120|184579567|SUPERIORITY|||||||0.402||||||For interaction between study group and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with percentage of time spent in 70-180 mg/dL as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.402
92338719|NCT04878120|184579568|SUPERIORITY|||||||0.3||||||For interaction between study group and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with percentage of time spent above 180 mg/dL as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.300
92338720|NCT04878120|184579569|SUPERIORITY|||||||0.168||||||For interaction between study arm and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with HBGI as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.168
92338721|NCT04878120|184579570|SUPERIORITY|||||||0.476||||||For interaction between study group and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with CGM coefficient of variation as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.476
92338722|NCT04878120|184579571|SUPERIORITY|||||||0.914||||||For interaction between study group and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with total amount of carbohydrate administered as rescue treatments as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.914
92338723|NCT00672633|184579573|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.0||||0.52||95.0|||||ANOVA|Repeated measures||The study was designed with 80% power to detect a net improvement of Triglyceride elevles with a sample size of 60.||||0.52
92338724|NCT00672633|184579574|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.0||||0.06||95.0|||||ANOVA|Repeated Measures||No power calculations done for this outcomes||||0.06
92338725|NCT00672633|184579575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3||||0.27||95.0|||||ANOVA|Repeated Measures||No power calculations were conducted for this outcome||||0.27
92338726|NCT01868165|184579579|OTHER||Slope|0.58|||||TWO_SIDED|95.0|-0.6|1.77|||||"Linear regression slope and 95% confidence intervals for the association between calcium channel blocker use and cognitive change was 0.58 (-0.60:1.77).~Multiple adjustments including; age, sex, education."|||1.77|-0.60|
92338727|NCT03101150|184579585|OTHER|A sample size of minimum 152 was calculated to be able to determine incidence of preeclampsia that is in the range of 8-17% with 80% power assuming an alpha of 5%.|Risk Ratio (RR)|0.163|||<|0.05|TWO_SIDED|95.0|0.02|1.32|||Chi-squared|||Eligible and consented study subjects were randomized according to permuted block design scheme to be allocated in 400 IU arm and 4000 IU arm.||1.32|0.02|<0.05
92338728|NCT03101150|184579586|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92338729|NCT03101150|184579587|OTHER||Risk Ratio (RR)|0.43|||<|0.02|TWO_SIDED|95.0|0.19|0.94|||Chi-squared|||||0.94|0.19|<0.02
92338730|NCT03143257|184579631|SUPERIORITY||Mean Difference (Net)|38.0|STANDARD_DEVIATION|16.1|<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92338731|NCT03143257|184579631|SUPERIORITY||Mean Difference (Net)|43.5|STANDARD_DEVIATION|20.0|<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92215718|NCT00628251|184330789|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.5781|TWO_SIDED|95.0|0.41|1.7||2-sided p-value|Regression, Cox|Analysis was performed using a Cox proportional hazards model with factors for treatment, BRCA status and platinum sensitivity.|A hazard ratio of \<1 favoured olaparib.|Analysis of olaparib 200 or 400 (n=64) versus liposomal doxorubicin (n=33).||1.70|0.41|0.5781
92215719|NCT00628251|184330789|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66||||0.3417|TWO_SIDED|95.0|0.27|1.55||2-sided p-value|Regression, Cox|Analysis was performed using a Cox proportional hazards model with factors for treatment, BRCA status and platinum sensitivity.|A hazard ratio of \<1 favoured olaparib.|Analysis of olaparib 200 (n=32) versus liposomal doxorubicin (n=33).||1.55|0.27|0.3417
92215720|NCT00628251|184330789|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.9877|TWO_SIDED|95.0|0.44|2.27||2-sided p-value|Regression, Cox|Analysis was performed using a Cox proportional hazards model with factors for treatment, BRCA status and platinum sensitivity.|A hazard ratio of \<1 favoured olaparib.|Analysis of olaparib 400 (n=32) versus liposomal doxorubicin (n=33).||2.27|0.44|0.9877
92215721|NCT01807923|184330808|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|4.03|||<|0.0001|TWO_SIDED|95.0|2.62|5.44|||MMRM|||Analysis was performed using mixed-effects model for repeated measures (MMRM) model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (less than (\<)18 versus greater than equal to (\>=18) years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||5.44|2.62|<0.0001
92215722|NCT01807923|184330808|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6||||0.0003|TWO_SIDED|95.0|1.18|4.01|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||4.01|1.18|0.0003
92215723|NCT01807923|184330809|SUPERIORITY_OR_OTHER||LS Mean Difference|6.73|||<|0.0001|TWO_SIDED|95.0|4.27|9.19|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||9.19|4.27|<0.0001
92215724|NCT01807923|184330809|SUPERIORITY_OR_OTHER||LS Mean Difference|4.33||||0.0006|TWO_SIDED|95.0|1.86|6.8|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||6.80|1.86|0.0006
92215725|NCT01807923|184330810|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16||||0.1122|TWO_SIDED|95.0|-0.04|0.35|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline BMI.||0.35|-0.04|0.1122
92338732|NCT03143257|184579631|SUPERIORITY||Mean Difference (Net)|3.7|STANDARD_DEVIATION|5.0|<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
92215726|NCT01807923|184330810|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.1938|TWO_SIDED|95.0|-0.07|0.32|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||0.32|-0.07|0.1938
92215727|NCT01807923|184330811|SUPERIORITY_OR_OTHER||LS Mean Difference|3.88||||0.0168|TWO_SIDED|95.0|0.7|7.05||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline CFQ-R respiratory domain score.||7.05|0.70|0.0168
92215728|NCT01807923|184330811|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5||||0.3569|TWO_SIDED|95.0|-1.69|4.69|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||4.69|-1.69|0.3569
92215729|NCT01807923|184330812|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9378|||<|0.0001|TWO_SIDED|95.0|1.8786|4.5941||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Cochran-Mantel-Haenszel|||Odds Ratio (OR) and 95% confidence intervals (Cis) are Mantel-Haenszel estimates. P values are from a Cochran-Mantel-Haenszel test stratified by sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||4.5941|1.8786|<0.0001
92338733|NCT03143257|184579634|SUPERIORITY||Overall Benefit Score|-15.0|STANDARD_DEVIATION|18.5|||TWO_SIDED||||||||The overall benefit can be determined by subtracting the aided and unaided scores of Ease of Communication, Reverberation, Background Noise \& Aversiveness. A negative score in overall benefit indicates a positive benefit to the subject.|||||
92215730|NCT01807923|184330812|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0592||||0.0023|TWO_SIDED|95.0|1.292|3.2819||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Cochran-Mantel-Haenszel|||Analysis was performed as described in Statistical Analysis 1.||3.2819|1.2920|0.0023
92215731|NCT01807923|184330813|SUPERIORITY_OR_OTHER||Event Rate Ratio|0.7186||||0.0491|TWO_SIDED|95.0|0.517|0.9987|||Negative Binomial Regression|||Analysis was performed using regression analysis for a negative binomial distribution with sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70) as covariates with the logarithm of time on study as the offset.||0.9987|0.5170|0.0491
92215732|NCT01807923|184330813|SUPERIORITY_OR_OTHER||Event Rate Ratio|0.6643||||0.0169|TWO_SIDED|95.0|0.4749|0.9291||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Negative Binomial Regression|||Analysis was performed as described in Statistical Analysis 1.||0.9291|0.4749|0.0169
92215733|NCT01807923|184330814|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.1565|TWO_SIDED|95.0|-0.16|0.96|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline weight.||0.96|-0.16|0.1565
92215734|NCT01807923|184330814|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.2992|TWO_SIDED|95.0|-0.26|0.86|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||0.86|-0.26|0.2992
92398653|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.93||0.0553|TWO_SIDED|95.0|-3.62|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||0.04|-3.62|0.0553
92338734|NCT03257436|184579646|OTHER|"A power calculation using a sample size of 61 subjects as the non-responders with the LV MSP on was calculated based on a one-sided exact test for a single binomial proportion, using SAS Version 9.4 with the following assumptions:~* Performance goal = 90%~* Expected LV MSP feature-related CFR rate between 6 and 12 Month Visit = 98%~* Significance level = 5%~* Power = 80%"|Kaplan Meir Methodology|99.0|||||ONE_SIDED|95.0|94.1|||||||"The LV MSP feature-related CFR between the 6 Month Visit and the 12 Month Visit was calculated using Kaplan-Meier methodology.~H0: LV MSP feature-related complication-free rate between 6 Month Visit and 12 Month Visit ≤ 90%.~The sample size of 61 subjects was required to evaluate the Primary Safety Endpoint using an exact test since a power calculation cannot be directly calculated for a one group Kaplan-Meier analysis."|||94.1|
92338735|NCT03257436|184579647|OTHER|Even though fewer subjects (78) were available for the effectiveness endpoint analysis than originally planned (110), the study was still powered at approximately 90%|Proportion|51.3|||||ONE_SIDED|95.0|41.1|||||||"The effectiveness endpoint for SMART MSP PAS is the proportion of the LV MSP Group with an Improved CCS. For this endpoint, those subjects in the LV MSP Group that become responders will be defined as having an Improved CCS.~H0: Proportion of LV MSP Group subjects with Improved CCS from 6 Month Visit through 12 Month Visit ≤ 5%"|||41.1|
92338736|NCT01619852|184579648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||.19
92338737|NCT01619852|184579649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
92338738|NCT01619852|184579650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92338739|NCT01619852|184579650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||McGill Questionnaire-Sensory-discriminative dimension||||0.69
92338740|NCT01619852|184579650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||McGill Questionnaire-affective dimension||||0.75
92338741|NCT01619852|184579650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Brief Pain Inventory||||0.81
92338742|NCT01619852|184579651|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||.19
92398654|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.92||0.2753|TWO_SIDED|95.0|-2.82|0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||0.80|-2.82|0.2753
92398655|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.6|STANDARD_ERROR_OF_MEAN|0.91||0.514|TWO_SIDED|95.0|-1.2|2.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||2.40|-1.20|0.5140
92398656|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.93||0.0178|TWO_SIDED|95.0|-4.03|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||-0.38|-4.03|0.0178
92338743|NCT01619852|184579652|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||.29
92338744|NCT01305811|184579675|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||general estimating equations|||||||0.03
92338745|NCT01305811|184579676|SUPERIORITY_OR_OTHER||||||=|0.22|TWO_SIDED||||||t-test, 2 sided|||In our original proposal to the funder, to protect our main outcome from possibly large attrition, we proposed to initially test mean differences between groups following 2 months of treatment or wait list using Student's t-tests at an alpha=0.05.||||=0.22
92338746|NCT02256696|184579711|SUPERIORITY||Hazard Ratio (HR)|1.41||||0.1|TWO_SIDED|95.0|0.93|2.12|||Regression, Cox|adjusted for age and sex at birth.||modified intention to treat (mITT) analysis||2.12|0.93|0.10
92338747|NCT02256696|184579711|SUPERIORITY||Hazard Ratio (HR)|1.89||||0.003|TWO_SIDED|95.0|1.24|2.87|||Regression, Cox|adjusted for age and sex at birth.||mITT analysis||2.87|1.24|0.003
92338748|NCT02256696|184579711|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.09|TWO_SIDED|95.0|0.95|2.15|||Regression, Cox|adjusted for age and sex at birth||per protocol||2.15|0.95|0.09
92338749|NCT02256696|184579711|SUPERIORITY||Hazard Ratio (HR)|1.87||||0.005|TWO_SIDED|95.0|1.21|2.89|||Regression, Cox|adjusted for age and sex at birth||per protocol||2.89|1.21|0.005
92338750|NCT02256696|184579714|SUPERIORITY||Hazard Ratio (HR)|1.61||||0.02|TWO_SIDED|95.0|1.07|2.44|||Regression, Cox|adjusted for age and sex at birth.||mITT analysis||2.44|1.07|0.02
92338751|NCT02256696|184579714|SUPERIORITY||Hazard Ratio (HR)|1.8||||0.006|TWO_SIDED|95.0|1.18|2.75|||Regression, Cox|adjusted for age and sex at birth||mITT analysis||2.75|1.18|0.006
92338752|NCT02256696|184579714|SUPERIORITY||Hazard Ratio (HR)|1.6||||0.03|TWO_SIDED|95.0|1.05|2.42|||Regression, Cox|adjusted for age and sex at birth||per protocol analysis||2.42|1.05|0.03
92338753|NCT02256696|184579714|SUPERIORITY||Hazard Ratio (HR)|1.84||||0.007|TWO_SIDED|95.0|1.18|2.85|||Regression, Cox|adjusted for age and sex at birth||per protocol analysis||2.85|1.18|0.007
92338754|NCT03877744|184579719|NON_INFERIORITY|Non-inferiority margin of 2.5 was set prior to study initiation with a Type I error of 0.025.|Mean Difference (Final Values)|1.6873|STANDARD_ERROR_OF_MEAN|0.2558||0.0008|ONE_SIDED|97.5||2.1894|||Mixed Models Analysis|Controls technician,site,seat type;Techn. nested in site modeled as random effect;Model allowed heterogeneous variances across arms w Kenward-Roger df|Mixed model allowed the arms to have unequal variance estimates. Degrees of freedom estimated using Kenward-Rogers.|||2.1894||0.0008
92338755|NCT00327717|184579734|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||ANOVA|||||||0.028
92338756|NCT00327717|184579735|SUPERIORITY_OR_OTHER|||||||0.253||95.0|||||ANOVA|||||||0.253
92338757|NCT00327717|184579736|SUPERIORITY_OR_OTHER|||||||0.211||95.0|||||ANOVA|||||||0.211
92338758|NCT00327717|184579737|SUPERIORITY_OR_OTHER|||||||0.516||95.0|||||ANOVA|||||||0.516
92338759|NCT00327717|184579738|SUPERIORITY_OR_OTHER|||||||0.044|||||||X^2 test|||||||0.044
92338760|NCT00327717|184579739|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||X^2 test|||||||0.090
92398657|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.51||0.9675|TWO_SIDED|95.0|-1.02|0.98||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||0.98|-1.02|0.9675
92398658|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.51||0.3122|TWO_SIDED|95.0|-1.52|0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||0.49|-1.52|0.3122
92398659|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.51||0.9977|TWO_SIDED|95.0|-1.0|1.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||1.00|-1.00|0.9977
92398660|NCT03192176|184689417|SUPERIORITY||LSMean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.51||0.9312|TWO_SIDED|95.0|-1.05|0.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||0.97|-1.05|0.9312
92398661|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.51||0.6005|TWO_SIDED|95.0|-1.27|0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||0.74|-1.27|0.6005
92338761|NCT00327717|184579740|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||X^2 test|||||||0.090
92154377|NCT01702428|184195035|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.03|||||TWO_SIDED|95.0|0.95|1.11|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L1 Group) for antibodies to measles virus at Day 42.||1.11|0.95|
92338762|NCT00327717|184579741|SUPERIORITY_OR_OTHER|||||||0.162||95.0|||||X^2 test|||||||0.162
92338763|NCT00327717|184579742|SUPERIORITY_OR_OTHER|||||||0.678||95.0|||||X^2 test|||||||0.678
92338764|NCT01630135|184579748|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.089|||<|0.001|TWO_SIDED|95.0|-1.41|-0.76|||ANCOVA||The analysis was based on an analysis of covariance (ANCOVA) with a model adjusting for Treatment, Baseline, Age, and Sex.|||-0.76|-1.41|<0.001
92338765|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|7451.0|||||TWO_SIDED|95.0|5857.0|9045.0|||||The mean predicted cost for inpatient services for participants treated with FSC. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||9045|5857|
92338766|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|11545.0|||||TWO_SIDED|95.0|8827.0|14263.0|||||The mean predicted cost for inpatient services for participants treated with TIO. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||14263|8827|
92338767|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|61.0|||||TWO_SIDED|95.0|58.0|63.0|||||The mean predicted cost for emergency department visits for participants treated with FSC. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||63|58|
92338768|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|51.0|||||TWO_SIDED|95.0|49.0|53.0|||||The mean predicted cost for emergency department visits for participants treated with TIO. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||53|49|
92338769|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|231.0|||||TWO_SIDED|95.0|227.0|234.0|||||The mean predicted cost for office visits for participants treated with FSC. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||234|227|
92338770|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|295.0|||||TWO_SIDED|95.0|290.0|299.0|||||The mean predicted cost for office visits for participants treated with TIO. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||299|290|
92338771|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|873.0|||||TWO_SIDED|95.0|827.0|919.0|||||The mean predicted cost for other outpatient and ancillary services for FSC participants. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||919|827|
92338772|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|1080.0|||||TWO_SIDED|95.0|1022.0|1138.0|||||The mean predicted cost for other outpatient and ancillary services for TIO participants. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||1138|1022|
92338773|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|1267.0|||||TWO_SIDED|95.0|1251.0|1283.0|||||The mean predicted cost for pharmacy services for participants treated with FSC. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||1283|1251|
92398662|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.3|STANDARD_ERROR_OF_MEAN|0.51||0.5284|TWO_SIDED|95.0|-0.68|1.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||1.32|-0.68|0.5284
92215735|NCT01807923|184330815|SUPERIORITY_OR_OTHER||LS Mean Difference|0.098||||0.1539|TWO_SIDED|95.0|-0.037|0.233|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline BMI z-score.||0.2330|-0.0370|0.1539
92338774|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|1250.0|||||TWO_SIDED|95.0|1234.0|1266.0|||||The mean predicted cost for pharmacy services for participants treated with TIO. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||1266|1234|
92338775|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|1175.0|||||TWO_SIDED|95.0|1083.0|1267.0|||||The mean predicted cost for inpatient and emergency department services for FSC participants. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||1267|1083|
92338776|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|1566.0|||||TWO_SIDED|95.0|1438.0|1695.0|||||The mean predicted cost for inpatient and emergency department services for TIO participants. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||1695|1438|
92338777|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|2991.0|||||TWO_SIDED|95.0|2922.0|3059.0|||||The mean predicted cost for total healthcare services for participants treated with FSC. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||3059|2922|
92338778|NCT01387178|184579774|SUPERIORITY_OR_OTHER||Adjusted Mean|3304.0|||||TWO_SIDED|95.0|3221.0|3386.0|||||The mean predicted cost for total healthcare services for participants treated with TIO. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||3386|3221|
92338779|NCT01387178|184579775|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.964||||0.2198||95.0|0.909|1.022||Risk of Moderate COPD Exacerbations|Regression, Cox|||||1.022|0.909|0.2198
92338780|NCT01387178|184579775|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.864||||0.0406||95.0|0.752|0.994||Risk of Severe COPD Exacerbations|Regression, Cox|||||0.994|0.752|0.0406
92338781|NCT01387178|184579775|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.953||||0.0962||95.0|0.901|1.009||Risk of Any COPD Exacerbation|Regression, Cox|||||1.009|0.901|0.0962
92398663|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.51||0.1111|TWO_SIDED|95.0|-1.82|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||0.19|-1.82|0.1111
92215736|NCT01807923|184330815|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0781||||0.2713|TWO_SIDED|95.0|-0.0615|0.2176|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||0.2176|-0.0615|0.2713
92338782|NCT01246895|184579779|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||||||0.017
92338783|NCT01246895|184579780|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||||||0.026
92338784|NCT01246895|184579781|SUPERIORITY_OR_OTHER|||||||0.474|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||WOMAC subscale - Pain||||0.474
92338785|NCT01246895|184579781|SUPERIORITY_OR_OTHER|||||||0.236|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||WOMAC subscale - Stiffness||||0.236
92338786|NCT01246895|184579781|SUPERIORITY_OR_OTHER|||||||0.326|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||WOMAC subscale - Physical function||||0.326
92338787|NCT01246895|184579782|SUPERIORITY_OR_OTHER|||||||0.01|||||||Physical count|||||||0.01
92338788|NCT01246895|184579783|SUPERIORITY_OR_OTHER|||||||0.478|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||SF-36 v2 Physical component||||0.478
92338789|NCT01246895|184579783|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||SF-36 v2 Mental component||||0.125
92338790|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|0.64|||||TWO_SIDED|95.0|0.37|1.11|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.11|0.37|
92338791|NCT03311841|184579784|OTHER|Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Geometric least squares mean ratio|1.33|||||TWO_SIDED|95.0|0.77|2.31||||||Comparison of midazolam||2.31|0.77|
92338792|NCT03311841|184579784|OTHER|Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Geometric least squares mean ratio|0.95|||||TWO_SIDED|95.0|0.56|1.62||||||Comparison of midazolam||1.62|0.56|
92398664|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.35||0.1764|TWO_SIDED|95.0|-1.16|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||0.21|-1.16|0.1764
92398665|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.35||0.0037|TWO_SIDED|95.0|-1.73|-0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms||-0.34|-1.73|0.0037
92398666|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.3|-0.92||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||-0.92|-2.30|<0.0001
92398667|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.21|-0.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||-0.81|-2.21|<0.0001
92398668|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.35||0.1444|TWO_SIDED|95.0|-1.21|0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||0.18|-1.21|0.1444
92398669|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.35||0.0088|TWO_SIDED|95.0|-1.6|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||-0.23|-1.60|0.0088
92398670|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.35||0.0005|TWO_SIDED|95.0|-1.93|-0.54||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||-0.54|-1.93|0.0005
92215737|NCT01807923|184330816|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.692||||0.0396|TWO_SIDED||||||Cox Proportional Hazard Regression|||Analysis was performed using Cox proportional hazard regression, time is the time-to-first event or censoring, with adjustment for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||||0.0396
92398671|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0416|TWO_SIDED|95.0|-0.69|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||-0.01|-0.69|0.0416
92398672|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0353|TWO_SIDED|95.0|-0.71|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||-0.03|-0.71|0.0353
92398673|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.004|TWO_SIDED|95.0|-0.84|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||-0.16|-0.84|0.0040
92398674|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0495|TWO_SIDED|95.0|-0.69|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||-0.00|-0.69|0.0495
92398675|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.8665|TWO_SIDED|95.0|-0.31|0.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||0.37|-0.31|0.8665
92398676|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.9303|TWO_SIDED|95.0|-0.35|0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||0.32|-0.35|0.9303
92398677|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.1039|TWO_SIDED|95.0|-0.62|0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||0.06|-0.62|0.1039
92215738|NCT01807923|184330816|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.691||||0.0385|TWO_SIDED||||||Cox Proportional Hazard Regression|||Analysis was performed as described in Statistical Analysis 1.||||0.0385
92398678|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|1.54||0.2547|TWO_SIDED|95.0|-4.78|1.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||1.27|-4.78|0.2547
92215739|NCT01807923|184330817|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6565||||0.0552|TWO_SIDED|95.0|0.4266|1.0103|||Cochran-Mantel-Haenszel|||OR and 95% confidence intervals (CIs) are Mantel-Haenszel estimates. P values are from a Cochran-Mantel-Haenszel test stratified by sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||1.0103|0.4266|0.0552
92338793|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|0.4|||||TWO_SIDED|95.0|0.23|0.7|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||0.70|0.23|
92338794|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|1.01|||||TWO_SIDED|95.0|0.53|1.93|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||1.93|0.53|
92338795|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|2.87|||||TWO_SIDED|95.0|1.51|5.47|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||5.47|1.51|
92338796|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|4.98|||||TWO_SIDED|95.0|2.62|9.48|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||9.48|2.62|
92215740|NCT01807923|184330817|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6438||||0.0512|TWO_SIDED|95.0|0.4142|1.0005|||Cochran-Mantel-Haenszel|||Analysis was performed as described in Statistical Analysis 1.||1.0005|0.4142|0.0512
92338797|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|3.39|||||TWO_SIDED|95.0|1.78|6.44|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||6.44|1.78|
92338798|NCT03311841|184579784|OTHER|Comparison of pitavastatin|Geometric least squares mean ratio|1.32|||||TWO_SIDED|95.0|0.76|2.31|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.31|0.76|
92338799|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|1.96|||||TWO_SIDED|95.0|1.12|3.42|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||3.42|1.12|
92398679|NCT03192176|184689417|SUPERIORITY||LSMean difference|-3.6|STANDARD_ERROR_OF_MEAN|1.55||0.0225|TWO_SIDED|95.0|-6.6|-0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||-0.50|-6.60|0.0225
92338800|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|1.25|||||TWO_SIDED|95.0|0.73|2.13|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.13|0.73|
92338801|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|1.3|||||TWO_SIDED|95.0|0.74|2.27|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.27|0.74|
92338802|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|1.05|||||TWO_SIDED|95.0|0.64|1.72|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.72|0.64|
92338803|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|1.45|||||TWO_SIDED|95.0|0.88|2.38|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||2.38|0.88|
92338804|NCT03311841|184579784|OTHER|Comparison of pitavastatin lactone|Geometric least squares mean ratio|1.09|||||TWO_SIDED|95.0|0.68|1.76|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||1.76|0.68|
92338805|NCT03311841|184579784|OTHER|Comparison of pitavastatin lactone|Geometric least squares mean ratio|0.71|||||TWO_SIDED|95.0|0.43|1.17|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||1.17|0.43|
92338806|NCT03311841|184579784|OTHER|Comparison of atorvastatin|Geometric least squares mean ratio|1.13|||||TWO_SIDED|95.0|0.53|2.41|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.41|0.53|
92338807|NCT03311841|184579784|OTHER|Comparison of atorvastatin|Geometric least squares mean ratio|1.75|||||TWO_SIDED|95.0|0.89|3.46|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||3.46|0.89|
92338808|NCT03311841|184579784|OTHER||Geometric least squares mean ratio|1.63|||||TWO_SIDED|95.0|0.85|3.14|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||3.14|0.85|
92338809|NCT03311841|184579784|OTHER|Comparison of atorvastatin|Geometric least squares mean ratio|1.13|||||TWO_SIDED|95.0|0.57|2.22|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.22|0.57|
92338810|NCT03311841|184579784|OTHER|Comparison of ortho-hydroxyatorvastatin|Geometric least squares mean ratio|1.38|||||TWO_SIDED|95.0|0.76|2.49|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.49|0.76|
92338811|NCT03311841|184579784|OTHER|Comparison of ortho-hydroxyatorvastatin|Geometric least squares mean ratio|1.31|||||TWO_SIDED|95.0|0.75|2.29|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.29|0.75|
92338812|NCT03311841|184579784|OTHER|Comparison of ortho-hydroxyatorvastatin|Geometric least squares mean ratio|1.09|||||TWO_SIDED|95.0|0.65|1.81|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||1.81|0.65|
92338813|NCT03311841|184579784|OTHER|Comparison of ortho-hydroxyatorvastatin|Geometric least squares mean ratio|0.79|||||TWO_SIDED|95.0|0.46|1.33|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||1.33|0.46|
92338814|NCT03311841|184579784|OTHER|Comparison of rosuvastatin|Geometric least squares mean ratio|0.9|||||TWO_SIDED|95.0|0.33|2.45|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.45|0.33|
92338815|NCT03311841|184579784|OTHER|Comparison of rosuvastatin|Geometric least squares mean ratio|1.97|||||TWO_SIDED|95.0|0.75|5.14|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||5.14|0.75|
92338816|NCT03311841|184579784|OTHER|Comparison of rosuvastatin|Geometric least squares mean ratio|1.25|||||TWO_SIDED|95.0|0.49|3.16|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||3.16|0.49|
92338817|NCT03311841|184579784|OTHER|Comparison of rosuvastatin|Geometric least squares mean ratio|0.71|||||TWO_SIDED|95.0|0.27|1.86|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||1.86|0.27|
92338818|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|0.67|||||TWO_SIDED|95.0|0.4|1.11|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.11|0.40|
92398680|NCT03192176|184689417|SUPERIORITY||LSMean differencce|-4.3|STANDARD_ERROR_OF_MEAN|1.55||0.0058|TWO_SIDED|95.0|-7.38|-1.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||-1.26|-7.38|0.0058
92338819|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.26|||||TWO_SIDED|95.0|0.76|2.09|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||2.09|0.76|
92338820|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|0.93|||||TWO_SIDED|95.0|0.57|1.52|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.52|0.57|
92338821|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|0.42|||||TWO_SIDED|95.0|0.25|0.7|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||0.70|0.25|
92338822|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|0.96|||||TWO_SIDED|95.0|0.53|1.73|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||1.73|0.53|
92338823|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|2.38|||||TWO_SIDED|95.0|1.32|4.32|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||4.32|1.32|
92338824|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|3.09|||||TWO_SIDED|95.0|1.75|5.48|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||5.48|1.75|
92338825|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.46|||||TWO_SIDED|95.0|0.8|2.64|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||2.64|0.80|
92338826|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.31|||||TWO_SIDED|95.0|0.78|2.2|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.20|0.78|
92338827|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.84|||||TWO_SIDED|95.0|1.09|3.09|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||3.09|1.09|
92338828|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.26|||||TWO_SIDED|95.0|0.77|2.09|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.09|0.77|
92338829|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.43|||||TWO_SIDED|95.0|0.85|2.4|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.40|0.85|
92338830|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.03|||||TWO_SIDED|95.0|0.68|1.56|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.56|0.68|
92338831|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.27|||||TWO_SIDED|95.0|0.83|1.92|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.92|0.83|
92398681|NCT03192176|184689417|SUPERIORITY||LSMean difference|-3.4|STANDARD_ERROR_OF_MEAN|1.56||0.0301|TWO_SIDED|95.0|-6.48|-0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||-0.33|-6.48|0.0301
92398682|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|1.55||0.322|TWO_SIDED|95.0|-4.59|1.51||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||1.51|-4.59|0.3220
92154378|NCT01702428|184195035|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.01|||||TWO_SIDED|95.0|0.94|1.09|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L2 Group) for antibodies to measles virus at Day 42.||1.09|0.94|
92154379|NCT01702428|184195036|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to mumps virus.|Difference in seroresponse rate|0.02|||||TWO_SIDED|95.0|-1.05|1.09|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L2 Group) in percentage of subjects with anti-mumps antibody concentration ≥10 EU/mL.||1.09|-1.05|
92154380|NCT01702428|184195036|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to mumps virus.|Difference in seroresponse rate|0.63|||||TWO_SIDED|95.0|-0.5|1.81|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-mumps antibody concentration ≥10 EU/mL.||1.81|-0.50|
92154381|NCT01702428|184195036|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to mumps virus.|Difference in seroresponse rate|0.61|||||TWO_SIDED|95.0|-0.53|1.79|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L2 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-mumps antibody concentration ≥10 EU/mL.||1.79|-0.53|
92154382|NCT01702428|184195037|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|0.93|||||TWO_SIDED|95.0|0.87|1.0|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L2 Group) for antibodies to mumps virus at Day 42.||1.00|0.87|
92338832|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.09|||||TWO_SIDED|95.0|0.73|1.63|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.63|0.73|
92338833|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|0.85|||||TWO_SIDED|95.0|0.56|1.29|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.29|0.56|
92338834|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.11|||||TWO_SIDED|95.0|0.55|2.23|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||2.23|0.55|
92338835|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.66|||||TWO_SIDED|95.0|0.89|3.11|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||3.11|0.89|
92338836|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.52|||||TWO_SIDED|95.0|0.83|2.77|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||2.77|0.83|
92398683|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|1.54||0.8782|TWO_SIDED|95.0|-2.8|3.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||3.27|-2.80|0.8782
92398684|NCT03192176|184689417|SUPERIORITY||LSMean difference|-4.2|STANDARD_ERROR_OF_MEAN|1.55||0.0069|TWO_SIDED|95.0|-7.27|-1.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||-1.17|-7.27|0.0069
92398685|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.95||0.089|TWO_SIDED|95.0|-3.49|0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||0.25|-3.49|0.0890
92398686|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.95||0.1444|TWO_SIDED|95.0|-3.25|0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||0.48|-3.25|0.1444
92398687|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.97||0.1022|TWO_SIDED|95.0|-3.51|0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||0.32|-3.51|0.1022
92398688|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.97||0.2342|TWO_SIDED|95.0|-3.07|0.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||0.75|-3.07|0.2342
92398689|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.96||0.9906|TWO_SIDED|95.0|-1.89|1.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||1.87|-1.89|0.9906
92398690|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.5|STANDARD_ERROR_OF_MEAN|0.95||0.577|TWO_SIDED|95.0|-1.34|2.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||2.40|-1.34|0.5770
92398691|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.95||0.1865|TWO_SIDED|95.0|-3.14|0.61||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||0.61|-3.14|0.1865
92398692|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.53||0.4575|TWO_SIDED|95.0|-1.45|0.65||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.65|-1.45|0.4575
92398693|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.53||0.6016|TWO_SIDED|95.0|-1.33|0.77||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.77|-1.33|0.6016
92154383|NCT01702428|184195037|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|1.04|||||TWO_SIDED|95.0|0.97|1.11|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L3 Group) for antibodies to mumps virus at Day 42.||1.11|0.97|
92154384|NCT01702428|184195037|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|1.07|||||TWO_SIDED|95.0|1.0|1.15|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L1 Group) for antibodies to mumps virus at Day 42.||1.15|1.00|
92154385|NCT01702428|184195037|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|1.11|||||TWO_SIDED|95.0|1.04|1.19|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L3 Group) for antibodies to mumps virus at Day 42.||1.19|1.04|
92338837|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.45|||||TWO_SIDED|95.0|0.78|2.71|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||2.71|0.78|
92398694|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.54||0.7026|TWO_SIDED|95.0|-0.86|1.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||1.28|-0.86|0.7026
92215741|NCT01807923|184330818|SUPERIORITY_OR_OTHER||LS Mean Difference|0.006||||0.5604|TWO_SIDED|95.0|-0.0142|0.0262|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline EQ-5D-3L index score.||0.0262|-0.0142|0.5604
92215742|NCT01807923|184330818|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0095||||0.3613|TWO_SIDED|95.0|-0.0109|0.0298|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||0.0298|-0.0109|0.3613
92215743|NCT01807923|184330819|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1||||0.1342|TWO_SIDED|95.0|-0.7|4.9|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline EQ-5D-3L VAS score.||4.9|-0.7|0.1342
92215744|NCT01807923|184330819|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4||||0.3071|TWO_SIDED|95.0|-1.3|4.2|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||4.2|-1.3|0.3071
92215745|NCT01807923|184330820|SUPERIORITY_OR_OTHER||LS Mean Difference|5.49||||0.016|TWO_SIDED|95.0|1.03|9.96|||MMRM|||Effectiveness: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM effectiveness score.||9.96|1.03|0.0160
92215746|NCT01807923|184330820|SUPERIORITY_OR_OTHER||LS Mean Difference|5.8||||0.0126|TWO_SIDED|95.0|1.25|10.35|||MMRM|||Effectiveness: analysis was performed as described in Statistical Analysis 1.||10.35|1.25|0.0126
92215747|NCT01807923|184330820|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.18||||0.0074|TWO_SIDED|95.0|-7.23|-1.13|||MMRM|||Side Effects: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM side effects score.||-1.13|-7.23|0.0074
92215748|NCT01807923|184330820|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.74||||0.0029|TWO_SIDED|95.0|-7.85|-1.63|||MMRM|||Side Effects: analysis was performed as described in Statistical Analysis 1.||-1.63|-7.85|0.0029
92215749|NCT01807923|184330820|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61||||0.7721|TWO_SIDED|95.0|-3.5|4.71|||MMRM|||Convenience: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM convenience score.||4.71|-3.50|0.7721
92338838|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.28|||||TWO_SIDED|95.0|0.7|2.34|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.34|0.70|
92338839|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.33|||||TWO_SIDED|95.0|0.78|2.28|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.28|0.78|
92215750|NCT01807923|184330820|SUPERIORITY_OR_OTHER||LS Mean Difference|3.08||||0.1472|TWO_SIDED|95.0|-1.09|7.25|||MMRM|||Convenience: analysis was performed as described in Statistical Analysis 1.||7.25|-1.09|0.1472
92338840|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.03|||||TWO_SIDED|95.0|0.62|1.74|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.74|0.62|
92338841|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.06|||||TWO_SIDED|95.0|0.62|1.82|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.82|0.62|
92338842|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.25|||||TWO_SIDED|95.0|0.58|2.67|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.67|0.58|
92338843|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|2.25|||||TWO_SIDED|95.0|1.09|4.63|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||4.63|1.09|
92338844|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.46|||||TWO_SIDED|95.0|0.72|2.93|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.93|0.72|
92338845|NCT03311841|184579786|OTHER||Geometric least squares mean ratio|1.06|||||TWO_SIDED|95.0|0.51|2.19|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.19|0.51|
92215751|NCT01807923|184330820|SUPERIORITY_OR_OTHER||LS Mean Difference|5.49||||0.0345|TWO_SIDED|95.0|0.4|10.58|||MMRM|||Global Satisfaction: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM global satisfaction score.||10.58|0.40|0.0345
92215752|NCT01807923|184330820|SUPERIORITY_OR_OTHER||LS Mean Difference|6.72||||0.0109|TWO_SIDED|95.0|1.55|11.89|||MMRM|||Global Satisfaction: analysis was performed as described in Statistical Analysis 1.||11.89|1.55|0.0109
92215753|NCT03933397|184330828|SUPERIORITY|||||||0.909|||||||Regression, Linear|||||||0.909
92215754|NCT00698932|184330863|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001||95.0|-0.65|-0.34|||ANCOVA|\*adjusted for baseline HbA1c||||-0.34|-0.65|<0.0001
92215755|NCT00698932|184330864|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.73|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001||95.0|-1.06|-0.39|||ANCOVA|\*adjusted for baseline FPG||||-0.39|-1.06|<0.0001
92215756|NCT00698932|184330865|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.12|STANDARD_ERROR_OF_MEAN|3.053|<|0.0001||95.0|-19.12|-7.13|||ANCOVA|\*adjusted for baseline FPG||||-7.13|-19.12|<0.0001
92215757|NCT00698932|184330866|SUPERIORITY_OR_OTHER||Median Difference (Net)|-182.0|STANDARD_ERROR_OF_MEAN|54.4||0.001||95.0|-289.0|-74.0|||ANCOVA|\*adjusted for baseline PPG AUC||||-74|-289|0.001
92215758|NCT00698932|184330867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3280.0|STANDARD_ERROR_OF_MEAN|980.0||0.001||95.0|-5214.0|-1345.0|||ANCOVA|\*adjusted for baseline PPG AUC||||-1345|-5214|0.001
92398695|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.54||0.2971|TWO_SIDED|95.0|-1.64|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.50|-1.64|0.2971
92215759|NCT00698932|184330868|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.0|||<|0.0001||95.0|8.9|24.9|||ANCOVA|||||24.9|8.9|<0.0001
92215760|NCT01621542|184330880|OTHER|None specified||||||||||||||||The MTD could not be established for this study as no DLTs occurred at doses up to and including 27.0 mg|The MTD could not be established for this study as no DLTs occurred at doses up to and including 27.0 mg|||
92215761|NCT03739437|184330929|SUPERIORITY|||||||0.384|||||||Chi-squared|||||||0.384
92398696|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.54||0.5491|TWO_SIDED|95.0|-1.38|0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.74|-1.38|0.5491
92215762|NCT02012296|184331122|SUPERIORITY|||||||0.83|||||||Log Rank|||||||0.83
92215763|NCT02012296|184331123|SUPERIORITY|||||||0.21|||||||Log Rank|||||||0.21
92215764|NCT02012296|184331126|SUPERIORITY|||||||0.0012|||||||t-test, 2 sided|||||||0.0012
92215765|NCT02012296|184331127|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92215766|NCT02012296|184331128|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
92215767|NCT01830855|184331143|SUPERIORITY_OR_OTHER||Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.93|1.14||||||PMB80 \[A22\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB80.||1.14|0.93|
92215768|NCT01830855|184331143|SUPERIORITY_OR_OTHER||Ratio of GMTs|1.02|||||TWO_SIDED|95.0|0.92|1.13||||||PMB80 \[A22\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB80.||1.13|0.92|
92215769|NCT01830855|184331143|SUPERIORITY_OR_OTHER||Ratio of GMTs|0.99|||||TWO_SIDED|95.0|0.88|1.12||||||PMB80 \[A22\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB80.||1.12|0.88|
92215770|NCT01830855|184331143|SUPERIORITY_OR_OTHER||Ratio of GMTs|0.95|||||TWO_SIDED|95.0|0.85|1.06||||||PMB2948 \[B24\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB2948.||1.06|0.85|
92215771|NCT01830855|184331143|SUPERIORITY_OR_OTHER||Ratio of GMTs|0.95|||||TWO_SIDED|95.0|0.86|1.06||||||PMB2948 \[B24\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB2948.||1.06|0.86|
92215772|NCT01830855|184331143|SUPERIORITY_OR_OTHER||Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.88|1.14||||||PMB2948 \[B24\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB2948||1.14|0.88|
92215773|NCT01798992|184331215|SUPERIORITY_OR_OTHER_LEGACY|||||||0.685|TWO_SIDED||||||Fisher Exact|||The null hypothesis is that there is no difference in rate of LVEF improvement according to treatment group.||||0.685
92215774|NCT01798992|184331216|SUPERIORITY_OR_OTHER_LEGACY|||||||0.071|TWO_SIDED||||||Fisher Exact|||The null hypothesis is that there is no difference in rate of LVEF improvement according to treatment group.||||0.071
92215775|NCT01187550|184331340|SUPERIORITY_OR_OTHER|||||||0.194||95.0|||||Wilcoxon rank sum test|||||||0.194
92215776|NCT01187550|184331341|SUPERIORITY_OR_OTHER|||||||0.752||95.0|||||Wilcoxon rank sum test|||||||0.752
92215777|NCT01187550|184331342|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Wilcoxon rank sum test|||||||0.710
92215778|NCT01187550|184331343|SUPERIORITY_OR_OTHER|||||||0.265||95.0|||||Wilcoxon rank sum test|||||||0.265
92215779|NCT01187550|184331344|SUPERIORITY_OR_OTHER|||||||0.308||95.0|||||Wilcoxon rank sum test|||||||0.308
92215780|NCT01187550|184331345|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||Wilcoxon rank sum test|||For total cholesterol: Wilcoxon rank sum test was used to calculate p-value.||||0.078
92215781|NCT01187550|184331345|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Wilcoxon rank sum test|||For HDL-cholesterol: Wilcoxon rank sum test was used to calculate p-value.||||0.033
92215782|NCT01187550|184331345|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||Wilcoxon rank sum test|||For LDL-cholesterol: Wilcoxon rank sum test was used to calculate p-value.||||0.041
92215783|NCT01187550|184331345|SUPERIORITY_OR_OTHER|||||||0.091||95.0|||||Wilcoxon rank sum test|||For triglycerides: Wilcoxon rank sum test was used to calculate p-value.||||0.091
92215784|NCT00129623|184331346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.1226|||<|0.0001|TWO_SIDED|95.0|2.9613|5.2838||The primary analysis was an ANOVA (two way classification), including treatment group and time since menopause (as a binary variable; 0.5-3 years, \>3 years) as independent factors.|ANOVA|||"H0 (null hypothesis): There was no statistically significant difference between monthly treatment with 150 mg oral IBN and monthly treatment with placebo in relative change from baseline of mean lumbar spine (L2-L4 BMD).~H1 (alternative hypothesis): There was a statistically significant difference between monthly treatment with 150 mg oral IBN and monthly treatment with placebo in relative change from baseline of mean lumbar spine (L2-L4 BMD)."||5.2838|2.9613|<0.0001
92215785|NCT00129623|184331352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.51|||||TWO_SIDED|95.0|5.12|30.56||||||Lumbar BMD: Adjusted treatment effect - The treatment effect and 95% C.I. were represented by presenting OR. These were estimated by fitting a logistic regression model, with responder outcome (responder/non-responder) as the dependent variable and the treatment group (oral IBN 150 mg/Placebo) and time since menopause as the independent variables. An OR of \>1 indicated participants treated with IBN were more likely to have BMD above or equal to baseline relative to those treated with placebo.||30.56|5.12|
92215786|NCT00129623|184331352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.59|||||TWO_SIDED|95.0|3.8|19.42||||||Proximal femur BMD: The adjusted treatment effect and 95% C.I. were represented by presenting OR. These were estimated by fitting a logistic regression model, with responder outcome (responder/non-responder) as the dependent variable and the treatment group (oral IBN 150 mg once monthly/Placebo) and time since menopause as the independent variables. An OR of \>1 indicated participants treated with IBN were more likely to have BMD above or equal to baseline relative to those treated with placebo.||19.42|3.80|
92215787|NCT00129623|184331352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.8|||||TWO_SIDED|95.0|5.17|36.79||||||Lumbar Spine and Proximal Femur BMD: The adjusted treatment effect and 95% C.I. were represented by presenting OR. These were estimated by fitting a logistic regression model, with responder outcome (responder/non-responder) as the dependent variable, and treatment group (oral IBN150 mg/Placebo) and time since menopause as the independent variables. An OR of \>1 indicated participants treated with IBN were more likely to have BMD above or equal to baseline relative to those treated with placebo.||36.79|5.17|
92215788|NCT00596934|184331355|SUPERIORITY_OR_OTHER|||||||0.015|||||||t-test, 2 sided|||Differences in each collected parameter will be evaluated using a paired t-test. If data are skewed such as in triglyceride levels, nonparametric tests will be used. P\<0.05 will be considered significant. If a significant difference can be demonstrated between baseline and 1-year results, a large scale, placebo-controlled trial will be designed using the data obtained from this pilot study||||0.015
92215789|NCT00596934|184331356|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92215790|NCT00596934|184331357|SUPERIORITY_OR_OTHER|||||||0.074||||||p = 0.074|t-test, 2 sided|||||||0.074
92215791|NCT00596934|184331358|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
92274757|NCT04549259|184452055|OTHER|Single group change over time.|B|-0.92|STANDARD_ERROR_OF_MEAN|1.12||0.42|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.42
92274758|NCT02008721|184452112|SUPERIORITY|||||||0.51|||||||Mixed Models Analysis|||"Power calculation: 80% power, 5% P-level, 50% effect size, i.e. an expected mean yearly UMSARS-ME increase of 3,9 under verum treatment compared to 7.8 ± 6.8 (mean ± standard deviation) under Placebo treatment.~We used a linear mixed-effects model to test the primary hypothesis-ie, to compare differences in the change in motor examination scores on UMSARS between baseline and week 52 between the study groups."||||0.51
92274759|NCT02008721|184452113|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||"Power calculation: 80% power, 5% P-level, 50% effect size, i.e. an expected mean yearly UMSARS-ME increase of 3,9 under verum treatment compared to 7.8 ± 6.8 (mean ± standard deviation) under Placebo treatment.~We used a linear mixed-effects model to test the primary hypothesis-ie, to compare differences in the change in motor examination scores on UMSARS between baseline and week 52 between the study groups."||||0.82
92274760|NCT02008721|184452114|SUPERIORITY|||||||0.99|||||||Mixed Models Analysis|||"Power calculation: 80% power, 5% P-level, 50% effect size. We used a linear mixed-effects model to test the primary hypothesis-ie, to compare differences in the change in UMSARS total score between baseline and week 52 between the study groups.~We did a post-hoc power calculation based on the mean change in motor examination scores on UMSARS and SDs in the placebo group of the per-protocol study completer set to test the assumptions of our initial power calculation."||||0.99
92215792|NCT00596934|184331359|SUPERIORITY_OR_OTHER|||||||0.006|||||||t-test, 2 sided|||||||0.006
92215793|NCT00596934|184331360|SUPERIORITY_OR_OTHER|||||||0.023|||||||t-test, 2 sided|||||||0.023
92215794|NCT00596934|184331361|SUPERIORITY_OR_OTHER|||||||0.195||||||p-value = 0.195.|t-test, 2 sided|||||||0.195
92215795|NCT00596934|184331362|SUPERIORITY_OR_OTHER|||||||0.026|||||||t-test, 2 sided|||||||0.026
92215796|NCT00744211|184331365|SUPERIORITY_OR_OTHER||||||<|0.05||||||p\<0.05; Pairwise tests of individual groups means were compared by adjusted probabilities (Bonferroni method).|ANOVA|||||||<0.05
92215797|NCT00744211|184331366|SUPERIORITY_OR_OTHER|||||||0.001||||||Pairwise tests of individual groups means were compared by adjusted probabilities (Bonferroni method).|ANOVA|||||||0.001
92215798|NCT00744211|184331367|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92215799|NCT00744211|184331368|EQUIVALENCE|Chi-square tests for differences between groups.||||||0.015||||||P-value is associated with the hematological/lymphatic adverse event.|Chi-squared|||||||0.015
92215800|NCT01368042|184331441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.7|STANDARD_DEVIATION|32.9||0.03|||||||Wilcoxon signed rank test-paired samples||n=234 (paired samples)|||||0.03
92215801|NCT01368042|184331442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.3|STANDARD_DEVIATION|57.2||0.05|||||||Wilcoxon signed rank test-paired samples||n=231 (paired samples)|||||0.05
92215802|NCT01368042|184331443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.8|STANDARD_DEVIATION|56.4||0.003|||||||Wilcoxon signed rank test-paired samples||n=231 (paired samples)|||||0.003
92338846|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|0.63|||||TWO_SIDED|95.0|0.36|1.11|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.11|0.36|
92338847|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.3|||||TWO_SIDED|95.0|0.75|2.28|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||2.28|0.75|
92338848|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|0.94|||||TWO_SIDED|95.0|0.55|1.61|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.61|0.55|
92338849|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|0.4|||||TWO_SIDED|95.0|0.23|0.69|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||0.69|0.23|
92338850|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.02|||||TWO_SIDED|95.0|0.53|1.95|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||1.95|0.53|
92338851|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|3.0|||||TWO_SIDED|95.0|1.57|5.74|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||5.74|1.57|
92338852|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|5.28|||||TWO_SIDED|95.0|2.83|9.87|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||9.87|2.83|
92338853|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|2.65|||||TWO_SIDED|95.0|1.39|5.07|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||5.07|1.39|
92338854|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.33|||||TWO_SIDED|95.0|0.76|2.34|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.34|0.76|
92338855|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.97|||||TWO_SIDED|95.0|1.12|3.46|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||3.46|1.12|
92338856|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.25|||||TWO_SIDED|95.0|0.72|2.15|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.15|0.72|
92215803|NCT01368042|184331444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|STANDARD_DEVIATION|30.5|<|0.001|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||<0.001
92215804|NCT01368042|184331445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4|STANDARD_DEVIATION|27.2|<|0.001|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||<0.001
92338857|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.34|||||TWO_SIDED|95.0|0.76|2.36|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.36|0.76|
92338858|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.03|||||TWO_SIDED|95.0|0.64|1.65|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.65|0.64|
92338859|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.39|||||TWO_SIDED|95.0|0.87|2.24|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||2.24|0.87|
92338860|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.08|||||TWO_SIDED|95.0|0.68|1.71|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.71|0.68|
92215805|NCT01368042|184331446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.3|STANDARD_DEVIATION|35.3|<|0.001|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||<0.001
92215806|NCT01368042|184331447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.7|STANDARD_DEVIATION|34.8|<|0.001|||||||Wilcoxon signed rank test-paired samples||n=234 (paired samples)|||||<0.001
92215807|NCT01368042|184331448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|20.9||0.38|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||0.38
92215808|NCT01368042|184331449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.0|STANDARD_DEVIATION|32.0|<|0.001|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||<0.001
92215809|NCT01368042|184331450|SUPERIORITY_OR_OTHER|||||||0.03|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Physical functioning scale||||0.03
92338861|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|0.73|||||TWO_SIDED|95.0|0.45|1.17|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.17|0.45|
92338862|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.16|||||TWO_SIDED|95.0|0.53|2.52|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||2.52|0.53|
92338863|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.8|||||TWO_SIDED|95.0|0.9|3.62|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||3.62|0.90|
92338864|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.65|||||TWO_SIDED|95.0|0.84|3.23|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||3.23|0.84|
92338865|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.17|||||TWO_SIDED|95.0|0.58|2.35|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||2.35|0.58|
92338866|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.46|||||TWO_SIDED|95.0|0.71|2.97|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.97|0.71|
92338867|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.68|||||TWO_SIDED|95.0|0.89|3.19|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||3.19|0.89|
92398697|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.54||0.7142|TWO_SIDED|95.0|-0.86|1.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||1.25|-0.86|0.7142
92398698|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.53||0.1157|TWO_SIDED|95.0|-1.89|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.21|-1.89|0.1157
92215810|NCT01368042|184331450|SUPERIORITY_OR_OTHER|||||||0.02|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Role functioning due to physical health scale||||0.02
92338868|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.16|||||TWO_SIDED|95.0|0.63|2.14|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.14|0.63|
92338869|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|0.83|||||TWO_SIDED|95.0|0.44|1.57|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.57|0.44|
92338870|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.27|||||TWO_SIDED|95.0|0.56|2.91|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.91|0.56|
92338871|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|2.65|||||TWO_SIDED|95.0|1.21|5.81|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||5.81|1.21|
92338872|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|1.49|||||TWO_SIDED|95.0|0.7|3.18|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||3.18|0.70|
92338873|NCT03311841|184579787|OTHER||Geometric least squares mean ratio|0.95|||||TWO_SIDED|95.0|0.43|2.08|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.08|0.43|
92215811|NCT01368042|184331450|SUPERIORITY_OR_OTHER|||||||0.01|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Role functioning due to emotional problems scale||||0.01
92215812|NCT01368042|184331450|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Energy/fatigue scale||||<0.001
92215813|NCT01368042|184331450|SUPERIORITY_OR_OTHER|||||||0.002|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Emotional well-being scale||||0.002
92215814|NCT01368042|184331450|SUPERIORITY_OR_OTHER|||||||0.002|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Social functioning scale||||0.002
92215815|NCT01368042|184331450|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Bodily pain scale||||<0.001
92215816|NCT01368042|184331450|SUPERIORITY_OR_OTHER|||||||0.56|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||General health perceptions scale||||0.56
92215817|NCT01368042|184331451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|STANDARD_DEVIATION|41.6||0.001|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||0.001
92338874|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|0.97|||||TWO_SIDED|95.0|0.63|1.48|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.48|0.63|
92338875|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.06|||||TWO_SIDED|95.0|0.69|1.62|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.62|0.69|
92338876|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|0.94|||||TWO_SIDED|95.0|0.62|1.41|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.41|0.62|
92338877|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|0.55|||||TWO_SIDED|95.0|0.36|0.83|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||0.83|0.36|
92338878|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|0.84|||||TWO_SIDED|95.0|0.44|1.61|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||1.61|0.44|
92338879|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.71|||||TWO_SIDED|95.0|0.89|3.27|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||3.27|0.89|
92215818|NCT01368042|184331452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|1.4||0.03|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||0.03
92215819|NCT01368042|184331453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|0.9||0.06|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||0.06
92215820|NCT01368042|184331454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|1.7||0.84|||||||Wilcoxon signed rank test-paired samples||n=234 (paired samples)|||||0.84
92338880|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.75|||||TWO_SIDED|95.0|0.93|3.27|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||3.27|0.93|
92338881|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|0.72|||||TWO_SIDED|95.0|0.38|1.38|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||1.38|0.38|
92338882|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.49|||||TWO_SIDED|95.0|0.92|2.4|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.40|0.92|
92338883|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.84|||||TWO_SIDED|95.0|1.14|2.98|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.98|1.14|
92215821|NCT01368042|184331455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|16.5||0.67|||||||Wilcoxon signed rank test-paired samples||n=234 (paired samples)|||||0.67
92215822|NCT01368042|184331456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.4|STANDARD_DEVIATION|324.8||0.02|||||||Wilcoxon signed rank test-paired samples||n= 215 (paired samples)|||||0.02
92215823|NCT01368042|184331457|SUPERIORITY_OR_OTHER|||||||0.12|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||||||0.12
92338884|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.33|||||TWO_SIDED|95.0|0.84|2.11|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.11|0.84|
92338885|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.47|||||TWO_SIDED|95.0|0.91|2.38|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.38|0.91|
92338886|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.19|||||TWO_SIDED|95.0|0.81|1.75|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.75|0.81|
92215824|NCT02632721|184331458|OTHER||Probability of DLT rate in [0.16, 0.33)|0.081|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.16, 0.33) (target dosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
92215825|NCT02632721|184331458|OTHER||Probability of DLT rate in [0.33, 1)|0.0|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.33,1) (overdosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
92338887|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.2|||||TWO_SIDED|95.0|0.82|1.76|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.76|0.82|
92398699|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.36||0.1114|TWO_SIDED|95.0|-1.3|0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Symptoms Score||0.14|-1.30|0.1114
92338888|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.08|||||TWO_SIDED|95.0|0.75|1.57|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.57|0.75|
92338889|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|0.89|||||TWO_SIDED|95.0|0.61|1.31|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.31|0.61|
92338890|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.48|||||TWO_SIDED|95.0|0.58|3.75|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||3.75|0.58|
92338891|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|2.54|||||TWO_SIDED|95.0|1.11|5.85|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||5.85|1.11|
92338892|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|2.16|||||TWO_SIDED|95.0|0.97|4.81|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||4.81|0.97|
92338893|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|2.94|||||TWO_SIDED|95.0|1.28|6.77|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||6.77|1.28|
92338894|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.11|||||TWO_SIDED|95.0|0.59|2.07|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.07|0.59|
92338895|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.24|||||TWO_SIDED|95.0|0.71|2.17|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.17|0.71|
92338896|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|0.94|||||TWO_SIDED|95.0|0.55|1.62|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.62|0.55|
92338897|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.12|||||TWO_SIDED|95.0|0.64|1.96|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.96|0.64|
92398700|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.36||0.0025|TWO_SIDED|95.0|-1.83|-0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Symptoms Score||-0.40|-1.83|0.0025
92338898|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.1|||||TWO_SIDED|95.0|0.46|2.64|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.64|0.46|
92338899|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.87|||||TWO_SIDED|95.0|0.81|4.32|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||4.32|0.81|
92338900|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.13|||||TWO_SIDED|95.0|0.51|2.53|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.53|0.51|
92338901|NCT03311841|184579788|OTHER||Geometric least squares mean ratio|1.04|||||TWO_SIDED|95.0|0.45|2.41|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.41|0.45|
92338902|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.68|||||TWO_SIDED|95.0|0.78|3.62|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||3.62|0.78|
92338903|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.3|||||TWO_SIDED|95.0|0.75|2.23|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.23|0.75|
92338904|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.98|||||TWO_SIDED|95.0|1.15|3.41|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||3.41|1.15|
92338905|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|0.98|||||TWO_SIDED|95.0|0.58|1.66|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||1.66|0.58|
92338906|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.03|||||TWO_SIDED|95.0|0.52|2.03|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||2.03|0.52|
92215826|NCT02632721|184331458|OTHER||Probability of DLT rate in [0.16, 0.33)|0.028|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.16, 0.33) (target dosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
92215827|NCT02632721|184331458|OTHER||Posterior probability of the DLT rate ly|0.0|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.33,1) (overdosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
92338907|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.51|||||TWO_SIDED|95.0|0.77|2.97|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||2.97|0.77|
92338908|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.07|||||TWO_SIDED|95.0|0.56|2.05|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||2.05|0.56|
92338909|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|0.6|||||TWO_SIDED|95.0|0.3|1.17|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.17|0.30|
92338910|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.57|||||TWO_SIDED|95.0|0.84|2.94|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atovastatin||2.94|0.84|
92338911|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.49|||||TWO_SIDED|95.0|0.81|2.73|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atovastatin||2.73|0.81|
92338912|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.44|||||TWO_SIDED|95.0|0.84|2.47|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.47|0.84|
92338913|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.06|||||TWO_SIDED|95.0|0.63|1.78|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.78|0.63|
92398701|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|95.0|-2.2|-0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Symptoms Scre||-0.74|-2.20|<0.0001
92398702|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.37||0.5093|TWO_SIDED|95.0|-0.96|0.48|||MMRM|||Week 8: Vasomotor Symptoms Score||0.48|-0.96|0.5093
92338914|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.85|||||TWO_SIDED|95.0|0.95|3.61|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||3.61|0.95|
92398703|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|95.0|-2.33|-0.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Symptoms Score||-0.86|-2.33|<0.0001
92398704|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.36||0.009|TWO_SIDED|95.0|-1.67|-0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Symptoms Score||-0.24|-1.67|0.0090
92398705|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.37||0.0024|TWO_SIDED|95.0|-1.84|-0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|LSMean difference|||Week 4: Vasomotor Symptoms Score||-0.40|-1.84|0.0024
92398706|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5497|TWO_SIDED|95.0|-0.47|0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||0.25|-0.47|0.5497
92398707|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0276|TWO_SIDED|95.0|-0.76|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||-0.04|-0.76|0.0276
92398708|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.1274|TWO_SIDED|95.0|-0.65|0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||0.08|-0.65|0.1274
92398709|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.1865|TWO_SIDED|95.0|-0.61|0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|LSMean difference|||Week 8: Sexual Dysfunction Score||0.12|-0.61|0.1865
92398710|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.1857|TWO_SIDED|95.0|-0.61|0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||0.12|-0.61|0.1857
92398711|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.8631|TWO_SIDED|95.0|-0.33|0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||0.39|-0.33|0.8631
92215828|NCT02632721|184331458|OTHER||Probability of DLT rate in [0.16, 0.33)|0.012|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.16, 0.33) (target dosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
92398712|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0304|TWO_SIDED|95.0|-0.75|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||-0.04|-0.75|0.0304
92398713|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|1.63||0.1246|TWO_SIDED|95.0|-5.71|0.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||0.70|-5.71|0.1246
92398714|NCT03192176|184689417|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|1.63||0.068|TWO_SIDED|95.0|-6.19|0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||0.22|-6.19|0.0680
92398715|NCT03192176|184689417|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|1.67||0.0729|TWO_SIDED|95.0|-6.28|0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||0.28|-6.28|0.0729
92398716|NCT03192176|184689417|SUPERIORITY||LSMean difference|-3.2|STANDARD_ERROR_OF_MEAN|1.66||0.0541|TWO_SIDED|95.0|-6.49|0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||0.06|-6.49|0.0541
92274761|NCT02008721|184452115|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||"Power calculation: 80% power, 5% P-level, 50% effect size. We used a linear mixed-effects model to test the primary hypothesis-ie, to compare differences in the change in UMSARS total score between baseline and week 52 between the study groups.~We did a post-hoc power calculation based on the mean change in motor examination scores on UMSARS and SDs in the placebo group of the per-protocol study completer set to test the assumptions of our initial power calculation."||||0.43
92215829|NCT02632721|184331458|OTHER||Probability of DLT rate in [0.33, 1)|0.0|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.33,1) (overdosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
92215830|NCT00705432|184331496|SUPERIORITY_OR_OTHER||The difference in SVR|26.6|||<|0.0001|TWO_SIDED|95.0|19.1|34.1|||Cochran-Mantel Haenszel Chi-square test|Adjustments were made for for baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||34.1|19.1|<0.0001
92215831|NCT00705432|184331496|SUPERIORITY_OR_OTHER||The difference in SVR|28.3|||<|0.0001|TWO_SIDED|95.0|20.8|35.8|||Cochran-Mantel Haenszel Chi-square test|Adjustments were made for baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||35.8|20.8|<0.0001
92338915|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|3.1|||||TWO_SIDED|95.0|1.64|5.86|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||5.86|1.64|
92338916|NCT03311841|184579789|OTHER||Geometric least squares mean ratio|1.75|||||TWO_SIDED|95.0|0.95|3.24|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||3.24|0.95|
92338917|NCT05464420|184579810|OTHER|Estimated difference in percentage and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|6.0|||||TWO_SIDED|95.0|3.0|8.6||||||Injection site erythema: V116 Combined Lots - PPSV23||8.6|3.0|
92338918|NCT05464420|184579810|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|12.6|||||TWO_SIDED|95.0|8.0|17.3||||||Injection site pain: V116 Combined Lots - PPSV23||17.3|8.0|
92338919|NCT05464420|184579810|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|5.6|||||TWO_SIDED|95.0|2.6|8.2||||||Injection site swelling: V116 Combined Lots - PPSV23||8.2|2.6|
92338920|NCT05464420|184579812|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|1.4|||||TWO_SIDED|95.0|-3.2|6.0||||||Fatigue: V116 Combined Lots - PPSV23||6.0|-3.2|
92338921|NCT05464420|184579812|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|5.8|||||TWO_SIDED|95.0|1.6|9.7||||||Headache: V116 Combined Lots - PPSV23||9.7|1.6|
92215832|NCT00705432|184331496|SUPERIORITY_OR_OTHER||The difference in SVR|19.2||||0.044|TWO_SIDED|95.0|1.6|36.9|||Cochran-Mantel Haenszel Chi-square test|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||36.9|1.6|0.0440
92215833|NCT00705432|184331496|SUPERIORITY_OR_OTHER||The difference in SVR|29.7||||0.0035|TWO_SIDED|95.0|12.2|47.1|||Cochran-Mantel Haenszel Chi-square|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||47.1|12.2|0.0035
92215834|NCT00705432|184331497|SUPERIORITY_OR_OTHER||The difference in SVR rates|27.5|||<|0.0001|TWO_SIDED|95.0|19.2|35.2|||Cochran-Mantel Haenszel Chi-square|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||35.2|19.2|<0.0001
92338922|NCT05464420|184579812|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|7.6|||||TWO_SIDED|95.0|4.5|10.5||||||Myalgia: V116 Combined Lots - PPSV23||10.5|4.5|
92338923|NCT05464420|184579812|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|0.8|||||TWO_SIDED|95.0|-1.0|2.1||||||Pyrexia: V116 Combined Lots - PPSV23||2.1|-1.0|
92338924|NCT05464420|184579814|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|0.0|||||TWO_SIDED|95.0|-0.7|0.2||||||Vaccine-related SAEs: V116 Combined Lots - PPSV23||0.2|-0.7|
92338925|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.96|1.24||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 3: GMT Ratio V116 Lot 1/ V116 Lot 2||1.24|0.96|<0.001
92338926|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.9|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/ V116 Lot 3|Serotype 3: GMT Ratio V116 Lot 1/ V116 Lot 3||1.17|0.90|<0.001
92338927|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.83|1.06||Identical p-values for the lower and upper bounds.|cLDA Model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/ V116 Lot 3|Serotype 3: GMT Ratio V116 Lot 2/ V116 Lot 3||1.06|0.83|<0.001
92338928|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|0.97|1.35||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 6A: GMT Ratio V116 Lot 1/ V116 Lot 2||1.35|0.97|<0.001
92215835|NCT00705432|184331497|SUPERIORITY_OR_OTHER||The difference in SVR rates|29.1|||<|0.0001|TWO_SIDED|95.0|21.5|36.8|||Cochran-Mantel Haenszel Chi-square|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||36.8|21.5|<0.0001
92215836|NCT00705432|184331497|SUPERIORITY_OR_OTHER||The difference in SVR|21.3||||0.0366|TWO_SIDED|95.0|2.3|40.2|||Cochran-Mantel Haenszel Chi-square test|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||40.2|2.3|0.0366
92274762|NCT01967888|184452141|SUPERIORITY||t-test|-1.2||||0.542|TWO_SIDED|95.0|-14.3|0.0|||Cochran-Mantel-Haenszel|||||000|-14.3|0.542
92338929|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.88|1.22||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 6A: GMT Ratio V116 Lot 1/ V116 Lot 3||1.22|0.88|<0.001
92338930|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.91|||<|0.001|TWO_SIDED|95.0|0.77|1.06||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 6A: GMT Ratio V116 Lot 2/ V116 Lot 3||1.06|0.77|<0.001
92338931|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.16|||<|0.001|TWO_SIDED|95.0|1.01|1.34||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 7F: V116 Lot 1/ V116 Lot 2||1.34|1.01|<0.001
92338932|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.94|1.25||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 7F: GMT Ratio V116 Lot 1/ V116 Lot 3||1.25|0.94|<0.001
92338933|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.93|||<|0.001|TWO_SIDED|95.0|0.81|1.07||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 7F: GMT Ratio V116 Lot 2/ V116 Lot 3||1.07|0.81|<0.001
92338934|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.92|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 8 V116 Lot 1/V116 Lot 2||1.16|0.92|<0.001
92338935|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.93|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/ V116 Lot 3|Serotype 8: GMT Ratio V116 Lot 1/ V116 Lot 3||1.18|0.93|<0.001
92338936|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.9|1.14||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/ V116 Lot 3|Serotype 8: GMT Ratio V116 Lot 2/ V116 Lot 3||1.14|0.90|<0.001
92338937|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.94|1.26||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 9N: GMT Ratio V116 Lot 1/ V116 Lot 2||1.26|0.94|<0.001
92338938|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.87|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 9N: GMT Ratio V116 Lot 1/ V116 Lot 3||1.17|0.87|<0.001
92338939|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.93|||<|0.001|TWO_SIDED|95.0|0.8|1.07||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 9N: GMT Ratio V116 Lot 2/V116 Lot 3||1.07|0.80|<0.001
92338940|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.85|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 10A: GMT Ratio V116 Lot 1/ V116 Lot 2||1.11|0.85|<0.001
92338941|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.91|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 10A: GMT Ratio V116 Lot 1/ V116 Lot 3||1.18|0.91|<0.001
92338942|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.06|||<|0.001|TWO_SIDED|95.0|0.93|1.21||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 10A: GMT Ratio V116 Lot 2/V116 Lot 3||1.21|0.93|<0.001
92398717|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|1.64||0.696|TWO_SIDED|95.0|-3.87|2.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||2.59|-3.87|0.6960
92154386|NCT01702428|184195037|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|0.96|||||TWO_SIDED|95.0|0.9|1.03|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L1 Group) for antibodies to mumps virus at Day 42.||1.03|0.90|
92215837|NCT00705432|184331497|SUPERIORITY_OR_OTHER||The difference in SVR|27.2||||0.0107|TWO_SIDED|95.0|9.0|45.3|||Cochran-Mantel Haenszel Chi-square|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||45.3|9.0|0.0107
92154387|NCT01702428|184195037|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|0.9|||||TWO_SIDED|95.0|0.84|0.96|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L2 Group) for antibodies to mumps virus at Day 42.||0.96|0.84|
92154388|NCT01702428|184195038|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to rubella virus.|Difference in seroresponse rate|0.14|||||TWO_SIDED|95.0|-1.3|1.58|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L2 Group) in percentage of subjects with anti-rubella antibody concentration ≥10 IU/mL.||1.58|-1.3|
92215838|NCT01667107|184331510|SUPERIORITY_OR_OTHER||Spearman rank correlation coefficient|0.53||||0.139|||||||Spearman rank correlation|||Spearman rank correlation between concurrent BAL and serum posaconazole concentrations||||0.139
92215839|NCT01667107|184331510|SUPERIORITY_OR_OTHER||Spearman rank correlation coefficient|0.59||||0.057|||||||Spearman rank correlation|||Spearman rank correlation between concurrent BAL and serum posaconazole concentrations||||0.057
92338943|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.84|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 11A: GMT Ratio V116 Lot 1/ V116 Lot 2||1.11|0.84|<0.001
92338944|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.87|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 11A: GMT Ratio V116 Lot 1/V116 Lot 3||1.16|0.87|<0.001
92338945|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.9|1.2||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 11A: GMT Ratio V116 Lot 2/V116 Lot 3||1.20|0.90|<0.001
92338946|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.1|||<|0.001|TWO_SIDED|95.0|0.96|1.26||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 12F: GMT Ratio V116 Lot 1/V116 Lot 2||1.26|0.96|<0.001
92338947|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.89|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 12F: GMT Ratio V116 Lot 1/V116 Lot 3||1.17|0.89|<0.001
92338948|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.93|||<|0.001|TWO_SIDED|95.0|0.81|1.07||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 12F: GMT Ratio V116 Lot 2/V116 Lot 3||1.07|0.81|<0.001
92338949|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.89|1.22||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 15A: GMT Ratio V116 Lot 1/V116 Lot 2||1.22|0.89|<0.001
92338950|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.86|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 15A: GMT Ratio V116 Lot 1/V116 Lot 3||1.17|0.86|<0.001
92338951|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.82|1.12||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 15A: GMT Ratio V116 Lot 2/V116 Lot 3||1.12|0.82|<0.001
92338952|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|0.95|1.38||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 15C: GMT Ratio V116 Lot 1/V116 Lot 2||1.38|0.95|<0.001
92338953|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.18|||<|0.001|TWO_SIDED|95.0|0.97|1.42||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 15C: GMT Ratio V116 Lot 1/V116 Lot 3||1.42|0.97|<0.001
92398718|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.63||0.9725|TWO_SIDED|95.0|-3.27|3.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||3.15|-3.27|0.9725
92398719|NCT03192176|184689417|SUPERIORITY||LSMean difference|-3.3|STANDARD_ERROR_OF_MEAN|1.63||0.0419|TWO_SIDED|95.0|-6.53|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||-0.12|-6.53|0.0419
92215840|NCT01557348|184331512|SUPERIORITY_OR_OTHER|||||||0.0068||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||||||0.0068
92215841|NCT01557348|184331513|SUPERIORITY_OR_OTHER|||||||0.0588||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||||||0.0588
92274763|NCT01967888|184452142|SUPERIORITY||least square mean difference|-0.1601778||||0.092|TWO_SIDED|95.0|-0.317803|-0.0025525|||t-test, 2 sided|||||-0.0025525|-0.3178030|0.092
92274764|NCT01967888|184452143|SUPERIORITY||least square mean difference|-0.1178242||||0.161|TWO_SIDED|95.0|-0.287431|0.0517825|||t-test, 2 sided|||||0.0517825|-0.2874310|0.161
92215842|NCT01557348|184331514|SUPERIORITY_OR_OTHER|||||||0.1126||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in TJC at Month 6||||0.1126
92215843|NCT01557348|184331514|SUPERIORITY_OR_OTHER|||||||0.2342||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in TJC at Month 12||||0.2342
92215844|NCT01557348|184331515|SUPERIORITY_OR_OTHER|||||||0.4168||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in SJC at Month 6||||0.4168
92215845|NCT01557348|184331515|SUPERIORITY_OR_OTHER|||||||0.5867||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in SJC at Month 12||||0.5867
92215846|NCT01557348|184331516|SUPERIORITY_OR_OTHER|||||||0.8758||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in CRP at Month 6||||0.8758
92338954|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.85|1.23||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 15C: GMT Ratio V116 Lot 2/V116 Lot 3||1.23|0.85|<0.001
92338955|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.84|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 16F: GMT Ratio V116 Lot 1/V116 Lot 2||1.11|0.84|<0.001
92338956|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.84|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 16F: GMT Ratio V116 Lot 1/V116 Lot 3||1.11|0.84|<0.001
92398720|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.96||0.0794|TWO_SIDED|95.0|-3.57|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||0.20|-3.57|0.0794
92215847|NCT01557348|184331516|SUPERIORITY_OR_OTHER|||||||0.4849||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in CRP at Month 12||||0.4849
92338957|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.87|1.15||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 16F: GMT Ratio V116 Lot 2/V116 Lot 3||1.15|0.87|<0.001
92398721|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.98||0.1153|TWO_SIDED|95.0|-3.47|0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||0.38|-3.47|0.1153
92398722|NCT03192176|184689417|SUPERIORITY||-1.5|-1.5|STANDARD_ERROR_OF_MEAN|1.0||0.1334|TWO_SIDED|95.0|-3.47|0.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||0.46|-3.47|0.1334
92398723|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|1.0||0.3457|TWO_SIDED|95.0|-2.93|1.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||1.03|-2.93|0.3457
92215848|NCT01557348|184331517|SUPERIORITY_OR_OTHER|||||||0.0086||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in ESR at Month 6||||0.0086
92215849|NCT01557348|184331517|SUPERIORITY_OR_OTHER|||||||0.2918||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in ESR at Month 12||||0.2918
92215850|NCT01557348|184331518|SUPERIORITY_OR_OTHER|||||||0.0764||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Physician Global Assessment of Disease at Month 6||||0.0764
92215851|NCT01557348|184331518|SUPERIORITY_OR_OTHER|||||||0.0587||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Physician Global Assessment of Disease at Month 12||||0.0587
92215852|NCT01557348|184331519|SUPERIORITY_OR_OTHER|||||||0.0443||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Patient Global Assessment of Disease at Month 6||||0.0443
92215853|NCT01557348|184331519|SUPERIORITY_OR_OTHER|||||||0.4802||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Patient Global Assessment of Disease at Month 12||||0.4802
92215854|NCT01557348|184331520|SUPERIORITY_OR_OTHER|||||||0.2026||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Participant's Visual Analogue Scale Pain Score at Months 6||||0.2026
92215855|NCT01557348|184331520|SUPERIORITY_OR_OTHER|||||||0.0295||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Participant's Visual Analogue Scale Pain Score at Months 12||||0.0295
92215856|NCT01557348|184331521|SUPERIORITY_OR_OTHER|||||||0.337||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in HAQ-DI at Month 6||||0.3370
92338958|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.85|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 17F: GMT Ratio V116 Lot 1/V116 Lot 2||1.11|0.85|<0.001
92338959|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.89|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 17F: GMT Ratio V116 Lot 1/V116 Lot 3||1.17|0.89|<0.001
92338960|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.92|1.2||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 17F: GMT Ratio V116 Lot 2/V116 Lot 3||1.20|0.92|<0.001
92338961|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.91|1.15||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 19A: GMT Ratio V116 Lot 1/V116 Lot 2||1.15|0.91|<0.001
92215857|NCT01557348|184331521|SUPERIORITY_OR_OTHER|||||||0.1515||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in HAQ-DI at Month 12||||0.1515
92215858|NCT01557348|184331522|SUPERIORITY_OR_OTHER|||||||0.3253||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in duration of morning stiffness at month 6||||0.3253
92338962|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.95|||<|0.001|TWO_SIDED|95.0|0.84|1.07||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 19A: GMT Ratio V116 Lot 1/V116 Lot 3||1.07|0.84|<0.001
92338963|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.93|||<|0.001|TWO_SIDED|95.0|0.82|1.04||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 19A: GMT Ratio V116 Lot 2/V116 Lot 3||1.04|0.82|<0.001
92398724|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.99||0.2607|TWO_SIDED|95.0|-3.07|0.83||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||0.83|-3.07|0.2607
92215859|NCT01557348|184331522|SUPERIORITY_OR_OTHER|||||||0.3535||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in duration of morning stiffness at month 12||||0.3535
92215860|NCT03427125|184331530|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92215861|NCT03427125|184331531|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.0020
92215862|NCT02281357|184331533|SUPERIORITY|The null hypothesis was that the average percentage change in OCS dose on tralokinumab was equal to the average percentage change in OCS dose on placebo.|LS Mean difference|-7.78||||0.271|TWO_SIDED|95.0|-21.7|6.15|||ANCOVA|The analysis of covariance (ANCOVA) model utilised a sandwich estimator for the variance.|The model included treatment group as a fixed effect and baseline OCS dose as a continuous covariate. No interaction terms were included in the model. All group comparisons from the ANCOVA model were based on Type III sums of squares.|Comparison of percent change from baseline in OCS dose: tralokinumab vs placebo.||6.15|-21.70|0.271
92215863|NCT02281357|184331534|SUPERIORITY||Odds Ratio (OR)|1.33||||0.442|TWO_SIDED|95.0|0.65|2.73|||Regression, Logistic|The model included treatment group as a fixed effect and baseline OCS dose as a continuous covariate.||Comparison of OCS dose ≤5.0 mg: tralokinumab vs placebo.||2.73|0.65|0.442
92215864|NCT02281357|184331535|SUPERIORITY||Odds Ratio (OR)|1.38||||0.356|TWO_SIDED|95.0|0.7|2.74|||Regression, Logistic|The model included treatment group as a fixed effect and baseline OCS dose as a continuous covariate.||Comparison of ≥50% reduction in OCS dose: tralokinumab vs placebo.||2.74|0.70|0.356
92215865|NCT02281357|184331536|SUPERIORITY||Rate Ratio|0.8||||0.186|TWO_SIDED|95.0|0.57|1.12|||Negative binomial||Treatment group, OCS dose at baseline, and number of exacerbations in the previous year are included in the model as covariates.|Comparison of AAER: tralokinumab vs placebo.||1.12|0.57|0.186
92215866|NCT01162239|184331542|OTHER|||||||0.62|||||||Chi-squared|||||||0.62
92215867|NCT01162239|184331543|OTHER|||||||0.91|||||||Chi-squared|||||||0.91
92215868|NCT05315947|184331578|EQUIVALENCE|Bioequivalence between the BRV tablet (reference) and BRV dry syrup (test) formulations were concluded if the 90% CI limits for Cmax was within the 0.80 to 1.25 range.|Ratio of Dry Syrup/ Tablet|0.87|||||TWO_SIDED|90.0|0.7814|0.9686||||||||0.9686|0.7814|
92215869|NCT05315947|184331579|EQUIVALENCE|Bioequivalence between the BRV tablet (reference) and BRV dry syrup (test) formulations were concluded if the 90% CI limits for AUC(0-t) was within the 0.80 to 1.25 range.|Ratio of Dry Syrup/ Tablet|0.989|||||TWO_SIDED|90.0|0.9756|1.003||||||||1.003|0.9756|
92215870|NCT02499770|184331587|OTHER||||||=|0.0097||||||The p-value was calculated using the stratified log-rank test to account for the baseline ECOG status (0-1 vs 2) as the stratification factor. Significance level was set as two-sided 0.2.|Stratified log-rank test|p-value calculated using stratified log-rank test with baseline ECOG status (0-1 vs 2) as stratification factor. Significance level was two-sided 0.2.||||||= 0.0097
92338964|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.98|||<|0.001|TWO_SIDED|95.0|0.84|1.14||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 20A: GMT Ratio V116 Lot 1/V116 Lot 2||1.14|0.84|<0.001
92215871|NCT00823303|184331638|NON_INFERIORITY_OR_EQUIVALENCE|On the basis of prior published reports, we estimated a 5% rate of hypercalcemia with paricalcitol and a 30% rate with calcitriol. To have a 90% power to detect a difference at the P=0.05 confidence level, 42 patients per group were needed. Assuming a 30% dropout rate over the course of the study, we planned to randomize 110 patients.||||||0.36|||||||Fisher Exact|||||||0.36
92215872|NCT02877927|184331654|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|5.0|||||TWO_SIDED|95.0|-0.2|10.3|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||10.3|-0.2|
92215873|NCT02877927|184331655|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|3.3|||||TWO_SIDED|95.0|-2.2|8.9|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||8.9|-2.2|
92215874|NCT02877927|184331656|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|2.3|||||TWO_SIDED|95.0|-0.6|5.6|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||5.6|-0.6|
92274765|NCT01967888|184452144|SUPERIORITY||least square mean difference|0.0136||||0.846|TWO_SIDED|95.0|-0.0508|0.0781|||t-test, 2 sided|||||0.0781|-0.0508|0.846
92274766|NCT01967888|184452145|SUPERIORITY||least square mean difference|-0.025||||0.817|TWO_SIDED|95.0|-0.0939|0.0689|||t-test, 2 sided|||||0.0689|-0.0939|0.817
92215875|NCT00708175|184331657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.17|TWO_SIDED|95.0|-1.33|0.24||P-value is from a 1-way ANCOVA with treatment group as a factor and baseline BMD as a covariate. There were no multiplicity adjustments.|ANCOVA|||The sample size was calculated using a precision approach to estimate the difference between the pioglitazone and placebo treatment groups in the percent change from baseline in BMD.||0.24|-1.33|0.170
92338965|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.07|||<|0.001|TWO_SIDED|95.0|0.92|1.24||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 20A: GMT Ratio V116 Lot 1/V116 Lot 3||1.24|0.92|<0.001
92215876|NCT00708175|184331658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.64|TWO_SIDED|95.0|-0.91|0.56||P-value is from a 1-way ANCOVA with treatment group as a factor and the Month 12 BMD value as a covariate. There were no multiplicity adjustments.|ANCOVA|||||0.56|-0.91|0.640
92215877|NCT03672461|184331682|SUPERIORITY||Model based LS mean difference|0.29||||0.056|TWO_SIDED|95.0|-0.01|0.6|||Mixed Models Analysis|adjusted for baseline value. Repeated measures mixed models, unstructured variance co-variance matrix||Null Hypothesis: Yoga is not associated with improvement in change from baseline in Total Urinary Incontinence Episodes||0.6|-0.01|0.056
92215878|NCT03672461|184331683|SUPERIORITY||Model based LS mean difference|0.03||||0.757|TWO_SIDED|95.0|-0.15|0.2|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.2|-0.15|0.757
92215879|NCT03672461|184331684|SUPERIORITY||Model based LS mean difference|0.22||||0.048|TWO_SIDED|95.0|0.0|0.45|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.45|0|0.048
92215880|NCT03672461|184331685|SUPERIORITY||Model based LS mean difference|0.82||||0.911|TWO_SIDED|95.0|-13.6|15.23|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||15.23|-13.6|0.911
92274767|NCT01967888|184452146|SUPERIORITY||least square mean difference|-9.4641||||0.57|TWO_SIDED|95.0|-42.49|23.5618|||Mixed Models Analysis|||||23.5618|-42.4900|0.570
92274768|NCT01967888|184452147|SUPERIORITY||least square mean difference|-22.9454|||=|0.074|TWO_SIDED|95.0|-48.1826|2.2918|||Mixed Models Analysis|||||2.2918|-48.1826|=0.074
92274769|NCT01967888|184452148|SUPERIORITY||least square mean difference|-0.2074|||=|0.358|TWO_SIDED|95.0|-0.6538|0.2389|||Mixed Models Analysis|||||0.2389|-0.6538|=0.358
92274770|NCT01967888|184452149|SUPERIORITY||least square mean difference|-0.277|||=|0.288|TWO_SIDED|95.0|-0.7936|0.2396|||Mixed Models Analysis|||||0.2396|-0.7936|=0.288
92215881|NCT03672461|184331686|SUPERIORITY||Model based LS mean difference|3.13||||0.041|TWO_SIDED|95.0|0.13|6.13|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||6.13|0.13|0.041
92215882|NCT03672461|184331687|SUPERIORITY||Model based LS mean difference|0.07||||0.564|TWO_SIDED|95.0|-0.16|0.3|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.3|-0.16|0.564
92215883|NCT03672461|184331688|SUPERIORITY||Model based LS mean difference|0.3||||0.764|TWO_SIDED|95.0|-1.69|2.3|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.3|-1.69|0.764
92215884|NCT03672461|184331689|SUPERIORITY||Model based LS mean difference|-0.12||||0.883|TWO_SIDED|95.0|-1.78|1.53|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.53|-1.78|0.883
92215885|NCT03672461|184331690|SUPERIORITY||Model based LS mean difference|-0.11||||0.753|TWO_SIDED|95.0|-0.83|0.6|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.6|-0.83|0.753
92215886|NCT03672461|184331691|SUPERIORITY||Model based LS mean difference|-0.28||||0.685|TWO_SIDED|95.0|-1.63|1.07|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.07|-1.63|0.685
92215887|NCT03672461|184331692|SUPERIORITY||Model based LS mean difference|0.24||||0.691|TWO_SIDED|95.0|-0.95|1.43|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.43|-0.95|0.691
92338966|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.94|1.27||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 20A: GMT Ratio V116 Lot 2/V116 Lot 3||1.27|0.94|<0.001
92338967|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.1|||<|0.001|TWO_SIDED|95.0|0.93|1.29||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 22F: GMT Ratio V116 Lot 1/V116 Lot 2||1.29|0.93|<0.001
92398725|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.97||0.7816|TWO_SIDED|95.0|-2.18|1.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||1.64|-2.18|0.7816
92215888|NCT03672461|184331693|SUPERIORITY||Model based LS mean difference|0.19||||0.743|TWO_SIDED|95.0|-0.95|1.34|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.34|-0.95|0.743
92215889|NCT03672461|184331694|SUPERIORITY||Model based LS mean difference|0.98||||0.043|TWO_SIDED|95.0|0.03|1.93|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.93|0.03|0.043
92398726|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.97||0.0955|TWO_SIDED|95.0|-3.54|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||0.29|-3.54|0.0955
92215890|NCT03672461|184331695|SUPERIORITY||Model based LS mean difference|0.99||||0.689|TWO_SIDED|95.0|-3.87|5.84|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||5.84|-3.87|0.689
92215891|NCT03672461|184331696|SUPERIORITY||Model based LS mean difference|-3.4||||0.276|TWO_SIDED|95.0|-9.54|2.74|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.74|-9.54|0.276
92215892|NCT03672461|184331697|SUPERIORITY||Model based LS mean difference|0.1||||0.448|TWO_SIDED|95.0|-0.15|0.34|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.34|-0.15|0.448
92215893|NCT03672461|184331698|SUPERIORITY||Model based LS mean difference|-0.29||||0.319|TWO_SIDED|95.0|-0.86|0.28|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.28|-0.86|0.319
92215894|NCT03672461|184331699|SUPERIORITY||Model based LS mean difference|1.21||||0.747|TWO_SIDED|95.0|-6.25|8.67|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||8.67|-6.25|0.747
92215895|NCT03672461|184331700|SUPERIORITY||Model based LS mean difference|-2.76||||0.459|TWO_SIDED|95.0|-10.2|4.65|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||4.65|-10.2|0.459
92215896|NCT03672461|184331701|SUPERIORITY||Model based LS mean difference|-2.0||||0.556|TWO_SIDED|95.0|-10.2|4.65|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||4.65|-10.2|0.556
92215897|NCT03672461|184331702|SUPERIORITY||Model based LS mean difference|-3.26||||0.516|TWO_SIDED|95.0|-13.2|6.7|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||6.7|-13.2|0.516
92215898|NCT03672461|184331703|SUPERIORITY||Model based LS mean difference|-2.38||||0.154|TWO_SIDED|95.0|-5.68|0.91|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.91|-5.68|0.154
92215899|NCT03672461|184331704|SUPERIORITY||Model based LS mean difference|-2.22||||0.375|TWO_SIDED|95.0|-7.17|2.72|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.72|-7.17|0.375
92215900|NCT03672461|184331705|SUPERIORITY||Model based LS mean difference|-1.75||||0.287|TWO_SIDED|95.0|-5.0|1.5|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, with unstructured variance co-variance matrix||||1.5|-5|0.287
92215901|NCT03672461|184331706|SUPERIORITY||Model based LS mean difference|-1.63||||0.147|TWO_SIDED|95.0|-3.85|0.58||adjusted for baseline value Repeated measures mixed models, with unstructured variance co-variance matrix|Mixed Models Analysis|||||0.58|-3.85|0.147
92215902|NCT03672461|184331707|SUPERIORITY||Model based LS mean difference|-1.37||||0.495|TWO_SIDED|95.0|-5.36|2.61|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, with unstructured variance co-variance matrix||||2.61|-5.36|0.495
92215903|NCT03672461|184331708|SUPERIORITY||Model based LS mean difference|-2.82||||0.303|TWO_SIDED|95.0|-8.22|2.59|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.59|-8.22|0.303
92215904|NCT03672461|184331709|SUPERIORITY||Model based LS mean difference|2.97||||0.196|TWO_SIDED|95.0|-1.56|7.51|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||7.51|-1.56|0.196
92215905|NCT00315939|184331712|SUPERIORITY_OR_OTHER||||||=|0.001|||||||ANOVA|||||||=0.001
92338968|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.87|1.21||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 22F: GMT Ratio V116 Lot 1/V116 Lot 3||1.21|0.87|<0.001
92215906|NCT04667247|184331723|OTHER||ratio of frequencies|0.94||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
92215907|NCT04667247|184331726|OTHER||ratio of frequencies|1.022||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
92215908|NCT04667247|184331728|OTHER||ratio of frequencies|4.828||||0.061|TWO_SIDED||||||Chi-squared, Corrected|||||||0.061
92338969|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.8|1.1||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 22F: GMT Ratio V116 Lot 2/V116 Lot 3||1.10|0.80|<0.001
92398727|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.5||0.2582|TWO_SIDED|95.0|-1.57|0.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||0.42|-1.57|0.2582
92398728|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.5|STANDARD_ERROR_OF_MEAN|0.52||0.3448|TWO_SIDED|95.0|-0.53|1.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||1.52|-0.53|0.3448
92215909|NCT04667247|184331729|OTHER||ratio of frequencies|3.526||||0.1|TWO_SIDED||||||Chi-squared, Corrected|||||||.100
92215910|NCT04667247|184331730|OTHER||ratio of frequencies|0.005||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
92215911|NCT04667247|184331731|OTHER||ratio of frequencies|3.036||||0.162|TWO_SIDED||||||Chi-squared, Corrected|||||||.162
92215912|NCT04667247|184331733|OTHER||ratio of frequencies|0.151||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.00
92215913|NCT04667247|184331734|SUPERIORITY||F value|1.908||||0.174|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||.174
92215914|NCT04667247|184331735|SUPERIORITY||F value|0.038||||0.846|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||.846
92215915|NCT04667247|184331736|SUPERIORITY||F value|0.041||||0.841|TWO_SIDED||||||Mixed Models Analysis||Day by Group interaction|||||.841
92215916|NCT04667247|184331737|SUPERIORITY||F value|0.261||||0.612|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.612
92215917|NCT04667247|184331738|SUPERIORITY||F value|0.161||||0.69|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||.690
92215918|NCT04667247|184331739|SUPERIORITY||F value|2.671||||0.109|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.109
92215919|NCT04667247|184331740|SUPERIORITY||F value|0.039||||0.844|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.844
92215920|NCT04667247|184331741|SUPERIORITY||F value|4.28||||0.044|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.044
92215921|NCT04667247|184331742|SUPERIORITY||F value|0.001||||0.989|TWO_SIDED||||||Mixed Models Analysis||Day by Group interaction|||||.989
92215922|NCT04667247|184331743|SUPERIORITY||F value|7.186||||0.01|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.010
92215923|NCT04667247|184331744|SUPERIORITY||F value|0.345||||0.56|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||.560
92215924|NCT04667247|184331745|SUPERIORITY||F value|0.143||||0.707|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.707
92215925|NCT04667247|184331746|SUPERIORITY||F value|0.09||||0.765|TWO_SIDED||||||Mixed Models Analysis||Day by Group interaction|||||0.765
92215926|NCT04667247|184331747|SUPERIORITY||F value|7.835||||0.005|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.005
92215927|NCT04667247|184331748|SUPERIORITY||F value|16.56|||<|0.001|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||<0.001
92215928|NCT04124614|184331772|SUPERIORITY|MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|Treatment Difference|-5.59||||0.0007|TWO_SIDED|95.0|-8.79|-2.38|||MMRM|||||-2.38|-8.79|0.0007
92215929|NCT04124614|184331773|SUPERIORITY|MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|Treatment Difference|-0.47||||0.0019|TWO_SIDED|95.0|-0.76|-0.17|||MMRM|||||-0.17|-0.76|0.0019
92215930|NCT04124614|184331774|SUPERIORITY|MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|Treatment Difference|-12.03||||0.0016|TWO_SIDED|95.0|-19.44|-4.62|||MMRM|||||-4.62|-19.44|0.0016
92274771|NCT01967888|184452150|SUPERIORITY||least square mean difference|0.09716|||=|0.98|TWO_SIDED|95.0|-7.41834|7.61266|||Mixed Models Analysis|||||7.61266|-7.41834|=0.980
92274772|NCT01967888|184452151|SUPERIORITY||least square mean difference|1.07617|||=|0.785|TWO_SIDED|95.0|-6.76562|8.91796|||Mixed Models Analysis|||||8.91796|-6.76562|=0.785
92338970|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.85|1.17||Identical p-values for the lower and upper bounds.|cDLA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 23A: GMT Ratio V116 Lot 1/V116 Lot 2||1.17|0.85|<0.001
92154389|NCT01702428|184195038|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to rubella virus.|Difference in seroresponse rate|-0.49|||||TWO_SIDED|95.0|-1.86|0.86|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-rubella antibody concentration ≥10 IU/mL.||0.86|-1.86|
92154390|NCT01702428|184195038|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to rubella virus.|Difference in seroresponse rate|-0.62|||||TWO_SIDED|95.0|-2.02|0.74|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L2 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-rubella antibody concentration ≥10 IU/mL.||0.74|-2.02|
92154391|NCT01702428|184195039|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.08|||||TWO_SIDED|95.0|1.01|1.15|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||"Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L2 Group) for antibodies to rubella virus at Day 42.~."||1.15|1.01|
92154392|NCT01702428|184195039|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.0|||||TWO_SIDED|95.0|0.94|1.07|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L3 Group) for antibodies to rubella virus at Day 42.||1.07|0.94|
92154393|NCT01702428|184195039|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|0.93|||||TWO_SIDED|95.0|0.87|0.99|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L1 Group) for antibodies to rubella virus at Day 42.||0.99|0.87|
92154394|NCT01702428|184195039|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|0.93|||||TWO_SIDED|95.0|0.87|0.99|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L3 Group) for antibodies to rubella virus at Day 42.||0.99|0.87|
92154395|NCT01702428|184195039|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.0|||||TWO_SIDED|95.0|0.93|1.07|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L1 Group) for antibodies to rubella virus at Day 42.||1.07|0.93|
92154396|NCT01702428|184195039|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.08|||||TWO_SIDED|95.0|1.01|1.15|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L2 Group) for antibodies to rubella virus at Day 42.||1.15|1.01|
92154397|NCT01702428|184195040|NON_INFERIORITY|The Lower Limit (LL) of 2-sided 95 % CI for the difference in seroresponse (INV\_MMR Group minus COM\_MMR Group) should be ≥-5% for antibodies to measles virus.|Difference in seroresponse rate|0.18|||||TWO_SIDED|95.0|-0.68|1.25|||||Asymptotic standardized 95% CIs for the difference in seroresponse rate.|Difference in percentage (INV\_MMR Group minus COM\_MMR Group) of subjects with anti-measles antibody concentration at Day 42.||1.25|-0.68|
92215931|NCT00257166|184331784|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|-5.22|STANDARD_ERROR_OF_MEAN|1.48||0.0005|TWO_SIDED|95.0|-8.12|-2.31|||ANCOVA|||Change at Week 4: Mixed effects repeated measures Analysis of Covariance (ANCOVA) model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-2.31|-8.12|0.0005
92338971|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.86|1.19||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 23A: GMT Ratio V116 Lot 1/V116 Lot 3||1.19|0.86|<0.001
92338972|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.87|1.19||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 23A: GMT Ratio V116 Lot 2/V116 Lot 3||1.19|0.87|<0.001
92154398|NCT01702428|184195041|NON_INFERIORITY|The LL of the 2-sided 95% CI on GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.67 for antibodies to measles virus.|Adjusted GMC ratio|0.98|||||TWO_SIDED|95.0|0.93|1.05|||ANOVA|95% CI for GMC ratio (INV\_MMR over COM\_ MMR) was computed using ANOVA (vaccine groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for antibodies to measles virus at Day 42.||1.05|0.93|
92338973|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.22|||<|0.001|TWO_SIDED|95.0|1.0|1.48||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 23B: GMT Ratio V116 Lot 1/V116 Lot 2||1.48|1.00|<0.001
92338974|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.98|||<|0.001|TWO_SIDED|95.0|0.8|1.19||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 23B: GMT Ratio V116 Lot 1/V116 Lot 3||1.19|0.80|<0.001
92338975|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.8|||<|0.001|TWO_SIDED|95.0|0.66|0.97||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 23B: GMT Ratio V116 Lot 2/V116 Lot 3||0.97|0.66|<0.001
92338976|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.88|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 24F: GMT Ratio V116 Lot 1/V116 Lot 2||1.18|0.88|<0.001
92338977|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.88|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 24F: GMT Ratio V116 Lot 1/V116 Lot 3||1.18|0.88|<0.001
92338978|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.87|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 24F: GMT Ratio V116 Lot 2/V116 Lot 3||1.16|0.87|<0.001
92338979|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.87|1.2||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 31: GMT Ratio V116 Lot 1/V116 Lot 2||1.20|0.87|<0.001
92338980|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.87|1.2||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 31: GMT Ratio V116 Lot 1/V116 Lot 3||1.20|0.87|<0.001
92338981|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.85|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 31: GMT Ratio V116 Lot 2/V116 Lot 3||1.17|0.85|<0.001
92398729|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.53||0.6587|TWO_SIDED|95.0|-0.81|1.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||1.28|-0.81|0.6587
92398730|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.53||0.8299|TWO_SIDED|95.0|-1.16|0.93||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||0.93|-1.16|0.8299
92338982|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.11|||<|0.001|TWO_SIDED|95.0|0.93|1.33||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 33F: GMT Ratio V116 Lot 1/V116 Lot 2||1.33|0.93|<0.001
92338983|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.9|1.29||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 33F: GMT Ratio V116 Lot 1/V116 Lot 3||1.29|0.90|<0.001
92338984|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.81|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 33F: GMT Ratio V116 Lot 2/V116 Lot 3||1.16|0.81|<0.001
92338985|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.91|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 35B: GMT Ratio V116 Lot 1/V116 Lot 2||1.17|0.91|<0.001
92215932|NCT00257166|184331785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.2545|STANDARD_ERROR_OF_MEAN|0.9422||0.0006|TWO_SIDED|95.0|-5.1045|-1.4046|||ANCOVA|||Change at Week 1: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-1.4046|-5.1045|0.0006
92338986|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.91|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 35B: GMT Ratio V116 Lot 1/V116 Lot 3||1.18|0.91|<0.001
92338987|NCT05464420|184579815|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.89|1.14||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 35B: GMT Ratio V116 Lot 2/V116 Lot 3||1.14|0.89|<0.001
92338988|NCT05464420|184579816|OTHER||GMT Ratio|0.93|||||TWO_SIDED|95.0|0.84|1.03|||||V116 Combined Lots/PPSV23|Serotype 3: GMT Ratio V116 Combined Lots/ PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.03|0.84|
92338989|NCT05464420|184579816|OTHER||GMT Ratio|3.48|||||TWO_SIDED|95.0|3.01|4.02|||||V116 Combined Lots/PPSV23|Serotype 6A: GMT Ratio V116 Combined Lots/ PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|4.02|3.01|
92338990|NCT05464420|184579816|OTHER||GMT Ratio|1.33|||||TWO_SIDED|95.0|1.18|1.49|||||V116 Combined Lots/PPSV23|Serotype 7F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.49|1.18|
92338991|NCT05464420|184579816|OTHER||GMT Ratio|0.85|||||TWO_SIDED|95.0|0.77|0.93|||||V116 Combined Lots/PPSV23|Serotype 8: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|0.93|0.77|
92338992|NCT05464420|184579816|OTHER||GMT Ratio|0.95|||||TWO_SIDED|95.0|0.85|1.08|||||V116 Combined Lots/PPSV23|Serotype 9N: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.08|0.85|
92338993|NCT05464420|184579816|OTHER||GMT Ratio|1.32|||||TWO_SIDED|95.0|1.18|1.48|||||V116 Combined Lots/PPSV23|Serotype 10A: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.48|1.18|
92398731|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.53||0.8129|TWO_SIDED|95.0|-1.17|0.92||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||0.92|-1.17|0.8129
92215933|NCT00257166|184331785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.5857|STANDARD_ERROR_OF_MEAN|1.4184||0.0117|TWO_SIDED|95.0|-6.3705|-0.8009|||ANCOVA|||Change at Week 2: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-0.8009|-6.3705|0.0117
92398732|NCT03192176|184689417|SUPERIORITY||LSMean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.52||0.213|TWO_SIDED|95.0|-0.37|1.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||1.66|-0.37|0.2130
92274773|NCT01967888|184452152|SUPERIORITY|||||||0.176|||||||Wilcoxon (Mann-Whitney)|||||||0.176
92338994|NCT05464420|184579816|OTHER||GMT Ratio|1.74|||||TWO_SIDED|95.0|1.56|1.95|||||V116 Combined Lots/PPSV23|Serotype 11A: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.95|1.56|
92338995|NCT05464420|184579816|OTHER||GMT Ratio|1.38|||||TWO_SIDED|95.0|1.22|1.56|||||V116 Combined Lots/PPSV23|Serotype 12F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.56|1.22|
92338996|NCT05464420|184579816|OTHER||GMT Ratio|4.03|||||TWO_SIDED|95.0|3.56|4.56|||||V116 Combined Lots/PPSV23|Serotype 15A: GMT Ratio v116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|4.56|3.56|
92338997|NCT05464420|184579816|OTHER||GMT Ratio|2.9|||||TWO_SIDED|95.0|2.49|3.38|||||V116 Combined Lots/PPSV23|Serotype 15C: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|3.38|2.49|
92338998|NCT05464420|184579816|OTHER||GMT Ratio|3.72|||||TWO_SIDED|95.0|3.32|4.17||||||Serotype 16F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|4.17|3.32|
92338999|NCT05464420|184579816|OTHER||GMT Ratio|1.71|||||TWO_SIDED|95.0|1.53|1.91|||||V116 Combined Lots/PPSV23|Serotype 17F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.91|1.53|
92339000|NCT05464420|184579816|OTHER||GMT Ratio|0.93|||||TWO_SIDED|95.0|0.84|1.03|||||V116 Combined Lots/PPSV23|Serotype 19A: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.03|0.84|
92339001|NCT05464420|184579816|OTHER||GMT Ratio|1.47|||||TWO_SIDED|95.0|1.3|1.67|||||V116 Combined Lots/PPSV23|Serotype 20A: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.67|1.30|
92339002|NCT05464420|184579816|OTHER||GMT Ratio|1.34|||||TWO_SIDED|95.0|1.17|1.53|||||V116 Combined Lots/PPSV23|Serotype 22F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.53|1.17|
92339003|NCT05464420|184579816|OTHER||GMT Ratio|7.98|||||TWO_SIDED|95.0|6.84|9.31|||||V116 Combined Lots/PPSV23|Serotype 23A: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|9.31|6.84|
92339004|NCT05464420|184579816|OTHER||GMT Ratio|23.72|||||TWO_SIDED|95.0|19.71|28.55|||||V116 Combined Lots/PPSV23|Serotype 23B: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|28.55|19.71|
92339005|NCT05464420|184579816|OTHER||GMT Ratio|19.55|||||TWO_SIDED|95.0|16.7|22.88|||||V116 Combined Lots/PPSV23|Serotype 24F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|22.88|16.70|
92339006|NCT05464420|184579816|OTHER||GMT Ratio|13.55|||||TWO_SIDED|95.0|11.68|15.71|||||V116 Combined Lots/PPSV23|Serotype 31: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|15.71|11.68|
92339007|NCT05464420|184579816|OTHER||GMT Ratio|0.84|||||TWO_SIDED|95.0|0.73|0.97||||||Serotype 33F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|0.97|0.73|
92215934|NCT00257166|184331785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.8665|STANDARD_ERROR_OF_MEAN|1.7154||0.0047|TWO_SIDED|95.0|-8.2345|-1.4985|||ANCOVA|||Change at Week 3: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-1.4985|-8.2345|0.0047
92215935|NCT00257166|184331786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3754|STANDARD_ERROR_OF_MEAN|0.0989||0.0002|TWO_SIDED|95.0|-0.5696|-0.1812|||ANCOVA|||Change at Week 1: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-0.1812|-0.5696|0.0002
92215936|NCT00257166|184331786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.5596|STANDARD_ERROR_OF_MEAN|0.1355|<|0.0001|TWO_SIDED|95.0|-0.8256|-0.2936|||ANCOVA|||Change at Week 2: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-0.2936|-0.8256|<0.0001
92215937|NCT00257166|184331786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.6798|STANDARD_ERROR_OF_MEAN|0.1643|<|0.0001|TWO_SIDED|95.0|-1.0024|-0.3572|||ANCOVA|||Change at Week 3: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-0.3572|-1.0024|<0.0001
92215938|NCT00257166|184331786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.6884|STANDARD_ERROR_OF_MEAN|0.1761||0.0001|TWO_SIDED|95.0|-1.0342|-0.3426|||ANCOVA|||Change at Week 4: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-0.3426|-1.0342|0.0001
92215939|NCT00257166|184331787|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.21||0.0004|TWO_SIDED|95.0|-1.18|-0.34|||ANCOVA|||Week 4: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects was used for the analysis.||-0.34|-1.18|0.0004
92215940|NCT02592551|184331788|OTHER||Median Difference (Final Values)|8.6||||0.109|TWO_SIDED||||||Wilcoxon signed rank test|||Compare in ratios of intratumoral cytotoxic T cells to regulatory T cells (CD8/Treg) between pre and post of MEDI4736+Tremelimumab||||0.109
92215941|NCT02592551|184331789|OTHER|Compare the tissue biomarker for the immune response of ICOS+ CD4 T cells to before and after MEDI-4736 and Tremelimumab||||||1|||||||Wilcoxon signed rank test|||||||1
92339008|NCT05464420|184579816|OTHER||GMT Ratio|3.71|||||TWO_SIDED|95.0|3.36|4.09|||||V116 Combined Lots/PPSV23|Serotype 35B: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|4.09|3.36|
92215942|NCT02592551|184331790|OTHER|||||||0.461|||||||Wilcoxon signed rank test|||Compare tumor expression programmed death-ligand 1 (PD-L1) before and after treatment with combination MEDI-4736 and Tremelimumab||||0.461
92339009|NCT05464420|184579817|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.88|1.09|||||V116 Lot 1/V116 Lot 2|Serotype 3: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.09|0.88|
92398733|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.51||0.4131|TWO_SIDED|95.0|-1.42|0.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||0.59|-1.42|0.4131
92215943|NCT02592551|184331791|OTHER|||||||0.954|||||||Wilcoxon (Mann-Whitney)|||Compare tissue biomarker immune response of CD8 and Treg (ratio of CD8/treg) after MEDI-4736 and Tremelimumab, and after MEDI4736 alone||||0.954
92215944|NCT02592551|184331792|OTHER|||||||0.799|||||||Wilcoxon (Mann-Whitney)|||Compare tissue biomarker immune response of CD8 and Treg(ratio of CD8/Treg) after MEDI-4736 and Tremelimumab, and at day 1 of untread control group||||0.799
92215945|NCT02592551|184331795|OTHER|||||||0.418|||||||Wilcoxon (Mann-Whitney)|||Compare tumor expression programmed death-ligand 1 (PD-L1) after combination therapy (MEDI-4736 and Tremelimumab) and after MEDI-4736 alone||||0.418
92215946|NCT02592551|184331796|OTHER|||||||0.932|||||||Wilcoxon (Mann-Whitney)|||Compare tumor expression programmed death-ligand 1 (PD-L1) after combination therapy (MEDI-4736 and Tremelimumab) and before and at day 1 of untreated||||0.932
92215947|NCT04415658|184331828|SUPERIORITY||Risk Ratio (RR)|1.01||||0.57|TWO_SIDED|95.0|0.97|1.07|||Chi-squared, Corrected|||80% power to detect a 10% increase in hearts transplanted||1.07|0.97|0.57
92215948|NCT04415658|184331829|NON_INFERIORITY|Six percent margin, assuming 96% graft survival in control group|Mean Difference (Final Values)|1.9|||<|0.001|TWO_SIDED|95.0|-2.3|6.0|||Regression, Logistic|||Non-inferiority analysis for thyroxine vs saline||6.0|-2.3|<0.001
92339010|NCT05464420|184579817|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.85|1.05|||||V116 Lot 1/V116 Lot 3|Serotype 3: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.05|0.85|
92274774|NCT01967888|184452153|SUPERIORITY|||||||0.403|||||||Wilcoxon (Mann-Whitney)|||||||0.403
92339011|NCT05464420|184579817|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.87|1.08|||||V116 Lot 2/V116 Lot 3|Serotype 3: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.08|0.87|
92339012|NCT05464420|184579817|OTHER||GMC Ratio|1.12|||||TWO_SIDED|95.0|0.95|1.32|||||V116 Lot 1/V116 Lot 2|Serotype 6A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.32|0.95|
92339013|NCT05464420|184579817|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.86|1.2|||||V116 Lot 1/V116 Lot 3|Serotype 6A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.20|0.86|
92339014|NCT05464420|184579817|OTHER||GMC Ratio|0.91|||||TWO_SIDED|95.0|0.77|1.07|||||V116 Lot 2/V116 Lot 3|Serotype 6A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.07|0.77|
92339015|NCT05464420|184579817|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.11|||||V116 Lot 1/V116 Lot 2|Serotype 7F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.11|0.85|
92339016|NCT05464420|184579817|OTHER||GMC Ratio|1.03|||||TWO_SIDED|95.0|0.9|1.18|||||V116 Lot 1/V116 Lot 3|Serotype 7F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.18|0.90|
92339017|NCT05464420|184579817|OTHER||GMC Ratio|1.06|||||TWO_SIDED|95.0|0.93|1.21|||||V116 Lot 2/V116 Lot 3|Serotype 7F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.21|0.93|
92339018|NCT05464420|184579817|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.86|1.12|||||V116 Lot 1/V116 Lot 2|Serotype 8: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.12|0.86|
92339019|NCT05464420|184579817|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.87|1.13|||||V116 Lot 1/V116 Lot 3|Serotype 8: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.13|0.87|
92339020|NCT05464420|184579817|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.89|1.15|||||V116 Lot 2/V116 Lot 3|Serotype 8: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.89|
92339021|NCT05464420|184579817|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.91|1.21|||||V116 Lot 1/V116 Lot 2|Serotype 9N: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.21|0.91|
92339022|NCT05464420|184579817|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.77|1.03|||||V116 Lot 1/V116 Lot 3|Serotype 9N: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.03|0.77|
92339023|NCT05464420|184579817|OTHER||GMC Ratio|0.85|||||TWO_SIDED|95.0|0.74|0.98|||||V116 Lot 2/V116 Lot 3|Serotype 9N: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|0.98|0.74|
92339024|NCT05464420|184579817|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.87|1.18|||||V116 Lot 1/V116 Lot 2|Serotype 10A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.18|0.87|
92339025|NCT05464420|184579817|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.83|1.13|||||V116 Lot 1/V116 Lot 3|Serotype 10A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.13|0.83|
92398734|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.34||0.1273|TWO_SIDED|95.0|-1.2|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||0.15|-1.20|0.1273
92339026|NCT05464420|184579817|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.82|1.11|||||V116 Lot 2/V116 Lot 3|Serotype 10A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.11|0.82|
92339027|NCT05464420|184579817|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.9|1.14|||||V116 Lot 1/V116 Lot 2|Serotype 11A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.14|0.90|
92339028|NCT05464420|184579817|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.91|1.15|||||V116 Lot 1/V116 Lot 3|Serotype 11A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.91|
92339029|NCT05464420|184579817|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.9|1.14|||||V116 Lot 2/V116 Lot 3|Serotype 11A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.14|0.90|
92339030|NCT05464420|184579817|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.8|1.12|||||V116 Lot 1/V116 Lot 2|Serotype 12F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.12|0.80|
92339031|NCT05464420|184579817|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.84|1.18|||||V116 Lot 1/V116 Lot 3|Serotype 12F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.18|0.84|
92339032|NCT05464420|184579817|OTHER||GMC Ratio|1.06|||||TWO_SIDED|95.0|0.89|1.25|||||V116 Lot 2/V116 Lot 3|Serotype 12F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.25|0.89|
92339033|NCT05464420|184579817|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.91|1.21|||||V116 Lot 1/V116 Lot 2|Serotype 15A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.21|0.91|
92339034|NCT05464420|184579817|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.83|1.11|||||V116 Lot 1/V116 Lot 3|Serotype 15A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.11|0.83|
92339035|NCT05464420|184579817|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.8|1.05|||||V116 Lot 2/V116 Lot 3|Serotype 15A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.05|0.80|
92339036|NCT05464420|184579817|OTHER||GMC Ratio|1.06|||||TWO_SIDED|95.0|0.91|1.23|||||V116 Lot 1/V116 Lot 2|Serotype 15C: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.23|0.91|
92339037|NCT05464420|184579817|OTHER||GMC Ratio|1.03|||||TWO_SIDED|95.0|0.89|1.2|||||V116 Lot 1/V116 Lot 3|Serotype 15C: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.20|0.89|
92339038|NCT05464420|184579817|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.14|||||V116 Lot 2/V116 Lot 3|Serotype 15C: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.14|0.84|
92339039|NCT05464420|184579817|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.78|1.03|||||V116 Lot 1/V116 Lot 2|Serotype 16F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.03|0.78|
92339040|NCT05464420|184579817|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.78|1.04|||||V116 Lot 1/V116 Lot 3|Serotype 16F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.04|0.78|
92339041|NCT05464420|184579817|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.88|1.15|||||V116 Lot 2/V116 Lot 3|Serotype 16F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.88|
92339042|NCT05464420|184579817|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.91|1.21|||||V116 Lot 1/V116 Lot 2|Serotype 17F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.21|0.91|
92339043|NCT05464420|184579817|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.93|1.23|||||V116 Lot 1/V116 Lot 3|Serotype 17F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.23|0.93|
92339044|NCT05464420|184579817|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.88|1.17|||||V116 Lot 2/V116 Lot 3|Serotype 17F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.17|0.88|
92339045|NCT05464420|184579817|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.11|||||V116 Lot 1/V116 Lot 2|Serotype 19A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.11|0.85|
92339046|NCT05464420|184579817|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.79|1.04|||||V116 Lot 1/V116 Lot 3|Serotype 19A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.04|0.79|
92215949|NCT00785044|184331858|SUPERIORITY_OR_OTHER|Analysis was performed using the null hypothesis for the AUC stated as: H0: θ ≤A versus H1: θ \>A, where the AUC (θ) value was: 'A' selected based on the diagnostic utility desired from the use of myocardial 123 I-mIBG uptake measured using H/M ratio. A smooth parametric model of the ROC curve was fitted to the data. The AUC for the resulting model was calculated and 95% confidence interval for the AUC was reported. The hypothesis was tested using the Z-statistics at 'A' at level of 0.70.|Mean|0.581|||<|0.001|TWO_SIDED|95.0|0.532|0.63||At 0.05 level of significance.|Z-statistic|||"Analysis was performed on all HF participants from both groups AdreView™ - HF Group (With No Adverse Cardiac Events) and AdreView™ - HF Group (With Adverse Cardiac Events) based on H/M ratio."||0.630|0.532|<0.001
92215950|NCT00763971|184331882|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-18.6|||<|0.001|TWO_SIDED|95.0|-21.5|-15.7|||ANCOVA|||||-15.7|-21.5|<0.001
92215951|NCT00763971|184331882|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-13.0|||<|0.001|TWO_SIDED|95.0|-15.9|-10.2|||ANCOVA|||||-10.2|-15.9|<0.001
92215952|NCT00763971|184331883|SUPERIORITY_OR_OTHER_LEGACY||difference in percentages|63.6|||<|0.001|TWO_SIDED|95.0|53.0|74.1|||Cochran-Mantel-Haenszel|||||74.1|53.0|<0.001
92215953|NCT00763971|184331883|SUPERIORITY_OR_OTHER_LEGACY||difference in percentages|46.2|||<|0.001|TWO_SIDED|95.0|34.6|57.7|||Cochran-Mantel-Haenszel|||||57.7|34.6|<0.001
92215954|NCT00763971|184331884|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-21.3|||<|0.001|TWO_SIDED|95.0|-25.5|-17.0|||ANCOVA|||||-17.0|-25.5|<0.001
92215955|NCT00763971|184331884|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-15.1|||<|0.001|TWO_SIDED|95.0|-19.3|-10.9|||ANCOVA|||||-10.9|-19.3|<0.001
92339047|NCT05464420|184579817|OTHER||GMC Ratio|0.93|||||TWO_SIDED|95.0|0.82|1.07|||||V116 Lot 2/V116 Lot 3|Serotype 19A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.07|0.82|
92339048|NCT05464420|184579817|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.83|1.1|||||V116 Lot 1/V116 Lot 2|Serotype 20A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.10|0.83|
92339049|NCT05464420|184579817|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.84|1.1|||||V116 Lot 1/V116 Lot 3|Serotype 20A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.10|0.84|
92398735|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.35||0.0046|TWO_SIDED|95.0|-1.69|-0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.31|-1.69|0.0046
92215956|NCT00763971|184331886|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|8.8|||<|0.001|TWO_SIDED|95.0|6.1|11.5|||ANCOVA|||||11.5|6.1|<0.001
92215957|NCT00763971|184331886|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|7.3|||<|0.001|TWO_SIDED|95.0|4.6|10.0|||ANCOVA|||||10.0|4.6|<0.001
92215958|NCT00763971|184331887|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-0.3|||<|0.001|TWO_SIDED|95.0|-0.4|-0.2|||ANCOVA|||||-0.2|-0.4|<0.001
92215959|NCT00763971|184331887|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-0.2|||<|0.001|TWO_SIDED|95.0|-0.3|-0.1|||ANCOVA|||||-0.1|-0.3|<0.001
92215960|NCT01540825|184331896|SUPERIORITY_OR_OTHER||Slope|1.2472|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|1.1831|1.3112|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale. Standard Error of the mean is actually the Standard Error of the slope|This was non confirmatory testing (Single dose). Dose proportionality of BI 113608 (powder in bottle (PIB)) for Cmax was analysed.||1.3112|1.1831|
92215961|NCT01540825|184331898|SUPERIORITY_OR_OTHER||Slope|1.1626|STANDARD_ERROR_OF_MEAN|0.0215|||TWO_SIDED|95.0|1.1195|1.2057|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale. Standard Error of the mean is actually Standard Error of the slope|This was non confirmatory testing (Single dose). Dose proportionality of BI 113608 (PIB) for AUC 0- tz was analysed.||1.2057|1.1195|
92215962|NCT01540825|184331899|SUPERIORITY_OR_OTHER||Slope|1.151|STANDARD_ERROR_OF_MEAN|0.0215|||TWO_SIDED|95.0|1.108|1.1941|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale. Standard Error of the mean is actually Standard Error of the slope|This was non confirmatory testing (Single dose).Dose proportionality of BI 113608 (PIB) for AUC0-inf was analysed||1.1941|1.1080|
92215963|NCT00314249|184331920|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.38||||||95.0|-8.56|-4.19|||ANCOVA|||This parameter was analyzed using an ANCOVA model with treatment group and study center as factors and baseline value as a covariate.||-4.19|-8.56|
92339050|NCT05464420|184579817|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.88|1.16|||||V116 Lot 2/V116 Lot 3|Serotype 20A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.16|0.88|
92215964|NCT00314249|184331921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53||||||95.0|-0.69|-0.38|||ANOVA|||This parameter was analyzed using an ANOVA model with treatment group and study center as factors.||-0.38|-0.69|
92215965|NCT00314249|184331922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.69||||||95.0|-3.27|-0.11|||ANCOVA|||This parameter was analyzed using an ANCOVA model with treatment group and study center as factors and baseline value as a covariate.||-0.11|-3.27|
92339051|NCT05464420|184579817|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.87|1.16|||||V116 Lot 1/V116 Lot 2|Serotype 22F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.16|0.87|
92339052|NCT05464420|184579817|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.16|||||V116 Lot 1/V116 Lot 3|Serotype 22F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.16|0.87|
92339053|NCT05464420|184579817|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.86|1.15|||||V116 Lot 2/V116 Lot 3|Serotype 22F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.86|
92339054|NCT05464420|184579817|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.16|||||V116 Lot 1/V116 Lot 2|Serotype 23A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.16|0.84|
92339055|NCT05464420|184579817|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.83|1.15|||||V116 Lot 1/V116 Lot 3|Serotype 23A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.83|
92339056|NCT05464420|184579817|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.85|1.17|||||V116 Lot 2/V116 Lot 3|Serotype 23A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.17|0.85|
92154399|NCT01702428|184195042|NON_INFERIORITY|The LL of 2-sided 95 % CI for the difference in seroresponse (INV\_MMR Group minus COM\_MMR Group) should be ≥-5% for antibodies to mumps virus.|Difference in seroresponse rate|0.81|||||TWO_SIDED|95.0|-0.1|1.96|||||Asymptotic standardized 95% CIs for the difference in seroresponse rate.|Difference in percentage (INV\_MMR Group minus COM\_MMR Group) of subjects with anti-mumps antibody concentration at Day 42.||1.96|-0.1|
92154400|NCT01702428|184195043|NON_INFERIORITY|The LL of the 2-sided 95% CI on GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.67 for antibodies to mumps virus.|Adjusted GMC ratio|1.05|||||TWO_SIDED|95.0|0.99|1.11|||ANOVA|95% CI for GMC ratio (INV\_MMR over COM\_ MMR) was computed using ANOVA (vaccine groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for antibodies to mumps virus at Day 42.||1.11|0.99|
92154401|NCT01702428|184195044|NON_INFERIORITY|The LL of 2-sided 95 % CI for the difference in seroresponse (INV\_MMR Group minus COM\_MMR Group) should be ≥-5% for antibodies to rubella virus.|Difference in seroresponse rate|-1.15|||||TWO_SIDED|95.0|-2.0|-0.15|||||Asymptotic standardized 95% CIs for the difference in seroresponse rate.|Difference in percentage (INV\_MMR Group minus COM\_MMR Group) of subjects with anti-rubella antibody concentration at Day 42.||-0.15|-2.00|
92154402|NCT01702428|184195045|NON_INFERIORITY|The LL of the 2-sided 95% CI on GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.67 for antibodies to measles virus.|Adjusted GMC ratio|0.87|||||TWO_SIDED|95.0|0.83|0.92|||ANOVA|95% CI for GMC ratio (INV\_MMR over COM\_ MMR) was computed using ANOVA (vaccine groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for antibodies to rubella virus at Day 42.||0.92|0.83|
92154403|NCT01702428|184195046|NON_INFERIORITY|The LL of 2-sided 95 % CI for the difference in seroresponse (pooled INV\_MMR Group minus pooled COM\_MMR Group) should be ≥-10% for antibodies to VZV.|Difference in seroresponse rate|1.3|||||TWO_SIDED|95.0|-1.31|4.29|||||Asymptotic standardized 95% CIs for the difference in seroresponse rate.|In US sub-cohort: Difference in percentage (INV\_MMR Group minus COM\_MMR Group) of subjects with anti-VZV antibody concentration at Day 42.||4.29|-1.31|
92154404|NCT01702428|184195047|NON_INFERIORITY|The LL of the 2-sided 95% CI on GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.67 for antibodies to VZV.|Adjusted GMC ratio|1.01|||||TWO_SIDED|95.0|0.95|1.08|||ANOVA|95% CI for GMC ratio (INV\_MMR over COM\_ MMR) was computed using ANOVA (vaccine groups \& country as fixed effects) on log-transformed concentrations.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for antibodies to VZV virus at Day 42.||1.08|0.95|
92154405|NCT01702428|184195049|NON_INFERIORITY|The LL of the 2-sided 95% CI on GMC ratio (INV\_MMR Group over COM\_MMR Group) was ≥0.5 for antibodies to HAV virus.|Adjusted GMC ratio|0.98|||||TWO_SIDED|95.0|0.86|1.11|||ANOVA|95% CI for GMC ratio (INV\_MMR over COM\_ MMR) was computed using ANOVA (vaccine groups \& country as fixed effects) on log-transformed concentrations.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for antibodies to HAV virus at Day 42.||1.11|0.86|
92154406|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.94|||||TWO_SIDED|95.0|0.85|1.05|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 1 antibody at Day 42.||1.05|0.85|
92154407|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.99|||||TWO_SIDED|95.0|0.91|1.08|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 3 antibody at Day 42.||1.08|0.91|
92154408|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.88||||||95.0|0.79|0.98|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 4 antibody at Day 42.||0.98|0.79|
92215966|NCT00314249|184331923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06|||<|0.001||95.0|1.45|2.94||Closed testing procedure used to control overall type 1 error rate at 5%: fibromyalgia syndrome tested prior to fibromyalgia pain|Regression, Logistic|||The test of no difference in the responder rate between milnacipran and placebo groups was performed using a logistic regression model with treatment group, baseline pain score, and baseline SF-36 PCS score as explanatory variables.||2.94|1.45|<0.001
92339057|NCT05464420|184579817|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.87|1.18|||||V116 Lot 1/V116 Lot 2|Serotype 23B: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.18|0.87|
92398736|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.19|-0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.80|-2.19|<0.0001
92154409|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.92|||||TWO_SIDED|95.0|0.83|1.01|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 5 antibody at Day 42.||1.01|0.83|
92339058|NCT05464420|184579817|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.79|1.07|||||V116 Lot 1/V116 Lot 3|Serotype 23B: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.07|0.79|
92339059|NCT05464420|184579817|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.77|1.05|||||V116 Lot 2/V116 Lot 3|Serotype 23B: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.05|0.77|
92339060|NCT05464420|184579817|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.8|1.13|||||V116 Lot 1/V116 Lot 2|Serotype 24F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.13|0.80|
92339061|NCT05464420|184579817|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.84|1.19|||||V116 Lot 1/V116 Lot 3|Serotype 24F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.19|0.84|
92339062|NCT05464420|184579817|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.88|1.25|||||V116 Lot 2/V116 Lot 3|Serotype 24F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.25|0.88|
92339063|NCT05464420|184579817|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.77|1.0|||||V116 Lot 1/V116 Lot 2|Serotype 31: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.00|0.77|
92339064|NCT05464420|184579817|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.88|1.14|||||V116 Lot 1/V116 Lot 3|Serotype 31: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.14|0.88|
92339065|NCT05464420|184579817|OTHER||GMC Ratio|1.14|||||TWO_SIDED|95.0|1.0|1.3|||||V116 Lot 2/V116 Lot 3|Serotype 31: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.30|1.00|
92339066|NCT05464420|184579817|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.89|1.16|||||V116 Lot 1/V116 Lot 2|Serotype 33F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.16|0.89|
92154410|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|1.01|||||TWO_SIDED|95.0|0.92|1.11|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 6A antibody at Day 42.||1.11|0.92|
92339067|NCT05464420|184579817|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.88|1.15|||||V116 Lot 1/V116 Lot 3|Serotype 33F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.88|
92339068|NCT05464420|184579817|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.87|1.13|||||V116 Lot 2/V116 Lot 3|Serotype 33F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.13|0.87|
92339069|NCT05464420|184579817|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.9|1.17|||||V116 Lot 1/V116 Lot 2|Serotype 35B: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.17|0.90|
92339070|NCT05464420|184579817|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.87|1.13|||||V116 Lot 1/V116 Lot 3|Serotype 35B: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.13|0.87|
92339071|NCT05464420|184579817|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.1|||||V116 Lot 2/V116 Lot 3|Serotype 35B: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.10|0.85|
92339072|NCT05464420|184579818|OTHER||GMC Ratio|1.1|||||TWO_SIDED|95.0|1.01|1.21|||||V116 Combined Lots/PPSV23|Serotype 3: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.21|1.01|
92339073|NCT05464420|184579818|OTHER||GMC Ratio|3.91|||||TWO_SIDED|95.0|3.43|4.45|||||V116 Combined Lots/PPSV23|Serotype 6A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|4.45|3.43|
92339074|NCT05464420|184579818|OTHER||GMC Ratio|1.54|||||TWO_SIDED|95.0|1.38|1.72|||||V116 Combined Lots/PPSV23|Serotype 7F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.72|1.38|
92339075|NCT05464420|184579818|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.73|0.89|||||V116 Combined Lots/PPSV23|Serotype 8: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|0.89|0.73|
92339076|NCT05464420|184579818|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.91|1.14|||||V116 Combined Lots/PPSV23|Serotype 9N: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.14|0.91|
92339077|NCT05464420|184579818|OTHER||GMC Ratio|1.47|||||TWO_SIDED|95.0|1.3|1.66|||||V116 Combined Lots/PPSV23|Serotype 10A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.66|1.30|
92339078|NCT05464420|184579818|OTHER||GMC Ratio|1.38|||||TWO_SIDED|95.0|1.26|1.52|||||V116 Combined Lots/PPSV23|Serotype 11A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.52|1.26|
92339079|NCT05464420|184579818|OTHER||GMC Ratio|1.41|||||TWO_SIDED|95.0|1.23|1.62|||||V116 Combined Lots/PPSV23|Serotype 12F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.62|1.23|
92339080|NCT05464420|184579818|OTHER||GMC Ratio|6.82|||||TWO_SIDED|95.0|6.08|7.65|||||V116 Combined Lots/PPSV23|Serotype 15A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|7.65|6.08|
92339081|NCT05464420|184579818|OTHER||GMC Ratio|3.24|||||TWO_SIDED|95.0|2.86|3.67|||||V116 Combined Lots/PPSV23|Serotype 15C: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|3.67|2.86|
92339082|NCT05464420|184579818|OTHER||GMC Ratio|6.48|||||TWO_SIDED|95.0|5.83|7.19|||||V116 Combined Lots/PPSV23|Serotype 16F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|7.19|5.83|
92339083|NCT05464420|184579818|OTHER||GMC Ratio|1.85|||||TWO_SIDED|95.0|1.66|2.07|||||V116 Combined Lots/PPSV23|Serotype 17F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|2.07|1.66|
92339084|NCT05464420|184579818|OTHER||GMC Ratio|1.1|||||TWO_SIDED|95.0|0.98|1.22|||||V116 Combined Lots/PPSV23|Serotype 19A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.22|0.98|
92339085|NCT05464420|184579818|OTHER||GMC Ratio|1.53|||||TWO_SIDED|95.0|1.37|1.71|||||V116 Combined Lots/PPSV23|Serotype 20A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.71|1.37|
92339086|NCT05464420|184579818|OTHER||GMC Ratio|1.32|||||TWO_SIDED|95.0|1.17|1.49|||||V116 Combined Lots/PPSV23|Serotype 22F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.49|1.17|
92339087|NCT05464420|184579818|OTHER||GMC Ratio|8.14|||||TWO_SIDED|95.0|7.19|9.23|||||V116 Combined Lots/PPSV23|Serotype 23A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|9.23|7.19|
92339088|NCT05464420|184579818|OTHER||GMC Ratio|5.74|||||TWO_SIDED|95.0|5.08|6.48|||||V116 Combined Lots/PPSV23|Serotype 23B: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|6.48|5.08|
92339089|NCT05464420|184579818|OTHER||GMC Ratio|14.47|||||TWO_SIDED|95.0|12.77|16.4|||||V116 Combined Lots/PPSV23|Serotype 24F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|16.40|12.77|
92215967|NCT00314249|184331924|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86|||<|0.001||95.0|1.38|2.51||Closed testing procedure was used to control overall type 1 error rate at 5%: fibromyalgia pain tested after statistically significant fibromyalgia syndrome test|Regression, Logistic|||The test of no difference in the responder rate between milnacipran and placebo groups was performed using a logistic regression model with the treatment group and baseline pain score as explanatory variables.||2.51|1.38|<0.001
92215968|NCT00314249|184331925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.65||||||95.0|0.86|2.44|||ANCOVA|||This parameter was analyzed using an ANCOVA model with treatment group and study center as factors and baseline value as a covariate.||2.44|0.86|
92215969|NCT00789750|184331931|OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.084|<|0.001|TWO_SIDED|95.0|-0.49|-0.16|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-0.16|-0.49|<0.001
92215970|NCT00789750|184331932|OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.037|<|0.001|TWO_SIDED|95.0|-0.24|-0.1|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-0.10|-0.24|<0.001
92215971|NCT00789750|184331933|OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.056||0.0002|TWO_SIDED|95.0|-0.32|-0.1|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-0.10|-0.32|0.0002
92339090|NCT05464420|184579818|OTHER||GMC Ratio|9.55|||||TWO_SIDED|95.0|8.61|10.59|||||V116 Combined Lots/PPSV23|Serotype 31: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|10.59|8.61|
92339091|NCT05464420|184579818|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.73|0.91|||||V116 Combined Lots/PPSV23|Serotype 33F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|0.91|0.73|
92339092|NCT05464420|184579818|OTHER||GMC Ratio|7.06|||||TWO_SIDED|95.0|6.41|7.77|||||V116 Combined Lots/PPSV23|Serotype 35B: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|7.77|6.41|
92339093|NCT00382785|184579847|SUPERIORITY_OR_OTHER|||||||0.315|TWO_SIDED|95.0|||||univariate analysis|||Power calculation indicated that 60 subjects would be needed. Null Hypothesis: There will be no difference in perceived social support based on type of online support group (moderated or peer-led).||||.315
92339094|NCT00382785|184579848|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||univariate analysis|Null Hypothesis: There will be no difference between the moderated and peer-led groups based on type of online support (moderated; peer-led)||Power analysis indicated that 60 subjects were needed. Null hypothesis: There will be no difference in depressive symptoms based on type of online support group (moderated or peer-led).||||.23
92215972|NCT00789750|184331934|OTHER||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.077|<|0.001|TWO_SIDED|95.0|-0.51|-0.2|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-0.20|-0.51|<0.001
92215973|NCT00789750|184331935|OTHER|||||||0.012|||||||Cochran-Mantel-Haenszel|||||||0.012
92215974|NCT00789750|184331936|OTHER||Mean Difference (Final Values)|-14.7|STANDARD_ERROR_OF_MEAN|3.68|<|0.0001|TWO_SIDED|95.0|-21.93|-7.49|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-7.49|-21.93|<0.0001
92215975|NCT00789750|184331937|OTHER|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
92215976|NCT00789750|184331938|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92215977|NCT00789750|184331939|OTHER|||||||0.132|||||||Cochran-Mantel-Haenszel|||||||0.132
92215978|NCT00789750|184331940|OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
92215979|NCT00789750|184331941|OTHER||Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|2.15|<|0.001|TWO_SIDED|95.0|-20.62|-12.18|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-12.18|-20.62|<0.001
92215980|NCT00789750|184331942|OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|1.31||0.1652|TWO_SIDED|95.0|-0.75|4.39|||ANCOVA|||Treatment difference = Colesevelam - Placebo||4.39|-0.75|0.1652
92339095|NCT00382785|184579849|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED|95.0|||||Univariate Analysis|||Power analysis indicated that 60 subjects were needed. Null hypothesis: There will be no difference in quality of life (QOL) based on type of online support group (moderated or peer-led).||||.32
92339096|NCT00627926|184579856|SUPERIORITY_OR_OTHER||Difference in percentage|23.0|||||TWO_SIDED|95.0|15.9|30.0||||||||30.0|15.9|
92215981|NCT00789750|184331943|OTHER||Mean Difference (Final Values)|-9.8|STANDARD_ERROR_OF_MEAN|1.85|<|0.0001|TWO_SIDED|95.0|-13.44|-6.16|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-6.16|-13.44|<0.0001
92215982|NCT00789750|184331944|OTHER||Median Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|67.01||0.0004|TWO_SIDED|95.0|5.3|17.5|||ANCOVA||The treatment difference and its 95% confidence interval are estimated using the Hodges-Lehmann estimator and Moses method. The parameter dispersion Type is actually IQR of the Median Difference.|Treatment difference = Colesevelam - Placebo||17.5|5.3|0.0004
92215983|NCT00789750|184331945|OTHER||Mean Difference (Final Values)|3.4|STANDARD_ERROR_OF_MEAN|0.93||0.0003|TWO_SIDED|95.0|1.58|5.23|||ANCOVA|||Treatment difference = Colesevelam - Placebo||5.23|1.58|0.0003
92339097|NCT00627926|184579856|SUPERIORITY_OR_OTHER||Difference in percentage|29.2|||||TWO_SIDED|95.0|22.4|36.1||||||||36.1|22.4|
92339098|NCT00627926|184579857|SUPERIORITY_OR_OTHER||Difference in percentage|57.1|||||TWO_SIDED|95.0|51.4|62.8||||||||62.8|51.4|
92339099|NCT00627926|184579857|SUPERIORITY_OR_OTHER||Difference in percentage|58.4|||||TWO_SIDED|95.0|52.7|64.0||||||||64.0|52.7|
92339100|NCT00627926|184579858|SUPERIORITY_OR_OTHER||Difference in percentage|48.8|||||TWO_SIDED|95.0|43.0|54.6||||||||54.6|43.0|
92339101|NCT00627926|184579858|SUPERIORITY_OR_OTHER||Difference in percentage|50.4|||||TWO_SIDED|95.0|44.6|56.2||||||||56.2|44.6|
92339102|NCT00627926|184579859|SUPERIORITY_OR_OTHER||Difference in percentage|35.7|||||TWO_SIDED|95.0|29.0|42.4||||||||42.4|29.0|
92339103|NCT00627926|184579859|SUPERIORITY_OR_OTHER||Difference in percentage|37.5|||||TWO_SIDED|95.0|30.9|44.1||||||||44.1|30.9|
92339104|NCT00627926|184579860|SUPERIORITY_OR_OTHER||Difference in percentage|17.6|||||TWO_SIDED|95.0|11.2|24.0||||||||24.0|11.2|
92339105|NCT00627926|184579860|SUPERIORITY_OR_OTHER||Difference in percentage|23.1|||||TWO_SIDED|95.0|17.0|29.2||||||||29.2|17.0|
92339106|NCT00627926|184579861|SUPERIORITY_OR_OTHER||Difference in percentage|25.5|||||TWO_SIDED|95.0|18.5|32.4||||||||32.4|18.5|
92339107|NCT00627926|184579861|SUPERIORITY_OR_OTHER||Difference in percentage|31.2|||||TWO_SIDED|95.0|24.4|37.9||||||||37.9|24.4|
92339108|NCT00627926|184579862|SUPERIORITY_OR_OTHER||Difference in percentage|25.2|||||TWO_SIDED|95.0|18.2|32.2||||||||32.2|18.2|
92339109|NCT00627926|184579862|SUPERIORITY_OR_OTHER||Difference in percentage|31.7|||||TWO_SIDED|95.0|24.9|38.5||||||||38.5|24.9|
92339110|NCT00627926|184579867|SUPERIORITY_OR_OTHER||Difference in percentage|24.9|||||TWO_SIDED|95.0|17.9|31.9||||||SVR Protocol Defined: undetectable HCV RNA at 24 weeks after the last planned dose of study treatment without any confirmed detectable HCV RNA between end of treatment visit (up to Week 48) and 24 weeks after last planned dose (up to Week 72).||31.9|17.9|
92339111|NCT00627926|184579867|SUPERIORITY_OR_OTHER||Difference in percentage|30.9|||||TWO_SIDED|95.0|24.1|37.7||||||SVR Protocol Defined: undetectable HCV RNA at 24 weeks after the last planned dose of study treatment without any confirmed detectable HCV RNA between end of treatment visit (up to Week 48) and 24 weeks after last planned dose (up to Week 72).||37.7|24.1|
92339112|NCT00627926|184579867|SUPERIORITY_OR_OTHER||Difference in percentage|25.7|||||TWO_SIDED|95.0|18.8|32.6||||||SVR FDA Guidance: undetectable HCV RNA at 24 weeks after the last planned dose of study treatment. Analysis was based only on the HCV RNA assessment in visit window (+/-2 weeks); if there were more than 1 assessment in the window, the last measurement was used.||32.6|18.8|
92398737|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.19|-0.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.78|-2.19|<0.0001
92398738|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.35||0.0333|TWO_SIDED|95.0|-1.45|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.06|-1.45|0.0333
92398739|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.0423|TWO_SIDED|95.0|-1.39|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.02|-1.39|0.0423
92154411|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.98|||||TWO_SIDED|95.0|0.89|1.09|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 6B antibody at Day 42.||1.09|0.89|
92154412|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.94|||||TWO_SIDED|95.0|0.86|1.03|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 7F antibody at Day 42.||1.03|0.86|
92154413|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.99|||||TWO_SIDED|95.0|0.9|1.08|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 9V antibody at Day 42.||1.08|0.90|
92154414|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.91|||||TWO_SIDED|95.0|0.81|1.02|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 14 antibody at Day 42.||1.02|0.81|
92154415|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.92|||||TWO_SIDED|95.0|0.84|1.02|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 18C antibody at Day 42.||1.02|0.84|
92154416|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.97|||||TWO_SIDED|95.0|0.87|1.07|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 19A antibody at Day 42.||1.07|0.87|
92154417|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.96|||||TWO_SIDED|95.0|0.87|1.06|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 19F antibody at Day 42.||1.06|0.87|
92215984|NCT00789750|184331946|OTHER||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|1.52|<|0.0001|TWO_SIDED|95.0|-11.75|-5.78|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-5.78|-11.75|<0.0001
92274775|NCT01967888|184452154|SUPERIORITY||Treatment effect|2.1||||0.842|TWO_SIDED|95.0|-18.2|22.33|||Chi-squared|||||22.33|-18.20|0.842
92339113|NCT00627926|184579867|SUPERIORITY_OR_OTHER||Difference in percentage|32.5|||||TWO_SIDED|95.0|25.9|39.2||||||SVR FDA Guidance: undetectable HCV RNA at 24 weeks after the last planned dose of study treatment. Analysis was based only on the HCV RNA assessment in visit window (+/-2 weeks); if there were more than 1 assessment in the window, the last measurement was used.||39.2|25.9|
92339114|NCT03066830|184579888|SUPERIORITY||Difference in Least Square (LS) Mean|-0.76|STANDARD_ERROR_OF_MEAN|0.095|<|0.0001|TWO_SIDED|95.0|-0.946|-0.574|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of Metformin use at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.574|-0.946|< 0.0001
92215985|NCT00789750|184331947|OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.77||0.7286|TWO_SIDED|95.0|-4.1|2.9|||ANCOVA|||Treatment difference = Colesevelam - Placebo||2.9|-4.1|0.7286
92215986|NCT00789750|184331948|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0653|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||Treatment difference = Colesevelam - Placebo||0.0|-0.4|0.0653
92215987|NCT00789750|184331949|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.73||0.8862|TWO_SIDED|95.0|-1.5|1.3|||ANCOVA|||Treatment difference = Colesevelam - Placebo||1.3|-1.5|0.8862
92215988|NCT03740997|184332005|OTHER||Mean Difference (Net)|16.2|STANDARD_DEVIATION|5.46||0.0008|TWO_SIDED|95.0|10.44|21.89|||Paired t-test|||Reader 1: Difference Between Non-contrast and OPTISON Dose Level 1||21.89|10.44|0.0008
92215989|NCT03740997|184332005|OTHER||Mean Difference (Net)|17.1|STANDARD_DEVIATION|13.49|<|0.0001|TWO_SIDED|95.0|11.11|23.07|||Paired t-test|||Reader 1: Difference Between Non-contrast and OPTISON Dose Level 1||23.07|11.11|<0.0001
92215990|NCT03740997|184332005|OTHER||Mean Difference (Net)|19.3|STANDARD_DEVIATION|6.5||0.0002|TWO_SIDED|95.0|13.28|25.3|||Paired t-test|||Reader 1: Difference Between Non-contrast and OPTISON Dose Level 2||25.30|13.28|0.0002
92215991|NCT03740997|184332005|OTHER||Mean Difference (Net)|18.5|STANDARD_DEVIATION|11.68|<|0.0001|TWO_SIDED|95.0|13.47|23.57|||Paired t-test|||Reader 1: Difference Between Non-contrast and OPTISON Dose Level 2||23.57|13.47|<0.0001
92215992|NCT03740997|184332005|OTHER||Mean Difference (Net)|19.8|STANDARD_DEVIATION|3.06|<|0.0001|TWO_SIDED|95.0|16.62|23.05|||Paired t-test|||Reader 2: Difference Between Non-contrast and OPTISON Dose Level 1||23.05|16.62|<0.0001
92215993|NCT03740997|184332005|OTHER||Mean Difference (Net)|20.1|STANDARD_DEVIATION|13.38|<|0.0001|TWO_SIDED|95.0|14.16|26.03|||Paired t-test|||Reader 2: Difference Between Non-contrast and OPTISON Dose Level 1||26.03|14.16|<0.0001
92398740|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.35||0.0208|TWO_SIDED|95.0|-1.49|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.12|-1.49|0.0208
92215994|NCT03740997|184332005|OTHER||Mean Difference (Net)|22.0|STANDARD_DEVIATION|2.77|<|0.0001|TWO_SIDED|95.0|19.44|24.56|||Paired t-test|||Reader 2: Difference Between Non-contrast and OPTISON Dose Level 2||24.56|19.44|<0.0001
92215995|NCT03740997|184332005|OTHER||Mean Difference (Net)|21.2|STANDARD_DEVIATION|13.34|<|0.0001|TWO_SIDED|95.0|15.45|26.99|||Paired t-test|||Reader 2: Difference Between Non-contrast and OPTISON Dose Level 2||26.99|15.45|<0.0001
92215996|NCT03740997|184332005|OTHER||Mean Difference (Net)|11.8|STANDARD_DEVIATION|9.35||0.0268|TWO_SIDED|95.0|2.02|21.64|||Paired t-test|||Reader 3: Difference Between Non-contrast and OPTISON Dose Level 1||21.64|2.02|0.0268
92339115|NCT03066830|184579889|SUPERIORITY||Difference in LS Means|-1.608|STANDARD_ERROR_OF_MEAN|0.286|<|0.0001|TWO_SIDED|95.0|-2.1685|-1.0471|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of Metformin use at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline fasting plasma glucose as a covariate.||-1.0471|-2.1685|< 0.0001
92215997|NCT03740997|184332005|OTHER||Mean Difference (Net)|16.1|STANDARD_DEVIATION|15.08|<|0.0001|TWO_SIDED|95.0|9.45|22.82|||Paired t-test|||Reader 3: Difference Between Non-contrast and OPTISON Dose Level 1||22.82|9.45|<0.0001
92215998|NCT03740997|184332005|OTHER||Mean Difference (Net)|12.1|STANDARD_DEVIATION|6.59||0.0028|TWO_SIDED|95.0|6.04|18.24|||Paired t-test|||Reader 3: Difference Between Non-contrast and OPTISON Dose Level 2||18.24|6.04|0.0028
92215999|NCT03740997|184332005|OTHER||Mean Difference (Net)|15.8|STANDARD_DEVIATION|13.37|<|0.0001|TWO_SIDED|95.0|10.04|21.61|||Paired t-test|||Reader 3: Difference Between Non-contrast and OPTISON Dose Level 2||21.61|10.04|<0.0001
92216000|NCT04207801|184332045|SUPERIORITY|||||||0.01|||||||Fisher Exact|||Efficacy of AUR101 was tested against placebo with respect to the primary endpoint (PASI75 response). A sample size of 25 in each of the three arms provided an 80% power with a one-sided Type I error of 0.05, if the true placebo response rate was 7% and the response rate on investigational arm(s) was 35%. The sample size was increased to 30 to account for \~ 15-20% dropouts over the study period.||||0.01
92216001|NCT02663271|184332046|SUPERIORITY|We used one-sample log rank test to compare to historical control.|Hazard Ratio (HR)|0.3|||<|0.001|TWO_SIDED||||||Log Rank|||||||<0.001
92216002|NCT01572675|184332056|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||p-student|||Group comparison (Arcoxia® \[Initiation\] vs Arcoxia® \[Renewal\]) for duration of prescription at enrollment||||<0.001
92216003|NCT01572675|184332056|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||p-student|||Group comparison (Celebrex® \[Initiation\] vs Celebrex® \[Renewal\]) for duration of prescription at enrollment||||<0.001
92216004|NCT01572675|184332061|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||Duration of treatment comparison (More than one year vs Up to thirty days) for intermittent selective COX-2 inhibitor use. The analysis assessed whether long-term treatment was more correlated with intermittent selective COX-2 inhibitor use compared to short-term treatment.||||<0.001
92216005|NCT01572675|184332064|SUPERIORITY_OR_OTHER_LEGACY|||||||0.104|||||||Chi-squared|||Group comparison (Arcoxia® vs Celebrex®) for controlled BP (SBP \<140 mmHg and DBP \<90 mmHg) at study entry||||0.104
92216006|NCT01572675|184332064|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0049|||||||Chi-squared|||Group comparison (Arcoxia® \[Initiation\] vs Arcoxia® \[Renewal\]) for controlled BP (SBP \<140 mmHg and DBP \<90 mmHg) at study entry||||0.0049
92216007|NCT01572675|184332064|SUPERIORITY_OR_OTHER_LEGACY|||||||0.618|||||||Chi-squared|||Group comparison (Celebrex® \[Initiation\] vs Celebrex® \[Renewal\]) for controlled BP (SBP \<140 mmHg and DBP \<90 mmHg) at study entry||||0.618
92216008|NCT01572675|184332065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||Chi-squared|||Group comparison (Arcoxia® \[Initiation\] vs Arcoxia® \[Renewal\]) for medical history of arterial hypertension||||0.012
92216009|NCT01572675|184332065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.175|||||||Chi-squared|||Group comparison (Celebrex® \[Initiation\] vs Celebrex® \[Renewal\]) for medical history of arterial hypertension||||0.175
92216010|NCT01572675|184332067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.701|||||||Chi-squared|||Group comparison (Arcoxia® \[Initiation\] vs Arcoxia® \[Renewal\]) for significant past treatments||||0.701
92216011|NCT01572675|184332067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||Chi-squared|||Group comparison (Celebrex® \[Initiation\] vs Celebrex® \[Renewal\]) for significant past treatments||||0.007
92216012|NCT01572675|184332067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.955|||||||Chi-squared|||Group comparison (Arcoxia® vs Celebrex®) for significant past treatments||||0.955
92216013|NCT01572675|184332070|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049|||||||Fisher Exact|||Group comparsion (Arcoxia® vs Celebrex®) for previous treatment with other agents prior to initiation of Arcoxia® and Celebrex® for the main study indications||||0.049
92216014|NCT01572675|184332073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.165|||||||Chi-squared|||Group comparsion (Arcoxia® vs Celebrex®) of adverse events experienced during treatment||||0.165
92216015|NCT00223678|184332075|SUPERIORITY_OR_OTHER|||||||0.849|||||||Log Rank|||||||0.849
92216016|NCT05390580|184332124|SUPERIORITY|||||||0.24|||||||Mixed Models Analysis|||Repeated measures were analyzed with longitudinal mixed-effects models (FDA guidance), using subject as a random effect. This accounted for irregular timing, missing data, and time-varying covariates. Models included treatment, time since last known normal, and their interaction; quadratic time terms captured U-shaped cytokine/WBC patterns. Interaction p-values tested trajectory differences between taVNS and sham.||||0.24
92216017|NCT05390580|184332125|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||Repeated measures were analyzed with longitudinal mixed-effects models (FDA guidance), using subject as a random effect. This accounted for irregular timing, missing data, and time-varying covariates. Models included treatment, time since last known normal, and their interaction; quadratic time terms captured U-shaped cytokine/WBC patterns. Interaction p-values tested trajectory differences between taVNS and sham.||||0.0001
92216018|NCT05390580|184332126|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|||Repeated measures were analyzed with longitudinal mixed-effects models (FDA guidance), using subject as a random effect. This accounted for irregular timing, missing data, and time-varying covariates. Models included treatment, time since last known normal, and their interaction; quadratic time terms captured U-shaped cytokine/WBC patterns. Interaction p-values tested trajectory differences between taVNS and sham.||||0.26
92216019|NCT05390580|184332127|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||Repeated measures were analyzed with longitudinal mixed-effects models (FDA guidance), using subject as a random effect. This accounted for irregular timing, missing data, and time-varying covariates. Models included treatment, time since last known normal, and their interaction; quadratic time terms captured U-shaped cytokine/WBC patterns. Interaction p-values tested trajectory differences between taVNS and sham.||||0.14
92274776|NCT01967888|184452155|SUPERIORITY||Hazard Ratio (HR)|3.21||||0.339|TWO_SIDED|95.0|0.29|34.97|||Anderson-Gill model|||||34.97|0.29|0.339
92216020|NCT05390580|184332129|SUPERIORITY|||||||0.69|||||||Mixed Models Analysis|||Repeated measures were analyzed with longitudinal mixed-effects models (FDA guidance), using subject as a random effect. This accounted for irregular timing, missing data, and time-varying covariates. Models included treatment, time since last known normal, and their interaction; linearly for in-hospital NIHSS scores based on panel data plots. Interaction terms were utilized to delineate differences amongst trajectories of the outcome of interest.||||0.69
92216021|NCT05390580|184332130|SUPERIORITY|||||||0.48|||||||Mixed Models Analysis|||Estimated using a mixed model that includes a random effect for person, based on actual day of the mRS, 90 day assessment. Restricted to participants who survived to an mRS assessment for day 90 , leaving 14 participants (28 mRS scores) in the treatment group and 17 participants (34 mRS scores) in the sham group.||||0.48
92216022|NCT05390580|184332131|EQUIVALENCE|Here we were testing if there were any safety differences based on treatment. This was a pilot exploratory trial, for which we may be underpowered.||||||0.49|||||||Regression, Logistic|||To assess our dichotomous safety endpoints, we used logistic regression models constructed to assess differences in hypotension.||||0.49
92216023|NCT05390580|184332132|EQUIVALENCE|Here we were testing if there were any safety differences based on treatment. This was a pilot exploratory trial, for which we may be underpowered.||||||0.66|||||||Regression, Logistic|||To assess our dichotomous safety endpoints, we used logistic regression models constructed to assess differences in bradycardia.||||0.66
92274777|NCT01967888|184452156|SUPERIORITY||Treatment effect|5.0||||0.64|TWO_SIDED|95.0|-15.91|25.93|||Chi-squared|||||25.93|-15.91|0.640
92274778|NCT01967888|184452162|SUPERIORITY|||||||0.448|||||||Wilcoxon rank-sum test|||||||0.448
92274779|NCT01967888|184452163|SUPERIORITY|||||||0.91|||||||Wilcoxon rank-sum test|||||||0.910
92216024|NCT01791803|184332161|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.6|||||TWO_SIDED|95.0|1.1|11.4||||||||11.4|1.1|
92216025|NCT01791803|184332161|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.4|||||TWO_SIDED|95.0|1.04|9.7||||||||9.7|1.04|
92216026|NCT01791803|184332162|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.0|||||TWO_SIDED|95.0|0.8|6.2||||Adjusted for gender, marital status, diagnosis at enrollment.||||6.2|0.8|
92216027|NCT01791803|184332162|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.3|||||TWO_SIDED|95.0|1.2|10.0||||||||10|1.2|
92216028|NCT01791803|184332163|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Comparison of smoking status at 12 weeks after hospitalization for a cardiac or pulmonary diagnosis||||< 0.001
92274780|NCT01967888|184452164|SUPERIORITY|||||||1|||||||Wilcoxon rank-sum test|||||||1.000
92274781|NCT01967888|184452169|SUPERIORITY||least square mean difference|31.3491|||=|0.5018|TWO_SIDED|95.0|-60.998|123.7|||Mixed Models Analysis|||||123.70|-60.9980|=0.5018
92274782|NCT01967888|184452170|SUPERIORITY||Least square mean difference|23.5454|||=|0.4537|TWO_SIDED|95.0|-38.6619|85.7528|||Mixed Models Analysis|||||85.7528|-38.6619|=0.4537
92274783|NCT03175120|184452181|SUPERIORITY||Treatment contrast|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.09|-0.75|||ANCOVA|||The response and change from baseline in response after 26 weeks are analysed using an analysis of covariance (ANCOVA) model with treatment and previous anti-diabetic treatment as fixed factors and corresponding baseline value as covariate.||-0.75|-1.09|<.0001
92274784|NCT01859325|184452270|SUPERIORITY||Median Difference (Final Values)|-0.36||||0.406|TWO_SIDED|95.0|-1.41|0.67|||Wilcoxon (Mann-Whitney)|||Samples size based on published data on populations of early treated patients undergoing ART interruption. The power based on a 2-sample t-test with a 2-tailed alpha of .05 and a total sample size of 30 is approximately 91% to detect a 1.25 log10 reduction in the rebound plasma viremia between vaccine and placebo groups.||0.67|-1.41|0.406
92339116|NCT03066830|184579890|SUPERIORITY||Difference in LS Means|-0.82|STANDARD_ERROR_OF_MEAN|1.272||0.5172|TWO_SIDED|95.0|-3.316|1.669|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of Metformin use at screening and country as fixed effects, and baseline SBP as a covariate.||1.669|-3.316|0.5172
92339117|NCT03066830|184579891|SUPERIORITY||Difference in LS Means|-1.02|STANDARD_ERROR_OF_MEAN|0.983||0.2994|TWO_SIDED|95.0|-2.946|0.907|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of Metformin use at screening, randomization strata of mean SBP (\<130, ≥ 30 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||0.907|-2.946|0.2994
92339118|NCT03066830|184579892|SUPERIORITY||Difference in LS Means|-1.41|STANDARD_ERROR_OF_MEAN|0.267|<|0.0001|TWO_SIDED|95.0|-1.932|-0.884|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of Metformin use at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline weight as a covariate.||-0.884|-1.932|< 0.0001
92339119|NCT03066830|184579893|SUPERIORITY||Percentage difference|6.7||||0.0004|TWO_SIDED|95.0|3.03|10.47|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130,≥130 mmHg) at screening, randomization strata of metformin use at the screening. Missing data at Week 26 were assigned a status of non-responder in the analysis.||10.47|3.03|0.0004
92339120|NCT03066830|184579894|SUPERIORITY||Percentage difference|17.4|||<|0.0001|TWO_SIDED|95.0|11.16|23.73|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization strata of Metformin use at screening. Missing data at Week 26 were assigned a status of non-responder in the analysis.||23.73|11.16|< 0.0001
92339121|NCT02797678|184579911|SUPERIORITY|||||||0.061|||||||paired t-test|||||||0.061
92339122|NCT02797678|184579914|SUPERIORITY|||||||0.301|||||||paired t-test|||||||0.301
92339123|NCT02499120|184579964|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.18|TWO_SIDED|95.0|0.536|1.253||1-sided p-value was from the log-rank test stratified by stratification factors ECOG(Eastern Cooperative Oncology Group) per randomization.|Log Rank|||||1.253|0.536|0.1800
92339124|NCT02499120|184579965|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.4953|TWO_SIDED|95.0|0.669|1.495||1-sided p-value was from the log-rank test stratified by stratification factors ECOG per randomization.|Log Rank|||||1.495|0.669|0.4953
92339125|NCT03877224|184580007|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|3.16||||0.07905|TWO_SIDED|95.0|0.36|6.01||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate.|Rank ANCOVA|The model includes rank-based baseline, weeks impacted by COVID-19 and treatment group as covariates and is stratified by T2DM status at randomization||For the primary efficacy endpoint KCCQ-TSS, the following hypothesis was tested using the significance level 0.04990 • H0: m(r(A)) = m(r(C)) versus • H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, KCCQ-TSS, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively.||6.01|0.36|0.07905
92339126|NCT03877224|184580008|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|3.12||||0.23215|TWO_SIDED|95.0|-0.09|5.37||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate.|Rank ANCOVA|The model includes rank-based baseline, weeks impacted by COVID-19 and treatment group as covariates and is stratified by T2DM status at randomization||For the primary efficacy endpoint KCCQ-PLS, the following hypothesis was tested at significant level of 0.00005 • H0: m(r(A)) = m(r(C)) versus • H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, KCCQ-PLS, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively.||5.37|-0.09|0.23215
92339127|NCT03877224|184580009|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|1.6||||0.66801|TWO_SIDED|95.0|-5.9|9.0||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate.|Rank ANCOVA|The model includes rank-based baseline, treatment group as covariates and is stratified by T2DM status at randomization||For the primary efficacy endpoint 6MWD, the following hypothesis was tested using the significance level 0.00005: H0: m(r(A)) = m(r(C)) versus H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, 6MWD, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively.||9.0|-5.9|0.66801
92398741|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.3435|TWO_SIDED|95.0|-0.55|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||0.19|-0.55|0.3435
92369331|NCT02993822|184643578|SUPERIORITY||Mean Difference (Final Values)|0.92||||0.46|TWO_SIDED|95.0|0.75|1.14|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.14|0.75|0.460
92369332|NCT02993822|184643578|SUPERIORITY||Mean Difference (Final Values)|0.86||||0.144|TWO_SIDED|95.0|0.69|1.06|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.06|0.69|0.144
92369333|NCT02993822|184643579|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.992|TWO_SIDED|95.0|0.78|1.27|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.27|0.78|0.992
92154418|NCT01702428|184195050|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.95|||||TWO_SIDED|95.0|0.85|1.06|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 23F antibody at Day 42.||1.06|0.85|
92154419|NCT02771210|184195073|SUPERIORITY||Odds Ratio (OR)|1.63||||0.136|TWO_SIDED|95.0|0.87|3.08|||Regression, Logistic|||||3.08|0.87|0.136
92154420|NCT04397523|184195087|OTHER|||||||0.05||||||p=0.00000|ANOVA|df 2||||||0.05
92154421|NCT04397523|184195092|OTHER|||||||0.05||||||Chi- square = 24.98174, p = 0.00000|Chi-squared|df = 2||Overall survival between the three WHO score groups 3, 4 and 5||||0.05
92154422|NCT04397523|184195092|OTHER|||||||0.05||||||p=0.000|Chi-squared|df = 2||Correlation of mortality versus WHO disease progression score of patients||||0.05
92154423|NCT04397523|184195092|OTHER|||||||0.05||||||p = 0.000|Chi-squared|df = 1||Correlation of mortality versus stay in the intensive care unit (ICU)||||0.05
92154424|NCT01275196|184195093|NON_INFERIORITY_OR_EQUIVALENCE|This trial was powered to detect an odds ratio of at least 2.333 which corresponds, for example, to increases of 18% (from 22% to 40%) and increases of 20% (from 30% to 50%).||||||0.0001|||||||Cochran-Mantel-Haenszel|||||||0.0001
92154425|NCT03230864|184195110|SUPERIORITY||Mean Difference (Final Values)|5.47||||0.0809|TWO_SIDED|95.0|-0.7|11.65|||Mixed Model Repeated Measures|||The mean changes from randomization in PANNS total score was analysed using a mixed model for repeated measures (MMRM) approach. The model will include the fixed, categorical effects of treatment, strata, visit, treatment-by-visit interaction, fixed covariates of baseline scores and baseline scores-by-visit interaction. An unstructured (co)variance structure will be used to model the within-patient errors. The Kenward-Roger approximation will be used to estimate denominator degrees of freedom.||11.65|-0.70|0.0809
92154426|NCT01744496|184195119|SUPERIORITY_OR_OTHER||Least Square Mean|-0.76|STANDARD_ERROR_OF_MEAN|0.55||0.172|TWO_SIDED|95.0|-1.87|0.34|||ANCOVA|ANCOVA model for the change from Baseline to the End of Treatment containing treatment and region as factors and Baseline value as a covariate.||||0.34|-1.87|0.172
92154427|NCT01744496|184195121|SUPERIORITY_OR_OTHER||Least Square Mean|-8.01|STANDARD_ERROR_OF_MEAN|3.77||0.038|TWO_SIDED|95.0|-15.56|-0.46|||ANCOVA|ANCOVA model for the change from Baseline to the End of Treatment containing treatment and region as factors and Baseline value as a covariate.||||-0.46|-15.56|0.038
92154428|NCT01744496|184195122|SUPERIORITY_OR_OTHER||Least Square Mean|-1.02|STANDARD_ERROR_OF_MEAN|0.87||0.247|TWO_SIDED|95.0|-2.76|0.73|||ANCOVA|ANCOVA model for the change from Baseline to the End of Treatment containing treatment and region as factors and Baseline value as a covariate.||||0.73|-2.76|0.247
92154429|NCT01744496|184195123|SUPERIORITY_OR_OTHER||Least Square Mean|-0.58|STANDARD_ERROR_OF_MEAN|0.64||0.371|TWO_SIDED|95.0|-1.85|0.7|||ANCOVA|ANCOVA model for the change from Baseline to the End of Treatment containing treatment and region as factors and Baseline value as a covariate.||||0.70|-1.85|0.371
92154430|NCT01744496|184195124|SUPERIORITY_OR_OTHER||Least Square Mean|-2.82|STANDARD_ERROR_OF_MEAN|2.97||0.346|TWO_SIDED|95.0|-8.76|3.13|||ANCOVA|ANCOVA model for the change from Baseline to the End of Treatment containing treatment and region as factors and Baseline value as a covariate.||||3.13|-8.76|0.346
92154431|NCT01284140|184195126|OTHER|||||||0.37|||||||Extra sum-of-squares F test|The null hypothesis that model parameters of amplitude and phase were the same on Day 1 and Day 3 was not rejected for the Usual Care group.||Nonlinear regression using the least-squares approach was used to fit a single 24-hour cosine curve to all normalized data in each group on each day of 24-hour urine collection. Model parameters of acrophase and amplitude and their standard errors were derived from these curves. Using the extra sum-of-squares F test, the null hypothesis that model parameters of amplitude and phase were the same on Day 1 and Day 3 was tested for the Usual Care group.||||0.37
92154432|NCT01284140|184195126|OTHER|||||||0.0074|||||||Extra sum-of-squares F test|This result suggests that the best-fit values for amplitude and phase are different between Day 1 and Day 3 in the Sleep Promotion group.||Nonlinear regression using the least-squares approach was used to fit a single 24-hour cosine curve to all normalized data in each group on each day of 24-hour urine collection. Model parameters of acrophase and amplitude and their standard errors were derived from these curves. Using the extra sum-of-squares F test, the null hypothesis that model parameters of amplitude and phase were the same on Day 1 and Day 3 was tested for the Sleep promotion group.||||0.0074
92154433|NCT01284140|184195127|SUPERIORITY|||||||0.55|||||||Fisher Exact|||||||0.55
92154434|NCT01284140|184195128|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.03|TWO_SIDED||||||t-test, 2 sided|||Nonlinear regression using the least-squares approach was used to fit a single 24-hour cosine curve to all normalized data in each group on each day of 24-hour urine collection. This resulted in 4 separate best-fit curves. The model parameter of amplitude was derived from the best-fit curves.||||0.03
92154435|NCT05033080|184195149|NON_INFERIORITY|The non-inferiority margin represents a clinically acceptable loss of effectiveness that margin preserve at least 50% of the treatment effect of the active control (ELX/TEZ/IVA) compared to placebo, where the treatment effect is estimated by the lower bound of the 95% confidence interval (CI).|LS Mean difference|0.2|||<|0.0001|TWO_SIDED|95.0|-0.7|1.1|||Mixed Models Repeated Measures|||||1.1|-0.7|< 0.0001
92154436|NCT05033080|184195150|SUPERIORITY||LS Mean difference|-8.4|||<|0.0001|TWO_SIDED|95.0|-10.5|-6.3|||Mixed Models Repeated Measures|||||-6.3|-10.5|< 0.0001
92154437|NCT05033080|184195151|OTHER||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.55|3.15|||Generalized Estimated Equation Model|||||3.15|1.55|< 0.0001
92154438|NCT05033080|184195152|OTHER||Odds Ratio (OR)|2.87|||<|0.0001|TWO_SIDED|95.0|2.0|4.12|||Generalized Estimated Equation Model|||||4.12|2.00|< 0.0001
92339128|NCT03877224|184580010|SUPERIORITY|Total time spent in LVPA was not tested for statistical significance and the p-value is considered nominal because the test for 6MWD was not statistically significant.|Hodges-Lehmann median diff. vs placebo|0.19||||0.12523|TWO_SIDED|95.0|-0.06|0.48|||Rank ANCOVA|Model includes baseline rank of outcome variable as a covariate, treatment group as a factor, and is stratified by T2DM status at randomization.||For the secondary efficacy endpoint, total time spent in LVPA, the testing hypothesis is • H0: m(r(A)) = m(r(C)) versus • H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in secondary efficacy endpoint, total time spent in LVPA, from baseline to End of study among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively.||0.48|-0.06|0.12523
92339129|NCT00461097|184580011|SUPERIORITY_OR_OTHER||Risk Difference (RD)|27.5||||0.025|TWO_SIDED|95.0|4.3|43.9||No adjustments were made to the p-value.|Barnard's statistic|The a priori threshold for statistical significance is 0.05.||Number of participants who successfully consumed 10,000 mg of egg white solid was compared using Barnard's statistic with the null hypothesis that there was no difference between treatment groups.||43.9|4.3|0.025
92339130|NCT01466361|184580019|SUPERIORITY_OR_OTHER||Least square mean difference|-7.23||||0.0643|TWO_SIDED|95.0|-14.89|0.44|||ANCOVA||Treatment comparisons were made between nicotine 1.5mg lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings at 1 minute post dosing.||0.44|-14.89|0.0643
92339131|NCT01466361|184580019|SUPERIORITY_OR_OTHER||Least square mean difference|-7.16||||0.1489|TWO_SIDED|95.0|-16.93|2.61|||ANCOVA||Treatment comparisons were made between nicotine 1.5mg lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings at 3 minute post dosing.||2.61|-16.93|0.1489
92339132|NCT01466361|184580019|SUPERIORITY_OR_OTHER||Least square mean difference|-6.33||||0.2225|TWO_SIDED|95.0|-16.56|3.9|||ANCOVA||Treatment comparisons were made between 1.5mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings at 5 minute post dosing.||3.90|-16.56|0.2225
92339133|NCT01466361|184580019|SUPERIORITY_OR_OTHER||Least square mean difference|-5.11||||0.3491|TWO_SIDED|95.0|-15.87|5.66|||ANCOVA||Treatment comparisons were made between 1.5mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings, 10 minutes post dosing.||5.66|-15.87|0.3491
92339134|NCT01466361|184580019|SUPERIORITY_OR_OTHER||Least square mean difference|-5.0||||0.3936|TWO_SIDED|95.0|-16.6|6.59|||ANCOVA||Treatment comparisons were made between 1.5mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings, 15 minutes post dosing.||6.59|-16.60|0.3936
92339135|NCT01466361|184580020|SUPERIORITY_OR_OTHER||Least square mean difference|-3.58||||0.3922|TWO_SIDED|95.0|-11.85|4.7|||ANCOVA||Treatment comparisons were made between 4mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings, at 1 minute post dosing.||4.70|-11.85|0.3922
92339136|NCT01466361|184580020|SUPERIORITY_OR_OTHER||Least square mean difference|-9.7||||0.0547|TWO_SIDED|95.0|-19.59|0.2|||ANCOVA||Treatment comparisons were made between 4mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings, 3 minutes post dosing.||0.20|-19.59|0.0547
92339137|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5221||||||The reported p-value is representative of the changes in levels of all CD4 cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.5221
92339138|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.25||||||The reported p-value is representative of the changes in levels of CD4 cells at dose level 1.|Wilcoxon test|||||||0.25
92339139|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5||||||The reported p-value is representative of the changes in levels of CD4 cells at dose level 3.|Wilcoxon test|||||||0.50
92339140|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.16||||||The reported p-value is representative of the changes in levels of CD4 cells at dose level 4.|Wilcoxon test|||||||0.16
92339141|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.8665||||||The reported p-value is representative of the changes in levels of all CD8 cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.8665
92339142|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.88||||||The reported p-value is representative of the changes in levels of all CD8 cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.88
92339143|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.84||||||The reported p-value is representative of the changes in levels of CD8 cells at dose level 3.|Wilcoxon test|||||||0.84
92216029|NCT01791803|184332163|SUPERIORITY_OR_OTHER|||||||0.07|||||||ANOVA|||Comparison of smoking stars at 26 weeks after hospitalization for a cardiac or a pulmonary illness||||0.07
92339144|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.57||||||The reported p-value is representative of the changes in levels of CD8 cells at dose level 4.|Wilcoxon test|||||||0.57
92339145|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3052||||||The reported p-value is representative of the changes in levels of all B cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.3052
92154439|NCT04159415|184195181|SUPERIORITY||Least Squares (LS) Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-1.9|2.3|||||Confidence interval (CI) based on treatment group difference (R4461 Low dose vs. placebo) of the LS means using mixed-effect model with repeated measures (MMRM) model|||2.3|-1.9|
92339146|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of B cells at dose level 1.|Wilcoxon test|The reported p-value is representative of the changes in levels of B cells at dose level 1.||||||>0.9999
92339147|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of B cells at dose level 3.|Wilcoxon test|||||||0.13
92154440|NCT04159415|184195182|SUPERIORITY||LS Mean Difference|38.1|STANDARD_ERROR_OF_MEAN|27.3|||TWO_SIDED|95.0|-21.3|97.5|||||Confidence interval (CI) based on treatment group difference (R4461 Low dose vs. placebo) of the LS means using mixed-effect model with repeated measures (MMRM) model|||97.5|-21.3|
92154441|NCT04159415|184195183|SUPERIORITY||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|29.0|||TWO_SIDED|95.0|-56.9|56.9|||||Combined estimate for adjusted mean difference (SE) vs Placebo obtained by combining adjusted means and SE from ANCOVA model analyses of the different imputed data sets.|||56.9|-56.9|
92154442|NCT04159415|184195184|SUPERIORITY||Adjusted Mean Difference|17.8|STANDARD_ERROR_OF_MEAN|43.6|||TWO_SIDED|95.0|-67.6|103.2|||||Combined estimate for adjusted mean difference (SE) vs Placebo obtained by combining adjusted means and SE from robust regression model analyses of the different imputed data sets.|||103.2|-67.6|
92154443|NCT03560245|184195186|EQUIVALENCE|"The change from baseline to Week 13 in the SIB total score was summarized descriptively and compared using Analysis of Covariance (ANCOVA) adjusted for baseline SIB total score.~If the normality assumption was not met, a non-parametric method or a rank-ANCOVA analysis (i.e., an ANCOVA analysis on rank-transformed data) was to be used."||||||0.373|||||||t-test, 2 sided|||||||0.3730
92154444|NCT02058290|184195228|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
92154445|NCT02058290|184195229|SUPERIORITY_OR_OTHER|||||||0.2612|||||||ANOVA|||||||0.2612
92154446|NCT02058290|184195230|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Log Rank|||||||0.0019
92154447|NCT02262260|184195265|NON_INFERIORITY|"In order to demonstrate that the wait and extend regimen of ranibizumab is non-inferior to the posology described in the prescribing information, mean change in BCVA at month 12 from the baseline visit were determined for both treatment groups, and a comparison was made between the two groups using the Independent Samples t-test."||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92154448|NCT02262260|184195266|NON_INFERIORITY|"In order to demonstrate that the wait and extend regimen of ranibizumab is non-inferior to the posology described in the prescribing information, mean change in Central Retinal Thickness determined with Optical Coherence Tomography for both eyes were calculated for both groups and were compared using the Mann Whitney u test."||||||0.082|||||||Wilcoxon (Mann-Whitney)|||||||0.082
92154449|NCT02262260|184195269|NON_INFERIORITY|Comparison was made between the two groups using the Independent Samples t-test.||||||0.095|||||||Chi-squared|||||||0.095
92154450|NCT02262260|184195270|NON_INFERIORITY|comparison was made between the two groups using the Independent Samples t-test.||||||0.072|||||||Chi-squared|||||||0.072
92154451|NCT02262260|184195271|NON_INFERIORITY|comparison was made between the two groups using the Independent Samples t-test||||||0.466|||||||Chi-squared|||||||0.466
92154452|NCT01794117|184195274|SUPERIORITY|||||||0.033|||||||Wilcoxon Signed Rank Test|||||||0.033
92154453|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B) (Full analysis set)|LS mean change|-15.9|STANDARD_ERROR_OF_MEAN|7.76||0.362|TWO_SIDED|95.0|-31.2|-0.6|||ANCOVA|||10 micrograms of Tropifexor vs placebo (Part A)||-0.6|-31.2|0.362
92154454|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B) (Full analysis set)|LS mean change|-10.7|STANDARD_ERROR_OF_MEAN|7.12||0.729|TWO_SIDED|95.0|-24.8|3.3|||ANCOVA|||30 micrograms of Tropifexor vs placebo (Part A)||3.3|-24.8|0.729
92154455|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B) (Full analysis set)|Least Square Mean Change|-16.5|STANDARD_ERROR_OF_MEAN|4.73||0.173|TWO_SIDED|95.0|-25.8|-7.1|||ANCOVA|||60 micrograms of Tropifexor vs placebo (Parts A + B)||-7.1|-25.8|0.173
92154456|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B) (Full analysis set)|Least Square Mean Change|-14.9|STANDARD_ERROR_OF_MEAN|3.25||0.185|TWO_SIDED|95.0|-21.3|-8.5|||ANCOVA|||90 micrograms of Tropifexor vs placebo (Parts A + B)||-8.5|-21.3|0.185
92339148|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.65||||||The reported p-value is representative of the changes in levels of B cells at dose level 4.|Wilcoxon test|||||||0.65
92339149|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0698||||||The reported p-value is representative of the changes in levels of all NK cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0698
92339150|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.63||||||The reported p-value is representative of the changes in levels of NK cells at dose level 1.|Wilcoxon test|||||||0.63
92339151|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.74||||||The reported p-value is representative of the changes in levels of NK cells at dose level 3.|Wilcoxon test|||||||0.74
92339152|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of NK cells at dose level 4.|Wilcoxon test|||||||0.13
92339153|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0127||||||The reported p-value is representative of the changes in levels of all NKT cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0127
92216030|NCT02060383|184332194|OTHER|There was no formal hypothesis testing planned in this study.|Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.63|0.08|||||Difference of adjusted mean change in HbA1c between the two arms based on an ANOVA model with treatment (Incretin, Insulin) and randomization stratification factors (Cushing's vs. Acromegaly; baseline HbA1c \<7% vs ≥7%) as fixed effects.|All Patients||0.08|-0.63|
92216031|NCT02060383|184332194|OTHER|There was no formal hypothesis testing planned in this study.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-0.96|0.95|||||Difference of adjusted mean change in HbA1c between the two arms based on an ANOVA model with treatment (Incretin, Insulin) and randomization stratification factors (baseline HbA1c \<7% vs ≥7%) as fixed effects.|Cushing's Disease||0.95|-0.96|
92216032|NCT02060383|184332194|OTHER|There was no formal hypothesis testing planned in this study.|Mean Difference (Net)|-0.36|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|-0.74|0.02|||||Difference of adjusted mean change in HbA1c between the two arms based on an ANOVA model with treatment (Incretin, Insulin) and randomization stratification factors (baseline HbA1c \<7% vs ≥7%) as fixed effects.|Acromegaly||0.02|-0.74|
92216033|NCT03426787|184332201|SUPERIORITY||Mean Difference (Final Values)|-12.30216|||<|0.001|TWO_SIDED|95.0|-18.95|-5.6531|||t-test, 2 sided|||||-5.6531|-18.95|<0.001
92216034|NCT03426787|184332202|SUPERIORITY||Mean Difference (Final Values)|-0.4717||||0.0463|TWO_SIDED|95.0|-0.9355|-0.00793|||t-test, 2 sided|||||-0.00793|-0.9355|0.0463
92216035|NCT03426787|184332203|SUPERIORITY||Median Difference (Final Values)|-1.936|||>|0.05|TWO_SIDED|95.0|-7.4086|3.5365|||t-test, 2 sided|||||3.5365|-7.4086|>0.05
92154457|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Part C) (Full analysis set)|LS Mean Change|-31.6|STANDARD_ERROR_OF_MEAN|7.71||0.02|TWO_SIDED|95.0|-46.9|-16.3|||ANCOVA|||140 micrograms of Tropifexor (Part C) vs placebo||-16.3|-46.9|0.020
92154458|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Part C) (Full analysis set)|LS Mean Change|-32.5|STANDARD_ERROR_OF_MEAN|9.1||0.03|TWO_SIDED|95.0|-50.6|-14.5|||ANCOVA|||200 micrograms of Tropifexor vs placebo (Part C)||-14.5|-50.6|0.030
92154459|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline to Week 12 (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-13.4|STANDARD_ERROR_OF_MEAN|7.86||0.456|TWO_SIDED|95.0|-26.3|-0.4|||ANCOVA|||10 micrograms of Tropifexor vs placebo (Parts A + B + C)||-0.4|-26.3|0.456
92154460|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline to Week 12 (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-7.5|STANDARD_ERROR_OF_MEAN|7.27||0.966|TWO_SIDED|95.0|-19.5|4.4|||ANCOVA|||30 micrograms of Tropifexor vs placebo (Parts A + B + C)||4.4|-19.5|0.966
92154461|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline to Week 12 (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-13.3|STANDARD_ERROR_OF_MEAN|4.93||0.275|TWO_SIDED|95.0|-21.4|-5.2|||ANCOVA|||60 micrograms of Tropifexor vs placebo (Parts A + B + C)||-5.2|-21.4|0.275
92154462|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline to Week 12 (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-11.8|STANDARD_ERROR_OF_MEAN|3.56||0.304|TWO_SIDED|95.0|-17.6|-5.9|||ANCOVA|||90 micrograms of Tropifexor vs placebo (Parts A + B + C)||-5.9|-17.6|0.304
92216036|NCT02039726|184332207|OTHER||Hazard Ratio (HR)|0.758||||0.0185|TWO_SIDED|95.0|0.584|0.983|||P-value for HR=1 (1-sided)|||Stratified analysis - stratification factors include prior therapy and response (Relapsed in ≤6 months (not post-HSCT), Refractory, or relapsed in ≤6 months post allogeneic HSCT), and pre-selected chemotherapy (High intensity chemotherapy \[MEC or FLAG-IDA\], or low intensity chemotherapy \[LoDAC\]).||0.983|0.584|0.0185
92216037|NCT02039726|184332208|OTHER||Hazard Ratio (HR)|0.898||||0.2034|TWO_SIDED|95.0|0.697|1.157|||P value for HR=1 (1-sided)|||Stratified analysis - stratification factors include prior therapy and response (Relapsed in ≤6 months (not post-HSCT), Refractory, or relapsed in ≤6 months post allogeneic HSCT), and pre-selected chemotherapy (High intensity chemotherapy \[MEC or FLAG-IDA\], or low intensity chemotherapy \[LoDAC\]).||1.157|0.697|0.2034
92274785|NCT00986154|184452291|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed to accumulate approximately 220 Overall primary efficacy events in the mITT (modified Intent to Treat) Analysis Set. Assuming equal efficacy (Hazard Ratio = 1.00), a total of 220 events gave a power of 85% to demonstrate that (LMW) heparin/edoxaban was non-inferior to the comparator, considering a relative non-inferiority margin of 1.5 (two sided α=0.05).|Hazard Ratio (HR)|0.89|||<|0.0001|TWO_SIDED|95.0|0.703|1.128|||Regression, Cox||Time to 1st event analyzed by Cox proportional hazards with terms treatment group, randomization stratification factors: Presenting Diagnosis (PE with/without DVT, DVT only); Baseline risk factors (temp factors; all others); Need for reduced dose|(LMW) heparin/edoxaban will be non-inferior to (LMW) heparin/warfarin in preventing recurrence of acute, symptomatic VTE following initial index event. (LMW) Heparin/edoxaban was considered non-inferior to the standard therapy (\[LMW\] heparin/warfarin) if the upper limit of the two-sided 95% confidence interval (CI) for the Hazard Ratio (\[LMW\] heparin/edoxaban to standard therapy) was less than 1.5. Events included in Overall study period if occurred on or after randomization date up to Day 365.||1.128|.703|<0.0001
92274786|NCT00986154|184452292|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9933|TWO_SIDED|95.0|0.832|1.2|||Regression, Cox||Time to 1st event analyzed by Cox proportional hazards with terms treatment group, randomization stratification factors: Presenting Diagnosis (PE with/without DVT, DVT only); Baseline risk factors (temp factors; all others); Need for reduced dose.|||1.200|.832|.9933
92216038|NCT00713817|184332218|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.89||||0.273|TWO_SIDED|95.0|-0.78|2.56|||ANCOVA|||The two groups were compared using Analysis of Covariance (ANCOVA) with baseline severity as a covariate and study centre group and treatment group as factors. Due to the low power of the test for interaction the test was performed at the 10% level of significance and a 95% confidence interval (CI) was presented for the difference between treatments.||2.56|-0.78|0.273
92216039|NCT00713817|184332219|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|4.62||||0.296|TWO_SIDED|95.0|-4.51|13.75|||ANCOVA|||The two groups were compared using Analysis of Covariance (ANCOVA) with baseline severity as a covariate and study centre group and treatment group as factors. Due to the low power of the test for interaction the test was performed at the 10% level of significance and a 95% confidence interval (CI) was presented for the difference between treatments.||13.75|-4.51|0.296
92339154|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.63||||||The reported p-value is representative of the changes in levels of NKT cells at dose level 1.|Wilcoxon test|||||||0.63
92339155|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.41||||||The reported p-value is representative of the changes in levels of NKT cells at dose level 3.|Wilcoxon test|||||||0.41
92154463|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B) FAS|LS Mean change|-17.1|STANDARD_ERROR_OF_MEAN|4.45||0.057|TWO_SIDED|95.0|-24.5|-9.8|||ANCOVA|||140 micrograms of Tropifexor vs placebo (Parts A + B + C)||-9.8|-24.5|0.057
92154464|NCT02855164|184195424|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B + C) FAS|LS Mean change|-23.0|STANDARD_ERROR_OF_MEAN|4.49||0.003|TWO_SIDED|95.0|-30.5|-15.6|||ANCOVA|||200 micrograms of Tropifexor vs placebo (Parts A + B + C)||-15.6|-30.5|0.003
92154465|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Full analysis set)|LS Mean change|-9.9|STANDARD_ERROR_OF_MEAN|6.56||0.722|TWO_SIDED|95.0|-22.9|3.0|||ANCOVA|||10 micrograms of Tropifexor vs placebo (Part A)||3.0|-22.9|0.722
92154466|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Full analysis set)|LS Mean change|-2.2|STANDARD_ERROR_OF_MEAN|5.96||0.468|TWO_SIDED|95.0|-14.0|9.5|||ANCOVA|||30 micrograms of Tropifexor vs placebo (Part A)||9.5|-14.0|0.468
92154467|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B) (Full analysis set)|LS Mean change|-8.8|STANDARD_ERROR_OF_MEAN|3.97||0.774|TWO_SIDED|95.0|-16.7|-1.0|||ANCOVA|||60 micrograms of Tropifexor vs placebo (Parts A+B)||-1.0|-16.7|0.774
92154468|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B) (Full analysis set)|LS Mean change|-0.6|STANDARD_ERROR_OF_MEAN|2.76||0.136|TWO_SIDED|95.0|-6.0|4.9|||ANCOVA|||90 micrograms of Tropifexor vs placebo (Parts A+B)||4.9|-6.0|0.136
92154469|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Part C) (Full analysis set)|LS Mean change|-16.0|STANDARD_ERROR_OF_MEAN|3.97||0.145|TWO_SIDED|95.0|-23.9|-8.2|||ANCOVA|||140 micrograms of Tropifexor vs placebo (Part C)||-8.2|-23.9|0.145
92154470|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Part C) (Full analysis set)|LS Mean change|-15.3|STANDARD_ERROR_OF_MEAN|4.49||0.236|TWO_SIDED|95.0|-24.2|-6.4|||ANCOVA|||200 micrograms of Tropifexor vs placebo (Part C)||-6.4|-24.2|0.236
92154471|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-7.1|STANDARD_ERROR_OF_MEAN|7.0||0.788|TWO_SIDED|95.0|-18.7|4.4|||ANCOVA|||10 micrograms of Tropifexor vs placebo (Parts A+B+ C)||4.4|-18.7|0.788
92154472|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|0.4|STANDARD_ERROR_OF_MEAN|6.43||0.413|TWO_SIDED|95.0|-10.2|11.0|||ANCOVA|||30 micrograms of Tropifexor vs placebo (Parts A+B+ C)||11.0|-10.2|0.413
92154473|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-6.2|STANDARD_ERROR_OF_MEAN|4.38||0.833|TWO_SIDED|95.0|-13.4|1.0|||ANCOVA|||60 micrograms of Tropifexor vs placebo (Parts A+B+ C)||1.0|-13.4|0.833
92154474|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|2.0|STANDARD_ERROR_OF_MEAN|3.19||0.068|TWO_SIDED|95.0|-3.2|7.3|||ANCOVA|||90 micrograms of Tropifexor vs placebo (Parts A+B+ C)||7.3|-3.2|0.068
92339156|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.07||||||The reported p-value is representative of the changes in levels of NKT cells at dose level 4.|Wilcoxon test|||||||0.07
92398742|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.19||0.0021|TWO_SIDED|95.0|-0.98|-0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||-0.22|-0.98|0.0021
92154475|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-0.1|STANDARD_ERROR_OF_MEAN|3.98||0.269|TWO_SIDED|95.0|-6.6|6.5|||ANCOVA|||140 micrograms of Tropifexor vs placebo (Parts A+B+ C)||6.5|-6.6|0.269
92154476|NCT02855164|184195425|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-3.8|STANDARD_ERROR_OF_MEAN|4.05||0.777|TWO_SIDED|95.0|-10.5|2.9|||ANCOVA|||200 micrograms of Tropifexor vs placebo (Parts A+B+ C)||2.9|-10.5|0.777
92154477|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12|LS Mean change|-7.48|STANDARD_ERROR_OF_MEAN|6.174||0.853|TWO_SIDED|95.0|-19.66|4.7|||ANCOVA|||10 microgramsof Tropifexor - Change in percentage of fat in the liver Part A||4.70|-19.66|0.853
92154478|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12|LS Mean change|-14.07|STANDARD_ERROR_OF_MEAN|5.661||0.232|TWO_SIDED|95.0|-25.24|-2.91|||ANCOVA|||30 micrograms of Tropifexor - Change in percentage of fat in the liver Part A||-2.91|-25.24|0.232
92154479|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12|LS Mean change|-15.04|STANDARD_ERROR_OF_MEAN|3.754||0.077|TWO_SIDED|95.0|-22.45|-7.64|||ANCOVA|||60 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B||-7.64|-22.45|0.077
92339157|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0654||||||The reported p-value is representative of the changes in levels of all cDC cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0654
92339158|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.38||||||The reported p-value is representative of the changes in levels of cDC cells at dose level 1.|Wilcoxon test|||||||0.38
92216040|NCT00713817|184332220|SUPERIORITY_OR_OTHER_LEGACY||Chi-square|0.048||||0.826||95.0|||||Log Rank|||Time to treatment failure was analysed using Kaplan-Meier Survival analysis methodology. The difference in loss of response cumulative distribution function between treatments was assessed using the Hodges-Lehmann estimate.||||0.826
92339159|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.21||||||The reported p-value is representative of the changes in levels of cDC cells at dose level 3.|Wilcoxon test|||||||0.21
92339160|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.16||||||The reported p-value is representative of the changes in levels of cDC cells at dose level 4.|Wilcoxon test|||||||0.16
92154480|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline|LS Mean change|-12.34|STANDARD_ERROR_OF_MEAN|2.482||0.141|TWO_SIDED|95.0|-17.23|-7.44|||ANCOVA|||90 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B||-7.44|-17.23|0.141
92154481|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12|LS Mean change|-31.25|STANDARD_ERROR_OF_MEAN|5.228|<|0.001|TWO_SIDED|95.0|-41.58|-20.92|||ANCOVA|||140 micrograms of Tropifexor - Change in percentage of fat in the liver Part C||-20.92|-41.58|<0.001
92154482|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-39.54|STANDARD_ERROR_OF_MEAN|4.968|<|0.001|TWO_SIDED|95.0|-49.37|-29.71|||ANCOVA|||200 micrograms of Tropifexor - Change in percentage of fat in the liver Part C||-29.71|-49.37|<0.001
92154483|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-8.09|STANDARD_ERROR_OF_MEAN|6.65||0.872|TWO_SIDED|95.0|-19.06|2.88|||ANCOVA|||10 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B+C||2.88|-19.06|0.872
92154484|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-14.14|STANDARD_ERROR_OF_MEAN|6.198||0.465|TWO_SIDED|95.0|-24.36|-3.91|||ANCOVA|||30 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B+C||-3.91|-24.36|0.465
92154485|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-15.02|STANDARD_ERROR_OF_MEAN|4.078||0.228|TWO_SIDED|95.0|-21.75|-8.29|||ANCOVA|||60 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B+C||-8.29|-21.75|0.228
92154486|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-12.56|STANDARD_ERROR_OF_MEAN|2.717||0.37|TWO_SIDED|95.0|-17.04|-8.08|||ANCOVA|||90 micrograms - Change in percentage of fat in the liver Parts A+B+C||-8.08|-17.04|0.370
92154487|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-18.71|STANDARD_ERROR_OF_MEAN|3.517||0.029|TWO_SIDED|95.0|-24.51|-12.91|||ANCOVA|||140 micrograms - Change in percentage of fat in the liver Parts A+B+C||-12.91|-24.51|0.029
92154488|NCT02855164|184195426|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-34.38|STANDARD_ERROR_OF_MEAN|3.482|<|0.001|TWO_SIDED|95.0|-40.13|-28.64|||ANCOVA|||200 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B+C||-28.64|-40.13|<0.001
92154489|NCT02855164|184195427|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts A + B) (Full analysis set)|LS Mean change|-1.79|STANDARD_ERROR_OF_MEAN|0.608||0.01|TWO_SIDED|95.0|-2.99|0.59|||Mixed Models Analysis|||10 micrograms of Tropifexor (Part A) vs Placebo||0.59|-2.99|0.010
92154490|NCT02855164|184195427|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts A + B) (Full analysis set)|LS Mean change|-0.78|STANDARD_ERROR_OF_MEAN|0.567||0.237|TWO_SIDED|95.0|-1.9|0.34|||Mixed Models Analysis|||30 micrograms of Tropifexor (Part A) vs Placebo||0.34|-1.90|0.237
92216041|NCT00713817|184332221|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-7.14||||0.54|TWO_SIDED|95.0|-39.7|9.62|||Hodges-Lehmann|||The difference in loss of response cumulative distribution functions between treatments was assessed using the Wilcoxon test with an estimate of the median difference between groups in response level (percent change from baseline) provided by the Hodges-Lehmann estimator.||9.62|-39.7|0.54
92398743|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0408|TWO_SIDED|95.0|-0.79|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||-0.02|-0.79|0.0408
92154491|NCT02855164|184195427|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts A + B) (Full analysis set)|LS Mean change|-1.05|STANDARD_ERROR_OF_MEAN|0.377||0.037|TWO_SIDED|95.0|-1.8|0.31|||Mixed Models Analysis|||60 micrograms of Tropifexor (Parts A + B) vs Placebo||0.31|-1.80|0.037
92154492|NCT02855164|184195427|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts A + B) (Full analysis set)|LS Mean change|-1.15|STANDARD_ERROR_OF_MEAN|0.253||0.007|TWO_SIDED|95.0|-1.65|0.65|||Mixed Models Analysis|||90 micrograms of Tropifexor (Parts A + B) vs Placebo||0.65|-1.65|0.007
92154493|NCT02855164|184195427|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts C) (Full analysis set)|LS Mean change|-5.1|STANDARD_ERROR_OF_MEAN|0.988||0.053|TWO_SIDED|95.0|-7.05|-3.14|||Mixed Models Analysis|||140 micrograms of Tropifexor (Part C) vs Placebo||-3.14|-7.05|0.053
92154494|NCT02855164|184195427|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts C) (Full analysis set)|LS Mean change|-5.89|STANDARD_ERROR_OF_MEAN|1.002||0.013|TWO_SIDED|95.0|-7.87|-3.91|||Mixed Models Analysis|||200 micrograms of Tropifexor (Part C) vs Placebo||-3.91|-7.87|0.013
92339161|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0457||||||The reported p-value is representative of the changes in levels of all pDC cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0457
92339162|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.63||||||The reported p-value is representative of the changes in levels of pDC cells at dose level 1.|Wilcoxon test|||||||0.63
92216042|NCT00713817|184332222|SUPERIORITY_OR_OTHER_LEGACY||Estimate mean treatment difference|-0.08||||0.902|TWO_SIDED|95.0|-1.45|1.29|||ANCOVA|||The two groups were compared using Analysis of Covariance (ANCOVA) with baseline severity as a covariate and study centre group and treatment group as factors. Due to the low power of the test for interaction the test was performed at the 10% level of significance and a 95% confidence interval (CI) was presented for the difference between treatments.||1.29|-1.45|0.902
92398744|NCT03192176|184689417|SUPERIORITY||LSMean differencce|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.0911|TWO_SIDED|95.0|-0.73|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||0.05|-0.73|0.0911
92398745|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.7891|TWO_SIDED|95.0|-0.44|0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||0.33|-0.44|0.7891
92216043|NCT00713817|184332223|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.557||||0.603|TWO_SIDED|95.0|0.293|8.261|||Regression, Logistic|||The two treatment groups were compared using ordinal logistic regression and the proportional odds model. The model incorporated the parent Randomised Controlled Trials (RCTs). The interaction between treatment group and parent RCTs was investigated, but was dropped from the model if found to have little influence. The test was performed at the 10% significance level. The final model was then treatment group and parent RCTs, i.e. the treatment effect was adjusted for parent RCTs baseline.||8.261|0.293|0.603
92216044|NCT01641237|184332263|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Adjusted Mean and SE were calculated from ANOVA model with treatment and period as factors, and subject as a random factor.||Test for linear dose-response relationship was performed for %SMHR as a function of fluoride concentration.||||<0.0001
92216045|NCT01641237|184332263|SUPERIORITY_OR_OTHER|||||||0.3748||95.0|||||ANOVA|Adjusted Mean and SE were calculated from ANOVA model with treatment and period as factors, and subject as a random factor.||Test for quadratic dose-response relationship was performed for %SMHR as a function of fluoride concentration.||||0.3748
92274787|NCT00986154|184452293|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.004|TWO_SIDED|95.0|0.705|0.936|||Regression, Cox||Time to 1st event analyzed by Cox proportional hazards with terms treatment group, randomization stratification factors: Presenting Diagnosis (PE with/without DVT, DVT only); Baseline risk factors (temp factors; all others); Need for reduced dose|"Safety Analysis set includes all randomized subjects who received at least one dose of study drug.~Null hypothesis (LMW) heparin/edoxaban will be comparable to (LMW) heparin/warfarin in preventing recurrence of major or clinically relevant non-major bleeding."||.936|.705|.0040
92398746|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.19||0.9973|TWO_SIDED|95.0|-0.38|0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||0.38|-0.38|0.9973
92154495|NCT02855164|184195428|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Full analysis set)|LS Mean change|-0.64|STANDARD_ERROR_OF_MEAN|0.208||0.006|TWO_SIDED|95.0|-1.05|0.23|||Mixed Models Analysis|||10 micrograms of Tropifexor (Part A) vs Placebo||0.23|-1.05|0.006
92154496|NCT02855164|184195428|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Full analysis set)|LS Mean change|-0.29|STANDARD_ERROR_OF_MEAN|0.194||0.177|TWO_SIDED|95.0|-0.67|0.09|||Mixed Models Analysis|||30 micrograms of Tropifexor (Part A) vs Placebo||0.09|-0.67|0.177
92154497|NCT02855164|184195428|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Parts C) (Full analysis set)|LS Mean change|-0.35|STANDARD_ERROR_OF_MEAN|0.129||0.032|TWO_SIDED|95.0|-0.61|0.1|||Mixed Models Analysis|||60 micrograms of Tropifexor (Parts A + B) vs Placebo||0.10|-0.61|0.032
92154498|NCT02855164|184195428|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Full analysis set)|LS Mean change|-0.42|STANDARD_ERROR_OF_MEAN|0.087||0.003|TWO_SIDED|95.0|-0.59|0.25|||Mixed Models Analysis|||90 micrograms of Tropifexor (Parts A + B) vs Placebo||0.25|-0.59|0.003
92274788|NCT01205529|184452298|SUPERIORITY||Odds Ratio (OR)|0.0||||1|TWO_SIDED||||||Regression, Logistic||0 participants with rare SCN5A non-synonymous variants met the primary outcome for ST-segment elevation.||Given the very small number of outcomes (N=4) and the small number of participants with the primary determinant (N=2), a Fisher's Exact Test is the appropriate test and it yields a P-value=1.000.|||1.0
92274789|NCT03840135|184452299|SUPERIORITY||Mean Difference (Final Values)|-0.22|||<|0.05|TWO_SIDED|95.0|-0.6|0.16|||t-test, 2 sided|||The value of δ = -0.52 days was considered as the boundary of superiority. The end of the fever period is considered to have an axillary body temperature of ≤36.9 ° C in two consecutive measurements (morning-evening / evening-morning).||0.16|-0.6|<0.05
92154499|NCT02855164|184195428|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Full analysis set)|LS Mean change|-1.88|STANDARD_ERROR_OF_MEAN|0.322||0.015|TWO_SIDED|95.0|-2.51|-1.24|||Mixed Models Analysis|||140 micrograms of Tropifexor (Part C) vs Placebo||-1.24|-2.51|0.015
92154500|NCT02855164|184195428|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Parts C) (Full analysis set)|LS Mean change|-2.11|STANDARD_ERROR_OF_MEAN|0.327||0.004|TWO_SIDED|95.0|-2.75|-1.46|||Mixed Models Analysis|||200 micrograms of Tropifexor (Part C) vs Placebo||-1.46|-2.75|0.004
92154501|NCT02855164|184195429|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Parts A+B) (Full analysis set)|LS Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.009||0.53|TWO_SIDED|95.0|-0.03|0.01|||Mixed Models Analysis|||10 micrograms of Tropifexor (Part A) vs Placebo||0.01|-0.03|0.530
92216046|NCT01641237|184332264|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.17||||0.1898|TWO_SIDED|95.0|-1.09|5.43||No adjustment was required for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment and the subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered treatments in comparison to be equal.||5.43|-1.09|0.1898
92339163|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.55||||||The reported p-value is representative of the changes in levels of pDC cells at dose level 3.|Wilcoxon test|||||||0.55
92154502|NCT02855164|184195429|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Parts A+B) (Full analysis set)|LS Mean change|0.0|STANDARD_ERROR_OF_MEAN|0.008||0.857|TWO_SIDED|95.0|-0.02|0.01|||Mixed Models Analysis|||30 micrograms of Tropifexor (Part A) vs Placebo||0.01|-0.02|0.857
92154503|NCT02855164|184195429|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Parts A+B) (Full analysis set)|LS Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.005||0.262|TWO_SIDED|95.0|-0.02|0.0|||Mixed Models Analysis|||60 micrograms of Tropifexor (Part A) vs Placebo||0.00|-0.02|0.262
92154504|NCT02855164|184195429|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Parts A+B) (Full analysis set)|LS Mean change|0.0|STANDARD_ERROR_OF_MEAN|0.004||0.323|TWO_SIDED|95.0|0.0|0.01|||Mixed Models Analysis|||90 micrograms of Tropifexor (Parts A + B) vs Placebo||0.01|0.00|0.323
92154505|NCT02855164|184195429|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Part C) (Full analysis set)|LS Mean change|0.01|STANDARD_ERROR_OF_MEAN|0.008||0.1|TWO_SIDED|95.0|-0.02|0.01|||Mixed Models Analysis|||140 micrograms of Tropifexor (Part C) vs Placebo||0.01|-0.02|0.100
92154506|NCT02855164|184195429|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Part C) (Full analysis set)|LS Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.007||0.693|TWO_SIDED|95.0|-0.03|0.0|||Mixed Models Analysis|||200 micrograms of Tropifexor (Part C) vs Placebo||0.00|-0.03|0.693
92154507|NCT02855164|184195441|SUPERIORITY||Risk Difference (RD)|0.004||||1|TWO_SIDED|95.0|-0.214|0.223|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (total score)||0.223|-0.214|1.0000
92154508|NCT02855164|184195441|SUPERIORITY||Risk Difference (RD)|0.029||||0.8074|TWO_SIDED|95.0|-0.196|0.251|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (total score)||0.251|-0.196|0.8074
92154509|NCT02855164|184195442|SUPERIORITY||Risk Difference (RD)|0.028||||0.807|TWO_SIDED|95.0|-0.191|0.246|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (FDA)||0.246|-0.191|0.8070
92154510|NCT02855164|184195442|SUPERIORITY||Risk Difference (RD)|0.052||||0.6233|TWO_SIDED|95.0|-0.173|0.273|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (FDA)||0.273|-0.173|0.6233
92154511|NCT02855164|184195443|SUPERIORITY||Risk Difference (RD)|0.004||||1|TWO_SIDED|95.0|-0.214|0.233|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (EMA)||0.233|-0.214|1.0000
92274790|NCT03840135|184452300|SUPERIORITY||||||<|0.05|||||||χ2 Pearson criterion|||||||<0.05
92339164|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of pDC cells at dose level 4.|Wilcoxon test|||||||0.13
92339165|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.7114||||||The reported p-value is representative of the changes in levels of all MDSC cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.7114
92154512|NCT02855164|184195443|SUPERIORITY||Risk Difference (RD)|0.029||||0.8074|TWO_SIDED|95.0|-0.196|0.251|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (EMA)||0.251|-0.196|0.8074
92154513|NCT02855164|184195444|SUPERIORITY||Risk Difference (RD)|0.034||||0.7028|TWO_SIDED|95.0|-0.184|0.252|||Mixed Models Analysis|||Resolution of steatohepatitis (diagnostic category) without worsening of fibrosis (NASH CRN staging)||0.252|-0.184|0.7028
92154514|NCT02855164|184195444|SUPERIORITY||Risk Difference (RD)|0.129||||0.1713|TWO_SIDED|95.0|-0.098|0.345|||Mixed Models Analysis|||Resolution of steatohepatitis (diagnostic category) without worsening of fibrosis (NASH CRN staging)||0.345|-0.098|0.1713
92154515|NCT02855164|184195445|SUPERIORITY||Risk Difference (RD)|0.057||||0.2033|TWO_SIDED|95.0|-0.168|0.278|||Mixed Models Analysis|||Resolution of steatohepatitis (FDA, EMA) without worsening of fibrosis (NASH CRN staging)||0.278|-0.168|0.2033
92154516|NCT00383240|184195446|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154517|NCT00383240|184195446|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154518|NCT00383240|184195446|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154519|NCT00383240|184195446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.491||95.0||||P-Value for Endpoint|ANCOVA|||||||0.491
92154520|NCT00383240|184195446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.055||95.0||||P-Value for Endpoint|ANCOVA|||||||0.055
92154521|NCT00383240|184195446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||P-Value for Endpoint|ANCOVA|||||||0.008
92154522|NCT00383240|184195447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.174||95.0||||P-Value for Endpoint|ANCOVA|||||||0.174
92154523|NCT00383240|184195447|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154524|NCT00383240|184195447|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154525|NCT00383240|184195447|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154526|NCT00383240|184195447|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154527|NCT00383240|184195447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.521||95.0||||P-Value for Endpoint|ANCOVA|||||||0.521
92154528|NCT00383240|184195449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026||95.0||||P-Value for Endpoint|ANCOVA|||||||0.026
92274791|NCT03840135|184452301|SUPERIORITY||||||<|0.05|||||||χ2 Pearson criterion|||||||<0.05
92274792|NCT03840135|184452302|SUPERIORITY||||||<|0.05|||||||χ2 Pearson criterion|||||||<0.05
92274793|NCT03840135|184452303|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92274794|NCT03840135|184452304|SUPERIORITY||||||<|0.05|||||||χ2 Pearson criterion|||||||<0.05
92339166|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of MDSC cells at dose level 1.|Wilcoxon test|||||||>0.9999
92339167|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.38||||||The reported p-value is representative of the changes in levels of MDSC cells at dose level 3.|Wilcoxon test|||||||0.38
92339168|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.91||||||The reported p-value is representative of the changes in levels of MDSC cells at dose level 4.|Wilcoxon test|||||||0.91
92339169|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.2666||||||The reported p-value is representative of the changes in levels of all Treg cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.2666
92339170|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.88||||||The reported p-value is representative of the changes in levels of Treg cells at dose level 1.|Wilcoxon test|||||||0.88
92339171|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.45||||||The reported p-value is representative of the changes in levels of Treg cells at dose level 1.|Wilcoxon test|||||||0.45
92339172|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.36||||||The reported p-value is representative of the changes in levels of Treg cells at dose level 4.|Wilcoxon test|||||||0.36
92339173|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0076||||||The reported p-value is representative of the changes in levels of all CD4 EM cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0076
92339174|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.38||||||The reported p-value is representative of the changes in levels of CD4 EM cells at dose level 1.|Wilcoxon test|||||||0.38
92339175|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.22||||||The reported p-value is representative of the changes in levels of CD4 EM cells at dose level 3.|Wilcoxon test|||||||0.22
92339176|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.1||||||The reported p-value is representative of the changes in levels of CD4 EM cells at dose level 4.|Wilcoxon test|||||||0.10
92154529|NCT00383240|184195449|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154530|NCT00383240|184195449|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154531|NCT00383240|184195449|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154532|NCT00383240|184195449|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92339177|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.7144||||||The reported p-value is representative of the changes in levels of all CD4 CM cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.7144
92339178|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of CD4 CM cells at dose level 1.|Wilcoxon test|||||||0.13
92154533|NCT00383240|184195449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.738||95.0||||P-Value for Endpoint|ANCOVA|||||||0.738
92154534|NCT00383240|184195450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.063||95.0||||P-Value for endpoint|ANCOVA|||||||0.063
92154535|NCT00383240|184195450|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154536|NCT00383240|184195450|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154537|NCT00383240|184195450|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
92154538|NCT00383240|184195450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||P-Value for Endpoint|ANCOVA|||||||0.003
92154539|NCT00383240|184195450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.601||95.0||||P-Value for Endpoint|ANCOVA|||||||0.601
92274795|NCT03840135|184452305|SUPERIORITY||||||<|0.05|||||||χ2 Pearson criterion|||||||<0.05
92274796|NCT03840135|184452308|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92339179|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.06||||||The reported p-value is representative of the changes in levels of CD4 CM cells at dose level 3.|Wilcoxon test|||||||0.06
92339180|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of CD4 CM cells at dose level 4.|Wilcoxon test|||||||0.13
92339181|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3741||||||The reported p-value is representative of the changes in levels of all CD4 EMRA cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.3741
92339182|NCT01519817|184580083|NON_INFERIORITY|The reported p-value is representative of the changes in levels of CD4 EMRA cells at dose level 1.||||||0.63|||||||Wilcoxon test|||||||0.63
92339183|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of CD4 EMRA cells at dose level 3.|Wilcoxon test|||||||0.13
92339184|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of CD4 EMRA cells at dose level 4.|Wilcoxon test|||||||>0.9999
92216047|NCT01641237|184332264|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.6||||0.0009|TWO_SIDED|95.0|2.35|8.86||No adjustment was required for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment and the subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no dose-response relationship between %SMHR and fluoride concentration in the dentifrice.||8.86|2.35|0.0009
92216048|NCT01641237|184332264|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.43||||0.0389|TWO_SIDED|95.0|0.18|6.68||No adjustment was required for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment and the subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered treatments in comparison to be equal.||6.68|0.18|0.0389
92216049|NCT01641237|184332264|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.86|||<|0.0001|TWO_SIDED|95.0|6.58|13.13||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered treatments in comparison to be equal.||13.13|6.58|<0.0001
92216050|NCT01641237|184332264|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.68|||<|0.0001|TWO_SIDED|95.0|4.41|10.96||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered treatments in comparison to be equal.||10.96|4.41|<0.0001
92216051|NCT01641237|184332264|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.25||||0.0112|TWO_SIDED|95.0|0.98|7.53||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered treatments in comparison to be equal.||7.53|0.98|0.0112
92398747|NCT03192176|184689417|SUPERIORITY||-0.1|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.6377|TWO_SIDED|95.0|-0.47|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||0.29|-0.47|0.6377
92216052|NCT01641237|184332265|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Adjusted Mean and SE were calculated from ANOVA model with treatment and period as factors, and subject as a random factor.||Test for linear dose-response relationship was performed for %RER as a function of fluoride concentration.||||<0.0001
92216053|NCT01641237|184332265|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANOVA|||Test for quadratic dose-response relationship was performed for %RER as a function of fluoride concentration.||||0.0002
92274797|NCT03840135|184452309|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92274798|NCT04133519|184452310|SUPERIORITY||Odds Ratio (OR)|1.16||||0.5352|TWO_SIDED|95.0|0.73|1.84||P value from Cochran-Mantel-Haenszel testing of H0: OR=1; H1: OR≠1 adjusting for IBS subtype and gender|Cochran-Mantel-Haenszel|||P value from Cochran-Mantel-Haenszel testing of H0: OR=1; H1: OR≠1 adjusting for IBS subtype and gender||1.84|0.73|0.5352
92274799|NCT04133519|184452310|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0232|TWO_SIDED|95.0|1.08|2.87|||Cochran-Mantel-Haenszel||Odds ratio reflects the odds of the number of GDH responders being greater than the number of MR responders for abdominal pain intensity.|The final 4 weeks of the on-treatment period (weeks 9-12) was a pre-specified period for analysis of the primary endpoint measure of abdominal pain due to IBS. An abdominal pain intensity responder was defined as a participant whose daily abdominal pain intensity averaged over the last 4 weeks of phase s (weeks 9 through 12) was at least 30% reduced compared with the daily abdominal pain intensity averaged over the 4 weeks of phase 1.||2.87|1.08|0.0232
92274800|NCT04133519|184452310|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0254|TWO_SIDED|95.0|1.07|2.89||P-value from Cochran-Mantel-Haenszel Test testing H0: OR=1; H1: OR\<\>1 adjusting for IBS subtype and gender|Cochran-Mantel-Haenszel||Odds ratio reflects the odds of GDH being superior to MR.|"Abdominal pain scores were averaged each week on treatment (1-12) and compared with the average baseline abdominal pain score. Participants that recorded a \> 30% decrease in abdominal pain in at least half the weeks on treatment were considered responders.~This analysis was specified in FDA Guidance for Industry, Irritable Bowel Syndrome - Clinical Evaluation of Drugs for Treatment, May 2012. Both the analysis period and the responder threshold (30%) are specified by the FDA Guidance."|Among all subjects, 64.0% reported Adequate Relief and 67.7% reported overall satisfaction with Regulora.|2.89|1.07|0.0254
92274801|NCT04133519|184452311|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.8115|TWO_SIDED|95.0|-0.434|0.554|||ANOVA|||The least square (LS) mean difference between the GDH and MR groups using an analysis of variance (ANOVA) model||0.554|-0.434|0.8115
92274802|NCT04133519|184452312|SUPERIORITY||Mean Difference (Final Values)|0.044||||0.7564|TWO_SIDED|95.0|-0.236|0.325|||ANOVA|||Average abdominal pain frequency at Week 13-16 will be statistically compared between GDH and comparator using an ANOVA model adjusted for gender and IBS subtype. The daily pain frequency measurement was derived from the daily pain intensity measurement. Days where severity was \>0 were considered a day with pain and were recorded as positive. Days with a score of 0 were days without pain. Mean represents the mean number of days in each time period with abdominal pain.||0.325|-0.236|0.7564
92274803|NCT04133519|184452313|SUPERIORITY||Odds Ratio (OR)|1.17||||0.4753|TWO_SIDED|95.0|0.76|1.81||P-value from Cochran-Mantel-Haenszel Test testing H0: OR=1; H1: OR\<\>1 adjusting for IBS subtype and gender|Cochran-Mantel-Haenszel||GDH:MR Relative Risk|A Stool Consistency Responder is defined as a \>=30% improvement in the proportion of Bristol Stool Form Scale (BSFS) scores that fall within Group 2 (normal stools)||1.81|0.76|0.4753
92274804|NCT04133519|184452314|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.6793|TWO_SIDED|95.0|-0.301|0.46|||Mixed Models Analysis|||"The analysis is based on the mixed model repeated measures (MMRM) analysis of variance model for IBS-C participants:~parameter = treatment + timepoint + treatment\*timepoint + gender + subject error + random Means are the mean daily number of bowel movements for a 24-hour period."||0.460|-0.301|0.6793
92216054|NCT01641237|184332265|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|32.38|||<|0.0001|TWO_SIDED|95.0|25.18|39.59||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||39.59|25.18|<0.0001
92216055|NCT01641237|184332265|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|31.46|||<|0.0001|TWO_SIDED|95.0|24.25|38.67||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||38.67|24.25|<0.0001
92216056|NCT01641237|184332265|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|20.81|||<|0.0001|TWO_SIDED|95.0|13.6|28.02||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||28.02|13.60|<0.0001
92216057|NCT01641237|184332265|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.92||||0.8|TWO_SIDED|95.0|-6.25|8.1||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||8.10|-6.25|0.8000
92216058|NCT01641237|184332265|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.57||||0.0017|TWO_SIDED|95.0|4.4|18.74||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||18.74|4.40|0.0017
92216059|NCT01641237|184332265|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.65||||0.0038|TWO_SIDED|95.0|3.48|17.81||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||17.81|3.48|0.0038
92216060|NCT01641237|184332266|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Adjusted Mean and SE were calculated from ANOVA model with treatment and period as factors, and subject as a random factor.||Test for linear dose-response relationship was performed for EFU as a function of fluoride concentration.||||<0.0001
92216061|NCT01641237|184332266|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||ANOVA|Adjusted Mean and SE were calculated from ANOVA model with treatment and period as factors, and subject as a random factor.||Test for quadratic dose-response relationship was performed for EFU as a function of fluoride concentration.||||0.0008
92216062|NCT01641237|184332266|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.66|||<|0.0001|TWO_SIDED|95.0|1.42|1.9||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||1.90|1.42|<0.0001
92216063|NCT01641237|184332266|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.6|||<|0.0001|TWO_SIDED|95.0|1.36|1.85||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||1.85|1.36|<0.0001
92274805|NCT04133519|184452314|SUPERIORITY||Mean Difference (Final Values)|0.173||||0.9468|TWO_SIDED|95.0|-4.904|5.249|||Mixed Models Analysis|||"The analysis is based on the mixed model repeated measures (MMRM) analysis of variance model for IBS-D participants:~parameter = treatment + timepoint + treatment\*timepoint + gender + subject error + random Means are the mean daily number of bowel movements for a 24-hour period."||5.249|-4.904|0.9468
92274806|NCT04133519|184452315|SUPERIORITY||Median Difference (Final Values)|-1.602||||0.5015|TWO_SIDED|95.0|-6.282|3.077|||Mixed Models Analysis|||"The analysis is based on the mixed model repeated measures (MMRM) analysis of variance model:~parameter = treatment + timepoint + treatment\*timepoint + gender + subject error + random The unstructured covariance matrix was used to model the within-participant correlation. The model-based least square (LS) means and LS mean differences (GDH minus comparator) and associated 95% CIs for each week and overall were estimated."||3.077|-6.282|0.5015
92274807|NCT04133519|184452316|SUPERIORITY||Mean Difference (Final Values)|4.586||||0.2117|TWO_SIDED|95.0|-2.619|11.79|||Mixed Models Analysis|||"Percent Overall Work Impairment Due to IBS defined as the percent time missed by not showing up for work, plus the percent time missed while working, and calculated as: Q2/(Q2+Q4)+\[(1-(Q2/(Q2+Q4))x(Q5/10)\]."||11.790|-2.619|0.2117
92274808|NCT04133519|184452317|SUPERIORITY||Mean Difference (Net)|2.372||||0.3676|TWO_SIDED|95.0|-2.793|7.537|||Mixed Models Analysis|||The analysis is based on the mixed model repeated measures (MMRM) analysis of variance model: parameter = treatment + timepoint + treatment\*timepoint + gender + subject error + random||7.537|-2.793|0.3676
92274809|NCT00323609|184452318|SUPERIORITY_OR_OTHER|||||||0.214||95.0|||||Fisher Exact|||||||0.214
92274810|NCT00323609|184452319|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 7 days.||||0.430
92274811|NCT00323609|184452319|SUPERIORITY_OR_OTHER|||||||0.655||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 30 days.||||0.655
92216064|NCT01641237|184332266|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.62|||<|0.0001|TWO_SIDED|95.0|0.38|0.86||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||0.86|0.38|<0.0001
92216065|NCT01641237|184332266|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.05||||0.668|TWO_SIDED|95.0|-0.19|0.29||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||0.29|-0.19|0.6680
92339185|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3386||||||The reported p-value is representative of the changes in levels of all CD4 naive cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.3386
92339186|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.88||||||The reported p-value is representative of the changes in levels of CD4 naive cells at dose level 1.|Wilcoxon test|||||||0.88
92216066|NCT01641237|184332266|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.04|||<|0.0001|TWO_SIDED|95.0|0.8|1.28||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||1.28|0.80|<0.0001
92216067|NCT01641237|184332266|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.99|||<|0.0001|TWO_SIDED|95.0|0.75|1.23||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||1.23|0.75|<0.0001
92216068|NCT04439071|184332267|OTHER|||||||0.949|||||||Log Rank|||Time to respiratory improvement was compared between treatment groups using stratified log-rank test.||||0.949
92216069|NCT04439071|184332286|OTHER|||||||0.033|||||||Log Rank|||Time to respiratory improvement was compared between treatment groups using stratified log-rank test.||||0.033
92216070|NCT01301456|184332319|SUPERIORITY_OR_OTHER||Least square (LS) mean|-21.16|STANDARD_ERROR_OF_MEAN|16.766||0.219|TWO_SIDED|80.0|-43.26|0.93|||Mixed meal tolerance test|||Day 30||0.93|-43.26|0.219
92216071|NCT01301456|184332319|SUPERIORITY_OR_OTHER||LS mean|-34.18|STANDARD_ERROR_OF_MEAN|15.189||0.034|TWO_SIDED|80.0|-54.2|-14.16|||Mixed meal tolerance test|||Day 30||-14.16|-54.20|0.034
92216072|NCT01301456|184332319|SUPERIORITY_OR_OTHER||LS mean|-33.67|STANDARD_ERROR_OF_MEAN|15.806||0.044|TWO_SIDED|80.0|-54.5|-12.84|||Mixed meal tolerance test|||Day 30||-12.84|-54.50|0.044
92216073|NCT01301456|184332319|SUPERIORITY_OR_OTHER||LS mean|-2.93|STANDARD_ERROR_OF_MEAN|16.111||0.857|TWO_SIDED|80.0|-24.16|18.31|||Mixed meal tolerance test|||Day 30||18.31|-24.16|0.857
92398748|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.61||0.0862|TWO_SIDED|95.0|-5.95|0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||0.40|-5.95|0.0862
92398749|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|1.65||0.1305|TWO_SIDED|95.0|-5.74|0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||0.74|-5.74|0.1305
92339187|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0215||||||The reported p-value is representative of the changes in levels of CD4 naive cells at dose level 3.|Wilcoxon test|||||||0.0215
92339188|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.65||||||The reported p-value is representative of the changes in levels of CD4 naive cells at dose level 4.|Wilcoxon test|||||||0.65
92216074|NCT01301456|184332320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.251||0.419|TWO_SIDED|80.0|-0.54|0.12|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||0.12|-0.54|0.419
92216075|NCT01301456|184332320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.224||0.077|TWO_SIDED|80.0|-0.71|-0.12|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-0.12|-0.71|0.077
92216076|NCT01301456|184332320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.23||0.147|TWO_SIDED|80.0|-0.65|-0.04|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-0.04|-0.65|0.147
92216077|NCT01301456|184332320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.244||0.086|TWO_SIDED|80.0|-0.76|-0.11|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-0.11|-0.76|0.086
92216078|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|4.11|STANDARD_ERROR_OF_MEAN|9.326||0.663|TWO_SIDED|80.0|-8.16|16.37|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||16.37|-8.16|0.663
92274812|NCT00323609|184452319|SUPERIORITY_OR_OTHER|||||||0.756||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.756
92154540|NCT02049710|184195452|OTHER||Mean Difference (Final Values)|5.06|||||TWO_SIDED|95.0|3.0|15.0||||||Summation scores are reported across 3 items measured on a 5-point scale from 1(not at all sure)to5(very sure), which loaded together on a principal components analysis of the baseline data.The summation score thus represents a theoretical range from 3 to 15.The 3 items were as follows:Indicate How Sure You are that You Would be Able to Perform Each of the Following:a)Get the money needed to buy condoms b)Walk into a store\&buy condoms c)Find a place to get condoms for free(Cronbach alpha-0.72)||15|3|
92154541|NCT02802020|184195529|SUPERIORITY|||||||0.999|||||||Fisher Exact|||"We hypothesized that pain reduction (as defined in Study endpoints above) would be achieved in a performance goal of at least 53% of patients receiving the study SEMS. Assuming an observed pain reduction rate of 75% and using an exact test with a one-sided alpha of 0.025, 43 patients were required to obtain power of at least 80%."||||0.999
92154542|NCT02802020|184195530|SUPERIORITY|we hypothesized that the proportion of patients reporting one or more related SAE(s) would be below a performance goal of 32%. Assuming an observed SAE rate of 15% and using an exact test with one-sided alpha of 0.025, 57 patients were required to obtain power of at least 80%.||||||0.513|||||||Fisher Exact|||||||0.513
92154543|NCT00883103|184195581|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92154544|NCT03954158|184195619|SUPERIORITY||Least squares mean of difference|-1.6|STANDARD_ERROR_OF_MEAN|0.53||0.0071|TWO_SIDED|95.0|-2.7|-0.5|||Mixed Models Analysis|||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures (MMRM) included the fixed effect of visit, and the covariance structure UN was used.||-0.5|-2.7|0.0071
92154545|NCT03954158|184195619|SUPERIORITY||Least squares mean of difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6||0.0029|TWO_SIDED|95.0|-3.3|-0.8|||Mixed Models Analysis|||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of visit, and the covariance structure UN was used.||-0.8|-3.3|0.0029
92154546|NCT03954158|184195619|SUPERIORITY||Least squares mean of difference|-1.5|STANDARD_ERROR_OF_MEAN|0.6||0.025|TWO_SIDED|95.0|-2.7|-0.2|||Mixed Models Analysis|||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of visit, and the covariance structure UN was used.||-0.2|-2.7|0.0250
92154547|NCT03954158|184195619|SUPERIORITY||Least squares mean of difference|-2.1|STANDARD_ERROR_OF_MEAN|0.56||0.0014|TWO_SIDED|95.0|-3.3|-0.9|||Mixed Models Analysis|||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of visit, and the covariance structure UN was used.||-0.9|-3.3|0.0014
92154548|NCT03954158|184195620|OTHER||Difference of least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.4295|||TWO_SIDED|95.0|-2.0|0.9||||||Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.9|-2.0|
92154549|NCT03954158|184195620|OTHER||Difference of least squares mean|-0.8|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-2.1|0.4||||||Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.4|-2.1|
92154550|NCT03954158|184195621|OTHER||Least squares mean of difference|-1.9|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-3.1|-0.7||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.7|-3.1|
92154551|NCT03954158|184195621|OTHER||Least squares mean of difference|-1.4|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-2.7|-0.2||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.2|-2.7|
92154552|NCT03954158|184195621|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-2.2|-0.2||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.2|-2.2|
92154553|NCT03954158|184195621|OTHER||Least squares mean of difference|-1.7|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|-2.8|-0.5||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.5|-2.8|
92154554|NCT03954158|184195621|OTHER||Difference of least square mean|-0.1|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-1.5|1.3||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||1.3|-1.5|
92216079|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.89|STANDARD_ERROR_OF_MEAN|8.472||0.825|TWO_SIDED|80.0|-13.03|9.25|||mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||9.25|-13.03|0.825
92154555|NCT03954158|184195621|OTHER||Difference of least square mean|-0.1|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-1.2|1.0||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||1.0|-1.2|
92154556|NCT03954158|184195622|OTHER||Least squares mean of difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-0.9|-0.1||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.1|-0.9|
92154557|NCT03954158|184195622|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-0.9|0.0||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||0.0|-0.9|
92154558|NCT03954158|184195622|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|-0.8|0.1||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||0.1|-0.8|
92154559|NCT03954158|184195622|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.8|0.0||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||0.0|-0.8|
92216080|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|1.36|STANDARD_ERROR_OF_MEAN|8.791||0.878|TWO_SIDED|80.0|-10.2|12.92|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||12.92|-10.20|0.878
92339189|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5076||||||The reported p-value is representative of the changes in levels of all CD8 EM cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.5076
92339190|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.63||||||The reported p-value is representative of the changes in levels of CD8 EM cells at dose level 1.|Wilcoxon test|||||||0.63
92339191|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.68||||||The reported p-value is representative of the changes in levels of CD8 EM cells at dose level 3.|Wilcoxon test|||||||0.68
92339192|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.73||||||The reported p-value is representative of the changes in levels of CD8 EM cells at dose level 4.|Wilcoxon test|||||||0.73
92339193|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.6577||||||The reported p-value is representative of the changes in levels of all CD8 CM cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.6577
92398750|NCT03192176|184689417|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|1.68||0.0707|TWO_SIDED|95.0|-6.34|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||0.26|-6.34|0.0707
92154560|NCT03954158|184195622|OTHER||Difference of least square mean|0.1|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-0.4|0.6||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.6|-0.4|
92154561|NCT03954158|184195622|OTHER||Difference of least square mean|0.2|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.3|0.7||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.7|-0.3|
92339194|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.88||||||The reported p-value is representative of the changes in levels of CD8 CM cells at dose level 1.|Wilcoxon test|||||||0.88
92339195|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.74||||||The reported p-value is representative of the changes in levels of CD8 CM cells at dose level 3.|Wilcoxon test|||||||0.74
92398751|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|1.68||0.1232|TWO_SIDED|95.0|-5.92|0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||0.71|-5.92|0.1232
92339196|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.2||||||The reported p-value is representative of the changes in levels of CD8 CM cells at dose level 4.|Wilcoxon test|||||||0.20
92398752|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.66||0.253|TWO_SIDED|95.0|-5.18|1.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||1.37|-5.18|0.2530
92398753|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|1.64||0.9133|TWO_SIDED|95.0|-3.4|3.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||3.04|-3.40|0.9133
92398754|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|1.63||0.1078|TWO_SIDED|95.0|-5.85|0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||0.58|-5.85|0.1078
92398755|NCT03192176|184689417|SUPERIORITY||LSMean differencce|-1.9|STANDARD_ERROR_OF_MEAN|1.08||0.0719|TWO_SIDED|95.0|-4.07|0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||0.18|-4.07|0.0719
92398756|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|1.09||0.1298|TWO_SIDED|95.0|-3.8|0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||0.49|-3.80|0.1298
92398757|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.11||0.9532|TWO_SIDED|95.0|-2.26|2.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||2.13|-2.26|0.9532
92398758|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|1.12||0.751|TWO_SIDED|95.0|-1.84|2.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||2.55|-1.84|0.7510
92339197|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.6295||||||The reported p-value is representative of the changes in levels of all CD8 EMRA cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.6295
92339198|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.63||||||The reported p-value is representative of the changes in levels of CD8 EMRA cells at dose level 1.|Wilcoxon test|||||||0.63
92339199|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.999||||||The reported p-value is representative of the changes in levels of CD8 EMRA cells at dose level 3.|Wilcoxon test|||||||>0.999
92154562|NCT03954158|184195622|OTHER||Least squares mean of difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-1.4|-0.4||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.4|-1.4|
92154563|NCT03954158|184195622|OTHER||Least squares mean of difference|-0.7|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|95.0|-1.2|-0.2||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.2|-1.2|
92154564|NCT03954158|184195622|OTHER||Least squares mean of difference|-0.7|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-1.2|-0.2||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.2|-1.2|
92154565|NCT03954158|184195622|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-1.4|-0.6||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.6|-1.4|
92154566|NCT03954158|184195622|OTHER||Difference of least square mean|0.0|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-0.5|0.6||||||Change at Day 15, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.6|-0.5|
92154567|NCT03954158|184195622|OTHER||Difference of least square mean|-0.1|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|95.0|-0.7|0.5||||||Change at Day 15, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.5|-0.7|
92154568|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-1.0|-0.2||||||Change at Day 2, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.2|-1.0|
92154569|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.1|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|95.0|-0.7|0.5||||||Change at Day 2, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.5|-0.7|
92154570|NCT03954158|184195623|OTHER||Difference of least squares mean|0.6|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-0.5|1.7||||||Change at Day 2, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.7|-0.5|
92154571|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-1.3|0.1||||||Change at Day 3, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.1|-1.3|
92154572|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.9|0.4||||||Change at Day 3, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.4|-0.9|
92154573|NCT03954158|184195623|OTHER||Difference of least square mean|0.2|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|-0.9|1.3||||||Change at Day 3, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.3|-0.9|
92154574|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-2.1|-0.5||||||Change at Day 4, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.5|-2.1|
92154575|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.8|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-1.5|-0.1||||||Change at Day 4, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-1.5|
92154576|NCT03954158|184195623|OTHER||Difference of least square mean|0.4|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-0.6|1.4||||||Change at Day 4, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.4|-0.6|
92154577|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.9|-0.3||||||Change at Day 5, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.3|-1.9|
92154578|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.8|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-1.5|-0.1||||||Change at Day 5, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-1.5|
92154579|NCT03954158|184195623|OTHER||Difference of least square mean|-0.1|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-1.1|1.0||||||Change at Day 5, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.0|-1.1|
92154580|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-2.1|-0.4||||||Change at Day 6, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.4|-2.1|
92339200|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.36||||||The reported p-value is representative of the changes in levels of CD8 EMRA cells at dose level 4.|Wilcoxon test|||||||0.36
92216081|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72|STANDARD_ERROR_OF_MEAN|8.829||0.936|TWO_SIDED|80.0|-10.89|12.33|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||12.33|-10.89|0.936
92154581|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-1.1|0.4||||||Change at Day 6, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.4|-1.1|
92154582|NCT03954158|184195623|OTHER||Difference of least square mean|0.5|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|-0.6|1.5||||||Change at Day 6, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.5|-0.6|
92154583|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-2.3|-0.1||||||Change at Day 7, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-2.3|
92154584|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|95.0|-1.0|0.2||||||Change at Day 7, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.2|-1.0|
92154585|NCT03954158|184195623|OTHER||Difference of least square mean|0.3|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-0.6|1.3||||||Change at Day 7, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.3|-0.6|
92154586|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-2.0|-0.3||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.3|-2.0|
92154587|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-1.3|0.1||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.1|-1.3|
92216082|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|0.68|STANDARD_ERROR_OF_MEAN|13.037||0.959|TWO_SIDED|80.0|-16.46|17.82|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||17.82|-16.46|0.959
92154588|NCT03954158|184195623|OTHER||Difference of least square mean|0.3|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-0.6|1.2||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.2|-0.6|
92154589|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.7|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-2.4|-0.9||||||Change at Day 9, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.9|-2.4|
92154590|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-1.5|0.7||||||Change at Day 9, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.7|-1.5|
92154591|NCT03954158|184195623|OTHER||Difference of least square mean|0.5|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-0.7|1.6||||||Change at Day 9, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.6|-0.7|
92154592|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.6|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-2.3|-0.9||||||Change at Day 10, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.9|-2.3|
92154593|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.1|-0.1||||||Change at Day 10, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-2.1|
92154594|NCT03954158|184195623|OTHER||Difference of Least Squares Mean|0.2|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-0.8|1.2||||||Change at Day 10, Inter-participant: Mixed effect Model for Repeated Measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value, and the covariance structure UN was used.||1.2|-0.8|
92216083|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.46|STANDARD_ERROR_OF_MEAN|11.872||0.011|TWO_SIDED|80.0|-48.07|-16.85|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-16.85|-48.07|0.011
92154595|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.9|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.7|0.0||||||Change at Day 11, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.0|-1.7|
92154596|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.5|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-2.3|-0.7||||||Change at Day 11, Intra-participant: MMRM included the fixed effect of day, and the covariance structure UN was used.||-0.7|-2.3|
92154597|NCT03954158|184195623|OTHER||Difference of Least Squares Mean|0.2|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-0.7|1.1||||||Change at Day 11, Inter-participant: Mixed effect Model for Repeated Measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value, and the covariance structure UN was used.||1.1|-0.7|
92154598|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-2.0|-0.5||||||Change at Day 12, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.5|-2.0|
92154599|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.0|0.0||||||Change at Day 12, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.0|-2.0|
92154600|NCT03954158|184195623|OTHER||Difference of Least Squares Mean|0.1|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-0.9|1.2||||||Change at Day 12, Inter-participant: Mixed effect Model for Repeated Measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value, and the covariance structure UN was used.||1.2|-0.9|
92339201|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.8314||||||The reported p-value is representative of the changes in levels of all CD8 naive cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.8314
92339202|NCT01519817|184580083|NON_INFERIORITY|The reported p-value is representative of the changes in levels of CD8 naive cells at dose level 1.||||||0.63|||||||Wilcoxon test|||||||0.63
92339203|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.64||||||The reported p-value is representative of the changes in levels of CD8 naive cells at dose level 3.|Wilcoxon test|||||||0.64
92154601|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-1.8|-0.3||||||Change at Day 13, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.3|-1.8|
92154602|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.0|-0.1||||||Change at Day 13, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-2.0|
92154603|NCT03954158|184195623|OTHER||Difference of Least Squares Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-1.3|0.9||||||Change at Day 13, Inter-participant: Mixed effect Model for Repeated Measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value, and the covariance structure UN was used.||0.9|-1.3|
92154604|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-1.9|-0.5||||||Change at Day 14, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.5|-1.9|
92154605|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.8|-0.1||||||Change at Day 14, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-1.8|
92154606|NCT03954158|184195623|OTHER||Difference of Least Squares Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-1.5|0.7||||||Change at Day 14, Inter-participant: Mixed effect Model for Repeated Measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value, and the covariance structure UN was used.||0.7|-1.5|
92154607|NCT03954158|184195623|OTHER||Least squares mean of difference|-1.5|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-2.2|-0.8||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.8|-2.2|
92154608|NCT03954158|184195623|OTHER||Least squares mean of difference|-0.8|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-1.5|0.0||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||0.0|-1.5|
92154609|NCT03954158|184195623|OTHER||Difference of least square mean|-0.3|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-1.4|0.8||||||Change at Day 15, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||0.8|-1.4|
92154610|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-1.0|0.2||||||Change at Day 2, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.2|-1.0|
92154611|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.1|0.5||||||Change at Day 2, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.5|-1.1|
92154612|NCT03954158|184195624|OTHER||Difference of least squares mean|0.3|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-0.5|1.1||||||Change at Day 2, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||1.1|-0.5|
92154613|NCT03954158|184195624|OTHER||Least squares mean of difference|0.1|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.6|0.7||||||Change at Day 3, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.7|-0.6|
92154614|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.5|0.2||||||Change at Day 3, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.2|-1.5|
92154615|NCT03954158|184195624|OTHER||Difference of least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-1.0|0.5||||||Change at Day 3, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-1.0|
92154616|NCT03954158|184195624|OTHER||Least squares mean of difference|0.0|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|96.0|-1.1|1.1||||||Change at Day 4, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||1.1|-1.1|
92154617|NCT03954158|184195624|OTHER||Least squares mean of difference|0.0|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.8|0.8||||||Change at Day 4, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.8|-0.8|
92339204|NCT01519817|184580083|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3||||||The reported p-value is representative of the changes in levels of CD8 naive cells at dose level 4.|Wilcoxon test|||||||0.30
92339205|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.375||||||The reported p-value is representative of the changes in levels of IFNg cytokines at dose level 1.|Wilcoxon test|||||||0.375
92339206|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.4808||||||The reported p-value is representative of the changes in levels of all IFNg cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.4808
92339207|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.7334||||||The reported p-value is representative of the changes in levels of IFNg cytokines at dose level 3.|Wilcoxon test|||||||0.7334
92339208|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.7109||||||The reported p-value is representative of the changes in levels of IFNg cytokines at dose level 4.|Wilcoxon|||||||0.7109
92154618|NCT03954158|184195624|OTHER||Difference of least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|95.0|-0.9|0.8||||||Change at Day 4, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.8|-0.9|
92154619|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-1.2|0.3||||||Change at Day 5, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.3|-1.2|
92154620|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.2|0.4||||||Change at Day 5, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.4|-1.2|
92154621|NCT03954158|184195624|OTHER||Difference of least squares mean|0.1|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-0.8|1.0||||||Change at Day 5, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||1.0|-0.8|
92154622|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.2|0.6||||||Change at Day 6, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.6|-1.2|
92154623|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.1|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.9|0.7||||||Change at Day 6, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.7|-0.9|
92154624|NCT03954158|184195624|OTHER||Difference of least squares mean|0.1|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|95.0|-0.5|0.8||||||Change at Day 6, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.8|-0.5|
92154625|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.1|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|95.0|-1.0|0.9||||||Change at Day 7, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.9|-1.0|
92154626|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.1|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.0|0.7||||||Change at Day 7, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.7|-1.0|
92154627|NCT03954158|184195624|OTHER||Difference of least squares mean|-0.4|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.2|0.5||||||Change at Day 7, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-1.2|
92154628|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.3|0.5||||||Change at Day 8, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.5|-1.3|
92154629|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.4|0.2||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.2|-1.4|
92154630|NCT03954158|184195624|OTHER||Difference of least squares mean|0.2|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.5|0.8||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.8|-0.5|
92154631|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-1.2|0.6||||||Change at Day 9, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.6|-1.2|
92154632|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.2|0.4||||||Change at Day 9, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.4|-1.2|
92154633|NCT03954158|184195624|OTHER||Difference of least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|95.0|-1.2|0.1||||||Change at Day 9, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.1|-1.2|
92154634|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-1.3|0.7||||||Change at Day 10, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.7|-1.3|
92154635|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.0|0.6||||||Change at Day 10, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.6|-1.0|
92154636|NCT03954158|184195624|OTHER||Difference of least squares mean|-0.1|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-0.8|0.5||||||Change at Day 10, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-0.8|
92154637|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-1.6|0.3||||||Change at Day 11, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.3|-1.6|
92339209|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.4347||||||The reported p-value is representative of the changes in levels of all IL10 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.4347
92154638|NCT03954158|184195624|OTHER||Difference of least squares mean|0.3|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-0.4|1.0||||||Change at Day 11, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||1.0|-0.4|
92154639|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.2|0.5||||||Change at Day 11, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.5|-1.2|
92154640|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.9|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|95.0|-1.9|0.0||||||Change at Day 12, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.0|-1.9|
92154641|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.5|0.2||||||Change at Day 12, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.2|-1.5|
92154642|NCT03954158|184195624|OTHER||Difference of least squares mean|-0.3|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-1.0|0.5||||||Change at Day 12, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-1.0|
92154643|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-1.5|0.4||||||Change at Day 13, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.4|-1.5|
92154644|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.5|0.2||||||Change at Day 13, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.2|-1.5|
92154645|NCT03954158|184195624|OTHER||Least squares mean|-0.4|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-1.1|0.3||||||Change at Day 13, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.3|-1.1|
92154646|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.5|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.4|0.4||||||Change at Day 14, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.4|-1.4|
92154647|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.1|0.5||||||Change at Day 14, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.5|-1.1|
92154648|NCT03954158|184195624|OTHER||Difference of least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-1.0|0.6||||||Change at Day 14, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.6|-1.0|
92154649|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-0.9|0.5||||||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.5|-0.9|
92154650|NCT03954158|184195624|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.2|0.5||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.5|-1.2|
92154651|NCT03954158|184195624|OTHER||Difference of least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-1.0|0.6||||||Change at Day 15, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.6|-1.0|
92154652|NCT03954158|184195625|OTHER||Least squares mean of difference|-0.1|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-0.9|0.7||||||Change at Day 2, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.7|-0.9|
92154653|NCT03954158|184195625|OTHER||Least squares mean of difference|0.2|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-0.6|1.0||||||Change at Day 2, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||1.0|-0.6|
92154654|NCT03954158|184195625|OTHER||Difference of least squares mean|0.2|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-0.8|1.2||||||Change at Day 2, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||1.2|-0.8|
92274813|NCT00323609|184452319|SUPERIORITY_OR_OTHER|||||||0.503||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.503
92154655|NCT03954158|184195625|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|95.0|-0.9|0.5||||||Change at Day 3, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.5|-0.9|
92154656|NCT03954158|184195625|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-1.5|1.0||||||Change at Day 3, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||1.0|-1.5|
92274814|NCT00323609|184452319|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.837
92274815|NCT00323609|184452320|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 30 days||||0.785
92274816|NCT00323609|184452320|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.393
92274817|NCT00323609|184452320|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 12 months||||0.875
92274818|NCT00323609|184452320|SUPERIORITY_OR_OTHER|||||||0.833||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.833
92274819|NCT00323609|184452321|SUPERIORITY_OR_OTHER|||||||0.18||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 PCS result at 30 days.||||0.180
92339210|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL10 cytokines at dose level 1.|Wilcoxon|||||||>0.9999
92339211|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.748||||||The reported p-value is representative of the changes in levels of IL10 cytokines at dose level 3.|Wilcoxon test|||||||0.748
92398759|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|1.11||0.112|TWO_SIDED|95.0|-3.95|0.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||0.42|-3.95|0.1120
92154657|NCT03954158|184195625|OTHER||Difference of least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-1.6|0.5||||||Change at Day 3, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-1.6|
92154658|NCT03954158|184195625|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-1.1|0.8||||||Change at Day 4, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.8|-1.1|
92154659|NCT03954158|184195625|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-1.5|1.1||||||Change at Day 4, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||1.1|-1.5|
92154660|NCT03954158|184195625|OTHER||Difference of least squares mean|-0.9|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-2.4|0.6||||||Change at Day 4, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.6|-2.4|
92154661|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.4|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-2.2|-0.5||||||Change at Day 5, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.5|-2.2|
92154662|NCT03954158|184195625|OTHER||Least squares mean of difference|0.1|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-1.3|1.5||||||Change at Day 5, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||1.5|-1.3|
92154663|NCT03954158|184195625|OTHER||Difference of least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-1.7|1.2||||||Change at Day 5, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||1.2|-1.7|
92154664|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-2.0|0.0||||||Change at Day 6, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.0|-2.0|
92154665|NCT03954158|184195625|OTHER||Least squares mean of difference|-0.5|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-1.4|0.5||||||Change at Day 6, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.5|-1.4|
92154666|NCT03954158|184195625|OTHER||Difference of least squares mean|-0.4|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-1.7|0.8||||||Change at Day 6, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.8|-1.7|
92154667|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-2.0|-0.2||||||Change at Day 7, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.2|-2.0|
92154668|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|95.0|-2.1|-0.1||||||Change at Day 7, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.1|
92154669|NCT03954158|184195625|OTHER||Difference of least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.9|0.6||||||Change at Day 7, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.6|-1.9|
92154670|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-2.0|0.0||||||Change at Day 8, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.0|-2.0|
92154671|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-2.4|-0.2||||||Change at Day 8, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.2|-2.4|
92154672|NCT03954158|184195625|OTHER||Difference of least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.64|||TWO_SIDED|95.0|-1.9|0.7||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.7|-1.9|
92154673|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-2.3|-0.1||||||Change at Day 9, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.3|
92154674|NCT03954158|184195625|OTHER||Least squares mean of difference|-0.9|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-1.9|0.1||||||Change at Day 9, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.1|-1.9|
92274820|NCT00323609|184452321|SUPERIORITY_OR_OTHER|||||||0.822||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 PCS result at 3 months||||0.822
92339212|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.8203|||||||Wilcoxon test|The reported p-value is representative of the changes in levels of IL10 cytokines at dose level 4.||||||0.8203
92339213|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5625||||||The reported p-value is representative of the changes in levels of all IL12p70 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.5625
92154675|NCT03954158|184195625|OTHER||Difference of least squares mean|-1.1|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-2.4|0.2||||||Change at Day 9, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.2|-2.4|
92154676|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-2.4|-0.1||||||Change at Day 10, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.4|
92154677|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.6|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-2.5|-0.7||||||Change at Day 10, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.7|-2.5|
92154678|NCT03954158|184195625|OTHER||Difference of least squares mean|-1.4|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-2.6|-0.2||||||Change at Day 10, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||-0.2|-2.6|
92154679|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-2.4|-0.1||||||Change at Day 11, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.4|
92154680|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|-2.2|-0.1||||||Change at Day 11, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.2|
92154681|NCT03954158|184195625|OTHER||Difference of least squares mean|-0.8|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|-2.2|0.5||||||Change at Day 11, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-2.2|
92154682|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.5|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-2.9|0.0||||||Change at Day 12, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.0|-2.9|
92154683|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.6|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-2.4|-0.7||||||Change at Day 12, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.7|-2.4|
92154684|NCT03954158|184195625|OTHER||Difference of least squares mean|-1.6|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-2.9|-0.3||||||Change at Day 12, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||-0.3|-2.9|
92154685|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|-2.5|0.3||||||Change at Day 13, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.3|-2.5|
92154686|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.5|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-2.4|-0.6||||||Change at Day 13, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.6|-2.4|
92216084|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.61|STANDARD_ERROR_OF_MEAN|12.212||0.833|TWO_SIDED|80.0|-18.67|13.45|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||13.45|-18.67|0.833
92339214|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL12p70 cytokines at dose level 1.|Wilcoxon test|||||||>0.9999
92339215|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL12p70 cytokines at dose level 3.|Wilcoxon test|||||||>0.9999
92154687|NCT03954158|184195625|OTHER||Difference of least squares mean|-1.7|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-3.0|-0.5||||||Change at Day 13, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||-0.5|-3.0|
92154688|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.6|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-2.5|-0.6||||||Change at Day 14, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.6|-2.5|
92216085|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.21|STANDARD_ERROR_OF_MEAN|12.365||0.565|TWO_SIDED|80.0|-23.47|9.05|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||9.05|-23.47|0.565
92339216|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5||||||The reported p-value is representative of the changes in levels of IL12p70 cytokines at dose level 14|Wilcoxon test|||||||0.5
92339217|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.6846||||||The reported p-value is representative of the changes in levels of all IL1b cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.6846
92398760|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|1.1||0.9781|TWO_SIDED|95.0|-2.13|2.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||2.19|-2.13|0.9781
92339218|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL1b cytokines at dose level 1.|Wilcoxon test|||||||>0.9999
92339219|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5||||||The reported p-value is representative of the changes in levels of IL1b cytokines at dose level 3.|Wilcoxon test|||||||0.5
92339220|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL1b cytokines at dose level 4.|Wilcoxon test|||||||>0.9999
92339221|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.4375||||||The reported p-value is representative of the changes in levels of all IL-2 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.4375
92398761|NCT03192176|184689417|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|1.1||0.206|TWO_SIDED|95.0|-3.57|0.77||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||0.77|-3.57|0.2060
92398762|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.56||0.5332|TWO_SIDED|95.0|-1.46|0.76||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||0.76|-1.46|0.5332
92339222|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL-2 cytokines at dose level 1.|Wilcoxon test|||||||>0.9999
92339223|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL-2 cytokines at dose level 3.|Wilcoxon test|||||||>0.9999
92398763|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.57||0.4599|TWO_SIDED|95.0|-1.54|0.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||0.70|-1.54|0.4599
92398764|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|0.58||0.4752|TWO_SIDED|95.0|-0.72|1.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||1.55|-0.72|0.4752
92398765|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.58||0.9051|TWO_SIDED|95.0|-1.21|1.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||1.07|-1.21|0.9051
92398766|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.58||0.9937|TWO_SIDED|95.0|-1.14|1.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||1.15|-1.14|0.9937
92398767|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.57||0.6956|TWO_SIDED|95.0|-0.91|1.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||1.35|-0.91|0.6956
92398768|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.57||0.2302|TWO_SIDED|95.0|-1.81|0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||0.44|-1.81|0.2302
92398769|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.46||0.1544|TWO_SIDED|95.0|-1.55|0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.25|-1.55|0.1544
92398770|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.46||0.6847|TWO_SIDED|95.0|-1.1|0.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.72|-1.10|0.6847
92398771|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.552|TWO_SIDED|95.0|-1.2|0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.64|-1.20|0.5520
92398772|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.47||0.3632|TWO_SIDED|95.0|-1.36|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.50|-1.36|0.3632
92216086|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.75|STANDARD_ERROR_OF_MEAN|9.713||0.703|TWO_SIDED|80.0|-16.52|9.02|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||9.02|-16.52|0.703
92216087|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.46|STANDARD_ERROR_OF_MEAN|8.827||0.008|TWO_SIDED|80.0|-37.07|-13.85|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-13.85|-37.07|0.008
92216088|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.6|STANDARD_ERROR_OF_MEAN|9.061||0.253|TWO_SIDED|80.0|-22.51|1.32|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.32|-22.51|0.253
92216089|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.47|STANDARD_ERROR_OF_MEAN|9.198||0.128|TWO_SIDED|80.0|-26.57|-2.38|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-2.38|-26.57|0.128
92216090|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.15|STANDARD_ERROR_OF_MEAN|11.421||0.196|TWO_SIDED|80.0|-30.17|-0.13|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-0.13|-30.17|0.196
92216091|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.17|STANDARD_ERROR_OF_MEAN|10.393||0.012|TWO_SIDED|80.0|-41.84|-14.51|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-14.51|-41.84|0.012
92216092|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.48|STANDARD_ERROR_OF_MEAN|10.773||0.047|TWO_SIDED|80.0|-36.65|-8.32|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-8.32|-36.65|0.047
92216093|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.63|STANDARD_ERROR_OF_MEAN|11.837||0.023|TWO_SIDED|80.0|-44.19|-13.06|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-13.06|-44.19|0.023
92216094|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|5.08|STANDARD_ERROR_OF_MEAN|13.576||0.711|TWO_SIDED|80.0|-12.77|22.93|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||22.93|-12.77|0.711
92339224|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.75||||||The reported p-value is representative of the changes in levels of IL-2 cytokines at dose level 4.|Wilcoxon test|||||||0.75
92216095|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|5.4|STANDARD_ERROR_OF_MEAN|12.365||0.666|TWO_SIDED|80.0|-10.86|21.66|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||21.66|-10.86|0.666
92216096|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.05|STANDARD_ERROR_OF_MEAN|12.333||0.807|TWO_SIDED|80.0|-19.27|13.17|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||13.17|-19.27|0.807
92216097|NCT01301456|184332322|SUPERIORITY_OR_OTHER||LS Mean Difference|6.79|STANDARD_ERROR_OF_MEAN|12.877||0.603|TWO_SIDED|80.0|-10.15|23.72|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||23.72|-10.15|0.603
92339225|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.4525||||||The reported p-value is representative of the changes in levels of all IL-6 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|The reported p-value is representative of the changes in levels of IL-6 cytokines at dose level 1.||||||0.4525
92216098|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.551||0.387|TWO_SIDED|80.0|-0.24|1.21|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.21|-0.24|0.387
92216099|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.501||0.309|TWO_SIDED|80.0|-0.14|1.18|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.18|-0.14|0.309
92216100|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.518||0.956|TWO_SIDED|80.0|-0.71|0.65|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||0.65|-0.71|0.956
92216101|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|0.96|STANDARD_ERROR_OF_MEAN|0.542||0.089|TWO_SIDED|80.0|0.24|1.67|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.67|0.24|0.089
92216102|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73|STANDARD_ERROR_OF_MEAN|0.923||0.434|TWO_SIDED|80.0|-0.48|1.95|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.95|-0.48|0.434
92216103|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|1.25|STANDARD_ERROR_OF_MEAN|0.841||0.15|TWO_SIDED|80.0|0.14|2.35|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.35|0.14|0.150
92339226|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.875||||||The reported p-value is representative of the changes in levels of IL-6 cytokines at dose level 1.|Wilcoxon test|||||||0.875
92339227|NCT01519817|184580084|NON_INFERIORITY|The reported p-value is representative of the changes in levels of IL-6 cytokines at dose level 3.||||||0.4316|||||||Wilcoxon test|||Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||0.4316
92339228|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL-6 cytokines at dose level 4.|Wilcoxon test|||||||>0.9999
92339229|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.9906||||||The reported p-value is representative of the changes in levels of all IL-8 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.9906
92274821|NCT00323609|184452321|SUPERIORITY_OR_OTHER|||||||0.291||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 PCS result at 12 months||||0.291
92339230|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.625|||||||Wilcoxon test|The reported p-value is representative of the changes in levels of IL-8 cytokines at dose level 1.||||||0.625
92339231|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.791||||||The reported p-value is representative of the changes in levels of IL-8 cytokines at dose level 3.|Wilcoxon test|||||||0.791
92339232|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.8203||||||The reported p-value is representative of the changes in levels of IL-8 cytokines at dose level 4.|Wilcoxon test|||||||0.8203
92339233|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of all TNF cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||>0.9999
92339234|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.875||||||The reported p-value is representative of the changes in levels of TNF cytokines at dose level 1.|Wilcoxon test|||||||0.875
92154689|NCT03954158|184195625|OTHER||Difference of least squares mean|-1.6|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-2.8|-0.4||||||Change at Day 14, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||-0.4|-2.8|
92339235|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.9658||||||The reported p-value is representative of the changes in levels of TNF cytokines at dose level 3.|Wilcoxon test|||||||0.9658
92339236|NCT01519817|184580084|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.6523||||||The reported p-value is representative of the changes in levels of TNF cytokines at dose level 4.|Wilcoxon test|||||||0.6523
92154690|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-2.5|0.1||||||Change at Day 14, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.1|-2.5|
92154691|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|-2.4|-0.1||||||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.4|
92154692|NCT03954158|184195625|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-2.2|-0.3||||||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.3|-2.2|
92154693|NCT03954158|184195625|OTHER||Difference of least squares mean|-1.4|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-2.8|-0.1||||||Change at Day 15, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||-0.1|-2.8|
92154694|NCT04076020|184195647|SUPERIORITY|||||||0.99||||||Results presented from Wilcoxon-Mann-Whitney test with PDC as the dependent variable.|Wilcoxon (Mann-Whitney)|||Proportion of days covered (PDC) at 12 months. A sample size of 119 in each study arm enabled us to detect a minimum difference in PDC of 11.7% with 85% power (assuming a standard deviation=30%). Our power calculations assume use of 2-sided tests with 0.05 significance level.||||0.99
92154695|NCT04076020|184195647|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||Proportion of days covered (PDC) analyzed as a binary variable with optimal adherence determined as ≥0.80) variables using logistic regression and adjustment for trial stratification factors. Our power calculations assume use of 2-sided tests with 0.05 significance level.||||<0.05
92154696|NCT04076020|184195648|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||Difference in self-reported adherence reported across baseline, 4-, 8-, and 12-month visits using generalized estimating equations and adjusted for trial stratification factors.||||<0.05
92154697|NCT05462652|184195655|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|0.53|<|0.001|TWO_SIDED|95.0|-3.68|-1.59|||Mixed Models Analysis|||||-1.59|-3.68|<0.001
92154698|NCT05462652|184195656|SUPERIORITY||Difference in proportion z-test|20.1|||<|0.001|TWO_SIDED|95.0|9.1|31.0|||Chi-squared|||"Missing values imputed with multiple imputation.~P-values are obtained from a Pearson Chi-Squared test; differences and 95% CIs are obtained from a difference in proportions Z- test."||31.0|9.1|<0.001
92154699|NCT05462652|184195657|SUPERIORITY||Difference in proportions z-test|15.4||||0.003|TWO_SIDED|95.0|5.3|25.6|||Chi-squared|||P-values are obtained from a Pearson Chi-Squared test; differences and 95% CIs are obtained from a difference in proportions Z- test.||25.6|5.3|0.003
92154700|NCT05462652|184195658|SUPERIORITY||Difference in proportion z-test|24.7|||<|0.001|TWO_SIDED|95.0|13.0|36.4|||Chi-squared|||Missing values imputed with multiple imputation. P-values are obtained from a Pearson Chi-Squared test; differences and 95% CIs are obtained from a difference in proportions Z- test.||36.4|13.0|<0.001
92154701|NCT00479037|184195676|SUPERIORITY_OR_OTHER||Mean Difference (Net)|360.3|||<|0.0001|TWO_SIDED|95.0|256.5|494.3||P-values corresponding to the tests of treatment effect for the primary endpoints were adjusted using the Hochberg procedure.|ANCOVA|||The bone marker values were log-transformed for the primary analysis as they were heavily skewed. Changes in log-transformed bone marker values were analyzed using an analysis of covariance (ANCOVA) with treatment and center as fixed effects and the baseline bone marker value as a covariate. An F-test was used to test the effect of treatment and the least square means were computed to assess the clinical difference between treatment groups.||494.3|256.5|<0.0001
92154702|NCT00479037|184195677|SUPERIORITY_OR_OTHER||Mean Difference (Net)|92.9|||<|0.0001|TWO_SIDED|95.0|63.8|127.1||P-values corresponding to the tests of treatment effect for the primary endpoints were adjusted using the Hochberg procedure.|ANCOVA|||The bone marker values were log-transformed for the primary analysis as they were heavily skewed. Changes in log-transformed bone marker values were analyzed using an analysis of covariance (ANCOVA) with treatment and center as fixed effects and the baseline bone marker value as a covariate. An F-test was used to test the effect of treatment and the least square means were computed to assess the clinical difference between treatment groups.||127.1|63.8|<0.0001
92154703|NCT00479037|184195678|SUPERIORITY_OR_OTHER||Mean Difference (Net)|138.5|||<|0.0001|TWO_SIDED|95.0|94.8|191.8||P-value corresponding to the tests of treatment effect was adjusted using the Hochberg procedure.|ANCOVA|||The bone marker values were log-transformed for the primary analysis as they were heavily skewed. Changes in log-transformed bone marker values were analyzed using an analysis of covariance (ANCOVA) with treatment and center as fixed effects and the baseline bone marker value as a covariate. An F-test was used to test the effect of treatment and the least square means were computed to assess the clinical difference between treatment groups.||191.8|94.8|<0.0001
92168530|NCT04878354|184226847|SUPERIORITY||Median Difference (Final Values)|0.48||||0.0075|TWO_SIDED|95.0|0.13|0.83|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.83|0.13|0.0075
92274822|NCT00323609|184452321|SUPERIORITY_OR_OTHER|||||||0.996||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 PCS result at 24 months||||0.996
92339237|NCT01519817|184580085|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.2901||||||The reported p-value is representative of the changes in levels of all sCD27 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.2901
92339238|NCT01519817|184580085|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.375||||||The reported p-value is representative of the changes in levels of sCD27 cytokines at dose level 1.|Wilcoxon test|||||||0.375
92339239|NCT01519817|184580085|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.2036||||||The reported p-value is representative of the changes in levels of sCD27 cytokines at dose level 3.|Wilcoxon test|||||||0.2036
92339240|NCT01519817|184580085|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0742||||||The reported p-value is representative of the changes in levels of sCD27 cytokines at dose level 4.|Wilcoxon test|||||||0.0742
92339241|NCT01519817|184580086|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.1004||||||The reported p-value is representative of the changes in levels of all ratio sCD27:sCD40AL cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.1004
92398773|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.47||0.2828|TWO_SIDED|95.0|-1.43|0.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.42|-1.43|0.2828
92154704|NCT02368002|184195770|SUPERIORITY|||||||0.25||||||2 df re-random\*time interaction tested if baseline to 6M or 18M PCM and ABT weight changes differed; primary hypothesis tests were 2 planned contrasts estimating baseline to 6M (H1a, expected neg) and 18M (H1b, expected pos) PCM vs. ABT weight change|Mixed Models Analysis|The mixed model included a random participant intercept. Fixed covariates were baseline weight, TRA timing, sex, weight loss rate.||H1 predicted that suboptimal responders re-randomized to PCM would lose more weight at 6m (H1a) while those re-randomized to ABT would lose more weight at 18m (H1b). A mixed linear model predicted weight change from fixed re-randomization, measurement time, the re-randomization by measurement time interaction and covariate parameters.|The primary hypothesis tests were two planned contrasts that estimated weight change from baseline to 6M and 18M relative to baseline in PCM relative to ABT. A mixed linear model predicted weight changes between baseline and post-baseline for suboptimal responders, and this model included two a priori simple effects tests resulting in two mean differences, confidence intervals, and p-values. H1a: -2.7 lbs; 95% CI: -5.8, 0.5; p=0.09. H1b: -1.0 lbs; 95% CI: -4.2, 2.2; p=0.53|||0.25
92154705|NCT02368002|184195771|SUPERIORITY||Mean Difference (Net)|-0.1||||0.96|TWO_SIDED|95.0|-2.4|2.3|||Mixed Models Analysis|The mixed model included a random participant intercept. Fixed covariates were baseline weight, sex, TRA result (PCM, ABT, responder, pre-TRA quit).||Hypothesis 2 predicted that among all participants, those randomized to Early TRA would lose more weight at 6 and 18 months than those randomized to Late TRA. A mixed linear model predicted weight change from fixed treatment response assessment timing and covariate parameters.||2.3|-2.4|0.96
92154706|NCT02001974|184195783|OTHER|||||||0.0341|||||||ANOVA|||DF1681Y Cmax at Day -3||||0.0341
92154707|NCT02001974|184195783|OTHER|||||||0.0636|||||||ANOVA|||DF1681Y Cmax at Day -3||||0.0636
92154708|NCT02001974|184195783|OTHER|||||||0.0487|||||||ANOVA|||DF1681Y Cmax at Day 1||||0.0487
92154709|NCT02001974|184195783|OTHER|||||||0.3498|||||||ANOVA|||DF1681Y Cmax at Day 1||||0.3498
92154710|NCT02001974|184195783|OTHER|||||||0.0096|||||||ANOVA|||DF1681Y Cmax at Day 8||||0.0096
92154711|NCT02001974|184195783|OTHER|||||||0.1374|||||||ANOVA|||DF1681Y Cmax at Day 8||||0.1374
92154712|NCT02001974|184195783|OTHER|||||||0.0065|||||||ANOVA|||DF1681Y Cmax at Day 21||||0.0065
92154713|NCT02001974|184195783|OTHER|||||||0.147|||||||ANOVA|||DF1681Y Cmax at Day 21||||0.1470
92154714|NCT02001974|184195784|OTHER|||||||0.0015|||||||ANOVA|||DF2243 Cmax at Day -3||||0.0015
92154715|NCT02001974|184195784|OTHER|||||||0.0176|||||||ANOVA|||DF2243 Cmax at Day -3||||0.0176
92154716|NCT02001974|184195784|OTHER|||||||0.0048|||||||ANOVA|||DF2243 Cmax at Day 1||||0.0048
92154717|NCT02001974|184195784|OTHER|||||||0.2083|||||||ANOVA|||DF2243 Cmax at Day 1||||0.2083
92154718|NCT02001974|184195784|OTHER|||||||0.0111|||||||ANOVA|||DF2243 Cmax at Day 8||||0.0111
92154719|NCT02001974|184195784|OTHER|||||||0.1441|||||||ANOVA|||DF2243 Cmax at Day 8||||0.1441
92154720|NCT02001974|184195784|OTHER|||||||0.0283|||||||ANOVA|||DF2243 Cmax at Day 21||||0.0283
92154721|NCT02001974|184195784|OTHER|||||||0.1331|||||||ANOVA|||DF2243 Cmax at Day 21||||0.1331
92154722|NCT02001974|184195785|OTHER|||||||0.0097|||||||ANOVA|||DF2188Y, Cmax, Day -3||||0.0097
92154723|NCT02001974|184195785|OTHER|||||||0.0354|||||||ANOVA|||DF2188Y, Cmax, Day -3||||0.0354
92154724|NCT02001974|184195785|OTHER|||||||0.02|||||||ANOVA|||DF2188Y, Cmax, Day 1||||0.0200
92154725|NCT02001974|184195785|OTHER|||||||0.2134|||||||ANOVA|||DF2188Y, Cmax, Day 1||||0.2134
92154726|NCT02001974|184195785|OTHER|||||||0.0235|||||||ANOVA|||DF2188Y, Cmax, Day 8||||0.0235
92154727|NCT02001974|184195785|OTHER|||||||0.0964|||||||ANOVA|||DF2188Y, Cmax, Day 8||||0.0964
92154728|NCT02001974|184195785|OTHER|||||||0.0314|||||||ANOVA|||DF2188Y, Cmax, Day 21||||0.0314
92154729|NCT02001974|184195785|OTHER|||||||0.0773|||||||ANOVA|||DF2188Y, Cmax, Day 21||||0.0773
92154730|NCT02001974|184195786|OTHER|||||||0.1016|||||||ANOVA|||Cmax, ibuprofen, Day -3||||0.1016
92154731|NCT02001974|184195786|OTHER|||||||0.2001|||||||ANOVA|||Cmax, ibuprofen, Day -3||||0.2001
92154732|NCT02001974|184195786|OTHER|||||||0.0802|||||||ANOVA|||Cmax, ibuprofen, Day 1||||0.0802
92154733|NCT02001974|184195786|OTHER|||||||0.4728|||||||ANOVA|||Cmax, ibuprofen, Day 1||||0.4728
92154734|NCT02001974|184195786|OTHER|||||||0.0355|||||||ANOVA|||Cmax, ibuprofen, Day 8||||0.0355
92154735|NCT02001974|184195786|OTHER|||||||0.1709|||||||ANOVA|||Cmax, ibuprofen, Day 8||||0.1709
92339242|NCT01519817|184580086|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.625||||||The reported p-value is representative of the changes in levels of ratio sCD27:sCD40L cytokines at dose level 1.|Wilcoxon test|||||||0.625
92339243|NCT01519817|184580086|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.6772||||||The reported p-value is representative of the changes in levels of ratio sCD27:sCD40L cytokines at dose level 3.|Wilcoxon test|||||||0.6772
92339244|NCT01519817|184580086|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3008||||||The reported p-value is representative of the changes in levels of ratio sCD27:sCD40L cytokines at dose level 4.|Wilcoxon test|||||||0.3008
92339245|NCT01519817|184580087|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0621||||||The reported p-value is representative of the changes in levels of all sCD40L cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0621
92339246|NCT01519817|184580087|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.875||||||The reported p-value is representative of the changes in levels of sCD40L cytokines at dose level 1.|Wilcoxon test|||||||0.875
92339247|NCT01519817|184580087|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.2402||||||The reported p-value is representative of the changes in levels of sCD40L cytokines at dose level 3.|Wilcoxon test|||||||0.2402
92154736|NCT02001974|184195786|OTHER|||||||0.0685|||||||ANOVA|||Cmax, ibuprofen, Day 21||||0.0685
92154737|NCT02001974|184195786|OTHER|||||||0.3189|||||||ANOVA|||Cmax, ibuprofen, Day 21||||0.3189
92154738|NCT02001974|184195787|OTHER|||||||0.2375|||||||ANOVA|||Paclitaxel, Cmax, Day 1||||0.2375
92154739|NCT02001974|184195787|OTHER|||||||0.3608|||||||ANOVA|||Cmax, ibuprofen, Day 1||||0.3608
92154740|NCT02001974|184195787|OTHER|||||||0.0442|||||||ANOVA|||Cmax, ibuprofen, Day 8||||0.0442
92154741|NCT02001974|184195787|OTHER|||||||0.1067|||||||ANOVA|||Cmax, ibuprofen, Day 8||||0.1067
92154742|NCT02001974|184195793|OTHER|||||||0.0134|||||||ANOVA|||DF1681Y, AUC0-8, Day -3||||0.0134
92154743|NCT02001974|184195793|OTHER|||||||0.0799|||||||ANOVA|||DF1681Y, AUC0-8, Day -3||||0.0799
92154744|NCT02001974|184195793|OTHER|||||||0.0241|||||||ANOVA|||DF1681Y, AUC0-8, Day 1||||0.0241
92154745|NCT02001974|184195793|OTHER|||||||0.01384|||||||ANOVA|||DF1681Y, AUC0-8, Day 1||||0.01384
92154746|NCT02001974|184195793|OTHER|||||||0.0091|||||||ANOVA|||DF1681Y, AUC0-8, Day 8||||0.0091
92154747|NCT02001974|184195793|OTHER|||||||0.5687|||||||ANOVA|||DF1681Y, AUC0-8, Day 8||||0.5687
92154748|NCT02001974|184195793|OTHER|||||||0.0058|||||||ANOVA|||DF1681Y, AUC0-8, Day 21||||0.0058
92154749|NCT02001974|184195793|OTHER|||||||0.3667|||||||ANOVA|||DF1681Y, AUC0-8, Day 21||||0.3667
92154750|NCT02001974|184195794|OTHER|||||||0.0029|||||||ANOVA|||DF2243Y - AUC0-8 - Day -3||||0.0029
92154751|NCT02001974|184195794|OTHER|||||||0.0349|||||||ANOVA|||DF2243Y - AUC0-8 - Day -3||||0.0349
92154752|NCT02001974|184195794|OTHER|||||||0.0119|||||||ANOVA|||DF2243Y - AUC0-8 - Day 1||||0.0119
92154753|NCT02001974|184195794|OTHER|||||||0.21|||||||ANOVA|||DF2243Y - AUC0-8 - Day 1||||0.2100
92154754|NCT02001974|184195794|OTHER|||||||0.0165|||||||ANOVA|||DF2243Y - AUC0-8 - Day 8||||0.0165
92154755|NCT02001974|184195794|OTHER|||||||0.1496|||||||ANOVA|||DF2243Y - AUC0-8 - Day 8||||0.1496
92154756|NCT02001974|184195794|OTHER|||||||0.0321|||||||ANOVA|||DF2243Y - AUC0-8 - Day 21||||0.0321
92154757|NCT02001974|184195794|OTHER|||||||0.1404|||||||ANOVA|||DF2243Y - AUC0-8 - Day 21||||0.1404
92154758|NCT02001974|184195795|OTHER|||||||0.0081|||||||ANOVA|||AUC0-8 for DF2188Y, Day -3||||0.0081
92154759|NCT02001974|184195795|OTHER|||||||0.064|||||||ANOVA|||AUC0-8 for DF2188Y, Day -3||||0.0640
92154760|NCT02001974|184195795|OTHER|||||||0.0397|||||||ANOVA|||AUC0-8 for DF2188Y, Day 1||||0.0397
92154761|NCT02001974|184195795|OTHER|||||||0.1898|||||||ANOVA|||AUC0-8 for DF2188Y, Day 1||||0.1898
92154762|NCT02001974|184195795|OTHER|||||||0.025|||||||ANOVA|||AUC0-8 for DF2188Y, Day 8||||0.0250
92154763|NCT02001974|184195795|OTHER|||||||0.1605|||||||ANOVA|||AUC0-8 for DF2188Y, Day 8||||0.1605
92154764|NCT02001974|184195795|OTHER|||||||0.0786|||||||ANOVA|||AUC0-8 for DF2188Y, Day 21||||0.0786
92154765|NCT02001974|184195795|OTHER|||||||0.2652|||||||ANOVA|||AUC0-8 for DF2188Y, Day 21||||0.2652
92154766|NCT02001974|184195796|OTHER|||||||0.1335|||||||ANOVA|||Ibuprofen, AUC0-8, Day -3||||0.1335
92154767|NCT02001974|184195796|OTHER|||||||0.2658|||||||ANOVA|||Ibuprofen, AUC0-8, Day -3||||0.2658
92154768|NCT02001974|184195796|OTHER|||||||0.1063|||||||ANOVA|||Ibuprofen, AUC0-8, Day 1||||0.1063
92154769|NCT02001974|184195796|OTHER|||||||0.4959|||||||ANOVA|||Ibuprofen, AUC0-8, Day 1||||0.4959
92154770|NCT02001974|184195796|OTHER|||||||0.0452|||||||ANOVA|||Ibuprofen, AUC0-8, Day 8||||0.0452
92154771|NCT02001974|184195796|OTHER|||||||0.2223|||||||ANOVA|||Ibuprofen, AUC0-8, Day 8||||0.2223
92154772|NCT02001974|184195796|OTHER|||||||0.0737|||||||ANOVA|||Ibuprofen, AUC0-8, Day 21||||0.0737
92154773|NCT02001974|184195796|OTHER|||||||0.2804|||||||ANOVA|||Ibuprofen, AUC0-8, Day21||||0.2804
92154774|NCT02001974|184195797|OTHER|||||||0.1449|||||||ANOVA|||Paclitaxel, AUC0-8, Day 1||||0.1449
92154775|NCT02001974|184195797|OTHER|||||||0.1338|||||||ANOVA|||Ibuprofen, AUC0-8, Day 1||||0.1338
92154776|NCT02001974|184195797|OTHER|||||||0.0633|||||||ANOVA|||Ibuprofen, AUC0-8, Day 8||||0.0633
92154777|NCT02001974|184195797|OTHER|||||||0.6939|||||||ANOVA|||Ibuprofen, AUC0-8, Day 8||||0.6939
92154778|NCT00672958|184195815|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.74||||0.407|TWO_SIDED|95.0|-2.48|1.01||Pre-specified sequential statistical testing procedure indicates that when p-value for change from baseline in HAMD-24 at Week 6 \>0.05, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|ANCOVA|Analysis of covariance (ANCOVA), with treatment and center as fixed factors and baseline HAM-D24 as a covariate.||Change from Baseline in HAM-D24 total score at Week 6 was tested at significance level 0.05. To control for multiplicity, subsequent endpoints were to be tested in a sequential testing procedure at significance level 0.025; as soon as an endpoint in a sequence was non-significant at 0.025, the testing procedure was stopped for all subsequent endpoints in that sequence.||1.01|-2.48|0.407
92339248|NCT01519817|184580087|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3008||||||The reported p-value is representative of the changes in levels of sCD40L cytokines at dose level 4.|Wilcoxon test|||||||0.3008
92339249|NCT00735709|184580107|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.93|||<|0.001|TWO_SIDED|95.0|-6.99|-2.86||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||All statistical tests were 2-sided with the estimated P-values at the 5% level of significance. To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 10 mg and 5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.05, the testing procedure stopped for all subsequent endpoints.||-2.86|-6.99|<0.001
92339250|NCT00735709|184580107|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.12|||<|0.001|TWO_SIDED|95.0|-6.17|-2.08||Hierarchical testing stopped at SDS total score at Week 8 in the testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-2.08|-6.17|<0.001
92339251|NCT00735709|184580107|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.52|||<|0.001|TWO_SIDED|95.0|-5.57|-1.47||This treatment arm is not in the testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-1.47|-5.57|<0.001
92339252|NCT00735709|184580108|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.54||||0.135|TWO_SIDED|95.0|-3.56|0.48||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.05, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||0.48|-3.56|0.135
92339253|NCT00735709|184580108|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.11||||0.263|TWO_SIDED|95.0|-3.07|0.84|||Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||0.84|-3.07|0.263
92339254|NCT00735709|184580108|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05||||0.963|TWO_SIDED|95.0|-2.03|1.94|||Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||1.94|-2.03|0.963
92339255|NCT00735709|184580109|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.55|||<|0.001|TWO_SIDED|95.0|-0.8|-0.3|||Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-0.30|-0.80|<0.001
92398774|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.4702|TWO_SIDED|95.0|-1.24|0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.58|-1.24|0.4702
92339256|NCT00735709|184580109|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.71|-0.22|||Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-0.22|-0.71|<0.001
92339257|NCT00735709|184580109|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.72|-0.23|||Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-0.23|-0.72|<0.001
92398775|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.47||0.8262|TWO_SIDED|95.0|-1.02|0.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.81|-1.02|0.8262
92398776|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3152|TWO_SIDED|95.0|-0.6|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.19|-0.60|0.3152
92339258|NCT00735709|184580110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.348|||<|0.001|TWO_SIDED|95.0|1.995|5.618|||Regression, Logistic|Regression with explanatory variables for treatment and Baseline HAM-D24 score.|Odds ratio versus placebo.|||5.618|1.995|<0.001
92339259|NCT00735709|184580110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.739|||<|0.001|TWO_SIDED|95.0|1.631|4.598|||Regression, Logistic|Regression with explanatory variables for treatment and Baseline HAM-D24 score.|Odds ratio versus placebo|||4.598|1.631|<0.001
92339260|NCT00735709|184580110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.018|||<|0.001|TWO_SIDED|95.0|1.799|5.063|||Regression, Logistic|Regression with explanatory variables for treatment and Baseline HAM-D24 score.|Odds ratio versus placebo|||5.063|1.799|<0.001
92339261|NCT00735709|184580111|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.59||||0.001|TWO_SIDED|95.0|-7.34|-1.84|||Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-1.84|-7.34|0.001
92339262|NCT00735709|184580111|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.47||||0.002|TWO_SIDED|95.0|-7.32|-1.62|||Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-1.62|-7.32|0.002
92339263|NCT00735709|184580111|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.13||||0.004|TWO_SIDED|95.0|-6.9|-1.37|||Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-1.37|-6.90|0.004
92339264|NCT00735709|184580112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.951||||0.026|TWO_SIDED|95.0|1.082|3.517|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.517|1.082|0.026
92339265|NCT00735709|184580112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.056||||0.015|TWO_SIDED|95.0|1.15|3.673|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.673|1.150|0.015
92216104|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.861||0.752|TWO_SIDED|80.0|-0.86|1.41|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.41|-0.86|0.752
92339266|NCT00735709|184580112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.753||||0.062|TWO_SIDED|95.0|0.973|3.158|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.158|0.973|0.062
92216105|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|0.62|STANDARD_ERROR_OF_MEAN|0.888||0.492|TWO_SIDED|80.0|-0.55|1.79|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.79|-0.55|0.492
92216106|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.064||0.358|TWO_SIDED|80.0|-0.4|2.4|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.40|-0.40|0.358
92216107|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS mean Difference|1.6|STANDARD_ERROR_OF_MEAN|0.97||0.11|TWO_SIDED|80.0|0.33|2.88|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.88|0.33|0.110
92216108|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS mean Difference|0.74|STANDARD_ERROR_OF_MEAN|0.993||0.461|TWO_SIDED|80.0|-0.56|2.05|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.05|-0.56|0.461
92216109|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS mean Difference|1.11|STANDARD_ERROR_OF_MEAN|1.021||0.286|TWO_SIDED|80.0|-0.23|2.45|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.45|-0.23|0.286
92216110|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|STANDARD_ERROR_OF_MEAN|1.172||0.362|TWO_SIDED|80.0|-0.45|2.63|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.63|-0.45|0.362
92339267|NCT04547140|184580135|SUPERIORITY||Difference in percentages|3.3|||||TWO_SIDED|||||||||Percentage of Participants Dying||||
92216111|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|1.48|STANDARD_ERROR_OF_MEAN|1.069||0.179|TWO_SIDED|80.0|0.07|2.88|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.88|0.07|0.179
92216112|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|1.06|STANDARD_ERROR_OF_MEAN|1.092||0.342|TWO_SIDED|80.0|-0.38|2.49|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.49|-0.38|0.342
92216113|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|1.27|STANDARD_ERROR_OF_MEAN|1.129||0.272|TWO_SIDED|80.0|-0.22|2.75|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.75|-0.22|0.272
92274823|NCT00323609|184452321|SUPERIORITY_OR_OTHER|||||||0.983||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 MCS result at 30 days||||0.983
92216114|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|1.317||0.979|TWO_SIDED|80.0|-1.77|1.7|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.70|-1.77|0.979
92216115|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.201||0.568|TWO_SIDED|80.0|-2.27|0.88|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||0.88|-2.27|0.568
92339268|NCT04547140|184580135|SUPERIORITY||Difference in percentages|6.4|||||TWO_SIDED|||||||||Percentage of Participants Requiring ICU Admission||||
92274824|NCT00323609|184452321|SUPERIORITY_OR_OTHER|||||||0.576||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 MCS result at 3 months||||0.576
92274825|NCT00323609|184452321|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 MCS result at 12 months||||0.393
92339269|NCT04547140|184580136|SUPERIORITY||Difference in percentages|6.9|||||TWO_SIDED|||||||||Percentage of Participants Who are Dependent on High Flow Oxygen Devices||||
92339270|NCT04547140|184580136|SUPERIORITY||Difference in percentages|3.4|||||TWO_SIDED|||||||||Percentage of Participants Who are Dependent on Invasive Mechanical Ventilation||||
92339271|NCT04547140|184580137|SUPERIORITY||Least Squares (LS) Mean Difference|1.22||||0.1453|TWO_SIDED|95.0|-0.43|2.87||P-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Kenward-Roger|||Day 15||2.87|-0.43|0.1453
92339272|NCT04547140|184580137|SUPERIORITY||LS Mean Difference|0.21||||0.8015|TWO_SIDED|95.0|-1.44|1.86||P-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Kenward-Roger|||Day 29||1.86|-1.44|0.8015
92339273|NCT04547140|184580139|SUPERIORITY||LS Mean Difference of Duration|1.48||||0.5135|TWO_SIDED|95.0|-3.04|6.0||P-value was calculated using an analysis of variance (ANOVA) model, including the length of hospital stay (days) as a dependent variable and treatment group as a fixed effect.|ANOVA|||||6.00|-3.04|0.5135
92339274|NCT04547140|184580140|SUPERIORITY||LS Mean Difference of Duration|3.41||||0.1221|TWO_SIDED|95.0|-0.94|7.76||P-value was calculated using an ANOVA model, including the number of days in the ICU as a dependent variable and treatment group as a fixed effect.|ANOVA|||||7.76|-0.94|0.1221
92339275|NCT04547140|184580141|SUPERIORITY||LS Mean Difference of Duration|2.78||||0.3329|TWO_SIDED|95.0|-2.92|8.48||P-value was calculated using an ANOVA model, including the number of days on oxygen as a dependent variable and treatment group as a fixed effect.|ANOVA|||||8.48|-2.92|0.3329
92339276|NCT04547140|184580142|SUPERIORITY||LS Mean Difference of Duration|3.48||||0.1092|TWO_SIDED|95.0|-0.81|7.77||P-value was calculated using an ANOVA model, including the number of days on mechanical ventilation as a dependent variable and treatment group as a fixed effect.|ANOVA|||||7.77|-0.81|0.1092
92339277|NCT04547140|184580143|SUPERIORITY||LS Mean Difference|-0.63||||0.1189|TWO_SIDED|95.0|-1.43|0.17||P-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Kenward-Roger|||Day 15||0.17|-1.43|0.1189
92339278|NCT04547140|184580143|SUPERIORITY||LS Mean Difference|-0.85||||0.0341|TWO_SIDED|95.0|-1.64|-0.07||P-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Kenward-Roger|||Day 29||-0.07|-1.64|0.0341
92339279|NCT04547140|184580147|SUPERIORITY||Difference in percentages|1.9||||0.8809|TWO_SIDED|95.0|-24.1|28.3||P-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentages of participants experiencing sustained normalization of fever.|Chi-squared|||||28.3|-24.1|0.8809
92339280|NCT00873730|184580158|SUPERIORITY_OR_OTHER|||||||0.6031|||||||Chi-squared|||||||0.6031
92339281|NCT00873730|184580159|SUPERIORITY_OR_OTHER|||||||0.9166|||||||Chi-squared|||||||0.9166
92339282|NCT00873730|184580160|SUPERIORITY_OR_OTHER|||||||0.7564|||||||Chi-squared|||||||0.7564
92339283|NCT00873730|184580161|SUPERIORITY_OR_OTHER|||||||0.3266|||||||Chi-squared|||||||0.3266
92339284|NCT00873730|184580162|SUPERIORITY_OR_OTHER|||||||0.7481|||||||Chi-squared|||||||0.7481
92339285|NCT00873730|184580163|SUPERIORITY_OR_OTHER|||||||0.7721|||||||Chi-squared|||||||0.7721
92339286|NCT00873730|184580164|SUPERIORITY_OR_OTHER|||||||0.666|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Nocturnal Back Pain.||||0.6660
92339287|NCT00873730|184580164|SUPERIORITY_OR_OTHER|||||||0.5364|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Overall Spinal Pain.||||0.5364
92339288|NCT00873730|184580165|SUPERIORITY_OR_OTHER|||||||0.9426|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for the Physician Global Assessment.||||0.9426
92339289|NCT00873730|184580165|SUPERIORITY_OR_OTHER|||||||0.4969|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for the Patient Global Assessment.||||0.4969
92398777|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4399|TWO_SIDED|95.0|-0.56|0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.24|-0.56|0.4399
92339290|NCT00873730|184580166|SUPERIORITY_OR_OTHER|||||||0.6687|||||||Wilcoxon (Mann-Whitney)|||||||0.6687
92339291|NCT00873730|184580167|SUPERIORITY_OR_OTHER|||||||0.6739|||||||Wilcoxon (Mann-Whitney)|||||||0.6739
92154779|NCT00672958|184195816|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07||||0.901|TWO_SIDED|95.0|-0.97|1.1|||ANCOVA|ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.||Comparison of change from Baseline at Week 1.||1.10|-0.97|0.901
92339292|NCT00873730|184580168|SUPERIORITY_OR_OTHER|||||||0.2772|||||||Wilcoxon (Mann-Whitney)|||||||0.2772
92339293|NCT00873730|184580169|SUPERIORITY_OR_OTHER|||||||0.156|||||||Wilcoxon (Mann-Whitney)|||||||0.1560
92339294|NCT00873730|184580170|SUPERIORITY_OR_OTHER|||||||0.2099|||||||Chi-squared|||Analysis provided for Mobility.||||0.2099
92339295|NCT00873730|184580170|SUPERIORITY_OR_OTHER|||||||0.8009|||||||Chi-squared|||Analysis provided for Self-care.||||0.8009
92339296|NCT00873730|184580170|SUPERIORITY_OR_OTHER|||||||0.429|||||||Chi-squared|||Analysis provided for Usual activities.||||0.4290
92339297|NCT00873730|184580170|SUPERIORITY_OR_OTHER|||||||0.0461|||||||Chi-squared|||Analysis provided for Pain/Discomfort.||||0.0461
92339298|NCT00873730|184580170|SUPERIORITY_OR_OTHER|||||||0.562|||||||Chi-squared|||Analysis provided for Anxiety/Depression.||||0.5620
92339299|NCT00873730|184580171|SUPERIORITY_OR_OTHER|||||||0.3476|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Physical functioning.||||0.3476
92339300|NCT00873730|184580171|SUPERIORITY_OR_OTHER|||||||0.9045|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Physical role limitations.||||0.9045
92339301|NCT00873730|184580171|SUPERIORITY_OR_OTHER|||||||0.8558|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Bodily pain.||||0.8558
92339302|NCT00873730|184580171|SUPERIORITY_OR_OTHER|||||||0.3123|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for General health.||||0.3123
92339303|NCT00873730|184580171|SUPERIORITY_OR_OTHER|||||||0.3327|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Vitality.||||0.3327
92339304|NCT00873730|184580171|SUPERIORITY_OR_OTHER|||||||0.8334|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Social functioning.||||0.8334
92339305|NCT00873730|184580171|SUPERIORITY_OR_OTHER|||||||0.7998|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Emotional role limitations.||||0.7998
92339306|NCT00873730|184580171|SUPERIORITY_OR_OTHER|||||||0.7125|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Mental health.||||0.7125
92339307|NCT00873730|184580173|SUPERIORITY_OR_OTHER|||||||0.7404|||||||Wilcoxon (Mann-Whitney)|||||||0.7404
92339308|NCT03442088|184580178|OTHER||Mean Difference (Final Values)|-0.272||||0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0001
92339309|NCT03442088|184580179|OTHER||Mean Difference (Final Values)|95.98||||0.934|TWO_SIDED|95.0|-2324.0|2516.0|||t-test, 2 sided|||||2516|-2324|0.934
92339310|NCT03442088|184580180|OTHER||Mean Difference (Final Values)|-0.6878||||0.1632|TWO_SIDED|95.0|-1.685|0.3097|||t-test, 2 sided|||||0.3097|-1.685|0.1632
92339311|NCT03442088|184580181|OTHER||Mean Difference (Final Values)|-2.344||||0.1063|TWO_SIDED|95.0|-5.248|0.5992|||t-test, 2 sided|||||0.5992|-5.248|0.1063
92339312|NCT03442088|184580182|OTHER||Mean Difference (Final Values)|3.24||||0.5611|TWO_SIDED|95.0|-8.333|14.81|||t-test, 2 sided|||||14.81|-8.333|0.5611
92339313|NCT02541422|184580187|SUPERIORITY|||||||0.45||||||p-value calculated for the total hangover scale|Wilcoxon (Mann-Whitney)|||||||0.45
92339314|NCT02541422|184580187|SUPERIORITY|||||||0.93||||||p value calculated for symptom of headache|Wilcoxon (Mann-Whitney)|||||||0.93
92339315|NCT02541422|184580187|SUPERIORITY|||||||0.11||||||p value calculated for symptom of nausea|Wilcoxon (Mann-Whitney)|||||||0.11
92339316|NCT02541422|184580187|SUPERIORITY|||||||0.72||||||p value calculated for symptom of weakness|Wilcoxon (Mann-Whitney)|||||||0.72
92398778|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1898|TWO_SIDED|95.0|-0.67|0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.13|-0.67|0.1898
92154780|NCT00672958|184195816|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26||||0.701|TWO_SIDED|95.0|-1.07|1.59|||ANCOVA|ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.||Change from Baseline at Week 2||1.59|-1.07|0.701
92154781|NCT00672958|184195816|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.68||||0.356|TWO_SIDED|95.0|-2.11|0.76|||ANCOVA|ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.||Change from Baseline at Week 3||0.76|-2.11|0.356
92154782|NCT00672958|184195816|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33||||0.67|TWO_SIDED|95.0|-1.85|1.19|||ANCOVA|ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.||Change from Baseline at Week 4||1.19|-1.85|0.670
92154783|NCT00672958|184195816|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.87||||0.304|TWO_SIDED|95.0|-2.52|0.79|||ANCOVA|ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.||Change from Baseline at Week 5||0.79|-2.52|0.304
92154784|NCT01380990|184195828|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||||
92154785|NCT01380990|184195828|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||||
92154786|NCT01380990|184195828|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||||
92154787|NCT01380990|184195828|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of patients alive at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||||
92154788|NCT01380990|184195828|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of patients alive at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||||
92154789|NCT01380990|184195828|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (all historical controls) were compared to the percentage of patients alive at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||||
92154790|NCT01380990|184195829|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||||
92154791|NCT01380990|184195829|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||||
92154792|NCT01380990|184195829|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||||
92154793|NCT01380990|184195829|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||||
92154794|NCT01380990|184195829|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||||
92154795|NCT01380990|184195829|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||||
92216116|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|1.24|STANDARD_ERROR_OF_MEAN|1.201||0.311|TWO_SIDED|80.0|-0.34|2.82|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.82|-0.34|0.311
92216117|NCT01301456|184332324|SUPERIORITY_OR_OTHER||LS Mean Difference|0.47|STANDARD_ERROR_OF_MEAN|1.26||0.71|TWO_SIDED|80.0|-1.18|2.13|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.13|-1.18|0.710
92216118|NCT00892177|184332327|SUPERIORITY_OR_OTHER_LEGACY||Maximum Tolerated Dose (mg)|100.0|||||TWO_SIDED|||||||||||||
92216119|NCT00892177|184332328|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.1||||0.22|TWO_SIDED|95.0|-0.052|0.262|||Chi-squared, Corrected||Difference in proportion|||0.262|-0.052|0.22
92216120|NCT00892177|184332330|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92||||0.7|TWO_SIDED|95.0|0.61|1.4|||Kaplan Meier|||||1.4|0.61|0.7
92216121|NCT00892177|184332331|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.14||||0.52|TWO_SIDED|95.0|0.76|1.7|||Kaplan Meier|||||1.7|0.76|0.52
92216122|NCT00892177|184332332|SUPERIORITY||Mean Difference (Final Values)|-0.223||||0.96|TWO_SIDED||||||Mixed Models Analysis||The estimate is the net difference between Arm A and Arm B total score using information from all cycles. A negative value means that Arm A has a lower quality of life and a positive value means Arm A has a higher reported quality of life.|||||0.96
92216123|NCT00892177|184332333|SUPERIORITY|||||||0.6325|||||||Fisher Exact|||||||0.6325
92216124|NCT00791258|184332362|SUPERIORITY_OR_OTHER||Percentage|75.8|||||TWO_SIDED|95.0|73.0|78.5||||||||78.5|73.0|
92216125|NCT00791258|184332363|SUPERIORITY_OR_OTHER||Percentage|84.3|||||TWO_SIDED|95.0|81.8|86.5||||||||86.5|81.8|
92216126|NCT00791258|184332364|SUPERIORITY_OR_OTHER||Percentage|71.3|||||TWO_SIDED|95.0|68.3|74.1||||||12 week analysis||74.1|68.3|
92339317|NCT00048035|184580200|SUPERIORITY_OR_OTHER||Estimated Conversion Factor 90% CI|0.38|||||TWO_SIDED|90.0|0.32|0.42|||||To analyze the appropriateness of the chosen dose conversion factors, a second regression analysis was carried out. This was a regression on the three different conversion factor dose groups, using the regression slope estimates of Hb.|All cohorts with dosing frequency 1 X / Week||0.42|0.32|
92216127|NCT00791258|184332364|SUPERIORITY_OR_OTHER||Percentage|84.8|||||TWO_SIDED|95.0|82.4|87.0||||||20 week analysis||87.0|82.4|
92216128|NCT00791258|184332365|SUPERIORITY_OR_OTHER||Median Difference (Net)|-14.6|||<|0.0001|TWO_SIDED|95.0|-15.4|-13.8|||t-test, 1 sided|||4 week analysis||-13.8|-15.4|<0.0001
92216129|NCT00791258|184332365|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.6|||<|0.0001|TWO_SIDED|95.0|-17.7|-15.7|||t-test, 1 sided|||8 week analysis||-15.7|-17.7|<0.0001
92339318|NCT00048035|184580200|SUPERIORITY_OR_OTHER||Estimated Conversion Factor 90% CI|0.61|||||TWO_SIDED|90.0|0.53|0.76|||||To analyze the appropriateness of the chosen dose conversion factors, a second regression analysis was carried out. This was a regression on the three different conversion factor dose groups, using the regression slope estimates of Hb change.|All cohorts with dosing frequency 1 X /2 Week||0.76|0.53|
92339319|NCT02619617|184580230|OTHER|1.5mg SOM230 s.c. vs. Placebo s.c.|Odds Ratio (OR)|1.308||||0.698|TWO_SIDED|90.0|0.419|4.082|||Regression, Logistic|||||4.082|0.419|0.698
92216130|NCT00791258|184332365|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.8|||<|0.0001|TWO_SIDED|95.0|-22.7|-20.9|||t-test, 1 sided|||12 week analysis||-20.9|-22.7|<0.0001
92216131|NCT00791258|184332365|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.0|||<|0.0001|TWO_SIDED|95.0|-27.0|-25.0|||t-test, 1 sided|||16 week analysis||-25.0|-27.0|<0.0001
92339320|NCT02619617|184580231|OTHER|1.5mg SOM230 s.c. vs. Placebo s.c.|Odds Ratio (OR)|2.033||||0.385|TWO_SIDED|90.0|0.53|7.79|||Regression, Logistic|||||7.790|0.530|0.385
92216132|NCT00791258|184332365|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.8|||<|0.0001|TWO_SIDED|95.0|-27.8|-25.7|||t-test, 1 sided|||20 week analysis||-25.7|-27.8|<0.0001
92216133|NCT00791258|184332366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.1|||<|0.0001|TWO_SIDED|95.0|-8.6|-7.6|||t-test, 1 sided|||4 week analysis||-7.6|-8.6|<0.0001
92216134|NCT00791258|184332366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.1|||<|0.0001|TWO_SIDED|95.0|-9.7|-8.5|||t-test, 1 sided|||8 week analysis||-8.5|-9.7|<0.0001
92339321|NCT02326272|184580252|SUPERIORITY||Odds Ratio (OR)|33.405|||<|0.0001|TWO_SIDED|97.5|9.965|111.983||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose versus (vs) placebo (PBO).|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||111.983|9.965|<0.0001
92216135|NCT00791258|184332366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.9|||<|0.0001|TWO_SIDED|95.0|-12.5|-11.4|||t-test, 1 sided|||12 week analysis||-11.4|-12.5|<0.0001
92216136|NCT00791258|184332366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.6|||<|0.0001|TWO_SIDED|95.0|-15.2|-14.0|||t-test, 1 sided|||16 week analysis||-14.0|-15.2|<0.0001
92216137|NCT00791258|184332366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.5||||0.0001|TWO_SIDED|95.0|-15.1|-13.8|||t-test, 1 sided|||20 week analysis||-13.8|-15.1|0.0001
92216138|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.8|||<|0.0001|TWO_SIDED|95.0|-16.2|-13.4|||t-test, 1 sided|||Mean 24-hour systolic blood pressure||-13.4|-16.2|<0.0001
92216139|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.3|||<|0.0001|TWO_SIDED|95.0|-17.8|-14.8|||t-test, 1 sided|||Mean daytime systolic blood pressure||-14.8|-17.8|<0.0001
92216140|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.5|||<|0.0001|TWO_SIDED|95.0|-14.1|-10.8|||t-test, 1 sided|||Mean nighttime systolic blood pressure||-10.8|-14.1|<0.0001
92216141|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.6|||<|0.0001|TWO_SIDED|95.0|-15.7|-11.6|||t-test, 1 sided|||systolic blood pressure during last 2 hours of dose||-11.6|-15.7|<0.0001
92216142|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.0|||<|0.0001|TWO_SIDED|95.0|-14.7|-11.2|||t-test, 1 sided|||systolic blood pressure during last 4 hours of dose||-11.2|-14.7|<0.0001
92216143|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.6|||<|0.0001|TWO_SIDED|95.0|-14.3|-10.9|||t-test, 1 sided|||systolic blood pressure during last 6 hours of dose||-10.9|-14.3|<0.0001
92216144|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.4|||<|0.0001||95.0|-10.3|-8.5|||t-test, 1 sided|||Mean 24-hour diastolic blood pressure||-8.5|-10.3|<0.0001
92216145|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.6|||<|0.0001|TWO_SIDED|95.0|-11.7|-9.6|||t-test, 1 sided|||Mean daytime diastolic blood pressure||-9.6|-11.7|<0.0001
92216146|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.6|||<|0.0001|TWO_SIDED|95.0|-8.8|-6.4|||t-test, 1 sided|||Mean nighttime diastolic blood pressure||-6.4|-8.8|<0.0001
92216147|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.6|||<|0.0001||95.0|-10.0|-7.2|||t-test, 1 sided|||diastolic blood pressure during last 2 hours of dose||-7.2|-10.0|<0.0001
92216148|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.0|||<|0.0001|TWO_SIDED|95.0|-9.2|-6.8|||t-test, 1 sided|||diastolic blood pressure during last 4 hours of dose||-6.8|-9.2|<0.0001
92154796|NCT01380990|184195834|OTHER|Model includes fixed effects for visit and Baseline, subject as random effect, with compound symmetry covariance structure. Observations with a value of 0 were imputed as 0.01. Model analyses log transformed data, so the adjusted mean refers to the geometric mean ratio between Month 12 and Baseline.|||||=|0.002|||||||Mixed Models Analysis|||"Mixed-Effect Model Repeated Measure (MMRM) Analysis of Change from Baseline to Month 12 in Log-Transformed CD3+ T Cell count (OTL-101\*) for OTL-101\* on-study subjects group."||||= 0.002
92154797|NCT01380990|184195834|OTHER|Model includes fixed effects for visit and Baseline, subject as random effect, with compound symmetry covariance structure. Observations with a value of 0 were imputed as 0.01. Model analyses log transformed data, so the adjusted mean refers to the geometric mean ratio between Month 12 and Baseline.|||||<|0.001|||||||Mixed Models Analysis|||"MMRM Analysis of Change from Baseline to Month 12 in Log-Transformed CD3+ T Cell count (OTL-101\*) for OTL-101\* on-study and CUP subjects group."||||< 0.001
92154798|NCT01380990|184195839|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||||
92154799|NCT01380990|184195839|SUPERIORITY||Difference in percentages|11.11|||||TWO_SIDED|95.0|-22.41|48.25||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||48.25|-22.41|
92154800|NCT01380990|184195839|SUPERIORITY||Difference in percentages|7.14|||||TWO_SIDED|95.0|-28.1|34.23||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||34.23|-28.10|
92154801|NCT01380990|184195839|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||||
92154802|NCT01380990|184195839|SUPERIORITY||Difference in percentages|11.11|||||TWO_SIDED|95.0|-10.01|48.25||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||48.25|-10.01|
92154803|NCT01380990|184195839|SUPERIORITY||Difference in percentages|7.14|||||TWO_SIDED|95.0|-12.91|33.87||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||33.87|-12.91|
92339322|NCT02326272|184580252|SUPERIORITY||Estimated difference in responder rate|69.7|||||TWO_SIDED|95.0|57.12|82.36|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||82.36|57.12|
92154804|NCT01380990|184195840|SUPERIORITY||||||=|0.645|||||||Log Rank|||||||=0.645
92154805|NCT01380990|184195840|SUPERIORITY||||||=|0.299|||||||Log Rank|||||||=0.299
92154806|NCT01380990|184195840|SUPERIORITY||||||=|0.2|||||||Log Rank|||||||= 0.2
92154807|NCT01380990|184195840|SUPERIORITY||||||=|0.028|||||||Log Rank|||||||= 0.028
92154808|NCT01380990|184195840|SUPERIORITY||||||=|0.259|||||||Log Rank|||||||= 0.259
92154809|NCT01380990|184195840|SUPERIORITY||||||=|0.044|||||||Log Rank|||||||= 0.044
92154810|NCT01380990|184195840|SUPERIORITY||Difference in percentages|10.0|||||TWO_SIDED|95.0|-32.05|61.97||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 3-years post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||61.97|-32.05|
92154811|NCT01380990|184195840|SUPERIORITY||Difference in percentages|30.0|||||TWO_SIDED|95.0|-10.72|65.87||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 3-years post treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||65.87|-10.72|
92154812|NCT01380990|184195840|SUPERIORITY||Difference in percentages|23.33|||||TWO_SIDED|95.0|-15.24|54.59||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with EvFS at 3-years post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||54.59|-15.24|
92154813|NCT01380990|184195840|SUPERIORITY||Difference in percentages|15.0|||||TWO_SIDED|95.0|-13.7|63.54||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 3-years post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||63.54|-13.70|
92154814|NCT01380990|184195840|SUPERIORITY||Difference in percentages|35.0|||||TWO_SIDED|95.0|2.29|68.45||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 3-years post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||68.45|2.29|
92398779|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.21||0.9791|TWO_SIDED|95.0|-0.4|0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.41|-0.40|0.9791
92216149|NCT00791258|184332378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.7|||<|0.0001||95.0|-8.8|-6.6|||t-test, 1 sided|||diastolic blood pressure during last 6 hours of dose||-6.6|-8.8|<0.0001
92216150|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.0|||<|0.0001|TWO_SIDED|95.0|-22.6|-19.3|||t-test, 1 sided|||24-hour mean systolic blood pressure||-19.3|-22.6|<0.0001
92216151|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.2|||<|0.0001|TWO_SIDED|95.0|-25.1|-21.4|||t-test, 1 sided|||Mean daytime systolic blood pressure||-21.4|-25.1|<0.0001
92216152|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.5|||<|0.0001|TWO_SIDED|95.0|-19.4|-15.6|||t-test, 1 sided|||Mean nighttime systolic blood pressure||-15.6|-19.4|<0.0001
92216153|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.6|||<|0.0001|TWO_SIDED|95.0|-21.7|-17.4|||t-test, 1 sided|||Systolic blood pressure - last 2 hours of dose||-17.4|-21.7|<0.0001
92216154|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-18.2|||<|0.0001|TWO_SIDED|95.0|-20.2|-16.3|||t-test, 1 sided|||Systolic blood pressure - last 4 hours of dose||-16.3|-20.2|<0.0001
92216155|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.9|||<|0.0001|TWO_SIDED|95.0|-19.7|-16.0|||t-test, 1 sided|||Systolic blood pressure - last 6 hours of dose||-16.0|-19.7|<0.0001
92216156|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.3|||<|0.0001|TWO_SIDED|95.0|-14.4|-12.2|||t-test, 1 sided|||24-hour mean diastolic blood pressure||-12.2|-14.4|<0.0001
92216157|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.0|||<|0.0001|TWO_SIDED|95.0|-16.2|-13.8|||t-test, 1 sided|||Mean daytime diastolic blood pressure||-13.8|-16.2|<0.0001
92216158|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.1|||<|0.0001|TWO_SIDED|95.0|-12.4|-9.8|||t-test, 1 sided|||Mean nighttime diastolic blood pressure||-9.8|-12.4|<0.0001
92216159|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.3|||<|0.0001|TWO_SIDED|95.0|-13.8|-10.8|||t-test, 1 sided|||Diastolic blood pressure - last 2 hours of dose||-10.8|-13.8|<0.0001
92339323|NCT02326272|184580252|SUPERIORITY||Odds Ratio (OR)|36.212|||<|0.0001|TWO_SIDED|97.5|10.686|122.713||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||122.713|10.686|<0.0001
92398780|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.3178|TWO_SIDED|95.0|-0.61|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.20|-0.61|0.3178
92398781|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4174|TWO_SIDED|95.0|-0.57|0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.24|-0.57|0.4174
92216160|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.6|||<|0.0001|TWO_SIDED|95.0|-12.9|-10.2|||t-test, 1 sided|||Diastolic blood pressure - last 4 hours of dose||-10.2|-12.9|<0.0001
92216161|NCT00791258|184332379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.3|||<|0.0001|TWO_SIDED|95.0|-12.6|-10.0|||t-test, 1 sided|||Diastolic blood pressure - last 6 hours of dose||-10.0|-12.6|<0.0001
92216162|NCT01372150|184332422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.71||||0.226|TWO_SIDED|95.0|-1.06|4.48|||Mixed-effects model for repeated measure|Mixed-effects model for repeated measures (MMRM)|Adjusted mean difference = placebo - fluoxetine|Fluoxetine versus Placebo||4.48|-1.06|0.226
92216163|NCT01372150|184332422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.739|TWO_SIDED|95.0|-3.23|2.3|||MMRM||Adjusted mean difference = Placebo - DVS SR|DVS SR versus Placebo||2.30|-3.23|0.739
92216164|NCT01372150|184332423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.224|TWO_SIDED|95.0|-0.11|0.46|||MMRM||Adjusted mean difference = Placebo - Fluoxetine|Fluoxetine versus Placebo||0.46|-0.11|0.224
92216165|NCT01372150|184332423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.944|TWO_SIDED|95.0|-0.29|0.27|||MMRM||Adjusted mean difference = Placebo - DVS SR|DVS SR versus Placebo||0.27|-0.29|0.944
92216166|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.924||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 1||||0.924
92216167|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.698||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 1||||0.698
92216168|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.214||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 2||||0.214
92216169|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.113||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 2||||0.113
92216170|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.314||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 3||||0.314
92216171|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.659||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 3||||0.659
92216172|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.577||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 4||||0.577
92216173|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.187||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 4||||0.187
92274826|NCT00323609|184452321|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 MCS result at 24 months||||0.722
92154815|NCT01380990|184195840|SUPERIORITY||Difference in percentages|28.33|||||TWO_SIDED|95.0|2.04|56.36||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with EvFS at 3-years post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||56.36|2.04|
92339324|NCT02326272|184580252|SUPERIORITY||Estimated difference in responder rate|71.0|||||TWO_SIDED|95.0|58.47|83.43|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||83.43|58.47|
92339325|NCT02326272|184580253|SUPERIORITY||Odds Ratio (OR)|106.225|||<|0.0001|TWO_SIDED|97.5|9.572|1178.843||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||1178.843|9.572|<0.0001
92154816|NCT03192215|184195874|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.99|TWO_SIDED|95.0|0.64|1.55|||Log Rank|||||1.55|0.64|0.99
92154817|NCT03192215|184195875|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.72|TWO_SIDED|95.0|0.59|1.44|||Log Rank|||||1.44|0.59|0.72
92154818|NCT03192215|184195876|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.67|TWO_SIDED|95.0|0.76|1.52|||Log Rank|||||1.52|0.76|0.67
92154819|NCT03192215|184195877|SUPERIORITY||Difference of annual rate.|-0.011||||0.02|TWO_SIDED|95.0|-0.018|-0.003|||Exact Binomial Test|||||-0.003|-0.018|.02
92154820|NCT03192215|184195878|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.98|TWO_SIDED|95.0|0.29|3.52|||Log Rank|||||3.52|0.29|0.98
92154821|NCT03192215|184195879|SUPERIORITY||Hazard Ratio (HR)|1.53||||0.35|TWO_SIDED|95.0|0.63|3.75|||Log Rank|||||3.75|0.63|0.35
92154822|NCT02593032|184195880|SUPERIORITY||Mean Difference (Net)|12.0|||<|0.05|TWO_SIDED|||||This is the calculated p-value, not a threshold.|t-test, 2 sided|||||||<0.05
92154823|NCT04844918|184195881|SUPERIORITY||LS Mean Difference|-16.1|||<|0.001|TWO_SIDED|95.0|-18.7|-13.5|||Mixed Models Analysis|||||-13.5|-18.7|<0.001
92154824|NCT04844918|184195881|SUPERIORITY||LS Mean Difference|-21.1|||<|0.001|TWO_SIDED|95.0|-23.6|-18.5|||Mixed Models Analysis|||||-18.5|-23.6|<0.001
92154825|NCT04844918|184195882|SUPERIORITY||Odds Ratio (OR)|119.65|||<|0.001|TWO_SIDED|95.0|29.06|492.67|||Mixed Models Analysis|||||492.67|29.06|<0.001
92154826|NCT04844918|184195882|SUPERIORITY||Odds Ratio (OR)|153.57|||<|0.001|TWO_SIDED|95.0|36.03|654.53|||Mixed Models Analysis|||||654.53|36.03|<0.001
92398782|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.249|TWO_SIDED|95.0|-0.63|0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.16|-0.63|0.2490
92154827|NCT04844918|184195883|SUPERIORITY||Odds Ratio (OR)|24.26|||<|0.001|TWO_SIDED|95.0|8.62|68.28|||Regression, Logistic|||||68.28|8.62|<0.001
92154828|NCT04844918|184195883|SUPERIORITY||Odds Ratio (OR)|38.27|||<|0.001|TWO_SIDED|95.0|13.21|110.89|||Regression, Logistic|||||110.89|13.21|<0.001
92154829|NCT04844918|184195884|SUPERIORITY||LS Mean Difference|-15.0|||<|0.001|TWO_SIDED|95.0|-18.91|-11.09|||Mixed Models Analysis|||||-11.09|-18.91|<0.001
92154830|NCT04844918|184195884|SUPERIORITY||LS Mean Difference|-12.8|||<|0.001|TWO_SIDED|95.0|-16.56|-9.05|||Mixed Models Analysis|||||-9.05|-16.56|<0.001
92154831|NCT04844918|184195885|SUPERIORITY||LS Mean Difference|-55.76|||<|0.001|TWO_SIDED|95.0|-69.74|-41.77|||Mixed Models Analysis|||||-41.77|-69.74|<0.001
92154832|NCT04844918|184195885|SUPERIORITY||LS Mean Difference|-64.82|||<|0.001|TWO_SIDED|95.0|-78.2|-51.43|||Mixed Models Analysis|||||-51.43|-78.20|<0.001
92154833|NCT04844918|184195886|SUPERIORITY||LS Mean Difference|-40.7|||<|0.001|TWO_SIDED|95.0|-50.0|-29.7|||Mixed Models Analysis|||||-29.7|-50.0|<0.001
92154834|NCT04844918|184195886|SUPERIORITY||LS Mean Difference|-44.5|||<|0.001|TWO_SIDED|95.0|-52.7|-34.9|||Mixed Models Analysis|||||-34.9|-52.7|<0.001
92154835|NCT04844918|184195887|SUPERIORITY||LS Mean Difference|-44.4|||<|0.001|TWO_SIDED|95.0|-53.0|-35.7|||ANCOVA|||||-35.7|-53.0|<0.001
92154836|NCT04844918|184195887|SUPERIORITY||LS Mean Difference|-50.4|||<|0.001|TWO_SIDED|95.0|-58.8|-41.9|||ANCOVA|||||-41.9|-58.8|<0.001
92154837|NCT04844918|184195888|SUPERIORITY||Odds Ratio (OR)|25.42|||<|0.001|TWO_SIDED|95.0|7.25|89.14|||Regression, Logistic|||||89.14|7.25|<0.001
92154838|NCT04844918|184195888|SUPERIORITY||Odds Ratio (OR)|70.66|||<|0.001|TWO_SIDED|95.0|12.73|392.24|||Regression, Logistic|||||392.24|12.73|<0.001
92154839|NCT04844918|184195889|SUPERIORITY||Odds Ratio (OR)|9.29|||<|0.001|TWO_SIDED|95.0|2.86|30.2|||Regression, Logistic|||||30.20|2.86|<0.001
92154840|NCT04844918|184195889|SUPERIORITY||Odds Ratio (OR)|15.67|||<|0.001|TWO_SIDED|95.0|4.78|51.37|||Regression, Logistic|||||51.37|4.78|<0.001
92154841|NCT04844918|184195890|SUPERIORITY||Odds Ratio (OR)|27.5|||<|0.001|TWO_SIDED|95.0|9.35|80.88|||Regression, Logistic|||||80.88|9.35|<0.001
92154842|NCT04844918|184195890|SUPERIORITY||Odds Ratio (OR)|40.01|||<|0.001|TWO_SIDED|95.0|13.27|120.57|||Regression, Logistic|||||120.57|13.27|<0.001
92154843|NCT04844918|184195891|SUPERIORITY||Odds Ratio (OR)|185.92|||<|0.001|TWO_SIDED|95.0|46.39|745.16|||Regression, Logistic|||||745.16|46.39|<0.001
92154844|NCT04844918|184195891|SUPERIORITY||Odds Ratio (OR)|318.02|||<|0.001|TWO_SIDED|95.0|74.49|1357.79|||Regression, Logistic|||||1357.79|74.49|<0.001
92154845|NCT04844918|184195892|SUPERIORITY||Odds Ratio (OR)|100.21|||<|0.001|TWO_SIDED|95.0|18.64|538.74|||Regression, Logistic|||||538.74|18.64|<0.001
92154846|NCT04844918|184195892|SUPERIORITY||Odds Ratio (OR)|286.73|||<|0.001|TWO_SIDED|95.0|50.68|1622.06|||Regression, Logistic|||||1622.06|50.68|<0.001
92154847|NCT04844918|184195893|SUPERIORITY||LS Mean Difference|-14.5|||<|0.001|TWO_SIDED|95.0|-16.8|-12.2|||Mixed Models Analysis|||||-12.2|-16.8|<0.001
92154848|NCT04844918|184195893|SUPERIORITY||LS Mean Difference|-19.3|||<|0.001|TWO_SIDED|95.0|-21.6|-17.0|||Mixed Models Analysis|||||-17.0|-21.6|<0.001
92154849|NCT04844918|184195894|SUPERIORITY||LS Mean Difference|-5.2|||<|0.001|TWO_SIDED|95.0|-6.1|-4.4|||Mixed Models Analysis|||||-4.4|-6.1|<0.001
92154850|NCT04844918|184195894|SUPERIORITY||LS Mean Difference|-7.1|||<|0.001|TWO_SIDED|95.0|-8.0|-6.3|||Mixed Models Analysis|||||-6.3|-8.0|<0.001
92339326|NCT02326272|184580253|SUPERIORITY||Estimated difference in responder rate|64.8|||||TWO_SIDED|95.0|52.16|77.46|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||77.46|52.16|
92154851|NCT04844918|184195895|SUPERIORITY||LS Mean Difference|-36.1|||<|0.001|TWO_SIDED|95.0|-42.9|-29.3|||Mixed Models Analysis|||||-29.3|-42.9|<0.001
92154852|NCT04844918|184195895|SUPERIORITY||LS Mean Difference|-41.1|||<|0.001|TWO_SIDED|95.0|-47.8|-34.4|||Mixed Models Analysis|||||-34.4|-47.8|<0.001
92154853|NCT04844918|184195896|SUPERIORITY||LS Mean Difference|-27.2|||<|0.001|TWO_SIDED|95.0|-32.6|-21.9|||Mixed Models Analysis|||||-21.9|-32.6|<0.001
92154854|NCT04844918|184195896|SUPERIORITY||LS Mean Difference|-31.5|||<|0.001|TWO_SIDED|95.0|-36.7|-26.2|||Mixed Models Analysis|||||-26.2|-36.7|<0.001
92154855|NCT04844918|184195897|SUPERIORITY||LS Mean Difference|-0.1||||0.004|TWO_SIDED|95.0|-0.16|-0.03|||Mixed Models Analysis|||||-0.03|-0.16|0.004
92154856|NCT04844918|184195897|SUPERIORITY||LS Mean Difference|-0.09||||0.006|TWO_SIDED|95.0|-0.15|-0.03|||Mixed Models Analysis|||||-0.03|-0.15|0.006
92154857|NCT04844918|184195898|SUPERIORITY||Odds Ratio (OR)|28.52|||<|0.001|TWO_SIDED|95.0|4.31|188.55|||Regression, Logistic|||||188.55|4.31|<0.001
92154858|NCT04844918|184195898|SUPERIORITY||Odds Ratio (OR)|57.73|||<|0.001|TWO_SIDED|95.0|8.68|383.88|||Regression, Logistic|||||383.88|8.68|<0.001
92154859|NCT04844918|184195899|SUPERIORITY||LS Mean Difference|-11.4|||<|0.001|TWO_SIDED|95.0|-13.8|-9.0|||Mixed Models Analysis|||||-9.0|-13.8|<0.001
92154860|NCT04844918|184195899|SUPERIORITY||LS Mean Difference|-15.3|||<|0.001|TWO_SIDED|95.0|-17.7|-13.0|||Mixed Models Analysis|||||-13.0|-17.7|<0.001
92216174|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.051||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 6||||0.051
92339327|NCT02326272|184580253|SUPERIORITY||Odds Ratio (OR)|133.163|||<|0.0001|TWO_SIDED|97.5|11.904|1489.578||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||1489.578|11.904|<0.0001
92154861|NCT04844918|184195900|SUPERIORITY||LS Mean Difference|-0.65|||<|0.001|TWO_SIDED|95.0|-0.77|-0.53|||Mixed Models Analysis|||||-0.53|-0.77|<0.001
92154862|NCT04844918|184195900|SUPERIORITY||LS Mean Difference|-0.66|||<|0.001|TWO_SIDED|95.0|-0.77|-0.55|||Mixed Models Analysis|||||-0.55|-0.77|<0.001
92154863|NCT04844918|184195901|SUPERIORITY||LS Mean Difference|-3.91|||||TWO_SIDED|95.0|-5.74|-2.08||||||||-2.08|-5.74|
92154864|NCT04844918|184195901|SUPERIORITY||LS Mean Difference|-4.55|||||TWO_SIDED|95.0|-6.29|-2.81||||||||-2.81|-6.29|
92154865|NCT04844918|184195902|SUPERIORITY||LS Mean Difference|-13.2|||<|0.001|TWO_SIDED|95.0|-17.0|-9.3|||Mixed Models Analysis|||||-9.3|-17.0|<0.001
92154866|NCT04844918|184195902|SUPERIORITY||LS Mean Difference|-13.9|||<|0.001|TWO_SIDED|95.0|-17.7|-10.1|||Mixed Models Analysis|||||-10.1|-17.7|<0.001
92154867|NCT04844918|184195903|SUPERIORITY||LS Mean Difference|-6.3|||<|0.001|TWO_SIDED|95.0|-9.3|-3.4|||Mixed Models Analysis|||||-3.4|-9.3|<0.001
92154868|NCT04844918|184195903|SUPERIORITY||LS Mean Difference|-6.8|||<|0.001|TWO_SIDED|95.0|-9.7|-3.9|||Mixed Models Analysis|||||-3.9|-9.7|<0.001
92154869|NCT04844918|184195904|SUPERIORITY||LS Mean Difference|1.3||||0.022|TWO_SIDED|95.0|0.2|2.3|||ANCOVA|||||2.3|0.2|0.022
92154870|NCT04844918|184195904|SUPERIORITY||LS Mean Difference|2.1|||<|0.001|TWO_SIDED|95.0|1.1|3.2|||ANCOVA|||||3.2|1.1|<0.001
92154871|NCT04844918|184195905|SUPERIORITY||LS Mean Difference|13.0|||<|0.001|TWO_SIDED|95.0|7.4|18.7|||ANCOVA|||||18.7|7.4|<0.001
92154872|NCT04844918|184195905|SUPERIORITY||LS Mean Difference|10.8|||<|0.001|TWO_SIDED|95.0|5.4|16.3|||ANCOVA|||||16.3|5.4|<0.001
92154873|NCT04844918|184195906|SUPERIORITY||LS Mean Difference|0.03||||0.099|TWO_SIDED|95.0|0.0|0.06|||ANCOVA|||||0.06|0.00|0.099
92154874|NCT04844918|184195906|SUPERIORITY||LS Mean Difference|0.02||||0.236|TWO_SIDED|95.0|-0.01|0.05|||ANCOVA|||||0.05|-0.01|0.236
92154875|NCT01009047|184195909|SUPERIORITY_OR_OTHER||Least-squares (LS) mean difference|0.1|STANDARD_ERROR_OF_MEAN|1.83||0.935|TWO_SIDED|95.0|-3.46|3.76||Analysis of covariance (ANCOVA) model with treatment (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||3.76|-3.46|0.935
92154876|NCT01009047|184195910|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|2.2||0.877|TWO_SIDED|95.0|-4.68|4.0||Analysis of covariance (ANCOVA) model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||4.00|-4.68|0.877
92154877|NCT01009047|184195911|SUPERIORITY_OR_OTHER||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.54||0.341|TWO_SIDED|95.0|-0.55|1.59||Day 56: Analysis of covariance (ANCOVA) model with treatment (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||1.59|-0.55|0.341
92154878|NCT01009047|184195911|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.66||0.723|TWO_SIDED|95.0|-1.06|1.53||Day 182: Analysis of covariance (ANCOVA) model with treatment (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||1.53|-1.06|0.723
92154879|NCT01009047|184195912|SUPERIORITY_OR_OTHER|||||||0.351||||||Change at Day 56: Positive Symptoms - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate.|ANCOVA|||||||0.351
92154880|NCT01009047|184195912|SUPERIORITY_OR_OTHER|||||||0.691||||||Change at Day 182:Positive Symptoms - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||||0.691
92216175|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.266||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 6||||0.266
92339328|NCT02326272|184580253|SUPERIORITY||Estimated difference in responder rate|69.6|||||TWO_SIDED|95.0|57.48|81.77|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||81.77|57.48|
92339329|NCT02326272|184580254|SUPERIORITY||Odds Ratio (OR)|24.283|||<|0.0001|TWO_SIDED|97.5|4.386|134.432||The p-value for this analysis as used in the fixed sequence testing procedure was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||134.432|4.386|<0.0001
92339330|NCT02326272|184580254|SUPERIORITY||Estimated difference in responder rate|48.1|||||TWO_SIDED|95.0|35.04|61.26|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||61.26|35.04|
92339331|NCT02326272|184580254|SUPERIORITY||Odds Ratio (OR)|27.204|||<|0.0001|TWO_SIDED|97.5|4.895|151.198||The p-value for this analysis as used in the fixed sequence testing procedure was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||151.198|4.895|<0.0001
92154881|NCT01009047|184195912|SUPERIORITY_OR_OTHER|||||||0.965||||||Change at Day 56: Disorganized thoughts - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||||0.965
92154882|NCT01009047|184195912|SUPERIORITY_OR_OTHER|||||||0.766||||||Change at Day 182: Disorganized thoughts - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||||0.766
92154883|NCT01009047|184195912|SUPERIORITY_OR_OTHER|||||||0.984||||||Change at Day 56: Uncontrolled hostility/ excitement - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||||0.984
92154884|NCT01009047|184195912|SUPERIORITY_OR_OTHER|||||||0.985||||||Change at Day 182: Uncontrolled Hositility/ Excitement - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||||0.985
92154885|NCT01009047|184195912|SUPERIORITY_OR_OTHER|||||||0.803||||||Change at Day 56: Anxiety/ depression - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate.|ANCOVA|||||||0.803
92154886|NCT01009047|184195912|SUPERIORITY_OR_OTHER|||||||0.745||||||Change at Day 182: Anxiety/ depression - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate.|ANCOVA|||||||0.745
92154887|NCT01009047|184195914|SUPERIORITY_OR_OTHER|||||||0.296||||||Generalized Cochran- Mantel- Haenszel test for row mean score differences controlling for country was used.|Cochran-Mantel-Haenszel|||||||0.296
92154888|NCT01009047|184195915|SUPERIORITY_OR_OTHER|||||||0.843||||||Change at Day 56: ANCOVA model on ranks with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value (unranked) as a covariate was used.|ANCOVA|||||||0.843
92154889|NCT01009047|184195915|SUPERIORITY_OR_OTHER|||||||0.914||||||Change at Day 182: ANCOVA model on ranks with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value (unranked) as a covariate was used.|ANCOVA|||||||0.914
92154890|NCT01009047|184195916|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|1.27||0.895|TWO_SIDED|95.0|-2.34|2.67||Change at Day 56: Analysis of covariance (ANCOVA) model with treatment groups(paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||2.67|-2.34|0.895
92154891|NCT01009047|184195916|SUPERIORITY_OR_OTHER||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|1.66||0.705|TWO_SIDED|95.0|-2.64|3.89||Change at Day 182: Analysis of covariance (ANCOVA) model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||3.89|-2.64|0.705
92154892|NCT01009047|184195917|SUPERIORITY_OR_OTHER|||||||0.119||||||Day 56: Generalized Cochran-Mantel-Haenszel test for row mean score differences was used.|Cochran-Mantel-Haenszel|||||||0.119
92154893|NCT01009047|184195917|SUPERIORITY_OR_OTHER|||||||0.444||||||Day 182: Generalized Cochran-Mantel-Haenszel test for row mean score differences was used.|Cochran-Mantel-Haenszel|||||||0.444
92154894|NCT01216293|184195962|SUPERIORITY_OR_OTHER_LEGACY||Difference|19.2|||||TWO_SIDED|95.0|7.0|30.2|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||30.2|7.0|
92154895|NCT01216293|184195962|SUPERIORITY_OR_OTHER_LEGACY||Difference|18.2|||||TWO_SIDED|95.0|6.7|30.4|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||30.4|6.7|
92154896|NCT01216293|184195963|SUPERIORITY_OR_OTHER_LEGACY||Difference|27.366|||||TWO_SIDED|95.0|12.749|42.957|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||42.957|12.749|
92154897|NCT01216293|184195963|SUPERIORITY_OR_OTHER_LEGACY||Difference|22.025|||||TWO_SIDED|95.0|8.357|35.714|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||35.714|8.357|
92154898|NCT01216293|184195964|SUPERIORITY_OR_OTHER_LEGACY||Difference|20.1|||||TWO_SIDED|95.0|4.0|34.4|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||34.4|4.0|
92154899|NCT01216293|184195964|SUPERIORITY_OR_OTHER_LEGACY||Difference|11.6|||||TWO_SIDED|95.0|-2.7|28.3|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||28.3|-2.7|
92154900|NCT01216293|184195965|SUPERIORITY_OR_OTHER_LEGACY||Difference|6.83|||||TWO_SIDED|95.0|0.4|12.78|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||12.78|0.40|
92154901|NCT01216293|184195965|SUPERIORITY_OR_OTHER_LEGACY||Difference|7.23|||||TWO_SIDED|95.0|0.59|12.86|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||12.86|0.59|
92339332|NCT02326272|184580254|SUPERIORITY||Estimated difference in responder rate|51.0|||||TWO_SIDED|95.0|37.75|64.19|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||64.19|37.75|
92154902|NCT00654940|184196011|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.305||||80.0|-1.21|-0.41|||ANCOVA|||Treatment comparison of pregabalin - placebo: mixed effects analysis of covariance model fitted on the full analysis set population, accounting for period and treatment effects. Subject was fitted as a random effect, and baseline was fitted as two covariates.||-0.41|-1.21|
92154903|NCT00654940|184196012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|2.493||||80.0|-3.82|2.78|||ANCOVA|||Neuropathic Pain Symptom Inventory treatment comparison: Pregabalin - Placebo. Total score was analyzed using a mixed effect analysis of covariance model based on the full analysis set (FAS), accounting for period and treatment effects. Subject was fitted as a random effect and baseline was fitted as two covariates.||2.78|-3.82|
92154904|NCT00654940|184196013|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29000.0|STANDARD_ERROR_OF_MEAN|17000.0||||80.0|6100.0|51000.0|||ANCOVA|||Difference in least squares means Pregabalin-Placebo. Model of day (8 am to 8 pm) total activity score at end of treatment. Mixed effects analysis of covariance model was fitted on the full analysis set population, accounting for period and treatment effects. Subject was fitted as a random effect and baseline was fitted as two covariates.||51000|6100|
92154905|NCT01682538|184196019|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the ratio was completely within the acceptance range (0.80-1.25)|Ratio of geometric means|0.858|||||TWO_SIDED|90.0|0.81|0.91|||ANOVA|||||0.91|0.81|
92154906|NCT01682538|184196020|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the ratio was completely within the acceptance range (0.80-1.25)|Ratio of geometric means|0.954|||||TWO_SIDED|90.0|0.85|1.07|||ANOVA|||||1.07|0.85|
92154907|NCT01682538|184196021|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence (no food effect) was established if the 90% confidence interval of the ratio was completely within the acceptance range (0.80 - 1.25).|Ratio of geometric means|1.013|||||TWO_SIDED|90.0|0.96|1.07|||ANOVA|||||1.07|0.96|
92154908|NCT01682538|184196022|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence (no food effect) was established if the 90% confidence interval of the ratio was completely within the acceptance range (0.80 - 1.25)|Ratio of geometric means|0.802|||||TWO_SIDED|90.0|0.71|0.9|||ANOVA|||||0.90|0.71|
92154909|NCT00777803|184196029|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% Newcombe confidence interval for proportions (paired data) was applied. The lower bound of the Newcombe-Wilson confidence interval of the difference in response rates between groups was compared to the non-inferiority margin of -15%.|difference of response rates|0.7|||||TWO_SIDED|95.0|-3.2|7.1|||||Difference of response rates = response rate in IncobotulinumtoxinA (Xeomin®/Bocouture®) - response rate in OnabotulinumtoxinA (Vistabel®)|Null Hypothesis: Response rate of IncobotulinumtoxinA (Xeomin®/Bocouture®) minus the response rate of OnabotulinumtoxinA (Vistabel®) is lower or equal -15% (non-inferiority margin).||7.1|-3.2|
92154910|NCT01755689|184196043|NON_INFERIORITY|The non-inferiority criteria: the upper limit (UL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|1.19|||||TWO_SIDED|95.0|0.99|1.43|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix+Boostrix Group in terms of rSBA-MenA titers.||1.43|0.99|
92154911|NCT01755689|184196043|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|1.01|||||TWO_SIDED|95.0|0.84|1.21|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix Group in terms of rSBA-MenA titers.||1.21|0.84|
92154912|NCT01755689|184196043|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|1.19|||||TWO_SIDED|95.0|0.93|1.51|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix+Boostrix Group in terms of rSBA-MenC titers.||1.51|0.93|
92154913|NCT01755689|184196043|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|0.83|||||TWO_SIDED|95.0|0.66|1.06|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix Group in terms of rSBA-MenC titers.||1.06|0.66|
92154914|NCT01755689|184196043|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|1.26|||||TWO_SIDED|95.0|0.97|1.64|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix+Boostrix Group in terms of rSBA-MenW-135 titers.||1.64|0.97|
92154915|NCT01755689|184196043|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|0.82|||||TWO_SIDED|95.0|0.63|1.07|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix Group in terms of rSBA-MenW-135 titers.||1.07|0.63|
92154916|NCT01755689|184196043|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|1.05|||||TWO_SIDED|95.0|0.89|1.24|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix+Boostrix Group in terms of rSBA-MenY titers.||1.24|0.89|
92154917|NCT01755689|184196043|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|0.95|||||TWO_SIDED|95.0|0.8|1.12|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix Group in terms of rSBA-MenY titers.||1.12|0.80|
92154918|NCT01755689|184196044|NON_INFERIORITY|For HPV-16, one month after the third dose of Cervarix, the UL of the two-sided standardized asymptotic 95% CI on the group GMT ratio had to be below the pre-defined limit of 2.|Adjusted GMT|0.97|||||TWO_SIDED|95.0|0.81|1.15|||ANCOVA|||Adjusted GMT ratio of the Cervarix Group versus Nimenrix+Cervarix (0,1,6-Month) Group in terms of HPV-16 titers.||1.15|0.81|
92216176|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.095||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 8||||0.095
92339333|NCT02326272|184580257|SUPERIORITY||Adjusted Mean Treatment Differences|-6.62|||<|0.0001|TWO_SIDED|97.5|-8.88|-4.36||The P-value was obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group, region, prior biologic exposure as factors; Baseline DLQI score as a covariate.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||-4.36|-8.88|<0.0001
92339334|NCT02326272|184580257|SUPERIORITY||Adjusted Mean Treatment Differences|-6.19|||<|0.0001|TWO_SIDED|97.5|-8.46|-3.93||The P-value was obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group, region, prior biologic exposure as factors; Baseline DLQI score as a covariate.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||-3.93|-8.46|<0.0001
92339335|NCT04033146|184580266|OTHER||||||<|0.001||||||Threshold was 0.05|ANOVA|||"H1. Bilateral ankle exoskeletons that provide 'motor-like' assistance will result in lower net metabolic power than those providing 'spring-like' assistance for young adults.~H2. Bilateral ankle exoskeletons that provide 'motor-like' assistance will result in lower net metabolic power than those providing 'spring-like' assistance for older adults."||||<0.001
92339336|NCT02427841|184580317|SUPERIORITY|Tested against the standard R0 rate of 37%. Given all evaluable patients are included in the denominator, R0 of 56% was not achieved. Specifically, of the 19 evaluable patients, 11 proceeded to surgery. Of the 11 who underwent surgery, 8 \[42% of those enrolled, but 72.7% of those resected\] achieved R0 resection.|binomial|42.0||||0.404|TWO_SIDED|95.0|20.0|67.0||Study was underpowered.|2-sided exact binomial||Test for superiority over standard R0 resection rate of 37%. Study was closed due to slow enrollment, meaning the primary endpoint was underpowered with only 19 of an expected 44 patients enrolled.|Study closed early due to lack of enrollment. Study expected to enrolled 44 evaluable patients to achieve 83% power using the 2-sided binomial test at 10% significance. Study enrolled only 19 evaluable patients, meaning the study was underpowered at \< 62%||67|20|.404
92339337|NCT03064113|184580331|SUPERIORITY||Difference of LS Mean|173.8|||<|0.001|TWO_SIDED|95.0|112.4|235.3|||t-test, 2 sided|||||235.3|112.4|<0.001
92339338|NCT03064113|184580331|SUPERIORITY||Difference of LS Mean|169.3|||<|0.001|TWO_SIDED|95.0|107.8|230.8|||t-test, 2 sided|||||230.8|107.8|<0.001
92339339|NCT03064113|184580331|SUPERIORITY||Difference of LS Mean|175.6|||<|0.001|TWO_SIDED|95.0|114.1|237.2|||t-test, 2 sided|||||237.2|114.1|<0.001
92339340|NCT03064113|184580332|SUPERIORITY||Slope|112.5||||0.001|TWO_SIDED|95.0|44.5|180.5|||t-test, 2 sided|||Tx Difference of LS Mean FEV1 at 12 hr||180.5|44.5|0.001
92339341|NCT03064113|184580332|SUPERIORITY||Difference of LS Mean|123.4|||<|0.001|TWO_SIDED|95.0|54.6|192.3|||t-test, 2 sided|||Tx Difference of LS Mean FEV1 at 12 hr||192.3|54.6|<0.001
92339342|NCT03064113|184580332|SUPERIORITY||Difference of LS Mean|15.3||||0.659|TWO_SIDED|95.0|-53.5|94.1|||t-test, 2 sided|||Tx Difference of LS Mean FEV1 at 12 hr||94.1|-53.5|0.659
92339343|NCT03064113|184580332|SUPERIORITY||Difference of LS Mean|102.8|||<|0.001|TWO_SIDED|95.0|54.1|151.5|||t-test, 2 sided|||Tx Difference of LS Mean FEV1 at 24 hr||151.5|54.1|<0.001
92339344|NCT03064113|184580332|SUPERIORITY||Difference of LS Mean|136.6|||<|0.001|TWO_SIDED|95.0|87.8|185.3|||t-test, 2 sided|||Tx Difference of LS Mean FEV1 at 24 hr||185.3|87.8|<0.001
92154919|NCT01755689|184196044|NON_INFERIORITY|For HPV-18, one month after the third dose of Cervarix, the UL of the two-sided standardized asymptotic 95% CI on the group GMT ratio had to be below the pre-defined limit of 2.|Adjusted GMT|1.09|||||TWO_SIDED|95.0|0.92|1.29|||ANCOVA|||Adjusted GMT ratio of the Cervarix Group versus Nimenrix+Cervarix (0,1,6-Month) Group in terms of HPV-18 titers.||1.29|0.92|
92154920|NCT01755689|184196044|NON_INFERIORITY|For HPV-16, one month after the third dose of Cervarix, the UL of the two-sided standardized asymptotic 95% CI on the group GMT ratio had to be below the pre-defined limit of 2.|Adjusted GMT|1.2|||||TWO_SIDED|95.0|1.01|1.43|||ANCOVA|||Adjusted GMT ratio of the Boostrix+Cervarix Group versus Nimenrix+Cervarix+Boostrix Group in terms of HPV-16 titers.||1.43|1.01|
92154921|NCT01755689|184196044|NON_INFERIORITY|For HPV-18, one month after the third dose of Cervarix, the UL of the two-sided standardized asymptotic 95% CI on the group GMT ratio had to be below the pre-defined limit of 2.|Adjusted GMT|1.19|||||TWO_SIDED|95.0|1.0|1.41|||ANCOVA|||Adjusted GMT ratio of the Boostrix+Cervarix Group versus Nimenrix+Cervarix+Boostrix Group in terms of HPV-18 titers.||1.41|1.00|
92154922|NCT01755689|184196045|NON_INFERIORITY|For anti-D the lower limit (LL) of the 2-sided standardised asymptotic 95% CI for the group difference (Nimenrix+Cervarix+Boostrix Group minus Boostrix +Cervarix Group) had to be greater than or equal to the pre-defined limit of -10%.|Difference between groups|-2.88|||||TWO_SIDED|95.0|-6.9|0.81||||||The group difference of the Nimenrix+Cervarix+Boostrix Group and Boostrix+Cervarix Group in terms of Anti-D titers.||0.81|-6.90|
92154923|NCT01755689|184196045|NON_INFERIORITY|For anti-T the LL of the 2-sided standardised asymptotic 95% CI for the group difference (Nimenrix+Cervarix+Boostrix Group minus Boostrix +Cervarix Group) had to be greater than or equal to the pre-defined limit of -10%.|Difference between groups|-0.4|||||TWO_SIDED|95.0|-2.23|1.08||||||The group difference of the Nimenrix+Cervarix+Boostrix Group and Boostrix+Cervarix Group in terms of Anti-T titers.||1.08|-2.23|
92154924|NCT01755689|184196046|NON_INFERIORITY|For anti-PRN the UL of the 2-sided standardised asymptotic 95% CI for the adjusted group ratio of GMCs (Nimenrix+Cervarix+Boostrix Group/Boostrix+Cervarix Group) had to be less than or equal to the pre-defined limit of 1.5.|Adjusted GMT Ratio|1.53|||||TWO_SIDED|95.0|1.25|1.87|||ANCOVA|||Adjusted GMT ratio of the Nimenrix+Cervarix+Boostrix Group versus Boostrix+ Cervarix Group in terms of anti-PRN titers.||1.87|1.25|
92154925|NCT01755689|184196046|NON_INFERIORITY|For anti-FHA the UL of the 2-sided standardised asymptotic 95% CI for the adjusted group ratio of GMCs (Nimenrix+Cervarix+Boostrix Group/Boostrix+Cervarix Group) had to be less than or equal to the pre-defined limit of 1.5.|Adjusted GMT Ratio|1.65|||||TWO_SIDED|95.0|1.42|1.93|||ANCOVA|||Adjusted GMT ratio of the Nimenrix+Cervarix Group versus Boostrix+ Cervarix Group in terms of anti-FHA titers.||1.93|1.42|
92339345|NCT03064113|184580332|SUPERIORITY|Tx Difference of LS Mean FEV1 at 24 hr|Difference of LS Mean|-24.2||||0.327|TWO_SIDED|95.0|-72.9|24.6|||t-test, 2 sided|||||24.6|-72.9|0.327
92339346|NCT03064113|184580333|SUPERIORITY||Difference of LS Mean|26.4|||<|0.001|TWO_SIDED|95.0|18.0|34.8|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-12 hrs||34.8|18.0|<0.001
92216177|NCT01372150|184332424|SUPERIORITY_OR_OTHER|||||||0.852||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 8||||0.852
92216178|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.186|TWO_SIDED|95.0|0.226|1.335|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Fluoxetine versus Placebo - Week 1||1.335|0.226|0.186
92216179|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.984|TWO_SIDED|95.0|0.382|2.567|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 1||2.567|0.382|0.984
92216180|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.795||||0.462|TWO_SIDED|95.0|0.431|1.465|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Fluoxetine versus Placebo - Week 2||1.465|0.431|0.462
92216181|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.726||||0.297|TWO_SIDED|95.0|0.399|1.324|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 2||1.324|0.399|0.297
92339347|NCT03064113|184580333|SUPERIORITY||Difference of LS Mean|29.1|||<|0.001|TWO_SIDED|95.0|20.8|37.4|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-12 hrs||37.4|20.8|<0.001
92339348|NCT03064113|184580333|SUPERIORITY||Difference of LS Mean|25.6|||<|0.001|TWO_SIDED|95.0|17.3|33.9|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-12 hrs||33.9|17.3|<0.001
92154926|NCT01755689|184196046|NON_INFERIORITY|For anti-PT the UL of the 2-sided standardised asymptotic 95% CI for the adjusted group ratio of GMCs (Nimenrix+Cervarix+Boostrix Group/Boostrix+Cervarix Group) had to be less than or equal to the pre-defined limit of 1.5.|Adjusted GMT Ratio|1.39|||||TWO_SIDED|95.0|1.2|1.61|||ANCOVA|||Adjusted GMT ratio of the Nimenrix+Cervarix Group versus Boostrix+ Cervarix Group in terms of anti-PT titers.||1.61|1.20|
92154927|NCT02609659|184196079|NON_INFERIORITY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the 3-DAA + RBV 600 mg treatment group as compared with the historical rate for 3-DAA + weight-based RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 92% to achieve noninferiority.|percentage of participants|89.5|||||TWO_SIDED|95.0|83.7|95.4||||||||95.4|83.7|
92154928|NCT00377741|184196117|SUPERIORITY_OR_OTHER||Mean exposure ratio for AUC(0-tau)|1.24|||||TWO_SIDED|90.0|0.98|1.55||||||||1.55|0.98|
92154929|NCT00377741|184196118|SUPERIORITY_OR_OTHER||Mean exposure ratio for Cmax|1.12|||||TWO_SIDED|90.0|0.88|1.42||||||||1.42|0.88|
92154930|NCT01115998|184196131|SUPERIORITY_OR_OTHER|||||||0.02||||||The a priori alpha level was \< 0.10 and was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Mobility functional skills~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.02
92154931|NCT01115998|184196131|SUPERIORITY_OR_OTHER|||||||0.52||||||The a priori alpha level was \<0.10 and was not adjusted for multiple comparisons|Wilcoxon Signed-Rank Test|||"Self-care functional skills~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.52
92154932|NCT01115998|184196131|SUPERIORITY_OR_OTHER|||||||0.38||||||The a priori alpha level was 0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Social function functional skills~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.38
92154933|NCT01115998|184196131|SUPERIORITY_OR_OTHER|||||||0.03||||||The a priori alpha level was 0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Mobility care giver assistance.~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.03
92154934|NCT01115998|184196131|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon Signed-Rank Test|The a priori alpha level was 0.10 and it was not adjusted for multiple comparisons.||"Self-care caregiver assistance~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||.006
92216182|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.688||||0.194|TWO_SIDED|95.0|0.391|1.21|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Fluoxetine versus Placebo - Week 3||1.210|0.391|0.194
92216183|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.732||||0.272|TWO_SIDED|95.0|0.419|1.277|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 3||1.277|0.419|0.272
92216184|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.748||||0.313|TWO_SIDED|95.0|0.426|1.314|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Flouxetine versus Placebo - Week 4||1.314|0.426|0.313
92274827|NCT00323609|184452322|SUPERIORITY_OR_OTHER|||||||0.318||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 30 days.||||0.318
92339349|NCT03064113|184580333|SUPERIORITY||Difference of LS Mean|20.1|||<|0.001|TWO_SIDED|95.0|12.1|28.2|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-24 hrs||28.2|12.1|<0.001
92339350|NCT03064113|184580333|SUPERIORITY||Difference of LS Mean|25.4|||<|0.001|TWO_SIDED|95.0|17.4|33.4|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-24 hrs||33.4|17.4|<0.001
92339351|NCT03064113|184580333|SUPERIORITY||Difference of LS Mean|10.6||||0.01|TWO_SIDED|95.0|2.5|18.6|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-24 hr||18.6|2.5|0.010
92339352|NCT03064113|184580334|SUPERIORITY||Difference of LS Mean|0.1||||0.003|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.2|0.0|0.003
92339353|NCT03064113|184580334|SUPERIORITY||Difference of LS Mean|0.1||||0.046|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.2|0.0|0.046
92339354|NCT03064113|184580334|SUPERIORITY||Difference of LS Mean|0.1||||0.003|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.2|0.0|0.003
92339355|NCT03064113|184580334|SUPERIORITY||Difference of LS Mean|0.1||||0.003|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.2|0.0|0.003
92339356|NCT03064113|184580334|SUPERIORITY||Difference of LS Mean|0.1||||0.048|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.2|0.0|0.048
92339357|NCT03064113|184580334|SUPERIORITY||Difference of LS Mean|0.1||||0.007|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.2|0.0|0.007
92154935|NCT01115998|184196131|SUPERIORITY_OR_OTHER|||||||0.45||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Social function caregiver assistance~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.45
92154936|NCT01115998|184196132|SUPERIORITY_OR_OTHER|||||||0.92||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Adaptive total~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.92
92154937|NCT01115998|184196132|SUPERIORITY_OR_OTHER|||||||0.38||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Cognitive total~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.38
92154938|NCT01115998|184196132|SUPERIORITY_OR_OTHER|||||||0.42||90.0||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Communication total~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.42
92154939|NCT01115998|184196132|SUPERIORITY_OR_OTHER|||||||0.57||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Motor total~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.57
92154940|NCT01115998|184196132|SUPERIORITY_OR_OTHER|||||||0.69||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Personal-social total~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.69
92154941|NCT01115998|184196132|SUPERIORITY_OR_OTHER|||||||0.28||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"BID total score~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.28
92154942|NCT01115998|184196133|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Wilcoxon Signed-Rank Test|||"Reactive scale~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||>0.10
92154943|NCT01115998|184196133|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Wilcoxon Signed-Rank Test|||"Self Initiated Scale~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||>0.10
92154944|NCT05454449|184196205|OTHER|||||||0.047|||||||t-test, 2 sided|||||||0.047
92154945|NCT05454449|184196206|OTHER|||||||0.009|||||||t-test, 2 sided|||||||0.009
92274828|NCT00323609|184452322|SUPERIORITY_OR_OTHER|||||||0.523||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.523
92339358|NCT03064113|184580335|SUPERIORITY||Difference of LS Mean|0.1||||0.054|TWO_SIDED|95.0|0.0|0.1|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.1|-0.0|0.054
92339359|NCT03064113|184580335|SUPERIORITY||Difference of LS Mean|0.1||||0.045|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.2|0.0|0.045
92154946|NCT05454449|184196207|OTHER|||||||0.082|||||||t-test, 2 sided|||||||0.082
92154947|NCT05454449|184196208|OTHER|||||||0.022|||||||t-test, 2 sided|||||||0.022
92154948|NCT05454449|184196209|OTHER|||||||0.016|||||||t-test, 2 sided|||||||0.016
92154949|NCT05454449|184196210|OTHER|||||||0.029|||||||t-test, 2 sided|||||||0.029
92154950|NCT05454449|184196211|OTHER|||||||0.007|||||||t-test, 2 sided|||||||0.007
92154951|NCT01950273|184196212|NON_INFERIORITY_OR_EQUIVALENCE|Standard equivalence limit 80% to 125%.|Least Squares (LS) mean ratio|89.53|||||TWO_SIDED|90.0|75.42|106.29|||||Ratio of the adjusted geometric means calculated as (LS mean ratio of BI 695500/Rituximab (MabThera®)).|||106.29|75.42|
92154952|NCT01950273|184196213|NON_INFERIORITY_OR_EQUIVALENCE|Standard equivalence limit 80% to 125%.|Least Squares (LS) means ratio|94.6||||||90.0|85.04|105.23|||||Ratio of the adjusted geometric means calculated as (LS mean ratio of BI 695500/Rituximab (MabThera®)).|||105.23|85.04|
92154953|NCT01950273|184196214|NON_INFERIORITY_OR_EQUIVALENCE|Standard equivalence limit 80% to 125%.|Least Squares (LS) means ratio|89.94|||||TWO_SIDED|90.0|77.62|104.23|||||Ratio of the adjusted geometric means calculated as (LS mean ratio of BI 695500/Rituximab (MabThera®)).|||104.23|77.62|
92154954|NCT01950273|184196215|NON_INFERIORITY_OR_EQUIVALENCE|Standard equivalence limit 80% to 125%.|Least Squares (LS) means ratio|97.65|||||TWO_SIDED|90.0|90.45|105.42|||||Ratio of the adjusted geometric means calculated as (LS mean ratio of BI 695500/Rituximab (MabThera®)).|||105.42|90.45|
92154955|NCT01950273|184196216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|249.2|||||TWO_SIDED|90.0|-210.6|709.0|||||Mean difference calculated as BI 695500-Rituximab (MabThera®).|||709|-210.6|
92154956|NCT01950273|184196218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.4|||||TWO_SIDED|95.0|-29.4|11.1|||||Difference in ORR calculated as ORR (BI695500) - ORR (MabThera®). The confidence interval represented is 95% difference in proportions.|||11.1|-29.4|
92154957|NCT01950273|184196219|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.0|||||TWO_SIDED|95.0|-18.0|22.1|||||Difference in TEAE incidence calculated as BI695500 - TEAE incidence (MabThera®). The confidence interval represented is 95% difference in proportions.|||22.1|-18.0|
92339360|NCT03064113|184580335|SUPERIORITY||Difference of LS Mean|0.0||||0.503|TWO_SIDED|95.0|0.0|0.1|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.1|-0.0|0.503
92339361|NCT03064113|184580335|SUPERIORITY||Difference of LS Mean|0.0||||0.183|TWO_SIDED|95.0|0.0|0.1|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.1|-0.0|0.183
92339362|NCT03064113|184580335|SUPERIORITY||Difference of LS Mean|0.0||||0.422|TWO_SIDED|95.0|0.0|0.1|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.1|-0.0|0.422
92216185|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.663||||0.157|TWO_SIDED|95.0|0.376|1.171|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 4||1.171|0.376|0.157
92339363|NCT03064113|184580335|SUPERIORITY||Difference of LS Mean|0.0||||0.287|TWO_SIDED|95.0|-0.1|0.0|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.0|-0.1|0.287
92339364|NCT03064113|184580337|SUPERIORITY||Difference of LS Mean|3975.5|||<|0.001|TWO_SIDED|95.0|2007.3|5943.7|||t-test, 2 sided|||||5943.7|2007.3|<0.001
92339365|NCT03064113|184580337|SUPERIORITY||Difference of LS Mean|5888.9|||<|0.001|TWO_SIDED|95.0|3924.4|7853.4|||t-test, 2 sided|||||7853.4|3924.4|<0.001
92339366|NCT03064113|184580337|SUPERIORITY||Difference of LS Mean|2654.7||||0.009|TWO_SIDED|95.0|689.7|4619.6|||t-test, 2 sided|||||4619.6|689.7|0.009
92339367|NCT03421379|184580407|NON_INFERIORITY|The pre-defined non-inferiority margin is (10%)|Treatment Difference Wald's Method|0.0|||||TWO_SIDED|95.0|-1.47|1.47||||||||1.47|-1.47|
92339368|NCT01462110|184580482|SUPERIORITY|The null hypothesis was the Week 4 mean is equal between the two cells. The alternative hypothesis was the Week 4 mean is not equal between the two cells.|Mean Difference (Net)|-0.234|STANDARD_ERROR_OF_MEAN|0.0211|<|0.001|TWO_SIDED|95.0|-0.276|-0.192|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-0.192|-0.276|<0.001
92339369|NCT01462110|184580483|SUPERIORITY|The null hypothesis was the Week 4 mean is equal between the two cells. The alternative hypothesis was the Week 4 mean is not equal between the two cells.|Mean Difference (Net)|-1.232|STANDARD_ERROR_OF_MEAN|0.0806|<|0.001|TWO_SIDED|95.0|-1.392|-1.071|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-1.071|-1.392|<0.001
92339370|NCT01462110|184580484|SUPERIORITY|The null hypothesis was the Week 2 mean is equal between the two cells. The alternative hypothesis was the Week 2 mean is not equal between the two cells.|Mean Difference (Net)|-0.106|STANDARD_ERROR_OF_MEAN|0.0173|<|0.001|TWO_SIDED|95.0|-0.14|-0.071|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-0.071|-0.140|<0.001
92339371|NCT01462110|184580485|SUPERIORITY|The null hypothesis was the Week 2 mean is equal between the two cells. The alternative hypothesis was the Week 2 mean is not equal between the two cells.|Mean Difference (Net)|-0.83|STANDARD_ERROR_OF_MEAN|0.0957|<|0.001|TWO_SIDED|95.0|-1.02|-0.639|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-0.639|-1.020|<0.001
92154958|NCT00179010|184196227|SUPERIORITY_OR_OTHER|||||||0.854|||||||ANOVA|||||||0.854
92339372|NCT01462110|184580486|SUPERIORITY|The null hypothesis was the Week 2 mean is equal between the two cells. The alternative hypothesis was the Week 2 mean is not equal between the two cells.|Mean Difference (Net)|-0.044|STANDARD_ERROR_OF_MEAN|0.0076|<|0.001|TWO_SIDED|95.0|-0.059|-0.029|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-0.029|-0.059|<0.001
92339373|NCT01462110|184580487|SUPERIORITY|The null hypothesis was the Week 4 mean is equal between the two cells. The alternative hypothesis was the Week 4 mean is not equal between the two cells.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.0087|<|0.001|TWO_SIDED|95.0|-0.078|-0.043|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-0.043|-0.078|<0.001
92154959|NCT03748979|184196233|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 1.|Mixed Model for Repeated Measures (MMRM)|||||||<0.0001
92154960|NCT03748979|184196233|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 1.|MMRM|||||||<0.0001
92154961|NCT03748979|184196233|SUPERIORITY|||||||0.0002||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 7.|MMRM|||||||0.0002
92154962|NCT03748979|184196233|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 7.|MMRM|||||||<0.0001
92154963|NCT03748979|184196233|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 1.|MMRM|||||||<0.0001
92154964|NCT03748979|184196233|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 1.|MMRM|||||||<0.0001
92154965|NCT03748979|184196233|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 7.|MMRM|||||||<0.0001
92154966|NCT03748979|184196233|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 7.|MMRM|||||||<0.0001
92154967|NCT03268590|184196259|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.05
92154968|NCT03268590|184196260|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.05
92154969|NCT03268590|184196261|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.05
92154970|NCT02694640|184196266|SUPERIORITY|The study was powered to detect significant between-group differences in mean min/week MVPA at follow-up.|effect size|0.11|||<|0.05|TWO_SIDED|||||No adjustment for multiple comparisons was made|Regression, Linear||Effect size refers to between-group difference at follow-up.|A series of longitudinal mixed effects models with subject-specific intercepts were used to examine between-group differences in mean min/week of self reported moderate-to-vigorous physical activity (MVPA).||||<.05
92154971|NCT02694640|184196267|SUPERIORITY||effect size|0.09|||<|0.05|TWO_SIDED||||||Regression, Linear|||||||<.05
92154972|NCT03537261|184196271|SUPERIORITY||Mean Difference (Net)|5.8||||0.11|TWO_SIDED|95.0|-1.4|13.1|||Regression, Linear|Repeated measures linear regression controlling for score at screening visit|(P-CPI training change) - (waitlist change)|||13.1|-1.4|0.11
92154973|NCT03537261|184196272|SUPERIORITY||Mean Difference (Net)|-2.2||||0.4|TWO_SIDED|95.0|-7.4|3.0|||Regression, Linear|Repeated measures linear regression controlling for score at screening visit|(P-CPI training change) - (waitlist change)|||3.0|-7.4|0.40
92154974|NCT03537261|184196273|SUPERIORITY||Mean Difference (Net)|0.6||||0.72|TWO_SIDED|95.0|-2.9|4.2|||Regression, Linear|Repeated measures linear regression controlling for score at screening visit|(P-CPI training change) - (waitlist change)|||4.2|-2.9|0.72
92339374|NCT03705286|184580518|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|1.87||0.78|TWO_SIDED|95.0|-4.21|3.17|||Regression, Linear|||We evaluated whether there are differences in the Physical Component Score (PCS) for QOL between the PU-EVAC and PVC treatment groups by comparing their respective mean scores (i.e., mean\[PU-EVAC\] - mean\[PVC\] ). We modeled the data using linear regression and used robust standard error estimates to construct our statistical test and 95% confidence interval estimates. We also estimated the treatment groups' mean quality of life scores with standard error estimates and 95% confidence intervals.||3.17|-4.21|0.78
92154975|NCT02731313|184196385|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis (H0): kappa coefficient = 0.90||||||0.7436|||||||Kappa-test p-value, 2 sided|||Rationale for the determination of the number of samples:The following hypotheses were considered: two-sided risk alpha = 5%, power (1 - beta) = 90%, a success rate (rate of positive HER-2 status) = 17%, null hypothesis (H0): kappa coefficient = 0.90. 359 samples would allow determining a first estimate of the 0.90 coefficient of correlation kappa. The total number of samples, which had to be included in this study was 395, considering a 10% rate of non-evaluable samples.||||0.7436
92154976|NCT01558674|184196403|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|-98.5|||||TWO_SIDED|95.0|-138.0|-59.1|||Linear mixed effect model||8-mg MK-7145 LS Mean minus Furosemide LS Mean|||-59.1|-138.0|
92154977|NCT01558674|184196405|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (GMR)|1.1|||||TWO_SIDED|90.0|0.99|1.22|||Mixed Linear Effects Model||GMR = Geometric mean (GM) MK-7145 8 mg divided by GM Furosemide|||1.22|0.99|
92154978|NCT02204293|184196435|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.||||||0.1811|||||||Fisher Exact|||||||0.1811
92154979|NCT02204293|184196450|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|19.9||||0.3175|TWO_SIDED|95.0|-15.0|51.3|||Fisher Exact|||||51.3|-15.0|0.3175
92154980|NCT02204293|184196451|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|31.7||||0.0922|TWO_SIDED|95.0|-2.9|61.8|||Fisher Exact|||||61.8|-2.9|0.0922
92154981|NCT02204293|184196452|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|32.0||||0.0858|TWO_SIDED|95.0|-1.5|61.1|||Fisher Exact|||||61.1|-1.5|0.0858
92154982|NCT02204293|184196453|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|32.4||||0.075|TWO_SIDED|95.0|-0.7|60.5|||Fisher Exact|||||60.5|-0.7|0.075
92154983|NCT02204293|184196454|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|16.0||||0.4018|TWO_SIDED|95.0|-12.6|43.4|||Fisher Exact|||||43.4|-12.6|0.4018
92154984|NCT02204293|184196455|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|5.2||||1|TWO_SIDED|95.0|-18.8|29.2|||Fisher Exact|||||29.2|-18.8|1
92154985|NCT02204293|184196456|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|24.8||||0.1642|TWO_SIDED|95.0|-8.0|54.2|||Fisher Exact|||EULAR DAS28-ESR Response||54.2|-8.0|0.1642
92154986|NCT02204293|184196456|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|25.2||||0.1756|TWO_SIDED|95.0|-9.1|55.1|||Fisher Exact|||EULAR DAS28-CRP Response||55.1|-9.1|0.1756
92154987|NCT02204293|184196457|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|3.9||||1|TWO_SIDED|95.0|-27.7|35.0|||Fisher Exact|||DAS28 (ESR) LDA||35.0|-27.7|1
92154988|NCT02204293|184196457|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|26.5||||0.1642|TWO_SIDED|95.0|-6.6|56.0|||Fisher Exact|||DAS28 (CRP) LDA||56.0|-6.6|0.1642
92154989|NCT02204293|184196458|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|21.6||||0.2285|TWO_SIDED|95.0|-8.1|49.9|||Fisher Exact|||DAS28 (ESR) remission||49.9|-8.1|0.2285
92154990|NCT02204293|184196458|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|27.1||||0.1212|TWO_SIDED|95.0|-4.6|54.6|||Fisher Exact|||DAS28 (CRP) Remission||54.6|-4.6|0.1212
92154991|NCT02204293|184196458|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|16.0||||0.4018|TWO_SIDED|95.0|-12.6|43.4|||Fisher Exact|||Extended Remission||43.4|-12.6|0.4018
92154992|NCT00614198|184196462|SUPERIORITY_OR_OTHER||||||<|0.01||||||A priori p threshold set for stage 1 (baseline - 8m; p\<0.01) or (baseline - 12 months, p\<0.05) in order to progress to stage 2 (8 or 12 months - 20 or 24 months).|Mixed Models Analysis|||1st stage analysis (baseline-8m or 12m) used a repeated measures model for all assessment measures. Model included baseline, age, time and time\*treatment interaction. Results informed 2nd stage (8 or 12 months - 20 or 24 months). 2nd stage analysis based on various statistical scenarios (baseline vs 12 months on intervention, 12 months of no intervention vs 12 on intervention, baseline vs 24 months on intervention). No ADOS assessments were used at 12 months because of risk of practice effects.||||<0.01
92154993|NCT01225835|184196464|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||The significance level is 0.05.|t-test, 2 sided|||||||0.003
92154994|NCT01225835|184196464|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||The significance level is 0.05.|t-test, 2 sided|||Age \< 39 years||||0.015
92154995|NCT01225835|184196464|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||The significance level is 0.05.|t-test, 2 sided|||Age \>= 39 years||||0.027
92154996|NCT01225835|184196466|SUPERIORITY_OR_OTHER|||||||1||95.0||||The significance level is 0.05.|Fisher Exact|||||||1.00
92154997|NCT01225835|184196467|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||0.004
92154998|NCT01225835|184196468|SUPERIORITY_OR_OTHER|||||||0.121||95.0||||The significance level is 0.05.|t-test, 2 sided|||||||0.121
92154999|NCT01225835|184196469|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Level of significance is 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92155000|NCT01225835|184196470|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||<0.001
92216186|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.579||||0.072|TWO_SIDED|95.0|0.319|1.05|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Flouxetine versus Placebo - Week 6||1.050|0.319|0.072
92339375|NCT03705286|184580518|SUPERIORITY||Mean Difference (Final Values)|-2.98|STANDARD_ERROR_OF_MEAN|2.05||0.15|TWO_SIDED|95.0|-7.03|1.07|||Regression, Linear|||We evaluated whether there are differences in the Mental Component Score (MCS) for QOL between the PU-EVAC and PVC treatment groups by comparing their respective mean scores (i.e., mean\[PU-EVAC\] - mean\[PVC\] ). We modeled the data using linear regression and used robust standard error estimates to construct our statistical test and 95% confidence interval estimates. We also estimated the treatment groups' mean quality of life scores with standard error estimates and 95% confidence intervals.||1.07|-7.03|0.15
92216187|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.135|TWO_SIDED|95.0|0.356|1.149|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 6||1.149|0.356|0.135
92216188|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.465||||0.017|TWO_SIDED|95.0|0.249|0.871|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Flouxetine versus Placebo - Week 8||0.871|0.249|0.017
92216189|NCT01372150|184332425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.751||||0.343|TWO_SIDED|95.0|0.415|1.357|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 8||1.357|0.415|0.343
92216190|NCT01178333|184332441|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.98||||0.09|TWO_SIDED|95.0|0.9|4.36|||Regression, Cox|||||4.36|0.90|0.09
92216191|NCT01178333|184332441|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.45|TWO_SIDED|95.0|0.65|2.66|||Regression, Cox|||||2.66|0.65|0.45
92339376|NCT03705286|184580519|SUPERIORITY||Risk Difference (RD)|0.05||||0.05|TWO_SIDED|98.0|-0.07|0.17|||Regression, Logistic|||||0.17|-0.07|0.05
92339377|NCT03705286|184580520|SUPERIORITY||Risk Difference (RD)|0.126||||0.05|TWO_SIDED|95.0|-0.01|0.26|||Regression, Logistic|||We evaluated whether there are differences in the risk of laryngeal injury between the PU-EVAC and PVC treatment groups, comparing their respective risk difference (i.e., probability\[PU-EVAC\] - probability \[PVC\]). We fit a logistic regression model and incorporated robust (i.e., Huber-White heteroskedastic consistent) standard error estimates for our hypothesis test and 95% confidence interval estimates.||0.26|-0.01|0.05
92339378|NCT01401543|184580521|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric Least Squares (LS) Mean Ratio|0.96|||||TWO_SIDED|90.0|0.91|1.01|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.01|0.91|
92216192|NCT01178333|184332443|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.76||||0.15|TWO_SIDED|95.0|0.55|40.87|||Regression, Cox|||||40.87|0.55|0.15
92216193|NCT01178333|184332443|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.35||||0.78|TWO_SIDED|95.0|0.16|11.25|||Regression, Cox|||||11.25|0.16|0.78
92339379|NCT01401543|184580521|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.89|||||TWO_SIDED|90.0|0.85|0.93|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.93|0.85|
92339380|NCT01401543|184580521|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.93|||||TWO_SIDED|90.0|0.88|0.97|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.97|0.88|
92339381|NCT01401543|184580521|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.9|||||TWO_SIDED|90.0|0.86|0.95|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.95|0.86|
92216194|NCT01178333|184332444|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.38||||0.06|TWO_SIDED|95.0|0.98|5.79|||Regression, Cox|||||5.79|0.98|0.06
92216195|NCT01178333|184332444|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.91||||0.11|TWO_SIDED|95.0|0.87|4.21|||Regression, Cox|||||4.21|0.87|0.11
92216196|NCT01178333|184332445|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.8||||0.001|TWO_SIDED|95.0|1.5|5.22|||Regression, Cox|||||5.22|1.50|0.001
92216197|NCT01178333|184332445|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.97||||0.02|TWO_SIDED|95.0|1.12|3.45|||Regression, Cox|||||3.45|1.12|0.02
92216198|NCT01178333|184332448|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|||||P-value is to compare three groups.|Chi-squared|||||||0.72
92216199|NCT01178333|184332449|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED|||||P-value is to compare three groups.|Chi-squared|||||||0.37
92216200|NCT01178333|184332450|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||P-value is to compare three groups.|Chi-squared|||||||0.02
92216201|NCT01178333|184332451|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||ANOVA|||||||0.58
92216202|NCT01178333|184332452|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Regression, Cox|||||||0.66
92216203|NCT01178333|184332453|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||P-value is to compare three groups.|Chi-squared|||||||<0.01
92216204|NCT01178333|184332454|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.48||||0.003|TWO_SIDED|95.0|1.35|4.55|||Regression, Cox|||||4.55|1.35|0.003
92216205|NCT01178333|184332454|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.66||||0.07|TWO_SIDED|95.0|0.96|2.85|||Regression, Cox|||||2.85|0.96|0.07
92216206|NCT01178333|184332456|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||P-value is to compare three groups.|Chi-squared|||||||<0.01
92216207|NCT01178333|184332457|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.72|TWO_SIDED|95.0|0.56|1.49|||Regression, Cox|||||1.49|0.56|0.72
92339382|NCT01401543|184580521|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.9|0.99|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.99|0.90|
92339383|NCT01401543|184580521|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|1.02|||||TWO_SIDED|90.0|0.97|1.07|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.07|0.97|
92339384|NCT01401543|184580522|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.84|||||TWO_SIDED|90.0|0.77|0.91|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.91|0.77|
92339385|NCT01401543|184580522|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.78|||||TWO_SIDED|90.0|0.71|0.85|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.85|0.71|
92339386|NCT01401543|184580522|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.93|||||TWO_SIDED|90.0|0.85|1.01|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.01|0.85|
92155001|NCT01225835|184196472|SUPERIORITY_OR_OTHER|||||||0.482||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||0.482
92155002|NCT01225835|184196473|SUPERIORITY_OR_OTHER|||||||0.871||||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Chi-squared|||||||0.871
92155003|NCT01225835|184196474|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||<0.001
92155004|NCT01225835|184196475|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|t-test, 2 sided|||||||0.620
92155005|NCT01225835|184196476|SUPERIORITY_OR_OTHER|||||||0.478||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|t-test, 2 sided|||||||0.478
92155006|NCT01225835|184196477|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Fisher Exact|||||||0.69
92155007|NCT01225835|184196478|SUPERIORITY_OR_OTHER|||||||0.295||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||0.295
92216208|NCT01178333|184332457|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.34|TWO_SIDED|95.0|0.54|1.24|||Regression, Cox|||||1.24|0.54|0.34
92155008|NCT01225835|184196479|SUPERIORITY_OR_OTHER|||||||0.405||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||0.405
92155009|NCT01225835|184196480|SUPERIORITY_OR_OTHER|||||||1||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Fisher Exact|||||||1.000
92155010|NCT04779242|184196520|OTHER|Difference was observed difference in early clinical success rate between the omadacycline and moxifloxacin groups|Percentage difference|1.9|||||TWO_SIDED|95.0|-3.0|6.8|||||95% CI is constructed based on the Miettinen and Nurminen method without stratification.|||6.8|-3.0|
92155011|NCT04779242|184196521|OTHER|Difference was observed difference in overall clinical success rate at PTE between the omadacycline and moxifloxacin groups.|Percentage difference|-1.7|||||TWO_SIDED|95.0|-6.9|3.4|||||95% CI is constructed based on the Miettinen and Nurminen method without stratification|||3.4|-6.9|
92155012|NCT04779242|184196522|OTHER|Difference was observed difference in overall clinical success rate at PTE between the omadacycline and moxifloxacin groups|Percentage difference|-1.8|||||TWO_SIDED|95.0|-5.7|2.0|||||95% CI is constructed based on the Miettinen and Nurminen method without stratification|||2.0|-5.7|
92155013|NCT01757067|184196523|OTHER|The previously stated primary and secondary endpoints cannot be calculated as the study was halted prematurely due to lack of enrollment. Only the reported EF data was collected. This makes further statistical analyses impossible.|||||||||||||||||The previously stated primary and secondary endpoints cannot be calculated as the study was halted prematurely due to lack of enrollment. Only the reported EF data was collected. This makes further statistical analyses impossible.|||
92155014|NCT02559609|184196535|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||Group A/C (contrast -1) compared to Group B/D (contrast 1) to test Aim 1||||.028
92216209|NCT01241552|184332464|SUPERIORITY_OR_OTHER||Adjusted Difference|-1.7||||0.3182|TWO_SIDED|95.0|-8.6|5.5||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415 + SOC - Placebo + SOC|||5.5|-8.6|0.3182
92216210|NCT01241552|184332464|SUPERIORITY_OR_OTHER||Adjusted Difference|-10.1||||0.0003|TWO_SIDED|95.0|-15.9|-4.3||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-6072 + SOC - Placebo + SOC|||-4.3|-15.9|0.0003
92155015|NCT02559609|184196536|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||Group A/C (contrast -1) compared to Group B/D (contrast 1)||||.027
92155016|NCT02559609|184196537|SUPERIORITY|||||||0.66|||||||ANOVA|df = 1||Group A/B (contrast -1) was compared to Group C/D (contrast 1) to test Aim 2.||||.66
92155017|NCT02559609|184196538|SUPERIORITY|||||||0.89|||||||Regression, Cox|||Group A/B (contrast -1) compared to Group C/D (contrast 1) to test Aim 2.||||.89
92274829|NCT00323609|184452322|SUPERIORITY_OR_OTHER|||||||0.634||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.634
92339387|NCT01401543|184580522|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.77|||||TWO_SIDED|90.0|0.7|0.84|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.84|0.70|
92339388|NCT01401543|184580522|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.91|||||TWO_SIDED|90.0|0.84|1.0|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.00|0.84|
92339389|NCT01401543|184580522|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.99|||||TWO_SIDED|90.0|0.91|1.08|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.08|0.91|
92216211|NCT01241552|184332464|SUPERIORITY_OR_OTHER||Adjusted Difference|-11.6|||<|0.0001|TWO_SIDED|95.0|-17.4|-5.9||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - Placebo + SOC|||-5.9|-17.4|< 0.0001
92339390|NCT01401543|184580523|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.99|||||TWO_SIDED|90.0|0.93|1.05||||||||1.05|0.93|
92339391|NCT01401543|184580523|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.89|1.0||||||||1.00|0.89|
92216212|NCT01241552|184332464|SUPERIORITY_OR_OTHER||Adjusted Difference|-9.9||||0.0013|TWO_SIDED|95.0|-16.9|-3.4||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-3415 + SOC|||-3.4|-16.9|0.0013
92216213|NCT01241552|184332464|SUPERIORITY_OR_OTHER||Adjusted Difference|-1.4||||0.2997|TWO_SIDED|95.0|-6.7|3.9||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-6072 + SOC|||3.9|-6.7|0.2997
92216214|NCT01241552|184332465|SUPERIORITY_OR_OTHER||Adjusted Difference|-8.3||||0.9775|TWO_SIDED|95.0|-16.3|-0.2||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415 + SOC - Placebo + SOC|||-0.2|-16.3|0.9775
92339392|NCT01401543|184580523|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.96|||||TWO_SIDED|90.0|0.9|1.02||||||||1.02|0.90|
92339393|NCT01401543|184580523|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.96|||||TWO_SIDED|90.0|0.9|1.02||||||||1.02|0.90|
92339394|NCT01401543|184580523|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.97|||||TWO_SIDED|90.0|0.91|1.03||||||||1.03|0.91|
92339395|NCT01401543|184580523|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|1.01|||||TWO_SIDED|90.0|0.95|1.08||||||||1.08|0.95|
92339396|NCT01401543|184580524|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.72|||||TWO_SIDED|90.0|0.68|0.77|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.77|0.68|
92216215|NCT01241552|184332465|SUPERIORITY_OR_OTHER||Adjusted Difference|4.8||||0.0861|TWO_SIDED|95.0|-2.1|11.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-6072 + SOC - Placebo + SOC|||11.7|-2.1|0.0861
92339397|NCT01401543|184580524|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.71|||||TWO_SIDED|90.0|0.66|0.76|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.76|0.66|
92339398|NCT01401543|184580524|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.98|||||TWO_SIDED|90.0|0.92|1.05|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.05|0.92|
92339399|NCT01401543|184580524|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.69|||||TWO_SIDED|90.0|0.65|0.74|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.74|0.65|
92339400|NCT01401543|184580524|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.96|||||TWO_SIDED|90.0|0.9|1.02|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.02|0.90|
92339401|NCT01401543|184580524|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.98|||||TWO_SIDED|90.0|0.91|1.04|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.04|0.91|
92339402|NCT00069823|184580525|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|1.2||||0.35|TWO_SIDED|95.0|0.8|2.0||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Rates were compared with incidence-rate ratios (IRR). The IRR and P values were estimated with the use of negative binomial regression models with robust variance estimates.||2.0|0.8|0.35
92339403|NCT00069823|184580526|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|0.9||||0.79|TWO_SIDED|95.0|0.6|1.5||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Rates were compared with incidence-rate ratios (IRR). The IRR and P values were estimated with the use of negative binomial regression models with robust variance estimates.||1.5|0.6|0.79
92339404|NCT00069823|184580527|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|1.1||||0.66|TWO_SIDED|95.0|0.8|1.5||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||The rates of EPACs were compared using incidence-rate ratios (IRR). IRR and P value were estimated with the use of negative binomial regression models with robust variance estimates.||1.5|0.8|0.66
92339405|NCT00069823|184580528|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|0.9||||0.62|TWO_SIDED|95.0|0.6|1.3||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Rates were compared with incidence-rate ratios (IRR). The IRR and P values were estimated with the use of negative binomial regression models with robust variance estimates.||1.3|0.6|0.62
92274830|NCT00323609|184452322|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.457
92274831|NCT00323609|184452323|SUPERIORITY_OR_OTHER|||||||0.818||95.0|||||Fisher Exact|||||||0.818
92274832|NCT00323609|184452324|SUPERIORITY_OR_OTHER|||||||0.226||95.0|||||Fisher Exact|||||||0.226
92274833|NCT00323609|184452325|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92274834|NCT00323609|184452326|SUPERIORITY_OR_OTHER|||||||0.112||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at pre-discharge.||||0.112
92274835|NCT00323609|184452326|SUPERIORITY_OR_OTHER|||||||0.364||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.364
92274836|NCT00323609|184452326|SUPERIORITY_OR_OTHER|||||||0.185||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.185
92274837|NCT00323609|184452326|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.100
92155018|NCT02559609|184196539|SUPERIORITY|||||||0.58|||||||ANOVA|df = 1||Group A/B (contrast -1) compared to Group C/D (contrast 1) to test Aim 2.||||.58
92155019|NCT02559609|184196540|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||Group A/C (contrast -1) compared to Group B/D (contrast 1) to test Aim 1.||||.024
92155020|NCT02555371|184196577|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.004|TWO_SIDED|95.0|0.45|0.86|||Cox Proportional Hazards Model||Treatment comparison between mepolizumab 100 mg SC and placebo using hazards ratio and 95% confidence interval has been presented.|||0.86|0.45|0.004
92155021|NCT02555371|184196578|SUPERIORITY||Ratio|0.19|||<|0.001|TWO_SIDED|95.0|0.15|0.24|||Mixed model repeated measures||Treatment comparison between mepolizumab 100 mg SC and placebo using ratio of mepolizumab to placebo and its 95% confidence interval at Week 12 has been presented.|||0.24|0.15|<0.001
92155022|NCT02555371|184196578|SUPERIORITY||Ratio|0.16|||<|0.001|TWO_SIDED|95.0|0.12|0.2|||Mixed model repeated measures||Treatment comparison between mepolizumab 100 mg SC and placebo using ratio of mepolizumab to placebo and its 95% confidence interval at Week 24 has been presented.|||0.20|0.12|<0.001
92155023|NCT02555371|184196578|SUPERIORITY||Ratio|0.19|||<|0.001|TWO_SIDED|95.0|0.15|0.24|||Mixed model repeated measures||Treatment comparison between mepolizumab 100 mg SC and placebo using ratio of mepolizumab to placebo and its 95% confidence interval at Week 36 has been presented.|||0.24|0.15|<0.001
92155024|NCT02555371|184196578|SUPERIORITY||Ratio|0.16|||<|0.001|TWO_SIDED|95.0|0.13|0.2|||Mixed model repeated measures||Treatment comparison between mepolizumab 100 mg SC and placebo using ratio of mepolizumab to placebo and its 95% confidence interval at Week 52 has been presented.|||0.20|0.13|<0.001
92155025|NCT02555371|184196579|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.005|TWO_SIDED|95.0|0.49|0.88|||Cox Proportional Hazards Model||Treatment comparison between mepolizumab 100 mg SC and placebo using hazards ratio and 95% confidence interval has been presented.|||0.88|0.49|0.005
92155026|NCT02555371|184196580|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.57|TWO_SIDED|95.0|0.5|3.51|||Cox Proportional Hazards Model||Treatment comparison between mepolizumab 100 mg SC and placebo using hazards ratio and 95% confidence interval has been presented.|||3.51|0.50|0.570
92155027|NCT03615482|184196627|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-0.9||||0.617|TWO_SIDED|95.0|-4.5|2.7|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Injection-Site Erythema||2.7|-4.5|0.617
92155028|NCT03615482|184196627|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-2.6||||0.32|TWO_SIDED|95.0|-7.8|2.6|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Injection-Site Pain||2.6|-7.8|0.320
92155029|NCT03615482|184196627|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-2.1||||0.31|TWO_SIDED|95.0|-6.2|2.0|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Injection-Site Swelling||2.0|-6.2|0.310
92155030|NCT03615482|184196628|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-2.2||||0.205|TWO_SIDED|95.0|-5.8|1.2|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Arthralgia||1.2|-5.8|0.205
92155031|NCT03615482|184196628|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-2.9||||0.273|TWO_SIDED|95.0|-8.0|2.3|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Fatigue||2.3|-8.0|0.273
92155032|NCT03615482|184196628|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-2.2||||0.372|TWO_SIDED|95.0|-6.9|2.6|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Headache||2.6|-6.9|0.372
92155033|NCT03615482|184196628|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|2.4||||0.329|TWO_SIDED|95.0|-2.4|7.1|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Myalgia||7.1|-2.4|0.329
92155034|NCT03615482|184196629|OTHER||Difference in Percent|0.0|||||TWO_SIDED|95.0|-0.6|0.6||||||||0.6|-0.6|
92155035|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.66||||0.004|TWO_SIDED|95.0|0.54|0.82|||cLDA|GMT ratio, 95% CI and p-value were estimated from a constrained longitudinal data analysis (cLDA) model including all vaccinated participants.||Serotype 1||0.82|0.54|0.004
92155036|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.81|1.09|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 3||1.09|0.81|<0.001
92155037|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.84|||<|0.001|TWO_SIDED|95.0|0.69|1.01|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 4||1.01|0.69|<0.001
92216216|NCT01241552|184332465|SUPERIORITY_OR_OTHER||Adjusted Difference|3.5||||0.1646|TWO_SIDED|95.0|-3.5|10.4||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - Placebo + SOC|||10.4|-3.5|0.1646
92216217|NCT01241552|184332465|SUPERIORITY_OR_OTHER||Adjusted Difference|11.7||||0.0025|TWO_SIDED|95.0|3.5|19.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-3415 + SOC|||19.7|3.5|0.0025
92216218|NCT01241552|184332465|SUPERIORITY_OR_OTHER||Adjusted Difference|-1.4||||0.6532|TWO_SIDED|95.0|-8.3|5.5||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-6072 + SOC|||5.5|-8.3|0.6532
92216219|NCT01241552|184332466|SUPERIORITY_OR_OTHER||Adjusted Difference|1.7||||0.6505|TWO_SIDED|95.0|-6.9|10.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415 + SOC - Placebo + SOC|||10.7|-6.9|0.6505
92216220|NCT01241552|184332466|SUPERIORITY_OR_OTHER||Adjusted Difference|-10.8||||0.0013|TWO_SIDED|95.0|-17.7|-3.8||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-6072 + SOC - Placebo + SOC|||-3.8|-17.7|0.0013
92216221|NCT01241552|184332466|SUPERIORITY_OR_OTHER||Adjusted Difference|-11.7||||0.0006|TWO_SIDED|95.0|-18.6|-4.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - Placebo + SOC|||-4.7|-18.6|0.0006
92274838|NCT00323609|184452327|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at pre-discharge.||||0.005
92274839|NCT00323609|184452327|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.382
92274840|NCT00323609|184452327|SUPERIORITY_OR_OTHER|||||||0.196||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.196
92274841|NCT00323609|184452327|SUPERIORITY_OR_OTHER|||||||0.281||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.281
92274842|NCT00323609|184452328|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at pre-discharge.||||0.033
92274843|NCT00323609|184452328|SUPERIORITY_OR_OTHER|||||||0.981||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.981
92274844|NCT00323609|184452328|SUPERIORITY_OR_OTHER|||||||0.631||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.631
92274845|NCT00323609|184452328|SUPERIORITY_OR_OTHER|||||||0.79||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.790
92274846|NCT00323609|184452329|SUPERIORITY_OR_OTHER|||||||0.663||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at pre-discharge.||||0.663
92274847|NCT00323609|184452329|SUPERIORITY_OR_OTHER|||||||0.933||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.933
92274848|NCT00323609|184452329|SUPERIORITY_OR_OTHER|||||||0.089||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.089
92274849|NCT00323609|184452329|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.036
92274850|NCT00323609|184452330|SUPERIORITY_OR_OTHER|||||||0.472||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at pre-discharge.||||0.472
92274851|NCT00323609|184452330|SUPERIORITY_OR_OTHER|||||||0.745||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.745
92274852|NCT00323609|184452330|SUPERIORITY_OR_OTHER|||||||0.565||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.565
92274853|NCT00323609|184452330|SUPERIORITY_OR_OTHER|||||||0.687||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.687
92274854|NCT00267293|184452333|NON_INFERIORITY_OR_EQUIVALENCE|Power for 80%|||||<|0.001||||||comparision of mean temperatures from repeated exposure. At hour 6 temperature|Mixed Models Analysis|||Power for 80%||||<0.001
92274855|NCT00267293|184452333|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Binary outcome \<38C and \>=38C|Chi-squared|||||||<.0001
92274856|NCT01684722|184452336|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.25|TWO_SIDED|95.0|-0.7|2.5|||Mixed Models Analysis|||||2.5|-0.7|0.25
92274857|NCT01684722|184452336|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.27|TWO_SIDED|95.0|-0.7|2.6|||Mixed Models Analysis|||||2.6|-0.7|0.27
92274858|NCT01684722|184452337|SUPERIORITY||Ratio of change from baseline, active to|0.99||||0.9|TWO_SIDED|95.0|0.84|1.17|||Mixed Models Analysis|||||1.17|0.84|0.90
92274859|NCT01684722|184452337|SUPERIORITY||Ratio of change from baseline, active to|0.96||||0.64|TWO_SIDED|95.0|0.81|1.14|||Mixed Models Analysis|||||1.14|0.81|0.64
92274860|NCT00219557|184452343|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.758||||0.1026|TWO_SIDED|95.0|0.49|1.17||One-sided log-rank test at alpha = 0.1 significance level was used.|Log Rank|||Differences in OS between treatment arms was analyzed by the stratified log-rank test where the stratification factors are Eastern Cooperative Oncology Group (ECOG) performance status (less than or equal to 1 or 2) and extent of disease (locally advanced or metastatic).||1.170|0.490|0.1026
92274861|NCT00219557|184452354|SUPERIORITY_OR_OTHER||Difference in response rate|4.3||||0.661|TWO_SIDED|95.0|-4.0|12.7|||Fisher Exact|||Difference in percent of participants with overall response expressed as response rate, was used for calculation of 95% confidence interval (CI).||12.7|-4.0|0.661
92216222|NCT01241552|184332466|SUPERIORITY_OR_OTHER||Adjusted Difference|-13.7||||0.0007|TWO_SIDED|95.0|-22.5|-5.2||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-3415 + SOC|||-5.2|-22.5|0.0007
92216223|NCT01241552|184332466|SUPERIORITY_OR_OTHER||Adjusted Difference|-1.0||||0.3906|TWO_SIDED|95.0|-7.7|5.8||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-6072 + SOC|||5.8|-7.7|0.3906
92216224|NCT01241552|184332467|SUPERIORITY_OR_OTHER||Percentage Difference|5.2||||0.185|TWO_SIDED|95.0|-2.5|12.8|||Miettinen and Nurminen||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||12.8|-2.5|0.185
92216225|NCT01241552|184332467|SUPERIORITY_OR_OTHER||Percentage Difference|3.4||||0.323|TWO_SIDED|95.0|-3.3|10.1|||Miettinen and Nurminen||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||10.1|-3.3|0.323
92216226|NCT01241552|184332467|SUPERIORITY_OR_OTHER||Percentage Difference|-2.3||||0.507|TWO_SIDED|95.0|-9.1|4.5|||Miettinen and Nurminen||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||4.5|-9.1|0.507
92216227|NCT01241552|184332468|SUPERIORITY_OR_OTHER||Percentage Difference|2.2||||0.246|TWO_SIDED|95.0|-1.5|6.7|||Miettinen and Nurminen||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||6.7|-1.5|0.246
92339406|NCT00069823|184580529|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|1.0||||0.87|TWO_SIDED|95.0|0.8|1.3||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Rates were compared with incidence-rate ratios (IRR). The IRR and P values were estimated with the use of negative binomial regression models with robust variance estimates.||1.3|0.8|0.87
92339407|NCT00069823|184580530|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|0.9||||0.62||95.0|0.7|1.3||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Incidence-rate ratios and P values were estimated with the use of negative binomial regression models with robust variance estimates.||1.3|0.7|0.62
92398783|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|1.87||0.1233|TWO_SIDED|95.0|-6.57|0.79||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||0.79|-6.57|0.1233
92216228|NCT01241552|184332468|SUPERIORITY_OR_OTHER||Percentage Difference|3.2||||0.069|TWO_SIDED|95.0|-0.3|6.8|||Miettinen and Nurminen||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||6.8|-0.3|0.069
92216229|NCT01241552|184332468|SUPERIORITY_OR_OTHER||Percentage Difference|1.2||||0.464|TWO_SIDED|95.0|-2.1|4.6|||Miettinen and Nurminen||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||4.6|-2.1|0.464
92216230|NCT01241552|184332469|SUPERIORITY_OR_OTHER||Percentage Difference|7.7||||0.027|TWO_SIDED|95.0|0.9|14.7|||Miettinen and Nurminen||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||14.7|0.9|0.027
92216231|NCT01241552|184332469|SUPERIORITY_OR_OTHER||Percentage Difference|1.5||||0.594|TWO_SIDED|95.0|-4.1|7.2|||Miettinen and Nurminen||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||7.2|-4.1|0.594
92216232|NCT01241552|184332469|SUPERIORITY_OR_OTHER||Percentage Difference|-5.3||||0.051|TWO_SIDED|95.0|-10.6|0.0|||Miettinen and Nurminen||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||0.0|-10.6|0.051
92216233|NCT01241552|184332470|SUPERIORITY_OR_OTHER||Percentage Difference|1.0||||0.115|TWO_SIDED|95.0|-0.3|3.5|||Miettinen and Nurminen||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||3.5|-0.3|0.115
92216234|NCT01241552|184332470|SUPERIORITY_OR_OTHER||Percentage Difference|0.8||||0.17|TWO_SIDED|95.0|-0.5|2.4|||Miettinen and Nurminen||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||2.4|-0.5|0.170
92216235|NCT01241552|184332470|SUPERIORITY_OR_OTHER||Percentage Difference|0.3||||0.544|TWO_SIDED|95.0|-0.9|1.6|||Miettinen and Nurminen||Percentage Difference: MK-3415A + SOC - Placeb + SOC|||1.6|-0.9|0.544
92216236|NCT01241552|184332471|SUPERIORITY_OR_OTHER||Percentage Difference|0.4||||0.192|TWO_SIDED|95.0|-0.5|2.4|||Miettinen and Nurminen||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||2.4|-0.5|0.192
92216237|NCT01241552|184332471|SUPERIORITY_OR_OTHER||Percentage Difference|0.3||||0.311|TWO_SIDED|95.0|-0.7|1.4|||Miettinen and Nurminen||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||1.4|-0.7|0.311
92216238|NCT01241552|184332471|SUPERIORITY_OR_OTHER||Percentage Difference|0.0|||>|0.999|TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||1.0|-1.0|> 0.999
92216239|NCT01241552|184332472|SUPERIORITY_OR_OTHER||Percentage Difference|3.6|||||TWO_SIDED|95.0|-1.0|8.7|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||8.7|-1.0|
92216240|NCT01241552|184332472|SUPERIORITY_OR_OTHER||Percentage Difference|4.3|||||TWO_SIDED|95.0|0.2|8.5|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||8.5|0.2|
92216241|NCT01241552|184332472|SUPERIORITY_OR_OTHER||Percentage Difference|1.3|||||TWO_SIDED|95.0|-2.6|5.2|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||5.2|-2.6|
92216242|NCT01241552|184332473|SUPERIORITY_OR_OTHER||Percentage Difference|-6.9|||||TWO_SIDED|95.0|-16.8|3.5|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||3.5|-16.8|
92339408|NCT00069823|184580531|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|0.9||||0.7|TWO_SIDED|95.0|0.6|1.4||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Incidence-rate ratios and P values were estimated with the use of negative binomial regression models with robust variance estimates.||1.4|0.6|0.70
92398784|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|1.9||0.2858|TWO_SIDED|95.0|-5.76|1.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||1.70|-5.76|0.2858
92398785|NCT03192176|184689417|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.93||0.9716|TWO_SIDED|95.0|-3.87|3.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||3.73|-3.87|0.9716
92216243|NCT01241552|184332473|SUPERIORITY_OR_OTHER||Percentage Difference|-18.0|||||TWO_SIDED|95.0|-26.3|-9.6|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||-9.6|-26.3|
92216244|NCT01241552|184332473|SUPERIORITY_OR_OTHER||Percentage Difference|-16.2|||||TWO_SIDED|95.0|-24.5|-7.7|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||-7.7|-24.5|
92216245|NCT01241552|184332474|SUPERIORITY_OR_OTHER||Percentage Difference|-6.1|||||TWO_SIDED|95.0|-20.1|8.6|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||8.6|-20.1|
92216246|NCT01241552|184332474|SUPERIORITY_OR_OTHER||Percentage Difference|-13.2|||||TWO_SIDED|95.0|-25.5|-0.5|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||-0.5|-25.5|
92216247|NCT01241552|184332474|SUPERIORITY_OR_OTHER||Percentage Difference|-14.4|||||TWO_SIDED|95.0|-26.8|-1.6|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||-1.6|-26.8|
92216248|NCT01241552|184332475|SUPERIORITY_OR_OTHER||Percentage Difference|0.8|||||TWO_SIDED|95.0|-16.9|21.0|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||21.0|-16.9|
92216249|NCT01241552|184332475|SUPERIORITY_OR_OTHER||Percentage Difference|-14.6|||||TWO_SIDED|95.0|-28.3|-1.4|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||-1.4|-28.3|
92216250|NCT01241552|184332475|SUPERIORITY_OR_OTHER||Percentage Difference|-12.1|||||TWO_SIDED|95.0|-26.2|1.9|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||1.9|-26.2|
92274862|NCT00219557|184452356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9648||||0.4466|TWO_SIDED|95.0|0.54|1.73||One-sided log-rank test at alpha = 0.1 significance level was used.|Log Rank|||Differences in PFS between treatment arms was analyzed by the stratified log-rank test where the stratification factors are ECOG performance status (less than equal to 1 or 2) and extent of disease (locally advanced or metastatic).||1.7300|0.5400|0.4466
92216251|NCT01241552|184332476|SUPERIORITY_OR_OTHER||Percentage Difference|-10.0|||||TWO_SIDED|95.0|-30.1|10.0|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||10.0|-30.1|
92216252|NCT01241552|184332476|SUPERIORITY_OR_OTHER||Percentage Difference|-25.3|||||TWO_SIDED|95.0|-43.7|-6.1|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||-6.1|-43.7|
92216253|NCT01241552|184332477|SUPERIORITY_OR_OTHER||Percentage Difference|-11.3|||||TWO_SIDED|95.0|-24.9|3.9|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||3.9|-24.9|
92216254|NCT01241552|184332477|SUPERIORITY_OR_OTHER||Percentage Difference|-12.7|||||TWO_SIDED|95.0|-24.7|-0.5|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||-0.5|-24.7|
92274863|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.44|||||TWO_SIDED|95.0|-19.06|2.19||||||For change in global QoL at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||2.19|-19.06|
92274864|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.02|||||TWO_SIDED|95.0|-15.4|3.36||||||For change in physical functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||3.36|-15.4|
92274865|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.32|||||TWO_SIDED|95.0|-23.77|5.12||||||For change in role functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||5.12|-23.77|
92274866|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.73|||||TWO_SIDED|95.0|-15.25|5.79||||||For change in emotional functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||5.79|-15.25|
92274867|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.11|||||TWO_SIDED|95.0|-15.83|5.61||||||For change in cognitive functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||5.61|-15.83|
92274868|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.33|||||TWO_SIDED|95.0|-18.72|12.06||||||For change in social functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||12.06|-18.72|
92274869|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.41|||||TWO_SIDED|95.0|-1.62|22.44||||||For change in fatigue at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||22.44|-1.62|
92274870|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3|||||TWO_SIDED|95.0|-16.55|7.96||||||For change in nausea and vomiting at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||7.96|-16.55|
92274871|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.37|||||TWO_SIDED|95.0|-7.57|22.32||||||For change in pain at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||22.32|-7.57|
92274872|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.51|||||TWO_SIDED|95.0|-1.28|26.3||||||For change in dyspnea at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||26.30|-1.28|
92274873|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9|||||TWO_SIDED|95.0|-5.7|25.49||||||For change in insomnia at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||25.49|-5.70|
92274874|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.63|||||TWO_SIDED|95.0|-4.81|32.07||||||For change in appetite loss at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||32.07|-4.81|
92274875|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.67|||||TWO_SIDED|95.0|-11.62|20.96||||||For change in constipation at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||20.96|-11.62|
92274876|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|||||TWO_SIDED|95.0|-15.1|12.54||||||For change in diarrhea at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||12.54|-15.1|
92274877|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.43|||||TWO_SIDED|95.0|-4.67|15.53||||||For change in financial difficulties at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||15.53|-4.67|
92398786|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|1.93||0.9072|TWO_SIDED|95.0|-3.58|4.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||4.03|-3.58|0.9072
92216255|NCT01241552|184332477|SUPERIORITY_OR_OTHER||Percentage Difference|-16.0|||||TWO_SIDED|95.0|-27.8|-4.0|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||-4.0|-27.8|
92339409|NCT00069823|184580532|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.36|TWO_SIDED|95.0|-0.03|0.08||P values were calculated with the use of linear regression.|Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group, e.g. 0.00 - (-0.02) = -0.03 (rounding)|The treatment effect is the mean change in the Esomeprazole group - mean change in placebo group||0.08|-0.03|0.36
92339410|NCT00069823|184580533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3|TWO_SIDED|95.0|-0.03|0.09|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.09|-0.03|0.30
92339411|NCT00069823|184580534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0|STANDARD_ERROR_OF_MEAN|5.1||0.24|TWO_SIDED|95.0|-4.0|16.0|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||16.0|-4.0|0.24
92339412|NCT00069823|184580535|SUPERIORITY_OR_OTHER||Treatment Effect|-1.8||||0.04||95.0|-3.6|-0.1|||Regression, Linear|||||-0.1|-3.6|0.04
92339413|NCT00069823|184580536|SUPERIORITY_OR_OTHER||Treatment Effect|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.11|TWO_SIDED|95.0|0.0|0.2|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.2|0.0|0.11
92339414|NCT00069823|184580537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.11|TWO_SIDED|95.0|-0.05|-0.02|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||-0.02|-0.05|0.11
92339415|NCT00069823|184580538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.33|TWO_SIDED|95.0|-0.2|0.1|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.1|-0.2|0.33
92339416|NCT00069823|184580539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|0.6||0.16|TWO_SIDED|95.0|-2.0|0.4|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.4|-2.0|0.16
92339417|NCT00069823|184580540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|0.78||0.56|TWO_SIDED|95.0|-1.1|2.2|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||2.2|-1.1|0.56
92155038|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.64|0.98|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 5||0.98|0.64|<0.001
92155039|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.84|||<|0.001|TWO_SIDED|95.0|0.71|1.0|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 6A||1.00|0.71|<0.001
92155040|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.88|||<|0.001|TWO_SIDED|95.0|0.74|1.04|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 6B||1.04|0.74|<0.001
92155041|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.86|||<|0.001|TWO_SIDED|95.0|0.75|0.99|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 7F||0.99|0.75|<0.001
92339418|NCT00069823|184580541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.76|TWO_SIDED|95.0|-0.05|0.07|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.07|-0.05|0.76
92155042|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.99|||<|0.001|TWO_SIDED|95.0|0.86|1.15|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 9V||1.15|0.86|<0.001
92155043|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.91|||<|0.001|TWO_SIDED|95.0|0.77|1.08|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 14||1.08|0.77|<0.001
92155044|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.68|0.92|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 18C||0.92|0.68|<0.001
92155045|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.73|0.95|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 19A||0.95|0.73|<0.001
92155046|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.89|1.17|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 19F||1.17|0.89|<0.001
92216256|NCT01241552|184332478|SUPERIORITY_OR_OTHER||Percentage Difference|-10.1|||||TWO_SIDED|95.0|-23.2|4.6|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||4.6|-23.2|
92339419|NCT00069823|184580542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.39|TWO_SIDED|95.0|-0.8|0.3|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.3|-0.8|0.39
92339420|NCT00593450|184580544|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.7||0.16|TWO_SIDED|99.2|-3.9|2.9||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Avastin Monthly Group - Mean VA Change in Lucentis Monthly Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||2.9|-3.9|0.16
92369334|NCT02993822|184643579|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.387|TWO_SIDED|95.0|0.71|1.14|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.14|0.71|0.387
92155047|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.64|0.91|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 22F||0.91|0.64|<0.001
92155048|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.85|||<|0.001|TWO_SIDED|95.0|0.7|1.03|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 23F||1.03|0.70|<0.001
92155049|NCT03615482|184196630|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.72|0.96|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 33F||0.96|0.72|<0.001
92155050|NCT03615482|184196631|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.94|1.25|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||H1N1||1.25|0.94|<0.001
92155051|NCT03615482|184196631|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.9|1.17|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||H3N2||1.17|0.90|<0.001
92155052|NCT03615482|184196631|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.86|1.08|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||B-Victoria||1.08|0.86|<0.001
92155053|NCT03615482|184196631|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.9|1.13|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||B-Yamagata||1.13|0.90|<0.001
92155054|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.77|||||TWO_SIDED|95.0|0.67|0.89||||||Serotype 1||0.89|0.67|
92155055|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.87|||||TWO_SIDED|95.0|0.76|0.99||||||Serotype 3||0.99|0.76|
92155056|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.68|0.91||||||Serotype 4||0.91|0.68|
92155057|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.77|1.02||||||Serotype 5||1.02|0.77|
92155058|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.73|||||TWO_SIDED|95.0|0.61|0.87||||||Serotype 6A||0.87|0.61|
92155059|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.77|||||TWO_SIDED|95.0|0.64|0.91||||||Serotype 6B||0.91|0.64|
92155060|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.76|1.01||||||Serotype 7F||1.01|0.76|
92155061|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.9|||||TWO_SIDED|95.0|0.79|1.03||||||Serotype 9V||1.03|0.79|
92155062|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.73|0.99||||||Serotype 14||0.99|0.73|
92155063|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.78|||||TWO_SIDED|95.0|0.68|0.91||||||Serotype 18C||0.91|0.68|
92155064|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.78|1.02||||||Serotype 19A||1.02|0.78|
92155065|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.77|1.03||||||Serotype 19F||1.03|0.77|
92155066|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.89||||||Serotype 22F||0.89|0.65|
92155067|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.7|0.98||||||Serotype 23F||0.98|0.70|
92216257|NCT01241552|184332478|SUPERIORITY_OR_OTHER||Percentage Difference|-11.0|||||TWO_SIDED|95.0|-23.2|1.4|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||1.4|-23.2|
92216258|NCT01241552|184332478|SUPERIORITY_OR_OTHER||Percentage Difference|-16.7|||||TWO_SIDED|95.0|-28.4|-4.7|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||-4.7|-28.4|
92216259|NCT02606461|184332484|SUPERIORITY||Hazard Ratio (HR)|0.7026||||0.0114|TWO_SIDED|95.0|0.5191|0.9509|||Log Rank|||||0.9509|0.5191|0.0114
92216260|NCT02606461|184332486|SUPERIORITY||Hazard Ratio, log|1.1521||||0.6051|TWO_SIDED|95.0|0.5357|2.4778|||Log Rank|||||2.4778|0.5357|0.6051
92216261|NCT05395104|184332510|OTHER|Ratio = Geometric least squares mean (test)/geometric least squares mean (reference)|Ratio|1.0865|||||TWO_SIDED|90.0|0.9724|1.2141||||||Midazolam + Cefiderocol: single 5-mg dose of midazolam + 2 g cefiderocol (Day 15)||1.2141|0.9724|
92216262|NCT05395104|184332512|OTHER|Ratio = Geometric least squares mean (test)/geometric least squares mean (reference)|Ratio|1.1174|||||TWO_SIDED|90.0|0.9784|1.2762||||||Midazolam + Cefiderocol: single 5-mg dose of midazolam + 2 g cefiderocol (Day 15)||1.2762|0.9784|
92369335|NCT02993822|184643579|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.6|TWO_SIDED|95.0|0.74|1.19|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.19|0.74|0.600
92155068|NCT03615482|184196632|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.75|0.99||||||Serotype 33F||0.99|0.75|
92155069|NCT00322868|184196640|SUPERIORITY_OR_OTHER|||||||0.2772|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum white cell count||||||0.2772
92155070|NCT00322868|184196641|SUPERIORITY_OR_OTHER|||||||0.2467|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum neutrophil count||||||0.2467
92155071|NCT00322868|184196642|SUPERIORITY_OR_OTHER|||||||0.0288|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in sputum percent neutrophils||||||0.0288
92155072|NCT00322868|184196643|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum active elastase||||||0.50
92155073|NCT00322868|184196644|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum TNFα||||||0.62
92155074|NCT00322868|184196645|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum IL-1ß||||||0.50
92155075|NCT00322868|184196646|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum IL-6||||||0.55
92155076|NCT00322868|184196647|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum IL-8||||||0.75
92155077|NCT01852162|184196652|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||An analysis of covariance (ANCOVA) method with a general linear model, using the corresponding baseline PD value as a covariate, was used to evaluate the comparisons between dabigatran and placebo at 7 days.|ANCOVA|||Assuming a 20% relative difference in TRAP induced MPA between dabigatran and placebo with a common standard deviation of 10%, 13 patients with available data needed to be randomized to obtain a 95% power and 2-sided alpha=0.05.||||<0.05
92155078|NCT01500226|184196667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.2|2.0||To control for multiplicity, analyses were performed hierarchically. For the CR delayed the threshold for statistical significance was 0.05; no further adjustment for multiplicity were required for the primary endpoint.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.0|1.2|<0.001
92155079|NCT01500226|184196668|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.143|TWO_SIDED|95.0|0.9|1.6||To control for multiplicity, analyses were performed hierarchically. CR-acute was tested only if the result for the primary endpoint, CR delayed, was statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||1.6|0.9|0.143
92155080|NCT01500226|184196669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.3|2.0||To control for multiplicity, analyses were performed hierarchically. CR overall was tested only if both CR delayed and CR acute were statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.0|1.3|<0.001
92155081|NCT04212169|184196694|SUPERIORITY||Mean Difference (Final Values)|1.27|STANDARD_ERROR_OF_MEAN|8.981||0.888|TWO_SIDED|90.0|-13.67|16.22|||Mixed Models Analysis||Differences less than 0 favours MEDI3506|||16.22|-13.67|0.888
92155082|NCT04212169|184196694|SUPERIORITY||Mean Difference (Final Values)|5.87|STANDARD_ERROR_OF_MEAN|9.756||0.549|TWO_SIDED|90.0|-10.36|22.1|||Mixed Models Analysis||Differences less than 0 favours MEDI3506|||22.10|-10.36|0.549
92155083|NCT04212169|184196694|SUPERIORITY||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|7.014||0.807|TWO_SIDED|90.0|-13.38|9.95|||Mixed Models Analysis||Differences less than 0 favours MEDI3506|||9.95|-13.38|0.807
92216263|NCT05395104|184332513|OTHER|Ratio = Geometric least squares mean (test)/geometric least squares mean (reference)|Ratio|1.1239|||||TWO_SIDED|90.0|0.9887|1.2776||||||Midazolam + Cefiderocol: single 5-mg dose of midazolam + 2 g cefiderocol (Day 15)||1.2776|0.9887|
92216264|NCT04422990|184332531|NON_INFERIORITY|Noninferiority in mean CLCDVA was declared if the upper confidence limit was less than 0.10 logMAR.|Least squares mean difference|0.0|||||TWO_SIDED|95.0|-0.01|0.01||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|Mixed effects repeated measures model||Least squares mean difference (LID018869 minus Biofinity).|||0.01|-0.01|
92274878|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.83|||||TWO_SIDED|95.0|-32.34|0.67||||||For change in global QoL at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||0.67|-32.34|
92339421|NCT00593450|184580544|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.6||0.16|TWO_SIDED|99.2|-4.1|2.4||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Avastin as Needed Group - Mean VA Change in Lucentis as Needed Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||2.4|-4.1|0.16
92369336|NCT02993822|184643580|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.042|TWO_SIDED|95.0|0.0|2.0|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.0|0.0|0.042
92398787|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|1.92||0.2334|TWO_SIDED|95.0|-6.07|1.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||1.49|-6.07|0.2334
92155084|NCT04212169|184196696|SUPERIORITY||Odds Ratio (OR)|1.53||||0.6396|TWO_SIDED|90.0|0.19|9.94|||Fisher Exact||Odds ratio greater than 1 favours MEDI3506|||9.94|0.19|0.6396
92155085|NCT04212169|184196696|SUPERIORITY||Odds Ratio (OR)|0.76||||0.9999|TWO_SIDED|90.0|0.03|6.38|||Fisher Exact||Odds ratio greater than 1 favours MEDI3506|||6.38|0.03|0.9999
92155086|NCT04212169|184196696|SUPERIORITY||Odds Ratio (OR)|2.89||||0.0935|TWO_SIDED|90.0|0.91|10.49|||Regression, Logistic||Odds ratio greater than 1 favours MEDI3506|||10.49|0.91|0.0935
92155087|NCT04212169|184196698|SUPERIORITY||Odds Ratio (OR)|3.06||||0.445|TWO_SIDED|90.0|0.08|119.65|||Fisher Exact||Odds ratio greater than one favour MEDI3506|||119.65|0.08|0.4450
92155088|NCT04212169|184196698|SUPERIORITY||Odds Ratio (OR)|0.0||||0.9999|TWO_SIDED|90.0|0.0|28.0|||Fisher Exact||Odds ratio greater than 1 favours MEDI3506|||28.0|0.0|0.9999
92155089|NCT04212169|184196698|SUPERIORITY||Odds Ratio (OR)|5.5||||0.1132|TWO_SIDED|90.0|0.75|130.35|||Fisher Exact||Odds ratio greater than 1 favours MEDI3506|||130.35|0.75|0.1132
92155090|NCT01646320|184196794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.0964|<|0.0001|TWO_SIDED|95.0|-0.91|-0.53||Tested at alpha=0.05|Longitudinal Repeated Measures Analysis|||||-0.53|-0.91|<0.0001
92155091|NCT01646320|184196795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.5|STANDARD_ERROR_OF_MEAN|4.015|<|0.0001|TWO_SIDED|95.0|-35.4|-19.6||Secondary end points are tested following a sequential testing procedure at alpha=0.05|Longitudinal Repeated Measures Analysis|||||-19.6|-35.4|<0.0001
92155092|NCT01646320|184196796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.5|STANDARD_ERROR_OF_MEAN|5.493|<|0.0001|TWO_SIDED|95.0|-46.3|-24.7||Secondary end points are tested following a sequential testing procedure at alpha=0.05|Longitudinal Repeated Measures Analysis|||||-24.7|-46.3|<0.0001
92155093|NCT01646320|184196797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.3126|<|0.0001|TWO_SIDED|95.0|-2.12|-0.89||Secondary endpoints are tested following a sequential testing procedure at alpha=0.05|Longitudinal Repeated Measures Analysis|||||-0.89|-2.12|<0.0001
92155094|NCT01646320|184196798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.5|||<|0.0001|TWO_SIDED|95.0|16.7|34.4||Secondary end points are tested following a sequential testing procedure at alpha=0.05|Modified logistic regression|||||34.4|16.7|<0.0001
92155095|NCT02451930|184196811|OTHER|||||||0.4491|||||||Fisher Exact|||||||0.4491
92155096|NCT00962585|184196819|SUPERIORITY_OR_OTHER|||||||0.573||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|ANCOVA|"Model (Analysis of covariance): Week 4 = Baseline (MSVS) + Treatment + Site~Difference Between Means: S-equol treatment group - Placebo"||"\# of MSVS per week at each protocol visits = (# of Moderate+Severe hot flushes)/(Current protocol visit date-Previous protocol visit date (days)) x 7.~The ANCOVA procedure was used to test the following hypotheses:~H0: μ1 = μp versus HA: μ1 ≠ μp where μ1 and μp denote the mean frequency of MSVS (at Week 4 in case of primary efficacy endpoint), adjusted for Baseline MSVS values, in the treatment and placebo groups, respectively."||||0.5730
92155097|NCT00962585|184196819|SUPERIORITY_OR_OTHER||LS means difference|1.13|||>|0.05|TWO_SIDED|95.0|-10.06|12.32|||Pair-wise comparisons|||||12.32|-10.06|>0.05
92155098|NCT00962585|184196819|SUPERIORITY_OR_OTHER||LS means difference|6.98|||>|0.05|TWO_SIDED|95.0|-3.87|17.84|||Pair-wise comparisons|||||17.84|-3.87|>0.05
92155099|NCT00962585|184196819|SUPERIORITY_OR_OTHER||LS means difference|0.94|||>|0.05|TWO_SIDED|95.0|-10.16|12.04|||Pair-wise comparisons|||||12.04|-10.16|>0.05
92155100|NCT00962585|184196820|SUPERIORITY_OR_OTHER|||||||0.7364||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|ANCOVA|"Model: Week 4 = Baseline (MSVS) + Treatment + Site~Difference Between Means: S-equol treatment group - Placebo"||"\# of MSVS per week at each protocol visits = (# of Moderate+Severe hot flushes)/(Current protocol visit date-Previous protocol visit date (days)) x 7~1-week period = remaining days of the period since the last visit (i.e. period following first 7 days, as per CRF)"||||0.7364
92155101|NCT00962585|184196820|SUPERIORITY_OR_OTHER||LS means difference|-0.19|||>|0.05|TWO_SIDED|95.0|-12.38|12.01|||Pair-wise comparisons|||||12.01|-12.38|>0.05
92155102|NCT00962585|184196820|SUPERIORITY_OR_OTHER||LS means difference|4.77|||>|0.05|TWO_SIDED|95.0|-6.94|16.48|||Pair-wise comparisons|||||16.48|-6.94|>0.05
92155103|NCT00962585|184196820|SUPERIORITY_OR_OTHER||LS means difference|-1.63|||>|0.05|TWO_SIDED|95.0|-13.41|10.15|||Pair-wise comparisons|||||10.15|-13.41|>0.05
92274879|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.58|||||TWO_SIDED|95.0|-24.12|0.96||||||For change in physical functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||0.96|-24.12|
92339422|NCT00593450|184580544|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|1.5||0.16|TWO_SIDED|99.2|-4.7|1.3||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Lucentis as Needed Group - Mean VA Change in Lucentis Monthly Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||1.3|-4.7|0.16
92369337|NCT02993822|184643580|SUPERIORITY||Median Difference (Final Values)|1.1||||0.026|TWO_SIDED|95.0|0.1|2.0|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.0|0.1|0.026
92155104|NCT00962585|184196821|SUPERIORITY_OR_OTHER|||||||0.1217||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05. Treatment effect averaged across Weeks 1 and 2.|Repeated measures ANCOVA|"Mixed Model: MSVS = Baseline (MSVS) + Treatment + Site + Weeks + Treatment x Weeks~Difference Between Means: S-equol treatment group - Placebo"||\# of MSVS per week at each protocol visits = (# of Moderate+Severe hot flushes)/(Current protocol visit date-Previous protocol visit date (days)) x 7.||||0.1217
92155105|NCT00962585|184196821|SUPERIORITY_OR_OTHER||LS means difference|-3.77|||>|0.05||95.0|-12.69|5.16|||Pair-wise comparisons|||Week 1, Treatment Effect||5.16|-12.69|>0.05
92155106|NCT00962585|184196821|SUPERIORITY_OR_OTHER||LS means difference|9.69|||<|0.05|TWO_SIDED|95.0|0.79|18.6|||Pair-wise comparisons|||Week 1, Treatment Effect||18.60|0.79|<0.05
92155107|NCT00962585|184196821|SUPERIORITY_OR_OTHER||LS means difference|1.31|||>|0.05|TWO_SIDED|95.0|-7.73|10.36|||Pair-wise comparisons|||Week 1, Treatment Effect||10.36|-7.73|>0.05
92155108|NCT00962585|184196821|SUPERIORITY_OR_OTHER||LS means difference|-6.7|||>|0.05|TWO_SIDED|95.0|-18.36|4.96|||Pair-wise comparisons|||Week 2, Treatment Effect||4.96|-18.36|>0.05
92155109|NCT00962585|184196821|SUPERIORITY_OR_OTHER||LS means difference|3.56|||>|0.05|TWO_SIDED|95.0|-8.01|15.14|||Pair-wise comparisons|||Week 2, Treatment Effect||15.14|-8.01|>0.05
92155110|NCT00962585|184196821|SUPERIORITY_OR_OTHER||LS means difference|0.91|||>|0.05|TWO_SIDED|95.0|-10.77|12.58|||Pair-wise comparisons|||Week 2, Treatment Effect||12.58|-10.77|>0.05
92155111|NCT00962585|184196822|SUPERIORITY_OR_OTHER|||||||0.1609||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05. Treatment effect averaged across Weeks 1, 2 and 4.|Repeated measures ANCOVA|Mixed Model: Severity of VMS = Baseline (severity of VMS) + Treatment + Site + Weeks + Treatment x Weeks||Severity of VMS per week at each protocol visits = (Sum of scores of Mild, Moderate, Severe hot flushes)/(Current protocol visit date-Previous protocol visit date (days)) x 7, where severity of vasomotor symptoms are scored as: 1 = mild, 2 = moderate and 3 = severe.||||0.1609
92155112|NCT00962585|184196822|SUPERIORITY_OR_OTHER||LS means difference|-6.34|||>|0.05|TWO_SIDED|95.0|-26.41|13.73|||Pair-wise comparisons|||Week 1, Treatment Effect||13.73|-26.41|>0.05
92155113|NCT00962585|184196822|SUPERIORITY_OR_OTHER||LS means difference|25.67|||<|0.05|TWO_SIDED|95.0|5.64|45.69|||Pair-wise comparisons|||Week 1, Treatment Effect||45.69|5.64|<0.05
92155114|NCT00962585|184196822|SUPERIORITY_OR_OTHER||LS means difference|2.09|||>|0.05|TWO_SIDED|95.0|-18.21|22.39|||Pair-wise comparisons|||Week 1, Treatment Effect||22.39|-18.21|>0.05
92155115|NCT00962585|184196822|SUPERIORITY_OR_OTHER||LS means difference|-16.14|||>|0.05|TWO_SIDED|95.0|-43.29|11.01|||Pair-wise comparisons|||Week 2, Treatment Effect||11.01|-43.29|>0.05
92155116|NCT00962585|184196822|SUPERIORITY_OR_OTHER||LS means difference|8.73|||>|0.05|TWO_SIDED|95.0|-18.19|35.65|||Pair-wise comparisons|||Week 2, Treatment Effect||35.65|-18.19|>0.05
92155117|NCT00962585|184196822|SUPERIORITY_OR_OTHER||LS means difference|-0.65|||>|0.05|TWO_SIDED|95.0|-27.8|26.5|||Pair-wise comparisons|||Week 2, Treatment Effect||26.50|-27.80|>0.05
92155118|NCT00962585|184196822|SUPERIORITY_OR_OTHER||LS means difference|-1.69|||>|0.05|TWO_SIDED|95.0|-28.68|25.3|||Pair-wise comparisons|||Week 4, Treatment Effect||25.30|-28.68|>0.05
92155119|NCT00962585|184196822|SUPERIORITY_OR_OTHER||LS means difference|16.15|||>|0.05|TWO_SIDED|95.0|-10.4|42.71|||Pair-wise comparisons|||Week 4, Treatment Effect||42.71|-10.40|>0.05
92155120|NCT00962585|184196822|SUPERIORITY_OR_OTHER||LS means difference|-1.29|||>|0.05|TWO_SIDED|95.0|-28.18|25.6|||Pair-wise comparisons|||Week 4, Treatment Effect||25.60|-28.18|>0.05
92155121|NCT00962585|184196823|SUPERIORITY_OR_OTHER|||||||0.2211||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05. Treatment effect averaged across Weeks 2 and 4.|Repeated measures ANCOVA|Mixed Model: (Vaginal pH) = Baseline (Vaginal pH) + Treatment + Site + Weeks + Treatment x Weeks||||||0.2211
92155122|NCT00962585|184196823|SUPERIORITY_OR_OTHER||LS means difference|-0.21|||>|0.05|TWO_SIDED|95.0|-0.53|0.12|||Pair-wise comparisons|||Week 2, Treatment Effect||0.12|-0.53|>0.05
92155123|NCT00962585|184196823|SUPERIORITY_OR_OTHER||LS means difference|-0.23|||>|0.05|TWO_SIDED|95.0|-0.55|0.09|||Pair-wise comparisons|||Week 2, Treatment Effect||0.09|-0.55|>0.05
92155124|NCT00962585|184196823|SUPERIORITY_OR_OTHER||LS means difference|0.03|||>|0.05|TWO_SIDED|95.0|-0.28|0.35|||Pair-wise comparisons|||Week 2, Treatment Effect||0.35|-0.28|>0.05
92216265|NCT04422990|184332532|NON_INFERIORITY|Proportion of subjects was used for the statistical analysis. Noninferiority in proportion of subjects achieving CLCDVA 20/20 or better in each eye was declared if the lower confidence limit was greater than -0.10.|Difference in proportion|-0.01|||||TWO_SIDED|95.0|-0.04|0.02||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|Generalized linear mixed model||Lens difference (LID018869 minus Biofinity)|||0.02|-0.04|
92216266|NCT01849497|184332533|SUPERIORITY_OR_OTHER||Treatment Difference|-6.8|||||TWO_SIDED|95.0|-16.3|2.0||||||||2.0|-16.3|
92216267|NCT01849497|184332534|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-3.7|STANDARD_ERROR_OF_MEAN|3.38|||TWO_SIDED|95.0|-10.38|2.99||||||||2.99|-10.38|
92339423|NCT00593450|184580544|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-2.1|STANDARD_ERROR_OF_MEAN|1.9||0.16|TWO_SIDED|99.2|-5.7|1.6||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Avastin as Needed Group - Mean VA Change in Avastin Monthly Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||1.6|-5.7|0.16
92339424|NCT00593450|184580544|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|1.7||0.16|TWO_SIDED|99.2|-4.5|2.1||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Lucentis as Needed Group - Mean VA Change in Avastin Monthly Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||2.1|-4.5|0.16
92339425|NCT00593450|184580544|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|1.7||0.16|TWO_SIDED|99.2|-5.9|0.8||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Avastin as Needed Group - Mean VA Change in Lucentis Monthly Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||0.8|-5.9|0.16
92339426|NCT02359110|184580559|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.89|TWO_SIDED|95.0|-1.2|1.3|||Mixed Models Analysis|||Hour 2 Analysis||1.3|-1.2|0.89
92339427|NCT02359110|184580559|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.94|TWO_SIDED|95.0|-1.6|1.5|||Mixed Models Analysis|||Hour 4 Analysis||1.5|-1.6|0.94
92339428|NCT02359110|184580559|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.64|TWO_SIDED|95.0|-2.2|1.3|||Mixed Models Analysis|||Hour 6 Analysis||1.3|-2.2|0.64
92339429|NCT02359110|184580559|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.59|TWO_SIDED|95.0|-1.6|2.8|||Mixed Models Analysis|||Hour 8 Analysis||2.8|-1.6|0.59
92216268|NCT03044249|184332540|SUPERIORITY||Response Ratio|4.0||||0.48|TWO_SIDED|90.0|-18.0|25.0|||Fisher Exact|||||25|-18|0.48
92216269|NCT03044249|184332542|SUPERIORITY||Mean Difference (Final Values)|-5.28||||0.14|TWO_SIDED|90.0|-11.16|0.61|||Mixed Models Analysis|||||0.61|-11.16|0.14
92339430|NCT02359110|184580560|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.52|TWO_SIDED|95.0|-8.1|15.8|||Mixed Models Analysis|||Hour 2 Analysis||15.8|-8.1|0.52
92339431|NCT02359110|184580560|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.8|TWO_SIDED|95.0|-11.9|15.3|||Mixed Models Analysis|||Hour 6 Analysis||15.3|-11.9|0.80
92339432|NCT02359110|184580561|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||0.88
92339433|NCT03934216|184580586|SUPERIORITY||Odds Ratio (OR)|0.9||||0.5935|TWO_SIDED|95.0|0.3|2.4|||Stratified Cochran-Mantel-Haenszel|||||2.4|0.3|0.5935
92339434|NCT03934216|184580587|SUPERIORITY||Odds Ratio (OR)|1.2||||0.3051|TWO_SIDED|95.0|0.6|2.7|||Stratified Cochran-Mantel-Haenszel|||||2.7|0.6|0.3051
92339435|NCT03934216|184580588|SUPERIORITY||Odds Ratio (OR)|0.6||||0.8764|TWO_SIDED|95.0|0.3|1.4|||Stratified Cochran-Mantel-Haenszel|||||1.4|0.3|0.8764
92339436|NCT03934216|184580589|SUPERIORITY||Odds Ratio (OR)|1.4||||0.2235|TWO_SIDED|95.0|0.5|3.8|||Stratified Cochran-Mantel-Haenszel|||||3.8|0.5|0.2235
92339437|NCT01711983|184580597|NON_INFERIORITY|Non-inferiority margin based on 1) the lower 95% confidence bound (= 0.82) for estimated 6-month composite Clinical Success for the historical device (219/253=0.866), and 2) a worst-case analysis of 6-month composite Clinical Success for the historical device (0.81, assuming the 18 subjects with missing echo evaluations were failures).|Risk Difference (RD)|-0.0366|||<|0.0001|ONE_SIDED|95.0||0.007||A priori 1-sided alpha = 0.05.|2-sample binomial proportions test||Difference is control - test. Confidence interval is the upper one-sided 95% Wald confidence interval.|"Test null hypothesis of inferiority of test device (test) compared to historical device (control).~H0: Pc - Pt ≥ Δ vs H1: Pc - Pt \< Δ, where Pt and Pc are true proportions of 6-month clinical success for test and control, respectively, and Δ is the non-inferiority margin.~Given Nc = 253, then Nt = 135 test subjects provides 86% power to reject H0 with 95% confidence if Δ = 0.10 and Pc = Pt = 0.866 under H0."||0.007||<0.0001
92155125|NCT00962585|184196823|SUPERIORITY_OR_OTHER||LS means difference|-0.26|||>|0.05|TWO_SIDED|95.0|-0.54|0.02|||Pair-wise comparisons|||Week 4, Treatment Effect||0.02|-0.54|>0.05
92155126|NCT00962585|184196823|SUPERIORITY_OR_OTHER||LS means difference|-0.13|||>|0.05|TWO_SIDED|95.0|-0.4|0.14|||Pair-wise comparisons|||Week 4, Treatment Effect||0.14|-0.40|>0.05
92155127|NCT00962585|184196823|SUPERIORITY_OR_OTHER||LS means difference|-0.24|||>|0.05|TWO_SIDED|95.0|-0.51|0.03|||Pair-wise comparisons|||Week 4, Treatment Effect||0.03|-0.51|>0.05
92155128|NCT00962585|184196824|SUPERIORITY_OR_OTHER|||||||0.6375||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05. Treatment effect averaged across Weeks 2 and 4.|Repeated measures ANCOVA|Mixed Model: (Vaginal Maturation Index) = Baseline (Vaginal Maturation Index) + Treatment + Site + Weeks + Treatment x Weeks||Vaginal maturation index = 0.2 x (% parabasal cells) + 0.6 x(% intermediate cells) + 1.0 x (% superficial cells)||||0.6375
92155129|NCT00962585|184196824|SUPERIORITY_OR_OTHER||LS means difference|-1.58|||>|0.05|TWO_SIDED|95.0|-9.57|6.42|||Pair-wise comparisons|||Week 2, Treatment Effect||6.42|-9.57|>0.05
92155130|NCT00962585|184196824|SUPERIORITY_OR_OTHER||LS means difference|-1.58|||>|0.05|TWO_SIDED|95.0|-9.63|6.46|||Pair-wise comparisons|||Week 2, Treatment Effect||6.46|-9.63|>0.05
92155131|NCT00962585|184196824|SUPERIORITY_OR_OTHER||LS means difference|-1.59|||>|0.05|TWO_SIDED|95.0|-9.66|6.47|||Pair-wise comparisons|||Week 2, Treatment Effect||6.47|-9.66|>0.05
92155132|NCT00962585|184196824|SUPERIORITY_OR_OTHER||LS means difference|-0.31|||>|0.05|TWO_SIDED|95.0|-6.73|6.11|||Pair-wise comparisons|||Week 4, Treatment Effect||6.11|-6.73|>0.05
92155133|NCT00962585|184196824|SUPERIORITY_OR_OTHER||LS means difference|-6.14|||>|0.05|TWO_SIDED|95.0|-12.36|0.07|||Pair-wise comparisons|||Week 4, Treatment Effect||0.07|-12.36|>0.05
92155134|NCT00962585|184196824|SUPERIORITY_OR_OTHER||LS means difference|-2.88|||>|0.05|TWO_SIDED|95.0|-9.05|3.28|||Pair-wise comparisons|||Week 4, Treatment Effect||3.28|-9.05|>0.05
92339438|NCT01064414|184580618|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.117||0.012|TWO_SIDED|95.0|-0.529|-0.066|||ANCOVA|||||-0.066|-0.529|0.012
92155135|NCT00962585|184196825|SUPERIORITY_OR_OTHER|||||||0.0681||||||P-value is adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05. Treatment effect averaged across Weeks 2 and 4.|Repeated measures ANCOVA|Mixed Model: (Estradiol) = Baseline (Estradiol) + Treatment + Site + Weeks + Treatment x Weeks||||||0.0681
92155136|NCT00962585|184196825|SUPERIORITY_OR_OTHER||LS means difference|35.32|||>|0.05|TWO_SIDED|95.0|1.75|68.9|||Pair-wise comparisons|||Week 2, Treatment Effect||68.90|1.75|>0.05
92216270|NCT03044249|184332543|SUPERIORITY||Mean Difference (Final Values)|-1.58||||0.37|TWO_SIDED|90.0|-4.47|1.31|||Mixed Models Analysis|||||1.31|-4.47|0.37
92339439|NCT01064414|184580618|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.117|<|0.001|TWO_SIDED|95.0|-0.635|-0.174|||ANCOVA|||||-0.174|-0.635|<0.001
92339440|NCT01064414|184580619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.227|TWO_SIDED|95.0|0.73|3.77|||Regression, Logistic|||||3.77|0.73|0.227
92155137|NCT00962585|184196825|SUPERIORITY_OR_OTHER||LS means difference|3.61|||>|0.05|TWO_SIDED|95.0|-29.12|36.34|||Pair-wise comparisons|||Week 2, Treatment Effect||36.34|-29.12|>0.05
92155138|NCT00962585|184196825|SUPERIORITY_OR_OTHER||LS means difference|-4.58|||>|0.05|TWO_SIDED|95.0|-37.39|28.23|||Pair-wise comparisons|||Week 2, Treatment Effect||28.23|-37.39|>0.05
92155139|NCT00962585|184196825|SUPERIORITY_OR_OTHER||LS means difference|22.12|||>|0.05|TWO_SIDED|95.0|-23.56|67.8|||Pair-wise comparisons|||Week 4, Treatment Effect||67.80|-23.56|>0.05
92155140|NCT00962585|184196825|SUPERIORITY_OR_OTHER||LS means difference|7.8|||>|0.05|TWO_SIDED|95.0|-36.7|52.29|||Pair-wise comparisons|||Week 4, Treatment Effect||52.29|-36.70|>0.05
92155141|NCT00962585|184196825|SUPERIORITY_OR_OTHER||LS means difference|-22.74|||>|0.05|TWO_SIDED|95.0|-67.44|21.96|||Pair-wise comparisons|||Week 4, Treatment Effect||21.96|-67.44|>0.05
92155142|NCT00962585|184196829|SUPERIORITY_OR_OTHER|||||||0.0475||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.0475
92216271|NCT03044249|184332547|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.94|TWO_SIDED|90.0|-2.0|1.84|||Mixed Models Analysis|||||1.84|-2.00|0.94
92216272|NCT00955279|184332549|SUPERIORITY_OR_OTHER|||||||0.543|||||||ANCOVA|||||||0.543
92216273|NCT00955279|184332549|SUPERIORITY_OR_OTHER|||||||0.126|||||||ANCOVA|||||||0.126
92339441|NCT01064414|184580619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.69||||0.017|TWO_SIDED|95.0|1.19|6.04|||Regression, Logistic|||||6.04|1.19|0.017
92339442|NCT01064414|184580620|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|6.638||0.021|TWO_SIDED|95.0|-28.45|-2.307|||ANCOVA|||||-2.307|-28.45|0.021
92339443|NCT01064414|184580620|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|6.683||0.069|TWO_SIDED|95.0|-25.36|0.962|||ANCOVA|||||0.962|-25.36|0.069
92339444|NCT00643201|184580625|NON_INFERIORITY_OR_EQUIVALENCE|Statistical Testing: non-inferiority tested at 1-sided α=0.025 with margin of 1.8. Demonstration of non-inferiority using both relative risk (RR) (margin = 1.8) and risk difference (RD) (margin = 0.035) were required to achieve the primary objective.|Risk Ratio (RR)|0.839|||<|0.0001|TWO_SIDED|95.0|0.5965|1.1802||This is the first test in a sequential testing sequence. p-value calculated based on the Yanagawa-Tango-Hiejima test stratified by index event strata for non-inferiority. Tested at 1-sided α=0.025|Yanagawa-Tango-Hiejima|For a successful trial; rejection of the null hypotheses for both RR and RD was required.||Hypothesis that apixaban was non-inferior to enoxaparin/warfarin therapy in preventing the recurrence of VTE (nonfatal DVT or nonfatal PE)/VTE-related death.||1.1802|0.5965|<0.0001
92398788|NCT03192176|184689417|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|1.91||0.9859|TWO_SIDED|95.0|-3.79|3.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||3.72|-3.79|0.9859
92398789|NCT03192176|184689417|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|1.9||0.287|TWO_SIDED|95.0|-5.77|1.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||1.72|-5.77|0.2870
92155143|NCT00962585|184196829|SUPERIORITY_OR_OTHER|||||||0.0258||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.0258
92155144|NCT00962585|184196829|SUPERIORITY_OR_OTHER|||||||0.0281||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.0281
92155145|NCT00962585|184196829|SUPERIORITY_OR_OTHER|||||||0.0645||95.0|||||Kruskal-Wallis|||All three S-equol treatment arms were aggregated and compared to placebo.||||0.0645
92155146|NCT00962585|184196830|SUPERIORITY_OR_OTHER|||||||0.0097||||||P-value is adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol groups combined versus Placebo: Change from Baseline at Week 4||||||0.0097
92155147|NCT00962585|184196831|SUPERIORITY_OR_OTHER|||||||0.4352||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.4352
92155148|NCT00962585|184196831|SUPERIORITY_OR_OTHER|||||||0.26||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.2600
92155149|NCT00962585|184196831|SUPERIORITY_OR_OTHER|||||||0.7037||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.7037
92155150|NCT00962585|184196831|SUPERIORITY_OR_OTHER|||||||0.7155|||||||Kruskal-Wallis|||All three S-equol treatment arms were aggregated and compared to placebo.||||0.7155
92155151|NCT00962585|184196832|SUPERIORITY_OR_OTHER|||||||0.0381||||||P-value is adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol groups combined versus Placebo: Change from Baseline at Week 4||||||0.0381
92155152|NCT02254421|184196837|SUPERIORITY||Treatment difference|-0.02||||0.94|TWO_SIDED|95.0|-0.62|0.57||P-value was calculated from the ANCOVA model including baseline values and stratification factors.|ANCOVA|||||0.57|-0.62|0.94
92155153|NCT02254421|184196838|SUPERIORITY|||||||0.84||||||P-value was calculated from the negative binomial model with stratification factors as covariates.|Negative binomial|||||||0.84
92155154|NCT02254421|184196839|SUPERIORITY|||||||0.98||||||P-value was calculated from the Cochran-Mantel-Haenszel (CMH) test stratified by stratification factors.|Cochran-Mantel-Haenszel|||||||0.98
92155155|NCT02254421|184196840|SUPERIORITY|||||||0.19||||||P-value was calculated from the CMH test stratified by stratification factors.|Cochran-Mantel-Haenszel|||||||0.19
92155156|NCT03249376|184196891|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|0.89|<|0.0001|TWO_SIDED|95.0|-6.34|-2.83|||Mixed Effects Model for Repeated Measure|||||-2.83|-6.34|<0.0001
92155157|NCT03249376|184196892|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.37|-0.51|||Mixed Effects Model for Repeated Measure|||||-0.51|-1.37|<0.0001
92155158|NCT03249376|184196893|SUPERIORITY||Least Squares Mean Difference|4.6||||0.005|TWO_SIDED|95.0|1.42|7.69|||ANCOVA|||||7.69|1.42|0.005
92155159|NCT00432679|184196913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.81|STANDARD_ERROR_OF_MEAN|0.102|<|0.001|TWO_SIDED|95.0|-1.01|-0.61||Change from Baseline in HbA1c = Treatment+ Baseline HbA1c+ Gender+ body mass index (BMI)|ANCOVA|||||-0.61|-1.01|<0.001
92155160|NCT00432679|184196914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-22.1|STANDARD_ERROR_OF_MEAN|5.06|<|0.001|TWO_SIDED|95.0|-32.1|-12.1|||Unpaired t-test|||||-12.1|-32.1|<0.001
92155161|NCT00432679|184196915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.718|STANDARD_ERROR_OF_MEAN|0.8102||0.377|TWO_SIDED|95.0|-0.883|2.319|||Unpaired t-test|||||2.319|-0.883|0.377
92155162|NCT00432679|184196916|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.04|STANDARD_ERROR_OF_MEAN|2.094||0.33|TWO_SIDED|95.0|-6.18|2.09|||Unpaired t-test|||||2.09|-6.18|0.330
92155163|NCT00432679|184196917|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.473||0.983|TWO_SIDED|95.0|-0.945|0.925|||Unpaired t-test|||||0.925|-0.945|0.983
92155164|NCT00432679|184196918|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|8.22|STANDARD_ERROR_OF_MEAN|3.556||0.022|TWO_SIDED|95.0|1.191|15.248|||Unpaired t-test|||||15.248|1.191|0.022
92155165|NCT00432679|184196919|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|8.21|STANDARD_ERROR_OF_MEAN|0.86|<|0.001|TWO_SIDED|95.0|6.52|9.91|||Unpaired t-test|||||9.91|6.52|<0.001
92216274|NCT00955279|184332550|SUPERIORITY_OR_OTHER|||||||0.896|||||||Linear Contrasts Test|||||||0.896
92339445|NCT00643201|184580625|NON_INFERIORITY_OR_EQUIVALENCE|Statistical Testing; non-inferiority tested at 1-sided α=0.025. If non-inferiority demonstrated for both RR and RD, the primary objective was achieved.|Risk Difference (RD)|-0.0044|||<|0.0001|TWO_SIDED|95.0|-0.0128|0.004||Yanagawa-Tango-Hiejima test statistic for risk difference (RD).|Yanagawa-Tango-Hiejima|||Hypothesis that apixaban was non-inferior to enoxaparin/warfarin therapy in preventing the recurrence of VTE (nonfatal DVT or nonfatalPE)/VTE-related death as measured by risk difference.||0.0040|-0.0128|<0.0001
92339446|NCT00643201|184580625|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.839||||0.3128|TWO_SIDED|95.0|0.5965|1.1802||Tested at 2-sided α=0.05 significance. Further inferential statistical testing halted due to failure to reject the null hypothesis of equivalence for VTE/VTE-related death.|Cochran-Mantel-Haenszel|Relative risk, CI, and p-value were calculated based on CMH test stratified by index event strata.||Hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint. Inferential testing required demonstration of non-inferiority using both RR and RD plus demonstration of superiority for major bleeding.||1.1802|0.5965|0.3128
92155166|NCT00432679|184196920|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.65|STANDARD_ERROR_OF_MEAN|0.355||0.069|TWO_SIDED|95.0|-0.05|1.35|||Unpaired t-test||Comparison of leptin.|||1.35|-0.05|0.069
92155167|NCT00432679|184196920|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-888.8|STANDARD_ERROR_OF_MEAN|803.96||0.271|TWO_SIDED|95.0|-2477.7|700.1|||Unpaired t-test||Comparison of hs-CRP|||700.1|-2477.7|0.271
92155168|NCT00432679|184196921|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.6|||||TWO_SIDED|95.0|27.1|54.1|||||Comparison of HbA1c, decrease by 0.7%|||54.1|27.1|
92155169|NCT00432679|184196921|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.8|||||TWO_SIDED|95.0|-0.3|13.8|||||Comparison of HbA1c, fell below 6.5%|||13.8|-0.3|
92155170|NCT00432679|184196921|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.6|||||TWO_SIDED|95.0|27.1|54.1|||||Comparison of HbA1c, satisfied either 1 or 2|||54.1|27.1|
92155171|NCT00432679|184196921|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|23.1|||||TWO_SIDED|95.0|9.5|36.6|||||Comparison of FPG, decrease of 30 milligrams per decilliter|||36.6|9.5|
92155172|NCT00432679|184196921|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.9|||||TWO_SIDED|95.0|-5.1|18.9|||||Comparison of FPG, fell below 126 milligrams per deciliter|||18.9|-5.1|
92155173|NCT00432679|184196921|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|20.5|||||TWO_SIDED|95.0|5.6|35.3|||||Comparison of FPG, satisfied either 1 or 2|||35.3|5.6|
92155174|NCT00906503|184196922|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3|STANDARD_DEVIATION|1.6|||TWO_SIDED|95.0|0.06|31.1||||||||31.1|0.06|
92155175|NCT03405662|184196923|SUPERIORITY|||||||0.07|||||||non-parametric Kolmogorov-Smirnov test|||||||0.07
92155176|NCT03405662|184196924|SUPERIORITY|||||||0.29|||||||non-parametric Kolmogorov-Smirnov test|||||||0.29
92155177|NCT03405662|184196925|SUPERIORITY|||||||0.07|||||||non-parametric Kolmogorov-Smirnov test|||||||0.07
92155178|NCT03405662|184196926|SUPERIORITY|||||||0.23|||||||non-parametric Kolmogorov-Smirnov test|||||||0.23
92155179|NCT03405662|184196927|SUPERIORITY|||||||0.68|||||||non-parametric Kolmogorov-Smirnov test|||||||0.68
92155180|NCT03405662|184196928|SUPERIORITY|||||||0.13|||||||non-parametric Kolmogorov-Smirnov test|||||||0.13
92155181|NCT03405662|184196929|SUPERIORITY|||||||0.32|||||||non-parametric Kolmogorov-Smirnov test|||||||0.32
92155182|NCT03405662|184196930|SUPERIORITY|||||||0.68|||||||non-parametric Kolmogorov-Smirnov test|||||||0.68
92155183|NCT03405662|184196931|SUPERIORITY|||||||0.86|||||||non-parametric Kolmogorov-Smirnov test|||||||0.86
92155184|NCT03405662|184196932|SUPERIORITY|||||||0.32|||||||non-parametric Kolmogorov-Smirnov test|||||||0.32
92155185|NCT01177813|184196937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.9|-0.57||Difference calculated as empagliflozin 10mg minus placebo|ANCOVA|||Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, and baseline HbA1c as linear covariate||-0.57|-0.90|<0.0001
92155186|NCT01177813|184196937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-1.01|-0.69||Difference calculated as empagliflozin 25mg minus placebo|ANCOVA|||Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, and baseline HbA1c as linear covariate||-0.69|-1.01|<0.0001
92155187|NCT01177813|184196938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|97.5|-2.48|-1.38||Difference calculated as empagliflozin 10mg minus placebo|ANCOVA|||Model was adjusted for treatment,geographical region,and renal function at baseline as fixed effects,baseline body weight and baseline HbA1c as linear covariate||-1.38|-2.48|<0.0001
92155188|NCT01177813|184196938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-2.7|-1.6||Difference calculated as empagliflozin 25mg minus placebo|ANCOVA|||Model was adjusted for treatment,geographical region,and renal function at baseline as fixed effects,baseline body weight and baseline HbA1c as linear covariate||-1.60|-2.70|<0.0001
92155189|NCT01177813|184196939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|STANDARD_ERROR_OF_MEAN|1.1||0.0231|TWO_SIDED|97.5|-5.2|0.0||Difference calculated as empagliflozin 10mg minus placebo|ANCOVA|||"Comparison for Systolic Blood Pressure~Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, baseline SBP and baseline HbA1c as linear covariate"||0.0|-5.2|0.0231
92155190|NCT01177813|184196939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|1.1||0.0028|TWO_SIDED|97.5|-6.0|-0.9||Difference calculated as empagliflozin 25mg minus placebo|ANCOVA|||"Comparison for Systolic blood pressure~Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, baseline SBP and baseline HbA1c as linear covariate"||-0.9|-6.0|0.0028
92155191|NCT01177813|184196939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.7||0.3987|TWO_SIDED|97.5|-2.1|0.9||Difference calculated as empagliflozin 10mg minus placebo|ANCOVA|||"Comparison for diastolic blood pressure~Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, baseline DBP and baseline HbA1c as linear covariate"||0.9|-2.1|0.3987
92216275|NCT00955279|184332550|SUPERIORITY_OR_OTHER|||||||0.063|||||||Linear Contrasts Test|||||||0.063
92216276|NCT00955279|184332551|SUPERIORITY_OR_OTHER|||||||0.374|||||||Linear Contrasts Test|||||||0.374
92216277|NCT00955279|184332551|SUPERIORITY_OR_OTHER|||||||0.073|||||||Linear Contrasts Test|||||||0.073
92339447|NCT00643201|184580626|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8151||||0.1554|TWO_SIDED|95.0|0.6146|1.0812||The test was stratified by index event strata using alpha=0.05 level of significance. Analysis was performed on the secondary efficacy dataset; there was no imputation of missing data.|Cochran-Mantel-Haenszel|Nominal p-value is reported.||Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.0812|0.6146|0.1554
92339448|NCT00643201|184580627|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7994||||0.1848|TWO_SIDED|95.0|0.5737|1.1137||The test was stratified by index event strata using alpha=0.05 level of significance. . Nominal p-value is reported.|Cochran-Mantel-Haenszel|Analysis was performed on the secondary efficacy dataset; there was no imputation of missing data.||Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.1137|0.5737|0.1848
92339449|NCT00643201|184580628|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6236||||0.0011|TWO_SIDED|95.0|0.4682|0.8306||The test was stratified by index event strata using alpha=0.05 level of significance. Nominal p-value is reported.|Cochran-Mantel-Haenszel|||Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||0.8306|0.4682|0.0011
92339450|NCT00643201|184580629|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5532|||<|0.0001|TWO_SIDED|95.0|0.4658|0.6569||The test was stratified by index event strata using alpha=0.05 level of significance. Nominal p-value is reported.|Cochran-Mantel-Haenszel|||Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||0.6569|0.4658|<0.0001
92339451|NCT00643201|184580630|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6347|||||TWO_SIDED|95.0|0.3735|1.0787|||Cochran-Mantel-Haenszel||Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.0787|0.3735|
92339452|NCT00643201|184580631|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0935|||||TWO_SIDED|95.0|0.6363|1.8793|||Cochran-Mantel-Haenszel||Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.8793|0.6363|
92339453|NCT00643201|184580632|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7521|||||TWO_SIDED|95.0|0.356|1.5889|||Cochran-Mantel-Haenszel||Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.5889|0.3560|
92339454|NCT00643201|184580633|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6539|||||TWO_SIDED|95.0|0.3419|1.2508|||Cochran-Mantel-Haenszel||Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.2508|0.3419|
92339455|NCT00643201|184580634|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7934|||||TWO_SIDED|95.0|0.5287|1.1906|||Cochran-Mantel-Haenszel||Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.1906|0.5287|
92339456|NCT00643201|184580635|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.307|||<|0.0001|TWO_SIDED|95.0|0.1728|0.5452||p-value calculated on the CMH test stratified by index event strata.|Cochran-Mantel-Haenszel||Relative risk and CI were calculated based on CMH test stratified by index event strata.|Hypothesis: apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint. As per the hierarchical statistical testing cascade, inferential testing for adjudicated major bleeding occurred because non-inferiority for VTE/VTE-related death (Primary efficacy endpoint) was demonstrated earlier. Rejection of the null hypothesis for equivalence for major bleeding allowed inferential testing for superiority of VTE/VTE-related death.||0.5452|0.1728|<0.0001
92339457|NCT00643201|184580636|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.441|||<|0.0001|TWO_SIDED|95.0|0.3566|0.5453||Tested at 2-sided alpha=0.05 significance.|Cochran-Mantel-Haenszel|Nominal p-value is reported.|Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint. Inferential testing was not conducted because the null hypothesis pertaining to superiority for VTE/VTE-related death was not rejected.||0.5453|0.3566|<0.0001
92339458|NCT00643201|184580637|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4793|||<|0.0001|TWO_SIDED|95.0|0.3815|0.6022||Tested at 2-sided alpha=0.05 significance.|Cochran-Mantel-Haenszel|Nominal p-value is reported.|Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||0.6022|0.3815|<0.0001
92339459|NCT00643201|184580638|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6182|||<|0.0001|TWO_SIDED|95.0|0.5432|0.7034||Tested at 2-sided alpha=0.05 significance.|Cochran-Mantel-Haenszel|Nominal p-value is reported.|Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||0.7034|0.5432|<0.0001
92339460|NCT00643201|184580639|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5937|||<|0.0001|TWO_SIDED|95.0|0.5318|0.6629||Tested at 2-sided alpha=0.05 significance.|Cochran-Mantel-Haenszel|Nominal p-value is reported.|Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||0.6629|0.5318|<0.0001
92339461|NCT02976519|184580647|OTHER||Slope|1.2705|STANDARD_ERROR_OF_MEAN|0.0801|||TWO_SIDED|95.0|1.1067|1.4343|||||Based on the estimate for slope parameter (β), a 2-sided 95% confidence interval (CI) for the slope was computed. Standard error of the mean is actually standard error of slope.|Cmax. The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and PK endpoints.||1.4343|1.1067|
92398790|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.42||0.1632|TWO_SIDED|95.0|-1.41|0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||0.24|-1.41|0.1632
92155192|NCT01177813|184196939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.7||0.0296|TWO_SIDED|97.5|-3.0|0.0||Difference calculated as empagliflozin 25mg minus placebo|ANCOVA|||"Comparison for diastolic blood pressure~Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, baseline DBP and baseline HbA1c as linear covariate"||0.0|-3.0|0.0296
92216278|NCT00955279|184332552|SUPERIORITY_OR_OTHER|||||||0.1931|||||||Fisher Exact|||||||0.1931
92339462|NCT02976519|184580647|OTHER||Slope|1.1361|STANDARD_ERROR_OF_MEAN|0.0859|||TWO_SIDED|95.0|0.9598|1.3123|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope.|Cmax,13. The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and PK endpoints.||1.3123|0.9598|
92339463|NCT02976519|184580648|OTHER||Slope|1.2743|STANDARD_ERROR_OF_MEAN|0.0739|||TWO_SIDED|95.0|1.1231|1.4255|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope.|AUC0-12. The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and PK endpoints.||1.4255|1.1231|
92339464|NCT02976519|184580648|OTHER||Slope|1.0924|STANDARD_ERROR_OF_MEAN|0.0793|||TWO_SIDED|95.0|0.9296|1.2551|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope.|AUC0-12,13. The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and PK endpoints.||1.2551|0.9296|
92339465|NCT02346708|184580650|SUPERIORITY||Mean Difference (Final Values)|-2.07||||0.1|TWO_SIDED|95.0|-4.56|0.42||We determined whether there was a significant group difference between the real and sham treated PD-MCI patients on the DRS-2 change following rTMS using mixed model regression (MMR) to fit longitudinal models.|Mixed Models Analysis|degrees of freedom: 46||We estimated a sample size of 20 per group would provide at least 80% power at a significance level of 0.05 to detect a between-group difference of 10 on the Matthis Dementia Rating Scale-2, an effect size similar to prior studies of rivastigmine.||0.42|-4.56|0.1
92339466|NCT03416270|184580651|OTHER|||||||0.36||||||12 weeks|Wilcoxon (Mann-Whitney)|||||||0.36
92339467|NCT03416270|184580651|OTHER|||||||0.56||||||1 week|Wilcoxon (Mann-Whitney)|||||||0.56
92339468|NCT03416270|184580652|OTHER|||||||0.303|||||||Wilcoxon (Mann-Whitney)|||||||0.303
92398791|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.42||0.0045|TWO_SIDED|95.0|-2.03|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||-0.38|-2.03|0.0045
92339469|NCT03416270|184580653|OTHER|||||||0.438|||||||Wilcoxon (Mann-Whitney)|||||||0.438
92398792|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.42||0.0002|TWO_SIDED|95.0|-2.43|-0.77||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||-0.77|-2.43|0.0002
92398793|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-2.7|-1.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||-1.02|-2.70|<0.0001
92155193|NCT00581256|184196941|SUPERIORITY_OR_OTHER|||||||0.6|||||||Fisher Exact|||A Perfusion Defect (PD) increase of greater than 5% for a 2.5 SD threshold was considered significant.||||0.6
92155194|NCT00581256|184196941|SUPERIORITY_OR_OTHER|||||||0.46|||||||Fisher Exact|||A PD increase of greater than 10% for a 1.5 SD threshold was considered significant.||||0.46
92155195|NCT03220737|184196945|NON_INFERIORITY|This analysis was based on the lower confidence limit and did not entail a comparative group. The requirement was for the lower limit of the 98.3% CI be at least 70%. Multiplicity adjustment due to co-primary endpoints allotted alpha=0.017 to this endpoint resulting in a 98.3% confidence interval|Proportion|0.985|||||ONE_SIDED|98.3|0.7||||||||||0.7|
92155196|NCT03220737|184196946|NON_INFERIORITY|This analysis was based on the lower confidence limit and did not entail a comparative group. The requirement was for the lower limit of the 98.3% CI be at least 70%. Multiplicity adjustment due to coprimary endpoints allotted alpha=0.017 to this endpoint resulting in a 98.3% confidence interval.|Proportion|0.985|||||ONE_SIDED|98.3|0.7||||||||||0.7|
92216279|NCT00955279|184332552|SUPERIORITY_OR_OTHER|||||||0.2772|||||||Fisher Exact|||||||0.2772
92339470|NCT03416270|184580654|OTHER|||||||0.599|||||||Wilcoxon (Mann-Whitney)|||||||0.599
92398794|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.42||0.8569|TWO_SIDED|95.0|-0.91|0.76||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||0.76|-0.91|0.8569
92155197|NCT03220737|184196947|NON_INFERIORITY|This analysis was based on the lower confidence limit and did not entail a comparative group. The requirement was for the lower limit of the 98.3% CI be at least 70%. Multiplicity adjustment due to coprimary endpoints allotted alpha=0.017 to this endpoint resulting in a 98.3% confidence interval.|Proportion|0.985|||||ONE_SIDED|98.3|0.7||||||||||0.7|
92216280|NCT00955279|184332553|SUPERIORITY_OR_OTHER|||||||0.451|||||||Linear Contrast Test|||||||0.451
92216281|NCT00955279|184332553|SUPERIORITY_OR_OTHER|||||||0.546|||||||Linear Contrast Test|||||||0.546
92274880|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.65|||||TWO_SIDED|95.0|-35.47|-1.83||||||For change in role functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||-1.83|-35.47|
92339471|NCT03416270|184580655|OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
92339472|NCT03416270|184580656|OTHER|||||||0.405|||||||Wilcoxon (Mann-Whitney)|||||||0.405
92339473|NCT03416270|184580657|OTHER|||||||0.536|||||||Wilcoxon (Mann-Whitney)|||||||0.536
92339474|NCT03416270|184580658|OTHER|||||||0.443|||||||Wilcoxon (Mann-Whitney)|||||||0.443
92339475|NCT03416270|184580659|OTHER|||||||0.849|||||||Wilcoxon (Mann-Whitney)|||||||0.849
92339476|NCT03416270|184580660|OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
92339477|NCT03416270|184580661|OTHER|||||||0.844|||||||Wilcoxon (Mann-Whitney)|||||||0.844
92339478|NCT03416270|184580662|OTHER|||||||0.262|||||||Wilcoxon (Mann-Whitney)|||||||0.262
92339479|NCT03416270|184580663|OTHER|||||||0.802|||||||Wilcoxon (Mann-Whitney)|||||||0.802
92339480|NCT03416270|184580664|OTHER|||||||0.327|||||||Wilcoxon (Mann-Whitney)|||||||0.327
92339481|NCT03416270|184580665|OTHER|||||||0.618|||||||Wilcoxon (Mann-Whitney)|||||||0.618
92339482|NCT03416270|184580666|OTHER|||||||0.946|||||||Wilcoxon (Mann-Whitney)|||||||0.946
92339483|NCT03416270|184580667|OTHER|||||||0.53||||||12 week|Wilcoxon (Mann-Whitney)|||||||0.53
92339484|NCT03416270|184580667|OTHER|||||||0.89||||||1 week|Wilcoxon (Mann-Whitney)|||||||0.89
92339485|NCT03416270|184580668|OTHER|||||||0.26||||||12 weeks|Wilcoxon (Mann-Whitney)|||||||0.26
92339486|NCT03416270|184580668|OTHER|||||||0.56||||||1 week|Wilcoxon (Mann-Whitney)|||||||0.56
92398795|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.42||0.111|TWO_SIDED|95.0|-1.49|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||0.15|-1.49|0.1110
92155198|NCT03220737|184196948|NON_INFERIORITY|Non-inferiority was determined using the Newcombe method of determining the difference between two independent binomial distributions. Multiple comparison adjustment for co-primary endpoints allotted alpha=0.033 to this comparison. The lower limit of the 96.7% CI needed to be greater than -10 percentage points to prove non-inferiority.|Risk Difference (RD)|5.8|||||TWO_SIDED|96.7|2.4|7.1|||||Newcombe method of determining the difference between two independent binomial distributions|||7.1|2.4|
92155199|NCT03220737|184196949|NON_INFERIORITY|Non-inferiority was determined using the Newcombe method of determining the difference between two independent binomial distributions. Multiple comparison adjustment for co-primary endpoints allotted alpha=0.033 to this comparison. The lower limit of the 96.7% CI needed to be greater than -10 percentage points to prove non-inferiority.|Risk Difference (RD)|4.3|||||TWO_SIDED|96.7|-0.3|6.2||||||||6.2|-0.3|
92155200|NCT03220737|184196950|NON_INFERIORITY|Non-inferiority was determined using the Newcombe method of determining the difference between two independent binomial distributions. Multiple comparison adjustment for co-primary endpoints allotted alpha=0.033 to this comparison. The lower limit of the 96.7% CI needed to be greater than -10 percentage points to prove non-inferiority.|Risk Difference (RD)|4.5|||||TWO_SIDED|96.7|-1.1|6.4||||||||6.4|-1.1|
92155201|NCT03220737|184196951|SUPERIORITY|Fisher's exact test was used to compare Vaxchora vaccine to placebo on the percent of subjects who seroconverted. For Vaxchora vs placebo within each cohort at each Day on study timepoint, the p-value was the same (p\<0.0001).|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92155202|NCT03220737|184196952|SUPERIORITY|Fisher's exact test was used to compare Vaxchora vaccine to placebo on the percent of subjects who seroconverted. For Vaxchora vs placebo within each cohort at each Day on study timepoint, the p-value was the same (p\<0.0001).|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92155203|NCT03220737|184196953|SUPERIORITY|Fisher's exact test was used to compare Vaxchora vaccine to placebo on the percent of subjects who seroconverted. For Vaxchora vs placebo within each cohort at each Day on study timepoint, the p-value was the same (p\<0.0001).|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92339487|NCT02389959|184580738|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of ESS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-1.11||||0.111|TWO_SIDED|95.0|-2.47|0.26|||Regression, Linear|||Analysis between groups at month 1.||0.26|-2.47|0.111
92339488|NCT02389959|184580738|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of ESS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-1.26||||0.131|TWO_SIDED|95.0|-2.9|0.38|||Regression, Linear|||Analysis between groups at month 2.||0.38|-2.9|0.131
92339489|NCT02389959|184580738|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of ESS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-0.85||||0.332|TWO_SIDED|95.0|-2.57|0.88|||Regression, Linear|||Analysis between groups at month 4.||0.88|-2.57|0.332
92339490|NCT02389959|184580738|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of ESS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-0.48||||0.597|TWO_SIDED|95.0|-2.25|1.3|||Regression, Linear|||Analysis between groups at month 6.||1.3|-2.25|0.597
92339491|NCT02389959|184580739|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of PCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|2.85||||0.191|TWO_SIDED|95.0|-1.44|7.13|||Regression, Linear|||Analysis between groups at month 1.||7.13|-1.44|0.191
92339492|NCT02389959|184580739|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of PCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|0.29||||0.914|TWO_SIDED|95.0|-5.02|5.61|||Regression, Linear|||Analysis between groups at month 2||5.61|-5.02|0.914
92339493|NCT02389959|184580739|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of PCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|1.55||||0.592|TWO_SIDED|95.0|-4.17|7.28|||Regression, Linear|||Analysis between groups at month 4.||7.28|-4.17|0.592
92339494|NCT02389959|184580739|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of PCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|3.1||||0.31|TWO_SIDED|95.0|-2.92|9.12|||Regression, Linear|||Analysis between groups at month 6||9.12|-2.92|0.31
92339495|NCT02389959|184580740|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of MCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-2.63||||0.366|TWO_SIDED|95.0|-8.38|3.11|||Regression, Linear|||Analysis between groups at month 1.||3.11|-8.38|0.366
92339496|NCT02389959|184580740|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of MCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|0.82||||0.816|TWO_SIDED|95.0|-6.12|7.76|||Regression, Linear|||Analysis between groups at month 2||7.76|-6.12|0.816
92339497|NCT02389959|184580740|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of MCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-4.3||||0.247|TWO_SIDED|95.0|-11.61|3.02|||Regression, Linear|||Analysis between groups at month 4.||3.02|-11.61|0.247
92155204|NCT03220737|184196957|SUPERIORITY|Fisher's exact test was used to compare Vaxchora vaccine to placebo on the percent of subjects who seroconverted. For Vaxchora vs placebo within each cohort at each Day on study timepoint, the p-value was the same (p\<0.0001).|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92155205|NCT03220737|184196958|SUPERIORITY|Fisher's exact test was used to compare Vaxchora vaccine to placebo on the percent of subjects who seroconverted. For Vaxchora vs placebo within each cohort at each Day on study timepoint, the p-value was the same (p\<0.0001).|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92155206|NCT00684983|184196979|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.89|TWO_SIDED|95.0|0.58|1.89|||Regression, Cox|||Analysis of the primary endpoint, PFS, will be performed using Cox regression with treatment group as a single covariate.||1.89|0.58|.89
92155207|NCT00684983|184196980|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.93|TWO_SIDED|95.0|0.5|3.0|||Log Rank|||||3|0.5|0.93
92155208|NCT00684983|184196981|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.66|TWO_SIDED|95.0|0.53|1.92|||Log Rank|||||1.92|.53|.66
92155209|NCT00684983|184196983|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.26|TWO_SIDED|95.0|0.09|1.53|||Log Rank|||||1.53|.09|.26
92155210|NCT01751113|184197019|SUPERIORITY_OR_OTHER||AUC ratio|1.158|||<|0.001|TWO_SIDED|95.0|1.1|1.219|||Mixed Models Analysis|||||1.219|1.100|<0.001
92155211|NCT01751113|184197019|SUPERIORITY_OR_OTHER||AUC ratio|1.288|||<|0.001|TWO_SIDED|95.0|1.224|1.355|||Mixed Models Analysis|||||1.355|1.224|<0.001
92155212|NCT01751113|184197020|SUPERIORITY_OR_OTHER||AUC ratio|0.856|||<|0.001|TWO_SIDED|95.0|0.812|0.902|||Mixed Models Analysis|||||0.902|0.812|<0.001
92155213|NCT01751113|184197020|SUPERIORITY_OR_OTHER||AUC ratio|0.774|||<|0.001|TWO_SIDED|95.0|0.735|0.816|||Mixed Models Analysis|||||0.816|0.735|<0.001
92155214|NCT01751113|184197021|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.181|||<|0.001|TWO_SIDED|95.0|1.104|1.263|||Mixed Models Analysis||Statistical data for 30 minutes|||1.263|1.104|<0.001
92155215|NCT01751113|184197021|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.303|||<|0.001|TWO_SIDED|95.0|1.219|1.393|||Mixed Models Analysis||Statistical data for 30 minutes|||1.393|1.219|<0.001
92155216|NCT01751113|184197021|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.175|||<|0.001|TWO_SIDED|95.0|1.099|1.257|||Mixed Models Analysis||Statistical data for 75 minutes|||1.257|1.099|<0.001
92155217|NCT01751113|184197021|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.34|||<|0.001|TWO_SIDED|95.0|1.253|1.432|||Mixed Models Analysis||Statistical data for 75 minutes|||1.432|1.253|<0.001
92155218|NCT01751113|184197021|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.151|||<|0.001|TWO_SIDED|95.0|1.076|1.231|||Mixed Models Analysis||Statistical data for 120 minutes|||1.231|1.076|<0.001
92155219|NCT01751113|184197021|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.301|||<|0.001|TWO_SIDED|95.0|1.217|1.391|||Mixed Models Analysis||Statistical data for 120 minutes|||1.391|1.217|<0.001
92155220|NCT01751113|184197021|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.141|||<|0.001|TWO_SIDED|95.0|1.067|1.22|||Mixed Models Analysis||Statistical data for 240 minutes|||1.220|1.067|<0.001
92155221|NCT01751113|184197021|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.239|||<|0.001|TWO_SIDED|95.0|1.159|1.325|||Mixed Models Analysis||Statistical data for 240 minutes|||1.325|1.159|<0.001
92155222|NCT01751113|184197022|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.846|||<|0.001|TWO_SIDED|95.0|0.792|0.905|||Mixed Models Analysis||Statistical data for 30 minutes|||0.905|0.792|<0.001
92155223|NCT01751113|184197022|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.767|||<|0.001|TWO_SIDED|95.0|0.717|0.819|||Mixed Models Analysis||Statistical data for 30 minutes|||0.819|0.717|<0.001
92155224|NCT01751113|184197022|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.85|||<|0.001|TWO_SIDED|95.0|0.795|0.909|||Mixed Models Analysis||Statistical data for 75 minutes|||0.909|0.795|<0.001
92155225|NCT01751113|184197022|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.746|||<|0.001|TWO_SIDED|95.0|0.698|0.798|||Mixed Models Analysis||Statistical data for 75 minutes|||0.798|0.698|<0.001
92155226|NCT01751113|184197022|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.868|||<|0.001|TWO_SIDED|95.0|0.812|0.928|||Mixed Models Analysis||Statistical data for 120 minutes|||0.928|0.812|<0.001
92155227|NCT01751113|184197022|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.769|||<|0.001|TWO_SIDED|95.0|0.719|0.822|||Mixed Models Analysis||Statistical data for 120 minutes|||0.822|0.719|<0.001
92155228|NCT01751113|184197022|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.877|||<|0.001|TWO_SIDED|95.0|0.82|0.938|||Mixed Models Analysis||Statistical data for 240 minutes|||0.938|0.820|<0.001
92155229|NCT01751113|184197022|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.809|||<|0.001|TWO_SIDED|95.0|0.757|0.865|||Mixed Models Analysis||Statistical data for 240 minutes|||0.865|0.757|<0.001
92155230|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of FEV1|0.157|||<|0.001|TWO_SIDED|95.0|0.116|0.198|||Mixed Models Analysis||Statistical data for FEV1|||0.198|0.116|<0.001
92155231|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of FEV1|0.118|||<|0.001|TWO_SIDED|95.0|0.077|0.159|||Mixed Models Analysis||Statistical data for FEV1|||0.159|0.077|<0.001
92155232|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of FVC|0.082||||0.002|TWO_SIDED|95.0|0.031|0.133|||Mixed Models Analysis||Statistical data for FVC|||0.133|0.031|0.002
92155233|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of FVC|0.135|||<|0.001|TWO_SIDED|95.0|0.084|0.186|||Mixed Models Analysis||Statistical data for FVC|||0.186|0.084|<0.001
92155234|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of IC|0.054||||0.035|TWO_SIDED|95.0|0.004|0.104|||Mixed Models Analysis||Statistical data for IC|||0.104|0.004|0.035
92216282|NCT03346057|184332561|OTHER||Estimated Difference in percentage|-6.7||||0.026|TWO_SIDED|95.0|-17.5|-0.8|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by neuromuscular blocking agent (NMBA) and American Society of Anesthesiologists (ASA) class was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||-0.8|-17.5|0.026
92216283|NCT03346057|184332561|OTHER||Estimated Difference in percentage|-6.2||||0.058|TWO_SIDED|95.0|-17.3|0.2|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||0.2|-17.3|0.058
92216284|NCT03346057|184332561|OTHER||Estimated Difference in percentage|-2.0||||0.73|TWO_SIDED|95.0|-17.8|8.6|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||8.6|-17.8|0.730
92216285|NCT03346057|184332562|OTHER||Estimated Difference in percentage|-14.9||||0.007|TWO_SIDED|95.0|-28.8|-4.0|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||-4.0|-28.8|0.007
92216286|NCT03346057|184332562|OTHER||Estimated Difference in percentage|-12.2||||0.036|TWO_SIDED|95.0|-26.1|-0.8|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||-0.8|-26.1|0.036
92216287|NCT03346057|184332562|OTHER||Estimated Difference in percentage|-9.9||||0.158|TWO_SIDED|95.0|-27.6|3.6|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||3.6|-27.6|0.158
92216288|NCT03346057|184332563|OTHER||Estimated Difference in percentage|-0.9||||0.637|TWO_SIDED|95.0|-9.4|4.0|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||4.0|-9.4|0.637
92216289|NCT03346057|184332563|OTHER||Estimated Difference in percentage|-2.1||||0.134|TWO_SIDED|95.0|-10.6|1.5|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||1.5|-10.6|0.134
92216290|NCT03346057|184332563|OTHER||Estimated Difference in percentage|-1.7||||0.577|TWO_SIDED|95.0|-14.7|5.8|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||5.8|-14.7|0.577
92216291|NCT03346057|184332564|OTHER||Estimated Difference in percentage|6.2|||||TWO_SIDED|95.0|-2.6|18.5||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||18.5|-2.6|
92216292|NCT03346057|184332564|OTHER||Estimated Difference in percentage|0.5|||||TWO_SIDED|95.0|-9.3|13.1||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||13.1|-9.3|
92398796|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.42||0.0187|TWO_SIDED|95.0|-1.83|-0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||-0.17|-1.83|0.0187
92216293|NCT03346057|184332564|OTHER||Estimated Difference in percentage|2.0|||||TWO_SIDED|95.0|-8.4|17.7||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||17.7|-8.4|
92274881|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.92|||||TWO_SIDED|95.0|-29.16|1.32||||||For change in emotional functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||1.32|-29.16|
92216294|NCT03346057|184332565|OTHER||Estimated Difference in percentage|5.6|||||TWO_SIDED|95.0|-5.5|14.3||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||14.3|-5.5|
92216295|NCT03346057|184332565|OTHER||Estimated Difference in percentage|1.5|||||TWO_SIDED|95.0|-9.2|9.3||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||9.3|-9.2|
92216296|NCT03346057|184332565|OTHER||Estimated Difference in percentage|0.9|||||TWO_SIDED|95.0|-15.1|12.7||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||12.7|-15.1|
92216297|NCT03346057|184332566|OTHER||Estimated Difference in percentage|-2.1|||||TWO_SIDED|95.0|-11.8|3.8||||||The percentage of participants experiencing one or more ECIs was compared between the Sugammadex 2 mg/kg arm and the Neostigmine plus Glycopyrrolate arm. Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||3.8|-11.8|
92216298|NCT03346057|184332566|OTHER||Estimated Difference in percentage|1.8|||||TWO_SIDED|95.0|-8.1|8.4||||||The percentage of participants experiencing one or more ECIs was compared between the Sugammadex 4 mg/kg arm and the Neostigmine plus Glycopyrrolate arm. Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||8.4|-8.1|
92274882|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.1|||||TWO_SIDED|95.0|-20.97|6.77||||||For change in cognitive functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||6.77|-20.97|
92274883|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.62|||||TWO_SIDED|95.0|-28.28|9.04||||||For change in social functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||9.04|-28.28|
92274884|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.14|||||TWO_SIDED|95.0|-1.27|33.54||||||For change in fatigue at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||33.54|-1.27|
92274885|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-18.78|15.18||||||For change in nausea and vomiting at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||15.18|-18.78|
92274886|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.59|||||TWO_SIDED|95.0|-3.22|36.39||||||For change in pain at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||36.39|-3.22|
92339498|NCT02389959|184580740|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of MCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-8.18||||0.035|TWO_SIDED|95.0|-15.76|-0.6|||Regression, Linear|||Analysis between groups at month 6||-0.6|-15.76|0.035
92339499|NCT02389959|184580741|OTHER|||||||0.03|||||||Wilcoxon rank sum test, 2-sided|||Analysis of intergroup difference at baseline.||||0.030
92339500|NCT02389959|184580741|OTHER|||||||0.719|||||||Wilcoxon rank sum test, 2-sided|||Analysis of intergroup difference at month 2.||||0.719
92339501|NCT02389959|184580741|OTHER|||||||0.467|||||||Wilcoxon rank sum test, 2-sided|||Analysis of intergroup difference at month 6.||||0.467
92339502|NCT00186485|184580765|SUPERIORITY_OR_OTHER||||||<|0.001||||||Repeated Measures ANOVAs over the course of the TMS treatments, by severity of depression on the HAM-D rating scale: total scores (F (4,96) = 19.88, p \< .001) over the 4 week treatment period.|ANOVA|Repeated Measures Anova||ANOVA with partial eta accounts for multiple repeated measures over the course of treatment.||||<0.001
92339503|NCT00186485|184580766|SUPERIORITY_OR_OTHER||||||<|0.01||||||Repeated Measures ANOVAs over the course of the TMS treatments, by severity of depression on the BDI total scores (F (4,96) = 19.35, p \< .001) over the 4 week treatment period.,|ANOVA|||Repeated measures ANOVA with partial eta; accounts for multiple repeated measures over the course of treatment.||||<0.01
92339504|NCT00186485|184580767|SUPERIORITY_OR_OTHER||||||<|0.01||||||Repeated Measures ANOVAs over the course of the TMS treatments, by severity of depression on the CGI scores (F (4,88) = 5.31, p \< .01) over the 4 week treatment period.|ANOVA|||Repeated Measures ANOVA with partial eta; p value was adjusted for multiple comparisons over the course of treatment||||<0.01
92155235|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of IC|0.064||||0.011|TWO_SIDED|95.0|0.015|0.114|||Mixed Models Analysis||Statistical data for IC|||0.114|0.015|0.011
92155236|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of RV|-0.107||||0.009|TWO_SIDED|95.0|-0.187|-0.028|||Mixed Models Analysis||Statistical data for RV|||-0.028|-0.187|0.009
92155237|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of RV|-0.102||||0.012|TWO_SIDED|95.0|-0.18|-0.023|||Mixed Models Analysis||Statistical data for RV|||-0.023|-0.180|0.012
92155238|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of TLC|-0.013||||0.632|TWO_SIDED|95.0|-0.066|0.04|||Mixed Models Analysis||Statistical data for TLC|||0.040|-0.066|0.632
92155239|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of TLC|-0.014||||0.596|TWO_SIDED|95.0|-0.067|0.038|||Mixed Models Analysis||Statistical data for TLC|||0.038|-0.067|0.596
92155240|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of TGV|-0.065||||0.028|TWO_SIDED|95.0|-0.123|-0.007|||Mixed Models Analysis||Statistical data for TGV|||-0.007|-0.123|0.028
92155241|NCT01751113|184197023|SUPERIORITY_OR_OTHER||Mean difference of TGV|-0.075||||0.01|TWO_SIDED|95.0|-0.133|-0.018|||Mixed Models Analysis||Statistical data for TGV|||-0.018|-0.133|0.010
92155242|NCT01751113|184197024|SUPERIORITY_OR_OTHER||FEV1/FVC ratio|0.032|||<|0.001|TWO_SIDED|95.0|0.023|0.041|||Mixed Models Analysis||Statistical data for FEV1/FVC ratio|||0.041|0.023|<0.001
92155243|NCT01751113|184197024|SUPERIORITY_OR_OTHER||FEV1/FVC ratio|0.017|||<|0.001|TWO_SIDED|95.0|0.008|0.026|||Mixed Models Analysis||Statistical data for FEV1/FVC ratio|||0.026|0.008|<0.001
92155244|NCT01751113|184197025|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.835|||<|0.001|TWO_SIDED|95.0|0.77|0.905|||Mixed Models Analysis|||||0.905|0.770|<0.001
92155245|NCT01751113|184197025|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.803|||<|0.001|TWO_SIDED|95.0|0.741|0.869|||Mixed Models Analysis|||||0.869|0.741|<0.001
92155246|NCT01751113|184197026|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.2|||<|0.001|TWO_SIDED|95.0|1.108|1.301|||Mixed Models Analysis|||||1.301|1.108|<0.001
92155247|NCT01751113|184197026|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.249|||<|0.001|TWO_SIDED|95.0|1.153|1.352|||Mixed Models Analysis|||||1.352|1.153|<0.001
92155248|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of FEV1|0.161|||<|0.001|TWO_SIDED|95.0|0.086|0.236|||Mixed Models Analysis||Statistical data for FEV1|||0.236|0.086|<0.001
92155249|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of FEV1|0.103||||0.008|TWO_SIDED|95.0|0.028|0.178|||Mixed Models Analysis||Statistical data for FEV1|||0.178|0.028|0.008
92155250|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of FVC|0.104||||0.051|TWO_SIDED|95.0|0.0|0.209|||Mixed Models Analysis||Statistical data for FVC|||0.209|0.000|0.051
92155251|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of FVC|0.148||||0.006|TWO_SIDED|95.0|0.043|0.253|||Mixed Models Analysis||Statistical data for FVC|||0.253|0.043|0.006
92155252|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of IC|-0.008||||0.89|TWO_SIDED|95.0|-0.12|0.104|||Mixed Models Analysis||Statistical data for IC|||0.104|-0.120|0.890
92155253|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of IC|-0.008||||0.89|TWO_SIDED|95.0|-0.118|0.103|||Mixed Models Analysis||Statistical data for IC|||0.103|-0.118|0.890
92155254|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of RV|-0.229|||<|0.001|TWO_SIDED|95.0|-0.355|-0.103|||Mixed Models Analysis||Statistical data for RV|||-0.103|-0.355|<0.001
92155255|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of RV|-0.189||||0.003|TWO_SIDED|95.0|-0.314|-0.064|||Mixed Models Analysis||Statistical data for RV|||-0.064|-0.314|0.003
92155256|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of TLC|-0.101||||0.055|TWO_SIDED|95.0|-0.204|0.002|||Mixed Models Analysis||Statistical data for TLC|||0.002|-0.204|0.055
92155257|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of TLC|-0.105||||0.044|TWO_SIDED|95.0|-0.206|-0.003|||Mixed Models Analysis||Statistical data for TLC|||-0.003|-0.206|0.044
92155258|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of TGV|-0.092||||0.085|TWO_SIDED|95.0|-0.197|0.013|||Mixed Models Analysis||Statistical data for TGV|||0.013|-0.197|0.085
92155259|NCT01751113|184197027|SUPERIORITY_OR_OTHER||Mean difference of TGV|-0.091||||0.083|TWO_SIDED|95.0|-0.195|0.012|||Mixed Models Analysis||Statistical data for TGV|||0.012|-0.195|0.083
92155260|NCT01751113|184197028|SUPERIORITY_OR_OTHER||FEV1/FVC ratio|0.027|||<|0.001|TWO_SIDED|95.0|0.014|0.041|||Mixed Models Analysis||Statistical data for FEV1/FVC ratio|||0.041|0.014|<0.001
92155261|NCT01751113|184197028|SUPERIORITY_OR_OTHER||FEV1/FVC ratio|0.008||||0.223|TWO_SIDED|95.0|-0.005|0.021|||Mixed Models Analysis||Statistical data for FEV1/FVC ratio|||0.021|-0.005|0.223
92398797|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.4972|TWO_SIDED|95.0|-0.73|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.36|-0.73|0.4972
92155262|NCT04147260|184197034|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.068|||TWO_SIDED|90.0|-0.03|0.2|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.20|-0.03|
92155263|NCT04147260|184197034|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.067|||TWO_SIDED|90.0|-0.07|0.16|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.16|-0.07|
92155264|NCT04147260|184197034|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.055||0.572|TWO_SIDED|90.0|-0.14|0.08||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.08|-0.14|0.572
92155265|NCT04147260|184197034|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.075||0.315|TWO_SIDED|90.0|-0.07|0.23||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.23|-0.07|0.315
92155266|NCT04147260|184197034|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.059||0.286|TWO_SIDED|90.0|-0.18|0.05||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.05|-0.18|0.286
92155267|NCT04147260|184197034|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.077||0.057|TWO_SIDED|90.0|0.0|0.31||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.31|0.00|0.057
92155268|NCT04147260|184197035|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.153|||TWO_SIDED|90.0|-0.02|0.49|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.49|-0.02|
92155269|NCT04147260|184197035|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.124|||TWO_SIDED|90.0|-0.2|0.22|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.22|-0.20|
92155270|NCT04147260|184197035|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.102|<|0.001|TWO_SIDED|90.0|-0.72|-0.31||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-0.31|-0.72|<0.001
92155271|NCT04147260|184197035|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.138|<|0.001|TWO_SIDED|90.0|0.24|0.8||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.80|0.24|<0.001
92155272|NCT04147260|184197035|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.132||0.01|TWO_SIDED|90.0|-0.62|-0.09||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-0.09|-0.62|0.010
92155273|NCT04147260|184197035|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.173||0.001|TWO_SIDED|90.0|0.24|0.93||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.93|0.24|0.001
92155274|NCT04147260|184197036|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.044|||TWO_SIDED|90.0|-0.05|0.1|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.10|-0.05|
92155275|NCT04147260|184197036|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.038||0.998|TWO_SIDED|90.0|-0.08|0.08||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.08|-0.08|0.998
92155276|NCT04147260|184197036|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.618|TWO_SIDED|90.0|-0.08|0.13||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.13|-0.08|0.618
92155277|NCT04147260|184197036|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.099|||TWO_SIDED|90.0|-0.1|0.23|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.23|-0.10|
92216299|NCT03346057|184332566|OTHER||Estimated Difference in percentage|1.1|||||TWO_SIDED|95.0|-13.5|11.1||||||The percentage of participants experiencing one or more ECIs was compared between the Sugammadex 16 mg/kg arm and the Neostigmine plus Glycopyrrolate arm. Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||11.1|-13.5|
92216300|NCT00232141|184332673|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.29||0.3914||95.0|-0.83|0.32||The analysis procedures planned will control the Type I error for the primary analysis. No multiplicity adjustment is needed for this two-group study.|ANCOVA|||Primary hypotheses : null (H0): µA=µP vs alternative (HA): µA≠µP (µA and µP represent true means for primary endpoint in active treatment \& placebo groups respectively). Assumptions in power calculation: 2-sided test with type I error at α =0.05, type II error at β =0.10, \& a common s.d of 2.2 for primary endpoint (based on previous clinical trial data). With n=150 subjects/ group (300 subjects overall) at least 90% power to detect a treatment difference of at least 1.1 in primary endpoint||0.32|-0.83|0.3914
92216301|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.0131||95.0|-0.81|-0.1||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||-0.10|-0.81|0.0131
92216302|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.24||0.0393||95.0|-0.96|-0.02||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||-0.02|-0.96|0.0393
92339505|NCT04805671|184580790|SUPERIORITY||Risk Difference (RD)|-8.7||||0.0047|TWO_SIDED|95.0|-14.71|-2.67|||Regression, Logistic|||ADG20 vs Placebo|A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-2.67|-14.71|0.0047
92339506|NCT04805671|184580795|SUPERIORITY||Risk Difference (RD)|-11.3||||0.0007|TWO_SIDED|95.0|-17.86|-4.81|||Regression, Logistic|||ADG20 vs Placebo|A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-4.81|-17.86|0.0007
92155278|NCT04147260|184197036|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.081||0.451|TWO_SIDED|90.0|-0.1|0.23||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.23|-0.10|0.451
92155279|NCT04147260|184197036|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.11||1|TWO_SIDED|90.0|-0.22|0.22||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.22|-0.22|1.000
92155280|NCT04147260|184197037|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.152|||TWO_SIDED|90.0|-0.15|0.36|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.36|-0.15|
92155281|NCT04147260|184197037|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.131||0.446|TWO_SIDED|90.0|-0.16|0.36||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.36|-0.16|0.446
92155282|NCT04147260|184197037|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.172||0.972|TWO_SIDED|90.0|-0.34|0.35||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.35|-0.34|0.972
92155283|NCT04147260|184197037|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.182|||TWO_SIDED|90.0|-0.02|0.6|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.60|-0.02|
92155284|NCT04147260|184197037|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.15||0.091|TWO_SIDED|90.0|-0.04|0.56||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.56|-0.04|0.091
92155285|NCT04147260|184197037|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.203||0.88|TWO_SIDED|90.0|-0.38|0.44||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.44|-0.38|0.880
92155286|NCT04147260|184197038|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.043|||TWO_SIDED|90.0|-0.15|-0.01|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||-0.01|-0.15|
92155287|NCT04147260|184197038|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.037||0.757|TWO_SIDED|90.0|-0.09|0.06||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.06|-0.09|0.757
92339507|NCT04805671|184580796|SUPERIORITY||Risk Difference (RD)|-8.7||||0.0047|TWO_SIDED|95.0|-14.71|-2.67|||Regression, Logistic|||ADG20 vs Placebo|A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-2.67|-14.71|0.0047
92339508|NCT04805671|184580797|SUPERIORITY||Risk Difference (RD)|-11.3||||0.0007|TWO_SIDED|95.0|-17.86|-4.81|||Regression, Logistic|||ADG20 vs Placebo|A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-4.81|-17.86|0.0007
92339509|NCT04805671|184580798|SUPERIORITY||Hazard Ratio (HR)|1.237||||0.0938|TWO_SIDED|95.0|0.964|1.586|||Regression, Cox|||ADG20 vs. Placebo||1.586|0.964|0.0938
92339510|NCT04805671|184580799|SUPERIORITY||Hazard Ratio (HR)|0.137||||0.0361|TWO_SIDED|95.0|0.016|1.162|||Regression, Cox|||ADG20 vs Placebo||1.162|0.016|0.0361
92339511|NCT04805671|184580800|SUPERIORITY||Hazard Ratio (HR)|1.255||||0.0781|TWO_SIDED|95.0|0.974|1.617|||Regression, Cox|||ADG20 vs Placebo||1.617|0.974|0.0781
92339512|NCT04805671|184580801|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.4976|TWO_SIDED|95.0|-0.66|0.32|||ANCOVA|||ADG20 vs. Placebo||0.32|-0.66|0.4976
92339513|NCT04805671|184580802|SUPERIORITY||Hazard Ratio (HR)|1.048||||0.7239|TWO_SIDED|95.0|0.806|1.364|||Regression, Cox|||||1.364|0.806|0.7239
92155288|NCT04147260|184197038|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.049||0.158|TWO_SIDED|90.0|-0.17|0.03||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.03|-0.17|0.158
92155289|NCT04147260|184197038|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.101|||TWO_SIDED|90.0|-0.12|0.22|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.22|-0.12|
92155290|NCT04147260|184197038|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.083||0.33|TWO_SIDED|90.0|-0.09|0.25||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.25|-0.09|0.330
92155291|NCT04147260|184197038|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.113||0.754|TWO_SIDED|90.0|-0.26|0.19||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.19|-0.26|0.754
92155292|NCT04147260|184197039|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.128|||TWO_SIDED|90.0|0.09|0.52|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.52|0.09|
92155293|NCT04147260|184197039|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.11||0.151|TWO_SIDED|90.0|-0.06|0.38||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.38|-0.06|0.151
92155294|NCT04147260|184197039|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.145||0.319|TWO_SIDED|90.0|-0.15|0.44||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.44|-0.15|0.319
92339514|NCT04805671|184580803|SUPERIORITY||Risk Difference (RD)|-11.1||||0.0364|TWO_SIDED|95.0|-21.42|-0.7|||Regression, Logistic|||||-0.70|-21.42|0.0364
92339515|NCT04805671|184580804|SUPERIORITY||Risk Difference (RD)|8.2||||0.0227|TWO_SIDED|95.0|1.15|15.31||The p-value and risk difference reported was calculated based on the Day 5 timepoint.|Regression, Logistic|||||15.31|1.15|0.0227
92155295|NCT04147260|184197039|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.136|||TWO_SIDED|90.0|-0.04|0.42|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.42|-0.04|
92155296|NCT04147260|184197039|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.112||0.246|TWO_SIDED|90.0|-0.09|0.36||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.36|-0.09|0.246
92339516|NCT04805671|184580805|SUPERIORITY||Mean Difference (Final Values)|-6.93||||0.1124|TWO_SIDED|95.0|-15.49|1.64|||ANCOVA|||||1.64|-15.49|0.1124
92339517|NCT03804268|184580811|SUPERIORITY||Percentage Difference|22.5|||<|0.0001|TWO_SIDED|95.0|14.3|30.8||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval for the percentage differences was calculated based on the normal approximation based on pooled variance without continuity correction.|||30.8|14.3|<0.0001
92339518|NCT03804268|184580812|SUPERIORITY||Percentage Difference|9.7||||0.0114|TWO_SIDED|95.0|2.3|17.0||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval for the percentage differences was calculated based on the normal approximation based on pooled variance without continuity correction.|||17.0|2.3|0.0114
92216303|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.28||0.0554||95.0|-1.08|0.01||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 3||0.01|-1.08|0.0554
92216304|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.29||0.1513||95.0|-0.99|0.15||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 4||0.15|-0.99|0.1513
92216305|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.3||0.3345||95.0|-0.89|0.3||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 5||0.30|-0.89|0.3345
92216306|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.31||0.0879||95.0|-1.13|0.08||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.08|-1.13|0.0879
92216307|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.32||0.0307||95.0|-1.32|-0.07||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 7||-0.07|-1.32|0.0307
92216308|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.31||0.0156||95.0|-1.36|-0.14||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 8||-0.14|-1.36|0.0156
92216309|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.32||0.0981||95.0|-1.15|0.1||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 9||0.10|-1.15|0.0981
92216310|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.31||0.306||95.0|-0.93|0.29||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.29|-0.93|0.3060
92216311|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.33||0.1874||95.0|-1.08|0.21||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 11||0.21|-1.08|0.1874
92216312|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.34||0.1025||95.0|-1.22|0.11||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 12||0.11|-1.22|0.1025
92216313|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.34||0.0662||95.0|-1.3|0.04||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 13||0.04|-1.30|0.0662
92216314|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.37||0.1856||95.0|-1.21|0.24||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.24|-1.21|0.1856
92339519|NCT03804268|184580813|SUPERIORITY||Percentage Difference|2.1||||1|TWO_SIDED|95.0|-4.4|8.5||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval for the percentage differences was calculated based on the normal approximation based on pooled variance without continuity correction.|||8.5|-4.4|1.0000
92339520|NCT03804268|184580814|SUPERIORITY||Least Square (LS) Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|0.72||0.0114|TWO_SIDED|95.0|3.7|6.5||MMRM with fixed effects: study intervention group,visit,visit by study intervention group interaction,age group,Baseline binocular DCNVA severity,iris color,emmetrope/non-emmetrope, Baseline value, and Baseline value by visit interaction was used.|MMRM|P-value was adjusted for multiplicity control.||||6.5|3.7|0.0114
92339521|NCT03804268|184580815|SUPERIORITY||Percentage Difference|18.7||||0.0114|TWO_SIDED|95.0|10.6|26.7||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval was calculated based on normal approximation based on pooled variance without continuity correction.|||26.7|10.6|0.0114
92339522|NCT03804268|184580816|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.14||0.0114|TWO_SIDED|95.0|0.6|1.1||Analysis of covariance (ANCOVA) was used with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||1.1|0.6|0.0114
92339523|NCT03804268|184580817|SUPERIORITY||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|0.55||0.0114|TWO_SIDED|95.0|2.4|4.6||MMRM with fixed effects: study intervention group,visit,visit by study intervention group interaction,age group,Baseline binocular DCNVA severity,iris color,emmetrope/non-emmetrope, Baseline value, and Baseline value by visit interaction was used.|MMRM|P-value was adjusted for multiplicity control.||||4.6|2.4|0.0114
92339524|NCT03804268|184580818|SUPERIORITY||Percentage Difference|-1.1||||1|TWO_SIDED|95.0|-7.1|5.0||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval for the percentage differences was calculated based on the normal approximation based on pooled variance without continuity correction.|||5.0|-7.1|1.0000
92339525|NCT03804268|184580819|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.66||0.0114|TWO_SIDED|95.0|1.3|3.9||MMRM with fixed effects: study intervention group,visit,visit by study intervention group interaction,age group,Baseline binocular DCNVA severity,iris color,emmetrope/non-emmetrope, Baseline value, and Baseline value by visit interaction was used.|MMRM|P-value was adjusted for multiplicity control.||||3.9|1.3|0.0114
92155297|NCT04147260|184197039|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.151||0.704|TWO_SIDED|90.0|-0.25|0.36||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.36|-0.25|0.704
92155298|NCT04147260|184197040|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-1.96|STANDARD_ERROR_OF_MEAN|4.929||0.692|TWO_SIDED|90.0|-11.92|7.99||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||7.99|-11.92|0.692
92155299|NCT04147260|184197040|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-1.96|STANDARD_ERROR_OF_MEAN|4.048||0.63|TWO_SIDED|90.0|-10.14|6.21||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||6.21|-10.14|0.630
92155300|NCT04147260|184197040|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|5.482||1|TWO_SIDED|90.0|-11.07|11.07||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||11.07|-11.07|1.000
92155301|NCT04147260|184197040|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|4.518||0.751|TWO_SIDED|90.0|-10.55|7.66||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||7.66|-10.55|0.751
92155302|NCT04147260|184197040|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|1.68|STANDARD_ERROR_OF_MEAN|3.894||0.669|TWO_SIDED|90.0|-6.17|9.52||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||9.52|-6.17|0.669
92155303|NCT04147260|184197040|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-3.12|STANDARD_ERROR_OF_MEAN|5.123||0.546|TWO_SIDED|90.0|-13.44|7.21||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||7.21|-13.44|0.546
92155304|NCT04147260|184197041|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-12.45|STANDARD_ERROR_OF_MEAN|11.385||0.281|TWO_SIDED|90.0|-35.44|10.54||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||10.54|-35.44|0.281
92155305|NCT04147260|184197041|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-16.14|STANDARD_ERROR_OF_MEAN|9.35||0.092|TWO_SIDED|90.0|-35.02|2.74||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||2.74|-35.02|0.092
92155306|NCT04147260|184197041|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|3.69|STANDARD_ERROR_OF_MEAN|12.662||0.772|TWO_SIDED|90.0|-21.88|29.27||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||29.27|-21.88|0.772
92155307|NCT04147260|184197041|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-8.21|STANDARD_ERROR_OF_MEAN|13.255||0.539|TWO_SIDED|90.0|-34.93|18.5||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||18.50|-34.93|0.539
92155308|NCT04147260|184197041|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-4.71|STANDARD_ERROR_OF_MEAN|11.424||0.682|TWO_SIDED|90.0|-27.74|18.31||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||18.31|-27.74|0.682
92155309|NCT04147260|184197041|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|15.03||0.817|TWO_SIDED|90.0|-33.79|26.79||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||26.79|-33.79|0.817
92155310|NCT04147260|184197042|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|5.327||0.891|TWO_SIDED|90.0|-11.49|10.02||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||10.02|-11.49|0.891
92339526|NCT03804268|184580820|SUPERIORITY||Percentage Difference|12.6||||0.0171|TWO_SIDED|95.0|3.5|21.6||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval for the percentage differences was calculated based on the normal approximation based on pooled variance without continuity correction.|||21.6|3.5|0.0171
92339527|NCT03804268|184580821|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.13||0.0114|TWO_SIDED|95.0|0.5|1.1||ANCOVA was used with study intervention group, age group, baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||1.1|0.5|0.0114
92155311|NCT04147260|184197042|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-3.59|STANDARD_ERROR_OF_MEAN|4.375||0.417|TWO_SIDED|90.0|-12.42|5.25||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||5.25|-12.42|0.417
92155312|NCT04147260|184197042|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|2.85|STANDARD_ERROR_OF_MEAN|5.925||0.633|TWO_SIDED|90.0|-9.11|14.82||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||14.82|-9.11|0.633
92155313|NCT04147260|184197042|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|6.79|STANDARD_ERROR_OF_MEAN|4.384||0.129|TWO_SIDED|90.0|-2.05|15.62||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||15.62|-2.05|0.129
92155314|NCT04147260|184197042|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|2.29|STANDARD_ERROR_OF_MEAN|3.778||0.548|TWO_SIDED|90.0|-5.33|9.9||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||9.90|-5.33|0.548
92155315|NCT04147260|184197042|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|4.5|STANDARD_ERROR_OF_MEAN|4.97||0.37|TWO_SIDED|90.0|-5.51|14.52||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||14.52|-5.51|0.370
92155316|NCT04147260|184197043|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-9.3|STANDARD_ERROR_OF_MEAN|10.379||0.375|TWO_SIDED|90.0|-30.26|11.66||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||11.66|-30.26|0.375
92155317|NCT04147260|184197043|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-11.49|STANDARD_ERROR_OF_MEAN|8.524||0.185|TWO_SIDED|90.0|-28.7|5.73||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||5.73|-28.70|0.185
92155318|NCT04147260|184197043|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|2.19|STANDARD_ERROR_OF_MEAN|11.544||0.851|TWO_SIDED|90.0|-21.12|25.5||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||25.50|-21.12|0.851
92155319|NCT04147260|184197043|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-26.64|STANDARD_ERROR_OF_MEAN|9.405||0.007|TWO_SIDED|90.0|-45.59|-7.69||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-7.69|-45.59|0.007
92155320|NCT04147260|184197043|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-15.01|STANDARD_ERROR_OF_MEAN|8.106||0.071|TWO_SIDED|90.0|-31.34|1.33||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||1.33|-31.34|0.071
92155321|NCT04147260|184197043|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-11.63|STANDARD_ERROR_OF_MEAN|10.664||0.281|TWO_SIDED|90.0|-33.13|9.86||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||9.86|-33.13|0.281
92155322|NCT04147260|184197044|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-2.84|STANDARD_ERROR_OF_MEAN|5.37||0.599|TWO_SIDED|90.0|-13.69|8.0||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||8.00|-13.69|0.599
92155323|NCT04147260|184197044|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|4.41||0.824|TWO_SIDED|90.0|-7.92|9.9||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||9.90|-7.92|0.824
92155324|NCT04147260|184197044|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-3.83|STANDARD_ERROR_OF_MEAN|5.973||0.525|TWO_SIDED|90.0|-15.9|8.23||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||8.23|-15.90|0.525
92274887|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.39|||||TWO_SIDED|95.0|-5.68|26.47||||||For change in dyspnea at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||26.47|-5.68|
92216315|NCT00232141|184332674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.3||0.7925||95.0|-0.66|0.5||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.50|-0.66|0.7925
92216316|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.18||||0.1191||95.0|0.802|5.935||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 1||5.935|0.802|0.1191
92216317|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||0.5041||95.0|0.666|2.301||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 2||2.301|0.666|0.5041
92216318|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.13||||0.6859||95.0|0.638|1.985||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 3||1.985|0.638|0.6859
92216319|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.414||95.0|0.735|2.116||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 4||2.116|0.735|0.4140
92216320|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.07||||0.7852||95.0|0.644|1.794||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 5||1.794|0.644|0.7852
92216321|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.7399||95.0|0.654|1.817||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 6||1.817|0.654|0.7399
92216322|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.57||||0.1055||95.0|0.913|2.701||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 7||2.701|0.913|0.1055
92216323|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.41||||0.2107||95.0|0.829|2.401||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 8||2.401|0.829|0.2107
92155325|NCT04147260|184197044|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-8.0|STANDARD_ERROR_OF_MEAN|6.867||0.25|TWO_SIDED|90.0|-21.84|5.84||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||5.84|-21.84|0.250
92155326|NCT04147260|184197044|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|5.19|STANDARD_ERROR_OF_MEAN|5.919||0.386|TWO_SIDED|90.0|-6.74|17.12||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||17.12|-6.74|0.386
92155327|NCT04147260|184197044|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-13.19|STANDARD_ERROR_OF_MEAN|7.787||0.097|TWO_SIDED|90.0|-28.88|2.51||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||2.51|-28.88|0.097
92216324|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.19||||0.527||95.0|0.697|2.046||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 9||2.046|0.697|0.5270
92398798|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.28||0.2568|TWO_SIDED|95.0|-0.86|0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.23|-0.86|0.2568
92155328|NCT04147260|184197045|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|6.842||0.885|TWO_SIDED|90.0|-12.83|14.81||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||14.81|-12.83|0.885
92216325|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.89||||0.6845||95.0|0.513|1.546||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 10||1.546|0.513|0.6845
92216326|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92||||0.7737||95.0|0.522|1.619||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 11||1.619|0.522|0.7737
92339528|NCT03804268|184580822|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.09||0.0114|TWO_SIDED|95.0|-0.6|-0.3||ANCOVA was used with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||-0.3|-0.6|0.0114
92155329|NCT04147260|184197045|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|28.9|STANDARD_ERROR_OF_MEAN|5.619|<|0.001|TWO_SIDED|90.0|17.55|40.25||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||40.25|17.55|<0.001
92155330|NCT04147260|184197045|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-27.91|STANDARD_ERROR_OF_MEAN|7.61|<|0.001|TWO_SIDED|90.0|-43.28|-12.54||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-12.54|-43.28|<0.001
92155331|NCT04147260|184197045|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-20.13|STANDARD_ERROR_OF_MEAN|8.041||0.016|TWO_SIDED|90.0|-36.33|-3.92||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-3.92|-36.33|0.016
92155332|NCT04147260|184197045|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|18.5|STANDARD_ERROR_OF_MEAN|6.931||0.011|TWO_SIDED|90.0|4.53|32.46||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||32.46|4.53|0.011
92155333|NCT04147260|184197045|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-38.62|STANDARD_ERROR_OF_MEAN|9.118|<|0.001|TWO_SIDED|90.0|-57.0|-20.25||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-20.25|-57.00|<0.001
92155334|NCT02471404|184197066|NON_INFERIORITY|The non-inferiority (NI) margin was determined to be 0.30% (in absolute terms). A difference of ≤0.30%, in HbA1c change from b/l to wk 52 between the treatment groups was considered clinically equivalent. NI was assessed using the 2-sided 95% CI of adjusted mean difference between dapagliflozin or dapagliflozin plus saxagliptin and glimepiride.|Mean Difference (Final Values)|0.16|||||TWO_SIDED|95.0|0.0294|0.2986|||Mixed Models Analysis|||||0.2986|0.0294|
92155335|NCT02471404|184197066|NON_INFERIORITY|The non-inferiority (NI) margin was determined to be 0.30% (in absolute terms). A difference of ≤0.30%, in HbA1c change from b/l to wk 52 between the treatment groups was considered clinically equivalent. NI was assessed using the 2-sided 95% Confidence Interval of adjusted mean difference between dapagliflozin or dapagliflozin plus saxagliptin and glimepiride.|Mean Difference (Final Values)|-0.21||||0.001|TWO_SIDED|95.0|-0.3443|-0.0825||(superiority)|Mixed Models Analysis|||||-0.0825|-0.3443|0.001
92155336|NCT02471404|184197067|SUPERIORITY||Risk Difference (RD)|-4.21|STANDARD_ERROR_OF_MEAN|1.14|<|0.001|TWO_SIDED|95.0|-6.45|-1.97|||Fisher Exact|||||-1.97|-6.45|<0.001
92155337|NCT02471404|184197067|SUPERIORITY||Risk Difference (RD)|-3.89|STANDARD_ERROR_OF_MEAN|1.19|<|0.001|TWO_SIDED|95.0|-6.21|-1.56|||Fisher Exact|||||-1.56|-6.21|<0.001
92155338|NCT02471404|184197068|SUPERIORITY||Mean Difference (Final Values)|-5.3|||<|0.001|TWO_SIDED|95.0|-5.93|-4.67|||Mixed Models Analysis|||||-4.67|-5.93|<0.001
92155339|NCT02471404|184197068|SUPERIORITY||Mean Difference (Final Values)|-4.91|||<|0.001|TWO_SIDED|95.0|-5.52|-4.29|||Mixed Models Analysis|||||-4.29|-5.52|<0.001
92155340|NCT02471404|184197069|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.374|TWO_SIDED|95.0|-0.43|0.16|||Mixed Models Analysis|||||0.16|-0.43|0.374
92216327|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||0.8853||95.0|0.597|1.818||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 12||1.818|0.597|0.8853
92339529|NCT03804268|184580823|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.08||0.0114|TWO_SIDED|95.0|-0.4|-0.1||ANCOVA was used with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||-0.1|-0.4|0.0114
92155341|NCT02471404|184197069|SUPERIORITY||Mean Difference (Final Values)|-0.59|||<|0.001|TWO_SIDED|95.0|-0.88|-0.31|||Mixed Models Analysis|||||-0.31|-0.88|<0.001
92155342|NCT02471404|184197070|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.777|TWO_SIDED|95.0|0.67|1.35|||Regression, Cox|||||1.35|0.67|0.777
92155343|NCT02471404|184197070|SUPERIORITY||Hazard Ratio (HR)|0.36|||<|0.001|TWO_SIDED|95.0|0.23|0.57|||Regression, Cox|||||0.57|0.23|<0.001
92155344|NCT00507026|184197120|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92155345|NCT00507026|184197120|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92155346|NCT00507026|184197121|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92155347|NCT00507026|184197121|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92155348|NCT00507026|184197122|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92155349|NCT00507026|184197122|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92155350|NCT00507026|184197123|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92155351|NCT00507026|184197123|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92155352|NCT00507026|184197124|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92155353|NCT00507026|184197124|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92155354|NCT04230980|184197135|SUPERIORITY||Mean Difference (Final Values)|-1.13||||0.01|TWO_SIDED|95.0|-2.02|-0.24|||t-test, 2 sided||Direction of mean difference is Gabapentin arm minus placebo arm.|Mean NRS-11 score at post-operative day 7 (compared between the two arms).||-0.24|-2.02|0.01
92155355|NCT04230980|184197136|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.19|TWO_SIDED|95.0|-0.13|0.03|||t-test, 2 sided||Direction of mean difference is Gabapentin arm minus placebo arm.|Mean number of opioid tablets taken at post-operative day 7 (compared between the two arms).||0.03|-0.13|0.19
92339530|NCT02849587|184580824|SUPERIORITY||||||<|0.001|||||||Generalized least squares model|||||||<0.001
92339531|NCT02849587|184580825|SUPERIORITY|||||||0.022|||||||Generalized least squares model|Raw data converted to z-score based on pre-smoking performance of entire sample.||||||0.022
92339532|NCT02849587|184580826|SUPERIORITY|||||||0.283|||||||Generalized least squares model|||||||0.283
92339533|NCT02849587|184580827|SUPERIORITY|||||||0.0503|||||||Generalized estimating equations model|||||||0.0503
92339534|NCT02849587|184580828|SUPERIORITY|||||||0.024|||||||Generalized least squares model|||||||0.024
92339535|NCT02849587|184580829|SUPERIORITY|||||||0.716|||||||Generalized least squares model|The outcome was standardized prior to analyses.||||||0.716
92398799|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.28||0.2609|TWO_SIDED|95.0|-0.86|0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.23|-0.86|0.2609
92339536|NCT02849587|184580830|SUPERIORITY|||||||0.005|||||||Generalized least squares model|The outcome was standardized prior to analysis.||||||0.005
92339537|NCT02849587|184580831|SUPERIORITY|||||||0.366|||||||Generalized Estimating Equations model|||||||.366
92339538|NCT02849587|184580832|SUPERIORITY|||||||0.225|||||||Generalized least squares model|Outcome was log10 transformed prior to analyses.||||||.225
92339539|NCT02849587|184580833|SUPERIORITY|||||||0.592|||||||Generalized least squares model|The outcome was transformed using logit function prior to analyses. Model included treatment (3 groups), time (5 times), and their interaction.||||||.592
92339540|NCT02849587|184580834|SUPERIORITY|||||||0.294|||||||Generalized least squares model|||||||.294
92398800|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.4148|TWO_SIDED|95.0|-0.78|0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.32|-0.78|0.4148
92155356|NCT04285229|184197139|SUPERIORITY||Odds Ratio (OR)|7.64|||<|0.001|TWO_SIDED|95.0|2.68|21.76|||Regression, Logistic|||||21.76|2.68|<0.001
92155357|NCT04285229|184197140|SUPERIORITY||Odds Ratio (OR)|6.4|||<|0.001|TWO_SIDED|95.0|2.42|16.9|||Regression, Logistic|||||16.90|2.42|<0.001
92155358|NCT04285229|184197141|SUPERIORITY||Odds Ratio (OR)|2.58||||0.006|TWO_SIDED|95.0|1.31|5.09|||Regression, Logistic|||||5.09|1.31|0.006
92155359|NCT04285229|184197142|SUPERIORITY||LS Mean Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-1.38|-0.9|||Mixed Models Analysis|||||-0.90|-1.38|<0.001
92155360|NCT04285229|184197143|SUPERIORITY||LS Mean Difference|-1.49|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.04|-0.94|||Mixed Models Analysis|||||-0.94|-2.04|<0.001
92155361|NCT04285229|184197144|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.28||0.002|TWO_SIDED|95.0|-1.43|-0.32|||Mixed Models Analysis|||||-0.32|-1.43|0.002
92155362|NCT04285229|184197145|SUPERIORITY||LS Mean Difference|-7.72|STANDARD_ERROR_OF_MEAN|1.58|<|0.001|TWO_SIDED|95.0|-10.85|-4.6|||ANCOVA|||||-4.60|-10.85|<0.001
92155363|NCT04285229|184197146|SUPERIORITY||LS Mean Difference|2.62|STANDARD_ERROR_OF_MEAN|0.785||0.001|TWO_SIDED|95.0|1.07|4.17|||Mixed Models Analysis|||||4.17|1.07|0.001
92155364|NCT04285229|184197147|SUPERIORITY||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|1.152||0.66|TWO_SIDED|95.0|-1.77|2.79|||Mixed Models Analysis|||||2.79|-1.77|0.660
92155365|NCT04285229|184197148|SUPERIORITY||LS Mean Difference|-12.75|STANDARD_ERROR_OF_MEAN|1.594|<|0.001|TWO_SIDED|95.0|-15.91|-9.59|||Mixed Models Analysis|||||-9.59|-15.91|<0.001
92155366|NCT04285229|184197149|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.106|<|0.001|TWO_SIDED|95.0|-0.57|-0.15|||Mixed Models Analysis|||||-0.15|-0.57|<0.001
92155367|NCT04285229|184197150|SUPERIORITY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.413||0.086|TWO_SIDED|95.0|-1.54|0.1|||Mixed Models Analysis|||||0.10|-1.54|0.086
92155368|NCT04285229|184197151|SUPERIORITY||LS Mean Difference|-5.67|STANDARD_ERROR_OF_MEAN|1.034|<|0.001|TWO_SIDED|95.0|-7.71|-3.62|||ANCOVA|||||-3.62|-7.71|<0.001
92155369|NCT01603940|184197162|SUPERIORITY_OR_OTHER|||||||0.616|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.616
92155370|NCT01603940|184197163|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.28
92155371|NCT01603940|184197164|SUPERIORITY_OR_OTHER|||||||0.618|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.618
92155372|NCT02819479|184197179|OTHER||eta^2|0.37||||0.012|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(1,14) = 8.29||CHANGE IN VOLUME OF RADIATION NECROSIS: To explore durability of radiographic responses, we invoked a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn-Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.012
92155373|NCT02819479|184197179|OTHER||eta^2|0.19||||0.09|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(1,14) = 3.29||CHANGE IN VOLUME OF CEREBRAL EDEMA: To explore durability of radiographic responses, we invoked a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn-Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.09
92155374|NCT02819479|184197180|OTHER||eta^2|0.29||||0.02|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(5,34) = 2.74||To explore durability of clinical response, Migraine Disability Assessment (MIDAS) TOTAL SCORES were analyzed using a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn Felt structure, and an unstructured covariance matrix (multivariate analysis of variance)||||0.02
92155375|NCT02819479|184197181|OTHER||eta^2|0.37||||0.019|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(5,34) = 3.17||To explore durability of clinical response, Migraine Disability Assessment (MIDAS) DAYS OF HEADACHE were analyzed using a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.019
92216328|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.7712||95.0|0.612|1.946||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 13||1.946|0.612|0.7712
92216329|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.9586||95.0|0.574|1.796||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 14||1.796|0.574|0.9586
92216330|NCT00232141|184332675|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.79||||0.3482||95.0|0.486|1.283||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Endpoint-BOCF||1.283|0.486|0.3482
92216331|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.62||||0.1132||95.0|0.882|2.969||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 1||2.969|0.882|0.1132
92216332|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.2||||0.4687||95.0|0.731|1.978||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 2||1.978|0.731|0.4687
92216333|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.44||||0.1546||95.0|0.877|2.375||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 3||2.375|0.877|0.1546
92216334|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.23||||0.4216||95.0|0.7444|2.025||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 4||2.025|0.7444|0.4216
92216335|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92||||0.7479||95.0|0.556|1.527||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 5||1.527|0.556|0.7479
92216336|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.8||||0.3842||95.0|0.481|1.33||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 6||1.330|0.481|0.3842
92216337|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.845||95.0|0.627|1.769||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 7||1.769|0.627|0.8450
92274888|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59|||||TWO_SIDED|95.0|-20.19|23.36||||||For change in insomnia at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||23.36|-20.19|
92216338|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.48||||0.1602||95.0|0.864|2.527||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 8||2.527|0.864|0.1602
92216339|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.6815||95.0|0.66|1.89||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 9||1.890|0.660|0.6815
92274889|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.24|||||TWO_SIDED|95.0|-7.62|40.1||||||For change in appetite loss at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||40.1|-7.62|
92274890|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.76|||||TWO_SIDED|95.0|-17.49|23.02||||||For change in constipation at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||23.02|-17.49|
92274891|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.87|||||TWO_SIDED|95.0|-16.29|22.03||||||For change in diarrhea at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||22.03|-16.29|
92274892|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56|||||TWO_SIDED|95.0|-9.81|20.92||||||For change in financial difficulties at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||20.92|-9.81|
92274893|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.97|||||TWO_SIDED|95.0|-19.52|7.57||||||For change in global QoL at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||7.57|-19.52|
92274894|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.64|||||TWO_SIDED|95.0|-19.75|8.46||||||For change in physical functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||8.46|-19.75|
92339541|NCT02849587|184580835|SUPERIORITY|||||||0.144|||||||Generalized least squares model|||||||.144
92155376|NCT02819479|184197182|OTHER||eta^2|0.3||||0.0006|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(5,35) = 3.96||To explore durability of clinical response, Migraine Disability Assessment (MIDAS) MIDAS PAIN LEVEL data were analyzed using a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.0006
92155377|NCT02819479|184197183|OTHER||eta^2|0.3||||0.02|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(5, 35) = 2.98||To explore durability of clinical response, Headache Impact Test (HIT-6™) scores were analyzed using a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn-Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.02
92155378|NCT02819479|184197184|OTHER||eta^2|0.19||||0.23|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(2,14) = 1.62||To explore durability of clinical response, Karnofsky Performance Status Scale (KPS) data were analyzed using a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn-Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.23
92155379|NCT02819479|184197185|OTHER||Pearson's r|-0.199||||0.374|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|Z = -0.889||Wilcoxon signed rank test (2-sided) was used to compare the total number of days on steroids in the 12 months prior versus the 12 months immediately following single dose IA Avastin (bevacizumab).||||0.374
92155380|NCT02819479|184197186|OTHER||partial eta^2|0.153||||0.66|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.451||DIGITS FORWARD: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the DIGITS FORWARD variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.660
92155381|NCT02819479|184197186|OTHER||partial eta^2|0.602||||0.1|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 3.78||DIGITS BACKWARD: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the DIGITS BACKWARD variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.100
92155382|NCT02819479|184197186|OTHER||partial eta^2|0.532||||0.149|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 2.847||NUMBERS \& LETTERS SPEED: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the NUMBERS \& LETTERS SPEED variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.149
92155383|NCT02819479|184197186|OTHER||partial eta^2|0.721||||0.041|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 6.470||NUMBERS \& LETTERS ERRORS: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the NUMBERS \& LETTERS ERRORS variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.041
92155384|NCT02819479|184197186|OTHER||partial eta^2|0.566||||0.124|TWO_SIDED||||||One way Repeat Meas ANOVA|F (2,5) = 3.256||NUMBERS \& LETTERS EFFICIENCY: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the NUMBERS \& LETTERS EFFICIENCY variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.124
92155385|NCT02819479|184197186|OTHER||partial eta^2|0.042||||0.898|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.110||NAMING: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the NAMING variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.898
92155386|NCT02819479|184197186|OTHER||partial eta^2|0.107||||0.754|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.299||LIST LEARNING LIST IMMEDIATE RECALL: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the LIST LEARNING LIST IMMEDIATE RECALL variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.754
92155387|NCT02819479|184197186|OTHER||partial eta^2|0.751||||0.031|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 7.556||LIST LEARNING LIST LONG DELAYED RECALL: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the LIST LEARNING LIST LONG DELAYED RECALL variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.031
92155388|NCT02819479|184197186|OTHER||partial eta^2|0.289||||0.426|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 1.018||SHAPE LEARNING IMMEDIATE RECOGNITION: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the SHAPE LEARNING IMMEDIATE RECOGNITION variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.426
92155389|NCT02819479|184197186|OTHER||partial eta^2|0.361||||0.326|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 1.412||SHAPE LEARNING DELAYED RECOGNITION: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the SHAPE LEARNING DELAYED RECOGNITION variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.326
92216340|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.85||||0.5635||95.0|0.486|1.482||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 10||1.482|0.486|0.5635
92339542|NCT02849587|184580836|OTHER|Spearman's correlation||||||0.09|||||||Spearman's correlation|||||||0.090
92339543|NCT02849587|184580836|OTHER|Spearman's correlation||||||0.0006|||||||Spearman's correlation|||||||.0006
92339544|NCT02849587|184580836|OTHER|Spearman's correlation||||||0.053|||||||Spearman's correlation|||||||0.053
92216341|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.21||||0.49||95.0|0.699|2.104||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 11||2.104|0.699|0.4900
92216342|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.48||||0.1602||95.0|0.856|2.575||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 12||2.575|0.856|0.1602
92216343|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.5819||95.0|0.663|2.079||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 13||2.079|0.663|0.5819
92216344|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.2796||95.0|0.768|2.432||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 14||2.432|0.768|0.2796
92216345|NCT00232141|184332676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.86||||0.5437||95.0|0.534|1.39||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Endpoint-BOCF||1.390|0.534|0.5437
92216346|NCT00232141|184332677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.54|STANDARD_ERROR_OF_MEAN|2.53||0.5425||95.0|-3.44|6.52||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Disturbance.||6.52|-3.44|0.5425
92216347|NCT00232141|184332677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.25||0.3184||95.0|-0.75|0.25||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Quantity||0.25|-0.75|0.3184
92216348|NCT00232141|184332677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|2.92||0.9886||95.0|-5.81|5.72||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Adequacy||5.72|-5.81|0.9886
92216349|NCT00232141|184332677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.41|STANDARD_ERROR_OF_MEAN|2.51||0.5742||95.0|-3.53|6.35||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Awaken Short of Breath or with Headache||6.35|-3.53|0.5742
92216350|NCT00232141|184332677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|2.5||0.5775||95.0|-3.54|6.33||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Somnolence||6.33|-3.54|0.5775
92216351|NCT00232141|184332677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.34|STANDARD_ERROR_OF_MEAN|3.21||0.004||95.0|3.02|15.66||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Snoring||15.66|3.02|0.0040
92216352|NCT00232141|184332677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.07|STANDARD_ERROR_OF_MEAN|1.98||0.5882||95.0|-2.83|4.97||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Sleep Problems Index I||4.97|-2.83|0.5882
92216353|NCT00232141|184332677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.42|STANDARD_ERROR_OF_MEAN|1.89||0.4516||95.0|-2.3|5.14||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Sleep Problems Index II||5.14|-2.30|0.4516
92216354|NCT00232141|184332678|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.39||0.5105||95.0|-0.51|1.03||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Anxiety||1.03|-0.51|0.5105
92274895|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.53|||||TWO_SIDED|95.0|-39.11|4.05||||||For change in role functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||4.05|-39.11|
92274896|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.25|||||TWO_SIDED|95.0|-26.5|2.0||||||For change in emotional functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||2.00|-26.5|
92339545|NCT02849587|184580837|OTHER|Spearman's correlation||||||0.3|||||||Spearman's correlation|||||||0.300
92339546|NCT02849587|184580837|OTHER|Spearman's correlation||||||0.038|||||||Spearman's correlation|||||||0.038
92339547|NCT02849587|184580837|OTHER|Spearman's correlation||||||0.175|||||||Spearman's correlation|||||||0.175
92398801|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.5575|TWO_SIDED|95.0|-0.38|0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.71|-0.38|0.5575
92155390|NCT02819479|184197186|OTHER||partial eta^2|0.09||||0.79|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.247||STORY LEARNING PHRASE UNIT IMMEDIATE RECALL: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the STORY LEARNING PHRASE UNIT IMMEDIATE RECALL variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.790
92155391|NCT02819479|184197186|OTHER||partial eta^2|0.239||||0.505|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.786||STORY LEARNING PHRASE UNIT DELAYED RECALL: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the STORY LEARNING PHRASE UNIT DELAYED RECALL variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.505
92155392|NCT02819479|184197186|OTHER||partial eta^2|0.636||||0.08|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 4.362||DESIGN CONSTRUCTION: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the DESIGN CONSTRUCTION variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.080
92155393|NCT02819479|184197186|OTHER||partial eta^2|0.693||||0.052|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 5.654||MAZES: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the MAZES variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.052
92155394|NCT02819479|184197186|OTHER||partial eta^2|0.013||||0.968|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.033||CATEGORIES: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the CATEGORIES variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.968
92155395|NCT02819479|184197186|OTHER||partial eta^2|0.261||||0.469|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.884||WORD GENERATION: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the WORD GENERATION variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.469
92155396|NCT02718417|184197191|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.989|TWO_SIDED|95.0|1.051|1.946||One-sided log-rank test was used.|Log Rank|Analysis was performed using a Cox's Proportional Hazard model stratified by the randomization strata and a stratified log-rank test.||||1.946|1.051|0.9890
92155397|NCT02718417|184197191|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.7935|TWO_SIDED|95.0|0.832|1.565||One-sided log-rank test was used.|Log Rank|Analysis was performed using a Cox's Proportional Hazard model stratified by the randomization strata and a stratified log-rank test.||||1.565|0.832|0.7935
92155398|NCT02718417|184197192|SUPERIORITY||Hazard Ratio (HR)|1.53||||0.8848|TWO_SIDED|95.0|0.76|3.08||One-sided log-rank test was used.|Log Rank|Analysis was performed using a Cox's Proportional Hazard model stratified by the randomization strata and a stratified log-rank test.||||3.080|0.760|0.8848
92155399|NCT02718417|184197192|SUPERIORITY||Hazard Ratio (HR)|1.55||||0.8953|TWO_SIDED|95.0|0.776|3.111||One-sided log-rank test was used.|Log Rank|Analysis was performed using a Cox's Proportional Hazard model stratified by the randomization strata and a stratified log-rank test.||||3.111|0.776|0.8953
92155400|NCT02718417|184197193|OTHER||Hazard Ratio (HR)|1.21||||0.9278|TWO_SIDED|95.0|0.935|1.578||One-sided log-rank test was used.|Log Rank|||||1.578|0.935|0.9278
92155401|NCT02718417|184197193|OTHER||Hazard Ratio (HR)|0.9||||0.2367|TWO_SIDED|95.0|0.688|1.189||One-sided log-rank test was used.|Log Rank|||||1.189|0.688|0.2367
92155402|NCT00506285|184197227|NON_INFERIORITY_OR_EQUIVALENCE|F(1,47)=26.7, p=.001||||||0.001|TWO_SIDED|95.0|||||Mixed Models Analysis|F(1,47)=26.7, p=.001||||||.001
92155403|NCT00506285|184197228|NON_INFERIORITY_OR_EQUIVALENCE|mixed models analysis||||||0.001|TWO_SIDED|95.0||||F(1,47)=24.8, p=.001|Mixed Models Analysis|||||||.001
92155404|NCT02892409|184197255|EQUIVALENCE|LS Mean Ratio (TAK-438/Lansoprazole), 95 percent (%) confidence interval (CI) of the ratio were obtained by taking the anti-log of the difference or confidence limits of difference between the LS means of test and reference on the natural logarithmic scale.|Least Square (LS) Mean Ratio|105.1|||||TWO_SIDED|95.0|66.051|167.183||||||||167.183|66.051|
92155405|NCT02892409|184197256|EQUIVALENCE|LS Mean Ratio (TAK-438/Lansoprazole), 95% CI of the ratio were obtained by taking the anti-log of the difference or confidence limits of difference between the LS means of test and reference on the natural logarithmic scale.|LS Mean Ratio|93.6|||||TWO_SIDED|95.0|67.137|130.569||||||||130.569|67.137|
92155406|NCT01154036|184197276|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-12.7|||<|0.001|TWO_SIDED|95.0|-16.6|-8.7||The primary hypotheses were tested at 0.045, applying Hochberg's procedure.|Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-8.7|-16.6|<0.001
92155407|NCT01154036|184197276|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimate|-9.1|||<|0.001|TWO_SIDED|95.0|-12.9|-5.4||The primary hypotheses were tested at 0.045, applying Hochberg's procedure.|Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-5.4|-12.9|<0.001
92155408|NCT01154036|184197277|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-10.5|||<|0.001|TWO_SIDED|95.0|-15.9|-5.1||The secondary hypotheses were tested at an adaptive alpha level depending on the hypotheses testing result of the primary hypotheses.|Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-5.1|-15.9|<0.001
92274897|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.99|||||TWO_SIDED|95.0|-23.13|9.15||||||For change in cognitive functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||9.15|-23.13|
92216355|NCT00232141|184332678|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.37||0.2513||95.0|-0.3|1.14||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Depression||1.14|-0.30|0.2513
92216356|NCT00232141|184332679|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.27||0.5834||95.0|-0.38|0.67||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Pain Severity Index||0.67|-0.38|0.5834
92216357|NCT00232141|184332679|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.25||0.7783||95.0|-0.43|0.57||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Pain Interference Index||0.57|-0.43|0.7783
92216358|NCT00232141|184332680|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.27||0.4776||95.0|-0.73|0.34||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||||0.34|-0.73|0.4776
92216359|NCT00232141|184332681|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0077||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||||||0.0077
92216360|NCT00232141|184332682|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3852||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||||||0.3852
92216361|NCT00232141|184332683|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3097||95.0|-0.03|0.1||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Burning||0.10|-0.03|0.3097
92216362|NCT00232141|184332683|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.6147||95.0|-0.07|0.04||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Pressing||0.04|-0.07|0.6147
92216363|NCT00232141|184332683|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.6838||95.0|-0.05|0.07||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Paroxysmal||0.07|-0.05|0.6838
92216364|NCT00232141|184332683|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.6479||95.0|-0.07|0.04||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Evoked||0.04|-0.07|0.6479
92216365|NCT00232141|184332683|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.03||0.1849||95.0|-0.02|0.11||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Paresthesia/dysesthesia||0.11|-0.02|0.1849
92216366|NCT00232141|184332683|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.5898||95.0|0.0|0.0||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Total Score||0|0|0.5898
92339548|NCT01261390|184580871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.677|STANDARD_ERROR_OF_MEAN|1.652|||TWO_SIDED|95.0|-5.915|0.561|||||Presented average of the treatment effects on 24hr SBP at 6months and 12months: (6mo + 12mo)/ 2; Comparison: ActivePAP Control. Adjusted for randomization factors (CVD; site; sleepstudy type) with subjectspecific slopes and intercepts.|"We conducted a linear mixed effects regression (LMER) to estimate the treatment effect of CPAP on mean 24hour Systolic Blood Pressure (SBP). Timepoint, treatment, and the timepoint\* treatment interaction were included as fixed effects, as were randomization stratification factors. Subject was included as a random effect. Let: y = observed SBP; β = fixed effects; u = random effects; X = known design matrix; Z = vector of subjects~Then our model is:~y = Xβ + Zu + ε"||0.561|-5.915|
92398802|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|0.28||0.1671|TWO_SIDED|95.0|-0.16|0.92||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.92|-0.16|0.1671
92216367|NCT00232141|184332684|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.29||0.6865||95.0|-0.45|0.68||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Static mechanical allodynia||0.68|-0.45|0.6865
92339549|NCT01261390|184580872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|99.0||||0.003|TWO_SIDED||||||Mixed Models Analysis|Adjusted for intervention and study duration (number of nights), and randomization (CVD; site; diagnostic sleep study type; PAP device type).|Estimated value is minutes of use per night.|We performed a mixed effects analysis of the effect of Motivational Enhancement (ME) on nightly CPAP adherence. Our model included every night of data and adjusted for intervention and study duration (number of nights), as well as randomization stratification factors (CVD; site; diagnostic sleepstudy type; PAP device type).||||0.003
92339550|NCT04010461|184580922|SUPERIORITY||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.097|=|0.11|TWO_SIDED|95.0|-0.037|0.355|||t-test, 2 sided|df = 35 Note: 1 subject was excluded from analysis as extraction of FPN eigenvalues failed due to technical deficiencies with image data||Analysis used standard, open-source methods for pre-processing . First-level analysis used the general framework of the modified General Linear Model, implemented in SPM12 with temporal convolution. For the n-back activation task, the first-level design matrix included regressors for 2-back and 1-back conditions, as well as 24 movement parameters. Statistical testing was done to establish whether more or less BOLD (neural activity) change occurred between two conditions.||0.355|-0.037|=0.11
92339551|NCT04010461|184580922|SUPERIORITY||Mean Difference (Final Values)|-0.009|STANDARD_ERROR_OF_MEAN|0.116||0.94|TWO_SIDED|95.0|-0.245|0.227|||t-test, 2 sided|df = 35 Note: 1 subject excluded from analysis as FPN extraction of eigenvalues failed due to technical issues with image data||Analysis used standard, open-source routes for slice timing correction, field map correction, realignment, smoothing (6 mm Gaussian kernel) and spatial normalization (MNI-152). First-level analysis used the general framework of the modified General Linear Model, implemented in SPM12 with temporal convolution. For the n-back activation task, the first-level design matrix included regressors for 2-back and 1-back conditions, as well as 24 movement parameters.||0.227|-0.245|0.94
92339552|NCT04010461|184580923|OTHER|Group-level analyses were performed using a General Linear Model (GLM). For each individual voxel, a separate GLM was estimated, with first-level connectivity measures at this voxel as dependent variables, and groups or other subject-level identifiers as independent variables. Voxel-level hypotheses were evaluated using multivariate parametric statistics with random effects across subjects and sample covariance estimation across multiple measurements.|random field theory|0.0||||1|TWO_SIDED|||||Inferences were performed at the level of individual clusters (groups of contiguous voxels). Cluster-level inferences were based on parametric statistics from Gaussian Random Field theory.|random field theory|Results were thresholded using a combination of a cluster-forming p \< 0.001 voxel-level threshold, and cluster-size threshold of 25 voxels|Number indicates the number of clusters above the threshold of significance for the contrast between two arms (passive vs active)|The contrast reflects the difference in connectivity between the conditions/sessions, at the level of each subject, then spatially averaged across all subjects. Functional connectivity strength for the dlPFC seed was represented by Fisher-transformed bivariate correlation coefficients from a weighted general linear model (weighted-GLM), defined separately for each pair of seed and target areas, modeling the association between their BOLD signal time series.||||1
92339553|NCT04010461|184580923|OTHER|The applied test with random field theory uses a metric of spatial dispersion, testing against the null hypothesis that spatial clusters of difference across the analyzed region are no different from chance clustering.|random field theory|0.0||||1|TWO_SIDED||||||random field theory||Number indicates the number of clusters above the threshold of significance for the contrast between two arms (passive vs control)|Results were thresholded using a combination of a cluster-forming p \< 0.001 voxel-level threshold, and a corrected false discovery rate (FDR) p \< 0.05 cluster-size threshold.||||1
92339554|NCT04010461|184580924|SUPERIORITY||F-ratio|0.1||||0.91|TWO_SIDED||||||ANOVA|||||||0.91
92339555|NCT04010461|184580925|SUPERIORITY|||||||0.55|||||||ANOVA|||||||0.55
92339556|NCT04010461|184580925|SUPERIORITY|||||||0.65|||||||ANOVA|||||||.65
92339557|NCT04010461|184580926|OTHER||cluster size|42.0||||0.54|TWO_SIDED|||||P-value above represents the lowest (most significant) value of the largest cluster, for the contrast of Passive \> Active, testing whether the cluster size is greater than chance.|random field theory||The estimated parameter is the size, in voxels, of the largest cluster. The applied test with random field theory tests whether the size of cluster difference across are no different from chance clustering.|Statistical thresholding using a random field model adjusted for multiple comparisons, with initial voxel magnitude/height threshold set at p \< 0.001 and peak and cluster-corrected significance levels obtained (false discovery rate \[FDR\]corrected), across the entire brain.||||0.54
92339558|NCT04010461|184580926|SUPERIORITY||cluster size|16.0||||0.93|TWO_SIDED|||||P-value above represents the lowest (most significant) value of the largest cluster, for the contrast of Passive \> Control, testing whether the size of this cluster is greater than one would expect by chance alone.|random field theory||The estimated parameter is the size, in voxels, of the largest cluster. The applied test with random field theory tests whether the size of cluster difference across are no different from chance clustering.|Statistical thresholding using a random field model adjusted for multiple comparisons, with initial voxel magnitude/height threshold set at p \< 0.001 and peak and cluster-corrected significance levels obtained (false discovery rate \[FDR\]corrected), across the entire brain..||||0.93
92339559|NCT04010461|184580927|SUPERIORITY||F-ratio|0.22||||0.8|TWO_SIDED||||||ANOVA|||Repeated measures ANOVA to test for differences in cerebral blood flow (perfusion) in the frontoparietal network||||0.8
92339560|NCT04010461|184580928|SUPERIORITY||F-ratio|3.96||||0.06|TWO_SIDED||||||ANOVA|||||||0.06
92398803|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.28||0.9462|TWO_SIDED|95.0|-0.57|0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.53|-0.57|0.9462
92398804|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.0699|TWO_SIDED|95.0|-0.91|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||0.04|-0.91|0.0699
92216368|NCT00232141|184332684|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.25||0.3787||95.0|-0.71|0.27||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Dynamic mechanical allodynia||0.27|-0.71|0.3787
92216369|NCT00232141|184332684|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.35||0.7704||95.0|-0.79|0.59||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Punctate hyperalgesia testing area||0.59|-0.79|0.7704
92216370|NCT00232141|184332684|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.33||0.6088||95.0|-0.82|0.48||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Temporal summation to tactile stimuli||0.48|-0.82|0.6088
92216371|NCT00232141|184332684|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.33||0.3767||95.0|-0.93|0.35||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Cold allodynia testing area||0.35|-0.93|0.3767
92216372|NCT00232141|184332684|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.38||0.7689||95.0|-0.64|0.86||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Cold hyperalgesia testing area||0.86|-0.64|0.7689
92216373|NCT00232141|184332685|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.25||0.1277||95.0|-0.86|0.11||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||||0.11|-0.86|0.1277
92216374|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.18||0.0469||95.0|-0.71|0.0||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||-0.00|-0.71|0.0469
92216375|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.23||0.0067||95.0|-1.08|-0.18||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||-0.18|-1.08|0.0067
92216376|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.27||0.031||95.0|-1.1|-0.05||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 3||-0.05|-1.10|0.0310
92216377|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.27||0.2088||95.0|-0.86|0.19||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 4||0.19|-0.86|0.2088
92216378|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.26||0.1849||95.0|-0.87|0.17||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 5||0.17|-0.87|0.1849
92216379|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.27||0.0452||95.0|-1.09|-0.01||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||-0.01|-1.09|0.0452
92216380|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.29||0.0359||95.0|-1.18|-0.04||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 7||-0.04|-1.18|0.0359
92339561|NCT04010461|184580928|SUPERIORITY||F-ratio|0.17||||0.68|TWO_SIDED||||||ANOVA|||||||0.68
92339562|NCT04010461|184580929|SUPERIORITY|Repeated measures ANOVA for 1- and 2-back conditions|F-ratio|0.72||||0.41|TWO_SIDED||||||ANOVA|||||||0.41
92339563|NCT04010461|184580929|SUPERIORITY|||||||0.5|||||||ANOVA|||||||0.50
92339564|NCT02106351|184580995|SUPERIORITY||LS mean difference back transformed|-0.4||||0.0118|TWO_SIDED|||||The 2-tailed significance level was 0.05.|ANCOVA|ANCOVA is performed on the ranked values.||The treatment difference between Dysport 8 U/kg and Dysport 2 U/kg was analysed using an analysis of covariance (ANCOVA) on the ranked changes from baseline. The model included treatment group, the baseline value, the 2 stratification factors (age range and BTX status at baseline) and the pooled centre as fixed effects. The derived least squares (LS) means were back transformed to the original scale and the treatment difference determined.||||0.0118
92216381|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.29||0.0184||95.0|-1.26|-0.12||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 8||-0.12|-1.26|0.0184
92216382|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.29||0.1043||95.0|-1.06|0.1||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 9||0.10|-1.06|0.1043
92216383|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.29||0.1053||95.0|-1.04|0.1||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.10|-1.04|0.1053
92339565|NCT02106351|184580995|SUPERIORITY||LS mean difference back transformed|-0.7|||<|0.0001|TWO_SIDED|||||The 2-tailed significance level was 0.05.|ANCOVA|ANCOVA is performed on the ranked values.||The treatment difference between Dysport 16 U/kg and Dysport 2 U/kg was analysed using an ANCOVA on the ranked changes from baseline. The model included treatment group, the baseline value, the 2 stratification factors (age range and BTX status at baseline) and the pooled centre as fixed effects. The derived LS means were back transformed to the original scale and the treatment difference determined.||||<0.0001
92339566|NCT02106351|184580996|SUPERIORITY||LS mean difference back transformed|0.2||||0.2043|TWO_SIDED|||||The two-tailed significance level was 0.05.|ANOVA|ANOVA was performed on ranked values.||The treatment difference between Dysport 8 U/kg and Dysport 2 U/kg was analysed using an analysis of variance (ANOVA) on the rank of the PGA score at TC 1, Week 6. The model included treatment group, the 2 stratification factors (age range and BTX status at baseline) and the centre as fixed effects. The derived LS means were back transformed to the original scale and the treatment difference determined.||||0.2043
92339567|NCT02106351|184580996|SUPERIORITY||LS mean difference back transformed|0.2||||0.188|TWO_SIDED|||||The two-tailed significance level was 0.05.|ANOVA|ANOVA was performed on ranked values.||The treatment difference between Dysport 16 U/kg and Dysport 2 U/kg was analysed using an ANOVA on the rank of the PGA score at TC 1, Week 6. The model included treatment group, the 2 stratification factors (age range and BTX status at baseline) and the centre as fixed effects. The derived LS means were back transformed to the original scale and the treatment difference determined.||||0.1880
92339568|NCT02106351|184580997|SUPERIORITY||LS mean difference|0.5||||0.7648|TWO_SIDED|95.0|-2.7|3.7||The two-tailed significance level was 0.05.|ANOVA|||The treatment difference between Dysport 8 U/kg and Dysport 2 U/kg was analysed using ANOVA on the GAS Total score at TC 1, Week 6. The model included treatment group, the 2 stratification factors (age range and BTX status at baseline) and the centre as fixed effects.||3.7|-2.7|0.7648
92339569|NCT02106351|184580997|SUPERIORITY||LS mean difference|0.5||||0.7429|TWO_SIDED|95.0|-2.6|3.7||The two-tailed significance level was 0.05.|ANOVA|||The treatment difference between Dysport 16 U/kg and Dysport 2 U/kg was analysed using ANOVA on the GAS Total score at TC 1, Week 6. The model included treatment group, the 2 stratification factors (age range and BTX status at baseline) and the centre as fixed effects.||3.7|-2.6|0.7429
92339570|NCT01801111|184581007|OTHER|||||||0.0005|||||||Exact Clopper-Pearson CI|||Tests null hypothesis that the objective response rate (ORR) is equal to 35% versus the alternative hypothesis that the objective response rate was not equal to 35%.||||0.0005
92339571|NCT01801111|184581008|OTHER|||||||0.0599|TWO_SIDED||||||Exact Clopper-Pearson CI|||Tests null hypothesis that the ORR is equal to 35% versus the alternative hypothesis that the objective response rate was not equal to 35%.||||0.0599
92216384|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.3||0.144||95.0|-1.03|0.15||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 11||0.15|-1.03|0.1440
92216385|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.32||0.0866||95.0|-1.17|0.08||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 12||0.08|-1.17|0.0866
92339572|NCT01801111|184581010|OTHER|||||||0.0001|||||||Exact Clopper-Pearson CI|||Tests null hypothesis that the ORR is equal to 35% versus the alternative hypothesis that the objective response rate was not equal to 35%.||||0.0001
92274898|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.09|||||TWO_SIDED|95.0|-30.48|16.31||||||For change in social functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||16.31|-30.48|
92339573|NCT01223937|184581045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.028|TWO_SIDED|95.0|-0.42|-0.02||A priori threshold for significance was p\<=0.05.|ANCOVA|Repeated measures ANCOVA with treatment, visit (including a treatment-by-visit interaction term), and age stratification (\<65, ≥65 years) as factors.||"The trial was to be declared positive only if the 25 μg desmopressin group had a statistically significant positive effect as compared to placebo on both co-primary outcomes.~A summary of mean change in nocturnal voids, assessed longitudinally during 3 months of treatment, is presented below for the FAS using LOCF."||-0.02|-0.42|0.0280
92339574|NCT01223937|184581046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.0061|TWO_SIDED|95.0|1.19|2.86||A priori threshold for significance was p\<=0.05.|Generalized Estimating Equation (GEE)|GEE Method with treatment, visit (including a treatment-by-visit interaction term), and age stratification (\<65, ≥65 years) as factors.||The trial was to be declared positive only if the 25 μg desmopressin group had a statistically significant positive effect as compared to placebo on both co-primary outcomes.||2.86|1.19|0.0061
92339575|NCT01223937|184581047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.0104|TWO_SIDED|95.0|-0.54|-0.07||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal voids, using last observation carried forward.||Change from baseline in the adjusted mean number of nocturnal voids in the FAS using LOCF.||-0.07|-0.54|0.0104
92339576|NCT01223937|184581048|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.0586|TWO_SIDED|95.0|0.98|3.05||A priori threshold for significance was p\<=0.05.|Regression, Logistic|Logistical regression of 33% responder status adjusted for age (\<65, \>=65) and baseline nocturnal voids using last observation carried forward.||||3.05|0.98|0.0586
92339577|NCT01223937|184581049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.03||||0.0034|TWO_SIDED|95.0|16.35|81.7||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline time to first nocturnal void, using last observation carried forward.||||81.70|16.35|0.0034
92155409|NCT01154036|184197277|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-9.5|||<|0.001|TWO_SIDED|95.0|-13.6|-5.5||The secondary hypotheses were tested at an adaptive alpha level depending on the hypotheses testing result of the primary hypotheses.|Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-5.5|-13.6|<0.001
92155410|NCT01154036|184197278|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.51|||<|0.001|TWO_SIDED|95.0|1.62|3.89|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||3.89|1.62|<0.001
92155411|NCT01154036|184197278|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.77||||0.007|TWO_SIDED|95.0|1.17|2.67|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||2.67|1.17|0.007
92155412|NCT01154036|184197279|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.71|||<|0.001|TWO_SIDED|95.0|1.55|4.73|||Logistic regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||4.73|1.55|<0.001
92155413|NCT01154036|184197279|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.38|||<|0.001|TWO_SIDED|95.0|1.56|3.63|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||3.63|1.56|<0.001
92155414|NCT01154036|184197280|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|9.46|||<|0.001|TWO_SIDED|95.0|4.56|19.62|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||19.62|4.56|<0.001
92155415|NCT01154036|184197280|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.9|||<|0.001|TWO_SIDED|95.0|2.23|6.82|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||6.82|2.23|<0.001
92155416|NCT01154036|184197281|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|27.77||||0.001|TWO_SIDED|95.0|3.64|211.83|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||211.83|3.64|0.001
92155417|NCT01154036|184197281|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|7.08|||<|0.001|TWO_SIDED|95.0|2.85|17.56|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||17.56|2.85|<0.001
92155418|NCT01154036|184197282|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-7.1|||<|0.001|TWO_SIDED|95.0|-9.7|-4.4|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.4|-9.7|<0.001
92155419|NCT01154036|184197282|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-5.8|||<|0.001|TWO_SIDED|95.0|-8.3|-3.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-3.3|-8.3|<0.001
92155420|NCT01154036|184197283|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.8|||<|0.001|TWO_SIDED|95.0|-10.7|-3.0|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-3.0|-10.7|<0.001
92155421|NCT01154036|184197283|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-7.4|||<|0.001|TWO_SIDED|95.0|-10.2|-4.5|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.5|-10.2|<0.001
92155422|NCT01154036|184197284|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-2.1||||0.466|TWO_SIDED|95.0|-7.8|3.5|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||3.5|-7.8|0.466
92155423|NCT01154036|184197284|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares means|-4.9||||0.081|TWO_SIDED|95.0|-10.3|0.5|||Constrained Longitudinal Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||0.5|-10.3|0.081
92155424|NCT01154036|184197285|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-2.8||||0.466|TWO_SIDED|95.0|-10.2|4.7|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||4.7|-10.2|0.466
92155425|NCT01154036|184197285|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squarres Means|-7.1||||0.011|TWO_SIDED|95.0|-12.6|-1.6|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||-1.6|-12.6|0.011
92155426|NCT01154036|184197286|SUPERIORITY_OR_OTHER_LEGACY||Difference in M--estimates|1.7||||0.133|TWO_SIDED|95.0|-0.5|4.0|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||4.0|-0.5|0.133
92216386|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.32||0.0359||95.0|-1.3|-0.04||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 13||-0.04|-1.30|0.0359
92216387|NCT00232141|184332686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.34||0.0711||95.0|-1.3|0.05||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.05|-1.30|0.0711
92216388|NCT00232141|184332688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.23||0.0685||95.0|-0.89|0.03||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.03|-0.89|0.0685
92216389|NCT00232141|184332688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.28||0.928||95.0|-0.52|0.57||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.57|-0.52|0.9280
92216390|NCT00232141|184332688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.29||0.6672||95.0|-0.71|0.45||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.45|-0.71|0.6672
92339578|NCT01223937|184581050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.56||||0.0031|TWO_SIDED|95.0|-138.74|-28.38||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal urine volume, using last observation carried forward.||||-28.38|-138.74|0.0031
92339579|NCT01223937|184581051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-72.91||||0.1829|TWO_SIDED|95.0|-180.42|34.6||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline 24-hour urine volume, using last observation carried forward.||||34.60|-180.42|0.1829
92339580|NCT03284853|184581067|OTHER|The primary analysis was performed on the ITT population with imputation by Markov Chain Monte Carlo method.|||||<|0.05||||||Linear model with IOP at the given visit and time point as the response, baseline IOP as a covariate, and treatment as a main effect factor at each time point (08:00, 10:00, and 16:00 hours at the Week 2, Week 6, and Month 3 Visits).|Regression, Linear|Non-inferiority for PG324 was concluded if the UL of the 95% CI was ≤ l.5 mmHg at all 9 time points and ≤ l.0 mmHg at the majority of time points||Assuming no difference between PG324 and Ganfort, a two-tailed alpha of 0.05 (2-sided 95% CI) at each of 9 time points, a common SD of 3.5 mmHg, and a correlation between time points of ≤ 0.60, 200 ITT subjects per arm were necessary to have 85% power to show clinical non-inferiority of PG324 to Ganfort in the mean change from baseline IOP.||||<0.05
92339581|NCT00765817|184581077|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92339582|NCT00765817|184581078|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92216391|NCT00232141|184332688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.29||0.9731||95.0|-0.57|0.59||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.59|-0.57|0.9731
92339583|NCT00765817|184581079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92339584|NCT00765817|184581080|SUPERIORITY_OR_OTHER|||||||0.174||95.0|||||ANCOVA|||||||0.174
92339585|NCT00765817|184581082|SUPERIORITY_OR_OTHER|||||||0.203||95.0|||||ANCOVA|||||||0.203
92339586|NCT00765817|184581083|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||ANCOVA|||||||0.063
92398805|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.0056|TWO_SIDED|95.0|-1.15|-0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||-0.20|-1.15|0.0056
92339587|NCT00765817|184581084|SUPERIORITY_OR_OTHER|||||||0.745||95.0|||||ANCOVA|||||||0.745
92339588|NCT00765817|184581085|SUPERIORITY_OR_OTHER|||||||0.933||95.0|||||ANCOVA|||||||0.933
92339589|NCT00765817|184581086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92339590|NCT00765817|184581087|SUPERIORITY_OR_OTHER|||||||0.226||95.0|||||ANCOVA|||||||0.226
92339591|NCT00765817|184581088|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||ANCOVA|||||||0.026
92339592|NCT00765817|184581089|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||ANCOVA|||||||0.070
92339593|NCT00765817|184581090|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||ANCOVA|||||||0.011
92339594|NCT00765817|184581091|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92339595|NCT00765817|184581092|SUPERIORITY_OR_OTHER|||||||0.666||95.0|||||Negative binomial regression model|||||||0.666
92339596|NCT00765817|184581093|SUPERIORITY_OR_OTHER|||||||0.486||95.0|||||Fisher Exact|||||||0.486
92339597|NCT06597084|184581126|OTHER||Percentiles of time to first US|92.0||||0.2081|TWO_SIDED|95.0|25.0|95.0|||Log Rank|||||95|25|0.2081
92339598|NCT06597084|184581132|OTHER||Overall Survival|||||0.0542|||||||Log Rank|||||||0.0542
92339599|NCT01043133|184581142|SUPERIORITY_OR_OTHER||log-binomial|3.97|STANDARD_ERROR_OF_MEAN|3.97||0.01|TWO_SIDED|95.0|1.34|11.79|||log-binomial regression||Robust Huber-White standard errors account for clustering|||11.79|1.34|.01
92339600|NCT01043133|184581143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|STANDARD_DEVIATION|2.78||0.05|TWO_SIDED|95.0|-2.48|-0.03|||ANCOVA|||||-.03|-2.48|.05
92339601|NCT00490971|184581158|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||The two treatment groups were compared using a weighted z-statistic based on rho-family of alpha spending function at information fraction of 85.0% at interim analysis analysis (rho=2.5) at 0.025 (1-sided) level. One-sided alpha at final was 0.0195.|Weighted Z- test|||Null hypothesis: there is no difference between Pali/Pali and Pali/Placebo in the time to recurrence of any mood symptoms related to bipolar I disorder. An interim analysis was performed when approximately 85% of the required number of recurrences were reported in Pali/Pali and Pali/Placebo treatment groups. A flexible group-sequential approach was adopted. The general family of alpha spending function based on the rho-family with rho=2.5 at overall type I error of 0.025 (1-sided) was employed.||||0.017
92339602|NCT00490971|184581159|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The two treatment groups were compared using a weighted z-statistic based on rho-family of alpha spending function at information fraction of 81.9% at interim analysis analysis (rho=2.5) at 0.025 (1-sided) level. One-sided alpha at final was 0.0198.|Weighted z-test|||At the time of interim analysis of the primary efficacy endpoint, the proportion of recurrence of manic symptoms was 81.9% of the number of recurrence of manic symptoms at final analysis. A flexible group-sequential approach was adopted. The general family of alpha spending function based on the rho-family with rho=2.5 at overall type I error of 0.025 (1-sided) was employed.||||<0.001
92339603|NCT00490971|184581160|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.53|1.46||Cox proportional hazards regression was performed with treatment (Pali/Placebo, Pali/Pali) as a factor. The 2 treatment groups were compared by means of a hazard ratio (Pali/Placebo: Pali/Pali)|Regression, Cox|The percent of participants who reported recurrence of depressive symptoms was: 18% Pali/Placebo, 24% Pali/Pali.|Hazard ratio was estimated with Pali/Placebo in the numerator and Pali/Pali in the denominator|||1.46|0.53|
92339604|NCT00490971|184581161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5|||<|0.001|TWO_SIDED|95.0|-6.92|-1.98|||ANCOVA|ANCOVA model with treatment group (Pali/Pali, Pali/Placebo) and country as factors with baseline value as covariate||Change from Baseline (Maintenance Phase) to Endpoint (Maintenance Phase)||-1.98|-6.92|<0.001
92339605|NCT00490971|184581162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.763|TWO_SIDED|95.0|-1.87|2.55|||ANCOVA|ANCOVA Model with treatment (Pali/Pali, Pali/Placebo) and country as factors with baseline value as covariate||Change from Baseline (Maintenance Phase) to Endpoint (Maintenance Phase)||2.55|-1.87|0.763
92339606|NCT00490971|184581163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.7||||0.01|TWO_SIDED|95.0|1.4|10.09|||ANCOVA|ANCOVA Model with treatment (Pali/Pali, Pali/Placebo) and country as factors with baseline value as covariate||Change from Baseline (Maintenance Phase) to Endpoint (Maintenance Phase)||10.09|1.40|0.010
92339607|NCT00490971|184581164|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANCOVA|ANCOVA Model on ranks with treatment (Pali/Pali, Pali/Placebo) and country as factors with baseline value as covariate||Change from Baseline (Maintenance Phase) to Endpoint (Maintenance Phase)||||0.007
92339608|NCT00255164|184581181|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
92339609|NCT00255164|184581181|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
92339610|NCT00255164|184581181|SUPERIORITY_OR_OTHER|||||||0.80473||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.80473
92339611|NCT00255164|184581182|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92339612|NCT00255164|184581182|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92339613|NCT00255164|184581182|SUPERIORITY_OR_OTHER|||||||0.76046||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.76046
92339614|NCT00255164|184581184|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
92339615|NCT00255164|184581184|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
92339616|NCT00255164|184581184|SUPERIORITY_OR_OTHER|||||||0.37161||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Log Rank|||||||0.37161
92339617|NCT00255164|184581185|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92339618|NCT00255164|184581185|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92398806|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.1117|TWO_SIDED|95.0|-0.86|0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||0.09|-0.86|0.1117
92398807|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.0265|TWO_SIDED|95.0|-1.02|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||-0.06|-1.02|0.0265
92339619|NCT00255164|184581185|SUPERIORITY_OR_OTHER|||||||0.597||95.0||||Statistical significance was determined at the 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.59700
92216392|NCT00232141|184332688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.33||0.9045||95.0|-0.61|0.69||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.69|-0.61|0.9045
92339620|NCT04754542|184581196|NON_INFERIORITY|We performed a non-inferiority test for the proportions of the drug continuation and drug discontinuation arms experiencing a new MS relapse and/or MRI Brain Lesion over the course of the study duration. The non-inferiority margin used was 8%.|Difference in proportion|0.0121||||0.124|TWO_SIDED|95.0|-0.1321|0.1287|||Exact binomial test|Exact binomial test fr difference in two proportions||We tested the null hypothesis of inferiority with the proportion of disease events (i.e., new MS relapse and/or MRI brain lesion) for the drug discontinuation group being 8% greater than the proportion for the drug continuation group under the alternative that the two rates are equal.||0.1287|-0.1321|0.124
92339621|NCT04754542|184581197|SUPERIORITY|||||||0.639|||||||t-test, 2 sided|||||||0.639
92339622|NCT04754542|184581198|SUPERIORITY|||||||0.964|||||||t-test, 2 sided|||||||0.964
92339623|NCT04754542|184581199|SUPERIORITY|||||||0.819|||||||t-test, 2 sided|||||||0.819
92339624|NCT04754542|184581200|SUPERIORITY|||||||0.515|||||||t-test, 2 sided|||||||0.515
92339625|NCT04754542|184581201|SUPERIORITY|||||||0.388|||||||t-test, 2 sided|||||||0.388
92339626|NCT04754542|184581202|SUPERIORITY|||||||0.183|||||||t-test, 2 sided|||||||0.183
92339627|NCT04754542|184581203|SUPERIORITY|||||||0.414|||||||t-test, 2 sided|||||||0.414
92339628|NCT04754542|184581204|SUPERIORITY|||||||0.998|||||||t-test, 2 sided|||||||0.998
92339629|NCT04754542|184581205|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||0.320
92398808|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.1119|TWO_SIDED|95.0|-0.86|0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||0.09|-0.86|0.1119
92339630|NCT04754542|184581206|SUPERIORITY|||||||0.061|||||||t-test, 2 sided|||||||0.061
92398809|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.7607|TWO_SIDED|95.0|-0.54|0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||0.40|-0.54|0.7607
92274899|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.88|||||TWO_SIDED|95.0|-5.86|27.63||||||For change in fatigue at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||27.63|-5.86|
92339631|NCT04754542|184581207|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||||||0.032
92339632|NCT04754542|184581208|SUPERIORITY|||||||0.514|||||||t-test, 2 sided|||||||0.514
92339633|NCT04754542|184581209|SUPERIORITY|||||||0.017|||||||t-test, 2 sided|||||||0.017
92339634|NCT04754542|184581210|SUPERIORITY|||||||0.155|||||||t-test, 2 sided|||||||0.155
92339635|NCT04754542|184581211|SUPERIORITY|||||||0.358|||||||t-test, 2 sided|||||||0.358
92339636|NCT04754542|184581212|SUPERIORITY|||||||0.151|||||||t-test, 2 sided|||||||0.151
92339637|NCT04754542|184581213|SUPERIORITY|||||||0.123|||||||t-test, 2 sided|||||||0.123
92339638|NCT04754542|184581214|SUPERIORITY|||||||0.656|||||||Chi-squared|||||||0.656
92339639|NCT04754542|184581215|SUPERIORITY|||||||0.892|||||||Chi-squared|||||||0.892
92339640|NCT04754542|184581216|SUPERIORITY|||||||0.063|||||||Mantel Haenszel|Cochran-Mantel-Haenszel chi-square test for ordinal-nominal association was used||||||0.063
92339641|NCT03429348|184581227|SUPERIORITY||Mean Difference (Final Values)|1.18||||9e-07|TWO_SIDED||||||t-test, 2 sided|We are comparing the log transformed values.||||||0.0000009
92339642|NCT03429348|184581227|SUPERIORITY||Mean Difference (Final Values)|1.35||||1.8e-05|TWO_SIDED||||||t-test, 2 sided|We are comparing the log transformed values||||||0.000018
92339643|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|1.0|1.03|||||These results compare the arm receiving a pre-commitment prompt to the arm receiving no pre-commitment prompt.|||1.03|1.00|
92339644|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||These results compare the arm receiving a pre-commitment prompt to the arm receiving no pre-commitment prompt.|||1.01|0.99|
92339645|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.99|1.03|||||These results compare the arm receiving a pre-commitment prompt to the arm receiving no pre-commitment prompt.|||1.03|0.99|
92339646|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|1.0|1.04|||||These results compare the arm receiving a pre-commitment prompt to the arm receiving no pre-commitment prompt.|||1.04|1.00|
92339647|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.98|1.01|||||These results compare the arm receiving gain-framed reminders to the arm receiving no reminders.|||1.01|0.98|
92339648|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|0.95|0.97|1.02|||||These results compare the arm receiving gain-framed reminders to the arm receiving no reminders.|||1.02|0.97|
92339649|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.97|1.01|||||These results compare the arm receiving gain-framed reminders to the arm receiving no reminders.|||1.01|0.97|
92339650|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.98|1.05|||||These results compare the arm receiving gain-framed reminders to the arm receiving no reminders.|||1.05|0.98|
92339651|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.99|1.02|||||These results compare the arm receiving loss-framed reminders to the arm receiving no reminders.|||1.02|0.99|
92339652|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.98|1.02|||||These results compare the arm receiving loss-framed reminders to the arm receiving no reminders.|||1.02|0.98|
92339653|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.97|1.02|||||These results compare the arm receiving loss-framed reminders to the arm receiving no reminders.|||1.02|0.97|
92216393|NCT00232141|184332688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.3||0.8298||95.0|-0.53|0.66||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.66|-0.53|0.8298
92216394|NCT00232141|184332689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.24||0.8605||95.0|-0.52|0.44||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.44|-0.52|0.8605
92216395|NCT00232141|184332689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.27||0.8348||95.0|-0.58|0.47||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.47|-0.58|0.8348
92216396|NCT00232141|184332689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.26||0.2227||95.0|-0.83|0.19||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.19|-0.83|0.2227
92216397|NCT00232141|184332689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.27||0.4753||95.0|-0.73|0.34||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.34|-0.73|0.4753
92216398|NCT00232141|184332689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.27||0.6017||95.0|-0.4|0.68||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.68|-0.40|0.6017
92216399|NCT00232141|184332689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.26||0.6158||95.0|-0.38|0.64||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.64|-0.38|0.6158
92339654|NCT04110314|184581249|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|1.0|1.04|||||These results compare the arm receiving loss-framed reminders to the arm receiving no reminders.|||1.04|1.00|
92339655|NCT00737100|184581284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.94||||0.001||95.0|1.19|4.7||Comment for p-value: Hierarchical testing was applied. Comparison of 2.5 dose to be performed only if superiority of tiotropium 5.0 dose compared to placebo was shown for both primary endpoints.|Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||4.70|1.19|0.001
92339656|NCT00737100|184581284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.39||||0.0001||95.0|1.67|5.12||Comment for p-value: Hierarchical testing was applied. Comparison of 2.5 dose to be performed only if superiority of tiotropium 5.0 dose compared to placebo was shown for both primary endpoints.|Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||5.12|1.67|0.0001
92339657|NCT00737100|184581285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.24||||0.0184||95.0|0.38|4.11||Comment for p-value: Hierarchical testing was applied. Comparison of 2.5 dose to be performed only if superiority of tiotropium 5.0 dose compared to placebo was shown for both primary endpoints.|Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||4.11|0.38|0.0184
92339658|NCT00737100|184581285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22||||0.0179||95.0|0.38|4.06||Comment for p-value: Hierarchical testing was applied. Comparison of 2.5 dose to be performed only if superiority of tiotropium 5.0 dose compared to placebo was shown for both primary endpoints.|Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||4.06|0.38|0.0179
92339659|NCT00737100|184581286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.83||||0.0756||95.0|-0.19|3.86|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||3.86|-0.19|0.0756
92339660|NCT00737100|184581286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.12||||0.0023||95.0|1.12|5.12|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||5.12|1.12|0.0023
92339661|NCT00737100|184581287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.3857||95.0|-1.08|2.79|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||2.79|-1.08|0.3857
92339662|NCT00737100|184581287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19||||0.2199||95.0|-0.72|3.11|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||3.11|-0.72|0.2199
92339663|NCT00737100|184581288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.19||||0.0363||95.0|0.27|8.11|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||8.11|0.27|0.0363
92339664|NCT00737100|184581288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.34||||0.0073||95.0|1.45|9.23|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||9.23|1.45|0.0073
92339665|NCT00737100|184581289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.7414||95.0|-0.06|0.08|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||0.08|-0.06|0.7414
92339666|NCT00737100|184581289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.1418||95.0|-0.02|0.12|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||0.12|-0.02|0.1418
92339667|NCT00737100|184581290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.8515||95.0|0.37|1.72|||Regression, Logistic|Covariates of treatment and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||1.72|0.37|0.8515
92339668|NCT00737100|184581290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.5565||95.0|0.33|1.59|||Regression, Logistic|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||1.59|0.33|0.5565
92339669|NCT04428385|184581311|SUPERIORITY||Risk Ratio (RR)|0.85|||||TWO_SIDED|95.0|0.34|2.16||||||||2.16|0.34|
92339670|NCT04428385|184581312|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.47|1.78||||||||1.78|0.47|
92339671|NCT04428385|184581313|SUPERIORITY||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.36|1.62||||||||1.62|0.36|
92339672|NCT04428385|184581314|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.33|1.33||||||||1.33|0.33|
92339673|NCT04428385|184581315|SUPERIORITY||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.62|1.9||||||||1.90|0.62|
92339674|NCT00974311|184581359|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.53|0.75|||Log Rank|Stratified by baseline Eastern Cooperative Oncology Group (ECOG) performance status and mean Brief Pain Inventory - Short Form score (Question #3).|Hazard Ratio and 95% confidence interval are from Cox regression model.|||0.75|0.53|<0.0001
92339675|NCT00974311|184581360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||<|0.0001|TWO_SIDED|95.0|0.35|0.47|||Log Rank|Stratified by baseline ECOG performance status and mean Brief Pain Inventory - Short Form score (Question #3).|Hazard Ratio and 95% confidence interval are from Cox regression model.|||0.47|0.35|<0.0001
92339676|NCT00974311|184581361|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.0001|TWO_SIDED|95.0|0.566|0.835|||Log Rank|Stratified by baseline ECOG performance status and mean Brief Pain Inventory - Short Form score (Question #3).|Hazard Ratio and 95% confidence interval are from Cox regression model.|||0.835|0.566|0.0001
92339677|NCT00974311|184581362|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|24.9|||<|0.0001|TWO_SIDED|95.0|18.8|30.9|||Cochran-Mantel-Haenszel|Stratified by baseline ECOG performance status and mean Brief Pain Inventory - Short Form score (Question #3).|Confidence Interval based on standard normal approximation.|||30.9|18.8|<0.0001
92339678|NCT00974311|184581363|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.248|||<|0.0001|TWO_SIDED|95.0|0.204|0.303||Stratified by baseline ECOG performance status and mean Brief Pain Inventory - Short Form score (Question #3).|Log Rank||Hazard Ratio and 95% confidence interval are from Cox regression model.|||0.303|0.204|<0.0001
92339679|NCT00974311|184581364|SUPERIORITY_OR_OTHER||Difference in Rate of Pain Palliation|38.2||||0.0079|TWO_SIDED|95.0|19.4|57.0|||Cochran-Mantel-Haenszel|Stratified by baseline Eastern Cooperative Oncology Group performance status (0-1 vs. 2).|Confidence Interval based on standard normal approximation.|||57.0|19.4|0.0079
92155427|NCT01154036|184197286|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-0.6||||0.61|TWO_SIDED|95.0|-2.7|1.6|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||1.6|-2.7|0.610
92339680|NCT03286218|184581378|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 14 mm.|Least Squares (LS) Mean Difference|32.4|||||TWO_SIDED|90.0|28.4|36.4||||||||36.4|28.4|
92339681|NCT03286218|184581378|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses vs Placebo is 14 mm.|LS Mean Difference|15.6|||||TWO_SIDED|90.0|11.7|19.6||||||||19.6|11.7|
92339682|NCT03286218|184581378|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses vs Placebo is 14 mm.|LS Mean Difference|20.3|||||TWO_SIDED|90.0|16.3|24.3||||||||24.3|16.3|
92339683|NCT03286218|184581378|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses vs Placebo is 14 mm.|LS Mean Difference|23.6|||||TWO_SIDED|90.0|19.6|27.6||||||||27.6|19.6|
92339684|NCT03286218|184581378|NON_INFERIORITY|The non-inferiority (NI) margin for Alprazolam and Lasmiditan 100 mg dose is 5 mm.|LS Mean Difference|16.8|||||TWO_SIDED|90.0|12.8|20.8||||||||20.8|12.8|
92339685|NCT03286218|184581378|NON_INFERIORITY|The non-inferiority (NI) margin for Alprazolam and Lasmiditan 200 mg dose is 5 mm.|LS Mean Difference|12.1|||||TWO_SIDED|90.0|8.1|16.1||||||||16.1|8.10|
92339686|NCT03286218|184581378|NON_INFERIORITY|The non-inferiority (NI) margin for Alprazolam and Lasmiditan 400 mg dose is 5 mm.|LS Mean Difference|8.79|||||TWO_SIDED|90.0|4.8|12.8||||||||12.8|4.8|
92339687|NCT03286218|184581381|OTHER||LS Mean Difference|33.1|||||TWO_SIDED|90.0|28.5|37.7||||||Overall Drug Liking||37.7|28.5|
92339688|NCT03286218|184581381|OTHER||LS Mean Difference|18.6|||||TWO_SIDED|90.0|14.0|23.2||||||Overall Drug Liking||23.2|14.0|
92339689|NCT03286218|184581381|OTHER||LS Mean Difference|19.1|||||TWO_SIDED|90.0|14.5|23.8||||||Overall Drug Liking||23.8|14.5|
92339690|NCT03286218|184581381|OTHER||LS Mean Difference|24.3|||||TWO_SIDED|90.0|19.7|28.9||||||Overall Drug Liking||28.9|19.7|
92339691|NCT03286218|184581381|OTHER||LS Mean Difference|34.0|||||TWO_SIDED|90.0|29.1|38.9||||||Take drug again||38.9|29.1|
92339692|NCT03286218|184581381|OTHER||LS Mean Difference|19.1|||||TWO_SIDED|90.0|14.2|24.0||||||Take drug again||24.0|14.2|
92339693|NCT03286218|184581381|OTHER||LS Mean Difference|20.6|||||TWO_SIDED|90.0|15.7|25.6||||||Take drug again||25.6|15.7|
92155428|NCT01154036|184197287|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-1.0||||0.52|TWO_SIDED|95.0|-4.2|2.1|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||2.1|-4.2|0.520
92155429|NCT01154036|184197287|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-0.7||||0.567|TWO_SIDED|95.0|-3.1|1.7|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||1.7|-3.1|0.567
92155430|NCT01154036|184197288|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-5.3||||0.003|TWO_SIDED|95.0|-8.8|-1.8|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-1.8|-8.8|0.003
92155431|NCT01154036|184197288|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-4.3||||0.011|TWO_SIDED|95.0|-7.7|-1.0|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-1.0|-7.7|0.011
92339694|NCT03286218|184581381|OTHER||LS Mean Difference|25.3|||||TWO_SIDED|90.0|20.3|30.2||||||Take drug again||30.2|20.3|
92339695|NCT03286218|184581381|OTHER||LS Mean Difference|69.7|||||TWO_SIDED|90.0|62.1|77.4||||||Good effects||77.4|62.1|
92339696|NCT03286218|184581381|OTHER||LS Mean Difference|35.5|||||TWO_SIDED|90.0|27.9|43.2||||||Good effects||43.2|27.9|
92339697|NCT03286218|184581381|OTHER||LS Mean Difference|52.0|||||TWO_SIDED|90.0|44.4|59.7||||||Good effects||59.7|44.4|
92339698|NCT03286218|184581381|OTHER||LS Mean Difference|53.0|||||TWO_SIDED|90.0|45.4|60.6||||||Good effects||60.6|45.4|
92339699|NCT03286218|184581381|OTHER||LS Mean Difference|20.4|||||TWO_SIDED|90.0|13.6|27.2||||||Bad effects||27.2|13.6|
92339700|NCT03286218|184581381|OTHER||LS Mean Difference|5.04|||||TWO_SIDED|90.0|-1.76|11.8||||||Bad effects||11.8|-1.76|
92339701|NCT03286218|184581381|OTHER||LS Mean Difference|7.28|||||TWO_SIDED|90.0|0.487|14.1||||||Bad effects||14.1|0.487|
92339702|NCT03286218|184581381|OTHER||LS Mean Difference|12.5|||||TWO_SIDED|90.0|5.69|19.3||||||Bad effects||19.3|5.69|
92339703|NCT03286218|184581381|OTHER||LS Mean Difference|75.4|||||TWO_SIDED|90.0|67.2|83.5||||||Any effects||83.5|67.2|
92339704|NCT03286218|184581381|OTHER||LS Mean Difference|44.9|||||TWO_SIDED|90.0|36.8|53.0||||||Any effects||53.0|36.8|
92339705|NCT03286218|184581381|OTHER||LS Mean Difference|56.8|||||TWO_SIDED|90.0|48.7|64.9||||||Any effects||64.9|48.7|
92339706|NCT03286218|184581381|OTHER||LS Mean Difference|64.8|||||TWO_SIDED|90.0|56.7|73.0||||||Any effects||73.0|56.7|
92339707|NCT03286218|184581381|OTHER||LS Mean Difference|68.6|||||TWO_SIDED|90.0|60.6|76.6||||||High||76.6|60.6|
92339708|NCT03286218|184581381|OTHER||LS Mean Difference|34.4|||||TWO_SIDED|90.0|26.4|42.4||||||High||42.4|26.4|
92155432|NCT01154036|184197289|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-4.3||||0.079|TWO_SIDED|95.0|-9.2|0.5|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||0.5|-9.2|0.079
92339709|NCT03286218|184581381|OTHER||LS Mean Difference|47.5|||||TWO_SIDED|90.0|39.5|55.5||||||High||55.5|39.5|
92339710|NCT03286218|184581381|OTHER||LS Mean Difference|58.4|||||TWO_SIDED|90.0|50.4|66.3||||||High||66.3|50.4|
92339711|NCT03286218|184581382|SUPERIORITY||Mean Difference (Final Values)|0.0|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92339712|NCT03286218|184581382|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0781|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0781
92339713|NCT03286218|184581382|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0625|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0625
92339714|NCT03286218|184581382|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0098|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0098
92339715|NCT03286218|184581383|OTHER||LS Mean Difference|-29.9|||||TWO_SIDED|90.0|-34.0|-25.9||||||Alertness/drowsiness||-25.9|-34.0|
92339716|NCT03286218|184581383|OTHER||LS Mean Difference|-16.9|||||TWO_SIDED|90.0|-20.9|-12.8||||||Alertness/drowsiness||-12.8|-20.9|
92339717|NCT03286218|184581383|OTHER||LS Mean Difference|-19.6|||||TWO_SIDED|90.0|-23.6|-15.5||||||Alertness/drowsiness||-15.5|-23.6|
92339718|NCT03286218|184581383|OTHER||LS Mean Difference|-24.8|||||TWO_SIDED|90.0|-28.8|-20.8||||||Alertness/drowsiness||-20.8|-28.8|
92339719|NCT03286218|184581383|OTHER||LS Mean Difference|-30.8|||||TWO_SIDED|90.0|-35.0|-26.5||||||Agitation/relaxation||-26.5|-35.0|
92339720|NCT03286218|184581383|OTHER||LS Mean Difference|-19.5|||||TWO_SIDED|90.0|-23.7|-15.3||||||Agitation/relaxation||-15.3|-23.7|
92339721|NCT03286218|184581383|OTHER||LS Mean Difference|-21.7|||||TWO_SIDED|90.0|-25.9|-17.5||||||Agitation/relaxation||-17.5|-25.9|
92339722|NCT03286218|184581383|OTHER||LS Mean Difference|-28.8|||||TWO_SIDED|90.0|-33.0|-24.5||||||Agitation/relaxation||-24.5|-33.0|
92339723|NCT00458003|184581385|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||.38
92155433|NCT01154036|184197289|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-7.7|||<|0.001|TWO_SIDED|95.0|-11.4|-4.1|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.1|-11.4|<0.001
92155434|NCT01154036|184197290|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|1.6||||0.156|TWO_SIDED|95.0|-0.6|3.8|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||3.8|-0.6|0.156
92155435|NCT01154036|184197290|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-0.9||||0.425|TWO_SIDED|95.0|-2.9|1.2|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||1.2|-2.9|0.425
92155436|NCT01154036|184197291|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|0.5||||0.739|TWO_SIDED|95.0|-2.5|3.6|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||3.6|-2.5|0.739
92339724|NCT00458003|184581386|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||.10
92339725|NCT04556760|184581387|OTHER||Mean Difference (Final Values)|-132.9528||||0.036|TWO_SIDED|95.0|-256.5082|-9.3973|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||-9.3973|-256.5082|0.036
92339726|NCT04556760|184581387|OTHER||Mean Difference (Final Values)|-142.033||||0.432|TWO_SIDED|95.0|-554.8722|270.8061|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||270.8061|-554.8722|0.432
92339727|NCT04556760|184581387|OTHER||Mean Difference (Final Values)|-126.8829||||0.03|TWO_SIDED|95.0|-236.0426|-17.7233|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||-17.7233|-236.0426|0.030
92339728|NCT04556760|184581388|OTHER||Mean Difference (Final Values)|-1.5067|||<|0.001|TWO_SIDED|95.0|-2.082|-0.9314|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||-0.9314|-2.0820|<0.001
92339729|NCT04556760|184581388|OTHER||Mean Difference (Final Values)|-1.1099|||<|0.001|TWO_SIDED|95.0|-1.7257|-0.4941|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||-0.4941|-1.7257|<0.001
92339730|NCT04556760|184581388|OTHER||Mean Difference (Final Values)|-0.1601||||0.547||95.0|-0.693|0.3729|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||0.3729|-0.6930|0.547
92339731|NCT04556760|184581389|OTHER||Mean Difference (Final Values)|-1.5015|||<|0.001|TWO_SIDED|95.0|-2.2258|-0.7773|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg \[00 to 24 h\])||-0.7773|-2.2258|<0.001
92339732|NCT04556760|184581389|OTHER||Mean Difference (Final Values)|-1.8643|||<|0.001||95.0|-2.5611|-1.1674|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg \[24 to 48 h\])||-1.1674|-2.5611|<0.001
92339733|NCT04556760|184581389|OTHER||Mean Difference (Final Values)|-1.5998|||<|0.001|TWO_SIDED|95.0|-2.3025|-0.8971|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg \[48 to 72 h\])||-0.8971|-2.3025|<0.001
92339734|NCT04556760|184581389|OTHER||Mean Difference (Final Values)|-0.8474||||0.013|TWO_SIDED|95.0|-1.4465|-0.2484|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg \[00 to 24 h\])||-0.2484|-1.4465|0.013
92339735|NCT04556760|184581389|OTHER||Mean Difference (Final Values)|-0.7778||||0.061|TWO_SIDED|95.0|-1.6022|0.0466|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg \[24 to 48 h\])||0.0466|-1.6022|0.061
92339736|NCT04556760|184581389|OTHER||Mean Difference (Final Values)|-1.143||||0.003|TWO_SIDED|95.0|-1.7622|-0.5238|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg \[48 to 72 h\])||-0.5238|-1.7622|0.003
92339737|NCT04556760|184581389|OTHER||Mean Difference (Final Values)|-0.36||||0.125|TWO_SIDED|95.0|-0.8338|0.1138|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5 mg \[00 to 24 h\])||0.1138|-0.8338|0.125
92339738|NCT04556760|184581389|OTHER||Mean Difference (Final Values)|-0.0845||||0.84|TWO_SIDED|95.0|-0.9706|0.8016|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5 mg \[24 to 48 h\])||0.8016|-0.9706|0.840
92339739|NCT04556760|184581389|OTHER||Mean Difference (Final Values)|-0.1298||||0.571|TWO_SIDED|95.0|-0.646|0.3864|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5 mg \[48 to 72 h\])||0.3864|-0.6460|0.571
92339740|NCT04556760|184581390|OTHER||Mean Difference (Final Values)|-0.07||||0.753|TWO_SIDED|95.0|-0.55|0.4|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||0.40|-0.55|0.753
92339741|NCT04556760|184581390|OTHER||Mean Difference (Final Values)|-0.04||||0.802|TWO_SIDED|95.0|-0.46|0.37|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||0.37|-0.46|0.802
92339742|NCT04556760|184581390|OTHER||Mean Difference (Final Values)|0.0||||0.985|TWO_SIDED|95.0|-0.37|0.37|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||0.37|-0.37|0.985
92339743|NCT04556760|184581391|OTHER||Mean Difference (Final Values)|20498.7|||<|0.001|TWO_SIDED|95.0|10819.2|30178.2|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||30178.2|10819.2|<0.001
92339744|NCT04556760|184581391|OTHER||Mean Difference (Final Values)|3321.4||||0.659|TWO_SIDED|95.0|-12975.8|19618.6|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||19618.6|-12975.8|0.659
92339745|NCT04556760|184581391|OTHER||Mean Difference (Final Values)|-2698.8||||0.521|TWO_SIDED|95.0|-14849.0|9451.3|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||9451.3|-14849.0|0.521
92339746|NCT04556760|184581392|OTHER||Mean Difference (Final Values)|-1002.5864||||0.003|TWO_SIDED|95.0|-1620.215|-384.9577|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||-384.9577|-1620.2150|0.003
92339747|NCT04556760|184581392|OTHER||Mean Difference (Final Values)|40.9836||||0.865|TWO_SIDED|95.0|-526.6968|608.664|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||608.6640|-526.6968|0.865
92339748|NCT04556760|184581392|OTHER||Mean Difference (Final Values)|101.4137||||0.754|TWO_SIDED|95.0|-628.8097|831.637|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||831.6370|-628.8097|0.754
92339749|NCT04556760|184581393|OTHER||Mean Difference (Final Values)|-1225.905||||0.004|TWO_SIDED|95.0|-2007.2241|-444.5859|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||-444.5859|-2007.2241|0.004
92339750|NCT04556760|184581393|OTHER||Mean Difference (Final Values)|-466.9802||||0.313|TWO_SIDED|95.0|-1521.5088|587.5485|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||587.5485|-1521.5088|0.313
92339751|NCT04556760|184581393|OTHER||Mean Difference (Final Values)|-375.3161||||0.404||95.0|-1433.6265|682.9943|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||682.9943|-1433.6265|0.404
92339752|NCT04556760|184581394|OTHER||Mean Difference (Final Values)|365.6323||||0.608|TWO_SIDED|95.0|-1097.7973|1829.0618|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||1829.0618|-1097.7973|0.608
92339753|NCT04556760|184581394|OTHER||Mean Difference (Final Values)|188.236||||0.897|TWO_SIDED|95.0|-3214.3323|3590.8043|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||3590.8043|-3214.3323|0.897
92339754|NCT04556760|184581394|OTHER||Mean Difference (Final Values)|-1061.4494||||0.381||95.0|-3588.2233|1465.3244|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||1465.3244|-3588.2233|0.381
92339755|NCT04556760|184581395|OTHER||Mean Difference (Final Values)|60.4211|||<|0.001||95.0|29.4904|91.3518|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||91.3518|29.4904|<0.001
92339756|NCT04556760|184581395|OTHER||Mean Difference (Final Values)|26.4529||||0.432||95.0|-44.9414|97.8471|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||97.8471|-44.9414|0.432
92339757|NCT04556760|184581395|OTHER||Mean Difference (Final Values)|-24.0243||||0.282||95.0|-74.0731|26.0245|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||26.0245|-74.0731|0.282
92339758|NCT04556760|184581396|OTHER||Mean Difference (Final Values)|-0.6023||||0.531|TWO_SIDED|95.0|-2.5463|1.3416|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||1.3416|-2.5463|0.531
92339759|NCT04556760|184581396|OTHER||Mean Difference (Final Values)|0.4621||||0.682|TWO_SIDED|95.0|-2.0933|3.0176|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||3.0176|-2.0933|0.682
92339760|NCT04556760|184581397|OTHER||Mean Difference (Final Values)|0.0679||||0.526||95.0|-0.152|0.2866|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||0.2866|-0.1520|0.526
92155437|NCT01154036|184197291|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-1.0||||0.41|TWO_SIDED|95.0|-3.3|1.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||1.3|-3.3|0.410
92155438|NCT01154036|184197292|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-10.1|||<|0.001|TWO_SIDED|95.0|-13.6|-6.6|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-6.6|-13.6|<0.001
92155439|NCT01154036|184197292|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-7.6|||<|0.001|TWO_SIDED|95.0|-10.9|-4.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.3|-10.9|<0.001
92155440|NCT01154036|184197293|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-9.3|||<|0.001|TWO_SIDED|95.0|-14.0|-4.5|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.5|-14.0|<0.001
92155441|NCT01154036|184197293|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-9.8||||0.001|TWO_SIDED|95.0|-13.5|-6.2|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-6.2|-13.5|0.001
92155442|NCT01154036|184197294|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-8.1|||<|0.001|TWO_SIDED|95.0|-11.2|-4.9|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.9|-11.2|<0.001
92155443|NCT01154036|184197294|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-4.8||||0.001|TWO_SIDED|95.0|-7.8|-1.9|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-1.9|-7.8|0.001
92155444|NCT01154036|184197295|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.9|||<|0.001|TWO_SIDED|95.0|-11.0|-2.8|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-2.8|-11.0|<0.001
92155445|NCT01154036|184197295|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.4|||<|0.001|TWO_SIDED|95.0|-9.4|-3.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-3.3|-9.4|<0.001
92155446|NCT01154036|184197296|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-13.7|||<|0.001|TWO_SIDED|95.0|-18.1|-9.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-9.3|-18.1|<0.001
92339761|NCT04556760|184581397|OTHER||Mean Difference (Final Values)|0.0882||||0.569||95.0|-0.2653|0.4416|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg||0.4416|-0.2653|0.569
92339762|NCT04556760|184581397|OTHER||Mean Difference (Final Values)|0.1257||||0.166|TWO_SIDED|95.0|-0.0677|0.3191|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||0.3191|-0.0677|0.166
92155447|NCT01154036|184197296|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-7.8|||<|0.001|TWO_SIDED|95.0|-11.9|-3.6|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-3.6|-11.9|<0.001
92155448|NCT01154036|184197297|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-10.4|||<|0.001|TWO_SIDED|95.0|-15.8|-4.9|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.9|-15.8|<0.001
92155449|NCT01154036|184197297|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-8.3|||<|0.001|TWO_SIDED|95.0|-12.5|-4.2|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.2|-12.5|<0.001
92155450|NCT01154036|184197298|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.3|||<|0.001|TWO_SIDED|95.0|-10.0|-2.5|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-2.5|-10.0|<0.001
92155451|NCT01154036|184197298|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-3.5||||0.052|TWO_SIDED|95.0|-7.1|0.0|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||0.0|-7.1|0.052
92155452|NCT01154036|184197299|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-5.8||||0.024|TWO_SIDED|95.0|-10.8|-0.8|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-0.8|-10.8|0.024
92155453|NCT01154036|184197299|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.1||||0.002|TWO_SIDED|95.0|-9.9|-2.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-2.3|-9.9|0.002
92155454|NCT01154036|184197300|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-10.6|||<|0.001|TWO_SIDED|95.0|-14.9|-6.4|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-6.4|-14.9|<0.001
92339763|NCT04556760|184581398|OTHER||Mean Difference (Final Values)|0.01||||0.226|TWO_SIDED|95.0|-0.0072|0.0271|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||0.0271|-0.0072|0.226
92339764|NCT04556760|184581398|OTHER||Mean Difference (Final Values)|0.0033||||0.619||95.0|-0.0128|0.0195|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||0.0195|-0.0128|0.619
92339765|NCT04556760|184581398|OTHER||Mean Difference (Final Values)|0.0009||||0.917||95.0|-0.0189|0.0207|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||0.0207|-0.0189|0.917
92216400|NCT00232141|184332690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.22||0.239||95.0|-0.69|0.17||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.17|-0.69|0.2390
92339766|NCT04556760|184581399|OTHER||Mean Difference (Final Values)|0.0007||||0.357|TWO_SIDED|95.0|-0.0008|0.0022|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||0.0022|-0.0008|0.357
92339767|NCT04556760|184581399|OTHER||Mean Difference (Final Values)|0.0003||||0.676|TWO_SIDED|95.0|-0.0012|0.0017|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||0.0017|-0.0012|0.676
92339768|NCT04556760|184581399|OTHER||Mean Difference (Final Values)|0.0012||||0.096||95.0|-0.0002|0.0026|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||0.0026|-0.0002|0.096
92155455|NCT01154036|184197300|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.2||||0.002|TWO_SIDED|95.0|-10.2|-2.2|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-2.2|-10.2|0.002
92155456|NCT01154036|184197301|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-9.3|||<|0.001|TWO_SIDED|95.0|-14.8|-3.9|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-3.9|-14.8|<0.001
92155457|NCT01154036|184197301|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-8.4|||<|0.001|TWO_SIDED|95.0|-12.6|-4.2|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.2|-12.6|<0.001
92155458|NCT01154036|184197302|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-3.9||||0.613|TWO_SIDED|95.0|-18.9|11.1|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||11.1|-18.9|0.613
92155459|NCT01154036|184197302|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-1.5||||0.831|TWO_SIDED|95.0|-15.7|12.6|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||12.6|-15.7|0.831
92155460|NCT01154036|184197303|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-13.1||||0.187|TWO_SIDED|95.0|-32.6|6.4|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||6.4|-32.6|0.187
92155461|NCT01154036|184197303|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-11.6||||0.153|TWO_SIDED|95.0|-27.7|4.4|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||4.4|-27.7|0.153
92155462|NCT02264574|184197304|SUPERIORITY||Hazard Ratio (HR)|0.231|||<|0.0001|TWO_SIDED|95.0|0.145|0.367|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||0.367|0.145|<0.0001
92155463|NCT02264574|184197305|SUPERIORITY||Hazard Ratio (HR)|0.119|||<|0.0001|TWO_SIDED|95.0|0.046|0.307|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||0.307|0.046|< 0.0001
92155464|NCT02264574|184197306|SUPERIORITY|||||||0.5253|||||||Chi-squared|||To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||||0.5253
92339769|NCT04556760|184581400|OTHER||Mean Difference (Final Values)|-1.73||||0.646|TWO_SIDED|95.0|-9.4|5.95|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||5.95|-9.40|0.646
92155465|NCT02264574|184197307|SUPERIORITY|||||||0.5465|||||||Chi-squared|||To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||||0.5465
92155466|NCT02264574|184197308|SUPERIORITY||Rate Ratio|1.208||||0.0035|TWO_SIDED|95.0|1.062|1.373|||Chi-squared|||To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||1.373|1.062|0.0035
92216401|NCT00232141|184332690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.24||0.9444||95.0|-0.49|0.45||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.45|-0.49|0.9444
92339770|NCT04556760|184581400|OTHER||Mean Difference (Final Values)|-10.97||||0.11||95.0|-25.39|3.44|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||3.44|-25.39|0.110
92339771|NCT04556760|184581400|OTHER||Mean Difference (Final Values)|-0.35||||0.932||95.0|-10.32|9.61|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||9.61|-10.32|0.932
92339772|NCT04556760|184581401|OTHER||Mean Difference (Final Values)|7.6||||0.533|TWO_SIDED|95.0|-17.4|32.7|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||32.7|-17.4|0.533
92339773|NCT04556760|184581401|OTHER||Mean Difference (Final Values)|22.3||||0.311||95.0|-26.7|71.3|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||71.3|-26.7|0.311
92339774|NCT04556760|184581401|OTHER||Mean Difference (Final Values)|31.0||||0.204||95.0|-21.9|83.9|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||83.9|-21.9|0.204
92339775|NCT04556760|184581411|OTHER||Mean Difference (Final Values)|-4.0066||||0.103|TWO_SIDED|95.0|-8.888|0.8748|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||0.8748|-8.8880|0.103
92339776|NCT04556760|184581411|OTHER||Mean Difference (Final Values)|5.7535||||0.005||95.0|2.6034|8.9036|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||8.9036|2.6034|0.005
92339777|NCT04556760|184581411|OTHER||Mean Difference (Final Values)|9.0619||||0.023||95.0|1.674|16.4499|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||16.4499|1.6740|0.023
92216402|NCT00232141|184332690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.27||0.7386||95.0|-0.63|0.45||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.45|-0.63|0.7386
92339778|NCT02513550|184581415|SUPERIORITY||Risk Difference (RD)|7.9|||=|0.005|TWO_SIDED||||||Regression, Logistic|||||||=0.005
92216403|NCT00232141|184332690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.27||0.3493||95.0|-0.79|0.28||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.28|-0.79|0.3493
92339779|NCT02513550|184581415|SUPERIORITY||Risk Difference (RD)|1.9|||=|0.522|TWO_SIDED||||||Regression, Logistic|||||||=0.522
92339780|NCT02513550|184581416|SUPERIORITY||Risk Difference (RD)|6.9|||=|0.006|TWO_SIDED||||||Regression, Logistic|||||||=0.006
92339781|NCT02513550|184581416|SUPERIORITY||Risk Difference (RD)|4.6|||=|0.118|TWO_SIDED||||||Regression, Logistic|||||||=0.118
92274900|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1|||||TWO_SIDED|95.0|-24.11|1.91||||||For change in nausea and vomiting at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||1.91|-24.11|
92339782|NCT02849743|184581434|OTHER||Least Means Square|-0.5||||0.92|TWO_SIDED||||||Regression, Linear|||||||0.92
92339783|NCT02849743|184581435|OTHER||Regression Coefficient|-15784.0||||0.57|TWO_SIDED||||||Regression, Linear|||||||0.57
92339784|NCT02849743|184581436|OTHER||Regression Coefficient|48.0||||0.21|TWO_SIDED||||||Mixed Models Analysis|||||||0.21
92274901|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.13|||||TWO_SIDED|95.0|-24.26|14.0||||||For change in pain at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||14.00|-24.26|
92274902|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.13|||||TWO_SIDED|95.0|-14.18|24.44||||||For change in dyspnea at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||24.44|-14.18|
92339785|NCT02849743|184581437|OTHER||Regression Coefficient|-2.8||||0.55|TWO_SIDED||||||Regression, Linear|||||||0.55
92339786|NCT02849743|184581438|OTHER||Regression Coefficient|1.2||||0.86|TWO_SIDED||||||Regression, Linear|||||||0.86
92339787|NCT02849743|184581439|OTHER||Regression Coefficient|2.4||||0.88|TWO_SIDED||||||Regression, Linear|||||||0.88
92339788|NCT02849743|184581440|OTHER||Regression Coefficient|-0.02||||0.5|TWO_SIDED||||||Regression, Linear|||||||0.50
92339789|NCT02849743|184581441|OTHER||Regression Coefficient|-0.02||||0.49|TWO_SIDED||||||Regression, Linear|||||||0.49
92339790|NCT02849743|184581443|OTHER||Regression Coefficient|-0.7||||0.68|TWO_SIDED||||||Regression, Linear|||||||0.68
92339791|NCT02849743|184581444|OTHER||Regression Coefficient|-0.6||||0.52|TWO_SIDED||||||Regression, Linear|||||||0.52
92339792|NCT02849743|184581445|OTHER||Regression Coefficient|-0.2||||0.91|TWO_SIDED||||||Regression, Linear|||Neuro-QoL - Anxiety||||0.91
92339793|NCT02849743|184581445|OTHER||Regression Coefficient|-0.2||||0.91|TWO_SIDED||||||Regression, Linear|||Neuro-QoL - Depression||||0.91
92339794|NCT02849743|184581445|OTHER||Regression Coefficient|4.7||||0.04|TWO_SIDED||||||Regression, Linear|||Neuro-QoL - Cognition||||0.04
92339795|NCT02849743|184581445|OTHER||Regression Coefficient|2.3||||0.36|TWO_SIDED||||||Regression, Linear|||Neuro-QoL - Social Function||||0.36
92339796|NCT02849743|184581446|OTHER||Regression Coefficient|0.05||||0.64|TWO_SIDED||||||Regression, Linear|||||||0.64
92339797|NCT02849743|184581447|OTHER||Regression Coefficient|0.05||||0.83|TWO_SIDED||||||Regression, Linear|||||||0.83
92339798|NCT03677635|184581450|OTHER||Standardised Effect Size|0.32|||||TWO_SIDED|95.0|0.21|0.86|||Standardised Effect Size|||||.86|.21|
92339799|NCT03677635|184581451|OTHER|Cohen's d was reported.|Mean Difference (Final Values)|-0.05|||||TWO_SIDED|95.0|-0.59|0.48|||Standardised Effect Size|||||.48|-.59|
92339800|NCT02168491|184581452|SUPERIORITY_OR_OTHER||||||<|0.02|||||||paired t test|||||||<0.02
92339801|NCT02168491|184581453|SUPERIORITY_OR_OTHER|||||||0.24|||||||paired t test|||||||0.24
92398810|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.0437|TWO_SIDED|95.0|-0.97|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||-0.01|-0.97|0.0437
92339802|NCT02168491|184581454|SUPERIORITY_OR_OTHER|||||||0.28|||||||paired t test|||||||0.28
92339803|NCT00809445|184581455|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|4.52|||<|0.001|TWO_SIDED|97.5|3.57|5.72||a-prior threshold for statistical significance is .025|Cochran-Mantel-Haenszel||The numerator is the two HIV rapid testing arms The denominator is the HIV testing referral arm|Hypothesis: The HIV rapid testing arms would have a higher rate of HIV testing than the HIV testing referral arm. Thus there is one comparison: HIV rapid test \& counseling+HIV rapid test and info versus HIV testing referral.||5.72|3.57|<0.001
92339804|NCT00809445|184581456|SUPERIORITY_OR_OTHER||incidence rate raios (IRR)|1.04||||0.39|TWO_SIDED|97.5|0.95|1.14||a-priori threshold for statistical significance is .025|generalized estimating equations (GEE)||Numerator includes the two HIV rapid testing groups Denominator is the HIV testing referral group|Hypothesis: The HIV rapid testing arms would have a lower rate of unprotected sexual episodes than the HIV testing referral arm. Thus there is one comparison: HIV rapid test \& counseling+HIV rapid test and info versus HIV testing referral.||1.14|0.95|0.39
92339805|NCT00809445|184581456|SUPERIORITY_OR_OTHER||Incidence rate ratio (IRR)|1.03||||0.81|TWO_SIDED|97.5|0.84|1.26||a-priori threshold for statistical significance is .025|Generalized estimating equations (GEE)||Numerator is the HIV rapid test and counseling arm Denominator is the HIV rapid test and info arm|"The data analysis information presented is for the comparison of the 2 on-site testing groups.~Hypothesis: HIV rapid test and counseling group will have fewer unprotected sexual acts than will HIV rapid test and info group"||1.26|0.84|0.81
92339806|NCT00809445|184581457|SUPERIORITY_OR_OTHER|||||||0.044||||||a priori threshold for significance was .05|Chi-squared|Note that this is a 3 by 3 chi-square: the 3 conditions by discontinued sharing needles /no change in sharing needles/initiated sharing needles||||||0.044
92155467|NCT02264574|184197309|SUPERIORITY||Hazard Ratio (HR)|0.921||||0.8057|TWO_SIDED|95.0|0.479|1.772|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||1.772|0.479|0.8057
92339807|NCT00809445|184581458|SUPERIORITY_OR_OTHER||||||<|0.0001||||||a-priori threshold for statistical significance is .05|Chi-squared|chi-square = 428.2466, Df=2||||||<0.0001
92155468|NCT02264574|184197310|SUPERIORITY|||||||0.0835|||||||Fisher Exact|||"IRR Preferred Term~To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record."||||0.0835
92155469|NCT02264574|184197310|SUPERIORITY|||||||0.1944|||||||Fisher Exact|||"IRR By Customized SMQ~To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record."||||0.1944
92155470|NCT02264574|184197311|SUPERIORITY|||||||0.0045|||||||Chi-squared|||To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||||0.0045
92155471|NCT02264574|184197312|SUPERIORITY|||||||0.859|||||||Chi-squared|||To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||||0.8590
92155472|NCT02264574|184197313|SUPERIORITY||Hazard Ratio (HR)|0.169|||<|0.0001|TWO_SIDED|95.0|0.102|0.282|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|||0.282|0.102|< 0.0001
92155473|NCT02264574|184197314|SUPERIORITY|||||||0.9657|||||||Chi-squared|||||||0.9657
92155474|NCT02264574|184197315|SUPERIORITY|||||||0.1612|||||||Chi-squared|||||||0.1612
92155475|NCT02264574|184197316|SUPERIORITY||Rate Ratio|1.125||||0.0273|TWO_SIDED|95.0|1.013|1.25|||Chi-squared|||||1.250|1.013|0.0273
92155476|NCT02264574|184197317|SUPERIORITY||Hazard Ratio (HR)|1.083||||0.7934|TWO_SIDED|95.0|0.595|1.973|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|||1.973|0.595|0.7934
92155477|NCT02264574|184197318|SUPERIORITY|||||||0.005|||||||Chi-squared|||||||0.0050
92274903|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.33|||||TWO_SIDED|95.0|-26.25|13.59||||||For change in insomnia at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||13.59|-26.25|
92339808|NCT02221648|184581542|SUPERIORITY_OR_OTHER|||||||0.447|||||||Fisher Exact|||||||0.4470
92339809|NCT02221648|184581543|SUPERIORITY_OR_OTHER|||||||0.0293|||||||Fisher Exact|||||||0.0293
92339810|NCT02221648|184581544|SUPERIORITY_OR_OTHER|||||||0.0448|||||||Fisher Exact|||||||0.0448
92339811|NCT00810069|184581560|SUPERIORITY_OR_OTHER|||||||0.213|TWO_SIDED|95.0||||P-value is for early intervention strategy versus delayed intervention strategy.|Kaplan-Meier Analysis|Kaplan-Meier analysis with Wilcoxon test to compare strategies.||Kaplan-Meier Estimates (weeks): analysis of early intervention versus delayed intervention strategies||||0.213
92339812|NCT00810069|184581561|SUPERIORITY_OR_OTHER||survival rate difference|0.02||||0.653|TWO_SIDED|95.0|-0.06|0.1||P-value is for comparison of early intervention versus delayed intervention as a function of survival rate over a 12 week period (Week 4 through Week 16).|Kaplan Meier analysis|P-value for comparison of rates is based on normal approximation using Greenwood's estimation for standard error.||Survival function estimated over a 12 week period (Week 4 through Week 16): analysis of early intervention versus delayed intervention strategies||0.10|-0.06|0.653
92339813|NCT00810069|184581562|SUPERIORITY_OR_OTHER|||||||0.947||95.0||||P-value is for early intervention strategy versus delayed intervention strategy.|Kaplan Meier analysis|Kaplan-Meier analysis with Wilcoxon test to compare strategies.||Analysis of early intervention strategy versus delayed intervention strategy||||0.947
92339814|NCT00810069|184581563|SUPERIORITY_OR_OTHER|||||||0.597||95.0||||P-value is for early intervention versus delayed intervention strategies.|Kaplan-Meier analysis|Kaplan-Meier analysis with Wilcoxon test to compare strategies||Analysis of early intervention strategy versus delayed intervention strategy||||0.597
92339815|NCT00810069|184581564|SUPERIORITY_OR_OTHER||LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.624|TWO_SIDED|95.0|-0.22|0.13||P-value for Week 6: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 6||0.13|-0.22|0.624
92216404|NCT00232141|184332690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.3||0.6596||95.0|-0.46|0.73||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.73|-0.46|0.6596
92216405|NCT00232141|184332690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.27||0.4075||95.0|-0.31|0.77||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.77|-0.31|0.4075
92216406|NCT00232141|184332691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.23||0.0202||95.0|-1.01|-0.09||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||-0.09|-1.01|0.0202
92216407|NCT00232141|184332691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.26||0.8865||95.0|-0.55|0.47||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.47|-0.55|0.8865
92339816|NCT00810069|184581564|SUPERIORITY_OR_OTHER||LS Mean|-0.11|STANDARD_ERROR_OF_MEAN|0.09||0.208|TWO_SIDED|95.0|-0.29|0.06||P-value for Week 8: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed Models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 8||0.06|-0.29|0.208
92216408|NCT00232141|184332691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.27||0.9964||95.0|-0.54|0.54||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.54|-0.54|0.9964
92339817|NCT00810069|184581564|SUPERIORITY_OR_OTHER||LS Mean|-0.19|STANDARD_ERROR_OF_MEAN|0.09||0.044|TWO_SIDED|95.0|-0.37|0.0||P-value for Week 10: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 10||-0.00|-0.37|0.044
92339818|NCT00810069|184581564|SUPERIORITY_OR_OTHER||LS Mean|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.086|TWO_SIDED|95.0|-0.35|0.02||P-value for Week 12: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interactions, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 12||0.02|-0.35|0.086
92398811|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.35||0.0211|TWO_SIDED|95.0|-1.51|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||-0.12|-1.51|0.0211
92398812|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.35||0.0017|TWO_SIDED|95.0|-1.82|-0.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||-0.42|-1.82|0.0017
92216409|NCT00232141|184332691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.5993||95.0|-0.7|0.41||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.41|-0.70|0.5993
92216410|NCT00232141|184332691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.31||0.3553||95.0|-0.33|0.9||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.90|-0.33|0.3553
92216411|NCT00232141|184332691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.29||0.2771||95.0|-0.25|0.88||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.88|-0.25|0.2771
92274904|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.03|||||TWO_SIDED|95.0|-15.26|33.32||||||For change in appetite loss at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||33.32|-15.26|
92339819|NCT00810069|184581564|SUPERIORITY_OR_OTHER||LS Mean|-0.13|STANDARD_ERROR_OF_MEAN|0.1||0.181|TWO_SIDED|95.0|-0.33|0.06||P-value for Week 14: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 14||0.06|-0.33|0.181
92339820|NCT00810069|184581564|SUPERIORITY_OR_OTHER||LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.994|TWO_SIDED|95.0|-0.2|0.2||P-value for Week 16: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 16||0.20|-0.20|0.994
92339821|NCT00810069|184581565|SUPERIORITY_OR_OTHER||LS Mean|-0.62|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|95.0|-0.98|-0.25||P-value for Week 6: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 6||-0.25|-0.98|0.001
92339822|NCT00810069|184581565|SUPERIORITY_OR_OTHER||LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.01|TWO_SIDED|95.0|-0.87|-0.12||P-value for Week 8: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 8||-0.12|-0.87|0.010
92339823|NCT00810069|184581565|SUPERIORITY_OR_OTHER||LS Mean|-0.15|STANDARD_ERROR_OF_MEAN|0.2||0.445|TWO_SIDED|95.0|-0.55|0.24||P-value for Week 10: analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 10||0.24|-0.55|0.445
92216412|NCT00232141|184332692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.26||0.2352||95.0|-0.82|0.2||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.20|-0.82|0.2352
92216413|NCT00232141|184332692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.26||0.7607||95.0|-0.6|0.44||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.44|-0.60|0.7607
92216414|NCT00232141|184332692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.27||0.6563||95.0|-0.64|0.4||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.40|-0.64|0.6563
92216415|NCT00232141|184332692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.27||0.8319||95.0|-0.58|0.47||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.47|-0.58|0.8319
92339824|NCT00810069|184581565|SUPERIORITY_OR_OTHER||LS Mean|-0.29|STANDARD_ERROR_OF_MEAN|0.21||0.169|TWO_SIDED|95.0|-0.71|0.12||P-value for Week 12: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 12||0.12|-0.71|0.169
92339825|NCT00810069|184581565|SUPERIORITY_OR_OTHER||LS Mean|-0.19|STANDARD_ERROR_OF_MEAN|0.23||0.393|TWO_SIDED|95.0|-0.63|0.25||P-value for Week 14: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 14||0.25|-0.63|0.393
92339826|NCT00810069|184581565|SUPERIORITY_OR_OTHER||LS Mean|-0.15|STANDARD_ERROR_OF_MEAN|0.23||0.51|TWO_SIDED|95.0|-0.61|0.3||P-value for Week 16: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline scores and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 16||0.30|-0.61|0.510
92339827|NCT00810069|184581566|SUPERIORITY_OR_OTHER||LS Mean|0.14|STANDARD_ERROR_OF_MEAN|0.17||0.401|TWO_SIDED|95.0|-0.19|0.47||P-value for Week 8: Analysis of early intervention versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 8||0.47|-0.19|0.401
92216416|NCT00232141|184332692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3086||95.0|-0.28|0.89||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.89|-0.28|0.3086
92216417|NCT00232141|184332692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.28||0.7972||95.0|-0.48|0.62||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.62|-0.48|0.7972
92216418|NCT00232141|184332693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.28||0.1863||95.0|-0.94|0.18||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.18|-0.94|0.1863
92216419|NCT00232141|184332693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|-0.31||0.5953||95.0|-0.77|0.44||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.44|-0.77|0.5953
92216420|NCT00232141|184332693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.28||0.508||95.0|-0.73|0.36||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.36|-0.73|0.5080
92339828|NCT00810069|184581566|SUPERIORITY_OR_OTHER||LS Mean|0.09|STANDARD_ERROR_OF_MEAN|0.19||0.618|TWO_SIDED|95.0|-0.27|0.46||P-value for Week 12: Analysis of early intervention versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 12||0.46|-0.27|0.618
92216421|NCT00232141|184332693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.5842||95.0|-0.7|0.39||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.39|-0.70|0.5842
92216422|NCT00232141|184332693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.3||0.4286||95.0|-0.35|0.83||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.83|-0.35|0.4286
92216423|NCT00232141|184332693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.28||0.5766||95.0|-0.4|0.71||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.71|-0.40|0.5766
92216424|NCT00232141|184332694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.28||0.5493||95.0|-0.73|0.39||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.39|-0.73|0.5493
92339829|NCT00810069|184581566|SUPERIORITY_OR_OTHER||LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.2||0.856|TWO_SIDED|95.0|-0.43|0.36||P-value for Week 16: Analysis of early intervention versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 16||0.36|-0.43|0.856
92216425|NCT00232141|184332694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9875||95.0|-0.58|0.59||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.59|-0.58|0.9875
92216426|NCT00232141|184332694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.29||0.6931||95.0|-0.68|0.45||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.45|-0.68|0.6931
92274905|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|||||TWO_SIDED|95.0|-25.71|26.82||||||For change in constipation at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||26.82|-25.71|
92274906|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97|||||TWO_SIDED|95.0|-24.07|28.01||||||For change in diarrhea at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||28.01|-24.07|
92274907|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.48|||||TWO_SIDED|95.0|-5.89|24.86||||||For change in financial difficulties at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||24.86|-5.89|
92274908|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.01|||||TWO_SIDED|95.0|-43.19|3.17||||||For change in global QoL at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||3.17|-43.19|
92339830|NCT00810069|184581567|SUPERIORITY_OR_OTHER||LS Mean|-0.05|STANDARD_ERROR_OF_MEAN|0.02||0.021|TWO_SIDED|95.0|-0.1|-0.01||P-value for Week 8: Analysis of early versus delayed intervention LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 8||-0.01|-0.10|0.021
92339831|NCT00810069|184581567|SUPERIORITY_OR_OTHER||LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.02||0.071|TWO_SIDED|95.0|-0.09|0.0||P-value for Week 12: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 12||0.00|-0.09|0.071
92339832|NCT00810069|184581567|SUPERIORITY_OR_OTHER||LS Mean|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.792|TWO_SIDED|95.0|-0.05|0.06||P-value for Week 16: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 16||0.06|-0.05|0.792
92339833|NCT00810069|184581568|SUPERIORITY_OR_OTHER||LS Mean|-0.37|STANDARD_ERROR_OF_MEAN|0.7||0.597|TWO_SIDED|95.0|-1.74|1.0||P-value for Week 8: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 8||1.00|-1.74|0.597
92339834|NCT00810069|184581568|SUPERIORITY_OR_OTHER||LS Mean|-0.68|STANDARD_ERROR_OF_MEAN|0.74||0.36|TWO_SIDED|95.0|-2.13|0.78||P-value for Week 12: Analysis for early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 12||0.78|-2.13|0.360
92339835|NCT00810069|184581568|SUPERIORITY_OR_OTHER||LS Mean|0.06|STANDARD_ERROR_OF_MEAN|0.81||0.937|TWO_SIDED|95.0|-1.52|1.65||P-value for Week 16: Analysis for early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 16||1.65|-1.52|0.937
92339836|NCT00810069|184581569|SUPERIORITY_OR_OTHER|||||||0.075||95.0||||P-value is for early intervention strategy versus delayed intervention strategy.|Kaplan-Meier analysis|Kaplan-Meier analysis with Wilcoxon test to compare strategies||Kaplan-Meier estimates (weeks): analysis of early intervention versus delayed intervention strategies||||0.075
92398813|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.0598|TWO_SIDED|95.0|-1.37|0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||0.03|-1.37|0.0598
92274909|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.57|||||TWO_SIDED|95.0|-27.24|10.1||||||For change in physical functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||10.10|-27.24|
92339837|NCT00810069|184581570|SUPERIORITY_OR_OTHER||Survival rate difference|-0.07||||0.116|TWO_SIDED|95.0|-0.16|0.02||P-value is for comparison of early intervention versus delayed intervention as a function of survival rate over a 12 week period (Week 4 through Week 16).|Kaplan-Meier analysis|P-value for comparison of rates is based on normal approximation using Greenwood's estimation for standard error.||Survival function estimated over a 12 week period (Week 4 through Week 16): analysis of early intervention versus delayed intervention strategies||0.02|-0.16|0.116
92339838|NCT01922258|184581587|SUPERIORITY||Treatment Difference|-2.34|||=|0.1454|TWO_SIDED|95.0|-5.49|0.82|||Mixed-effect model repeated measure|||||0.82|-5.49|=0.1454
92339839|NCT03113968|184581589|NON_INFERIORITY|The Farrington-Manning score test was used to assess the noninferiority of KET.|||||<|0.001|||||||The Farrington-Manning score test|||||||<.001
92339840|NCT03113968|184581590|SUPERIORITY||Mean Difference (Net)|9.3|||||TWO_SIDED||||||||||P-values not reported|||
92339841|NCT02782741|184581592|NON_INFERIORITY|NI was demonstrated if the lower bound of the 2-sided 95% confidence interval (CI) for the difference of avalglucosidase alfa minus alglucosidase alfa was greater than (\>) -1.1.|LS mean difference|2.43|STANDARD_ERROR_OF_MEAN|1.29||0.0074|TWO_SIDED|95.0|-0.13|4.99|||mixed model for repeated measures|||Analysis performed using MMRM model with baseline FVC (% predicted, as continuous), sex, age (in years at baseline), treatment group, visit, interaction term between treatment group and visit as fixed effects.||4.99|-0.13|0.0074
92398814|NCT03192176|184689418|SUPERIORITY||LSMean differencce|-0.5|STANDARD_ERROR_OF_MEAN|0.36||0.1573|TWO_SIDED|95.0|-1.21|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||0.20|-1.21|0.1573
92398815|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.36||0.7257|TWO_SIDED|95.0|-0.83|0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||0.58|-0.83|0.7257
92398816|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.35||0.9324|TWO_SIDED|95.0|-0.72|0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||0.66|-0.72|0.9324
92274910|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.07|||||TWO_SIDED|95.0|-41.1|8.96||||||For change in role functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||8.96|-41.10|
92216427|NCT00232141|184332694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.4614||95.0|-0.34|0.75||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.75|-0.34|0.4614
92339842|NCT02782741|184581592|SUPERIORITY|A test for superiority of avalglucosidase alfa versus alglucosidase alfa was performed with an overall 5% level of significance.||||||0.0626||||||Threshold for significance at \<0.05 level.|mixed model for repeated measures|||Analysis performed using MMRM model with baseline FVC (% predicted, as continuous), sex, age (in years at baseline), treatment group, visit, interaction term between treatment group and visit as fixed effects.||||0.0626
92339843|NCT02782741|184581593|SUPERIORITY|Per the protocol-defined statistical test strategy for multiplicity adjustment, and since superiority was narrowly missed for FVC % predicted, superiority testing for the secondary outcome measure couldn't be performed.|LS mean difference|30.01|STANDARD_ERROR_OF_MEAN|14.43||0.0405|TWO_SIDED|95.0|1.33|58.69|||mixed model for repeated measures|||LS mean difference was derived from MMRM model with baseline FVC (% predicted) and baseline 6MWT (distance walked in meter), age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||58.69|1.33|0.0405
92339844|NCT02782741|184581594|OTHER|Per the protocol-defined statistical test strategy for multiplicity adjustment, and since superiority was narrowly missed for FVC % predicted, superiority testing for the secondary outcome measure couldn't be performed.|LS mean difference|3.13|STANDARD_ERROR_OF_MEAN|5.24||0.5522|TWO_SIDED|95.0|-7.31|13.57|||mixed model for repeated measures|||LS mean difference was derived from MMRM model for MIP % predicted adjusted for MIP % predicted at baseline, age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||13.57|-7.31|0.5522
92339845|NCT02782741|184581595|OTHER|Per the protocol-defined statistical test strategy for multiplicity adjustment, and since superiority was narrowly missed for FVC % predicted, superiority testing for the secondary outcome measure couldn't be performed.|LS mean difference|-1.94|STANDARD_ERROR_OF_MEAN|5.64||0.7321|TWO_SIDED|95.0|-13.17|9.29|||mixed model for repeated measures|||LS mean difference was derived from MMRM model for MEP % predicted adjusted for MEP % predicted at baseline, age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||9.29|-13.17|0.7321
92339846|NCT02782741|184581596|OTHER|Per the protocol-defined statistical test strategy for multiplicity adjustment, and since superiority was narrowly missed for FVC % predicted, superiority testing for the secondary outcome measure couldn't be performed.|LS mean difference|106.97|STANDARD_ERROR_OF_MEAN|67.17||0.115|TWO_SIDED|95.0|-26.56|240.5|||mixed model for repeated measures|||LS mean difference was derived from MMRM model for HHD lower extremity muscle strength composite score adjusted for summary HHD lower extremity score at baseline, baseline FVC (% predicted), age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||240.50|-26.56|0.1150
92339847|NCT02782741|184581597|OTHER|No formal testing of additional secondary endpoint of QMFT.|LS mean difference|2.08|STANDARD_ERROR_OF_MEAN|0.94||0.0288|TWO_SIDED|95.0|0.22|3.95||Nominal p-value.|mixed model for repeated measures|||LS mean difference was derived from MMRM models adjust for total QMFT score at baseline, baseline FVC (% predicted), age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||3.95|0.22|0.0288
92339848|NCT02782741|184581598|OTHER|No formal testing of additional secondary endpoint of SF-12.|Score difference|0.77|STANDARD_ERROR_OF_MEAN|1.46||0.5996|TWO_SIDED|95.0|-2.13|3.67|||mixed model for repeated measures|||The MMRM models adjust for baseline score (PCS), baseline FVC (% predicted), age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||3.67|-2.13|0.5996
92398817|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.35||0.2172|TWO_SIDED|95.0|-1.14|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||0.26|-1.14|0.2172
92339849|NCT02782741|184581598|OTHER|No formal testing of additional secondary endpoint of SF-12.|Score difference|2.12|STANDARD_ERROR_OF_MEAN|1.8||0.2427|TWO_SIDED|95.0|-1.46|5.69|||mixed model for repeated measures|||The MMRM models adjust for baseline score (MCS), baseline FVC (% predicted), age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||5.69|-1.46|0.2427
92339850|NCT05116202|184581602|SUPERIORITY||Difference in pRR|2.73|||||TWO_SIDED|95.0|-22.25|27.7||||||||27.70|-22.25|
92339851|NCT05116202|184581602|SUPERIORITY||Difference in pRR|-32.27|||||TWO_SIDED|95.0|-65.01|0.46||||||||0.46|-65.01|
92339852|NCT05116202|184581602|SUPERIORITY||Difference in pRR|-17.27|||||TWO_SIDED|95.0|-49.75|15.21||||||||15.21|-49.75|
92398818|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.23||0.0742|TWO_SIDED|95.0|-0.88|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||0.04|-0.88|0.0742
92398819|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.0035|TWO_SIDED|95.0|-1.16|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Score||-0.23|-1.16|0.0035
92339853|NCT05116202|184581604|SUPERIORITY||Difference in pRR|-6.82|||||TWO_SIDED|95.0|-31.31|17.68||||||||17.68|-31.31|
92339854|NCT05116202|184581604|SUPERIORITY||Difference in pRR|-31.82|||||TWO_SIDED|95.0|-63.79|0.16||||||||0.16|-63.79|
92339855|NCT05116202|184581604|SUPERIORITY||Difference in pRR|-21.82|||||TWO_SIDED|95.0|-53.44|9.8||||||||9.80|-53.44|
92339856|NCT05116202|184581605|SUPERIORITY||Hazard Ratio (HR)|2.09|||||TWO_SIDED|95.0|0.42|10.42||||||||10.42|0.42|
92216428|NCT00232141|184332694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.31||0.1467||95.0|-0.16|1.06||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||1.06|-0.16|0.1467
92216429|NCT00232141|184332694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.29||0.2819||95.0|-0.25|0.87||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.87|-0.25|0.2819
92216430|NCT00232141|184332695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.26||0.8727||95.0|-0.55|0.46||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.46|-0.55|0.8727
92216431|NCT00232141|184332695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.28||0.6897||95.0|-0.65|0.43||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.43|-0.65|0.6897
92216432|NCT00232141|184332695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.26||0.7527||95.0|-0.6|0.44||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.44|-0.60|0.7527
92216433|NCT00232141|184332695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.28||0.6394||95.0|-0.67|0.41||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.41|-0.67|0.6394
92216434|NCT00232141|184332695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.31||0.1188||95.0|-0.13|1.11||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||1.11|-0.13|0.1188
92216435|NCT00232141|184332695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.28||0.2685||95.0|-0.24|0.87||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.87|-0.24|0.2685
92216436|NCT00232141|184332696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.28||0.4991||95.0|-0.74|0.36||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.36|-0.74|0.4991
92216437|NCT00232141|184332696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.3||0.6094||95.0|-0.73|0.43||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.43|-0.73|0.6094
92216438|NCT00232141|184332696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.26||0.3669||95.0|-0.76|0.28||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.28|-0.76|0.3669
92216439|NCT00232141|184332696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.26||0.7641||95.0|-0.43|0.59||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.59|-0.43|0.7641
92216440|NCT00232141|184332696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.27||0.9428||95.0|-0.51|0.55||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.55|-0.51|0.9428
92216441|NCT00232141|184332696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.26||0.9508||95.0|-0.52|0.49||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.49|-0.52|0.9508
92216442|NCT00232141|184332697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.25||0.0073||95.0|-1.18|-0.19||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||-0.19|-1.18|0.0073
92216443|NCT00232141|184332697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.3||0.2202||95.0|-0.96|0.22||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.22|-0.96|0.2202
92216444|NCT00232141|184332697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.29||0.1824||95.0|-0.95|0.18||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.18|-0.95|0.1824
92216445|NCT00232141|184332697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.3||0.1872||95.0|-0.98|0.19||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.19|-0.98|0.1872
92216446|NCT00232141|184332697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.32||0.4374||95.0|-0.38|0.88||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.88|-0.38|0.4374
92216447|NCT00232141|184332697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.3||0.4406||95.0|-0.36|0.82||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.82|-0.36|0.4406
92216448|NCT00232141|184332698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.27||0.2277||95.0|-0.86|0.21||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.21|-0.86|0.2277
92216449|NCT00232141|184332698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.33||0.8407||95.0|-0.71|0.58||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.58|-0.71|0.8407
92216450|NCT00232141|184332698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.29||0.8809||95.0|-0.62|0.53||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.53|-0.62|0.8809
92216451|NCT00232141|184332698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.29||0.6288||95.0|-0.72|0.43||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.43|-0.72|0.6288
92216452|NCT00232141|184332698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.3||0.9739||95.0|-0.59|0.61||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.61|-0.59|0.9739
92216453|NCT00232141|184332698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.29||0.8926||95.0|-0.61|0.53||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.53|-0.61|0.8926
92216454|NCT00232141|184332701|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7136||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||||||0.7136
92216455|NCT00232141|184332702|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6729||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||||||0.6729
92339857|NCT05116202|184581605|SUPERIORITY||Hazard Ratio (HR)|3.95|||||TWO_SIDED|95.0|0.79|19.7||||||||19.70|0.79|
92339858|NCT05116202|184581605|SUPERIORITY||Hazard Ratio (HR)|6.27|||||TWO_SIDED|95.0|0.73|53.7||||||||53.70|0.73|
92339859|NCT05116202|184581606|SUPERIORITY||Hazard Ratio (HR)|1.41|||||TWO_SIDED|95.0|0.25|7.75||||||||7.75|0.25|
92274911|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.11|||||TWO_SIDED|95.0|-42.72|-5.5||||||For change in emotional functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||-5.50|-42.72|
92339860|NCT05116202|184581606|SUPERIORITY||Hazard Ratio (HR)|2.09|||||TWO_SIDED|95.0|0.35|12.62||||||||12.62|0.35|
92339861|NCT05116202|184581606|SUPERIORITY||Hazard Ratio (HR)|2.39|||||TWO_SIDED|95.0|0.22|26.32||||||||26.32|0.22|
92339862|NCT05116202|184581607|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.05|12.39||||||||12.39|0.05|
92339863|NCT05116202|184581607|SUPERIORITY||Hazard Ratio (HR)|2.59|||||TWO_SIDED|95.0|0.23|28.65||||||||28.65|0.23|
92339864|NCT05116202|184581607|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.07|18.58||||||||18.58|0.07|
92339865|NCT05116202|184581608|SUPERIORITY||Difference in ORR|-21.59|||||TWO_SIDED|95.0|-50.55|7.37||||||||7.37|-50.55|
92339866|NCT05116202|184581608|SUPERIORITY||Difference in ORR|-24.09|||||TWO_SIDED|95.0|-58.17|9.99||||||||9.99|-58.17|
92339867|NCT05116202|184581608|SUPERIORITY||Difference in ORR|0.91|||||TWO_SIDED|95.0|-33.58|35.4||||||||35.40|-33.58|
92339868|NCT02686164|184581632|OTHER||Geometric Mean Ratio|0.914|||||TWO_SIDED|90.0|0.85|0.983||||||AUC(0-24) of Midazolam: Cycle 1 Day 1, Lenvatinib (single-dose) + Midazolam Versus (vs.) Cycle 1 Day -3, Midazolam||0.983|0.850|
92339869|NCT02686164|184581632|OTHER||Geometric Mean Ratio|1.148|||||TWO_SIDED|90.0|0.938|1.404||||||AUC(0-24) of Midazolam: Cycle 1 Day 14, Lenvatinib (steady state) + Midazolam vs. Cycle 1 Day -3, Midazolam||1.404|0.938|
92216456|NCT00782288|184332706|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Measures were compared between Baseline, Treatment \& Recovery periods to determine if changes from baseline differed between placebo and the two digitoxin dose levels. Kruskal-Wallis equity of population rank test was performed on the changes Day 28 minus Day 1. To compare the change from baseline to treatment period between the two arms, a Wilcoxon rank sum test was performed. To determine whether induced sputum Il-8 returned to baseline at the final visit, a one sample sign test was performed.||||>0.05
92216457|NCT00782288|184332712|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline,Treatment and Recovery periods were compared to determine if changes from baseline differed between placebo and the two digitoxin doses.||||>0.05
92216458|NCT00601250|184332719|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.78|-0.5|||ANCOVA|||Linagliptin vs. Placebo||-0.5|-0.78|<0.0001
92216459|NCT00601250|184332720|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.431|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.53|-0.333|||ANCOVA|||Linagliptin vs. Placebo||-0.333|-0.530|<0.0001
92216460|NCT00601250|184332721|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.596|STANDARD_ERROR_OF_MEAN|0.064|<|0.0001||95.0|-0.721|-0.471|||ANCOVA|||Linagliptin vs. Placebo||-0.471|-0.721|<0.0001
92216461|NCT00601250|184332722|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.648|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001||95.0|-0.785|-0.512|||ANCOVA|||Linagliptin vs. Placebo||-0.512|-0.785|<0.0001
92339870|NCT02686164|184581632|OTHER||Geometric Mean Ratio|1.12|||||TWO_SIDED|90.0|0.94|1.335||||||AUC(0-24) of 1'-hydroxy midazolam: Cycle 1 Day 1, Lenvatinib (single-dose) + Midazolam vs. Cycle 1 Day -3, Midazolam||1.335|0.940|
92339871|NCT02686164|184581632|OTHER||Geometric Mean Ratio|1.199|||||TWO_SIDED|90.0|1.057|1.36||||||AUC(0-24) of 1'-hydroxy midazolam: Cycle 1 Day 14, Lenvatinib (steady-state) + Midazolam vs.Cycle 1 Day -3, Midazolam||1.360|1.057|
92339872|NCT02686164|184581633|OTHER||Geometric Mean Ratio|0.862|||||TWO_SIDED|90.0|0.753|0.988||||||Cmax of Midazolam: Cycle 1 Day 1, Lenvatinib (single-dose) + Midazolam vs. Cycle 1 Day -3, Midazolam||0.988|0.753|
92339873|NCT02686164|184581633|OTHER||Geometric Mean Ratio|1.027|||||TWO_SIDED|90.0|0.852|1.238||||||Cmax of Midazolam: Cycle 1 Day 14, Lenvatinib (steady state) + Midazolam vs. Cycle 1 Day -3, Midazolam||1.238|0.852|
92339874|NCT02686164|184581633|OTHER||Geometric Mean Ratio|1.055|||||TWO_SIDED|90.0|0.879|1.268||||||Cmax of 1'-hydroxy midazolam: Cycle 1 Day 1, Lenvatinib (single-dose) + Midazolam vs. Cycle 1 Day -3, Midazolam||1.268|0.879|
92339875|NCT02686164|184581633|OTHER||Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.845|1.046||||||Cmax of 1'-hydroxy midazolam: Cycle 1 Day 14, Lenvatinib (steady state) + Midazolam vs. Cycle 1 Day -3, Midazolam||1.046|0.845|
92216462|NCT00601250|184332723|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-21.13|STANDARD_ERROR_OF_MEAN|3.14|<|0.0001||95.0|-27.3|-14.96|||ANCOVA|||Linagliptin vs. Placebo||-14.96|-27.3|<0.0001
92216463|NCT00601250|184332724|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.52|STANDARD_ERROR_OF_MEAN|2.67|<|0.0001||95.0|-21.76|-11.29|||ANCOVA|||Linagliptin vs. Placebo||-11.29|-21.76|<0.0001
92216464|NCT00601250|184332725|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.73|STANDARD_ERROR_OF_MEAN|2.91|<|0.0001||95.0|-22.44|-11.01|||ANCOVA|||Linagliptin vs. Placebo||-11.01|-22.44|<0.0001
92216465|NCT00601250|184332726|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.83|STANDARD_ERROR_OF_MEAN|3.05|<|0.0001||95.0|-26.81|-14.84|||ANCOVA|||Linagliptin vs. Placebo||-14.84|-26.81|<0.0001
92274912|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.52|||||TWO_SIDED|95.0|-29.66|10.61||||||For change in cognitive functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||10.61|-29.66|
92216466|NCT00601250|184332727|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.395|||<|0.0001||95.0|2.41|8.013|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||8.013|2.410|<0.0001
92274913|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.24|||||TWO_SIDED|95.0|-47.93|7.46||||||For change in social functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||7.46|-47.93|
92339876|NCT01481558|184581649|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|0.01||0.55|TWO_SIDED|95.0|||||ANCOVA|||||||0.55
92339877|NCT03718429|184581668|SUPERIORITY|In line with recommendations for pilot investigations, since there were no preliminary data exploring the pharmacodynamic effects of vascular dose rivaroxaban in addition to antiplatelet therapy, we arbitrarily chose a sample size of 20 patients per treatment cohort.||||||0.275|||||||Wilcoxon (Mann-Whitney)|||||||0.275
92339878|NCT03718429|184581669|SUPERIORITY|||||||0.488|||||||Wilcoxon (Mann-Whitney)|||||||0.488
92339879|NCT03718429|184581670|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92339880|NCT01386606|184581685|SUPERIORITY_OR_OTHER|||||||0.056|TWO_SIDED|||||P-value of treatment group.|Regression, Linear|||"Regression of 24 Hours Average Total Testosterone, Treatment Group and Morning Testosterone at Week 6.~Modeling 24 hour average total testosterone by morning testosterone and treatment group."||||0.056
92339881|NCT01386606|184581685|SUPERIORITY_OR_OTHER||Regression Coefficient|-45.77||||0.436|TWO_SIDED|95.0|-143.5|51.98||P-value for Androxal 25 mg treatment group.|Regression, Linear|||"Regression of 24 Hours Average Total Testosterone, Treatment Group and Morning Testosterone at Week 6.~Modeling 24 hour average total testosterone by morning testosterone and treatment group."||51.98|-143.5|0.436
92339882|NCT01386606|184581685|SUPERIORITY_OR_OTHER||Regression Coefficient|-110.9||||0.068|TWO_SIDED|95.0|-210.6|-11.23||P-value for Androxal 12.5 mg group.|Regression, Linear|||"Regression of 24 Hours Average Total Testosterone, Treatment Group and Morning Testosterone at Week 6.~Modeling 24 hour average total testosterone by morning testosterone and treatment group."||-11.23|-210.6|0.068
92339883|NCT01386606|184581685|SUPERIORITY_OR_OTHER||Regression Coefficient|-148.5||||0.011|TWO_SIDED|95.0|-242.9|-54.05||P-value for Androxal 6.25 mg group.|Regression, Linear|||"Regression of 24 Hours Average Total Testosterone, Treatment Group and Morning Testosterone at Week 6.~Modeling 24 hour average total testosterone by morning testosterone and treatment group."||-54.05|-242.9|0.011
92339884|NCT01386606|184581685|SUPERIORITY_OR_OTHER||Regression Coefficient|0.58|||<|0.001|TWO_SIDED|95.0|0.37|0.79||P-value for morning total testosterone (adjusted for treatment effect if treatment group is significant).|Regression, Linear|||"Regression of 24 Hours Average Total Testosterone, Treatment Group and Morning Testosterone at Week 6.~Modeling 24 hour average total testosterone by morning testosterone and treatment group."||0.79|0.37|<0.001
92339885|NCT01386606|184581686|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning LH at Week 2. Modeling change from baseline by treatment group.||||<0.001
92339886|NCT01386606|184581686|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning LH at Week 4. Modeling change from baseline by treatment group.||||<0.001
92339887|NCT01386606|184581686|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning LH at Week 6. Modeling change from baseline by treatment group.||||<0.001
92398820|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.0266|TWO_SIDED|95.0|-0.99|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||-0.06|-0.99|0.0266
92216467|NCT00601250|184332729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.456||||0.0016||95.0|1.907|15.614|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||15.614|1.907|0.0016
92216468|NCT00601250|184332731|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.754|||<|0.0001||95.0|2.486|5.669|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||5.669|2.486|<0.0001
92216469|NCT00601250|184332732|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-67.13|STANDARD_ERROR_OF_MEAN|13.88|<|0.0001|TWO_SIDED|95.0|-94.69|-39.58|||ANCOVA|||Linagliptin vs. Placebo||-39.58|-94.69|<0.0001
92216470|NCT00601250|184332733|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-41.8|STANDARD_ERROR_OF_MEAN|10.02|<|0.0001|TWO_SIDED|95.0|-61.71|-21.89|||ANCOVA|||Linagliptin vs. Placebo||-21.89|-61.71|<0.0001
92216471|NCT05564299|184332736|OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test||||0.053
92216472|NCT00525044|184332771|OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.028||0.0156|TWO_SIDED|95.0|-0.12|-0.01|||ANOVA||Treatment differences (Ambroxol- Placebo)|"Differences between the treatment groups with regard to the primary endpoint SPIDnorm was tested using an analysis of variance (ANOVA) including treatment and centre as fix effects.~Treatment differences were estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||-0.01|-0.12|0.0156
92216473|NCT00525044|184332772|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.128|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo)|"Analysis at 30 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0|-0.4|0.1280
92216474|NCT00525044|184332772|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0417|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo)|"Analysis at 60 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0.0|-0.4|0.0417
92216475|NCT00525044|184332772|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0054|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA||Treatment differences (Ambroxol- Placebo|"Analysis at 120 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||-0.1|-0.6|0.0054
92216476|NCT00525044|184332772|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0201|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo|"Analysis at 180 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0.0|-0.6|0.0201
92216477|NCT00525044|184332773|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.128|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo)|"Analysis at 30 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0.0|-0.4|0.1280
92339888|NCT01386606|184581687|SUPERIORITY_OR_OTHER||Pearson Correlation|0.90993|||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Pearson correlation between 9 am morning testosterone and serial testosterone Cavg at Week 6.||||<0.0001
92339889|NCT01386606|184581687|SUPERIORITY_OR_OTHER||Pearson Correlation|0.86541|||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Pearson correlation between 9 am morning testosterone and serial testosterone Cmin at Week 6.||||<0.0001
92339890|NCT01386606|184581687|SUPERIORITY_OR_OTHER||Pearson Correlation|0.89643|||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Pearson correlation between 9 am morning testosterone and serial testosterone Cmax at Week 6.||||<0.0001
92339891|NCT01386606|184581689|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning FSH at Week 2. Modeling change from baseline by treatment group.||||<0.001
92398821|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.24||0.0124|TWO_SIDED|95.0|-1.06|-0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||-0.13|-1.06|0.0124
92339892|NCT01386606|184581689|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning FSH at Week 4. Modeling change from baseline by treatment group.||||<0.001
92339893|NCT01386606|184581689|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning FSH at Week 6. Modeling change from baseline by treatment group.||||<0.001
92339894|NCT00593814|184581700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92339895|NCT02026141|184581738|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||||||<0.05
92339896|NCT00917124|184581766|SUPERIORITY_OR_OTHER|||||||0.002|||||||Chi-squared, Corrected|||"Hypothesis: intraoperative monitoring of cerebral oxigenation with INVOS system will improve cognitive outcome of patients undergoing CABG procedure.~Sample size was determined assuming 50% incidence of cognitive impairment after cardiac surgery and possibility of decreasing that incidence to 30% using cerebral oximetry. Based on 0.8 power to detect a significant difference (p=0.05), 90 patients were required for each study group."||||0.002
92339897|NCT02185417|184581773|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.45|TWO_SIDED|95.0|0.94|1.16|||Log Rank|||Primary analyses were performed with the use of unadjusted log-rank tests that were stratified according to VA health care system.||1.16|0.94|0.45
92398822|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.4367|TWO_SIDED|95.0|-0.65|0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||0.28|-0.65|0.4367
92155478|NCT02264574|184197319|SUPERIORITY||Hazard Ratio (HR)|0.251|||<|0.0001|TWO_SIDED|95.0|0.162|0.389|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|||0.389|0.162|< 0.0001
92339898|NCT03843372|184581799|SUPERIORITY||||||<|0.001|||||||Wilcoxon rank sum test|||The AHI was not a normal distribution. In the event that no carry over effect was detected between interventions, a Wilcoxon rank sum test was to be used to compare AHI between CPAP and HFNC||||<0.001
92339899|NCT03843372|184581800|SUPERIORITY||||||<|0.001|||||||Wilcoxon rank sum test|||The oxygen desaturation index was not a normal distribution. In the event that no carry over effect was detected between interventions, a Wilcoxon rank sum test was to be used to compare oxygen desaturation index between CPAP and HFNC||||<0.001
92339900|NCT03843372|184581801|SUPERIORITY||||||<|0.001|||||||Wilcoxon rank sum test|||The total sleep time was not a normal distribution. In the event that no carry over effect was detected between interventions, a Wilcoxon rank sum test was to be used to compare total sleep time between CPAP and HFNC||||<0.001
92339901|NCT03843372|184581802|SUPERIORITY|||||||0.008|||||||Wilcoxon rank sum test|||The sleep efficiency was not a normal distribution. In the event that no carry over effect was detected between interventions, a Wilcoxon rank sum test was to be used to compare sleep efficiency between CPAP and HFNC||||0.008
92339902|NCT00243919|184581807|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.831||||0.481|TWO_SIDED|95.0|0.497|1.391||The trial tested the superiority of LTP delivered early or late, compared to HEP, using a two-sided significance level of 0.05. The study-wide error rate was controlled by applying the Hochberg step-up procedure to the two primary comparisons.|Regression, Logistic|||Logistic regression was used to compare the proportion of participants who improved functional level of walking between Early-LTP and HEP adjusting for pre-specified covariates (severity of impairment, clinical site, age, stroke type, side of hemiparesis and depression). Assuming that 30% of HEP participants would improve functional level of walking, we derived a sample size of 400 to detect a clinically relevant 20% effect size with 85% power, adjusting for an loss-to-follow-up rate of 15%.||1.391|0.497|0.481
92339903|NCT00243919|184581807|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.192||||0.501|TWO_SIDED|95.0|0.715|1.985|||Regression, Logistic|||Logistic regression was used to compare the proportion of participants who improved functional level of walking between Late-LTP and HEP adjusting for pre-specified covariates (severity of impairment, clinical site, age, stroke type, side of hemiparesis and depression).||1.985|0.715|0.501
92339904|NCT00243919|184581808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.242||95.0||||We did not formally conduct statistical inference on the timing effect because the first primary null hypotheses is accepted. The p-value provided is the smallest alpha level that one would claim significant difference between early- and late-LTP.|Regression, Linear||Even though there was no formal inference of timing effect, we still provided descriptive statistics for the 6-month and 12-month changes. In addition, paired t-tests were used to compare within-group improvements.|The second primary analysis assessed the timing effect and its interaction with initial severity of gait impairment on walking speed change from baseline to 1 year after stroke.||||0.242
92339905|NCT00243919|184581809|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.94||||0.01|TWO_SIDED|95.0|1.18|3.21|||Regression, Logistic|Pairwise comparisons were conducted: Early-LTP versus Late-LTP, which had received only usual care in the 2- to 6-month post-stroke period.||Logistic regression was used to compare the proportion of participants who improved functional level of walking between early-LTP and Late-LTP (Usual Care) adjusting for pre-specified covariates (severity of impairment, clinical site, age, stroke type, side of hemiparesis and depression).||3.21|1.18|0.010
92398823|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.9318|TWO_SIDED|95.0|-0.48|0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||0.44|-0.48|0.9318
92398824|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.0714|TWO_SIDED|95.0|-0.89|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||0.04|-0.89|0.0714
92339906|NCT00243919|184581809|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04||||0.007|TWO_SIDED|95.0|1.22|3.42|||Regression, Logistic|Pairwise comparisons were conducted: HEP versus Late-LTP, which had received only usual care in the 2- to 6-month post-stroke period.||Logistic regression was used to compare the proportion of participants who improved functional level of walking between HEP and Late-LTP (Usual Care) adjusting for pre-specified covariates (severity of impairment, clinical site, age, stroke type, side of hemiparesis and depression).||3.42|1.22|0.007
92339907|NCT00243919|184581810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||<|0.0001|TWO_SIDED|95.0|0.08|0.16||Bonferroni adjustment for multiple testing was used in the pair-wise comparisons of the secondary outcomes. A difference is claimed to be statistically significant when p\<0.0014.|t-test, 2 sided|||6 month secondary analysis. Following the overall ANOVA test, pairwise comparison was conducted to assess differences in walking speed changes between early-LTP and late-LTP.||0.16|0.08|<0.0001
92339908|NCT00243919|184581810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||<|0.0001|TWO_SIDED|95.0|0.05|0.14||Bonferroni adjustment for multiple testing was used in the pair-wise comparisons of the secondary outcomes. A difference is claimed to be statistically significant when p\<0.0014.|t-test, 2 sided|||6 month secondary analysis. Following the overall ANOVA test, pairwise comparison was conducted to assess differences in walking speed changes between HEP and late-LTP.||0.14|0.05|<.0001
92339909|NCT00243919|184581811|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||Test differences across the three groups in change of 6 minute walking distance from baseline to 12-month post stroke.|ANOVA|||Primary 12 month analysis. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.45
92339910|NCT00243919|184581811|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Test differences across the three groups in change of 6 minute walking distance from baseline to 6-month post stroke.||6 month secondary analysis. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||<0.001
92339911|NCT00243919|184581812|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Kruskal-Wallis|Test differences across the three groups in change of number of steps from baseline to 12-month post stroke.||12 month primary outcome. The Kruskal-Wallis procedure was used to assess differences across the three groups in number of steps taken in the community. Wilcoxon signed rank tests were used to compare within-group improvements.||||0.10
92339912|NCT00243919|184581812|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Kruskal-Wallis|Test differences across the three groups in change of number of steps from baseline to 6-month post stroke.||6 month secondary analysis. The Kruskal-Wallis procedure was used to assess differences across the three groups in number of steps taken in the community. Wilcoxon signed rank tests were used to compare within-group improvements.||||0.04
92339913|NCT00243919|184581813|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||ANOVA|Test differences across the three groups in change of SIS Participation from baseline to 12-month post stroke.||12 month primary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.48
92339914|NCT00243919|184581813|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANOVA|Test differences across the three groups in change of SIS Participation from baseline to 6-month post stroke.||6 month secondary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.06
92339915|NCT00243919|184581814|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||ANOVA|Test differences across the three groups in change of SIS ADL/iADL from baseline to 12-month post stroke.||12 month primary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.07
92339916|NCT00243919|184581814|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|Test differences across the three groups in change of SIS ADL/iADL from baseline to 6-month post stroke.||6 month secondary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.03
92398825|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.42||0.2027|TWO_SIDED|95.0|-1.35|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||0.29|-1.35|0.2027
92398826|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.41||0.0013|TWO_SIDED|95.0|-2.16|-0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||-0.53|-2.16|0.0013
92155479|NCT02080520|184197320|SUPERIORITY|||||||0.31|||||||Mixed Models Analysis|||||||0.31
92155480|NCT02080520|184197321|SUPERIORITY|||||||0.52|||||||Mixed Models Analysis|||||||0.52
92155481|NCT02080520|184197322|SUPERIORITY|||||||0.32|||||||Mixed Models Analysis|||||||0.32
92155482|NCT00390455|184197324|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The null hypothesis then is that the hazard ratio of the two treatment arms is 1.0; the alternative hypothesis is that the hazard ratio of the control to the experimental regimen is 1.5 (0.67). The test of these hypotheses is one-sided (alpha = 0.025), and interim analyses will be used to stop for futility and superiority. Under these assumptions, there is at least 90% power to detect the stated difference in median PFS between the two treatment arms.|Hazard Ratio (HR)|1.04||||0.37|TWO_SIDED|95.0|0.82|1.33||Tests were stratified by prior tamoxifen therapy (yes/no) and bone disease only (yes/no).|Log Rank|||||1.33|0.82|0.37
92155483|NCT04102540|184197359|OTHER|In this analysis, our null hypothesis was that the median CD4 count at baseline/exposure 1 was exactly equivalent to the median CD4 count following exposure 2 to the intervention.|Median Difference (Net)|57.39||||0.283|TWO_SIDED|95.0|-48.9|163.7||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median CD4 count between baseline/exposure 1 and exposure 2.|Statistical analysis of CD4 count between baseline/exposure 1 and exposure 2 to the intervention.||163.7|-48.9|0.283
92216478|NCT00525044|184332773|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0417|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo|"Analysis at 60 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0.0|-0.4|0.0417
92216479|NCT00525044|184332773|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0054|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA||Treatment differences (Ambroxol- Placebo|"Analysis at 120 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||-0.1|-0.6|0.0054
92216480|NCT00525044|184332773|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0201|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo|"Analysis at 180 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0.0|-0.6|0.0201
92216481|NCT00525044|184332774|OTHER|||||||0.9939|||||||Mantel Haenszel|||"Analysis at day 1:~P-value was calculated by the Cochran-Mantel-Haenszel test adjusting for center."||||0.9939
92216482|NCT00525044|184332774|OTHER|||||||0.5552|||||||Mantel Haenszel|||"Analysis at day 2:~P-value was calculated by the Cochran-Mantel-Haenszel test adjusting for center."||||0.5552
92216483|NCT00525044|184332775|OTHER|||||||0.0343|||||||Mantel Haenszel|||"Analysis at day 1:~P-value was calculated by the Cochran-Mantel-Haenszel test adjusting for center."||||0.0343
92216484|NCT00525044|184332775|OTHER|||||||0.0119|||||||Mantel Haenszel|||"Analysis at day 2:~P-value was calculated by the Cochran-Mantel-Haenszel test adjusting for center."||||0.0119
92216485|NCT01817907|184332797|SUPERIORITY_OR_OTHER|||||||0.52|||||||t-test, 2 sided|||||||0.52
92216486|NCT01086410|184332802|SUPERIORITY_OR_OTHER||Ratio of least square gometric mean|0.99|||||TWO_SIDED|95.0|0.87|1.12|||||Analysis was performed using Analysis of Covariance (ANCOVA) with covariates of region, sex, age, treatment, and the log of the Baseline values.|||1.12|0.87|
92216487|NCT01086410|184332802|SUPERIORITY_OR_OTHER||Ratio of least square gometric mean|0.97|||||TWO_SIDED|95.0|0.86|1.1|||||Analysis was performed using ANCOVA with covariates of region, sex, age, treatment, and the log of the Baseline values.|||1.10|0.86|
92216488|NCT01086410|184332802|SUPERIORITY_OR_OTHER||Ratio of least square gometric mean|0.34|||||TWO_SIDED|95.0|0.28|0.41|||||Analysis performed using ANCOVA with covariates of region, sex, age, treatment, and the log of the Baseline values.|||0.41|0.28|
92216489|NCT03523728|184332844|SUPERIORITY||Relative difference|21.32|||=|0.1367|TWO_SIDED|95.0|-5.77|58.22|||linear mixed effect model|||||58.22|-5.77|=0.1367
92216490|NCT03523728|184332844|SUPERIORITY||Relative difference|0.34|||=|0.9812|TWO_SIDED|95.0|-24.57|33.36|||linear mixed effect model|||||33.36|-24.57|=0.9812
92216491|NCT03523728|184332845|SUPERIORITY||Relative difference|101.32|||=|0.0005|TWO_SIDED|95.0|35.63|233.72|||linear mixed effect model|||||233.72|35.63|=0.0005
92216492|NCT03523728|184332845|SUPERIORITY||Relative difference|104.17|||=|0.0002|TWO_SIDED|95.0|39.54|236.45|||linear mixed effect model|||||236.45|39.54|=0.0002
92216493|NCT03523728|184332846|SUPERIORITY||Relative difference|51.01|||=|0.0197|TWO_SIDED|95.0|7.01|125.45|||linear mixed effect model|||||125.45|7.01|=0.0197
92216494|NCT03523728|184332846|SUPERIORITY||Relative difference|46.36|||=|0.0337|TWO_SIDED|95.0|3.21|119.01|||linear mixed effect model|||||119.01|3.21|=0.0337
92216495|NCT03523728|184332848|SUPERIORITY||Least square mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.23|=|0.6374|TWO_SIDED|95.0|-0.342|0.556|||Mixed effect model with repeated measure|||||0.556|-0.342|=0.6374
92216496|NCT03523728|184332848|SUPERIORITY||Least square mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.22|=|0.256|TWO_SIDED|95.0|-0.689|0.185|||Mixed effect model with repeated measure|||||0.185|-0.689|=0.2560
92216497|NCT03523728|184332849|SUPERIORITY||Least square mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.42|=|0.79|TWO_SIDED|95.0|-0.971|0.747|||Mixed effect model with repeated measure|||||0.747|-0.971|=0.7900
92216498|NCT03523728|184332849|SUPERIORITY||Least square mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.32|=|0.6322|TWO_SIDED|95.0|-0.808|0.5|||Mixed effect model with repeated measure|||||0.500|-0.808|=0.6322
92216499|NCT03523728|184332850|SUPERIORITY||Least square mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.34|=|0.6245|TWO_SIDED|95.0|-0.506|0.839|||Mixed effect model with repeated measure|||||0.839|-0.506|=0.6245
92216500|NCT03523728|184332850|SUPERIORITY||Least square mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.33|=|0.2567|TWO_SIDED|95.0|-1.044|0.281|||Mixed effect model with repeated measure|||||0.281|-1.044|=0.2567
92398827|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-2.53|-0.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||-0.87|-2.53|<0.0001
92216501|NCT03523728|184332851|SUPERIORITY||Least square mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.68|=|0.2023|TWO_SIDED|95.0|-2.232|0.485|||Mixed effect model with repeated measure|||||0.485|-2.232|=0.2023
92216502|NCT03523728|184332851|SUPERIORITY||Least square mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.53|=|0.3205|TWO_SIDED|95.0|-1.61|0.537|||Mixed effect model with repeated measure|||||0.537|-1.610|=0.3205
92216503|NCT00621751|184332864|OTHER||Median Difference (Final Values)|36.7||||0.6|TWO_SIDED|||||CBZ (up to 800 mg daily) vs placebo significantly improves behavior (Rasch NPI irritability \& aggression rated by observer) baseline to day-42 among individuals \>6 months post-traumatic brain injury and moderate-severe irritability.|ANCOVA|||The primary outcome was a composite measure of observer-rated NPI-I \& NPI-A domains transformed to a Rasch logit scale ranging 0 (best) to 100 (worse) units (i.e., observer-rated NPI-I/A Rasch construct scores). Mean day-42 observer-rated NPI-I/A Rasch construct scores were compared between the placebo vs. carbamazepine groups using ANCOVA with baseline score as covariate.||||0.60
92274914|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|3.23|46.77||||||For change in fatigue at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||46.77|3.23|
92216504|NCT00621751|184332865|OTHER|A prespecified secondary analysis compared proportions of participants that experienced a decrease of \> 1 MCID in the NPI-I/A Rasch construct score (i.e., participants that are considered to have meaningful reduction in irritability/aggression) from baseline to day-42 between the groups using a chi-square test. MCID was defined as 0.5 times the standard deviation of baseline scores.|||||<|0.05|||||||ANCOVA|||||||< .05
92216505|NCT03383289|184332892|SUPERIORITY||Beta estimate of the percent who fell|0.118|STANDARD_ERROR_OF_MEAN|0.145||0.417|TWO_SIDED||||||Mixed Models Analysis|MIANALYZE was used to model missing data. Models were adjusted for the design effects of clustering.||||||0.4170
92216506|NCT03383289|184332894|OTHER|paired t test|Mean Difference (Final Values)|-1.353|STANDARD_ERROR_OF_MEAN|0.181|<|0.001|TWO_SIDED|95.0|-1.708|-0.998|||paired t test|||Analysis of adjusted mean differences using a paired t test procedure||-0.998|-1.708|<0.001
92216507|NCT03383289|184332895|SUPERIORITY||Beta|0.6364|STANDARD_ERROR_OF_MEAN|0.233||0.0064|TWO_SIDED|95.0|0.1797|1.0931|||Poisson regression|||||1.0931|0.1797|0.0064
92216508|NCT03383289|184332895|SUPERIORITY||Estimated log mean|-4.0168||||0.001|TWO_SIDED|95.0|-5.5827|-2.4509|||Poisson regression|||||-2.4509|-5.5827|0.001
92339917|NCT00243919|184581815|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||ANOVA|Test differences across the three groups in change of SIS Mobility from baseline to 12-month post stroke.||12 month primary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.69
92339918|NCT00243919|184581815|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Test differences across the three groups in change of SIS Mobility from baseline to 6-month post stroke.||6 month secondary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||<.0001
92339919|NCT00243919|184581816|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||ANOVA|Test differences across the three groups in change of FM-LE from baseline to 12-month post stroke.||12 month primary analysis. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.13
92339920|NCT00243919|184581816|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|Test differences across the three groups in change of FM-LE from baseline to 6-month post stroke.||6 month secondary analysis. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.04
92339921|NCT00243919|184581817|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANOVA|Test differences across the three groups in change of Berg Balance Score from baseline to 12-month post stroke.||12 month primary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.06
92216509|NCT03383289|184332896|OTHER|adjusted mean differences from paired t tests|Mean Difference (Final Values)|-0.456|STANDARD_ERROR_OF_MEAN|0.162||0.005|TWO_SIDED|95.0|-0.774|-0.138|||paired t test|||||-0.138|-0.774|0.005
92216510|NCT05097716|184332897|EQUIVALENCE|90% CI|ratio of adjusted geometric means|103.01|||||TWO_SIDED|90.0|96.66|109.77|||||The comparison was Test vs. Reference (Ritlecitinib + Tolbutamide vs. Tolbutamide).|||109.77|96.66|
92216511|NCT05097716|184332898|EQUIVALENCE|90% CI|ratio of adjusted geometric means|99.05|||||TWO_SIDED|90.0|92.01|106.62|||||The comparison was Test vs. Reference (Ritlecitinib + Tolbutamide vs. Tolbutamide).|||106.62|92.01|
92216512|NCT01011439|184332900|SUPERIORITY||Single proportion|0.44|||<|0.001|TWO_SIDED|95.0|0.31|0.59|||Fisher Exact|||H0:p\</=17% vs. H1:p\>17%, with an interesting PFS-3 rate of 33% or higher; Power=80%; Alpha(1-sided)=5%, 54 evaluable patients are required for a Simon optimal two stage design trial. If at least 4 successes among the first 17 evaluable patients are observed in the 1st stage, patients' enrollment proceed up to the final analysis where at least 14/54 successes (PFS-3 rate ≥ 25.9%) must be required to reject the null hypothesis.||0.59|0.31|<0.001
92339922|NCT00243919|184581817|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|Test differences across the three groups in change of Berg Balance Score from baseline to 6-month post stroke.||6 month secondary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.001
92339923|NCT00243919|184581818|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANOVA|Test differences across the three groups in change of ABC score from baseline to 12-month post stroke.||12 month primary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.62
92216513|NCT00239226|184332926|SUPERIORITY_OR_OTHER||Slope|3.93||||0.047|||||||Log Rank|||||||0.047
92216514|NCT01892306|184332944|SUPERIORITY_OR_OTHER|||||||0.02|||||||Mixed Models Analysis|||Scores on the HAM-A were analyzed using a mixed-effects linear regression analysis over 6 timepoints.||||.02
92216515|NCT01892306|184332945|SUPERIORITY_OR_OTHER|||||||0.02|||||||Mixed Models Analysis|||Scores on the HAM-D were analyzed using a mixed-effects linear regression analysis over 6 timepoints.||||0.02
92216516|NCT01892306|184332946|SUPERIORITY_OR_OTHER|||||||0.24|||||||Mixed Models Analysis|||Scores on the CSQ were analyzed using a mixed-effects linear regression analysis over 6 timepoints.||||0.24
92216517|NCT01892306|184332947|OTHER|||||||0.62|||||||Regression, Linear|||Linear regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline DERS scores.||||.62
92216518|NCT01892306|184332947|OTHER|||||||0.03|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline DERS scores||||.03
92216519|NCT01892306|184332948|OTHER|||||||0.95|||||||Regression, Linear|||Linear regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline ACS scores.||||0.95
92216520|NCT01892306|184332948|OTHER|||||||0.03|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline ACS scores.||||0.03
92339924|NCT00243919|184581818|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Test differences across the three groups in change of ABC score from baseline to 6-month post stroke.||6 month secondary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||<0.001
92398828|NCT03192176|184689418|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-2.83|-1.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||-1.16|-2.83|<0.0001
92216521|NCT01892306|184332949|OTHER|||||||0.87|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline ASI scores||||0.87
92339925|NCT02157519|184581819|SUPERIORITY||Odds Ratio (OR)|0.56||||0.186|TWO_SIDED|95.0|0.23|1.33||threshold p \<0.05|Regression, Logistic|Adjusted for baseline MMAS-4 scores (dichotomous) and change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the number of participants who self-reported adherence problems (i.e., dichotomous MMAS-4 scores) at post-assessment between groups adjusting for baseline self-reported adherence (i.e., dichotomous MMAS-4 scores) and change in perceived social support (MSPSS) from baseline to post-assessment.||1.33|0.23|0.186
92339926|NCT02157519|184581820|SUPERIORITY||Mean Difference (Final Values)|-2.34|STANDARD_ERROR_OF_MEAN|4.06||0.57|TWO_SIDED|95.0|-10.35|5.68||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the percentage of medication taken (as recorded by MEMS) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||5.68|-10.35|0.57
92155484|NCT04102540|184197359|OTHER|In this analysis, our null hypothesis was that the median CD4 count at baseline/exposure 1 was exactly equivalent to the median CD4 count following the exposure 3 to the intervention.|Median Difference (Net)|60.83||||0.1823|TWO_SIDED|95.0|-29.5|151.2||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile regression|Random intercepts for subjects were included in the model.|This is the difference in median CD4 count between baseline/exposure 1 and exposure 3.|Statistical analysis of CD4 count between baseline/exposure 1 and exposure 3 to the intervention.||151.2|-29.5|0.1823
92339927|NCT02157519|184581821|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.21||0.603|TWO_SIDED|95.0|-0.31|0.53||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in symptom severity (MDASI-severity) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.53|-0.31|0.603
92155485|NCT04102540|184197360|OTHER|In this analysis, our null hypothesis was that the median viral load at baseline/exposure 1 was exactly equivalent to the median viral load following exposure 2 to the intervention.|Median Difference (Net)|-42.0||||0.7795|TWO_SIDED|95.0|-339.8|255.8||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression||This is the difference in median viral load between baseline/exposure 1 and exposure 2.|Statistical analysis of viral load between baseline/exposure 1 and exposure 2 to the intervention.||255.8|-339.8|0.7795
92155486|NCT04102540|184197360|OTHER|In this analysis, our null hypothesis was that the median viral load at baseline/exposure 1 was exactly equivalent to the median viral load following exposure 3 to the intervention.|Median Difference (Net)|-63.0||||0.5971|TWO_SIDED|95.0|-296.1|170.1||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|||Statistical analysis of viral load between baseline/exposure 1 and exposure 3 to the intervention.|This is the difference in median viral load between baseline/exposure 1 and exposure 3.|170.1|-296.1|0.5971
92155487|NCT04102540|184197361|OTHER|In this analysis, our null hypothesis was that the median HIV-related knowledge score at baseline/exposure 1 was exactly equivalent to the median HIV-related knowledge score following exposure 2 to the intervention.|Median Difference (Net)|2.12|||<|0.0001|TWO_SIDED|95.0|1.2|3.0||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median HIV-Related knowledge scores between baseline/exposure 1 and exposure 2.|Statistical analysis of HIV-related knowledge scores between baseline/exposure 1 and exposure 2 to the intervention.||3.0|1.2|<.0001
92155488|NCT04102540|184197361|OTHER|In this analysis, our null hypothesis was that the median HIV-related knowledge score at baseline/exposure 1 was exactly equivalent to the median HIV-related knowledge score following exposure 3 to the intervention.|Median Difference (Net)|2.0|||<|0.0001|TWO_SIDED|95.0|1.2|2.8||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median HIV-related knowledge score between baseline/exposure 1 and exposure 3.|Statistical analysis of HIV-related knowledge scores between baseline/exposure 1 and exposure 3 to the intervention.||2.8|1.2|<.0001
92155489|NCT04102540|184197363|OTHER|In this analysis, our null hypothesis was that the median self-efficacy to manage HIV scale score at baseline/exposure 1 was exactly equivalent to the median self-efficacy to manage HIV scale score following exposure 2 to the intervention.|Median Difference (Net)|0.01||||0.9879|TWO_SIDED|95.0|-0.7|0.7||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median self-efficacy to manage HIV scale scores between baseline/exposure 1 and exposure 2.|Statistical analysis of self-efficacy to manage HIV scale score between baseline/exposure 1 and exposure 2 to the intervention.||0.7|-0.7|0.9879
92155490|NCT04102540|184197363|OTHER|In this analysis, our null hypothesis was that the median self-efficacy to manage HIV scale score at baseline/exposure 1 was exactly equivalent to the median self-efficacy to manage HIV scale score following exposure 3 to the intervention.|Median Difference (Net)|0.57||||0.155|TWO_SIDED|95.0|-0.2|1.4||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median self-efficacy to manage HIV scale scores between baseline/exposure 1 and exposure 3.|Statistical analysis of self-efficacy to manage HIV scale score between baseline/exposure 1 and exposure 3 to the intervention.||1.4|-0.2|0.1550
92168531|NCT04878354|184226848|SUPERIORITY||Median Difference (Final Values)|0.87|||<|0.0001|TWO_SIDED|95.0|0.44|1.29|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||1.29|0.44|<0.0001
92216522|NCT01892306|184332949|OTHER|||||||0.37|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline ASI scores||||0.37
92339928|NCT02157519|184581821|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.33||0.982|TWO_SIDED|95.0|-0.64|0.65||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in symptom interference (MDASI-interference) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post assessment.||0.65|-0.64|0.982
92216523|NCT01892306|184332950|OTHER|||||||0.17|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline NEO- Neuroticism scores.||||0.17
92216524|NCT01892306|184332950|OTHER|||||||0.04|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline NEO-Neuroticism scores||||.04
92216525|NCT01892306|184332951|OTHER|||||||0.007|||||||Regression, Linear|||Fisher's z-transformed values for functional connectivity between anterior insula and ventrolateral prefrontal cortex were entered in separate treatment group-specific linear regression models as the independent variable with change in primary outcomes (HAM-D) as dependent variable.||||0.007
92216526|NCT01892306|184332951|OTHER|||||||0.14|||||||Regression, Linear|||Fisher's z-transformed values for functional connectivity between anterior insula and ventrolateral prefrontal cortex were entered in separate treatment group-specific linear regression models as the independent variable with change in primary outcomes (HAM-D) as dependent variable.||||.14
92339929|NCT02157519|184581822|SUPERIORITY||Mean Difference (Final Values)|-2.42|STANDARD_ERROR_OF_MEAN|1.65||0.144|TWO_SIDED|95.0|-5.66|0.83||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in overall QOL (FACT-G) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.83|-5.66|0.144
92398829|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.42||0.3791|TWO_SIDED|95.0|-1.19|0.45||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||0.45|-1.19|0.3791
92216527|NCT05417607|184332990|SUPERIORITY||Mean Difference (Net)|3.75|STANDARD_DEVIATION|5.86||0.0047|TWO_SIDED|95.0|1.27|6.22|||t-test, 2 sided|||Within group pre- and post-intervention.||6.22|1.27|0.0047
92216528|NCT05417607|184332991|SUPERIORITY||Mean Difference (Net)|2.21|STANDARD_DEVIATION|7.9||0.2383|TWO_SIDED|95.0|-1.6|6.02|||t-test, 2 sided|||Within group pre- and post-intervention.||6.02|-1.6|0.2383
92216529|NCT05417607|184332992|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_DEVIATION|3.58||0.3426|TWO_SIDED|95.0|-2.22|0.8|||t-test, 2 sided|||Within group pre- and post-intervention.||0.80|-2.22|0.3426
92216530|NCT01750931|184332995|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Percent ratio|102.45||||0.4396|TWO_SIDED|95.0|99.4|105.59|||ANOVA|||||105.59|99.40|0.4396
92216531|NCT01750931|184332997|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Percent ratio|105.02||||0.9712|TWO_SIDED|95.0|99.69|110.63|||ANOVA||Comparison of AUC0-t between group GSK-meloxicam 15 mg and Mobic-meloxicam 15 mg|||110.63|99.69|0.9712
92216532|NCT01750931|184332997|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Percent ratio|102.31||||0.9951|TWO_SIDED|95.0|99.05|105.69|||ANOVA||Comparison of AUC0-infinity between group GSK-meloxicam 15 mg and Mobic-meloxicam 15 mg|||105.69|99.05|0.9951
92398830|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.42||0.0211|TWO_SIDED|95.0|-1.78|-0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||-0.15|-1.78|0.0211
92216533|NCT01829425|184333003|NON_INFERIORITY|The study design will use a non-inferiority design to compare the primary outcome (change in UUI episodes in the hypnotherapy versus pharmacotherapy groups). With respect to the outcome variable of percent reduction in UUI episodes as determined by bladder diaries, we will use a one-sided non- inferiority test at level alpha = 0.25 and a non-inferiority margin of 5%.|Difference in median % change between gr|5.0|||<|0.025|ONE_SIDED|95.0|5.0||||Exact Mann Whitney|Due dispersion, medians were calculated. Exact Mann Whitney test was used for this analysis.|Hypnotherapy - Pharmacotherapy. % difference in median % change in UUI episodes with lower bounds \> - 5% would be consistent with non-inferiority||||5|<.025
92216534|NCT01829425|184333004|NON_INFERIORITY|The study design will use a non-inferiority design to compare the primary outcome (change in UUI episodes in the hypnotherapy versus pharmacotherapy groups). With respect to the outcome variable of percent reduction in UUI episodes as determined by bladder diaries, we will use a one-sided non- inferiority test at level alpha = 0.25 and a non-inferiority margin of 5%. If|Difference in median % change between gr|5.0|||<|0.025|ONE_SIDED|95.0|5.0||||Exact Mann Whitney||||||5|<.025
92216535|NCT01006265|184333135|SUPERIORITY||Treatment effect (rate ratio)|0.226|||<|0.0001|TWO_SIDED|95.0|0.133|0.384|||Negative binomial regression model|||||0.384|0.133|<0.0001
92216536|NCT01006265|184333135|SUPERIORITY||Treatment effect (rate ratio)|0.17|||<|0.0001|TWO_SIDED|95.0|0.1|0.289|||Negative binomial regression model|||||0.289|0.100|<0.0001
92216537|NCT01006265|184333135|SUPERIORITY||Treatment effect (rate ratio)|0.566||||0.0318|TWO_SIDED|95.0|0.337|0.952|||Negative binomial regression model|||||0.952|0.337|0.0318
92398831|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.42||0.0021|TWO_SIDED|95.0|-2.1|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||-0.47|-2.10|0.0021
92216538|NCT01390272|184333139|NON_INFERIORITY_OR_EQUIVALENCE||Mean Difference (Net)|-2.1||||0.26|TWO_SIDED|95.0|-5.9|1.6|||Mixed Models Analysis|Constrained longitudinal model adjusting for baseline stratification variables of diabetes status and blood pressure control.||||1.6|-5.9|0.26
92216539|NCT01390272|184333140|NON_INFERIORITY_OR_EQUIVALENCE||Mean Difference (Net)|-1.3||||0.5|TWO_SIDED|95.0|-4.9|2.4|||Mixed Models Analysis|Constrained longitudinal model adjusting for baseline stratification variables of diabetes status and blood pressure control.||||2.4|-4.9|0.50
92216540|NCT01390272|184333141|NON_INFERIORITY_OR_EQUIVALENCE||Mean Difference (Net)|-1.6||||0.43|TWO_SIDED|95.0|-5.6|2.4|||Mixed Models Analysis|Constrained longitudinal model adjusting for baseline stratification variables of diabetes status and blood pressure control.||||2.4|-5.6|0.43
92216541|NCT01390272|184333143|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|1.0||||0.83|TWO_SIDED|95.0|0.7|1.6|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link. Adjusted for baseline stratification variables of diabetes status.||Comparison at 6 months||1.6|0.7|0.83
92155491|NCT04102540|184197364|OTHER|In this model, the null hypothesis was that the odds of being non-adherent at baseline/exposure 1 were exactly equal to the odds of being non-adherent at exposure 2 giving an odds ratio of one for the null hypothesis.|Odds Ratio (OR)|1.17||||0.819|TWO_SIDED|95.0|0.3|4.52||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Regression, Logistic|This model included random effects for subjects.|In this model, the odds ratio estimate is for the odds of being non-adherent at exposure 2 relative to the odds of being non-adherent at baseline/exposure 1.|"For analysis, we dichotomized participants adherence as adherent or non-adherent."||4.52|0.30|0.8190
92155492|NCT04102540|184197364|OTHER|In this model, the null hypothesis was that the odds of being non-adherent at baseline/exposure 1 were exactly equal to the odds of being non-adherent at exposure 3 giving an odds ratio of one for the null hypothesis.|Odds Ratio (OR)|0.3||||0.1332|TWO_SIDED|95.0|0.07|1.43||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Regression, Logistic|This model included random effects for subjects.|In this model, the odds ratio estimate is for the odds of being non-adherent at exposure 3 relative to the odds of being non-adherent at baseline/exposure 1.|"For analysis, we dichotomized participants adherence as adherent or non-adherent."||1.43|0.07|0.1332
92155493|NCT04102540|184197365|OTHER|In this model, the null hypothesis was that the odds of good health at baseline/exposure 1 were exactly equal to the odds of good health at exposure 2 giving an odds ratio of one for the null hypothesis.|Odds Ratio (OR)|1.77||||0.316|TWO_SIDED|95.0|0.57|5.46||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Regression, Logistic|This model included random effects for subjects.|This is the estimated odds ratio of having good health at exposure 2 relative to baseline/exposure 1.|"For analysis, we dichotomized participants' responses into the following categories: good vs bad health, where good included participant responses: excellent, very good, good, and bad included the participant responses: more or less and bad."||5.46|0.57|0.3160
92155494|NCT04102540|184197365|OTHER|In this model, the null hypothesis was that the odds of having good health at baseline/exposure 1 were exactly equal to the odds of having good health at exposure 3 giving an odds ratio of one for the null hypothesis.|Odds Ratio (OR)|1.12||||0.8609|TWO_SIDED|95.0|0.32|3.93||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Regression, Logistic|This model included random effects for subjects.|This is the estimated odds ratio of having good health at exposure 3 relative to baseline/exposure 1.|"For analysis, we dichotomized participants' responses into the following categories: good vs bad health, where good included participant responses: excellent, very good, good, and bad included the participant responses: more or less and bad."||3.93|0.32|0.8609
92168532|NCT04878354|184226849|SUPERIORITY||Odds Ratio (OR)|1.2|||<|0.0001|TWO_SIDED|95.0|1.1|1.32|||Generalised linear mixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a severe day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of severe days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||1.32|1.10|<0.0001
92168533|NCT04878354|184226850|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9124|TWO_SIDED|95.0|0.93|1.08|||Generalised linear mixed model (GLMM)||Odds ration is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a severe day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of severe days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||1.08|0.93|0.9124
92168534|NCT04878354|184226851|SUPERIORITY||Odds Ratio (OR)|0.76|||<|0.0001|TWO_SIDED|95.0|0.71|0.81|||Generalised linear fixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a well day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of well days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||0.81|0.71|<0.0001
92168535|NCT04878354|184226852|SUPERIORITY||Odds Ratio (OR)|0.89|||<|0.0001|TWO_SIDED|95.0|0.85|0.93|||Generalised linear mixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a well day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of well days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||0.93|0.85|<0.0001
92168536|NCT04878354|184226853|SUPERIORITY||Odds Ratio (OR)|0.78|||<|0.0001|TWO_SIDED|95.0|0.72|0.84|||Generalised linear mixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a symptom-free day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of symptom-free days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||0.84|0.72|<0.0001
92168537|NCT04878354|184226854|SUPERIORITY||Odds Ratio (OR)|0.9||||0.0001|TWO_SIDED|95.0|0.86|0.95|||Generalised linear mixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a symptom-free day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of symptom-free days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||0.95|0.86|0.0001
92339930|NCT02157519|184581822|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.66||0.294|TWO_SIDED|95.0|-2.0|0.61||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in physical QOL (FACT-Physical Well-Being) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) baseline from baseline to post-assessment.||0.61|-2.00|0.294
92216542|NCT01390272|184333144|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|0.9||||0.53|TWO_SIDED|95.0|0.5|1.4|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link. Adjusted for baseline stratification variables of diabetes status.||Comparison at 12 months||1.4|0.5|0.53
92216543|NCT01390272|184333145|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|1.5||||0.09|TWO_SIDED|95.0|0.9|2.3|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link. Adjusted for baseline stratification variables of diabetes status.||Comparison at 18 months.||2.3|0.9|0.09
92216544|NCT01390272|184333148|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|1.0||||0.95|TWO_SIDED|95.0|0.7|1.5|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link. Adjusted for baseline stratification variable of diabetes status and diabetes control.||||1.5|0.7|0.95
92216545|NCT01390272|184333149|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|1.4||||0.12|TWO_SIDED|95.0|0.9|2.1|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link.Adjusted for baseline stratification variable of diabetes status and blood pressure control.||Comparison at 12 months||2.1|0.9|0.12
92216546|NCT01390272|184333150|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|1.2||||0.3|TWO_SIDED|95.0|0.8|1.9|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link. Adjusted for baseline stratification variables of diabetes status and blood pressure control.||Comparison at 18 months||1.9|0.8|0.30
92216547|NCT01177384|184333151|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.62|||<|0.001|TWO_SIDED|95.0|-0.79|-0.44||The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (on acarbose monotherapy, or on acarbose in combination with other AHA(s)) and a covariate for baseline A1C.|ANCOVA|||||-0.44|-0.79|<.001
92216548|NCT01177384|184333152|SUPERIORITY_OR_OTHER||Difference in least squares mean|-14.4|||<|0.001|TWO_SIDED|95.0|-21.8|-7.0||The ANCOVA model included terms for treatment and prior AHA therapy status (on acarbose monotherapy, or on acarbose in combination with other AHA(s)) and a covariate for baseline FPG.|ANCOVA|||||-7.0|-21.8|<.001
92216549|NCT00307333|184333165|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||t-test, 2 sided|||||||0.08
92216550|NCT00307333|184333166|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||t-test, 2 sided|||||||0.47
92216551|NCT00307333|184333167|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||t-test, 2 sided|||||||0.31
92216552|NCT00307333|184333168|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.61|0.99|||||HR = hazard for intervention / hazard for control|||0.99|0.61|
92216553|NCT04166383|184333175|OTHER|||||||0.1||||||P≤0.10 (alpha 0.1); power = 90% (beta 0.1)|Kaplan-Meier|||||||0.10
92216554|NCT03044886|184333180|SUPERIORITY|||||||0.576|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.576
92216555|NCT03044886|184333181|SUPERIORITY|||||||0.489|||||||ANOVA|||||||0.489
92216556|NCT03044886|184333182|SUPERIORITY|||||||0.042|||||||ANOVA|||||||0.042
92216557|NCT03044886|184333182|SUPERIORITY|||||||0.041|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine changes from 3 month to 6 month of all groups.||||0.041
92274915|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.25|||||TWO_SIDED|95.0|-13.49|25.99||||||For change in nausea and vomiting at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||25.99|-13.49|
92216558|NCT03044886|184333183|SUPERIORITY|||||||0.71|||||||ANCOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.710
92216559|NCT03044886|184333184|SUPERIORITY|||||||0.34|||||||ANOVA|||||||0.340
92216560|NCT03044886|184333185|SUPERIORITY|||||||0.048|||||||ANOVA|||||||0.048
92216561|NCT03044886|184333185|SUPERIORITY|||||||0.038|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine changes from 3 month to 6 month of all groups.||||0.038
92216562|NCT03044886|184333186|SUPERIORITY|||||||0.521|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.521
92216563|NCT03044886|184333187|SUPERIORITY|||||||0.742|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.742
92216564|NCT03044886|184333188|SUPERIORITY||||||<|0.05|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||<0.05
92216565|NCT03044886|184333188|SUPERIORITY|||||||0.073|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine changes from 3 month to 6 month of all groups.||||0.073
92216566|NCT03044886|184333189|SUPERIORITY|||||||0.348|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.348
92216567|NCT03044886|184333190|SUPERIORITY|||||||0.685|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.685
92216568|NCT03044886|184333191|SUPERIORITY|||||||0.075|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.075
92216569|NCT03044886|184333191|SUPERIORITY|||||||0.083|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine changes from 3 month to 6 month of all groups.||||0.083
92216570|NCT00228566|184333233|SUPERIORITY_OR_OTHER||% Responders = 201/241|83.4||||||95.0|78.7|88.1|||Descriptive Statistics||The Overall Endpoint includes the last postbaseline value for each patient in the full analysis set, regardless of evaluation period. The Number of Responders (at least minimal improvement) at this Overall Endpoint equaled a total of 201 patients.|This was an open label study, with all patients receiving treatment with armodafinil||88.1|78.7|
92216571|NCT01479829|184333234|SUPERIORITY||Chi-square value|5.3466||||0.02|TWO_SIDED||||||Chi-squared||The chi-square value with 1 degree of freedom was 5.3466.|The null hypothesis is that there is no difference in the response rate between patients assigned to the intervention cohort or control cohort.||||.02
92339931|NCT02157519|184581822|SUPERIORITY||Mean Difference (Final Values)|-1.67|STANDARD_ERROR_OF_MEAN|0.74||0.025|TWO_SIDED|95.0|-3.12|-0.21||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in social QOL (FACT-Social Well-Being) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||-0.21|-3.12|0.025
92216572|NCT01479829|184333235|SUPERIORITY||Chi-square value|13.3821|||<|0.001|TWO_SIDED||||||Chi-squared||The chi-square value with 1 degree of freedom was 13.3821.|The null hypothesis is that there is no difference in the remission rate between patients assigned to the intervention cohort or control cohort.||||<.001
92339932|NCT02157519|184581822|SUPERIORITY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.58||0.392|TWO_SIDED|95.0|-0.64|1.63||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in emotional QOL (FACT-Emotional Well-Being) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||1.63|-0.64|0.392
92339933|NCT02157519|184581822|SUPERIORITY||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.6||0.216|TWO_SIDED|95.0|-1.94|0.44||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in functional QOL (FACT-Functional Well-Being) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.44|-1.94|0.216
92339934|NCT02157519|184581823|SUPERIORITY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.28||0.17|TWO_SIDED|95.0|-0.93|0.17||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post assessment||Analysis comparing change in treatment satisfaction with clinician explanations (FACIT-TS-PS-Clinician Explanations) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.17|-0.93|0.170
92339935|NCT02157519|184581823|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.18||0.057|TWO_SIDED|95.0|-0.72|0.01||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post assessment||Analysis comparing change in satisfaction with interpersonal treatment (FACIT-TS-PS Interpersonal Treatment) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.01|-0.72|0.057
92339936|NCT02157519|184581823|SUPERIORITY||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.72||0.178|TWO_SIDED|95.0|-2.39|0.45||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing change in treatment satisfaction with comprehensive care (FACIT-TS-PS Comprehensive Care) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.45|-2.39|0.178
92339937|NCT02157519|184581823|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.481|TWO_SIDED|95.0|-0.35|0.75||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing change in treatment satisfaction with nursing care (FACIT-TS-PS Nursing Care) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.75|-0.35|0.481
92339938|NCT02157519|184581823|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.97|TWO_SIDED|95.0|-0.34|0.35||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing change in treatment satisfaction with trust in clinicians (FACIT-TS-PS Trust in Clinicians) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.35|-0.34|0.970
92339939|NCT02157519|184581824|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.682|TWO_SIDED|95.0|-0.15|0.1||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the number of emergency department (ED) visits over the study period between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.10|-0.15|0.682
92155495|NCT04102540|184197366|OTHER|In this analysis, our null hypothesis was that the median current health status at baseline/exposure 1 was exactly equivalent to the median current health status following exposure 2 to the intervention.|Median Difference (Net)|9.13||||0.0572|TWO_SIDED|95.0|-0.3|18.6||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median current health status between baseline/exposure 1 and exposure 2.|Statistical analysis of current health status between baseline/exposure 1 and exposure 2 to the intervention.||18.6|-0.3|0.0572
92155496|NCT04102540|184197366|OTHER|In this analysis, our null hypothesis was that the median current health status at baseline/exposure 1 was exactly equivalent to the median current health status following exposure 3 to the intervention.|Median Difference (Net)|13.1||||0.0332|TWO_SIDED|95.0|1.1|25.1||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median current health status between baseline/exposure 1 and exposure 3.|Statistical analysis of self-efficacy to manage HIV scale score between baseline/exposure 1 and exposure 3 to the intervention.||25.1|1.1|0.0332
92155497|NCT01183650|184197389|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.05|||||TWO_SIDED|90.0|0.84|1.32|||||Day 1 Tadalafil Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.32|0.84|
92155498|NCT01183650|184197389|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.8|||||TWO_SIDED|90.0|0.64|1.0|||||Day 10 Tadalafil Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.00|0.64|
92155499|NCT01183650|184197389|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.31|||||TWO_SIDED|90.0|1.05|1.64|||||Day 1 Metabolite IC710 Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.64|1.05|
92155500|NCT01183650|184197389|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.99|||||TWO_SIDED|90.0|0.79|1.24|||||Day 10 Metabolite IC710 Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.24|0.79|
92339940|NCT02157519|184581825|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.1||0.64|TWO_SIDED|95.0|-0.24|0.15||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the number of hospitalizations over they study period between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment||0.15|-0.24|0.640
92339941|NCT01656395|184581826|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.685|TWO_SIDED|95.0|-0.084|0.127|||cLDA model|||Difference in least squares (LS) means for average change from Baseline over Week 6 to Week 12 in FEV1: MK-1029 10 mg vs. Placebo. Constrained longitudinal data analysis (cLDA) model includes terms for visit as categorical variable, prior inhaled corticosteroid (ICS) use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.127|-0.084|0.685
92339942|NCT01656395|184581826|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.477|TWO_SIDED|95.0|-0.149|0.07|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in FEV1: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.07|-0.149|0.477
92339943|NCT01656395|184581826|SUPERIORITY||Mean Difference (Final Values)|0.019||||0.733|TWO_SIDED|95.0|-0.092|0.13|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in FEV1: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.13|-0.092|0.733
92339944|NCT01656395|184581826|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.89|TWO_SIDED|95.0|-0.115|0.1|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in FEV1: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.1|-0.115|0.89
92155501|NCT01183650|184197390|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.98|||||TWO_SIDED|90.0|0.81|1.18|||||Day 1 Tadalafil Ratio of Geometric Least Squares Means(Japanese/Caucasian)|||1.18|0.81|
92155502|NCT01183650|184197390|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.81|||||TWO_SIDED|90.0|0.67|0.97|||||Day 10 Tadalafil Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||0.97|0.67|
92155503|NCT01183650|184197390|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Mean|1.33|||||TWO_SIDED|90.0|1.07|1.67|||||Day 1 Metabolite IC710 Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.67|1.07|
92155504|NCT01183650|184197390|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.03|||||TWO_SIDED|90.0|0.83|1.29|||||Day 10 Metabolite IC710 Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.29|0.83|
92155505|NCT01183650|184197391|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||||95.0|||||Wilcoxon (Mann-Whitney)|Tadalafil Median Difference (Day 1 - Day 10) in Japanese Participants||||||
92155506|NCT01183650|184197391|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||||95.0|||||Wilcoxon (Mann-Whitney)|Tadalafil Median Difference (Day 1 - Day 10) in Caucasian Participants||||||
92155507|NCT01183650|184197391|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|19.83||||||95.0|||||Wilcoxon (Mann-Whitney)|Metabolite IC710 Median Difference (Day 1 - Day 10) in Japanese participants||||||
92155508|NCT01183650|184197391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.02||||||95.0|||||Wilcoxon (Mann-Whitney)|Metabolite IC710 Median Difference (Day 1 - Day 10) in Caucasian participants||||||
92155509|NCT04827134|184197392|OTHER||Ratio of Geometric Least Square Means|0.88|||||TWO_SIDED|90.0|0.8344|0.9282|||||An analysis of variance (ANOVA) was performed on parameter AUC(0-inf) for Analyte DTG to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.9282|0.8344|
92155510|NCT04827134|184197392|OTHER||Ratio of Geometric Least Square Means|0.8578|||||TWO_SIDED|90.0|0.8168|0.9007|||||An analysis of variance was performed on parameter AUC(0-inf) for Analyte ABC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.9007|0.8168|
92155511|NCT04827134|184197392|OTHER||Ratio of Geometric Least Square Means|0.8919|||||TWO_SIDED|90.0|0.8316|0.9566|||||An analysis of variance was performed on parameter AUC(0-inf) for Analyte 3TC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.9566|0.8316|
92155512|NCT04827134|184197393|OTHER||Ratio of Geometric Least Square Means|0.8744|||||TWO_SIDED|90.0|0.8293|0.9219|||||An analysis of variance was performed on parameter AUC(0-t) for Analyte DTG to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.9219|0.8293|
92155513|NCT04827134|184197393|OTHER||Ratio of Geometric Least Square Means|0.8567|||||TWO_SIDED|90.0|0.8159|0.8995|||||An analysis of variance was performed on parameter AUC(0-t) for Analyte ABC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.8995|0.8159|
92155514|NCT04827134|184197393|OTHER||Ratio of Geometric Least Square Means|0.8798|||||TWO_SIDED|90.0|0.8202|0.9438|||||An analysis of variance was performed on parameter AUC(0-t) for Analyte 3TC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.9438|0.8202|
92155515|NCT04827134|184197394|OTHER||Ratio of Geometric Least Square Means|0.7102|||||TWO_SIDED|90.0|0.6598|0.7643|||||An analysis of variance was performed on parameter Cmax for Analyte DTG to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.7643|0.6598|
92155516|NCT04827134|184197394|OTHER||Ratio of Geometric Least Square Means|0.4503|||||TWO_SIDED|90.0|0.3976|0.51|||||An analysis of variance was performed on parameter Cmax for Analyte ABC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.5100|0.3976|
92155517|NCT04827134|184197394|OTHER||Ratio of Geometric Least Square Means|0.6373|||||TWO_SIDED|90.0|0.5594|0.726|||||An analysis of variance was performed on parameter Cmax for Analyte 3TC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.7260|0.5594|
92155518|NCT04827134|184197395|OTHER||Ratio of Geometric Least Square Means|0.9148|||||TWO_SIDED|90.0|0.8834|0.9472|||||An analysis of variance was performed on parameter AUC(0-inf) for Analyte DTG to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.9472|0.8834|
92216573|NCT00683163|184333257|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.82|TWO_SIDED|95.0|-11.5|9.2|||t-test, 2 sided|||Mean difference in percent change from baseline (Concurrent - Sequential)||9.2|-11.5|0.82
92216574|NCT02229539|184333258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Wilcoxon rank-sum|||||||0.02
92339945|NCT01656395|184581826|SUPERIORITY||Mean Difference (Final Values)|-0.004||||0.935|TWO_SIDED|95.0|-0.109|0.1|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in FEV1: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.1|-0.109|0.935
92339946|NCT01656395|184581829|SUPERIORITY||Mean Difference (Final Values)|-7.2||||0.169|TWO_SIDED|95.0|-17.48|3.08|||ANOVA|||Difference in LS means for percent of asthma exacerbation day over Week 6 through Week 12: MK- 1029 10 mg vs. Placebo. Analysis of variance (ANOVA) model includes the terms for treatment groups and prior ICS use (Yes/No). Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||3.08|-17.48|0.169
92339947|NCT01656395|184581829|SUPERIORITY||Mean Difference (Final Values)|-9.092||||0.092|TWO_SIDED|95.0|-19.67|1.485|||ANOVA|||Difference in LS means for percent of asthma exacerbation day over Week 6 through Week 12: MK- 1029 30 mg vs. Placebo. ANOVA model includes the terms for treatment groups and prior ICS use (Yes/No). Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||1.485|-19.67|0.092
92339948|NCT01656395|184581829|SUPERIORITY||Mean Difference (Final Values)|-9.469||||0.083|TWO_SIDED|95.0|-20.19|1.25|||ANOVA|||Difference in LS means for percent of asthma exacerbation day over Week 6 through Week 12: MK- 1029 60 mg vs. Placebo. ANOVA model includes the terms for treatment groups and prior ICS use (Yes/No). Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||1.25|-20.19|0.083
92339949|NCT01656395|184581829|SUPERIORITY||Mean Difference (Final Values)|-4.666||||0.367|TWO_SIDED|95.0|-14.83|5.501|||ANOVA|||Difference in LS means for percent of asthma exacerbation day over Week 6 through Week 12: MK- 1029 150 mg vs. Placebo. ANOVA model includes the terms for treatment groups and prior ICS use (Yes/No). Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||5.501|-14.83|0.367
92339950|NCT01656395|184581829|SUPERIORITY||Mean Difference (Final Values)|-5.247||||0.308|TWO_SIDED|95.0|-15.36|4.871|||ANOVA|||Difference in LS means for percent of asthma exacerbation day over Week 6 through Week 12: Montelukast vs. Placebo. ANOVA model includes the terms for treatment groups and prior ICS use (Yes/No). Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||4.871|-15.36|0.308
92339951|NCT01656395|184581830|SUPERIORITY||Mean Difference (Final Values)|-0.122||||0.429|TWO_SIDED|95.0|-0.427|0.182|||cLDA model|||Difference in LS means for average change from Baseline to Week 12 in DSS: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.182|-0.427|0.429
92339952|NCT01656395|184581830|SUPERIORITY||Mean Difference (Final Values)|0.142||||0.37|TWO_SIDED|95.0|-0.169|0.454|||cLDA model|||Difference in LS means for average change from Baseline to Week 12 in DSS: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.454|-0.169|0.370
92339953|NCT01656395|184581830|SUPERIORITY||Mean Difference (Final Values)|-0.089||||0.579|TWO_SIDED|95.0|-0.402|0.225|||cLDA model|||Difference in LS means for average change from Baseline to Week 12 in DSS: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK- 1029 or Montelukast).||0.225|-0.402|0.579
92339954|NCT01656395|184581830|SUPERIORITY||Mean Difference (Final Values)|0.156||||0.305|TWO_SIDED|95.0|-0.142|0.454|||cLDA model|||Difference in LS means for average change from Baseline to Week 12 in DSS: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.454|-0.142|0.305
92339955|NCT01656395|184581830|SUPERIORITY||Mean Difference (Final Values)|-0.136||||0.372|TWO_SIDED|95.0|-0.434|0.163|||cLDA model|||Difference in LS means for average change from Baseline to Week 12 in DSS: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.163|-0.434|0.372
92339956|NCT01656395|184581831|SUPERIORITY||Mean Difference (Final Values)|-0.528||||0.114|TWO_SIDED|95.0|-1.184|0.128|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in SABA use: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use(Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.128|-1.184|0.114
92339957|NCT01656395|184581831|SUPERIORITY||Mean Difference (Final Values)|-0.075||||0.827|TWO_SIDED|95.0|-0.75|0.6|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in SABA use: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.6|-0.75|0.827
92155519|NCT04827134|184197395|OTHER||Ratio of Geometric Least Square Means|0.8847|||||TWO_SIDED|90.0|0.8303|0.9426|||||An analysis of variance was performed on parameter AUC(0-inf) for Analyte 3TC to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.9426|0.8303|
92155520|NCT04827134|184197396|OTHER||Ratio of Geometric Least Square Means|0.9163|||||TWO_SIDED|90.0|0.8862|0.9475|||||An analysis of variance was performed on parameter AUC(0-t) for Analyte DTG to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.9475|0.8862|
92155521|NCT04827134|184197396|OTHER||Ratio of Geometric Least Square Means|0.8806|||||TWO_SIDED|90.0|0.8251|0.9398|||||An analysis of variance was performed on parameter AUC(0-t) for Analyte 3TC to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.9398|0.8251|
92339958|NCT01656395|184581831|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.75|TWO_SIDED|95.0|-0.789|0.569|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in SABA use: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.569|-0.789|0.75
92216575|NCT02229539|184333258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Wilcoxon rank-sum|||||||0.004
92216576|NCT00088907|184333272|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Log Rank|||||||0.60
92216577|NCT00088907|184333273|SUPERIORITY_OR_OTHER|||||||0.19|||||||Log Rank|||||||0.19
92216578|NCT04050670|184333289|NON_INFERIORITY|A priori estimates for the 90% CI geometric least square means ratios of AUC(0-∞) for the thigh versus abdomen injection sites were from 0.80 to 1.25|Ratio of geometric least squares mean|0.953|||||TWO_SIDED|90.0|0.935|0.97|||Linear mixed effects model|||||0.970|0.935|
92216579|NCT04050670|184333289|NON_INFERIORITY|A priori estimates for the 90% CI geometric least square means ratios of AUC(0-∞) for the upper arm versus abdomen injection sites were from 0.80 to 1.25.|Ratio of geometric least squares mean|0.99|||||TWO_SIDED|90.0|0.972|1.01|||Linear mixed effects model|||||1.01|0.972|
92216580|NCT04050670|184333290|NON_INFERIORITY|A priori estimates for the 90% CI geometric least square means ratios of Cmax for thigh versus abdomen injection sites were from 0.80 to 1.25.|Ratio of geometric least squares mean|0.862|||||TWO_SIDED|90.0|0.818|0.909|||Linear mixed effects model|||||0.909|0.818|
92339959|NCT01656395|184581831|SUPERIORITY||Mean Difference (Final Values)|0.275||||0.403|TWO_SIDED|95.0|-0.371|0.921|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in SABA use: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.921|-0.371|0.403
92216581|NCT04050670|184333290|NON_INFERIORITY|A priori estimates for the 90% CI geometric least square means ratios of Cmax for the upper arm versus abdomen injection sites were from 0.80 to 1.25.|Ratio of geometric least squares mean|0.921|||||TWO_SIDED|95.0|0.874|0.971|||Linear mixed effects model|||||0.971|0.874|
92216582|NCT01809132|184333317|SUPERIORITY|||||||0.3|||||||Log Rank|||||||.30
92216583|NCT01809132|184333318|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||the observational subject was lost to follow-up||||.42
92216584|NCT01809132|184333319|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||.75
92339960|NCT01656395|184581831|SUPERIORITY||Mean Difference (Final Values)|-0.389||||0.237|TWO_SIDED|95.0|-1.035|0.257|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in SABA use: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.257|-1.035|0.237
92339961|NCT01656395|184581832|SUPERIORITY||Mean Difference (Final Values)|-0.241||||0.565|TWO_SIDED|95.0|-1.066|0.583|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in nocturnal awakenings: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.583|-1.066|0.565
92339962|NCT01656395|184581832|SUPERIORITY||Mean Difference (Final Values)|0.135||||0.754|TWO_SIDED|95.0|-0.713|0.983|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in nocturnal awakenings: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.983|-0.713|0.754
92339963|NCT01656395|184581832|SUPERIORITY||cLDA model|-0.251||||0.563|TWO_SIDED|95.0|-1.104|0.603|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in nocturnal awakenings: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.603|-1.104|0.563
92216585|NCT01809132|184333320|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||.17
92216586|NCT03349775|184333333|SUPERIORITY||Median Difference (Final Values)|-2.57|STANDARD_DEVIATION|5.14||0.35|TWO_SIDED|95.0|-8.32|3.18|||t-test, 2 sided|||||3.18|-8.32|0.35
92216587|NCT03349775|184333334|SUPERIORITY||Median Difference (Final Values)|1.13|STANDARD_DEVIATION|2.13||0.37|TWO_SIDED|95.0|-1.65|3.92|||t-test, 2 sided|||||3.92|-1.65|0.37
92216588|NCT02022085|184333357|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||PTA4 6 months with Baha Attract vs Unaided||||<0.0001
92216589|NCT02022085|184333357|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||PTA4 12 months with Baha Attract vs Unaided||||<0.0001
92216590|NCT02022085|184333357|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||PTA4 24 months with Baha Attract vs Unaided||||<0.0001
92216591|NCT02022085|184333358|SUPERIORITY_OR_OTHER||||||<|0.0001||||||All comparisons to the Unaided situation were p=\<0.0001.|Fisher's non-parametric permutation test|||Baha Attract after 24 months vs Unaided situation Pre-Op||||<0.0001
92216592|NCT02022085|184333359|SUPERIORITY_OR_OTHER||||||<|0.0001||||||All comparisons to the Unaided situation were p=\<0.0001.|Fisher's non-parametric permutation test|||Baha Attract after 12 months vs Unaided situation Pre-Op||||<0.0001
92216593|NCT02022085|184333360|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||All comparisons to the Unaided situation were p=\<0.0001.|Fisher's non-parametric permutation test|||Baha Attract after 6 months vs Unaided situation Pre-Op||||<0.0001
92216594|NCT02022085|184333361|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in Noise, 6 months Baha Attract vs Unaided||||<0.0001
92216595|NCT02022085|184333361|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Speech in Noise, 12 months Baha Attract vs Unaided||||<0.0001
92216596|NCT02022085|184333361|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Speech in Noise, 24 months Baha Attract vs Unaided||||<0.0001
92216597|NCT02022085|184333362|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months: Speech in quiet at 50dB||||<0.0001
92339964|NCT01656395|184581832|SUPERIORITY||Mean Difference (Final Values)|-0.241||||0.559|TWO_SIDED|95.0|-1.053|0.571|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in nocturnal awakenings: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.571|-1.053|0.559
92339965|NCT01656395|184581832|SUPERIORITY||Mean Difference (Final Values)|-0.071||||0.863|TWO_SIDED|95.0|-0.883|0.741|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in nocturnal awakenings: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.741|-0.883|0.863
92216598|NCT02022085|184333362|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||6 months: Speech in quiet at 65dB||||<0.0001
92216599|NCT02022085|184333362|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||6 months: Speech in quiet at 80dB||||<0.0001
92216600|NCT02022085|184333362|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||12 months: Speech in quiet at 50dB||||<0.0001
92216601|NCT02022085|184333362|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||12 months: Speech in quiet at 65dB||||<0.0001
92216602|NCT02022085|184333362|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||12 months: Speech in quiet at 80dB||||<0.0001
92216603|NCT02022085|184333362|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||24 months: Speech in quiet at 50dB||||<0.0001
92339966|NCT01656395|184581833|SUPERIORITY||Mean Difference (Final Values)|0.544||||0.958|TWO_SIDED|95.0|-19.92|21.007|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in AM/PM PEF: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||21.007|-19.92|0.958
92216604|NCT02022085|184333362|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||24 months: Speech in quiet at 65dB||||<0.0001
92274916|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.64|||||TWO_SIDED|95.0|-7.12|46.41||||||For change in pain at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||46.41|-7.12|
92339967|NCT01656395|184581833|SUPERIORITY||Mean Difference (Final Values)|6.251||||0.559|TWO_SIDED|95.0|-14.81|27.307|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in AM/PM PEF: MK- 1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||27.307|-14.81|0.559
92339968|NCT01656395|184581833|SUPERIORITY||Median Difference (Final Values)|9.575||||0.374|TWO_SIDED|95.0|-11.62|30.766|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in AM/PM PEF: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||30.766|-11.62|0.374
92339969|NCT01656395|184581833|SUPERIORITY||Mean Difference (Final Values)|5.114||||0.618|TWO_SIDED|95.0|-15.04|25.272|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in AM/PM PEF: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||25.272|-15.04|0.618
92216605|NCT02022085|184333362|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||24 months: Speech in quiet at 80dB||||<0.0001
92216606|NCT02022085|184333363|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months with Baha Attract vs Softband: change in PTA4||||0.38
92216607|NCT02022085|184333363|SUPERIORITY_OR_OTHER|||||||0.84|||||||Fisher's non-parametric permutation test|||12 months with Baha Attract vs Softband: change in PTA4||||0.84
92216608|NCT02022085|184333363|SUPERIORITY_OR_OTHER|||||||0.89|||||||Fisher's non-parametric permutation test|||24 months with Baha Attract vs Softband: change in PTA4||||0.89
92216609|NCT02022085|184333364|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||250Hz: 6 months with Baha Attract vs Softband||||0.34
92216610|NCT02022085|184333364|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||500Hz: 6 months with Baha Attract vs Softband||||0.0004
92216611|NCT02022085|184333364|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||1000Hz: 6 months with Baha Attract vs Softband||||0.22
92216612|NCT02022085|184333364|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||2000Hz: 6 months with Baha Attract vs Softband||||0.64
92216613|NCT02022085|184333364|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||3000Hz: 6 months with Baha Attract vs Softband||||0.039
92216614|NCT02022085|184333364|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||4000Hz: 6 months with Baha Attract vs Softband||||0.012
92216615|NCT02022085|184333364|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6000Hz: 6 months with Baha Attract vs Softband||||<0.0001
92216616|NCT02022085|184333365|SUPERIORITY_OR_OTHER|||||||0.11|||||||Fisher's non-parametric permutation test|||250Hz: 12 months with Baha Attract vs Softband||||0.11
92216617|NCT02022085|184333365|SUPERIORITY_OR_OTHER|||||||0.066|||||||Fisher's non-parametric permutation test|||500Hz: 12 months with Baha Attract vs Softband||||0.066
92216618|NCT02022085|184333365|SUPERIORITY_OR_OTHER|||||||0.71|||||||Fisher's non-parametric permutation test|||1000Hz: 12 months with Baha Attract vs Softband||||0.71
92216619|NCT02022085|184333365|SUPERIORITY_OR_OTHER|||||||0.78|||||||Fisher's non-parametric permutation test|||2000Hz: 12 months with Baha Attract vs Softband||||0.78
92216620|NCT02022085|184333365|SUPERIORITY_OR_OTHER|||||||0.015|||||||Fisher's non-parametric permutation test|||3000Hz: 12 months with Baha Attract vs Softband||||0.015
92274917|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.02|||||TWO_SIDED|95.0|0.38|43.66||||||For change in dyspnea at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||43.66|0.38|
92339970|NCT01656395|184581833|SUPERIORITY||Mean Difference (Final Values)|-1.604||||0.876|TWO_SIDED|95.0|-21.76|18.554|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in AM/PM PEF: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||18.554|-21.76|0.876
92339971|NCT01656395|184581834|SUPERIORITY||Mean Difference (Final Values)|0.076||||0.682|TWO_SIDED|95.0|-0.288|0.44|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in AQLQ(S) Overall Score: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.440|-0.288|0.682
92339972|NCT01656395|184581834|SUPERIORITY||Mean Difference (Final Values)|-0.047||||0.807|TWO_SIDED|95.0|-0.422|0.329|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in AQLQ(S) Overall Score: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.329|-0.422|0.807
92339973|NCT01656395|184581834|SUPERIORITY||Mean Difference (Final Values)|0.165||||0.403|TWO_SIDED|95.0|-0.222|0.552|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in AQLQ(S) Overall Score: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.552|-0.222|0.403
92339974|NCT01656395|184581834|SUPERIORITY||Mean Difference (Final Values)|0.375||||0.051|TWO_SIDED|95.0|-0.001|0.751|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in AQLQ(S) Overall Score: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.751|-0.001|0.051
92339975|NCT01656395|184581834|SUPERIORITY||Mean Difference (Final Values)|0.319||||0.086|TWO_SIDED|95.0|-0.045|0.683|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in AQLQ(S) Overall Score: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK- 1029 or Montelukast).||0.683|-0.045|0.086
92339976|NCT01656395|184581835|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.7687|TWO_SIDED|95.0|-16.0|21.3|||MN method|||Difference for AQLQ(S) Response Rate: MK-1029 10 mg vs. Placebo. P-values, estimates and 95% confidence intervals (CIs) are based on the Miettinen and Nurminen (MN) method stratified by prior ICS use (Yes/No).||21.3|-16.0|0.7687
92339977|NCT01656395|184581835|SUPERIORITY||Mean Difference (Final Values)|-6.6||||0.4943|TWO_SIDED|95.0|-24.9|12.2|||MN Method|||Difference for AQLQ(S) Response Rate: MK-1029 30 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||12.2|-24.9|0.4943
92339978|NCT01656395|184581835|SUPERIORITY||Mean Difference (Final Values)|10.5||||0.3003|TWO_SIDED|95.0|-9.4|29.6|||MN method|||Difference for AQLQ(S) Response Rate: MK-1029 60 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||29.6|-9.4|0.3003
92155522|NCT04827134|184197397|OTHER||Ratio of Geometric Least Square Means|0.7284|||||TWO_SIDED|90.0|0.6576|0.8068|||||An analysis of variance was performed on parameter Cmax for Analyte DTG to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.8068|0.6576|
92155523|NCT04827134|184197397|OTHER||Ratio of Geometric Least Square Means|0.5191|||||TWO_SIDED|90.0|0.4535|0.5943|||||An analysis of variance was performed on parameter Cmax for Analyte 3TC to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.5943|0.4535|
92339979|NCT01656395|184581835|SUPERIORITY||Mean Difference (Final Values)|17.5||||0.0774|TWO_SIDED|95.0|-1.9|35.7|||MN method|||Difference for AQLQ(S) Response Rate: MK-1029 150 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||35.7|-1.9|0.0774
92339980|NCT01656395|184581835|SUPERIORITY||Mean Difference (Final Values)|18.2||||0.0555|TWO_SIDED|95.0|-0.4|35.5|||MN method|||Difference for AQLQ(S) Response Rate: Montelukast vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||35.5|-0.4|0.0555
92339981|NCT01656395|184581836|SUPERIORITY||Mean Difference (Final Values)|-0.104||||0.603|TWO_SIDED|95.0|-0.495|0.288|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in ACQ Score: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.288|-0.495|0.603
92339982|NCT01656395|184581836|SUPERIORITY||Mean Difference (Final Values)|-0.032||||0.875|TWO_SIDED|95.0|-0.436|0.372|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in ACQ Score: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.372|-0.436|0.875
92216621|NCT02022085|184333365|SUPERIORITY_OR_OTHER|||||||0.035|||||||Fisher's non-parametric permutation test|||4000Hz: 12 months with Baha Attract vs Softband||||0.035
92339983|NCT01656395|184581836|SUPERIORITY||Mean Difference (Final Values)|-0.151||||0.476|TWO_SIDED|95.0|-0.568|0.265|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in ACQ Score: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.265|-0.568|0.476
92339984|NCT01656395|184581836|SUPERIORITY||Mean Difference (Final Values)|-0.362||||0.079|TWO_SIDED|95.0|-0.767|0.042|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in ACQ Score: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.042|-0.767|0.079
92339985|NCT01656395|184581836|SUPERIORITY||Mean Difference (Final Values)|-0.227||||0.257|TWO_SIDED|95.0|-0.621|0.166|||cLDA model|||"Difference in LS means for change from Baseline to Week 12 in ACQ Score: Montelukast vs. Placebo.~cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast)."||0.166|-0.621|0.257
92339986|NCT01656395|184581837|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.742|TWO_SIDED|95.0|-15.1|21.1|||MN method|||Difference for change from Baseline to Week 12 in ACQ response rate: MK-1029 10 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||21.1|-15.1|0.742
92339987|NCT01656395|184581837|SUPERIORITY||Mean Difference (Final Values)|-3.4||||0.7248|TWO_SIDED|95.0|-22.1|15.4|||MN method|||Difference for change from Baseline to Week 12 in ACQ response rate: MK-1029 30 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||15.4|-22.1|0.7248
92339988|NCT01656395|184581837|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.6991|TWO_SIDED|95.0|-15.6|22.6|||MN method|||Difference for change from Baseline to Week 12 in ACQ response rate: MK-1029 60 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||22.6|-15.6|0.6991
92339989|NCT01656395|184581837|SUPERIORITY||Mean Difference (Final Values)|8.1||||0.3934|TWO_SIDED|95.0|-10.6|26.2|||MN method|||Difference for change from Baseline to Week 12 in ACQ response rate: MK-1029 150 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||26.2|-10.6|0.3934
92339990|NCT01656395|184581837|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.8032|TWO_SIDED|95.0|-16.0|20.5|||MN method|||Difference for change from Baseline to Week 12 in ACQ response rate: Montelukast vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||20.5|-16.0|0.8032
92216622|NCT02022085|184333365|SUPERIORITY_OR_OTHER|||||||0.0013|||||||Fisher's non-parametric permutation test|||6000Hz: 12 months with Baha Attract vs Softband||||0.0013
92339991|NCT01656395|184581838|SUPERIORITY||Mean Difference (Final Values)|-0.075||||0.873|TWO_SIDED|95.0|-1.004|0.853|||ANOVA|||Difference in LS means for percent of asthma attack days over Week 6 to Week 12 of a 12-week treatment period: MK-1209 10 mg vs. Placebo. ANOVA model includes terms for prior ICS use (Yes/No) and treatment. Negative differences are in favor of the first treatment group in the comparison (MK- 1029 or Montelukast).||0.853|-1.004|0.873
92339992|NCT01656395|184581838|SUPERIORITY||Mean Difference (Final Values)|-0.376||||0.437|TWO_SIDED|95.0|-1.326|0.575|||ANOVA|||Difference in LS means for percent of asthma attack days over Week 6 to Week 12 of a 12-week treatment period: MK-1209 30 mg vs. Placebo. ANOVA model includes terms for prior ICS use (Yes/No) and treatment. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.575|-1.326|0.437
92339993|NCT01656395|184581838|SUPERIORITY||Mean Difference (Final Values)|-0.54||||0.27|TWO_SIDED|95.0|-1.504|0.423|||ANOVA|||Difference in LS means for percent of asthma attack days over Week 6 to Week 12 of a 12-week treatment period: MK-1209 60 mg vs. Placebo. ANOVA model includes terms for prior ICS use (Yes/No) and treatment. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.423|-1.504|0.270
92339994|NCT01656395|184581838|SUPERIORITY||Mean Difference (Final Values)|0.079||||0.865|TWO_SIDED|95.0|-0.839|0.997|||ANOVA|||Difference in LS means for percent of asthma attack days over Week 6 to Week 12 of a 12-week treatment period: MK-1209 150 mg vs. Placebo. ANOVA model includes terms for prior ICS use (Yes/No) and treatment. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.997|-0.839|0.865
92339995|NCT01656395|184581838|SUPERIORITY||Mean Difference (Final Values)|-0.309||||0.503|TWO_SIDED|95.0|-1.219|0.6|||ANOVA|||Difference in LS means for percent of asthma attack days over Week 6 to Week 12 of a 12-week treatment period: Montelukast vs. Placebo. ANOVA model includes terms for prior ICS use (Yes/No) and treatment. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.600|-1.219|0.503
92339996|NCT01272908|184581867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.293||||0.253|||||||Regression, Logistic|||ACR20: Week 12 versus (vs) Week 4||||0.253
92339997|NCT01272908|184581867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.019||||0.005|||||||Regression, Logistic|||ACR20: Week 24 vs Week 4||||0.005
92339998|NCT01272908|184581867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.552||||0.023|||||||Regression, Logistic|||ACR50: Week 12 vs Week 4||||0.023
92339999|NCT01272908|184581867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.861||||0.001|||||||Regression, Logistic|||ACR50: Week 24 vs. Week 4||||0.001
92340000|NCT01272908|184581871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.099||||0.667|||||||Regression, Logistic|||Good vs Moderate vs None: Week 12 vs Week 4||||0.667
92340001|NCT01272908|184581871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.589|||<|0.001|||||||Regression, Logistic|||Good vs Moderate vs None: Week 24 vs Week 4||||<0.001
92216623|NCT02022085|184333366|SUPERIORITY_OR_OTHER|||||||0.0051|||||||Fisher's non-parametric permutation test|||250Hz: 24 months with Baha Attract vs Softband||||0.0051
92340002|NCT01272908|184581871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.138||||0.44|||||||Regression, Logistic|||Good/Moderate vs None: Week 12 vs Week 4||||0.440
92340003|NCT01272908|184581871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.009||||0.012|||||||Regression, Logistic|||Good/Moderate vs None: Week 24 vs Week 4||||0.012
92340004|NCT01272908|184581873|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Week 4||||<0.001
92340005|NCT01272908|184581873|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Week 12||||<0.001
92340006|NCT01272908|184581873|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Week 24||||<0.001
92398832|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.889|TWO_SIDED|95.0|-0.55|0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 8: Psychological Mean Score||0.48|-0.55|0.8890
92340007|NCT01272908|184581873|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Week 36||||<0.001
92340008|NCT01272908|184581873|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Week 48||||<0.001
92340009|NCT01272908|184581875|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed-Rank test|||Baseline vs Week 24||||<0.001
92340010|NCT01272908|184581877|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Baseline vs Week 24||||<0.001
92340011|NCT01272908|184581879|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Baseline vs Week 24||||<0.001
92340012|NCT01272908|184581881|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Rank test|||Baseline vs Week 24||||<0.001
92340013|NCT01272908|184581883|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Baseline vs Week 24||||<0.001
92340014|NCT01272908|184581885|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Rank test|||Baseline vs Week 24||||<0.001
92398833|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.26||0.5568|TWO_SIDED|95.0|-0.67|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.36|-0.67|0.5568
92216624|NCT02022085|184333366|SUPERIORITY_OR_OTHER|||||||0.26|||||||Fisher's non-parametric permutation test|||500Hz: 24 months with Baha Attract vs Softband||||0.26
92340015|NCT01272908|184581887|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Rank test|||Baseline vs Week 24||||<0.001
92340016|NCT01272908|184581889|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Rank test|||Baseline vs Week 24||||<0.001
92340017|NCT01272908|184581893|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Baseline vs Week 12||||<0.001
92340018|NCT01272908|184581893|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Rank test|||Baseline vs Week 24||||<0.001
92340019|NCT03675360|184581897|SUPERIORITY||Mean Difference (Net)|-0.23|||<|0.05|TWO_SIDED|95.0|-0.32|-0.14|||linear mixed effects model|||||-0.14|-0.32|<0.05
92340020|NCT03675360|184581898|SUPERIORITY||Mean Difference (Net)|-10.3|||<|0.05|TWO_SIDED|95.0|-15.6|-4.9|||linear mixed effects model|||||-4.9|-15.6|<0.05
92340021|NCT03675360|184581899|SUPERIORITY||Mean Difference (Net)|-3.2|||<|0.05|TWO_SIDED|95.0|-7.3|0.9|||linear mixed effects model|||||0.9|-7.3|<0.05
92340022|NCT03675360|184581900|SUPERIORITY||Median Difference (Final Values)|-0.13|||<|0.05|TWO_SIDED|95.0|-0.31|0.05|||linear mixed effects model|||||0.05|-0.31|<0.05
92340023|NCT03675360|184581901|SUPERIORITY||Mean Difference (Net)|-5.9|||<|0.05|TWO_SIDED|95.0|-7.4|-4.4|||linear mixed effects model|||||-4.4|-7.4|<0.05
92340024|NCT03675360|184581902|SUPERIORITY||Mean Difference (Net)|-6.2|||<|0.05|TWO_SIDED|95.0|-10.5|-2.0|||linear mixed effects model|||||-2.0|-10.5|<0.05
92340025|NCT03675360|184581903|SUPERIORITY||Mean Difference (Net)|-2.4|||<|0.05|TWO_SIDED|95.0|-3.7|-1.1|||linear mixed effects model|||||-1.1|-3.7|<0.05
92340026|NCT03675360|184581904|SUPERIORITY||Mean Difference (Net)|-2.6|||<|0.05|TWO_SIDED|95.0|-5.2|0.0|||linear mixed effects model|||||0|-5.2|<0.05
92340027|NCT03675360|184581905|SUPERIORITY||Mean Difference (Net)|-4.7|||<|0.05|TWO_SIDED|95.0|-6.7|-2.6|||linear mixed effects model|||||-2.6|-6.7|<0.05
92340028|NCT03675360|184581906|SUPERIORITY||Mean Difference (Net)|-0.8|||<|0.05|TWO_SIDED|95.0|-1.8|0.3|||linear mixed effects model|||||0.3|-1.8|<0.05
92340029|NCT01156805|184581929|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|Mixed-effects linear regression, adjusted for clustering within schools and children to assess the effect of intervention on changes in BMI over time||||||0.05
92340030|NCT01431339|184581933|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority hypothesis test is a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the 95% CI for the difference in response rates in the ITT population is greater than -10% the NI of dalbavancin to vancomycin/linezolid will be concluded.|Difference in Proportions|-1.5||||||95.0|-7.4|4.6|||||Confidence intervals were adjusted for fever at baseline|||4.6|-7.4|
92340031|NCT02227784|184581966|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-33.48|||<|0.001|TWO_SIDED|95.0|-44.4|-23.3|||ANCOVA|||||-23.3|-44.4|<0.001
92340032|NCT02227784|184581966|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-27.24|||<|0.001|TWO_SIDED|95.0|-36.6|-18.5|||ANCOVA|||||-18.5|-36.6|<0.001
92340033|NCT02227784|184581966|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-6.14||||0.045|TWO_SIDED|95.0|-12.2|-0.22|||ANCOVA|||||-0.22|-12.2|0.045
92340034|NCT02227784|184581967|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|125.28|||<|0.001|TWO_SIDED|95.0|117.1|133.6|||Mixed Models Analysis|||||133.6|117.1|<0.001
92340035|NCT02227784|184581967|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|131.48|||<|0.001|TWO_SIDED|95.0|123.5|139.5|||Mixed Models Analysis|||||139.5|123.5|<0.001
92340036|NCT02227784|184581967|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|127.57|||<|0.001|TWO_SIDED|95.0|120.1|135.0|||Mixed Models Analysis|||||135.0|120.1|<0.001
92340037|NCT02227784|184581968|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|46.35|||<|0.001|TWO_SIDED|95.0|40.79|51.98|||ANCOVA|||||51.98|40.79|<0.001
92340038|NCT02227784|184581968|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|52.22|||<|0.001|TWO_SIDED|95.0|47.12|57.33|||ANCOVA|||||57.33|47.12|<0.001
92340039|NCT02227784|184581968|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|48.44|||<|0.001|TWO_SIDED|95.0|43.82|52.86|||ANCOVA|||||52.86|43.82|<0.001
92155524|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.73|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|-1.23|2.69||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 5 min||2.69|-1.23|
92155525|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|-1.32|2.29||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 10 min||2.29|-1.32|
92155526|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-1.76|2.08||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 20 min||2.08|-1.76|
92155527|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-1.09|2.35||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 30 min||2.35|-1.09|
92155528|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|90.0|-1.88|2.25||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 1 hour||2.25|-1.88|
92155529|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-1.47|2.37||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 1.5 hours||2.37|-1.47|
92340040|NCT02227784|184581969|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-26.47|||<|0.001|TWO_SIDED|95.0|-33.4|-20.0|||Mixed Models Analysis|||||-20.0|-33.4|<0.001
92340041|NCT02227784|184581969|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-22.02|||<|0.001|TWO_SIDED|95.0|-28.4|-15.9|||Mixed Models Analysis|||||-15.9|-28.4|<0.001
92340042|NCT02227784|184581969|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-7.05|||<|0.001|TWO_SIDED|95.0|-11.5|-2.68|||Mixed Models Analysis|||||-2.68|-11.5|<0.001
92155530|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|-1.99|1.92||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 2 hours||1.92|-1.99|
92155531|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|2.39|STANDARD_ERROR_OF_MEAN|1.23|||TWO_SIDED|90.0|0.35|4.43||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 3 hours||4.43|0.35|
92216625|NCT02022085|184333366|SUPERIORITY_OR_OTHER|||||||0.22|||||||Fisher's non-parametric permutation test|||1000Hz: 24 months with Baha Attract vs Softband||||0.22
92340043|NCT02227784|184581970|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-23.16|||<|0.001|TWO_SIDED|95.0|-30.0|-16.5|||ANCOVA|||||-16.5|-30.00|<0.001
92340044|NCT02227784|184581970|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-16.42|||<|0.001|TWO_SIDED|95.0|-22.3|-10.6|||ANCOVA|||||-10.6|-22.3|<0.001
92340045|NCT02227784|184581970|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-4.11||||0.062|TWO_SIDED|95.0|-8.47|0.15|||ANCOVA|||||0.15|-8.47|0.062
92340046|NCT02227784|184581971|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|38.05|||<|0.001|TWO_SIDED|95.0|30.17|45.88|||ANCOVA|||||45.88|30.17|<0.001
92340047|NCT02227784|184581971|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|42.12|||<|0.001|TWO_SIDED|95.0|34.29|49.76|||ANCOVA|||||49.76|34.29|<0.001
92340048|NCT02227784|184581971|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|39.64|||<|0.001|TWO_SIDED|95.0|33.2|46.08|||ANCOVA|||||46.08|33.20|<0.001
92340049|NCT02227784|184581972|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-33.18|||<|0.001|TWO_SIDED|95.0|-44.9|-22.3|||ANCOVA|||||-22.3|-44.9|<0.001
92340050|NCT02227784|184581972|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-32.63|||<|0.001|TWO_SIDED|95.0|-44.0|-21.8|||ANCOVA|||||-21.8|-44.0|<0.001
92340051|NCT02227784|184581972|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-42.15|||<|0.001|TWO_SIDED|95.0|-50.9|-33.4|||ANCOVA|||||-33.4|-50.9|<0.001
92340052|NCT01705977|184581973|OTHER||Difference in percentage versus placebo|0.1|||||TWO_SIDED|95.0|-0.31|0.51|||||95% Confidence Interval was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.51|-0.31|
92398834|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.27||0.3989|TWO_SIDED|95.0|-0.75|0.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.30|-0.75|0.3989
92398835|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.6094|TWO_SIDED|95.0|-0.66|0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.39|-0.66|0.6094
92398836|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.26||0.5229|TWO_SIDED|95.0|-0.35|0.69||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.69|-0.35|0.5229
92398837|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.26||0.4409|TWO_SIDED|95.0|-0.31|0.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.72|-0.31|0.4409
92398838|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.26||0.8062|TWO_SIDED|95.0|-0.45|0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.58|-0.45|0.8062
92340053|NCT01705977|184581974|OTHER||Difference in percentage versus placebo|-0.35|||||TWO_SIDED|95.0|-1.55|0.85|||||95% CI for serious infections was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.85|-1.55|
92340054|NCT01705977|184581974|OTHER||Difference in percentage versus placebo|-0.7|||||TWO_SIDED|95.0|-1.6|0.2|||||95% CI for opportunistic infections and other infections of interest (serious and non-serious) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.20|-1.60|
92340055|NCT01705977|184581974|OTHER||Difference in percentage versus placebo|0.0|||||TWO_SIDED|95.0|-0.31|0.31|||||95% CI for malignancies (excluding NMSC) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.31|-0.31|
92340056|NCT01705977|184581974|OTHER||Difference in percentage versus placebo|0.05|||||TWO_SIDED|95.0|-0.21|0.31|||||95% CI for NMSC was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.31|-0.21|
92398839|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.3663|TWO_SIDED|95.0|-0.71|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||0.26|-0.71|0.3663
92216626|NCT02022085|184333366|SUPERIORITY_OR_OTHER|||||||0.57|||||||Fisher's non-parametric permutation test|||2000Hz: 24 months with Baha Attract vs Softband||||0.57
92340057|NCT01705977|184581974|OTHER||Difference in percentage versus placebo|0.3|||||TWO_SIDED|95.0|0.02|0.58|||||95% CI for psychiatric events suggesting serious mood disorders and anxiety (serious depression) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.58|0.02|
92398840|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.25||0.0424|TWO_SIDED|95.0|-0.99|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||-0.02|-0.99|0.0424
92398841|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.25||0.1597|TWO_SIDED|95.0|-0.85|0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||0.14|-0.85|0.1597
92398842|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.25||0.0595|TWO_SIDED|95.0|-0.97|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||0.02|-0.97|0.0595
92398843|NCT03192176|184689418|SUPERIORITY||LSMean differnce|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.2162|TWO_SIDED|95.0|-0.8|0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.18|-0.80|0.2162
92340058|NCT01705977|184581974|OTHER||Difference in percentage versus placebo|0.26|||||TWO_SIDED|95.0|-0.44|0.96|||||95% CI for suicidality (C-SSRS) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.96|-0.44|
92340059|NCT01705977|184581974|OTHER||Difference in percentage versus placebo|0.3|||||TWO_SIDED|95.0|-0.01|0.61|||||95% CI for SIHR was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.61|-0.01|
92340060|NCT01705977|184581976|OTHER||Difference in percentage versus placebo|-0.45|||||TWO_SIDED|95.0|-1.03|0.13|||||95% CI was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.13|-1.03|
92340061|NCT01705977|184581977|OTHER||Difference in percentage versus placebo|-0.75|||||TWO_SIDED|95.0|-2.02|0.51|||||95% CI for serious infections was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.51|-2.02|
92398844|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.9833|TWO_SIDED|95.0|-0.49|0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||0.48|-0.49|0.9833
92398845|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.2034|TWO_SIDED|95.0|-0.81|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||0.17|-0.81|0.2034
92398846|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.35||0.9576|TWO_SIDED|95.0|-0.7|0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.67|-0.70|0.9576
92398847|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.041|TWO_SIDED|95.0|-1.4|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||-0.03|-1.40|0.0410
92398848|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.35||0.3961|TWO_SIDED|95.0|-1.0|0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.40|-1.00|0.3961
92398849|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.36||0.5012|TWO_SIDED|95.0|-0.94|0.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.46|-0.94|0.5012
92398850|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.35||0.2592|TWO_SIDED|95.0|-1.1|0.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.30|-1.10|0.2592
92216627|NCT02022085|184333366|SUPERIORITY_OR_OTHER|||||||0.064|||||||Fisher's non-parametric permutation test|||3000Hz: 24 months with Baha Attract vs Softband||||0.064
92398851|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.35||0.6141|TWO_SIDED|95.0|-0.51|0.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.86|-0.51|0.6141
92216628|NCT02022085|184333366|SUPERIORITY_OR_OTHER|||||||0.064|||||||Fisher's non-parametric permutation test|||4000Hz: 24 months with Baha Attract vs Softband||||0.064
92398852|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.35||0.439|TWO_SIDED|95.0|-0.95|0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.41|-0.95|0.4390
92398853|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.23||0.4521|TWO_SIDED|95.0|-0.64|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean Score||0.29|-0.64|0.4521
92398854|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.23||0.0257|TWO_SIDED|95.0|-0.99|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean Score||-0.06|-0.99|0.0257
92398855|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.0564|TWO_SIDED|95.0|-0.93|0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean Score||0.01|-0.93|0.0564
92398856|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.0293|TWO_SIDED|95.0|-0.99|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 8: Overall Mean Score||-0.05|-0.99|0.0293
92216629|NCT02022085|184333366|SUPERIORITY_OR_OTHER|||||||0.0051|||||||Fisher's non-parametric permutation test|||6000Hz: 24 months with Baha Attract vs Softband||||0.0051
92340062|NCT01705977|184581977|OTHER||Difference in percentage versus placebo|-1.0|||||TWO_SIDED|95.0|-1.96|-0.04|||||95% CI for opportunistic infections and other infections of interest (serious and non-serious) was calculated using simple asymptotic Chi-Square (Pearson) method.|||-0.04|-1.96|
92340063|NCT01705977|184581977|OTHER||Difference in percentage versus placebo|-0.1|||||TWO_SIDED|95.0|-0.44|0.24|||||95% CI for malignancies (excluding NMSC) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.24|-0.44|
92340064|NCT01705977|184581977|OTHER||Difference in percentage versus placebo|0.05|||||TWO_SIDED|95.0|-0.21|0.31|||||95% CI for NMSC was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.31|-0.21|
92340065|NCT01705977|184581977|OTHER||Difference in percentage versus placebo|0.3|||||TWO_SIDED|95.0|0.02|0.58|||||95% CI for psychiatric events suggesting serious mood disorders and anxiety (serious depression) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.58|0.02|
92340066|NCT01705977|184581977|OTHER||Difference in percentage versus placebo|0.31|||||TWO_SIDED|95.0|-0.42|1.05|||||95% CI for suicidality (C-SSRS) was calculated using simple asymptotic Chi-Square (Pearson) method.|||1.05|-0.42|
92340067|NCT01705977|184581977|OTHER||Difference in percentage versus placebo|0.3|||||TWO_SIDED|95.0|-0.01|0.61|||||95% CI for SIHR was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.61|-0.01|
92340068|NCT01705977|184581979|OTHER||Odds ratio versus placebo|1.3||||0.0284|TWO_SIDED|95.0|1.03|1.65|||Regression, Logistic||95% CI and P-value was calculated from a logistic regression model for the comparison between belimumab and placebo including treatment group, Baseline prednisone dose, screening SELENA SLEDAI score (\<=9 versus \>=10) and region|||1.65|1.03|0.0284
92340069|NCT01275144|184581982|SUPERIORITY_OR_OTHER||Ratio of geometric least square mean|0.897|||||TWO_SIDED|90.0|0.86|0.94|||||Ratio of LY2216684 to Placebo|||0.94|0.86|
92340070|NCT01275144|184581983|SUPERIORITY_OR_OTHER||median of paired differences|0.5||||0.0021|TWO_SIDED|90.0|0.5|1.0|||Wilcoxon signed rank test||Ratio of LY2216684 to Placebo|||1.00|0.50|0.0021
92340071|NCT01275144|184581984|SUPERIORITY_OR_OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|1.01|1.08|||||Ratio of LY2216684 to Placebo|||1.08|1.01|
92340072|NCT01852513|184582007|SUPERIORITY|||||||0.391|||||||t-test, 2 sided|||||||0.391
92340073|NCT01852513|184582008|SUPERIORITY|||||||0.789|||||||t-test, 2 sided|||||||0.789
92340074|NCT01852513|184582009|SUPERIORITY|||||||0.778|||||||t-test, 2 sided|||||||0.778
92340075|NCT01871077|184582011|OTHER|||||||0.89|||||||Friedman test|||||||0.890
92340076|NCT01871077|184582012|OTHER|||||||0.078|||||||Wilcoxon (Mann-Whitney)|||||||0.078
92340077|NCT01871077|184582013|OTHER|||||||1|||||||Friedman test|||||||1.000
92340078|NCT01871077|184582014|OTHER|||||||0.497|||||||Wilcoxon (Mann-Whitney)|||||||.497
92340079|NCT02864407|184582026|OTHER||||||<|0.0001||||||p-value for difference of Follow-up Week 24 (±2weeks) versus Baseline.|Paired t-test|||||||<0.0001
92340080|NCT02864407|184582027|OTHER||||||<|0.0001||||||p-value for difference of Week 52 (±2 weeks) versus Baseline.|Paired t-test|||||||<0.0001
92340081|NCT02864407|184582028|OTHER||||||<|0.0001||||||p-value for difference of Follow-up Week 24 (±2weeks) versus Baseline.|Paired t-test|||||||<0.0001
92340082|NCT02864407|184582029|OTHER||||||<|0.0001||||||p-value for difference of Follow-up Week 52 (±2weeks) versus Baseline.|Paired t-test|||||||<0.0001
92340083|NCT02864407|184582030|OTHER||||||<|0.0001|||||||Paired t-test|p-value for difference of Follow-up Week 24 (±2weeks) versus Baseline.||||||<0.0001
92340084|NCT02864407|184582031|OTHER||||||<|0.0001|||||||Paired t-test|p-value for difference of Follow-up Week 52 (±2weeks) versus Baseline.||||||<0.0001
92155532|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|90.0|-1.57|2.12||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 4 hours||2.12|-1.57|
92340085|NCT02864407|184582032|OTHER||||||<|0.0001|||||||Paired t-test|p-value for difference of Follow-up Week 24 (±2weeks) versus Baseline.||||||<0.0001
92340086|NCT02864407|184582033|OTHER||||||<|0.0001|||||||Paired t-test|p-value for difference of Follow-up Week 52 (±2weeks) versus Baseline.||||||<0.0001
92340087|NCT02864407|184582034|OTHER||||||<|0.0001||||||p-value for difference of Week 24 (±2 weeks) versus Baseline.|Paired t-test|||||||<0.0001
92340088|NCT02864407|184582035|OTHER||||||<|0.0001||||||p-value for difference of 52±2 weeks versus Baseline.|Paired t-test|||||||<0.0001
92340089|NCT02864407|184582036|OTHER||||||<|0.0001||||||p-value for difference of Week 24 (±2 weeks) versus Baseline.|Paired t-test|||||||<0.0001
92340090|NCT02864407|184582037|OTHER||||||<|0.0001||||||p-value for difference of Week 52 (±2 weeks) versus Baseline.|Paired t-test|||||||<0.0001
92340091|NCT02731300|184582057|SUPERIORITY_OR_OTHER||||||<|0.05||||||the final Week 4 values compared between active tDCS and sham tDCS groups|ANOVA|||the final Week 4 values compared between active tDCS and sham tDCS groups||||<0.05
92340092|NCT02731300|184582058|SUPERIORITY_OR_OTHER||||||<|0.05||||||the final Week 4 values compared between active tDCS and sham tDCS groups|ANOVA|||the final Week 4 values compared between active tDCS and sham tDCS groups||||<0.05
92340093|NCT02465164|184582059|OTHER|Wilcoxon rank-sum tests||||||0.208|||||||Wilcoxon (Mann-Whitney)|||||||0.208
92340094|NCT03110133|184582060|SUPERIORITY|||||||0.0488|||||||Chi-squared|||||||0.0488
92340095|NCT03110133|184582063|SUPERIORITY|||||||0.0347|||||||Chi-squared|||||||0.0347
92340096|NCT00520039|184582240|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.09|STANDARD_ERROR_OF_MEAN|0.94||0.02|TWO_SIDED|95.0|0.15|2.03|||Chi-squared|df = 1|The denominator of the Odds ratio represents the odds of improvement for the Standard Care Only (SCO) group.|Test of the null hypothesis that there is no improvement in MEE at Visit 3 using tympanogram.||2.03|0.15|0.02
92340097|NCT00520039|184582241|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.31|STANDARD_ERROR_OF_MEAN|1.31||0.32|TWO_SIDED|95.0|-1.0|1.62|||Chi-squared|df = 1|The odds of Resolution of MEE before OMT is represented in the denominator of the odds ratio|||1.62|-1.00|0.32
92340098|NCT00520039|184582242|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.25|STANDARD_ERROR_OF_MEAN|1.03||0.31|TWO_SIDED|95.0|-0.78|1.28|||Chi-squared|df = 1||||1.28|-0.78|.31
92340099|NCT02493517|184582249|NON_INFERIORITY|The non-inferiority margin is defined as 0.6 SDS for the upper limit of 95% CI of the LS mean difference of the log-transformed IGF-1 SDS without back-transformation.|Treatment difference|-0.32|||||TWO_SIDED|95.0|-0.74|0.11||||||"The Least Square (LS) Means and 95% Confidence Intervals (CIs) were based on the generalised linear model (GLM) with IGF-1 SDS change from baseline values as dependent variable, with treatment group and previous pituitary surgery as independent factors, and the baseline value of IGF-1 SDS as independent covariate. A log-transformation with base e was applied to the IGF-1 SDS data before analysing.~The treatment difference (lanreotide Autogel - lanreotide PR) is presented."||0.11|-0.74|
92340100|NCT02493517|184582249|NON_INFERIORITY|The non-inferiority margin for the back-transformed LS Mean ratio of IGF-1 SDS of lanreotide Autogel versus lanreotide PR is exp (0.6) = 1.822.|LS Mean ratio|0.73|||||TWO_SIDED|95.0|0.48|1.11||||||"The LS Means and 95% CIs were based on the GLM with IGF-1 SDS change from baseline values as dependent variable, with treatment group and previous pituitary surgery as independent factors, and the baseline value of IGF-1 SDS as independent covariate. A log-transformation with base e was applied to the IGF-1 SDS data before analysing.~The LS Mean ratio (lanreotide Autogel versus lanreotide PR) is presented."||1.11|0.48|
92340101|NCT02493517|184582250|OTHER||Risk Difference (RD)|6.3|||||TWO_SIDED|95.0|-5.2|17.7||||||The risk difference (lanreotide Autogel - lanreotide PR) in the percentage of normal IGF-1 SDS values at EOST/EW Visit is presented.||17.7|-5.2|
92340102|NCT02493517|184582251|OTHER||Risk Difference (RD)|-1.6|||||TWO_SIDED|95.0|-17.5|14.4||||||The risk difference (lanreotide Autogel - lanreotide PR) in the percentage of GH levels ≤2.5 mcg/L at EOST/EW Visit is presented.||14.4|-17.5|
92340103|NCT02493517|184582252|OTHER||Risk Difference (RD)|1.6|||||TWO_SIDED|95.0|-8.9|12.0||||||The risk difference (lanreotide Autogel - lanreotide PR) in the percentage of GH levels ≤1 mcg/L at EOST/EW Visit is presented.||12.0|-8.9|
92340104|NCT02493517|184582253|OTHER||Risk Difference (RD)|4.7|||||TWO_SIDED|95.0|-3.1|12.5||||||The risk difference (lanreotide Autogel - lanreotide PR) in the percentage subjects with normal IGF-1 levels and who have GH levels \>1 mcg/L and ≤2.5 mcg/L at EOST/EW Visit is presented.||12.5|-3.1|
92340105|NCT02493517|184582254|OTHER||Treatment difference|3.63|STANDARD_DEVIATION|21.6|||TWO_SIDED|95.0|-3.98|11.25||||||Treatment difference (lanreotide Autogel - lanreotide PR) is presented.||11.25|-3.98|
92340106|NCT02493517|184582255|OTHER||Risk Difference (RD)|-5.5|||||TWO_SIDED|95.0|-24.3|13.3||||||Risk difference (lanreotide Autogel - lanreotide PR) in the percentage of subjects with at least 20% reduction in the solid component of tumour volume compared to Baseline is presented.||13.3|-24.3|
92340107|NCT05404711|184582262|OTHER||AUC|0.56|||||TWO_SIDED|95.0|0.18|0.94|||||Area under the receiver operating characteristic curve (AUC) was 0.56 (95% CI 0.18-0.94) for 2-hour postprandial glucose.|||0.94|0.18|
92340108|NCT05404711|184582263|OTHER||AUC|0.56|||||TWO_SIDED|95.0|0.18|0.94|||||Area under the receiver operating characteristic curve (AUC) was 0.56 (95% CI 0.18-0.94) for 2-hour postprandial glucose.|||0.94|0.18|
92340109|NCT05404711|184582264|OTHER||AUC|0.56|||||TWO_SIDED|95.0|0.18|0.94|||||Area under the receiver operating characteristic curve (AUC) was 0.56 (95% CI 0.18-0.94) for 2-hour postprandial glucose.|||0.94|0.18|
92340110|NCT05404711|184582265|OTHER||AUC|0.56|||||TWO_SIDED|95.0|0.18|0.94|||||Area under the receiver operating characteristic curve (AUC) was 0.56 (95% CI 0.18-0.94) for 2-hour postprandial glucose.|||0.94|0.18|
92340111|NCT05404711|184582266|OTHER||AUC|1.0|||||TWO_SIDED||||||||Area under the receiver operating characteristic curve (AUC) was 1.00 (based on 100% sensitivity) for elevated fasting glucose.|||||
92340112|NCT05404711|184582267|OTHER||AUC|1.0|||||TWO_SIDED||||||||Area under the receiver operating characteristic curve (AUC) was 1.00 (based on 100% sensitivity) for elevated fasting glucose.|||||
92340113|NCT05404711|184582268|OTHER||AUC|1.0|||||TWO_SIDED||||||||Area under the receiver operating characteristic curve (AUC) was 1.00 (based on 100% sensitivity) for elevated fasting glucose.|||||
92340114|NCT05404711|184582269|OTHER||AUC|1.0|||||TWO_SIDED||||||||Area under the receiver operating characteristic curve (AUC) was 1.00 (based on 100% sensitivity) for elevated fasting glucose.|||||
92340115|NCT05404711|184582270|OTHER|Spearman correlation analysis|Spearman correlation rho|0.18||||0.3|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT fasting glucose and HbA1c.||||0.3
92340116|NCT05404711|184582270|OTHER|Spearman correlation analysis|Spearman correlation rho|0.5||||0.005|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT 2-hour glucose and HbA1c.||||0.005
92340117|NCT05404711|184582270|OTHER|Spearman correlation analysis|Spearman correlation rho|0.46||||0.01|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between delta (difference between fasting and postprandial) home-OGTT glucose and HbA1c.||||0.01
92340118|NCT05404711|184582270|OTHER|Spearman correlation analysis|Spearman correlation rho|0.23||||0.2|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT peak glucose and HbA1c.||||0.2
92340119|NCT05404711|184582270|OTHER|Spearman correlation analysis|Spearman correlation rho|0.14||||0.5|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between time of home-OGTT peak glucose and HbA1c.||||0.5
92340120|NCT05404711|184582270|OTHER|Spearman correlation analysis|Spearman correlation rho|0.29||||0.1|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM mean glucose (mg/dL) and HbA1c.||||0.1
92340121|NCT05404711|184582270|OTHER|Spearman correlation analysis|Spearman correlation rho|-0.15||||0.4|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM correlation of variability (CV) and HbA1c.||||0.4
92340122|NCT05404711|184582270|OTHER|Spearman correlation analysis|Spearman correlation rho|-0.06||||0.7|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM standard deviation and HbA1c.||||0.7
92340123|NCT05404711|184582271|OTHER|Spearman correlation analysis|Spearman correlation rho|0.25||||0.2|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT fasting glucose and laboratory-OGTT fasting glucose.||||0.2
92340124|NCT05404711|184582271|OTHER|Spearman correlation analysis|Spearman correlation rho|0.19||||0.3|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT 2-hour glucose and lab-OGTT fasting glucose.||||0.3
92216630|NCT02022085|184333367|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months: Speech in Noise with Baha Attract vs Softband||||0.46
92216631|NCT02022085|184333367|SUPERIORITY_OR_OTHER|||||||0.19|||||||Fisher's non-parametric permutation test|||12 months: Speech in Noise with Baha Attract vs Softband||||0.19
92340125|NCT05404711|184582271|OTHER|Spearman correlation analysis|Spearman correlation rho|-0.1||||0.6|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between delta (difference between fasting and postprandial) home-OGTT and lab-OGTT fasting glucose.||||0.6
92340126|NCT05404711|184582271|OTHER|Spearman correlation analysis|Spearman correlation rho|0.19||||0.3|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT peak glucose and lab-OGTT fasting glucose.||||0.3
92340127|NCT05404711|184582271|OTHER|Spearman correlation analysis|Spearman correlation rho|0.09||||0.6|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between time of home-OGTT peak glucose and lab-OGTT fasting glucose.||||0.6
92398857|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.3742|TWO_SIDED|95.0|-0.68|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean Score||0.26|-0.68|0.3742
92398858|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.9106|TWO_SIDED|95.0|-0.49|0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean Score||0.44|-0.49|0.9106
92398859|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.23||0.1844|TWO_SIDED|95.0|-0.78|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean SCore||0.15|-0.78|0.1844
92398860|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.41||0.0287|TWO_SIDED|95.0|-1.69|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-0.09|-1.69|0.0287
92398861|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.41||0.0028|TWO_SIDED|95.0|-2.05|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-0.43|-2.05|0.0028
92398862|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.42||0.0004|TWO_SIDED|95.0|-2.32|-0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-0.67|-2.32|0.0004
92398863|NCT03192176|184689418|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-2.87|-1.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-1.22|-2.87|<0.0001
92340128|NCT05404711|184582271|OTHER|Spearman correlation analysis|Spearman correlation rho|0.35||||0.05|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM mean glucose and lab-OGTT fasting glucose.||||0.05
92398864|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.42||0.1826|TWO_SIDED|95.0|-1.38|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||0.26|-1.38|0.1826
92398865|NCT03192176|184689418|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.41||0.0178|TWO_SIDED|95.0|-1.79|-0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-0.17|-1.79|0.0178
92155533|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|1.11|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-1.15|3.37||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 8 hours||3.37|-1.15|
92155534|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|90.0|-1.52|2.14||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 24 hours||2.14|-1.52|
92155535|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|4.81|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|90.0|2.84|6.78||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 5 min||6.78|2.84|
92155536|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|1.93|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|0.12|3.73||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 10 min||3.73|0.12|
92155537|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-1.71|2.12||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 20 min||2.12|-1.71|
92340129|NCT05404711|184582271|OTHER|Spearman correlation analysis|Spearman correlation rho|-0.18||||0.3|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM coefficient of variability (CV) and lab-OGTT fasting glucose.||||0.3
92216632|NCT02022085|184333367|SUPERIORITY_OR_OTHER|||||||0.31|||||||Fisher's non-parametric permutation test|||24 months: Speech in Noise with Baha Attract vs Softband||||0.31
92216633|NCT02022085|184333368|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months Speech in Quiet at 50dB||||0.43
92340130|NCT05404711|184582271|OTHER|Spearman correlation analysis|Spearman correlation rho|-0.07||||0.7|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM standard deviation (SD) and lab-OGTT fasting glucose.||||0.7
92340131|NCT05404711|184582272|OTHER|Spearman correlation analysis|Spearman correlation rho|0.1||||0.6|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT fasting glucose and lab-OGTT 2-hour glucose.||||0.6
92340132|NCT05404711|184582272|OTHER|Spearman correlation analysis|Spearman correlation rho|0.31||||0.1|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT 2-hour glucose and lab-OGTT 2-hour glucose.||||0.1
92216634|NCT02022085|184333368|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months Speech in Quiet at 65dB||||0.16
92216635|NCT02022085|184333368|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months Speech in Quiet at 80dB||||0.65
92216636|NCT02022085|184333368|SUPERIORITY_OR_OTHER|||||||0.93|||||||Fisher's non-parametric permutation test|||12 months Speech in Quiet at 50dB||||0.93
92340133|NCT05404711|184582272|OTHER|Spearman correlation analysis|Spearman correlation rho|0.25||||0.2|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between delta (difference between fasting and postprandial) home-OGTT glucose and lab-OGTT 2-hour glucose.||||0.2
92340134|NCT05404711|184582272|OTHER|Spearman correlation analysis|Spearman correlation rho|0.26||||0.2|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT peak glucose and lab-OGTT 2-hour glucose.||||0.2
92340135|NCT05404711|184582272|OTHER|Spearman correlation analysis|Spearman correlation rho|0.27||||0.2|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between time of home-OGTT peak glucose and lab-OGTT 2-hour glucose.||||0.2
92340136|NCT05404711|184582272|OTHER|Spearman correlation analysis|Spearman correlation rho|0.31||||0.08|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM mean glucose and lab-OGTT 2-hour glucose.||||0.08
92340137|NCT05404711|184582272|OTHER|Spearman correlation analysis|Spearman correlation rho|0.15||||0.4|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM coefficient of variability (CV) and lab-OGTT 2-hour glucose.||||0.4
92340138|NCT05404711|184582272|OTHER|Spearman correlation analysis|Spearman correlation rho|0.28||||0.1|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM standard deviation (SD) and lab-OGTT 2-hour glucose.||||0.1
92340139|NCT00325819|184582273|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66||||0.053|TWO_SIDED|95.0|0.41|1.01|||unadjusted Poisson regression|||The study sample size of 1000 children was selected to have 80% power to detect a 30% reduction in risk of the primary outcome of rectal temperature \>=38 following vaccination. In 2009, during the enrollment period of our trial, another paper reported the results of a randomized trial of acetaminophen prophylaxis in infants which found significantly lower immune responses to various vaccines in the acetaminophen group. In light of thse findings we elected to stop enrollment in our trial.||1.01|0.41|0.053
92340140|NCT00325819|184582274|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.0||||0.08||95.0|||||Fisher Exact|||||||0.08
92340141|NCT00325819|184582275|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.31||||0.02|TWO_SIDED|95.0|0.12|0.84|||unadjusted Poisson regression|||||0.84|0.12|0.02
92340142|NCT00325819|184582276|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.45||||0.14|TWO_SIDED|95.0|0.16|1.28|||unadjusted Poisson regression|||||1.28|0.16|0.14
92340143|NCT00325819|184582277|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4||||0.001|TWO_SIDED|95.0|0.25|0.7|||unadjusted Poisson regression|||||0.70|0.25|0.001
92340144|NCT00325819|184582278|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62||||0.4|TWO_SIDED|95.0|0.21|1.88|||unadjusted Poisson regression|||||1.88|0.21|0.40
92398866|NCT03192176|184689418|SUPERIORITY||LSMean differnce|-1.2|STANDARD_ERROR_OF_MEAN|0.41||0.0025|TWO_SIDED|95.0|-2.06|-0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-0.44|-2.06|0.0025
92340145|NCT00325819|184582279|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.25|3.94|||unadjusted Poisson regression|||||3.94|0.25|1.00
92340146|NCT00325819|184582280|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.94||||0.18|TWO_SIDED|95.0|0.6|14.34|||unadjusted Poisson regression|||||14.34|0.60|0.18
92398867|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.27||0.9163|TWO_SIDED|95.0|-0.55|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.50|-0.55|0.9163
92340147|NCT01548599|184582313|SUPERIORITY||Odds Ratio, log|2.028||||0.002|TWO_SIDED|95.0|0.766|3.289|||Mixed Models Analysis|||||3.289|0.766|0.002
92340148|NCT01548599|184582314|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92340149|NCT01548599|184582315|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.013
92340150|NCT01548599|184582316|SUPERIORITY||Odds Ratio (OR)|0.261|STANDARD_ERROR_OF_MEAN|0.398||0.378|TWO_SIDED|95.0|0.013|5.165|||Mixed Models Analysis|||||5.165|0.013|0.378
92340151|NCT01548599|184582317|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92340152|NCT01548599|184582318|SUPERIORITY|||||||0.398|||||||Mixed Models Analysis|||||||0.398
92340153|NCT02674503|184582326|SUPERIORITY|||||||0.02||||||Linear fixed effect models adjusted for time in months|Regression, Linear|||||||0.02
92340154|NCT02674503|184582330|SUPERIORITY|||||||0.13|||||||Regression, Linear|Linear effects model adjusted for time (in months)||||||0.13
92340155|NCT02674503|184582332|SUPERIORITY|||||||0.02|||||||Regression, Linear|Linear mixed effects models adjusted for time (in months)||||||0.02
92340156|NCT02371616|184582342|NON_INFERIORITY|Inferences: upper end of the 2-sided 95% CI for the treatment difference for the estimated effect of Test relative to Comparator, for success, should be \<=6mm. (i.e., Test is no more than 6mm inferior to Comparator).|Least square (LS) mean difference|2.67||||0.2678|TWO_SIDED|95.0|-2.06|7.4||From ANCOVA model: change from baseline as the response variable, treatment group, baseline Schiff stratum and study site as fixed effects, with baseline VAS score as covariate.|ANCOVA||Difference is first named treatment minus second named dentifrice such that a negative difference favors the first named treatment.|Statistical analysis applies to change from baseline at week 8 for test and comparator dentifrice.||7.40|-2.06|0.2678
92340157|NCT00754741|184582350|SUPERIORITY_OR_OTHER|||||||0.763|TWO_SIDED||||||ANOVA|||||||0.763
92340158|NCT00754741|184582350|SUPERIORITY_OR_OTHER|||||||0.285|TWO_SIDED||||||ANOVA|||||||0.285
92340159|NCT00754741|184582351|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||ANOVA|||||||0.380
92340160|NCT00754741|184582351|SUPERIORITY_OR_OTHER|||||||0.084|TWO_SIDED||||||ANOVA|||||||0.084
92340161|NCT00754741|184582352|SUPERIORITY_OR_OTHER|||||||0.667|TWO_SIDED||||||ANOVA|||||||0.667
92340162|NCT00754741|184582352|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||ANOVA|||||||0.530
92340163|NCT00754741|184582353|SUPERIORITY_OR_OTHER|||||||0.881|TWO_SIDED||||||ANOVA|||||||0.881
92340164|NCT00754741|184582353|SUPERIORITY_OR_OTHER|||||||0.849|TWO_SIDED||||||ANOVA|||||||0.849
92340165|NCT00754741|184582354|SUPERIORITY_OR_OTHER|||||||0.134|TWO_SIDED||||||Chi-squared|||||||0.134
92340166|NCT00754741|184582354|SUPERIORITY_OR_OTHER|||||||0.714|TWO_SIDED||||||Chi-squared|||||||0.714
92340167|NCT00754741|184582355|SUPERIORITY_OR_OTHER|||||||0.291|TWO_SIDED||||||ANOVA|||||||0.291
92340168|NCT00754741|184582355|SUPERIORITY_OR_OTHER|||||||0.968|TWO_SIDED||||||ANOVA|||||||0.968
92340169|NCT00754741|184582356|SUPERIORITY_OR_OTHER|||||||0.671|TWO_SIDED||||||ANOVA|||||||0.671
92340170|NCT00754741|184582356|SUPERIORITY_OR_OTHER|||||||0.399|TWO_SIDED||||||ANOVA|||||||0.399
92340171|NCT00754741|184582357|SUPERIORITY_OR_OTHER|||||||0.829|TWO_SIDED||||||ANOVA|||||||0.829
92340172|NCT00754741|184582357|SUPERIORITY_OR_OTHER|||||||0.283|TWO_SIDED||||||ANOVA|||||||0.283
92340173|NCT00754741|184582358|SUPERIORITY_OR_OTHER|||||||0.971|TWO_SIDED||||||ANOVA|||||||0.971
92340174|NCT00754741|184582358|SUPERIORITY_OR_OTHER|||||||0.115|TWO_SIDED||||||ANOVA|||||||0.115
92216637|NCT02022085|184333368|SUPERIORITY_OR_OTHER|||||||0.094|||||||Fisher's non-parametric permutation test|||12 months Speech in Quiet at 65dB||||0.094
92216638|NCT02022085|184333368|SUPERIORITY_OR_OTHER|||||||0.44|||||||Fisher's non-parametric permutation test|||12 months Speech in Quiet at 80dB||||0.44
92216639|NCT02022085|184333368|SUPERIORITY_OR_OTHER|||||||0.021|||||||Fisher's non-parametric permutation test|||24 months Speech in Quiet at 50dB||||0.021
92216640|NCT02022085|184333368|SUPERIORITY_OR_OTHER|||||||0.024|||||||Fisher's non-parametric permutation test|||24 months Speech in Quiet at 65dB||||0.024
92216641|NCT02022085|184333368|SUPERIORITY_OR_OTHER|||||||0.59|||||||Fisher's non-parametric permutation test|||24 months Speech in Quiet at 80dB||||0.59
92216642|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.088|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Comprehensive health state||||0.088
92340175|NCT00754741|184582359|SUPERIORITY_OR_OTHER|||||||0.573|TWO_SIDED||||||ANOVA|||||||0.573
92340176|NCT00754741|184582359|SUPERIORITY_OR_OTHER|||||||0.443|TWO_SIDED||||||ANOVA|||||||0.443
92340177|NCT00754741|184582360|SUPERIORITY_OR_OTHER|||||||0.469|TWO_SIDED||||||ANOVA|||||||0.469
92340178|NCT00754741|184582360|SUPERIORITY_OR_OTHER|||||||0.369|TWO_SIDED||||||ANOVA|||||||0.369
92216643|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Vision||||0.88
92216644|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Hearing||||0.020
92216645|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Speech||||0.039
92216646|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Ambulation||||0.25
92216647|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Dexterity||||0.38
92274918|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.12|||||TWO_SIDED|95.0|-18.49|38.73||||||For change in insomnia at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||38.73|-18.49|
92340179|NCT00754741|184582361|SUPERIORITY_OR_OTHER|||||||0.779|TWO_SIDED||||||ANOVA|||||||0.779
92340180|NCT00754741|184582361|SUPERIORITY_OR_OTHER|||||||0.733|TWO_SIDED||||||ANOVA|||||||0.733
92216648|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Emotion||||0.43
92216649|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Cognition||||0.85
92216650|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Pain||||0.25
92340181|NCT00754741|184582362|SUPERIORITY_OR_OTHER|||||||0.952|TWO_SIDED||||||ANOVA|||||||0.952
92340182|NCT00754741|184582362|SUPERIORITY_OR_OTHER|||||||0.856|TWO_SIDED||||||ANOVA|||||||0.856
92340183|NCT00754741|184582363|SUPERIORITY_OR_OTHER|||||||0.419|TWO_SIDED||||||Chi-squared|||||||0.419
92340184|NCT00754741|184582363|SUPERIORITY_OR_OTHER|||||||0.998|TWO_SIDED||||||Chi-squared|||||||0.998
92340185|NCT04152200|184582364|OTHER|Not applied|Least Squares (LS) Mean|-33.33|STANDARD_ERROR_OF_MEAN|17.63|||TWO_SIDED|95.0|-81.82|15.16|||Mixed model repeated measures (MMRM)|||Restricted maximum likelihood (REML) based Mixed Model Repeated Measures (MMRM) was used to test against the null hypothesis of mean change from baseline outcome being equal to 0. The model includes scheduled visits and baseline plasma oxalate (μmol/L) as fixed effects and patient as a random factor. Autoregressive (1) was used to model the within-patient variability.||15.16|-81.82|
92216651|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.088|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||24 months change in Comprehensive health state||||0.088
92216652|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.63|||||||Fisher's non-parametric permutation test|||24 months change in Vision||||0.63
92216653|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||24 months change in Hearing||||0.045
92216654|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.016|||||||Fisher's non-parametric permutation test|||24 months change in Speech||||0.016
92216655|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher's non-parametric permutation test|||24 months change in Ambulation||||0.25
92216656|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxan Signed Rank Test|Fisher's non-parametric permutation test failed to approximate p value so Wilcoxan Signed Rank Test instead||24 months change in Dexterity||||0.50
92216657|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.29|||||||Fisher's non-parametric permutation test|||24 months change in Emotion||||0.29
92216658|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.92|||||||Fisher's non-parametric permutation test|||24 months change in Cognition||||0.92
92216659|NCT02022085|184333369|SUPERIORITY_OR_OTHER|||||||0.02|||||||Fisher's non-parametric permutation test|||24 months change in Pain||||0.020
92216660|NCT02022085|184333370|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months: Ease of communication||||<0.0001
92216661|NCT02022085|184333370|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months: Background noise||||<0.0001
92216662|NCT02022085|184333370|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||6 months: Reverberation||||<0.0001
92216663|NCT02022085|184333370|SUPERIORITY_OR_OTHER|||||||0.69|||||||Fisher's non-parametric permutation test|||6 months: Aversiveness||||0.69
92216664|NCT02022085|184333370|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||6 months: Global||||<0.0001
92216665|NCT02022085|184333370|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher's non-parametric permutation test|||24 months: Ease of communication||||<0.001
92216666|NCT02022085|184333370|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher's non-parametric permutation test|||24 months: Background noise||||<0.001
92216667|NCT02022085|184333370|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher's non-parametric permutation test|||24 months: Reverberation||||<0.001
92340186|NCT04152200|184582365|OTHER|Not applied|Least Squares (LS) Mean|-42.43|STANDARD_ERROR_OF_MEAN|3.95|||TWO_SIDED|95.0|-50.71|-34.15|||MMRM|||REML based Mixed Model Repeated Measures MMRM was used to test against the null hypothesis of mean change from baseline outcome being equal to 0. The model includes scheduled visits and baseline plasma oxalate (μmol/L) as fixed effects and patient as a random factor. Autoregressive (1) was used to model the within-patient variability.||-34.15|-50.71|
92340187|NCT02699996|184582412|SUPERIORITY||Mean Difference (Final Values)|0.52|||<|0.01|TWO_SIDED|95.0|0.17|0.86|||t-test, 2 sided|df = 14||RTQ-Survivor Adolescent Responsibility Score||0.86|0.17|<.01
92398868|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.1597|TWO_SIDED|95.0|-0.92|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.15|-0.92|0.1597
92398869|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.4871|TWO_SIDED|95.0|-0.74|0.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.35|-0.74|0.4871
92398870|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.5401|TWO_SIDED|95.0|-0.72|0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.38|-0.72|0.5401
92398871|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.3788|TWO_SIDED|95.0|-0.3|0.79||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.79|-0.30|0.3788
92398872|NCT03192176|184689418|SUPERIORITY||0.28|0.2|STANDARD_ERROR_OF_MEAN|0.27||0.4541|TWO_SIDED|95.0|-0.33|0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.74|-0.33|0.4541
92398873|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.27||0.9233|TWO_SIDED|95.0|-0.51|0.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.56|-0.51|0.9233
92398874|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.6043|TWO_SIDED|95.0|-0.61|0.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.35|-0.61|0.6043
92398875|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.1781|TWO_SIDED|95.0|-0.82|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.15|-0.82|0.1781
92398876|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.5221|TWO_SIDED|95.0|-0.66|0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.34|-0.66|0.5221
92398877|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.4744|TWO_SIDED|95.0|-0.68|0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.32|-0.68|0.4744
92398878|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.5167|TWO_SIDED|95.0|-0.66|0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.33|-0.66|0.5167
92274919|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.83|||||TWO_SIDED|95.0|-13.98|55.65||||||For change in appetite loss at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||55.65|-13.98|
92398879|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.25||0.3441|TWO_SIDED|95.0|-0.25|0.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.72|-0.25|0.3441
92340188|NCT02699996|184582412|SUPERIORITY||Mean Difference (Final Values)|0.67|||<|0.01|TWO_SIDED|95.0|0.27|1.07|||t-test, 2 sided|df=14||RTQ-Overall Readiness Score||1.07|0.27|<.01
92398880|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.5362|TWO_SIDED|95.0|-0.64|0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.33|-0.64|0.5362
92340189|NCT02699996|184582413|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.02|TWO_SIDED|95.0|0.05|0.42|||t-test, 2 sided|df=14||TRI-total Score||0.42|0.05|0.02
92340190|NCT02699996|184582413|SUPERIORITY||Mean Difference (Final Values)|0.49|||<|0.01|TWO_SIDED|95.0|0.26|0.73|||t-test, 2 sided|df=14||TRI Knowledge score||0.73|0.26|<.01
92340191|NCT02699996|184582413|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.053|TWO_SIDED|95.0|-0.0044|0.6|||t-test, 2 sided|df=14||TRI Skills/Self-Efficacy Score||0.60|-0.0044|0.053
92216668|NCT02022085|184333370|SUPERIORITY_OR_OTHER|||||||0.84|||||||Fisher's non-parametric permutation test|||24 months: Aversiveness||||0.84
92216669|NCT02022085|184333370|SUPERIORITY_OR_OTHER||Fisher's non-parametric permutation test||||<|0.001|||||||Fisher's non-parametric permutation test|||24 months: Global||||<0.001
92216670|NCT02022085|184333371|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech: Change from pre-op to 6 months||||<0.0001
92216671|NCT02022085|184333371|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Spatial: Change from pre-op to 6 months||||<0.0001
92216672|NCT02022085|184333371|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Qualities: Change from pre-op to 6 months||||<0.0001
92216673|NCT02022085|184333371|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Speech: Change from pre-op to 24 months||||<0.0001
92216674|NCT02022085|184333371|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Spatial: Change from pre-op to 24 months||||<0.0001
92216675|NCT02022085|184333371|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Qualities: Change from pre-op to 24 months||||<0.0001
92216676|NCT01195090|184333435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.16||0.165|TWO_SIDED|95.0|-0.58|0.08||The change from baseline in A1C were determined using an analysis of co-variance (ANCOVA) model with the factor 'treatment' and baseline A1C as covariate.|ANCOVA|||The change from baseline in A1C were determined using an analysis of co-variance (ANCOVA) model with the factor 'treatment' and baseline A1C as covariate.||0.08|-0.58|0.165
92216677|NCT01195090|184333451|NON_INFERIORITY_OR_EQUIVALENCE|Chi-square test|Chi-Square|0.0034||||0.954||||||Chi-square test|Chi-squared|||Chi-square test for percentages of patient achieving an A1C \<7%||||0.954
92216678|NCT05111041|184333464|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.302|3.309||Not adjusted for multiple outcomes due to exploratory nature of the study.|Regression, Logistic|||||3.309|0.302|1.000
92340192|NCT02699996|184582413|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.03|TWO_SIDED|95.0|0.02|0.24|||t-test, 2 sided|df=14||TRI Beliefs/Expectations score||0.24|0.02|0.03
92340193|NCT02699996|184582413|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.01|TWO_SIDED|95.0|0.11|0.69|||t-test, 2 sided|df=14||TRI Goals/Motivation score||0.69|0.11|<.01
92216679|NCT05111041|184333465|SUPERIORITY||Odds Ratio (OR)|0.8||||0.7389|TWO_SIDED|95.0|0.215|2.972||Not adjusted for multiple outcomes due to exploratory nature of the study.|Regression, Logistic|||||2.972|0.215|0.7389
92216680|NCT05111041|184333467|SUPERIORITY||Odds Ratio (OR)|1.306||||0.6058|TWO_SIDED|95.0|0.474|3.602||Not adjusted for multiple outcomes due to exploratory nature of the study.|Regression, Logistic|||||3.602|0.474|0.6058
92340194|NCT02699996|184582413|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.61|TWO_SIDED|95.0|-0.16|0.26|||t-test, 2 sided|df=14||Relationship/Communication Score||0.26|-0.16|0.61
92216681|NCT05111041|184333468|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.349|2.866||||||||2.866|0.349|
92216682|NCT05111041|184333469|SUPERIORITY||Odds Ratio (OR)|1.333||||0.5925|TWO_SIDED|95.0|0.465|3.823||Not adjusted for multiple outcomes due to exploratory nature of the study.|Regression, Logistic|||||3.823|0.465|0.5925
92216683|NCT01205230|184333475|SUPERIORITY_OR_OTHER||Ratio of least square geometric means|1.66|||||TWO_SIDED|90.0|1.39|1.99|||||Ratio of least square (LS) geometric means (Pazopanib + Ketoconozole : Pazopanib alone)|||1.99|1.39|
92340195|NCT02699996|184582413|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.65|TWO_SIDED|95.0|-0.37|0.57|||t-test, 2 sided|df=14||TRI Psychosocial/Emotional Score||0.57|-0.37|0.65
92340196|NCT02699996|184582414|SUPERIORITY||Median Difference (Final Values)|-1.64||||0.56|TWO_SIDED|95.0|-7.62|4.34|||t-test, 2 sided|df = 13||||4.34|-7.62|.56
92340197|NCT02699996|184582415|SUPERIORITY||Mean Difference (Final Values)|-1.74||||0.42|TWO_SIDED|95.0|-6.23|2.75|||t-test, 2 sided|df = 14||||2.75|-6.23|.42
92216684|NCT01205230|184333475|SUPERIORITY_OR_OTHER||Ratio of LS geometric means|0.6|||||TWO_SIDED|90.0|0.52|0.7|||||Ratio of LS geometric means (Pazopanib + Esomeprazole : Pazopanib alone)|||0.70|0.52|
92216685|NCT01205230|184333476|SUPERIORITY_OR_OTHER||Ratio of LS geometric means|1.45|||||TWO_SIDED|90.0|1.14|1.86|||||Ratio of LS geometric means (Pazopanib + Ketoconozole : Pazopanib alone)|||1.86|1.14|
92216686|NCT01205230|184333476|SUPERIORITY_OR_OTHER||Ratio of LS geometric means|0.58|||||TWO_SIDED|90.0|0.5|0.67|||||Ratio of LS geometric means (Pazopanib + Esomeprazole : Pazopanib alone)|||0.67|0.50|
92216687|NCT01205230|184333477|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.45|||||TWO_SIDED|90.0|-1.06|0.06||||||||0.06|-1.06|
92216688|NCT01205230|184333477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07|||||TWO_SIDED|90.0|-0.1|2.44||||||||2.44|-0.10|
92216689|NCT00823823|184333501|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||The frequency of loss of reduction during the study period was compared across casting groups using a two-sided chi-square test with alpha = 0.05.||||1.00
92216690|NCT01338415|184333509|OTHER||Hazard Ratio (HR)|1.438|||||TWO_SIDED|95.0|0.47|4.399|||Regression, Cox|||Post-hoc analysis: Cox proportional hazard regression univariate model with treatment as covariate (treatment-only univariate model)||4.399|0.470|
92216691|NCT01338415|184333509|OTHER|||||||0.0526||||||p-value \<= 10% indicates that the covariate WHO FC at baseline is related to the time to PAH worsening|Regression, Cox|||Post-hoc analysis: Cox proportional hazard regression univariate model with WHO FC at baseline (FC III vs FC I/II) as covariate||||0.0526
92216692|NCT01338415|184333509|OTHER||Hazard Ratio (HR)|1.169||||||95.0|0.371|3.681|||Regression, Cox|||Post-hoc analysis: Treatment Hazard Ratio (HR) in the multivariate model with treatment and WHO FC at baseline as covariates||3.681|0.371|
92216693|NCT01338415|184333509|SUPERIORITY|||||||0.076||||||p-value \<= 10% indicates an improvement in model fit|log(e) likelihood ratio|||Test of improvement in model fit from the univariate to the multivariate model with WHO FC at baseline as covariate||||0.076
92216694|NCT01338415|184333510|OTHER||Hazard Ratio (HR)|1.935|||||TWO_SIDED|95.0|0.582|6.428|||Regression, Cox|||Post-hoc analysis: Cox proportional hazard regression univariate model with treatment as covariate (treatment-only univariate model)||6.428|0.582|
92340198|NCT02699996|184582416|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.26|TWO_SIDED|95.0|-0.8|0.23|||t-test, 2 sided|df = 14||||0.23|-0.80|.26
92340199|NCT02699996|184582417|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.03|TWO_SIDED|95.0|0.03|0.52|||t-test, 2 sided|df = 14||||0.52|0.03|.03
92340200|NCT02699996|184582418|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.2|TWO_SIDED|95.0|-0.12|0.52|||t-test, 2 sided|df = 14||Body Health Subscale||0.52|-0.12|.20
92340201|NCT02699996|184582418|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.4|TWO_SIDED|95.0|-0.46|0.2|||t-test, 2 sided|df = 14||Personal Growth Subscale||0.20|-0.46|.40
92340202|NCT02699996|184582418|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.29|TWO_SIDED|95.0|-0.09|0.29|||t-test, 2 sided|df = 14||Memory Subscale||0.29|-0.09|.29
92340203|NCT02699996|184582419|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.08|TWO_SIDED|95.0|-0.4|0.03|||t-test, 2 sided|df = 14||||0.03|-0.40|.08
92340204|NCT01307787|184582486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.002
92340205|NCT01307787|184582487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.47
92340206|NCT01307787|184582488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.24
92340207|NCT01307787|184582489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.16
92398881|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.38||0.9349|TWO_SIDED|95.0|-0.78|0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.71|-0.78|0.9349
92398882|NCT03192176|184689418|SUPERIORITY||LSMean differencce|-1.0|STANDARD_ERROR_OF_MEAN|0.39||0.0084|TWO_SIDED|95.0|-1.78|-0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||-0.26|-1.78|0.0084
92340208|NCT01307787|184582490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.21
92340209|NCT01307787|184582491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.07
92340210|NCT01307787|184582492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.4
92340211|NCT01307787|184582493|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.6
92340212|NCT01965327|184582522|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027|TWO_SIDED||||||t-test, 2 sided|Missing data were imputed by last observation carried forward.||||||0.027
92340213|NCT01965327|184582523|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0078|TWO_SIDED||||||t-test, 2 sided|||||||0.0078
92340214|NCT01294423|184582524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.0853|<|0.0001|TWO_SIDED|95.0|-0.52|-0.18||significant at alpha=0.027 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) and gender as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.027 applying Dunnett's adjustment, two-sided)||-0.18|-0.52|<0.0001
92398883|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.39||0.1212|TWO_SIDED|95.0|-1.38|0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.16|-1.38|0.1212
92398884|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.39||0.7709|TWO_SIDED|95.0|-0.89|0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.66|-0.89|0.7709
92340215|NCT01294423|184582524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.0851|<|0.0001|TWO_SIDED|95.0|-0.56|-0.23||significant at alpha=0.027 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) and gender as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.027 applying Dunnett's adjustment, two-sided)||-0.23|-0.56|<0.0001
92155538|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-1.29|2.15||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 30 min||2.15|-1.29|
92155539|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.47|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|90.0|-1.6|2.53||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 1 hour||2.53|-1.60|
92155540|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-3.03|0.81||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 1.5 hours||0.81|-3.03|
92155541|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|-3.13|0.78||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 2 hours||0.78|-3.13|
92155542|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|1.23|||TWO_SIDED|90.0|-3.36|0.71||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 3 hours||0.71|-3.36|
92155543|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|90.0|-2.69|1.0||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 4 hours||1.00|-2.69|
92155544|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-1.94|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-4.19|0.32||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 8 hours||0.32|-4.19|
92155545|NCT03657264|184197471|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|90.0|-1.62|2.04||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 24 hours||2.04|-1.62|
92155546|NCT03657264|184197472|SUPERIORITY|The lower limit of the adjusted confidence interval was expected upper to the margin of 5 milliseconds.|Least Squares Mean Difference|4.62|STANDARD_ERROR_OF_MEAN|1.23|||TWO_SIDED|90.0|2.58|6.66||p-value is not shown, as this is a non-inferiority study.|ANCOVA|As multiple timepoints were examined separately, the overall type I error rate needed to be adjusted.||For the timepoint 1 hour||6.66|2.58|
92155547|NCT03657264|184197472|SUPERIORITY|The lower limit of the adjusted confidence interval was expected upper to the margin of 5 milliseconds.|Least Squares Mean Difference|9.4|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|7.14|11.66||p-value is not shown, as this is a non-inferiority study.|ANCOVA|As multiple timepoints were examined separately, the overall type I error rate needed to be adjusted.||For the timepoint 1.5 hours||11.66|7.14|
92155548|NCT03657264|184197472|SUPERIORITY|The lower limit of the adjusted confidence interval was expected upper to the margin of 5 milliseconds.|Least Squares Mean Difference|10.55|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|7.92|13.17||p-value is not shown, as this is a non-inferiority study.|ANCOVA|As multiple timepoints were examined separately, the overall type I error rate needed to be adjusted.||For the timepoint 2 hours||13.17|7.92|
92155549|NCT03657264|184197472|SUPERIORITY|The lower limit of the adjusted confidence interval was expected upper to the margin of 5 milliseconds.|Least Squares Mean Difference|10.33|STANDARD_ERROR_OF_MEAN|1.22|||TWO_SIDED|90.0|7.7|12.95||p-value is not shown, as this is a non-inferiority study.|ANCOVA|As multiple timepoints were examined separately, the overall type I error rate needed to be adjusted.||For the timepoint 3 hours||12.95|7.70|
92155550|NCT03657264|184197472|SUPERIORITY|The lower limit of the adjusted confidence interval was expected upper to the margin of 5 milliseconds.|Least Squares Mean Difference|10.65|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|90.0|8.05|13.25||p-value is not shown, as this is a non-inferiority study.|ANCOVA|As multiple timepoints were examined separately, the overall type I error rate needed to be adjusted.||For the timepoint 4 hours||13.25|8.05|
92340216|NCT01294423|184582525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.4|STANDARD_ERROR_OF_MEAN|2.902|<|0.0001|TWO_SIDED|95.0|-20.1|-8.7||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c at randomization by gender) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-8.7|-20.1|<0.0001
92398885|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.1667|TWO_SIDED|95.0|-1.33|0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.23|-1.33|0.1667
92155551|NCT00924469|184197477|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.61||||0.0216||90.0|0.429|0.865||Test for no difference of natural log transformed values between treatments was calculated using two-way analysis of variance (ANOVA) adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 1 for testosterone concentration at Week 12||0.865|0.429|0.0216
92216695|NCT01338415|184333510|OTHER|||||||0.0085|||||||Regression, Cox|p-value \<= 10% indicates that the covariate is related to the time to the time to death up to end-of-study||Post-hoc analysis: Cox proportional hazard regression univariate model with WHO FC at baseline (FC III vs FC I/II) as covariate||||0.0085
92340217|NCT01294423|184582525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5|STANDARD_ERROR_OF_MEAN|2.892|<|0.0001|TWO_SIDED|95.0|-25.2|-13.8||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c at randomization by gender) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-13.8|-25.2|<0.0001
92216696|NCT01338415|184333510|OTHER||Hazard Ratio (HR)|1.487|||||TWO_SIDED|95.0|0.437|5.052|||Regression, Cox|||Post-hoc analysis: Treatment Hazard Ratio (HR) in the multivariate model with treatment and WHO FC at baseline as covariates||5.052|0.437|
92216697|NCT01338415|184333510|SUPERIORITY|||||||0.014|||||||log(e) likelihood ratio|p-value \<= 10% indicates an improvement in model fit||Test of the improvement in model fit from the univariate to the multivariate model with WHO FC at baseline as covariate||||0.014
92216698|NCT03334409|184333549|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92216699|NCT03334409|184333550|SUPERIORITY|||||||0.08|||||||Log Rank|||||||0.08
92216700|NCT03334409|184333551|SUPERIORITY|||||||0.08|||||||Log Rank|||||||0.08
92216701|NCT03334409|184333552|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92216702|NCT03334409|184333553|SUPERIORITY|||||||0.18|||||||Kruskal-Wallis|||||||0.18
92216703|NCT03334409|184333554|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92216704|NCT01495858|184333560|SUPERIORITY_OR_OTHER|||||||0.3047|||||||ANCOVA|||||||0.3047
92216705|NCT01495858|184333561|SUPERIORITY_OR_OTHER|||||||0.1677|||||||Log Rank|||||||0.1677
92216706|NCT01495858|184333562|SUPERIORITY_OR_OTHER|||||||0.2764|||||||ANCOVA|||||||0.2764
92216707|NCT01495858|184333563|SUPERIORITY_OR_OTHER|||||||0.2764|||||||ANCOVA|||||||0.2764
92216708|NCT01495858|184333564|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92398886|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.38||0.9213|TWO_SIDED|95.0|-0.72|0.79||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.79|-0.72|0.9213
92216709|NCT01495858|184333565|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Cochran-Mantel-Haenszel|||||||0.0004
92216710|NCT01495858|184333566|SUPERIORITY_OR_OTHER|||||||0.0145|||||||Cochran-Mantel-Haenszel|||||||0.0145
92216711|NCT01495858|184333567|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
92216712|NCT01495858|184333568|SUPERIORITY_OR_OTHER|||||||0.0387|||||||Cochran-Mantel-Haenszel|||||||0.0387
92216713|NCT01495858|184333569|SUPERIORITY_OR_OTHER|||||||0.0305|||||||Cochran-Mantel-Haenszel|||||||0.0305
92216714|NCT01495858|184333570|SUPERIORITY_OR_OTHER|||||||0.0176|||||||Cochran-Mantel-Haenszel|||||||0.0176
92216715|NCT01495858|184333571|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92216716|NCT01495858|184333572|SUPERIORITY_OR_OTHER|||||||0.0036|||||||Cochran-Mantel-Haenszel|||||||0.0036
92216717|NCT01495858|184333573|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92216718|NCT01495858|184333574|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
92216719|NCT01495858|184333575|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
92216720|NCT01495858|184333576|SUPERIORITY_OR_OTHER|||||||0.4519|||||||ANCOVA|||||||0.4519
92216721|NCT01495858|184333577|SUPERIORITY_OR_OTHER|||||||0.3707|||||||ANCOVA|||||||0.3707
92216722|NCT01495858|184333578|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Log Rank|||||||>0.05
92216723|NCT01495858|184333580|SUPERIORITY_OR_OTHER|||||||0.3765|||||||Cochran-Mantel-Haenszel|||||||0.3765
92216724|NCT00718549|184333597|SUPERIORITY|||||||0.028|||||||Log Rank|||||||0.028
92216725|NCT00718549|184333597|SUPERIORITY||Hazard Ratio (HR)|0.418||||0.033||95.0|0.187|0.933|||Cox's proportional hazards regression|||Univariate comparison||0.933|0.187|0.033
92216726|NCT00718549|184333597|SUPERIORITY||Hazard Ratio (HR)|0.052||||0.111|TWO_SIDED|95.0|0.001|1.972|||Cox's proportional hazards model|||Multivariate Comparison||1.972|0.001|0.111
92216727|NCT00718549|184333598|SUPERIORITY||Odds Ratio (OR)|3.654||||0.155|TWO_SIDED|95.0|0.674|28.337|||Regression, Logistic|||Week 129: Univariate Comparison||28.337|0.674|0.155
92216728|NCT00718549|184333599|SUPERIORITY||Odds Ratio (OR)|0.625||||0.634|TWO_SIDED|95.0|0.073|4.114|||Regression, Logistic|||Week 129: Univariate comparison||4.114|0.073|0.634
92216729|NCT00718549|184333600|SUPERIORITY||Hazard Ratio (HR)|0.769||||0.752|TWO_SIDED|95.0|0.151|3.92|||Cox's proportional hazards model|||Multivariate Comparison: Age \<60 years versus Age \>/=60 years||3.920|0.151|0.752
92216730|NCT00718549|184333600|SUPERIORITY||Hazard Ratio (HR)|0.068||||0.128|TWO_SIDED|95.0|0.002|2.158|||Cox's proportional hazards model|||Multivariate Comparison: Sex: Female versus Male||2.158|0.002|0.128
92216731|NCT00718549|184333600|SUPERIORITY||Hazard Ratio (HR)|2.282||||0.728|TWO_SIDED|95.0|0.022|240.864|||Cox's proportional hazards model|||Multivariate Comparison: Rai Stage: I or II versus Rai Stage: III or IV||240.864|0.022|0.728
92216732|NCT00718549|184333600|SUPERIORITY||Hazard Ratio (HR)|26.275||||0.048|TWO_SIDED|95.0|1.036|666.708|||Cox's proportional hazards model|||Multivariate Comparison: Beta-2-Microglobulin \>/= Median Value versus Beta-2-Microglobulin \<Median Value||666.708|1.036|0.048
92216733|NCT00718549|184333600|SUPERIORITY||Hazard Ratio (HR)|0.21||||0.417|TWO_SIDED|95.0|0.005|9.1|||Cox's proportional hazards model|||Multivariate Comparison: ZAP-70 Expression Negative versus Positive||9.100|0.005|0.417
92216734|NCT00718549|184333600|SUPERIORITY||Hazard Ratio (HR)|0.197||||0.134|TWO_SIDED|95.0|0.024|1.647|||Cox's proportional hazards model|||Multivariate Comparison: CD38 Expression Negative versus Positive||1.647|0.024|0.134
92216735|NCT00718549|184333600|SUPERIORITY||Hazard Ratio (HR)|8.373||||0.426|TWO_SIDED|95.0|0.045|1568.717|||Cox's proportional hazards model|||Multivariate Comparison: Cytogenetic abnormality 17p No versus Yes||1568.717|0.045|0.426
92216736|NCT00718549|184333600|SUPERIORITY||Hazard Ratio (HR)|0.438||||0.733|TWO_SIDED|95.0|0.004|50.334|||Cox's proportional hazards model|||Multivariate Comparison: Cytogenetic abnormality 13q No versus Yes||50.334|0.004|0.733
92216737|NCT00718549|184333600|SUPERIORITY||Hazard Ratio (HR)|2.621||||0.463|TWO_SIDED|95.0|0.2|34.422|||Cox's proportional hazards model|||Multivariate Comparison: Cytogenetic abnormality 11q No versus Yes||34.422|0.200|0.463
92340218|NCT01294423|184582526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|0.3533||0.0003|TWO_SIDED|95.0|-1.98|-0.59||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c at randomization by gender) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.59|-1.98|0.0003
92155552|NCT00924469|184197478|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.43||||0.1423||90.0|0.956|2.145||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 1 for testosterone concentration at Week 24||2.145|0.956|0.1423
92155553|NCT00924469|184197478|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.82||||0.6639||90.0|0.386|1.746||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 2 for DHT concentration at Week 24||1.746|0.386|0.6639
92155554|NCT00924469|184197479|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.32|||<|0.0001||90.0|0.239|0.418||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 1 for androstenedione concentration at Week 12||0.418|0.239|<0.0001
92155555|NCT00924469|184197479|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.13||||0.5061||90.0|0.828|1.554||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 2 for androstenedione concentration at Week 24||1.554|0.828|0.5061
92155556|NCT00924469|184197479|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.03|||<|0.0001||90.0|0.017|0.05||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 3 for DHEA concentration at Week 12||0.050|0.017|<0.0001
92155557|NCT00924469|184197479|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.79||||0.5767||90.0|0.398|1.581||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 4 for DHEA concentration at Week 24||1.581|0.398|0.5767
92155558|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.14|||<|0.0001||90.0|0.097|0.207||Test for no difference of natural log transformed values between treatments was calculated using analysis of covariance (ANCOVA) adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 1 for serum testosterone concentration at Week 12||0.207|0.097|<0.0001
92155559|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.84||||0.4364||90.0|0.571|1.225||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 2 for serum testosterone concentration at Week 24||1.225|0.571|0.4364
92155560|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.75||||0.1515||90.0|0.54|1.044||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 3 for serum DHT concentration at Week 12||1.044|0.540|0.1515
92155561|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.84||||0.3965||90.0|0.589|1.188||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 4 for serum DHT concentration at Week 24||1.188|0.589|0.3965
92155562|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.42||||0.0003||90.0|0.29|0.615||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 5 for serum Androsterone concentration at Week 12||0.615|0.290|0.0003
92155563|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.22||||0.2494||90.0|0.916|1.625||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 6 for serum androsterone concentration at Week 24||1.625|0.916|0.2494
92155564|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.04|||<|0.0001||90.0|0.023|0.073||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 7 for serum DHEA concentration at Week 12||0.073|0.023|<0.0001
92155565|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.24||||0.5144||90.0|0.717|2.137||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 8 for serum DHEA concentration at Week 24||2.137|0.717|0.5144
92155566|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.1|||<|0.0001||90.0|0.055|0.189||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 9 for serum DHEA-glucuronide concentration at Week 12||0.189|0.055|<0.0001
92155567|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.55||||0.1329||90.0|0.286|1.06||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 10 for serum DHEA-glucuronide concentration at Week 24||1.060|0.286|0.1329
92155568|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.01|||<|0.0001||90.0|0.008|0.028||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 11 for serum DHEA-sulfate concentration at Week 12||0.028|0.008|<0.0001
92155569|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.2||||0.7061||90.0|0.53|2.73|||ANCOVA|||Statistical Analysis 12 for serum DHEA-sulfate concentration at Week 24||2.730|0.530|0.7061
92155570|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.42|||<|0.0001||90.0|0.29|0.615||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 13 for serum delta-4-androstenedione concentration at Week 12||0.615|0.290|<0.0001
92155571|NCT00924469|184197480|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.22||||0.2673||90.0|0.916|1.625||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 14 for serum delta-4-androstenedione concentration at Week 24||1.625|0.916|0.2673
92155572|NCT00924469|184197481|SUPERIORITY_OR_OTHER||Relative risk|25.533|||<|0.0001||90.0|4.989|130.68|||Cochran-Mantel-Haenszel|||Statistical Analysis 1 for PSA response at Week 12||130.680|4.989|<0.0001
92155573|NCT00924469|184197481|SUPERIORITY_OR_OTHER||Relative risk|1.131||||0.2319||90.0|0.956|1.337|||Cochran-Mantel-Haenszel|||Statistical Analysis 2 for PSA response at Week 24||1.337|0.956|0.2319
92155574|NCT00924469|184197482|SUPERIORITY_OR_OTHER||Relative risk|2.744||||0.3427||90.0|1.018|5.015|||Cochran-Mantel-Haenszel|||Statistical Analysis 1 for CR at Week 24||5.015|1.018|0.3427
92155575|NCT00924469|184197485|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.17|||<|0.0001||90.0|0.098|0.289||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 2 for DHT concentration at Week 12||0.289|0.098|<0.0001
92155576|NCT01651936|184197486|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares means|-0.52||||0.308|TWO_SIDED|95.0|-1.54|0.5|||Constrained Longitudinal Data Analysis|||||0.50|-1.54|0.308
92155577|NCT01651936|184197487|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentages|-0.26||||0.91|TWO_SIDED|95.0|-23.52|23.01|||Cochran-Mantel-Haenszel|||||23.01|-23.52|0.91
92155578|NCT01651936|184197489|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentages|8.46||||0.468|TWO_SIDED|95.0|-10.4|27.32|||Cochran-Mantel-Haenszel|||||27.32|-10.40|0.468
92155579|NCT01651936|184197491|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares means|-0.41||||0.038|TWO_SIDED|95.0|-0.79|-0.02|||Constrained Longitudinal Data Analysis|||||-0.02|-0.79|0.038
92155580|NCT03875911|184197539|EQUIVALENCE|ANOVA was used to analyze equivalence between arms||||||0.52|||||||ANOVA|||||||0.52
92155581|NCT03875911|184197540|EQUIVALENCE|Equivalence calculated using ANOVA||||||0.01|||||||ANOVA|||||||0.01
92155582|NCT03875911|184197541|EQUIVALENCE|Equivalence was assessed using ANOVA||||||0.25|||||||ANOVA|||||||0.25
92155583|NCT03875911|184197542|EQUIVALENCE|Equivalence determined by ANOVA||||||0.93|||||||ANOVA|||||||0.93
92155584|NCT03875911|184197543|EQUIVALENCE|Equivalence determined by ANOVA||||||0.83|||||||ANOVA|||||||0.83
92155585|NCT03875911|184197544|EQUIVALENCE|Equivalence was determined using ANOVA||||||0.54|||||||ANOVA|||||||0.54
92155586|NCT02293837|184197588|SUPERIORITY|||||||0.277||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52; Primary imputation method used for missing Week 52 mAUC.||||0.277
92155587|NCT02293837|184197589|SUPERIORITY|||||||0.499||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 24||||0.499
92155588|NCT02293837|184197589|SUPERIORITY|||||||0.267||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52||||0.267
92155589|NCT02293837|184197589|SUPERIORITY|||||||0.226||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104||||0.226
92155590|NCT02293837|184197589|SUPERIORITY|||||||0.758||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 24||||0.758
92155591|NCT02293837|184197589|SUPERIORITY|||||||0.341||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52||||0.341
92155592|NCT02293837|184197589|SUPERIORITY|||||||0.969||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104||||0.969
92155593|NCT02293837|184197589|SUPERIORITY|||||||0.689||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 24||||0.689
92155594|NCT02293837|184197589|SUPERIORITY|||||||0.4||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52||||0.400
92155595|NCT02293837|184197589|SUPERIORITY|||||||0.969||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104||||0.969
92155596|NCT02293837|184197590|SUPERIORITY|||||||0.679||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was 2-hour C-peptide mAUC and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.679
92155597|NCT02293837|184197590|SUPERIORITY|||||||0.373||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was 2-hour C-peptide mAUC and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.373
92155598|NCT02293837|184197590|SUPERIORITY|||||||0.395||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was 2-hour C-peptide mAUC and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.395
92155599|NCT02293837|184197591|SUPERIORITY|||||||0.176||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52. Only participants \>=12 years old had the 4-hour MMTT performed.||||0.176
92216738|NCT00718549|184333600|SUPERIORITY||Hazard Ratio (HR)|0.288||||0.397|TWO_SIDED|95.0|0.016|5.122|||Cox's proportional hazards model|||Multivariate Comparison: Cytogenetic abnormality 12q No versus Yes||5.122|0.016|0.397
92340219|NCT01294423|184582526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.354||0.0001|TWO_SIDED|95.0|-2.08|-0.69||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c at randomization by gender) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.69|-2.08|0.0001
92340220|NCT02452047|184582532|OTHER|Difference in percentages|Difference in FOR %|-7.3|||||TWO_SIDED|90.0|-27.5|21.4|||||Stratified Miettinen \& Nurminen method by infection type|||21.4|-27.5|
92340221|NCT02452047|184582533|OTHER|Difference in percentages|Difference in AE %|-10.3|||||TWO_SIDED|95.0|-33.1|18.0|||||Miettinen \& Nurminen method|||18.0|-33.1|
92216739|NCT00718549|184333601|SUPERIORITY||Odds Ratio (OR)|0.982||||0.969|TWO_SIDED|95.0|0.393|2.531|||Regression, Logistic|||Univariate Comparison: Age \<60 years versus Age \>/=60 years||2.531|0.393|0.969
92216740|NCT00718549|184333601|SUPERIORITY||Odds Ratio (OR)|0.552||||0.26|TWO_SIDED|95.0|0.183|1.488|||Regression, Logistic|||Univariate Comparison: Sex: Female versus Male||1.488|0.183|0.260
92216741|NCT00718549|184333601|SUPERIORITY||Odds Ratio (OR)|0.465||||0.121|TWO_SIDED|95.0|0.177|1.242|||Regression, Logistic|||Univariate Comparison: Rai Stage: I or II versus Rai Stage: III or IV||1.242|0.177|0.121
92216742|NCT00718549|184333601|SUPERIORITY||Odds Ratio (OR)|0.374||||0.045|TWO_SIDED|95.0|0.137|0.957|||Regression, Logistic|||Univariate Comparison: Beta-2-Microglobulin \>/= Median Value versus Beta-2-Microglobulin \<Median Value||0.957|0.137|0.045
92216743|NCT00718549|184333601|SUPERIORITY||Odds Ratio (OR)|8.809||||0.04|TWO_SIDED|95.0|1.655|163.316|||Regression, Logistic|||Univariate Comparison: ZAP-70 Expression Negative versus Positive||163.316|1.655|0.040
92216744|NCT00718549|184333601|SUPERIORITY||Odds Ratio (OR)|0.921||||0.887|TWO_SIDED|95.0|0.287|2.851|||Regression, Logistic|||Univariate Comparison: CD38 Expression Negative versus Positive||2.851|0.287|0.887
92340222|NCT02452047|184582534|OTHER|Difference in percentages|Difference in SAE %|-21.6|||||TWO_SIDED|95.0|-47.8|1.3|||||Miettinen \& Nurminen method|||1.3|-47.8|
92340223|NCT02452047|184582535|OTHER|Difference in percentages|Difference in drug-related AE %|-15.1|||||TWO_SIDED|95.0|-42.3|9.2|||||Miettinen \& Nurminen method|||9.2|-42.3|
92340224|NCT02452047|184582536|OTHER|Difference in percentages|Difference in drug-related SAE %|0.0|||||TWO_SIDED|95.0|-19.7|11.2|||||Miettinen \& Nurminen method|||11.2|-19.7|
92216745|NCT00718549|184333601|SUPERIORITY||Odds Ratio (OR)|0.932||||0.936|TWO_SIDED|95.0|0.186|6.839|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 17p No versus Yes||6.839|0.186|0.936
92216746|NCT00718549|184333601|SUPERIORITY||Odds Ratio (OR)|1.88||||0.199|TWO_SIDED|95.0|0.719|5.012|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 13q No versus Yes||5.012|0.719|0.199
92340225|NCT02452047|184582537|OTHER|Difference in percentages|Difference in discontinuation %|-18.8|||||TWO_SIDED|95.0|-43.3|-6.2|||||Miettinen \& Nurminen method|||-6.2|-43.3|
92340226|NCT02452047|184582538|OTHER|Difference in percentages|Difference in drug-related discon %|-12.5|||||TWO_SIDED|95.0|-36.3|-0.3|||||Miettinen \& Nurminen method|||-0.3|-36.3|
92340227|NCT02452047|184582539|OTHER|Difference in percentages|Difference in pyrexia %|0.4|||||TWO_SIDED|95.0|-25.2|19.7|||||Miettinen \& Nurminen method|||19.7|-25.2|
92340228|NCT02452047|184582539|OTHER|Difference in percentages|Difference blood creatinine inc %|-25.0|||||TWO_SIDED|95.0|-49.8|-10.1|||||Miettinen \& Nurminen method|||-10.1|-49.8|
92340229|NCT02452047|184582540|OTHER|Difference in Category 1 ECI %|Difference in Category 1 ECI %|-12.5||||0.047|TWO_SIDED|95.0|-36.3|-0.3|||Miettinen and Nurminen method|||||-0.3|-36.3|0.047
92340230|NCT02452047|184582540|OTHER|Difference in Category 2 ECI %|Difference in Category 2 ECI %|-12.5||||0.047||95.0|-36.3|-0.3|||Miettinen and Nurminen method|||||-0.3|-36.3|0.047
92216747|NCT00718549|184333601|SUPERIORITY||Odds Ratio (OR)|1.668||||0.375|TWO_SIDED|95.0|0.566|5.649|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 11q No versus Yes||5.649|0.566|0.375
92340231|NCT02452047|184582541|OTHER|Difference in percentages|Difference in nephrotoxicity %|-45.9||||0.002||95.0|-69.1|-18.4|||Fisher Exact||Miettinen \& Nurminen method|||-18.4|-69.1|0.002
92340232|NCT02452047|184582542|OTHER|Difference in Day 28 FCR %|Difference in Day 28 FCR %|26.3|||||TWO_SIDED|90.0|1.3|51.5|||||Miettinen and Nurminen method stratified by infection-site stratum|||51.5|1.3|
92340233|NCT02452047|184582543|OTHER|Difference in mortality %|Difference in mortality %|-17.3|||||TWO_SIDED|90.0|-46.4|6.7|||||Miettinen and Nurminen method stratified by infection-site stratum|||6.7|-46.4|
92340234|NCT02452047|184582544|OTHER|Adjusted difference in OTX FCR %|Adjusted difference in OTX FCR %|33.9|||||TWO_SIDED|90.0|7.4|61.1|||||Miettinen and Nurminen method stratified by infection-site stratum|||61.1|7.4|
92340235|NCT02452047|184582545|OTHER|Adjusted difference in EOT FCR %|Adjusted difference in EOT FCR %|25.4|||||TWO_SIDED|90.0|3.1|53.6|||||Miettinen and Nurminen method stratified by infection-site stratum|||53.6|3.1|
92216748|NCT00718549|184333601|SUPERIORITY||Odds Ratio (OR)|0.957||||0.961|TWO_SIDED|95.0|0.173|7.275|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 12q No versus Yes||7.275|0.173|0.961
92216749|NCT00718549|184333602|SUPERIORITY||Odds Ratio (OR)|1.31||||0.768|TWO_SIDED|95.0|0.237|10.189|||Regression, Logistic|||Univariate Comparison: Age \<60 years versus Age \>/=60 years||10.189|0.237|0.768
92216750|NCT00718549|184333602|SUPERIORITY||Odds Ratio (OR)|0.667||||0.657|TWO_SIDED|95.0|0.086|3.653|||Regression, Logistic|||Univariate Comparison: Sex: Female versus Male||3.653|0.086|0.657
92216751|NCT00718549|184333602|SUPERIORITY||Odds Ratio (OR)|1.68||||0.655|TWO_SIDED|95.0|0.229|34.486|||Regression, Logistic|||Univariate Comparison: Rai Stage: I or II versus Rai Stage: III or IV||34.486|0.229|0.655
92216752|NCT00718549|184333602|SUPERIORITY||Odds Ratio (OR)|0.635||||0.595|TWO_SIDED|95.0|0.117|3.73|||Regression, Logistic|||Univariate Comparison: Beta-2-Microglobulin \>/= Median Value versus Beta-2-Microglobulin \<Median Value||3.730|0.117|0.595
92216753|NCT00718549|184333602|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.164|8.102|||Regression, Logistic|||Univariate Comparison: ZAP-70 Expression Negative versus Positive||8.102|0.164|1.000
92216754|NCT00718549|184333602|SUPERIORITY||Odds Ratio (OR)|0.857||||0.882|TWO_SIDED|95.0|0.093|6.636|||Regression, Logistic|||Univariate Comparison: CD38 Expression Negative versus Positive||6.636|0.093|0.882
92216755|NCT00718549|184333602|SUPERIORITY||Odds Ratio (OR)|0.154||||0.216|TWO_SIDED|95.0|0.005|4.405|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 17p No versus Yes||4.405|0.005|0.216
92340236|NCT02452047|184582546|OTHER|Adjusted difference in EFU FCR %|Difference in EFU FCR %|24.7|||||TWO_SIDED|90.0|3.8|51.4|||||Miettinen and Nurminen method stratified by infection-site stratum|||51.4|3.8|
92340237|NCT02452047|184582547|OTHER|Difference in percentages|Difference in FMR %|0.0|||||TWO_SIDED|90.0|-20.8|36.6|||||Miettinen \& Nurminen method|||36.6|-20.8|
92340238|NCT02452047|184582548|OTHER|Difference in percentages|Difference in FMR %|0.0|||||TWO_SIDED|90.0|-20.8|36.6|||||Miettinen \& Nurminen method|||36.6|-20.8|
92155600|NCT02293837|184197591|SUPERIORITY|||||||0.285||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104. Only participants \>=12 years old had the 4-hour MMTT performed.||||0.285
92155601|NCT02293837|184197591|SUPERIORITY|||||||0.435||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52||||0.435
92155602|NCT02293837|184197591|SUPERIORITY|||||||0.931||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104||||0.931
92155603|NCT02293837|184197591|SUPERIORITY|||||||0.28||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52. Only participants \>=12 years old had the 4-hour MMTT performed.||||0.280
92155604|NCT02293837|184197591|SUPERIORITY|||||||0.985||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104. Only participants \>=12 years old had the 4-hour MMTT performed.||||0.985
92155605|NCT02293837|184197592|SUPERIORITY|||||||0.762||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 24||||0.762
92155606|NCT02293837|184197592|SUPERIORITY|||||||0.64||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 52||||0.640
92155607|NCT02293837|184197592|SUPERIORITY|||||||0.145||||||P-value comes from an analysis of covariance with outcome variable of change in avg insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 104||||0.145
92155608|NCT02293837|184197592|SUPERIORITY|||||||0.033||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 24||||0.033
92155609|NCT02293837|184197592|SUPERIORITY|||||||0.591||||||P-value comes from an analysis of covariance with outcome variable of change in avg insulin use per kg from baseline and covariates of treatment, baseline avg insulin use per kg, and age.|ANCOVA|||Week 52||||0.591
92155610|NCT02293837|184197592|SUPERIORITY|||||||0.81||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 104||||0.810
92155611|NCT02293837|184197592|SUPERIORITY|||||||0.178||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 24||||0.178
92216756|NCT00718549|184333602|SUPERIORITY||Odds Ratio (OR)|0.361||||0.396|TWO_SIDED|95.0|0.017|2.971|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 13q No versus Yes||2.971|0.017|0.396
92340239|NCT02452047|184582549|OTHER|Difference in percentages|Difference in FMR %|-27.3|||||TWO_SIDED|90.0|-52.8|12.8|||||Miettinen \& Nurminen method|||12.8|-52.8|
92340240|NCT01248455|184582552|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||No patients obtained a 50% reduction in M-protein concentration and the study did not continue to the second stage of enrollment due to the lack of efficacy as defined by out criteria. This statistical analysis includes all participants (i.e., stable disease (SD), minimal response (MR), biochemical progression (BP), and progressive disease (PD)).||||0.56
92155612|NCT02293837|184197592|SUPERIORITY|||||||0.43||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 52||||0.430
92155613|NCT02293837|184197592|SUPERIORITY|||||||0.149||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 104||||0.149
92155614|NCT02293837|184197593|SUPERIORITY|||||||0.103||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was average insulin use per kg and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.103
92340241|NCT02631941|184582598|EQUIVALENCE|For budesonide AUC0-last, the 90% Cls for Z7200 compared with Symbicort without and with charcoal lie entirely within the standard bioequivalence acceptance limits of (80% - 125.00%).|Adjusted geometric means ratio|100.64|||<|0.001|TWO_SIDED|90.0|95.82|105.69|||Mixed Models Analysis|||||105.69|95.82|<0.001
92340242|NCT02631941|184582598|EQUIVALENCE|For budesonide AUC0-last, the 90% Cls for Z7200 compared with Symbicort without and with charcoal lie entirely within the standard bioequivalence acceptance limits of (80% - 125.00%).|Adjusted geometric means ratio|102.11|||<|0.001|TWO_SIDED|90.0|95.55|109.13|||Mixed Models Analysis|||||109.13|95.55|<0.001
92216757|NCT00718549|184333602|SUPERIORITY||Odds Ratio (OR)|0.75||||0.776|TWO_SIDED|95.0|0.103|6.572|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 11q No versus Yes||6.572|0.103|0.776
92216758|NCT00718549|184333603|SUPERIORITY||Odds Ratio (OR)|0.528||||0.357|TWO_SIDED|95.0|0.131|2.114|||Regression, Logistic|||Univariate Comparison: Age \<60 years versus Age \>/=60 years||2.114|0.131|0.357
92216759|NCT00718549|184333603|SUPERIORITY||Odds Ratio (OR)|0.694||||0.623|TWO_SIDED|95.0|0.138|2.8|||Regression, Logistic|||Univariate Comparison: Sex: Female versus Male||2.800|0.138|0.623
92216760|NCT00718549|184333603|SUPERIORITY||Odds Ratio (OR)|4.0||||0.097|TWO_SIDED|95.0|0.901|28.158|||Regression, Logistic|||Univariate Comparison: Beta-2-Microglobulin \>/= Median Value versus Beta-2-Microglobulin \<Median Value||28.158|0.901|0.097
92216761|NCT00718549|184333603|SUPERIORITY||Odds Ratio (OR)|4.2||||0.233|TWO_SIDED|95.0|0.484|89.588|||Regression, Logistic|||Univariate Comparison: CD38 Expression Negative versus Positive||89.588|0.484|0.233
92216762|NCT00718549|184333603|SUPERIORITY||Odds Ratio (OR)|0.844||||0.826|TWO_SIDED|95.0|0.161|3.681|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 13q No versus Yes||3.681|0.161|0.826
92216763|NCT00718549|184333603|SUPERIORITY||Odds Ratio (OR)|1.067||||0.933|TWO_SIDED|95.0|0.246|5.581|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 11q No versus Yes||5.581|0.246|0.933
92216764|NCT00718549|184333603|SUPERIORITY||Odds Ratio (OR)|0.727||||0.794|TWO_SIDED|95.0|0.08|15.779|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 12q No versus Yes||15.779|0.080|0.794
92216765|NCT00718549|184333604|SUPERIORITY||Odds Ratio (OR)|1.923||||0.591|TWO_SIDED|95.0|0.225|41.751|||Regression, Logistic|||Univariate Comparison: Age \<60 years versus Age \>/=60 years||41.751|0.225|0.591
92216766|NCT00718549|184333604|SUPERIORITY||Odds Ratio (OR)|1.3||||0.796|TWO_SIDED|95.0|0.147|9.222|||Regression, Logistic|||Univariate Comparison: Sex: Female versus Male||9.222|0.147|0.796
92340243|NCT02631941|184582599|EQUIVALENCE|For Formoterol AUC0-last, the 90% Cls for Z7200 compared to Symbicort without and with charcoal lie entirely within the standard bioequivalence acceptance limits of (80.00%, 125.00%).|Adjusted geometric means ratio|87.96||||0.002|TWO_SIDED|90.0|83.31|92.86|||Mixed Models Analysis|||||92.86|83.31|0.002
92340244|NCT02631941|184582599|EQUIVALENCE|For Formoterol AUC0-last, the 90% Cls for Z7200 compared to Symbicort without and with charcoal lie entirely within the standard bioequivalence acceptance limits of (80.00%, 125.00%).|Adjusted geometric means ratio|91.17||||0.005|TWO_SIDED|90.0|83.94|99.04|||Mixed Models Analysis|||||99.04|83.94|0.005
92340245|NCT02631941|184582600|EQUIVALENCE|For Budesonide Cmax, the 90% Cls for Z7200 compared with Symbicort without and with charcoal do not lie entirely within the wider bioequivalence acceptance limits of ( 73.74%, 135.62%) and standard bioequivalence acceptance limits of (80.00%, 125.00%), respectively.|Adjusted geometric means ratio|157.86||||1|TWO_SIDED|90.0|144.12|172.91|||Mixed Models Analysis|||||172.91|144.12|1.00
92216767|NCT00718549|184333604|SUPERIORITY||Odds Ratio (OR)|3.2||||0.338|TWO_SIDED|95.0|0.375|69.479|||Regression, Logistic|||Univariate Comparison: Beta-2-Microglobulin \>/= Median Value versus Beta-2-Microglobulin \<Median Value||69.479|0.375|0.338
92216768|NCT00718549|184333604|SUPERIORITY||Odds Ratio (OR)|2.333||||0.486|TWO_SIDED|95.0|0.201|29.008|||Regression, Logistic|||Univariate Comparison: CD38 Expression Negative versus Positive||29.008|0.201|0.486
92216769|NCT00718549|184333604|SUPERIORITY||Odds Ratio (OR)|0.667||||0.691|TWO_SIDED|95.0|0.074|4.722|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 13q No versus Yes||4.722|0.074|0.691
92216770|NCT00718549|184333604|SUPERIORITY||Odds Ratio (OR)|1.5||||0.691|TWO_SIDED|95.0|0.212|13.563|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 11q No versus Yes||13.563|0.212|0.691
92216771|NCT00718549|184333604|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.076|24.621|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 12q No versus Yes||24.621|0.076|1.000
92216772|NCT00718549|184333604|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.099|22.791|||Regression, Logistic|||Univariate Comparison: Rai Stage: I or II versus Rai Stage: III or IV||22.791|0.099|1.000
92340246|NCT02631941|184582600|EQUIVALENCE|For Budesonide Cmax, the 90% Cls for Z7200 compared with Symbicort without and with charcoal do not lie entirely within the wider bioequivalence acceptance limits of ( 73.74%, 135.62%) and standard bioequivalence acceptance limits of (80.00%, 125.00%), respectively.|Adjusted geometric means ratio|166.81||||1|TWO_SIDED|90.0|148.35|187.57|||Mixed Models Analysis|||||187.57|148.35|1.00
92340247|NCT02631941|184582601|EQUIVALENCE|For Formoterol Cmax, the 90% Cl for Z7200 compared to Symbicort without and with charcoal lie entirely within the wider bioequivalence acceptance limits of (77.65%, 128.79%) and standard bioequivalence acceptance limits of (80.00%, 125.00%), respectively.|Adjusted geometric means ratio|85.22||||0.012|TWO_SIDED|90.0|79.66|91.17|||Mixed Models Analysis|||||91.17|79.66|0.012
92216773|NCT02871778|184333633|SUPERIORITY||Least Square (LS) Mean difference|1.519||||0.0437|TWO_SIDED|95.0|0.044|2.995|||Mixed-effects Model|||||2.995|0.044|0.0437
92216774|NCT02871778|184333633|SUPERIORITY||LS Mean difference|0.04||||0.9755|TWO_SIDED|95.0|-2.509|2.589|||Mixed-effects Model|||||2.589|-2.509|0.9755
92216775|NCT02871778|184333633|SUPERIORITY||LS Mean difference|2.318||||0.0731|TWO_SIDED|95.0|-0.22|4.856|||Mixed-effects Model|||||4.856|-0.22|0.0731
92216776|NCT02871778|184333633|SUPERIORITY||LS Mean Difference|0.799||||0.5373|TWO_SIDED|95.0|-1.751|3.348|||Mixed-effects Model|||||3.348|-1.751|0.5373
92216777|NCT02871778|184333633|SUPERIORITY||LS Mean difference|0.838||||0.453|TWO_SIDED|95.0|-1.368|3.045|||Mixed-effects Model|||||3.045|-1.368|0.453
92216778|NCT02653300|184333644|OTHER|||||||0.03125|||||||Sign test|||||||0.03125
92216779|NCT00369785|184333647|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62||||||Not adjusted for multiple comparisons.|Mixed Models Analysis|||Null Hypothesis: No difference in immediate recall memory at 24 weeks||||.62
92216780|NCT00369785|184333648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||Not adjusted for multiple comparisons.|Mixed Models Analysis|||Null Hypothesis: No difference in discrimination memory between the two groups||||.007
92216781|NCT00800683|184333649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001||95.0|-0.89|-0.31|||ANCOVA|||For patients who received rescue medication during the course of the trial, the Oracle Clinical (OC) technique was utilised for all efficacy endpoints and the values were set to missing after the rescue medication was administered.||-0.31|-0.89|< 0.0001
92216782|NCT00800683|184333650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001||95.0|-1.03|-0.41|||ANCOVA|||||-0.41|-1.03|< 0.0001
92340248|NCT02631941|184582601|EQUIVALENCE|For Formoterol Cmax, the 90% Cl for Z7200 compared to Symbicort without and with charcoal lie entirely within the wider bioequivalence acceptance limits of (77.65%, 128.79%) and standard bioequivalence acceptance limits of (80.00%, 125.00%), respectively.|Adjusted geometric means ratio|87.74||||0.02|TWO_SIDED|90.0|81.48|94.47|||Mixed Models Analysis|||||94.47|81.48|0.020
92340249|NCT02318849|184582643|SUPERIORITY||Change in percentage|0.09||||0.009|TWO_SIDED||||||Mixed Models Analysis|The anaylsis was adjusted for student characteristics.||The null hypothesis was that the of number students who report being a donor (or talking to parents about organ donation) both before and after exposure to the intervention would be equivalent. A secondary null hypothesis would be that longer expsosures to the intervention over time would not increase the number who report becoming a donor at the final assessment.||||0.009
92340250|NCT02318849|184582644|SUPERIORITY||Change in percentage|0.0|||>|0.1|TWO_SIDED|||||Calculated|Mixed Models Analysis|||||||>0.10
92340251|NCT00676403|184582647|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|37.3||||||95.0|0.1|157.7|||ED-50: Bootstrap Method||Non-convergence for the non-liner model occurred in some bootstrap samples which were not included in summarizing the ED50 distribution or confidence interval.|Dose response analysis ED 50: dose providing 50% of the maximal effect. Statistics were obtained from three parameter model Y = D + G\*exp(B\*dose) by bootstrapping 2000 data sets, where D = expected response of saturation (maximal effect), B = related to slope of the dose response mechanism (change in response relative to the change in dose), and D+G = expected response at zero dose.||157.7|0.1|
92340252|NCT00676403|184582647|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|123.9||||||95.0|0.4|523.9|||ED 90: Bootstrap Method||Non-convergence for the non-liner model occurred in some bootstrap samples which were not included in summarizing the ED90 distribution or confidence interval.|Dose response analysis ED 90: dose providing 90% of the maximal effect. Statistics were obtained from three parameter model Y = D + G\*exp(B\*dose) by bootstrapping 2000 data sets, where D = expected response of saturation (maximal effect), B = related to slope of the dose response mechanism (change in response relative to the change in dose), and D+G = expected response at zero dose.||523.9|0.4|
92340253|NCT00676403|184582647|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|2.472||0.0983||95.0|-8.97|0.77|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. The repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.77|-8.97|0.0983
92216783|NCT00800683|184333651|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.9|-0.33|||ANCOVA|||||-0.33|-0.90|< 0.0001
92216784|NCT00800683|184333652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.96|-0.41|||ANCOVA|||||-0.41|-0.96|< 0.0001
92216785|NCT00800683|184333653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001||95.0|-1.05|-0.39|||ANCOVA|||||-0.39|-1.05|< 0.0001
92216786|NCT00800683|184333654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001||95.0|-1.06|-0.44|||ANCOVA|||||-0.44|-1.06|< 0.0001
92216787|NCT00800683|184333655|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001||95.0|-0.96|-0.33|||ANCOVA|||||-0.33|-0.96|< 0.0001
92216788|NCT00800683|184333656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001||95.0|-1.02|-0.44|||ANCOVA|||||-0.44|-1.02|< 0.0001
92340254|NCT00676403|184582647|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.03|STANDARD_ERROR_OF_MEAN|2.415||0.0966||95.0|-8.78|0.73|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. The repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.73|-8.78|0.0966
92340255|NCT00676403|184582647|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.29|STANDARD_ERROR_OF_MEAN|2.548||0.0013||95.0|-13.31|-3.28|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. The repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-3.28|-13.31|0.0013
92340256|NCT00676403|184582647|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.16|STANDARD_ERROR_OF_MEAN|2.437||0.0353||95.0|-9.96|-0.36|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. The repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.36|-9.96|0.0353
92155615|NCT02293837|184197593|SUPERIORITY|||||||0.452||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was average insulin use per kg and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.452
92155616|NCT02293837|184197593|SUPERIORITY|||||||0.091||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was average insulin use per kg and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.091
92155617|NCT02293837|184197594|SUPERIORITY|||||||0.154||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 24||||0.154
92155618|NCT02293837|184197594|SUPERIORITY|||||||0.193||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 52||||0.193
92155619|NCT02293837|184197594|SUPERIORITY|||||||0.397||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 104||||0.397
92155620|NCT02293837|184197594|SUPERIORITY|||||||0.125||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 24||||0.125
92155621|NCT02293837|184197594|SUPERIORITY|||||||0.705||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 52||||0.705
92155622|NCT02293837|184197594|SUPERIORITY|||||||0.378||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 104||||0.378
92155623|NCT02293837|184197594|SUPERIORITY|||||||0.035||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 24||||0.035
92155624|NCT02293837|184197594|SUPERIORITY|||||||0.262||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 52||||0.262
92340257|NCT00676403|184582647|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.53|STANDARD_ERROR_OF_MEAN|2.469||0.0006||95.0|-13.4|-3.67|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. The repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-3.67|-13.40|0.0006
92340258|NCT00676403|184582648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8784||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.8784
92340259|NCT00676403|184582648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6767||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.6767
92155625|NCT02293837|184197594|SUPERIORITY|||||||0.338||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 104||||0.338
92155626|NCT02293837|184197595|SUPERIORITY|||||||0.493||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was HbA1c and covariates were treatment, study week, spline week (at week 4), age, treatment\*spline week, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept, study week, and spline week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.493
92155627|NCT02293837|184197595|SUPERIORITY|||||||0.659||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was HbA1c and covariates were treatment, study week, spline week (at week 4), age, treatment\*spline week, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept, study week, and spline week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.659
92155628|NCT02293837|184197595|SUPERIORITY|||||||0.407||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was HbA1c and covariates were treatment, study week, spline week (at week 4), age, treatment\*spline week, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept, study week, and spline week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.407
92155629|NCT02293837|184197596|SUPERIORITY|||||||0.634||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 52||||0.634
92155630|NCT02293837|184197596|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 104/End of Study||||1.000
92216789|NCT00800683|184333657|SUPERIORITY_OR_OTHER|||||||0.1199||95.0||||P-value calculated using a Fisher's exact Test.|Fisher Exact|||||||0.1199
92340260|NCT00676403|184582648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8955||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.8955
92340261|NCT00676403|184582648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9505||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.9505
92340262|NCT00676403|184582648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0466||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0466
92340263|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3876||95.0|||||Cochran-Mantel-Haenszel|||Week 1: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.3876
92340264|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7959||95.0|||||Cochran-Mantel-Haenszel|||Week 1: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.7959
92340265|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2032||95.0|||||Cochran-Mantel-Haenszel|||Week 1: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.2032
92340266|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7032||95.0|||||Cochran-Mantel-Haenszel|||Week 1: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.7032
92155631|NCT02293837|184197596|SUPERIORITY|||||||0.329||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 52||||0.329
92155632|NCT02293837|184197596|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 104/End of Study||||1.000
92155633|NCT02293837|184197596|SUPERIORITY|||||||0.847||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 52||||0.847
92155634|NCT02293837|184197596|SUPERIORITY|||||||0.858||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 104/End of Study||||0.858
92155635|NCT02293837|184197597|SUPERIORITY|||||||0.296||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 52||||0.296
92155636|NCT02293837|184197597|SUPERIORITY|||||||0.145||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 52||||0.145
92155637|NCT02293837|184197597|SUPERIORITY|||||||0.027||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 52||||0.027
92155638|NCT02293837|184197598|SUPERIORITY|||||||0.547||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 52||||0.547
92155639|NCT02293837|184197598|SUPERIORITY|||||||0.551||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 52||||0.551
92155640|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.27||||0.087|TWO_SIDED|95.0|-0.58|0.04||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. metformin 850 mg. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline A1C.||||0.04|-0.58|0.087
92155641|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.84|||<|0.001|TWO_SIDED|95.0|-1.15|-0.52||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. sitagliptin 100 mg. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.52|-1.15|<0.001
92155642|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.39||||0.014|TWO_SIDED|95.0|-0.69|-0.08||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. metformin 500 mg. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.08|-0.69|0.014
92155643|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.68|||<|0.001|TWO_SIDED|95.0|-0.99|-0.37||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. sitagliptin 100 mg. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.37|-0.99|<0.001
92155644|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-1.24|||<|0.001|TWO_SIDED|95.0|-1.55|-0.93||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. placebo. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.93|-1.55|<0.001
92155645|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.97|||<|0.001|TWO_SIDED|95.0|-1.28|-0.66||Pairwise comparison, metformin 850 mg vs. placebo. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.66|-1.28|<0.001
92216790|NCT00800683|184333658|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.103||||0.2225||95.0|0.003|3.978|||Regression, Logistic|||Linagliptin vs Placebo. The odds-ratio is based on a logistic regression model including baseline HbA1c, previous anti-diabetic medication and creatinine clearance||3.978|0.003|0.2225
92216791|NCT00800683|184333659|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.816||||0.8927|TWO_SIDED|95.0|0.042|15.756|||Regression, Logistic|||Linagliptin vs Placebo. The odds-ratio is based on a logistic regression model including baseline HbA1c, previous anti-diabetic medication and creatinine clearance||15.756|0.042|0.8927
92216792|NCT00800683|184333660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|11.43||0.8802||95.0|-24.36|20.91|||ANCOVA|||||20.91|-24.36|0.8802
92216793|NCT00800683|184333661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.24|STANDARD_ERROR_OF_MEAN|8.19||0.7848||95.0|-18.47|13.98|||ANCOVA|||||13.98|-18.47|0.7848
92340267|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0551||95.0|||||Cochran-Mantel-Haenszel|||Week 1: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0551
92340268|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41||95.0|||||Cochran-Mantel-Haenszel|||Week 2: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.4100
92340269|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6524||95.0|||||Cochran-Mantel-Haenszel|||Week 2: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.6524
92340270|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3219||95.0|||||Cochran-Mantel-Haenszel|||Week 2: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.3219
92340271|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3509||95.0|||||Cochran-Mantel-Haenszel|||Week 2: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.3509
92340272|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0053||95.0|||||Cochran-Mantel-Haenszel|||Week 2: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0053
92340273|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9835||95.0|||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.9835
92216794|NCT00800683|184333662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.72|STANDARD_ERROR_OF_MEAN|8.09||0.1878||95.0|-26.74|5.31|||ANCOVA|||||5.31|-26.74|0.1878
92340274|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6668||95.0|||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.6668
92340275|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2823||95.0|||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.2823
92216795|NCT00800683|184333663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.42|STANDARD_ERROR_OF_MEAN|7.92||0.5781||95.0|-11.28|20.12|||ANCOVA|||||20.12|-11.28|0.5781
92216796|NCT00800683|184333664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.24|STANDARD_ERROR_OF_MEAN|8.8||0.2954||95.0|-26.67|8.18|||ANCOVA|||||8.18|-26.67|0.2954
92216797|NCT00800683|184333665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.37|STANDARD_ERROR_OF_MEAN|8.27||0.5984||95.0|-12.02|20.75|||ANCOVA|||||20.75|-12.02|0.5984
92216798|NCT00800683|184333666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.07|STANDARD_ERROR_OF_MEAN|8.53||0.4085||95.0|-9.82|23.96|||ANCOVA|||||23.96|-9.82|0.4085
92216799|NCT00800683|184333667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|8.17||0.8698||95.0|-14.84|17.52|||ANCOVA|||||17.52|-14.84|0.8698
92216800|NCT02247960|184333670|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.00
92216801|NCT03606980|184333683|EQUIVALENCE|p\<0.05 was considered statistically significant. A 95% confidence interval was computed using logistic regression model.|Hazard Ratio (HR)|3.11||||0.0366|TWO_SIDED|95.0|1.073|9.005|||Cox proportional hazards analysis|||||9.005|1.073|0.0366
92340276|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5687||95.0|||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.5687
92340277|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0043||95.0|||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0043
92340278|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8662||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.8662
92340279|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3656||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.3656
92340280|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0806||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0806
92340281|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5381||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.5381
92340282|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0090
92340283|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9748||95.0|||||Cochran-Mantel-Haenszel|||Last Observation Carried Forward: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.9748
92340284|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3936||95.0|||||Cochran-Mantel-Haenszel|||Last Observation Carried Forward: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.3936
92340285|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1563||95.0|||||Cochran-Mantel-Haenszel|||Last Observation Carried Forward: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.1563
92340286|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6357||95.0|||||Cochran-Mantel-Haenszel|||Last Observation Carried Forward: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.6357
92216802|NCT03606980|184333683|EQUIVALENCE|p\<0.05 was considered statistically significant.|Hazard Ratio (HR)|4.16||||0.0232|TWO_SIDED|95.0|1.215|14.273|||Cox proportional hazards analysis|||||14.273|1.215|0.0232
92340287|NCT00676403|184582649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0133||95.0|||||Cochran-Mantel-Haenszel|||Last Observation Carried Forward: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0133
92216803|NCT03606980|184333683|EQUIVALENCE|p\<0.05 was considered statistically significant.|Hazard Ratio (HR)|1.24||||0.64|TWO_SIDED|95.0|0.389|4.615|||Cox proportional hazards analysis|||||4.615|0.389|0.64
92216804|NCT03606980|184333684|EQUIVALENCE|All statistical tests were two-sided, and p\<0.05 was considered statistically significant.||||||0.86|||||||ANOVA|||||||0.86
92216805|NCT03606980|184333685|EQUIVALENCE|p\<00.05 was considered statistically significant.||||||0.25|||||||ANOVA|||||||0.25
92340288|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.6|STANDARD_ERROR_OF_MEAN|8.05||0.4133||95.0|-22.4|9.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.3|-22.4|0.4133
92340289|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|7.92||0.6676||95.0|-19.0|12.2|||Mixed Models Analysis|||Week 1: Conrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||12.2|-19.0|0.6676
92340290|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|8.04||0.9355||95.0|-16.5|15.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||15.2|-16.5|0.9355
92340291|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|7.97||0.9355||95.0|-15.1|16.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.4|-15.1|0.9355
92340292|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.5|STANDARD_ERROR_OF_MEAN|7.94||0.1895||95.0|-26.1|5.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.2|-26.1|0.1895
92340293|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.9|STANDARD_ERROR_OF_MEAN|8.1||0.1443||95.0|-27.8|4.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.1|-27.8|0.1443
92340294|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.4|STANDARD_ERROR_OF_MEAN|7.96||0.2946||95.0|-24.0|7.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.3|-24.0|0.2946
92398887|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.2315|TWO_SIDED|95.0|-1.21|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.29|-1.21|0.2315
92398888|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.23||0.4731|TWO_SIDED|95.0|-0.63|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.29|-0.63|0.4731
92216806|NCT03606980|184333686|EQUIVALENCE|p\<0.05 considered statistically significant.||||||0.29|||||||ANOVA|||||||0.29
92274920|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.9|||||TWO_SIDED|95.0|-19.02|42.83||||||For change in constipation at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||42.83|-19.02|
92216807|NCT03606980|184333687|EQUIVALENCE|All statistical tests were performed using the SAS Studio. All statistical tests were two-sided, and p\<0.05 was considered statistically significant.||||||0.57|||||||ANOVA|||||||0.57
92216808|NCT01196533|184333688|SUPERIORITY_OR_OTHER||||||||||||||||||All data in the outcome measure table is presenting the percentage of error.|||
92216809|NCT00911625|184333697|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|9.502||0.958|TWO_SIDED|95.0|-19.341|18.341|||t-test, 2 sided|||The null hypothesis is that there is no difference between the two treatment cohorts on their average blood glucose level||18.341|-19.341|.958
92216810|NCT00911625|184333698|SUPERIORITY||Odds Ratio (OR)|0.438||||0.0828|TWO_SIDED|95.0|0.172|1.114|||Regression, Logistic|||The null hypothesis is that there is no difference in the odds of experiencing at least one blood glucose level below 70 mg/dL between the two treatment cohorts.||1.114|0.172|.0828
92274921|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.9|||||TWO_SIDED|95.0|-16.13|39.94||||||For change in diarrhea at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||39.94|-16.13|
92216811|NCT01159912|184333716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.146||||0.009|TWO_SIDED|95.0|0.036|0.257|||ANCOVA|||||0.257|0.036|0.009
92216812|NCT01159912|184333716|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.145||||0.011|TWO_SIDED|95.0|0.033|0.257|||ANCOVA|||||0.257|0.033|0.011
92216813|NCT02142738|184333742|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.37|0.68||One-sided p-value based on log-rank test|Regression, Cox|Treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1) and histology (squamous vs. nonsquamous)||||0.68|0.37|<0.001
92216814|NCT02142738|184333743|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.002|TWO_SIDED|95.0|0.47|0.86||One-sided p-value based on log-rank test|Regression, Cox|Treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1) and histology (squamous vs. nonsquamous)||||0.86|0.47|0.002
92216815|NCT02142738|184333744|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentages|16.6||||0.0011|TWO_SIDED|95.0|6.0|27.0||One-sided p-value for testing|Miettinen & Nurminem method|Stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1) and histology (squamous vs. nonsquamous)||H0: difference in %=0 vs. H1: difference in % \>0||27.0|6.0|0.0011
92216816|NCT02615470|184333765|SUPERIORITY||||||=|0.202||||||A priori alpha = 0.05|Wilcoxon (Mann-Whitney)|||||||=0.202
92216817|NCT02615470|184333766|SUPERIORITY|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||||||0.048
92340295|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.4|STANDARD_ERROR_OF_MEAN|8.22||0.3686||95.0|-23.6|8.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.8|-23.6|0.3686
92340296|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|8.02||0.6079||95.0|-19.9|11.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.7|-19.9|0.6079
92340297|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-25.5|STANDARD_ERROR_OF_MEAN|7.99||0.0016||95.0|-41.2|-9.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-9.7|-41.2|0.0016
92340298|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|8.22||0.5976||95.0|-20.5|11.8|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.8|-20.5|0.5976
92216818|NCT02615470|184333767|SUPERIORITY||||||=|0.322||||||a priori alpha = 0.05|Wilcoxon (Mann-Whitney)|||||||=0.322
92216819|NCT04196803|184333781|SUPERIORITY||||||<|0.05|||||||Regression, Linear|P value was calculated using general linear model adjusted for age, sex, and baseline level||||||<0.05
92340299|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|8.0||0.8527||95.0|-14.3|17.3|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||17.3|-14.3|0.8527
92216820|NCT04196803|184333782|SUPERIORITY||||||>|0.05|||||||Regression, Linear|P value was calculated using general linear model adjusted for age, sex, and baseline level||||||>0.05
92216821|NCT04196803|184333783|SUPERIORITY||||||>|0.05|||||||Regression, Linear|P value was calculated using general linear model adjusted for age, sex, and baseline level||||||>0.05
92216822|NCT04196803|184333784|SUPERIORITY||||||=|0.08|||||||Regression, Linear|P value was calculated using general linear model adjusted for age, sex, and baseline level||||||=0.08
92216823|NCT01756040|184333796|OTHER|||||||0.932||||||not adjusted for multiple comparisons. The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||We hypothesized that intestinal permeability as measured by urinary lactulose/rhamnose ratio would be higher in the lower gestational age (\<29 weeks) compared to the more mature infants (≥29 weeks gestation) at postnatal age 7-10 days.||||0.932
92216824|NCT01756040|184333797|OTHER|||||||0.316|||||||t-test, 2 sided|||We hypothesized that stool A1AT would be higher in infants with high IP as measured by urinary La/Rh compared to those with low IP.||||0.316
92216825|NCT01756040|184333798|OTHER|||||||0.011||||||The significance value was estimated using Bayesian goodness-of-fit p-value to assess the significance of the association of the relative abundance of Clostridiales and IP categories. P value \<0.05 was considered significant.|Bayesian goodness of fit|||||||0.011
92216826|NCT01756040|184333799|OTHER|||||||0.0023|||||||t-test, 2 sided|||We hypothesized that infants with normal barrier function (La/Rh ratio ≤0.05) would have been fed breastmilk for longer duration than infants with impaired barrier function (La/Rh\>0.05).||||0.0023
92216827|NCT01756040|184333800|OTHER|||||||1|||||||Chi-squared|||||||1.0
92216828|NCT01756040|184333801|OTHER|||||||0.461||||||A priori threshold \<0.05|Chi-squared|||||||0.461
92216829|NCT01756040|184333802|OTHER|||||||0.019|||||||t-test, 2 sided|||We hypothesized that infants with impaired barrier function as measured by high urinary La/Rh (\>0.05) ratio at 7-10 days of age would require longer time to reach full enteral feedings than infants with normal barrier function (La/Rh≤0.05)||||0.019
92274922|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-23.38|23.38||||||For change in financial difficulties at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||23.38|-23.38|
92398889|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.031|TWO_SIDED|95.0|-0.98|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||-0.05|-0.98|0.0310
92155646|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-1.08|||<|0.001|TWO_SIDED|95.0|-1.39|-0.78||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. placebo. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.78|-1.39|<0.001
92155647|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.7|||<|0.001|TWO_SIDED|95.0|-1.01|-0.39||Pairwise comparison, metformin 500 mg vs. placebo. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.39|-1.01|<0.001
92155648|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.4||||0.011|TWO_SIDED|95.0|-0.71|-0.09||Pairwise comparison, sitagliptin 100 mg vs. placebo. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.09|-0.71|0.011
92155649|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.36||||0.008|TWO_SIDED|95.0|-0.62|-0.09||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. metformin 850 mg. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.09|-0.62|0.008
92155650|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.87|||<|0.001|TWO_SIDED|95.0|-1.13|-0.6||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.60|-1.13|<0.001
92155651|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.36||||0.007|TWO_SIDED|95.0|-0.63|-0.1||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.10|-0.63|0.007
92155652|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.61|||<|0.001|TWO_SIDED|95.0|-0.88|-0.35||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.35|-0.88|<0.001
92155653|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-1.25|||<|0.001|TWO_SIDED|95.0|-1.52|-0.99||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.99|-1.52|<0.001
92155654|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.9|||<|0.001|TWO_SIDED|95.0|-1.16|-0.63||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.63|-1.16|<0.001
92155655|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-1.0|||<|0.001|TWO_SIDED|95.0|-1.26|-0.74||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.74|-1.26|<0.001
92155656|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.64|||<|0.001|TWO_SIDED|95.0|-0.9|-0.37||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.37|-0.90|<0.001
92155657|NCT01076088|184197599|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.39||||0.004|TWO_SIDED|95.0|-0.65|-0.12||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.12|-0.65|0.004
92274923|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.66|||||TWO_SIDED|95.0|-34.53|17.21||||||For change in global QoL at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups||17.21|-34.53|
92340300|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|8.29||0.6973||95.0|-19.6|13.1|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.1|-19.6|0.6973
92340301|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|8.09||0.6895||95.0|-19.2|12.7|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||12.7|-19.2|0.6895
92340302|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.1|STANDARD_ERROR_OF_MEAN|8.21||0.0209||95.0|-35.2|-2.9|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-2.9|-35.2|0.0209
92340303|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|8.18||0.4084||95.0|-22.9|9.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.3|-22.9|0.4084
92340304|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|7.96||0.3958||95.0|-22.5|8.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.9|-22.5|0.3958
92340305|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|8.25||0.5776||95.0|-20.9|11.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.7|-20.9|0.5776
92340306|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|8.06||0.5665||95.0|-20.5|11.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.3|-20.5|0.5665
92340307|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-23.5|STANDARD_ERROR_OF_MEAN|8.13||0.0041||95.0|-39.6|-7.5|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-7.5|-39.6|0.0041
92340308|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.9|STANDARD_ERROR_OF_MEAN|8.22||0.1842||95.0|-27.1|5.2|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.2|-27.1|0.1842
92216830|NCT01825057|184333818|SUPERIORITY||Mean Difference (Final Values)|17.5||||0.0009|TWO_SIDED|||||adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner Method|Kruskal-Wallis|degrees of freedom = 2|mean difference = Order One - Do One|||||0.0009
92216831|NCT01825057|184333818|SUPERIORITY||Median Difference (Final Values)|19.7|||<|0.0001|TWO_SIDED|||||Adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner Method|Kruskal-Wallis|degrees of freedom = 2|mean difference = Order One - See One|||||<0.0001
92216832|NCT01825057|184333818|SUPERIORITY||Mean Difference (Final Values)|2.178||||0.4983|TWO_SIDED||||||Kruskal-Wallis|degrees of freedom = 2|mean difference = Do One - See One|||||0.4983
92216833|NCT01825057|184333819|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.0217|TWO_SIDED|||||Adjusted for multiple comparisons using the Dwass, Steel, Critchlow-Fligner Method.|Kruskal-Wallis||Mean difference = Order One - Do One|||||0.0217
92274924|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.98|||||TWO_SIDED|95.0|-52.01|26.04||||||For change in physical functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||26.04|-52.01|
92340309|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|8.0||0.8269||95.0|-17.5|14.0|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.0|-17.5|0.8269
92216834|NCT01825057|184333819|SUPERIORITY|mean difference is Order One - See One|Mean Difference (Final Values)|1.22||||0.0126|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis|||||||0.0126
92216835|NCT01825057|184333819|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.4231|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference is Do One - See One|||||0.4231
92274925|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.32|||||TWO_SIDED|95.0|-71.87|19.24||||||For change in role functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||19.24|-71.87|
92340310|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.1|STANDARD_ERROR_OF_MEAN|8.34||0.3319||95.0|-24.5|8.3|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.3|-24.5|0.3319
92340311|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5|STANDARD_ERROR_OF_MEAN|8.09||0.7552||95.0|-13.4|18.5|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.5|-13.4|0.7552
92340312|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.3|STANDARD_ERROR_OF_MEAN|8.16||0.0137||95.0|-36.3|-4.2|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-4.2|-36.3|0.0137
92340313|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.0|STANDARD_ERROR_OF_MEAN|8.22||0.1157||95.0|-29.2|3.2|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.2|-29.2|0.1157
92340314|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.1|STANDARD_ERROR_OF_MEAN|8.04||0.3791||95.0|-22.9|8.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.7|-22.9|0.3791
92340315|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.7|STANDARD_ERROR_OF_MEAN|8.39||0.1329||95.0|-29.2|3.9|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.9|-29.2|0.1329
92340316|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|8.09||0.7723||95.0|-13.6|18.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.3|-13.6|0.7723
92340317|NCT00676403|184582650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.5|STANDARD_ERROR_OF_MEAN|8.16||0.0063||95.0|-38.6|-6.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-6.4|-38.6|0.0063
92398890|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.132|TWO_SIDED|95.0|-0.84|0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.11|-0.84|0.1320
92398891|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.1212|TWO_SIDED|95.0|-0.85|0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.10|-0.85|0.1212
92155658|NCT01076088|184197600|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-18.52||||0.017|TWO_SIDED|95.0|-33.75|-3.29||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. metformin 850 mg.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-3.29|-33.75|0.017
92155659|NCT01076088|184197600|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-61.34|||<|0.001|TWO_SIDED|95.0|-76.61|-46.07||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. sitagliptin 100 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-46.07|-76.61|<0.001
92155660|NCT01076088|184197600|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-31.38|||<|0.001|TWO_SIDED|95.0|-46.49|-16.28||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. metformin 500 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-16.28|-46.49|<0.001
92155661|NCT01076088|184197600|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-48.94|||<|0.001|TWO_SIDED|95.0|-64.21|-33.67||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. sitagliptin 100 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-33.67|-64.21|<0.001
92216836|NCT01825057|184333820|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.0091|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||Mean difference = Order One - Do One|||||0.0091
92398892|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.5689|TWO_SIDED|95.0|-0.62|0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.34|-0.62|0.5689
92340318|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.254||0.1715||95.0|-0.15|0.85|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.85|-0.15|0.1715
92340319|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.251||0.7944||95.0|-0.43|0.56|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.56|-0.43|0.7944
92340320|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.255||0.1994||95.0|-0.17|0.83|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.83|-0.17|0.1994
92340321|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.251||0.3652||95.0|-0.27|0.72|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.72|-0.27|0.3652
92340322|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.251||0.0481||95.0|0.0|0.99|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.99|0.00|0.0481
92340323|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.256||0.2501||95.0|-0.21|0.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.80|-0.21|0.2501
92340324|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.252||0.5191||95.0|-0.33|0.66|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.66|-0.33|0.5191
92340325|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.262||0.0817||95.0|-0.06|0.97|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.97|-0.06|0.0817
92340326|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.253||0.1146||95.0|-0.1|0.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.90|-0.10|0.1146
92340327|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.253||0.0054||95.0|0.21|1.21|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.21|0.21|0.0054
92216837|NCT01825057|184333820|SUPERIORITY||Mean Difference (Final Values)|1.04||||0.0196|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference = Order One - See One|||||0.0196
92216838|NCT01825057|184333820|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.2832|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference = Do One - See One|||||0.2832
92398893|NCT03192176|184689418|SUPERIORITY||0.1|0.1|STANDARD_ERROR_OF_MEAN|0.24||0.734|TWO_SIDED|95.0|-0.39|0.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.55|-0.39|0.7340
92398894|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.24||0.2704|TWO_SIDED|95.0|-0.73|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.20|-0.73|0.2704
92398895|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.48||0.561|TWO_SIDED|95.0|-1.24|0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||0.67|-1.24|0.5610
92216839|NCT01825057|184333821|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.1566|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||Mean difference = Order One - Do One|||||0.1566
92340328|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.261||0.3389||95.0|-0.26|0.76|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.76|-0.26|0.3389
92155662|NCT01076088|184197600|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-87.57|||<|0.001|TWO_SIDED|95.0|-102.87|-72.27||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. placebo|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-72.27|-102.87|<0.001
92155663|NCT01076088|184197600|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-69.05|||<|0.001|TWO_SIDED|95.0|-84.41|-53.7||Pairwise comparison, metformin 850 mg vs. placebo|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-53.70|-84.41|<0.001
92155664|NCT01076088|184197600|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-75.17|||<|0.001|TWO_SIDED|95.0|-90.47|-59.87||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. placebo|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-59.87|-90.47|<0.001
92155665|NCT01076088|184197600|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-43.79|||<|0.001|TWO_SIDED|95.0|-58.99|-28.58||Pairwise comparison, metformin 500 mg vs. placebo|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-28.58|-58.99|<0.001
92155666|NCT01076088|184197600|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-26.23|||<|0.001|TWO_SIDED|95.0|-41.62|-10.84||Pairwise comparison, sitagliptin 100 mg vs. placebo|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-10.84|-41.62|<0.001
92155667|NCT01076088|184197601|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-8.11||||0.069|TWO_SIDED|95.0|-16.86|0.64||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. metformin 850 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||0.64|-16.86|0.069
92155668|NCT01076088|184197601|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-25.88|||<|0.001|TWO_SIDED|95.0|-34.72|-17.04||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. sitagliptin 100 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-17.04|-34.72|<0.001
92155669|NCT01076088|184197601|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.72||||0.198|TWO_SIDED|95.0|-14.44|3.0||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. metformin 500 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||3.00|-14.44|0.198
92155670|NCT01076088|184197601|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-17.53|||<|0.001|TWO_SIDED|95.0|-26.33|-8.72||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. sitagliptin 100 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-8.72|-26.33|<0.001
92155671|NCT01076088|184197601|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-35.81|||<|0.001|TWO_SIDED|95.0|-44.56|-27.06||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. placebo.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-27.06|-44.56|<0.001
92155672|NCT01076088|184197601|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-27.7|||<|0.001|TWO_SIDED|95.0|-36.4|-19.0||Pairwise comparison, metformin 850 mg vs. placebo.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-19.00|-36.40|<0.001
92155673|NCT01076088|184197601|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-27.45|||<|0.001|TWO_SIDED|95.0|-36.18|-18.73||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. placebo.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-18.73|-36.18|<0.001
92155674|NCT01076088|184197601|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-21.73|||<|0.001|TWO_SIDED|95.0|-30.42|-13.04||Pairwise comparison, metformin 500 mg vs. placebo.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-13.04|-30.42|<0.001
92340329|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.254||0.5079||95.0|-0.33|0.67|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.67|-0.33|0.5079
92398896|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.49||0.7966|TWO_SIDED|95.0|-0.83|1.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||1.09|-0.83|0.7966
92155675|NCT01076088|184197601|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.93||||0.027|TWO_SIDED|95.0|-18.72|-1.14||Pairwise comparison, sitagliptin 100 mg vs. placebo.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-1.14|-18.72|0.027
92155676|NCT05515679|184197610|SUPERIORITY||Median Difference (Final Values)|0.72|STANDARD_DEVIATION|0.48|<|0.01|TWO_SIDED|95.0|0.51|0.94|||t-test, 2 sided|||Using a paired sample t-test (two tailed), we wished to examine whether there was an increase in Constructive Engagement and Pleasure and a reduction in Passive Engagement, Distracted Engagement, and Non-Engagement, from baseline to treatment. With an anticipated PWD sample of 24, and using means and standard deviations from the PI's previous studies, we calculated a power of 90% to detect effects (alpha = .05; one-tailed test). (3) PWD and staff report high satisfaction wi||.94|.51|<0.01
92340330|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.265||0.0453||95.0|0.01|1.05|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.05|0.01|0.0453
92340331|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.256||0.1622||95.0|-0.15|0.86|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.86|-0.15|0.1622
92340332|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|0.262||0.0003||95.0|0.45|1.48|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.48|0.45|0.0003
92340333|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.26||0.0383||95.0|0.03|1.05|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.05|0.03|0.0383
92340334|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.253||0.4495||95.0|-0.31|0.69|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.69|-0.31|0.4495
92340335|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.263||0.0135||95.0|0.14|1.17|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.17|0.14|0.0135
92340336|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.254||0.1423||95.0|-0.13|0.87|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.87|-0.13|0.1423
92340337|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.259||0.0035||95.0|0.25|1.27|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.27|0.25|0.0035
92340338|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.261||0.0125||95.0|0.14|1.17|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.17|0.14|0.0125
92340339|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.254||0.8021||95.0|-0.44|0.56|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.56|-0.44|0.8021
92340340|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.267||0.0249||95.0|0.08|1.13|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.13|0.08|0.0249
92340341|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.256||0.3383||95.0|-0.26|0.75|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.75|-0.26|0.3383
92340342|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.06|STANDARD_ERROR_OF_MEAN|0.26||0.0001||95.0|0.55|1.57|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.57|0.55|0.0001
92274926|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.14|||||TWO_SIDED|95.0|-26.59|14.31||||||For change in emotional functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||14.31|-26.59|
92274927|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.99|||||TWO_SIDED|95.0|-35.46|11.48||||||For change in cognitive functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||11.48|-35.46|
92340343|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.261||0.0133||95.0|0.14|1.17|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.17|0.14|0.0133
92340344|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.256||0.382||95.0|-0.28|0.73|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.73|-0.28|0.3820
92340345|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.75|STANDARD_ERROR_OF_MEAN|0.269||0.0053||95.0|0.23|1.28|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.28|0.23|0.0053
92340346|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.256||0.3258||95.0|-0.25|0.76|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.76|-0.25|0.3258
92340347|NCT00676403|184582651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|0.26||0.0005||95.0|0.41|1.43|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.43|0.41|0.0005
92340348|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.1429||95.0|-1.0|0.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.0|0.1429
92340349|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.0547||95.0|-1.2|0.0|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.0|-1.2|0.0547
92340350|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.3||0.0095||95.0|-1.4|-0.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.2|-1.4|0.0095
92155677|NCT05515679|184197611|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_DEVIATION|0.6||0.017|TWO_SIDED|95.0|-0.59|-0.07|||t-test, 2 sided|||||-0.07|-0.59|.017
92155678|NCT05515679|184197612|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_DEVIATION|0.41||0.008|TWO_SIDED|95.0|-0.43|-0.07|||t-test, 2 sided|||||-0.07|-0.43|.008
92340351|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3676||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.3676
92340352|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.2959||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.2959
92340353|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3435||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.3435
92340354|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.0895||95.0|-1.1|0.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.1|0.0895
92398897|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|0.5||0.3965|TWO_SIDED|95.0|-0.56|1.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||1.40|-0.56|0.3965
92398898|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.5||0.8189|TWO_SIDED|95.0|-0.87|1.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||1.10|-0.87|0.8189
92155679|NCT05515679|184197613|SUPERIORITY||Median Difference (Final Values)|-0.15|STANDARD_DEVIATION|0.34||0.053|TWO_SIDED|95.0|-0.3|0.0|||t-test, 2 sided|||||-.00|-.30|0.053
92274928|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.04|||||TWO_SIDED|95.0|-20.97|49.04||||||For change in social functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||49.04|-20.97|
92155680|NCT05515679|184197614|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_DEVIATION|0.28|<|0.01|TWO_SIDED|95.0|0.54|0.79|||t-test, 2 sided|||||.79|.54|<.01
92155681|NCT05515679|184197615|SUPERIORITY||Mean Difference (Final Values)|4.11|STANDARD_DEVIATION|3.35|<|0.001|TWO_SIDED|95.0|2.62|5.6|||t-test, 2 sided|||||5.60|2.62|<.001
92274929|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.39|||||TWO_SIDED|95.0|-15.83|62.61||||||For change in fatigue at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||62.61|-15.83|
92216840|NCT01825057|184333821|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.0982|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference = Order One - See One|||||0.0982
92216841|NCT01825057|184333821|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.6631|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference = Do One - See One|||||0.6631
92216842|NCT01825057|184333822|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.1327|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||Mean difference = Order One - Do One|||||.1327
92216843|NCT01825057|184333822|SUPERIORITY||Mean Difference (Final Values)|0.57||||0.4097|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||||mean difference = Order One - See One|||0.4097
92216844|NCT01825057|184333822|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.8779|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference = Do One - See One|||||0.8779
92216845|NCT02716675|184333844|OTHER||Prevention Efficacy (PE)|26.6||||0.15|TWO_SIDED|95.0|-11.7|51.8||The threshold for statistical significance was p = 0.05.|wald|||The primary PE analysis tests the null hypothesis PE equal to zero versus the alternative hypothesis PE not equal to zero using a 2-sided alpha equal 0.05 level Wald test of the equality of log cumulative hazard functions at the week 80 visit for the pooled VRC01 group versus the placebo group.||51.8|-11.7|0.15
92216846|NCT02716675|184333844|OTHER||Prevention Efficacy (PE)|22.4|||||TWO_SIDED|95.0|-25.5|52.0||||||A secondary analysis assesses the overall PE of the low-dose VRC01 group versus the placebo group.||52.0|-25.5|
92340355|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.0844||95.0|-1.1|0.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.1|0.0844
92340356|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.0675||95.0|-1.1|0.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.0|-1.1|0.0675
92340357|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.225||95.0|-1.0|0.2|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.2|-1.0|0.2250
92216847|NCT02716675|184333844|OTHER||Prevention Efficacy (PE)|30.9|||||TWO_SIDED|95.0|-13.9|58.0||||||A secondary analysis assesses the overall PE of the high-dose VRC01 group versus the placebo group.||58.0|-13.9|
92340358|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.3728||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.3728
92216848|NCT02716675|184333846|OTHER||Prevention Efficacy (PE)|73.0|||||TWO_SIDED|95.0|27.6|89.9||||||PE against IC80 of least sensitive variant less than 1||89.9|27.6|
92216849|NCT02716675|184333846|OTHER||Prevention Efficacy (PE)|6.1|||||TWO_SIDED|95.0|-174.3|67.8||||||PE against IC80 of least sensitive variant 1-3||67.8|-174.3|
92216850|NCT02716675|184333846|OTHER||Prevention Efficacy (PE)|8.6|||||TWO_SIDED|95.0|-68.1|50.3||||||PE against IC80 of least sensitive variant \> 3||50.3|-68.1|
92216851|NCT02015442|184333848|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||Baseline vs. treatment period||||0.390
92216852|NCT02015442|184333848|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||Baseline vs treatment||||0.204
92216853|NCT02015442|184333849|SUPERIORITY|||||||0.001||||||calculated|t-test, 2 sided|||Baseline vs treatment||||0.001
92216854|NCT02015442|184333849|SUPERIORITY|||||||0.244|||||||t-test, 2 sided|||Baseline vs treatment||||0.244
92216855|NCT02015442|184333849|SUPERIORITY|||||||0.244|||||||ANOVA|||||||0.244
92216856|NCT00290290|184333850|SUPERIORITY_OR_OTHER||Relative Risk|0.59||||0.004|TWO_SIDED|95.0|0.41|0.85|||Log Rank|||The average baseline rate of surgical-site infection at the six participating hospitals was 14% after clean-contaminated surgery with povidone-iodine skin preparation, and we estimated that substituting chlorhexidine-alcohol for povidone-iodine would reduce this rate to 7%. Therefore, we planned to enroll approximately 430 patients in each study group who could be evaluated in order for the study to have 90% power to detect a significant difference in the rates of surgical-site infection.||0.85|0.41|0.004
92216857|NCT00003895|184333852|SUPERIORITY_OR_OTHER||||||<|0.001||||||Post versus Pre-treatment % g209-2M-specific t-cells|t-test, 2 sided|||||||<.001
92216858|NCT00003895|184333852|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Post versus Pre-Treatment %g209-2M-specific T-cells|t-test, 2 sided|||||||<.0001
92216859|NCT00003895|184333852|SUPERIORITY_OR_OTHER|||||||0.59||||||Arm A Versus Arm B|t-test, 2 sided|||||||0.59
92340359|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.2686||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.2686
92340360|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.31||0.0753||95.0|-1.2|0.1|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.2|0.0753
92340361|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.1335||95.0|-1.0|0.1|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.0|0.1335
92340362|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.31||0.022||95.0|-1.3|-0.1|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.1|-1.3|0.0220
92340363|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.31||0.5754||95.0|-0.8|0.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.4|-0.8|0.5754
92340364|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.348||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.3480
92340365|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.31||0.0554||95.0|-1.2|0.0|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.0|-1.2|0.0554
92340366|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.4362||95.0|-0.8|0.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.4|-0.8|0.4362
92340367|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3631||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.3631
92340368|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.1152||95.0|-1.1|0.1|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.1|0.1152
92340369|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.4741||95.0|-0.8|0.4|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.4|-0.8|0.4741
92155682|NCT05515679|184197616|SUPERIORITY||Mean Difference (Final Values)|-1.07|STANDARD_DEVIATION|1.1|<|0.001|TWO_SIDED|95.0|-1.55|-0.58|||t-test, 2 sided|||||-0.58|-1.55|<.001
92155683|NCT05515679|184197617|SUPERIORITY||Median Difference (Final Values)|6.02|STANDARD_DEVIATION|11.4||0.022|TWO_SIDED|95.0|0.97|11.1|||t-test, 2 sided|||||11.1|0.97|.022
92155684|NCT05515679|184197618|SUPERIORITY||Mean Difference (Final Values)|1.23|STANDARD_DEVIATION|9.5||0.551|TWO_SIDED|95.0|-2.9|5.44|||t-test, 2 sided|||||5.44|-2.90|.551
92155685|NCT05515679|184197619|SUPERIORITY||Mean Difference (Final Values)|27.43|STANDARD_DEVIATION|0.11|<|0.001|TWO_SIDED|95.0|17.7|37.2|||t-test, 2 sided|||||37.2|17.7|<.001
92155686|NCT01448044|184197624|SUPERIORITY_OR_OTHER||difference in percentages|38.85|||<|0.0001|TWO_SIDED|95.0|21.703|55.997||The pvalue was based on the CochranMantelHaenszel (CMH) test, stratified by IL28B host genotype, geography, and baseline cirrhosis status.|Cochran-Mantel-Haenszel|||||55.997|21.703|<0.0001
92155687|NCT01952301|184197629|NON_INFERIORITY_OR_EQUIVALENCE|The primary hypothesis of the study evaluated whether CM was not inferior to Control in the generation of KT width from baseline to 6 months. A paired t-test was used to test for non-inferiority, using a one-sided significance level of 0.05 and a non-inferiority margin of 1.0 mm.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92155688|NCT01994720|184197635|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.067|TWO_SIDED|95.0|0.78|1.01||In order to address the issue of multiple testing, a hierarchical test sequence will be used. Tested at 4.98% level.|Regression, Cox|||Composite of stroke/MI/death||1.01|0.78|0.0670
92340370|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.31||0.0091||95.0|-1.4|-0.2|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.2|-1.4|0.0091
92340371|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.1721||95.0|-1.0|0.2|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.2|-1.0|0.1721
92340372|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.31||0.0262||95.0|-1.3|-0.1|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.1|-1.3|0.0262
92155689|NCT01994720|184197636|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.0462|TWO_SIDED|95.0|0.76|1.0||If the treatment effect on the primary efficacy variable is significant at the 4.98% level, the secondary efficacy variable will be tested in a confirmatory sense. Otherwise it will be tested in an exploratory manner.|Regression, Cox|||Ischemic stroke||1.00|0.76|0.0462
92155690|NCT01994720|184197637|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.0928|TWO_SIDED|95.0|0.79|1.02|||Regression, Cox|||||1.02|0.79|0.0928
92155691|NCT01994720|184197638|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.0771|TWO_SIDED|95.0|0.78|1.01|||Regression, Cox|||||1.01|0.78|0.0771
92155692|NCT01994720|184197639|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.3641|TWO_SIDED|95.0|0.83|1.67|||Regression, Cox|||||1.67|0.83|0.3641
92155693|NCT01994720|184197640|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.4828|TWO_SIDED|95.0|0.75|1.85|||Regression, Cox|||||1.85|0.75|0.4828
92155694|NCT01994720|184197641|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.5457|TWO_SIDED|95.0|0.67|2.14|||Regression, Cox|||||2.14|0.67|0.5457
92155695|NCT01994720|184197642|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.1393|TWO_SIDED|95.0|0.85|1.02|||Regression, Logistic|||||1.02|0.85|0.1393
92155696|NCT01994720|184197643|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.0342|TWO_SIDED|95.0|0.75|0.99|||Regression, Cox|||||0.99|0.75|0.0342
92155697|NCT01994720|184197644|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.8557|TWO_SIDED|95.0|0.55|2.06|||Regression, Cox|||||2.06|0.55|0.8557
92155698|NCT01994720|184197645|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.2126|TWO_SIDED|95.0|0.77|1.06|||Regression, Cox|||||1.06|0.77|0.2126
92155699|NCT01994720|184197651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.4511|TWO_SIDED|95.0|0.52|1.34|||Regression, Cox|||PLATO Major bleeding||1.34|0.52|0.4511
92155700|NCT01994720|184197652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.26|||<|0.0001|TWO_SIDED|95.0|1.53|3.34|||Regression, Cox|||||3.34|1.53|<0.0001
92155701|NCT02216422|184197653|SUPERIORITY_OR_OTHER||Percentage of Participants|100.0|||||TWO_SIDED|95.0|90.4|100.0|||||95% confidence interval (CI) was calculated using Wilson score method.|||100.0|90.4|
92155702|NCT04033991|184197687|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
92155703|NCT04033991|184197687|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
92155704|NCT04033991|184197688|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
92155705|NCT04033991|184197688|OTHER|||||||0.0068|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||0.0068
92155706|NCT04033991|184197690|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
92274930|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95|||||TWO_SIDED|95.0|-30.84|38.73||||||For change in nausea and vomiting at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||38.73|-30.84|
92155707|NCT04033991|184197690|OTHER|||||||0.0004|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||0.0004
92155708|NCT04033991|184197691|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
92155709|NCT04033991|184197691|OTHER|||||||0.0014|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||0.0014
92155710|NCT04033991|184197696|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
92155711|NCT04033991|184197696|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
92155712|NCT04033991|184197697|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
92155713|NCT04033991|184197697|OTHER|||||||0.0094|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||0.0094
92155714|NCT00577720|184197706|SUPERIORITY_OR_OTHER||Ratio (LS Mean 35 mg DRFB/35 mg IRBB)|1.437|||||TWO_SIDED|90.0|1.091|1.964||||||For power calculations, assumed that variability in test treatment groups is no more than 50% higher than reference group. If true ratio of CTX is 0.65, the power to detect this departure from a ratio of 1.0 in the primary analysis is 0.88.||1.964|1.091|
92155715|NCT00577720|184197706|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRBB/35 mg IRBB)|1.507|||||TWO_SIDED|90.0|1.139|2.066||||||For power calculations, assumed that variability in test treatment groups is no more than 50% higher than reference group. If true ratio of CTX is 0.65, the power to detect this departure from a ratio of 1.0 in the primary analysis is 0.88.||2.066|1.139|
92216860|NCT01380730|184333853|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-66.1|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-71.48|-60.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-60.72|-71.48|<0.001
92216861|NCT01380730|184333853|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.24|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-65.61|-54.88||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-54.88|-65.61|<0.001
92216862|NCT01380730|184333853|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.82|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-47.18|-36.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-36.45|-47.18|<0.001
92216863|NCT01380730|184333853|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.33|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-56.04|-44.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-44.62|-56.04|<0.001
92216864|NCT01380730|184333853|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.0|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-55.69|-44.31||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-44.31|-55.69|<0.001
92216865|NCT01380730|184333853|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.84|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-47.55|-36.13||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-36.13|-47.55|<0.001
92340373|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.31||0.9505||95.0|-0.6|0.6|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.6|-0.6|0.9505
92340374|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.3||0.6877||95.0|-0.7|0.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.5|-0.7|0.6877
92340375|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.1271||95.0|-1.1|0.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.1|0.1271
92340376|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9136||95.0|-0.6|0.6|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.6|-0.6|0.9136
92398899|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.5||0.5693|TWO_SIDED|95.0|-1.27|0.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||0.70|-1.27|0.5693
92398900|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.49||0.5217|TWO_SIDED|95.0|-1.29|0.65||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||0.65|-1.29|0.5217
92216866|NCT01380730|184333854|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-79.2|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-87.0|-71.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-71.5|-87.0|<0.001
92216867|NCT01380730|184333854|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-77.4|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-85.2|-69.6||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-69.6|-85.2|<0.001
92340377|NCT00676403|184582652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.4072||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.4072
92340378|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.2|STANDARD_ERROR_OF_MEAN|10.68||0.186||95.0|-35.2|6.9|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.9|-35.2|0.1860
92340379|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|10.54||0.653||95.0|-25.5|16.0|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.0|-25.5|0.6530
92398901|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.5|STANDARD_ERROR_OF_MEAN|0.49||0.2988|TWO_SIDED|95.0|-0.46|1.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||1.48|-0.46|0.2988
92398902|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.7957|TWO_SIDED|95.0|-0.69|0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.53|-0.69|0.7957
92398903|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.31||0.254|TWO_SIDED|95.0|-0.97|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.26|-0.97|0.2540
92155716|NCT00577720|184197706|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/35 mg IRBB)|1.535|||||TWO_SIDED|90.0|1.177|2.086||||||For power calculations, assumed that variability in test treatment groups is no more than 50% higher than reference group. If true ratio of CTX is 0.65, the power to detect this departure from a ratio of 1.0 in the primary analysis is 0.88.||2.086|1.177|
92274931|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.56|||||TWO_SIDED|95.0|-13.08|62.2||||||For change in pain at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||62.20|-13.08|
92398904|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.32||0.6956|TWO_SIDED|95.0|-0.75|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.50|-0.75|0.6956
92398905|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.32||0.8694|TWO_SIDED|95.0|-0.57|0.68||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.68|-0.57|0.8694
92155717|NCT00577720|184197706|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/50 mg DRBB)|1.068|||||TWO_SIDED|90.0|0.867|1.321||||||For power calculations, assumed that variability in test treatment groups is no more than 50% higher than reference group. If true ratio of CTX is 0.65, the power to detect this departure from a ratio of 1.0 in the primary analysis is 0.88.||1.321|0.867|
92155718|NCT00577720|184197706|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/50 mg DRBB)|1.018|||||TWO_SIDED|90.0|0.824|1.267||||||For power calculations, assumed that variability in test treatment groups is no more than 50% higher than reference group. If true ratio of CTX is 0.65, the power to detect this departure from a ratio of 1.0 in the primary analysis is 0.88.||1.267|0.824|
92155719|NCT00577720|184197707|SUPERIORITY_OR_OTHER||Ratio (LS Mean 35 mg DRFB/35 mg IRBB)|1.208|||||TWO_SIDED|90.0|0.749|2.099||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||2.099|0.749|
92155720|NCT00577720|184197707|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRBB/35 mg IRBB)|1.132|||||TWO_SIDED|90.0|0.665|2.003||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||2.003|0.665|
92155721|NCT00577720|184197707|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/35 mg IRBB)|1.407|||||TWO_SIDED|90.0|0.913|2.404||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||2.404|0.913|
92216868|NCT01380730|184333854|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.7|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-58.5|-43.0||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-43.0|-58.5|<0.001
92216869|NCT01380730|184333854|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.1|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-68.6|-53.7||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-53.7|-68.6|<0.001
92274932|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85|||||TWO_SIDED|95.0|-38.65|34.94||||||For change in dyspnea at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||34.94|-38.65|
92216870|NCT01380730|184333854|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.1|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-68.5|-53.7||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-53.7|-68.5|<0.001
92216871|NCT01380730|184333854|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.6|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-58.0|-43.1||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-43.1|-58.0|<0.001
92340380|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|10.79||0.6263||95.0|-26.5|16.0|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.0|-26.5|0.6263
92216872|NCT01380730|184333855|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.4|STANDARD_ERROR_OF_MEAN|2.53|<|0.001|TWO_SIDED|95.0|-66.37|-56.43||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-56.43|-66.37|<0.001
92216873|NCT01380730|184333855|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.42|STANDARD_ERROR_OF_MEAN|2.52|<|0.001|TWO_SIDED|95.0|-60.37|-50.47||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-50.47|-60.37|<0.001
92216874|NCT01380730|184333855|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.44|STANDARD_ERROR_OF_MEAN|2.52|<|0.001|TWO_SIDED|95.0|-43.39|-33.48||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-33.48|-43.39|<0.001
92216875|NCT01380730|184333855|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.58|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-52.72|-42.44||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-42.44|-52.72|<0.001
92216876|NCT01380730|184333855|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.8|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-50.92|-40.67||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-40.67|-50.92|<0.001
92340381|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.5|STANDARD_ERROR_OF_MEAN|10.63||0.4266||95.0|-29.4|12.5|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||12.5|-29.4|0.4266
92216877|NCT01380730|184333855|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.79|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-42.94|-32.65||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-32.65|-42.94|<0.001
92216878|NCT01380730|184333856|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.45|STANDARD_ERROR_OF_MEAN|2.46|<|0.001|TWO_SIDED|95.0|-61.28|-51.61||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-51.61|-61.28|<0.001
92340382|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|10.54||0.4023||95.0|-29.6|11.9|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.9|-29.6|0.4023
92340383|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.6|STANDARD_ERROR_OF_MEAN|10.77||0.1041||95.0|-38.8|3.6|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.6|-38.8|0.1041
92398906|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.32||0.5047|TWO_SIDED|95.0|-0.84|0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.41|-0.84|0.5047
92216879|NCT01380730|184333856|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.15|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|-54.97|-45.33||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-45.33|-54.97|<0.001
92216880|NCT01380730|184333856|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.74|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|-39.56|-29.92||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-29.92|-39.56|<0.001
92216881|NCT01380730|184333856|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.03|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-47.16|-36.9||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-36.90|-47.16|<0.001
92216882|NCT01380730|184333856|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.77|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-45.88|-35.66||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-35.66|-45.88|<0.001
92216883|NCT01380730|184333856|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.38|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-39.51|-29.25||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-29.25|-39.51|<0.001
92155722|NCT00577720|184197707|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/35 mg DRFB)|1.165|||||TWO_SIDED|90.0|0.797|1.752||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||1.752|0.797|
92340384|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|10.6||0.5084||95.0|-27.9|13.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.8|-27.9|0.5084
92340385|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.5|STANDARD_ERROR_OF_MEAN|11.1||0.262||95.0|-34.3|9.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.4|-34.3|0.2620
92340386|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.3|STANDARD_ERROR_OF_MEAN|10.7||0.3347||95.0|-31.4|10.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.7|-31.4|0.3347
92340387|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|10.61||0.1142||95.0|-37.7|4.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.1|-37.7|0.1142
92340388|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.1|STANDARD_ERROR_OF_MEAN|11.06||0.1237||95.0|-38.8|4.7|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.7|-38.8|0.1237
92340389|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|10.67||0.8302||95.0|-18.7|23.3|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.3|-18.7|0.8302
92340390|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|11.22||0.3039||95.0|-33.6|10.5|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.5|-33.6|0.3039
92340391|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.0|STANDARD_ERROR_OF_MEAN|10.77||0.4595||95.0|-29.2|13.2|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.2|-29.2|0.4595
92340392|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.6|STANDARD_ERROR_OF_MEAN|10.97||0.4338||95.0|-30.2|13.0|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.0|-30.2|0.4338
92340393|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.4|STANDARD_ERROR_OF_MEAN|10.99||0.0647||95.0|-42.0|1.2|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.2|-42.0|0.0647
92340394|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|10.61||0.5651||95.0|-27.0|14.8|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.8|-27.0|0.5651
92398907|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.31||0.7515|TWO_SIDED|95.0|-0.52|0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.71|-0.52|0.7515
92155723|NCT00577720|184197707|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/50 mg DRBB)|1.243|||||TWO_SIDED|90.0|0.828|1.99||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||1.990|0.828|
92155724|NCT00577720|184197708|SUPERIORITY_OR_OTHER||Ratio (LS Mean 35 mg DRFB/35 mg IRBB)|0.947|||||TWO_SIDED|90.0|0.316|2.993||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||2.993|0.316|
92155725|NCT00577720|184197708|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRBB/35 mg IRBB)|1.82|||||TWO_SIDED|90.0|0.929|5.429||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||5.429|0.929|
92155726|NCT00577720|184197708|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/35 mg IRBB)|1.58|||||TWO_SIDED|90.0|0.801|4.718||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||4.718|0.801|
92155727|NCT00577720|184197708|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/35 mg DRFB)|1.668|||||TWO_SIDED|90.0|0.856|4.668||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||4.668|0.856|
92155728|NCT00577720|184197708|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/50 mgDRBB)|0.868|||||TWO_SIDED|90.0|0.504|1.488||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||1.488|0.504|
92216884|NCT01380730|184333857|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.74|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|-52.18|-43.29||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-43.29|-52.18|<0.001
92216885|NCT01380730|184333857|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.38|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|-47.81|-38.94||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-38.94|-47.81|<0.001
92216886|NCT01380730|184333857|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.4|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|-35.83|-26.97||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-26.97|-35.83|<0.001
92274933|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.65|||||TWO_SIDED|95.0|-37.43|56.73||||||For change in insomnia at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||56.73|-37.43|
92398908|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.7818|TWO_SIDED|95.0|-0.7|0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.53|-0.70|0.7818
92155729|NCT03216902|184197742|SUPERIORITY|Claim superiority of DE-126 compare to Placebo at 3 timepoints (9:00, 13:00 and 17:00)|||||<|0.0001||||||P value is adjusted for multiple comparisons using Hochberg step-up procedure.|t-test, 2 sided|||This endpoint is to test if one of four concentrations of DE-126 is superior to the placebo in lowering IOP at each specified timepoint (9:00, 13:00 and 17:00) at Week 6 compared to baseline. Therefore, 0.005% Latanoprost group is not included in the analysis.||||<0.0001
92155730|NCT03216902|184197742|SUPERIORITY|Claim superiority of DE-126 compare to Placebo at 3 timepoints (9:00, 13:00 and 17:00)|||||<|0.0001||||||P value is adjusted for multiple comparisons using Hochberg step-up procedure.|t-test, 2 sided|||This endpoint is to test if one of four concentrations of DE-126 is superior to the placebo in lowering IOP at each specified timepoint (9:00, 13:00 and 17:00) at Week 6 compared to baseline. Therefore, 0.005% Latanoprost group is not included in the analysis.||||<0.0001
92155731|NCT03216902|184197742|SUPERIORITY|Claim superiority of DE-126 compare to Placebo at 3 timepoints (9:00, 13:00 and 17:00)|||||<|0.0001||||||P value is adjusted for multiple comparisons using Hochberg step-up procedure.|t-test, 2 sided|||This endpoint is to test if one of four concentrations of DE-126 is superior to the placebo in lowering IOP at each specified timepoint (9:00, 13:00 and 17:00) at Week 6 compared to baseline. Therefore, 0.005% Latanoprost group is not included in the analysis.||||<0.0001
92155732|NCT03216902|184197742|SUPERIORITY|Claim superiority of DE-126 compare to Placebo at 3 timepoints (9:00, 13:00 and 17:00)|||||<|0.0001||||||P value is adjusted for multiple comparisons using Hochberg step-up procedure.|t-test, 2 sided|||This endpoint is to test if one of four concentrations of DE-126 is superior to the placebo in lowering IOP at each specified timepoint (9:00, 13:00 and 17:00) at Week 6 compared to baseline. Therefore, 0.005% Latanoprost group is not included in the analysis.||||<0.0001
92155733|NCT01850082|184197754|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.47|TWO_SIDED|95.0|0.83|1.51|||Regression, Cox|||||1.51|0.83|0.47
92216887|NCT01380730|184333857|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.65|STANDARD_ERROR_OF_MEAN|2.2|<|0.001|TWO_SIDED|95.0|-39.99|-31.32||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-31.32|-39.99|<0.001
92216888|NCT01380730|184333857|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.97|STANDARD_ERROR_OF_MEAN|2.2|<|0.001|TWO_SIDED|95.0|-40.29|-31.65||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-31.65|-40.29|<0.001
92216889|NCT01380730|184333857|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.73|STANDARD_ERROR_OF_MEAN|2.2|<|0.001|TWO_SIDED|95.0|-32.06|-23.39||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-23.39|-32.06|<0.001
92216890|NCT01380730|184333858|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-53.44|STANDARD_ERROR_OF_MEAN|2.44|<|0.001|TWO_SIDED|95.0|-58.23|-48.65||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-48.65|-58.23|<0.001
92155734|NCT01850082|184197755|SUPERIORITY|||||||0.821|||||||Chi-squared|||||||0.821
92155735|NCT01850082|184197756|SUPERIORITY||||||>|0.99|||||||Chi-squared|||||||>0.99
92155736|NCT01850082|184197757|SUPERIORITY||Hazard Ratio (HR)|0.923||||0.517|TWO_SIDED|95.0|0.724|1.176|||Regression, Cox|||||1.176|0.724|0.517
92216891|NCT01380730|184333858|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.3|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-52.08|-42.52||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-42.52|-52.08|<0.001
92340395|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.6|STANDARD_ERROR_OF_MEAN|11.16||0.1634||95.0|-37.6|6.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.4|-37.6|0.1634
92340396|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.2|STANDARD_ERROR_OF_MEAN|10.77||0.2209||95.0|-34.4|8.0|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.0|-34.4|0.2209
92155737|NCT02138747|184197764|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.89|STANDARD_ERROR_OF_MEAN|0.997||0.004|TWO_SIDED|95.0|-4.86|-0.93||p-value based on the ANOVA model|ANOVA|||Tolerability score was analyzed using the ANOVA model (Model #1), with sequence group, study period, period-by-sequence interaction, gender and treatment group as factors, and subject-within-sequence as a random term. p-value based on the ANOVA model. Difference used mirabegron as the reference (difference =tolterodine ER -mirabegron). A negative difference indicates better reported tolerability with mirabegron than with tolterodine ER.||-0.93|-4.86|0.004
92216892|NCT01380730|184333858|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.75|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-39.53|-29.97||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-29.97|-39.53|<0.001
92274934|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.16|||||TWO_SIDED|95.0|-71.22|97.54||||||For change in appetite loss at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||97.54|-71.22|
92155738|NCT02138747|184197765|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||||||P value was obtained using Mainland-Gart test to compare the proportion of preference for each treatment group. The denominator excluded patients with No Preference.|Mainland-Gart|||Participants who selected Mirabegron or Tolterodine ER were included in the denominator and participants with No Preference were excluded. Comparison was between Mirabegron vs Tolterodine ER.||||0.77
92216893|NCT01380730|184333858|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.93|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-48.36|-37.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-37.50|-48.36|<0.001
92274935|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.81|||||TWO_SIDED|95.0|-22.61|68.22||||||For change in constipation at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||68.22|-22.61|
92155739|NCT02138747|184197774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.224||0.971|TWO_SIDED|95.0|-0.39|0.49||Adjusted P value was generated from the ANCOVA model for the period-by-treatment interaction.|ANCOVA|||Adjusted difference vs mirabegron where difference used mirabegron as the reference (difference = tolterodine ER - mirabegron).||0.49|-0.39|0.971
92155740|NCT02138747|184197775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.199||0.211|TWO_SIDED|95.0|-0.28|0.5||Adjusted P value was generated from the ANCOVA model for the period-by-treatment interaction.|ANCOVA|||Adjusted difference vs mirabegron where difference used mirabegron as the reference (difference = tolterodine ER - mirabegron).||0.50|-0.28|0.211
92155741|NCT04793464|184197794|SUPERIORITY||Mean Difference (Final Values)|0.77||||0.26|TWO_SIDED||||||ANCOVA|||Number analyzed is the number of participants with valid baseline and follow-up data.||||.26
92155742|NCT04793464|184197795|SUPERIORITY||Mean Difference (Final Values)|0.87||||0.02|TWO_SIDED||||||ANCOVA|Ratio of Means||Number analyzed is the number of participants with valid baseline and follow-up data.||||.02
92155743|NCT04793464|184197796|SUPERIORITY||Odds Ratio (OR)|1.1||||0.68|TWO_SIDED||||||ANCOVA|Logistic regression||Number analyzed is the number of participants with valid baseline and follow-up data.||||.68
92155744|NCT04793464|184197797|SUPERIORITY||Odds Ratio (OR)|1.19||||0.44|TWO_SIDED||||||ANCOVA|Logistic regression||Number analyzed is the number of participants with valid baseline and follow-up data.||||.44
92155745|NCT04793464|184197798|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.77|TWO_SIDED||||||ANCOVA|||Number analyzed is the number of participants with valid baseline and follow-up data.||||.77
92155746|NCT04793464|184197799|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.66|TWO_SIDED||||||ANCOVA|||Number analyzed is the number of participants with valid baseline and follow-up data.||||.66
92155747|NCT04793464|184197800|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.44|TWO_SIDED||||||ANCOVA|||Number analyzed is the number of participants with valid baseline and follow-up data.||||.44
92155748|NCT04793464|184197801|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.017|TWO_SIDED||||||ANCOVA|||Number analyzed is the number of participants with valid baseline and follow-up data.||||0.017
92155749|NCT00405704|184197809|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Log Rank|||||||<0.001
92155750|NCT00405704|184197810|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.55
92155751|NCT00405704|184197811|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.37
92155752|NCT00405704|184197812|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.94
92155753|NCT00405704|184197813|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED||||||Log Rank|||||||0.04
92155754|NCT00405704|184197814|SUPERIORITY_OR_OTHER_LEGACY|||||||0.065|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.065
92155755|NCT00405704|184197815|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92155756|NCT00405704|184197816|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92274936|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75|||||TWO_SIDED|95.0|-39.1|35.59||||||For change in diarrhea at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||35.59|-39.10|
92155757|NCT02696902|184197817|SUPERIORITY||Relative risk reduction|-23.7||||0.491|TWO_SIDED|80.0|-83.8|16.8|||Poisson regression with robust variance|||||16.8|-83.8|0.491
92155758|NCT01857622|184197835|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|3.8|||||TWO_SIDED|95.0|-14.7|26.8|||Wilcoxon (Mann-Whitney)|no statistical test||||26.8|-14.7|
92155759|NCT01857622|184197835|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.7|||||TWO_SIDED|95.0|-15.4|25.2|||Wilcoxon (Mann-Whitney)|||||25.2|-15.4|
92155760|NCT01567163|184197926|SUPERIORITY_OR_OTHER||Ratio geometric least squares (LS) means|0.97|||||TWO_SIDED|90.0|0.84|1.1|||Mixed Models Analysis||The ratio of geometric LS means was calculated using a mixed effect model adjusted for cycle, participant and random error. Ratio of geometric LS means is AUC(0-∞) of Cycle 2/Cycle 1.|||1.10|0.84|
92155761|NCT01567163|184197928|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.14|||||TWO_SIDED|90.0|0.84|1.55|||Mixed Models Analysis||The ratio of geometric least squares means was calculated using a mixed effect model adjusted for cycle, participant and random error. Ratio of Geo LS mean is Cmax of Cycle 2/Cycle 1.|||1.55|0.84|
92155762|NCT02571439|184197932|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92155763|NCT02571439|184197933|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92155764|NCT02571439|184197934|OTHER|||||||0.61|||||||Kruskal-Wallis|||||||0.61
92155765|NCT02571439|184197935|OTHER|||||||0.46|||||||Kruskal-Wallis|||||||0.46
92155766|NCT02571439|184197936|OTHER|||||||0.33|||||||Kruskal-Wallis|||||||0.33
92155767|NCT02571439|184197937|OTHER|||||||0.13|||||||Kruskal-Wallis|||||||0.13
92155768|NCT02571439|184197938|OTHER|||||||0.17|||||||Kruskal-Wallis|||||||0.17
92155769|NCT02571439|184197939|OTHER|||||||0.87|||||||Kruskal-Wallis|||||||0.87
92155770|NCT02571439|184197940|OTHER|||||||0.27|||||||Chi-squared|||||||0.27
92155771|NCT02571439|184197941|OTHER|||||||0.91|||||||Kruskal-Wallis|||||||0.91
92155772|NCT00318149|184197985|NON_INFERIORITY|Non inferiority criteria: The upper limit (UL) of the 2-sided 98.75% confidence interval (CI) on geometric mean ratio of influenza-specific T-cells (between Fluarix 18-40 Y Group and Fluarix-AS25 Group) was smaller than (\<) 2.0.|Geometric mean ratio|0.9|||||TWO_SIDED|98.75|0.7|1.16||||||Demonstration of non inferiority of the influenza adjuvanted vaccine Fluarix-AS25 administered to elderly subjects (aged 65 years and older) as compared to the licensed influenza vaccine Fluarix administered to adults (aged 18-40 years) in terms of frequency of influenza-specific CD4 T-cells producing at least 2 different cytokines (CD40L, IL-2, TNF-α or IFN-γ), 21 days post-vaccination.||1.16|0.7|
92168538|NCT04878354|184226857|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.0015|TWO_SIDED|95.0|0.07|0.29|||Mixed Models Analysis||Placebo SLIT-tablet vs tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in an LME model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.29|0.07|0.0015
92274937|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.98|||||TWO_SIDED|95.0|1.09|46.86||||||For change in financial difficulties at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||46.86|1.09|
92340397|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.5|STANDARD_ERROR_OF_MEAN|10.84||0.1293||95.0|-37.8|4.8|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.8|-37.8|0.1293
92340398|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.8|STANDARD_ERROR_OF_MEAN|11.06||0.0161||95.0|-48.5|-5.0|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-5.0|-48.5|0.0161
92340399|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|10.67||0.8506||95.0|-23.0|19.0|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||19.0|-23.0|0.8506
92340400|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-30.9|STANDARD_ERROR_OF_MEAN|11.31||0.0067||95.0|-53.2|-8.6|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-8.6|-53.2|0.0067
92340401|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.8|STANDARD_ERROR_OF_MEAN|10.76||0.1997||95.0|-35.0|7.4|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.4|-35.0|0.1997
92340402|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.4|STANDARD_ERROR_OF_MEAN|10.9||0.0159||95.0|-47.9|-5.0|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-5.0|-47.9|0.0159
92340403|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.8|STANDARD_ERROR_OF_MEAN|10.98||0.0388||95.0|-44.4|-1.2|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-1.2|-44.4|0.0388
92340404|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|10.73||0.9962||95.0|-21.2|21.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.1|-21.2|0.9962
92340405|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.8|STANDARD_ERROR_OF_MEAN|11.41||0.0839||95.0|-42.3|2.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||2.7|-42.3|0.0839
92340406|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|10.83||0.5216||95.0|-28.3|14.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.4|-28.3|0.5216
92155773|NCT00318149|184197985|NON_INFERIORITY|Non inferiority criteria: The upper limit (UL) of the 2-sided 98.75% confidence interval (CI) on geometric mean ratio of influenza-specific T-cells (between Fluarix 18-40 Y Group and Fluarix-AS50 Group) was smaller than (\<) 2.0.|Geometric mean ratio|1.05|||||TWO_SIDED|98.75|0.71|1.56||||||Demonstration of non inferiority of the influenza adjuvanted vaccine Fluarix-AS50 administered to elderly subjects (aged 65 years and older) as compared to the licensed influenza vaccine Fluarix administered to adults (aged 18-40 years) in terms of frequency of influenza-specific CD4 T-cells producing at least 2 different cytokines (CD40L, IL-2, TNF-α or IFN-γ), 21 days post-vaccination.||1.56|0.71|
92216894|NCT01380730|184333858|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.4|STANDARD_ERROR_OF_MEAN|2.75|<|0.001|TWO_SIDED|95.0|-47.81|-36.98||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-36.98|-47.81|<0.001
92340407|NCT00676403|184582653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-21.3|STANDARD_ERROR_OF_MEAN|10.98||0.0534||95.0|-42.9|0.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-42.9|0.0534
92398909|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.577|TWO_SIDED|95.0|-0.65|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.36|-0.65|0.5770
92398910|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.1893|TWO_SIDED|95.0|-0.85|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.17|-0.85|0.1893
92398911|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.3|STANDARD_ERROR_OF_MEAN|0.26||0.2997|TWO_SIDED|95.0|-0.25|0.79||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.79|-0.25|0.2997
92398912|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.7529|TWO_SIDED|95.0|-0.6|0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.44|-0.60|0.7529
92398913|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.26||0.4173|TWO_SIDED|95.0|-0.73|0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.31|-0.73|0.4173
92398914|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.26||0.4944|TWO_SIDED|95.0|-0.34|0.69||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.69|-0.34|0.4944
92398915|NCT03192176|184689418|SUPERIORITY||LSMean differencce|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.9231|TWO_SIDED|95.0|-0.54|0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.49|-0.54|0.9231
92155774|NCT00318149|184197985|NON_INFERIORITY|Non inferiority criteria: The upper limit (UL) of the 2-sided 98.75% confidence interval (CI) on geometric mean ratio of influenza-specific T-cells (between Fluarix 18-40 Y Group and Fluarix-AS01B Group) was smaller than (\<) 2.0.|Geometric mean ratio|1.04|||||TWO_SIDED|98.75|0.79|1.38||||||Demonstration of non inferiority of the influenza adjuvanted vaccine Fluarix-AS01B administered to elderly subjects (aged 65 years and older) as compared to the licensed influenza vaccine Fluarix administered to adults (aged 18-40 years) in terms of frequency of influenza-specific CD4 T-cells producing at least 2 different cytokines (CD40L, IL-2, TNF-α or IFN-γ), 21 days post-vaccination.||1.38|0.79|
92340408|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.8|STANDARD_ERROR_OF_MEAN|5.89||0.0199||95.0|2.2|25.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.4|2.2|0.0199
92168539|NCT04878354|184226858|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.0032|TWO_SIDED|95.0|0.04|0.2|||Mixed Models Analysis||Placebo SLIT-tablet vs tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.20|0.04|0.0032
92398916|NCT03192176|184689418|SUPERIORITY||LSMean differencce|-0.3|STANDARD_ERROR_OF_MEAN|0.4||0.5112|TWO_SIDED|95.0|-1.04|0.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.52|-1.04|0.5112
92155775|NCT00318149|184197985|NON_INFERIORITY|Non inferiority criteria: The upper limit (UL) of the 2-sided 98.75% confidence interval (CI) on geometric mean ratio of influenza-specific T-cells (between Fluarix 18-40 Y Group and Fluarix-AS01E Group) was smaller than (\<) 2.0.|Geometric mean ratio|1.07|||||TWO_SIDED|98.75|0.79|1.44||||||Demonstration of non inferiority of the influenza adjuvanted vaccine Fluarix-AS01E administered to elderly subjects (aged 65 years and older) as compared to the licensed influenza vaccine Fluarix administered to adults (aged 18-40 years) in terms of frequency of influenza-specific CD4 T-cells producing at least 2 different cytokines (CD40L, IL-2, TNF-α or IFN-γ), 21 days post-vaccination.||1.44|0.79|
92155776|NCT03088137|184198018|EQUIVALENCE|Study power of at least 80% at a significance level (alpha error) 5% and a pre-determined clinical equivalence margin of +/- 3.4 oocytes for the relevant population.|Mean Difference (Final Values)|0.546|STANDARD_DEVIATION|1.297||0.002|TWO_SIDED|95.0|-2.026|3.116|||Wilcoxon (Mann-Whitney)|||||3.116|-2.026|0.002
92155777|NCT03088137|184198019|SUPERIORITY||Mean Difference (Final Values)|0.709|STANDARD_DEVIATION|1.067||0.806|TWO_SIDED|95.0|-1.405|2.824|||Wilcoxon (Mann-Whitney)|||||2.824|-1.405|0.806
92155778|NCT03088137|184198020|SUPERIORITY||Mean Difference (Final Values)|0.218|STANDARD_DEVIATION|1.129||0.617|TWO_SIDED|95.0|-2.455|2.019|||Wilcoxon (Mann-Whitney)|||||2.019|-2.455|0.617
92155779|NCT03088137|184198021|SUPERIORITY||Mean Difference (Final Values)|0.636|STANDARD_DEVIATION|1.19||0.445|TWO_SIDED|95.0|-2.995|1.723|||Wilcoxon (Mann-Whitney)|||||1.723|-2.995|0.445
92155780|NCT03088137|184198022|SUPERIORITY|||||||0.623|||||||ANOVA|||||||0.623
92155781|NCT03088137|184198023|SUPERIORITY||Mean Difference (Final Values)|14.9|STANDARD_DEVIATION|49.8||0.488|TWO_SIDED|95.0|-83.9|113.6|||Wilcoxon (Mann-Whitney)|||||113.6|-83.9|0.488
92155782|NCT03088137|184198024|SUPERIORITY||Mean Difference (Final Values)|0.018|STANDARD_DEVIATION|0.201||0.629|TWO_SIDED|95.0|-0.379|0.416|||Wilcoxon (Mann-Whitney)|||||0.416|-0.379|0.629
92155783|NCT03088137|184198025|SUPERIORITY|||||||0.644|||||||Wilcoxon (Mann-Whitney)|||||||0.644
92155784|NCT03088137|184198028|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.833|TWO_SIDED|95.0|-21.0|17.0|||Chi-squared|||95% confidence intervals (CIs) of point estimates were calculated using the exact binomial distribution (Clopper-Pearson method) for proportions.||17.0|-21.0|0.833
92155785|NCT03088137|184198029|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.507|TWO_SIDED|95.0|-24.3|11.9|||Chi-squared|||95% confidence intervals (CIs) of point estimates were calculated using the exact binomial distribution (Clopper-Pearson method) for proportions.||11.9|-24.3|0.507
92216895|NCT01380730|184333858|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.77|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-39.2|-28.33||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-28.33|-39.20|<0.001
92216896|NCT01509079|184333872|SUPERIORITY_OR_OTHER|||||||0.38|||||||ANOVA|||||||0.38
92155786|NCT05108649|184198032|OTHER|We treated the exposure as a four-level categorical variable with control messaging + NNC cigarettes as the control condition.||||||0.0008|||||||ANOVA|ANOVA compared scale scores across the conditions.||||||0.0008
92155787|NCT05108649|184198033|OTHER|||||||0.9804|||||||ANOVA|||||||0.9804
92155788|NCT05108649|184198034|OTHER|||||||0.6579|||||||ANOVA|||||||0.6579
92155789|NCT05108649|184198035|OTHER|||||||0.4208|||||||ANOVA|||||||0.4208
92155790|NCT05108649|184198036|OTHER|||||||0.245|||||||Chi-squared|||||||0.245
92155791|NCT05108649|184198037|OTHER|||||||0.6396|||||||ANOVA|||||||0.6396
92155792|NCT05108649|184198038|OTHER|||||||0.0235|||||||ANOVA|||||||0.0235
92155793|NCT05108649|184198039|OTHER|||||||0.3564|||||||ANOVA|||||||0.3564
92155794|NCT05108649|184198040|OTHER|||||||0.6057|||||||ANOVA|||||||0.6057
92155795|NCT05108649|184198041|OTHER|||||||0.2304|||||||ANOVA|||||||0.2304
92155796|NCT00918749|184198048|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.598|STANDARD_ERROR_OF_MEAN|4.215||0.3946|TWO_SIDED|90.0|-10.568|3.372|||ANOVA|Fixed effects for treatment and center.||A two group t-test with a 0.100 one-sided significance level would have 96% power to detect the difference between a risedronate 150 mg IRBB mean, µ1, of -46.000 and a risedronate 75 mg DRFB mean, µ2, of -29.900 (a difference in means of -16.100), assuming that the common SD was 28.000, with sample sizes of 60 per group, respectively. Estimates were based on Study 2005107 (35 mg DR once a week Phase 2 study). The sample size calculation was not adjusted for multiplicity.||3.372|-10.568|0.3946
92155797|NCT00918749|184198048|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.197|STANDARD_ERROR_OF_MEAN|4.241||0.0045|TWO_SIDED|90.0|-19.208|-5.185|||ANOVA|Fixed effects for treatment and center.||||-5.185|-19.208|0.0045
92155798|NCT00918749|184198049|SUPERIORITY_OR_OTHER||LS Mean Difference|4.765|STANDARD_ERROR_OF_MEAN|4.952||0.3372|TWO_SIDED|90.0|-3.421|12.952|||ANOVA|Fixed effects for treatment and center.||||12.952|-3.421|0.3372
92155799|NCT00918749|184198049|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.218|STANDARD_ERROR_OF_MEAN|4.966||0.965|TWO_SIDED|90.0|-8.427|7.991|||ANOVA|Fixed effects for treatment and center.||||7.991|-8.427|0.9650
92155800|NCT00918749|184198050|SUPERIORITY_OR_OTHER||LS Mean Difference|0.388|STANDARD_ERROR_OF_MEAN|4.269||0.9276|TWO_SIDED|90.0|-6.67|7.447|||ANOVA|Fixed effects for treatment and center.||||7.447|-6.670|0.9276
92155801|NCT00918749|184198050|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.787|STANDARD_ERROR_OF_MEAN|4.313||0.0133|TWO_SIDED|90.0|-17.917|-3.657|||ANOVA|Fixed effects for treatment and center.||||-3.657|-17.917|0.0133
92155802|NCT00918749|184198051|SUPERIORITY_OR_OTHER||LS Mean Difference|14.528|STANDARD_ERROR_OF_MEAN|9.28||0.1192|TWO_SIDED|90.0|-0.813|29.868|||ANOVA|Fixed effects for treatment and center.||||29.868|-0.813|0.1192
92155803|NCT00918749|184198051|SUPERIORITY_OR_OTHER||LS Mean Difference|14.215|STANDARD_ERROR_OF_MEAN|9.343||0.1298|TWO_SIDED|90.0|-1.23|29.659|||ANOVA|Fixed effects for treatment and center.||||29.659|-1.230|0.1298
92155804|NCT00918749|184198052|SUPERIORITY_OR_OTHER||LS Mean Difference|1.119|STANDARD_ERROR_OF_MEAN|6.093||0.8546|TWO_SIDED|90.0|-8.956|11.193|||ANOVA|Fixed effects for treatment and center.||||11.193|-8.956|0.8546
92155805|NCT00918749|184198052|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.393|STANDARD_ERROR_OF_MEAN|6.126||0.2291|TWO_SIDED|90.0|-17.522|2.737|||ANOVA|Fixed effects for treatment and center.||||2.737|-17.522|0.2291
92155806|NCT00918749|184198053|SUPERIORITY_OR_OTHER||LS Mean Difference|5.505|STANDARD_ERROR_OF_MEAN|9.046||0.5436|TWO_SIDED|90.0|-9.452|20.462|||ANOVA|Fixed effects for treatment and center.||||20.462|-9.452|0.5436
92216897|NCT03861936|184333892|SUPERIORITY||Percentage Difference|68.8|||<|0.0001|TWO_SIDED|95.0|54.5|83.1||P-values for between-treatment comparisons are based on Cochran-Mantel-Haenszel (CMH) model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||83.1|54.5|<.0001
92155807|NCT00918749|184198053|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.914|STANDARD_ERROR_OF_MEAN|9.1||0.9201|TWO_SIDED|90.0|-15.959|14.132|||ANOVA|Fixed effects for treatment and center.||||14.132|-15.959|0.9201
92155808|NCT00918749|184198054|SUPERIORITY_OR_OTHER||LS Mean Difference|3.108|STANDARD_ERROR_OF_MEAN|4.052||0.444|TWO_SIDED|90.0|-3.59|9.807|||ANOVA|Fixed effects for treatment and center.||||9.807|-3.590|0.4440
92155809|NCT00918749|184198054|SUPERIORITY_OR_OTHER||LS Mean Difference|4.842|STANDARD_ERROR_OF_MEAN|4.063||0.2349|TWO_SIDED|90.0|-1.874|11.559|||ANOVA|Fixed effects for treatment and center.||||11.559|-1.874|0.2349
92155810|NCT00918749|184198055|SUPERIORITY_OR_OTHER||LS Mean Difference|4.966|STANDARD_ERROR_OF_MEAN|4.327||0.2527|TWO_SIDED|90.0|-2.189|12.12|||ANOVA|Fixed effects for treatment and center.||||12.120|-2.189|0.2527
92155811|NCT00918749|184198055|SUPERIORITY_OR_OTHER||LS Mean Difference|4.926|STANDARD_ERROR_OF_MEAN|4.371||0.2613|TWO_SIDED|90.0|-2.301|12.153|||ANOVA|Fixed effects for treatment and center.||||12.153|-2.301|0.2613
92155812|NCT00918749|184198056|SUPERIORITY_OR_OTHER||LS Mean Difference|1.269|STANDARD_ERROR_OF_MEAN|4.16||0.7606|TWO_SIDED|90.0|-5.609|8.148|||ANOVA|Fixed effects for treatment and center.||||8.148|-5.609|0.7606
92155813|NCT00918749|184198056|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.825|STANDARD_ERROR_OF_MEAN|4.185||0.5006|TWO_SIDED|90.0|-9.744|4.095|||ANOVA|Fixed effects for treatment and center.||||4.095|-9.744|0.5006
92155814|NCT03055832|184198089|NON_INFERIORITY|"This study provides a combined power of co-primary endpoints of 88% given the following primary endpoint assumptions:~* MGS non-inferiority delta of 5 points and standard deviation of 8 points provides power of 93.9%~* TBT non-inferiority delta of 2.5 seconds and standard deviation of 4 seconds, provides a TBT primary endpoint power of 93.9%~* Power that both endpoitns are significant, assuming independence was 0.939\^2 = 0.882 or 88.2% power."|Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|1.88|||TWO_SIDED|95.0|-3.82|3.56||||||||3.56|-3.82|
92155815|NCT03055832|184198090|NON_INFERIORITY|"This study provides a combined power of co-primary endpoints of 88% given the following primary endpoint assumptions:~* MGS non-inferiority delta of 5 points and standard deviation of 8 points provides power of 93.9%~* TBT non-inferiority delta of 2.5 seconds and standard deviation of 4 seconds, provides a TBT primary endpoint power of 93.9%~* Power that both endpoitns are significant, assuming independence was 0.939\^2 = 0.882 or 88.2% power."|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-0.97|1.16||||||||1.16|-0.97|
92155816|NCT03055832|184198091|OTHER|A formal hypothesis was not proposed for this endpoint and therefore a power calculation was not performed. A Fisher's Exact test was performed post hoc to determine if a significant difference existed between the two arms.||||||0.12|||||||Fisher Exact|||||||0.12
92155817|NCT03055832|184198092|NON_INFERIORITY|A standard deviation of 14 was assumed based on pilot data and the non-inferiority delta was set to 7. The chosen sample size and alpha = 0.025 provides 80% power for this endpoint|Mean Difference (Net)|-3.08|STANDARD_ERROR_OF_MEAN|2.89|||TWO_SIDED|95.0|-8.75|2.59||||||All questions||2.59|-8.75|
92155818|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.011||||90.0|-0.064|-0.026|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|M3||-0.026|-0.064|
92155819|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.025|0.02|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M6||0.020|-0.025|
92155820|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.033|0.013|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|M9||0.013|-0.033|
92155821|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.044|0.004|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M12||0.004|-0.044|
92216898|NCT03861936|184333892|SUPERIORITY||Percentage Difference|69.6|||<|0.0001|TWO_SIDED|95.0|55.1|84.0||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||84.0|55.1|<.0001
92216899|NCT03861936|184333898|SUPERIORITY||Percentage Difference|48.4|||<|0.0001|TWO_SIDED|95.0|33.1|63.7||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||63.7|33.1|<.0001
92216900|NCT03861936|184333898|SUPERIORITY||Percentage Difference|45.7|||<|0.0001|TWO_SIDED|95.0|29.5|61.8||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||61.8|29.5|<.0001
92216901|NCT03861936|184333899|SUPERIORITY||Percentage Difference|55.2|||<|0.0001|TWO_SIDED|95.0|39.6|70.8||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||70.8|39.6|<.0001
92155822|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.015||||90.0|-0.048|0.003|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|M15||0.003|-0.048|
92155823|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.016||||90.0|-0.05|0.004|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|M18||0.004|-0.050|
92155824|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.017||||90.0|-0.047|0.007|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|M21||0.007|-0.047|
92155825|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.017||||90.0|-0.054|0.002|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M24||0.002|-0.054|
92155826|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.017||||90.0|-0.021|0.034|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M1||0.034|-0.021|
92155827|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.018||||90.0|-0.016|0.044|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M3||0.044|-0.016|
92155828|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027|STANDARD_ERROR_OF_MEAN|0.017||||90.0|-0.002|0.055|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M6||0.055|-0.002|
92155829|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.022||||90.0|-0.04|0.032|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M1||0.032|-0.040|
92155830|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.023||||90.0|-0.07|0.004|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M3||0.004|-0.070|
92398917|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.4||0.03|TWO_SIDED|95.0|-1.66|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||-0.09|-1.66|0.0300
92155831|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.023||||90.0|-0.077|-0.002|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M6||-0.002|-0.077|
92155832|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.036|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.075|0.003|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|Ext M9||0.003|-0.075|
92155833|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.058|0.022|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M12||0.022|-0.058|
92155834|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.034|0.048|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|Ext M15||0.048|-0.034|
92155835|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.055|0.033|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M18||0.033|-0.055|
92340409|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.3|STANDARD_ERROR_OF_MEAN|5.78||0.0768||95.0|-1.1|21.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.7|-1.1|0.0768
92340410|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|5.91||0.0642||95.0|-0.7|22.6|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||22.6|-0.7|0.0642
92340411|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|5.88||0.2643||95.0|-5.0|18.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.2|-5.0|0.2643
92340412|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.2|STANDARD_ERROR_OF_MEAN|5.8||0.0358||95.0|0.8|23.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.7|0.8|0.0358
92340413|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.1|STANDARD_ERROR_OF_MEAN|5.93||0.0428||95.0|0.4|23.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.8|0.4|0.0428
92155836|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.026||||90.0|-0.058|0.029|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|Ext M21||0.029|-0.058|
92274938|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.04|||||TWO_SIDED|95.0|-39.03|63.11||||||For change in global QoL at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||63.11|-39.03|
92274939|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.89|||||TWO_SIDED|95.0|-20.74|58.52||||||For change in physical functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||58.52|-20.74|
92274940|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.33|||||TWO_SIDED|95.0|-111.94|15.28||||||For change in role functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||15.28|-111.94|
92340414|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.5|STANDARD_ERROR_OF_MEAN|5.81||0.1993||95.0|-4.0|18.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.9|-4.0|0.1993
92340415|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.9|STANDARD_ERROR_OF_MEAN|6.04||0.0331||95.0|1.1|24.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||24.8|1.1|0.0331
92340416|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.1|STANDARD_ERROR_OF_MEAN|5.91||0.0415||95.0|0.5|23.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.8|0.5|0.0415
92155837|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.061|0.03|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M24||0.030|-0.061|
92155838|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.026||||90.0|-0.044|0.043|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|Ext M27||0.043|-0.044|
92155839|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.051|0.04|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M30||0.040|-0.051|
92155840|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.03||||90.0|-0.042|0.058|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|Ext M33||0.058|-0.042|
92398918|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.41||0.0634|TWO_SIDED|95.0|-1.57|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.04|-1.57|0.0634
92155841|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.032||||90.0|-0.03|0.077|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M36||0.077|-0.030|
92340417|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.8|STANDARD_ERROR_OF_MEAN|5.83||0.0295||95.0|1.3|24.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||24.3|1.3|0.0295
92340418|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.2|STANDARD_ERROR_OF_MEAN|6.01||0.1267||95.0|-2.6|21.1|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.1|-2.6|0.1267
92340419|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|5.84||0.4175||95.0|-6.8|16.2|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.2|-6.8|0.4175
92340420|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.0|STANDARD_ERROR_OF_MEAN|6.09||0.0342||95.0|1.0|25.0|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.0|1.0|0.0342
92398919|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.41||0.9406|TWO_SIDED|95.0|-0.78|0.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.84|-0.78|0.9406
92155842|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.023||||90.0|-0.042|0.035|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height. Ext M36 (LOCF) based on data in the extension phase only.|Ext M36 LOCF||0.035|-0.042|
92155843|NCT00136916|184198099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.019|STANDARD_ERROR_OF_MEAN|0.026||||90.0|-0.023|0.062|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext FU M3||0.062|-0.023|
92155844|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.119|STANDARD_ERROR_OF_MEAN|0.058||||90.0|-0.215|-0.023|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M3||-0.023|-0.215|
92155845|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.067||||90.0|-0.133|0.087|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M6||0.087|-0.133|
92155846|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.069||||90.0|-0.104|0.124|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M9||0.124|-0.104|
92155847|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.075||||90.0|-0.033|0.214|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M12||0.214|-0.033|
92398920|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41||0.1168|TWO_SIDED|95.0|-1.46|0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.16|-1.46|0.1168
92155848|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.081||||90.0|-0.081|0.185|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M15||0.185|-0.081|
92155849|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.087||||90.0|-0.054|0.234|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M18||0.234|-0.054|
92155850|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.085||||90.0|-0.073|0.208|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M21||0.208|-0.073|
92155851|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.096||||90.0|-0.058|0.257|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M24||0.257|-0.058|
92274941|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|||||TWO_SIDED|95.0|-22.59|20.74||||||For change in emotional functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||20.74|-22.59|
92155852|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.09||||90.0|-0.143|0.154|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|FU M3||0.154|-0.143|
92155853|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036|STANDARD_ERROR_OF_MEAN|0.094||||90.0|-0.119|0.19|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|FU M6||0.190|-0.119|
92155854|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.11||||90.0|-0.2|0.161|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M1||0.161|-0.200|
92155855|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.11||||90.0|-0.101|0.263|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M3||0.263|-0.101|
92155856|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.108||||90.0|-0.038|0.32|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M6||0.320|-0.038|
92155857|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.116||||90.0|-0.041|0.342|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M9||0.342|-0.041|
92155858|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.118||||90.0|-0.09|0.298|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M12||0.298|-0.090|
92155859|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.074|STANDARD_ERROR_OF_MEAN|0.125||||90.0|-0.132|0.279|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M15||0.279|-0.132|
92155860|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.12||||90.0|-0.111|0.284|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M18||0.284|-0.111|
92155861|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064|STANDARD_ERROR_OF_MEAN|0.124||||90.0|-0.141|0.27|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M21||0.270|-0.141|
92155862|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.123||||90.0|-0.156|0.249|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M24||0.249|-0.156|
92155863|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.124||||90.0|-0.138|0.272|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M27||0.272|-0.138|
92155864|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.132||||90.0|-0.171|0.264|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M30||0.264|-0.171|
92155865|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.824|STANDARD_ERROR_OF_MEAN|8.319||||90.0|-3.92|23.569|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M33||23.569|-3.920|
92274942|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.22|||||TWO_SIDED|95.0|-24.98|39.43||||||For change in cognitive functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||39.43|-24.98|
92155866|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.197||||90.0|-0.316|0.337|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M36||0.337|-0.316|
92155867|NCT00136916|184198105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.163||||90.0|-0.245|0.292|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext FU M3||0.292|-0.245|
92155868|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.39|STANDARD_ERROR_OF_MEAN|4.054||||90.0|-19.07|-5.71|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|M3||-5.710|-19.07|
92155869|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.21|STANDARD_ERROR_OF_MEAN|4.795||||90.0|-22.11|-6.312|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|M6||-6.312|-22.11|
92155870|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.96|STANDARD_ERROR_OF_MEAN|4.92||||90.0|-19.07|-2.852|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|M12||-2.852|-19.07|
92155871|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.56|STANDARD_ERROR_OF_MEAN|5.052||||90.0|-20.89|-4.232|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|M24||-4.232|-20.89|
92155872|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.83|STANDARD_ERROR_OF_MEAN|21.867||||90.0|-80.69|47.019|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|FU M3||47.019|-80.69|
92155873|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.578|STANDARD_ERROR_OF_MEAN|7.173||||90.0|-9.257|14.412|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|FU M6||14.412|-9.257|
92155874|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.46|STANDARD_ERROR_OF_MEAN|6.007||||90.0|-19.37|0.45|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M1||0.450|-19.37|
92155875|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.481|STANDARD_ERROR_OF_MEAN|6.446||||90.0|-20.11|1.153|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M3||1.153|-20.11|
92155876|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.76|STANDARD_ERROR_OF_MEAN|6.785||||90.0|-21.95|0.438|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M6||0.438|-21.95|
92155877|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.827|STANDARD_ERROR_OF_MEAN|6.154||||90.0|-16.98|3.328|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M9||3.328|-16.98|
92155878|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.287|STANDARD_ERROR_OF_MEAN|7.192||||90.0|-19.15|4.579|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M12||4.579|-19.15|
92155879|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.848|STANDARD_ERROR_OF_MEAN|7.219||||90.0|-13.76|10.066|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M15||10.066|-13.76|
92155880|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.022|STANDARD_ERROR_OF_MEAN|7.156||||90.0|-20.83|2.79|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M18||2.790|-20.83|
92155881|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.078|STANDARD_ERROR_OF_MEAN|7.217||||90.0|-18.99|4.834|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M21||4.834|-18.99|
92155882|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.53|STANDARD_ERROR_OF_MEAN|7.329||||90.0|-24.63|-0.429|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M24||-0.429|-24.63|
92274943|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|||||TWO_SIDED|95.0|-57.71|77.71||||||For change in social functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||77.71|-57.71|
92155883|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.07|STANDARD_ERROR_OF_MEAN|6.895||||90.0|-30.45|-7.685|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M27||-7.685|-30.45|
92155884|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.22|STANDARD_ERROR_OF_MEAN|7.223||||90.0|-15.15|8.705|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M30||8.705|-15.15|
92155885|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.49|STANDARD_ERROR_OF_MEAN|7.625||||90.0|-21.09|4.107|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M33||4.107|-21.09|
92155886|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.88|STANDARD_ERROR_OF_MEAN|8.906||||90.0|-36.66|-7.105|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M36||-7.105|-36.66|
92155887|NCT00136916|184198106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.673|STANDARD_ERROR_OF_MEAN|8.77||||90.0|-19.16|9.812|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext FU M3||9.812|-19.16|
92155888|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.059|STANDARD_ERROR_OF_MEAN|0.217||||90.0|-0.416|0.299|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|M3||0.299|-0.416|
92155889|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.735|STANDARD_ERROR_OF_MEAN|0.297||||90.0|-1.224|-0.246|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|M6||-0.246|-1.224|
92340421|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.7|STANDARD_ERROR_OF_MEAN|5.96||0.1038||95.0|-2.0|21.5|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.5|-2.0|0.1038
92398921|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.9937|TWO_SIDED|95.0|-0.79|0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.80|-0.79|0.9937
92155890|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.642|STANDARD_ERROR_OF_MEAN|0.37||||90.0|-1.251|-0.032|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|M12||-0.032|-1.251|
92155891|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.355|STANDARD_ERROR_OF_MEAN|0.464||||90.0|-2.12|-0.589|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|M24||-0.589|-2.120|
92155892|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.303|STANDARD_ERROR_OF_MEAN|0.475||||90.0|-2.086|-0.52|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|FU M3||-0.520|-2.086|
92155893|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.557|STANDARD_ERROR_OF_MEAN|0.596||||90.0|-2.539|-0.575|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|FU M6||-0.575|-2.539|
92155894|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.904|STANDARD_ERROR_OF_MEAN|0.603||||90.0|-1.898|0.09|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M1||0.090|-1.898|
92155895|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|0.573||||90.0|-2.225|-0.334|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M3||-0.334|-2.225|
92155896|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.834|STANDARD_ERROR_OF_MEAN|0.652||||90.0|-1.909|0.241|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M6||0.241|-1.909|
92155897|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.001|STANDARD_ERROR_OF_MEAN|0.654||||90.0|-2.08|0.078|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M9||0.078|-2.080|
92216902|NCT03861936|184333899|SUPERIORITY||Percentage Difference|60.9|||<|0.0001|TWO_SIDED|95.0|45.1|76.7||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||76.7|45.1|<.0001
92340422|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.6|STANDARD_ERROR_OF_MEAN|5.98||0.0537||95.0|-0.2|23.4|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.4|-0.2|0.0537
92155898|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.316|STANDARD_ERROR_OF_MEAN|0.676||||90.0|-2.431|-0.2|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M12||-0.200|-2.431|
92155899|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.512|STANDARD_ERROR_OF_MEAN|0.696||||90.0|-2.661|-0.363|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M15||-0.363|-2.661|
92155900|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.313|STANDARD_ERROR_OF_MEAN|0.916||||90.0|-2.824|0.198|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M18||0.198|-2.824|
92155901|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.399|STANDARD_ERROR_OF_MEAN|0.904||||90.0|-3.891|-0.907|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M21||-0.907|-3.891|
92155902|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.566|STANDARD_ERROR_OF_MEAN|0.788||||90.0|-2.867|-0.265|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M24||-0.265|-2.867|
92216903|NCT03861936|184333900|SUPERIORITY||Percentage Difference|54.2|||<|0.0001|TWO_SIDED|95.0|37.9|70.5||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||70.5|37.9|<.0001
92216904|NCT03861936|184333900|SUPERIORITY||Percentage Difference|47.8|||<|0.0001|TWO_SIDED|95.0|30.1|65.6||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||65.6|30.1|<.0001
92155903|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.72|STANDARD_ERROR_OF_MEAN|1.041||||90.0|-4.439|-1.001|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M27||-1.001|-4.439|
92155904|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.401|STANDARD_ERROR_OF_MEAN|0.82||||90.0|-2.755|-0.047|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M30||-0.047|-2.755|
92155905|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.281|STANDARD_ERROR_OF_MEAN|0.908||||90.0|-3.781|-0.782|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M33||-0.782|-3.781|
92155906|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.766|STANDARD_ERROR_OF_MEAN|1.305||||90.0|-4.932|-0.599|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M36||-0.599|-4.932|
92155907|NCT00136916|184198107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.637|STANDARD_ERROR_OF_MEAN|0.898||||90.0|-3.12|-0.153|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext FU M3||-0.153|-3.120|
92155908|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.251|STANDARD_ERROR_OF_MEAN|0.13||||90.0|-0.466|-0.037|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M3||-0.037|-0.466|
92155909|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.095|STANDARD_ERROR_OF_MEAN|0.139||||90.0|-0.323|0.134|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M6||0.134|-0.323|
92155910|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.146||||90.0|-0.158|0.325|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M9||0.325|-0.158|
92155911|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.266|STANDARD_ERROR_OF_MEAN|0.156||||90.0|-0.524|-0.009|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M12||-0.009|-0.524|
92340423|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.6|STANDARD_ERROR_OF_MEAN|5.99||0.0772||95.0|-1.2|22.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||22.4|-1.2|0.0772
92155912|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.181|STANDARD_ERROR_OF_MEAN|0.165||||90.0|-0.453|0.091|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M15||0.091|-0.453|
92155913|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.141|STANDARD_ERROR_OF_MEAN|0.173||||90.0|-0.427|0.145|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M18||0.145|-0.427|
92155914|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.155|STANDARD_ERROR_OF_MEAN|0.176||||90.0|-0.445|0.134|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M21||0.134|-0.445|
92274944|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.04|||||TWO_SIDED|95.0|-58.87|24.79||||||For change in fatigue at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||24.79|-58.87|
92155915|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.189||||90.0|-0.193|0.431|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M24||0.431|-0.193|
92155916|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.617|STANDARD_ERROR_OF_MEAN|0.179||||90.0|0.322|0.911|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M1||0.911|0.322|
92155917|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.354|STANDARD_ERROR_OF_MEAN|0.184||||90.0|0.051|0.657|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M3||0.657|0.051|
92155918|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.318|STANDARD_ERROR_OF_MEAN|0.186||||90.0|0.011|0.626|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M6||0.626|0.011|
92155919|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.22||||90.0|-0.227|0.5|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M1||0.500|-0.227|
92155920|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.235||||90.0|-0.289|0.485|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M3||0.485|-0.289|
92155921|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.202|STANDARD_ERROR_OF_MEAN|0.226||||90.0|-0.576|0.172|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M6||0.172|-0.576|
92155922|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.245|STANDARD_ERROR_OF_MEAN|0.257||||90.0|-0.18|0.669|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M9||0.669|-0.180|
92155923|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.248||||90.0|-0.284|0.535|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M12||0.535|-0.284|
92155924|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.253||||90.0|-0.395|0.441|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M15||0.441|-0.395|
92155925|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.146|STANDARD_ERROR_OF_MEAN|0.247||||90.0|-0.262|0.554|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M18||0.554|-0.262|
92155926|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.321|STANDARD_ERROR_OF_MEAN|0.278||||90.0|-0.138|0.78|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M21||0.780|-0.138|
92216905|NCT03861936|184333901|SUPERIORITY||Percentage Difference|68.8|||<|0.0001|TWO_SIDED|95.0|54.5|83.1||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||83.1|54.5|<.0001
92216906|NCT03861936|184333901|SUPERIORITY||Percentage Difference|52.2|||<|0.0001|TWO_SIDED|95.0|34.8|69.6||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||69.6|34.8|<.0001
92216907|NCT03861936|184333902|SUPERIORITY||Least Squares (LS) Mean Difference|-5.82|STANDARD_ERROR_OF_MEAN|0.647|<|0.0001|TWO_SIDED|95.0|-7.1|-4.54||The change from baseline was analyzed using ANCOVA with study intervention and investigator site as factors and baseline MMPS Grade as a covariate.|ANCOVA|||||-4.54|-7.10|<.0001
92340424|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.8|STANDARD_ERROR_OF_MEAN|5.81||0.1296||95.0|-2.6|20.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||20.3|-2.6|0.1296
92340425|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.0|STANDARD_ERROR_OF_MEAN|6.06||0.014||95.0|3.1|27.0|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||27.0|3.1|0.0140
92340426|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|5.93||0.0642||95.0|-0.7|22.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||22.7|-0.7|0.0642
92340427|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.7|STANDARD_ERROR_OF_MEAN|5.92||0.073||95.0|-1.0|22.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||22.3|-1.0|0.0730
92340428|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.9|STANDARD_ERROR_OF_MEAN|6.01||0.0215||95.0|2.1|25.8|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.8|2.1|0.0215
92340429|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|5.84||0.3785||95.0|-6.4|16.7|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.7|-6.4|0.3785
92340430|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|6.12||0.0089||95.0|4.1|28.2|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||28.2|4.1|0.0089
92340431|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.2|STANDARD_ERROR_OF_MEAN|5.96||0.0609||95.0|-0.5|23.0|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.0|-0.5|0.0609
92155927|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.28||||90.0|-0.419|0.506|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M24||0.506|-0.419|
92155928|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.284||||90.0|-0.279|0.659|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M27||0.659|-0.279|
92216908|NCT03861936|184333902|SUPERIORITY||LS Mean Difference|-5.81|STANDARD_ERROR_OF_MEAN|0.678|<|0.0001|TWO_SIDED|95.0|-7.15|-4.47||The change from baseline was analyzed using ANCOVA with study intervention and investigator site as factors and baseline MMPS Grade as a covariate.|ANCOVA|||||-4.47|-7.15|<.0001
92216909|NCT03861936|184333903|SUPERIORITY||LS Mean Difference|-7.63|STANDARD_ERROR_OF_MEAN|0.756|<|0.0001|TWO_SIDED|95.0|-9.12|-6.13||The change from baseline was analyzed using ANCOVA with study intervention and investigator site as factors and baseline MMPS Grade as a covariate.|ANCOVA|||||-6.13|-9.12|<.0001
92274945|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.0|||||TWO_SIDED|95.0|-43.1|13.1||||||For change in nausea and vomiting at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||13.10|-43.10|
92216910|NCT03861936|184333903|SUPERIORITY||LS Mean Difference|-8.26|STANDARD_ERROR_OF_MEAN|0.793|<|0.0001|TWO_SIDED|95.0|-9.83|-6.69||The change from baseline was analyzed using ANCOVA with study intervention and investigator site as factors and baseline MMPS Grade as a covariate.|ANCOVA|||||-6.69|-9.83|<.0001
92155929|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.117|STANDARD_ERROR_OF_MEAN|0.28||||90.0|-0.579|0.346|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M30||0.346|-0.579|
92155930|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.273||||90.0|-0.189|0.714|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M33||0.714|-0.189|
92216911|NCT01312038|184333908|SUPERIORITY_OR_OTHER||||||=|0.93|||||||Paired T-test|df=34||Comparison of the simethicone and placebo groups with respect to the difference between the pre-post treatment FGE at ME-pressure chamber gradient of -200 daPa.||||=0.93
92216912|NCT01312038|184333908|SUPERIORITY_OR_OTHER||||||=|0.39|||||||Paired T-test|df = 31||Comparison of the simethicone and placebo groups with respect to the difference between the pre-post treatment FGE at ME-pressure chamber gradient of 200 daPa.||||=0.39
92216913|NCT02665052|184333935|SUPERIORITY|||||||0.64||||||The primary analysis was a two sample t-test (alpha=0.05) of the mean WMFT log-time change at 6 weeks. The threshold for statistical significance was p-value = 0.05.|t-test, 2 sided|||78 participants were needed to generate a sample size of 22 per group and provide 80% power to detect a between group difference in mean Wolf time change (6 week - baseline) based on an a priori assumption of a mean change of 0 and 7.4 seconds respectively for the delayed entry usual care control and home-based BATRAC group; a SD of 7.6 and discontinuation rate of 15%.||||0.64
92216914|NCT02665052|184333936|SUPERIORITY|||||||0.01||||||The lab-based group had significant within group mean Fugl-Meyer (FM) change at week 6.|ANOVA|Dunnett's adjustments were used to compare the active intervention changes to the delayed-entry usual care control group.||Within group changes from baseline to week 6 were assessed using analysis of variance.||||0.01
92216915|NCT02665052|184333936|SUPERIORITY|||||||0.97|||||||ANOVA|||FM change was analyzed using analysis of variance followed by Dunnett's adjustment for between group comparisons in the home-based BATRAC group compared to the delayed-entry control.||||0.97
92216916|NCT02665052|184333937|SUPERIORITY|||||||0.31|||||||ANOVA|||Within group SIS hand changes from baseline to week 6 were assessed using analysis of variance followed by comparisons to the delayed-entry usual care control using Dunnett's adjustment.||||0.31
92216917|NCT02234284|184333938|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.35|TWO_SIDED|95.0|-0.15|0.43|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean score of participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||.43|-.15|.35
92340432|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.4|STANDARD_ERROR_OF_MEAN|5.95||0.0064||95.0|4.7|28.1|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||28.1|4.7|0.0064
92340433|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.7|STANDARD_ERROR_OF_MEAN|6.01||0.0241||95.0|1.8|25.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.5|1.8|0.0241
92155931|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.267|STANDARD_ERROR_OF_MEAN|0.383||||90.0|-0.37|0.904|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M36||0.904|-0.370|
92155932|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.399|STANDARD_ERROR_OF_MEAN|0.244||||90.0|-0.003|0.802|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height. Ext M36 (LOCF) based on data in the extension phase only.|Ext M36 LOCF||0.802|-0.003|
92155933|NCT00136916|184198113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.619|STANDARD_ERROR_OF_MEAN|0.292||||90.0|0.137|1.102|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext FU M3||1.102|0.137|
92155934|NCT01991197|184198123|SUPERIORITY||U value|43.5||||0.648|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.648
92340434|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.6|STANDARD_ERROR_OF_MEAN|5.86||0.1032||95.0|-2.0|21.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.1|-2.0|0.1032
92274946|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.78|||||TWO_SIDED|95.0|-41.75|57.3||||||For change in pain at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||57.30|-41.75|
92274947|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-53.79|20.46||||||For change in dyspnea at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||20.46|-53.79|
92274948|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.11|||||TWO_SIDED|95.0|-73.14|30.92||||||For change in insomnia at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||30.92|-73.14|
92155935|NCT01991197|184198126|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92155936|NCT01991197|184198129|SUPERIORITY||U|29.5||||0.128|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.128
92398922|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.1858|TWO_SIDED|95.0|-1.32|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.26|-1.32|0.1858
92155937|NCT01012973|184198139|SUPERIORITY_OR_OTHER||CMH adjusted difference|38.3|||<|0.0001|TWO_SIDED|95.0|24.4|52.1|||Cochran-Mantel-Haenszel||The estimate is calculated as Eylea minus Sham. A positive value shows Eylea showed a higher BCVA total score compared to Sham.|Null hypothesis of difference of Eylea minus Sham of 0 was tested. In the database close after Week 24, basis for primary efficacy evaluation, 56 Sham / 96 Eylea subjects were considered as week 24 completers.||52.1|24.4|<.0001
92155938|NCT01012973|184198140|SUPERIORITY_OR_OTHER||Difference in Least square means|14.7|||<|0.0001|TWO_SIDED|95.0|10.8|18.7||As primary efficacy evaluation was significant, and this p-value was below significance level of two-sided \<.05, the fixed sequence testing did continue with next secondary endpoint.|ANOVA|ANOVA, adjusting for region and baseline BCVA category as fixed factors.|The difference is calculated as Eylea minus Sham. A positive value indicates Eylea showed a higher change in BCVA total score until week 24 compared to Sham.|Null hypothesis was equality in change from baseline to Week 24 in BCVA total letter score between Eylea and Sham. If primary efficacy was successful, secondary efficacy endpoints were tested in a pre-specified fixed sequence testing procedure. Change in BCVA letter score was to be tested first in this sequence.||18.7|10.8|<.0001
92155939|NCT01012973|184198141|SUPERIORITY_OR_OTHER||Difference in Least square (LS) means|-239.42|||<|0.0001|TWO_SIDED|95.0|-286.31|-192.53||As fixed sequence testing did reject nullhypothesis of change from baseline in BCVA until week 24, and this p-value was below significance level of two-sided \<.05, the fixed sequence testing did continue with next secondary endpoint.|ANCOVA|ANCOVA, stratified by region and baseline BCVA category, baseline central retinal thickness added as covariate.|The difference is calculated as Eylea minus Sham. A negative value indicates Eylea showed a higher reduction in change in central retinal thickness until week 24 compared to Sham.|Null hypothesis was equality in change from baseline to Week 24 in central retinal thickness between Eylea and Sham. If primary efficacy was successful, secondary efficacy end points were to be tested in a pre-specified fixed sequence testing procedure. Change in central retinal thickness was to be tested at second place in this sequence.||-192.53|-286.31|<.0001
92155940|NCT01012973|184198142|SUPERIORITY_OR_OTHER||CMH adjusted Difference|-1.5||||0.5947|TWO_SIDED|95.0|-7.4|4.4||As fixed sequence testing did reject nullhypothesis of change from baseline in CRT until week 24, and this p-value was not below significance level of two-sided \<.05, the fixed sequence testing did end with this evaluation.|Cochran-Mantel-Haenszel|Cochrane-Mantel-Haenszel test, stratified by region and baseline BCVA category.||Nullhypothesis of no difference in development of neovascularizations between Eylea and Sham group was tested. (Any neovascularization)||4.4|-7.4|0.5947
92155941|NCT01012973|184198143|SUPERIORITY_OR_OTHER||Difference in LS means|4.2|||||TWO_SIDED|95.0|1.7|6.8|||||As the fixed sequence of secondary endpoints stopped with proportion of neovascularizations developed until week 24, 95% confidence interval is only of descriptive nature.|||6.8|1.7|
92155942|NCT01012973|184198144|SUPERIORITY_OR_OTHER||Difference in LS Means|0.044|||||TWO_SIDED|95.0|-0.002|0.09|||||As the fixed sequence of secondary endpoints stopped with proportion of neovascularizations developed until week 24, 95% confidence interval is only of descriptive nature.|||0.09|-0.002|
92155943|NCT02923895|184198148|SUPERIORITY|All statistical analyses were conducted under the null hypothesis (H0) of no difference between treatments versus the alternate hypothesis (H1) of a difference between treatments.|Mean Difference (Net)|-1.31|||<|0.0001|TWO_SIDED|95.0|-1.5|-1.128||From ANCOVA model with change from baseline in Schiff Sensitivity Score as response and treatment as a factor and baseline Schiff sensitivity score as a covariate.|ANCOVA||Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|||-1.128|-1.500|<.0001
92155944|NCT00846742|184198152|SUPERIORITY|||||||0.0003||||||Comparison of proportion of patients' complete response rate between HOD99 (NCT number: NCT00145600) and HOD08|Exact Binominal Test|||The proportion of patients' complete response rate was provided with a 95% confidence interval.||||0.0003
92155945|NCT00846742|184198157|SUPERIORITY||Hazard Ratio (HR)|0.969||||0.732|TWO_SIDED|95.0|0.81|1.159|||Fine-Gray model||The sub-distribution hazard ratio for the 2-year cumulative incidence of local failure with a 1-year increase in age.|||1.159|0.810|0.732
92155946|NCT00846742|184198158|SUPERIORITY||Hazard Ratio (HR)|0.0|||<|0.001|TWO_SIDED|95.0|0.0|0.0|||Fine-Gray model||The sub-distribution hazard ratio for the 2-year cumulative incidence of local failure comparing males to females.|Male vs. Female, with Female as the reference level||0.000|0.000|<0.001
92155947|NCT00846742|184198159|SUPERIORITY||Hazard Ratio (HR)|30101.41|||<|0.001|TWO_SIDED|95.0|3329.573|272135.5|||Fine-Gray model||The sub-distribution hazard ratio for the 2-year cumulative incidence of local failure comparing Stage IIA to Stage IA.|Stage IIA vs. Stage IA, with Stage IA as the reference level||272135.500|3329.573|<0.001
92155948|NCT00846742|184198160|SUPERIORITY||Hazard Ratio (HR)|34027.68|||<|0.001|TWO_SIDED|95.0|4072.872|284291.6|||Fine-Gray model||The sub-distribution hazard ratio for the 2-year cumulative incidence of local failure comparing Classical (all combined) to Nodular Lymphocyte Predominant Hodgkin Lymphoma.|Classical (all combined) vs. Nodular lymphocyte predominant, with Nodular lymphocyte predominant as the reference level||284291.600|4072.872|<0.001
92155949|NCT00846742|184198161|SUPERIORITY|||||||0.461|||||||Log Rank|||Comparing the 2-year EFS between HOD08 Participants and HOD99 Participants||||0.461
92398923|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.5765|TWO_SIDED|95.0|-0.65|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.36|-0.65|0.5765
92398924|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.1848|TWO_SIDED|95.0|-0.86|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.17|-0.86|0.1848
92398925|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.26||0.7299|TWO_SIDED|95.0|-0.43|0.61||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.61|-0.43|0.7299
92398926|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.9415|TWO_SIDED|95.0|-0.54|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.50|-0.54|0.9415
92398927|NCT03192176|184689418|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.2742|TWO_SIDED|95.0|-0.82|0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.23|-0.82|0.2742
92398928|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.26||0.6946|TWO_SIDED|95.0|-0.41|0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.62|-0.41|0.6946
92398929|NCT03192176|184689418|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.9442|TWO_SIDED|95.0|-0.53|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.50|-0.53|0.9442
92398930|NCT03631940|184689423|SUPERIORITY||Least squares mean difference|-0.49||||0.87|TWO_SIDED|95.0|-6.36|5.37|||Hierarchical generalized linear mixed mo|Hierarchical generalized linear mixed models||||5.37|-6.36|.87
92155950|NCT00846742|184198161|SUPERIORITY|||||||1|||||||Log Rank|||Comparing the 2-year OS between HOD08 Participants and HOD99 Participants||||1.000
92155951|NCT00846742|184198161|SUPERIORITY|||||||0.836|||||||Gray's test|||Comparing the 2-year CI of Local Failure between HOD08 Participants and HOD99 Participants||||0.836
92155952|NCT00846742|184198163|SUPERIORITY|||||||0.384|||||||Log Rank|||Comparing the 2-year EFS between HOD08 - CR and HOD99 - CR||||0.384
92155953|NCT00846742|184198163|SUPERIORITY|||||||1|||||||Log Rank|||Comparing the 2-year OS between HOD08 - CR and HOD99 - CR||||1.000
92155954|NCT00846742|184198163|SUPERIORITY|||||||0.386|||||||Gray's test|||Comparing the 2-year CI of Local Failure between HOD08 - CR and HOD99 - CR||||0.386
92155955|NCT00846742|184198164|SUPERIORITY|||||||0.986|||||||Log Rank|||Comparing the 2-year EFS of patients treated without and with RT||||0.986
92155956|NCT02341144|184198182|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92155957|NCT02341144|184198183|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92274949|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.22|||||TWO_SIDED|95.0|-115.58|51.13||||||For change in appetite loss at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||51.13|-115.58|
92155958|NCT02341144|184198184|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
92155959|NCT02341144|184198185|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92398931|NCT00836589|184689434|NON_INFERIORITY|"Estimated SAEFR at 5 years is 92.5% with a 5% non-inferiority margin (87.5%).~Type I error (alpha) is 0.05 (one-sided for non-inferiority).~Statistical power is 80%."||||||0.002|||||||Binomial Proportion|||||||0.0020
92398932|NCT03324607|184689444|OTHER|||||||0.006|||||||Paired t-test|||||||0.006
92398933|NCT01890343|184689474|SUPERIORITY_OR_OTHER|||||||0.002|||||||Kruskal-Wallis|||The effect of diagnostic group on mean cortical florbetapir binding relative to cerebellar cortex was determined.||||0.002
92155960|NCT02341144|184198186|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
92155961|NCT03257995|184198221|OTHER||Mean Difference (Final Values)|0.1861|||<|0.001|TWO_SIDED|95.0|0.1293|0.2429|||ANOVA|||||0.2429|0.1293|<0.001
92155962|NCT03257995|184198221|OTHER||Mean Difference (Final Values)|0.1463|||<|0.001|TWO_SIDED|95.0|0.0898|0.2029|||ANOVA|||||0.2029|0.0898|<0.001
92155963|NCT03257995|184198221|OTHER||Mean Difference (Final Values)|-0.0398|||||TWO_SIDED|95.0|-0.0942|0.0147|||ANOVA|||||0.0147|-0.0942|
92155964|NCT03257995|184198227|OTHER||Median Difference (Final Values)|-0.02||||0.823|TWO_SIDED|95.0|-0.83|0.33|||Wilcoxon (Mann-Whitney)|||||0.33|-0.83|0.823
92155965|NCT03257995|184198227|OTHER||Median Difference (Final Values)|-0.02||||0.801|TWO_SIDED|95.0|-0.82|0.51|||Wilcoxon (Mann-Whitney)|||||0.51|-0.82|0.801
92155966|NCT03257995|184198227|OTHER||Median Difference (Final Values)|0.0||||0.984|TWO_SIDED|95.0|-0.5|0.73|||Wilcoxon (Mann-Whitney)|||||0.73|-0.50|0.984
92155967|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2177|||<|0.001|TWO_SIDED|95.0|0.1482|0.2872|||ANOVA|||at 5 min||0.2872|0.1482|<0.001
92155968|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2724|||<|0.001|TWO_SIDED|95.0|0.203|0.3417|||ANOVA|||15min||0.3417|0.2030|<0.001
92155969|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.273|||<|0.001|TWO_SIDED|95.0|0.2036|0.3423|||ANOVA|||30 min||0.3423|0.2036|<0.001
92155970|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2609|||<|0.001|TWO_SIDED|95.0|0.1915|0.3302|||ANOVA|||1 hour||0.3302|0.1915|<0.001
92155971|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2494|||<|0.001|TWO_SIDED|95.0|0.18|0.3188|||ANOVA|||2 hour||0.3188|0.1800|<0.001
92155972|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2273|||<|0.001|TWO_SIDED|95.0|0.1578|0.2968|||ANOVA|||4 hour||0.2968|0.1578|<0.001
92155973|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2396|||<|0.001|TWO_SIDED|95.0|0.1697|0.3096|||ANOVA|||8 hour||0.3096|0.1697|<0.001
92155974|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2443|||<|0.001|TWO_SIDED|95.0|0.1742|0.3144|||ANOVA|||12 hour||0.3144|0.1742|<0.001
92155975|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.228|||<|0.001|TWO_SIDED|95.0|0.1563|0.2997|||ANOVA|||23 hour 15 min||0.2997|0.1563|<0.001
92155976|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.1954|||<|0.001|TWO_SIDED|95.0|0.1237|0.2671|||ANOVA|||23 hour 45 min||0.2671|0.1237|<0.001
92155977|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2195|||<|0.001|TWO_SIDED|95.0|0.1502|0.2889|||ANOVA|||5 min||0.2889|0.1502|<0.001
92155978|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2684|||<|0.001|TWO_SIDED|95.0|0.1988|0.338|||ANOVA|||15 min||0.3380|0.1988|<0.001
92155979|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2572|||<|0.001|TWO_SIDED|95.0|0.1879|0.3266|||ANOVA|||30 min||0.3266|0.1879|<0.001
92155980|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2348|||<|0.001|TWO_SIDED|95.0|0.1656|0.304|||ANOVA|||1 hour||0.3040|0.1656|<0.001
92155981|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2546|||<|0.001|TWO_SIDED|95.0|0.1852|0.3239|||ANOVA|||2 hour||0.3239|0.1852|<0.001
92155982|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2322|||<|0.001|TWO_SIDED|95.0|0.1627|0.3017|||ANOVA|||4 hour||0.3017|0.1627|<0.001
92155983|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2324|||<|0.001|TWO_SIDED|95.0|0.1627|0.302|||ANOVA|||8 hour||0.3020|0.1627|<0.001
92155984|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.2057|||<|0.001|TWO_SIDED|95.0|0.1359|0.2755|||ANOVA|||12 hour||0.2755|0.1359|<0.001
92155985|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.1625|||<|0.001|TWO_SIDED|95.0|0.0912|0.2337|||ANOVA|||23 hour 15 min||0.2337|0.0912|<0.001
92155986|NCT03257995|184198228|OTHER||Mean Difference (Final Values)|0.1793|||<|0.001|TWO_SIDED|95.0|0.108|0.2505|||ANOVA|||23 hour 45 min||0.2505|0.1080|<0.001
92155987|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.1|||<|0.001|TWO_SIDED|95.0|5.0|9.2|||ANOVA|||at 5 min||9.2|5.0|<.001
92155988|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|8.5|||<|0.001|TWO_SIDED|95.0|6.4|10.6|||ANOVA|||at 15 min||10.6|6.4|<.001
92155989|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|8.6|||<|0.001|TWO_SIDED|95.0|6.5|10.7|||ANOVA|||at 30||10.7|6.5|<0.001
92155990|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|8.0|||<|0.001|TWO_SIDED|95.0|6.0|10.1|||ANOVA|||at 1 hour||10.1|6.0|<0.001
92155991|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.6|||<|0.001|TWO_SIDED|95.0|5.5|9.7|||ANOVA|||at 2 hours||9.7|5.5|<0.001
92274950|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.33|||||TWO_SIDED|95.0|-18.6|125.26||||||For change in constipation at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||125.26|-18.60|
92155992|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.1|||<|0.001|TWO_SIDED|95.0|5.0|9.1|||ANOVA|||at 4 hours||9.1|5.0|<0.001
92155993|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.3|||<|0.001|TWO_SIDED|95.0|5.2|9.4|||ANOVA|||at 8 hours||9.4|5.2|<0.001
92155994|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.6|||<|0.001|TWO_SIDED|95.0|5.5|9.7|||ANOVA|||at 12 hours||9.7|5.5|<0.001
92155995|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.0|||<|0.001|TWO_SIDED|95.0|4.8|9.1|||ANOVA|||at 23 hours 15 min||9.1|4.8|<0.001
92155996|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|6.4|||<|0.001|TWO_SIDED|95.0|4.2|8.6|||ANOVA|||at 23 hours 45 min||8.6|4.2|<0.001
92155997|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.1|||<|0.001|TWO_SIDED|95.0|5.0|9.2|||ANOVA|||at 5 min||9.2|5.0|<0.001
92155998|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|8.3|||<|0.001|TWO_SIDED|95.0|6.2|10.4|||ANOVA|||at 15 min||10.4|6.2|<0.001
92155999|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|8.1|||<|0.001|TWO_SIDED|95.0|6.0|10.2|||ANOVA|||at 30 min||10.2|6.0|<0.001
92156000|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.4|||<|0.001|TWO_SIDED|95.0|5.3|9.4|||ANOVA|||at 1 hour||9.4|5.3|<0.001
92156001|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.8|||<|0.001|TWO_SIDED|95.0|5.7|9.9|||ANOVA|||at 2 hours||9.9|5.7|<0.001
92156002|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.3|||<|0.001|TWO_SIDED|95.0|5.2|9.4|||ANOVA|||at 4 hours||9.4|5.2|<0.001
92156003|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|7.4|||<|0.001|TWO_SIDED|95.0|5.3|9.5|||ANOVA|||at 8 hours||9.5|5.3|<0.001
92156004|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|6.3|||<|0.001|TWO_SIDED|95.0|4.2|8.4|||ANOVA|||at 12 hours||8.4|4.2|<0.001
92156005|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|5.1|||<|0.001|TWO_SIDED|95.0|2.9|7.2|||ANOVA|||at 23 hours 15 min||7.2|2.9|<0.001
92156006|NCT03257995|184198229|OTHER||Mean Difference (Final Values)|5.9|||<|0.001|TWO_SIDED|95.0|3.7|8.0|||ANOVA|||at 23 hours 45 min||8.0|3.7|<0.001
92156007|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1866|||<|0.001|TWO_SIDED|95.0|0.1121|0.2611|||ANOVA|||5 min||0.2611|0.1121|<0.001
92156008|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.2249|||<|0.001|TWO_SIDED|95.0|0.1506|0.2992|||ANOVA|||15 min||0.2992|0.1506|<0.001
92156009|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.2404|||<|0.001|TWO_SIDED|95.0|0.1661|0.3148|||ANOVA|||30 min||0.3148|0.1661|<0.001
92156010|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.2074|||<|0.001|TWO_SIDED|95.0|0.133|0.2817|||ANOVA|||1 hour||0.2817|0.1330|<0.001
92156011|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1802|||<|0.001|TWO_SIDED|95.0|0.1059|0.2545|||ANOVA|||2 hours||0.2545|0.1059|<0.001
92156012|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1621|||<|0.001|TWO_SIDED|95.0|0.0876|0.2366|||ANOVA|||4 hours||0.2366|0.0876|<0.001
92156013|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.199|||<|0.001|TWO_SIDED|95.0|0.1239|0.2742|||ANOVA|||8 hours||0.2742|0.1239|<0.001
92156014|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1747|||<|0.001|TWO_SIDED|95.0|0.0994|0.2501|||ANOVA|||12 hours||0.2501|0.0994|<0.001
92156015|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1856|||<|0.001|TWO_SIDED|95.0|0.1081|0.2631|||ANOVA|||23 hours 15 min||0.2631|0.1081|<0.001
92156016|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1484|||<|0.001|TWO_SIDED|95.0|0.0709|0.2259|||ANOVA|||23 hours 45 min||0.2259|0.0709|<0.001
92274951|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.33|||||TWO_SIDED|95.0|-34.92|41.58||||||For change in diarrhea at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||41.58|-34.92|
92156017|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.213|||<|0.001|TWO_SIDED|95.0|0.1386|0.2873|||ANOVA|||5 min||0.2873|0.1386|<0.001
92156018|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.2173|||<|0.001|TWO_SIDED|95.0|0.1426|0.292|||ANOVA|||15 min||0.2920|0.1426|<0.001
92156019|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.2375|||<|0.001|TWO_SIDED|95.0|0.1632|0.3118|||ANOVA|||30 min||0.3118|0.1632|<0.001
92156020|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.2013|||<|0.001|TWO_SIDED|95.0|0.1272|0.2754|||ANOVA|||1 hour||0.2754|0.1272|<0.001
92156021|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.2005|||<|0.001|TWO_SIDED|95.0|0.1262|0.2749|||ANOVA|||2 hours||0.2749|0.1262|<0.001
92156022|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1946|||<|0.001|TWO_SIDED|95.0|0.1201|0.2691|||ANOVA|||4 hours||0.2691|0.1201|<0.001
92156023|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1937|||<|0.001|TWO_SIDED|95.0|0.119|0.2684|||ANOVA|||8 hours||0.2684|0.1190|<0.001
92156024|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1619|||<|0.001|TWO_SIDED|95.0|0.087|0.2369|||ANOVA|||12 hour||0.2369|0.0870|<0.001
92156025|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1249|||<|0.001|TWO_SIDED|95.0|0.048|0.2018|||ANOVA|||23 hour 15 min||0.2018|0.0480|<0.001
92156026|NCT03257995|184198230|OTHER||Mean Difference (Final Values)|0.1546|||<|0.001|TWO_SIDED|95.0|0.0777|0.2315|||ANOVA|||23 hour 45 min||0.2315|0.0777|<0.001
92156027|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|5.0|||<|0.001|TWO_SIDED|95.0|3.1|7.0|||ANOVA|||5 min||7.0|3.1|<0.001
92156028|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|6.0|||<|0.001|TWO_SIDED|95.0|4.0|7.9|||ANOVA|||15 min||7.9|4|<0.001
92156029|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|6.6|||<|0.001|TWO_SIDED|95.0|4.6|8.5|||ANOVA|||30 min||8.5|4.6|<0.001
92156030|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|5.5|||<|0.001|TWO_SIDED|95.0|3.5|7.4|||ANOVA|||1 hour||7.4|3.5|<0.001
92156031|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|4.7|||<|0.001|TWO_SIDED|95.0|2.8|6.7|||ANOVA|||2 hour||6.7|2.8|<0.001
92156032|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|4.3|||<|0.001|TWO_SIDED|95.0|2.3|6.3|||ANOVA|||4 hour||6.3|2.3|<0.001
92156033|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|5.0|||<|0.001|TWO_SIDED|95.0|3.0|7.0|||ANOVA|||8 hour||7|3|<0.001
92156034|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|4.5|||<|0.001|TWO_SIDED|95.0|2.5|6.5|||ANOVA|||12 hour||6.5|2.5|<0.001
92156035|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|4.6|||<|0.001|TWO_SIDED|95.0|2.6|6.7|||ANOVA|||23 hour 15 min||6.7|2.6|<0.001
92156036|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|4.1|||<|0.001|TWO_SIDED|95.0|2.0|6.2|||ANOVA|||23 hour 45 min||6.2|2.0|<0.001
92156037|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|5.8|||<|0.001|TWO_SIDED|95.0|3.9|7.8|||ANOVA|||5 min||7.8|3.9|<0.001
92156038|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|5.8|||<|0.001|TWO_SIDED|95.0|3.9|7.8|||ANOVA|||15 min||7.8|3.9|<0.001
92156039|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|6.3|||<|0.001|TWO_SIDED|95.0|4.4|8.3|||ANOVA|||30 min||8.3|4.4|<0.001
92156040|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|5.5|||<|0.001|TWO_SIDED|95.0|3.5|7.5|||ANOVA|||1 hour||7.5|3.5|<0.001
92156041|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|5.5|||<|0.001|TWO_SIDED|95.0|3.5|7.4|||ANOVA|||2 hour||7.4|3.5|<0.001
92156042|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|5.0|||<|0.001|TWO_SIDED|95.0|3.1|7.0|||ANOVA|||4 hour||7.0|3.1|<0.001
92156043|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|5.0|||<|0.001|TWO_SIDED|95.0|3.0|7.0|||ANOVA|||8 hour||7.0|3.0|<0.001
92156044|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|4.2|||<|0.001|TWO_SIDED|95.0|2.2|6.2|||ANOVA|||12 hour||6.2|2.2|<0.001
92156045|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|3.0||||0.004|TWO_SIDED|95.0|1.0|5.0|||ANOVA|||23 hour 15 min||5.0|1.0|0.004
92156046|NCT03257995|184198231|OTHER||Mean Difference (Final Values)|4.1|||<|0.001|TWO_SIDED|95.0|2.1|6.1|||ANOVA|||23 hour 45 min||6.1|2.1|<0.001
92156047|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0249|||<|0.001|TWO_SIDED|95.0|0.0139|0.0359|||ANOVA|||5 min||0.0359|0.0139|<.001
92156048|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.033|||<|0.001|TWO_SIDED|95.0|0.022|0.044|||ANOVA|||15 min||0.0440|0.0220|<.001
92156049|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0306|||<|0.001|TWO_SIDED|95.0|0.0197|0.0416|||ANOVA|||30 min||0.0416|0.0197|<0.001
92156050|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0324|||<|0.001|TWO_SIDED|95.0|0.0214|0.0434|||ANOVA|||1 hour||0.0434|0.0214|<0.001
92156051|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0338|||<|0.001|TWO_SIDED|95.0|0.0228|0.0447|||ANOVA|||2 hour||0.0447|0.0228|<0.001
92156052|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0325|||<|0.001|TWO_SIDED|95.0|0.0215|0.0435|||ANOVA|||4 hour||0.0435|0.0215|<0.001
92156053|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0311|||<|0.001|TWO_SIDED|95.0|0.02|0.0422|||ANOVA|||8 hour||0.0422|0.0200|<0.001
92156054|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0359|||<|0.001|TWO_SIDED|95.0|0.0248|0.047|||ANOVA|||12 hour||0.0470|0.0248|<0.001
92156055|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0326|||<|0.001|TWO_SIDED|95.0|0.0211|0.044|||ANOVA|||23 hour 15 min||0.0440|0.0211|<0.001
92156056|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0301|||<|0.001|TWO_SIDED|95.0|0.0187|0.0415|||ANOVA|||23 hour 45 min||0.0415|0.0187|<0.001
92156057|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0222|||<|0.001|TWO_SIDED|95.0|0.0113|0.0332|||ANOVA|||5 min||0.0332|0.0113|<0.001
92156058|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0344|||<|0.001|TWO_SIDED|95.0|0.0234|0.0454|||ANOVA|||15 min||0.0454|0.0234|<0.001
92156059|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.029|||<|0.001|TWO_SIDED|95.0|0.018|0.0399|||ANOVA|||30 min||0.0399|0.0180|<0.001
92156060|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0278|||<|0.001|TWO_SIDED|95.0|0.0169|0.0387|||ANOVA|||1 hour||0.0387|0.0169|<0.001
92156061|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0338|||<|0.001|TWO_SIDED|95.0|0.0228|0.0447|||ANOVA|||2 hour||0.0447|0.0228|<0.001
92156062|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0278|||<|0.001|TWO_SIDED|95.0|0.0168|0.0387|||ANOVA|||4 hour||0.0387|0.0168|<0.001
92398934|NCT00265564|184689521|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||We investigated treatment condition differences in change of drug and alcohol use over four time-points using generalized linear mixed modeling analyses. A trajectory for each participant was modeled yielding estimates of baseline scores (intercept), slope, and error. Four between-person parameters were estimated: average baseline score for all participants, average slope over time in TAU condition, effect of being in SS on average intercept, effect of being in SS on average slope.||||> .05
92398935|NCT00265564|184689522|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
92398936|NCT00265564|184689523|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||Generalized linear mixed modeling analysis||||>.05
92398937|NCT01553084|184689524|SUPERIORITY||Odds Ratio (OR)|1.2||||0.3623|TWO_SIDED|95.0|0.8|1.7|||Regression, Logistic|||Combination NRT will be compared statististically versus Nicotine patch only (the reference or control group).||1.7|0.8|.3623
92398938|NCT01553084|184689524|SUPERIORITY||Odds Ratio (OR)|0.9||||0.1947|TWO_SIDED|95.0|0.6|1.2|||Regression, Logistic|||Varenicline will be compared statististically versus Nicotine patch only (the reference or control group).||1.2|0.6|.1947
92156063|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0316|||<|0.001|TWO_SIDED|95.0|0.0206|0.0426|||ANOVA|||8 hour||0.0426|0.0206|<0.001
92156064|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0285|||<|0.001|TWO_SIDED|95.0|0.0175|0.0396|||ANOVA|||12 hour||0.0396|0.0175|<0.001
92156065|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0281|||<|0.001|TWO_SIDED|95.0|0.0167|0.0394|||ANOVA|||23 hour 15 min||0.0394|0.0167|<0.001
92398939|NCT01553084|184689525|SUPERIORITY||Hazard Ratio (HR)|0.915||||0.3613|TWO_SIDED|95.0|0.756|1.107|||Regression, Cox|||||1.107|.756|.3613
92398940|NCT01553084|184689525|SUPERIORITY||Hazard Ratio (HR)|0.943||||0.5503|TWO_SIDED|95.0|0.779|1.142|||Regression, Cox|||||1.142|.779|.5503
92156066|NCT03257995|184198232|OTHER||Mean Difference (Final Values)|0.0266|||<|0.001|TWO_SIDED|95.0|0.0152|0.0379|||ANOVA|||23 hour 45 min||0.0379|0.0152|<0.001
92156067|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2025|||<|0.001|TWO_SIDED|95.0|0.1059|0.2952|||ANOVA|||5 min||0.2952|0.1059|<0.001
92156068|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2923|||<|0.001|TWO_SIDED|95.0|0.1979|0.3867|||ANOVA|||15 min||0.3867|0.1979|<0.001
92156069|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2657|||<|0.001|TWO_SIDED|95.0|0.1713|0.3601|||ANOVA|||30 min||0.3601|0.1713|<0.001
92156070|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2752|||<|0.001|TWO_SIDED|95.0|0.1808|0.3696|||ANOVA|||1 hour||0.3696|0.1808|<0.001
92156071|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2819|||<|0.001|TWO_SIDED|95.0|0.1875|0.3763|||ANOVA|||2 hours||0.3763|0.1875|<0.001
92156072|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.282|||<|0.001|TWO_SIDED|95.0|0.1874|0.3766|||ANOVA|||4 hours||0.3766|0.1874|<0.001
92156073|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2538|||<|0.001|TWO_SIDED|95.0|0.1585|0.3492|||ANOVA|||8 hours||0.3492|0.1585|<0.001
92156074|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2687|||<|0.001|TWO_SIDED|95.0|0.1732|0.3643|||ANOVA|||12 hours||0.3643|0.1732|<0.001
92156075|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2453|||<|0.001|TWO_SIDED|95.0|0.1473|0.3434|||ANOVA|||23 hours 15 min||0.3434|0.1473|<0.001
92156076|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.1862|||<|0.001|TWO_SIDED|95.0|0.0882|0.2842|||ANOVA|||23 hours 45 min||0.2842|0.0882|<0.001
92156077|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.1956|||<|0.001|TWO_SIDED|95.0|0.1012|0.2899|||ANOVA|||5 min||0.2899|0.1012|<0.001
92398941|NCT01553084|184689526|SUPERIORITY||Odds Ratio (OR)|1.5||||0.03|TWO_SIDED|95.0|1.1|2.2|||Regression, Logistic|||||2.2|1.1|.03
92398942|NCT01553084|184689526|SUPERIORITY||Odds Ratio (OR)|0.8||||0.19|TWO_SIDED|95.0|0.6|1.1|||Regression, Logistic|||||1.1|0.6|.19
92398943|NCT01553084|184689527|SUPERIORITY||Mean Difference (Final Values)|-0.00612|STANDARD_ERROR_OF_MEAN|0.00625||0.3282|TWO_SIDED||||||t-test, 2 sided|df=710||||||.3282
92398944|NCT03882021|184689541|OTHER||Kaplan Meier Survival Estimate|57.2|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|51.2|62.8|||||Kaplan-Meier estimate of freedom from recurrence after removal from AAD at one year.|||62.8|51.2|
92156078|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2927|||<|0.001|TWO_SIDED|95.0|0.1979|0.3875|||ANOVA|||15 min||0.3875|0.1979|<0.001
92156079|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2723|||<|0.001|TWO_SIDED|95.0|0.178|0.3667|||ANOVA|||30 min||0.3667|0.1780|<0.001
92156080|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2386|||<|0.001|TWO_SIDED|95.0|0.1445|0.3328|||ANOVA|||1 hour||0.3328|0.1445|<0.001
92156081|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2986|||<|0.001|TWO_SIDED|95.0|0.2042|0.393|||ANOVA|||2 hours||0.3930|0.2042|<0.001
92156082|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2661|||<|0.001|TWO_SIDED|95.0|0.1715|0.3607|||ANOVA|||4 hours||0.3607|0.1715|<0.001
92156083|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2558|||<|0.001|TWO_SIDED|95.0|0.1609|0.3506|||ANOVA|||8 hours||0.3506|0.1609|<0.001
92156084|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.1987|||<|0.001|TWO_SIDED|95.0|0.1036|0.2938|||ANOVA|||12 hours||0.2938|0.1036|<0.001
92156085|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.2044|||<|0.001|TWO_SIDED|95.0|0.1071|0.3017|||ANOVA|||23 hours 15 min||0.3017|0.1071|<0.001
92156086|NCT03257995|184198233|OTHER||Mean Difference (Final Values)|0.1997|||<|0.001|TWO_SIDED|95.0|0.1023|0.297|||ANOVA|||23 hours 45 min||0.2970|0.1023|<0.001
92156087|NCT03257995|184198234|OTHER||Mean Difference (Final Values)|0.2476|||<|0.001|TWO_SIDED|95.0|0.1857|0.3095|||ANOVA|||||0.3095|0.1857|<.001
92156088|NCT03257995|184198234|OTHER||Mean Difference (Final Values)|0.2448|||<|0.001|TWO_SIDED|95.0|0.183|0.3066|||ANOVA|||||0.3066|0.1830|<.001
92156089|NCT03257995|184198234|OTHER||Mean Difference (Net)|-0.0028|||||TWO_SIDED|95.0|-0.0647|0.059|||ANOVA|||||0.0590|-0.0647|
92156090|NCT03257995|184198235|OTHER||Mean Difference (Final Values)|-0.42||||0.009|TWO_SIDED|95.0|-0.73|0.11|||ANOVA|||||0.11|-0.73|0.009
92156091|NCT03257995|184198235|OTHER||Mean Difference (Final Values)|-0.42||||0.008|TWO_SIDED|95.0|-0.73|0.11|||ANOVA|||||0.11|-0.73|0.008
92398945|NCT03882021|184689542|OTHER|Kaplan Meier Estimate of freedom from symptomatic recurrence.|Kaplan-Meier Survival Estimate|61.7|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|55.8|67.1|||||Kaplan-Meier estimate of freedom from symptomatic AF/AFL/AT recurrence after removal from AAD|||67.1|55.8|
92340435|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.6|STANDARD_ERROR_OF_MEAN|6.16||0.0076||95.0|4.4|28.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||28.7|4.4|0.0076
92156092|NCT03257995|184198236|OTHER||Mean Difference (Final Values)|33.0|||<|0.001|TWO_SIDED|95.0|25.6|40.3|||ANOVA|||||40.3|25.6|<0.001
92156093|NCT03257995|184198236|OTHER||Mean Difference (Final Values)|30.8|||<|0.001|TWO_SIDED|95.0|23.5|38.2|||ANOVA|||||38.2|23.5|<0.001
92156094|NCT01374802|184198280|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|115.29|STANDARD_DEVIATION|19.4|||TWO_SIDED|90.0|101.36|131.13|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Faldaprevir+DRV/r : DRV/r) of Darunavir||131.13|101.36|
92156095|NCT01374802|184198281|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|87.91|STANDARD_DEVIATION|38.3|||TWO_SIDED|90.0|68.609|112.63|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Faldaprevir+DRV/r : DRV/r) of Darunavir||112.630|68.609|
92156096|NCT01374802|184198282|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|128.41|STANDARD_DEVIATION|15.6|||TWO_SIDED|90.0|115.724|142.489|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Faldaprevir+DRV/r : DRV/r) of Darunavir||142.489|115.724|
92156097|NCT01370603|184198289|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence was declared if the 97.5% expanded confidence interval for the mean difference between the fixed-dose combination and co-administration in percent change from baseline was contained within ±4%.|Difference in Least-squares means|-0.2|||||TWO_SIDED|97.5|-1.9|1.4|||ANCOVA|||It was anticipated that 85% of the enrolled participants would be evaluable to achieve 95% power in order to establish equivalence between the Ezetimibe/Atorvastatin Fixed Dose Combination and the co-administration of Ezetimibe and Atorvastatin with respect to percent change from baseline in LDL-C after 6 weeks of treatment using two one-sided tests each at 2.5% α-level, assuming the underlying true treatment difference is ±1.08% and that the standard deviation of the difference is 12.8%.||1.4|-1.9|
92156098|NCT01370603|184198290|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares means|-0.1|||||TWO_SIDED|97.5|-1.4|1.2|||ANCOVA|||||1.2|-1.4|
92156099|NCT01370603|184198291|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares means|-0.3|||||TWO_SIDED|97.5|-1.8|1.2|||ANCOVA|||||1.2|-1.8|
92156100|NCT01370603|184198292|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-0.2|||||TWO_SIDED|97.5|-1.7|1.4|||ANCOVA|||||1.4|-1.7|
92156101|NCT01370603|184198293|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares means|-0.5|||||TWO_SIDED|97.5|-1.9|1.0|||ANCOVA|||||1.0|-1.9|
92156102|NCT01370603|184198294|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|0.0|||||TWO_SIDED|97.5|-4.9|4.9|||constrained Longitudinal Data Analysis|||||4.9|-4.9|
92156103|NCT01644474|184198304|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.6|||<|0.0001|TWO_SIDED|95.0|-40.2|-23.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Alirocumab group was compared to ezetimibe group using an appropriate contrast statement.||-23.0|-40.2|<0.0001
92156104|NCT01644474|184198305|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.5|||<|0.0001|TWO_SIDED|95.0|-35.7|-21.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-21.2|-35.7|<0.0001
92156105|NCT01644474|184198306|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.8|||<|0.0001|TWO_SIDED|95.0|-32.3|-19.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.2|-32.3|<0.0001
92156106|NCT01644474|184198307|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.5|||<|0.0001|TWO_SIDED|95.0|-33.5|-17.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-17.4|-33.5|<0.0001
92156107|NCT01644474|184198308|SUPERIORITY_OR_OTHER||LS Mean Difference|-18.7|||<|0.0001|TWO_SIDED|95.0|-24.7|-12.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-12.7|-24.7|<0.0001
92156108|NCT01644474|184198309|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.7|||<|0.0001|TWO_SIDED|95.0|-31.5|-19.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.8|-31.5|<0.0001
92156109|NCT01644474|184198310|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.8|||<|0.0001|TWO_SIDED|95.0|-32.4|-19.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.2|-32.4|<0.0001
92156110|NCT01644474|184198311|SUPERIORITY_OR_OTHER||LS Mean Difference|-18.3|||<|0.0001|TWO_SIDED|95.0|-23.1|-13.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13.5|-23.1|<0.0001
92156111|NCT01644474|184198312|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|34.8|||<|0.0001|TWO_SIDED|95.0|8.7|139.0||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||139.0|8.7|<0.0001
92156112|NCT01644474|184198313|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|69.8||||0.0001|TWO_SIDED|95.0|8.8|556.0||Threshold for significance was ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||556.0|8.8|0.0001
92216918|NCT02234284|184333939|SUPERIORITY||Mean Difference (Net)|0.26||||0.2|TWO_SIDED|95.0|-0.13|0.65|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean score of participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||.65|-.13|.20
92216919|NCT02234284|184333940|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.13|TWO_SIDED|95.0|-0.49|0.07|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for rate of exacerbations for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||0.07|-0.49|.13
92156113|NCT01644474|184198314|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.4||||0.4013|TWO_SIDED|95.0|-14.8|5.9||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.9|-14.8|0.4013
92156114|NCT00050089|184198322|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.165||||0.69|TWO_SIDED|95.0|0.856|1.585|||Log Rank||The comparison was Mega-ART (intensification) vs Standard-ART (standard).|Time-to-event (Kaplan-Meier) and stratified log-rank test was used for the comparison.||1.585|0.856|0.69
92156115|NCT00050089|184198323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.927||||0.49|TWO_SIDED|95.0|0.674|1.275|||Log Rank||The comparison was ARDFP (interruption) vs No ARDFP (continuation)|Time-to-event (Kaplan-Meier) and stratified log-rank analysis was performed.||1.275|0.674|0.49
92156116|NCT00050089|184198324|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Log Rank|||Stratified Log-rank test was used to compare the four treatment||||0.87
92156117|NCT00050089|184198325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.008||||0.92|TWO_SIDED|95.0|0.75|1.35|||Log Rank||The comparison was Standard-ART (standard) vs Mega-ART (intensification)|Time-to-event (Kaplan-Meier) and stratified log-rank test was used for the comparison||1.35|0.75|0.92
92156118|NCT00050089|184198326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.68|TWO_SIDED|95.0|0.8|1.46|||Log Rank||The comparison was ARDFP (interruption) vs No ARDFP (continuation) of ART|Time-to-event (Kaplan-Meier) and stratified log-rank test was used for the comparison.||1.46|0.8|0.68
92156119|NCT04039503|184198327|SUPERIORITY||LS Mean Difference|-1.66|||<|0.001|TWO_SIDED|95.0|-1.88|-1.43|||Mixed Models Analysis|||||-1.43|-1.88|<0.001
92216920|NCT02234284|184333941|SUPERIORITY||Mean Difference (Final Values)|8.53||||0.32|TWO_SIDED|95.0|-8.18|25.26|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.||Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.|Value is for mean distance (in meters) of participants in Health Coached arm minus mean distance in Usual Care, adjusted for baseline values and for clustering.|25.26|-8.18|.32
92398946|NCT03882021|184689543|OTHER|Kaplan Meier estimate of single procedure clinical success.|Kaplan-Meier Survival Estimate|79.4|STANDARD_ERROR_OF_MEAN|2.4|||TWO_SIDED|95.0|74.2|83.6|||||Kaplan-Meier estimate of freedom from symptomatic AF/AFL/AT without new or increased dose of Class I/III AAD at one year.|||83.6|74.2|
92274952|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.67|||||TWO_SIDED|95.0|-34.3|20.96||||||For change in financial difficulties at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||20.96|-34.3|
92156120|NCT04039503|184198327|SUPERIORITY||LS Mean Difference|-1.65|||<|0.001|TWO_SIDED|95.0|-1.88|-1.43|||Mixed Models Analysis|||||-1.43|-1.88|<0.001
92156121|NCT04039503|184198328|SUPERIORITY||LS Mean Difference|-1.3|||<|0.001|TWO_SIDED|95.0|-1.52|-1.07|||Mixed Models Analysis|||||-1.07|-1.52|<0.001
92156122|NCT04039503|184198329|SUPERIORITY||LS Mean Difference|-7.8|||<|0.001|TWO_SIDED|95.0|-9.4|-6.3|||Mixed Models Analysis|||||-6.3|-9.4|<0.001
92156123|NCT04039503|184198329|SUPERIORITY||LS Mean Difference|-9.9|||<|0.001|TWO_SIDED|95.0|-11.5|-8.3|||Mixed Models Analysis|||||-8.3|-11.5|<0.001
92156124|NCT04039503|184198329|SUPERIORITY||LS Mean Difference|-12.6|||<|0.001|TWO_SIDED|95.0|-14.2|-11.0|||Mixed Models Analysis|||||-11.0|-14.2|<0.001
92156125|NCT04039503|184198330|SUPERIORITY||Odds Ratio (OR)|37.77|||<|0.001|TWO_SIDED|95.0|15.23|93.7|||Regression, Logistic|||||93.70|15.23|<0.001
92156126|NCT04039503|184198330|SUPERIORITY||Odds Ratio (OR)|100.07|||<|0.001|TWO_SIDED|95.0|30.02|333.62|||Regression, Logistic|||||333.62|30.02|<0.001
92156127|NCT04039503|184198330|SUPERIORITY||Odds Ratio (OR)|43.31|||<|0.001|TWO_SIDED|95.0|16.92|110.83|||Regression, Logistic|||||110.83|16.92|<0.001
92156128|NCT04039503|184198331|SUPERIORITY||LS Mean Difference|-22.5|||<|0.001|TWO_SIDED|95.0|-29.5|-15.4|||Mixed Models Analysis|||||-15.4|-29.5|<0.001
92156129|NCT04039503|184198331|SUPERIORITY||LS Mean Difference|-29.0|||<|0.001|TWO_SIDED|95.0|-36.0|-22.0|||Mixed Models Analysis|||||-22.0|-36.0|<0.001
92156130|NCT04039503|184198331|SUPERIORITY||LS Mean Difference|-28.8|||<|0.001|TWO_SIDED|95.0|-35.9|-21.6|||Mixed Models Analysis|||||-21.6|-35.9|<0.001
92156131|NCT04039503|184198333|SUPERIORITY||Odds Ratio (OR)|17.15|||<|0.001|TWO_SIDED|95.0|7.55|38.93|||Regression, Logistic|||||38.93|7.55|<0.001
92156132|NCT04039503|184198333|SUPERIORITY||Odds Ratio (OR)|27.24|||<|0.001|TWO_SIDED|95.0|11.87|62.55|||Regression, Logistic|||||62.55|11.87|<0.001
92340436|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.2|STANDARD_ERROR_OF_MEAN|5.96||0.1257||95.0|-2.6|20.9|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||20.9|-2.6|0.1257
92340437|NCT00676403|184582654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.9|STANDARD_ERROR_OF_MEAN|5.95||0.0131||95.0|3.2|26.6|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||26.6|3.2|0.0131
92340438|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.3|STANDARD_ERROR_OF_MEAN|6.94||0.1824||95.0|-23.0|4.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.4|-23.0|0.1824
92340439|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.1|STANDARD_ERROR_OF_MEAN|6.8||0.0767||95.0|-25.5|1.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.3|-25.5|0.0767
92340440|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|7.11||0.0492||95.0|-28.1|-0.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.1|-28.1|0.0492
92340441|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.7|STANDARD_ERROR_OF_MEAN|6.84||0.2023||95.0|-22.2|4.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.7|-22.2|0.2023
92340442|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.4|STANDARD_ERROR_OF_MEAN|6.83||0.0116||95.0|-30.9|-3.9|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-3.9|-30.9|0.0116
92340443|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.4|STANDARD_ERROR_OF_MEAN|7.01||0.1819||95.0|-23.2|4.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.4|-23.2|0.1819
92340444|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|6.76||0.2806||95.0|-20.6|6.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.0|-20.6|0.2806
92398947|NCT03882021|184689544|OTHER|Kaplan Meier estimate of freedom from AF/AFL/AT|Kaplan Meier Survival Estimate|75.5|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|69.9|80.1|||||Kaplan Meier estimate of freedom from AF/AFL/AT at 12 months.|||80.1|69.9|
92398948|NCT02174731|184689557|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the lower bound of the 95% confidence interval (CI) of the difference between roxadustat and epoetin alfa exceeded -0.75. Non-inferiority p-value is 1-sided.|Least Square Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.044|<|0.001|TWO_SIDED|95.0|0.01|0.18|||ANCOVA||Difference between groups (roxadustat minus Epoetin alfa) in LS mean changes.|||0.18|0.01|<0.001
92156133|NCT04039503|184198333|SUPERIORITY||Odds Ratio (OR)|79.61|||<|0.001|TWO_SIDED|95.0|32.76|193.44|||Regression, Logistic|||||193.44|32.76|<0.001
92156134|NCT04039503|184198334|SUPERIORITY||Estimate Difference|-35.4|||||TWO_SIDED|95.0|-46.0|-22.8||||||||-22.8|-46.0|
92156135|NCT04039503|184198334|SUPERIORITY||Estimate Difference|-38.2|||||TWO_SIDED|95.0|-48.3|-26.1||||||||-26.1|-48.3|
92156136|NCT04039503|184198334|SUPERIORITY||Estimate Difference|-49.3|||||TWO_SIDED|95.0|-57.7|-39.4||||||||-39.4|-57.7|
92156137|NCT04039503|184198337|SUPERIORITY||Odds Ratio (OR)|12.22|||<|0.001|TWO_SIDED|95.0|3.93|38.0|||Regression, Logistic|||||38.00|3.93|<0.001
92156138|NCT04039503|184198337|SUPERIORITY||Odds Ratio (OR)|32.36|||<|0.001|TWO_SIDED|95.0|10.52|99.49|||Regression, Logistic|||||99.49|10.52|<0.001
92156139|NCT04039503|184198337|SUPERIORITY||Odds Ratio (OR)|56.26|||<|0.001|TWO_SIDED|95.0|18.27|173.26|||Regression, Logistic|||||173.26|18.27|<0.001
92156140|NCT02044458|184198350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|||||||t-test, 2 sided|||||||.70
92156141|NCT02044458|184198351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.38|||||||t-test, 2 sided|||||||.38
92156142|NCT02044458|184198352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57|||||||Chi-squared|||||||.57
92274953|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.83|||||TWO_SIDED|95.0|-58.94|100.6||||||For change in global QoL at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||100.60|-58.94|
92340445|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|7.13||0.1465||95.0|-24.4|3.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.7|-24.4|0.1465
92340446|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.6|STANDARD_ERROR_OF_MEAN|6.85||0.0046||95.0|-33.1|-6.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-6.1|-33.1|0.0046
92340447|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|6.92||0.0187||95.0|-30.0|-2.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-2.8|-30.0|0.0187
92340448|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|7.0||0.6128||95.0|-10.2|17.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||17.3|-10.2|0.6128
92340449|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|6.76||0.3488||95.0|-19.7|7.0|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.0|-19.7|0.3488
92340450|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|7.17||0.1472||95.0|-24.5|3.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.7|-24.5|0.1472
92340451|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|6.89||0.0791||95.0|-25.7|1.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.4|-25.7|0.0791
92340452|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.4|STANDARD_ERROR_OF_MEAN|6.97||0.0282||95.0|-29.1|-1.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-1.7|-29.1|0.0282
92340453|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.9|STANDARD_ERROR_OF_MEAN|7.08||0.1623||95.0|-23.9|4.0|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.0|-23.9|0.1623
92340454|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|6.84||0.3739||95.0|-19.6|7.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.4|-19.6|0.3739
92398949|NCT02174731|184689558|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the lower bound of the 95% CI of the difference between roxadustat and epoetin alfa exceeded -0.75. Non-inferiority p-value is 1-sided.|Least Square Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.056|<|0.001|TWO_SIDED|95.0|0.03|0.25|||MMRM||Difference between groups (roxadustat minus Epoetin alfa) in LS mean change.|||0.25|0.03|<0.001
92398950|NCT02174731|184689559|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the lower bound of the 95% CI of the difference between roxadustat and epoetin alfa exceeded -0.15. Non-inferiority p-value is 1-sided.|Least Square Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.013|<|0.001|TWO_SIDED|95.0|0.0|0.05|||ANCOVA||Difference between groups (roxadustat minus Epoetin alfa) in LS mean.|||0.05|0.00|<0.001
92398951|NCT02174731|184689560|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the lower bound of the 95% CI of the difference between roxadustat and epoetin alfa exceeded -0.15. Non-inferiority p-value is 1-sided.|Least Square Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.014|<|0.001|TWO_SIDED|95.0|-0.01|0.05|||ANCOVA||Difference between groups (roxadustat minus Epoetin alfa) in LS mean.|||0.05|-0.01|<0.001
92274954|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.33|||||TWO_SIDED|95.0|-44.54|63.2||||||For change in physical functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||63.20|-44.54|
92216921|NCT02234284|184333942|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.27|TWO_SIDED|95.0|-0.23|0.83|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean score of participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||.83|-.23|.27
92216922|NCT02234284|184333943|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.02|TWO_SIDED|95.0|0.07|0.68|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean score of participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||.68|.07|.02
92216923|NCT02234284|184333944|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.4|TWO_SIDED|95.0|-2.78|1.12|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean score of participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||1.12|-2.78|.40
92216924|NCT02234284|184333945|SUPERIORITY||Mean Difference (Net)|0.0||||0.98|TWO_SIDED|95.0|-3.0|3.0|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean percent predicted of participants in Health Coached arm minus mean percent predicted in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||3|-3|.98
92216925|NCT02234284|184333946|SUPERIORITY||Mean Difference (Final Values)|-11.5||||0.3|TWO_SIDED|95.0|-33.3|10.2|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||10.2|-33.3|.30
92216926|NCT02234284|184333947|SUPERIORITY||Mean Difference (Final Values)|-0.73||||0.29|TWO_SIDED|95.0|-2.07|0.62|||Mixed Models Analysis||Value is for mean number of days for participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|||0.62|-2.07|.29
92340455|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.2|STANDARD_ERROR_OF_MEAN|7.26||0.0517||95.0|-28.5|0.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-28.5|0.0517
92274955|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0|||||TWO_SIDED|95.0|-35.3|75.3||||||For change in role functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||75.30|-35.30|
92340456|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.1|STANDARD_ERROR_OF_MEAN|6.92||0.0815||95.0|-25.8|1.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.5|-25.8|0.0815
92340457|NCT00676403|184582655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.9|STANDARD_ERROR_OF_MEAN|7.0||0.0031||95.0|-34.7|-7.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-7.1|-34.7|0.0031
92340458|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.6|STANDARD_ERROR_OF_MEAN|7.88||0.3368||95.0|-8.0|23.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.1|-8.0|0.3368
92156143|NCT02218203|184198353|OTHER|We report the interaction between the lidocaine dose response and dextromethorphan dose response. The type of statistical test was a linear regression model with Chi-square test.|Lidocaine dose*dextromethorphan dose|0.0042|STANDARD_ERROR_OF_MEAN|0.002||0.0322|TWO_SIDED|95.0|0.0004|0.0081|||Pearson's Chi-squared test||The estimated value is an estimated interaction term, and not a P-value.|We performed a lidocaine dose response clinical trial nested within a dextromethorphan clinical trial to evaluate a potential interaction between lidocaine dose and dextromethorphan dose (pain intensity; Gracely scale).||0.0081|0.0004|0.0322
92156144|NCT05567952|184198362|SUPERIORITY||Least square (LS) mean difference|-0.705|||=|0.0004|TWO_SIDED|95.0|-1.093|-0.316|||MMRM|||Mixed model for repeated measures (MMRM) included fixed effects of treatment, geographic region, baseline SARS-CoV-2 RNA level, visit, and treatment-by-visit interaction; an unstructured (co) variance structure was used.||-0.316|-1.093|= 0.0004
92156145|NCT05567952|184198363|SUPERIORITY||Hazard Ratio (HR)|1.235|||=|0.0697|TWO_SIDED|95.0|0.983|1.551|||COX proportional hazard ratio|||Analysis was based on Cox proportional hazard (PH) model which included treatment, geographic region, baseline SARS-CoV-2 RNA level (\< 4 log10 copies/mL or \>= 4 log10 copies/mL) and time since the last vaccination (less than or equal to \[\<=6\] months, \> 6 months or unvaccinated) as appropriate.||1.551|0.983|= 0.0697
92340459|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.2|STANDARD_ERROR_OF_MEAN|7.75||0.4232||95.0|-21.5|9.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.1|-21.5|0.4232
92340460|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|8.09||0.7082||95.0|-12.9|19.0|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||19.0|-12.9|0.7082
92156146|NCT05567952|184198364|SUPERIORITY||Hazard Ratio (HR)|1.084|||=|0.5202|TWO_SIDED|95.0|0.848|1.385|||COX proportional hazard ratio|||Analysis was based on Cox proportional hazard (PH) model which included treatment, geographic region, baseline SARS-CoV-2 RNA level (\< 4 log10 copies/mL or \>= 4 log10 copies/mL) and time since the last vaccination (\<=6 months, \> 6 months or unvaccinated) as appropriate.||1.385|0.848|= 0.5202
92156147|NCT05220501|184198367|NON_INFERIORITY|The justification of the noninferiority margin is based on review of 11 studies reporting on the benefit of multiparametric MRI-directed biopsy over systematic biopsy. The differences between the multiparametric MRI-directed biopsy and systematic biopsy were tabulated and found to range from 5%to 18%. Panel selected 10% noninferiority and a 1-sided α of .025 as a reasonable threshold that would demonstrate clinically similar outcomes.|||||<|0.001|||||||Jeffreys interval|||||||<0.001
92156148|NCT00802841|184198370|SUPERIORITY_OR_OTHER|||||||0.3106|TWO_SIDED||||||Fisher Exact|||||||0.3106
92156149|NCT01268059|184198379|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.205||||0.027|TWO_SIDED|95.0|1.1|4.5|||Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by histology, disease stage, and ECOG performance status.|Hazard ratio and its 95 percent (%) confidence interval ( CIs) were calculated using the Cox proportional hazard model stratified by histology, disease stage, and Eastern Cooperative Oncology Group (ECOG) performance status.|||4.5|1.1|0.027
92156150|NCT01268059|184198381|SUPERIORITY_OR_OTHER_LEGACY|||||||0.487||||||The 2-sided p-value was calculated by adjusting for the stratification factors histology, disease stage, and Eastern Cooperative Oncology Group (ECOG) performance status.|Cochran-Mantel-Haenszel|||Treatment effect Carboplatin/Paclitaxel + MEDI-575 versus Carboplatin/Paclitaxel.||||0.487
92340461|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|7.7||0.9466||95.0|-15.7|14.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.7|-15.7|0.9466
92156151|NCT01268059|184198381|SUPERIORITY_OR_OTHER_LEGACY|||||||0.386||||||The 2-sided p-value was calculated by adjusting for the stratification factors histology, disease stage, and ECOG performance status.|Cochran-Mantel-Haenszel|||Treatment effect Carboplatin/Paclitaxel + MEDI-575 versus Carboplatin/Paclitaxel.||||0.386
92156152|NCT01268059|184198384|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|3.017|||||TWO_SIDED|95.0|1.2|7.4|||||The 95% confidence interval calculated using the Cox proportional hazard model stratified by histology, disease stage, and ECOG performance status.|||7.4|1.2|
92156153|NCT01268059|184198384|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.134|||||TWO_SIDED|95.0|0.3|4.3|||||The 95% confidence interval calculated using the Cox proportional hazard model stratified by histology, disease stage, and ECOG performance status.|||4.3|0.3|
92156154|NCT01268059|184198385|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.315|||||TWO_SIDED|95.0|0.7|2.4|||||The 95% confidence interval calculated using the Cox proportional hazard model stratified by histology, disease stage, and ECOG performance status.|||2.4|0.7|
92156155|NCT01268059|184198385|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.083|||||TWO_SIDED|95.0|0.4|10.8|||||The 95% confidence interval calculated using the Cox proportional hazard model stratified by histology, disease stage, and ECOG performance status.|||10.8|0.4|
92156156|NCT03660943|184198398|SUPERIORITY||Mean Difference (Final Values)|-2.07|STANDARD_ERROR_OF_MEAN|1.192||0.0833|TWO_SIDED|95.0|-4.42|0.27|||Mixed Models Analysis|||The MMRM analysis included the change from study baseline in scores as the dependent variable, with terms for treatment, pooled study center, study baseline K-L grade category for the index knee, study baseline BMI category, study baseline OA type (unilateral or bilateral knee OA), sex, study visit, treatment by visit interaction, and study baseline score as covariates, using an unstructured covariance structure.||0.27|-4.42|0.0833
92274956|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5|||||TWO_SIDED|95.0|-51.66|36.66||||||For change in emotional functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||36.66|-51.66|
92274957|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.67|||||TWO_SIDED|95.0|-36.06|69.39||||||For change in cognitive functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||69.39|-36.06|
92340462|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|7.72||0.3746||95.0|-22.1|8.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.4|-22.1|0.3746
92340463|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|7.95||0.9336||95.0|-15.0|16.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.3|-15.0|0.9336
92340464|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.8|STANDARD_ERROR_OF_MEAN|7.71||0.2029||95.0|-25.0|5.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.4|-25.0|0.2029
92340465|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.1|STANDARD_ERROR_OF_MEAN|8.18||0.3833||95.0|-23.3|9.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.0|-23.3|0.3833
92340466|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|7.72||0.8152||95.0|-17.0|13.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.4|-17.0|0.8152
92340467|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.7|STANDARD_ERROR_OF_MEAN|7.81||0.1739||95.0|-26.1|4.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.7|-26.1|0.1739
92340468|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.6|STANDARD_ERROR_OF_MEAN|7.94||0.3392||95.0|-8.0|23.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.3|-8.0|0.3392
92340469|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|7.71||0.913||95.0|-16.0|14.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.4|-16.0|0.9130
92340470|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|8.22||0.6||95.0|-20.5|11.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.9|-20.5|0.6000
92340471|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.9|STANDARD_ERROR_OF_MEAN|7.75||0.4445||95.0|-9.3|21.2|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.2|-9.3|0.4445
92398952|NCT02174731|184689561|SUPERIORITY|Superiority was also declared as the lower bound of the 95% CI exceeded 0 and p-value was lower than 0.05.|Least Square Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|-0.39|-0.27|||ANCOVA||Difference between groups (roxadustat minus Epoetin alfa) in LS mean.|||-0.27|-0.39|<0.001
92398953|NCT02174731|184689562|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the lower bound of the 95% CI of the difference between roxadustat and epoetin alfa exceeded -0.75. Non-inferiority p-value is 1-sided.|Least Square Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.081|<|0.001|TWO_SIDED|95.0|0.04|0.36|||ANCOVA|MAR-based multiple imputation.|Difference between groups (roxadustat minus Epoetin alfa) in LS mean.|||0.36|0.04|<0.001
92398954|NCT02174731|184689563|SUPERIORITY||||||<|0.0001|||||||Wilcoxon Rank Sum Test|||||||<0.0001
92398955|NCT02174731|184689564|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the upper bound of the HR 95% CI of the difference between roxadustat and epoetin alfa was less than or equal to 1.8. Non-inferiority p-value is 1-sided. The CIs were from Wald and ties were calculated using the Efron method.|Hazard Ratio (HR)|0.83|||<|0.001|TWO_SIDED|95.0|0.64|1.07|||Regression, Cox|||||1.07|0.64|<0.001
92398956|NCT02374164|184689699|SUPERIORITY_OR_OTHER||Point Estimate|0.72|||||TWO_SIDED|90.0|0.612|0.847|||||Ratio Fed/Fasted. Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural logarithm-transformed data. Bioequivalence was reached if the value was 0.80 to 1.25.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in the fasted and fed (high-fat meal) states.||0.847|0.612|
92156157|NCT03660943|184198399|SUPERIORITY|The number of NPRS subjects differed from the WOMAC outcomes because of differences in missing data.|Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.251||0.0935|TWO_SIDED|95.0|-0.91|0.07|||Mixed Models Analysis|||The MMRM analysis included the change from study baseline in scores as the dependent variable, with terms for treatment, pooled study center, study baseline K-L grade category for the index knee, study baseline BMI category, study baseline OA type (unilateral or bilateral knee OA), sex, study visit, treatment by visit interaction, and study baseline score as covariates, using an unstructured covariance structure.||0.07|-0.91|0.0935
92156158|NCT03660943|184198400|SUPERIORITY||Mean Difference (Final Values)|-1.22|STANDARD_ERROR_OF_MEAN|0.506||0.0163|TWO_SIDED|95.0|-2.22|-0.23|||Mixed Models Analysis|||The MMRM analysis included the change from study baseline in scores as the dependent variable, with terms for treatment, pooled study center, study baseline K-L grade category for the index knee, study baseline BMI category, study baseline OA type (unilateral or bilateral knee OA), sex, study visit, treatment by visit interaction, and study baseline score as covariates, using an unstructured covariance structure.||-0.23|-2.22|0.0163
92156159|NCT03660943|184198401|SUPERIORITY||Mean Difference (Final Values)|-7.99|STANDARD_ERROR_OF_MEAN|4.076||0.0509|TWO_SIDED|95.0|-16.01|0.03|||Mixed Models Analysis|||The MMRM analysis included the change from study baseline in scores as the dependent variable, with terms for treatment, pooled study center, study baseline K-L grade category for the index knee, study baseline BMI category, study baseline OA type (unilateral or bilateral knee OA), sex, study visit, treatment by visit interaction, and study baseline score as covariates, using an unstructured covariance structure.||0.03|-16.01|0.0509
92156160|NCT03699124|184198402|EQUIVALENCE|Equivalence between two lot groups is demonstrated if the confidence interval of the ratio of the GMTs lies within the interval \[½, 2\]. For the trial to be successful, all three lot group comparisons must be equivalent by this definition.|GMT Ratio|0.936|||||TWO_SIDED|95.0|0.816|1.073||||||||1.073|0.816|
92398957|NCT00844376|184689705|SUPERIORITY_OR_OTHER_LEGACY||ratio of adjusted geometric means|95.77||||||90.0|85.82|106.88|||Mixed Models Analysis|The mixed effects model was implemented using SAS Proc Mixed, with REML estimation method and Kenward-Roger degrees of freedom algorithm.|Natural log transformed AUC48 was analyzed using a mixed effect model with sequence, period and treatment as a fixed effect and subject within sequence as a random effect.|Ratio of adjusted means (test/reference), and 90% CI for ratio--for AUC48; restricted (residual) maximum likelihood (REML) method of estimation.||106.88|85.82|
92398958|NCT00844376|184689706|SUPERIORITY_OR_OTHER_LEGACY||ratio of adjusted geometric means|95.04||||||90.0|84.99|106.27|||Mixed Models Analysis|The mixed effects model was implemented using SAS Proc Mixed, with REML estimation method and Kenward-Roger degrees of freedom algorithm.|Natural log transformed AUCinf was analyzed using a mixed effect model with sequence, period and treatment as a fixed effect and subject within sequence as a random effect.|Ratio of adjusted means (test/reference), and 90% CI for ratio--for AUCinf||106.27|84.99|
92398959|NCT00844376|184689707|SUPERIORITY_OR_OTHER_LEGACY||ratio of adjusted geometric means|94.86||||||90.0|83.86|107.29|||Mixed Models Analysis|The mixed effects model was implemented using SAS Proc Mixed, with REML estimation method and Kenward-Roger degrees of freedom algorithm.|Natural log transformed AUClast was analyzed using a mixed effect model with sequence, period and treatment as a fixed effect and subject within sequence as a random effect.|Ratio of adjusted means (test/reference), and 90% CI for ratio--for AUClast||107.29|83.86|
92398960|NCT00844376|184689708|SUPERIORITY_OR_OTHER_LEGACY||ratio of adjusted geometric means|117.9||||||90.0|98.22|141.53|||Mixed Models Analysis|The mixed effects model was implemented using SAS Proc Mixed, with REML estimation method and Kenward-Roger degrees of freedom algorithm.|Natural log transformed Cmax was analyzed using a mixed effect model with sequence, period and treatment as a fixed effect and subject within sequence as a random effect.|Ratio of adjusted means (test/reference), and 90% CI for ratio--for Cmax||141.53|98.22|
92398961|NCT00539981|184689716|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. B falls within 0.67 to 1.5.|GMT ratio|1.07||||0.009|TWO_SIDED|95.0|0.85|1.36||Threshold for significance of p value was 0.05.|ANOVA|||A/Solomon Islands (H1N1): FluBlok: Lot A versus FluBlok: Lot B||1.36|0.85|0.009
92398962|NCT00539981|184689716|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. C falls within 0.67 to 1.5.|GMT ratio|0.91||||0.009|TWO_SIDED|0.91|0.71|1.15||Threshold for significance of p value was 0.05.|ANOVA|||A/Solomon Islands (H1N1): FluBlok: Lot A versus FluBlok: Lot C||1.15|0.71|0.009
92398963|NCT00539981|184689716|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot B vs. C falls within 0.67 to 1.5.|GMT ratio|0.85||||0.009|TWO_SIDED|95.0|0.67|1.07|||ANOVA|Threshold for significance of p value was 0.05.||A/Solomon Islands (H1N1): FluBlok: Lot B versus FluBlok: Lot C||1.07|0.67|0.009
92340472|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|7.85||0.9656||95.0|-15.8|15.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||15.1|-15.8|0.9656
92340473|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.6|STANDARD_ERROR_OF_MEAN|8.02||0.5679||95.0|-11.2|20.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||20.4|-11.2|0.5679
92340474|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|7.79||0.5619||95.0|-19.9|10.8|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.8|-19.9|0.5619
92340475|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|8.31||0.993||95.0|-16.3|16.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.4|-16.3|0.9930
92340476|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|7.79||0.6892||95.0|-12.2|18.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.5|-12.2|0.6892
92340477|NCT00676403|184582656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4|STANDARD_ERROR_OF_MEAN|7.89||0.4928||95.0|-21.0|10.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.1|-21.0|0.4928
92340478|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.6|STANDARD_ERROR_OF_MEAN|5.1||0.2719||95.0|-4.4|15.6|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||15.6|-4.4|0.2719
92156161|NCT03699124|184198402|EQUIVALENCE|Equivalence between two lot groups is demonstrated if the confidence interval of the ratio of the GMTs lies within the interval \[½, 2\]. For the trial to be successful, all three lot group comparisons must be equivalent by this definition.|GMT Ratio|1.115|||||TWO_SIDED|95.0|0.967|1.287||||||||1.287|0.967|
92156162|NCT03699124|184198402|EQUIVALENCE|Equivalence between two lot groups is demonstrated if the confidence interval of the ratio of the GMTs lies within the interval \[½, 2\]. For the trial to be successful, all three lot group comparisons must be equivalent by this definition.|GMT Ratio|1.044|||||TWO_SIDED|95.0|0.915|1.191||||||||1.191|0.915|
92156163|NCT00594932|184198458|SUPERIORITY_OR_OTHER_LEGACY||superiority|4.0|||=|0.041||||||This was the primary endpoint therefore no adjustment for multiple comparisons was necessary|Fisher Exact|||this is a categorical assessment. Prespecified. Fishers exact test. Significant is calculated as \< 0.05||||=0.041
92156164|NCT00688259|184198480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Mixed Models Analysis|||||||.30
92156165|NCT00688259|184198481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|||||||Mixed Models Analysis|||||||.09
92274958|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|||||TWO_SIDED|95.0|-76.36|86.36||||||For change in social functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||86.36|-76.36|
92156166|NCT00688259|184198482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.46|||||||Mixed Models Analysis|||||||.46
92156167|NCT00688259|184198483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|||||||Mixed Models Analysis|||||||.55
92156168|NCT00688259|184198484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Mixed Models Analysis|||||||.50
92156169|NCT00688259|184198485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|||||||Mixed Models Analysis|||||||.25
92156170|NCT02144519|184198493|SUPERIORITY||Odds Ratio (OR)|1.88||||0.008|TWO_SIDED|95.0|1.18|3.0|||Mixed Models Analysis|||||3.00|1.18|0.008
92156171|NCT02144519|184198494|SUPERIORITY||Odds Ratio (OR)|3.8||||0.003|TWO_SIDED|95.0|1.45|9.95|||Regression, Logistic|||||9.95|1.45|0.003
92156172|NCT05126459|184198520|SUPERIORITY|||||||0.016||||||The threshold for statistical significance was p=0.05.|ANOVA|||Null hypothesis: there is no significant difference in Musculo skeletal related sedation related events during sedation.||||0.016
92156173|NCT05126459|184198521|SUPERIORITY|||||||0.211||||||The threshold for statistical significance was p=0.05.|ANOVA|||Null hypothesis: there is no significant difference in Musculo skeletal related sedation related events at 8 hours after sedation.||||0.211
92156174|NCT05126459|184198522|SUPERIORITY|||||||0.374||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||0.374
92156175|NCT05126459|184198523|SUPERIORITY|||||||0.55|||||||ANOVA|||Null hypothesis: there is no significant difference in GI reaction between the 3 regimens.||||0.55
92156176|NCT05126459|184198524|SUPERIORITY|||||||0.16||||||The threshold for statistical significance was p=0.05.|ANOVA|||Null hypothesis: there is no significant difference in GI reaction between the 3 regimens 8 hours after sedation.||||0.16
92274959|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.78|||||TWO_SIDED|95.0|-77.63|42.08||||||For change in fatigue at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||42.08|-77.63|
92156177|NCT05126459|184198525|SUPERIORITY|||||||0.012||||||The threshold for statistical significance was p=0.05.|ANOVA|||Null hypothesis: there is no significant difference in GI reaction between the 3 regimens at 24 hours after sedation.||||0.012
92340479|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|5.02||0.693||95.0|-7.9|11.8|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.8|-7.9|0.6930
92168540|NCT04878354|184226859|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.9277|TWO_SIDED|95.0|-0.21|0.23|||Mixed Models Analysis||Placebo SLIT-tablet vs tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The endpoint was analysed in each dataset in a linear mixed effects (LME) model with treatment and cohort as fixed effects, and pollen station within cohort as a random effect. Each treatment group was allowed different residual errors. Observed p-value.||0.23|-0.21|0.9277
92168541|NCT04878354|184226860|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9643|TWO_SIDED|95.0|-0.19|0.18|||Mixed Models Analysis||Placebo SLIT-tablet vs tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The endpoint was analysed in each dataset in a linear mixed effect (LME) model with treatment and cohort as fixed effects, and pollen station within cohort as a random effect. Each treatment group was allowed different residual errors. Observed p-value.||0.18|-0.19|0.9643
92168542|NCT04878354|184226861|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.0287|TWO_SIDED|95.0|0.02|0.34|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The endpoint was analysed in each dataset in a linear mixed effect (LME) model with treatment and cohort as fixed effects, and pollen station within cohort as a random effect. Each treatment group was allowed different residual errors. Observed p-value.||0.34|0.02|0.0287
92168543|NCT04878354|184226863|SUPERIORITY||Odds Ratio (OR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.3|0.58|||Generalized linear mixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet/ odds tree SLIT-tablet)|"Multiple imputation was used to impute missing data under the hypothetical strategy.~The odds of having an improved treatment efficacy according to patient-rated global evaluation was analysed using a generalised linear mixed model with a logit link function. The model includes patient-rated global evaluation of treatment efficacy (improvement/no improvement) as the response variable and treatment, cohort and age group as fixed effects and pollen station as random effects. Observed p-value."||0.58|0.30|<0.0001
92168544|NCT04878354|184226864|SUPERIORITY||Mean Difference (Final Values)|0.43|||<|0.0001|TWO_SIDED|95.0|0.38|0.48|||Mixed Models Analysis||Tree SLIT-tablet vs placebo SLIT-tablet, visit 4|Change from baseline (screening) to visit 4 (pre-TPS). Change from baseline of log transformed concentrations is analyzed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.48|0.38|<0.0001
92168545|NCT04878354|184226864|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.1038|TWO_SIDED|95.0|-0.09|0.01|||Mixed Models Analysis||Tree SLIT-tablet vs. placebo SLIT-tablet, visit 6|Change from baseline (screening) to visit 6 (end of treatment). Change from baseline of log transformed concentrations is analysed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.01|-0.09|0.1038
92216927|NCT02234284|184333948|SUPERIORITY||Mean Difference (Final Values)|39.7|||<|0.001|TWO_SIDED|95.0|19.6|59.8|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||59.8|19.6|<.001
92274960|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-62.33|28.99||||||For change in nausea and vomiting at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||28.99|-62.33|
92340480|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|5.24||0.7178||95.0|-12.2|8.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.4|-12.2|0.7178
92340481|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|4.96||0.8037||95.0|-11.0|8.5|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.5|-11.0|0.8037
92340482|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.7|STANDARD_ERROR_OF_MEAN|5.02||0.0832||95.0|-1.2|18.6|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.6|-1.2|0.0832
92340483|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|5.17||0.3554||95.0|-5.4|14.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.9|-5.4|0.3554
92340484|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|4.96||0.9538||95.0|-9.5|10.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.0|-9.5|0.9538
92340485|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|5.26||0.5593||95.0|-13.4|7.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.3|-13.4|0.5593
92340486|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|4.97||0.8663||95.0|-8.9|10.6|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.6|-8.9|0.8663
92340487|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|5.12||0.119||95.0|-2.1|18.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.1|-2.1|0.1190
92398964|NCT00539981|184689716|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. B falls within 0.67 to 1.5.|GMT ratio|2.03||||0.065|TWO_SIDED|95.0|1.56|2.64||Threshold of significance for p value was 0.05.|ANOVA|||A/Wisconsin (H3N2): FluBlok: Lot A versus FluBlok: Lot B||2.64|1.56|0.065
92340488|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.4|STANDARD_ERROR_OF_MEAN|5.15||0.1544||95.0|-2.8|17.5|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||17.5|-2.8|0.1544
92398965|NCT00539981|184689716|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. C falls within 0.67 to 1.5.|GMT ratio|1.63||||0.065|TWO_SIDED|95.0|1.26|2.11|||ANOVA|Threshold of significance for p value was 0.05.||A/Wisconsin (H3N2): FluBlok: Lot A versus FluBlok: Lot C||2.11|1.26|0.065
92398966|NCT00539981|184689716|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot B vs. C falls within 0.67 to 1.5.|GMT ratio|0.8||||0.065|TWO_SIDED|95.0|0.62|1.04|||ANOVA|Threshold of significance for p value was 0.05.||A/Wisconsin (H3N2): FluBlok: Lot B versus FluBlok: Lot C||1.04|0.62|0.065
92340489|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|4.97||0.8439||95.0|-8.8|10.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.7|-8.8|0.8439
92156178|NCT01058863|184198529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.15|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.88|1.42||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline FEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||1.42|0.88|<0.0001
92340490|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|5.3||0.9925||95.0|-10.5|10.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.4|-10.5|0.9925
92340491|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|5.02||0.8784||95.0|-9.1|10.6|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.6|-9.1|0.8784
92340492|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|5.17||0.8948||95.0|-9.5|10.8|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.8|-9.5|0.8948
92340493|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.5|STANDARD_ERROR_OF_MEAN|5.26||0.2197||95.0|-3.9|16.8|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.8|-3.9|0.2197
92340494|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5|STANDARD_ERROR_OF_MEAN|5.07||0.6183||95.0|-7.4|12.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||12.5|-7.4|0.6183
92340495|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|5.42||0.4484||95.0|-14.8|6.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.5|-14.8|0.4484
92340496|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.4|STANDARD_ERROR_OF_MEAN|5.07||0.3857||95.0|-5.6|14.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.4|-5.6|0.3857
92340497|NCT00676403|184582657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|5.22||0.8824||95.0|-11.0|9.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.5|-11.0|0.8824
92340498|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.9|STANDARD_ERROR_OF_MEAN|7.87||0.1673||95.0|-4.6|26.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||26.4|-4.6|0.1673
92340499|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|7.71||0.9839||95.0|-15.0|15.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||15.3|-15.0|0.9839
92340500|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.5|STANDARD_ERROR_OF_MEAN|8.06||0.2905||95.0|-7.3|24.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||24.4|-7.3|0.2905
92398967|NCT00539981|184689716|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. B falls within 0.67 to 1.5.|GMT ratio|0.88||||0.011|TWO_SIDED|95.0|0.69|1.13|||ANOVA|Threshold of significance for p value was 0.05.||B/Malaysia: FluBlok: Lot A versus FluBlok: Lot B||1.13|0.69|0.011
92398968|NCT00539981|184689716|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. C falls within 0.67 to 1.5.|GMT ratio|0.85||||0.011|TWO_SIDED|95.0|0.65|1.09|||ANOVA|Threshold of significance for p value was 0.05.||B/Malaysia: FluBlok: Lot A versus FluBlok: Lot C||1.09|0.65|0.011
92398969|NCT00539981|184689716|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot B vs. C falls within 0.67 to 1.5.|GMT ratio|0.96||||0.011|TWO_SIDED|95.0|0.75|1.23|||ANOVA|Threshold of significance for p value was 0.05.||B/Malaysia: FluBlok: Lot B versus FluBlok: Lot C||1.23|0.75|0.011
92398970|NCT00539981|184689717|SUPERIORITY|Relative protective efficacy is equivalent to absolute efficacy which is defined as the reduction in the influenza rate for Flublok relative to placebo.|Relative protective efficacy|75.4|||||TWO_SIDED|95.0|-148.0|99.5||||||FluBlok versus Placebo||99.5|-148.0|
92398971|NCT03069352|184689731|SUPERIORITY||Hazard Ratio (HR)|0.749||||0.114|TWO_SIDED|95.0|0.524|1.071|||Log Rank|Log-rank test stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|The hazard ratio was estimated using the Cox proportional hazards model, stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|||1.071|0.524|0.114
92398972|NCT03069352|184689731|SUPERIORITY||Hazard Ratio (HR)|0.743||||0.103|TWO_SIDED|95.0|0.521|1.061|||Log Rank|Unstratified analysis|The hazard ratio was estimated using the Cox proportional hazards model.|||1.061|0.521|0.103
92398973|NCT03069352|184689732|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||<0.001
92398974|NCT03069352|184689732|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92398975|NCT03069352|184689733|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||<0.001
92398976|NCT03069352|184689733|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92216928|NCT02234284|184333949|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.38|TWO_SIDED|95.0|-9.5|25.2|||Mixed Models Analysis||Value is for proportion of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||25.2|-9.5|.38
92216929|NCT02234284|184333950|SUPERIORITY||Median Difference (Final Values)|2.0||||0.73|TWO_SIDED|95.0|-9.4|13.4|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.||Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||13.4|-9.4|.73
92216930|NCT02234284|184333951|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.7|TWO_SIDED|95.0|-14.0|20.8|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||20.8|-14.0|.70
92274961|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.33|||||TWO_SIDED|95.0|-79.59|96.26||||||For change in pain at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||96.26|-79.59|
92274962|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.52|||||TWO_SIDED|95.0|-89.98|52.94||||||For change in dyspnea at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||52.94|-89.98|
92274963|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.0|||||TWO_SIDED|95.0|-133.08|93.08||||||For change in insomnia at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||93.08|-133.08|
92398977|NCT03069352|184689734|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||<0.001
92398978|NCT03069352|184689734|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92398979|NCT03069352|184689735|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||<0.001
92398980|NCT03069352|184689735|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92398981|NCT03069352|184689736|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||<0.001
92398982|NCT03069352|184689736|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92398983|NCT03069352|184689737|OTHER||LS Mean Difference|-4.507|STANDARD_ERROR_OF_MEAN|2.068|||TWO_SIDED|95.0|-8.6|-0.41|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 3, Day 1||-0.41|-8.60|
92398984|NCT03069352|184689737|OTHER||LS Mean Difference|-4.923|STANDARD_ERROR_OF_MEAN|2.58|||TWO_SIDED|95.0|-10.03|0.19|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 5 Day 1||0.19|-10.03|
92168546|NCT04878354|184226865|SUPERIORITY||Mean Difference (Final Values)|0.53|||<|0.0001|TWO_SIDED|95.0|0.48|0.57|||Mixed Models Analysis||Tree SLIT-tablet vs. placebo SLIT-tablet, visit 4|Change from baseline (screening) to visit 4 (pre-TPS). Change from baseline of log transformed concentrations is analysed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.57|0.48|<0.0001
92340501|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.6|STANDARD_ERROR_OF_MEAN|7.69||0.5513||95.0|-10.6|19.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||19.7|-10.6|0.5513
92340502|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|7.77||0.1589||95.0|-4.3|26.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||26.3|-4.3|0.1589
92340503|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.4|STANDARD_ERROR_OF_MEAN|7.95||0.0541||95.0|-0.3|31.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||31.0|-0.3|0.0541
92340504|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|7.66||0.5987||95.0|-11.0|19.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||19.1|-11.0|0.5987
92340505|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.3|STANDARD_ERROR_OF_MEAN|8.1||0.4372||95.0|-9.6|22.2|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||22.2|-9.6|0.4372
92340506|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|7.71||0.8336||95.0|-16.8|13.6|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.6|-16.8|0.8336
92340507|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.9|STANDARD_ERROR_OF_MEAN|7.9||0.0804||95.0|-1.7|29.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||29.4|-1.7|0.0804
92340508|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.3|STANDARD_ERROR_OF_MEAN|7.94||0.2985||95.0|-7.4|23.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.9|-7.4|0.2985
92340509|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|7.66||0.4991||95.0|-9.9|20.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||20.3|-9.9|0.4991
92340510|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.1|STANDARD_ERROR_OF_MEAN|8.15||0.2675||95.0|-7.0|25.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.1|-7.0|0.2675
92340511|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|7.77||0.1593||95.0|-4.3|26.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||26.3|-4.3|0.1593
92398985|NCT03069352|184689737|OTHER||LS Mean Difference|-0.807|STANDARD_ERROR_OF_MEAN|2.609|||TWO_SIDED|95.0|-5.98|4.36|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 7 Day 1||4.36|-5.98|
92398986|NCT03069352|184689737|OTHER||LS Mean Difference|-1.648|STANDARD_ERROR_OF_MEAN|3.176|||TWO_SIDED|95.0|-7.94|4.64|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 9 day 1||4.64|-7.94|
92340512|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.9|STANDARD_ERROR_OF_MEAN|7.96||0.0179||95.0|3.3|34.6|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||34.6|3.3|0.0179
92340513|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|17.8|STANDARD_ERROR_OF_MEAN|8.06||0.0281||95.0|1.9|33.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||33.7|1.9|0.0281
92340514|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.3|STANDARD_ERROR_OF_MEAN|7.77||0.1883||95.0|-5.0|25.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.5|-5.0|0.1883
92340515|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|8.28||0.23||95.0|-6.3|26.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||26.3|-6.3|0.2300
92340516|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|7.82||0.7575||95.0|-13.0|17.8|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||17.8|-13.0|0.7575
92398987|NCT03069352|184689737|SUPERIORITY|||||||0.126|||||||Linear Mixed Effects Regression Model|Model included AML status (de novo vs. secondary), age (18-\< 75 vs. ≥ 75), treatment arm, time, and treatment arm by time interaction as fixed factors||A linear mixed effects regression model with a variable covariance structure was fitted to the longitudinal data (considering all time points) to test for differences between treatment arms.||||0.126
92156179|NCT01058863|184198529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.7|1.24||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline FEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||1.24|0.70|<0.0001
92156180|NCT01058863|184198529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.08|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.81|1.35||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline FEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level..||1.35|0.81|<0.0001
92156181|NCT01058863|184198529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.88|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.61|1.15||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline FEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||1.15|0.61|<0.0001
92168547|NCT04878354|184226865|SUPERIORITY||Mean Difference (Final Values)|0.49|||<|0.0001|TWO_SIDED|95.0|0.45|0.53|||Mixed Models Analysis||Tree SLIT-tablet vs placebo SLIT-tablet, visit 6|Change from baseline (screening) to visit 6 (end of treatment). Change from baseline of log transformed concentrations is analysed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.53|0.45|<0.0001
92340517|NCT00676403|184582658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.3|STANDARD_ERROR_OF_MEAN|8.02||0.0757||95.0|-1.5|30.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||30.1|-1.5|0.0757
92340518|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|5.89||0.2817||95.0|-18.0|5.2|||Mixed Models Analysis|||Week 1: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.2|-18.0|0.2817
92216931|NCT02234284|184333952|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.97|TWO_SIDED|95.0|-5.5|5.3|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||5.3|-5.5|.97
92340519|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|5.76||0.6796||95.0|-13.7|9.0|||Mixed Models Analysis|||Week 1: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.0|-13.7|0.6796
92340520|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|6.01||0.2505||95.0|-18.8|4.9|||Mixed Models Analysis|||Week 1: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.9|-18.8|0.2505
92340521|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|5.73||0.5102||95.0|-15.1|7.5|||Mixed Models Analysis|||Week 1: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.5|-15.1|0.5102
92340522|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|5.78||0.5706||95.0|-14.7|8.1|||Mixed Models Analysis|||Week 1: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.1|-14.7|0.5706
92340523|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|5.95||0.4708||95.0|-16.0|7.4|||Mixed Models Analysis|||Week 2: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.4|-16.0|0.4708
92340524|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|5.72||0.6202||95.0|-8.4|14.1|||Mixed Models Analysis|||Week 2: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.1|-8.4|0.6202
92340525|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|6.04||0.4177||95.0|-16.8|7.0|||Mixed Models Analysis|||Week 2: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.0|-16.8|0.4177
92340526|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|5.75||0.6509||95.0|-8.7|13.9|||Mixed Models Analysis|||Week 2: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.9|-8.7|0.6509
92340527|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|5.86||0.8273||95.0|-10.3|12.8|||Mixed Models Analysis|||Week 2: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||12.8|-10.3|0.8273
92340528|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|5.94||0.2842||95.0|-18.1|5.3|||Mixed Models Analysis|||Week 4: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.3|-18.1|0.2842
92398988|NCT03069352|184689738|OTHER||LS Mean Difference|2.917|STANDARD_ERROR_OF_MEAN|4.617|||TWO_SIDED|95.0|-6.23|12.06|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 3 Day 1||12.06|-6.23|
92340529|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|5.72||0.7041||95.0|-9.1|13.5|||Mixed Models Analysis|||Week 4: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.5|-9.1|0.7041
92398989|NCT03069352|184689738|OTHER||LS Mean Difference|13.388|STANDARD_ERROR_OF_MEAN|5.659|||TWO_SIDED|95.0|2.18|24.59|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 5 Day 1||24.59|2.18|
92156182|NCT01058863|184198530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|33.47|STANDARD_ERROR_OF_MEAN|3.69|<|0.0001|TWO_SIDED|95.0|26.21|40.74||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline PPFEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||40.74|26.21|<0.0001
92156183|NCT01058863|184198530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|27.73|STANDARD_ERROR_OF_MEAN|3.686|<|0.001|TWO_SIDED|95.0|20.47|34.99||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline PPFEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||34.99|20.47|<0.001
92156184|NCT01058863|184198530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|33.1|STANDARD_ERROR_OF_MEAN|3.686|<|0.0001|TWO_SIDED|95.0|25.84|40.35||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline PPFEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||40.35|25.84|<0.0001
92156185|NCT01058863|184198530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.61|STANDARD_ERROR_OF_MEAN|3.68|<|0.0001|TWO_SIDED|95.0|18.36|32.85||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline PPFEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||32.85|18.36|<0.0001
92156186|NCT01556763|184198574|SUPERIORITY_OR_OTHER||||||=|0.1||95.0|||||ANCOVA|||Baseline value was the covariate and all values obtained during the treatment period were averaged together. This value was adjusted by regression against the baseline and estimation of a new value as if all subjects possessed the same baseline.||||=0.10
92156187|NCT01556763|184198575|SUPERIORITY_OR_OTHER||||||=|0.07||95.0|||||ANCOVA|||Baseline value was the covariate and all values obtained during the treatment period were averaged together. This value was adjusted by regression against the baseline and estimation of a new value as if all subjects possessed the same baseline.||||=0.07
92156188|NCT01556763|184198576|SUPERIORITY_OR_OTHER||||||=|0.02||95.0|||||ANCOVA|||Baseline value was the covariate and all values obtained during the treatment period were averaged together. This value was adjusted by regression against the baseline and estimation of a new value as if all subjects possessed the same baseline.||||=0.02
92156189|NCT01556763|184198577|SUPERIORITY_OR_OTHER||||||=|0.008||95.0|||||ANCOVA|||Baseline value was the covariate and all values obtained during the treatment period were averaged together. This value was adjusted by regression against the baseline and estimation of a new value as if all subjects possessed the same baseline.||||=0.008
92156190|NCT02258464|184198578|OTHER||Hazard Ratio (Radium 223/Placebo)|0.745||||0.3339|TWO_SIDED|80.0|0.504|1.102||The SSE-FS was compared using a stratified log-rank test with a 2-sided alpha of 0.2|Log Rank|||The null hypothesis that both treatment groups have the same SSE-FS distribution will be tested against the alternative hypothesis that the distribution of SSE-FS time in radium-223 dichloride is different from the placebo group||1.102|0.504|0.3339
92340530|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|6.07||0.7216||95.0|-14.1|9.8|||Mixed Models Analysis|||Week 4: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.8|-14.1|0.7216
92340531|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|5.78||0.6188||95.0|-14.3|8.5|||Mixed Models Analysis|||Week 4: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.5|-14.3|0.6188
92156191|NCT02258464|184198579|OTHER||Hazard ratio (Radium 223/Placebo)|0.888||||0.7259|TWO_SIDED|80.0|0.576|1.37|||Log Rank|||||1.370|0.576|0.7259
92156192|NCT02258464|184198580|OTHER||Hazard ratio (Radium 223/Placebo)|0.932||||0.8785|TWO_SIDED|80.0|0.513|1.693|||Log Rank|||||1.693|0.513|0.8785
92156193|NCT02258464|184198581|OTHER||Hazard ratio (Radium 223/Placebo)|0.824||||0.524|TWO_SIDED|80.0|0.556|1.22|||Log Rank|||||1.220|0.556|0.5240
92156194|NCT02258464|184198582|OTHER||Difference (Radium 223 - Placebo) %|11.8||||0.345|TWO_SIDED|80.0|-2.7|26.3|||Cochran-Mantel-Haenszel|||||26.3|-2.7|0.345
92156195|NCT02258464|184198583|OTHER||Hazard ratio (Radium 223/Placebo)|0.968||||0.9128|TWO_SIDED|80.0|0.657|1.425|||Log Rank|||||1.425|0.657|0.9128
92156196|NCT02258464|184198584|OTHER||Hazard ratio (Radium 223/Placebo)|1.023||||0.9227|TWO_SIDED|80.0|0.753|1.391|||Log Rank|||||1.391|0.753|0.9227
92156197|NCT00932646|184198587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.139|0.205|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.205|0.139|<0.0001
92156198|NCT00932646|184198587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.14|0.208|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.208|0.140|<0.0001
92340532|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|5.9||0.8096||95.0|-10.2|13.0|||Mixed Models Analysis|||Week 4: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.0|-10.2|0.8096
92156199|NCT00932646|184198587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.124|0.191|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.191|0.124|<0.0001
92340533|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.6|STANDARD_ERROR_OF_MEAN|6.01||0.0157||95.0|-26.5|-2.8|||Mixed Models Analysis|||Week 6: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-2.8|-26.5|0.0157
92340534|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|5.79||0.6007||95.0|-14.4|8.4|||Mixed Models Analysis|||Week 6: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.4|-14.4|0.6007
92340535|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.0|STANDARD_ERROR_OF_MEAN|6.15||0.1057||95.0|-22.1|2.1|||Mixed Models Analysis|||Week 6: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||2.1|-22.1|0.1057
92340536|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|5.81||0.7764||95.0|-13.1|9.8|||Mixed Models Analysis|||Week 6: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.8|-13.1|0.7764
92340537|NCT00676403|184582659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|5.93||0.7146||95.0|-13.9|9.5|||Mixed Models Analysis|||Week 6: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.5|-13.9|0.7146
92340538|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.2978||95.0|-0.3|0.9|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.9|-0.3|0.2978
92340539|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7242||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.7242
92398990|NCT03069352|184689738|OTHER||LS Mean Difference|7.119|STANDARD_ERROR_OF_MEAN|6.031|||TWO_SIDED|95.0|-4.83|19.06|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 7 Day 1||19.06|-4.83|
92156200|NCT00932646|184198588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.114|0.176|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.176|0.114|<0.0001
92340540|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.32||0.0773||95.0|-0.1|1.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.2|-0.1|0.0773
92156201|NCT00932646|184198588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.116|0.179|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.179|0.116|<0.0001
92340541|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7831||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.7831
92398991|NCT03069352|184689738|OTHER||LS Mean Difference|6.381|STANDARD_ERROR_OF_MEAN|7.511|||TWO_SIDED|95.0|-8.49|21.26|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 9 Day 1||21.26|-8.49|
92340542|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3291||95.0|-0.3|0.9|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.9|-0.3|0.3291
92340543|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.3692||95.0|-0.3|0.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.9|-0.3|0.3692
92340544|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7614||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.7614
92340545|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.32||0.0355||95.0|0.0|1.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.3|0.0|0.0355
92340546|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.5068||95.0|-0.4|0.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.8|-0.4|0.5068
92340547|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.31||0.0561||95.0|0.0|1.2|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.2|-0.0|0.0561
92340548|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.31||0.2223||95.0|-0.2|1.0|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.0|-0.2|0.2223
92340549|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.6791||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.6791
92340550|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|0.32||0.0188||95.0|0.1|1.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.4|0.1|0.0188
92156202|NCT00932646|184198588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.125|0.187|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.187|0.125|<0.0001
92340551|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.3||0.1314||95.0|-0.1|1.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.1|-0.1|0.1314
92216932|NCT02234284|184333953|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.52|TWO_SIDED|95.0|-0.32|1.28|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for rate of outpatient visits for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||1.28|-0.32|.52
92340552|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.31||0.09||95.0|-0.1|1.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.1|-0.1|0.0900
92156203|NCT00932646|184198589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.149|0.223|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.223|0.149|<0.0001
92216933|NCT02234284|184333954|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.78|TWO_SIDED|95.0|-0.32|0.22|||Mixed Models Analysis||Value is for rate of COPD-related ED visits for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||0.22|-0.32|.78
92340553|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.4144||95.0|-0.4|0.9|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.9|-0.4|0.4144
92340554|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7699||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.7699
92340555|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.32||0.0406||95.0|0.0|1.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.3|0.0|0.0406
92340556|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7574||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.7574
92340557|NCT00676403|184582660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.31||0.0554||95.0|0.0|1.2|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.2|-0.0|0.0554
92340558|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|5.36||0.5409||95.0|-13.8|7.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.3|-13.8|0.5409
92340559|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|5.25||0.823||95.0|-11.5|9.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.2|-11.5|0.8230
92340560|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|5.48||0.2958||95.0|-16.5|5.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.1|-16.5|0.2958
92340561|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|5.27||0.3708||95.0|-15.1|5.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.7|-15.1|0.3708
92340562|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|5.27||0.1853||95.0|-17.4|3.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.4|-17.4|0.1853
92340563|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|5.41||0.1834||95.0|-17.9|3.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.4|-17.9|0.1834
92340564|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|5.22||0.8711||95.0|-11.1|9.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.4|-11.1|0.8711
92156204|NCT00932646|184198589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.162|0.235|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.235|0.162|<0.0001
92156205|NCT00932646|184198589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.176|0.25|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.250|0.176|<0.0001
92156206|NCT00932646|184198590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.154|0.23|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.230|0.154|<0.0001
92156207|NCT00932646|184198590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.197|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.158|0.235|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.235|0.158|<0.0001
92156208|NCT00932646|184198590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.217|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.178|0.255|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.255|0.178|<0.0001
92156209|NCT00932646|184198591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.026||0.0003||95.0|0.045|0.148|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.148|0.045|0.0003
92156210|NCT00932646|184198591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.026||0.0001||95.0|0.051|0.155|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.155|0.051|0.0001
92156211|NCT00932646|184198591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.026||0.0026||95.0|0.028|0.132|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.132|0.028|0.0026
92216934|NCT02234284|184333955|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.8|TWO_SIDED|95.0|-0.56|0.4|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for rate of non-COPD-related ED visits for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||0.40|-0.56|.80
92340565|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4|STANDARD_ERROR_OF_MEAN|5.5||0.3252||95.0|-16.3|5.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.4|-16.3|0.3252
92340566|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|5.28||0.3205||95.0|-15.7|5.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.1|-15.7|0.3205
92156212|NCT00932646|184198592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.195|0.306|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.306|0.195|<0.0001
92156213|NCT00932646|184198592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.246|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.19|0.302|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.302|0.190|<0.0001
92156214|NCT00932646|184198592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.179|0.291|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.291|0.179|<0.0001
92156215|NCT00932646|184198593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.101|0.222|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.222|0.101|<0.0001
92156216|NCT00932646|184198593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.096|0.218|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.218|0.096|<0.0001
92156217|NCT00932646|184198593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.162|0.284|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.284|0.162|<0.0001
92156218|NCT00932646|184198594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.155|0.258|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.258|0.155|<0.0001
92156219|NCT00932646|184198594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.202|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.15|0.255|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.255|0.150|<0.0001
92156220|NCT00932646|184198594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.229|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.176|0.281|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.281|0.176|<0.0001
92156221|NCT00932646|184198595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.299|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.233|0.365|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.365|0.233|<0.0001
92216935|NCT02234284|184333956|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.35|TWO_SIDED|95.0|-0.32|0.06|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for rate of COPD-related hospital visits for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||0.06|-0.32|.35
92340567|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.3|STANDARD_ERROR_OF_MEAN|5.34||0.0837||95.0|-19.8|1.2|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.2|-19.8|0.0837
92340568|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|5.4||0.8895||95.0|-11.4|9.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.9|-11.4|0.8895
92398992|NCT03069352|184689738|SUPERIORITY|||||||0.085|||||||Linear Mixed Effects Regression Model|Model included AML status (de novo vs. secondary), age (18-\< 75 vs. ≥ 75), treatment arm, time, and treatment arm by time interaction as fixed factors||A linear mixed effects regression model with a variable covariance structure was fitted to the longitudinal data (considering all time points) to test for differences between treatment arms.||||0.085
92398993|NCT03069352|184689739|SUPERIORITY||Hazard Ratio (HR)|0.583||||0.002|TWO_SIDED|95.0|0.416|0.817|||Log Rank|Log-rank test stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|The hazard ratio was estimated using the Cox proportional hazards model, stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|||0.817|0.416|0.002
92156222|NCT00932646|184198595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.236|0.369|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.369|0.236|<0.0001
92156223|NCT00932646|184198595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.338|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.271|0.405|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.405|0.271|<0.0001
92156224|NCT00932646|184198596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.055||0.0163||95.0|0.024|0.239|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.239|0.024|0.0163
92156225|NCT00932646|184198596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.055||0.0118||95.0|0.031|0.247|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.247|0.031|0.0118
92156226|NCT00932646|184198596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.055||0.0076||95.0|0.04|0.256|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.256|0.040|0.0076
92156227|NCT00932646|184198597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.082|0.154|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.154|0.082|<0.0001
92156228|NCT00932646|184198597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.084|0.157|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.157|0.084|<0.0001
92156229|NCT00932646|184198597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.119|0.191|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.191|0.119|<0.0001
92156230|NCT03786094|184198605|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.445|TWO_SIDED|96.0|0.85|1.41|||t-test, 2 sided||HR and associated 2-sided 96% CI are estimated by a Cox proportional hazards model stratified for randomization stratification factors including a fixed effect term for treatment arm.|||1.41|0.85|0.4450
92398994|NCT03069352|184689739|SUPERIORITY||Hazard Ratio (HR)|0.601||||0.003|TWO_SIDED|95.0|0.43|0.839|||Log Rank|Unstratified analysis|The hazard ratio was estimated using the Cox proportional hazards model.|||0.839|0.430|0.003
92398995|NCT03069352|184689740|SUPERIORITY||Treatment Difference|22.9||||0.001|TWO_SIDED|95.0|10.8|35.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).|Treatment difference = Venetoclax - Placebo|||35.0|10.8|0.001
92398996|NCT03069352|184689740|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92398997|NCT03069352|184689741|SUPERIORITY||Treatment Difference|15.2||||0.04|TWO_SIDED|95.0|1.4|29.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).|Treatment difference = Venetoclax - Placebo|||29.0|1.4|0.040
92156231|NCT03786094|184198606|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.6158|TWO_SIDED|96.0|0.81|1.41|||t-test, 2 sided||HR and associated 2-sided 96% CI are estimated by a Cox proportional hazards model stratified for randomization stratification factors including a fixed effect term for treatment arm.|||1.41|0.81|0.6158
92340569|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|5.22||0.6469||95.0|-12.7|7.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.9|-12.7|0.6469
92340570|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|5.53||0.2687||95.0|-17.0|4.8|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.8|-17.0|0.2687
92340571|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|5.31||0.1757||95.0|-17.7|3.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.3|-17.7|0.1757
92340572|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.7|STANDARD_ERROR_OF_MEAN|5.38||0.0306||95.0|-22.3|-1.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-1.1|-22.3|0.0306
92340573|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.4|STANDARD_ERROR_OF_MEAN|5.47||0.0857||95.0|-20.2|1.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.3|-20.2|0.0857
92340574|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|5.28||0.2932||95.0|-16.0|4.8|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.8|-16.0|0.2932
92340575|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.5|STANDARD_ERROR_OF_MEAN|5.6||0.0613||95.0|-21.6|0.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.5|-21.6|0.0613
92340576|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|5.34||0.5431||95.0|-13.8|7.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.3|-13.8|0.5431
92340577|NCT00676403|184582661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.1|STANDARD_ERROR_OF_MEAN|5.41||0.0262||95.0|-22.7|-1.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-1.4|-22.7|0.0262
92398998|NCT03069352|184689741|SUPERIORITY|||||||0.039|||||||Fisher Exact|||||||0.039
92156232|NCT03786094|184198607|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.6126|TWO_SIDED|99.9|0.66|1.77|||t-test, 2 sided|||||1.77|0.66|0.6126
92168548|NCT04878354|184226866|SUPERIORITY||Mean Difference (Final Values)|0.29|||<|0.0001|TWO_SIDED|95.0|0.24|0.33|||Mixed Models Analysis||Tree SLIT-tablet vs. placebo SLIT-tablet, visit 4|Change from baseline (screening) to visit 4 (pre-TPS). Change from baseline of log transformed concentrations is analyzed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.33|0.24|<0.0001
92168549|NCT04878354|184226866|SUPERIORITY||Mean Difference (Final Values)|0.31|||<|0.0001|TWO_SIDED|95.0|0.26|0.36|||Mixed Models Analysis||Tree SLIT-tablet vs. placebo SLIT-tablet, visit 6|Change from baseline (screening) to visit 6 (end of treatment). Change from baseline of log transformed concentrations is analysed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.36|0.26|<0.0001
92168550|NCT03599648|184226870|SUPERIORITY|||||||0.361||||||baseline versus immediately after 16-week BPT-E intervention|t-test, 2 sided|||||||.361
92168551|NCT03599648|184226870|SUPERIORITY|||||||0.126||||||baseline versus 6 months after BPT-E intervention|t-test, 2 sided|||||||.126
92168552|NCT03599648|184226870|SUPERIORITY|||||||0||||||baseline versus 12 months after BPT-E intervention|t-test, 2 sided|||||||.000
92168553|NCT03599648|184226870|SUPERIORITY|||||||0||||||baseline versus immediately after 16 week BPT-M intervention|t-test, 2 sided|||||||.000
92168554|NCT03599648|184226870|SUPERIORITY|||||||0||||||baseline versus 6 months after BPT-M intervention|t-test, 2 sided|||||||.000
92168555|NCT03599648|184226870|SUPERIORITY|||||||0||||||baseline versus 12 months after BPT-M intervention|t-test, 2 sided|||||||.000
92216936|NCT02234284|184333957|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.37|TWO_SIDED|95.0|-0.2|0.04|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for rate of non-COPD-related hospitalizations for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||0.04|-0.20|.37
92216937|NCT02234284|184333958|SUPERIORITY||difference in proportion|-18.9||||0.01|TWO_SIDED|95.0|-33.1|-4.8|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||-4.8|-33.1|.01
92216938|NCT02234284|184333959|SUPERIORITY||Mean Difference (Final Values)|14.6||||0.01|TWO_SIDED|95.0|3.3|25.9|||Mixed Models Analysis||Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||25.9|3.3|.01
92216939|NCT05215262|184333981|SUPERIORITY||Mean Difference (Final Values)|1.87||||0.04|TWO_SIDED|95.0|0.04|3.17|||Mixed Models Analysis|||||3.17|0.04|0.04
92216940|NCT05215262|184333981|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.82|TWO_SIDED|95.0|-1.59|1.99|||Mixed Models Analysis|||||1.99|-1.59|0.82
92216941|NCT05215262|184333981|SUPERIORITY||Mean Difference (Final Values)|1.67||||0.2|TWO_SIDED|95.0|-0.89|4.23|||Mixed Models Analysis|||Difference-in-differences results, comparing GSES scores between the Intervention and Standard of Care groups at the three-month time point.||4.23|-0.89|0.20
92216942|NCT03496324|184334013|EQUIVALENCE|Bioequivalence was demonstrated between NfC® and Algifor® Junior if each 90% confidence interval (CI) (rounded to 2 decimal places) for the ratio between least square geometric means (test / reference) lay within 80% and 125% for Cmax.|Geometric Least Square Mean|94.19|STANDARD_ERROR_OF_MEAN|18.9|||TWO_SIDED|90.0|85.81|103.38||||||||103.38|85.81|
92216943|NCT03496324|184334013|EQUIVALENCE|Bioequivalence was demonstrated between NfC® and Algifor® Junior if each 90% CI (rounded to 2 decimal places) for the ratio between least square geometric means (test / reference) lay within 80% and 125% for Cmax.|Geometric Least Square Mean|111.66|STANDARD_ERROR_OF_MEAN|14.3|||TWO_SIDED|90.0|103.84|120.07||||||||120.07|103.84|
92340578|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|5.44||0.1547||95.0|-18.5|3.0|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.0|-18.5|0.1547
92340579|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|5.33||0.2532||95.0|-16.6|4.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.4|-16.6|0.2532
92340580|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|5.56||0.0848||95.0|-20.6|1.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.3|-20.6|0.0848
92340581|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.3|STANDARD_ERROR_OF_MEAN|5.36||0.2424||95.0|-16.8|4.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.3|-16.8|0.2424
92216944|NCT03496324|184334014|EQUIVALENCE|Bioequivalence was demonstrated between NfC® and Algifor® Junior if each 90% CI (rounded to 2 decimal places) for the ratio between least square geometric means (test / reference) lay within 80% and 125% for AUC0-t.|Geometric Least Square Mean|101.57|STANDARD_ERROR_OF_MEAN|10.5|||TWO_SIDED|90.0|96.28|107.16||||||||107.16|96.28|
92216945|NCT03496324|184334014|EQUIVALENCE|Bioequivalence was demonstrated between NfC® and Algifor® Junior if each 90% CI (rounded to 2 decimal places) for the ratio between least square geometric means (test / reference) lay within 80% and 125% for AUC0-t.|Geometric Least Square Mean|104.47|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|90.0|101.4|107.63||||||||107.63|101.4|
92216946|NCT02092350|184334021|SUPERIORITY_OR_OTHER|||||||0.001|||||||One-sided exact test|||The primary hypothesis was that the SVR12 rate in the Immediate Treatment plus Intensive PK arm would be \>45%.||||0.001
92274964|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.67|||||TWO_SIDED|95.0|-151.27|77.94||||||For change in appetite loss at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||77.94|-151.27|
92274965|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.33|||||TWO_SIDED|95.0|-72.58|65.91||||||For change in constipation at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||65.91|-72.58|
92340582|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.7|STANDARD_ERROR_OF_MEAN|5.35||0.047||95.0|-21.2|-0.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.1|-21.2|0.0470
92156233|NCT03844321|184198661|SUPERIORITY||Difference in Slopes|-0.02||||0.82|TWO_SIDED|95.0|-0.24|0.19||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|df = 1607|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|We used a linear mixed effects model to examine the difference in effect of time on weekly WHO-5 scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks. This model accounts for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing assessment scores. The model includes a random slope and intercept, and fixed effects for intervention, time, and an intervention by time interaction.||0.19|-0.24|.820
92156234|NCT03844321|184198661|SUPERIORITY||Difference in Slopes|-0.08||||0.11|TWO_SIDED|95.0|-0.18|0.02||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1147|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|We used a linear mixed effects model to examine the difference in effect of time on weekly WHO-5 scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 20 weeks. This model accounts for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing assessment scores. The model includes a random slope and intercept, and fixed effects for intervention, time, and an intervention by time interaction.||0.02|-0.18|.110
92156235|NCT03844321|184198662|SUPERIORITY||Difference in Slopes|-0.03||||0.284|TWO_SIDED|95.0|-0.07|0.02||A two-sided significance level of .05 was used.|Mixed Models Analysis|df= 1726|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PSS scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks.||0.02|-0.07|.284
92156236|NCT03844321|184198662|SUPERIORITY||Difference in Slopes|0.01||||0.394|TWO_SIDED|95.0|-0.01|0.03||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1018|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PSS scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 20 weeks.||0.03|-0.01|.394
92156237|NCT03844321|184198663|SUPERIORITY||Difference in Slopes|0.03||||0.431|TWO_SIDED|95.0|-0.04|0.09||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1591|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Emotional Distress-Depression Short Form scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks.||0.09|-0.04|.431
92156238|NCT03844321|184198663|SUPERIORITY||Difference in Slopes|0.05|||<|0.001|TWO_SIDED|95.0|0.02|0.08||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1159|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Emotional Distress-Depression Short Form scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 20 weeks.||0.08|0.02|<.001
92156239|NCT03844321|184198664|SUPERIORITY||Difference in Slopes|-0.01||||0.399|TWO_SIDED|95.0|-0.05|0.02||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1601|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Emotional Distress-Anxiety Short Form scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks.||0.02|-0.05|.399
92340583|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|5.49||0.1494||95.0|-18.8|2.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||2.9|-18.8|0.1494
92398999|NCT03069352|184689742|SUPERIORITY||Treatment Difference|22.4|||||TWO_SIDED|95.0|9.0|35.8||||||||35.8|9.0|
92399000|NCT03069352|184689743|SUPERIORITY||Slope|17.7|||||TWO_SIDED|95.0|-0.4|35.8||||||||35.8|-0.4|
92168556|NCT03599648|184226871|SUPERIORITY|||||||0.035||||||Baseline versus immediately following 16-week BPT-E intervention|t-test, 2 sided|||||||.035
92168557|NCT03599648|184226871|SUPERIORITY|||||||0.001||||||Baseline versus 6-months after BPT-E intervention|t-test, 2 sided|||||||.001
92168558|NCT03599648|184226871|SUPERIORITY|||||||0||||||Baseline versus 12 months after BPT-E intervention|t-test, 2 sided|||||||.000
92168559|NCT03599648|184226871|SUPERIORITY|||||||0||||||Baseline versus immediately after 16-week BPT-M intervention|t-test, 2 sided|||||||.000
92168560|NCT03599648|184226871|SUPERIORITY|||||||0||||||Baseline versus 6 months after BPT-M intervention|t-test, 2 sided|||||||.000
92168561|NCT03599648|184226871|SUPERIORITY|||||||0||||||Baseline versus 12 months after BPT-M intervention|t-test, 2 sided|||||||.000
92168562|NCT03599648|184226872|SUPERIORITY|||||||0||||||Baseline versus immediately after 16-week BPT-E intervention|t-test, 2 sided|||||||.000
92168563|NCT03599648|184226872|SUPERIORITY|||||||0||||||Baseline versus 6 months after BPT-E intervention|t-test, 2 sided|||||||.000
92168564|NCT03599648|184226872|SUPERIORITY|||||||0||||||Baseline versus 12 months after BPT-E intervention|t-test, 2 sided|||||||.000
92168565|NCT03599648|184226872|SUPERIORITY|||||||0||||||Baseline versus immediately after 16-week BPT-M intervention|t-test, 2 sided|||||||.000
92340584|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|5.3||0.5081||95.0|-13.9|6.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.9|-13.9|0.5081
92156240|NCT03844321|184198664|SUPERIORITY||Difference in Slopes|0.02||||0.048|TWO_SIDED|95.0|0.0|0.03||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1171|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Emotional Distress-Anxiety Short Form scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 20 weeks.||0.03|0.00|.048
92340585|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|5.58||0.2141||95.0|-17.9|4.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.0|-17.9|0.2141
92340586|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|5.37||0.1484||95.0|-18.4|2.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||2.8|-18.4|0.1484
92340587|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.0|STANDARD_ERROR_OF_MEAN|5.42||0.0963||95.0|-19.7|1.6|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.6|-19.7|0.0963
92340588|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|5.48||0.8519||95.0|-11.8|9.8|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.8|-11.8|0.8519
92340589|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|5.3||0.477||95.0|-14.2|6.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.7|-14.2|0.4770
92340590|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|5.61||0.2166||95.0|-18.0|4.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.1|-18.0|0.2166
92340591|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|5.4||0.1062||95.0|-19.4|1.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.9|-19.4|0.1062
92399001|NCT03069352|184689744|SUPERIORITY|||||||0.162|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||0.162
92399002|NCT03069352|184689744|SUPERIORITY|||||||0.277|||||||Fisher Exact|||||||0.277
92399003|NCT03069352|184689745|SUPERIORITY|||||||0.162|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||0.162
92399004|NCT03069352|184689745|SUPERIORITY|||||||0.277|||||||Fisher Exact|||||||0.277
92156241|NCT03844321|184198665|SUPERIORITY||Difference in Slopes|-0.02||||0.488|TWO_SIDED|95.0|-0.06|0.03||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1560|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Ability to Participate in Social Roles and Activities Short Form scores (reverse scored) in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks.||0.03|-0.06|.488
92156242|NCT03844321|184198665|SUPERIORITY||Difference in Slopes|0.01||||0.446|TWO_SIDED|95.0|-0.01|0.03||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1179|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Ability to Participate in Social Roles and Activities Short Form scores (reverse scored) in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 20 weeks.||0.03|-0.01|.446
92156243|NCT03844321|184198666|SUPERIORITY||Difference in Slopes|-0.04||||0.469|TWO_SIDED|95.0|-0.16|0.07||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1618|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly FFMQ scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks.||0.07|-0.16|.469
92216947|NCT00646906|184334032|SUPERIORITY|An analysis of variance, appropriate for a three factor experiment with cohort and dose as non-repeated factors and repeated measure order arranged in a two period cross-over design, was performed.|||||>|0.05|||||||ANOVA|||The primary hypothesis is that acetaminophen given two hours before aspirin will antagonize the effects of aspirin, while reversing the order of administration will not. Percent change from start (8:00 am on day 1) to finish (8:00 am on day 7) of period in serum thromboxane B2 for each order of drug administration will be primary endpoint of interest.||||>0.05
92216948|NCT00646906|184334033|SUPERIORITY|An analysis of variance, appropriate for a three factor experiment with cohort and dose as non-repeated factors and repeated measure order arranged in a two period cross-over design, was performed.|||||>|0.05|||||||ANOVA|||||||>0.05
92340592|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.9|STANDARD_ERROR_OF_MEAN|5.45||0.0475||95.0|-21.6|-0.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.1|-21.6|0.0475
92340593|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.7|STANDARD_ERROR_OF_MEAN|5.54||0.0537||95.0|-21.7|0.2|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.2|-21.7|0.0537
92216949|NCT00240981|184334050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|129.8||||0.003|TWO_SIDED|95.0|43.9|215.6||The unadjusted analysis using two-sample Student's t-tests of equal change in the trial groups, allowing unequal variance.|t-test, 2 sided|||||215.6|43.9|0.003
92216950|NCT00240981|184334050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|129.4||||0.004|TWO_SIDED|95.0|43.5|215.4||Adjusted analysis used multiple linear regression, with adjustment for baseline total score on the Short Physical Performance Battery, and self-report of limitations in mobility.|Regression, Linear|||||215.4|43.5|0.004
92216951|NCT00240981|184334051|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.5||||0.002|TWO_SIDED|95.0|13.2|55.8||Unadjusted|t-test, 2 sided|||||55.8|13.2|0.002
92216952|NCT00240981|184334051|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.5||||0.002|TWO_SIDED|95.0|13.1|56.2||Adjusted|Regression, Linear|||||56.2|13.1|0.002
92216953|NCT00240981|184334052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.7||||0.34|TWO_SIDED|95.0|-9.2|26.7||Unadjusted|t-test, 2 sided|||||26.7|-9.2|0.34
92216954|NCT00240981|184334052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.1||||0.37|TWO_SIDED|95.0|-9.9|26.2||Adjusted.|Regression, Linear|||||26.2|-9.9|0.37
92216955|NCT00240981|184334053|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.69|TWO_SIDED|95.0|-1.1|1.7||Unadjusted|t-test, 2 sided|||||1.7|-1.1|0.69
92216956|NCT00240981|184334053|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.26||||0.71|TWO_SIDED|95.0|-1.1|1.7||Adjusted.|Regression, Linear|||||1.7|-1.1|0.71
92216957|NCT00240981|184334054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.26|TWO_SIDED|95.0|-0.035|0.135||Unadjusted.|t-test, 2 sided|||||0.135|-0.035|0.26
92216958|NCT00240981|184334054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.048||||0.27|TWO_SIDED|95.0|-0.037|0.133||Adjusted|Regression, Linear|||||0.133|-0.037|0.27
92216959|NCT00240981|184334055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|30.2||||0.05|TWO_SIDED|95.0|0.3|60.1||Unadjusted.|t-test, 2 sided|||||60.1|0.3|0.05
92340594|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4|STANDARD_ERROR_OF_MEAN|5.35||0.3153||95.0|-15.9|5.2|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.2|-15.9|0.3153
92340595|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|5.68||0.0424||95.0|-22.8|-0.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.4|-22.8|0.0424
92399005|NCT03069352|184689749|OTHER||Hazard Ratio (HR)|0.704||||0.04|TWO_SIDED|95.0|0.503|0.985|||Log Rank|Log-rank test stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|The hazard ratio was estimated using the Cox proportional hazards model, stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|||0.985|0.503|0.040
92216960|NCT00240981|184334055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|29.7||||0.05|TWO_SIDED|95.0|0.2|59.3||Adjusted|Regression, Linear|||||59.3|0.2|0.05
92216961|NCT00240981|184334057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8||||0.2|TWO_SIDED|95.0|1.2|2.5||Month 3 Measures|t-test, 2 sided|||||2.5|1.2|0.2
92216962|NCT00240981|184334057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|||<|0.0001|TWO_SIDED|95.0|0.4|2.2||Month 6 Measures|t-test, 2 sided|||||2.2|0.4|<.0001
92216963|NCT00240981|184334058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.002|TWO_SIDED|95.0|-2.7|-0.6||3 Months Measures|t-test, 2 sided|||||-0.6|-2.7|0.002
92216964|NCT00240981|184334058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|||<|0.0001|TWO_SIDED|95.0|-2.8|-1.2||6 Month Measures|t-test, 2 sided|||||-1.2|-2.8|<.0001
92216965|NCT00240981|184334059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.074||||0.24|TWO_SIDED|95.0|-0.05|0.19||Unadjusted.|t-test, 2 sided|||||0.19|-0.05|0.24
92216966|NCT00240981|184334059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.14|TWO_SIDED|95.0|-0.03|0.209||Adjusted.|Regression, Linear|||||0.209|-0.030|0.14
92216967|NCT00953719|184334074|NON_INFERIORITY_OR_EQUIVALENCE|The prospectively planned primary endpoint analysis was a non-inferiority test of covariate adjusted 24 month or later Harris Hip score means with a 5 point non-inferiority margin. A prospective power analysis with an anticipated Harris Hip score standard deviation of 10.08 (for both treatment groups) indicated that sample sizes of 134 and 67 would provide approximately 95% statistical power for this non-inferiority test with a type 1 error rate of 5%.|Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|1.24|<|0.001|ONE_SIDED|95.0|-1.4||||ANCOVA||||||-1.40|<0.001
92399006|NCT03069352|184689749|OTHER||Hazard Ratio (HR)|0.717||||0.049|TWO_SIDED|95.0|0.514|1.0|||Log Rank|Unstratified analysis|The hazard ratio was estimated using the Cox proportional hazards model.|||1.000|0.514|0.049
92405564|NCT02446899|184701351|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|16.3||||0.0013|TWO_SIDED|95.0|6.3|26.3||Nominal p-value.|Cochran-Mantel-Haenszel|||||26.3|6.3|0.0013
92405565|NCT02446899|184701352|SUPERIORITY||Mean Difference (Final Values)|17.3||||0.0022|TWO_SIDED|95.0|6.5|28.2||Adjusted p-value.|Cochran-Mantel-Haenszel|||The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).||28.2|6.5|0.0022
92405566|NCT02446899|184701353|SUPERIORITY||Mean Difference (Final Values)|21.2||||0.0135|TWO_SIDED|95.0|6.8|35.7||Adjusted p-value.|Cochran-Mantel-Haenszel|||The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).||35.7|6.8|0.0135
92405567|NCT02446899|184701354|SUPERIORITY||Mean Difference (Final Values)|24.0||||0.0392|TWO_SIDED|95.0|4.3|43.6||Adjusted p-value.|Cochran-Mantel-Haenszel|||The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).||43.6|4.3|0.0392
92340596|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|5.42||0.3077||95.0|-16.2|5.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.1|-16.2|0.3077
92340597|NCT00676403|184582662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.6|STANDARD_ERROR_OF_MEAN|5.48||0.0224||95.0|-23.4|-1.8|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-1.8|-23.4|0.0224
92405568|NCT02446899|184701355|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.5469|TWO_SIDED|95.0|-10.6|20.0||Adjusted p-value|Cochran-Mantel-Haenszel|||The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).||20.0|-10.6|0.5469
92168566|NCT03599648|184226872|SUPERIORITY|||||||0||||||Baseline versus 6 months after BPT-M intervention|t-test, 2 sided|||||||.000
92168567|NCT03599648|184226872|SUPERIORITY|||||||0||||||baseline versus 12 months after BPT-M intervention|t-test, 2 sided|||||||.000
92168568|NCT02217904|184226876|SUPERIORITY||Posterior mean difference|-1.64|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between islatravir and placebo at least 0.5 log10 copies/mL was \>99%.|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean of pooled historical placebo data was -0.03 log10 copies/mL (95% CI -014, 0.09) change from baseline at 168 hours post dose.||||
92168569|NCT02217904|184226876|SUPERIORITY||Posterior mean difference|-1.32|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between islatravir and placebo at least 0.5 log10 copies/mL was \>99%.|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean of pooled historical placebo data was -0.03 log10 copies/mL (95% CI -014, 0.09) change from baseline at 168 hours post dose.||||
92168570|NCT02217904|184226876|SUPERIORITY||Posterior mean difference|-1.57|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between islatravir and placebo at least 0.5 log10 copies/mL was \>99%.|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean of pooled historical placebo data was -0.03 log10 copies/mL (95% CI -014, 0.09) change from baseline at 168 hours post dose.||||
92216968|NCT00953719|184334080|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.079||||0.952||95.0|||||Mixed Models Analysis|SAS PROC MIXED was used with an ante-dependence covariance structure.||A repeated measurements longitudinal model of Harris Hip scores was carried out to compare Harris Hip results between treatment groups across time.||||0.952
92216969|NCT01910116|184334088|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Assuming that an improvement in AUSCAN pain score of \>10 is clinically meaningful, and assuming an alpha level of 0.05 (two-tailed), a power of 0.80, and a dropout rate of 20%, the sample size calculation revealed that 220 patients should be enrolled.||||0.014
92216970|NCT01910116|184334089|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.011
92216971|NCT01910116|184334090|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.053
92216972|NCT01910116|184334091|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.014
92216973|NCT01910116|184334092|SUPERIORITY_OR_OTHER|||||||0.728|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.728
92216974|NCT01910116|184334093|SUPERIORITY_OR_OTHER|||||||0.229|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.229
92216975|NCT01910116|184334094|SUPERIORITY_OR_OTHER|||||||0.194|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.194
92340598|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.7|STANDARD_ERROR_OF_MEAN|2.65||0.0646||95.0|0.9|15.0|||Regression, Logistic|||Week 1: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||15.0|0.9|0.0646
92216976|NCT01910116|184334095|SUPERIORITY_OR_OTHER|||||||0.347|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.347
92216977|NCT01910116|184334096|SUPERIORITY_OR_OTHER|||||||0.122|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.122
92216978|NCT01910116|184334097|SUPERIORITY_OR_OTHER|||||||0.097|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.097
92340599|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.2|STANDARD_ERROR_OF_MEAN|1.58||0.2947||95.0|0.5|9.1|||Regression, Logistic|||Week 1: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||9.1|0.5|0.2947
92399007|NCT01690052|184689760|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|The p-value is calculated from the ANOVA||||||0.05
92216979|NCT01910116|184334099|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.050
92216980|NCT01910116|184334100|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.031
92216981|NCT01910116|184334101|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.021
92399008|NCT05635461|184689762|OTHER||Geometric Mean Ratio|60.13|||||TWO_SIDED|90.0|56.12|64.42|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet fasted) and reference (CVN424 suspension fasted).|||64.42|56.12|
92216982|NCT01910116|184334102|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.049
92216983|NCT01910116|184334103|SUPERIORITY_OR_OTHER|||||||0.221|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.221
92216984|NCT01910116|184334104|SUPERIORITY_OR_OTHER|||||||0.174|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.174
92216985|NCT01910116|184334105|SUPERIORITY_OR_OTHER|||||||0.124|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.124
92216986|NCT01910116|184334106|SUPERIORITY_OR_OTHER|||||||0.128|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.128
92216987|NCT01910116|184334107|SUPERIORITY_OR_OTHER|||||||0.126|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.126
92216988|NCT01910116|184334108|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.042
92216989|NCT01910116|184334109|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.660
92216990|NCT01910116|184334110|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.006
92216991|NCT01910116|184334111|SUPERIORITY_OR_OTHER|||||||0.186|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.186
92216992|NCT01910116|184334112|SUPERIORITY_OR_OTHER|||||||0.493|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.493
92216993|NCT01910116|184334113|SUPERIORITY_OR_OTHER|||||||0.062|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.062
92216994|NCT01910116|184334114|SUPERIORITY_OR_OTHER|||||||0.604|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.604
92216995|NCT01910116|184334115|SUPERIORITY_OR_OTHER|||||||0.252|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.252
92216996|NCT01910116|184334116|SUPERIORITY_OR_OTHER|||||||0.378|TWO_SIDED||||||Chi-squared|||||||0.378
92216997|NCT01910116|184334117|SUPERIORITY_OR_OTHER|||||||0.485|TWO_SIDED||||||Chi-squared|||||||0.485
92216998|NCT01910116|184334118|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
92216999|NCT01910116|184334119|SUPERIORITY_OR_OTHER|||||||0.683|TWO_SIDED||||||Fisher Exact|||||||0.683
92217000|NCT01910116|184334120|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED||||||Chi-squared|||||||0.036
92217001|NCT01910116|184334121|SUPERIORITY_OR_OTHER|||||||0.022|TWO_SIDED||||||Chi-squared|||||||0.022
92217002|NCT01910116|184334122|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||Chi-squared|||||||0.017
92217003|NCT01910116|184334123|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Chi-squared|||||||0.060
92217004|NCT02289352|184334125|EQUIVALENCE|If the 90% confidence interval for the absolute difference between the proportion of patients considered a treatment success (at least a 2-grade improvement on both CEA and PSA over 6 hours+/-10 minutes) in the Test and Reference groups is contained within the range \[-20%, +20%\], then bioequivalence of the Test product to the Reference product is considered to have been demonstrated.|Mean Difference (Net)|-0.58|||||TWO_SIDED|90.0|-6.49|5.33||||||||5.33|-6.49|
92217005|NCT02289352|184334125|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92217006|NCT02289352|184334125|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92217007|NCT02289352|184334126|EQUIVALENCE|"The secondary efficacy variable is the proportion of patients with a clinical response of treatment success on Day 1.~If the 90% confidence interval for the absolute difference between the proportion of patients considered a treatment success (at least a 2-grade improvement on both the CEA and PSA over 6 hours+/-10 minutes) in the Test and Reference groups is contained within the range \[-20%, 20%\], then bioequivalence of the Test to Reference product is considered to have been demonstrated."|Mean Difference (Net)|6.94|||||TWO_SIDED|90.0|-1.54|15.41||||||||15.41|-1.54|
92217008|NCT02289352|184334126|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92156244|NCT03844321|184198666|SUPERIORITY||Difference in Slopes|-0.06||||0.033|TWO_SIDED|95.0|-0.11|-0.01||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1067|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used linear mixed effects models to examine the effect of time on weekly FFMQ scores across both intervention conditions from baseline to 20 weeks.||-0.01|-0.11|.033
92156245|NCT03844321|184198667|SUPERIORITY|||||||0.046||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Age measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.046
92156246|NCT03844321|184198667|SUPERIORITY|||||||0.275||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Age measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.275
92156247|NCT03844321|184198668|SUPERIORITY|||||||0.977||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PSS measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.977
92156248|NCT03844321|184198668|SUPERIORITY|||||||0.341||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PSS measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.341
92156249|NCT03844321|184198669|SUPERIORITY|||||||0.885||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: EDD measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.885
92156250|NCT03844321|184198669|SUPERIORITY|||||||0.319||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: EDD measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.319
92217009|NCT02289352|184334126|SUPERIORITY|||||||0.0045|||||||t-test, 2 sided|||||||0.0045
92274966|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.33|||||TWO_SIDED|95.0|-16.45|163.12||||||For change in diarrhea at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||163.12|-16.45|
92340600|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.6|STANDARD_ERROR_OF_MEAN|3.1||0.0249||95.0|1.2|17.2|||Regression, Logistic|||Week 1: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||17.2|1.2|0.0249
92399009|NCT05635461|184689763|OTHER||Geometric Mean Ratio|60.12|||||TWO_SIDED|90.0|56.12|64.42|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet fasted) and reference (CVN424 suspension fasted).|||64.42|56.12|
92399010|NCT05635461|184689764|OTHER||Geometric Mean Ratio|27.94|||||TWO_SIDED|90.0|25.09|31.13|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet fasted) and reference (CVN424 suspension fasted).|||31.13|25.09|
92217010|NCT04666350|184334166|OTHER||Combined Difference in Prevalence|-0.025||||0.711|TWO_SIDED|95.0|-0.16|0.109|||Other|The p-value is estimated assuming the combined difference over the square root of the weighted variance follows a normal distribution.||Comparison of DSFA Day 2 versus Day 1. For each participant, the difference in oocyte prevalence using DSFA on Day 1 versus Day 2 was estimated. To evaluate the hypothesis that the average mean difference in the prevalence between two assays within the same subject is zero, combined estimates (weighted mean and variance) were obtained using as weight the inverse of the variance of each paired difference obtained from the Agresti and Caffo method.||0.109|-0.160|0.711
92340601|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.3|STANDARD_ERROR_OF_MEAN|0.99||0.7671||95.0|0.3|5.9|||Regression, Logistic|||Week 1: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||5.9|0.3|0.7671
92399011|NCT05635461|184689765|OTHER||Median Difference (Final Values)|1.04|||<|0.0001|TWO_SIDED|90.0|0.9265|2.247|||ANOVA|||||2.2470|0.9265|<0.0001
92399012|NCT05635461|184689765|OTHER||Median Difference (Final Values)|2.78|||<|0.0001|TWO_SIDED|90.0|2.4475|3.0035|||ANOVA|||||3.0035|2.4475|<0.0001
92399013|NCT05635461|184689766|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0||||||||0.000|0.000|
92156251|NCT03844321|184198670|SUPERIORITY|||||||0.838||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: EDA measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.838
92156252|NCT03844321|184198670|SUPERIORITY|||||||0.89||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: EDA measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.890
92156253|NCT03844321|184198671|SUPERIORITY|||||||0.425||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: APRA measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.425
92274967|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.33|||||TWO_SIDED|95.0|-48.23|41.56||||||For change in financial difficulties at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||41.56|-48.23|
92274968|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.62|||||TWO_SIDED|95.0|-74.75|106.0||||||For change in global QoL at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||106.00|-74.75|
92340602|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.6|STANDARD_ERROR_OF_MEAN|2.9||0.0169||95.0|1.3|15.9|||Regression, Logistic|||Week 1: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||15.9|1.3|0.0169
92340603|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|0.74||0.9569||95.0|0.2|4.3|||Regression, Logistic|||Week 2: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||4.3|0.2|0.9569
92340604|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.2|STANDARD_ERROR_OF_MEAN|2.07||0.0711||95.0|0.9|11.4|||Regression, Logistic|||Week 2: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means.Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||11.4|0.9|0.0711
92340605|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.8|STANDARD_ERROR_OF_MEAN|1.85||0.1073||95.0|0.8|10.2|||Regression, Logistic|||Week 2: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||10.2|0.8|0.1073
92340606|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.4|STANDARD_ERROR_OF_MEAN|1.48||0.1583||95.0|0.7|8.1|||Regression, Logistic|||Week 2: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||8.1|0.7|0.1583
92340607|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.1|STANDARD_ERROR_OF_MEAN|2.8||0.0385||95.0|1.1|15.6|||Regression, Logistic|||Week 2: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||15.6|1.1|0.0385
92340608|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6|STANDARD_ERROR_OF_MEAN|1.09||0.4923||95.0|0.4|6.1|||Regression, Logistic|||Week 4: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||6.1|0.4|0.4923
92340609|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.3|STANDARD_ERROR_OF_MEAN|0.8||0.7169||95.0|0.4|4.4|||Regression, Logistic|||Week 4: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||4.4|0.4|0.7169
92340610|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.7|STANDARD_ERROR_OF_MEAN|1.12||0.4156||95.0|0.5|6.2|||Regression, Logistic|||Week 4: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||6.2|0.5|0.4156
92340611|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.7|STANDARD_ERROR_OF_MEAN|1.04||0.4165||95.0|0.5|5.6|||Regression, Logistic|||Week 4: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||5.6|0.5|0.4165
92399014|NCT05635461|184689766|OTHER||Median Difference (Final Values)|0.25||||0.001|TWO_SIDED|90.0|0.0|0.251|||ANOVA|||||0.2510|0.0000|0.0010
92399015|NCT05635461|184689767|OTHER||Geometric Mean Ratio|161.57|||||TWO_SIDED|90.0|150.96|172.92|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet Fed) and reference (CVN424 tablet fasted).|||172.92|150.96|
92399016|NCT05635461|184689768|OTHER||Geometric Mean Ratio|161.59|||||TWO_SIDED|90.0|150.98|172.95|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet Fed) and reference (CVN424 tablet fasted).|||172.95|150.98|
92399017|NCT05635461|184689769|OTHER||Geometric Mean Ratio|304.19|||||TWO_SIDED|90.0|273.51|338.31|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet Fed) and reference (CVN424 tablet fasted).|||338.31|273.51|
92399018|NCT05635461|184689770|OTHER||Median Difference (Final Values)|0.99||||0.0662|TWO_SIDED|90.0|0.006|1.537|||ANOVA|||||1.5370|0.0060|0.0662
92399019|NCT05635461|184689771|OTHER||Median Difference (Final Values)|0.25||||0.0039|TWO_SIDED|90.0|0.0|0.251|||ANOVA|||||0.2510|0.0000|0.0039
92399020|NCT02648204|184689776|NON_INFERIORITY|Non-Inferiority margin: 0.4|Treatment difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.55|-0.25|||Mixed Models Analysis|||||-0.25|-0.55|<0.0001
92340612|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6|STANDARD_ERROR_OF_MEAN|1.08||0.4673||95.0|0.4|6.0|||Regression, Logistic|||Week 4: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||6.0|0.4|0.4673
92340613|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|0.72||0.9855||95.0|0.2|4.1|||Regression, Logistic|||Week 6: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||4.1|0.2|0.9855
92399021|NCT02648204|184689776|SUPERIORITY||Treatment difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.55|-0.25|||Mixed Models Analysis|||||-0.25|-0.55|<0.0001
92399022|NCT02648204|184689776|NON_INFERIORITY|Non-Inferiority margin: 0.04|Treatment difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.57|-0.25|||Mixed Models Analysis|||||-0.25|-0.57|<0.0001
92399023|NCT02648204|184689776|SUPERIORITY||Treatment difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.57|-0.25|||Mixed Models Analysis|||||-0.25|-0.57|<0.0001
92399024|NCT02648204|184689777|SUPERIORITY||Treatment difference|-2.26|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-3.02|-1.51|||Mixed Models Analysis|||||-1.51|-3.02|<0.0001
92399025|NCT02648204|184689777|SUPERIORITY||Treatment difference|-3.55|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-4.32|-2.78|||Mixed Models Analysis|||||-2.78|-4.32|<0.0001
92217011|NCT04666350|184334166|OTHER||Combined Difference in Prevalence|-0.016||||0.795|TWO_SIDED|95.0|-0.139|0.107|||Other|The p-value is estimated assuming the combined difference over the square root of the weighted variance follows a normal distribution.||Comparison of DMFA Day 2 versus Day 1. For each participant, the difference in oocyte prevalence using DMFA on Day 1 versus Day 2 was estimated. To evaluate the hypothesis that the average mean difference in the prevalence between two assays within the same subject is zero, combined estimates (weighted mean and variance) were obtained using as weight the inverse of the variance of each paired difference obtained from the Agresti and Caffo method.||0.107|-0.139|0.795
92399026|NCT00614575|184689810|SUPERIORITY_OR_OTHER||Mean change from baseline|-7.2|STANDARD_DEVIATION|9.0|<|0.0001|||||||Paired t-test|||||||<0.0001
92399027|NCT00614575|184689811|SUPERIORITY_OR_OTHER||Mean change from baseline|-4.8|STANDARD_DEVIATION|7.8|<|0.0001|||||||Paired t-test|||||||<0.0001
92399028|NCT00614575|184689812|SUPERIORITY_OR_OTHER||Mean change from baseline|-0.7|STANDARD_DEVIATION|0.9|<|0.0001|||||||paired t-test|||||||<0.0001
92399029|NCT00614575|184689813|SUPERIORITY_OR_OTHER||mean change from baseline|-0.3|STANDARD_DEVIATION|0.6|<|0.0001|||||||paired t-test|||||||<0.0001
92399030|NCT00189098|184689815|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-25.0|||||TWO_SIDED|95.0|-44.0|-6.0|||risk differences (RD)||Risk difference and 95% confidence intervals reported for 6 weeks follow-up.|"Assuming a spontaneous recovery of 25% and a treatment effect of TMP-SMX of 50% (based on a retrospective study of children treated with TMP-SMX for COM at our hospital), and taking α=0.05 and a power of 0.80, we calculated that each group should consist of 50 children.~Rate differences with 95% confidence intervals were calculated at the three control visits to compare both groups for the outcome measures."||-6|-44|
92399031|NCT00189098|184689815|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-15.0|||||TWO_SIDED|95.0|-34.0|4.0|||risk difference (RD)||Risk difference and confidence interval reported for 12 week follow-up|"Assuming a spontaneous recovery of 25% and a treatment effect of TMP-SMX of 50% (based on a retrospective study of children treated with TMP-SMX for COM at our hospital), and taking α=0.05 and a power of 0.80, we calculated that each group should consist of 50 children.~Rate differences with 95% confidence intervals were calculated at the three control visits to compare both groups for the outcome measures."||4|-34|
92399032|NCT00189098|184689815|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-12.0|22.0|||risk difference (RD)||Risk difference and confidence interval reported for 1 year follow-up.|"Assuming a spontaneous recovery of 25% and a treatment effect of TMP-SMX of 50% (based on a retrospective study of children treated with TMP-SMX for COM at our hospital), and taking α=0.05 and a power of 0.80, we calculated that each group should consist of 50 children.~Rate differences with 95% confidence intervals were calculated at the three control visits to compare both groups for the outcome measures."||22|-12|
92399033|NCT00189098|184689816|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-34.0|10.0|||rate differences (95%CI intervals)||Risk difference and confidence interval reported for eardrop usage between 6 and 12 weeks follow-up.|||10|-34|
92399034|NCT00189098|184689817|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0|||||TWO_SIDED|95.0|-22.0|14.0|||rate difference (RD)||Risk difference and confidence interval reported for eardrop usage between 12 weeks and 1 year follow-up.|||14|-22|
92399035|NCT00189098|184689818|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-7.0|||||TWO_SIDED|95.0|-23.0|9.0|||Rate differences (95%CI interval)||Risk difference and confidence interval reported for the use of additional systemic antibiotics other than the study medication between 6 to 12 weeks follow-up.|||9|-23|
92156254|NCT03844321|184198671|SUPERIORITY|||||||0.733||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: APRA measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.733
92217012|NCT04666350|184334167|OTHER||Relative Rate|0.38||||0.019|TWO_SIDED|95.0|0.21|0.7||Difference between days was evaluated using zero inflated Poisson regression models having as outcome the number of oocysts, as offset the number of surviving mosquitoes, and adjusted by subject.|Poisson Regression|||Comparison of DSFA Day 2 versus Day 1.||0.70|0.21|0.019
92156255|NCT03844321|184198672|SUPERIORITY|||||||0.582||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||FFMQ measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.582
92156256|NCT03844321|184198672|SUPERIORITY|||||||0.666||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||FFMQ measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.666
92340614|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|0.61||0.9566||95.0|0.3|3.3|||Regression, Logistic|||Week 6: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||3.3|0.3|0.9566
92340615|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.7|STANDARD_ERROR_OF_MEAN|1.17||0.4632||95.0|0.4|6.6|||Regression, Logistic|||Week 6: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||6.6|0.4|0.4632
92340616|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.4|STANDARD_ERROR_OF_MEAN|0.29||0.2042||95.0|0.1|1.6|||Regression, Logistic|||Week 6: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||1.6|0.1|0.2042
92340617|NCT00676403|184582663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9|STANDARD_ERROR_OF_MEAN|1.34||0.3382||95.0|0.5|7.5|||Regression, Logistic|||Week 6: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||7.5|0.5|0.3382
92340618|NCT00676403|184582664|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.6||||0.3932||95.0|-6.0|15.2|||ANCOVA|||Analysis of covariance of change from baseline; LS Mean, standard error, 95% CI and P-value are from an analysis of covariance (ANCOVA), with treatment and geographic region as main effects and baseline value as covariate in the model.||15.2|-6.0|0.3932
92156257|NCT03844321|184198673|SUPERIORITY|||||||0.355||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Presence of psychiatric illness at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.355
92156258|NCT03844321|184198673|SUPERIORITY|||||||0.361||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Presence of psychiatric illness at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.361
92156259|NCT03844321|184198674|SUPERIORITY|||||||0.64||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Presence of medical problems at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.640
92217013|NCT04666350|184334167|OTHER||Relative Rate|0.23||||0.003|TWO_SIDED|95.0|0.11|0.45||Difference between days was evaluated using zero inflated Poisson regression models having as outcome the number of oocysts, as offset the number of surviving mosquitoes, and adjusted by subject.|Poisson Regression|||Comparison of DMFA Day 2 versus Day 1.||0.45|0.11|0.003
92274969|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.33|||||TWO_SIDED|95.0|-17.22|83.89||||||For change in physical functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||83.89|-17.22|
92340619|NCT00676403|184582664|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.3||||0.1585||95.0|-2.9|17.5|||ANCOVA|||Analysis of covariance of change from baseline; LS Mean, standard error, 95% CI and P-value are from an analysis of covariance (ANCOVA), with treatment and geographic region as main effects and baseline value as covariate in the model.||17.5|-2.9|0.1585
92340620|NCT00676403|184582664|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.8||||0.285||95.0|-4.9|16.5|||ANCOVA|||Analysis of covariance of change from baseline; LS Mean, standard error, 95% CI and P-value are from an analysis of covariance (ANCOVA), with treatment and geographic region as main effects and baseline value as covariate in the model.||16.5|-4.9|0.2850
92340621|NCT00676403|184582664|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.8645||95.0|-9.4|11.1|||ANCOVA|||Analysis of covariance of change from baseline; LS Mean, standard error, 95% CI and P-value are from an analysis of covariance (ANCOVA), with treatment and geographic region as main effects and baseline value as covariate in the model.||11.1|-9.4|0.8645
92340622|NCT00676403|184582664|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.4||||0.3031||95.0|-5.0|15.8|||ANCOVA|||Analysis of covariance of change from baseline; LS Mean, standard error, 95% CI and P-value are from an analysis of covariance (ANCOVA), with treatment and geographic region as main effects and baseline value as covariate in the model.||15.8|-5.0|0.3031
92340623|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1||||0.5384||95.0|-13.2|7.0|||ANCOVA|||Physical Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||7.0|-13.2|0.5384
92340624|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.8015||95.0|-10.9|8.5|||ANCOVA|||Physical Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||8.5|-10.9|0.8015
92340625|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1||||0.4429||95.0|-14.5|6.4|||ANCOVA|||Physical Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||6.4|-14.5|0.4429
92340626|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.886||95.0|-10.5|9.1|||ANCOVA|||Physical Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||9.1|-10.5|0.8860
92340627|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9963||95.0|-10.0|9.9|||ANCOVA|||Physical Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||9.9|-10.0|0.9963
92340628|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.9||||0.3421||95.0|-6.3|18.1|||ANCOVA|||Role-Physical: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||18.1|-6.3|0.3421
92340629|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.4||||0.2849||95.0|-5.4|18.1|||ANCOVA|||Role-Physical: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||18.1|-5.4|0.2849
92340630|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.6||||0.3058||95.0|-6.1|19.2|||ANCOVA|||Role-Physical: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||19.2|-6.1|0.3058
92340631|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.9604||95.0|-12.1|11.5|||ANCOVA|||Role-Physical: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||11.5|-12.1|0.9604
92340632|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.5||||0.1661||95.0|-3.6|20.6|||ANCOVA|||Role-Physical: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||20.6|-3.6|0.1661
92340633|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.9||||0.1441||95.0|-3.1|20.9|||ANCOVA|||Bodily Pain: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||20.9|-3.1|0.1441
92340634|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.0||||0.3076||95.0|-5.6|17.5|||ANCOVA|||Bodily Pain: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||17.5|-5.6|0.3076
92399036|NCT00189098|184689819|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.0|||||TWO_SIDED|95.0|-7.0|37.0|||Rate difference (RD)||Risk difference and confidence interval reported for the use of additional systemic antibiotics other than the study medication between 12 weeks and 1 year follow-up.|||37|-7|
92399037|NCT00189098|184689820|SUPERIORITY_OR_OTHER||Risk Difference (RD)|6.0|||||TWO_SIDED|95.0|-12.0|24.0|||Rate differences (95%CI intervals)||Risk difference and confidence interval reported for participants who underwent Ear Nose and Throat Surgery between 12 weeks and 1 year follow-up.|||24|-12|
92399038|NCT00189540|184689821|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||95.0|||||ANCOVA|||Comparison made is the difference from baseline at Month 3.||||0.35
92399039|NCT00189540|184689821|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||ANCOVA|||Comparison made is the difference from baseline at Month 6.||||0.17
92399040|NCT00189540|184689822|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0|||||Fisher Exact|||The comparison of groups at Month 3||||0.55
92399041|NCT00189540|184689822|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28||95.0|||||Fisher Exact|||The comparison of groups at Month 6.||||0.28
92399042|NCT00189540|184689823|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||95.0|||||ANCOVA|||Comparison between groups at Month 3||||0.2
92156260|NCT03844321|184198674|SUPERIORITY|||||||0.396||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Presence of medical problems at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.396
92340635|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.0||||0.1209||95.0|-2.7|22.7|||ANCOVA|||Bodily Pain: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||22.7|-2.7|0.1209
92340636|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.4||||0.2791||95.0|-5.3|18.0|||ANCOVA|||Bodily Pain: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||18.0|-5.3|0.2791
92340637|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.2||||0.0644||95.0|-0.7|23.0|||ANCOVA|||Bodily Pain: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||23.0|-0.7|0.0644
92340638|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||0.7544||95.0|-9.5|6.9|||ANCOVA|||General Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||6.9|-9.5|0.7544
92340639|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.6||||0.5142||95.0|-10.3|5.2|||ANCOVA|||General Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||5.2|-10.3|0.5142
92340640|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.8158||95.0|-7.4|9.4|||ANCOVA|||General Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||9.4|-7.4|0.8158
92340641|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9||||0.4599||95.0|-10.8|4.9|||ANCOVA|||General Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||4.9|-10.8|0.4599
92340642|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.8636||95.0|-8.7|7.3|||ANCOVA|||General Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||7.3|-8.7|0.8636
92340643|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.7||||0.5281||95.0|-7.8|15.1|||ANCOVA|||Vitality: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||15.1|-7.8|0.5281
92217014|NCT04666350|184334168|OTHER||Combined Difference in Prevalence|-0.023||||0.75|TWO_SIDED|95.0|-0.164|0.118|||Other|The p-value is estimated assuming the combined difference over the square root of the weighted variance follows a normal distribution.||Comparison of DSFA Day 2 versus Day 1. For each participant, the difference in sporozoite prevalence using DSFA on Day 1 versus Day 2 was estimated. To evaluate the hypothesis that the average mean difference in the prevalence between two assays within the same subject is zero, combined estimates (weighted mean and variance) were obtained using as weight the inverse of the variance of each paired difference obtained from the Agresti and Caffo method.||0.118|-0.164|0.750
92340644|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5||||0.6566||95.0|-8.5|13.5|||ANCOVA|||Vitality: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||13.5|-8.5|0.6566
92340645|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.1||||0.0677||95.0|-0.8|23.0|||ANCOVA|||Vitality: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||23.0|-0.8|0.0677
92340646|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.3||||0.4443||95.0|-6.8|15.4|||ANCOVA|||Vitality: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||15.4|-6.8|0.4443
92340647|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.5||||0.2543||95.0|-4.7|17.7|||ANCOVA|||Vitality: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||17.7|-4.7|0.2543
92340648|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.9416||95.0|-11.0|11.9|||ANCOVA|||Social Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||11.9|-11.0|0.9416
92340649|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1||||0.5824||95.0|-14.1|7.9|||ANCOVA|||Social Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||7.9|-14.1|0.5824
92399043|NCT00189540|184689823|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04||95.0|||||ANCOVA|||Comparison between groups at Month 6||||0.04
92274970|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.17|||||TWO_SIDED|95.0|-58.04|66.37||||||For change in role functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||66.37|-58.04|
92156261|NCT03844321|184198675|SUPERIORITY|||||||0.004||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Percentage of sessions completed was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.004
92156262|NCT03844321|184198675|SUPERIORITY|||||||0.291||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Percentage of sessions completed was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.291
92156263|NCT03844321|184198676|SUPERIORITY|||||||0.603||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Level of education was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.603
92156264|NCT03844321|184198676|SUPERIORITY|||||||0.333||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Level of education was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.333
92156265|NCT03844321|184198677|SUPERIORITY|||||||0.224||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Race was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.224
92156266|NCT03844321|184198677|SUPERIORITY|||||||0.885||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Race was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.885
92156267|NCT03844321|184198678|SUPERIORITY|||||||0.49||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Sex was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.490
92217015|NCT04666350|184334168|OTHER||Combined Difference in Prevalence|-0.031||||0.681|TWO_SIDED|95.0|-0.178|0.117|||Other|The p-value is estimated assuming the combined difference over the square root of the weighted variance follows a normal distribution.||Comparison of DMFA Day 2 versus Day 1. For each participant, the difference in sporozoite prevalence using DMFA on Day 1 versus Day 2 was estimated. To evaluate the hypothesis that the average mean difference in the prevalence between two assays within the same subject is zero, combined estimates (weighted mean and variance) were obtained using as weight the inverse of the variance of each paired difference obtained from the Agresti and Caffo method.||0.117|-0.178|0.681
92340650|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4||||0.5668||95.0|-15.3|8.4|||ANCOVA|||Social Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||8.4|-15.3|0.5668
92156268|NCT03844321|184198678|SUPERIORITY|||||||0.266||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Sex was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.266
92340651|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6||||0.7769||95.0|-9.6|12.8|||ANCOVA|||Social Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||12.8|-9.6|0.7769
92340652|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.8||||0.1753||95.0|-3.5|19.1|||ANCOVA|||Social Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||19.1|-3.5|0.1753
92340653|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.7||||0.1508||95.0|-3.2|20.7|||ANCOVA|||Role-Emotional: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||20.7|-3.2|0.1508
92399044|NCT00189540|184689824|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Fisher Exact|||||||1.00
92399045|NCT00189540|184689825|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||95.0|||||ANCOVA|||Comparison at Month 3||||0.77
92399046|NCT00189540|184689825|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45||95.0|||||ANCOVA|||Comparison at Month 6||||0.45
92217016|NCT02374021|184334183|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.79|TWO_SIDED|95.0|-0.19|0.15|||ANCOVA|||||0.15|-0.19|0.79
92217017|NCT02374021|184334184|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.05|TWO_SIDED|95.0|-0.14|0.17|||ANCOVA|||||0.17|-0.14|0.05
92217018|NCT02374021|184334185|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.05|TWO_SIDED|95.0|-0.11|0.18|||ANCOVA|||||0.18|-0.11|0.05
92217019|NCT02374021|184334186|SUPERIORITY||Mean Difference (Final Values)|-0.003||||0.05|TWO_SIDED|95.0|-0.2|0.19|||ANCOVA|||||0.19|-0.20|0.05
92340654|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.9||||0.0916||95.0|-1.6|21.4|||ANCOVA|||Role-Emotional: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||21.4|-1.6|0.0916
92340655|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1||||0.6222||95.0|-9.2|15.4|||ANCOVA|||Role-Emotional: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||15.4|-9.2|0.6222
92340656|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.2||||0.085||95.0|-1.4|21.8|||ANCOVA|||Role-Emotional: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||21.8|-1.4|0.0850
92340657|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.8||||0.0154||95.0|2.9|26.7|||ANCOVA|||Role-Emotional: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||26.7|2.9|0.0154
92340658|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8||||0.7201||95.0|-11.9|8.2|||ANCOVA|||Mental Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||8.2|-11.9|0.7201
92340659|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.8875||95.0|-9.1|10.5|||ANCOVA|||Mental Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||10.5|-9.1|0.8875
92340660|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.7||||0.3735||95.0|-5.7|15.1|||ANCOVA|||Mental Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||15.1|-5.7|0.3735
92340661|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.8621||95.0|-8.9|10.6|||ANCOVA|||Mental Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||10.6|-8.9|0.8621
92340662|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.9||||0.1203||95.0|-2.1|17.8|||ANCOVA|||Mental Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||17.8|-2.1|0.1203
92340663|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.8||||0.4966||95.0|-5.4|11.0|||ANCOVA|||Summary Physical Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||11.0|-5.4|0.4966
92340664|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.2||||0.5776||95.0|-5.6|10.1|||ANCOVA|||Summary Physical Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||10.1|-5.6|0.5776
92399047|NCT00189540|184689826|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06||95.0|||||ANCOVA|||Comparison between groups for mean TBI at Month 3 versus baseline.||||0.06
92399048|NCT00189540|184689826|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0|||||ANCOVA|||Comparison between groups for mean TBI at Month 6 versus baseline.||||0.05
92217020|NCT02374021|184334187|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.05|TWO_SIDED|95.0|-0.17|0.16|||ANCOVA|||||0.16|-0.17|0.05
92217021|NCT02414399|184334206|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.58|TWO_SIDED|95.0|0.64|1.29||Alpha =0.045 (to account for .005 alpha spending at interim analysis)|Regression, Cox||azithromycin is the numerator and placebo is the denominator|Death or rehospitalization||1.29|.64|0.58
92217022|NCT02414399|184334206|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.49|TWO_SIDED|95.0|0.39|1.58|||Regression, Cox||Azithromycin-numerator and placebo-denominator|Death alone||1.58|0.39|0.49
92217023|NCT02414399|184334206|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.7|1.47|||Regression, Cox||numerator-azithromycin denominator-placebo|Rehospitalization alone||1.47|.70|.94
92217024|NCT02414399|184334214|SUPERIORITY|We modelled azithromycin resistance in E coli at baseline, 3 months, and 6 months of follow-up by randomisation group using generalised estimating equations with a Poisson link and exchangeable correlation structure, including site in the model. Models included an interaction term between randomisation group and follow-up timepoint (month 3 or month 6) to test whether an effect on resistance waned with time.||||||0.77|||||||Chi-squared|||M0||||0.77
92340665|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.7||||0.3955||95.0|-4.9|12.3|||ANCOVA|||Summary Physical Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||12.3|-4.9|0.3955
92340666|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.7994||95.0|-6.9|9.0|||ANCOVA|||Summary Physical Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||9.0|-6.9|0.7994
92156269|NCT03844321|184198679|SUPERIORITY|||||||0.928||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Ethnicity was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.928
92156270|NCT03844321|184198679|SUPERIORITY|||||||0.307||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Ethnicity was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.307
92156271|NCT05822921|184198688|OTHER|Independent t-test was used.||||||0.871|||||||t-test, 2 sided|||||||.871
92156272|NCT05822921|184198689|OTHER|Independent t-test was used.||||||0.896|||||||t-test, 2 sided|||||||0.896
92156273|NCT05822921|184198690|OTHER|Independent t-test was used.||||||0.351|||||||t-test, 2 sided|||||||0.351
92156274|NCT00064025|184198712|SUPERIORITY_OR_OTHER|||||||0.701|||||||Fisher Exact|||||||0.701
92156275|NCT00064025|184198713|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Paired t-test|||||||<.001
92156276|NCT00064025|184198714|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Paired t-test|||||||<.001
92156277|NCT02036515|184198733|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.69|||<|0.001|TWO_SIDED|95.0|-0.87|-0.5|||Constrained longitudinal data analysis|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-0.50|-0.87|<0.001
92340667|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.2||||0.2073||95.0|-2.9|13.2|||ANCOVA|||Summary Physical Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||13.2|-2.9|0.2073
92156278|NCT02036515|184198733|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.76|||<|0.001|TWO_SIDED|95.0|-0.95|-0.58|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-0.58|-0.95|<0.001
92156279|NCT02036515|184198734|SUPERIORITY_OR_OTHER||Difference in percentage|-5.7|||||TWO_SIDED|95.0|-16.5|5.2||||||||5.2|-16.5|
92156280|NCT02036515|184198734|SUPERIORITY_OR_OTHER||Difference in percentage|-3.3|||||TWO_SIDED|95.0|-14.1|7.6||||||||7.6|-14.1|
92340668|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.2||||0.5148||95.0|-6.4|12.8|||ANCOVA|||Summary Emotional Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||12.8|-6.4|0.5148
92217025|NCT02414399|184334214|SUPERIORITY|We modelled azithromycin resistance in E coli at baseline, 3 months, and 6 months of follow-up by randomisation group using generalised estimating equations with a Poisson link and exchangeable correlation structure, including site in the model. Models included an interaction term between randomisation group and follow-up timepoint (month 3 or month 6) to test whether an effect on resistance waned with time.||||||0.088|||||||Chi-squared|||Month 3||||0.088
92217026|NCT02414399|184334214|SUPERIORITY|We modelled azithromycin resistance in E coli at baseline, 3 months, and 6 months of follow-up by randomisation group using generalised estimating equations with a Poisson link and exchangeable correlation structure, including site in the model. Models included an interaction term between randomisation group and follow-up timepoint (month 3 or month 6) to test whether an effect on resistance waned with time.||||||0.44|||||||Chi-squared|||M6||||0.44
92274971|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.21|||||TWO_SIDED|95.0|-28.19|38.61||||||For change in emotional functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||38.61|-28.19|
92156281|NCT02036515|184198735|SUPERIORITY_OR_OTHER||Difference in percentage|0.6|||||TWO_SIDED|95.0|-4.4|5.6||||||||5.6|-4.4|
92156282|NCT02036515|184198735|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-4.9|4.9||||||||4.9|-4.9|
92156283|NCT02036515|184198736|SUPERIORITY_OR_OTHER||Differenc in least squares means|-25.15|||<|0.001|TWO_SIDED|95.0|-32.76|-17.54|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-17.54|-32.76|<0.001
92156284|NCT02036515|184198736|SUPERIORITY_OR_OTHER||Difference in least squares means|-31.28|||<|0.001|TWO_SIDED|95.0|-38.9|-23.66|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-23.66|-38.90|<0.001
92156285|NCT02036515|184198737|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.03|||<|0.001|TWO_SIDED|95.0|-2.65|-1.4|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-1.40|-2.65|<0.001
92156286|NCT02036515|184198737|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.72|||<|0.001|TWO_SIDED|95.0|-2.35|-1.09|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-1.09|-2.35|<0.001
92156287|NCT02036515|184198738|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.16|||<|0.001|TWO_SIDED|95.0|1.74|5.72|||Regression, Logistic|Logistic regression model fitted with terms for treatment, baseline A1C, baseline eGFR and prior antihyperglycemic medication.||||5.72|1.74|<0.001
92156288|NCT02036515|184198738|SUPERIORITY_OR_OTHER||Difference in least squares means|4.43|||<|0.001|TWO_SIDED|95.0|2.44|8.02|||Regression, Logistic|Logistic regression model fitted with terms for treatment, baseline A1C, baseline eGFR and prior antihyperglycemic medication.||||8.02|2.44|<0.001
92156289|NCT02036515|184198739|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.93||||0.019|TWO_SIDED|95.0|-5.36|-0.49|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-0.49|-5.36|0.019
92274972|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.25|||||TWO_SIDED|95.0|-40.94|103.44||||||For change in cognitive functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||103.44|-40.94|
92405569|NCT02446899|184701356|SUPERIORITY||Rate Ratio|0.67||||0.0809|TWO_SIDED|95.0|0.48|0.94||Adjusted p-value.|Negative binomial regression|||Analysed using a negative binomial regression model. The response variable in the model is the number of flares over the 52-week treatment period. The model includes covariates of treatment group, and the stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>=10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]). The logarithm of the follow-up time is used as an offset variable.||0.94|0.48|0.0809
92405570|NCT01002339|184701361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Chi-squared|||||||0.02
92217027|NCT01704287|184334218|SUPERIORITY_OR_OTHER_LEGACY|Cox regression model with treatment as covariate stratified by Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1); lactate dehydrogenase (LDH) levels (normal vs. elevated LDH levels \[≥110% Upper Limit of Normal (ULN)\]); \& BRAF mutational status (mutant vs. wild-type)|Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.46|0.73||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=ICC|||0.73|0.46|<0.0001
92217028|NCT01704287|184334218|SUPERIORITY_OR_OTHER_LEGACY|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)|Hazard Ratio (HR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.37|0.6||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=ICC|||0.60|0.37|<0.0001
92217029|NCT01704287|184334218|SUPERIORITY_OR_OTHER_LEGACY|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)|Hazard Ratio (HR)|0.83||||0.1247|TWO_SIDED|95.0|0.66|1.05||Two-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Pembrolizumab 2 mg/kg|||1.05|0.66|0.1247
92217030|NCT01704287|184334219|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.1173|TWO_SIDED|95.0|0.67|1.1||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.10|0.67|0.1173
92217031|NCT01704287|184334219|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.0106|TWO_SIDED|95.0|0.57|0.96||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||0.96|0.57|0.0106
92217032|NCT01704287|184334219|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.2905|TWO_SIDED|95.0|0.67|1.12||Two-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Pembrolizumab 2 mg/kg|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.12|0.67|0.2905
92217033|NCT01704287|184334220|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.1146|TWO_SIDED|95.0|0.68|1.1||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.10|0.68|0.1146
92217034|NCT01704287|184334220|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.0023|TWO_SIDED|95.0|0.55|0.9||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||0.90|0.55|0.0023
92217035|NCT01704287|184334220|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.149|TWO_SIDED|95.0|0.66|1.07||Two-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Pembrolizumab 2 mg/kg|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.07|0.66|0.1490
92217036|NCT01704287|184334221|SUPERIORITY_OR_OTHER_LEGACY|PD-L1-Positive Participants|Hazard Ratio (HR)|0.92||||0.3113|TWO_SIDED|95.0|0.66|1.28||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.28|0.66|0.3113
92217037|NCT01704287|184334221|SUPERIORITY_OR_OTHER_LEGACY|PD-L1 Positive Participants|Hazard Ratio (HR)|0.7||||0.0208|TWO_SIDED|95.0|0.5|0.99||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||0.99|0.50|0.0208
92217038|NCT01704287|184334221|SUPERIORITY_OR_OTHER_LEGACY|PD-L1 Positive Participants|Hazard Ratio (HR)|0.71||||0.0496|TWO_SIDED|95.0|0.5|1.0||Two-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Pembrolizumab 2 mg/kg|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.00|0.50|0.0496
92217039|NCT01704287|184334221|SUPERIORITY_OR_OTHER_LEGACY|PD-L1 Negative Participants|Hazard Ratio (HR)|1.07||||0.6043|TWO_SIDED|95.0|0.65|1.76||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.76|0.65|0.6043
92274973|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.08|||||TWO_SIDED|95.0|-91.02|145.18||||||For change in social functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||145.18|-91.02|
92405571|NCT01002339|184701362|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06|||||||Chi-squared|||||||0.06
92156290|NCT02036515|184198739|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.94||||0.002|TWO_SIDED|95.0|-6.39|-1.5|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-1.50|-6.39|0.002
92340669|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.0||||0.5255||95.0|-6.3|12.2|||ANCOVA|||Summary Emotional Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||12.2|-6.3|0.5255
92340670|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.4||||0.3793||95.0|-5.5|14.4|||ANCOVA|||Summary Emotional Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||14.4|-5.5|0.3793
92340671|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.8||||0.312||95.0|-4.5|14.1|||ANCOVA|||Summary Emotional Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||14.1|-4.5|0.3120
92340672|NCT00676403|184582665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.7||||0.0442||95.0|0.3|19.2|||ANCOVA|||Summary Emotional Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||19.2|0.3|0.0442
92340673|NCT00676403|184582666|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4452||95.0|||||Cochran-Mantel-Haenszel|||CHM test for difference; p-value was adjusted for geographic region at each visit.||||0.4452
92340674|NCT00676403|184582666|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4342||95.0|||||Cochran-Mantel-Haenszel|||CHM test for difference; p-value was adjusted for geographic region at each visit.||||0.4342
92340675|NCT00676403|184582666|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0942||95.0|||||Cochran-Mantel-Haenszel|||CHM test for difference; p-value was adjusted for geographic region at each visit.||||0.0942
92399049|NCT00286442|184689827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||<|0.001|TWO_SIDED|95.0|-0.68|-0.32||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Analysis of covariance (ANCOVA) with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at wk 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 participants had 95% power to detect a treatment difference as small as 0.4% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of participants meeting per protocol criteria.||-0.32|-0.68|<0.001
92405572|NCT01002339|184701363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||Chi-squared|||||||0.9
92405573|NCT01002339|184701364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|||||||Chi-squared|||||||0.07
92340676|NCT00676403|184582666|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1873||95.0|||||Cochran-Mantel-Haenszel|||CHM test for difference; p-value was adjusted for geographic region at each visit.||||0.1873
92340677|NCT00676403|184582666|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4709||95.0|||||Cochran-Mantel-Haenszel|||CHM test for difference; p-value was adjusted for geographic region at each visit.||||0.4709
92340678|NCT02937623|184582697|OTHER||Least square mean difference|-0.44|||<|0.0001||95.0|-0.591|-0.297|||ANCOVA|ANCOVA model: change from baseline in Schiff sensitivity score as response and treatment as factors and baseline Schiff sensitivity score as covariate|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|||-0.297|-0.591|<.0001
92340679|NCT02533934|184582727|EQUIVALENCE|Equivalence margin is defined by the a priori threshold for statistical significance.|||||<|0.01|||||||Kruskal-Wallis|||APRI change from baseline to last follow-up||||<.01
92340680|NCT02533934|184582727|EQUIVALENCE|Equivalence margin is defined by the a priori threshold for statistical significance.|||||<|0.01|||||||Kruskal-Wallis|||APRI change from baseline to last follow-up||||<.01
92340681|NCT02533934|184582727|EQUIVALENCE|Equivalence margin is defined by the a priori threshold for statistical significance|||||<|0.01|||||||Kruskal-Wallis|||FIB4 change from baseline to last follow-up||||<.01
92340682|NCT02533934|184582727|EQUIVALENCE|Equivalence margin is defined by the a priori threshold for statistical significance|||||<|0.01|||||||Kruskal-Wallis|||FIB4 change from baseline to last follow-up||||<.01
92405574|NCT01002339|184701365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|||||||ANOVA|||||||0.2
92156291|NCT02036515|184198740|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.76|||||TWO_SIDED|95.0|-0.98|-0.54||||||||-0.54|-0.98|
92156292|NCT02036515|184198740|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.83|||||TWO_SIDED|95.0|-1.05|-0.61||||||||-0.61|-1.05|
92156293|NCT02036515|184198741|SUPERIORITY_OR_OTHER||Difference in least squares means|-28.76|||||TWO_SIDED|95.0|-36.44|-21.09||||||||-21.09|-36.44|
92156294|NCT02036515|184198741|SUPERIORITY_OR_OTHER||Difference in least squares means|-29.58|||||TWO_SIDED|95.0|-37.3|-21.85||||||||-21.85|-37.30|
92156295|NCT02036515|184198742|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.51|||||TWO_SIDED|95.0|-3.43|-1.59||||||||-1.59|-3.43|
92340683|NCT02533934|184582729|EQUIVALENCE|Equivalence margin is defined by the a priori threshold for statistical significance.|||||<|0.001|||||||Wilcoxon (Signed Rank Test)|||||||<0.001
92340684|NCT00905424|184582730|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.3||||0.0902|TWO_SIDED|90.0|-4.5|-0.1||The test was performed a priori at the significance level of 0.10|ANCOVA|||||-0.1|-4.5|0.0902
92340685|NCT00905424|184582731|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.3091|TWO_SIDED|90.0|-2.4|0.6||The test was performed a priori at the significance level of 0.10|ANCOVA|||||0.6|-2.4|0.3091
92340686|NCT00905424|184582732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.0573|TWO_SIDED|90.0|-3.7|-0.3||The test was performed a priori at the significance level of 0.10|ANCOVA|||||-0.3|-3.7|0.0573
92340687|NCT00905424|184582733|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2368||95.0|||||Cochran-Mantel-Haenszel|||||||0.2368
92405575|NCT01002339|184701366|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|||||||ANOVA|||||||0.4
92156296|NCT02036515|184198742|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.88|||||TWO_SIDED|95.0|-2.81|-0.95||||||||-0.95|-2.81|
92156297|NCT02036515|184198743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.63|||||TWO_SIDED|95.0|1.98|6.64||||||||6.64|1.98|
92156298|NCT02036515|184198743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.02|||||TWO_SIDED|95.0|2.22|7.28||||||||7.28|2.22|
92156299|NCT02036515|184198744|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.99|||||TWO_SIDED|95.0|-7.82|-2.15||||||||-2.15|-7.82|
92340688|NCT00905424|184582736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0||||0.0463|TWO_SIDED|90.0|-5.4|-0.5||The test was performed a priori at the significance level of 0.10|ANCOVA|||Global Executive Composite||-0.5|-5.4|0.0463
92340689|NCT00905424|184582736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.1431|TWO_SIDED|90.0|-4.3|0.3||The test was performed a priori at the significance level of 0.10|ANCOVA|||Behavioral Regulation Index||0.3|-4.3|0.1431
92340690|NCT00905424|184582736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3||||0.0281|TWO_SIDED|90.0|-5.8|-0.8||The test was performed a priori at the significance level of 0.10|ANCOVA|||Metacognition Index||-0.8|-5.8|0.0281
92340691|NCT00905424|184582737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0||||0.092|TWO_SIDED|90.0|-6.0|-0.1||The test was performed a priori at the significance level of 0.10|ANCOVA|||||-0.1|-6.0|0.0920
92340692|NCT00905424|184582738|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0774|TWO_SIDED|90.0|-2.2|-0.1||The test was performed a priori at the significance level of 0.10|ANCOVA|||||-0.1|-2.2|0.0774
92156300|NCT02036515|184198744|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.92|||||TWO_SIDED|95.0|-7.76|-2.07||||||||-2.07|-7.76|
92156301|NCT02036515|184198745|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.24|||||TWO_SIDED|95.0|-2.97|0.48||||||||0.48|-2.97|
92156302|NCT02036515|184198745|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.38|||||TWO_SIDED|95.0|-3.11|0.36||||||||0.36|-3.11|
92340693|NCT00905424|184582739|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2||||0.4726|TWO_SIDED|90.0|-1.6|4.0||The test was performed a priori at the significance level of 0.10|ANCOVA|||||4.0|-1.6|0.4726
92340694|NCT00905424|184582740|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.5182|TWO_SIDED|90.0|-1.4|3.1||The test was performed a priori at the significance level of 0.10|ANCOVA|||||3.1|-1.4|0.5182
92340695|NCT00905424|184582741|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.463|TWO_SIDED|90.0|-3.1|1.2||The test was performed a priori at the significance level of 0.10|ANCOVA|||||1.2|-3.1|0.4630
92156303|NCT02036515|184198746|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.99|||||TWO_SIDED|95.0|-2.82|0.84||||||||0.84|-2.82|
92156304|NCT02036515|184198746|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.85|||||TWO_SIDED|95.0|-2.69|0.99||||||||0.99|-2.69|
92156305|NCT02036515|184198747|SUPERIORITY_OR_OTHER||Difference in percent|-15.1|||||TWO_SIDED|95.0|-21.9|-9.4||||||||-9.4|-21.9|
92156306|NCT02036515|184198747|SUPERIORITY_OR_OTHER||Difference in percent|-14.4|||||TWO_SIDED|95.0|-21.3|-8.5||||||||-8.5|-21.3|
92156307|NCT02036515|184198748|SUPERIORITY_OR_OTHER||Difference in percentage|-29.0|||||TWO_SIDED|95.0|-38.3|-19.4||||||||-19.4|-38.3|
92156308|NCT02036515|184198748|SUPERIORITY_OR_OTHER||Difference in percentage|-28.1|||||TWO_SIDED|95.0|-37.5|-18.4||||||||-18.4|-37.5|
92156309|NCT02036515|184198752|SUPERIORITY_OR_OTHER||Difference in least squares means|12.75|||||TWO_SIDED|95.0|6.83|18.68||||||||18.68|6.83|
92156310|NCT02036515|184198752|SUPERIORITY_OR_OTHER||Difference in least squares means|11.91|||||TWO_SIDED|95.0|5.94|17.88||||||||17.88|5.94|
92156311|NCT02036515|184198753|SUPERIORITY_OR_OTHER||Difference in least squares means|12.78|||||TWO_SIDED|95.0|6.54|19.03||||||||19.03|6.54|
92156312|NCT02036515|184198753|SUPERIORITY_OR_OTHER||Difference in least squares means|12.86|||||TWO_SIDED|95.0|6.54|19.18||||||||19.18|6.54|
92156313|NCT02036515|184198755|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.01|||||TWO_SIDED|95.0|-0.04|0.02||||||||0.02|-0.04|
92156314|NCT02036515|184198755|SUPERIORITY_OR_OTHER||Difference in least squares means|0.01|||||TWO_SIDED|95.0|-0.02|0.04||||||||0.04|-0.02|
92156315|NCT02036515|184198756|SUPERIORITY_OR_OTHER||Difference in least squares means|0.0|||||TWO_SIDED|95.0|-0.04|0.04||||||||0.04|-0.04|
92156316|NCT02036515|184198756|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.02|||||TWO_SIDED|95.0|-0.07|0.02||||||||0.02|-0.07|
92156317|NCT00518713|184198757|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANCOVA|||Analysis of covariance (ANCOVA) with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0120
92156318|NCT00518713|184198757|SUPERIORITY_OR_OTHER|||||||0.0015||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0015
92156319|NCT00518713|184198757|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
92156320|NCT00518713|184198758|SUPERIORITY_OR_OTHER|||||||0.0027||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0027
92340696|NCT00905424|184582742|SUPERIORITY_OR_OTHER_LEGACY|||||||0.523||95.0|||||Cochran-Mantel-Haenszel|||||||0.5230
92340697|NCT00905424|184582745|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.8||||0.2876|TWO_SIDED|90.0|-1.0|4.7||The test was performed a priori at the significance level of 0.10|ANCOVA|||Global Executive Composite||4.7|-1.0|0.2876
92340698|NCT00905424|184582745|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.559|TWO_SIDED|90.0|-2.1|4.4||The test was performed a priori at the significance level of 0.10|ANCOVA|||Behavioral Regulation Index||4.4|-2.1|0.5590
92340699|NCT00905424|184582745|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3||||0.2079|TWO_SIDED|90.0|-0.7|5.2||The test was performed a priori at the significance level of 0.10|ANCOVA|||Metacognition Index||5.2|-0.7|0.2079
92340700|NCT00905424|184582746|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.7||||0.1489|TWO_SIDED|90.0|-8.0|0.5||The test was performed a priori at the significance level of 0.10|ANCOVA|||||0.5|-8.0|0.1489
92405576|NCT01002339|184701367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8|||||||ANOVA|||||||0.8
92156321|NCT00518713|184198758|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
92156322|NCT00518713|184198758|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
92156323|NCT00518713|184198759|SUPERIORITY_OR_OTHER|||||||0.1041||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.1041
92156324|NCT00518713|184198759|SUPERIORITY_OR_OTHER|||||||0.2207||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.2207
92156325|NCT00518713|184198759|SUPERIORITY_OR_OTHER|||||||0.0025||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0025
92156326|NCT00518713|184198760|SUPERIORITY_OR_OTHER|||||||0.1469||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.1469
92156327|NCT00518713|184198760|SUPERIORITY_OR_OTHER|||||||0.0161||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0161
92156328|NCT00518713|184198760|SUPERIORITY_OR_OTHER|||||||0.0024||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0024
92340701|NCT00905424|184582747|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.0852|TWO_SIDED|90.0|-2.8|-0.1||The test was performed a priori at the significance level of 0.10|ANCOVA|||||-0.1|-2.8|0.0852
92340702|NCT00379899|184582754|SUPERIORITY_OR_OTHER|||||||0.073|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor (≥ 30 to 399, ≥ 400 to 999, and ≥ 1000)||||||0.073
92217040|NCT01704287|184334221|SUPERIORITY_OR_OTHER_LEGACY|PD-L1 Negative Participants|Hazard Ratio (HR)|0.62||||0.0335|TWO_SIDED|95.0|0.37|1.04||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.04|0.37|0.0335
92274974|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.28|||||TWO_SIDED|95.0|-99.46|68.9||||||For change in fatigue at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||68.90|-99.46|
92340703|NCT00379899|184582755|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62||||0.094||95.0|0.36|1.08|||Cochran-Mantel-Haenszel||Logit estimates (Cinacalcet:Control)|||1.08|0.36|0.094
92340704|NCT00379899|184582756|SUPERIORITY_OR_OTHER|||||||0.018|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||0.018
92340705|NCT00379899|184582758|SUPERIORITY_OR_OTHER|||||||0.258|||||||Cochran-Mantel-Haenszel|||||||0.258
92340706|NCT00379899|184582759|SUPERIORITY_OR_OTHER|||||||0.011|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||0.011
92156329|NCT00518713|184198761|SUPERIORITY_OR_OTHER|||||||0.1324||95.0|||||ANCOVA|||≥ 25% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.1324
92156330|NCT00518713|184198761|SUPERIORITY_OR_OTHER|||||||0.0026||95.0|||||ANCOVA|||≥ 25% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0026
92156331|NCT00518713|184198761|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||ANCOVA|||≥ 25% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0004
92156332|NCT00518713|184198761|SUPERIORITY_OR_OTHER|||||||0.3383||95.0|||||ANCOVA|||≥ 50% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.3383
92156333|NCT00518713|184198761|SUPERIORITY_OR_OTHER|||||||0.0159||95.0|||||ANCOVA|||≥ 50% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0159
92156334|NCT00518713|184198761|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||≥ 50% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
92340707|NCT00379899|184582760|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||<0.001
92340708|NCT00379899|184582761|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||<0.001
92340709|NCT00379899|184582762|SUPERIORITY_OR_OTHER|||||||0.025|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||0.025
92340710|NCT00379899|184582763|SUPERIORITY_OR_OTHER|||||||0.021|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||0.021
92405577|NCT01002339|184701368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56|||||||ANOVA|||||||0.56
92156335|NCT00518713|184198761|SUPERIORITY_OR_OTHER|||||||0.0279||95.0|||||ANCOVA|||≥ 75% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0279
92156336|NCT00518713|184198761|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||≥ 75% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0010
92156337|NCT00518713|184198761|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||≥ 75% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
92156338|NCT00518713|184198768|SUPERIORITY_OR_OTHER|||||||0.721||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.7210
92340711|NCT00379899|184582764|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||<0.001
92340712|NCT00379899|184582765|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||<0.001
92156339|NCT00518713|184198768|SUPERIORITY_OR_OTHER|||||||0.2505||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.2505
92156340|NCT00518713|184198768|SUPERIORITY_OR_OTHER|||||||0.0924||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0924
92274975|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.0|||||TWO_SIDED|95.0|-69.69|19.69||||||For change in nausea and vomiting at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||19.69|-69.69|
92340713|NCT01569126|184582774|SUPERIORITY_OR_OTHER||Slope|0.026||||||95.0|||||||The correlation of time-matched change from baseline QTcF interval (dependent variable) to the time-matched plasma concentration of total fluoxetine and norfluoxetine (covariate) and participant (random effect).|||||
92340714|NCT01585246|184582777|OTHER||Maximum Tolerated Dose (MTD)|960.0|||||TWO_SIDED|||||||||The time-to-event continual reassessment method (TITE-CRM) was used The TITE-CRM incorporated a decision rule for the allocation of next participant to a dose of SP based on the current estimate of toxicity. The first men were allocated to lowest dose (320 mg); when no adverse event was reported during 12 weeks, the dose was increased to 640 mg for next men, and then to 960 mg in the absence of advert event.||||
92340715|NCT04552132|184582806|SUPERIORITY|||||||0.63|||||||Fisher Exact|||||||0.63
92340716|NCT04552132|184582807|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92340717|NCT04552132|184582808|SUPERIORITY|||||||0.63|||||||Fisher Exact|||||||0.63
92340718|NCT04552132|184582809|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92340719|NCT04552132|184582810|SUPERIORITY|||||||0.57|||||||Fisher Exact|||||||0.57
92340720|NCT04552132|184582811|SUPERIORITY|||||||0.6|||||||Fisher Exact|||||||0.60
92340721|NCT04552132|184582812|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92340722|NCT04552132|184582813|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92156341|NCT00518713|184198769|SUPERIORITY_OR_OTHER|||||||0.0414||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0414
92156342|NCT00518713|184198769|SUPERIORITY_OR_OTHER|||||||0.0044||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0044
92156343|NCT00518713|184198769|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
92274976|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-77.4|77.4||||||For change in pain at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||77.40|-77.40|
92340723|NCT04552132|184582814|SUPERIORITY|||||||0.18|||||||Chi-squared|||||||0.18
92340724|NCT04552132|184582815|SUPERIORITY|||||||0.4993|||||||Chi-squared|||||||.4993
92340725|NCT04552132|184582816|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||||||0.52
92340726|NCT04552132|184582817|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||.70
92340727|NCT00196105|184582863|SUPERIORITY_OR_OTHER|||||||0.057||95.0|||||Log Rank|||||||.057
92340728|NCT00196105|184582864|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Chi-squared|||||||.04
92340729|NCT00196105|184582864|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||Death is censored for Kaplan-Meier analysis.|Log Rank|||||||.007
92340730|NCT00196105|184582864|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Chi-squared|||||||.69
92340731|NCT00196105|184582864|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value is adjusted for multiple comparisons.|Chi-squared|||6 mm Zilver vs. 10 mm Zilver and 10 mm Wallstent combined||||.02
92340732|NCT00196105|184582865|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||||||.16
92340733|NCT00196105|184582867|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Log Rank|||||||.32
92340734|NCT00196105|184582867|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Kruskal-Wallis|||||||.69
92340735|NCT00248651|184582869|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANCOVA|||Overall treatment effect from logistic regression model incorporating balancing factors. A p-value of \<0.05 was considered statistically significant.||||0.05
92340736|NCT00248651|184582872|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANCOVA|||Comparison between antidepressant arms and placebo for overall quality of life. A p-value of \<0.05 was considered statistically significant.||||0.02
92405578|NCT01002339|184701369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8|||||||Kruskal-Wallis|||||||0.8
92340737|NCT00248651|184582872|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANCOVA|||Comparison between antidepressant arms and placebo for Eat/Drink subscale. A p-value of \<0.05 was considered statistically significant.||||0.06
92340738|NCT00248651|184582872|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANCOVA|||Comparison between antidepressant arms and placebo for Interference subscale. A p-value of \<0.05 was considered statistically significant.||||0.06
92340739|NCT00248651|184582872|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANCOVA|||Comparison between antidepressant arms and placebo for Sleep Disturbance subscale. A p-value of \<0.05 was considered statistically significant.||||0.01
92340740|NCT00248651|184582872|SUPERIORITY_OR_OTHER|||||||0.04|||||||ANCOVA|||Comparison between antidepressant arms and placebo for Work/Study subscale. A p-value of \<0.05 was considered statistically significant.||||0.04
92340741|NCT05607576|184582883|OTHER|Clarke error grid analyses (EGA) were performed to compare CGM values to glucometer glucose values blood glucose readings (mg/dL) were grouped based on radiation exposure (\>0-500 µGy and \>500 µGy). A p-value \<0.05 was considered statistically significant.|||||<|0.05|||||||Mixed Models Analysis|Generalized linear mixed models with random effects were used to assess absolute differences in BG mg/dL by cumulative scatter||||||<0.05
92340742|NCT05607576|184582884|OTHER|Clarke error grid analyses (EGA) were performed to compare CGM values to glucometer glucose values. A p-value \<0.05 was considered statistically significant.|||||<|0.05|||||||Mixed Models Analysis|Generalized linear mixed models with random effects over time were used to assess absolute differences in BG mg/dL by time||||||<0.05
92340743|NCT05616013|184582885|SUPERIORITY||LS Mean Change difference|-14.5|||<|0.001|TWO_SIDED|95.0|-18.0|-11.0|||ANCOVA|||Bima 30mg/kg + Sema 2.4mg vs Placebo||-11.0|-18.0|<0.001
92340744|NCT05616013|184582885|SUPERIORITY||LS Mean Change difference|-10.5|||<|0.001|TWO_SIDED|95.0|-14.0|-7.09|||ANCOVA|||Bima 30mg/kg + Sema 1.0mg vs Placebo||-7.09|-14.0|<0.001
92274977|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.29|||||TWO_SIDED|95.0|-82.89|54.32||||||For change in dyspnea at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||54.32|-82.89|
92340745|NCT05616013|184582885|SUPERIORITY||LS Mean Change difference|-11.0|||<|0.001|TWO_SIDED|95.0|-14.4|-7.55|||ANCOVA|||Bima 10mg/kg + Sema 2.4mg vs Placebo||-7.55|-14.4|<0.001
92340746|NCT05616013|184582885|SUPERIORITY||LS Mean Change difference|-9.41|||<|0.001|TWO_SIDED|95.0|-12.9|-5.93|||ANCOVA|||Bima 10mg/kg + Sema 1.0mg vs Placebo||-5.93|-12.9|<.001
92340747|NCT05616013|184582885|SUPERIORITY||LS Mean Change difference|-10.9|||<|0.001|TWO_SIDED|95.0|-14.4|-7.46|||ANCOVA|||Sema 2.4mg vs Placebo||-7.46|-14.4|<0.001
92340748|NCT05616013|184582885|SUPERIORITY||LS Mean Change difference|-6.45|||<|0.001|TWO_SIDED|95.0|-9.96|-2.94|||ANCOVA|||Sema 1.0mg vs Placebo||-2.94|-9.96|<0.001
92340749|NCT05616013|184582885|SUPERIORITY||LS Mean Change difference|-5.94|||<|0.001|TWO_SIDED|95.0|-9.47|-2.41|||ANCOVA|||Bima 30mg/kg vs Placebo||-2.41|-9.47|<0.001
92340750|NCT05616013|184582885|SUPERIORITY||LS Mean Change difference|-2.68||||0.133|TWO_SIDED|95.0|-6.18|0.82|||ANCOVA|||Bima 10mg/kg vs Placebo||0.82|-6.18|0.133
92340751|NCT00870467|184582926|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92405579|NCT01002339|184701370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|||||||ANOVA|||||||0.66
92340752|NCT00870467|184582927|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92340753|NCT00870467|184582928|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92340754|NCT00870467|184582929|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92340755|NCT00870467|184582930|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92340756|NCT00870467|184582931|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92340757|NCT03430856|184582940|NON_INFERIORITY|Change from baseline in HbA1c at 24 weeks of treatment, was analyzed using mixed model for repeated measures (MMRM) where all available post-baseline HbA1c measurements obtained up to Week 24 was entered as the dependent variables; visit and treatment were included as fixed factors, with Baseline HbA1c and stratification factor variables as covariates. Furthermore, the interaction terms of visit by treatment, visit by stratification factors and visit by Baseline HbA1c were included in the model.|Mean Difference (Net)|0.99|||||TWO_SIDED|95.0|0.502|1.47|||||Insulin Tregopil 45 mg - Insulin Aspart|||1.470|0.502|
92274978|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.17|||||TWO_SIDED|95.0|-87.02|78.69||||||For change in insomnia at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||78.69|-87.02|
92340758|NCT03430856|184582940|NON_INFERIORITY|Non inferiority margin is 0.4%|Mean Difference (Net)|0.89|||||TWO_SIDED|95.0|0.414|1.37|||||Insulin Tregopil 30mg - Insulin Aspart|||1.370|0.414|
92340759|NCT02357459|184582960|SUPERIORITY|The analysis included all study weeks of data, and was not confined to only that at Baseline and Week 12. Descriptive statistics included number of observations, unadjusted mean, standard deviation, median, minimum and maximum, and baseline adjusted means from the mixed model. Treatment differences from control was presented, and estimated via least squares means from the analysis model along with 95% confidence intervals and associated 2-sided p-values.|Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.47|-0.49||The threshold for significance was \<0.05.|longitudinal mixed repeated measures|||||-0.49|-1.47|<0.0001
92340760|NCT01022203|184582974|SUPERIORITY_OR_OTHER||Slope|0.0001|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||Used Intent to Treat Analysis. General linear mixed models (GLMMs) with main effects of treatment (SAT and PFE), time (baseline, end of treatment, and 12 week follow-up), and treatment by time interactions to model the longitudinal trajectories of the outcomes, for veterans and their partners. Time was flexibly modeled. All available observations from each subject were utilized in the GLMM modeling.||||<0.0001
92340761|NCT01022203|184582975|SUPERIORITY_OR_OTHER||Slope|0.004|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Used Intent to Treat Analysis. General linear mixed models (GLMMs) with main effects of treatment (SAT and PFE), time (baseline, end of treatment, and 12 week follow-up), and treatment by time interactions to model the longitudinal trajectories of the outcomes for veterans. Time was flexibly modeled. All available observations from each subject were utilized in the GLMM modeling.||||<0.001
92405580|NCT01002339|184701371|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|||||||ANOVA|||||||0.37
92405581|NCT01002339|184701372|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45|||||||ANOVA|||||||0.45
92405582|NCT01002339|184701373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||ANOVA|||||||0.50
92405583|NCT01002339|184701374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17|||||||Chi-squared|||||||0.17
92340762|NCT01022203|184582976|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||General linear mixed models with main effects of treatment, time (baseline, end of treatment, and 12 week follow-up), and treatment by time interactions as described for previous analyses.||||<0.0001
92340763|NCT03163446|184582995|OTHER|Statistics considered descriptive as study designed to provide proof of concept and initial assessment of efficacy; not considered confirmatory.|Risk Difference (RD)|10.4||||0.3137|TWO_SIDED|90.0|-6.35|27.19|||Fisher Exact|||||27.19|-6.35|0.3137
92340764|NCT03163446|184583005|OTHER|P-value was ad hoc. Statistics considered descriptive as study designed to provide proof of concept and initial assessment of efficacy; not considered confirmatory.|Risk Difference (RD)|42.8||||0.0101|TWO_SIDED|90.0|14.3|71.4|||Fisher Exact|||||71.4|14.3|0.0101
92340765|NCT03163446|184583006|OTHER|P value was ad hoc. Descriptive statistics were performed.||||||0.0646|||||||Fisher Exact||||Descriptive statistics were performed.|||0.0646
92340766|NCT03163446|184583008|OTHER|P-value was ad hoc. Statistics considered descriptive as study designed to provide proof of concept and initial assessment of efficacy; not considered confirmatory.|Risk Difference (RD)|-21.3||||0.0556|TWO_SIDED|90.0|-45.1|2.5|||Fisher Exact|||||2.5|-45.1|0.0556
92340767|NCT01228591|184583061|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed with a margin of -0.05logMAR.|Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.0059|||TWO_SIDED|95.0|-0.0044|0.0187|||Mixed Models Analysis||The mean difference is defined by: Test lens (Acuvue Advance Plus) - control lens (Acuvue Advance)|"For Low Luminance/ High Contrast grouping (Monocular):~Ho: The test lens (Acuvue Advance Plus) will be non-inferior to the control lens (Acuvue Advance).~Ha: The test lens (Acuvue Advance Plus) will be \<= to the control lens (Acuvue Advance)."||0.0187|-0.0044|
92340768|NCT01228591|184583061|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed with a margin of -0.05 logMAR.|Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.0059|||TWO_SIDED|95.0|-0.0086|0.0146|||Mixed Models Analysis||The mean difference is defined by: Test lens (Acuvue Advance Plus) - control lens (Acuvue Advance)|"High Luminance/ Low Contrast grouping (Binocular):~Ho: The test lens (Acuvue Advance Plus) will be non-inferior to the control lens (Acuvue Advance).~Ha: The test lens (Acuvue Advance Plus) will be \<= to the control lens (Acuvue Advance)."||0.0146|-0.0086|
92340769|NCT01228591|184583062|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed with a margin of -0.05 logMAR.|Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.0061|||TWO_SIDED|95.0|0.0041|0.0282|||Mixed Models Analysis||Mean difference represents: Test lens (Advance Plus) - Control lens (Advance).|"For Low Luminance/ High Contrast Grouping (Monocular):~Ho: The test lens (Advance Plus) will be non-inferior to the control lens (Advance).~Ha: The test lens (Advance Plus) will be \<= to the control lens (Advance)."||0.0282|0.0041|
92340770|NCT01228591|184583062|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed with a margin of -0.05 logMAR.|Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.009|0.3305|||Mixed Models Analysis||Mean Difference is defined to be: test lens (Advance Plus) - control lens (Advance).|"For High Luminance/ Low Contrast Grouping (Binocular):~Ho: The test lens (Advance Plus) will be non-inferior from the control lens (Advance).~Ha: The test lens (Advance Plus) will be \<= to the control lens (Advance)."||0.3305|0.0090|
92340771|NCT01921517|184583081|SUPERIORITY|||||||0.0481|||||||t-test, 2 sided|||||||0.0481
92340772|NCT03205150|184583082|SUPERIORITY||Mean Difference (Net)|-13.29|STANDARD_ERROR_OF_MEAN|7.35||0.075|TWO_SIDED|80.0|-22.8|-3.78|||ANCOVA|||||-3.78|-22.80|0.075
92340773|NCT03205150|184583082|SUPERIORITY||Mean Difference (Net)|-21.64|STANDARD_ERROR_OF_MEAN|7.49||0.005|TWO_SIDED|80.0|-31.33|-11.94|||ANCOVA|||||-11.94|-31.33|0.005
92340774|NCT03205150|184583082|SUPERIORITY||Mean Difference (Net)|8.35|STANDARD_ERROR_OF_MEAN|6.14||0.178|TWO_SIDED|80.0|0.41|16.29|||ANCOVA|||||16.29|0.41|0.178
92340775|NCT03205150|184583083|SUPERIORITY||Mean Difference (Net)|-1.73|STANDARD_ERROR_OF_MEAN|1.45||0.235|TWO_SIDED|80.0|-3.6|0.14|||ANCOVA|||||0.14|-3.60|0.235
92340776|NCT03205150|184583083|SUPERIORITY||Mean Difference (Net)|-4.26|STANDARD_ERROR_OF_MEAN|1.46||0.004|TWO_SIDED|80.0|-6.14|-2.37|||ANCOVA|||||-2.37|-6.14|0.004
92340777|NCT03205150|184583083|SUPERIORITY||Mean Difference (Net)|2.52|STANDARD_ERROR_OF_MEAN|1.19||0.037|TWO_SIDED|80.0|0.98|4.07|||ANCOVA|||||4.07|0.98|0.037
92340778|NCT03205150|184583084|SUPERIORITY||Mean Difference (Net)|-3.15|STANDARD_ERROR_OF_MEAN|0.83|<|0.001|TWO_SIDED|80.0|-4.22|-2.08|||ANCOVA|||||-2.08|-4.22|<.001
92340779|NCT03205150|184583084|SUPERIORITY||Mean Difference (Net)|-4.18|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|80.0|-5.28|-3.08|||ANCOVA|||||-3.08|-5.28|<.001
92340780|NCT03205150|184583084|SUPERIORITY||Mean Difference (Net)|1.03|STANDARD_ERROR_OF_MEAN|0.71||0.148|TWO_SIDED|80.0|0.12|1.94|||ANCOVA|||||1.94|0.12|0.148
92340781|NCT03205150|184583092|SUPERIORITY||Mean Difference (Net)|-11.15|STANDARD_ERROR_OF_MEAN|4.36||0.013|TWO_SIDED|80.0|-16.79|-5.5|||ANCOVA|||||-5.50|-16.79|0.013
92340782|NCT03205150|184583092|SUPERIORITY||Mean Difference (Net)|-14.71|STANDARD_ERROR_OF_MEAN|4.43||0.001|TWO_SIDED|80.0|-20.43|-8.98|||ANCOVA|||||-8.98|-20.43|0.001
92340783|NCT03205150|184583092|SUPERIORITY||Mean Difference (Net)|3.56|STANDARD_ERROR_OF_MEAN|3.65||0.332|TWO_SIDED|80.0|-1.15|8.28|||ANCOVA|||||8.28|-1.15|0.332
92340784|NCT01095835|184583093|SUPERIORITY_OR_OTHER|||||||0.08|||||||Chi-squared|||||||0.08
92340785|NCT00871624|184583104|NON_INFERIORITY_OR_EQUIVALENCE|A difference in the mean four-point NIV intolerance score of 1 over the course of the study or between groups was considered through investigator consensus to be clinically meaningful. Assuming that the SD of NIV intolerance scores was 1 and that an alpha of 0.05 would be used for testing, it was determined that 18 subjects were needed in each group to achieve an 80% power.|Odds Ratio (OR)|1.44||||0.54|TWO_SIDED|95.0|0.44|4.7|||Chi-squared|||||4.7|0.44|0.54
92405584|NCT01002339|184701375|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||ANOVA|||||||0.5
92405585|NCT01002339|184701376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||Chi-squared|||||||0.9
92340786|NCT00871624|184583105|OTHER|||||||0.3|||||||Chi-squared|||||||0.3
92405586|NCT02215252|184701377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_DEVIATION|0.355|||TWO_SIDED|90.0|-1.0|0.17||||||Statistical analysis is only for week 4. Mixed Models Repeated Measures analysis including all data up to Week 4 ,incorporating Bayesian priors separately on the placebo response and pregabalin effect.||0.17|-1.00|
92405587|NCT02215252|184701377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_DEVIATION|0.23|||TWO_SIDED|90.0|-0.91|-0.2||||||Statistical analysis is only for week 4. Mixed Models Repeated Measures analysis including all data up to Week 4 ,incorporating Bayesian priors separately on the placebo response and pregabalin effect.||-0.20|-0.91|
92399050|NCT00286442|184689827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|||<|0.001|TWO_SIDED|95.0|-0.67|-0.3||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at week 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 participants had 95% power to detect a treatment difference as small as 0.4% in the per protocol analysis set assuming SD=0.8%, 2-sided test at 0.05 significance level and \>=80% of participants meeting per protocol criteria.||-0.30|-0.67|<0.001
92399051|NCT00286442|184689828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|||<|0.001|TWO_SIDED|95.0|-0.37|-0.16||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.16|-0.37|<0.001
92340787|NCT03028142|184583109|OTHER||LS Means ratio|1.05||||0.0022|TWO_SIDED|95.0|1.02|1.09|||ANCOVA|||||1.09|1.02|0.0022
92399052|NCT00286442|184689828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||<|0.001|TWO_SIDED|95.0|-0.4|-0.19||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.19|-0.40|<0.001
92399053|NCT00286442|184689829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|||<|0.001|TWO_SIDED|95.0|-0.52|-0.24||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.24|-0.52|<0.001
92156344|NCT04145349|184198792|SUPERIORITY||Posterior Mean Hazard Ratio|0.69|||||TWO_SIDED|98.0|0.25|1.69|||Bayesian hierarchical model|||The Bayesian analyses below include posterior mean of Hazard ratio, and credible intervals instead of confidence intervals.|The posterior probability treatment difference is 0.864|1.69|0.25|
92156345|NCT03280563|184198801|SUPERIORITY||Difference in Overall Response Rates|0.0|||||TWO_SIDED|95.0|-21.14|21.14||||||||21.14|-21.14|
92156346|NCT03280563|184198801|SUPERIORITY||Difference in Overall Response Rates|16.92|||||TWO_SIDED|95.0|-9.03|42.88||||||||42.88|-9.03|
92156347|NCT03280563|184198801|SUPERIORITY||Difference in Overall Response Rates|6.67|||||TWO_SIDED|95.0|-36.76|50.09||||||||50.09|-36.76|
92156348|NCT03280563|184198801|SUPERIORITY||Difference in Overall Response Rates|-3.33|||||TWO_SIDED|95.0|-27.39|20.73||||||||20.73|-27.39|
92156349|NCT03280563|184198801|SUPERIORITY||Difference in Overall Response Rates|16.32|||||TWO_SIDED|95.0|-6.71|39.34||||||||39.34|-6.71|
92156350|NCT03280563|184198802|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.5|1.66||||||||1.66|0.50|
92156351|NCT03280563|184198802|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.35|1.2||||||||1.20|0.35|
92217041|NCT01704287|184334221|SUPERIORITY_OR_OTHER_LEGACY|PD-L1 Negative Participants|Hazard Ratio (HR)|0.71||||0.1504|TWO_SIDED|95.0|0.44|1.13||Two-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Pembrolizumab 2 mg/kg|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.13|0.44|0.1504
92217042|NCT04490395|184334246|SUPERIORITY||Mean Difference (Final Values)|1.68||||0.044|TWO_SIDED|95.0|-0.26|3.62|||t-test, 2 sided|||||3.62|-0.26|0.044
92217043|NCT04490395|184334247|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.056|TWO_SIDED|95.0|-0.15|1.33|||t-test, 2 sided|||||1.33|-0.15|0.056
92156352|NCT03280563|184198802|SUPERIORITY||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|0.45|3.48||||||||3.48|0.45|
92156353|NCT03280563|184198802|SUPERIORITY||Hazard Ratio (HR)|1.55|||||TWO_SIDED|95.0|0.74|3.23||||||||3.23|0.74|
92156354|NCT03280563|184198802|SUPERIORITY||Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.28|0.88||||||||0.88|0.28|
92156355|NCT03280563|184198804|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.36|1.65||||||||1.65|0.36|
92156356|NCT03280563|184198804|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.34|1.58||||||||1.58|0.34|
92156357|NCT03280563|184198804|SUPERIORITY||Hazard Ratio (HR)|2.26|||||TWO_SIDED|95.0|0.55|9.34||||||||9.34|0.55|
92156358|NCT03280563|184198804|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.28|2.01||||||||2.01|0.28|
92156359|NCT03280563|184198804|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.35|1.46||||||||1.46|0.35|
92156360|NCT03280563|184198805|SUPERIORITY||Difference in Event Free Rate|-0.75|||||TWO_SIDED|95.0|-30.98|29.48||||||||29.48|-30.98|
92156361|NCT03280563|184198805|SUPERIORITY||Difference in Event Free Rate|17.7|||||TWO_SIDED|95.0|-10.84|46.23||||||||46.23|-10.84|
92156362|NCT03280563|184198805|SUPERIORITY||Difference in Event Free Rate|11.85|||||TWO_SIDED|95.0|-26.63|50.33||||||||50.33|-26.63|
92156363|NCT03280563|184198805|SUPERIORITY||Difference in Event Free Rate|10.49|||||TWO_SIDED|95.0|-16.96|37.95||||||||37.95|-16.96|
92156364|NCT03280563|184198806|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.15|7.9||||||||7.90|0.15|
92156365|NCT03280563|184198806|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.15|4.2||||||||4.20|0.15|
92340788|NCT03028142|184583109|OTHER||LS Means ratio|1.09|||<|0.0001|TWO_SIDED|95.0|1.05|1.12|||ANCOVA|||||1.12|1.05|<0.0001
92340789|NCT03028142|184583110|OTHER||LS Means ratio|1.03||||0.0988|TWO_SIDED|95.0|0.99|1.06|||ANCOVA|||||1.06|0.99|0.0988
92340790|NCT03028142|184583110|OTHER||LS Means ratio|1.06||||0.0009|TWO_SIDED|95.0|1.02|1.09|||ANCOVA|||||1.09|1.02|0.0009
92340791|NCT03028142|184583111|OTHER||LS Means ratio|1.02||||0.2496|TWO_SIDED|95.0|0.98|1.06|||ANCOVA|||||1.06|0.98|0.2496
92340792|NCT03028142|184583111|OTHER||LS Means ratio|1.06||||0.0039|TWO_SIDED|95.0|1.02|1.1|||ANCOVA|||||1.1|1.02|0.0039
92340793|NCT03028142|184583112|OTHER||LS Means ratio|1.03||||0.1404|TWO_SIDED|95.0|0.99|1.06|||ANCOVA|||||1.06|0.99|0.1404
92156366|NCT03280563|184198806|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.15|3.84||||||||3.84|0.15|
92156367|NCT05160025|184198862|SUPERIORITY||||||<|0.001||||||"rmANOVA \< 0.001~post hoc paired t-tests or nonparametric equivalent with correction (x3) indicated the following: self-competition \> feedback (p \< 0.001) other-competition \> feedback (p \< 0.001) self-competition = other-competition (p \> 0.05)"|ANOVA|||||||<0.001
92274979|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.0|||||TWO_SIDED|95.0|-184.57|134.57||||||For change in appetite loss at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||134.57|-184.57|
92340794|NCT03028142|184583112|OTHER||LS Means ratio|1.04||||0.0228|TWO_SIDED|95.0|1.01|1.08|||ANCOVA|||||1.08|1.01|0.0228
92340795|NCT01298700|184583159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.148|TWO_SIDED|95.0|-11.0|1.9||P-value was stratified by baseline prostaglandin analogue (PGA) treatment(yes/no) and by baseline active ocular surface finding (present/absent).|Cochran-Mantel-Haenszel||bimatoprost 0.01% ophthalmic solution - bimatoprost 0.03% ophthalmic solution|||1.9|-11|0.148
92340796|NCT00129441|184583161|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||||||0.16
92340797|NCT00129441|184583162|SUPERIORITY_OR_OTHER|||||||0.162||95.0|||||ANOVA|||||||0.162
92340798|NCT00129441|184583163|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANOVA|||||||0.12
92340799|NCT00129441|184583164|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
92399054|NCT00286442|184689829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|||<|0.001|TWO_SIDED|95.0|-0.52|-0.24||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.24|-0.52|<0.001
92340800|NCT00129441|184583165|SUPERIORITY_OR_OTHER|||||||0.249||95.0|||||ANOVA|||||||0.249
92340801|NCT00129441|184583166|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANOVA|||At week 4, mean BPRS total scores were nearly the same for the placebo group and L-830982 group as a result of a significant reduction in positive symptoms reported for the placebo group (F=9.12, df=1,13, p=0.01). For the L-830982-treated group, neither total BPRS scores nor any of the factor scores changed over the course of the trial.||||0.01
92156368|NCT05160025|184198865|SUPERIORITY|||||||0.111||||||"rmANOVA p = 0.111~post hoc paired t-tests not performed"|ANOVA|||||||0.111
92156369|NCT05160025|184198868|SUPERIORITY||||||<|0.001||||||"rmANOVA \< 0.001~post hoc paired t-tests or nonparametric equivalent corrected (x3) indicated the following: self-competition \> feedback (p = 0.003) other-competition \> feedback (p = 0.007) self-competition = other-competition (p \> 0.05)"|ANOVA|||||||<0.001
92156370|NCT05160025|184198871|SUPERIORITY||||||>|0.05||||||"rmANOVA p \> 0.05 with a partial eta squared effect size = 0.073~post hoc paired t-tests not performed"|ANOVA|||||||> 0.05
92156371|NCT05160025|184198876|SUPERIORITY|||||||0.004||||||"rmANOVA = 0.004~post hoc paired t-tests or nonparametric equivalent corrected (x3) indicated the following: self-competition \> feedback (p = 0.007) other-competition \> feedback (p = 0.002) self-competition = other-competition (p \> 0.05)"|ANOVA|||||||0.004
92340802|NCT00129441|184583167|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92340803|NCT00129441|184583168|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92340804|NCT04006145|184583169|SUPERIORITY||LS-Means Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.184||0.029|TWO_SIDED|95.0|-0.76|-0.04|||ANCOVA|||Change from baseline in serum LDL-C at Week 16 was analyzed using ANCOVA after the missing data imputation, with treatment group as a factor, baseline serum LDL-C, baseline LDL-C-by-treatment interaction values, and baseline lipid-lowering medications (Yes or No) as covariates. Missing data for serum LDL-C was imputed through multiple imputation method as described in the statistical analysis plan (SAP).||-0.04|-0.76|0.029
92340805|NCT01001429|184583181|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Regression, Logistic|||||||0.04
92340806|NCT01001429|184583181|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Regression, Linear|||UMSS scores with subjects propofol vs. Dexmetomidine group||||0.68
92340807|NCT02812186|184583193|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92340808|NCT02812186|184583194|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||||||0.28
92340809|NCT02812186|184583195|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
92340810|NCT00643760|184583205|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-0.35||||0.295||95.0|-1.02|0.31||This p-value has been adjusted for multiplicity using a combination of a sequential method and the Hochberg procedure in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) model with body mass index (BMI), baseline 24-hour average pain intensity, and grouped center as covariates was used.||||0.31|-1.02|0.295
92340811|NCT00643760|184583205|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-0.02||||0.946||95.0|-0.71|0.66||This p-value has been adjusted for multiplicity using a combination of a sequential method and the Hochberg procedure in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|An ANCOVA model with BMI, baseline 24-hour average pain intensity, and grouped center as covariates was used.||||0.66|-0.71|0.946
92340812|NCT00643760|184583205|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-0.55||||0.105||95.0|-1.1|0.01||This p-value has been adjusted for multiplicity using a combination of a sequential method and the Hochberg procedure in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|An ANCOVA model with BMI, baseline 24-hour average pain intensity, and grouped center as covariates was used.||||0.01|-1.10|0.105
92340813|NCT00643760|184583205|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|0.43||||||95.0|-0.22|1.08||||||||1.08|-0.22|
92340814|NCT00789321|184583230|SUPERIORITY_OR_OTHER||Least Squares Mean|-11.7||||0.001||90.0|-18.1|-5.4|||ANCOVA|Change from baseline in systolic blood pressure included as covariate||||-5.4|-18.1|0.001
92340815|NCT00789321|184583231|SUPERIORITY_OR_OTHER||Least Squares Mean|39.0||||0.001||95.0|17.9|60.1|||ANCOVA|Change from baseline in systolic blood pressure included as covariate||||60.1|17.9|0.001
92340816|NCT00104052|184583232|SUPERIORITY_OR_OTHER||Normal approximation to the binomial|0.654||||||95.0|0.564|0.744||||||||0.744|0.564|
92405588|NCT02215252|184701378|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91|||||TWO_SIDED|90.0|0.78|4.69||||||Statistical analysis is only for Week 4. Logistic Regression using all data up to Week 4.||4.69|0.78|
92405589|NCT02215252|184701378|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.63|||||TWO_SIDED|90.0|1.06|6.56||||||Statistical analysis is only for Week 4. Logistic Regression using all data up to Week 4.||6.56|1.06|
92156372|NCT05160025|184198884|SUPERIORITY||||||>|0.05||||||ranking compared to expected value for each condition and the p-value was adjusted for 3 comparisons for each condition: self-competition (p \> 0.05) other-competition (p \> 0.05) feedback (p \> 0.05)|Chi-squared|||||||> 0.05
92156373|NCT05160025|184198885|SUPERIORITY||||||>|0.05||||||ranking compared to expected value for each condition and the p-value was adjusted for 3 comparisons for each condition: self-competition (p \> 0.05) other-competition (p \> 0.05) feedback (p \> 0.05)|Chi-squared|||||||> 0.05
92156374|NCT03850444|184198904|OTHER||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.38|1.0|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), and histology (squamous vs. non-squamous).|||1.00|0.38|
92156375|NCT03850444|184198905|OTHER||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.41|0.95|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||0.95|0.41|
92156376|NCT03850444|184198906|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.45|0.94|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||0.94|0.45|
92156377|NCT03850444|184198907|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.57|1.28|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), and histology (squamous vs. non-squamous).|||1.28|0.57|
92156378|NCT03850444|184198908|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.7|1.39|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||1.39|0.70|
92217044|NCT04490395|184334248|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.377|TWO_SIDED|95.0|-1.75|1.28|||t-test, 2 sided|||||1.28|-1.75|0.377
92156379|NCT03850444|184198909|OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.74|1.35|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||1.35|0.74|
92156380|NCT03850444|184198910|OTHER||Difference in Percentage (DP)|17.2|||||TWO_SIDED|95.0|1.8|31.6|||Stratified Miettinen and Nurminen||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by ECOG PS (0 vs. 1) and histology (squamous vs. non-squamous).|||31.6|1.8|
92156381|NCT03850444|184198911|OTHER||Difference in Percentage (DP)|11.3|||||TWO_SIDED|95.0|-1.4|23.7|||||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||23.7|-1.4|
92156382|NCT03850444|184198912|OTHER||Difference in Percentage (DP)|8.0|||||TWO_SIDED|95.0|-3.0|18.9|||||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||18.9|-3.0|
92156383|NCT03123263|184198973|OTHER|Repeated measures one sided ANOVA was used to analyze changes in ejection fraction over time.|||||<|0.0005|||||||ANOVA|F (2,98) =13.974||||||<0.0005
92156384|NCT03226457|184199025|OTHER|Details of the power calculation are published in the Circulation, DOI: 10.1161/CIRCULATIONAHA.120.048739|||||=|0.005||||||(calculated)|ANCOVA|||"Details on the statistical analysis are published in the Circulation, DOI: 10.1161/CIRCULATIONAHA.120.048739~Analyses were performed on the primary and secondary measures comparing empagliflozin versus placebo and assessed by 2-way analysis of covariance correcting for treatment order, baseline value, and any percentage change in furosemide dose at the visit. Data for continuous outcome measures were assessed for normality before analysis."||||= 0.005
92156385|NCT05199233|184199061|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|The mean change from baseline was compared to zero using a one-sample t-test.||||||<0.001
92156386|NCT05199233|184199062|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|The mean change from baseline was compared to zero using a one-sample t-test.||||||<0.001
92156387|NCT00065468|184199089|NON_INFERIORITY_OR_EQUIVALENCE|2 null hypotheses (Ho) were tested: 1) Survival distributions for temsirolimus alone and Interferon Alfa (IFN)-alone treatment groups were identical. 2) Survival distributions for temsirolimus in combination with IFN and IFN-alone treatment groups were identical. The alternative hypothesis (Ha) for each test was that the survival distributions differed.|Cox Proportional Hazard|0.78||||0.0252|TWO_SIDED|95.0|0.63|0.97|||Log Rank|Stratified by prior nephrectomy and region||||0.97|0.63|0.0252
92156388|NCT00065468|184199089|NON_INFERIORITY_OR_EQUIVALENCE|2 null hypotheses (Ho) were tested: 1) Survival distributions for temsirolimus alone and IFN-alone treatment groups were identical. 2) Survival distributions for temsirolimus in combination with IFN and IFN-alone treatment groups were identical. The alternative hypothesis (Ha) for each test was that the survival distributions differed.|Cox Proportional Hazard|0.93||||0.4902|TWO_SIDED|95.0|0.75|1.15|||Log Rank|Stratified by prior nephrectomy and region||||1.15|0.75|0.4902
92156389|NCT00065468|184199090|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.74||||0.0042|TWO_SIDED|95.0|0.6|0.91|||Log Rank|Stratified by prior nephrectomy and region||||0.91|0.60|0.0042
92156390|NCT00065468|184199090|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.76||||0.0107|TWO_SIDED|95.0|0.62|0.94|||Log Rank|Stratified by prior nephrectomy and region||||0.94|0.62|0.0107
92156391|NCT00065468|184199091|SUPERIORITY_OR_OTHER|||||||0.1361|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by prior nephrectomy and region||||||0.1361
92156392|NCT00065468|184199091|SUPERIORITY_OR_OTHER|||||||0.1062|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by prior nephrectomy and region||||||0.1062
92156393|NCT00065468|184199092|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by prior nephrectomy and region||||||<0.0001
92156394|NCT00065468|184199092|SUPERIORITY_OR_OTHER|||||||0.0011|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by prior nephrectomy and region||||||0.0011
92156395|NCT00065468|184199094|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.76|||Log Rank|Stratified by prior nephrectomy and region||||0.76|0.51|<0.0001
92156396|NCT00065468|184199094|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.73||||0.002|TWO_SIDED|95.0|0.6|0.89|||Log Rank|Stratified by prior nephrectomy and region||||0.89|0.60|0.0020
92156397|NCT04675242|184199170|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.4434|TWO_SIDED|95.0|-11.5|15.3|||Fisher Exact|||Difference in the proportion of study eyes with complete cure||15.3|-11.5|0.4434
92156398|NCT04675242|184199171|SUPERIORITY||Mean Difference (Final Values)|-3.7||||0.2105|TWO_SIDED|95.0|-9.5|2.1|||ANCOVA|adjusted for baseline eye dryness VAS score||Difference in the change from baseline between treatment groups||2.1|-9.5|0.2105
92156399|NCT04675242|184199172|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.5936|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|adjusted for baseline eye dryness VAS score||Difference in the mean change from baseline||0.1|-0.2|0.5936
92340817|NCT03652818|184583234|SUPERIORITY||Least Square (LS) Mean Difference|-25.2868|STANDARD_ERROR_OF_MEAN|16.1594|||ONE_SIDED|90.0||-4.421|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group D vs. Group B||-4.4210||
92340818|NCT03652818|184583234|SUPERIORITY||LS Mean Difference|-0.2756|STANDARD_ERROR_OF_MEAN|16.3283|||ONE_SIDED|90.0||20.8083|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group C vs. Group B||20.8083||
92340819|NCT03652818|184583234|SUPERIORITY||LS Mean Difference|-65.9241|STANDARD_ERROR_OF_MEAN|17.2146|||ONE_SIDED|90.0||-43.6959|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group C vs. Group A||-43.6959||
92340820|NCT03652818|184583234|SUPERIORITY||LS Mean Difference|-65.6486|STANDARD_ERROR_OF_MEAN|16.8753|||ONE_SIDED|90.0||-43.8584|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group B vs. Group A||-43.8584||
92217045|NCT04490395|184334249|SUPERIORITY|Within subjects change over time|F test (1,15) df|1.381||||0.258|TWO_SIDED||||||ANOVA|Change over time||Only 9 cases had any data available per group, and some had missing values and were not included in each analysis.|Within subjects change over time.|||0.258
92217046|NCT04490395|184334249|SUPERIORITY|Between group analysis|F test (1,15) df|0.246||||0.627|TWO_SIDED||||||ANOVA||||Between group analysis|||0.627
92340821|NCT03652818|184583234|SUPERIORITY||LS Mean Difference|-90.9353|STANDARD_ERROR_OF_MEAN|17.1044|||ONE_SIDED|90.0||-68.8494|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group D vs. Group A||-68.8494||
92340822|NCT03652818|184583234|SUPERIORITY||LS Mean Difference|-25.0112|STANDARD_ERROR_OF_MEAN|16.5376|||ONE_SIDED|90.0||-3.6571|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group D vs. Group C||-3.6571||
92340823|NCT03652818|184583234|SUPERIORITY||LS Mean Difference|10.9546|STANDARD_ERROR_OF_MEAN|21.0237|||ONE_SIDED|90.0||38.1014|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group E vs. Group D||38.1014||
92340824|NCT03652818|184583235|SUPERIORITY||LS Mean Difference|33.6821|STANDARD_ERROR_OF_MEAN|20.1209|||ONE_SIDED|90.0|7.7011||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group D vs. Group B|||7.7011|
92340825|NCT03652818|184583235|SUPERIORITY||LS Mean Difference|6.1658|STANDARD_ERROR_OF_MEAN|20.3312|||ONE_SIDED|90.0|-20.0868||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group C vs. Group B|||-20.0868|
92274980|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.33|||||TWO_SIDED|95.0|-105.73|89.06||||||For change in constipation at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||89.06|-105.73|
92340826|NCT03652818|184583235|SUPERIORITY||LS Mean Difference|77.3395|STANDARD_ERROR_OF_MEAN|21.4347|||ONE_SIDED|90.0|49.662||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group C vs. Group A|||49.6620|
92340827|NCT03652818|184583235|SUPERIORITY||LS Mean Difference|71.1737|STANDARD_ERROR_OF_MEAN|21.0123|||ONE_SIDED|90.0|44.0417||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group B vs. Group A|||44.0417|
92340828|NCT03652818|184583235|SUPERIORITY||LS Mean Difference|104.8558|STANDARD_ERROR_OF_MEAN|21.2975|||ONE_SIDED|90.0|77.3555||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group D vs. Group A|||77.3555|
92156400|NCT04707391|184199193|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers between MenABCWY group and MenACWY group was above -10% for serogroup A.|Difference in percentage of participants|0.2|||||TWO_SIDED|0.95|-4.38|3.5||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups A at 1 month after the second MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||3.50|-4.38|
92217047|NCT04490395|184334249|SUPERIORITY||F test (1,15) df|0.005||||0.947|TWO_SIDED||||||ANOVA|||Time x Condition interaction|Time x Condition interaction|||0.947
92217048|NCT04490395|184334250|SUPERIORITY||Mean Difference (Final Values)|-0.88||||0.038|TWO_SIDED|95.0|-1.85|0.98|||t-test, 2 sided|||||0.98|-1.85|0.038
92217049|NCT04490395|184334251|SUPERIORITY||Mean Difference (Final Values)|-2.56||||0.07|TWO_SIDED|95.0|-6.05|0.94|||t-test, 2 sided|||||0.94|-6.05|0.07
92217050|NCT04490395|184334252|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.43|TWO_SIDED|95.0|-1.19|1.42|||t-test, 2 sided|||||1.42|-1.19|0.43
92217051|NCT04490395|184334253|SUPERIORITY||Mean Difference (Final Values)|-0.029||||0.72|TWO_SIDED|95.0|-0.194|1.42|||t-test, 2 sided|||||1.42|-.194|0.72
92217052|NCT04490395|184334254|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.341|TWO_SIDED|95.0|-0.35|0.23|||t-test, 2 sided|||||0.23|-0.35|0.341
92217053|NCT04490395|184334255|SUPERIORITY||Mean Difference (Final Values)|-0.059||||0.25|TWO_SIDED|95.0|-2.35|1.17|||t-test, 2 sided|||||1.17|-2.35|0.25
92217054|NCT01179672|184334296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.03|TWO_SIDED|95.0|-0.82|-0.04|||Mixed Models Analysis|||||-0.04|-0.82|0.030
92217055|NCT01179672|184334297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.008|TWO_SIDED|95.0|-0.95|-0.14||P-value is for mean change from baseline to 12-week endpoint in night pain.|Mixed Models Analysis|||||-0.14|-0.95|0.008
92217056|NCT01179672|184334297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.017|TWO_SIDED|95.0|-1.0|-0.1||P-value is for mean change from baseline to 12 week endpoint in worst pain.|Mixed Models Analysis|||||-0.10|-1.00|0.017
92217057|NCT01179672|184334298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.016|TWO_SIDED|95.0|-0.9|-0.09|||Mixed Models Analysis|||||-0.09|-0.90|0.016
92217058|NCT01179672|184334299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.081|TWO_SIDED|95.0|-0.48|0.03|||Mixed Models Analysis|||||0.03|-0.48|0.081
92340829|NCT03652818|184583235|SUPERIORITY||LS Mean Difference|27.5163|STANDARD_ERROR_OF_MEAN|20.5918|||ONE_SIDED|90.0|0.9272||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group D vs. Group C|||0.9272|
92217059|NCT01179672|184334300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.034|TWO_SIDED|95.0|-0.4|-0.02|||Mixed Models Analysis|||||-0.02|-0.40|0.034
92217060|NCT01179672|184334301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12||||0.022|TWO_SIDED|95.0|-2.07|-0.16|||ANCOVA|ANCOVA adjusted for treatment, pooled investigator and baseline.||||-0.16|-2.07|0.022
92340830|NCT03652818|184583235|SUPERIORITY||LS Mean Difference|-30.1223|STANDARD_ERROR_OF_MEAN|26.1776|||ONE_SIDED|90.0|-63.924||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group E vs. Group D|||-63.9240|
92340831|NCT01421498|184583260|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|0.24||||0.0007|TWO_SIDED|95.0|0.1|0.38|||t-test, 2 sided|||||0.38|0.10|0.0007
92340832|NCT01421498|184583261|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|-0.02||||0.786|TWO_SIDED|95.0|-0.15|0.11|||t-test, 2 sided|||||0.11|-0.15|0.7860
92217061|NCT01179672|184334302|SUPERIORITY_OR_OTHER|||||||0.014||||||P-value is for ≥30% reduction in 24-hour average pain.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by pooled investigator.||||||0.014
92217062|NCT01179672|184334302|SUPERIORITY_OR_OTHER|||||||0.006||||||P-value is for ≥50% reduction in 24-hour average pain.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by pooled investigator.||||||0.006
92217063|NCT01179672|184334302|SUPERIORITY_OR_OTHER|||||||0.193||||||P-value is for ≥75% reduction in 24-hour average pain.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by pooled investigator.||||||0.193
92217064|NCT01179672|184334303|SUPERIORITY_OR_OTHER|||||||0.003||||||P-value is for ≥30% reduction in 24-hour BPI-Severity average pain.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by pooled investigator.||||||0.003
92217065|NCT01179672|184334303|SUPERIORITY_OR_OTHER|||||||0.001||||||P-value is for ≥50% reduction in 24-hour BPI-Severity average pain.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by pooled investigator.||||||0.001
92217066|NCT01179672|184334303|SUPERIORITY_OR_OTHER|||||||0.168||||||P-value is for ≥75% reduction in 24-hour BPI-Severity average pain.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel test was stratified by pooled investigator.||||||0.168
92217067|NCT01179672|184334304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.001|TWO_SIDED|95.0|-0.96|-0.24|||Mixed Models Analysis|||||-0.24|-0.96|0.001
92217068|NCT01179672|184334305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26||||0.02|TWO_SIDED|95.0|-2.33|-0.2|||Mixed Models Analysis|||||-0.20|-2.33|0.020
92217069|NCT04667377|184334315|OTHER|Covariate adjusted fixed effect estimates of mean percentage change in body weight at Week 46 for each treatment group with associated covariance matrix were extracted from the MMRM (including fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors) and used as input for the MCP-Mod.|||||<|0.0001||||||P-value is adjusted for multiplicity.|MCP-Mod - Linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different potential dose-response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 2.5%).||||<0.0001
92217070|NCT04667377|184334315|OTHER|Covariate adjusted fixed effect estimates of mean percentage change in body weight at Week 46 for each treatment group with associated covariance matrix were extracted from the MMRM (including fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors) and used as input for the MCP-Mod.|||||<|0.0001||||||P-value is adjusted for multiplicity.|MCP-Mod - Exponential model fit|Model Assumption: 50% of maximum effect achieved at dose 3.6 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different potential dose-response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 2.5%).||||<0.0001
92274981|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|79.17|||||TWO_SIDED|95.0|-29.72|188.06||||||For change in diarrhea at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||188.06|-29.72|
92340833|NCT01239797|184583262|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0014|TWO_SIDED|95.0|0.6|0.89|||Log Rank|2-sided p-value for stratified log rank test||Hazard Ratio of Lenalidomide + Dexamethasone + Elotuzumab to Lenalidomide + Dexamethasone||0.89|0.60|0.0014
92340834|NCT01239797|184583263|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0005|TWO_SIDED|95.0|0.6|0.87|||Log Rank|2-sided p-value for stratified log rank test||Hazard Ratio of Lenalidomide + Dexamethasone + Elotuzumab to Lenalidomide + Dexamethasone||0.87|0.60|0.0005
92340835|NCT01239797|184583264|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0002|TWO_SIDED|95.0|1.36|2.78|||Cochran-Mantel-Haenszel|Stratified by B2 microglobulin (\<3.5 mg/L vs \>=3.5 mg/L), number of prior lines of therapy (1 vs \>=2), and immunomodulatory drug use at randomization||Ratio of Lenalidomide + Dexamethasone + Elotuzumab to Lenalidomide + Dexamethasone||2.78|1.36|0.0002
92340836|NCT01239797|184583264|SUPERIORITY||Difference in ORR|12.7|||||TWO_SIDED|95.0|6.2|19.3||||||Difference of Lenalidomide + Dexamethasone + Elotuzumab minus Lenalidomide + Dexamethasone computed using the method of DerSimonian and Laird (weighted average over the strata)||19.3|6.2|
92340837|NCT01418339|184583286|SUPERIORITY||Treatment Difference|-4.63|||=|0.0028|TWO_SIDED|95.0|-7.62|-1.63||P-value was derived from a repeated measures linear model with treatment, week, and treatment by week interaction as fixed categorical effects, the baseline value as a fixed covariate, and week as the time variable for repeated measures.|MMRM|||The statistical comparison was performed using MMRM model at a significance level of 0.05 (2-sided).||-1.63|-7.62|=0.0028
92340838|NCT01418339|184583287|SUPERIORITY||Treatment Difference|-0.52|||=|0.0124|TWO_SIDED|95.0|-0.93|-0.12||P-value was derived from a repeated measures linear model with treatment, week, and treatment by week interaction as fixed categorical effects, the baseline value as a fixed covariate, and week as the time variable for repeated measures.|MMRM|||The statistical comparison was performed using MMRM model at a significance level of 0.05 (2-sided).||-0.12|-0.93|=0.0124
92340839|NCT01418339|184583288|SUPERIORITY||Treatment Difference|-2.0|||=|0.5317|TWO_SIDED|95.0|-8.31|4.32||P-value was derived from a repeated measures linear model with treatment, week, and treatment by week interaction as fixed categorical effects, the baseline value as a fixed covariate, and week as the time variable for repeated measures.|MMRM|||The statistical comparison was performed using MMRM model at a significance level of 0.05 (2-sided).||4.32|-8.31|=0.5317
92340840|NCT02219685|184583289|SUPERIORITY_OR_OTHER|||||||0.58||||||This p-value for treatment effect on basal ganglia was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.58
92399055|NCT00286442|184689830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||<|0.001|TWO_SIDED|95.0|-0.66|-0.34||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.66|<0.001
92340841|NCT02219685|184583289|SUPERIORITY_OR_OTHER|||||||0.48||||||This p-value for treatment effect on frontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.48
92340842|NCT02219685|184583289|SUPERIORITY_OR_OTHER|||||||0.96||||||This p-value for treatment effect on dorsolateral prefrontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.96
92340843|NCT02219685|184583290|SUPERIORITY_OR_OTHER|||||||0.54||||||This p-value for treatment effect on basal ganglia was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.54
92340844|NCT02219685|184583290|SUPERIORITY_OR_OTHER|||||||0.57||||||This p-value for treatment effect on frontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.57
92274982|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.17|||||TWO_SIDED|95.0|-57.74|49.41||||||For change in financial difficulties at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||49.41|-57.74|
92340845|NCT02219685|184583290|SUPERIORITY_OR_OTHER|||||||0.63||||||This p-value for treatment effect on dorsolateral prefrontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.63
92340846|NCT02219685|184583291|SUPERIORITY_OR_OTHER|||||||0.7||||||This p-value for treatment effect on basal ganglia was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.70
92340847|NCT02219685|184583291|SUPERIORITY_OR_OTHER|||||||0.21||||||This p-value for treatment effect on frontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.21
92340848|NCT02219685|184583291|SUPERIORITY_OR_OTHER|||||||0.59||||||This p-value for treatment effect on dorsolateral prefrontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.59
92340849|NCT02219685|184583292|SUPERIORITY_OR_OTHER|||||||0.0795||||||The p-value was from ANCOVA model for change from baseline with treatment group and baseline as covariates.|ANCOVA|||||||0.0795
92340850|NCT02219685|184583293|SUPERIORITY_OR_OTHER|||||||0.7007||||||The p-value was from ANCOVA model for change from baseline with treatment group and baseline as covariates.|ANCOVA|||||||0.7007
92340851|NCT02219685|184583294|SUPERIORITY_OR_OTHER|||||||0.2677||||||The p-value was ANCOVA model for change from baseline with treatment group and baseline as covariates.|ANCOVA|||||||0.2677
92340852|NCT02219685|184583295|SUPERIORITY_OR_OTHER|||||||0.987||||||The p-value was from ANCOVA model for change from baseline with treatment group and baseline as covariates.|ANCOVA|||||||0.9870
92340853|NCT02219685|184583296|SUPERIORITY_OR_OTHER|||||||0.3388||||||The p-value was from ANCOVA model for change from baseline with treatment group and baseline as covariates.|ANCOVA|||||||0.3388
92340854|NCT01746862|184583358|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|3.47|||<|0.0001|TWO_SIDED|95.0|2.17|4.78|||ANCOVA|Analysis was performed using analysis of covariance (ANCOVA) with baseline age and baseline height as the covariates.||||4.78|2.17|<0.0001
92399056|NCT00286442|184689830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||<|0.001|TWO_SIDED|95.0|-0.66|-0.34||No multiplicity adjustments|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.66|<0.001
92399057|NCT00286442|184689831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|||<|0.001|TWO_SIDED|95.0|-0.7|-0.36||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.36|-0.70|<0.001
92405590|NCT02215252|184701379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|90.0|0.33|4.74||||||Statistical analysis is only for Week 4. Logistic Regression using all data up to Week 4.||4.74|0.33|
92340855|NCT03243305|184583381|OTHER||Seven-cycle Pregnancy Percentage|13.65|||||TWO_SIDED|95.0|9.91|17.39|||Kaplan-Meier|||The primary hypothesis to be tested is whether subjects using Amphora vaginal gel have a 7-cycle cumulative pregnancy percentage less than or equal to 21%||17.39|9.91|
92340856|NCT02689804|184583383|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92340857|NCT02689804|184583384|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
92156401|NCT04707391|184199193|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers between MenABCWY group and MenACWY group was above -10% for serogroup C.|Difference in percentage of participants|0.5|||||TWO_SIDED|0.95|-4.14|3.98||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups C at 1 month after the second MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||3.98|-4.14|
92156402|NCT04707391|184199193|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers between MenABCWY group and MenACWY group was above -10% for each serogroup W.|Difference in percentage of participants|1.6|||||TWO_SIDED|0.95|-2.73|4.89||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups W at 1 month after the second MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||4.89|-2.73|
92340858|NCT00810199|184583455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.2055|TWO_SIDED|95.0|0.882|1.799||Cochran-Mantel-Haenszel test stratified by region and baseline DAS28 (≤5.5 and \>5.5).|Cochran-Mantel-Haenszel|||||1.799|0.882|0.2055
92340859|NCT00810199|184583455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.1894|TWO_SIDED|95.0|0.889|1.814||Logistic regression including treatment , region and baseline DAS28.|Regression, Logistic|Odds ratio is for Tocilizumab + Methotrexate relative to Tocilizumab + Placebo.||||1.814|0.889|0.1894
92340860|NCT00810199|184583456|SUPERIORITY_OR_OTHER|||||||0.8742||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 24||||0.8742
92340861|NCT00810199|184583456|SUPERIORITY_OR_OTHER|||||||0.6212||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 52||||0.6212
92156403|NCT04707391|184199193|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers between MenABCWY group and MenACWY group was above -10% for each serogroup Y.|Difference in percentage of participants|0.6|||||TWO_SIDED|0.95|-3.93|3.91||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups Y at 1 month after the second MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||3.91|-3.93|
92217071|NCT04667377|184334315|OTHER|Covariate adjusted fixed effect estimates of mean percentage change in body weight at Week 46 for each treatment group with associated covariance matrix were extracted from the MMRM (including fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors) and used as input for the MCP-Mod.|||||<|0.0001||||||P-value is adjusted for multiplicity.|MCP-Mod - Emax1 model fit|Model Assumption: 90% of maximum effect achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different potential dose-response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 2.5%).||||<0.0001
92340862|NCT00810199|184583456|SUPERIORITY_OR_OTHER|||||||0.0963||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 104||||0.0963
92340863|NCT00810199|184583457|SUPERIORITY_OR_OTHER|||||||0.2969||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 24||||0.2969
92340864|NCT00810199|184583457|SUPERIORITY_OR_OTHER|||||||0.2215||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 52||||0.2215
92340865|NCT00810199|184583457|SUPERIORITY_OR_OTHER|||||||0.1243||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 104||||0.1243
92340866|NCT00810199|184583458|SUPERIORITY_OR_OTHER|||||||0.6775||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 24||||0.6775
92340867|NCT00810199|184583458|SUPERIORITY_OR_OTHER|||||||0.9976||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 52||||0.9976
92340868|NCT00810199|184583458|SUPERIORITY_OR_OTHER|||||||0.2168||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 104||||0.2168
92340869|NCT00810199|184583459|SUPERIORITY_OR_OTHER|||||||0.8369||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 24||||0.8369
92340870|NCT00810199|184583459|SUPERIORITY_OR_OTHER|||||||0.6528||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 52||||0.6528
92340871|NCT00810199|184583459|SUPERIORITY_OR_OTHER|||||||0.2546||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 104||||0.2546
92340872|NCT00810199|184583460|SUPERIORITY_OR_OTHER|||||||0.1018|||||||Log Rank|||||||0.1018
92340873|NCT00810199|184583461|SUPERIORITY_OR_OTHER|||||||0.7176|||||||Log Rank|||||||0.7176
92340874|NCT00810199|184583462|SUPERIORITY_OR_OTHER|||||||0.8526|||||||Log Rank|||||||0.8526
92340875|NCT00810199|184583463|SUPERIORITY_OR_OTHER|||||||0.2217|||||||Log Rank|||||||0.2217
92340876|NCT00810199|184583464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.0008|TWO_SIDED|95.0|-0.41|-0.11|||ANCOVA|Baseline DAS28 as a covariate.||||-0.11|-0.41|0.0008
92156404|NCT04707391|184199194|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in the 4-fold rise in hSBA titers (p\_MenABCWY- p\_MenACWY) is above -10% for serogroup A.|Difference in percentage of participants|-2.5|||||TWO_SIDED|0.95|-5.59|0.47||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups A at 1 month after the first MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||0.47|-5.59|
92156405|NCT04707391|184199194|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers (p\_MenABCWY- p\_MenACWY) is above -10% for serogroup C.|Difference in percentage of participants|0.1|||||TWO_SIDED|0.95|-2.76|2.94||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups C at 1 month after the first MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||2.94|-2.76|
92156406|NCT04707391|184199194|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers (p\_MenABCWY- p\_MenACWY) is above -10% for serogroup W.|Difference in percentage of participants|0.4|||||TWO_SIDED|0.95|-2.41|3.25||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroupsW at 1 month after the first MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||3.25|-2.41|
92156407|NCT04707391|184199194|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers (p\_MenABCWY- p\_MenACWY) is above -10% for serogroup Y.|Difference in percentage of participants|-0.8|||||TWO_SIDED|0.95|-3.62|2.09||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups Y at 1 month after the first MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||2.09|-3.62|
92156408|NCT01406717|184199224|OTHER||ANCOVA|0.0002|||||TWO_SIDED|95.0|-0.31377|0.31418||||||||0.31418|-0.31377|
92156409|NCT01406717|184199225|OTHER||ANCOVA|5.898|||||TWO_SIDED|95.0|-6.7565|18.5535||||||||18.5535|-6.7565|
92156410|NCT01406717|184199226|OTHER||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92156411|NCT01406717|184199228|OTHER|||||||0.6318|||||||ANCOVA|||||||0.6318
92156412|NCT01406717|184199229|OTHER|||||||0.4887|||||||ANOVA|||||||0.4887
92156413|NCT01406717|184199230|OTHER|||||||0.3813|||||||ANOVA|||||||0.3813
92340877|NCT00810199|184583465|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.0245|TWO_SIDED|95.0|1.053|2.109|||Regression, Logistic|Logistic regression including treatment, region and baseline DAS28.|Odds ratio is for Tocilizumab + Methotrexate relative to Tocilizumab + Placebo.|||2.109|1.053|0.0245
92340878|NCT00810199|184583465|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.482||||0.0258||95.0|1.048|2.095||Stratified by region and baseline DAS28 (≤ 5.5 and \> 5.5).|Cochran-Mantel-Haenszel|||||2.095|1.048|0.0258
92399058|NCT00286442|184689831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||<|0.001|TWO_SIDED|95.0|-0.69|-0.34||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.69|<0.001
92399059|NCT00286442|184689832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.69|-0.34||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.69|<0.001
92156414|NCT01406717|184199231|OTHER|||||||0.99|||||||ANOVA|||||||0.9900
92156415|NCT01406717|184199232|OTHER|||||||0.0017|||||||ANOVA|||||||0.0017
92156416|NCT01406717|184199233|OTHER|||||||0.6098|||||||Mantel Haenszel|||||||0.6098
92156417|NCT01406717|184199234|OTHER|||||||0.7324|||||||ANOVA|||||||0.7324
92156418|NCT01406717|184199235|OTHER|||||||0.2984|||||||ANOVA|||||||0.2984
92156419|NCT02040090|184199236|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|We will reject the null hypothesis at the one-sided 5% significance level, and conclude that Cp \> -0.1, if the lower bound of an exact 90% binomial confidence interval (CI) exceeds0.1. A sample size of 53 in each group provides 80% power to reject the null hypothesis.|Mean Difference (Net)|-0.018|||||TWO_SIDED|90.0|-0.082|0.031||||||The null hypothesis was that Cp ≤ -0.1.||0.031|-0.082|
92156420|NCT02275533|184199251|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.38|TWO_SIDED|95.0|0.54|1.56||One-sided p-value|Log Rank|||||1.56|0.54|0.38
92156421|NCT02275533|184199252|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.23|TWO_SIDED|95.0|0.4|1.51||One-sided p-value|Log Rank|||||1.51|0.40|0.23
92156422|NCT02275533|184199254|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92156423|NCT01168674|184199278|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.57|STANDARD_DEVIATION|1.67||0.48|TWO_SIDED||||||Mixed Models Analysis||The report is of the mean MADRS difference between ziprasidone versus placebo after linear mixed regression, correcting for confounding effects of order of treatment as well as other identified potential confounders.|Linear mixed effects regression model||||0.48
92340879|NCT00810199|184583466|SUPERIORITY_OR_OTHER|||||||0.0287||95.0|||||Wald Chi-square|Asymptotic test; parameter estimate is zero.||Week 24||||0.0287
92340880|NCT00810199|184583466|SUPERIORITY_OR_OTHER|||||||0.224|||||||Wald Chi-square|Asymptotic test; parameter estimate is zero.||Week 52||||0.2240
92340881|NCT00810199|184583467|SUPERIORITY_OR_OTHER|||||||0.0497||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.0497
92340882|NCT00810199|184583467|SUPERIORITY_OR_OTHER|||||||0.3918|||||||Wilcoxon (Mann-Whitney)|||Week 52||||0.3918
92156424|NCT02584855|184199280|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and conventional disease-modifying antirheumatic drug (cDMARD) use at the time of double blind randomization.||||<0.001
92156425|NCT02584855|184199281|SUPERIORITY||Odds Ratio (OR)|-45.6|||||TWO_SIDED|95.0|-58.8|-32.3||||||Logistic regression adjusting for treatment, geographic region, and cDMARD use at the time of double-blind randomization .||-32.3|-58.8|
92156426|NCT02584855|184199284|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and cDMARD use at the time of double blind randomization.||||<0.001
92156427|NCT02584855|184199285|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and cDMARD use at the time of double blind randomization.||||<0.001
92156428|NCT02584855|184199286|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and cDMARD use at the time of double blind randomization.||||<0.001
92156429|NCT02584855|184199287|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and cDMARD use at the time of double blind randomization.||||<0.001
92156430|NCT02584855|184199288|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and cDMARD use at the time of double blind randomization.||||<0.001
92156431|NCT00653263|184199293|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Mixed Models Analysis|||Means and ranges were computed for the continuous baseline characteristics.For data with 5 time points (baseline and weeks 1 through 4), hypothesis tests were performed to test for a differences between baseline and each subsequent time point as well as differences between each time point For data with 3 time points hypothesis tests were performed to test for a differences between baseline and wk 2, wk 2 and wk 4, as well as between baseline and wk 4.||||<0.05
92156432|NCT00653263|184199294|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Mixed Models Analysis|||Means and ranges were computed for continuous baseline(BL)characteristics.For longitudinal data,Proc GLIMMIX in SAS was used to fit a Mixed Model with Random Intercept.For data with 5 time points, hypothesis tests were performed to test for a differences between BL and each subsequent time point as well as differences between each time point. For data with 3 time points, hypothesis tests were performed to test for a differences between BL and wk 2,wk 2and wk 4,as well as between BL and wk 4.||||<0.05
92156433|NCT00653263|184199295|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Mixed Models Analysis|||Means and ranges were computed for continuous baseline(BL)characteristics.For longitudinal data,Proc GLIMMIX in SAS was used to fit a Mixed Model with Random Intercept.For data with 5 time points, hypothesis tests were performed to test for a differences between BL and each subsequent time point as well as differences between each time point. For data with 3 time points, hypothesis tests were performed to test for a differences between BL and wk 2,wk 2and wk 4,as well as between BL and wk 4.||||<0.05
92156434|NCT02611830|184199300|SUPERIORITY||Risk Difference (RD)|32.3|||<|0.001|TWO_SIDED|95.0|19.7|45.0||P-value was calculated by Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-α antagonist failure/concomitant immunomodulator.|Cochran-Mantel-Haenszel|||||45.0|19.7|<0.001
92156435|NCT02611830|184199301|SUPERIORITY||Risk Difference (RD)|35.7|||<|0.001|TWO_SIDED|95.0|22.1|49.3||P-value was calculated by CMH test stratified by randomization strata according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-α antagonist failure/concomitant immunomodulator.|Cochran-Mantel-Haenszel|||||49.3|22.1|<0.001
92156436|NCT02611830|184199302|SUPERIORITY||Risk Difference (RD)|36.1|||<|0.001|TWO_SIDED|95.0|21.2|50.9||P-value was calculated by CMH test stratified by randomization strata according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-α antagonist failure/concomitant immunomodulator.|Cochran-Mantel-Haenszel|||||50.9|21.2|<0.001
92156437|NCT02611830|184199303|SUPERIORITY||Risk Difference (RD)|9.7||||0.076|TWO_SIDED|95.0|-6.6|25.7||P-value was calculated by Fisher's Exact Test.|Fisher Exact|||||25.7|-6.6|0.076
92156438|NCT02611830|184199304|SUPERIORITY||Risk Difference (RD)|20.6||||0.067|TWO_SIDED|95.0|-4.5|43.7||P-value was calculated by Fisher's Exact Test.|Fisher Exact|||||43.7|-4.5|0.067
92156439|NCT01155726|184199350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.2|1.4||||||Unmasked minus masked||1.4|-2.2|
92156440|NCT01155726|184199350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-1.5|2.5||||||Unmasked minus masked||2.5|-1.5|
92156441|NCT01155726|184199350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-0.1|2.2||||||Unmasked minus masked||2.2|-0.1|
92274983|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.67|||||TWO_SIDED|95.0|-39.62|72.95||||||For change in global QoL at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||72.95|-39.62|
92156442|NCT01155726|184199350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|0.2|3.5||||||Unmasked minus masked||3.5|0.2|
92156443|NCT01155726|184199350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-3.3|1.2||||||Partial masked minus masked||1.2|-3.3|
92156444|NCT01155726|184199350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-1.9|1.1||||||Partial masked minus masked||1.1|-1.9|
92156445|NCT01155726|184199350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-2.9|2.7||||||Partial masked minus masked||2.7|-2.9|
92156446|NCT01155726|184199350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-1.1|1.9||||||Partial masked minus masked||1.9|-1.1|
92156447|NCT02054247|184199351|SUPERIORITY|||||||0.442|||||||ANOVA|||||||0.442
92156448|NCT02054247|184199352|SUPERIORITY|||||||0.083|||||||ANOVA|||||||0.083
92156449|NCT02054247|184199353|SUPERIORITY|||||||0.125|||||||ANOVA|||||||0.125
92156450|NCT02054247|184199354|SUPERIORITY|||||||0.146|||||||ANOVA|||||||0.146
92156451|NCT05257837|184199356|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92156452|NCT05257837|184199357|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92156453|NCT05257837|184199358|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||.012
92156454|NCT05257837|184199360|SUPERIORITY|||||||0.217|||||||t-test, 2 sided|||||||.217
92156455|NCT05257837|184199361|SUPERIORITY|||||||0.745|||||||t-test, 2 sided|||||||.745
92156456|NCT05675709|184199365|SUPERIORITY|paired t-test||||||0.05|||||||paired t-test|||||||0.05
92156457|NCT05675709|184199366|SUPERIORITY|||||||0.05|||||||generalized estimating equation (GEE)|||||||.05
92340883|NCT00810199|184583468|SUPERIORITY_OR_OTHER|||||||0.0019||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 24||||0.0019
92340884|NCT00810199|184583468|SUPERIORITY_OR_OTHER|||||||0.1181|||||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 52||||0.1181
92340885|NCT00810199|184583469|SUPERIORITY_OR_OTHER|||||||0.7776||||||P-value is from a 2-sided, Wilcoxon rank-sum test of no difference between the 2 treatment groups in change from baseline.|Wilcoxon (Mann-Whitney)|||Week 24||||0.7776
92340886|NCT00810199|184583469|SUPERIORITY_OR_OTHER|||||||0.8843|||||||Wilcoxon (Mann-Whitney)|||Week 52||||0.8843
92340887|NCT00810199|184583470|SUPERIORITY_OR_OTHER|||||||0.9095||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.9095
92340888|NCT00810199|184583470|SUPERIORITY_OR_OTHER|||||||0.7179|||||||Wilcoxon (Mann-Whitney)|||Week 52||||0.7179
92340889|NCT00810199|184583471|SUPERIORITY_OR_OTHER|||||||0.3113||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.3113
92340890|NCT00810199|184583471|SUPERIORITY_OR_OTHER|||||||0.2931||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.2931
92340891|NCT00810199|184583472|SUPERIORITY_OR_OTHER|||||||0.2451||95.0||||P-value is from a 2-sided, Wilcoxon rank-sum test of no difference between the 2 treatment groups in change from baseline.|Wilcoxon (Mann-Whitney)|||Week 24||||0.2451
92274984|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.62|||||TWO_SIDED|95.0|-6.42|61.66||||||For change in physical functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||61.66|-6.42|
92340892|NCT00810199|184583472|SUPERIORITY_OR_OTHER|||||||0.8841||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.8841
92340893|NCT00810199|184583473|SUPERIORITY_OR_OTHER|||||||0.9655||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.9655
92340894|NCT00810199|184583473|SUPERIORITY_OR_OTHER|||||||0.0308||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.0308
92340895|NCT00810199|184583474|SUPERIORITY_OR_OTHER|||||||0.5186||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.5186
92340896|NCT00810199|184583474|SUPERIORITY_OR_OTHER|||||||0.7706||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.7706
92340897|NCT00810199|184583475|SUPERIORITY_OR_OTHER|||||||0.6067||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.6067
92340898|NCT00810199|184583475|SUPERIORITY_OR_OTHER|||||||0.681||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.6810
92340899|NCT00810199|184583476|SUPERIORITY_OR_OTHER|||||||0.9323||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.9323
92340900|NCT00810199|184583476|SUPERIORITY_OR_OTHER|||||||0.1448||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.1448
92340901|NCT00810199|184583477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.2034|TWO_SIDED|95.0|-0.43|0.09||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 24||0.09|-0.43|0.2034
92340902|NCT00810199|184583477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.3611|TWO_SIDED|95.0|-0.88|0.32||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 52||0.32|-0.88|0.3611
92340903|NCT00810199|184583477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0342|TWO_SIDED|95.0|-1.16|-0.05||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 104||-0.05|-1.16|0.0342
92156458|NCT05675709|184199367|SUPERIORITY|||||||0.05|||||||generalized estimating equation (GEE)|||||||.05
92340904|NCT00810199|184583478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.7095|TWO_SIDED|95.0|-0.23|0.16||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 24||0.16|-0.23|0.7095
92340905|NCT00810199|184583478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.8147|TWO_SIDED|95.0|-0.45|0.57||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 52||0.57|-0.45|0.8147
92340906|NCT00810199|184583478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.0778|TWO_SIDED|95.0|-0.67|0.04||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 104||0.04|-0.67|0.0778
92340907|NCT00810199|184583479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.0441|TWO_SIDED|95.0|-0.25|0.0||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 24||-0.00|-0.25|0.0441
92340908|NCT00810199|184583479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.0012|TWO_SIDED|95.0|-0.54|-0.13||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 52||-0.13|-0.54|0.0012
92340909|NCT00810199|184583479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.0372|TWO_SIDED|95.0|-0.56|-0.02||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 104||-0.02|-0.56|0.0372
92340910|NCT00810199|184583480|SUPERIORITY_OR_OTHER||Difference|6.75||||0.0694|TWO_SIDED|95.0|-1.02|14.52|||Cochran-Mantel-Haenszel|Stratified by region and categorical baseline DAS28 (≤ 5.5 and \> 5.5).||Week 52||14.52|-1.02|0.0694
92340911|NCT00810199|184583480|SUPERIORITY_OR_OTHER|||||||0.1695|TWO_SIDED||||||Log Rank|||Week 104||||0.1695
92340912|NCT00810199|184583481|SUPERIORITY_OR_OTHER||Difference|-2.91||||0.0496||95.0|-5.86|0.05|||Cochran-Mantel-Haenszel|Stratified by region and categorical baseline DAS28 (≤ 5.5 and \> 5.5).||||0.05|-5.86|0.0496
92340913|NCT00810199|184583482|SUPERIORITY_OR_OTHER||Difference|-1.48||||0.5188|TWO_SIDED|95.0|-6.59|3.62|||Cochran-Mantel-Haenszel|Stratified by region and categorical baseline DAS28 (≤ 5.5 and \> 5.5).||||3.62|-6.59|0.5188
92340914|NCT00810199|184583483|SUPERIORITY_OR_OTHER|||||||0.2652|||||||Wilcoxon (Mann-Whitney)|||Week 24||||0.2652
92340915|NCT00810199|184583483|SUPERIORITY_OR_OTHER|||||||0.197|||||||Wilcoxon (Mann-Whitney)|||Week 52||||0.1970
92340916|NCT00810199|184583483|SUPERIORITY_OR_OTHER|||||||0.1671|||||||Wilcoxon (Mann-Whitney)|||||||0.1671
92340917|NCT00810199|184583485|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Wald CI)|5.22||||0.111|TWO_SIDED|95.0|-1.2|11.64|||ANCOVA|The analysis of covariance model included treatment group, region and baseline DAS28 (≤ 5.5 and \> 5.5) as fixed factors.||||11.64|-1.20|0.1110
92340918|NCT00810199|184583486|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Wald CI)|-2.11||||0.6027|TWO_SIDED|95.0|-10.07|5.85|||ANCOVA|The analysis of covariance model included treatment group, region and baseline DAS28 (≤ 5.5 and \> 5.5) as fixed factors.||||5.85|-10.07|0.6027
92340919|NCT00810199|184583487|SUPERIORITY_OR_OTHER|||||||0.1695|||||||Log Rank|||||||0.1695
92340920|NCT00810199|184583488|SUPERIORITY_OR_OTHER|||||||0.0096|||||||Log Rank|||||||0.0096
92340921|NCT00810199|184583489|SUPERIORITY_OR_OTHER|||||||0.0734|||||||Log Rank|||||||0.0734
92340922|NCT01691378|184583501|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.03|TWO_SIDED|95.0|0.52|8.3|||ANCOVA|||"Analyses 2-sided test w/ sig level .05. N=35 analyzed w/ α .05 provided 80% power to detect effect size d=1. T1 variables compared using Wilcoxon rank sum \& Fisher exact tests. Per protocol analysis, all participants required T2 BHS.~T2 BHS compared bet arms controlling for T1 BHS. No confounders significant at .10, not included in model. Analysis of covariance modeled T2 BHS as function of arm \& T1 BHS. Estimated mean difference in T2 scores calculated, no adjustment for multiple comparisons."||8.3|.52|.03
92340923|NCT01691378|184583501|SUPERIORITY||Mean Difference (Final Values)|-4.6||||0.01|TWO_SIDED|95.0|-7.9|-1.3|||Regression, Linear|||"Analysis contrasted T1 to T2 change with T2 to T3 change in Waitlist arm only. Waitlist participants serve as their own control \& only variable controlled for was change in Waitlist period (if participants improved greatly during Waitlist period, they would no longer have enough room to change in Intervention period). Linear regression used with difference in change as dependent variable \& Waitlist period change as only predictor. Estimated mean difference in change calculated from this model."||-1.3|-7.9|.01
92340924|NCT01691378|184583501|SUPERIORITY||Mean Difference (Final Values)|-6.3||||0.0007|TWO_SIDED|95.0|-9.3|-3.2|||one-sample t-test|||Analysis investigated change from T1 to T3 within the WtoH Intervention first arm only. This difference was calculated and a 1-sample t test was used to determine whether the estimate was different from zero. As this change was not compared with a control group change, baseline values were not accounted for.||-3.2|-9.3|.0007
92340925|NCT01691378|184583502|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.07|TWO_SIDED|95.0|-0.29|8.0|||ANCOVA|||"Analyses 2-sided test w/ sig level .05. N=35 analyzed w/ α .05 provided 80% power to detect effect size d=1. T1 variables compared using Wilcoxon rank sum \& Fisher exact tests. Per protocol analysis, all participants required T2 BHS.~T2 BSS compared bet arms controlling for T1 BSS. No confounders significant at .10, not included in model. Analysis of covariance modeled T2 BSS as function of arm \& T1 BSS. Estimated mean difference in T2 scores calculated, no adjustment for multiple comparisons."||8.0|-.29|.07
92340926|NCT01691378|184583502|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.94|TWO_SIDED|95.0|-3.3|3.1|||Regression, Linear|||"Analysis contrasted T1 to T2 change with T2 to T3 change in Waitlist arm only. Waitlist participants serve as their own control \& only variable controlled for was change in Waitlist period (if participants improved greatly during Waitlist period, they would no longer have enough room to change in Intervention period). Linear regression used with difference in change as dependent variable \& Waitlist period change as only predictor. Estimated mean difference in change calculated from this model."||3.1|-3.3|.94
92340927|NCT01691378|184583502|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.06|TWO_SIDED|95.0|-7.0|0.12|||one-sample t-test|||Analysis investigated change from T1 to T3 within the WtoH Intervention first arm only. This difference was calculated and a 1-sample t test was used to determine whether the estimate was different from zero. As this change was not compared with a control group change, baseline values were not accounted for.||.12|-7.0|.06
92340928|NCT01691378|184583503|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.13|TWO_SIDED|95.0|-1.7|12.9|||ANCOVA|||"Analyses 2-sided test w/ sig level .05. N=35 analyzed w/ α .05 provided 80% power to detect effect size d=1. T1 variables compared using Wilcoxon rank sum \& Fisher exact tests. Per protocol analysis, all participants required T2 BHS.~T2 BDI compared bet arms controlling for T1 BDI. No confounders significant at .10, not included in model. Analysis of covariance modeled T2 BDI as function of arm \& T1 BDI. Estimated mean difference in T2 scores calculated, no adjustment for multiple comparisons."||12.9|-1.7|.13
92340929|NCT01691378|184583503|SUPERIORITY||Mean Difference (Final Values)|-8.7||||0.003|TWO_SIDED|95.0|-13.8|-3.6|||Regression, Linear|||"Analysis contrasted T1 to T2 change with T2 to T3 change in Waitlist arm only. Waitlist participants serve as their own control \& only variable controlled for was change in Waitlist period (if participants improved greatly during Waitlist period, they would no longer have enough room to change in Intervention period). Linear regression used with difference in change as dependent variable \& Waitlist period change as only predictor. Estimated mean difference in change calculated from this model."||-3.6|-13.8|.003
92399060|NCT00286442|184689832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.69|-0.34||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.69|<0.001
92340930|NCT01691378|184583503|SUPERIORITY||Mean Difference (Final Values)|-11.6||||0.002|TWO_SIDED|95.0|-18.0|-5.3|||one-sample t-test|||Analysis investigated change from T1 to T3 within the WtoH Intervention first arm only. This difference was calculated and a 1-sample t test was used to determine whether the estimate was different from zero. As this change was not compared with a control group change, baseline values were not accounted for.||-5.3|-18.0|.002
92340931|NCT01107925|184583522|NON_INFERIORITY_OR_EQUIVALENCE|Difference in median MPA in response to 20 μM ADP in LBW participants who received 5 mg prasugrel to the 75th percentile of MPA response to 20 μM ADP in HBW participants who received10 mg prasugrel at the end of Study Period 1 (Baseline through Day 12) was estimated from the observed data.|Estimate of the difference|-10.1||||0.526|TWO_SIDED|95.0|-23.4|0.2|||bootstrap (to determine 95% CI)||Estimate of the difference = \[median (low body weight) - Q3 (higher body weight)\]|||0.20|-23.40|0.526
92340932|NCT04235504|184583527|SUPERIORITY||Mean Difference (Final Values)|-1.42|||<|0.0001|TWO_SIDED|95.0|-1.74|-1.1|||linear mixed model|||||-1.10|-1.74|<0.0001
92340933|NCT04235504|184583528|SUPERIORITY||Mean Difference (Final Values)|27.59|||<|0.0001|TWO_SIDED|95.0|21.59|33.6|||linear mixed model|||||33.60|21.59|<0.0001
92405591|NCT02215252|184701379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.75|||||TWO_SIDED|90.0|1.43|15.81||||||Statistical analysis is only for Week 4. Logistic Regression using all data up to Week 4.||15.81|1.43|
92340934|NCT04235504|184583529|SUPERIORITY||Mean Difference (Final Values)|-27.86|||<|0.0001|TWO_SIDED|95.0|-34.16|-21.55|||linear mixed model|||||-21.55|-34.16|<0.0001
92340935|NCT04235504|184583530|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.6227|TWO_SIDED|95.0|-0.37|0.61|||linear mixed model|||||0.61|-0.37|0.6227
92340936|NCT04235504|184583531|SUPERIORITY||Mean Difference (Final Values)|-1.08|||||TWO_SIDED|95.0|-2.17|0.0||Due to the small sample size, p value will not be meaningful. Therefore, p value is not presented|linear mixed model|||||0.00|-2.17|
92340937|NCT04235504|184583532|SUPERIORITY||Mean Difference (Final Values)|28.81|||||TWO_SIDED|95.0|12.34|45.28||Due to the small sample size, p value will not be meaningful. Therefore, p value is not presented|linear mixed model|||||45.28|12.34|
92340938|NCT04235504|184583533|SUPERIORITY||Mean Difference (Final Values)|-28.45|||||TWO_SIDED|95.0|-45.27|-11.64||Due to the small sample size, p value will not be meaningful. Therefore, p value is not presented|linear mixed model|||||-11.64|-45.27|
92340939|NCT04235504|184583534|SUPERIORITY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-1.32|0.59||Due to the small sample size, p value will not be meaningful. Therefore, p value is not presented|linear mixed model|||||0.59|-1.32|
92340940|NCT01868646|184583580|SUPERIORITY|||||||0.0002||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.0002
92340941|NCT01868646|184583581|SUPERIORITY|||||||0.0426||||||"The p-value associated with treatment factor of changes from baseline to Week 4, 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.0426
92340942|NCT01868646|184583582|SUPERIORITY|||||||0.599||||||"The p-value associated with treatment factor of changes from baseline to Week 4, 8, 12, 18, 24, 30 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.5990
92340943|NCT01868646|184583583|SUPERIORITY|||||||0.6215||||||"The p-value associated with treatment factor of mean value at baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.6215
92156459|NCT01254565|184199375|SUPERIORITY|The primary endpoint was tested at the 0.05 level (1-sided).|LS Mean Difference|-76.9|||<|0.0001|TWO_SIDED|95.0|-86.9|-50.0|||ANOVA|A rank analysis of variance (ANOVA) model with treatment and screening PTH (\< 600 pg/mL or ≥ 600 pg/mL) as factors.||The hypothesis for this study (Cohorts 2 and 3) was that intravenous administration of etelcalcetide is superior to placebo for the reduction of PTH after TIW dosing in hemodialysis patients with secondary HPT. This hypothesis was tested in Cohorts 2 and 3 by comparing the mean percent changes from baseline in pre-hemodialysis PTH levels collected during the efficacy phase between the etelcalcetide and placebo groups within each cohort.||-50.0|-86.9|<0.0001
92274985|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.19|||||TWO_SIDED|95.0|-29.28|81.66||||||For change in role functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||81.66|-29.28|
92340944|NCT01868646|184583584|SUPERIORITY|||||||0.6155||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of Total cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.6155
92340945|NCT01868646|184583584|SUPERIORITY|||||||0.7507||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of HDL cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.7507
92340946|NCT01868646|184583584|SUPERIORITY|||||||0.4195||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of LDL cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.4195
92340947|NCT01868646|184583584|SUPERIORITY|||||||0.3609||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of Triglycerides changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.3609
92340948|NCT01868646|184583585|SUPERIORITY|||||||0.0605|||||||t-test, 2 sided|||||||0.0605
92340949|NCT01868646|184583586|SUPERIORITY|||||||0.0726|||||||t-test, 2 sided|||||||0.0726
92340950|NCT01868646|184583587|SUPERIORITY|||||||0.3108|||||||Fisher Exact|||||||0.3108
92340951|NCT01868646|184583588|SUPERIORITY|||||||0.2934|||||||t-test, 2 sided|||||||0.2934
92340952|NCT01868646|184583589|SUPERIORITY|||||||0.341|||||||t-test, 2 sided|||||||0.3410
92340953|NCT01868646|184583590|SUPERIORITY|||||||0.1577|||||||t-test, 2 sided|||Satisfaction||||0.1577
92340954|NCT01868646|184583590|SUPERIORITY|||||||0.5262|||||||t-test, 2 sided|||Hyperglycemia||||0.5262
92340955|NCT01868646|184583590|SUPERIORITY|||||||0.7417|||||||t-test, 2 sided|||Hypoglycemia||||0.7417
92340956|NCT01249417|184583599|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-0.38||||0.0029|TWO_SIDED|95.0|-0.64|-0.13|||ANCOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, age range at baseline, BTX status at baseline and centre as covariates.||-0.13|-0.64|0.0029
92340957|NCT01249417|184583599|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-0.49||||0.0002|TWO_SIDED|95.0|-0.75|-0.23|||ANCOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, age range at baseline, BTX status at baseline and centre as covariates.||-0.23|-0.75|0.0002
92340958|NCT01249417|184583600|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|0.82|||<|0.0001|TWO_SIDED|95.0|0.5|1.14|||ANOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANOVA on the visit value with treatment, age range at baseline, BTX status at baseline and centre as covariates.||1.14|0.50|<0.0001
92340959|NCT01249417|184583600|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|0.77|||<|0.0001|TWO_SIDED|95.0|0.45|1.1|||ANOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANOVA on the visit value with treatment, age range at baseline, BTX status at baseline and centre as covariates.||1.10|0.45|<0.0001
92340960|NCT01249417|184583601|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|5.32||||0.0006|TWO_SIDED|95.0|2.31|8.32|||ANOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANOVA on the visit value with treatment, age range at baseline, BTX status at baseline and centre as covariates.||8.32|2.31|0.0006
92340961|NCT01249417|184583601|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.65||||0.0031|TWO_SIDED|95.0|1.59|7.71|||ANOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANOVA on the visit value with treatment, age range at baseline, BTX status at baseline and centre as covariates.||7.71|1.59|0.0031
92340962|NCT01854697|184583602|NON_INFERIORITY_OR_EQUIVALENCE|The primary endpoint assessment comparison was made within each of the 2 HCV genotypes (GT1a and GT1b). Within HCV GT1a, the 3-DAA + RBV and TPV/PR arms were compared. Within HCV GT1b, the 3-DAA and TPV/PR arms were compared. The test treatment arm was considered noninferior to the TPV/PR arm in the respective HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|14.7|||||TWO_SIDED|95.0|1.3|28.2|||||Difference (95% CI) from TPV/PR within GT1a. Calculated using the normal approximation to the binomial distribution.|||28.2|1.3|
92340963|NCT01854697|184583602|NON_INFERIORITY_OR_EQUIVALENCE|The primary endpoint assessment comparison was made within each of the 2 HCV genotypes (GT1a and GT1b). Within HCV GT1a, the 3-DAA + RBV and TPV/PR arms were compared. Within HCV GT1b, the 3-DAA and TPV/PR arms were compared. The test treatment arm was considered noninferior to the TPV/PR arm in the respective HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|19.5|||||TWO_SIDED|95.0|6.4|32.6|||||Difference (95% CI) from TPV/PR within GT1b. Calculated using the normal approximation to the binomial distribution.|||32.6|6.4|
92340964|NCT01854697|184583603|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.13|STANDARD_ERROR_OF_MEAN|2.28||0.351|TWO_SIDED|95.0|-2.39|6.65|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||6.65|-2.39|0.351
92340965|NCT01854697|184583603|SUPERIORITY_OR_OTHER||Least Squares Mean of Difference|5.83|STANDARD_ERROR_OF_MEAN|1.84||0.002|TWO_SIDED|95.0|2.19|9.47|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||9.47|2.19|0.002
92340966|NCT01854697|184583603|SUPERIORITY_OR_OTHER||Least Squares Mean of Difference|5.28|STANDARD_ERROR_OF_MEAN|1.65||0.002|TWO_SIDED|95.0|2.01|8.54|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||8.54|2.01|0.002
92340967|NCT01854697|184583604|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.08|STANDARD_ERROR_OF_MEAN|1.69|<|0.001|TWO_SIDED|95.0|2.72|9.44|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||9.44|2.72|<0.001
92156460|NCT01254565|184199375|SUPERIORITY|The primary endpoint was tested at the 0.05 level (1-sided).|LS Mean Difference|-36.7||||0.0032|TWO_SIDED|95.0|-59.8|-13.6|||ANOVA|ANOVA model with treatment and screening PTH (\< 600 pg/mL or ≥ 600 pg/mL) as factors.||The hypothesis for this study (Cohorts 2 and 3) was that intravenous administration of etelcalcetide is superior to placebo for the reduction of PTH after TIW dosing in hemodialysis patients with secondary HPT. This hypothesis was tested in Cohorts 2 and 3 by comparing the mean percent changes from baseline in pre-hemodialysis PTH levels collected during the efficacy phase between the etelcalcetide and placebo groups within each cohort.||-13.6|-59.8|0.0032
92156461|NCT01254565|184199376|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92340968|NCT01854697|184583604|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.2|STANDARD_ERROR_OF_MEAN|1.34|<|0.001|TWO_SIDED|95.0|3.55|8.85|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||8.85|3.55|<0.001
92340969|NCT01854697|184583604|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.86|STANDARD_ERROR_OF_MEAN|1.27|<|0.001|TWO_SIDED|95.0|4.36|9.37|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||9.37|4.36|<0.001
92340970|NCT01854697|184583605|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.2||||0.021|TWO_SIDED|95.0|1.4|38.0|||Regression, Logistic|Logistic regression model with treatment arm, baseline log10 HCV RNA level, and interleukin 28B (IL28B) genotype (CC versus non-CC) as predictors.||||38.0|1.4|0.021
92340971|NCT01854697|184583605|NON_INFERIORITY_OR_EQUIVALENCE|The test treatment arm was considered noninferior to the TPV/PR arm in the GT1b HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|20.8|||||TWO_SIDED|95.0|7.9|33.6|||||Difference (95% CI) from TPV/PR within GT1b. Calculated using the normal approximation to the binomial distribution.|||33.6|7.9|
92340972|NCT01854697|184583605|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|28.2||||0.002|TWO_SIDED|95.0|3.3|241.1|||Regression, Logistic|Calculated using logistic regression model with treatment arm, baseline log10 HCV RNA level, and IL28B genotype (CC versus non-CC) as predictors.||||241.1|3.3|0.002
92340973|NCT01854697|184583605|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratum-adjusted Cochran-Mantel-Haenszel after adjusting for IL28B genotype (CC or non-CC).||||||0.005
92156462|NCT01254565|184199376|SUPERIORITY|||||||0.0968|||||||Fisher Exact|||||||0.0968
92156463|NCT01254565|184199377|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92156464|NCT01254565|184199377|SUPERIORITY|||||||0.073|||||||Fisher Exact|||||||0.0730
92156465|NCT01254565|184199378|SUPERIORITY||LS Mean Difference|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.4|-8.4|||ANOVA|A rank ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||-8.4|-16.4|< 0.0001
92156466|NCT01254565|184199378|SUPERIORITY||LS Mean Difference|-6.9||||0.0235|TWO_SIDED|95.0|-12.8|-1.0|||ANOVA|ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||-1.0|-12.8|0.0235
92156467|NCT01254565|184199379|SUPERIORITY||LS Mean Difference|-4.2||||0.2255|TWO_SIDED|95.0|-18.6|5.7|||ANOVA|A rank ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||5.7|-18.6|0.2255
92156468|NCT01254565|184199379|SUPERIORITY||LS mean Difference|-21.8||||0.1751|TWO_SIDED|95.0|-29.8|5.9|||ANOVA|A rank ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||5.9|-29.8|0.1751
92156469|NCT01254565|184199380|SUPERIORITY||LS Mean Difference|-11.2||||0.0112|TWO_SIDED|95.0|-26.8|-4.9|||ANOVA|A rank ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||-4.9|-26.8|0.0112
92156470|NCT01254565|184199380|SUPERIORITY||LS Mean Difference|-27.7||||0.0554|TWO_SIDED|95.0|-39.3|-1.6|||ANOVA|A rank ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||-1.6|-39.3|0.0554
92156471|NCT02971891|184199470|SUPERIORITY|||||||0.1789|||||||Cochran-Mantel-Haenszel|||||||0.1789
92156472|NCT01196104|184199489|NON_INFERIORITY_OR_EQUIVALENCE|Study terminated early due to business reasons, results are not properly powered.|Mean Difference (Final Values)|-0.0473|STANDARD_ERROR_OF_MEAN|0.2158||0.8283|TWO_SIDED|95.0|-0.4901|0.3956|||ANCOVA|||ANCOVA model with terms of treatment as a fixed effect and baseline HbA1c as covariate||0.3956|-0.4901|0.8283
92156473|NCT04496167|184199530|OTHER||Least Square Mean Treatment Difference|1.386||||0.659|TWO_SIDED|95.0|-4.804|7.577||Considered significant if p-value is less than 0.05.|MMRM||"The model included treatment, visit and interaction of treatment, visit as fixed effects, Baseline as a covariate, and repeated measures with visit/participant.~Treatment difference: EN3835 - Placebo"|Mixed Model Repeated Measures (MMRM) was performed to estimate the change from Baseline treatment effect of the adapted ASES composite score in the affected shoulder comparing EN3835 to placebo treatment.||7.577|-4.804|0.659
92156474|NCT00598481|184199562|SUPERIORITY|||||||0.005|||||||One-sided Poisson-regression|||||||0.005
92340974|NCT01854697|184583608|NON_INFERIORITY_OR_EQUIVALENCE|The test treatment arm was considered noninferior to the TPV/PR arm in the GT1a HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|13.3|||||TWO_SIDED|95.0|-0.4|27.0|||||Difference (95% CI) from TPV/PR within GT1a. Calculated using the normal approximation to the binomial distribution.|||27.0|-0.4|
92340975|NCT01854697|184583608|NON_INFERIORITY_OR_EQUIVALENCE|The test treatment arm was considered noninferior to the TPV/PR arm in the GT1b HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|19.6|||||TWO_SIDED|95.0|6.5|32.7|||||Difference (95% CI) from TPV/PR within GT1b. Calculated using the normal approximation to the binomial distribution.|||32.7|6.5|
92156475|NCT00598481|184199563|SUPERIORITY||Geometric mean ratio|3.0||||0.003|TWO_SIDED|95.0|1.45|6.19||P value related to geometric mean ratio at 1 year post gene therapy compared to baseline|Mixed Model Repeated Measures|||||6.19|1.45|0.003
92156476|NCT00598481|184199563|SUPERIORITY||Geometric mean ratio|5.4|||<|0.001|TWO_SIDED|95.0|2.63|11.25||P value related to geometric mean ratio at 2 years post gene therapy compared to baseline|Mixed Model Repeated Measures|||||11.25|2.63|<0.001
92156477|NCT00598481|184199563|SUPERIORITY||Geometric mean ratio|6.5|||<|0.001|TWO_SIDED|95.0|3.08|13.64||P value related to geometric mean ratio at 3 years post gene therapy compared to baseline|Mixed Model Repeated Measures|||||13.64|3.08|<0.001
92156478|NCT01232556|184199642|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.083||||0.708|TWO_SIDED|95.0|0.82|1.44||A one sided 0.025 level testing plan was specified with two interim analyses and final testing level at one-sided 0.023.|Log Rank|From one sided stratified log-rank test.|From stratified Cox proportional hazards model. The stratification factors are are pre-randomization investigator choice, baseline Secondary International Prognostic Index (sIPI), and best response to most recent chemo therapy.|Primary null hypothesis: Equality of survival distributions. Sample size sufficient to have power 0.96 for an experimental/control hazard ratio of 0.6.||1.44|0.82|0.708
92156479|NCT01232556|184199643|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.924||||0.271|TWO_SIDED|95.0|0.72|1.19||An hierarchical testing strategy was specified for OS, PFS and response. PFS could be tested at the 0.023 level if the OS test result were positive. Response could be tested if both the OS and PFS test results were positive.|Log Rank|From one sided stratified log-rank test.|From stratified Cox proportional hazards model. The stratification factors are are pre-randomization investigator choice, baseline sIPI, and best response to most recent chemo therapy.|Second comparison in hierarchical testing strategy was used for power calculation.||1.19|0.72|0.271
92156480|NCT01232556|184199644|SUPERIORITY_OR_OTHER|||||||0.843||||||An hierarchical testing strategy was specified for OS, PFS and response. PFS could be tested at the 0.023 level if the OS test result were positive. Response could be tested if both the OS and PFS test results were positive.|Cochran-Mantel-Haenszel|The stratification factors are pre-randomization investigator choice, baseline sIPI, and best response to most recent chemo therapy.||Third comparison in hierarchical testing strategy was used for power calculation.||||0.843
92156481|NCT01232556|184199645|SUPERIORITY_OR_OTHER|||||||0.714||||||An hierarchical testing strategy was specified for OS, PFS and response. PFS could be tested at the 0.023 level if the OS test result were positive. Response could be tested if both the OS and PFS test results were positive.|Cochran-Mantel-Haenszel|The stratification factors are pre-randomization investigator choice, baseline sIPI, and best response to most recent chemo therapy.||Third comparison in hierarchical testing strategy was used for power calculation.||||0.714
92156482|NCT01232556|184199646|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.142|TWO_SIDED|95.0|0.47|1.25|||Log Rank|From one sided stratified log-rank test.|From stratified Cox proportional hazards model. The stratification factors are pre-randomization investigator choice, baseline sIPI, and best response to most recent chemo therapy.|DOR was not part of the formal hypothesis testing strategy.||1.25|0.47|0.142
92156483|NCT01232556|184199647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.2892|TWO_SIDED|95.0|-0.02|0.06|||Mixed Models Analysis|Repeated measures mixed effects model with treatment, time, treatment-by-time interaction, and baseline as covariate.||||0.06|-0.02|0.2892
92156484|NCT01232556|184199648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.11||||0.1879|TWO_SIDED|95.0|-1.52|7.74|||Mixed Models Analysis|Repeated measures mixed effects model with treatment, time, treatment-by-time interaction, and baseline as covariate.||||7.74|-1.52|0.1879
92274986|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.57|||||TWO_SIDED|95.0|-63.74|56.6||||||For change in emotional functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||56.6|-63.74|
92340976|NCT01854697|184583608|NON_INFERIORITY_OR_EQUIVALENCE|The test treatment arm was considered noninferior to the TPV/PR arm in the GT1b HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|19.5|||||TWO_SIDED|95.0|6.4|32.6|||||Difference (95% CI) from TPV/PR within GT1b. Calculated using the normal approximation to the binomial distribution.|||32.6|6.4|
92156485|NCT03785340|184199655|SUPERIORITY|"The endpoints were tested in a fixed sequence, proceeding to the next endpoint until a p-value \>0.05 was found:~1. Change from baseline to 4 weeks (Day 28) in SANDE score~2. Change from baseline to 4 weeks (Day 28) in Lissamine Green conjunctival staining scores~3. Change from baseline to 2 weeks (Day 14) in SANDE score~4. Change from baseline to 2 weeks (Day 14) in Lissamine Green conjunctival staining scores"|Least squares mean difference|-0.844||||0.739|TWO_SIDED|95.0|-5.823|4.134|||Mixed Model Repeated Measures Analysis||Change from baseline to 4 weeks (Day 28) in SANDE score; OCU-310 vs. Placebo|Four endpoints (two primary and two secondary) were to be tested in a fixed sequence, proceeding to the next endpoint until a p-value \>0.05 was found. The analysis of the four outcomes employed a repeated measures mixed model with mean change from baseline score at the stated time point as the response with baseline score as a covariate and treatment, visit, and their interaction as fixed effects. The least squares mean difference (OCU 310 - placebo) at the stated time point was tested.||4.134|-5.823|0.739
92156486|NCT01607411|184199670|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.59|||<|0.0001|TWO_SIDED|95.0|3.6|7.58||No adjustment was required for multiple comparisons as the primary comparison was pre-specified.|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||7.58|3.60|<0.0001
92156487|NCT01607411|184199670|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.36|||<|0.0001|TWO_SIDED|95.0|2.37|6.35||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||6.35|2.37|<0.0001
92156488|NCT01607411|184199670|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.16||||0.0021|TWO_SIDED|95.0|1.17|5.15||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||5.15|1.17|0.0021
92156489|NCT01607411|184199671|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.23||||0.2225|TWO_SIDED|95.0|-0.76|3.22||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||3.22|-0.76|0.2225
92156490|NCT01607411|184199671|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.44||||0.0168|TWO_SIDED|95.0|0.44|4.43||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||4.43|0.44|0.0168
92156491|NCT01607411|184199671|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.2||||0.2352|TWO_SIDED|95.0|-0.79|3.19||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||3.19|-0.79|0.2352
92156492|NCT01607411|184199672|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|34.65|||<|0.0001|TWO_SIDED|95.0|30.07|39.24||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||39.24|30.07|<0.0001
92156493|NCT01607411|184199672|SUPERIORITY_OR_OTHER||Adjusted Mean difference|34.86|||<|0.0001|TWO_SIDED|95.0|30.28|39.44||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||39.44|30.28|<0.0001
92156494|NCT01607411|184199672|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|28.55|||<|0.0001|TWO_SIDED|95.0|23.97|33.13||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||33.13|23.97|< 0.0001
92274987|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.81|||||TWO_SIDED|95.0|-31.66|79.28||||||For change in cognitive functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||79.28|-31.66|
92340977|NCT05556148|184583620|OTHER||Mean Difference (Final Values)|-1.54||||0.2968|TWO_SIDED|95.0|-4.44|1.37|||Student's paired t-test|||Change from Baseline at Day 1||1.37|-4.44|0.2968
92340978|NCT05556148|184583620|OTHER||Mean Difference (Final Values)|-15.36|||<|0.0001|TWO_SIDED|95.0|-19.77|-10.95|||Student's paired t-test|||Change from Baseline at Day 2||-10.95|-19.77|<.0001
92217072|NCT04667377|184334315|OTHER|Covariate adjusted fixed effect estimates of mean percentage change in body weight at Week 46 for each treatment group with associated covariance matrix were extracted from the MMRM (including fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors) and used as input for the MCP-Mod.|||||<|0.0001||||||P-value is adjusted for multiplicity.|MCP-Mod - Emax2 model fit|Model Assumption: 70% of maximum effect achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different potential dose-response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 2.5%).||||<0.0001
92340979|NCT05556148|184583620|OTHER||Mean Difference (Final Values)|-27.27|||<|0.0001|TWO_SIDED|95.0|-33.06|-21.49|||Student's paired t-test|||Change from Baseline at Day 3||-21.49|-33.06|<.0001
92156495|NCT01607411|184199672|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21||||0.9292|TWO_SIDED|95.0|-4.79|4.38||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||4.38|-4.79|0.9292
92156496|NCT01607411|184199672|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.1||||0.0094|TWO_SIDED|95.0|1.52|10.69||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||10.69|1.52|0.0094
92156497|NCT01607411|184199672|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.31||||0.0073|TWO_SIDED|95.0|1.72|10.89||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||10.89|1.72|0.0073
92156498|NCT01607411|184199673|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.78|||<|0.0001|TWO_SIDED|95.0|0.58|0.98||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random factor|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.98|0.58|<0.0001
92156499|NCT01607411|184199673|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.79|||<|0.0001|TWO_SIDED|95.0|0.58|0.99||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.99|0.58|<0.0001
92156500|NCT01607411|184199673|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.49|||<|0.0001|TWO_SIDED|95.0|0.29|0.69||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.69|0.29|< 0.0001
92156501|NCT01607411|184199673|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.005||||0.9631|TWO_SIDED|95.0|-0.21|0.2||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.20|-0.21|0.9631
92156502|NCT01607411|184199673|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.29||||0.0047|TWO_SIDED|95.0|0.09|0.49||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.49|0.09|0.0047
92156503|NCT01607411|184199673|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.3||||0.004|TWO_SIDED|95.0|0.1|0.5||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.50|0.10|0.0040
92156504|NCT00544544|184199690|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<.001
92156505|NCT00544544|184199691|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92156506|NCT00544544|184199692|SUPERIORITY_OR_OTHER|||||||0.38|||||||Mixed Models Analysis|||||||0.38
92156507|NCT00544544|184199693|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92156508|NCT03277378|184199707|NON_INFERIORITY|The hypothesis was tested at the 5% significance level.||||||0.0003|||||||Farrington- Manning non-inferioirty test|||"The hypothesis was formally addressed as:~H0: AB - TB ≤ -15% H1: AB - TB \> -15% where AB = permanent system qualification rate of Group 1 (AB) TB = permanent system qualification rate of Group 2 (TB)"||||0.0003
92274988|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.57|||||TWO_SIDED|95.0|-53.82|110.96||||||For change in social functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||110.96|-53.82|
92156509|NCT03277378|184199708|OTHER|||||||0.25|||||||Chi-squared|||"The hypothesis was formally addressed as:~H0: P ≤ 60% H1: P \> 60% where P= percentage of physician prefer anatomic placement over targeted placement.~The analysis population included physicians who have performed both placement procedures. The hypothesis was tested at the 5% significance level."||||0.2500
92156510|NCT02102464|184199742|SUPERIORITY||Mean Difference (Final Values)|11.0|||<|0.0001|TWO_SIDED|95.0|8.0|14.0|||t-test, 2 sided|||||14.0|8.0|<0.0001
92156511|NCT02102464|184199743|SUPERIORITY||Mean Difference (Final Values)|-7.7|||<|0.0001|TWO_SIDED|95.0|-10.2|-5.2|||t-test, 2 sided|||||-5.2|-10.2|<0.0001
92156512|NCT02102464|184199744|SUPERIORITY||Mean Difference (Final Values)|3.9|||<|0.0001|TWO_SIDED|95.0|2.5|5.4|||t-test, 2 sided|||||5.4|2.5|<0.0001
92156513|NCT01053637|184199754|SUPERIORITY|||||||0.05||||||Pain at 5 minutes using Children's Hospital of Eastern Ontario Pain Scale validated in the younger population. Using a 2-point difference in CHEOPS pain scale as a clinically significant change, 34 patients were required in the younger 2- to 7 group.|Fisher Exact|||Children's Hospital of Eastern Ontario Pain Scale, for children 2-7 years. This score ranks 6 categories: Cry, Facial expression, Verbal Response, Torso movement, Touch, and Leg movement. The scale varies by each category from 0-2 or 1-2 or 1-3; such that a minimum score is 4 (no pain) and a maximum score is 13 signifying greatest or worst pain.||||0.05
92156514|NCT01053637|184199755|OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||State-Trait Anxiety Inventory for Children pre vs. post procedure for matched pairs. Higher numbers indicated higher state anxiety. State Trait Anxiety Inventory for Children (STAIC) scores pre vs. post procedure for matched pairs. A lower STAIC score indicates less anxiety and a greater score indicates more anxiety based on Likert-type scales and analyzed using nonparametric testing.||||0.05
92156515|NCT02404493|184199769|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One-sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92156516|NCT02404493|184199769|SUPERIORITY_OR_OTHER|||||||0.023||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.023
92156517|NCT02404493|184199769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|422.81|STANDARD_ERROR_OF_MEAN|122.905||0.003|TWO_SIDED|95.0|166.435|679.186||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||679.186|166.435|0.003
92156518|NCT02404493|184199770|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92156519|NCT02404493|184199770|SUPERIORITY_OR_OTHER|||||||0.754||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.754
92340980|NCT05556148|184583620|OTHER||Mean Difference (Final Values)|-35.05|||<|0.0001|TWO_SIDED|95.0|-41.69|-28.41|||Student's paired t-test|||Change from Baseline at Day 4||-28.41|-41.69|<.0001
92340981|NCT05556148|184583620|OTHER||Mean Difference (Final Values)|-38.49|||<|0.0001|TWO_SIDED|95.0|-45.87|-31.11|||Student's paired t-test|||Change from Baseline at Day 5||-31.11|-45.87|<.0001
92340982|NCT05556148|184583620|OTHER||Mean Difference (Final Values)|-39.67|||<|0.0001|TWO_SIDED|95.0|-48.46|-30.88|||Student's paired t-test|||Change from Baseline at Day 6||-30.88|-48.46|<.0001
92340983|NCT05556148|184583620|OTHER||Mean Difference (Final Values)|-52.6|||<|0.0001|TWO_SIDED|95.0|-63.69|-41.51|||Student's paired t-test|||Change from Baseline at Day 7||-41.51|-63.69|<.0001
92340984|NCT05556148|184583621|OTHER||Mean Difference (Final Values)|0.29||||0.7112|TWO_SIDED|95.0|-1.27|1.86|||Student's paired t-test|||Change from Baseline at Day 1||1.86|-1.27|0.7112
92274989|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.16|||||TWO_SIDED|95.0|-94.53|34.21||||||For change in fatigue at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||34.21|-94.53|
92340985|NCT05556148|184583621|OTHER||Mean Difference (Final Values)|-6.21|||<|0.0001|TWO_SIDED|95.0|-8.51|-3.92|||Student's paired t-test|||Change from Baseline at Day 2||-3.92|-8.51|<.0001
92340986|NCT05556148|184583621|OTHER||Mean Difference (Final Values)|-12.11|||<|0.0001|TWO_SIDED|95.0|-15.0|-9.22|||Student's paired t-test|||Change from Baseline at Day 3||-9.22|-15.00|<.0001
92340987|NCT05556148|184583621|OTHER||Mean Difference (Final Values)|-15.98|||<|0.0001|TWO_SIDED|95.0|-19.24|-12.71|||Student's paired t-test|||Change from Baseline at Day 4||-12.71|-19.24|<.0001
92340988|NCT05556148|184583621|OTHER||Mean Difference (Final Values)|-19.44|||<|0.0001|TWO_SIDED|95.0|-23.29|-15.59|||Student's paired t-test|||Change from Baseline at Day 5||-15.59|-23.29|<.0001
92340989|NCT05556148|184583621|OTHER||Mean Difference (Final Values)|-19.36|||<|0.0001|TWO_SIDED|95.0|-24.03|-14.69|||Student's paired t-test|||Change from Baseline at Day 6||-14.69|-24.03|<.0001
92340990|NCT05556148|184583621|OTHER||Mean Difference (Final Values)|-25.4|||<|0.0001|TWO_SIDED|95.0|-31.87|-18.93|||Student's paired t-test|||Change from Baseline at Day 7||-18.93|-31.87|<.0001
92340991|NCT05556148|184583622|OTHER||Mean Difference (Final Values)|-1.83||||0.0481|TWO_SIDED|95.0|-3.64|-0.02|||Student's paired t-test|||Change from Baseline at Day 1||-0.02|-3.64|0.0481
92156520|NCT02404493|184199770|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|52.3|STANDARD_ERROR_OF_MEAN|19.21||0.013|TWO_SIDED|95.0|12.23|92.373||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||92.373|12.230|0.013
92156521|NCT02404493|184199771|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92340992|NCT05556148|184583622|OTHER||Mean Difference (Final Values)|-9.14|||<|0.0001|TWO_SIDED|95.0|-11.74|-6.55|||Student's paired t-test|||Change from Baseline at Day 2||-6.55|-11.74|<.0001
92156522|NCT02404493|184199771|SUPERIORITY_OR_OTHER|||||||0.271||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.271
92156523|NCT02404493|184199771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|167.95|STANDARD_ERROR_OF_MEAN|48.21||0.002|TWO_SIDED|95.0|67.046|268.854||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||268.854|67.046|0.002
92156524|NCT02404493|184199772|SUPERIORITY_OR_OTHER|||||||0.002||||||The significance level threshold level was 0.05.|One-sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.002
92156525|NCT02404493|184199772|SUPERIORITY_OR_OTHER|||||||0.26||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.260
92156526|NCT02404493|184199772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|221.97|STANDARD_ERROR_OF_MEAN|100.674||0.04|TWO_SIDED|95.0|11.254|432.68||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||432.680|11.254|0.040
92156527|NCT02404493|184199773|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92156528|NCT02404493|184199773|SUPERIORITY_OR_OTHER|||||||0.22||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.220
92156529|NCT02404493|184199773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|194.0|STANDARD_ERROR_OF_MEAN|68.461||0.011|TWO_SIDED|95.0|50.712|337.291||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||337.291|50.712|0.011
92217073|NCT04667377|184334315|OTHER|Covariate adjusted fixed effect estimates of mean percentage change in body weight at Week 46 for each treatment group with associated covariance matrix were extracted from the MMRM (including fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors) and used as input for the MCP-Mod.|||||<|0.0001||||||P-value is adjusted for multiplicity.|MCP-Mod - Sigmoid Emax model fit|Model Assumption: 50% of maximum effect achieved at dose 2.4 mg, 90% of maximum effect achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different potential dose-response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 2.5%).||||<0.0001
92340993|NCT05556148|184583622|OTHER||Mean Difference (Final Values)|-15.16|||<|0.0001|TWO_SIDED|95.0|-18.44|-11.88|||Student's paired t-test|||Change from Baseline at Day 3||-11.88|-18.44|<.0001
92340994|NCT05556148|184583622|OTHER||Mean Difference (Final Values)|-19.07|||<|0.0001|TWO_SIDED|95.0|-22.84|-15.3|||Student's paired t-test|||Change from Baseline at Day 4||-15.30|-22.84|<.0001
92340995|NCT05556148|184583622|OTHER||Mean Difference (Final Values)|-19.05|||<|0.0001|TWO_SIDED|95.0|-23.35|-14.75|||Student's paired t-test|||Change from Baseline at Day 5||-14.75|-23.35|<.0001
92340996|NCT05556148|184583622|OTHER||Mean Difference (Final Values)|-20.31|||<|0.0001|TWO_SIDED|95.0|-25.7|-14.92|||Student's paired t-test|||Change from Baseline at Day 6||-14.92|-25.70|<.0001
92340997|NCT05556148|184583622|OTHER||Mean Difference (Final Values)|-27.2|||<|0.0001|TWO_SIDED|95.0|-32.48|-21.92|||Student's paired t-test|||Change from Baseline at Day 7||-21.92|-32.48|<.0001
92340998|NCT05556148|184583623|OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.31|0.31|||Student's paired t-test|||Change from Baseline at Day 1||0.31|-0.31|1.0000
92340999|NCT05556148|184583623|OTHER||Mean Difference (Final Values)|-0.63||||0.0003|TWO_SIDED|95.0|-0.97|-0.3|||Student's paired t-test|||Change from Baseline at Day 2||-0.30|-0.97|0.0003
92341000|NCT05556148|184583623|OTHER||Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.7|||Student's paired t-test|||Change from Baseline at Day 3||-0.70|-1.50|<.0001
92156530|NCT02404493|184199774|SUPERIORITY_OR_OTHER|||||||0.002||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.002
92156531|NCT02404493|184199774|SUPERIORITY_OR_OTHER|||||||0.06||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.060
92156532|NCT02404493|184199774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|134.9|STANDARD_ERROR_OF_MEAN|79.567||0.107|TWO_SIDED|95.0|-32.266|302.063||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||302.063|-32.266|0.107
92156533|NCT02404493|184199775|SUPERIORITY_OR_OTHER|||||||0.692||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.692
92156534|NCT02404493|184199775|SUPERIORITY_OR_OTHER|||||||0.541||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.541
92341001|NCT05556148|184583623|OTHER||Mean Difference (Final Values)|-1.72|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.24|||Student's paired t-test|||Change from Baseline at Day 4||-1.24|-2.20|<.0001
92156535|NCT02404493|184199775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.18||0.492|TWO_SIDED|95.0|-0.25|0.502||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.502|-0.250|0.492
92156536|NCT02404493|184199776|SUPERIORITY_OR_OTHER|||||||0.017||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.017
92156537|NCT02404493|184199776|SUPERIORITY_OR_OTHER|||||||0.223||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.223
92156538|NCT02404493|184199776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.231||0.518|TWO_SIDED|95.0|-0.635|0.331||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.331|-0.635|0.518
92156539|NCT02404493|184199777|SUPERIORITY_OR_OTHER|||||||0.005||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.005
92341002|NCT05556148|184583623|OTHER||Mean Difference (Final Values)|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.33|-1.16|||Student's paired t-test|||Change from Baseline at Day 5||-1.16|-2.33|<.0001
92341003|NCT05556148|184583623|OTHER||Mean Difference (Final Values)|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.51|-1.28|||Student's paired t-test|||Change from Baseline at Day 6||-1.28|-2.51|<.0001
92341004|NCT05556148|184583623|OTHER||Mean Difference (Final Values)|-2.47|||<|0.0001|TWO_SIDED|95.0|-3.29|-1.64|||Student's paired t-test|||Change from Baseline at Day 7||-1.64|-3.29|<.0001
92399061|NCT00286442|184689833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.001|TWO_SIDED|95.0|-20.7|-6.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates. Missing data imputed with LOCF.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the metformin arm.|||-6.8|-20.7|<0.001
92399062|NCT00286442|184689833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.9|||<|0.001|TWO_SIDED|95.0|-18.9|-4.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates. Missing data imputed with LOCF.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the metformin arm.|||-4.9|-18.9|<0.001
92156540|NCT02404493|184199777|SUPERIORITY_OR_OTHER|||||||0.821||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.821
92156541|NCT02404493|184199777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.351||0.06|TWO_SIDED|95.0|-1.435|0.032||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.032|-1.435|0.060
92156542|NCT02404493|184199778|SUPERIORITY_OR_OTHER|||||||0.007||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.007
92156543|NCT02404493|184199778|SUPERIORITY_OR_OTHER|||||||0.051||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.051
92341005|NCT05556148|184583624|OTHER||Mean Difference (Final Values)|-0.39||||0.0023|TWO_SIDED|95.0|-0.64|-0.14|||Student's paired t-test|||Change from Baseline at Day 1||-0.14|-0.64|0.0023
92341006|NCT05556148|184583624|OTHER||Mean Difference (Final Values)|-1.47|||<|0.0001|TWO_SIDED|95.0|-1.82|-1.12|||Student's paired t-test|||Change from Baseline at Day 2||-1.12|-1.82|<.0001
92341007|NCT05556148|184583624|OTHER||Mean Difference (Final Values)|-1.99|||<|0.0001|TWO_SIDED|95.0|-2.4|-1.58|||Student's paired t-test|||Change from Baseline at Day 3||-1.58|-2.40|<.0001
92156544|NCT02404493|184199778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.188||0.926|TWO_SIDED|95.0|-0.41|0.375||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.375|-0.410|0.926
92156545|NCT02404493|184199779|SUPERIORITY_OR_OTHER|||||||0.58||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.580
92156546|NCT02404493|184199779|SUPERIORITY_OR_OTHER|||||||0.363||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.363
92341008|NCT05556148|184583624|OTHER||Mean Difference (Final Values)|-2.43|||<|0.0001|TWO_SIDED|95.0|-2.86|-2.0|||Student's paired t-test|||Change from Baseline at Day 4||-2.00|-2.86|<.0001
92341009|NCT05556148|184583624|OTHER||Mean Difference (Final Values)|-3.0|||<|0.0001|TWO_SIDED|95.0|-3.51|-2.49|||Student's paired t-test|||Change from Baseline at Day 5||-2.49|-3.51|<.0001
92341010|NCT05556148|184583624|OTHER||Mean Difference (Final Values)|-2.77|||<|0.0001|TWO_SIDED|95.0|-3.36|-2.18|||Student's paired t-test|||Change from Baseline at Day 6||-2.18|-3.36|<.0001
92341011|NCT05556148|184583624|OTHER||Mean Difference (Final Values)|-3.33|||<|0.0001|TWO_SIDED|95.0|-4.1|-2.57|||Student's paired t-test|||Change from Baseline at Day 7||-2.57|-4.10|<.0001
92156547|NCT02404493|184199779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.539|TWO_SIDED|95.0|-0.531|0.286||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.286|-0.531|0.539
92156548|NCT02404493|184199780|SUPERIORITY_OR_OTHER|||||||0.055||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.055
92156549|NCT02404493|184199780|SUPERIORITY_OR_OTHER|||||||0.076||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.076
92156550|NCT02404493|184199780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.682|TWO_SIDED|95.0|-0.672|0.449||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.449|-0.672|0.682
92156551|NCT02404493|184199781|SUPERIORITY_OR_OTHER|||||||0.004||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.004
92156552|NCT02404493|184199781|SUPERIORITY_OR_OTHER|||||||0.025||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.025
92156553|NCT02404493|184199781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.24||0.991|TWO_SIDED|95.0|-0.509|0.514||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.514|-0.509|0.991
92156554|NCT02404493|184199782|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92156555|NCT02404493|184199782|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92341012|NCT05556148|184583625|OTHER||Mean Difference (Final Values)|-0.11||||0.4495|TWO_SIDED|95.0|-0.4|0.18|||Student's paired t-test|||Change from Baseline at Day 1||0.18|-0.40|0.4495
92341013|NCT05556148|184583625|OTHER||Mean Difference (Final Values)|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.19|-0.54|||Student's paired t-test|||Change from Baseline at Day 2||-0.54|-1.19|<.0001
92341014|NCT05556148|184583625|OTHER||Mean Difference (Final Values)|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.59|-0.82|||Student's paired t-test|||Change from Baseline at Day 3||-0.82|-1.59|<.0001
92156556|NCT02404493|184199782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.19||0.334|TWO_SIDED|95.0|-0.214|0.6||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.600|-0.214|0.334
92156557|NCT02404493|184199783|SUPERIORITY_OR_OTHER|||||||0.169||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.169
92156558|NCT02404493|184199783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.24||0.317|TWO_SIDED|95.0|-0.778|0.278||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.278|-0.778|0.317
92156559|NCT02404493|184199784|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92156560|NCT02404493|184199784|SUPERIORITY_OR_OTHER|||||||0.182||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.182
92274990|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-83.26|49.93||||||For change in nausea and vomiting at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||49.93|-83.26|
92341015|NCT05556148|184583625|OTHER||Mean Difference (Final Values)|-1.59|||<|0.0001|TWO_SIDED|95.0|-2.05|-1.12|||Student's paired t-test|||Change from Baseline at Day 4||-1.12|-2.05|<.0001
92341016|NCT05556148|184583625|OTHER||Mean Difference (Final Values)|-1.86|||<|0.0001|TWO_SIDED|95.0|-2.4|-1.33|||Student's paired t-test|||Change from Baseline at Day 5||-1.33|-2.40|<.0001
92341017|NCT05556148|184583625|OTHER||Mean Difference (Final Values)|-1.85|||<|0.0001|TWO_SIDED|95.0|-2.45|-1.24|||Student's paired t-test|||Change from Baseline at Day 6||-1.24|-2.45|<.0001
92341018|NCT05556148|184583625|OTHER||Mean Difference (Final Values)|-2.47|||<|0.0001|TWO_SIDED|95.0|-3.19|-1.75|||Student's paired t-test|||Change from Baseline at Day 7||-1.75|-3.19|<.0001
92341019|NCT05556148|184583626|OTHER||Mean Difference (Final Values)|0.11||||0.4758|TWO_SIDED|95.0|-0.2|0.42|||Student's paired t-test|||Change from Baseline at Day 1||0.42|-0.20|0.4758
92341020|NCT05556148|184583626|OTHER||Mean Difference (Final Values)|-0.61||||0.0016|TWO_SIDED|95.0|-0.99|-0.24|||Student's paired t-test|||Change from Baseline at Day 2||-0.24|-0.99|0.0016
92156561|NCT02404493|184199784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.027|TWO_SIDED|95.0|-0.931|-0.069||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.069|-0.931|0.027
92156562|NCT02404493|184199785|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92156563|NCT02404493|184199785|SUPERIORITY_OR_OTHER|||||||0.08||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.080
92341021|NCT05556148|184583626|OTHER||Mean Difference (Final Values)|-1.23|||<|0.0001|TWO_SIDED|95.0|-1.67|-0.79|||Student's paired t-test|||Change from Baseline at Day 3||-0.79|-1.67|<.0001
92341022|NCT05556148|184583626|OTHER||Mean Difference (Final Values)|-1.67|||<|0.0001|TWO_SIDED|95.0|-2.18|-1.16|||Student's paired t-test|||Change from Baseline at Day 4||-1.16|-2.18|<.0001
92341023|NCT05556148|184583626|OTHER||Mean Difference (Final Values)|-1.98|||<|0.0001|TWO_SIDED|95.0|-2.46|-1.51|||Student's paired t-test|||Change from Baseline at Day 5||-1.51|-2.46|<.0001
92341024|NCT05556148|184583626|OTHER||Mean Difference (Final Values)|-2.08|||<|0.0001|TWO_SIDED|95.0|-2.77|-1.39|||Student's paired t-test|||Change from Baseline at Day 6||-1.39|-2.77|<.0001
92156564|NCT02404493|184199785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.699|TWO_SIDED|95.0|-0.824|0.574||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.574|-0.824|0.699
92156565|NCT02404493|184199786|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92156566|NCT02404493|184199786|SUPERIORITY_OR_OTHER|||||||0.058||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.058
92156567|NCT02404493|184199786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.33||0.711|TWO_SIDED|95.0|-0.607|0.857||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.857|-0.607|0.711
92156568|NCT02404493|184199787|SUPERIORITY_OR_OTHER|||||||0.006||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.006
92156569|NCT02404493|184199787|SUPERIORITY_OR_OTHER|||||||0.012||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.012
92156570|NCT02404493|184199787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.194||0.932|TWO_SIDED|95.0|-0.391|0.424||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.424|-0.391|0.932
92156571|NCT02404493|184199788|SUPERIORITY_OR_OTHER|||||||0.003||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.003
92156572|NCT02404493|184199788|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92156573|NCT02404493|184199788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.228||0.767|TWO_SIDED|95.0|-0.41|0.547||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.547|-0.410|0.767
92156574|NCT02404493|184199789|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92274991|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.76|||||TWO_SIDED|95.0|-97.98|88.45||||||For change in pain at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||88.45|-97.98|
92341025|NCT05556148|184583626|OTHER||Mean Difference (Final Values)|-2.87|||<|0.0001|TWO_SIDED|95.0|-3.65|-2.08|||Student's paired t-test|||Change from Baseline at Day 7||-2.08|-3.65|<.0001
92341026|NCT05556148|184583627|OTHER||Mean Difference (Final Values)|-0.04||||0.8017|TWO_SIDED|95.0|-0.36|0.28|||Student's paired t-test|||Change from Baseline at Day 1||0.28|-0.36|0.8017
92341027|NCT05556148|184583627|OTHER||Mean Difference (Final Values)|-0.67||||0.0005|TWO_SIDED|95.0|-1.05|-0.3|||Student's paired t-test|||Change from Baseline at Day 2||-0.30|-1.05|0.0005
92341028|NCT05556148|184583627|OTHER||Mean Difference (Final Values)|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.69|-0.89|||Student's paired t-test|||Change from Baseline at Day 3||-0.89|-1.69|<.0001
92341029|NCT05556148|184583627|OTHER||Mean Difference (Final Values)|-1.41|||<|0.0001|TWO_SIDED|95.0|-1.86|-0.97|||Student's paired t-test|||Change from Baseline at Day 4||-0.97|-1.86|<.0001
92341030|NCT05556148|184583627|OTHER||Mean Difference (Final Values)|-1.98|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.47|||Student's paired t-test|||Change from Baseline at Day 5||-1.47|-2.50|<.0001
92399063|NCT00286442|184689834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.7|||<|0.001|TWO_SIDED|95.0|-23.9|-9.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates. Missing data imputed with LOCF.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.5|-23.9|<0.001
92399064|NCT00286442|184689834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|||<|0.001|TWO_SIDED|95.0|-24.1|-9.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates. Missing data imputed with LOCF.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.6|-24.1|<0.001
92399065|NCT00286442|184689835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|||<|0.001|TWO_SIDED|95.0|-24.6|-11.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-11.0|-24.6|<0.001
92399066|NCT00286442|184689835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.5|||<|0.001|TWO_SIDED|95.0|-24.3|-10.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.6|-24.3|<0.001
92399067|NCT00286442|184689836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.1|||<|0.001|TWO_SIDED|95.0|-28.0|-12.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.2|-28.0|<0.001
92399068|NCT00286442|184689836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6|||<|0.001|TWO_SIDED|95.0|-25.6|-9.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.7|-25.6|<0.001
92399069|NCT00286442|184689837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.2|||<|0.001|TWO_SIDED|95.0|-25.6|-8.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.9|-25.6|<0.001
92156575|NCT02404493|184199789|SUPERIORITY_OR_OTHER|||||||0.004||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.004
92156576|NCT02404493|184199789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.242||0.571|TWO_SIDED|95.0|-0.65|0.37||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.370|-0.650|0.571
92156577|NCT01778062|184199889|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92156578|NCT00950937|184199893|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
92274992|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.11|||||TWO_SIDED|95.0|-86.68|64.46||||||For change in dyspnea at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||64.46|-86.68|
92399070|NCT00286442|184689837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.0|||<|0.001|TWO_SIDED|95.0|-25.4|-8.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.6|-25.4|<0.001
92399071|NCT00286442|184689838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1|||<|0.001|TWO_SIDED|95.0|-27.4|-10.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.8|-27.4|<0.001
92156579|NCT00950937|184199893|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156580|NCT00950937|184199893|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156581|NCT00950937|184199894|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
92156582|NCT00950937|184199894|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156583|NCT00950937|184199894|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156584|NCT00950937|184199895|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
92156585|NCT00950937|184199895|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92341031|NCT05556148|184583627|OTHER||Mean Difference (Final Values)|-1.95|||<|0.0001|TWO_SIDED|95.0|-2.61|-1.29|||Student's paired t-test|||Change from Baseline at Day 6||-1.29|-2.61|<.0001
92156586|NCT00950937|184199895|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156587|NCT00950937|184199896|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
92341032|NCT05556148|184583627|OTHER||Mean Difference (Final Values)|-2.4|||<|0.0001|TWO_SIDED|95.0|-3.26|-1.54|||Student's paired t-test|||Change from Baseline at Day 7||-1.54|-3.26|<.0001
92341033|NCT05556148|184583628|OTHER||Mean Difference (Final Values)|0.03||||0.8311|TWO_SIDED|95.0|-0.25|0.31|||Student's paired t-test|||Change from Baseline at Day 1||0.31|-0.25|0.8311
92341034|NCT05556148|184583628|OTHER||Mean Difference (Final Values)|-0.41||||0.0313|TWO_SIDED|95.0|-0.78|-0.04|||Student's paired t-test|||Change from Baseline at Day 2||-0.04|-0.78|0.0313
92341035|NCT05556148|184583628|OTHER||Mean Difference (Final Values)|-0.84||||0.0003|TWO_SIDED|95.0|-1.28|-0.39|||Student's paired t-test|||Change from Baseline at Day 3||-0.39|-1.28|0.0003
92341036|NCT05556148|184583628|OTHER||Mean Difference (Final Values)|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.51|-0.59|||Student's paired t-test|||Change from Baseline at Day 4||-0.59|-1.51|<.0001
92341037|NCT05556148|184583628|OTHER||Mean Difference (Final Values)|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.74|-0.66|||Student's paired t-test|||Change from Baseline at Day 5||-0.66|-1.74|<.0001
92341038|NCT05556148|184583628|OTHER||Mean Difference (Final Values)|-1.05||||0.0018|TWO_SIDED|95.0|-1.69|-0.42|||Student's paired t-test|||Change from Baseline at Day 6||-0.42|-1.69|0.0018
92156588|NCT00950937|184199896|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156589|NCT00950937|184199896|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156590|NCT00950937|184199897|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
92341039|NCT05556148|184583628|OTHER||Mean Difference (Final Values)|-1.27||||0.0041|TWO_SIDED|95.0|-2.1|-0.43|||Student's paired t-test|||Change from Baseline at Day 7||-0.43|-2.10|0.0041
92341040|NCT05556148|184583629|OTHER||Mean Difference (Final Values)|0.01||||0.938|TWO_SIDED|95.0|-0.25|0.27|||Student's paired t-test|||Change from Baseline at Day 1||0.27|-0.25|0.9380
92156591|NCT00950937|184199897|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156592|NCT00950937|184199897|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156593|NCT00950937|184199898|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
92156594|NCT00950937|184199898|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156595|NCT00950937|184199898|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
92156596|NCT00950937|184199899|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|Paired t-test was utilized to compare the two groups (HIV group and Control group)||||||<0.05
92156597|NCT03317379|184199916|SUPERIORITY||estimate of fixed effects|0.03|STANDARD_ERROR_OF_MEAN|0.1||0.8|TWO_SIDED|95.0|-0.17|0.22||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.22|-0.17|.80
92341041|NCT05556148|184583629|OTHER||Mean Difference (Final Values)|-0.37||||0.0416|TWO_SIDED|95.0|-0.72|-0.01|||Student's paired t-test|||Change from Baseline at Day 2||-0.01|-0.72|0.0416
92341042|NCT05556148|184583629|OTHER||Mean Difference (Final Values)|-0.96|||<|0.0001|TWO_SIDED|95.0|-1.29|-0.62|||Student's paired t-test|||Change from Baseline at Day 3||-0.62|-1.29|<.0001
92341043|NCT05556148|184583629|OTHER||Mean Difference (Final Values)|-1.18|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.76|||Student's paired t-test|||Change from Baseline at Day 4||-0.76|-1.60|<.0001
92341044|NCT05556148|184583629|OTHER||Mean Difference (Final Values)|-1.76|||<|0.0001|TWO_SIDED|95.0|-2.25|-1.27|||Student's paired t-test|||Change from Baseline at Day 5||-1.27|-2.25|<.0001
92341045|NCT05556148|184583629|OTHER||Mean Difference (Final Values)|-1.69|||<|0.0001|TWO_SIDED|95.0|-2.33|-1.05|||Student's paired t-test|||Change from Baseline at Day 6||-1.05|-2.33|<.0001
92341046|NCT05556148|184583629|OTHER||Mean Difference (Final Values)|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.08|-1.52|||Student's paired t-test|||Change from Baseline at Day 7||-1.52|-3.08|<.0001
92341047|NCT05556148|184583630|OTHER||Mean Difference (Final Values)|0.04||||0.7821|TWO_SIDED|95.0|-0.25|0.33|||Student's paired t-test|||Change from Baseline at Day 1||0.33|-0.25|0.7821
92341048|NCT05556148|184583630|OTHER||Mean Difference (Final Values)|-0.77|||<|0.0001|TWO_SIDED|95.0|-1.14|-0.39|||Student's paired t-test|||Change from Baseline at Day 2||-0.39|-1.14|<.0001
92341049|NCT05556148|184583630|OTHER||Mean Difference (Final Values)|-1.62|||<|0.0001|TWO_SIDED|95.0|-2.05|-1.19|||Student's paired t-test|||Change from Baseline at Day 3||-1.19|-2.05|<.0001
92341050|NCT05556148|184583630|OTHER||Mean Difference (Final Values)|-2.29|||<|0.0001|TWO_SIDED|95.0|-2.73|-1.86|||Student's paired t-test|||Change from Baseline at Day 4||-1.86|-2.73|<.0001
92341051|NCT05556148|184583630|OTHER||Mean Difference (Final Values)|-2.46|||<|0.0001|TWO_SIDED|95.0|-2.98|-1.94|||Student's paired t-test|||Change from Baseline at Day 5||-1.94|-2.98|<.0001
92341052|NCT05556148|184583630|OTHER||Mean Difference (Final Values)|-2.64|||<|0.0001|TWO_SIDED|95.0|-3.36|-1.92|||Student's paired t-test|||Change from Baseline at Day 6||-1.92|-3.36|<.0001
92341053|NCT05556148|184583630|OTHER||Mean Difference (Final Values)|-3.2|||<|0.0001|TWO_SIDED|95.0|-4.19|-2.21|||Student's paired t-test|||Change from Baseline at Day 7||-2.21|-4.19|<.0001
92341054|NCT05556148|184583631|OTHER||Mean Difference (Final Values)|0.44||||0.0003|TWO_SIDED|95.0|0.21|0.68|||Student's paired t-test|||Change from Baseline at Day 1||0.68|0.21|0.0003
92156598|NCT03317379|184199916|SUPERIORITY||estimate of fixed effects|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.32|TWO_SIDED|95.0|-0.1|0.3||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.30|-0.10|.32
92156599|NCT03317379|184199917|SUPERIORITY||estimate of fixed effects|0.14|STANDARD_ERROR_OF_MEAN|0.05||0.01|TWO_SIDED|95.0|0.03|0.24||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.24|0.03|0.01
92156600|NCT03317379|184199917|SUPERIORITY||estimate of fixed effects|0.08|STANDARD_ERROR_OF_MEAN|0.07||0.28|TWO_SIDED|95.0|-0.07|0.23||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.23|-.07|0.28
92156601|NCT03317379|184199918|SUPERIORITY||estimate of fixed effects|0.61|STANDARD_ERROR_OF_MEAN|0.28||0.03|TWO_SIDED|95.0|0.06|1.16||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||1.16|0.06|0.03
92156602|NCT03317379|184199918|SUPERIORITY||estimate of fixed effects|0.68|STANDARD_ERROR_OF_MEAN|0.29||0.02|TWO_SIDED|95.0|0.09|1.27|||Mixed Models Analysis|||||1.27|0.09|0.02
92156603|NCT03317379|184199919|SUPERIORITY||estimate of fixed effects|0.2|STANDARD_ERROR_OF_MEAN|0.11||0.08|TWO_SIDED|95.0|-0.02|0.42||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.42|-0.02|0.08
92156604|NCT03317379|184199919|SUPERIORITY||estimate of fixed effects|0.18|STANDARD_ERROR_OF_MEAN|0.12||0.12|TWO_SIDED|95.0|-0.04|0.41||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.41|-0.04|0.12
92156605|NCT03317379|184199920|SUPERIORITY||estimate of fixed effects|0.03|STANDARD_ERROR_OF_MEAN|0.22||0.18|TWO_SIDED|95.0|-0.14|0.74||the a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||0.74|-0.14|0.18
92156606|NCT03317379|184199920|SUPERIORITY||estimate of fixed effects|0.16|STANDARD_ERROR_OF_MEAN|0.23||0.5|TWO_SIDED|95.0|-0.3|0.62||the a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||0.62|-0.30|0.50
92156607|NCT04445155|184199928|SUPERIORITY|||||||0.125|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||0.125
92274993|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.76|||||TWO_SIDED|95.0|-55.41|64.93||||||For change in insomnia at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||64.93|-55.41|
92341055|NCT05556148|184583631|OTHER||Mean Difference (Final Values)|-0.07||||0.646|TWO_SIDED|95.0|-0.38|0.24|||Student's paired t-test|||Change from Baseline at Day 2||0.24|-0.38|0.6460
92341056|NCT05556148|184583631|OTHER||Mean Difference (Final Values)|-0.59||||0.0021|TWO_SIDED|95.0|-0.95|-0.22|||Student's paired t-test|||Change from Baseline at Day 3||-0.22|-0.95|0.0021
92341057|NCT05556148|184583631|OTHER||Mean Difference (Final Values)|-0.83||||0.0002|TWO_SIDED|95.0|-1.25|-0.41|||Student's paired t-test|||Change from Baseline at Day 4||-0.41|-1.25|0.0002
92156608|NCT04445155|184199930|SUPERIORITY|||||||0.011|||||||Paired t-test|||"Null Hypothesis: The means of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The means of the scores are different at baseline and immediately post-intervention."||||0.011
92156609|NCT04445155|184199931|SUPERIORITY|||||||0.002|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||0.002
92156610|NCT04445155|184199931|SUPERIORITY|||||||0.008|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||0.008
92156611|NCT04445155|184199932|SUPERIORITY||||||<|0.001|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||<0.001
92156612|NCT04445155|184199932|SUPERIORITY|||||||0.002|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||0.002
92156613|NCT04445155|184199933|SUPERIORITY||||||<|0.001|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||<0.001
92156614|NCT04445155|184199933|SUPERIORITY|||||||0.125|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||0.125
92156615|NCT04191135|184199939|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4556|TWO_SIDED|95.0|0.72|1.33||One-sided p-value based on log-rank test stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|Log Rank||Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||1.33|0.72|0.4556
92156616|NCT04191135|184199940|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.3903|TWO_SIDED|95.0|0.64|1.4||One-sided p-value based on log-rank test stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|Log Rank||Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||1.40|0.64|0.3903
92156617|NCT04191135|184199941|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.59|1.43|||||Estimate based on stratified Cox model with Efron's method of tie handling with treatment as a covariate stratified by response to the induction therapy (CR or PR versus SD) and BRCA status (BRCAm versus BRCAwt).|||1.43|0.59|
92341058|NCT05556148|184583631|OTHER||Mean Difference (Final Values)|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.68|-0.73|||Student's paired t-test|||Change from Baseline at Day 5||-0.73|-1.68|<.0001
92399072|NCT00286442|184689838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.7|||<|0.001|TWO_SIDED|95.0|-25.0|-8.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.3|-25.0|<0.001
92399073|NCT00286442|184689839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.1|||<|0.001|TWO_SIDED|95.0|-26.7|-9.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.4|-26.7|<0.001
92341059|NCT05556148|184583631|OTHER||Mean Difference (Final Values)|-1.36||||0.0003|TWO_SIDED|95.0|-2.04|-0.68|||Student's paired t-test|||Change from Baseline at Day 6||-0.68|-2.04|0.0003
92341060|NCT05556148|184583631|OTHER||Mean Difference (Final Values)|-2.13|||<|0.0001|TWO_SIDED|95.0|-2.95|-1.32|||Student's paired t-test|||Change from Baseline at Day 7||-1.32|-2.95|<.0001
92341061|NCT05556148|184583632|OTHER||Mean Difference (Final Values)|0.2||||0.1074|TWO_SIDED|95.0|-0.04|0.45|||Student's paired t-test|||Change from Baseline at Day 1||0.45|-0.04|0.1074
92341062|NCT05556148|184583632|OTHER||Mean Difference (Final Values)|-0.35||||0.0364|TWO_SIDED|95.0|-0.67|-0.02|||Student's paired t-test|||Change from Baseline at Day 2||-0.02|-0.67|0.0364
92341063|NCT05556148|184583632|OTHER||Mean Difference (Final Values)|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.68|-0.91|||Student's paired t-test|||Change from Baseline at Day 3||-0.91|-1.68|<.0001
92341064|NCT05556148|184583632|OTHER||Mean Difference (Final Values)|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.25|-1.36|||Student's paired t-test|||Change from Baseline at Day 4||-1.36|-2.25|<.0001
92341065|NCT05556148|184583632|OTHER||Mean Difference (Final Values)|-2.24|||<|0.0001|TWO_SIDED|95.0|-2.78|-1.69|||Student's paired t-test|||Change from Baseline at Day 5||-1.69|-2.78|<.0001
92399074|NCT00286442|184689839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.5|||<|0.001|TWO_SIDED|95.0|-24.2|-6.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.8|-24.2|<0.001
92274994|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.52|||||TWO_SIDED|95.0|-129.86|110.82||||||For change in appetite loss at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||110.82|-129.86|
92341066|NCT05556148|184583632|OTHER||Mean Difference (Final Values)|-2.08|||<|0.0001|TWO_SIDED|95.0|-2.7|-1.45|||Student's paired t-test|||Change from Baseline at Day 6||-1.45|-2.70|<.0001
92341067|NCT05556148|184583632|OTHER||Mean Difference (Final Values)|-2.97|||<|0.0001|TWO_SIDED|95.0|-3.84|-2.1|||Student's paired t-test|||Change from Baseline at Day 7||-2.10|-3.84|<.0001
92399075|NCT00286442|184689840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.7|||<|0.001|TWO_SIDED|95.0|-27.3|-10.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.2|-27.3|<0.001
92399076|NCT00286442|184689840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4|||<|0.001|TWO_SIDED|95.0|-25.9|-8.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.8|-25.9|<0.001
92341068|NCT05556148|184583633|OTHER||Mean Difference (Final Values)|-1.88|||<|0.0001|TWO_SIDED|95.0|-2.33|-1.43|||Student's paired t-test|||Day 1||-1.43|-2.33|<.0001
92341069|NCT05556148|184583633|OTHER||Mean Difference (Final Values)|-2.45|||<|0.0001|TWO_SIDED|95.0|-2.9|-2.01|||Student's paired t-test|||Day 2||-2.01|-2.90|<.0001
92341070|NCT05556148|184583633|OTHER||Mean Difference (Final Values)|-2.9|||<|0.0001|TWO_SIDED|95.0|-3.41|-2.39|||Student's paired t-test|||Day 3||-2.39|-3.41|<.0001
92341071|NCT05556148|184583633|OTHER||Mean Difference (Final Values)|-3.3|||<|0.0001|TWO_SIDED|95.0|-3.82|-2.77|||Student's paired t-test|||Day 4||-2.77|-3.82|<.0001
92341072|NCT05556148|184583633|OTHER||Mean Difference (Final Values)|-2.95|||<|0.0001|TWO_SIDED|95.0|-3.53|-2.37|||Student's paired t-test|||Day 5||-2.37|-3.53|<.0001
92341073|NCT05556148|184583633|OTHER||Mean Difference (Final Values)|-3.26|||<|0.0001|TWO_SIDED|95.0|-3.98|-2.53|||Student's paired t-test|||Day 6||-2.53|-3.98|<.0001
92341074|NCT05556148|184583633|OTHER||Mean Difference (Final Values)|-3.12|||<|0.0001|TWO_SIDED|95.0|-4.08|-2.16|||Student's paired t-test|||Day 7||-2.16|-4.08|<.0001
92341075|NCT05556148|184583634|OTHER||Mean Difference (Final Values)|-1.72|||<|0.0001|TWO_SIDED|95.0|-2.14|-1.31|||Student's paired t-test|||Day 1||-1.31|-2.14|<.0001
92341076|NCT05556148|184583634|OTHER||Mean Difference (Final Values)|-2.12|||<|0.0001|TWO_SIDED|95.0|-2.55|-1.7|||Student's paired t-test|||Day 2||-1.70|-2.55|<.0001
92341077|NCT05556148|184583634|OTHER||Mean Difference (Final Values)|-2.3|||<|0.0001|TWO_SIDED|95.0|-2.71|-1.9|||Student's paired t-test|||Day 3||-1.90|-2.71|<.0001
92341078|NCT05556148|184583634|OTHER||Mean Difference (Final Values)|-2.76|||<|0.0001|TWO_SIDED|95.0|-3.23|-2.29|||Student's paired t-test|||Day 4||-2.29|-3.23|<.0001
92341079|NCT05556148|184583634|OTHER||Mean Difference (Final Values)|-2.85|||<|0.0001|TWO_SIDED|95.0|-3.31|-2.39|||Student's paired t-test|||Day 5||-2.39|-3.31|<.0001
92341080|NCT05556148|184583634|OTHER||Mean Difference (Final Values)|-3.18|||<|0.0001|TWO_SIDED|95.0|-3.72|-2.64|||Student's paired t-test|||Day 6||-2.64|-3.72|<.0001
92341081|NCT05556148|184583634|OTHER||Mean Difference (Final Values)|-3.17|||<|0.0001|TWO_SIDED|95.0|-3.9|-2.43|||Student's paired t-test|||Day 7||-2.43|-3.90|<.0001
92341082|NCT05556148|184583635|OTHER||Mean Difference (Final Values)|-1.98|||<|0.0001|TWO_SIDED|95.0|-2.39|-1.57|||Student's paired t-test|||Day 1||-1.57|-2.39|<.0001
92341083|NCT05556148|184583635|OTHER||Mean Difference (Final Values)|-2.24|||<|0.0001|TWO_SIDED|95.0|-2.66|-1.81|||Student's paired t-test|||Day 2||-1.81|-2.66|<.0001
92341084|NCT05556148|184583635|OTHER||Mean Difference (Final Values)|-2.73|||<|0.0001|TWO_SIDED|95.0|-3.14|-2.32|||Student's paired t-test|||Day 3||-2.32|-3.14|<.0001
92341085|NCT05556148|184583635|OTHER||Mean Difference (Final Values)|-2.91|||<|0.0001|TWO_SIDED|95.0|-3.4|-2.43|||Student's paired t-test|||Day 4||-2.43|-3.40|<.0001
92341086|NCT05556148|184583635|OTHER||Mean Difference (Final Values)|-3.17|||<|0.0001|TWO_SIDED|95.0|-3.68|-2.66|||Student's paired t-test|||Day 5||-2.66|-3.68|<.0001
92341087|NCT05556148|184583635|OTHER||Mean Difference (Final Values)|-3.28|||<|0.0001|TWO_SIDED|95.0|-4.02|-2.54|||Student's paired t-test|||Day 6||-2.54|-4.02|<.0001
92341088|NCT05556148|184583635|OTHER||Mean Difference (Final Values)|-3.47|||<|0.0001|TWO_SIDED|95.0|-4.24|-2.7|||Student's paired t-test|||Day 7||-2.70|-4.24|<.0001
92341089|NCT05556148|184583636|OTHER||Mean Difference (Final Values)|-1.96|||<|0.0001|TWO_SIDED|95.0|-2.37|-1.55|||Student's paired t-test|||Day 1||-1.55|-2.37|<.0001
92341090|NCT05556148|184583636|OTHER||Mean Difference (Final Values)|-2.42|||<|0.0001|TWO_SIDED|95.0|-2.83|-2.01|||Student's paired t-test|||Day 2||-2.01|-2.83|<.0001
92341091|NCT05556148|184583636|OTHER||Mean Difference (Final Values)|-2.97|||<|0.0001|TWO_SIDED|95.0|-3.41|-2.53|||Student's paired t-test|||Day 3||-2.53|-3.41|<.0001
92156618|NCT04191135|184199942|OTHER||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.53|1.76|||||Estimate based on stratified Cox model with Efron's method of tie handling with treatment as a covariate stratified by response to the induction therapy (CR or PR versus SD) and BRCA status (BRCAm versus BRCAwt).|||1.76|0.53|
92341092|NCT05556148|184583636|OTHER||Mean Difference (Final Values)|-3.34|||<|0.0001|TWO_SIDED|95.0|-3.81|-2.87|||Student's paired t-test|||Day 4||-2.87|-3.81|<.0001
92399077|NCT00286442|184689841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.372|||<|0.001|TWO_SIDED|95.0|0.213|0.65||no multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.650|0.213|<0.001
92156619|NCT04191135|184199943|OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.33|1.48|||||Estimate based on stratified Cox model with Efron's method of tie handling with treatment as a covariate stratified by response to the induction therapy (CR or PR versus SD) and tumor PD-L1 status (CPS≥1 vs CPS\<1).|||1.48|0.33|
92341093|NCT05556148|184583636|OTHER||Mean Difference (Final Values)|-3.36|||<|0.0001|TWO_SIDED|95.0|-3.84|-2.87|||Student's paired t-test|||Day 5||-2.87|-3.84|<.0001
92341094|NCT05556148|184583636|OTHER||Mean Difference (Final Values)|-3.23|||<|0.0001|TWO_SIDED|95.0|-3.91|-2.56|||Student's paired t-test|||Change from Baseline at Day 6||-2.56|-3.91|<.0001
92156620|NCT04191135|184199944|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.28|2.37|||||Estimate based on stratified Cox model with Efron's method of tie handling with treatment as a covariate stratified by response to the induction therapy (CR or PR versus SD) and tumor PD-L1 status (CPS≥1 vs CPS\<1).|||2.37|0.28|
92156621|NCT04191135|184199945|SUPERIORITY||Difference in Least Squares Means|-3.28||||0.143|TWO_SIDED|95.0|-7.69|1.12|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||1.12|-7.69|0.1430
92341095|NCT05556148|184583636|OTHER||Mean Difference (Final Values)|-3.7|||<|0.0001|TWO_SIDED|95.0|-4.48|-2.92|||Student's paired t-test|||Day 7||-2.92|-4.48|<.0001
92341096|NCT05556148|184583637|OTHER||Mean Difference (Final Values)|-1.76|||<|0.0001|TWO_SIDED|95.0|-2.17|-1.34|||Student's paired t-test|||Day 1||-1.34|-2.17|<.0001
92341097|NCT05556148|184583637|OTHER||Mean Difference (Final Values)|-2.09|||<|0.0001|TWO_SIDED|95.0|-2.51|-1.67|||Student's paired t-test|||Day 2||-1.67|-2.51|<.0001
92341098|NCT05556148|184583637|OTHER||Mean Difference (Final Values)|-2.41|||<|0.0001|TWO_SIDED|95.0|-2.86|-1.97|||Student's paired t-test|||Day 3||-1.97|-2.86|<.0001
92341099|NCT05556148|184583637|OTHER||Mean Difference (Final Values)|-2.74|||<|0.0001|TWO_SIDED|95.0|-3.22|-2.27|||Student's paired t-test|||Day 4||-2.27|-3.22|<.0001
92341100|NCT05556148|184583637|OTHER||Mean Difference (Final Values)|-2.73|||<|0.0001|TWO_SIDED|95.0|-3.3|-2.16|||Student's paired t-test|||Day 5||-2.16|-3.30|<.0001
92341101|NCT05556148|184583637|OTHER||Mean Difference (Final Values)|-2.87|||<|0.0001|TWO_SIDED|95.0|-3.56|-2.19|||Student's paired t-test|||Day 6||-2.19|-3.56|<.0001
92341102|NCT05556148|184583637|OTHER||Mean Difference (Final Values)|-3.2|||<|0.0001|TWO_SIDED|95.0|-4.01|-2.39|||Student's paired t-test|||Day 7||-2.39|-4.01|<.0001
92341103|NCT05556148|184583638|OTHER||Mean Difference (Final Values)|-1.93|||<|0.0001|TWO_SIDED|95.0|-2.35|-1.51|||Student's paired t-test|||Day 1||-1.51|-2.35|<.0001
92341104|NCT05556148|184583638|OTHER||Mean Difference (Final Values)|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.0|-2.2|||Student's paired t-test|||Day 2||-2.20|-3.00|<.0001
92341105|NCT05556148|184583638|OTHER||Mean Difference (Final Values)|-2.65|||<|0.0001|TWO_SIDED|95.0|-3.09|-2.22|||Student's paired t-test|||Day 3||-2.22|-3.09|<.0001
92341106|NCT05556148|184583638|OTHER||Mean Difference (Final Values)|-3.07|||<|0.0001|TWO_SIDED|95.0|-3.53|-2.62|||Student's paired t-test|||Day 4||-2.62|-3.53|<.0001
92341107|NCT05556148|184583638|OTHER||Mean Difference (Final Values)|-3.25|||<|0.0001|TWO_SIDED|95.0|-3.76|-2.75|||Student's paired t-test|||Day 5||-2.75|-3.76|<.0001
92341108|NCT05556148|184583638|OTHER||Mean Difference (Final Values)|-3.41|||<|0.0001|TWO_SIDED|95.0|-4.04|-2.78|||Student's paired t-test|||Day 6||-2.78|-4.04|<.0001
92341109|NCT05556148|184583638|OTHER||Mean Difference (Final Values)|-3.47|||<|0.0001|TWO_SIDED|95.0|-4.3|-2.64|||Student's paired t-test|||Day 7||-2.64|-4.30|<.0001
92341110|NCT05556148|184583639|OTHER||Mean Difference (Final Values)|-2.07|||<|0.0001|TWO_SIDED|95.0|-2.49|-1.66|||Student's paired t-test|||Day 1||-1.66|-2.49|<.0001
92341111|NCT05556148|184583639|OTHER||Mean Difference (Final Values)|-2.76|||<|0.0001|TWO_SIDED|95.0|-3.2|-2.33|||Student's paired t-test|||Day 2||-2.33|-3.20|<.0001
92341112|NCT05556148|184583639|OTHER||Mean Difference (Final Values)|-3.21|||<|0.0001|TWO_SIDED|95.0|-3.63|-2.78|||Student's paired t-test|||Day 3||-2.78|-3.63|<.0001
92341113|NCT05556148|184583639|OTHER||Mean Difference (Final Values)|-3.49|||<|0.0001|TWO_SIDED|95.0|-3.98|-3.0|||Student's paired t-test|||Day 4||-3.00|-3.98|<.0001
92341114|NCT05556148|184583639|OTHER||Mean Difference (Final Values)|-3.83|||<|0.0001|TWO_SIDED|95.0|-4.33|-3.33|||Student's paired t-test|||Day 5||-3.33|-4.33|<.0001
92341115|NCT05556148|184583639|OTHER||Mean Difference (Final Values)|-4.05|||<|0.0001|TWO_SIDED|95.0|-4.65|-3.46|||Student's paired t-test|||Day 6||-3.46|-4.65|<.0001
92341116|NCT05556148|184583639|OTHER||Mean Difference (Final Values)|-4.13|||<|0.0001|TWO_SIDED|95.0|-4.81|-3.46|||Student's paired t-test|||Day 7||-3.46|-4.81|<.0001
92341117|NCT05556148|184583640|OTHER||Mean Difference (Final Values)|-2.21|||<|0.0001|TWO_SIDED|95.0|-2.66|-1.77|||Student's paired t-test|||Day 1||-1.77|-2.66|<.0001
92341118|NCT05556148|184583640|OTHER||Mean Difference (Final Values)|-2.73|||<|0.0001|TWO_SIDED|95.0|-3.15|-2.31|||Student's paired t-test|||Day 2||-2.31|-3.15|<.0001
92341119|NCT05556148|184583640|OTHER||Mean Difference (Final Values)|-3.16|||<|0.0001|TWO_SIDED|95.0|-3.6|-2.73|||Student's paired t-test|||Day 3||-2.73|-3.60|<.0001
92341120|NCT05556148|184583640|OTHER||Mean Difference (Final Values)|-3.52|||<|0.0001|TWO_SIDED|95.0|-4.0|-3.05|||Student's paired t-test|||Day 4||-3.05|-4.00|<.0001
92341121|NCT05556148|184583640|OTHER||Mean Difference (Final Values)|-3.73|||<|0.0001|TWO_SIDED|95.0|-4.19|-3.27|||Student's paired t-test|||Day 5||-3.27|-4.19|<.0001
92341122|NCT05556148|184583640|OTHER||Mean Difference (Final Values)|-4.0|||<|0.0001|TWO_SIDED|95.0|-4.55|-3.45|||Student's paired t-test|||Day 6||-3.45|-4.55|<.0001
92156622|NCT04191135|184199946|SUPERIORITY||Difference in Least Squares Means|-0.16||||0.9454|TWO_SIDED|95.0|-4.89|4.56|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||4.56|-4.89|0.9454
92156623|NCT04191135|184199947|SUPERIORITY||Difference in Least Squares Means|2.08||||0.4351|TWO_SIDED|95.0|-3.16|7.31|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||7.31|-3.16|0.4351
92156624|NCT04191135|184199948|SUPERIORITY||Difference in Least Squares Means|0.93||||0.5588|TWO_SIDED|95.0|-2.2|4.06|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||4.06|-2.20|0.5588
92156625|NCT04191135|184199949|SUPERIORITY||Difference in Least Squares Means|-0.37||||0.8408|TWO_SIDED|95.0|-4.03|3.28|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||3.28|-4.03|0.8408
92156626|NCT04191135|184199950|SUPERIORITY||Difference in Least Squares Means|-1.34||||0.795|TWO_SIDED|95.0|-11.63|8.95|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||8.95|-11.63|0.7950
92341123|NCT05556148|184583640|OTHER||Mean Difference (Final Values)|-4.07|||<|0.0001|TWO_SIDED|95.0|-4.74|-3.39|||Student's paired t-test|||Day 7||-3.39|-4.74|<.0001
92341124|NCT03191799|184583664|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||<0.0001
92274995|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.05|||||TWO_SIDED|95.0|-117.92|79.82||||||For change in constipation at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||79.82|-117.92|
92156627|NCT04191135|184199951|SUPERIORITY||Difference in Least Squares Means|4.82||||0.1597|TWO_SIDED|95.0|-1.97|11.62|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||11.62|-1.97|0.1597
92156628|NCT04191135|184199952|SUPERIORITY||Difference in Least Squares Means|2.52||||0.6138|TWO_SIDED|95.0|-7.45|12.49|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||12.49|-7.45|0.6138
92156629|NCT04191135|184199953|SUPERIORITY||Difference in Least Squares Means|-1.6||||0.5567|TWO_SIDED|95.0|-7.02|3.83|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||3.83|-7.02|0.5567
92156630|NCT04191135|184199954|SUPERIORITY||Difference in Least Squares Means|5.56||||0.105|TWO_SIDED|95.0|-1.2|12.32|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||12.32|-1.20|0.1050
92156631|NCT04191135|184199955|SUPERIORITY||Hazard Ratio (HR)|1.78||||0.00676|TWO_SIDED|95.0|1.16|2.71|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||2.71|1.16|0.00676
92341125|NCT03191799|184583664|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
92341126|NCT03191799|184583664|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
92341127|NCT03191799|184583664|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
92341128|NCT03191799|184583664|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||<0.0001
92341129|NCT03191799|184583666|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||<0.0001
92341130|NCT03191799|184583666|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
92341131|NCT03191799|184583666|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
92341132|NCT03191799|184583666|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
92341133|NCT03191799|184583666|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||<0.0001
92341134|NCT03191799|184583677|SUPERIORITY|||||||0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||0.0001
92341135|NCT03191799|184583677|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
92341136|NCT03191799|184583677|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
92341137|NCT03191799|184583677|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
92341138|NCT03191799|184583677|SUPERIORITY|||||||0.0004|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||0.0004
92341139|NCT03191799|184583679|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||<0.0001
92341140|NCT03191799|184583679|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
92341141|NCT03191799|184583679|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
92341142|NCT03191799|184583679|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
92341143|NCT03191799|184583679|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||<0.0001
92341144|NCT03191799|184583689|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||<0.0001
92341145|NCT03191799|184583689|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
92399078|NCT00286442|184689841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.405||||0.002|TWO_SIDED|95.0|0.231|0.708||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.708|0.231|0.002
92217074|NCT04667377|184334315|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-3.37|STANDARD_ERROR_OF_MEAN|1.5||0.0257|TWO_SIDED|95.0|-6.33|-0.41||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-0.41|-6.33|0.0257
92217075|NCT04667377|184334315|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-9.69|STANDARD_ERROR_OF_MEAN|1.46|<|0.0001|TWO_SIDED|95.0|-12.57|-6.81||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation as used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-6.81|-12.57|<.0001
92217076|NCT04667377|184334315|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-10.4|STANDARD_ERROR_OF_MEAN|1.48|<|0.0001|TWO_SIDED|95.0|-13.32|-7.49||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-7.49|-13.32|<.0001
92217077|NCT04667377|184334315|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-12.12|STANDARD_ERROR_OF_MEAN|1.46|<|0.0001|TWO_SIDED|95.0|-15.0|-9.24||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation will be used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-9.24|-15.00|<.0001
92217078|NCT04667377|184334316|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 5% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|3.28||||0.0015|TWO_SIDED|95.0|1.57|6.84||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||6.84|1.57|0.0015
92341146|NCT03191799|184583689|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
92274996|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|76.19|||||TWO_SIDED|95.0|-6.75|159.13||||||For change in diarrhea at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||159.13|-6.75|
92341147|NCT03191799|184583689|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
92341148|NCT03191799|184583689|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||<0.0001
92341149|NCT03191799|184583690|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||<0.0001
92341150|NCT03191799|184583690|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
92341151|NCT03191799|184583690|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
92341152|NCT03191799|184583690|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
92341153|NCT03191799|184583690|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||<0.0001
92341154|NCT03933449|184583727|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.0015|TWO_SIDED|95.0|0.36|0.82||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||0.82|0.36|0.0015
92341155|NCT03933449|184583728|SUPERIORITY||Hazard Ratio (HR)|0.34||||0.0008|TWO_SIDED|95.0|0.17|0.69||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||0.69|0.17|0.0008
92341156|NCT03933449|184583729|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.0021|TWO_SIDED|95.0|0.37|0.83||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||0.83|0.37|0.0021
92341157|NCT03933449|184583730|SUPERIORITY||Difference in Percentages|12.9||||0.0084|TWO_SIDED|95.0|2.7|24.5||One-sided p-value for testing. H0: difference in %=0 versus H1: difference in %\>0.|Miettinen & Nurminen method|||||24.5|2.7|0.0084
92341158|NCT03933449|184583731|SUPERIORITY||Difference in Percentages|17.1||||0.0403|TWO_SIDED|95.0|-2.3|38.0||One-sided p-value for testing. H0: difference in %=0 versus H1: difference in %\>0.|Miettinen & Nurminen method|||||38.0|-2.3|0.0403
92341159|NCT03933449|184583732|SUPERIORITY||Difference in Percentages|13.3||||0.0083|TWO_SIDED|95.0|2.8|25.2||One-sided p-value for testing. H0: difference in %=0 versus H1: difference in %\>0.|Miettinen & Nurminen method|||||25.2|2.8|0.0083
92341160|NCT03933449|184583733|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.177|TWO_SIDED|95.0|0.58|1.23||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||1.23|0.58|0.177
92217079|NCT04667377|184334316|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 5% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|8.83|||<|0.0001|TWO_SIDED|95.0|4.0|19.46||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||19.46|4.00|<.0001
92217080|NCT04667377|184334316|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 5% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|7.48|||<|0.0001|TWO_SIDED|95.0|3.41|16.41||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||16.41|3.41|<.0001
92341161|NCT03933449|184583734|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.238|TWO_SIDED|95.0|0.44|1.46||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||1.46|0.44|0.238
92341162|NCT03933449|184583735|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.171|TWO_SIDED|95.0|0.57|1.23||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||1.23|0.57|0.171
92341163|NCT00501631|184583738|SUPERIORITY_OR_OTHER|||||||0.336||95.0|||||Van der Waerden test|||The null hypothesis that there is no difference between two treatment groups (i.e. Placebo and Vivitrol) was tested using a two-sided Van der Waerden test. Response profiles were tabulated as a cumulative percent of subjects at each decile of percent heavy drinking days.||||0.336
92341164|NCT02858401|184583750|OTHER|||||||0.1498|||||||Wilcoxon rank sum test|||||||0.1498
92341165|NCT02858401|184583750|OTHER|||||||0.064|||||||Wilcoxon rank sum test|||||||0.0640
92341166|NCT02858401|184583750|OTHER|||||||0.2807|||||||Wilcoxon rank sum test|||||||0.2807
92341167|NCT02858401|184583750|OTHER|||||||0.1228|||||||Wilcoxon rank sum test|||||||0.1228
92341168|NCT02858401|184583750|OTHER|||||||0.0289|||||||Wilcoxon rank sum test|||||||0.0289
92341169|NCT02858401|184583750|OTHER|||||||0.5895|||||||Wilcoxon rank sum test|||||||0.5895
92341170|NCT02858401|184583751|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341171|NCT02858401|184583751|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341172|NCT02858401|184583751|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341173|NCT02858401|184583752|OTHER|||||||0.5557|||||||Wilcoxon rank sum test|||||||0.5557
92341174|NCT02858401|184583752|OTHER|||||||0.5557|||||||Wilcoxon rank sum test|||||||0.5557
92341175|NCT02858401|184583752|OTHER|||||||0.8288|||||||Wilcoxon rank sum test|||||||0.8288
92341176|NCT02858401|184583752|OTHER|||||||0.5557|||||||Wilcoxon rank sum test|||||||0.5557
92341177|NCT02858401|184583752|OTHER|||||||0.6056|||||||Wilcoxon rank sum test|||||||0.6056
92341178|NCT02858401|184583752|OTHER|||||||0.5557|||||||Wilcoxon rank sum test|||||||0.5557
92341179|NCT02858401|184583753|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341180|NCT02858401|184583753|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341181|NCT02858401|184583753|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341182|NCT02858401|184583754|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341183|NCT02858401|184583754|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341184|NCT02858401|184583754|OTHER|||||||0.1556|||||||Wilcoxon rank sum test|||||||0.1556
92341185|NCT02858401|184583754|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341186|NCT02858401|184583754|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341187|NCT02858401|184583754|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341188|NCT02858401|184583755|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341189|NCT02858401|184583755|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341190|NCT02858401|184583755|OTHER|||||||0.3613|||||||Wilcoxon rank sum test|||||||0.3613
92341191|NCT02858401|184583756|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341192|NCT02858401|184583756|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341193|NCT02858401|184583756|OTHER|||||||0.1949|||||||Wilcoxon rank sum test|||||||0.1949
92341194|NCT02858401|184583756|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341195|NCT02858401|184583756|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341196|NCT02858401|184583756|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341197|NCT02858401|184583757|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341198|NCT02858401|184583757|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341199|NCT02858401|184583757|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341200|NCT02858401|184583758|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341201|NCT02858401|184583758|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341202|NCT02858401|184583758|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341203|NCT02858401|184583759|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341204|NCT02858401|184583759|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341205|NCT02858401|184583759|OTHER|||||||0.1556|||||||Wilcoxon rank sum test|||||||0.1556
92341206|NCT02858401|184583759|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341207|NCT02858401|184583759|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341208|NCT02858401|184583759|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341209|NCT02858401|184583760|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341210|NCT02858401|184583760|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341211|NCT02858401|184583760|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341212|NCT02858401|184583761|OTHER|||||||0.1949|||||||Wilcoxon rank sum test|||||||0.1949
92341213|NCT02858401|184583761|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341214|NCT02858401|184583761|OTHER|||||||0.4278|||||||Wilcoxon rank sum test|||||||0.4278
92341215|NCT02858401|184583761|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341216|NCT02858401|184583761|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341217|NCT02858401|184583761|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341218|NCT02858401|184583762|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
92341219|NCT02858401|184583762|OTHER|||||||0.5716|||||||Wilcoxon rank sum test|||||||0.5716
92341220|NCT02858401|184583762|OTHER|||||||0.1869|||||||Wilcoxon rank sum test|||||||0.1869
92156632|NCT04191135|184199956|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.96425|TWO_SIDED|95.0|0.61|1.69|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||1.69|0.61|0.96425
92156633|NCT04191135|184199957|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.74965|TWO_SIDED|95.0|0.69|1.71|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||1.71|0.69|0.74965
92341221|NCT02858401|184583762|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
92341222|NCT02858401|184583762|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
92341223|NCT02858401|184583763|OTHER|||||||0.3613|||||||Wilcoxon rank sum test|||||||0.3613
92341224|NCT02858401|184583763|OTHER|||||||0.4237|||||||Wilcoxon rank sum test|||||||0.4237
92341225|NCT02858401|184583763|OTHER|||||||0.223|||||||Wilcoxon rank sum test|||||||0.2230
92341226|NCT02858401|184583764|OTHER|||||||0.3456|||||||Wilcoxon rank sum test|||||||0.3456
92341227|NCT02858401|184583764|OTHER|||||||0.3971|||||||Wilcoxon rank sum test|||||||0.3971
92341228|NCT02858401|184583764|OTHER|||||||0.1301|||||||Wilcoxon rank sum test|||||||0.1301
92341229|NCT02858401|184583764|OTHER|||||||0.3456|||||||Wilcoxon rank sum test|||||||0.3456
92341230|NCT02858401|184583764|OTHER|||||||0.3456|||||||Wilcoxon rank sum test|||||||0.3456
92341231|NCT02858401|184583764|OTHER|||||||0.3456|||||||Wilcoxon rank sum test|||||||0.3456
92341232|NCT02858401|184583765|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341233|NCT02858401|184583765|OTHER|||||||0.4652|||||||Wilcoxon rank sum test|||||||0.4652
92341234|NCT02858401|184583765|OTHER|||||||0.5993|||||||Wilcoxon rank sum test|||||||0.5993
92341235|NCT02858401|184583766|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341236|NCT02858401|184583766|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341237|NCT02858401|184583766|OTHER|||||||0.1949|||||||Wilcoxon rank sum test|||||||0.1949
92341238|NCT02858401|184583766|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341239|NCT02858401|184583766|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341240|NCT02858401|184583766|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341241|NCT02858401|184583767|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341242|NCT02858401|184583767|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341243|NCT02858401|184583767|OTHER|||||||0.2763|||||||Wilcoxon rank sum test|||||||0.2763
92341244|NCT02858401|184583767|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341245|NCT02858401|184583767|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341246|NCT02858401|184583768|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341247|NCT02858401|184583768|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341248|NCT02858401|184583768|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341249|NCT02858401|184583769|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341250|NCT02858401|184583769|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341251|NCT02858401|184583769|OTHER|||||||0.1949|||||||Wilcoxon rank sum test|||||||0.1949
92341252|NCT02858401|184583769|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341253|NCT02858401|184583769|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341254|NCT02858401|184583769|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341255|NCT02858401|184583770|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341256|NCT02858401|184583770|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341257|NCT02858401|184583770|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341258|NCT02858401|184583771|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
92341259|NCT02858401|184583771|OTHER|||||||0.5896|||||||Wilcoxon rank sum test|||||||0.5896
92341260|NCT02858401|184583771|OTHER|||||||0.8207|||||||Wilcoxon rank sum test|||||||0.8207
92341261|NCT02858401|184583771|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
92341262|NCT02858401|184583771|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
92341263|NCT02858401|184583771|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
92341264|NCT02858401|184583772|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341265|NCT02858401|184583772|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341266|NCT02858401|184583772|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341267|NCT02858401|184583773|OTHER|||||||0.3237|||||||Wilcoxon rank sum test|||||||0.3237
92341268|NCT02858401|184583773|OTHER|||||||0.3755|||||||Wilcoxon rank sum test|||||||0.3755
92341269|NCT02858401|184583773|OTHER|||||||0.4577|||||||Wilcoxon rank sum test|||||||0.4577
92341270|NCT02858401|184583773|OTHER|||||||0.3237|||||||Wilcoxon rank sum test|||||||0.3237
92341271|NCT02858401|184583773|OTHER|||||||0.3237|||||||Wilcoxon rank sum test|||||||0.3237
92341272|NCT02858401|184583773|OTHER|||||||0.3237|||||||Wilcoxon rank sum test|||||||0.3237
92341273|NCT02858401|184583774|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341274|NCT02858401|184583774|OTHER|||||||0.4652|||||||Wilcoxon rank sum test|||||||0.4652
92341275|NCT02858401|184583774|OTHER|||||||0.7526|||||||Wilcoxon rank sum test|||||||0.7526
92341276|NCT02858401|184583775|OTHER|||||||0.5546|||||||Wilcoxon rank sum test|||||||0.5546
92341277|NCT02858401|184583775|OTHER|||||||0.6937|||||||Wilcoxon rank sum test|||||||0.6937
92341278|NCT02858401|184583775|OTHER|||||||0.8207|||||||Wilcoxon rank sum test|||||||0.8207
92341279|NCT02858401|184583775|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
92341280|NCT02858401|184583775|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
92341281|NCT02858401|184583775|OTHER|||||||0.7878|||||||Wilcoxon rank sum test|||||||0.7878
92156634|NCT04191135|184199958|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.10502|TWO_SIDED|95.0|0.88|3.53|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||3.53|0.88|0.10502
92156635|NCT04191135|184199959|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.5019|TWO_SIDED|95.0|0.57|3.0|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), and tumor PD-L1 status (CPS ≥1 vs CPS \<1).|||3.00|0.57|0.50190
92341282|NCT02858401|184583776|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341283|NCT02858401|184583776|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341284|NCT02858401|184583776|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341285|NCT02858401|184583777|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341286|NCT02858401|184583777|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341287|NCT02858401|184583777|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341288|NCT02858401|184583777|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92156636|NCT04191135|184199960|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.47384|TWO_SIDED|95.0|0.24|1.97|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), and tumor PD-L1 status (CPS ≥1 vs CPS \<1).|||1.97|0.24|0.47384
92341289|NCT02858401|184583777|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
92341290|NCT02858401|184583777|OTHER|||||||0.1949|||||||Wilcoxon rank sum test|||||||0.1949
92341291|NCT02858401|184583778|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
92341292|NCT02858401|184583778|OTHER|||||||0.5716|||||||Wilcoxon rank sum test|||||||0.5716
92341293|NCT02858401|184583778|OTHER|||||||0.6908|||||||Wilcoxon rank sum test|||||||0.6908
92341294|NCT02858401|184583778|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
92341295|NCT02858401|184583778|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
92341296|NCT02858401|184583779|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341297|NCT02858401|184583779|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341298|NCT02858401|184583779|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341299|NCT02858401|184583780|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
92341300|NCT02858401|184583780|OTHER|||||||0.5896|||||||Wilcoxon rank sum test|||||||0.5896
92341301|NCT02858401|184583780|OTHER|||||||0.1784|||||||Wilcoxon rank sum test|||||||0.1784
92341302|NCT02858401|184583780|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
92341303|NCT02858401|184583780|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
92341304|NCT02858401|184583780|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
92341305|NCT02858401|184583781|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341306|NCT02858401|184583781|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341307|NCT02858401|184583781|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341308|NCT02858401|184583782|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341309|NCT02858401|184583782|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341310|NCT02858401|184583782|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341311|NCT02858401|184583783|OTHER|||||||0.3074|||||||Wilcoxon rank sum test|||||||0.3074
92341312|NCT02858401|184583783|OTHER|||||||0.3074|||||||Wilcoxon rank sum test|||||||0.3074
92341313|NCT02858401|184583784|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341314|NCT02858401|184583784|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341315|NCT02858401|184583784|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341316|NCT02858401|184583785|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
92341317|NCT02858401|184583785|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
92341318|NCT02858401|184583785|OTHER|||||||0.5993|||||||Wilcoxon rank sum test|||||||0.5993
92341319|NCT02858401|184583786|OTHER|||||||0.8504|||||||Wilcoxon rank sum test|||||||0.8504
92341320|NCT02858401|184583786|OTHER|||||||0.5716|||||||Wilcoxon rank sum test|||||||0.5716
92341321|NCT02858401|184583786|OTHER|||||||0.6908|||||||Wilcoxon rank sum test|||||||0.6908
92341322|NCT02858401|184583786|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
92341323|NCT02858401|184583786|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
92341324|NCT02858401|184583787|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92156637|NCT04191135|184199961|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.81463|TWO_SIDED|95.0|0.33|2.38|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), and tumor PD-L1 status (CPS ≥1 vs CPS \<1).|||2.38|0.33|0.81463
92341325|NCT02858401|184583787|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341326|NCT02858401|184583787|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341327|NCT02858401|184583788|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341328|NCT02858401|184583788|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341329|NCT02858401|184583788|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341330|NCT02858401|184583789|OTHER|||||||0.3074|||||||Wilcoxon rank sum test|||||||0.3074
92341331|NCT02858401|184583789|OTHER|||||||0.3074|||||||Wilcoxon rank sum test|||||||0.3074
92341332|NCT02858401|184583790|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92156638|NCT04191135|184199962|SUPERIORITY||Hazard Ratio (HR)|1.47||||0.67255|TWO_SIDED|95.0|0.24|8.82|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), and tumor PD-L1 status (CPS ≥1 vs CPS \<1).|||8.82|0.24|0.67255
92341333|NCT02858401|184583790|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341334|NCT02858401|184583790|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341335|NCT02858401|184583791|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341336|NCT02858401|184583791|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92274997|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.76|||||TWO_SIDED|95.0|-64.93|55.41||||||For change in financial difficulties at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||55.41|-64.93|
92341337|NCT02858401|184583791|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
92341338|NCT02858401|184583792|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
92341339|NCT02858401|184583792|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
92341340|NCT02858401|184583792|OTHER|||||||0.223|||||||Wilcoxon rank sum test|||||||0.2230
92341341|NCT02858401|184583793|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341342|NCT02858401|184583793|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341343|NCT02858401|184583793|OTHER|||||||0.4652|||||||Wilcoxon rank sum test|||||||0.4652
92341344|NCT02858401|184583794|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92341345|NCT02858401|184583794|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
92156639|NCT02107274|184199965|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value of less than 0.05 was considered as significant.|t-test, 1 sided|||"Sputum volume were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
92156640|NCT02107274|184199965|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value of less than 0.05 was considered significant.|t-test, 1 sided|||"Sputum volume were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
92341346|NCT02858401|184583794|OTHER|||||||0.4652|||||||Wilcoxon rank sum test|||||||0.4652
92341347|NCT02858401|184583795|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
92341348|NCT02858401|184583795|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
92341349|NCT02858401|184583795|OTHER|||||||0.223|||||||Wilcoxon rank sum test|||||||0.2230
92341350|NCT02858401|184583798|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341351|NCT02858401|184583798|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341352|NCT02858401|184583798|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341353|NCT02858401|184583798|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341354|NCT02858401|184583798|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341355|NCT02858401|184583798|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341356|NCT02858401|184583799|OTHER|||||||0.3333|||||||Fisher Exact|||||||0.3333
92341357|NCT02858401|184583800|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341358|NCT02858401|184583800|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341359|NCT02858401|184583800|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341360|NCT02858401|184583800|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341361|NCT02858401|184583800|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341362|NCT02858401|184583800|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341363|NCT02858401|184583801|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341364|NCT02858401|184583801|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341365|NCT02858401|184583801|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341366|NCT02858401|184583801|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341367|NCT02858401|184583801|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341368|NCT02858401|184583801|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341369|NCT02858401|184583802|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341370|NCT02858401|184583802|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341371|NCT02858401|184583802|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341372|NCT02858401|184583803|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341373|NCT02858401|184583803|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341374|NCT02858401|184583803|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341375|NCT02858401|184583805|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341376|NCT02858401|184583805|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341377|NCT02858401|184583805|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92341378|NCT02059239|184583806|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|88.9|||||TWO_SIDED|95.0|65.3|98.6||||||||98.6|65.3|
92341379|NCT02059239|184583806|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|81.3|||||TWO_SIDED|95.0|54.4|95.9||||||||95.9|54.4|
92341380|NCT02059239|184583807|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|79.4|100.0||||||||100.0|79.4|
92156641|NCT02107274|184199966|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value of less than 0.05 was considered as significant.|t-test, 1 sided|||"SGRQ scores were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
92156642|NCT02107274|184199966|SUPERIORITY_OR_OTHER||||||<|0.01||||||p valu of less than 0.05 was considered significant.|t-test, 1 sided|||"SGRQ scores were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables"||||<0.01
92156643|NCT02107274|184199967|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value of less than 0.05 was considered as significant.|t-test, 1 sided|||"FEV1 values were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
92274998|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.56|||||TWO_SIDED|95.0|-271.74|260.62||||||For change in global QoL at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||260.62|-271.74|
92274999|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.56|||||TWO_SIDED|95.0|-166.87|197.98||||||For change in physical functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||197.98|-166.87|
92156644|NCT02107274|184199967|SUPERIORITY_OR_OTHER||||||<|0.01||||||p value of less than 0.05 was considered significant|t-test, 1 sided|||"FEV1 values were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
92156645|NCT02107274|184199968|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value of less than 0.05 was considered as significant.|t-test, 1 sided|||"FVC values were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
92156646|NCT02107274|184199968|SUPERIORITY_OR_OTHER||||||<|0.01||||||p value of less than 0.05 was considered significant.|t-test, 1 sided|||"FVC values were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
92156647|NCT03251144|184199969|OTHER||Mean Difference (Final Values)|20.0|STANDARD_ERROR_OF_MEAN|3.0|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92156648|NCT05305040|184199970|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.049||0.5603|TWO_SIDED|95.0|-0.09|0.1||1-sided p-value|ANCOVA|||||0.10|-0.09|0.5603
92156649|NCT01195675|184199975|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo|Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-0.69|1.87|||ANCOVA|Based on ANCOVA with terms for sequence, subjects within sequence, period, treatment and baseline.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||1.87|-0.69|
92156650|NCT01195675|184199976|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo. Non-confirmatory testing.|Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|90.0|-0.38|1.71|||ANCOVA|Based on ANCOVA with terms for sequence, subjects within sequence, period, treatment and baseline.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||1.71|-0.38|
92156651|NCT01195675|184199977|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo. Non-confirmatory testing.|Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|90.0|-1.23|0.93|||ANCOVA|Based on ANCOVA with terms for sequence, subjects within sequence, period, treatment and baseline.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||0.93|-1.23|
92156652|NCT01195675|184199978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.42|STANDARD_ERROR_OF_MEAN|1.01|<|0.0001|TWO_SIDED|90.0|10.73|14.11|||ANCOVA|Based on ANCOVA with terms for treatment, period, treatment sequence, baseline and subject within sequence.|Non-confirmatory testing. Mean difference = Moxifloxacin minus placebo.|||14.11|10.73|<0.0001
92156653|NCT01195675|184199979|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo. Non-confirmatory testing.|Mean Difference (Final Values)|2.16|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-0.34|4.67|||Repeated measures analysis|Based on repeated measured analysis with terms for subject, baseline, period, treatment, time, baseline by time, period by time and treatment by time.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||4.67|-0.34|
92156654|NCT01195675|184199980|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo. Non-confirmatory testing.|Mean Difference (Final Values)|1.59|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-0.35|3.53|||Repeated measures analysis|Based on repeated measured analysis with terms for subject, baseline, period, treatment, time, baseline by time, period by time and treatment by time.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||3.53|-0.35|
92156655|NCT01195675|184199981|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo|Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|90.0|-1.39|0.94|||ANCOVA|Based on ANCOVA with terms for sequence, subjects within sequence, period, treatment and baseline.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||0.94|-1.39|
92156656|NCT02424344|184199985|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.125||||0.069|TWO_SIDED|95.0|-0.259|0.01|||ANCOVA|Adjusted by baseline and age as covariates, and treatment group, sex and smoking-status as fixed effect factors||||0.010|-0.259|0.069
92275000|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.78|||||TWO_SIDED|95.0|-238.4|293.96||||||For change in role functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||293.96|-238.4|
92156657|NCT04730947|184199988|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||||||0.027
92341381|NCT02059239|184583807|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|75.3|100.0||||||||100.0|75.3|
92341382|NCT02059239|184583808|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|79.4|100.0||||||||100.0|79.4|
92341383|NCT02059239|184583808|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|92.3|||||TWO_SIDED|95.0|64.0|99.8||||||||99.8|64.0|
92341384|NCT02059239|184583809|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|79.4|100.0||||||||100.0|79.4|
92341385|NCT02059239|184583809|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|84.6|||||TWO_SIDED|95.0|54.6|98.1||||||||98.1|54.6|
92341386|NCT02059239|184583810|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|79.4|100.0||||||||100.0|79.4|
92341387|NCT02059239|184583810|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|46.2|||||TWO_SIDED|95.0|19.2|74.9||||||||74.9|19.2|
92341388|NCT02059239|184583811|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|0.0|||||TWO_SIDED|95.0|0.0|20.6||||||||20.6|0.0|
92341389|NCT02059239|184583811|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|15.4|||||TWO_SIDED|95.0|1.9|45.4||||||||45.4|1.9|
92341390|NCT02059239|184583812|OTHER|Simple proportion (objective response: CR+PR) in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|66.7|||||TWO_SIDED|95.0|41.0|86.7||||||||86.7|41.0|
92156658|NCT04730947|184199989|SUPERIORITY|||||||0.029|||||||t-test, 2 sided|||||||0.029
92156659|NCT04730947|184199990|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
92156660|NCT04730947|184199991|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||0.12
92341391|NCT02059239|184583812|OTHER|Simple proportion (objective response: CR+PR) in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|43.8|||||TWO_SIDED|95.0|19.8|70.1||||||||70.1|19.8|
92341392|NCT02059239|184583813|OTHER|Simple proportion (objective response: CR+PR) in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|87.5|||||TWO_SIDED|95.0|61.7|98.4||||||||98.4|61.7|
92341393|NCT02059239|184583813|OTHER|Simple proportion (objective response: CR+PR) in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|76.9|||||TWO_SIDED|95.0|46.2|95.0||||||||95.0|46.2|
92341394|NCT02059239|184583814|OTHER|Simple proportion (objective response: CR+PR) in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|81.3|||||TWO_SIDED|95.0|54.4|96.0||||||||96.0|54.4|
92156661|NCT04730947|184199992|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
92156662|NCT04730947|184199993|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
92156663|NCT04730947|184199994|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||||||0.088
92156664|NCT04730947|184199995|SUPERIORITY|||||||0.024|||||||t-test, 2 sided|||||||0.024
92156665|NCT04730947|184199996|SUPERIORITY|||||||0.136|||||||t-test, 2 sided|||||||0.136
92156666|NCT03639675|184200030|OTHER||Mean change|-8.3||||0.0004|TWO_SIDED|95.0|-12.2|-4.4|||one-sample t-statistics|||||-4.4|-12.2|0.0004
92156667|NCT00826280|184200063|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value is from the primary analysis using ANCOVA.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
92156668|NCT00826280|184200063|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
92156669|NCT00826280|184200063|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
92156670|NCT00826280|184200063|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9328||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.9328
92156671|NCT00826280|184200064|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011||95.0||||P-Value is from the primary analysis using ANCOVA.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.0011
92341395|NCT02059239|184583814|OTHER|Simple proportion (objective response: CR+PR) in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|30.8|||||TWO_SIDED|95.0|9.1|61.4||||||||61.4|9.1|
92341396|NCT02059239|184583815|OTHER|Median PFS in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Median (95% CI)|8.0|||||TWO_SIDED|95.0|5.0|25.0||||||||25|5|
92341397|NCT00490035|184583857|SUPERIORITY_OR_OTHER_LEGACY||Percentage Reduction over Placebo|6.5|||=|0.261|TWO_SIDED|95.0|-5.2|16.9|||ANCOVA|||In order to control the Type I error testing was performed in sequence starting with 50 mg, then 100 mg and finally 20 mg Brivaracetam per day versus Placebo, only moving to the next test if the previous one was significant at the 5 % level.||16.9|-5.2|=0.261
92341398|NCT00731822|184583882|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.6|||||TWO_SIDED|95.0|-3.9|5.1||||||||5.1|-3.9|
92341399|NCT05209880|184583888|SUPERIORITY|||||||0.5835|||||||Wilcoxon (Mann-Whitney)|||||||0.5835
92341400|NCT03834493|184583898|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.6621|TWO_SIDED|95.0|0.88|1.22|||Log Rank||Stratified Cox model with Efron's tie handling method|||1.22|0.88|0.6621
92341401|NCT03834493|184583899|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4073|TWO_SIDED|95.0|0.84|1.14|||Log Rank||Stratified Cox model with Efron's tie handling method|||1.14|0.84|0.4073
92341402|NCT03834493|184583900|OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.83|1.09|||||Stratified Cox model with Efron's tie handling method|||1.09|0.83|
92341403|NCT03834493|184583901|OTHER||Difference in Percentage|3.4|||||TWO_SIDED|95.0|-1.5|8.3|||||Stratified Miettinen and Nurminen method|||8.3|-1.5|
92341404|NCT03834493|184583902|OTHER||Difference in Percentage|0.3|||||TWO_SIDED|95.0|-3.4|4.1|||||Stratified Miettinen and Nurminen method|||4.1|-3.4|
92341405|NCT03834493|184583903|OTHER||Difference in Percentage|2.9|||||TWO_SIDED|95.0|-0.2|6.1|||||Stratified Miettinen and Nurminen method|||6.1|-0.2|
92156672|NCT00826280|184200064|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0034||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.0034
92341406|NCT03834493|184583905|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.86|1.15|||||Stratified Cox model with Efron's tie handling method|||1.15|0.86|
92341407|NCT03834493|184583906|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.74|1.09|||||Stratified Cox model with Efron's tie handling method|||1.09|0.74|
92341408|NCT03834493|184583907|OTHER||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.82|1.35|||||Stratified Cox model with Efron's tie handling method|||1.35|0.82|
92156673|NCT00826280|184200064|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
92156674|NCT00826280|184200064|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5902||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.5902
92156675|NCT00826280|184200065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0037||95.0||||P-Value is from the primary analysis using ANCOVA.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.0037
92156676|NCT00826280|184200065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0089||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.0089
92156677|NCT00826280|184200065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.0016
92156678|NCT00826280|184200065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5654||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.5654
92156679|NCT00826280|184200066|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value is from the primary analysis using ANCOVA.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
92156680|NCT00826280|184200066|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
92156681|NCT00826280|184200066|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
92156682|NCT00826280|184200066|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4246||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||.4246
92156683|NCT04731714|184200070|SUPERIORITY|||||||0.0104|||||||Mixed Models Analysis|See publication for details||||||0.0104
92156684|NCT04731714|184200071|SUPERIORITY|||||||0.079|||||||Mixed Models Analysis|See publication for details||||||0.079
92156685|NCT04731714|184200072|SUPERIORITY|||||||0.9222|||||||Mixed Models Analysis|See publication for details||||||0.9222
92156686|NCT04731714|184200073|SUPERIORITY|||||||0.7995|||||||Mixed Models Analysis|See publication for details||||||0.7995
92156687|NCT04731714|184200074|OTHER|||||||0.314||||||rhythmic days|Friedman Test|See publication for further details||||||0.3140
92156688|NCT04731714|184200074|OTHER|||||||0.239||||||arrhythmic days|Friedman Test|See publication for further details||||||0.239
92156689|NCT04731714|184200078|SUPERIORITY|||||||0.8844|||||||Mixed Models Analysis|See publication for details||||||0.8844
92156690|NCT04731714|184200080|OTHER|||||||0.73|||||||binomial|One-sided||||||0.73
92156691|NCT03354637|184200091|SUPERIORITY||Mean Difference (Final Values)|13.88|STANDARD_ERROR_OF_MEAN|4.707||0.038|TWO_SIDED|95.0|0.77|27.0||All statistical testing was two-sided and performed using a significance (alpha) level of 0.05.|Mixed Models Analysis|||Since this was the first multicenter study evaluating the effect of ATI-50002 Topical Solution in subjects with stable patchy alopecia areata, the sample size was based upon feasibility issues rather than a formal power calculation. Planned data from 120 subjects, utilizing LOCF for missing data, provides 80% power to detect a 24-point difference in percent change from baseline in SALT score between any two treatment groups. This power computation is based upon assumed standard deviation of 38%.||27.00|0.77|0.038
92156692|NCT03354637|184200091|SUPERIORITY||Mean Difference (Final Values)|9.32|STANDARD_ERROR_OF_MEAN|4.784||0.166|TWO_SIDED|95.0|-3.9|22.55||All statistical testing was two-sided and performed using a significance (alpha) level of 0.05.|Mixed Models Analysis|||Since this was the first multicenter study evaluating the effect of ATI-50002 Topical Solution in subjects with stable patchy alopecia areata, the sample size was based upon feasibility issues rather than a formal power calculation. Planned data from 120 subjects, utilizing LOCF for missing data, provides 80% power to detect a 24-point difference in percent change from baseline in SALT score between any two treatment groups. This power computation is based upon assumed standard deviation of 38%.||22.55|-3.90|0.166
92156693|NCT03354637|184200092|SUPERIORITY||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|4.511||0.302|TWO_SIDED|95.0|-5.97|19.17|||Mixed Models Analysis|||||19.17|-5.97|0.302
92156694|NCT03354637|184200092|SUPERIORITY||Mean Difference (Final Values)|3.23|STANDARD_ERROR_OF_MEAN|4.584||0.616|TWO_SIDED|95.0|-9.44|15.9|||Mixed Models Analysis|||||15.90|-9.44|0.616
92156695|NCT03354637|184200093|SUPERIORITY||Mean Difference (Final Values)|4.52|STANDARD_ERROR_OF_MEAN|2.074||0.125|TWO_SIDED|95.0|-1.26|10.3|||Mixed Models Analysis|||||10.30|-1.26|0.125
92341409|NCT03834493|184583908|OTHER||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.85|1.51|||||Stratified Cox model with Efron's tie handling method|||1.51|0.85|
92341410|NCT04073303|184583938|SUPERIORITY||Rate-Difference|49.0|||<|0.0001|TWO_SIDED|95.0|40.1|54.1|||Cochran-Mantel-Haenszel|||||54.1|40.1|<0.0001
92341411|NCT04073303|184583939|SUPERIORITY||Rate-Difference|71.2|||<|0.0001|TWO_SIDED|95.0|60.7|76.3|||Cochran-Mantel-Haenszel|||||76.3|60.7|<0.0001
92341412|NCT04073303|184583940|SUPERIORITY||Rate-Difference|56.7|||<|0.0001|TWO_SIDED|95.0|45.6|64.5|||Cochran-Mantel-Haenszel|||||64.5|45.6|<0.0001
92156696|NCT03354637|184200093|SUPERIORITY||Mean Difference (Final Values)|3.53|STANDARD_ERROR_OF_MEAN|2.107||0.234|TWO_SIDED|95.0|-2.3|9.36|||Mixed Models Analysis|||||9.36|-2.30|0.234
92156697|NCT03354637|184200094|SUPERIORITY||Mean Difference (Final Values)|1.55|STANDARD_ERROR_OF_MEAN|2.131||0.607|TWO_SIDED|95.0|-4.39|7.49|||Mixed Models Analysis|||||7.49|-4.39|0.607
92156698|NCT03354637|184200094|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|2.165||0.981|TWO_SIDED|95.0|-6.06|5.92|||Mixed Models Analysis|||||5.92|-6.06|0.981
92156699|NCT03354637|184200095|SUPERIORITY||Odds Ratio (OR)|1.4||||0.62|TWO_SIDED|95.0|0.4|4.6|||Mixed Models Analysis|||||4.6|0.4|0.620
92156700|NCT03354637|184200095|SUPERIORITY||Odds Ratio (OR)|1.7||||0.366|TWO_SIDED|95.0|0.5|5.8|||Mixed Models Analysis|||||5.8|0.5|0.366
92156701|NCT03354637|184200096|SUPERIORITY||Odds Ratio (OR)|0.1||||0.157|TWO_SIDED|95.0|0.0|2.3|||Mixed Models Analysis|||||2.3|0.0|0.157
92156702|NCT03354637|184200096|SUPERIORITY||Odds Ratio (OR)|0.4||||0.353|TWO_SIDED|95.0|0.1|2.8|||Mixed Models Analysis|||||2.8|0.1|0.353
92156703|NCT03354637|184200097|SUPERIORITY||Odds Ratio (OR)|1.7||||0.333|TWO_SIDED|95.0|0.6|5.4|||Mixed Models Analysis|||||5.4|0.6|0.333
92156704|NCT03354637|184200097|SUPERIORITY||Odds Ratio (OR)|1.7||||0.388|TWO_SIDED|95.0|0.5|5.2|||Mixed Models Analysis|||||5.2|0.5|0.388
92156705|NCT03354637|184200098|SUPERIORITY||Odds Ratio (OR)|0.7||||0.435|TWO_SIDED|95.0|0.3|1.8|||Mixed Models Analysis|||||1.8|0.3|0.435
92156706|NCT03354637|184200098|SUPERIORITY||Odds Ratio (OR)|0.6||||0.37|TWO_SIDED|95.0|0.2|1.7|||Mixed Models Analysis|||||1.7|0.2|0.370
92275001|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-275.22|241.89||||||For change in emotional functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||241.89|-275.22|
92156707|NCT03354637|184200099|SUPERIORITY||Odds Ratio (OR)|1.7||||0.333|TWO_SIDED|95.0|0.6|5.4|||Mixed Models Analysis|||||5.4|0.6|0.333
92156708|NCT03354637|184200099|SUPERIORITY||Odds Ratio (OR)|1.7||||0.388|TWO_SIDED|95.0|0.5|5.2|||Mixed Models Analysis|||||5.2|0.5|0.388
92156709|NCT03354637|184200100|SUPERIORITY|||||||0.505|||||||Wilcoxon (Mann-Whitney)|||||||0.505
92156710|NCT03354637|184200100|SUPERIORITY|||||||0.359|||||||Wilcoxon (Mann-Whitney)|||||||0.359
92156711|NCT03354637|184200101|SUPERIORITY|||||||0.602|||||||Wilcoxon (Mann-Whitney)|||||||0.602
92156712|NCT03354637|184200101|SUPERIORITY|||||||0.643|||||||Wilcoxon (Mann-Whitney)|||||||0.643
92156713|NCT03354637|184200102|SUPERIORITY|||||||0.992|||||||Wilcoxon (Mann-Whitney)|||||||0.992
92156714|NCT03354637|184200102|SUPERIORITY|||||||0.257|||||||Wilcoxon (Mann-Whitney)|||||||0.257
92156715|NCT03354637|184200104|SUPERIORITY|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||||||0.374
92156716|NCT03354637|184200104|SUPERIORITY|||||||0.253|||||||Wilcoxon (Mann-Whitney)|||||||0.253
92156717|NCT03354637|184200106|SUPERIORITY|||||||0.102|||||||Wilcoxon (Mann-Whitney)|||||||0.102
92156718|NCT03354637|184200106|SUPERIORITY|||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||0.859
92156719|NCT03354637|184200107|SUPERIORITY|||||||0.481|||||||Wilcoxon (Mann-Whitney)|||||||0.481
92156720|NCT03354637|184200107|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|||||||0.357
92156721|NCT02033993|184200111|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.31|TWO_SIDED|90.0|0.68|1.23||1-sided p-value|Log Rank|||||1.23|0.68|0.31
92156722|NCT02033993|184200112|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.4|TWO_SIDED|90.0|0.7|1.3||1-sided p-value|Log Rank|||||1.30|0.70|0.40
92156723|NCT02033993|184200113|SUPERIORITY||Odds Ratio (OR)|1.41||||0.28|TWO_SIDED|95.0|0.76|2.59|||Cochran-Mantel-Haenszel|||||2.59|0.76|0.28
92156724|NCT02033993|184200114|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.54|TWO_SIDED|95.0|0.46|1.51|||Log Rank|||||1.51|0.46|0.54
92156725|NCT01152554|184200145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.24||0.697|TWO_SIDED|95.0|0.54|1.5|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.50|0.54|0.697
92156726|NCT01152554|184200146|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84|STANDARD_ERROR_OF_MEAN|0.27||0.582|TWO_SIDED|95.0|0.45|1.57|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.57|0.45|0.582
92156727|NCT03486899|184200161|SUPERIORITY||Odds Ratio (OR)|2.65||||0.055|TWO_SIDED|95.0|0.88|8.52|||Cochran-Mantel-Haenszel|||||8.52|0.88|0.055
92156728|NCT03486899|184200161|SUPERIORITY||Odds Ratio (OR)|1.89||||0.245|TWO_SIDED|95.0|0.61|6.27|||Cochran-Mantel-Haenszel|||||6.27|0.61|0.245
92156729|NCT03486899|184200161|SUPERIORITY||Odds Ratio (OR)|2.17||||0.129|TWO_SIDED|95.0|0.71|7.1|||Cochran-Mantel-Haenszel|||||7.10|0.71|0.129
92156730|NCT03486899|184200162|SUPERIORITY||Odds Ratio (OR)|2.2||||0.214|TWO_SIDED|95.0|0.53|10.64|||Cochran-Mantel-Haenszel|||||10.64|0.53|0.214
92156731|NCT03486899|184200162|SUPERIORITY||Odds Ratio (OR)|1.83||||0.381|TWO_SIDED|95.0|0.43|9.1|||Cochran-Mantel-Haenszel|||||9.10|0.43|0.381
92156732|NCT03486899|184200162|SUPERIORITY||Odds Ratio (OR)|2.88||||0.079|TWO_SIDED|95.0|0.75|13.48|||Cochran-Mantel-Haenszel|||||13.48|0.75|0.079
92156733|NCT03486899|184200163|SUPERIORITY||Odds Ratio (OR)|2.07||||0.18|TWO_SIDED|95.0|0.63|7.47|||Cochran-Mantel-Haenszel|||||7.47|0.63|0.180
92156734|NCT03486899|184200163|SUPERIORITY||Odds Ratio (OR)|1.37||||0.612|TWO_SIDED|95.0|0.38|5.2|||Cochran-Mantel-Haenszel|||||5.20|0.38|0.612
92156735|NCT03486899|184200163|SUPERIORITY||Odds Ratio (OR)|2.59||||0.079|TWO_SIDED|95.0|0.81|9.1|||Cochran-Mantel-Haenszel|||||9.10|0.81|0.079
92156736|NCT03486899|184200164|SUPERIORITY||Odds Ratio (OR)|0.39||||0.038|TWO_SIDED|95.0|0.15|1.03|||Cochran-Mantel-Haenszel|||||1.03|0.15|0.038
92156737|NCT03486899|184200164|SUPERIORITY||Odds Ratio (OR)|0.6||||0.256|TWO_SIDED|95.0|0.22|1.57|||Cochran-Mantel-Haenszel|||||1.57|0.22|0.256
92156738|NCT03486899|184200164|SUPERIORITY||Odds Ratio (OR)|0.65||||0.296|TWO_SIDED|95.0|0.25|1.73|||Cochran-Mantel-Haenszel|||||1.73|0.25|0.296
92156739|NCT03486899|184200165|SUPERIORITY||Odds Ratio (OR)|1.36||||0.718|TWO_SIDED|95.0|0.22|9.8|||Cochran-Mantel-Haenszel|||||9.80|0.22|0.718
92156740|NCT03486899|184200165|SUPERIORITY||Odds Ratio (OR)|0.64||||0.632|TWO_SIDED|95.0|0.05|5.87|||Cochran-Mantel-Haenszel|||||5.87|0.05|0.632
92341413|NCT04073303|184583941|SUPERIORITY||Rate-Difference|49.7|||<|0.0001|TWO_SIDED|95.0|40.6|57.4|||Cochran-Mantel-Haenszel|||||57.4|40.6|<0.0001
92341414|NCT04073303|184583942|SUPERIORITY||Rate-Difference|70.5|||<|0.0001|TWO_SIDED|95.0|59.6|77.5|||Cochran-Mantel-Haenszel|||||77.5|59.6|<0.0001
92341415|NCT04073303|184583943|SUPERIORITY||LS Mean of Difference|-5.19|||<|0.0001|TWO_SIDED|95.0|-5.64|-4.75|||ANCOVA|||||-4.75|-5.64|<0.0001
92341416|NCT03258593|184583949|OTHER|Location Tests (Wilcoxon Rank sum test)|Median Difference (Net)|67.5||||0.202|TWO_SIDED|95.0|25.0|75.0||Unadjusted p-value|Wilcoxon Rank sum test|||||75|25|0.202
92341417|NCT03258593|184583949|OTHER|Location Tests (Wilcoxon Rank sum test)|Median Difference (Net)|114.0||||0.667|TWO_SIDED|95.0|67.9|160.3||Unadjusted p-value|Wilcoxon Rank sum test|||||160.3|67.9|0.667
92341418|NCT03258593|184583949|OTHER|Location Tests (Wilcoxon Rank sum test)|Median Difference (Net)|44.1||||0.463|TWO_SIDED|95.0|25.0|75.0|||Wilcoxon Rank sum test|||||75|25|0.463
92341419|NCT03258593|184583951|OTHER|Location test (Rank sum based i.e., Wilcoxon test)|Median Difference (Net)|-17.75||||0.863|TWO_SIDED|95.0|-211.6|170.3|||Wilcoxon Rank sum test||Median change; Signed Rank (S/R) of post-treatment PDL-1 levels minus baseline.|||170.3|-211.6|0.863
92341420|NCT03258593|184583951|OTHER|Location test (Rank sum based i.e., Wilcoxon test)|Median Difference (Net)|114.1||||0.666|TWO_SIDED|95.0|67.9|160.3|||Wilcoxon Rank sum test||Median change; Signed Rank (S/R) of post-treatment PDL-1 levels minus baseline.|||160.3|67.9|0.666
92341421|NCT03258593|184583951|OTHER|Location test (Rank sum based i.e., Wilcoxon test)|Median Difference (Net)|21.3||||0.949|TWO_SIDED|95.0|-203.9|269.9|||Wilcoxon Rank sum test||Median change; Signed Rank (S/R) of post-treatment PDL-1 levels minus baseline.|||269.9|-203.9|0.949
92341422|NCT03258593|184583953|OTHER|Other: median difference|Median Difference (Net)|4.34|||<|0.001|TWO_SIDED|95.0|1.7|38.0||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interferon Gamma (IFN-γ) at 3 weeks compared to their respective baseline values.||38.0|1.7|<0.001
92341423|NCT03258593|184583953|OTHER|Other: median difference|Median Difference (Net)|3.29|||<|0.001|TWO_SIDED|95.0|1.5|11.25||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interferon Gamma (IFN-γ) at 5 weeks compared to their respective baseline values.||11.25|1.5|<0.001
92341424|NCT03258593|184583953|OTHER|Other: median difference|Median Difference (Net)|0.4|||<|0.05|TWO_SIDED|95.0|0.1|0.7||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Tumor Necrosis Factor Alpha (TNF-α) at 3 weeks compared to their respective baseline values.||0.7|0.1|<0.05
92341425|NCT03258593|184583953|OTHER|Other: median difference|Median Difference (Net)|0.24||||0.052|TWO_SIDED|95.0|-0.01|0.96||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Tumor Necrosis Factor Alpha (TNF-α ) at 5 weeks compared to their respective baseline values.||0.96|-0.01|0.052
92341426|NCT03258593|184583953|OTHER|Other: median difference|Median Difference (Net)|0.39||||0.055|TWO_SIDED|95.0|-0.03|4.61||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interleukin 6 (IL-6) at 3 weeks as compared to their respective baseline values.||4.61|-0.03|0.055
92341427|NCT03258593|184583953|OTHER|Other: median difference|Median Difference (Net)|0.54||||0.06|TWO_SIDED|95.0|-0.06|1.96|||Paired samples Wilcoxon rank sum test|Hochberg adjustment may be used.||Interleukin 6 (IL-6) at 5 weeks as compared to their respective baseline values.||1.96|-0.06|0.06
92341428|NCT03258593|184583953|OTHER|Other: median difference|Median Difference (Net)|0.73||||0.42|TWO_SIDED|95.0|-1.63|1.62||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interleukin 8 (IL-8) at 3 weeks as compared to their respective baseline values.||1.62|-1.63|0.420
92341429|NCT03258593|184583953|OTHER|Other: median difference|Median Difference (Net)|-0.39||||0.733|TWO_SIDED|95.0|-1.315|1.31||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interleukin 8 (IL-8) at 5 weeks as compared to their respective baseline values.||1.31|-1.315|0.733
92341430|NCT03258593|184583953|OTHER|Other: median difference|Median Difference (Net)|0.12||||0.01|TWO_SIDED|95.0|0.04|0.21||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interleukin 10 (IL-10) at 3 weeks as compared to their respective baseline values.||0.21|0.04|0.010
92341431|NCT03258593|184583953|OTHER|Other: median difference|Median Difference (Net)|0.1||||0.014|TWO_SIDED|95.0|0.04|0.4||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interleukin 10 (IL-10) at 5 weeks as compared to their respective baseline values.||0.40|0.04|0.014
92341432|NCT03258593|184583955|OTHER|One curve estimated in this cohort. Not compared to any other curves.|Kaplan-Meier product-limit|13.2|||||TWO_SIDED|97.5|2.5|97.5||Unadjusted p-value|Kaplan-Meier product-limit estimates|||Disease free survival time was evaluated with the product-limit estimator by Kaplan-Meier test.||97.5|2.5|
92341433|NCT04817332|184583976|SUPERIORITY||Odds Ratio (OR)|0.72||||0.008|TWO_SIDED|95.0|0.57|0.92|||Odds ratio Ordinal Logistic Regression|adjusted for the stratifying factors of age as a fixed effect and site using robust standard errors to account for clustering||||0.92|0.57|0.008
92156741|NCT03486899|184200165|SUPERIORITY||Odds Ratio (OR)|0.32||||0.293|TWO_SIDED|95.0|0.01|4.19|||Cochran-Mantel-Haenszel|||||4.19|0.01|0.293
92156742|NCT03486899|184200166|SUPERIORITY||Odds Ratio (OR)|1.36||||0.718|TWO_SIDED|95.0|0.22|9.8|||Cochran-Mantel-Haenszel|||||9.80|0.22|0.718
92156743|NCT03486899|184200166|SUPERIORITY||Odds Ratio (OR)|0.64||||0.632|TWO_SIDED|95.0|0.05|5.87|||Cochran-Mantel-Haenszel|||||5.87|0.05|0.632
92156744|NCT03486899|184200166|SUPERIORITY||Odds Ratio (OR)|0.32||||0.293|TWO_SIDED|95.0|0.01|4.19|||Cochran-Mantel-Haenszel|||||4.19|0.01|0.293
92156745|NCT03486899|184200167|SUPERIORITY||Odds Ratio (OR)|2.55||||0.101|TWO_SIDED|95.0|0.73|10.12|||Cochran-Mantel-Haenszel|||||10.12|0.73|0.101
92341434|NCT04817332|184583977|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.058|TWO_SIDED|95.0|0.76|1.0|||Regression, Cox|||||1.00|0.76|0.058
92341435|NCT04817332|184583980|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.84|1.13||||||||1.13|0.84|
92341436|NCT04817332|184583982|SUPERIORITY||Rate ratio|0.93|||||TWO_SIDED|95.0|0.87|0.99||||||||0.99|0.87|
92341437|NCT04817332|184583983|SUPERIORITY||Rate ratio|1.13|||||TWO_SIDED|95.0|0.73|1.74||||||||1.74|0.73|
92341438|NCT04817332|184583984|SUPERIORITY||Rate ratio|0.84|||||TWO_SIDED|95.0|0.69|1.04||||||||1.04|0.69|
92341439|NCT04817332|184583985|SUPERIORITY||Rate ratio|1.68|||||TWO_SIDED|95.0|1.09|2.58||||||||2.58|1.09|
92341440|NCT04817332|184583986|SUPERIORITY||Rate ratio|1.03|||||TWO_SIDED|95.0|0.92|1.15||||||||1.15|0.92|
92341441|NCT04817332|184583987|SUPERIORITY||Hazard Ratio (HR)|1.41|||||TWO_SIDED|95.0|1.06|1.88||||||||1.88|1.06|
92341442|NCT04817332|184584001|SUPERIORITY||Mean Difference (Final Values)|-67.0|||||TWO_SIDED|95.0|-102.0|-31.0||||||||-31|-102|
92341443|NCT04817332|184584005|SUPERIORITY||Mean Difference (Final Values)|0.003|||||TWO_SIDED|95.0|-0.06|0.066||||||||0.066|-0.06|
92341444|NCT05457257|184584021|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.726|TWO_SIDED|95.0|0.46|3.45||The 2-sided nominal p-values were calculated using the log-rank test stratified by the same variables selected in the primary pooling strategy, using the Breslow method for handling ties.|Log Rank||The Hazard ratio and CI were calculated using a Cox Proportional Hazards model adjusted for the variables. The Efron approach was used for handling ties. A hazard ratio \<1 favours Olaparib 300 mg bd.|The explanation of statistical method||3.45|0.46|0.726
92156746|NCT03486899|184200167|SUPERIORITY||Odds Ratio (OR)|1.43||||0.587|TWO_SIDED|95.0|0.36|6.17|||Cochran-Mantel-Haenszel|||||6.17|0.36|0.587
92156747|NCT03486899|184200167|SUPERIORITY||Odds Ratio (OR)|1.72||||0.371|TWO_SIDED|95.0|0.45|7.2|||Cochran-Mantel-Haenszel|||||7.20|0.45|0.371
92341445|NCT05457257|184584022|SUPERIORITY||Odds Ratio (OR)|2.4||||0.498|TWO_SIDED|95.0|0.2|59.66||A Fisher's exact test using mid p-values was used.|Regression, Logistic||Objective response rate compared using logistic regression adjusting for previous taxane use as a covariate. An odds ratio \>1 favours Olaparib 300 mg bd. CI calculated using profile likelihood method.|The explanation of statistical method||59.66|0.20|0.498
92156748|NCT03486899|184200168|SUPERIORITY||Odds Ratio (OR)|2.2||||0.214|TWO_SIDED|95.0|0.53|10.64|||Cochran-Mantel-Haenszel|||||10.64|0.53|0.214
92156749|NCT03486899|184200168|SUPERIORITY||Odds Ratio (OR)|1.83||||0.381|TWO_SIDED|95.0|0.43|9.1|||Cochran-Mantel-Haenszel|||||9.10|0.43|0.381
92156750|NCT03486899|184200168|SUPERIORITY||Odds Ratio (OR)|2.2||||0.214|TWO_SIDED|95.0|0.53|10.64|||Cochran-Mantel-Haenszel|||||10.64|0.53|0.214
92156751|NCT03486899|184200169|SUPERIORITY||Odds Ratio (OR)|2.85||||0.06|TWO_SIDED|95.0|0.83|11.21|||Cochran-Mantel-Haenszel|||||11.21|0.83|0.060
92156752|NCT03486899|184200169|SUPERIORITY||Odds Ratio (OR)|1.93||||0.276|TWO_SIDED|95.0|0.53|7.92|||Cochran-Mantel-Haenszel|||||7.92|0.53|0.276
92156753|NCT03486899|184200169|SUPERIORITY||Odds Ratio (OR)|1.72||||0.371|TWO_SIDED|95.0|0.45|7.2|||Cochran-Mantel-Haenszel|||||7.20|0.45|0.371
92156754|NCT03486899|184200170|SUPERIORITY||Odds Ratio (OR)|1.72||||0.242|TWO_SIDED|95.0|0.62|4.87|||Cochran-Mantel-Haenszel|||||4.87|0.62|0.242
92156755|NCT03486899|184200170|SUPERIORITY||Odds Ratio (OR)|1.1||||0.803|TWO_SIDED|95.0|0.37|3.26|||Cochran-Mantel-Haenszel|||||3.26|0.37|0.803
92156756|NCT03486899|184200170|SUPERIORITY||Odds Ratio (OR)|1.56||||0.35|TWO_SIDED|95.0|0.56|4.46|||Cochran-Mantel-Haenszel|||||4.46|0.56|0.350
92156757|NCT01439711|184200171|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92156758|NCT01439711|184200172|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92156759|NCT02397460|184200185|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Treatment effects on Emax following capsaicin challenge were modeled for dose dependence and were estimated on the basis of disease status for participants who were healthy or had chronic cough and received gefapixant 50 mg, gefapixant 300 mg, or placebo.||||< 0.0001
92156760|NCT02397460|184200186|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Treatment effects following capsaicin challenge were modeled for dose. dependence and were estimated on the basis of disease status for participants who had chronic cough and received gefapixant 50 mg, gefapixant 300 mg, or placebo.||||< 0.0001
92156761|NCT01767129|184200213|SUPERIORITY||Mean Difference (Final Values)|-83.4||||0.1907|TWO_SIDED|95.0|-215.02|48.23|||ANOVA|The standard analysis of variance (ANOVA) model for a 2-period crossover trial was used. Factors in the model were participant, treatment, and period.|The least squares (LS) mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||48.23|-215.02|0.1907
92156762|NCT01767129|184200214|SUPERIORITY||Median Difference (Final Values)|-18.9||||0.388|TWO_SIDED|95.0|-65.28|27.42|||ANOVA|The standard ANOVA model for a 2-period crossover trial was used. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||27.42|-65.28|0.3880
92156763|NCT01767129|184200215|SUPERIORITY||Mean Difference (Final Values)|171.9||||0.7574|TWO_SIDED|95.0|-1022.79|1366.64|||ANOVA|The standard ANOVA model for a 2-period crossover trial was used. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||1366.64|-1022.79|0.7574
92156764|NCT01767129|184200216|SUPERIORITY||Mean Difference (Final Values)|48.8||||0.4203|TWO_SIDED|95.0|-80.63|178.3|||ANOVA|The standard ANOVA model for a 2-period crossover trial was used. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||178.30|-80.63|0.4203
92156765|NCT01767129|184200217|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.1067|TWO_SIDED|95.0|-2.41|0.27|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Part I||0.27|-2.41|0.1067
92156766|NCT01767129|184200217|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.865|TWO_SIDED|95.0|-2.64|3.09|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Part II||3.09|-2.64|0.8650
92156767|NCT01767129|184200217|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.0745|TWO_SIDED|95.0|-4.94|0.27|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Part IV||0.27|-4.94|0.0745
92156768|NCT01767129|184200218|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.0625|TWO_SIDED|95.0|-8.1|0.24|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Part 1||0.24|-8.10|0.0625
92156769|NCT01767129|184200218|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.2474|TWO_SIDED|95.0|-3.74|1.07|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Part 2||1.07|-3.74|0.2474
92275002|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56|||||TWO_SIDED|95.0|-307.94|319.05||||||For change in cognitive functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||319.05|-307.94|
92341446|NCT05457257|184584023|SUPERIORITY||Hazard Ratio (HR)|1.66||||0.44|TWO_SIDED|95.0|0.5|7.48||The 2-sided nominal p-values were calculated using the log-rank test stratified by the same covariates and using the Breslow method for handling ties.|Log Rank||The hazard ratio and CI were calculated using a Cox Proportional Hazards model with the Efron approach being used for handling ties, adjusting for covariates. A hazard ratio \<1 favours Olaparib 300 mg bd.|The explanation of statistical method||7.48|0.50|0.440
92341447|NCT05457257|184584025|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.604|TWO_SIDED|95.0|0.2|2.88||The 2-sided nominal p-value was calculated using the log-rank test stratified by the same variables selected in the primary pooling strategy, using the Breslow method for handling ties.|Log Rank||The Hazard ratio and CI were calculated using a Cox Proportional Hazards model adjusted for the variables selected in the primary pooling strategy: none. The Efron approach was used for handling ties. A hazard ratio \<1 favours Olaparib 300 mg bd.|The explanation of statistical method||2.88|0.20|0.604
92156770|NCT01767129|184200219|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9764|TWO_SIDED|95.0|-3.1|3.01|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||3.01|-3.10|0.9764
92156771|NCT01767129|184200220|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.6359|TWO_SIDED|95.0|-9.94|6.36|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Mobility||6.36|-9.94|0.6359
92156772|NCT01767129|184200220|SUPERIORITY||Mean Difference (Final Values)|-8.5||||0.0167|TWO_SIDED|95.0|-15.2|-1.87|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Activities of Daily Living||-1.87|-15.20|0.0167
92156773|NCT01767129|184200220|SUPERIORITY||Mean Difference (Final Values)|-7.5||||0.0959|TWO_SIDED|95.0|-16.54|1.56|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Emotional Well Being||1.56|-16.54|0.0959
92156774|NCT01767129|184200220|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.5108|TWO_SIDED|95.0|-16.72|8.83|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Stigma||8.83|-16.72|0.5108
92156775|NCT01767129|184200220|SUPERIORITY||Mean Difference (Final Values)|-9.8||||0.0806|TWO_SIDED|95.0|-21.06|1.42|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Social support||1.42|-21.06|0.0806
92156776|NCT01767129|184200220|SUPERIORITY||Mean Difference (Final Values)|-4.3||||0.4205|TWO_SIDED|95.0|-15.66|7.03|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Cognitive impairment (Cognitions)||7.03|-15.66|0.4205
92156777|NCT01767129|184200220|SUPERIORITY||Mean Difference (Final Values)|-6.1||||0.1065|TWO_SIDED|95.0|-13.63|1.53|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Communication||1.53|-13.63|0.1065
92156778|NCT01767129|184200220|SUPERIORITY||Mean Difference (Final Values)|-5.2||||0.4456|TWO_SIDED|95.0|-19.51|9.19|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Bodily discomfort||9.19|-19.51|0.4456
92156779|NCT01767129|184200221|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.0233|TWO_SIDED|95.0|-11.72|-1.07|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||-1.07|-11.72|0.0233
92156780|NCT01767129|184200222|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.193|TWO_SIDED|95.0|-1.39|0.31|||ANOVA|Change from Screening values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||0.31|-1.39|0.1930
92156781|NCT01767129|184200223|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.0511|TWO_SIDED|95.0|-2.17|0.01|||ANOVA|Change were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Dyskinesia||0.01|-2.17|0.0511
92156782|NCT01767129|184200223|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.7745|TWO_SIDED|95.0|-0.7|0.91|||ANOVA|Change were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Other symptoms||0.91|-0.70|0.7745
92156783|NCT00738530|184200236|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.336|TWO_SIDED|95.0|0.76|1.1|||Log Rank|||||1.10|0.76|0.3360
92156784|NCT00738530|184200238|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.0004|TWO_SIDED|95.0|0.64|0.88|||Log Rank|||||0.88|0.64|0.0004
92156785|NCT00738530|184200239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0002|TWO_SIDED|95.0|0.62|0.86|||Log Rank|||||0.86|0.62|0.0002
92156786|NCT00738530|184200241|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0023|TWO_SIDED|95.0|0.66|0.92|||Log Rank|||||0.92|0.66|0.0023
92156787|NCT00738530|184200242|SUPERIORITY_OR_OTHER||Difference in response rates|19.9|||<|0.0001|TWO_SIDED|95.0|13.2|26.6|||Chi-squared|||||26.6|13.2|<.0001
92156788|NCT01656759|184200245|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||t-test, 2 sided|||||||0.2
92156789|NCT01656759|184200246|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||||||0.9
92156790|NCT01656759|184200248|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||||||0.9
92156791|NCT04179461|184200251|EQUIVALENCE|The Wilcoxon signed-rank test was employed for pairwise comparison between visits for continuous data. Data for the CASI was captured at clinical visits. 3. A level of statistical significance was established at \< 0.05.||||||0.52||||||Change in CASI score from V1 to V3|Wilcoxon (Mann-Whitney)|||The modified CASI score incorporates key asthma outcomes such as symptoms, healthcare utilization, and medication dose.||||0.52
92156792|NCT04179461|184200252|EQUIVALENCE|The Wilcoxon signed-rank test was employed for pairwise comparison between visits for continuous data. Data for the c-ACT/ACT was captured at clinical visits and from monthly phone calls. Because c-ACT/ACT could vary through time, we calculated the average c-ACT/ACT between V1-V2 and V2-V3. Data analysis was performed in SAS version 9.4 (SAS, Cary, NC). A level of statistical significance was established at \< 0.05.||||||0.45||||||The change in ACT score from V1 to V2 (the period between V1 and V2).|Wilcoxon (Mann-Whitney)|||||||0.45
92156793|NCT04179461|184200252|EQUIVALENCE|The Wilcoxon signed-rank test was employed for pairwise comparison between visits for continuous data. Data for the c-ACT/ACT was captured at clinical visits and from monthly phone calls. Because c-ACT/ACT could vary through time, we calculated the average c-ACT/ACT between V1-V2 and V2-V3. Data analysis was performed in SAS version 9.4 (SAS, Cary, NC). A level of statistical significance was established at \< 0.05.||||||0.01||||||The change in ACT score from V1-V2 to V2-V3.|Wilcoxon (Mann-Whitney)|||||||0.01
92156794|NCT04179461|184200253|EQUIVALENCE|The Wilcoxon signed-rank test was employed for pairwise comparison between visits for continuous data and the Bowker's test was used to compare categorical FEV1-FVC data. Data analysis was performed in SAS version 9.4 (SAS, Cary, NC). A level of statistical significance was established at \< 0.05.||||||0.27||||||The Change in FEV1/FVC from Visit 1 to Visit 3|Wilcoxon (Mann-Whitney)|||||||0.27
92156795|NCT04179461|184200254|EQUIVALENCE|Intervention adherence and end of study adherence were each calculated based on the 30 days prior to end of intervention and V3, respectively, in order to assess a consistent timeframe. The paired Wilcoxon signed rank test was conducted to compare controller inhaler adherence during baseline, adherence intervention, and end of study.||||||0.17||||||Change between baseline (V1) to end of study (V3)|Wilcoxon (Mann-Whitney)|||||||0.17
92156796|NCT02916862|184200274|SUPERIORITY|Power calculations were done for Aim 1, so the main analysis was done only between SCF and placebo. Significance was set at a p value \<0.05.|Mean Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|1.92||0.377|TWO_SIDED|95.0|-2.12|5.53||We adjusted the models for baseline age, sex, Tanner stage (puberty status), percent change in weight, and percent change in height.|ANCOVA|We adjusted the models for baseline age, sex, Tanner stage (puberty status), percent change in weight, and percent change in height.||The main analyses were performed on an intention-to-treat basis. For the primary analysis, percent change from baseline in whole-body BMC after one year of supplement (SCF) vs placebo (AIM 1), we used analysis of covariance, adjusted for baseline age, sex, Tanner stage (puberty status), percent change in weight, and percent change in height. Effects were considered significant at the alpha level of 0.05.||5.53|-2.12|0.377
92156797|NCT02916862|184200274|SUPERIORITY|Significance was set at a p value \<0.05.|Mean Difference (Net)|1.95|STANDARD_DEVIATION|1.8||0.245|TWO_SIDED|95.0|-1.366|5.266|||ANCOVA|||The main analyses were performed on an intention-to-treat basis. For the secondary analysis, percent change from baseline in whole-body BMC after one year of supplement (SCF+calcium) vs placebo+calcium (AIM 2), we used analysis of covariance, adjusted for baseline age, sex, Tanner stage (puberty status), percent change in weight, and percent change in height. Effects were considered significant at the alpha level of 0.05.||5.266|-1.366|0.245
92156798|NCT02916862|184200275|SUPERIORITY||Mean Difference (Net)|1.655||||0.05|TWO_SIDED|95.0|-0.765|8.143|||ANCOVA|||The main analyses were performed on an intention-to-treat basis. For the secondary analysis, percent change from baseline in lumbar BMC after one year of supplement (SCF) vs placebo, we used analysis of covariance, adjusted for baseline age, sex, Tanner stage (puberty status), percent change in weight, and percent change in height. Effects were considered significant at the alpha level of 0.05.||8.143|-0.765|0.05
92156799|NCT02916862|184200275|SUPERIORITY||Mean Difference (Net)|1.035|STANDARD_ERROR_OF_MEAN|2.535||0.05|TWO_SIDED|95.0|-7.68|2.435|||ANCOVA|||||2.435|-7.680|0.05
92156800|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|0.031||0.79|TWO_SIDED|95.0|0.95|1.07|||fixed-effect meta-analysis|||The null hypothesis was the that proportions of patients with at least one OAC filled at one year were the same between the two groups.||1.07|0.95|0.79
92156801|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|1.04|STANDARD_ERROR_OF_MEAN|0.039||0.307|TWO_SIDED|95.0|0.96|1.12|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled at 183 days were the same between the two groups.||1.12|0.96|0.307
92156802|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|1.05|STANDARD_ERROR_OF_MEAN|0.052||0.375|TWO_SIDED|95.0|0.95|1.16|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled at 90 days were the same between the two groups.||1.16|0.95|0.375
92156803|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|1.09|STANDARD_ERROR_OF_MEAN|0.076||0.265|TWO_SIDED|95.0|0.94|1.26|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled at 42 days were the same between the two groups.||1.26|0.94|0.265
92156804|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|1.05|STANDARD_ERROR_OF_MEAN|0.044||0.237|TWO_SIDED|95.0|0.97|1.15|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among females were the same between the two groups.||1.15|0.97|0.237
92156805|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|0.97|STANDARD_ERROR_OF_MEAN|0.042||0.487|TWO_SIDED|95.0|0.89|1.05|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among males were the same between the two groups.||1.05|0.89|0.487
92156806|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|0.99|STANDARD_ERROR_OF_MEAN|0.125||0.952|TWO_SIDED|95.0|0.78|1.27|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among age \<= 64 yrs were the same between the two groups.||1.27|0.78|0.952
92156807|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|1.02|STANDARD_ERROR_OF_MEAN|0.057||0.696|TWO_SIDED|95.0|0.91|1.14|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of the patients with at least one OAC filled among age 65 - 74 yrs were the same between the two groups.||1.14|0.91|0.696
92341448|NCT05457257|184584028|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.889|TWO_SIDED|95.0|0.19|6.24||The 2-sided nominal p-values were calculated using the log-rank test stratified by the same covariates and using the Breslow method for handling ties.|Log Rank||The hazard ratio and CI were calculated using a Cox Proportional Hazards model with the Efron approach being used for handling ties, adjusting for covariates. A hazard ratio \<1 favours Olaparib 300 mg bd.|The explanation of statistical method||6.24|0.19|0.889
92156808|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|0.047||0.584|TWO_SIDED|95.0|0.94|1.13|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among age 75 - 84 yrs were the same between groups.||1.13|0.94|0.584
92156809|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|0.99|STANDARD_ERROR_OF_MEAN|0.069||0.911|TWO_SIDED|95.0|0.87|1.14|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among age \>= 85 yrs were the same between the two groups.||1.14|0.87|0.911
92156810|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|0.98|STANDARD_ERROR_OF_MEAN|0.057||0.746|TWO_SIDED|95.0|0.88|1.1|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of the patients with at least one OAC filled among those with a CHADS-VASC of 2-3 were the same between the two groups.||1.10|0.88|0.746
92341449|NCT03143101|184584031|SUPERIORITY||Mean Difference (Net)|18.1||||0.006|TWO_SIDED|95.0|4.8|30.9||p-value is calculated from the Cochran-Mantel-Haenszel (CMH) test adjusting for the prior influenza vaccination status.|Cochran-Mantel-Haenszel|||||30.9|4.8|0.006
92156811|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|1.08|STANDARD_ERROR_OF_MEAN|0.048||0.109|TWO_SIDED|95.0|0.98|1.19|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among those with a CHADS-VASC score of 4-5 were the same between the two groups.||1.19|0.98|0.109
92156812|NCT03259373|184200286|SUPERIORITY||Odds Ratio (OR)|0.94|STANDARD_ERROR_OF_MEAN|0.057||0.244|TWO_SIDED|95.0|0.84|1.05|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among those with a CHADS-VASC score \>=6 were the same between the two groups.||1.05|0.84|0.244
92156813|NCT03259373|184200287|SUPERIORITY||Hazard Ratio (HR)|0.92|STANDARD_ERROR_OF_MEAN|0.079||0.3|TWO_SIDED|95.0|0.79|1.08|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.08|0.79|0.300
92156814|NCT03259373|184200288|SUPERIORITY||Hazard Ratio (HR)|1.31|STANDARD_ERROR_OF_MEAN|0.172||0.122|TWO_SIDED|95.0|0.93|1.83|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.83|0.93|0.122
92156815|NCT03259373|184200289|SUPERIORITY||Hazard Ratio (HR)|0.98|STANDARD_ERROR_OF_MEAN|0.073||0.76|TWO_SIDED|95.0|0.85|1.13|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.13|0.85|0.760
92156816|NCT03259373|184200290|SUPERIORITY||Hazard Ratio (HR)|0.99|STANDARD_ERROR_OF_MEAN|0.072||0.76|TWO_SIDED|95.0|0.86|1.14|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.14|0.86|0.760
92156817|NCT03259373|184200291|SUPERIORITY||Hazard Ratio (HR)|0.97|STANDARD_ERROR_OF_MEAN|0.052||0.616|TWO_SIDED|95.0|0.88|1.08|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.08|0.88|0.616
92341450|NCT03143101|184584035|SUPERIORITY||Mean Difference (Net)|32.7|||<|0.001|TWO_SIDED|95.0|14.4|47.8||p-value is calculated from the CMH test adjusting for the prior influenza vaccination status.|Cochran-Mantel-Haenszel|||||47.8|14.4|<0.001
92341451|NCT01435759|184584049|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean|3.16|STANDARD_ERROR_OF_MEAN|1.01||0.004|TWO_SIDED||||||MCP-Mod Analysis|The systolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.14, was based on MCP-Mod Analysis for the candidate model EMax.|||||0.004
92341452|NCT01435759|184584049|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|2.5|STANDARD_ERROR_OF_MEAN|1.01||0.032|TWO_SIDED||||||MCP-Mod Analysis|The systolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 2.48, was based on MCP-Mod Analysis for the candidate model Exponential.|||||0.032
92156818|NCT03259373|184200292|SUPERIORITY||Hazard Ratio (HR)|1.0|STANDARD_ERROR_OF_MEAN|0.072||0.992|TWO_SIDED|95.0|0.87|1.15|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.15|0.87|0.992
92156819|NCT03259373|184200293|SUPERIORITY||Hazard Ratio (HR)|1.01|STANDARD_ERROR_OF_MEAN|0.029||0.808|TWO_SIDED|95.0|0.95|1.07|||fixed-effect meta-analysis|||||1.07|0.95|0.808
92156820|NCT03259373|184200294|SUPERIORITY||Standardized Mean Difference (%)|-0.51|STANDARD_ERROR_OF_MEAN|0.027||0.853|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.853
92156821|NCT03259373|184200295|SUPERIORITY||Odds Ratio (OR)|0.93|STANDARD_ERROR_OF_MEAN|0.066||0.303|TWO_SIDED|95.0|0.82|1.06|||fixed-effect meta-analysis|||||1.06|0.82|0.303
92156822|NCT03259373|184200296|SUPERIORITY||Hazard Ratio (HR)|1.03|STANDARD_ERROR_OF_MEAN|0.063||0.649|TWO_SIDED|95.0|0.91|1.16|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.16|0.91|0.649
92156823|NCT03259373|184200297|SUPERIORITY||Standardized Mean Difference (%)|-0.4998|STANDARD_ERROR_OF_MEAN|0.009||0.587|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.587
92156824|NCT03259373|184200297|SUPERIORITY||Standardized Mean Difference (%)|-0.4655|STANDARD_ERROR_OF_MEAN|0.009||0.613|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.613
92156825|NCT03259373|184200297|SUPERIORITY||Standardized Mean Difference (%)|0.598|STANDARD_ERROR_OF_MEAN|0.009||0.515|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.515
92156826|NCT03259373|184200297|SUPERIORITY||Standardized Mean Difference (%)|-2.17|STANDARD_ERROR_OF_MEAN|0.009||0.018|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.018
92156827|NCT03259373|184200297|SUPERIORITY||Standardized Mean Difference (%)|0.05|STANDARD_ERROR_OF_MEAN|0.009||0.956|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.956
92156828|NCT03259373|184200298|SUPERIORITY||Standardized Mean Difference (%)|-1.018|STANDARD_ERROR_OF_MEAN|0.009||0.279|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.279
92156829|NCT03259373|184200298|SUPERIORITY||Standardized Mean Difference (%)|-1.347|STANDARD_ERROR_OF_MEAN|0.009||0.143|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.143
92156830|NCT01706965|184200304|SUPERIORITY|||||||0.38|||||||ANOVA|||Univariate ANOVA, controlling for baseline PANSS total||||.38
92156831|NCT01706965|184200305|SUPERIORITY|ANOVA, controlled for baseline MATRICS||||||0.99|||||||ANOVA|||||||.99
92156832|NCT00556374|184200322|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.504|||<|0.0001|TWO_SIDED|95.0|0.39|0.65|||Cox Proportional Hazards Model|Stratification factors are hospital type, prior use of aromatase inhibitor, and baseline lumbar spine BMD.|From the Cox proportional hazard model with treatment as the independent variable and stratified by randomization strata. A hazard ratio \< 1.0 indicates a lower average event rate and a longer fracture-free time for denosumab relative to placebo.|The efficacy clinical hypothesis is that denosumab, when administered subcutaneously at a dose of 60 mg every 6 months, will be considered efficacious in patients with non-metastatic breast cancer receiving AIT if the rate of first clinical fracture in denosumab-treated patients is lower than that in placebo-treated patients. It is anticipated that denosumab will reduce the rate by 30% compared with placebo (ie, the true hazard ratio of denosumab compared with placebo is 0.70).||0.65|0.39|<0.0001
92156833|NCT00556374|184200323|SUPERIORITY_OR_OTHER_LEGACY||Difference from Placebo|10.02|||<|0.0001|TWO_SIDED|95.0|9.04|11.01||The Hochberg procedure was used to control for multiplicity.|ANCOVA|Model includes treatment group as the independent variable and adjusted for baseline value and the randomization stratification factors.||||11.01|9.04|<0.0001
92405592|NCT02215252|184701380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|90.0|-1.75|-0.32||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||-0.32|-1.75|
92156834|NCT00556374|184200324|SUPERIORITY_OR_OTHER_LEGACY||Difference from Placebo|7.92|||<|0.0001|TWO_SIDED|95.0|6.87|8.97||The Hochberg procedure was used to control for multiplicity.|ANCOVA|Model includes treatment group as the independent variable and adjusted for baseline value and the randomization stratification factors.||||8.97|6.87|<0.0001
92156835|NCT00556374|184200325|SUPERIORITY_OR_OTHER_LEGACY||Difference from Placebo|6.51|||<|0.0001|TWO_SIDED|95.0|5.62|7.39||The Hochberg procedure was used to control for multiplicity.|ANCOVA|Model includes treatment group as the independent variable and adjusted for baseline value and the randomization stratification factors.||||7.39|5.62|<0.0001
92156836|NCT00556374|184200326|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.53||||0.0088|TWO_SIDED|95.0|0.33|0.85|||Regression, Logistic|Logistic regression model includes treatment groups as the independent variable and stratified by the randomization stratification factors.|Values \< 1 for odds ratio favor denosumab.|||0.85|0.33|0.0088
92156837|NCT00556374|184200327|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.54||||0.007|TWO_SIDED|95.0|0.34|0.84|||Regression, Logistic|Logistic regression model includes treatment groups as the independent variable and stratified by the randomization stratification factors.|Values \< 1 for odds ratio favor denosumab.|||0.84|0.34|0.0070
92156838|NCT00556374|184200328|SUPERIORITY||Hazard Ratio (HR)|0.816||||0.0515|TWO_SIDED|95.0|0.66|1.0|||Cox Proportional Hazards Model|Stratified by randomization strata (hospital type, use of aromatase inhibitor, baseline lumbar spine BMD).|From the Cox Proportional hazards model with treatment fitted as a covariate and stratified by randomization strata. A hazard ratio \< 1.0 indicates a lower average event rate and a longer disease-free time for denosumab relative to placebo.|||1.00|0.66|0.0515
92275003|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.78|||||TWO_SIDED|95.0|-238.4|293.96||||||For change in social functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||293.96|-238.40|
92156839|NCT00556374|184200329|SUPERIORITY|Analysis of BMFS was conditional on the outcome of DFS due to hierarchical testing strategy, therefore p-value not reported.|Hazard Ratio (HR)|0.808|||||TWO_SIDED|95.0|0.654|0.997|||||A hazard ratio \< 1.0 indicates a lower average event rate and a longer bone metastases-free time for denosumab relative to placebo.|||0.997|0.654|
92156840|NCT00556374|184200330|SUPERIORITY|Analysis of OS was conditional on the outcome of DFS due to hierarchical testing strategy, therefore p-value not reported.|Hazard Ratio (HR)|0.802|||||TWO_SIDED|95.0|0.635|1.013|||||A hazard ratio \< 1.0 indicates a lower average event rate and a longer overall survival time for denosumab relative to placebo.|||1.013|0.635|
92156841|NCT00462644|184200351|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||||||0.007
92156842|NCT00462644|184200352|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|||||||0.011
92156843|NCT00462644|184200353|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||||||0.007
92341453|NCT01435759|184584049|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean|3.28|STANDARD_ERROR_OF_MEAN|1.01||0.003|TWO_SIDED||||||MCP-Mod Analysis|The systolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.26 was based on MCP-Mod Analysis for the candidate model Linear.|||||0.003
92156844|NCT00462644|184200354|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||t-test, 2 sided|||Normality was tested using the Kolmogorow-Smirnov test.||||0.022
92156845|NCT00462644|184200355|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
92156846|NCT00462644|184200356|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92156847|NCT00904150|184200362|SUPERIORITY_OR_OTHER|||||||0.513|||||||Chi-squared|||Statistical analysis is of the distribution of PR PROGINS polymorphism frequencies between groups||||0.513
92341454|NCT01435759|184584049|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|2.91|STANDARD_ERROR_OF_MEAN|1.01||0.01|TWO_SIDED||||||MCP-Mod Analysis Method|The systolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 2.88, was based on MCP-Mod Analysis for the candidate model Logistic1.|||||0.010
92156848|NCT00904150|184200363|SUPERIORITY_OR_OTHER|||||||0.75|||||||Chi-squared|||Statistical analysis is of the distribution of Estrogen receptor 1 G594a polymorphism frequencies between groups||||0.75
92156849|NCT00904150|184200364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.434||||0.002743||95.0|0.24|0.75|||Chi-squared|||Analysis of distribution of TNF genotype frequencies between groups||0.75|0.24|0.002743
92156850|NCT00904150|184200365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.02462||95.0|0.49|0.95|||Chi-squared|||Analysis of distribution of SYNE1 genotype frequencies between groups||0.95|0.49|0.02462
92156851|NCT00904150|184200366|SUPERIORITY_OR_OTHER|||||||0.18|||||||Chi-squared|||Statistical analysis is of the distribution of Estrogen receptor 1 C325G polymorphism frequencies between groups||||0.18
92156852|NCT00904150|184200367|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
92405593|NCT02215252|184701380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|90.0|-1.43|0.04||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4||0.04|-1.43|
92156853|NCT00904150|184200368|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
92156854|NCT01671748|184200369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.4||||0.565|TWO_SIDED|95.0|-33.4|18.6||ANCOVA was used to analyse differences between the NLFU+SOC and SOC arms of the primary endpoint, percentage change in wound area from baseline (week 5) to final visit (week 13). Patients' baseline (week 5) wound area was used as the covariate.|ANCOVA|||The study was powered to detect a difference in the change in wound area of 20% between the two arms with a two sided significance level and power of 90%. A standard deviation of 17.5% came from published literature. A minimum of 17 patients in each arm was required.||18.6|-33.4|0.565
92156855|NCT01671748|184200370|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||ANCOVA|||ANCOVA was used for change in HRQoL from week 1 to week 13 (with week 1 HRQoL score as the covariate).||||0.490
92156856|NCT01671748|184200371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.08||||0.078|TWO_SIDED|95.0|-19.23|1.06|||ANCOVA|||ANCOVA was used for change in pain score (VAS) from week 5 to week 13 (covariate was baseline pain score).||1.06|-19.23|0.078
92156857|NCT01671748|184200372|SUPERIORITY_OR_OTHER|||||||0.346|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change in number of infections were not normally distributed and differences between the arms were tested using the non-parametric Mann-Whitney U test.||||0.346
92156858|NCT01671748|184200374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.618|TWO_SIDED|95.0|-4.7|2.9|||ANCOVA|Patients' baseline (week 5) wound area was used as the covariate.||||2.9|-4.7|0.618
92156859|NCT04213846|184200388|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 1-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 1-Month Follow-Up.|Count/Rate Ratio|0.94||||0.34|TWO_SIDED|95.0|0.81|1.07|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 1-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.07|0.81|0.34
92156860|NCT04213846|184200388|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 6-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 6-Month Follow-Up.|Count/Rate Ratio|1.09||||0.37|TWO_SIDED|95.0|0.91|1.3|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 6-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.30|0.91|0.37
92156861|NCT04213846|184200388|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 12-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 12-Month Follow-Up.|Count/Rate Ratio|1.02||||0.8|TWO_SIDED|95.0|0.85|1.23|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 12-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.23|0.85|0.80
92275004|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.81|||||TWO_SIDED|95.0|-215.01|244.64||||||For change in fatigue at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||244.64|-215.01|
92156862|NCT04213846|184200389|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 1-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 1-Month Follow-Up.|Count/Rate Ratio|1.02||||0.75|TWO_SIDED|95.0|0.88|1.2|||Generalized linear mixed model|Models controlled for sex, age, college type and used a Poisson error distribution. Peak eBAC multiplied by 100 and rounded up to the nearest integer.||Changes from Baseline to 1-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.20|0.88|0.75
92156863|NCT04213846|184200389|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 6-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 6-Month Follow-Up.|Count/Rate Ratio|1.04||||0.72|TWO_SIDED|95.0|0.86|1.25|||Generalized linear mixed model|Models controlled for sex, age, college type and used a Poisson error distribution. Peak eBAC multiplied by 100 and rounded up to the nearest integer.||Changes from Baseline to 6-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.25|0.86|0.72
92156864|NCT04213846|184200389|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 12-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 12-Month Follow-Up.|Count/Rate Ratio|1.01||||0.91|TWO_SIDED|95.0|0.85|1.21|||Generalized linear mixed model|Models controlled for sex, age, college type and used a Poisson error distribution. Peak eBAC multiplied by 100 and rounded up to the nearest integer.||Changes from Baseline to 12-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.21|0.85|0.91
92156865|NCT04213846|184200390|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 1-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 1-Month Follow-Up.|Count/Rate Ratio|0.83||||0.04|TWO_SIDED|95.0|0.69|0.99|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 1-Month Follow-Up for intervention versus assessment-only control reported in this section.||0.99|0.69|0.04
92156866|NCT04213846|184200390|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 6-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 6-Month Follow-Up.|Count/Rate Ratio|0.98||||0.84|TWO_SIDED|95.0|0.77|1.23|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 6-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.23|0.77|0.84
92156867|NCT04213846|184200390|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 12-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 12-Month Follow-Up.|Count/Rate Ratio|0.9||||0.34|TWO_SIDED|95.0|0.73|1.22|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 12-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.22|0.73|0.34
92156868|NCT04213846|184200391|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 1-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 1-Month Follow-Up.|Count/Rate Ratio|0.98||||0.78|TWO_SIDED|95.0|0.82|1.16|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 1-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.16|0.82|0.78
92156869|NCT04213846|184200391|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 6-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 6-Month Follow-Up.|Count/Rate Ratio|0.9||||0.27|TWO_SIDED|95.0|0.75|1.08|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 6-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.08|0.75|0.27
92156870|NCT04213846|184200391|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 12-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 12-Month Follow-Up.|Count/Rate Ratio|1.01||||0.95|TWO_SIDED|95.0|0.84|1.2|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 12-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.20|0.84|0.95
92156871|NCT04213846|184200392|SUPERIORITY|Generalized linear model was estimated using a sample of N=346.|Count/Rate Ratio|0.98||||0.69|TWO_SIDED|95.0|0.89|1.08|||Generalized linear mixed model|Model controlled for sex, age, and college type (2-year vs. 4-year) and used a negative binomial error distribution.||Changes from Baseline to 12-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.08|0.89|0.69
92156872|NCT01866475|184200406|NON_INFERIORITY|This study is designed to test the hypothesis that the IO device has no greater than a 4 percent infection rate. Equivalently, we define success as having at least a 96 percent infection free 48-hour placement.|||||||||||||||||The historical data for the device suggests an infection rate of 0.6 percent per 48 hours or a success rate of 99.4 percent. The formal objective in the design is to reject the one-sided null hypothesis that the success rate is no higher than 96 percent. The analysis will use the exact binomial test and will tolerate a Type I Error rate of 0.05 or less. If we assume a 99.4 percent success rate, the study will have 84 percent power with a sample size of 117 to reject the null hypothesis. If the null hypothesis is rejected, we conclude that the infection rate is less than 4 percent.|||
92156873|NCT03527277|184200416|SUPERIORITY||Mean Difference (Net)|-0.3||||0.88|TWO_SIDED|95.0|-4.0|3.5|||ANCOVA|Effect of group on change of outcome with adjustment for BMI, Outcome at baseline and gender||||3.5|-4.0|0.88
92156874|NCT03527277|184200417|SUPERIORITY||Mean Difference (Net)|-0.7||||0.65|TWO_SIDED|95.0|-3.7|2.3|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome and BMI at baseline.||||2.3|-3.7|0.65
92156875|NCT03527277|184200418|SUPERIORITY||Mean Difference (Net)|-0.2||||0.92|TWO_SIDED|95.0|-3.7|3.4|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome and BMI at baseline.||||3.4|-3.7|0.92
92156876|NCT03527277|184200419|SUPERIORITY||Mean Difference (Net)|-0.4||||0.81|TWO_SIDED|95.0|-3.3|2.6|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||2.6|-3.3|0.81
92156877|NCT03527277|184200420|SUPERIORITY||Mean Difference (Net)|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.34|-0.49|||ANCOVA|Effect of group with adjustment for gender and BMI and outcome at baseline.||||-0.49|-1.34|<0.0001
92156878|NCT03527277|184200421|SUPERIORITY||Mean Difference (Net)|-3.4|||<|0.0001|TWO_SIDED|95.0|-4.7|-2.1|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||-2.1|-4.7|<0.0001
92156879|NCT03527277|184200422|SUPERIORITY||Mean Difference (Net)|-0.21||||0.42|TWO_SIDED|95.0|-0.74|0.31|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||0.31|-0.74|0.42
92341455|NCT01435759|184584049|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|3.15|STANDARD_ERROR_OF_MEAN|1.01||0.005|TWO_SIDED||||||MCP-Mod Analysis|The systolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.12, was based on MCP-Mod Analysis for the candidate model Logistic2.|||||0.005
92341456|NCT01435759|184584050|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|2.16|STANDARD_ERROR_OF_MEAN|0.75||0.011|TWO_SIDED||||||MCP-Mod Analysis|The diastolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 2.86 was based on MCP-Mod Analysis for the candidate model Emax.|||||0.011
92156880|NCT03527277|184200423|SUPERIORITY||Mean Difference (Net)|0.27||||0.28|TWO_SIDED|95.0|-0.23|0.76|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||0.76|-0.23|0.28
92156881|NCT03527277|184200424|SUPERIORITY||Mean Difference (Net)|-9.1||||0.59|TWO_SIDED|95.0|-42.9|24.7|||ANCOVA|Effect of group on change of outcome with adjustment of gender and BMI and outcome at baseline.||||24.7|-42.9|0.59
92156882|NCT03527277|184200425|SUPERIORITY||Mean Difference (Net)|-0.07||||0.35|TWO_SIDED|95.0|-0.21|0.08|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome at baseline.||||0.08|-0.21|0.35
92156883|NCT03527277|184200426|SUPERIORITY||Mean Difference (Net)|-0.01||||0.97|TWO_SIDED|95.0|-0.61|0.59|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome and BMI at baseline.||||0.59|-0.61|0.97
92156884|NCT03527277|184200427|SUPERIORITY||Mean Difference (Net)|-13.9||||0.002|TWO_SIDED|95.0|-22.4|-5.4|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome and BMI at baseline.||Effect of group on change of outcome with adjustment for BMI, outcome at baseline and gender.||-5.4|-22.4|0.002
92156885|NCT03527277|184200428|SUPERIORITY||Mean Difference (Net)|-7.9||||0.11|TWO_SIDED|95.0|-17.6|1.8|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||1.8|-17.6|0.11
92156886|NCT03527277|184200429|SUPERIORITY||Mean Difference (Net)|23340.0||||0.0032|TWO_SIDED|95.0|8284.0|38396.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||38396|8284|0.0032
92156887|NCT03527277|184200430|SUPERIORITY||Mean Difference (Net)|5558.0||||0.0003|TWO_SIDED|95.0|2680.0|8437.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||8437|2680|0.0003
92156888|NCT03527277|184200431|SUPERIORITY||Mean Difference (Net)|3824.0||||0.0012|TWO_SIDED|95.0|1611.0|6036.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline||||6036|1611|0.0012
92156889|NCT03527277|184200432|SUPERIORITY||Mean Difference (Net)|19522.0||||0.0023|TWO_SIDED|95.0|7353.0|31691.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||31691|7353|0.0023
92156890|NCT03527277|184200433|SUPERIORITY||Mean Difference (Net)|21881.0||||0.0001|TWO_SIDED|95.0|11307.0|32455.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||32455|11307|0.0001
92156891|NCT03527277|184200434|SUPERIORITY||Mean Difference (Net)|9666.0||||0.0002|TWO_SIDED|95.0|4808.0|14524.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||14524|4808|0.0002
92156892|NCT03527277|184200435|SUPERIORITY||Mean Difference (Net)|3413.0||||0.0011|TWO_SIDED|95.0|1456.0|5370.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||5370|1456|0.0011
92156893|NCT03527277|184200436|SUPERIORITY||Mean Difference (Net)|11.5||||0.59|TWO_SIDED|95.0|-32.0|55.1|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||55.1|-32.0|0.59
92156894|NCT03527277|184200437|SUPERIORITY||Mean Difference (Net)|74.6||||0.046|TWO_SIDED|95.0|1.3|147.9|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||147.9|1.3|0.046
92156895|NCT03527277|184200438|SUPERIORITY||Mean Difference (Net)|0.3||||0.56|TWO_SIDED|95.0|-0.7|1.3|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome and BMI at baseline.||Effect of group on change in outcome with adjustment for BMI, Outcome at baseline and gender.||1.3|-0.7|0.56
92156896|NCT03527277|184200439|SUPERIORITY||Mean Difference (Net)|-0.8||||0.17|TWO_SIDED|95.0|-1.94|0.35|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||0.35|-1.94|0.17
92156897|NCT03527277|184200440|SUPERIORITY||Mean Difference (Net)|0.54||||0.65|TWO_SIDED|95.0|-1.9|3.0|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||3.0|-1.9|0.65
92341457|NCT01435759|184584050|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|1.95|STANDARD_ERROR_OF_MEAN|0.75||0.023|TWO_SIDED||||||MCP-Mod Analysis|The diastolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 2.59, was based on MCP-Mod Analysis for the candidate model Exponential.|||||0.023
92156898|NCT03527277|184200441|SUPERIORITY||Mean Difference (Net)|0.04||||0.88|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|Effect of group on change with adjustment for gender and outcome at baseline.||||0.6|-0.5|0.88
92156899|NCT03527277|184200442|SUPERIORITY||Mean Difference (Net)|0.6||||0.81|TWO_SIDED|95.0|-4.4|5.7|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||5.7|-4.4|0.81
92156900|NCT03527277|184200443|SUPERIORITY||Mean Difference (Net)|-0.7||||0.69|TWO_SIDED|95.0|-4.4|2.9|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||2.9|-4.4|0.69
92341458|NCT01435759|184584050|SUPERIORITY_OR_OTHER_LEGACY||MCP-Mod Analysis|2.47|STANDARD_ERROR_OF_MEAN|0.75||0.003|TWO_SIDED||||||Least Squares Means|The diastolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.28, was based on MCP-Mod Analysis for the candidate model Linear.|||||0.003
92341459|NCT01435759|184584050|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|2.22|STANDARD_ERROR_OF_MEAN|0.76||0.009|TWO_SIDED||||||MCP-Mod Analysis|The diastolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 2.93, was based on MCP-Mod Analysis for the candidate model Logistic1.|||||0.009
92341460|NCT01435759|184584050|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|2.37|STANDARD_ERROR_OF_MEAN|0.76||0.005|TWO_SIDED||||||MCP-Mod Analysis|The diastolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.13, was based on MCP-Mod Analysis for the candidate model Logistic2.|||||0.005
92341461|NCT01435759|184584051|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|4.45|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED||||||MCP-Mod Analysis|The pulse p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 4.24, was based on MCP-Mod Analysis for the candidate model Emax|||||<0.001
92341462|NCT01435759|184584051|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|3.52|STANDARD_ERROR_OF_MEAN|1.05||0.002|TWO_SIDED||||||MCP-Mod Analysis|The pulse p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.36, was based on MCP-Mod Analysis for the candidate model Expontential.|||||0.002
92341463|NCT01435759|184584051|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|4.3|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED||||||MCP-Mod Analysis|The pulse p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 4.10, was based on MCP-Mod Analysis for the candidate model Linear.|||||<0.001
92341464|NCT01435759|184584051|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|4.63|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED||||||MCP-Mod Analysis|The pulse p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 4.39, was based on MCP-Mod Analysis for the candidate model Logistic1.|||||<0.001
92341465|NCT01435759|184584051|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|4.63|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED||||||MCP-Mod Analysis|The pulse p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 4.39 was based on MCP-Mod Analysis for the candidate model Logistic2.|||||<0.001
92341466|NCT01435759|184584052|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|-0.11|STANDARD_ERROR_OF_MEAN|1.07||1|ONE_SIDED|||||Any p-value \<=0.10 indicates successful establishment of dose-response relationship.|MCP-Mod Analysis Method|The adjusted p-value was based on a critical value of 2.02 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 0.10, was based on MCP-Mod Analysis from the linear contrast using optimal coefficients for the pre-specified candidate model Betamod.|Analysis of Dose-Response Using the MCP-Mod Analysis Method||||1.000
92156901|NCT03527277|184200444|SUPERIORITY||Mean Difference (Net)|-0.4||||0.1|TWO_SIDED|95.0|-1.0|0.1|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome at baseline.||||0.1|-1.0|0.10
92156902|NCT03527277|184200445|SUPERIORITY||Mean Difference (Net)|-0.4||||0.55|TWO_SIDED|95.0|-2.1|1.2|||ANCOVA|Effect of group on change of Outcome with adjustment for outcome at baseline.||||1.2|-2.1|0.55
92156903|NCT02459587|184200466|SUPERIORITY|Survival analysis using start/stop counting method to identify time until event, structured to allow for multiple events per person. VCL contacts with and without suicide ideation were combined, due to low counts.|Hazard Ratio (HR)|1.24|STANDARD_ERROR_OF_MEAN|0.222||0.33|TWO_SIDED|95.0|0.8|1.92||2-tailed P-value above was calculated from type III test.|Regression, Cox|Model was structured to allow multiple events per person. No covariates.|Model was structured to allow multiple events per person. No covariates. HR based on parameter estimate = -0.218 (SEM=0.222)|||1.92|0.80|0.33
92227080|NCT05512949|184356204|NON_INFERIORITY|The ID-dose regimen is considered non-inferior if the lower bound of the confidence interval (original scale) is no less than half that of the standard dose, giving a NI margin of 0.5 (NI= -0.301 log10 scale).|Geometric mean titer ratio (GMTR)|0.4||||0.162|TWO_SIDED|95.0|0.3|0.6||Significance can be considered if P \<0.05. Not adjusted for multiple comparisons.|t-test, 2 sided|Two-sample t-test with unequal variance, noninferiority (NI) margin of 0.5 and two-sided type I error rate of 0.05.||The selection of the noninferiority (NI) margin was based on the pivotal Phase 3 trial by Pittman et al., in 2019 comparing one dose of ACAM2000 and the now licensed 2-dose standard MVA-BN regimen, which provided an estimated relative (peak) immune response of approximately 2-times higher for MVA-BN. An NI margin of 0.5 corresponds to an immune response of the lower-dose MVA-BN at least as high as what would be expected for ACAM2000.||0.6|0.3|0.162
92399079|NCT00286442|184689842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.302||||0.002|TWO_SIDED|95.0|0.143|0.635||no multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.635|0.143|0.002
92156904|NCT02459587|184200467|SUPERIORITY|Survival analysis using start/stop counting method to identify time until event, structured to allow for multiple events per person.|Hazard Ratio (HR)|0.52|STANDARD_ERROR_OF_MEAN|0.153|<|0.0001|TWO_SIDED|95.0|0.38|0.7||All tests of significance were 2-tailed. P-value above is type III. No covariates.|Regression, Cox||Cox Proportional Hazards Model was structured to allow multiple events per person. No covariates. HR based on parameter estimate = -0.660 (SEM=0.153)|||0.70|0.38|<0.0001
92156905|NCT02459587|184200468|SUPERIORITY|Two binary variables were derived from Treatment Services Review responses to identify any general mental health service utilization, one binary variable for Baseline and another for any outpatient mental health service utilization at any time point in the 1 year follow-up period. The Baseline variable was included as a main-effects covariate.|Odds Ratio, log|1.146||||0.66|TWO_SIDED|95.0|0.604|2.176|||Regression, Logistic|Bivariate logistic, adjusted for (1) if any general outpatient mental heath visits at baseline (0) otherwise||||2.176|0.604|0.66
92156906|NCT02028884|184200474|SUPERIORITY||Hazard Ratio (HR)|0.38||||0.0184|TWO_SIDED|95.0|0.16|0.88|||Log Rank|||Stratified by Baseline annualized relapse rate (ARR: 1, \> 1) and geographic region (Asia, EU/Other).||0.88|0.16|0.0184
92341467|NCT01435759|184584052|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|0.43|STANDARD_ERROR_OF_MEAN|1.06||0.942|ONE_SIDED|||||Any p-value \<=0.10 indicates successful establishment of dose-response relationship.|MCP-Mod Analysis|The adjusted p-value was based on a critical value of 2.02 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 0.41, was based on MCP-Mod Analysis from the linear contrast using optimal coefficients for the pre-specified candidate model Emax.|Analysis of Dose-Response Using the MCP-Mod Analysis Method.||||0.942
92156907|NCT02028884|184200475|SUPERIORITY||Mean Difference (Final Values)|6.376|STANDARD_ERROR_OF_MEAN|3.344||0.0602|TWO_SIDED|95.0|-0.28|13.033|||ANCOVA|ANCOVA model: treatment group as fixed effect and baseline measurements, prior therapy, most recent attack (first attack/relapse) as covariates.||||13.033|-0.280|0.0602
92156908|NCT02028884|184200476|SUPERIORITY||Mean Difference (Final Values)|-2.089|STANDARD_ERROR_OF_MEAN|1.338||0.1224|TWO_SIDED|95.0|-4.752|0.574|||ANCOVA|ANCOVA model: treatment group as fixed effect and baseline measurements, prior therapy, most recent attack (first attack/relapse) as covariates.||||0.574|-4.752|0.1224
92217081|NCT04667377|184334316|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 5% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|10.77|||<|0.0001|TWO_SIDED|95.0|4.77|24.31||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||24.31|4.77|<.0001
92217082|NCT04667377|184334317|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 10% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|3.22||||0.012|TWO_SIDED|95.0|1.29|8.02||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||8.02|1.29|0.0120
92217083|NCT04667377|184334317|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 10% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|10.62|||<|0.0001|TWO_SIDED|95.0|4.36|25.86||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||25.86|4.36|<.0001
92227081|NCT05512949|184356207|SUPERIORITY|||||||0.888|||||||Wilcoxon (Mann-Whitney)|||||||0.888
92227082|NCT05512949|184356207|SUPERIORITY|||||||0.708|||||||Wilcoxon (Mann-Whitney)|||||||0.708
92341468|NCT01435759|184584052|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|0.21|STANDARD_ERROR_OF_MEAN|1.06||0.995|ONE_SIDED|||||Any p-value \<=0.10 indicates successful establishment of dose-response relationship.|MCP-Mod Analysis|The adjusted p-value was based on a critical value of 2.02 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 0.20, was based on MCP-Mod Analysis from the linear contrast using optimal coefficients for the pre-specified candidate model Linear.|Analysis of Dose-Response Using the MCP-Mod Analysis Method.||||0.995
92341469|NCT01435759|184584052|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|-0.32|STANDARD_ERROR_OF_MEAN|1.07||0.978|ONE_SIDED|||||Any p-value \<=0.10 indicates successful establishment of dose-response relationship.|MCP-Mod Analysis|The adjusted p-value was based on a critical value of 2.02 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 0.30, was based on MCP-Mod Analysis from the linear contrast using optimal coefficients for the pre-specified candidate model Logistic.|Analysis of Dose-Response Using the MCP-Mod Analysis Method||||0.978
92369338|NCT02993822|184643580|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.003|TWO_SIDED|95.0|0.5|2.4|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.4|0.5|0.003
92156909|NCT00354029|184200505|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||||||>0.05
92156910|NCT05176353|184200506|SUPERIORITY|||||||0.86|||||||Z-score test for person-time rates|||||||0.86
92156911|NCT05176353|184200507|SUPERIORITY|||||||0.05|||||||Z-score test for person-time rates|||||||0.05
92156912|NCT05176353|184200508|SUPERIORITY|||||||0.59|||||||Kruskal-Wallis|||||||0.59
92156913|NCT05176353|184200509|SUPERIORITY||||||<|0.01|||||||Z-score test for person-time rates|||||||<0.01
92156914|NCT05176353|184200510|SUPERIORITY|||||||0.2|||||||Z-score test for person-time rates|||||||0.20
92156915|NCT05176353|184200511|SUPERIORITY|||||||0.03|||||||Z-score test for person-time rates|||||||0.03
92156916|NCT05176353|184200512|SUPERIORITY||||||<|0.01|||||||Z-score test for person-time rates|||||||<0.01
92156917|NCT05176353|184200513|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||.05
92369339|NCT02993822|184643581|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.25|TWO_SIDED|95.0|-0.4|1.7|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||1.7|-0.4|0.250
92369340|NCT02993822|184643581|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.325|TWO_SIDED|95.0|-0.5|1.5|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||1.5|-0.5|0.325
92399080|NCT00286442|184689842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.236|||<|0.001|TWO_SIDED|95.0|0.109|0.51|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.510|0.109|<0.001
92399081|NCT00286442|184689843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.634|TWO_SIDED|95.0|-7.4|4.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.5|-7.4|0.634
92399082|NCT00286442|184689843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5||||0.136|TWO_SIDED|95.0|-10.5|1.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.4|-10.5|0.136
92399083|NCT00286442|184689844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.274|TWO_SIDED|95.0|-6.9|2.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.0|-6.9|0.274
92399084|NCT00286442|184689844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.046|TWO_SIDED|95.0|-9.1|-0.1||No multiplicity adjustments.|ANCOVA||Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.1|-9.1|0.046
92156918|NCT02096081|184200547|NON_INFERIORITY_OR_EQUIVALENCE|"The analysis of response defined as the difference (D) in response rates between two treatment groups at 1 month was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group. The hypothesis testing procedure to test the equivalence of the two products is as follows:~Ho (null): D ≤ -∆ OR D ≥ ∆ versus Ha (alternate): -∆ \< D \< ∆, where ∆ is the margin of equivalence = 0.15."|Difference in proportions of response|-3.5|||||TWO_SIDED|95.0|-7.5|0.6|||||If the confidence interval lies within the limits of ±0.15, then Ho is rejected in favor of Ha (i.e., equivalence of incobotulinumtoxinA and onabotulinumtoxinA can be concluded); otherwise, treatment equivalence cannot be concluded.|With assumptions of an alpha of 5%, an equivalence margin of 15% for each side, the real response rate expected as 90% for incobotulinumtoxinA and onabotulinumtoxinA at day 30 and a 1:1 allocation ratio, a total of 225 subjects were needed to achieve a statistical power of 90% in order to make an equivalence conclusion at day 30. Results are based on the Newcombe-Wilson confidence interval. To account for exclusions from the PPS of about 10%, approximately 250 subjects were enrolled.||0.6|-7.5|
92156919|NCT02096081|184200548|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 2 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-5.3|||||TWO_SIDED|95.0|-12.1|1.5|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||1.5|-12.1|
92156920|NCT02096081|184200549|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 3 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-0.5|||||TWO_SIDED|95.0|-10.6|9.6|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||9.6|-10.6|
92156921|NCT02096081|184200550|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 4 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-5.2|||||TWO_SIDED|95.0|-17.4|7.1|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||7.1|-17.4|
92156922|NCT02096081|184200551|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 1 month was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-2.7|||||TWO_SIDED|95.0|-8.5|3.2|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||3.2|-8.5|
92227083|NCT03988907|184356241|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.08|||||TWO_SIDED|90.0|0.93|1.26||||||||1.26|0.93|
92341470|NCT03126786|184584058|SUPERIORITY|The sample size was determined such that the difference in visual acuity between the ACTIVE treatment group and CONTROL treatment group could be estimated within +/- five ETDRS letters. Week 24 data from the Eylea prescribing information was used to estimate a pooled standard deviation of 9.17 letters. With 28 subjects per arm, a two-sided 90% confidence interval with a distance from the mean difference to the limits (half of interval width) will be less than 5 letters.|Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|2.28||0.288|TWO_SIDED|90.0|-6.2|1.4||There was a single primary outcome tested at a single primary endpoint, therefore no adjustments for multiple comparisons were performed. The primary endpoint was assess with a 2-sided alpha level of 0.100.|Mixed model for repeat measures|The covariance structure was assumed to be unstructured.|Estimated Value calculated as Active minus Control.|The primary efficacy analysis comparing ACTIVE with CONTROL on the mean change from baseline (Visit 2, Day 0) BCVA at Week 12 was be performed using a Mixed Model for Repeated Measurements (MMRM). This model included treatment (ACTIVE or CONTROL), visit (Visit 3 (Week 4), Visit 4 (Week 8), and Visit 5 (Week 12), Visit 6 (Week 16), Visit 7 (Week 20) and Visit 8 (Week 24), and the 2-way interactions of treatment and visit, and the BCVA baseline included as the covariate.||1.4|-6.2|0.288
92341471|NCT00427908|184584077|NON_INFERIORITY|Criterion indicative of non-inferiority: lower limit of the standardized asymptotic 95% confidence interval (CI) for the group difference (Nimenrix minus Mencevax) in the percentage of subjects with bactericidal vaccine response to be greater than or equal to -15% for rSBA-MenA.|Difference in percentage|6.44|||||TWO_SIDED|95.0|1.15|16.04||||||To evaluate the non-inferiority of Nimenrix™ conjugate vaccine compared to Mencevax™ plain polysaccharide vaccine in terms of the vaccine response (VRR) to MenA. Response to a vaccine antigen component was defined as: For initially seronegative subject, post-vaccination serum bactericidal assay using rabbit complement (rSBA) titer ≥ 1:32. For initially seropositive subject, at least 4-fold increase in rSBA-MenA titer from pre to post vaccination.||16.04|1.15|
92341472|NCT00427908|184584077|NON_INFERIORITY|Criterion indicative of non-inferiority: lower limit of the standardized asymptotic 95% confidence interval (CI) for the group difference (Nimenrix minus Mencevax) in the percentage of subjects with bactericidal vaccine response is greater than or equal to -15% for rSBA-MenC.|Difference in percentage|13.18|||||TWO_SIDED|95.0|4.79|24.32||||||To evaluate the non-inferiority of Nimenrix™ conjugate vaccine compared to Mencevax™ plain polysaccharide vaccine in terms of the vaccine response (VRR) to MenC. Response to a vaccine antigen component was defined as: For initially seronegative subject, post-vaccination serum bactericidal assay using rabbit complement (rSBA) titer ≥ 1:32. For initially seropositive subject, at least 4-fold increase in rSBA-MenC titer from pre to post vaccination.||24.32|4.79|
92341473|NCT00427908|184584077|NON_INFERIORITY|Criterion indicative of non-inferiority: lower limit of the standardized asymptotic 95% confidence interval (CI) for the group difference (Nimenrix minus Mencevax) in the percentage of subjects with bactericidal vaccine response is greater than or equal to -15% for rSBA-MenW-135.|Difference in percentage|4.41|||||TWO_SIDED|95.0|1.51|12.21||||||To evaluate the non-inferiority of Nimenrix™ conjugate vaccine compared to Mencevax™ plain polysaccharide vaccine in terms of the vaccine response (VRR) to MenW-135. Response to a vaccine antigen component was defined as: For initially seronegative subject, post-vaccination serum bactericidal assay using rabbit complement (rSBA) titer ≥ 1:32. For initially seropositive subject, at least 4-fold increase in rSBA-MenW-135 titer from pre to post vaccination.||12.21|1.51|
92341474|NCT00427908|184584077|NON_INFERIORITY|Criterion indicative of non-inferiority: lower limit of the standardized asymptotic 95% confidence interval (CI) for the group difference (Nimenrux minus Mencevax) in the percentage of subjects with bactericidal vaccine response is greater than or equal to -15% for rSBA-MenY.|Difference in percentage|16.23|||||TWO_SIDED|95.0|8.99|26.78||||||To evaluate the non-inferiority of Nimenrix™ conjugate vaccine compared to Mencevax™ plain polysaccharide vaccine in terms of the vaccine response (VRR) to MenY. Response to a vaccine antigen component was defined as: For initially seronegative subject, post-vaccination serum bactericidal assay using rabbit complement (rSBA) titer ≥ 1:32. For initially seropositive subject, at least 4-fold increase in rSBA-MenY titer from pre to post vaccination.||26.78|8.99|
92341475|NCT00427908|184584080|NON_INFERIORITY|Criterion indicative of non-inferiority (serogroup C only): one month after vaccination, the lower limit of the 2-sided standardized asymptotic 95% CI for the group difference (Nimenrix Group minus Meningitec Group) in the percentage of subjects with rSBA titer ≥ 1:8 is greater than or equal to the predefined clinical limit of -15%.|Difference in vaccine response rate|1.47|||||TWO_SIDED|95.0|-0.27|7.89||||||To evaluate the non-inferiority of the vaccine response induced by Nimenrix™ conjugate vaccine when compared to the licensed Meningitec™ vaccine for MenC as measured by rSBA.||7.89|-0.27|
92399085|NCT00286442|184689845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.655|TWO_SIDED|95.0|-7.4|4.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.6|-7.4|0.655
92399086|NCT00286442|184689845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.645|TWO_SIDED|95.0|-7.4|4.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.6|-7.4|0.645
92405594|NCT02215252|184701381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|90.0|-0.86|0.43||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4||0.43|-0.86|
92156923|NCT02096081|184200552|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 2 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-2.8|||||TWO_SIDED|95.0|-11.0|5.3|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||5.3|-11.0|
92275005|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.11|||||TWO_SIDED|95.0|-302.38|324.6||||||For change in nausea and vomiting at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||324.60|-302.38|
92156924|NCT02096081|184200553|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 3 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-1.5|||||TWO_SIDED|95.0|-12.4|9.5|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||9.5|-12.4|
92156925|NCT02096081|184200554|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 4 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-1.9|||||TWO_SIDED|95.0|-14.4|10.7|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||10.7|-14.4|
92156926|NCT02886728|184200561|SUPERIORITY||Difference in Response Rates|9.6|||<|0.001|TWO_SIDED|95.0|3.6|15.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||15.6|3.6|<0.001
92156927|NCT02886728|184200561|SUPERIORITY||Difference in Response Rates|8.8||||0.017|TWO_SIDED|95.0|1.5|16.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||16.1|1.5|0.017
92341476|NCT04391842|184584187|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92341477|NCT04391842|184584188|OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92341478|NCT00808067|184584189|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.0055|TWO_SIDED|95.0|0.64|0.93|||Regression, Cox|||||0.93|0.64|0.0055
92341479|NCT00808067|184584196|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.5119|TWO_SIDED|95.0|0.84|1.42|||Regression, Cox|||||1.42|0.84|0.5119
92156928|NCT02886728|184200561|SUPERIORITY||Difference in Response Rates|6.7||||0.058|TWO_SIDED|95.0|-0.7|14.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||14.1|-0.7|0.058
92156929|NCT02886728|184200562|SUPERIORITY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.041|<|0.001|TWO_SIDED|95.0|-0.27|-0.11||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from mixed effects model for repeated measures (MMRM). Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.11|-0.27|<0.001
92156930|NCT02886728|184200562|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.049||0.009|TWO_SIDED|95.0|-0.23|-0.03||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.03|-0.23|0.009
92275006|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.89|||||TWO_SIDED|95.0|-305.85|383.63||||||For change in pain at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||383.63|-305.85|
92341480|NCT00808067|184584197|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.2371|TWO_SIDED|95.0|0.94|1.29|||Regression, Cox|||||1.29|0.94|0.2371
92341481|NCT00808067|184584198|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.5052|TWO_SIDED|95.0|0.89|1.27|||Regression, Cox|||||1.27|0.89|0.5052
92341482|NCT00808067|184584199|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.2241||95.0|0.82|1.05|||Regression, Cox|||||1.05|0.82|0.2241
92341483|NCT02002871|184584238|SUPERIORITY_OR_OTHER|||||||0.0152|TWO_SIDED||||||t-test, 2 sided|||The statistical analysis was performed on the difference of the change from baseline of the Blue light treated plaque versus the Control plaque.||||0.0152
92341484|NCT05630196|184584275|SUPERIORITY||Posterior Mean Difference|0.39|||||TWO_SIDED|95.0|-0.22|1.0|||||Posterior mean difference with 95% credible interval is reported.|||1.00|-0.22|
92341485|NCT05630196|184584276|SUPERIORITY||Posterior Mean Difference|1.16|||||TWO_SIDED|95.0|-0.44|2.77|||||Posterior mean difference with 95% credible interval is reported.|||2.77|-0.44|
92341486|NCT05630196|184584277|SUPERIORITY||Posterior Mean Difference|0.22|||||TWO_SIDED|95.0|-0.23|0.67|||||Posterior mean difference with 95% credible interval is reported.|||0.67|-0.23|
92341487|NCT05630196|184584278|SUPERIORITY||Posterior Mean Difference|0.52|||||TWO_SIDED|95.0|-0.13|1.18|||||Posterior mean difference with 95% credible interval is reported.|||1.18|-0.13|
92341488|NCT05630196|184584279|SUPERIORITY||Posterior Mean Difference|4.2|||||TWO_SIDED|95.0|-3.51|11.87|||||Posterior mean difference with 95% credible interval is reported.|||11.87|-3.51|
92341489|NCT05630196|184584280|SUPERIORITY||Posterior Mean Difference|-0.34|||||TWO_SIDED|95.0|-0.74|0.05|||||Posterior mean difference with 95% credible interval is reported.|||0.05|-0.74|
92341490|NCT05630196|184584281|SUPERIORITY||Posterior Mean Difference|-11.11|||||TWO_SIDED|95.0|-159.85|136.77|||||Posterior mean difference with 95% credible interval is reported.|||136.77|-159.85|
92341491|NCT05630196|184584282|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.11|0.08|||||Posterior mean difference with 95% credible interval is reported.|||0.08|-0.11|
92341492|NCT03438266|184584283|NON_INFERIORITY|If the upper limit of the confidence interval at Month 1 was less than 0.5, then treatment with cannula was considered non-inferior to treatment with needle.|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.05|0.25|||||The 95% CI is based on the paired t-test.|Change from Baseline at Month 1||0.25|-0.05|
92341493|NCT03438266|184584284|OTHER||Percentage Difference|-1.7|||||TWO_SIDED|95.0|-7.31|3.98||||||||3.98|-7.31|
92341494|NCT00830219|184584353|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.53||||||90.0|99.16|108.09|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.09|99.16|
92399087|NCT00286442|184689846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.748|TWO_SIDED|95.0|-6.3|4.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.6|-6.3|0.748
92399088|NCT00286442|184689846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.432|TWO_SIDED|95.0|-7.7|3.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.3|-7.7|0.432
92399089|NCT00286442|184689847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.427|TWO_SIDED|95.0|-7.8|3.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.3|-7.8|0.427
92399090|NCT00286442|184689847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.746|TWO_SIDED|95.0|-4.6|6.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.5|-4.6|0.746
92399091|NCT00286442|184689848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.727|TWO_SIDED|95.0|-5.0|7.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.2|-5.0|0.727
92399092|NCT00286442|184689848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.601||||1.6|TWO_SIDED|95.0|-4.5|7.8||No multiplicity adjustments|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.8|-4.5|1.6
92399093|NCT00286442|184689849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.19||||0.066|TWO_SIDED|95.0|-0.15|4.52||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.52|-0.15|0.066
92399094|NCT00286442|184689849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.18|TWO_SIDED|95.0|-0.74|3.93||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.93|-0.74|0.180
92399095|NCT00286442|184689850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.944|TWO_SIDED|95.0|-5.02|4.68||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.68|-5.02|0.944
92399096|NCT00286442|184689850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.316|TWO_SIDED|95.0|-7.4|2.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.40|-7.40|0.316
92399097|NCT00286442|184689851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.901|TWO_SIDED|95.0|-5.42|4.77||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.77|-5.42|0.901
92399098|NCT00286442|184689851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.45||||0.578|TWO_SIDED|95.0|-6.59|3.68||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.68|-6.59|0.578
92399099|NCT00286442|184689852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.708|TWO_SIDED|95.0|-2.67|3.93||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.93|-2.67|0.708
92399100|NCT00286442|184689852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.601|TWO_SIDED|95.0|-2.44|4.21||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.21|-2.44|0.601
92399101|NCT00286442|184689853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12||||0.398|TWO_SIDED|95.0|-1.48|3.72||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.72|-1.48|0.398
92156931|NCT02886728|184200562|SUPERIORITY||Least Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.032|TWO_SIDED|95.0|-0.2|-0.01||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.01|-0.20|0.032
92405595|NCT02215252|184701381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|90.0|-1.33|0.0||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4||0.00|-1.33|
92156932|NCT02886728|184200563|SUPERIORITY||Difference in Response Rates|25.0|||<|0.001|TWO_SIDED|95.0|18.3|31.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||31.7|18.3|<0.001
92156933|NCT02886728|184200563|SUPERIORITY||Difference in Response Rates|13.4|||<|0.001|TWO_SIDED|95.0|5.0|21.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||21.8|5.0|<0.001
92156934|NCT02886728|184200563|SUPERIORITY||Difference in Response Rates|13.3|||<|0.001|TWO_SIDED|95.0|5.0|21.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||21.6|5.0|<0.001
92156935|NCT02886728|184200564|SUPERIORITY||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.161||0.068|TWO_SIDED|95.0|-0.61|0.02||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.02|-0.61|0.068
92156936|NCT02886728|184200564|SUPERIORITY||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.195||0.14|TWO_SIDED|95.0|-0.67|0.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.10|-0.67|0.14
92156937|NCT02886728|184200564|SUPERIORITY||Least Squares Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.199||0.006|TWO_SIDED|95.0|-0.94|-0.16||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.16|-0.94|0.006
92156938|NCT02886728|184200565|SUPERIORITY||Least Squares Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|1.8|4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.0|1.8|<0.001
92156939|NCT02886728|184200565|SUPERIORITY||Least Squares Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|0.69||0.021|TWO_SIDED|95.0|0.2|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|0.2|0.021
92156940|NCT02886728|184200565|SUPERIORITY||Least Squares Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.69||0.24|TWO_SIDED|95.0|-0.5|2.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.2|-0.5|0.24
92156941|NCT02886728|184200566|SUPERIORITY||Least Squares Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.68||0.056|TWO_SIDED|95.0|0.0|2.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.6|-0.0|0.056
92156942|NCT02886728|184200566|SUPERIORITY||Least Squares Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.82||0.1|TWO_SIDED|95.0|-0.3|3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.0|-0.3|0.10
92156943|NCT02886728|184200566|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.83||0.67|TWO_SIDED|95.0|-1.3|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-1.3|0.67
92156944|NCT02886728|184200567|SUPERIORITY||Least Squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.195|<|0.001|TWO_SIDED|95.0|-1.03|-0.27||MMRM model included treatment, visit, treatment by visit, stratification factors, campaign groups, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.27|-1.03|<0.001
92227084|NCT03988907|184356242|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.11|||||TWO_SIDED|90.0|1.02|1.2||||||||1.20|1.02|
92217084|NCT04667377|184334317|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 10% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|9.78|||<|0.0001|TWO_SIDED|95.0|4.02|23.79||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||23.79|4.02|<.0001
92217085|NCT04667377|184334317|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 10% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|14.5|||<|0.0001|TWO_SIDED|95.0|5.91|35.55||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||35.55|5.91|<.0001
92217086|NCT04667377|184334318|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 15% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|2.13||||0.2654|TWO_SIDED|95.0|0.56|8.02||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||8.02|0.56|0.2654
92227085|NCT03988907|184356243|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.16|||||TWO_SIDED|90.0|1.06|1.28||||||||1.28|1.06|
92156945|NCT02886728|184200567|SUPERIORITY||Least Squares Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.236||0.008|TWO_SIDED|95.0|-1.09|-0.16||MMRM model included treatment, visit, treatment by visit, stratification factors, campaign groups, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.16|-1.09|0.008
92156946|NCT02886728|184200567|SUPERIORITY||Least Squares Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.242||0.006|TWO_SIDED|95.0|-1.14|-0.19||MMRM model included treatment, visit, treatment by visit, stratification factors, campaign groups, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.19|-1.14|0.006
92275007|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.11|||||TWO_SIDED|95.0|-355.85|333.63||||||For change in dyspnea at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||333.63|-355.85|
92156947|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|25.5|||<|0.001|TWO_SIDED|95.0|19.3|31.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2||31.7|19.3|<0.001
92341495|NCT00830219|184584354|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.3||||||90.0|97.56|107.27|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.27|97.56|
92341496|NCT00830219|184584355|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.54||||||90.0|97.53|107.8|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.8|97.53|
92156948|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|20.6|||<|0.001|TWO_SIDED|95.0|12.8|28.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2||28.5|12.8|<0.001
92341497|NCT01130272|184584356|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.457||||0.052|TWO_SIDED|95.0|0.994|6.077|||ANCOVA|||||6.077|0.994|0.052
92341498|NCT01130272|184584356|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.383||||0.041|TWO_SIDED|95.0|1.036|5.478|||ANCOVA|||||5.478|1.036|0.041
92156949|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|22.9|||<|0.001|TWO_SIDED|95.0|15.1|30.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2||30.8|15.1|<0.001
92156950|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|28.8|||<|0.001|TWO_SIDED|95.0|22.1|35.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||35.6|22.1|<0.001
92341499|NCT01130272|184584356|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.079||||0.09|TWO_SIDED|95.0|0.893|4.842|||ANCOVA|||||4.842|0.893|0.090
92341500|NCT01130272|184584356|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.797||||0.015|TWO_SIDED|95.0|1.227|6.376|||ANCOVA|||||6.376|1.227|0.015
92399102|NCT00286442|184689853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07||||0.425|TWO_SIDED|95.0|-1.56|3.69||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.69|-1.56|0.425
92156951|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|22.1|||<|0.001|TWO_SIDED|95.0|13.6|30.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||30.7|13.6|<0.001
92156952|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|19.0|||<|0.001|TWO_SIDED|95.0|10.5|27.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||27.5|10.5|<0.001
92156953|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|17.3|||<|0.001|TWO_SIDED|95.0|10.8|23.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||23.8|10.8|<0.001
92156954|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|12.6||||0.002|TWO_SIDED|95.0|4.5|20.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||20.7|4.5|0.002
92341501|NCT01130272|184584357|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.719||||0.449|TWO_SIDED|95.0|0.306|1.689|||ANCOVA|||||1.689|0.306|0.449
92341502|NCT01130272|184584357|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.208||||0.583|TWO_SIDED|95.0|0.615|2.373|||ANCOVA|||||2.373|0.615|0.583
92399103|NCT00286442|184689854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.87||||0.018|TWO_SIDED|95.0|0.5|5.23||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.23|0.50|0.018
92156955|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|12.1||||0.002|TWO_SIDED|95.0|4.0|20.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||20.1|4.0|0.002
92156956|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|7.2||||0.016|TWO_SIDED|95.0|0.9|13.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36||13.5|0.9|0.016
92156957|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|5.2||||0.18|TWO_SIDED|95.0|-2.7|13.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36||13.0|-2.7|0.18
92156958|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|7.9||||0.03|TWO_SIDED|95.0|0.3|15.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36||15.6|0.3|0.030
92156959|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|13.2|||<|0.001|TWO_SIDED|95.0|6.7|19.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||19.7|6.7|<0.001
92156960|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|11.7||||0.003|TWO_SIDED|95.0|3.7|19.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||19.6|3.7|0.003
92156961|NCT02886728|184200568|SUPERIORITY||Difference in Response Rates|13.0|||<|0.001|TWO_SIDED|95.0|5.1|20.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||20.8|5.1|<0.001
92341503|NCT01130272|184584357|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.014||||0.03|TWO_SIDED|95.0|1.069|3.795|||ANCOVA|||||3.795|1.069|0.030
92399104|NCT00286442|184689854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22||||0.067|TWO_SIDED|95.0|-0.15|4.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.60|-0.15|0.067
92156962|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|10.1|||<|0.001|TWO_SIDED|95.0|6.2|13.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2||13.9|6.2|<0.001
92341504|NCT01130272|184584357|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.395||||0.326|TWO_SIDED|95.0|0.717|2.716|||ANCOVA|||||2.716|0.717|0.326
92369341|NCT02993822|184643581|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.029|TWO_SIDED|95.0|0.1|2.2|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.2|0.1|0.029
92405596|NCT02215252|184701382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|90.0|-0.87|0.67||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.67|-0.87|
92156963|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|6.3||||0.001|TWO_SIDED|95.0|1.7|10.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2||10.9|1.7|0.001
92399105|NCT00286442|184689855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.036||||0.011|TWO_SIDED|95.0|-0.064|-0.009||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.009|-0.064|0.011
92156964|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|13.3|||<|0.001|TWO_SIDED|95.0|7.7|18.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2||18.9|7.7|<0.001
92156965|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|20.0|||<|0.001|TWO_SIDED|95.0|14.5|25.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||25.4|14.5|<0.001
92156966|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|11.4|||<|0.001|TWO_SIDED|95.0|4.8|18.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||18.0|4.8|<0.001
92156967|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|16.3|||<|0.001|TWO_SIDED|95.0|9.4|23.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||23.2|9.4|<0.001
92156968|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|24.8|||<|0.001|TWO_SIDED|95.0|18.1|31.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||31.5|18.1|<0.001
92156969|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|16.1|||<|0.001|TWO_SIDED|95.0|7.7|24.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||24.5|7.7|<0.001
92156970|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|17.3|||<|0.001|TWO_SIDED|95.0|9.0|25.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||25.7|9.0|<0.001
92156971|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|15.9|||<|0.001|TWO_SIDED|95.0|8.9|22.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||22.8|8.9|<0.001
92156972|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|11.3||||0.006|TWO_SIDED|95.0|2.7|20.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||20.0|2.7|0.006
92156973|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|12.4||||0.002|TWO_SIDED|95.0|3.9|21.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||21.0|3.9|0.002
92156974|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|12.0|||<|0.001|TWO_SIDED|95.0|5.1|19.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36||19.0|5.1|<0.001
92156975|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|7.0||||0.09|TWO_SIDED|95.0|-1.7|15.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36||15.7|-1.7|0.090
92156976|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|10.0||||0.014|TWO_SIDED|95.0|1.4|18.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36||18.6|1.4|0.014
92156977|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|13.9|||<|0.001|TWO_SIDED|95.0|7.0|20.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||20.9|7.0|<0.001
92156978|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|11.1||||0.008|TWO_SIDED|95.0|2.5|19.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||19.7|2.5|0.008
92156979|NCT02886728|184200569|SUPERIORITY||Difference in Response Rates|13.1||||0.001|TWO_SIDED|95.0|4.6|21.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||21.6|4.6|0.001
92156980|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|2.4||||0.018|TWO_SIDED|95.0|0.3|4.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2||4.5|0.3|0.018
92156981|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|1.2||||0.17|TWO_SIDED|95.0|-1.2|3.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2||3.6|-1.2|0.17
92156982|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|3.6||||0.004|TWO_SIDED|95.0|0.3|6.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2||6.8|0.3|0.004
92156983|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|9.1|||<|0.001|TWO_SIDED|95.0|5.2|13.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||13.1|5.2|<0.001
92156984|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|2.4||||0.18|TWO_SIDED|95.0|-1.7|6.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||6.6|-1.7|0.18
92156985|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|7.6|||<|0.001|TWO_SIDED|95.0|2.5|12.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||12.6|2.5|<0.001
92156986|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|19.7|||<|0.001|TWO_SIDED|95.0|13.9|25.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||25.5|13.9|<0.001
92156987|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|13.8|||<|0.001|TWO_SIDED|95.0|6.6|21.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||21.1|6.6|<0.001
92156988|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|15.8|||<|0.001|TWO_SIDED|95.0|8.5|23.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||23.1|8.5|<0.001
92156989|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|17.8|||<|0.001|TWO_SIDED|95.0|11.2|24.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||24.4|11.2|<0.001
92156990|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|14.1|||<|0.001|TWO_SIDED|95.0|5.9|22.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||22.4|5.9|<0.001
92156991|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|14.0|||<|0.001|TWO_SIDED|95.0|5.8|22.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||22.2|5.8|<0.001
92156992|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|13.7|||<|0.001|TWO_SIDED|95.0|6.9|20.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36||20.5|6.9|<0.001
92156993|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|5.0||||0.2|TWO_SIDED|95.0|-3.3|13.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36||13.3|-3.3|0.20
92156994|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|7.3||||0.056|TWO_SIDED|95.0|-1.0|15.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36||15.7|-1.0|0.056
92156995|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|18.0|||<|0.001|TWO_SIDED|95.0|11.3|24.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||24.8|11.3|<0.001
92156996|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|10.3||||0.01|TWO_SIDED|95.0|1.9|18.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||18.6|1.9|0.010
92156997|NCT02886728|184200570|SUPERIORITY||Difference in Response Rates|15.4|||<|0.001|TWO_SIDED|95.0|7.0|23.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||23.8|7.0|<0.001
92156998|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.031|<|0.001|TWO_SIDED|95.0|-0.29|-0.17||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.17|-0.29|<0.001
92156999|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.038|<|0.001|TWO_SIDED|95.0|-0.28|-0.13||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.13|-0.28|<0.001
92157000|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.038|<|0.001|TWO_SIDED|95.0|-0.24|-0.09||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.09|-0.24|<0.001
92157001|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.035|<|0.001|TWO_SIDED|95.0|-0.35|-0.22||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.22|-0.35|<0.001
92157002|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.043|<|0.001|TWO_SIDED|95.0|-0.23|-0.06||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.06|-0.23|<0.001
92399106|NCT00286442|184689855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.047|||<|0.001|TWO_SIDED|95.0|-0.075|-0.019||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.019|-0.075|<0.001
92341505|NCT00641056|184584362|NON_INFERIORITY_OR_EQUIVALENCE|Power: 205 patients per treatment group would provide approximately 92% power to detect a true difference between treatments of 0.4% in change in HbA1c from baseline with a 2-sided t test at a significance level of 0.05, assuming a common standard deviation of 1.2%.|Least Squares Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.017|TWO_SIDED|95.0|-0.29|-0.03||No adjustments for multiplicity were performed|Mixed Models Analysis|||Mixed-model Repeated Measures (MMRM) Analysis of Covariance (ANCOVA) model includes treatment, baseline HbA1c, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects. Superiority of exenatide once weekly to insulin glargine is concluded if the upper limit of the 95% confidence interval for the treatment difference \[exenatide once weekly-insulin glargine\]\<0; noninferiority is concluded if this upper limit\<0.3%.||-0.03|-0.29|0.017
92341506|NCT00641056|184584363|SUPERIORITY_OR_OTHER|||||||0.097|TWO_SIDED|95.0||||No adjustments for multiplicity were performed|Cochran-Mantel-Haenszel|||Percentage of patients achieving HbA1c \<=7.0% at Week 26 were compared between treatments using a Cochran-Mantel-Haenszel (CMH) test, in which background OAD and country served as the stratification factors.||||0.097
92341507|NCT00641056|184584364|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0||||No adjustments for multiplicity were performed|Cochran-Mantel-Haenszel|||Percentage of patients achieving HbA1c \<=6.5% at Week 26 were compared between treatments using a CMH test, in which background OAD and country served as the stratification factors.||||0.002
92341508|NCT00641056|184584365|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|95.0|0.25|1.0||No adjustments for multiplicity were performed|Mixed Models Analysis|||MMRM ANCOVA with change in FSG as the dependent variable; treatment, baseline FSG, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects.||1.00|0.25|0.001
92399107|NCT00286442|184689856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|||<|0.001|TWO_SIDED|95.0|-0.07|-0.021||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.021|-0.070|<0.001
92399108|NCT00286442|184689856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.037||||0.004|TWO_SIDED|95.0|-0.062|-0.012||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.012|-0.062|0.004
92157003|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.042|<|0.001|TWO_SIDED|95.0|-0.29|-0.12||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.12|-0.29|<0.001
92157004|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.039|<|0.001|TWO_SIDED|95.0|-0.35|-0.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.20|-0.35|<0.001
92157005|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.048|<|0.001|TWO_SIDED|95.0|-0.28|-0.09||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.09|-0.28|<0.001
92157006|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.048|<|0.001|TWO_SIDED|95.0|-0.26|-0.07||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.07|-0.26|<0.001
92157007|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.043||0.002|TWO_SIDED|95.0|-0.22|-0.05||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.05|-0.22|0.002
92399109|NCT00286442|184689857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039||||0.007|TWO_SIDED|95.0|-0.068|-0.011||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm|||-0.011|-0.068|0.007
92399110|NCT00286442|184689857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.037||||0.011|TWO_SIDED|95.0|-0.066|-0.008||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm|||-0.008|-0.066|0.011
92157008|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.052||0.23|TWO_SIDED|95.0|-0.17|0.04||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.04|-0.17|0.23
92341509|NCT00641056|184584366|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.05|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-4.57|-3.52||No adjustments for multiplicity were performed|Mixed Models Analysis|||MMRM ANCOVA with change in BW as the dependent variable; treatment, baseline BW, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects.||-3.52|-4.57|<.001
92399111|NCT00286442|184689858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.052|||<|0.001|TWO_SIDED|95.0|-0.08|-0.024||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.024|-0.080|<0.001
92157009|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.052||0.24|TWO_SIDED|95.0|-0.16|0.04||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.04|-0.16|0.24
92157010|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.045|<|0.001|TWO_SIDED|95.0|-0.25|-0.08||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.08|-0.25|<0.001
92157011|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.054||0.077|TWO_SIDED|95.0|-0.2|0.01||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.01|-0.20|0.077
92157012|NCT02886728|184200571|SUPERIORITY||Least Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.054||0.039|TWO_SIDED|95.0|-0.22|-0.01||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.01|-0.22|0.039
92157013|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-6.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-6.0|<0.001
92157014|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-6.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-6.0|<0.001
92157015|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-7.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-7.0|<0.001
92157016|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-7.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-7.0|<0.001
92157017|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-6.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-6.0|<0.001
92157018|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-7.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-7.0|<0.001
92275008|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.22|||||TWO_SIDED|95.0|-322.52|366.97||||||For change in insomnia at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||366.97|-322.52|
92341510|NCT00641056|184584367|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.07||0.292|TWO_SIDED|95.0|-0.21|0.06||No adjustments for multiplicity were performed|Mixed Models Analysis|||MMRM ANCOVA with change in total cholesterol as the dependent variable; treatment, baseline total cholesterol, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects.||0.06|-0.21|0.292
92157019|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
92157020|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
92341511|NCT00641056|184584368|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.377|TWO_SIDED|95.0|-0.05|0.02||No adjustments for multiplicity were performed|Mixed Models Analysis|||MMRM ANCOVA with change in HDL as the dependent variable; treatment, baseline HDL, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects.||0.02|-0.05|0.377
92399112|NCT00286442|184689858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044||||0.003|TWO_SIDED|95.0|-0.072|-0.015||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.015|-0.072|0.003
92157021|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-6.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-6.0|<0.001
92157022|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92157023|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6||0.005|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|0.005
92157024|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
92157025|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.5||0.063|TWO_SIDED|95.0|-2.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.0|-2.0|0.063
92157026|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.6||0.64|TWO_SIDED|95.0|-1.0|1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-1.0|0.64
92157027|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92275009|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|44.44|||||TWO_SIDED|95.0|-208.53|297.42||||||For change in appetite loss at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||297.42|-208.53|
92275010|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-165.61|165.61||||||For change in constipation at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||165.61|-165.61|
92275011|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|77.78|||||TWO_SIDED|95.0|-17.84|173.39||||||For change in diarrhea at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||173.39|-17.84|
92399113|NCT00286442|184689859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046||||0.078|TWO_SIDED|95.0|-0.097|0.005||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.005|-0.097|0.078
92399114|NCT00286442|184689859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005||||0.86|TWO_SIDED|95.0|-0.056|0.047||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.047|-0.056|0.860
92399115|NCT00286442|184689860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.053||||0.048|TWO_SIDED|95.0|-0.106|-0.001||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.001|-0.106|0.048
92157028|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92157029|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.6||0.095|TWO_SIDED|95.0|-2.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.0|-2.0|0.095
92157030|NCT02886728|184200572|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92157031|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92157032|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.7||0.002|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|0.002
92157033|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
92157034|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-4.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|Mixed effects model for repeated measure|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-4.0|<0.001
92399116|NCT00286442|184689860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004||||0.889|TWO_SIDED|95.0|-0.057|0.05||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.050|-0.057|0.889
92399117|NCT00286442|184689861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.336||||0.031|TWO_SIDED|95.0|0.03|0.642||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.642|0.030|0.031
92157035|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
92157036|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
92341512|NCT00641056|184584369|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.07|STANDARD_ERROR_OF_MEAN|0.04||0.077|TWO_SIDED|95.0|0.99|1.15||No adjustments for multiplicity were performed|Mixed Models Analysis|||Triglycerides data were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed by MMRM ANCOVA with change in triglycerides as the dependent variable; treatment, baseline triglycerides, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects.||1.15|0.99|0.077
92341513|NCT01811732|184584378|NON_INFERIORITY|A 2-sided 95% confidence interval (CI) for noninferiority testing was computed based on the difference in sample rates for vancomycin + aztreonam and delafloxacin at the primary endpoint. If the upper limit (UL) of the CI was less than 0.10, delafloxacin would be considered noninferior to vancomycin + aztreonam.|Difference in Responder Rates|-2.6|||||TWO_SIDED|95.0|-8.8|3.6||||||||3.6|-8.8|
92341514|NCT00536510|184584401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.7|STANDARD_ERROR_OF_MEAN|1.96|<|0.001||95.0|-18.6|-10.9||The significance test was 2-tailed with α=0.05|ANOVA|The efficacy analysis was performed using an ANOVA model with factors for treatment, country, gender, and stratum defined by concomitant statin use.||The primary hypothesis of superiority of MK0524A 2 g to placebo in lowering Low Density Lipoprotein Cholesterol (LDL-C) was assessed using the comparison between these 2 groups from the ANOVA model.||-10.9|-18.6|<0.001
92341515|NCT00536510|184584402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.9|STANDARD_ERROR_OF_MEAN|1.68|<|0.001||95.0|12.6|19.2||The significance test was 2-tailed with α=0.05|ANOVA|The efficacy analysis was performed using an ANOVA model with factors for treatment, country, gender, and stratum defined by concomitant statin use.||The secondary hypothesis of superiority of MK0524A 2 g to placebo in lowering High Density Lipoprotein Cholesterol (HDL-C) was assessed using the comparison between these 2 groups from the ANOVA model.||19.2|12.6|<0.001
92341516|NCT02035553|184584403|SUPERIORITY||Diff in MMRM LSM|-1.84||||0.0451|TWO_SIDED|95.0|-3.64|-0.04|||Mixed Models Analysis|||||-0.04|-3.64|0.0451
92341517|NCT04539964|184584404|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|11.8||||0.0209|TWO_SIDED|95.0|0.6|23.1||The study is considered successful if there is a statistically significant improvement in the proportion of subjects with ACR20 response in favor of the SetPoint System at the one-sided alpha of 0.025.|Cochran-Mantel-Haenszel|||||23.1|0.6|0.0209
92341518|NCT04539964|184584405|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|19.5||||0.0048|TWO_SIDED|95.0|7.3|31.7||Adjusted p-value. Hochberg's step-up procedure was used to control the family wise type 1 error rate at a 1-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||31.7|7.3|0.0048
92341519|NCT04539964|184584406|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|13.2||||0.0528|TWO_SIDED|95.0|1.1|25.3||Adjusted p-value. Hochberg's step-up procedure was used to control the family wise type 1 error rate at a 1-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||25.3|1.1|0.0528
92341520|NCT04539964|184584407|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|9.0||||0.0797|TWO_SIDED|95.0|-3.3|21.4||Adjusted p-value. Hochberg's step-up procedure was used to control the family wise type 1 error rate at a 1-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||21.4|-3.3|0.0797
92341521|NCT04539964|184584408|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|8.0||||0.0797|TWO_SIDED|95.0|-3.1|19.0||Adjusted p-value. Hochberg's step-up procedure was used to control the family wise type 1 error rate at a 1-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||19.0|-3.1|0.0797
92341522|NCT04539964|184584409|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that control group response rate exceeds the treatment group response rate.|Risk Difference (RD)|-3.7||||0.2476|TWO_SIDED|95.0|-14.4|7.0|||Cochran-Mantel-Haenszel|||||7.0|-14.4|0.2476
92341523|NCT04539964|184584410|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that control group response rate exceeds the treatment group response rate.|Risk Difference (RD)|-20.2||||0.0156|TWO_SIDED|95.0|-38.1|-2.2|||Cochran-Mantel-Haenszel|||||-2.2|-38.1|0.0156
92341524|NCT04539964|184584411|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that control group response rate exceeds the treatment group response rate.|Risk Difference (RD)|-18.6||||0.0099|TWO_SIDED|95.0|-34.7|-2.6|||Cochran-Mantel-Haenszel|||||-2.6|-34.7|0.0099
92341525|NCT04539964|184584412|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that the control group mean change exceeds the treatment group mean change.|Mean Difference (Net)|-0.3||||0.0618|TWO_SIDED|95.0|-0.8|0.1|||Mixed Models Analysis|||||0.1|-0.8|0.0618
92157037|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-3.0|<0.001
92227086|NCT03988907|184356244|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.12|||||TWO_SIDED|90.0|0.99|1.27||||||||1.27|0.99|
92341526|NCT04539964|184584413|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that the control group mean change exceeds the treatment group mean change.|Mean Difference (Net)|-0.9||||0.0308|TWO_SIDED|95.0|-1.8|0.0|||Mixed Models Analysis|||||0.0|-1.8|0.0308
92157038|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92157039|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-4.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-4.0|<0.001
92157040|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-2.0|<0.001
92157041|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-2.0|<0.001
92157042|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92157043|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-1.0|<0.001
92157044|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.12|TWO_SIDED|95.0|-1.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.0|-1.0|0.12
92157045|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3||0.019|TWO_SIDED|95.0|-1.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-1.0|0.019
92157046|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-2.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-2.0|<0.001
92157047|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3||0.032|TWO_SIDED|95.0|-1.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-1.0|0.032
92341527|NCT04539964|184584414|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that the control group mean change exceeds the treatment group mean change.|Mean Difference (Net)|-0.8||||0.0441|TWO_SIDED|95.0|-1.7|0.1|||Mixed Models Analysis|||||0.1|-1.7|0.0441
92341528|NCT04539964|184584415|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that the control group mean change exceeds the treatment group mean change.|Mean Difference (Net)|-0.1||||0.2871|TWO_SIDED|95.0|-0.6|0.3|||Mixed Models Analysis|||||0.3|-0.6|0.2871
92399118|NCT00286442|184689861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.304||||0.051|TWO_SIDED|95.0|-0.002|0.611||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.611|-0.002|0.051
92157048|NCT02886728|184200573|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-2.0|<0.001
92157049|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-13.0|-8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.0|-13.0|<0.001
92157050|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-10.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-10.0|<0.001
92341529|NCT04539964|184584416|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that the control group mean change exceeds the treatment group mean change.|Mean Difference (Net)|-0.1||||0.4345|TWO_SIDED|95.0|-0.9|0.7|||Mixed Models Analysis|||||0.7|-0.9|0.4345
92341530|NCT04539964|184584417|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that the control group mean change exceeds the treatment group mean change.|Mean Difference (Net)|-0.45||||0.09|TWO_SIDED|95.0|-1.1|0.2|||Mixed Models Analysis|||||0.2|-1.1|0.0900
92341531|NCT04539964|184584418|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that the control group mean change exceeds the treatment group mean change.|Mean Difference (Net)|-0.7||||0.0662|TWO_SIDED|95.0|-1.7|0.2|||Mixed Models Analysis|||||0.2|-1.7|0.0662
92341532|NCT04539964|184584419|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that the control group mean change exceeds the treatment group mean change.|Mean Difference (Net)|-1.8||||0.045|TWO_SIDED|95.0|-3.9|0.3|||Mixed Models Analysis|||||0.3|-3.9|0.0450
92341533|NCT04539964|184584420|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that the control group mean change exceeds the treatment group mean change.|Mean Difference (Net)|-1.55||||0.035|TWO_SIDED|95.0|-3.2|0.1|||Mixed Models Analysis|||||0.1|-3.2|0.0350
92341534|NCT04539964|184584421|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|7.8||||0.0648|TWO_SIDED|95.0|-2.1|17.7|||Cochran-Mantel-Haenszel|||||17.7|-2.1|0.0648
92341535|NCT04539964|184584422|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|11.4||||0.0154|TWO_SIDED|95.0|1.2|21.6|||Cochran-Mantel-Haenszel|||||21.6|1.2|0.0154
92341536|NCT04539964|184584466|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|25.2||||0.0054|TWO_SIDED|95.0|7.1|43.3|||Cochran-Mantel-Haenszel|||||43.3|7.1|0.0054
92341537|NCT04539964|184584467|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|20.3||||0.0437|TWO_SIDED|95.0|-2.2|42.9|||Cochran-Mantel-Haenszel|||||42.9|-2.2|0.0437
92157051|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-10.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-10.0|<0.001
92157052|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-15.0|-10.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-10.0|-15.0|<0.001
92341538|NCT04539964|184584468|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|-17.6||||0.1643|TWO_SIDED|95.0|-51.1|16.0|||Cochran-Mantel-Haenszel|||||16.0|-51.1|0.1643
92341539|NCT04539964|184584469|SUPERIORITY|The null hypothesis (H0) is that there is no difference between the treatment and control groups versus the alternative hypothesis (H1) that treatment group response rate exceeds the control group response rate.|Risk Difference (RD)|-2.4||||0.415|TWO_SIDED|95.0|-24.1|19.2|||Cochran-Mantel-Haenszel|||||19.2|-24.1|0.415
92157053|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.8||0.001|TWO_SIDED|95.0|-10.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-10.0|0.001
92157054|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-11.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-11.0|<0.001
92157055|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-15.0|-9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-9.0|-15.0|<0.001
92157056|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|2.0||0.009|TWO_SIDED|95.0|-9.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-9.0|0.009
92157057|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.0||0.003|TWO_SIDED|95.0|-10.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-10.0|0.003
92157058|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-13.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-13.0|<0.001
92157059|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.0||0.11|TWO_SIDED|95.0|-7.0|1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-7.0|0.11
92157060|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|2.0||0.066|TWO_SIDED|95.0|-8.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.0|-8.0|0.066
92157061|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-11.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-11.0|<0.001
92157062|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.1||0.4|TWO_SIDED|95.0|-6.0|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-6.0|0.40
92227087|NCT03988907|184356245|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.2|||||TWO_SIDED|90.0|1.11|1.3||||||||1.30|1.11|
92341540|NCT01674725|184584470|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333 treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 64% to achieve noninferiority.|Percentage of Participants|100.0|||||TWO_SIDED|95.0|95.9|100.0|||||95% CI was calculated using the Wilson score method for the single proportion because the point estimate was 100%.|Planned enrollment is 210 to allow ≥200 GT1b-infected participants to be treated with combination formulation of ABT-450/r/ABT-267 and ABT-333 with and without RBV. Enrollment terminated after 187 participants were randomized. Assuming a rate of 82% in each arm, a sample size of 90 participants per arm will have \>90% power to demonstrate noninferiority of each arm to the historical rate based on the normal approximation of a single binomial proportion in a one-sample test for superiority.||100.0|95.9|
92275012|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.11|||||TWO_SIDED|95.0|-106.73|84.5||||||For change in financial difficulties at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||84.5|-106.73|
92157063|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.1||0.24|TWO_SIDED|95.0|-6.0|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-6.0|0.24
92275013|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-54.17|||||TWO_SIDED|95.0|-512.66|404.33||||||For change in global QoL at EoS, mean change difference was used to compare the two treatment groups.||404.33|-512.66|
92275014|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-70.0|||||TWO_SIDED|95.0|-143.36|3.36||||||For change in physical functioning at EoS, mean change difference was used to compare the two treatment groups.||3.36|-143.36|
92157064|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-12.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-12.0|<0.001
92157065|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.1||0.17|TWO_SIDED|95.0|-7.0|1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-7.0|0.17
92157066|NCT02886728|184200574|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.1||0.008|TWO_SIDED|95.0|-10.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-10.0|0.008
92275015|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.33|||||TWO_SIDED|95.0|-400.13|333.46||||||For change in role functioning at EoS, mean change difference was used to compare the two treatment groups.||333.46|-400.13|
92275016|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.67|||||TWO_SIDED|95.0|-591.86|508.53||||||For change in emotional functioning at EoS, mean change difference was used to compare the two treatment groups.||508.53|-591.86|
92275017|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.67|||||TWO_SIDED|95.0|-66.67|-66.67||||||For change in cognitive functioning at EoS, mean change difference was used to compare the two treatment groups.||-66.67|-66.67|
92341541|NCT01674725|184584470|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 64% to achieve noninferiority.|Percentage of Participants|97.7|||||TWO_SIDED|95.0|94.6|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution.|Assuming a rate of 82% in each arm, a sample size of 90 participants per arm will have \>90% power to demonstrate noninferiority of each arm to the historical rate based on the normal approximation of a single binomial proportion in a one-sample test for superiority.||100.0|94.6|
92275018|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.33|||||TWO_SIDED|95.0|-450.13|283.46||||||For change in social functioning at EoS, mean change difference was used to compare the two treatment groups.||283.46|-450.13|
92275019|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|66.67|||||TWO_SIDED|95.0|-177.86|311.2||||||For change in fatigue at EoS, mean change difference was used to compare the two treatment groups.||311.2|-177.86|
92275020|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.33|||||TWO_SIDED|95.0|-333.46|400.13||||||For change in nausea and vomiting at EoS, mean change difference was used to compare the two treatment groups.||400.13|-333.46|
92275021|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|-1258.79|1308.79||||||For change in pain at EoS, mean change difference was used to compare the two treatment groups.||1308.79|-1258.79|
92275022|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|83.33|||||TWO_SIDED|95.0|-283.46|450.13||||||For change in dyspnea at EoS, mean change difference was used to compare the two treatment groups.||450.13|-283.46|
92275023|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.33|||||TWO_SIDED|95.0|-700.26|766.93||||||For change in insomnia at EoS, mean change difference was used to compare the two treatment groups.||766.93|-700.26|
92275024|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.0|||||TWO_SIDED|95.0|-1050.39|1150.39||||||For change in appetite loss at EoS, mean change difference was used to compare the two treatment groups.||1150.39|-1050.39|
92275025|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-1850.65|1817.32||||||For change in constipation at EoS, mean change difference was used to compare the two treatment groups.||1817.32|-1850.65|
92275026|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.33|||||TWO_SIDED|95.0|-700.26|766.93||||||For change in diarrhea at EoS, mean change difference was used to compare the two treatment groups.||766.93|-700.26|
92275027|NCT00219557|184452358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-383.46|350.13||||||For change in financial difficulties at EoS, mean change difference was used to compare the two treatment groups.||350.13|-383.46|
92275028|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.59|||||TWO_SIDED|95.0|-10.11|15.29||||||For change in pancreatic pain at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||15.29|-10.11|
92157067|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-12.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-12.0|<0.001
92157068|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-9.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-9.0|<0.001
92157069|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-11.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-11.0|<0.001
92157070|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|-13.0|-8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.0|-13.0|<0.001
92157071|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-11.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-11.0|<0.001
92157072|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-11.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-11.0|<0.001
92157073|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-12.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-12.0|<0.001
92157074|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-9.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-9.0|<0.001
92157075|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.6||0.001|TWO_SIDED|95.0|-8.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-8.0|0.001
92157076|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-8.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-8.0|<0.001
92157077|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.5||0.007|TWO_SIDED|95.0|-7.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-7.0|0.007
92157078|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.5||0.046|TWO_SIDED|95.0|-6.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-6.0|0.046
92275029|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.41|||||TWO_SIDED|95.0|-13.39|20.2||||||For change in eating related items at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||20.20|-13.39|
92275030|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.7|||||TWO_SIDED|95.0|5.96|33.43||||||For change in altered bowel habits at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||33.43|5.96|
92341542|NCT01674725|184584471|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92217087|NCT04667377|184334318|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 15% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|9.47||||0.0002|TWO_SIDED|95.0|2.89|30.95||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||30.95|2.89|0.0002
92157079|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.2||0.002|TWO_SIDED|95.0|-6.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-6.0|0.002
92399119|NCT00286442|184689862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088||||0.563|TWO_SIDED|95.0|-0.209|0.384||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.384|-0.209|0.563
92157080|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.4||0.44|TWO_SIDED|95.0|-4.0|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-4.0|0.44
92217088|NCT04667377|184334318|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 15% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|11.79|||<|0.0001|TWO_SIDED|95.0|3.62|38.36||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||38.36|3.62|<.0001
92217089|NCT04667377|184334318|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 15% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|21.02|||<|0.0001|TWO_SIDED|95.0|6.47|68.28||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||68.28|6.47|<.0001
92217090|NCT04667377|184334319|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-4.53|STANDARD_ERROR_OF_MEAN|1.48||0.0025|TWO_SIDED|95.0|-7.44|-1.61||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-1.61|-7.44|0.0025
92217091|NCT04667377|184334319|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-12.07|STANDARD_ERROR_OF_MEAN|1.46|<|0.0001|TWO_SIDED|95.0|-14.94|-9.19||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-9.19|-14.94|<.0001
92217092|NCT04667377|184334319|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-12.96|STANDARD_ERROR_OF_MEAN|1.47|<|0.0001|TWO_SIDED|95.0|-15.85|-10.07||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo at week 46.|No formal hypotheses were tested.||-10.07|-15.85|<.0001
92275031|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.7|||||TWO_SIDED|95.0|0.93|24.47||||||For change in jaundice at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||24.47|0.93|
92405597|NCT02215252|184701382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|90.0|-1.36|0.2||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.20|-1.36|
92157081|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.4||0.21|TWO_SIDED|95.0|-5.0|1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-5.0|0.21
92341543|NCT01674725|184584472|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|97.7|||||TWO_SIDED|95.0|94.6|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 75% to achieve superiority.|||100.0|94.6|
92341544|NCT01674725|184584472|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|100.0|||||TWO_SIDED|95.0|95.9|100.0|||||95% CI was calculated using the Wilson score method for the single proportion; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 75% to achieve superiority|||100|95.9|
92157082|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-7.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-7.0|<0.001
92157083|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.4||0.029|TWO_SIDED|95.0|-6.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-6.0|0.029
92157084|NCT02886728|184200575|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.4||0.01|TWO_SIDED|95.0|-6.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-6.0|0.010
92157085|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|-15.0|-9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-9.0|-15.0|<0.001
92157086|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-11.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-11.0|<0.001
92157087|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-13.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-13.0|<0.001
92157088|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-16.0|-10.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-10.0|-16.0|<0.001
92157089|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|-11.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-11.0|<0.001
92157090|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|-13.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-13.0|<0.001
92157091|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-15.0|-8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.0|-15.0|<0.001
92275032|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.1|||||TWO_SIDED|95.0|1.28|28.91||||||For change in body image at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||28.91|1.28|
92217093|NCT04667377|184334319|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-15.78|STANDARD_ERROR_OF_MEAN|1.47|<|0.0001|TWO_SIDED|95.0|-18.67|-12.9||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo at week 46.|No formal hypotheses were tested.||-12.90|-18.67|<.0001
92217094|NCT04667377|184334320|OTHER|MMRM with fixed effects for baseline waist circumference as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-4.36|STANDARD_ERROR_OF_MEAN|1.71||0.0116|TWO_SIDED|95.0|-7.74|-0.98||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-0.98|-7.74|0.0116
92217095|NCT04667377|184334320|OTHER|MMRM with fixed effects for baseline waist circumference as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-11.03|STANDARD_ERROR_OF_MEAN|1.71|<|0.0001|TWO_SIDED|95.0|-14.39|-7.66||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-7.66|-14.39|<.0001
92217096|NCT04667377|184334320|OTHER|MMRM with fixed effects for baseline waist circumference as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-11.0|STANDARD_ERROR_OF_MEAN|1.69|<|0.0001|TWO_SIDED|95.0|-14.33|-7.67||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-7.67|-14.33|<.0001
92217097|NCT04667377|184334320|OTHER|MMRM with fixed effects for baseline waist circumference as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-12.05|STANDARD_ERROR_OF_MEAN|1.69|<|0.0001|TWO_SIDED|95.0|-15.39|-8.71||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-8.71|-15.39|<.0001
92217098|NCT04667377|184334321|OTHER|MMRM with fixed effects for baseline systolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-3.73|STANDARD_ERROR_OF_MEAN|2.08||0.0733|TWO_SIDED|95.0|-7.82|0.35||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||0.35|-7.82|0.0733
92157092|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|2.1||0.019|TWO_SIDED|95.0|-9.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-9.0|0.019
92157093|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.1||0.007|TWO_SIDED|95.0|-10.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-10.0|0.007
92217099|NCT04667377|184334321|OTHER|MMRM with fixed effects for baseline systolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-5.62|STANDARD_ERROR_OF_MEAN|2.08|<|0.0072|TWO_SIDED|95.0|-9.71|1.53||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||1.53|-9.71|<.0072
92217100|NCT04667377|184334321|OTHER|MMRM with fixed effects for baseline systolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-6.2|STANDARD_ERROR_OF_MEAN|2.05||0.0027|TWO_SIDED|95.0|-10.23|-2.17||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-2.17|-10.23|0.0027
92227088|NCT03988907|184356246|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.27|||||TWO_SIDED|90.0|1.14|1.41||||||||1.41|1.14|
92227089|NCT04656990|184356277|SUPERIORITY||Slope|17.1|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92227090|NCT04656990|184356280|SUPERIORITY||Slope|3.4|||=|0.04|TWO_SIDED||||||Mixed Models Analysis|||||||=0.04
92227091|NCT03657459|184356313|SUPERIORITY|||||||0.0096|||||||Chi-squared|Pearsons Chi Square||||||0.0096
92227092|NCT03657459|184356314|SUPERIORITY|||||||0.9||||||no adjustment|Chi-squared|Pearson Chi-square||||||0.90
92157094|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-12.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-12.0|<0.001
92157095|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.0||0.13|TWO_SIDED|95.0|-7.0|1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-7.0|0.13
92217101|NCT04667377|184334321|OTHER|MMRM with fixed effects for baseline systolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-6.16|STANDARD_ERROR_OF_MEAN|2.08||0.0033|TWO_SIDED|95.0|-10.25|-2.06||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-2.06|-10.25|0.0033
92341545|NCT01674725|184584472|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333 treatment group as compared with the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group was analyzed using a noninferiority margin of -10.5%; the lower confidence bound of the 2-sided 95% confidence interval for the difference in percentage of participants with sustained virologic response at 12 weeks after treatment must exceed -10.5% to achieve noninferiority.|Percentage of Participants|2.3|||||TWO_SIDED|95.0|-0.8|5.4|||||95% CI was calculated using the normal approximation to the binomial distribution.|||5.4|-0.8|
92341546|NCT02709746|184584486|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.4702|TWO_SIDED|95.0|-1.94|4.2|||Mixed Model Repeated Analysis|||||4.2|-1.94|0.4702
92341547|NCT02709746|184584486|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.6373|TWO_SIDED|95.0|-3.71|2.27|||Mixed Model Repeated Analysis|||||2.27|-3.71|0.6373
92341548|NCT02709746|184584486|SUPERIORITY||Mean Difference (Final Values)|-3.73||||0.0152|TWO_SIDED|95.0|-6.74|-0.72|||Mixed Model Repeated Analysis|||||-0.72|-6.74|0.0152
92341549|NCT02709746|184584486|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.8778|TWO_SIDED|95.0|-2.41|2.82|||Mixed Model Repeated Analysis|||||2.82|-2.41|0.8778
92341550|NCT03074695|184584514|OTHER||Risk Difference (RD)|3.03||||0.766|TWO_SIDED|95.0|-14.02|20.08|||Regression, Logistic|Adjusted for baseline characteristics (parturient race, ethnicity, height, and induction status).||||20.08|-14.02|0.766
92341551|NCT00902577|184584524|OTHER||Hazard Ratio (HR)|1.54||||0.048|TWO_SIDED|95.0|1.0|2.36|||Regression, Cox|||"FMISO selectively binds to hypoxic tissues so that SUVpeak within a region provides a measure of tumor hypoxia.:~This marker was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||2.36|1.0|0.048
92341552|NCT00902577|184584524|OTHER||Hazard Ratio (HR)|1.16||||0.5|TWO_SIDED|95.0|0.75|1.81|||Regression, Cox|||T/Bmax is the pixel in the tumor region with the maximum tumor:blood ratio (T/Bmax) and T/Bmax depicts the magnitude of the hypoxia TBmax was modeled with a univariate Cox regression model for OS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported. The study was designed to enroll 46 evaluable participants to detect a log hazard ratio of 1.279 for TBmax with HV as a covariate with a 50% event rate||1.81|.75|0.50
92341553|NCT00902577|184584524|OTHER||Hazard Ratio (HR)|1.0||||0.9|TWO_SIDED|0.97|0.97|1.03|||Regression, Cox|||"Hypoxia Volume (HV) depicts the volume of tumor that has crossed the threshold for hypoxia.~Hypoxic Volume (HV) was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.03|0.97|0.90
92341554|NCT00902577|184584524|OTHER||Hazard Ratio (HR)|1.17||||0.024|TWO_SIDED|95.0|1.02|1.34|||Regression, Cox||HR reported per 0.01 increase|"ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Mean ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model Mean ktrans was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.34|1.02|0.024
92341555|NCT00902577|184584524|OTHER||Hazard Ratio (HR)|1.32||||0.045|TWO_SIDED|95.0|1.01|1.72|||Regression, Cox||HR reported per 0.01 increase|"ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Median ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model.~Median ktrans was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.72|1.01|0.045
92341556|NCT00902577|184584524|OTHER||Hazard Ratio (HR)|1.11||||0.31|TWO_SIDED|95.0|0.9|1.37|||Regression, Cox|||Relative cerebral blood volume (RCBV) maps, computed from the integral of ∆R2\*(t), were corrected for leakage effects and normalized to normal appearing white matter (nRCBV); nRCBV provides a measure of tumor vasculature and was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported.||1.37|0.90|0.31
92341557|NCT00902577|184584524|OTHER||Hazard Ratio (HR)|1.07||||0.51|TWO_SIDED|95.0|0.88|1.29|||Regression, Cox|||cerebral blood flow (CBF) maps were was normalized to the mean of the region of interest (ROI) in normal appearing white matter to produce the nCBF and provide another measure of vascular permeability and perfusion nCBF was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported.||1.29|0.88|0.51
92217102|NCT04667377|184334322|OTHER|MMRM with fixed effects for baseline diastolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-1.44|STANDARD_ERROR_OF_MEAN|1.26||0.2569|TWO_SIDED|95.0|-3.92|1.05||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||1.05|-3.92|0.2569
92217103|NCT04667377|184334322|OTHER|MMRM with fixed effects for baseline diastolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-2.49|STANDARD_ERROR_OF_MEAN|1.26||0.0495|TWO_SIDED|95.0|-4.97|0.0||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-0.00|-4.97|0.0495
92217104|NCT04667377|184334322|OTHER|MMRM with fixed effects for baseline diastolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-2.44|STANDARD_ERROR_OF_MEAN|1.24||0.0506|TWO_SIDED|95.0|-4.9|0.01||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 -placebo.|No formal hypotheses were tested.||0.01|-4.90|0.0506
92217105|NCT04667377|184334322|OTHER|MMRM with fixed effects for baseline diastolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-2.93|STANDARD_ERROR_OF_MEAN|1.25||0.0202|TWO_SIDED|95.0|-5.4|-0.46||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-0.46|-5.40|0.0202
92217106|NCT02319668|184334323|SUPERIORITY_OR_OTHER||Least square (LS) Mean difference|0.2||||0.2965|TWO_SIDED|95.0|-0.18|0.58|||ANCOVA|ANCOVA with treatment as factor and baseline as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.58|-0.18|0.2965
92217107|NCT00365456|184334339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.012|STANDARD_ERROR_OF_MEAN|1.0045||0.01|TWO_SIDED|95.0|1.003|1.021||No multiplicity correction of the significance level was performed as only one primary endpoint was planned.|ANCOVA|Estimation allowing for unequal variance in the two treatment groups and robust estimates for the standard errors were obtained.||An analysis of covariance (ANCOVA) model was used including treatment group, stratum and pooled centre as fixed effects and log (BMD at Baseline III (month 24)) as a covariate (log-normally distributed data assumed). Least square mean change from baseline III (month 24), 95% confidence interval and p-value for the treatment effect (PTH (1-84) vs. Risedronate) was calculated. Superiority was claimed if lower limit of the interval was above 1. Results were back-transformed from the log scale.||1.021|1.003|0.010
92217108|NCT04754802|184334347|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|2.42||0.5063|TWO_SIDED|95.0|-3.2|6.4|||ANCOVA|||||6.4|-3.2|.5063
92217109|NCT04754802|184334348|SUPERIORITY||Other|-0.015||||0.8077|TWO_SIDED|95.0|-0.137|0.107|||Wald Normal Approximation (Z)|Wald Normal Approximation (Z) for difference between two proportions||||0.107|-0.137|.8077
92341558|NCT00902577|184584524|OTHER||Hazard Ratio (HR)|1.0||||0.97|TWO_SIDED|95.0|0.79|1.26|||Regression, Cox|||Apparent Diffusion Coefficient (ADC) measures water diffusion through tissue. Cerebral infarction leads to diffusion restriction resulting in a low ADC signal in the infarcted area. A double Gaussian mixed model was fit to the ADC histogram and the mean of the lower ADC curve, was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported.||1.26|0.79|0.9700
92341559|NCT00902577|184584524|OTHER||Hazard Ratio (HR)|0.99||||0.9007|TWO_SIDED|95.0|0.91|1.09|||Regression, Cox|||Apparent Diffusion Coefficient (ADC) measures water diffusion through tissue. Cerebral infarction leads to diffusion restriction resulting in a low ADC signal in the infarcted area. A double Gaussian mixed model was fit to the ADC histogram and the mean of the higher ADC curve, was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported.||1.09|0.91|0.9007
92341560|NCT00902577|184584525|OTHER||Hazard Ratio (HR)|1.24||||0.33|TWO_SIDED|95.0|0.8|1.91|||Regression, Cox|||"FMISO selectively binds to hypoxic tissues so that SUVpeak within a region provides a measure of tumor hypoxia.~This marker was modeled with a univariate Cox regression model for Progression Free Survival time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.91|.80|0.33
92217110|NCT00701090|184334357|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin was 0.4%, i.e., Sitagliptin was declared non-inferior to glimepiride if the upper limit of the two-sided 95% confidence interval for the between group difference (sitagliptin minus glimepiride) was less than 0.4%|Mean Difference (Net)|0.07|STANDARD_DEVIATION|0.7|||TWO_SIDED|95.0|-0.03|0.16|||||ANCOVA model with terms: treatment, country, and baseline HbA1c.|||0.16|-0.03|
92217111|NCT00701090|184334358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9|STANDARD_DEVIATION|28.8|||TWO_SIDED|95.0|-0.9|6.7|||||ANCOVA model terms: treatment, country, and baseline.|||6.7|-0.9|
92217112|NCT00701090|184334359|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-15.0|||<|0.001|TWO_SIDED|95.0|-19.3|-10.9|||Miettinen &Nurminen method||Miettinen \&Nurminen method was used for the 95% confidence interval|||-10.9|-19.3|<0.001
92217113|NCT00701090|184334360|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_DEVIATION|2.9|<|0.001|TWO_SIDED|95.0|-2.3|-1.6|||ANCOVA|Model terms: treatment, country, and baseline.|ANCOVA model terms: treatment, country, and baseline.|||-1.6|-2.3|<0.001
92217114|NCT00701090|184334361|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.47|0.9|||||The parameter estimate and 95% CI represent the odds of having A1C \<7.0% at Week 30 in the Sitagliptin group vs. the Glimepiride group, computed using a logistic regression model controlling for treatment, country and baseline A1C.|||0.90|0.47|
92157096|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|2.0||0.047|TWO_SIDED|95.0|-8.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-8.0|0.047
92157097|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-11.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-11.0|<0.001
92157098|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.1||0.34|TWO_SIDED|95.0|-6.0|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-6.0|0.34
92157099|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.1||0.46|TWO_SIDED|95.0|-6.0|3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.0|-6.0|0.46
92157100|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-12.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-12.0|<0.001
92157101|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|2.2||0.03|TWO_SIDED|95.0|-9.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-9.0|0.030
92217115|NCT00701090|184334362|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.47|0.95|||||The parameter estimate and 95% CI represent the odds of having A1C \<6.5% at Week 30 in the Sitagliptin group vs. the Glimepiride group, computed using a logistic regression model controlling for treatment, country and baseline A1C.|||0.95|0.47|
92217116|NCT01576172|184334379|SUPERIORITY|||||||0.27|||||||Chi-squared|||||||0.27
92217117|NCT01576172|184334380|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|t=-0.39 on 112.7 degrees of freedom (Satterthwaite)||||||0.70
92217118|NCT01576172|184334381|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
92217119|NCT01576172|184334382|SUPERIORITY|||||||0.99|||||||Log Rank|||||||0.99
92217120|NCT01576172|184334383|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
92217121|NCT00303979|184334391|SUPERIORITY_OR_OTHER||Relative Improvement (%)|8.4|||<|0.001|TWO_SIDED|95.0|7.0|9.7|||a large sample test (z-test)|||Performance Measure #1: relative change in % of eligible patients treated with angiotensin converting enzyme inhibitor and/or angiotensin II receptor blockers (ACEU/ARB).||9.7|7.0|<0.001
92217122|NCT00303979|184334391|SUPERIORITY_OR_OTHER||Relative improvement (%)|8.6|||<|0.001|TWO_SIDED|95.0|7.7|9.6|||a large sample test (z-test)|||Performance Measure #2: relative change in % of eligible patients treated with beta-blockers.||9.6|7.7|<0.001
92217123|NCT00303979|184334391|SUPERIORITY_OR_OTHER||Relative improvement (%)|79.7|||<|0.001|TWO_SIDED|95.0|70.5|89.0|||a large sample test (z-test)|||Performance Measure #3: relative change in % of eligible patients treated with aldosterone receptor antagonists.||89.0|70.5|<0.001
92217124|NCT00303979|184334391|SUPERIORITY_OR_OTHER||Relative Improvement (%)|1.0||||0.546|TWO_SIDED|95.0|-2.2|4.2|||a large sample test (z-test)|||Performance Measure #4: relative change in % of eligible patients treated with anticoagulation for AF.||4.2|-2.2|0.546
92217125|NCT00303979|184334391|SUPERIORITY_OR_OTHER||Relative Improvement (%)|81.9|||<|0.001|TWO_SIDED|95.0|72.2|91.7|||a large sample test (z-test)|||Performance Measure #5: relative change in % of eligible patients treated with cardiac resynchronization therapy (CRT-P/CRT-D).||91.7|72.2|<0.001
92217126|NCT00303979|184334391|SUPERIORITY_OR_OTHER||Relative Improvement (%)|62.1|||<|0.001|TWO_SIDED|95.0|59.1|65.1|||a large sample test (z-test)|||Performance Measure #6: relative change in % of eligible patients treated with implantable cardioverter-defibrillator (ICD) or CRT-D.||65.1|59.1|<0.001
92217127|NCT00303979|184334391|SUPERIORITY_OR_OTHER||Relative Improvement (%)|14.7|||<|0.001|TWO_SIDED|95.0|12.6|16.8|||a large sample test (z-test)|||Performance Measure #7: relative change in % of eligible patients with HF education.||16.8|12.6|<0.001
92217128|NCT00303979|184334393|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|19.4||||0.004|TWO_SIDED|95.0|-1.1|39.8|||t-test, 2 sided|||Performance Measure #1: Relative change at 24 months compared with baseline in ACEI/ARB for the aggregate practices.||39.8|-1.1|0.004
92217129|NCT00303979|184334393|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|7.6|||<|0.001|TWO_SIDED|95.0|5.1|10.2|||t-test, 2 sided|||Performance Measure #2: the relative change at 24 months compared with baseline in beta-blockers for the aggregate practices.||10.2|5.1|<0.001
92217130|NCT00303979|184334393|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|30.0|||<|0.001|TWO_SIDED|95.0|24.6|35.5|||t-test, 2 sided|||Performance Measure #3: the relative change at 24 months compared with baseline in aldosterone antagonist for the aggregate practices.||35.5|24.6|<0.001
92275033|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.36|||||TWO_SIDED|95.0|-14.59|23.3||||||For change in health care satisfaction at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||23.30|-14.59|
92341561|NCT00902577|184584525|OTHER||Hazard Ratio (HR)|0.93||||0.72|TWO_SIDED|95.0|0.61|1.4|||Regression, Cox|||T/Bmax is the pixel in the tumor region with the maximum tumor:blood ratio (T/Bmax) and T/Bmax depicts the magnitude of the hypoxia TBmax was modeled with a univariate Cox regression model for PFS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported.||1.4|.61|0.72
92157102|NCT02886728|184200576|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|2.2|<|0.001|TWO_SIDED|95.0|-12.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-12.0|<0.001
92341562|NCT00902577|184584525|OTHER||Hazard Ratio (HR)|1.01||||0.355|TWO_SIDED|95.0|0.98|1.04|||Regression, Cox|||"Hypoxia Volume (HV) depicts the volume of tumor that has crossed the threshold for hypoxia.~Hypoxic Volume (HV) was modeled with a univariate Cox regression model for PFS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.04|.98|0.355
92341563|NCT00902577|184584525|OTHER||Hazard Ratio (HR)|1.1||||0.074|TWO_SIDED|95.0|0.99|1.23|||Regression, Cox|||"ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Mean ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model.~Mean ktrans was modeled with a univariate Cox regression model for PFS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.23|0.99|0.074
92341564|NCT00902577|184584525|OTHER||Hazard Ratio (HR)|1.3||||0.021|TWO_SIDED|95.0|1.04|1.63|||Regression, Cox|||"ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Median ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model.~Median ktrans was modeled with a univariate Cox regression model for PFS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.63|1.04|0.021
92341565|NCT00902577|184584525|OTHER||Hazard Ratio (HR)|1.28||||0.0096|TWO_SIDED|95.0|1.06|1.54|||Regression, Cox|||"Relative cerebral blood volume (RCBV) maps, computed from the integral of ∆R2\*(t), were corrected for leakage effects and normalized to normal appearing white matter (nRCBV); nRCBV provides a measure of tumor vasculature and was modeled with a univariate Cox regression model for PFS time.~The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.54|1.06|0.0096
92341566|NCT00902577|184584525|OTHER||Hazard Ratio (HR)|1.18||||0.038|TWO_SIDED|95.0|1.01|1.38|||Regression, Cox|||"cerebral blood flow (CBF) maps were was normalized to the mean of the region of interest (ROI) in normal appearing white matter to produce the nCBF and provide another measure of vascular permeability and perfusion.~nCBF was modeled with a univariate Cox regression model for PFS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.38|1.01|0.038
92341567|NCT00902577|184584525|OTHER||Odds Ratio (OR)|0.682||||0.3253|TWO_SIDED|95.0|0.318|1.463|||Regression, Logistic|||Logistic regression for SUVpeak to predict PFS6||1.463|0.318|0.3253
92341568|NCT00902577|184584525|OTHER||Odds Ratio (OR)|0.991||||0.9836|TWO_SIDED|95.0|0.403|2.434|||Regression, Logistic|||TBmax was modeled with a univariate logistic regression model for PFS6.||2.434|0.403|0.9836
92341569|NCT00902577|184584525|OTHER||Odds Ratio (OR)|0.957||||0.1566|TWO_SIDED|95.0|0.9|1.017|||Regression, Logistic|||Hypoxic Volume (HV) was modeled with a logistic regression model for 6month progression free survival (PFS6) .||1.017|0.900|0.1566
92341570|NCT00902577|184584525|OTHER||Odds Ratio (OR)|0.993||||0.9554|TWO_SIDED|95.0|0.775|1.273|||Regression, Logistic|||"Mean ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model.~Mean ktrans was modeled with a univariate logistic regression model for PFS6."||1.273|0.775|0.9554
92341571|NCT00902577|184584525|OTHER||Odds Ratio (OR)|0.919||||0.6941|TWO_SIDED|95.0|0.602|1.402|||Regression, Logistic|||"Median ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model.~Median ktrans was modeled with a univariate logistic regression model for PFS6"||1.402|0.602|0.6941
92341572|NCT00902577|184584525|OTHER||Odds Ratio (OR)|0.744||||0.134|TWO_SIDED|95.0|0.506|1.095|||Regression, Logistic|||"Relative cerebral blood volume (RCBV) maps were corrected for leakage effects and normalized to normal appearing white matter (nRCBV).~nRCBV was modeled with a univariate logistic regression model for PFS6."||1.095|0.506|0.1340
92341573|NCT00902577|184584525|OTHER||Odds Ratio (OR)|0.821||||0.2642|TWO_SIDED|95.0|0.58|1.161|||Regression, Logistic|||"cerebral blood flow (CBF) maps were was normalized to the mean of the region of interest (ROI) in normal appearing white matter to produce the nCBF.~nCBF was modeled with a univariate logistic regression model for PFS6."||1.161|0.580|0.2642
92341574|NCT00902577|184584525|OTHER||Odds Ratio (OR)|0.855||||0.5069|TWO_SIDED|95.0|0.539|1.357|||Regression, Logistic|||Apparent Diffusion Coefficient (ADC) low values were modeled with a univariate logistic regression model for PFS6||1.357|0.539|0.5069
92341575|NCT00902577|184584525|OTHER||Odds Ratio (OR)|0.884||||0.1921|TWO_SIDED|95.0|0.735|1.064|||Regression, Logistic|||Apparent Diffusion Coefficient (ADC) high values were modeled with a univariate Logistic regression model for PFS6||1.064|0.735|0.1921
92341576|NCT00902577|184584525|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.61|||||TWO_SIDED|95.0|0.42|0.79||||||"FMISO selectively binds to hypoxic tissues so that SUVpeak within a region provides a measure of tumor hypoxia.~Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of this marker to predict PFS9."||0.79|0.42|
92341577|NCT00902577|184584525|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.59|||||TWO_SIDED|95.0|0.39|0.78||||||"T/Bmax is the pixel in the tumor region with the maximum tumor:blood ratio (T/Bmax) and T/Bmax depicts the magnitude of the hypoxia.~Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of this marker to predict PFS9."||0.78|0.39|
92405598|NCT02215252|184701383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|90.0|-0.49|0.67||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.67|-0.49|
92341578|NCT00902577|184584525|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.64|||||TWO_SIDED|95.0|0.46|0.83||||||"Hypoxia Volume (HV) depicts the volume of tumor that has crossed the threshold for hypoxia.~Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of this marker to predict PFS9."||0.83|0.46|
92157103|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-10.78|STANDARD_ERROR_OF_MEAN|0.983|<|0.001|TWO_SIDED|95.0|-12.71|-8.85||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.85|-12.71|<0.001
92157104|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-8.76|STANDARD_ERROR_OF_MEAN|1.207|<|0.001|TWO_SIDED|95.0|-11.13|-6.39||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.39|-11.13|<0.001
92157105|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-9.64|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-12.0|-7.29||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.29|-12.00|<0.001
92157106|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-9.92|STANDARD_ERROR_OF_MEAN|0.884|<|0.001|TWO_SIDED|95.0|-11.65|-8.19||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.19|-11.65|<0.001
92157107|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-8.34|STANDARD_ERROR_OF_MEAN|1.086|<|0.001|TWO_SIDED|95.0|-10.47|-6.21||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.21|-10.47|<0.001
92157108|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-7.33|STANDARD_ERROR_OF_MEAN|1.08|<|0.001|TWO_SIDED|95.0|-9.45|-5.21||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.21|-9.45|<0.001
92157109|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-5.98|STANDARD_ERROR_OF_MEAN|0.808|<|0.001|TWO_SIDED|95.0|-7.56|-4.39||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.39|-7.56|<0.001
92157110|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-4.21|STANDARD_ERROR_OF_MEAN|0.987|<|0.001|TWO_SIDED|95.0|-6.14|-2.27||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.27|-6.14|<0.001
92157111|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-4.34|STANDARD_ERROR_OF_MEAN|0.993|<|0.001|TWO_SIDED|95.0|-6.29|-2.39||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.39|-6.29|<0.001
92157112|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-5.27|STANDARD_ERROR_OF_MEAN|1.003|<|0.001|TWO_SIDED|95.0|-7.24|-3.31||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.31|-7.24|<0.001
92217131|NCT00303979|184334393|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|1.0||||0.513||95.0|-3.6|5.5|||t-test, 2 sided|||Performance Measure #4: the relative change at 24 months compared with baseline in anticoagulation for AF for the aggregate practices.||5.5|-3.6|0.513
92217132|NCT00303979|184334393|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|48.4|||<|0.001|TWO_SIDED|95.0|37.9|58.8|||t-test, 2 sided|||Performance Measure #5: the relative change at 24 months compared with baseline in CRT-P/CRT-D for the aggregate practices.||58.8|37.9|<0.001
92217133|NCT00303979|184334393|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|70.9|||<|0.001|TWO_SIDED|95.0|61.0|80.8|||t-test, 2 sided|||Performance Measure #6: the relative change at 24 months compared with baseline in ICD/CRT-D for the aggregate practices.||80.8|61.0|<0.001
92405599|NCT02215252|184701383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-1.05|0.13||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.13|-1.05|
92341579|NCT00902577|184584525|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.62|||||TWO_SIDED|95.0|0.42|0.83||||||"mean ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of mean ktrans to predict PFS9."||0.83|0.42|
92405600|NCT02215252|184701384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-1.09|0.39||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.39|-1.09|
92157113|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-3.29|STANDARD_ERROR_OF_MEAN|1.222||0.007|TWO_SIDED|95.0|-5.68|-0.89||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.89|-5.68|0.007
92157114|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-4.61|STANDARD_ERROR_OF_MEAN|1.229|<|0.001|TWO_SIDED|95.0|-7.02|-2.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.20|-7.02|<0.001
92157115|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-3.44|STANDARD_ERROR_OF_MEAN|0.974|<|0.001|TWO_SIDED|95.0|-5.35|-1.53||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.53|-5.35|<0.001
92157116|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.18||0.004|TWO_SIDED|95.0|-5.72|-1.09||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.09|-5.72|0.004
92157117|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-2.12|STANDARD_ERROR_OF_MEAN|1.18||0.072|TWO_SIDED|95.0|-4.44|0.19||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.19|-4.44|0.072
92157118|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-4.79|STANDARD_ERROR_OF_MEAN|0.789|<|0.001|TWO_SIDED|95.0|-6.34|-3.24||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.24|-6.34|<0.001
92157119|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-3.01|STANDARD_ERROR_OF_MEAN|0.957||0.002|TWO_SIDED|95.0|-4.88|-1.13||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.13|-4.88|0.002
92157120|NCT02886728|184200577|SUPERIORITY||Least Squares Mean Difference|-3.77|STANDARD_ERROR_OF_MEAN|0.957|<|0.001|TWO_SIDED|95.0|-5.65|-1.89||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.89|-5.65|<0.001
92157121|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|19.7|||<|0.001|TWO_SIDED|95.0|12.8|26.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2||26.7|12.8|<0.001
92157122|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|16.3|||<|0.001|TWO_SIDED|95.0|7.6|25.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2||25.0|7.6|<0.001
92157123|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|11.7||||0.004|TWO_SIDED|95.0|3.0|20.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2||20.4|3.0|0.004
92157124|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|18.5|||<|0.001|TWO_SIDED|95.0|11.7|25.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||25.2|11.7|<0.001
92157125|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|7.1||||0.083|TWO_SIDED|95.0|-1.6|15.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||15.8|-1.6|0.083
92405601|NCT02215252|184701384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-1.0|0.51||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.51|-1.00|
92157126|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|14.7|||<|0.001|TWO_SIDED|95.0|6.4|23.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||23.1|6.4|<0.001
92157127|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|10.6|||<|0.001|TWO_SIDED|95.0|4.4|16.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||16.7|4.4|<0.001
92157128|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|4.7||||0.22|TWO_SIDED|95.0|-3.1|12.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||12.6|-3.1|0.22
92157129|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|4.3||||0.25|TWO_SIDED|95.0|-3.6|12.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||12.1|-3.6|0.25
92157130|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|2.7||||0.35|TWO_SIDED|95.0|-3.5|8.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||8.9|-3.5|0.35
92157131|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|4.6||||0.2|TWO_SIDED|95.0|-2.9|12.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||12.1|-2.9|0.20
92217134|NCT00303979|184334393|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|50.6|||<|0.001|TWO_SIDED|95.0|27.1|74.2|||t-test, 2 sided|||Performance Measure #7: the relative change at 24 months compared with baseline in HF education for the aggregate practices.||74.2|27.1|<0.001
92217135|NCT00303979|184334393|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|19.2|||<|0.001|TWO_SIDED|95.0|16.3|22.0|||t-test, 2 sided|||Composite Score: The relative change at 24 months compared with baseline in composite score for the aggregate practices.||22.0|16.3|<0.001
92217136|NCT00303979|184334394|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|10.3||||0.197|TWO_SIDED|95.0|-5.4|25.9|||t-test, 2 sided|||Performance Measure #1: the relative change of Cohort B (6 months) compared with Cohort A at baseline in ACEI/ARB for the aggregate practices.||25.9|-5.4|0.197
92341580|NCT00902577|184584525|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.64|||||TWO_SIDED|95.0|0.44|0.84||||||"Median ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of Median ktrans to predict PFS9."||0.84|0.44|
92405602|NCT02215252|184701385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|2.92|||TWO_SIDED|90.0|-5.12|4.57||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||4.57|-5.12|
92157132|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|3.1||||0.36|TWO_SIDED|95.0|-4.5|10.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||10.6|-4.5|0.36
92157133|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|6.3||||0.043|TWO_SIDED|95.0|-0.2|12.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36||12.8|-0.2|0.043
92157134|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|9.4||||0.015|TWO_SIDED|95.0|1.6|17.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36||17.2|1.6|0.015
92157135|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|6.5||||0.085|TWO_SIDED|95.0|-1.5|14.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36||14.4|-1.5|0.085
92157136|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|9.9||||0.002|TWO_SIDED|95.0|3.2|16.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||16.6|3.2|0.002
92157137|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|10.5||||0.01|TWO_SIDED|95.0|2.3|18.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||18.7|2.3|0.010
92217137|NCT00303979|184334394|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|10.6||||0.061|TWO_SIDED|95.0|-0.5|21.7|||t-test, 2 sided|||Performance Measure #2: the relative change of Cohort B (6 months) compared with Cohort A at baseline in beta-blockers for the aggregate practices.||21.7|-0.5|0.061
92217138|NCT00303979|184334394|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|-1.1||||0.622|TWO_SIDED|95.0|-5.7|3.4|||t-test, 2 sided|||Performance Measure #3: the relative change of Cohort B (6 months) compared with Cohort A at baseline in aldosterone antagonist for the aggregate practices.||3.4|-5.7|0.622
92217139|NCT00303979|184334394|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|6.2||||0.05|TWO_SIDED|95.0|0.0|12.4|||t-test, 2 sided|||Performance Measure #4: the relative change of Cohort B (6 months) compared with Cohort A at baseline in anticoagulation for AF for the aggregate practices.||12.4|0.0|0.05
92217140|NCT00303979|184334394|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|-1.8||||0.711|TWO_SIDED|95.0|-11.2|7.7|||t-test, 2 sided|||Performance Measure #5: the relative change of Cohort B (6 months) compared with Cohort A at baseline in CRT-P/CRT-D for the aggregate practices.||7.7|-11.2|0.711
92217141|NCT00303979|184334394|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|14.4|||<|0.001|TWO_SIDED|95.0|6.9|22.0|||t-test, 2 sided|||Performance Measure #6: the relative change of Cohort B (6 months) compared with Cohort A at baseline in ICD/CRT-D for the aggregate practices.||22.0|6.9|<0.001
92217142|NCT00303979|184334394|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|38.5|||<|0.001|TWO_SIDED|95.0|23.2|53.8|||t-test, 2 sided|||Performance Measure #7: the relative change of Cohort B (6 months) compared with Cohort A at baseline in HF education for the aggregate practices.||53.8|23.2|<0.001
92217143|NCT00303979|184334394|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|6.6|||<|0.001|TWO_SIDED|95.0|4.2|9.0|||t-test, 2 sided|||Composite Score: the relative change of Cohort B (6 months) compared with Cohort A at baseline in composite score for the aggregate practices.||9.0|4.2|<0.001
92217144|NCT00303979|184334395|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|10.5||||0.19|TWO_SIDED|95.0|-5.3|26.3|||t-test, 2 sided|||Performance Measure #1: the relative change of Cohort C (18 months) compared with Cohort A at baseline in ACEI/ARB for the aggregate practices.||26.3|-5.3|0.190
92217145|NCT00303979|184334395|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|14.3||||0.048|TWO_SIDED|95.0|0.1|28.4|||t-test, 2 sided|||Performance Measure #2: the relative change of Cohort C (18 months) compared with Cohort A at baseline in beta-blockers for the aggregate practices.||28.4|0.1|0.048
92217146|NCT00303979|184334395|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|5.8||||0.24|TWO_SIDED|95.0|-3.9|15.4|||t-test, 2 sided|||Performance Measure #3: the relative change of Cohort C (18 months) compared with Cohort A at baseline in aldosterone antagonist for the aggregate practices.||15.4|-3.9|0.240
92217147|NCT00303979|184334395|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|6.7||||0.033|TWO_SIDED|95.0|0.5|13.0|||t-test, 2 sided|||Performance Measure #4: the relative change of Cohort C (18 months) compared with Cohort A at baseline in anticoagulation for AF for the aggregate practices.||13.0|0.5|0.033
92217148|NCT00303979|184334395|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|9.3||||0.085|TWO_SIDED|95.0|-1.3|19.8|||t-test, 2 sided|||Performance Measure #5: the relative change of Cohort C (18 months) compared with Cohort A at baseline in CRT-P/CRT-D for the aggregate practices.||19.8|-1.3|0.085
92217149|NCT00303979|184334395|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|17.6|||<|0.001|TWO_SIDED|95.0|9.3|25.8|||t-test, 2 sided|||Performance Measure #6: the relative change of Cohort C (18 months) compared with Cohort A at baseline in ICD/CRT-D for the aggregate practices.||25.8|9.3|<0.001
92217150|NCT00303979|184334395|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|59.5|||<|0.001|TWO_SIDED|95.0|33.9|85.2|||t-test, 2 sided|||Performance Measure #7: the relative change of Cohort C (18 months) compared with Cohort A at baseline in HF education for the aggregate practices.||85.2|33.9|<0.001
92341581|NCT00902577|184584525|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.72|||||TWO_SIDED|95.0|0.54|0.89||||||nRCBV provides a measure of tumor vasculature Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of this marker to predict PFS9.||0.89|0.54|
92341582|NCT00902577|184584525|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.72|||||TWO_SIDED|95.0|0.55|0.89||||||nCBF provides a measure of vascular permeability and perfusion. Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of this marker to predict PFS9.||0.89|0.55|
92157138|NCT02886728|184200578|SUPERIORITY||Difference in Response Rates|9.6||||0.014|TWO_SIDED|95.0|1.4|17.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||17.8|1.4|0.014
92157139|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.9|-0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-0.9|<0.001
92157140|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.7|-0.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.4|-0.7|<0.001
92217151|NCT00303979|184334395|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|10.6|||<|0.001|TWO_SIDED|95.0|7.6|13.6|||t-test, 2 sided|||Composite Score: the relative change of Cohort C (18 months) compared with Cohort A at baseline in composite score for the aggregate practices.||13.6|7.6|<0.001
92217152|NCT01958788|184334396|SUPERIORITY_OR_OTHER||Cohen's d effect size|2.06|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
92217153|NCT01958788|184334396|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.34|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
92217154|NCT01958788|184334396|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.37|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
92217155|NCT01958788|184334397|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.32|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
92217156|NCT01958788|184334397|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.29|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
92217157|NCT01958788|184334397|SUPERIORITY_OR_OTHER||Cohen's d effect size|-0.15|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
92217158|NCT01958788|184334398|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.72|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment follow-up||||
92275034|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.19|||||TWO_SIDED|95.0|-37.53|-4.85||||||For change in sexual functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||-4.85|-37.53|
92341583|NCT04456686|184584562|SUPERIORITY||Posterior Mean Difference|-0.03|||||TWO_SIDED|95.0|-0.77|0.7|||Bayesian Mixed Model Analysis|||||0.70|-0.77|
92157141|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.9|-0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-0.9|<0.001
92157142|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-1.1|-0.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.8|-1.1|<0.001
92217159|NCT01958788|184334398|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.66|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
92217160|NCT01958788|184334398|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.07|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
92217161|NCT01958788|184334399|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.13|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
92341584|NCT04456686|184584563|SUPERIORITY||Posterior Mean Difference|0.58|||||TWO_SIDED|95.0|-0.82|1.96|||Bayesian Mixed Model Analysis|||||1.96|-0.82|
92341585|NCT04456686|184584564|SUPERIORITY||Posterior Mean Difference|0.1|||||TWO_SIDED|95.0|-0.45|0.63|||Bayesian Mixed Model Analysis|||||0.63|-0.45|
92341586|NCT04456686|184584565|SUPERIORITY||Posterior Mean Difference|0.9|||||TWO_SIDED|95.0|-3.31|5.06|||Bayesian Mixed Model Analysis|||||5.06|-3.31|
92341587|NCT04456686|184584566|SUPERIORITY||Posterior Mean Difference|0.03|||||TWO_SIDED|95.0|-0.46|0.5|||Bayesian Mixed Model Analysis|||||0.50|-0.46|
92341588|NCT04456686|184584567|SUPERIORITY||Posterior Mean Difference|0.11|||||TWO_SIDED|95.0|-0.72|0.91|||Bayesian Mixed Model Analysis|||||0.91|-0.72|
92217162|NCT01958788|184334399|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.06|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
92217163|NCT01958788|184334399|SUPERIORITY_OR_OTHER||Cohen's d effect size|-0.18|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
92217164|NCT01958788|184334400|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.41|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
92217165|NCT01958788|184334400|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.65|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
92217166|NCT01958788|184334400|SUPERIORITY_OR_OTHER||Cohen's d effect size|-0.7|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
92217167|NCT01958788|184334401|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.64|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
92217168|NCT01958788|184334401|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.47|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
92217169|NCT01958788|184334401|SUPERIORITY_OR_OTHER||Cohen's d effect size|-0.56|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
92217170|NCT01958788|184334402|SUPERIORITY_OR_OTHER||Cohen's d effect size|2.08|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
92217171|NCT01958788|184334402|SUPERIORITY_OR_OTHER||Cohen's d effect size|2.15|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
92217172|NCT01958788|184334402|SUPERIORITY_OR_OTHER||Cohen's d effect size|-0.55|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
92227298|NCT01688050|184356878|OTHER|The primary safety endpoint of this study is analyzed using only descriptive statistics and it is not analyzed for the purpose of statistical inference|All-cause mortality rate (%)|2.0|||||TWO_SIDED|95.0|0.0|5.88|||||Wald method|||5.88|0|
92341589|NCT04456686|184584568|SUPERIORITY||Posterior Mean Difference|2.45|||||TWO_SIDED|95.0|-7.27|12.2|||Bayesian Mixed Model Analysis|||||12.20|-7.27|
92341590|NCT04456686|184584569|SUPERIORITY||Posterior Mean Difference|0.4|||||TWO_SIDED|95.0|-0.04|0.85|||Bayesian Mixed Model Analysis|||||0.85|-0.04|
92341591|NCT04456686|184584570|SUPERIORITY||Posterior Mean Difference|168.61|||||TWO_SIDED|95.0|-38.22|379.2|||Bayesian Mixed Model Analysis|||||379.20|-38.22|
92341592|NCT04456686|184584571|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.07|0.06|||Bayesian Mixed Model Analysis|||||0.06|-0.07|
92341593|NCT01039467|184584583|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92341594|NCT01039467|184584584|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92341595|NCT01039467|184584585|SUPERIORITY_OR_OTHER_LEGACY|||||||0.833||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.833
92341596|NCT01039467|184584586|SUPERIORITY_OR_OTHER_LEGACY|||||||0.265||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.265
92341597|NCT01039467|184584587|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
92217173|NCT00962390|184334403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.4678|TWO_SIDED|95.0|-0.5|1.1||Statistical testing was 2-sided and the 5% significant level was used.|ANCOVA|The ANCOVA included Baseline as covariate and factors for treatment and site.|S-equol treatment group minus placebo group.|Week 4, Treatment Effect||1.1|-0.5|0.4678
92341598|NCT01039467|184584588|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92341599|NCT01039467|184584589|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0008
92341600|NCT01039467|184584590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.053||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.053
92341601|NCT01039467|184584591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.493||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.493
92341602|NCT03575702|184584599|NON_INFERIORITY|The non-inferiority margin is considered as change in mean daily urination episodes of 0,8 episodes per day|Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.34|=|0.5595|ONE_SIDED|95.0||0.38|||ANCOVA|The number of urination episodes at the initiation of therapy is used as covariate, and the therapy group is used as a factor.||"The null hypothesis is that effect of Urotol according to the assessment of mean daily urination episodes exceeds effect of Uritos.~A sample containing of 222 patients (111 per study group) is considered sufficient to prove the alternative hypothesis at the significance level 0.025% and study power 80%. Given the expected drop out rate during the treatment period, the total number of patients to be randomized is 300 (150 in each group)."||0.38||=0.5595
92341603|NCT03575702|184584600|OTHER||||||=|0.0008|||||||ANCOVA|||||||=0.0008
92341604|NCT03575702|184584601|OTHER||||||=|0.0099|||||||ANCOVA|||||||=0.0099
92399120|NCT00286442|184689862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111||||0.467|TWO_SIDED|95.0|-0.188|0.41||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.410|-0.188|0.467
92157143|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.9|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-0.9|<0.001
92157144|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-1.0|-0.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.7|-1.0|<0.001
92157145|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-1.0|-0.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.7|-1.0|<0.001
92157146|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.8|-0.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.4|-0.8|<0.001
92157147|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.9|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-0.9|<0.001
92217174|NCT00962390|184334403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.4892|TWO_SIDED|95.0|-0.5|1.1||Statistical testing was 2-sided and the 5% significant level was used.|ANCOVA|The ANCOVA included Baseline as covariate and factors for treatment and site.|S-equol treatment group minus placebo group.|Week 4, Treatment Effect||1.1|-0.5|0.4892
92227299|NCT01688050|184356879|OTHER|The primary safety endpoint of this study is analyzed using only descriptive statistics and it is not analyzed for the purpose of statistical inference|Aortic injury-related mortality rate (%)|0.0|||||TWO_SIDED|95.0|0.0|7.1|||||Exact method|||7.1|0|
92341605|NCT03575702|184584602|OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92341606|NCT03575702|184584603|OTHER||||||<|0.0001|||||||ANCOVA|Changes in number of daily incontinence episodes - week 2||||||<0.0001
92341607|NCT03575702|184584603|OTHER||||||=|0.0236|||||||ANCOVA|Changes in number of daily incontinence episodes - week 4||||||=0.0236
92341608|NCT03575702|184584603|OTHER||||||<|0.0001|||||||ANCOVA|Changes in number of daily incontinence episodes - week 8||||||<0.0001
92341609|NCT03575702|184584603|OTHER||||||=|0.0018|||||||ANCOVA|Changes in daytime number of daily incontinence episodes - week 2||||||=0.0018
92341610|NCT03575702|184584603|OTHER||||||=|0.3835|||||||ANCOVA|Changes in daytime number of daily incontinence episodes - week 4||||||=0.3835
92341611|NCT03575702|184584603|OTHER||||||=|0.0088|||||||ANCOVA|Changes in daytime number of daily incontinence episodes - week 8||||||=0.0088
92341612|NCT03575702|184584603|OTHER||||||=|0.0004|||||||ANCOVA|Changes in nighttime number of daily incontinence episodes - week 2||||||=0.0004
92341613|NCT03575702|184584603|OTHER||||||<|0.0001|||||||ANCOVA|Changes in nighttime number of daily incontinence episodes - week 4||||||<0.0001
92405603|NCT02215252|184701385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.61|STANDARD_ERROR_OF_MEAN|2.99|||TWO_SIDED|90.0|-10.57|-0.66||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||-0.66|-10.57|
92399121|NCT00286442|184689863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.187||||0.243|TWO_SIDED|95.0|-0.127|0.501||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.501|-0.127|0.243
92399122|NCT00286442|184689863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.279||||0.083|TWO_SIDED|95.0|-0.037|0.595||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.595|-0.037|0.083
92399123|NCT00286442|184689864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155||||0.321|TWO_SIDED|95.0|-0.152|0.463||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.463|-0.152|0.321
92399124|NCT00286442|184689864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.268||||0.089|TWO_SIDED|95.0|-0.041|0.577||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.577|-0.041|0.089
92399125|NCT00286442|184689865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144||||0.305|TWO_SIDED|95.0|-0.132|0.42||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.420|-0.132|0.305
92275035|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.82|||||TWO_SIDED|95.0|-25.04|9.4||||||For change in ascites at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||9.40|-25.04|
92341614|NCT03575702|184584603|OTHER||||||<|0.0001|||||||ANCOVA|Changes in nighttime number of daily incontinence episodes - week 8||||||<0.0001
92341615|NCT03575702|184584604|OTHER|||||||0.0008|||||||ANCOVA|||||||0.0008
92341616|NCT03575702|184584605|OTHER||||||=|0.1348|||||||ANCOVA|Week 2 changes||||||=0.1348
92399126|NCT00286442|184689865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191||||0.177|TWO_SIDED|95.0|-0.086|0.468||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.468|-0.086|0.177
92399127|NCT00286442|184689866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.394||||0.007|TWO_SIDED|95.0|0.107|0.68||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.680|0.107|0.007
92399128|NCT00286442|184689866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.263||||0.074|TWO_SIDED|95.0|-0.025|0.55||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.550|-0.025|0.074
92341617|NCT03575702|184584605|OTHER||||||=|0.3199|||||||ANCOVA|Week 4 changes||||||=0.3199
92341618|NCT03575702|184584605|OTHER||||||=|0.9537|||||||ANCOVA|Week 8 changes||||||=0.9537
92399129|NCT00286442|184689867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.15|||<|0.001|TWO_SIDED|95.0|2.117|17.864||no multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||17.864|2.117|<0.001
92399130|NCT00286442|184689867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.322||||0.002|TWO_SIDED|95.0|1.82|15.564||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||15.564|1.820|0.002
92399131|NCT00286442|184689868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.092|||<|0.001|TWO_SIDED|95.0|3.271|11.345||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||11.345|3.271|<0.001
92405604|NCT02215252|184701386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|90.0|0.34|1.45||||||Statistical analysis is only for Week 4. Proportional Odds Logistic Regression including all data up to week 4.||1.45|0.34|
92341619|NCT03575702|184584606|OTHER||||||=|0.5321|||||||t-test, 1 sided|Change week 12||||||=0.5321
92341620|NCT03575702|184584607|OTHER||||||=|0.4839|||||||t-test, 1 sided|Change week 12||||||=0.4839
92341621|NCT03575702|184584608|OTHER||||||=|0.86|||||||Chi-squared|||||||=0.86
92341622|NCT04585919|184584618|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|Generalized linear mixed effect model controlling for secular trend, patient sociodemographic and health characteristics||||||0.005
92341623|NCT04585919|184584619|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|Generalized linear mixed effect model controlling for secular trend, patient sociodemographic and health characteristics||||||0.19
92341624|NCT03519009|184584623|SUPERIORITY||Odds Ratio (OR)|3.4|||<|0.001|TWO_SIDED|95.0|1.8|6.3|||longitudinal logistic regression|||||6.3|1.8|<0.001
92341625|NCT03519009|184584624|SUPERIORITY||Odds Ratio (OR)|2.6|||<|0.001|TWO_SIDED|95.0|1.5|4.4|||longitudinal logistic regression|||||4.4|1.5|<0.001
92341626|NCT05559905|184584630|SUPERIORITY||Difference in Least Squares Mean|-0.29||||0.578|TWO_SIDED|90.0|-1.16|0.58|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The mean PVL in each group and the differences in mean PVL between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||0.58|-1.16|0.578
92157148|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.9|-0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-0.9|<0.001
92157149|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-0.7|<0.001
92341627|NCT05559905|184584631|SUPERIORITY||Difference in Least Squares Mean|-2.69||||0.201|TWO_SIDED|90.0|-6.17|-0.79|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) were included in the model. For both panels, only the participants with RSV infection were included in the analysis. The mean VL-AUC in each group and the differences in mean VL-AUC between MK-4482 and placebo and the corresponding 2-sided 95% CI were computed based on the linear model.||-0.79|-6.17|0.201
92341628|NCT05559905|184584637|SUPERIORITY||Difference in Least Squares Mean|-0.62||||0.736|TWO_SIDED|90.0|-3.65|2.42|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The mean VL-AUC in each group and the differences in mean VL-AUC between MK-4482 and placebo and the corresponding 2-sided 95% CI were computed based on the linear model.||2.42|-3.65|0.736
92341629|NCT05559905|184584638|SUPERIORITY||Difference in Least Squares Mean|-1.93||||0.646|TWO_SIDED|90.0|-8.88|5.02|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The mean VL-AUC in each group and the differences in mean VL-AUC between MK-4482 and placebo and the corresponding 2-sided 95% CI were computed based on the linear model.||5.02|-8.88|0.646
92341630|NCT05559905|184584639|SUPERIORITY||Difference in Least Squares Mean|-0.14||||0.849|TWO_SIDED|90.0|-1.31|1.04|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The mean PVL in each group and the differences in mean PVL between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||1.04|-1.31|0.849
92341631|NCT05559905|184584640|SUPERIORITY||Difference in Least Squares Mean|-2.09||||0.371|TWO_SIDED|90.0|-5.97|1.78|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The TSS-AUC in each group and the differences in mean TSS-AUC between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||1.78|-5.97|0.371
92341632|NCT05559905|184584641|SUPERIORITY||Difference in Least Squares Mean|-1.82||||0.36|TWO_SIDED|90.0|-5.11|1.47|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The TSS-AUC-CFB in each group and the differences in mean TSS-AUC-CFB between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||1.47|-5.11|0.360
92341633|NCT05559905|184584642|SUPERIORITY||Difference in Least Squares Mean|-0.46||||0.459|TWO_SIDED|90.0|-1.5|0.57|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The mean peak TSS in each group and the differences in mean peak TSS between MK-4482 and placebo and the corresponding 2- sided 95% CI was computed based on the linear model.||0.57|-1.50|0.459
92341634|NCT05559905|184584644|SUPERIORITY||Difference in Percent (%)|3.42|||||TWO_SIDED|95.0|-18.28|24.5||||||||24.50|-18.28|
92341635|NCT05559905|184584645|SUPERIORITY||Difference in Percent (%)|2.89|||||TWO_SIDED|95.0|-19.37|25.69||||||||25.69|-19.37|
92341636|NCT05559905|184584646|SUPERIORITY||Difference in Percent (%)|-2.63|||||TWO_SIDED|95.0|-25.07|19.91||||||||19.91|-25.07|
92341637|NCT05559905|184584647|SUPERIORITY||Difference in Percent (%)|-16.18|||||TWO_SIDED|95.0|-36.77|5.64||||||||5.64|-36.77|
92341638|NCT05559905|184584648|SUPERIORITY||Difference in Percent (%)|-2.89|||||TWO_SIDED|95.0|-25.69|19.37||||||||19.37|-25.69|
92341639|NCT05559905|184584649|SUPERIORITY||Difference in Least Squares Mean|-0.69||||0.253|TWO_SIDED|90.0|-1.68|0.31|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) are included in the model. For both panels, only the participants with RSV infection were included. The mean PVL in each group and the differences in mean PVL between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||0.31|-1.68|0.253
92341640|NCT05559905|184584650|SUPERIORITY||Hazard Ratio (HR)|1.72||||0.1708||95.0|0.83|3.57|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||3.57|0.83|0.1708
92341641|NCT05559905|184584651|SUPERIORITY||Difference in Least Squares Mean|-5.93||||0.257|TWO_SIDED|90.0|-14.61|2.75|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) are included in the model. For both panels, only the participants with RSV infection were included in the analysis. The mean VL-AUC in each group and the differences in mean VL-AUC between MK-4482 and placebo and the corresponding 2-sided 95% CI were computed based on the linear model.||2.75|-14.61|0.257
92341642|NCT05559905|184584652|SUPERIORITY||Difference in Least Squares Mean|-0.58||||0.453|TWO_SIDED|90.0|-1.88|0.71|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) are included in the model. For both panels, only the participants with RSV infection were included in the analysis. The mean PVL in each group and the differences in mean PVL between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||0.71|-1.88|0.453
92341643|NCT05559905|184584653|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.9121|TWO_SIDED|95.0|0.44|2.51|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||2.51|0.44|0.9121
92341644|NCT05559905|184584654|SUPERIORITY||Difference in Least Squares Mean|-1.83||||0.377|TWO_SIDED|90.0|-5.25|1.6|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) were included in the model. The TSS-AUC in each group and the differences in mean TSS-AUC between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||1.60|-5.25|0.377
92341645|NCT05559905|184584655|SUPERIORITY||Difference in Least Squares Mean|-0.13||||0.958|TWO_SIDED|90.0|-4.28|4.02|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) were included in the model. The TSS-AUC-CFB in each group and the differences in mean TSS-AUC-CFB between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||4.02|-4.28|0.958
92157150|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-0.7|<0.001
92157151|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.6|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-0.6|<0.001
92157152|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.033|TWO_SIDED|95.0|-0.4|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-0.4|0.033
92157153|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.2|-0.6|<0.001
92157154|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.8|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-0.8|<0.001
92157155|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.2|-0.6|<0.001
92217175|NCT00962390|184334403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.8185|TWO_SIDED|95.0|-0.8|1.0||Statistical testing was 2-sided and the 5% significant level was used.|ANCOVA|The ANCOVA included Baseline as covariate and factors for treatment and site.|S-equol treatment group minus placebo group.|Week 4, Treatment Effect||1.0|-0.8|0.8185
92275036|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.95|||||TWO_SIDED|95.0|-9.59|21.5||||||For change in indigestion at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||21.50|-9.59|
92341646|NCT05559905|184584656|SUPERIORITY||Difference in Least Squares Mean|-0.62||||0.52|TWO_SIDED|90.0|-2.21|0.98|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) are included in the model. For both panels, only the participants with RSV infection were included in the analysis. The mean peak TSS in each group and the differences in mean peak TSS between MK-4482 and placebo and the corresponding 2- sided 95% CI was computed based on the linear model.||0.98|-2.21|0.520
92341647|NCT05559905|184584658|SUPERIORITY||Hazard Ratio (HR)|2.24||||0.0459|TWO_SIDED|95.0|0.99|5.07|||Log Rank|Two-sided p-value based on log-rank test.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||5.07|0.99|0.0459
92405605|NCT02215252|184701386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|90.0|0.24|1.07||||||Statistical analysis is only for Week 4. Proportional Odds Logistic Regression including all data up to week 4.||1.07|0.24|
92157156|NCT02886728|184200579|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-0.7|<0.001
92217176|NCT01299376|184334423|SUPERIORITY_OR_OTHER||Difference in Least-squares Means|-5.9|||<|0.001|TWO_SIDED|95.0|-7.5|-4.2|||Contrained Longitudinal Data Analysis|Model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups.||||-4.2|-7.5|<0.001
92217177|NCT01299376|184334434|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-10.3|||<|0.001|TWO_SIDED|95.0|-12.8|-7.7||Model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups.|Constrained Longitudinal Data Analysis|||||-7.7|-12.8|<0.001
92405606|NCT02215252|184701387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-1.16|-0.02||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||-0.02|-1.16|
92217178|NCT00766090|184334435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108|||<|0.001|TWO_SIDED|95.0|0.064|0.153|||ANCOVA|||||0.153|0.064|<0.001
92275037|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.39|||||TWO_SIDED|95.0|-1.61|30.4||||||For change in flatulence at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||30.40|-1.61|
92275038|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|||||TWO_SIDED|95.0|2.78|22.22||||||For change in cachexia at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||22.22|2.78|
92405607|NCT02215252|184701387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-1.57|-0.43||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||-0.43|-1.57|
92157157|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|18.8|||<|0.001|TWO_SIDED|95.0|13.1|24.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||24.4|13.1|<0.001
92157158|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|11.7|||<|0.001|TWO_SIDED|95.0|4.7|18.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||18.6|4.7|<0.001
92217179|NCT00766090|184334435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|||<|0.001|TWO_SIDED|95.0|0.054|0.142|||ANCOVA|||||0.142|0.054|<0.001
92217180|NCT00766090|184334435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087||||0.02|TWO_SIDED|95.0|0.014|0.161|||ANCOVA|||||0.161|0.014|0.020
92217181|NCT00766090|184334435|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit of the confidence interval (0.025, 1-sided significance level) for the mean difference in trough FEV1 of FF 200 µg OD versus FF 100 µg BID was greater than -110 milliliters.|Mean Difference (Final Values)|0.011||||0.641|TWO_SIDED|95.0|-0.035|0.056|||ANCOVA|||||0.056|-0.035|0.641
92217182|NCT00766090|184334435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|||<|0.001|TWO_SIDED|95.0|0.059|0.205|||ANCOVA|||||0.205|0.059|<0.001
92217183|NCT03591354|184334527|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92217184|NCT02463071|184334619|SUPERIORITY||Mean Difference (Final Values)|-26.72|STANDARD_ERROR_OF_MEAN|4.96|<|0.0001|TWO_SIDED|95.0|-36.55|-16.88|||ANCOVA|Baseline TG and statin usage were included as covariates.||||-16.88|-36.55|<0.0001
92275039|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.88|||||TWO_SIDED|95.0|1.36|20.39||||||For change in side effects at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||20.39|1.36|
92157159|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|19.9|||<|0.001|TWO_SIDED|95.0|12.5|27.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||27.3|12.5|<0.001
92157160|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|27.2|||<|0.001|TWO_SIDED|95.0|20.5|33.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||33.9|20.5|<0.001
92217185|NCT02463071|184334619|SUPERIORITY||Mean Difference (Final Values)|-32.92|STANDARD_ERROR_OF_MEAN|5.04|<|0.0001|TWO_SIDED|95.0|-42.93|-22.92|||ANCOVA|Baseline TG and statin usage were included as covariates.||||-22.92|-42.93|<0.0001
92217186|NCT00617604|184334695|SUPERIORITY_OR_OTHER||Difference|3.9|||||TWO_SIDED|90.0|-2.5|10.3||||||||10.3|-2.5|
92217187|NCT00617604|184334696|SUPERIORITY_OR_OTHER||Difference|1.0|||||TWO_SIDED|90.0|-3.1|5.0||||||||5.0|-3.1|
92217188|NCT00617604|184334697|SUPERIORITY_OR_OTHER||Difference|3.0|||||TWO_SIDED|90.0|-4.0|10.1||||||||10.1|-4.0|
92217189|NCT00617604|184334698|SUPERIORITY_OR_OTHER||Difference|1.0|||||TWO_SIDED|90.0|-0.6|2.5||||||||2.5|-0.6|
92217190|NCT00617604|184334699|SUPERIORITY_OR_OTHER||Difference|-5.1|||||TWO_SIDED|90.0|-14.9|4.7||||||||4.7|-14.9|
92217191|NCT00617604|184334700|SUPERIORITY_OR_OTHER||Difference|-9.4|||||TWO_SIDED|90.0|-18.5|0.0||||||||0.0|-18.5|
92217192|NCT00617604|184334701|SUPERIORITY_OR_OTHER||Difference|-1.9|||||TWO_SIDED|90.0|-7.6|3.8||||||||3.8|-7.6|
92217193|NCT00617604|184334702|SUPERIORITY_OR_OTHER||Difference|-1.8|||||TWO_SIDED|90.0|-8.2|4.6||||||||4.6|-8.2|
92217194|NCT00617604|184334703|SUPERIORITY_OR_OTHER||Difference|1.9|||||TWO_SIDED|90.0|-1.3|5.0||||||||5.0|-1.3|
92217195|NCT00617604|184334704|SUPERIORITY_OR_OTHER||Difference|4.6|||||TWO_SIDED|90.0|-1.2|10.4||||||||10.4|-1.2|
92217196|NCT00617604|184334706|SUPERIORITY_OR_OTHER||Difference|2.0|||||TWO_SIDED|90.0|-3.3|7.2||||||||7.2|-3.3|
92217197|NCT00617604|184334711|SUPERIORITY_OR_OTHER||Slope|6.0|||||TWO_SIDED|90.0|-2.7|14.6||||||||14.6|-2.7|
92217198|NCT00617604|184334712|SUPERIORITY_OR_OTHER||Difference|-4.5|||||TWO_SIDED|90.0|-11.2|2.2||||||||2.2|-11.2|
92217199|NCT00617604|184334713|SUPERIORITY_OR_OTHER||Difference|5.2|||||TWO_SIDED|90.0|-4.4|14.7||||||||14.7|-4.4|
92217200|NCT04029961|184334715|OTHER|Multivariate regression model and intra-arm differences in measure scores between time points.|||||<|0.05||||||Multivariate regression was adjusted for covariates of study site, highest education level, prior chemotherapy, age, \& T stage. Random effects was adjusted for multiple measurements. Multiplicity corrections were conducted via Holm-Sidak method.|multivariate regression|||||||<0.05
92217201|NCT04029961|184334716|OTHER|Multivariate regression model and intra-arm differences in measure scores between time points.|||||<|0.05||||||Multivariate regression was adjusted for covariates of study site, highest education level, prior chemotherapy, age, \& T stage. Random effects was adjusted for multiple measurements. Multiplicity corrections were conducted via Holm-Sidak method.|multivariate regression|||||||<0.05
92217202|NCT04029961|184334717|OTHER|Multivariate regression model and intra-arm differences in measure scores between time points.|||||<|0.05||||||Multivariate regression was adjusted for covariates of study site, highest education level, prior chemotherapy, age, \& T stage. Random effects was adjusted for multiple measurements. Multiplicity corrections were conducted via Holm-Sidak method.|multivariate regression|||||||<0.05
92217203|NCT04029961|184334718|OTHER|Multivariate regression model and intra-arm differences in measure scores between time points.|||||<|0.05||||||Multivariate regression was adjusted for covariates of study site, highest education level, prior chemotherapy, age, \& T stage. Random effects was adjusted for multiple measurements. Multiplicity corrections were conducted via Holm-Sidak method.|multivariate regression|||||||<0.05
92227300|NCT01688050|184356880|OTHER|The primary effectiveness endpoint of this study is analyzed using only descriptive statistics and it is not analyzed for the purpose of statistical inference|Device success rate (%)|96.0|||||TWO_SIDED|95.0|90.6|100.0|||||Wald method|||100|90.6|
92275040|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33|||||TWO_SIDED|95.0|-16.36|11.71||||||For change in fear of future health at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||11.71|-16.36|
92157161|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|21.6|||<|0.001|TWO_SIDED|95.0|13.2|30.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||30.1|13.2|<0.001
92157162|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|19.5|||<|0.001|TWO_SIDED|95.0|11.1|27.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||27.9|11.1|<0.001
92157163|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|22.6|||<|0.001|TWO_SIDED|95.0|15.8|29.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||29.4|15.8|<0.001
92157164|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|16.6|||<|0.001|TWO_SIDED|95.0|8.1|25.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||25.2|8.1|<0.001
92157165|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|13.8|||<|0.001|TWO_SIDED|95.0|5.3|22.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||22.4|5.3|<0.001
92157166|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|21.4|||<|0.001|TWO_SIDED|95.0|14.6|28.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||28.2|14.6|<0.001
92157167|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|12.3||||0.003|TWO_SIDED|95.0|3.7|20.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||20.9|3.7|0.003
92157168|NCT02886728|184200580|SUPERIORITY||Difference in Response Rates|18.1|||<|0.001|TWO_SIDED|95.0|9.7|26.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||26.5|9.7|<0.001
92157169|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|6.3|||<|0.001|TWO_SIDED|95.0|3.4|9.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2||9.1|3.4|<0.001
92217204|NCT04029961|184334719|OTHER|"A univariate analysis comparing the proportion of each arm that indicated an item was met, evaluated for each item at each time point."|||||<|0.05|||||||Univariate analysis|||"The statistical test described below was only performed on the top 10 items on the scale rated the highest in importance by participants. The top 10 items were determined by computing the mean rating for each item (participants gave each item a rating from '1' - '9' with higher values representing greater importance) and selecting the 10 items with the largest mean values, excluding the item the radiation oncologist who will be treating me as that item was not addressed in either intervention."||||<0.05
92217205|NCT03086265|184334720|OTHER|||||||0.7934|||||||t-test, 2 sided|||||||0.7934
92157170|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|3.4||||0.01|TWO_SIDED|95.0|0.1|6.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2||6.7|0.1|0.010
92157171|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|9.0|||<|0.001|TWO_SIDED|95.0|4.5|13.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2||13.6|4.5|<0.001
92157172|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|11.8|||<|0.001|TWO_SIDED|95.0|7.4|16.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||16.1|7.4|<0.001
92157173|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|10.2|||<|0.001|TWO_SIDED|95.0|4.5|15.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||15.8|4.5|<0.001
92157174|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|14.7|||<|0.001|TWO_SIDED|95.0|8.6|20.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||20.8|8.6|<0.001
92157175|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|22.6|||<|0.001|TWO_SIDED|95.0|16.4|28.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||28.8|16.4|<0.001
92157176|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|14.8|||<|0.001|TWO_SIDED|95.0|7.1|22.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||22.5|7.1|<0.001
92275041|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.21|||||TWO_SIDED|95.0|-11.78|24.2||||||For change in ability to plan future at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||24.20|-11.78|
92157177|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|12.5|||<|0.001|TWO_SIDED|95.0|4.9|20.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||20.0|4.9|<0.001
92157178|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|18.3|||<|0.001|TWO_SIDED|95.0|11.4|25.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36||25.1|11.4|<0.001
92217206|NCT03086265|184334729|OTHER|||||||0.6876|||||||t-test, 2 sided|||||||0.6876
92217207|NCT03086265|184334730|OTHER|||||||0.7549|||||||t-test, 2 sided|||||||0.7549
92217208|NCT03086265|184334731|OTHER|||||||0.6479|||||||t-test, 2 sided|||||||0.6479
92217209|NCT03086265|184334732|OTHER|||||||0.8322|||||||t-test, 2 sided|||||||0.8322
92157179|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|7.7||||0.056|TWO_SIDED|95.0|-0.8|16.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36||16.1|-0.8|0.056
92157180|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|9.0||||0.023|TWO_SIDED|95.0|0.5|17.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36||17.4|0.5|0.023
92157181|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|21.9|||<|0.001|TWO_SIDED|95.0|15.1|28.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||28.7|15.1|<0.001
92157182|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|11.5||||0.004|TWO_SIDED|95.0|3.1|20.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||20.0|3.1|0.004
92341648|NCT01764841|184584683|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7331||||0.065|TWO_SIDED|97.5|0.5027|1.069|||Wald-type test|||The hazard ratio for time to first exacerbation event within 48 weeks and 97.5% Confidence Interval (CI) was calculated by using Cox proportional hazards model by comparison of Cipro 28/Pooled Placebo reporting groups. P-value was analysed using Wald-type test.||1.0690|0.5027|0.0650
92341649|NCT01764841|184584683|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5333||||0.0005|TWO_SIDED|97.5|0.3568|0.7971|||Wald-type test|||The hazard ratio for time to first exacerbation event within 48 weeks and 97.5% CI was calculated by using Cox proportional hazards model by comparison of Cipro 14/Pooled Placebo reporting groups. P-value was analysed using Wald-type test.||0.7971|0.3568|0.0005
92341650|NCT01764841|184584684|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.8615||||0.2944|TWO_SIDED|97.5|0.6264|1.1848|||Poisson regression|||A Poisson regression with adjustment for over-/under dispersion was used to analyze the number of exacerbation events over 48 weeks and to test the difference in the frequency of exacerbation between Ciprofloxacin DPI 28 and Pooled placebo group. P-value was analyzed using Wald-type test along with the incidence rate ratio of the comparison.||1.1848|0.6264|0.2944
92341651|NCT01764841|184584684|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.7329||||0.0382|TWO_SIDED|97.5|0.5237|1.0256|||Poisson regression|||A Poisson regression with adjustment for over-/under dispersion was used to analyze the number of exacerbation events over 48 weeks and to test the difference in the frequency of exacerbation between Ciprofloxacin DPI 14 and Pooled placebo group. P-value was analyzed using Wald-type test along with the incidence rate ratio of the comparison.||1.0256|0.5237|0.0382
92341652|NCT04863872|184584695|OTHER|Difference|Risk Ratio (RR)|0.72||||0.27|TWO_SIDED|95.0|0.39|1.3|||Poisson regression|Poisson regression with binary primary outcome, estimated using Generalized Estimating Equations (GEE) and robust variance estimation.||||1.30|0.39|0.27
92341653|NCT00549549|184584696|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.74|-0.18|||ANCOVA|||This was the primary analysis. The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group and region as factors, and the Patient's Assessment of Pain Intensity (for the prior 24 hours) at Baseline as a covariate.||-0.18|-0.74|
92399132|NCT00286442|184689868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.451|||<|0.001|TWO_SIDED|95.0|2.388|8.296||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||8.296|2.388|<0.001
92157183|NCT02886728|184200581|SUPERIORITY||Difference in Response Rates|14.7|||<|0.001|TWO_SIDED|95.0|6.3|23.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||23.1|6.3|<0.001
92157184|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|0.82|<|0.001|TWO_SIDED|95.0|-7.3|-4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.1|-7.3|<0.001
92157185|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|1.01|<|0.001|TWO_SIDED|95.0|-6.4|-2.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.4|-6.4|<0.001
92157186|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|1.01|<|0.001|TWO_SIDED|95.0|-7.7|-3.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.7|-7.7|<0.001
92341654|NCT00549549|184584696|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.52|0.04|||ANCOVA|||||0.04|-0.52|
92341655|NCT00549549|184584696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.29|0.84|||ANCOVA|||||0.84|0.29|
92341656|NCT00549549|184584696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.05|0.6|||ANCOVA|||||0.60|0.05|
92399133|NCT00286442|184689869|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.238|||<|0.001|TWO_SIDED|95.0|2.327|7.717||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||7.717|2.327|<0.001
92217210|NCT03086265|184334734|OTHER|||||||0.0058|||||||t-test, 2 sided|||||||0.0058
92217211|NCT03086265|184334735|OTHER|||||||0.3346|||||||t-test, 2 sided|||||||0.3346
92157187|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|0.83|<|0.001|TWO_SIDED|95.0|-8.9|-5.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.6|-8.9|<0.001
92341657|NCT00549549|184584696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.17|0.39|||ANCOVA|||||0.39|-0.17|
92341658|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.29|0.14|||ANCOVA|||Day 5 analysis. The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity (for the prior 24 hours) at Baseline as a covariate.||0.14|-0.29|
92341659|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.42|0.02|||ANCOVA|||Day 5 analysis||0.02|-0.42|
92405608|NCT02215252|184701388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|192.0|STANDARD_ERROR_OF_MEAN|816.0|||TWO_SIDED|90.0|-1161.0|1544.0||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||1544|-1161|
92157188|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|1.02|<|0.001|TWO_SIDED|95.0|-7.3|-3.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.3|-7.3|<0.001
92157189|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|1.02|<|0.001|TWO_SIDED|95.0|-7.8|-3.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.7|-7.8|<0.001
92157190|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|0.72|<|0.001|TWO_SIDED|95.0|-7.3|-4.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.4|-7.3|<0.001
92157191|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|-6.1|-2.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.7|-6.1|<0.001
92157192|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|-6.8|-3.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.4|-6.8|<0.001
92157193|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|-5.3|-2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.9|-5.3|<0.001
92157194|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.75|<|0.001|TWO_SIDED|95.0|-4.3|-1.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.3|-4.3|<0.001
92157195|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.75|<|0.001|TWO_SIDED|95.0|-4.4|-1.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.4|-4.4|<0.001
92157196|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|-3.4|-1.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.1|-3.4|<0.001
92217212|NCT03086265|184334736|OTHER|||||||0.5513|||||||t-test, 2 sided|||||||0.5513
92217213|NCT03086265|184334737|OTHER|||||||0.1927|||||||t-test, 2 sided|||||||0.1927
92217214|NCT03086265|184334738|OTHER|||||||0.6483|||||||t-test, 2 sided|||||||0.6483
92217215|NCT03086265|184334739|OTHER|||||||0.5625|||||||t-test, 2 sided|||||||0.5625
92217216|NCT03086265|184334740|OTHER|||||||0.2827|||||||t-test, 2 sided|||||||0.2827
92217217|NCT03086265|184334741|OTHER|||||||0.8426|||||||t-test, 2 sided|||||||0.8426
92217218|NCT03086265|184334742|OTHER|||||||0.9856|||||||t-test, 2 sided|||||||0.9856
92217219|NCT03086265|184334743|OTHER|||||||0.8112|||||||t-test, 2 sided|||||||0.8112
92157197|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.71||0.36|TWO_SIDED|95.0|-2.0|0.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.8|-2.0|0.36
92157198|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.72||0.009|TWO_SIDED|95.0|-3.3|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-3.3|0.009
92157199|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|-4.5|-2.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.2|-4.5|<0.001
92157200|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.69||0.042|TWO_SIDED|95.0|-2.7|-0.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.1|-2.7|0.042
92157201|NCT02886728|184200584|SUPERIORITY||Least Squares Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.69|<|0.001|TWO_SIDED|95.0|-3.7|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.7|<0.001
92157202|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|-8.5|-5.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.2|-8.5|<0.001
92157203|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-7.3|-3.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.3|-7.3|<0.001
92157204|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|1.03|<|0.001|TWO_SIDED|95.0|-8.8|-4.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.7|-8.8|<0.001
92157205|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|-9.9|-6.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.6|-9.9|<0.001
92157206|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-6.2|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-8.2|-4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.1|-8.2|<0.001
92217220|NCT03086265|184334744|OTHER|||||||0.6587|||||||t-test, 2 sided|||||||0.6587
92217221|NCT03086265|184334745|OTHER|||||||0.4143|||||||t-test, 2 sided|||||||0.4143
92217222|NCT03086265|184334746|OTHER|||||||0.4324|||||||t-test, 2 sided|||||||0.4324
92217223|NCT03086265|184334747|OTHER|||||||0.7221|||||||t-test, 2 sided|||Comparison of preoperative scores.||||0.7221
92217224|NCT03086265|184334747|OTHER|||||||0.0336|||||||t-test, 2 sided|||Comparison of postoperative scores.||||0.0336
92217225|NCT00688155|184334748|EQUIVALENCE|Two-sided test of mean differences from baseline.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.25||0.66|TWO_SIDED|||||Physical activity training versus no physical activity training;|ANOVA|||Marginal comparisons of physical activity training vs no physical activity training||||0.66
92217226|NCT00688155|184334748|EQUIVALENCE|Two-sided tests of mean differences from baseline.|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.26||0.55|TWO_SIDED|||||P-value for physical activity training is 0.55|ANOVA|||Marginal comparisons of physical activity training versus no physical activity training||||0.55
92275042|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.87|||||TWO_SIDED|95.0|0.79|28.94||||||For change in pancreatic pain at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||28.94|0.79|
92217227|NCT00688155|184334748|EQUIVALENCE|Two Sided Test of Mean Difference from baseline|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.25||0.95|TWO_SIDED||||||ANOVA|||Marginal comparisons of cognitive training versus no cognitive training||||0.95
92157207|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-8.5|-4.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.5|-8.5|<0.001
92157208|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|0.74|<|0.001|TWO_SIDED|95.0|-8.0|-5.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.1|-8.0|<0.001
92157209|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-6.5|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-6.5|<0.001
92157210|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-7.4|-3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.8|-7.4|<0.001
92157211|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-5.9|-3.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.4|-5.9|<0.001
92157212|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.78|<|0.001|TWO_SIDED|95.0|-4.6|-1.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.6|-4.6|<0.001
92157213|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.79|<|0.001|TWO_SIDED|95.0|-4.9|-1.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.9|-4.9|<0.001
92157214|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|-3.8|-1.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.4|-3.8|<0.001
92157215|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.74||0.23|TWO_SIDED|95.0|-2.4|0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.6|-2.4|0.23
92157216|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.75||0.005|TWO_SIDED|95.0|-3.6|-0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-3.6|0.005
92217228|NCT00688155|184334748|EQUIVALENCE|Two Sided Test of Mean Difference from baseline|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.26||0.48|TWO_SIDED||||||ANOVA|||Marginal comparisons of cognitive training versus no cognitive training||||0.48
92217229|NCT00688155|184334750|EQUIVALENCE|Two-sided tests of marginal means|Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.29||0.23|TWO_SIDED||||||ANOVA|||Marginal comparisons of physical activity training versus no physical activity training.||||0.23
92341660|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|0.04|0.47|||ANCOVA|||Day 5 analysis||0.47|0.04|
92341661|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.04|0.39|||ANCOVA|||Day 5 analysis||0.39|-0.04|
92341662|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.16|0.27|||ANCOVA|||Day 5 analysis||0.27|-0.16|
92341663|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.26|0.16|||ANCOVA|||Day 9 analysis||0.16|-0.26|
92341664|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.4|0.03|||ANCOVA|||Day 9 analysis||0.03|-0.40|
92341665|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.11|0.32|||ANCOVA|||Day 9 analysis||0.32|-0.11|
92341666|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.16|0.27|||ANCOVA|||Day 9 analysis||0.27|-0.16|
92341667|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.3|0.13|||ANCOVA|||Day 9 analysis||0.13|-0.30|
92341668|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.33|0.1|||ANCOVA|||Day 14/early termination analysis||0.10|-0.33|
92341669|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.53|-0.11|||ANCOVA|||Day 14/early termination analysis||-0.11|-0.53|
92341670|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.05|0.37|||ANCOVA|||Day /early termination analysis||0.37|-0.05|
92341671|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.17|0.25|||ANCOVA|||Day 14/early termination analysis||0.25|-0.17|
92341672|NCT00549549|184584697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.38|0.05|||ANCOVA|||Day 14/early termination analysis||0.05|-0.38|
92157217|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-5.0|-2.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.6|-5.0|<0.001
92341673|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.29|0.22|||ANCOVA|||Day 5 analysis. The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity (for the prior 24 hours) at Baseline as a covariate.||0.22|-0.29|
92341674|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.35|0.16|||ANCOVA|||Day 5 analysis.||0.16|-0.35|
92341675|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.17|0.34|||ANCOVA|||Day 5 analysis.||0.34|-0.17|
92341676|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.2|0.3|||ANCOVA|||Day 5 analysis.||0.30|-0.20|
92341677|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.26|0.25|||ANCOVA|||Day 5 analysis.||0.25|-0.26|
92217230|NCT00688155|184334750|EQUIVALENCE|Two Sided Test of Mean Difference from baseline|Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.29||0.42|TWO_SIDED||||||ANOVA|||Marginal comparisons of cognitive training versus no cognitive training||||0.42
92217231|NCT00445224|184334765|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||ANOVA|||||||.041
92341678|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.36|0.11|||ANCOVA|||Day 9 analysis.||0.11|-0.36|
92341679|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.44|0.04|||ANCOVA|||Day 9 analysis.||0.04|-0.44|
92341680|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.01|0.46|||ANCOVA|||Day 9 analysis.||0.46|-0.01|
92341681|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.14|0.33|||ANCOVA|||Day 9 analysis.||0.33|-0.14|
92341682|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.22|0.26|||ANCOVA|||Day 9 analysis.||0.26|-0.22|
92341683|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.38|0.1|||ANCOVA|||Day 14/early termination analysis||0.10|-0.38|
92341684|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.52|-0.04|||ANCOVA|||Day 14/early termination analysis||-0.04|-0.52|
92341685|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.08|0.39|||ANCOVA|||Day 14/early termination analysis||0.39|-0.08|
92341686|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.22|0.26|||ANCOVA|||Day 14/early termination analysis||0.26|-0.22|
92341687|NCT00549549|184584698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.36|0.12|||ANCOVA|||Day 14/early termination analysis||0.12|-0.36|
92341688|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6402|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.6402
92341689|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9739|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.9739
92341690|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4581|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.4581
92341691|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2962|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.2962
92341692|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4951|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.4951
92341693|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4957|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.4957
92341694|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8364|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.8364
92341695|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6892|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.6892
92341696|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.411|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.4110
92399134|NCT00286442|184689869|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.293|||<|0.001|TWO_SIDED|95.0|1.814|5.979|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||5.979|1.814|<0.001
92399135|NCT00286442|184689870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.103|||<|0.001|TWO_SIDED|95.0|2.428|6.934||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||6.934|2.428|<0.001
92399136|NCT00286442|184689870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.314|||<|0.001|TWO_SIDED|95.0|2.545|7.312||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||7.312|2.545|<0.001
92399137|NCT00286442|184689871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.601|||<|0.001|TWO_SIDED|95.0|2.554|12.282||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||12.282|2.554|<0.001
92157218|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.73||0.021|TWO_SIDED|95.0|-3.1|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-3.1|0.021
92341697|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5981|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.5981
92341698|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9317|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.9317
92341699|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0831|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.0831
92341700|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5747|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.5747
92217232|NCT00445224|184334766|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||ANOVA|||Repeated measures ANOVA for group and time||||.049
92399138|NCT00286442|184689871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.793|||<|0.001|TWO_SIDED|95.0|2.645|12.684||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||12.684|2.645|<0.001
92399139|NCT00286442|184689872|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.449||||0.085|TWO_SIDED|95.0|0.883|6.797||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||6.797|0.883|0.085
92399140|NCT00286442|184689872|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.958||||0.034|TWO_SIDED|95.0|1.087|8.046||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||8.046|1.087|0.034
92217233|NCT03184077|184334767|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
92217234|NCT03184077|184334768|SUPERIORITY|||||||0.62|||||||Chi-squared|||||||0.62
92217235|NCT03184077|184334769|SUPERIORITY|||||||0.01||||||This is a calculated p value|Chi-squared|||||||0.01
92217236|NCT04136184|184334770|SUPERIORITY||Difference in LS Mean|-24.7593||||1e-08|TWO_SIDED|95.0|-30.9552|-18.5635|||MMRM|||||-18.5635|-30.9552|0.00000001
92341701|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6204|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.6204
92217237|NCT04136184|184334771|SUPERIORITY||Difference in LS Mean|-19.7352||||1e-08|TWO_SIDED|95.0|-25.6301|-13.8403|||MMRM|||||-13.8403|-25.6301|0.00000001
92341702|NCT00549549|184584699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2556|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analysis||||0.2556
92341703|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1444|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.1444
92341704|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7532|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.7532
92341705|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4722|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.4722
92341706|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3878|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.3878
92341707|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6717|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.6717
92341708|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3098|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.3098
92341709|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4356|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.4356
92341710|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5703|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.5703
92341711|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4986|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.4986
92341712|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7855|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.7855
92341713|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0169|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.0169
92341714|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1353|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.1353
92217238|NCT04136184|184334772|SUPERIORITY||Difference in LS Mean|-70.42||||1e-08|TWO_SIDED|95.0|-75.17|-65.66|||MMRM|||||-65.66|-75.17|0.00000001
92217239|NCT04136184|184334773|SUPERIORITY||Difference in LS Mean|-66.65||||1e-08|TWO_SIDED|95.0|-71.59|-61.71|||MMRM|||||-61.71|-71.59|0.00000001
92217240|NCT04136184|184334774|SUPERIORITY||Difference in LS Mean|-9.3542||||0.00012203|TWO_SIDED|95.0|-13.8691|-4.8394|||MMRM|||||-4.8394|-13.8691|0.00012203
92217241|NCT04136184|184334775|SUPERIORITY||Difference in LS Mean|-11.8202||||1.873e-05|TWO_SIDED|95.0|-16.8927|-6.7477|||MMRM|||||-6.7477|-16.8927|0.00001873
92217242|NCT04136184|184334776|SUPERIORITY||Difference in LS Mean|-3.94||||0.00052447|TWO_SIDED|95.0|-6.08|-1.8|||MMRM|||Week 35||-1.80|-6.08|0.00052447
92217243|NCT04136184|184334776|SUPERIORITY||Difference in LS Mean|-8.21||||1e-08|TWO_SIDED|95.0|-10.65|-5.76|||MMRM|||Week 66||-5.76|-10.65|0.00000001
92341715|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.369|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.3690
92341716|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0787|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.0787
92341717|NCT00549549|184584700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5687|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.5687
92399141|NCT00286442|184689873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.404||||0.639|TWO_SIDED|95.0|0.34|5.803||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||5.803|0.340|0.639
92157219|NCT02886728|184200585|SUPERIORITY||Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.73|<|0.001|TWO_SIDED|95.0|-4.3|-1.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.4|-4.3|<0.001
92157220|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|7.6||||0.006|TWO_SIDED|95.0|2.2|12.9||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0.5||12.9|2.2|0.006
92217244|NCT04136184|184334777|SUPERIORITY||Difference in LS Mean|5.305||||5.58e-06|TWO_SIDED|95.0|3.195|7.416|||MMRM|||||7.416|3.195|0.00000558
92217245|NCT04136184|184334778|SUPERIORITY||Difference in LS Mean|-0.2||||0.02407897|TWO_SIDED|95.0|-0.4|0.0|||MMRM|||||-0.0|-0.4|0.02407897
92217246|NCT04136184|184334779|SUPERIORITY||Difference in LS Mean|82.6991||||2e-07|TWO_SIDED|95.0|54.6431|110.7551|||MMRM|||||110.7551|54.6431|0.00000020
92217247|NCT01499953|184334784|NON_INFERIORITY|The hypotheses for non-inferiority test using ∆=4.5% for the difference between incidence rates were H0: πrivaroxaban-πfondaparinux ≥ 4.5%, H1: πrivaroxaban-πfondaparinux \< 4.5% where πfondaparinux and πrivaroxaban were the incidence rates of CIAC confirmed VTE complications up to Day 45 in the treatment groups. Rejection of the null hypothesis would have concluded that rivaroxaban was not inferior to fondaparinux. To calculate the p-value, an asymptotic test for non-inferiority was used.||||||0.0252|||||||asymptotic test for non-inferiority|||||||0.0252
92217248|NCT03734016|184334799|NON_INFERIORITY|Non-inferiority testing for ORR was performed using a stratified Wald test based on the stratified Mantel-Haenszel response ratio estimate against the non-inferiority margin of 0.8558 on the log scale.|Response ratio|1.12|||<|0.0001|TWO_SIDED|95.0|1.04|1.22|||Stratified Wald test|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)|Response ratio is the estimated ratio of the overall response rate of the zanubrutinib arm divided by that of the ibrutinib arm.|||1.22|1.04|<0.0001
92217249|NCT03734016|184334799|SUPERIORITY|||||||0.0035||||||Superiority testing was performed using a 2-sided stratified Cochran-Mantel-Haenszel test.|Cochran-Mantel-Haenszel|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)||||||0.0035
92217250|NCT03734016|184334800|NON_INFERIORITY|Non-inferiority testing for ORR was performed using a stratified Wald test based on the stratified Mantel-Haenszel response ratio estimate against the non-inferiority margin of 0.8558 on the log scale.|Response ratio|1.14|||<|0.0001|TWO_SIDED|95.0|1.05|1.22|||Stratified Wald test|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)|Response ratio is the estimated ratio of the overall response rate of the zanubrutinib arm divided by that of the ibrutinib arm.|||1.22|1.05|<0.0001
92275043|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.49|||||TWO_SIDED|95.0|-7.45|34.42||||||For change in eating related items at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||34.42|-7.45|
92341718|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|||The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular), region and treatment group as factors, and the Patient's Assessment of Pain Intensity at Baseline as a covariate.||-0.10|-0.60|
92341719|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.75|-0.25|||ANCOVA|||Day 1 analyses||-0.25|-0.75|
92341720|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.29|0.78|||ANCOVA|||Day 1 analyses||0.78|0.29|
92341721|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.06|0.44|||ANCOVA|||Day 1 analyses||0.44|-0.06|
92341722|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.21|0.28|||ANCOVA|||Day 1 analyses||0.28|-0.21|
92157221|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|4.9||||0.16|TWO_SIDED|95.0|-1.8|11.6||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0.5||11.6|-1.8|0.16
92157222|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|7.6||||0.029|TWO_SIDED|95.0|1.1|14.1||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0.5||14.1|1.1|0.029
92157223|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|8.1||||0.015|TWO_SIDED|95.0|1.6|14.6||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0||14.6|1.6|0.015
92157224|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|4.2||||0.33|TWO_SIDED|95.0|-3.9|12.2||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0||12.2|-3.9|0.33
92157225|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|10.2||||0.013|TWO_SIDED|95.0|2.5|17.9||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0||17.9|2.5|0.013
92157226|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|3.6||||0.074|TWO_SIDED|95.0|-0.3|7.6||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= SDC (1.53)||7.6|-0.3|0.074
92157227|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|1.9||||0.49|TWO_SIDED|95.0|-3.1|6.9||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= SDC (1.53)||6.9|-3.1|0.49
92157228|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|4.4||||0.075|TWO_SIDED|95.0|-0.2|8.9||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24 for Change in mTSS \<= SDC (1.53)||8.9|-0.2|0.075
92157229|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|10.2|||<|0.001|TWO_SIDED|95.0|4.3|16.2||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0.5||16.2|4.3|<0.001
92157230|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|7.9||||0.045|TWO_SIDED|95.0|0.7|15.2||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0.5||15.2|0.7|0.045
92217251|NCT03734016|184334800|SUPERIORITY|Superiority testing was performed using a 2-sided stratified Cochran-Mantel-Haenszel test.||||||0.0007|||||||Cochran-Mantel-Haenszel|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)||||||0.0007
92157231|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|6.5||||0.1|TWO_SIDED|95.0|-1.1|14.0||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0.5||14.0|-1.1|0.100
92157232|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|10.0||||0.004|TWO_SIDED|95.0|3.2|16.7||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0||16.7|3.2|0.004
92157233|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|5.5||||0.25|TWO_SIDED|95.0|-2.9|14.0||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0||14.0|-2.9|0.25
92157234|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|6.5||||0.14|TWO_SIDED|95.0|-2.0|15.0||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0||15.0|-2.0|0.14
92157235|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|7.5||||0.002|TWO_SIDED|95.0|2.8|12.3||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= SDC (1.77)||12.3|2.8|0.002
92157236|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|8.2||||0.008|TWO_SIDED|95.0|2.9|13.6||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= SDC (1.77)||13.6|2.9|0.008
92157237|NCT02886728|184200586|SUPERIORITY||Difference in Response Rates|2.5||||0.47|TWO_SIDED|95.0|-3.9|8.9||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52 for Change in mTSS \<= SDC (1.77)||8.9|-3.9|0.47
92157238|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|95.0|2.4|4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.1|2.4|<0.001
92275044|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.86|||||TWO_SIDED|95.0|0.17|37.55||||||For change in altered bowel habits at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||37.55|0.17|
92157239|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.55||0.001|TWO_SIDED|95.0|0.7|2.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.8|0.7|0.001
92157240|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|1.3|3.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.4|1.3|<0.001
92157241|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|0.54|<|0.001|TWO_SIDED|95.0|2.7|4.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.8|2.7|<0.001
92157242|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.66||0.008|TWO_SIDED|95.0|0.5|3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.0|0.5|0.008
92157243|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.66||0.023|TWO_SIDED|95.0|0.2|2.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.8|0.2|0.023
92157244|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.59||0.003|TWO_SIDED|95.0|0.6|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|0.6|0.003
92157245|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.71||0.38|TWO_SIDED|95.0|-0.8|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-0.8|0.38
92157246|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.72||0.59|TWO_SIDED|95.0|-1.0|1.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.8|-1.0|0.59
92157247|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|1.6|4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.0|1.6|<0.001
92157248|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.76||0.11|TWO_SIDED|95.0|-0.3|2.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.7|-0.3|0.11
92157249|NCT02886728|184200588|SUPERIORITY||Least Squares Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.76||0.071|TWO_SIDED|95.0|-0.17|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|-0.17|0.071
92217252|NCT03734016|184334801|NON_INFERIORITY|Non-inferiority was tested with a non-inferiority margin (hazard ratio) of 1.33 with the use of a stratified Wald test based on the four randomization stratification factors.|Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.49|0.86|||Stratified Wald test|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)|Hazard ratio is the ratio of the hazard of the zanubrutinib arm divided by that of the ibrutinib arm.|||0.86|0.49|<0.0001
92217253|NCT03734016|184334801|SUPERIORITY|||||||0.0024|||||||Stratified Log-rank test|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)||||||0.0024
92275045|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.57|||||TWO_SIDED|95.0|0.66|22.48||||||For change in jaundice at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||22.48|0.66|
92157250|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|1.6|3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.8|1.6|<0.001
92157251|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.7||0.032|TWO_SIDED|95.0|0.1|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|0.1|0.032
92157252|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.0|3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.8|1.0|<0.001
92157253|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.6||0.023|TWO_SIDED|95.0|0.2|2.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.6|0.2|0.023
92157254|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.74||0.065|TWO_SIDED|95.0|-0.1|2.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.8|-0.1|0.065
92157255|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.74||0.15|TWO_SIDED|95.0|-0.4|2.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.5|-0.4|0.15
92157256|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.64||0.73|TWO_SIDED|95.0|-1.0|1.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.5|-1.0|0.73
92157257|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.78||0.37|TWO_SIDED|95.0|-0.8|2.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.2|-0.8|0.37
92157258|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.78||0.83|TWO_SIDED|95.0|-1.7|1.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.4|-1.7|0.83
92157259|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.66||0.073|TWO_SIDED|95.0|-0.1|2.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.5|-0.1|0.073
92157260|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.8||0.09|TWO_SIDED|95.0|-0.2|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|-0.2|0.090
92157261|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.81||0.68|TWO_SIDED|95.0|-1.9|1.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.2|-1.9|0.68
92275046|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.72|||||TWO_SIDED|95.0|0.49|36.95||||||For change in body image at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||36.95|0.49|
92275047|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.61|||||TWO_SIDED|95.0|-32.4|11.17||||||For change in health care satisfaction at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||11.17|-32.40|
92399142|NCT00286442|184689873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.959||||0.956|TWO_SIDED|95.0|0.218|4.223||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||4.223|0.218|0.956
92399143|NCT00286442|184689874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.439|TWO_SIDED|95.0|-0.63|0.27||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.27|-0.63|0.439
92399144|NCT00286442|184689874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.075|TWO_SIDED|95.0|-0.86|0.04||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.04|-0.86|0.075
92399145|NCT00286442|184689875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.305|TWO_SIDED|95.0|-0.26|0.83||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.83|-0.26|0.305
92399146|NCT00286442|184689875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.788|TWO_SIDED|95.0|-0.63|0.47||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.47|-0.63|0.788
92399147|NCT00286442|184689876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.93|TWO_SIDED|95.0|-0.58|0.63||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.63|-0.58|0.930
92399148|NCT00286442|184689876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.559|TWO_SIDED|95.0|-0.79|0.43||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.43|-0.79|0.559
92399149|NCT00286442|184689877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.996|TWO_SIDED|95.0|-0.66|0.66||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.66|-0.66|0.996
92399150|NCT00286442|184689877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.407|TWO_SIDED|95.0|-0.94|0.38||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.38|-0.94|0.407
92399151|NCT00079040|184689888|SUPERIORITY_OR_OTHER||Percentage|63.5|||||TWO_SIDED|90.0|52.4|73.6||||||||73.6|52.4|
92157262|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.67||0.3|TWO_SIDED|95.0|-0.6|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-0.6|0.30
92157263|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.82||0.69|TWO_SIDED|95.0|-1.3|1.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.9|-1.3|0.69
92399152|NCT00467740|184689935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.045||0.0754||95.0|-0.008|0.167|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.167|-0.008|0.0754
92399153|NCT00467740|184689935|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.045||0.0571||95.0|-0.003|0.174|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.174|-0.003|0.0571
92399154|NCT00467740|184689935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.076|STANDARD_ERROR_OF_MEAN|0.045||0.0906||95.0|-0.012|0.164|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.164|-0.012|0.0906
92399155|NCT00467740|184689935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.044||0.0011||95.0|0.059|0.234|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.234|0.059|0.0011
92399156|NCT00467740|184689936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.238|STANDARD_ERROR_OF_MEAN|7.843||0.0393||95.0|0.801|31.675|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||31.675|0.801|0.0393
92275048|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32|||||TWO_SIDED|95.0|-14.63|17.27||||||For change in sexual functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||17.27|-14.63|
92399157|NCT00467740|184689936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.878|STANDARD_ERROR_OF_MEAN|7.875||0.0005||95.0|12.379|43.378|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||43.378|12.379|0.0005
92399158|NCT00467740|184689936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.072|STANDARD_ERROR_OF_MEAN|7.906|<|0.0001||95.0|20.512|51.633|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||51.633|20.512|<0.0001
92157264|NCT02886728|184200590|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.82||0.95|TWO_SIDED|95.0|-1.7|1.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.5|-1.7|0.95
92157265|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|0.58|<|0.001|TWO_SIDED|95.0|2.1|4.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.4|2.1|<0.001
92157266|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.1|3.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.9|1.1|<0.001
92341723|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.52|0.04|||ANCOVA|||Day 2 analyses||0.04|-0.52|
92341724|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.74|-0.18|||ANCOVA|||Day 2 analyses||-0.18|-0.74|
92341725|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.29|0.84|||ANCOVA|||Day 2 analyses||0.84|0.29|
92341726|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.05|0.6|||ANCOVA|||Day 2 analyses||0.60|0.05|
92341727|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.17|0.39|||ANCOVA|||Day 2 analyses||0.39|-0.17|
92341728|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.53|0.03|||ANCOVA|||Day 3 analyses||0.03|-0.53|
92341729|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.83|-0.26|||ANCOVA|||Day 3 analyses||-0.26|-0.83|
92399159|NCT00467740|184689936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.943|STANDARD_ERROR_OF_MEAN|7.848|<|0.0001||95.0|27.498|58.389|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||58.389|27.498|<0.0001
92399160|NCT00467740|184689937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.044||0.1264||95.0|-0.019|0.154|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.154|-0.019|0.1264
92341730|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.32|0.88|||ANCOVA|||Day 3 analyses||0.88|0.32|
92341731|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.08|0.64|||ANCOVA|||Day 3 analyses||0.64|0.08|
92341732|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.22|0.34|||ANCOVA|||Day 3 analyses||0.34|-0.22|
92341733|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.56|0.0|||ANCOVA|||Day 4 analyses||-0.00|-0.56|
92341734|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.84|-0.28|||ANCOVA|||Day 4 analyses||-0.28|-0.84|
92341735|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.35|0.9|||ANCOVA|||Day 4 analyses||0.90|0.35|
92341736|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.07|0.62|||ANCOVA|||Day 4 analyses||0.62|0.07|
92341737|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.21|0.34|||ANCOVA|||Day 4 analyses||0.34|-0.21|
92341738|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.64|-0.07|||ANCOVA|||Day 5 analyses||-0.07|-0.64|
92341739|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.94|-0.38|||ANCOVA|||Day 5 analyses||-0.38|-0.94|
92341740|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.37|0.93|||ANCOVA|||Day 5 analyses||0.93|0.37|
92341741|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.02|0.57|||ANCOVA|||Day 5 analyses||0.57|0.02|
92341742|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.29|0.27|||ANCOVA|||Day 5 analyses||0.27|-0.29|
92341743|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.65|-0.1|||ANCOVA|||Day 6 analyses||-0.10|-0.65|
92341744|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.84|-0.29|||ANCOVA|||Day 6 analyses||-0.29|-0.84|
92217254|NCT03734016|184334802|NON_INFERIORITY|Noninferiority was tested with a noninferiority margin (hazard ratio) of 1.33 with the use of a stratified Wald test based on the four randomization stratification factors.|Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.49|0.86||Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)|Stratified Wald test||Hazard ratio is the ratio of the hazard of the zanubrutinib arm divided by that of the ibrutinib arm.|||0.86|0.49|<0.0001
92341745|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.56|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.29|0.83|||ANCOVA|||Day 6 analyses||0.83|0.29|
92341746|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.08|0.46|||ANCOVA|||Day 6 analyses||0.46|-0.08|
92341747|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.28|0.26|||ANCOVA|||Day 6 analyses||0.26|-0.28|
92341748|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.61|-0.04|||ANCOVA|||Day 7 analyses||-0.04|-0.61|
92341749|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.92|-0.34|||ANCOVA|||Day 7 analyses||-0.34|-0.92|
92341750|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.21|0.78|||ANCOVA|||Day 7 analyses||0.78|0.21|
92341751|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.11|0.45|||ANCOVA|||Day 7 analyses||0.45|-0.11|
92341752|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.42|0.15|||ANCOVA|||Day 7 analyses||0.15|-0.42|
92217255|NCT03734016|184334802|SUPERIORITY|||||||0.0024|||||||Stratified Log-rank test|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)||||||0.0024
92341753|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.57|0.0|||ANCOVA|||Day 8 analyses||-0.00|-0.57|
92341754|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.84|-0.27|||ANCOVA|||Day 8 analyses||-0.27|-0.84|
92341755|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.14|0.7|||ANCOVA|||Day 8 analyses||0.70|0.14|
92341756|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.15|0.41|||ANCOVA|||Day 8 analyses||0.41|-0.15|
92341757|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.42|0.14|||ANCOVA|||Day 8 analyses||0.14|-0.42|
92341758|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.61|-0.02|||ANCOVA|||Day 9 analyses||-0.02|-0.61|
92341759|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.82|-0.23|||ANCOVA|||Day 9 analyses||-0.23|-0.82|
92341760|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|0.18|0.76|||ANCOVA|||Day 9 analyses||0.76|0.18|
92341761|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.13|0.44|||ANCOVA|||Day 9 analyses||0.44|-0.13|
92341762|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.35|0.23|||ANCOVA|||Day 9 analyses||0.23|-0.35|
92341763|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.59|0.01|||ANCOVA|||Day 10 analyses||0.01|-0.59|
92341764|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.76|-0.16|||ANCOVA|||Day 10 analyses||-0.16|-0.76|
92341765|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|0.1|0.69|||ANCOVA|||Day 10 analyses||0.69|0.10|
92341766|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.18|0.41|||ANCOVA|||Day 10 analyses||0.41|-0.18|
92341767|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.36|0.23|||ANCOVA|||Day 10 analyses||0.23|-0.36|
92341768|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.56|0.05|||ANCOVA|||Day 11 analyses||0.05|-0.56|
92341769|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.77|-0.17|||ANCOVA|||Day 11 analyses||-0.17|-0.77|
92341770|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|0.1|0.69|||ANCOVA|||Day 11 analyses||0.69|0.10|
92341771|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.16|0.44|||ANCOVA|||Day 11 analyses||0.44|-0.16|
92341772|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.37|0.23|||ANCOVA|||Day 11 analyses||0.23|-0.37|
92341773|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.53|0.09|||ANCOVA|||Day 12 analyses||0.09|-0.53|
92341774|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.77|-0.15|||ANCOVA|||Day 12 analyses||-0.15|-0.77|
92341775|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.04|0.57|||ANCOVA|||Day 12 analyses||0.57|-0.04|
92341776|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.25|0.36|||ANCOVA|||Day 12 analyses||0.36|-0.25|
92341777|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.5|0.11|||ANCOVA|||Day 12 analyses||0.11|-0.50|
92341778|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.56|0.07|||ANCOVA|||Day 13/Early Termination analyses||0.07|-0.56|
92217256|NCT03734016|184334803|SUPERIORITY||Rate Difference|-8.0||||0.0004|TWO_SIDED|95.0|-12.4|-3.6|||Chi-squared||Rate difference is the zanubrutinib rate minus the ibrutinib rate.|||-3.6|-12.4|0.0004
92341779|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.81|-0.19|||ANCOVA|||Day 13/Early Termination analyses||-0.19|-0.81|
92341780|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.1|0.51|||ANCOVA|||Day 13/Early Termination analyses||0.51|-0.10|
92341781|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.35|0.26|||ANCOVA|||Day 13/Early Termination analyses||0.26|-0.35|
92341782|NCT00549549|184584701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.6|0.01|||ANCOVA|||Day 13/Early Termination analyses||0.01|-0.60|
92341783|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.28|0.14|||ANCOVA|||The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity at Baseline as a covariate.||0.14|-0.28|
92341784|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.39|0.03|||ANCOVA|||Day 1, 2 hours postdose||0.03|-0.39|
92341785|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|0.11|0.52|||ANCOVA|||Day 1, 2 hours postdose||0.52|0.11|
92341786|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|0.04|0.45|||ANCOVA|||Day 1, 2 hours postdose||0.45|0.04|
92399161|NCT00467740|184689937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.044||0.0232||95.0|0.014|0.188|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.188|0.014|0.0232
92399162|NCT00467740|184689937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.044||0.0106||95.0|0.027|0.2|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.200|0.027|0.0106
92217257|NCT03734016|184334806|OTHER||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.41|0.72|||||Hazard ratio is the ratio of the hazard of the zanubrutinib arm divided by that of the ibrutinib arm.|||0.72|0.41|
92341787|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.08|0.34|||ANCOVA|||Day 1, 2 hours postdose||0.34|-0.08|
92341788|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.37|0.08|||ANCOVA|||Day 1, 4 hours postdose||0.08|-0.37|
92341789|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.48|-0.03|||ANCOVA|||Day 1, 4 hours postdose||-0.03|-0.48|
92341790|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|0.14|0.58|||ANCOVA|||Day 1, 4 hours postdose||0.58|0.14|
92341791|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|0.0|0.44|||ANCOVA|||Day 1, 4 hours postdose||0.44|0.00|
92341792|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.11|0.34|||ANCOVA|||Day 1, 4 hours postdose||0.34|-0.11|
92341793|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.32|0.17|||ANCOVA|||Day 1, 8 hours postdose||0.17|-0.32|
92341794|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.56|-0.06|||ANCOVA|||Day 1, 8 hours postdose||-0.06|-0.56|
92341795|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|0.18|0.67|||ANCOVA|||Day 1, 8 hours postdose||0.67|0.18|
92341796|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|0.11|0.59|||ANCOVA|||Day 1, 8 hours postdose||0.59|0.11|
92341797|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.13|0.36|||ANCOVA|||Day 1, 8 hours postdose||0.36|-0.13|
92341798|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.42|0.1|||ANCOVA|||Day 1, 12 hours postdose||0.10|-0.42|
92341799|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.63|-0.11|||ANCOVA|||Day 1, 12 hours postdose||-0.11|-0.63|
92341800|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.19|0.7|||ANCOVA|||Day 1, 12 hours postdose||0.70|0.19|
92341801|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.03|0.55|||ANCOVA|||Day 1, 12 hours postdose||0.55|0.03|
92399163|NCT00467740|184689937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.044||0.0001||95.0|0.087|0.26|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.260|0.087|0.0001
92341802|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.18|0.34|||ANCOVA|||Day 1, 12 hours postdose||0.34|-0.18|
92341803|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.46|0.07|||ANCOVA|||Day 2, 0 hours postdose||0.07|-0.46|
92341804|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.57|-0.04|||ANCOVA|||Day 2, 0 hours postdose||-0.04|-0.57|
92341805|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.16|0.68|||ANCOVA|||Day 2, 0 hours postdose||0.68|0.16|
92341806|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.04|0.49|||ANCOVA|||Day 2, 0 hours postdose||0.49|-0.04|
92217258|NCT03734016|184334809|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.51|1.11|||||Hazard ratio is the ratio of the hazard of the zanubrutinib arm divided by that of the ibrutinib arm.|||1.11|0.51|
92217259|NCT03734016|184334810|OTHER||Least Squares (LS) Mean Difference|3.0||||0.0338|TWO_SIDED|95.0|0.23|5.77|||Mixed model for repeated measures (MMRM)|||Analysis of Change from Baseline in EORTC QLQ-C30 GHS/QOL at Week 24. A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix.||5.77|0.23|0.0338
92341807|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.15|0.38|||ANCOVA|||Day 2, 0 hours postdose||0.38|-0.15|
92341808|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.4|0.14|||ANCOVA|||Day 2, 8 hours postdose||0.14|-0.40|
92341809|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.59|-0.05|||ANCOVA|||Day 2, 8 hours postdose||-0.05|-0.59|
92341810|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.2|0.74|||ANCOVA|||Day 2, 8 hours postdose||0.74|0.20|
92341811|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.08|0.61|||ANCOVA|||Day 2, 8 hours postdose||0.61|0.08|
92399164|NCT00467740|184689938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.048||0.0329||95.0|0.008|0.198|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.198|0.008|0.0329
92399165|NCT00467740|184689938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.048||0.0666||95.0|-0.006|0.184|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.184|-0.006|0.0666
92399166|NCT00467740|184689938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.048||0.3738||95.0|-0.052|0.137|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.137|-0.052|0.3738
92399167|NCT00467740|184689938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.048||0.0037||95.0|0.046|0.234|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.234|0.046|0.0037
92405609|NCT02215252|184701388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|611.0|STANDARD_ERROR_OF_MEAN|812.0|||TWO_SIDED|90.0|-735.0|1956.0||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||1956|-735|
92217260|NCT03734016|184334810|OTHER||LS Mean Difference|1.34||||0.3304|TWO_SIDED|95.0|-1.37|4.06|||Mixed model for repeated measures (MMRM)|||Analysis of Change from Baseline in EORTC QLQ-C30 GHS/QOL at Week 48. A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix.||4.06|-1.37|0.3304
92217261|NCT03734016|184334810|OTHER||LS Mean Difference|1.82||||0.1189|TWO_SIDED|95.0|-0.47|4.12|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Physical Functioning Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||4.12|-0.47|0.1189
92341812|NCT00549549|184584702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.11|0.42|||ANCOVA|||Day 2, 8 hours postdose||0.42|-0.11|
92341813|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.09|0.27|||ANCOVA|||8 hour postdose analysis. The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity at Baseline as a covariate.||0.27|-0.09|
92341814|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|0.04|0.4|||ANCOVA|||8 hour postdose analysis||0.40|0.04|
92341815|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.5|-0.14|||ANCOVA|||8 hour postdose analysis||-0.14|-0.50|
92341816|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.41|-0.05|||ANCOVA|||8 hour postdose analysis||-0.05|-0.41|
92341817|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.28|0.08|||ANCOVA|||8 hour postdose analysis||0.08|-0.28|
92341818|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.1|0.29|||ANCOVA|||12 hour postdose analysis||0.29|-0.10|
92341819|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|0.06|0.45|||ANCOVA|||12 hour postdose analysis||0.45|0.06|
92341820|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.55|-0.16|||ANCOVA|||12 hour postdose analysis||-0.16|-0.55|
92341821|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.45|-0.07|||ANCOVA|||12 hour postdose analysis||-0.07|-0.45|
92341822|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.29|0.09|||ANCOVA|||12 hour postdose analysis||0.09|-0.29|
92341823|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.08|0.35|||ANCOVA|||24 hour postdose analysis||0.35|-0.08|
92341824|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|0.08|0.51|||ANCOVA|||24 hour postdose analysis||0.51|0.08|
92341825|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.61|-0.18|||ANCOVA|||24 hour postdose analysis||-0.18|-0.61|
92341826|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.47|-0.05|||ANCOVA|||24 hour postdose analysis||-0.05|-0.47|
92341827|NCT00549549|184584703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.32|0.11|||ANCOVA|||24 hour postdose analysis||0.11|-0.32|
92341828|NCT00549549|184584704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0459|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=30% reduction analyses. The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity at Baseline as a covariate.||||0.0459
92341829|NCT00549549|184584704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=30% reduction analyses||||0.0017
92341830|NCT00549549|184584704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=30% reduction analyses||||0.0001
92341831|NCT00549549|184584704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.041|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=30% reduction analyses||||0.0410
92341832|NCT00549549|184584704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5592|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=30% reduction analyses||||0.5592
92341833|NCT00549549|184584704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0277|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=50% reduction analyses||||0.0277
92341834|NCT00549549|184584704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0018|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=50% reduction analyses||||0.0018
92399168|NCT00467740|184689939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051|STANDARD_ERROR_OF_MEAN|0.046||0.2646||95.0|-0.039|0.142|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.142|-0.039|0.2646
92341835|NCT00549549|184584704|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=50% reduction analyses||||<.0001
92399169|NCT00467740|184689939|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.046||0.3527||95.0|-0.048|0.135|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.135|-0.048|0.3527
92341836|NCT00549549|184584704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0394|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=50% reduction analyses||||0.0394
92341837|NCT00549549|184584704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4603|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=50% reduction analyses||||0.4603
92341838|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5528|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on Day 1. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.5528
92341839|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1779|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on Day 1. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.1779
92341840|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1754|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on Day 1. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.1754
92341841|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3384|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on Day 1. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.3384
92341842|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5005|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during treatment. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.5005
92341843|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0845|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during treatment. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.0845
92341844|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0213|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during treatment. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.0213
92341845|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1231|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during treatment. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.1231
92341846|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6636|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during treatment. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.6636
92341847|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5378|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during study. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.5378
92341848|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0818|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during study. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.0818
92341849|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0317|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during study. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.0317
92341850|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1592|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during study. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.1592
92341851|NCT00549549|184584707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7956|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during study. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.7956
92217262|NCT03734016|184334810|OTHER||LS Mean Difference|1.15||||0.3274|TWO_SIDED|95.0|-1.15|3.44|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Physical Functioning Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||3.44|-1.15|0.3274
92217263|NCT03734016|184334810|OTHER||LS Mean Difference|0.63||||0.6821|TWO_SIDED|95.0|-2.4|3.66|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Role Functioning Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||3.66|-2.40|0.6821
92217264|NCT03734016|184334810|OTHER||LS Mean Difference|1.8||||0.2701|TWO_SIDED|95.0|-1.4|5.0|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Role Functioning Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||5.00|-1.40|0.2701
92217265|NCT03734016|184334811|OTHER||LS Mean Difference|-1.91||||0.1778|TWO_SIDED|95.0|-4.7|0.87|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Fatigue Symptom Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.87|-4.70|0.1778
92217266|NCT03734016|184334811|OTHER||LS Mean Difference|-0.35||||0.8174|TWO_SIDED|95.0|-3.32|2.62|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Fatigue Symptom Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||2.62|-3.32|0.8174
92217267|NCT03734016|184334811|OTHER||LS Mean Difference|-0.29||||0.6294|TWO_SIDED|95.0|-1.48|0.89|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Nausea and Vomiting Symptom Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.89|-1.48|0.6294
92217268|NCT03734016|184334811|OTHER||LS Mean Difference|-0.51||||0.4933|TWO_SIDED|95.0|-1.99|0.96|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Nausea and Vomiting Symptom Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.96|-1.99|0.4933
92217269|NCT03734016|184334811|OTHER||LS Mean Difference|-1.43||||0.3643|TWO_SIDED|95.0|-4.51|1.66|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Pain Symptom Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||1.66|-4.51|0.3643
92217270|NCT03734016|184334811|OTHER||LS Mean Difference|-2.43||||0.1363|TWO_SIDED|95.0|-5.62|0.77|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Pain Symptom Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.77|-5.62|0.1363
92341852|NCT00549549|184584708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.17|0.31|||ANCOVA|||The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity at Baseline as a covariate.||0.31|-0.17|
92217271|NCT03734016|184334811|OTHER||LS Mean Difference|-1.59||||0.2001|TWO_SIDED|95.0|-4.01|0.84|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Diarrhoea Symptom Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.84|-4.01|0.2001
92275049|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.54|||||TWO_SIDED|95.0|-14.7|17.78||||||For change in ascites at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||17.78|-14.70|
92275050|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.05|||||TWO_SIDED|95.0|-10.65|32.75||||||For change in indigestion at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||32.75|-10.65|
92341853|NCT00549549|184584708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.02|0.46|||ANCOVA|||||0.46|-0.02|
92341854|NCT00549549|184584708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.5|-0.02|||ANCOVA|||||-0.02|-0.50|
92341855|NCT00549549|184584708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.43|0.05|||ANCOVA|||||0.05|-0.43|
92341856|NCT00549549|184584708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.28|0.19|||ANCOVA|||||0.19|-0.28|
92341857|NCT00549549|184584709|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED||||||Cochran-Mantel-Haenszel|||p-value calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1; \>1\], and region.||||0.3173
92341858|NCT00549549|184584710|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4724|TWO_SIDED||||||Cochran-Mantel-Haenszel|||p-value calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1; \>1\], and region.||||0.4724
92341859|NCT00549549|184584710|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7316|TWO_SIDED||||||Cochran-Mantel-Haenszel|||p-value calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1; \>1\], and region.||||0.7316
92157267|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.71|<|0.001|TWO_SIDED|95.0|1.3|4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.1|1.3|<0.001
92341860|NCT00549549|184584710|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7316|TWO_SIDED||||||Cochran-Mantel-Haenszel|||p-value calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1; \>1\], and region.||||0.7316
92341861|NCT00418028|184584798|NON_INFERIORITY_OR_EQUIVALENCE|"If we assume that the non-inferiority level is up to 15% lower (equivalent to a median progression-free time of 3 months), for a one-sided error α=0.05, and 80% power, are necessary 88 patients per group.~Considering an dropout rate of around 10%, the number of patients would be 98 per group."|Hazard Ratio (HR)|1.3||||0.1224|TWO_SIDED|95.0|0.9|1.7|||Log Rank|||||1.7|0.9|0.1224
92341862|NCT00418028|184584799|SUPERIORITY|||||||0.8269|||||||Chi-squared|||||||0.8269
92341863|NCT00418028|184584800|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.5703|TWO_SIDED|95.0|0.67|2.07|||Log Rank|||||2.07|0.67|0.5703
92341864|NCT00418028|184584801|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.4676|TWO_SIDED|95.0|0.83|1.5|||Log Rank|||||1.50|0.83|0.4676
92341865|NCT00418028|184584802|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.5688|TWO_SIDED|95.0|0.66|1.25|||Log Rank|||||1.25|0.66|0.5688
92341866|NCT00418028|184584803|SUPERIORITY|||||||0.4984|||||||Chi-squared|||||||0.4984
92399170|NCT00467740|184689939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.046||0.1369||95.0|-0.022|0.16|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.160|-0.022|0.1369
92217272|NCT03734016|184334811|OTHER||LS Mean Difference|-1.85||||0.1121|TWO_SIDED|95.0|-4.12|0.43|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Diarrhoea Symptom Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.43|-4.12|0.1121
92399171|NCT00467740|184689939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.046||0.0051||95.0|0.039|0.221|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.221|0.039|0.0051
92399172|NCT00467740|184689940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.053||0.017||95.0|0.023|0.232|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.232|0.023|0.0170
92399173|NCT00467740|184689940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.053||0.0646||95.0|-0.006|0.204|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.204|-0.006|0.0646
92341867|NCT00418028|184584804|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.2556|TWO_SIDED|95.0|0.88|1.63|||Log Rank|||||1.63|0.88|0.2556
92341868|NCT03574974|184584834|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||0.047
92341869|NCT03256578|184584937|SUPERIORITY|||||||0.896|||||||Wilcoxon (Mann-Whitney)|||||||0.896
92399174|NCT00467740|184689940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028|STANDARD_ERROR_OF_MEAN|0.053||0.602||95.0|-0.077|0.132|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.132|-0.077|0.6020
92341870|NCT03256578|184584938|SUPERIORITY|||||||0.107|||||||Wilcoxon (Mann-Whitney)|||||||0.107
92341871|NCT03256578|184584939|SUPERIORITY|||||||0.847|||||||Wilcoxon (Mann-Whitney)|||||||0.847
92341872|NCT03256578|184584940|SUPERIORITY|||||||0.126|||||||Wilcoxon (Mann-Whitney)|||||||0.126
92341873|NCT03256578|184584941|SUPERIORITY|||||||0.346|||||||Wilcoxon (Mann-Whitney)|||||||0.346
92341874|NCT03256578|184584942|SUPERIORITY|||||||0.094|||||||Wilcoxon (Mann-Whitney)|||||||0.094
92341875|NCT03256578|184584943|SUPERIORITY|||||||0.656|||||||Wilcoxon (Mann-Whitney)|||||||0.656
92341876|NCT03256578|184584944|SUPERIORITY|||||||0.434|||||||Wilcoxon (Mann-Whitney)|||||||0.434
92341877|NCT03256578|184584945|SUPERIORITY|||||||0.903|||||||Wilcoxon (Mann-Whitney)|||||||0.903
92341878|NCT03256578|184584946|SUPERIORITY|||||||0.699|||||||Chi-squared|||||||0.699
92341879|NCT03256578|184584947|SUPERIORITY|||||||0.231|||||||Chi-squared|||||||0.231
92341880|NCT03256578|184584948|SUPERIORITY||Risk Ratio (RR)|0.593||||0.283|TWO_SIDED|95.0|0.225|1.561|||Chi-squared|||||1.561|0.225|0.283
92341881|NCT03256578|184584949|SUPERIORITY||Risk Ratio (RR)|1.864||||0.168|TWO_SIDED|95.0|0.756|4.599|||Chi-squared|||||4.599|0.756|0.168
92341882|NCT03256578|184584950|SUPERIORITY||Risk Ratio (RR)|0.67||||0.024|TWO_SIDED|95.0|0.474|0.947|||Chi-squared|||||0.947|0.474|0.024
92341883|NCT03256578|184584951|SUPERIORITY|||||||0.585|||||||Wilcoxon (Mann-Whitney)|||||||0.585
92341884|NCT03256578|184584952|SUPERIORITY|||||||0.342|||||||Wilcoxon (Mann-Whitney)|||||||0.342
92341885|NCT03256578|184584953|SUPERIORITY|||||||0.431|||||||Wilcoxon (Mann-Whitney)|||||||0.431
92341886|NCT03256578|184584955|SUPERIORITY||Risk Ratio (RR)|1.059||||0.518|TWO_SIDED|95.0|0.854|1.313|||Chi-squared|||||1.313|0.854|0.518
92341887|NCT03256578|184584956|SUPERIORITY||Risk Ratio (RR)|0.951||||0.855|TWO_SIDED|95.0|0.555|1.629|||Chi-squared|||||1.629|0.555|0.855
92341888|NCT03256578|184584957|SUPERIORITY||Risk Ratio (RR)|0.994||||0.524|TWO_SIDED|95.0|0.834|1.186|||Chi-squared|||||1.186|0.834|0.524
92341889|NCT03256578|184584958|SUPERIORITY||Risk Ratio (RR)|0.649||||0.28|TWO_SIDED|95.0|0.294|1.434|||Chi-squared|||||1.434|0.294|0.280
92341890|NCT03256578|184584959|SUPERIORITY||Risk Ratio (RR)|1.393||||0.339|TWO_SIDED|95.0|0.703|2.76|||Chi-squared|||||2.760|0.703|0.339
92341891|NCT03256578|184584960|SUPERIORITY|||||||0.486|||||||Chi-squared|||||||0.486
92341892|NCT03256578|184584961|SUPERIORITY|||||||0.655|||||||Chi-squared|||||||0.655
92341893|NCT03256578|184584962|SUPERIORITY||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.99|1.02|||Chi-squared|||||1.02|0.99|1.00
92157268|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.0|3.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.5|1.0|<0.001
92157269|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.78||0.13|TWO_SIDED|95.0|-0.4|2.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.7|-0.4|0.13
92157270|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.79||0.032|TWO_SIDED|95.0|0.1|3.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.2|0.1|0.032
92157271|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.67||0.028|TWO_SIDED|95.0|0.2|2.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.8|0.2|0.028
92157272|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.81||0.15|TWO_SIDED|95.0|-0.4|2.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.7|-0.4|0.15
92157273|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.81||0.41|TWO_SIDED|95.0|-0.9|2.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.3|-0.9|0.41
92157274|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.71||0.017|TWO_SIDED|95.0|0.3|3.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.1|0.3|0.017
92399175|NCT00467740|184689940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.053||0.0147||95.0|0.026|0.233|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.233|0.026|0.0147
92399176|NCT00467740|184689941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_ERROR_OF_MEAN|0.053||0.4902||95.0|-0.068|0.142|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.142|-0.068|0.4902
92157275|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.86||0.27|TWO_SIDED|95.0|-0.7|2.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.6|-0.7|0.27
92157276|NCT02886728|184200592|SUPERIORITY||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.87||0.15|TWO_SIDED|95.0|-0.5|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|-0.5|0.15
92157277|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|6.0|12.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||12.0|6.0|<0.001
92157278|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|1.6||0.006|TWO_SIDED|95.0|1.0|8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||8.0|1.0|0.006
92275051|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4|||||TWO_SIDED|95.0|-17.33|24.13||||||For change in flatulence at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||24.13|-17.33|
92217273|NCT01624259|184334816|NON_INFERIORITY_OR_EQUIVALENCE|"Family-wise Type I error rate was controlled by applying a serial gatekeeping strategy.~This calculation assumed a 0 difference in HbA1c between the 1.5 mg LY2189265 1.5-mg arm and 1.8 mg liraglutide, 0.4% margin of noninferiority, common Standard Deviation (SD) of 1.3% for change from baseline in HbA1c, 0.05 two-sided significance level, and 25% dropout rate at 26 weeks."|LS Mean Difference|-0.06|||<|0.001|TWO_SIDED|95.0|-0.19|0.07||1-sided raw p-value (no multiplicity adjustment).|Mixed Models Analysis|||To show noninferiority of 1.5 mg LY2189265 relative to 1.8 mg liraglutide with 90% power, 222 completers (444 total) at 26 weeks were required. Noninferiority of 1.5 mg LY2189265 relative to 1.8 mg liraglutide was demonstrated if the upper bound of the two-sided 95% Confidence Interval (CI) for the difference in mean change in HbA1c between the 1.5 mg LY2189265 arm and 1.8 mg liraglutide arm was below 0.4%.||0.07|-0.19|<0.001
92217274|NCT01624259|184334816|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.186|TWO_SIDED|95.0|-0.19|0.07||1-sided raw p-value (no multiplicity adjustment)|Mixed Models Analysis|||Superiority analysis||0.07|-0.19|0.186
92341894|NCT05428436|184584963|OTHER||gMean ratio|121.12|||||TWO_SIDED|90.0|86.14|170.3|||||gMean ratio: T1/R. Intra-individual Geometric coefficient of variation \[%\] = 78.5.|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||170.30|86.14|
92399177|NCT00467740|184689941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.054||0.2832||95.0|-0.048|0.164|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.164|-0.048|0.2832
92399178|NCT00467740|184689941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.054||0.6516||95.0|-0.081|0.13|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.130|-0.081|0.6516
92157279|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|3.0|9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||9.0|3.0|<0.001
92157280|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|2.0|8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||8.0|2.0|<0.001
92157281|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|1.8||0.089|TWO_SIDED|95.0|0.0|7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.0|-0.0|0.089
92157282|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.9||0.18|TWO_SIDED|95.0|-1.0|6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||6.0|-1.0|0.18
92157283|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|1.5||0.003|TWO_SIDED|95.0|1.0|7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.0|1.0|0.003
92157284|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|1.8||0.049|TWO_SIDED|95.0|0.0|7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.0|0.0|0.049
92157285|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.8||0.84|TWO_SIDED|95.0|-4.0|3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.0|-4.0|0.84
92157286|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|2.0|9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||9.0|2.0|<0.001
92341895|NCT05428436|184584963|OTHER||gMean ratio|108.13|||||TWO_SIDED|90.0|76.68|152.48|||||gMean ratio: T2/T1. Intra-individual Geometric coefficient of variation \[%\] = 78.5.|ANOVA model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||152.48|76.68|
92341896|NCT05428436|184584964|OTHER||gMean ratio|122.01|||||TWO_SIDED|90.0|79.25|187.84|||||gMean ratio: T1/R. Intra-individual Geometric coefficient of variation \[%\] = 104.0.|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment (restricted to the two formulation groups (T1 \& R)). The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||187.84|79.25|
92399179|NCT00467740|184689941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.053||0.006||95.0|0.042|0.252|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.252|0.042|0.0060
92399180|NCT00467740|184689942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.05||0.0005||95.0|0.079|0.277|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.277|0.079|0.0005
92399181|NCT00467740|184689942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.051||0.007||95.0|0.038|0.237|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.237|0.038|0.0070
92399182|NCT00467740|184689942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.05||0.0512||95.0|-0.001|0.198|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.198|-0.001|0.0512
92399183|NCT00467740|184689942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.133|0.331|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.331|0.133|<0.0001
92399184|NCT00467740|184689943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.061||0.1811||95.0|-0.039|0.203|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.203|-0.039|0.1811
92399185|NCT00467740|184689943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.062||0.2118||95.0|-0.044|0.199|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.199|-0.044|0.2118
92399186|NCT00467740|184689943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_ERROR_OF_MEAN|0.062||0.5504||95.0|-0.085|0.158|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.158|-0.085|0.5504
92399187|NCT00467740|184689943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191|STANDARD_ERROR_OF_MEAN|0.062||0.0022||95.0|0.069|0.312|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.312|0.069|0.0022
92399188|NCT00467740|184689944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.102|0.255|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.255|0.102|<0.0001
92399189|NCT00467740|184689944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.106|0.26|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.260|0.106|<0.0001
92399190|NCT00467740|184689944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.096|0.25|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.250|0.096|<0.0001
92399191|NCT00467740|184689944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.291|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.214|0.367|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.367|0.214|<0.0001
92399192|NCT00467740|184689945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001||95.0|0.101|0.279|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.279|0.101|<0.0001
92399193|NCT00467740|184689945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.046|<|0.0001||95.0|0.107|0.286|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.286|0.107|<0.0001
92157287|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|2.0||0.078|TWO_SIDED|95.0|0.0|7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.0|-0.0|0.078
92341897|NCT05428436|184584964|OTHER||gMean ratio|108.56|||||TWO_SIDED|90.0|104.33|112.97|||||gMean ratio: T2/T1. Intra-individual Geometric coefficient of variation \[%\] = 7.8.|ANOVA model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment (restricted to the two treatment groups (T1 \& T2)). The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||112.97|104.33|
92399194|NCT00467740|184689945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.045||0.0007||95.0|0.067|0.246|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.246|0.067|0.0007
92399195|NCT00467740|184689945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.263|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001||95.0|0.174|0.352|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.352|0.174|<0.0001
92341898|NCT05428436|184584965|OTHER||gMean ratio|118.0|||||TWO_SIDED|90.0|85.82|162.25|||||gMean ratio: T1/R. Intra-individual Geometric coefficient of variation \[%\] = 72.2.|ANOVA model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||162.25|85.82|
92341899|NCT05428436|184584965|OTHER||gMean ratio|87.94|||||TWO_SIDED|90.0|63.77|121.28|||||gMean ratio: T2/T1. Intra-individual Geometric coefficient of variation \[%\] = 72.2.|ANOVA model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||121.28|63.77|
92341900|NCT05428436|184584966|OTHER||gMean ratio|115.63|||||TWO_SIDED|90.0|77.64|172.22|||||gMean ratio: T1/R. Intra-individual Geometric coefficient of variation \[%\] = 93.3.|ANOVA model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment (restricted to the two formulation groups (T1 \& R)). The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||172.22|77.64|
92341901|NCT05428436|184584966|OTHER||gMean ratio|90.74|||||TWO_SIDED|90.0|80.82|101.87|||||gMean ratio: T2/T1. Intra-individual Geometric coefficient of variation \[%\] = 23.0.|ANOVA model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment (restricted to the two treatment groups (T1 \& T2)). The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||101.87|80.82|
92341902|NCT05428436|184584967|OTHER||gMean ratio|93.79|||||TWO_SIDED|90.0|90.49|97.21|||||gMean ratio: T1/R. Intra-individual Geometric coefficient of variation \[%\] = 7.1.|ANOVA model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||97.21|90.49|
92341903|NCT05428436|184584967|OTHER||gMean ratio|109.51|||||TWO_SIDED|90.0|105.72|113.44|||||gMean ratio: T2/T1. Intra-individual Geometric coefficient of variation \[%\] = 7.1.|ANOVA model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||113.44|105.72|
92341904|NCT05428436|184584968|OTHER||gMean ratio|95.01|||||TWO_SIDED|90.0|91.39|98.77|||||gMean ratio: T1/R. Intra-individual Geometric coefficient of variation \[%\] = 7.5.|ANOVA model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment (restricted to the two formulation groups (T1 \& R)). The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||98.77|91.39|
92341905|NCT05428436|184584968|OTHER||gMean ratio|108.3|||||TWO_SIDED|90.0|103.9|112.89|||||gMean ratio: T2/T1. Intra-individual Geometric coefficient of variation \[%\] = 8.2.|ANOVA model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment (restricted to the two treatment groups (T1 \& T2)). The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||112.89|103.90|
92341906|NCT03964207|184584969|SUPERIORITY||Difference of LSmeans|-5.28||||0.007|TWO_SIDED|95.0|-9.07|-1.48|||Mixed-effects Model||The Least squares means (LSmeans) were adjusted with treatment and visit. And the Difference of LSmeans was calculated as: value from the test treatment group - value from the comparator treatment group.|The hypothesis test was held to investigate the superiority of the test treatment. Mixed-effects Model for Repeated Measures (MMRM) was used to analyze the performance domain of PASAPQ score, with treatment and period as fixed effects, and patient as a random effect.||-1.48|-9.07|0.007
92341907|NCT03964207|184584970|SUPERIORITY||Difference of LSmeans|-4.14||||0.024|TWO_SIDED|95.0|-7.72|-0.56|||Mixed Models Analysis||The Least squares means (LSmeans) were adjusted with treatment and visit. And the Difference of LSmeans was calculated as: value from the test treatment group - value from the comparator treatment group.|The hypothesis test was held to investigate the superiority of the test treatment. Mixed-effects Model for Repeated Measures (MMRM) was used to analyze the performance domain of PASAPQ score, with treatment and period as fixed effects, and patient as a random effect||-0.56|-7.72|0.024
92341908|NCT03964207|184584971|SUPERIORITY||Difference rate (%)|13.0||||0.249|||||||Chi-square test||The Difference rate was calculated as: value from the test treatment group - value from the comparator treatment group.|Chi-squared test was used to analyze proportion of patients indicating preference in the Patient satisfaction and preference questionnaire (PASAPQ) at week 8. All participants have used both treatments at this point: Handihaler (4 weeks) and Respimat (4 weeks).||||0.249
92341909|NCT03964207|184584972|SUPERIORITY||Difference of LSmeans|-4.72||||0.057|TWO_SIDED|95.0|-9.59|0.15|||The mixed model for repeated measures||The Least squares means (LSmeans) were adjusted with treatment and visit. And the Difference of LSmeans was calculated as: value from the test treatment group - value from the comparator treatment group.|The hypothesis test was held to investigate the superiority of the test treatment. Mixed-effects Model for Repeated Measures (MMRM) was used to analyze the performance domain of PASAPQ score, with treatment and period as fixed effects, and patient as a random effect.||0.15|-9.59|0.057
92157288|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|2.0||0.39|TWO_SIDED|95.0|-2.0|6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||6.0|-2.0|0.39
92157289|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|1.7||0.004|TWO_SIDED|95.0|2.0|8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||8.0|2.0|0.004
92341910|NCT03964207|184584973|SUPERIORITY||Difference of LSmeans|-4.38||||0.347|TWO_SIDED|95.0|-13.63|4.86|||Mixed Models Analysis||The Least squares means (LSmeans) were adjusted with treatment and visit. And the Difference of LSmeans was calculated as: value from the test treatment group - value from the comparator treatment group.|The hypothesis test was held to investigate the superiority of the test treatment. Mixed-effects Model for Repeated Measures (MMRM) was used to analyze the performance domain of PASAPQ score, with treatment and period as fixed effects, and patient as a random effect.||4.86|-13.63|0.347
92399196|NCT00467740|184689946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.115|0.313|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.313|0.115|<0.0001
92341911|NCT02337062|184584987|SUPERIORITY||||||<|0.001||||||The threshold for determining statistical significance in the comparison of incidence of success between the active and placebo groups (the primary efficacy analysis) was a p-value of 2.5% one-sided.|Chi-squared|||The primary efficacy analysis was a comparison of the incidence of the primary efficacy variable between the two groups that received APD421 and the group that received placebo, using Pearson's χ2 test.||||<0.001
92341912|NCT02337062|184584988|SUPERIORITY|||||||0.003|||||||Chi-squared|||||||0.003
92341913|NCT02337062|184584989|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
92341914|NCT02337062|184584990|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
92341915|NCT02337062|184584991|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92341916|NCT02337062|184584992|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92341917|NCT00705757|184585058|SUPERIORITY_OR_OTHER|||||||0.769|TWO_SIDED||||||ANOVA|||One way ANOVA of Upper Lid||||0.769
92341918|NCT00705757|184585058|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|95.0|||||ANOVA|||One way ANOVA of Lower Lid||||0.230
92341919|NCT00705757|184585058|SUPERIORITY_OR_OTHER|||||||0.851|TWO_SIDED|95.0|||||ANOVA|||One way ANOVA of cheek/face||||0.851
92341920|NCT03387267|184585082|OTHER||AUC under ROC curve|0.64|||||ONE_SIDED|95.0||0.72||||||||0.72||
92341921|NCT03387267|184585083|OTHER||AUC under ROC curve|0.65|||||TWO_SIDED|||||||||||||
92341922|NCT03387267|184585084|OTHER||AUC under ROC curve|0.576|||||TWO_SIDED|||||||||||||
92341923|NCT05696392|184585088|OTHER|difference between the average sleep at baseline and Week 8||||||0.8357|||||||paired t-test|||||||0.8357
92341924|NCT05696392|184585089|OTHER|difference between the average sleep at baseline and Week 8||||||0.0001|||||||paired t-test|||||||0.0001
92341925|NCT00359203|184585099|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.43||||0.04|TWO_SIDED|95.0|0.19|0.96|||Log Rank|The risk of syncope recurrence was based on HR obtained by means of the univarate Cox model, with the use of the Breslow method for ties.|numerator=pacemaker ON denominator=pacemaker OFF|The analysis was designed to have 80% power to detect a 1-year absolute reduction of 25% in the risk of recurrence of first syncope in the Pm ON arm applying a log-rank test with a 2-sided significance level of 0.05. This analysis was planned as a comparison of the cumulative risk of syncope between the 2 groups with the use of a log-rank test.||0.96|0.19|0.04
92341926|NCT00359203|184585099|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The analysis was designed to have 80% power to detect a 1-year absolute reduction of 25% in the risk of recurrence of first syncope in the treatment arm applying a log-rank test with a 2-sided significance level of 0.05.|Hazard Ratio (HR)|0.43||||0.039|TWO_SIDED|95.0|0.19|0.96||For the final analysis the threshold of statistical significance was set at 0.04.|Log Rank||Numerator=pacemaker ON denominator=pacemaker OFF|||0.96|0.19|0.039
92341927|NCT04464707|184585100|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.69||0.8484|TWO_SIDED|95.0|-1.48|1.22|||ANCOVA|||||1.22|-1.48|0.8484
92341928|NCT02131064|184585114|SUPERIORITY||Difference in tpCR rate|-11.71||||0.0126|TWO_SIDED|95.0|-20.95|-2.48||Threshold for significance at 5%|Cochran-Mantel-Haenszel Chi-Square|The Cochran-Mantel-Haenszel Chi-square test was used and stratified by local hormone receptor status and clinical stage at presentation.||95% CI for the difference in tPCR rates between treatment arms was calculated using normal approximation.||-2.48|-20.95|0.0126
92341929|NCT02131064|184585115|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.7557|TWO_SIDED|95.0|0.37|3.96|||Cochran-Mantel-Haenszel Chi-Square Test|The Cochran-Mantel-Haenszel Chi-square test was used and stratified by local hormone receptor status and clinical stage at presentation.||||3.96|0.37|0.7557
92399197|NCT00467740|184689946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.05||0.0021||95.0|0.057|0.255|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.255|0.057|0.0021
92217275|NCT01624259|184334817|SUPERIORITY_OR_OTHER||LS Mean Difference|0.71|STANDARD_ERROR_OF_MEAN|0.28||0.01|TWO_SIDED|95.0|0.17|1.26||No adjustment for multiplicity.|ANCOVA|||Treatment comparison from ANCOVA model at 26 weeks.||1.26|0.17|0.010
92341930|NCT02131064|184585116|SUPERIORITY||Difference in BCS rate|-10.84||||0.0228|TWO_SIDED|95.0|-20.21|-1.47|||Cochran-Mantel-Haenszel Chi-Square|The Cochran-Mantel-Haenszel Chi-square test was used and stratified by local hormone receptor status and clinical stage at presentation.||95% CI for the difference in BCS rate between treatment arms was calculated using normal approximation.||-1.47|-20.21|0.0228
92341931|NCT02131064|184585117|SUPERIORITY||Hazard Ratio (HR)|2.61||||0.0027|TWO_SIDED|95.0|1.36|4.98|||Log Rank|The Log Rank was used and stratified by local hormone receptor status and clinical stage at presentation.||||4.98|1.36|0.0027
92341932|NCT02131064|184585118|SUPERIORITY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.52|2.4||||||||2.40|0.52|
92341933|NCT02131064|184585121|SUPERIORITY||Difference in Deterioration|-24.58|||||TWO_SIDED|95.0|-33.98|-15.19||||||95% CI for the difference in clinically meaningful deterioration in GHS/QoL score between treatment arms was calculated using normal approximation.||-15.19|-33.98|
92341934|NCT02131064|184585122|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0001|TWO_SIDED|95.0|0.46|0.78|||Log Rank|Log Rank was used and stratified by local hormone receptor status and clinical stage at presentation.||Stratified cox proportional hazards regression model was used to estimate Hazard Ratio and CI. Stratification by hormonal receptor status and clinical stage at presentation (stratification factors).||0.78|0.46|0.0001
92341935|NCT02131064|184585133|SUPERIORITY||Difference in Deterioration|-16.63|||||TWO_SIDED|95.0|-26.32|-6.94||||||This is the statistical analysis for cognitive functioning. 95% CI for the difference in clinically meaningful deterioration in function subscales between treatment arms was calculated using normal approximation.||-6.94|-26.32|
92341936|NCT02131064|184585133|SUPERIORITY||Difference in Deterioration|-32.54|||||TWO_SIDED|95.0|-41.74|-23.34||||||This is the statistical analysis for physical functioning. 95% CI for the difference in clinically meaningful deterioration in function subscales between treatment arms was calculated using normal approximation.||-23.34|-41.74|
92341937|NCT02131064|184585133|SUPERIORITY||Difference in Deterioration|-28.88|||||TWO_SIDED|95.0|-37.95|-19.8||||||This is the statistical analysis for role functioning. 95% CI for the difference in clinically meaningful deterioration in function subscales between treatment arms was calculated using normal approximation.||-19.80|-37.95|
92157290|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|2.1||0.45|TWO_SIDED|95.0|-3.0|6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||6.0|-3.0|0.45
92157291|NCT02886728|184200595|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|2.1||0.85|TWO_SIDED|95.0|-4.0|5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.0|-4.0|0.85
92157292|NCT01676220|184200612|NON_INFERIORITY_OR_EQUIVALENCE|"Stepwise closed testing approach was used to assess non-inferiority and superiority sequentially:~1. Non-inferiority of HOE901-U300 vs Lantus: Upper bound of two-sided 95% confidence interval (CI) of difference between HOE901-U300 and Lantus on mITT population is \<0.4%.~2. Superiority (only if non-inferiority has been demonstrated): Upper bound of two-sided 95% CI for difference in mean change in HbA1c from baseline to endpoint between HOE901-U300 and Lantus on mITT population is \<0."|Least Squares (LS) Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.067|||TWO_SIDED|95.0|-0.09|0.174||||||Analysis was performed using mixed model for repeated measurements (MMRM) with treatment groups, strata of screening HbA1c (\<8.0, \>=8.0%), geographical region (Non-Japan; Japan), visit and visit-by-treatment groups interaction as fixed categorical effects; baseline HbA1c and baseline HbA1c-by-visit interaction as continuous fixed covariates.||0.174|-0.090|
92157293|NCT01676220|184200613|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.89||||0.4536|TWO_SIDED|95.0|0.66|1.2|||Cochran-Mantel-Haenszel|||A one-sided test (at alpha=0.025) for superiority of HOE901-U300 over Lantus was to be performed in case the non-inferiority of HOE901-U300 vs Lantus for the primary endpoint was demonstrated. Analysis was performed using Cochran-Mantel-Haenszel (CMH) method stratified by randomization strata of screening HbA1c (\<8.0, \>=8.0%), randomization strata of geographical region (Non-Japan; Japan).||1.20|0.66|0.4536
92157294|NCT01676220|184200614|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.224|||TWO_SIDED|95.0|-0.275|0.605||||||Change in pre-injection SMPG was analyzed using MMRM model with treatment groups, strata of screening HbA1c (\<8.0, \>=8.0%), geographical region (Non-Japan; Japan), visit and visit-by-treatment groups interaction as fixed categorical effects; baseline preinjection SMPG value and baseline preinjection SMPG value-by-visit interaction as continuous fixed covariates.||0.605|-0.275|
92157295|NCT01473420|184200704|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence margin of +/- 0.5 was considered relevant to demonstrate the equivalence of the two products.|LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|95.0|-0.17|0.24||||||Least square (LS) mean and 95 percent confidence interval (CI) derived from an analysis of covariance (ANCOVA) model with fixed effect of treatment.||0.24|-0.17|
92217276|NCT01624259|184334818|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.1||0.013|TWO_SIDED|95.0|0.05|0.45||No adjustment for multiplicity.|ANCOVA|||Treatment comparison from ANCOVA model.||0.45|0.05|0.013
92341938|NCT02554760|184585147|OTHER||success proportion|84.2|||||TWO_SIDED|95.0|60.4|92.3|||Catagorical tabulation|||||92.3|60.4|
92341939|NCT02554760|184585147|OTHER||success proportion|78.9|||||TWO_SIDED|95.0|54.4|93.9||||||||93.9|54.4|
92399198|NCT00467740|184689946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.05||0.0795||95.0|-0.01|0.187|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.187|-0.010|0.0795
92217277|NCT01624259|184334819|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|2.61||0.828|TWO_SIDED|95.0|-5.69|4.56||No adjustment for multiplicity.|ANCOVA|||Treatment comparison from ANCOVA model.||4.56|-5.69|0.828
92217278|NCT01624259|184334820|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.25|STANDARD_ERROR_OF_MEAN|1.86||0.228|TWO_SIDED|95.0|-5.91|1.41||No adjustment for multiplicity.|Mixed Models Analysis|P-value from pairwise comparison of LS means at 26 weeks from REML-based MMRM.||||1.41|-5.91|0.228
92341940|NCT00593918|184585150|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|A mixed random effects model was used both unadjusted and adjustment for relevant co-variates obtained from the literature.||||||0.04
92217279|NCT01624259|184334821|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.322|TWO_SIDED|95.0|0.81|1.86||P-value of treatment comparison at Week 26 is from repeated generalized linear mixed model (GLM model).|Regression, Logistic|No adjustment for multiplicity.||Treatment comparison for HbA1c levels ≤6.5%||1.86|0.81|0.322
92217280|NCT01624259|184334821|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.925|TWO_SIDED|95.0|0.64|1.63||No adjustment for multiplicity.|Regression, Logistic|P-value of treatment comparison at Week 26 is from repeated generalized linear mixed model (GLM model).||Treatment comparison for HbA1c levels \<7.0%.||1.63|0.64|0.925
92217281|NCT01624259|184334822|SUPERIORITY_OR_OTHER||LS Mean Difference|1.43|STANDARD_ERROR_OF_MEAN|2.79||0.608|TWO_SIDED|95.0|-4.06|6.92|||ANCOVA|No adjustment for multiplicity.||||6.92|-4.06|0.608
92275052|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.27|||||TWO_SIDED|95.0|-4.4|22.93||||||For change in cachexia at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||22.93|-4.40|
92341941|NCT00593918|184585151|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||Analysis was per protocol based on the number of children enrolled by genotype and completed nasal washes at first visit.|Mixed Models Analysis|A mixed random effects model was used both unadjusted and adjustment for relevant co-variates obtained from the literature.||||||0.14
92341942|NCT00871234|184585191|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.03||||0.36||95.0|||||Wilcoxon signed-rank|||||||0.36
92341943|NCT03389620|184585274|NON_INFERIORITY|Based on previous literature indicating that the minimum clinical threshold for change in NRS pain score is 2 points, a non-inferiority margin of differential change between treatment arms of 2 points at the 2 month time point following the surgical procedure was specified, assuming the true difference between treatment arms is zero.||||||0.057|||||||t-test, 1 sided|||||||0.057
92341944|NCT03389620|184585275|SUPERIORITY|||||||0.376|||||||t-test, 2 sided|||Baseline to 2 weeks||||0.376
92341945|NCT03389620|184585275|SUPERIORITY|||||||0.848|||||||t-test, 2 sided|||Baseline to 4 months||||0.848
92341946|NCT03389620|184585276|SUPERIORITY|||||||0.613|||||||t-test, 2 sided|||Baseline to 2 weeks||||0.613
92341947|NCT03389620|184585276|SUPERIORITY|||||||0.565|||||||t-test, 2 sided|||Baseline to 2 months||||0.565
92341948|NCT03389620|184585276|SUPERIORITY|||||||0.958|||||||t-test, 2 sided|||Baseline to 4 months||||0.958
92341949|NCT03389620|184585277|SUPERIORITY|||||||0.287|||||||t-test, 2 sided|||Baseline to 2 weeks||||0.287
92157296|NCT01473420|184200705|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence margin of +/- 0.5 was considered relevant to demonstrate the equivalence of the two products.|LS Mean Difference|-2.34|STANDARD_ERROR_OF_MEAN|6.175|||TWO_SIDED|95.0|-14.51|9.82||||||LS mean and 95 percent CI derived from an ANCOVA model with fixed effect of treatment.||9.82|-14.51|
92157297|NCT01473420|184200706|SUPERIORITY_OR_OTHER|||||||0.8338|||||||Two-sample t-test|||||||0.8338
92157298|NCT01473420|184200707|SUPERIORITY_OR_OTHER|||||||0.6895|||||||Wilcoxon Rank Sum test|P-value was calculated from a Wilcoxon Rank Sum test and t-approximation was used.||||||0.6895
92157299|NCT01473420|184200708|SUPERIORITY_OR_OTHER|||||||0.9177|||||||Wilcoxon Rank Sum test|P-value was calculated from a Wilcoxon Rank Sum test and t-approximation was used.||||||0.9177
92157300|NCT03990363|184200769|SUPERIORITY|||||||0.0648|||||||Repeated Measures Mixed Model|||||||0.0648
92157301|NCT03990363|184200769|SUPERIORITY|||||||0.6296|||||||Repeated Measures Mixed Model|||||||0.6296
92157302|NCT03990363|184200769|SUPERIORITY|||||||0.0263|||||||Repeated Measures Mixed Model|||||||0.0263
92341950|NCT03389620|184585277|SUPERIORITY|||||||0.365|||||||t-test, 2 sided|||Baseline to 2 months||||0.365
92341951|NCT03389620|184585277|SUPERIORITY|||||||0.867|||||||t-test, 2 sided|||Baseline to 4 months||||0.867
92341952|NCT03389620|184585278|SUPERIORITY|||||||0.311|||||||t-test, 2 sided|||Baseline to 2 weeks||||0.311
92341953|NCT03389620|184585278|SUPERIORITY|||||||0.377|||||||t-test, 2 sided|||Baseline to 2 months||||0.377
92341954|NCT03389620|184585278|SUPERIORITY|||||||0.668|||||||t-test, 2 sided|||Baseline to 4 months||||0.668
92341955|NCT03389620|184585279|SUPERIORITY|||||||0.794|||||||t-test, 2 sided|||Baseline to 2 weeks||||0.794
92341956|NCT03389620|184585279|SUPERIORITY|||||||0.843|||||||t-test, 2 sided|||Baseline to 2 months||||0.843
92341957|NCT03389620|184585279|SUPERIORITY|||||||0.713|||||||t-test, 2 sided|||Baseline to 4 months||||0.713
92157303|NCT01563978|184200783|SUPERIORITY_OR_OTHER||Least squares mean treatment difference|2.93||||0.023|TWO_SIDED|95.0|0.4|5.45|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||||5.45|0.40|0.023
92157304|NCT01563978|184200784|SUPERIORITY_OR_OTHER||Least squares mean treatment difference|3.53|||<|0.001|TWO_SIDED|95.0|2.04|5.03|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||||5.03|2.04|<0.001
92157305|NCT01563978|184200785|SUPERIORITY_OR_OTHER||Least square means treatment difference|3.3||||0.02|TWO_SIDED|95.0|0.53|6.08|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean daytime SBP (Day 28)||6.08|0.53|0.020
92157306|NCT01563978|184200785|SUPERIORITY_OR_OTHER||Least square means treatment difference|3.75|||<|0.001|TWO_SIDED|95.0|2.08|5.42|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean daytime DBP (Day 28)||5.42|2.08|<0.001
92157307|NCT01563978|184200785|SUPERIORITY_OR_OTHER||Least square means treatment difference|2.07||||0.179|TWO_SIDED|95.0|-0.96|5.11|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean night-time SBP (Day 28)||5.11|-0.96|0.179
92157308|NCT01563978|184200785|SUPERIORITY_OR_OTHER||Least square means treatment difference|3.14||||0.002|TWO_SIDED|95.0|1.13|5.14|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean night-time DBP (Day 28)||5.14|1.13|0.002
92341958|NCT03389620|184585280|SUPERIORITY|||||||0.177|||||||t-test, 2 sided|||Baseline to 2 weeks||||0.177
92341959|NCT03389620|184585280|SUPERIORITY|||||||0.325|||||||t-test, 2 sided|||Baseline to 2 months||||0.325
92341960|NCT03389620|184585280|SUPERIORITY|||||||0.505|||||||t-test, 2 sided|||Baseline to 4 months||||0.505
92341961|NCT03389620|184585281|SUPERIORITY|||||||0.811|||||||t-test, 2 sided|||Baseline to 2 weeks||||0.811
92341962|NCT03389620|184585281|SUPERIORITY|||||||0.325|||||||t-test, 2 sided|||Baseline to 2 months||||0.325
92341963|NCT03389620|184585281|SUPERIORITY|||||||0.674|||||||t-test, 2 sided|||Baseline to 4 months||||0.674
92341964|NCT03389620|184585282|SUPERIORITY|||||||0.903|||||||t-test, 2 sided|||Baseline to 2 weeks||||0.903
92341965|NCT03389620|184585282|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||Baseline to 2 months||||0.500
92341966|NCT03389620|184585282|SUPERIORITY|||||||0.716|||||||t-test, 2 sided|||Baseline to 4 months||||0.716
92341967|NCT03389620|184585283|SUPERIORITY|||||||0.461|||||||Fisher Exact|||Immediately post-procedure||||0.461
92341968|NCT03389620|184585283|SUPERIORITY|||||||1|||||||Fisher Exact|||2 days post procedure||||1.00
92341969|NCT06077773|184585314|SUPERIORITY||Least Square Mean Difference (LSMD)|1.99|STANDARD_ERROR_OF_MEAN|2.38||0.4059|TWO_SIDED|90.0|-1.96|5.94||MMRM=mixed effects model for repeated measures|MMRM|The p-value was based on the treatment group by week interaction term for the visit of interest.|LSMD = EP262 minus placebo|||5.94|-1.96|0.4059
92341970|NCT06077773|184585314|SUPERIORITY||LSMD|-1.53|STANDARD_ERROR_OF_MEAN|2.385||0.5213|TWO_SIDED|90.0|-5.49|2.42||The p-value was based on the treatment group by week interaction term for the visit of interest.|MMRM||LSMD = EP262 minus placebo|||2.42|-5.49|0.5213
92217282|NCT02273726|184334856|NON_INFERIORITY|Non-inferiority was established if the 2-sided 95% confidence interval (CI) for the treatment difference in least square (LS) means from MI ANCOVA model between the 2 treatment groups lay entirely above -0.75 g/dL.|LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.058|<|0.0001|TWO_SIDED|95.0|0.365|0.591|||ANCOVA|ANCOVA with MI||Treatment comparison was made using the multiple imputation (MI) strategy by combining the results of analysis of covariance (ANCOVA) model with baseline Hb as a covariate, and treatment, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and other randomization stratification factors except mean qualifying screening hemoglobin (≤10.5 vs. \>10.5 g/dL) as fixed effects.||0.591|0.365|<0.0001
92217283|NCT02273726|184334857|NON_INFERIORITY|The non-inferiority was established when the 2-sided 95% CI for the difference of LS means between the 2 treatment groups using the MMRM model lay entirely above -0.75 g/dL.|LS Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.072|<|0.0001|TWO_SIDED|95.0|0.404|0.687|||Mixed Models Analysis|||Treatment comparison was made using a mixed model of repeated measures (MMRM) with baseline Hb as a covariate, and treatment, visit, visit-by-treatment interaction, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and randomization stratification factors except mean qualifying screening Hb (≤10.5 vs. \>10.5 g/dL) as fixed effects.||0.687|0.404|<0.0001
92217284|NCT02273726|184334858|NON_INFERIORITY|Non-inferiority was established if the lower bound of the 2-sided 95% CI for the treatment difference for the responder rates (roxadustat minus epoetin alfa) calculated based on the Miettinen \& Nurminen approach, adjusting for stratification factors, was greater than -15%.|Responder Rate Difference|7.6|||||TWO_SIDED|95.0|0.9|14.3||||||For the difference of responder rates between 2 treatment groups, the CI analyzed was from the Miettinen \& Nurminen approach adjusting for randomization stratification factors.||14.3|0.9|
92217285|NCT02273726|184334859|NON_INFERIORITY|Non-inferiority was established if the lower bound of the 2-sided 95% CI for the treatment difference for the responder rates (roxadustat minus epoetin alfa) calculated based on the Miettinen \& Nurminen approach, adjusting for stratification factors, was greater than -15%.|Responder Rate Difference|2.7|||||TWO_SIDED|95.0|-4.3|9.7||||||For the difference of responder rates between 2 treatment groups, the CI analyzed was from the Miettinen \& Nurminen approach adjusting for randomization stratification factors.||9.7|-4.3|
92217286|NCT02273726|184334860|SUPERIORITY|Superiority was declared if the upper bound of the 2-sided 95% CI of the difference between roxadustat and epoetin alfa (roxadustat - epoetin alpha) was less than 0.|Least Square Mean Difference|-14.67|STANDARD_ERROR_OF_MEAN|1.514|<|0.0001|TWO_SIDED|95.0|-17.64|-11.695|||Mixed Models Analysis|||Treatment comparison was made using a MMRM with baseline as a covariate, and treatment, visit, visit-by-treatment interaction, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and randomization stratification factors as fixed effects.||-11.695|-17.640|<0.0001
92217287|NCT02273726|184334861|NON_INFERIORITY|The non-inferiority margin was fixed as a difference of -0.75.|LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.093|<|0.0001|TWO_SIDED|95.0|0.503|0.869||Threshold for significance at 0.05 level.|ANCOVA|ANCOVA with MI||Treatment comparison was made using the MI strategy by combining the results of ANCOVA model with baseline Hb as a covariate, and treatment, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and other randomization stratification factors except mean qualifying screening Hb (≤10.5 vs. \>10.5 g/dL) as fixed effects.||0.869|0.503|<0.0001
92217288|NCT02273726|184334862|SUPERIORITY||LS Mean Difference|-20.14|STANDARD_ERROR_OF_MEAN|6.975||0.00091|TWO_SIDED|95.0|-33.842|-6.445||Threshold for significance at 0.05 level.|Rank ANCOVA|||Treatment comparison was made using an ANCOVA model with baseline iron repletion status, treatment, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and randomization stratification factors as fixed effects.||-6.445|-33.842|0.00091
92217289|NCT02273726|184334863|NON_INFERIORITY|The non-inferiority margin for the difference between groups was 1.8.|Hazard Ratio (HR)|0.67||||0.0337|TWO_SIDED|95.0|0.466|0.97|||Cox Proportional Hazards model|||Analysis was done using a Cox Proportional Hazards model adjusting for baseline Hb and other stratification factors except mean qualifying screening Hb (≤10.5 vs. \>10.5 g/dL) as fixed effects.||0.970|0.466|0.0337
92217290|NCT02273726|184334864|SUPERIORITY|Superiority was declared if the upper bound of the 2-sided 95% CI of the difference between roxadustat and epoetin alfa (roxadustat - epoetin alpha) was less than 0.|LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.739||0.35|TWO_SIDED|95.0|-0.76|2.142|||Mixed Models Analysis|||Treatment comparison was made using MMRM with baseline as a covariate, and treatment, visit, visit-by-treatment interaction, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and randomization stratification factors as fixed effects.||2.142|-0.760|0.3500
92341971|NCT03834506|184585322|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.1677|TWO_SIDED|95.0|0.78|1.09||One-sided p-value based on log-rank test stratified by prior treatment with a NHA (abiraterone acetate) and type of metastases at baseline.|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with a NHA (abiraterone acetate) and type of metastases at baseline.|||1.09|0.78|0.1677
92341972|NCT03834506|184585323|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0335|TWO_SIDED|95.0|0.71|1.01||One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||1.01|0.71|0.0335
92341973|NCT03834506|184585324|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0331|TWO_SIDED|95.0|0.74|1.01||One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||1.01|0.74|0.0331
92217291|NCT03697720|184334871|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was .05|t-test, 2 sided|Paired t-test||Paired t-tests were used to compare worst menstrual pain rating across diary day (0-10 numeric rating scale) from baseline and at 6-8 maths followup.||||<0.0001
92217292|NCT03697720|184334872|SUPERIORITY|||||||0.119|||||||t-test, 2 sided|paired t-test||||||.119
92217293|NCT04024228|184334904|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% Confidence Interval (CI) for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.9|||||TWO_SIDED|95.0|1.58|2.28||||||A/H1N1: 60-64 years||2.28|1.58|
92341974|NCT03834506|184585326|OTHER||Percent Difference|-1.8||||0.6545|TWO_SIDED|95.0|-10.7|7.1||Based on Miettinen \& Nurminen method stratified by prior treatment with a NHA (abiraterone acetate) and type of metastases at baseline.|Miettinen & Nurminen method||Based on Miettinen \& Nurminen method stratified by prior treatment with a NHA (abiraterone acetate) and type of metastases at baseline.|||7.1|-10.7|0.6545
92341975|NCT03834506|184585328|OTHER||Hazard Ratio (HR)|1.05||||0.6178|TWO_SIDED|95.0|0.77|1.43|||Log Rank|One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||1.43|0.77|0.6178
92341976|NCT03834506|184585329|OTHER||Hazard Ratio (HR)|1.54||||0.9788|TWO_SIDED|95.0|1.01|2.33|||Log Rank|One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||2.33|1.01|0.9788
92341977|NCT03834506|184585330|OTHER||Hazard Ratio (HR)|0.96||||0.297|TWO_SIDED|95.0|0.82|1.12|||Log Rank|One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||1.12|0.82|0.2970
92341978|NCT03834506|184585331|OTHER||Hazard Ratio (HR)|0.95||||0.2876|TWO_SIDED|95.0|0.78|1.15|||Log Rank|One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||1.15|0.78|0.2876
92341979|NCT00689338|184585414|SUPERIORITY_OR_OTHER||estimate of survival|53.8|||||TWO_SIDED|95.0|45.9|60.9|||Kaplan-Meier|||Kaplan-Meier estimate of survival at Day 90 (survivor function).||60.9|45.9|
92341980|NCT01939314|184585416|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.5|||||TWO_SIDED|95.0|-13.0|27.1||||||||27.1|-13.0|
92341981|NCT01939314|184585418|SUPERIORITY_OR_OTHER||Risk Difference (RD)|24.7|||||TWO_SIDED|95.0|2.6|43.6||||||||43.6|2.6|
92341982|NCT00078286|184585442|NON_INFERIORITY_OR_EQUIVALENCE|\*Power analysis already provided.|Difference in mean change score|-0.3||||0.89||95.0|||||Mixed Models Analysis|Significance was tested at p=.05.||A hierarchical mixed model was used, analyzing the fixed effects of treatment, the natural log of time, natural log of time squared, the interactions of time and time squared with treatment and site, as well as the random effects of patient, patient-by-time, and square of patient-by-time.||||0.89
92341983|NCT00078286|184585443|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.08||||0.78||95.0|||||Cochran-Mantel-Haenszel|||Tests for differences of proportions were used to examine the composite cardiovascular status outcome at the end of acute treatment. Chi-square tests were used to test for overall treatment differences, with a Mantel Haenszel test performed to examine treatment differences when controlling for clinical site. The primary analyses were conducted on the tri-level cardiovascular status outcome.||||.78
92341984|NCT03311945|184585463|OTHER||||||||||||||||||This was a single-arm study without a comparator group; therefore, no formal hypothesis testing was conducted. The primary endpoint-therapeutic failure at 48 weeks-was analyzed descriptively. The proportion of participants experiencing therapeutic failure was calculated for both the intention-to-treat (ITT) and on-treatment (OT) populations. Exact binomial (Clopper-Pearson) 95% confidence intervals were used to estimate the failure rates.|||
92341985|NCT03839394|184585492|OTHER|||||||0.012|||||||t-test, 2 sided|||This was a pilot study positioned to determine the effect size of a clinic-based intervention that has not been evaluated previously. Therefore, sample size was determined to be adequate to discern an effect size, but not powered to determine definitive statistical significance.||||0.012
92341986|NCT03839394|184585493|OTHER|||||||0.05|||||||Z-test of Proportions|||This was a pilot study positioned to determine the effect size of a clinic-based intervention that has not been evaluated previously. Therefore, sample size was determined to be adequate to discern an effect size, but not powered to determine definitive statistical significance.||||0.05
92341987|NCT03839394|184585494|OTHER|||||||0.75|||||||t-test, 2 sided|||This was a pilot study positioned to determine the effect size of a clinic-based intervention that has not been evaluated previously. Therefore, sample size was determined to be adequate to discern an effect size, but not powered to determine definitive statistical significance.||||0.750
92341988|NCT03839394|184585495|OTHER|||||||0.86|||||||t-test, 2 sided|||This was a pilot study positioned to determine the effect size of a clinic-based intervention that has not been evaluated previously. Therefore, sample size was determined to be adequate to discern an effect size, but not powered to determine definitive statistical significance.||||0.860
92341989|NCT03839394|184585496|OTHER|||||||0.76|||||||t-test, 2 sided|||This was a pilot study positioned to determine the effect size of a clinic-based intervention that has not been evaluated previously. Therefore, sample size was determined to be adequate to discern an effect size, but not powered to determine definitive statistical significance.||||0.760
92341990|NCT00922636|184585497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.74||||0.008||95.0||||Statistical significance was assessed at an alpha level of 0.027 with a Dunnett adjustment for multiple comparisons.|Mixed Models Analysis|The Least Squares (LS) Mean Change is from a restricted maximum likelihood-based, mixed model repeated measure (MMRM) analysis.|The LS Mean difference was computed as treatment minus placebo.|||||0.008
92341991|NCT00922636|184585497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.04||||0.006||95.0||||Statistical significance was assessed at an alpha level of 0.027 with a Dunnett adjustment for multiple comparisons.|Mixed Models Analysis|The Least Squares (LS) Mean Value is from a restricted maximum likelihood-based, mixed model repeated measure (MMRM) analysis.|The LS Mean difference was computed as treatment minus placebo.|||||0.006
92217294|NCT04024228|184334904|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.7|||||TWO_SIDED|95.0|1.38|2.08||||||A/H3N2: 60-64 years||2.08|1.38|
92217295|NCT04024228|184334904|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.51|||||TWO_SIDED|95.0|1.3|1.74||||||B1: 60-64 years||1.74|1.30|
92341992|NCT00922636|184585500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.938||95.0||||Statistical significance was assessed at an alpha level of 0.027 with a Dunnett adjustment for multiple comparisons.|Mixed Models Analysis|Least squares (LS) mean is from a restricted maximum likelihood-based, mixed model repeated measure (MMRM) analysis.||Gated secondary analysis for total score. If both LY2216684 groups (0.2 mg/kg/day and 0.3 mg/kg/day) were statistically significantly superior than placebo for the primary endpoint, then gated secondary analysis was assessed at an alpha level of 0.027. If only 0.2 mg/kg/day or 0.3 mg/kg/day LY2216684 was statistically significantly superior than placebo for the primary endpoint, then gated secondary analysis was assessed at an alpha level of 0.023 for the corresponding group.||||0.938
92341993|NCT00922636|184585500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.44||||0.002||95.0||||Statistical significance was assessed at an alpha level of 0.027 with a Dunnett adjustment for multiple comparisons.|Mixed Models Analysis|Least squares (LS) mean is from a restricted maximum likelihood-based, mixed model repeated measure (MMRM) analysis.||Gated secondary analysis for total score. If both LY2216684 groups (0.2 mg/kg/day and 0.3 mg/kg/day) were statistically significantly superior than placebo for the primary endpoint, then gated secondary analysis was assessed at an alpha level of 0.027. If only 0.2 mg/kg/day or 0.3 mg/kg/day LY2216684 was statistically significantly superior than placebo for the primary endpoint, then gated secondary analysis was assessed at an alpha level of 0.023 for the corresponding group.||||0.002
92341994|NCT00496769|184585579|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|1e-05|TWO_SIDED|95.0|0.32|0.62|||Log Rank|||||0.62|0.32|<0.00001
92341995|NCT00496769|184585580|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.00026|TWO_SIDED|95.0|0.53|0.83|||Log Rank||Vascular death|||0.83|0.53|0.00026
92399199|NCT00467740|184689946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.227|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.129|0.326|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.326|0.129|<0.0001
92399200|NCT00467740|184689947|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.049||0.0003||95.0|0.082|0.276|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.276|0.082|0.0003
92399201|NCT00467740|184689947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.049||0.0077||95.0|0.035|0.229|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.229|0.035|0.0077
92399202|NCT00467740|184689947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.049||0.0427||95.0|0.003|0.197|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.197|0.003|0.0427
92157309|NCT01563978|184200786|SUPERIORITY_OR_OTHER||Least square means treatment difference|3.11||||0.024|TWO_SIDED|95.0|0.41|5.81|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean awake SBP (Day 28)||5.81|0.41|0.024
92157310|NCT01563978|184200786|SUPERIORITY_OR_OTHER||Least square means treatment difference|3.66|||<|0.001|TWO_SIDED|95.0|2.1|5.22|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean awake DBP (Day 28)||5.22|2.10|<0.001
92157311|NCT01563978|184200787|SUPERIORITY_OR_OTHER||Least squares mean treatment difference|1.99||||0.223|TWO_SIDED|95.0|-1.22|5.2|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean sleeping SBP||5.20|-1.22|0.223
92157312|NCT01563978|184200787|SUPERIORITY_OR_OTHER||Least square means treatment difference|2.87||||0.007|TWO_SIDED|95.0|0.81|4.93|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean sleeping DBP||4.93|0.81|0.007
92157313|NCT01563978|184200788|SUPERIORITY_OR_OTHER||Least square means treatment difference|2.24||||0.2|TWO_SIDED|95.0|-1.2|5.69|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in clinic SBP (Day 29)||5.69|-1.20|0.200
92157314|NCT01563978|184200788|SUPERIORITY_OR_OTHER||Least square means treatment difference|2.36||||0.046|TWO_SIDED|95.0|0.05|4.68|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in clinic DBP (Day 29)||4.68|0.05|0.046
92157315|NCT01563978|184200789|SUPERIORITY_OR_OTHER||Least square means treatment difference|6.31|||<|0.001|TWO_SIDED|95.0|3.6|9.03|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in weekly average pre-dose home SBP (Week 4)||9.03|3.60|<0.001
92157316|NCT01563978|184200789|SUPERIORITY_OR_OTHER||Least square means treatment difference|4.58|||<|0.001|TWO_SIDED|95.0|2.91|6.25|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in weekly average pre-dose home DBP (Week 4)||6.25|2.91|<0.001
92157317|NCT01563978|184200790|SUPERIORITY_OR_OTHER||Least square means treatment difference|7.22|||<|0.001|TWO_SIDED|95.0|4.29|10.16|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in weekly average post-dose home SBP (Week 4)||10.16|4.29|<0.001
92217296|NCT04024228|184334904|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.77|||||TWO_SIDED|95.0|1.53|2.04||||||B2: 60-64 years||2.04|1.53|
92275053|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.19|||||TWO_SIDED|95.0|2.99|35.39||||||For change in side effects at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||35.39|2.99|
92217297|NCT04024228|184334904|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.76|||||TWO_SIDED|95.0|1.44|2.15||||||A/H1N1: \>=65 years||2.15|1.44|
92341996|NCT00496769|184585581|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.06782|TWO_SIDED|95.0|0.62|1.02|||Log Rank||All-cause death|||1.02|0.62|0.06782
92157318|NCT01563978|184200790|SUPERIORITY_OR_OTHER||Least square means treatment difference|4.74|||<|0.001|TWO_SIDED|95.0|2.9|6.59|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in weekly average post-dose home DBP (Week 4)||6.59|2.90|<0.001
92157319|NCT01563978|184200792|SUPERIORITY_OR_OTHER||Least square means treatment difference|0.74|||<|0.001|TWO_SIDED|95.0|0.4|1.08||Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)|ANCOVA|||Improvement from baseline at Day 29. Non-responder imputation has been applied following premature withdrawal, or any dose of background disease modifying antirheumatic drug increased or any other RA treatment initiated including DMARDs, anti-TNFs or other biologics, or receiving any parenteral steroids, or for patients with no post baseline data.||1.08|0.40|<0.001
92341997|NCT00496769|184585581|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0028|TWO_SIDED|95.0|0.6|0.9|||Log Rank||Composite endpoint of major vascular events and major bleeding-net clinical benefit|||0.90|0.60|0.00280
92157320|NCT01824472|184200827|SUPERIORITY||Mean difference compared across 3 groups|0.43||||0.8|TWO_SIDED||||||Kruskal-Wallis||"Kruskal-Wallis test implemented as PROC NPAR1WAY in Statistical Analysis System (SAS v9.4) for a single groupwise comparison. The mean difference (baseline to follow-up) was determined for each group, and this was compared across all 3 groups."|||||0.8
92157321|NCT01815736|184200828|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: the E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|2.7||||0.051|TWO_SIDED|95.01|-0.3|5.6||The p-value for the superiority test used a 2-sided Cochran-Mantel-Haenszel (CMH) test, stratified by prior treatment regimen.|Cochran-Mantel-Haenszel||The difference in percentages and its 95.01% confidence interval (CI) were calculated based on the Mantel-Haenszel (MH) proportion adjusted by the prior treatment regimen.|NDA Data Cut||5.6|-0.3|0.051
92157322|NCT01815736|184200828|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: the E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|4.1|||<|0.001|TWO_SIDED|95.0|1.6|6.7||The p-value for the superiority test used a 2-sided Cochran-Mantel-Haenszel (CMH) test, stratified by prior treatment regimen.|Cochran-Mantel-Haenszel||The difference in percentages and its 95% confidence interval (CI) were calculated based on the Mantel-Haenszel (MH) proportion adjusted by the prior treatment regimen.|All Participants||6.7|1.6|<0.001
92157323|NCT01815736|184200829|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|2.078|||<|0.001|TWO_SIDED|95.0|1.697|2.459||P-value was from the analysis of variance (ANOVA) model including study treatment and prior treatment regimen as fixed effects.|ANOVA||Difference in least squares means (LSM) and its 95% CI were from the ANOVA model including treatment and prior treatment regimen as fixed effects.|NDA Data Cut||2.459|1.697|<0.001
92157324|NCT01815736|184200829|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|1.807|||<|0.001|TWO_SIDED|95.0|1.488|2.126||P-value was from the analysis of variance (ANOVA) model including study treatment and prior treatment regimen as fixed effects.|ANOVA||Difference in least squares means and its 95% CI were from the ANOVA model including treatment and prior treatment regimen as fixed effects.|All Participants||2.126|1.488|<0.001
92157325|NCT01815736|184200830|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|1.97|||<|0.001|TWO_SIDED|95.0|1.551|2.39||P-value was from the analysis of variance (ANOVA) model including study treatment and prior treatment regimen as fixed effects.|ANOVA||Difference in least squares means (LSM) and its 95% CI were from the ANOVA model including treatment and prior treatment regimen as fixed effects.|NDA Data Cut||2.390|1.551|<0.001
92157326|NCT01815736|184200830|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|2.0|||<|0.001|TWO_SIDED|95.0|1.549|2.452||P-value was from the analysis of variance (ANOVA) model including study treatment and prior treatment regimen as fixed effects.|ANOVA||Difference in least squares means (LSM) and its 95% CI were from the ANOVA model including treatment and prior treatment regimen as fixed effects.|All Participants||2.452|1.549|<0.001
92157327|NCT01815736|184200831|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.05|||<|0.001|TWO_SIDED|95.0|-0.07|-0.03||P-value was from analysis of covariance (ANCOVA) model including study treatment and prior treatment as fixed effects and baseline serum creatinine as a covariate.|ANCOVA||Difference in least squares means (LSM) and its 95% CI were from the analysis of covariance (ANCOVA) model including study treatment and prior treatment regimen as fixed effects and baseline serum creatinine as a covariate.|NDA Data Cut||-0.03|-0.07|<0.001
92157328|NCT01815736|184200831|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.04|||<|0.001|TWO_SIDED|95.0|-0.05|-0.02||P-value was from analysis of covariance (ANCOVA) model including study treatment and prior treatment as fixed effects and baseline serum creatinine as a covariate.|ANCOVA||Difference in least squares means (LSM) and its 95% CI were from the analysis of covariance (ANCOVA) model including study treatment and prior treatment regimen as fixed effects and baseline serum creatinine as a covariate.|All Participants||-0.02|-0.05|<0.001
92341998|NCT00496769|184585581|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.36586|TWO_SIDED|95.0|0.65|1.17|||Log Rank||Vascular death|||1.17|0.65|0.36586
92341999|NCT00496769|184585582|OTHER||Hazard Ratio (HR)|1.54||||0.0716|TWO_SIDED|95.0|0.96|2.45|||Log Rank||Major bleeding|||2.45|0.96|0.0716
92342000|NCT00496769|184585582|OTHER||Hazard Ratio (HR)|1.3||||0.0017|TWO_SIDED|95.0|1.1|1.53|||Log Rank||All bleeding|||1.53|1.10|0.0017
92342001|NCT00496769|184585582|OTHER||Hazard Ratio (HR)|1.38||||0.0144|TWO_SIDED|95.0|1.07|1.78|||Log Rank||Major or CNRM bleeding|||1.78|1.07|0.0144
92342002|NCT00496769|184585583|OTHER||Hazard Ratio (HR)|1.3||||0.0017|TWO_SIDED|95.0|1.1|1.53|||Log Rank|||||1.53|1.10|0.0017
92342003|NCT02308046|184585588|SUPERIORITY|||||||0.002|||||||Chi-squared, Corrected|||||||0.002
92342004|NCT02308046|184585589|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
92342005|NCT02308046|184585590|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||Comparison of culture cure at 7-14 days||||<0.001
92157329|NCT01815736|184200832|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||The P-value comparing the 2 treatment groups was from the 2-sided Wilcoxon rank sum test.|Wilcoxon (Mann-Whitney)|||NDA Data Cut||||<0.001
92342006|NCT02308046|184585590|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||Comparison of culture cure at 21-30 days||||<0.001
92342007|NCT02308046|184585591|SUPERIORITY|||||||0.088|||||||Chi-squared, Corrected|||Comparison of the number of subjects whose reported their symptoms completely resolved||||0.088
92342008|NCT01181167|184585600|NON_INFERIORITY_OR_EQUIVALENCE|"Difference in incidence of thromboembolic events between DU-176b and enoxaparin groups and 95% confidence interval (CI) were calculated.~Incidence of thromboembolic events and 95% CI also calculated by treatment group.~Only when null hypothesis H01 was rejected, upper limit of 95% CI for difference between DU-176b and enoxaparin groups was confirmed. When upper limit of 95% CI was below 0%, DU-176b was considered to be superior to enoxaparin in terms of the prevention of VTE."|Cox Proportional Hazard|-4.5|||<|0.001|ONE_SIDED|95.0||||Farrington Manning Method|ANCOVA|||Hypothesis testing of proportion of subjects who experienced at least one thromboembolic events, defined as primary endpoint, carried out using Farrington-Manning method. Null hypothesis H˅01: Incidence of thromboembolic events in DU-176b group (P˅DU) = Incidence of thromboembolic events in enoxaparin group (P˅E) + Δ (8%). Alternative hypothesis H˅11: P˅DU \< P˅E + Δ (significance level: One-sided, 0.025)||||<0.001
92342009|NCT01573000|184585608|SUPERIORITY_OR_OTHER||percentage of participants|50.0|||||TWO_SIDED|95.0|35.0|65.0|||||The estimated value represents the percentage of participants with confirmed response (CR, CCR, PR). The number of participants evaluable for overall response (confirmed and unconfirmed; n=42) is used as the denominator.|||65|35|
92342010|NCT01573000|184585608|SUPERIORITY_OR_OTHER||percentage of participants|22.0|||||TWO_SIDED|95.0|9.0|36.0|||||The estimated value represents the percentage of participants with confirmed response (CR, CCR, PR). The number of participants evaluable for overall response (confirmed and unconfirmed; n=36) is used as the denominator.|||36|9|
92342011|NCT01573000|184585609|SUPERIORITY_OR_OTHER||percentage of participants|16.0|||||TWO_SIDED|95.0|0.0|32.0|||||The estimated value represents the percentage of participants with confirmed response (CR, CCR, PR) before Crossover.|||32|0|
92342012|NCT01573000|184585609|SUPERIORITY_OR_OTHER||percentage of participants|79.0|||||TWO_SIDED|95.0|61.0|97.0|||||The estimated value represents the percentage of participants with confirmed response (CR, CCR, PR) after Crossover.|||97|61|
92342013|NCT01573000|184585610|SUPERIORITY_OR_OTHER||percentage of participants|26.0|||||TWO_SIDED|95.0|13.0|39.0|||||The estimated value represents the percentage of participants with complete response. The number of participants evaluable for overall response (confirmed and unconfirmed; n=42) is used as the denominator.|||39|13|
92342014|NCT01573000|184585610|SUPERIORITY_OR_OTHER||percentage of participants|8.0|||||TWO_SIDED|95.0|0.0|17.0|||||The estimated value represents the percentage of participants with complete response. The number of participants evaluable for overall response (confirmed and unconfirmed; n=36) is used as the denominator.|||17|0|
92342015|NCT01573000|184585611|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Fisher Exact|||||||0.012
92342016|NCT01573000|184585612|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated value represents the percentage of participants with confirmed complete response before Crossover.|||0|0|
92342017|NCT01573000|184585612|SUPERIORITY_OR_OTHER||percentage of participants|42.0|||||TWO_SIDED|95.0|20.0|64.0|||||The estimated value represents the percentage of participants with confirmed complete response after Crossover.|||64|20|
92342018|NCT01573000|184585613|SUPERIORITY_OR_OTHER||percentage of participants|2.0|||||TWO_SIDED|95.0|0.0|7.0|||||The estimated value represents the percentage of participants with confirmed CCR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=42) is used as the denominator.|||7|0|
92342019|NCT01573000|184585613|SUPERIORITY_OR_OTHER||percentage of participants|3.0|||||TWO_SIDED|95.0|0.0|8.0|||||The estimated value represents the percentage of participants with confirmed CCR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=36) is used as the denominator.|||8|0|
92342020|NCT01573000|184585614|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated value represents the percentage of participants with confirmed CCR before Crossover.|||0|0|
92157330|NCT01815736|184200832|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||The P-value comparing the 2 treatment groups was from the 2-sided Wilcoxon rank sum test.|Wilcoxon (Mann-Whitney)|||All Participants||||<0.001
92157331|NCT01815736|184200833|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: The E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|3.7||||0.017|TWO_SIDED|95.0|0.4|7.0||P-value for the superiority test comparing the percentages of virologic success was from the CMH test stratified by the prior treatment regimen (STB, ATR, ATV/boosted+TVD).|Cochran-Mantel-Haenszel||The difference in percentages of virologic success and its 95% CI were calculated based on the MH proportion adjusted by the prior treatment regimen.|||7.0|0.4|0.017
92157332|NCT01815736|184200834|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: The E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|1.8||||0.29|TWO_SIDED|95.0|-1.7|5.3||P-value for the superiority test comparing the percentages of virologic success was from the CMH test stratified by the prior treatment regimen (STB, ATR, ATV/boosted+TVD).|Cochran-Mantel-Haenszel||Difference in percentages of virologic success and its 95% CI were calculated based on the MH proportion adjusted by the prior treatment regimen.|NDA Data Cut||5.3|-1.7|0.29
92342021|NCT01573000|184585614|SUPERIORITY_OR_OTHER||percentage of participants|5.0|||||TWO_SIDED|95.0|0.0|15.0|||||The estimated value represents the percentage of participants with confirmed CCR after Crossover.|||15|0|
92342022|NCT01573000|184585615|SUPERIORITY_OR_OTHER||percentage of participants|31.0|||||TWO_SIDED|95.0|17.0|45.0|||||The estimated value represents the percentage of participants with confirmed CR and CCR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=42) is used as the denominator.|||45|17|
92342023|NCT01573000|184585615|SUPERIORITY_OR_OTHER||percentage of participants|11.0|||||TWO_SIDED|95.0|1.0|21.0|||||The estimated value represents the percentage of participants with confirmed CR and CCR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=36) is used as the denominator.|||21|1|
92157333|NCT01815736|184200834|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: the E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|3.2||||0.031|TWO_SIDED|95.0|0.1|6.3||P-value for the superiority test comparing the percentages of virologic success was from the CMH test stratified by the prior treatment regimen (STB, ATR, ATV/boosted+TVD).|Cochran-Mantel-Haenszel||Difference in percentages of virologic success and its 95% CI were calculated based on the MH proportion adjusted by the prior treatment regimen.|All Participants||6.3|0.1|0.031
92342024|NCT01573000|184585616|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated value represents the percentage of participants with confirmed CR and CCR before Crossover.|||0|0|
92342025|NCT01573000|184585616|SUPERIORITY_OR_OTHER||percentage of participants|47.0|||||TWO_SIDED|95.0|25.0|70.0|||||The estimated value represents the percentage of participants with confirmed CR and CCR after Crossover.|||70|25|
92342026|NCT01573000|184585617|SUPERIORITY_OR_OTHER||percentage of participants|17.0|||||TWO_SIDED|95.0|5.0|28.0|||||The estimated value represents the percentage of participants with confirmed PR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=42) is used as the denominator.|||28|5|
92342027|NCT01573000|184585617|SUPERIORITY_OR_OTHER||percentage of participants|11.0|||||TWO_SIDED|95.0|1.0|21.0|||||The estimated value represents the percentage of participants with confirmed PR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=36) is used as the denominator.|||21|1|
92342028|NCT01573000|184585618|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||||||0.001
92342029|NCT01573000|184585620|SUPERIORITY_OR_OTHER|||||||0.495||95.0|||||Log Rank|||||||0.495
92342030|NCT01573000|184585621|SUPERIORITY_OR_OTHER|||||||0.677||95.0|||||Log Rank|||||||0.677
92342031|NCT01573000|184585624|SUPERIORITY_OR_OTHER|||||||0.119||95.0|||||Log Rank|||||||0.119
92342032|NCT01573000|184585625|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||Log Rank|||||||0.016
92399203|NCT00467740|184689947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001||95.0|0.143|0.336|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.336|0.143|<0.0001
92399204|NCT00467740|184689948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.048||0.0005||95.0|0.074|0.263|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.263|0.074|0.0005
92217298|NCT04024228|184334904|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|2.15|||||TWO_SIDED|95.0|1.74|2.65||||||A/H3N2: \>=65 years||2.65|1.74|
92217299|NCT04024228|184334904|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.55|||||TWO_SIDED|95.0|1.34|1.79||||||B1: \>=65 years||1.79|1.34|
92342033|NCT01573000|184585638|SUPERIORITY_OR_OTHER||percentage of participants|16.0|||||TWO_SIDED|95.0|0.0|32.0|||||The estimated value represents the percentage of participants with confirmed PR before Crossover.|||32|0|
92342034|NCT01573000|184585638|SUPERIORITY_OR_OTHER||percentage of participants|32.0|||||TWO_SIDED|95.0|11.0|52.0|||||The estimated value represents the percentage of participants with confirmed PR after Crossover.|||52|11|
92342035|NCT00729521|184585651|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.92|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|0.88|0.95|||Mixed Models Analysis|Mixed Effects Poisson Regression|Comparison group is the control arm.|||0.95|0.88|<0.05
92342036|NCT00729521|184585651|SUPERIORITY_OR_OTHER||Incident Rate Ratio|0.91|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|0.88|0.94|||Mixed Models Analysis|Mixed Effected Poisson Model Regression|Comparison group is the control arm.|||0.94|0.88|<.05
92342037|NCT01450813|184585699|NON_INFERIORITY_OR_EQUIVALENCE|Sample size needed for a one-way ANOVA test with an alpha of 0.05 and power of 0.8 to rule out the null hypothesis that neuromuscular blocking drugs have no effect on CVI with 95% confidence was a total of 64 or 16 per Group.|||||<|0.05||||||Comparisons of the means were accomplished via student's t-test with Bonferroni correction for multiple comparisons.|ANOVA|||Null hypothesis that neuromuscular blocking drugs have no effect on CVI with 95% confidence.||||< 0.05
92342038|NCT00752089|184585729|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.146||||0.7756|TWO_SIDED|95.0|-6.904|9.196||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||9.196|-6.904|0.7756
92342039|NCT00752089|184585729|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.291||||0.4194|TWO_SIDED|95.0|-4.84|11.421||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||11.421|-4.840|0.4194
92342040|NCT00752089|184585729|SUPERIORITY_OR_OTHER||Adjusted mean difference|22.2|||<|0.0001|TWO_SIDED|95.0|14.28|30.12||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||30.120|14.280|<0.0001
92342041|NCT00752089|184585729|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.145||||0.5927|TWO_SIDED|95.0|-5.874|10.164||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||10.164|-5.874|0.5927
92399205|NCT00467740|184689948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.048||0.0003||95.0|0.08|0.269|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.269|0.080|0.0003
92157334|NCT01815736|184200835|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: the E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|5.3||||0.003|TWO_SIDED|95.0|1.6|9.0||P-value for the superiority test comparing the percentages of virologic success was from the CMH test stratified by the prior treatment regimen (STB, ATR, ATV/boosted+TVD).|Cochran-Mantel-Haenszel||Difference in percentages of virologic success and its 95% CI were calculated based on the MH proportion adjusted by the prior treatment regimen.|||9.0|1.6|0.003
92157335|NCT01815736|184200836|SUPERIORITY||Difference in least squares means|6.0||||0.56|TWO_SIDED|95.0|-14.0|26.0||P-values were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs. SBR) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|ANOVA||Difference in least squares means (Diff in LSM), and its 95% CI were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs. FTC/TDF+3rd Agent) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|NDA Data Cut: Change at Week 48||26|-14|0.56
92157336|NCT01815736|184200836|SUPERIORITY||Difference in least squares means|11.0||||0.26|TWO_SIDED|95.0|-8.0|29.0||P-values were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs. SBR) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|ANOVA||Difference in least squares means and its 95% CI were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs.SBR) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|All Participants: Change at Week 48||29|-8|0.26
92157337|NCT01815736|184200837|SUPERIORITY||Difference in least squares means|18.0||||0.074|TWO_SIDED|95.0|-2.0|38.0||P-values were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs. SBR) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|ANOVA||Difference in least squares means and its 95% CI were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs. SBR) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|||38|-2|0.074
92157338|NCT04684914|184200904|SUPERIORITY|||||||0.3029|||||||Chi-squared|||||||0.3029
92157339|NCT04684914|184200904|SUPERIORITY|||||||0.4881|||||||Fisher Exact|||||||0.4881
92157340|NCT04684914|184200905|SUPERIORITY|||||||0.3029|||||||Chi-squared|||||||0.3029
92342042|NCT00752089|184585729|SUPERIORITY_OR_OTHER||Adjusted mean difference|21.054|||<|0.0001|TWO_SIDED|95.0|13.189|28.919||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||28.919|13.189|<0.0001
92342043|NCT00752089|184585729|SUPERIORITY_OR_OTHER||Adjusted mean difference|18.909|||<|0.0001|TWO_SIDED|95.0|11.036|26.783||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||26.783|11.036|<0.0001
92342044|NCT00752089|184585730|SUPERIORITY_OR_OTHER||Adjusted mean difference|-321.438||||0.199|TWO_SIDED|95.0|-818.118|175.242||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||175.242|-818.118|0.1990
92342045|NCT00752089|184585730|SUPERIORITY_OR_OTHER||Adjusted mean difference|-72.68||||0.7718||95.0|-574.398|429.039||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||429.039|-574.398|0.7718
92157341|NCT04684914|184200905|SUPERIORITY|||||||0.4881|||||||Fisher Exact|||||||0.4881
92157342|NCT04684914|184200906|SUPERIORITY|||||||0.4169|||||||Chi-squared|||||||0.4169
92157343|NCT04684914|184200906|SUPERIORITY|||||||0.5495|||||||Fisher Exact|||||||0.5495
92157344|NCT04471792|184200944|SUPERIORITY|||||||0.38||||||P=0.380 comparing creatine vs. placebo|ANOVA|Two-way ANOVA for pre vs. post values and for the difference between creatine vs. placebo||||||0.38
92342046|NCT00752089|184585730|SUPERIORITY_OR_OTHER||Adjusted mean difference|1784.675|||<|0.0001||95.0|1296.044|2273.306||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||2273.306|1296.044|<0.0001
92342047|NCT00752089|184585730|SUPERIORITY_OR_OTHER||Adjusted mean difference|248.758||||0.3164||95.0|-245.962|743.478||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included tratment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||743.478|-245.962|0.3164
92157345|NCT04471792|184200945|SUPERIORITY|||||||0.883||||||p=0.883 when comparing effect of creatine to palcebo on rate/change in reperfusion slope|ANOVA|Two-way ANOVA, pre vs. post differences and creatine vs. placebo differences were examined||||||0.883
92157346|NCT04471792|184200945|SUPERIORITY|||||||0.883|||||||ANOVA|||||||0.883
92157347|NCT05516342|184200965|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92157348|NCT05516342|184200966|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92157349|NCT05516342|184200967|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92157350|NCT05516342|184200968|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92157351|NCT05516342|184200969|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92157352|NCT05516342|184200970|SUPERIORITY|||||||0.89|||||||ANOVA|||||||0.89
92157353|NCT05516342|184200971|SUPERIORITY|||||||0.27|||||||ANOVA|||||||0.27
92157354|NCT05516342|184200972|SUPERIORITY|||||||0.19|||||||ANOVA|||||||0.19
92342048|NCT00752089|184585730|SUPERIORITY_OR_OTHER||Adjusted mean difference|2106.113|||<|0.0001|TWO_SIDED|95.0|1620.906|2591.32||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||2591.320|1620.906|<0.0001
92342049|NCT00752089|184585730|SUPERIORITY_OR_OTHER||Adjusted mean difference|1857.355|||<|0.0001|TWO_SIDED|95.0|1371.637|2343.072||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period and fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||2343.072|1371.637|<0.0001
92342050|NCT01774981|184585731|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0449|||||||t-test, 1 sided|||||||0.0449
92342051|NCT01774981|184585731|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0808|||||||t-test, 1 sided|||||||0.0808
92342052|NCT01774981|184585731|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2219|||||||t-test, 1 sided|||||||0.2219
92342053|NCT01324102|184585735|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|95.0||||The a priori threshold for statistical significance is .05. The .004 value exceeds this value. There was only one comparison, so there was no adjustment for multiple comparison. This analysis refers to the row and category of anxiety.|ANOVA|F=10.25||Repeated measure Analysis of Variance (ANOVA) with null hypothesis of no group differences, comparing anxiety scores pre-Yoga versus post-Yoga, between the two groups for changes in anxiety.||||.004
92342054|NCT01324102|184585735|SUPERIORITY_OR_OTHER|||||||0.056|TWO_SIDED|||||F=4.07. The a priori threshold for statistical significance is .05. The .056 value does not exceed it. There was only one comparison, so there was no adjustment for multiple comparison. This analysis refers to the row/category of insomnia.|ANOVA|||Repeated measure Analysis of Variance (ANOVA) with null hypothesis of no group differences, comparing insomnia scores pre-Yoga versus post-Yoga, between the two groups. This measures changes in insomnia.||||.056
92342055|NCT00975416|184585750|SUPERIORITY_OR_OTHER|||||||0.927|TWO_SIDED||||||ANOVA|||Repeated measures ANOVA to deterimine whether oxytocin increased compared to placebo measures of therapeutic alliance (as measured by the Helping alliance questionnaire) pre compared to post 12 sessions of CBT.||||0.927
92342056|NCT00975416|184585750|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||ANOVA|||Repeated measures anova to determine if oxytocin compared to placebo increased therpeutic alliance as measured by the working alliance inventory after 12 sessions of CBT.||||0.60
92342057|NCT02915835|184585752|SUPERIORITY|||||||0.7|||||||ANCOVA|||||||0.70
92342058|NCT02915835|184585753|SUPERIORITY|||||||0.61|||||||Fisher Exact|||||||0.61
92342059|NCT02915835|184585754|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342060|NCT02915835|184585755|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342061|NCT02915835|184585756|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342062|NCT02915835|184585757|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342063|NCT02915835|184585758|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342064|NCT02915835|184585759|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342065|NCT02915835|184585760|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342066|NCT02915835|184585761|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342067|NCT02915835|184585762|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342068|NCT02915835|184585763|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342069|NCT02915835|184585764|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342070|NCT02915835|184585765|SUPERIORITY|||||||0.56|||||||Log Rank|||||||.56
92342071|NCT02915835|184585766|SUPERIORITY|||||||0.35|||||||Log Rank|||||||.35
92342072|NCT02915835|184585768|SUPERIORITY|||||||0.76|||||||ANCOVA|||||||.76
92342073|NCT02915835|184585769|SUPERIORITY|||||||0.57|||||||ANCOVA|||||||.57
92342074|NCT02915835|184585770|SUPERIORITY|||||||0.4|||||||ANCOVA|||||||.40
92342075|NCT02915835|184585771|SUPERIORITY|||||||0.49|||||||ANCOVA|||||||.49
92342076|NCT02915835|184585772|SUPERIORITY|||||||0.75|||||||ANCOVA|||||||.75
92342077|NCT02915835|184585773|SUPERIORITY|||||||0.41|||||||ANCOVA|||||||.41
92342078|NCT02915835|184585774|SUPERIORITY|||||||0.31|||||||ANCOVA|||||||0.31
92342079|NCT02915835|184585775|SUPERIORITY|||||||0.84|||||||ANCOVA|||||||0.84
92342080|NCT02915835|184585776|SUPERIORITY|||||||0.11|||||||ANCOVA|||||||0.11
92342081|NCT02915835|184585777|SUPERIORITY|||||||0.66|||||||ANCOVA|||||||0.66
92342082|NCT02915835|184585778|SUPERIORITY|||||||0.27|||||||ANCOVA|||||||0.27
92157355|NCT05516342|184200973|SUPERIORITY|||||||0.1|||||||ANOVA|||||||0.10
92342083|NCT02915835|184585779|SUPERIORITY|||||||0.54|||||||ANCOVA|||||||0.54
92342084|NCT02915835|184585780|SUPERIORITY|||||||0.9|||||||ANCOVA|||||||.90
92342085|NCT02915835|184585781|SUPERIORITY|||||||0.68|||||||ANCOVA|||||||.68
92342086|NCT02915835|184585782|SUPERIORITY|||||||0.25|||||||ANCOVA|||||||.25
92342087|NCT02915835|184585783|SUPERIORITY|||||||0.95|||||||ANCOVA|||||||.95
92342088|NCT02915835|184585784|SUPERIORITY|||||||0.38|||||||ANCOVA|||||||0.38
92342089|NCT02915835|184585785|SUPERIORITY|||||||0.82|||||||ANCOVA|||||||.82
92342090|NCT02915835|184585786|SUPERIORITY|||||||0.47|||||||ANCOVA|||||||.47
92342091|NCT02915835|184585787|SUPERIORITY|||||||0.35|||||||ANCOVA|||||||0.35
92342092|NCT02915835|184585788|SUPERIORITY|||||||0.84|||||||ANCOVA|||||||0.84
92342093|NCT02915835|184585789|SUPERIORITY|||||||0.55|||||||ANCOVA|||||||0.55
92342094|NCT02915835|184585791|SUPERIORITY|||||||0.34|||||||ANCOVA|||||||0.34
92342095|NCT02915835|184585792|SUPERIORITY|||||||0.36|||||||ANCOVA|||||||0.36
92342096|NCT02915835|184585793|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||0.04
92342097|NCT02915835|184585794|SUPERIORITY|||||||0.32|||||||ANCOVA|||||||0.32
92342098|NCT02915835|184585795|SUPERIORITY|||||||0.14|||||||ANCOVA|||||||0.14
92342099|NCT02915835|184585796|SUPERIORITY|||||||0.41|||||||ANCOVA|||||||0.41
92342100|NCT02915835|184585797|SUPERIORITY|||||||0.85|||||||ANCOVA|||||||0.85
92342101|NCT02915835|184585798|SUPERIORITY|||||||0.85|||||||ANCOVA|||||||0.85
92342102|NCT02915835|184585799|SUPERIORITY|||||||0.75|||||||ANCOVA|||||||0.75
92157356|NCT02401529|184200991|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||Chi-squared|||||||0.033
92157357|NCT02401529|184200992|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||Chi-squared|||||||0.026
92157358|NCT02401529|184200993|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||Chi-squared|||||||0.016
92157359|NCT02401529|184200994|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Chi-squared|||||||0.019
92342103|NCT02915835|184585800|SUPERIORITY|||||||0.95|||||||ANCOVA|||||||0.95
92342104|NCT02915835|184585801|SUPERIORITY|||||||0.31|||||||ANCOVA|||||||0.31
92342105|NCT02915835|184585802|SUPERIORITY|||||||0.14|||||||ANCOVA|||||||0.14
92399206|NCT00467740|184689948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.048||0.0004||95.0|0.078|0.268|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.268|0.078|0.0004
92399207|NCT00467740|184689948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.296|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001||95.0|0.202|0.39|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.390|0.202|<0.0001
92157360|NCT02401529|184200995|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Chi-squared|||||||0.012
92157361|NCT02401529|184200996|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Chi-squared|||||||0.024
92157362|NCT02401529|184200997|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||||||0.02
92157363|NCT02401529|184200998|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||Chi-squared|||||||0.017
92157364|NCT02401529|184200999|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||Chi-squared|||||||0.026
92157365|NCT02401529|184201000|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Chi-squared|||||||0.019
92157366|NCT05310084|184201042|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (coadministration group to separate-administration group) was greater than 0.67.|GMR|0.83|||||TWO_SIDED|95.0|0.77|0.89|||||GMRs and 95% CIs were calculated by exponentiating LSmeans difference of logarithms of concentrations (coadmin group-separate admin group), corresponding CIs based on analysis of log transformed assay results using a linear regression model.|||0.89|0.77|
92157367|NCT05310084|184201043|NON_INFERIORITY|Noninferiority was declared for an influenza strain if the lower bound of the 2-sided 95% CI for the GMR (coadministration group to separate administration group) was greater than 0.67|Geometric Mean Ratio|0.89|||||TWO_SIDED|95.0|0.77|1.04|||||GMRs and 95% CIs were calculated by exponentiating LSmeans difference of logarithms of titers (coadministration group-separate administration group), corresponding CIs based on analysis of log transformed assay results using a linear regression model|B/Austria||1.04|0.77|
92157368|NCT05310084|184201043|NON_INFERIORITY|Noninferiority was declared for an influenza strain if the lower bound of the 2-sided 95% CI for the GMR (coadministration group to separate administration group) was greater than 0.67.|GMR|1.0|||||TWO_SIDED|95.0|0.89|1.13|||||GMRs and 95% CIs were calculated by exponentiating LSmeans difference of logarithms of titers (coadministration group-separate administration group), corresponding CIs based on analysis of log transformed assay results using a linear regression model|B/Phuket||1.13|0.89|
92157369|NCT05310084|184201043|NON_INFERIORITY|Noninferiority was declared for an influenza strain if the lower bound of the 2-sided 95% CI for the GMR (coadministration group to separate administration group) was greater than 0.67.|GMR|0.95|||||TWO_SIDED|95.0|0.83|1.09|||||GMRs and 95% CIs were calculated by exponentiating LSmeans difference of logarithms of titers (coadministration group-separate administration group), corresponding CIs based on analysis of log transformed assay results using a linear regression model|H1N1 A/Victoria||1.09|0.83|
92157370|NCT05310084|184201043|NON_INFERIORITY|Noninferiority was declared for an influenza strain if the lower bound of the 2-sided 95% CI for the GMR (coadministration group to separate administration group) was greater than 0.67.|GMR|0.96|||||TWO_SIDED|95.0|0.85|1.09|||||GMRs and 95% CIs were calculated by exponentiating LSmeans difference of logarithms of titers (coadministration group-separate administration group), corresponding CIs based on analysis of log transformed assay results using a linear regression model|H3N2 A/Darwin||1.09|0.85|
92157371|NCT03531905|184201132|SUPERIORITY||Difference of Least Squares (LS) means|-39.6|STANDARD_ERROR_OF_MEAN|3.14|<|0.001|TWO_SIDED|95.0|-45.8|-33.4|||ANCOVA|||||-33.4|-45.8|<0.001
92157372|NCT03531905|184201132|SUPERIORITY||Difference of LS means|-19.5|STANDARD_ERROR_OF_MEAN|3.11|<|0.001|TWO_SIDED|95.0|-25.7|-13.4|||ANCOVA|||||-13.4|-25.7|<0.001
92342106|NCT02915835|184585803|SUPERIORITY|||||||0.32|||||||ANCOVA|||||||0.32
92342107|NCT02915835|184585804|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
92342108|NCT02915835|184585805|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92342109|NCT02915835|184585806|SUPERIORITY|||||||0.73|||||||ANCOVA|||||||0.73
92342110|NCT02915835|184585807|SUPERIORITY|||||||0.32|||||||ANCOVA|||||||0.32
92342111|NCT02915835|184585808|SUPERIORITY|||||||0.45|||||||ANCOVA|||||||0.45
92342112|NCT02915835|184585809|SUPERIORITY|||||||0.58|||||||ANCOVA|||||||0.58
92342113|NCT02915835|184585810|SUPERIORITY|||||||0.39|||||||ANCOVA|||||||0.39
92342114|NCT02915835|184585811|SUPERIORITY|||||||0.14|||||||ANCOVA|||||||0.14
92342115|NCT00433836|184585812|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority delta of 3.5 mm Hg|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-3.8|1.17|||ANOVA|||||1.17|-3.80|
92342116|NCT01240382|184585821|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority in mean change in fluorescein staining score from baseline was assessed on the non-inferiority margin (0.34) with the upper limit of the confidence interval of the difference between the 2 treatment groups.|Median Difference (Final Values)|-0.03||||||95.0|-0.405|0.338|||l|||||0.338|-0.405|
92342117|NCT01240382|184585822|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.67||||0.01||95.0|-1.18|-0.67|||t-test, 2 sided|||||-0.67|-1.18|0.010
92342118|NCT02456727|184585823|SUPERIORITY||Mean Difference (Net)|-0.3714|STANDARD_ERROR_OF_MEAN|0.2039||0.0691|TWO_SIDED|95.0|-0.772|0.0291|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||0.0291|-0.7720|0.0691
92399208|NCT00467740|184689949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.048||0.0004||95.0|0.078|0.268|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.268|0.078|0.0004
92342119|NCT02456727|184585824|SUPERIORITY||Mean Difference (Net)|-0.1631|STANDARD_ERROR_OF_MEAN|0.246||0.5077|TWO_SIDED|95.0|-0.6452|0.319|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||0.319|-0.6452|0.5077
92399209|NCT00467740|184689949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.048||0.0002||95.0|0.09|0.281|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.281|0.090|0.0002
92157373|NCT03531905|184201132|SUPERIORITY||Difference of LS means|-20.1|STANDARD_ERROR_OF_MEAN|3.08|<|0.001|TWO_SIDED|95.0|-26.2|-14.0|||ANCOVA|||||-14.0|-26.2|<0.001
92157374|NCT03531905|184201133|SUPERIORITY||Difference of LS means|-20.1|STANDARD_ERROR_OF_MEAN|3.08|<|0.001|TWO_SIDED|95.0|-26.2|-14.0|||ANCOVA|||||-14.0|-26.2|<0.001
92157375|NCT03531905|184201134|SUPERIORITY||Location shift|-36.7|STANDARD_ERROR_OF_MEAN|9.77|<|0.001|TWO_SIDED|95.0|-55.97|-17.67|||Wilcoxon rank sum test|||||-17.67|-55.97|<0.001
92157376|NCT03531905|184201134|SUPERIORITY||Location shift|-29.2|STANDARD_ERROR_OF_MEAN|10.03||0.005|TWO_SIDED|95.0|-48.92|-9.62|||Wilcoxon rank sum test|||||-9.62|-48.92|0.005
92157377|NCT03531905|184201134|SUPERIORITY||Location shift|-7.5|STANDARD_ERROR_OF_MEAN|11.29||0.48|TWO_SIDED|95.0|-30.51|13.76|||Wilcoxon rank sum test|||||13.76|-30.51|0.480
92157378|NCT03531905|184201135|SUPERIORITY||Difference of LS means|-33.1|STANDARD_ERROR_OF_MEAN|2.81|<|0.001|TWO_SIDED|95.0|-38.6|-27.5|||ANCOVA|||||-27.5|-38.6|<0.001
92157379|NCT03531905|184201135|SUPERIORITY||Difference of LS means|-15.3|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-20.8|-9.7|||ANCOVA|||||-9.7|-20.8|<0.001
92157380|NCT03531905|184201135|SUPERIORITY||Difference of LS means|-17.8|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-23.3|-12.4|||ANCOVA|||||-12.4|-23.3|<0.001
92157381|NCT03531905|184201136|SUPERIORITY||Difference of LS means|-27.2|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|-31.7|-22.8|||ANCOVA|||||-22.8|-31.7|<0.001
92157382|NCT03531905|184201136|SUPERIORITY||Difference of LS means|-13.4|STANDARD_ERROR_OF_MEAN|2.24|<|0.001|TWO_SIDED|95.0|-17.8|-9.0|||ANCOVA|||||-9.0|-17.8|<0.001
92157383|NCT03531905|184201136|SUPERIORITY||Difference of LS means|-13.9|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|-18.2|-9.5|||ANCOVA|||||-9.5|-18.2|<0.001
92157384|NCT03531905|184201137|SUPERIORITY||Difference of LS means|-27.2|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-32.6|-21.8|||ANCOVA|||||-21.8|-32.6|<0.001
92157385|NCT03531905|184201137|SUPERIORITY||Difference of LS means|-12.8|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-18.1|-7.4|||ANCOVA|||||-7.4|-18.1|<0.001
92157386|NCT03531905|184201137|SUPERIORITY||Difference of LS means|-14.4|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|-19.7|-9.1|||ANCOVA|||||-9.1|-19.7|<0.001
92157387|NCT03531905|184201138|SUPERIORITY||Location shift|-3.9|STANDARD_ERROR_OF_MEAN|5.44||0.457|TWO_SIDED|95.0|-14.55|6.79|||Wilcoxon rank sum test|||||6.79|-14.55|0.457
92157388|NCT03531905|184201138|SUPERIORITY||Difference of LS means|4.7|STANDARD_ERROR_OF_MEAN|5.25||0.351|TWO_SIDED|95.0|-4.93|15.63|||ANCOVA|||||15.63|-4.93|0.351
92157389|NCT03531905|184201138|SUPERIORITY||Difference of LS means|-9.2|STANDARD_ERROR_OF_MEAN|4.75||0.068|TWO_SIDED|95.0|-17.92|0.68|||ANCOVA|||||0.68|-17.92|0.068
92157390|NCT03531905|184201139|SUPERIORITY||Difference of LS means|-5.9|STANDARD_ERROR_OF_MEAN|2.14||0.007|TWO_SIDED|95.0|-10.1|-1.7|||ANCOVA|||||-1.7|-10.1|0.007
92157391|NCT03531905|184201139|SUPERIORITY||Difference of LS means|-7.3|STANDARD_ERROR_OF_MEAN|2.12|<|0.001|TWO_SIDED|95.0|-11.5|-3.1|||ANCOVA|||||-3.1|-11.5|<0.001
92217300|NCT04024228|184334904|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.76|||||TWO_SIDED|95.0|1.52|2.03||||||B2: \>=65 years||2.03|1.52|
92399210|NCT00467740|184689949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.048||0.0047||95.0|0.043|0.233|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.233|0.043|0.0047
92157392|NCT03531905|184201139|SUPERIORITY||Difference of LS means|1.4|STANDARD_ERROR_OF_MEAN|2.11||0.517|TWO_SIDED|95.0|-2.8|5.5|||ANCOVA|||||5.5|-2.8|0.517
92157393|NCT03531905|184201140|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92157394|NCT03531905|184201140|SUPERIORITY|||||||0.118|||||||Fisher Exact|||||||0.118
92157395|NCT03531905|184201140|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92157396|NCT03531905|184201141|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92157397|NCT03531905|184201141|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92157398|NCT03531905|184201143|SUPERIORITY||Difference of LS means|-0.3|STANDARD_ERROR_OF_MEAN|1.83||0.877|TWO_SIDED|95.0|-3.9|3.3|||ANCOVA|||||3.3|-3.9|0.877
92157399|NCT03531905|184201143|SUPERIORITY||Difference of LS means|0.8|STANDARD_ERROR_OF_MEAN|1.83||0.669|TWO_SIDED|95.0|-2.8|4.4|||ANCOVA|||||4.4|-2.8|0.669
92157400|NCT03531905|184201143|SUPERIORITY||Difference of LS means|-1.1|STANDARD_ERROR_OF_MEAN|1.81||0.556|TWO_SIDED|95.0|-4.6|2.5|||ANCOVA|||||2.5|-4.6|0.556
92157401|NCT03531905|184201144|SUPERIORITY||Difference of LS means|2.5|STANDARD_ERROR_OF_MEAN|4.64||0.589|TWO_SIDED|95.0|-6.7|11.7|||ANCOVA|||||11.7|-6.7|0.589
92157402|NCT03531905|184201144|SUPERIORITY||Difference of LS means|0.6|STANDARD_ERROR_OF_MEAN|4.64||0.904|TWO_SIDED|95.0|-8.6|9.7|||ANCOVA|||||9.7|-8.6|0.904
92157403|NCT03531905|184201144|SUPERIORITY||Difference of LS means|2.0|STANDARD_ERROR_OF_MEAN|4.66||0.676|TWO_SIDED|95.0|-7.3|11.2|||ANCOVA|||||11.2|-7.3|0.676
92157404|NCT03531905|184201146|SUPERIORITY||Difference of LS means|-15.8|STANDARD_ERROR_OF_MEAN|13.95||0.258|TWO_SIDED|95.0|-43.4|11.7|||ANCOVA|||||11.7|-43.4|0.258
92157405|NCT03531905|184201146|SUPERIORITY||Difference of LS means|0.5|STANDARD_ERROR_OF_MEAN|13.79||0.972|TWO_SIDED|95.0|-26.8|27.7|||ANCOVA|||||27.7|-26.8|0.972
92157406|NCT03531905|184201146|SUPERIORITY||Difference of LS means|-16.3|STANDARD_ERROR_OF_MEAN|13.68||0.235|TWO_SIDED|95.0|-43.3|10.7|||ANCOVA|||||10.7|-43.3|0.235
92157407|NCT05153174|184201170|EQUIVALENCE|p \< 0.05 to reject null hypothesis of equivalence||||||0.931|||||||t-test, 2 sided|||||||0.931
92157408|NCT05153174|184201171|EQUIVALENCE|p \< 0.05 to reject null hypothesis of equivalence||||||0.224|||||||t-test, 2 sided|||||||0.224
92157409|NCT01033643|184201200|OTHER||Accumulation or Geometric Mean Ratio|2.36|||||||||||||Accumulation ratio or geometric mean ratio (GMR) was calculated as last day of multiple dosing of MK-3614 (Day 10) divided by the first day of multiple dosing of MK-3614 (Day 1).|||||
92157410|NCT01033643|184201201|OTHER||Accumulation or Geometric Mean Ratio|1.62|||||||||||||Accumulation ratio or GMR was calculated as last day of multiple dosing of MK-3614 (Day 13) divided by the first day of multiple dosing of MK-3614 (Day 4).|||||
92157411|NCT01033643|184201203|OTHER||Accumulation or Geometric Mean Ratio|1.9|||||||||||||Accumulation ratio or GMR was calculated as last day of multiple dosing of MK-3614 (Day 10) divided by the first day of multiple dosing of MK-3614 (Day 1).|||||
92157412|NCT01033643|184201203|OTHER||Accumulation or Geometric Mean Ratio|1.63|||||||||||||Accumulation ratio or GMR was calculated as last day of multiple dosing of MK-3614 (Day 10) divided by the first day of multiple dosing of MK-3614 (Day 1).|||||
92157413|NCT01033643|184201204|OTHER||Accumulation or Geometric Mean Ratio|1.91|||||||||||||Accumulation ratio or GMR was calculated as last day of multiple dosing of MK-3614 (Day 10) divided by the first day of multiple dosing of MK-3614 (Day 1).|||||
92157414|NCT01033643|184201205|OTHER||Accumulation or Geometric Mean Ratio|1.38|||||||||||||Accumulation ratio or GMR was calculated as last day of multiple dosing of MK-3614 (Day 13) divided by the first day of multiple dosing of MK-3614 (Day 4).|||||
92157415|NCT01033643|184201212|OTHER|Linear Model|Mean Difference from Placebo|-4.17|||||TWO_SIDED|90.0|-9.53|1.2||||||||1.20|-9.53|
92157416|NCT01033643|184201212|OTHER|Linear Model|Mean Difference from Placebo|4.78|||||TWO_SIDED|90.0|-1.41|10.97||||||||10.97|-1.41|
92399211|NCT00467740|184689949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.237|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001||95.0|0.142|0.332|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.332|0.142|<0.0001
92399212|NCT00467740|184689950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.055||0.0002||95.0|0.096|0.312|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.312|0.096|0.0002
92399213|NCT00467740|184689950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.153|STANDARD_ERROR_OF_MEAN|0.055||0.0057||95.0|0.045|0.261|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.261|0.045|0.0057
92399214|NCT00467740|184689950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.055||0.1513||95.0|-0.029|0.186|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.186|-0.029|0.1513
92157417|NCT01033643|184201212|OTHER|Linear Model|Mean Difference from Placebo|-3.47|||||TWO_SIDED|90.0|-8.37|1.42||||||||1.42|-8.37|
92399215|NCT00467740|184689950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.221|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001||95.0|0.114|0.328|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.328|0.114|<0.0001
92157418|NCT01033643|184201212|OTHER|Linear Model|Mean Difference from Placebo|3.53|||||TWO_SIDED|90.0|-1.37|8.42||||||||8.42|-1.37|
92157419|NCT01033643|184201213|OTHER|Linear Model|Mean Difference from Placebo|0.23|||||TWO_SIDED|90.0|-6.91|7.36||||||||7.36|-6.91|
92157420|NCT01033643|184201213|OTHER|Linear Model|Mean Difference from Placebo|-1.66|||||TWO_SIDED|90.0|-8.79|5.47||||||||5.47|-8.79|
92157421|NCT01033643|184201213|OTHER|Linear Model|Mean Difference from Placebo|2.11|||||TWO_SIDED|90.0|-5.02|9.25||||||||9.25|-5.02|
92157422|NCT01033643|184201213|OTHER|Linear Model|Mean Difference from Placebo|-1.23|||||TWO_SIDED|90.0|-9.41|6.94||||||||6.94|-9.41|
92157423|NCT01033643|184201214|OTHER|Linear Model|Mean Difference from Placebo|-0.75|||||TWO_SIDED|90.0|-9.29|7.79||||||||7.79|-9.29|
92157424|NCT01033643|184201214|OTHER|Linear Model|Mean Difference from Placebo|-3.73|||||TWO_SIDED|90.0|-14.32|6.86||||||||6.86|-14.32|
92157425|NCT01033643|184201214|OTHER|Linear Model|Mean Difference from Placebo|0.66|||||TWO_SIDED|90.0|-7.88|9.2||||||||9.20|-7.88|
92157426|NCT01033643|184201214|OTHER|Linear Model|Mean Difference from Placebo|-9.92|||||TWO_SIDED|90.0|-19.54|-0.3||||||||-0.30|-19.54|
92157427|NCT01033643|184201215|OTHER|Linear Model|Mean Difference from Placebo|-1.02|||||TWO_SIDED|90.0|-9.36|7.32||||||||7.32|-9.36|
92157428|NCT01033643|184201215|OTHER|Linear Model|Mean Difference from Placebo|-2.12|||||TWO_SIDED|90.0|-12.47|8.22||||||||8.22|-12.47|
92157429|NCT01033643|184201215|OTHER|Linear Model|Mean Difference from Placebo|-0.53|||||TWO_SIDED|90.0|-8.87|7.81||||||||7.81|-8.87|
92157430|NCT01033643|184201215|OTHER|Linear Model|Mean Difference from Placebo|-10.44|||||TWO_SIDED|90.0|-19.83|-1.04||||||||-1.04|-19.83|
92157431|NCT01033643|184201216|OTHER|Linear Model|Mean Difference from Placebo|-1.73|||||TWO_SIDED|90.0|-6.5|3.04||||||||3.04|-6.50|
92157432|NCT01033643|184201216|OTHER|Linear Model|Mean Difference from Placebo|-4.23|||||TWO_SIDED|90.0|-9.0|0.54||||||||0.54|-9.00|
92157433|NCT01033643|184201216|OTHER|Linear Model|Mean Difference from Placebo|-1.05|||||TWO_SIDED|90.0|-5.82|3.72||||||||3.72|-5.82|
92157434|NCT01033643|184201216|OTHER|Linear Model|Mean Difference from Placebo|-2.0|||||TWO_SIDED|90.0|-3.46|7.46||||||||7.46|-3.46|
92157435|NCT01033643|184201217|OTHER|Linear Model|Mean Difference from Placebo|-3.87|||||TWO_SIDED|90.0|-9.37|1.64||||||||1.64|-9.37|
92157436|NCT01033643|184201217|OTHER|Linear Model|Mean Difference from Placebo|-7.2|||||TWO_SIDED|90.0|-14.03|-0.37||||||||-0.37|-14.03|
92157437|NCT01033643|184201217|OTHER|Linear Model|Mean Difference from Placebo|-1.33|||||TWO_SIDED|90.0|-6.83|4.18||||||||4.18|-6.83|
92157438|NCT01033643|184201217|OTHER|Linear Model|Mean Difference from Placebo|-2.24|||||TWO_SIDED|90.0|-8.45|3.96||||||||3.96|-8.45|
92157439|NCT01033643|184201218|OTHER|Linear Model|Mean Difference from Placebo|-2.74|||||TWO_SIDED|90.0|-7.92|2.43||||||||2.43|-7.92|
92157440|NCT01033643|184201218|OTHER|Linear Model|Mean Difference from Placebo|-6.67|||||TWO_SIDED|90.0|-13.09|-0.25||||||||-0.25|-13.09|
92157441|NCT01033643|184201218|OTHER|Linear Model|Mean Difference from Placebo|-0.74|||||TWO_SIDED|90.0|-5.91|4.44||||||||4.44|-5.91|
92157442|NCT01033643|184201218|OTHER|Linear Model|Mean Difference from Placebo|-2.81|||||TWO_SIDED|90.0|-8.64|3.02||||||||3.02|-8.64|
92342120|NCT02456727|184585825|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0724|STANDARD_ERROR_OF_MEAN|0.0399||0.24|TWO_SIDED|95.0|-0.0058|0.1506|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 12 weeks between two treatment arms (Individual-Group)|||0.1506|-0.0058|0.24
92342121|NCT02456727|184585826|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0531|STANDARD_ERROR_OF_MEAN|0.0487||0.17|TWO_SIDED|95.0|-0.0422|0.1485|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 12 weeks between two treatment arms (Individual-Group)|||0.1485|-0.0422|0.17
92342122|NCT02456727|184585827|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0625|STANDARD_ERROR_OF_MEAN|0.0396||0.17|TWO_SIDED|95.0|-0.0151|0.1401|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 24 weeks between two treatment arms (Individual-Group)|||0.1401|-0.0151|0.17
92342123|NCT02456727|184585828|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0882|STANDARD_ERROR_OF_MEAN|0.0488||0.4|TWO_SIDED|95.0|-0.0075|0.184|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 24 weeks between two treatment arms (Individual-Group)|||0.184|-0.0075|0.40
92342124|NCT02456727|184585829|SUPERIORITY||Mean Difference (Net)|-0.2643|STANDARD_ERROR_OF_MEAN|0.1782||0.1387|TWO_SIDED|95.0|-0.6136|0.0851|||ANCOVA|The outcome is the change in score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between the two treatment arms (Individual-Group).|||0.0851|-0.6136|0.1387
92342125|NCT02456727|184585830|SUPERIORITY||Mean Difference (Net)|-0.2334|STANDARD_ERROR_OF_MEAN|0.2124||0.2725|TWO_SIDED|95.0|-0.6497|0.1829|||ANCOVA|The outcome is the change in score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between the two treatment arms (Individual-Group).|||0.1829|-0.6497|0.2725
92342126|NCT02456727|184585831|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0426|STANDARD_ERROR_OF_MEAN|0.0388||0.07|TWO_SIDED|95.0|-0.0334|0.1185|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 12 weeks between two treatment arms (Individual-Group)|||0.1185|-0.0334|0.07
92342127|NCT02456727|184585832|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0283|STANDARD_ERROR_OF_MEAN|0.0477||0.07|TWO_SIDED|95.0|-0.0651|0.1218|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 12 weeks between two treatment arms (Individual-Group)|||0.1218|-0.0651|0.07
92342128|NCT02456727|184585833|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0262|STANDARD_ERROR_OF_MEAN|0.0356||0.02|TWO_SIDED|95.0|-0.0436|0.0961|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 24 weeks between two treatment arms (Individual-Group)|||0.0961|-0.0436|0.02
92342129|NCT02456727|184585834|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0323|STANDARD_ERROR_OF_MEAN|0.044||0.06|TWO_SIDED|95.0|-0.0539|0.1186|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 24 weeks between two treatment arms (Individual-Group)|||0.1186|-0.0539|0.06
92342130|NCT02456727|184585835|SUPERIORITY||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.15||0.1475|TWO_SIDED|95.0|-0.5288|0.0795|||t-test, 2 sided|The outcome is the change of PGIC from baseline to 12 weeks.|The estimated value is the difference of PGIC change from baseline to 12 weeks between two treatment arms (Individual-Group).|||0.0795|-0.5288|0.1475
92342131|NCT02456727|184585836|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.18||0.3038|TWO_SIDED|95.0|-0.546|0.1706|||t-test, 2 sided|The outcome is the change of PGIC from baseline to 12 weeks.|The estimated value is the difference of PGIC change from baseline to 12 weeks between two treatment arms (Individual-Group).|||0.1706|-0.546|0.3038
92342132|NCT02456727|184585837|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0251|STANDARD_ERROR_OF_MEAN|0.0392||0.03|TWO_SIDED|95.0|-0.0517|0.1018|||Chi-squared||The estimated value is the difference of proportion of respondents (change post treatment\>=6) at 12 weeks between two treatment arms (Individual-Group)|||0.1018|-0.0517|0.03
92399216|NCT00467740|184689951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.054||0.0022||95.0|0.06|0.271|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.271|0.060|0.0022
92399217|NCT00467740|184689951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.054||0.0307||95.0|0.011|0.223|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.223|0.011|0.0307
92157443|NCT01033643|184201219|OTHER|Linear Model|Geometric Mean Ratio (GMR)|0.94|||||TWO_SIDED|90.0|0.47|1.87|||||GMR was calculated as MK-3614 Dose divided by Placebo|||1.87|0.47|
92157444|NCT01033643|184201219|OTHER|Linear Model|Geometric Mean Ratio (GMR)|0.48|||||TWO_SIDED|90.0|0.26|0.87|||||GMR was calculated as MK-3614 Dose divided by Placebo|||0.87|0.26|
92157445|NCT01033643|184201219|OTHER|Linear Model|Geometric Mean Ratio (GMR)|0.95|||||TWO_SIDED|90.0|0.51|1.79|||||GMR was calculated as MK-3614 Dose divided by Placebo|||1.79|0.51|
92157446|NCT02037061|184201254|OTHER|||||||0.83|||||||t-test, 2 sided|||||||0.83
92157447|NCT00519779|184201257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0033|STANDARD_ERROR_OF_MEAN|0.09||0.97|TWO_SIDED|95.0|-0.18|0.18|||Mixed Models Analysis|adjusted for baseline value, visit, gender, SAD||||0.18|-0.18|0.97
92157448|NCT00519779|184201258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.11||0.04|TWO_SIDED|95.0|-0.44|-0.011|||Mixed Models Analysis|||||-0.011|-0.44|0.04
92157449|NCT00519779|184201259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.076|STANDARD_ERROR_OF_MEAN|0.039||0.06|TWO_SIDED|95.0|-0.15|0.002|||Mixed Models Analysis|||||0.002|-0.15|0.06
92157450|NCT00519779|184201260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.072||0.04|TWO_SIDED|95.0|-0.3|-0.009|||Mixed Models Analysis|||||-0.009|-0.30|0.04
92157451|NCT00519779|184201261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.086||0.08|TWO_SIDED|95.0|-0.33|0.018|||Mixed Models Analysis|||||0.018|-0.33|0.08
92157452|NCT00519779|184201262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.14||0.93|TWO_SIDED|95.0|-0.26|0.29|||Mixed Models Analysis|||||0.29|-0.26|0.93
92157453|NCT00839982|184201275|SUPERIORITY|||||||0.03||||||Hypothesis: achieving CR provides an overall longer survival.|Chi-squared|||||||0.03
92157454|NCT02724020|184201281|SUPERIORITY||Hazard Ratio (HR)|1.33|||=|0.388|TWO_SIDED|95.0|0.75|2.36|||Stratified Log-rank Test||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category. A hazard ratio \< 1 indicated an advantage compared to Everolimus.|||2.36|0.75|=0.388
92157455|NCT02724020|184201281|SUPERIORITY||Hazard Ratio (HR)|1.37||||0.667|TWO_SIDED|95.0|0.75|2.52|||Stratified Log-rank Test||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category. A hazard ratio \< 1 indicated an advantage compared to Everolimus.|||2.52|0.75|0.667
92157456|NCT02724020|184201283|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.212|TWO_SIDED|95.0|0.89|3.49|||Stratified Log-rank Test||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category. A hazard ratio \< 1 indicated an advantage compared to Everolimus.|||3.49|0.89|0.212
92157457|NCT02724020|184201283|SUPERIORITY||Hazard Ratio (HR)|1.51||||0.546|TWO_SIDED|95.0|0.77|2.98|||Stratified Log-rank Test||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category. A hazard ratio \< 1 indicated an advantage compared to Everolimus.|||2.98|0.77|0.546
92157458|NCT02724020|184201284|SUPERIORITY||Hazard Ratio (HR)|1.57|||=|0.156|TWO_SIDED|95.0|0.81|3.05|||Log Rank||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the International Metastatic Renal Cell Carcinoma Database Consortium risk category. A hazard ratio \< 1 indicates an advantage compared to Everolimus.|||3.05|0.81|=0.156
92157459|NCT02724020|184201284|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.667|TWO_SIDED|95.0|0.72|2.79|||Log Rank||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the International Metastatic Renal Cell Carcinoma Database Consortium risk category. A hazard ratio \< 1 indicates an advantage compared to Everolimus.|||2.79|0.72|0.667
92157460|NCT02724020|184201285|SUPERIORITY||Odds Ratio (OR)|0.41|||||TWO_SIDED|95.0|0.08|2.22|||||Odds ratio and 95% CI were obtained using a stratified CMH model with prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category.|As prespecified in the protocol, the statistical analysis was performed between arms - Arm A: Single-agent Everolimus 10 mg QD and Arm C: Combination of MLN0128 4 mg QD + MLN1117 200 mg QD only.|As prespecified in protocol, the statistical analysis was performed between arms - Arm A: Single-agent Everolimus 10 mg QD and Arm C: Combination of MLN0128 4 mg QD + MLN1117 200 mg QD only for this outcome measure.|2.22|0.08|
92157461|NCT02724020|184201286|SUPERIORITY||Odds Ratio (OR)|0.64|||||TWO_SIDED|95.0|0.24|1.69|||||Odds ratio and 95% CI was obtained using a stratified CMH model with prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category.|||1.69|0.24|
92157462|NCT02724020|184201286|SUPERIORITY||Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.28|2.21|||||Odds ratio and 95% CI was obtained using a stratified CMH model with prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category.|||2.21|0.28|
92157463|NCT02724020|184201287|SUPERIORITY||Odds Ratio (OR)|0.47|||||TWO_SIDED|95.0|0.16|1.38|||||Odds ratio and 95% CI was obtained using a stratified CMH model with prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category.|||1.38|0.16|
92157464|NCT02724020|184201287|SUPERIORITY||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.2|1.8|||||Odds ratio and 95% CI was obtained using a stratified CMH model with prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category.|||1.80|0.20|
92157465|NCT02954575|184201312|OTHER||Poisson test estimate|2.13|||<|0.0001|TWO_SIDED|95.0|1.64|2.76||versus mean TABR \>29|Poisson test estimate|||A confirmative one-sided, one-sample Poisson test was used to test whether the mean annualized bleeding rate (ABR) in patients treated prophylactically with Wilate was below the threshold of 29 BEs per patient year (alpha = 2.5%). This threshold corresponds to 50% of the TABR reported in the GENA-01 study (NCT00989196), which observed 58.1 BEs per patient per year. A corresponding two-sided 95% CI for the TABR was also analyzed.||2.76|1.64|<0.0001
92157466|NCT02954575|184201313|OTHER||Poisson test estimate|1.53|||<|0.0001|TWO_SIDED|95.0|1.13|2.08||versus mean SABR \>19.1|Poisson test estimate|||A confirmative one-sided, one-sample Poisson test was used to test whether the mean SABR in patients treated prophylactically with Wilate was below the threshold of 19.1 BEs per patient year (alpha = 2.5%). This threshold corresponds to 50% of the SABR in the GENA-01 study (NCT00989196), which observed 38.2 spontaneous BEs per patient per year. A corresponding two-sided 95% CI for the SABR was also analyzed.||2.08|1.13|<0.0001
92342133|NCT02456727|184585838|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0018|STANDARD_ERROR_OF_MEAN|0.0481||0.02|TWO_SIDED|95.0|-0.0925|0.096|||Chi-squared||The estimated value is the difference of proportion of respondents (change post treatment\>=6) at 12 weeks between two treatment arms (Individual-Group)|||0.096|-0.0925|0.02
92342134|NCT02456727|184585839|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|-0.0104|STANDARD_ERROR_OF_MEAN|0.036||0|TWO_SIDED|95.0|-0.081|0.0602|||Chi-squared||The estimated value is the difference of proportion of respondents (change post treatment\>=6) at 24 weeks between two treatment arms (Individual-Group)|||0.0602|-0.081|0.00
92342135|NCT02456727|184585840|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0154|STANDARD_ERROR_OF_MEAN|0.0464||0.03|TWO_SIDED|95.0|-0.0755|0.1063|||Chi-squared||The estimated value is the difference of proportion of respondents (change post treatment\>=6) at 24 weeks between two treatment arms (Individual-Group)|||0.1063|-0.0755|0.03
92342136|NCT02456727|184585841|SUPERIORITY||Mean Difference (Net)|0.082|STANDARD_ERROR_OF_MEAN|0.5336||0.8778|TWO_SIDED|95.0|-0.9659|1.13|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||1.13|-0.9659|0.8778
92342137|NCT02456727|184585842|SUPERIORITY||Mean Difference (Net)|0.3623|STANDARD_ERROR_OF_MEAN|0.6252||0.5626|TWO_SIDED|95.0|-0.8667|1.5912|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||1.5912|-0.8667|0.5626
92342138|NCT02456727|184585843|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0362|STANDARD_ERROR_OF_MEAN|0.0399||0.05|TWO_SIDED|95.0|-0.0419|0.1144|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=2) at 12 weeks between two treatment arms (Individual-Group)|||0.1144|-0.0419|0.05
92342139|NCT02456727|184585844|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0647|STANDARD_ERROR_OF_MEAN|0.0466||0.22|TWO_SIDED|95.0|-0.0266|0.156|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=2) at 12 weeks between two treatment arms (Individual-Group)|||0.156|-0.0266|0.22
92342140|NCT02456727|184585845|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0523|STANDARD_ERROR_OF_MEAN|0.0415||0.12|TWO_SIDED|95.0|-0.029|0.1335|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=2) at 24 weeks between two treatment arms (Individual-Group)|||0.1335|-0.029|0.12
92342141|NCT02456727|184585846|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0928|STANDARD_ERROR_OF_MEAN|0.0498||0.44|TWO_SIDED|95.0|-0.0047|0.1903|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=2) at 24 weeks between two treatment arms (Individual-Group)|||0.1903|-0.0047|0.44
92342142|NCT02456727|184585847|SUPERIORITY||Mean Difference (Net)|0.4831|STANDARD_ERROR_OF_MEAN|0.5753||0.4014|TWO_SIDED|95.0|-0.6468|1.6129|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||1.6129|-0.6468|0.4014
92342143|NCT02456727|184585848|SUPERIORITY||Mean Difference (Net)|0.6617|STANDARD_ERROR_OF_MEAN|0.647||0.307|TWO_SIDED|95.0|-0.61|1.9334|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||1.9334|-0.61|0.307
92157467|NCT02954575|184201314|OTHER||Generalized estimation equation|84.21||||0.0096|TWO_SIDED|95.0|72.13|92.52|||Confirmatory data analysis|||"Confirmatory statistical testing tested the null hypotheses that the percentage of success is ≤70% (alternative hypothesis: percentage \>70%); the test procedure based on the generalized estimation equation took into account several BEs in one patient as correlated repeated measurements (alpha = 2.5%). Thus, π denotes the proportion of success and the following pair of hypotheses was tested:~H0: π ≤ 0.7 vs. H1: π \> 0.7"||92.52|72.13|0.0096
92157468|NCT02954575|184201320|OTHER|||||||0.0346|||||||ANOVA|||||||0.0346
92157469|NCT02954575|184201321|OTHER|||||||0.4244|||||||ANOVA|||||||0.4244
92342144|NCT02456727|184585849|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0159|STANDARD_ERROR_OF_MEAN|0.0364||0.01|TWO_SIDED|95.0|-0.0555|0.0873|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=5) at 12 weeks between two treatment arms (Individual-Group)|||0.0873|-0.0555|0.01
92399218|NCT00467740|184689951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.054||0.132||95.0|-0.025|0.187|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.187|-0.025|0.1320
92405610|NCT02215252|184701392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.99|STANDARD_ERROR_OF_MEAN|3.03|||TWO_SIDED|90.0|2.98|13.01||||||Statistical analysis is only for Week 4. Mixed Model Repeated Measures analysis including all data up to Week 4.||13.01|2.98|
92157470|NCT02954575|184201323|OTHER||Pearson-Copper|0.0|||||TWO_SIDED|95.0|0.0|16.11||||||||16.11|0|
92157471|NCT01875861|184201417|SUPERIORITY||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|1.02|1.38||||||Because of data discontinuity, assumptions for time series analysis did not hold. Repeated measures regression models were developed to compare overall weight monitoring rates at baseline across the implementation phases.||1.38|1.02|
92342145|NCT02456727|184585850|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0287|STANDARD_ERROR_OF_MEAN|0.0424||0.05|TWO_SIDED|95.0|-0.0544|0.1117|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=5) at 12 weeks between two treatment arms (Individual-Group)|||0.1117|-0.0544|0.05
92342146|NCT02456727|184585851|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0389|STANDARD_ERROR_OF_MEAN|0.0369||0.05|TWO_SIDED|95.0|-0.0335|0.1112|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=5) at 24 weeks between two treatment arms (Individual-Group)|||0.1112|-0.0335|0.05
92342147|NCT02456727|184585852|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0608|STANDARD_ERROR_OF_MEAN|0.0436||0.18|TWO_SIDED|95.0|-0.0247|0.1463|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=5) at 24 weeks between two treatment arms (Individual-Group)|||0.1463|-0.0247|0.18
92342148|NCT02456727|184585853|OTHER|The null hypothesis is that there is no change in the proportion of participants with self-reported opioid prescription comparing 12 weeks vs baseline.||||||0.1658|||||||McNemar|||Two treatment arms are combined as one group to compare the outcome of interest pre- and post-randomization.||||0.1658
92342149|NCT02456727|184585854|OTHER|The null hypothesis is that there is no change in the proportion of participants with self-reported opioid prescription comparing 12 weeks vs baseline.||||||0.1172|||||||McNemar|||Two treatment arms are combined as one group to compare the outcome of interest pre- and post-randomization.||||0.1172
92342150|NCT02456727|184585855|OTHER|The null hypothesis is that there is no change in the days of self-reported opioid medication use comparing 12 weeks vs baseline.||||||0.0326|||||||Wilcoxon signed rank test|||Two treatment arms are combined as one group to compare the outcome of interest prior- and post-randomization.||||0.0326
92342151|NCT02456727|184585856|OTHER|The null hypothesis is that there is no change in the days of self-reported opioid medication use comparing 12 weeks vs baseline.||||||0.0026|||||||Wilcoxon signed rank test|||Two treatment arms are combined as one group to compare the outcome of interest prior- and post-randomization.||||0.0026
92342152|NCT02456727|184585857|SUPERIORITY|||||||0.129||||||The change in MME was not normally distributed, thus we report median and IQR rather than mean/standard deviation. We employed Mann-Whitney to assess whether the change in MME between pre- and post-treatment periods differed across intervention arms.|Wilcoxon (Mann-Whitney)|||||||0.129
92342153|NCT02456727|184585858|SUPERIORITY|||||||0.031||||||The change in MME was not normally distributed, thus we report median and IQR rather than mean/standard deviation. We employed Mann-Whitney to assess whether the change in MME between pre- and post-treatment periods differed across intervention arms.|Wilcoxon (Mann-Whitney)|||||||0.031
92342154|NCT02456727|184585859|SUPERIORITY|Difference in change in proportion pre and post-treatment differs by treatment arm.||||||0.0059|||||||Mixed Models Analysis|||||||0.0059
92342155|NCT02456727|184585860|SUPERIORITY|||||||0.0385|||||||Mixed Models Analysis|||||||0.0385
92157472|NCT01875861|184201418|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|1.03|1.39||||||See comments about time series analysis for primary outcome measure. Repeated measures regression analysis of the likelihood of monitoring for each time period was conducted.||1.39|1.03|
92157473|NCT03824535|184201467|SUPERIORITY|||||||0.02||||||The threshold for statistical significance was set at p \< 0.05|Wilcoxon (Mann-Whitney)|||Analysis applies to the row 'Specificity' in the Outcome Measure data table.||||0.02
92342156|NCT00113607|184585869|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.79||||0.019|TWO_SIDED|95.0|0.65|0.96|||Log Rank|||||0.96|0.65|0.0190
92342157|NCT00113607|184585870|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.86||||0.0835|TWO_SIDED|95.0|0.72|1.02|||Log Rank|||||1.02|0.72|0.0835
92399219|NCT00467740|184689951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.054|<|0.0001||95.0|0.127|0.337|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.337|0.127|<0.0001
92399220|NCT00467740|184689952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.056||0.1585||95.0|-0.031|0.188|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.188|-0.031|0.1585
92399221|NCT00467740|184689952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.056||0.0848||95.0|-0.013|0.207|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.207|-0.013|0.0848
92157474|NCT03824535|184201468|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was predefined as p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.004
92342158|NCT00113607|184585871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.646||||0.008|TWO_SIDED|95.0|1.144|2.367|||Fisher Exact|||||2.367|1.144|0.0080
92342159|NCT00113607|184585872|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.95||||0.8203|TWO_SIDED|95.0|0.62|1.46|||Log Rank|||||1.46|0.62|0.8203
92342160|NCT02974868|184585895|SUPERIORITY||Mean of Difference from Placebo|31.14|STANDARD_ERROR_OF_MEAN|6.25|<|0.0001|TWO_SIDED|95.0|18.78|43.5||Hochberg P-value (one-sided)|Mixed Model Repeated Measure (MMRM)|MMRM contains fixed factors of treatment, week, baseline, treatment by week and treatment by baseline interaction and a random effect for subject.||||43.50|18.78|<.0001
92342161|NCT02974868|184585895|SUPERIORITY||Mean of Difference from Placebo|49.18|STANDARD_ERROR_OF_MEAN|6.35|<|0.0001|TWO_SIDED|95.0|36.62|61.74||Hochberg P-value (one-sided)|Mixed Model Repeated Measure (MMRM)|MMRM contains fixed factors of treatment, week, baseline, treatment by week and treatment by baseline interaction and a random effect for subject.||||61.74|36.62|<.0001
92342162|NCT02974868|184585896|OTHER||Mean of Difference from Placebo|25.78|STANDARD_ERROR_OF_MEAN|10.64||0.0094|TWO_SIDED|90.0|7.98|43.58|||Mixed Model Repeated Measure (MMRM)|MMRM contains fixed factors of treatment, week, baseline, treatment by week and treatment by baseline interaction and a random effect for subject.||||43.58|7.98|0.0094
92342163|NCT02974868|184585896|OTHER||Mean of Difference from Placebo|46.61|STANDARD_ERROR_OF_MEAN|10.51|<|0.0001|TWO_SIDED|90.0|29.02|64.2|||Mixed Model Repeated Measure|MMRM contains fixed factors of treatment, week, baseline, treatment by week and treatment by baseline interaction and a random effect for subject.||||64.20|29.02|<.0001
92342164|NCT02974868|184585901|OTHER||Difference in Percentage from Placebo|47.9|||<|0.0001|TWO_SIDED|90.0|34.2|60.7|||Chan and Zhang method|||||60.7|34.2|<.0001
92342165|NCT02974868|184585901|OTHER||Difference in Percentage from Placebo|61.7|||<|0.0001|TWO_SIDED|90.0|48.2|73.6|||Chan and Zhang method|||||73.6|48.2|<.0001
92342166|NCT02634073|184585964|SUPERIORITY_OR_OTHER||Ratio|0.855|||||TWO_SIDED|90.0|0.799|0.914|||ANCOVA||AUC (0-inf) comparison|||0.914|0.799|
92342167|NCT02634073|184585964|SUPERIORITY_OR_OTHER||Ratio|0.677|||||TWO_SIDED|90.0|0.635|0.721|||ANCOVA||AUC (0-inf) comparision|||0.721|0.635|
92342168|NCT02634073|184585964|SUPERIORITY_OR_OTHER||Ratio|0.637|||||TWO_SIDED|90.0|0.594|0.682|||ANCOVA||AUC (0-inf) comparision|||0.682|0.594|
92342169|NCT02634073|184585964|SUPERIORITY_OR_OTHER||Ratio|0.803|||||TWO_SIDED|90.0|0.747|0.864|||ANCOVA||AUC (0-24) comparision|||0.864|0.747|
92342170|NCT02634073|184585964|SUPERIORITY_OR_OTHER||Ratio|0.608|||||TWO_SIDED|90.0|0.566|0.655|||ANOVA||AUC (0-24) comparision|||0.655|0.566|
92399222|NCT00467740|184689952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.056||0.0838||95.0|-0.013|0.207|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.207|-0.013|0.0838
92399223|NCT00467740|184689952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.056||0.0014||95.0|0.07|0.289|||Mixed Models Analysis||Olo 20 mcg qd minus Placebo|||0.289|0.070|0.0014
92157475|NCT03824535|184201468|SUPERIORITY|||||||0.05||||||The threshold for statistical significance was predefined as p ≤ 0.05.|Wilcoxon (Mann-Whitney)|||||||0.05
92342171|NCT02634073|184585964|SUPERIORITY_OR_OTHER||Ratio|0.557|||||TWO_SIDED|90.0|0.518|0.599|||ANCOVA||AUC (0-24) comparision|||0.599|0.518|
92342172|NCT02634073|184585964|SUPERIORITY_OR_OTHER||Ratio|0.819|||||TWO_SIDED|90.0|0.766|0.876|||ANCOVA||AUC (0-t) comparision|||0.876|0.766|
92399224|NCT00467740|184689953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.059||0.0959||95.0|-0.018|0.216|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.216|-0.018|0.0959
92342173|NCT02634073|184585964|SUPERIORITY_OR_OTHER||Ratio|0.636|||||TWO_SIDED|90.0|0.595|0.68|||ANCOVA||AUC (0-t) comparision|||0.680|0.595|
92342174|NCT02634073|184585964|SUPERIORITY_OR_OTHER||Ratio|0.585|||||TWO_SIDED|90.0|0.548|0.626|||ANCOVA||AUC (0-t) comparision|||0.626|0.548|
92399225|NCT00467740|184689953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.06||0.047||95.0|0.002|0.237|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.237|0.002|0.0470
92342175|NCT02634073|184585965|SUPERIORITY_OR_OTHER||Ratio|0.993|||||TWO_SIDED|90.0|0.916|1.08|||ANCOVA||C24 comparison|||1.08|0.916|
92342176|NCT02634073|184585965|SUPERIORITY_OR_OTHER||Ratio|1.12|||||TWO_SIDED|90.0|1.03|1.21|||ANCOVA||C24 comparision|||1.21|1.03|
92342177|NCT02634073|184585965|SUPERIORITY_OR_OTHER||Ratio|1.09|||||TWO_SIDED|90.0|1.0|1.18|||ANCOVA||C24 comparision|||1.18|1.000|
92342178|NCT02634073|184585965|SUPERIORITY_OR_OTHER||Ratio|1.33|||||TWO_SIDED|90.0|1.13|1.56|||ANCOVA||Ct comparision|||1.56|1.13|
92342179|NCT02634073|184585965|SUPERIORITY_OR_OTHER||Ratio|1.46|||||TWO_SIDED|90.0|1.25|1.71|||ANCOVA||Ct comparision|||1.71|1.25|
92399226|NCT00467740|184689953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.06||0.196||95.0|-0.04|0.195|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.195|-0.040|0.1960
92342180|NCT02634073|184585965|SUPERIORITY_OR_OTHER||Ratio|1.39|||||TWO_SIDED|90.0|1.18|1.63|||ANCOVA||Ct comparision|||1.63|1.18|
92342181|NCT02634073|184585965|SUPERIORITY_OR_OTHER||Ratio|0.724|||||TWO_SIDED|90.0|0.657|0.798|||ANCOVA||Cmax comparision|||0.798|0.657|
92342182|NCT02634073|184585965|SUPERIORITY_OR_OTHER||Ratio|0.479|||||TWO_SIDED|90.0|0.434|0.527|||ANCOVA||Cmax comparision|||0.527|0.434|
92342183|NCT02634073|184585965|SUPERIORITY_OR_OTHER||Ratio|0.454|||||TWO_SIDED|90.0|0.412|0.5|||ANCOVA||Cmax comparision|||0.500|0.412|
92342184|NCT02634073|184585966|SUPERIORITY_OR_OTHER||Ratio|1.37|||||TWO_SIDED|90.0|1.11|1.69|||ANCOVA|||||1.69|1.11|
92342185|NCT02634073|184585966|SUPERIORITY_OR_OTHER||Ratio|1.53|||||TWO_SIDED|90.0|1.25|1.88|||ANCOVA|||||1.88|1.25|
92342186|NCT02634073|184585966|SUPERIORITY_OR_OTHER||Ratio|1.29|||||TWO_SIDED|90.0|1.04|1.61|||ANCOVA|||||1.61|1.04|
92342187|NCT02634073|184585967|SUPERIORITY_OR_OTHER||Ratio|1.17|||||TWO_SIDED|90.0|1.094|1.251|||ANCOVA|||||1.251|1.094|
92157476|NCT03824535|184201468|SUPERIORITY|||||||0.06||||||The threshold for statistical significance was predefined as p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.06
92342188|NCT02634073|184585967|SUPERIORITY_OR_OTHER||Ratio|1.478|||||TWO_SIDED|90.0|1.386|1.576|||ANCOVA|||||1.576|1.386|
92342189|NCT02634073|184585967|SUPERIORITY_OR_OTHER||Ratio|1.571|||||TWO_SIDED|90.0|1.466|1.684|||ANCOVA|||||1.684|1.466|
92342190|NCT01663402|184585990|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0003|TWO_SIDED|95.0|0.78|0.93||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region (North America, South America, Western Europe, Eastern Europe, Asia, Rest of the world).||0.93|0.78|0.0003
92342191|NCT01663402|184585991|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.0013|TWO_SIDED|95.0|0.81|0.95||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region(North America,South America,Western Europe,Eastern Europe,Asia, Rest of the world).A hierarchical testing approach was used to control the overall type-I error at 0.0249 one-sided alpha level(0.0498 two-sided).Testing was then performed sequentially in the order endpoints were reported.Hierarchical testing sequence continued only if the previous endpoint was statistically significant.||0.95|0.81|0.0013
92342192|NCT01663402|184585992|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.006|TWO_SIDED|95.0|0.8|0.96||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region (North America, South America, Western Europe, Eastern Europe, Asia, Rest of the world). Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).||0.96|0.80|0.0060
92157477|NCT06403605|184201480|SUPERIORITY|||||||0.78||||||Adjusted p value in the mITT analysis population.|Mixed Models Analysis|||||||0.78
92157478|NCT06403605|184201480|SUPERIORITY|||||||0.48||||||Adjusted p value in the PP analysis population.|Mixed Models Analysis|||||||0.48
92157479|NCT06403605|184201481|SUPERIORITY|||||||0.049||||||Adjusted p-value in the mITT population.|Log Rank|||||||0.049
92157480|NCT06403605|184201481|SUPERIORITY|||||||0.084||||||Adjusted p value in the PP population.|Log Rank|||||||0.084
92157481|NCT06403605|184201484|SUPERIORITY|||||||0.007|||||||Fisher Exact|||||||0.007
92342193|NCT01663402|184585993|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.0003|TWO_SIDED|95.0|0.81|0.94||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region (North America, South America, Western Europe, Eastern Europe, Asia, Rest of the world). Testing according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).||0.94|0.81|0.0003
92399227|NCT00467740|184689953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.059||0.002||95.0|0.068|0.302|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.302|0.068|0.0020
92399228|NCT00467740|184689954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.064||0.027||95.0|0.016|0.269|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.269|0.016|0.0270
92157482|NCT07083843|184201485|SUPERIORITY||Mean Difference (Final Values)|4.115|STANDARD_DEVIATION|2.8||0.05|TWO_SIDED|95.0|2.87|5.36|||paired sample T-test.|Degree of freedom = 25||Data was analyzed using SPSS v22.0., Descriptive statistics will summarize baseline variables. Paired t-test will assess pre- vs. post - intervention scores within groups, and between-group differences will be compared, the null hypothesis states there is no difference between intervention and control groups. A two-tailed P\< 0.05 will be considered statistically significant.||5.36|2.87|0.05
92157483|NCT07083843|184201486|SUPERIORITY|A superiority analysis was performed to compare depression and anxiety scores between the intervention and control groups.|Mean Difference (Final Values)|2.192|STANDARD_DEVIATION|2.8||0.05|TWO_SIDED|95.0|0.986|3.238|||paired sample T-test.|degree of freedom= 25||data were processed and analyzed using the SPSS software, version 22.0. The descriptive statistics were calculated, including frequencies and percentages for categorical data, and means and standard deviations for numerical variables. A paired t-test was used to assess the change in the psychological level before and after the intervention program. All hypothesis testing was done at the 5% level of significance||3.238|0.986|0.05
92157484|NCT02941146|184201487|OTHER||sucess proportion|64.3|||||TWO_SIDED|95.0|35.1|87.2||||||||87.2|35.1|
92157485|NCT02331940|184201500|SUPERIORITY_OR_OTHER|||||||0.88||||||p\<0.05 was considered statistically significant|t-test, 1 sided|||||||0.88
92157486|NCT01450943|184201504|SUPERIORITY||Odds Ratio (OR)|2.712595||||0.0517|TWO_SIDED|95.0|0.9141|8.4839|||Fisher Exact|||||8.4839|0.9141|0.0517
92157487|NCT01450943|184201505|SUPERIORITY||Odds Ratio (OR)|0.812339||||0.7974|TWO_SIDED|95.0|0.2543|2.5224|||Fisher Exact|||||2.5224|0.2543|0.7974
92157488|NCT01323660|184201560|SUPERIORITY_OR_OTHER||Least squares mean difference|25.0||||0.456|TWO_SIDED|95.0|-41.0|91.0||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 62.5 µg minus Placebo.|||91.0|-41.0|0.456
92157489|NCT01323660|184201560|SUPERIORITY_OR_OTHER||Least squares mean difference|74.7||||0.033|TWO_SIDED|95.0|6.0|143.4||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 125 µg minus Placebo.|||143.4|6.0|0.033
92157490|NCT01323660|184201560|SUPERIORITY_OR_OTHER||Least squares mean difference|30.6||||0.295|TWO_SIDED|95.0|-26.8|88.0||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=VI 25 µg minus Placebo.|||88.0|-26.8|0.295
92157491|NCT01323660|184201560|SUPERIORITY_OR_OTHER||Least squares mean difference|44.4||||0.188|TWO_SIDED|95.0|-21.8|110.6||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus UMEC 62.5 µg.|||110.6|-21.8|0.188
92157492|NCT01323660|184201560|SUPERIORITY_OR_OTHER||Least squares mean difference|38.8||||0.187|TWO_SIDED|95.0|-18.9|96.5||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus VI 25 µg.|||96.5|-18.9|0.187
92157493|NCT01323660|184201560|SUPERIORITY_OR_OTHER||Least squares mean difference|-8.9||||0.801|TWO_SIDED|95.0|-77.8|60.1||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus UMEC 125 µg|||60.1|-77.8|0.801
92157494|NCT01323660|184201560|SUPERIORITY_OR_OTHER||Least squares mean difference|35.2||||0.233|TWO_SIDED|95.0|-22.7|93.1||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus VI 25 µg.|||93.1|-22.7|0.233
92157495|NCT01323660|184201560|SUPERIORITY_OR_OTHER||Least squares mean difference|69.4||||0.003|TWO_SIDED|95.0|24.5|114.4|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||114.4|24.5|0.003
92157496|NCT01323660|184201560|SUPERIORITY_OR_OTHER||Least squares mean difference|65.8||||0.005|TWO_SIDED|95.0|20.3|111.3|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus Placebo.|||111.3|20.3|0.005
92157497|NCT01323660|184201561|SUPERIORITY_OR_OTHER||Least squares mean difference|0.144|||<|0.001|TWO_SIDED|95.0|0.086|0.203|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 62.5 µg minus Placebo.|||0.203|0.086|<0.001
92157498|NCT01323660|184201561|SUPERIORITY_OR_OTHER||Least squares mean difference|0.255|||<|0.001|TWO_SIDED|95.0|0.193|0.318|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 125 µg minus Placebo.|||0.318|0.193|<0.001
92157499|NCT01323660|184201561|SUPERIORITY_OR_OTHER||Least squares mean difference|0.112|||<|0.001||95.0|0.061|0.163|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=VI 25 µg minus Placebo.|||0.163|0.061|<0.001
92217301|NCT00938717|184334918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.65|||<|0.0001|TWO_SIDED|95.0|2.44|8.84||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week APC 3 + 1 Responders. The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data.||8.84|2.44|<0.0001
92217302|NCT00938717|184334919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.19|||<|0.0001|TWO_SIDED|95.0|2.5|7.03||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week CSBM 3 + 1 Responders. The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data.||7.03|2.50|<0.0001
92157500|NCT01323660|184201561|SUPERIORITY_OR_OTHER||Least squares mean difference|0.099|||<|0.001|TWO_SIDED|95.0|0.041|0.157|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus UMEC 62.5 µg.|||0.157|0.041|<0.001
92157501|NCT01323660|184201561|SUPERIORITY_OR_OTHER||Least squares mean difference|0.132|||<|0.001|TWO_SIDED|95.0|0.081|0.183|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus VI 25 µg.|||0.183|0.081|<0.001
92157502|NCT01323660|184201561|SUPERIORITY_OR_OTHER||Least squares mean difference|0.006||||0.849|TWO_SIDED|95.0|-0.055|0.067|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus UMEC 125 µg.|||0.067|-0.055|0.849
92157503|NCT01323660|184201561|SUPERIORITY_OR_OTHER||Least squares mean difference|0.15|||<|0.001|TWO_SIDED|95.0|0.098|0.201|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus VI 25 µg.|||0.201|0.098|<0.001
92157504|NCT01323660|184201561|SUPERIORITY_OR_OTHER||Least squares mean difference|0.243|||<|0.001|TWO_SIDED|95.0|0.202|0.284|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.284|0.202|<0.001
92342194|NCT01663402|184585994|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0003|TWO_SIDED|95.0|0.79|0.93||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region (North America, South America, Western Europe, Eastern Europe, Asia, Rest of the world). Testing according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).||0.93|0.79|0.0003
92342195|NCT01663402|184585995|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.3824|TWO_SIDED|95.0|0.76|1.11||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region (North America, South America, Western Europe, Eastern Europe, Asia, Rest of the world). Testing according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).||1.11|0.76|0.3824
92157505|NCT01323660|184201561|SUPERIORITY_OR_OTHER||Least squares mean difference|0.261|||<|0.001|TWO_SIDED|95.0|0.22|0.303|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus Placebo.|||0.303|0.220|<0.001
92399229|NCT00467740|184689954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.065||0.1031||95.0|-0.021|0.233|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.233|-0.021|0.1031
92399230|NCT00467740|184689954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.064||0.4378||95.0|-0.077|0.177|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.177|-0.077|0.4378
92399231|NCT00467740|184689954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.064||0.0064||95.0|0.05|0.303|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.303|0.050|0.0064
92342196|NCT01211145|184586005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.312|TWO_SIDED|95.0|0.75|2.5||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||2.50|0.75|.312
92342197|NCT01211145|184586005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76||||0.071|TWO_SIDED|95.0|0.95|3.26||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||3.26|0.95|.071
92342198|NCT01211145|184586005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.18|||<|0.001|TWO_SIDED|95.0|1.4|3.39||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||3.39|1.40|<.001
92342199|NCT01211145|184586006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.575|TWO_SIDED|95.0|0.7|1.91||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||1.91|0.70|.575
92342200|NCT01211145|184586006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87||||0.032|TWO_SIDED|95.0|1.06|3.31||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||3.31|1.06|.032
92342201|NCT01211145|184586006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.137|TWO_SIDED|95.0|0.91|1.95||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||1.95|0.91|.137
92399232|NCT00467740|184689955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.069||0.2781||95.0|-0.061|0.21|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.210|-0.061|0.2781
92342202|NCT01211145|184586007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.458|TWO_SIDED|95.0|0.74|1.96||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||1.96|0.74|.458
92399233|NCT00467740|184689955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.069||0.3284||95.0|-0.068|0.204|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.204|-0.068|0.3284
92399234|NCT00467740|184689955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036|STANDARD_ERROR_OF_MEAN|0.069||0.602||95.0|-0.1|0.171|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.171|-0.100|0.6020
92217303|NCT00938717|184334920|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.62|||<|0.0001|TWO_SIDED|95.0|1.91|3.6||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week Abdominal Pain Responders. The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data.||3.60|1.91|<0.0001
92342203|NCT01211145|184586007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||0.021|TWO_SIDED|95.0|1.09|3.03||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||3.03|1.09|.021
92342204|NCT01211145|184586007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.01|TWO_SIDED|95.0|1.12|2.32||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||2.32|1.12|.010
92342205|NCT01211145|184586008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.753|TWO_SIDED|95.0|0.64|1.84||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||1.84|0.64|.753
92342206|NCT01211145|184586008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.145|TWO_SIDED|95.0|0.86|2.79||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||2.79|0.86|.145
92342207|NCT01211145|184586008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.127|TWO_SIDED|95.0|0.91|2.04||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||2.04|0.91|.127
92342208|NCT01211145|184586009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.274|TWO_SIDED|95.0|0.79|2.32||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||2.32|0.79|.274
92342209|NCT01211145|184586009|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.67||||0.067|TWO_SIDED|95.0|0.96|2.91||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||2.91|0.96|.067
92342210|NCT01211145|184586009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.127|TWO_SIDED|95.0|0.91|2.08||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||2.08|0.91|.127
92342211|NCT01211145|184586010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.153|TWO_SIDED|95.0|0.38|1.16||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||1.16|0.38|.153
92342212|NCT01211145|184586010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.087|TWO_SIDED|95.0|0.33|1.08||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||1.08|0.33|.087
92342213|NCT01211145|184586010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.54||||0.004|TWO_SIDED|95.0|0.36|0.83||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||0.83|0.36|.004
92399235|NCT00467740|184689955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.069||0.0006||95.0|0.104|0.375|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.375|0.104|0.0006
92342214|NCT04195061|184586011|SUPERIORITY|||||||0.303|||||||t-test, 2 sided|||||||0.303
92342215|NCT04195061|184586012|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
92342216|NCT04195061|184586013|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
92342217|NCT04577794|184586040|SUPERIORITY||Least square (LS) mean difference|0.0|STANDARD_ERROR_OF_MEAN|1.02||0.981|TWO_SIDED|90.0|-1.7|1.7|||ANCOVA|||An analysis of covariance (ANCOVA) was used with a multiple imputation method to handle missing values, with treatment as fixed effect and baseline score as covariate.||1.7|-1.7|0.981
92342218|NCT02713178|184586043|SUPERIORITY||LSMD|-20.249||||0.4463|TWO_SIDED|95.0|-72.361|31.864|||ANOVA|||||31.864|-72.361|0.4463
92342219|NCT02713178|184586043|SUPERIORITY||LSMD|-28.796||||0.2749|TWO_SIDED|95.0|-80.483|22.892|||ANOVA|||||22.892|-80.483|0.2749
92157506|NCT04227340|184201578|OTHER|The count, percentage and confidence interval will be calculated for allogeneic HCT patients who receive PBM and develop Grade 3 mucositis|Odds Ratio (OR)|0.2|||||TWO_SIDED|95.0|0.091|0.356|||||Odds of grade 3 in Allogeneic group compared to historical rates. The study efficacy of mucositis reduction by 20% with an estimation of 51% developing grade 3 mucositis.|The count, percentage and confidence interval were calculated for allogeneic HCT participants who receive PBM and developed Grade 3 mucositis. Whether the percentage of the prospective sample is significantly different from the estimated rate of 71% was accessed.||0.356|0.091|
92217304|NCT00938717|184334921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.16|||<|0.0001|TWO_SIDED|95.0|2.22|4.49||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 6/12 Week APC + 1 Responders.~The power, adjusted for multiplicity, was expected to be 86% based on NCT00460811 (MCP-103-202) study data."||4.49|2.22|<0.0001
92342220|NCT02713178|184586044|SUPERIORITY||LSM treatment ratio|0.853||||0.0716|TWO_SIDED|95.0|0.717|1.014|||ANOVA|||||1.014|0.717|0.0716
92342221|NCT02713178|184586044|SUPERIORITY||LSM treatment ratio|0.913||||0.3004|TWO_SIDED|95.0|0.769|1.084|||ANOVA|||||1.084|0.769|0.3004
92342222|NCT02713178|184586046|SUPERIORITY|||||||0.1896|||||||Log Rank|||The overall distribution as estimated by the Kaplan-Meier analysis was compared between the EXPAREL arm and the placebo arm.||||0.1896
92342223|NCT02713178|184586046|SUPERIORITY|||||||0.2549|||||||Log Rank|||The overall distribution as estimated by the Kaplan-Meier analysis was compared between the EXPAREL arm and the placebo arm.||||0.2549
92342224|NCT04414787|184586080|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-6.21|6.21|||Mixed Models Analysis|||Difference between Time 1 (baseline) and Time 3 (\~1 week post-randomization)||6.21|-6.21|1.00
92342225|NCT04414787|184586081|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.95|TWO_SIDED|95.0|-1.83|1.72|||Mixed Models Analysis|||Difference between Time 1 (baseline) and Time 4 (3 months post-randomization)||1.72|-1.83|0.95
92342226|NCT04414787|184586082|SUPERIORITY||Mean Difference (Final Values)|0.29||||0.72|TWO_SIDED|95.0|-1.28|1.86|||Mixed Models Analysis|||Difference between Time 1 (baseline) and Time 4 (3 months post-randomization)||1.86|-1.28|0.72
92342227|NCT04414787|184586083|SUPERIORITY||Mean Difference (Final Values)|1.35||||0.48|TWO_SIDED|95.0|-2.44|5.14|||Mixed Models Analysis|||Difference between Time 1 (baseline) and Time 4 (3 months post-randomization)||5.14|-2.44|0.48
92399236|NCT00467740|184689956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.067||0.4331|TWO_SIDED|95.0|-0.079|0.184|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.184|-0.079|0.4331
92399237|NCT00467740|184689956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.068||0.515|TWO_SIDED|95.0|-0.089|0.178|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.178|-0.089|0.5150
92399238|NCT00467740|184689956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.068||0.5714|TWO_SIDED|95.0|-0.095|0.171|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.171|-0.095|0.5714
92157507|NCT04227340|184201579|SUPERIORITY|||||||0.03|||||||Wilcox Rank Sum|||||||0.03
92157508|NCT04227340|184201581|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92342228|NCT04414787|184586084|SUPERIORITY||Odds Ratio (OR)|0.49||||0.12|TWO_SIDED|95.0|0.2|1.2|||Mixed Models Analysis|||Difference between Time 1 (baseline) and Time 3 (target \~1 week post-randomization)||1.2|0.20|0.12
92342229|NCT04414787|184586085|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||0.58
92342230|NCT04414787|184586086|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
92342231|NCT04414787|184586087|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
92342232|NCT05093933|184586088|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.219|TWO_SIDED|95.0|0.83|1.04|||Log Rank|Stratified by the randomization stratification factor (NYHA FC)|Based on a Cox proportional hazard model controlling for the randomization stratification factor (NYHA FC)|||1.04|0.83|0.219
92342233|NCT05093933|184586089|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.02|TWO_SIDED|95.0|0.71|0.97|||Log Rank|Stratified by the randomization stratification factor (NYHA FC)|Based on a Cox proportional hazard model controlling for the randomization stratification factor (NYHA FC)|||0.97|0.71|0.020
92342234|NCT05093933|184586090|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.509|TWO_SIDED|95.0|0.82|1.1|||Log Rank|Stratified by the randomization stratification factor (NYHA FC)|Based on a Cox proportional hazard model controlling for the randomization stratification factor (NYHA FC)|||1.10|0.82|0.509
92342235|NCT05093933|184586091|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.094|TWO_SIDED|95.0|0.8|1.02|||Andersen-Gill Model||Based on an Andersen-Gill model controlling for the randomization stratification factor (NYHA FC)|||1.02|0.80|0.094
92342236|NCT05093933|184586092|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.116|TWO_SIDED|95.0|0.82|1.02|||Log Rank|Stratified by the randomization stratification factor (NYHA FC)|Based on a Cox proportional hazard model controlling for the randomization stratification factor (NYHA FC)|||1.02|0.82|0.116
92399239|NCT00467740|184689956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.068||0.0177|TWO_SIDED|95.0|0.028|0.296|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.296|0.028|0.0177
92399240|NCT00467740|184689957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.97|STANDARD_ERROR_OF_MEAN|7.665||0.003|TWO_SIDED|95.0|7.883|38.057|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||38.057|7.883|0.0030
92342237|NCT05093933|184586093|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.015|TWO_SIDED|95.0|0.74|0.97|||Log Rank|Stratified by the randomization stratification factor (NYHA FC)|Based on a Cox proportional hazard model controlling for the randomization stratification factor (NYHA FC)|||0.97|0.74|0.015
92342238|NCT05093933|184586097|OTHER||Difference in Percentage|-0.1||||0.512|TWO_SIDED|95.0|-0.4|0.2|||Miettinen and Nurminen|||||0.2|-0.4|0.512
92342239|NCT05093933|184586098|OTHER||Difference in Percentage|2.1||||0.007|TWO_SIDED|95.0|0.6|3.6|||Miettinen and Nurminen|||||3.6|0.6|0.007
92157509|NCT04227340|184201583|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92157510|NCT04227340|184201585|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.1
92157511|NCT04227340|184201587|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
92157512|NCT02059161|184201604|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for declaring non-inferiority was for the upper bound of the 95% CI to lie below 0.4%.|Difference in the Least Squares Means|0.04|||||TWO_SIDED|95.0|-0.11|0.19|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.19|-0.11|
92157513|NCT02059161|184201605|SUPERIORITY_OR_OTHER||Difference in the Percentages|-3.9|||||TWO_SIDED|95.0|-11.8|4.0|||||Miettinen \& Nurminen|||4.0|-11.8|
92157514|NCT02059161|184201606|SUPERIORITY_OR_OTHER||Difference in Percentages|-3.0|||||TWO_SIDED|95.0|-16.1|10.1|||||Miettinen \& Nurminen|||10.1|-16.1|
92157515|NCT02059161|184201609|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.02|||||TWO_SIDED|95.0|-0.18|0.14|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.14|-0.18|
92157516|NCT02059161|184201610|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.77|||||TWO_SIDED|95.0|-4.69|1.16|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||1.16|-4.69|
92157517|NCT02059161|184201611|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.02|||||TWO_SIDED|95.0|-0.06|0.01|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.01|-0.06|
92157518|NCT02059161|184201612|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|9.6|||||TWO_SIDED|95.0|-3.0|22.2|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||22.2|-3.0|
92157519|NCT02059161|184201613|SUPERIORITY_OR_OTHER||Differences in Percentages|-2.1|||||TWO_SIDED|95.0|-9.8|5.5|||||Miettinen \& Nurminen|||5.5|-9.8|
92157520|NCT02059161|184201614|SUPERIORITY_OR_OTHER||Difference in Percentages|0.8|||||TWO_SIDED|95.0|-12.8|14.3|||||Miettinen \& Nurminen|||14.3|-12.8|
92157521|NCT02059161|184201616|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.77|||||TWO_SIDED|95.0|-4.92|1.39|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||1.39|-4.92|
92342240|NCT05093933|184586099|OTHER||Difference in Percentage|1.3||||0.045|TWO_SIDED|95.0|0.0|2.6|||Miettinen and Nurminen|||||2.6|0.0|0.045
92157522|NCT02059161|184201617|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.02|||||TWO_SIDED|95.0|-0.05|0.02|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.02|-0.05|
92157523|NCT02059161|184201618|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-5.4|||||TWO_SIDED|95.0|-19.7|8.9|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||8.9|-19.7|
92157524|NCT02059161|184201620|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.4|||||TWO_SIDED|95.0|-8.9|8.2|||||Longitudinal data analysis model including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||8.2|-8.9|
92157525|NCT02059161|184201621|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-8.1|||||TWO_SIDED|95.0|-18.6|2.4|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||2.4|-18.6|
92157526|NCT02059161|184201622|SUPERIORITY_OR_OTHER||Adjusted Difference in %s (A1C < 7.0%)|-0.8|||||TWO_SIDED|95.0|-9.7|8.1|||||Miettinen and Nurminen, stratified by prior insulin status.|||8.1|-9.7|
92157527|NCT02059161|184201622|SUPERIORITY_OR_OTHER||Adjusted Difference in %s (A1C <6.5%)|-1.1|||||TWO_SIDED|95.0|-8.6|6.5|||||Miettinen and Nurminen, stratified by prior insulin status.|||6.5|-8.6|
92342241|NCT01249131|184586119|SUPERIORITY_OR_OTHER||Ratio of Least Squares (LS) Means (in %)|94.7|||||TWO_SIDED|90.0|83.9|107.0|||||LS mean was calculated from analysis of variance (ANOVA). Data for dose-normalized AUCinf were natural log-transformed prior to analysis. Ratio of AUCinf LS means for log-transformed parameter (expressed as a percent).|||107|83.9|
92157528|NCT02059161|184201623|SUPERIORITY_OR_OTHER||Adjusted Difference (A1C < 7.0%)|0.2|||||TWO_SIDED|95.0|-8.7|9.1|||||Miettinen and Nurminen|||9.1|-8.7|
92157529|NCT02059161|184201623|SUPERIORITY_OR_OTHER||Adjusted Difference (A1C < 6.5%)|-4.4|||||TWO_SIDED|95.0|-11.5|2.8|||||Miettinen and Nurminen|||2.8|-11.5|
92157530|NCT02059161|184201624|SUPERIORITY_OR_OTHER||Difference in Least Means Squares|-0.42|||||TWO_SIDED|95.0|-2.33|1.48|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||1.48|-2.33|
92157531|NCT02059161|184201625|SUPERIORITY_OR_OTHER||Difference in Least Means Squares|0.0|||||TWO_SIDED|95.0|-0.02|0.02|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.02|-0.02|
92157532|NCT02059161|184201626|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.5|||||TWO_SIDED|95.0|-3.69|0.69|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.69|-3.69|
92157533|NCT02059161|184201627|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.02||||||95.0|-0.04|0.01|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.01|-0.04|
92342242|NCT01249131|184586119|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|110.0|||||TWO_SIDED|90.0|98.2|124.0|||||LS mean was calculated from ANOVA. Data for dose-normalized AUCinf were natural log-transformed prior to analysis. Ratio of AUCinf LS means for log-transformed parameter (expressed as a percent).|||124|98.2|
92217305|NCT02248259|184334947|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|113.6|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|90.0|100.522|128.376|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for BI 409306||128.376|100.522|
92157534|NCT02059161|184201628|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.74|||||TWO_SIDED|95.0|-2.52|1.04|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||1.04|-2.52|
92342243|NCT01249131|184586120|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|96.9|||||TWO_SIDED|90.0|84.2|111.0|||||LS mean was calculated from ANOVA. Data for dose-normalized Cmax were natural log-transformed prior to analysis. Ratio of Cmax LS means for log-transformed parameter (expressed as a percent).|||111|84.2|
92405611|NCT02215252|184701392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75|STANDARD_ERROR_OF_MEAN|3.14|||TWO_SIDED|90.0|-4.46|5.95||||||Statistical analysis is only for Week 4. Mixed Model Repeated Measures analysis including all data up to Week 4.||5.95|-4.46|
92157535|NCT02059161|184201629|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.01|||||TWO_SIDED|95.0|-0.03|0.01|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.01|-0.03|
92157536|NCT02059161|184201630|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.25|||||TWO_SIDED|95.0|-3.34|0.83|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.83|-3.34|
92157537|NCT02059161|184201631|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.02|||||TWO_SIDED|95.0|-0.04|0.01|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.01|-0.04|
92157538|NCT00958009|184201632|SUPERIORITY_OR_OTHER||mean positive response|0.86|||||TWO_SIDED|95.0|0.8|0.93|||||Confidence Interval calculated from normal approximation to the binomial. The primary objective was met if the lower bound of the 95% confidence interval is \>0.50.|||0.93|0.80|
92157539|NCT00087490|184201648|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the Food and Drug Administration (FDA) suggested boundary of delta= -0.10.|Percent Difference|4.2||||0.249|TWO_SIDED|95.0|-3.0|11.5|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95 percent (%) confidence interval (CI).||11.5|-3.0|0.249
92157540|NCT00087490|184201649|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|3.9||||0.168|TWO_SIDED|95.0|-1.7|9.5|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||9.5|-1.7|0.168
92157541|NCT00087490|184201650|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|7.1||||0.048|TWO_SIDED|95.0|0.1|14.2|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||14.2|0.1|0.048
92157542|NCT00087490|184201651|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|4.8||||0.09|TWO_SIDED|95.0|-0.7|10.3|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||10.3|-0.7|0.090
92157543|NCT00087490|184201652|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|6.6||||0.127|TWO_SIDED|95.0|-1.9|15.0|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||15.0|-1.9|0.127
92157544|NCT00087490|184201653|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|16.6||||0|TWO_SIDED|95.0|9.0|24.2|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||24.2|9.0|0.000
92157545|NCT00087490|184201654|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|7.7||||0.051|TWO_SIDED|95.0|0.0|15.4|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||15.4|-0.0|0.051
92157546|NCT00087490|184201655|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|15.0||||0|TWO_SIDED|95.0|8.2|21.8|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||21.8|8.2|0.000
92217306|NCT02248259|184334947|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|87.98|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|90.0|77.839|99.452|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for BI 409306||99.452|77.839|
92342244|NCT01249131|184586120|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|107.0|||||TWO_SIDED|90.0|93.8|123.0|||||LS mean was calculated from ANOVA. Data for dose-normalized Cmax were natural log-transformed prior to analysis. Ratio of Cmax LS means for log-transformed parameter (expressed as a percent).|||123|93.8|
92342245|NCT00473083|184586124|SUPERIORITY_OR_OTHER|||||||0.8769||||||P for arm 1 v arms 2 and 3 combined|Chi-squared|||||||0.8769
92342246|NCT00473083|184586124|SUPERIORITY_OR_OTHER|||||||0.147||||||P for arm 1 v arms 2 and 3 combined|Wilcoxon (Mann-Whitney)|||||||0.147
92342247|NCT00473083|184586125|SUPERIORITY_OR_OTHER|||||||0.1503||||||P(arm 1 v arm 2) in patients with maximum severity of rash grade 1, 2a, or 2b|Wilcoxon (Mann-Whitney)|||||||0.1503
92342248|NCT00473083|184586125|SUPERIORITY_OR_OTHER|||||||0.4681||||||P(arm2 v arm3) in patients with maximum severity of rash grade 1, 2a, or 2b|Wilcoxon (Mann-Whitney)|||||||0.4681
92342249|NCT00473083|184586125|SUPERIORITY_OR_OTHER|||||||0.0196||||||P(arm 1 v arm 3) in patients with maximum severity of rash grade 1, 2a, or 2b|Wilcoxon (Mann-Whitney)|||||||0.0196
92342250|NCT00473083|184586125|SUPERIORITY_OR_OTHER|||||||0.1658||||||P(arm 1 v arm 2) in patients with maximum severity of rash grade 3|Wilcoxon (Mann-Whitney)|||||||0.1658
92342251|NCT00473083|184586125|SUPERIORITY_OR_OTHER||||||>|0.9999||||||"P(arm 2 v arm 3) in patients with maximum severity of rash grade 3.~P-value was calculated to be \>0.9999 using the Wilcoxon Rank Sumtest by comparing between the two treatment arms."|Wilcoxon (Mann-Whitney)|||||||>0.9999
92342252|NCT00473083|184586125|SUPERIORITY_OR_OTHER|||||||0.285||||||P(arm 1 v arm 3) in patients with maximum severity of rash grade 3|Wilcoxon (Mann-Whitney)|||||||0.285
92342253|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.5097|||||||Chi-squared|||Maximal Rash Grade 1||||0.5097
92342254|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.474|||||||Chi-squared|||Maximal Rash Grade 2a||||0.4740
92399241|NCT00467740|184689957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.6|STANDARD_ERROR_OF_MEAN|7.7||0.0016|TWO_SIDED|95.0|9.446|39.754|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||39.754|9.446|0.0016
92342255|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.2123|||||||Chi-squared|||Maximal Severity Grade 2b||||0.2123
92399242|NCT00467740|184689957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.806|STANDARD_ERROR_OF_MEAN|7.727|<|0.0001|TWO_SIDED|95.0|21.598|52.015|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||52.015|21.598|<.0001
92399243|NCT00467740|184689957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.505|STANDARD_ERROR_OF_MEAN|7.675|<|0.0001|TWO_SIDED|95.0|27.399|57.611|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||57.611|27.399|<.0001
92342256|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.5004|||||||Chi-squared|||Maximal Severity Grade 3||||0.5004
92342257|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.9072|||||||Chi-squared|||Maximal Severity Grade 1||||0.9072
92342258|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.0464|||||||Chi-squared|||Maximal Severity Grade 2a||||0.0464
92157547|NCT00087490|184201658|SUPERIORITY_OR_OTHER|||||||0.022|TWO_SIDED|||||Alpha = 0.05 was the level of significance if the null hypothesis was rejected.|Wilcoxon (Mann-Whitney)|||Null hypothesis was that there was no difference in the length of hospital stay between the treatment groups.||||0.022
92157548|NCT00087490|184201659|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|||||Alpha = 0.05 was the level of significance if the null hypothesis was rejected.|Wilcoxon (Mann-Whitney)|||Null hypothesis was that there was no difference in the length of hospital stay between the treatment groups.||||0.016
92157549|NCT00087490|184201660|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||t-test, 2 sided|||||||0.000
92157550|NCT00087490|184201661|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||t-test, 2 sided|||||||0.000
92342259|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.6759|||||||Chi-squared|||Maximal Severity Grade 2b||||0.6759
92342260|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.0065|||||||Chi-squared|||Maximal Severity Grade 3||||0.0065
92342261|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.5898|||||||Chi-squared|||Maximal Severity Grade 1||||0.5898
92342262|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.1921|||||||Chi-squared|||Maximal Severity Grade 2a||||0.1921
92342263|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.0882|||||||Chi-squared|||Maximal Severity Grade 2b||||0.0882
92342264|NCT00473083|184586126|SUPERIORITY_OR_OTHER|||||||0.0344|||||||Chi-squared|||Maximal Severity Grade 3||||0.0344
92399244|NCT00467740|184689958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.118|STANDARD_ERROR_OF_MEAN|1.055||0.2898|TWO_SIDED|95.0|-3.194|0.957|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.957|-3.194|0.2898
92342265|NCT00473083|184586127|SUPERIORITY_OR_OTHER|||||||0.3834|||||||Log Rank|||||||0.3834
92342266|NCT00473083|184586129|SUPERIORITY_OR_OTHER|||||||0.0147|||||||Wilcoxon (Mann-Whitney)|||||||0.0147
92342267|NCT00678418|184586247|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Van der Waerden|||Null hypothesis = the distribution function of opioid-free weeks is the same for both treatment groups.||||0.0002
92342268|NCT00678418|184586248|SUPERIORITY_OR_OTHER|||||||0.0042||95.0||||A total of 114 subjects continued on-study beyond the 168-day endpoint for Part A; these subjects were censored as of the first dosing day in Part B.|Kaplan Meier|||P-value was calculated using the log-rank test for the null hypothesis: the distribution of days to discontinuation does not differ by treatment.||||0.0042
92342269|NCT00678418|184586249|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Chi-squared|||"P-value was calculated using the Chi-square test for the null hypothesis: mean treatment difference = 0.~Calculations were based on the Generalized Estimating Equation (GEE) model (normal distribution, identity link and AR(1) correlation structure) for repeated data on change from baseline with treatment and visit as main effects, and baseline as a covariate. Missing data were imputed using the Last Observation Carried Forward (LOCF) method."||||<0.0001
92342270|NCT00678418|184586250|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75||||0.0154||95.0|0.6|0.95|||Chi-squared|||"Chi-square test was used to calculate the p-value for treatment. Null hypothesis = no association between relapse to dependence and study treatment.~Subjects who discontinued prematurely from the study were imputed as having a positive naloxone challenge test result."||0.95|0.60|0.0154
92342271|NCT00678418|184586251|SUPERIORITY_OR_OTHER|||||||0.0031||95.0|||||van der Waerden|||Null hypothesis: Treatment difference=0. Missing data from subjects due to early discontinuation during Part A were imputed using the baseline rate; thus data for subjects who discontinued early were imputed as having no change from baseline.||||0.0031
92342272|NCT03924323|184586252|SUPERIORITY||least squares mean difference|-1.42||||0.0281|TWO_SIDED|95.0|-2.69|-0.15|||mixed-effects model for repeated measure|||||-0.15|-2.69|0.0281
92157551|NCT02300311|184201670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.849|STANDARD_ERROR_OF_MEAN|0.306|<|0.0001|TWO_SIDED|95.0|-2.454|-1.244||The model included the fixed, categorical effects of treatment, country, time and treatment-by-time interaction and the continuous covariate of baseline PI.|REML based repeated measures approach|restricted maximum likelihood (REML) based repeated measures approach|Differences between the treatment group effects (Finalgon® cream - placebo).|"PID8 utilised a restricted maximum likelihood (REML) based repeated measures approach, using all available longitudinal pain intensity observations at each post-baseline time up to 8 hours.~The statistical model was applied to the analysis of change from baseline in pain intensity at 0.5, 1, 2, 3, 4, 6 and 8 hours."||-1.244|-2.454|<0.0001
92342273|NCT03924323|184586253|SUPERIORITY||Odds Ratio (OR)|1.253||||0.4521|TWO_SIDED|95.0|0.695|2.258|||generalized linear mixed model (GLMMIX)|||||2.258|0.695|0.4521
92342274|NCT03924323|184586254|SUPERIORITY||Odds Ratio (OR)|1.157||||0.6928|TWO_SIDED|95.0|0.56|2.387|||generalized linear mixed model (GLMMIX)|||||2.387|0.560|0.6928
92342275|NCT03903172|184586257|SUPERIORITY||||||=|0.25|||||||t-test, 2 sided|||Day 0||||=0.25
92342276|NCT03903172|184586257|SUPERIORITY||||||=|0.93|||||||t-test, 2 sided|||Day 1||||=.93
92342277|NCT03903172|184586258|SUPERIORITY||||||=|1|||||||Fisher Exact|||Used acetominophen||||=1.0
92342278|NCT03903172|184586258|SUPERIORITY||||||=|1|||||||Fisher Exact|||Used ibuprofen||||=1.0
92342279|NCT03903172|184586258|SUPERIORITY||||||=|1|||||||Fisher Exact|||Used Cyclobenzaprine||||=1.0
92342280|NCT03903172|184586258|SUPERIORITY||||||=|0.11|||||||Fisher Exact|||Used Methocarbamol||||=.11
92399245|NCT00467740|184689958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.351|STANDARD_ERROR_OF_MEAN|1.057||0.027|TWO_SIDED|95.0|-4.432|-0.269|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||-0.269|-4.432|0.0270
92157552|NCT02300311|184201671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.341|STANDARD_ERROR_OF_MEAN|0.248|<|0.0001|TWO_SIDED|95.0|-1.832|-0.851||The statistical model included the fixed, categorical effects of treatment, country, time and treatment-by-time interaction and the continuous covariate of baseline PI.|REML based repeated measures approach|restricted maximum likelihood (REML) based repeated measures approach|Differences between the treatment group effects (Finalgon® cream - placebo)|"PID4 utilised a restricted maximum likelihood (REML) based repeated measures approach, using all available longitudinal pain intensity observations at each post-baseline time up to 4 hours.~The statistical model was applied to the analysis of change from baseline in pain intensity at 0.5, 1, 2, 3, and 4 hours."||-0.851|-1.832|<0.0001
92342281|NCT03903172|184586258|SUPERIORITY||||||=|0.49|||||||Fisher Exact|||Used Hydroxyzine||||=.49
92342282|NCT03903172|184586258|SUPERIORITY||||||=|1|||||||Fisher Exact|||Used an 'Other' non-pharmacologic medication||||=1.0
92342283|NCT03903172|184586259|SUPERIORITY||||||=|1|||||||Fisher Exact|||Any narcotic medication used||||=1.0
92342284|NCT01545388|184586260|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.678|||<|0.001|TWO_SIDED|95.0|-0.868|-0.489|||cLDA|Based on a cLDA model with the terms listed above and a constraint that the mean baseline is the same for all treatment groups.||||-0.489|-0.868|<0.001
92342285|NCT01545388|184586260|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.525|||<|0.001|TWO_SIDED|95.0|-0.713|-0.337|||cLDA|Based on a cLDA model with the terms listed above and a constraint that the mean baseline is the same for all treatment groups.||||-0.337|-0.713|<0.001
92342286|NCT01545388|184586260|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin (Δ) is set as 0.3% to show the non-inferiority of metformin 500 mg q.d. to metformin 250 mg b.i.d.|Difference in least squares means|0.153|||||TWO_SIDED|95.0|0.0|0.306||||||||0.306|0.000|
92342287|NCT01545388|184586261|SUPERIORITY_OR_OTHER||Difference in least squares means|-18.59|||<|0.001|TWO_SIDED|95.0|-25.94|-11.24|||cLDA|Based on a cLDA model with the terms listed above and a constraint that the mean baseline is the same for all treatment groups.||||-11.24|-25.94|<0.001
92342288|NCT01545388|184586261|SUPERIORITY_OR_OTHER||Difference in least squares means|-16.34|||<|0.001|TWO_SIDED|95.0|-23.62|-9.06|||cLDA|Based on a cLDA model with the terms listed above and a constraint that the mean baseline is the same for all treatment groups.||||-9.06|-23.62|<0.001
92342289|NCT01545388|184586261|SUPERIORITY_OR_OTHER||Difference in least squares mean|2.25|||||TWO_SIDED|95.0|-3.63|8.14||||||||8.14|-3.63|
92342290|NCT06058390|184586280|OTHER||Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.91|1.14|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed Baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.14|0.91|
92342291|NCT06058390|184586281|OTHER||Geometric mean ratio|1.05|||||TWO_SIDED|90.0|0.96|1.15|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed Baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.15|0.96|
92342292|NCT06058390|184586282|OTHER||Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.88|1.18|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.18|0.88|
92342293|NCT06058390|184586283|OTHER||Geometric mean ratio|0.98|||||TWO_SIDED|90.0|0.88|1.09|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed Baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.09|0.88|
92342294|NCT06058390|184586284|OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.87|1.13|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed Baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.13|0.87|
92342295|NCT06058390|184586285|OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.87|1.08|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed Baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.08|0.87|
92217307|NCT02248259|184334947|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|89.21|STANDARD_ERROR_OF_MEAN|1.029|||TWO_SIDED|90.0|84.636|94.021|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 13896||94.021|84.636|
92342296|NCT02495389|184586287|SUPERIORITY||Mean Difference (Final Values)|23.96|STANDARD_ERROR_OF_MEAN|2.7741|<|0.0001|TWO_SIDED|95.0|18.35|29.57|||t-test, 2 sided|A two-sided paired t-test was used for this analysis.||The null hypothesis is that there is no change in patients' baseline Overactive Bladder Questionnaire (OAB-q) Health Related Quality of Life (HRQL) score after 12 weeks of therapy.||29.57|18.35|<.0001
92342297|NCT02495389|184586288|SUPERIORITY||Mean Difference (Final Values)|-51.62|STANDARD_ERROR_OF_MEAN|6.1584|<|0.0001|TWO_SIDED|95.0|-64.04|-39.2|||t-test, 2 sided|A two-sided paired t-test was used for this analysis.||The null hypothesis is that there is no change in patients' baseline Urinary Distress Inventory score after 12 weeks of therapy.||-39.20|-64.04|<.0001
92342298|NCT02495389|184586289|SUPERIORITY||Mean Difference (Final Values)|-29.3|STANDARD_ERROR_OF_MEAN|5.4701|<|0.0001|TWO_SIDED|95.0|-40.33|-18.27|||t-test, 2 sided|A two-sided paired t-test was used for this analysis.||The null hypothesis is that there is no change in patients' baseline Pelvic Organ Prolapse Distress Inventory score after 12 weeks of therapy.||-18.27|-40.33|<.0001
92342299|NCT02495389|184586290|SUPERIORITY||Mean Difference (Final Values)|-32.0|STANDARD_ERROR_OF_MEAN|6.1226|<|0.0001|TWO_SIDED|95.0|-44.35|-19.65|||t-test, 2 sided|A two-sided paired t-test was used for this analysis.||The null hypothesis is that there is no change in patients' baseline Colo-Rectal-Anal Distress Inventory score after 12 weeks of therapy.||-19.65|-44.35|<.0001
92342300|NCT03585270|184586291|SUPERIORITY||Relative Risk Reduction|0.072||||0.7338|TWO_SIDED|95.0|-0.426|0.396|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.2785).|||0.396|-0.426|0.7338
92342301|NCT03585270|184586292|SUPERIORITY||Relative Risk Reduction|0.341||||0.177|TWO_SIDED|95.0|-0.213|0.642|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.8644).|||0.642|-0.213|0.177
92342302|NCT03585270|184586293|SUPERIORITY||Relative Risk Reduction|-0.254||||0.1983|TWO_SIDED|95.0|-0.76|0.107|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.8844).|||0.107|-0.760|0.1983
92342303|NCT03585270|184586294|SUPERIORITY||Relative Risk Reduction|-0.254||||0.1983|TWO_SIDED|95.0|-0.76|0.107|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.8844).|||0.107|-0.760|0.1983
92342304|NCT03585270|184586295|SUPERIORITY||Relative Risk Reduction|0.119||||0.5591|TWO_SIDED|95.0|-0.349|0.425|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.1706).|||0.425|-0.349|0.5591
92342305|NCT03585270|184586296|SUPERIORITY||Relative Risk Reduction|0.267||||0.1179|TWO_SIDED|95.0|-0.085|0.505|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.4580)|||0.505|-0.085|0.1179
92342306|NCT03585270|184586297|SUPERIORITY||Relative Risk Reduction|0.139||||0.5217|TWO_SIDED|95.0|-0.365|0.457|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.1685)|||0.457|-0.365|0.5217
92342307|NCT03292016|184586298|OTHER||Geometric Mean ratio (APL-130277/APOKYN)|12.3|||||TWO_SIDED|90.0|7.5|20.3|||Mixed Models Analysis|With fixed effects-treatment and period, random effect-subject nested within sequence to analyze natural-log transformed dose normalized parameter.||Sample size of 12 subjects, a two-sided 90% CI for the difference in paired PK parameter means on the log scale will have an interval that extends no more than 0.221 units from the observed difference with 90% coverage probability. Assumes CV of 35% for the difference on the original scale.||20.3|7.5|
92342308|NCT03292016|184586298|OTHER||Geometric Mean ratio (APL-130277/APO-go)|10.3|||||TWO_SIDED|90.0|6.5|16.3||||||||16.3|6.5|
92342309|NCT03292016|184586298|OTHER|relative bioavailibilty|Geometric Mean ratio (APOKYN/APO-go)|83.4|||||TWO_SIDED|90.0|50.5|137.6||||||||137.6|50.5|
92342310|NCT03292016|184586298|OTHER||Ratio|0.21|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 20 mg and APO-Go 3 mg|||||
92342311|NCT03292016|184586298|OTHER||Ratio|0.13|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 20 mg and APOKYN 3 mg|||||
92342312|NCT03292016|184586298|OTHER||Ratio|1.16|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 3 mg and APOKYN 3 mg|||||
92342313|NCT03292016|184586298|OTHER||Ratio|0.16|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 25 mg and APO-Go 4 mg|||||
92342314|NCT03292016|184586298|OTHER||Ratio|0.17|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 25 mg and APOKYN 4 mg|||||
92342315|NCT03292016|184586298|OTHER||Ratio|1.12|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 4 mg and APOKYN 4 mg|||||
92399246|NCT00467740|184689958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.045|STANDARD_ERROR_OF_MEAN|1.063||0.0045|TWO_SIDED|95.0|-5.138|-0.952|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||-0.952|-5.138|0.0045
92399247|NCT00467740|184689958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.937|STANDARD_ERROR_OF_MEAN|1.053||0.0056|TWO_SIDED|95.0|-5.01|-0.865|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||-0.865|-5.010|0.0056
92399248|NCT00467740|184689959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.287|STANDARD_ERROR_OF_MEAN|0.257||0.2645|TWO_SIDED|95.0|-0.793|0.218|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.218|-0.793|0.2645
92399249|NCT00467740|184689959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.526|STANDARD_ERROR_OF_MEAN|0.258||0.0423|TWO_SIDED|95.0|-1.034|-0.018|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||-0.018|-1.034|0.0423
92342316|NCT03292016|184586298|OTHER||Ratio|0.08|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 30 mg and APO-Go 5 mg|||||
92342317|NCT03292016|184586298|OTHER||Ratio|0.09|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 30 mg and APOKYN 5 mg|||||
92342318|NCT03292016|184586298|OTHER||Ratio|1.04|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 5 mg and APOKYN 5 mg|||||
92342319|NCT03292016|184586299|OTHER|||||||0.0625|||||||Sign test|||||||0.0625
92342320|NCT03292016|184586299|OTHER|||||||0.0313|||||||Sign test|||||||0.0313
92342321|NCT03292016|184586299|OTHER||||||>|0.9999|||||||Sign test|||||||>0.9999
92342322|NCT03292016|184586300|OTHER||Geometric Mean Ratio (APL-130277/APOKYN)|17.2|||||TWO_SIDED|90.0|13.1|22.5|||Mixed Models Analysis|With fixed effects-treatment and period, random effect-subject nested within sequence to analyze natural-log transformed dose normalized parameter.||||22.5|13.1|
92342323|NCT03292016|184586300|OTHER||Geometric Mean Ratio (APL-130277/APOKYN)|16.7|||||TWO_SIDED|90.0|13.0|21.3|||Mixed Models Analysis|||||21.3|13.0|
92399250|NCT00467740|184689959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.332|STANDARD_ERROR_OF_MEAN|0.259||0.2008|TWO_SIDED|95.0|-0.842|0.178|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.178|-0.842|0.2008
92157553|NCT02300311|184201672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.958|STANDARD_ERROR_OF_MEAN|0.381|<|0.0001|TWO_SIDED|95.0|-3.712|-2.205|||ANCOVA|ANCOVA using the fixed, categorical effects of treatment and country as well as the continuous covariate of baseline PI.|Differences between the treatment group effects (Finalgon® cream - placebo)|The difference of average pain intensity from pre-dose baseline on the last individual treatment day was analysed using ANCOVA.||-2.205|-3.712|<0.0001
92157554|NCT02300311|184201673|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.37|||<|0.0001|TWO_SIDED|95.0|5.342|24.199|||Regression, Logistic|Ordinal logistic regression models adjusting for the continuous covariate 'baseline PI' and the categorical variable 'country' was performed.|Odds ratio of (Finalgon® cream / placebo)|"For the analysis of the repeated multinomial efficacy endpoint 'patient assessment of efficacy' on the last individual treatment day, ordinal logistic regression models is used.~Only non-missing data is analysed in the statistical model."||24.199|5.342|<0.0001
92157555|NCT00848211|184201674|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||ANOVA|||||||0.008
92342324|NCT03292016|184586300|OTHER||Geometric Mean Ratio (APOKYN/APO-go)|96.9|||||TWO_SIDED|90.0|74.2|126.4||||||||126.4|74.2|
92342325|NCT03292016|184586300|OTHER||Ratio|0.32|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 20 mg and APO-Go 3 mg|||||
92157556|NCT00848211|184201676|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||ANOVA|||||||0.045
92157557|NCT01438229|184201707|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92168571|NCT02217904|184226876|SUPERIORITY||Posterior mean difference|-1.28|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between islatravir and placebo at least 0.5 log10 copies/mL was \>99%.|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean of pooled historical placebo data was -0.03 log10 copies/mL (95% CI -014, 0.09) change from baseline at 168 hours post dose.||||
92342326|NCT03292016|184586300|OTHER||Ratio|0.16|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 20 mg and APOKYN 3 mg|||||
92342327|NCT03292016|184586300|OTHER||Ratio|1.09|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 3 mg and APOKYN 3 mg|||||
92342328|NCT03292016|184586300|OTHER||Ratio|0.23|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 25 mg and APO-Go 4 mg|||||
92342329|NCT03292016|184586300|OTHER||Ratio|0.23|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 25 mg and APOKYN 4 mg|||||
92342330|NCT03292016|184586300|OTHER||Ratio|1.0|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 4 mg and APOKYN 4 mg|||||
92342331|NCT03292016|184586300|OTHER||Ratio|0.15|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 30 mg and APO-Go 5 mg|||||
92399251|NCT00467740|184689959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.593|STANDARD_ERROR_OF_MEAN|0.257||0.0218|TWO_SIDED|95.0|-1.098|-0.087|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||-0.087|-1.098|0.0218
92342332|NCT03292016|184586300|OTHER||Ratio|0.14|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 30 mg and APOKYN 5 mg|||||
92342333|NCT03292016|184586300|OTHER||Ratio|0.96|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 5 mg and APOKYN 5 mg|||||
92342334|NCT03292016|184586301|OTHER||Geometric Mean Ratio (APL-130277/APOKYN)|17.6|||||TWO_SIDED|90.0|13.7|22.5|||Mixed Models Analysis|With fixed effects-treatment and period, random effect-subject nested within sequence to analyze natural-log transformed dose normalized parameter.||||22.5|13.7|
92342335|NCT03292016|184586301|OTHER||Geometric Mean Ratio (APL-130277/APO-go)|17.2|||||TWO_SIDED|90.0|13.7|21.6|||Mixed Models Analysis|||||21.6|13.7|
92342336|NCT03292016|184586301|OTHER||Geometric Mean Ratio (APOKYN/APO-go)|97.8|||||TWO_SIDED|90.0|76.6|124.8|||Mixed Models Analysis|||||124.8|76.6|
92342337|NCT03292016|184586306|OTHER|||||||0.0313|||||||Wilcoxon (Mann-Whitney)|||||||0.0313
92342338|NCT03292016|184586306|OTHER|||||||0.0625|||||||Wilcoxon (Mann-Whitney)|||||||0.0625
92342339|NCT03292016|184586306|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||||||>0.9999
92342340|NCT02756910|184586318|OTHER||percentile method|0.5|STANDARD_DEVIATION|1.96|<|0.05|TWO_SIDED|95.0|||||bootstrapping|||||||<0.05
92342341|NCT00323063|184586319|OTHER|||||||0.3|||||||Log Rank|||||||0.3
92342342|NCT03904693|184586322|SUPERIORITY||Geometric Mean Ratio|0.71|||<|0.0001|TWO_SIDED|95.0|0.61|0.82|||ANCOVA|||||0.82|0.61|<0.0001
92342343|NCT03904693|184586322|SUPERIORITY||Geometric Mean Ratio|0.72|||<|0.0001|TWO_SIDED|95.0|0.64|0.8|||ANCOVA|||||0.80|0.64|<0.0001
92342344|NCT03904693|184586323|SUPERIORITY||Geometric Mean Ratio|16.04|||=|0.3802|TWO_SIDED|95.0|-17.0|49.08|||ANCOVA|||||49.08|-17.0|=0.3802
92342345|NCT03904693|184586323|SUPERIORITY||Geometric Mean Ratio|25.37|||=|0.0591|TWO_SIDED|95.0|-0.93|51.59|||ANCOVA|||||51.59|-0.93|=0.0591
92342346|NCT04613518|184586434|SUPERIORITY||Mean Difference (Final Values)|3.8|||||TWO_SIDED|95.0|-35.7|43.4||||||||43.4|-35.7|
92217308|NCT02248259|184334947|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|92.89|STANDARD_ERROR_OF_MEAN|1.026|||TWO_SIDED|90.0|88.592|97.396|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis of CD 13896||97.396|88.592|
92217309|NCT02248259|184334947|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|99.61|STANDARD_ERROR_OF_MEAN|1.022|||TWO_SIDED|90.0|95.796|103.584|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 14084||103.584|95.796|
92217310|NCT02248259|184334947|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|104.37|STANDARD_ERROR_OF_MEAN|1.031|||TWO_SIDED|90.0|98.783|110.278|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for CD 14084||110.278|98.783|
92217311|NCT02248259|184334948|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|93.26|STANDARD_ERROR_OF_MEAN|1.086|||TWO_SIDED|90.0|80.377|108.217|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for BI 409306||108.217|80.377|
92217312|NCT02248259|184334948|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|76.65|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|60.482|97.141|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for BI 409306||97.141|60.482|
92217313|NCT02248259|184334948|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|78.71|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|67.304|92.052|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 13896||92.052|67.304|
92217314|NCT02248259|184334948|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|95.29|STANDARD_ERROR_OF_MEAN|1.093|||TWO_SIDED|90.0|81.092|111.964|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for CD 13896||111.964|81.092|
92217315|NCT02248259|184334948|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|86.79|STANDARD_ERROR_OF_MEAN|1.041|||TWO_SIDED|90.0|80.731|93.309|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 14084||93.309|80.731|
92217316|NCT02248259|184334948|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|107.45|STANDARD_ERROR_OF_MEAN|1.091|||TWO_SIDED|90.0|91.764|125.812|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for CD 14084||125.812|91.764|
92342347|NCT01076543|184586495|OTHER||Maximum tolerated dose in mg|20.0|||||TWO_SIDED||||||||"The maximum tolerated dose (MTD) was determined using the traditional 3+3 design and was the maximum dose level such that less than 33% of the patients (i.e, \<1 of 3 or \<2 of 6) experience dose-limiting toxicity."|||||
92342348|NCT01076543|184586497|SUPERIORITY||||||>|0.1|||||||Binomial exact test|The number of responders required to reject the null hypothesis was 16 or more.||Two-stage, minimax design was used to test the null hypothesis that the overall response rate was 30% vs. a 50% alternative.||||>0.10
92399252|NCT00467740|184689968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.142|STANDARD_ERROR_OF_MEAN|0.114||0.2156||95.0|-0.368|0.083|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.083|-0.368|0.2156
92217317|NCT02248259|184334949|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|113.61|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|90.0|100.505|128.427|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for BI 409306||128.427|100.505|
92217318|NCT02248259|184334949|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|87.91|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|90.0|77.763|99.37|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for BI 409306||99.370|77.763|
92217319|NCT02248259|184334949|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|89.05|STANDARD_ERROR_OF_MEAN|1.029|||TWO_SIDED|90.0|84.478|93.859|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 13896||93.859|84.478|
92217320|NCT02248259|184334949|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|92.48|STANDARD_ERROR_OF_MEAN|1.026|||TWO_SIDED|90.0|88.278|96.889|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for CD 13896||96.889|88.278|
92217321|NCT02248259|184334949|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|99.61|STANDARD_ERROR_OF_MEAN|1.022|||TWO_SIDED|90.0|95.791|103.583|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 14084||103.583|95.791|
92217322|NCT02248259|184334949|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|104.44|STANDARD_ERROR_OF_MEAN|1.031|||TWO_SIDED|90.0|98.861|110.336|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for CD 14084||110.336|98.861|
92217323|NCT02807480|184334958|OTHER|Correlation between conflict approach behavior and GAD-7 scores at baseline|Pearson correlation|0.23||||0.088|TWO_SIDED||||||Pearson correlation|||||||.088
92217324|NCT02807480|184334958|OTHER||Pearson correlation|-0.2||||0.134|TWO_SIDED||||||Pearson correlation|||Correlation of baseline response time during conflict with baseline GAD-7 scores.||||.134
92217325|NCT02807480|184334958|OTHER||Pearson correlation|0.12||||0.032|TWO_SIDED||||||Pearson correlation|||Correlation of baseline striatum response to points (reward) with baseline GAD-7 scores.||||.032
92217326|NCT02807480|184334958|OTHER||Pearson correlation|-0.12||||0.375|TWO_SIDED||||||Pearson correlation|||Correlation of baseline right amygdala activity during negative images with baseline GAD7 scores||||0.375
92342349|NCT01076543|184586497|SUPERIORITY|||||||||||||||||Two-stage, minimax design was used to test the null hypothesis that the overall response rate was 50% vs. 70% alternative.|The follicular subgroup did not reach its accrual goal and was closed.|||
92342350|NCT01076543|184586497|SUPERIORITY||||||<|0.1|||||||Binomial exact test.|The number of responders required to reject the null hypothesis was 16 or more.||Two-stage, minimax design was used to test the null hypothesis that the overall response rate was 30% vs. a 50% alternative.||||<0.10
92399253|NCT00467740|184689968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.197|STANDARD_ERROR_OF_MEAN|0.114||0.0869||95.0|-0.422|0.029|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.029|-0.422|0.0869
92275054|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63|||||TWO_SIDED|95.0|-23.7|22.43||||||For change in fear of future health at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||22.43|-23.70|
92157558|NCT04770220|184201790|OTHER|"For the primary efficacy outcome of ADAS-Cog 13, this study has \>90% power to detect a 3.0-point difference between the active ALZ-801 treatment and the placebo in the CBL to Week 78. An increase in ADAS-Cog scores denotes cognitive worsening.~The primary analysis population was the full analysis set (FAS). The FAS included all study subjects who received at least one dose of the study drug and had at least one baseline assessment and any post baseline efficacy assessment."|Least Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.98||0.6058|TWO_SIDED|||||Statistical testing was two-sided at the α=0.05 significance level. Between-treatment group comparison (effect in ALZ-801 minus effect in placebo): LSM difference and p-value.|MMRM||ALZ-801 minus placebo|"The null hypothesis was change from baseline (CBL) of ADAS-Cog13 in the ALZ-801 arm was not different from the placebo arm. The alternative hypothesis was that the CBL of ADAS-Cog13 in ALZ-801 arm was different.~A Mixed-Effect Model Repeated Measure (MMRM) model was used with fixed terms for treatment, gender, age group, disease severity based on baseline MMSE (≤ 26 vs. \> 26), concomitant AD medications, visit, and treatment by visit interaction and baseline ADAS-Cog 13 values as covariates."||||0.6058
92157559|NCT04770220|184201792|OTHER||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|2.84||0.9966|TWO_SIDED|||||Nominal p-value|MMRM|Nominal (descriptive only)|ALZ-801 minus placebo|"The A-IADL-W is one of 2 key secondary endpoints. The key secondary efficacy endpoints were to be compared only after the comparison of the primary endpoint has reached statistical significance. Because the primary endpoint did not reach statistical significance, the comparisons for the key secondary endpoints are descriptive only.~The same MMRM method applied to the primary efficacy endpoint was used to evaluate the between-treatment difference for the key secondary endpoints."||||0.9966
92157560|NCT04770220|184201793|OTHER||Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.31||0.309|TWO_SIDED|||||Nominal p-value|MMRM||ALZ-801 minus placebo|"The CDR-SB is one of 2 key secondary endpoints. The key secondary efficacy endpoints were to be compared only after the comparison of the primary endpoint has reached statistical significance. Because the primary endpoint did not reach statistical significance, the comparisons for the key secondary endpoints are descriptive only.~The same MMRM method applied to the primary efficacy endpoint was used to evaluate the between-treatment difference for the key secondary endpoints."||||0.3090
92157561|NCT04770220|184201794|OTHER||Least Squares Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|2.4||0.2763|TWO_SIDED|||||Nominal p-value|MMRM|Nominal (descriptive only)|ALZ-801 minus placebo|The same MMRM method applied to the primary efficacy endpoint was used to evaluate the between-treatment difference for the additional secondary endpoints. The hypothesis testing was done without control for type I errors due to multiple comparisons, and the p-value was considered nominal.||||0.2763
92157562|NCT04770220|184201795|OTHER||Least Squares Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.47||0.4484|TWO_SIDED|||||Nominal p-value|MMRM|Nominal (descriptive only)|ALZ-801 minus placebo|The same MMRM method applied to the primary efficacy endpoint was used to evaluate the between-treatment difference for the additional secondary endpoints. The hypothesis testing was done without control for type I errors due to multiple comparisons, and the p-value was considered nominal.||||0.4484
92157563|NCT04770220|184201796|OTHER||Least Squares Mean Difference|73.505|STANDARD_ERROR_OF_MEAN|30.711||0.0174|TWO_SIDED|||||Nominal p-value|MMRM||ALZ-801 minus placebo.|Analysis of the volumetric MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline volumetric MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||||0.0174
92157564|NCT04770220|184201797|OTHER||Least Squares Mean Difference|0.012|STANDARD_ERROR_OF_MEAN|0.004||0.002|TWO_SIDED|||||Nominal p-value|MMRM||ALZ-801 minus placebo|Analysis of the volumetric MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline volumetric MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||||0.0020
92157565|NCT04770220|184201798|OTHER||Least Squares Mean Difference|0.021|STANDARD_ERROR_OF_MEAN|0.007||0.004|TWO_SIDED|95.0||||Nominal p-value|MMRM||ALZ-801 minus placebo|Analysis of the volumetric MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline volumetric MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||||0.0040
92157566|NCT04770220|184201799|OTHER||Least Squares Mean Difference|2821.027|STANDARD_ERROR_OF_MEAN|1366.533||0.04|TWO_SIDED|||||Nominal p-value|MMRM||ALZ-801 minus placebo|Analysis of the volumetric MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline volumetric MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||||0.0400
92157567|NCT04770220|184201800|OTHER||Least Squares Mean Difference|-1157.0|STANDARD_ERROR_OF_MEAN|367.0||0.0018|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0018
92217327|NCT02807480|184334958|OTHER||Pearson correlation|0.06||||0.651|TWO_SIDED||||||Pearson correlation|||Correlation of baseline right dlPFC activity during conflict decision-making with baseline GAD-7 scores.||||.651
92217328|NCT02807480|184334958|OTHER|Correlation of baseline striatum response to negative pictures with baseline GAD-7 scores.|Pearson correlation|-0.35||||0.008|TWO_SIDED||||||Pearson correlation|||||||.008
92399254|NCT00467740|184689968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.328|STANDARD_ERROR_OF_MEAN|0.114||0.0044||95.0|-0.552|-0.103|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||-0.103|-0.552|0.0044
92399255|NCT00467740|184689968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.276|STANDARD_ERROR_OF_MEAN|0.113||0.0158||95.0|-0.499|-0.052|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||-0.052|-0.499|0.0158
92399256|NCT00867165|184689971|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-26.74|||<|0.001|TWO_SIDED|95.0|-30.8|-22.69|||ANCOVA|||||-22.69|-30.80|<0.001
92399257|NCT00867165|184689972|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-20.92|||<|0.001|TWO_SIDED|95.0|-24.2|-17.65|||ANCOVA|||||-17.65|-24.20|<0.001
92217329|NCT02807480|184334959|OTHER||Slope|-1.51||||0.007|TWO_SIDED|95.0|-2.62|-0.41||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0071.|Regression, Linear||Those with lower levels of baseline left amygdala response to positive picture outcomes had favorable GAD symptom improvements in BA and limited GAD symptom improvements in EXP.|Assess left amygdala response to positive picture decision outcomes as a predictor of GAD-7 symptom improvement: time x L. Amyg x treatment-arm interaction||-0.41|-2.62|.007
92342351|NCT00791999|184586538|SUPERIORITY_OR_OTHER||||||<|0.025||95.0||||Wald p-values(vs. placebo) for the comparison of the treatment groups have been calculated using logistic regression with factors for treatment.|Regression, Logistic|||For ACR20 responder rate at Week 12, treatment comparisons versus placebo for the two CDP870 dose groups, the CDP870 200 mg group the CDP870 400 mg, were performed. The ACR20 responder rate in the CDP870 100 mg group was used for the secondary analysis.||||<0.025
92342352|NCT00791999|184586539|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Wald p-values(vs. placebo) for the comparison of the treatment groups have been calculated using logistic regression with factors for treatment.|Regression, Logistic|||||||<0.05
92342353|NCT02688933|184586551|SUPERIORITY||Least Square mean difference|0.22|STANDARD_ERROR_OF_MEAN|1.15||0.8494|TWO_SIDED|||||Threshold for significance at 0.05 level.|Generalized linear model|Generalized linear model with identity link||Analysis was performed using generalized linear model with identity link, had percentage of time glucose concentration within target range 70-180 mg/dL as dependent variable, treatment group as an independent variable, adjusting variables including baseline characteristics: duration of diabetes, baseline BMI, age, and randomization strata (HbA1c at screening \[\<8.0% vs ≥8.0%\], frequency of Lantus injection at screening, current CGM use \[yes/no\], and mealtime insulin titration algorithm).||||0.8494
92342354|NCT04379921|184586645|OTHER|||||||0.26801155||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to SF-36||||0.26801155
92342355|NCT04379921|184586645|OTHER|||||||0.27520264||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to EQ-5D||||0.27520264
92342356|NCT04379921|184586645|OTHER|||||||0.95547874||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to PROMIS||||0.95547874
92342357|NCT04379921|184586645|OTHER|||||||0.5623012||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to NDI||||0.56230120
92342358|NCT04379921|184586645|OTHER|||||||0.3581397||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to ODI||||0.35813970
92342359|NCT04379921|184586645|OTHER|||||||0.26801155||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to SF-36||||0.26801155
92399258|NCT00867165|184689973|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-20.24|||<|0.001|TWO_SIDED|95.0|-24.02|-16.45|||ANCOVA|||||-16.45|-24.02|<0.001
92217330|NCT02807480|184334959|OTHER||Slope|0.36||||0.238|TWO_SIDED|95.0|-0.24|0.97|||Regression, Linear|||Baseline approach behavior during conflict trials predicting trajectory of GAD-7 symptoms: time main effect||0.97|-0.24|0.238
92342360|NCT04379921|184586645|OTHER|||||||0.08121447||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to EQ-5D||||0.08121447
92342361|NCT04379921|184586645|OTHER|||||||0.95547874||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to PROMIS||||0.95547874
92342362|NCT04379921|184586645|OTHER|||||||0.59932922||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to NDI||||0.59932922
92342363|NCT04379921|184586645|OTHER|||||||0.3581397||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to ODI||||0.35813970
92399259|NCT00867165|184689974|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.7||||0.807|TWO_SIDED|95.0|-4.97|6.36|||ANCOVA|||||6.36|-4.97|0.807
92399260|NCT00867165|184689975|SUPERIORITY_OR_OTHER_LEGACY||Differrence in least-squares means|-25.75|||<|0.001|TWO_SIDED|95.0|-29.59|-21.91|||ANCOVA|||||-21.91|-29.59|<0.001
92399261|NCT00867165|184689976|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-14.68||||0.021|TWO_SIDED|95.0|-27.35|-2.0|||Constrained longitudinal data analysis|||||-2.00|-27.35|0.021
92399262|NCT00867165|184689977|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-24.97|||<|0.001|TWO_SIDED|95.0|-28.95|-20.99|||ANCOVA|||||-20.99|-28.95|<0.001
92399263|NCT00867165|184689978|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-23.94|||<|0.001|TWO_SIDED|95.0|-27.49|-20.39|||ANCOVA|||||-20.39|-27.49|<0.001
92399264|NCT00867165|184689979|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-27.71|||<|0.001|TWO_SIDED|95.0|-31.7|-23.73|||ANCOVA|||||-23.73|-31.70|<0.001
92399265|NCT00867165|184689980|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-20.09|||<|0.001|TWO_SIDED|95.0|-23.3|-16.89|||ANCOVA|||||-16.89|-23.30|<0.001
92342364|NCT04379921|184586646|OTHER|||||||0.0909144||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to SF-36||||0.09091440
92342365|NCT04379921|184586646|OTHER|||||||0.12858419||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to EQ-5D||||0.12858419
92399266|NCT00867165|184689981|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-20.27|||<|0.001|TWO_SIDED|95.0|-23.39|-17.15|||ANCOVA|||||-17.15|-23.39|<0.001
92399267|NCT00867165|184689982|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-21.37|||<|0.001|TWO_SIDED|95.0|-24.67|-18.08|||ANCOVA|||||-18.08|-24.67|<0.001
92342366|NCT04379921|184586646|OTHER|||||||0.95547874||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to PROMIS||||0.95547874
92342367|NCT04379921|184586646|OTHER|||||||0.9304017||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to NDI||||0.93040170
92342368|NCT04379921|184586646|OTHER|||||||0.38647114||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to ODI||||0.38647114
92342369|NCT04379921|184586646|OTHER|||||||0.0909144||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to SF-36||||0.09091440
92342370|NCT04379921|184586646|OTHER|||||||0.12858419||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to EQ-5D||||0.12858419
92399268|NCT00867165|184689983|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-0.95||||0.733|TWO_SIDED|95.0|-6.46|4.55|||ANCOVA|||||4.55|-6.46|0.733
92342371|NCT04379921|184586646|OTHER|||||||0.95547874||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to PROMIS||||0.95547874
92342372|NCT04379921|184586646|OTHER|||||||0.9304017||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to NDI||||0.93040170
92342373|NCT04379921|184586646|OTHER|||||||0.38647114||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to ODI||||0.38647114
92157568|NCT04770220|184201801|OTHER||Least Squares Mean Difference|-0.0000214|STANDARD_ERROR_OF_MEAN|0.00000111||0.054|TWO_SIDED|95.0|-0.0000432|0.00000037||Nominal p-value|MMRM||ALZ-801 minus placebo|Analysis of the DTI-MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline DTI-MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||0.00000037|-0.0000432|0.054
92157569|NCT04770220|184201802|OTHER||Least Squares Mean Difference|-0.0000228|STANDARD_ERROR_OF_MEAN|0.00000829||0.0064|TWO_SIDED|95.0|-0.0000391|-0.0000065||Nominal p-value|MMRM|||||-0.0000065|-0.0000391|0.0064
92342374|NCT04379921|184586647|OTHER|||||||0.14778771||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to SF-36||||0.14778771
92342375|NCT04379921|184586647|OTHER|||||||0.36288455||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to EQ-5D||||0.36288455
92342376|NCT04379921|184586647|OTHER|||||||0.95547874|||||||Wilcoxon (Mann-Whitney)|The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).||Analysis of correlation: steps to PROMIS||||0.95547874
92342377|NCT04379921|184586647|OTHER|||||||0.65291937||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to NDI||||0.65291937
92342378|NCT04379921|184586647|OTHER|||||||0.61429132|||||||Wilcoxon (Mann-Whitney)|The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).||Analysis of correlation: steps to ODI||||0.61429132
92399269|NCT00867165|184689984|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|0.53||||0.863|TWO_SIDED|95.0|-5.59|6.66|||ANCOVA|||||6.66|-5.59|0.863
92399270|NCT00867165|184689985|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|1.92||||0.501|TWO_SIDED|95.0|-3.71|7.56|||ANCOVA|||||7.56|-3.71|0.501
92399271|NCT00867165|184689986|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-24.18|||<|0.001|TWO_SIDED|95.0|-27.78|-20.58|||ANCOVA|||||-20.58|-27.78|<0.001
92399272|NCT00867165|184689987|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-24.61|||<|0.001|TWO_SIDED|95.0|-28.06|-21.16|||ANCOVA|||||-21.16|-28.06|<0.001
92399273|NCT00867165|184689988|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-26.55|||<|0.001|TWO_SIDED|95.0|-30.35|-22.75|||ANCOVA|||||-22.75|-30.35|<0.001
92399274|NCT00867165|184689989|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-9.73||||0.137|TWO_SIDED|95.0|-22.73|3.27|||Constrained longitudinal data analysis|||||3.27|-22.73|0.137
92399275|NCT00867165|184689990|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-15.19||||0.005|TWO_SIDED|95.0|-26.05|-4.34|||Constrained longitudinal data analysis|||||-4.34|-26.05|0.005
92399276|NCT00867165|184689991|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-8.61||||0.149|TWO_SIDED|95.0|-20.44|3.23|||Constrained longitudinal data analysis|||||3.23|-20.44|0.149
92342379|NCT04379921|184586647|OTHER|||||||0.1589642||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to SF-36||||0.15896420
92342380|NCT04379921|184586647|OTHER|||||||0.39253325||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to EQ-5D||||0.39253325
92342381|NCT04379921|184586647|OTHER|||||||0.99526258||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to PROMIS||||0.99526258
92342382|NCT04379921|184586647|OTHER|||||||0.65291937||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to NDI||||0.65291937
92342383|NCT04379921|184586647|OTHER|||||||0.67694276||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to ODI||||0.67694276
92342384|NCT04379921|184586648|OTHER|||||||0.06340316||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to SF-36||||0.06340316
92342385|NCT04379921|184586648|OTHER|||||||0.08121447||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to EQ-5D||||0.08121447
92342386|NCT04379921|184586648|OTHER|||||||0.95547874||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to PROMIS||||0.95547874
92342387|NCT04379921|184586648|OTHER|||||||0.59932922||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to NDI||||0.59932922
92342388|NCT04379921|184586648|OTHER|||||||0.3581397||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to ODI||||0.35813970
92342389|NCT04379921|184586648|OTHER|||||||0.06340316||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to SF-36||||0.06340316
92342390|NCT04379921|184586648|OTHER|||||||0.08121447||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to EQ-5D||||0.08121447
92157570|NCT04770220|184201803|OTHER||Least Squares Mean Difference|0.009455|STANDARD_ERROR_OF_MEAN|0.00472||0.0465|TWO_SIDED|95.0|0.0001469|0.01876||Nominal p-value|MMRM|||||0.01876|0.0001469|0.0465
92342391|NCT04379921|184586648|OTHER|||||||0.95547874||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to PROMIS||||0.95547874
92342392|NCT04379921|184586648|OTHER|||||||0.59932922|||||||Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to NDI||||0.59932922
92342393|NCT04379921|184586648|OTHER|||||||0.3581397||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to ODI||||0.35813970
92342394|NCT04379921|184586649|OTHER|||||||0.52394318||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to SF-36||||0.52394318
92342395|NCT04379921|184586649|OTHER|||||||0.37244637||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to EQ-5D||||0.37244637
92342396|NCT04379921|184586649|OTHER|||||||0.95547874||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to PROMIS||||0.95547874
92342397|NCT04379921|184586649|OTHER|||||||0.9304017||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to NDI||||0.93040170
92342398|NCT04379921|184586649|OTHER|||||||0.38647114||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: steps to ODI||||0.38647114
92342399|NCT04379921|184586649|OTHER|||||||0.7155239||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to SF-36||||0.71552390
92342400|NCT04379921|184586649|OTHER|||||||0.35456143||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to EQ-5D||||0.35456143
92342401|NCT04379921|184586649|OTHER|||||||0.95547874||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to PROMIS||||0.95547874
92342402|NCT04379921|184586649|OTHER|||||||0.9304017||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to NDI||||0.93040170
92342403|NCT04379921|184586649|OTHER|||||||0.42512141||||||The a priori threshold for statistical significance is \< 0.05. The p-value is adjusted using the Benjamini-Hochberg (BH method).|Wilcoxon (Mann-Whitney)|||Analysis of correlation: distance (meters) to ODI||||0.42512141
92342404|NCT04275973|184586667|SUPERIORITY|||||||0.649|||||||t-test, 2 sided|||No Intervention vs AFO||||0.649
92342405|NCT04275973|184586667|SUPERIORITY|||||||0.513|||||||t-test, 2 sided|||No Intervention vs FES||||0.513
92342406|NCT04275973|184586667|SUPERIORITY|||||||0.617|||||||t-test, 2 sided|||AFO vs FES||||0.617
92157571|NCT04770220|184201804|OTHER||Least Squares Mean Difference|-2.14|STANDARD_ERROR_OF_MEAN|1.05||0.0416|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0416
92217331|NCT02807480|184334959|SUPERIORITY||Slope|-0.49||||0.262|TWO_SIDED|95.0|-1.36|0.37|||Regression, Linear|||Relationship between baseline approach behavior on conflict trials and the trajectory of GAD-7 symptoms: time x treatment interaction effect||0.37|-1.36|.262
92342407|NCT00791219|184586688|NON_INFERIORITY|To demonstrate non-inferiority an upper bound 95% confidence interval approach comparing the difference between the cure rate in the Test and the Reference groups was used. If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure and Mycological Cure as appropriate, at Week 24 was greater than -20 then non-inferiority was considered to have been demonstrated|-20|6.47|||||ONE_SIDED|95.0|-1.77||||||||||-1.77|
92342408|NCT00791219|184586688|SUPERIORITY||||||<|0.05|||||||one-sided continuity corrected Z-test|||The ITT was used for all superiority testing. For the three primary endpoints and all four secondary endpoints, if the difference between the proportion of patients considered a cure was statistically greater (p\<0.05) than the proportion of patients considered a cure in the Placebo group, then superiority was considered to have been demonstrated. A one-sided continuity corrected Z-test was used for superiority testing||||<0.05
92342409|NCT00791219|184586689|NON_INFERIORITY|To demonstrate non-inferiority an upper bound 95% confidence interval approach comparing the difference between the cure rate in the Test and the Reference groups was used. If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure and Mycological Cure as appropriate, at Week 24 was greater than -20 then non-inferiority was considered to have been demonstrated|-20|10.38|||||ONE_SIDED|95.0|0.92|||||||To demonstrate non-inferiority an upper bound 95% confidence interval approach comparing the difference between the cure rate in the Test and the Reference groups was used. If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure and Mycological Cure as appropriate, at Week 24 was greater than -20 then non-inferiority was considered to have been demonstrated|||0.92|
92342410|NCT00791219|184586689|SUPERIORITY||||||<|0.05|||||||one-sided continuity corrected Z-test|||The ITT was used for all superiority testing. For the three primary endpoints and all four secondary endpoints, if the difference between the proportion of patients considered a cure was statistically greater (p\<0.05) than the proportion of patients considered a cure in the Placebo group, then superiority was considered to have been demonstrated. A one-sided continuity corrected Z-test was used for superiority testing||||<0.05
92342411|NCT00791219|184586690|NON_INFERIORITY|To demonstrate non-inferiority an upper bound 95% confidence interval approach comparing the difference between the cure rate in the Test and the Reference groups was used. If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure and Mycological Cure as appropriate, at Week 24 was greater than -20 then non-inferiority was considered to have been demonstrated|-20|3.17|||||ONE_SIDED|95.0|-10.62||||||||||-10.62|
92342412|NCT00791219|184586690|SUPERIORITY||||||<|0.05|||||||one-sided continuity corrected Z-test|||The ITT was used for all superiority testing. For the three primary endpoints and all four secondary endpoints, if the difference between the proportion of patients considered a cure was statistically greater (p\<0.05) than the proportion of patients considered a cure in the Placebo group, then superiority was considered to have been demonstrated. A one-sided continuity corrected Z-test was used for superiority testing||||<0.05
92342413|NCT00791219|184586693|NON_INFERIORITY|If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure or Mycological Cure as appropriate at Visit 7 was greater than -20 then non-inferiority was considered to have been demonstrated|-20|-0.57|||||ONE_SIDED|95.0|-12.91|||||||If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure or Mycological Cure as appropriate at Visit 7 was greater than -20 then non-inferiority was considered to have been demonstrated|||-12.91|
92342414|NCT00791219|184586694|SUPERIORITY||Mean Difference (Final Values)|0.0018|||<|0.05|TWO_SIDED|||||It the difference between the proportion of patients considered a cure was statistically greater (p\<0.05) than the proportion of patients considered a cure in the Placebo group, then superiority was considered to have been demonstrated.|A one-sided continuity corrected Z-test|||For the three primary endpoints and all four dichotomous secondary endpoints, if the difference between the proportion of patients considered a cure in the Test or Reference group was statistically greater (p \< 0.05) than the proportion of patients considered a cure in the Placebo group, then superiority of that treatment over placebo was considered to have been demonstrated. A one-sided continuity corrected Z-test was used for superiority testing.||||<0.05
92157572|NCT04770220|184201805|OTHER||Least Squares Mean Difference|0.87|STANDARD_ERROR_OF_MEAN|1.02||0.3945|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.3945
92399277|NCT00867165|184689992|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-1.91||||0.373|TWO_SIDED|95.0|-6.15|2.32|||ANCOVA|||||2.32|-6.15|0.373
92399278|NCT00867165|184689993|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares mean|-19.76|||<|0.001|TWO_SIDED|95.0|-24.7|-14.82|||ANCOVA|||||-14.82|-24.70|<0.001
92399279|NCT00867165|184689994|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-20.83|||<|0.001|TWO_SIDED|95.0|-25.59|-16.07|||ANCOVA|||||-16.07|-25.59|<0.001
92157573|NCT04770220|184201806|OTHER||Least Squares Mean Difference|-3.41|STANDARD_ERROR_OF_MEAN|3.07||0.2682|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.2682
92399280|NCT00867165|184689995|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-23.48|||<|0.001|TWO_SIDED|95.0|-29.0|-17.97|||ANCOVA|||||-17.97|-29.00|<0.001
92157574|NCT04770220|184201807|OTHER||Least Squares Mean Difference|3.66|STANDARD_ERROR_OF_MEAN|2.96||0.2178|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.2178
92399281|NCT00867165|184689996|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-22.29|||<|0.001|TWO_SIDED|95.0|-27.25|-17.34|||ANCOVA|||||-17.34|-27.25|<0.001
92399282|NCT00867165|184689997|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-24.5|||<|0.001|TWO_SIDED|95.0|-29.88|-19.12|||ANCOVA|||||-19.12|-29.88|<0.001
92157575|NCT04770220|184201808|OTHER||Least Squares Mean Difference|-0.646|STANDARD_ERROR_OF_MEAN|0.333||0.0533|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0533
92157576|NCT04770220|184201809|OTHER||Least Squares Mean Difference|0.127|STANDARD_ERROR_OF_MEAN|0.314||0.6854|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.6854
92157577|NCT04770220|184201810|OTHER||Least Squares Mean Difference|6.1|STANDARD_ERROR_OF_MEAN|2.52||0.0161|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0161
92217332|NCT02807480|184334959|OTHER||Slope|2.37||||0.222|TWO_SIDED|95.0|-1.44|6.19|||Regression, Linear|||relationship between baseline response time on conflict trials and trajectory of GAD-7 symptoms: time main effects||6.19|-1.44|.222
92342415|NCT00791219|184586694|SUPERIORITY||Median Difference (Final Values)|0.0853|||<|0.05|TWO_SIDED||||||A one-sided continuity corrected Z-test|||For the three primary endpoints and all four dichotomous secondary endpoints, if the difference between the proportion of patients considered a cure in the Test or Reference group was statistically greater (p \< 0.05) than the proportion of patients considered a cure in the Placebo group, then superiority of that treatment over placebo was considered to have been demonstrated. A one-sided continuity corrected Z-test was used for superiority testing.||||<0.05
92342416|NCT00767572|184586695|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Significance threshold p\<0.05|t-test, 2 sided|||Null hypothesis: pre-post brachial artery diameter changes do not differ between placebo and atorvastatin||||>0.05
92342417|NCT04112368|184586707|SUPERIORITY||Slope|-0.02|||<|0.001|TWO_SIDED|95.0|-0.02|-0.02|||Mixed Models Analysis|This is the p-value for the Treatment X Cycle Phase Interaction. Kenward-Roger Method was utilized for degrees of freedom.||Fixed interaction effect of treatment (0=Placebo, 1=E2+P4) by cycle phase (0=Lower-Risk Baseline, 1=Higher-Risk Perimenstrual Phase) predicting SI severity in a multilevel model (with daily observations nested within conditions nested within participants over time).||-.02|-.02|<.001
92342418|NCT04112368|184586708|SUPERIORITY||Slope|0.19||||0.026|TWO_SIDED|95.0|0.04|0.82|||Mixed Models Analysis|||Fixed interaction effect of treatment (0=Placebo, 1=E2+P4) by cycle phase (0=Lower-Risk Baseline, 1=Higher-Risk Perimenstrual Phase) predicting SI severity in a multilevel model (with daily observations nested within conditions nested within participants over time).||.82|.04|.026
92342419|NCT04112368|184586709|SUPERIORITY||Slope|-0.09||||0.052|TWO_SIDED|95.0|-0.18|0.0|||Mixed Models Analysis|||Fixed interaction effect of treatment (0=Placebo, 1=E2+P4) by cycle phase (0=Lower-Risk Baseline, 1=Higher-Risk Perimenstrual Phase) predicting SI severity in a multilevel model (with daily observations nested within conditions nested within participants over time).||.00|-.18|.052
92342420|NCT06831344|184586726|EQUIVALENCE|The two treatments were deemed equivalent if the 90% confidence intervals (CIs) for the geometric mean ratios (GMRs) for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM Percentage (%)|113.26|||||TWO_SIDED|90.0|104.86|122.33|||||Geometric least square mean (GLSM) ratios were calculated by taking antilog of difference of least square means and associated 90% confidence intervals (CIs) from linear mixed effect model analyzing natural logarithms of corresponding PK parameters.|||122.33|104.86|
92342421|NCT06831344|184586726|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|107.65|||||TWO_SIDED|90.0|99.67|116.28|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||116.28|99.67|
92342422|NCT06831344|184586726|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|101.19|||||TWO_SIDED|90.0|93.68|109.3|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||109.30|93.68|
92157578|NCT04770220|184201811|OTHER||Least Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|2.51||0.8387|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.8387
92157579|NCT04770220|184201812|OTHER||Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.5||0.0795|TWO_SIDED|95.0|-0.103|1.845||Nominal p-value|MMRM|||||1.845|-0.103|0.0795
92342423|NCT06831344|184586726|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|105.94|||||TWO_SIDED|90.0|98.08|114.43|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||114.43|98.08|
92342424|NCT06831344|184586726|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|95.05|||||TWO_SIDED|90.0|88.0|102.67|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||102.67|88.00|
92342425|NCT06831344|184586726|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|104.69|||||TWO_SIDED|90.0|96.93|113.08|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||113.08|96.93|
92157580|NCT04770220|184201813|OTHER||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.8169|TWO_SIDED|95.0|-1.07|0.845||Nominal p-value|MMRM|||||0.845|-1.070|0.8169
92157581|NCT04770220|184201814|OTHER||Least Squares Mean Difference|108.1|STANDARD_ERROR_OF_MEAN|37.46||0.0042|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0042
92157582|NCT04770220|184201815|OTHER||Least Squares Mean Difference|51.3|STANDARD_ERROR_OF_MEAN|32.42||0.1145|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.1145
92157583|NCT04770220|184201816|OTHER||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.005|<|0.0001|TWO_SIDED|||||Nominal p-value|MMRM|||||||< 0.0001
92157584|NCT04770220|184201817|OTHER||Least Squares Mean Difference|0.007|STANDARD_ERROR_OF_MEAN|0.004||0.0985|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0985
92157585|NCT04770220|184201818|OTHER||Least Squares Mean Difference|0.033|STANDARD_ERROR_OF_MEAN|0.009||0.0002|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0002
92157586|NCT04770220|184201819|OTHER||Least Squares Mean Difference|0.014|STANDARD_ERROR_OF_MEAN|0.008||0.0699|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0699
92157587|NCT04770220|184201820|OTHER||Least Squares Mean Difference|3843.824|STANDARD_ERROR_OF_MEAN|1726.729||0.0267|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0267
92217333|NCT02807480|184334959|SUPERIORITY||Slope|-0.23||||0.942|TWO_SIDED|95.0|-6.48|6.02|||Regression, Linear|||Relationship between baseline average RT during conflict trials on the AAC and trajectory of GAD-7 symptoms: time x treatment interaction effect||6.02|-6.48|.942
92399283|NCT00867165|184689998|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-25.15|||<|0.001|TWO_SIDED|95.0|-30.69|-19.62|||ANCOVA|||||-19.62|-30.69|<0.001
92399284|NCT00867165|184689999|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-29.31|||<|0.001|TWO_SIDED|95.0|-35.71|-22.91|||ANCOVA|||||-22.91|-35.71|<0.001
92399285|NCT00867165|184690000|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-28.35|||<|0.001|TWO_SIDED|95.0|-34.41|-22.29|||ANCOVA|||||-22.29|-34.41|<0.001
92399286|NCT00867165|184690001|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-19.28|||<|0.001|TWO_SIDED|95.0|-23.87|-14.7|||ANCOVA|||||-14.70|-23.87|<0.001
92399287|NCT00867165|184690002|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-46.11||||0.116|TWO_SIDED|95.0|-108.14|15.92|||Constrained longitudinal data analysis|||||15.92|-108.14|0.116
92157588|NCT04770220|184201821|OTHER||Least Squares Mean Difference|2164.299|STANDARD_ERROR_OF_MEAN|1457.282||0.1386|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.1386
92342426|NCT06831344|184586727|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|114.62|||||TWO_SIDED|90.0|107.46|122.24|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||122.24|107.46|
92342427|NCT06831344|184586727|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|110.01|||||TWO_SIDED|90.0|103.14|117.33|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||117.33|103.14|
92157589|NCT04770220|184201822|OTHER||Least Squares Mean Difference|-1312.0|STANDARD_ERROR_OF_MEAN|437.0||0.0029|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0029
92157590|NCT04770220|184201823|OTHER||Least Squares Mean Difference|-1057.0|STANDARD_ERROR_OF_MEAN|386.0||0.0065|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0065
92157591|NCT04770220|184201824|OTHER||Least Squares Mean Difference|149.8|STANDARD_ERROR_OF_MEAN|89.801||0.0966|TWO_SIDED|||||Nominal p-value|MMRM|||Analysis of the volumetric MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline volumetric MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||||0.0966
92217334|NCT02807480|184334959|OTHER||Slope|-0.05||||0.932|TWO_SIDED|95.0|-1.2|1.1|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with GAD-7 trajectory: time main effects||1.1|-1.2|.932
92342428|NCT06831344|184586727|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|106.0|||||TWO_SIDED|90.0|99.39|113.06|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||113.06|99.39|
92399288|NCT00867165|184690003|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|17.27||||0.382|TWO_SIDED|95.0|-20.46|55.0|||Constrained longitudinal data analysis|||||55.00|-20.46|0.382
92399289|NCT00867165|184690004|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-49.61|||<|0.001|TWO_SIDED|95.0|-55.36|-43.87|||ANCOVA|||||-43.87|-55.36|<0.001
92157592|NCT04770220|184201825|OTHER||Least Squares Mean Difference|137.943|STANDARD_ERROR_OF_MEAN|112.257||0.22|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.2200
92399290|NCT00867165|184690005|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-58.52|||<|0.001|TWO_SIDED|95.0|-63.67|-53.38|||ANCOVA|||||-53.38|-63.67|<0.001
92399291|NCT00867165|184690006|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-61.02|||<|0.001|TWO_SIDED|95.0|-67.51|-54.53|||ANCOVA|||||-54.53|-67.51|<0.001
92399292|NCT00867165|184690007|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-62.74||||0.001|TWO_SIDED|95.0|-73.22|-52.26|||ANCOVA|||||-52.26|-73.22|0.001
92399293|NCT00867165|184690008|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-49.48|||<|0.001|TWO_SIDED|95.0|-54.83|-44.14|||ANCOVA|||||-44.14|-54.83|<0.001
92157593|NCT04770220|184201826|OTHER||Least Squares Mean Difference|157.414|STANDARD_ERROR_OF_MEAN|95.523||0.1005|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.1005
92157594|NCT04894903|184201833|OTHER||Odds Ratio (OR)|0.45|||<|0.001|TWO_SIDED|95.0|0.3|0.68||This is the calculated p-value. We used an alpha level of 0.05|Mixed Models Analysis|Adjusted for baseline number of gaps||||0.68|0.30|<0.001
92217335|NCT02807480|184334959|SUPERIORITY||Slope|-0.08||||0.922|TWO_SIDED|95.0|-1.7|1.53|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with GAD-7 trajectory: time x treatment interaction effects||1.53|-1.7|.922
92399294|NCT00867165|184690009|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-57.99|||<|0.001|TWO_SIDED|95.0|-62.87|-53.11|||ANCOVA|||||-53.11|-62.87|<0.001
92399295|NCT00867165|184690010|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-62.6|||<|0.001|TWO_SIDED|95.0|-68.54|-56.66|||ANCOVA|||||-56.66|-68.54|<0.001
92399296|NCT00867165|184690011|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-64.67|||<|0.001|TWO_SIDED|95.0|-74.11|-55.23|||ANCOVA|||||-55.23|-74.11|<0.001
92399297|NCT00867165|184690012|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-18.35|||<|0.001|TWO_SIDED|95.0|-24.7|-11.99|||ANCOVA|||||-11.99|-24.70|<0.001
92399298|NCT00867165|184690013|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-25.61|||<|0.001|TWO_SIDED|95.0|-31.2|-20.02|||ANCOVA|||||-20.02|-31.20|<0.001
92399299|NCT00867165|184690014|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-28.74|||<|0.001|TWO_SIDED|95.0|-34.89|-22.59|||ANCOVA|||||-22.59|-34.89|<0.001
92399300|NCT00867165|184690015|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-32.14|||<|0.001|TWO_SIDED|95.0|-40.38|-23.9|||ANCOVA|||||-23.90|-40.38|<0.001
92342429|NCT06831344|184586727|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|103.87|||||TWO_SIDED|90.0|97.39|110.78|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||110.78|97.39|
92217336|NCT02807480|184334959|OTHER||Slope|0.0||||0.998|TWO_SIDED|95.0|-0.99|0.99|||Regression, Linear|||Relationship of right amygdala activity during negative images with GAD-7 trajectory: time main effects||.99|-.99|.998
92217337|NCT02807480|184334959|SUPERIORITY||Slope|-0.88||||0.234|TWO_SIDED|95.0|-2.34|0.57|||Regression, Linear|||Relationship of right amygdala activity during negative images with GAD-7 trajectory: time x treatment interaction||.57|-2.34|.234
92342430|NCT06831344|184586727|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|95.98|||||TWO_SIDED|90.0|89.99|102.37|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||102.37|89.99|
92157595|NCT04894903|184201835|OTHER||Odds Ratio (OR)|0.57||||0.29|TWO_SIDED|95.0|0.2|1.62|||Mixed Models Analysis|||||1.62|0.20|0.29
92157596|NCT04894903|184201836|OTHER||beta coefficient|-0.04||||0.74|TWO_SIDED|95.0|-0.24|0.17|||Mixed Models Analysis|||||0.17|-0.24|0.74
92217338|NCT02807480|184334959|OTHER||Slope|-0.03||||0.967|TWO_SIDED|95.0|-1.53|1.47|||Regression, Linear|||Relationship of right dlPFC activity during conflict decisions with GAD-7 trajectory: time main effects||1.47|-1.53|.967
92157597|NCT04894903|184201837|OTHER||beta coefficient|-0.04||||0.88|TWO_SIDED|95.0|-0.6|0.51|||Mixed Models Analysis|||||0.51|-0.60|0.88
92157598|NCT04894903|184201838|OTHER||beta coefficient|-1.24||||0.21|TWO_SIDED|95.0|-3.19|0.71|||Mixed Models Analysis|||||0.71|-3.19|0.21
92157599|NCT04894903|184201841|OTHER||beta coefficient|0.47||||0.21|TWO_SIDED|95.0|-0.27|1.22|||Mixed Models Analysis|||||1.22|-0.27|0.21
92157600|NCT01923428|184201843|SUPERIORITY||Risk Difference (RD)|27.0|||<|0.001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92342431|NCT06831344|184586727|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|97.99|||||TWO_SIDED|90.0|91.87|104.51|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||104.51|91.87|
92342432|NCT06831344|184586728|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|114.01|||||TWO_SIDED|90.0|107.28|121.17|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||121.17|107.28|
92342433|NCT06831344|184586728|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|109.99|||||TWO_SIDED|90.0|103.49|116.9|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||116.90|103.49|
92342434|NCT06831344|184586728|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|106.55|||||TWO_SIDED|90.0|100.26|113.24|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||113.24|100.26|
92342435|NCT06831344|184586728|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|104.31|||||TWO_SIDED|90.0|98.15|110.86|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||110.86|98.15|
92342436|NCT06831344|184586728|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|96.47|||||TWO_SIDED|90.0|90.77|102.53|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||102.53|90.77|
92342437|NCT06831344|184586728|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Ratio of GLSM (%)|97.9|||||TWO_SIDED|90.0|92.11|104.05|||||GLSM ratios were calculated by taking the antilog of the difference of least square means and associated 90% CIs from the linear mixed effect model analyzing the natural logarithms of the corresponding PK parameters.|||104.05|92.11|
92342438|NCT02873689|184586753|SUPERIORITY|||||||0.057|||||||Wilcoxon rank-sum test|||||||0.057
92342439|NCT02873689|184586754|SUPERIORITY|||||||0.268|||||||Wilcoxon rank-sum test|||||||0.268
92342440|NCT00434252|184586769|SUPERIORITY_OR_OTHER||Difference in survival rates|3.5||||0.5724||95.0|-8.7|15.7|||z-test|z-test using the standard errors computed using Greenwood's method.||||15.7|-8.7|0.5724
92342441|NCT00434252|184586770|SUPERIORITY_OR_OTHER||Difference in event rates|12.2||||0.0982||95.0|-2.3|26.6|||z-test|z-test using the standard errors computed using Greenwood's method||||26.6|-2.3|0.0982
92342442|NCT02997163|184586781|SUPERIORITY||Percent Ratio of Geometric Means|112.2|||||TWO_SIDED|90.0|80.06|157.26||||||||157.26|80.06|
92342443|NCT02997163|184586781|SUPERIORITY||Percent Ratio of Geometric Means|142.98|||||TWO_SIDED|90.0|103.03|198.42||||||||198.42|103.03|
92342444|NCT02997163|184586781|SUPERIORITY||Percent Ratio of Geometric Means|263.32|||||TWO_SIDED|90.0|187.88|369.06||||||||369.06|187.88|
92342445|NCT02997163|184586782|SUPERIORITY||Percent Ratio of Geometric Means|111.13|||||TWO_SIDED|90.0|74.4|166.01||||||||166.01|74.40|
92342446|NCT02997163|184586782|SUPERIORITY||Percent Ratio of Geometric Means|131.57|||||TWO_SIDED|90.0|89.12|194.25||||||||194.25|89.12|
92342447|NCT02997163|184586782|SUPERIORITY||Percent Ratio of Geometric Means|189.32|||||TWO_SIDED|90.0|126.74|282.8||||||||282.80|126.74|
92342448|NCT02997163|184586783|SUPERIORITY||Percent Ratio of Geometric Means|118.58|||||TWO_SIDED|90.0|83.85|167.7||||||||167.70|83.85|
92217339|NCT02807480|184334959|OTHER||Slope|0.74||||0.504|TWO_SIDED|95.0|-1.43|2.91|||Regression, Linear|||Relationship of right dlPFC activity during conflict decision-making with GAD-7 trajectory: time x treatment interaction effect||2.91|-1.43|0.504
92342449|NCT02997163|184586783|SUPERIORITY||Percent Ratio of Geometric Means|139.34|||||TWO_SIDED|90.0|99.53|195.06||||||||195.06|99.53|
92342450|NCT02997163|184586783|SUPERIORITY||Percent Ratio of Geometric Means|286.61|||||TWO_SIDED|90.0|202.66|405.33||||||||405.33|202.66|
92342451|NCT02997163|184586784|SUPERIORITY||Percent Ratio of Geometric Means|117.45|||||TWO_SIDED|90.0|79.74|172.99||||||||172.99|79.74|
92217340|NCT02807480|184334959|OTHER||Slope|-1.68||||0.612|TWO_SIDED|95.0|-8.21|4.84|||Regression, Linear|||Change in conflict arbitration (AAC conflict RTpost-RTpre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x RT\_Change interaction||4.84|-8.21|0.612
92217341|NCT02807480|184334959|SUPERIORITY||Slope|5.08||||0.259|TWO_SIDED|95.0|-3.76|13.92|||Regression, Linear|||change in conflict arbitration response time (AAC conflict RTpost-RTpre) predicting trajectories of GAD-7 scores over 10 sessions: RT\_Change x Time x Treatment interaction||13.92|-3.76|.259
92342452|NCT02997163|184586784|SUPERIORITY||Percent Ratio of Geometric Means|128.22|||||TWO_SIDED|90.0|88.05|186.72||||||||186.72|88.05|
92342453|NCT02997163|184586784|SUPERIORITY||Percent Ratio of Geometric Means|206.07|||||TWO_SIDED|90.0|139.91|303.51||||||||303.51|139.91|
92342454|NCT02990000|184586820|SUPERIORITY|We used the Optimal Design program to determine the minimum numbers of therapists and patients needed to detect a moderate effect of condition (standardized difference between change rates = .50). Based on this a priori power analysis, we will need a total of 44 therapists and 211 patients to achieve a power of .80 to detect moderate condition effects. Factoring in a 25% dropout rate, enrolling 281 patients should provide sufficient statistical power.|condition effect on weekly change rate|-0.04|STANDARD_ERROR_OF_MEAN|0.01||0.02|TWO_SIDED|95.0|-0.05|-0.03|||3-level hierarchical linear model|||To account for the nested nature of the data (time points nested within patients nested within therapists), a 3-level hierarchical linear model was used to test the effect of condition (Scientific Match = 1; Pragmatic Match = 0) on weekly during-treatment change on the TOP-CS average z-scores. Given that higher TOP-CS z-scores indicate greater impairment, negative slopes indicate a weekly decrease in impairment during treatment (i.e., a better outcome or more improvement).||-0.03|-0.05|.02
92342455|NCT02990000|184586821|SUPERIORITY||condition effect on weekly change rate|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.03|TWO_SIDED|95.0|-0.3|-0.02|||3-level hierarchical linear model|||To account for the nested nature of the data (time points nested within patients nested within therapists), a 3-level hierarchical linear model was used to test the effect of condition (Scientific Match = 1; Pragmatic Match = 0) on weekly during-treatment change on the SCL-10 total score. Given that higher SCL-10 scores indicate greater psychological distress, negative slopes indicate a weekly decrease in impairment during treatment (i.e., a better outcome or more improvement).||-0.02|-0.30|.03
92342456|NCT02990000|184586822|SUPERIORITY||condition effect on weekly change rate|-0.07|STANDARD_ERROR_OF_MEAN|0.15||0.65|TWO_SIDED|95.0|-0.33|0.21|||3-level hierarchical linear model|||To account for the nested nature of the data (time points nested within patients nested within therapists), a 3-level hierarchical linear model was used to test the effect of condition (Scientific Match = 1; Pragmatic Match = 0) on weekly during-treatment change on the patient-rated WAI. Given that higher WAI scores indicate better quality therapeutic alliances, positive slopes indicate a weekly increase in alliance during treatment (i.e., a better outcome or more improvement).||0.21|-0.33|.65
92342457|NCT02990000|184586823|SUPERIORITY||condition effect on weekly change rate|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.41|TWO_SIDED|95.0|-0.17|0.07|||3-level hierarchical linear model|||To account for the nested nature of the data (time points nested within patients nested within therapists), a 3-level hierarchical linear model was used to test the effect of condition (Scientific Match = 1; Pragmatic Match = 0) on weekly during-treatment change on the OE subscale of the CEQ. Given that higher OE scores indicate more optimistic expectations, positive slopes indicate a weekly increase in OE during treatment (i.e., a better outcome or more improvement).||0.07|-0.17|.41
92342458|NCT02990000|184586824|SUPERIORITY||condition effect on weekly change rate|-0.01|STANDARD_ERROR_OF_MEAN|0.002||0.01|TWO_SIDED|95.0|-0.01|-0.006|||3-level hierarchical linear model|||To account for the nested nature of the data (time points nested within patients nested within therapists), a 3-level hierarchical linear model was used to test the effect of condition (Scientific Match = 1; Pragmatic Match = 0) on weekly during-treatment change on the log-transformed TOP-CS domain-specific z-scores. Given that higher z-scores indicate greater impairment, negative slopes indicate a weekly decrease in impairment during treatment (i.e., a better outcome or more improvement).||-0.006|-0.01|.01
92399301|NCT00867165|184690016|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|20.01||||0.001|TWO_SIDED|95.0|8.1|31.91|||ANCOVA|||||31.91|8.10|0.001
92217342|NCT02807480|184334959|OTHER||Slope|-0.53||||0.209|TWO_SIDED|95.0|-1.35|0.3|||Regression, Linear|||Change in behavior (AAC conflict post-pre) in predicting trajectories of GAD-7 scores over the 10 sessions: Time x Behavior\_change interaction||0.30|-1.35|.209
92217343|NCT02807480|184334959|SUPERIORITY||Slope|1.53||||0.013|TWO_SIDED|95.0|0.33|2.73|||Regression, Linear|||Change in behavior (AAC conflict post-pre) in predicting trajectories of GAD-7 scores over the 10 sessions: Time x Behavior\_change x Treatment interaction||2.73|0.33|0.013
92217344|NCT02807480|184334960|OTHER||Slope|-2.95||||0.006|TWO_SIDED|95.0|-5.06|-0.84||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0125.|Regression, Linear|||Baseline emotional conflict, a computational parameter reflecting avoidance relative to reward value, as a predictor of the linear trajectory of symptom change over time: time x EC interaction||-0.84|-5.06|0.006
92217345|NCT02807480|184334960|OTHER||Slope|-1.02||||0.003|TWO_SIDED|95.0|-1.68|-0.36|||Regression, Linear|||Assess avoidance behavior on conflict trials as a predictor of PROMIS Anxiety symptom improvement: time x avoidance interaction||-0.36|-1.68|0.003
92217346|NCT02807480|184334960|OTHER||Slope|-1.88||||0.007|TWO_SIDED|95.0|-2.89|-0.87||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0071.|Regression, Linear|||Assess left dlPFC response to baseline negative picture decision outcomes as a predictor of PROMIS Anxiety symptom improvement: time x L. dlPFC interaction||-0.87|-2.89|.007
92217347|NCT02807480|184334960|OTHER||Slope|1.02||||0.003|TWO_SIDED|95.0|0.36|1.68|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of PROMIS Anxiety symptoms||1.68|0.36|.003
92342459|NCT02990000|184586825|SUPERIORITY||Odds Ratio (OR)|1.3|STANDARD_ERROR_OF_MEAN|0.48||0.48|TWO_SIDED||||||Multilevel logistic regression|||Multilevel logistic regression analysis with patients nested within therapists (Scientific Match = 1; Pragmatic Match = 0). Statistically significant odds ratios that are greater than 1 would indicate that patients in the Scientific Match Condition were more likely to discontinue treatment early, whereas odds ratios that are less than 1 would indicate the opposite.||||.48
92342460|NCT02990000|184586826|SUPERIORITY||condition effect on satisfaction|0.37|STANDARD_ERROR_OF_MEAN|0.48||0.44|TWO_SIDED|95.0|-0.57|1.31|||2-level hierarchical linear model|||Due to the nested nature of the data (patients nested within therapists), we used a two-level hierarchical linear model to test the effect of condition on provider satisfaction at posttreatment. Because higher values indicate more satisfaction, a positive condition effect would indicate that Scientific Match patients were more satisfied than Pragmatic Match patients, whereas a negative condition effect would indicate the opposite.||1.31|-0.57|.44
92342461|NCT01949545|184586841|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|144.43||||0.02232|TWO_SIDED|95.0|111.48|187.12|||ANOVA||The geometric mean ratio was calculated by exponentiation of the differences in the least squares means, using log-transformed data, between the hepatic impairment cohort (test) and participants with normal hepatic function (reference).|To assess the effect of hepatic impairment relative to participants with normal hepatic function on AUC0-last an analysis of variance (ANOVA) of the log-transformed plasma PK parameters was performed. The ANOVA model included hepatic impairment as a fixed effect.||187.12|111.48|0.02232
92342462|NCT01949545|184586841|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|126.08||||0.1812|TWO_SIDED|95.0|94.59|168.06|||ANOVA||The geometric mean ratio was calculated by exponentiation of the differences in the least squares means, using log-transformed data, between the hepatic impairment cohort (test) and participants with normal hepatic function (reference).|To assess the effect of hepatic impairment relative to participants with normal hepatic function on AUC0-last an ANOVA of the log-transformed plasma PK parameters was performed. The ANOVA model included hepatic impairment as a fixed effect.||168.06|94.59|0.1812
92399302|NCT00867165|184690017|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|26.29|||<|0.001|TWO_SIDED|95.0|13.99|38.58|||ANCOVA|||||38.58|13.99|<0.001
92157601|NCT02550873|184201850|SUPERIORITY||Mean Difference (Net)|2.3|STANDARD_ERROR_OF_MEAN|0.72||0.0014|TWO_SIDED|90.0|1.1|3.5||a priori threshold for statistical significance = 0.10|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||"The sample size calculation was based on the following assumptions:~Normal distribution Homogeneity of variance the same in both arms, and for both types of patients Randomization ratio PRM-151:placebo = 2:1 Expected value for patients on pirfenidone or nintedanib = -1.5 Expected value for patients on no other treatment = -3 Expected value for patients on PRM-151 ≥ 0.75 Standard deviation = 5 75% of patients on a stable dose of pirfenidone or nintedanib α=0.10 two-sided Power = 80%"||3.5|1.1|0.0014
92157602|NCT02550873|184201851|SUPERIORITY||Mean Difference (Net)|31.3|STANDARD_ERROR_OF_MEAN|8.42||0.0002|TWO_SIDED|90.0|17.4|45.1||This study was not powered to test hypothesis beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction.||||45.1|17.4|0.0002
92157603|NCT02550873|184201852|SUPERIORITY||Mean Difference (Net)|93.5|STANDARD_ERROR_OF_MEAN|72.98||0.2032|TWO_SIDED|90.0|-27.7|214.7||This study was not powered to test hypothesis beyond the primary endpoint.|Mixed Models Analysis|Random intercept and slope; dependent variable=raw values; explanatory variables=stratum, treatment, time and treatment by time interaction.||||214.7|-27.7|0.2032
92157604|NCT02550873|184201853|SUPERIORITY||Mean Difference (Net)|31.9|STANDARD_ERROR_OF_MEAN|46.33||0.4927|TWO_SIDED|90.0|-45.0|108.8||This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||108.8|-45.0|0.4927
92157605|NCT02550873|184201854|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|1.96||0.5835|TWO_SIDED|90.0|-2.2|4.3||This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||4.3|-2.2|0.5835
92157606|NCT02550873|184201855|SUPERIORITY||Mean Difference (Net)|43.6|STANDARD_ERROR_OF_MEAN|102.28||0.6707|TWO_SIDED|90.0|-126.3|213.5||This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||213.5|-126.3|0.6707
92157607|NCT02550873|184201856|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|1.91||0.52|TWO_SIDED|90.0|-4.4|1.9||This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||1.9|-4.4|0.52
92157608|NCT02550873|184201857|OTHER|Correlation analysis||||||0.0001||||||This study was not powered to test hypotheses beyond the primary endpoint.|Pearson's correlation|||||||0.0001
92217348|NCT02807480|184334960|SUPERIORITY||Slope|-0.54||||0.258|TWO_SIDED|95.0|-1.48|0.4|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of PROMIS Anxiety symptoms: time x treatment x approach behavior interaction||0.4|-1.48|.258
92217349|NCT02807480|184334960|OTHER||Slope|1.3||||0.56|TWO_SIDED|95.0|-3.08|5.69|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of PROMIS Anxiety symptoms: time x approach behavior interaction||5.69|-3.08|.56
92275055|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.51|||||TWO_SIDED|95.0|-3.1|46.12||||||For change in ability to plan future at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||46.12|-3.10|
92399303|NCT00867165|184690018|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|36.7|||<|0.001|TWO_SIDED|95.0|24.12|49.28|||ANCOVA|||||49.28|24.12|<0.001
92399304|NCT00867165|184690019|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|24.05|||<|0.001|TWO_SIDED|95.0|10.43|37.67|||ANCOVA|||||37.67|10.43|<0.001
92405612|NCT02215252|184701393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.55|STANDARD_ERROR_OF_MEAN|5.19|||TWO_SIDED|90.0|2.94|20.17||||||Statistical analysis is only for Week 4. Mixed Model Repeated Measures analysis including all data up to Week 4.||20.17|2.94|
92157609|NCT02550873|184201857|OTHER|Correlation analysis||||||0.0069|||||||Pearson's correlation|||This study was not powered to test hypotheses beyond the primary endpoint.||||0.0069
92157610|NCT02550873|184201858|SUPERIORITY|||||||0.4179||||||P-Value for decline in % Predicted FVC ≥ 5%. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.4179
92157611|NCT02550873|184201858|SUPERIORITY|||||||0.2184||||||P-Value for decline in % predicted FVC ≥ 10%. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.2184
92157612|NCT02550873|184201859|SUPERIORITY|||||||0.7773||||||P-Value for decline in FVC ≥ 100 mL. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.7773
92157613|NCT02550873|184201859|SUPERIORITY|||||||0.5976||||||P-Value for decline in FVC ≥ 200 mL. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.5976
92157614|NCT02550873|184201860|SUPERIORITY|||||||0.29||||||P-Value for increase in % predicted FVC ≥ 5%. P-Value for an increase in % predicted FVC ≥ 10% not reported. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.29
92157615|NCT02550873|184201861|SUPERIORITY|||||||0.0508||||||P-Value for increase in FVC ≥ 100 mL. P-Value for increase in FVC ≥ 200 mL not reported. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.0508
92157616|NCT02550873|184201862|SUPERIORITY|||||||0.6308||||||This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.6308
92157617|NCT02550873|184201863|SUPERIORITY|||||||0.1846||||||This study was not powered to test hypothesis beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.1846
92157618|NCT02550873|184201864|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|1.31||0.7424|TWO_SIDED|90.0|-2.6|1.7||This study was not powered to test hypothesis beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction.||||1.7|-2.6|0.7424
92157619|NCT02550873|184201874|SUPERIORITY||Mean Difference (Net)|114.6|STANDARD_DEVIATION|56.1||0.0416|TWO_SIDED|90.0|22.2|207.1||This study was not powered to test hypothesis beyond the primary endpoint.|Mixed Models Analysis|Random intercept and slope; dependent variable=raw values; explanatory variables=stratum, treatment, time and treatment by time interaction.||||207.1|22.2|0.0416
92157620|NCT04320615|184201875|OTHER||Median Difference (Final Values)|-1.0||||0.36|TWO_SIDED|95.0|-2.5|0.0|||Van Elteren Test|||||0.0|-2.5|0.3600
92157621|NCT04320615|184201876|OTHER||Hazard Ratio (HR)|1.448||||0.0443|TWO_SIDED|95.0|1.01|2.08|||Log Rank|||||2.08|1.01|0.0443
92157622|NCT04320615|184201877|OTHER||Hazard Ratio (HR)|1.263||||0.082|TWO_SIDED|95.0|0.97|1.64|||Log Rank|||||1.64|0.97|0.0820
92157623|NCT04320615|184201878|OTHER||Hazard Ratio (HR)|1.35||||0.037|TWO_SIDED|95.0|1.02|1.79|||Log Rank|||||1.79|1.02|0.0370
92157624|NCT04320615|184201879|OTHER||Weighted % difference|-6.2||||0.0996|TWO_SIDED|95.0|-13.8|1.4|||Cochran-Mantel-Haenszel|||||1.4|-13.8|0.0996
92157625|NCT04320615|184201879|OTHER||Weighted % difference|-8.9||||0.1355|TWO_SIDED|95.0|-20.7|3.0|||Cochran-Mantel-Haenszel|||||3.0|-20.7|0.1355
92157626|NCT04320615|184201880|OTHER||Median Difference (Final Values)|5.5||||0.3202|TWO_SIDED|95.0|-2.8|13.0|||Van Elteren test|||||13.0|-2.8|0.3202
92157627|NCT04320615|184201881|OTHER||Weighted % difference|-5.7||||0.1514|TWO_SIDED|95.0|-13.7|2.2|||Cochran-Mantel-Haenszel|||||2.2|-13.7|0.1514
92157628|NCT04320615|184201881|OTHER||Weighted % difference|-14.8||||0.029|TWO_SIDED|95.0|-28.6|-1.0|||Cochran-Mantel-Haenszel|||||-1.0|-28.6|0.0290
92217350|NCT02807480|184334960|SUPERIORITY||Slope|-1.77||||0.629|TWO_SIDED|95.0|-8.95|5.41|||Regression, Linear|||Relationships between baseline average RT (response time) during conflict trials on the AAC and trajectory of PROMIS Anxiety symptoms: time x treatment x RT interaction||5.41|-8.95|.629
92157629|NCT04320615|184201882|OTHER||Median Difference (Final Values)|-5.8||||0.0454|TWO_SIDED|95.0|-15.0|2.9|||Van Elteren test|||||2.9|-15.0|0.0454
92157630|NCT04320615|184201883|OTHER||Median Difference (Final Values)|-1.0||||0.0548|TWO_SIDED|95.0|-2.0|0.5|||Van Elteren test|||||0.5|-2.0|0.0548
92157631|NCT04320615|184201884|OTHER||Hazard Ratio (HR)|0.79||||0.1627|TWO_SIDED|95.0|0.57|1.1|||Log Rank|||||1.10|0.57|0.1627
92157632|NCT04320615|184201885|OTHER||Weighted % difference|0.3||||0.941|TWO_SIDED|95.0|-7.6|8.2|||Cochran-Mantel-Haenszel|||||8.2|-7.6|0.9410
92157633|NCT04320615|184201886|OTHER||Hazard Ratio (HR)|1.307||||0.0528|TWO_SIDED|95.0|1.0|1.72|||Log Rank|||||1.72|1.00|0.0528
92157634|NCT04320615|184201887|OTHER||Median Difference (Final Values)|-1.5||||0.0477|TWO_SIDED|95.0|-9.0|0.5|||Van Elteren test|||||0.5|-9.0|0.0477
92157635|NCT02107443|184201900|SUPERIORITY||Mean Difference (Final Values)|3.59|||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.0001
92157636|NCT02107443|184201901|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.041|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.041
92157637|NCT02107443|184201903|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.03|TWO_SIDED|95.0|0.12|1.98|||Mixed Models Analysis|The above p-values is for 4-6 weeks.|The above values are for 4-6 weeks.|||1.98|0.12|0.03
92157638|NCT02107443|184201903|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.08|TWO_SIDED|95.0|-0.11|1.77|||Mixed Models Analysis|The above p-value is for is for 3 months.|The above values are for 3 months|||1.77|-0.11|.08
92342463|NCT01949545|184586842|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|151.84||||0.02137|TWO_SIDED|95.0|113.59|202.96|||ANOVA||The geometric mean ratio was calculated by exponentiation of the differences in the least squares means, using log-transformed data, between the hepatic impairment cohort (test) and participants with normal hepatic function (reference).|To assess the effect of hepatic impairment relative to participants with normal hepatic function on AUC0-inf an ANOVA of the log-transformed plasma PK parameters was performed. The ANOVA model included hepatic impairment as a fixed effect.||202.96|113.59|0.02137
92342464|NCT01949545|184586842|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|143.53||||0.07247|TWO_SIDED|95.0|103.28|199.45|||ANOVA||The geometric mean ratio was calculated by exponentiation of the differences in the least squares means, using log-transformed data, between the hepatic impairment cohort (test) and participants with normal hepatic function (reference).|To assess the effect of hepatic impairment relative to participants with normal hepatic function on AUC0-inf an ANOVA of the log-transformed plasma PK parameters was performed. The ANOVA model included hepatic impairment as a fixed effect.||199.45|103.28|0.07247
92342465|NCT03268343|184586883|SUPERIORITY||Geometric LS Mean Ratio (%)|74.71|||||TWO_SIDED|90.0|66.39|84.08|||||fed / fasted; results obtained using an ANOVA with fixed effects of treatment, period, sequence and participant (sequence).|||84.08|66.39|
92342466|NCT03268343|184586884|SUPERIORITY||Geometric LS Mean Ratio (%)|97.04|||||TWO_SIDED|90.0|94.2|99.98|||||fed / fasted; results obtained using an ANOVA with fixed effects of treatment, period, sequence and participant (sequence).|||99.98|94.20|
92342467|NCT03268343|184586885|SUPERIORITY||Median Difference (Final Values)|1.38|||<|0.0001|TWO_SIDED|95.0|0.5|2.25|||Wilcoxon Signed-Rank test||Hodges-Lehmann method|||2.25|0.50|< 0.0001
92342468|NCT03268343|184586886|SUPERIORITY||Geometric LS Mean Ratio (%)|96.52|||||TWO_SIDED|90.0|93.3|99.85|||||fed / fasted; results obtained using an ANOVA with fixed effects of treatment, period, sequence and participant (sequence).|||99.85|93.30|
92342469|NCT03268343|184586890|SUPERIORITY||Geometric LS Mean Ratio (%)|104.75|||||TWO_SIDED|95.0|98.97|110.87|||||fed / fasted; results obtained using an ANOVA with fixed effects of treatment, period, sequence and participant (sequence).|||110.87|98.97|
92342470|NCT01507181|184586937|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||t-test, 2 sided|||||||0.32
92342471|NCT01507181|184586938|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
92157639|NCT02107443|184201903|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.2|TWO_SIDED|95.0|-0.36|1.59|||Mixed Models Analysis|The above p-value is for 6 months|The above values are for 6 months.|||1.59|-0.36|0.20
92157640|NCT02325713|184201979|SUPERIORITY_OR_OTHER||Geometric Least square (LS) mean ratio|96.2|||||TWO_SIDED|90.0|83.7|110.6||||||||110.6|83.7|
92157641|NCT02325713|184201979|SUPERIORITY_OR_OTHER||Geometric LS mean ration|18.4|||||TWO_SIDED|90.0|15.3|22.0||||||||22.0|15.3|
92157642|NCT02325713|184201979|SUPERIORITY_OR_OTHER||Geometric LS mean ration|222.7|||||TWO_SIDED|90.0|186.8|265.6||||||||265.6|186.8|
92157643|NCT02325713|184201979|SUPERIORITY_OR_OTHER||Geometric LS mean ration|238.1|||||TWO_SIDED|90.0|198.7|285.3||||||||285.3|198.7|
92157644|NCT02325713|184201979|SUPERIORITY_OR_OTHER||Geometric LS mean ration|82.1|||||TWO_SIDED|90.0|68.5|98.3||||||||98.3|68.5|
92217351|NCT02807480|184334960|OTHER||Slope|-0.21||||0.75|TWO_SIDED|95.0|-1.51|1.09|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with PROMIS ANXIETY trajectory: time x striatum interaction effects||1.09|-1.51|0.75
92342472|NCT01507181|184586939|SUPERIORITY_OR_OTHER|||||||0.17||||||Statistics are calculated by comparing 24-h scores using separate ANCOVAs and controlling for baseline severity.|ANCOVA|||||||0.17
92342473|NCT00386334|184586950|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
92342474|NCT00386334|184586953|SUPERIORITY_OR_OTHER|||||||0.0014||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0014
92342475|NCT00386334|184586956|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
92342476|NCT00386334|184586959|SUPERIORITY_OR_OTHER|||||||0.0005||||||Multiple comparisons not applied due to only two treatments in study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0005
92342477|NCT00386334|184586962|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
92342478|NCT00386334|184586965|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
92342479|NCT00386334|184586968|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
92342480|NCT00386334|184586971|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
92342481|NCT00386334|184586974|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
92342482|NCT00386334|184586977|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
92342483|NCT00386334|184586980|SUPERIORITY_OR_OTHER|||||||0.1175||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.1175
92342484|NCT00386334|184586983|SUPERIORITY_OR_OTHER|||||||0.0717||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0717
92342485|NCT00386334|184586986|SUPERIORITY_OR_OTHER|||||||0.1182||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|||||||0.1182
92342486|NCT00386334|184586989|SUPERIORITY_OR_OTHER|||||||0.301||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.3010
92399305|NCT00988884|184690061|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.97|||<|0.001|TWO_SIDED|95.0|0.88|1.08|||ANOVA|||Anti-HPV 6||1.08|0.88|<0.001
92342487|NCT00386334|184586992|SUPERIORITY_OR_OTHER|||||||0.78||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.7800
92342488|NCT00386334|184586995|SUPERIORITY_OR_OTHER|||||||0.0803||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0803
92342489|NCT00386334|184586998|SUPERIORITY_OR_OTHER|||||||0.2643||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.2643
92342490|NCT00386334|184587001|SUPERIORITY_OR_OTHER|||||||0.0765||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0765
92342491|NCT00386334|184587004|SUPERIORITY_OR_OTHER|||||||0.2967||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.2967
92342492|NCT00386334|184587007|SUPERIORITY_OR_OTHER|||||||0.0634||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0634
92342493|NCT00386334|184587010|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
92399306|NCT00988884|184690061|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.97|||<|0.001|TWO_SIDED|95.0|0.87|1.07|||ANOVA|||Anti-HPV 11||1.07|0.87|<0.001
92157645|NCT00951561|184202053|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation is performed in nQuery version 5.0 with the following stipulations: alpha is 0.05; response for both ibuprofen and Vipon is 85%; delta is 10%; no difference in response rates is expected between the two treatment arms, and power is 80%. This calculation is performed for an equivalence/non-inferiority primary analysis.|Difference in % of Uses from Mixed Model|-1.6|||<|0.05||95.0|||||Mixed Models Analysis|||||||<0.05
92342494|NCT02089347|184587019|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is supported by a data if the lower bound of the two-sided 95% confidence interval (CI) is greater than -10%|Wilson score method|1.42|||||TWO_SIDED|95.0|-0.31|4.61||||||Non-inferiority comparison of post-booster response for Diphtheria.||4.61|-0.31|
92399307|NCT00988884|184690061|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.98|||<|0.001|TWO_SIDED|95.0|0.89|1.09|||ANOVA|||Anti-HPV 16||1.09|0.89|<0.001
92342495|NCT02089347|184587019|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is supported by the data if lower bound ot the two-sided 95% is greater than -10%|Wilson score method|6.25|||||TWO_SIDED|95.0|3.32|10.84||||||Non-inferiority comparison of post-vaccination booster response for tetanus||10.84|3.32|
92342496|NCT02089347|184587020|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is supported by a data if the lower bound of the two-sided 95% confidence interval (CI) is greater than -10%|Wilson score method|0.57|||||TWO_SIDED|95.0|-0.61|3.15||||||Non-inferiority comparison of Diphtheria post-vaccination seroprotection rates at ≥ 0.1 IU/mL||3.15|-0.61|
92342497|NCT02089347|184587020|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is supported by a data if the lower bound of the two-sided 95% confidence interval (CI) is greater than -10%.|Wilson score method|0.0|||||TWO_SIDED|95.0|-1.09|2.14||||||Non-inferiority comparison of Tetanus post-vaccination seroprotection rates at ≥ 0.1 IU/mL||2.14|-1.09|
92342498|NCT00289211|184587052|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.048||||0.048||95.0|1.008|4.164|||Regression, Cox|||Subjects who did not experience beginning of substantial relief of the defining symptom within 4 hours after initial treatment were included in the analysis as censored observations. Entries of 4.0 (hours) for median time to event or 95% CI indicate that data were NE (see Population Description). As non-numeric data are not supported by the median and 95% CI fields, entry of the actual results (ie, NE or \>4.0) was not possible.||4.164|1.008|0.048
92342499|NCT00289211|184587053|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.41||||0.062||95.0|0.87|2.29|||Cochran-Mantel-Haenszel|||||2.29|0.87|0.062
92342500|NCT00289211|184587054|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.717||||0.001||95.0|1.471|5.02|||Regression, Cox|||Subjects who had not experienced complete resolution of the HAE attack at the time of the follow-up telephone call, or who were lost to follow-up, were censored at 72 hours.||5.020|1.471|0.001
92342501|NCT00289211|184587055|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92342502|NCT00289211|184587055|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Change at 2 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92399308|NCT00988884|184690061|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.99|||<|0.001|TWO_SIDED|95.0|0.88|1.12|||ANOVA|||Anti-HPV 18||1.12|0.88|<0.001
92342503|NCT00289211|184587055|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Change at 4 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92342504|NCT00289211|184587055|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007||95.0||||Change at 12 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0007
92342505|NCT00289211|184587056|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Percent change 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92342506|NCT00289211|184587056|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Percent change 2 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92342507|NCT00289211|184587056|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Percent change 4 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92342508|NCT00289211|184587056|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0022||95.0||||Percent change 12 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0022
92342509|NCT00289211|184587057|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1321||95.0||||Change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.1321
92342510|NCT00289211|184587057|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5218||95.0||||Change at 2 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.5218
92342511|NCT00289211|184587057|SUPERIORITY_OR_OTHER_LEGACY|||||||0.121||95.0||||Change at 4 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.1210
92342512|NCT00289211|184587057|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0||||Change at 12 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0017
92342513|NCT01474486|184587067|OTHER|||||||0.64|||||||Mixed Models Analysis|||||||0.64
92342514|NCT01255163|184587075|OTHER|||||||0.016||||||threshold for significance (p \< 0.05)|Fisher Exact|||||||0.016
92399309|NCT00988884|184690061|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|1.04|||<|0.001|TWO_SIDED|95.0|0.93|1.17|||ANOVA|||Anti-HPV 31||1.17|0.93|<0.001
92399310|NCT00988884|184690061|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.99|||<|0.001|TWO_SIDED|95.0|0.89|1.11|||ANOVA|||Anti-HPV 33||1.11|0.89|<0.001
92342515|NCT01255163|184587076|OTHER|||||||0.098||||||"Threshold for statistical significance p \< 0.05.~Type III Tests of Fixed Effects Group \* VisitLong F (6, 52.008) = 1.902, p = 0.098"|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline, 6, 12, 18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED MMSE.tot BY Group Sex VisitLong WITH Age~* CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE)~* FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3)~* METHOD=REML~* PRINT=SOLUTION~* REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1)~* EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI)~* EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI)~* EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI)~* EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.098
92342516|NCT01255163|184587077|OTHER|||||||0.295||||||"Threshold for statistical significance p \< 0.05.~Type III Tests of Fixed Effects for Group\*VisitLong F (6, 52.281) = 1.254, p = 0.295"|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline, 6, 12, 18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED ADAS70 BY Group Sex VisitLong WITH Age~* CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE)~* FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3)~* METHOD=REML~* PRINT=SOLUTION~* REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1)~* EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI)~* EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI)~* EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI)~* EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.295
92342517|NCT01255163|184587078|OTHER|||||||0.141||||||Threshold for statistical significance p \< 0.05. Type III Tests of Fixed Effects Group \* VisitLong F (6, 47.485) = 1.704, p = 0.141|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline, 6, 12, 18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED CDR BY Group Sex VisitLong WITH Age~CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.141
92342518|NCT01255163|184587079|OTHER|||||||0.031||||||Threshold for statistical significance p \< 0.05. Type III Tests of Fixed Effects: Group \* VisitLong F (6, 51.955) = 2.553, p = 0.031. Univarate Exendin-4 F(3, 51.386) = 2.734, p = 0.053. Pairwise for Exendin-4, baseline vs. 18 months (p = 0.035).|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline, 6, 12, 18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED CDR.sob BY Group Sex VisitLong WITH Age CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.031
92342519|NCT01255163|184587080|OTHER|||||||0.703||||||Threshold for statistical significance p \< 0.05. Type III Tests of Fixed Effects Group \* VisitLong F (2, 15.251) = 0.360, p = 0.703.|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline,18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED TAU BY Group Sex VisitLong WITH Age CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.703
92399311|NCT00988884|184690061|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|1.1|||<|0.001|TWO_SIDED|95.0|0.97|1.25|||ANOVA|||Anti-HPV 45||1.25|0.97|<0.001
92342520|NCT01255163|184587081|OTHER|||||||0.845||||||Threshold for statistical significance p \< 0.05. Type III Tests of Fixed Effects Group \* VisitLong F (2, 15.828) = 0.170, p = 0.845.|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline,18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED pTAU BY Group Sex VisitLong WITH Age CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.845
92342521|NCT01255163|184587082|OTHER|||||||0.018||||||Type III Tests of Fixed Effects: Group \* VisitLong F (2, 16.614) = 5.142, p = 0.018. Univariate tests: Placebo F(1, 16.595) = 4.138, p = 0.058; Exendin-4 F(1, 16.595) = 6.262, p = 0.022. Pairwise for Exendin-4, baseline vs. 18 months (p = 0.022).|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline,18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED Ab42 BY Group Sex VisitLong WITH Age CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.018
92157646|NCT02092987|184202054|SUPERIORITY_OR_OTHER_LEGACY||interaction term|||||0.7|||||||Mixed Models Analysis|||Hypothesis testing in changes in mean from baseline to follow-up were were conducted primarily with mixed models. Sensitivity analyses were conducted using ANOVA.||||0.70
92342522|NCT01255163|184587083|OTHER|||||||0.009||||||Type III Tests of Fixed Effects: Group \* VisitLong F (8, 72.603) = 2.816, p = 0.009. Univarate Exendin-4 F(4, 72.944) = 4.834, p = 0.002. Pairwise comparisons for Exendin-4 showed a decrease in BMI baseline vs. 6 months (p = 0.029).|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline, 6, 12, 18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED BMI BY Group Sex VisitLong WITH Age CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.009
92157647|NCT02092987|184202055|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||||||comparison of arms using mixed models|Mixed Models Analysis|||||||0.77
92342523|NCT03863353|184587100|SUPERIORITY||Rebression coefficient|2.13||||0.001|TWO_SIDED|95.0|0.86|3.4||Adjusted for repeated measures and effects of covariates|Regression, Linear|||Hypothesis was tested using multivariable regression models (generalized estimating equation)||3.40|0.86|.001
92399312|NCT00988884|184690061|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.98|||<|0.001|TWO_SIDED|95.0|0.88|1.1|||ANOVA|||Anti-HPV 52||1.10|0.88|<0.001
92157648|NCT02092987|184202056|SUPERIORITY_OR_OTHER_LEGACY|||||||0.51|||||||Mixed Models Analysis|||||||0.51
92157649|NCT02092987|184202057|SUPERIORITY_OR_OTHER_LEGACY|||||||0.51|||||||Mixed Models Analysis|||||||0.51
92157650|NCT02092987|184202058|SUPERIORITY_OR_OTHER_LEGACY|||||||0.76|||||||Mixed Models Analysis|||||||0.76
92217352|NCT02807480|184334960|SUPERIORITY||Slope|1.27||||0.169|TWO_SIDED|95.0|-0.54|3.09|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with PROMIS Anxiety trajectory: time x treatment x striatum interaction effects||3.09|-0.54|.169
92157651|NCT02092987|184202059|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79|||||||Mixed Models Analysis|||||||0.79
92157652|NCT02092987|184202060|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62|||||||Mixed Models Analysis|||||||0.62
92157653|NCT02967016|184202069|OTHER|||||||0.002|||||||Kruskal-Wallis|||Cumulative Steps 6 h||||0.002
92157654|NCT02967016|184202069|OTHER|||||||0.0002|||||||Kruskal-Wallis|||Cumulative steps 12 h||||.0002
92157655|NCT02967016|184202069|OTHER|||||||0.0006|||||||Kruskal-Wallis|||Cumulative steps 24 h||||.0006
92157656|NCT02967016|184202069|OTHER|||||||0.0006|||||||Kruskal-Wallis|||Cumulative steps 36 h||||0.0006
92157657|NCT02967016|184202069|OTHER|||||||0.03|||||||Kruskal-Wallis|||Cumulative steps 48 h||||0.03
92157658|NCT02967016|184202070|OTHER|||||||0.06|||||||Kruskal-Wallis|||Pain at rest 6 h||||0.06
92157659|NCT02967016|184202070|OTHER|||||||0.3|||||||Kruskal-Wallis|||Pain at rest 12 h||||.30
92157660|NCT02967016|184202070|OTHER|||||||0.002|||||||Kruskal-Wallis|||Pain at rest 24 h||||.002
92157661|NCT02967016|184202070|OTHER|||||||0.003|||||||Kruskal-Wallis|||Pain at rest 36 h||||0.003
92157662|NCT02967016|184202070|OTHER|||||||0.02|||||||Kruskal-Wallis|||Pain at rest at 48 h||||.02
92157663|NCT02967016|184202071|OTHER|||||||0.43|||||||Kruskal-Wallis|||Satisfaction with pain control 6 h||||.43
92157664|NCT02967016|184202071|OTHER|||||||0.24|||||||Kruskal-Wallis|||Satisfaction with pain control 12 h||||.24
92157665|NCT02967016|184202071|OTHER|||||||0.012|||||||Kruskal-Wallis|||Satisfaction with pain control 24 h||||.012
92157666|NCT02967016|184202071|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||Satisfaction with pain control 36 h||||<0.0001
92157667|NCT02967016|184202071|OTHER|||||||0.0005|||||||Kruskal-Wallis|||Satisfaction with pain control 48 h||||.0005
92157668|NCT04365413|184202125|OTHER||Median Difference (Final Values)|0.069|||<|0.0001|TWO_SIDED||||||Paired t-test|||||||<0.0001
92157669|NCT04365413|184202126|OTHER||Median Difference (Final Values)|0.042|||<|0.0001|TWO_SIDED||||||Paired t-test|||||||<0.0001
92217353|NCT02807480|184334960|OTHER||Slope|0.15||||0.792|TWO_SIDED|95.0|-1.0|1.31|||Regression, Linear|||Relationship of right amygdala activity during negative images with PROMIS Anxiety trajectory: time x amygdala interaction||1.31|-1.00|0.792
92217354|NCT02807480|184334960|SUPERIORITY||Slope|-0.73||||0.396|TWO_SIDED|95.0|-2.41|0.96|||Regression, Linear|||Relationship of right amygdala activity during negative images with PROMIS Anxiety trajectory: time x treatment amygdala interaction||0.96|-2.41|.396
92217355|NCT02807480|184334960|OTHER||Slope|-1.55||||0.009|TWO_SIDED|95.0|-2.7|-0.4|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PROMIS Anxiety trajectory: time x dlPFC interaction||-0.4|-2.7|.009
92342524|NCT03863353|184587101|SUPERIORITY||Odds Ratio (OR)|1.17||||0.534|TWO_SIDED|95.0|0.72|1.9||adjusted for covariates|Regression, Logistic|||Logistic regression model examined the effect of the intervention on the outcome (collapsed intentions/behaviors)||1.90|0.72|0.534
92342525|NCT00966433|184587102|OTHER||Mean Difference (Final Values)|-8.2||||0.0051|TWO_SIDED|95.0|-13.61|-2.79|||t-test, 2 sided|||||-2.79|-13.61|.0051
92342526|NCT00966433|184587103|OTHER||Mean Difference (Final Values)|3.6||||0.0001|TWO_SIDED|95.0|2.97|4.23|||t-test, 2 sided|||||4.23|2.97|.0001
92342527|NCT00966433|184587108|OTHER||Mean Difference (Final Values)|-13.9||||0.0001|TWO_SIDED|95.0|-18.88|-8.92|||t-test, 2 sided|||||-8.92|-18.88|.0001
92342528|NCT01924533|184587211|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.0262|TWO_SIDED|97.5|0.63|1.0|||Cox proportional hazards model|||||1.00|0.63|0.0262
92342529|NCT01924533|184587212|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.2458|TWO_SIDED|97.5|0.4|1.34|||Cox proportional hazards model|||||1.34|0.40|0.2458
92342530|NCT01924533|184587213|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.0645|TWO_SIDED|97.5|0.67|1.04|||Cox proportional hazards model|||||1.04|0.67|0.0645
92399313|NCT00988884|184690061|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.99|||<|0.001|TWO_SIDED|95.0|0.88|1.1|||ANOVA|||Anti-HPV 58||1.10|0.88|<0.001
92217356|NCT02807480|184334960|SUPERIORITY||Slope|0.28||||0.724|TWO_SIDED|95.0|-1.28|1.84|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PROMIS Anxiety trajectory: time x treatment dlPFC interaction||1.84|-1.28|0.724
92342531|NCT01924533|184587214|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.2199|TWO_SIDED|97.5|0.42|1.29|||Cox proportional hazards model|||||1.29|0.42|0.2199
92342532|NCT01924533|184587215|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.69||||0.0548|TWO_SIDED|97.5|0.92|3.17|||Regression, Logistic|||||3.17|0.92|0.0548
92342533|NCT01924533|184587216|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.24||||0.0309|TWO_SIDED|97.5|0.95|23.23|||Regression, Logistic|||||23.23|0.95|0.0309
92342534|NCT01924533|184587217|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.0716|TWO_SIDED|97.5|0.64|1.05|||Cox proportional hazards model|||||1.05|0.64|0.0716
92342535|NCT01924533|184587218|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.0927|TWO_SIDED|97.5|0.34|1.16|||Cox proportional hazards model|||||1.16|0.34|0.0927
92342536|NCT04233879|184587237|NON_INFERIORITY|Non-inferiority was concluded if the upper bound of the 2-sided multiplicity-adjusted 95% confidence interval (95%CI) was less than 10 percentage points.|Treatment Difference|0.6|||||TWO_SIDED|95.0|-4.5|5.8|||||Unstratified Miettinen and Nurminen method was used to generate the treatment difference and the associated 95%CI.|||5.8|-4.5|
92342537|NCT04233879|184587238|OTHER|Difference between treatment groups (Group 1: DOR/ISL and Group 2: BIC/FTC/TAF)|Percentage Difference|4.3|||||TWO_SIDED|95.0|-0.8|9.6|||||Miettinen \& Nurminen method was used to generate percentage difference and the associated 95%CI.|||9.6|-0.8|
92342538|NCT04233879|184587239|OTHER|Difference between treatment groups (Group 1: DOR/ISL and Group 2: BIC/FTC/TAF)|Percentage Difference|4.0|||||TWO_SIDED|95.0|0.4|7.9|||||Miettinen \& Nurminen method was used to generate percentage difference and the associated 95%CI.|||7.9|0.4|
92342539|NCT04233879|184587242|NON_INFERIORITY|Non-inferiority was concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI was less than 10 percentage points.|Treatment Difference|2.3|||||TWO_SIDED|95.0|-3.1|7.7|||||Miettinen and Nurminen method was used to generate treatment difference and the associated 95%CI.|||7.7|-3.1|
92342540|NCT04233879|184587243|NON_INFERIORITY|Non-inferiority was concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI was less than 10 percentage points.|Treatment Difference|1.0|||||TWO_SIDED|95.0|-4.1|6.1|||||Miettinen and Nurminen method was used to generate treatment difference and the associated 95%CI.|||6.1|-4.1|
92342541|NCT04233879|184587254|SUPERIORITY|Superiority will be concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI was less than 0.|Treatment Difference|0.15||||0.73|TWO_SIDED|95.0|-0.71|1.02|||ANCOVA|A 2-sided p-value was calculated using the Analysis of covariance (ANCOVA) model.|ANCOVA model was used to generate treatment difference and the associated 95%CI.|||1.02|-0.71|0.73
92342542|NCT02240667|184587297|OTHER|||||||0.8496|||||||stratified log-rank test|||Persistence in both treatment groups was compared by means of the stratified Log-rank test||||0.8496
92217357|NCT02807480|184334960|OTHER||Slope|-4.99||||0.209|TWO_SIDED|95.0|-12.79|2.8|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x RT\_change interaction||2.80|-12.79|.209
92217358|NCT02807480|184334960|SUPERIORITY||Slope|12.68||||0.017|TWO_SIDED|95.0|2.23|23.13|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Treatment x RT\_change interaction||23.13|2.23|0.017
92217359|NCT02807480|184334960|OTHER||Slope|-0.58||||0.259|TWO_SIDED|95.0|-1.59|0.43|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Behavior\_change interaction||0.43|-1.59|.259
92342543|NCT01578772|184587300|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0|||<|0.05|TWO_SIDED|95.0|-0.1|0.1|||Wilcoxon (Mann-Whitney)|Pairwise comparisons were performed using Wilcoxon signed rank test. All statistical tests are two-sided with nominal alpha level of 0.05.||||0.1|-0.1|<0.05
92342544|NCT01578772|184587301|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.7|||<|0.05|TWO_SIDED|95.0|-1.3|1.9|||Wilcoxon (Mann-Whitney)|Pairwise comparisons were performed using Wilcoxon signed rank test. All statistical tests are two-sided with nominal alpha level of 0.05.||||1.9|-1.3|<0.05
92342545|NCT01121263|184587378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.063||||0.8||95.0|0.666|1.697|||Regression, Cox|The Cox proportional hazards regression model was weighted by propensity score to adjust for differences in baseline risk between the two groups.|The Cox model was weighted by propensity score to adjust for differences in baseline risk between the two groups.|This applies to any MACCE||1.697|0.666|0.80
92405613|NCT02215252|184701393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.42|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|90.0|-11.38|6.54||||||Statistical analysis is only for Week 4. Mixed Model Repeated Measures analysis including all data up to Week 4.||6.54|-11.38|
92399314|NCT00988884|184690062|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|3.8|||<|0.001|TWO_SIDED|97.5|-1.7|9.3|||Miettinen and Nurminen|||Serogroup A||9.3|-1.7|<0.001
92342546|NCT01121263|184587379|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.868||||0.53||95.0|0.556|1.355|||Regression, Cox||The Cox proportional hazards regression model was weighted by the propensity score to account for the difference in baseline risk between groups.|This applies to any MACCE||1.355|0.556|0.53
92342547|NCT01669434|184587395|SUPERIORITY||Risk Ratio (RR)|0.81||||0.03|TWO_SIDED|95.0|0.67|0.97|||Fisher Exact|||||0.97|0.67|0.03
92342548|NCT01669434|184587396|SUPERIORITY||Risk Ratio (RR)|0.6||||0.44|TWO_SIDED|95.0|0.23|1.6|||Fisher Exact|||||1.60|0.23|0.44
92342549|NCT01669434|184587397|SUPERIORITY||Risk Ratio (RR)|1.2||||1|TWO_SIDED|95.0|0.48|2.99|||Fisher Exact|||||2.99|0.48|1.0
92342550|NCT01669434|184587398|SUPERIORITY||Risk Ratio (RR)|1.01||||1|TWO_SIDED|95.0|0.81|1.26|||Fisher Exact|||||1.26|0.81|1.0
92342551|NCT01669434|184587399|SUPERIORITY||Risk Ratio (RR)|1.95||||0.01|TWO_SIDED|95.0|1.14|3.34|||Fisher Exact|||||3.34|1.14|0.01
92342552|NCT01669434|184587400|SUPERIORITY||Risk Ratio (RR)|0.49||||0.02|TWO_SIDED|95.0|0.28|0.86|||Fisher Exact|||||0.86|0.28|0.02
92342553|NCT02860988|184587401|OTHER|Two-sided tests versus a margin|Mean Difference (Net)|0.6||||0.29|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Linear|||||||0.29
92399315|NCT00988884|184690062|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|-2.1|||<|0.001|TWO_SIDED|97.5|-5.4|1.1|||Miettinen and Nurminen|||Serogroup C||1.1|-5.4|<0.001
92342554|NCT02860988|184587402|OTHER|Two-sided tests versus a margin|Risk Difference (RD)|0.9||||0.88|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Logistic|||||||0.88
92342555|NCT02860988|184587403|OTHER|Two-sided tests versus a margin.|Risk Difference (RD)|0.96||||0.89|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Logistic|||||||0.89
92342556|NCT02860988|184587404|OTHER|Two-sided tests versus a margin.|Risk Difference (RD)|-4.26||||0.61|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Logistic|||||||0.61
92342557|NCT02860988|184587405|OTHER|Two-sided tests versus a margin.|Risk Difference (RD)|3.61||||0.67|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Logistic|||||||0.67
92342558|NCT02860988|184587406|OTHER|Two-sided tests versus a margin.|Risk Difference (RD)|5.23||||0.14|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Logistic|||||||0.14
92342559|NCT02860988|184587407|OTHER|Two-sided tests versus a margin.|Mean Difference (Net)|0.03||||0.81|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Linear|||||||0.81
92342560|NCT02860988|184587408|OTHER|Two-sided tests versus a margin.|Mean Difference (Net)|0.31||||0.74|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Linear|||||||0.74
92342561|NCT00737048|184587425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|STANDARD_DEVIATION|8.06|<|0.0001|||||||Fisher Least Signiﬁcant Diﬀerence Method|||Statistical Analysis 1 for Total pain relief based on numerical rating scale score||||<0.0001
92342562|NCT00737048|184587425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3|STANDARD_DEVIATION|7.99|<|0.0001|||||||Fisher Least Signiﬁcant Diﬀerence Method|||Statistical Analysis 2 for Total pain relief based on numerical rating scale score||||<0.0001
92342563|NCT00526474|184587546|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.001|TWO_SIDED|95.0|0.82|0.95|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.95|0.82|0.001
92342564|NCT00526474|184587547|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.87|||<|0.001|TWO_SIDED|95.0|0.8|0.94|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.94|0.80|<0.001
92342565|NCT00526474|184587548|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.51|||<|0.001|TWO_SIDED|95.0|1.31|1.74|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.74|1.31|<0.001
92342566|NCT00526474|184587549|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.41|||<|0.001|TWO_SIDED|95.0|1.31|1.51|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.51|1.31|<0.001
92342567|NCT00526474|184587550|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.91||||0.009|TWO_SIDED|95.0|0.85|0.98|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.98|0.85|0.009
92399316|NCT00988884|184690062|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|2.1|||<|0.001|TWO_SIDED|97.5|-1.8|6.1|||Miettinen and Nurminen|||Serogroup Y||6.1|-1.8|<0.001
92399317|NCT00988884|184690062|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|-2.1|||<|0.001|TWO_SIDED|97.5|-4.7|0.3|||Miettinen and Nurminen|||Serogroup W-135||0.3|-4.7|<0.001
92217360|NCT02807480|184334960|OTHER||Slope|1.07||||0.15|TWO_SIDED|95.0|-0.39|2.54|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Treatment x Behavior\_change interaction||2.54|-0.39|.150
92342568|NCT00526474|184587551|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86||||0.002|TWO_SIDED|95.0|0.78|0.94|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.94|0.78|0.002
92342569|NCT00526474|184587552|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.87|||<|0.001|TWO_SIDED|95.0|0.81|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.81|<0.001
92342570|NCT00526474|184587553|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.91||||0.001|TWO_SIDED|95.0|0.86|0.96|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.96|0.86|0.001
92342571|NCT00526474|184587554|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9|||<|0.001|TWO_SIDED|95.0|0.85|0.95|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.95|0.85|<0.001
92342572|NCT00526474|184587555|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89||||0.151|TWO_SIDED|95.0|0.76|1.04|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.04|0.76|0.151
92342573|NCT00526474|184587556|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83||||0.001|TWO_SIDED|95.0|0.74|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.74|0.001
92342574|NCT00526474|184587557|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.108|TWO_SIDED|95.0|0.75|1.03|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.03|0.75|0.108
92342575|NCT00526474|184587558|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.97||||0.733|TWO_SIDED|95.0|0.83|1.14|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.14|0.83|0.733
92342576|NCT00526474|184587559|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.95||||0.411|TWO_SIDED|95.0|0.85|1.07|||Cox Proportional Hazards Regression||Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.07|0.85|0.411
92342577|NCT00526474|184587560|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83||||0.001|TWO_SIDED|95.0|0.74|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.74|0.001
92342578|NCT00526474|184587561|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89|||<|0.001|TWO_SIDED|95.0|0.83|0.95|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.95|0.83|<0.001
92342579|NCT00526474|184587562|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83|||<|0.001|TWO_SIDED|95.0|0.76|0.9|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.90|0.76|<0.001
92342580|NCT00526474|184587563|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8|||<|0.001|TWO_SIDED|95.0|0.73|0.89|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.89|0.73|<0.001
92405614|NCT01106690|184701427|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.095|<|0.001|TWO_SIDED|95.0|-0.811|-0.437|||ANCOVA|||||-0.437|-0.811|<0.001
92217361|NCT02807480|184334961|OTHER||Slope|-3.52||||0.001|TWO_SIDED|95.0|-5.57|-1.47||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0125.|Regression, Linear|||Assess emotional conflict, a computational parameter reflecting avoidance relative to reward value, as a predictor of PROMIS Depression scores. Time x EC interaction.||-1.47|-5.57|0.001
92217362|NCT02807480|184334961|OTHER||Slope|-1.93|||<|0.001|TWO_SIDED|95.0|-2.91|-0.95||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0125.|Regression, Linear|||Baseline left dlPFC response to negative pictures as a predictor of PROMIS depression symptom improvement: time x L. dlFPC interaction.||-0.95|-2.91|<.001
92217363|NCT02807480|184334961|OTHER||Slope|-2.02||||0.036|TWO_SIDED|95.0|-3.9|-0.13||Threshold for statistical significance is 0.05.|Regression, Linear|||Baseline striatum response to monetary outcomes as a predictor of improvement in depressive symptoms: time x treatment x striatum interaction.||-0.13|-3.9|.036
92217364|NCT02807480|184334961|OTHER||Slope|-1.21|||<|0.001|TWO_SIDED|95.0|-1.85|-0.58||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0125.|Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of PROMIS Depression symptoms: time x approach behavior interaction||-0.58|-1.85|<.001
92217365|NCT02807480|184334961|SUPERIORITY||Slope|-0.91||||0.049|TWO_SIDED|95.0|-1.81|0.0|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of PROMIS Depression symptoms: time x treatment x approach behavior interaction||0.00|-1.81|.049
92217366|NCT02807480|184334961|OTHER||Slope|0.6||||0.778|TWO_SIDED|95.0|-3.6|4.81|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of PROMIS Depression symptoms: time x RT interaction||4.81|-3.6|.778
92217367|NCT02807480|184334961|SUPERIORITY||Slope|1.38||||0.696|TWO_SIDED|95.0|-5.56|8.31|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of PROMIS Depression symptoms: time x treatment x RT interaction||8.31|-5.56|.696
92342581|NCT00526474|184587564|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.45|||<|0.001|TWO_SIDED|95.0|1.23|1.71|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.71|1.23|<0.001
92342582|NCT00526474|184587565|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.42|||<|0.001|TWO_SIDED|95.0|1.31|1.54|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.54|1.31|<0.001
92342583|NCT00526474|184587566|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86|||<|0.001|TWO_SIDED|95.0|0.79|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.79|<0.001
92342584|NCT00526474|184587567|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83|||<|0.001|TWO_SIDED|95.0|0.75|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.75|<0.001
92342585|NCT00526474|184587568|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83|||<|0.001|TWO_SIDED|95.0|0.77|0.9|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.90|0.77|<0.001
92342586|NCT00526474|184587569|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89|||<|0.001|TWO_SIDED|95.0|0.83|0.95|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.95|0.83|<0.001
92342587|NCT00526474|184587570|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88|||<|0.001|TWO_SIDED|95.0|0.83|0.94|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.94|0.83|<0.001
92342588|NCT00526474|184587571|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86||||0.108|TWO_SIDED|95.0|0.71|1.03|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.03|0.71|0.108
92217368|NCT02807480|184334961|OTHER||Slope|0.44||||0.503|TWO_SIDED|95.0|-0.84|1.71|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with PROMIS Depression trajectory: time x striatum interaction effects||1.71|-0.84|.503
92217369|NCT02807480|184334961|OTHER||Slope|-0.9||||0.114|TWO_SIDED|95.0|-2.02|0.22|||Regression, Linear|||Relationship of right amygdala activity during negative images with PROMIS Depression trajectory: time x amygdala interaction||.22|-2.02|.114
92217370|NCT02807480|184334961|SUPERIORITY||Slope|0.48||||0.561|TWO_SIDED|95.0|-1.15|2.11|||Regression, Linear|||Relationship of right amygdala activity during negative images with PROMIS Depression trajectory: time x treatment amygdala interaction||2.11|-1.15|.561
92217371|NCT02807480|184334961|OTHER||Slope|-1.54||||0.007|TWO_SIDED|95.0|-2.66|-0.42|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PROMIS Depression trajectory: time x dlPFC interaction||-0.42|-2.66|.007
92217372|NCT02807480|184334961|SUPERIORITY||Slope|0.65||||0.403|TWO_SIDED|95.0|-0.87|2.17|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PROMIS Depression trajectory: time x treatment dlPFC interaction||2.17|-0.87|0.403
92217373|NCT02807480|184334961|OTHER||Slope|-1.51||||0.681|TWO_SIDED|95.0|-8.76|5.73|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x RT\_change interaction||5.73|-8.76|0.681
92217374|NCT02807480|184334961|SUPERIORITY||Slope|5.61||||0.264|TWO_SIDED|95.0|-4.24|15.46|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Treatment x RT\_change interaction||15.46|-4.24|.264
92342589|NCT00526474|184587572|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.82||||0.002|TWO_SIDED|95.0|0.73|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.73|0.002
92342590|NCT00526474|184587573|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.127|TWO_SIDED|95.0|0.74|1.04|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.04|0.74|0.127
92342591|NCT00526474|184587574|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.67||||0.002|TWO_SIDED|95.0|0.52|0.87|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.87|0.52|0.002
92342592|NCT00526474|184587575|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.92||||0.249|TWO_SIDED|95.0|0.8|1.06|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.06|0.80|0.249
92342593|NCT00526474|184587576|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86||||0.019|TWO_SIDED|95.0|0.76|0.98|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.98|0.76|0.019
92342594|NCT00526474|184587577|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89||||0.003|TWO_SIDED|95.0|0.83|0.96|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.96|0.83|0.003
92342595|NCT03845894|184587578|NON_INFERIORITY|There have been no studies to evaluate pain scores ISB w/ plain bupi+adjuvants. Power to detect difference at least 0.4 on the VAS scale. Threshold for inferiority is difference \>=2 points on the VAS scale. Will use two-sample t test with α= 0.05 and β= 0.1. Postop opioid consumption, total post-op opioid @ 1st 48 hours in oxycodone equivalents. Mean opioid consumption per cohort is calculated, \& the cohorts compared for statistical difference with two-sample t test, with α= 0.05 and β= 0.1.||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
92342596|NCT03238417|184587581|NON_INFERIORITY|Analysis of Variance comparing change in outcome between EBQI and control from baseline to 12 month.|Mean Difference (Net)|-0.65|STANDARD_ERROR_OF_MEAN|1.32||0.623|TWO_SIDED|95.0|-3.3|2.0||P-value is from the interaction term between EBQI and time.|ANOVA|||||2.0|-3.3|0.623
92342597|NCT03238417|184587582|NON_INFERIORITY|Analysis of Variance testing for change in outcome between EBQI and control from baseline to 24 months.|Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|1.1||0.678|TWO_SIDED|95.0|-2.8|1.8||P-value is from the interaction term of EBQI and time.|ANOVA|||||1.8|-2.8|0.678
92342598|NCT03238417|184587583|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for age, how often they saw women patients in the past year, location of practice in primary care or women's health clinic, and having had any type of quality improvement training. We adjusted our analysis with non-response weights.|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.13||0.364|TWO_SIDED|95.0|-0.17|0.35||P-value is from the interaction term between EBQI and time, adjusted for non-response weights and characteristics described in the statistical analysis overview.|Regression, Linear||The estimated value reported here is the predicted mean change from baseline to 12-month, adjusting for characteristics described in the statistical analysis overview.|Change in gender awareness score between EBQI and control from baseline to 12-month||0.35|-0.17|0.364
92342599|NCT03238417|184587584|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for age, how often they saw women patients in the past year, location of practice in primary care or women's health clinic, and having had any type of quality improvement training. We adjusted our analysis with non-response weights.|Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.1||0.29|TWO_SIDED|95.0|-0.33|0.1||P-value reflects the interaction term between EBQI and time, adjusted for non-response weights and characteristics described in the statistical analysis overview.|Regression, Linear||The estimated value reported here is the predicted mean change from baseline to 24-month, adjusting for characteristics described in the statistical analysis overview.|Change in gender awareness score between EBQI and control from baseline to 24-month||0.10|-0.33|0.29
92342600|NCT03238417|184587585|SUPERIORITY|Difference-in-differences analysis using logistic regression. The number of activities were recoded into 0 vs 1+ activities. The model was adjusted for age, how often they saw women patients in the past year, location of practice in primary care or women's health clinic, and having had any type of quality improvement training. We also adjusted for non-response weights.|Odds Ratio (OR)|-0.69|STANDARD_ERROR_OF_MEAN|0.42||0.1|TWO_SIDED|95.0|-1.52|0.13||P-value is from the interaction term between EBQI and time, adjusted for non-response weights and characteristics described in the statistical analysis overview.|Difference-in-Differences analysis||The estimated value is predicted change in the odds of involving in one or more quality improvement activities, adjusting for characteristics described in the statistical analysis overview.|||0.13|-1.52|0.10
92399318|NCT00988884|184690063|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|97.5|-0.8|0.9|||Miettinen and Nurminen|||Anti-diphtheria titer \>=0.1 IU/mL||0.9|-0.8|<0.001
92217375|NCT02807480|184334961|OTHER||Slope|-0.43||||0.367|TWO_SIDED|95.0|-1.38|0.51|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Behavior\_change interaction||0.51|-1.38|.367
92342601|NCT03238417|184587586|SUPERIORITY|Difference-in-differences analysis using logistic regression. The number of activities were recoded into 0 vs 1+ activities. The model was adjusted for age, how often they saw women patients in the past year, location of practice in primary care or women's health clinic, and having had any type of quality improvement training. We also adjusted for non-response weights.|Odds Ratio (OR)|-0.48|STANDARD_ERROR_OF_MEAN|0.39||0.22|TWO_SIDED|95.0|-1.25|0.29||P-value is from the interaction term between EBQI and time, adjusted for non-response weights and characteristics described in the statistical analysis overview.|Regression, Logistic||The estimated value is predicted change in the odds of involving in one or more quality improvement activities, adjusting for characteristics described in the statistical analysis overview.|||0.29|-1.25|0.22
92342602|NCT03238417|184587587|NON_INFERIORITY|Analysis of Variance testing the differences in outcome between EBQI and control groups over 12 month period.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|3.1||0.788|TWO_SIDED|95.0|-7.1|5.4||The p-value reflects the interaction term between EBQI and time|ANOVA|||||5.4|-7.1|0.788
92342603|NCT03238417|184587588|NON_INFERIORITY|Analysis of Variance testing for differences in outcomes between EBQI and control arms from baseline to 24 months.|Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|2.89||0.61|TWO_SIDED|95.0|-7.35|4.35||The p-value reflects the interaction terms between EBQI and control arms.|ANOVA|||||4.35|-7.35|0.61
92342604|NCT03238417|184587589|NON_INFERIORITY|ANOVA comparing changes in outcome over time between EBQI and control arms|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|10.5||0.987|TWO_SIDED|95.0|-21.45|21.11||The p-value reflects the interaction term between EBQI and time|ANOVA|||||21.11|-21.45|0.987
92342605|NCT03238417|184587590|NON_INFERIORITY|ANOVA comparing changes in outcome over time between EBQI and control groups|Mean Difference (Net)|-3.91|STANDARD_ERROR_OF_MEAN|10.35||0.708|TWO_SIDED|95.0|-24.89|17.08||The p-value reflects the interaction terms between EBQI and time|ANOVA|||||17.08|-24.89|0.708
92342606|NCT03238417|184587591|NON_INFERIORITY|ANOVA comparing changes in outcome over time between EBQI and control groups|Mean Difference (Net)|-4.51|STANDARD_ERROR_OF_MEAN|8.85||0.613|TWO_SIDED|95.0|-22.43|13.4||The p-value reflects the interaction term between EBQI and time|ANOVA|||||13.40|-22.43|0.613
92342607|NCT03238417|184587592|NON_INFERIORITY|ANOVA comparing changes in outcome over time between EBQI and control groups|Mean Difference (Net)|0.94|STANDARD_ERROR_OF_MEAN|9.48||0.922|TWO_SIDED|95.0|-18.26|20.13||The p-value reflects the interaction term between EBQI and time.|ANOVA|||||20.13|-18.26|0.922
92342608|NCT03238417|184587593|NON_INFERIORITY|two-way ANOVA testing change in a composite score of gender-neutral preventive care between EBQI and control arms over time|Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|2.13||0.789|TWO_SIDED|95.0|-3.74|4.89||The p-value represents the interaction term between EBQI and control.|ANOVA|||||4.89|-3.74|0.789
92342609|NCT03238417|184587594|NON_INFERIORITY|ANOVA comparing changes in outcomes over time between EBQI and control groups|Mean Difference (Net)|-1.63|STANDARD_ERROR_OF_MEAN|2.45||0.51|TWO_SIDED|95.0|-6.6|3.33||The p-value reflects the interaction between EBQI and time.|ANOVA|The analysis is adjusted for EBQI and time.||||3.33|-6.60|0.51
92342610|NCT03238417|184587595|NON_INFERIORITY|ANOVA testing for change in outcome over time between EBQI and control arms|Mean Difference (Net)|3.11|STANDARD_ERROR_OF_MEAN|8.3||0.711|TWO_SIDED|95.0|-13.7|19.9||The p-value reflects the interaction between EBQI and time|ANOVA|||||19.9|-13.7|0.711
92342611|NCT03238417|184587596|NON_INFERIORITY|ANOVA comparing changes in outcome over time between EBQI and control arms|Mean Difference (Net)|8.49|STANDARD_ERROR_OF_MEAN|8.7||0.335|TWO_SIDED|95.0|-9.1|26.1||The p-value reflects the interaction term between EBQI and time.|ANOVA|||||26.1|-9.1|0.335
92342612|NCT03238417|184587597|NON_INFERIORITY|Analysis of Variance testing for change in outcome between EBQI and control groups from baseline to 12 months.|Mean Difference (Net)|-13.8|STANDARD_ERROR_OF_MEAN|12.3||0.268|TWO_SIDED|95.0|-38.7|11.1||P-value is from the interaction term between EBQI and time.|ANOVA|||||11.1|-38.7|0.268
92342613|NCT03238417|184587598|NON_INFERIORITY|Analysis of Variance testing the differences between EBQI and control from baseline and 24 months|Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|12.6||0.991|TWO_SIDED|95.0|-25.6|25.3||P-value is from the interaction between EBQI and time.|ANOVA|||||25.3|-25.6|0.991
92342614|NCT04210986|184587625|SUPERIORITY||Odds Ratio (OR)|0.99|||>|0.9|TWO_SIDED|95.0|0.25|4.02||No adjustment made for multiple comparisons.|Fisher Exact||Odds ratio is for fisetin group, relative to the placebo group.|Null hypothesis: no difference in proportion of participants experiencing any TEAE between Fisetin and Placebo groups.||4.02|0.25|>0.9
92399319|NCT00988884|184690063|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|-0.2|||<|0.001|TWO_SIDED|97.5|-1.2|0.7|||Miettinen and Nurminen|||Anti-tetanus titer \>=0.1 IU/mL||0.7|-1.2|<0.001
92342615|NCT04210986|184587626|SUPERIORITY||Contrast of LS Means|-3.5||||0.9728|TWO_SIDED|95.0|-10.6|3.6||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 14 ASSESSMENT Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||3.6|-10.6|0.9728
92342616|NCT04210986|184587626|SUPERIORITY||Contrast of LS Means|-2.5||||0.9728|TWO_SIDED|95.0|-7.8|2.8||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 45 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||2.8|-7.8|0.9728
92369342|NCT02993822|184643582|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.038|TWO_SIDED|95.0|0.1|2.3|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.3|0.1|0.038
92342617|NCT04210986|184587626|SUPERIORITY||Contrast of LS Means|-20.5||||0.0829|TWO_SIDED|95.0|-37.7|-3.3||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||-3.3|-37.7|0.0829
92342618|NCT04210986|184587626|SUPERIORITY||Contrast of LS Means|-0.5||||0.9728|TWO_SIDED|95.0||||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Contrast of LS Means|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||||0.9728
92342619|NCT04210986|184587627|SUPERIORITY||Contrast of LS Means|2.52|||>|0.99|TWO_SIDED|95.0|-49.4|54.5||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 14 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||54.5|-49.4|>0.99
92342620|NCT04210986|184587627|SUPERIORITY||Contrast of LS Means|11.0|||>|0.99|TWO_SIDED|95.0|-36.8|58.8||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 45 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||58.8|-36.8|>0.99
92342621|NCT04210986|184587627|SUPERIORITY||Contrast of LS Means|-40.3||||0.6594|TWO_SIDED|95.0|-97.6|17.1||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||17.1|-97.6|0.6594
92342622|NCT04210986|184587627|SUPERIORITY||Contrast of LS Means|-6.9|||>|0.99|TWO_SIDED|95.0|-45.5|31.7||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||31.7|-45.5|>0.99
92342623|NCT04210986|184587628|SUPERIORITY||Contrast of LS Means|10.5||||0.748|TWO_SIDED|95.0|-12.9|33.9||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||33.9|-12.9|0.7480
92342624|NCT04210986|184587628|SUPERIORITY||Contrast of LS Means|-0.6||||0.9572|TWO_SIDED|95.0|-22.2|21.1||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||21.1|-22.2|0.9572
92342625|NCT04210986|184587629|SUPERIORITY||Contrast of LS Means|0.01|||>|0.99|TWO_SIDED|95.0|-0.47|0.49||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.49|-0.47|>0.99
92342626|NCT04210986|184587629|SUPERIORITY||Contrast of LS Means|0.07|||>|0.99|TWO_SIDED|95.0|-0.33|0.47||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.47|-0.33|>0.99
92342627|NCT04210986|184587630|SUPERIORITY||Contrast of LS Means|-0.37|||>|0.99|TWO_SIDED|95.0|-1.61|0.87||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.87|-1.61|>0.99
92399320|NCT00988884|184690064|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.8||||0.003|TWO_SIDED|97.5|0.69|0.92|||ANOVA|||Anti-PT||0.92|0.69|0.003
92342628|NCT04210986|184587630|SUPERIORITY||Contrast of LS Means|0.16|||>|0.99|TWO_SIDED|95.0|-0.8|1.13||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||1.13|-0.80|>0.99
92342629|NCT04210986|184587631|SUPERIORITY||Contrast of LS Means|-0.022||||0.13|TWO_SIDED|95.0|-0.045|0.002||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.002|-0.045|0.130
92342630|NCT04210986|184587631|SUPERIORITY||Contrast of LS Means|-0.024||||0.13|TWO_SIDED|95.0|-0.049|0.002||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.002|-0.049|0.130
92342631|NCT04210986|184587632|SUPERIORITY||Contrast of LS Means|-0.22||||0.9584|TWO_SIDED|95.0|-0.84|0.4||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.40|-0.84|0.9584
92342632|NCT04210986|184587632|SUPERIORITY||Contrast of LS Means|0.12||||0.9584|TWO_SIDED|95.0|-0.69|0.92||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.92|-0.69|0.9584
92342633|NCT04210986|184587633|SUPERIORITY||Contrast of LS Means|1.88||||0.5905|TWO_SIDED|95.0|-5.07|8.84||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||8.84|-5.07|0.5905
92342634|NCT04210986|184587633|SUPERIORITY||Contrast of LS Means|3.86||||0.5414|TWO_SIDED|95.0|-3.08|10.79||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||10.79|-3.08|0.5414
92342635|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|0.05|||>|0.99|TWO_SIDED|95.0|-0.75|0.85||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 3 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.85|-0.75|>0.99
92399321|NCT00988884|184690064|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.91|||<|0.001|TWO_SIDED|97.5|0.83|1.01|||ANOVA|||Anti-FHA||1.01|0.83|<0.001
92342636|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|0.44|||>|0.99|TWO_SIDED|95.0|-0.45|1.34||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||1.34|-0.45|>0.99
92399322|NCT00988884|184690064|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.95|||<|0.001|TWO_SIDED|97.5|0.84|1.08|||ANOVA|||Anti-PRN||1.08|0.84|<0.001
92399323|NCT00988884|184690064|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.96|||<|0.001|TWO_SIDED|97.5|0.76|1.21|||ANOVA|||Anti-FIM 2/3||1.21|0.76|<0.001
92399324|NCT00988884|184690067|SUPERIORITY_OR_OTHER||Difference in percentage|-0.4||||0.806|TWO_SIDED|95.0|-3.5|2.7|||Miettinen and Nurminen|||||2.7|-3.5|0.806
92399325|NCT04621448|184690071|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.048|TWO_SIDED|95.0|0.01|4.39|||Mixed Models Analysis||The mean difference estimate of 2.2 was confirmed. It is slightly different than the difference of the raw change values \[+.7 - (-1.7) = 2.4\] because it comes from the mixed effects model.|||4.39|0.01|0.048
92399326|NCT04621448|184690072|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.603|TWO_SIDED|95.0|-4.12|2.4|||Mixed Models Analysis|||||2.40|-4.12|0.603
92217376|NCT02807480|184334961|OTHER||Slope|0.88||||0.211|TWO_SIDED|95.0|-0.5|2.25|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Treatment x Behavior\_change interaction||2.25|-0.50|.211
92217377|NCT02807480|184334962|OTHER||Slope|0.74||||0.028|TWO_SIDED|95.0|0.08|1.41|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of SDS score: time x approach behavior interaction||1.41|0.08|0.028
92342637|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|0.42|||>|0.99|TWO_SIDED|95.0|-0.7|1.54||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 9 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||1.54|-0.70|>0.99
92342638|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.06|||>|0.99|TWO_SIDED|95.0|-0.91|0.78||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.78|-0.91|>0.99
92342639|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.47|||>|0.99|TWO_SIDED|95.0|-1.5|0.56||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 15 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.56|-1.50|>0.99
92342640|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.19|||>|0.99|TWO_SIDED|95.0|-1.16|0.77||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 18 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.77|-1.16|>0.99
92399327|NCT04621448|184690073|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.734|TWO_SIDED|95.0|-2.75|3.92|||Mixed Models Analysis|||||3.92|-2.75|0.734
92399328|NCT04621448|184690074|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.159|TWO_SIDED|95.0|-0.62|3.74|||Mixed Models Analysis|||||3.74|-0.62|0.159
92217378|NCT02807480|184334962|SUPERIORITY||Slope|-0.55||||0.251|TWO_SIDED|95.0|-1.49|0.39|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of SDS symptoms: time x treatment x approach behavior interaction||0.39|-1.49|0.251
92399329|NCT04621448|184690075|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.818|TWO_SIDED|95.0|-1.97|1.56|||Mixed Models Analysis|||||1.56|-1.97|0.818
92399330|NCT04621448|184690076|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.089|TWO_SIDED|95.0|-0.26|3.51|||Mixed Models Analysis|||||3.51|-0.26|0.089
92399331|NCT04621448|184690077|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.631|TWO_SIDED|95.0|-0.96|1.58|||Mixed Models Analysis|||||1.58|-0.96|0.631
92399332|NCT04621448|184690078|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.484|TWO_SIDED|95.0|-0.71|1.49|||Mixed Models Analysis|||||1.49|-0.71|0.484
92399333|NCT04621448|184690079|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.81|TWO_SIDED|95.0|-2.36|3.01|||Mixed Models Analysis|||||3.01|-2.36|0.81
92399334|NCT04621448|184690080|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.384|TWO_SIDED|95.0|-0.77|2.0|||Mixed Models Analysis|||||2.00|-0.77|0.384
92399335|NCT04621448|184690081|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.509|TWO_SIDED|95.0|-1.65|0.81|||Mixed Models Analysis|||||0.81|-1.65|0.509
92399336|NCT04621448|184690082|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.021|TWO_SIDED|95.0|0.24|3.01|||Mixed Models Analysis|||||3.01|0.24|0.021
92399337|NCT04621448|184690083|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.156|TWO_SIDED|95.0|-1.94|0.31|||Mixed Models Analysis|||||0.31|-1.94|0.156
92399338|NCT04621448|184690084|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.582|TWO_SIDED|95.0|-0.62|1.1|||Mixed Models Analysis|||||1.10|-0.62|0.582
92399339|NCT04621448|184690085|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.271|TWO_SIDED|95.0|-1.21|0.34|||Mixed Models Analysis|||||0.34|-1.21|0.271
92399340|NCT04621448|184690086|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.834|TWO_SIDED|95.0|-1.52|1.88|||Mixed Models Analysis|||||1.88|-1.52|0.834
92399341|NCT04621448|184690087|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.529|TWO_SIDED|95.0|-1.62|3.15|||Mixed Models Analysis|||||3.15|-1.62|0.529
92217379|NCT02807480|184334962|OTHER||Slope|-0.26||||0.902|TWO_SIDED|95.0|-4.49|3.96|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of SDS symptoms: time x RT interaction||3.96|-4.49|0.902
92217380|NCT02807480|184334962|SUPERIORITY||Slope|2.23||||0.519|TWO_SIDED|95.0|-4.55|9.01|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of SDS symptoms: time x treatment x RT interaction||9.01|-4.55|.519
92217381|NCT02807480|184334962|OTHER||Slope|-0.64||||0.326|TWO_SIDED|95.0|-1.92|0.64|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with SDS trajectory: time x striatum interaction effects||0.64|-1.92|.326
92217382|NCT02807480|184334962|SUPERIORITY||Slope|1.26||||0.168|TWO_SIDED|95.0|-0.53|3.05|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with SDS trajectory: time x treatment x striatum interaction effects||3.05|-0.53|.168
92217383|NCT02807480|184334962|OTHER||Slope|-0.5||||0.248|TWO_SIDED|95.0|-1.34|0.35|||Regression, Linear|||Relationship of right amygdala activity during negative images with SDS trajectory: time x amygdala interaction||0.35|-1.34|.248
92399342|NCT04621448|184690088|SUPERIORITY|||||||0.377|||||||Poisson regression|||||||0.377
92399343|NCT04621448|184690089|SUPERIORITY|||||||0.043|||||||Poisson regression|||||||0.043
92399344|NCT00549640|184690090|SUPERIORITY_OR_OTHER|||||||0.973||95.0|||||Fisher Exact|1-tailed||||||0.973
92157670|NCT03019458|184202128|SUPERIORITY|||||||0.084||||||The p value was not adjusted for multiple comparisons but rather it is the priori threshold for statistical significance at p\<0.05.|Mixed Models Analysis|We adjusted for baseline Eating Assessment Tool-10 (EAT-10), MGH-Swallowing Screening Test (MGH-SST), and the Burkes-Fahn-Marsden Dysonia Scale (BFM).||||||0.084
92342641|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|0.19|||>|0.99|TWO_SIDED|95.0|-0.58|0.96||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 21 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.96|-0.58|>0.99
92399345|NCT00549640|184690091|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Fisher Exact|1 tailed test||||||0.500
92399346|NCT00549640|184690092|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||t-test, 2 sided|For each subject, the average daily withdrawal score for the 14 days following target quit date was calculated and expressed as a change from baseline||||||0.65
92157671|NCT01161160|184202144|NON_INFERIORITY|Equivalence criteria were fulfilled if the 2-sided 95% confidence limits on the geometric mean titer (GMT) ratio was within the interval 0.5 to 2.0.|Adjusted GMT ratio|0.96|||||TWO_SIDED|95.0|0.73|1.26||||||To demonstrate the immunological equivalence of HA antigen adjuvanted with AS03B manufactured in Quebec (Arepanrix™) and HA antigen adjuvanted with AS03B manufactured in Dresden (Pandemrix™), 21 days after vaccination.||1.26|0.73|
92157672|NCT01561079|184202165|SUPERIORITY_OR_OTHER|||||||0.001||||||The p values were not adjusted for multiplicity The a priori threshold = .05|Hierarchical Linear Modeling|The p-value was calculated||||||0.001
92157673|NCT01561079|184202166|SUPERIORITY_OR_OTHER||||||<|0.002|||||||Hierarchical Linear Modeling|||||||<.002
92157674|NCT01561079|184202167|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Hierarchical Linear Modeling|||||||0.0001
92157675|NCT01561079|184202168|SUPERIORITY_OR_OTHER|||||||0.008|||||||Hierarchical Linear Modeling|The reported p-value was calculated||||||.008
92157676|NCT01561079|184202169|SUPERIORITY_OR_OTHER|||||||0.002|||||||Hierarchical Linear Modeling|||||||.002
92157677|NCT01207934|184202201|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||ANOVA for reapeated measures was used to compare the three groups.|ANOVA|||The null hypothesis was that there would be no change in glucose disposal between the three groups (placebo, low dose leptin, and high dose leptin). Power calculations were done showing that 6 subjects in each arm was enough to detect a 35% between group difference in glucose disposal at the 0.05 level with 80% power.||||>0.05
92399347|NCT00549640|184690092|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Mixed Models Analysis|analysis performed using daily scores||||||0.79
92399348|NCT03550378|184690093|SUPERIORITY||LS Mean Difference|-30.384|||<|0.001|TWO_SIDED|90.0|-41.27|-19.498|||ANCOVA|||||-19.498|-41.270|<0.001
92399349|NCT04999839|184690128|SUPERIORITY||Odds Ratio (OR)|3.727|||=|0.052|TWO_SIDED|95.0|0.933|14.885||P-value was calculated using a Cochran-Mantel-Haenszel (CMH) test, with prior treatment with biologics included as a stratification factor, comparing the percentage of participants in each dose of NDI-034858 vs placebo.|Cochran-Mantel-Haenszel||Odds ratio for achievement of PASI-75 was calculated using the Mantel-Haenszel (MH) method.|||14.885|0.933|=0.052
92405615|NCT01106690|184701427|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.096|<|0.001|TWO_SIDED|95.0|-0.951|-0.575|||ANCOVA|||||-0.575|-0.951|<0.001
92405616|NCT01106690|184701428|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4||||0.007||95.0|1.26|4.57|||Regression, Logistic|||||4.57|1.26|0.007
92405617|NCT01106690|184701428|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.38|||<|0.001|TWO_SIDED|95.0|2.73|10.6|||Regression, Logistic|||||10.60|2.73|<0.001
92405618|NCT01106690|184701429|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-29.4|STANDARD_ERROR_OF_MEAN|3.857|<|0.001|TWO_SIDED|95.0|-36.96|-21.78|||ANCOVA|||||-21.78|-36.96|<0.001
92157678|NCT01207934|184202202|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||a priori threshold for significance was set at p = 0.05.|t-test, 2 sided|T-tests compared pre and post-treatment values.||The null hypothesis is that treatment would not effect plasma leptin levels.||||<0.01
92157679|NCT01207934|184202202|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||a priori threshold for significance was p = 0.05.|t-test, 2 sided|||null hypothesis was that plasma leptin levels would be equal after treatment in the placebo and high-dose leptin groups.||||<0.01
92157680|NCT01276535|184202206|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||Comparison is made of the combined application of the Erchonia MLS and the Erchonia THL. Results are analyzed at 6 weeks relative to Baseline.||||<0.01
92157681|NCT01276535|184202207|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||Comparison is made of the combined application of the Erchonia MLS and the Erchonia THL. Results are analyzed at 6 weeks relative to Baseline.||||<0.01
92157682|NCT00180674|184202208|SUPERIORITY|||||||0.043|||||||Wilcoxon Signed Ranks test|||||||0.043
92157683|NCT01106976|184202213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0012||||0.0009|TWO_SIDED||||||t-test, 1 sided|||Paired t-test. Hypothesis of significant cholinergic interval changes over the study interval period.||||0.0009
92157684|NCT03566680|184202229|EQUIVALENCE||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92157685|NCT03566680|184202230|EQUIVALENCE||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92157686|NCT03566680|184202231|EQUIVALENCE||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92157687|NCT03566680|184202232|EQUIVALENCE|||||||0.73|||||||t-test, 2 sided|||||||0.73
92157688|NCT03566680|184202233|EQUIVALENCE|||||||0.08|||||||t-test, 2 sided|||||||0.08
92157689|NCT03566680|184202234|EQUIVALENCE|||||||0.72|||||||t-test, 2 sided|||||||0.72
92157690|NCT04003974|184202236|OTHER|Mean DUX4 activity was derived for each participant at each time point (Baseline and post-Baseline) based on normalized gene expression values for the 6-gene panel. Changes from Baseline to post-Baseline were analyzed using an ANCOVA model.|Least square mean difference|0.4284||||0.5621|TWO_SIDED|95.0|-1.0376|1.8945|||ANCOVA||Results are expressed as difference in Least-Squares (LS) means of the changes from Baseline to post-Baseline in DUX4 activity for each group, losmapimod and placebo.|||1.8945|-1.0376|0.5621
92217384|NCT02807480|184334962|SUPERIORITY||Slope|0.3||||0.603|TWO_SIDED|95.0|-0.84|1.44|||Regression, Linear|||Relationship of right amygdala activity during negative images with SDS trajectory: time x treatment amygdala interaction||1.44|-0.84|0.603
92342642|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|0.1|||>|0.99|TWO_SIDED|95.0|-0.76|0.97||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 24 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.97|-0.76|>0.99
92342643|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|0.01|||>|0.99|TWO_SIDED|95.0|-0.74|0.76||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 27 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.76|-0.74|>0.99
92342644|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.38|||>|0.99|TWO_SIDED|95.0|-1.2|0.44||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 30 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.44|-1.20|>0.99
92342645|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|0.1|||>|0.99|TWO_SIDED|95.0|-0.69|0.89||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 33 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.89|-0.69|>0.99
92342646|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.2|||>|0.99|TWO_SIDED|95.0|-1.02|0.61||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 36 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.61|-1.02|>0.99
92342647|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|0.11|||>|0.99|TWO_SIDED|95.0|-0.7|0.92||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 39 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.92|-0.70|>0.99
92342648|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.62|||>|0.99|TWO_SIDED|95.0|-1.36|0.13||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 42 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.13|-1.36|>0.99
92399350|NCT04999839|184690128|SUPERIORITY||Odds Ratio (OR)|12.733|||<|0.001|TWO_SIDED|95.0|3.525|45.994||P-value was calculated using a CMH test, with prior treatment with biologics included as a stratification factor, comparing the percentage of participants in each dose of NDI-034858 vs placebo.|Cochran-Mantel-Haenszel||Odds ratio for achievement of PASI-75 was calculated using the MH method.|||45.994|3.525|<0.001
92399351|NCT04999839|184690128|SUPERIORITY||Odds Ratio (OR)|29.014|||<|0.001|TWO_SIDED|95.0|8.526|98.735||P-value was calculated using a CMH test, with prior treatment with biologics included as a stratification factor, comparing the percentage of participants in each dose of NDI-034858 vs placebo.|Cochran-Mantel-Haenszel||Odds ratio for achievement of PASI-75 was calculated using the MH method.|||98.735|8.526|<0.001
92157691|NCT02400307|184202255|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|Geometric Least-Square Mean (GLSM) Ratio|72.63|||||TWO_SIDED|90.0|48.8|108.1||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||108.10|48.80|
92157692|NCT02400307|184202256|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|GLSM Ratio|99.29|||||TWO_SIDED|90.0|79.49|124.04||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||124.04|79.49|
92217385|NCT02807480|184334962|OTHER||Slope|-0.85||||0.107|TWO_SIDED|95.0|-1.89|0.18|||Regression, Linear|||Relationship of right dlPFC activity during negative images with SDS trajectory: time x dlPFC interaction||0.18|-1.89|.107
92342649|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.23|||>|0.99|TWO_SIDED|95.0|-1.01|0.55||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 7 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.55|-1.01|>0.99
92342650|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.2|||>|0.99|TWO_SIDED|95.0|-0.89|0.49||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 8 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.49|-0.89|>0.99
92342651|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|0.02|||>|0.99|TWO_SIDED|95.0|-0.63|0.67||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 9 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.67|-0.63|>0.99
92342652|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.17|||>|0.99|TWO_SIDED|95.0|-0.95|0.61||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 10 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.61|-0.95|>0.99
92342653|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.42|||>|0.99|TWO_SIDED|95.0|-1.18|0.34||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 11 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.34|-1.18|>0.99
92342654|NCT04210986|184587634|SUPERIORITY||Contrast of LS Means|-0.35|||>|0.99|TWO_SIDED|95.0|-1.41|0.71||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.71|-1.41|>0.99
92342655|NCT04210986|184587635|SUPERIORITY||Contrast of LS Means|1.86||||0.9106|TWO_SIDED|95.0|-3.09|6.82||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||6.82|-3.09|0.9106
92399352|NCT04999839|184690128|SUPERIORITY||Odds Ratio (OR)|40.111|||<|0.001|TWO_SIDED|95.0|10.277|156.548||P-value was calculated using a CMH test, with prior treatment with biologics included as a stratification factor, comparing the percentage of participants in each dose of NDI-034858 vs placebo.|Cochran-Mantel-Haenszel||Odds ratio for achievement of PASI-75 was calculated using the MH method.|||156.548|10.277|<0.001
92399353|NCT02732600|184690176|SUPERIORITY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.59||0.39|TWO_SIDED|95.0|-0.66|1.68|||t-test, 2 sided|||Analysis 1 is Comparison Across Conditions at BASELINE Analysis 2 is Comparison Across Conditions at 6 Months Analysis 3 is Comparison Across Conditions at 1 year||1.68|-0.66|0.39
92217386|NCT02807480|184334962|SUPERIORITY||Slope|0.16||||0.846|TWO_SIDED|95.0|-1.47|1.8|||Regression, Linear|||Relationship of right dlPFC activity during negative images with SDS trajectory: time x treatment x dlPFC interaction||1.80|-1.47|0.846
92399354|NCT02732600|184690176|SUPERIORITY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.71||0.35|TWO_SIDED|95.0|-0.75|2.06|||t-test, 2 sided|||Analysis 1 is Comparison Across Conditions at BASELINE Analysis 2 is Comparison Across Conditions at 6 Months Analysis 3 is Comparison Across Conditions at 1 year||2.06|-0.75|0.35
92399355|NCT02732600|184690176|SUPERIORITY||Mean Difference (Final Values)|1.01|STANDARD_ERROR_OF_MEAN|0.81||0.21|TWO_SIDED|95.0|-0.57|2.6|||t-test, 2 sided|||Analysis 1 is Comparison Across Conditions at BASELINE Analysis 2 is Comparison Across Conditions at 6 Months Analysis 3 is Comparison Across Conditions at 1 year||2.60|-0.57|0.21
92399356|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|5.61|STANDARD_ERROR_OF_MEAN|3.6||0.156|TWO_SIDED|95.0|-2.2|13.48|||t-test, 2 sided|||t-test used to compare group differences in Cohesiveness at BASELINE||13.48|-2.2|0.156
92217387|NCT02807480|184334962|OTHER||Slope|-2.26||||0.561|TWO_SIDED|95.0|-9.89|5.37|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of SDS scores over the 10 sessions: Time x RT\_change interaction||5.37|-9.89|.561
92275056|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.19|||||TWO_SIDED|95.0|-21.57|13.19||||||For change in pancreatic pain at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||13.19|-21.57|
92157693|NCT02400307|184202257|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|GLSM Ratio|72.43|||||TWO_SIDED|90.0|48.54|108.07||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||108.07|48.54|
92157694|NCT02400307|184202258|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|GLSM Ratio|99.02|||||TWO_SIDED|90.0|79.24|123.74||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||123.74|79.24|
92157695|NCT02400307|184202259|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|GLSM Ratio|80.32|||||TWO_SIDED|90.0|59.56|108.3||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||108.30|59.56|
92157696|NCT02400307|184202260|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|GLSM Ratio|109.8|||||TWO_SIDED|90.0|87.46|137.85||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||137.85|87.46|
92157697|NCT03248440|184202263|SUPERIORITY|||||||0.579|||||||2-sided Pearson's chi-square|||||||0.579
92157698|NCT03248440|184202264|SUPERIORITY|||||||0.082|||||||2-sided Pearson's chi-square|||||||0.082
92157699|NCT04081298|184202278|EQUIVALENCE|feasibility assessment|Mean Difference (Final Values)|0.24|STANDARD_DEVIATION|0.8||0.24|TWO_SIDED|||||The threshold for statistical significance is p=0.05. (feasibility assessment)|Paired sample t-test|||||||0.24
92157700|NCT04081298|184202279|EQUIVALENCE|feasibility assessment|Mean Difference (Final Values)|0.14|STANDARD_DEVIATION|0.78||0.43|TWO_SIDED|||||The threshold for statistical significance was p=0.5 (feasibility assessment)|paired t-test|||||||0.43
92157701|NCT04081298|184202280|EQUIVALENCE|McNemar's test evaluates equivalence between nominal groups. Power not calculated as this is a feasibility study with small sample size.||||||0.1|||||||McNemar|||Single arm pre-post comparison at baseline and 3-month follow-up (feasibility study)||||0.10
92157702|NCT04081298|184202281|EQUIVALENCE|feasibility assessment|Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.65||0.2|TWO_SIDED|||||The threshold for statistical significance was p=0.5 (feasibility assessment)|paired-sample t-test|||||||0.20
92157703|NCT04081298|184202282|EQUIVALENCE|paired sample t-test (feasibility assessment)|Mean Difference (Final Values)|0.06|STANDARD_DEVIATION|0.73||0.71|TWO_SIDED||||||paired sample t-test|||||||0.71
92157704|NCT04081298|184202283|EQUIVALENCE|The analysis is an equivalence analysis of change (H1) in mean value from baseline to 3 month follow-up. Power was not calculated for this analysis because this is a feasibility study. The sample size is not large enough to approach appropriate power.||||||0.94|||||||paired-sample t-test|||Single arm pre-post comparison at baseline and 3-month follow-up (feasibility study)||||0.94
92342656|NCT04210986|184587635|SUPERIORITY||Contrast of LS Means|-4.2||||0.4424|TWO_SIDED|95.0|-9.93|1.53||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||1.53|-9.93|0.4424
92342657|NCT04210986|184587635|SUPERIORITY||Contrast of LS Means|-0.03||||0.9901|TWO_SIDED|95.0|-5.55|5.48||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 18 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||5.48|-5.55|0.9901
92399357|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|7.97|STANDARD_ERROR_OF_MEAN|5.89||0.182|TWO_SIDED|95.0|-3.85|19.8|||t-test, 2 sided|||t-test to compare group means on Communication at BASELINE||19.8|-3.85|0.182
92399358|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|8.41|STANDARD_ERROR_OF_MEAN|6.31||0.234|TWO_SIDED|95.0|-5.74|22.57|||t-test, 2 sided|||t-test to compare group differences on Role Clarity at BASELINE||22.57|-5.74|0.234
92157705|NCT04081298|184202284|EQUIVALENCE|The analysis is an equivalence analysis of change (H1) in mean value from baseline to 3 month follow-up using a paired-sample t-test. Power was not calculated for this analysis because this is a feasibility study. The sample size is not large enough to approach appropriate power.||||||0.03|||||||paired-sample t-test|||||||0.03
92275057|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.6|||||TWO_SIDED|95.0|-32.86|7.66||||||For change in eating related items at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||7.66|-32.86|
92217388|NCT02807480|184334962|SUPERIORITY||Slope|5.45||||0.297|TWO_SIDED|95.0|-4.8|15.7|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of SDS scores over the 10 sessions: Time x Treatment x RT\_change interaction||15.70|-4.80|.297
92217389|NCT02807480|184334962|OTHER||Slope|-0.18||||0.712|TWO_SIDED|95.0|-1.15|0.79|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of SDS cores over the 10 sessions: Time x Behavior\_change interaction||0.79|-1.15|.712
92217390|NCT02807480|184334962|SUPERIORITY||Slope|0.56||||0.431|TWO_SIDED|95.0|-0.84|1.97|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of SDS scores over the 10 sessions: Time x Treatment x Behavior\_change interaction||1.97|-0.84|0.431
92217391|NCT02807480|184334963|OTHER||Slope|-6.42||||0.276|TWO_SIDED|95.0|-18.15|5.3|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and post-treatment PSWQ score: approach behavior main effect||5.30|-18.15|.276
92217392|NCT02807480|184334963|SUPERIORITY||Slope|5.69||||0.52|TWO_SIDED|95.0|-12.12|23.5|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and post-treatment PSWQ score: treatment x approach behavior interaction||23.50|-12.12|.520
92217393|NCT02807480|184334963|OTHER||Slope|-50.0||||0.199|TWO_SIDED|95.0|-127.65|27.65|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of PSWQ score: RT main effect||27.65|-127.65|.199
92217394|NCT02807480|184334963|SUPERIORITY||Slope|93.87||||0.191|TWO_SIDED|95.0|-4.14|236.88|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of PSWQ score: treatment x RT interaction||236.88|-4.14|.191
92342658|NCT04210986|184587636|SUPERIORITY||Contrast of LS Means|0.69|||>|0.99|TWO_SIDED|95.0|-30.95|32.3||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|"MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.~A priori power calculation was based a standardized mean difference effect size of SMD=0.73 (Mackay, et al, 2018, Osteoarthritis and Cartilage)."||32.3|-30.95|>0.99
92369343|NCT02993822|184643582|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.118|TWO_SIDED|95.0|-0.2|2.0|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.0|-0.2|0.118
92217395|NCT02807480|184334963|OTHER||Slope|27.35||||0.021|TWO_SIDED|95.0|4.45|50.26|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with PSWQ trajectory: striatum main effect||50.26|4.45|0.021
92217396|NCT02807480|184334963|SUPERIORITY||Slope|-5.47||||0.734|TWO_SIDED|95.0|-37.94|27.0|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with PSWQ post-treatment: treatment x striatum interaction effects||27.00|-37.94|.734
92217397|NCT02807480|184334963|OTHER||Slope|-9.79||||0.231|TWO_SIDED|95.0|-26.11|6.53|||Regression, Linear|||Relationship of right amygdala activity during negative images with PSWQ post-treatment: amygdala main effect||6.53|-26.11|.231
92217398|NCT02807480|184334963|SUPERIORITY||Slope|8.55||||0.602|TWO_SIDED|95.0|-24.48|41.58|||Regression, Linear|||Relationship of right amygdala activity during negative images with PSWQ post-treatment: treatment amygdala interaction||41.58|-24.48|.602
92217399|NCT02807480|184334963|OTHER||Slope|-19.29||||0.369|TWO_SIDED|95.0|-62.07|23.68|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PSWQ post-treatment: dlPFC main effect||23.68|-62.07|.369
92217400|NCT02807480|184334963|SUPERIORITY||Slope|9.12||||0.684|TWO_SIDED|95.0|-36.05|54.29|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PSWQ post-treatment: treatment x dlPFC interaction||54.29|-36.05|.684
92217401|NCT02807480|184334963|OTHER||Slope|9.6||||0.487|TWO_SIDED|95.0|-18.39|37.59|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of PSWQ cores over the 10 sessions: Behavior\_change main effect||37.59|-18.39|.487
92217402|NCT02807480|184334963|SUPERIORITY||Slope|-46.34||||0.033|TWO_SIDED|95.0|-88.5|-4.18|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of PSWQ scores over the 10 sessions: Treatment x Behavior\_change interaction||-4.18|-88.5|.033
92217403|NCT02807480|184334963|OTHER||Slope|39.53||||0.546|TWO_SIDED|95.0|-94.2|173.85|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of PSWQ scores over the 10 sessions: RT\_change main effect||173.85|-94.2|.546
92217404|NCT02807480|184334963|SUPERIORITY||Slope|-89.96||||0.443|TWO_SIDED|95.0|-327.39|147.67|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of PSWQ scores over the 10 sessions: Treatment x RT\_change interaction||147.67|-327.39|.443
92217405|NCT02807480|184334964|OTHER||Slope|-1.01||||0.357|TWO_SIDED|95.0|-3.22|1.19|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and post-treatment BDI-II score: approach behavior main effect||1.19|-3.22|.357
92217406|NCT02807480|184334964|SUPERIORITY||Slope|0.37||||0.812|TWO_SIDED|95.0|-2.74|3.47|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and post-treatment BDI-II score: treatment x approach behavior interaction||3.47|-2.74|.812
92217407|NCT02807480|184334964|OTHER||Slope|2.01||||0.826|TWO_SIDED|95.0|-16.42|20.45|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and post-treatment BDI-II score: RT main effect||20.45|-16.42|.826
92342659|NCT04210986|184587636|SUPERIORITY||Contrast of LS Means|-11.3|||>|0.99|TWO_SIDED|95.0|-46.9|24.2||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|"MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.~A priori power calculation was based a standardized mean difference effect size of SMD=0.73 (Mackay, et al, 2018, Osteoarthritis and Cartilage)."||24.2|-46.9|>0.99
92342660|NCT04210986|184587637|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.474|TWO_SIDED|95.0|0.05|4.21||A priori threshold for statistical significance = 0.05.|Log Rank|Cox proportional hazards model constructed. Score (log rank) test to assess between group difference in hazard rate.|Hazard ratio expresses the hazard rate of the Fisetin group in the numerator and the hazard rate of the Placebo group in the denominator|With only 4 participants that converted to an alternative treatment modality, this analysis is underpowered.||4.21|0.05|0.474
92342661|NCT04275336|184587654|OTHER||H value|1.344||||0.511|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.511
92342662|NCT04275336|184587655|OTHER||H value|5.272||||0.072|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.072
92342663|NCT04275336|184587656|OTHER||H value|0.198||||0.906|ONE_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.906
92342664|NCT04275336|184587657|OTHER||H value|6.679||||0.035|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.035
92342665|NCT04275336|184587658|OTHER||Mean Difference (Final Values)|0.17||||0.844|TWO_SIDED|95.0||||\<0.05|ANOVA|||||||0.844
92342666|NCT04275336|184587659|OTHER||H value|1.651||||0.438|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.438
92342667|NCT04275336|184587660|OTHER||H value|0.341||||0.843|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.843
92342668|NCT04275336|184587661|OTHER||Median Difference (Final Values)|1.642||||0.44|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.440
92342669|NCT04664205|184587662|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.010
92342670|NCT04664205|184587663|SUPERIORITY|||||||0.069|||||||ANCOVA|||||||0.069
92342671|NCT04664205|184587664|SUPERIORITY|||||||0.478|||||||ANOVA|||||||0.478
92342672|NCT05222880|184587700|SUPERIORITY|A superiority Margin of 0.00 logMAR was used for distance.|Mean Population Estimate|-0.1|STANDARD_ERROR_OF_MEAN|0.007|||TWO_SIDED|99.0|-0.12|-0.08||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% Individually) with at least 99% statistical power, that 17 subjects were required to test the primary hypothesis for Distance.||-0.08|-0.12|
92342673|NCT05222880|184587700|SUPERIORITY|A superiority Margin of 0.17 logMAR was used for Intermediate.|Mean Population Estimate|-0.04|STANDARD_ERROR_OF_MEAN|0.007|||TWO_SIDED|99.0|-0.06|-0.02||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% Individually) with at least 99% statistical power, that 11 subjects were required to test the primary hypothesis for Intermediate.||-0.02|-0.06|
92342674|NCT05222880|184587700|SUPERIORITY|A superiority Margin of 0.17 logMAR was used for near.|Mean Population Estimate|0.07|STANDARD_ERROR_OF_MEAN|0.009|||TWO_SIDED|99.0|0.05|0.09||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% Individually) with at least 99% statistical power, that 48 subjects were required to test the primary hypothesis for Near.||0.09|0.05|
92342675|NCT05222880|184587701|SUPERIORITY|A superiority Margin of 36 CLUE Points was used for Hyperopes.|Mean Population Estimate|52.3|STANDARD_ERROR_OF_MEAN|2.75|||TWO_SIDED|99.0|45.2|59.4||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 99% statistical power, that 14 subjects were required to test for superiority for CLUE vision scores for Hyperopes.||59.4|45.2|
92342676|NCT05222880|184587701|SUPERIORITY|A superiority Margin of 41 CLUE Points was used for Myopes.|Mean Population Estimate|63.3|STANDARD_ERROR_OF_MEAN|2.054|||TWO_SIDED|99.0|58.0|68.6||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 99% statistical power, that 18 subjects were required to test for superiority for CLUE vision scores for Myopes.||68.6|58.0|
92342677|NCT05222880|184587702|SUPERIORITY|A superiority margin of 0.05 was used.|Mean Proportion|0.0019|STANDARD_DEVIATION|0.00209|||TWO_SIDED|95.0|0.0|0.0076|||Bayesian beta- binomial model|Bayesian beta-binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.02 and an intraclass correlation of 0.70 with 2000 replicating trials, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 90% with 95% central posterior credible.||0.0076|0.0000|
92342678|NCT05222880|184587703|SUPERIORITY|A superiority margin of 0.05 was used.|Mean Proportion|0.0018|STANDARD_DEVIATION|0.0021|||TWO_SIDED|95.0|0.0|0.0078|||Bayesian beta-binomial model|Bayesian beta-binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.02 and an intraclass correlation of 0.70 with 2000 replicating trials, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 90% with 95% central posterior credible.||0.0078|0.0000|
92342679|NCT05222880|184587704|SUPERIORITY|A superiority Margin of 41 CLUE Points was used for Hyperopes.|Mean Population Estimate|52.3|STANDARD_ERROR_OF_MEAN|2.75|||TWO_SIDED|99.0|45.2|59.4||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 80% statistical power, that 16 subjects were required to test for superiority for CLUE vision scores for Hyperopes.||59.4|45.2|
92405619|NCT01106690|184701429|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-35.7|STANDARD_ERROR_OF_MEAN|3.861|<|0.001|TWO_SIDED|95.0|-43.3|-28.11|||ANCOVA|||||-28.11|-43.30|<0.001
92157706|NCT04081298|184202285|EQUIVALENCE|The analysis is an equivalence analysis of change (H1) in mean value from baseline to 3 month follow-up using a paired-sample t-test. Power was not calculated for this analysis because this is a feasibility study. The sample size is not large enough to approach appropriate power.||||||0.36|||||||paired-sample t-test|||||||0.36
92157707|NCT03389893|184202286|SUPERIORITY||Geometric Mean Ratio|0.033|||<|0.001|TWO_SIDED|95.0|0.008|0.131|||ANCOVA||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator.|||0.131|0.008|<0.001
92157708|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.28||||0.019|TWO_SIDED|95.0|0.09|0.8|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 3||0.80|0.09|0.019
92217408|NCT02807480|184334964|SUPERIORITY||Slope|-2.89||||0.838|TWO_SIDED|95.0|-31.42|25.64|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and post-treatment BDI-II score: treatment x RT interaction||25.64|-31.42|.838
92217409|NCT02807480|184334964|OTHER||Slope|-0.68||||0.776|TWO_SIDED|95.0|-5.51|4.14|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with BDI-II post-treatment: striatum main effect||4.14|-5.51|.776
92217410|NCT02807480|184334964|SUPERIORITY||Slope|-0.69||||0.844|TWO_SIDED|95.0|-7.79|6.4|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with BDI-II post-treatment: treatment x striatum interaction effects||6.40|-7.79|.844
92342680|NCT05222880|184587704|SUPERIORITY|A superiority Margin of 46 CLUE Points was used for Myopes.|Mean Population Estimate|63.3|STANDARD_ERROR_OF_MEAN|2.054|||TWO_SIDED|99.0|58.0|68.6||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 80% statistical power, that 15 subjects were required to test for superiority for CLUE vision scores for Myopes.||68.6|58.0|
92342681|NCT05222880|184587705|SUPERIORITY|A Superiority margin of 52 CLUE points was used|Mean Population Estimate|72.6|STANDARD_ERROR_OF_MEAN|1.763|||TWO_SIDED|99.0|68.1|77.1||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 80% statistical power, that 11 subjects were required to test for superiority for CLUE comfort scores.||77.1|68.1|
92399359|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|14.14|STANDARD_ERROR_OF_MEAN|9.63||0.149|TWO_SIDED|95.0|-5.22|33.5|||t-test, 2 sided|||t-test to compare group values on Goals at Baseline||33.5|-5.22|0.149
92399360|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|7.1||0.947|TWO_SIDED|95.0|-14.7|13.8|||t-test, 2 sided|||t-test of differences between groups on Cohesiveness at 6-Months||13.8|-14.7|0.947
92217411|NCT02807480|184334964|OTHER||Slope|0.88||||0.719|TWO_SIDED|95.0|-4.03|5.79|||Regression, Linear|||Relationship of right amygdala activity during negative images with BDI-II post-treatment: amygdala main effect||5.79|-4.03|.719
92217412|NCT02807480|184334964|SUPERIORITY||Slope|-2.33||||0.464|TWO_SIDED|95.0|-8.74|4.07|||Regression, Linear|||Relationship of right amygdala activity during negative images with BDI-II post-treatment: treatment x amygdala interaction||4.07|-8.74|.464
92217413|NCT02807480|184334964|OTHER||Slope|5.91||||0.135|TWO_SIDED|95.0|-1.93|13.75|||Regression, Linear|||Relationship of right dlPFC activity during negative images with BDI-II post-treatment: dlPFC main effect||13.75|-1.93|.135
92217414|NCT02807480|184334964|SUPERIORITY||Slope|-6.09||||0.158|TWO_SIDED|95.0|-14.65|2.47|||Regression, Linear|||Relationship of right dlPFC activity during negative images with BDI-II post-treatment: treatment x dlPFC interaction||2.47|-14.65|.158
92217415|NCT02807480|184334964|OTHER||Slope|1.16||||0.69|TWO_SIDED|95.0|-4.78|7.11|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of BDI-II cores over the 10 sessions: Behavior\_change main effect||7.11|-4.78|.690
92217416|NCT02807480|184334964|SUPERIORITY||Slope|-1.37||||0.715|TWO_SIDED|95.0|-8.99|6.25|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of BDI-II scores over the 10 sessions: Treatment x Behavior\_change interaction||6.25|-8.99|.715
92217417|NCT02807480|184334964|OTHER||Slope|5.14||||0.74|TWO_SIDED|95.0|-26.38|36.65|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of BDI-II scores over the 10 sessions: RT\_change main effect||36.65|-26.38|.740
92217418|NCT02807480|184334964|SUPERIORITY||Slope|-0.98||||0.966|TWO_SIDED|95.0|-48.1|46.14|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of BDI-II scores over the 10 sessions: Treatment x RT\_change interaction||46.14|-48.10|.966
92217419|NCT01180478|184334965|SUPERIORITY_OR_OTHER|||||||0.585|||||||Log Rank|||The expected recurrence rate in the WL-assisted TURBT group was 35%.14 To detect a clinically relevant difference in recurrence detection rates ≥10% at a 5% significance level and a power of 80%, the required sample size per treatment was calculated to be 329 patients (658 patients in total).||||0.585
92217420|NCT01180478|184334966|SUPERIORITY_OR_OTHER|||||||0.742|||||||Chi-squared|||||||0.742
92217421|NCT01180478|184334967|SUPERIORITY_OR_OTHER|||||||0.17|||||||Fisher Exact|The analysis was performed by using the Fisher exact test, because the criteria for using the Chi square test were not met.||The statistical analyses refers to comparison of the different 8 categories (one variable) mentioned of the Clavien grading of perioperative complications between Narrow Band Imaging and White Light Trans Urethral Resection.||||0.170
92217422|NCT01180478|184334968|SUPERIORITY_OR_OTHER|||||||0.311|||||||Chi-squared|||Comparison of the numbers in 'Bleeding' between NBI and WL||||0.311
92217423|NCT01180478|184334968|SUPERIORITY_OR_OTHER|||||||0.666|||||||Chi-squared|||Comparison of the numbers in 'Fever' between NBI and WL||||0.666
92217424|NCT01180478|184334968|SUPERIORITY_OR_OTHER|||||||0.569|||||||Chi-squared|||Comparison in the number of 'UTI' between NBI and WL||||0.569
92342682|NCT05222880|184587706|SUPERIORITY|A Superiority margin of 53 CLUE points was used|Mean Population Estimate|67.6|STANDARD_ERROR_OF_MEAN|1.77|||TWO_SIDED|99.0|63.0|72.1||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 80% statistical power, that 17 subjects were required to test for superiority for CLUE handling scores.||72.1|63.0|
92399361|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|1.38|STANDARD_ERROR_OF_MEAN|8.4||0.87|TWO_SIDED|95.0|-15.6|18.4|||t-test, 2 sided|||t-test of groups differences on Communication at 6 Months||18.4|-15.6|0.870
92399362|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|6.18|STANDARD_ERROR_OF_MEAN|8.62||0.478|TWO_SIDED|95.0|-11.26|23.63|||t-test, 2 sided|||t-test of group differences on Role Clarity at 6 months||23.63|-11.26|0.478
92399363|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|2.23|STANDARD_ERROR_OF_MEAN|7.71||0.773|TWO_SIDED|95.0|-13.35|17.83|||t-test, 2 sided|||t-test of group differences on Goals at 6 Months||17.83|-13.35|0.773
92275058|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.25|||||TWO_SIDED|95.0|-10.33|34.82||||||For change in altered bowel habits at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||34.82|-10.33|
92275059|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.84|||||TWO_SIDED|95.0|-0.18|25.85||||||For change in jaundice at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||25.85|-0.18|
92275060|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.85|||||TWO_SIDED|95.0|-16.45|24.14||||||For change in body image at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||24.14|-16.45|
92275061|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.05|||||TWO_SIDED|95.0|-23.23|37.34||||||For change in health care satisfaction at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||37.34|-23.23|
92342683|NCT05222880|184587707|SUPERIORITY|A superiority margin of 0.90 was used.|Mean Posterior Proportion|0.985|STANDARD_DEVIATION|0.0071|||TWO_SIDED|99.0|0.959|0.997|||Bayesian beta-binomial model|Bayesian beta-binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.98 and an intraclass correlation of 0.70 with 2000 replicating trials, that 92 subjects were required to test for superiority to achieve a minimum statistical power of 80% with 99% central posterior credible.||0.997|0.959|
92275062|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.53|||||TWO_SIDED|95.0|-26.55|21.5||||||For change in sexual functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||21.50|-26.55|
92275063|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.46|||||TWO_SIDED|95.0|-27.48|8.56||||||For change in ascites at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||8.56|-27.48|
92275064|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.96|||||TWO_SIDED|95.0|-30.62|16.7||||||For change in indigestion at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||16.70|-30.62|
92275065|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.71|||||TWO_SIDED|95.0|-20.37|27.8||||||For change in flatulence at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||27.80|-20.37|
92275066|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.04|||||TWO_SIDED|95.0|-5.73|31.81||||||For change in cachexia at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||31.81|-5.73|
92275067|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.12|||||TWO_SIDED|95.0|-3.23|33.46||||||For change in side effects at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||33.46|-3.23|
92275068|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.91|||||TWO_SIDED|95.0|-36.18|20.37||||||For change in fear of future health at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||20.37|-36.18|
92275069|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.38|||||TWO_SIDED|95.0|-20.24|51.01||||||For change in ability to plan future at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||51.01|-20.24|
92275070|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.25|||||TWO_SIDED|95.0|-10.09|32.59||||||For change in pancreatic pain at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||32.59|-10.09|
92157709|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.37||||0.165|TWO_SIDED|95.0|0.09|1.51|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 7||1.51|0.09|0.165
92157710|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.08|||<|0.001|TWO_SIDED|95.0|0.02|0.27|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 14||0.27|0.02|<0.001
92157711|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.07|||<|0.001|TWO_SIDED|95.0|0.02|0.25|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 21||0.25|0.02|<0.001
92157712|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.16||||0.004|TWO_SIDED|95.0|0.05|0.55|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 42||0.55|0.05|0.004
92157713|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.38||||0.216|TWO_SIDED|95.0|0.08|1.8|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 77||1.80|0.08|0.216
92157714|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.24||||0.071|TWO_SIDED|95.0|0.05|1.13|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 112||1.13|0.05|0.071
92157715|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.34||||0.022|TWO_SIDED|95.0|0.13|0.85|||Mixed Models Analysis||Day 77 is numerator and Day 42 is denominator|Day 77 / Day 42||0.85|0.13|0.022
92157716|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.25||||0.015|TWO_SIDED|95.0|0.08|0.76|||Mixed Models Analysis||Day 112 is numerator and Day 42 is denominator|Day 112 / Day 42||0.76|0.08|0.015
92157717|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.14|||<|0.001|TWO_SIDED|95.0|0.04|0.41|||Mixed Models Analysis||Day 77 is numerator and Day 42 is denominator|Day 77 / Day 42||0.41|0.04|<0.001
92275071|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.41|||||TWO_SIDED|95.0|-25.22|40.03||||||For change in eating related items at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||40.03|-25.22|
92275072|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.28|||||TWO_SIDED|95.0|4.23|52.32||||||For change in altered bowel habits at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||52.32|4.23|
92275073|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.22|||||TWO_SIDED|95.0|5.09|43.34||||||For change in jaundice at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||43.34|5.09|
92275074|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.11|||||TWO_SIDED|95.0|-0.16|50.38||||||For change in body image at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||50.38|-0.16|
92405620|NCT01106690|184701430|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|14.28|STANDARD_ERROR_OF_MEAN|2.521|<|0.001|TWO_SIDED|95.0|9.315|19.236|||ANCOVA|||||19.236|9.315|<0.001
92342684|NCT01791985|184587768|OTHER||Mean|0.08|STANDARD_DEVIATION|0.32|||TWO_SIDED|||||||||Proportion of change in tumour size at 12 weeks (or progression if prior to week 12), when used in combination with either anastrozole or letrozole in ER positive breast cancer patients who have progressed on treatment with either anastrozole or letrozole in any setting||||
92342685|NCT01103323|184587773|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.774||||0.005178||95.0|0.636|0.942||According to protocol specified O'Brien-Fleming type alpha spending function and 432 death events at 2nd IA, the pre-specified alpha (false positive rate) for this analysis was 0.009279 (1-sided).|Log Rank||Two treatment groups compared using a stratified log-rank test, stratified by same stratification factors as randomization. Hazard ratio (Regorafenib / Placebo) and its 95% confidence interval calculated using Cox model, stratified by same factors.|Sample size based on primary efficacy endpoint of OS. The study was designed to have 90% power to detect 33.3% increase in median OS (i.e. hazard ratio of 0.75, Regorafenib / Placebo). Assuming 1-sided overall alpha of 0.025, randomization ratio of 2:1 for Regorafenib and Placebo, and 2 formal interim analyses of OS using an O'Brien-Fleming-type error spending function, a total of 582 death events were required for primary completion. Results based on 2nd planned formal IA with 432 total events.||0.942|0.636|0.005178
92342686|NCT01103323|184587774|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.494|||<|1e-06||95.0|0.419|0.582||Comparison based on pre-specified alpha level of 0.025 (1-sided).|Log Rank||Hazard ratio (Regorafenib / Placebo)|Two treatment groups compared using a stratified log-rank test, stratified by same stratification factors as randomization. Hazard ratio (Regorafenib / Placebo) and its 95% confidence interval calculated using Cox model, stratified by same factors.||0.582|0.419|<0.000001
92342687|NCT01103323|184587775|SUPERIORITY_OR_OTHER||Difference|-0.6||||0.188432||95.0|-1.74|0.53||Comparison based on pre-specified alpha level of 0.025 (1-sided).|Cochran-Mantel-Haenszel||Difference = Placebo - Regorafenib 160 mg|Two treatment groups compared using Cochran-Mantel-Haenszel (CMH) test adjusting for same stratification factors as at randomization.||0.53|-1.74|0.188432
92342688|NCT01103323|184587776|SUPERIORITY_OR_OTHER||Difference|-25.94|||<|1e-06||95.0|-32.06|-19.82||Comparison based on pre-specified alpha level of 0.025 (1-sided).|Cochran-Mantel-Haenszel||Difference = Placebo - Regorafenib 160 mg|Two treatment groups compared using Cochran-Mantel-Haenszel (CMH) test adjusting for same stratification factors as at randomization.||-19.82|-32.06|<0.000001
92342689|NCT04536701|184587789|SUPERIORITY|||||||0.444|||||||t-test, 2 sided|||Total DASS score reported.||||0.444
92342690|NCT04536701|184587789|SUPERIORITY|||||||0.8378|||||||t-test, 2 sided|||Depressive Mood DASS score reported||||0.8378
92342691|NCT04536701|184587789|SUPERIORITY|||||||0.4087|||||||t-test, 2 sided|||Anxiety DASS score reported||||0.4087
92342692|NCT04536701|184587789|SUPERIORITY|||||||0.4124|||||||t-test, 2 sided|||Stress DASS score reported||||0.4124
92342693|NCT04536701|184587790|SUPERIORITY|||||||0.0508|||||||t-test, 2 sided|||Total RMBPC frequency reported||||0.0508
92342694|NCT04536701|184587790|SUPERIORITY|||||||0.026|||||||t-test, 2 sided|||Frequency of disruptive symptoms on RMBP reported||||0.026
92342695|NCT04536701|184587790|SUPERIORITY|||||||0.1861|||||||t-test, 2 sided|||Frequency of depressive symptoms on RMBPC reported||||0.1861
92217425|NCT01180478|184334968|SUPERIORITY_OR_OTHER|||||||0.111|||||||Chi-squared|||Comparison in the number of 'Bladder cramps' between NBI and WL||||0.111
92217426|NCT01180478|184334968|SUPERIORITY_OR_OTHER|||||||||||||||||Comparison in the number of 'DVT' between NBI and WL|Non of the participants/patients had DVT. Therefore, the p-value is not available|||
92342696|NCT04536701|184587790|SUPERIORITY|||||||0.9535|||||||t-test, 2 sided|||Frequency of memory symptoms on RMBPC reported||||0.9535
92342697|NCT04536701|184587790|SUPERIORITY|||||||0.0411|||||||t-test, 2 sided|||RMBPC reaction total is reported||||0.0411
92342698|NCT04536701|184587790|SUPERIORITY|||||||0.0058|||||||t-test, 2 sided|||RMBPC reaction disruptive symptoms is reported||||0.0058
92342699|NCT04536701|184587790|SUPERIORITY|||||||0.2527|||||||t-test, 2 sided|||RMBPC reaction depressive symptoms is reported||||0.2527
92342700|NCT04536701|184587790|SUPERIORITY|||||||0.3542|||||||t-test, 2 sided|||RMBPC reaction memory symptoms||||0.3542
92342701|NCT04536701|184587791|SUPERIORITY|||||||0.3857|||||||t-test, 2 sided|||||||0.3857
92342702|NCT04536701|184587792|SUPERIORITY|||||||0.7213|||||||t-test, 2 sided|||Five Facet Mindfulness Questionnaire (FFMQ) total reported||||0.7213
92342703|NCT04536701|184587792|SUPERIORITY|||||||0.6075|||||||t-test, 2 sided|||FFMQ Observing reported||||0.6075
92342704|NCT04536701|184587792|SUPERIORITY|||||||0.4136|||||||t-test, 2 sided|||FFMQ Describing reported||||0.4136
92342705|NCT04536701|184587792|SUPERIORITY|||||||0.8378|||||||t-test, 2 sided|||FFMQ Acting with Awareness reported||||0.8378
92342706|NCT04536701|184587792|SUPERIORITY|||||||0.7193|||||||t-test, 2 sided|||FFMQ Nonjudging reported||||0.7193
92342707|NCT04536701|184587792|SUPERIORITY|||||||0.4145|||||||t-test, 2 sided|||FFMQ Nonreactivity reported||||0.4145
92342708|NCT04536701|184587793|SUPERIORITY|||||||0.5368|||||||t-test, 2 sided|||||||0.5368
92342709|NCT04536701|184587794|SUPERIORITY|||||||0.2845|||||||t-test, 2 sided|||FAD Total reported||||0.2845
92342710|NCT04536701|184587794|SUPERIORITY|||||||0.1386|||||||t-test, 2 sided|||FAD Problem Solving is reported||||0.1386
92342711|NCT04536701|184587794|SUPERIORITY|||||||0.7551|||||||t-test, 2 sided|||FAD Communication is reported||||0.7551
92342712|NCT04536701|184587794|SUPERIORITY|||||||0.7213|||||||t-test, 2 sided|||FAD Roles is reported||||0.7213
92342713|NCT04536701|184587794|SUPERIORITY|||||||0.3233|||||||t-test, 2 sided|||FAD Affective Responsiveness is reported||||0.3233
92342714|NCT04536701|184587794|SUPERIORITY|||||||0.2832|||||||t-test, 2 sided|||FAD Affective Involvement is reported||||0.2832
92342715|NCT04536701|184587794|SUPERIORITY|||||||0.6831|||||||t-test, 2 sided|||FAD Behavior Control is reported||||0.6831
92342716|NCT04536701|184587794|SUPERIORITY|||||||0.6075|||||||t-test, 2 sided|||FAD General Functioning is reported||||0.6075
92342717|NCT01946204|184587795|SUPERIORITY||Hazard Ratio (HR)|0.271|||<|0.0001|TWO_SIDED|95.0|0.219|0.335|||Log Rank|||Statistical Analysis for TTM by BICR (US Regulatory)||0.335|0.219|<0.0001
92342718|NCT01946204|184587795|SUPERIORITY||Hazard Ratio (HR)|0.279|||<|0.0001|TWO_SIDED|95.0|0.227|0.342|||Log Rank|||Statistical Analysis for TTM by BICR (Ex-US Regulatory)||0.342|0.227|<0.0001
92342719|NCT01946204|184587796|SUPERIORITY||Hazard Ratio (HR)|0.291|||<|0.0001|TWO_SIDED|95.0|0.238|0.356|||Log Rank|||Statistical Analysis for PFS by BICR (US Regulatory)||0.356|0.238|<0.0001
92342720|NCT01946204|184587796|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.247|0.364|||Log Rank|||Statistical Analysis for PFS by BICR (EX-US Regulatory)||0.364|0.247|<0.0001
92342721|NCT01946204|184587797|SUPERIORITY||Hazard Ratio (HR)|0.447|||<|0.0001|TWO_SIDED|95.0|0.315|0.634|||Log Rank|||Statistical Analysis for Time to Symptomatic Progression||0.634|0.315|<0.0001
92342722|NCT01946204|184587800|SUPERIORITY||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.227|0.346|||Log Rank|||Statistical Analysis for MFS by BICR (US Regulatory)||0.346|0.227|<0.0001
92342723|NCT01946204|184587800|SUPERIORITY||Hazard Ratio (HR)|0.297|||<|0.0001|TWO_SIDED|95.0|0.244|0.362|||Log Rank|||Statistical Analysis for MFS by BICR (Ex-US Regulatory)||0.362|0.244|<0.0001
92342724|NCT03217591|184587834|SUPERIORITY||Geometric mean change (%)|-16.0|||=|0.2142|TWO_SIDED|90.0|-33.3|5.8|||Mixed Models Analysis|||Treatment comparison between placebo and praliciguat 20 mg. Geometric mean change (%) and the associated confidence intervals (CIs) were derived as 100×\[exp(Least Squares Mean Change)-1\].||5.8|-33.3|=0.2142
92342725|NCT03217591|184587834|SUPERIORITY||Geometric mean change (%)|-14.6|||=|0.2718|TWO_SIDED|90.0|-32.7|8.3|||Mixed Models Analysis|||Treatment comparison between placebo and praliciguat 40 mg. Geometric mean change (%) and the associated CIs were derived as 100×\[exp(Least Squares Mean Change)-1\].||8.3|-32.7|=0.2718
92342726|NCT03217591|184587834|SUPERIORITY||Geometric mean change (%)|-15.3|||=|0.1736|TWO_SIDED|90.0|-30.7|3.6|||Mixed Models Analysis|||Treatment comparison between placebo and praliciguat overall. Geometric mean change (%) and the associated CIs were derived as 100×\[exp(Least Squares Mean Change)-1\].||3.6|-30.7|=0.1736
92157718|NCT03389893|184202287|SUPERIORITY||Geometric Mean Ratio|0.16||||0.006|TWO_SIDED|95.0|0.04|0.58|||Mixed Models Analysis||Day 112 is numerator and Day 42 is denominator|Day 112 / Day 42||0.58|0.04|0.006
92342727|NCT00596271|184587839|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority of the combined administration is postulated, if the lower bounds of both twosided 95% confidence intervals for the GMT ratios (of combined vaccination over single vaccination) are \> 1/2.~This procedure is equivalent to the approach based on a 1-sided test with a significance level of 2.5% for each comparison with the null hypothesis H0 : ratio ≤ 0.5 versus the alternative hypotheses H1 : ratio \> 0.5."|||||<|0.0001||95.0|||||ANOVA|||The primary efficacy analysis will compare the IC51+HAVRIX vs. IC51+Placebo group in terms of the GMT for anti- JEV neutralizing antibody at day 56. An observed cases approach will be applied for the primary analysis||||<0.0001
92342728|NCT00596271|184587843|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority of the combined administration is postulated, if the lower bounds of both twosided 95% confidence intervals for the GMT ratios (of combined vaccination over single vaccination) are \> 1/2.~This procedure is equivalent to the approach based on a 1-sided test with a significance level of 2.5% for each comparison with the null hypothesis H0 : ratio ≤ 0.5 versus the alternative hypotheses H1 : ratio \> 0.5."|||||<|0.0001||95.0|||||ANOVA|||The primary efficacy analysis will compare the IC51+HAVRIX vs. HAVRIX+Placebo group in terms of the GMT for HAV antibody at day 28. An observed cases approach will be applied for the primary analysis.||||<0.0001
92342729|NCT00402727|184587844|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set to 10% in the protocol, in agreeance with FDA recommendations. Sample size was estimated using the method as described in Farrington-Manning. Estimation was performed to achieve 85% power, based on the equivalence delta of 10%, and a clinical success rate of 80% in the per protocol population|Difference of cure rates (in percent)|-1.0||||||95.0|-5.3|3.9|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||3.9|-5.3|
92342730|NCT00402727|184587845|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of cure rates (in percent)|1.3||||||95.0|-3.8|6.3|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||6.3|-3.8|
92342731|NCT00402727|184587846|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of improvement rates (in %)|-0.7||||||95.0|-1.6|0.6|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||0.6|-1.6|
92342732|NCT00402727|184587847|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of improvement rates (in %)|1.4||||||95.0|-1.3|3.9|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||3.9|-1.3|
92342733|NCT00402727|184587848|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of resolution rates (in %)|0.2||||||95.0|-3.1|2.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||2.4|-3.1|
92342734|NCT00402727|184587849|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of resolution rates (in %)|1.6||||||95.0|-2.4|5.3|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||5.3|-2.4|
92157719|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.8||||0.724|TWO_SIDED|95.0|0.23|2.82|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 3||2.82|0.23|0.724
92157720|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.27||||0.033|TWO_SIDED|95.0|0.08|0.89|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 7||0.89|0.08|0.033
92157721|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.36||||0.073|TWO_SIDED|95.0|0.12|1.1|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 14||1.10|0.12|0.073
92342735|NCT00402727|184587850|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-8.5||||||95.0|-17.0|-1.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||-1.4|-17.0|
92342736|NCT00402727|184587851|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-8.6||||||95.0|-17.6|-0.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||-0.4|-17.6|
92342737|NCT00402727|184587852|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-3.9||||||95.0|-9.5|1.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||1.4|-9.5|
92342738|NCT00402727|184587853|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-5.6||||||95.0|-11.4|-0.8|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||-0.8|-11.4|
92342739|NCT00402727|184587854|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-0.1||||||95.0|-6.9|5.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||5.4|-6.9|
92342740|NCT00402727|184587855|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-2.9||||||95.0|-9.3|2.2|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||2.2|-9.3|
92157722|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.73||||0.579|TWO_SIDED|95.0|0.23|2.29|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 21||2.29|0.23|0.579
92342741|NCT01687218|184587876|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.03||||0.88|TWO_SIDED|95.0|0.73|1.44|||Generalized Estimating Equation (GEE)||It shows the rate ratio (RR) based on a GEE model comparing the Daily Rectal regimen with the Oral regimen and controlling for period in the model.|Since some participants have more than one safety event per period of treatment regimen, a Generalized Estimating Equation (GEE) model with a Poisson (log) link, exchangeable correlation structure, and robust standard errors were used.||1.44|0.73|0.88
92342742|NCT01687218|184587876|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.88||||0.43|TWO_SIDED|95.0|0.64|1.21|||Generalized Estimating Equation (GEE)||It shows the rate ratio (RR) based on a GEE model comparing the RAI Rectal regimen with the Oral regimen and controlling for period in the model.|Since some participants have more than one safety event per period of treatment regimen, a Generalized Estimating Equation (GEE) model with a Poisson (log) link, exchangeable correlation structure, and robust standard errors were used.||1.21|0.64|0.43
92342743|NCT01687218|184587877|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.15|0.5|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||0.50|0.15|<0.0001
92342744|NCT01687218|184587877|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.37||||0.002|TWO_SIDED|95.0|0.2|0.7|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||0.70|0.20|0.002
92342745|NCT01687218|184587878|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.56||||0.08|TWO_SIDED|95.0|0.29|1.08|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||1.08|0.29|0.08
92342746|NCT01687218|184587878|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.76||||0.46|TWO_SIDED|95.0|0.37|1.56|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||1.56|0.37|0.46
92342747|NCT01687218|184587879|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.38||||0.0004|TWO_SIDED|95.0|0.22|0.65|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||0.65|0.22|0.0004
92157723|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.17||||0.003|TWO_SIDED|95.0|0.05|0.53|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 28||0.53|0.05|0.003
92342748|NCT01687218|184587879|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7||||0.23|TWO_SIDED|95.0|0.39|1.25|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||1.25|0.39|0.23
92342749|NCT01687218|184587880|OTHER||Slope|-1.41|||<|0.001|TWO_SIDED|95.0|-1.53|-1.3|||Mixed Models Analysis||This comparison is between the daily rectal and oral (reference) groups for tenofovir levels in blood plasma, log10 ng/mL.|Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||-1.30|-1.53|<0.001
92342750|NCT01687218|184587880|OTHER||Slope|-1.82|||<|0.001|TWO_SIDED|95.0|-1.95|-1.7|||Mixed Models Analysis||This comparison is between the RAI rectal and oral (reference) groups for tenofovir levels in blood plasma, log10 ng/mL.|Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||-1.70|-1.95|<0.001
92342751|NCT01687218|184587881|SUPERIORITY||Slope|0.66|||<|0.001|TWO_SIDED|95.0|0.49|0.83|||Mixed Models Analysis||Oral regimen is the reference group.|Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||0.83|0.49|<0.001
92342752|NCT01687218|184587881|SUPERIORITY||Slope|-0.16||||0.31|TWO_SIDED|95.0|-0.46|0.15|||Mixed Models Analysis||Oral regimen is the reference group.|Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||0.15|-0.46|0.31
92342753|NCT01687218|184587882|SUPERIORITY||Slope|0.3||||0.004|TWO_SIDED|95.0|0.1|0.5|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality. Mid period and end period visits only were used in this analysis.||0.50|0.10|0.004
92342754|NCT01687218|184587882|SUPERIORITY||Slope|-0.7|||<|0.001|TWO_SIDED|95.0|-0.92|-0.47|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||-0.47|-0.92|<0.001
92342755|NCT01687218|184587883|SUPERIORITY||Slope|-2.66|||<|0.001|TWO_SIDED|95.0|-2.82|-2.5|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality for the following analysis.||-2.50|-2.82|<0.001
92342756|NCT01687218|184587883|SUPERIORITY||Slope|-2.65|||<|0.001|TWO_SIDED|95.0|-2.81|-2.49|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality for the following analysis.||-2.49|-2.81|<0.001
92342757|NCT01687218|184587884|SUPERIORITY||Slope|-0.91|||<|0.001|TWO_SIDED|95.0|-1.01|-0.8|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality. End period visits only are used in this analysis.||-0.80|-1.01|<0.001
92342758|NCT01687218|184587884|SUPERIORITY||Slope|-0.91|||<|0.001|TWO_SIDED|95.0|-1.01|-0.8|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality. End period visits only are used in this analysis.||-0.80|-1.01|<0.001
92342759|NCT01687218|184587885|SUPERIORITY||Slope|-2.0|||<|0.001|TWO_SIDED|95.0|-2.16|-1.84|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality. Mid period and end period visits only are used in this analysis.||-1.84|-2.16|<0.001
92342760|NCT01687218|184587885|SUPERIORITY||Slope|-1.9|||<|0.001|TWO_SIDED|95.0|-2.07|-1.74|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality. Mid period and end period visits only are used in this analysis.||-1.74|-2.07|<0.001
92399364|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|9.09|STANDARD_ERROR_OF_MEAN|9.8||0.498|TWO_SIDED|95.0|-20.4|38.6|||t-test, 2 sided|||t-test of group differences on Cohesiveness at 1year||38.6|-20.4|0.498
92217427|NCT01180478|184334968|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||Comparison in the number of 'CVA/TIA' between NBI and WL||||0.500
92217428|NCT01180478|184334968|SUPERIORITY_OR_OTHER|||||||||||||||||Comparison in the number of 'Lung embolism' between NBI and WL|Non of the participants/patients had a lung embolism. Therefore, no p-value was available|||
92217429|NCT01180478|184334968|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||Comparison in the number of 'Sepsis' between NBI and WL||||0.500
92342761|NCT01687218|184587886|SUPERIORITY||Slope|0.54|||<|0.001|TWO_SIDED|95.0|0.35|0.72|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||0.72|0.35|<0.001
92342762|NCT01687218|184587886|SUPERIORITY||Slope|0.01||||0.92|TWO_SIDED|95.0|-0.28|0.31|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||0.31|-0.28|0.92
92399365|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|3.21|STANDARD_ERROR_OF_MEAN|11.4||0.78|TWO_SIDED|95.0|-20.3|26.7|||t-test, 2 sided|||t-test of group differences on Communication at 1 year||26.7|-20.3|0.780
92342763|NCT01687218|184587887|SUPERIORITY||Odds Ratio (OR)|0.35||||0.0005|TWO_SIDED|95.0|0.19|0.63|||Generalized Estimating Equations (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables was used to compare the three treatment regimens for the acceptability endpoints. Because the distribution of the adherence percentages were skewed, we did not use a linear mixed effects model as originally planned. Instead, we dichotomized the adherence percentage into\<80% adherence versus\>80% adherence.||0.63|0.19|0.0005
92399366|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|11.46|STANDARD_ERROR_OF_MEAN|12.54||0.474|TWO_SIDED|95.0|-23.19|46.11|||t-test, 2 sided|||t-test of group differences on Role Clarity at 1 year||46.11|-23.19|0.474
92399367|NCT02732600|184690177|SUPERIORITY||Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|8.78||0.267|TWO_SIDED|95.0|-8.21|28.21|||t-test, 2 sided|||t-test of group differences on Goals at 1 year||28.21|-8.21|0.267
92157724|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.52||||0.297|TWO_SIDED|95.0|0.15|1.81|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 42||1.81|0.15|0.297
92157725|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.48||||0.326|TWO_SIDED|95.0|0.11|2.12|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 77||2.12|0.11|0.326
92157726|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.52||||0.401|TWO_SIDED|95.0|0.11|2.42|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 112||2.42|0.11|0.401
92157727|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.81||||0.705|TWO_SIDED|95.0|0.28|2.4|||Mixed Models Analysis||Day 77 is numerator and Day 42 is denominator|Day 77 / Day 42||2.40|0.28|0.705
92157728|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.72||||0.538|TWO_SIDED|95.0|0.25|2.08|||Mixed Models Analysis||Day 112 is numerator and Day 42 is denominator|Day 112 / Day 42||2.08|0.25|0.538
92157729|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.92||||0.892|TWO_SIDED|95.0|0.25|3.34|||Mixed Models Analysis||Day 77 is numerator and Day 42 is denominator|Day 77 / Day 42||3.34|0.25|0.892
92157730|NCT03389893|184202288|SUPERIORITY||Geometric Mean Ratio|0.74||||0.624|TWO_SIDED|95.0|0.21|2.56|||Mixed Models Analysis||Day 112 is numerator and Day 42 is denominator|Day 112 / Day 42||2.56|0.21|0.624
92157731|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-9.53||||0.019|TWO_SIDED|95.0|-17.44|-1.63|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference.)|Day 3, Lesional||-1.63|-17.44|0.019
92157732|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-1.08||||0.837|TWO_SIDED|95.0|-11.47|9.32|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 7, Lesional||9.32|-11.47|0.837
92157733|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.9|TWO_SIDED|95.0|-6.98|7.92|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 14, Lesional||7.92|-6.98|0.900
92157734|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-5.97||||0.13|TWO_SIDED|95.0|-13.76|1.82|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 21, Lesional||1.82|-13.76|0.130
92157735|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-7.1||||0.069|TWO_SIDED|95.0|-14.76|0.56|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 28, Lesional||0.56|-14.76|0.069
92157736|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-7.99||||0.032|TWO_SIDED|95.0|-15.25|-0.73|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 42, Lesional||-0.73|-15.25|0.032
92157737|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.803|TWO_SIDED|95.0|-9.37|7.28|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 77, Lesional||7.28|-9.37|0.803
92157738|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.972|TWO_SIDED|95.0|-9.02|9.34|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 112, Lesional||9.34|-9.02|0.972
92217430|NCT01180478|184334968|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Comparison in the number of 'Acute Abdomen' between NBI and WL||||1.000
92342764|NCT01687218|184587887|SUPERIORITY||Odds Ratio (OR)|0.89||||0.74|TWO_SIDED|95.0|0.43|1.81|||Generalized Estimating Equations (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables was used to compare the three treatment regimens for the acceptability endpoints. Because the distribution of the adherence percentages were skewed, we did not use a linear mixed effects model as originally planned. Instead, we dichotomized the adherence percentage into\<80% adherence versus\>80% adherence.||1.81|0.43|0.74
92342765|NCT02084511|184587899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.39|||||TWO_SIDED|95.0|-76.3|131.1|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||131.1|-76.3|
92342766|NCT02084511|184587899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.48|||||TWO_SIDED|95.0|-50.2|157.1|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||157.1|-50.2|
92342767|NCT02084511|184587899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-174.61|||||TWO_SIDED|95.0|-278.3|-70.9|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||-70.9|-278.3|
92342768|NCT02084511|184587899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-148.53|||||TWO_SIDED|95.0|-252.4|-44.7|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||-44.7|-252.4|
92399368|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.38||0.098|TWO_SIDED|95.0|-0.09|1.0|||t-test, 2 sided|||t test comparison across groups on CORE PEER at 6 months||1.00|-0.09|0.098
92399369|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|1.1||0.282|TWO_SIDED|95.0|-0.43|1.43|||t-test, 2 sided|||t-test comparison across groups on COLLABORATION at 6 months||1.43|-0.43|0.282
92399370|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.56||0.06|TWO_SIDED|95.0|-0.05|2.29|||t-test, 2 sided|||t-test comparison across groups on PEER SPECIALIST AS LIAISON at 6 months||2.29|-0.05|0.06
92399371|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.86||0.34|TWO_SIDED|95.0|0.07|1.59|||t-test, 2 sided|||t-test comparison across groups on PROVIDES INFO ON SERVICES at 6 months||1.59|0.07|0.34
92399372|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.34|TWO_SIDED|95.0|-0.94|2.62|||t-test, 2 sided|||t-test comparison across groups on Symptoms and Medication at 6-months||2.62|-0.94|0.34
92399373|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.64||0.66|TWO_SIDED|95.0|-1.03|1.5|||t-test, 2 sided|||t-test comparison across groups on Training and Preparation at 6-months||1.50|-1.03|0.66
92342769|NCT02084511|184587900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|||||TWO_SIDED|95.0|-2.3|5.7|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||5.7|-2.3|
92342770|NCT02084511|184587900|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.98|||||TWO_SIDED|95.0|-3.0|5.0|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||5.0|-3.0|
92399374|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.61||0.15|TWO_SIDED|95.0|-0.36|2.16|||t-test, 2 sided|||t-test comparison across groups on Team Integration and Relationships at 6 Months||2.16|-0.36|0.15
92342771|NCT02084511|184587900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.27|||||TWO_SIDED|95.0|-10.3|-2.2|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||-2.2|-10.3|
92217431|NCT01180478|184334968|SUPERIORITY_OR_OTHER|||||||0.17|||||||Chi-squared|||Comparison in the number of 'Other perioperative complication' between NBI and WL||||0.170
92217432|NCT01180478|184334969|SUPERIORITY_OR_OTHER|||||||0.553|TWO_SIDED||||||Chi-squared|||||||0.553
92217433|NCT00257725|184334983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.09|STANDARD_DEVIATION|0.73||0.01|TWO_SIDED|95.0|||||paired t-test|||||||0.01
92217434|NCT00257725|184334984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.64|STANDARD_DEVIATION|1.29||0.01|TWO_SIDED|95.0|||||paired t-test|||||||0.01
92342772|NCT02084511|184587900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.98|||||TWO_SIDED|95.0|-11.0|-2.9|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||-2.9|-11.0|
92399375|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.39||0.59|TWO_SIDED|95.0|-1.01|0.59|||t-test, 2 sided|||t-test comparison across groups on Leadership at 6-months||0.59|-1.01|0.59
92399376|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.84||0.95|TWO_SIDED|95.0|-1.77|1.68|||t-test, 2 sided|||t-test comparison across groups on Fits to Experience at 6 months||1.68|-1.77|0.95
92399377|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|0.55||0.32|TWO_SIDED|95.0|-0.58|1.68|||t-test, 2 sided|||t-test comparison across groups on Role Clarity at 6 months||1.68|-0.58|0.32
92399378|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|0.64||0.27|TWO_SIDED|95.0|-0.6|2.04|||t-test, 2 sided|||t-test comparison across both groups on Resources at 6 months||2.04|-0.60|0.27
92399379|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.86||0.93|TWO_SIDED|95.0|-1.71|1.85|||t-test, 2 sided|||t-test comparison across groups on Performance Reviews at 6 months||1.85|-1.71|0.93
92405621|NCT01106690|184701430|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|17.23|STANDARD_ERROR_OF_MEAN|2.509|<|0.001|TWO_SIDED|95.0|12.293|22.166|||ANCOVA|||||22.166|12.293|<0.001
92217435|NCT00257725|184334985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.55|STANDARD_DEVIATION|7.7||0.01|TWO_SIDED|95.0|||||paired t-test|||||||0.01
92342773|NCT02084511|184587901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.93|||||TWO_SIDED|95.0|-16.0|27.8|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||27.8|-16.0|
92342774|NCT02084511|184587901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.58|||||TWO_SIDED|95.0|-1.3|42.5|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||42.5|-1.3|
92342775|NCT02084511|184587901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.29|||||TWO_SIDED|95.0|-35.2|8.6|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||8.6|-35.2|
92342776|NCT02084511|184587901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.37|||||TWO_SIDED|95.0|-20.6|23.3|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||23.3|-20.6|
92342777|NCT02084511|184587902|SUPERIORITY_OR_OTHER|||||||0.2503|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.2503
92342778|NCT02084511|184587902|SUPERIORITY_OR_OTHER|||||||0.1851|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.1851
92342779|NCT02084511|184587902|SUPERIORITY_OR_OTHER|||||||0.0167|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.0167
92157739|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.933|TWO_SIDED|95.0|-6.66|6.12|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42, Lesional||6.12|-6.66|0.933
92157740|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-1.82||||0.563|TWO_SIDED|95.0|-8.1|4.45|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42, Lesional||4.45|-8.10|0.563
92342780|NCT02084511|184587903|SUPERIORITY_OR_OTHER|||||||0.415|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.4150
92342781|NCT02084511|184587903|SUPERIORITY_OR_OTHER|||||||0.3093|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.3093
92342782|NCT02084511|184587903|SUPERIORITY_OR_OTHER|||||||0.0074|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.0074
92342783|NCT00461734|184587905|SUPERIORITY_OR_OTHER|||||||0.4347|||||||two-sided z-test|||||||0.4347
92342784|NCT00461734|184587906|SUPERIORITY_OR_OTHER|||||||0.338|||||||two-sided z-test|||||||0.338
92157741|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-7.08||||0.075|TWO_SIDED|95.0|-14.88|0.73|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42, Lesional||0.73|-14.88|0.075
92157742|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-9.84||||0.01|TWO_SIDED|95.0|-17.19|-2.48|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42, Lesional||-2.48|-17.19|0.010
92157743|NCT03389893|184202289|SUPERIORITY||Median Difference (Final Values)|0.69||||0.805|TWO_SIDED|95.0|-4.86|6.23|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 3, Non-lesional||6.23|-4.86|0.805
92342785|NCT00461734|184587907|SUPERIORITY_OR_OTHER|||||||0.2257|||||||Wilcoxon (Mann-Whitney)|||||||0.2257
92342786|NCT00461734|184587908|SUPERIORITY_OR_OTHER|||||||0.548|||||||Wilcoxon (Mann-Whitney)|||||||0.5480
92342787|NCT00461734|184587909|SUPERIORITY_OR_OTHER|||||||0.8868|||||||Wilcoxon (Mann-Whitney)|||||||0.8868
92342788|NCT00461734|184587910|SUPERIORITY_OR_OTHER|||||||0.6151|||||||Wilcoxon (Mann-Whitney)|||||||0.6151
92342789|NCT00461734|184587914|SUPERIORITY_OR_OTHER|||||||0.0525|||||||t-test, 2 sided|||||||0.0525
92342790|NCT00461734|184587915|SUPERIORITY_OR_OTHER|||||||0.1852|||||||t-test, 2 sided|||||||0.1852
92342791|NCT00461734|184587917|SUPERIORITY_OR_OTHER|||||||0.9719|||||||Wilcoxon (Mann-Whitney)|||||||0.9719
92342792|NCT00461734|184587918|SUPERIORITY_OR_OTHER|||||||0.8779|||||||Wilcoxon (Mann-Whitney)|||||||0.8779
92342793|NCT03204643|184587936|SUPERIORITY||Odds Ratio (OR)|0.74||||0.06|TWO_SIDED|95.0|0.54|1.02|||Regression, Logistic|||||1.02|0.54|0.06
92342794|NCT03204643|184587937|SUPERIORITY||Odds Ratio (OR)|1.07||||0.76|TWO_SIDED|95.0|0.7|1.64|||Mixed Models Analysis|||||1.64|0.70|0.76
92342795|NCT03204643|184587938|SUPERIORITY||Odds Ratio (OR)|1.16||||0.62|TWO_SIDED|95.0|0.65|2.08|||Mixed Models Analysis|||||2.08|0.65|0.62
92342796|NCT03204643|184587939|SUPERIORITY||Odds Ratio (OR)|1.35||||0.08|TWO_SIDED|0.96|0.96|1.9|||Mixed Models Analysis|||||1.90|0.96|0.08
92342797|NCT00944710|184587952|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.0||||0.33|TWO_SIDED|95.0|-10.0|30.0|||Binomial regression|adjusted for visual acuity at randomization||||30|-10|0.33
92342798|NCT00944710|184587957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.12|TWO_SIDED|95.0|-0.01|0.12|||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.|Positive values favor the Intensified Treatment group|The primary analysis was a treatment group comparison of the masked 10-week amblyopic eye visual acuity using an analysis of covariance (ANCOVA) model, adjusting for visual acuity at randomization. The analysis was a 2-sided test for efficacy to test the null hypothesis of no treatment difference, assuming 90% power and a type I error rate of 5%.||0.12|-0.01|0.12
92342799|NCT00944710|184587965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.55|TWO_SIDED|95.0|-0.23|0.43|||ANCOVA|||A treatment group difference in fellow-eye visual acuity change at the 12-week exam was evaluated using an ANCOVA model, adjusting for the fellow-eye visual acuity at randomization.||0.43|-0.23|0.55
92342800|NCT00944710|184587974|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The distribution of 12-week Randot Preschool Stereoacuity scores was compared between treatment groups using a Wilcoxon rank sum test.||||0.23
92342801|NCT00944710|184587975|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The distribution of 12-week Randot Preschool Stereoacuity scores was compared between treatment groups using a Wilcoxon rank sum test.||||0.66
92342802|NCT02175225|184588001|OTHER|The alternative hypothesis, reflecting futility, is that the absolute treatment effect is less than 12% in favor of deferoxamine. In accordance with the futility design, futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if the upper bound on the risk difference was less than 12% in favour of deferoxamine mesylate, this would be considered evidence of futility.|Risk Difference (RD)|0.006|||||ONE_SIDED|90.0||0.068|||||Futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if UCB was less than 12% in favour of deferoxamine mesylate, this is considered evidence of futility.|||0.068||
92342803|NCT02175225|184588002|OTHER||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.57|1.16||||||||1.16|0.57|
92342804|NCT02175225|184588003|OTHER||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.57|1.56||||||||1.56|0.57|
92342805|NCT02175225|184588004|OTHER|The alternative hypothesis, reflecting futility, is that the absolute treatment effect is less than 13% in favor of deferoxamine. In accordance with the futility design, futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if the upper bound on the risk difference was less than13% in favor of deferoxamine mesylate, this would be considered evidence of futility.|Risk Difference (RD)|0.062|||||ONE_SIDED|90.0||0.121|||||Futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference\[AARD\]); if UCB was less than 12% in favour of deferoxamine mesylate, this is considered evidence of futility.|||0.121||
92342806|NCT02175225|184588005|OTHER|The alternative hypothesis, reflecting futility, is that the absolute treatment effect is less than 12% in favor of deferoxamine. In accordance with the futility design, futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if the upper bound on the risk difference was less than 12% in favour of deferoxamine mesylate, this would be considered evidence of futility.|Risk Difference (RD)|0.086|||||ONE_SIDED|90.0||0.156|||||Futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if UCB was less than 12% in favour of deferoxamine mesylate, this is considered evidence of futility.|||0.156||
92342807|NCT02175225|184588006|OTHER|The alternative hypothesis, reflecting futility, is that the absolute treatment effect is less than 13% in favor of deferoxamine. In accordance with the futility design, futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if the upper bound on the risk difference was less than 13% in favour of deferoxamine mesylate, this would be considered evidence of futility.|Risk Difference (RD)|-0.018|||||ONE_SIDED|90.0||0.029|||||Futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if UCB was less than 13% in favour of deferoxamine mesylate, this is considered evidence of futility.|||0.029||
92342808|NCT02175225|184588007|OTHER|||||||0.83||||||The p value reflects the significance of the interaction term between treatment and onset to treatment time.|Regression, Logistic|||||||0.83
92399380|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.32||0.15|TWO_SIDED|95.0|-1.45|-0.005|||t-test, 2 sided|||t-test comparison across groups on CORE PEER at 1 year||-0.005|-1.45|0.15
92399381|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.45||0.04|TWO_SIDED|95.0|-1.7|0.32|||t-test, 2 sided|||t-test comparison across groups on Collaboration at 1 year||0.32|-1.7|0.04
92157744|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|2.36||||0.329|TWO_SIDED|95.0|-2.44|7.15|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 7, Non-lesional||7.15|-2.44|0.329
92217436|NCT02573870|184334986|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|p-values were not presented as non-inferiority was assessed by confidence interval (CI).|Mean Difference (Final Values)|-2.245|||||TWO_SIDED|95.0|-6.153|1.663|||||Treatment difference is calculated as active minus placebo and the non-inferiority bound was 10 bpm for Day 42|||1.663|-6.153|
92342809|NCT02175225|184588008|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.72|1.67|||||The estimation parameter is the adjusted common odds ratio.|||1.67|0.72|
92342810|NCT02175225|184588009|OTHER||Odds Ratio, log|1.26|||||TWO_SIDED|95.0|0.82|1.93||||||||1.93|0.82|
92342811|NCT02175225|184588012|OTHER||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.0|14.97|||||Confidence interval is exact (rather than asymptotic) due to small number of events.|||14.97|0.0|
92399382|NCT02732600|184690178|SUPERIORITY||Hazard Ratio, log|-0.95|STANDARD_ERROR_OF_MEAN|0.5||0.08|TWO_SIDED|95.0|-2.07|0.17|||t-test, 2 sided|||t-test comparison across groups on Peer Specialists as Liaison at 1 year||0.17|-2.07|0.08
92217437|NCT01858532|184334987|OTHER||||||=|0.029|||||||Stratified log-rank test|||The endpoint was analyzed using the stratified log-rank test for treatment comparison.||||=0.029
92217438|NCT01858532|184334987|OTHER||Hazard Ratio (HR)|0.654|||=|0.005|TWO_SIDED|95.0|0.488|0.878|||Regression, Cox|||A Cox Proportional Hazards regression model with pre-specified covariates adjusted was used to estimate the hazard ratio of atrasentan to placebo and its 95% confidence interval.||0.878|0.488|=0.005
92342812|NCT02175225|184588013|OTHER||Risk Ratio (RR)|0.89|||||TWO_SIDED|95.0|0.51|1.54|||||Confidence interval constructed only for all cause owing to small number of events caused by acute respiratory distress syndrome.|||1.54|0.51|
92342813|NCT02175225|184588014|OTHER||Risk Ratio (RR)|1.84|||||TWO_SIDED|95.0|0.63|5.35||||||||5.35|0.63|
92399383|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.39||0.26|TWO_SIDED|95.0|-0.58|0.18|||t-test, 2 sided|||t-test comparison across groups on Provides Info on Services at 1 year||0.18|-0.58|0.26
92157745|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.97|TWO_SIDED|95.0|-5.39|5.6|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 14, Non-lesional||5.60|-5.39|0.970
92342814|NCT02668640|184588028|OTHER||||||=|0.0002|||||||Wilcoxon signed-rank test|||||||=0.0002
92342815|NCT02668640|184588029|OTHER||||||=|0.0006|||||||Wilcoxon signed-rank test|||||||=0.0006
92399384|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|1.65||0.61|TWO_SIDED|95.0|-4.53|2.83|||t-test, 2 sided|||t-test comparison between groups on Symptoms and Medication at 1 year||2.83|-4.53|0.61
92399385|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.87||0.3|TWO_SIDED|95.0|-2.87|1.01|||t-test, 2 sided|||t-test comparison across groups on Training and Preparation at 1 year||1.01|-2.87|0.30
92399386|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.35||0.004|TWO_SIDED|95.0|-2.08|-0.52|||t-test, 2 sided|||t-test comparison across groups on Team Integration and Relationships at 1 year||-0.52|-2.08|0.004
92399387|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|0.81||0.01|TWO_SIDED|95.0|-4.2|-0.6|||t-test, 2 sided|||t-test comparison across groups on Leadership at 1 year||-0.60|-4.20|0.01
92399388|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.9||0.9|TWO_SIDED|95.0|-24.1|23.5|||t-test, 2 sided|||t-test comparison across groups on Fits to Experience at 1 year||23.5|-24.1|0.90
92342816|NCT02668640|184588030|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||Median change from baseline in PCS T-score at Week 12||||<0.0001
92342817|NCT02668640|184588030|OTHER||||||=|0.1233|||||||Wilcoxon signed-rank test|||Median change from baseline in MCS T-score at Week 12||||=0.1233
92342818|NCT02668640|184588030|OTHER||||||<|0.001|||||||Wilcoxon signed-rank test|||Median change from baseline in PCS T-score at Week 24||||<0.001
92342819|NCT02668640|184588030|OTHER||||||=|0.001|||||||Wilcoxon signed-rank test|||Median change from baseline in MCS T-score at Week 24||||=0.001
92399389|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.7||0.06|TWO_SIDED|95.0|-3.02|0.12|||t-test, 2 sided|||t-test comparison across groups on Role Clarity at 1 year||0.12|-3.02|0.06
92399390|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.53||0.71|TWO_SIDED|95.0|-0.97|1.37|||t-test, 2 sided|||t-test comparison across groups on Resources at 1 year||1.37|-0.97|0.71
92342820|NCT02668640|184588031|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||Median Change From Baseline in EQ-5D-3L Index Score at Week 12||||<0.0001
92342821|NCT02668640|184588031|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||Median Change From Baseline in EQ-5D-3L Index Score at Week 24||||<0.0001
92399391|NCT02732600|184690178|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.63||0.41|TWO_SIDED|95.0|-5.03|2.23|||t-test, 2 sided|||t-test comparison on Performance Reviews at 1 year||2.23|-5.03|0.41
92399392|NCT02732600|184690179|SUPERIORITY||Mean Difference (Final Values)|3.59|STANDARD_ERROR_OF_MEAN|1.17||0.002|TWO_SIDED|95.0|1.29|5.88||not adjusted for multiple comparisons|t-test, 2 sided|||Group Comparison at Baseline||5.88|1.29|0.002
92399393|NCT02732600|184690179|SUPERIORITY||Mean Difference (Final Values)|2.62|STANDARD_ERROR_OF_MEAN|1.6||0.1|TWO_SIDED|95.0|-0.54|5.78|||t-test, 2 sided|||Group Comparison at 6 Months||5.78|-0.54|0.10
92399394|NCT02732600|184690179|SUPERIORITY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|1.83||0.77|TWO_SIDED|95.0|-3.06|4.14|||t-test, 2 sided|||Group Comparison at 1 year||4.14|-3.06|0.77
92399395|NCT02732600|184690180|SUPERIORITY||Mean Difference (Final Values)|3.47|STANDARD_ERROR_OF_MEAN|1.56||0.02|TWO_SIDED|95.0|0.56|6.38||p value for 1st year only|t-test, 2 sided|||||6.38|0.56|0.02
92399396|NCT02732600|184690180|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|2.39||0.93|TWO_SIDED|95.0|-4.67|5.04|||t-test, 2 sided|||||5.04|-4.67|0.93
92399397|NCT02732600|184690181|SUPERIORITY||Mean Difference (Final Values)|1.02|STANDARD_ERROR_OF_MEAN|0.2||0.0001|TWO_SIDED|95.0|0.68|1.37|||t-test, 2 sided|p value for 1st year||||1.37|0.68|0.0001
92399398|NCT02732600|184690182|SUPERIORITY||Mean Difference (Final Values)|5.7|STANDARD_ERROR_OF_MEAN|2.26||0.02|TWO_SIDED|95.0|1.46|9.96|||t-test, 2 sided|||||9.96|1.46|0.02
92399399|NCT02732600|184690182|SUPERIORITY||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|2.92||0.38|TWO_SIDED|95.0|-3.14|8.54|||t-test, 2 sided|||||8.54|-3.14|0.38
92217439|NCT01858532|184334988|OTHER||||||=|0.289|||||||Stratified log-rank test|||The endpoint was analyzed using the stratified log-rank test for treatment comparison.||||=0.289
92342822|NCT02668640|184588032|OTHER||||||=|0.0137|||||||Wilcoxon signed-rank test|||Median Change from Baseline in WPAI Overall Work Impairment Score at Week 12||||=0.0137
92342823|NCT02668640|184588032|OTHER||||||=|0.0607|||||||Wilcoxon signed-rank test|||Median Change from Baseline in Overall Work Impairment Score at Week 24||||=0.0607
92342824|NCT02668640|184588033|OTHER||||||=|0.0026|||||||Wilcoxon signed-rank test|||Median Change from Baseline in WPAI Activity Impairment Score at Week 12||||=0.0026
92342825|NCT02668640|184588033|OTHER||||||=|0.0001|||||||Wilcoxon signed-rank test|||Median Change from Baseline in WPAI Activity Impairment Score at Week 24||||=0.0001
92342826|NCT01248416|184588148|SUPERIORITY||||||<|0.006|||||||ANCOVA|||||||<0.006
92342827|NCT01248416|184588150|SUPERIORITY|||||||0.906|||||||ANOVA|||||||0.906
92342828|NCT01248416|184588151|SUPERIORITY|||||||0.015|||||||ANOVA|||||||0.015
92342829|NCT01248416|184588153|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92342830|NCT01248416|184588154|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92342831|NCT01248416|184588155|SUPERIORITY|||||||0.0003|||||||ANCOVA|||||||0.0003
92342832|NCT04745351|184588157|SUPERIORITY||Hazard Ratio (HR)|0.816||||0.6132|TWO_SIDED|95.0|0.504|1.321||P-value was calculated from stratified log-rank test, stratified by the baseline stratification factors.|Log Rank|||||1.321|0.504|0.6132
92342833|NCT04745351|184588158|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.3881|TWO_SIDED|95.0|0.497|1.388||P-value was calculated from stratified log-rank test stratified by the baseline stratification factors.|Log Rank|||||1.388|0.497|0.3881
92342834|NCT04745351|184588159|SUPERIORITY||Hazard Ratio (HR)|1.043||||0.9116|TWO_SIDED|95.0|0.493|2.207||The treatment effect p-value was calculated using Cox model with death as the competing risk and baseline stratification factors as covariates.|Regression, Cox|||||2.207|0.493|0.9116
92342835|NCT04745351|184588162|SUPERIORITY|||||||0.8541||||||P-value was analysed from proportional odds model including treatment as the independent variable.|Proportional odds model|||||||0.8541
92399400|NCT02732600|184690183|SUPERIORITY||Mean Difference (Final Values)|-99.4|STANDARD_ERROR_OF_MEAN|41.73||0.027|TWO_SIDED|95.0|-186.2|-12.66|||t-test, 2 sided|||||-12.66|-186.2|0.027
92342836|NCT04745351|184588163|SUPERIORITY|||||||0.4974||||||P-value was analysed from proportional odds model including treatment as the independent variable.|Proportional odds model|||||||0.4974
92342837|NCT04745351|184588164|SUPERIORITY|||||||0.4283||||||P-value was calculated based on Wilcoxon rank sum test.|Wilcoxon (Mann-Whitney)|||||||0.4283
92342838|NCT04745351|184588165|SUPERIORITY||Relative risk|0.89||||0.2773|TWO_SIDED|95.0|0.731|1.091||The treatment effect p-value was calculated using Cochran-Mantel-Haenszel (CMH) analysis including baseline stratification factors.|Cochran-Mantel-Haenszel|||||1.091|0.731|0.2773
92342839|NCT04745351|184588166|SUPERIORITY||Relative risk|0.97||||0.7538|TWO_SIDED|95.0|0.819|1.155||The treatment effect p-value was calculated using CMH analysis including baseline stratification factors.|Cochran-Mantel-Haenszel|||||1.155|0.819|0.7538
92342840|NCT02014272|184588169|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|95.45|||||TWO_SIDED|90.0|92.07|98.94||||||Natural log transformed AUClast of rifampicin was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% confidence intervals(CIs) for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||98.94|92.07|
92342841|NCT02014272|184588169|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|103.45|||||TWO_SIDED|90.0|99.33|107.75||||||Natural log transformed AUClast of isoniazid was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% confidence intervals(CIs) for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||107.75|99.33|
92342842|NCT02014272|184588170|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|91.63|||||TWO_SIDED|90.0|83.13|101.01||||||Natural log transformed Cmax of rifampicin was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% confidence intervals(CIs) for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||101.01|83.13|
92342843|NCT02014272|184588170|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|107.58|||||TWO_SIDED|90.0|96.07|120.47||||||Natural log transformed Cmax of isoniazid was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||120.47|96.07|
92342844|NCT02014272|184588171|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|95.92|||||TWO_SIDED|90.0|92.54|99.43||||||Natural log transformed AUC(0 - ∞) of rifampicin was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% confidence intervals(CIs) for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||99.43|92.54|
92342845|NCT02014272|184588171|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|102.41|||||TWO_SIDED|90.0|98.76|106.19||||||Natural log transformed AUC(0 - ∞) of isoniazid was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% confidence intervals(CIs) for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||106.19|98.76|
92342846|NCT00879190|184588179|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
92342847|NCT00879190|184588180|SUPERIORITY_OR_OTHER|||||||0.03|||||||Fisher Exact|||||||0.03
92342848|NCT00879190|184588181|SUPERIORITY_OR_OTHER|||||||0.6|||||||Fisher Exact|||||||0.6
92342849|NCT00723229|184588182|SUPERIORITY_OR_OTHER||Incidence Risk Ratio|0.2|||<|0.001|TWO_SIDED|95.0|0.17|0.25|||Regression, poisson|Adjusted for period effects.||The trial had 80% power to detect a 35% reduction in genital shedding rates for acyclovir 400 mg twice daily.||0.25|0.17|<0.001
92342850|NCT00723229|184588182|SUPERIORITY|Adjusted for period effects.|Risk Ratio (RR)|0.05|||<|0.001|TWO_SIDED|95.0|0.03|0.08|||Regression, Poisson|||Among HIV seronegative individuals.||0.08|0.03|<0.001
92342851|NCT00723229|184588182|SUPERIORITY|Adjusted for period effects.|Risk Ratio (RR)|0.5|||<|0.001|TWO_SIDED|95.0|0.4|0.6|||Regression, Poisson|||Among HIV seropositive individuals.||0.6|0.4|<0.001
92342852|NCT02900352|184588197|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.0130
92342853|NCT02900352|184588198|SUPERIORITY|||||||0.148|||||||Chi-squared|||||||0.148
92342854|NCT02900352|184588199|SUPERIORITY|||||||0.054|||||||ANOVA|||||||.054
92342855|NCT02900352|184588200|SUPERIORITY|||||||0.035|||||||Mixed Models Analysis|||||||0.035
92342856|NCT02900352|184588201|SUPERIORITY|||||||0.889|||||||ANOVA|||||||0.889
92342857|NCT02900352|184588202|SUPERIORITY|||||||0.482|||||||ANOVA|||||||0.482
92342858|NCT02900352|184588203|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
92342859|NCT03093181|184588222|SUPERIORITY||Least square (LS) mean difference|3.12||||0.0128|TWO_SIDED|95.0|0.68|5.56||From Analysis of covariance (ANCOVA) with treatment main effect, age stratum and baseline as covariates|ANCOVA||Difference is first named treatment (test product) minus second named treatment (negative control) such that a positive value favors the first named treatment (test product).|||5.56|0.68|0.0128
92399401|NCT02732600|184690184|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.18||0.001|TWO_SIDED|95.0|0.28|0.92|||t-test, 2 sided|||||0.92|0.28|0.001
92342860|NCT03093181|184588222|SUPERIORITY||LS mean difference|1.51||||0.2262|TWO_SIDED|95.0|-0.95|3.96||From ANCOVA with treatment main effect, age stratum and baseline as covariates.|ANCOVA||Difference is first named treatment (test product) minus second named treatment (negative control) such that a positive value favors the first named treatment (test product).|||3.96|-0.95|0.2262
92342861|NCT03093181|184588224|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0243|TWO_SIDED|95.0|1.08|3.15|||Odds Ratio|||Analysis of Lay Person Assessment Polarised Image.||3.15|1.08|0.0243
92342862|NCT03093181|184588224|SUPERIORITY||Odds Ratio (OR)|1.04||||0.8931|TWO_SIDED|95.0|0.61|1.78|||Odds Ratio|||Analysis of Lay Person Assessment Polarised Image.||1.78|0.61|0.8931
92342863|NCT03093181|184588224|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0181|TWO_SIDED|95.0|1.12|3.25|||Odds Ratio|||Analysis of Lay Person Assessment Non-Polarised Image.||3.25|1.12|0.0181
92342864|NCT03093181|184588224|SUPERIORITY||Odds Ratio (OR)|0.94||||0.8319|TWO_SIDED|95.0|0.55|1.63|||Odds Ratio|||Analysis of Lay Person Assessment Non-Polarised Image.||1.63|0.55|0.8319
92342865|NCT03093181|184588225|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.0279|TWO_SIDED|95.0|0.02|0.28|||ANOVA|ANOVA= average rate over all raters including effects of treatment and age stratum.||Analysis of Lay Person Assessment Polarised Image.||0.28|0.02|0.0279
92342866|NCT03093181|184588225|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.8887|TWO_SIDED|95.0|-0.12|0.14|||ANOVA|ANOVA= average rate over all raters including effects of treatment and age stratum.||Analysis of Lay Person Assessment Polarised Image.||0.14|-0.12|0.8887
92342867|NCT03093181|184588225|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.0224|TWO_SIDED|95.0|0.02|0.28|||ANOVA|ANOVA= average rate over all raters including effects of treatment and age stratum.||Analysis of Lay Person Assessment Non-Polarised Image.||0.28|0.02|0.0224
92342868|NCT03093181|184588225|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.8253|TWO_SIDED|95.0|-0.15|0.12|||ANOVA|ANOVA= average rate over all raters including effects of treatment and age stratum.||Analysis of Lay Person Assessment Non-Polarised Image.||0.12|-0.15|0.8253
92157746|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-3.31||||0.18|TWO_SIDED|95.0|-8.18|1.56|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 21, Non-lesional||1.56|-8.18|0.180
92342869|NCT05412134|184588235|OTHER|||||||0.333|||||||Chi-squared|||Repetition adherence||||0.333
92342870|NCT05412134|184588235|OTHER|||||||0.626|||||||Chi-squared|||Session adherence||||0.626
92342871|NCT05412134|184588236|SUPERIORITY|||||||0.416|||||||Wilcoxon (Mann-Whitney)|||||||0.416
92342872|NCT05412134|184588237|SUPERIORITY|||||||0.581|||||||t-test, 2 sided|||||||0.581
92342873|NCT05412134|184588238|SUPERIORITY|||||||0.071|||||||t-test, 2 sided|||||||0.071
92342874|NCT05412134|184588239|SUPERIORITY|||||||0.356|||||||t-test, 2 sided|||||||0.356
92342875|NCT05412134|184588241|SUPERIORITY|||||||0.079|||||||t-test, 2 sided|||||||0.079
92342876|NCT03444584|184588274|SUPERIORITY||LS mean difference|-143.09|||<|0.0001|TWO_SIDED|95.0|-198.2|-87.98|||ANCOVA|||||-87.98|-198.20|<0.0001
92342877|NCT03444584|184588275|SUPERIORITY||LS mean difference|-22.17|||<|0.0001|TWO_SIDED|95.0|-30.24|-14.1|||ANCOVA|||||-14.10|-30.24|<0.0001
92342878|NCT01077323|184588306|SUPERIORITY_OR_OTHER||Adjusted Rate Ratio (ARR)|0.87|||||TWO_SIDED|95.0|0.59|1.28|||||"ARR equals adjusted incidence rate of acute pancreatitis in exenatide cohort divided by adjusted incidence of acute pancreatitis in OAD cohort.~Adjusted incidence rates were calculated using a Poisson regression model adjusted for propensity score."|||1.28|0.59|
92342879|NCT01077323|184588307|SUPERIORITY_OR_OTHER||Adjusted Rate Ratio (ARR)|1.1|||||TWO_SIDED|95.0|0.8|1.5|||||ARR equals adjusted incidence rate of acute pancreatitis in exenatide cohort divided by adjusted incidence of acute pancreatitis in OAD cohort.Rate ratios adjusted for propensity score of exenatide initiation using Cox Proportional Hazards Regression|||1.5|0.8|
92342880|NCT01077323|184588308|SUPERIORITY_OR_OTHER||Adjusted Rate Ratio (ARR)|0.87|||||TWO_SIDED|95.0|0.36|2.09|||||"ARR equals adjusted incidence rate of acute pancreatitis in exenatide cohort divided by adjusted incidence of acute pancreatitis in OAD cohort.~Adjusted incidence rates were calculated using a Poisson regression model adjusted for propensity score."|||2.09|0.36|
92342881|NCT01077323|184588309|SUPERIORITY_OR_OTHER||Adjusted Rate Ratio (ARR)|1.39|||||TWO_SIDED|95.0|0.86|2.25|||||"ARR equals adjusted incidence rate of acute pancreatitis in exenatide cohort divided by adjusted incidence of acute pancreatitis in OAD cohort.~Adjusted incidence rates were calculated using a Poisson regression model adjusted for propensity score."|||2.25|0.86|
92342882|NCT02439164|184588324|SUPERIORITY||Mean Difference (Net)|23.51|||<|0.01|TWO_SIDED|95.0|14.16|32.87|||t-test, 2 sided|bonferroni correction was used for post hoc analysis, P value less than 0.05 indicated statistical significance.|this described the difference during midazolam sedation between the glioma and control group without dividing into subgroups.||Oneway Analysis of Variance (ANOVA) was used to test the difference among hands in a certain time point. General linear model for repeated measures ANOVA was used to analyze the time difference of test before and after drug administration,|32.87|14.16|<0.01
92342883|NCT02343224|184588330|OTHER||Kaplan-Meier estimate|76.2|||||TWO_SIDED|95.0|52.1|100.0||||||This Kaplan-Meier estimate is the conditional probability of event-free survival among study participants at 12 and 24 months.||100|52.1|
92342884|NCT02343224|184588331|OTHER||Kaplan-Meier estimate|75.0|||||TWO_SIDED|95.0|50.3|100.0||||||This Kaplan-Meier estimate is the conditional probability of overall survival among participants at 12 and 24 months.||100|50.3|
92157747|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.342|TWO_SIDED|95.0|-5.45|1.94|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 28, Non-lesional||1.94|-5.45|0.342
92157748|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-2.17||||0.234|TWO_SIDED|95.0|-5.81|1.47|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 42, Non-lesional||1.47|-5.81|0.234
92157749|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.316|TWO_SIDED|95.0|-6.27|2.07|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 77, Non-lesional||2.07|-6.27|0.316
92399402|NCT03111875|184690203|SUPERIORITY|common effect|Risk Ratio (RR)|1.04||||0.69|TWO_SIDED|95.6|0.87|1.24|||Mixed Models Analysis|||||1.24|0.87|0.69
92217440|NCT01858532|184334988|OTHER||Hazard Ratio (HR)|0.779||||0.112|TWO_SIDED|95.0|0.573|1.06|||Regression, Cox|||A Cox Proportional Hazards regression model with pre-specified covariates adjusted was used to estimate the hazard ratio of atrasentan to placebo and its 95% confidence interval.||1.060|0.573|0.112
92217441|NCT01858532|184334989|OTHER|||||||0.089|||||||Stratified log-rank test|||The endpoint was analyzed using the stratified log-rank test for treatment comparison.||||0.089
92157750|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-1.89||||0.276|TWO_SIDED|95.0|-5.37|1.59|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 112, Non-lesional||1.59|-5.37|0.276
92342885|NCT03118934|184588332|NON_INFERIORITY|The pre-specified non-inferiority margin is 0.5. With a sample size of 80/group, there was approximately 83% power to reject the null hypothesis of inferiority in fit with assumed standard deviation of 0.6 and expected difference of 0.25 (one-sided alpha=0.05).|LSM Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06|||ONE_SIDED|95.0||-0.1||||||||-0.1||
92342886|NCT04232839|184588333|OTHER||Adjusted geometric mean (gMean) ratio(%)|85.9|||||TWO_SIDED|90.0|80.3|91.7|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =13.9.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||91.7|80.3|
92342887|NCT04232839|184588333|OTHER||Adjusted geometric mean (gMean) ratio(%)|72.6|||||TWO_SIDED|90.0|68.0|77.6|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =13.9.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||77.6|68.0|
92342888|NCT04232839|184588333|OTHER||Adjusted geometric mean (gMean) ratio(%)|92.4|||||TWO_SIDED|90.0|86.5|98.8|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =13.9.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||98.8|86.5|
92399403|NCT03111875|184690203|SUPERIORITY|average relative effect|Risk Ratio (RR)|0.68||||0.1|TWO_SIDED|95.6|0.43|1.08|||Mixed Models Analysis|||||1.08|0.43|0.10
92157751|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-1.56||||0.237|TWO_SIDED|95.0|-4.19|1.06|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42, Non-lesional||1.06|-4.19|0.237
92157752|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-3.03||||0.01|TWO_SIDED|95.0|-5.3|-0.77|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42, Non-lesional||-0.77|-5.30|0.010
92157753|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-0.46||||0.77|TWO_SIDED|95.0|-3.57|2.65|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42, Non-lesional||2.65|-3.57|0.770
92157754|NCT03389893|184202289|SUPERIORITY||Mean Difference (Final Values)|-2.14||||0.117|TWO_SIDED|95.0|-4.84|0.56|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42, Non-lesional||0.56|-4.84|0.117
92157755|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|85.05||||0.085|TWO_SIDED|95.0|-12.02|182.12|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 7||182.12|-12.02|0.085
92217442|NCT01858532|184334989|OTHER||Hazard Ratio (HR)|0.801||||0.049|TWO_SIDED|95.0|0.642|0.999|||Regression, Cox|||A Cox Proportional Hazards regression model with pre-specified covariates adjusted was used to estimate the hazard ratio of atrasentan to placebo and its 95% confidence interval.||0.999|0.642|0.049
92217443|NCT01858532|184334990|OTHER||Hazard Ratio (HR)|0.72||||0.002|TWO_SIDED|95.0|0.58|0.89|||Regression, Cox|||A Cox Proportional Hazards regression model with pre-specified covariates adjusted was used to estimate the hazard ratio of atrasentan to placebo and its 95% confidence interval.||0.89|0.58|0.002
92342889|NCT04232839|184588333|OTHER||Adjusted geometric mean (gMean) ratio(%)|76.6|||||TWO_SIDED|90.0|71.6|81.8|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =13.9.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||81.8|71.6|
92342890|NCT04232839|184588333|OTHER||Adjusted geometric mean (gMean) ratio(%)|133.4|||||TWO_SIDED|90.0|117.2|151.9|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =17.6.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'subjects' and 'treatment'. The effect 'subjects' were to be considered as random, while the effect 'treatment' was to be considered as fixed.||151.9|117.2|
92399404|NCT03111875|184690204|SUPERIORITY||Risk Ratio (RR)|1.13||||0.25|TWO_SIDED|98.75|0.87|1.47|||log-binomial models|The relative risk was estimated using a GEE model to adjust for within-patient correlation across components and log link (to estimate relative risk).||||1.47|0.87|0.25
92399405|NCT03111875|184690205|SUPERIORITY||Risk Ratio (RR)|1.07||||0.41|TWO_SIDED|98.75|0.87|1.33|||log-binomial models|The relative risk was estimated using a GEE model to adjust for within-patient correlation across components and log link (to estimate relative risk)||||1.33|0.87|0.41
92405622|NCT01106690|184701431|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.6|-1.8|||ANCOVA|||||-1.8|-3.6|<0.001
92157756|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|-21.91||||0.733|TWO_SIDED|95.0|-149.13|105.32|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 14||105.32|-149.13|0.733
92157757|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|-82.5||||0.129|TWO_SIDED|95.0|-189.6|24.61|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 21||24.61|-189.60|0.129
92342891|NCT04232839|184588333|OTHER||Adjusted geometric mean (gMean) ratio(%)|114.2|||||TWO_SIDED|90.0|102.3|127.6|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =16.2.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'subjects' and 'treatment'. The effect 'subjects' were to be considered as random, while the effect 'treatment' was to be considered as fixed.||127.6|102.3|
92342892|NCT04232839|184588334|OTHER||Adjusted geometric mean (gMean) ratio(%)|85.5|||||TWO_SIDED|90.0|80.0|91.4|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =14.0.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||91.4|80.0|
92342893|NCT04232839|184588334|OTHER||Adjusted geometric mean (gMean) ratio(%)|72.1|||||TWO_SIDED|90.0|67.4|77.1|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =14.0.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||77.1|67.4|
92342894|NCT04232839|184588334|OTHER||Adjusted geometric mean (gMean) ratio(%)|92.2|||||TWO_SIDED|90.0|86.3|98.6|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =14.0.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||98.6|86.3|
92342895|NCT04232839|184588334|OTHER||Adjusted geometric mean (gMean) ratio(%)|75.5|||||TWO_SIDED|90.0|70.6|80.7|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =14.0.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||80.7|70.6|
92405623|NCT01106690|184701431|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-4.6|-2.8|||ANCOVA|||||-2.8|-4.6|<0.001
92342896|NCT04232839|184588334|OTHER||Adjusted geometric mean (gMean) ratio(%)|134.2|||||TWO_SIDED|90.0|117.6|153.0|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =17.9.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'subjects' and 'treatment'. The effect 'subjects' were to be considered as random, while the effect 'treatment' was to be considered as fixed.||153.0|117.6|
92342897|NCT04232839|184588334|OTHER||Adjusted geometric mean (gMean) ratio(%)|114.8|||||TWO_SIDED|90.0|102.9|128.1|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =16.1.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'subjects' and 'treatment'. The effect 'subjects' were to be considered as random, while the effect 'treatment' was to be considered as fixed.||128.1|102.9|
92369344|NCT02993822|184643582|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.025|TWO_SIDED|95.0|0.2|2.4|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.4|0.2|0.025
92217444|NCT01858532|184334991|OTHER|||||||0.446|||||||Stratified log-rank test|||The endpoint was analyzed using the stratified log-rank test for treatment comparison.||||0.446
92369345|NCT02993822|184643583|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.258|TWO_SIDED|95.0|-0.5|1.9|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||1.9|-0.5|0.258
92369346|NCT02993822|184643583|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.243|TWO_SIDED|95.0|-0.5|1.8|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||1.8|-0.5|0.243
92369347|NCT02993822|184643583|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.009|TWO_SIDED|95.0|0.4|2.8|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.8|0.4|0.009
92369348|NCT02993822|184643584|SUPERIORITY||Mean Difference (Final Values)|-9.6||||0.008|TWO_SIDED|95.0|-16.6|-2.5|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-2.5|-16.6|0.008
92369349|NCT02993822|184643584|SUPERIORITY||Mean Difference (Final Values)|-4.5||||0.198|TWO_SIDED|95.0|-11.4|2.4|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||2.4|-11.4|0.198
92369350|NCT02993822|184643584|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.055|TWO_SIDED|95.0|-13.7|0.1|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||0.1|-13.7|0.055
92342898|NCT02849080|184588335|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.89|6.7||Unadjusted two-sided p-value for test of no difference from 1.|Pattern mixture model||Oral Semaglutide flex / Sitagliptin 100 mg.|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 52 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using a logistic regression model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete datasets, and pooled by Rubin's rule to draw inference.||6.70|2.89|<0.0001
92342899|NCT02849080|184588335|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Odds Ratio (OR)|5.54|||<|0.0001|TWO_SIDED|95.0|3.54|8.68||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Logistic||Oral Semaglutide flex / Sitagliptin 100 mg|The analysis was based on multiple imputation, imputing sequentially using post-baseline measurements up to and including week 52. The imputed data sets were analysed using a logistic regression model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete datasets, and pooled by Rubin's rule to draw inference.||8.68|3.54|<0.0001
92342900|NCT02849080|184588336|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.2||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixture model||Oral semaglutide flex - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 52 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using a logistic regression model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete datasets, and pooled by Rubin's rule to draw inference.||-1.2|-2.6|<0.0001
92342901|NCT02849080|184588336|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-2.2|||<|0.0001|TWO_SIDED|95.0|-2.9|-1.5||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide flex - Sitagliptin 100 mg|The analysis was based on a Mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 52. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.5|-2.9|<0.0001
92342902|NCT02849080|184588353|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.18|||<|0.0001|TWO_SIDED|95.0|0.09|0.39||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide flex / Sitagliptin 100 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.39|0.09|<0.0001
92342903|NCT02849080|184588354|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.58||||0.0175|TWO_SIDED|95.0|0.37|0.91||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide flex / Sitagliptin 100 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before planned end of treatment.||0.91|0.37|0.0175
92399406|NCT02051764|184690236|OTHER|||||||0.2837||||||Not adjusted for multiple comparisons. No a priori threshold was selected.|ANCOVA|Adjustments included baseline tau deposition, age, time (in years) between imaging, and included an interaction of time and enrolling diagnosis.||Overall change from baseline between groups. Test compared slopes of cognitively impaired (CI) vs healthy volunteers (HV). As the time between scans varied across subjects, an ANCOVA model was used to estimate slopes in each diagnosis group and test whether they were the different at 1 year. The flortaucipir change from baseline was used as the dependent variable in the model.||||0.2837
92399407|NCT02051764|184690236|OTHER|||||||0.9276||||||Not adjusted for multiple comparisons. No a priori threshold was selected.|ANCOVA|Adjustments included baseline tau deposition, age, time (in years) between imaging, and included an interaction of time and enrolling diagnosis.||Change from baseline between groups for amyloid negative only. Test compared slopes of CI vs HV. As the time between scans varied across subjects, an ANCOVA model was used to estimate slopes in each diagnosis group and test whether they were different at 1 year. The flortaucipir change from baseline was used as the dependent variable in the model.||||0.9276
92399408|NCT02051764|184690236|OTHER|||||||0.6324||||||Not adjusted for multiple comparisons. No a priori threshold was selected.|ANCOVA|Adjustments included baseline tau deposition, age, time (in years) between imaging, and included an interaction of time and enrolling diagnosis.||Change from baseline between groups for amyloid positive only. Test compared slopes of CI vs HV. As the time between scans varied across subjects, an ANCOVA model was used to estimate slopes in each diagnosis group and test whether they were different at 1 year. The flortaucipir change from baseline was used as the dependent variable in the model.||||0.6324
92157758|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|-92.11||||0.057|TWO_SIDED|95.0|-187.11|2.89|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 28||2.89|-187.11|0.057
92157759|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|-48.76||||0.242|TWO_SIDED|95.0|-131.52|34.0|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 42||34.00|-131.52|0.242
92342904|NCT02849080|184588373|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.77||||0.4381|TWO_SIDED|95.0|0.39|1.5||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide flex- Switch / Sitagliptin 100 mg- Switch|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before planned end of treatment.||1.50|0.39|0.4381
92342905|NCT02849080|184588374|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.47||||0.079|TWO_SIDED|95.0|0.2|1.09||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide flex- Switch / Sitagliptin 100 mg- Switch|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.09|0.20|0.0790
92342906|NCT02155985|184588407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4||||0.7|TWO_SIDED|95.0|-5.5|8.8||While there are co-primary comparisons, due to the pilot nature of the study, no adjustment to the 0.05 type I error was made.|t-test, 2 sided||Mean difference is the percent difference in mean fold changes = ((300 mg mean fold change / placebo mean fold change) - 1) \* 100.|Paired differences between the two aspirin arms and placebo were estimated in a single linear regression model using linear combinations of the estimated means.||8.8|-5.5|0.70
92342907|NCT02155985|184588407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.5||||0.14|TWO_SIDED|95.0|-1.7|13.3||While there are co-primary comparisons, due to the pilot nature of the study, no adjustment to the 0.05 type I error was made.|t-test, 2 sided||Mean difference is the percent difference in mean fold changes = ((100 mg mean fold change / placebo mean fold change) - 1) \* 100.|Paired differences between the two aspirin arms and placebo were estimated in a single linear regression model using linear combinations of the estimated means.||13.3|-1.7|0.14
92342908|NCT01257347|184588471|SUPERIORITY_OR_OTHER||||||<=|0.001||||||We included a stopping rule in which recruitment would be stopped at the midpoint for futility if the z-score was negative or for efficacy if the z-score was positive and the p-value ≤ 0.001.|GEE model|GEE models (logit link) with clinician as the cluster variable, appropriateness of management as outcome, intervention group as explanatory variable.||The sample size was calculated to have sufficient power to detect meaningful differences in appropriateness of clinician management between intervention and control groups. Each patient-clinician encounter was treated as independent and the sample size was inflated to account for the design effect (DE) of clustering of patients within clinician. GEE stands for generalized estimating equation.||||<=0.001
92342909|NCT03044314|184588538|SUPERIORITY|||||||0.148|||||||t-test, 2 sided|||Null hypothesis: inhalation with iNO (the gold standard) would provide greater response than the comparator (iloprost).||||0.148
92342910|NCT03044314|184588540|SUPERIORITY|||||||0.346|||||||Fisher Exact|||Null hypothesis was that fewer patients receiving iloprost (new agent) would respond compared to iNO (the gold standard).||||0.346
92342911|NCT00264147|184588555|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|Cochran-Armitage trend test|A step-down procedure and Abelson-Tukey scaling were used for the trend test.||||||<0.001
92342912|NCT00264147|184588555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|Cochran-Armitage trend test|A step-down procedure and Abelson-Tukey scaling were used for the trend test.||||||0.057
92342913|NCT00264147|184588555|SUPERIORITY_OR_OTHER_LEGACY||difference in percentage of patients|18.53||||||95.0|7.84|28.65|||||CI based on the Wilson's score method.|||28.65|7.84|
92342914|NCT00264147|184588555|SUPERIORITY_OR_OTHER_LEGACY||difference in percentage of patients|10.0||||||95.0|-0.66|20.46|||||CI based on the Wilson's score method.|||20.46|-0.66|
92342915|NCT00264147|184588555|SUPERIORITY_OR_OTHER_LEGACY||difference in percentage of patients|9.18||||||95.0|-1.25|19.39|||||CI based on the Wilson's score method.|||19.39|-1.25|
92342916|NCT00264147|184588555|SUPERIORITY_OR_OTHER_LEGACY||difference in percentage of patients|6.49||||||95.0|-3.76|16.61|||||CI based on the Wilson's score method.|||16.61|-3.76|
92157760|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|-54.37||||0.262|TWO_SIDED|95.0|-150.24|41.49|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 77, Lesional||41.49|-150.24|0.262
92157761|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|-22.97||||0.546|TWO_SIDED|95.0|-99.79|53.86|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 112||53.86|-99.79|0.546
92342917|NCT00264147|184588556|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.002
92342918|NCT00264147|184588556|SUPERIORITY_OR_OTHER_LEGACY|||||||0.221||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.221
92342919|NCT00264147|184588556|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.06||||||95.0|-6.44|-1.68||||||||-1.68|-6.44|
92342920|NCT00264147|184588556|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.49||||||95.0|-3.91|0.93||||||||0.93|-3.91|
92342921|NCT00264147|184588556|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.74||||||95.0|-5.13|-0.35||||||||-0.35|-5.13|
92342922|NCT00264147|184588556|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5||||||95.0|-4.88|-0.12||||||||-0.12|-4.88|
92342923|NCT00264147|184588557|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.001
92342924|NCT00264147|184588557|SUPERIORITY_OR_OTHER_LEGACY|||||||0.125||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.125
92342925|NCT00264147|184588557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.24||||||95.0|-3.64|-0.84||||||||-0.84|-3.64|
92342926|NCT00264147|184588557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.02||||||95.0|-2.44|0.41||||||||0.41|-2.44|
92342927|NCT00264147|184588557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.22||||||95.0|-2.63|0.18||||||||0.18|-2.63|
92342928|NCT00264147|184588557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49||||||95.0|-1.89|0.91||||||||0.91|-1.89|
92342929|NCT00264147|184588558|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
92342930|NCT00264147|184588558|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
92399409|NCT00591006|184690237|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||||||<0.01
92342931|NCT00264147|184588558|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
92342932|NCT00264147|184588558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.023
92342933|NCT00264147|184588558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.16||||||95.0|-19.38|-8.95||||||||-8.95|-19.38|
92342934|NCT00264147|184588558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.21||||||95.0|-14.52|-3.9||||||||-3.90|-14.52|
92342935|NCT00264147|184588558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.87||||||95.0|-14.11|-3.63||||||||-3.63|-14.11|
92399410|NCT00591006|184690237|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||.12
92399411|NCT00591006|184690237|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Mixed Models Analysis|||||||.15
92157762|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|-21.8||||0.503|TWO_SIDED|95.0|-86.34|42.75|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42||42.75|-86.34|0.503
92342936|NCT00264147|184588558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.05||||||95.0|-11.27|-0.83||||||||-0.83|-11.27|
92342937|NCT00264147|184588559|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
92342938|NCT00264147|184588559|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
92342939|NCT00264147|184588559|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
92342940|NCT00264147|184588559|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.018
92342941|NCT00264147|184588559|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56||||||95.0|-0.77|-0.35||||||||-0.35|-0.77|
92342942|NCT00264147|184588559|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.34||||||95.0|-0.55|-0.13||||||||-0.13|-0.55|
92342943|NCT00264147|184588559|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||||95.0|-0.61|-0.19||||||||-0.19|-0.61|
92342944|NCT00264147|184588559|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25||||||95.0|-0.46|-0.04||||||||-0.04|-0.46|
92342945|NCT00264147|184588560|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
92342946|NCT00264147|184588560|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.018
92342947|NCT00264147|184588560|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.017
92342948|NCT00264147|184588560|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.080
92399412|NCT00591006|184690237|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Mixed Models Analysis|||||||.10
92399413|NCT00591006|184690238|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Mixed Models Analysis|||||||.08
92399414|NCT00591006|184690238|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||||||<.01
92399415|NCT00591006|184690238|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||||||<.01
92399416|NCT00591006|184690238|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||||||.02
92399417|NCT00591006|184690239|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Mixed Models Analysis|||||||.08
92342949|NCT00264147|184588560|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.44||||||95.0|-19.62|-9.26||||||||-9.26|-19.62|
92342950|NCT00264147|184588560|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.22||||||95.0|-11.52|-0.92||||||||-0.92|-11.52|
92342951|NCT00264147|184588560|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.32||||||95.0|-11.53|-1.12||||||||-1.12|-11.53|
92342952|NCT00264147|184588560|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.63||||||95.0|-9.81|0.55||||||||0.55|-9.81|
92342953|NCT02563899|184588591|SUPERIORITY_OR_OTHER||Percent difference in treatment|-1.0|||||TWO_SIDED|95.0|-42.2|39.9||||||Umeclidinium, 2 mg/cm\^2 of 1.85%, OD Vs Vehicle: \<=-30%||39.9|-42.2|
92342954|NCT02563899|184588591|SUPERIORITY_OR_OTHER||Percent difference in treatment|1.0|||||TWO_SIDED|95.0|-39.9|42.2||||||Umeclidinium, 2 mg/cm\^2 of 1.85%, OD vs Vehicle: \<=-50%||42.2|-39.9|
92342955|NCT02563899|184588591|SUPERIORITY_OR_OTHER||Percent difference in treatment|9.0|||||TWO_SIDED|95.0|-25.2|44.0||||||Umeclidinium, 2 mg/cm\^2 of 1.85%, OD Vs Vehicle: \<=-70%||44.0|-25.2|
92342956|NCT02563899|184588593|SUPERIORITY_OR_OTHER||Percent difference in treatment|27.0|||||TWO_SIDED|95.0|-8.5|62.6||||||||62.6|-8.5|
92342957|NCT02008526|184588594|SUPERIORITY||F|1.16||||0.3137|TWO_SIDED||||||ANOVA|2 Degrees of Freedom||||||0.3137
92342958|NCT02008526|184588595|SUPERIORITY||F|0.16||||0.8494|TWO_SIDED||||||ANOVA|2 Degrees of Freedom||||||0.8494
92342959|NCT01062308|184588598|SUPERIORITY_OR_OTHER||Mean difference from baseline to day 30|-11.8||||0.03|TWO_SIDED|95.0|-22.6|-1.1|||Mixed Models Analysis|||||-1.1|-22.6|0.03
92342960|NCT01062308|184588599|SUPERIORITY_OR_OTHER||Mean difference from baseline to day 30|6.6||||0.16|TWO_SIDED|95.0|-2.7|15.9|||Mixed Models Analysis|||||15.9|-2.7|0.16
92157763|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|-64.0||||0.034|TWO_SIDED|95.0|-123.01|-4.98|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42||-4.98|-123.01|0.034
92157764|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|-10.29||||0.789|TWO_SIDED|95.0|-86.63|66.04|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42||66.04|-86.63|0.789
92342961|NCT01190813|184588613|SUPERIORITY_OR_OTHER||Percent Difference|11.0||||0.06|TWO_SIDED|95.0|-7.0|28.0|||Fisher Exact|It was not possible to adjust for baseline VA in these secondary analyses due to the small number of subjects meeting secondary outcome criteria.|Treatment group difference calculated as Levodopa - Placebo|A sample size of 129 participants provided 80% power with 1-sided type I error rate of 5% to reject the hypothesis of no difference between groups if the proportion improved was 30% in the levodopa group compared with 10% in the placebo group.||28|-7|0.06
92342962|NCT01190813|184588616|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-17.0|18.0|||||Levodopa - Placebo|||18|-17|
92342963|NCT01190813|184588617|SUPERIORITY_OR_OTHER||Percent Difference|-7.0|||||TWO_SIDED|95.0|-25.0|10.0||||||||10|-25|
92342964|NCT01190813|184588618|SUPERIORITY_OR_OTHER||Percent Difference|-5.0|||||TWO_SIDED|95.0|-22.0|13.0|||||Levodopa - Placebo|||13|-22|
92342965|NCT01190813|184588626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.65|TWO_SIDED|95.0|-1.9|1.3|||ANCOVA||Mean difference calculated as Levodopa - Placebo|||1.3|-1.9|0.65
92342966|NCT01190813|184588628|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.44|TWO_SIDED|95.0|-1.6|1.8|||ANCOVA|||||1.8|-1.6|0.44
92342967|NCT01190813|184588630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9||||0.2|TWO_SIDED|95.0|-1.2|2.9|||ANCOVA|||||2.9|-1.2|0.20
92342968|NCT01190813|184588632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9||||0.17|TWO_SIDED||||||ANCOVA|||||||0.17
92342969|NCT01190813|184588636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4||||0.06|TWO_SIDED|95.0|-0.4|3.3||The alpha level was set to 0.0485 for the primary analysis to adjust for alpha spending of 0.015 for one interim analysis for efficacy conducted when outcome data were available for 50% of participants.|ANCOVA||Mean difference calculated as Levodopa - Placebo|With 129 participants, assuming a 1-sided type I error rate of 4.85%, there was 96% power to detect a difference in mean visual acuity between treatment groups at 18 weeks adjusted for baseline and for 1 interim analysis for futility if the true difference was 5 letters with SD of 7 letters and 82% power if the true difference was 3.75 letters||3.3|-0.4|0.06
92342970|NCT03499795|184588664|SUPERIORITY|||||||0.8633|||||||Clopper-Pearson|P-value was calculated based on the exact method of Clopper-Pearson and superiority was concluded if the one-sided p-value is \<0.05.||||||0.8633
92342971|NCT02265510|184588676|OTHER|Descriptive Statistics|||||||||||||||||The analysis of the primary endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
92157765|NCT03389893|184202290|SUPERIORITY||Mean Difference (Final Values)|-83.9||||0.014|TWO_SIDED|95.0|-149.82|-17.98|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42||-17.98|-149.82|0.014
92342972|NCT02265510|184588677|OTHER||||||||||||||||||Confidence Intervals for ORR were calculated based on the exact method for binomial distributions. There were no comparison between treatment groups.|||
92342973|NCT02265510|184588678|OTHER||||||||||||||||||Confidence Intervals for response were calculated based on the exact method for binomial distributions. There were no comparison between treatment groups.|||
92342974|NCT02265510|184588679|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
92342975|NCT02265510|184588680|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
92342976|NCT02265510|184588681|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
92342977|NCT02265510|184588682|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
92342978|NCT02265510|184588683|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
92342979|NCT02265510|184588684|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
92342980|NCT02265510|184588685|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
92342981|NCT02265510|184588686|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
92399418|NCT00591006|184690239|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||||||<.01
92399419|NCT00591006|184690239|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Mixed Models Analysis|||||||.11
92399420|NCT00591006|184690239|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Mixed Models Analysis|||||||.06
92157766|NCT03389893|184202291|SUPERIORITY||Slope|-0.07||||0.86|TWO_SIDED|95.0|-0.92|0.77|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 7||0.77|-0.92|0.860
92217445|NCT01858532|184334991|OTHER||Hazard Ratio (HR)|0.884||||0.447|TWO_SIDED|95.0|0.643|1.215|||Regression, Cox|||A Cox Proportional Hazards regression model with pre-specified covariates adjusted was used to estimate the hazard ratio of atrasentan to placebo and its 95% confidence interval.||1.215|0.643|0.447
92342982|NCT00324155|184588704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.179||||0.4067|TWO_SIDED|95.0|0.799|1.74|||Cochran-Mantel-Haenszel|Stratified for metastasis stage (M0 vs M1a vs M1b vs M1c) and ECOG performance status (0 vs 1) recorded at randomization.||Analysis stratified for metastasis stage (M0 vs M1a vs M1b vs M1c) and Eastern Cooperative Oncology Group (ECOG) performance status (0 vs 1) recorded at randomization.||1.740|0.799|0.4067
92342983|NCT00324155|184588712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.716||||0.0009|TWO_SIDED|95.0|0.588|0.872||p-value was via stratified log-rank test|Log Rank||Hazard ratio via stratified Cox proportional hazards model.|Analysis stratified for metastasis stage (M0 vs M1a vs M1b vs M1c) and Eastern Cooperative Oncology Group performance status (0 vs 1) recorded at randomization.||0.872|0.588|0.0009
92342984|NCT02984982|184588739|SUPERIORITY||LS mean difference|-1.64|STANDARD_ERROR_OF_MEAN|1.36||0.2279|TWO_SIDED|95.0|-4.32|1.04||Threshold for significance at 0.05 level.|ANCOVA||Standard of Care vs Alirocumab|Analysis was performed using ANCOVA model which included fixed categorical effects of treatment arm and randomization strata, as well as the continuous fixed covariate of baseline normalized TAV.||1.04|-4.32|0.2279
92342985|NCT02314728|184588775|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
92342986|NCT02314728|184588776|SUPERIORITY|||||||0.6|||||||Fisher Exact|||NICU admission||||0.60
92342987|NCT02314728|184588776|SUPERIORITY|||||||0.13|||||||Fisher Exact|||histologic chorioamnionitis||||0.13
92342988|NCT04622969|184588785|SUPERIORITY||Mean Difference (Net)|-21.6|STANDARD_ERROR_OF_MEAN|5.157|<|0.001|TWO_SIDED||||||ANCOVA|||||||<.001
92342989|NCT04622969|184588787|SUPERIORITY||Mean Difference (Net)|7.12|STANDARD_ERROR_OF_MEAN|12.05|=|0.56|TWO_SIDED||||||Mixed Models Analysis|||||||=0.56
92342990|NCT04622969|184588791|SUPERIORITY||Mean Difference (Net)|0.0015|STANDARD_ERROR_OF_MEAN|0.145|=|0.99|TWO_SIDED||||||Mixed Models Analysis|||||||=0.99
92342991|NCT04622969|184588793|SUPERIORITY||Mean Difference (Net)|-0.264|STANDARD_ERROR_OF_MEAN|0.121|<|0.05|TWO_SIDED||||||ANCOVA|||||||<.05
92157767|NCT03389893|184202291|SUPERIORITY||Slope|-0.22||||0.488|TWO_SIDED|95.0|-0.85|0.41|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 14||0.41|-0.85|0.488
92157768|NCT03389893|184202291|SUPERIORITY||Slope|-0.55||||0.144|TWO_SIDED|95.0|-1.3|0.2|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 21||0.20|-1.30|0.144
92217446|NCT00514514|184334992|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.56|||<|0.0001|TWO_SIDED|95.0|2.82|8.31|||ANCOVA|||||8.31|2.82|< 0.0001
92217447|NCT02081534|184335025|SUPERIORITY|||||||0.012|||||||ANCOVA|||||||0.012
92217448|NCT01480284|184335074|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was judged based on the one-sided test of the model, y(Δ) = Baseline + Group ( Δ= -1.0). The adjusted mean values of the TDF group and the ETV group were calculated, and the adjusted mean value and two-sided 95% confidence interval of differences between the TDF group and the ETV group were calculated. Non-inferiority was also to be confirmed when the upper limit of the calculated two-sided 95% confidence interval was less than the non-inferiority limit value of 1.0|Mean Difference (Final Values)|-0.13|||<|0.0001|TWO_SIDED|95.0|-0.28|0.02||p-value was compared with the significance level of 0.025|ANCOVA|||||0.02|-0.28|<0.0001
92342992|NCT04622969|184588795|SUPERIORITY||Mean Difference (Net)|-5.573|STANDARD_ERROR_OF_MEAN|1.802|<|0.01|TWO_SIDED||||||ANCOVA|||||||<.01
92342993|NCT04622969|184588797|SUPERIORITY||Mean Difference (Net)|3.509|STANDARD_ERROR_OF_MEAN|1.842|=|0.062|TWO_SIDED||||||ANCOVA|||||||=.062
92399421|NCT02898454|184690240|SUPERIORITY||LS mean difference|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.03|-0.71|||ANCOVA|||Data was analyzed using a hybrid method of the worst-observation carried forward (WOCF) and multiple imputation (MI). The imputed completed data were analyzed by fitting ANCOVA model with the corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.71|-1.03|<0.0001
92399422|NCT02898454|184690241|SUPERIORITY||LS mean difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.1|-1.51|||ANCOVA|||Data was analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline value, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-1.51|-2.10|<0.0001
92157769|NCT03389893|184202291|SUPERIORITY||Slope|-0.35||||0.279|TWO_SIDED|95.0|-1.0|0.3|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 28||0.30|-1.00|0.279
92342994|NCT04622969|184588797|SUPERIORITY||Mean Difference (Net)|0.047|STANDARD_ERROR_OF_MEAN|0.17|=|0.78|TWO_SIDED||||||Mixed Models Analysis|||||||=0.78
92342995|NCT01251042|184588807|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Information about the size of the standard deviation (SD) for the change was obtained from an earlier study. The SD for the change from pre-operation until 24 hours after start of transfusion was 0.2305. Due to the imprecise measuring device (if values below 0.3 g/l) and the large SD, a non-inferiority margin (∆) of 0.2 g/l was decided to be used in this study, resulting in a total number of 42 evaluable subjects, i.e. 21 subjects per group.||||||0.6294||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6294
92342996|NCT04249427|184588816|EQUIVALENCE|Test if the change in mean number of days with significant mid-facial pain in Erenuman group differs from that in Placebo group.||||||0.96|||||||ANOVA|||||||0.96
92342997|NCT04249427|184588817|EQUIVALENCE|Test if the change in SNOT-22 score in Erenuman group differs from that in Placebo group.||||||0.19|||||||ANOVA|||||||0.19
92342998|NCT04249427|184588818|EQUIVALENCE|Test if the change in Physical Function as Measured by Migraine Function Impact in Erenuman group differs from that in Placebo group.||||||0.06|||||||ANOVA|||||||0.06
92342999|NCT04249427|184588819|EQUIVALENCE|Test if the change in Usual Activities as Measured by Migraine Function Impact in Erenuman group differs from that in Placebo group.||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92343000|NCT04249427|184588820|EQUIVALENCE|Test if the change in Social Function as Measured by Migraine Function Impact in Erenuman group differs from that in Placebo group.||||||0.058|||||||ANOVA|||||||0.058
92343001|NCT04249427|184588821|EQUIVALENCE|Test if the change in Emotional Function as Measured by Migraine Function Impact in Erenuman group differs from that in Placebo group.||||||0.02|||||||ANOVA|||||||0.02
92343002|NCT04249427|184588822|EQUIVALENCE|Test if the change in Overall Impact (global) as Measured by Migraine Function Impact in Erenuman group differs from that in Placebo group.||||||0.0036|||||||ANOVA|||||||0.0036
92343003|NCT04249427|184588823|EQUIVALENCE|Test if the change of average number of days per month with significant nasal congestion in Erenuman group differs from that in Placebo group.||||||0.83|||||||ANOVA|||||||0.83
92343004|NCT04249427|184588824|EQUIVALENCE|Test if the change of average number of days per month with significant significant rhinorrhea in Erenuman group differs from that in Placebo group||||||0.83|||||||ANOVA|||||||0.83
92343005|NCT04249427|184588825|EQUIVALENCE|Test if the change in doses of rescue pain medications in Erenuman group differs from that in Placebo group.||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.35
92343006|NCT04249427|184588826|EQUIVALENCE|Test if the change from baseline in mean daily pain score in Erenuman group differs from that in Placebo group.||||||0.85|||||||Wilcoxon (Mann-Whitney)|||||||0.85
92343007|NCT03886272|184588827|OTHER||Adjusted Geometric Mean Ratio (T1/R1)[%]|112.96||||0.0413|TWO_SIDED|90.0|102.7|124.26||P-value for ratio outside 80% -125%.|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as: T1/R1. Intra-individual geometric coefficient of variation (gCV) = 14.2|Relative bioavailability||124.26|102.70|0.0413
92343008|NCT03886272|184588827|OTHER||Adjusted Geometric Mean Ratio (T2/R2)[%]|115.49||||0.0776|TWO_SIDED|90.0|105.23|126.74||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as T2/R2. Intra-individual geometric coefficient of variation (gCV) = 13.9.|Relative bioavailability||126.74|105.23|0.0776
92157770|NCT03389893|184202291|SUPERIORITY||Slope|-0.29||||0.461|TWO_SIDED|95.0|-1.09|0.5|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 42||0.50|-1.09|0.461
92343009|NCT03886272|184588827|OTHER||Adj. Geometric Mean Ratio (T3c/R3) [%]|78.05||||0.6443|TWO_SIDED|90.0|69.71|87.38||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as Tc3/R3. Intra-individual geometric coefficient of variation (gCV) = 17.6.|Relative bioavailability||87.38|69.71|0.6443
92343010|NCT03886272|184588827|OTHER||Adj. Geometric Mean Ratio (T3u/R3) [%]|45.97||||1|TWO_SIDED|90.0|41.05|51.48||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as T3u/R3. Intra-individual geometric coefficient of variation (gCV) = 17.6.|Relative bioavailability||51.48|41.05|1.00
92343011|NCT03886272|184588828|OTHER||Adjusted Geometric Mean Ratio (T1/R1)[%]|144.62||||0.9485|TWO_SIDED|90.0|124.82|167.57||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as T1/R1. Intra-individual geometric coefficient of variation (gCV) = 22.1|Relative bioavailability||167.57|124.82|0.9485
92343012|NCT03886272|184588828|OTHER||Adjusted Geometric Mean Ratio (T2/R2)[%]|129.69||||0.7813|TWO_SIDED|90.0|119.51|140.73||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The adjusted geometric mean is geometric mean adjusted by treatment. Ratio is calculated as T2/R2. Intra-individual geometric coefficient of variation (gCV) = 12.2.|Relative Bioavailability||140.73|119.51|0.7813
92343013|NCT03886272|184588828|OTHER||Adj. Geometric Mean Ratio (T3c/R3) [%]|75.09||||0.7616|TWO_SIDED|90.0|64.58|87.32||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as = T3c/3. Intra-individual geometric coefficient of variation (gCV) = 23.5.|Relative Bioavailability||87.32|64.58|0.7616
92343014|NCT03886272|184588828|OTHER||Adj. Geometric Mean Ratio (T3u/R3) [%]|41.45||||1|TWO_SIDED|90.0|35.61|48.25||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as = T3u/R3. Intra-individual geometric coefficient of variation = 23.5.|Relative Bioavailability||48.25|35.61|1.00
92343015|NCT03886272|184588829|OTHER||Adjusted Geometric Mean Ratio (T1/R1)[%]|111.11|STANDARD_DEVIATION|11.5||0.0092|TWO_SIDED|90.0|102.87|120.01||P-value for ratio outside 80% - 125%.|ANOVA|The model included fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as T1/R1. Intra-individual geometric coefficient of variation (gCV) = 17.6.|Relative Bioavailability||120.01|102.87|0.0092
92343016|NCT03886272|184588829|OTHER||Adjusted Geometric Mean Ratio (T2/R2)[%]|114.13||||0.0442|TWO_SIDED|90.0|104.58|124.56||P-value for ratio outside 80% - 125%.|ANOVA|The model included fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as = T2/R2. Intra-individual geometric coefficient of variation (gCV) = 13.0.|Relative Bioavailability||124.56|104.58|0.0442
92157771|NCT03389893|184202291|SUPERIORITY||Slope|-0.27||||0.345|TWO_SIDED|95.0|-0.84|0.3|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 77, Lesional||0.30|-0.84|0.345
92343017|NCT03886272|184588829|OTHER||Adj. Geometric Mean Ratio (T3c/R3) [%]|80.1||||0.4928|TWO_SIDED|90.0|71.54|89.68||P-value for ratio outside 80% - 125%|ANOVA|The model included fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as = T3c/R3. Intra-individual geometric coefficient of variation (gCV) = 17.6.|Relative Bioavailability||89.68|71.54|0.4928
92343018|NCT03886272|184588829|OTHER||Adj. Geometric Mean Ratio (T3u/R3) [%]|48.83||||1|TWO_SIDED|90.0|43.6|54.69||P-value for ratio outside 80% - 125%.|ANOVA|The model included fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as T3u/R3. Intra-individual geometric coefficient of variation (gCV) = 17.6.|Relative Bioavailability||54.69|43.60|1.00
92343019|NCT01091246|184588830|NON_INFERIORITY_OR_EQUIVALENCE|The noninferior immune response was assessed by evaluating the upper bound of the two-sided 95% confidence intervals for the strain specific HAI antibody GMT ratios (FluMist divided by Q/LAIV) to the noninferiority margin of 1.5.|Ratio of geometric mean|1.07|||||TWO_SIDED|95.0|0.98|1.16|||Bootstrapping|||A/H1N1: The statistical hypothesis testing for the primary endpoint for Q/LAIV was: H0: Rj \> 1.5, for any j HA: Rj ≤ 1.5, for all j Where Rj was any of the 4 strain-specific post immunogenicity dose GMT ratios: (FluMist/B/Yamagata + FluMist/B/Victoria) / (Q/LAIV) for A/H1N1 strain||1.16|0.98|
92343020|NCT01091246|184588830|NON_INFERIORITY_OR_EQUIVALENCE|The noninferior immune response was assessed by evaluating the upper bound of the two-sided 95% confidence intervals for the strain specific HAI antibody GMT ratios (FluMist divided by Q/LAIV) to the noninferiority margin of 1.5. If the upper bounds of 95% CIs were ≤ 1.5 for all 4 strains, the immunologic noninferiority of Q/LAIV compared to FluMist was declared.|Ratio of geometric means|1.04|||||TWO_SIDED|95.0|0.94|1.14|||Bootstrapping|||A/H3N2: The statistical hypothesis testing for the primary endpoint for Q/LAIV was: H0: Rj \> 1.5, for any j HA: Rj ≤ 1.5, for all j Where Rj was any of the 4 strain-specific post immunogenicity dose GMT ratios: (FluMist/B/Yamagata + FluMist/B/Victoria) / (Q/LAIV) for A/H3N2 strain||1.14|0.94|
92343021|NCT01091246|184588830|NON_INFERIORITY_OR_EQUIVALENCE|The noninferior immune response was assessed by evaluating the upper bound of the two-sided 95% confidence intervals for the strain specific HAI antibody GMT ratios (FluMist divided by Q/LAIV) to the noninferiority margin of 1.5. If the upper bounds of 95% CIs were ≤ 1.5 for all 4 strains, the immunologic noninferiority of Q/LAIV compared to FluMist was declared.|Ratio of geometric mean|1.21|||||TWO_SIDED|95.0|1.07|1.37||||||B/Yamagata: The statistical hypothesis testing for the primary endpoint for Q/LAIV was: H0: Rj \> 1.5, for any j HA: Rj ≤ 1.5, for all j Where Rj was any of the 4 strain-specific post immunogenicity dose GMT ratios: (FluMist/B/Yamagata) / (Q/LAIV) for B/Yamagata strain||1.37|1.07|
92343022|NCT01091246|184588830|NON_INFERIORITY_OR_EQUIVALENCE|The noninferior immune response was assessed by evaluating the upper bound of the two-sided 95% confidence intervals for the strain specific HAI antibody GMT ratios (FluMist divided by Q/LAIV) to the noninferiority margin of 1.5. If the upper bounds of 95% confidence intervals were ≤ 1.5 for all 4 strains, the immunologic noninferiority of Q/LAIV compared to FluMist was declared.|Ratio of geometric mean|1.05|||||TWO_SIDED|95.0|0.93|1.18||||||B/Victoria: The statistical hypothesis testing for the primary endpoint for Q/LAIV was: H0: Rj \> 1.5, for any j HA: Rj ≤ 1.5, for all j Where Rj was any of the 4 strain-specific post immunogenicity dose GMT ratios: (FluMist/B/Victoria) / (Q/LAIV) for B/Victoria strain||1.18|0.93|
92343023|NCT02848664|184588971|OTHER|Same DOSS score before and after device use for 3 months or improved DOSS score after device use for 3 months|||||<|0.025||||||p values adjusted for multiple comparisons (two outcome measures)|Wilcoxon (Mann-Whitney)|||Examined change in DOSS for each participant from before to after three months of device use. Examined numbers of participants who showed either worsening of DOSS, no improvement in DOSS or improvement of DOSS.||||<0.025
92343024|NCT02848664|184588972|EQUIVALENCE|Examination of whether the level of swallowing handicap is changed following device use|Mean Difference (Net)|22.571||||0.016|TWO_SIDED|95.0|6.003|39.14|||t-test, 2 sided|||||39.140|6.003|0.016
92343025|NCT02848664|184588973|EQUIVALENCE|whether the degree of laryngeal elevation relative to hyoid elevation became greater or less after device use for 3 months||||||0.046|||||||t-test, 2 sided|||||||0.046
92343026|NCT02848664|184588974|EQUIVALENCE|pairwise comparison within subject comparing baseline with 3 months post device use|Mean Difference (Final Values)|-52.78||||0.037|TWO_SIDED|95.0|-100.751|-4.809|||ANOVA|||||-4.809|-100.751|0.037
92157772|NCT03389893|184202291|SUPERIORITY||Slope|-0.27||||0.275|TWO_SIDED|95.0|-0.77|0.23|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 112||0.23|-0.77|0.275
92343027|NCT04794751|184588992|NON_INFERIORITY|Non-Inferiority was declared if the upper limit of the 95% confidence interval of the LSM difference between the Test and Control was below 0.05 logMAR.|least-square mean difference|-0.018|STANDARD_ERROR_OF_MEAN|0.0106|||TWO_SIDED|95.0|-0.039|0.002|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control|Distance (4m)||0.002|-0.039|
92343028|NCT04794751|184588992|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 95% confidence interval of the LSM difference between the Test and Control was below 0.05 logMAR.|least-square mean difference|-0.007|STANDARD_ERROR_OF_MEAN|0.0127|||TWO_SIDED|95.0|-0.032|0.018|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control|Intermediate (64cm)||0.018|-0.032|
92343029|NCT04794751|184588992|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 95% confidence interval of the LSM difference between the Test and Control was below 0.05 logMAR.|least-square mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.0124|||TWO_SIDED|95.0|-0.034|0.015|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control|Near (40cm)||0.015|-0.034|
92405624|NCT01106690|184701432|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-4.07|STANDARD_ERROR_OF_MEAN|1.43||0.005|TWO_SIDED|95.0|-6.879|-1.251|||ANCOVA|||||-1.251|-6.879|0.005
92405625|NCT01106690|184701432|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.46|STANDARD_ERROR_OF_MEAN|1.433||0.016|TWO_SIDED|95.0|-6.281|-0.643|||ANCOVA|||||-0.643|-6.281|0.016
92157773|NCT01925170|184202326|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison of the two groups for all densities, significant difference p ≤ 0.05.||||<0.001
92343030|NCT04794751|184588993|NON_INFERIORITY|Non-inferiority was declared if the lower limit of the 95% confidence interval for the least-square mean difference was greater than -5.|least-square mean difference|0.1|STANDARD_ERROR_OF_MEAN|2.34|||TWO_SIDED|95.0|-4.6|4.8|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control|||4.8|-4.6|
92399423|NCT02898454|184690242|SUPERIORITY|Hierarchical testing procedure was used to control type I error. For regions outside of Japan, this first secondary endpoint was not tested unless both co-primary endpoints were significant at the 0.05 level. Hierarchical testing continued only when previous endpoint was statistically significant. For Japan submission, LMK was instead a co-primary endpoint which also had to be met before secondary endpoints were tested in the hierarchy. Last endpoint in hierarchy is Week 52 SNOT-22.|LS mean difference|-5.13|||<|0.0001|TWO_SIDED|95.0|-5.8|-4.46||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-4.46|-5.80|<0.0001
92399424|NCT02898454|184690243|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-2.44|||<|0.0001|TWO_SIDED|95.0|-2.87|-2.02||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline value, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-2.02|-2.87|<0.0001
92343031|NCT02360488|184588994|NON_INFERIORITY|The trial aimed to establish comparable efficacy based upon a non-inferiority margin of 30% of the change in Fugl-Meyer score in the In-Clinic group. Under these assumptions at alpha=0.05 and assuming SD=3.8 points, 124 subjects would need to be enrolled to provide 85% power; this sample was pursued independent of subject dropouts.|Mean Difference (Net)|0.06||||0.96|TWO_SIDED|95.0|-2.14|2.26|||Regression, Linear|The model was adjusted for study site, age, time post-stroke, stroke subtype, and baseline Fugl-Meyer score.||||2.26|-2.14|.96
92343032|NCT01328964|184589002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.51|0.974||The p-value is a comparison of the combined hospitalization/emergency department visit endpoint|Regression, Cox|||||0.974|0.51|<0.0001
92343033|NCT01328964|184589003|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.0|||<|0.001|TWO_SIDED|95.0|-19.0|-9.0||P-value is based on the differences in the total monthly asthma costs|Regression, Linear|||||-9|-19|<0.001
92343034|NCT01328964|184589004|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.751||||0.0495|TWO_SIDED|95.0|0.565|0.999||P-value is based on the comparison of combined endpoint of hospitalization/emergency department visits|Regression, Cox|||||0.999|0.565|0.0495
92343035|NCT01328964|184589005|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.0|||<|0.0001|TWO_SIDED|95.0|-28.0|-27.0||P-value is based on difference in total monthly asthma costs|Regression, Linear|||||-27|-28|<0.0001
92343036|NCT00369343|184589023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.32|||<|0.001||95.0|2.53|6.11|||Mixed Models Analysis|Mixed Models Repeated Measures (MMRM) used baseline as a covariate and factors for center, week and treatment.|DVS SR adjusted mean change minus placebo adjusted mean change.|||6.11|2.53|<0.001
92343037|NCT00369343|184589024|SUPERIORITY_OR_OTHER||||||<|0.001||||||DVS SR compared to Placebo for CGI-I scores of either 1 (very much improved) or 2 (much improved).|Cochran-Mantel-Haenszel|||||||<0.001
92405626|NCT01106690|184701433|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-12.1|STANDARD_ERROR_OF_MEAN|5.7||0.034|TWO_SIDED|95.0|-12.1|-0.9|||ANCOVA|||||-0.9|-12.1|0.034
92405627|NCT01106690|184701433|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-16.9|STANDARD_ERROR_OF_MEAN|5.7||0.003|TWO_SIDED|95.0|-28.1|-5.8|||ANCOVA|||||-5.8|-28.1|0.003
92405628|NCT01106690|184701434|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|4.8|STANDARD_ERROR_OF_MEAN|1.9||0.01|TWO_SIDED|95.0|1.2|8.5|||ANCOVA|||||8.5|1.2|0.010
92217449|NCT01480284|184335075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.4|0.39|||||CI and estimate difference is provided for change from Baseline in serum HBV DNA level at Week 48.|||0.39|-0.40|
92217450|NCT04746833|184335086|EQUIVALENCE|mean of Summit will be equal to mean of control||||||0.91|||||||t-test, 2 sided|||||||.91
92217451|NCT04746833|184335087|OTHER|||||||||||||||||descriptive statistic of system use|simple descriptive findings for evaluation of feasibility of the Sumit app|||
92217452|NCT04746833|184335088|EQUIVALENCE|standard null hypothesis of no difference between groups||||||0.5|||||||t-test, 2 sided|||||||.50
92343038|NCT00369343|184589025|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.132||||0.008||95.0|1.22|3.74||DVS SR compared with Placebo.|Chi-squared|Logistic regression model with treatment and site as factors and baseline score as a covariate.|Adjusted odds ratio of DVS SR to Placebo. Odds ratio adjusted for baseline, treatment and site.|||3.74|1.22|0.008
92343039|NCT00369343|184589026|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.125|||<|0.001||95.0|1.85|5.27||DVS SR compared with Placebo.|Chi-squared|Logistic regression model with treatment and site as factors and baseline score as a covariate.|Adjusted odds ratio of DVS SR to Placebo. Odd ratio adjusted for baseline, treatment and site.|||5.27|1.85|<0.001
92343040|NCT00369343|184589027|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.74|||<|0.001||95.0|1.24|4.23||Mixed model Repeated Measures (MMRM) analysis adjusted mean score for baseline score, time and center.|Mixed Models Analysis||Adjusted mean difference = Placebo adjusted mean score minus DVS SR adjusted mean score.|||4.23|1.24|<0.001
92343041|NCT00369343|184589028|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12|||<|0.001||95.0|-0.18|-0.06||Mixed Model Repeated Measures (MMRM) with treatment and site as factors and baseline as covariate.|Mixed Models Analysis||Adjusted mean difference = Placebo adjusted mean score minus DVS SR adjusted mean score.|||-0.06|-0.18|<0.001
92343042|NCT00369343|184589035|SUPERIORITY_OR_OTHER|||||||0.553||||||t-test adjusted by multiple comparison|t-test, 2 sided|||100mg vs. Placebo (0mg) post taper||||0.553
92343043|NCT00369343|184589035|SUPERIORITY_OR_OTHER|||||||0.034||||||t-test adjusted by multiple comparison|t-test, 2 sided|||200mg vs. Placebo (0mg) post taper||||0.034
92343044|NCT01621009|184589052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61|||>|0.05|TWO_SIDED|95.0|0.78|3.36|||Regression, Logistic|||||3.36|.78|>0.05
92343045|NCT01621009|184589052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13|||>|0.05|TWO_SIDED|95.0|0.52|2.44|||Regression, Logistic|||||2.44|.52|>0.05
92217453|NCT04013789|184335101|NON_INFERIORITY|The noninferiority margin was set at 0.05.|Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.006|||ONE_SIDED|95.0||0.03|||Mixed Effects Repeated Measures Model||DACP FreshTech minus DACP|||0.03||
92217454|NCT01488279|184335103|SUPERIORITY||Mean Difference (Net)|-10.8|STANDARD_ERROR_OF_MEAN|480.8||0.983|TWO_SIDED|95.0|-1147.6|1126.0|||ANOVA|||2X2 crossover design with baseline values. To compare the means between Sitagliptin and Placebo, a sequential three step testing process used. The results of the third step, the direct treatment comparisons are presented.||1126.0|-1147.6|.983
92217455|NCT01488279|184335106|SUPERIORITY||Mean Difference (Net)|-0.008|STANDARD_ERROR_OF_MEAN|1.935||0.997|TWO_SIDED|95.0|-4.585|4.568|||ANOVA|||||4.568|-4.585|.997
92217456|NCT01488279|184335107|SUPERIORITY||Mean Difference (Net)|-38.9|STANDARD_ERROR_OF_MEAN|49.9||0.46|TWO_SIDED|95.0|-156.9|79.0|||ANOVA|||||79.0|-156.9|.460
92217457|NCT03593850|184335108|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.002
92217458|NCT03593850|184335109|EQUIVALENCE|Equivalence analysis was performed according to pre-defined significant difference of p \< 0.01||||||0.392|||||||t-test, 2 sided|||||||0.392
92217459|NCT03593850|184335110|EQUIVALENCE|Equivalence analysis was performed according to pre-defined significant difference of p \< 0.01||||||0.802|||||||t-test, 2 sided|||||||0.802
92217460|NCT03593850|184335111|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92217461|NCT03593850|184335111|SUPERIORITY||Adjusted mean difference|1.429||||0.006|TWO_SIDED||||||ANCOVA|Fixed factors: group, covariates: pain before (VAS2), age in years, age at menarche, duration of menses, usual pain, anxiety before, hours with pain.|||Adjusted means: music 3.131 (99% CI 2.62, 3.999) and silence 4.56 (99% CI 3.581, 5.538), F= 8.44, R-square 54.5%|||0.006
92217462|NCT03593850|184335112|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
92217463|NCT03593850|184335112|SUPERIORITY||Adjusted mean difference|0.721||||0.37|TWO_SIDED||||||ANCOVA|Fixed factor: Groups Covariates: Pain before, pain after, age, age menarche, menses duration, usual pain, anxiety before, anxiety after, hours pain|Adjusted means: music 2.58 (99% CI 1.339, 3.829), and silence 3.305 (1.728, 4.881); F 0.827, R-square 27.2%|||||0.370
92217464|NCT03593850|184335113|EQUIVALENCE|Equivalence between groups was pre-defined as p \> 0.01||||||0.377|||||||t-test, 2 sided|||||||0.377
92217465|NCT03593850|184335114|SUPERIORITY|||||||0.049|||||||t-test, 2 sided|||||||0.049
92217466|NCT03593850|184335115|SUPERIORITY|||||||0.168|||||||t-test, 2 sided|||||||0.168
92217467|NCT03593850|184335116|EQUIVALENCE|Equivalence between groups was pre-defined as p \> 0.01||||||0.642|||||||Chi-squared|||||||0.642
92217468|NCT03593850|184335117|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.02
92217469|NCT03593850|184335118|SUPERIORITY|||||||0.025|||||||Chi-squared|||||||0.025
92217470|NCT03593850|184335119|EQUIVALENCE|Equivalence between groups determined by pre-deined p \> 0.01||||||0.307|||||||t-test, 2 sided|||||||0.307
92217471|NCT03593850|184335120|EQUIVALENCE|Equivalence between groups determined by pre-deined p \> 0.01||||||0.318|||||||t-test, 2 sided|||||||0.318
92217472|NCT03593850|184335121|EQUIVALENCE|Equivalence between groups determined by pre-deined p \> 0.01||||||0.954|||||||t-test, 2 sided|||||||0.954
92217473|NCT03593850|184335122|EQUIVALENCE|Equivalence between groups determined by pre-deined p \> 0.01||||||0.258|||||||t-test, 2 sided|||||||0.258
92217474|NCT03593850|184335123|SUPERIORITY|||||||0.058|||||||t-test, 2 sided|||||||0.058
92217475|NCT03593850|184335124|SUPERIORITY|||||||0.056|||||||t-test, 2 sided|||||||0.056
92217476|NCT03593850|184335125|SUPERIORITY|||||||0.885|||||||t-test, 2 sided|||||||0.885
92217477|NCT03593850|184335126|SUPERIORITY|||||||0.036|||||||t-test, 2 sided|||||||0.036
92217478|NCT00119041|184335150|SUPERIORITY_OR_OTHER||||||>|0.153|TWO_SIDED|||||Threshold for statistical significance was p\<0.025 using Bonferroni correction for 2 statistical tests.|t-test, 2 sided|||Comparisons were made between the intervention and control groups at baseline||||>0.153
92217479|NCT00119041|184335150|SUPERIORITY_OR_OTHER||||||>|0.25|TWO_SIDED|||||Threshold for statistical significance was p\<0.025 using Bonferroni correction for 2 statistical tests.|t-test, 2 sided|Threshold for statistical significance was p\<0.025 using Bonferroni correction for 2 statistical tests.||Comparisons were made between the intervention and control groups at 18 months||||>0.25
92217480|NCT04784897|184335157|SUPERIORITY||Cox Proportional Hazard|0.9289||||0.7273|TWO_SIDED|90.0|0.6585|1.3102|||Log Rank|||Main comparison is between Brilacidin 5-dose and Pooled Placebo||1.3102|0.6585|0.7273
92217481|NCT04784897|184335157|SUPERIORITY||Cox Proportional Hazard|0.8968||||0.5975|TWO_SIDED|90.0|0.5464|1.472|||Log Rank|||Secondary comparison between Brilacidin 3-dose and Pooled Placebo||1.4720|0.5464|0.5975
92217482|NCT00324753|184335176|SUPERIORITY|||||||0.005||||||p-value based on a test of any treatment difference by site.|Mixed Models Analysis|The model was run using the xtlogit command in Stata and was adjusted for all of the reported baseline characteristics.||||||.005
92217483|NCT02170779|184335184|SUPERIORITY_OR_OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.84
92217484|NCT02170779|184335185|SUPERIORITY_OR_OTHER|||||||0.738|||||||Wilcoxon (Mann-Whitney)|||||||0.738
92217485|NCT02170779|184335186|SUPERIORITY_OR_OTHER|||||||0.8434|||||||Wilcoxon (Mann-Whitney)|||||||0.8434
92217486|NCT02170779|184335187|SUPERIORITY_OR_OTHER|||||||0.638|||||||Wilcoxon (Mann-Whitney)|||||||0.638
92217487|NCT02170779|184335188|SUPERIORITY_OR_OTHER|||||||0.492|||||||Wilcoxon (Mann-Whitney)|||||||0.492
92217488|NCT02170779|184335189|SUPERIORITY_OR_OTHER|||||||0.144|||||||Wilcoxon (Mann-Whitney)|||This analysis refers to the physical component of the MSIS-29||||0.144
92217489|NCT02170779|184335189|SUPERIORITY_OR_OTHER|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||This refers to the psychological analysis for the MSIS-29.||||0.953
92217490|NCT02170779|184335190|SUPERIORITY_OR_OTHER|||||||0.915|||||||Wilcoxon (Mann-Whitney)|||||||0.915
92217491|NCT02170779|184335191|SUPERIORITY_OR_OTHER|||||||0.023|||||||Wilcoxon (Mann-Whitney)|||||||0.023
92217492|NCT02170779|184335192|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92217493|NCT02367066|184335193|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.02||0.02|TWO_SIDED|80.0|0.9|0.98||1-sided|Mixed Models Analysis|||||0.98|0.90|0.02
92275075|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.07|||||TWO_SIDED|95.0|-47.95|27.8||||||For change in health care satisfaction at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||27.80|-47.95|
92343046|NCT02322749|184589053|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% confidence intervals for both AUC and Cmax were entirely contained within the limits 80.00% to 125.00% then bioequivalence was concluded.|Geometric Least Squares (LS) Mean Ratio|9.32|||||TWO_SIDED|90.0|8.25|10.53|||||Selumetinib: Ratio of Treatment B to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||10.53|8.25|
92275076|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.61|||||TWO_SIDED|95.0|-21.78|14.57||||||For change in sexual functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||14.57|-21.78|
92275077|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.98|||||TWO_SIDED|95.0|-17.02|28.99||||||For change in ascites at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||28.99|-17.02|
92275078|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.08|||||TWO_SIDED|95.0|-5.39|49.55||||||For change in indigestion at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||49.55|-5.39|
92275079|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.78|||||TWO_SIDED|95.0|-15.33|34.89||||||For change in flatulence at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||34.89|-15.33|
92275080|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.81|||||TWO_SIDED|95.0|-10.43|42.06||||||For change in cachexia at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||42.06|-10.43|
92275081|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.77|||||TWO_SIDED|95.0|1.11|42.43||||||For change in side effects at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||42.43|1.11|
92275082|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.81|||||TWO_SIDED|95.0|-41.91|12.28||||||For change in fear of future health at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||12.28|-41.91|
92275083|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.11|||||TWO_SIDED|95.0|1.6|60.62||||||For change in ability to plan future at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||60.62|1.60|
92275084|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.74|||||TWO_SIDED|95.0|-20.62|38.1||||||For change in pancreatic pain at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||38.10|-20.62|
92275085|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.24|||||TWO_SIDED|95.0|-68.52|42.05||||||For change in eating related items at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||42.05|-68.52|
92275086|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.06|||||TWO_SIDED|95.0|-7.93|52.05||||||For change in altered bowel habits at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||52.05|-7.93|
92275087|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.63|||||TWO_SIDED|95.0|-5.64|42.89||||||For change in jaundice at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||42.89|-5.64|
92275088|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.96|||||TWO_SIDED|95.0|-9.93|57.84||||||For change in body image at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||57.84|-9.93|
92275089|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.54|||||TWO_SIDED|95.0|-32.7|59.78||||||For change in health care satisfaction at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||59.78|-32.70|
92275090|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.14|||||TWO_SIDED|95.0|-29.46|55.74||||||For change in sexual functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||55.74|-29.46|
92275091|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.37|||||TWO_SIDED|95.0|-24.04|36.79||||||For change in ascites at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||36.79|-24.04|
92275092|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.59|||||TWO_SIDED|95.0|-17.94|59.12||||||For change in indigestion at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||59.12|-17.94|
92275093|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.29|||||TWO_SIDED|95.0|-20.12|40.71||||||For change in flatulence at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||40.71|-20.12|
92275094|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.74|||||TWO_SIDED|95.0|-8.22|59.69||||||For change in cachexia at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||59.69|-8.22|
92275095|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.56|||||TWO_SIDED|95.0|5.32|71.81||||||For change in side effects at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||71.81|5.32|
92275096|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.44|||||TWO_SIDED|95.0|-53.14|44.25||||||For change in fear of future health at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||44.25|-53.14|
92275097|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.17|||||TWO_SIDED|95.0|-69.9|61.57||||||For change in ability to plan future at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||61.57|-69.90|
92275098|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.96|||||TWO_SIDED|95.0|-24.52|50.45||||||For change in pancreatic pain at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||50.45|-24.52|
92405629|NCT01106690|184701434|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|6.5|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|2.8|10.2|||ANCOVA|||||10.2|2.8|<0.001
92157774|NCT01925170|184202326|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Comparison of two groups for all densities; significant difference p ≤ 0.05.||||0.004
92275099|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.15|||||TWO_SIDED|95.0|-76.41|30.11||||||For change in eating related items at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||30.11|-76.41|
92343047|NCT02322749|184589054|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% confidence intervals for both AUC and Cmax were entirely contained within the limits 80.00% to 125.00% then bioequivalence was concluded.|Geometric LS Mean Ratio|24.26|||||TWO_SIDED|90.0|22.62|26.03|||||Selumetinib: Ratio of Treatment B to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||26.03|22.62|
92157775|NCT01925170|184202327|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||<0.001
92157776|NCT01925170|184202327|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||McNemar|||Significant difference p ≤ 0.05||||<0.0001
92217494|NCT02367066|184335194|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.96|STANDARD_ERROR_OF_MEAN|0.03||0.06|TWO_SIDED|80.0|0.92|0.99||1-sided|Mixed Models Analysis|||||0.99|0.92|0.06
92217495|NCT02367066|184335195|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.99|STANDARD_ERROR_OF_MEAN|0.03||0.41|TWO_SIDED|80.0|0.96|1.03||1-sided|Mixed Models Analysis|||||1.03|0.96|0.41
92217496|NCT02367066|184335196|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.05||0.06|TWO_SIDED|80.0|0.85|0.99||1-sided|Mixed Models Analysis|||||0.99|0.85|0.06
92217497|NCT02367066|184335197|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.04||0.18|TWO_SIDED|80.0|0.99|1.13||1-sided|Mixed Models Analysis|||||1.13|0.99|0.18
92217498|NCT02367066|184335198|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.04||0.04|TWO_SIDED|80.0|0.89|0.98||1-sided|Mixed Models Analysis|||||0.98|0.89|0.04
92217499|NCT02367066|184335200|SUPERIORITY_OR_OTHER||Geometric LS MEan Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.05||0.37|TWO_SIDED|80.0|0.91|1.06||1-sided|Mixed Models Analysis|||||1.06|0.91|0.37
92217500|NCT02367066|184335202|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.01||0.06|TWO_SIDED|80.0|1.0|1.04||1-sided|Mixed Models Analysis|||||1.04|1.00|0.06
92217501|NCT02367066|184335203|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.01||0.45|TWO_SIDED|90.0|-0.01|0.03||2-sided|Mixed Models Analysis|||||0.03|-0.01|0.45
92217502|NCT01353079|184335240|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.834|||<|0.05|TWO_SIDED|95.0|-1.298|-0.369|||ANCOVA|||||-0.369|-1.298|<0.05
92217503|NCT01353079|184335241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.857|||<|0.05|TWO_SIDED|95.0|-1.388|-0.326|||ANCOVA|||||-0.326|-1.388|<0.05
92217504|NCT01353079|184335242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.771|||<|0.05|TWO_SIDED|95.0|-1.213|-0.329|||ANCOVA|||||-0.329|-1.213|<0.05
92217505|NCT01353079|184335243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.788|||<|0.05|TWO_SIDED|95.0|-1.291|-0.284|||ANCOVA|||||-0.284|-1.291|<0.05
92217506|NCT02347488|184335259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_DEVIATION|1.8|<|0.001|TWO_SIDED|95.0|2.88|3.32|||ANCOVA|||Average displacement difference in cm, tape vs. tube-holder. 17 participants was the estimated enrollment needed to detect a difference of 1 SD from the mean between the 2 fixation techniques at 80% power; additional enrollment was included to increase the power of results and to include a larger variety of patients undergoing different surgical procedures.||3.32|2.88|<0.001
92217507|NCT05293743|184335276|EQUIVALENCE|This analysis uses Welch's t-tests to calculate statistical significance, given the different variances and sample sizes of the populations.||||||0.67||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of Freedom = 3.82.||The null hypothesis is that there is no difference in brace adherence fractions between the control arm and the experimental arm during the study's intervention period. In this test, brace wear was measured by parent-reported brace logs.||||0.67
92217508|NCT05293743|184335276|EQUIVALENCE|This analysis uses Welch's t-tests to calculate statistical significance, given the different variances and sample sizes of the populations.||||||0.23||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of Freedom = 3.70.||The null hypothesis is that there is no difference in brace adherence fractions between the control arm and the experimental arm during the study's intervention period. In this test, brace wear was measured by iButton temperature sensors.||||0.23
92157777|NCT01925170|184202328|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||< 0.001
92157778|NCT01925170|184202328|SUPERIORITY_OR_OTHER|||||||0.004|||||||McNemar|||Significant difference p ≤ 0.05||||0.004
92157779|NCT01925170|184202329|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||< 0.001
92157780|NCT01925170|184202329|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||<0.001
92217509|NCT05293743|184335277|EQUIVALENCE|This analysis uses Welch's t-tests to calculate statistical significance, given the different variances and sample sizes of the populations.||||||0.86||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of Freedom = 6.68.||The null hypothesis is that there is no difference in brace adherence fractions when the experimental arm is wearing the Dynamic Bar versus the Standard Bar during the study period. In this test, brace wear was measured by parent-reported brace logs.||||0.86
92217510|NCT05293743|184335277|EQUIVALENCE|This analysis uses Welch's t-tests to calculate statistical significance, given the different variances and sample sizes of the populations.||||||0.21||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of Freedom = 6.94.||The null hypothesis is that there is no difference in brace adherence fractions when the experimental arm is wearing the Dynamic Bar versus the Standard Bar during the study period. In this test, brace wear was measured by iButton temperature sensors.||||0.21
92275100|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.44|||||TWO_SIDED|95.0|-71.89|33.0||||||For change in altered bowel habits at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||33.00|-71.89|
92275101|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.22|||||TWO_SIDED|95.0|7.31|87.13||||||For change in jaundice at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||87.13|7.31|
92405630|NCT02683577|184701446|SUPERIORITY_OR_OTHER||Geometric least square (LS) mean ratio|1.695|||||TWO_SIDED|90.0|0.904|3.176|||||A repeated-measures analysis of variance (ANOVA) was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of mild HI group (Test) versus healthy control group (Reference) for Cmax values for telotristat ethyl.||3.176|0.904|
92275102|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.67|||||TWO_SIDED|95.0|-36.0|119.34||||||For change in body image at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||119.34|-36.00|
92275103|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.89|||||TWO_SIDED|95.0|-5.05|82.83||||||For change in health care satisfaction at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||82.83|-5.05|
92275104|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.14|||||TWO_SIDED|95.0|-2.09|66.37||||||For change in sexual functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||66.37|-2.09|
92275105|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.41|||||TWO_SIDED|95.0|-44.46|29.64||||||For change in indigestion at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||29.64|-44.46|
92275106|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.96|||||TWO_SIDED|95.0|-40.45|66.37||||||For change in flatulence at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||66.37|-40.45|
92275107|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.89|||||TWO_SIDED|95.0|-32.71|60.49||||||For change in cachexia at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||60.49|-32.71|
92275108|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.86|||||TWO_SIDED|95.0|-16.16|77.89||||||For change in side effects at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||77.89|-16.16|
92275109|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.83|||||TWO_SIDED|95.0|-44.95|86.62||||||For change in fear of future health at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||86.62|-44.95|
92275110|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.52|||||TWO_SIDED|95.0|-115.22|78.19||||||For change in ability to plan future at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||78.19|-115.22|
92275111|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.46|||||TWO_SIDED|95.0|-39.71|86.63||||||For change in pancreatic pain at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||86.63|-39.71|
92275112|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.96|||||TWO_SIDED|95.0|-130.69|104.76||||||For change in eating related items at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||104.76|-130.69|
92275113|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.15|||||TWO_SIDED|95.0|-7.12|103.42||||||For change in altered bowel habits at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||103.42|-7.12|
92275114|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|92.59|||||TWO_SIDED|95.0|63.16|122.02||||||For change in jaundice at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||122.02|63.16|
92275115|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56|||||TWO_SIDED|95.0|-85.03|96.14||||||For change in body image at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||96.14|-85.03|
92275116|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.04|||||TWO_SIDED|95.0|-29.46|103.54||||||For change in health care satisfaction at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||103.54|-29.46|
92275117|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.14|||||TWO_SIDED|95.0|-41.45|27.16||||||For change in sexual functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||27.16|-41.45|
92275118|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7|||||TWO_SIDED|95.0|-67.04|59.64||||||For change in ascites at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||59.64|-67.04|
92275119|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.41|||||TWO_SIDED|95.0|-104.79|89.97||||||For change in indigestion at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||89.97|-104.79|
92275120|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.22|||||TWO_SIDED|95.0|-58.8|103.25||||||For change in flatulence at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||103.25|-58.80|
92275121|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.78|||||TWO_SIDED|95.0|-36.28|91.83||||||For change in cachexia at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||91.83|-36.28|
92275122|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.11|||||TWO_SIDED|95.0|-74.3|96.52||||||For change in side effects at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||96.52|-74.30|
92275123|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.17|||||TWO_SIDED|95.0|-142.55|84.21||||||For change in fear of future health at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||84.21|-142.55|
92275124|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-55.56|||||TWO_SIDED|95.0|-212.46|101.35||||||For change in ability to plan future at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||101.35|-212.46|
92275125|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.67|||||TWO_SIDED|95.0|-62.93|96.26||||||For change in pancreatic pain at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||96.26|-62.93|
92275126|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.29|||||TWO_SIDED|95.0|-87.74|116.31||||||For change in eating related items at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||116.31|-87.74|
92275127|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.81|||||TWO_SIDED|95.0|7.9|139.72||||||For change in altered bowel habits at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||139.72|7.90|
92275128|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|76.19|||||TWO_SIDED|95.0|33.64|118.74||||||For change in jaundice at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||118.74|33.64|
92343048|NCT02322749|184589055|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% confidence intervals for both AUC and Cmax were entirely contained within the limits 80.00% to 125.00% then bioequivalence was concluded.|Geometric LS mean ratio|22.12|||||TWO_SIDED|90.0|20.65|23.69|||||Selumetinib: Ratio of Treatment B to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||23.69|20.65|
92343049|NCT02322749|184589056|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|12.93|||||TWO_SIDED|90.0|11.42|14.65|||||Selumetinib: Ratio of Treatment C to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||14.65|11.42|
92157781|NCT01925170|184202330|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||<0.001
92157782|NCT01925170|184202330|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||<0.001
92157783|NCT03862482|184202342|EQUIVALENCE|Intraclass Correlation Coefficient (ICC, two-way mixed-effect model) assessed inter- and intra-examiner reliability of bone level measurement on 20 radiographs. Dahlberg measurement error. Two-way, mixed effect model|Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|95.0|-1.22|-0.49||Bonferroni correction was applied for pairwise comparisons|ANOVA|Repeated measures ANOVA. Dahlberg measurement error||Total 35 Brånemark® implants analyzed for all Configurations. Size difference expected 0.95 bone level change between B/SW/SC. Sample size 16 participants ensured 80% power to reject null hypothesis (two-sided Bonferroni-adjusted α level 0.017, pairwise comparisons between implant groups). Repeated measures ANOVA. Mixed models, repeated measures within subject. Implant type/site/configuration independent variables (length covariate). (B/SW/SC lengths compared with Kruskal-Wallis test)||-0.49|-1.22|<0.05
92157784|NCT03862482|184202342|EQUIVALENCE|Intraclass Correlation Coefficient (ICC, two-way mixed-effect model) assessed inter- and intra-examiner reliability of bone level measurement on 20 radiographs. Dahlberg measurement error. Two-way, mixed effect model|Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|95.0|-1.35|-0.64||Bonferroni correction was applied for pairwise comparisons|ANOVA|Repeated measures ANOVA. Dahlberg measurement error||Total 36 Swede-Vent® implants analyzed for all Configurations. Size difference expected 0.95 bone level change between B/SW/SC. Sample size 16 participants ensured 80% power to reject null hypothesis (two-sided Bonferroni-adjusted α level 0.017, pairwise comparisons between implant groups). Repeated measures ANOVA. Mixed models, repeated measures within subject. Implant type/site/configuration independent variables (length covariate). (B/SW/SC lengths compared with Kruskal-Wallis test)||-0.64|-1.35|<0.05
92157785|NCT03862482|184202342|EQUIVALENCE|Intraclass Correlation Coefficient (ICC, two-way mixed-effect model) assessed inter- and intra-examiner reliability of bone level measurement on 20 radiographs. Dahlberg measurement error. Two-way, mixed effect model|Median Difference (Final Values)|-1.77|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|95.0|-2.13|-1.41||Bonferroni correction was applied for pairwise comparisons|ANOVA|Repeated measures ANOVA. Dahlberg measurement error||Total 36 Screw-Vent® implants analyzed for all Configurations. Size difference expected 0.95 bone level change between B/SW/SC. Sample size 16 participants ensured 80% power to reject null hypothesis (two-sided Bonferroni-adjusted α level 0.017, pairwise comparisons between implant groups). Repeated measures ANOVA. Mixed models, repeated measures within subject. Implant type/site/configuration independent variables (length covariate). (B/SW/SC lengths compared with Kruskal-Wallis test)||-1.41|-2.13|<0.05
92157786|NCT00994279|184202364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53|TWO_SIDED||||||Chi-squared|||Null hypothesis is that the two arms will not differ in retention at 14 weeks.||||.53
92157787|NCT00994279|184202365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98|TWO_SIDED||||||Mixed Models Analysis|||Null hypothesis is that the two groups would not differ in fatigue at 10 weeks.||||.98
92157788|NCT01606189|184202366|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.58||||0.005|TWO_SIDED|95.0|-0.98|-0.18|||ANOVA|||Box Scale-11 pain scores were compared between treatment groups using an analysis of variance (ANOVA). The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Box Scale-11 Pain Score = Patient + Treatment + Period||-0.18|-0.98|0.005
92157789|NCT01606189|184202366|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.64||||0.002|TWO_SIDED|95.0|-1.03|-0.24|||ANOVA|||Box Scale-11 pain scores were compared between treatment groups using an ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Box Scale-11 Pain Score = Patient + Treatment + Period||-0.24|-1.03|0.002
92157790|NCT01606189|184202367|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.2||||0.017|TWO_SIDED|95.0|-0.37|-0.04|||ANOVA|||Sleep disturbance scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Sleep disturbance Score = Patient + Treatment + Period||-0.04|-0.37|0.017
92157791|NCT01606189|184202367|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.49|-0.16|||ANOVA|||Sleep disturbance scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Sleep disturbance Score = Patient + Treatment + Period||-0.16|-0.49|<0.001
92275129|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.57|||||TWO_SIDED|95.0|-64.64|121.79||||||For change in body image at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||121.79|-64.64|
92343050|NCT02322749|184589057|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|26.2|||||TWO_SIDED|90.0|24.44|28.09|||||Selumetinib: Ratio of Treatment C to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||28.09|24.44|
92343051|NCT02322749|184589058|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|23.6|||||TWO_SIDED|90.0|22.02|25.3|||||Selumetinib: Ratio of Treatment C to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||25.30|22.02|
92275130|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.71|||||TWO_SIDED|95.0|-28.11|99.53||||||For change in health care satisfaction at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||99.53|-28.11|
92343052|NCT02322749|184589059|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|9.66|||||TWO_SIDED|90.0|8.5|10.97|||||N-desmethyl selumetinib: Ratio of Treatment B to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect|||10.97|8.5|
92343053|NCT02322749|184589059|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|13.04|||||TWO_SIDED|90.0|11.45|14.86|||||N-desmethyl selumetinib: Ratio of Treatment C to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||14.86|11.45|
92157792|NCT01606189|184202368|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.55||||0.019|TWO_SIDED|95.0|0.09|1.01|||ANOVA|||Sleep quality scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Sleep Quality Score = Patient + Treatment + Period||1.01|0.09|0.019
92157793|NCT01606189|184202368|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.79||||0.001|TWO_SIDED|95.0|0.33|1.24|||ANOVA|||Sleep quality scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Sleep Quality Score = Patient + Treatment + Period||1.24|0.33|0.001
92157794|NCT01606189|184202369|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.55||||0.146|TWO_SIDED|95.0|-3.64|0.55|||ANOVA|||Total pain intensity scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Total Pain Intensity Score = Patient + Treatment + Period||0.55|-3.64|0.146
92157795|NCT01606189|184202369|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.2||||0.04|TWO_SIDED|95.0|-4.29|-0.1|||ANOVA|||Total pain intensity scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Total Pain Intensity Score = Patient + Treatment + Period||-0.10|-4.29|0.040
92157796|NCT01606189|184202370|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-7.28||||0.092|TWO_SIDED|95.0|-15.78|1.21|||ANOVA|||Intensity of Pain scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Intensity of Pain Score = Patient + Treatment + Period||1.21|-15.78|0.092
92157797|NCT01606189|184202370|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-8.99||||0.037|TWO_SIDED|95.0|-17.41|-0.57|||ANOVA|||Intensity of Pain scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Intensity of Pain Score = Patient + Treatment + Period||-0.57|-17.41|0.037
92157798|NCT01606189|184202371|SUPERIORITY_OR_OTHER_LEGACY||Mann-Whitney U statistic|1222.0||||0.328||95.0|||||Wilcoxon (Mann-Whitney)|||Pain at present was analysed using the Mann-Whitney test with a correction for ties. Results were presented in terms of the sums of the ranks for the two groups, the Mann-Whitney U statistic and the associated p-value.||||0.328
92275131|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.33|||||TWO_SIDED|95.0|-104.01|77.34||||||For change in sexual functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||77.34|-104.01|
92343054|NCT02322749|184589060|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|11.31|||||TWO_SIDED|90.0|9.8|13.05|||||N-desmethyl selumetinib: Ratio of Treatment B to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||13.05|9.80|
92157799|NCT01606189|184202371|SUPERIORITY_OR_OTHER_LEGACY||Mann-Whitney U statistic|1200.5||||0.56||95.0|||||Wilcoxon (Mann-Whitney)|||Pain at present was analysed using the Mann-Whitney test with a correction for ties. Results were presented in terms of the sums of the ranks for the two groups, the Mann-Whitney U statistic and the associated p-value.||||0.560
92157800|NCT01606189|184202372|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.75||||0.181|TWO_SIDED|95.0|-4.32|0.83|||ANOVA|||Pain Disability Index scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Pain Disability Index Score = Patient + Treatment + Period||0.83|-4.32|0.181
92157801|NCT01606189|184202372|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.43||||0.739|TWO_SIDED|95.0|-2.12|2.98|||ANOVA|||Pain Disability Index scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Pain Disability Index Score = Patient + Treatment + Period||2.98|-2.12|0.739
92157802|NCT01606189|184202373|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.23||||0.015|TWO_SIDED|95.0|-4.01|-0.45|||ANOVA|||12-Item General Health Questionnaire scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: 12-Item General Health Questionnaire Score = Patient + Treatment + Period||-0.45|-4.01|0.015
92157803|NCT01606189|184202373|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.21||||0.178|TWO_SIDED|95.0|-2.97|0.56|||ANOVA|||12-Item General Health Questionnaire scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: 12-Item General Health Questionnaire Score = Patient + Treatment + Period||0.56|-2.97|0.178
92343055|NCT02322749|184589060|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|12.8|||||TWO_SIDED|90.0|11.07|14.8|||||N-desmethyl selumetinib: Ratio of Treatment C to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||14.80|11.07|
92343056|NCT01409239|184589065|SUPERIORITY_OR_OTHER|||||||0.05||||||Wilcoxon rank-sum was used to determine differences between groups.|Wilcoxon (Mann-Whitney)|||Since this was a pilot study no formal power analysis was possible. It was hypothesized that IV insulin would be associated with lower LF/HF HRV.||||0.05
92343057|NCT00490919|184589094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.225||0.0104|TWO_SIDED|95.0|-1.02|-0.14|||Mixed Models Analysis|Mixed effects general linear model with repeated measures.|Double-blind analysis (comparison between BTDS and placebo TDS) at week 12 of the double-blind phase.|Missing average pain over the last 24 hours scores after treatment discontinuation were imputed using BOCF for adverse event-related withdrawals and LOCF for withdrawals due to other reasons.||-0.14|-1.02|.0104
92343058|NCT00490919|184589095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.124|STANDARD_ERROR_OF_MEAN|0.0874||0.1586|TWO_SIDED|95.0|-0.296|0.048||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holms methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|ANCOVA||Mean comparison from weeks 2-12 of the double-blind phase.|||0.048|-0.296|.1586
92343059|NCT00490919|184589096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4|STANDARD_ERROR_OF_MEAN|1.605||0.0062|TWO_SIDED|95.0|-7.55|-1.25||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holms methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|Mixed Models Analysis|Mixed effects general linear model with repeated measures.|Treatment comparison over Weeks 4, 8, and 12.|The primary comparison between groups was based on estimates and contrasts for the weeks 4, 8, and 12 mean values.||-1.25|-7.55|.0062
92343060|NCT04265261|184589099|SUPERIORITY||Risk Difference (RD)|1.19||||0.8586|TWO_SIDED|95.0|-11.86|14.23|||Cochran-Mantel-Haenszel|||||14.23|-11.86|0.8586
92343061|NCT04265261|184589099|SUPERIORITY||Risk Difference (RD)|-2.93||||0.6388|TWO_SIDED|95.0|-15.18|9.31|||Cochran-Mantel-Haenszel|||||9.31|-15.18|0.6388
92343062|NCT01898078|184589112|SUPERIORITY_OR_OTHER||Least Squares Mean Ratio|0.97|||||TWO_SIDED|90.0|0.85|1.12|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the treatment effect, sequence effect, period effect and random terms for participants within sequence.|The confidence intervals are calculated for the difference in the LS means of the ln-transformed Cmax plain values (difference = Fed/Fasted). Antilogs of the confidence limits for the difference are taken to construct the confidence intervals for the ratio of the geometric means.||1.12|0.85|
92343063|NCT01898078|184589113|SUPERIORITY_OR_OTHER||Least Square Mean Ratio|1.16|||||TWO_SIDED|90.0|1.01|1.34|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the treatment effect, sequence effect, period effect and random terms for participants within sequence.|The confidence intervals are calculated for the difference in the LS means of the ln-transformed AUC(last) plain values (difference = Fed/Fasted). Antilogs of the confidence limits for the difference are taken to construct the confidence intervals for the ratio of the geometric mean.||1.34|1.01|
92343064|NCT01898078|184589114|SUPERIORITY_OR_OTHER||Least Square Mean Ratio|1.15|||||TWO_SIDED|90.0|0.96|1.39|||||Estimates for each PK parameter were obtained using a mixed effects model of log(PK parameter) with fixed terms for the treatment effect, sequence effect, period effect and random terms for participants within sequence.|The confidence intervals are calculated for the difference in the LS means of the ln-transformed AUC∞ plain values (difference = Fed/Fasted). Antilogs of the confidence limits for the difference are taken to construct the confidence intervals for the ratio of the geometric mean||1.39|0.96|
92343065|NCT01115452|184589138|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.32||||0.9347|TWO_SIDED|95.0|-8.14|7.5||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis was no difference between treatments.||7.50|-8.14|0.9347
92343066|NCT01115452|184589139|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.02||||0.9963|TWO_SIDED|95.0|-8.2|8.24||Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|ANCOVA|No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||8.24|-8.20|0.9963
92157804|NCT00519636|184202383|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.24|<|0.001||95.0|-1.3|-0.3|||ANCOVA||Mean Difference = Mean Change in FFNS - Mean Change in Placebo.|FFNS combined across treatment arms 1 (FFNS/FPNS) \& 2 (Placebo FF/FP) compared with Placebo FFNS combined across treatment arms 1 (FFNS/FPNS) \& 2 (Placebo FF/FP).||-0.3|-1.3|<0.001
92275132|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.44|||||TWO_SIDED|95.0|-140.03|51.14||||||For change in ascites at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||51.14|-140.03|
92157805|NCT00519636|184202383|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.24||0.014||95.0|-1.1|-0.1|||ANCOVA||Mean Difference = Mean Change in FPNS - Mean Change in Placebo.|FPNS combined across treatment arms 1 (FPNS/FFNS) \& 2 (Placebo FP/FF) compared with Placebo FPNS combined across treatment arms 1 (FPNS/FFNS)\& 2 (Placebo FP/FF).||-0.1|-1.1|0.014
92217511|NCT05314712|184335282|OTHER|Linear Mixed Model (repeated measures model) of sleep trouble||||||||||||There was no hypothesis test. All participants received the 7-week intervention - there was no comparison group. A variable selection approach (AIC) was used for including the final variables in the model.||||Since all participants in this pilot study received in the intervention and data was collected pre and post intervention, there was no hypothesis test. Under the assumption that the likert scale data was treated as continuous, the data was analyzed using a linear mixed model. Variables in final model were included after variable selection (details below).|Using an exhaustive search of all models (dredge) that could be formed from predictor variables partner sleep rating, perceived stress, DASS scale, 8-item diet scale, amount of screen time, amount of time between bed time and wake time, amount of time to fall asleep, hours of sleep, sleep rating score, indicator variable if the child played outside, bed time, and wake time, adult height in inches, adult BMI, adult's highest education attained, the number of children in the household, grade of the child, child height in inches, child BMI, age of the child, and gender of the child, requiring the the timing of the survey be in the model, and accounting for repeated measurements over time, using AIC as the selection criterion we looked for the model with the smallest AIC value. The final sleep trouble model included the covariates timing of survey, DASS scale, and indicator variable if child played outside.|||
92217512|NCT05314712|184335282|OTHER|Mixed effects linear regression model of hours slept||||||||||||There was no hypothesis test. All participants received the 7-week intervention - there was no comparison group. A variable selection approach (AIC) was used for including the final variables in the model.||||Since all participants in this pilot study received in the intervention and data was collected pre and post intervention, there was no hypothesis test. The data was analyzed using a mixed effects linear regression model. Variables in final model were included after variable selection (details below).|Using an exhaustive search of all models (dredge) that could be formed from predictor variables partner sleep rating, perceived stress, DASS scale, 8-item diet scale, amount of screen time, amount of time between bed time and wake time, amount of time to fall asleep, hours of sleep, sleep rating score, indicator variable if the child played outside, bed time, and wake time, adult height in inches, adult BMI, adult's highest education attained, the number of children in the household, grade of the child, child height in inches, child BMI, age of the child, and gender of the child, requiring the the timing of the survey be in the model, and accounting for repeated measurements over time, using AIC as the selection criterion we looked for the model with the smallest AIC value. The final model for hours slept included the covariates number of children in the household, indicator variable if child played outside, and baseline hours slept.|||
92217513|NCT04096274|184335341|SUPERIORITY|||||||0.014|||||||Mixed Models Analysis|||||||.014
92217514|NCT04096274|184335342|SUPERIORITY|||||||0.023|||||||Mixed Models Analysis|||||||.023
92217515|NCT04096274|184335343|SUPERIORITY|||||||0.188|||||||Mixed Models Analysis|||||||.188
92217516|NCT04096274|184335344|SUPERIORITY|||||||0.782|||||||Mixed Models Analysis|||||||.782
92217517|NCT01462435|184335346|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|446.946|STANDARD_ERROR_OF_MEAN|122.2935|<|0.001|TWO_SIDED|95.0|206.567|687.324|||ANCOVA|||||687.324|206.567|<0.001
92217518|NCT01462435|184335346|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|316.145|STANDARD_ERROR_OF_MEAN|121.5971||0.01|TWO_SIDED|95.0|77.136|555.155|||ANCOVA|||||555.155|77.136|0.010
92217519|NCT01462435|184335346|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|313.119|STANDARD_ERROR_OF_MEAN|122.5676||0.011|TWO_SIDED|95.0|72.202|554.037|||ANCOVA|||||554.037|72.202|0.011
92217520|NCT01462435|184335347|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||t-test, 2 sided|||||||0.043
92343067|NCT01115452|184589139|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.9||||0.3582|TWO_SIDED|95.0|-4.45|12.25||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||12.25|-4.45|0.3582
92217521|NCT01462435|184335347|SUPERIORITY_OR_OTHER|||||||0.109||95.0|||||t-test, 2 sided|||||||0.109
92217522|NCT01462435|184335347|SUPERIORITY_OR_OTHER|||||||0.183||95.0|||||t-test, 2 sided|||||||0.183
92217523|NCT01462435|184335348|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|||||||0.009
92343068|NCT01115452|184589139|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.88||||0.36|TWO_SIDED|95.0|-4.46|12.22||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||12.22|-4.46|0.3600
92343069|NCT01115452|184589140|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.91||||0.8265|TWO_SIDED|95.0|-9.13|7.3||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||7.30|-9.13|0.8265
92343070|NCT01115452|184589140|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.9||||0.8314|TWO_SIDED|95.0|-9.25|7.45||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||7.45|-9.25|0.8314
92343071|NCT01115452|184589140|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.01||||0.9978|TWO_SIDED|95.0|-8.33|8.35||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||8.35|-8.33|0.9978
92343072|NCT01115452|184589141|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.22||||0.3122|TWO_SIDED|95.0|-4.0|12.44|||ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||12.44|-4.00|0.3122
92343073|NCT01115452|184589141|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.27||||0.7646|TWO_SIDED|95.0|-9.62|7.08||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||7.08|-9.62|0.7646
92343074|NCT01115452|184589141|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.49||||0.1957||95.0|-13.83|2.85||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||2.85|-13.83|0.1957
92343075|NCT01115452|184589142|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.35||||0.7472|TWO_SIDED|95.0|-9.62|6.92||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.92|-9.62|0.7472
92343076|NCT01115452|184589142|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.66||||0.8767||95.0|-7.75|9.08||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution|Null hypothesis is no difference between treatments.||9.08|-7.75|0.8767
92399425|NCT02898454|184690244|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|10.52|||<|0.0001|TWO_SIDED|95.0|8.98|12.07||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline value, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||12.07|8.98|<0.0001
92157806|NCT00519636|184202384|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH): stratified approximate to Prescotts test; variation of chi-square test for treatment sequence/subjects no preference.||||||<0.001
92157807|NCT03077620|184202477|SUPERIORITY||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.064||0.05|TWO_SIDED|95.0|-0.017|0.256||Poor sleepers compared to good sleepers with Compound Symmetry covariance structure. Mean difference is poor sleepers minus good sleepers.|Mixed Models Analysis|||||0.256|-0.017|0.05
92157808|NCT03077620|184202478|SUPERIORITY||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.033||0.05|TWO_SIDED|95.0|-0.078|0.087||After corrected for multiple comparisons with Bonferroni test, treatment groups 1 and 2 compared to placebo with Compound Symmetry covariance structure. Mean difference is placebo minus treatment group.|Mixed Models Analysis|||||0.087|-0.078|0.05
92157809|NCT03077620|184202478|SUPERIORITY||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.033||0.05|TWO_SIDED|95.0|-0.051|0.117||After corrected for multiple comparisons with Bonferroni test, treatment groups 1 and 2 compared to placebo with Compound Symmetry covariance structure. Mean difference is placebo minus treatment group.|Mixed Models Analysis|||||0.117|-0.051|0.05
92217524|NCT01462435|184335348|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||t-test, 2 sided|||||||0.029
92217525|NCT01462435|184335348|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||||||0.050
92157810|NCT00550173|184202488|SUPERIORITY_OR_OTHER|||||||0.003||||||If global test across 3 arms is significant at a 2-sided 0.2 level, then conduct 2-sided pairwise tests between combination and each single agent under the global model. Significance is claimed only if both the global and pairwise tests p\<0.05.|Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||Overall; Global null hypothesis was rejected at 2-sided 0.2 significance level.||||0.003
92157811|NCT00550173|184202488|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.002|TWO_SIDED|95.0|0.4|0.81||If global test across 3 arms is significant at a 2-sided 0.2 level, then conduct 2-sided pairwise tests between combination and each single agent under the global model. Significance is claimed only if both the global and pairwise tests p\<0.05.|Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||Primary Analysis; Global null hypothesis was rejected at 2-sided 0.2 significance level.||0.81|0.40|0.002
92157812|NCT00550173|184202488|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.005|TWO_SIDED|95.0|0.39|0.85||If global test across 3 arms is significant at a 2-sided 0.2 level, then conduct 2-sided pairwise tests between combination and each single agent under the global model. Significance is claimed only if both the global and pairwise tests p\<0.05.|Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||Primary Analysis; Global null hypothesis was rejected at 2-sided 0.2 significance level.||0.85|0.39|0.005
92217526|NCT01462435|184335349|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92217527|NCT01462435|184335349|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
92343077|NCT01115452|184589142|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.01||||0.6367||95.0|-6.39|10.42||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||10.42|-6.39|0.6367
92157813|NCT00550173|184202488|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.99||||0.959|TWO_SIDED|95.0|0.7|1.4||If global test across 3 arms is significant at a 2-sided 0.2 level, then conduct 2-sided pairwise tests between combination and each single agent under the global model. Significance is claimed only if both the global and pairwise tests p\<0.05.|Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||Secondary Analysis; Global null hypothesis was rejected at 2-sided 0.2 significance level.||1.40|0.70|0.959
92157814|NCT00550173|184202489|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||||<0.001
92157815|NCT00550173|184202489|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.031|TWO_SIDED|95.0|1.07|4.09|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||4.09|1.07|0.031
92157816|NCT00550173|184202489|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.68|||<|0.001|TWO_SIDED|95.0|3.19|18.48|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||18.48|3.19|<0.001
92157817|NCT00550173|184202489|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.27||||0.004|TWO_SIDED|95.0|0.11|0.66|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||0.66|0.11|0.004
92157818|NCT00550173|184202490|SUPERIORITY_OR_OTHER|||||||0.194|||||||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||||0.194
92157819|NCT00550173|184202490|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.747|TWO_SIDED|95.0|0.69|1.67|||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||1.67|0.69|0.747
92157820|NCT00550173|184202490|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.168|TWO_SIDED|95.0|0.49|1.13|||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||1.13|0.49|0.168
92157821|NCT00550173|184202490|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.094|TWO_SIDED|95.0|0.94|2.21|||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||2.21|0.94|0.094
92157822|NCT00550173|184202492|SUPERIORITY_OR_OTHER|||||||0.306|||||||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||||0.306
92157823|NCT00550173|184202492|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.127|TWO_SIDED|95.0|0.87|3.18|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||3.18|0.87|0.127
92157824|NCT00550173|184202492|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.318|TWO_SIDED|95.0|0.72|2.71|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||2.71|0.72|0.318
92157825|NCT00550173|184202492|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.599|TWO_SIDED|95.0|0.63|2.22|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||2.22|0.63|0.599
92157826|NCT00550173|184202493|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||||0.013
92157827|NCT00550173|184202493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59||||0.007|TWO_SIDED|95.0|0.41|0.87||Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.|Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||0.87|0.41|0.007
92157828|NCT00550173|184202493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.7|TWO_SIDED|95.0|0.62|1.38|||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||1.38|0.62|0.700
92157829|NCT00550173|184202493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.023|TWO_SIDED|95.0|0.44|0.94|||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||0.94|0.44|0.023
92157830|NCT00550173|184202494|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Regression, Cox|||||||0.040
92157831|NCT00550173|184202494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.241|TWO_SIDED|95.0|0.27|1.38|||Regression, Cox|||||1.38|0.27|0.241
92157832|NCT00550173|184202494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.32||||0.011|TWO_SIDED|95.0|0.14|0.78|||Regression, Cox|||||0.78|0.14|0.011
92157833|NCT00550173|184202494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.9||||0.128|TWO_SIDED|95.0|0.83|4.36|||Regression, Cox|||||4.36|0.83|0.128
92217528|NCT01462435|184335349|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
92217529|NCT01462435|184335350|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|||||||0.009
92217530|NCT01462435|184335350|SUPERIORITY_OR_OTHER|||||||0.091||95.0|||||t-test, 2 sided|||||||0.091
92217531|NCT01462435|184335350|SUPERIORITY_OR_OTHER|||||||0.053||95.0|||||t-test, 2 sided|||||||0.053
92399426|NCT02898454|184690245|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.15|-0.81||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline value, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.81|-1.15|<0.0001
92399427|NCT02898454|184690246|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-17.36|||<|0.0001|TWO_SIDED|95.0|-20.87|-13.85||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline value, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-13.85|-20.87|<0.0001
92399428|NCT02898454|184690247|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-2.21|||<|0.0001|TWO_SIDED|95.0|-2.59|-1.83||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w then q4w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-1.83|-2.59|<0.0001
92343078|NCT01115452|184589143|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.95||||0.6417|TWO_SIDED|95.0|-10.22|6.32||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.32|-10.22|0.6417
92343079|NCT01115452|184589143|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.43||||0.92|TWO_SIDED|95.0|-7.99|8.85||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||8.85|-7.99|0.9200
92343080|NCT01115452|184589143|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.38||||0.5766||95.0|-6.02|10.78||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||10.78|-6.02|0.5766
92343081|NCT01115452|184589144|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.58||||0.393|TWO_SIDED|95.0|-11.65|4.68||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||4.68|-11.65|0.3930
92343082|NCT01115452|184589144|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.7||||0.6896|TWO_SIDED|95.0|-10.12|6.71||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.71|-10.12|0.6896
92399429|NCT02898454|184690247|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-2.41|||<|0.0001|TWO_SIDED|95.0|-2.78|-2.03||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-2.03|-2.78|<0.0001
92405631|NCT02683577|184701446|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|2.462|||||TWO_SIDED|90.0|1.579|3.837|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of moderate HI group (Test) versus healthy control group (Reference) for Cmax values for telotristat ethyl.||3.837|1.579|
92157834|NCT01345292|184202496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.44|STANDARD_ERROR_OF_MEAN|1.556|<|0.001|TWO_SIDED|95.0|8.37|14.5||If Sensodyne is better than Crest Regular (p\<0.05), testing would proceed to comparison of Wk 2 Mean Tactile Sensitivity Scores between Sensodyne and Crest Regular. Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||14.50|8.37|<0.001
92217532|NCT01462435|184335351|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||||||0.002
92217533|NCT01462435|184335351|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||t-test, 2 sided|||||||0.026
92217534|NCT01462435|184335351|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||t-test, 2 sided|||||||0.017
92217535|NCT01462435|184335352|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92217536|NCT01462435|184335352|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||||||0.005
92343083|NCT01115452|184589144|SUPERIORITY_OR_OTHER||Adjustes mean difference|1.88||||0.6591|TWO_SIDED|95.0|-6.52|10.28||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||10.28|-6.52|0.6591
92343084|NCT01115452|184589145|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.08||||0.6301||95.0|-10.6|6.45||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.45|-10.60|0.6301
92343085|NCT01115452|184589145|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.76||||0.6888|TWO_SIDED|95.0|-10.46|6.93||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.93|-10.46|0.6888
92343086|NCT01115452|184589145|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.32||||0.9428|TWO_SIDED|95.0|-8.37|9.0||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.00|-8.37|0.9428
92343087|NCT01115452|184589146|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.58||||0.5504|TWO_SIDED|95.0|-11.1|5.95||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||5.95|-11.10|0.5504
92343088|NCT01115452|184589146|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1||||0.634|TWO_SIDED|95.0|-10.8|6.6||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.60|-10.80|0.6340
92343089|NCT01115452|184589146|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.48||||0.9127|TWO_SIDED|95.0|-8.2|9.16|||ANCOVA|No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.16|-8.20|0.9127
92343090|NCT01115452|184589147|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.15||||0.6192|TWO_SIDED|95.0|-10.67|6.38||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.38|-10.67|0.6192
92343091|NCT01115452|184589147|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.6||||0.8912|TWO_SIDED|95.0|-8.1|9.3||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.30|-8.10|0.8912
92399430|NCT02898454|184690248|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-1.11|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.92||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w then q4w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.92|-1.30|<0.0001
92405632|NCT02683577|184701447|SUPERIORITY_OR_OTHER||Median difference|0.0|||=|1|TWO_SIDED|90.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||The Tmax was analysed using a non-parametric analysis (Walsh averages and appropriate quantile of the Wilcoxon signed rank test statistic). The median difference between the mild HI group (Test) versus healthy control group (Reference) and the corresponding 90% CIs were calculated by Hodges-Lehmann estimation.||0.000|0.000|=1.0000
92217537|NCT01462435|184335352|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
92217538|NCT01462435|184335353|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92217539|NCT01462435|184335353|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92217540|NCT01462435|184335353|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92217541|NCT02114164|184335445|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92217542|NCT02114164|184335446|OTHER|||||||0.39|||||||t-test, 2 sided|||||||0.39
92217543|NCT02114164|184335447|OTHER|||||||0.13||||||Comparison at baseline|t-test, 2 sided|||||||0.13
92217544|NCT02114164|184335447|OTHER|||||||0.018||||||Comparison at 60 minutes|t-test, 2 sided|||||||0.018
92399431|NCT02898454|184690248|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-0.99|||<|0.0001|TWO_SIDED|95.0|-1.18|-0.8||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.80|-1.18|<0.0001
92399432|NCT02898454|184690249|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-21.36|||<|0.0001|TWO_SIDED|95.0|-25.45|-17.27||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w then q4w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-17.27|-25.45|<0.0001
92399433|NCT02898454|184690249|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-20.73|||<|0.0001|TWO_SIDED|95.0|-24.81|-16.65||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-16.65|-24.81|<0.0001
92399434|NCT03040141|184690283|SUPERIORITY|The null hypothesis was defined as no treatment difference.|Odds Ratio (OR)|1.9||||0.181|TWO_SIDED|95.0|1.03|13.55|||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||13.55|1.03|0.181
92399435|NCT03040141|184690283|SUPERIORITY|The null hypothesis was defined as no treatment difference.|Odds Ratio (OR)|3.3||||0.073|TWO_SIDED|95.0|0.9|12.13|||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||12.13|0.90|0.073
92399436|NCT03040141|184690283|SUPERIORITY|The null hypothesis was defined as no treatment difference.|Odds Ratio (OR)|3.5||||0.037|TWO_SIDED|95.0|1.08|11.48|||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||11.48|1.08|0.037
92399437|NCT03040141|184690283|SUPERIORITY|The null hypothesis was defined as no treatment difference.|Odds Ratio (OR)|1.1||||0.814|TWO_SIDED|95.0|0.4|3.25|||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||3.25|0.40|0.814
92399438|NCT03040141|184690285|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.748||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level. The goal will be used to assess the strength of evidence to select the endpoints for a Phase 3 trial.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 high-dose group was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.748
92399439|NCT03040141|184690285|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.94||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 low-dose group was compared against the placebo group. The null hypothesis was defined as no treatment difference||||0.940
92399440|NCT03040141|184690285|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.902||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The total VIS410 high-dose group (high-dose + low-dose) was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.902
92399441|NCT03040141|184690285|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.283||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 high-dose group was compared against the VIS410 low-dose group. The null hypothesis was defined as no treatment difference.||||0.283
92399442|NCT03040141|184690286|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.919||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 high-dose group was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.919
92399443|NCT03040141|184690286|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.9||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 low-dose group was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.900
92399444|NCT03040141|184690286|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.99||||||p-value is not adjusted for multiple comparisons|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level||The combined VIS410 high- and low-dose groups was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.990
92217545|NCT02114164|184335447|OTHER|||||||0.712||||||Comparison at end of procedure|t-test, 2 sided|||||||0.712
92343092|NCT01115452|184589147|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.75||||0.5321|TWO_SIDED|95.0|-5.93|11.43||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution|Null hypothesis is no difference between treatments.||11.43|-5.93|0.5321
92343093|NCT01115452|184589148|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.37||||0.4055|TWO_SIDED|95.0|-11.37|4.63||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||4.63|-11.37|0.4055
92343094|NCT01115452|184589148|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.74||||0.8573|TWO_SIDED|95.0|-7.42|8.91||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||8.91|-7.42|0.8573
92343095|NCT01115452|184589148|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.12||||0.3193|TWO_SIDED|95.0|-4.03|12.27||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||12.27|-4.03|0.3193
92343096|NCT01115452|184589149|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.23||||0.4264||95.0|-4.77|11.23||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||11.23|-4.77|0.4264
92343097|NCT01115452|184589149|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.04||||0.8008|TWO_SIDED|95.0|-7.42|9.21||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution|Null hypothesis is no difference between treatments.||9.21|-7.42|0.8008
92343098|NCT01115452|184589149|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.18||||0.5969|TWO_SIDED|95.0|-10.33|5.97||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||5.97|-10.33|0.5969
92399445|NCT03040141|184690286|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.521||||||The p-value is not adjusted for multiple comparisons.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 high-dose group was compared against the VIS410 low-dose group. The null hypothesis was defined as no treatment difference.||||0.521
92343099|NCT01115452|184589150|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.14||||0.2059|TWO_SIDED|95.0|-13.14|2.86||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||2.86|-13.14|0.2059
92399446|NCT03040141|184690287|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.36||||||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.|ANOVA|||The VIS410 high-dose group was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.360
92399447|NCT03040141|184690288|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.735|||||||ANOVA|||||||0.735
92157835|NCT01345292|184202496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.33|STANDARD_ERROR_OF_MEAN|1.566|<|0.001|TWO_SIDED|95.0|5.24|11.42||If Potassium Oxalate Mouth Rinse is better than Crest Regular (p\<0.05), testing would proceed to comparison of Wk 2 Mean Tactile Sensitivity Scores between Potassium Oxalate Mouth Rinse and Crest Regular. Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||11.42|5.24|<0.001
92217546|NCT02114164|184335448|OTHER|||||||0.42||||||Comparison at baseline|t-test, 2 sided|||||||0.42
92217547|NCT02114164|184335448|OTHER|||||||0.75||||||Comparison at 60 minutes|t-test, 2 sided|||||||0.75
92217548|NCT02114164|184335448|OTHER|||||||0.99||||||Comparison at end of procedure|t-test, 2 sided|||||||0.99
92217549|NCT02114164|184335449|OTHER|||||||0.88||||||Comparison at baseline|t-test, 2 sided|||||||0.88
92217550|NCT02114164|184335449|OTHER|||||||0.65||||||Comparison at 60 minutes|t-test, 2 sided|||||||0.65
92217551|NCT02114164|184335449|OTHER|||||||0.86||||||Comparison at end of procedure|t-test, 2 sided|||||||0.86
92217552|NCT02114164|184335450|OTHER|Number of interventions required by the anesthesiologists were compared between the AirSeal and standard Endopath groups using zero-inflated Poisson regression||||||0.41|||||||Zero-inflated Poisson regression|||||||0.41
92343100|NCT01115452|184589150|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.39||||0.9248|TWO_SIDED|95.0|-8.56|7.77||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||7.77|-8.56|0.9248
92343101|NCT01115452|184589150|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.75||||0.2508|TWO_SIDED|95.0|-3.4|12.9||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||12.90|-3.40|0.2508
92343102|NCT01115452|184589151|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.12||||0.7822|TWO_SIDED|95.0|-6.86|9.1||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.10|-6.86|0.7822
92343103|NCT01115452|184589151|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.44||||0.7208|TWO_SIDED|95.0|-6.52|9.41||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.41|-6.52|0.7208
92343104|NCT01115452|184589152|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.36||||0.7318|TWO_SIDED|95.0|-9.18|6.46||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.46|-9.18|0.7318
92343105|NCT01115452|184589152|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.05||||0.7949|TWO_SIDED|95.0|-6.93|9.03||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.03|-6.93|0.7949
92343106|NCT01115452|184589152|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.41||||0.5507|TWO_SIDED|95.0|-5.56|10.37||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||10.37|-5.56|0.5507
92343107|NCT01115452|184589153|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.72||||0.8549|TWO_SIDED|95.0|-8.54|7.1||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Investigator applied the participants with 5% potassium nitrate solution on each of the three individual sensitive tooth for two minutes (mins), in each of the five day treatment period|Null hypothesis is no difference between treatments.||7.10|-8.54|0.8549
92369351|NCT02993822|184643585|SUPERIORITY||Mean Difference (Final Values)|-8.7||||0.026|TWO_SIDED|95.0|-16.3|-1.1|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-1.1|-16.3|0.026
92369352|NCT02993822|184643585|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.571|TWO_SIDED|95.0|-9.6|5.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||5.3|-9.6|0.571
92399448|NCT03040141|184690288|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.259|||||||ANOVA|||||||0.259
92157836|NCT01345292|184202497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.05|STANDARD_ERROR_OF_MEAN|0.812|<|0.001|TWO_SIDED|95.0|1.45|4.65||The significance threshold level was 0.05 (two-sided). Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.65|1.45|<0.001
92217553|NCT02114164|184335451|OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.09
92157837|NCT01345292|184202497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.41|STANDARD_ERROR_OF_MEAN|0.818||0.004|TWO_SIDED|95.0|0.8|4.02||The significance threshold level was 0.05 (two-sided). Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.02|0.80|0.004
92217554|NCT02114164|184335452|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92399449|NCT03040141|184690288|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.644||||||The p-value is not adjusted for multiple comparisons. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.|ANOVA|||||||0.644
92343108|NCT01115452|184589153|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.15||||0.9705|TWO_SIDED|95.0|-8.13|7.83||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||7.83|-8.13|0.9705
92343109|NCT01115452|184589153|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.57||||0.8867|TWO_SIDED|95.0|-7.39|8.54||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||8.54|-7.39|0.8867
92343110|NCT00288912|184589157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.007|TWO_SIDED|95.0|-1.0|0.2|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Primary hypothesis: OA self-management intervention results in greater improvement in AIMS2 pain score than usual care or health education control. Sample size estimate based on detecting 0.57 point (14%) difference between groups. Analyses were linear mixed models, intent-to-treat basis.||0.2|-1.0|0.007
92343111|NCT00288912|184589157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.105|TWO_SIDED|95.0|-0.8|0.1|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Primary hypothesis: OA self-management intervention results in greater improvement in AIMS2 pain score than usual care or health education control. Sample size estimate based on detecting 0.57 point (14%) difference between groups. Analyses were linear mixed models, intent-to-treat basis.||0.1|-0.8|0.105
92343112|NCT00288912|184589158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.093|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in AIMS2 function score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.0|-0.5|0.093
92343113|NCT00288912|184589158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.43|TWO_SIDED|95.0|-0.2|0.2|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in AIMS2 function score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.2|-0.2|0.43
92343114|NCT00288912|184589159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.78|TWO_SIDED|95.0|-0.3|0.4|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in AIMS2 affect score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.4|-0.3|0.78
92343115|NCT00288912|184589159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.79|TWO_SIDED|95.0|-0.3|0.4|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in AIMS2 affect score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.4|-0.3|0.79
92343116|NCT00288912|184589160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.043|TWO_SIDED|95.0|0.0|0.8|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in arthritis self-efficacy score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.8|0.0|0.043
92399450|NCT03040141|184690288|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.146|||||||ANOVA|||||||0.146
92399451|NCT03040141|184690289|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.624||||||The p-value is not adjusted for multiple comparisons. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.|ANOVA|||||||0.624
92399452|NCT03040141|184690289|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.399||||||The p-value is not adjusted for multiple comparisons. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.|ANOVA|||||||0.399
92217555|NCT01206062|184335524|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75|||<|0.001|TWO_SIDED|95.0|0.64|0.89|||Regression, Cox|||||0.89|0.64|<0.001
92217556|NCT01206062|184335525|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.003|TWO_SIDED|95.0|0.6|0.9|||Regression, Cox|||||0.90|0.60|0.003
92399453|NCT03040141|184690289|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.837|||||||ANOVA|||||||0.837
92399454|NCT03040141|184690289|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.183|||||||ANOVA|||||||0.183
92399455|NCT03040141|184690290|SUPERIORITY|The null hypothesis was defined as no treatment difference||||||0.88|||||||ANOVA|||||||0.880
92399456|NCT03040141|184690290|SUPERIORITY|The null hypothesis was defined as no treatment difference||||||0.778|||||||ANOVA|||||||0.778
92399457|NCT03040141|184690290|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.94|||||||ANOVA|||||||0.940
92399458|NCT03040141|184690290|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.662|||||||ANOVA|||||||0.662
92217557|NCT01206062|184335526|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.58|TWO_SIDED|95.0|0.34|1.83|||Regression, Cox|||||1.83|0.34|0.58
92217558|NCT01206062|184335528|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.83||||0.1|TWO_SIDED|95.0|0.67|1.04|||Regression, Cox|||||1.04|0.67|.10
92399459|NCT03040141|184690291|OTHER|||||||0.64|||||||Chi-squared|A Wald Chi-square statistic from a Cox proportional model was used for comparisons of treatment groups||||||0.640
92399460|NCT03040141|184690291|OTHER|||||||0.775|||||||Chi-squared|A Wald Chi-square statistic from a Cox proportional model was used for comparisons of treatment groups||||||0.775
92217559|NCT01901575|184335531|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.65|STANDARD_ERROR_OF_MEAN|0.75||0.05|TWO_SIDED|0.15|0.65|0.8|||Fisher Exact|||"null hypothesis:~Remifentanil IVPCA sedation in patients undergoing ablation of the idiopathic ventricular tachycardia does not cause suppression of PVC's"||0.8|0.65|0.05
92217560|NCT01846728|184335538|OTHER|||||||0.84||||||Because this was a pilot study, the study was not powered to detect differences over time. the study was performed to generate preliminary data on means and standard deviations|t-test, 2 sided|||||||0.84
92217561|NCT01846728|184335539|OTHER|||||||0.66|||||||t-test, 2 sided|||Because this was a pilot study, the study was not powered to detect differences over time. the study was performed to generate preliminary data on means and standard deviations||||0.66
92217562|NCT01846728|184335540|OTHER|Because this was a pilot study, the study was not powered to detect differences over time. the study was performed to generate preliminary data on means and standard deviations||||||0.92|||||||t-test, 2 sided|||||||0.92
92217563|NCT01846728|184335541|OTHER|||||||0.98|||||||t-test, 2 sided|||Because this was a pilot study, the study was not powered to detect differences over time. the study was performed to generate preliminary data on means and standard deviations||||0.98
92217564|NCT01846728|184335542|OTHER|||||||0.66|||||||t-test, 2 sided|||Because this was a pilot study, the study was not powered to detect differences over time. the study was performed to generate preliminary data on means and standard deviations||||0.66
92217565|NCT01671111|184335544|SUPERIORITY_OR_OTHER_LEGACY|||||||0.056|TWO_SIDED|||||P-value was from paired t-test for post treatment timepoint versus baseline.|paired t-test|||||||0.0560
92217566|NCT01671111|184335545|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1232|TWO_SIDED|||||P-value was from paired t-test for post treatment timepoint versus baseline.|paired t-test|||||||0.1232
92217567|NCT01671111|184335546|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1319|TWO_SIDED|||||P-value was from paired t-test for post treatment timepoint versus baseline.|paired t-test|||||||0.1319
92217568|NCT01671111|184335547|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8061|TWO_SIDED|||||P-value was from paired t-test for log-transformed data at post treatment timepoint versus baseline.|paired t-test|||||||0.8061
92217569|NCT01671111|184335548|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2297|TWO_SIDED|||||P-value was from paired t-test for log-transformed data at post treatment timepoint versus baseline.|paired t-test|||||||0.2297
92217570|NCT01671111|184335549|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1248|TWO_SIDED|||||P-value was from paired t-test for log-transformed data at post treatment timepoint versus baseline.|paired t-test|||||||0.1248
92217571|NCT00496730|184335567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92217572|NCT00496730|184335568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92217573|NCT00496730|184335569|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92217574|NCT03962738|184335591|SUPERIORITY||Odds Ratio (OR)|3.46|||<|0.001|TWO_SIDED|95.0|2.17|5.54|||Regression, Logistic|||||5.54|2.17|<0.001
92217575|NCT03962738|184335592|SUPERIORITY||||||<|0.001|||||||Cochran-Armitage Trend Test|||||||<.001
92217576|NCT03962738|184335593|SUPERIORITY||Odds Ratio (OR)|1.76||||0.037|TWO_SIDED|95.0|1.03|2.99|||Regression, Logistic|||||2.99|1.03|0.037
92399461|NCT03040141|184690291|OTHER|||||||0.701|||||||Chi-squared|A Wald Chi-square statistic from a Cox proportional model was used for comparisons of treatment groups||||||0.701
92217577|NCT03962738|184335593|SUPERIORITY||Odds Ratio (OR)|3.34|||<|0.001|TWO_SIDED|95.0|2.16|5.17|||Regression, Logistic|||||5.17|2.16|<0.001
92217578|NCT03962738|184335593|SUPERIORITY||Odds Ratio (OR)|2.95|||<|0.001|TWO_SIDED|95.0|1.89|4.62|||Regression, Logistic|||||4.62|1.89|<0.001
92217579|NCT03962738|184335594|SUPERIORITY||Odds Ratio (OR)|1.49||||0.197|TWO_SIDED|95.0|0.81|2.72|||Regression, Logistic|||||2.72|0.81|0.197
92217580|NCT03962738|184335594|SUPERIORITY||Odds Ratio (OR)|1.59||||0.044|TWO_SIDED|95.0|1.01|2.5|||Regression, Logistic|||||2.50|1.01|0.044
92217581|NCT03962738|184335594|SUPERIORITY||Odds Ratio (OR)|1.75||||0.023|TWO_SIDED|95.0|1.08|2.83|||Regression, Logistic|||||2.83|1.08|0.023
92217582|NCT03962738|184335595|SUPERIORITY||Odds Ratio (OR)|1.52||||0.268|TWO_SIDED|95.0|0.73|3.17|||Regression, Logistic|||||3.17|0.73|0.268
92217583|NCT03962738|184335595|SUPERIORITY||Odds Ratio (OR)|2.19||||0.006|TWO_SIDED|95.0|1.26|3.82|||Regression, Logistic|||||3.82|1.26|0.006
92217584|NCT03962738|184335595|SUPERIORITY||Odds Ratio (OR)|2.63|||<|0.001|TWO_SIDED|95.0|1.5|4.61|||Regression, Logistic|||||4.61|1.50|<0.001
92217585|NCT03962738|184335596|SUPERIORITY||Odds Ratio (OR)|1.26||||0.535|TWO_SIDED|95.0|0.61|2.58|||Regression, Logistic|||||2.58|0.61|0.535
92217586|NCT03962738|184335596|SUPERIORITY||Odds Ratio (OR)|1.77||||0.036|TWO_SIDED|95.0|1.04|3.03|||Regression, Logistic|||||3.03|1.04|0.036
92217587|NCT03962738|184335596|SUPERIORITY||Odds Ratio (OR)|1.93||||0.018|TWO_SIDED|95.0|1.12|3.33|||Regression, Logistic|||||3.33|1.12|0.018
92217588|NCT03962738|184335597|SUPERIORITY||Odds Ratio (OR)|1.67||||0.199|TWO_SIDED|95.0|0.76|3.65|||Regression, Logistic|||||3.65|0.76|0.199
92217589|NCT03962738|184335597|SUPERIORITY||Odds Ratio (OR)|1.33||||0.305|TWO_SIDED|95.0|0.77|2.32|||Regression, Logistic|||||2.32|0.77|0.305
92217590|NCT03962738|184335597|SUPERIORITY||Odds Ratio (OR)|1.26||||0.426|TWO_SIDED|95.0|0.71|2.24|||Regression, Logistic|||||2.24|0.71|0.426
92399462|NCT03040141|184690291|OTHER|||||||0.638|||||||Chi-squared|A Wald Chi-square statistic from a Cox proportional model was used for comparisons of treatment groups||||||0.638
92399463|NCT03040141|184690292|OTHER|||||||0.127|||||||Regression, Logistic|||||||0.127
92399464|NCT03040141|184690292|OTHER|||||||1|||||||Regression, Logistic|||||||1.000
92399465|NCT03040141|184690292|OTHER|||||||0.458|||||||Regression, Logistic|||||||0.458
92399466|NCT03040141|184690292|OTHER|||||||0.127|||||||Regression, Logistic|||||||0.127
92343117|NCT00288912|184589160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.066|TWO_SIDED|95.0|0.0|0.7|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in arthritis self-efficacy score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.7|0.0|0.066
92157838|NCT01345292|184202498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|2.091||0.324|TWO_SIDED|95.0|-6.19|2.06||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.06|-6.19|0.324
92343118|NCT03312738|184589161|OTHER||Hazard Ratio (HR)|0.53|||||TWO_SIDED|90.0|0.4|0.71||||||||0.71|0.40|
92343119|NCT03312738|184589162|OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|90.0|0.32|0.67||||||||0.67|0.32|
92343120|NCT03312738|184589163|OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|90.0|0.69|1.89||||||||1.89|0.69|
92343121|NCT00607893|184589205|OTHER||Mean Difference (Final Values)|0.071||||0.38|TWO_SIDED|95.0|-0.09|0.23|||Regression, Linear||F2-isoprostanes/Cr was log-transformed before analysis. The estimation parameter shows the log-transformed mean difference of the absolute change between groups, while the least square means of two groups are transformed back for presentation.|||0.23|-0.090|0.38
92343122|NCT00607893|184589206|OTHER||Mean Difference (Final Values)|1.83||||0.85|TWO_SIDED|95.0|-17.42|21.07|||Regression, Linear|||||21.07|-17.42|0.85
92343123|NCT00607893|184589207|OTHER||Mean Difference (Final Values)|0.14||||0.92|TWO_SIDED|95.0|-2.6|2.87|||Regression, Linear|||||2.87|-2.60|0.92
92343124|NCT00607893|184589208|OTHER||Mean Difference (Final Values)|0.21||||0.55|TWO_SIDED|95.0|-0.48|0.91|||Regression, Linear|||||0.91|-0.48|0.55
92399467|NCT03040141|184690293|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.371|||||||ANOVA|||||||0.371
92399468|NCT03040141|184690293|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.735|||||||ANOVA|||||||0.735
92157839|NCT01345292|184202498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.43|STANDARD_ERROR_OF_MEAN|2.093||0.035|TWO_SIDED|95.0|-8.56|-0.31||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.31|-8.56|0.035
92157840|NCT01345292|184202499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.55|STANDARD_ERROR_OF_MEAN|2.551|<|0.001|TWO_SIDED|95.0|-13.6|-3.52||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-3.52|-13.6|<0.001
92157841|NCT01345292|184202499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2|STANDARD_ERROR_OF_MEAN|2.553|<|0.001|TWO_SIDED|95.0|-15.2|-5.13||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-5.13|-15.2|<0.001
92343125|NCT00607893|184589209|OTHER||Mean Difference (Final Values)|0.38||||0.17|TWO_SIDED|95.0|-0.16|0.92|||Regression, Linear|||||0.92|-0.16|0.17
92343126|NCT00607893|184589210|OTHER||Mean Difference (Final Values)|2.4||||0.076|TWO_SIDED|95.0|-0.26|5.07|||Regression, Linear|||||5.07|-0.26|0.076
92343127|NCT00607893|184589211|OTHER||Mean Difference (Final Values)|0.062||||0.019|TWO_SIDED|95.0|0.01|0.11|||Regression, Linear||sIL-6R was log-transformed before analysis. The estimation parameter shows the log-transformed mean difference of the absolute change between groups, while the least square means of two groups are transformed back for presentation.|||0.11|0.010|0.019
92217591|NCT03962738|184335598|SUPERIORITY||Odds Ratio (OR)|1.57||||0.135|TWO_SIDED|95.0|0.87|2.82|||Regression, Logistic|||||2.82|0.87|0.135
92217592|NCT03962738|184335598|SUPERIORITY||Odds Ratio (OR)|1.48||||0.08|TWO_SIDED|95.0|0.95|2.3|||Regression, Logistic|||||2.30|0.95|0.080
92217593|NCT03962738|184335598|SUPERIORITY||Odds Ratio (OR)|1.56||||0.061|TWO_SIDED|95.0|0.98|2.49|||Regression, Logistic|||||2.49|0.98|0.061
92217594|NCT03962738|184335599|SUPERIORITY||Odds Ratio (OR)|1.38||||0.342|TWO_SIDED|95.0|0.71|2.67|||Regression, Logistic|||||2.67|0.71|0.342
92217595|NCT03962738|184335599|SUPERIORITY||Odds Ratio (OR)|1.25||||0.377|TWO_SIDED|95.0|0.76|2.04|||Regression, Logistic|||||2.04|0.76|0.377
92343128|NCT00607893|184589212|OTHER||Mean Difference (Final Values)|0.17||||0.68|TWO_SIDED|95.0|-0.64|0.99|||Regression, Linear|||||0.99|-0.64|0.68
92343129|NCT00607893|184589213|OTHER||Mean Difference (Final Values)|1.35||||0.59|TWO_SIDED|95.0|-3.6|6.31|||Regression, Linear|||||6.31|-3.60|0.59
92343130|NCT00607893|184589214|OTHER||Mean Difference (Final Values)|6.93|||<|0.001|TWO_SIDED|95.0|3.04|10.81|||Regression, Linear|||||10.81|3.04|<0.001
92343131|NCT02669849|184589215|SUPERIORITY||Least Squares (LS) Mean Difference|-0.69||||0.7519|TWO_SIDED|95.0|-5.08|3.69|||Mixed-effects model for repeated measure|||||3.69|-5.08|0.7519
92343132|NCT02369653|184589253|SUPERIORITY|||||||0.0403|||||||Cochran-Mantel-Haenszel|||||||0.0403
92343133|NCT02369653|184589254|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1.0000
92343134|NCT01587885|184589274|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.548|||<|0.048|||||||Regression, Cox|||||||<0.0480
92399469|NCT03040141|184690293|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.476|||||||ANOVA|||||||0.476
92399470|NCT03040141|184690293|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.581|||||||ANOVA|||||||0.581
92399471|NCT03040141|184690294|OTHER|||||||0.98|||||||Regression, Logistic|||||||0.980
92399472|NCT03040141|184690294|OTHER|||||||0.955|||||||Regression, Logistic|||||||0.955
92399473|NCT03040141|184690294|OTHER|||||||0.955|||||||Regression, Logistic|||||||0.955
92399474|NCT03040141|184690294|OTHER|||||||0.955|||||||Regression, Logistic|||||||0.955
92399475|NCT03040141|184690295|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.695|||||||ANOVA|||||||0.695
92343135|NCT01603602|184589319|SUPERIORITY||Least Squares (LS) Mean Difference|-0.66|||<|0.001|TWO_SIDED|95.0|-0.938|-0.379||MMRM model with baseline MAS-B score as covariate; factors of age, principal muscle group, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure, stratified by age and principal muscle group categories.|Mixed Model Repeated Measures (MMRM)|||||-0.379|-0.938|<0.001
92343136|NCT01603602|184589319|SUPERIORITY||LS Mean Difference|-0.71|||<|0.001|TWO_SIDED|95.0|-0.992|-0.426||MMRM model with baseline MAS-B score as covariate; factors of age, principal muscle group, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure, stratified by age and principal muscle group categories.|MMRM|||||-0.426|-0.992|<0.001
92343137|NCT01603602|184589320|SUPERIORITY||LS Mean Difference|0.21||||0.155|TWO_SIDED|95.0|-0.082|0.511||MMRM model with baseline MAS-B score as covariate; factors of age, principal muscle group, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure, stratified by age and principal muscle group categories.|MMRM|||||0.511|-0.082|0.155
92343138|NCT01603602|184589320|SUPERIORITY||LS Mean Difference|0.22||||0.147|TWO_SIDED|95.0|-0.079|0.523||MMRM model with baseline MAS-B score as covariate; factors of age, principal muscle group, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure, stratified by age and principal muscle group categories.|MMRM|||||0.523|-0.079|0.147
92343139|NCT01603602|184589321|SUPERIORITY||LS Mean Difference|-0.39||||0.111|TWO_SIDED|95.0|-0.861|0.091||ANCOVA model including baseline MAS-B score of finger flexor muscle group as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||||0.091|-0.861|0.111
92343140|NCT01603602|184589321|SUPERIORITY||LS Mean Difference|-0.44||||0.078|TWO_SIDED|95.0|-0.933|0.051||ANCOVA model including baseline MAS-B score of finger flexor muscle group as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||||0.051|-0.933|0.078
92343141|NCT01603602|184589322|SUPERIORITY||LS Mean Difference|-0.1||||0.636|TWO_SIDED|95.0|-0.498|0.305||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 8, Active Goal||0.305|-0.498|0.636
92343142|NCT01603602|184589322|SUPERIORITY||LS Mean Difference|-0.09||||0.658|TWO_SIDED|95.0|-0.502|0.318||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 8, Active Goal||0.318|-0.502|0.658
92343143|NCT01603602|184589322|SUPERIORITY||LS Mean Difference|0.24||||0.243|TWO_SIDED|95.0|-0.162|0.635||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 8, Passive Goal||0.635|-0.162|0.243
92343144|NCT01603602|184589322|SUPERIORITY||LS Mean Difference|0.17||||0.412|TWO_SIDED|95.0|-0.237|0.576||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 8, Passive Goal||0.576|-0.237|0.412
92343145|NCT01603602|184589322|SUPERIORITY||LS Mean Difference|-0.02||||0.904|TWO_SIDED|95.0|-0.408|0.361||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 12, Active Goal||0.361|-0.408|0.904
92343146|NCT01603602|184589322|SUPERIORITY||LS Mean Difference|-0.25||||0.2|TWO_SIDED|95.0|-0.641|0.135||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 12, Active Goal||0.135|-0.641|0.200
92343147|NCT01603602|184589322|SUPERIORITY||LS Mean Difference|0.59||||0.003|TWO_SIDED|95.0|0.21|0.978||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 12, Passive Goal||0.978|0.210|0.003
92157842|NCT01345292|184202500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.91|STANDARD_ERROR_OF_MEAN|2.271||0.032|TWO_SIDED|95.0|-9.38|-0.43||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.43|-9.38|0.032
92157843|NCT01345292|184202500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.42|STANDARD_ERROR_OF_MEAN|2.288||0.136|TWO_SIDED|95.0|-7.93|1.09||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.09|-7.93|0.136
92157844|NCT01345292|184202501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.2|STANDARD_ERROR_OF_MEAN|2.508|<|0.001|TWO_SIDED|95.0|-16.1|-6.23||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-6.23|-16.1|<0.001
92157845|NCT01345292|184202501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2|STANDARD_ERROR_OF_MEAN|2.527|<|0.001|TWO_SIDED|95.0|-15.2|-5.25||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-5.25|-15.2|<0.001
92217596|NCT03962738|184335599|SUPERIORITY||Odds Ratio (OR)|1.05||||0.862|TWO_SIDED|95.0|0.63|1.72|||Regression, Logistic|||||1.72|0.63|0.862
92217597|NCT03962738|184335601|SUPERIORITY||Odds Ratio (OR)|3.43||||0.112|TWO_SIDED|95.0|0.75|15.65|||Regression, Logistic|||||15.65|0.75|0.112
92399476|NCT03040141|184690295|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.542|||||||ANOVA|||||||0.542
92399477|NCT03040141|184690295|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.899|||||||ANOVA|||||||0.899
92399478|NCT03040141|184690295|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.321|||||||ANOVA|||||||0.321
92399479|NCT03040141|184690296|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.663|||||||ANOVA|||||||0.663
92399480|NCT03040141|184690296|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.54|||||||ANOVA|||||||0.540
92399481|NCT03040141|184690296|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.918|||||||ANOVA|||||||0.918
92399482|NCT03040141|184690296|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.294|||||||ANOVA|||||||0.294
92399483|NCT03040141|184690298|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.25|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.250
92343148|NCT01603602|184589322|SUPERIORITY||LS Mean Difference|0.19||||0.327|TWO_SIDED|95.0|-0.194|0.58||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 12, Passive Goal||0.580|-0.194|0.327
92343149|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|12.1||||0.117|TWO_SIDED|95.0|-3.089|27.293||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2, Elbow||27.293|-3.089|0.117
92343150|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|8.41||||0.273|TWO_SIDED|95.0|-6.717|23.527||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2, Elbow||23.527|-6.717|0.273
92343151|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|14.71||||0.015|TWO_SIDED|95.0|2.958|26.458||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4, Elbow||26.458|2.958|0.015
92343152|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|11.85||||0.046|TWO_SIDED|95.0|0.203|23.504||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4, Elbow||23.504|0.203|0.046
92343153|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|20.97|||<|0.001|TWO_SIDED|95.0|8.801|33.137||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6, Elbow||33.137|8.801|<0.001
92343154|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|11.35||||0.064|TWO_SIDED|95.0|-0.662|23.362||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6, Elbow||23.362|-0.662|0.064
92399484|NCT03040141|184690298|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.133|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.133
92399485|NCT03040141|184690298|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.177|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||||||0.177
92399486|NCT03040141|184690298|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.36|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons||||0.360
92399487|NCT03040141|184690299|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.636|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.636
92217598|NCT03962738|184335601|SUPERIORITY||Odds Ratio (OR)|9.05|||<|0.001|TWO_SIDED|95.0|2.68|30.55|||Regression, Logistic|||||30.55|2.68|<0.001
92217599|NCT03962738|184335601|SUPERIORITY||Odds Ratio (OR)|10.19|||<|0.001|TWO_SIDED|95.0|3.01|34.55|||Regression, Logistic|||||34.55|3.01|<0.001
92217600|NCT03962738|184335602|SUPERIORITY||Odds Ratio (OR)|0.78||||0.343|TWO_SIDED|95.0|0.46|1.31|||Regression, Logistic|||||1.31|0.46|0.343
92399488|NCT03040141|184690299|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.446|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||||||0.446
92399489|NCT03040141|184690299|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.53|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.530
92399490|NCT03040141|184690299|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.463|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.463
92399491|NCT03040141|184690300|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.152|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.152
92399492|NCT03040141|184690300|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.176|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.176
92217601|NCT03962738|184335602|SUPERIORITY||Odds Ratio (OR)|2.02|||<|0.001|TWO_SIDED|95.0|1.37|2.98|||Regression, Logistic|||||2.98|1.37|<0.001
92217602|NCT03962738|184335602|SUPERIORITY||Odds Ratio (OR)|2.13|||<|0.001|TWO_SIDED|95.0|1.42|3.2|||Regression, Logistic|||||3.20|1.42|<0.001
92217603|NCT03962738|184335603|SUPERIORITY||Odds Ratio (OR)|1.19||||0.605|TWO_SIDED|95.0|0.62|2.26|||Regression, Logistic|||||2.26|0.62|0.605
92217604|NCT03962738|184335603|SUPERIORITY||Odds Ratio (OR)|1.8||||0.015|TWO_SIDED|95.0|1.12|2.9|||Regression, Logistic|||||2.90|1.12|0.015
92217605|NCT03962738|184335603|SUPERIORITY||Odds Ratio (OR)|1.23||||0.432|TWO_SIDED|95.0|0.74|2.05|||Regression, Logistic|||||2.05|0.74|0.432
92343155|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|15.25||||0.013|TWO_SIDED|95.0|3.317|27.178||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8, Elbow||27.178|3.317|0.013
92343156|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|7.22||||0.225|TWO_SIDED|95.0|-4.488|18.934||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8, Elbow||18.934|-4.488|0.225
92343157|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|4.5||||0.409|TWO_SIDED|95.0|-6.239|15.236||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12, Elbow||15.236|-6.239|0.409
92217606|NCT03962738|184335604|SUPERIORITY||Odds Ratio (OR)|1.77||||0.166|TWO_SIDED|95.0|0.79|3.96|||Regression, Logistic|||||3.96|0.79|0.166
92217607|NCT03962738|184335604|SUPERIORITY||Odds Ratio (OR)|1.34||||0.396|TWO_SIDED|95.0|0.68|2.62|||Regression, Logistic|||||2.62|0.68|0.396
92217608|NCT03962738|184335604|SUPERIORITY||Odds Ratio (OR)|1.58||||0.181|TWO_SIDED|95.0|0.81|3.11|||Regression, Logistic|||||3.11|0.81|0.181
92217609|NCT03962738|184335605|SUPERIORITY||Odds Ratio (OR)|1.44||||0.233|TWO_SIDED|95.0|0.79|2.64|||Regression, Logistic|||||2.64|0.79|0.233
92217610|NCT03962738|184335605|SUPERIORITY||Odds Ratio (OR)|1.5||||0.092|TWO_SIDED|95.0|0.94|2.41|||Regression, Logistic|||||2.41|0.94|0.092
92217611|NCT03962738|184335605|SUPERIORITY||Odds Ratio (OR)|1.8||||0.017|TWO_SIDED|95.0|1.11|2.92|||Regression, Logistic|||||2.92|1.11|0.017
92217612|NCT03962738|184335606|SUPERIORITY|||||||0.724|||||||ANCOVA|||||||0.724
92217613|NCT03962738|184335606|SUPERIORITY|||||||0.24|||||||ANCOVA|||||||0.240
92399493|NCT03040141|184690300|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.157|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.157
92217614|NCT03962738|184335606|SUPERIORITY|||||||0.548|||||||ANCOVA|||||||0.548
92217615|NCT03962738|184335607|SUPERIORITY|||||||0.719|||||||ANCOVA|||||||0.719
92217616|NCT03962738|184335607|SUPERIORITY|||||||0.823|||||||ANCOVA|||||||0.823
92217617|NCT03962738|184335607|SUPERIORITY|||||||0.612|||||||ANCOVA|||||||0.612
92217618|NCT03962738|184335608|SUPERIORITY||Odds Ratio (OR)|1.78||||0.037|TWO_SIDED|95.0|1.04|3.07|||Regression, Logistic|||||3.07|1.04|0.037
92217619|NCT03962738|184335608|SUPERIORITY||Odds Ratio (OR)|2.67|||<|0.001|TWO_SIDED|95.0|1.75|4.06|||Regression, Logistic|||||4.06|1.75|<.001
92217620|NCT03962738|184335608|SUPERIORITY||Odds Ratio (OR)|3.27|||<|0.001|TWO_SIDED|95.0|2.11|5.06|||Regression, Logistic|||||5.06|2.11|<.001
92217621|NCT03962738|184335609|SUPERIORITY|||||||0.162|||||||ANOVA|||Work Functioning||||0.162
92217622|NCT03962738|184335609|SUPERIORITY|||||||0.356|||||||ANOVA|||Social Functioning||||0.356
92217623|NCT03962738|184335609|SUPERIORITY|||||||0.696|||||||ANOVA|||Energy and Vitality||||0.696
92217624|NCT03962738|184335609|SUPERIORITY|||||||0.914|||||||ANOVA|||Feelings and Concerns||||0.914
92217625|NCT03962738|184335609|SUPERIORITY|||||||0.226|||||||ANOVA|||Migraine Symptoms||||0.226
92217626|NCT03962738|184335609|SUPERIORITY|||||||0.31|||||||ANOVA|||Work Functioning||||0.310
92217627|NCT03962738|184335609|SUPERIORITY|||||||0.684|||||||ANOVA|||Social Functioning||||0.684
92217628|NCT03962738|184335609|SUPERIORITY|||||||0.864|||||||ANOVA|||Energy and Vitality||||0.864
92217629|NCT03962738|184335609|SUPERIORITY|||||||0.412|||||||ANOVA|||Feelings and Concerns||||0.412
92217630|NCT03962738|184335609|SUPERIORITY|||||||0.025|||||||ANOVA|||Migraine Symptoms||||0.025
92217631|NCT03962738|184335609|SUPERIORITY|||||||0.619|||||||ANOVA|||Work Functioning||||0.619
92217632|NCT03962738|184335609|SUPERIORITY|||||||0.824|||||||ANOVA|||Social Functioning||||0.824
92217633|NCT03962738|184335609|SUPERIORITY|||||||0.476|||||||ANOVA|||Energy and Vitality||||0.476
92217634|NCT03962738|184335609|SUPERIORITY|||||||0.352|||||||ANOVA|||Feelings and Concerns||||0.352
92217635|NCT03962738|184335609|SUPERIORITY|||||||0.044|||||||ANOVA|||Migraine Symptoms||||0.044
92217636|NCT04556136|184335615|NON_INFERIORITY|This non-inferiority study was designed to demonstrate the ability of the phototherapy kiosk to safely administer UVB radiation to participants with varying levels of 25(OH)D and achieve comparable levels of serum 25(OH)D in a similar population of adults randomized to receive RDA of 600 IU vitamin D oral supplementation daily. It is important to evaluate device equivalence to standard of care in the maintenance of sufficient levels of vitamin D in adults 18 - 70 years old.||||||0.01||||||Threshold for significance \<0.05|Wilcoxon (Mann-Whitney)|Effect sizes for significant differences were included as eta squared (ŋ2) values.||The intent-to-treat analysis plan was carried out with all available subject data points. No interim analysis was performed. Exploratory data analyses were conducted on serum vitamin D levels of participants assigned to either the oral supplementation or kiosk group. Analysis was restricted to participants with valid baseline serum vitamin D data and at least one follow-up blood draw. The Shapiro-Wilk test was used to assess the normality of the data distribution.||||0.01
92217637|NCT03492554|184335639|OTHER||||||<|0.0001|||||||1 sided exact binomial test|||H0: Specificity = 92% H1: Specificity \> 92 Under the assumption that the true population specificity is 96.5%, 226 subjects who were diagnosed with SR based on the 12-lead ECG reference strip and where the device algorithm classification produced a result of AF or SR was calculated to provide at least 80% power to reject its null hypothesis, using a one-sided type I error of 0.025. To obtain readable waveforms approximately 300 subjects with no known diagnosis of AF were enrolled.||||<0.0001
92157846|NCT01345292|184202502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|2.012||0.533|TWO_SIDED|95.0|-5.22|2.71||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.71|-5.22|0.533
92343158|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|3.86||||0.47|TWO_SIDED|95.0|-6.69|14.419||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12, Elbow||14.419|-6.690|0.470
92343159|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|-6.13||||0.263|TWO_SIDED|95.0|-16.962|4.706||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2, Wrist||4.706|-16.962|0.263
92343160|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|-14.6||||0.012|TWO_SIDED|95.0|-25.846|-3.36||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2, Wrist||-3.360|-25.846|0.012
92343161|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|-10.64||||0.098|TWO_SIDED|95.0|-23.277|1.996||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4, Wrist||1.996|-23.277|0.098
92275133|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.76|||||TWO_SIDED|95.0|-88.45|97.98||||||For change in indigestion at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||97.98|-88.45|
92275134|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.29|||||TWO_SIDED|95.0|-54.32|82.89||||||For change in flatulence at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||82.89|-54.32|
92275135|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.81|||||TWO_SIDED|95.0|-66.45|114.07||||||For change in cachexia at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||114.07|-66.45|
92275136|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.75|||||TWO_SIDED|95.0|-56.14|119.63||||||For change in side effects at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||119.63|-56.14|
92275137|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.0|||||TWO_SIDED|95.0|-163.35|63.35||||||For change in fear of future health at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||63.35|-163.35|
92275138|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.29|||||TWO_SIDED|95.0|-125.23|96.66||||||For change in ability to plan future at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||96.66|-125.23|
92275139|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|-45.18|95.18||||||For change in pancreatic pain at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||95.18|-45.18|
92275140|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|-45.18|95.18||||||For change in eating related items at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||95.18|-45.18|
92275141|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|77.78|||||TWO_SIDED|95.0|14.55|141.0||||||For change in altered bowel habits at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||141.00|14.55|
92275142|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|86.11|||||TWO_SIDED|95.0|40.61|131.61||||||For change in jaundice at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||131.61|40.61|
92343162|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|-13.1||||0.051|TWO_SIDED|95.0|-26.26|0.068||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4, Wrist||0.068|-26.260|0.051
92343163|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|-17.11||||0.01|TWO_SIDED|95.0|-30.031|-4.189||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6, Wrist||-4.189|-30.031|0.010
92343164|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|-11.25||||0.098|TWO_SIDED|95.0|-24.622|2.131||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6, Wrist||2.131|-24.622|0.098
92275143|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|-56.48|106.48||||||For change in body image at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||106.48|-56.48|
92399494|NCT03040141|184690300|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.844|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||||||0.844
92275144|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.22|||||TWO_SIDED|95.0|-37.69|132.13||||||For change in health care satisfaction at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||132.13|-37.69|
92275145|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0|||||TWO_SIDED|95.0|-70.68|110.68||||||For change in sexual functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||110.68|-70.68|
92275146|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.33|||||TWO_SIDED|95.0|-91.87|25.2||||||For change in ascites at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||25.20|-91.87|
92275147|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.78|||||TWO_SIDED|95.0|-41.89|97.45||||||For change in indigestion at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||97.45|-41.89|
92275148|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.67|||||TWO_SIDED|95.0|-34.03|67.36||||||For change in flatulence at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||67.36|-34.03|
92343165|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|-17.71||||0.005|TWO_SIDED|95.0|-29.888|-5.537||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8, Wrist||-5.537|-29.888|0.005
92343166|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|-15.74||||0.015|TWO_SIDED|95.0|-28.293|-3.194||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8, Wrist||-3.194|-28.293|0.015
92343167|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|-15.25||||0.02|TWO_SIDED|95.0|-28.01|-2.492||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12, Wrist||-2.492|-28.010|0.020
92343168|NCT01603602|184589323|SUPERIORITY||LS Mean Difference|-13.52||||0.046|TWO_SIDED|95.0|-26.797|-0.243||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12, Wrist||-0.243|-26.797|0.046
92343169|NCT00316004|184589331|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent prevalence of poor outcome between the three groups.||||0.55
92343170|NCT00316004|184589332|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|Adjusted for multiple imputations||The null hypothesis is that there are no differences in the percent prevalence of poor outcome between the three treatment groups among patients with head AIS≥4.||||0.59
92343171|NCT00316004|184589333|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|Adjusted for multiple imputations.||The null hypothesis is that there are no differences in the percent prevalence of poor outcome between the three groups.||||0.67
92343172|NCT00316004|184589334|SUPERIORITY_OR_OTHER|||||||0.57||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|Adjusted for multiple imputations||The null hypothesis is that there are no differences in the percent prevalence of poor outcome between the three treatment groups among patients with head AIS≥2.||||0.57
92343173|NCT00316004|184589335|SUPERIORITY_OR_OTHER|||||||0.84||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for proportions|Adjusted for multiple imputations||The null hypothesis is that there are no differences in the percent of patients at any level of disability between the three groups.||||.84
92343174|NCT00316004|184589336|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the percent of patients who were alive on the 28th day after injury between the three groups.||||0.88
92343175|NCT00316004|184589337|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the percent of patients who were alive on the day discharged from the hospital after injury between the three groups.||||0.88
92343176|NCT00316004|184589338|SUPERIORITY_OR_OTHER|||||||0.91||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the percent of patients who were alive and free of ARDS from the day of injury to the 28th day after injury between the three groups.||||0.91
92343177|NCT00316004|184589339|SUPERIORITY_OR_OTHER|||||||0.81||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in average Worst Multiple Organ Dysfunction Scores (MODS) through day 28 between the three groups.||||0.81
92399495|NCT03040141|184690301|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.531|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.531
92157847|NCT01345292|184202502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|2.023||0.522|TWO_SIDED|95.0|-5.29|2.69||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.69|-5.29|0.522
92275149|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.33|||||TWO_SIDED|95.0|-100.19|116.86||||||For change in cachexia at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||116.86|-100.19|
92343178|NCT00316004|184589340|SUPERIORITY_OR_OTHER|||||||0.77||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the average number of Ventilator-free days through day 28 between the three groups.||||0.77
92399496|NCT03040141|184690301|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.582|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.582
92343179|NCT00316004|184589341|SUPERIORITY_OR_OTHER|||||||0.76||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the average number of days alive out of the ICU through day 28 between the three groups.||||0.76
92343180|NCT00316004|184589342|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the average number of days alive out of the hospital through day 28 between the three groups.||||0.43
92399497|NCT03040141|184690301|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.55|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.550
92343181|NCT00316004|184589343|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients with any nosocomial infections through hospital stay between the three groups.||||0.06
92343182|NCT00316004|184589343|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients with pneumonia through hospital stay between the three groups.||||0.3
92343183|NCT00316004|184589343|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients with bloodstream infections through hospital stay between the three groups.||||0.04
92343184|NCT00316004|184589343|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients with urinary tract infections through hospital stay between the three groups.||||0.06
92343185|NCT00316004|184589343|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients with wound infections through hospital stay between the three groups.||||0.88
92343186|NCT00316004|184589344|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|||The null hypothesis is that there are no differences in the average amount of total fluids given within the first 24 hours between the three groups.||||0.68
92343187|NCT00316004|184589345|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|||The null hypothesis is that there are no differences in the average number of PRBC units given within the first 24 hours between the three groups.||||0.43
92343188|NCT00316004|184589346|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died during hospitalization between the three groups.||||0.88
92343189|NCT00316004|184589346|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients who were discharged alive from the hospital to home between the three groups.||||0.26
92343190|NCT00316004|184589346|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients who were discharged alive from the hospital to inpatient rehabilitation facilities between the three groups.||||0.16
92399498|NCT03040141|184690301|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.84|||||||Chi-squared|P-value determined based on Cox proportional hazards model Wald Chi-Square Statistic.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.840
92157848|NCT01345292|184202503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.53|STANDARD_ERROR_OF_MEAN|2.331|<|0.001|TWO_SIDED|95.0|-13.1|-3.94||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-3.94|-13.1|<0.001
92343191|NCT00316004|184589346|SUPERIORITY_OR_OTHER|||||||0.17||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients who were discharged alive from the hospital to skilled nursing facilities between the three groups.||||0.17
92343192|NCT01935089|184589351|OTHER|"Hypothesis: 20 weeks of treatment (baseline week 3 to endpoint week 24) will result in a change in the levels of integrated HIV-1 DNA (copies/CD4 T cell Variable name: intDNA).~Test if the mean difference (IntDNA wk24 - IntDNAwk3) is significantly different from zero (i.e. no change) Null hypothesis: Mean (IntDNA wk24 - IntDNAwk3) = 0; reject if p\<0.05"||||||0.0797||||||significant if \<0.05|signed rank test|||||||0.0797
92343193|NCT02932943|184589352|SUPERIORITY||Least Squares Mean Difference|0.3||||0.6482|TWO_SIDED|95.0|-1.07|1.72|||Mixed Model Repeated Measures (MMRM)|||||1.72|-1.07|0.6482
92343194|NCT02932943|184589353|SUPERIORITY||Least Squares Mean Difference|-0.4||||0.559|TWO_SIDED|95.0|-1.61|0.87|||Mixed Model Repeated Measures (MMRM)|||||0.87|-1.61|0.5590
92399499|NCT03040141|184690302|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.3534|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.3534
92343195|NCT02932943|184589354|SUPERIORITY||Least Squares Mean Difference|0.2||||0.8131|TWO_SIDED|95.0|-1.53|1.95|||Mixed Model Repeated Measures (MMRM)|||||1.95|-1.53|0.8131
92343196|NCT02932943|184589355|SUPERIORITY||Least Squares Mean Difference|-0.4||||0.6108|TWO_SIDED|95.0|-2.05|1.21|||Mixed Model Repeated Measures (MMRM)|||||1.21|-2.05|0.6108
92343197|NCT00977197|184589402|SUPERIORITY_OR_OTHER|||||||0.008|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender.||||||0.008
92343198|NCT00977197|184589403|SUPERIORITY_OR_OTHER|||||||0.009|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender.||||||0.009
92343199|NCT00977197|184589404|SUPERIORITY_OR_OTHER|||||||0.389|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender; rank scale.||||||0.389
92343200|NCT00977197|184589405|SUPERIORITY_OR_OTHER|||||||0.049|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender, rank scale.||||||0.049
92343201|NCT00977197|184589406|SUPERIORITY_OR_OTHER|||||||0.044|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender.||||||0.044
92343202|NCT00977197|184589407|SUPERIORITY_OR_OTHER|||||||0.35||||||Intent to treat analysis, not adjusted for age and gender.|Chi-squared|||||||0.350
92343203|NCT00977197|184589408|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender, rank scale.||||||0.020
92399500|NCT03040141|184690302|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.7839|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.7839
92343204|NCT00977197|184589409|SUPERIORITY_OR_OTHER|||||||0.024|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender.||||||0.024
92343205|NCT00977197|184589410|SUPERIORITY_OR_OTHER|||||||0.417|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender, rank scale.||||||0.417
92343206|NCT00977197|184589411|SUPERIORITY_OR_OTHER|||||||0.03||||||Intent to Treat analysis; adjusted for age and gender, rank scale.|ANCOVA|||||||0.030
92343207|NCT00977197|184589412|SUPERIORITY_OR_OTHER|||||||0.016|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender.||||||0.016
92157849|NCT01345292|184202503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.13|STANDARD_ERROR_OF_MEAN|2.344||0.01|TWO_SIDED|95.0|-10.8|-1.51||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-1.51|-10.8|0.010
92157850|NCT01207908|184202504|SUPERIORITY||Mean Difference (Final Values)|-8.5||||0.53|TWO_SIDED|95.0|-37.1|20.1|||t-test, 2 sided|||||20.1|-37.1|0.53
92157851|NCT01207908|184202505|SUPERIORITY||Mean Difference (Final Values)|-2.66|||<|0.0001|TWO_SIDED|95.0|-3.78|-1.55|||t-test, 2 sided|||||-1.55|-3.78|<0.0001
92157852|NCT01207908|184202506|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.53|TWO_SIDED|95.0|-1.26|2.38|||t-test, 2 sided|||||2.38|-1.26|0.53
92343208|NCT00977197|184589413|SUPERIORITY_OR_OTHER|||||||0.097||||||Intent to Treat analysis; not adjusted for age and gender.|Chi-squared|||||||0.097
92343209|NCT02530385|184589422|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
92343210|NCT02530385|184589423|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|||||||0.70
92343211|NCT02530385|184589424|SUPERIORITY|||||||0.93|||||||Mixed Models Analysis|||||||0.93
92343212|NCT02530385|184589425|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||0.90
92343213|NCT02530385|184589426|SUPERIORITY|||||||0.32|||||||Mixed Models Analysis|||||||0.32
92157853|NCT02403674|184202518|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 95% CI of the mean treatment difference was greater than -10.|Difference in percentages|3.537|||||TWO_SIDED|95.0|-1.951|9.026|||||The 95% CIs for difference in percentages were calculated using stratum-adjusted Mantel-Haenszel method for each stratum (HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|||9.026|-1.951|
92157854|NCT02403674|184202519|SUPERIORITY|Superiority was declared when the 1-sided p-value comparing treatment difference was \<0.02497.|Difference in percentages|-28.3|||<|0.001|TWO_SIDED|95.0|-34.0|-22.5||2-sided P-value|t-test, 2 sided||95% CIs were calculated using the Miettinen and Nurminen method.|Dizziness difference||-22.5|-34.0|<0.001
92157855|NCT02403674|184202519|SUPERIORITY|Superiority was declared when the 1-sided p-value comparing treatment difference was \<0.02497.|Difference in percentages|-13.5|||<|0.001|TWO_SIDED|95.0|-19.1|-7.9||2-sided P-value|t-test, 2 sided||95% CIs were calculated using the Miettinen and Nurminen method.|Sleep disorders and disturbances difference||-7.9|-19.1|<0.001
92157856|NCT02403674|184202519|SUPERIORITY|Superiority was declared when the 1-sided p-value comparing treatment difference was \<0.02497.|Difference in percentages|-3.8||||0.033|TWO_SIDED|95.0|-7.6|-0.3||2-sided P-value|t-test, 2 sided||95% CIs were calculated using the Miettinen and Nurminen method.|Altered sensorium difference||-0.3|-7.6|0.033
92157857|NCT02403674|184202520|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 95% CI of the mean treatment difference was greater than -10|Difference in percentages|3.815|||||TWO_SIDED|95.0|-2.412|10.042|||||The 95% CIs for difference in percentages were calculated using stratum-adjusted Mantel-Haenszel method for each stratum (HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|||10.042|-2.412|
92343214|NCT02295644|184589435|SUPERIORITY_OR_OTHER|||||||0.17||||||Interaction test of duty cycle and intensity for self reported pain score|ANOVA|||||||0.17
92343215|NCT02295644|184589435|SUPERIORITY_OR_OTHER|||||||0.14||||||Main effect of duty cycle on self reported pain score.|ANOVA|||||||0.14
92343216|NCT02295644|184589435|SUPERIORITY_OR_OTHER|||||||1||||||Main effect of intensity on self reported pain score.|ANOVA|||||||1.0
92343217|NCT02295644|184589436|SUPERIORITY_OR_OTHER|||||||0.24||||||Main effect for duty cycle.|ANOVA|||||||.24
92343218|NCT02295644|184589436|SUPERIORITY_OR_OTHER|||||||0.019||||||Main effect for intensity.|ANOVA|||||||0.019
92343219|NCT02295644|184589436|SUPERIORITY_OR_OTHER|||||||0.17|||||||ANOVA|||Interaction of intensity and duty cycle.||||0.17
92343220|NCT02295644|184589437|SUPERIORITY_OR_OTHER|||||||0.034||||||Main effect for duty cycle.|ANOVA|||||||0.034
92343221|NCT02295644|184589437|SUPERIORITY_OR_OTHER|||||||0.475|||||||ANOVA|||Main effect for intensity.||||0.475
92343222|NCT02295644|184589437|SUPERIORITY_OR_OTHER|||||||0.178|||||||ANOVA|||Interaction of intensity and duty cycle.||||.178
92399501|NCT03040141|184690302|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.4893|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.4893
92343223|NCT00477685|184589450|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||Null hypothesis: the postoperative intraocular pressure at 90 days equals the preoperative intraocular pressure at baseline.||||0.01
92343224|NCT01038687|184589488|SUPERIORITY|||||||0.059|||||||ANCOVA|||||||0.059
92343225|NCT01038687|184589488|SUPERIORITY|||||||0.18|||||||Dunnett's test|||15mg dose vs placebo||||0.18
92343226|NCT01038687|184589488|SUPERIORITY|||||||0.04|||||||Dunnett's test|||20mg dose vs placebo||||0.04
92343227|NCT01038687|184589489|SUPERIORITY|||||||0.81|||||||ANCOVA|||||||0.81
92343228|NCT01038687|184589489|SUPERIORITY|||||||0.89|||||||Dunnett's test|||15mg dose vs placebo||||0.89
92343229|NCT01038687|184589489|SUPERIORITY|||||||0.76|||||||Dunnett's test|||20mg dose vs placebo||||0.76
92399502|NCT03040141|184690302|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.5101|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.5101
92217638|NCT03492554|184335640|OTHER||||||<|0.0001|||||||1 sided exact binomial test|||H0: Sensitivity = 90% H1: Sensitivity \> 90% Under the assumption that the true population sensitivity is 95%, 231 subjects who were diagnosed with AF based on the 12-lead ECG reference strip and where the device algorithm classification produced a result of AF or SR was calculated to provide at least 80% power to reject the null hypothesis, using a one-sided type I error of 0.025. To obtain readable waveforms, a minimum of 260 subjects with a known diagnosis of AF were enrolled.||||<0.0001
92343230|NCT01038687|184589490|SUPERIORITY|||||||0.075|||||||ANCOVA|||||||0.075
92343231|NCT01038687|184589490|SUPERIORITY|||||||0.058|||||||Dunnett's test|||15mg dose vs placebo||||0.058
92343232|NCT01038687|184589490|SUPERIORITY|||||||0.164|||||||Dunnett's test|||20mg dose vs placebo||||0.164
92343233|NCT01038687|184589491|SUPERIORITY|||||||0.084|||||||ANCOVA|||||||0.084
92399503|NCT03040141|184690303|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.5436|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.5436
92217639|NCT03492554|184335641|OTHER||||||<|0.0001|||||||1 sided exact binomial|||H0: agreement proportion of visual display= 0.8 H1: agreement proportion of visual display\> 0.8 Under the assumption that the true population agreement proportion of visual display was 90%, 88 subjects would provide at least 80% power to reject the null hypothesis using a one-sided type I error of 0.05. To account for obtaining readable waveforms, approximately 140 subjects (70 SR; 70 AF) were randomly selected.||||<0.0001
92343234|NCT01038687|184589491|SUPERIORITY|||||||0.98|||||||Dunnett's test|||15mg vs placebo||||0.98
92343235|NCT01038687|184589491|SUPERIORITY|||||||0.079|||||||Dunnett's test|||20mg vs placebo||||0.079
92343236|NCT01038687|184589492|SUPERIORITY|||||||0.058|||||||ANCOVA|||||||0.058
92343237|NCT01038687|184589492|SUPERIORITY|||||||0.32|||||||Dunnett's test|||15mg dose vs placebo||||0.32
92343238|NCT01038687|184589492|SUPERIORITY|||||||0.034|||||||Dunnett's test|||20mg dose vs placebo||||0.034
92343239|NCT01038687|184589493|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
92343240|NCT01038687|184589493|SUPERIORITY|||||||0.002|||||||Dunnett's test|||15mg dose vs placebo||||0.002
92343241|NCT01038687|184589493|SUPERIORITY|||||||0.001|||||||Dunnett's test|||20mg vs placebo||||0.001
92343242|NCT01038687|184589494|SUPERIORITY|||||||0.091|||||||ANCOVA|||||||0.091
92343243|NCT01038687|184589494|SUPERIORITY|||||||0.99|||||||Dunnett's test|||15mg dose vs placebo||||0.99
92343244|NCT01038687|184589494|SUPERIORITY|||||||0.103|||||||Dunnett's test|||20mg vs placebo||||0.103
92343245|NCT01038687|184589495|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
92343246|NCT01038687|184589495|SUPERIORITY|||||||0.002|||||||Dunnett's test|||15mg dose vs placebo||||0.002
92343247|NCT01038687|184589495|SUPERIORITY|||||||0.001|||||||Dunnett's test|||20mg dose vs placebo||||0.001
92343248|NCT01038687|184589496|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
92343249|NCT01038687|184589496|SUPERIORITY|||||||0.053|||||||Dunnett's test|||15mg dose vs placebo||||0.053
92343250|NCT01038687|184589496|SUPERIORITY|||||||0.002|||||||Dunnett's test|||20mg dose vs placebo||||0.002
92343251|NCT02783911|184589497|SUPERIORITY|||||||0.808|||||||Chi-squared|||||||0.808
92343252|NCT02616783|184589498|SUPERIORITY||Difference in Percentages|2.427|||<|0.001|TWO_SIDED|95.0|1.337|3.517|||ANOVA|P-value was calculated using the ANOVA model with baseline spine BMD score, sex, and treatment as fixed effects.|The 95% confidence intervals (CI) were calculated using the ANOVA model with baseline spine BMD score, sex, and treatment as fixed effects.|||3.517|1.337|<0.001
92343253|NCT02616783|184589499|SUPERIORITY||Difference in percentages|2.036|||<|0.001|TWO_SIDED|95.0|1.168|2.904|||ANOVA|P-value was calculated using the ANOVA model with baseline hip BMD score, sex, and treatment as fixed effects.|The 95% CIs were calculated using the ANOVA model with baseline hip BMD score, sex, and treatment as fixed effects.|||2.904|1.168|<0.001
92343254|NCT02616783|184589500|SUPERIORITY||Difference in percentages|1.749|||<|0.001|TWO_SIDED|95.0|0.726|2.771|||ANOVA|P-value was calculated using the ANOVA model with baseline spine BMD score, sex, and treatment as fixed effects.|The 95% CIs were calculated using the ANOVA model with baseline spine BMD score, sex, and treatment as fixed effects.|||2.771|0.726|<0.001
92343255|NCT02616783|184589501|SUPERIORITY||Difference in percentages|1.351|||<|0.001|TWO_SIDED|95.0|0.602|2.099|||ANOVA|P-value was calculated using the ANOVA model with baseline hip BMD score, sex, and treatment as fixed effects.|The 95% CIs were calculated using the ANOVA model with baseline hip BMD score, sex, and treatment as fixed effects.|||2.099|0.602|<0.001
92399504|NCT03040141|184690303|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.8215|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.8215
92399505|NCT03040141|184690303|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.6319|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.6319
92399506|NCT03040141|184690303|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.7011|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.7011
92217640|NCT03492554|184335642|OTHER||||||<|0.0001|||||||1 sided exact binomial|||H0: agreement proportion of R wave amplitude = 0.8 H1: agreement proportion of R wave amplitude \> 0.8 Under the assumption that the true population agreement proportion of R wave amplitude was 90%, 88 subjects would provide at least 80% power to reject the null hypothesis using a one-sided type I error of 0.05. To account for obtaining readable waveforms, approximately 140 subjects (70 SR; 70 AF) were randomly selected.||||<0.0001
92343256|NCT02616783|184589502|SUPERIORITY||Difference in percentages|-5.5||||0.18|TWO_SIDED|95.0|-11.8|1.6||P-values for the superiority test comparing the percentages of participants with HIV-1 RNA \< 50 copies/mL were from the Fisher exact test.|Fisher Exact||Differences in percentages and 95% CI were generated based on exact method.|||1.6|-11.8|0.18
92343257|NCT02616783|184589503|SUPERIORITY||Difference in percentages|-1.0||||1|TWO_SIDED|95.0|-8.5|9.3|||Fisher Exact|P-values for the superiority test comparing the percentages of participants with HIV-1 RNA \< 50 copies/mL were from the Fisher exact test.|Differences in percentages and 95% CI were generated based on exact method.|||9.3|-8.5|1.00
92343258|NCT02616783|184589504|SUPERIORITY||Difference in LSM|52.0||||0.053|TWO_SIDED|95.0|-1.0|106.0|||ANOVA|The p-value, difference in least square means (LSM), and its 95% CI were from ANOVA model with treatment as a fixed effect.||||106|-1|0.053
92343259|NCT02616783|184589505|SUPERIORITY||Difference in LSM|57.0||||0.051|TWO_SIDED|95.0|0.0|115.0|||ANOVA|The p-value, difference in LSM, and its 95% CI were from ANOVA model with treatment as a fixed effect.||||115|0|0.051
92343260|NCT01614470|184589515|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|10.678|||<|0.0001|TWO_SIDED|95.0|7.2559|14.1|||Mixed Models Analysis|||||14.1000|7.2559|<0.0001
92343261|NCT01614470|184589516|SUPERIORITY_OR_OTHER||LS mean difference|0.6624|||<|0.0001|TWO_SIDED|95.0|0.3366|0.9881|||Mixed Models Analysis|||||0.9881|0.3366|<0.0001
92343262|NCT01614470|184589518|SUPERIORITY_OR_OTHER||LS mean difference|-49.1667|||<|0.0001|TWO_SIDED|95.0|-56.9527|-41.3807|||Mixed Models Analysis|||||-41.3807|-56.9527|<0.0001
92343263|NCT01614470|184589521|SUPERIORITY_OR_OTHER||LS mean difference|9.6105||||0.0004|TWO_SIDED|95.0|4.4874|14.7336|||Mixed Models Analysis|||||14.7336|4.4874|0.0004
92343264|NCT03669588|184589548|SUPERIORITY||Odds Ratio (OR)|4.951|||<|0.0001|TWO_SIDED|95.0|2.213|11.528|||Regression, Logistic|||"Analysis with a 2-sided exact test (using logistic regression) at the 2-sided 5% significance level in the AChR-Ab seropositive population, stratified by Japanese versus (vs) non-Japanese and NSID vs no NSID as concomitant gMG treatment, with cycle baseline MG-ADL total score as covariate.~The treatment effect was presented as the odds ratio. An odds ratio of more than 1 represents a higher response rate for ARGX-113 compared to placebo."||11.528|2.213|<0.0001
92343265|NCT03669588|184589549|SUPERIORITY||Odds Ratio (OR)|10.842|||<|0.0001|TWO_SIDED|95.0|4.179|31.2|||Regression, Logistic|||"Analysis with a 2-sided exact test (using logistic regression) at the 2-sided 5% significance level in the AChR-Ab seropositive population, stratified by Japanese vs non-Japanese and NSID vs no NSID as concomitant gMG treatment, with cycle baseline QMG total score as covariate.~The treatment effect was presented as the odds ratio. An odds ratio of more than 1 represents a higher response rate for ARGX-113 compared to placebo."||31.200|4.179|<0.0001
92399507|NCT03040141|184690304|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.478|||||||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.478
92343266|NCT03669588|184589550|SUPERIORITY||Odds Ratio (OR)|3.699|||<|0.0001|TWO_SIDED|95.0|1.854|7.578|||Regression, Logistic|||"Analysis with a 2-sided exact test (using logistic regression) at the 2-sided 5% significance level in the overall population, stratified by AChR-Ab status (seropositive vs seronegative), Japanese vs non-Japanese and NSID vs no NSID as concomitant gMG treatment, with cycle baseline MG-ADL total score as covariate.~The treatment effect was presented as the odds ratio. An odds ratio of more than 1 represents a higher response rate for ARGX-113 compared to placebo."||7.578|1.854|<0.0001
92343267|NCT03669588|184589551|SUPERIORITY||Least square means difference|22.065|STANDARD_ERROR_OF_MEAN|5.616||0.0001|TWO_SIDED|95.0|10.949|33.181|||ANCOVA|||Analysis of covariance (ANCOVA) in the AChR-Ab seropositive population with treatment, baseline MG-ADL total score, Japanese vs non-Japanese, and NSID vs no NSID as concomitant gMG treatment as the covariates.||33.181|10.949|0.0001
92217641|NCT01478360|184335644|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.166||||0.5392|TWO_SIDED|90.0|-0.617|0.285|||Mixed Models Analysis|||||0.285|-0.617|0.5392
92217642|NCT01010633|184335669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.3|||<|0.001|TWO_SIDED|95.0|5.7|22.9|||Chi-squared|||||22.9|5.7|<0.001
92343268|NCT03669588|184589552|SUPERIORITY|||||||0.2604|||||||Log Rank|||Analysis was performed in the AChR-Ab seropositive population and the p-value was calculated using the log-rank test, stratified by Japanese vs non-Japanese and NSID vs no NSID as concomitant gMG treatment.||||0.2604
92343269|NCT00492726|184589582|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set to 10% in the protocol, in agreement with FDA recommendations. Sample size was estimated using the method as described in Farrington-Manning. Estimation was performed to achieve 85% power, based on the equivalence delta of 10%, and a clinical success rate of 80% in the per protocol population.|Difference of cure rates (in percent)|-3.8||||||95.0|-7.9|0.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||0.4|-7.9|
92399508|NCT03040141|184690304|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.468|||||||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.468
92217643|NCT01010633|184335671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.0|||<|0.001|TWO_SIDED|95.0|21.4|40.7|||Chi-squared|||||40.7|21.4|<0.001
92157858|NCT02403674|184202521|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 95% CI of the mean treatment difference was greater than -10.|Difference in percentages|4.1|||||TWO_SIDED|95.0|-1.5|9.7|||||The 95% CIs for difference in percentages were calculated using stratum-adjusted Mantel-Haenszel method for each stratum (HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|||9.7|-1.5|
92343270|NCT00492726|184589583|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference in improvement rates (in %)|1.1||||||95.0|-0.4|2.7|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||2.7|-0.4|
92343271|NCT00492726|184589584|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference in bact. success rates (in %)|-3.9||||||95.0|-8.8|1.0|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group. Presumed eradications and eradications without superinfection were considered bacteriological successes.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||1.0|-8.8|
92343272|NCT00492726|184589585|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of cure rates (in percent)|-1.5||||||95.0|-5.0|1.9|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||1.9|-5.0|
92343273|NCT00492726|184589586|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference in bact. success rates (in %)|-3.9||||||95.0|-8.8|1.0|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group. Presumed eradications and eradications without superinfection were considered bacteriological successes.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||1.0|-8.8|
92343274|NCT00492726|184589587|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference in bact. success rates (in %)|-3.8||||||95.0|-9.0|1.5|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group. Presumed eradications and eradications without super- or reinfection were considered bacteriological successes.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||1.5|-9.0|
92343275|NCT00492726|184589588|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of cure rates (in percent)|-2.9||||||95.0|-7.6|1.9|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||1.9|-7.6|
92343276|NCT02557399|184589596|SUPERIORITY_OR_OTHER||difference in percent|-6.83||||0.008|TWO_SIDED|95.0|-11.88|-1.78||The analysis method was mixed model repeated measures analysis with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-1.78|-11.88|0.008
92343277|NCT02557399|184589597|SUPERIORITY_OR_OTHER||difference in percent|-0.25||||0.916|TWO_SIDED|95.0|-4.85|4.35||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1|||4.35|-4.85|0.916
92343278|NCT02557399|184589597|SUPERIORITY_OR_OTHER||difference in percent|-5.85||||0.01|TWO_SIDED|95.0|-10.29|-1.42||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4|||-1.42|-10.29|0.010
92157859|NCT02403674|184202522|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 95% CI of the mean treatment difference was greater than -10|Difference in percentages|3.268|||||TWO_SIDED|95.0|-3.057|9.593|||||The 95% CIs for difference in percentages were calculated using stratum-adjusted Mantel-Haenszel method for each stratum (HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|||9.593|-3.057|
92157860|NCT02403674|184202523|SUPERIORITY|Superiority was declared when group difference (MK-1439A-ATRIPLA®) was a positive value.|Difference in mean %change from baseline|10.1|||||TWO_SIDED|95.0|-16.1|36.3|||||95% CIs were calculated based on t-distribution.|||36.3|-16.1|
92157861|NCT02403674|184202524|SUPERIORITY|Superiority was declared when group difference (MK-1439A-ATRIPLA) was a positive value|Diff in mean % change from baseline|14.7|||||TWO_SIDED|95.0|-18.7|48.2|||||The 95% CI for mean difference in CD4 change was based on t-distribution.|||48.2|-18.7|
92157862|NCT02403674|184202525|OTHER|Difference in percentage of participants with ≥1 AE(s)|Difference in percentages|-8.0|||||TWO_SIDED|95.0|-13.0|-3.1|||||95% CIs were calculated with the Miettinen \& Nurminen method.|||-3.1|-13.0|
92157863|NCT02403674|184202526|OTHER|Difference in percentage of participants with ≥1 AE(s)|Difference in percentages|-3.6|||||TWO_SIDED|95.0|-6.9|-0.5|||||95% CIs were calculated with the Miettinen \& Nurminen method.|||-0.5|-6.9|
92157864|NCT02403674|184202527|SUPERIORITY|Superiority was declared when the 1-sided p-value comparing treatment difference was \<0.02497.|Difference in percentages|-2.5|||<|0.001|TWO_SIDED|95.0|-5.9|0.8||2-sided P-value|t-test, 2 sided||95% CIs were calculated using the Miettinen and Nurminen method.|Depression and suicide/self-injury difference||0.8|-5.9|<0.001
92157865|NCT02403674|184202527|SUPERIORITY|Superiority was declared when the 1-sided p-value comparing treatment difference was \<0.02497.|Difference in percentages|-0.8|||<|0.001|TWO_SIDED|95.0|-2.5|0.5||2-sided P-value|t-test, 2 sided||95% CIs were calculated using the Miettinen and Nurminen method.|Psychosis and psychotic disorders difference||0.5|-2.5|<0.001
92157866|NCT02403674|184202528|SUPERIORITY||Difference in mean %change from baseline|-10.01|||<|0.0001|TWO_SIDED|95.0|-13.53|-6.49|||ANCOVA||95% CIs and 2-sided p-values for treatment difference were calculated from an ANCOVA model with terms for baseline lipid level and treatment.|||-6.49|-13.53|<0.0001
92343279|NCT02557399|184589597|SUPERIORITY_OR_OTHER||difference in percent|-2.35||||0.257|TWO_SIDED|95.0|-6.42|1.72||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8|||1.72|-6.42|0.257
92343280|NCT02557399|184589597|SUPERIORITY_OR_OTHER||difference in percent|-3.24||||0.062|TWO_SIDED|95.0|-6.64|0.16||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12|||0.16|-6.64|0.062
92343281|NCT02557399|184589598|SUPERIORITY_OR_OTHER||difference in percent|-5.08||||0.115|TWO_SIDED|95.0|-11.41|1.25||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||1.25|-11.41|0.115
92343282|NCT02557399|184589598|SUPERIORITY_OR_OTHER||difference in percent|-8.43||||0.005|TWO_SIDED|95.0|-14.35|-2.51||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-2.51|-14.35|0.005
92343283|NCT02557399|184589598|SUPERIORITY_OR_OTHER||difference in percent|-9.37|||<|0.001|TWO_SIDED|95.0|-14.42|-4.33||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-4.33|-14.42|<0.001
92343284|NCT02557399|184589598|SUPERIORITY_OR_OTHER||difference in percent|-6.69||||0.004|TWO_SIDED|95.0|-11.21|-2.16||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-2.16|-11.21|0.004
92399509|NCT03040141|184690304|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.412|||||||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons||||0.412
92399510|NCT03040141|184690304|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.982|||||||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons||||0.982
92275150|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.93|||||TWO_SIDED|95.0|-53.73|105.58||||||For change in side effects at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||105.58|-53.73|
92343285|NCT02557399|184589598|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.5||||0.015|TWO_SIDED|95.0|-8.1|-0.89||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for ILs|||-0.89|-8.10|0.015
92343286|NCT02557399|184589598|SUPERIORITY_OR_OTHER||difference in percent|2.71||||0.382|TWO_SIDED|95.0|-3.38|8.8||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||8.80|-3.38|0.382
92343287|NCT02557399|184589598|SUPERIORITY_OR_OTHER||difference in percent|-5.69||||0.085|TWO_SIDED|95.0|-12.17|0.78||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||0.78|-12.17|0.085
92343288|NCT02557399|184589598|SUPERIORITY_OR_OTHER||difference in percent|-3.89||||0.186|TWO_SIDED|95.0|-9.67|1.88||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||1.88|-9.67|0.186
92343289|NCT02557399|184589598|SUPERIORITY_OR_OTHER||difference in percent|-0.59||||0.818|TWO_SIDED|95.0|-5.61|4.44||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||4.44|-5.61|0.818
92343290|NCT02557399|184589598|SUPERIORITY_OR_OTHER||difference in percent|-3.78||||0.073|TWO_SIDED|95.0|-7.92|0.35||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||0.35|-7.92|0.073
92399511|NCT03071263|184690342|SUPERIORITY||||||<|0.0001||||||α-level 0.05. Stratified by baseline potassium category (4.3-\<4.7 mEq/L or 4.7-5.1 mEq/L) and history of Type 1 or Type 2 diabetes mellitus (Yes or No) as randomized|Cochran-Mantel-Haenszel|||A sample size of 280 subjects has 90% power to detect a difference between treatment groups of 20% or more in the proportion of subjects remaining on spironolactone at Week 12, at α = 0.05.||||<0.0001
92399512|NCT03071263|184690343|SUPERIORITY|||||||0.5757||||||Baseline AOBP SBP as a covariate and treatment group, baseline serum potassium (K+ 4.3-\<4.7 or 4.7-5.1 mEq/L), and history of Type 1 or Type 2 diabetes mellitus (Yes or No) as factors in the model.|ANCOVA|||||||0.5757
92217644|NCT00097773|184335681|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.86|TWO_SIDED|95.0|0.54|1.66||There was no significant interaction with ciprofloxacin in this analysis.|Regression, Cox||risk of exacerbation comparing cycled therapy to culture-based therapy|The primary analysis compared the pooled Cycled Therapy group (n=152) vs. the Pooled culture-based therapy group (n=152). The null hypothesis was no difference between groups in the risk of pulmonary exacerbation requiring IV antibiotics or hospitalization. Assuming a total sample size of 300 (150 per group), the study provided 80% power to detect at least a 40% reduction in the risk of exacerbation in the cycled group as compared to the culture-based group at the two-sided alpha level of 5%.||1.66|0.54|0.86
92217645|NCT00097773|184335681|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.2|TWO_SIDED|95.0|0.82|2.54|||Regression, Cox||risk of exacerbation comparing oral cipro to oral placebo|A secondary comparison was between the pooled oral cipro (n=152)and pooled placebo groups (n=152. Null hypothesis was no difference between groups.||2.54|0.82|0.20
92217646|NCT00097773|184335682|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.28||95.0|0.49|1.23|||Regression, Logistic|No interaction with ciprofloxacin usage was observed.|odds of a positive culture comparing cycled therapy to culture-based therapy|Null hypothesis is that there is no difference between pooled cycled and culture-based treatment groups in the odds of a Pa positive culture over the 18 month study.||1.23|0.49|0.28
92217647|NCT00097773|184335682|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.67|TWO_SIDED|95.0|0.71|1.71|||Regression, Logistic||odds of a positive culture comparing the cipro group to the placebo group|Null hypothesis is that there is no difference between pooled cipro and placebo treatment groups in the odds of a Pa positive culture over the 18 month study.||1.71|0.71|0.67
92217648|NCT00097773|184335683|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.18|TWO_SIDED|95.0|0.58|1.11|||Regression, Cox|No interaction with ciprofloxacin usage was observed.|Hazard ratio comparing cycled to culture based therapy|The analysis compared the pooled Cycled Therapy group (n=152) vs. the Pooled culture-based therapy group (n=152). The null hypothesis was no difference between groups in the risk of pulmonary exacerbation.||1.11|0.58|0.18
92217649|NCT00097773|184335683|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.12|TWO_SIDED|95.0|0.94|1.78|||Regression, Cox||Hazard ratio comparing cipro to placebo.|This analysis was between the pooled oral cipro (n=152)and pooled placebo groups (n=152. Null hypothesis was no difference between groups.||1.78|0.94|0.12
92217650|NCT04305275|184335696|SUPERIORITY||Least Squares (LS) Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.533||0.0491|TWO_SIDED|95.0|-2.14|0.0|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||||0.00|-2.14|0.0491
92343291|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.961|TWO_SIDED|95.0|-4.6|4.4||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for TLs. negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||4.4|-4.6|0.961
92343292|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.2||||0.015|TWO_SIDED|95.0|-11.2|-1.2||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for TLs. negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-1.2|-11.2|0.015
92217651|NCT04305275|184335697|SUPERIORITY||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.398||0.0468|TWO_SIDED|95.0|-1.6|-0.01|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 8||-0.01|-1.60|0.0468
92217652|NCT04305275|184335697|SUPERIORITY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.467||0.3124|TWO_SIDED|95.0|-1.41|0.46|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, Pre-dose||0.46|-1.41|0.3124
92343293|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7||||0.044|TWO_SIDED|95.0|-9.2|-0.1||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for TLs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-0.1|-9.2|0.044
92217653|NCT04305275|184335697|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.605||0.5148|TWO_SIDED|95.0|-1.61|0.81|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 5 Hours Post-dose||0.81|-1.61|0.5148
92217654|NCT04305275|184335697|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.59||0.6452|TWO_SIDED|95.0|-1.45|0.91|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 8 Hours Post-dose||0.91|-1.45|0.6452
92217655|NCT04305275|184335697|SUPERIORITY||LS mean difference|-0.77|STANDARD_ERROR_OF_MEAN|0.482||0.1171|TWO_SIDED|95.0|-1.73|0.2|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 22||0.20|-1.73|0.1171
92217656|NCT04305275|184335697|SUPERIORITY||LS mean difference|0.62|STANDARD_ERROR_OF_MEAN|0.557||0.2724|TWO_SIDED|95.0|-0.5|1.73|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 42||1.73|-0.50|0.2724
92217657|NCT04305275|184335698|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.658||0.8784|TWO_SIDED|95.0|-1.42|1.21|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 8||1.21|-1.42|0.8784
92217658|NCT04305275|184335698|SUPERIORITY||LS mean difference|0.93|STANDARD_ERROR_OF_MEAN|0.687||0.1795|TWO_SIDED|95.0|-0.44|2.3|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, Pre-dose||2.30|-0.44|0.1795
92343294|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.747|TWO_SIDED|95.0|-4.9|3.5||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for TLs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||3.5|-4.9|0.747
92217659|NCT04305275|184335698|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.829||0.5588|TWO_SIDED|95.0|-2.15|1.17|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 5 Hours Post-dose||1.17|-2.15|0.5588
92217660|NCT04305275|184335698|SUPERIORITY||LS mean difference|0.54|STANDARD_ERROR_OF_MEAN|0.796||0.5036|TWO_SIDED|95.0|-1.06|2.13|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 8 Hours Post-dose||2.13|-1.06|0.5036
92343295|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.338|TWO_SIDED|95.0|-5.3|1.8||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for TLs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||1.8|-5.3|0.338
92343296|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8||||0.068|TWO_SIDED|95.0|-3.8|0.1||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||0.1|-3.8|0.068
92343297|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0||||0.002|TWO_SIDED|95.0|-4.8|-1.1||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-1.1|-4.8|0.002
92343298|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.002|TWO_SIDED|95.0|-4.3|-1.0||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-1.0|-4.3|0.002
92343299|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9||||0.012|TWO_SIDED|95.0|-3.4|-0.4||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-0.4|-3.4|0.012
92343300|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.078|TWO_SIDED|95.0|-2.4|0.1||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||0.1|-2.4|0.078
92343301|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8||||0.367|TWO_SIDED|95.0|-2.1|5.7||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||5.7|-2.1|0.367
92343302|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.1||||0.148|TWO_SIDED|95.0|-7.4|1.1||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||1.1|-7.4|0.148
92343303|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.314|TWO_SIDED|95.0|-5.9|1.9||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||1.9|-5.9|0.314
92343304|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2||||0.494|TWO_SIDED|95.0|-2.3|4.7||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||4.7|-2.3|0.494
92343305|NCT02557399|184589599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.684|TWO_SIDED|95.0|-3.5|2.3||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||2.3|-3.5|0.684
92343306|NCT02557399|184589600|SUPERIORITY_OR_OTHER||Difference in percentage|2.3||||0.047|TWO_SIDED|95.0|0.1|4.6||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1.The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||4.6|0.1|0.047
92217661|NCT04305275|184335698|SUPERIORITY||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|0.736||0.6636|TWO_SIDED|95.0|-1.15|1.79|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 22||1.79|-1.15|0.6636
92343307|NCT02557399|184589600|SUPERIORITY_OR_OTHER||Difference in percentage|3.0||||0.185|TWO_SIDED|95.0|-1.3|7.3||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||7.3|-1.3|0.185
92343308|NCT02557399|184589600|SUPERIORITY_OR_OTHER||Difference in percentage|3.7||||0.251|TWO_SIDED|95.0|-2.5|9.9||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||9.9|-2.5|0.251
92217662|NCT04305275|184335698|SUPERIORITY||LS mean difference|0.64|STANDARD_ERROR_OF_MEAN|0.756||0.3999|TWO_SIDED|95.0|-0.87|2.15|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 29||2.15|-0.87|0.3999
92217663|NCT04305275|184335698|SUPERIORITY||LS mean difference|0.67|STANDARD_ERROR_OF_MEAN|0.776||0.3933|TWO_SIDED|95.0|-0.88|2.22|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 42||2.22|-0.88|0.3933
92217664|NCT04305275|184335699|SUPERIORITY||LS mean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.167||0.0193|TWO_SIDED|95.0|-5.14|-0.47|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 8||-0.47|-5.14|0.0193
92217665|NCT04305275|184335699|SUPERIORITY||LS mean difference|-2.95|STANDARD_ERROR_OF_MEAN|1.277||0.0243|TWO_SIDED|95.0|-5.51|-0.4|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15||-0.40|-5.51|0.0243
92217666|NCT04305275|184335699|SUPERIORITY||LS mean difference|-2.56|STANDARD_ERROR_OF_MEAN|1.209||0.0385|TWO_SIDED|95.0|-4.98|-0.14|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 22||-0.14|-4.98|0.0385
92217667|NCT04305275|184335699|SUPERIORITY||LS mean difference|-1.37|STANDARD_ERROR_OF_MEAN|1.221||0.2682|TWO_SIDED|95.0|-3.81|1.08|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 29||1.08|-3.81|0.2682
92217668|NCT04305275|184335699|SUPERIORITY||LS mean difference|1.13|STANDARD_ERROR_OF_MEAN|1.233||0.3649|TWO_SIDED|95.0|-1.34|3.59|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 42||3.59|-1.34|0.3649
92217669|NCT04305275|184335700|SUPERIORITY||LS mean difference|-1.26|STANDARD_ERROR_OF_MEAN|1.078||0.2478|TWO_SIDED|95.0|-3.41|0.9|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 8||0.90|-3.41|0.2478
92217670|NCT04305275|184335700|SUPERIORITY||LS mean difference|-0.91|STANDARD_ERROR_OF_MEAN|1.192||0.4486|TWO_SIDED|95.0|-3.29|1.47|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, Pre-dose||1.47|-3.29|0.4486
92217671|NCT04305275|184335700|SUPERIORITY||LS mean difference|-1.52|STANDARD_ERROR_OF_MEAN|1.352||0.2662|TWO_SIDED|95.0|-4.22|1.19|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 5 Hours Post-dose||1.19|-4.22|0.2662
92217672|NCT04305275|184335700|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|1.282||0.9965|TWO_SIDED|95.0|-2.56|2.57|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 8 Hours Post-dose||2.57|-2.56|0.9965
92217673|NCT04305275|184335700|SUPERIORITY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|1.222||0.8437|TWO_SIDED|95.0|-2.68|2.2|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 22||2.20|-2.68|0.8437
92217674|NCT04305275|184335700|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|1.232||0.796|TWO_SIDED|95.0|-2.78|2.14|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 29||2.14|-2.78|0.7960
92217675|NCT04305275|184335700|SUPERIORITY||LS mean difference|2.28|STANDARD_ERROR_OF_MEAN|1.119||0.0456|TWO_SIDED|95.0|0.05|4.52|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 42||4.52|0.05|0.0456
92217676|NCT02456662|184335722|SUPERIORITY|Based on previous work as well as anecdotal data from our clinic population, we expect vomiting to occur in approximately 30% of our patients who take their doxycycline the night before their procedure. To have 80% power to detect a 50% decrease in nausea and vomiting, we will need 122 patients in each arm of the study.||||||0|||||||Chi-squared|||||||0.00
92217677|NCT04391036|184335729|SUPERIORITY||||||>|0.99|||||||McNemar|||This was a paired analysis comparing successful insertion of the high and low Eudragit® Films. The McNemar's test statistic is based on the discordant pairs (number of participants with high successful, low unsuccessful versus low successful, high unsuccessful).||||>.99
92217678|NCT04391036|184335730|SUPERIORITY|||||||0.45||||||This was a paired analysis comparing difficulty of insertion of the high and low Eudragit® Films. The McNemar's test is based on discordant pairs (high was not difficult, low was difficult versus low was not difficult, high was difficult).|McNemar|||||||.45
92217679|NCT04391036|184335731|SUPERIORITY|||||||0.26|||||||Fisher Exact|This was an overall Fisher's exact test so the analysis applies to all categories.||||||.26
92217680|NCT04360551|184335801|SUPERIORITY|||||||0.244|||||||Wilcoxon (Mann-Whitney)|||||||0.244
92217681|NCT04360551|184335802|SUPERIORITY||||||>|0.5|||||||Kruskal-Wallis|||||||>0.5
92343309|NCT02557399|184589600|SUPERIORITY_OR_OTHER||Difference in percentage|10.2||||0.006|TWO_SIDED|95.0|2.4|18.0||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||18.0|2.4|0.006
92217682|NCT03496012|184335813|SUPERIORITY||Difference in Proportions|2.9|||=|0.354|TWO_SIDED|95.0|-3.1|15.0|||Fisher's Exact|||||15|-3.1|=0.354
92217683|NCT03496012|184335813|SUPERIORITY||Difference in proportions|4.6|||=|0.245|TWO_SIDED|95.0|-1.4|12.8|||Fisher's Exact|||||12.8|-1.4|=0.245
92217684|NCT03496012|184335815|SUPERIORITY||Difference in proportions|16.0|||||TWO_SIDED|95.0|5.3|32.2||||||||32.2|5.3|
92217685|NCT03496012|184335815|SUPERIORITY||Difference in proportions|12.2|||||TWO_SIDED|95.0|3.5|23.0||||||||23|3.5|
92217686|NCT03496012|184335816|SUPERIORITY||Difference in proportions|2.8|||||TWO_SIDED|95.0|-17.2|21.0||||||||21|-17.2|
92217687|NCT03496012|184335816|SUPERIORITY||Difference in proportions|15.3|||||TWO_SIDED|95.0|0.3|30.1||||||||30.1|0.3|
92217688|NCT02232802|184335834|EQUIVALENCE|Following logarithmic transformation, Cmax values were subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence.|least square mean difference ratio|99.42|||||TWO_SIDED|95.0|96.28|102.65|||||Geometric least square means are being compared.|Statistical comparison for Anti-FXa||102.65|96.28|
92217689|NCT02232802|184335834|EQUIVALENCE|Following logarithmic transformation, Cmax was subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence|least square mean difference ratio|91.55|||||TWO_SIDED|95.0|86.65|96.73|||||Geometric least square means are being compared.|Statistical comparison on Anti-FIIa||96.73|86.65|
92217690|NCT02232802|184335835|EQUIVALENCE|Following logarithmic transformation, AUC0-t values were subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence|least square mean difference ratio|102.89|||||TWO_SIDED|95.0|100.67|105.15|||||Geometric least square means are being compared.|Anti-FXa statistical comparison||105.15|100.67|
92217691|NCT02232802|184335835|EQUIVALENCE|Following logarithmic transformation, AUC0-t values were subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence.|least square mean difference ratio|92.37|||||TWO_SIDED|95.0|87.72|97.25|||||Geometric least square means are being compared.|Anti-FIIa comparison||97.25|87.72|
92217692|NCT02232802|184335836|EQUIVALENCE|Following logarithmic transformation, AUC0-inf values were subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence|least square mean ratio|104.26|||||TWO_SIDED|95.0|101.68|106.9|||||Geometric least square means are being compared.|Anti-FXA comparison||106.9|101.68|
92217693|NCT02232802|184335836|EQUIVALENCE|Following logarithmic transformation, AUC0-inf values were subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence|least square mean ratio|90.44|||||TWO_SIDED|95.0|85.38|95.8|||||Geometric least square means are being compared.|Anti-FIIa comparison||95.8|85.38|
92217694|NCT02232802|184335837|EQUIVALENCE|An assessment of tmax was performed using the Wilcoxon matched pairs test. In addition, a 95 % non-parametric CI was constructed for the median difference in tmax based on the method of Campbell and Gardner.|least square mean ratio|0.0||||0.7642|TWO_SIDED|95.0|-0.5|0.5||An assessment of tmax was performed using the Wilcoxon matched pairs test. In addition, a 95 % non-parametric CI was constructed for the median difference in tmax based on the method of Campbell and Gardner.|Wilcoxon (Mann-Whitney)||Geometric least square means are being compared.|Anti-FXa comparison||0.5|-0.5|0.7642
92217695|NCT02232802|184335837|EQUIVALENCE|An assessment of tmax was performed using the Wilcoxon matched pairs test. In addition, a 95 % non-parametric CI was constructed for the median difference in tmax based on the method of Campbell and Gardner.|least square mean ratio|0.0||||0.9464|TWO_SIDED|95.0|-0.5|0.5|||Wilcoxon (Mann-Whitney)||Geometric least square means are being compared.|Anti-FIIa comparison||0.5|-0.5|0.9464
92217696|NCT02232802|184335843|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|Geometric least square mean ratio|103.94|||||TWO_SIDED|95.0|101.22|106.73||||||||106.73|101.22|
92217697|NCT02232802|184335844|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence.|Geometric least square mean ratio|108.59|||||TWO_SIDED|95.0|103.93|113.46||||||||113.46|103.93|
92217698|NCT02232802|184335845|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence.|Geometric least square mean ratio|102.76|||||TWO_SIDED|95.0|97.51|108.28||||||||108.28|97.51|
92217699|NCT02232802|184335846|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|Geometric least square mean ratio|114.91|||||TWO_SIDED|95.0|102.29|129.08||||||||129.08|102.29|
92217700|NCT02232802|184335847|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|Median Difference (Final Values)|0.0|||=|0.8554|TWO_SIDED|95.0|-0.5|0.5|||ANOVA|||||0.5|-0.5|= 0.8554
92217701|NCT02232802|184335848|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|geometric least square mean ratio|100.86|||||TWO_SIDED|95.0|99.27|102.47||||||||102.47|99.27|
92217702|NCT02232802|184335849|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence.|geometric least square mean ratio|95.13|||||TWO_SIDED|95.0|85.7|105.6||||||||105.6|85.7|
92217703|NCT02232802|184335850|EQUIVALENCE|An assessment of tmax was performed using the Wilcoxon matched pairs test. In addition, a 95 % nonparametric CI was constructed for the median difference in tmax based on the method of Campbell and Gardner.|Median Difference (Final Values)|0.0|||=|0.6857|TWO_SIDED|95.0|-0.25|0.5|||Wilcoxon (Mann-Whitney)||Median difference is the difference between median tmax in Test IMP versus Reference IMP arms.|||0.5|-0.25|= 0.6857
92217704|NCT02232802|184335856|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|Geometric least square mean ratio|111.39|||||TWO_SIDED|95.0|105.89|117.17||||||||117.17|105.89|
92343310|NCT02557399|184589600|SUPERIORITY_OR_OTHER||Difference in percentage|10.7||||0.022|TWO_SIDED|95.0|0.9|20.4||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||20.4|0.9|0.022
92343311|NCT02557399|184589601|SUPERIORITY_OR_OTHER||Difference in percentage|1.8||||0.129|TWO_SIDED|95.0|-0.7|4.3||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||4.3|-0.7|0.129
92343312|NCT02557399|184589601|SUPERIORITY_OR_OTHER||Difference in percentage|1.3||||0.612|TWO_SIDED|95.0|-3.4|5.9||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||5.9|-3.4|0.612
92343313|NCT02557399|184589601|SUPERIORITY_OR_OTHER||Difference in percentage|7.1||||0.016|TWO_SIDED|95.0|1.1|13.2||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||13.2|1.1|0.016
92343314|NCT02557399|184589601|SUPERIORITY_OR_OTHER||Difference in percentage|7.9||||0.034|TWO_SIDED|95.0|0.3|15.5||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||15.5|0.3|0.034
92343315|NCT02557399|184589601|SUPERIORITY_OR_OTHER||Difference in percentage|11.3||||0.018|TWO_SIDED|95.0|1.4|21.3||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||21.3|1.4|0.018
92399513|NCT03071263|184690344|SUPERIORITY|||||||0.6367||||||Baseline AOBP SBP as a covariate and treatment group, baseline serum potassium (K+ 4.3-\<4.7 or 4.7-5.1 mEq/L), and history of Type 1 or Type 2 diabetes mellitus as factors in the model.|ANCOVA|||The p-value is from a test comparing the difference between two groups in the mean change in AOBP SBP from baseline.||||0.6367
92399514|NCT02099864|184690394|OTHER||Odds Ratio (OR)|10.0||||0.055|TWO_SIDED|95.0|0.9|108.8|||Fisher Exact|Due to sample size, Fisher's exact test was used rather than simple logistic regression.||||108.8|0.9|0.055
92399515|NCT02099864|184690395|OTHER||Odds Ratio (OR)|0.7||||1|TWO_SIDED|95.0|0.1|5.3|||Fisher Exact|Due to sample size, Fisher's exact was used rather than regression.||||5.3|0.1|1.000
92157867|NCT02403674|184202529|SUPERIORITY||Difference in mean %change from baseline|-17.02|||<|0.0001|TWO_SIDED|95.0|-20.89|-13.16|||ANCOVA||95% CIs and 2-sided p-values for treatment difference were calculated from an ANCOVA model with terms for baseline lipid level and treatment.|||-13.16|-20.89|<0.0001
92157868|NCT02403674|184202530|SUPERIORITY||Difference in mean %change from baseline|-23.44|||||TWO_SIDED|95.0|-27.57|-19.32|||||95% CIs for treatment difference were calculated from an ANCOVA model with terms for baseline lipid level and treatment.|||-19.32|-27.57|
92343316|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|3.9||||0.379|TWO_SIDED|95.0|-4.5|12.3||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for TLs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||12.3|-4.5|0.379
92343317|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|4.7||||0.409|TWO_SIDED|95.0|-5.7|15.1||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for TLs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||15.1|-5.7|0.409
92343318|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|7.0||||0.18|TWO_SIDED|95.0|-3.1|17.0||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for TLs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||17.0|-3.1|0.180
92399516|NCT02099864|184690396|OTHER||Odds Ratio (OR)|0.7||||1|TWO_SIDED|95.0|0.0|17.0|||Fisher Exact|||||17.0|0.0|1.000
92399517|NCT02099864|184690397|OTHER||Median Difference (Final Values)|23.2||||0.84|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Difference is the median for responders minus the median for non-responders.|||||0.84
92399518|NCT02099864|184690398|OTHER||Median Difference (Final Values)|-1.9||||0.14|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Difference is the median for responders minus the median for non-responders.|||||0.14
92399519|NCT02099864|184690399|OTHER||Odds Ratio (OR)|2.7||||1|TWO_SIDED|95.0|0.1|60.2|||Fisher Exact|||||60.2|0.1|1.00
92157869|NCT02403674|184202531|SUPERIORITY||Difference in mean %change from baseline|-35.96|||||TWO_SIDED|95.0|-47.1|-24.82|||||95% CIs for treatment difference were calculated from an ANCOVA model with terms for baseline lipid level and treatment.|||-24.82|-47.10|
92157870|NCT02403674|184202532|SUPERIORITY||Difference in mean %change from baseline|-6.47|||||TWO_SIDED|95.0|-7.97|-4.96|||||95% CIs for treatment difference were calculated from an ANCOVA model with terms for baseline lipid level and treatment.|||-4.96|-7.97|
92217705|NCT02232802|184335857|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|Geometric least square mean ratio|113.82|||||TWO_SIDED|95.0|107.47|120.53||||||||120.53|107.47|
92275151|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-117.07|117.07||||||For change in ability to plan future at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||117.07|-117.07|
92343319|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|-0.5||||0.81|TWO_SIDED|95.0|-8.8|7.7||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for TLs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||7.7|-8.8|0.810
92157871|NCT05677867|184202561|OTHER||Ratio of Adjusted Geometric Means|97.4|||||TWO_SIDED|90.0|92.92|102.08|||||The ratios (and 90% CIs) are expressed as percentages.|Natural log transformed AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect. The adjusted mean differences and 90% Confidence Intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios. Formulation A was the Reference treatment while Formulation B was the Test treatment.||102.08|92.92|
92157872|NCT05677867|184202562|OTHER||Ratio of Geometric Adjusted Means|97.36|||||TWO_SIDED|90.0|92.77|102.17|||||The ratios (and 90% CIs) are expressed as percentages.|Natural log transformed AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios. Formulation A was the Reference treatment while Formulation B was the Test treatment.||102.17|92.77|
92343320|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|1.9||||0.648|TWO_SIDED|95.0|-5.2|9.0||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for TLs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||9.0|-5.2|0.648
92343321|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|9.1||||0.048|TWO_SIDED|95.0|-1.3|19.6||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||19.6|-1.3|0.048
92343322|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|11.2||||0.016|TWO_SIDED|95.0|1.8|20.6||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||20.6|1.8|0.016
92343323|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|8.6||||0.044|TWO_SIDED|95.0|0.4|16.9||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||16.9|0.4|0.044
92343324|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|3.6||||0.345|TWO_SIDED|95.0|-3.8|11.0||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||11.0|-3.8|0.345
92343325|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|2.6||||0.424|TWO_SIDED|95.0|-3.5|8.7||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||8.7|-3.5|0.424
92343326|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0||||0.527|TWO_SIDED|95.0|-9.4|5.5||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for non-ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||5.5|-9.4|0.527
92343327|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|3.3||||0.584|TWO_SIDED|95.0|-6.7|13.4||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for non-ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||13.4|-6.7|0.584
92343328|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|3.9||||0.519|TWO_SIDED|95.0|-6.5|14.3||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for non-ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||14.3|-6.5|0.519
92343329|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Difference in percentage|-0.8||||0.766|TWO_SIDED|95.0|-10.1|8.5||The P-values are based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for non-ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||8.5|-10.1|0.766
92399520|NCT02099864|184690401|OTHER||Median Difference (Final Values)|4.8||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Difference is the median for the responders minus the median for the non-responders.|||||0.01
92399521|NCT02099864|184690404|OTHER||Hazard Ratio (HR)|0.18|||<|0.001|TWO_SIDED|95.0|0.07|0.45|||Regression, Cox|||||0.45|0.07|<0.001
92157873|NCT05677867|184202563|OTHER||Ratio of Adjusted Means|94.7|||||TWO_SIDED|90.0|81.4|110.18|||||The ratios (and 90% CIs) are expressed as percentages.|Natural log transformed Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios. Formulation A was the Reference treatment while Formulation B was the Test treatment.||110.18|81.40|
92399522|NCT02099864|184690405|OTHER||Hazard Ratio (HR)|0.22||||0.002|TWO_SIDED|95.0|0.08|0.56|||Regression, Cox|||||0.56|0.08|0.002
92399523|NCT02099864|184690406|OTHER||Hazard Ratio (HR)|0.23||||0.23|TWO_SIDED|95.0|0.02|0.59|||Regression, Cox|||||0.59|0.02|0.23
92399524|NCT02099864|184690407|OTHER||Hazard Ratio (HR)|0.18|||<|0.001|TWO_SIDED|95.0|0.07|0.45|||Regression, Cox|||||0.45|0.07|<0.001
92399525|NCT02099864|184690412|OTHER||Hazard Ratio (HR)|4.9|||<|0.001|TWO_SIDED|95.0|2.03|11.82|||Regression, Cox|||||11.82|2.03|<0.001
92399526|NCT01650194|184690424|OTHER|||||||0.615|||||||t-test, 2 sided|||Testosterone biomarker results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||0.6150
92399527|NCT01650194|184690426|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Cortisol biomarker results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
92399528|NCT01650194|184690427|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Androstenedione biomarker results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
92399529|NCT01650194|184690428|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Progesterone biomarker results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
92399530|NCT01650194|184690429|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Pregnenolone biomarker results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
92399531|NCT01650194|184690430|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Testosterone blood results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
92399532|NCT01650194|184690432|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Cortisol blood results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
92157874|NCT02851511|184202577|SUPERIORITY|tDCS vs. sham superiority with cognitive training will be tested based on the 320 participants who are assigned to the two cognitive training arms. The effects of tDCS on changes in NIH Toolbox Fluid Cognition Composite Score (NIHTB FCC) from baseline to 3-month follow-up are estimated by linear regression models, with missing outcomes predicted by regression models that include demographic and baseline characteristics.|Slope|0.33|STANDARD_ERROR_OF_MEAN|0.63|<|0.05|TWO_SIDED|95.0|-0.91|1.56||Formal statistical inference of the tDCS effect was based on the inverse-normal combination of two p-values, one from the Phase I data (N=42) and the other from the Phase II data (N=292).|Regression, Linear|||"Null hypothesis: The combination of cognitive training (12 weeks) and active stimulation (over the dorsolateral prefrontal cortex) will not lead to beneficial changes on the NIH Toolbox Cognition Battery.~The study is designed to have at least 90% power to detect a difference of effect size 0.42 between cognitive training+tDCS and cognitive training+sham, using a normal inverse combination test at one-sided 0.025 level."||1.56|-0.91|<0.05
92157875|NCT04004208|184202585|NON_INFERIORITY|Non inferiority margin is 5%. Confidence interval actually refers to a credible interval based on the Bayesian analysis.|Difference in proportions|0.034|||||TWO_SIDED|90.0|-0.08|0.162||||||Bayesian analysis with non-informative prior distributions. Calculation of two-sided 90% credible interval for the treatment difference (aflibercept - laser photocoagulation).||0.162|-0.08|
92399533|NCT01650194|184690433|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Androstenedione blood results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
92399534|NCT01650194|184690434|OTHER|||||||0.0002|||||||t-test, 2 sided|||Progesterone blood results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||0.0002
92399535|NCT01650194|184690435|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Pregnenolone blood results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
92157876|NCT04004208|184202586|OTHER|Confidence interval actually refers to a credible interval based on the Bayesian analysis.|Difference in proportions|-0.023|||||TWO_SIDED|90.0|-0.11|0.046||||||Bayesian analysis with non-informative prior distributions. Calculation of two-sided 90% credible interval for the treatment difference (aflibercept - laser photocoagulation).||0.046|-0.11|
92275152|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.89|||||TWO_SIDED|95.0|-221.53|249.31||||||For change in pancreatic pain at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||249.31|-221.53|
92399536|NCT01602224|184690459|SUPERIORITY||Odds Ratio (OR)|1.98||||0.401|TWO_SIDED||||||Regression, Logistic|||100 mg Tabalumab+Dexamethasone+Bortezomib compared with Placebo Comparator: Placebo + Dexamethasone + Bortezombib, only tabalumab odds ratio compared to placebo.||||0.401
92399537|NCT01602224|184690459|SUPERIORITY||Odds Ratio (OR)|1.84||||0.455|TWO_SIDED||||||Regression, Logistic|||300 mg Tabalumab+Dexamethasone+Bortezomib compared with Placebo Comparator: Placebo + Dexamethasone + Bortezombib, only tabalumab odds ratio compared to placebo.||||0.455
92399538|NCT01602224|184690459|SUPERIORITY||Odds Ratio (OR)|1.9||||0.419|TWO_SIDED||||||Regression, Logistic|||100 mg Tabalumab+Dexamethasone+Bortezomib and 300 mg Tabalumab+Dexamethasone+Bortezomib compared with Placebo Comparator: Placebo + Dexamethasone + Bortezombib, only compared to placebo.||||0.419
92399539|NCT01352117|184690461|SUPERIORITY|||||||0.911||||||The critical value for the final analysis was adjusted for the three interim analyses conducted for the Data and Safety Monitoring Board (DSMB) review using the Haybittle-Peto guidelines, at the p-value cutoff of 0.0487.|Wilcoxon (Mann-Whitney)|Stratified Wilcoxon-Mann-Whitney test (asymptotic method) known as van Elteren test, stratification by screening CD4 (\<200 vs. \>=200 cells/mm\^3).||||||0.911
92399540|NCT03525444|184690493|SUPERIORITY||Least Squares (LS) Mean Difference|13.8|||<|0.0001|TWO_SIDED|95.0|12.1|15.4|||Mixed-effects model for repeated measure|||The data presented for Primary endpoint was based on interim analysis at Week 4.||15.4|12.1|<0.0001
92399541|NCT03525444|184690494|SUPERIORITY||LS Mean Difference|14.3|||<|0.0001|TWO_SIDED|95.0|12.7|15.8|||Mixed-effects model for repeated measure|||||15.8|12.7|<0.0001
92399542|NCT03525444|184690495|SUPERIORITY||Rate ratio|0.37|||<|0.0001|TWO_SIDED|95.0|0.25|0.55|||Negative binomial regression model|||||0.55|0.25|<0.0001
92399543|NCT03525444|184690496|SUPERIORITY||LS Mean Difference|-41.8|||<|0.0001|TWO_SIDED|95.0|-44.4|-39.3|||Mixed-effects model for repeated measure|||||-39.3|-44.4|<0.0001
92399544|NCT03525444|184690497|SUPERIORITY||LS Mean Difference|20.2|||<|0.0001|TWO_SIDED|95.0|17.5|23.0|||Mixed-effects model for repeated measure|||||23.0|17.5|<0.0001
92343330|NCT02557399|184589602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.666|TWO_SIDED|95.0|-5.8|10.5||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for non-ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||10.5|-5.8|0.666
92343331|NCT02557399|184589606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.017|TWO_SIDED|95.0|-0.4|-0.04|||mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-0.04|-0.40|0.017
92343332|NCT02557399|184589606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.017|TWO_SIDED|95.0|-0.4|-0.04|||mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-0.04|-0.40|0.017
92343333|NCT02557399|184589606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.024|TWO_SIDED|95.0|-0.41|-0.03|||mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-0.03|-0.41|0.024
92343334|NCT02557399|184589606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.08|TWO_SIDED|95.0|-0.36|0.02|||mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||0.02|-0.36|0.080
92343335|NCT02100124|184589625|SUPERIORITY||Odds Ratio (OR)|0.87||||1|TWO_SIDED|95.0|0.56|1.36|||Regression, Logistic|||||1.36|0.56|1.0
92343336|NCT02100124|184589625|SUPERIORITY||Odds Ratio (OR)|1.13||||1|TWO_SIDED|95.0|0.7|1.83|||Regression, Logistic|||||1.83|0.70|1.0
92343337|NCT02100124|184589625|SUPERIORITY||Odds Ratio (OR)|1.3||||0.53|TWO_SIDED|95.0|0.82|2.08|||Regression, Logistic|||||2.08|0.82|0.53
92399545|NCT03525444|184690498|SUPERIORITY||LS Mean Difference|1.04|||<|0.0001|TWO_SIDED|95.0|0.85|1.23|||Mixed-effects model for repeated measure|||||1.23|0.85|<0.0001
92399546|NCT03525444|184690499|SUPERIORITY||LS Mean Difference|-41.2|||<|0.0001|TWO_SIDED|95.0|-44.0|-38.5|||Mixed-effects model for repeated measure|||||-38.5|-44.0|<0.0001
92399547|NCT03525444|184690500|SUPERIORITY||LS Mean Difference|20.1|||<|0.0001|TWO_SIDED|95.0|16.9|23.2|||Mixed-effects model for repeated measure|||||23.2|16.9|<0.0001
92399548|NCT03525444|184690502|SUPERIORITY||LS Mean Difference|0.3|||||TWO_SIDED|95.0|0.17|0.43||||||||0.43|0.17|
92399549|NCT03525444|184690503|SUPERIORITY||LS Mean Difference|2.9|||||TWO_SIDED|95.0|2.3|3.4||||||||3.4|2.3|
92399550|NCT01183689|184690558|SUPERIORITY||Mean Difference (Net)|0.82|STANDARD_ERROR_OF_MEAN|0.3|<|0.05|TWO_SIDED|95.0|0.23|1.41||No interim analyses were conducted. Pairwise differences among the three arms were assessed with a 2 degree of freedom Wald Test.|Mixed Models Analysis||Above is provided the mean difference between Arms 1 and 2.|Mean changes from random effects model applied to repeated measures to compute the average differences among groups over time.||1.41|0.23|<0.05
92157877|NCT04004208|184202587|OTHER|Confidence interval actually refers to a credible interval based on the Bayesian analysis.|Difference in proportions|0.096|||||TWO_SIDED|90.0|0.019|0.175||||||Bayesian analysis with non-informative prior distributions. Calculation of two-sided 90% credible interval for the treatment difference (aflibercept - laser photocoagulation).||0.175|0.019|
92399551|NCT01183689|184690558|SUPERIORITY||Mean Difference (Net)|2.64|||<|0.05|TWO_SIDED|95.0|2.05|3.22|||Mixed Models Analysis|This was fitted with Proc Mixed in SAS.|95% confidence interval excludes 0|Mean changes from a random effects model applied to repeated measures to compute the average differences between groups over time. This entry is for the comparison between groups 1 and 3.||3.22|2.05|<0.05
92399552|NCT01183689|184690559|OTHER|Generalized Estimating Equations|Odds Ratio (OR)|1.41|||<|0.05|TWO_SIDED|95.0|1.02|1.9|||Generalized Estimating Equations|||Generalized estimating equations were used to compare the average percent of weight gainers over time among the three groups. The null hypothesis was that there was no difference in these average percentages. Participants were assigned values of 0 or 1 at each visit depending on their weight gain status. The percentages were summarized with odds ratios for weight gain over time.||1.90|1.02|<0.05
92157878|NCT02118714|184202617|OTHER||Percentage of Participants|23.5|||||TWO_SIDED|80.0|10.7|41.6||||||||41.6|10.7|
92157879|NCT02118714|184202617|OTHER||Percentage of Participants|23.5|||||TWO_SIDED|95.0|6.8|49.9||||||||49.9|6.8|
92217706|NCT02232802|184335862|EQUIVALENCE|An assessment of tmax was performed using the Wilcoxon matched pairs test. In addition, a 95 % nonparametric CI was constructed for the median difference in tmax based on the method of Campbell and Gardner.|Median Difference (Final Values)|0.0|||=|0.9217|TWO_SIDED|95.0|-0.13|0.13|||Wilcoxon (Mann-Whitney)||Median difference is the difference between median tmax in Test IMP versus Reference IMP arms.|||0.13|-0.13|= 0.9217
92343338|NCT02100124|184589626|SUPERIORITY||Odds Ratio (OR)|0.88||||0.48|TWO_SIDED|95.0|0.71|1.09|||Regression, Logistic|||||1.09|0.71|0.48
92343339|NCT02100124|184589626|SUPERIORITY||Odds Ratio (OR)|1.08||||1|TWO_SIDED|95.0|0.87|1.35|||Regression, Logistic|||||1.35|0.87|1.0
92399553|NCT01183689|184690559|SUPERIORITY||Odds Ratio (OR)|2.28|||<|0.05|TWO_SIDED|95.0|1.64|3.19|||generalized estimating equations|||This is a parallel analysis, comparing groups 1 and 3, using generalized estimating equations to summarize the odds ratio for weight gain in group 1 versus group 3,||3.19|1.64|<0.05
92157880|NCT02118714|184202618|OTHER||Percentage of Participants|11.8|||||TWO_SIDED|80.0|3.2|28.4||||||||28.4|3.2|
92157881|NCT02118714|184202618|OTHER||Percentage of Participants|11.8|||||TWO_SIDED|95.0|1.5|36.4||||||||36.4|1.5|
92343340|NCT02100124|184589626|SUPERIORITY||Odds Ratio (OR)|1.23||||0.07|TWO_SIDED|95.0|0.99|1.53|||Regression, Logistic|||||1.53|0.99|0.07
92343341|NCT02100124|184589627|SUPERIORITY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.84|1.29|||Regression, Logistic|||||1.29|0.84|1.0
92343342|NCT02100124|184589627|SUPERIORITY||Odds Ratio (OR)|1.02||||1|TWO_SIDED|95.0|0.82|1.26|||Regression, Logistic|||||1.26|0.82|1.0
92343343|NCT02100124|184589627|SUPERIORITY||Odds Ratio (OR)|0.98||||1|TWO_SIDED|95.0|0.79|1.22|||Regression, Logistic|||||1.22|0.79|1.0
92343344|NCT02100124|184589628|SUPERIORITY||Odds Ratio (OR)|1.07||||1|TWO_SIDED|95.0|0.83|1.37|||Regression, Logistic|||||1.37|0.83|1.0
92343345|NCT02100124|184589628|SUPERIORITY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.81|1.33|||Regression, Logistic|||||1.33|0.81|1.0
92157882|NCT01818700|184202640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.65|STANDARD_DEVIATION|1.96|<|0.05|TWO_SIDED|95.0|-10.0|10.0|||t-test, 2 sided|"The primary endpoint will be the actual reduction rate of pain intensity (0 -10) score at 8 weeks.~It will be analyzed by using paired t-test."||||10|-10|<0.05
92157883|NCT01272011|184202646|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Two-way RMANOVA Student-Newman-Keuls|||Daily acute and cumulative Pre vs Post comparisons||||<0.001
92343346|NCT02100124|184589628|SUPERIORITY||Odds Ratio (OR)|0.97||||1|TWO_SIDED|95.0|0.75|1.25|||Regression, Logistic|||||1.25|0.75|1.0
92343347|NCT04350827|184589629|SUPERIORITY|||||||0.433|||||||ANOVA|||||||0.433
92343348|NCT00737178|184589637|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Chi-squared|||||||<.01
92343349|NCT00737178|184589639|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Chi-squared|||||||0.24
92343350|NCT02034006|184589640|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|72.37|||<|0.0001|TWO_SIDED|95.0|23.44|223.42|||Regression, Logistic|||Presence vs. absence of active leakage.||223.42|23.44|<0.0001
92343351|NCT02034006|184589646|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.33|||<|0.0001|TWO_SIDED|95.0|3.18|27.36|||Regression, Logistic|||Presence vs. absence of macular edema.||27.36|3.18|<0.0001
92343352|NCT02034006|184589647|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.66|||<|0.0001|TWO_SIDED|95.0|3.76|42.67|||Regression, Logistic|||Presence vs. absence of cysts.||42.67|3.76|<0.0001
92343353|NCT02034006|184589648|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|49.8|||<|0.0001|TWO_SIDED|95.0|11.62|213.5|||Regression, Logistic|||Presence vs. absence of intra-retinal fluid.||213.50|11.62|<0.0001
92343354|NCT02034006|184589649|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.1514|TWO_SIDED|95.0|0.99|1.0|||Regression, Logistic|||Change in Central subfield thickness vs previous visit.||1.00|0.99|0.1514
92343355|NCT02034006|184589650|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.1265|TWO_SIDED|95.0|0.0|5.63|||Regression, Logistic|||Change in Central subfield volume vs previous visit.||5.63|0.00|0.1265
92343356|NCT02034006|184589652|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.91||||0.0103|TWO_SIDED|95.0|1.58|30.23|||Regression, Logistic|||Presence vs. absence of clinically significant abnormalities.||30.23|1.58|0.0103
92343357|NCT02034006|184589653|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.0854|TWO_SIDED|95.0|0.9|5.33|||Regression, Logistic|||Gain \< 5 letters vs. Gain \>= 5 letters.||5.33|0.90|0.0854
92343358|NCT02034006|184589654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.52||||0.0114|TWO_SIDED|95.0|1.23|5.17|||Regression, Logistic|||Gain \< 10 letters vs. Gain \>= 10 letters.||5.17|1.23|0.0114
92343359|NCT02034006|184589655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.0049|TWO_SIDED|95.0|0.25|0.91|||Regression, Logistic|||Change from baseline in BCVA: Improved vs. No change. For retreated subjects, the last scheduled assessment prior to the first retreatment was considered. For subjects treated only once, the last scheduled assessment available was considered.||0.91|0.25|0.0049
92343360|NCT02034006|184589655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.53||||0.0461|TWO_SIDED|95.0|0.69|44.52|||Regression, Logistic|||Change from baseline in BCVA: Worsened vs. No change||44.52|0.69|0.0461
92343361|NCT02470741|184589663|SUPERIORITY||Mean Difference (Net)|-11.85||||0.24|TWO_SIDED|95.0|-32.92|9.23|||Mixed Models Analysis|Repeated measures mixed models, with unstructured co-variance matrix.|Model generated LS Mean Differences|Null hypotheses: Letrozole is not associated with an improvement in the UFSQOL Overall Score.||9.23|-32.92|0.24
92343362|NCT00485836|184589664|SUPERIORITY_OR_OTHER||Difference in Least Squares means|11.5|||<|0.0001||95.0|7.7|15.3||The Hochberg-Bonferroni multiple comparison procedure was used to adjust for comparisons of the two ranibizumab groups with the sham-injection group to maintain an overall type I error rate of 0.05.|ANOVA|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).||||15.3|7.7|<0.0001
92343363|NCT00485836|184589664|SUPERIORITY_OR_OTHER||Difference in Least Squares means|13.8|||<|0.0001||95.0|10.3|17.4||The Hochberg-Bonferroni multiple comparison procedure was used to adjust for comparisons of the two ranibizumab groups with the sham-injection group to maintain an overall type I error rate of 0.05.|ANOVA|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).||||17.4|10.3|<0.0001
92343364|NCT00485836|184589665|SUPERIORITY_OR_OTHER||Difference in percentage|29.3|||<|0.0001||95.0|18.8|39.7|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||39.7|18.8|<0.0001
92343365|NCT00485836|184589665|SUPERIORITY_OR_OTHER||Difference in percentage|30.3|||<|0.0001||95.0|19.6|40.9|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||40.9|19.6|<0.0001
92343366|NCT00485836|184589666|SUPERIORITY_OR_OTHER||Difference in percentage|11.3||||0.0019||95.0|4.3|18.2|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||18.2|4.3|0.0019
92157884|NCT01272011|184202647|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||RMANOVA and Student-Neuman-Keuls|||Compared outcomes from Baseline versus Post-Day 10 IH for mean slope of AF vs. Resistance||||<0.05
92343367|NCT00485836|184589666|SUPERIORITY_OR_OTHER||Difference in percentage|13.6|||<|0.0001||95.0|7.2|20.1|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||20.1|7.2|<0.0001
92343368|NCT00485836|184589667|SUPERIORITY_OR_OTHER||Difference in percentage|51.9|||<|0.0001||95.0|41.6|62.3|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||62.3|41.6|<0.0001
92343369|NCT00485836|184589667|SUPERIORITY_OR_OTHER||Difference in percentage|54.0|||<|0.0001||95.0|44.0|64.1|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||64.1|44.0|<0.0001
92343370|NCT00485836|184589668|SUPERIORITY_OR_OTHER||Difference in Least Squares means|-272.2|||<|0.0001||95.0|-329.9|-214.5|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline value of central foveal thickness.||||-214.5|-329.9|<0.0001
92343371|NCT00485836|184589668|SUPERIORITY_OR_OTHER||Difference in Least Squares means|-283.8|||<|0.0001||95.0|-337.8|-229.8|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline value of central foveal thickness.||||-229.8|-337.8|<0.0001
92343372|NCT00485836|184589669|SUPERIORITY_OR_OTHER||Difference in Least Squares means|5.8||||0.0019||95.0|2.1|9.4|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Near Activities Subscale score.||||9.4|2.1|0.0019
92343373|NCT00485836|184589669|SUPERIORITY_OR_OTHER||Difference in Least Squares means|4.9||||0.0099||95.0|1.2|8.6|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Near Activities Subscale score.||||8.6|1.2|0.0099
92343374|NCT00485836|184589670|SUPERIORITY_OR_OTHER||Difference in Least Squares means|6.3||||0.0002||95.0|3.1|9.5|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Distance Activities Subscale score.||||9.5|3.1|0.0002
92343375|NCT00485836|184589670|SUPERIORITY_OR_OTHER||Difference in Least Squares means|4.1||||0.0199||95.0|0.7|7.6|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Distance Activities Subscale score.||||7.6|0.7|0.0199
92343376|NCT02351934|184589688|SUPERIORITY|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||Significance level of 0.05 was used.||||0.564
92343377|NCT02351934|184589689|SUPERIORITY|||||||0.675|||||||Wilcoxon (Mann-Whitney)|||Significance level of 0.05 was used.||||0.675
92343378|NCT02351934|184589690|SUPERIORITY|||||||0.125|||||||Wilcoxon (Mann-Whitney)|||Significance level of 0.05 was used.||||0.125
92343379|NCT02351934|184589692|SUPERIORITY|||||||0.595|||||||Wilcoxon (Mann-Whitney)|||Significance level of 0.05 was used.||||0.595
92343380|NCT02351934|184589693|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||Significance level of 0.05 was used.||||0.985
92343381|NCT03073486|184589707|OTHER|||||||0.2301|||||||ANCOVA|Ranked ANCOVA, Markov Chain Monte Carlo (MCMC) Multiple Imputation||||||0.2301
92343382|NCT03073486|184589708|OTHER|||||||0.6888|||||||ANCOVA|Ranked ANCOVA, Markov Chain Monte Carlo (MCMC) Multiple Imputation||||||0.6888
92343383|NCT03073486|184589709|OTHER|||||||0.1361|||||||Regression, Logistic|Logistic Regression (Firth's Penalized Likelihood), MCMC Multiple Imputation||||||0.1361
92343384|NCT01329198|184589744|SUPERIORITY||Mean Difference (Final Values)|-17.8|STANDARD_DEVIATION|9.4||0.013|TWO_SIDED||||||ANOVA||Mean change in YGTSS scores from Baseline to 6 Months across all study participants presented.|||||0.013
92343385|NCT01004614|184589746|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two formulations was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCt and Cmax fell wholly within (80%, 125%).|ratios of adjusted geometric mean|98.61|||||TWO_SIDED|90.0|93.09|104.46|||||Parameter estimate = ratio (%) (test/reference) of adjusted geometric means.|Natural log transformed AUCt was analyzed using a mixed effects model with sequence, period and formulation as fixed effects and subject within sequence as a random effect. Adjusted mean difference (test - reference) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||104.46|93.09|
92343386|NCT01004614|184589746|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two formulations was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCt and Cmax fell wholly within (80%, 125%).|ratios of adjusted geometric mean|101.29|||||TWO_SIDED|90.0|97.28|105.45|||||Parameter estimate = ratio (%) (test/reference) of adjusted geometric means.|Natural log transformed AUCt was analyzed using a mixed effects model with sequence, period and formulation as fixed effects and subject within sequence as a random effect. Adjusted mean difference (test - reference) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||105.45|97.28|
92343387|NCT01004614|184589747|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two formulations was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCt and Cmax fell wholly within (80%, 125%).|ratios of adjusted geometric mean|99.3|||||TWO_SIDED|90.0|92.28|106.28||||Parameter estimate = ratio (%) (test/reference) of adjusted geometric means.||Natural log transformed Cmax was analyzed using a mixed effects model with sequence, period and formulation as fixed effects and subject within sequence as a random effect. Adjusted mean difference (test - reference) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||106.28|92.28|
92343388|NCT01004614|184589747|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two formulations was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCt and Cmax fell wholly within (80%, 125%).|ratios of adjusted geometric mean|100.84|||||TWO_SIDED|90.0|95.93|106.0||||Parameter estimate = ratio (%) (test/reference) of adjusted geometric means.||Natural log transformed Cmax was analyzed using a mixed effects model with sequence, period and formulation as fixed effects and subject within sequence as a random effect. Adjusted mean difference (test - reference) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||106.00|95.93|
92343389|NCT01569022|184589754|EQUIVALENCE|The primary endpoint of the study was tested by comparing difference in residual AHI using the paired t test|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92343390|NCT01569022|184589755|EQUIVALENCE|t test assuming unequal variance||||||0.97|||||||t-test, 2 sided|||ESS||||0.97
92157885|NCT01272011|184202647|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||RMANOVA and Student-Neuman-Keuls|||Compared outcomes from Baseline versus Post-Day 10 IH for mean slope of of Pressure vs. Resistance||||<0.05
92343391|NCT01569022|184589755|EQUIVALENCE|t test assuming unequal variance||||||0.98|||||||t-test, 2 sided|||PCL||||0.98
92343392|NCT01569022|184589755|EQUIVALENCE|t-test assuming non unequal variance||||||0.31|||||||t-test, 2 sided|||PSQI||||0.31
92343393|NCT01569022|184589756|EQUIVALENCE|t test assuming unequal variance||||||0.54|||||||t-test, 2 sided|||||||0.54
92343394|NCT01569022|184589757|EQUIVALENCE|t test assuming unequal variance|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92343395|NCT00644059|184589760|SUPERIORITY_OR_OTHER||Vaccine Efficacy|81.36|||||TWO_SIDED|97.66|49.24|93.16|||Poisson Regression Model|||"Absolute vaccine efficacy (VE) was calculated as (1- the relative risk)100%. Relative Risk for virus-confirmed symptomatic influenza illness in the TIV-adj group vs. the non-flu control group. VE denotes the vaccine efficacy, i.e. 1-Itest/Inon-flu ctrl, where I stands for the population average incidence of influenza.~Absolute efficacy of TIV-adj is at most 40% (i.e. the probability of an influenza in the test group relative to that in the non-flu vaccine group is at least 0.6)"||93.16|49.24|
92343396|NCT00644059|184589763|SUPERIORITY_OR_OTHER||Vaccine Efficacy|81.36|||||TWO_SIDED|95.0|49.24|93.16|||Poisson Regression Model|||"Absolute vaccine efficacy (VE) was calculated as (1- the relative risk)100%. Relative Risk for virus-confirmed symptomatic influenza illness in the TIV-adj group vs. the non-flu control group. VE denotes the vaccine efficacy, i.e. 1-Itest/Inon-flu ctrl, where I stands for the incidence of influenza.~Absolute efficacy of TIV-adj is at most 40% (i.e. the probability of an influenza in the test group relative to that in the non-flu vaccine group is at least 0.6)"||93.16|49.24|
92343397|NCT00644059|184589763|SUPERIORITY_OR_OTHER||Vaccine Efficacy|95.5|||||TWO_SIDED|95.0|80.92|98.94|||Poisson Regression Model|||"Absolute vaccine efficacy (VE) was calculated as (1- the relative risk)100%. Relative Risk for virus-confirmed symptomatic influenza illness in the TIV-adj group vs. the non-flu control group. VE denotes the vaccine efficacy, i.e. 1-Itest/Inon-flu ctrl, where I stands for the incidence of influenza.~Absolute efficacy of TIV-adj is at most 40% (i.e. the probability of an influenza in the test group relative to that in the non-flu vaccine group is at least 0.6)"||98.94|80.92|
92343398|NCT00644059|184589763|SUPERIORITY_OR_OTHER||Vaccine Efficacy|0.32|||||TWO_SIDED|95.0|0.13|0.73|||Mantel Haenszel|||Relative efficacy for TIV-adj was to be calculated as VE = (1-Itest/Ictrl)100%, where I is the incidence of influenza, i.e. percentage of subjects with virus-confirmed symptomatic influenza A or B illness, in the investigational agent (TIV-adj) group or in the flu vaccine control group.||0.73|0.13|
92343399|NCT00644059|184589763|SUPERIORITY_OR_OTHER||Vaccine Efficacy|0.09|||||TWO_SIDED|95.0|0.02|0.38|||Mantel Haenszel|||Relative efficacy for TIV-adj was to be calculated as VE = (1-Itest/Ictrl)100%, where I is the incidence of influenza, i.e. percentage of subjects with virus-confirmed symptomatic influenza A or B illness, in the investigational agent (TIV-adj) group or in the flu vaccine control group.||0.38|0.02|
92343400|NCT00644059|184589764|SUPERIORITY_OR_OTHER||vaccine Efficacy|79.18|||||TWO_SIDED|95.0|54.78|90.42|||Poisson Regression Model|||"Absolute vaccine efficacy (VE) was calculated as (1- the relative risk)100%. Relative Risk for virus-confirmed symptomatic influenza illness in the TIV-adj group vs. the non-flu control group. VE denotes the vaccine efficacy, i.e. 1-Itest/Inon-flu ctrl, where I stands for the population average incidence of influenza.~Absolute efficacy of TIV-adj is at most 40% (i.e. the probability of an influenza in the test group relative to that in the non-flu vaccine group is at least 0.6)"||90.42|54.78|
92343401|NCT00644059|184589764|SUPERIORITY_OR_OTHER||Vaccine Efficacy|92.1|||||TWO_SIDED|95.0|77.35|97.24|||Poisson Regression Model|||Absolute vaccine efficacy (VE) was calculated as (1- the relative risk)100%. Relative Risk for virus-confirmed symptomatic influenza illness in the TIV-adj group vs. the non-flu control group. VE denotes the vaccine efficacy, i.e. 1-Itest/Inon-flu ctrl, where I stands for the incidence of influenza. Absolute efficacy of TIV-adj is at most 40% (i.e. the probability of an influenza in the test group relative to that in the non-flu vaccine group is at least 0.6)||97.24|77.35|
92343402|NCT00644059|184589764|SUPERIORITY_OR_OTHER||Vaccine Efficacy|64.16|||||TWO_SIDED|95.0|23.21|83.28|||Poisson Regression Model|||Relative efficacy for TIV-adj was to be calculated as VE = (1-Itest/Ictrl)100%, where I is the incidence of influenza, i.e. percentage of subjects with virus-confirmed symptomatic influenza A or B illness, in the investigational agent (TIV-adj) group or in the flu vaccine control group.||83.28|23.21|
92343403|NCT00644059|184589764|SUPERIORITY_OR_OTHER||Vaccine Efficacy|85.66|||||TWO_SIDED|95.0|58.95|94.99|||Poisson Regression Model|||Relative efficacy for TIV-adj was to be calculated as VE = (1-Itest/Ictrl)100%, where I is the incidence of influenza, i.e. percentage of subjects with virus-confirmed symptomatic influenza A or B illness, in the investigational agent (TIV-adj) group or in the flu vaccine control group.||94.99|58.95|
92343404|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H1N1)]|0.83|||||TWO_SIDED|95.0|0.67|1.02|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.02|0.67|
92343405|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H1N1)]|7.63|||||TWO_SIDED|95.0|5.42|11.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||11|5.42|
92343406|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H1N1)]|15.0|||||TWO_SIDED|95.0|11.0|21.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay||21|11|
92343407|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H1N1)]|6.48|||||TWO_SIDED|95.0|4.83|8.68|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay||8.68|4.83|
92343408|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H3N2)]|1.01|||||TWO_SIDED|95.0|0.85|1.21|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.21|0.85|
92399554|NCT01183689|184690560|SUPERIORITY||Mean Difference (Net)|1.31|STANDARD_ERROR_OF_MEAN|0.47|<|0.05|TWO_SIDED|95.0|0.39|2.24|||Mixed Models Analysis|The p-value is based on a 2 degree of freedom Wald test within the mixed effect model to test for pairwise differences among the 3 arms.|Listed above is the mean difference between arms 1 and 2|Mean differences at 2 years are calculated from a linear contrast within a mixed effects model. Note that this comparison is between Groups 1 and 2.||2.24|0.39|<0.05
92399555|NCT01183689|184690560|SUPERIORITY||Median Difference (Net)|2.04|||<|0.05|TWO_SIDED|95.0|1.11|2.98|||Mixed Models Analysis|A linear contrast was used to compare groups 1 and 3 at 24 months.||A linear contrast from a mixed effects model was used to compare mean differences at 24 months between groups 1 and 3.||2.98|1.11|<0.05
92275153|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56|||||TWO_SIDED|95.0|-260.62|271.74||||||For change in eating related items at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||271.74|-260.62|
92343409|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H3N2)]|9.82|||||TWO_SIDED|95.0|7.76|12.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||12|7.76|
92399556|NCT01183689|184690561|SUPERIORITY||Mean Difference (Net)|1.99||||0.13|TWO_SIDED|95.0|0.06|3.92||The p-value is from a 2 degree of freedom test for pairwise difference among the 3 arms within an analysis of variance.|ANOVA|||Analysis of variance to assess mean differences in changes from baseline in systolic blood pressure. This analysis compares groups 1 and 2.||3.92|0.06|0.13
92399557|NCT01183689|184690561|SUPERIORITY||Mean Difference (Net)|0.93||||0.13|TWO_SIDED|95.0|-0.98|2.84|||ANOVA|||Mean differences in systolic blood pressure between groups 1 and 3 over time.||2.84|-0.98|0.13
92157886|NCT02013687|184202651|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significance of IgG values at study day 196 as compared to day 0 (pre-immune).|Wilcoxon (Mann-Whitney)|||||||<0.001
92275154|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|66.67|||||TWO_SIDED|95.0|-152.41|285.75||||||For change in altered bowel habits at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||285.75|-152.41|
92275155|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|100.0|||||TWO_SIDED|95.0|-119.08|319.08||||||For change in jaundice at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||319.08|-119.08|
92275156|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.33|||||TWO_SIDED|95.0|-185.75|252.41||||||For change in body image at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||252.41|-185.75|
92275157|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|44.44|||||TWO_SIDED|95.0|-82.04|170.93||||||For change in health care satisfaction at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||170.93|-82.04|
92275158|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-733.59|733.59||||||For change in sexual functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||733.59|-733.59|
92275159|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.11|||||TWO_SIDED|95.0|-202.34|180.12||||||For change in ascites at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||180.12|-202.34|
92275160|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.11|||||TWO_SIDED|95.0|-84.5|106.73||||||For change in indigestion at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||106.73|-84.50|
92275161|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.11|||||TWO_SIDED|95.0|-84.5|106.73||||||For change in flatulence at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||106.73|-84.50|
92275162|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.89|||||TWO_SIDED|95.0|-87.6|165.37||||||For change in cachexia at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||165.37|-87.60|
92275163|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|44.44|||||TWO_SIDED|95.0|-208.53|297.42||||||For change in side effects at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||297.42|-208.53|
92157887|NCT02013687|184202651|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significance of IgG values at study day 196 as compared to day 0 (pre-immune).|Wilcoxon (Mann-Whitney)|||||||<0.001
92157888|NCT02013687|184202652|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
92275164|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.22|||||TWO_SIDED|95.0|-275.19|230.75||||||For change in ability to plan future at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||230.75|-275.19|
92275165|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|58.33|||||TWO_SIDED|95.0|-491.86|608.53||||||For change in pancreatic pain at EoS, mean change difference was used to compare the two treatment groups.||608.53|-491.86|
92275166|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|-1258.79|1308.79||||||For change in eating related items at EoS, mean change difference was used to compare the two treatment groups.||1308.79|-1258.79|
92343410|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H3N2)]|16.0|||||TWO_SIDED|95.0|12.0|20.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||20|12|
92343411|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H3N2)]|4.92|||||TWO_SIDED|95.0|3.64|6.65|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||6.65|3.64|
92157889|NCT02013687|184202652|SUPERIORITY_OR_OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.6
92157890|NCT02013687|184202653|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92157891|NCT02013687|184202653|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
92275167|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|83.33|||||TWO_SIDED|95.0|-283.46|450.13||||||For change in altered bowel habits at EoS, mean change difference was used to compare the two treatment groups.||450.13|-283.46|
92275168|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.33|||||TWO_SIDED|95.0|-175.06|191.73||||||For change in jaundice at EoS, mean change difference was used to compare the two treatment groups.||191.73|-175.06|
92275169|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-733.59|733.59||||||For change in ascites at EoS, mean change difference was used to compare the two treatment groups.||733.59|-733.59|
92275170|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-733.59|733.59||||||For change in indigestion at EoS, mean change difference was used to compare the two treatment groups.||733.59|-733.59|
92275171|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|83.33|||||TWO_SIDED|95.0|-283.46|450.13||||||For change in flatulence at EoS, mean change difference was used to compare the two treatment groups.||450.13|-283.46|
92275172|NCT00219557|184452359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.56|||||TWO_SIDED|95.0|-1375.5|1436.61||||||For change in side effects at EoS, mean change difference was used to compare the two treatment groups.||1436.61|-1375.5|
92343412|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[B/Florida/2006]|1.0|||||TWO_SIDED|95.0|0.91|1.1|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.1|0.91|
92157892|NCT02240680|184202665|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.81|-0.46|||Mixed Models Analysis|Mixed model repeated measures(MMRM) included treatment, week and interaction as fixed effects, baseline HbA1c, daily basal insulin dose as covariates|Adjusted mean of all differences between HbA1c at baseline and after 24 weeks. It is based on all patients in the model (not only patients with a baseline and week 24 measurement).||MMRM including fixed effects treatment , week and treatment by week interaction linear covariates baseline HbA1c , baseline daily basal insulin and baseline HbA1c by week interaction and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix. Adjusted mean is based on all patients in the model (not only patients with a baseline and week 24 measurement).|-0.46|-0.81|< 0.0001
92343413|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[B/Florida/2006]|1.5|||||TWO_SIDED|95.0|1.19|1.9|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.9|1.19|
92343414|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[B/Florida/2006]|6.99|||||TWO_SIDED|95.0|5.72|8.53|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||8.53|5.72|
92343415|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[B/Florida/2006]|2.92|||||TWO_SIDED|95.0|2.44|3.5|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||3.5|2.44|
92343416|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1)]|0.81|||||TWO_SIDED|95.0|0.64|1.04|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.04|0.64|
92343417|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Solomon Islands/2006 (A/H1N1)]|1.21|||||TWO_SIDED|95.0|0.83|1.78|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.78|0.83|
92399558|NCT01183689|184690562|SUPERIORITY||Mean Difference (Net)|1.73||||0.06|TWO_SIDED|95.0|0.32|3.14||The p-value is from a 2 degree of freedom F-test from an analysis of variance to compare mean differences among the 3 arms.|ANOVA|||Mean differences from baseline to 2 years were compared among the 3 arms using analysis of variance.||3.14|0.32|0.06
92399559|NCT01183689|184690562|SUPERIORITY||Mean Difference (Net)|0.92||||0.06|TWO_SIDED|95.0|-0.49|2.33||This p-value is from a 2 degree of freedom omnibus test for differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean changes from baseline to 2 years in diastolic blood pressure.||2.33|-0.49|0.06
92399560|NCT01183689|184690563|SUPERIORITY||Mean Difference (Net)|-1.3||||0.73|TWO_SIDED|95.0|-6.12|3.52||The p-value results from a 2 degree of freedom F-test.|ANOVA|||Mean changes from baseline to 2 years were compared between Groups 1 and 2.||3.52|-6.12|0.73
92157893|NCT02240680|184202666|OTHER||Odds Ratio (OR)|1.464|STANDARD_ERROR_OF_MEAN|0.397||0.1594|TWO_SIDED|95.0|0.861|2.491|||Regression, Logistic|A logistic regression model with treatment as fixed effect and baseline HbA1c and baseline daily basal insulin dose as linear covariates was applied.|The dispersion value standard error of the mean is actually standard error for odds ratio.|For any hypoglycemia event accompanied by prespecified glucose value||2.491|0.861|0.1594
92157894|NCT02240680|184202666|OTHER||Odds Ratio (OR)|1.149|STANDARD_ERROR_OF_MEAN|0.377||0.672|TWO_SIDED|95.0|0.604|2.188|||Regression, Logistic|A logistic regression model with treatment as fixed effect and baseline HbA1c and baseline daily basal insulin dose as linear covariates was applied.|The dispersion value standard error of the mean is actually standard error for odds ratio.|For glucose value \< 54mg/dL according American Diabetes Association definition of clinically significant hypoglycaemia||2.188|0.604|0.6720
92343418|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1]|7.54|||||TWO_SIDED|95.0|5.33|11.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||11|5.33|
92343419|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Solomon Islands/2006 (A/H1N1)]|3.31|||||TWO_SIDED|95.0|2.4|4.55|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||4.55|2.4|
92343420|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|0.9|||||TWO_SIDED|95.0|0.74|1.1|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.1|0.74|
92343421|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT[A/Wisconsin/2009 (A/H3N2)]|3.54|||||TWO_SIDED|95.0|2.78|4.51|||GMT|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||4.51|2.78|
92343422|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|13.0|||||TWO_SIDED|95.0|10.0|16.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||16|10|
92343423|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|3.6|||||TWO_SIDED|95.0|2.61|4.95|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||4.95|2.61|
92343424|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.0|||||TWO_SIDED|95.0|1.0|1.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1|1|
92343425|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.06|||||TWO_SIDED|95.0|1.02|1.11|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.11|1.02|
92217707|NCT00885703|184335872|SUPERIORITY|||||||0.0012||||||Analysis did not adjust for multiple comparisons.|Chi-squared|||Testing discontinuation of any dose Fluconazole (pooled by treatment and dose) versus discontinuation of Ampho B (pooled). The null hypothesis is the two treatments have the same proportion of discontinuation.||||0.0012
92343426|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.74|||||TWO_SIDED|95.0|1.57|1.92|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.92|1.57|
92343427|NCT00644059|184589770|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.0|||||TWO_SIDED|95.0|0.92|1.08|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.08|0.92|
92343428|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H1N1)]|0.96|||||TWO_SIDED|95.0|0.78|1.19|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.19|0.78|
92343429|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H1N1)]|6.41|||||TWO_SIDED|95.0|4.69|8.76|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||8.76|4.69|
92343430|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H1N1)]|8.26|||||TWO_SIDED|95.0|6.36|11.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||11|6.36|
92343431|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H1N1)]|4.37|||||TWO_SIDED|95.0|3.38|5.65|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||5.65|3.38|
92343432|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H3N2)]|1.05|||||TWO_SIDED|95.0|0.82|1.35|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Brisbane/2007 (A/H3N2) in terms of Geometric Mean Titers GMTs in subjects aged 6 to \<72 months by HI assay.||1.35|0.82|
92343433|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H3N2)]|6.42|||||TWO_SIDED|95.0|4.72|8.73|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||8.73|4.72|
92343434|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H3N2)]|7.98|||||TWO_SIDED|95.0|6.2|10.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||10|6.2|
92343435|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H3N2)]|3.13|||||TWO_SIDED|95.0|2.42|4.05|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||4.05|2.42|
92343436|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [B/Florida/2006]|0.97|||||TWO_SIDED|95.0|0.9|1.05|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.05|0.9|
92343437|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [B/Florida/2006]|1.56|||||TWO_SIDED|95.0|1.26|1.93|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.93|1.26|
92343438|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [B/Florida/2006]|5.0|||||TWO_SIDED|95.0|4.25|5.88|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||5.88|4.25|
92217708|NCT00885703|184335873|SUPERIORITY|||||||0.012|||||||Fisher Exact|||Among 4 treatment arms, comparison of three categorical groups: (CM negative, CM negative after switching treatment, and CM Positive/Died/Lost to Follow-up) at week 10. The null hypothesis is the 4 treatment arms have no differences at week 10.||||0.012
92343439|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [B/Florida/2006]|2.55|||||TWO_SIDED|95.0|2.22|2.93|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||2.93|2.22|
92343440|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1)]|0.96|||||TWO_SIDED|95.0|0.75|1.22|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day1 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.22|0.75|
92217709|NCT00885703|184335874|SUPERIORITY|||||||0.019|||||||Kruskal-Wallis|||Comparison of change in quantitative CSF culture among 4 treatment arms. The null hypothesis is the 4 treatment arms have the same change in CSF culture from entry to week 2.||||0.019
92217710|NCT00885703|184335875|SUPERIORITY|||||||0.0894||||||Analysis did not adjust for multiple comparisons.|Log Rank|||Comparison of survival from entry to week 24 between Fluconazole 1200mg arm and Ampho B arm. The null hypothesis is there is no difference in survival between these two arms.||||0.0894
92343441|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1)]|1.72|||||TWO_SIDED|95.0|1.17|2.51|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||2.51|1.17|
92343442|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1)]|5.58|||||TWO_SIDED|95.0|4.08|7.63|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||7.63|4.08|
92343443|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1)]|3.11|||||TWO_SIDED|95.0|2.3|4.2|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||4.2|2.3|
92343444|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|0.98|||||TWO_SIDED|95.0|0.74|1.3|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.3|0.74|
92157895|NCT02240680|184202667|OTHER||Odds Ratio (OR)|5.018|STANDARD_ERROR_OF_MEAN|1.818|<|0.0001|TWO_SIDED|95.0|2.468|10.206|||Regression, Logistic|A logistic regression model with treatment as fixed effect and baseline HbA1c and baseline daily basal insulin dose as linear covariates was applied.|The dispersion value standard error of the mean is actually standard error of odds ratio|||10.206|2.468|< 0.0001
92157896|NCT02240680|184202668|OTHER||Odds Ratio (OR)|4.689|STANDARD_ERROR_OF_MEAN|1.519|<|0.0001|TWO_SIDED|95.0|2.485|8.848|||Regression, Logistic|A logistic regression model with treatment as fixed effect and baseline HbA1c and baseline daily basal insulin dose as linear covariates was applied.|The dispersion value standard error of the mean is actually standard error of odds ratio|||8.848|2.485|< 0.0001
92217711|NCT00885703|184335875|SUPERIORITY|||||||0.4828||||||Analysis did not adjust for multiple comparisons.|Log Rank|||Comparison of survival from entry to week 24 between Fluconazole 1600mg arm and Ampho B arm. The null hypothesis is there is no difference in survival between these two arms.||||0.4828
92343445|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|3.14|||||TWO_SIDED|95.0|2.19|4.49|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||4.49|2.19|
92343446|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|7.36|||||TWO_SIDED|95.0|5.51|9.82|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||9.82|5.51|
92343447|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|2.66|||||TWO_SIDED|95.0|2.0|3.55|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||3.55|2|
92343448|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.0|||||TWO_SIDED|95.0|0.98|1.01|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.01|0.98|
92343449|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.13|||||TWO_SIDED|95.0|1.05|1.22|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.22|1.05|
92343450|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.79|||||TWO_SIDED|95.0|1.63|1.97|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.97|1.63|
92343451|NCT00644059|184589773|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.08|||||TWO_SIDED|95.0|1.0|1.17|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.17|1|
92343452|NCT02497469|184589780|SUPERIORITY||Adjusted Difference|8.8||||0.0061|TWO_SIDED|95.0|2.5|15.0|||Cochran-Mantel-Haenszel||||P-value of the adjusted difference was based on the Cochran-Mantel-Haenszel method, stratified by concomitant use of oral corticosteroids (Yes/No) and prior use of TNF-alpha antagonist (Yes/No) or the Fisher's exact method if the numerator was \<=5.|15.0|2.5|0.0061
92343453|NCT02497469|184589781|SUPERIORITY||Adjusted Difference|11.9||||0.0005|TWO_SIDED|95.0|5.3|18.5|||Cochran-Mantel-Haenszel||||P-value of the adjusted difference was based on the Cochran-Mantel-Haenszel method, stratified by concomitant use of oral corticosteroids (Yes/No) and prior use of TNF-alpha antagonist (Yes/No) or the Fisher's exact method if the numerator was \<=5.|18.5|5.3|0.0005
92343454|NCT02497469|184589782|SUPERIORITY||Adjusted Difference|-9.3||||0.0641|TWO_SIDED|95.0|-18.9|0.4|||Cochran-Mantel-Haenszel||||P-value of the adjusted difference was based on the Cochran-Mantel-Haenszel method, stratified by prior use of TNF-alpha antagonist (Yes/No) or the Fisher's exact method if the numerator was \<=5.|0.4|-18.9|0.0641
92343455|NCT03558516|184589783|SUPERIORITY|||||||0.315|||||||Wilcoxon (Mann-Whitney)|||||||0.315
92157897|NCT02240680|184202669|OTHER||Odds Ratio (OR)|3.731|STANDARD_ERROR_OF_MEAN|0.92|<|0.0001|TWO_SIDED|95.0|2.302|6.048|||Regression, Logistic|A logistic regression model with treatment as fixed effect and baseline HbA1c and baseline daily basal insulin dose as linear covariates was applied.|The dispersion value standard error of the mean is actually standard error of odds ratio|||6.048|2.302|< 0.0001
92343456|NCT03558516|184589784|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.270
92343457|NCT03558516|184589785|SUPERIORITY|||||||0.299|||||||Wilcoxon (Mann-Whitney)|||||||0.299
92343458|NCT01462942|184589800|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.125|||<|0.0001|TWO_SIDED|95.0|0.09|0.16|||Mixed Models Analysis|Adjusted by pre- and post-bronchodilator, age, and baseline FEV1 as covariates, and treatment group, sex, and smoking-status as fixed effect factors||||0.160|0.090|<0.0001
92343459|NCT01462942|184589800|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.069||||0.0001|TWO_SIDED|95.0|0.034|0.105|||Mixed Models Analysis|Adjusted by pre- and post-bronchodilator, age, and baseline FEV1 as covariates, and treatment group, sex, and smoking-status as fixed effect factors||||0.105|0.034|0.0001
92217712|NCT00885703|184335875|SUPERIORITY|||||||0.1766||||||Analysis did not adjust for multiple comparisons.|Log Rank|||Comparison of survival from entry to week 24 between Fluconazole 2000mg arm and Ampho B arm. The null hypothesis is there is no difference in survival between these two arms.||||0.1766
92275173|NCT03063632|184452362|OTHER|||||||||||||||||Per Global Response Score used in Mycosis Fungoides and Sezary Syndrome, Response is assessed by the standard response criteria: Complete Response (CR), complete disappearance of all clinical evidence of disease where all categories (i.e., skin, lymph nodes, viscera, blood) have complete response/noninvolved; Partial Response (PR), regression of measurable disease; Stable Disease (SD), failure to attain CR, PR, or PD.|Simple statistics. Non-responders excluded from analysis.|||
92275174|NCT03063632|184452363|OTHER||||||||||||||||||Kaplan-Meier method|||
92343460|NCT01462942|184589801|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.085|||<|0.0001|TWO_SIDED|95.0|0.051|0.119|||Mixed Models Analysis|Adjusted by pre- and post-bronchodilator, age, and baseline FEV1 as covariates, and treatment group, sex, and smoking-status as fixed effect factors||||0.119|0.051|<0.0001
92343461|NCT01462942|184589801|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.053||||0.0022|TWO_SIDED|95.0|0.019|0.087|||Mixed Models Analysis|Adjusted by pre- and post-bronchodilator, age, and baseline FEV1 as covariates, and treatment group, sex, and smoking-status as fixed effect factors||||0.087|0.019|0.0022
92343462|NCT01462942|184589802|SUPERIORITY_OR_OTHER||Least squares mean difference|1.293|||<|0.0001|TWO_SIDED|95.0|0.728|1.859|||Mixed Models Analysis|Adjusted by BDI baseline score and age as covariates, with treatment group, gender, smoking-status, visit, and group-by-visit as fixed effect factors||||1.859|0.728|<0.0001
92343463|NCT01462942|184589802|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.162|||<|0.0001|TWO_SIDED|95.0|0.593|1.73|||Mixed Models Analysis|||Adjusted by BDI baseline score and age as covariates, with treatment group, gender, smoking-status, visit, and group-by-visit as fixed effect factors||1.730|0.593|<0.0001
92343464|NCT01462942|184589803|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.653||||0.598|TWO_SIDED|95.0|-3.082|1.776|||Mixed Models Analysis|Adjusted by SGRQ baseline score and age as covariates, with treatment group, gender, smoking-status, visit, and group-by-visit as fixed effect factors||||1.776|-3.082|0.5980
92343465|NCT01462942|184589803|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.828||||0.1406|TWO_SIDED|95.0|-4.259|0.604|||Mixed Models Analysis|Adjusted by SGRQ baseline score and age as covariates, with treatment group, gender, smoking-status, visit, and group-by-visit as fixed effect factors||||0.604|-4.259|0.1406
92343466|NCT00572832|184589820|NON_INFERIORITY_OR_EQUIVALENCE|The formula used for calculating sample size for the treatment arm (NT) is NT = (1 + 1/u) (Zα + Zβ)2 σ2 /\[log (RGMC) -δ0\] where u is the ratio of the size of the control and treatment arms, one sided alpha that is divided by 4, a non-inferiority margin (δ0 of natural log 0.5), the expected ratio of geometric mean concentrations RGMC set at 0.8, and a standard deviation of 1.26 (the largest for HPV-16). The calculated sample size for a power of 80% was 75 participants in each arm.||||||0.025||95.0||||Non-inferiority was tested against a one-sided null hypothesis (alpha=.025) that the post Dose 3 GMT ratio of the Alternate to Standard schedule was ≤ 0.5 for each HPV type. Results: GMT ratios were 2.23, 3,17, 2.14, and 1.68 for types 6,11,16,\& 18.|ANOVA|Log transformed the data and calculated GMTs. Tested if post Dose 3 GMT ratio of the Alternate to Standard schedule was ≤ 0.5 for each HPV type||Non-inferiority tested against 1-sided null hypothesis (alpha=.025) that the post Dose 3 GMT ratio of the Alternate to Standard schedule was ≤ 0.5 for each HPV type||||.025
92343467|NCT00931632|184589841|SUPERIORITY_OR_OTHER|||||||0.427|TWO_SIDED||||||Mantel Haenszel|||||||0.427
92343468|NCT01419314|184589851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|45.19|STANDARD_DEVIATION|20.25||0.001|TWO_SIDED|95.0|38.33|52.05|||ANOVA|Sphericity was not tenable for the factor pain scores, degrees of freedom were corrected using Huynh-Feldt estimates, df (1.71,56.46).||A repeated measure ANOVA was performed to evaluate the contrasts of interest.||52.05|38.33|0.001
92343469|NCT01419314|184589851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.09|STANDARD_ERROR_OF_MEAN|3.6|<|0.0005|TWO_SIDED|95.0|8.8|23.39||Bonferroni adjustment for significance\<0.013.|t-test, 2 sided||Paired t-test contrasting pain scores from baseline to week six of the trial-Splint group. The statistical power for the within splint intervention contrast was calculated to be 0.99.|Null hypothesis: Is there a difference in baseline pain scores compared to those at week 6 in the splinting group?||23.39|8.80|<0.0005
92343470|NCT01419314|184589851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.23|STANDARD_ERROR_OF_MEAN|5.27||0.155|TWO_SIDED|95.0|-13.93|7.47||Bonferroni adjustment for significance\<0.013.|t-test, 2 sided|df(35)|The statistical power for the between intervention contrast was calculated to be 0.26|Null Hypothesis: There is not difference in pain scores between the liner and splint applications at week three.||7.47|-13.93|0.155
92157898|NCT02240680|184202670|SUPERIORITY||Mean Difference (Final Values)|-11.5|STANDARD_ERROR_OF_MEAN|4.8||0.0178|TWO_SIDED|95.0|-21.0|-2.0|||Mixed Models Analysis|Mixed model repeated measures(MMRM) included treatment, week and interaction as fixed effects, baseline HbA1c, FPG, daily insulin dose as covariates|Adjusted mean of all differences between HbA1c at baseline and after 24 weeks. It is based on all patients in the model (not only patients with a baseline and week 24 measurement).||MMRM including fixed effects treatment, week and treatment by week interaction, linear covariates baseline HbA1c, baseline daily basal insulin, baseline FPG and baseline FPG by week interaction and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix. Adjusted mean is based on all patients in the model (not only patients with a baseline and week 24 measurement).|-2.0|-21.0|0.0178
92157899|NCT01657032|184202671|NON_INFERIORITY_OR_EQUIVALENCE|The differences between the study groups were considered significant when the P value was \<0.05.||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
92343471|NCT01419314|184589851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.67|STANDARD_ERROR_OF_MEAN|6.66||0.155|TWO_SIDED|95.0|-23.2|3.85|||t-test, 2 sided|df(35)||Null Hypothesis: There is no difference in pain scores between the liner and splint applications at week six.||3.85|-23.20|0.155
92157900|NCT01782326|184202682|NON_INFERIORITY_OR_EQUIVALENCE|Study was designed to have \>95% power to rule out a 1.15-fold increase in the rate exacerbations for QVA149 vs. salmeterol/fluticasone.|Rate Ratio|0.89|||||TWO_SIDED|95.0|0.83|0.96|||Generalized linear model||If the upper limit of the confidence interval was \<1.15 then non-inferiority of QVA149 compared to SFC could be claimed|||0.96|0.83|
92275175|NCT03063632|184452364|OTHER|||||||||||||||||Progression is assessed by the standard response criteria used in Mycosis Fungoides and Sezary Syndrome (skin, lymph nodes, viscera, blood, global). Per Global Response Score, progression is defined as Progressive Disease (PD) in any category (i.e., skin, lymph nodes, viscera, blood).|Kaplan-Meier method|||
92343472|NCT01721447|184589879|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||< 0.001
92275176|NCT03063632|184452365|OTHER||||||||||||||||||Kaplan-Meier method|||
92275177|NCT03063632|184452366|OTHER||||||||||||||||||Binomial distribution|||
92343473|NCT01721447|184589880|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||< 0.001
92343474|NCT00843492|184589881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3|||<|0.001|TWO_SIDED|95.0|0.15|0.54|||Fisher Exact|||||0.54|0.15|<0.001
92343475|NCT00794664|184589913|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p≤0.05|t-test, 2 sided|||Based upon prior clinical study experience with mipomersen, it was estimated that the standard deviation of the percent change in LDL-C was approximately 22%. With 15 patients in the control group and 30 patients in the mipomersen-treated group, this study would have at least 80% power to detect a 20 percentage point difference between the 2 treatment groups. Enrollment was to be conducted such that at least 51 patients were randomized to allow for potential exclusions from an analysis set.||||<0.001
92343476|NCT00794664|184589915|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
92343477|NCT00794664|184589917|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inferential conclusions about this parameter require statistical significance of the previous secondary outcome measure (i.e., percent change from baseline in Apo B at PET).|t-test, 2 sided|||||||<0.001
92343478|NCT00794664|184589919|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inferential conclusions about this parameter require statistical significance of the previous secondary outcome measure (i.e., percent change from baseline in total cholesterol at PET).|t-test, 2 sided|||||||<0.001
92343479|NCT00794664|184589921|SUPERIORITY_OR_OTHER|||||||0.034||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||0.034
92343480|NCT00794664|184589923|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||<0.001
92343481|NCT00794664|184589925|SUPERIORITY_OR_OTHER||||||<|0.032||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||<0.032
92343482|NCT00794664|184589927|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤0.05|Wilcoxon rank sum test|||||||<0.001
92343483|NCT00794664|184589929|SUPERIORITY_OR_OTHER|||||||0.278||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||0.278
92343484|NCT00794664|184589931|SUPERIORITY_OR_OTHER|||||||0.647||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||0.647
92343485|NCT00457730|184589934|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||t-test, 2 sided|||||||0.016
92399561|NCT01183689|184690563|SUPERIORITY||Mean Difference (Net)|-1.89||||0.73|TWO_SIDED|95.0|-4.36|0.58||This p-value is from a 2 degree of freedom test for differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean differences in total cholesterol changes from baseline among groups.||0.58|-4.36|0.73
92399562|NCT01183689|184690564|SUPERIORITY||Odds Ratio (OR)|2.36|||<|0.001|TWO_SIDED|95.0|1.23|4.52||The p-value is a 2 degree of freedom test from the generalized estimating equations analysis applied to the longitudinal binary data among the 3 study arms.|generalized estimating equations|||The average percentage of participants who were obese across follow-up were compared among the 3 arms using a generalized estimating equations approach for repeated binary measures. Participants were assigned values of 0 or 1 depending on their obesity status at each exam. Differences were summarized with odds ratios.||4.52|1.23|<0.001
92157901|NCT01782326|184202682|SUPERIORITY_OR_OTHER||Rate Ratio|0.89||||0.003|TWO_SIDED|95.0|0.83|0.96|||Generalized linear method||If non-inferiority was demonstrated, superiority of QVA149A compared to SFC in reducing exacerbation rate could be claimed if the upper limit of the same CI was less than 1.|||0.96|0.83|0.003
92157902|NCT01782326|184202683|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84|||<|0.001|TWO_SIDED|95.0|0.78|0.91|||Regression, Cox|||||0.91|0.78|<0.001
92157903|NCT01782326|184202684|SUPERIORITY_OR_OTHER||Rate Ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.75|0.91|||Generalized linear model|||||0.91|0.75|<0.001
92343486|NCT00457730|184589935|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||||||0.002
92157904|NCT01782326|184202685|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||<|0.001|TWO_SIDED|95.0|0.7|0.86|||Regression, Cox|||||0.86|0.70|<0.001
92343487|NCT00457730|184589936|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED||||||t-test, 2 sided|||||||0.074
92343488|NCT00720499|184589937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.017||0.8937|TWO_SIDED|95.0|-0.035|0.031|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.031|-0.035|0.8937
92343489|NCT00720499|184589938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.019||0.2425|TWO_SIDED|95.0|-0.015|0.061|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.061|-0.015|0.2425
92399563|NCT01183689|184690564|SUPERIORITY||Odds Ratio (OR)|2.13||||0.008|TWO_SIDED|95.0|1.12|4.1||This p-value is from a 2 degree of freedom test for differences among the 3 groups.|generalized estimating equations|||Generalized estimating equations were used. Differences were summarized with odds ratios.||4.10|1.12|0.008
92399564|NCT01183689|184690565|SUPERIORITY||Mean Difference (Net)|-0.08||||0.002|TWO_SIDED|95.0|-0.61|0.45||the p-value results from a 2 degree of freedom F-test to assess pairwise differences among the 3 groups|ANOVA|the p-value results from a 2 degree of freedom F-test to assess pairwise differences among the 3 groups||Mean changes from baseline to 2 years among the 3 groups were assessed using a 2 degree of freedom F-test||0.45|-0.61|0.002
92157905|NCT01782326|184202690|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.256|TWO_SIDED|95.0|0.74|1.08|||Regression, Cox|||||1.08|0.74|0.256
92157906|NCT01782326|184202691|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.008|TWO_SIDED|95.0|0.69|0.95|||Regression, Cox|||||0.95|0.69|0.008
92157907|NCT01782326|184202692|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.046|TWO_SIDED|95.0|0.66|1.0|||Regression, Cox|||||1.00|0.66|0.046
92157908|NCT01782326|184202693|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.79|TWO_SIDED|95.0|0.38|2.1|||Regression, Cox|||||2.10|0.38|0.790
92343490|NCT00720499|184589940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005|STANDARD_ERROR_OF_MEAN|0.008||0.5198|TWO_SIDED|95.0|-0.01|0.021|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Day 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.021|-0.010|0.5198
92343491|NCT00720499|184589940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.016||0.211|TWO_SIDED|95.0|-0.011|0.051|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.051|-0.011|0.2110
92343492|NCT00720499|184589940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.014||0.9368|TWO_SIDED|95.0|-0.029|0.027|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.027|-0.029|0.9368
92343493|NCT00720499|184589941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.01||0.5339|TWO_SIDED|95.0|-0.027|0.014|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Day 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.014|-0.027|0.5339
92343494|NCT00720499|184589941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.019||0.2408|TWO_SIDED|95.0|-0.015|0.058|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.058|-0.015|0.2408
92343495|NCT00720499|184589941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.018||0.7139|TWO_SIDED|95.0|-0.029|0.042|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.042|-0.029|0.7139
92343496|NCT00720499|184589942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.015||0.7906|TWO_SIDED|95.0|-0.026|0.034|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.034|-0.026|0.7906
92343497|NCT00720499|184589943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.038||0.8473|TWO_SIDED|95.0|-0.067|0.082|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.082|-0.067|0.8473
92343498|NCT00720499|184589944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032|STANDARD_ERROR_OF_MEAN|0.031||0.2944|TWO_SIDED|95.0|-0.029|0.094|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.094|-0.029|0.2944
92343499|NCT00720499|184589944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.028||0.718|TWO_SIDED|95.0|-0.046|0.066|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.066|-0.046|0.7180
92343500|NCT00720499|184589946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.015||0.9384|TWO_SIDED|95.0|-0.029|0.032|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.032|-0.029|0.9384
92343501|NCT00720499|184589946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_ERROR_OF_MEAN|0.026||0.1583|TWO_SIDED|95.0|-0.014|0.088|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.088|-0.014|0.1583
92343502|NCT00720499|184589946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029|STANDARD_ERROR_OF_MEAN|0.027||0.2914|TWO_SIDED|95.0|-0.025|0.082|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.082|-0.025|0.2914
92343503|NCT00720499|184589947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.03||0.2485|TWO_SIDED|95.0|-0.024|0.094|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.094|-0.024|0.2485
92343504|NCT00720499|184589948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.043||0.2875|TWO_SIDED|95.0|-0.039|0.13|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.130|-0.039|0.2875
92157909|NCT02987829|184202719|OTHER|||||||||||||||||Determination of the maximum tolerated dose.|One dose limiting toxicity occurred at 320 mg daily of grade 3 QTc prolongation therefore the 280 mg dose was determined to be the maximum tolerated dose and selected as the phase 2 dose.|||
92157910|NCT02531438|184202753|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-1.6|||||TWO_SIDED|95.0|-7.1|3.8|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus moxifloxacin.|||3.8|-7.1|
92157911|NCT02531438|184202754|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|2.5|||||TWO_SIDED|95.0|-2.4|7.4|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus moxifloxacin.|||7.4|-2.4|
92157912|NCT02531438|184202755|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|2.5|||||TWO_SIDED|95.0|-1.7|6.8|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus moxifloxacin.|||6.8|-1.7|
92343505|NCT00720499|184589949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.984|STANDARD_ERROR_OF_MEAN|2.038||0.6299|TWO_SIDED|95.0|-3.046|5.015|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||5.015|-3.046|0.6299
92343506|NCT00720499|184589949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.311|STANDARD_ERROR_OF_MEAN|3.156||0.0475|TWO_SIDED|95.0|0.07|12.553|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||12.553|0.070|0.0475
92343507|NCT00720499|184589949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.552|STANDARD_ERROR_OF_MEAN|2.67||0.562|TWO_SIDED|95.0|-3.729|6.833|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||6.833|-3.729|0.5620
92343508|NCT00720499|184589950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.179|STANDARD_ERROR_OF_MEAN|2.342||0.9391|TWO_SIDED|95.0|-4.812|4.454|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||4.454|-4.812|0.9391
92399565|NCT01183689|184690565|SUPERIORITY||Mean Difference (Net)|0.55||||0.002|TWO_SIDED|95.0|0.02|1.08||This p-value is from a 2 degree of freedom test for differences among all 3 groups|ANOVA|||Differences among the 3 groups were based on analyses of variance.||1.08|0.02|0.002
92157913|NCT00483262|184202778|SUPERIORITY_OR_OTHER||>= grade 3 adverse event proportion|0.9|||||TWO_SIDED|90.0|0.72|0.98|||||Estimated proportion of patients with a adverse event of grade 3 or higher.|Single Arm Study||.98|.72|
92157914|NCT00483262|184202778|SUPERIORITY_OR_OTHER||toxicity grade >=3 proportion|0.79|||||TWO_SIDED|90.0|0.66|0.89|||||No comparison. Estimate the proportion of patients with grade 3 or higher toxicity.|Phase II toxicity||.89|.66|
92157915|NCT00483262|184202779|SUPERIORITY_OR_OTHER||response rate of PR or better|0.1|||||TWO_SIDED|90.0|0.02|0.28|||||Response of PR or better|Phase I part of this phase I/II study||.28|.02|
92157916|NCT00483262|184202779|SUPERIORITY_OR_OTHER||response rate of PR or better|0.33|||||TWO_SIDED|90.0|0.21|0.47|||||Response of PR or better|Phase II part of this phase I/II study.||0.47|0.21|
92157917|NCT02303574|184202786|OTHER|Dose proportionality was analyzed by power model. Slope parameter was obtained via linear least squares.|Slope|1.287|STANDARD_ERROR_OF_MEAN|0.05085|||TWO_SIDED|95.0|1.183|1.391||||||||1.391|1.183|
92157918|NCT02303574|184202786|OTHER|Effect of food analysis by linear mixed effects ANOVA model with fixed effect of fasting status.|Ratio (%)|90.72|||||TWO_SIDED|90.0|83.72|98.31||||||||98.31|83.72|
92157919|NCT02303574|184202787|OTHER|Time dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|159.4|||||TWO_SIDED|90.0|140.61|180.7||||||||180.70|140.61|
92343509|NCT00720499|184589950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.48|STANDARD_ERROR_OF_MEAN|3.559||0.0709|TWO_SIDED|95.0|-0.56|13.52|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||13.520|-0.560|0.0709
92343510|NCT00720499|184589950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.099|STANDARD_ERROR_OF_MEAN|3.134||0.3245|TWO_SIDED|95.0|-3.1|9.298|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||9.298|-3.100|0.3245
92343511|NCT00720499|184589951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|4.655||0.8808|TWO_SIDED|95.0|-9.914|8.514|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||8.514|-9.914|0.8808
92343512|NCT00720499|184589952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.119|STANDARD_ERROR_OF_MEAN|2.177||0.6081|TWO_SIDED|95.0|-3.19|5.429|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test week 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||5.429|-3.190|0.6081
92343513|NCT00720499|184589952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.339|STANDARD_ERROR_OF_MEAN|2.342||0.5686|TWO_SIDED|95.0|-3.296|5.973|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 2. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||5.973|-3.296|0.5686
92343514|NCT00720499|184589952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.653|STANDARD_ERROR_OF_MEAN|2.294||0.7765|TWO_SIDED|95.0|-3.888|5.194|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 3. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||5.194|-3.888|0.7765
92343515|NCT00720499|184589952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.654|STANDARD_ERROR_OF_MEAN|2.543||0.5166|TWO_SIDED|95.0|-3.379|6.686|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 4. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||6.686|-3.379|0.5166
92343516|NCT00720499|184589953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.303|STANDARD_ERROR_OF_MEAN|2.585||0.2037|TWO_SIDED|95.0|-1.813|8.418|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||8.418|-1.813|0.2037
92343517|NCT00720499|184589953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.393|STANDARD_ERROR_OF_MEAN|2.738||0.6118|TWO_SIDED|95.0|-4.027|6.813|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 2. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||6.813|-4.027|0.6118
92343518|NCT00720499|184589953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.695|STANDARD_ERROR_OF_MEAN|2.498||0.4988|TWO_SIDED|95.0|-3.251|6.64|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 3. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||6.640|-3.251|0.4988
92157920|NCT02303574|184202787|OTHER|Time dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|151.82|||||TWO_SIDED|90.0|138.23|166.74||||||||166.74|138.23|
92157921|NCT02303574|184202787|OTHER|Time dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|158.68|||||TWO_SIDED|90.0|146.67|171.67||||||||171.67|146.67|
92157922|NCT02303574|184202788|OTHER|Dose proportionality was analyzed by power model. Slope parameter was obtained via linear least squares.|Slope|1.228|STANDARD_ERROR_OF_MEAN|0.1329|||TWO_SIDED|95.0|0.9513|1.504||||||||1.504|0.9513|
92157923|NCT02303574|184202788|OTHER|ime dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|159.4|||||TWO_SIDED|90.0|140.61|180.7||||||||180.70|140.61|
92157924|NCT02303574|184202788|OTHER|ime dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|151.82|||||TWO_SIDED|90.0|138.23|166.74||||||||166.74|138.23|
92343519|NCT00720499|184589953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.039|STANDARD_ERROR_OF_MEAN|2.478||0.6757|TWO_SIDED|95.0|-5.944|3.865|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 4. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||3.865|-5.944|0.6757
92343520|NCT00720499|184589954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.08||0.8901|TWO_SIDED|95.0|-0.147|0.169|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.169|-0.147|0.8901
92343521|NCT00720499|184589954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.086||0.1647|TWO_SIDED|95.0|-0.29|0.05|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 2. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.050|-0.290|0.1647
92343522|NCT00720499|184589954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.09||0.9822|TWO_SIDED|95.0|-0.18|0.176|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 3. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.176|-0.180|0.9822
92343523|NCT00720499|184589954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.6542|TWO_SIDED|95.0|-0.218|0.137|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 4. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.137|-0.218|0.6542
92343524|NCT00720499|184589955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.114|STANDARD_ERROR_OF_MEAN|0.116||0.3269|TWO_SIDED|95.0|-0.342|0.115|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for treatment, centre, patient within centre and period (all effects fixed).||0.115|-0.342|0.3269
92343525|NCT00720499|184589956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.089||0.9557|TWO_SIDED|95.0|-0.181|0.171|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.171|-0.181|0.9557
92343526|NCT00720499|184589956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.08||0.8096|TWO_SIDED|95.0|-0.178|0.14|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.140|-0.178|0.8096
92343527|NCT01100502|184589966|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57||||0.001|TWO_SIDED|95.0|0.4|0.81|||Log Rank|||||0.81|0.40|0.001
92343528|NCT00721799|184589981|OTHER||Hazard Ratio (HR)|0.47||||0.08|TWO_SIDED||||||Regression, Cox|||||||0.08
92343529|NCT00721799|184589981|OTHER||C-statistic|0.73||||0.04|TWO_SIDED||||||Regression, Cox|||||||0.04
92343530|NCT00721799|184589982|OTHER||Hazard Ratio (HR)|0.42||||0.05|TWO_SIDED||||||Regression, Cox|||||||0.05
92343531|NCT00721799|184589982|OTHER||C-statistic|0.75||||0.02|TWO_SIDED||||||Regression, Cox|||||||0.02
92343532|NCT00721799|184589983|OTHER||Hazard Ratio (HR)|2.44|||<|0.01|TWO_SIDED||||||Regression, Cox|||||||<0.01
92343533|NCT00721799|184589983|OTHER||C-statistic|0.74||||0.02|TWO_SIDED||||||Regression, Cox|||||||0.02
92343534|NCT00721799|184589984|OTHER||Hazard Ratio (HR)|1.12||||0.73|TWO_SIDED||||||Regression, Cox|||||||0.73
92343535|NCT00721799|184589984|OTHER||C-statistic|0.52||||0.88|TWO_SIDED||||||Regression, Cox|||||||0.88
92343536|NCT00721799|184589985|OTHER||Hazard Ratio (HR)|1.11||||0.78|TWO_SIDED||||||Regression, Cox|||||||0.78
92343537|NCT00721799|184589985|OTHER||C-statistic|0.45||||0.66|TWO_SIDED||||||Regression, Cox|||||||0.66
92343538|NCT00721799|184589986|OTHER||Hazard Ratio (HR)|2.25||||0.01|TWO_SIDED||||||Regression, Cox|||||||0.01
92343539|NCT00721799|184589986|OTHER||C-statistic|0.7||||0.05|TWO_SIDED||||||Regression, Cox|||||||0.05
92343540|NCT00721799|184589987|OTHER||Hazard Ratio (HR)|0.83||||0.63|TWO_SIDED||||||Regression, Cox|||||||0.63
92343541|NCT00721799|184589987|OTHER||C-statistic|0.58||||0.46|TWO_SIDED||||||Regression, Cox|||||||0.46
92343542|NCT00721799|184589988|OTHER||Hazard Ratio (HR)|0.81||||0.58|TWO_SIDED||||||Regression, Cox|||||||0.58
92343543|NCT00721799|184589988|OTHER||C-statistic|0.6||||0.36|TWO_SIDED||||||Regression, Cox|||||||0.36
92343544|NCT00721799|184589989|OTHER||Hazard Ratio (HR)|0.94||||0.89|TWO_SIDED||||||Regression, Cox|||||||0.89
92343545|NCT00721799|184589989|OTHER||C-statistic|0.59||||0.42|TWO_SIDED||||||Regression, Cox|||||||0.42
92343546|NCT00721799|184589990|OTHER||Hazard Ratio (HR)|1.29||||0.43|TWO_SIDED||||||Regression, Cox|||||||0.43
92343547|NCT00721799|184589990|OTHER||C-statistic|0.47||||0.8|TWO_SIDED||||||Regression, Cox|||||||0.80
92343548|NCT00721799|184589991|OTHER||Hazard Ratio (HR)|2.01||||0.01|TWO_SIDED||||||Regression, Cox|||||||0.01
92343549|NCT00721799|184589991|OTHER||C-statistic|0.69||||0.07|TWO_SIDED||||||Regression, Cox|||||||0.07
92343550|NCT00721799|184589992|OTHER||Hazard Ratio (HR)|1.58||||0.18|TWO_SIDED||||||Regression, Cox|||||||0.18
92343551|NCT00721799|184589992|OTHER||C-statistic|0.63||||0.25|TWO_SIDED||||||Regression, Cox|||||||0.25
92343552|NCT00721799|184589993|OTHER||Hazard Ratio (HR)|1.49||||0.24|TWO_SIDED||||||Regression, Cox|||||||0.24
92343553|NCT00721799|184589993|OTHER||C-statistic|0.62||||0.27|TWO_SIDED||||||Regression, Cox|||||||0.27
92343554|NCT00721799|184589994|OTHER||Hazard Ratio (HR)|1.0||||0.99|TWO_SIDED||||||Regression, Cox|||||||0.99
92343555|NCT00721799|184589994|OTHER||C-statistic|0.48||||0.84|TWO_SIDED||||||Regression, Cox|||||||0.84
92343556|NCT00721799|184589995|OTHER||Hazard Ratio (HR)|1.3||||0.41|TWO_SIDED||||||Regression, Cox|||||||0.41
92343557|NCT00721799|184589995|OTHER||C-statistic|0.54||||0.69|TWO_SIDED||||||Regression, Cox|||||||0.69
92343558|NCT00721799|184589996|OTHER||Hazard Ratio (HR)|1.56||||0.17|TWO_SIDED||||||Regression, Cox|||||||0.17
92343559|NCT00721799|184589996|OTHER||C-statistic|0.64||||0.18|TWO_SIDED||||||Regression, Cox|||||||0.18
92343560|NCT00721799|184589997|OTHER||Hazard Ratio (HR)|0.42||||0.09|TWO_SIDED||||||Regression, Cox|||||||0.09
92343561|NCT00721799|184589997|OTHER||Hazard Ratio (HR)|0.72||||0.06|TWO_SIDED||||||Regression, Cox|||||||0.06
92343562|NCT00721799|184589998|OTHER||Hazard Ratio (HR)|0.36||||0.06|TWO_SIDED||||||Regression, Cox|||||||0.06
92343563|NCT00721799|184589998|OTHER||C-statistic|0.74||||0.04|TWO_SIDED||||||Regression, Cox|||||||0.04
92343564|NCT00721799|184589999|OTHER||Hazard Ratio (HR)|3.01|||<|0.01|TWO_SIDED||||||Regression, Cox|||||||<0.01
92343565|NCT00721799|184589999|OTHER||C-statistic|0.82|||<|0.01|TWO_SIDED||||||Regression, Cox|||||||<0.01
92343566|NCT00721799|184590000|OTHER||Hazard Ratio (HR)|1.03||||0.92|TWO_SIDED||||||Regression, Cox|||||||0.92
92343567|NCT00721799|184590000|OTHER||C-statistic|0.48||||0.84|TWO_SIDED||||||Regression, Cox|||||||0.84
92343568|NCT00721799|184590001|OTHER||Hazard Ratio (HR)|1.11||||0.76|TWO_SIDED||||||Regression, Cox|||||||0.76
92343569|NCT00721799|184590001|OTHER||C-statistic|0.45||||0.68|TWO_SIDED||||||Regression, Cox|||||||0.68
92217713|NCT00346073|184335883|NON_INFERIORITY|The primary objective of non-inferiority was met if the lower limit of the 95% confidence intervals (CIs), between the two groups (Boostrix Group - Adacel Group) were greater than or equal to (≥) -10%|Difference in percentage|-0.43|||||TWO_SIDED|95.0|-1.47|0.84||||||The non-inferiority of Boostrix® vaccine compared to Adacel™ vaccine, with respect to the percentage of subjects with anti-diphtheria (anti-D) antibody concentrations greater than or equal to (≥) 0.1 IU/mL, one month after vaccination.||0.84|-1.47|
92217714|NCT00346073|184335883|NON_INFERIORITY|The primary objective of non-inferiority was met if the lower limit of the 95% confidence intervals (CIs), between the two groups (Boostrix Group - Adacel Group) were greater than or equal to (≥) -10%|Difference in percentage|-0.42|||||TWO_SIDED|95.0|-0.9|0.11||||||The non-inferiority of Boostrix® vaccine compared to Adacel™ vaccine, with respect to the percentage of subjects with anti-tetanus (anti-T) antibody concentrations greater than or equal to (≥) 0.1 IU/mL, one month after vaccination.||0.11|-0.9|
92217715|NCT00346073|184335884|NON_INFERIORITY|The primary objective of non-inferiority was met if the lower limit of the 95% confidence intervals (CIs), between the two groups (Boostrix Group - Adacel Group) were greater than or equal to (≥) -10%|Difference in percentage|-1.04|||||TWO_SIDED|95.0|-1.97|0.0||||||The non-inferiority of Boostrix® vaccine compared to Adacel™ vaccine, with respect to the percentage of subjects with anti-tetanus (anti-T) antibody concentrations greater than or equal to (≥) 1.0 IU/mL, one month after vaccination.||0|-1.97|
92217716|NCT00346073|184335886|SUPERIORITY||Booster response|77.2|||||TWO_SIDED|95.0|74.9|79.3||||||"Demonstration that anti-PT booster response occurred in at least 80% of adults receiving a single dose of Boostrix® vaccine, one month after vaccination.~Criterion for evaluation: one month after vaccination, the lower limit of the 95% confidence interval (CI) for the percentage of subjects with a booster response was greater than or equal to (≥) 80%."||79.3|74.9|
92217717|NCT00346073|184335886|SUPERIORITY||Booster response|96.9|||||TWO_SIDED|95.0|95.8|97.7||||||"Demonstration that anti-FHA booster response occurred in at least 80% of adults receiving a single dose of Boostrix® vaccine, one month after vaccination.~Criterion for evaluation: one month after vaccination, the lower limit of the 95% confidence interval (CI) for the percentage of subjects with a booster response was greater than or equal to (≥) 80%."||97.7|95.8|
92217718|NCT00346073|184335886|SUPERIORITY||Booster response|93.2|||||TWO_SIDED|95.0|91.8|94.4||||||"Demonstration that anti-PRN booster response occurred in at least 80% of adults receiving a single dose of Boostrix® vaccine, one month after vaccination.~Criterion for evaluation: one month after vaccination, the lower limit of the 95% confidence interval (CI) for the percentage of subjects with a booster response was greater than or equal to (≥) 80%."||94.4|91.8|
92217719|NCT03600142|184335899|NON_INFERIORITY|For WLHIV (n=55), chi-square tests were used to assess differences between conditions in the proportion of participants who were retained in HIV care at 3 months post enrollment.||||||0.963|||||||Chi-squared|||We were aware that our resources of time and funding would not be sufficient to detect a significant difference in the HIV care outcome, and that we would only be able to detect observational signals of impact. We aimed for a minimum of 50 WLHIV, which is considered an adequate sample to assess feasibility and acceptability in a pilot intervention study. Given an estimated 5% HIV prevalence among women presenting for ANC, this required us to enroll 1000 female participants.||||0.963
92217720|NCT02687542|184335935|OTHER|Bayesian Dose Response Analysis|Bayesian Dose Reponse Estimate|-0.693|STANDARD_ERROR_OF_MEAN|0.6162||0.5776|TWO_SIDED|90.0|-1.713|0.304||Bayesian Predictive Test for Emax (the additive increase over Placebo in the response of PF-06649751 at a theoretically infinite dose) Monotonicity|Bayesian Dose Response Analysis|Estimate and 90% credible interval of Bayesian dose response difference from placebo||||0.304|-1.713|0.5776
92217721|NCT00857532|184335952|SUPERIORITY_OR_OTHER|||||||0.021||95.0|||||Spearman's Rank Order Correlation|||"P-value for Attention correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 attention score."||||0.021
92217722|NCT00857532|184335952|SUPERIORITY_OR_OTHER|||||||0.077||95.0|||||Spearman's Rank Order Correlation|||"P-value for Initiation/Perseveration correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 initiation/perseveration score."||||0.077
92343570|NCT00721799|184590002|OTHER||Hazard Ratio (HR)|2.99|||<|0.01|TWO_SIDED||||||Regression, Cox|||||||<0.01
92343571|NCT00721799|184590002|OTHER||C-statistic|0.74||||0.03|TWO_SIDED||||||Regression, Cox|||||||0.03
92343572|NCT00721799|184590003|OTHER||Hazard Ratio (HR)|0.78||||0.55|TWO_SIDED||||||Regression, Cox|||||||0.55
92217723|NCT00857532|184335952|SUPERIORITY_OR_OTHER|||||||0.364||95.0|||||Spearman's Rank Order Correlation|||"P-value for Construction correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 construction score."||||0.364
92217724|NCT00857532|184335952|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||Spearman's Rank Order Correlation|||"P-value for Conceptualization correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 conceptualization score."||||0.266
92217725|NCT00857532|184335952|SUPERIORITY_OR_OTHER|||||||0.152||95.0|||||Spearman's Rank Order Correlation|||"P-value for Memory correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 memory score."||||0.152
92217726|NCT00857532|184335952|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||Spearman's Rank Order Correlation|||"P-value for DRS-2 Total correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 total score."||||0.041
92343573|NCT00721799|184590003|OTHER||C-statistic|0.61||||0.35|TWO_SIDED||||||Regression, Cox|||||||0.35
92343574|NCT00721799|184590004|OTHER||Hazard Ratio (HR)|0.74||||0.48|TWO_SIDED||||||Regression, Cox|||||||0.48
92343575|NCT00721799|184590004|OTHER||C-statistic|0.63||||0.28|TWO_SIDED||||||Regression, Cox|||||||0.28
92343576|NCT00721799|184590005|OTHER||Hazard Ratio (HR)|0.81||||0.67|TWO_SIDED||||||Regression, Cox|||||||0.67
92343577|NCT00721799|184590005|OTHER||C-statistic|0.71||||0.11|TWO_SIDED||||||Regression, Cox|||||||0.11
92343578|NCT00721799|184590006|OTHER||Hazard Ratio (HR)|1.32||||0.4|TWO_SIDED||||||Regression, Cox|||||||0.40
92343579|NCT00721799|184590006|OTHER||C-statistic|0.48||||0.88|TWO_SIDED||||||Regression, Cox|||||||0.88
92343580|NCT00721799|184590007|OTHER||Hazard Ratio (HR)|2.39|||<|0.01|TWO_SIDED||||||Regression, Cox|||||||<0.01
92343581|NCT00721799|184590007|OTHER||C-statistic|0.74||||0.03|TWO_SIDED||||||Regression, Cox|||||||0.03
92343582|NCT00721799|184590008|OTHER||Hazard Ratio (HR)|1.51||||0.26|TWO_SIDED||||||Regression, Cox|||||||0.26
92343583|NCT00721799|184590008|OTHER||C-statistic|0.59||||0.46|TWO_SIDED||||||Regression, Cox|||||||0.46
92343584|NCT00721799|184590009|OTHER||Hazard Ratio (HR)|1.38||||0.37|TWO_SIDED||||||Regression, Cox|||||||0.37
92343585|NCT00721799|184590009|OTHER||C-statistic|0.59||||0.46|TWO_SIDED||||||Regression, Cox|||||||0.46
92343586|NCT00721799|184590010|OTHER||Hazard Ratio (HR)|1.05||||0.9|TWO_SIDED||||||Regression, Cox|||||||0.90
92343587|NCT00721799|184590010|OTHER||C-statistic|0.52||||0.87|TWO_SIDED||||||Regression, Cox|||||||0.87
92343588|NCT00721799|184590011|OTHER||Hazard Ratio (HR)|1.35||||0.36|TWO_SIDED||||||Regression, Cox|||||||0.36
92343589|NCT00721799|184590011|OTHER||C-statistic|0.56||||0.63|TWO_SIDED||||||Regression, Cox|||||||0.63
92343590|NCT00721799|184590012|OTHER||Hazard Ratio (HR)|1.56||||0.2|TWO_SIDED||||||Regression, Cox|||||||0.20
92343591|NCT00721799|184590012|OTHER||C-statistic|0.63||||0.24|TWO_SIDED||||||Regression, Cox|||||||0.24
92343592|NCT04356937|184590023|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.64|TWO_SIDED|95.0|0.38|1.81|||Log Rank|||||1.81|0.38|0.64
92343593|NCT04356937|184590024|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.73|TWO_SIDED|95.0|0.59|2.1|||Log Rank|||||2.10|0.59|0.73
92157925|NCT02303574|184202788|OTHER|ime dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|158.68|||||TWO_SIDED|90.0|146.67|171.67||||||||171.67|146.67|
92157926|NCT02303574|184202789|OTHER||Slope|1.302|STANDARD_ERROR_OF_MEAN|0.05056|||TWO_SIDED|95.0|1.198|1.406||||||Dose proportionality was analyzed by power model. Slope parameter was obtained via linear least squares.||1.406|1.198|
92343594|NCT04356937|184590025|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.69|TWO_SIDED|95.0|0.67|1.3|||Log Rank|||||1.30|0.67|0.69
92157927|NCT02303574|184202789|OTHER|Effect of food analysis by linear mixed effects ANOVA model with fixed effect of fasting status.|Ratio (%)|64.14|||||TWO_SIDED|90.0|55.07|74.7||||||||74.70|55.07|
92343595|NCT01926028|184590147|EQUIVALENCE|The proportion of patients in each group was summarized with point estimates and their 95% confidence interval|Cox Proportional Hazard|0.39||||0.03|TWO_SIDED|95.0|0.17|0.91|||Wilcoxon (Mann-Whitney)|||||0.91|0.17|0.03
92157928|NCT02303574|184202790|OTHER|Dose proportionality was analyzed by power model. Slope parameter was obtained via linear least squares.|Slope|1.157|STANDARD_ERROR_OF_MEAN|0.1098|||TWO_SIDED|95.0|0.9285|1.385||||||||1.385|0.9285|
92157929|NCT00162942|184202834|SUPERIORITY_OR_OTHER|||||||0.858|||||||Fisher Exact|||||||.858
92157930|NCT00162942|184202836|SUPERIORITY_OR_OTHER|||||||0.813||95.0|||||Student's t-test|||||||0.813
92157931|NCT00162942|184202837|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.000
92157932|NCT00162942|184202838|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Student's t-test|||||||0.670
92157933|NCT00162942|184202839|SUPERIORITY_OR_OTHER|||||||0.977||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.977
92157934|NCT00162942|184202840|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.670
92157935|NCT00162942|184202841|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.170
92157936|NCT00162942|184202842|SUPERIORITY_OR_OTHER|||||||0.0773||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0773
92157937|NCT00162942|184202843|SUPERIORITY_OR_OTHER|||||||0.261||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.261
92157938|NCT00162942|184202844|SUPERIORITY_OR_OTHER|||||||0.379||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.379
92157939|NCT00162942|184202845|SUPERIORITY_OR_OTHER|||||||0.441||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.441
92343596|NCT01926028|184590148|EQUIVALENCE|The proportion of patients in each group was summarized with point estimates and their 95% confidence interval|Cox Proportional Hazard|0.55||||0.1|TWO_SIDED|95.0|0.27|1.13|||Wilcoxon (Mann-Whitney)|||||1.13|0.27|0.10
92343597|NCT04539275|184590157|SUPERIORITY||Risk Difference (RD)|-0.01||||1|TWO_SIDED|95.0|-0.15|0.14|||Fisher Exact|||||0.14|-0.15|1.00
92343598|NCT04539275|184590158|SUPERIORITY||Improvement Rate Ratio|1.08||||0.749|TWO_SIDED|95.0|0.65|1.78|||Log Rank|||||1.78|0.65|0.749
92343599|NCT04539275|184590159|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.943|TWO_SIDED|95.0|0.21|4.23|||Log Rank|||||4.23|0.21|0.943
92343600|NCT04539275|184590160|SUPERIORITY||Risk Difference (RD)|-0.08||||0.4014|TWO_SIDED|95.0|-0.25|0.1|||Chi-squared|||||0.10|-0.25|0.4014
92343601|NCT04539275|184590161|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.3762|TWO_SIDED|95.0|0.18|1.96|||Log Rank|||||1.96|0.18|0.3762
92343602|NCT04539275|184590162|SUPERIORITY||Risk Difference (RD)|-0.04||||0.6867|TWO_SIDED|95.0|-0.17|0.09|||Fisher Exact|||||0.09|-0.17|0.6867
92343603|NCT04539275|184590163|SUPERIORITY||Improvement Rate Ratio|1.11||||0.6494|TWO_SIDED|95.0|0.68|1.83|||Log Rank|||||1.83|0.68|0.6494
92343604|NCT04539275|184590164|SUPERIORITY||Improvement Rate Ratio|0.98||||0.9338|TWO_SIDED|95.0|0.59|1.63|||Log Rank|||||1.63|0.59|0.9338
92343605|NCT04539275|184590168|SUPERIORITY||Improvement Rate Ratio|1.14||||0.5682|TWO_SIDED|95.0|0.7|1.86|||Log Rank|||||1.86|0.70|0.5682
92343606|NCT04539275|184590170|SUPERIORITY||Median Difference (Final Values)|0.0||||0.8642|TWO_SIDED|95.0|-2.3|2.3|||Wilcoxon (Mann-Whitney)|||||2.3|-2.3|0.8642
92343607|NCT01799941|184590172|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||The primary analysis tested the null hypothesis that the mean change in CNS-LS score from Baseline to Day 90 visit is equal to zero.||||<0.0001
92343608|NCT01799941|184590172|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||one-sample t-test|||The primary analysis tested the null hypothesis that the mean change in CNS-LS score from Baseline to Day 90 visit is equal to zero.||||<0.0001
92343609|NCT01799941|184590172|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||The primary analysis tested the null hypothesis that the mean change in CNS-LS score from Baseline to Day 90 visit is equal to zero.||||<0.0001
92343610|NCT01799941|184590172|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||The primary analysis tested the null hypothesis that the mean change in CNS-LS score from Baseline to Day 90 visit is equal to zero.||||<0.0001
92343611|NCT01799941|184590172|SUPERIORITY_OR_OTHER||Analysis of covariance (ANCOVA)|0.04|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|95.0|-1.37|1.45|||||A positive estimate indicates a smaller change in the first group. Observations used =261.|||1.45|-1.37|
92343612|NCT01799941|184590172|SUPERIORITY_OR_OTHER||ANCOVA|1.11|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|95.0|-0.46|2.68|||||A positive estimate indicates a smaller change in the first group. Observations used =261.|||2.68|-0.46|
92343613|NCT01799941|184590172|SUPERIORITY_OR_OTHER||ANCOVA|1.15|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|-0.39|2.69|||||A positive estimate indicates a smaller change in the first group. Observations used =261.|||2.69|-0.39|
92343614|NCT01799941|184590173|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
92399566|NCT01183689|184690566|SUPERIORITY|A 2 degree of freedom F-test from ANOVA was used to compare mean differences in changes among the 3 arms of the study.|Mean Difference (Net)|-0.85|||<|0.001|TWO_SIDED|95.0|-1.32|-0.38||The p-value is from a 2 degree of freedom F test to assess differences among the 3 arms of the study.|ANOVA|The p-value is from a 2 degree of freedom F test to assess differences among the 3 arms of the study.||Changes in units of the scale from baseline to 2 years||-0.38|-1.32|<0.001
92343615|NCT01799941|184590173|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
92343616|NCT01799941|184590173|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
92343617|NCT01799941|184590173|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
92343618|NCT01799941|184590174|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 30 versus Baseline||||<0.0001
92343619|NCT01799941|184590174|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 90 versus Baseline||||<0.0001
92343620|NCT01799941|184590174|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 30 versus Baseline||||<0.0001
92343621|NCT01799941|184590174|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 90 assessment||||<0.0001
92343622|NCT01799941|184590174|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 30 versus Baseline||||<0.0001
92343623|NCT01799941|184590174|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 90 versus Baseline||||<0.0001
92343624|NCT01799941|184590174|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 30 versus Baseline||||<0.0001
92343625|NCT01799941|184590174|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 90 versus Baseline||||<0.0001
92343626|NCT01799941|184590176|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.425|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.407|0.445|||Mixed Effects Poisson Regreesion Model||Number of observations = 854, Number of participants = 298|Day 30 assessment||0.445|0.407|<0.0001
92157940|NCT00162942|184202846|SUPERIORITY_OR_OTHER|||||||0.759||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.759
92343627|NCT01799941|184590176|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.277|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.262|0.293|||Mixed Effects Poisson Regression Model||Number of observations = 854, Number of participants = 298|Day 90 assessment||0.293|0.262|<0.0001
92343628|NCT01799941|184590176|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.5|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.469|0.534|||Mixed Effects Poisson Regression Model||Number of observations = 318, Number of participants = 108|Day 30 assessment||0.534|0.469|<0.0001
92399567|NCT01183689|184690566|SUPERIORITY||Mean Difference (Net)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.57|0.37||This p-value is from a 2 degree of freedom test to compare differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean changes from baseline to 2 years among the 3 groups.||0.37|-0.57|<0.001
92157941|NCT00162942|184202847|SUPERIORITY_OR_OTHER|||||||0.222||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.222
92157942|NCT00162942|184202848|SUPERIORITY_OR_OTHER|||||||0.256||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.256
92343629|NCT01799941|184590176|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.323|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|0.299|0.349|||Mixed Effects Poisson Regression Model||Number of observations = 318, Number of participants = 108|Day 90 assessment||0.349|0.299|<0.0001
92343630|NCT01799941|184590176|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.351|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|0.323|0.383|||Mixed Effects Poisson Regression Model||Number of observations = 297, Number of participants = 103|Day 30 assessment||0.383|0.323|<0.0001
92343631|NCT01799941|184590176|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.255|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|0.231|0.282|||Mixed Effects Poisson Regression Model||Number of observations = 297, Number of participants = 103|Day 90 assessment||0.282|0.231|<0.0001
92343632|NCT01799941|184590176|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.387|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001|TWO_SIDED|95.0|0.352|0.425|||Mixed Effects Poisson Regression Model||Number of observations = 239, Number of participants = 87|Day 30 assessment||0.425|0.352|<0.0001
92343633|NCT01799941|184590176|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.215|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|0.189|0.245|||Mixed Effects Poisson Regression Model||Number of observations = 239, Number of participants = 87|Day 90 assessment||0.245|0.189|<0.0001
92343634|NCT01799941|184590179|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
92343635|NCT01799941|184590179|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
92343636|NCT01799941|184590179|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
92343637|NCT01799941|184590179|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
92343638|NCT01079780|184590199|SUPERIORITY||Hazard Ratio (HR)|0.75|||||TWO_SIDED|||||||||||||
92343639|NCT01079780|184590200|SUPERIORITY|||||||0.27|||||||Chi-squared|||||||0.27
92343640|NCT01079780|184590202|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.55|TWO_SIDED||||||Log Rank|||||||0.55
92343641|NCT01178294|184590203|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||one-sided binomial exact test|||Summary statistics for the percentage of participants with serious bleeding episodes responsive at 24 hours after the initiation of treatment are presented, along with the 95% confidence interval (two-sided 95% Clopper-Pearson confidence interval).||||<0.001
92343642|NCT01663623|184590237|OTHER||Hazard Ratio (HR)|1.07||||0.884|TWO_SIDED|95.0|0.44|2.59||Cox proportional Hazards (Wald Chi Square)|Cox Proportional Hazards model|Analysis was adjusted for ANCA type, disease stage at induction and induction regimen|Analysis performed using a Cox Proportional Hazards model with covariates treatment group, Actual ANCA type, Actual disease stage at induction and Actual induction regimen.|||2.59|0.44|0.884
92405633|NCT02683577|184701447|SUPERIORITY_OR_OTHER||Median difference|0.0|||=|1|TWO_SIDED|90.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||The Tmax was analysed using a non-parametric analysis (Walsh averages and appropriate quantile of the Wilcoxon signed rank test statistic). The median difference between the moderate HI group (Test) versus healthy control group (Reference) and the corresponding 90% CIs were calculated by Hodges-Lehmann estimation.||0.000|0.000|=1.0000
92405634|NCT02683577|184701448|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|2.294|||||TWO_SIDED|90.0|1.144|4.598|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of mild HI group (Test) versus healthy control group (Reference) for AUC(0-tlast) values for telotristat ethyl.||4.598|1.144|
92399568|NCT01183689|184690567|SUPERIORITY|2 degree of freedom F-test from analysis of variance to compare 2 year differences from baseline among the 3 arms of the study|Mean Difference (Net)|0.2|||<|0.001|TWO_SIDED|95.0|-0.31|0.71||2 degree of freedom F-test from analysis of variance to compare 2 year differences from baseline among the 3 arms of the study, not adjusted for multiple comparisons among endpoints|ANOVA|2 degree of freedom F-test from analysis of variance to compare 2 year differences from baseline among the 3 arms of the study||2 degree of freedom F-test from analysis of variance to compare 2 year differences from baseline among the 3 arms of the study||0.71|-0.31|<0.001
92343643|NCT02065557|184590283|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||< 0.001
92343644|NCT02065557|184590283|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||< 0.001
92343645|NCT02065557|184590283|SUPERIORITY|one-sample two-sided Chi-square test||||||0.382||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||0.382
92343646|NCT02065557|184590283|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||< 0.001
92343647|NCT02065557|184590283|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||< 0.001
92343648|NCT02065557|184590283|SUPERIORITY|one-sample two-sided Chi-square test||||||0.344||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||0.344
92399569|NCT01183689|184690567|SUPERIORITY||Mean Difference (Net)|0.88||||0.002|TWO_SIDED|95.0|0.37|1.39||This p-value is from a 2 degree freedom test of differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean changes from baseline to year 2 among the 3 groups.||1.39|0.37|0.002
92157943|NCT00162942|184202849|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.870
92217727|NCT00857532|184335953|SUPERIORITY_OR_OTHER|||||||0.0411||95.0|||||Spearman's Rank Order Correlation|||"P-value for Amyloid beta correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and amyloid beta."||||0.0411
92217728|NCT00857532|184335953|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||Spearman's Rank Order Correlation|||"P-value for Tau correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and tau."||||0.5800
92343649|NCT02065557|184590284|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343650|NCT02065557|184590284|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343651|NCT02065557|184590284|SUPERIORITY|one-sample two-sided Chi-square test||||||0.382||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.382
92343652|NCT02065557|184590284|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343653|NCT02065557|184590284|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343654|NCT02065557|184590284|SUPERIORITY|one-sample two-sided Chi-square test||||||0.344||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.344
92369353|NCT02993822|184643585|SUPERIORITY||Mean Difference (Final Values)|-7.7||||0.043|TWO_SIDED|95.0|-15.2|-0.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-0.3|-15.2|0.043
92157944|NCT00162942|184202850|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.350
92157945|NCT00162942|184202851|SUPERIORITY_OR_OTHER|||||||0.0632||95.0|||||Fisher Exact|||||||0.0632
92157946|NCT00162942|184202851|SUPERIORITY_OR_OTHER|||||||0.0504||95.0|||||Fisher Exact (Mid-P-Value)|||||||0.0504
92157947|NCT00162942|184202852|SUPERIORITY_OR_OTHER|||||||0.8265||95.0|||||Fisher Exact|||||||0.8265
92157948|NCT00162942|184202853|SUPERIORITY_OR_OTHER|||||||0.0676||95.0|||||Fisher Exact|||||||0.0676
92157949|NCT00162942|184202853|SUPERIORITY_OR_OTHER|||||||0.0506||95.0|||||Fisher Exact (Mid-P-Value)|||||||0.0506
92157950|NCT00162942|184202854|SUPERIORITY_OR_OTHER|||||||0.8721||95.0|||||Fisher Exact|||||||0.8721
92157951|NCT00162942|184202855|SUPERIORITY_OR_OTHER|||||||0.0289||95.0|||||Fisher Exact|||||||0.0289
92157952|NCT00162942|184202856|SUPERIORITY_OR_OTHER|||||||0.8618||95.0|||||Fisher Exact|||||||0.8618
92157953|NCT00783718|184202876|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.7|||<|0.0001|TWO_SIDED|95.0|11.6|31.7|||Cochran-Mantel-Haenszel|||The primary comparison of the Induction Phase was tested using the Cochran-Mantel-Haenszel (CMH) chi-square test at a 5% significance level, with stratification according to the stratification factors (concomitant use of oral corticosteroids and previous exposure to tumor necrosis factor alpha (TNFα) antagonists or concomitant immunomodulator \[6-mercaptopurine or azathioprine\] use).||31.7|11.6|< 0.0001
92157954|NCT00783718|184202877|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.1|||<|0.0001|TWO_SIDED|95.0|14.9|37.2||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||The Hochberg method was applied to control the overall Type I error rate at a 5% significance level. If both P-values were ≤ 0.05, both dose regimens were to be declared significant. If 1 of the P-values for the 2 dose comparisons was \> 0.05, the other P-value was to be tested at the 0.025 level and declared significant only if the P-value was ≤ 0.025. If neither dose was declared significant for the primary endpoint, no further testing was to be conducted.||37.2|14.9|< 0.0001
92343655|NCT02065557|184590285|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343656|NCT02065557|184590285|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|Chi-squared|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343657|NCT02065557|184590285|SUPERIORITY|one-sample two-sided Chi-square test||||||0.008||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|Chi-squared|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.008
92343658|NCT02065557|184590285|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343659|NCT02065557|184590285|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343660|NCT02065557|184590285|SUPERIORITY|one-sample two-sided Chi-square test||||||0.038||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.038
92343661|NCT02065557|184590286|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343662|NCT02065557|184590286|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343663|NCT02065557|184590286|SUPERIORITY|one-sample two-sided Chi-square test||||||0.382||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.382
92343664|NCT02065557|184590286|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92157955|NCT00783718|184202877|SUPERIORITY_OR_OTHER||Risk Difference (RD)|29.1|||<|0.0001|TWO_SIDED|95.0|17.9|40.4||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||The Hochberg method was applied to control the overall Type I error rate at a 5% significance level. If both P-values were ≤ 0.05, both dose regimens were to be declared significant. If 1 of the P-values for the 2 dose comparisons was \> 0.05, the other P-value was to be tested at the 0.025 level and declared significant only if the P-value was ≤ 0.025. If neither dose was declared significant for the primary endpoint, no further testing was to be conducted.||40.4|17.9|< 0.0001
92157956|NCT00783718|184202878|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.5||||0.0009|TWO_SIDED|95.0|4.7|18.3||P-value is based on the CMH chi-square test, with stratification according to: 1) concomitant use of oral corticosteroids (yes/no); and 2) previous exposure to TNFα antagonists or concomitant immunomodulator use (yes/no).|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially (closed sequential method). The first secondary endpoint was to be tested only if the primary comparison was significant and the second key secondary endpoint was to be tested only if the first secondary endpoint was significant for vedolizumab.||18.3|4.7|0.0009
92343665|NCT02065557|184590286|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343666|NCT02065557|184590286|SUPERIORITY|one-sample two-sided Chi-square test||||||0.344||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.344
92343667|NCT02065557|184590287|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343668|NCT02065557|184590287|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343669|NCT02065557|184590287|SUPERIORITY|one-sample two-sided Chi-square test||||||0.292||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.292
92343670|NCT02065557|184590287|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343671|NCT02065557|184590287|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
92343672|NCT02065557|184590287|SUPERIORITY|one-sample two-sided Chi-square test||||||0.292||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.292
92369354|NCT02993822|184643586|SUPERIORITY||Mean Difference (Final Values)|-11.5||||0.006|TWO_SIDED|95.0|-19.7|-3.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-3.3|-19.7|0.006
92399570|NCT01183689|184690568|SUPERIORITY||Mean Difference (Net)|-0.13|||<|0.001|TWO_SIDED|95.0|-0.71|0.45||2 degree of freedom F-test from analysis of variance|ANOVA|2 degree of freedom F-test from analysis of variance to compare mean differences among arms||2 degree F-test from analysis of variance applied to 2 year changes in scores from baseline||0.45|-0.71|<0.001
92217729|NCT00857532|184335953|SUPERIORITY_OR_OTHER|||||||0.8164||95.0|||||Spearman's Rank Order Correlation|||"P-value for Phospho-Tau correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and phospho-tau."||||0.8164
92217730|NCT02187471|184335971|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.191||0.4601|TWO_SIDED|95.0|-0.52|0.23|||Difference of means|||||0.23|-0.52|0.4601
92217731|NCT02187471|184335971|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.035|TWO_SIDED|95.0|-0.77|-0.03|||Difference of means|||||-0.03|-0.77|0.0350
92343673|NCT02065557|184590288|SUPERIORITY|one-sample two-sided Chi-square test||||||0.382||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.382
92343674|NCT02065557|184590288|SUPERIORITY|one-sample two-sided Chi-square test||||||1||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||1.000
92343675|NCT02065557|184590288|SUPERIORITY|one-sample two-sided Chi-square test||||||1||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||1.000
92343676|NCT02065557|184590288|SUPERIORITY|one-sample two-sided Chi-square test||||||0.344||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.344
92343677|NCT02065557|184590288|SUPERIORITY|one-sample two-sided Chi-square test||||||0.559||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.559
92343678|NCT02065557|184590288|SUPERIORITY|one-sample two-sided Chi-square test||||||0.815||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.815
92343679|NCT00250588|184590289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.05|TWO_SIDED|95.0|0.63|7.4||Bonferroni adjustment.|Mixed Models Analysis|Adjusted for child's age, race/ethnicity, Spanish, mother's education.||The primary effects of interest, condition and condition by time are fixed effects. PedsQL™ scores were analyzed as continuous normal outcomes with mixed effects regression models, which accounts for repeated measures over time for T2 and T3. Independent variables included baseline measure, time, asthma severity, condition, and condition by time interaction. We report the differences across groups in the adjusted mean changes over time.||7.4|0.63|0.05
92343680|NCT00250588|184590289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.1||||0.05|TWO_SIDED|95.0|-0.21|6.4||Bonferroni adjustment|Mixed Models Analysis|Adjusted for child's age, race/ethnicity, Spanish, mother's education.||The primary effects of interest, condition and condition by time are fixed effects. PedsQL™ scores were analyzed as continuous normal outcomes with mixed effects regression models, which accounts for repeated measures over time for T2 and T3. Independent variables included baseline measure, time, asthma severity, condition, and condition by time interaction. We report the differences across groups in the adjusted mean changes over time.||6.4|-0.21|0.05
92343681|NCT00250588|184590290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.21|TWO_SIDED|95.0|0.18|1.38|||Regression, Logistic|Adjustment for age, race/ethnicity, Spanish language and mother's education||||1.38|0.18|0.21
92343682|NCT00250588|184590290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.85|TWO_SIDED|95.0|0.53|2.83||adjustment for age, race/ethnicity, Spanish language and mother's education|Regression, Logistic|||||2.83|0.53|0.85
92343683|NCT00250588|184590291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.33||||0.011|TWO_SIDED|95.0|0.13|0.82|||Regression, Logistic|All analyses accounted for repeated measures and included the same terms in the model described previously.||Symptom frequency and utilization were analyzed using generalized linear mixed models (GLMM), with appropriate distribution and link functions. Nighttime symptoms is a dichotomous outcome and a logistic model was constructed.||0.82|0.13|0.011
92343684|NCT02737722|184590293|SUPERIORITY|||||||0.5152|||||||Fisher Exact|||Day 1 (Visit 2)||||0.5152
92343685|NCT02737722|184590293|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 1 (Visit 2)||||1.0000
92343686|NCT02737722|184590293|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 2 (Visit 3)||||1.0000
92343687|NCT02737722|184590293|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 2 (Visit 3)||||1.0000
92343688|NCT02737722|184590293|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 9 (Visit 4)||||1.0000
92343689|NCT02737722|184590293|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 9 (Visit 4)||||1.0000
92343690|NCT02737722|184590293|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 15 (Visit 5)||||1.0000
92343691|NCT02737722|184590293|SUPERIORITY|||||||0.3636|||||||Fisher Exact|||Day 15 (Visit 5)||||0.3636
92343692|NCT02737722|184590294|SUPERIORITY|||||||0.172|||||||Wilcoxon Rank Sum Test|||||||0.172
92343693|NCT02737722|184590294|SUPERIORITY|||||||0.365|||||||Wilcoxon Rank Sum Test|||||||0.365
92343694|NCT02737722|184590294|SUPERIORITY|||||||0.619|||||||Wilcoxon Rank Sum Test|||||||0.619
92343695|NCT02737722|184590295|SUPERIORITY|||||||0.432|||||||Wilcoxon Rank Sum Test|||||||0.432
92343696|NCT02737722|184590295|SUPERIORITY|||||||0.435|||||||Wilcoxon Rank Sum Test|||||||0.435
92343697|NCT02737722|184590295|SUPERIORITY|||||||0.715|||||||Wilcoxon Rank Sum Test|||||||0.715
92343698|NCT02737722|184590296|SUPERIORITY|||||||0.519|||||||Wilcoxon Rank Sum Test|||||||0.519
92343699|NCT02737722|184590296|SUPERIORITY|||||||0.519|||||||Wilcoxon Rank Sum Test|||||||0.519
92343700|NCT02737722|184590296|SUPERIORITY|||||||0.153|||||||Wilcoxon Rank Sum Test|||||||0.153
92343701|NCT02737722|184590297|SUPERIORITY|||||||0.464|||||||Wilcoxon Rank Sum Test|||||||0.464
92343702|NCT02737722|184590297|SUPERIORITY|||||||0.464|||||||Wilcoxon Rank Sum Test|||||||0.464
92343703|NCT02737722|184590297|SUPERIORITY|||||||0.465|||||||Wilcoxon Rank Sum Test|||||||0.465
92343704|NCT02737722|184590298|SUPERIORITY|||||||0.361|||||||Wilcoxon Rank Sum Test|||||||0.361
92343705|NCT02737722|184590298|SUPERIORITY|||||||0.519|||||||Wilcoxon Rank Sum Test|||||||0.519
92343706|NCT02737722|184590298|SUPERIORITY|||||||0.153|||||||Wilcoxon Rank Sum Test|||||||0.153
92343707|NCT02737722|184590299|SUPERIORITY|||||||0.465|||||||Wilcoxon Rank Sum Test|||||||0.465
92343708|NCT02737722|184590299|SUPERIORITY|||||||0.464|||||||Wilcoxon Rank Sum Test|||||||0.464
92343709|NCT02737722|184590299|SUPERIORITY|||||||0.465|||||||Wilcoxon Rank Sum Test|||||||0.465
92343710|NCT02737722|184590301|SUPERIORITY|||||||0.465|||||||Wilcoxon Rank Sum Test|||||||0.465
92217732|NCT02187471|184335971|SUPERIORITY||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.191||0.0001|TWO_SIDED|95.0|-1.12|-0.37|||Difference of means|||||-0.37|-1.12|0.0001
92343711|NCT02737722|184590301|SUPERIORITY|||||||0.464|||||||Wilcoxon Rank Sum Test|||||||0.464
92343712|NCT02737722|184590301|SUPERIORITY|||||||0.465|||||||Wilcoxon Rank Sum Test|||||||0.465
92343713|NCT02449434|184590302|OTHER|Using the presence or absence of severe erosive wear as the dependent variable, the unadjusted, sex-and-age- adjusted and fully adjusted associations of the included variables with erosive tooth wear were estimated using unconditional binary logistic regression and reported using odds ratios (OR).|Odds Ratio (OR)|2.25|||<|0.05|TWO_SIDED|95.0||||Only results from fully adjusted regression models will be deemed as significant|Regression, Logistic|Unconditional binary logistic regression and reported using odds ratios and 95% confidence intervals||A minimum sample size of 490 participants (245 in each group) was needed. This calculation assumed the proportion of adults with high dietary acid intake (3+ times/day) was 55% among cases and 40% among controls (expected odds ratio of 2.25), case- control ratio of 1-to-1, 90% statistical power and 95% significance level.||||<0.05
92343714|NCT01026493|184590306|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.95|TWO_SIDED|95.0|0.66|1.48|||Log Rank|Two-sided test|Reference level = Arm 1/BEV-NAIVE|||1.48|0.66|0.95
92343715|NCT01026493|184590306|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.93|TWO_SIDED|95.0|0.57|1.53|||Log Rank|Two-sided test|Reference level = Arm 1/BEV-FAILURE|||1.53|0.57|0.93
92343716|NCT02662569|184590308|SUPERIORITY||LS Mean Treatment Difference|-70.29|STANDARD_ERROR_OF_MEAN|2.61|<|0.0001|TWO_SIDED|95.0|-75.43|-65.16||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-65.16|-75.43|<0.0001
92343717|NCT02662569|184590308|SUPERIORITY||LS Mean Treatment Difference|-70.04|STANDARD_ERROR_OF_MEAN|2.35|<|0.0001|TWO_SIDED|95.0|-74.67|-65.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-65.41|-74.67|<0.0001
92343718|NCT02662569|184590309|SUPERIORITY||LS Mean Treatment Difference|-71.77|STANDARD_ERROR_OF_MEAN|2.97|<|0.0001|TWO_SIDED|95.0|-77.61|-65.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-65.93|-77.61|<0.0001
92343719|NCT02662569|184590309|SUPERIORITY||LS Mean Treatment Difference|-64.93|STANDARD_ERROR_OF_MEAN|2.56|<|0.0001|TWO_SIDED|95.0|-69.97|-59.89||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-59.89|-69.97|<0.0001
92343720|NCT02662569|184590310|SUPERIORITY||LS Mean Treatment Difference|-62.5|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-68.2|-56.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-56.9|-68.2|<0.0001
92343721|NCT02662569|184590310|SUPERIORITY||LS Mean Treatment Difference|-63.1|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|-68.4|-57.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-57.8|-68.4|<0.0001
92343722|NCT02662569|184590311|SUPERIORITY||LS Mean Treatment Difference|-63.6|STANDARD_ERROR_OF_MEAN|3.1|<|0.0001|TWO_SIDED|95.0|-69.7|-57.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-57.6|-69.7|<0.0001
92343723|NCT02662569|184590311|SUPERIORITY||LS Mean Treatment Difference|-58.8|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-64.3|-53.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-53.3|-64.3|<0.0001
92343724|NCT02662569|184590312|SUPERIORITY||LS Mean Treatment Difference|-60.9|STANDARD_ERROR_OF_MEAN|2.35|<|0.0001|TWO_SIDED|95.0|-65.51|-56.29||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-56.29|-65.51|<0.0001
92343725|NCT02662569|184590312|SUPERIORITY||LS Mean Treatment Difference|-59.4|STANDARD_ERROR_OF_MEAN|2.09|<|0.0001|TWO_SIDED|95.0|-63.52|-55.29||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-55.29|-63.52|<0.0001
92343726|NCT02662569|184590313|SUPERIORITY||LS Mean Treatment Difference|-61.64|STANDARD_ERROR_OF_MEAN|2.64|<|0.0001|TWO_SIDED|95.0|-66.82|-56.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-56.45|-66.82|<0.0001
92343727|NCT02662569|184590313|SUPERIORITY||LS Mean Treatment Difference|-54.22|STANDARD_ERROR_OF_MEAN|2.28|<|0.0001|TWO_SIDED|95.0|-58.7|-49.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-49.74|-58.70|<0.0001
92343728|NCT02662569|184590314|SUPERIORITY||LS Mean Treatment Difference|-56.93|STANDARD_ERROR_OF_MEAN|2.03|<|0.0001|TWO_SIDED|95.0|-60.93|-52.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-52.93|-60.93|<0.0001
92343729|NCT02662569|184590314|SUPERIORITY||LS Mean Treatment Difference|-54.85|STANDARD_ERROR_OF_MEAN|1.87|<|0.0001|TWO_SIDED|95.0|-58.52|-51.18||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-51.18|-58.52|<0.0001
92343730|NCT02662569|184590315|SUPERIORITY||LS Mean Treatment Difference|-57.06|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001|TWO_SIDED|95.0|-61.59|-52.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-52.54|-61.59|<0.0001
92343731|NCT02662569|184590315|SUPERIORITY||LS Mean Treatment Difference|-49.42|STANDARD_ERROR_OF_MEAN|1.98|<|0.0001|TWO_SIDED|95.0|-53.31|-45.53||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-45.53|-53.31|<0.0001
92343732|NCT02662569|184590316|SUPERIORITY||LS Mean Treatment Difference|-41.53|STANDARD_ERROR_OF_MEAN|1.74|<|0.0001|TWO_SIDED|95.0|-44.95|-38.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-38.10|-44.95|<0.0001
92343733|NCT02662569|184590316|SUPERIORITY||LS Mean Treatment Difference|-39.5|STANDARD_ERROR_OF_MEAN|1.51|<|0.0001|TWO_SIDED|95.0|-42.47|-36.53||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-36.53|-42.47|<0.0001
92343734|NCT02662569|184590317|SUPERIORITY||LS Mean Treatment Difference|-42.22|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-46.02|-38.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-38.42|-46.02|<0.0001
92343735|NCT02662569|184590317|SUPERIORITY||LS Mean Treatment Difference|-35.89|STANDARD_ERROR_OF_MEAN|1.64|<|0.0001|TWO_SIDED|95.0|-39.12|-32.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-32.67|-39.12|<0.0001
92343736|NCT02662569|184590318|SUPERIORITY||LS Mean Treatment Difference|-44.09|STANDARD_ERROR_OF_MEAN|1.81|<|0.0001|TWO_SIDED|95.0|-47.64|-40.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-40.54|-47.64|<0.0001
92343737|NCT02662569|184590318|SUPERIORITY||LS Mean Treatment Difference|-43.67|STANDARD_ERROR_OF_MEAN|1.64|<|0.0001|TWO_SIDED|95.0|-46.9|-40.44||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-40.44|-46.90|<0.0001
92343738|NCT02662569|184590319|SUPERIORITY||LS Mean Treatment Difference|-43.94|STANDARD_ERROR_OF_MEAN|2.02|<|0.0001|TWO_SIDED|95.0|-47.9|-39.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-39.97|-47.90|<0.0001
92343739|NCT02662569|184590319|SUPERIORITY||LS Mean Treatment Difference|-40.56|STANDARD_ERROR_OF_MEAN|1.79|<|0.0001|TWO_SIDED|95.0|-44.08|-37.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-37.04|-44.08|<0.0001
92343740|NCT02662569|184590320|SUPERIORITY||LS Mean Treatment Difference|-58.2|STANDARD_ERROR_OF_MEAN|2.01|<|0.0001|TWO_SIDED|95.0|-62.15|-54.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-54.25|-62.15|<0.0001
92343741|NCT02662569|184590320|SUPERIORITY||LS Mean Treatment Difference|-56.73|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-60.53|-52.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-52.93|-60.53|<0.0001
92343742|NCT02662569|184590321|SUPERIORITY||LS Mean Treatment Difference|-58.21|STANDARD_ERROR_OF_MEAN|2.23|<|0.0001|TWO_SIDED|95.0|-62.59|-53.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-53.84|-62.59|<0.0001
92343743|NCT02662569|184590321|SUPERIORITY||LS Mean Treatment Difference|-51.7|STANDARD_ERROR_OF_MEAN|2.09|<|0.0001|TWO_SIDED|95.0|-55.81|-47.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-47.59|-55.81|<0.0001
92343744|NCT02662569|184590322|SUPERIORITY||Treatment Difference|68.4|||<|0.0001|TWO_SIDED|95.0|60.4|74.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by entry statin therapy and geographic region.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||74.8|60.4|<0.0001
92343745|NCT02662569|184590322|SUPERIORITY||Treatment Difference|71.9|||<|0.0001|TWO_SIDED|95.0|64.1|77.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by entry statin therapy and geographic region.|Treatment difference = Evolocumab QM - Placebo QM|||77.9|64.1|<0.0001
92343746|NCT02662569|184590323|SUPERIORITY||Treatment Difference|67.2|||<|0.0001|TWO_SIDED|95.0|58.9|73.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by entry statin therapy and geographic region.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||73.9|58.9|<0.0001
92343747|NCT02662569|184590323|SUPERIORITY||Treatment Difference|68.8|||<|0.0001|TWO_SIDED|95.0|60.6|75.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by entry statin therapy and geographic region.|Treatment difference = Evolocumab QM - Placebo QM|||75.3|60.6|<0.0001
92343748|NCT02662569|184590324|SUPERIORITY||LS Mean Treatment Difference|-55.52|STANDARD_ERROR_OF_MEAN|18.85|<|0.0001|TWO_SIDED|95.0|-92.64|-18.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-18.40|-92.64|<0.0001
92343749|NCT02662569|184590324|SUPERIORITY||LS Mean Treatment Difference|-50.77|STANDARD_ERROR_OF_MEAN|6.63|<|0.0001|TWO_SIDED|95.0|-63.82|-37.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-37.72|-63.82|<0.0001
92343750|NCT02662569|184590325|SUPERIORITY||LS Mean Treatment Difference|-62.46|STANDARD_ERROR_OF_MEAN|24.64|<|0.0001|TWO_SIDED|95.0|-110.89|-14.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-14.03|-110.89|<0.0001
92343751|NCT02662569|184590325|SUPERIORITY||LS Mean Treatment Difference|-45.32|STANDARD_ERROR_OF_MEAN|8.42|<|0.0001|TWO_SIDED|95.0|-61.87|-28.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-28.77|-61.87|<0.0001
92217733|NCT02187471|184335971|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.193||0.0019|TWO_SIDED|95.0|0.22|0.98|||Difference of means|||||0.98|0.22|0.0019
92217734|NCT02187471|184335971|SUPERIORITY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.192||0.0761|TWO_SIDED|95.0|-0.04|0.72|||Difference of means|||||0.72|-0.04|0.0761
92217735|NCT02187471|184335973|SUPERIORITY||Mean Difference (Final Values)|-1.59|STANDARD_ERROR_OF_MEAN|1.67||0.3407|TWO_SIDED|95.0|-4.86|1.68|||Difference of means|||||1.68|-4.86|0.3407
92217736|NCT02187471|184335973|SUPERIORITY||Mean Difference (Final Values)|-5.42|STANDARD_ERROR_OF_MEAN|1.669||0.0012|TWO_SIDED|95.0|-8.69|-2.15|||Difference of means|||||-2.15|-8.69|0.0012
92157957|NCT00783718|184202879|SUPERIORITY_OR_OTHER||Risk Difference (RD)|16.1||||0.0012||95.0|6.4|25.9||P-value is based on the CMH chi-square test, with stratification according to: 1) concomitant use of oral corticosteroids (yes/no); and 2) previous exposure to TNFα antagonists or concomitant immunomodulator use (yes/no).|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially (closed sequential method). The first secondary endpoint was to be tested only if the primary comparison was significant and the second key secondary endpoint was to be tested only if the first secondary endpoint was significant for vedolizumab.||25.9|6.4|0.0012
92157958|NCT00783718|184202880|SUPERIORITY_OR_OTHER||Risk Difference (RD)|32.8|||<|0.0001|TWO_SIDED|95.0|20.8|44.7||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||44.7|20.8|< 0.0001
92217737|NCT02187471|184335973|SUPERIORITY||Mean Difference (Final Values)|-4.39|STANDARD_ERROR_OF_MEAN|1.665||0.0083|TWO_SIDED|95.0|-7.66|-1.13|||Difference of means|||||-1.13|-7.66|0.0083
92343752|NCT02662569|184590326|SUPERIORITY||LS Mean Treatment Difference|-18.02|STANDARD_ERROR_OF_MEAN|4.01||0.0002|TWO_SIDED|95.0|-25.89|-10.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-10.14|-25.89|0.0002
92343753|NCT02662569|184590326|SUPERIORITY||LS Mean Treatment Difference|-15.63|STANDARD_ERROR_OF_MEAN|3.08|<|0.0001|TWO_SIDED|95.0|-21.69|-9.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-9.58|-21.69|<0.0001
92343754|NCT02662569|184590327|SUPERIORITY||LS Mean Treatment Difference|-16.41|STANDARD_ERROR_OF_MEAN|14.18||0.0002|TWO_SIDED|95.0|-24.63|-8.19||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-8.19|-24.63|0.0002
92343755|NCT02662569|184590327|SUPERIORITY||LS Mean Treatment Difference|-12.31|STANDARD_ERROR_OF_MEAN|3.28|<|0.0001|TWO_SIDED|95.0|-18.76|-5.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-5.86|-18.76|<0.0001
92343756|NCT02662569|184590328|SUPERIORITY||LS Mean Treatment Difference|6.34|STANDARD_ERROR_OF_MEAN|1.52||0.0003|TWO_SIDED|95.0|3.36|9.33||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||9.33|3.36|0.0003
92343757|NCT02662569|184590328|SUPERIORITY||LS Mean Treatment Difference|7.87|STANDARD_ERROR_OF_MEAN|1.41|<|0.0001|TWO_SIDED|95.0|5.1|10.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||10.65|5.10|<0.0001
92343758|NCT02662569|184590329|SUPERIORITY||LS Mean Treatment Difference|5.88|STANDARD_ERROR_OF_MEAN|1.72||0.0003|TWO_SIDED|95.0|2.49|9.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||9.27|2.49|0.0003
92343759|NCT02662569|184590329|SUPERIORITY||LS Mean Treatment Difference|8.14|STANDARD_ERROR_OF_MEAN|1.58|<|0.0001|TWO_SIDED|95.0|5.03|11.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||11.25|5.03|<0.0001
92343760|NCT02662569|184590330|SUPERIORITY||LS Mean Treatment Difference|-27.18|STANDARD_ERROR_OF_MEAN|3.57|<|0.0001|TWO_SIDED|95.0|-34.2|-20.17||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-20.17|-34.20|<0.0001
92343761|NCT02662569|184590330|SUPERIORITY||LS Mean Treatment Difference|-24.01|STANDARD_ERROR_OF_MEAN|2.99|<|0.0001|TWO_SIDED|95.0|-29.88|-18.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-18.14|-29.88|<0.0001
92343762|NCT03154086|184590397|OTHER||Ratio|0.8||||0.204|TWO_SIDED|90.0|0.594|1.077|||ANOVA|||||1.077|0.5940|0.204
92343763|NCT03154086|184590398|OTHER||Ratio|0.7325||||0.118|TWO_SIDED|90.0|0.5267|1.019|||ANOVA|||||1.019|0.5267|0.118
92217738|NCT02187471|184335973|SUPERIORITY||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|1.677||0.0946|TWO_SIDED|95.0|-0.48|6.09|||Difference of means|||||6.09|-0.48|0.0946
92217739|NCT02187471|184335973|SUPERIORITY||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|1.669||0.5384|TWO_SIDED|95.0|-4.3|2.24|||Difference of means|||||2.24|-4.30|0.5384
92217740|NCT02187471|184335975|SUPERIORITY||Difference in least squares means|-0.9|STANDARD_ERROR_OF_MEAN|0.3||0.003|TWO_SIDED|95.0|-1.5|-0.3|||ANCOVA|||||-0.3|-1.5|0.0030
92343764|NCT03154086|184590399|OTHER||Ratio|0.6502||||0.157|TWO_SIDED|90.0|0.3876|1.091|||ANOVA|||||1.091|0.3876|0.157
92343765|NCT03555149|184590434|OTHER||Difference in Overall Response Rate|6.67|||||TWO_SIDED|95.0|-11.92|25.25|||||The difference in ORR was calculated as the experimental arm (Atezolizumab + Regorafenib) subtracted from the control arm (Regorafenib).|||25.25|-11.92|
92343766|NCT03555149|184590434|OTHER||Difference in Overall Response Rate|6.67|||||TWO_SIDED|95.0|-11.92|25.25|||||The difference in ORR was calculated as the experimental arm (Atezolizumab + Regorafenib + AB928) subtracted from the control arm (Regorafenib).|||25.25|-11.92|
92343767|NCT03555149|184590435|OTHER||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|0.67|2.73||||||||2.73|0.67|
92343768|NCT03555149|184590435|OTHER||Hazard Ratio (HR)|2.3|||||TWO_SIDED|95.0|1.08|4.88||||||||4.88|1.08|
92343769|NCT03555149|184590435|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.29|2.18||||||||2.18|0.29|
92343770|NCT03555149|184590435|OTHER||Hazard Ratio (HR)|2.0|||||TWO_SIDED|95.0|0.64|6.24||||||||6.24|0.64|
92343771|NCT03555149|184590435|OTHER||Hazard Ratio (HR)|1.74|||||TWO_SIDED|95.0|0.83|3.63||||||||3.63|0.83|
92399571|NCT01183689|184690568|SUPERIORITY||Median Difference (Net)|1.4|||<|0.001|TWO_SIDED|95.0|0.82|1.98||This p-value is from the omnibus 2 degree of freedom test for mean differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean changes from baseline to 2 years among the 3 groups.||1.98|0.82|<0.001
92399572|NCT01183689|184690569|SUPERIORITY||Mean Difference (Net)|-0.08||||0.24|TWO_SIDED|95.0|-0.24|0.09||This p-value is from a 2 degree of freedom test for differences among the 3 arms.|ANOVA|2 degree of freedom test from analysis of variance to assess mean differences among the 3 arms||2 degree of freedom F-test from analysis of variance to compare 2 year differences in general health index values among the 3 arms||0.09|-0.24|0.24
92343772|NCT03555149|184590435|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.39|1.63||||||||1.63|0.39|
92343773|NCT03555149|184590435|OTHER||Hazard Ratio (HR)|5.64|||||TWO_SIDED|95.0|0.94|33.82||||||||33.82|0.94|
92343774|NCT03555149|184590436|OTHER|Kaplan-Meier|Hazard Ratio (HR)|1.44|||||TWO_SIDED|95.0|0.71|2.93||||||Atezolizumab + Imprime PGG + Bevacizumab vs. Regorafenib (Control) Hazard Ratio for OS||2.93|0.71|
92343775|NCT03555149|184590436|OTHER|Kaplan-Meier|Hazard Ratio (HR)|1.38|||||TWO_SIDED|95.0|0.68|2.81||||||Atezolizumab + Isatuximab vs. Regorafenib (Control) Hazard Ratio for OS||2.81|0.68|
92343776|NCT03555149|184590436|OTHER|Kaplan-Meier|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.3|2.72||||||Atezolizumab + Selicrelumab + Bevacizumab vs. Regorafenib (Control) Hazard Ratio for OS||2.72|0.30|
92343777|NCT03555149|184590436|OTHER|Kaplan-Meier|Hazard Ratio (HR)|1.27|||||TWO_SIDED|95.0|0.42|3.84||||||Atezolizumab + Idasanutlin vs. Regorafenib (Control) Hazard Ratio for OS||3.84|0.42|
92343778|NCT03555149|184590436|OTHER|Kaplan-Meier|Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.39|1.88||||||Atezolizumab + Regorafenib vs. Regorafenib (Control) Hazard Ratio for OS||1.88|0.39|
92343779|NCT03555149|184590436|OTHER|Kaplan-Meier|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.43|1.96||||||Atezolizumab + Regorafenib + AB928 vs. Regorafenib (Control) Hazard Ratio for OS||1.96|0.43|
92343780|NCT03555149|184590436|OTHER|Kaplan-Meier|Hazard Ratio (HR)|2.88|||||TWO_SIDED|95.0|0.33|24.85||||||Atezolizumab + LOAd703 vs. Regorafenib (Control) Hazard Ratio for OS||24.85|0.33|
92343781|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|15.79|||||TWO_SIDED|95.0|-0.61|32.19||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Imprime PGG + Bevacizumab vs. Regorafenib (Control) arms||32.19|-0.61|
92343782|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-16.49|||||TWO_SIDED|95.0|-49.78|16.79||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Imprime PGG + Bevacizumab vs. Regorafenib (Control) arms||16.79|-49.78|
92343783|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-14.45|||||TWO_SIDED|95.0|-44.37|15.47||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Imprime PGG + Bevacizumab vs. Regorafenib (Control) arms||15.47|-44.37|
92343784|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-10.56|||||TWO_SIDED|95.0|-32.25|11.14||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Imprime PGG + Bevacizumab vs. Regorafenib (Control) arms||11.14|-32.25|
92217741|NCT02187471|184335975|SUPERIORITY||Difference in least squares means|-1.7|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.3|-1.1|||ANCOVA|||||-1.1|-2.3|<0.0001
92217742|NCT02187471|184335975|SUPERIORITY||Difference in least squares means|-1.2|STANDARD_ERROR_OF_MEAN|0.3||0.0001|TWO_SIDED|95.0|-1.7|-0.6|||ANCOVA|||||-0.6|-1.7|0.0001
92343785|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-10.88|||||TWO_SIDED|95.0|-38.62|16.87||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Isatuximab vs. Regorafenib (Control) arms||16.87|-38.62|
92343786|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-23.16|||||TWO_SIDED|95.0|-56.1|9.78||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Isatuximab vs. Regorafenib (Control) arms||9.78|-56.10|
92343787|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-7.78|||||TWO_SIDED|95.0|-39.19|23.62||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Isatuximab vs. Regorafenib (Control) arms||23.62|-39.19|
92343788|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|2.78|||||TWO_SIDED|95.0|-24.08|29.63||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Isatuximab vs. Regorafenib (Control) arms||29.63|-24.08|
92343789|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|15.79|||||TWO_SIDED|95.0|-0.61|32.19||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Selicrelumab + Bevacizumab vs. Regorafenib (Control) arms||32.19|-0.61|
92343790|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|16.84|||||TWO_SIDED|95.0|-24.39|58.07||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Selicrelumab + Bevacizumab vs. Regorafenib (Control) arms||58.07|-24.39|
92343791|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|18.88|||||TWO_SIDED|95.0|-34.53|72.3||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Selicrelumab + Bevacizumab vs. Regorafenib (Control) arms||72.30|-34.53|
92343792|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|9.44|||||TWO_SIDED|95.0|-38.19|57.08||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Selicrelumab + Bevacizumab vs. Regorafenib (Control) arms||57.08|-38.19|
92343793|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-9.21|||||TWO_SIDED|95.0|-54.7|36.28||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Idasanutlin vs. Regorafenib (Control) arms||36.28|-54.70|
92157959|NCT00783718|184202880|SUPERIORITY_OR_OTHER||Risk Difference (RD)|28.5|||<|0.0001|TWO_SIDED|95.0|16.7|40.3||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||40.3|16.7|< 0.0001
92343794|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-13.16|||||TWO_SIDED|95.0|-66.74|40.43||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Idasanutlin vs. Regorafenib (Control) arms||40.43|-66.74|
92343795|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-9.45|||||TWO_SIDED|95.0|-57.26|38.36||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Idasanutlin vs. Regorafenib (Control) arms||38.36|-57.26|
92343796|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|7.78|||||TWO_SIDED|95.0|-38.18|53.73||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Idasanutlin vs. Regorafenib (Control) arms||53.73|-38.18|
92343797|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-5.24|||||TWO_SIDED|95.0|-32.03|21.56||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Regorafenib vs. Regorafenib (Control) arms||21.56|-32.03|
92343798|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|8.64|||||TWO_SIDED|95.0|-23.33|40.6||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Regorafenib vs. Regorafenib (Control) arms||40.60|-23.33|
92217743|NCT02187471|184335975|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3562|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||||0.9|-0.3|0.3562
92343799|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|5.44|||||TWO_SIDED|95.0|-29.19|40.06||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Regorafenib vs. Regorafenib (Control) arms||40.06|-29.19|
92343800|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|6.71|||||TWO_SIDED|95.0|-22.64|36.06||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Regorafenib vs. Regorafenib (Control) arms||36.06|-22.64|
92343801|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|2.46|||||TWO_SIDED|95.0|-21.31|26.22||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Regorafenib + AB928 vs. Regorafenib (Control) arms||26.22|-21.31|
92343802|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|10.18|||||TWO_SIDED|95.0|-20.99|41.34||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Regorafenib + AB928 vs. Regorafenib (Control) arms||41.34|-20.99|
92343803|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|-1.12|||||TWO_SIDED|95.0|-33.59|31.36||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Regorafenib + AB928 vs. Regorafenib (Control) arms||31.36|-33.59|
92343804|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|9.44|||||TWO_SIDED|95.0|-19.06|37.94||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Regorafenib + AB928 vs. Regorafenib (Control) arms||37.94|-19.06|
92343805|NCT03555149|184590437|OTHER||Difference in OS Event-Free Rate|15.79|||||TWO_SIDED|95.0|-0.61|32.19||||||Difference in OS event-free rate at 3 months for the Atezolizumab +LOAd703 vs. Regorafenib (Control) arms||32.19|-0.61|
92343806|NCT02965924|184590441|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92343807|NCT04465422|184590450|SUPERIORITY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|0.97|<|0.001|TWO_SIDED|95.0|1.65|5.55|||Mixed Models Analysis|||Statistical Anaiysis 1 is according to Occupational Performance History Interview - II (OPHI-II) total score.||5.55|1.65|<0.001
92343808|NCT04465422|184590450|SUPERIORITY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|0.53||0.019|TWO_SIDED|95.0|0.23|2.37|||Mixed Models Analysis|||Statistical Analysis 2 is based on Occupational Identity(range 11\~44；higher scores indicates better performance), a sub-domain of OPHI-II. The Occupational Identity scale is designed to measure the degree to which a client has internalized a positive occupational identity (i.e., has values, interests, and confidence; sees self in various occupational roles; has an image of the kind of life desired)||2.37|0.23|0.019
92343809|NCT04465422|184590450|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.43||0.006|TWO_SIDED|95.0|0.38|2.11|||Mixed Models Analysis|||Statistical Analysis 3 is based on Occupational Competence(range 9\~36；higher scores indicate better performance), a sub-domain of OPHI-II. The Occupational Competence scale is designed to measure the degree to which a client is able to sustain a pattern of occupational behavior that is productive and satisfying.||2.11|0.38|0.006
92343810|NCT04465422|184590450|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.38||0.136|TWO_SIDED|95.0|-0.19|1.35|||Mixed Models Analysis|||Statistical Analysis 4 is based on Occupational Behavior Settings(range 9\~36；higher scores indicate greater performance), a sub-domain of OPHI-II. The Occupational Behavior Settings scale addresses the impact of the environment on the person's occupational life.||1.35|-0.19|0.136
92343811|NCT04465422|184590451|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.53||0.592|TWO_SIDED|95.0|-3.9|2.25|||Mixed Models Analysis|||Statistical Analysis 1 is based on Lawton Instrumental Activities Daily Living (range 0\~23；the higher scores indicate greater performance) total scores.||2.25|-3.90|0.592
92343812|NCT04465422|184590451|SUPERIORITY||Mean Difference (Final Values)|4.1|STANDARD_ERROR_OF_MEAN|2.37||0.302|TWO_SIDED|95.0|-2.29|7.23|||Mixed Models Analysis|||Statistical Analysis 2 is based on Comprehensive Occupational Therapy Evaluation Scale (range 20\~100；the higher scores indicate greater performance) total scores.||7.23|-2.29|0.302
92399573|NCT01183689|184690569|SUPERIORITY||Mean Difference (Net)|-0.15||||0.24|TWO_SIDED|95.0|-0.32|0.02||This p-value is from the 2 degree of freedom test of differences among the 3 arms.|ANOVA|||Analysis of variance was used to compare differences in changes from baseline to 2 years among the three arms.||0.02|-0.32|0.24
92399574|NCT01183689|184690570|SUPERIORITY||Mean Difference (Net)|1.52||||0.16|TWO_SIDED|95.0|-0.77|3.81||This p-value is from a 2 degree of freedom F-test to compare the 3 arms using analysis of variance.|ANOVA|||Mean differences between baseline and year 2 were compared among the 3 arms using analysis of variance.||3.81|-0.77|0.16
92343813|NCT04465422|184590451|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|3.25||0.931|TWO_SIDED|95.0|-6.25|6.82|||Mixed Models Analysis|||Statistical Analysis 3 is based on Personal and Social Performance scale (range 1\~100；the higher scores indicate greater performance) total scores.||6.82|-6.25|0.931
92343814|NCT04465422|184590451|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.85||0.981|TWO_SIDED|95.0|-1.73|1.69|||Mixed Models Analysis|||Statistical Analysis 4 is based on Canadian Occupational Performance Measure (range 1\~10；the higher scores indicate greater performance) total scores.||1.69|-1.73|0.981
92343815|NCT02175121|184590537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-40.33|STANDARD_ERROR_OF_MEAN|6.75|<|0.0001|TWO_SIDED|90.0|-51.49|-29.16||Two-sided p-values are from analysis of Covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values is derived from the ANCOVA model.||Placebo was the Reference and each of the active doses was the Test.||-29.16|-51.49|<0.0001
92343816|NCT02175121|184590537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-45.53|STANDARD_ERROR_OF_MEAN|6.98|<|0.0001|TWO_SIDED|90.0|-57.08|-33.99||Two-sided p-values are from analysis of Covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values is derived from the ANCOVA model.||Placebo was the Reference and each of the active doses was the Test.||-33.99|-57.08|<0.0001
92343817|NCT02175121|184590537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-68.79|STANDARD_ERROR_OF_MEAN|6.73|<|0.0001|TWO_SIDED|90.0|-79.92|-57.65||Two-sided p-values are from analysis of Covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values is derived from the ANCOVA model.||Placebo was the Reference and each of the active doses was the Test.||-57.65|-79.92|<0.0001
92343818|NCT02175121|184590537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-68.12|STANDARD_ERROR_OF_MEAN|6.86|<|0.0001|TWO_SIDED|90.0|-79.46|-56.78||Two-sided p-values are from analysis of Covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values is derived from the ANCOVA model.||Placebo was the Reference and each of the active doses was the Test.||-56.78|-79.46|<0.0001
92343819|NCT02175121|184590538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.25|STANDARD_ERROR_OF_MEAN|5.83||0.006|TWO_SIDED|90.0|-25.9|-6.6||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||-6.60|-25.90|0.0060
92343820|NCT02175121|184590538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.98|STANDARD_ERROR_OF_MEAN|5.94|<|0.0001|TWO_SIDED|90.0|-36.81|-17.15||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||-17.15|-36.81|<0.0001
92343821|NCT02175121|184590538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-39.6|STANDARD_ERROR_OF_MEAN|5.8|<|0.0001|TWO_SIDED|90.0|-49.2|-30.0||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||-30.00|-49.20|<0.0001
92343822|NCT02175121|184590538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.72|STANDARD_ERROR_OF_MEAN|5.89|<|0.0001|TWO_SIDED|90.0|-56.46|-36.98||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||-36.98|-56.46|<0.0001
92343823|NCT02175121|184590538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-27.07|STANDARD_ERROR_OF_MEAN|5.33|<|0.0001|TWO_SIDED|90.0|-35.89|-18.25||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||-18.25|-35.89|<0.0001
92343824|NCT02175121|184590538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-36.18|STANDARD_ERROR_OF_MEAN|5.46|<|0.0001|TWO_SIDED|90.0|-45.21|-27.14||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||-27.14|-45.21|<0.0001
92343825|NCT02175121|184590538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-51.47|STANDARD_ERROR_OF_MEAN|5.33|<|0.0001|TWO_SIDED|90.0|-60.29|-42.65||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||-42.65|-60.29|<0.0001
92343826|NCT02175121|184590538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-57.17|STANDARD_ERROR_OF_MEAN|5.41|<|0.0001|TWO_SIDED|90.0|-66.12|-48.22||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||-48.22|-66.12|<0.0001
92343827|NCT02175121|184590539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.86|STANDARD_ERROR_OF_MEAN|10.13||0.2063|TWO_SIDED|90.0|-3.91|29.62||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||29.62|-3.91|0.2063
92343828|NCT02175121|184590539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.03|STANDARD_ERROR_OF_MEAN|10.33||0.2087|TWO_SIDED|90.0|-4.05|30.11||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||30.11|-4.05|0.2087
92399575|NCT01183689|184690570|SUPERIORITY||Mean Difference (Net)|2.21||||0.16|TWO_SIDED|95.0|-0.09|4.51||This p-value is from a 2 degree of freedom F test.|ANOVA|||Analysis of variance was used to compared mean differences among the 3 groups.||4.51|-0.09|0.16
92399576|NCT01183689|184690571|SUPERIORITY||Mean Difference (Net)|0.17||||0.75|TWO_SIDED|95.0|-3.89|4.23||This p-value is from a 2 degree of freedom F-test from analysis of variance.|ANOVA|||Mean changes from baseline to year 2 among the 3 arms were compared using analysis of variance.||4.23|-3.89|0.75
92343829|NCT02175121|184590539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.6|STANDARD_ERROR_OF_MEAN|10.1||0.5802|TWO_SIDED|90.0|-11.11|22.3||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||22.30|-11.11|0.5802
92343830|NCT02175121|184590539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.64|STANDARD_ERROR_OF_MEAN|10.25||0.1553|TWO_SIDED|90.0|-2.32|31.59||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||31.59|-2.32|0.1553
92157960|NCT00783718|184202881|SUPERIORITY_OR_OTHER||Risk Difference (RD)|32.0|||<|0.0001|TWO_SIDED|95.0|20.3|43.8||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||43.8|20.3|< 0.0001
92157961|NCT00783718|184202881|SUPERIORITY_OR_OTHER||Risk Difference (RD)|36.3|||<|0.0001|TWO_SIDED|95.0|24.4|48.3||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||48.3|24.4|< 0.0001
92157962|NCT00783718|184202882|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.8||||0.0079|TWO_SIDED|95.0|3.1|20.5||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||20.5|3.1|0.0079
92157963|NCT00783718|184202882|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.3||||0.0009|TWO_SIDED|95.0|6.2|24.4||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||24.4|6.2|0.0009
92157964|NCT00783718|184202883|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.6||||0.012|TWO_SIDED|95.0|3.9|31.3||P-value based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||31.3|3.9|0.0120
92157965|NCT00783718|184202883|SUPERIORITY_OR_OTHER||Risk Difference (RD)|31.4|||<|0.0001|TWO_SIDED|95.0|16.6|46.2||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||46.2|16.6|< 0.0001
92157966|NCT01253980|184202906|SUPERIORITY_OR_OTHER||Relative risk|0.6|||>|0.5|TWO_SIDED|95.0|0.11|3.37|||Fisher Exact|||||3.37|0.11|>0.50
92157967|NCT01027871|184202923|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.17||||0.433|TWO_SIDED|90.0|-0.18|0.52||The statistical significance level is 0.10.|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.52|-0.18|0.433
92157968|NCT01027871|184202924|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.2||||0.388|TWO_SIDED|90.0|-0.59|0.19||The statistical significance level is 0.10.|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.19|-0.59|0.388
92157969|NCT01027871|184202925|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.09||||0.197|TWO_SIDED|90.0|-0.21|0.03||The statistical significance level is 0.10.|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.03|-0.21|0.197
92343831|NCT02175121|184590539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2|STANDARD_ERROR_OF_MEAN|7.66||0.7741|TWO_SIDED|90.0|-14.87|10.47||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||10.47|-14.87|0.7741
92343832|NCT02175121|184590539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|7.78||0.9588|TWO_SIDED|90.0|-13.28|12.47||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||12.47|-13.28|0.9588
92343833|NCT02175121|184590539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.42|STANDARD_ERROR_OF_MEAN|7.61||0.8523|TWO_SIDED|90.0|-11.17|14.01||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||14.01|-11.17|0.8523
92343834|NCT02175121|184590539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.3|STANDARD_ERROR_OF_MEAN|7.73||0.4166|TWO_SIDED|90.0|-6.49|19.08||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||19.08|-6.49|0.4166
92343835|NCT02175121|184590540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|3.22||0.8516|TWO_SIDED|90.0|-4.73|5.93||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||5.93|-4.73|0.8516
92343836|NCT02175121|184590540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.97|STANDARD_ERROR_OF_MEAN|3.29||0.2303|TWO_SIDED|90.0|-1.48|9.42||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||9.42|-1.48|0.2303
92343837|NCT02175121|184590540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.19|STANDARD_ERROR_OF_MEAN|3.22||0.7132|TWO_SIDED|90.0|-4.15|6.52||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||6.52|-4.15|0.7132
92343838|NCT02175121|184590540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.74|STANDARD_ERROR_OF_MEAN|3.28||0.0034|TWO_SIDED|90.0|4.32|15.16||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||15.16|4.32|0.0034
92343839|NCT02175121|184590540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.99|STANDARD_ERROR_OF_MEAN|2.96||0.7394|TWO_SIDED|90.0|-5.89|3.92||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||3.92|-5.89|0.7394
92217744|NCT02187471|184335975|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.0862|TWO_SIDED|95.0|-1.1|0.1|||ANCOVA|||||0.1|-1.1|0.0862
92343840|NCT02175121|184590540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.52|STANDARD_ERROR_OF_MEAN|3.03||0.8652|TWO_SIDED|90.0|-4.5|5.53||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||5.53|-4.50|0.8652
92343841|NCT02175121|184590540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.61|STANDARD_ERROR_OF_MEAN|2.97||0.837|TWO_SIDED|90.0|-4.3|5.52||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||5.52|-4.30|0.8370
92343842|NCT02175121|184590540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.59|STANDARD_ERROR_OF_MEAN|3.01||0.0018|TWO_SIDED|90.0|4.6|14.58||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||14.58|4.60|0.0018
92343843|NCT02175121|184590541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.12|STANDARD_ERROR_OF_MEAN|4.25||0.6182|TWO_SIDED|90.0|-9.15|4.91||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||4.91|-9.15|0.6182
92343844|NCT02175121|184590541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.66|STANDARD_ERROR_OF_MEAN|4.34||0.7028|TWO_SIDED|90.0|-5.52|8.84||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||8.84|-5.52|0.7028
92399577|NCT01183689|184690571|SUPERIORITY||Mean Difference (Net)|1.44||||0.75|TWO_SIDED|95.0|-2.61|5.49||This p-value is from a 2 degree of freedom test.|ANOVA||No significant differences between groups 1 and 3.|Analysis of variance was used to compare mean changes among the 3 groups.||5.49|-2.61|0.75
92217745|NCT02187471|184335976|SUPERIORITY||Difference in least square means|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.5183|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg QD||0.4|-0.7|0.5183
92217746|NCT02187471|184335976|SUPERIORITY||Difference in least squares mean|-0.3|STANDARD_ERROR_OF_MEAN|0.28||0.2669|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg BID||0.2|-0.9|0.2669
92343845|NCT02175121|184590541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|4.25||0.9445|TWO_SIDED|90.0|-7.33|6.73||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||6.73|-7.33|0.9445
92343846|NCT02175121|184590541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.07|STANDARD_ERROR_OF_MEAN|4.32||0.0373|TWO_SIDED|90.0|1.93|16.21||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||16.21|1.93|0.0373
92343847|NCT02175121|184590541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|4.21||0.9448|TWO_SIDED|90.0|-7.25|6.67||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||6.67|-7.25|0.9448
92343848|NCT02175121|184590541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|4.3||0.9312|TWO_SIDED|90.0|-6.74|7.49||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||7.49|-6.74|0.9312
92343849|NCT02175121|184590541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|4.21||0.9791|TWO_SIDED|90.0|-7.07|6.85||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||6.85|-7.07|0.9791
92343850|NCT02175121|184590541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.34|STANDARD_ERROR_OF_MEAN|4.28||0.0044|TWO_SIDED|90.0|5.26|19.41||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||19.41|5.26|0.0044
92343851|NCT02175121|184590542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.77|STANDARD_ERROR_OF_MEAN|3.96||0.6553|TWO_SIDED|90.0|-4.78|8.33||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||8.33|-4.78|0.6553
92343852|NCT02175121|184590542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.61|STANDARD_ERROR_OF_MEAN|4.05||0.2569|TWO_SIDED|90.0|-2.09|11.3||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||11.30|-2.09|0.2569
92343853|NCT02175121|184590542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.64|STANDARD_ERROR_OF_MEAN|3.96||0.0553|TWO_SIDED|90.0|1.09|14.18||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||14.18|1.09|0.0553
92343854|NCT02175121|184590542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.89|STANDARD_ERROR_OF_MEAN|4.01||0.0016|TWO_SIDED|90.0|6.26|19.53||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||19.53|6.26|0.0016
92343855|NCT02175121|184590542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|3.58||0.8717|TWO_SIDED|90.0|-5.35|6.51||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||6.51|-5.35|0.8717
92343856|NCT02175121|184590542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|3.66||0.743|TWO_SIDED|90.0|-4.86|7.26||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||7.26|-4.86|0.7430
92343857|NCT02175121|184590542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.56|STANDARD_ERROR_OF_MEAN|3.58||0.2041|TWO_SIDED|90.0|-1.36|10.48||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||10.48|-1.36|0.2041
92343858|NCT02175121|184590542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.92|STANDARD_ERROR_OF_MEAN|3.63|<|0.0001|TWO_SIDED|90.0|8.92|20.92||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||20.92|8.92|<0.0001
92343859|NCT02175121|184590543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|4.08||0.975|TWO_SIDED|90.0|-6.62|6.87||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||6.87|-6.62|0.9750
92343860|NCT02175121|184590543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.99|STANDARD_ERROR_OF_MEAN|4.16||0.3396|TWO_SIDED|90.0|-2.9|10.87||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||10.87|-2.90|0.3396
92399578|NCT01183689|184690572|SUPERIORITY||Mean Difference (Net)|-1.08||||0.05|TWO_SIDED|95.0|-2.44|0.28||This p-value is from a 2 degree of freedom F-test to compare the 3 arms within an analysis of variance.|ANOVA||No significant difference between groups 1 and 2.|Mean changes from baseline to year 2 among the 3 arms were compared using analysis of variance.||0.28|-2.44|0.05
92157970|NCT01027871|184202926|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||"The statistical significance level is 0.10.~P-value is for HbA1c \<7.0%"|Fisher Exact|||||||0.609
92157971|NCT01027871|184202926|SUPERIORITY_OR_OTHER|||||||0.314||95.0||||"The statistical significance level is 0.10.~P-value is for HbA1c ≤6.5%"|Fisher Exact|||||||0.314
92343861|NCT02175121|184590543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.49|STANDARD_ERROR_OF_MEAN|4.07||0.7142|TWO_SIDED|90.0|-8.23|5.24||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||5.24|-8.23|0.7142
92343862|NCT02175121|184590543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.78|STANDARD_ERROR_OF_MEAN|4.14||0.0192|TWO_SIDED|90.0|2.94|16.63||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||16.63|2.94|0.0192
92343863|NCT02175121|184590543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.84|STANDARD_ERROR_OF_MEAN|3.85||0.8277|TWO_SIDED|90.0|-7.2|5.52||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||5.52|-7.20|0.8277
92343864|NCT02175121|184590543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.57|STANDARD_ERROR_OF_MEAN|3.93||0.8857|TWO_SIDED|90.0|-5.93|7.06||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||7.06|-5.93|0.8857
92343865|NCT02175121|184590543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|3.84||0.8824|TWO_SIDED|90.0|-6.93|5.79||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||5.79|-6.93|0.8824
92343866|NCT02175121|184590543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.23|STANDARD_ERROR_OF_MEAN|3.9||0.0192|TWO_SIDED|90.0|2.77|15.69||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||15.69|2.77|0.0192
92157972|NCT01027871|184202927|SUPERIORITY_OR_OTHER|||||||0.375||95.0||||"The statistical significance level is 0.10.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.375
92343867|NCT02753881|184590607|OTHER|||||||0.036||||||Two-sided p-values \<0.05 considered statistically significant.|Kruskal-Wallis|||To achieve high probability (80% power) to detect 50% change with 5% significance level, calculated total sample size was 30 participants for dose normalized doxorubicin.||||.036
92343868|NCT02753881|184590607|OTHER|||||||0.002||||||Two-sided p-values \<0.05 considered statistically significant.|Kruskal-Wallis|||To achieve high probability (80% power) to detect 50% change with 5% significance level, calculated total sample size was 30 participants for dose normalized doxorubicinol.||||0.002
92343869|NCT02753881|184590609|OTHER|||||||0.023||||||Two-sided p-values \<0.05 considered statistically significant.|Kruskal-Wallis|||To achieve high probability (80% power) to detect 50% change with 5% significance level, calculated total sample size was 30 participants for time-concentration-curves for doxorubicin.||||0.023
92343870|NCT02753881|184590609|OTHER|||||||0.041||||||Two-sided p-values \<0.05 considered statistically significant.|Kruskal-Wallis|||To achieve high probability (80% power) to detect 50% change with 5% significance level, calculated total sample size was 30 participants for time-concentration-curves for doxorubicinol.||||0.041
92343871|NCT03427892|184590650|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.|||||<|0.001||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||<.001
92369355|NCT02993822|184643586|SUPERIORITY||Mean Difference (Final Values)|-3.1||||0.435|TWO_SIDED|95.0|-11.1|4.8|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||4.8|-11.1|0.435
92369356|NCT02993822|184643586|SUPERIORITY||Mean Difference (Final Values)|-9.4||||0.022|TWO_SIDED|95.0|-17.4|-1.4|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-1.4|-17.4|0.022
92157973|NCT01027871|184202927|SUPERIORITY_OR_OTHER|||||||0.811||95.0||||"The statistical significance level is 0.10.~P- value is for HbA1c ≤6.5%"|Fisher Exact|||||||0.811
92157974|NCT01027871|184202928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.43||||0.144|TWO_SIDED|90.0|-0.92|0.05||"The statistical significance level is 0.10.~P- value is for morning 2-hr postprandial BG"|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.05|-0.92|0.144
92217747|NCT02187471|184335976|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.463|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||Anxiety: Placebo vs Pregabalin 150 mg BID||0.3|-0.8|0.4630
92157975|NCT01027871|184202928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.25||||0.36|TWO_SIDED|90.0|-0.7|0.2||"The statistical significance level is 0.10.~P-value is for midday pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.20|-0.70|0.360
92343872|NCT03427892|184590651|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.93||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.93
92343873|NCT03427892|184590652|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.49||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor. The above reported is RAVLT Score|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.49
92343874|NCT03427892|184590652|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.56||||||Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.Reported is delay score|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.56
92369357|NCT02993822|184643587|SUPERIORITY||Mean Difference (Final Values)|-7.0||||0.103|TWO_SIDED|95.0|-15.3|1.4|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||1.4|-15.3|0.103
92369358|NCT02993822|184643587|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.546|TWO_SIDED|95.0|-10.6|5.6|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||5.6|-10.6|0.546
92399579|NCT01183689|184690572|SUPERIORITY||Mean Difference (Net)|-1.66||||0.05|TWO_SIDED|95.0|-3.0|-0.32||This p-value is from an F-test to compare differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean differences in changes from baseline to 2 years among the 3 groups.||-0.32|-3.00|0.05
92399580|NCT01183689|184690573|SUPERIORITY||Mean Difference (Net)|-0.46||||0.03|TWO_SIDED|95.0|-1.37|0.45||This p-value is from a 2 degree of freedom F-test from an analysis of variance to assess differences among the 3 arms.|ANOVA|||Mean changes between baseline and year 2 were compared among the 3 arms using analysis of variance.||0.45|-1.37|0.03
92399581|NCT01183689|184690573|SUPERIORITY||Mean Difference (Net)|-1.21||||0.03|TWO_SIDED|95.0|-2.11|-0.3||This p-value is from a 2 degree of freedom F-test to compare differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean differences from baseline to 2 years among the 3 groups.||-0.30|-2.11|0.03
92399582|NCT01183689|184690574|SUPERIORITY||Mean Difference (Net)|1.08||||0.2|TWO_SIDED|95.0|-0.84|3.0||This p-value is from a 2 degree of freedom F-test from an analysis of variance to assess mean differences among the 3 arms.|ANOVA||The 95% confidence interval for differences between groups 1 and 2 includes 0.|Mean differences from baseline to year 2 among the 3 arms were assessed using analysis of variance.||3.00|-0.84|0.20
92157976|NCT01027871|184202928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.26||||0.342|TWO_SIDED|90.0|-0.72|0.19||"The statistical significance level is 0.10.~P-value is for midday 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.19|-0.72|0.342
92157977|NCT01027871|184202928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.12||||0.654|TWO_SIDED|90.0|-0.56|0.32||"The statistical significance level is 0.10.~P-value is for evening pre-meal BG"|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.32|-0.56|0.654
92157978|NCT01027871|184202928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.25||||0.387|TWO_SIDED|90.0|-0.73|0.23||"The statistical significance level is 0.10.~P-value is for evening 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.23|-0.73|0.387
92343875|NCT03427892|184590653|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.221||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor. Reported is CW score.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.221
92343876|NCT03427892|184590653|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.306||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.Reported is Inter. score|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.306
92343877|NCT03427892|184590654|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.07||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor. The above reported is TMT A.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.07
92343878|NCT03427892|184590654|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.19||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.The above reported is TMT B.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.19
92343879|NCT03427892|184590655|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.|||||<|0.001||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||<.001
92369359|NCT02993822|184643587|SUPERIORITY||Mean Difference (Final Values)|-9.0||||0.034|TWO_SIDED|95.0|-17.2|-0.7|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-0.7|-17.2|0.034
92157979|NCT01027871|184202928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.29||||0.339|TWO_SIDED|90.0|-0.79|0.21||"The statistical significance level is 0.10.~P-value is for bed time BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.21|-0.79|0.339
92157980|NCT01027871|184202928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.1||||0.676|TWO_SIDED|90.0|-0.3|0.5||"The statistical significance level is 0.10.~P-value is for 0300 hours BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.50|-0.30|0.676
92157981|NCT01027871|184202930|SUPERIORITY_OR_OTHER|||||||0.162||95.0||||The statistical significance level is 0.10.|Fisher Exact|||||||0.162
92157982|NCT01027871|184202931|SUPERIORITY_OR_OTHER|||||||0.804||95.0||||The statistical significance level is 0.10.|Negative Binomial Model|||||||0.804
92217748|NCT02187471|184335976|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.28||0.928|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.5|0.9280
92157983|NCT01027871|184202933|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.01||||0.937||90.0|-0.16|0.14||"The statistical significance level is 0.10.~P-value is for baseline."|ANOVA||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.14|-0.16|0.937
92399583|NCT01183689|184690574|SUPERIORITY||Mean Difference (Net)|-0.05||||0.2|TWO_SIDED|95.0|-1.45|1.35||This p-value is from an analysis of variance comparing all 3 groups.|ANOVA||The 95% confidence interval for differences between groups 1 and 3 includes 0.|Analysis of variance was used to compare differences among the 3 groups.||1.35|-1.45|0.20
92399584|NCT01183689|184690575|SUPERIORITY||Mean Difference (Net)|-0.12||||0.02|TWO_SIDED|95.0|-0.34|0.1||2 degree of freedom F-test from analysis of variance, with no adjustment for multiple outcomes|ANOVA|||2 degree of freedom F-test to compare mean 2 year differences among 3 arms||0.10|-0.34|0.02
92399585|NCT01183689|184690575|SUPERIORITY||Mean Difference (Net)|-0.3||||0.02|TWO_SIDED|95.0|-0.52|-0.08||This p-value is from a 2 degree of freedom test for differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean differences in changes from baseline to 2 years among the 3 groups.||-0.08|-0.52|0.02
92157984|NCT01027871|184202933|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.03||||0.687|TWO_SIDED|90.0|-0.16|0.1||"The statistical significance level is 0.10.~P-value is for Week 12."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.10|-0.16|0.687
92157985|NCT01027871|184202935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.4||||0.159|TWO_SIDED|90.0|-0.87|0.07||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.07|-0.87|0.159
92157986|NCT01027871|184202935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.17||||0.542|TWO_SIDED|90.0|-0.62|0.29||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.29|-0.62|0.542
92157987|NCT01027871|184202936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.01||||0.88|TWO_SIDED|90.0|-0.16|0.13||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.13|-0.16|0.880
92157988|NCT01027871|184202936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.17||||0.045|TWO_SIDED|90.0|-0.32|-0.03||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||-0.03|-0.32|0.045
92157989|NCT01027871|184202937|SUPERIORITY_OR_OTHER|||||||0.273||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.273
92157990|NCT01027871|184202937|SUPERIORITY_OR_OTHER|||||||0.287||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c ≤6.5%."|Fisher Exact|||||||0.287
92157991|NCT01027871|184202937|SUPERIORITY_OR_OTHER|||||||0.879||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.879
92157992|NCT01027871|184202937|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c ≤6.5%."|Fisher Exact|||||||0.722
92157993|NCT01027871|184202938|SUPERIORITY_OR_OTHER|||||||0.139||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.139
92157994|NCT01027871|184202938|SUPERIORITY_OR_OTHER|||||||0.569||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c ≤6.5%."|Fisher Exact|||||||0.569
92157995|NCT01027871|184202938|SUPERIORITY_OR_OTHER|||||||0.515||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.515
92157996|NCT01027871|184202938|SUPERIORITY_OR_OTHER|||||||1||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c ≤6.5%."|Fisher Exact|||||||1.000
92399586|NCT01183689|184690576|SUPERIORITY||Mean Difference (Net)|-52.0||||0.58|TWO_SIDED|95.0|-164.0|60.0||2 degree of freedom F-test to compare 3 arms with respect to 2-year changes in kilocalories|ANOVA|||2 degree of freedom F-test to compare mean differences among 3 arms in changes in kilocalories from baseline to year 2||60|-164|0.58
92157997|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.26||||0.305|TWO_SIDED|90.0|-0.16|0.67||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for morning pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.67|-0.16|0.305
92157998|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.14||||0.571|TWO_SIDED|90.0|-0.54|0.26||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for morning pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.26|-0.54|0.571
92157999|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.26||||0.454||90.0|-0.85|0.32||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for morning 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.32|-0.85|0.454
92158000|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.83||||0.016|TWO_SIDED|90.0|-1.4|-0.26||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for morning 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||-0.26|-1.40|0.016
92158001|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.07||||0.838||90.0|-0.61|0.48||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for midday pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.48|-0.61|0.838
92158002|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.69||||0.033|TWO_SIDED|90.0|-1.22|-0.16||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for midday pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||-0.16|-1.22|0.033
92343880|NCT03427892|184590656|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.022||||||To analyze separate one-way repeated measures analyses of variance (ANOVA) were performed. Time (baseline, week 4, week 8) was included as the within-subject factor.Above is from baseline to week 8 for C-SSRS AA, IA, and ABA.|ANOVA|One-way repeated measures (ANOVA) were performed. Time (baseline, wk 4, wk 8) included as within-subject factor. Above is for C-SSRS AA,IA, and ABA.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.022
92343881|NCT03427892|184590656|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.163||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.163
92343882|NCT03427892|184590657|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.133||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.133
92158003|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.4||||0.229|TWO_SIDED|90.0|-0.95|0.15||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for midday 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.15|-0.95|0.229
92158004|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.27||||0.412|TWO_SIDED|90.0|-0.8|0.27||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for midday 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.27|-0.80|0.412
92343883|NCT03427892|184590658|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.002||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.002
92343884|NCT03427892|184590659|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.002||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.002
92217749|NCT02187471|184335976|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.7089|TWO_SIDED|95.0|-0.7|0.5|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.7|0.7089
92343885|NCT03427892|184590660|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.005||||||Pairwise comparisons were also performed to determine which time points were significantly different from one another. Baseline to week 8 is reported above.|t-test, 2 sided|Pairwise comparisons were also performed to determine which time points were significantly different from one another.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.005
92343886|NCT03427892|184590661|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.|||||<|0.001||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||<.001
92343887|NCT03427892|184590662|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.295||||||Pairwise comparisons were also performed to determine which time points were significantly different from one another. Baseline to week 8 is reported above.|t-test, 2 sided|Pairwise comparisons were also performed to determine which time points were significantly different from one another.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.295
92343888|NCT01258374|184590676|OTHER||||||<|0.01||||||The PK paramaters reported as geometric means, were calculated using noncompartmental modelinf techniques (WinNolin; Pharsight Corporation, Mountain View, CA)|Noncompartmental modeling techniques||||The pharmacokinetic parameters calculated for DRV, RTV and RAL were trough plasma concentration (C trough), defined as the concentration at 24 or 12 h after observed dose, the maximum observed plasma concentration (C max), the area under the plasma concentration-time curve from 0 to 24 H (AUC 0-24) or 0 to 12 h (AUC 0-12) and the elimination half-life (t1/2). AUC and t1/2 were calculated using non using noncompartmental modeling techniques (WinNolin; Pharsight Corporation, Mountain View, CA). All of these PK parameters are reported as geometric means.|||<0.01
92343889|NCT04596293|184590680|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92343890|NCT04596293|184590680|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92343891|NCT04596293|184590681|OTHER|||||||0.6351|||||||Fisher Exact|||||||0.6351
92343892|NCT04596293|184590681|OTHER|||||||0.3108|||||||Fisher Exact|||||||0.3108
92343893|NCT04596293|184590682|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92343894|NCT04596293|184590682|OTHER|||||||0.6594|||||||Fisher Exact|||||||0.6594
92343895|NCT04596293|184590683|OTHER|||||||0.5808|||||||ANCOVA|||||||0.5808
92343896|NCT04596293|184590683|OTHER|||||||0.2143|||||||ANCOVA|||||||0.2143
92343897|NCT01287936|184590685|SUPERIORITY||||||<|0.001|||||||Wilcoxon Signed Rank test|||||||<0.001
92343898|NCT01287936|184590687|SUPERIORITY|||||||0.004|||||||Wilcoxon Signed Rank test|||||||0.004
92343899|NCT00427934|184590731|SUPERIORITY_OR_OTHER||Percentage Difference|-1.73||||0.79||90.0|-15.13|8.68|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 1||8.68|-15.13|0.790
92343900|NCT00427934|184590731|SUPERIORITY_OR_OTHER||Percentage Difference|0.43||||0.477||90.0|-13.67|11.64|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 2||11.64|-13.67|0.477
92343901|NCT00427934|184590731|SUPERIORITY_OR_OTHER||Percentage Difference|3.03||||0.37||90.0|-12.85|16.77|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 4||16.77|-12.85|0.370
92343902|NCT00427934|184590731|SUPERIORITY_OR_OTHER||Percentage Difference|8.66||||0.175||90.0|-7.07|22.03|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 8||22.03|-7.07|0.175
92343903|NCT00427934|184590732|SUPERIORITY_OR_OTHER||Percentage Difference|1.3||||0.42||90.0|-6.34|6.01|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 1||6.01|-6.34|0.420
92217750|NCT02187471|184335976|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.28||0.0669|TWO_SIDED|95.0|-1.1|0.0|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg QD||0|-1.1|0.0669
92343904|NCT00427934|184590732|SUPERIORITY_OR_OTHER||Percentage Difference|2.6||||0.258||90.0|-5.08|7.95|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 2||7.95|-5.08|0.258
92343905|NCT00427934|184590732|SUPERIORITY_OR_OTHER||Percentage Difference|-3.46||||1||90.0|-14.39|3.42|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 4||3.42|-14.39|1.000
92343906|NCT00427934|184590732|SUPERIORITY_OR_OTHER||Percentage Difference|-1.3||||0.899||90.0|-13.56|7.92|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 8||7.92|-13.56|0.899
92343907|NCT00427934|184590732|SUPERIORITY_OR_OTHER||Percentage Difference|1.3||||0.489||90.0|-11.24|10.96|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 12||10.96|-11.24|0.489
92343908|NCT00427934|184590733|SUPERIORITY_OR_OTHER||Percentage Difference|-3.03||||1||90.0|-13.59|1.28|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 4||1.28|-13.59|1.000
92343909|NCT00427934|184590733|SUPERIORITY_OR_OTHER||Percentage Difference|2.6||||0.258||90.0|-5.08|7.95|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 8||7.95|-5.08|0.258
92343910|NCT00427934|184590733|SUPERIORITY_OR_OTHER||Percentage Difference|-3.03||||1||90.0|-13.59|1.28|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 12||1.28|-13.59|1.000
92343911|NCT00427934|184590734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.335||90.0|-0.79|2.99||This analysis was carried out using analysis of covariance (ANCOVA) with baseline tender/painful joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||2.99|-0.79|0.335
92343912|NCT00427934|184590734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.816||90.0|-1.82|2.41||This analysis was carried out using ANCOVA with baseline tender/painful joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||2.41|-1.82|0.816
92343913|NCT00427934|184590734|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.01||||0.996||90.0|-2.35|2.36||This analysis was carried out using ANCOVA with baseline tender/painful joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||2.36|-2.35|0.996
92343914|NCT00427934|184590734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.61||||0.263||90.0|-3.98|0.76||This analysis was carried out using ANCOVA with baseline tender/painful joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||0.76|-3.98|0.263
92343915|NCT00427934|184590734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48||||0.294||90.0|-3.82|0.85||This analysis was carried out using ANCOVA with baseline tender/painful joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||0.85|-3.82|0.294
92343916|NCT00427934|184590735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.7||90.0|-1.7|1.06||This analysis was carried out using ANCOVA baseline swollen joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||1.06|-1.70|0.700
92343917|NCT00427934|184590735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.799||90.0|-1.45|1.97||This analysis was carried out using ANCOVA baseline swollen joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||1.97|-1.45|0.799
92343918|NCT00427934|184590735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.867||90.0|-1.35|1.66||This analysis was carried out using ANCOVA baseline swollen joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||1.66|-1.35|0.867
92343919|NCT00427934|184590735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.45||||0.167||90.0|-3.17|0.28||This analysis was carried out using ANCOVA baseline swollen joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||0.28|-3.17|0.167
92343920|NCT00427934|184590735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.966||90.0|-1.91|1.81||This analysis was carried out using ANCOVA baseline swollen joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||1.81|-1.91|0.966
92343921|NCT00427934|184590736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.925||90.0|-6.41|5.72||This analysis was carried out using ANCOVA with baseline patient's assessment of arthritis pain as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||5.72|-6.41|0.925
92343922|NCT00427934|184590736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.26||||0.239||90.0|-12.62|2.11||This analysis was carried out using ANCOVA with baseline patient's assessment of arthritis pain as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||2.11|-12.62|0.239
92343923|NCT00427934|184590736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73||||0.872||90.0|-6.79|8.25||This analysis was carried out using ANCOVA with baseline patient's assessment of arthritis pain as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||8.25|-6.79|0.872
92343924|NCT00427934|184590736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.745||90.0|-9.91|6.65||This analysis was carried out using ANCOVA with baseline patient's assessment of arthritis pain as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||6.65|-9.91|0.745
92343925|NCT00427934|184590736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.22||||0.644||90.0|-10.14|5.71||This analysis was carried out using ANCOVA with baseline patient's assessment of arthritis pain as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||5.71|-10.14|0.644
92343926|NCT00427934|184590737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.36||||0.524||90.0|-8.49|3.77||This analysis was carried out using ANCOVA with baseline Patient's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||3.77|-8.49|0.524
92343927|NCT00427934|184590737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.96||||0.338||90.0|-10.8|2.87||This analysis was carried out using ANCOVA with baseline Patient's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||2.87|-10.80|0.338
92343928|NCT00427934|184590737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98||||0.83||90.0|-8.55|6.58||This analysis was carried out using ANCOVA with baseline Patient's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||6.58|-8.55|0.830
92343929|NCT00427934|184590737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.68||||0.118||90.0|-15.76|0.4||This analysis was carried out using ANCOVA with baseline Patient's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||0.40|-15.76|0.118
92343930|NCT00427934|184590737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78||||0.712||90.0|-9.73|6.18||This analysis was carried out using ANCOVA with baseline Patient's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||6.18|-9.73|0.712
92343931|NCT00427934|184590738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.54||90.0|-0.28|0.13||This analysis was carried out using ANCOVA with baseline Physician's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||0.13|-0.28|0.540
92343932|NCT00427934|184590738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.757||90.0|-0.28|0.19||This analysis was carried out using ANCOVA with baseline Physician's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||0.19|-0.28|0.757
92343933|NCT00427934|184590738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.767||90.0|-0.31|0.21||This analysis was carried out using ANCOVA with baseline Physician's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||0.21|-0.31|0.767
92343934|NCT00427934|184590738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.112||90.0|-0.52|0.01||This analysis was carried out using ANCOVA with baseline Physician's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||0.01|-0.52|0.112
92343935|NCT00427934|184590738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.49||90.0|-0.42|0.17||This analysis was carried out using ANCOVA with baseline Physician's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||0.17|-0.42|0.490
92343936|NCT00427934|184590739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.464||90.0|-0.19|0.07||This analysis was carried out using ANCOVA with HAQ-DI as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||0.07|-0.19|0.464
92343937|NCT00427934|184590739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.068||90.0|-0.35|-0.02||This analysis was carried out using ANCOVA with HAQ-DI as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||-0.02|-0.35|0.068
92343938|NCT00427934|184590739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.532||90.0|-0.23|0.11||This analysis was carried out using ANCOVA with HAQ-DI as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||0.11|-0.23|0.532
92343939|NCT00427934|184590739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.063||90.0|-0.41|-0.03||This analysis was carried out using ANCOVA with HAQ-DI as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||-0.03|-0.41|0.063
92343940|NCT00427934|184590739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.396||90.0|-0.36|0.12||This analysis was carried out using ANCOVA with HAQ-DI as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||0.12|-0.36|0.396
92343941|NCT00427934|184590740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.481||90.0|-7.36|2.96||This analysis was carried out using ANCOVA with CRP as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||2.96|-7.36|0.481
92343942|NCT00427934|184590740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.33||||0.698||90.0|-4.34|6.99||This analysis was carried out using ANCOVA with CRP as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||6.99|-4.34|0.698
92343943|NCT00427934|184590740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.65||||0.233||90.0|-1.79|11.1||This analysis was carried out using ANCOVA with CRP as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||11.10|-1.79|0.233
92343944|NCT00427934|184590740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.48||||0.32||90.0|-2.29|9.25||This analysis was carried out using ANCOVA with CRP as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||9.25|-2.29|0.320
92343945|NCT00427934|184590740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.912||90.0|-5.81|6.64||This analysis was carried out using ANCOVA with CRP as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||6.64|-5.81|0.912
92343946|NCT00427934|184590741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.653||90.0|-0.31|0.18||This analysis was carried out using ANCOVA with baseline DAS28-4 (CRP) as the covariate, treatment, country as fixed effects.|ANCOVA|||Week 1||0.18|-0.31|0.653
92158005|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.15||||0.642|TWO_SIDED|90.0|-0.68|0.38||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for evening pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.38|-0.68|0.642
92343947|NCT00427934|184590741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.703||90.0|-0.41|0.26||This analysis was carried out using ANCOVA with baseline DAS28-4 (CRP) as the covariate, treatment, country as fixed effects.|ANCOVA|||Week 2||0.26|-0.41|0.703
92343948|NCT00427934|184590741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.968||90.0|-0.37|0.39||This analysis was carried out using ANCOVA with baseline DAS28-4 (CRP) as the covariate, treatment, country as fixed effects.|ANCOVA|||Week 4||0.39|-0.37|0.968
92343949|NCT00427934|184590741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.21||90.0|-0.72|0.1||This analysis was carried out using ANCOVA with baseline DAS28-4 (CRP) as the covariate, treatment, country as fixed effects.|ANCOVA|||Week 8||0.10|-0.72|0.210
92343950|NCT00427934|184590741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.696||90.0|-0.53|0.33||This analysis was carried out using ANCOVA with baseline DAS28-4 (CRP) as the covariate, treatment, country as fixed effects.|ANCOVA|||Week 12||0.33|-0.53|0.696
92399587|NCT01183689|184690576|SUPERIORITY||Mean Difference (Net)|-50.0||||0.58|TWO_SIDED|95.0|-162.0|61.0||This p-value is from a 2 degree of freedom F-test to compare differences among the 3 groups|ANOVA|||Analysis of variance was used to assess mean differences in 2 year changes in kilocalories intake among the 3 groups.||61|-162|0.58
92217751|NCT02187471|184335976|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.28||0.0081|TWO_SIDED|95.0|-1.3|-0.2|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg BID||-0.2|-1.3|0.0081
92343951|NCT00427934|184590743|SUPERIORITY_OR_OTHER||Percentage Difference|9.09||||0.155||90.0|-6.16|21.83||p-value (one-sided) was based on Barnard exact test if more than 20% of expected cell counts were \< 5 otherwise Pearson chi-square test.|Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|||21.83|-6.16|0.155
92343952|NCT00427934|184590749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57||||0.698||90.0|-1.87|3.01||This analysis was carried out ANCOVA with baseline SF-36 score as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||3.01|-1.87|0.698
92343953|NCT00427934|184590749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.68||||0.344||90.0|-4.62|1.26||This analysis was carried out ANCOVA with baseline SF-36 score as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||1.26|-4.62|0.344
92343954|NCT00427934|184590750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.734||90.0|-2.71|4.11||This analysis was carried out ANCOVA with baseline SF-36 score as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||4.11|-2.71|0.734
92399588|NCT01183689|184690577|SUPERIORITY||Mean Difference (Net)|-1.27||||0.001|TWO_SIDED|95.0|-2.55|0.02||2 degree of freedom F-test from analysis of variance to compare changes in waist circumference from baseline among the three arms|ANOVA|No adjustment to degrees of freedom|Difference between groups 1 and 2: 95% confidence interval includes 0|2 degree of freedom F-test from ANOVA to compare differences among 3 arms||0.02|-2.55|0.001
92158006|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.16||||0.614|TWO_SIDED|90.0|-0.67|0.36||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for evening pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.36|-0.67|0.614
92158007|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.5||||0.147|TWO_SIDED|90.0|-1.07|0.07||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for evening 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.07|-1.07|0.147
92158008|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.42||||0.21|TWO_SIDED|90.0|-0.98|0.13||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for evening 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.13|-0.98|0.210
92158009|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.28||||0.438|TWO_SIDED|90.0|-0.86|0.31||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for bed time BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.31|-0.86|0.438
92158010|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.7||||0.043|TWO_SIDED|90.0|-1.28|-0.13||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for bed time BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||-0.13|-1.28|0.043
92158011|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.24||||0.403|TWO_SIDED|90.0|-0.23|0.72||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for 0300 hours BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.72|-0.23|0.403
92217752|NCT02187471|184335976|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.28||0.0867|TWO_SIDED|95.0|-1.0|0.1|||ANCOVA|||Depression: Placebo vs Pregabalin 150 mg BID||0.1|-1.0|0.0867
92158012|NCT01027871|184202939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.29||||0.314|TWO_SIDED|90.0|-0.75|0.18||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for 0300 hours BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.18|-0.75|0.314
92158013|NCT01027871|184202941|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Fisher Exact|||||||0.046
92158014|NCT01027871|184202941|SUPERIORITY_OR_OTHER|||||||0.224||95.0||||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Fisher Exact|||||||0.224
92158015|NCT01027871|184202942|SUPERIORITY_OR_OTHER|||||||0.561||95.0||||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Negative Binomial Model|||||||0.561
92158016|NCT01027871|184202942|SUPERIORITY_OR_OTHER|||||||0.518||95.0||||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Negative Binomial Model|||||||0.518
92158017|NCT01027871|184202943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.01||||0.938|TWO_SIDED|90.0|-0.2|0.18||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for baseline."|ANOVA||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.18|-0.20|0.938
92158018|NCT01027871|184202943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.0||||0.972|TWO_SIDED|90.0|-0.18|0.19||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for baseline."|ANOVA||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.19|-0.18|0.972
92217753|NCT02187471|184335976|SUPERIORITY||Difference of least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.29||0.9066|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.6|0.9066
92217754|NCT02187471|184335976|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.29||0.3509|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.3|-0.8|0.3509
92343955|NCT00427934|184590750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56||||0.818||90.0|-3.5|4.62||This analysis was carried out ANCOVA with baseline SF-36 score as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||4.62|-3.50|0.818
92343956|NCT00427934|184590751|SUPERIORITY_OR_OTHER|||||||0.649||95.0|||||Fisher Exact|||||||0.649
92399589|NCT01183689|184690577|SUPERIORITY||Mean Difference (Net)|-2.42||||0.001|TWO_SIDED|95.0|-3.69|-1.14||The p-value is from a 2 degree of freedom F-test for differences among the 3 arms|ANOVA||The 95% confidence interval for differences between groups 1 and 3 does not include 0.|Mean change in waist girth from baseline to year 2||-1.14|-3.69|0.001
92399590|NCT01183689|184690578|SUPERIORITY|Chi-squared test to compare the percentage of participants reporting self-weighing more than once per week among the 3 arms.|Odds Ratio (OR)|1.77||||0.004|TWO_SIDED|95.0|1.04|3.02||This is based on a 2 degree of freedom likelihood ratio test to compare differences among the 3 arms.|Regression, Logistic||The 95% confidence interval for the odds ratio comparing the rates of self-weighing at year 2 between groups 1 and 2 excludes 0.|Logistic regression to compare differences among the 3 groups||3.02|1.04|0.004
92399591|NCT01183689|184690578|SUPERIORITY||Odds Ratio (OR)|2.35||||0.004|TWO_SIDED|95.0|1.4|3.94||2 degree of freedom likelihood ratio statistic to compare differences among the 3 arms|Regression, Logistic|No adjustments|The 95% confidence interval for the odds ratio comparing groups 1 and 3 excludes 0.|Logistic regression analysis was used to compare the rates of daily self-weighing at 2 years among the 3 groups.||3.94|1.40|0.004
92399592|NCT01194830|184690585|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.16||0.0005||95.0|-0.91|-0.26|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and number of other Oral Antidiabetic Drugs||||-0.26|-0.91|0.0005
92399593|NCT01194830|184690586|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.62|-0.22|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and number of other Oral Antidiabetic Drugs||||-0.22|-0.62|<0.0001
92399594|NCT01194830|184690587|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.15||0.0002||95.0|-0.84|-0.26|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and number of other Oral Antidiabetic Drugs||||-0.26|-0.84|0.0002
92399595|NCT01194830|184690588|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.15||0.0003||95.0|-0.85|-0.26|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and number of other Oral Antidiabetic Drugs||||-0.26|-0.85|0.0003
92399596|NCT01194830|184690589|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.063||||0.001|TWO_SIDED|95.0|1.764|9.358|||Regression, Logistic|||||9.358|1.764|0.0010
92399597|NCT01194830|184690590|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.433||||0.0352|TWO_SIDED|95.0|1.124|26.26|||Regression, Logistic|||||26.260|1.124|0.0352
92158019|NCT01027871|184202943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.01||||0.927|TWO_SIDED|90.0|-0.16|0.15||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for Week 12."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.15|-0.16|0.927
92343957|NCT00427934|184590752|SUPERIORITY_OR_OTHER|||||||0.9826||95.0|||||Log Rank|||||||0.9826
92399598|NCT01194830|184690591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.951||||0.0003|TWO_SIDED|95.0|1.651|5.274|||Regression, Logistic|||||5.274|1.651|0.0003
92343958|NCT02683109|184590762|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the Tio+Olo FDC versus the Tio/Olo free combination was tested at the one-sided α-level of 0.025 using a non-inferiority margin of 0.1 L.|Adjusted mean|0.024|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|-0.02|0.067|||ANCOVA|||The primary analysis was conducted using an Analysis of Covariance \[ANCOVA\] model including treatment as fixed categorical effect and baseline as continuous covariate.||0.067|-0.020|<0.0001
92343959|NCT02683109|184590763|SUPERIORITY_OR_OTHER||Adjusted mean|0.006|STANDARD_ERROR_OF_MEAN|0.034||0.8648|TWO_SIDED|95.0|-0.061|0.073|||ANCOVA|||The secondary analysis was conducted using an ANCOVA model including treatment as fixed categorical effect and baseline as continuous covariate.||0.073|-0.061|0.8648
92399599|NCT01194830|184690592|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|7.2||0.0972||95.0|-26.1|2.2|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline FPG, and number of other Oral Antidiabetic Drugs||||2.2|-26.1|0.0972
92399600|NCT01194830|184690593|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.97|STANDARD_ERROR_OF_MEAN|24.45||0.9368||95.0|-53.8|49.86|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline 2-hour PPG, and number of other Oral Antidiabetic Drugs||||49.86|-53.80|0.9368
92399601|NCT00910104|184690750|SUPERIORITY||Hazard Ratio (HR)|8.6|||=|0.001|TWO_SIDED|95.0|2.0|37.3||All P-values were 2-sided. Analyses were performed in SAS 9.1 (SAS Institute, USA) and S-plus 8 (Insightful, USA). P\<0.05 was established as an a priori threshold for statistical significance.|Regression, Cox|||The primary efficacy end-point was time to reversal of cholestasis (direct bilirubin \[DB\]\<=2 mg/dL). Crude (unadjusted) hazard ratios were estimated using proportional hazard regression. Subjects who died, were transplanted, or still on PN at the end of follow-up were censored (Ref: PMID 19661785).||37.3|2.0|=0.001
92399602|NCT00910104|184690750|SUPERIORITY||Hazard Ratio (HR)|17.4||||0.001|TWO_SIDED|95.0|3.7|83.0||All P-values were 2-sided. Analyses were performed in SAS 9.1 (SAS Institute, USA) and S-plus 8 (Insightful, USA). P\<0.05 was established as an a priori threshold for statistical significance.|Regression, Cox|||The primary efficacy end-point was time to reversal of cholestasis (direct bilirubin \[DB\]\<=2 mg/dL). Adjusted hazard ratios were estimated using proportional hazard regression adjusted for baseline covariates (including duration of parenteral nutrition (PN) and baseline DB). Subjects who died, were transplanted, or still on PN at the end of follow-up were censored (Ref: PMID 19661785).||83|3.7|0.001
92158020|NCT01027871|184202943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.1||||0.293|TWO_SIDED|90.0|-0.25|0.05||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for Week 12."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.05|-0.25|0.293
92343960|NCT02683109|184590764|SUPERIORITY_OR_OTHER||Adjusted mean|-0.327|STANDARD_ERROR_OF_MEAN|0.536||0.542|TWO_SIDED|95.0|-1.384|0.729|||ANCOVA|||The secondary analysis was conducted using an ANCOVA model including treatment as fixed categorical effect and baseline as continuous covariate.||0.729|-1.384|0.5420
92343961|NCT00368251|184590765|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|0.15|||=|0.942|TWO_SIDED|95.0|-26.12|24.96||All hypotheses are tested at the 5 % level. The multiplicity scheme (hierarchical testing procedure) assures strong control of the type I error at the 5 % level.|stratified Wilcoxon Test|Estimates and confidence intervals from Hodges-Lehmann (unstratified).|Difference versus Placebo was calculated.|"The first hypothesis for the primary efficacy variable compares placebo versus Brivaracetam (BRV) 150 mg/day.~The second hypothesis for the primary efficacy variable compares placebo versus BRV 5 mg/day. However, this second hypothesis will only be tested when all the hypotheses for placebo versus BRV 150 mg/day are significant for the primary three UMRS related secondary endpoints.~The hypotheses will be tested using nonparametric analysis. The study was designed to have 80 % power."||24.96|-26.12|=0.942
92343962|NCT00368251|184590765|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|-18.05|||=|0.105|TWO_SIDED|95.0|-39.31|4.86||Tested at the 5 % level - given the primary endpoint and the three UMRS related secondary endpoints comparing placebo versus Brivaracetam (BRV) 150 mg/day are significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intervals from Hodges-Lehmann (unstratified).|Difference versus Placebo.|||4.86|-39.31|=0.105
92343963|NCT00368251|184590766|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|1.24|||=|0.672|TWO_SIDED|95.0|-21.9|31.06||Tested at the 5 % level - given the Primary Outcome testing Placebo versus BRV 150 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intervals are obtained from Hodges-Lehmann(unstratified).|Difference versus Placebo.|If primary efficacy is proven for Brivaracetam (BRV) 150 mg/day, the following secondary endpoints will be tested for Placebo versus BRV 150 mg/day. The testing scheme will be hierarchical, thus statistical significance at 5 % on BRV 150 mg/day on a secondary endpoint is needed to continue testing BRV 150 mg/day at 5 % significance level for the next secondary endpoint.||31.06|-21.90|=0.672
92343964|NCT00368251|184590766|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|0.0|||=|0.806|TWO_SIDED|95.0|-33.33|18.75||Tested at the 5 % level - given the primary endpoint testing Placebo versus Brivaracetam (BRV) 5 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intevals are obtained from Hodges-Lehmann (unstratified).|Difference versus Placebo.|"In case the three endpoints are significant for placebo versus Brivaracetam (BRV) 150 mg/day, the primary endpoint will be tested for Placebo versus BRV 5 mg/day. In case of significance, the three UMRS related secondary endpoints will be tested for Placebo versus BRV 5 mg/day, provided the previous is significant at 5 %. Secondary endpoints are tested in the following order:~* Functional Disability~* Stimulus Sensitivity~* Myoclonus Patient Questionnaire"||18.75|-33.33|=0.806
92343965|NCT00368251|184590767|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|0.0|||=|0.549|TWO_SIDED|95.0|-25.0|100.0||Tested at the 5 % level - given the Functional Disability Score comparing Placebo versus Brivaracetam (BRV) 150 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Willcoxon Test|Estimates and confidence intervals are obtained from Hodges-Lehmann (unstratified).|Difference versus Placebo.|||100.00|-25.00|=0.549
92343966|NCT00368251|184590767|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|0.0|||=|0.654|TWO_SIDED|95.0|-50.0|66.67||Tested at the 5 % level - given the Functional Disability Score comparing Placebo versus Brivaracetam (BRV) 5 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intervals are obtained from Hodges-Lehmann (unstratified).|Difference versus Placebo.|||66.67|-50.00|=0.654
92343967|NCT00368251|184590768|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|14.29|||=|0.037|TWO_SIDED|95.0|-1.76|39.39||Tested at the 5 % level - given the Functional Disability Score comparing Placebo versus Brivaracetam (BRV) 150 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intervals are obtained from Hodges-Lehmann (unstratified).|Difference versus Placebo.|||39.39|-1.76|=0.037
92343968|NCT00368251|184590768|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|10.0|||=|0.111|TWO_SIDED|95.0|-5.56|30.0||Tested at the 5 % level - given the Functional Disability Score comparing Placebo versus Brivaracetam (BRV) 5 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intervals are obtained from Hodges-Lehmann (unstratified).|Difference versus Placebo.|||30.00|-5.56|=0.111
92343969|NCT00368251|184590769|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.931||||||The Global Evaluation Scale by Investigator (I-GES) was compared between placebo and each dose at 5 % significance level independently from the previous secondary endpoints.|Stratified Wilcoxon test|||||||=0.931
92343970|NCT00368251|184590769|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.253||||||The Global Evaluation Scale by Investigator (I-GES) was compared between placebo and each dose at 5 % significance level independently from the previous secondary endpoints.|Stratified Wilcoxon test|||P-value for pairwise comparison of each Brivaracetam dose versus Placebo.||||=0.253
92343971|NCT01125930|184590771|SUPERIORITY_OR_OTHER|||||||0.93|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess redness.||||0.93
92343972|NCT01125930|184590772|SUPERIORITY_OR_OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess telangiectasia.||||0.79
92343973|NCT01125930|184590773|SUPERIORITY_OR_OTHER|||||||0.94|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.94
92343974|NCT01125930|184590773|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.57
92399603|NCT00910104|184690750|OTHER||||||<|0.0001|||||||Fisher Exact|||Comparison of proportion with reversal of cholestasis (direct bilirubin \<=2.0 mg/dL).||||<0.0001
92217755|NCT02187471|184335977|SUPERIORITY||Difference in least squares means|2.187|STANDARD_ERROR_OF_MEAN|0.6203||0.0004|TWO_SIDED|95.0|0.97|3.404|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg QD||3.404|0.970|0.0004
92343975|NCT01125930|184590773|SUPERIORITY_OR_OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.66
92343976|NCT01125930|184590773|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.38
92343977|NCT01125930|184590773|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.24
92343978|NCT01125930|184590774|SUPERIORITY_OR_OTHER|||||||0.87|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess photodamage.||||0.87
92343979|NCT01125930|184590775|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess ocular manifestations of rosacea.||||1.00
92343980|NCT01125930|184590775|SUPERIORITY_OR_OTHER|||||||0.62|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess ocular manifestations of rosacea||||0.62
92343981|NCT01125930|184590775|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess ocular manifestations of rosacea||||1.00
92343982|NCT01125930|184590775|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess ocular manifestations of rosacea||||1.00
92343983|NCT01125930|184590775|SUPERIORITY_OR_OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess ocular manifestations of rosacea||||0.45
92343984|NCT01125930|184590776|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess phymatous changes of rosacea.||||0.53
92343985|NCT01125930|184590776|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess phymatous changes of rosacea.||||0.53
92343986|NCT01125930|184590776|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess phymatous changes of rosacea.||||0.53
92343987|NCT01125930|184590776|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess phymatous changes of rosacea.||||0.53
92343988|NCT01125930|184590776|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess phymatous changes of rosacea.||||1.00
92343989|NCT01125930|184590777|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||1.00
92217756|NCT02187471|184335977|SUPERIORITY||Difference of least squares means|2.483|STANDARD_ERROR_OF_MEAN|0.6209|<|0.0001|TWO_SIDED|95.0|1.265|3.701|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg BID||3.701|1.265|<0.0001
92343990|NCT01125930|184590777|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.41
92399604|NCT03137654|184690751|SUPERIORITY|||||||0.0078|||||||Linear Mixed Model|||||||.0078
92399605|NCT03137654|184690755|SUPERIORITY|||||||0.393|||||||ANOVA|||||||0.393
92399606|NCT03137654|184690757|SUPERIORITY|||||||0.0344|||||||ANOVA|||||||.0344
92399607|NCT03137654|184690758|SUPERIORITY|||||||0.0344|||||||ANOVA|||||||.0344
92399608|NCT03137654|184690759|SUPERIORITY|||||||0.0365|||||||ANOVA|||||||0.0365
92399609|NCT03137654|184690760|SUPERIORITY|||||||0.212|||||||ANOVA|||||||.212
92217757|NCT02187471|184335977|SUPERIORITY||Difference in least squares means|2.621|STANDARD_ERROR_OF_MEAN|0.6215|<|0.0001|TWO_SIDED|95.0|1.401|3.84|||ANCOVA|||Physical Component: Placebo vs Pregabalin 150 mg BID||3.840|1.401|<0.0001
92343991|NCT01125930|184590777|SUPERIORITY_OR_OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.66
92343992|NCT01125930|184590777|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.92
92343993|NCT01125930|184590777|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.80
92343994|NCT01125930|184590778|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of TAC1 at Week 24 visit were made using fold change data.||||0.003
92343995|NCT01125930|184590778|SUPERIORITY_OR_OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of CXCR4 at Week 24 visit were made using fold change data.||||0.35
92343996|NCT01125930|184590778|SUPERIORITY_OR_OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of CXCL12 at Week 24 visit were made using fold change data.||||0.68
92343997|NCT01125930|184590778|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of TNFa at Week 24 visit were made using fold change data.||||0.76
92343998|NCT01125930|184590779|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of COL-1 at Week 24 visit were made using fold change data.||||1.00
92343999|NCT01125930|184590779|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of COL-3 at Week 24 visit were made using fold change data.||||0.25
92344000|NCT01125930|184590779|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of MMP-1 at Week 24 visit were made using fold change data.||||0.41
92344001|NCT01125930|184590779|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of MMP-3 at Week 24 visit were made using fold change data.||||0.02
92344002|NCT01125930|184590779|SUPERIORITY_OR_OTHER|||||||0.61|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of MMP-9 at Week 24 visit were made using fold change data.||||0.61
92344003|NCT01125930|184590780|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess redness.||||1.00
92344004|NCT01125930|184590780|SUPERIORITY_OR_OTHER|||||||0.44|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess redness.||||0.44
92344005|NCT01125930|184590780|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess redness.||||0.41
92344006|NCT01125930|184590780|SUPERIORITY_OR_OTHER|||||||0.94|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess redness.||||0.94
92344007|NCT01125930|184590781|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess facial edema.||||0.15
92344008|NCT01125930|184590782|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess dry skin.||||0.13
92344009|NCT01125930|184590783|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Group comparison at Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||1.00
92399610|NCT03137654|184690761|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
92399611|NCT03137654|184690762|SUPERIORITY|||||||0.445|||||||ANOVA|||||||.445
92399612|NCT03137654|184690763|SUPERIORITY|||||||0.245|||||||ANOVA|||||||.245
92399613|NCT03583099|184690764|SUPERIORITY||Difference in proportion|4.0||||0.47|TWO_SIDED|95.0|-6.9|15.0|||generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||15.0|-6.9|0.47
92217758|NCT02187471|184335977|SUPERIORITY||Difference in least squares means|-0.434|STANDARD_ERROR_OF_MEAN|0.6245||0.4877|TWO_SIDED|95.0|-1.659|0.792|||ANCOVA|||Physical Component: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.792|-1.659|0.4877
92158021|NCT04060680|184202962|SUPERIORITY|The pre-specified Objective Performance Criterion (OPC) for the major complication free rate at 6 months is 0.79. If the lower confidence bound of two-sided 95% confidence interval for the freedom from the first major EV ICD System/procedure-related complication through 182 days post implant exceeds 0.79, the primary safety objective will be met. The freedom from the first major EV ICD System/procedure-related complication was estimated using the Kaplan-Meier method.|Major complication-free rate|92.6|||<|0.0001|TWO_SIDED|95.0|89.0|95.0||A priori threshold for statistical significance is 0.025|Kaplan-Meier method|||The primary safety objective is to demonstrate the freedom from major complications related to the EV ICD System and/or procedure at 6 months post-implant exceeds an OPC of 79%. H0: p ≤ 0.79 HA: p \> 0.79, where p denotes the 6-month (182 days) freedom from major EV ICD System/procedure-related complications rate.||95.0|89.0|<0.0001
92158022|NCT04060680|184202963|SUPERIORITY|The pre-specified OPC for the EV ICD defibrillation testing success at implant is 0.88. If the lower confidence bound of two-sided 95% confidence interval for the proportion of EV ICD patients achieving defibrillation testing success at implant exceeds 0.88, the primary efficacy objective will be met. The primary efficacy objective will be evaluated using a one-proportion binomial exact test along with a two-sided 95% Clopper-Pearson confidence bound.|Proportion|98.7|||<|0.0001|TWO_SIDED|95.0|96.6|99.6||A priori threshold for statistical significance is 0.025|One-proportion binomial exact test|||The primary efficacy is to demonstrate the EV ICD defibrillation testing success rate at implant is greater than an OPC of 88%. H0: p ≤ 0.88 HA: p \> 0.88, where p denotes the probability of EV ICD defibrillation success at implant.||99.6|96.6|<0.0001
92217759|NCT02187471|184335977|SUPERIORITY||Difference in least squares means|-0.137|STANDARD_ERROR_OF_MEAN|0.6252||0.8263|TWO_SIDED|95.0|-1.364|1.089|||ANCOVA|||Physical Component: Pregabalin 150 mg BID vs DS-5565 15 mg BID||1.089|-1.364|0.8263
92217760|NCT02187471|184335977|SUPERIORITY||Difference in least squares means|0.228|STANDARD_ERROR_OF_MEAN|0.7345||0.7567|TWO_SIDED|95.0|-1.213|1.669|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg QD||1.669|-1.213|0.7567
92344010|NCT01125930|184590784|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial burning.||||0.75
92344011|NCT01125930|184590785|SUPERIORITY_OR_OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial stinging.||||0.68
92344012|NCT01125930|184590786|SUPERIORITY_OR_OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an overall self-assessment of product tolerance.||||0.77
92344013|NCT01125930|184590787|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess telangiectasia.||||0.41
92344014|NCT01125930|184590787|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess telangiectasia.||||1.00
92344015|NCT01125930|184590787|SUPERIORITY_OR_OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess telangiectasia.||||0.96
92344016|NCT01125930|184590787|SUPERIORITY_OR_OTHER|||||||0.91|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess telangiectasia.||||0.91
92344017|NCT01125930|184590788|SUPERIORITY_OR_OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess facial edema.||||0.29
92158023|NCT05458102|184202980|OTHER||Geometric Least-squares Mean Ratio|560.0|||||TWO_SIDED|90.0|414.0|757.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||757|414|
92158024|NCT05458102|184202980|OTHER||Geometric Least-squares Mean Ratio|137.0|||||TWO_SIDED|90.0|99.5|189.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||189|99.5|
92158025|NCT05458102|184202981|OTHER||Geometric Least-squares Mean Ratio|433.0|||||TWO_SIDED|90.0|347.0|540.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||540|347|
92158026|NCT05458102|184202981|OTHER||Geometric Least-squares Mean Ratio|118.0|||||TWO_SIDED|90.0|93.5|150.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||150|93.5|
92158027|NCT05458102|184202982|OTHER||Geometric Least-squares Mean Ratio|752.0|||||TWO_SIDED|90.0|525.0|1080.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||1080|525|
92158028|NCT05458102|184202982|OTHER||Geometric Least-squares Mean Ratio|118.0|||||TWO_SIDED|90.0|80.3|172.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||172|80.3|
92344018|NCT01125930|184590788|SUPERIORITY_OR_OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess facial edema.||||0.29
92158029|NCT05458102|184202984|OTHER||Geometric Least-squares Mean Ratio|68.5|||||TWO_SIDED|90.0|45.5|103.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||103|45.5|
92158030|NCT05458102|184202984|OTHER||Geometric Least-squares Mean Ratio|65.4|||||TWO_SIDED|90.0|42.5|101.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||101|42.5|
92158031|NCT05458102|184202988|OTHER||Geometric Least-squares Mean Ratio|120.0|||||TWO_SIDED|90.0|104.0|138.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||138|104|
92158032|NCT05458102|184202988|OTHER||Geometric Least-squares Mean Ratio|111.0|||||TWO_SIDED|90.0|95.4|128.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||128|95.4|
92158033|NCT02373813|184203000|SUPERIORITY||Risk Difference (RD)|20.8|STANDARD_ERROR_OF_MEAN|6.7||0.004|TWO_SIDED|95.0|7.6|33.9||The risk difference and its p-value were estimated from the chi-squared test with continuity correction.|Chi-squared, Corrected|||||33.9|7.6|0.004
92158034|NCT02373813|184203001|SUPERIORITY||Risk Difference (RD)|24.2|STANDARD_ERROR_OF_MEAN|8.3||0.006|TWO_SIDED|95.0|7.9|40.5||The risk difference and its p-value were estimated from the chi-squared test with continuity correction.|Chi-squared, Corrected|||||40.5|7.9|0.006
92158035|NCT02373813|184203002|SUPERIORITY||Treatment Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.19||0.58|TWO_SIDED|95.0|-0.48|0.27|||two sample t-test|||Baseline||0.27|-0.48|0.58
92158036|NCT02373813|184203002|SUPERIORITY||Treatment Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.17||0.85|TWO_SIDED|95.0|-0.37|0.31|||two sample t-test|||Baseline||0.31|-0.37|0.85
92158037|NCT02373813|184203002|SUPERIORITY||Treatment Difference|-2.61|STANDARD_ERROR_OF_MEAN|1.66||0.12|TWO_SIDED|95.0|-5.89|0.67|||two sample t-test|||Week 12||0.67|-5.89|0.12
92217761|NCT02187471|184335977|SUPERIORITY||Difference in least squares means|0.7349|STANDARD_ERROR_OF_MEAN|0.7349||0.0787|TWO_SIDED|95.0|-0.149|2.735|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg BID||2.735|-0.149|0.0787
92217762|NCT02187471|184335977|SUPERIORITY||Difference in least squares means|0.7358|STANDARD_ERROR_OF_MEAN|0.7358||0.3516|TWO_SIDED|95.0|-0.758|2.129|||ANCOVA|||Mental Component: Placebo vs Pregabalin 150 mg BID||2.129|-0.758|0.3516
92344019|NCT01125930|184590788|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess facial edema.||||0.15
92158038|NCT02373813|184203002|SUPERIORITY||Treatment Difference|-2.64|STANDARD_ERROR_OF_MEAN|1.26||0.037|TWO_SIDED|95.0|-5.12|-0.16|||two sample t-test|||Week 12||-0.16|-5.12|0.037
92158039|NCT02373813|184203002|SUPERIORITY||Treatment Difference|-2.33|STANDARD_ERROR_OF_MEAN|1.46||0.063|TWO_SIDED|95.0|-4.8|0.13|||two sample t-test|||Week 24||0.13|-4.80|0.063
92158040|NCT02373813|184203002|SUPERIORITY||Treatment Difference|-0.63|STANDARD_ERROR_OF_MEAN|1.34||0.64|TWO_SIDED|95.0|-3.27|2.01|||two sample t-test|||Week 24||2.01|-3.27|0.64
92158041|NCT02373813|184203002|SUPERIORITY||Treatment Difference|-1.62|STANDARD_ERROR_OF_MEAN|0.9||0.031|TWO_SIDED|95.0|-3.09|-0.15|||two sample t-test|||Week 36||-0.15|-3.09|0.031
92158042|NCT02373813|184203002|SUPERIORITY||Treatment Difference|-1.77|STANDARD_ERROR_OF_MEAN|0.71||0.015|TWO_SIDED|95.0|-3.2|-0.35|||two sample t-test|||Week 36||-0.35|-3.20|0.015
92158043|NCT02373813|184203002|SUPERIORITY||Treatment Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.87||0.58|TWO_SIDED|95.0|-2.55|1.45|||two sample t-test|||Week 48||1.45|-2.55|0.58
92158044|NCT02373813|184203002|SUPERIORITY||Treatment Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.45||0.02|TWO_SIDED|95.0|-1.99|-0.17|||two sample t-test|||Week 48||-0.17|-1.99|0.020
92158045|NCT02373813|184203003|SUPERIORITY||Treatment Difference|-2.46|STANDARD_ERROR_OF_MEAN|1.63||0.13|TWO_SIDED|95.0|-5.68|0.77|||two sample t-test|||Change at Week 12||0.77|-5.68|0.13
92158046|NCT02373813|184203003|SUPERIORITY||Treatment Difference|-2.53|STANDARD_ERROR_OF_MEAN|1.25||0.045|TWO_SIDED|95.0|-4.99|-0.06|||two sample t-test|||Change at Week 12||-0.06|-4.99|0.045
92158047|NCT02373813|184203003|SUPERIORITY||Treatment Difference|-2.27|STANDARD_ERROR_OF_MEAN|1.45||0.071|TWO_SIDED|95.0|-4.75|0.2|||two sample t-test|||Change at Week 24||0.20|-4.75|0.071
92158048|NCT02373813|184203003|SUPERIORITY||Treatment Difference|-0.64|STANDARD_ERROR_OF_MEAN|1.34||0.63|TWO_SIDED|95.0|-3.28|2.0|||two sample t-test|||Change at Week 24||2.00|-3.28|0.63
92158049|NCT02373813|184203003|SUPERIORITY||Treatment Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.91||0.037|TWO_SIDED|95.0|-3.11|-0.1|||two sample t-test|||Change at Week 36||-0.10|-3.11|0.037
92158050|NCT02373813|184203003|SUPERIORITY||Treatment Difference|-1.84|STANDARD_ERROR_OF_MEAN|0.73||0.013|TWO_SIDED|95.0|-3.3|-0.39|||two sample t-test|||Change at Week 36||-0.39|-3.30|0.013
92158051|NCT02373813|184203003|SUPERIORITY||Treatment Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.88||0.62|TWO_SIDED|95.0|-2.54|1.53|||two sample t-test|||Change at Week 48||1.53|-2.54|0.62
92158052|NCT02373813|184203003|SUPERIORITY||Treatment Difference|-1.12|STANDARD_ERROR_OF_MEAN|0.45||0.015|TWO_SIDED|95.0|-2.02|-0.22|||two sample t-test|||Change at Week 48||-0.22|-2.02|0.015
92158053|NCT02373813|184203004|SUPERIORITY||Treatment Difference|0.04|STANDARD_ERROR_OF_MEAN|0.11||0.75|TWO_SIDED|95.0|-0.19|0.26|||two sample t-test|||Baseline||0.26|-0.19|0.75
92217763|NCT02187471|184335977|SUPERIORITY||Difference in least squares means|-0.458|STANDARD_ERROR_OF_MEAN|0.7372||0.5344|TWO_SIDED|95.0|-1.905|0.988|||ANCOVA|||Mental Component: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.988|-1.905|0.5344
92217764|NCT02187471|184335977|SUPERIORITY||Difference in least squares means|0.607|STANDARD_ERROR_OF_MEAN|0.7379||0.4107|TWO_SIDED|95.0|-0.84|2.055|||ANCOVA|||Mental Component: Pregabalin 150 mg BID vs DS-5565 15 mg BID||2.055|-0.840|0.4107
92158054|NCT02373813|184203004|SUPERIORITY||Treatment Difference|0.08|STANDARD_ERROR_OF_MEAN|0.1||0.43|TWO_SIDED|95.0|-0.11|0.27|||two sample t-test|||Baseline||0.27|-0.11|0.43
92158055|NCT02373813|184203004|SUPERIORITY||Treatment Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.23||0.049|TWO_SIDED|95.0|-0.91|0.0|||two sample t-test|||Week 12||0.00|-0.91|0.049
92344020|NCT01125930|184590788|SUPERIORITY_OR_OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess facial edema.||||0.29
92344021|NCT01125930|184590789|SUPERIORITY_OR_OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess dry skin.||||0.54
92344022|NCT01125930|184590789|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess dry skin.||||0.06
92344023|NCT01125930|184590789|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess dry skin.||||0.02
92344024|NCT01125930|184590789|SUPERIORITY_OR_OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess dry skin.||||0.09
92344025|NCT01125930|184590790|SUPERIORITY_OR_OTHER|||||||0.18|||||||Fisher Exact|||Group comparison at Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have different values than the other.||||0.18
92344026|NCT01125930|184590790|SUPERIORITY_OR_OTHER|||||||0.7|||||||Fisher Exact|||Group comparison at Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have different values than the other.||||0.70
92344027|NCT01125930|184590790|SUPERIORITY_OR_OTHER|||||||0.7|||||||Fisher Exact|||Group comparison at Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have different values than the other.||||0.70
92344028|NCT01125930|184590790|SUPERIORITY_OR_OTHER|||||||0.35|||||||Fisher Exact|||Group comparison at Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have different values than the other.||||0.35
92344029|NCT01125930|184590791|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial burning.||||0.80
92344030|NCT01125930|184590791|SUPERIORITY_OR_OTHER|||||||0.31|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial burning.||||0.31
92344031|NCT01125930|184590791|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial burning.||||0.25
92344032|NCT01125930|184590791|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial burning.||||0.46
92158056|NCT02373813|184203004|SUPERIORITY||Treatment Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.032|TWO_SIDED|95.0|-0.77|-0.04|||two sample t-test|||Week 12||-0.04|-0.77|0.032
92158057|NCT02373813|184203004|SUPERIORITY||Treatment Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.2||0.18|TWO_SIDED|95.0|-0.58|0.11|||two sample t-test|||Week 24||0.11|-0.58|0.18
92158058|NCT02373813|184203004|SUPERIORITY||Treatment Difference|0.14|STANDARD_ERROR_OF_MEAN|0.19||0.48|TWO_SIDED|95.0|-0.24|0.51|||two sample t-test|||Week 24||0.51|-0.24|0.48
92344033|NCT01125930|184590792|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial stinging.||||0.41
92344034|NCT01125930|184590792|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial stinging.||||0.05
92158059|NCT02373813|184203004|SUPERIORITY||Treatment Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.17||0.35|TWO_SIDED|95.0|-0.51|0.18|||two sample t-test|||Week 36||0.18|-0.51|0.35
92158060|NCT02373813|184203004|SUPERIORITY||Treatment Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.28|TWO_SIDED|95.0|-0.41|0.12|||two sample t-test|||Week 36||0.12|-0.41|0.28
92158061|NCT02373813|184203004|SUPERIORITY||Treatment Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.16||0.48|TWO_SIDED|95.0|-0.44|0.21|||two sample t-test|||Week 48||0.21|-0.44|0.48
92217765|NCT02187471|184335978|SUPERIORITY||Difference in least squares means|0.0203|STANDARD_ERROR_OF_MEAN|0.01369||0.1394|TWO_SIDED|95.0|-0.0066|0.0471|||ANCOVA|||||0.0471|-0.0066|0.1394
92217766|NCT02187471|184335978|SUPERIORITY||Difference in least squares means|0.0211|STANDARD_ERROR_OF_MEAN|0.01369||0.1237|TWO_SIDED|95.0|-0.0058|0.048|||ANCOVA|||||0.0480|-0.0058|0.1237
92217767|NCT02187471|184335978|SUPERIORITY||Difference in least squares means|0.0386|STANDARD_ERROR_OF_MEAN|0.01371||0.0049|TWO_SIDED|95.0|0.0117|0.0655|||ANCOVA|||||0.0655|0.0117|0.0049
92217768|NCT02187471|184335978|SUPERIORITY||Difference in least squares means|-0.0184|STANDARD_ERROR_OF_MEAN|0.01378||0.1824|TWO_SIDED|95.0|-0.0454|0.0086|||ANCOVA|||||0.0086|-0.0454|0.1824
92217769|NCT02187471|184335978|SUPERIORITY||Difference in least squares means|-0.0175|STANDARD_ERROR_OF_MEAN|0.01378||0.2036|TWO_SIDED|95.0|-0.0446|0.0095|||ANCOVA|||||0.0095|-0.0446|0.2036
92344035|NCT01125930|184590792|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial stinging.||||0.16
92344036|NCT01125930|184590792|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial stinging.||||0.14
92344037|NCT01125930|184590793|SUPERIORITY_OR_OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an overall self-assessment of product tolerance.||||0.36
92344038|NCT01125930|184590793|SUPERIORITY_OR_OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an overall self-assessment of product tolerance.||||0.88
92158062|NCT02373813|184203004|SUPERIORITY||Treatment Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.13||0.92|TWO_SIDED|95.0|-0.26|0.24|||two sample t-test|||Week 48||0.24|-0.26|0.92
92158063|NCT02373813|184203005|SUPERIORITY||Treatment Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.22||0.032|TWO_SIDED|95.0|-0.91|-0.04|||two sample t-test|||Change at Week 12||-0.04|-0.91|0.032
92158064|NCT02373813|184203005|SUPERIORITY||Treatment Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.16||0.005|TWO_SIDED|95.0|-0.78|-0.15|||two sample t-test|||Change at Week 12||-0.15|-0.78|0.005
92158065|NCT02373813|184203005|SUPERIORITY||Treatment Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.18||0.058|TWO_SIDED|95.0|-0.63|0.01|||two sample t-test|||Change at Week 24||0.01|-0.63|0.058
92158066|NCT02373813|184203005|SUPERIORITY||Treatment Difference|0.05|STANDARD_ERROR_OF_MEAN|0.17||0.78|TWO_SIDED|95.0|-0.29|0.38|||two sample t-test|||Change at Week 24||0.38|-0.29|0.78
92217770|NCT02187471|184335979|SUPERIORITY||Difference in least squares means|-0.56|STANDARD_ERROR_OF_MEAN|0.162||0.0006|TWO_SIDED|95.0|-0.87|-0.24|||Mixed Models Analysis|||||-0.24|-0.87|0.0006
92217771|NCT02187471|184335979|SUPERIORITY||Difference in least squares means|-0.88|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.2|-0.57|||Mixed Models Analysis|||||-0.57|-1.20|<0.0001
92217772|NCT02187471|184335979|SUPERIORITY||Difference in least squares means|-0.95|STANDARD_ERROR_OF_MEAN|0.161|<|0.0001|TWO_SIDED|95.0|-1.27|-0.63|||Mixed Models Analysis|||||-0.63|-1.27|<0.0001
92217773|NCT02187471|184335979|SUPERIORITY||Difference in least squares means|0.39|STANDARD_ERROR_OF_MEAN|0.162||0.0158|TWO_SIDED|95.0|0.07|0.71|||Mixed Models Analysis|||||0.71|0.07|0.0158
92217774|NCT02187471|184335979|SUPERIORITY||Difference in least squares means|0.07|STANDARD_ERROR_OF_MEAN|0.161||0.6819|TWO_SIDED|95.0|-0.25|0.38|||Mixed Models Analysis|||||0.38|-0.25|0.6819
92217775|NCT02187471|184335981|SUPERIORITY||Difference of least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||ANCOVA|||Worst pain: Placebo vs Pregabalin 150 mg BID||-0.4|-1.2|<0.0001
92217776|NCT02187471|184335981|SUPERIORITY||Difference of least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.2005|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg QD||0.1|-0.6|0.2005
92217777|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|95.0|-1.0|-0.3|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg BID||-0.3|-1.0|0.0010
92158067|NCT02373813|184203005|SUPERIORITY||Treatment Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.16||0.27|TWO_SIDED|95.0|-0.49|0.14|||two sample t-test|||Change at Week 36||0.14|-0.49|0.27
92158068|NCT02373813|184203005|SUPERIORITY||Treatment Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.12||0.078|TWO_SIDED|95.0|-0.47|0.03|||two sample t-test|||Change at Week 36||0.03|-0.47|0.078
92158069|NCT02373813|184203005|SUPERIORITY||Treatment Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.16||0.47|TWO_SIDED|95.0|-0.43|0.2|||two sample t-test|||Week 48||0.20|-0.43|0.47
92217778|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|0.6|STANDARD_ERROR_OF_MEAN|0.19||0.003|TWO_SIDED|95.0|0.2|1.0|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||1.0|0.2|0.0030
92217779|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.19||0.3351|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.6|-0.2|0.3351
92217780|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.1|-0.4|||ANCOVA|||Least pain: Placebo vs Pregabalin 150 mg BID||-0.4|-1.1|<0.0001
92217781|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0782|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg QD||0.0|-0.7|0.0782
92344039|NCT01125930|184590793|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an overall self-assessment of product tolerance.||||0.18
92344040|NCT01125930|184590793|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an overall self-assessment of product tolerance.||||0.17
92344041|NCT01125930|184590794|SUPERIORITY_OR_OTHER|||||||0.21|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial stinging upon product application.||||0.21
92344042|NCT01125930|184590794|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial stinging upon product application.||||<0.01
92344043|NCT01125930|184590794|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial stinging upon product application.||||0.04
92344044|NCT01125930|184590794|SUPERIORITY_OR_OTHER|||||||0.1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial stinging upon product application.||||0.10
92344045|NCT01125930|184590795|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial itching upon product application.||||1.00
92344046|NCT01125930|184590795|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial itching upon product application.||||0.02
92344047|NCT01125930|184590795|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial itching upon product application.||||0.08
92158070|NCT02373813|184203005|SUPERIORITY||Treatment Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.39|TWO_SIDED|95.0|-0.33|0.13|||two sample t-test|||Change at Week 48||0.13|-0.33|0.39
92158071|NCT02373813|184203006|SUPERIORITY||Treatment Difference|0.03|STANDARD_ERROR_OF_MEAN|0.06||0.6|TWO_SIDED|95.0|-0.09|0.15|||two sample t-test|||Baseline||0.15|-0.09|0.60
92217782|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0068|TWO_SIDED|95.0|-0.9|-0.1|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg BID||-0.1|-0.9|0.0068
92217783|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0169|TWO_SIDED|95.0|0.1|0.8|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|0.1|0.0169
92217784|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.19||0.1481|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.6|-0.1|0.1481
92344048|NCT01125930|184590795|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial itching upon product application.||||0.15
92344049|NCT01125930|184590796|SUPERIORITY_OR_OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial burning upon product application.||||0.67
92344050|NCT01125930|184590796|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial burning upon product application.||||0.18
92217785|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.1|-0.4|||ANCOVA|||Average pain: Placebo vs Pregabalin 150 mg BID||-0.4|-1.1|<0.0001
92217786|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0088|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg QD||-0.1|-0.8|0.0088
92158072|NCT02373813|184203006|SUPERIORITY||Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.97|TWO_SIDED|95.0|-0.1|0.1|||two sample t-test|||Baseline||0.10|-0.10|0.97
92158073|NCT02373813|184203006|SUPERIORITY||Treatment Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.2||0.044|TWO_SIDED|95.0|-0.82|-0.01|||two sample t-test|||Week 12||-0.01|-0.82|0.044
92158074|NCT02373813|184203006|SUPERIORITY||Treatment Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.16||0.004|TWO_SIDED|95.0|-0.76|-0.14|||two sample t-test|||Week 12||-0.14|-0.76|0.004
92344051|NCT01125930|184590796|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 21 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial burning upon product application.||||0.02
92344052|NCT01125930|184590796|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial burning upon product application.||||0.42
92344053|NCT02741284|184590797|NON_INFERIORITY|A noninferiority margin of 30% (mean difference \<1.0 mmol/l) was pre-specified as it corresponds to an upper umbilical artery lactate cut-off value of 4.5 mmol/L, above which there is an increased risk of neonatal morbidity|Mean Difference (Final Values)|0.1||||0.69|TWO_SIDED|95.0|-0.5|0.7|||Wilcoxon (Mann-Whitney)|||||0.7|-0.5|0.69
92344054|NCT02741284|184590798|NON_INFERIORITY|Noninferiority margin 30%|Mean Difference (Final Values)|0.01|||<|0.05|TWO_SIDED|95.0|-0.01|0.03|||t-test, 2 sided|||pH||0.03|-0.01|<0.05
92344055|NCT02741284|184590799|SUPERIORITY||Risk Ratio (RR)|0.32|||<|0.05|TWO_SIDED|95.0|0.07|1.48|||Chi-squared|||Cesarean delivery||1.48|0.07|<0.05
92344056|NCT02741284|184590799|SUPERIORITY||Risk Ratio (RR)|0.0|||<|0.05|TWO_SIDED|95.0|0.0|0.0|||Chi-squared|||Cesarean delivery for non reassuring fetal status||0|0|<0.05
92344057|NCT02741284|184590799|SUPERIORITY||Risk Ratio (RR)|5.65|||<|0.05|TWO_SIDED|95.0|0.71|45.2|||Chi-squared|||Operative vaginal delivery||45.20|0.71|<0.05
92344058|NCT02741284|184590800|SUPERIORITY||Mean Difference (Net)|-1.5||||0.44|TWO_SIDED|95.0|-5.4|2.4|||t-test, 2 sided|||||2.4|-5.4|0.44
92344059|NCT02741284|184590801|SUPERIORITY||Mean Difference (Net)|-4.7||||0.06|TWO_SIDED|95.0|-9.6|0.1|||t-test, 2 sided|||||0.1|-9.6|0.06
92344060|NCT02741284|184590802|SUPERIORITY||Mean Difference (Net)|0.0||||0.99|TWO_SIDED|95.0|-1.0|1.0|||t-test, 2 sided|||||1.0|-1.0|0.99
92344061|NCT00447083|184590826|OTHER|||||||0.1811|||||||t-test, 2 sided|||||||.1811
92217787|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.17||0.0005|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg BID||-0.3|-0.9|0.0005
92217788|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0627|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.0|0.0627
92344062|NCT03363906|184590827|SUPERIORITY||Ratio Geometric Least Squares (LS) Mean|1.04||||0.473|TWO_SIDED|90.0|0.949|1.14|||Mixed Models Analysis|||||1.14|0.949|0.473
92344063|NCT03363906|184590828|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.119|TWO_SIDED|90.0|0.993|1.3|||ANOVA|||||1.30|0.993|0.119
92344064|NCT00676143|184590829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.979|TWO_SIDED|95.0|-1.18|1.22||Primary variable ADAS-Cog/11 total score had to reach statistical significance, p-values had to reach p \<=0.05, in order to be declared effective.|Mixed Models Analysis|||"Change in ADAS-Cog/11 total score was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.~The number of participants in each group gave 90% power to detect a 2.21 point advantage for the bapineuzumab group over placebo on the ADAS-Cog/11 total score, at the primary time point (Week 78). This calculation was based on a two-sided test with an alpha of 0.05."||1.22|-1.18|0.979
92344065|NCT00676143|184590830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.973|TWO_SIDED|95.0|-2.51|2.6||Primary variable DAD total score had to reach statistical significance, p-values had to reach p \<=0.05, in order to be declared effective.|Mixed Models Analysis|||"Change in DAD total score was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.~The number of participants in each group gave 90% power to detect a 5.39 unit advantage for the bapineuzumab group over placebo on the DAD total score, at the primary time point (Week 78). This calculation was based on a two-sided test with an alpha of 0.05."||2.60|-2.51|0.973
92217789|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.17||0.3064|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.2|0.3064
92217790|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||ANCOVA|||Pain right now: Placebo vs Pregabalin 150 mg BID||-0.4|-1.2|<0.0001
92344066|NCT00676143|184590831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.159|TWO_SIDED|95.0|-0.17|0.03|||Mixed Models Analysis|||"Change in PIB PET SUVr was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.~The number of participants gave 90% power to detect a 0.152 unit advantage for the bapineuzumab group over placebo for PiB PET binding at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05."||0.03|-0.17|0.159
92344067|NCT00676143|184590832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38||||0.62|TWO_SIDED|95.0|-6.89|4.13|||ANCOVA|||Change in CSF phospho-tau was analyzed using an analysis of covariance (ANCOVA) model. The analysis was based on the treatment difference estimated at Week 71 based on appropriate contrasts or LS means. The number of participants gave 90% power to detect a 13-ng/L advantage in phospho-tau for the bapineuzumab group over placebo at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05.||4.13|-6.89|0.620
92344068|NCT00676143|184590833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.884|TWO_SIDED|95.0|-1.89|1.63|||Mixed Models Analysis|||"Change in MRI BBSI was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.~The number of participants gave 90% power to detect a 4.15-cm3 advantage for the bapineuzumab group over placebo on reduction in brain volume as measured by the BBSI at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05."||1.63|-1.89|0.884
92344069|NCT00676143|184590834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.7|TWO_SIDED|95.0|-0.97|1.45|||Mixed Models Analysis|||Treatment Difference: Bapineuzumab - Placebo||1.45|-0.97|0.700
92344070|NCT00676143|184590835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.949|TWO_SIDED|95.0|-2.61|2.78|||Mixed Models Analysis|||Treatment Difference: Bapineuzumab - Placebo||2.78|-2.61|0.949
92344071|NCT00676143|184590836|SUPERIORITY_OR_OTHER|||||||0.684|||||||Log Rank|||||||0.684
92344072|NCT00676143|184590837|SUPERIORITY_OR_OTHER|||||||0.383|||||||Log Rank|||||||0.383
92344073|NCT00676143|184590838|SUPERIORITY_OR_OTHER|||||||0.191|||||||Log Rank|||||||0.191
92344074|NCT00676143|184590839|SUPERIORITY_OR_OTHER|||||||0.478|||||||Log Rank|||||||0.478
92344075|NCT00676143|184590840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.462|TWO_SIDED|95.0|-0.41|0.13|||Mixed Models Analysis|||Change in DS total score was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.||0.13|-0.41|0.462
92344076|NCT00676143|184590842|SUPERIORITY_OR_OTHER|||||||0.086|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.086
92344077|NCT00676143|184590844|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.120
92344078|NCT00676143|184590845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.448|TWO_SIDED|95.0|-0.55|0.24|||Mixed Models Analysis|||Change in CDR-SOB total score was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.||0.24|-0.55|0.448
92344079|NCT01041859|184590925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.234|<|0.001|TWO_SIDED|95.0|-1.415|-0.493||Analysis of covariance (ANCOVA) model was used with treatment, dose level, and pooled analysis center as factors and baseline pain intensity score as a covariate|ANCOVA||Mean Difference is least squares mean change in DB Tapentadol ER group minus least squares mean change in DB Placebo group (based on ANCOVA model)|The primary null hypothesis to be tested for the study was that the tapentadol ER group was not different from the placebo group for the primary endpoint. Assuming the mean treatment group difference of 1.0 with an SD of 2.6, 144 subjects per treatment group were estimated to provide 90% power to show that the tapentadol ER group was statistically different from placebo at an alpha level of 0.05. The total number of subjects to be randomly assigned to a DB treatment group for the study was 300.||-0.493|-1.415|<0.001
92399614|NCT03583099|184690765|SUPERIORITY||Difference in proportion|10.4||||0.05|TWO_SIDED|95.0|0.1|20.7|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||20.7|0.1|0.05
92399615|NCT03583099|184690766|SUPERIORITY||Difference in proportion|1.3||||0.75|TWO_SIDED|95.0|-6.7|9.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||9.2|-6.7|0.75
92217791|NCT02187471|184335981|SUPERIORITY||Difference in least squares mean|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.0868|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg QD||0.0|-0.7|0.0868
92158075|NCT02373813|184203006|SUPERIORITY||Treatment Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.17||0.009|TWO_SIDED|95.0|-0.66|-0.1|||two sample t-test|||Week 24||-0.10|-0.66|0.009
92158076|NCT02373813|184203006|SUPERIORITY||Treatment Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.16||0.34|TWO_SIDED|95.0|-0.46|0.16|||two sample t-test|||Week 24||0.16|-0.46|0.34
92217792|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0004|TWO_SIDED|95.0|-1.1|-0.3|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg BID||-0.3|-1.1|0.0004
92217793|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0271|TWO_SIDED|95.0|0.1|0.8|||ANCOVA|||Pain right now: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|0.1|0.0271
92344080|NCT02027025|184590931|SUPERIORITY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.64||0.4532|TWO_SIDED|95.0|-1.73|0.78|||ANCOVA|||||0.78|-1.73|0.4532
92344081|NCT02027025|184590931|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.65||0.4704|TWO_SIDED|95.0|-1.76|0.82|||ANCOVA|||||0.82|-1.76|0.4704
92344082|NCT02027025|184590932|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.18||0.3013|TWO_SIDED|95.0|-0.56|0.17|||ANCOVA|||||0.17|-0.56|0.3013
92344083|NCT02027025|184590932|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.2994|TWO_SIDED|95.0|-0.58|0.18|||ANCOVA|||||0.18|-0.58|0.2994
92217794|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.6838|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Pain right now: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.3|0.6838
92217795|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.791|STANDARD_ERROR_OF_MEAN|0.172|<|0.0001|TWO_SIDED|95.0|-1.129|-0.454|||ANCOVA|||Severity score: Placebo vs Pregabalin 150 mg BID||-0.454|-1.129|<0.0001
92344084|NCT02027025|184590933|SUPERIORITY|||||||0.3815|||||||Chi-squared|||||||0.3815
92344085|NCT02027025|184590933|SUPERIORITY|||||||0.7491|||||||Chi-squared|||||||0.7491
92344086|NCT02027025|184590934|SUPERIORITY|||||||0.8991|||||||Chi-squared|||||||0.8991
92344087|NCT02027025|184590934|SUPERIORITY|||||||0.8829|||||||Chi-squared|||||||0.8829
92344088|NCT04609514|184590940|SUPERIORITY||Median Difference (Final Values)|10.95||||0.51|TWO_SIDED||||||Wilcoxon Rank Sum Test|||||||0.51
92344089|NCT04609514|184590941|SUPERIORITY||||||<|0.001|||||||Wilcoxon Rank Sum Test|||||||<0.001
92344090|NCT04609514|184590946|SUPERIORITY|||||||0.39||||||A robust Yuen's test was conducted with an apriori threshold of 0.05 for statistical significance. No covariates were introduced in the model.|Robust Yuen's test|||||||0.39
92344091|NCT04609514|184590947|SUPERIORITY|||||||0.4|||||||Robust Yuen's test|||||||0.40
92344092|NCT04609514|184590948|SUPERIORITY|||||||0.478|||||||Wilcoxon rank sum test|Wilcoxon rank sum test with continuity correction.||||||0.478
92344093|NCT04609514|184590949|SUPERIORITY|||||||0.51|||||||Wilcoxon rank sum test|Wilcoxon rank sum test with continuity correction.||||||0.51
92344094|NCT04609514|184590951|SUPERIORITY||Odds Ratio (OR)|1.185||||0.8392|TWO_SIDED|95.0|0.23|6.119|||Regression, Logistic|||||6.119|0.23|0.8392
92344095|NCT04609514|184590952|SUPERIORITY|||||||1|||||||Pearson's Chi-squared test|Pearson's Chi-squared test with Yates' continuity correction.||||||1.00
92399616|NCT03583099|184690767|SUPERIORITY||Difference in proportion|-2.7||||0.54|TWO_SIDED|95.0|-11.5|6.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||6.1|-11.5|0.54
92158077|NCT02373813|184203006|SUPERIORITY||Treatment Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.13||0.046|TWO_SIDED|95.0|-0.47|0.0|||two sample t-test|||Week 36||0.00|-0.47|0.046
92158078|NCT02373813|184203006|SUPERIORITY||Treatment Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.1||0.006|TWO_SIDED|95.0|-0.49|-0.08|||two sample t-test|||Week 36||-0.08|-0.49|0.006
92217796|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.33|STANDARD_ERROR_OF_MEAN|0.1718||0.0552|TWO_SIDED|95.0|-0.667|0.007|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg QD||0.007|-0.667|0.0552
92217797|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-0.612|STANDARD_ERROR_OF_MEAN|0.1718||0.0004|TWO_SIDED|95.0|-0.95|-0.275|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg BID||-0.275|-0.950|0.0004
92217798|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|0.462|STANDARD_ERROR_OF_MEAN|0.1729||0.0077|TWO_SIDED|95.0|0.122|0.801|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.801|0.122|0.0077
92217799|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|0.179|STANDARD_ERROR_OF_MEAN|0.173||0.3014|TWO_SIDED|95.0|-0.161|0.518|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.518|-0.161|0.3014
92217800|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|9.6|STANDARD_ERROR_OF_MEAN|2.4|<|0.0001|TWO_SIDED|95.0|4.9|14.3|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs Pregabalin 150 mg BID||14.3|4.9|<0.0001
92217801|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|8.5|STANDARD_ERROR_OF_MEAN|2.39||0.0004|TWO_SIDED|95.0|3.8|13.2|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs DS-5565 15 mg QD||13.2|3.8|0.0004
92344096|NCT00828711|184590957|SUPERIORITY_OR_OTHER||Difference in Proportions|12.2||||0.057|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Adjusted for site effect|MVI 200 - MVI 100|The primary objective of this study is to compare the efficacy of MVI 100 and MVI 200 based on the proportion of vaginal deliveries within 24 hours. A minimum sample size of approximately 120 subjects per arm would provide 84 subjects per arm with vaginal delivery, which would ensure \>80% power (with two-sided alpha of 5%) to detect a 20% improvement in the proportion of women delivering vaginally within 24 hours||||0.057
92344097|NCT00828711|184590958|SUPERIORITY_OR_OTHER||Median Difference (Net)|-563.0||||0.018|TWO_SIDED|95.0|||||Log Rank||MVI 200 - MVI 100|Subjects who underwent a cesarean delivery during the first hospitalization were censored using the longest time interval from study drug administration to cesarean delivery during the first hospitalization, independent of treatment group. Subjects who, in their first hospitalization, were discharged prior to delivery or withdrew consent prior to delivery were censored using the longest time interval from study drug administration to labor and delivery discharge, independent of treatment group.||||0.018
92344098|NCT00828711|184590960|SUPERIORITY_OR_OTHER||Difference in Proportions|-8.46||||0.153|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - MVI 100|||||0.153
92344099|NCT00828711|184590961|SUPERIORITY_OR_OTHER||Difference in Proportions|2.37||||0.65|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Adjusted for site effect|MVI 200 - MVI 100|||||0.65
92344100|NCT00828711|184590962|SUPERIORITY_OR_OTHER||Difference in Proportions|-22.09|||<|0.001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Adjusted for site effect|MVI 200 - MVI 100|||||<.001
92399617|NCT03583099|184690768|SUPERIORITY||Difference in proportion|5.1||||0.16|TWO_SIDED|95.0|-2.1|12.3|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.3|-2.1|0.16
92344101|NCT00828711|184590964|SUPERIORITY_OR_OTHER||Median Difference (Net)|-368.0||||0.007|TWO_SIDED|95.0|||||Log Rank||MVI 200 - MVI 100|Subjects who never went into active labor during the first hospitalization were censored using the longest time interval from study drug administration to delivery during the first hospitalization, independent of treatment group. Subjects who, in their first hospitalization, were discharged prior to delivery or withdraw consent prior to delivery will be censored using the longest time interval from study drug administration to labor and delivery discharge, independent of treatment group.||||0.007
92217802|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|10.4|STANDARD_ERROR_OF_MEAN|2.39|<|0.0001|TWO_SIDED|95.0|5.7|15.1|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs DS-5565 15 mg BID||15.1|5.7|<0.0001
92217803|NCT02187471|184335981|SUPERIORITY||Difference in least squares means|-1.1|STANDARD_ERROR_OF_MEAN|2.41||0.6449|TWO_SIDED|95.0|-5.8|3.6|||ANCOVA|||Relief (%) by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||3.6|-5.8|0.6449
92217804|NCT02187471|184335981|SUPERIORITY||Difference in least square means|0.8|STANDARD_ERROR_OF_MEAN|2.41||0.734|TWO_SIDED|95.0|-3.9|5.5|||ANCOVA|||Relief (%) by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||5.5|-3.9|0.7340
92217805|NCT02187471|184335982|SUPERIORITY||Difference in least squares means|-0.016|STANDARD_ERROR_OF_MEAN|0.0225||0.4816|TWO_SIDED|95.0|-0.06|0.028|||ANCOVA|||||0.028|-0.060|0.4816
92217806|NCT02187471|184335982|SUPERIORITY||Difference in least square means|-0.064|STANDARD_ERROR_OF_MEAN|0.0225||0.0044|TWO_SIDED|95.0|-0.109|-0.02|||ANCOVA|||||-0.020|-.109|0.0044
92344102|NCT01618968|184590967|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference Ratio|127.99|||||TWO_SIDED|90.0|121.61|134.7||||||To compare the relative bioavailability of methotrexate (MTX) following oral administration to that obtained after subcutaneous (SC) injection into the abdomen using the VIBEX MTX device by measuring the area under the curve from time zero to the last measurable concentration AUC(0-inf).||134.70|121.61|
92399618|NCT03583099|184690769|SUPERIORITY||Difference in proportion|-0.6||||0.82|TWO_SIDED|95.0|-6.4|5.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||5.1|-6.4|0.82
92217807|NCT02187471|184335982|SUPERIORITY||Difference in least squares means|-0.074|STANDARD_ERROR_OF_MEAN|0.0226||0.001|TWO_SIDED|95.0|-0.119|-0.03|||ANCOVA|||||-0.030|-0.119|0.0010
92217808|NCT02187471|184335982|SUPERIORITY||Difference in least squares means|0.059|STANDARD_ERROR_OF_MEAN|0.0226||0.0094|TWO_SIDED|95.0|0.014|0.103|||ANCOVA|||||0.103|0.014|0.0094
92217809|NCT02187471|184335982|SUPERIORITY||Difference in least squares means|0.01|STANDARD_ERROR_OF_MEAN|0.0226||0.6527|TWO_SIDED|95.0|-0.034|0.055|||ANCOVA|||||0.055|-0.034|0.6527
92217810|NCT02318667|184335990|OTHER|||||||0.0074|||||||t-test, 2 sided|||||||0.0074
92217811|NCT02318667|184335991|OTHER|||||||0.1506|||||||t-test, 2 sided|||||||0.1506
92217812|NCT01735279|184336024|OTHER|Test t Student|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92217813|NCT01735279|184336024|SUPERIORITY||Mean Difference (Final Values)|30.84|||<|0.01|ONE_SIDED|95.0|||||ANOVA|||||||<0.01
92217814|NCT01735279|184336024|SUPERIORITY||Mean Difference (Final Values)|0.002|||<|0.01|TWO_SIDED||||||t-test, 1 sided|||||||<0.01
92217815|NCT01735279|184336024|SUPERIORITY||Mean Difference (Final Values)|4.4|||<|0.01|ONE_SIDED||||||t-test, 1 sided|||||||<0.01
92158079|NCT02373813|184203006|SUPERIORITY||Treatment Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.25|TWO_SIDED|95.0|-0.4|-0.1|||two sample t-test|||Week 48||-0.10|-0.40|0.25
92399619|NCT03583099|184690770|SUPERIORITY||Difference in proportion|-6.3||||0.06|TWO_SIDED|95.0|-13.0|0.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||0.4|-13.0|0.06
92158080|NCT02373813|184203006|SUPERIORITY||Treatment Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.021|TWO_SIDED|95.0|-0.37|-0.03|||two sample t-test|||Week 48||-0.03|-0.37|0.021
92158081|NCT02373813|184203007|SUPERIORITY||Treatment Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.2||0.03|TWO_SIDED|95.0|-0.82|-0.04|||two sample t-test|||Change at Week 12||-0.04|-0.82|0.030
92158082|NCT02373813|184203007|SUPERIORITY||Treatment Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.15||0.005|TWO_SIDED|95.0|-0.72|-0.13|||two sample t-test|||Change at Week 12||-0.13|-0.72|0.005
92158083|NCT02373813|184203007|SUPERIORITY||Treatment Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.16||0.002|TWO_SIDED|95.0|-0.69|-0.15|||two sample t-test|||Change at Week 24||-0.15|-0.69|0.002
92158084|NCT02373813|184203007|SUPERIORITY||Treatment Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.16||0.34|TWO_SIDED|95.0|-0.46|0.16|||two sample t-test|||Change at Week 24||0.16|-0.46|0.34
92158085|NCT02373813|184203007|SUPERIORITY||Treatment Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.13||0.014|TWO_SIDED|95.0|-0.52|-0.06|||two sample t-test|||Change at Week 36||-0.06|-0.52|0.014
92158086|NCT02373813|184203007|SUPERIORITY||Treatment Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.004|TWO_SIDED|95.0|-0.51|-0.1|||two sample t-test|||Change at Week 36||-0.10|-0.51|0.004
92158087|NCT02373813|184203007|SUPERIORITY||Treatment Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.12||0.12|TWO_SIDED|95.0|-0.43|0.05|||two sample t-test|||Change at Week 48||0.05|-0.43|0.12
92158088|NCT02373813|184203007|SUPERIORITY||Treatment Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.01|TWO_SIDED|95.0|-0.37|-0.05|||two sample t-test|||Change at Week 48||-0.05|-0.37|0.010
92158089|NCT02373813|184203008|SUPERIORITY||Treatment Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.067|TWO_SIDED|95.0|-0.62|0.02|||two sample t-test|||Baseline||0.02|-0.62|0.067
92158090|NCT02373813|184203008|SUPERIORITY||Treatment Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.16||0.59|TWO_SIDED|95.0|-0.41|0.23|||two sample t-test|||Baseline||0.23|-0.41|0.59
92158091|NCT02373813|184203008|SUPERIORITY||Treatment Difference|-2.46|STANDARD_ERROR_OF_MEAN|1.62||0.13||95.0|-5.66|0.74|||two sample t-test|||Week 12||0.74|-5.66|0.13
92158092|NCT02373813|184203008|SUPERIORITY||Treatment Difference|-2.34|STANDARD_ERROR_OF_MEAN|1.23||0.059|TWO_SIDED|95.0|-4.76|0.09|||two sample t-test|||Week 12||0.09|-4.76|0.059
92158093|NCT02373813|184203008|SUPERIORITY||Treatment Difference|-2.72|STANDARD_ERROR_OF_MEAN|1.38||0.017|TWO_SIDED|95.0|-4.95|-0.5|||two sample t-test|||Week 24||-0.50|-4.95|0.017
92158094|NCT02373813|184203008|SUPERIORITY||Treatment Difference|-0.44|STANDARD_ERROR_OF_MEAN|1.32||0.74|TWO_SIDED|95.0|-3.04|2.15|||two sample t-test|||Week 24||2.15|-3.04|0.74
92158095|NCT02373813|184203008|SUPERIORITY||Treatment Difference|-1.56|STANDARD_ERROR_OF_MEAN|0.9||0.039|TWO_SIDED|95.0|-3.03|-0.08|||two sample t-test|||Week 36||-0.08|-3.03|0.039
92158096|NCT02373813|184203008|SUPERIORITY||Treatment Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.72||0.023|TWO_SIDED|95.0|-3.1|-0.23|||two sample t-test|||Week 36||-0.23|-3.10|0.023
92158097|NCT02373813|184203008|SUPERIORITY||Treatment Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.85||0.65|TWO_SIDED|95.0|-2.43|1.52|||two sample t-test|||Week 48||1.52|-2.43|0.65
92158098|NCT02373813|184203008|SUPERIORITY||Treatment Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.44||0.017|TWO_SIDED|95.0|-1.94|-0.19|||two sample t-test|||Week 48||-0.19|-1.94|0.017
92158099|NCT02373813|184203009|SUPERIORITY||Treatment Difference|-2.15|STANDARD_ERROR_OF_MEAN|1.59||0.18||95.0|-5.29|1.0|||two sample t-test|||Change at Week 12||1.00|-5.29|0.18
92158100|NCT02373813|184203009|SUPERIORITY||Treatment Difference|-2.24|STANDARD_ERROR_OF_MEAN|1.21||0.067|TWO_SIDED|95.0|-4.63|0.16|||two sample t-test|||Change at Week 12||0.16|-4.63|0.067
92158101|NCT02373813|184203009|SUPERIORITY||Treatment Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.37||0.035|TWO_SIDED|95.0|-4.62|-0.17|||two sample t-test|||Change at Week 24||-0.17|-4.62|0.035
92158102|NCT02373813|184203009|SUPERIORITY||Treatment Difference|-0.34|STANDARD_ERROR_OF_MEAN|1.3||0.79|TWO_SIDED|95.0|-2.91|2.23|||two sample t-test|||Change at Week 24||2.23|-2.91|0.79
92158103|NCT02373813|184203009|SUPERIORITY||Treatment Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.91||0.09|TWO_SIDED|95.0|-2.75|0.2|||two sample t-test|||Change at Week 36||0.20|-2.75|0.090
92158104|NCT02373813|184203009|SUPERIORITY||Treatment Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.72||0.029|TWO_SIDED|95.0|-3.06|-0.17|||two sample t-test|||Change at Week 36||-0.17|-3.06|0.029
92158105|NCT02373813|184203009|SUPERIORITY||Treatment Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.84||0.86|TWO_SIDED|95.0|-2.15|1.81|||two sample t-test|||Change at Week 48||1.81|-2.15|0.86
92158106|NCT02373813|184203009|SUPERIORITY||Treatment Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.43||0.021|TWO_SIDED|95.0|-1.88|-0.16|||two sample t-test|||Change at Week 48||-0.16|-1.88|0.021
92158107|NCT02373813|184203010|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|3.4||1|TWO_SIDED|95.0|-6.5|6.6||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Baseline||6.6|-6.5|1.00
92158108|NCT02373813|184203010|SUPERIORITY||Risk Difference (RD)|-3.9|STANDARD_ERROR_OF_MEAN|3.3||0.38|TWO_SIDED|95.0|-10.4|2.6||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Baseline||2.6|-10.4|0.38
92158109|NCT02373813|184203010|SUPERIORITY||Risk Difference (RD)|24.5|STANDARD_ERROR_OF_MEAN|7.9||0.007|TWO_SIDED|95.0|9.0|40.0|||Chi-squared, Corrected|||Week 12||40.0|9.0|0.007
92158110|NCT02373813|184203010|SUPERIORITY||Risk Difference (RD)|14.0|STANDARD_ERROR_OF_MEAN|6.9||0.063|TWO_SIDED|95.0|0.4|27.6||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 12||27.6|0.4|0.063
92158111|NCT02373813|184203010|SUPERIORITY||Risk Difference (RD)|23.2|STANDARD_ERROR_OF_MEAN|8.4||0.012|TWO_SIDED|95.0|6.7|39.8|||Chi-squared, Corrected|||Week 24||39.8|6.7|0.012
92158112|NCT02373813|184203010|SUPERIORITY||Risk Difference (RD)|17.8|STANDARD_ERROR_OF_MEAN|7.0||0.018|TWO_SIDED|95.0|4.1|31.5||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 24||31.5|4.1|0.018
92344103|NCT01618968|184590967|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference Ratio|125.48|||||TWO_SIDED|90.0|119.43|131.84||||||To compare the relative bioavailability of MTX following oral administration to that obtained after SC injection into the thigh using the VIBEX MTX device by measuring the AUC(0-Inf).||131.84|119.43|
92344104|NCT01618968|184590967|NON_INFERIORITY_OR_EQUIVALENCE|Test of bioequivalence was performed at each dose level.|Test / Reference ratio|101.85|||||TWO_SIDED|90.0|99.41|104.36||||||To compare the relative bioavailability of MTX following SC injection into the abdomen to that obtained after SC injection into the thigh using the VIBEX MTX device by measuring the AUC(0-inf)||104.36|99.41|
92344105|NCT01618968|184590968|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference Ratio|127.65|||||TWO_SIDED|90.0|121.28|134.36||||||To compare the relative bioavailability of methotrexate (MTX) following oral administration to that obtained after subcutaneous (SC) injection into the abdomen using the VIBEX MTX device by measuring the area under the curve from time zero to the 24 hour concentration AUC(0-24)||134.36|121.28|
92344106|NCT01618968|184590968|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference ratio|125.2|||||TWO_SIDED|90.0|119.16|131.55||||||To compare the relative bioavailability of methotrexate (MTX) following oral administration to that obtained after subcutaneous (SC) injection into the thigh using the VIBEX MTX device by measuring the area under the curve from time zero to the 24 hour concentration AUC(0-24)||131.55|119.16|
92344107|NCT01618968|184590968|NON_INFERIORITY_OR_EQUIVALENCE|Test of bioequivalence was performed at each dose level.|Test / Reference Ratio|101.82|||||TWO_SIDED|90.0|99.39|104.31||||||To compare the relative bioavailability of MTX following SC injection into the abdomen to that obtained after SC injection into the thigh using the VIBEX MTX device by measuring the area under the curve from time zero to the 24 hour concentration AUC(0-24)||104.31|99.39|
92344108|NCT01618968|184590969|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference ratio|94.83|||||TWO_SIDED|90.0|86.42|104.06||||||To compare the relative bioavailability of methotrexate (MTX) following oral administration to that obtained after subcutaneous (SC) injection into the abdomen using the VIBEX MTX device by measuring the maximum observed concentration (Cmax)||104.06|86.42|
92344109|NCT01618968|184590969|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference Ratio|82.12|||||TWO_SIDED|90.0|76.16|88.55||||||To compare the relative bioavailability of methotrexate (MTX) following oral administration to that obtained after subcutaneous (SC) injection into the thigh using the VIBEX MTX device by measuring the maximum observed concentration (Cmax)||88.55|76.16|
92344110|NCT01618968|184590969|NON_INFERIORITY_OR_EQUIVALENCE|Test of bioequivalence was performed at each dose level.|Test / Reference Ratio|115.63|||||TWO_SIDED|90.0|108.83|122.86||||||To compare the relative bioavailability of MTX following SC injection into the abdomen to that obtained after SC injection into the thigh using the VIBEX MTX device by measuring the maximum observed concentration (Cmax)||122.86|108.83|
92344111|NCT00251758|184591010|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
92399620|NCT03583099|184690771|SUPERIORITY||Difference in proportion|-2.5||||0.68|TWO_SIDED|95.0|-14.5|9.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||9.5|-14.5|0.68
92399621|NCT03583099|184690772|SUPERIORITY||Difference in proportion|13.3||||0.19|TWO_SIDED|95.0|-6.72|33.38|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||33.38|-6.72|0.19
92158113|NCT02373813|184203010|SUPERIORITY||Risk Difference (RD)|19.0|STANDARD_ERROR_OF_MEAN|8.6||0.044|TWO_SIDED|95.0|2.1|35.9|||Chi-squared, Corrected|||Week 36||35.9|2.1|0.044
92158114|NCT02373813|184203010|SUPERIORITY||Risk Difference (RD)|19.5|STANDARD_ERROR_OF_MEAN|7.0||0.01|TWO_SIDED|95.0|5.8|33.2|||Chi-squared, Corrected|||Week 36||33.2|5.8|0.010
92344112|NCT00251758|184591010|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
92344113|NCT00251758|184591010|SUPERIORITY_OR_OTHER|||||||0.15505||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.15505
92344114|NCT00251758|184591012|SUPERIORITY_OR_OTHER|||||||1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.00001
92344115|NCT00251758|184591012|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
92344116|NCT00251758|184591012|SUPERIORITY_OR_OTHER|||||||0.3874||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.38740
92158115|NCT02373813|184203010|SUPERIORITY||Risk Difference (RD)|25.7|STANDARD_ERROR_OF_MEAN|8.6||0.005|TWO_SIDED|95.0|8.9|42.5||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 48||42.5|8.9|0.005
92344117|NCT01387269|184591016|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon rank sum test|||Superiority analysis||||< 0.0001
92344118|NCT01387269|184591017|SUPERIORITY_OR_OTHER|||||||0.1475|||||||Wilcoxon rank sum test|||Superiority analysis||||0.1475
92344119|NCT01387269|184591018|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Mixed Models Analysis|||Superiority analysis||||0.0004
92344120|NCT01387269|184591019|SUPERIORITY_OR_OTHER|||||||0.0544|||||||Mixed Models Analysis|||Superiority analysis||||0.0544
92275178|NCT00410410|184452370|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.73||||0.124|TWO_SIDED|95.0|0.48|1.09||Cochran-Mantel-Haenszel Chi square p-value and RR along with 95% confidence interval provided, adjusting for randomization strata (whether a participant had an inadequate response and/or intolerance to anti-TNF therapy).|Cochran-Mantel-Haenszel|Conditional on ABA 30/\~10 mg/kg vs PLA comparison being statistically significant at 5% level, ABA \~10 vs PLA to be tested at 5% significance level.||Null hypothesis=no treatment difference between ABA arm and placebo (PLA) arm. ABA 30/\~10 mg/kg vs PLA: power=98%, sample size=140 per arm,expected PLA response rate=40%, ABA 30/\~10 mg/kg=65%. ABA \~10 mg/kg vs. PLA: power=90%, sample size=140 per arm, 5% significance; expected PLA response rate= 40%, ABA \~10=60%.||1.09|0.48|0.124
92275179|NCT00410410|184452372|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2|||||TWO_SIDED|95.0|0.06|0.67||Cochran-Mantel-Haenszel Chi square p-value and RR along with 95% confidence interval provided, adjusting for randomization strata.|Cochran-Mantel-Haenszel|Conditional on ABA 30/\~10 vs PLA comparison for clinical response being significant at 5% level, this comparison for remission will be tested at 5%.|Conditional on both the remission comparison for ABA 30/\~10 vs PLA, and the clinical response comparison for ABA\~10 vs PLA being significant at 5%, the secondary remission comparison for ABA \~10 vs PLA will be tested at 5%.|Null hypothesis=no treatment difference between each of the ABA and placebo (PLA). At 5% significance level, Aba 30/\~10 vs. PLA: power=96%, sample size=140 per arm, expected PLA rate=15%. ABA 30/\~10 =35%; Aba \~10 vs. PLA: power=82%, sample size=140 per arm, expected PLA response rate= 15%, ABA/\~10 mg/kg=30%||0.67|.06|
92275180|NCT00410410|184452373|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66|||||TWO_SIDED|95.0|0.42|1.05||Cochran-Mantel-Haenszel Chi square p-value and RR along with 95% confidence interval provided, adjusting for randomization strata.|Cochran-Mantel-Haenszel|If ABA 30/\~10 vs PLA remission comparison is significant at 5% level, the mucosal healing comparison for the same treatment group will be tested at 5%|Conditional on both the comparison for mucosal healing for ABA 30/\~10 vs PLA and the comparison for remission for ABA \~10 vs. PLA being significant, the comparison for mucosal healing for ABA \~10 vs PLA will be tested at 5%.|Null hypothesis=no treatment difference (relative risk \[RR\] of ABA over placebo=1) for mucosal healing. ABA 30/\~10 vs. placebo: power=99%, sample size=140 per arm, expected PLA response rate=30%, ABA 30/\~10 mg/kg=60%. ABA \~10 vs. placebo: power=98%, sample size=140 per arm, 5% significance; expected PLA response rate= 30%, ABA \~10 mg/kg=55%||1.05|0.42|
92275181|NCT00410410|184452374|SUPERIORITY_OR_OTHER|||||||0.044||||||All statistical testing was performed at a pre-specified alpha-level of 5%.|Cochran-Armitage Trend Test|||The Cochran-Armitage trend test was performed to evaluate whether a relationship existed between the response and dose regimen by comparing the proportion of participants in response across all four treatment arms.||||0.044
92275182|NCT00410410|184452380|SUPERIORITY_OR_OTHER|||||||0.149||||||All statistical testing was performed at a pre-specified alpha-level of 5%|Cochran-Armitage Trend Test|||The Cochran-Armitage trend test was performed to evaluate whether a relationship existed between the response and dose regimen by comparing the proportion of participants in response across all four treatment arms. Normal approximation was used if the number of responses in a treatment group is at least 5. Otherwise an exact method was used.||||0.149
92275183|NCT00106028|184452429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.438||||0.0625|TWO_SIDED|95.0|-0.235|9.111|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||9.111|-0.235|0.0625
92275184|NCT00106028|184452430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.537||||0.6103|TWO_SIDED|95.0|-4.424|7.497|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||7.497|-4.424|0.6103
92275185|NCT00106028|184452431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.554||||0.0808||95.0|-0.193|3.301|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||3.301|-0.193|0.0808
92275186|NCT00106028|184452432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.498||||0.6466|TWO_SIDED|95.0|-1.648|2.644|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||2.644|-1.648|0.6466
92275187|NCT00106028|184452433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.465||||0.7391|TWO_SIDED|95.0|-3.224|2.294|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||2.294|-3.224|0.7391
92344121|NCT01387269|184591020|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||Superiority analysis||||< 0.0001
92344122|NCT02858908|184591049|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.6696||||0.0484|TWO_SIDED|95.0|-1.334|-0.0051|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the time taken (seconds) to complete 10-metre walk/run test at the preferred speed||-0.0051|-1.3340|0.0484
92344123|NCT02858908|184591049|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.6449||||0.0565|TWO_SIDED|95.0|-1.3094|0.0195|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the time taken (seconds) to complete 10-metre walk/run test at the preferred speed||0.0195|-1.3094|0.0565
92344124|NCT02858908|184591050|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|0.9102||||0.3732|TWO_SIDED|95.0|-1.1526|2.973|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in grip strength (kg)||2.9730|-1.1526|0.3732
92344125|NCT02858908|184591050|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-1.3897||||0.1782|TWO_SIDED|95.0|-3.4525|0.6731|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in grip strength (kg)||0.6731|-3.4525|0.1782
92344126|NCT02858908|184591051|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.0213||||0.8886|TWO_SIDED|95.0|-0.3368|0.2941|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in FVC (litres)||0.2941|-0.3368|0.8886
92344127|NCT02858908|184591051|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|0.0152||||0.9204|TWO_SIDED|95.0|-0.3003|0.3307|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in FVC (litres)||0.3307|-0.3003|0.9204
92344128|NCT02858908|184591052|OTHER|The exact Wilcoxon signed rank test was used to test for a change in the DXA scan total lean muscle mass (g) from baseline to end of treatment|Median Difference (Net)|-42.75||||1|TWO_SIDED|95.0|-1270.0|2178.5|||ANCOVA||Hodges-Lehmann estimates for the median and confidence intervals are presented|Changes from baseline to week 12 in the DXA scan total lean muscle mass (g)||2178.50|-1270.00|1.0000
92344129|NCT02858908|184591052|OTHER|The exact Wilcoxon signed rank test was used to test for a change in the DXA scan total lean muscle mass (g) from baseline to end of treatment|Median Difference (Net)|426.75||||0.3125|TWO_SIDED|95.0|-289.5|1198.5|||ANCOVA||Hodges-Lehmann estimates for the median and confidence intervals are presented|Changes from baseline to week 12 in the DXA scan total lean muscle mass (g)||1198.50|-289.50|0.3125
92158116|NCT02373813|184203010|SUPERIORITY||Risk Difference (RD)|21.6|STANDARD_ERROR_OF_MEAN|7.0||0.004|TWO_SIDED|95.0|7.9|35.2||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 48||35.2|7.9|0.004
92158117|NCT02373813|184203011|SUPERIORITY||Risk Difference (RD)|11.1|STANDARD_ERROR_OF_MEAN|8.4||0.25|TWO_SIDED|95.0|-5.4|27.6||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Baseline||27.6|-5.4|0.25
92158118|NCT02373813|184203011|SUPERIORITY||Risk Difference (RD)|0.7|STANDARD_ERROR_OF_MEAN|6.7||1|TWO_SIDED|95.0|-12.5|13.8||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Baseline||13.8|-12.5|1.00
92158119|NCT02373813|184203011|SUPERIORITY||Risk Difference (RD)|1.6|STANDARD_ERROR_OF_MEAN|6.8||0.98|TWO_SIDED|95.0|-11.6|14.9||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 12||14.9|-11.6|0.98
92158120|NCT02373813|184203011|SUPERIORITY||Risk Difference (RD)|5.0|STANDARD_ERROR_OF_MEAN|5.7||0.48|TWO_SIDED|95.0|-6.2|16.2||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 12||16.2|-6.2|0.48
92158121|NCT02373813|184203011|SUPERIORITY||Risk Difference (RD)|11.3|STANDARD_ERROR_OF_MEAN|7.3||0.16|TWO_SIDED|95.0|-3.1|25.7||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 24||25.7|-3.1|0.16
92158122|NCT02373813|184203011|SUPERIORITY||Risk Difference (RD)|1.4|STANDARD_ERROR_OF_MEAN|5.3||0.94|TWO_SIDED|95.0|-9.0|11.9||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 24||11.9|-9.0|0.94
92344130|NCT02858908|184591054|OTHER|A mixed effect model repeated measure (MMRM) was fitted to the observed values at week12. The model included dose group and visit as fixed effects, and the treatment-by-visit interaction. F-tests from PROC MIXED were based on Kenward-Roger's adjusted degrees of freedom.|Mean Difference (Net)|3.1||||0.003|TWO_SIDED|95.0|2.6|3.7||The p-value is presented for the comparison of adjusted Least Square Means to a score of 4, representing 'No change'|Mixed Models Analysis|||Observed value at week 12 in Clinical Global Impression Global Improvement Scale (CGI-I)||3.7|2.6|0.0030
92158123|NCT02373813|184203011|SUPERIORITY||Risk Difference (RD)|12.5|STANDARD_ERROR_OF_MEAN|7.4||0.12|TWO_SIDED|95.0|-2.1|27.0||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 36||27.0|-2.1|0.12
92344131|NCT02858908|184591054|OTHER|A mixed effect model repeated measure (MMRM) was fitted to the observed values at week12. The model included dose group and visit as fixed effects, and the treatment-by-visit interaction. F-tests from PROC MIXED were based on Kenward-Roger's adjusted degrees of freedom.|Mean Difference (Net)|3.0||||0.0009|TWO_SIDED|95.0|2.4|3.6||The p-value is presented for the comparison of adjusted Least Square Means to a score of 4, representing 'No change'|Mixed Models Analysis|||Observed value at week 12 in Clinical Global Impression Global Improvement Scale (CGI-I)||3.6|2.4|0.0009
92344132|NCT02858908|184591055|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.132||||0.1857|TWO_SIDED|95.0|-0.33|0.066|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the weekly total number of 3 minute bouts of activity per hour wear time||0.066|-0.330|0.1857
92344133|NCT02858908|184591055|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.325||||0.0054|TWO_SIDED|95.0|-0.549|-0.102|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the weekly total number of 3 minute bouts of activity per hour wear time||-0.102|-0.549|0.0054
92344134|NCT02858908|184591058|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-2.162||||0.0111|TWO_SIDED|95.0|-3.731|-0.593|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the time taken (seconds) to complete the nine hole peg test for the dominant arm||-0.593|-3.731|0.0111
92344135|NCT02858908|184591058|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.955||||0.2088|TWO_SIDED|95.0|-2.525|0.614|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the time taken (seconds) to complete the nine hole peg test for the dominant arm||0.614|-2.525|0.2088
92344136|NCT02858908|184591059|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-1.77||||0.0728|TWO_SIDED|95.0|-3.71|0.18|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the subject top three concerns VAS total score (cm)||0.18|-3.71|0.0728
92344137|NCT02858908|184591059|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-1.99||||0.0456|TWO_SIDED|95.0|-3.94|-0.04|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the subject top three concerns VAS total score (cm)||-0.04|-3.94|0.0456
92344138|NCT02858908|184591059|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-2.41||||0.0058|TWO_SIDED|95.0|-4.03|-0.8|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the caregiver top three concerns VAS total score (cm)||-0.80|-4.03|0.0058
92344139|NCT02858908|184591059|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-1.95||||0.0208|TWO_SIDED|95.0|-3.56|-0.34|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the caregiver top three concerns VAS total score (cm)||-0.34|-3.56|0.0208
92369360|NCT02993822|184643588|SUPERIORITY||Mean Difference (Final Values)|-11.2||||0.004|TWO_SIDED|95.0|-18.8|-3.6|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-3.6|-18.8|0.004
92158124|NCT02373813|184203011|SUPERIORITY||Risk Difference (RD)|5.8|STANDARD_ERROR_OF_MEAN|5.6||0.4|TWO_SIDED|95.0|-5.2|16.8||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 36||16.8|-5.2|0.40
92158125|NCT02373813|184203011|SUPERIORITY||Risk Difference (RD)|5.3|STANDARD_ERROR_OF_MEAN|7.7||0.63|TWO_SIDED|95.0|-9.8|20.4||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 48||20.4|-9.8|0.63
92217816|NCT00806195|184336028|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis associated with the safety objective was that the upper limit of the two-sided 95% CI for this difference in the proportion of subjects experiencing at least one severe systemic reaction during the first 7 days after any vaccination (PMenACWY+Routine Vaccines-PRoutine Vaccines) was ≥ 6%.|Mean Difference (Final Values)|3.0|||||TWO_SIDED|95.0|-0.8|6.4|||Miettinen and Nurminen|||MenACWY-CRM 197 administered concomitantly with routine vaccines was considered noninferior to routine vaccines alone with respect to severe systemic reactions if the upper limit of the 2-sided 95% CI of the difference (MenACWY-CRM197 vaccine plus routine vaccines group minus routine vaccines only group) in the proportion of subjects experiencing at least one severe systemic reaction during the first 7 days (days 1-7) after any vaccination was \<6%.||6.4|-0.8|
92158126|NCT02373813|184203011|SUPERIORITY||Risk Difference (RD)|-6.9|STANDARD_ERROR_OF_MEAN|5.7||0.31|TWO_SIDED|95.0|-18.0|4.2||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 48||4.2|-18.0|0.31
92217817|NCT00806195|184336029|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis associated with the SAE safety objective was that the upper limit of the two-sided 95% confidence interval for the difference between the MenACWY and routine vaccine groups in the proportion of subjects experiencing at least one SAE (PMenACWY + Routine Vaccines - PRoutine Vaccines) was ≥5%.|Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.9|1.5|||Miettinen and Nurminen|||MenACWY-CRM 197 administered concomitantly with routine vaccines was considered non inferior to routine vaccines alone with respect to serious adverse events if the upper limit of the 2-sided 95% CI of the difference (MenACWY vaccine plus routine vaccines group minus routine vaccines only group) of the proportion of subjects experiencing at least one serious adverse event was \<5%.||1.5|-0.9|
92217818|NCT00806195|184336029|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis associated with the SAE safety objective was that the upper limit of the two-sided 95% confidence interval for the difference between the MenACWY and routine vaccine groups in the proportion of subjects experiencing at least one SAE (PMenACWY + Routine Vaccines - PRoutine Vaccines) was \<5%.|Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.8|1.3|||Miettinen and Nurminen|||MenACWY-CRM 197 administered concomitantly with routine vaccines was considered non inferior to routine vaccines alone with respect to serious adverse events if the upper limit of the 2-sided 95% CI of the difference (MenACWY vaccine plus routine vaccines group minus routine vaccines only group) of the proportion of subjects experiencing at least one serious adverse event was \<5%.||1.3|-0.8|
92217819|NCT03634397|184336034|OTHER||Mean Difference (Final Values)|5.73|||<|0.05|TWO_SIDED|95.0|2.31|9.14||P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|Regression, Linear||The delta values of the outcome from baseline 2 to post-treatment 1 were directly modeled using linear regression with adjustment for age, female sex, and the hemisphere affected by the stroke.|||9.14|2.31|<.05
92217820|NCT03634397|184336036|OTHER|P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|Mean Difference (Final Values)|0.83|||<|0.05|TWO_SIDED|95.0|-2.58|4.24||P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|Regression, Linear|P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.||||4.24|-2.58|<.05
92217821|NCT03634397|184336037|OTHER|P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|Median Difference (Final Values)|1.12|||<|0.05|TWO_SIDED|95.0|-2.29|4.53||P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|Regression, Linear|P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|||4.53|-2.29|<.05
92217822|NCT03901105|184336048|OTHER||Risk Ratio (RR)|1.36||||0.0313|TWO_SIDED|95.0|1.028|1.785||A priori threshold was two-sided 0.05.|log linear model|Adjusted for treatment arm (lanabecestat 20 mg, 50 mg, or placebo), baseline age, years of education (categorical), and baseline CDR-SB score.|τAD++ scans represent the numerator for risk, and τAD+/τAD- scans represent the denominator|Scan results were grouped into τAD++ vs. non-τAD++ (τAD+ and τAD-) for the analysis||1.785|1.028|0.0313
92158127|NCT02373813|184203013|SUPERIORITY||||||<|0.001||||||P-value was based on the Log-rank test for overall difference on disease-worsening event between two groups.|Log Rank|||||||< 0.001
92158128|NCT02373813|184203013|SUPERIORITY||||||<|0.001||||||P-value was based on the Log-rank test for overall difference on disease-worsening event between two groups.|Log Rank|||||||< 0.001
92158129|NCT02373813|184203014|SUPERIORITY|||||||0.31||||||P-value was based on the Log-rank test for overall difference on disease-worsening event between two groups.|Log Rank|||||||0.31
92217823|NCT03901105|184336049|OTHER||Risk Ratio (RR)|1.35||||0.0833|TWO_SIDED|95.0|0.962|1.886||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|log linear model|Adjusted for treatment arm (lanabecestat 20 mg, 50 mg, or placebo), baseline age, years of education (categorical), and baseline score.|τAD++ scans represent the numerator for risk, and τAD+/τAD- scans represent the denominator|Risk ratio for MMSE CMD. Scan results were grouped into τAD++ vs. non-τAD++ (τAD+ and τAD-) for the analysis||1.886|0.962|.0833
92217824|NCT03901105|184336049|OTHER||Risk Ratio (RR)|1.77||||0.0141|TWO_SIDED|95.0|1.122|2.796||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|log linear model|Adjusted for treatment arm (lanabecestat 20 mg, 50 mg, or placebo), baseline age, years of education (categorical), and baseline score.|τAD++ scans represent the numerator for risk, and τAD+/τAD- scans represent the denominator|Risk ratio for ADAS-Cog11 CMD. Scan results were grouped into τAD++ vs. non-τAD++ (τAD+ and τAD-) for the analysis||2.796|1.122|.0141
92158130|NCT02373813|184203014|SUPERIORITY|||||||0.51||||||P-value was based on the Log-rank test for overall difference on disease-worsening event between two groups.|Log Rank|||||||0.51
92158131|NCT02373813|184203015|SUPERIORITY||Risk Difference (RD)|12.5|STANDARD_ERROR_OF_MEAN|14.1||0.58|TWO_SIDED|95.0|-15.2|40.2|||Chi-squared, Corrected|||||40.2|-15.2|0.58
92217825|NCT03901105|184336049|OTHER||Risk Ratio (RR)|1.32||||0.0639|TWO_SIDED|95.0|0.984|1.776||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|log linear model|Adjusted for treatment arm (lanabecestat 20 mg, 50 mg, or placebo), baseline age, years of education (categorical), and baseline score.|τAD++ scans represent the numerator for risk, and τAD+/τAD- scans represent the denominator|Risk ratio for FAQ CMD. Scan results were grouped into τAD++ vs. non-τAD++ (τAD+ and τAD-) for the analysis||1.776|0.984|.0639
92344140|NCT02858908|184591060|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.054||||0.0068|TWO_SIDED|95.0|-0.092|-0.017|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the OSU Autism Rating Scale - DSM-IV (OARS-4) total impairment mean||-0.017|-0.092|0.0068
92344141|NCT02858908|184591060|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.009||||0.609|TWO_SIDED|95.0|-0.047|0.028|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the OSU Autism Rating Scale - DSM-IV (OARS-4) total impairment mean||0.028|-0.047|0.6090
92344142|NCT02858908|184591061|OTHER|A mixed effect model repeated measure (MMRM) was fitted to the observed values at week12 in OSU CGI-I. The model included dose group and visit as fixed effects, and the treatment-by-visit interaction. F-tests from PROC MIXED were based on Kenward-Roger's adjusted degrees of freedom. A compound symmetry covariance matrix was used for the repeated visits within subject.|Mean Difference (Net)|3.4||||0.0011|TWO_SIDED|95.0|3.0|3.7||p-values are presented for the comparison of adjusted Least Square Means to a score of 4, representing 'No change'|Mixed Models Analysis|||Observed value at week 12 in OSU global improvement scale for autism (OSU CGI-I)||3.7|3.0|0.0011
92344143|NCT02858908|184591061|OTHER|A mixed effect model repeated measure (MMRM) was fitted to the observed values at week12 in OSU CGI-I. The model included dose group and visit as fixed effects, and the treatment-by-visit interaction. F-tests from PROC MIXED were based on Kenward-Roger's adjusted degrees of freedom. A compound symmetry covariance matrix was used for the repeated visits within subject.|Mean Difference (Net)|4.0||||1|TWO_SIDED|95.0|3.6|4.4||p-values are presented for the comparison of adjusted Least Square Means to a score of 4, representing 'No change'|Mixed Models Analysis|||Observed value at week 12 in OSU global improvement scale for autism (OSU CGI-I)||4.4|3.6|1.0000
92344144|NCT02858908|184591062|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-5.91|||<|0.0001|TWO_SIDED|95.0|-8.35|-3.47|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline at week 12 in the clinician-completed domain specific causes for concern VAS total score (cm)||-3.47|-8.35|<0.0001
92344145|NCT02858908|184591062|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-3.27||||0.0116|TWO_SIDED|95.0|-5.71|-0.83|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline at week 12 in the clinician-completed domain specific causes for concern VAS total score (cm)||-0.83|-5.71|0.0116
92344146|NCT02858908|184591063|OTHER|An ANCOVA was fitted to the change in the Peabody Picture Vocabulary Test age-based standard score from baseline to end of treatment. The model included the baseline value as a covariate and dose group as a fixed effect.|Mean Difference (Net)|-1.1||||0.6631|TWO_SIDED|95.0|-6.5|4.3|||ANCOVA||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the peabody picture vocabulary test age-based standard score||4.3|-6.5|0.6631
92344147|NCT02858908|184591063|OTHER|An ANCOVA was fitted to the change in the Peabody Picture Vocabulary Test age-based standard score from baseline to end of treatment. The model included the baseline value as a covariate and dose group as a fixed effect.|Mean Difference (Net)|-0.1||||0.9546|TWO_SIDED|95.0|-5.5|5.2|||ANCOVA||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the peabody picture vocabulary test age-based standard score||5.2|-5.5|0.9546
92344148|NCT01265498|184591111|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.9||||0.0002|TWO_SIDED|95.0|1.3|2.8|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status.|obeticholic acid vs placebo|||2.8|1.3|0.0002
92344149|NCT01265498|184591112|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.5||||0.08|TWO_SIDED|95.0|0.9|2.6|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs placebo|||2.6|0.9|0.08
92344150|NCT01265498|184591113|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.8||||0.004|TWO_SIDED|95.0|1.1|2.7|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs placebo|||2.7|1.1|0.004
92399622|NCT03583099|184690773|SUPERIORITY||Difference in proportion|0.85||||0.93|TWO_SIDED|95.0|-17.82|19.52|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||19.52|-17.82|0.93
92399623|NCT03583099|184690774|SUPERIORITY||Difference in proportion|6.83||||0.45|TWO_SIDED|95.0|-10.84|24.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||24.50|-10.84|0.45
92158132|NCT00495469|184203047|OTHER|Tukey's trend test for dose response||||||0.003||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|Change=Baseline+Treatment||||||0.003
92158133|NCT00495469|184203047|OTHER|Tukey's trend test for dose response||||||0.047||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05.|ANCOVA|Change=Baseline+Treatment||||||0.047
92344151|NCT01265498|184591114|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.01|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.1|-0.6|0.01
92344152|NCT01265498|184591115|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.5|-1.3|<0.0001
92344153|NCT01265498|184591116|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.5||||0.03|TWO_SIDED|95.0|1.0|2.1|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs placebo|||2.1|1.0|0.03
92344154|NCT01265498|184591117|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.03|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.0|-0.5|0.03
92344155|NCT01265498|184591118|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.7||||0.001|TWO_SIDED|95.0|1.2|2.3|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs. placebo|||2.3|1.2|0.001
92344156|NCT01265498|184591119|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.0004|TWO_SIDED|95.0|-0.6|-0.2|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.2|-0.6|0.0004
92399624|NCT03583099|184690775|SUPERIORITY||Difference in proportion|7.6||||0.41|TWO_SIDED|95.0|-10.58|25.78|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||25.78|-10.58|0.41
92399625|NCT03583099|184690776|SUPERIORITY||Difference in proportion|1.85||||0.81|TWO_SIDED|95.0|-13.17|16.88|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||16.88|-13.17|0.81
92158134|NCT00495469|184203047|OTHER|Tukey's trend test for dose response||||||0.006||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05.|ANCOVA|Change=Baseline+Treatment||||||0.006
92344157|NCT01265498|184591120|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.6||||0.006|TWO_SIDED|95.0|1.1|2.2|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs. placebo|||2.2|1.1|0.006
92158135|NCT00495469|184203047|OTHER|Tukey's trend test for dose response||||||0.085||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05.|ANCOVA|Change=Baseline+Treatment||||||0.085
92158136|NCT00495469|184203047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.085|TWO_SIDED|95.0|-0.73|0.05||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||0.05|-0.73|0.085
92158137|NCT00495469|184203047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.006|TWO_SIDED|95.0|-0.95|-0.16||Pairwise comparison included for informational purposes and not controlled for multiplicity|ANCOVA|Change=Baseline+Treatment||||-0.16|-0.95|0.006
92158138|NCT00495469|184203047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.084|TWO_SIDED|95.0|-0.73|0.05||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||0.05|-0.73|0.084
92344158|NCT01265498|184591121|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.0006|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.1|-0.5|0.0006
92344159|NCT01265498|184591122|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.9|TWO_SIDED|95.0|0.6|1.7|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs. placebo|||1.7|0.6|0.90
92158139|NCT00495469|184203047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.66||||0.001|TWO_SIDED|95.0|-1.05|-0.28||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.28|-1.05|0.001
92158140|NCT00495469|184203047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.003|TWO_SIDED|95.0|-0.97|-0.2||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.20|-0.97|0.003
92158141|NCT00495469|184203047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19||||0.337|TWO_SIDED|95.0|-0.58|0.2||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||0.20|-0.58|0.337
92158142|NCT00495469|184203049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.85||||0.039|TWO_SIDED|95.0|-1.67|-0.04||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.04|-1.67|0.039
92158143|NCT00495469|184203049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.06||||0.013|TWO_SIDED|95.0|-1.89|-0.23||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.23|-1.89|0.013
92344160|NCT01265498|184591123|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.59|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.2|-0.1|0.59
92344161|NCT01265498|184591124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.0|||<|0.0001|TWO_SIDED|95.0|-28.0|-11.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-11|-28|<0.0001
92344162|NCT01265498|184591125|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.0||||0.0001|TWO_SIDED|95.0|-18.0|-6.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-6|-18|0.0001
92344163|NCT01265498|184591126|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.0|||<|0.0001|TWO_SIDED|95.0|13.0|24.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||24|13|<0.0001
92344164|NCT01265498|184591127|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.0|||<|0.0001|TWO_SIDED|95.0|-35.0|-14.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-14|-35|<0.0001
92344165|NCT01265498|184591128|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.002|TWO_SIDED|95.0|-2.4|-0.5|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.5|-2.4|0.002
92344166|NCT01265498|184591129|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.38||||0.0009|TWO_SIDED|95.0|0.16|0.6|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.60|0.16|0.0009
92344167|NCT01265498|184591130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.01|TWO_SIDED|95.0|-0.1|-0.01|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.01|-0.10|0.01
92344168|NCT01265498|184591131|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45|||<|0.0001|TWO_SIDED|95.0|0.26|0.65|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.65|0.26|<0.0001
92344169|NCT01265498|184591132|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.88|TWO_SIDED|95.0|-0.35|0.3|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.30|-0.35|0.88
92344170|NCT01265498|184591133|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.72|TWO_SIDED|95.0|-1.8|2.6|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||2.6|-1.8|0.72
92399626|NCT03583099|184690777|SUPERIORITY||Difference in proportion|8.01||||0.51|TWO_SIDED|95.0|-15.38|31.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||31.40|-15.38|0.51
92399627|NCT03583099|184690778|SUPERIORITY||Difference in proportion|-10.34||||0.41|TWO_SIDED|95.0|-34.78|14.09|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||14.09|-34.78|0.41
92158144|NCT00495469|184203049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64||||0.131|TWO_SIDED|95.0|-1.46|0.19||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||0.19|-1.46|0.131
92158145|NCT00495469|184203049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.95||||0.023|TWO_SIDED|95.0|-1.77|-0.13||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.13|-1.77|0.023
92158146|NCT00495469|184203049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.13||||0.007|TWO_SIDED|95.0|-1.95|-0.32||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.32|-1.95|0.007
92158147|NCT00495469|184203049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51||||0.223|TWO_SIDED|95.0|-1.34|0.32||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||0.32|-1.34|0.223
92158148|NCT00495469|184203050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.1||||0.005|TWO_SIDED|95.0|-40.9|-7.4||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-7.4|-40.9|0.005
92158149|NCT00495469|184203050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.0|||<|0.001|TWO_SIDED|95.0|-52.5|-17.4||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-17.4|-52.5|<0.001
92158150|NCT00495469|184203050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.8||||0.001|TWO_SIDED|95.0|-46.9|-12.7||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-12.7|-46.9|0.001
92158151|NCT00495469|184203050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-36.5|||<|0.001|TWO_SIDED|95.0|-53.6|-19.5||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-19.5|-53.6|<0.001
92158152|NCT00495469|184203050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.5||||0.001|TWO_SIDED|95.0|-46.3|-12.7||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-12.7|-46.3|0.001
92158153|NCT00495469|184203050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.8||||0.114|TWO_SIDED|95.0|-31.0|3.4||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||3.4|-31.0|0.114
92158154|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.757|TWO_SIDED|95.0|0.27|6.06||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (\<=6.5%)||6.06|0.27|0.757
92158155|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.58|TWO_SIDED|95.0|0.31|8.01||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (\<=6.5%)||8.01|0.31|0.580
92344171|NCT01265498|184591134|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.71|TWO_SIDED|95.0|-0.01|0.01|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.01|-0.01|0.71
92344172|NCT01265498|184591135|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.002|TWO_SIDED|95.0|-1.8|-0.4|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.4|-1.8|0.002
92344173|NCT01265498|184591136|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.4|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.4|-0.2|0.40
92344174|NCT01265498|184591137|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.0||||0.001|TWO_SIDED|95.0|7.0|26.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||26|7|0.001
92158156|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.881|TWO_SIDED|95.0|0.22|5.73||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 500 mg QD: Responders (\<=6.5%)||5.73|0.22|0.881
92217826|NCT03901105|184336049|OTHER||Risk Ratio (RR)|1.28||||0.2814|TWO_SIDED|95.0|0.815|2.02||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|log linear model|Adjusted for treatment arm (lanabecestat 20 mg, 50 mg, or placebo), baseline age, years of education (categorical), and baseline score.|τAD++ scans represent the numerator for risk, and τAD+/τAD- scans represent the denominator|Risk ratio for CDR Global CMD. Scan results were grouped into τAD++ vs. non-τAD++ (τAD+ and τAD-) for the analysis||2.020|0.815|.2814
92217827|NCT03901105|184336050|OTHER|||||||0.0305||||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Mixed Models Analysis|Adjusted for baseline clinical score, age, years of education (categorical), and treatment arm (lanabecestat - 20mg or 50mg - or placebo).||MMRM testing the difference between CDR-SB least squares mean changes of tAD++ and Non-tAD++ (tAD+ and tAD-). The unstructured covariance structure (UN) was used.||||.0305
92217828|NCT03901105|184336050|OTHER||||||<|0.0001||||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Mixed Models Analysis|Adjusted for baseline clinical score, age, years of education (categorical), and treatment arm (lanabecestat - 20mg or 50mg - or placebo).||MMRM testing the difference between MMSE least squares mean changes of tAD++ and Non-tAD++ (tAD+ and tAD-). The unstructured covariance structure (UN) was used.||||<0.0001
92217829|NCT03901105|184336050|OTHER|||||||0.0006||||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Mixed Models Analysis|Adjusted for baseline clinical score, age, years of education (categorical), and treatment arm (lanabecestat - 20mg or 50mg - or placebo).||MMRM testing the difference between ADAS-Cog11 least squares mean changes of tAD++ and Non-tAD++ (tAD+ and tAD-). The unstructured covariance structure (UN) was used.||||0.0006
92217830|NCT03901105|184336050|OTHER|||||||0.0097||||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Mixed Models Analysis|Adjusted for baseline clinical score, age, years of education (categorical), and treatment arm (lanabecestat - 20mg or 50mg - or placebo).||MMRM testing the difference between FAQ least squares mean changes of tAD++ and Non-tAD++ (tAD+ and tAD-). The unstructured covariance structure (UN) was used.||||0.0097
92217831|NCT02446314|184336061|SUPERIORITY||||||=|0.04|||||||Linear Mixed Model / Baseline Covariate|||||||= .04
92217832|NCT02446314|184336062|SUPERIORITY||||||>|0.05|||||||Linear Mixed Model / Baseline Covariate|||||||> .05
92217833|NCT02446314|184336063|SUPERIORITY||||||>|0.05|||||||Linear Mixed Model / Baseline Covariate|||||||> .05
92399628|NCT03583099|184690779|SUPERIORITY||Difference in proportion|-3.94||||0.76|TWO_SIDED|95.0|-31.03|23.16|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||23.16|-31.03|0.76
92158157|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.95||||0.382|TWO_SIDED|95.0|0.44|8.75||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (\<=6.5%)||8.75|0.44|0.382
92158158|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.409|TWO_SIDED|95.0|0.42|8.68||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (\<=6.5%)||8.68|0.42|0.409
92158159|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.795|TWO_SIDED|95.0|0.24|6.29||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (\<=6.5%)||6.29|0.24|0.795
92217834|NCT02446314|184336064|SUPERIORITY||||||>|0.05|||||||Linear Mixed Model / Baseline Covariate|||||||> .05
92217835|NCT02446314|184336065|SUPERIORITY||||||>|0.05|||||||Linear Mixed Model / Baseline Covariate|||||||> .05
92217836|NCT00529451|184336077|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 2.25 mm Hg|Mean Difference (Final Values)|-2.44|||||TWO_SIDED|95.0|-3.63|-1.25||||||||-1.25|-3.63|
92217837|NCT00529451|184336078|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 2.25 mm Hg|Mean Difference (Final Values)|-0.86|||||TWO_SIDED|95.0|-2.06|0.34||||||||0.34|-2.06|
92217838|NCT00529451|184336079|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 2.25 mm Hg|Mean Difference (Final Values)|-1.48|||||TWO_SIDED|95.0|-2.67|-0.28||||||||-0.28|-2.67|
92217839|NCT01022242|184336094|SUPERIORITY_OR_OTHER|||||||0.8861|||||||ANCOVA|||||||0.8861
92217840|NCT02243865|184336095|SUPERIORITY|||||||0.6938|||||||ANCOVA|In the analyses the baseline value was used as a covariate in order to adjust for initial differences at treatment start.||||||0.6938
92217841|NCT02243865|184336096|SUPERIORITY|||||||0.6557|||||||ANCOVA|In the analyses the baseline value was used as a covariate in order to adjust for initial differences at treatment start.||Null hypothesis: There is no difference between the active treatment and placebo groups in change from baseline in number of migraine days during the 1st month of the three month post treatment investigation duration||||0.6557
92217842|NCT02243865|184336096|SUPERIORITY|||||||0.515|||||||ANCOVA|In the analyses the baseline value was used as a covariate in order to adjust for initial differences at treatment start.||Null hypothesis: There is no difference between the active treatment and placebo groups in change from baseline in number of migraine days during the 2nd month of the three month post treatment investigation duration||||0.515
92217843|NCT02243865|184336096|SUPERIORITY|||||||0.3256|||||||ANCOVA|In the analyses the baseline value was used as a covariate in order to adjust for initial differences at treatment start.||Null hypothesis: There is no difference between the active treatment and placebo groups in change from baseline in number of migraine days during the 3rd month of the three month post treatment investigation duration||||0.3256
92217844|NCT02243865|184336096|SUPERIORITY|||||||0.4086|||||||ANCOVA|In the analyses the baseline value was used as a covariate in order to adjust for initial differences at treatment start.||Null hypothesis: There is no difference between the active treatment and placebo groups in change from baseline in number of migraine days during the final four weeks of the three month post treatment investigation duration.||||0.4086
92399629|NCT03583099|184690780|SUPERIORITY||Difference in proportion|-0.76||||0.95|TWO_SIDED|95.0|-25.36|23.83|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||23.83|-25.36|0.95
92158160|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.765|TWO_SIDED|95.0|0.36|3.95||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (\<7%)||3.95|0.36|0.765
92158161|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.74||||0.1|TWO_SIDED|95.0|0.82|9.09||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (\<7%)||9.09|0.82|0.100
92158162|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.687|TWO_SIDED|95.0|0.38|4.3||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 500 mg QD: Responders (\<7%)||4.30|0.38|0.687
92158163|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.409|TWO_SIDED|95.0|0.5|5.52||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (\<7%)||5.52|0.50|0.409
92158164|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.81||||0.086|TWO_SIDED|95.0|0.86|9.15||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (\<7%)||9.15|0.86|0.086
92158165|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.369|TWO_SIDED|95.0|0.52|5.88||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (\<7%)||5.88|0.52|0.369
92158166|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.16|TWO_SIDED|95.0|0.74|6.4||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (reduction\>=0.7%)||6.40|0.74|0.160
92158167|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.87||||0.014|TWO_SIDED|95.0|1.31|11.42||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (reduction\>=0.7%)||11.42|1.31|0.014
92158168|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.162|TWO_SIDED|95.0|0.73|6.44||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (reduction\>=0.7%)||6.44|0.73|0.162
92158169|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.09||||0.011|TWO_SIDED|95.0|1.38|12.17||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (reduction\>=0.7%)||12.17|1.38|0.011
92158170|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.31||||0.003|TWO_SIDED|95.0|1.79|15.73||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (reduction\>=0.7%)||15.73|1.79|0.003
92158171|NCT00495469|184203051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86||||0.264|TWO_SIDED|95.0|0.63|5.49||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (reduction\>=0.7%)||5.49|0.63|0.264
92158172|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.48|TWO_SIDED|95.0|0.46|5.28||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (\<7 mmol/L)||5.28|0.46|0.480
92158173|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.87||||0.011|TWO_SIDED|95.0|1.44|16.46||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (\<7 mmol/L)||16.46|1.44|0.011
92158174|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92||||0.087|TWO_SIDED|95.0|0.85|9.96||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 500 mg QD: Responders (\<7 mmol/L)||9.96|0.85|0.087
92158175|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92||||0.082|TWO_SIDED|95.0|0.87|9.78||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (\<7 mmol/L)||9.78|0.87|0.082
92158176|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0||||0.024|TWO_SIDED|95.0|1.2|13.27||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (\<7 mmol/L)||13.27|1.20|0.024
92158177|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.85||||0.012|TWO_SIDED|95.0|1.41|16.66||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (\<7 mmol/L)||16.66|1.41|0.012
92158178|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.27|TWO_SIDED|95.0|0.62|5.54||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (\<7.8 mmol/L)||5.54|0.62|0.270
92158179|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.18||||0.043|TWO_SIDED|95.0|1.04|9.72||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (\<7.8 mmol/L)||9.72|1.04|0.043
92158180|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.169|TWO_SIDED|95.0|0.72|6.53||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 500 mg QD: Responders (\<7.8 mmol/L)||6.53|0.72|0.169
92158181|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.12||||0.042|TWO_SIDED|95.0|1.04|9.36||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (\<7.8 mmol/L)||9.36|1.04|0.042
92158182|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.69||||0.02|TWO_SIDED|95.0|1.23|11.06||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (\<7.8 mmol/L)||11.06|1.23|0.020
92158183|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04||||0.211|TWO_SIDED|95.0|0.67|6.24||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (\<7.8 mmol/L)||6.24|0.67|0.211
92158184|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.179|TWO_SIDED|95.0|0.61|13.75||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (reduction \>=1.7 mmol/L)||13.75|0.61|0.179
92344175|NCT01265498|184591138|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.03|TWO_SIDED|95.0|-1.4|-0.1|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.1|-1.4|0.03
92344176|NCT01265498|184591139|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.04|TWO_SIDED|95.0|0.0|0.04|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.04|0.00|0.04
92217845|NCT03654976|184336104|SUPERIORITY||Rate ratio|0.89||||0.5412|TWO_SIDED|95.0|0.6|1.31|||Negative binomial regression||12 SQ-HDM SLIT-tablet as the numerator and placebo SLIT-tablet as the denominator.|The number of clinically relevant asthma exacerbations was analyzed using a negative binomial regression model with a log-link function and the logarithm of the time in years in the efficacy period as offset. The model included treatment, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. No missing data approach was applied.||1.31|0.60|0.5412
92344177|NCT01265498|184591140|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.53|TWO_SIDED|95.0|-0.03|0.05|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.05|-0.03|0.53
92344178|NCT01265498|184591141|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.6||||0.03|TWO_SIDED|95.0|0.2|5.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||5.0|0.2|0.03
92344179|NCT01265498|184591142|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.0||||0.05|TWO_SIDED|95.0|0.0|29.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||29|0|0.05
92344180|NCT01265498|184591143|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.13|TWO_SIDED|95.0|-1.2|0.2|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.2|-1.2|0.13
92344181|NCT01265498|184591144|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5||||0.31|TWO_SIDED|95.0|-0.5|1.6|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||1.6|-0.5|0.31
92344182|NCT01265498|184591145|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.16|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.1|-0.6|0.16
92344183|NCT01265498|184591146|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.002|TWO_SIDED|95.0|-0.04|-0.01|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.01|-0.04|0.002
92344184|NCT01265498|184591147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.26|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.8|-0.2|0.26
92344185|NCT01265498|184591148|SUPERIORITY_OR_OTHER||Mean Difference (Net)|38.0||||0.02|TWO_SIDED|95.0|6.0|69.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||69|6|0.02
92344186|NCT01265498|184591149|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.0||||0.01|TWO_SIDED|95.0|3.0|23.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||23|3|0.01
92344187|NCT01265498|184591150|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.71|TWO_SIDED|95.0|-1.7|2.6|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||2.6|-1.7|0.71
92344188|NCT01265498|184591151|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.008|TWO_SIDED|95.0|-3.7|-0.6|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.6|-3.7|0.008
92344189|NCT01265498|184591152|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.01|TWO_SIDED|95.0|-1.3|-0.2|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.2|-1.3|0.01
92344190|NCT01265498|184591153|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.7|TWO_SIDED|95.0|-2.2|1.5|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||1.5|-2.2|0.70
92344191|NCT01265498|184591154|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.57|TWO_SIDED|95.0|-0.01|0.02|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.02|-0.01|0.57
92344192|NCT01265498|184591155|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0||||0.05|TWO_SIDED|95.0|-7.0|0.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0|-7|0.05
92344193|NCT01265498|184591156|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.23|TWO_SIDED|95.0|-4.0|1.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||1|-4|0.23
92344194|NCT01265498|184591157|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||0.22|TWO_SIDED|95.0|-1.0|3.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||3|-1|0.22
92344195|NCT01265498|184591158|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.65|TWO_SIDED|95.0|-3.0|2.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||2|-3|0.65
92344196|NCT05994963|184591187|OTHER||Ratio of adjusted geometric means|58.84|||||TWO_SIDED|90.0|40.45|85.6|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment A = reference; treatment B = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||85.60|40.45|
92344197|NCT05994963|184591188|OTHER||Ratio of adjusted geometric means|56.93|||||TWO_SIDED|90.0|38.71|83.73|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment A = reference; treatment B = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||83.73|38.71|
92158185|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.93||||0.03|TWO_SIDED|95.0|1.17|20.87||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (reduction \>=1.7 mmol/L)||20.87|1.17|0.030
92158186|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.99||||0.142|TWO_SIDED|95.0|0.69|12.86||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 500 mg QD: Responders (reduction \>=1.7 mmol/L)||12.86|0.69|0.142
92158187|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.21||||0.012|TWO_SIDED|95.0|1.49|25.83||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (reduction \>=1.7 mmol/L)||25.83|1.49|0.012
92158188|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.01|||<|0.001|TWO_SIDED|95.0|3.14|54.0||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (reduction \>=1.7 mmol/L)||54.00|3.14|<0.001
92158189|NCT00495469|184203052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.6||||0.01|TWO_SIDED|95.0|1.56|27.99||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (reduction \>=1.7 mmol/L)||27.99|1.56|0.010
92158190|NCT00495469|184203053|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.318|TWO_SIDED|95.0|-0.19|0.59||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.59|-0.19|0.318
92158191|NCT00495469|184203053|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32||||0.131|TWO_SIDED|95.0|-0.73|0.1||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.10|-0.73|0.131
92158192|NCT00495469|184203053|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.452|TWO_SIDED|95.0|-0.54|0.24||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.24|-0.54|0.452
92158193|NCT00495469|184203053|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.845|TWO_SIDED|95.0|-0.44|0.36||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.36|-0.44|0.845
92158194|NCT00495469|184203053|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.393|TWO_SIDED|95.0|-0.58|0.23||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.23|-0.58|0.393
92158195|NCT00495469|184203053|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.072|TWO_SIDED|95.0|-0.76|0.03||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.03|-0.76|0.072
92158196|NCT00495469|184203054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.767|TWO_SIDED|95.0|-0.4|0.3||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.30|-0.40|0.767
92158197|NCT00495469|184203054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.604|TWO_SIDED|95.0|-0.46|0.27||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.27|-0.46|0.604
92158198|NCT00495469|184203054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13||||0.483|TWO_SIDED|95.0|-0.23|0.48||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.48|-0.23|0.483
92158199|NCT00495469|184203054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.956|TWO_SIDED|95.0|-0.35|0.37||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.37|-0.35|0.956
92158200|NCT00495469|184203054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24||||0.185|TWO_SIDED|95.0|-0.12|0.6||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.60|-0.12|0.185
92158201|NCT00495469|184203054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.863|TWO_SIDED|95.0|-0.32|0.39||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.39|-0.32|0.863
92158202|NCT00495469|184203055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.348|TWO_SIDED|95.0|-0.46|0.16||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.16|-0.46|0.348
92158203|NCT00495469|184203055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.952|TWO_SIDED|95.0|-0.33|0.31||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.31|-0.33|0.952
92158204|NCT00495469|184203055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.523|TWO_SIDED|95.0|-0.21|0.42||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.42|-0.21|0.523
92158205|NCT00495469|184203055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.889|TWO_SIDED|95.0|-0.34|0.29||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.29|-0.34|0.889
92158206|NCT00495469|184203055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25||||0.124|TWO_SIDED|95.0|-0.07|0.56||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.56|-0.07|0.124
92158207|NCT00495469|184203055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.581|TWO_SIDED|95.0|-0.22|0.4||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.40|-0.22|0.581
92158208|NCT00495469|184203056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.518|TWO_SIDED|95.0|-0.05|0.1||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.10|-0.05|0.518
92158209|NCT00495469|184203056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.352|TWO_SIDED|95.0|-0.04|0.11||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.11|-0.04|0.352
92158210|NCT00495469|184203056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.026|TWO_SIDED|95.0|0.01|0.16||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.16|0.01|0.026
92158211|NCT00495469|184203056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.069|TWO_SIDED|95.0|-0.01|0.14||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.14|-0.01|0.069
92158212|NCT00495469|184203056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06||||0.154|TWO_SIDED|95.0|-0.02|0.13||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.13|-0.02|0.154
92344198|NCT05994963|184591189|OTHER||Ratio of adjusted geometric means|50.13|||||TWO_SIDED|90.0|33.01|76.13|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment A = reference; treatment B = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||76.13|33.01|
92399630|NCT03583099|184690781|SUPERIORITY||Difference in means|-0.32||||0.55|TWO_SIDED|95.0|-2.01|1.36||The p-value is adjusted for baseline CAT score.|Mixed Models Analysis||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.36|-2.01|0.55
92217846|NCT03654976|184336105|SUPERIORITY||Odds Ratio (OR)|0.7713||||0.4156|TWO_SIDED|95.0|0.41|1.44|||Marginal logistic regression||12 SQ-HDM SLIT-tablet as the numerator and placebo SLIT-tablet as the denominator.|A marginal logistic regression model with a generalized estimating approach was analyzed using treatment, visit, treatment\*visit, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. Baseline visit was included as a covariate. No missing data approach was applied.||1.44|0.41|0.4156
92217847|NCT03654976|184336106|SUPERIORITY||Odds Ratio (OR)|0.8477||||0.4146|TWO_SIDED|95.0|0.57|1.26|||Marginal logistic regression||12 SQ-HDM SLIT-tablet as the numerator and placebo SLIT-tablet as the denominator.|A marginal logistic regression model with a generalized estimating approach was analyzed using treatment, visit, treatment\*visit, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. Baseline visit is included as a covariate. No missing data approach was applied.||1.26|0.57|0.4146
92217848|NCT03654976|184336107|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.8829|TWO_SIDED|95.0|-1.47|1.7|||Mixed-effect model repeated measurement||12 SQ-HDM - placebo|A 'mixed-effect model repeated measurement' model was analysed using treatment, visit, treatment\*visit, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. Baseline visit was included as a covariate. No missing data approach was applied.||1.70|-1.47|0.8829
92217849|NCT03654976|184336108|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0044|TWO_SIDED|95.0|1.29|3.96|||Generalised linear mixed model||12 SQ-HDM SLIT-tablet as the numerator and placebo SLIT-tablet as the denominator.|The odds of having an improved outcome was analyzed using a generalized linear mixed model (GLMM) with a logit link function. The model included treatment, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. No missing data approach was applied.||3.96|1.29|0.0044
92217850|NCT03654976|184336109|SUPERIORITY||Odds Ratio, log|1.62||||0.0698|TWO_SIDED|95.0|0.96|2.74|||Generalised linear mixed model||12 SQ-HDM SLIT-tablet as the numerator and placebo SLIT-tablet as the denominator.|The odds of having an improved outcome was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model included treatment, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. No missing data approach was applied.||2.74|0.96|0.0698
92217851|NCT00117598|184336112|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.0001|TWO_SIDED|95.0|0.25|0.63|||Log Rank||HR from a cox model adjusted for baseline stratification factors|Two null hypotheses (Ho) tested: 1. PFS distributions for temsirolimus 175/75 mg and investigator's choice treatment groups are identical. 2. PFS distributions for temsirolimus 175/25 mg and investigator's choice treatment groups are identical. Alternative hypothesis (Ha) for each test was that PFS distributions differed.||0.63|0.25|<0.0001
92217852|NCT00117598|184336112|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41|||<|0.0001|TWO_SIDED|95.0|0.26|0.65|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||0.65|0.26|<0.0001
92217853|NCT00117598|184336113|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||Fisher Exact|||||||0.0019
92217854|NCT00117598|184336113|SUPERIORITY_OR_OTHER|||||||0.6179|TWO_SIDED||||||Fisher Exact|||||||0.6179
92217855|NCT00117598|184336114|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.3053|TWO_SIDED|95.0|0.46|1.28|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||1.28|0.46|0.3053
92217856|NCT00117598|184336114|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.98||||0.9515|TWO_SIDED|95.0|0.6|1.62|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||1.62|0.60|0.9515
92217857|NCT00117598|184336115|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.14|9.01|||||HR from a cox model adjusted for baseline stratification factors|||9.01|0.14|
92217858|NCT00117598|184336115|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.1|13.3|||||HR from a cox model adjusted for baseline stratification factors|||13.3|0.10|
92217859|NCT00117598|184336117|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36|||<|0.0001|TWO_SIDED|95.0|0.23|0.56|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||0.56|0.23|<0.0001
92217860|NCT00117598|184336117|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.0001|TWO_SIDED|95.0|0.26|0.6|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||0.60|0.26|<0.0001
92217861|NCT00117598|184336118|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39||||0.0004|TWO_SIDED|95.0|0.23|0.67|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||0.67|0.23|0.0004
92217862|NCT00117598|184336118|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.0712|TWO_SIDED|95.0|0.4|1.04|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||1.04|0.40|0.0712
92217863|NCT00545064|184336126|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2|STANDARD_DEVIATION|20.2||0.001||95.0|-0.6|7.0|||t-test, 2 sided|||"The change is the post-baseline value minus the baseline value.~Null Hypothesis: change in GSS-SYMP-6 score = 7"||7.0|-0.6|0.001
92217864|NCT00545064|184336126|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2|STANDARD_DEVIATION|20.2||0.097||95.0|-0.6|7.0|||t-test, 2 sided|||"The change is the post-baseline value minus the baseline value.~Null Hypothesis: change in GSS-SYMP-6 = 0"||7.0|-0.6|0.097
92217865|NCT00545064|184336129|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.5|STANDARD_DEVIATION|5.3|<|0.001||95.0|-12.3|-10.7|||t-test, 2 sided|||"The change is the post-baseline value minus the baseline value.~Null Hypothesis: change in IOP = -4"||-10.7|-12.3|<0.001
92344199|NCT05994963|184591190|OTHER||Ratio of adjusted geometric means|202.52|||||TWO_SIDED|90.0|138.43|296.27|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment C = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||296.27|138.43|
92344200|NCT05994963|184591191|OTHER||Ratio of adjusted geometric means|196.11|||||TWO_SIDED|90.0|131.01|293.55|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment C = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||293.55|131.01|
92344201|NCT05994963|184591192|OTHER||Ratio of adjusted geometric means|230.22|||||TWO_SIDED|90.0|145.53|364.2|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment C = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||364.20|145.53|
92344202|NCT05994963|184591193|OTHER||Ratio of adjusted geometric means|122.84|||||TWO_SIDED|90.0|93.61|161.19|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment D= test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||161.19|93.61|
92399631|NCT03583099|184690782|SUPERIORITY||Difference in proportion|8.7||||0.05|TWO_SIDED|95.0|-0.1|17.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||17.4|-0.1|0.05
92158213|NCT00495469|184203056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.005|TWO_SIDED|95.0|0.03|0.18||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.18|0.03|0.005
92158214|NCT00495469|184203057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.143|TWO_SIDED|95.0|-0.58|0.08||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.08|-0.58|0.143
92158215|NCT00495469|184203057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.495|TWO_SIDED|95.0|-0.46|0.22||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.22|-0.46|0.495
92158216|NCT00495469|184203057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19||||0.261|TWO_SIDED|95.0|-0.52|0.14||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.14|-0.52|0.261
92217866|NCT00545064|184336129|SUPERIORITY_OR_OTHER||Median Difference (Net)|-11.5|STANDARD_DEVIATION|5.3|<|0.001||95.0|-12.3|-10.7|||t-test, 2 sided|||"The change is the post-baseline value minus the baseline value.~Null Hypothesis: change in IOP = 0"||-10.7|-12.3|<0.001
92344203|NCT05994963|184591194|OTHER||Ratio of adjusted geometric means|104.69|||||TWO_SIDED|90.0|94.54|115.94|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment D= test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||115.94|94.54|
92344204|NCT05994963|184591195|OTHER||Ratio of adjusted geometric means|124.59|||||TWO_SIDED|90.0|93.46|166.09|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment D= test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||166.09|93.46|
92344205|NCT01296412|184591221|NON_INFERIORITY_OR_EQUIVALENCE|The sitagliptin-based treatment paradigm was to be declared non-inferior to the liraglutide-based treatment paradigm in lowering A1C at Week 26 if the upper bound of 95% confidence intervals of between group difference was less than the non-inferiority margin of 0.4%.|Difference in least squares mean|0.09|||||TWO_SIDED|95.0|-0.05|0.23|||ANCOVA|The ANCOVA model included a term for treatment paradigm and a covariate for baseline value.||||0.23|-0.05|
92344206|NCT01296412|184591222|SUPERIORITY_OR_OTHER||Difference in least squares mean|5.9|||||TWO_SIDED|95.0|0.5|11.4|||ANCOVA|The ANCOVA model included a term for treatment paradigm and a covariate for baseline value.||||11.4|0.5|
92158217|NCT00495469|184203057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.446|TWO_SIDED|95.0|-0.46|0.2||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.20|-0.46|0.446
92158218|NCT00495469|184203057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.783|TWO_SIDED|95.0|-0.29|0.38||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.38|-0.29|0.783
92158219|NCT00495469|184203057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.454|TWO_SIDED|95.0|-0.46|0.21||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.21|-0.46|0.454
92217867|NCT00074581|184336160|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.07|||<|0.0001|TWO_SIDED|95.0|0.02|0.22|||Regression, Cox||The hazard ratio estimate presented (0.07) is a comparison of the early-ART arm (numerator) to the delayed-ART arm (denominator), thus indicating a 93% lower risk of infection among all linked partner infections, during the entire study.|||0.22|0.02|<0.0001
92344207|NCT01296412|184591223|SUPERIORITY_OR_OTHER||Difference in percent|-9.5|||||TWO_SIDED|95.0|-17.4|-1.5|||Miettinen & Nurminen|||||-1.5|-17.4|
92344208|NCT01296412|184591224|SUPERIORITY_OR_OTHER||Difference in percent|-4.5|||||TWO_SIDED|95.0|-12.7|3.7|||Miettinen & Nurminen|||||3.7|-12.7|
92344209|NCT02160626|184591225|OTHER|||||||0.0003|||||||ANOVA|||||||0.0003
92344210|NCT02160626|184591225|OTHER|||||||0.0001|||||||ANOVA|||||||.0001
92217868|NCT00074581|184336161|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.19|0.53|||Regression, Cox||The hazard ratio estimate presented (0.31) is a comparison of the early-ART arm (numerator) to the delayed-ART arm (denominator), thus indicating a 69% lower risk of infection among all partner infections, during the entire study.|||0.53|0.19|<0.0001
92217869|NCT02303704|184336223|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|to check the equality of means|||||<|0.05|TWO_SIDED|||||P-value less than 0.05 was considered significant|t-test, 2 sided|two compare two independent quantitative groups||Null hypothesis was there is no significant difference between the means of two groups||||<0.05
92217870|NCT02303704|184336224|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|to check the equality of means between the two groups|||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92217871|NCT02303704|184336225|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|to check the equality of means|||||<|0.05|TWO_SIDED|||||p-value \<0.05 was considered significant.|t-test, 2 sided|To compare the means between the two groups, to find out the significant difference between Group I and II.||Null Hypothesis: The dose of nor-adrenaline on weaning from CPB is same for Group I and II.||||<0.05
92344211|NCT02160626|184591226|OTHER|||||||0.0001|||||||ANCOVA|||mean change from baseline to Visit 8 PLA will be performed using Analysis of Covariance (ANCOVA) with baseline PLA as the covariate.||||0.0001
92158220|NCT00495469|184203058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19||||0.363|TWO_SIDED|95.0|-0.59|0.22||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.22|-0.59|0.363
92344212|NCT02160626|184591226|OTHER|||||||0.0001|||||||ANCOVA|||mean change from baseline to Visit 8 PLA will be performed using Analysis of Covariance (ANCOVA) with baseline PLA as the covariate.||||0.0001
92344213|NCT02160626|184591227|OTHER|||||||0.0016||||||For all analyses, two-tail alpha will be set to 0.05 with no adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|For all analyses, two-tail alpha will be set to 0.05 with no adjustment for multiple comparisons.||"Secondary efficacy analyses will also be conducted based on the proportion of subjects who have at least 3 of 4 target lesions judged to be clear on the PLA (PLA=0) at Visit 8.~A separate comparison will be made between each active treatment group and the vehicle treatment group using Cochran-Mantel-Haenszel (CMH) tests stratified by site."||||0.0016
92344214|NCT02160626|184591227|OTHER|For all analyses, two-tail alpha will be set to 0.05 with no adjustment for multiple comparisons.||||||0.0004||||||For all analyses, two-tail alpha will be set to 0.05 with no adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.0004
92344215|NCT05471505|184591228|OTHER||Hazard Ratio (HR)|0.752|||<|0.001|TWO_SIDED|95.0|0.719|0.787|||COX Proportional Hazards Regression|||||0.787|0.719|<0.001
92344216|NCT05471505|184591229|OTHER||Hazard Ratio (HR)|0.747|||<|0.001|TWO_SIDED|95.0|0.687|0.813|||COX Proportional Hazards Regression|||||0.813|0.687|<0.001
92158221|NCT00495469|184203058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.111|TWO_SIDED|95.0|-0.76|0.08||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.08|-0.76|0.111
92344217|NCT05471505|184591230|OTHER||Hazard Ratio (HR)|0.909|||<|0.001|TWO_SIDED|95.0|0.862|0.958|||COX Proportional Hazards Regression|||||0.958|0.862|<0.001
92344218|NCT05471505|184591231|OTHER||Hazard Ratio (HR)|0.948||||0.378|TWO_SIDED|95.0|0.842|1.067|||COX Proportional Hazards Regression|||||1.067|0.842|0.378
92344219|NCT05471505|184591232|OTHER||Hazard Ratio (HR)|0.259|||<|0.001|TWO_SIDED|95.0|0.229|0.294|||COX Proportional Hazards Regression|||||0.294|0.229|<0.001
92158222|NCT00495469|184203058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.08|TWO_SIDED|95.0|-0.77|0.04||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.04|-0.77|0.080
92217872|NCT02303704|184336226|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|to chek the equality of means between the two groups|||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92217873|NCT02303704|184336227|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|||||p- value less than 0.05 was considered as significant difference in proportion between the two groups|Chi-squared|two compare the qualitative data between two groups||Null Hypothesis:The proportion of IABP use is same between the two groups||||<0.05
92217874|NCT02303704|184336228|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|||||P-value \<0.05 was considered to be significant i.e. operative mortality is not same between the two groups|Fisher Exact|Fisher exact test was used because 1 cell (25%) have expected count less than 5.||Null Hypothesis: Operative mortality ratio is same in both groups||||<0.05
92344220|NCT05471505|184591233|OTHER||Hazard Ratio (HR)|0.767|||<|0.001|TWO_SIDED|95.0|0.7|0.84|||COX Proportional Hazards Regression|||||0.840|0.700|<0.001
92344221|NCT05471505|184591234|OTHER||Hazard Ratio (HR)|0.932||||0.022|TWO_SIDED|95.0|0.877|0.99|||COX Proportional Hazards Regression|||||0.990|0.877|0.022
92344222|NCT00720278|184591298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|STANDARD_DEVIATION|0.47|<|0.001||95.0|-2.98|-1.14|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-1.14|-2.98|<0.001
92344223|NCT00720278|184591298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|0.465|<|0.001||95.0|-3.91|-2.09|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-2.09|-3.91|<0.001
92344224|NCT00720278|184591299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78|STANDARD_DEVIATION|0.479|<|0.001||95.0|-2.72|-0.84|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-0.84|-2.72|<0.001
92344225|NCT00720278|184591299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.668|STANDARD_DEVIATION|0.4735|<|0.001||95.0|-3.6|-1.74|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-1.74|-3.60|<0.001
92344226|NCT00720278|184591300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.376|STANDARD_DEVIATION|0.418||0.001||95.0|-2.2|-0.56|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-0.56|-2.20|0.001
92158223|NCT00495469|184203058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.23||||0.267|TWO_SIDED|95.0|-0.64|0.18||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.18|-0.64|0.267
92158224|NCT00495469|184203058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.549|TWO_SIDED|95.0|-0.54|0.29||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.29|-0.54|0.549
92344227|NCT00720278|184591300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.432|STANDARD_DEVIATION|0.4145|<|0.001||95.0|-3.24|-1.62|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-1.62|-3.24|<0.001
92344228|NCT01075048|184591303|SUPERIORITY|||||||0.3815|||||||Log Rank|||||||0.3815
92344229|NCT01075048|184591303|SUPERIORITY|||||||0.19|||||||Peto-Peto-Prentice|||||||0.1900
92344230|NCT01075048|184591303|SUPERIORITY|||||||0.1986|||||||Generalized Wilcoxon|||||||0.1986
92344231|NCT01075048|184591303|SUPERIORITY|||||||0.2617|||||||Tarone-Ware|||||||0.2617
92344232|NCT01075048|184591304|SUPERIORITY|||||||0.4488|||||||Log Rank|||||||0.4488
92344233|NCT01075048|184591304|SUPERIORITY|||||||0.2887|||||||Peto-Peto-Prentice|||||||0.2887
92344234|NCT01075048|184591304|SUPERIORITY|||||||0.1851|||||||Generalized Wilcoxon|||||||0.1851
92344235|NCT01075048|184591304|SUPERIORITY|||||||0.2495|||||||Tarone-Ware|||||||0.2495
92344236|NCT01075048|184591306|SUPERIORITY|||||||0.2804|||||||Log Rank|||OS data cutoff as of 12 Oct 2012||||0.2804
92344237|NCT01075048|184591306|SUPERIORITY|||||||0.2469|||||||Log Rank|||OS data cutoff as of 29 Mar 2013||||0.2469
92344238|NCT01075048|184591306|SUPERIORITY|||||||0.1334|||||||Log Rank|||OS data cutoff as of 25 Jul 2013||||0.1334
92344239|NCT01075048|184591306|SUPERIORITY|||||||0.2159|||||||Log Rank|||OS data cutoff as of 20 Feb 2015||||0.2159
92344240|NCT01677286|184591310|OTHER|P-values and confidence intervals are not adjusted for multiple testing|Mean outcome change|171.0||||0.035|TWO_SIDED|95.0|14.1|328.0|||Mixed Models Analysis|degrees of freedom = 12||BNP pg/mL, baseline versus end study values||328|14.1|0.035
92344241|NCT01677286|184591311|OTHER|P-values and confidence intervals are not adjusted for multiple testing|Mean outcome change|0.0072||||0.34|TWO_SIDED|95.0|-0.009|0.0234|||Mixed Models Analysis|degrees of freedom = 12||Troponin I ng/mL, baseline versus end study levels.||0.0234|-0.009|0.340
92344242|NCT01677286|184591312|OTHER|P-values and confidence intervals are not adjusted for multiple testing|Change in outcome measure|-7.39||||0.017|TWO_SIDED|95.0|-13.12|-1.67|||Mixed Models Analysis|degrees of freedom = 10||Creatinine clearance, baseline versus end study levels.||-1.67|-13.12|0.017
92344243|NCT01677286|184591313|OTHER|P-values and confidence intervals are not adjusted for multiple testing|Change in outcome measure|0.091||||0.603|TWO_SIDED|95.0|-0.285|0.466|||Mixed Models Analysis|degrees of freedom = 10||Proteinuria (g/24 hours), baseline versus end study levels.||0.466|-0.285|0.603
92344244|NCT00408499|184591314|OTHER|Maximum tolerated dose was derived from toxicity data obtained from dose level 1-4.|Maximum tolerated dose|4.0|||||TWO_SIDED||||||||Maximum tolerated dose was determined to be dose level 4: 150 mg Erlotinib, 250 mg/m2 Cetuximab|||||
92344245|NCT01516216|184591420|SUPERIORITY|||||||0.07|||||||Log Rank|||||||0.07
92344246|NCT01516216|184591421|SUPERIORITY|||||||0.43|||||||Log Rank|||||||0.43
92344247|NCT01516216|184591422|SUPERIORITY|||||||0.27|||||||Chi-squared|||||||0.27
92344248|NCT01516216|184591424|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||0.68
92344249|NCT01516216|184591427|SUPERIORITY|||||||0.9801|||||||Chi-squared|||||||0.9801
92344250|NCT01516216|184591428|SUPERIORITY|||||||0.7444|||||||Chi-squared|||||||0.7444
92344251|NCT03098979|184591429|SUPERIORITY|||||||0.5183||||||Linear dose-response shape: The multiple comparison procedures (MCP) approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques.||||||0.5183
92344252|NCT03098979|184591429|SUPERIORITY|||||||0.33||||||Sigmoidal Emax 1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques||||||0.3300
92344253|NCT03098979|184591429|SUPERIORITY|||||||0.6232||||||Sigmoidal Emax 2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques||||||0.6232
92344254|NCT03098979|184591429|SUPERIORITY|||||||0.0918||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques||||||0.0918
92344255|NCT03098979|184591429|SUPERIORITY|||||||0.2701||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques||||||0.2701
92344256|NCT02419807|184591450|EQUIVALENCE|Equivalence is defined as the difference in the proportions of nodes flagged between the Tc and ICG methods falling within an interval (-δ, +δ), where δ is taken to be 5%.|Mean Difference (Final Values)|0.09|||||TWO_SIDED|95.0|0.036|0.151||||||||0.151|0.036|
92344257|NCT01499511|184591467|SUPERIORITY|||||||0.624|||||||ANOVA|||||||0.624
92344258|NCT01499511|184591468|SUPERIORITY|||||||0.004|||||||ANOVA|||||||0.004
92344259|NCT01499511|184591469|SUPERIORITY|||||||0.304|||||||ANOVA|||||||0.304
92344260|NCT01499511|184591470|SUPERIORITY|||||||0.641|||||||ANOVA|||||||0.641
92344261|NCT01499511|184591471|SUPERIORITY|||||||0.915|||||||ANOVA|||||||0.915
92344262|NCT02202252|184591488|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.490
92344263|NCT02202252|184591489|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Chi-squared|||||||0.035
92344264|NCT02202252|184591490|SUPERIORITY_OR_OTHER|||||||0.819|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.819
92344265|NCT04459338|184591491|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||All continuous data are summarized as means ± SEM. Area Under the Curve (AUC) was calculated using the trapezoidal rule. A paired, two-way Student t-test (parametric) or a Wilcoxon matched-pairs signed rank test (non-parametric) was used to examine differences between study days. A p-value \<0.05 was considered statistically significant.||||0.02
92344266|NCT01668797|184591631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|The log-rank test was based on time to exacerbation of psychotic symptoms/impending relapse.||The total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 1:1 (brexpiprazole:placebo) randomization ratio.||||<0.0001
92344267|NCT01668797|184591632|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Chi-squared|||The percentage of participants with impending relapse in treatment groups (Brexpiprazole and placebo) in final analysis for participants meeting at least one of the criteria.||||<0.0001
92344268|NCT01668797|184591633|SUPERIORITY_OR_OTHER|||||||0.2296|||||||Chi-squared|||Statistical analysis at Week 6.||||0.2296
92344269|NCT01668797|184591633|SUPERIORITY_OR_OTHER|||||||0.2051|||||||Chi-squared|||Statistical analysis at Week 12.||||0.2051
92344270|NCT01668797|184591633|SUPERIORITY_OR_OTHER|||||||0.7354|||||||Chi-squared|||Statistical analysis at Week 24.||||0.7354
92344271|NCT01668797|184591633|SUPERIORITY_OR_OTHER|||||||0.1977|||||||Chi-squared|||Statistical analysis at Week 36.||||0.1977
92158225|NCT00495469|184203058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.056|TWO_SIDED|95.0|-0.81|0.01||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.01|-0.81|0.056
92158226|NCT00495469|184203059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.396|TWO_SIDED|95.0|-1.65|0.66||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.66|-1.65|0.396
92158227|NCT00495469|184203059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.51||||0.013|TWO_SIDED|95.0|-2.7|-0.33||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||-0.33|-2.70|0.013
92158228|NCT00495469|184203059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.44||||0.017|TWO_SIDED|95.0|-2.61|-0.26||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||-0.26|-2.61|0.017
92158229|NCT00495469|184203059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.45||||0.015|TWO_SIDED|95.0|-2.61|-0.28||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||-0.28|-2.61|0.015
92158230|NCT00495469|184203059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09||||0.069|TWO_SIDED|95.0|-2.26|0.08||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.08|-2.26|0.069
92158231|NCT00495469|184203059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.03||||0.086|TWO_SIDED|95.0|-0.15|2.2||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||2.20|-0.15|0.086
92158232|NCT00372567|184203112|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.484|2.235|||Cox Proportional Hazards Model|Model stratified by previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||No hypothesis tested.||2.235|0.484|
92158233|NCT00372567|184203113|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.818|||||TWO_SIDED|95.0|0.64|12.41|||Cox Proportional Hazards Model|Model stratified by previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||12.41|0.640|
92158234|NCT00372567|184203115|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.027|||||TWO_SIDED|95.0|0.505|2.088|||Cox Proportional Hazards Model|Model stratified by previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||2.088|0.505|
92158235|NCT00372567|184203116|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.308|||||TWO_SIDED|95.0|0.4|13.0|||Cochran-Mantel-Haenszel|Stratified by previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||13.0|0.4|
92158236|NCT00372567|184203119|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.434|||||TWO_SIDED|95.0|1.057|11.15|||Cox Proportional Hazards Model|Model stratified by previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||11.15|1.057|
92158237|NCT00372567|184203120|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.379|||||TWO_SIDED|95.0|0.1|2.3|||Cochran-Mantel-Haenszel|Stratified for previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||2.3|0.1|
92158238|NCT00372567|184203121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.318|||||TWO_SIDED|95.0|0.5|3.8|||Cochran-Mantel-Haenszel|Stratified for previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||3.8|0.5|
92158239|NCT03890120|184203146|SUPERIORITY||Difference in Percentages|-1.4||||0.4186|TWO_SIDED|95.0|-15.2|12.3|||Mantel Haenszel||The difference of cilofexor and placebo,95% confidence interval(CI),and P value(1-sided)were obtained by the stratum-adjusted Mantel-Haenszel (MH) method,with baseline ursodeoxycholic acid(UDCA)use and Ludwig fibrosis stage as stratification factors.|||12.3|-15.2|0.4186
92275188|NCT00106028|184452434|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.333|||<|0.0001||95.0|5.258|15.408|||ANCOVA|LS Means and p-value are from ANCOVA model adjusted by baseline and with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||15.408|5.258|<0.0001
92158240|NCT03890120|184203151|SUPERIORITY||Difference in Least Squares Mean (LSM)|-4.0||||0.3884|TWO_SIDED|95.0|-28.0|21.0|||ANCOVA||The LSM,95% CI and P-value(1-sided) were obtained by an analysis of covariance(ANCOVA)model with change at Week 96 as dependent variable,baseline value of outcome measure,baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||21|-28|0.3884
92344272|NCT01668797|184591633|SUPERIORITY_OR_OTHER|||||||0.8734|||||||Chi-squared|||Statistical analysis at Week 52.||||0.8734
92344273|NCT01668797|184591633|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Chi-squared|||Statistical analysis at Last Visit.||||0.0007
92344274|NCT01668797|184591634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3||||0.0664|TWO_SIDED|95.0|-6.82|0.23|||Mixed Models Analysis|||Statistical analysis of treatment comparisons at Week 6.||0.23|-6.82|0.0664
92344275|NCT01668797|184591634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.31||||0.0301|TWO_SIDED|95.0|-10.1|-0.52|||Mixed Models Analysis|||Statistical analysis of treatment comparisons at Week 12.||-0.52|-10.1|0.0301
92344276|NCT01668797|184591634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.77||||0.0226|TWO_SIDED|95.0|-8.86|-0.68|||Mixed Models Analysis|||Statistical analysis of treatment comparisons at Week 24.||-0.68|-8.86|0.0226
92344277|NCT01668797|184591634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.03||||0.0086|TWO_SIDED|95.0|-10.5|-1.59|||Mixed Models Analysis|||Statistical analysis of treatment comparisons at Week 36.||-1.59|-10.5|0.0086
92344278|NCT01668797|184591634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.31||||0.28|TWO_SIDED|95.0|-18.1|5.46|||Mixed Models Analysis|||Statistical analysis of treatment comparisons at Week 52.||5.46|-18.1|0.2800
92344279|NCT01668797|184591634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.42||||0.0011|TWO_SIDED|95.0|-7.01|-1.82|||Mixed Models Analysis|||Statistical analysis at across visits||-1.82|-7.01|0.0011
92217875|NCT01034540|184336240|SUPERIORITY_OR_OTHER_LEGACY|||||||0.959||||||Values were not normally distributed, thus analyses were performed on ranked values and medians (IQL) are presented.|ANOVA|All tests of statistical significance were completed at the 5% level, two-tailed (p\<0.05).||An evaluable sample of 19 subjects provided 80% power (5% alpha-level, 2-tailed) to detect a 2.1 unit difference between control and active in MISI, assuming a 3.0 unit standard deviation (SD). Repeated measures ANOVA was used to assess responses to treatment. Initial repeated measures models contained terms of treatment period, and sequence as fixed effects, with subject modeled as random effect; models were reduced until only significant terms or treatment remained.||||0.959
92344280|NCT01668797|184591635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.04||||0.0683|TWO_SIDED|95.0|-6.31|0.23|||ANCOVA|||Statistical analysis at Week 6.||0.23|-6.31|0.0683
92344281|NCT01668797|184591635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.05||||0.0174|TWO_SIDED|95.0|-9.2|-0.9|||ANCOVA|||Statistical analysis at Week 12.||-0.90|-9.20|0.0174
92344282|NCT01668797|184591635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.59||||0.0008|TWO_SIDED|95.0|-12.0|-3.18|||ANCOVA|||Statistical analysis at Week 24.||-3.18|-12.0|0.0008
92217876|NCT01034540|184336241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037|||||||ANOVA|All tests of statistical significance were completed at the 5% level, two-tailed (p\<0.05).||||||0.037
92217877|NCT01034540|184336241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073||||||All tests of statistical significance were completed at the 5% level, two-tailed (p\<0.05).|ANOVA|||||||0.073
92344283|NCT01668797|184591635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.02||||0.0005|TWO_SIDED|95.0|-12.4|-3.59|||ANCOVA|||Statistical analysis at Week 36.||-3.59|-12.4|0.0005
92344284|NCT01668797|184591635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.95||||0.0007|TWO_SIDED|95.0|-12.5|-3.41|||ANCOVA|||Statistical analysis at Week 52.||-3.41|-12.5|0.0007
92344285|NCT01668797|184591636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.0507|TWO_SIDED|95.0|-2.23|0.0|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.00|-2.23|0.0507
92344286|NCT01668797|184591636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.87||||0.008|TWO_SIDED|95.0|-3.24|-0.5|||Mixed Models Analysis|||Statistical analysis at Week 12.||-0.50|-3.24|0.0080
92217878|NCT01721876|184336244|SUPERIORITY|The 2-sided test of the hypothesis was performed at a 0.05 level of significance. An odds ratio (OR) = 1 would indicate that the odds of achieving CR+CRi with Volasertib + Low-dose Cytarabine is equal to the odds of achieving CR+CRi with Placebo + Low-dose Cytarabine , whereas an OR ≠ 1 would indicate the opposite. H0, CR+CRi: OR = 1 vs. Ha, CR+CRi: OR ≠ 1.|Odds Ratio (OR)|1.8751||||0.0024|TWO_SIDED|95.0|1.2432|2.8281|||Cochran-Mantel-Haenszel||Common odds ratio is calculated by Mantel-Haenszel estimate adjusting for the two stratification factors (baseline Eastern Cooperative Oncology Group (ECOG) and type of AML). If odds ratio is above 1 then it favours Volasertib+Low-dose Cytarabine.|This analysis was exploratory and descriptive.||2.8281|1.2432|0.0024
92344287|NCT01668797|184591636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.56||||0.0215|TWO_SIDED|95.0|-2.89|-0.24|||Mixed Models Analysis|||Statistical analysis at Week 24.||-0.24|-2.89|0.0215
92344288|NCT01668797|184591636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88||||0.0053|TWO_SIDED|95.0|-3.19|-0.58|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.58|-3.19|0.0053
92344289|NCT01668797|184591636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.71||||0.339|TWO_SIDED|95.0|-5.2|-0.22|||Mixed Models Analysis|||Statistical analysis at Week 52.||-0.22|-5.20|0.339
92344290|NCT01668797|184591636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.32|-0.88|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.88|-2.32|< 0.0001
92344291|NCT01668797|184591637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.1093|TWO_SIDED|95.0|-2.1|0.21|||ANCOVA|||Statistical analysis at Week 6.||0.21|-2.10|0.1093
92344292|NCT01668797|184591637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.86||||0.0089|TWO_SIDED|95.0|-3.25|-0.47|||ANOVA|||Statistical analysis at Week 12.||-0.47|-3.25|0.0089
92344293|NCT01668797|184591637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74||||0.0005|TWO_SIDED|95.0|-4.26|-1.22|||ANCOVA|||Statistical analysis at Week 24.||-1.22|-4.26|0.0005
92344294|NCT01668797|184591637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.94||||0.0001|TWO_SIDED|95.0|-4.43|-1.44|||ANCOVA|||Statistical analysis at Week 36.||-1.44|-4.43|0.0001
92344295|NCT01668797|184591637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.18|||<|0.0001|TWO_SIDED|95.0|-4.7|-1.66|||ANCOVA|||Statistical analysis at Week 52||-1.66|-4.70|<0.0001
92344296|NCT01668797|184591638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.165|TWO_SIDED|95.0|-1.66|0.29|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.29|-1.66|0.1650
92344297|NCT01668797|184591638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.2001|TWO_SIDED|95.0|-1.97|0.42|||Mixed Models Analysis|||Statistical analysis at Week 12.||0.42|-1.97|0.2001
92344298|NCT01668797|184591638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95||||0.0939|TWO_SIDED|95.0|-2.07|0.16|||Mixed Models Analysis|||Statistical analysis at Week 24.||0.16|-2.07|0.0939
92344299|NCT01668797|184591638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05||||0.1396|TWO_SIDED|95.0|-2.44|0.35|||Mixed Models Analysis|||Statistical analysis at Week 36.||0.35|-2.44|0.1396
92344300|NCT01668797|184591638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43||||0.847|TWO_SIDED|95.0|-4.14|5.0|||Mixed Models Analysis|||Statistical analysis at Week 52.||5.00|-4.14|0.8470
92344301|NCT01668797|184591638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.2258|TWO_SIDED|95.0|-1.24|0.3|||Mixed Models Analysis|||Statistical analysis at across visits.||0.3|-1.24|0.2258
92217879|NCT01721876|184336245|SUPERIORITY|The hazard ratio (HR) between Volasertib + Low-dose Cytarabine and Placebo + Low-dose Cytarabine was tested against 1. The null hypothesis, H0,OS, was that the hazards are equal between Volasertib + Low-dose Cytarabine and Placebo + Low-dose Cytarabine, whereas the alternative hypothesis, Ha,OS, was that the hazards are not equal between the 2 treatment arms. H0, OS: HR = 1 vs. Ha, OS: HR ≠ 1.|Hazard Ratio (HR)|0.97||||0.7571|TWO_SIDED|95.0|0.8|1.2||P-value is calculated from log-rank test stratified by baseline ECOG (0-1 vs. 2) and type of AML (denovo vs. secondary).|Regression, Cox||Hazard ratio is calculated from Cox proportional hazard model stratified by baseline ECOG and type of AML. If hazard ratio is below 1 then it favours volasertib.|This analysis was exploratory and descriptive.||1.2|0.8|0.7571
92217880|NCT01721876|184336246|SUPERIORITY|The hazard ratio (HR) between Volasertib + Low-dose Cytarabine and Placebo + Low-dose Cytarabine was tested against 1. The null hypothesis, H0,OS, was that the hazards are equal between Volasertib + Low-dose Cytarabine and Placebo + Low-dose Cytarabine, whereas the alternative hypothesis, Ha,OS, was that the hazards are not equal between the 2 treatment arms. H0, OS: HR = 1 vs. Ha, OS: HR ≠ 1.|Hazard Ratio (HR)|0.96||||0.6718|TWO_SIDED|95.0|0.8|1.2||P-value is calculated from log-rank test stratified by baseline ECOG (0-1 vs. 2) and type of AML (denovo vs. secondary).|Regression, Cox||Hazard ratio is calculated from Cox proportional hazard model stratified by baseline ECOG and type of AML. If hazard ratio is below 1 then it favours volasertib.|This analysis was exploratory and descriptive.||1.2|0.8|0.6718
92217881|NCT01721876|184336247|OTHER||Hazard Ratio (HR)|1.37|||||TWO_SIDED|95.0|0.7|2.7|||Regression, Cox||Hazard ratio is calculated from Cox proportional hazard model stratified by baseline ECOG and type of AML. If hazard ratio is below 1 then it favours volasertib.|||2.7|0.7|
92217882|NCT03805750|184336253|OTHER|||||||0.52|||||||Regression, Logistic|||||||0.52
92217883|NCT00493220|184336255|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (natural log-transformed)|111.79|||||TWO_SIDED|90.0|108.57|115.12|||Schuirmann two one-sided tests procedure||HYLENEX SC/Placebo SC|||115.12|108.57|
92217884|NCT00493220|184336255|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (natural log-transformed)|60.81|||||TWO_SIDED|90.0|59.06|62.62|||Schuirmann two one-sided tests procedure||HYLENEX SC/Intravenous|||62.62|59.06|
92217885|NCT00493220|184336255|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|54.4|||||TWO_SIDED|90.0|52.82|56.01|||Schuirmann two one-sided tests procedure||Placebo SC/Intravenous|||56.01|52.82|
92344302|NCT01668797|184591639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76||||0.0981|TWO_SIDED|95.0|-1.65|0.14|||ANCOVA|||Statistical analysis at Week 6.||0.14|-1.65|0.0981
92344303|NCT01668797|184591639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22||||0.0264|TWO_SIDED|95.0|-2.3|-0.15|||ANCOVA|||Statistical analysis at Week 12.||-0.15|-2.30|0.0264
92344304|NCT01668797|184591639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55||||0.0078|TWO_SIDED|95.0|-2.69|-0.42|||ANCOVA|||Statistical analysis at Week 24.||-0.42|-2.69|0.0078
92344305|NCT01668797|184591639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.57||||0.0101|TWO_SIDED|95.0|-2.77|-0.38|||ANCOVA|||Statistical analysis at Week 36.||-0.38|-2.77|0.0101
92217886|NCT00493220|184336256|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.0|||<|0.01|TWO_SIDED|90.0|-1.25|-0.75|||Wilcoxon signed-rank test||HYLENEX SC minus Placebo SC|||-0.75|-1.25|<0.01
92217887|NCT00493220|184336256|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.52|||<|0.01|TWO_SIDED|90.0|1.27|1.71|||Wilcoxon signed-rank test||Placebo SC minus Intravenous|||1.71|1.27|<0.01
92217888|NCT00493220|184336256|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.52|||<|0.01|TWO_SIDED|90.0|2.26|2.76|||Wilcoxon signed-rank test||Placebo SC minus Intravenous|||2.76|2.26|<0.01
92217889|NCT00493220|184336257|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|101.99|||||TWO_SIDED|90.0|98.95|105.12|||Schuirmann two one-sided tests procedure||HYLENEX SC/Placebo SC|||105.12|98.95|
92217890|NCT00493220|184336257|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|106.79|||||TWO_SIDED|90.0|103.61|110.07|||Schuirmann two one-sided tests procedure||HYLENEX SC/Intravenous|||110.07|103.61|
92217891|NCT00493220|184336257|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|104.71|||||TWO_SIDED|90.0|101.59|107.92|||Schuirmann two one-sided tests procedure||Placebo SC/Intravenous|||107.92|101.59|
92217892|NCT00493220|184336258|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 95% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|101.76|||||TWO_SIDED|90.0|98.64|104.98|||Schuirmann two one-sided tests procedure||HYLENEX SC/Placebo SC|||104.98|98.64|
92217893|NCT00493220|184336258|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|106.95|||||TWO_SIDED|90.0|103.67|110.33|||Schuirmann two one-sided tests procedure||HYLENEX SC/Intravenous|||110.33|103.67|
92344306|NCT01668797|184591639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.0516|TWO_SIDED|95.0|-2.5|0.01|||ANCOVA|||Statistical analysis at Week 52||0.01|-2.50|0.0516
92344307|NCT01668797|184591640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.0279|TWO_SIDED|95.0|-0.53|-0.03|||Mixed Models Analysis|||Statistical analysis at Week 6.||-0.03|-0.53|0.0279
92344308|NCT01668797|184591640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.0117|TWO_SIDED|95.0|-0.68|-0.09|||Mixed Models Analysis|||Statistical analysis at Week 12.||-0.09|-0.68|0.0117
92344309|NCT01668797|184591640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.0105|TWO_SIDED|95.0|-0.64|-0.09|||Mixed Models Analysis|||Statistical analysis at Week 24.||-0.09|-0.64|0.0105
92344310|NCT01668797|184591640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.0007|TWO_SIDED|95.0|-0.87|-0.25|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.25|-0.87|0.0007
92344311|NCT01668797|184591640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.078|TWO_SIDED|95.0|-1.09|0.06|||Mixed Models Analysis|||Statistical analysis at Week 52.||0.06|-1.09|0.0780
92344312|NCT01668797|184591640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0006|TWO_SIDED|95.0|-0.54|-0.15|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.15|-0.54|0.0006
92344313|NCT01668797|184591641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0284|TWO_SIDED|95.0|-0.47|-0.03|||ANCOVA|||Statistical analysis at Week 6.||-0.03|-0.47|0.0284
92344314|NCT01668797|184591641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.0056|TWO_SIDED|95.0|-0.62|-0.11|||ANCOVA|||Statistical analysis at Week 12.||-0.11|-0.62|0.0056
92344315|NCT01668797|184591641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0002|TWO_SIDED|95.0|-0.76|-0.24|||ANCOVA|||Statistical analysis at Week 24.||-0.24|-0.76|0.0002
92344316|NCT01668797|184591641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.82|-0.3|||ANCOVA|||Statistical analysis at Week 36.||-0.30|-0.82|<.0001
92344317|NCT01668797|184591641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.0002|TWO_SIDED|95.0|-0.79|-0.26|||ANCOVA|||Statistical analysis at Week 52||-0.26|-0.79|0.0002
92344318|NCT01668797|184591642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.0387|TWO_SIDED|95.0|-0.6|-0.2|||Cochran-Mantel-Haenszel|||Statistical analysis at Week 6.||-0.20|-0.60|0.0387
92344319|NCT01668797|184591642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0185|TWO_SIDED|95.0|-0.75|-0.07|||Cochran-Mantel-Haenszel|||Statistical analysis at Week 12.||-0.07|-0.75|0.0185
92344320|NCT01668797|184591642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.001|TWO_SIDED|95.0|-0.97|-0.24|||Cochran-Mantel-Haenszel|||Statistical analysis at Week 24.||-0.24|-0.97|0.0010
92344321|NCT01668797|184591642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0004|TWO_SIDED|95.0|-1.02|-0.3|||Cochran-Mantel-Haenszel|||Statistical analysis at Week 36.||-0.30|-1.02|0.0004
92344322|NCT01668797|184591642|SUPERIORITY_OR_OTHER||Treatment difference|-0.61||||0.0009|TWO_SIDED|95.0|-0.96|-0.25|||Cochran-Mantel-Haenszel|||Statistical analysis at Week 52.||-0.25|-0.96|0.0009
92344323|NCT01668797|184591643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||0.6525|TWO_SIDED|95.0|-3.47|5.49|||Mixed Models Analysis|||Statistical analysis at Week 24.||5.49|-3.47|0.6525
92344324|NCT01668797|184591643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.08||||0.1677|TWO_SIDED|95.0|-2.71|14.87|||Mixed Models Analysis|||Statistical analysis at Week 52.||14.87|-2.71|0.1677
92344325|NCT01668797|184591643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.55||||0.2347|TWO_SIDED|95.0|-2.41|9.5|||Mixed Models Analysis|||Statistical analysis at across visits.||9.5|-2.41|0.2347
92344326|NCT01668797|184591644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.79||||0.0285|TWO_SIDED|95.0|0.4|7.17|||ANCOVA|||Statistical analysis at Week 24.||7.17|0.40|0.0285
92344327|NCT01668797|184591644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.75||||0.0071|TWO_SIDED|95.0|1.31|8.18|||ANCOVA|||Statistical analysis at Week 52.||8.18|1.31|0.0071
92344328|NCT01668797|184591645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.61||||0.329|TWO_SIDED|95.0|-1.65|4.88|||Mixed Models Analysis|||Statistical analysis at Week 12.||4.88|-1.65|0.3290
92344329|NCT01668797|184591645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.66||||0.1765|TWO_SIDED|95.0|-1.22|6.54|||Mixed Models Analysis|||Statistical analysis at Week 24.||6.54|-1.22|0.1765
92344330|NCT01668797|184591645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5||||0.0331|TWO_SIDED|95.0|0.38|8.63|||Mixed Models Analysis|||Statistical analysis at Week 36.||8.63|0.38|0.0331
92344331|NCT01668797|184591645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.88||||0.0522|TWO_SIDED|95.0|-0.06|11.82|||Mixed Models Analysis|||Statistical analysis at Week 52.||11.82|-0.06|0.0522
92344332|NCT01668797|184591645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.66||||0.0281|TWO_SIDED|95.0|0.41|6.92|||Mixed Models Analysis|||Statistical analysis at across visits.||6.92|0.41|0.0281
92344333|NCT01668797|184591646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.88||||0.0111|TWO_SIDED|95.0|0.9|6.86|||ANCOVA|||Statistical analysis at Week 12.||6.86|0.90|0.0111
92344334|NCT01668797|184591646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.36||||0.0014|TWO_SIDED|95.0|2.1|8.62|||ANCOVA|||Statistical analysis at Week 24.||8.62|2.10|0.0014
92344335|NCT01668797|184591646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.81|||<|0.0001|TWO_SIDED|95.0|3.61|10.0|||ANCOVA|||Statistical analysis at Week 36.||10.00|3.61|<.0001
92344336|NCT01668797|184591646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.55||||0.0001|TWO_SIDED|95.0|3.28|9.83|||ANCOVA|||Statistical analysis at Week 52.||9.83|3.28|0.0001
92344337|NCT01668797|184591647|SUPERIORITY_OR_OTHER|||||||0.0014|TWO_SIDED||||||Log Rank|||||||0.0014
92344338|NCT01668797|184591648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.1577|TWO_SIDED|95.0|-1.02|0.17|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.17|-1.02|0.1577
92344339|NCT01668797|184591648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.1685|TWO_SIDED|95.0|-1.61|0.28|||Mixed Models Analysis|||Statistical analysis at Week 12.||0.28|-1.61|0.1685
92344340|NCT01668797|184591648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.2815|TWO_SIDED|95.0|-1.43|0.42|||Mixed Models Analysis|||Statistical analysis at Week 24.||0.42|-1.43|0.2815
92344341|NCT01668797|184591648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.0286|TWO_SIDED|95.0|-2.16|-0.12|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.12|-2.16|0.0286
92344342|NCT01668797|184591648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.1803|TWO_SIDED|95.0|-2.58|0.51|||Mixed Models Analysis|||Statistical analysis at Week 52.||0.51|-2.58|0.1803
92344343|NCT01668797|184591648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.0077|TWO_SIDED|95.0|-1.12|-0.17|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.17|-1.12|0.0077
92344344|NCT01668797|184591649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.1852|TWO_SIDED|95.0|-1.06|0.21|||ANCOVA|||Statistical analysis at Week 6.||0.21|-1.06|0.1852
92344345|NCT01668797|184591649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.143|TWO_SIDED|95.0|-1.47|0.21|||ANCOVA|||Statistical analysis at Week 12.||0.21|-1.47|0.1430
92344346|NCT01668797|184591649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.0323|TWO_SIDED|95.0|-2.06|-0.09|||ANCOVA|||Statistical analysis at Week 24.||-0.09|-2.06|0.0323
92344347|NCT01668797|184591649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.0071|TWO_SIDED|95.0|-2.31|-0.37|||ANCOVA|||Statistical analysis at Week 36.||-0.37|-2.31|0.0071
92217894|NCT00493220|184336258|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|105.1|||||TWO_SIDED|90.0|101.87|108.42|||Schuirmann two one-sided tests procedure||Placebo SC/Intravenous|||108.42|101.87|
92217895|NCT04376827|184336288|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.7807|TWO_SIDED|80.0|0.27|1.41|||log-rank test||Hazard ratio and 80% CI: estimated by Cox proportional hazards model adjusting for baseline UPCR level (\<3 mg/mg and \>=3 mg/mg).|||1.41|0.27|0.7807
92344348|NCT01668797|184591649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54||||0.0023|TWO_SIDED|95.0|-2.52|-0.56|||ANCOVA|||Statistical analysis at Week 52.||-0.56|-2.52|0.0023
92217896|NCT04376827|184336289|SUPERIORITY||Hazard Ratio (HR)|1.52||||0.4654|TWO_SIDED|80.0|0.62|3.85|||long-rank test||Hazard ratio and 80% CI: estimated by Cox proportional hazards model adjusting for baseline UPCR level (\<3 mg/mg and \>=3 mg/mg).|||3.85|0.62|0.4654
92217897|NCT01798589|184336345|OTHER|Bioequivalence is assessed based on concordance between the 2 allergen using Kappa statistic|Concordance|66.7|||||TWO_SIDED|95.0|41.6|90.2||||||||90.2|41.6|
92217898|NCT01101438|184336373|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.93|TWO_SIDED|95.0|0.84|1.21|||Log Rank|||||1.21|0.84|0.93
92217899|NCT01101438|184336374|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.87|1.17|||Log Rank|||||1.17|0.87|0.94
92217900|NCT01101438|184336375|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.88|TWO_SIDED|95.0|0.83|1.24|||Log Rank|||||1.24|0.83|0.88
92344349|NCT01668797|184591650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.0288|TWO_SIDED|95.0|-2.54|-0.14|||Mixed Models Analysis|||Statistical analysis at Week 6.||-0.14|-2.54|0.0288
92344350|NCT01668797|184591650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.02||||0.0128|TWO_SIDED|95.0|-3.6|-0.44|||Mixed Models Analysis|||Statistical analysis at Week 12.||-0.44|-3.60|0.0128
92344351|NCT01668797|184591650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.59||||0.0462|TWO_SIDED|95.0|-3.15|0.03|||Mixed Models Analysis|||Statistical analysis at Week 24.||0.03|-3.15|0.0462
92344352|NCT01668797|184591650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.29||||0.0074|TWO_SIDED|95.0|-3.94|-0.64|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.64|-3.94|0.0074
92344353|NCT01668797|184591650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.0136|TWO_SIDED|95.0|-6.05|-0.75|||Mixed Models Analysis|||Statistical analysis at Week 52||-0.75|-6.05|0.0136
92344354|NCT01668797|184591650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.91||||0.0001|TWO_SIDED|95.0|-2.84|-0.97|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.97|-2.84|0.0001
92344355|NCT01668797|184591651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.0695|TWO_SIDED|95.0|-2.26|0.09|||ANCOVA|||Statistical analysis at Week 6.||0.09|-2.26|0.0695
92344356|NCT01668797|184591651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93||||0.0089|TWO_SIDED|95.0|-3.38|-0.49|||ANCOVA|||Statistical analysis at Week 12.||-0.49|-3.38|0.0089
92344357|NCT01668797|184591651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.83||||0.0004|TWO_SIDED|95.0|-4.39|-1.27|||ANCOVA|||Statistical analysis at Week 24.||-1.27|-4.39|0.0004
92344358|NCT01668797|184591651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.09||||0.0001|TWO_SIDED|95.0|-4.63|-1.54|||ANCOVA|||Statistical analysis at Week 36.||-1.54|-4.63|0.0001
92217901|NCT00709111|184336400|SUPERIORITY_OR_OTHER|||||||0.97||||||The p-value is one-sided with a nominal level of 0.05.|Wilcoxon signed-rank, 1-sided|||The change in CD4+ T-cell count from baseline to week 24 was compared against the null hypothesis of change \<20 cells/mm\^3. The study was powered to yield 80% power to show that there was \>=20 cells/mm\^3 increase in CD4+ T-cell count assuming an underlying change in CD4+ T-cell counts induced by MVC of 50 cells/mm\^3, a standard deviation of 60 cells/mm\^3 around the mean CD4+ T-cell count change, 10% lost-to-follow-up or premature MVC discontinuation rate, and one-sided type 1 error of 0.05.||||0.97
92217902|NCT00139776|184336478|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||"Null hypothesis for primary outcome is that there is no difference in the number of flares observed between the 2 treatment arms of celecoxib 200mg continuous use and celecoxib 200mg intermittent use.~Sample size calculation: Sufficient number of participants were randomized to provide at least 80% power to detect an estimated effect size of 0.2 using a 2-sided t-test at a 0.05 significant level."||||<0.0001
92217903|NCT00139776|184336479|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|Log Rank|||Kaplan-Meier analysis||||<0.0001
92217904|NCT00139776|184336480|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||||||<0.0001
92217905|NCT00139776|184336481|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||||||<0.0001
92217906|NCT00139776|184336482|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 4||||<0.001
92217907|NCT00139776|184336482|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 8||||<0.001
92217908|NCT00139776|184336482|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 12||||<0.001
92217909|NCT00139776|184336482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 16||||0.003
92217910|NCT00139776|184336482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 20||||0.022
92217911|NCT00139776|184336482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 24||||0.047
92217912|NCT00139776|184336483|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 4||||<0.001
92217913|NCT00139776|184336483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 8||||0.001
92217914|NCT00139776|184336483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.096||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 12||||0.096
92217915|NCT00139776|184336483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.338||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 16||||0.338
92217916|NCT00139776|184336483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.832||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 20||||0.832
92217917|NCT00139776|184336483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.972||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 24||||0.972
92217918|NCT00139776|184336484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0046||95.0||||Overall p-value Threshold for statistical significance p\<0.05|Cochran-Mantel-Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.0046
92217919|NCT00139776|184336485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0102||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||||||0.0102
92217920|NCT00139776|184336486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||||||0.0012
92344359|NCT01668797|184591651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44|||<|0.0001|TWO_SIDED|95.0|-4.99|-1.89|||ANCOVA|||Statistical analysis at Week 52.||-1.89|-4.99|<0.0001
92158241|NCT03890120|184203152|SUPERIORITY||Difference in LSM|-9.0||||0.039|TWO_SIDED|95.0|-20.0|1.0|||ANCOVA||The LSM, 95% CI and P-value (1-sided) were obtained by ANCOVA model to evaluate change at Week 96 as the dependent variable, baseline value of the outcome measure, baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||1|-20|0.0390
92217921|NCT00139776|184336487|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||||||<0.0001
92344360|NCT01668797|184591652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.1969|TWO_SIDED|95.0|-1.66|0.35|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.35|-1.66|0.1969
92344361|NCT01668797|184591652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.2007|TWO_SIDED|95.0|-2.04|0.43|||Mixed Models Analysis|||Statistical analysis at Week 12.||0.43|-2.04|0.2007
92344362|NCT01668797|184591652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17||||0.0436|TWO_SIDED|95.0|-2.3|-0.03|||Mixed Models Analysis|||Statistical analysis at Week 24.||-0.03|-2.30|0.0436
92344363|NCT01668797|184591652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51||||0.0444|TWO_SIDED|95.0|-2.97|-0.04|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.04|-2.97|0.0444
92344364|NCT01668797|184591652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.8927|TWO_SIDED|95.0|-4.4|5.02|||Mixed Models Analysis|||Statistical analysis at Week 52.||5.02|-4.40|0.8927
92217922|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Total WOMAC score||||<0.001
92217923|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|0.71||||95.0|0.21|2.99|||||Change in LSmean (score at end of Period III minus score at start of Period III)|Total WOMAC score - Continuous use||2.99|0.21|
92217924|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.99|STANDARD_ERROR_OF_MEAN|0.71||||95.0|3.6|6.38|||||Change in LSmean (score at end of Period III minus score at start of Period III)|Total WOMAC score - Intermittent use||6.38|3.60|
92217925|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC pain subscale||||<0.001
92217926|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.15||||95.0|0.06|0.67|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC pain subscale - Continuous use||0.67|0.06|
92217927|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.18|STANDARD_ERROR_OF_MEAN|0.15||||95.0|0.88|1.49|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC pain subscale - Intermittent use||1.49|0.88|
92217928|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC stiffness subscale||||0.004
92158242|NCT03890120|184203153|SUPERIORITY||Difference in LSM|-2.6||||0.2845|TWO_SIDED|95.0|-11.6|6.4|||ANCOVA||The LSM, 95% CI and P-value (1-sided) were obtained by ANCOVA model to evaluate change at Week 96 as the dependent variable, baseline value of the outcome measure, baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||6.4|-11.6|0.2845
92158243|NCT03890120|184203154|SUPERIORITY||Difference in Percentages|4.1||||0.1978|TWO_SIDED|95.0|-5.3|13.5|||Mantel Haenszel||The difference between cilofexor and Placebo, 95% CI, and the p-value (1-sided) were obtained by the stratum-adjusted MH method, with baseline UDCA use and Ludwig fibrosis stage as stratification factors.|||13.5|-5.3|0.1978
92158244|NCT03890120|184203155|SUPERIORITY||Difference in Percentages|8.9||||0.0797|TWO_SIDED|95.0|-3.5|21.2|||Mantel Haenszel||The difference between cilofexor and Placebo, 95% CI, and the p-value (1-sided) were obtained by the stratum-adjusted MH method, with baseline UDCA use and Ludwig fibrosis stage as stratification factors.|||21.2|-3.5|0.0797
92158245|NCT03890120|184203156|SUPERIORITY||Difference in LSM|1.0||||0.7275|TWO_SIDED|95.0|-1.0|3.0|||ANCOVA||The LSM, 95% CI and P-value (1-sided) were obtained by ANCOVA model to evaluate change at Week 96 as the dependent variable, baseline value of the outcome measure, baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||3|-1|0.7275
92158246|NCT03890120|184203157|SUPERIORITY||Difference in LSM|-0.03||||0.3636|TWO_SIDED|95.0|-0.2|0.14|||ANCOVA||The LSM, 95% CI and P-value (1-sided) were obtained by ANCOVA model to evaluate change at Week 96 as the dependent variable, baseline value of the outcome measure, baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||0.14|-0.20|0.3636
92158247|NCT03890120|184203158|SUPERIORITY||Difference in LSM|-0.3||||0.3595|TWO_SIDED|95.0|-2.2|1.5|||ANCOVA||The LSM, 95% CI and P-value (1-sided) were obtained by ANCOVA model to evaluate change at Week 96 as the dependent variable, baseline value of the outcome measure, baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||1.5|-2.2|0.3595
92344365|NCT01668797|184591652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.2154|TWO_SIDED|95.0|-1.34|0.31|||Mixed Models Analysis|||Statistical analysis at across visits.||0.31|-1.34|0.2154
92344366|NCT01668797|184591653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.0707|TWO_SIDED|95.0|-1.78|0.07|||ANCOVA|||Statistical analysis at Week 6.||0.07|-1.78|0.0707
92344367|NCT01668797|184591653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.0276|TWO_SIDED|95.0|-2.35|-0.14|||ANCOVA|||Statistical analysis at Week 12.||-0.14|-2.35|0.0276
92344368|NCT01668797|184591653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.59||||0.0065|TWO_SIDED|95.0|-2.72|-0.45|||ANCOVA|||Statistical analysis at Week 24.||-0.45|-2.72|0.0065
92344369|NCT01668797|184591653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.0085|TWO_SIDED|95.0|-2.84|-0.42|||ANCOVA|||Statistical analysis at Week 36.||-0.42|-2.84|0.0085
92344370|NCT01668797|184591653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.23||||0.063|TWO_SIDED|95.0|-2.52|0.07|||ANCOVA|||Statistical analysis at Week 52.||0.07|-2.52|0.0630
92344371|NCT01668797|184591654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.2251|TWO_SIDED|95.0|-1.33|0.31|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.31|-1.33|0.2251
92344372|NCT01668797|184591654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13||||0.0368|TWO_SIDED|95.0|-2.19|-0.07|||Mixed Models Analysis|||Statistical analysis at Week 12.||-0.07|-2.19|0.0368
92344373|NCT01668797|184591654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53||||0.0024|TWO_SIDED|95.0|-2.51|-0.56|||Mixed Models Analysis|||Statistical analysis at Week 24.||-0.56|-2.51|0.0024
92344374|NCT01668797|184591654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48||||0.0293|TWO_SIDED|95.0|-2.8|-0.15|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.15|-2.80|0.0293
92217929|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.07||||95.0|-0.02|0.25|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC stiffness subscale - Continuous use||0.25|-0.02|
92344375|NCT01668797|184591654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.9632|TWO_SIDED|95.0|-3.32|3.17|||Mixed Models Analysis|||Statistical analysis at Week 52.||3.17|-3.32|0.9632
92344376|NCT01668797|184591654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.0029|TWO_SIDED|95.0|-1.63|-0.34|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.34|-1.63|0.0029
92344377|NCT01668797|184591655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.1062|TWO_SIDED|95.0|-1.44|0.14|||ANCOVA|||Statistical analysis at Week 6.||0.14|-1.44|0.1062
92344378|NCT01668797|184591655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.37||||0.0051|TWO_SIDED|95.0|-2.33|-0.42|||ANCOVA|||Statistical analysis at Week 12.||-0.42|-2.33|0.0051
92344379|NCT01668797|184591655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||0.0001|TWO_SIDED|95.0|-3.08|-1.01|||ANCOVA|||Statistical analysis at Week 24.||-1.01|-3.08|0.0001
92344380|NCT01668797|184591655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.94||||0.0004|TWO_SIDED|95.0|-3.0|-0.89|||ANCOVA|||Statistical analysis at Week 36.||-0.89|-3.00|0.0004
92344381|NCT01668797|184591655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69||||0.0035|TWO_SIDED|95.0|-2.81|-0.56|||ANCOVA|||Statistical analysis at Week 52.||-0.56|-2.81|0.0035
92344382|NCT01668797|184591656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.1465|TWO_SIDED|95.0|-0.85|0.13|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.13|-0.85|0.1465
92344383|NCT01668797|184591656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.2154|TWO_SIDED|95.0|-1.27|0.29|||Mixed Models Analysis|||Statistical analysis at Week 12.||0.29|-1.27|0.2154
92344384|NCT01668797|184591656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.2696|TWO_SIDED|95.0|-1.23|0.35|||Mixed Models Analysis|||Statistical analysis at Week 24.||0.35|-1.23|0.2696
92344385|NCT01668797|184591656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.0179|TWO_SIDED|95.0|-1.95|-0.19|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.19|-1.95|0.0179
92344386|NCT01668797|184591656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.0875|TWO_SIDED|95.0|-2.46|0.18|||Mixed Models Analysis|||Statistical analysis at Week 52.||0.18|-2.46|0.0875
92344387|NCT01668797|184591656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0021|TWO_SIDED|95.0|-1.08|-0.24|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.24|-1.08|0.0021
92217930|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.07||||95.0|0.26|0.53|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC stiffness subscale - Intermittent use||0.53|0.26|
92217931|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC physical function subscale||||0.002
92217932|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.13|STANDARD_ERROR_OF_MEAN|0.51||||95.0|0.13|2.14|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC physical function subscale - Continuous use||2.14|0.13|
92344388|NCT01668797|184591657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.2135|TWO_SIDED|95.0|-0.86|0.19|||ANCOVA|||Statistical analysis at Week 6.||0.19|-0.86|0.2135
92344389|NCT01668797|184591657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.2437|TWO_SIDED|95.0|-1.13|0.29|||ANCOVA|||Statistical analysis at Week 12.||0.29|-1.13|0.2437
92344390|NCT01668797|184591657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.0635|TWO_SIDED|95.0|-1.66|0.05|||ANCOVA|||Statistical analysis at Week 24.||0.05|-1.66|0.0635
92344391|NCT01668797|184591657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.0144|TWO_SIDED|95.0|-1.92|-0.22|||ANCOVA|||Statistical analysis at Week 36.||-0.22|-1.92|0.0144
92344392|NCT01668797|184591657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26||||0.0046|TWO_SIDED|95.0|-2.12|-0.39|||ANCOVA|||Statistical analysis at Week 52.||-0.39|-2.12|0.0046
92344393|NCT01668797|184591658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.164|TWO_SIDED|95.0|-1.14|0.19|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.19|-1.14|0.1640
92344394|NCT01668797|184591658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.5466|TWO_SIDED|95.0|-1.04|0.55|||Mixed Models Analysis|||Statistical analysis at Week 12.||0.55|-1.04|0.5466
92344395|NCT01668797|184591658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.9417|TWO_SIDED|95.0|-0.81|0.87|||Mixed Models Analysis|||Statistical analysis at Week 24.||0.87|-0.81|0.9417
92217933|NCT00139776|184336488|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.43|STANDARD_ERROR_OF_MEAN|0.51||||95.0|2.42|4.43|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC physical function subscale - Intermittent use||4.43|2.42|
92217934|NCT00139776|184336489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2712||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Sleep disturbance||||0.2712
92344396|NCT01668797|184591658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.6257|TWO_SIDED|95.0|-1.25|0.76|||Mixed Models Analysis|||Statistical analysis at Week 36.||0.76|-1.25|0.6257
92344397|NCT01668797|184591658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.7437|TWO_SIDED|95.0|-1.68|1.21|||Mixed Models Analysis|||Statistical analysis at Week 52.||1.21|-1.68|0.7437
92217935|NCT00139776|184336489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8737||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Snoring||||0.8737
92217936|NCT00139776|184336489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7703||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Awaken short of breath||||0.7703
92217937|NCT00139776|184336489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3769||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Quantity of sleep||||0.3769
92217938|NCT00139776|184336489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4075||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Sleep adequacy||||0.4075
92217939|NCT00139776|184336489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5854||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Somnolence||||0.5854
92217940|NCT00139776|184336489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8358||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Sleep problems index I||||0.8358
92217941|NCT00139776|184336489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5878||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Sleep problems index II||||0.5878
92217942|NCT00139776|184336490|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC total score||||<0.001
92217943|NCT00139776|184336490|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC pain subscale||||<0.001
92217944|NCT00139776|184336490|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC stiffness subscale||||<0.001
92217945|NCT00139776|184336490|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC physical function subscale||||<0.001
92217946|NCT00139776|184336491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1437||95.0||||Threshold for statistical significance p\<0.05|Cochran-Mantel-Haenszel|by general association||Analysis across all 3 sleep scores for Period III||||0.1437
92217947|NCT00139776|184336492|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Physical function||||<0.0001
92217948|NCT00139776|184336492|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Role physical||||<0.0001
92217949|NCT00139776|184336492|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Bodily pain||||<0.0001
92217950|NCT00139776|184336492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3097||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||General health||||0.3097
92217951|NCT00139776|184336492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0139||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Vitality||||0.0139
92217952|NCT00139776|184336492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1303||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Social functioning||||0.1303
92217953|NCT00139776|184336492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1404||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Role emotional||||0.1404
92217954|NCT00139776|184336492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4015||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Mental health||||0.4015
92217955|NCT00139776|184336492|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Physical component summary||||<0.0001
92217956|NCT00139776|184336492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0301||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Mental component summary||||0.0301
92217957|NCT04223843|184336504|OTHER||Difference of adjusted means|0.336|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|0.246|0.425|||ANCOVA|Model included fixed categorical effects of treatment and the fixed continous effect of baseline FEV1 AUC0-3.|Difference = (Tio+Olo) - (Placebo)|H0: There is no difference in the mean FEV1 AUC0-3 change from baseline between Tio+Olo and matching placebo.||0.425|0.246|<0.0001
92217958|NCT04223843|184336504|OTHER||Difference of adjusted means|0.321|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|0.233|0.409|||ANCOVA|Model included the fixed categorical effect of treatment and the fixed continuous effect of baseline FEV1 AUC0-3h.|Difference = (Tio+Olo) - (Placebo)|H0: There is no difference in the mean FEV1 AUC0-3h change from baseline between Tio+Olo and matching placebo.||0.409|0.233|<0.0001
92344398|NCT01668797|184591658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.4506|TWO_SIDED|95.0|-0.62|0.28|||Mixed Models Analysis|||Statistical analysis at across visits.||0.28|-0.62|0.4506
92344399|NCT01668797|184591659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.0467|TWO_SIDED|95.0|-1.32|-0.06|||ANCOVA|||Statistical analysis at Week 6.||-0.06|-1.32|0.0467
92344400|NCT01668797|184591659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.1599|TWO_SIDED|95.0|-1.33|0.22|||ANCOVA|||Statistical analysis at Week 12.||0.22|-1.33|0.1599
92344401|NCT01668797|184591659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.1417|TWO_SIDED|95.0|-1.35|0.19|||ANCOVA|||Statistical analysis at Week 24.||0.19|-1.35|0.1417
92217959|NCT04223843|184336505|OTHER||Difference of adjusted means|0.201|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|0.117|0.286|||Mixed Models Analysis|Mixed model with repeated measures including fixed categorial effect of treatment at each visit and fixed continuous effect of baseline at each visit.|Difference = (Tio+Olo) - (Placebo)|H0: There is no difference in the mean trough FEV1 change from baseline between Tio+Olo and matching placebo.||0.286|0.117|<0.0001
92217960|NCT04223843|184336505|OTHER||Difference of adjusted means|0.217|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.135|0.299|||Mixed Models Analysis|Mixed model with repeated measures including fixed categorial effect of treatment at each visit and fixed continuous effect of baseline at each visit.|Difference = (Tio+Olo) - (Placebo)|H0: There is no difference in the mean trough FEV1 change from baseline between Tio+Olo and matching placebo.||0.299|0.135|<0.0001
92217961|NCT01911442|184336506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|2.15||0.5463|TWO_SIDED|95.0|-5.6|3.0|||Mixed Models Analysis|||LS Mean, LS mean difference and the associated 95% Cl and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||3.0|-5.6|0.5463
92217962|NCT01911442|184336506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|2.09||0.3592|TWO_SIDED|95.0|-6.1|2.2|||Mixed Models Analysis|||LS Mean, LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures.||2.2|-6.1|0.3592
92217963|NCT01911442|184336507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.1755|TWO_SIDED||||||Mixed Models Analysis||This is due to rounding. the LSM for Lurasidone 20 mg/d at week 6 was -1.069 vs -0.734 for placebo group. So the LSM of the treatment difference between Lurasidone 20 mg/d and placebo was 0.335 if 3 decimals are reported.|||||0.1755
92217964|NCT01911442|184336507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.24||0.2402|TWO_SIDED||||||Mixed Models Analysis|||||||0.2402
92344402|NCT01668797|184591659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.0724|TWO_SIDED|95.0|-1.47|0.06|||ANCOVA|||Statistical analysis at Week 36.||0.06|-1.47|0.0724
92344403|NCT01668797|184591659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72||||0.0608|TWO_SIDED|95.0|-1.47|0.03|||ANCOVA|||Statistical analysis at Week 52.||0.03|-1.47|0.0608
92344404|NCT02111083|184591666|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.986|||||TWO_SIDED|90.0|0.965|1.01||||||||1.01|0.965|
92344405|NCT02111083|184591667|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.872|||||TWO_SIDED|90.0|0.828|0.919||||||||0.919|0.828|
92344406|NCT02111083|184591668|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.25|||||TWO_SIDED|90.0|0.0|0.375||||||||0.375|0|
92217965|NCT00922480|184336516|NON_INFERIORITY|Non-Inferiority||||||0.0001|||||||t-test, 2 sided|Paired t-test||||||0.0001
92217966|NCT00922480|184336517|NON_INFERIORITY|Non-Inferiority||||||0.0001|||||||t-test, 2 sided|Paired t-test||||||0.0001
92217967|NCT02161575|184336527|SUPERIORITY||Median Difference (Final Values)|-30.75|||<|0.0001|TWO_SIDED|95.0|-59.5|-20.5|||Wilcoxon (Mann-Whitney)|Confidence Interval for the Median Change form Baseline||The null hypothesis was that the change in CSRT from baseline to Day 90 was zero||-20.50|-59.50|<0.0001
92344407|NCT02111083|184591669|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.986|||||TWO_SIDED|90.0|0.954|1.02||||||||1.02|0.954|
92399632|NCT03583099|184690783|SUPERIORITY||Difference in proportion|1.81||||0.88|TWO_SIDED|95.0|-21.47|25.08|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||25.08|-21.47|0.88
92217968|NCT01970488|184336553|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence was evaluated by comparing the 2-sided 95% confidence interval (CI) of the difference of PASI percent improvement from baseline to Week 16 between ABP 501 and adalimumab with an equivalence margin of ± 15.|Least Squares (LS) Mean Difference|-2.18|||||TWO_SIDED|95.0|-7.39|3.02||||||||3.02|-7.39|
92217969|NCT00509067|184336591|SUPERIORITY|||||||0.93||||||alpha set at P \< .05|Mixed Models Analysis|Time (0, 4, 8, 12, 16 wks) x Treatment (Drug, Placebo) Effect: F(1, 33)=0.01.||||||0.93
92217970|NCT00509067|184336592|SUPERIORITY|||||||0.23||||||alpha level set at .05|Mixed Models Analysis|Time (0, 8, 16 weeks) x Group (Drug, Placebo) Effect: F(1, 32.8)=1.48..||||||0.23
92217971|NCT00509067|184336592|SUPERIORITY|||||||0.23||||||alpha set at P\<0.05|Mixed Models Analysis|Time (0, 8, 16, weeks) x Group (Drug, Placebo) Effect: F(1, 32.8)=1.48.||||||0.23
92344408|NCT02111083|184591670|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.95|||||TWO_SIDED|90.0|0.901|1.0||||||||1.00|0.901|
92344409|NCT02111083|184591671|SUPERIORITY_OR_OTHER||Difference of least squares means|0.424|||||TWO_SIDED|90.0|0.164|0.685||||||||0.685|0.164|
92344410|NCT02111083|184591672|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.992|||||TWO_SIDED|90.0|0.975|1.01||||||||1.01|0.975|
92344411|NCT01259245|184591689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.017||||0.252|TWO_SIDED|95.0|-0.046|0.012||Regression coefficients from ANCOVA for Tai Chi intervention (PRP as reference) at 6 months after adjusted for baseline value of the outcome variable, age, sex, BMI, smoking and education|ANCOVA|||||0.012|-0.046|0.252
92344412|NCT01259245|184591690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005|STANDARD_DEVIATION|0.442||0.984|TWO_SIDED|95.0|-0.438|0.447|||ANCOVA|Adjusted for baseline values, age, sex, education, BMI and smoking||power0.80 for a medium effect size at 5% level of significance||0.447|-0.438|0.984
92344413|NCT01259245|184591691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.372|STANDARD_DEVIATION|4.433||0.869|TWO_SIDED|95.0|-4.061|4.805|||ANCOVA|adjusted for baseline values, age, sex, education, BMI and education||power of 0.80 for a medium effect size at 5% level of significance||4.805|-4.061|0.869
92344414|NCT01259245|184591692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.295|STANDARD_DEVIATION|4.706||0.588|TWO_SIDED|95.0|-6.001|3.411|||ANCOVA|adjusted for baseline values, age, sex, BMI, education and smoking||power of 0.80 for medium size effect at 5% level of significance||3.411|-6.001|0.588
92344415|NCT01259245|184591693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15|STANDARD_DEVIATION|4.477||0.345|TWO_SIDED|95.0|-6.627|2.327|||ANCOVA|adjusted for baseline values, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||2.327|-6.627|0.345
92399633|NCT03583099|184690784|SUPERIORITY||Difference in proportion|-5.62||||0.53|TWO_SIDED|95.0|-23.21|11.97|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.97|-23.21|0.53
92217972|NCT01092143|184336606|SUPERIORITY||Adjusted mean treatment differences|3.083|STANDARD_DEVIATION|1.65||0.0311|TWO_SIDED|95.0|-0.157|6.323||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 50 mg b.i.d. compared with those treated with placebo, after 6 weeks.||6.323|-0.157|0.0311
92344416|NCT01259245|184591694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|STANDARD_DEVIATION|4.062||0.413|TWO_SIDED|95.0|-5.753|2.372|||ANCOVA|adjusted for baseline value, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||2.372|-5.753|0.413
92344417|NCT01259245|184591695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.049|STANDARD_DEVIATION|8.89||0.004|TWO_SIDED|95.0|4.159|21.939|||ANCOVA|adjusted for baseline value, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||21.939|4.159|0.004
92344418|NCT01259245|184591696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_DEVIATION|0.226||0.56|TWO_SIDED|95.0|-0.1|0.184|||ANCOVA|adjusted for baseline value, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||0.184|-0.100|0.560
92344419|NCT01259245|184591697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_DEVIATION|0.088||0.425|TWO_SIDED|95.0|-0.054|0.128|||ANCOVA|adjusted for baseline value, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||0.128|-0.054|0.425
92344420|NCT01259245|184591698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|STANDARD_DEVIATION|5.2||0.528|TWO_SIDED|95.0|-3.5|6.8|||ANCOVA|adjusted for baseline value, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||6.8|-3.5|0.528
92344421|NCT02330341|184591716|SUPERIORITY|||||||0.38||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of postprandial glucose on Artemisia Dracunculus group||||0.380
92344422|NCT02330341|184591716|SUPERIORITY|||||||0.695|||||||Wilcoxon (Mann-Whitney)|The threshold for statistical significance was p=0.05||Results showed in this section are the result of the differences between baseline and final values of postprandial glucose on placebo group||||0.695
92344423|NCT02330341|184591717|SUPERIORITY|||||||0.11||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of fasting glucose on Artemisia Dracunculus group||||0.110
92344424|NCT02330341|184591717|SUPERIORITY|||||||0.91||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of fasting glucose on placebo group||||0.910
92344425|NCT02330341|184591718|SUPERIORITY|||||||0.01||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of glucosylated hemoglobin on Artemisia Dracunculus group||||0.010
92344426|NCT02330341|184591718|SUPERIORITY|||||||0.938||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of glucosylated hemoglobin on placebo group||||0.938
92344427|NCT02330341|184591719|SUPERIORITY|||||||0.733||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of first phase of insulin secretion on Artemisia Dracunculus group||||0.733
92344428|NCT02330341|184591719|SUPERIORITY|||||||1||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of first phase of insulin secretion on placebo group||||1.0
92344429|NCT02330341|184591720|SUPERIORITY|||||||0.03||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total insulin secretion on Artemisia Dracunculus group||||0.03
92344430|NCT02330341|184591720|SUPERIORITY|||||||0.9||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total insulin secretion on placebo group||||0.900
92344431|NCT02330341|184591721|SUPERIORITY|||||||0.519||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of insulin sensitivity on Artemisia Dracunculus group||||0.519
92344432|NCT02330341|184591721|SUPERIORITY|||||||0.922||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of insulin sensitivity on placebo group||||0.922
92344433|NCT02330341|184591722|SUPERIORITY|||||||0.605||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of weight on Artemisia Dracunculus group||||0.605
92344434|NCT02330341|184591722|SUPERIORITY|||||||0.105||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of weight on placebo group||||0.105
92344435|NCT02330341|184591723|SUPERIORITY|||||||0.687||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of BMI on Artemisia Dracunculus group||||0.687
92344436|NCT02330341|184591723|SUPERIORITY|||||||0.021||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of BMI on placebo group||||0.021
92344437|NCT02330341|184591724|SUPERIORITY|||||||0.339||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total cholesterol on Artemisia Dracunculus group||||0.339
92344438|NCT02330341|184591724|SUPERIORITY|||||||0.246||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total cholesterol on placebo group||||0.246
92217973|NCT01092143|184336606|SUPERIORITY||Adjusted mean treatment differences|3.589|STANDARD_DEVIATION|1.6||0.0126|TWO_SIDED|95.0|0.447|6.732||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, trea||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 200 mg b.i.d. compared with those treated with placebo, after 6 weeks.||6.732|0.447|0.0126
92399634|NCT03583099|184690785|SUPERIORITY||Difference in proportion|10.68||||0.24|TWO_SIDED|95.0|-7.27|28.63|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||28.63|-7.27|0.24
92344439|NCT02330341|184591725|SUPERIORITY|||||||0.775||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of triglycerides on Artemisia Dracunculus group||||0.775
92344440|NCT02330341|184591725|SUPERIORITY|||||||0.195||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of triglycerides on placebo group||||0.195
92344441|NCT02330341|184591726|SUPERIORITY|||||||0.04||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of HDL-c on Artemisia Dracunculus group||||0.040
92344442|NCT02330341|184591726|SUPERIORITY|||||||1||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of HDL-c on placebo group||||1.000
92344443|NCT02330341|184591727|SUPERIORITY|||||||0.021||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of ALT on Artemisia Dracunculus group||||0.021
92344444|NCT02330341|184591727|SUPERIORITY|||||||0.08||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of ALT on placebo group||||0.080
92344445|NCT02330341|184591728|SUPERIORITY|||||||0.465||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of AST on Artemisia Dracunculus group||||0.465
92344446|NCT02330341|184591728|SUPERIORITY|||||||0.574||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of AST on placebo group||||0.574
92344447|NCT02330341|184591729|SUPERIORITY|||||||0.48||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of creatinine on Artemisia Dracunculus group||||0.480
92399635|NCT03583099|184690786|SUPERIORITY||Difference in proportion|-13.55||||0.19|TWO_SIDED|95.0|-33.65|6.55|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.55|-33.65|0.19
92217974|NCT01092143|184336606|SUPERIORITY||Adjusted mean treatment differences|3.977|STANDARD_DEVIATION|1.64||0.0078|TWO_SIDED|95.0|0.756|7.197||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 400 mg b.i.d. compared with those treated with placebo, after 6 weeks.||7.197|0.756|0.0078
92217975|NCT01092143|184336606|OTHER||Adjusted mean treatment differences|8.619|STANDARD_DEVIATION|1.684|<|0.0001|TWO_SIDED|95.0|5.312|11.927||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with fluticasone propionate 110 mcg 2 puffs b.i.d. compared with those treated with placebo, after 6 weeks.||11.927|5.312|<.0001
92344448|NCT02330341|184591729|SUPERIORITY|||||||0.383||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of creatinine on placebo group||||0.383
92344449|NCT02330341|184591730|SUPERIORITY|||||||0.034||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of uric acid on Artemisia Dracunculus group||||0.034
92344450|NCT02330341|184591730|SUPERIORITY|||||||0.08||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of uric acid on placebo group||||0.080
92344451|NCT02330341|184591731|SUPERIORITY|||||||0.017||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of systolic blood pressure on Artemisia Dracunculus group||||0.017
92344452|NCT02330341|184591731|SUPERIORITY|||||||0.082||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of systolic blood pressure on placebo group||||0.082
92344453|NCT02330341|184591732|SUPERIORITY|||||||0.17||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of diastolic blood pressure on Artemisia Dracunculus group||||0.170
92344454|NCT02330341|184591732|SUPERIORITY|||||||0.199||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of diastolic blood pressure placebo group||||0.199
92399636|NCT03583099|184690787|SUPERIORITY||Difference in proportion|0.38||||0.95|TWO_SIDED|95.0|-12.5|13.27|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.27|-12.50|0.95
92344455|NCT01027845|184591767|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1100 in the 105553 10Pn Group; GMC= 1.05 µg/mL with 95% CI = (1.00 to 1.10).|GMC ratio|0.16|||||TWO_SIDED|95.0|0.14|0.18||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 1."||0.18|0.14|
92344456|NCT01027845|184591767|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1106 in the 105553 10Pn Group; GMC= 1.45 µg/mL with 95% CI = (1.38 to 1.53).|GMC ratio|0.22|||||TWO_SIDED|95.0|0.2|0.25||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 4."||0.25|0.2|
92217976|NCT01092143|184336606|SUPERIORITY||Adjusted mean treatment differences|-5.536|STANDARD_DEVIATION|1.653||0.9996|TWO_SIDED|95.0|-8.783|-2.29||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 50 mg b.i.d. compared with those treated with fluticasone propionate 220 mcg b.i.d., after 6 weeks.||-2.290|-8.783|0.9996
92217977|NCT01092143|184336606|SUPERIORITY||Adjusted mean treatment differences|-5.03|STANDARD_DEVIATION|1.606||0.9991|TWO_SIDED|95.0|-8.185|-1.875||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 200 mg b.i.d. compared with those treated with fluticasone propionate 220mcg b.i.d., after 6 weeks.||-1.875|-8.185|0.9991
92344457|NCT01027845|184591767|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1104 in the 105553 10Pn Group; GMC= 1.70 µg/mL with 95% CI = (1.62 to 1.78).|GMC ratio|0.26|||||TWO_SIDED|95.0|0.23|0.29||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 5."||0.29|0.23|
92344458|NCT01027845|184591767|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1100 in the 105553 10Pn Group; GMC= 0.33 µg/mL with 95% CI = (0.30 to 0.36).|GMC ratio|0.19|||||TWO_SIDED|95.0|0.16|0.23||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 6B."||0.23|0.16|
92399637|NCT03583099|184690788|SUPERIORITY||Difference in proportion|-6.97||||0.14|TWO_SIDED|95.0|-16.12|2.17|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||2.17|-16.12|0.14
92399638|NCT03583099|184690789|SUPERIORITY||Difference in proportion|-1.06||||0.87|TWO_SIDED|95.0|-13.39|11.27|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.27|-13.39|0.87
92399639|NCT03583099|184690790|SUPERIORITY||Difference in proportion|-1.8||||0.81|TWO_SIDED|95.0|-15.9|12.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.4|-15.9|0.81
92399640|NCT03583099|184690791|SUPERIORITY||Difference in proportion|2.3||||0.63|TWO_SIDED|95.0|-7.2|11.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.8|-7.2|0.63
92217978|NCT01092143|184336606|SUPERIORITY||Adjusted mean treatment differences|-4.643|STANDARD_DEVIATION|1.647||0.9975|TWO_SIDED|95.0|-7.877|-1.408||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 400 mg b.i.d. compared with those treated with fluticasone propionate 220 mcg b.i.d., after 6 weeks.||-1.408|-7.877|0.9975
92217979|NCT01092143|184336607|SUPERIORITY||Adjusted mean treatment differences|0.073|STANDARD_DEVIATION|0.113||0.7413|TWO_SIDED|95.0|-0.149|0.295||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.295|-0.149|0.7413
92344459|NCT01027845|184591767|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1107 in the 105553 10Pn Group; GMC= 1.72 µg/mL with 95% CI = (1.64 to 1.80).|GMC ratio|0.28|||||TWO_SIDED|95.0|0.25|0.31||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 7F."||0.31|0.25|
92344460|NCT01027845|184591767|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1103 in the 105553 10Pn Group; GMC= 1.32 µg/mL with 95% CI = (1.25 to 1.38).|GMC ratio|0.24|||||TWO_SIDED|95.0|0.22|0.27||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 9V."||0.27|0.22|
92344461|NCT01027845|184591767|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1100 in the 105553 10Pn Group; GMC= 2.90 µg/mL with 95% CI = (2.75 to 3.05).|GMC ratio|0.29|||||TWO_SIDED|95.0|0.25|0.33||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 14."||0.33|0.25|
92344462|NCT01027845|184591767|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1102 in the 105553 10Pn Group; GMC= 1.66 µg/mL with 95% CI = (1.56 to 1.77).|GMC ratio|0.1|||||TWO_SIDED|95.0|0.09|0.12||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 18C."||0.12|0.09|
92344463|NCT01027845|184591767|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1104 in the 105553 10Pn Group; GMC= 1.84 µg/mL with 95% CI = (1.71 to 1.98).|GMC ratio|0.11|||||TWO_SIDED|95.0|0.09|0.12||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 19F."||0.12|0.09|
92344464|NCT01027845|184591767|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1102 in the 105553 10Pn Group; GMC= 0.53 µg/mL with 95% CI = (0.50 to 0.57).|GMC ratio|0.25|||||TWO_SIDED|95.0|0.21|0.29||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 23F."||0.29|0.21|
92344465|NCT00808340|184591857|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5.|Mean Difference (Final Values)|-0.1249|STANDARD_ERROR_OF_MEAN|0.1464|||TWO_SIDED|97.5|-0.4143|0.1644|||Mixed Models Analysis||Mean difference is calculated as senofilcon A multifocal prod minus senofilcon A multifocal test.|Alternative hypothesis is that senofilcon A multifocal prod is non-inferior to senofilcon A multifocal test.||0.1644|-0.4143|
92344466|NCT00808340|184591857|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5|Mean Difference (Final Values)|-0.3693|STANDARD_ERROR_OF_MEAN|0.1464|||TWO_SIDED|97.5|-0.6587|-0.07996|||Mixed Models Analysis||The mean difference was calculated as balafilcon A multifocal minus senofilcon A multifocal prod.|Alternative hypothesis is that senofilcon A multifocal prod is non-inferior to balafilcon A multifocal.||-0.07996|-0.6587|
92399641|NCT03583099|184690792|SUPERIORITY||Difference in proportion|5.8||||0.17|TWO_SIDED|95.0|-2.5|14.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||14.2|-2.5|0.17
92399642|NCT03583099|184690793|SUPERIORITY||Difference in proportion|-2.9||||0.58|TWO_SIDED|95.0|-13.0|7.3|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.3|-13.0|0.58
92217980|NCT01092143|184336607|SUPERIORITY||Adjusted mean treatment differences|-0.08|STANDARD_DEVIATION|0.11||0.2335|TWO_SIDED|95.0|-0.296|0.136||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.136|-0.296|0.2335
92217981|NCT01092143|184336607|SUPERIORITY||Adjusted mean treatment differences|-0.061|STANDARD_DEVIATION|0.113||0.2933|TWO_SIDED|95.0|-0.282|0.16||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.160|-0.282|0.2933
92217982|NCT01092143|184336607|SUPERIORITY||Adjusted mean treatment differences|-0.333|STANDARD_DEVIATION|0.116||0.0021|TWO_SIDED|95.0|-0.561|-0.105||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||-0.105|-0.561|0.0021
92217983|NCT01092143|184336607|SUPERIORITY||Adjusted mean treatment differences|0.406|STANDARD_DEVIATION|0.114||0.9998|TWO_SIDED|95.0|0.183|0.63||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.630|0.183|0.9998
92217984|NCT01092143|184336607|SUPERIORITY||Adjusted mean treatment differences|0.253|STANDARD_DEVIATION|0.11||0.989|TWO_SIDED|95.0|0.037|0.47||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.470|0.037|0.9890
92344467|NCT00808340|184591858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5|Mean Difference (Final Values)|-0.04083|STANDARD_ERROR_OF_MEAN|0.1464|||TWO_SIDED|97.5|-0.2485|0.3302|||Mixed Models Analysis||The mean difference is calculated as senofilcon A multifocal prod minus senofilcon A multifocal test.|Alternative hypothesis is that senofilcon A multifocal prod is non-inferior to senofilcon A multifocal test.||0.3302|-0.2485|
92344468|NCT00808340|184591858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5|Mean Difference (Final Values)|-0.4608|STANDARD_ERROR_OF_MEAN|0.1464|||TWO_SIDED|97.5|-0.7502|-0.1714|||Mixed Models Analysis||The mean difference was calculated as senofilcon A multifocal prod minus balafilcon A multifocal.|Alternative hypothesis is that senofilcon A multifocal prod is non-inferior to balafilcon A multifocal.||-0.1714|-0.7502|
92217985|NCT01092143|184336607|SUPERIORITY||Adjusted mean treatment differences|0.272|STANDARD_DEVIATION|0.113||0.9918|TWO_SIDED|95.0|0.05|0.494||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.494|0.050|0.9918
92217986|NCT01500525|184336630|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.0|||<|0.05|ONE_SIDED|95.0|||||Regression, Cox|||||||<0.05
92399643|NCT03583099|184690794|SUPERIORITY||Difference in proportion|-0.6||||0.89|TWO_SIDED|95.0|-8.3|7.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.1|-8.3|0.89
92217987|NCT01660451|184336631|SUPERIORITY_OR_OTHER_LEGACY||Response rate|45.45||||0.0001|TWO_SIDED|90.0|30.49|61.06||0.0001|Exact binomial test|||Response rate was statistically compared by exact binomial test if higher than 5%.||61.06|30.49|0.0001
92217988|NCT01660451|184336631|SUPERIORITY_OR_OTHER_LEGACY||Response rate|27.08||||0.0001|TWO_SIDED|90.0|16.83|39.57||0.0001|Exact binominal test|P-value was based on the original patients in the aggressive arm (for the first 34 patients), not including the additional recruited patients.||Response rate was statistically compared by exact binomial test if higher than 5%.||39.57|16.83|0.0001
92344469|NCT00808340|184591859|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.5|Mean Difference (Final Values)|-0.02941|STANDARD_ERROR_OF_MEAN|0.02656|||TWO_SIDED|97.5|-0.08153|0.02271|||Mixed Models Analysis||The mean difference is calculated as senofilcon A multifocal prod minus senofilcon A multifocal test.|Alternative hypothesis is senofilcon A multifocal prod is non-inferior to senofilcon A multifocal test.||0.02271|-0.08153|
92344470|NCT00808340|184591859|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.5|Mean Difference (Final Values)|-0.06765|STANDARD_ERROR_OF_MEAN|0.02656|||TWO_SIDED|97.5|-0.1198|-0.01553|||Mixed Models Analysis||The mean difference is calculated as senfilcon A multifocal prod minus balafilcon A multifocal.|Alternative hypothesis is senofilcon A multifocal prod is non-inferior to balafilcon A multifocal.||-0.01553|-0.1198|
92399644|NCT03583099|184690795|SUPERIORITY||Difference in proportion|-3.9||||0.16|TWO_SIDED|95.0|-9.2|1.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.5|-9.2|0.16
92217989|NCT01660451|184336632|SUPERIORITY_OR_OTHER_LEGACY||Response rate|59.15|||<|0.0001|TWO_SIDED|95.0|50.6|67.32||0.001|Exact binominal test|||Response rate was statistically compared by exact binomial test if higher than 40%.||67.32|50.60|<0.0001
92217990|NCT01660451|184336633|SUPERIORITY_OR_OTHER_LEGACY||Response rate|46.88||||0.0001|TWO_SIDED|90.0|31.54|62.66||0.0001|Exact binominal test|||Response rate was statistically compared by exact binomial test if higher than 5%.||62.66|31.54|0.0001
92217991|NCT01660451|184336633|SUPERIORITY_OR_OTHER_LEGACY||Response rate|31.25||||0.0001|TWO_SIDED|90.0|20.35|43.97||0.0001|Exact binominal test|||Response rate was statistically compared by exact binomial test if higher than 5%.||43.97|20.35|0.0001
92217992|NCT01660451|184336634|SUPERIORITY_OR_OTHER_LEGACY||Response rate|51.41||||0.0039|TWO_SIDED|95.0|42.88|59.87||0.01|Exact binominal test|||Response rate was statistically compared by exact binomial test if higher than 40%.||59.87|42.88|0.0039
92217993|NCT01660451|184336645|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimate|1.0|||||TWO_SIDED|95.0|0.5|2.5||||||Hodges-Lehmann-estimate was used to calculate change to Week 16 and 95% confidence interval.||2.5|0.5|
92217994|NCT01660451|184336646|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimate|0.5|||||TWO_SIDED|95.0|-0.7|3.2||||||Hodges-Lehmann-estimate was used to calculate change to Week 16 and 95% confidence interval.||3.2|-0.7|
92217995|NCT04688775|184336647|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.5048|TWO_SIDED|95.0|-1.3|2.6|||Mixed Models Repeated Measures|||Change From Baseline in the Number of Weekly Attacks: Eptinezumab vs. Placebo||2.6|-1.3|0.5048
92217996|NCT04688775|184336652|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.0772|TWO_SIDED|95.0|0.96|2.17|||Regression, Cox|||||2.17|0.96|0.0772
92344471|NCT00808340|184591860|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5|Mean Difference (Final Values)|-0.3304|STANDARD_ERROR_OF_MEAN|0.2243|||TWO_SIDED|97.5|-0.779|0.1183|||Mixed Models Analysis||The mean difference is calculated as senofilcon A multifocal prod minus senofilcon A multifocal test.|Alternative hyposthesis is that senofilcon A multifocal prod is non-inferior to senofilcon A multifocal test.||0.1183|-0.779|
92344472|NCT00808340|184591860|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5|Mean Difference (Final Values)|-0.2281|STANDARD_ERROR_OF_MEAN|0.2243|||TWO_SIDED|97.5|-0.6767|0.2206|||Mixed Models Analysis||The mean difference is calculated as senofilcon A multifocal prod minus balafilcon A multifocal.|Alternativie hypothesis is that senofilcon A multifocal prod is non-inferior to balafilcon A multifocal.||0.2206|-0.6767|
92344473|NCT03040726|184591861|OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||||||0.98
92344474|NCT03040726|184591862|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
92344475|NCT03040726|184591863|OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
92344476|NCT03040726|184591864|OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
92344477|NCT00062166|184591866|NON_INFERIORITY|Time dependent risk for requiring an intervention for pancreatic neuroendocrine tumors (PNET), among 63 patients with PNETs with diameter \>1.2 and \<3 cm, and a known position of germline VHL pathogenic variant (n=63). Comparison between exon 3 vs exon 1 and 2.|Hazard Ratio (HR)|3.3||||0.02|TWO_SIDED|95.0|1.2|9.1|||Regression, Cox|||||9.1|1.2|0.02
92344478|NCT05063448|184591871|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±2.47. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-1.47|3.47|||||Five cases fell outside of the upper confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||3.47|-1.47|
92344479|NCT05063448|184591871|SUPERIORITY|||||||0.022||||||This is not adjusted for multiple comparisons. A priori alpha is set at 95% with two tails.|t-test, 2 sided|t = 2.547, df = 16. N at time 3 = 18.||Paired samples t-test was used to compare group average pretest (time 1) and posttest (time 3) scores of self-perceptions of the parental role, a measure of parenting confidence.||||0.022
92344480|NCT05063448|184591872|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±1.84. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-0.84|2.84|||||Three cases fell outside of the upper confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||2.84|-0.84|
92399645|NCT03583099|184690796|SUPERIORITY||Difference in proportion|-2.2||||0.62|TWO_SIDED|95.0|-10.9|6.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.5|-10.9|0.62
92399646|NCT03583099|184690797|SUPERIORITY||Difference in proportion|-1.64||||0.84|TWO_SIDED|95.0|-17.27|13.99|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.99|-17.27|0.84
92344481|NCT05063448|184591873|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±5.97. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-4.97|6.97||||Two cases demonstrated reliable and one case demonstrated a reliable increase in work-family role conflict at posttest.|Two cases fell outside of the upper confidence interval and one case fell outside of the lower confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||6.97|-4.97|
92399647|NCT03583099|184690798|SUPERIORITY||Difference in proportion|6.09||||0.27|TWO_SIDED|95.0|-4.63|16.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||16.80|-4.63|0.27
92399648|NCT03583099|184690799|SUPERIORITY||Difference in proportion|2.91||||0.55|TWO_SIDED|95.0|-6.59|12.41|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.41|-6.59|0.55
92399649|NCT03583099|184690800|SUPERIORITY||Difference in proportion|2.37||||0.69|TWO_SIDED|95.0|-9.09|13.83|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.83|-9.09|0.69
92399650|NCT03583099|184690801|SUPERIORITY||Difference in proportion|0.36||||0.93|TWO_SIDED|95.0|-8.13|8.85|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||8.85|-8.13|0.93
92344482|NCT05063448|184591874|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±4.78.|Slope|1.0|||||TWO_SIDED|95.0|-3.78|5.78|||||Three cases fell below the confidence interval and two cases fell above the confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score..||5.78|-3.78|
92344483|NCT05063448|184591875|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±3.37. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-2.27|4.37|||||Three cases fell below the lower confidence interval and two cases fell above the upper confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||4.37|-2.27|
92344484|NCT05063448|184591876|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±2.80. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-1.8|3.8|||||Two cases fell below the lower confidence interval and two cases fell above the upper confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||3.80|-1.80|
92369361|NCT02993822|184643588|SUPERIORITY||Mean Difference (Final Values)|-4.1||||0.282|TWO_SIDED|95.0|-11.5|3.4|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||3.4|-11.5|0.282
92369362|NCT02993822|184643588|SUPERIORITY||Mean Difference (Final Values)|-3.2||||0.398|TWO_SIDED|95.0|-10.7|4.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||4.3|-10.7|0.398
92399651|NCT03583099|184690802|SUPERIORITY||Difference in proportion|-4.01||||0.26|TWO_SIDED|95.0|-10.97|2.95|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||2.95|-10.97|0.26
92399652|NCT03583099|184690803|SUPERIORITY||Difference in proportion|-2.04||||0.74|TWO_SIDED|95.0|-14.28|10.21|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||10.21|-14.28|0.74
92399653|NCT03583099|184690804|SUPERIORITY||Difference in proportion|0.1||||0.98|TWO_SIDED|95.0|-7.9|8.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||8.1|-7.9|0.98
92399654|NCT03583099|184690805|SUPERIORITY||Difference in proportion|2.6||||0.46|TWO_SIDED|95.0|-4.3|9.6|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||9.6|-4.3|0.46
92399655|NCT03583099|184690806|SUPERIORITY||Difference in proportion|1.5||||0.5|TWO_SIDED|95.0|-3.0|6.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.1|-3.0|0.50
92158248|NCT01052662|184203159|SUPERIORITY_OR_OTHER||Slope|-0.00935|STANDARD_ERROR_OF_MEAN|0.00356|=|0.00874|TWO_SIDED||||||Mixed Models Analysis||Z = -2.62209|We modeled the mean proportion of weekly opioid use using a mixed-effect linear regression approach to assess the treatment effect, the time effect and the interaction of time x treatment effect while adjusting for the baseline mean proportion of weekly opioid use with baseline COWS, Addiction Severity Index (ASI) psychiatric and legal composite scores as covariates.||||=0.00874
92217997|NCT01536951|184336692|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|0.239|||||TWO_SIDED|90.0|-1.65|2.12|||||LS mean difference (LY3009104 minus placebo) of change in QTcP 1 h postdose analyzed using analysis of covariance (ANCOVA) model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||2.12|-1.65|
92158249|NCT01052662|184203160|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.87||||0.64|TWO_SIDED||||||Log Rank|||||||0.64
92158250|NCT01052662|184203161|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.4||||1.2|TWO_SIDED|||||These results are using survival curve estimates to first positive urine toxicology for any opioid. The last observation carried forward (LOCF) was used to perform our survival event analyses.|Log Rank|||||||1.2
92344485|NCT05063448|184591878|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±4.03. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-3.03|5.03|||||One case fell outside of the upper confidence interval, while 5 participants fell below the lower confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||5.03|-3.03|
92344486|NCT06119854|184591887|OTHER||Risk Ratio (RR)|1.207|||||TWO_SIDED|95.0|0.406|3.59|||||The CBT arm is the numerator and the standard arm is the denominator.|||3.590|0.406|
92344487|NCT06119854|184591887|OTHER||Risk Difference (RD)|0.003|||||TWO_SIDED|95.0|-0.013|0.018|||||RD was calculated as the risk in the CBT arm minus the risk in the standard arm.|||0.018|-0.013|
92344488|NCT06119854|184591887|OTHER||Risk Ratio (RR)|0.687|||||TWO_SIDED|95.0|0.194|2.436|||||The inoculation arm is the numerator and the standard arm is the denominator.|||2.436|0.194|
92344489|NCT06119854|184591887|OTHER||Risk Difference (RD)|-0.004|||||TWO_SIDED|95.0|-0.018|0.01|||||RD was calculated as the risk in the inoculation arm minus the risk in the standard arm.|||0.010|-0.018|
92344490|NCT06119854|184591888|OTHER||Risk Ratio (RR)|0.992|||||TWO_SIDED|95.0|0.785|1.253|||||The CBT arm is the numerator and the standard arm is the denominator.|||1.253|0.785|
92344491|NCT06119854|184591888|OTHER||Risk Difference (RD)|-0.003|||||TWO_SIDED|95.0|-0.063|0.058|||||RD was calculated as the risk in the CBT arm minus the risk in the standard arm.|||0.058|-0.063|
92344492|NCT06119854|184591888|OTHER||Risk Ratio (RR)|1.227|||||TWO_SIDED|95.0|0.981|1.534|||||The inoculation arm is the numerator and the standard arm is the denominator.|||1.534|0.981|
92399656|NCT03583099|184690807|SUPERIORITY||Difference in proportion|-0.2||||0.96|TWO_SIDED|95.0|-6.8|6.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.5|-6.8|0.96
92399657|NCT03583099|184690808|SUPERIORITY||Difference in proportion|2.2||||0.4|TWO_SIDED|95.0|-3.0|7.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.5|-3.0|0.40
92399658|NCT03583099|184690809|SUPERIORITY||Difference in proportion|-0.1||||0.96|TWO_SIDED|95.0|-4.3|4.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||4.0|-4.3|0.96
92399659|NCT03583099|184690810|SUPERIORITY||Difference in proportion|0.1||||0.98|TWO_SIDED|95.0|-7.9|8.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||8.1|-7.9|0.98
92344493|NCT06119854|184591888|OTHER||Risk Difference (RD)|0.07|||||TWO_SIDED|95.0|0.008|0.133|||||RD was calculated as the risk in the inoculation arm minus the risk in the standard arm.|||0.133|0.008|
92344494|NCT06119854|184591889|OTHER||Risk Ratio (RR)|1.063|||||TWO_SIDED|95.0|0.74|1.527|||||CBT group represents the numerator and standard (conventional) represents the denominator|||1.527|0.740|
92344495|NCT06119854|184591889|OTHER||Risk Difference (RD)|0.008|||||TWO_SIDED|95.0|-0.037|0.053|||||RD was calculated as the risk in the CBT arm minus the risk in the standard arm|||0.053|-0.037|
92344496|NCT06119854|184591889|OTHER||Risk Ratio (RR)|1.262|||||TWO_SIDED|95.0|0.892|1.784|||||The inoculation arm is the numerator and the standard arm is the denominator.|||1.784|0.892|
92344497|NCT06119854|184591889|OTHER||Risk Difference (RD)|0.034|||||TWO_SIDED|95.0|-0.013|0.08|||||RD was calculated as the risk in the inoculation arm minus the risk in the standard arm.|||0.080|-0.013|
92344498|NCT06119854|184591890|OTHER||Risk Ratio (RR)|1.131|||||TWO_SIDED|95.0|0.911|1.406|||||CBT arm is the numerator and the standard arm is the denominator.|||1.406|0.911|
92344499|NCT06119854|184591890|OTHER||Risk Difference (RD)|0.045|||||TWO_SIDED|95.0|-0.019|0.109|||||RD was calculated as the risk in the CBT arm minus the risk in the standard arm.|||0.109|-0.019|
92344500|NCT06119854|184591890|OTHER||Risk Ratio (RR)|1.323|||||TWO_SIDED|95.0|1.074|1.631|||||the inoculation arm is the numerator and the standard arm is the denominator.|||1.631|1.074|
92344501|NCT06119854|184591890|OTHER||Risk Difference (RD)|0.111|||||TWO_SIDED|95.0|0.045|0.176|||||RD was calculated as the risk in the inoculation arm minus the risk in the standard arm.|||0.176|0.045|
92158251|NCT02478359|184203170|SUPERIORITY||Odds Ratio (OR)|1.09||||0.33|TWO_SIDED|95.0|0.92|1.28|||Regression, Logistic|||||1.28|0.92|0.33
92344502|NCT06494761|184591892|OTHER||Ratios of adjusted geometric means [%]|110.98|||||TWO_SIDED|90.0|96.9|127.1|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 22.1|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered with a single dose of zongertinib (Test Treatment 1) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||127.10|96.90|
92399660|NCT03583099|184690811|SUPERIORITY||Difference in proportion|-4.2||||0.46|TWO_SIDED|95.0|-15.2|6.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.8|-15.2|0.46
92399661|NCT03583099|184690812|SUPERIORITY||Difference in proportion|3.9||||0.37|TWO_SIDED|95.0|-4.7|12.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.4|-4.7|0.37
92399662|NCT03583099|184690813|SUPERIORITY||Difference in proportion|-0.8||||0.75|TWO_SIDED|95.0|-6.0|4.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||4.4|-6.0|0.75
92344503|NCT06494761|184591892|OTHER||Ratios of adjusted geometric means [%]|130.1|||||TWO_SIDED|90.0|110.35|153.39|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 25.2|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered after multiple doses of zongertinib (Test Treatment 3) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||153.39|110.35|
92344504|NCT06494761|184591893|OTHER||Ratios of adjusted geometric means [%]|107.8|||||TWO_SIDED|90.0|98.57|117.9|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 13.5|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||117.90|98.57|
92344505|NCT06494761|184591893|OTHER||Ratios of adjusted geometric means [%]|105.62|||||TWO_SIDED|90.0|95.41|116.93|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 15.4|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||116.93|95.41|
92344506|NCT06494761|184591894|OTHER||Ratios of adjusted geometric means [%]|96.55|||||TWO_SIDED|90.0|75.96|122.72|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 24.5|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||122.72|75.96|
92344507|NCT06494761|184591894|OTHER||Ratios of adjusted geometric means [%]|89.75|||||TWO_SIDED|90.0|61.86|130.2|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 39.6|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||130.20|61.86|
92344508|NCT06494761|184591895|OTHER||Ratios of adjusted geometric means [%]|117.07|||||TWO_SIDED|90.0|105.56|129.84|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 16.8|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered with a single dose of zongertinib (Test Treatment 1) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||129.84|105.56|
92344509|NCT06494761|184591895|OTHER||Ratios of adjusted geometric means [%]|144.36|||||TWO_SIDED|90.0|123.53|168.71|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 23.9|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered after multiple doses of zongertinib (Test Treatment 3) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||168.71|123.53|
92344510|NCT06494761|184591896|OTHER||Ratios of adjusted geometric means [%]|110.74|||||TWO_SIDED|90.0|100.92|121.52|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 14.1|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||121.52|100.92|
92344511|NCT06494761|184591896|OTHER||Ratios of adjusted geometric means [%]|117.19|||||TWO_SIDED|90.0|108.3|126.81|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 11.9|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||126.81|108.30|
92344512|NCT06494761|184591897|OTHER||Ratios of adjusted geometric means [%]|79.39|||||TWO_SIDED|90.0|49.9|126.3|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 77.6|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||126.30|49.90|
92158252|NCT02478359|184203171|SUPERIORITY||Odds Ratio (OR)|1.02||||0.88|TWO_SIDED|95.0|0.77|1.36|||Regression, Logistic|||||1.36|0.77|0.88
92344513|NCT06494761|184591897|OTHER||Ratios of adjusted geometric means [%]|62.07|||||TWO_SIDED|90.0|44.69|86.2|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 49.1|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||86.20|44.69|
92344514|NCT06494761|184591898|OTHER||Ratios of adjusted geometric means [%]|110.86|||||TWO_SIDED|90.0|96.58|127.24|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 22.5|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered with a single dose of zongertinib (Test Treatment 1) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||127.24|96.58|
92344515|NCT06494761|184591898|OTHER||Ratios of adjusted geometric means [%]|129.8|||||TWO_SIDED|90.0|109.7|153.59|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 25.8|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered after multiple doses of zongertinib (Test Treatment 3) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||153.59|109.70|
92344516|NCT06494761|184591899|OTHER||Ratios of adjusted geometric means [%]|108.61|||||TWO_SIDED|90.0|98.79|119.41|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 14.3|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||119.41|98.79|
92344517|NCT06494761|184591899|OTHER||Ratios of adjusted geometric means [%]|106.03|||||TWO_SIDED|90.0|95.49|117.73|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 15.9|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||117.73|95.49|
92344518|NCT06494761|184591900|OTHER||Ratios of adjusted geometric means [%]|108.13|||||TWO_SIDED|90.0|79.9|146.35|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 44.9|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||146.35|79.90|
92344519|NCT06494761|184591900|OTHER||Ratios of adjusted geometric means [%]|97.81|||||TWO_SIDED|90.0|75.01|127.53|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 38.5|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||127.53|75.01|
92344520|NCT04865289|184591901|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.51|1.41||||||||1.41|0.51|
92344521|NCT04865289|184591902|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.48|1.21||||||||1.21|0.48|
92344522|NCT04865289|184591903|NON_INFERIORITY|The null hypothesis for the non-inferiority test was that the hazard ratio was equal to 1.1.|Hazard Ratio (HR)|1.17||||0.5831415|TWO_SIDED|95.0|0.64|2.15|||Log Rank|One-sided p-value based on log-rank test.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate.|||2.15|0.64|0.5831415
92344523|NCT04865289|184591903|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.6980186|TWO_SIDED|95.0|0.64|2.15|||Log Rank|One-sided p-value based on log-rank test.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate.|||2.15|0.64|0.6980186
92344524|NCT04865289|184591904|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.52046|TWO_SIDED|95.0|0.57|1.8|||Log Rank|One-sided p-value based on log-rank test.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate.|||1.80|0.57|0.52046
92344525|NCT04865289|184591905|OTHER||Difference in Percentage|-10.5||||0.8497|TWO_SIDED|95.0|-29.2|9.3|||Miettinen & Nurminen|One sided p value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.||||9.3|-29.2|0.8497
92344526|NCT04865289|184591906|OTHER||Difference in Percentage|-9.1||||0.8522|TWO_SIDED|95.0|-25.5|8.0|||Miettinen & Nurminen|One sided p value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.||||8.0|-25.5|0.8522
92344527|NCT04865289|184591907|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction.|Difference in Least Square Means|-2.14||||0.6138|TWO_SIDED|95.0|-10.54|6.27|||cLDA model|||||6.27|-10.54|0.6138
92275189|NCT00106028|184452435|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.04||||1789|TWO_SIDED|95.0|-2.807|14.887|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||14.887|-2.807|01789
92344528|NCT04865289|184591908|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction.|Difference in Least Square Means|-0.73||||0.8398|TWO_SIDED|95.0|-7.93|6.46|||cLDA model|||||6.46|-7.93|0.8398
92158253|NCT02478359|184203172|SUPERIORITY||Odds Ratio (OR)|1.05||||0.53|TWO_SIDED|95.0|0.89|1.24|||Regression, Logistic|||||1.24|0.89|0.53
92158254|NCT02478359|184203173|SUPERIORITY||Odds Ratio (OR)|1.03||||0.73|TWO_SIDED|95.0|0.88|1.2|||Regression, Logistic|||||1.20|0.88|0.73
92158255|NCT02478359|184203174|SUPERIORITY||Odds Ratio (OR)|1.13||||0.21|TWO_SIDED|95.0|0.93|1.37|||Regression, Logistic|||||1.37|0.93|0.21
92158256|NCT02478359|184203175|SUPERIORITY||Odds Ratio (OR)|1.1||||0.26|TWO_SIDED|95.0|0.93|1.31|||Regression, Logistic|||||1.31|0.93|0.26
92158257|NCT02478359|184203176|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
92158258|NCT02478359|184203177|SUPERIORITY|||||||0.55|||||||Regression, Linear|||||||0.55
92158259|NCT02478359|184203178|SUPERIORITY|||||||0.34||||||adjusted p values|Regression, Logistic|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.34
92158260|NCT02478359|184203179|SUPERIORITY|||||||0.6|||||||Regression, Linear|||||||0.60
92158261|NCT02478359|184203180|SUPERIORITY|||||||0.32|||||||Regression, Linear|||||||0.32
92158262|NCT02478359|184203181|SUPERIORITY|||||||0.47|||||||Regression, Linear|||||||0.47
92158263|NCT02478359|184203182|SUPERIORITY|||||||0.33|||||||Regression, Linear|||||||0.33
92158264|NCT02478359|184203183|SUPERIORITY|||||||0.87||||||Adjusted P value|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.87
92158265|NCT02478359|184203184|SUPERIORITY|||||||0.7||||||Adjusted P value|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.70
92158266|NCT02478359|184203185|SUPERIORITY|||||||0.35|||||||Regression, Linear|Adjusted P Values||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.35
92158267|NCT02478359|184203186|SUPERIORITY|||||||0.09||||||Adjusted P Values|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.09
92158268|NCT02478359|184203187|SUPERIORITY|||||||0.82||||||Adjusted P Values|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.82
92158269|NCT02478359|184203188|SUPERIORITY|||||||0.16||||||Adjusted P values|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.16
92158270|NCT02478359|184203189|SUPERIORITY|||||||0.86||||||Adjusted P values|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.86
92158271|NCT02478359|184203190|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||0.57
92158272|NCT02478359|184203191|SUPERIORITY||Odds Ratio (OR)|1.05||||0.69|TWO_SIDED|95.0|0.82|1.35|||Regression, Logistic|||||1.35|0.82|0.69
92158273|NCT02478359|184203192|SUPERIORITY||Odds Ratio (OR)|0.62||||0.11|TWO_SIDED|95.0|0.35|1.11|||Regression, Logistic|||||1.11|0.35|0.11
92158274|NCT02478359|184203193|SUPERIORITY||Odds Ratio (OR)|0.84||||0.21|TWO_SIDED|95.0|0.65|1.1|||Regression, Logistic|||||1.10|0.65|0.21
92158275|NCT02478359|184203194|SUPERIORITY||Odds Ratio (OR)|1.07||||0.6|TWO_SIDED|95.0|0.84|1.36|||Regression, Logistic|||||1.36|0.84|0.60
92158276|NCT02478359|184203195|SUPERIORITY||Odds Ratio (OR)|0.92||||0.63|TWO_SIDED|95.0|0.66|1.28|||Regression, Logistic|||||1.28|0.66|0.63
92158277|NCT02478359|184203196|SUPERIORITY||Odds Ratio (OR)|0.96||||0.8|TWO_SIDED|95.0|0.68|1.35|||Regression, Logistic|||||1.35|0.68|0.80
92344529|NCT03104374|184591913|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|32.8|||<|0.0001|TWO_SIDED|95.0|24.0|41.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||41.6|24.0|<0.0001
92344530|NCT03104374|184591913|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|39.7|||<|0.0001|TWO_SIDED|95.0|31.1|48.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||48.3|31.1|<0.0001
92217998|NCT01536951|184336692|SUPERIORITY_OR_OTHER||LS mean difference|1.81|||||TWO_SIDED|90.0|-0.079|3.69|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 1.5 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||3.69|-0.0790|
92344531|NCT03104374|184591914|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Least Squares (LS) Mean Difference|-0.21|||<|0.0001|TWO_SIDED|95.0|-0.3|-0.12|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.12|-0.30|<0.0001
92344532|NCT03104374|184591914|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.31|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.22|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.22|-0.40|<0.0001
92344533|NCT03104374|184591915|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|27.6|||<|0.0001|TWO_SIDED|95.0|19.2|36.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||36.1|19.2|<0.0001
92344534|NCT03104374|184591915|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|31.0|||<|0.0001|TWO_SIDED|95.0|22.3|39.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||39.8|22.3|<0.0001
92399663|NCT03583099|184690814|SUPERIORITY||Difference in proportion|-8.7||||0.08|TWO_SIDED|95.0|-18.3|0.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||0.9|-18.3|0.08
92399664|NCT03583099|184690815|SUPERIORITY||Difference in proportion|-4.8||||0.11|TWO_SIDED|95.0|-10.6|1.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.1|-10.6|0.11
92399665|NCT03583099|184690816|SUPERIORITY||Difference in proportion|0.4||||0.89|TWO_SIDED|95.0|-5.1|5.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||5.9|-5.1|0.89
92399666|NCT03583099|184690817|SUPERIORITY||Difference in proportion|-8.8||||0.05|TWO_SIDED|95.0|-17.5|0.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||-0.0|-17.5|0.05
92399667|NCT03583099|184690818|SUPERIORITY||Difference in proportion|16.76||||0.09|TWO_SIDED|95.0|-2.89|36.42|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||36.42|-2.89|0.09
92399668|NCT03583099|184690819|SUPERIORITY||Difference in proportion|3.7||||0.56|TWO_SIDED|95.0|-8.6|15.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||15.9|-8.6|0.56
92399669|NCT03583099|184690820|SUPERIORITY||Difference in proportion|10.41||||0.49|TWO_SIDED|95.0|-19.39|40.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||40.20|-19.39|0.49
92399670|NCT03583099|184690821|SUPERIORITY||Difference in proportion|10.8||||0.06|TWO_SIDED|95.0|-0.5|22.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||22.1|-0.5|0.06
92399671|NCT03583099|184690822|SUPERIORITY||Difference in proportion|0.41||||0.94|TWO_SIDED|95.0|-10.97|11.79|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.79|-10.97|0.94
92217999|NCT01536951|184336692|SUPERIORITY_OR_OTHER||LS Mean Difference|1.44|||||TWO_SIDED|90.0|-0.446|3.32|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 2 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||3.32|-0.446|
92344535|NCT03104374|184591916|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|36.3|||<|0.0001|TWO_SIDED|95.0|25.6|46.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||46.9|25.6|<0.0001
92344536|NCT03104374|184591916|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|40.5|||<|0.0001|TWO_SIDED|95.0|29.9|51.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||51.0|29.9|<0.0001
92344537|NCT03104374|184591917|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|3.52|||<|0.0001|TWO_SIDED|95.0|2.07|4.98|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||4.98|2.07|<0.0001
92344538|NCT03104374|184591917|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|5.44|||<|0.0001|TWO_SIDED|95.0|3.99|6.88|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.88|3.99|<0.0001
92344539|NCT03104374|184591918|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|3.7|||<|0.0001|TWO_SIDED|95.0|2.0|5.4|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.4|2.0|<0.0001
92344540|NCT03104374|184591918|SUPERIORITY||LS Mean Difference|4.8|||<|0.0001|TWO_SIDED|95.0|3.1|6.4|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.||6.4|3.1|<0.0001
92399672|NCT03583099|184690823|SUPERIORITY||Difference in proportion|2.7||||0.57|TWO_SIDED|95.0|-6.5|11.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.8|-6.5|0.57
92344541|NCT03104374|184591919|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|22.3|||<|0.0001|TWO_SIDED|95.0|16.0|28.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||28.6|16.0|<0.0001
92399673|NCT03583099|184690824|SUPERIORITY||Difference in proportion|1.36||||0.89|TWO_SIDED|95.0|-18.01|20.73|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||20.73|-18.01|0.89
92399674|NCT03583099|184690825|SUPERIORITY||Difference in proportion|-2.2||||0.65|TWO_SIDED|95.0|-12.1|7.6|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.6|-12.1|0.65
92399675|NCT03583099|184690826|SUPERIORITY||Difference in proportion|12.48||||0.16|TWO_SIDED|95.0|-5.0|29.96|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||29.96|-5.00|0.16
92158278|NCT02478359|184203197|SUPERIORITY|||||||0.06||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.06
92158279|NCT02478359|184203198|SUPERIORITY|||||||0.07||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.07
92158280|NCT02478359|184203199|SUPERIORITY|||||||0.67||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.67
92158281|NCT02478359|184203200|SUPERIORITY|||||||0.13||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.13
92344542|NCT03104374|184591919|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|26.1|||<|0.0001|TWO_SIDED|95.0|19.7|32.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||32.5|19.7|<0.0001
92344543|NCT03104374|184591920|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-22.9|||<|0.0001|TWO_SIDED|95.0|-27.4|-18.4|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-18.4|-27.4|<0.0001
92344544|NCT03104374|184591920|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-28.2|||<|0.0001|TWO_SIDED|95.0|-32.7|-23.8|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-23.8|-32.7|<0.0001
92344545|NCT03104374|184591921|SUPERIORITY||Response Rate Difference|27.0|||<|0.0001|TWO_SIDED|95.0|20.1|33.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||33.9|20.1|<0.0001
92344546|NCT03104374|184591921|SUPERIORITY||Response Rate Difference|32.9|||<|0.0001|TWO_SIDED|95.0|25.9|39.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||39.9|25.9|<0.0001
92344547|NCT03104374|184591922|SUPERIORITY||Response Rate Difference|8.1|||<|0.0001|TWO_SIDED|95.0|4.2|11.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||11.9|4.2|<0.0001
92344548|NCT03104374|184591922|SUPERIORITY||Response Rate Difference|16.0|||<|0.0001|TWO_SIDED|95.0|11.0|21.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||21.1|11.0|<0.0001
92344549|NCT03104374|184591923|SUPERIORITY||Response Rate Difference|21.9|||<|0.0001|TWO_SIDED|95.0|14.3|29.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||29.4|14.3|<0.0001
92344550|NCT03104374|184591923|SUPERIORITY||Response Rate Difference|22.6|||<|0.0001|TWO_SIDED|95.0|15.1|30.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||30.2|15.1|<0.0001
92399676|NCT03583099|184690827|SUPERIORITY||Difference in proportion|4.3||||0.29|TWO_SIDED|95.0|-3.6|12.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.2|-3.6|0.29
92158282|NCT02478359|184203201|SUPERIORITY|||||||0.34||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.34
92344551|NCT00885118|184591926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42828.482|STANDARD_ERROR_OF_MEAN|6487.174|<|0.0001|TWO_SIDED|95.0|29936.586|55720.378|||ANCOVA|The baseline value was included as a continuous covariate.||Difference calculated as empa 1mg minus placebo||55720.378|29936.586|<0.0001
92344552|NCT00885118|184591926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|80964.677|STANDARD_ERROR_OF_MEAN|6303.82|<|0.0001|TWO_SIDED|95.0|68437.16|93492.194|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||93492.194|68437.160|<0.0001
92344553|NCT00885118|184591926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|88589.764|STANDARD_ERROR_OF_MEAN|6544.604|<|0.0001|TWO_SIDED|95.0|75583.738|101595.79|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||101595.790|75583.738|<0.0001
92344554|NCT00885118|184591926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|85620.348|STANDARD_ERROR_OF_MEAN|6610.091|<|0.0001|TWO_SIDED|95.0|72484.181|98756.515|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||98756.515|72484.181|<0.0001
92344555|NCT00885118|184591927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.68|STANDARD_ERROR_OF_MEAN|4.155||0.003|TWO_SIDED|95.0|-20.936|-4.424|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-4.424|-20.936|0.0030
92344556|NCT00885118|184591927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.92|STANDARD_ERROR_OF_MEAN|4.025|<|0.0001|TWO_SIDED|95.0|-27.919|-11.921|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-11.921|-27.919|<0.0001
92344557|NCT00885118|184591927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.208|STANDARD_ERROR_OF_MEAN|4.168|<|0.0001|TWO_SIDED|95.0|-34.49|-17.925|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-17.925|-34.490|<0.0001
92399677|NCT03583099|184690828|SUPERIORITY||Difference in proportion|5.28||||0.44|TWO_SIDED|95.0|-8.07|18.62|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||18.62|-8.07|0.44
92399678|NCT03583099|184690829|SUPERIORITY||Difference in proportion|-1.5||||0.62|TWO_SIDED|95.0|-7.6|4.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||4.5|-7.6|0.62
92344558|NCT00885118|184591927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.235|STANDARD_ERROR_OF_MEAN|4.202|<|0.0001|TWO_SIDED|95.0|-35.586|-18.884|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-18.884|-35.586|<0.0001
92344559|NCT00885118|184591928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.883|STANDARD_ERROR_OF_MEAN|5.861||0.003|TWO_SIDED|95.0|-29.529|-6.236|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-6.236|-29.529|0.0030
92344560|NCT00885118|184591928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.487|STANDARD_ERROR_OF_MEAN|5.445|<|0.0001|TWO_SIDED|95.0|-33.308|-11.665|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-11.665|-33.308|<0.0001
92344561|NCT00885118|184591928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.265|STANDARD_ERROR_OF_MEAN|5.785|<|0.0001|TWO_SIDED|95.0|-37.762|-14.768|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-14.768|-37.762|<0.0001
92344562|NCT00885118|184591928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.34|STANDARD_ERROR_OF_MEAN|5.699|<|0.0001|TWO_SIDED|95.0|-39.665|-17.015|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-17.015|-39.665|<0.0001
92344563|NCT00885118|184591929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.239|STANDARD_ERROR_OF_MEAN|0.13||0.0705|TWO_SIDED|95.0|-0.498|-0.02|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-0.020|-0.498|0.0705
92344564|NCT00885118|184591929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.296|STANDARD_ERROR_OF_MEAN|0.125||0.0203|TWO_SIDED|95.0|-0.545|-0.047|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-0.047|-0.545|0.0203
92344565|NCT00885118|184591929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.429|STANDARD_ERROR_OF_MEAN|0.13||0.0014|TWO_SIDED|95.0|-0.687|-0.17|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-0.170|-0.687|0.0014
92344566|NCT00885118|184591929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.395|STANDARD_ERROR_OF_MEAN|0.131||0.0033|TWO_SIDED|95.0|-0.654|-0.135|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-0.135|-0.654|0.0033
92399679|NCT03583099|184690830|SUPERIORITY||Difference in proportion|-7.1||||0.39|TWO_SIDED|95.0|-23.18|9.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||9.0|-23.18|0.39
92399680|NCT03583099|184690831|SUPERIORITY||Difference in proportion|-6.6||||0.08|TWO_SIDED|95.0|-13.9|0.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||0.8|-13.9|0.08
92344567|NCT00885118|184591930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.527|STANDARD_ERROR_OF_MEAN|17.755||0.4823|TWO_SIDED|95.0|-22.757|47.811|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||47.811|-22.757|0.4823
92344568|NCT00885118|184591930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.984|STANDARD_ERROR_OF_MEAN|17.313||0.7305|TWO_SIDED|95.0|-28.422|40.39|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||40.390|-28.422|0.7305
92344569|NCT00885118|184591930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.858|STANDARD_ERROR_OF_MEAN|17.903||0.3213|TWO_SIDED|95.0|-53.438|17.721|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||17.721|-53.438|0.3213
92344570|NCT00885118|184591930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.838|STANDARD_ERROR_OF_MEAN|18.13||0.2768|TWO_SIDED|95.0|-55.869|16.192|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||16.192|-55.869|0.2768
92344571|NCT00885118|184591931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.192|STANDARD_ERROR_OF_MEAN|0.728|<|0.0001|TWO_SIDED|95.0|-5.653|-2.731|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-2.731|-5.653|<0.0001
92344572|NCT00885118|184591931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.609|STANDARD_ERROR_OF_MEAN|0.756|<|0.0001||95.0|-6.126|-3.091|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-3.091|-6.126|<0.0001
92344573|NCT00885118|184591931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.036|STANDARD_ERROR_OF_MEAN|0.762|<|0.0001|TWO_SIDED|95.0|-5.565|-2.508|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-2.508|-5.565|<0.0001
92399681|NCT03583099|184690832|SUPERIORITY||Difference in proportion|-11.3||||0.23|TWO_SIDED|95.0|-29.06|7.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.00|-29.06|0.23
92158283|NCT02478359|184203202|SUPERIORITY|||||||0.11||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.11
92344574|NCT00885118|184591931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.887|STANDARD_ERROR_OF_MEAN|1.076|<|0.0001|TWO_SIDED|95.0|-7.048|-2.726|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-2.726|-7.048|<0.0001
92399682|NCT03583099|184690833|SUPERIORITY||Difference in means|-1.14||||0.97|TWO_SIDED|95.0|-6.42|4.13||The p-value adjusts for baseline CAT score.|Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||4.13|-6.42|0.97
92344575|NCT00885118|184591932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.414||0.2498|TWO_SIDED|95.0|-1.302|0.343|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||0.343|-1.302|0.2498
92344576|NCT00885118|184591932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.379|STANDARD_ERROR_OF_MEAN|0.408||0.3544|TWO_SIDED|95.0|-1.189|0.43|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||0.430|-1.189|0.3544
92344577|NCT00885118|184591932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.343|STANDARD_ERROR_OF_MEAN|0.416||0.0018|TWO_SIDED|95.0|-2.171|-0.516|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-0.516|-2.171|0.0018
92344578|NCT00885118|184591932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.257|STANDARD_ERROR_OF_MEAN|0.421||0.0037|TWO_SIDED|95.0|-2.094|-0.419|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-0.419|-2.094|0.0037
92344579|NCT00885118|184591933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-95.414|STANDARD_ERROR_OF_MEAN|15.388|<|0.0001|TWO_SIDED|95.0|-125.995|-64.833|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-64.833|-125.995|<0.0001
92344580|NCT00885118|184591933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-109.48|STANDARD_ERROR_OF_MEAN|14.67|<|0.0001|TWO_SIDED|95.0|-138.633|-80.327|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-80.327|-138.633|<0.0001
92344581|NCT00885118|184591933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-131.336|STANDARD_ERROR_OF_MEAN|15.354|<|0.0001|TWO_SIDED|95.0|-161.848|-100.824|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-100.824|-161.848|<0.0001
92344582|NCT00885118|184591933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-136.341|STANDARD_ERROR_OF_MEAN|15.357|<|0.0001|TWO_SIDED|95.0|-166.86|-105.823|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-105.823|-166.860|<0.0001
92344583|NCT00885118|184591934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.668|STANDARD_ERROR_OF_MEAN|13.152||0.0883|TWO_SIDED|95.0|-3.47|48.805|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||48.805|-3.470|0.0883
92344584|NCT00885118|184591934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.576|STANDARD_ERROR_OF_MEAN|12.941||0.0203|TWO_SIDED|95.0|4.859|56.293|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||56.293|4.859|0.0203
92344585|NCT00885118|184591934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.974|STANDARD_ERROR_OF_MEAN|13.289||0.6541|TWO_SIDED|95.0|-20.434|32.382|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||32.382|-20.434|0.6541
92158284|NCT02478359|184203203|SUPERIORITY|||||||0.83||||||Adjusted P value|Regression, Linear|||Covariated included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.83
92344586|NCT00885118|184591934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.015|STANDARD_ERROR_OF_MEAN|13.612||0.4206|TWO_SIDED|95.0|-16.036|38.066|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||38.066|-16.036|0.4206
92344587|NCT00885118|184591935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.869|STANDARD_ERROR_OF_MEAN|4.066||0.0318|TWO_SIDED|95.0|-16.949|-0.789|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-0.789|-16.949|0.0318
92344588|NCT00885118|184591935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.344|STANDARD_ERROR_OF_MEAN|3.966||0.0005|TWO_SIDED|95.0|-22.225|-6.462|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-6.462|-22.225|0.0005
92344589|NCT00885118|184591935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.642|STANDARD_ERROR_OF_MEAN|4.131||0.0003|TWO_SIDED|95.0|-23.853|-7.432|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-7.432|-23.853|0.0003
92344590|NCT00885118|184591935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.118|STANDARD_ERROR_OF_MEAN|4.137||0.0164|TWO_SIDED|95.0|-18.339|-1.897|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-1.897|-18.339|0.0164
92344591|NCT02717195|184591975|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.9196|TWO_SIDED|95.0|-2.37|2.13||Multiplicity adjustment was planned for the testing of the primary enpoint, but was not applied since all p-values\>0.05.|Mixed model repeated measures|||The mean changes from Randomization in PANSS total score was analysed using a MMRM approach. The model included the fixed, categorical effects of treatment, country, week, treatment-by-week interaction, PC Period treatment, PC Period treatment-by-week interaction, and the continuous covariates of Randomization score and Randomization score-by-week interaction with an unstructured covariance structure to model the within-patient errors.||2.13|-2.37|0.9196
92369363|NCT02993822|184643589|SUPERIORITY||Mean Difference (Final Values)|-10.0||||0.019|TWO_SIDED|95.0|-18.3|-1.7|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-1.7|-18.3|0.019
92158285|NCT01852955|184203214|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.01
92158286|NCT01852955|184203215|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.04
92158287|NCT01852955|184203216|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.36
92158288|NCT03633903|184203217|SUPERIORITY||Mean Difference (Final Values)|1.04|||<|0.05|TWO_SIDED|||||"The reported p-value was calculated and is not indicating a threshold for significance.~This applies to the change from row 1 to row 3 (e.g., baseline pre TSST-C versus follow-up timepoint pre TSST-C)"|Mixed Models Analysis|||||||<.05
92158289|NCT03633903|184203217|SUPERIORITY||Mean Difference (Final Values)|0.77|||<|0.05|TWO_SIDED|||||"The reported p-value was calculated and is not indicating a threshold for significance.~This is for the difference from row 1 to row 2 (baseline pre versus baseline post TSST-C)"|Mixed Models Analysis|||||||<.05
92158290|NCT03633903|184203217|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.4|TWO_SIDED|||||"The reported p-value was calculated and is not indicating a threshold for significance.~Comparing row 1 and row 4 (baseline pre TSST-C versus follow-up post TSST-C)."|Mixed Models Analysis|||||||0.40
92399683|NCT03583099|184690834|SUPERIORITY||Difference in means|-0.003||||0.47|TWO_SIDED|95.0|-1.86|1.85|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.85|-1.86|0.47
92344592|NCT02717195|184591975|SUPERIORITY||Mean Difference (Final Values)|1.67||||0.1474|TWO_SIDED|95.0|-0.59|3.94||Multiplicity adjustment was planned for the testing of the primary endpoint, but was not applied since all p-values\>0.05.|Mixed model repeated measures|||The mean changes from Randomization in PANSS total score was analysed using a MMRM approach. The model included the fixed, categorical effects of treatment, country, week, treatment-by-week interaction, PC Period treatment, PC Period treatment-by-week interaction, and the continuous covariates of Randomization score and Randomization score-by-week interaction with an unstructured covariance structure to model the within-patient errors.||3.94|-0.59|0.1474
92344593|NCT02717195|184591976|SUPERIORITY||Mean Difference (Final Values)|0.96||||0.2998|TWO_SIDED|95.0|-0.86|2.78||Multiplicity adjustment was planned for the testing of the primary endpoint, but was not applied since all p-values\>0.05.|Mixed model repeated measures|||The mean changes from Randomization in PSP score was analysed using a MMRM approach. The model included the fixed, categorical effects of treatment, country, week, treatment-by-week interaction, PC Period treatment, PC Period treatment-by-week interaction, and the continuous covariates of Randomization score and Randomization score-by-week interaction with an unstructured covariance structure to model the within-patient errors.||2.78|-0.86|0.2998
92344594|NCT02717195|184591976|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.4478|TWO_SIDED|95.0|-2.54|1.12||Multiplicity adjustment was planned for the testing of the primary endpoint, but was not applied since all p-values\>0.05.|Mixed model repeated measures|||The mean changes in PSP score was analysed using a MMRM approach. The model included the fixed, categorical effects of treatment, country, week, treatment-by-week interaction, PC Period treatment, PC Period treatment-by-week interaction, and the continuous covariates of Randomization score and Randomization score-by-week interaction with an unstructured covariance structure to model the within-patient errors.||1.12|-2.54|0.4478
92344595|NCT02325414|184592007|SUPERIORITY||Median Difference (Final Values)|10.61||||0.05|TWO_SIDED||||||Mixed Models Analysis||||One-year data analysis were carried out using linear mixed-effects models. Covariate adjustments for baseline value of the corresponding outcome and ambulatory status (measured by WISCI) were performed by fitting these variables as fixed factors. The repeated measures were addressed using participant identification as random intercepts in the model.|||0.05
92344596|NCT04817189|184592011|SUPERIORITY||Odds Ratio (OR)|1.67|||<|0.05|TWO_SIDED|95.0|1.12|2.49|||generalized linear model||||"The model-based statistics were used to calculate the difference in the probability to experience a per cycle complete response between the treatment arms."|2.49|1.12|<0.05
92344597|NCT04817189|184592013|SUPERIORITY||Odds Ratio (OR)|0.89||||0.412|TWO_SIDED|95.0|0.68|1.17|||generalized linear model||Reference category is set to Sleep ≥ 7 h, compared to Sleep \< 7 h.|"The hypothesis states that the potential risk factor of \< 7 h of sleep the night before chemotherapy increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.17|0.68|0.412
92344598|NCT04817189|184592013|SUPERIORITY||Odds Ratio (OR)|1.14||||0.592|TWO_SIDED|95.0|0.71|1.8|||generalized linear model||Reference category is set to Without history, compared to With history.|"The hypothesis states that the potential risk factor of History of any nausea and vomiting such as motion sickness, vestibular dysfunction, … increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.80|0.71|0.592
92344599|NCT04817189|184592013|SUPERIORITY||Odds Ratio (OR)|1.15||||0.458|TWO_SIDED|95.0|0.8|1.65|||generalized linear model||Reference category is set to No anticipatory, compared to Anticipatory.|"The hypothesis states that the potential risk factor of Anticipatory nausea and/or vomiting increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.65|0.80|0.458
92344600|NCT04817189|184592013|SUPERIORITY||Odds Ratio (OR)|1.08||||0.663|TWO_SIDED|95.0|0.75|1.56|||generalized linear model||Reference category is set to No anxiety, compared to Anxiety.|"The hypothesis states that the potential risk factor of Anxiety over the past 24hrs increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.56|0.75|0.663
92158291|NCT03633903|184203218|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.39|TWO_SIDED||||||Mixed Models Analysis|||Comparing group differences (CRP biomarker) in mindfulness versus control at baseline versus follow-up timepoints.||||.39
92344601|NCT04817189|184592013|SUPERIORITY||Odds Ratio (OR)|0.88||||0.691|TWO_SIDED|95.0|0.46|1.68|||generalized linear model||Reference category is set to \< 10 units per week, compared to \>= 10 units per week.|"The hypothesis states that the potential risk factor of Alcohol intake (\>= 10 units per week vs \< 10 units per week) increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratio."||1.68|0.46|0.691
92158292|NCT03633903|184203218|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.95|TWO_SIDED||||||Mixed Models Analysis|||Comparing group differences (IL-6 biomarker) in mindfulness versus control at baseline versus follow-up timepoints.||||.95
92158293|NCT03633903|184203219|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.08|TWO_SIDED|||||the calculated p value.|Mixed Models Analysis|||Comparing group differences (symptoms of anxiety/depression) in mindfulness versus control at baseline versus follow-up timepoints.||||.08
92399684|NCT03583099|184690835|SUPERIORITY||Difference in proportion|17.84||||0.02|TWO_SIDED|95.0|2.34|33.34|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||33.34|2.34|0.02
92344602|NCT04817189|184592013|SUPERIORITY||Odds Ratio (OR)|1.48||||0.037|TWO_SIDED|95.0|1.02|2.14|||generalized linear model||Reference category is set to Male, compared to Female.|"The hypothesis states that the potential risk factor of Gender increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||2.14|1.02|0.037
92344603|NCT04817189|184592013|SUPERIORITY||Odds Ratio (OR)|1.09||||0.514|TWO_SIDED|95.0|0.84|1.42|||generalized linear model||Reference category is set to No fatigue experience, compared to Fatigue experience.|"The hypothesis states that the potential risk factor of Fatigue experience (symptom) increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.42|0.84|0.514
92344604|NCT04817189|184592013|SUPERIORITY||Odds Ratio (OR)|0.75||||0.127|TWO_SIDED|95.0|0.52|1.08|||generalized linear model||Reference category is set to Non smoker, compared to Former smoker or smoker.|"The hypothesis states that the potential risk factor of Smoking status increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.08|0.52|0.127
92344605|NCT04817189|184592013|SUPERIORITY||Odds Ratio (OR)|0.87||||0.014|TWO_SIDED|95.0|0.77|0.97|||generalized linear model||The OR was calculated as the change in weight per 10 kg.|"The hypothesis states that the potential risk factor of Weight increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||0.97|0.77|0.014
92344606|NCT04817189|184592020|SUPERIORITY||Mean Difference (Net)|3.5|||<|0.05|TWO_SIDED|95.0|0.05|6.96|||generalized linear model||||"The model-based statistics were used to calculate the difference in the score per cycle between the treatment arms."|6.96|0.05|<0.05
92344607|NCT04817189|184592031|SUPERIORITY||Mean Difference (Net)|-0.06|||<|0.05|TWO_SIDED|95.0|-0.13|0.01|||generalized linear model||Number of vomiting episodes - acute phase|||0.01|-0.13|<0.05
92344608|NCT04817189|184592031|SUPERIORITY||Mean Difference (Net)|-0.31|||<|0.05|TWO_SIDED|95.0|-0.5|-0.12|||generalized linear model||Number of vomiting episodes - delayed phase|||-0.12|-0.50|<0.05
92399685|NCT03583099|184690836|SUPERIORITY||Difference in proportion|7.8||||0.12|TWO_SIDED|95.0|-2.0|17.6|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||17.6|-2.0|0.12
92158294|NCT01813422|184203220|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-1.007|STANDARD_ERROR_OF_MEAN|0.187|<|0.0001|TWO_SIDED|95.0|-1.375|-0.64|||ANCOVA|ANCOVA model included terms for the treatment group, the geographic region stratification factor, and baseline PAV.|Treatment difference uses placebo as the reference.|||-0.640|-1.375|< 0.0001
92344609|NCT04817189|184592031|SUPERIORITY||Mean Difference (Net)|-0.12|||<|0.05|TWO_SIDED|95.0|-0.21|-0.02|||generalized linear model||||Number of vomiting episodes - Day 2|-0.02|-0.21|<0.05
92344610|NCT04817189|184592031|SUPERIORITY||Mean Difference (Net)|-0.07|||<|0.05|TWO_SIDED|95.0|-0.17|0.04|||generalized linear model||Number of vomiting episodes - Day 3|||0.04|-0.17|<0.05
92344611|NCT04817189|184592031|SUPERIORITY||Mean Difference (Net)|-0.05|||<|0.05|TWO_SIDED|95.0|-0.16|0.05|||generalized linear model||Number of vomiting episodes - Day 4|||0.05|-0.16|<0.05
92344612|NCT04817189|184592031|SUPERIORITY||Mean Difference (Net)|-0.04|||<|0.05|TWO_SIDED|95.0|-0.13|0.05|||generalized linear model||Number of vomiting episodes - Day 5|||0.05|-0.13|<0.05
92344613|NCT04817189|184592031|SUPERIORITY||Mean Difference (Net)|-0.37|||<|0.05|TWO_SIDED|95.0|-0.6|-0.14|||generalized linear model||Number of vomiting episodes - overall phase|||-0.14|-0.60|<0.05
92344614|NCT00853385|184592050|SUPERIORITY_OR_OTHER||Percent difference|24.24|||<|0.0001|TWO_SIDED|95.0|13.18|35.31||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 10 mg to placebo and 2-sided 95% confidence interval (CI) was evaluated for the difference in percentages.||35.31|13.18|<0.0001
92399686|NCT03583099|184690837|SUPERIORITY|||||||1|||||||Fisher Exact|The p-value is calculated from a two-sided Fisher's exact test. This test is appropriate since only one outcome per practice was seen.||||||1.0
92399687|NCT03583099|184690838|SUPERIORITY||Difference in proportion|2.06||||0.87|TWO_SIDED|95.0|-22.67|26.79|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||26.79|-22.67|0.87
92158295|NCT01813422|184203221|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-4.889|STANDARD_ERROR_OF_MEAN|1.201|<|0.0001|TWO_SIDED|95.0|-7.247|-2.531|||ANCOVA|ANCOVA model included terms for the treatment group, the geographic region stratification factor, and baseline TAV.|Treatment difference uses placebo as the reference.|||-2.531|-7.247|< 0.0001
92158296|NCT01813422|184203222|SUPERIORITY_OR_OTHER||Treatment Difference|17.0|||<|0.0001|TWO_SIDED|95.0|10.3|23.5|||Cochran-Mantel-Haenszel|Based on CMH test stratified by geographic region.|Treatment difference uses placebo as the reference.|||23.5|10.3|< 0.0001
92158297|NCT01813422|184203223|SUPERIORITY_OR_OTHER||Treatment Difference|12.5||||0.0002|TWO_SIDED|95.0|5.8|19.1|||Cochran-Mantel-Haenszel|Based on CMH test stratified by geographic region.|Treatment difference uses placebo as the reference.|||19.1|5.8|0.0002
92399688|NCT03583099|184690839|SUPERIORITY|||||||1|||||||Fisher Exact|The p-value is calculated from a two-sided Fisher's exact test.||||||1.0
92399689|NCT03583099|184690840|SUPERIORITY||Difference in proportion|-5.53||||0.56|TWO_SIDED|95.0|-24.33|13.28|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.28|-24.33|0.56
92399690|NCT03583099|184690841|SUPERIORITY|||||||1|||||||Fisher Exact|The p-value is calculated from a two-sided Fisher's exact test.||||||1.0
92344615|NCT00853385|184592050|SUPERIORITY_OR_OTHER||Percent difference|23.22|||<|0.0001|TWO_SIDED|95.0|12.16|34.29||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||34.29|12.16|<0.0001
92344616|NCT00853385|184592050|SUPERIORITY_OR_OTHER||Percent difference|18.93||||0.0007|TWO_SIDED|95.0|7.9|29.96||Statistical testing was done at 5% significance level (2-sided).|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of adalimumab to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||29.96|7.90|0.0007
92344617|NCT00853385|184592051|SUPERIORITY_OR_OTHER||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.5|-0.25||A step-down procedure was used to control for multiple comparisons. For the comparison of 10 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo in ACR20 had to be significant.|Mixed Models Analysis|||Least squares (LS) mean difference and corresponding 95% CI was calculated using a mixed-effect repeated measure model with treatment, visit and treatment-by-visit interaction as fixed effect and participant as random effect.||-0.25|-0.50|<0.0001
92344618|NCT00853385|184592051|SUPERIORITY_OR_OTHER||LS mean difference|-0.31|||<|0.0001|TWO_SIDED|95.0|-0.43|-0.19||Step-down procedure: For the comparison of 5 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo as well as the comparison of 5 mg to placebo in ACR20 had to be statistically significant.|Mixed Models Analysis|||LS mean difference and corresponding 95% CI was calculated using a mixed-effect repeated measure model with treatment, visit and treatment-by-visit interaction as fixed effect and participant as random effect.||-0.19|-0.43|<0.0001
92344619|NCT00853385|184592051|SUPERIORITY_OR_OTHER||LS mean difference|-0.25|||<|0.0001|TWO_SIDED|95.0|-0.37|-0.13||Statistical testing was done at 5% significance level (2-sided).|Mixed Models Analysis|||LS mean difference and corresponding 95% CI was calculated using a mixed-effect repeated measure model with treatment, visit and treatment-by-visit interaction as fixed effect and participant as random effect.||-0.13|-0.37|<0.0001
92344620|NCT00853385|184592052|SUPERIORITY_OR_OTHER||Percent difference|11.41|||<|0.0001|TWO_SIDED|95.0|6.08|16.73||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in HAQ-DI had to be significant.|Normal approximation|||Normal approximation to the binomial distribution was used to test the superiority of CP-690,550 10 mg to placebo and two-sided 95% CI was evaluated for the difference in percentages.||16.73|6.08|<0.0001
92344621|NCT00853385|184592052|SUPERIORITY_OR_OTHER||Percent difference|5.12||||0.0151|TWO_SIDED|95.0|0.98|9.26||Step-down procedure: For the comparison of 5 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo as well as comparison of 5 mg to placebo in HAQ-DI had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||9.26|0.98|0.0151
92344622|NCT00853385|184592052|SUPERIORITY_OR_OTHER||Percent difference|5.65||||0.0091|TWO_SIDED|95.0|1.4|9.9||Statistical testing was done at 5% significance level (2-sided).|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of adalimumab to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||9.90|1.40|0.0091
92344623|NCT01829347|184592096|SUPERIORITY||Hazard Ratio (HR)|0.31||||0.076|TWO_SIDED|95.0|0.085|1.133|||Log Rank|||The primary endpoint was assessed using a Kaplan-Meier survival analysis of the Intent-to-Treat (ITT) population utilizing a log-rank test.||1.133|0.085|0.076
92344624|NCT01829347|184592097|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92344625|NCT03055013|184592098|SUPERIORITY||Cox Proportional Hazard|0.95||||0.34|TWO_SIDED|95.0|0.74|1.22|||Log Rank|stratified logrank test (one-sided)|hazard ratio : arm A vs. arm B|||1.22|0.74|0.34
92344626|NCT03435055|184592110|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Paired t-test were conducted on subject specific beta maps to identify changes in connectivity associated with nitrous oxide in SPM12. Hypothesis was that the results would be deemed significant at false discovery rate (FDR) cluster level corrected p \< 0.05 derived from a voxel-wise uncorrected p-value \< 0.001.||||0.001
92344627|NCT03435055|184592111|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||Paired t-test were conducted on subject specific beta maps to identify changes in connectivity associated with nitrous oxide in SPM12. Hypothesis was that results would be deemed significant at false discovery rate (FDR) cluster level corrected p \< 0.05 derived from a voxel-wise uncorrected p-value \< 0.001.||||0.006
92399691|NCT03583099|184690842|SUPERIORITY||Difference in proportion|12.66||||0.21|TWO_SIDED|95.0|-7.05|32.37|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||32.37|-7.05|0.21
92344628|NCT03435055|184592112|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||Paired-t tests were conducted to determine whether changes in stimulus intensity: post stimulus at baseline and under subanesthetic dose of nitrous oxide. Statistical tests were completed in SPSS 26 and determined by p \< 0.05.||||<0.01
92344629|NCT03435055|184592113|OTHER|Paired T-test comparing baseline to nitrous||||||0.0622|||||||Paired t-test|||Delta||||0.0622
92344630|NCT03435055|184592113|OTHER|Paired T-test comparing baseline to nitrous||||||0.0292|||||||Paired t-test|||Theta||||0.0292
92344631|NCT03435055|184592113|OTHER|Paired T-test comparing baseline to nitrous||||||0.5905|||||||Paired t-test|||Alpha comparison||||0.5905
92344632|NCT01123655|184592163|EQUIVALENCE|P less than 0.05 was the criteria for equivalence.||||||0.5179|||||||Fisher Exact|||Specified to be a reduction from baseline values of net IFNƔ concentration of ≥ 25% in αl(ll)-stimulated PBMC culture supernatants (calculated as αI(II)-IFNƔ-PBS IFNƔ in patients receiving APL A12 compared to placebo.||||0.5179
92344633|NCT01123655|184592163|EQUIVALENCE|Null hypothesis was that the response rate in the APL treated groups is not significantly difference from the 50% spontaneous response rate.||||||0.0114|||||||Exact Test|||||||0.0114
92399692|NCT03583099|184690843|SUPERIORITY|||||||1|||||||Fisher Exact|The p-value is calculated from a two-sided Fisher's exact test.||||||1.0
92218000|NCT01536951|184336692|SUPERIORITY_OR_OTHER||LS mean difference|0.468|||||TWO_SIDED|90.0|-1.42|2.35|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 3 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||2.35|-1.42|
92218001|NCT01536951|184336692|SUPERIORITY_OR_OTHER||LS mean difference|0.702|||||TWO_SIDED|90.0|-1.18|2.59|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 4 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||2.59|-1.18|
92275190|NCT00106028|184452436|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28||||0.9646|TWO_SIDED|95.0|-12.196|12.755|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||12.755|-12.196|0.9646
92275191|NCT00106028|184452437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.494||||0.003||95.0|1.912|9.077|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||9.077|1.912|0.0030
92275192|NCT00106028|184452438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.473||||0.6106|TWO_SIDED|95.0|-4.245|7.192|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||7.192|-4.245|0.6106
92275193|NCT00106028|184452439|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.315||||0.9372|TWO_SIDED|95.0|-7.598|8.229|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||8.229|-7.598|0.9372
92275194|NCT00106028|184452440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.675|||<|0.0001||95.0|21.051|42.3|||ANCOVA|LS means and p-value are from ANCOVA model adjusted for baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||42.300|21.051|<0.0001
92275195|NCT00106028|184452441|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.029||||0.0793|TWO_SIDED|95.0|-1.667|29.726|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||29.726|-1.667|0.0793
92275196|NCT00106028|184452442|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.567|||<|0.0001||95.0|5.59|11.545|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||11.545|5.590|<0.0001
92275197|NCT00106028|184452443|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.315||||0.4575|TWO_SIDED|95.0|-10.477|23.107|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||23.107|-10.477|0.4575
92344634|NCT01123655|184592163|EQUIVALENCE|Null hypothesis was that the response rate in the placebo group is not significantly difference from the 50% spontaneous response rate.||||||0.4142|||||||Exact Test|||||||0.4142
92344635|NCT01123655|184592165|EQUIVALENCE|P greater than 0.05 was the criteria for equivalence.|||||>|0.05||||||P value is applicable for baseline and follow-up data.|Mixed Models Analysis|||||||>0.05
92344636|NCT01123655|184592166|EQUIVALENCE|p value greater than 0.05 was the criteria for equivalence.|||||>|0.05||||||P value is applicable to IL-17a, IL-10, IL-1b, IL-9, IL-13, IL-5, IL-21, IL-6, TNFa, TGFb, MIP3a.|t-test, 2 sided|||||||>0.05
92218002|NCT01536951|184336692|SUPERIORITY_OR_OTHER||LS mean difference|-0.788|||||TWO_SIDED|90.0|-2.68|1.1|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 6 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||1.10|-2.68|
92399693|NCT03583099|184690844|SUPERIORITY||Difference in proportion|-18.29||||0.08|TWO_SIDED|95.0|-38.66|2.08|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||2.08|-38.66|0.08
92399694|NCT03583099|184690845|SUPERIORITY|||||||1|||||||Fisher Exact|The p-value is calculated from a two-sided Fisher's exact test.||||||1.0
92399695|NCT03583099|184690846|SUPERIORITY||Difference in proportion|-0.67||||0.92|TWO_SIDED|95.0|-14.06|12.71|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.71|-14.06|0.92
92158298|NCT00410384|184203277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.0167|TWO_SIDED|95.0|1.08|2.19||For the primary analysis of the primary efficacy endpoint, a step-down sequential testing procedure was used to control the type 1 error.|Regression, Logistic|Adjusted for baseline stratification factors (SELENA SLEDAI Score: ≤9 vs ≥10; proteinuria: \<2g vs ≥2g per 24hr; Race: African/indig-American vs Other)||||2.19|1.08|0.0167
92344637|NCT01232283|184592247|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|23.0|||<|0.0001|TWO_SIDED|95.0|16.3|29.6|||Chi-squared|||||29.6|16.3|<0.0001
92344638|NCT01232283|184592248|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.1|||<|0.0001|TWO_SIDED|95.0|10.2|21.9|||Chi-squared|||||21.9|10.2|<0.0001
92344639|NCT01232283|184592249|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-42.15|||<|0.0001|TWO_SIDED|95.0|-51.11|-33.2|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-33.20|-51.11|<0.0001
92344640|NCT01232283|184592250|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-34.8|||<|0.0001|TWO_SIDED|95.0|-42.4|-27.2|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-27.2|-42.4|<0.0001
92344641|NCT01232283|184592251|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|35.8|||<|0.0001|TWO_SIDED|95.0|26.9|44.7|||Chi-squared|||||44.7|26.9|< 0.0001
92344642|NCT01232283|184592252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-21.3|||<|0.0001|TWO_SIDED|95.0|-28.4|-14.2|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-14.2|-28.4|<0.0001
92344643|NCT01232283|184592253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.0|||<|0.0001|TWO_SIDED|95.0|-5.3|-2.8|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-2.8|-5.3|<0.0001
92344644|NCT01232283|184592254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.63||||0.0078|TWO_SIDED|95.0|0.69|4.56|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||4.56|0.69|0.0078
92344645|NCT01232283|184592255|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|14.2|||<|0.0001|TWO_SIDED|95.0|8.5|20.0|||Chi-squared|||||20.0|8.5|<0.0001
92344646|NCT01232283|184592256|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|7.7|||<|0.0001|TWO_SIDED|95.0|3.408|17.399|||Log Rank|||||17.399|3.408|<0.0001
92399696|NCT03583099|184690848|SUPERIORITY||Difference in proportion|-5.47||||0.29|TWO_SIDED|95.0|-15.72|4.77|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||4.77|-15.72|0.29
92218003|NCT01536951|184336692|SUPERIORITY_OR_OTHER||LS mean difference|1.71|||||TWO_SIDED|90.0|-0.182|3.6|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 12 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||3.60|-0.182|
92158299|NCT00410384|184203277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.0889|TWO_SIDED|95.0|0.95|1.94||After superiority of 10 mg/kg vs placebo was established, the 1 mg/kg group was tested vs placebo (2-sided alpha=0.05)|Regression, Logistic|Adjusted for baseline stratification factors.||||1.94|0.95|0.0889
92158300|NCT00410384|184203278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.1323|TWO_SIDED|95.0|0.92|1.87|||Regression, Logistic|Analysis was adjusted for baseline stratification factors.||||1.87|0.92|0.1323
92344647|NCT00855218|184592266|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.797||||0.072||95.0|0.588|1.08||stratified one-sided (alpha=0.15). adjusted for region and Alfa-fetoprotein (AFP) level at baseline.|Log Rank|||||1.080|0.588|0.072
92344648|NCT00855218|184592267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.898||||0.295||95.0|0.606|1.33|||Log Rank|stratified one-sided (alpha=0.15). adjusted for region and AFP level at baseline.||||1.330|0.606|0.295
92344649|NCT00855218|184592268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.586||||0.999||95.0|1.2|2.096|||Log Rank|startified one-sided (alpha=0.15), adjusted for region and AFP level at baseline||||2.096|1.200|0.999
92344650|NCT00855218|184592269|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.621||||0.076||95.0|0.321|1.2|||Log Rank|stratified one sided (alpha=0.15), adjusted on region and AFP level at baseline||||1.200|0.321|0.076
92344651|NCT02941640|184592275|OTHER|Anova|||||<|0.0001||||||Significant when P\<0.05|ANOVA|||||||<0.0001
92344652|NCT02941640|184592275|OTHER|||||||0.001||||||Significant when P\<0.05.|Tukey post hoc test|||Post hoc analysis was done by Tukey test.||||0.001
92344653|NCT02941640|184592275|OTHER|Tukey post hoc test|||||<|0.0001||||||Significant when P\<0.05|Tukey post hoc test|||||||<0.0001
92344654|NCT02941640|184592275|OTHER|||||||0.044||||||Significant when P\<0.05|Tukey post hoc test|||||||0.044
92344655|NCT02941640|184592275|OTHER||||||<|0.272||||||Significant when P\<0.05.|Tukey post hoc test|||||||<0.272
92399697|NCT03583099|184690850|SUPERIORITY||Difference in proportion|-2.87||||0.69|TWO_SIDED|95.0|-17.14|11.39|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.39|-17.14|0.69
92399698|NCT03583099|184690851|SUPERIORITY||Difference in proportion|-13.15||||0.32|TWO_SIDED|95.0|-39.06|12.76|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.76|-39.06|0.32
92399699|NCT03583099|184690852|SUPERIORITY||Difference in proportion|-0.2||||0.98|TWO_SIDED|95.0|-15.5|15.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||15.0|-15.5|0.98
92399700|NCT03583099|184690854|SUPERIORITY||Difference in proportion|3.1||||0.55|TWO_SIDED|95.0|-7.0|13.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.1|-7.0|0.55
92399701|NCT03583099|184690855|SUPERIORITY||Difference in proportion|-8.61||||0.43|TWO_SIDED|95.0|-30.19|12.97|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.97|-30.19|0.43
92399702|NCT03583099|184690856|SUPERIORITY||Difference in proportion|7.6||||0.1|TWO_SIDED|95.0|-1.4|16.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||16.5|-1.4|0.10
92399703|NCT03583099|184690857|SUPERIORITY||Difference in proportion|0.82||||0.94|TWO_SIDED|95.0|-20.92|21.92|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||21.92|-20.92|0.94
92399704|NCT03583099|184690858|SUPERIORITY||Difference in proportion|-3.4||||0.55|TWO_SIDED|95.0|-14.4|7.6|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.6|-14.4|0.55
92399705|NCT03583099|184690860|SUPERIORITY||Difference in proportion|-1.1||||0.8|TWO_SIDED|95.0|-9.3|7.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.1|-9.3|0.80
92399706|NCT03583099|184690862|SUPERIORITY||Difference in proportion|-3.9||||0.18|TWO_SIDED|95.0|-9.7|1.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.8|-9.7|0.18
92399707|NCT03583099|184690863|SUPERIORITY||Difference in proportion|-0.17||||0.99|TWO_SIDED|95.0|-26.06|25.72|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||25.72|-26.06|0.99
92399708|NCT03583099|184690864|SUPERIORITY||Difference in proportion|-2.6||||0.59|TWO_SIDED|95.0|-12.0|6.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.8|-12.0|0.59
92158301|NCT00410384|184203278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.105|TWO_SIDED|95.0|0.94|1.91|||Regression, Logistic||Analysis was adjusted for baseline stratification factors.|||1.91|0.94|0.1050
92399709|NCT03583099|184690866|SUPERIORITY||Difference in proportion|1.9||||0.82|TWO_SIDED|95.0|-14.5|18.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||18.4|-14.5|0.82
92399710|NCT03583099|184690868|SUPERIORITY||Difference in proportion|7.6||||0.2|TWO_SIDED|95.0|-4.1|19.3|||Wilcoxon (Mann-Whitney)||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||19.3|-4.1|0.20
92399711|NCT03583099|184690870|SUPERIORITY||Difference in proportion|4.9||||0.36|TWO_SIDED|95.0|-5.5|15.3|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||15.3|-5.5|0.36
92158302|NCT00410384|184203279|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63||||0.0063|TWO_SIDED|95.0|1.15|2.32|||Regression, Logistic|Adjusted for baseline stratification factors.||||2.32|1.15|0.0063
92399712|NCT03583099|184690872|SUPERIORITY||Difference in proportion|4.6||||0.47|TWO_SIDED|95.0|-7.9|17.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||17.1|-7.9|0.47
92399713|NCT03583099|184690874|SUPERIORITY||Difference in proportion|0.6||||0.88|TWO_SIDED|95.0|-7.8|9.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||9.0|-7.8|0.88
92399714|NCT03583099|184690876|SUPERIORITY||Difference in proportion|-4.3||||0.27|TWO_SIDED|95.0|-12.0|3.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||3.4|-12.0|0.27
92399715|NCT03583099|184690877|SUPERIORITY||Difference in proportion|-4.94||||0.82|TWO_SIDED|95.0|-47.92|38.04|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||38.04|-47.92|0.82
92399716|NCT03583099|184690878|SUPERIORITY||Difference in proportion|-1.1||||0.87|TWO_SIDED|95.0|-14.5|12.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.2|-14.5|0.87
92399717|NCT03583099|184690879|SUPERIORITY||Difference in proportion|-37.6||||0.03|TWO_SIDED|95.0|-71.8|-3.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||-3.5|-71.8|0.03
92399718|NCT03583099|184690880|SUPERIORITY||Difference in proportion|2.3||||0.56|TWO_SIDED|95.0|-5.6|10.3|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||10.3|-5.6|0.56
92344656|NCT02941640|184592275|OTHER|||||||0.835||||||Significant when P\<0.05.|Tukey post hoc test|||||||0.835
92344657|NCT02941640|184592275|OTHER|||||||0.199||||||Significant when P\<0.05.|Tukey post hoc test|||||||0.199
92344658|NCT02941640|184592276|OTHER|Anova|||||<|0.0001||||||Significant when P\<0.05.|ANOVA|||||||<0.0001
92344659|NCT02941640|184592276|OTHER||||||<|0.0001||||||Significant when P\<0.05|Tukey post hoc test|||||||<0.0001
92344660|NCT02941640|184592276|OTHER||||||<|0.0001||||||Significant when P\<0.05|Tukey post hoc test|||||||<0.0001
92344661|NCT02941640|184592276|OTHER||||||<|0.0001||||||Significant when P\<0.05.|Tukey post hoc test|||||||<0.0001
92344662|NCT02941640|184592276|OTHER||||||<|0.0001|||||||Tukey post hoc test|||||||<0.0001
92344663|NCT02941640|184592276|OTHER||||||<|0.0001||||||Significant when P\<0.05.|Tukey post hoc test|||||||<0.0001
92344664|NCT02941640|184592276|OTHER|||||||1||||||Significant when P\<0.05|Tukey post hoc test|||||||1.00
92344665|NCT01773928|184592285|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The probability that the modified process is noninferior to the current one (i.e. lower limit of the 95% CI of the ratio of geometric means \[modified vs. current\] is greater than or equal to 0.67) is above 99% for one strain, and it is around 97% for all three strains (considering the three strains to be independent, 0.99 x 0.99 x 0.99=0.97)|ANCOVA|0.67|||||ONE_SIDED|95.0|0.67||||||||||0.67|
92344666|NCT01773928|184592287|SUPERIORITY_OR_OTHER_LEGACY||ANCOVA|0.67|||||TWO_SIDED|95.0|0.67|1.5||||||"The overall power to prove the similarity between the three lots for all three strains is approximately 99%.~For the two primary co-analyses (Noninferiority and Lot Consistency), the overall power of the immunogenicity analyses is approximately 96% (calculated as 0.97 x 0.99=0.96)."||1.5|0.67|
92344667|NCT01773928|184592288|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"Differences between fever incidences (95% CI) between treatment groups VCIV Modified (Total) and TIV was computed for each age cohort separately. The Confidence Interval estimation method was the method of Miettinen \& Nurminen, as described in the StatXact User Manual (i.e. the score statistics, also called Chan's method, page 283).~Noninferiority will be concluded if the upper limit of the 95% CI (VCIV modified-TIV) is \<5%."|Method of Miettinen & Nurminen|1.8||||||95.0|0.1|3.3||||||||3.3|0.1|
92344668|NCT01149655|184592294|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.461||||0.0161|TWO_SIDED|95.0|0.242|0.879|||Log Rank|The log-rank test was based on time to exacerbation of psychotic symptoms/impending relapse.|Hazard ratios and their 95% confidence intervals were derived from the Cox Proportional Hazard model with treatment as term. Hazard ratio \< 1 is in favor of oral aripiprazole 10-30 mg group for superiority test.|The total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||0.879|0.242|0.0161
92344669|NCT01149655|184592296|SUPERIORITY_OR_OTHER|||||||0.0962|TWO_SIDED||||||Chi-squared|p-value was derived using Chi-square test.||Statistical Analysis for Last Visit. The total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0962
92344670|NCT01149655|184592297|SUPERIORITY_OR_OTHER|||||||0.9025|TWO_SIDED||||||Chi-squared|p-value was derived using Chi-square test.||The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.9025
92344671|NCT01149655|184592298|SUPERIORITY_OR_OTHER|||||||0.0076|TWO_SIDED||||||Log Rank|p-value was derived from the log-rank tests.||The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0076
92344672|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.3862|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis at Baseline. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.3862
92344673|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.8861|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 1. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.8861
92344674|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.8189|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 2. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.8189
92344675|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.3689|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 3. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.3689
92344676|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.9723|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 4. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.9723
92399719|NCT03583099|184690881|SUPERIORITY||Difference in proportion|-23.07||||0.06|TWO_SIDED|95.0|-47.4|1.27|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.27|-47.40|0.06
92399720|NCT03583099|184690882|SUPERIORITY||Difference in proportion|3.2||||0.39|TWO_SIDED|95.0|-4.0|10.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||10.4|-4.0|0.39
92399721|NCT03583099|184690883|SUPERIORITY||Difference in proportion|-1.72||||0.84|TWO_SIDED|95.0|-18.24|14.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||14.80|-18.24|0.84
92158303|NCT00410384|184203279|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.074|TWO_SIDED|95.0|0.97|1.96|||Regression, Logistic|Adjusted for baseline stratification factors.||||1.96|0.97|0.0740
92158304|NCT00410384|184203280|SUPERIORITY_OR_OTHER|||||||0.7962|||||||ANCOVA|Adjusted for baseline PGA and baseline stratification factors.||||||0.7962
92344677|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.2985|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 6. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.2985
92344678|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0883|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 8. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0883
92344679|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0228|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 10. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0228
92344680|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0274|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 12. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0274
92344681|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0135|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 14. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0135
92344682|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0059|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 16. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0059
92344683|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0076|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 18. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0076
92344684|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0065|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 20. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0065
92158305|NCT00410384|184203280|SUPERIORITY_OR_OTHER|||||||0.9703|||||||ANCOVA|Adjusted for baseline PGA and baseline stratification factors.||||||0.9703
92399722|NCT03583099|184690884|SUPERIORITY||Difference in proportion|2.0||||0.42|TWO_SIDED|95.0|-2.9|6.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.9|-2.9|0.42
92158306|NCT00410384|184203281|SUPERIORITY_OR_OTHER|||||||0.6583|||||||ANCOVA|Analysis adjusted for baseline PCS and baseline stratification factors.||||||0.6583
92158307|NCT00410384|184203281|SUPERIORITY_OR_OTHER|||||||0.3762|||||||ANCOVA|Analysis adjusted for baseline PCS and baseline stratification factors.||||||0.3762
92158308|NCT00410384|184203282|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.4253|TWO_SIDED|95.0|0.65|2.74|||Regression, Logistic|Analysis was adjusted for baseline prednisone dose and baseline stratification factors.||||2.74|0.65|0.4253
92158309|NCT00410384|184203282|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.2081|TWO_SIDED|95.0|0.78|3.13|||Regression, Logistic|Analysis was adjusted for baseline prednisone dose and baseline stratification factors.||||3.13|0.78|0.2081
92158310|NCT05489224|184203311|EQUIVALENCE|Predefined margin: -0.6 to 0.5|Treatment difference and 90% CI|-0.1|||||TWO_SIDED|90.0|-0.3|0.1|||ANCOVA|ANCOVA with multiple imputation||||0.10|-0.30|
92158311|NCT04640571|184203334|EQUIVALENCE|Simple one-way t-test to assess if pravastatin AUC value is larger after metformin than after placebo.||||||0.02|||||||t-test, 1 sided|||||||0.02
92158312|NCT04640571|184203335|EQUIVALENCE|Simple one-way t-test to assess if pravastatin Cmax value is larger after metformin than after placebo|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92158313|NCT04640571|184203336|EQUIVALENCE|Simple one-way t-test to assess if CDCA AUC value is reduced after metformin than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92344685|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0175|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 22. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0175
92344686|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0107|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 24. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0107
92344687|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0118|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 26. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0118
92344688|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0232|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 28. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0232
92344689|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0337|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 30. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0337
92344690|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0507|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 32. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0507
92344691|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0791|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 34. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0791
92344692|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0898|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 36. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0898
92344693|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0686|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 38. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0686
92344694|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0833|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 40. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0833
92344695|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0824|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 42. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0824
92344696|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0686|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 44. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0686
92158314|NCT04640571|184203337|EQUIVALENCE|Simple one-way t-test to assess if CDCA Cmax value is reduced after metformin than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92158315|NCT04640571|184203338|EQUIVALENCE|Simple one-way t-test to assess if acyclovir AUC value is reduced after polysorbate 80 than after placebo|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92158316|NCT04640571|184203339|EQUIVALENCE|Simple one-way t-test to assess if acyclovir Cmax value is reduced after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92158317|NCT04640571|184203340|EQUIVALENCE|Simple one-way t-test to assess if CDCA AUC value is reduced after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92158318|NCT04640571|184203341|EQUIVALENCE|Simple one-way t-test to assess if CDCA Cmax value is reduced after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92158319|NCT04640571|184203342|EQUIVALENCE|Simple one-way t-test to assess if enalaprilat AUC value is increased after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92158320|NCT04640571|184203343|EQUIVALENCE|Simple one-way t-test to assess if enalaprilat Cmax value is increased after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92158321|NCT04640571|184203344|EQUIVALENCE|For each of 15 endogenous bile acid, simple one-way t-test to assess if endogenous bile acid AUC value is larger after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92158322|NCT04640571|184203345|EQUIVALENCE|For each of 15 endogenous bile acid, simple one-way t-test to assess if endogenous bile acid Cmax value is reduced after metformin than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92344697|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0737|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 46. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0737
92344698|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0893|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 48. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0893
92344699|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0706|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 50. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0706
92344700|NCT01149655|184592301|SUPERIORITY_OR_OTHER|||||||0.0657|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 52. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0657
92344701|NCT02543840|184592307|SUPERIORITY||Mean Difference (Final Values)|0.2|||<|0.01|TWO_SIDED|95.0|-1.26|1.5||Adjusted for multiple comparisons (Bonferroni four comparisons).|Mixed Models Analysis|||||1.5|-1.26|<0.01
92344702|NCT02543840|184592307|SUPERIORITY||Mean Difference (Final Values)|5.03|||<|0.001|TWO_SIDED|95.0|2.24|7.82||Adjusted for comparisons (Bonferroni for 4 comparisons.)|Regression, Linear|||Among Veteran participants,we used a linear contrast comparing a) those with complex clinical presentations, defined as receiving treatment for three or more mental health diagnoses in the prior year to b) those with two or fewer diagnoses during the facilitation year from T0 to T12..||7.82|2.24|<0.001
92344703|NCT02543840|184592308|SUPERIORITY||Mean Difference (Final Values)|1.2|||<|0.04|TWO_SIDED|95.0|0.04|2.3||Adjusted for comparison (Bonferroni for four comparisons.)|Mixed Models Analysis|||||2.3|0.04|<0.04
92344704|NCT02543840|184592309|SUPERIORITY||Mean Difference (Final Values)|0.6|||>|0.05|TWO_SIDED|95.0|-0.2|0.9|||Mixed Models Analysis|||||0.9|-0.2|>0.05
92344705|NCT02543840|184592310|SUPERIORITY||Mean Difference (Final Values)|0.5|||>|0.05|TWO_SIDED|95.0|-1.3|2.3|||Mixed Models Analysis|||||2.3|-1.3|>0.05
92158323|NCT04640571|184203346|EQUIVALENCE|For each of 15 endogenous bile acid, simple one-way t-test to assess if endogenous bile acid AUC value is reduced after metformin than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92344706|NCT02543840|184592311|SUPERIORITY||Mean Difference (Final Values)|0.0|||>|0.05|TWO_SIDED|95.0|-0.6|0.8|||Mixed Models Analysis|||||0.8|-0.6|>0.05
92344707|NCT02543840|184592312|SUPERIORITY||Mean Difference (Final Values)|0.005|||>|0.05|TWO_SIDED|95.0|-0.074|0.084|||t-test, 2 sided|Paired.||||0.084|-0.074|>0.05
92344708|NCT02543840|184592313|SUPERIORITY||Mean Difference (Final Values)|0.011|STANDARD_DEVIATION|0.206|>|0.05|TWO_SIDED|95.0|-0.056|0.077|||t-test, 2 sided|Paired.||||0.077|-0.056|>0.05
92344709|NCT02543840|184592314|SUPERIORITY||Mean Difference (Final Values)|0.153|||<|0.001|TWO_SIDED|95.0|0.044|0.262|||t-test, 2 sided|Paired||||0.262|0.044|<0.001
92158324|NCT04640571|184203347|EQUIVALENCE|For each of 15 endogenous bile acid, simple one-way t-test to assess if endogenous bile acid Cmax value is larger after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92158325|NCT01670500|184203388|OTHER||Risk Ratio (RR)|0.7|||||TWO_SIDED|90.0|0.39|1.2|||||The risk ratio is comparing cisplatin to doxorubicin-cyclophosphamide (AC)|||1.2|0.39|
92158326|NCT01670500|184203389|OTHER||Risk Ratio (RR)|0.73|||||TWO_SIDED|90.0|0.5|1.1|||||The risk ratio is comparing cisplatin to doxorubicin-cyclophosphamide (AC)|||1.1|.5|
92158327|NCT04955626|184203393|OTHER||Adjusted Surveillance Time|95.3|||||TWO_SIDED|95.0|89.5|98.3||||||2-Sided CI for Relative vaccine efficacy (RVE) is derived based on the Clopper and Pearson method adjusted for surveillance time.||98.3|89.5|
92158328|NCT04955626|184203394|OTHER||Adjusted Surveillance Time|94.6|||||TWO_SIDED|95.0|88.5|97.9||||||2-Sided CI for RVE is derived based on the Clopper and Pearson method adjusted for surveillance time.||97.9|88.5|
92158329|NCT04955626|184203395|OTHER||Adjusted Surveillance Time|63.9|||||TWO_SIDED|95.0|51.1|73.5||||||2-Sided CI for Relative Vaccine Efficacy (RVE) is derived based on the Clopper and Pearson method adjusted for surveillance time.||73.5|51.1|
92158330|NCT04955626|184203396|OTHER||Adjusted Surveillance Time|62.4|||||TWO_SIDED|95.0|49.5|72.2||||||2-Sided CI for RVE is derived based on the Clopper and Pearson method adjusted for surveillance time.||72.2|49.5|
92158331|NCT04955626|184203434|OTHER||Geometric Mean Ration (GMR)|1.75|||||TWO_SIDED|95.0|1.39|2.22||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]) and the corresponding CI (based on the student t distribution).||2.22|1.39|
92344710|NCT02543840|184592315|SUPERIORITY||Mean Difference (Final Values)|0.186|||<|0.01|TWO_SIDED|95.0|0.083|0.289|||t-test, 2 sided|Paired.||||0.289|0.083|<0.01
92344711|NCT02543840|184592316|SUPERIORITY||Mean Difference (Final Values)|-0.12|||<|0.001|TWO_SIDED|95.0|-0.16|-0.07||Repeated patient binary outcome models for hospitalized (0/1) across 8 quarters.|Mixed Models Analysis|Adjusted (Bonferroni four comparisons).||||-0.07|-0.16|<0.001
92344712|NCT02775851|184592317|SUPERIORITY||||||<|0.001|||||||One-sided Exact Binomial|||We assumed a null pCR rate of 5% and powered the study assuming an alternative hypothesis of 25%. This single stage design had an alpha of 3.4% (i.e. probability of declaring the regimen warrants further study when the true CR is 5%) and a power of 90% (probability of declaring the regimen warrants further study when the true pCR is 25%) with 25 eligible participants.||||<0.001
92344713|NCT02775851|184592318|SUPERIORITY||||||<|0.001|||||||One-sided Exact Binomial|||We assumed a null CR rate of 5% and powered the study assuming an alternative hypothesis of 20%. This single stage design had an alpha of 8.5% (i.e. probability of declaring the regimen warrants further study when the true CR is 5%) and a power of 82% (probability of declaring the regimen warrants further study when the true CR is 20%) with 21 eligible participants.||||<0.001
92344714|NCT01373164|184592378|SUPERIORITY|The planned primary analysis for this study utilized a Bayesian exponential-likelihood model, incorporating historical overall survival (OS) data from 2 studies (Oettle et al. 2005; Saif et al. 2009). The primary analysis was performed using strong borrowing from the historical data. The model was estimated to borrow approximately 37 events from the historical studies.|Hazard Ratio (HR)|0.794|||||TWO_SIDED|95.0|0.59|1.085|||Bayesian Analysis|Primary comparison was to be considered successful if there was at least 0.85 posterior probability that the hazard ratio (HR) for OS of LY+Gem is \<1.|This is a Credible Interval estimated from the Bayesian analysis.|||1.085|0.590|
92344715|NCT03979313|184592389|SUPERIORITY||Relative Risk Reduction (RRR)|62.15||||0.0708|TWO_SIDED|95.0|-8.57|86.8|||Poisson Model||RRR of Medi8897 versus placebo; 95% CI and p-value estimated with Poisson regression with robust variance (including stratification factors \[age at randomisation\] as covariate) obtained after multiple imputation|||86.80|-8.57|0.0708
92344716|NCT03979313|184592390|SUPERIORITY||Relative Risk Reduction (RRR)|74.53|||<|0.0001|TWO_SIDED|95.0|49.63|87.12|||Poisson Model||RRR of Medi8897 versus placebo; 95% CI and p-value estimated with Poisson regression with robust variance (including stratification factors \[age at randomisation\] as covariate) obtained after multiple imputation|||87.12|49.63|<0.0001
92344717|NCT03979313|184592391|SUPERIORITY||Relative Risk Reduction (RRR)|76.36|||<|0.0001|TWO_SIDED|95.0|62.27|85.18|||Poisson Model||RRR of Medi8897 versus placebo; 95% CI and p-value estimated with Poisson regression with robust variance (including stratification factors \[age at randomisation\] as covariate) obtained after multiple imputation|||85.18|62.27|<0.0001
92344718|NCT03979313|184592392|SUPERIORITY||Relative Risk Reduction (RRR)|76.84||||0.0002|TWO_SIDED|95.0|49.36|89.41|||Poisson Model||RRR of Medi8897 versus placebo; 95% CI and p-value estimated with Poisson regression with robust variance (including stratification factors \[age at randomisation\] as covariate) obtained after multiple imputation|||89.41|49.36|0.0002
92344719|NCT00089648|184592396|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|23.0||||||95.0|13.2|35.5|||||ORR=proportion of subjects with confirmed CR or PR, relative to total number of subjects who received at least 1 dose of study medication, were refractory to bevacizumab, had a baseline disease assessment and had the correct histological cancer type.|||35.5|13.2|
92344720|NCT03183908|184592416|NON_INFERIORITY|The one-sided non-inferiority test with the alpha level set at 0.025 and non-inferiority margin of 5%, stratified by site.|Difference in proportions|-2.7|||||TWO_SIDED|95.0|-5.8|0.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|The null hypothesis is allV3 is inferior (i.e., allV3 will have higher rates of moderate/severe injection site pain) to IIV3-HD in regards to the proportion of subjects having moderate or severe injection site pain in the first week post vaccination.||0.4|-5.8|
92344721|NCT03183908|184592418|OTHER|The comparison of the number of participants with reported SAEs regardless of relationship to study product were made using 95% confidence intervals. Results were reported using exact binomial confidence intervals.|Comparison of Frequencies|2.38|||||TWO_SIDED|95.0|1.09|4.47||||||||4.47|1.09|
92344722|NCT03183908|184592418|OTHER|The comparison of the number of participants with reported SAEs regardless of relationship to study product were made using 95% confidence intervals. Results were reported using exact binomial confidence intervals.|Comparison of Frequencies|0.79|||||TWO_SIDED|95.0|0.16|2.23||||||||2.23|0.16|
92344723|NCT03183908|184592419|NON_INFERIORITY|This objective will be assessed using a one-sided noninferiority test with the alpha level set at 0.025 and noninferiority margin of 10%. The null hypothesis is the allV3 H3N2 seroconversion rate is inferior to IIV3-HD seroconversion rate.|Difference in Proportions|-0.0579||||0.1245|ONE_SIDED|97.5|-0.1291||||Cochran-Mantel-Haenszel||The directional comparison was the lower bound of the confidence interval using a 10% non-inferiority margin.||||-.1291|0.1245
92344724|NCT03183908|184592420|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-1.9|||||TWO_SIDED|98.0|-5.0|1.0|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Redness||1.0|-5.0|
92344725|NCT03183908|184592420|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|0.5|||||TWO_SIDED|98.0|-3.1|4.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Shoulder Pain||4.3|-3.1|
92344726|NCT03183908|184592420|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-3.7|||||TWO_SIDED|98.0|-7.5|-0.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Swelling||-0.3|-7.5|
92344727|NCT03183908|184592420|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|1.6|||||TWO_SIDED|98.0|-2.7|5.9|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Tenderness||5.9|-2.7|
92344728|NCT03183908|184592421|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-2.4|||||TWO_SIDED|95.0|-5.2|0.2|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Redness||0.2|-5.2|
92344729|NCT03183908|184592421|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|1.3|||||TWO_SIDED|95.0|-2.3|4.9|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Shoulder Pain||4.9|-2.3|
92344730|NCT03183908|184592421|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-4.5|||||TWO_SIDED|95.0|-8.1|-1.1|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Swelling||-1.1|-8.1|
92344731|NCT03183908|184592421|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|1.6|||||TWO_SIDED|95.0|-2.7|5.9|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Tenderness||5.9|-2.7|
92399723|NCT03583099|184690885|SUPERIORITY||Difference in proportion|-42.09||||0.01|TWO_SIDED|95.0|-74.27|-9.92|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||-9.92|-74.27|0.01
92399724|NCT03583099|184690886|SUPERIORITY||Difference in proportion|2.4||||0.47|TWO_SIDED|95.0|-4.2|9.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||9.1|-4.2|0.47
92158332|NCT04955626|184203435|OTHER||Difference in Percentages|23.0|||||TWO_SIDED|95.0|11.1|34.3||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||34.3|11.1|
92158333|NCT04955626|184203436|OTHER||Geometric Mean Ration (GMR)|2.87|||||TWO_SIDED|95.0|2.18|3.78||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]) and the corresponding CI (based on the student t distribution).||3.78|2.18|
92344732|NCT03183908|184592421|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-3.1|||||TWO_SIDED|95.0|-6.9|0.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Injection Site Pain||0.4|-6.9|
92344733|NCT03183908|184592422|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.1|||||TWO_SIDED|95.0|-7.3|7.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Redness||7.3|-7.3|
92344734|NCT03183908|184592422|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-2.3|||||TWO_SIDED|95.0|-9.5|5.7|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Shoulder Pain||5.7|-9.5|
92344735|NCT03183908|184592422|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-1.2|||||TWO_SIDED|95.0|-8.6|6.1|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Swelling||6.1|-8.6|
92344736|NCT03183908|184592422|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|1.4|||||TWO_SIDED|95.0|-5.7|8.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Tenderness||8.3|-5.7|
92344737|NCT03183908|184592422|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-1.2|||||TWO_SIDED|95.0|-7.9|5.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Injection Site Pain||5.4|-7.9|
92344738|NCT03183908|184592423|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|1.8|||||TWO_SIDED|98.0|-1.7|5.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Arthralgia||5.4|-1.7|
92344739|NCT03183908|184592423|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-0.5|||||TWO_SIDED|98.0|-2.8|2.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Chills/Shivering||2.3|-2.8|
92344740|NCT03183908|184592423|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-1.1|||||TWO_SIDED|98.0|-4.0|1.5|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Diarrhea||1.5|-4.0|
92344741|NCT03183908|184592423|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|3.2|||||TWO_SIDED|98.0|-0.8|7.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fatigue||7.3|-0.8|
92344742|NCT03183908|184592423|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|0.5|||||TWO_SIDED|98.0|-2.5|2.0|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fever||2.0|-2.5|
92344743|NCT03183908|184592423|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-0.3|||||TWO_SIDED|98.0|-3.0|2.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Headache||2.4|-3.0|
92158334|NCT04955626|184203437|OTHER||Geometric Mean Ratio (GMR)|2.64|||||TWO_SIDED|95.0|2.06|3.38||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]) and the corresponding CI (based on the student t distribution).||3.38|2.06|
92158335|NCT04955626|184203438|OTHER||Difference in Percentages|29.0|||||TWO_SIDED|95.0|17.2|40.3||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||40.3|17.2|
92158336|NCT04955626|184203439|OTHER||Difference in Percentages|21.0|||||TWO_SIDED|95.0|8.3|33.2||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||33.2|8.3|
92344744|NCT03183908|184592423|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|1.8|||||TWO_SIDED|98.0|-1.7|5.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Malaise||5.4|-1.7|
92399725|NCT03583099|184690887|SUPERIORITY||Difference in proportion|-12.27||||0.34|TWO_SIDED|95.0|-37.72|13.18|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.18|-37.72|0.34
92399726|NCT03583099|184690888|SUPERIORITY||Difference in proportion|2.4||||0.39|TWO_SIDED|95.0|-3.1|7.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.9|-3.1|0.39
92399727|NCT03583099|184690890|SUPERIORITY||Difference in proportion|-1.2||||0.59|TWO_SIDED|95.0|-5.5|3.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||3.1|-5.5|0.59
92399728|NCT03583099|184690892|SUPERIORITY||Difference in proportion|0.3||||0.94|TWO_SIDED|95.0|-8.2|8.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||8.8|-8.2|0.94
92399729|NCT03583099|184690893|SUPERIORITY||Difference in proportion|0.6||||0.93|TWO_SIDED|95.0|-12.2|13.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.4|-12.2|0.93
92399730|NCT03583099|184690894|SUPERIORITY||Difference in proportion|-8.2||||0.25|TWO_SIDED|95.0|-22.0|5.7|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||5.7|-22.0|0.25
92399731|NCT03583099|184690895|SUPERIORITY||Difference in proportion|-3.4||||0.48|TWO_SIDED|95.0|-12.7|6.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.0|-12.7|0.48
92399732|NCT03583099|184690896|SUPERIORITY||Difference in proportion|3.9||||0.45|TWO_SIDED|95.0|-6.3|14.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||14.2|-6.3|0.45
92399733|NCT03583099|184690898|SUPERIORITY||Difference in proportion|-2.2||||0.48|TWO_SIDED|95.0|-8.4|3.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||3.9|-8.4|0.48
92399734|NCT03583099|184690899|SUPERIORITY||Difference in proportion|-0.4||||0.97|TWO_SIDED|95.0|-20.4|19.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||19.5|-20.4|0.97
92218004|NCT01536951|184336692|SUPERIORITY_OR_OTHER||LS mean difference|0.963|||||TWO_SIDED|90.0|-0.921|2.85|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 24 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||2.85|-0.921|
92399735|NCT03583099|184690900|SUPERIORITY||Difference in proportion|-12.1||||0.04|TWO_SIDED|95.0|-23.5|-0.6|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||-0.6|-23.5|0.04
92399736|NCT03583099|184690901|SUPERIORITY||Difference in proportion|-1.8||||0.39|TWO_SIDED|95.0|-5.8|2.3|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||2.3|-5.8|0.39
92218005|NCT01536951|184336692|SUPERIORITY_OR_OTHER||LS mean difference|12.3|||||TWO_SIDED|90.0|10.0|14.5|||||LS mean difference (moxifloxacin minus placebo) of change in QTcP at 1 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||14.5|10.0|
92218006|NCT01536951|184336692|SUPERIORITY_OR_OTHER||LS mean difference|11.0|||||TWO_SIDED|90.0|8.74|13.3|||||LS mean difference (moxifloxacin minus placebo) of change in QTcP at 2 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||13.3|8.74|
92399737|NCT03583099|184690902|SUPERIORITY||Difference in proportion|-7.3||||0.06|TWO_SIDED|95.0|-14.9|0.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||0.4|-14.9|0.06
92399738|NCT03583099|184690903|SUPERIORITY||Difference in proportion|-0.9||||0.82|TWO_SIDED|95.0|-8.8|7.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.0|-8.8|0.82
92399739|NCT03583099|184690904|SUPERIORITY||Difference in proportion|0.6||||0.86|TWO_SIDED|95.0|-6.6|7.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.9|-6.6|0.86
92399740|NCT03583099|184690905|SUPERIORITY||Difference in proportion|-7.4||||0.14|TWO_SIDED|95.0|-17.3|2.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||2.5|-17.3|0.14
92399741|NCT03583099|184690907|SUPERIORITY||Difference in proportion|-14.66||||0.21|TWO_SIDED|95.0|-37.54|8.22|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||8.22|-37.54|0.21
92399742|NCT03583099|184690908|SUPERIORITY||Difference in proportion|0.4||||0.76|TWO_SIDED|95.0|-2.0|2.7|||Generalized estimating equation contrast|||||2.7|-2.0|0.76
92344745|NCT03183908|184592423|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|0.5|||||TWO_SIDED|98.0|-3.3|4.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Myalgia||4.4|-3.3|
92344746|NCT03183908|184592423|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-0.8|||||TWO_SIDED|98.0|-3.1|1.6|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Nausea||1.6|-3.1|
92344747|NCT03183908|184592423|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|0.0|||||TWO_SIDED|98.0|-1.8|1.8|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Vomiting||1.8|-1.8|
92158337|NCT04955626|184203440|OTHER||Geometric Mean Ration (GMR)|9.95|||||TWO_SIDED|95.0|7.9|12.53||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]) and the corresponding CI (based on the student t distribution).||12.53|7.90|
92158338|NCT04955626|184203441|OTHER||Difference in Percentages|5.4|||||TWO_SIDED|95.0|-3.0|13.8||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||13.8|-3.0|
92158339|NCT04955626|184203448|OTHER||Geometric mean ratio (GMR)|2.23|||||TWO_SIDED|95.0|1.65|3.0||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||3.00|1.65|
92158340|NCT04955626|184203448|OTHER||Geometric mean ratio (GMR)|3.15|||||TWO_SIDED|95.0|2.38|4.16||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||4.16|2.38|
92344748|NCT03183908|184592424|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|2.3|||||TWO_SIDED|95.0|-1.1|5.8|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Arthralgia||5.8|-1.1|
92344749|NCT03183908|184592424|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-0.7|||||TWO_SIDED|95.0|-3.0|2.0|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Chills/Shivering||2.0|-3.0|
92344750|NCT03183908|184592424|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-0.7|||||TWO_SIDED|95.0|-3.5|1.8|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Diarrhea||1.8|-3.5|
92344751|NCT03183908|184592424|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|2.9|||||TWO_SIDED|95.0|-1.1|7.0|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fatigue||7.0|-1.1|
92158341|NCT04955626|184203448|OTHER||Geometric mean ratio (GMR)|1.56|||||TWO_SIDED|95.0|1.17|2.08||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||2.08|1.17|
92344752|NCT03183908|184592424|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-1.0|||||TWO_SIDED|95.0|-3.0|-0.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fever||-0.4|-3.0|
92344753|NCT03183908|184592424|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-0.4|||||TWO_SIDED|95.0|-3.2|2.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Headache||2.4|-3.2|
92344754|NCT03183908|184592424|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.5|4.5|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Malaise||4.5|-2.5|
92158342|NCT04955626|184203448|OTHER||Geometric mean ratio (GMR)|1.97|||||TWO_SIDED|95.0|1.45|2.68||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||2.68|1.45|
92158343|NCT04955626|184203449|OTHER||Difference in percentages|19.6|||||TWO_SIDED|95.0|9.3|29.7||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||29.7|9.3|
92158344|NCT04955626|184203449|OTHER||Difference in Percentages|29.1|||||TWO_SIDED|95.0|19.4|38.5||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 μg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||38.5|19.4|
92158345|NCT04955626|184203449|OTHER||Difference in percentages|14.6|||||TWO_SIDED|95.0|4.0|24.9||||||Difference in proportions, expressed as a percentage (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 μg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||24.9|4.0|
92158346|NCT04955626|184203449|OTHER||Difference in Percentages|10.9|||||TWO_SIDED|95.0|0.1|21.4||||||Difference in proportions, expressed as a percentage (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||21.4|0.1|
92344755|NCT03183908|184592424|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.1|4.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Myalgia||4.3|-3.1|
92344756|NCT03183908|184592424|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-1.0|||||TWO_SIDED|95.0|-3.3|1.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Nausea||1.3|-3.3|
92344757|NCT03183908|184592424|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.8|1.8|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Vomiting||1.8|-1.8|
92344758|NCT03183908|184592425|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.05|||||TWO_SIDED|95.0|-7.2|6.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Arthralgia||6.4|-7.2|
92344759|NCT03183908|184592425|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.1|-0.6|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Diarrhea||-0.6|-8.1|
92158347|NCT04955626|184203457|OTHER||Geometric mean ratio (GMR)|0.79|||||TWO_SIDED|95.0|0.4|1.56||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.56|0.40|
92158348|NCT04955626|184203457|OTHER||Geometric mean ratio (GMR)|1.78|||||TWO_SIDED|95.0|0.93|3.43||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.43|0.93|
92344760|NCT03183908|184592425|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|3.7|||||TWO_SIDED|95.0|-3.6|10.9|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fatigue||10.9|-3.6|
92344761|NCT03183908|184592425|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.4|6.6|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fever||6.6|-2.4|
92344762|NCT03183908|184592425|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|5.0|||||TWO_SIDED|95.0|2.0|12.2|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Malaise||12.2|2.0|
92344763|NCT03183908|184592425|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.1|||||TWO_SIDED|95.0|-7.3|7.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Myalgia||7.3|-7.3|
92344764|NCT03183908|184592426|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.5862|||||||Wilcoxon (Mann-Whitney)|||Activity Limitation Changes for Day 1 to Day 3 Group Comparisons||||0.5862
92344765|NCT03183908|184592426|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.5648|||||||Wilcoxon (Mann-Whitney)|||Daily Activities Changes for Day 1 to Day 3 Group Comparisons||||0.5648
92344766|NCT03183908|184592426|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.4196|||||||Wilcoxon (Mann-Whitney)|||Basic Mobility Changes from Day 1 to Day 3 Group Comparisons||||0.4196
92399743|NCT03583099|184690911|SUPERIORITY||Difference in proportion|0.6||||0.66|TWO_SIDED|95.0|-2.1|3.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||3.4|-2.1|0.66
92399744|NCT04890652|184690914|OTHER|single group. The power-related information was estimated by calculating the effect size, specifically partial eta squared.|||||<|0.001|||||||General Linear Model|||||||<0.001
92158349|NCT04955626|184203457|OTHER||Geometric mean ratio (GMR)|2.35|||||TWO_SIDED|95.0|1.22|4.55||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.55|1.22|
92344767|NCT03183908|184592426|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.2418|||||||Wilcoxon (Mann-Whitney)|||Participation Restriction Changes from Day 1 to Day 3 Group Comparisons||||0.2418
92399745|NCT04890652|184690915|OTHER|Single group. The power-related information was estimated by calculating the effect size, specifically partial eta squared.|||||<|0.001|||||||General Linear Model|||||||<0.001
92399746|NCT00807911|184690933|OTHER||Hazard Ratio (HR)|0.657||||0.047|TWO_SIDED|95.0|0.434|0.994|||t-test, 1 sided|||||0.994|0.434|0.047
92399747|NCT00807911|184690934|OTHER||Hazard Ratio (HR)|0.602||||0.04|TWO_SIDED|95.0|0.371|0.977|||t-test, 1 sided|||||0.977|0.371|0.040
92399748|NCT00807911|184690935|OTHER||Hazard Ratio (HR)|0.744||||0.47|TWO_SIDED|95.0|0.334|1.657|||t-test, 1 sided|||||1.657|0.334|0.47
92158350|NCT04955626|184203457|OTHER||Geometric mean ratio (GMR)|1.49|||||TWO_SIDED|95.0|0.76|2.89||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\]- BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.89|0.76|
92344768|NCT03183908|184592426|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.0746|||||||Wilcoxon (Mann-Whitney)|||Social Roles Changes for Day 1 to Day 3 Group Comparisons||||0.0746
92344769|NCT03183908|184592426|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.5497|||||||Wilcoxon (Mann-Whitney)|||Instrumental Roles Changes for Day 1 to Day 3 Group Comparisons||||0.5497
92344770|NCT03183908|184592427|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.6278|||||||Wilcoxon (Mann-Whitney)|||Activity Limitation Changes for Day 1 to Day 3 Group Comparisons||||0.6278
92344771|NCT03183908|184592427|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.5622|||||||Wilcoxon (Mann-Whitney)|||Daily Activities Changes for Day 1 to Day 3 Group Comparisons||||0.5622
92344772|NCT03183908|184592427|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.5538|||||||Wilcoxon (Mann-Whitney)|||Basic Mobility Changes for Day 1 to Day 3 Group Comparisons||||0.5538
92344773|NCT03183908|184592427|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.231|||||||Wilcoxon (Mann-Whitney)|||Participation Restriction Changes from Day 1 to Day 3 Group Comparisons||||0.2310
92344774|NCT03183908|184592427|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.0435|||||||Wilcoxon (Mann-Whitney)|||Social Roles Changes from Day 1 to Day 3 Group Comparisons||||0.0435
92399749|NCT00807911|184690936|OTHER||Hazard Ratio (HR)|0.456||||0.036|TWO_SIDED|95.0|0.215|0.97|||t-test, 1 sided|||||0.970|0.215|0.036
92399750|NCT04386291|184690951|SUPERIORITY||Mean Difference (Final Values)|-1.54||||0.071|TWO_SIDED||||||t-test, 1 sided|||||||0.071
92399751|NCT04386291|184690951|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.46|TWO_SIDED||||||t-test, 1 sided|||||||0.46
92158351|NCT04955626|184203457|OTHER||Geometric mean ratio (GMR)|2.33|||||TWO_SIDED|95.0|1.2|4.53||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.53|1.20|
92344775|NCT03183908|184592427|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.6519|||||||Wilcoxon (Mann-Whitney)|||Instrumental Roles Changes from Day 1 to Day 3 Group Comparisons||||0.6519
92344776|NCT03183908|184592428|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.7483|||||||Wilcoxon (Mann-Whitney)|||Activity Limitation Changes from Day 1 to Day 3 Group Comparisons||||0.7483
92344777|NCT03183908|184592428|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.7483|||||||Wilcoxon (Mann-Whitney)|||Daily Activities Changes for Day 1 to Day 3 Group Comparisons||||0.7483
92344778|NCT03183908|184592428|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.4953|||||||Wilcoxon (Mann-Whitney)|||Basic Mobility Changes for Day 1 to Day 3 Group Comparisons||||0.4953
92344779|NCT03183908|184592428|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.8669|||||||Wilcoxon (Mann-Whitney)|||Participation Restriction Changes for Day 1 to Day 3 Group Comparisons||||0.8669
92344780|NCT03183908|184592428|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.8451|||||||Wilcoxon (Mann-Whitney)|||Social Roles Changes for Day 1 to Day 3 Group Comparisons||||0.8451
92344781|NCT03183908|184592428|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.7376|||||||Wilcoxon (Mann-Whitney)|||Instrumental Roles Changes for Day 1 to Day 3 Group Comparisons||||0.7376
92399752|NCT04386291|184690952|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.01|TWO_SIDED||||||t-test, 1 sided|||||||0.01
92399753|NCT04386291|184690952|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.04|TWO_SIDED||||||t-test, 1 sided|||||||0.04
92399754|NCT04386291|184690953|SUPERIORITY||Mean Difference (Final Values)|-1.47||||0.08|TWO_SIDED||||||t-test, 1 sided|||||||0.08
92399755|NCT04386291|184690953|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.5|TWO_SIDED||||||t-test, 1 sided|||||||0.5
92399756|NCT04386291|184690954|SUPERIORITY||Mean Difference (Final Values)|-0.68||||0.25|TWO_SIDED||||||t-test, 1 sided|||||||0.25
92399757|NCT04386291|184690954|SUPERIORITY||Mean Difference (Final Values)|-1.54||||0.065|TWO_SIDED||||||t-test, 1 sided|||||||0.065
92399758|NCT04386291|184690955|SUPERIORITY||Mean Difference (Final Values)|1.24||||0.88|TWO_SIDED||||||t-test, 1 sided|||||||0.88
92399759|NCT04386291|184690955|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.7|TWO_SIDED||||||t-test, 1 sided|||||||0.7
92399760|NCT04386291|184690956|SUPERIORITY||Mean Difference (Final Values)|-1.84||||0.038|TWO_SIDED||||||t-test, 1 sided|||||||0.038
92399761|NCT04386291|184690956|SUPERIORITY||Mean Difference (Final Values)|-1.59||||0.059|TWO_SIDED||||||t-test, 1 sided|||||||0.059
92399762|NCT04386291|184690957|SUPERIORITY||Median Difference (Final Values)|1.58||||0.9|TWO_SIDED||||||t-test, 1 sided|||Reappraisal subscale analysis||||0.9
92399763|NCT04386291|184690957|SUPERIORITY||Mean Difference (Net)|-0.73||||0.23|TWO_SIDED||||||t-test, 1 sided|||Subpression subscale analysis||||0.23
92158352|NCT04955626|184203458|OTHER||Geometric mean ratio (GMR)|0.76|||||TWO_SIDED|95.0|0.4|1.42||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.42|0.40|
92344782|NCT03183908|184592429|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.7407|||||||Wilcoxon (Mann-Whitney)|||US Index Score Changes for Day 1 to Day 3 Group Comparisons||||0.7407
92344783|NCT03183908|184592430|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.4032|||||||Wilcoxon (Mann-Whitney)|||US Index Score Changes for Day 1 to Day 3 Group Comparisons||||0.4032
92344784|NCT03183908|184592431|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.4079|||||||Wilcoxon (Mann-Whitney)|||US Index Score Changes from Day 1 to Day 3 Group Comparisons||||0.4079
92344785|NCT03183908|184592432|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.7948|||||||Wilcoxon (Mann-Whitney)|||EQ VAS Changes for Day 1 to Day 3 Group Comparisons||||0.7948
92344786|NCT03183908|184592433|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. Alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.7953|||||||Wilcoxon (Mann-Whitney)|||EQ VAS Changes from Day 1 to Day 3 Group Comparisons||||0.7953
92344787|NCT03183908|184592434|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.9329|||||||Wilcoxon (Mann-Whitney)|||EQ VAS Changes from Day 1 to Day 3 Group Comparisons||||0.9329
92344788|NCT02058095|184592449|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92344789|NCT02058095|184592451|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92344790|NCT00148798|184592458|SUPERIORITY_OR_OTHER|||||||0.0441|TWO_SIDED|95.0|||||Stratified Log Rank|||Primary efficacy analysis: To test equality of OS time between treatment groups, applying the two-sided stratified log-rank test (Stage IIIb vs IV, ECOG 0/1 vs 2) (α=5%).||||0.0441
92344791|NCT00148798|184592459|SUPERIORITY_OR_OTHER|||||||0.3869|TWO_SIDED|95.0|||||Stratified Log Rank|||To test equality of progression free survival time between treatment groups, applying the two-sided stratified log-rank test (α=5%).||||0.3869
92344792|NCT00148798|184592460|SUPERIORITY_OR_OTHER|||||||0.0101|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||The best overall response rate was compared in the Cochran-Mantel-Haenszel test (two-sided with α=5%).||||0.0101
92158353|NCT04955626|184203458|OTHER||Geometric mean ratio (GMR)|0.86|||||TWO_SIDED|95.0|0.47|1.58||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.58|0.47|
92344793|NCT00148798|184592461|SUPERIORITY_OR_OTHER|||||||0.6801|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||The disease control rate was compared in the Cochran-Mantel-Haenszel test (two-sided with α=5%).||||0.6801
92344794|NCT01588509|184592475|SUPERIORITY||Percent Change from Baseline|2.13||||0.002|TWO_SIDED|90.0|1.05|3.2|||ANOVA|||||3.20|1.05|0.002
92344795|NCT01588509|184592475|SUPERIORITY||Percent Change from Baseline|2.08||||0.002|TWO_SIDED|90.0|1.02|3.14|||ANOVA|||||3.14|1.02|0.002
92344796|NCT01588509|184592476|SUPERIORITY||Percent Change from Baseline|2.06|||<|0.001|TWO_SIDED|90.0|1.07|3.05|||ANOVA|||||3.05|1.07|<0.001
92344797|NCT01588509|184592476|SUPERIORITY||Percent Change from Baseline|1.92||||0.002|TWO_SIDED|90.0|0.95|2.89|||ANOVA|||||2.89|0.95|0.002
92344798|NCT01588509|184592477|SUPERIORITY||Percent Change from Baseline|1.38|||<|0.001|TWO_SIDED|90.0|0.81|1.95|||ANOVA|||||1.95|0.81|<0.001
92344799|NCT01588509|184592477|SUPERIORITY||Percent Change from Baseline|1.4|||<|0.001|TWO_SIDED|90.0|0.84|1.96|||ANOVA|||||1.96|0.84|<0.001
92344800|NCT00393367|184592512|SUPERIORITY_OR_OTHER|||||||0.44||95.0||||The difference in median improvement between treatment groups was expected to be greater than 2.|Wilcoxon (Mann-Whitney)|||||||0.44
92344801|NCT00393367|184592513|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||0.97|TWO_SIDED|95.0|-0.14|0.14|||Chi-squared|||||0.14|-0.14|0.97
92344802|NCT00393367|184592514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-7.0|6.0|||t-test, 2 sided|||||6|-7|
92344803|NCT00393367|184592515|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.6|||TWO_SIDED|95.0|-3.0|3.0|||t-test, 2 sided|||||3|-3|
92344804|NCT00393367|184592516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-1.0|1.0|||t-test, 2 sided|||||1|-1|
92399764|NCT04386291|184690957|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.7|TWO_SIDED||||||t-test, 1 sided|||Reappraisal subscale analysis||||0.7
92399765|NCT04386291|184690957|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.5|TWO_SIDED||||||t-test, 1 sided|||Suppression subscale analysis||||0.5
92399766|NCT04386291|184690958|SUPERIORITY||Mean Difference (Final Values)|0.67||||0.5|TWO_SIDED||||||ANOVA|||||||0.5
92399767|NCT04386291|184690959|SUPERIORITY||mean rank difference|79.0||||0.076|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Mann-Witney was used because assumption of normality of variance was violated||||||0.076
92399768|NCT04386291|184690959|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.8|TWO_SIDED||||||t-test, 1 sided|||||||0.8
92344805|NCT00393367|184592517|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.03||||0.69||95.0|-0.2|0.14|||Chi-squared|||||0.14|-0.20|0.69
92344806|NCT00393367|184592518|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.22||||0.08|TWO_SIDED|95.0|-0.02|0.47|||Chi-squared|||||0.47|-0.02|0.08
92344807|NCT00393367|184592519|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.14||||0.22|TWO_SIDED|95.0|-0.37|0.08|||Chi-squared|||||0.08|-0.37|0.22
92344808|NCT00393367|184592521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.36||0.78|TWO_SIDED|95.0|-0.6|0.8|||t-test, 2 sided|||||0.8|-0.6|0.78
92344809|NCT03720119|184592526|OTHER|Analysis of Variance for repeated measurements.|day effect F|27.83||||0.0001|TWO_SIDED|||||The calculated P-Value represents the repeated measurement/Day (all times versus Day 1)|Dunnett's post-hoc test|||||||0.0001
92344810|NCT01944423|184592528|SUPERIORITY||Logit difference (final values)|0.64|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-2.25|0.97||p=ns 2-sided|two-phase growth curve model|||||0.97|-2.25|
92344811|NCT01944423|184592529|SUPERIORITY||Mean Difference (Final Values)|2.43|STANDARD_ERROR_OF_MEAN|1.87||0.038|TWO_SIDED|95.0|0.25|7.94||2-sided|two-phase growth curve model|||At end-of-treatment||7.94|0.25|.038
92344812|NCT01944423|184592530|SUPERIORITY||Mean Difference (Final Values)|3.21|STANDARD_ERROR_OF_MEAN|1.0||0.003|TWO_SIDED|95.0|1.15|5.26||2-sided|two-phase growth curve model|||At 6 month follow-up||5.26|1.15|.003
92344813|NCT02897349|184592531|SUPERIORITY||Adjusted Mean Difference (%)|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0016|TWO_SIDED|95.0|-0.65|-0.16|||Mixed model repeated measures|||Based on Mixed-effect Model Repeated Measures (MMRM) including fixed effects treatment, week, type of insulin, and treatment by week interaction, linear covariates baseline HbA1c, baseline HbA1c by week interaction and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix. Adjusted mean is based on all patients in the model (not only patients with a baseline and week 24 measurement).||-0.16|-0.65|0.0016
92344814|NCT02897349|184592532|SUPERIORITY||Adjusted Mean Difference (mg/dL)|-6.2|STANDARD_ERROR_OF_MEAN|5.1||0.2241|TWO_SIDED|95.0|-16.2|3.8|||Mixed model repeated measures|||Based on MMRM including fixed effects treatment, week, type of insulin, and treatment by week interaction, linear covariates baseline HbA1c, baseline FPG baseline FPG by week interaction and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix. Adjusted mean is based on all patients in the model (not only patients with a baseline and week 24 measurement).||3.8|-16.2|0.2241
92344815|NCT02897349|184592533|SUPERIORITY||Adjusted Mean Difference (mg/dL)|-31.95|STANDARD_ERROR_OF_MEAN|8.2||0.0001|TWO_SIDED|95.0|-48.15|-15.75|||ANCOVA|||Based on analysis of covariance (ANCOVA) model including fixed effect treatment and type of insulin, and linear covariates baseline HbA1c and baseline 2-h PPG.||-15.75|-48.15|0.0001
92344816|NCT02897349|184592534|SUPERIORITY||Odds Ratio (OR)|1.793||||0.2431|TWO_SIDED|95.0|0.673|4.78|||Regression, Logistic|||Logistic regression model with terms for treatment and type of insulin as fixed effect and continuous linear covariates baseline HbA1c||4.780|0.673|0.2431
92344817|NCT02897349|184592535|SUPERIORITY||Odds Ratio (OR)|1.481||||0.6235|TWO_SIDED|95.0|0.309|7.105|||Regression, Logistic|||Logistic regression model with terms for treatment and type of insulin as fixed effect and continuous linear covariates baseline HbA1c||7.105|0.309|0.6235
92344818|NCT02897349|184592536|SUPERIORITY||Odds Ratio (OR)|2.293||||0.0049|TWO_SIDED|95.0|1.286|4.091|||Regression, Logistic|||Logistic regression model with terms for treatment and type of insulin as fixed effect and continuous linear covariates baseline HbA1c||4.091|1.286|0.0049
92344819|NCT02765035|184592556|SUPERIORITY|||||||0.01|||||||t-test, 1 sided|||C-Leg 3 vs. NMPK (Baseline)||||0.01
92344820|NCT02765035|184592556|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|||C-Leg 4 vs. NMPK (Baseline)||||0.04
92344821|NCT01142336|184592585|SUPERIORITY|||||||0.53||||||Threshold for significance: 0.05, adjust for 3 primary outcomes using Holm Correction|ANCOVA|Response variable was Aβ42 in CSF at 1 year, and predictor variables were Aβ42 in CSF at baseline, treatment group, age, sex, and APOE e4 allele.||||||0.53
92344822|NCT01142336|184592586|SUPERIORITY|||||||0.36||||||Threshold for significance: 0.05, adjusted for 3 primary outcomes using Holm correction|ANCOVA|Response variable was total tau in CSF at 1 year, and predictor were total tau in at baseline, treatment group, age, sex, and APOE e4 allele status||||||0.36
92344823|NCT01142336|184592587|SUPERIORITY|||||||0.25||||||Threshold for significance: 0.05, adjusted for 3 primary outcomes using Holm correction.|ANCOVA|Response variable was p-tau181 in CSF at 1 year, and predictor were p-tau181 in at baseline, treatment group, age, sex, and APOE e4 allele status||||||0.25
92344824|NCT01225055|184592591|SUPERIORITY|||||||0.84||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.84
92344825|NCT01225055|184592591|SUPERIORITY|||||||0.64||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.64
92344826|NCT01225055|184592591|SUPERIORITY|||||||0.26||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.26
92344827|NCT01225055|184592592|SUPERIORITY|||||||0.64||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.64
92344828|NCT01225055|184592592|SUPERIORITY|||||||0||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.00
92344829|NCT01225055|184592592|SUPERIORITY|||||||0.09||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.09
92344830|NCT01225055|184592593|SUPERIORITY|||||||0.72||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.72
92344831|NCT01225055|184592593|SUPERIORITY|||||||0.58||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.58
92344832|NCT01225055|184592593|SUPERIORITY|||||||0.44||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.44
92344833|NCT01225055|184592594|SUPERIORITY|||||||0.02||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.02
92344834|NCT01225055|184592594|SUPERIORITY|||||||0.1||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.10
92344835|NCT01225055|184592594|SUPERIORITY|||||||0.04||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.04
92344836|NCT01225055|184592595|SUPERIORITY|||||||0.01||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.01
92344837|NCT01225055|184592595|SUPERIORITY|||||||0.34||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.34
92344838|NCT01225055|184592595|SUPERIORITY|||||||0.2||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.20
92344839|NCT01225055|184592596|SUPERIORITY|||||||0||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.00
92344840|NCT01225055|184592596|SUPERIORITY|||||||0.01||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.01
92344841|NCT01225055|184592596|SUPERIORITY|||||||0.04||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.04
92399769|NCT00772538|184690988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.034||0.011||95.0|0.02|0.152||Step-wise testing for co-primary endpoints, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.152|0.020|0.0110
92158354|NCT04955626|184203458|OTHER||Geometric mean ratio (GMR)|1.06|||||TWO_SIDED|95.0|0.57|1.95||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.95|0.57|
92344842|NCT05469438|184592616|OTHER|We assessed prediction accuracy of our system using the R\^2 from leave-one-out cross-validation of predicted Fugl-Meyer scores, which were obtained from models predicting recovery based on baseline data.|||||||||||||||||We assessed prediction accuracy of our system using the R\^2 from leave-one-out cross-validation of predicted Fugl-Meyer scores, which were obtained from models predicting recovery based on baseline data.|||
92344843|NCT02368132|184592617|SUPERIORITY||Least squares mean difference|-8.73|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED||||||Mixed Models Analysis||Estimated difference in least square means between Usual Care (reference) and Group Delivered TEP arm at 3 months.|||||<0.001
92344844|NCT02368132|184592617|SUPERIORITY||Least squares mean difference|-5.15|STANDARD_ERROR_OF_MEAN|2.42||0.04|TWO_SIDED||||||Mixed Models Analysis||Estimated difference in least square means between Usual Care (reference) and Individual Delivered TEP arm at 3 months.|||||0.04
92344845|NCT02475369|184592620|SUPERIORITY|||||||0.271|||||||Wilcoxon (Mann-Whitney)|||||||0.271
92344846|NCT02475369|184592621|OTHER|In order to calculate a correlation between baseline fecal elastase-1 and total CeD-GSRS score on PES treatment vs. placebo treatment, we calculated a Spearman's rank correlation coefficient between the two independent variables.||||||0.995|||||||Spearman rank coefficient|||||||0.995
92344847|NCT02475369|184592622|OTHER|In order to evaluate the estimated difference of the effect of Pancreatic Enzyme Supplement versus Placebo for the Celiac Symptom Index (CSI) scores, we used a linear mixed effects model with the nlme package.||||||0.08|||||||Linear Mixed Effects model|||||||0.08
92344848|NCT00471497|184592623|OTHER||Difference in response rate|22.1|||<|0.0001|TWO_SIDED|95.0|14.5|29.6|||Cochran-Mantel-Haenszel|||||29.6|14.5|<0.0001
92344849|NCT00471497|184592623|OTHER||Difference in response rate|20.4|||<|0.0001|TWO_SIDED|95.0|12.9|28.0|||Cochran-Mantel-Haenszel|||||28.0|12.9|<0.0001
92344850|NCT00471497|184592624|OTHER||Difference in response rate|14.8|||||TWO_SIDED|95.0|2.1|27.5||||||(Low)||27.5|2.1|
92344851|NCT00471497|184592624|OTHER||Difference in response rate|27.4|||||TWO_SIDED|95.0|14.6|40.2||||||(Low)||40.2|14.6|
92344852|NCT00471497|184592624|OTHER||Difference in response rate|27.7|||||TWO_SIDED|95.0|15.0|40.4||||||(Intermediate)||40.4|15.0|
92344853|NCT00471497|184592624|OTHER||Difference in response rate|17.2|||||TWO_SIDED|95.0|4.6|29.8||||||(Intermediate)||29.8|4.6|
92344854|NCT00471497|184592624|OTHER||Difference in response rate|24.4|||||TWO_SIDED|95.0|10.7|38.1||||||(High)||38.1|10.7|
92344855|NCT00471497|184592624|OTHER||Difference in response rate|15.4|||||TWO_SIDED|95.0|2.1|28.6||||||(High)||28.6|2.1|
92344856|NCT00471497|184592625|OTHER||Difference in response rate|21.3|||||TWO_SIDED|95.0|13.9|28.8||||||||28.8|13.9|
92344857|NCT00471497|184592625|OTHER||Difference in response rate|18.7|||||TWO_SIDED|95.0|11.3|26.0||||||||26.0|11.3|
92344858|NCT00471497|184592627|OTHER||Absolute difference|-1.6||||0.6987|TWO_SIDED|95.0|-9.8|6.6|||Cochran-Mantel-Haenszel|||||6.6|-9.8|0.6987
92344859|NCT01991795|184592655|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.0378|TWO_SIDED|95.0|0.81|0.99||The hypothesis will be tested at the 4.96% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||0.99|0.81|0.0378
92344860|NCT01991795|184592656|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.7883|TWO_SIDED|95.0|0.88|1.18||The hypothesis will be tested at the 4.96% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.18|0.88|0.7883
92344861|NCT01991795|184592657|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0294|TWO_SIDED|95.0|0.71|0.98||The hypothesis will be tested at the 4.96% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||0.98|0.71|0.0294
92344862|NCT01991795|184592658|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0375|TWO_SIDED|95.0|0.64|0.99||The hypothesis will be tested at the 4.96% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||0.99|0.64|0.0375
92344863|NCT01991795|184592659|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.6846|TWO_SIDED|95.0|0.87|1.1|||Regression, Cox|||||1.10|0.87|0.6846
92344864|NCT01991795|184592660|SUPERIORITY||Hazard Ratio (HR)|2.32|||<|0.0001|TWO_SIDED|95.0|1.82|2.94|||Regression, Cox|||||2.94|1.82|<0.0001
92344865|NCT01991795|184592661|SUPERIORITY||Hazard Ratio (HR)|2.49|||<|0.0001|TWO_SIDED|95.0|2.02|3.07|||Regression, Cox|||||3.07|2.02|<0.0001
92344866|NCT01991795|184592662|SUPERIORITY||Hazard Ratio (HR)|2.41|||<|0.0001|TWO_SIDED|95.0|1.98|2.93|||Regression, Cox|||||2.93|1.98|<0.0001
92344867|NCT01991795|184592663|SUPERIORITY||Hazard Ratio (HR)|4.04|||<|0.0001|TWO_SIDED|95.0|3.32|4.92|||Regression, Cox|||||4.92|3.32|<0.0001
92344868|NCT01141608|184592666|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Linear mixed effects model|||||||<0.05
92344869|NCT00506675|184592693|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|95.0|||||ANCOVA|||||||0.30
92344870|NCT00506675|184592694|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||ANCOVA|||||||0.30
92399770|NCT00772538|184690989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.031||0.005||95.0|0.027|0.149||Step-wise testing for co-primary endpoints, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.149|0.027|0.0050
92158355|NCT04955626|184203458|OTHER||Geometric mean ratio (GMR)|1.13|||||TWO_SIDED|95.0|0.61|2.09||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.09|0.61|
92344871|NCT00506675|184592695|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|95.0|||||ANCOVA|||||||0.30
92344872|NCT00921024|184592729|SUPERIORITY_OR_OTHER||Risk Difference (RD)|6.8|||||TWO_SIDED|||||||||||||
92344873|NCT00921024|184592730|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-7.1|||||TWO_SIDED|||||||||||||
92344874|NCT04030598|184592740|SUPERIORITY||Percentage Difference|-90.0||||0.001|TWO_SIDED|95.0|-96.0|-76.0|||Wald Chi-Square||The percentage difference in mean investigator-confirmed HAE attack rate between donidalorsen 80 mg and placebo was calculated as 100 percentage (%) × (mean rate ratio -1).|||-76.00|-96.00|0.001
92344875|NCT04030598|184592741|SUPERIORITY||Percentage Difference|-89.0||||0.003|TWO_SIDED|95.0|-95.0|-77.0|||Wald Chi-Square||The percentage difference in mean investigator-confirmed HAE attack rate between donidalorsen 80 mg and placebo was calculated as 100% × (mean rate ratio -1).|||-77.00|-95.00|0.003
92344876|NCT04030598|184592742|SUPERIORITY||Percentage Difference|-96.0||||0.004|TWO_SIDED|95.0|-100.0|-65.0|||Wald Chi-Square||The percentage difference in mean investigator-confirmed HAE attack rate between donidalorsen 80 mg and placebo was calculated as 100% × (mean rate ratio -1).|||-65.00|-100.00|0.004
92344877|NCT04030598|184592743|SUPERIORITY||Risk Difference (RD)|66.7||||0.004|TWO_SIDED|95.0|17.5|95.7|||Fisher Exact|||For ≥ 50% reduction from Baseline in the HAE attack rate.||95.7|17.5|0.004
92344878|NCT04030598|184592743|SUPERIORITY||Risk Difference (RD)|75.6||||0.003|TWO_SIDED|95.0|26.8|96.5|||Fisher Exact|||For ≥ 70% reduction from Baseline in the HAE attack rate.||96.5|26.8|0.003
92344879|NCT04030598|184592743|SUPERIORITY||Risk Difference (RD)|92.3|||<|0.001|TWO_SIDED|95.0|48.0|99.8|||Fisher Exact|||For ≥ 90% reduction from Baseline in the HAE attack rate.||99.8|48.0|<0.001
92344880|NCT04030598|184592744|SUPERIORITY||Percentage Difference|-95.0||||0.009|TWO_SIDED|95.0|-99.0|-52.0|||Wald Chi-Square|||||-52.00|-99.00|0.009
92344881|NCT04030598|184592747|SUPERIORITY||Risk Difference (RD)|-14.3||||1|TWO_SIDED|95.0|-59.1|33.9|||Fisher Exact|||Week 9||33.9|-59.1|1.000
92344882|NCT04030598|184592747|SUPERIORITY||Risk Difference (RD)|-21.4||||0.521|TWO_SIDED|95.0|-64.9|27.1|||Fisher Exact|||Week 17||27.1|-64.9|0.521
92344883|NCT04030598|184592748|SUPERIORITY||Treatment Difference|-25.92|||||TWO_SIDED|95.0|-37.1|-14.74||||||Week 9||-14.74|-37.10|
92344884|NCT04030598|184592748|SUPERIORITY||Treatment Difference|-20.69|||||TWO_SIDED|95.0|-32.7|-8.68||||||Week 17||-8.68|-32.70|
92344885|NCT03658980|184592749|SUPERIORITY||Odds Ratio (OR)|0.233|||<|0.001|TWO_SIDED|95.0|0.131|0.415|||Regression, Logistic|||||0.415|0.131|<0.001
92344886|NCT03141359|184592753|SUPERIORITY||Rate|0.627||||0.388|TWO_SIDED|95.0|0.492|0.75|||Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|We used a single-stage design to test null hypothesis (H0) that 1-yr PFS is \<= 0.60. Assuming one-sided α= 0.10, 60 patients provided 98% power to reject H0, assuming the true 1-yr PFS is 0.80. Since not all enrolled subjects received durva, study power was affected. For patients who did not receive durva, H0 was assumed to be 0.40 versus an alternative of 0.60. Including these subjects reduced power from 98%. The conditional power given that 13 evaluable subjects didn't receive durva was 88%.||0.750|0.492|.388
92344887|NCT03141359|184592756|OTHER|Estimation only|Rate|0.571|||||TWO_SIDED|95.0|0.422|0.712|||||Confidence interval estimated using the Clopper Pearson method.|||0.712|0.422|
92344888|NCT03141359|184592757|OTHER|Estimation only|Rate|0.75|||||TWO_SIDED|95.0|0.621|0.853|||||Confidence interval estimated using the Clopper Pearson method.|||0.853|0.621|
92344889|NCT03141359|184592765|OTHER|Estimation only|Rate|0.164|||||TWO_SIDED|95.0|0.082|0.281|||||Confidence interval estimated using the Clopper Pearson method.|||0.281|0.082|
92344890|NCT03141359|184592766|OTHER|Estimation only|Rate|0.246|||||TWO_SIDED|95.0|0.145|0.373|||||Confidence interval estimated using the Clopper Pearson method.|||0.373|0.145|
92344891|NCT01419535|184592778|SUPERIORITY|||||||0.6|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||0.60
92344892|NCT01419535|184592779|SUPERIORITY||||||<|0.001|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||<0.001
92344893|NCT01419535|184592780|SUPERIORITY||||||<|0.001|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||<0.001
92218007|NCT01536951|184336692|SUPERIORITY_OR_OTHER||LS mean difference|11.1|||||TWO_SIDED|90.0|8.87|13.4|||||LS mean difference (moxifloxacin minus placebo) of change in QTcP at 4 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||13.4|8.87|
92399771|NCT00772538|184690990|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0343||||||Confirmatory only if previous hypotheses for each of the 2 twin studies had been successful, significance level of alpha=0.05 (2-sided). A pre-specified interim analysis was performed. Cui et al (Biometrics,1999) was used to calculate the p-value.|Regression, Cox|Parameter estimates of Cox proportional hazard model regression regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|||||0.0343
92218008|NCT01843972|184336697|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|97.88|STANDARD_DEVIATION|24.8|||TWO_SIDED|90.0|79.963|119.809|||ANOVA||The geometric mean ratio is calculated as the geometric mean of 'BI 691751 tablet extensive metabolizers (part II)' divided by the geometric mean of 'BI 691751 solution (part II)'.|Only extensive CYP2D6 metabolisers were selected: 12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)' and 7 (all investigated) subjects of group 'BI 691751 solution (part II) '.||119.809|79.963|
92344894|NCT01419535|184592781|SUPERIORITY||||||<|0.001|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||<0.001
92344895|NCT01419535|184592782|SUPERIORITY|||||||0.004|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||0.004
92344896|NCT01419535|184592783|SUPERIORITY|||||||0.002|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||0.002
92344897|NCT03114150|184592784|SUPERIORITY||Slope|-0.02|||<|0.05|TWO_SIDED|95.0|-0.04|0.01|||Mixed Models Analysis|Kenward-Roger adjustments for degrees of freedom|Parameter is the interaction term for the interaction of group, learning rate, and session.|We tested the prediction that learning rate would increase more so for the moderate-to-vigorous training group compared to the light intensity training group. This prediction was tested with a linear mixed model, according to our statistical analysis plan.||.01|-.04|<.05
92344898|NCT03114150|184592785|SUPERIORITY||Mean Difference (Final Values)|0.01|||<|0.05|TWO_SIDED|95.0|-0.01|0.02|||Mixed Models Analysis|Kenward-Roger adjustments for degrees of freedom|Parameter is the interaction term for the interaction of exercise condition (intensity) and session.|We tested the prediction that hippocampal-cortical functional connectivity would change more for the moderate-to-vigorous acute condition compared to the light intensity condition. This prediction was tested with a linear mixed model, according to our statistical analysis plan.||.02|-.01|<.05
92344899|NCT03114150|184592786|SUPERIORITY||Mean Difference (Net)|0.0|||<|0.05|TWO_SIDED|95.0|-0.03|0.02|||Mixed Models Analysis|Kenward-Roger adjustments for degrees of freedom||We tested the prediction that functional connectivity strength would increase more so for the moderate-to-vigorous training group compared to the light intensity training group. This prediction was tested with a linear mixed model, according to our statistical analysis plan.|Parameter is the interaction term for the interaction of group and session.|.02|-.03|<.05
92344900|NCT03114150|184592787|SUPERIORITY||Mean Difference (Final Values)|1.42|||<|0.05|TWO_SIDED|95.0|0.27|2.59|||Mixed Models Analysis|Residualized change model, as reported in our protocol paper.||We tested the prediction that cardiorespiratory fitness would increase more so for the moderate-to-vigorous training group compared to the light intensity training group. This prediction was tested with a linear mixed model, as reported in our protocol paper.||2.59|.27|<.05
92344901|NCT03675308|184592788|SUPERIORITY||Response Rate Difference|24.0|||<|0.001|TWO_SIDED|95.0|18.0|30.0||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|The comparison between the risankizumab and placebo treatment groups for the primary efficacy endpoint (ACR20 at Week 24) was performed using the Cochran-Mantel-Haenszel (CMH) test adjusting for the stratification factors of baseline psoriasis (≥ 3%/\< 3% body surface area), presence of dactylitis (yes/no), presence of enthesitis (yes/no) and current csDMARD use (0/≥ 1).||30.0|18.0|<0.001
92344902|NCT03675308|184592789|SUPERIORITY||Least Squares (LS) Mean Difference|-0.2|||<|0.001|TWO_SIDED|95.0|-0.26|-0.14||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||-0.14|-0.26|<0.001
92399772|NCT00772538|184690991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.043||0.0362||95.0|0.006|0.173||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.173|0.006|0.0362
92399773|NCT00772538|184690992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.04||0.0007||95.0|0.058|0.214||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.214|0.058|0.0007
92399774|NCT00772538|184690993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.032||0.0067||95.0|0.024|0.149||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.149|0.024|0.0067
92399775|NCT00772538|184690994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.04||0.0139||95.0|0.02|0.176||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.176|0.020|0.0139
92344903|NCT03675308|184592790|SUPERIORITY||Response Rate Difference|42.5|||<|0.001|TWO_SIDED|95.0|35.6|49.3||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||49.3|35.6|<0.001
92344904|NCT03675308|184592791|SUPERIORITY||Response Rate Difference|23.1|||<|0.001|TWO_SIDED|95.0|16.8|29.4||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||29.4|16.8|<0.001
92344905|NCT03675308|184592792|SUPERIORITY||Response Rate Difference|14.8|||<|0.001|TWO_SIDED|95.0|10.2|19.4||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||19.4|10.2|<0.001
92344906|NCT03675308|184592793|SUPERIORITY||LS Mean Difference|-4.19|||<|0.001|TWO_SIDED|95.0|-5.7|-2.68||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||-2.68|-5.70|<0.001
92344907|NCT03675308|184592794|SUPERIORITY||LS Mean Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.3||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||-0.3|-0.6|<0.001
92158356|NCT04955626|184203458|OTHER||Geometric mean ratio (GMR)|1.35|||||TWO_SIDED|95.0|0.73|2.5||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.50|0.73|
92344908|NCT03675308|184592795|SUPERIORITY||Response Rate Difference|13.9|||<|0.001|TWO_SIDED|95.0|7.6|20.2||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use and extent of psoriasis at Baseline and study.|Response Rate Difference = Risankizumab - Placebo|The pre-specified analysis for the resolution of enthesitis included pooled data from KEEPsAKE 1 (this study) and KEEPsAKE 2 (M15-998; NCT03671148).||20.2|7.6|<0.001
92344909|NCT03675308|184592796|SUPERIORITY||Response Rate Difference|16.9|||<|0.001|TWO_SIDED|95.0|7.5|26.4||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, extent of psoriasis at Baseline, and study.|Response Rate Difference = Risankizumab - Placebo|The pre-specified analysis for the resolution of dactylitis included pooled data from KEEPsAKE 1 (this study) and KEEPsAKE 2 (M15-998; NCT03671148).||26.4|7.5|<0.001
92344910|NCT03675308|184592797|SUPERIORITY||LS Mean Difference|-0.09||||0.496|TWO_SIDED|95.0|-0.36|0.17||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|ANCOVA|ANCOVA model including treatment and the stratification factors and baseline value as covariates.|Difference = Risankizumab - Placebo|||0.17|-0.36|0.496
92344911|NCT03675308|184592798|OTHER||LS Mean Difference|3.32|||<|0.001|TWO_SIDED|95.0|2.42|4.22||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at the change from Baseline in PsA-mTSS comparison.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||4.22|2.42|<0.001
92344912|NCT03675308|184592799|OTHER||LS Mean Difference|2.6|||<|0.001|TWO_SIDED|95.0|1.5|3.7||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at the change from Baseline in PsA-mTSS comparison.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||3.7|1.5|<0.001
92399776|NCT00772538|184690995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.034||0.0347||95.0|0.005|0.14||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.140|0.005|0.0347
92158357|NCT04955626|184203459|OTHER||Geometric mean ratio (GMR)|0.95|||||TWO_SIDED|95.0|0.58|1.56||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.56|0.58|
92344913|NCT03675308|184592800|SUPERIORITY||Response Rate Difference|22.2|||<|0.001|TWO_SIDED|95.0|17.3|27.2|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||27.2|17.3|<0.001
92344914|NCT03675308|184592801|SUPERIORITY||Response Rate Difference|10.5|||<|0.001|TWO_SIDED|95.0|6.9|14.2|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||14.2|6.9|<0.001
92344915|NCT04460885|184592883|NON_INFERIORITY|The response and change from baseline in response after 52 weeks are analysed using an analysis of covariance (ANCOVA) model with treatment and region as fixed factors, and baseline response as covariate.|Treatment difference|-0.19|||<|0.0001|TWO_SIDED|95.0|-0.36|-0.03|||ANCOVA|||||-0.03|-0.36|<0.0001
92344916|NCT04953338|184592897|SUPERIORITY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.92|1.32|||||Calculated as the relative risk of a person diagnosed with vitiligo having a depression episode versus people not diagnosed with vitiligo|||1.32|0.92|
92344917|NCT04953338|184592900|SUPERIORITY||Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|1.01|1.51|||||Calculated as the relative risk of a person diagnosed with vitiligo having with anxiety disorder versus people not diagnosed with vitiligo|||1.51|1.01|
92344918|NCT04953338|184592901|SUPERIORITY||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|1.01|1.56|||||Calculated as the relative risk of a person diagnosed with vitiligo having with recurrent depressive disorder versus people not diagnosed with vitiligo|||1.56|1.01|
92344919|NCT01721798|184592902|NON_INFERIORITY|Primary Outcome Analysis: Proportion of women with detectable genital viral load across 24 months|Odds Ratio (OR)|0.87||||0.66|TWO_SIDED|95.0|0.47|1.62|||GEE|||C-IUD is comparator group.||1.62|0.47|0.66
92344920|NCT01721798|184592903|NON_INFERIORITY|Secondary Outcome Analysis of Proportion with Detectable plasma viral load users at 24 months|Odds Ratio (OR)|0.83||||0.64|TWO_SIDED|95.0|0.37|1.86|||GEE|Adjusted as-treated analysis||C-IUD is comparator group.||1.86|0.37|0.64
92344921|NCT01721798|184592905|NON_INFERIORITY|Secondary Outcome Analysis of Allocated IUC continuation at 24 months|Hazard Ratio (HR)|8.61|||<|0.001|TWO_SIDED|95.0|3.03|24.4|||Regression, Cox|||C-IUD is comparator group.||24.4|3.03|<0.001
92344922|NCT02842866|184592914|NON_INFERIORITY|The 95 percent (%) confidence internal (CI) of the difference in percentage was computed using the Wilson Score method without continuity correction. The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was greater than (\>) -10 percent (%) for all four serogroups.|Difference in percentage|15.7|||||TWO_SIDED|95.0|9.08|22.2||||||Serogroup A||22.2|9.08|
92344923|NCT02842866|184592914|NON_INFERIORITY|The 95% CI of the difference in percentage was computed using the Wilson Score method without continuity correction. The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all four serogroups.|Difference in percentage|27.5|||||TWO_SIDED|95.0|21.2|33.5||||||Serogroup C||33.5|21.2|
92344924|NCT02842866|184592914|NON_INFERIORITY|The 95% CI of the difference in percentage was computed using the Wilson Score method without continuity correction. The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all four serogroups.|Difference in percentage|31.0|||||TWO_SIDED|95.0|24.6|37.0||||||Serogroup Y||37.0|24.6|
92344925|NCT02842866|184592914|NON_INFERIORITY|The 95% CI of the difference in percentage was computed using the Wilson Score method without continuity correction. The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all four serogroups.|Difference in percentage|17.8|||||TWO_SIDED|95.0|11.2|24.2||||||Serogroup W||24.2|11.2|
92344926|NCT02842866|184592915|OTHER||GMT Ratio|1.75|||||TWO_SIDED|95.0|1.4|2.2||||||Serogroup A||2.20|1.40|
92344927|NCT02842866|184592915|OTHER||GMT Ratio|4.1|||||TWO_SIDED|95.0|3.16|5.33||||||Serogroup C||5.33|3.16|
92344928|NCT02842866|184592915|OTHER||GMT Ratio|3.3|||||TWO_SIDED|95.0|2.57|4.23||||||Serogroup Y||4.23|2.57|
92344929|NCT02842866|184592915|OTHER||GMT Ratio|1.81|||||TWO_SIDED|95.0|1.42|2.31||||||Serogroup W||2.31|1.42|
92344930|NCT00204737|184592922|OTHER|||||||0.06|||||||Fisher Exact|||comparison at 2 Weeks||||0.06
92344931|NCT00204737|184592922|OTHER|||||||0.18|||||||Fisher Exact|||Comparison at 6 Weeks||||0.18
92344932|NCT00204737|184592922|OTHER|||||||0.5|||||||Fisher Exact|||Comparison at 12 weeks||||0.5
92344933|NCT04649359|184592974|OTHER||||||<|0.0001|||||||Exact binominal|||Null hypothesis of ORR by BICR for cohort A was 30%.||||<0.0001
92344934|NCT04649359|184592974|OTHER||||||<|0.0001|||||||Exact binominal|||Null hypothesis of ORR by BICR for cohort B was 15%.||||<0.0001
92344935|NCT04649359|184592975|OTHER||||||<|0.0001|||||||Exact binominal|||Null hypothesis of ORR by BICR for cohort A was 12%.||||<0.0001
92344936|NCT04649359|184592976|OTHER||||||<|0.0001|||||||Exact binominal|||Null hypothesis of ORR by BICR for cohort A was 38%.||||<0.0001
92344937|NCT03307174|184593000|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
92344938|NCT05911841|184593014|SUPERIORITY||Mean Difference (Final Values)|-12.0|||||TWO_SIDED|95.0|-30.6|6.6||||||||6.6|-30.6|
92344939|NCT05911841|184593014|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-19.4|19.2||||||||19.2|-19.4|
92344940|NCT05911841|184593014|SUPERIORITY||Mean Difference (Final Values)|-14.9|||||TWO_SIDED|95.0|-31.6|1.7||||||||1.7|-31.6|
92344941|NCT05911841|184593015|SUPERIORITY||Mean Difference (Final Values)|-4.4|||||TWO_SIDED|95.0|-17.6|8.7||||||||8.7|-17.6|
92344942|NCT05911841|184593015|SUPERIORITY||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-12.3|15.1||||||||15.1|-12.3|
92344943|NCT05911841|184593015|SUPERIORITY||Mean Difference (Final Values)|-9.9|||||TWO_SIDED|95.0|-21.8|1.9||||||||1.9|-21.8|
92344944|NCT00534469|184593020|OTHER|Two-sided test.||||||0.43||||||Log-rank test (Mantel-Haenszel test). This p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Log Rank|||Null hypothesis: All four groups are drawn from the same distribution. Alternative hypothesis: At least one of the groups has measurably different survival from the others.||||0.43
92344945|NCT02592824|184593043|SUPERIORITY|||||||0.086|||||||t-test, 2 sided|||Two-sided Student's t-test used for sample size estimation which was based on data from the first GLUTAMICS trial.||||0.086
92344946|NCT02592824|184593044|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
92344947|NCT02592824|184593045|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
92344948|NCT02592824|184593050|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
92344949|NCT02855268|184593052|SUPERIORITY||Least square mean difference|-0.22|STANDARD_ERROR_OF_MEAN|3.27||0.9472|TWO_SIDED|95.0|-6.92|6.48||Threshold of significance was 1-sided \<0.025.|Linear mixed effect model|||Annualized rate of change in eGFR during the placebo-controlled treatment period was compared between lademirsen and placebo using a random coefficient linear mixed effect model which included time as a continuous variable.||6.48|-6.92|0.9472
92158358|NCT04955626|184203459|OTHER||Geometric mean ratio (GMR)|1.22|||||TWO_SIDED|95.0|0.77|1.93||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.93|0.77|
92158359|NCT04955626|184203459|OTHER||Geometric mean ratio (GMR)|1.13|||||TWO_SIDED|95.0|0.71|1.8||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.80|0.71|
92344950|NCT02326064|184593099|SUPERIORITY||||||<|0.001|||||||Mac-Nemar paired Chi-2 test|||||||<0.001
92344951|NCT02326064|184593100|SUPERIORITY||||||<|0.001|||||||Mac-Nemar paired Chi-2 test|||||||<0.001
92344952|NCT00111761|184593101|SUPERIORITY_OR_OTHER||Percentage of participants|25.0||||||95.0|9.8|46.7||||||||46.7|9.8|
92344953|NCT00111761|184593102|SUPERIORITY_OR_OTHER||Percentage of participants|58.0||||||95.0|34.0|80.0||||||||80|34|
92344954|NCT00111761|184593103|SUPERIORITY_OR_OTHER||Percentage|33.3||||||95.0|15.6|55.3||||||||55.3|15.6|
92344955|NCT00111761|184593108|SUPERIORITY_OR_OTHER||Percentage of participants|47.4||||||95.0|24.4|71.1||||||||71.1|24.4|
92399777|NCT00772538|184690996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.032||0.1896||95.0|-0.021|0.104||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.104|-0.021|0.1896
92344956|NCT00914069|184593114|SUPERIORITY_OR_OTHER|||||||0.05||||||Threshold for significance was p less than or equal to 0.05 by a one-tailed Fisher Exact Test.|Fisher Exact|||||||0.05
92344957|NCT00914069|184593117|SUPERIORITY_OR_OTHER|||||||0.8|||||||Fisher Exact|||||||0.8
92344958|NCT00071981|184593121|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|95.0|||||Fisher Exact|||Compare CTL response rate among four arms. The null hypothesis is that CTL response is same in all four arms. Alternative hypothesis is that CTL response rate is different in at least one arm compared to other arms.||||<0.001
92158360|NCT04955626|184203459|OTHER||Geometric mean ratio (GMR)|1.16|||||TWO_SIDED|95.0|0.73|1.84||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.84|0.73|
92158361|NCT04955626|184203459|OTHER||Geometric mean ratio (GMR)|1.49|||||TWO_SIDED|95.0|0.94|2.37||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.37|0.94|
92344959|NCT00071981|184593122|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|95.0|||||Fisher Exact|||Compare HTL response rate to 6MHP among four arms. The null hypothesis is that HTL response is same in all four arms. Alternative hypothesis is that HTL response rate is different in at least one arm compared to other arms.||||<0.001
92344960|NCT00071981|184593123|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|95.0|||||Fisher Exact|||Compare HTL response rate to tetanus peptide among four arms. The null hypothesis is that HTL response is same in all four arms. Alternative hypothesis is that HTL response rate is different in at least one arm compared to other arms.||||<0.001
92344961|NCT00071981|184593124|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741|TWO_SIDED|95.0|||||Fisher Exact|||Compare objective response rate among four arms. The null hypothesis is that objective response rate is same in all four arms. Alternative hypothesis is that objective response rate is different in at least one arm compared to other arms.||||0.741
92344962|NCT00071981|184593125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.532|TWO_SIDED|95.0|||||Log Rank|||Compare overall survival curves among four arms.||||0.532
92344963|NCT01981616|184593142|NON_INFERIORITY_OR_EQUIVALENCE|"With 55 evaluable participants in each group, the study would have at least 80% power to exclude the non-inferiority margin of 15% with the lower bound of the 1-sided 95% confidence interval (CI) on the difference in proportions between vedolizumab- and placebo-treated participants, assuming a 90% seroconversion rate (anti-HBs of 10 IU/L) for hepatitis B vaccine.~If the lower bound of this interval was less than -15% (ie, more negative), then the null hypothesis was accepted."|Difference from placebo|-1.8|||||TWO_SIDED|95.0|-12.7|9.1||||||||9.1|-12.7|
92344964|NCT01981616|184593143|NON_INFERIORITY_OR_EQUIVALENCE|The sample size of 55 evaluable subjects in the vedolizumab 750 mg IV group and 55 evaluable participants in the placebo group provided at least 71% power to exclude the non-inferiority margin of 15% with the lower bound of the 1-sided 95% CI on the difference in proportions between vedolizumab- and placebo-treated participants, assuming an 85% seroconversion rate to the oral cholera vaccine (Dukoral).|Difference from placebo|-14.2|||||TWO_SIDED|95.0|-24.6|-3.9||||||||-3.9|-24.6|
92344965|NCT05079321|184593199|OTHER|||||||0.25|||||||t-test, 2 sided|||||||0.25
92344966|NCT05079321|184593200|OTHER|||||||0.36|||||||t-test, 2 sided|||||||0.36
92344967|NCT05079321|184593201|OTHER|||||||1|||||||t-test, 2 sided|||||||1.0
92344968|NCT05079321|184593202|OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
92344969|NCT05079321|184593203|OTHER|||||||0.49|||||||t-test, 2 sided|||||||0.49
92344970|NCT05079321|184593204|OTHER|||||||0.07|||||||t-test, 2 sided|||||||0.07
92344971|NCT05079321|184593205|OTHER|||||||0.33|||||||t-test, 2 sided|||||||0.33
92344972|NCT05079321|184593206|OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
92344973|NCT05079321|184593208|OTHER|||||||0.91|||||||t-test, 2 sided|||||||0.91
92344974|NCT05079321|184593209|OTHER|||||||0.71|||||||t-test, 2 sided|||||||0.71
92344975|NCT05079321|184593210|OTHER|||||||0.97|||||||t-test, 2 sided|||||||0.97
92344976|NCT05079321|184593211|OTHER|||||||0.75|||||||Fisher Exact|||||||0.75
92344977|NCT05079321|184593212|OTHER|||||||0.59|||||||Fisher Exact|||||||0.59
92344978|NCT05079321|184593213|OTHER|||||||0.69|||||||Fisher Exact|||||||0.69
92344979|NCT01081626|184593214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0135||||0.956|TWO_SIDED|95.0|-0.1325|0.1637|||Chi-squared, Corrected|||||0.1637|-0.1325|0.9560
92344980|NCT01081626|184593215|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.088||||0.7924|TWO_SIDED|95.0|0.7642|1.549|||Chi-squared|||||1.5490|0.7642|0.7924
92399778|NCT00772538|184690997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.032||0.0247||95.0|0.009|0.136||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.136|0.009|0.0247
92399779|NCT00772538|184690998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.043||0.0039||95.0|0.04|0.21||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.210|0.040|0.0039
92399780|NCT00772538|184690999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.04||0.0063||95.0|0.031|0.19||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.190|0.031|0.0063
92399781|NCT00772538|184691000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.041||0.0027||95.0|0.042|0.201||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.201|0.042|0.0027
92158362|NCT04955626|184203460|OTHER||Geometric mean ratio (GMR)|0.49|||||TWO_SIDED|95.0|0.24|1.03||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.03|0.24|
92158363|NCT04955626|184203460|OTHER||Geometric mean ratio (GMR)|1.84|||||TWO_SIDED|95.0|0.9|3.76||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.76|0.90|
92344981|NCT01081626|184593219|SUPERIORITY_OR_OTHER|||||||0.5331||95.0|||||Chi-squared|||||||0.5331
92344982|NCT01081626|184593220|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.015||||0.9351|TWO_SIDED|95.0|0.7175|1.435|||Chi-squared|||||1.4350|0.7175|0.9351
92344983|NCT00032591|184593245|NON_INFERIORITY_OR_EQUIVALENCE|A target of 363 patients with primary events required to discern a 32% relative drop in annual primary event rates with 90% power (from 5.5% for HQACM to 3.75% for PST) was based on a sample size of 3200 patients with 1 year of enrollment and a minimum of 2 years follow-up. Due to slower than planned enrollment, we randomized 2922 patients over 2.75 years, with a mean follow-up of 3 years.|Hazard Ratio (HR)|0.88||||0.14|||||||Log Rank|||The null hypothesis was the hazard ratio was equal to 1.||||0.14
92344984|NCT05352763|184593355|OTHER|No statistical analysis performed|||||||||||||||||The classical summary of count and percentages will be provided for basic safety tabulations and dispositions as appropriate. All data will be presented in by-subject data listings. No inferential statistics will be produced.|||
92344985|NCT05172609|184593383|EQUIVALENCE|Margin difference of 1 standard deviation (SD) or higher was considered evidence of non-equivalence comparison||||||0.47|||||||t-test, 2 sided|||T-tests between EBIS and IAU conditions at 12-week follow up for AIM||||.47
92344986|NCT05172609|184593384|EQUIVALENCE|Margin difference of 1 SD or higher was considered evidence of non-equivalence comparison||||||0.88|||||||t-test, 2 sided|||T-tests between EBIS and IAU conditions at 12-week follow up for FIM||||.88
92344987|NCT05172609|184593385|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing SUDS screening rating at Time 3: two weeks after completing the training||||.46
92344988|NCT05172609|184593385|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing SUDS screening rating at Time 4: 12 weeks after completing the training||||.40
92344989|NCT05172609|184593385|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing SUDS planning rating at Time 3: two weeks after completing the training||||.56
92344990|NCT05172609|184593385|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing SUDS planning rating at Time 4: 12 weeks after completing the training||||.68
92344991|NCT05172609|184593385|SUPERIORITY|||||||0.87|||||||ANCOVA|||Repeated measures analysis of covariance (ANCOVA), controlling for organization: SUDS screening at timepoints 1, 3, and 4||||.87
92344992|NCT05172609|184593385|SUPERIORITY|||||||0.43|||||||ANCOVA|||repeated measures analysis of covariance (ANCOVA), controlling for organization: SUDS planning at timepoints 1, 3, and 4||||.43
92344993|NCT05172609|184593386|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing screening self-efficacy rating at Time 3: two weeks after completing the training||||.59
92344994|NCT05172609|184593386|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing screening self-efficacy rating at Time 4: 12 weeks after completing the training||||.59
92399782|NCT00772538|184691001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.293|STANDARD_ERROR_OF_MEAN|4.584|<|0.0001||95.0|13.279|31.308||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||31.308|13.279|<0.0001
92344995|NCT05172609|184593386|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing intervening self-efficacy rating at Time 3: two weeks after completing the training||||.25
92344996|NCT05172609|184593386|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing intervening self-efficacy rating at Time 4: 12 weeks after completing the training||||.35
92344997|NCT05172609|184593386|SUPERIORITY|||||||0.88|||||||ANCOVA|||repeated measures analysis of covariance (ANCOVA), controlling for organization: Self-efficacy screening at timepoints 1, 3, and 4||||.88
92344998|NCT05172609|184593386|SUPERIORITY|||||||0.71|||||||ANCOVA|||repeated measures analysis of covariance (ANCOVA), controlling for organization: Self-efficacy intervening at timepoints 1, 3, and 4||||.71
92344999|NCT05172609|184593387|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing screening use at Time 3: two weeks after completing the training||||.88
92345000|NCT05172609|184593387|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing screening use at Time 4: 12 weeks after completing the training||||.55
92345001|NCT05172609|184593387|SUPERIORITY|||||||0.36|||||||ANCOVA|||repeated measures analysis of covariance (ANCOVA), controlling for organization: CSR screening at timepoints 1, 3, and 4||||.36
92345002|NCT05172609|184593388|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing total SPIRS score at Time 3: two weeks after completing the training||||.24
92399783|NCT00772538|184691002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.267|STANDARD_ERROR_OF_MEAN|4.699|<|0.0001||95.0|14.027|32.507||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||32.507|14.027|<0.0001
92399784|NCT00772538|184691003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.061|0.173||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.173|0.061|<0.0001
92345003|NCT05172609|184593388|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing total SPIRS score at Time 4: 12 weeks after completing the training||||.88
92345004|NCT05172609|184593388|SUPERIORITY|||||||0.1|||||||ANCOVA|||repeated measures analysis of covariance (ANCOVA), controlling for organization: SPIRS at timepoints 3 and 4||||.10
92345005|NCT00042289|184593408|SUPERIORITY||Geometric mean ratio|0.62||||0.055|TWO_SIDED|90.0|0.44|0.88||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.88|0.44|0.055
92345006|NCT00042289|184593408|SUPERIORITY||Geometric mean ratio|0.64|||<|0.001|TWO_SIDED|90.0|0.55|0.73||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.73|0.55|<0.001
92345007|NCT00042289|184593408|SUPERIORITY||Geometric mean ratio|0.68||||0.22|TWO_SIDED|90.0|0.44|1.04||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.04|0.44|0.22
92345008|NCT00042289|184593408|SUPERIORITY||Geometric mean ratio|0.6|||<|0.001|TWO_SIDED|90.0|0.49|0.72||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.72|0.49|<0.001
92345009|NCT00042289|184593408|SUPERIORITY||Geometric mean ratio|0.76|||<|0.05|TWO_SIDED|90.0|0.64|0.89||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.89|0.64|<0.05
92345010|NCT00042289|184593408|SUPERIORITY||Geometric mean ratio|0.71|||<|0.05|TWO_SIDED|90.0|0.57|0.88||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.88|0.57|<0.05
92345011|NCT00042289|184593408|SUPERIORITY||Geometric mean ratio|0.98||||0.78|TWO_SIDED|90.0|0.71|1.35||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.35|0.71|0.78
92345012|NCT00042289|184593409|SUPERIORITY||Geometric mean ratio|0.51|||<|0.05|TWO_SIDED|90.0|0.42|0.63||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.63|0.42|<0.05
92345013|NCT00042289|184593409|SUPERIORITY||Geometric mean ratio|0.73|||<|0.05|TWO_SIDED|90.0|0.63|0.84||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.84|0.63|<0.05
92345014|NCT00042289|184593409|SUPERIORITY||Geometric mean ratio|0.58||||0.03|TWO_SIDED|90.0|0.34|0.98||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.98|0.34|0.03
92345015|NCT00042289|184593409|SUPERIORITY||Geometric mean ratio|0.67||||0.001|TWO_SIDED|90.0|0.51|0.89||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.89|0.51|0.001
92345016|NCT00042289|184593409|SUPERIORITY||Geometric mean ratio|1.34||||0.0684|TWO_SIDED|||||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||||0.0684
92345017|NCT00042289|184593409|SUPERIORITY||Geometric mean ratio|0.58|||<|0.05|TWO_SIDED|90.0|0.49|0.68||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.68|0.49|<0.05
92345018|NCT00042289|184593409|SUPERIORITY||Geometric mean ratio|0.6|||<|0.05|TWO_SIDED|90.0|0.53|0.68||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.68|0.53|<0.05
92345019|NCT00042289|184593410|SUPERIORITY||Geometric mean ratio|0.72||||0.008|TWO_SIDED|90.0|0.6|0.88||3rd Trimester vs. Postpartum|t-test, 2 sided|Paired sample t-test on natural log-transformed PK parameter||||0.88|0.60|0.008
92345020|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.63||||0.002|TWO_SIDED|90.0|0.52|0.75||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.75|0.52|0.002
92345021|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.71||||0.0003|TWO_SIDED|90.0|0.63|0.81||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.81|0.63|0.0003
92345022|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.57||||0.09|TWO_SIDED|90.0|0.34|0.98||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.98|0.34|0.09
92345023|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.67||||0.004|TWO_SIDED|90.0|0.54|0.82||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.82|0.54|0.004
92399785|NCT00772538|184691004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.124|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.068|0.181||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.181|0.068|<0.0001
92345024|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.79||||0.27|TWO_SIDED|90.0|0.5|1.27||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.27|0.50|0.27
92345025|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.86||||0.7|TWO_SIDED|90.0|0.66|1.12||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.12|0.66|0.70
92345026|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.62||||0.46|TWO_SIDED|90.0|0.29|1.34||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.34|0.29|0.46
92345027|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.94||||0.5|TWO_SIDED|90.0|0.63|1.39||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.39|0.63|0.50
92345028|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.76|||<|0.1|TWO_SIDED|90.0|0.57|1.0||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.0|0.57|<0.10
92345029|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.56|||<|0.1|TWO_SIDED|90.0|0.42|0.73||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.73|0.42|<0.10
92345030|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.47|||<|0.1|TWO_SIDED|90.0|0.33|0.68||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.68|0.33|<0.10
92345031|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.44|||<|0.1|TWO_SIDED|90.0|0.36|0.54||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.54|0.36|<0.10
92345032|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.74||||0.1875|TWO_SIDED|90.0|0.53|1.04||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.04|0.53|0.1875
92158364|NCT04955626|184203460|OTHER||Geometric mean ratio (GMR)|1.72|||||TWO_SIDED|95.0|0.84|3.5||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.50|0.84|
92345033|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.46||||0.1563|TWO_SIDED|90.0|0.19|1.11||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.11|0.19|0.1563
92345034|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.94||||0.241|TWO_SIDED|90.0|0.85|1.03||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.03|0.85|0.241
92345035|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|1.09||||0.837|TWO_SIDED|90.0|0.9|1.32||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.32|0.90|0.837
92345036|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.7|||<|0.05|TWO_SIDED|90.0|0.55|0.88||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.88|0.55|<0.05
92345037|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.8||||0.0046|TWO_SIDED|90.0|0.72|0.89||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.89|0.72|0.0046
92345038|NCT00042289|184593411|SUPERIORITY||Geometric mean ratio|0.66|||<|0.05|TWO_SIDED|90.0|0.52|0.85||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.85|0.52|<0.05
92158365|NCT04955626|184203460|OTHER||Geometric mean ratio (GMR)|1.75|||||TWO_SIDED|95.0|0.85|3.59||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.59|0.85|
92345039|NCT00042289|184593411|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345040|NCT00042289|184593411|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345041|NCT00042289|184593411|SUPERIORITY||||||>|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
92345042|NCT00042289|184593411|SUPERIORITY||||||>|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
92345043|NCT00042289|184593411|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345044|NCT00042289|184593411|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345045|NCT00042289|184593412|SUPERIORITY||Geometric mean ratio|0.97||||0.07|TWO_SIDED|90.0|0.83|1.13||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.13|0.83|0.07
92345046|NCT00042289|184593412|SUPERIORITY||Geometric mean ratio|0.77|||<|0.05|TWO_SIDED|90.0|0.61|0.96||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.96|0.61|<0.05
92345047|NCT00042289|184593412|SUPERIORITY||Geometric mean ratio|0.8|||<|0.05|TWO_SIDED|90.0|0.62|1.03||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.03|0.62|<0.05
92345048|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.81||||0.148|TWO_SIDED|90.0|0.64|1.01||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.01|0.64|0.148
92345049|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.71|||<|0.001|TWO_SIDED|90.0|0.62|0.81||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.81|0.62|<0.001
92345050|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.74||||0.0098|TWO_SIDED|90.0|0.61|0.89||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.89|0.61|0.0098
92345051|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.75||||0.0025|TWO_SIDED|90.0|0.64|0.88||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.88|0.64|0.0025
92345052|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.54|||<|0.0001|TWO_SIDED|90.0|0.46|0.64||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.64|0.46|<0.0001
92345053|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.56||||0.0024|TWO_SIDED|90.0|0.41|0.76||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.76|0.41|0.0024
92345054|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.795||||0.438|TWO_SIDED|90.0|0.499|1.269||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.269|0.499|0.438
92345055|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.531||||0.219|TWO_SIDED|90.0|0.186|1.512||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.512|0.186|0.219
92345056|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|1.05||||0.296|TWO_SIDED|90.0|0.94|1.18||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.18|0.94|0.296
92345057|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|1.26||||0.007|TWO_SIDED|90.0|1.01|1.56||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.56|1.01|0.007
92345058|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.83||||0.16|TWO_SIDED|90.0|0.56|1.22||2nd Trimester vs Postpartum|Wilcoxon signed rank test|||FPV was analyzed as the form of amprenavir (APV). FPV is the prodrug of APV.||1.22|0.56|0.16
92345059|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.74||||0.03|TWO_SIDED|90.0|0.58|0.93|||Wilcoxson signed rank test|||FPV was analyzed in the form of amprenavir (APV). FPV is the prodrug of APV.||0.93|0.58|0.03
92345060|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.86|||>|0.05|TWO_SIDED|90.0|0.68|1.08||3rd Trimester vs. Postpartum (No comparison was done for 2nd Trimester vs. Postpartum since the sample size for 2nd trimester was 1)|Wilcoxon signed rank test|||This analysis was for ATV.||1.08|0.68|>0.05
92345061|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.89||||0.1636|TWO_SIDED|90.0|0.79|1.01||Third Trimester vs. Postpartum (No comparison was done for Second Trimester vs. Postpartum since only 4 participants had Second Trimester data)|Wilcoxon signed rank test|||||1.01|0.79|0.1636
92345062|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.69|||<|0.05|TWO_SIDED|90.0|0.53|0.91||3rd Trimester vs Postpartum (No comparison was done for Second Trimester vs. Postpartum since only 4 participants had Second Trimester data)|Wilcoxon signed rank test|||This analysis was for ATV.||0.91|0.53|<0.05
92345063|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|1.11||||0.16|TWO_SIDED|90.0|0.99|1.24||3rd Trimester vs. Postpartum (No comparison was done for Second Trimester vs. Postpartum since there was no Second Trimester data available)|Wilcoxon signed rank test|||||1.24|0.99|0.16
92345064|NCT00042289|184593413|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345065|NCT00042289|184593413|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92399786|NCT00772538|184691005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.283|STANDARD_ERROR_OF_MEAN|0.736||0.7012||95.0|-1.165|1.731||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||1.731|-1.165|0.7012
92345066|NCT00042289|184593413|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345067|NCT00042289|184593413|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345068|NCT00042289|184593413|SUPERIORITY||||||>|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
92345069|NCT00042289|184593413|SUPERIORITY||||||>|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
92345070|NCT00042289|184593413|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345071|NCT00042289|184593413|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345072|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|1.06||||0.67|TWO_SIDED|90.0|0.85|1.34||3rd Trimester vs. Postpartum (No comparison was done for Second Trimester vs. Postpartum since only 2 participants had Second Trimester data)|Wilcoxon signed-rank test|||||1.34|0.85|0.67
92345073|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.73||||0.08|TWO_SIDED|90.0|0.59|0.91||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.91|0.59|0.08
92345074|NCT00042289|184593413|SUPERIORITY||Geometric mean of ratio|0.63|||<|0.01|TWO_SIDED|90.0|0.55|0.72||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.72|0.55|<0.01
92345075|NCT00042289|184593414|SUPERIORITY||Geometric mean of ratio|0.57|||<|0.05|TWO_SIDED|90.0|0.48|0.68||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.68|0.48|<0.05
92345076|NCT00042289|184593414|SUPERIORITY||Geometric mean of ratio|0.73|||<|0.05|TWO_SIDED|90.0|0.62|0.85||3rd Trimester vs.Postpartum|Wilcoxon signed rank test|||||0.85|0.62|<0.05
92345077|NCT00042289|184593414|SUPERIORITY|||||||0.09||||||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||||0.09
92345078|NCT00042289|184593414|SUPERIORITY|||||||0.003||||||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||||0.003
92345079|NCT00042289|184593414|SUPERIORITY||Geometric mean of ratio|1.34||||0.036|TWO_SIDED|||||3rd Trimester vs. Postpartum (No comparison was done for Second Trimester vs. Postpartum since only 5 participants had Second Trimester data)|Wilcoxon signed rank test|||||||0.036
92345080|NCT00042289|184593414|SUPERIORITY||Geometric mean of ratio|0.84|||>|0.05|TWO_SIDED|90.0|0.69|1.02||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.02|0.69|>0.05
92345081|NCT00042289|184593414|SUPERIORITY||Geometric mean of ratio|0.83|||>|0.05|TWO_SIDED|90.0|0.68|1.01||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.01|0.68|>0.05
92345082|NCT00042289|184593415|SUPERIORITY||Geometric mean of ratio|0.61||||0.14|TWO_SIDED|90.0|0.34|1.09||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.09|0.34|0.14
92345083|NCT00042289|184593415|SUPERIORITY||Geometric mean of ratio|0.64||||0.002|TWO_SIDED|90.0|0.5|0.81||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.81|0.50|0.002
92345084|NCT00042289|184593415|SUPERIORITY||Geometric mean of ratio|0.77||||0.24|TWO_SIDED|90.0|0.49|1.23||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.23|0.49|0.24
92345085|NCT00042289|184593415|SUPERIORITY||Geometric mean of ratio|0.84||||0.53|TWO_SIDED|90.0|0.6|1.17||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.17|0.60|0.53
92345086|NCT00042289|184593415|SUPERIORITY||Geometric mean of ratio|0.58||||0.2|TWO_SIDED|90.0|0.3|1.11||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.11|0.30|0.2
92345087|NCT00042289|184593415|SUPERIORITY||Geometric mean of ratio|0.95||||0.12|TWO_SIDED|90.0|0.58|1.55||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.55|0.58|0.12
92345088|NCT00042289|184593415|SUPERIORITY||Geometric mean of ratio|0.92||||0.358|TWO_SIDED|90.0|0.71|1.2||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.2|0.71|0.358
92345089|NCT00042289|184593415|SUPERIORITY||Geometric mean of ratio|0.72||||0.0156|TWO_SIDED|90.0|0.55|0.93||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.93|0.55|0.0156
92345090|NCT00042289|184593416|SUPERIORITY||Geometric mean of ratio|0.7||||0.007|TWO_SIDED|90.0|0.58|0.85||3rd Trimester vs. Postpartum (No comparison was done for Second Trimester vs. Postpartum since no Second Trimester data was available)|Wilcoxon signed rank test|||||0.85|0.58|0.007
92345091|NCT00042289|184593417|SUPERIORITY||Geometric mean ratio|0.66||||0.109|TWO_SIDED|90.0|0.39|1.12||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.12|0.39|0.109
92345092|NCT00042289|184593417|SUPERIORITY||Geometric mean ratio|0.58|||<|0.001|TWO_SIDED|90.0|0.49|0.69||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.69|0.49|<0.001
92345093|NCT00042289|184593417|SUPERIORITY||Geometric mean ratio|0.48||||0.44|TWO_SIDED|90.0|0.14|1.65||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.65|0.14|0.44
92345094|NCT00042289|184593417|SUPERIORITY||Geometric mean ratio|0.56|||<|0.001|TWO_SIDED|90.0|0.43|0.72||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.72|0.43|<0.001
92345095|NCT00042289|184593417|SUPERIORITY||Geometric mean ratio|0.83||||0.43|TWO_SIDED|90.0|0.63|1.1||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.10|0.63|0.43
92158366|NCT04955626|184203460|OTHER||Geometric mean ratio (GMR)|1.56|||||TWO_SIDED|95.0|0.76|3.2||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.20|0.76|
92218009|NCT01843972|184336697|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|111.2|STANDARD_DEVIATION|24.7|||TWO_SIDED|90.0|88.596|139.576|||ANOVA||The geometric mean ratio was calculated as the geometric mean of the poor metabolisers divided by the geometric mean of the extensive metabolisers.|Comparison of poor metabolisers (5 (all) subjects of group 'BI 691751 tablet poor metabolizers (part II)') and extensive metabolisers (12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)').||139.576|88.596|
92345096|NCT00042289|184593417|SUPERIORITY||Geometric mean ratio|1.0||||0.31|TWO_SIDED|90.0|0.69|1.44||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.44|0.69|0.31
92345097|NCT00042289|184593417|SUPERIORITY||Geometric mean ratio|0.9||||0.49|TWO_SIDED|90.0|0.71|1.16||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.16|0.71|0.49
92345098|NCT00042289|184593418|SUPERIORITY||Geometric mean ratio|0.45|||<|0.05|TWO_SIDED|90.0|0.32|0.63||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.63|0.32|<0.05
92345099|NCT00042289|184593418|SUPERIORITY||Geometric mean ratio|0.72|||<|0.05|TWO_SIDED|90.0|0.58|0.88||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.88|0.58|<0.05
92399787|NCT00772538|184691006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.0499||95.0|0.49|1.0||Significance level of alpha=0.05 (two-sided).|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|||1.00|0.49|0.0499
92345100|NCT00042289|184593418|SUPERIORITY||Geometric mean ratio|0.42||||0.02|TWO_SIDED|90.0|0.23|0.78||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.78|0.23|0.02
92345101|NCT00042289|184593418|SUPERIORITY||Geometric mean ratio|0.78||||0.3|TWO_SIDED|90.0|0.56|1.08||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.08|0.56|0.3
92345102|NCT00042289|184593418|SUPERIORITY||Geometric mean ratio|1.41||||0.036|TWO_SIDED|||||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||||0.036
92345103|NCT00042289|184593418|SUPERIORITY||Geometric mean ratio|0.41|||<|0.05|TWO_SIDED|90.0|0.32|0.52||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.52|0.32|<0.05
92345104|NCT00042289|184593418|SUPERIORITY||Geometric mean ratio|0.48|||<|0.05|TWO_SIDED|90.0|0.41|0.57||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.57|0.41|<0.05
92345105|NCT00042289|184593419|SUPERIORITY||Geometric mean ratio|0.85||||0.1|TWO_SIDED|90.0|0.72|1.01||3rd Trimester vs. Postpartum|t-test, 2 sided|Paired sample t-test on natural log-transformed PK parameter||||1.01|0.72|0.10
92345106|NCT00042289|184593420|SUPERIORITY||Geometric mean ratio|0.49||||0.0039|TWO_SIDED|90.0|0.35|0.68||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.68|0.35|0.0039
92345107|NCT00042289|184593420|SUPERIORITY||Geometric mean ratio|0.66||||0.0062|TWO_SIDED|90.0|0.52|0.84||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.84|0.52|0.0062
92345108|NCT00042289|184593420|SUPERIORITY||||||<|0.1||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.10
92345109|NCT00042289|184593420|SUPERIORITY||||||<|0.1||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.10
92345110|NCT00042289|184593420|SUPERIORITY||Geometric mean ratio|0.15|||<|0.1|TWO_SIDED|90.0|0.08|0.3||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.30|0.08|<0.10
92345111|NCT00042289|184593420|SUPERIORITY||Geometric mean ratio|0.21|||<|0.1|TWO_SIDED|90.0|0.12|0.36||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.36|0.12|<0.10
92345112|NCT00042289|184593420|SUPERIORITY||Geometric mean ratio|0.32|||<|0.1|TWO_SIDED|90.0|0.2|0.51||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.51|0.20|<0.10
92345113|NCT00042289|184593420|SUPERIORITY||Geometric mean ratio|0.32|||>|0.1|TWO_SIDED|90.0|0.11|0.94||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.94|0.11|>0.10
92345114|NCT00042289|184593420|OTHER||Geometric mean ratio|0.87||||0.079|TWO_SIDED|90.0|0.78|0.97||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.97|0.78|0.079
92345115|NCT00042289|184593420|SUPERIORITY||Geometric mean ratio|0.92||||0.01|TWO_SIDED|90.0|0.77|1.09||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.09|0.77|0.01
92345116|NCT00042289|184593420|SUPERIORITY||Geometric mean ratio|0.51|||<|0.05|TWO_SIDED|90.0|0.37|0.72||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.72|0.37|<0.05
92345117|NCT00042289|184593420|SUPERIORITY||Geometric mean ratio|0.82||||0.0325|TWO_SIDED|90.0|0.71|0.96||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.96|0.71|0.0325
92345118|NCT00042289|184593420|SUPERIORITY||Geometric mean ratio|0.65|||<|0.05|TWO_SIDED|90.0|0.54|0.77||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.77|0.54|<0.05
92345119|NCT00042289|184593420|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345120|NCT00042289|184593420|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345121|NCT00042289|184593420|SUPERIORITY||||||>|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
92345122|NCT00042289|184593420|SUPERIORITY||||||>|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
92345123|NCT00042289|184593420|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345124|NCT00042289|184593420|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
92345125|NCT00042289|184593421|SUPERIORITY||Geometric mean ratio|0.88|||<|0.05|TWO_SIDED|90.0|0.73|1.06||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.06|0.73|<0.05
92345126|NCT00042289|184593421|SUPERIORITY||Geometric mean ratio|0.7|||<|0.05|TWO_SIDED|90.0|0.55|0.9||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.90|0.55|<0.05
92158367|NCT04955626|184203461|OTHER||Geometric mean ratio (GMR)|0.5|||||TWO_SIDED|95.0|0.26|0.95||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||0.95|0.26|
92218010|NCT01843972|184336698|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|101.31|STANDARD_DEVIATION|28.2|||TWO_SIDED|90.0|80.593|127.351|||ANOVA||The geometric mean ratio is calculated as the geometric mean of 'BI 691751 tablet extensive metabolizers (part II)' divided by the geometric mean of 'BI 691751 solution (part II)'.|Only extensive CYP2D6 metabolisers were selected: 12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)' and 7 (all investigated) subjects of group 'BI 691751 solution (part II) '.||127.351|80.593|
92345127|NCT00042289|184593421|SUPERIORITY||Geometric mean ratio|0.84|||<|0.05|TWO_SIDED|90.0|0.57|1.23||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.23|0.57|<0.05
92345128|NCT00042289|184593425|SUPERIORITY||Geometric mean of ratio|1.24||||0.114|TWO_SIDED|90.0|0.97|1.59||Before ENG initiation vs. after ENG initiation|Wilcoxon signed rank test|||The statistical analysis is for LPV PK.||1.59|0.97|0.114
92345129|NCT00042289|184593426|SUPERIORITY||Geometric mean of ratio|1.1||||0.367|TWO_SIDED|90.0|0.84|1.44||Before ENG initiation vs. after ENG initiation|Wilcoxon signed rank test|||The statistical test is for ATV PK.||1.44|0.84|0.367
92399788|NCT00772538|184691007|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.71|STANDARD_ERROR_OF_MEAN|0.09||0.0102||95.0|0.55|0.92||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo|||0.92|0.55|0.0102
92158368|NCT04955626|184203461|OTHER||Geometric mean ratio (GMR)|0.76|||||TWO_SIDED|95.0|0.41|1.43||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.43|0.41|
92158369|NCT04955626|184203461|OTHER||Geometric mean ratio (GMR)|0.98|||||TWO_SIDED|95.0|0.52|1.84||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.84|0.52|
92345130|NCT00042289|184593426|SUPERIORITY||Geometric mean of ratio|1.02||||0.561|TWO_SIDED|90.0|0.92|1.13|||Wilcoxon signed rank test|Before ENG initiation vs. after ENG initiation||The statistical test is for EFV PK.||1.13|0.92|0.561
92345131|NCT00498550|184593452|SUPERIORITY||difference in treatment means|-4.54|STANDARD_ERROR_OF_MEAN|2.57||0.088|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.088
92345132|NCT02314546|184593474|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Chi-squared|||||||0.99
92345133|NCT02314546|184593475|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Chi-squared|||||||0.99
92345134|NCT02314546|184593476|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Kruskal-Wallis|||||||0.26
92345135|NCT02314546|184593477|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Kruskal-Wallis|||||||0.02
92345136|NCT02314546|184593478|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Kruskal-Wallis|||||||0.04
92158370|NCT04955626|184203461|OTHER||Geometric mean ratio (GMR)|0.96|||||TWO_SIDED|95.0|0.51|1.8||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.80|0.51|
92345137|NCT02314546|184593479|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Chi-squared|||||||0.73
92345138|NCT02314546|184593480|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Chi-squared|||||||0.73
92345139|NCT00274456|184593481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.224||95.0||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons were performed only if this test was significant."|Cochran-Mantel-Haenszel|CMH test was stratified by study site||Independent reader assessed ORR. As per the protocol, if the conclusions from the investigator and independent assessments of response rate were the same, the investigator assessment was considered the primary analysis of response rate. If the conclusions were different, the independent radiology reader assessment was considered the primary analysis of response rate. The conclusions were different.||||0.224
92345140|NCT00274456|184593481|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons were performed only if this test was significant."|Cochran-Mantel-Haenszel|CMH was stratified by study site||Investigator assessed ORR. As per the protocol, if the conclusions from the investigator and independent assessments of response rate were the same, the investigator assessment was considered the primary analysis of response rate. If the conclusions were different, the independent radiology reader assessment was considered the primary analysis of response rate. The conclusions were different.||||<0.001
92345141|NCT00274456|184593481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site||Investigator assessed ORR||||0.002
92345142|NCT00274456|184593481|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed ORR||||<0.001
92345143|NCT00274456|184593481|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site||Investigator assessed ORR||||>0.05
92345144|NCT00274456|184593481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed ORR||||0.024
92345145|NCT00274456|184593481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.099||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed ORR||||0.099
92345146|NCT00274456|184593481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed ORR||||0.002
92345147|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||0.027
92345148|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||0.009
92345149|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||0.017
92345150|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||>0.05
92345151|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||>0.05
92399789|NCT00772538|184691008|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.64|STANDARD_ERROR_OF_MEAN|0.1||0.0062||95.0|0.46|0.88||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo|||0.88|0.46|0.0062
92158371|NCT04955626|184203461|OTHER||Geometric mean ratio (GMR)|0.71|||||TWO_SIDED|95.0|0.38|1.34||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.34|0.38|
92345152|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||>0.05
92345153|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.085|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||0.085
92345154|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparison was performed only if this test was significant."|Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed disease control rate (DCR), ie, SD \>= 16 weeks, or CR or PR||||0.007
92345155|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||>0.05
92345156|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||0.009
92345157|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||0.005
92345158|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||>0.05
92345159|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.098||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||0.098
92345160|NCT00274456|184593482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||0.014
92345161|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0498||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons were performed only if this test was significant."|Log Rank|||Independent assessment||||0.0498
92345162|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.607||||0.0524|||||||Log Rank|||Independent assessment||||0.0524
92345163|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.495||||0.0065|||||||Log Rank|||Independent assessment||||0.0065
92345164|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Independent assessment||||>0.05
92345165|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Independent assessment||||>0.05
92345166|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Independent assessment||||>0.05
92345167|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Independent assessment||||>0.05
92345168|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons was performed only if this test was significant."|Log Rank|||Investigator assessment||||0.008
92345169|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
92345170|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
92345171|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.568||||0.012|||||||Log Rank|||Investigator assessment||||0.012
92345172|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.972||||0.001|||||||Log Rank|||Investigator assessment||||0.001
92345173|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.702||||0.076|||||||Log Rank|||Investigator assessment||||0.076
92345174|NCT00274456|184593483|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
92345175|NCT00274456|184593484|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons was performed only if this test was significant."|Log Rank|||Independent assessment||||>0.05
92345176|NCT00274456|184593485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons was performed only if this test was significant."|Log Rank|||Investigator assessment||||0.013
92345177|NCT00274456|184593485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|||||||Log Rank|||Investigator assessment||||0.022
92218011|NCT01843972|184336698|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|92.69|STANDARD_DEVIATION|33.0|||TWO_SIDED|90.0|68.662|125.119|||ANOVA||The geometric mean ratio was calculated as the geometric mean of the poor metabolisers divided by the geometric mean of the extensive metabolisers.|Comparison of poor metabolisers (5 (all) subjects of group 'BI 691751 tablet poor metabolizers (part II)') and extensive metabolisers (12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)').||125.119|68.662|
92218012|NCT01843972|184336699|NON_INFERIORITY_OR_EQUIVALENCE|This was non-confirmatory testing.|Slope|1.0233|||||TWO_SIDED|95.0|0.8265|1.2201|||Regression, Linear|||||1.2201|0.8265|
92345178|NCT00274456|184593485|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
92345179|NCT00274456|184593485|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
92345180|NCT00274456|184593485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Log Rank|||Investigator assessment||||0.005
92345181|NCT00274456|184593485|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
92345182|NCT00274456|184593485|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
92345183|NCT00274456|184593486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047||95.0||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons were performed only if this test was significant."|Log Rank|||||||0.047
92345184|NCT00274456|184593486|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Log Rank|||||||>0.05
92345185|NCT00274456|184593486|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Log Rank|||||||>0.05
92345186|NCT00274456|184593486|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Log Rank|||||||>0.05
92399790|NCT00772538|184691009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.0065||95.0|0.4|0.88||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||0.88|0.40|0.0065
92345187|NCT00274456|184593486|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.686||||0.069||95.0|||||Log Rank|||||||0.069
92345188|NCT00274456|184593486|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Log Rank|||||||>0.05
92345189|NCT00274456|184593486|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.74||||0.008||95.0|||||Log Rank|||||||0.008
92345190|NCT00336544|184593496|NON_INFERIORITY_OR_EQUIVALENCE|Delta will be determined by the highest clinical cure-rate between the Cethromycin treatment group and the Clarithromycin treatment group, as follows: Greater than or equal to 90%, delta = -10%; Greater than or equal to 80% and less than 90%, delta = -15%, Greater than or equal to 70% and less than 80%, -20%)|Mean Difference (Net)|-5.7||||0.0769||95.0|-11.9|0.6|||Fisher Exact|||The rate of clinical cure in each treatment group was calculated (number of cures/number of patient eligible for analysis). Non-inferiority will be demonstrated when the lower limit of the two-sided 95% confidence interval for the difference in the clinical cure rate at the Test-of-Cure visit between treatment groups (Cethromycin -Clarithromycin) is greater than delta, and includes zero, for both Per-Protocol (PP) and Intent-to-Treat (ITT) analyses.||0.6|-11.9|0.0769
92345191|NCT00336544|184593498|NON_INFERIORITY_OR_EQUIVALENCE|Delta will be determined by the highest clinical cure-rate between the Cethromycin treatment group and the Clarithromycin treatment group, as follows: Greater than or equal to 90%, delta = -10%; Greater than or equal to 80% and less than 90%, delta = -15%, Greater than or equal to 70% and less than 80%, -20%)|Mean Difference (Net)|-4.4||||0.0775||95.0|-9.1|0.3|||Fisher Exact|||The rate of clinical cure in each treatment group was calculated (number of cures/number of patient eligible for analysis). Non-inferiority will be demonstrated when the lower limit of the two-sided 95% confidence interval for the difference in the clinical cure rate at the Test-of-Cure visit between treatment groups (Cethromycin -Clarithromycin) is greater than delta, and includes zero, for both Per-Protocol (PP) and Intent-to-Treat (ITT) analyses.||0.3|-9.1|0.0775
92345192|NCT00576758|184593500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.26||||0.1587|TWO_SIDED|60.0|3.9|18.7|||Chi-squared|||||18.7|3.9|0.1587
92345193|NCT00576758|184593501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.83|||||TWO_SIDED|95.0|-2.9|16.6||||||||16.6|-2.9|
92218013|NCT01843972|184336700|NON_INFERIORITY_OR_EQUIVALENCE|This was non-confirmatory testing.|Slope|0.9686|||||TWO_SIDED|95.0|0.8107|1.1266|||Regression, Linear|||Dose proportionality of BI 691751 was explored using a power model (regression model applied to log-transformed data).||1.1266|0.8107|
92345194|NCT00576758|184593505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22|||||TWO_SIDED|95.0|-13.9|18.3||||||||18.3|-13.9|
92345195|NCT00576758|184593506|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.62|1.44||||||||1.44|0.62|
92345196|NCT00576758|184593508|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.67|1.5||||||||1.50|0.67|
92345197|NCT03427411|184593529|NON_INFERIORITY|Non-inferiority was defined as response rates which were sufficiently similar (p\>0.20 by Fisher's exact test).||||||0.6143||||||The p value was calculated and was 0.6143 which is \> 0.2 (pre-defined threshold).|Fisher Exact|||||||0.6143
92345198|NCT00486044|184593542|SUPERIORITY_OR_OTHER|||||||0.966||95.0|||||Kruskal-Wallis|||||||0.966
92345199|NCT00486044|184593543|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANCOVA|||||||0.015
92345200|NCT00486044|184593544|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||Kruskal-Wallis|||||||0.113
92345201|NCT00486044|184593545|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Kruskal-Wallis|||||||0.210
92345202|NCT02701634|184593546|SUPERIORITY|||||||0.99||||||P-value was calculated using the stratified Cochran-Mantel-Haenszel Chi-square test.|Chi-squared|||||||0.99
92345203|NCT02701634|184593551|SUPERIORITY|||||||0.67|||||||Log Rank|||||||0.67
92345204|NCT02701634|184593552|SUPERIORITY|||||||0.33||||||P-value was calculated using the two sample proportion t-test.|t-test, 2 sided|||||||0.33
92345205|NCT02701634|184593553|SUPERIORITY|||||||0.49||||||P-value was calculated using the two sample proportion t-test.|t-test, 2 sided|||||||0.49
92345206|NCT02701634|184593554|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.8|TWO_SIDED|95.0|0.55|2.18||P-value was calculated using the log-rank test and stratified for disease severity and usage of calcineurin inhibitor or mycophenolate mofetil (MMF).|Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for disease severity and usage of calcineurin inhibitor or MMF|||2.18|0.55|0.800
92399791|NCT00772538|184691010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.0561||95.0|0.42|1.01||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||1.01|0.42|0.0561
92345207|NCT01206764|184593558|OTHER|Kaplan Meier|Median Difference (Net)|27.71|||||TWO_SIDED|95.0|21.86|35.29||||||Single arm open label study||35.29|21.86|
92345208|NCT01206764|184593562|OTHER|Kaplan Meier|Median Difference (Net)|45.71|||||TWO_SIDED|95.0|31.29|106.43||||||The median overall survival was not evaluable, this presents the 25th percentile of overall survival||106.43|31.29|
92345209|NCT00997893|184593573|OTHER|||||||0.004||||||treatment x time p=.004|Mixed Models Analysis||||A mixed effects regression model (Estimation method=maximum likelihood; Random intercept) was conducted to compare the effects of phytoestrogens and estradiol to placebo. Primary predictor variables in the model included treatment and time, as well the treatment by time interaction.|||.004
92345210|NCT00997893|184593574|OTHER|||||||0.98||||||visit x time x treatment interaction p=.98|Mixed Models Analysis||||A mixed effects regression model (Estimation method=maximum likelihood; Random intercept) was conducted to compare the effects of phytoestrogens and estradiol to placebo before and after a psychosocial stressor. Predictor variables in the model included treatment, time (before and after the psychosocial stressor), visit (Baseline, 12 weeks), and all two and three way interactions.|||.98
92345211|NCT00997893|184593575|OTHER|||||||0.68||||||treatment x time (before and after the psychosocial stressor) x visit p=.68|Mixed Models Analysis||||A mixed effects regression model (Estimation method=maximum likelihood; Random intercept) was conducted to compare the effects of phytoestrogens and estradiol to placebo on emotional memory following a laboratory induced stress. Primary predictor variables in the model included treatment, time (before and after the psychosocial stressor), visit (Baseline, 12 weeks), and all two and three way interactions.|||.68
92345212|NCT00997893|184593576|OTHER|||||||0.11||||||treatment x time p=.11|Mixed Models Analysis||||A mixed effects regression model (Estimation method=maximum likelihood; Random intercept) was conducted to compare the effects of phytoestrogens and estradiol to placebo on verbal memory (logical memory; immediate). Primary predictor variables in the model included treatment and time, as well the treatment by time interaction.|||.11
92345213|NCT00997893|184593577|OTHER|||||||0.86||||||treatment x time p=.86|Mixed Models Analysis||||A mixed effects regression model (Estimation method=maximum likelihood; Random intercept) was conducted to compare the effects of phytoestrogens and estradiol to placebo on verbal memory (logical memory; immediate)Primary predictor variables in the model included treatment and time, as well the treatment by time interaction.|||.86
92345214|NCT03620162|184593578|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-3.4|||=|0.525|TWO_SIDED|95.0|-13.6|7.0|||Miettinen & Nurminen method|||Difference in Percentage: Erythema(Group 5 vs 1)||7.0|-13.6|= 0.525
92345215|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-4.5|||=|0.396|TWO_SIDED|95.0|-14.7|5.8|||Miettinen & Nurminen method|||Difference in Percentage: Erythema(Group 4 vs 1)||5.8|-14.7|= 0.396
92345216|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-8.7|||=|0.097|TWO_SIDED|95.0|-18.8|1.6|||Miettinen & Nurminen method|||Difference in Percentage: Erythema(Group 3 vs 1)||1.6|-18.8|= 0.097
92158372|NCT04955626|184203462|OTHER||Geometric mean ratio (GMR)|0.72|||||TWO_SIDED|95.0|0.38|1.37||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.37|0.38|
92345217|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-9.9|||=|0.057|TWO_SIDED|95.0|-19.9|0.3|||Miettinen & Nurminen method|||Difference in Percentage: Erythema(Group 2 vs 1)||0.3|-19.9|= 0.057
92345218|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-8.4|||=|0.085|TWO_SIDED|95.0|-17.8|1.2|||Miettinen & Nurminen method|||Difference in Percentage: Induration(Group 5 vs 1)||1.2|-17.8|= 0.085
92345219|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-9.5|||=|0.05|TWO_SIDED|95.0|-18.9|0.0|||Miettinen & Nurminen method|||Difference in Percentage: Induration(Group 4 vs 1)||-0.0|-18.9|= 0.050
92345220|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-6.5|||=|0.183|TWO_SIDED|95.0|-16.1|3.1|||Miettinen & Nurminen method|||Difference in Percentage: Induration(Group 3 vs 1)||3.1|-16.1|= 0.183
92345221|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-8.7|||=|0.074|TWO_SIDED|95.0|-18.1|0.8|||Miettinen & Nurminen method|||Difference in Percentage: Induration(Group 2 vs 1)||0.8|-18.1|= 0.074
92345222|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|3.4|||=|0.525|TWO_SIDED|95.0|-7.0|13.6|||Miettinen & Nurminen method|||Difference in Percentage: Tenderness(Group 5 vs 1)||13.6|-7.0|= 0.525
92345223|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-0.6|||=|0.915|TWO_SIDED|95.0|-10.8|9.7|||Miettinen & Nurminen method|||Difference in Percentage: Tenderness(Group 4 vs 1)||9.7|-10.8|= 0.915
92158373|NCT04955626|184203462|OTHER||Geometric mean ratio (GMR)|1.19|||||TWO_SIDED|95.0|0.65|2.21||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.21|0.65|
92345224|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|1.9|||=|0.714|TWO_SIDED|95.0|-8.4|12.2|||Miettinen & Nurminen method|||Difference in Percentage: Tenderness(Group 3 vs 1)||12.2|-8.4|= 0.714
92158374|NCT04955626|184203462|OTHER||Geometric mean ratio (GMR)|1.63|||||TWO_SIDED|95.0|0.88|3.02||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.02|0.88|
92345225|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-0.5|||=|0.926|TWO_SIDED|95.0|-10.7|9.7|||Miettinen & Nurminen method|||Difference in Percentage: Tenderness(Group 2 vs 1)||9.7|-10.7|= 0.926
92345226|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.0|||>|0.999|TWO_SIDED|95.0|-8.7|8.7|||Miettinen & Nurminen method|||Difference in Percentage: Swelling(Group 5 vs 1)||8.7|-8.7|> 0.999
92345227|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-2.2|||=|0.609|TWO_SIDED|95.0|-10.8|6.4|||Miettinen & Nurminen method|||Difference in Percentage: Swelling(Group 4 vs 1)||6.4|-10.8|= 0.609
92345228|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|1.8|||=|0.688|TWO_SIDED|95.0|-7.1|10.7|||Miettinen & Nurminen method|||Difference in Percentage: Swelling(Group 3 vs 1)||10.7|-7.1|= 0.688
92345229|NCT03620162|184593578|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-4.1|||=|0.336|TWO_SIDED|95.0|-12.6|4.3|||Miettinen & Nurminen method|||Difference in Percentage: Swelling(Group 2 vs 1)||4.3|-12.6|= 0.336
92345230|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-1.1|||=|0.825|TWO_SIDED|95.0|-11.0|8.8|||Miettinen & Nurminen method|||Difference in Percentage:Appetite lost(Group5 vs1)||8.8|-11.0|= 0.825
92345231|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-0.6|||=|0.912|TWO_SIDED|95.0|-10.4|9.3|||Miettinen & Nurminen method|||Difference in Percentage:Appetite lost(Group4 vs1)||9.3|-10.4|= 0.912
92158375|NCT04955626|184203462|OTHER||Geometric mean ratio (GMR)|1.28|||||TWO_SIDED|95.0|0.68|2.39||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.39|0.68|
92345232|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-8.8|||=|0.074|TWO_SIDED|95.0|-18.3|0.9|||Miettinen & Nurminen method|||Difference in Percentage:Appetite lost(Group3 vs1)||0.9|-18.3|= 0.074
92345233|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Percentage of Participants|-3.7|||=|0.458|TWO_SIDED|95.0|-13.4|6.1|||Miettinen & Nurminen method|||Difference in Percentage:Appetite lost(Group2 vs1)||6.1|-13.4|= 0.458
92345234|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|2.8|||=|0.568|TWO_SIDED|95.0|-6.8|12.3|||Miettinen & Nurminen method|||Difference in Percentage:Irritability(Group 5 vs1)||12.3|-6.8|= 0.568
92345235|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.6|||=|0.91|TWO_SIDED|95.0|-9.1|10.2|||Miettinen & Nurminen method|||Difference in Percentage:Irritability(Group 4 vs1)||10.2|-9.1|= 0.910
92345236|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-4.7|||=|0.354|TWO_SIDED|95.0|-14.5|5.2|||Miettinen & Nurminen method|||Difference in Percentage:Irritability(Group 3 vs1)||5.2|-14.5|= 0.354
92345237|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-6.8|||=|0.178|TWO_SIDED|95.0|-16.6|3.1|||Miettinen & Nurminen method|||Difference in Percentage:Irritability(Group 2 vs1)||3.1|-16.6|= 0.178
92345238|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|3.4|||=|0.52|TWO_SIDED|95.0|-6.8|13.5|||Miettinen & Nurminen method|||Difference in Percentage: Drowsiness(Group 5 vs 1)||13.5|-6.8|= 0.520
92345239|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.0|||>|0.999|TWO_SIDED|95.0|-10.2|10.2|||Miettinen & Nurminen method|||Difference in Percentage: Drowsiness(Group 4 vs 1)||10.2|-10.2|> 0.999
92345240|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-0.2|||=|0.963|TWO_SIDED|95.0|-10.5|10.0|||Miettinen & Nurminen method|||Difference in Percentage: Drowsiness(Group 3 vs 1)||10.0|-10.5|= 0.963
92345241|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-1.2|||=|0.821|TWO_SIDED|95.0|-11.4|9.0|||Miettinen & Nurminen method|||Difference in Percentage: Drowsiness(Group 2 vs 1)||9.0|-11.4|= 0.821
92345242|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-0.6|||=|0.836|TWO_SIDED|95.0|-6.1|5.0|||Miettinen & Nurminen method|||Difference in Percentage: Hives(Group 5 vs 1)||5.0|-6.1|= 0.836
92345243|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|1.7|||=|0.562|TWO_SIDED|95.0|-4.2|7.6|||Miettinen & Nurminen method|||Difference in Percentage: Hives(Group 4 vs 1)||7.6|-4.2|= 0.562
92345244|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-1.6|||=|0.527|TWO_SIDED|95.0|-7.1|3.7|||Miettinen & Nurminen method|||Difference in Percentage: Hives(Group 3 vs 1)||3.7|-7.1|= 0.527
92345245|NCT03620162|184593579|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-3.4|||=|0.16|TWO_SIDED|95.0|-8.6|1.5|||Miettinen & Nurminen method|||Difference in Percentage: Hives(Group 2 vs 1)||1.5|-8.6|= 0.160
92345246|NCT03620162|184593580|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Difference in Percentage (Group 5 vs 1)||2.1|-2.1|
92345247|NCT03620162|184593580|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Difference in Percentage (Group 4 vs 1)||2.1|-2.1|
92345248|NCT03620162|184593580|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.6|||||TWO_SIDED|95.0|-1.6|3.1||||||Difference in Percentage (Group 3 vs 1)||3.1|-1.6|
92345249|NCT03620162|184593580|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Difference in Percentage (Group 2 vs 1)||2.1|-2.1|
92345250|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.69|1.0||||||GMC Ratio: Serotype 1 (Group 4 vs 1)||1.00|0.69|
92345251|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.93|||||TWO_SIDED|95.0|0.77|1.12||||||GMC Ratio: Serotype 1 (Group 3 vs 1)||1.12|0.77|
92345252|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.7|1.0||||||GMC Ratio: Serotype 1 (Group 2 vs 1)||1.00|0.70|
92345253|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.01|||||TWO_SIDED|95.0|0.86|1.19||||||GMC Ratio: Serotype 3 (Group 4 vs 1)||1.19|0.86|
92345254|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.94|||||TWO_SIDED|95.0|0.8|1.12||||||GMC Ratio: Serotype 3 (Group 3 vs 1)||1.12|0.80|
92345255|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.06|||||TWO_SIDED|95.0|0.9|1.25||||||GMC Ratio: Serotype 3 (Group 2 vs 1)||1.25|0.90|
92345256|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.66|1.0||||||GMC Ratio: Serotype 4 (Group 4 vs 1)||1.00|0.66|
92345257|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.68|1.03||||||GMC Ratio: Serotype 4 (Group 3 vs 1)||1.03|0.68|
92345258|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.72|1.08||||||GMC Ratio: Serotype 4 (Group 2 vs 1)||1.08|0.72|
92345259|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.64|0.98||||||GMC Ratio: Serotype 5 (Group 4 vs 1)||0.98|0.64|
92345260|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.84|1.29||||||GMC Ratio: Serotype 5 (Group 3 vs 1)||1.29|0.84|
92345261|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.92|||||TWO_SIDED|95.0|0.75|1.14||||||GMC Ratio: Serotype 5 (Group 2 vs 1)||1.14|0.75|
92345262|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.8|||||TWO_SIDED|95.0|0.66|0.98||||||GMC Ratio: Serotype 6A (Group 4 vs 1)||0.98|0.66|
92345263|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.11|||||TWO_SIDED|95.0|0.91|1.37||||||GMC Ratio: Serotype 6A (Group 3 vs 1)||1.37|0.91|
92345264|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.12|||||TWO_SIDED|95.0|0.92|1.36||||||GMC Ratio: Serotype 6A (Group 2 vs 1)||1.36|0.92|
92345265|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.08|||||TWO_SIDED|95.0|0.88|1.31||||||GMC Ratio: Serotype 6B (Group 4 vs 1)||1.31|0.88|
92345266|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.08|||||TWO_SIDED|95.0|0.88|1.32||||||GMC Ratio: Serotype 6B (Group 3 vs 1)||1.32|0.88|
92345267|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.23|||||TWO_SIDED|95.0|1.02|1.49||||||GMC Ratio: Serotype 6B (Group 2 vs 1)||1.49|1.02|
92345268|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.78|||||TWO_SIDED|95.0|0.64|0.95||||||GMC Ratio: Serotype 7F (Group 4 vs 1)||0.95|0.64|
92345269|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.99|||||TWO_SIDED|95.0|0.81|1.21||||||GMC Ratio: Serotype 7F (Group 3 vs 1)||1.21|0.81|
92345270|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.11|||||TWO_SIDED|95.0|0.92|1.35||||||GMC Ratio: Serotype 7F (Group 2 vs 1)||1.35|0.92|
92345271|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.7|1.01||||||GMC Ratio: Serotype 9V (Group 4 vs 1)||1.01|0.70|
92345272|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.73|1.06||||||GMC Ratio: Serotype 9V (Group 3 vs 1)||1.06|0.73|
92345273|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.94|||||TWO_SIDED|95.0|0.79|1.13||||||GMC Ratio: Serotype 9V (Group 2 vs 1)||1.13|0.79|
92345274|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.03|||||TWO_SIDED|95.0|0.83|1.28||||||GMC Ratio: Serotype 14 (Group 4 vs 1)||1.28|0.83|
92345275|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.43|||||TWO_SIDED|95.0|1.15|1.78||||||GMC Ratio: Serotype 14 (Group 3 vs 1)||1.78|1.15|
92345276|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.39|||||TWO_SIDED|95.0|1.13|1.71||||||GMC Ratio: Serotype 14 (Group 2 vs 1)||1.71|1.13|
92345277|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.07|||||TWO_SIDED|95.0|0.88|1.3||||||GMC Ratio: Serotype 18C (Group 4 vs 1)||1.30|0.88|
92345278|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.44|||||TWO_SIDED|95.0|1.18|1.76||||||GMC Ratio: Serotype 18C (Group 3 vs 1)||1.76|1.18|
92345279|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.51|||||TWO_SIDED|95.0|1.25|1.83||||||GMC Ratio: Serotype 18C (Group 2 vs 1)||1.83|1.25|
92345280|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.69|1.01||||||GMC Ratio: Serotype 19A (Group 4 vs 1)||1.01|0.69|
92345281|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.72|1.07||||||GMC Ratio: Serotype 19A (Group 3 vs 1)||1.07|0.72|
92345282|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.93|||||TWO_SIDED|95.0|0.77|1.13||||||GMC Ratio: Serotype 19A (Group 2 vs 1)||1.13|0.77|
92345283|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.96|||||TWO_SIDED|95.0|0.81|1.15||||||GMC Ratio: Serotype 19F (Group 4 vs 1)||1.15|0.81|
92345284|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.05|||||TWO_SIDED|95.0|0.88|1.26||||||GMC Ratio: Serotype 19F (Group 3 vs 1)||1.26|0.88|
92345285|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.02|||||TWO_SIDED|95.0|0.86|1.21||||||GMC Ratio: Serotype 19F (Group 2 vs 1)||1.21|0.86|
92345286|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.77|||||TWO_SIDED|95.0|0.61|0.96||||||GMC Ratio: Serotype 23F (Group 4 vs 1)||0.96|0.61|
92345287|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.63|0.99||||||GMC Ratio: Serotype 23F (Group 3 vs 1)||0.99|0.63|
92345288|NCT03620162|184593581|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.94|||||TWO_SIDED|95.0|0.76|1.17||||||GMC Ratio: Serotype 23F (Group 2 vs 1)||1.17|0.76|
92345289|NCT03620162|184593582|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the difference in percentages (Group 5/Group 1+Group 2) to be \>-10 percentage points.|Difference in Percentage|-0.2|||<|0.001|TWO_SIDED|95.0|-3.7|2.0|||Miettinen & Nurminen method|||Difference in Percentage (Group 5 vs Group 1+2)||2.0|-3.7|< 0.001
92345290|NCT03620162|184593583|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the GMT ratio (Group 5/Group 1+Group 2) to be \>0.5.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.7|1.34|||ANCOVA|||GMT Ratio (Group 5 vs Group 1+2)||1.34|0.70|< 0.001
92345291|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.72|||||TWO_SIDED|95.0|0.6|0.86||||||GMC Ratio: Serotype 1 (Group 5 vs 1)||0.86|0.60|
92345292|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.22|||||TWO_SIDED|95.0|1.04|1.44||||||GMC Ratio: Serotype 3 (Group 5 vs 1)||1.44|1.04|
92345293|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.73|1.1||||||GMC Ratio: Serotype 4 (Group 5 vs 1)||1.10|0.73|
92345294|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.64|0.97||||||GMC Ratio: Serotype 5 (Group 5 vs 1)||0.97|0.64|
92345295|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.69|||||TWO_SIDED|95.0|0.57|0.84||||||GMC Ratio: Serotype 6A (Group 5 vs 1)||0.84|0.57|
92399792|NCT00772538|184691011|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.5604||95.0|0.3|1.92||Significance level of alpha=0.05 (two-sided).|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium|||1.92|0.30|0.5604
92399793|NCT00772538|184691012|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87|STANDARD_ERROR_OF_MEAN|0.21||0.5538||95.0|0.54|1.39||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo|||1.39|0.54|0.5538
92345296|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.95|||||TWO_SIDED|95.0|0.78|1.15||||||GMC Ratio: Serotype 6B (Group 5 vs 1)||1.15|0.78|
92345297|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.67|||||TWO_SIDED|95.0|0.55|0.82||||||GMC Ratio: Serotype 7F (Group 5 vs 1)||0.82|0.55|
92345298|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.99|||||TWO_SIDED|95.0|0.82|1.18||||||GMC Ratio: Serotype 9V (Group 5 vs 1)||1.18|0.82|
92345299|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.7|1.07||||||GMC Ratio: Serotype 14 (Group 5 vs 1)||1.07|0.70|
92345300|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.03|||||TWO_SIDED|95.0|0.85|1.25||||||GMC Ratio: Serotype 18C (Group 5 vs 1)||1.25|0.85|
92345301|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.65|0.95||||||GMC Ratio: Serotype 19A (Group 5 vs 1)||0.95|0.65|
92399794|NCT00772538|184691013|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.633||95.0|0.25|2.13||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||2.13|0.25|0.6330
92399795|NCT00772538|184691014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.074||0.5714||95.0|-0.103|0.186||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.186|-0.103|0.5714
92345302|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.72|1.02||||||GMC Ratio: Serotype 19F (Group 5 vs 1)||1.02|0.72|
92345303|NCT03620162|184593586|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.73|||||TWO_SIDED|95.0|0.59|0.91||||||GMC Ratio: Serotype 23F (Group 5 vs 1)||0.91|0.59|
92345304|NCT05352815|184593601|SUPERIORITY|Change in HbA1c from baseline to week 52 is analysed using an analysis of covariance (ANCOVA) model with region and randomised treatment as fixed factors and baseline HbA1c as covariate. Missing HbA1c values at week 52 are imputed by using multiple imputation. Each imputed dataset is analysed separately and estimates are combined using Rubin's rules.|Treatment difference|-0.66|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.57|||ANCOVA|||||-0.57|-0.76|<0.0001
92345305|NCT01258049|184593611|SUPERIORITY_OR_OTHER||Percentage Difference|54.85|||<|0.005|TWO_SIDED|95.0|42.25|67.45|||Regression, Logistic|||In ART003, the parasite success rate for quinine was 67.7%. On the assumption that the parasite success rate was 70% for quinine in this study and in order to demonstrate that ArTiMist™ is superior to quinine by at least 20% the success rate for ArTiMist™ should be at least 90%. Using these figures, and assuming a power of 80%, an alpha of 0.05 (two sided) and based on an equal allocation to the ArTiMist™ and quinine treatment arms, the number of subjects (n) required on each treatment was 59.||67.45|42.25|<0.005
92345306|NCT01258049|184593612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-38.97|||<|0.05|TWO_SIDED|95.0|-62.22|-15.72|||ANCOVA|||||-15.72|-62.22|<0.05
92345307|NCT01258049|184593613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.91|||<|0.005|TWO_SIDED|95.0|-17.38|-8.44|||ANCOVA|||||-8.44|-17.38|<0.005
92345308|NCT01258049|184593614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.16|||<|0.005|TWO_SIDED|95.0|-11.71||||Regression, Cox|||||- 6.61|-11.71|<0.005
92345309|NCT01258049|184593615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|54.02|||<|0.005|TWO_SIDED|95.0|27.05|80.98|||ANCOVA|||||80.98|27.05|<0.005
92345310|NCT01258049|184593616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|174.09||||0.06|TWO_SIDED|95.0|-10.44|358.61|||ANCOVA||mean parasite counts increased in the first 12 hours for patients on quinine treatment|||358.61|-10.44|0.06
92345311|NCT01258049|184593617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96||||0.86|TWO_SIDED|95.0|-10.16|12.08|||Regression, Cox|||||12.08|-10.16|0.86
92345312|NCT01258049|184593618|SUPERIORITY_OR_OTHER||Percentage Difference|0.99||||0.99|TWO_SIDED|95.0|0.42|2.36|||Regression, Logistic|||||2.36|0.42|0.99
92345313|NCT01258049|184593621|SUPERIORITY_OR_OTHER||Percentage Difference|55.01|||<|0.005|TWO_SIDED|95.0|42.44|67.58|||Regression, Linear|||||67.58|42.44|<0.005
92345314|NCT00961415|184593627|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.37|0.69|||Log Rank|||||0.69|0.37|<0.001
92345315|NCT00961415|184593628|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.23|TWO_SIDED|95.0|0.47|1.2|||Log Rank|||||1.20|0.47|0.230
92345316|NCT00961415|184593630|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53||||0.006|TWO_SIDED|95.0|0.34|0.84|||Log Rank|||||0.84|0.34|0.006
92345317|NCT00961415|184593631|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.38|0.7|||Log Rank|||||0.70|0.38|<0.001
92345318|NCT02309359|184593636|OTHER|Under the assumption of monotonicity, a Cochran-Armitage trend test was performed as the primary efficacy analysis. Data were analyzed according to the intent-to-treat (ITT) principle; thus, subjects were analyzed according to the treatment to which they were assigned. Subjects with missing ACR20 response at Week 12 were treated as non responders (non responder imputation approach).||||||0.172|||||||Cochran-Armitage trend test|||The null hypothesis of this test was that there is no difference in the percentage of subjects achieving ACR20 response between the treatment groups and the alternative hypothesis was that the percentage of subjects achieving ACR20 response increases with increasing dose level.||||0.172
92345319|NCT01704261|184593717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|||<|0.001|TWO_SIDED|95.0|-0.85|-0.38|||Difference in the least squares means|Based on a constrained longitudinal data analysis (cLDA) method with a restriction of the same baseline mean across treatment groups.||||-0.38|-0.85|<0.001
92345320|NCT01704261|184593718|SUPERIORITY_OR_OTHER||Difference in % Omarigliptin vs Placebo|9.8|||||TWO_SIDED|95.0|-1.4|20.8||||||||20.8|-1.4|
92345321|NCT01704261|184593719|SUPERIORITY_OR_OTHER||Difference in % Omarigliptin vs Placebo|0.0|||||TWO_SIDED|95.0|-4.3|4.3||||||||4.3|-4.3|
92345322|NCT01704261|184593720|SUPERIORITY_OR_OTHER||Difference of the least squares means|-16.6|||<|0.001|TWO_SIDED|95.0|-25.5|-7.8|||Difference in the least squares means|Based on a constrained longitudinal data analysis (cLDA) method with a restriction of the same baseline mean across treatment groups.||||-7.8|-25.5|<0.001
92345323|NCT01704261|184593721|SUPERIORITY_OR_OTHER||Between-group Rate Difference|19.3|||<|0.001|TWO_SIDED|95.0|11.7|27.6|||Miettinen & Nurminen method|Between-group confidence intervals and p-value (%) A1C \<7.0%; estimated using standard multiple imputation techniques.||||27.6|11.7|<0.001
92345324|NCT01704261|184593721|SUPERIORITY_OR_OTHER||Between-group Rate Difference (%)|8.0||||0.005|TWO_SIDED|95.0|2.7|14.5|||Miettinen & Nurminen method|Between-group confidence intervals and p-value (%) A1C \<7.0%; estimated using standard multiple imputation techniques.||||14.5|2.7|0.005
92345325|NCT00909870|184593795|SUPERIORITY_OR_OTHER||Difference in proportions|6.5||||0.103|TWO_SIDED|95.0||||This p-value did not meet the prespecified threshold for statistical significance of \< 0.05|Chi-squared|Unadjusted||"H0: the proportion of responders in the Dermagraft group = the proportion of responders in the Control group.~HA: the proportion of responders in the Dermagraft group ≠ the proportion of responders in the Control group.~The proportion of responders in the Dermagraft group was compared with the proportion of responders in the control group using the uncorrected chi-square test for 2x2 contingency tables. The difference between the groups was expected to be 13%."||||0.1030
92345326|NCT00909870|184593796|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.0||||0.4046||95.0||||This p-value did not meet the prespecified threshold for statistical significance of \< 0.05|Log Rank|||||||0.4046
92345327|NCT00909870|184593797|SUPERIORITY_OR_OTHER||Difference in proportions|10.0||||0.0239||95.0||||Unadjusted|Chi-squared|Unadjusted||Pre-specified subgroup analysis of the primary endpoint||||0.0239
92345328|NCT03699748|184593798|OTHER||Mean Difference (Net)|10.92|||<|0.001|TWO_SIDED|95.0|7.27|14.58|||Type III F test|||||14.58|7.27|<0.001
92345329|NCT03699748|184593801|OTHER||Effect Estimate for 4 Months|12.88|||||TWO_SIDED||||||||12.88 (9.49 - 16.28)||Effect estimates were expected mean differences in Patient Activation Measure scores between groups from baseline. Effect estimates were estimated using generalized estimating equations (GEE) models as a function of treatment group, categorical time (baseline, 4 months and 12 months), and an interaction term between treatment group and time with an exchangeable correlation clustered within person. The effect estimate column shows the difference between change in the intervention group from baseline and the change in the control group from baseline.|||
92345330|NCT03699748|184593802|OTHER||Effect Estimate for 12 Months|20.65|||||TWO_SIDED||||||||20.65 (6.97 - 24.32)||Effect estimates were expected mean differences in Patient Activation Measure scores between groups from baseline. Effect estimates were estimated using generalized estimating equations (GEE) models as a function of treatment group, categorical time (baseline, 4 months and 12 months), and an interaction term between treatment group and time with an exchangeable correlation clustered within person.|||
92345331|NCT03699748|184593803|OTHER||Median Difference (Net)|11.05||||0.001|TWO_SIDED|95.0|7.09|15.0|||Type III F-test|||||15.00|7.09|0.001
92345332|NCT03699748|184593805|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED||||||||0.91 (0.40-2.09)||Odds Ratios for any emergency room use and any hospitalization use were estimated using logistic regression models.|||
92345333|NCT03699748|184593806|OTHER||Odds Ratio (OR)|0.27|||||TWO_SIDED||||||||0.27 (0.03 - 2.85)||Odds Ratios for any ED Use were estimated using logistic regression models.|||
92345334|NCT03699748|184593807|OTHER||Odds Ratio (OR)|0.38|||||TWO_SIDED||||||||0.38 (0.18-0.76)||Odds Ratios for any emergency room use and any hospitalization use were estimated using logistic regression models.|||
92345335|NCT03699748|184593808|OTHER||Odds Ratio (OR)|0.42|||||TWO_SIDED||||||||0.42 (0.22-0.79)||Odds Ratios for any emergency room use and any hospitalization use were estimated using logistic regression models.|||
92345336|NCT03699748|184593809|OTHER||Odds Ratio (OR)|0.38|||||TWO_SIDED||||||||0.38 (0.08-1.75)||Odds Ratios for Hospitalization Use were estimated using logistic regression models.|||
92345337|NCT03699748|184593810|OTHER||Odds Ratio, log|5.86|||||TWO_SIDED||||||||Odds Ratios for Goals of Care Documentation, Advance Directive Documentation, and Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments 4-months and 12-months post-enrollment with logistic regression.|||||
92345338|NCT03699748|184593811|OTHER||Odds Ratio (OR)|4.09|||||TWO_SIDED||||||||Odds Ratios for Goals of Care Documentation, Advance Directive Documentation, and Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments 4-months and 12-months post-enrollment with logistic regression.|||||
92399796|NCT00772538|184691015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.075||0.6099||95.0|-0.109|0.185||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.185|-0.109|0.6099
92345339|NCT03699748|184593812|OTHER||Odds Ratio (OR)|6.82|||||TWO_SIDED||||||||6.82 (2.46-18.93)||Odds Ratios for Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments 4-months post-enrollment with logistic regression.|||
92345340|NCT03699748|184593813|OTHER||Odds Ratio (OR)|3.62|||||TWO_SIDED||||||||3.62 (1.73-7.60)||Odds Ratios for Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments at 12-months post-enrollment with logistic regression.|||
92345341|NCT03699748|184593814|OTHER||Odds Ratio, log|8.56|||||TWO_SIDED||||||||Odds Ratios for Goals of Care Documentation, Advance Directive Documentation, and Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments 4-months and 12-months post-enrollment with logistic regression.|||||
92345342|NCT03699748|184593815|OTHER||Odds Ratio, log|19.55|||||TWO_SIDED||||||||Odds Ratios for Goals of Care Documentation, Advance Directive Documentation, and Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments at 12-months post-enrollment with logistic regression.|||||
92345343|NCT03699748|184593816|OTHER||Effect Estimate|0.65|||||TWO_SIDED||||||||0.65 (0.44-0.98)||Proportional change in total health care costs are expressed as referent to the control group and were modeled using a generalized linear model with gamma link-log function to account for skewed cost data after adjustment for length of follow-up.|||
92345344|NCT03699748|184593817|OTHER||Effect Estimate|0.57|||||TWO_SIDED||||||||0.57 (0.28 - 1.18)||Proportional change in total health care costs are expressed as referent to the control group and were modeled using a generalized linear model with gamma link-log function to account for skewed cost data.|||
92345345|NCT03699748|184593818|OTHER||Odds Ratio (OR)|6.82|||||TWO_SIDED||||||||6.82 (2.46-18.93)||Odds Ratios for palliative care receipt and hospice receipt were estimated based on assessments 4-months and 12-months post-enrollment compared with baseline (time of enrollment) using logistic regression.|||
92345346|NCT03699748|184593819|OTHER||Odds Ratio (OR)|3.62|||||TWO_SIDED||||||||3.62 (1.73-7.60)||Odds Ratios for palliative care receipt and hospice receipt were estimated based on assessments 4-months and 12-months post-enrollment compared with baseline (time of enrollment) using logistic regression.|||
92345347|NCT03699748|184593820|OTHER||Effect Estimate|5.71|||||TWO_SIDED||||||||5.71 (1.56-20.93)||Odds Ratios for any ED Use and any Palliative Care were estimated using logistic regression models. Incidence Rate Ratios (IRR) were estimated using Poisson models. All ratios are expressed as referent to the control group.|||
92345348|NCT03699748|184593821|OTHER||Odds Ratio (OR)|4.33|||||TWO_SIDED||||||||4.33 (0.89-21.08)||Odds Ratios for palliative care receipt and hospice receipt were estimated based on assessments 4-months and 12-months post-enrollment compared with baseline (time of enrollment) using logistic regression.|||
92345349|NCT03699748|184593822|OTHER||Odds Ratio (OR)|2.76|||||TWO_SIDED||||||||2.76 (1.01-7.55)||Odds Ratios for palliative care receipt and hospice receipt were estimated based on assessments at 12-months post-enrollment compared with baseline (time of enrollment) using logistic regression.|||
92399797|NCT00772538|184691016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.126|STANDARD_ERROR_OF_MEAN|0.066||0.0586||95.0|-0.256|0.005||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.005|-0.256|0.0586
92345350|NCT03699748|184593823|OTHER||Effect Estimate|5.71|||||TWO_SIDED||||||||5.71 (1.56-20.93)||Odds Ratios for any ED Use and any Hospice Receipt were estimated using logistic regression models. Incidence Rate Ratios (IRR) were estimated using Poisson models. All ratios are expressed as referent to the control group.|||
92345351|NCT03818854|184593827|SUPERIORITY|Using the change in oxygenation index over 36 hours from the baseline as the primary outcome with measurements taken at 6 time points, the trial was estimated to have 80% power to detect an effect size difference of 0.43 between the trial arms.||||||0.34||||||The mixed model included the following variables: treatment arm, 6 time-points, sites, pre-defined randomization stratifications and the baseline characteristics with bivariate analyses P \< 0.20.|Mixed Models Analysis|||||||0.34
92345352|NCT03818854|184593828|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||The analysis is for the change of LIS from the baseline to day 1.||||0.92
92345353|NCT03818854|184593828|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||The analysis is for the change of LIS from the baseline to day 2.||||0.37
92345354|NCT03818854|184593828|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||The analysis is for the change of LIS from the baseline to day 3.||||0.54
92345355|NCT03818854|184593828|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||The analysis is for the change of LIS from the baseline to day 7.||||0.19
92345356|NCT03818854|184593830|SUPERIORITY|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||The analysis is for the change in RALE scores from the baseline to day 1.||||0.35
92345357|NCT03818854|184593830|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||The analysis is for the change in RALE scores from the baseline to day 2.||||0.25
92345358|NCT03818854|184593830|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||The analysis is for the change in RALE scores from the baseline to day 3.||||0.69
92345359|NCT03818854|184593830|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||The analysis is for the change in RALE scores from the baseline to day 7.||||0.08
92345360|NCT03818854|184593831|SUPERIORITY|||||||0.01||||||P-value was given by ordered logistic regression model.|Regression, Logistic|||||||0.01
92345361|NCT03818854|184593832|SUPERIORITY|||||||0.02||||||P-value was given by ordered logistic regression model.|Regression, Logistic|||||||0.02
92345362|NCT03818854|184593833|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92345363|NCT03818854|184593834|SUPERIORITY|||||||0.35|||||||Chi-squared|||||||0.35
92345364|NCT03818854|184593835|SUPERIORITY|||||||0.36|||||||Fisher Exact|||The analysis is for the percentages of patients who developed incision/wound infection events by day 14.||||0.36
92345365|NCT03818854|184593835|SUPERIORITY|||||||0.5|||||||Fisher Exact|||The analysis is for the percentages of patients who developed organ/space infection events by day 14.||||0.50
92345366|NCT03818854|184593835|SUPERIORITY|||||||0.2|||||||Fisher Exact|||The analysis is for the percentages of patients who developed ventilator-associated pneumonia by day 14.||||0.20
92345367|NCT03818854|184593836|SUPERIORITY|||||||0.56||||||The threshold for statistical significance was p=0.05.|Chi-squared|||||||0.56
92345368|NCT03818854|184593837|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||The analysis for the SOFA score between two arms at Day 3.||||0.32
92345369|NCT03818854|184593837|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||The analysis for the SOFA score between two arms at Day 7.||||0.33
92345370|NCT03818854|184593838|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||The analysis is for non-pulmonary SOFA scores between the two arms at Day 3.||||0.39
92345371|NCT03818854|184593838|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||The analysis is for non-pulmonary SOFA scores between the two arms at Day 7.||||0.26
92345372|NCT03818854|184593839|SUPERIORITY|||||||0.29||||||The threshold for statistical significance was p=0.05|Chi-squared|||The analysis is for the mortality between two arms at Day 14.||||0.29
92345373|NCT03818854|184593839|SUPERIORITY|||||||0.83|||||||Chi-squared|||The analysis is for the mortality between the two arms at Day 28.||||0.83
92345374|NCT03818854|184593839|SUPERIORITY|||||||0.56|||||||Chi-squared|||The analysis is for the mortality between the two arms at Day 60.||||0.56
92345375|NCT03818854|184593840|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
92345376|NCT03818854|184593841|SUPERIORITY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||Plasma angiopoietin-2 changes from the baseline between two arms at 6 hours since the initiation of the study product infusion.||||0.56
92345377|NCT03818854|184593841|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Plasma angiopoietin-2 changes from the baseline between two arms at 24 hours since the initiation of the study product infusion.||||0.79
92345378|NCT03818854|184593841|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Plasma angiopoietin-2 changes from the baseline between two arms at 48 hours since the initiation of the study product infusion.||||0.62
92345379|NCT03818854|184593841|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Plasma angiopoietin-2 changes from the baseline between two arms at 72 hours since the initiation of the study product infusion.||||0.67
92345380|NCT03818854|184593842|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Plasma RAGE changes from the baseline between two arms at 6 hours since the initiation of the study product infusion.||||0.60
92345381|NCT03818854|184593842|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Plasma RAGE changes from the baseline between two arms at 24 hours since the initiation of the study product infusion.||||0.04
92345382|NCT03818854|184593842|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Plasma RAGE changes from the baseline between two arms at 48 hours since the initiation of the study product infusion.||||0.09
92345383|NCT03818854|184593842|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Plasma RAGE changes from the baseline between two arms at 72 hours since the initiation of the study product infusion.||||0.38
92345384|NCT03818854|184593843|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Plasma IL-6 changes from the baseline between two arms at 6 hours since the initiation of the study product infusion.||||0.28
92345385|NCT03818854|184593843|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Plasma IL-6 changes from the baseline between two arms at 24 hours since the initiation of the study product infusion.||||0.10
92345386|NCT03818854|184593843|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Plasma IL-6 changes from the baseline between two arms at 48 hours since the initiation of the study product infusion.||||0.15
92218014|NCT01843972|184336701|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|95.48|STANDARD_DEVIATION|30.8|||TWO_SIDED|90.0|74.414|122.511|||ANOVA||The geometric mean ratio is calculated as the geometric mean of 'BI 691751 tablet extensive metabolizers (part II)' divided by the geometric mean of 'BI 691751 solution (part II)'.|Only extensive CYP2D6 metabolisers were selected: 12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)' and 7 (all investigated) subjects of group 'BI 691751 solution (part II) '.||122.511|74.414|
92345387|NCT03818854|184593843|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Plasma IL-6 changes from the baseline between two arms at 72 hours since the initiation of the study product infusion.||||0.34
92345388|NCT03818854|184593844|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Plasma IL-8 changes from the baseline between two arms at 6 hours since the initiation of the study product infusion.||||0.85
92345389|NCT03818854|184593844|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Plasma IL-8 changes from the baseline between two arms at 24 hours since the initiation of the study product infusion.||||0.50
92399798|NCT00772538|184691017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.121|STANDARD_ERROR_OF_MEAN|0.067||0.0727||95.0|-0.253|0.011||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.011|-0.253|0.0727
92399799|NCT00772538|184691018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.024||0.9807||95.0|-0.048|0.047||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.047|-0.048|0.9807
92399800|NCT00772538|184691019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.092|STANDARD_ERROR_OF_MEAN|0.172||0.5927||95.0|-0.43|0.246||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.246|-0.430|0.5927
92218015|NCT01843972|184336701|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|109.8|STANDARD_DEVIATION|28.8|||TWO_SIDED|90.0|84.376|142.894|||ANOVA||The geometric mean ratio was calculated as the geometric mean of the poor metabolisers divided by the geometric mean of the extensive metabolisers.|Comparison of poor metabolisers (5 (all) subjects of group 'BI 691751 tablet poor metabolizers (part II)') and extensive metabolisers (12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)').||142.894|84.376|
92218016|NCT01843972|184336701|NON_INFERIORITY_OR_EQUIVALENCE|This was non-confirmatory testing.|Slope|1.0312|||||TWO_SIDED|95.0|0.833|1.179|||Regression, Linear|||||1.1790|0.833|
92345390|NCT03818854|184593844|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Plasma IL-8 changes from the baseline between two arms at 48 hours since the initiation of the study product infusion.||||0.64
92345391|NCT03818854|184593844|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Plasma IL-8 changes from the baseline between two arms at 72 hours since the initiation of the study product infusion.||||0.70
92345392|NCT03818854|184593845|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of TNFR-1 at 6 hours since the initiation of study product infusion from the baseline.||||0.32
92345393|NCT03818854|184593845|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of TNFR-1 at 24 hours since the initiation of study product infusion from the baseline.||||0.02
92345394|NCT03818854|184593845|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of TNFR-1 at 48 hours since the initiation of study product infusion from the baseline.||||0.02
92345395|NCT03818854|184593845|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of TNFR-1 at 72 hours since the initiation of study product infusion from the baseline.||||0.19
92345396|NCT03818854|184593846|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of Protein C at 6 hours since the initiation of study product infusion from the baseline.||||0.16
92345397|NCT03818854|184593846|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of Protein C at 24 hours since the initiation of study product infusion from the baseline.||||0.64
92345398|NCT03818854|184593846|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of Protein C at 48 hours since the initiation of study product infusion from the baseline.||||0.80
92345399|NCT03818854|184593846|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of Protein C at 72 hours since the initiation of study product infusion from the baseline.||||0.40
92345400|NCT03818854|184593847|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of ANG-1 at 6 hours since the initiation of study product infusion from the baseline.||||0.85
92345401|NCT03818854|184593847|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of ANG-1 at 24 hours since the initiation of study product infusion from the baseline.||||0.22
92345402|NCT03818854|184593847|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of ANG-1 at 48 hours since the initiation of study product infusion from the baseline.||||0.61
92399801|NCT00772538|184691020|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.0427|TWO_SIDED|95.0|1.01|1.73||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|Comparison at 24 weeks||1.73|1.01|0.0427
92345403|NCT03818854|184593847|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||The analysis for the changes of ANG-1 at 72 hours since the initiation of study product infusion from the baseline.||||0.98
92345404|NCT03818854|184593853|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92345405|NCT01420536|184593855|SUPERIORITY_OR_OTHER_LEGACY|||||||0.569|TWO_SIDED|95.0||||P values less than 0.05 would be considered statistically significant in this study.|Wilcoxon (Mann-Whitney)|||Statistical analysis was performed by a researcher who was unaware of all procedures performed. The questionnaire about denture satisfaction originated a general score that was compared using the Wilcoxon test, according to the two tested conditions.||||0.569
92345406|NCT01420536|184593856|SUPERIORITY_OR_OTHER_LEGACY|||||||0.339|TWO_SIDED|95.0||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.339
92345407|NCT01420536|184593857|SUPERIORITY|||||||0.515||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.515
92345408|NCT01420536|184593858|SUPERIORITY_OR_OTHER_LEGACY|||||||0.485||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.485
92345409|NCT01420536|184593859|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.111
92345410|NCT01420536|184593860|SUPERIORITY_OR_OTHER_LEGACY|||||||0.399||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.399
92158376|NCT04955626|184203462|OTHER||Geometric mean ratio (GMR)|1.42|||||TWO_SIDED|95.0|0.76|2.67||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.67|0.76|
92345411|NCT01420536|184593861|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.550
92345412|NCT01420536|184593862|SUPERIORITY_OR_OTHER_LEGACY|||||||0.609||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.609
92345413|NCT01420536|184593863|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.600
92345414|NCT01420536|184593864|SUPERIORITY_OR_OTHER_LEGACY|||||||0.611||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.611
92345415|NCT01420536|184593865|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.044
92345416|NCT01420536|184593866|SUPERIORITY_OR_OTHER_LEGACY|||||||0.677||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.677
92345417|NCT01420536|184593867|SUPERIORITY_OR_OTHER_LEGACY|||||||0.885||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.885
92345418|NCT03191552|184593889|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92158377|NCT04955626|184203463|OTHER||Geometric mean ratio (GMR)|0.52|||||TWO_SIDED|95.0|0.21|1.25||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.25|0.21|
92345419|NCT03191552|184593890|SUPERIORITY|||||||0.027||||||Mann-Whitney U test was used to test the significance of pairwise differences using Bonferroni correction to adjust for multiple comparisons.p value of less than 0.05/3 was determined as the level of statistical significance.|Kruskal-Wallis|||||||0.027
92345420|NCT03191552|184593891|SUPERIORITY|||||||0.008||||||Mann-WhitneyU test was used to test the significance of pairwise differences using Bonferroni correction to adjust for multiple comparisons.p value of less than 0.05/3 was determined as the level of statistical significance.|Kruskal-Wallis|||||||0.008
92345421|NCT03191552|184593892|SUPERIORITY|Mann-WhitneyU test was used to test the significance of pairwise differences using Bonferroni correction to adjust for multiple comparisons.p value of less than 0.05/3 was determined as the level of statistical significance.||||||0.004||||||Mann-WhitneyU test was performed to test the significance of pairwise differences using Bonferroni correction to adjust for multiple comparisons.p value of less than 0.05/3 was determined as the level of statistical significance.|Kruskal-Wallis|||||||0.004
92345422|NCT03191552|184593893|SUPERIORITY|||||||0.837|||||||Kruskal-Wallis|||||||0.837
92345423|NCT03191552|184593894|SUPERIORITY|||||||0.57|||||||Kruskal-Wallis|||||||0.570
92345424|NCT03191552|184593895|SUPERIORITY|||||||0.334|||||||Kruskal-Wallis|||||||0.334
92345425|NCT03191552|184593896|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92345426|NCT03191552|184593897|SUPERIORITY|||||||0.77|||||||Kruskal-Wallis|||||||0.77
92345427|NCT03191552|184593898|SUPERIORITY|||||||0.889|||||||Kruskal-Wallis|||||||0.889
92345428|NCT03191552|184593899|SUPERIORITY|||||||0.956|||||||Kruskal-Wallis|||||||0.956
92345429|NCT03191552|184593900|SUPERIORITY||||||,|0||||||Mann-WhitneyU test was used to test the significance of pairwise differences using Bonferroni correction to adjust for multiple comparisons.p value of less than 0.05/3 was determined as the level of statistical significance.|Kruskal-Wallis|||||||0,001
92345430|NCT03191552|184593901|SUPERIORITY|||||||0.14|||||||Kruskal-Wallis|||||||0.14
92345431|NCT03191552|184593902|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|||||||0.08
92345432|NCT03191552|184593903|SUPERIORITY|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
92345433|NCT03191552|184593904|SUPERIORITY|||||||0.244|||||||Wilcoxon (Mann-Whitney)|||||||0.244
92345434|NCT03191552|184593905|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92345435|NCT02555254|184593915|SUPERIORITY|||||||0.55|||||||Wilcoxon's rank test|||||||0.55
92345436|NCT04780659|184593919|OTHER||||||<|0.05||||||The reported p-value was calculated.|Fisher Exact|||||||< 0.05
92345437|NCT04780659|184593922|OTHER||||||<|0.05|||||||Chi-squared|||||||< 0.05
92345438|NCT04780659|184593923|OTHER||||||<|0.05|||||||Chi-squared|||||||< 0.05
92345439|NCT03729362|184593925|SUPERIORITY|Analysis used a mixed-effect model for repeated measures (MMRM). The model included terms for treatment, baseline 6MWD, age, height, weight (all as continuous covariates), enzyme replacement therapy (ERT) status (ERT-naïve versus ERT-experienced), gender, time, and treatment-by-time interaction. Time was used as a repeated measure, and an unstructured covariance approach was applied.|LS Mean Difference|14.21|STANDARD_ERROR_OF_MEAN|8.481||0.048|TWO_SIDED|95.0|-2.6|31.02||1-sided significance level of 0.025.|MMRM|||"The primary and key secondary endpoints were tested in hierarchical order as follows:~The test for the primary endpoint was conducted first at the 1-sided 0.025 significance level, and if significant, the ordered key secondary endpoints were similarly tested. If at any point the null hypothesis for superiority failed to be rejected, then that comparison and any other comparison below it could not be claimed as successful and would be considered nominal."||31.02|-2.6|0.048
92345440|NCT03729362|184593926|SUPERIORITY|The analysis used an Analysis of Covariance (ANCOVA) model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|2.66|STANDARD_ERROR_OF_MEAN|1.156||0.012|TWO_SIDED|95.0|0.37|4.95||1-sided significance level of 0.025.|ANCOVA|||Change from baseline to Week 52 in sitting FVC was the first of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||4.95|0.37|0.012
92345441|NCT03729362|184593927|SUPERIORITY|The analysis used an ANCOVA model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|0.96|STANDARD_ERROR_OF_MEAN|0.727||0.095|TWO_SIDED|95.0|-0.48|2.4||1-sided significance level of 0.025.|ANCOVA|||Change from baseline to Week 52 in the MMT score for the lower extremities was the second of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||2.4|-0.48|0.095
92345442|NCT03729362|184593928|SUPERIORITY|The analysis used an ANCOVA model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|8.17|STANDARD_ERROR_OF_MEAN|6.261||0.097|TWO_SIDED|95.0|-4.24|20.57||1-sided significance level of 0.025.|ANCOVA|||Change from baseline to Week 26 in 6MWD was the third of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||20.57|-4.24|0.097
92345443|NCT03729362|184593929|SUPERIORITY|The analysis used an ANCOVA model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|1.87|STANDARD_ERROR_OF_MEAN|1.706||0.138|TWO_SIDED|95.0|-1.51|5.25||1-sided significance level of 0.025|ANCOVA|||Change from baseline to Week 52 in the total score for the PROMIS® - Physical Function was the fourth of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||5.25|-1.51|0.138
92345444|NCT03729362|184593930|SUPERIORITY|The analysis used an ANCOVA model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|1.092||0.515|TWO_SIDED|95.0|-2.12|2.2||1-sided significance level of 0.025|ANCOVA|||Change from baseline to Week 52 in the total score for the PROMIS® - Fatigue was the fifth of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||2.2|-2.12|0.515
92345445|NCT03729362|184593931|SUPERIORITY|The analysis used an ANCOVA model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|-1.414|STANDARD_ERROR_OF_MEAN|0.528||0.004|TWO_SIDED|95.0|-2.463|-0.364||1-sided significance level of 0.025.|ANCOVA|||Change from baseline to Week 52 in the total score for the GSGC was the sixth of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||-0.364|-2.463|0.004
92345446|NCT03405870|184593959|OTHER|Determined maximum tolerated dose|Value of Maximum Tolerated Dose (g/kg)|1.6|||||TWO_SIDED|||||||||Using sequential dose escalation, participants received 2 doses of 1.0 to 1.6 g/kg of lipid emulsion (Smoflipid 20% lipid emulsion) within 48 hours of enrollment to test the maximum tolerated dose of study drug. The maximum tolerated dose was defined by patients exhibiting specific dose-related toxicities from administration of escalating doses of the study drug. Of 9 patients, adverse events were only considered dose-limiting toxicities if they met the predefined study protocol criteria.||||
92345447|NCT02807259|184593962|EQUIVALENCE|Power calculations did not account for stratification used in the randomisation or include adjustment for baseline levels of the outcome, since the correlation over time was not known. Results suggested that the trial had \>80% power to detect a risk ratio of 0.77, if the coefficient of between-cluster variation was between 0.15 and 0.25.|Odds Ratio (OR)|1.47||||0.298|TWO_SIDED|95.0|0.71|3.01|||Mixed Models Analysis|||Power calculations were conducted assuming an IPV prevalence (past 12 months) of 47% and consistent condom use (past 12 months) of 38% based on initial assessments. The power calculation was performed by analysing simulated data from 800 women, distributed across clusters using empirical data with a range in variance across cluster-level proportions of IPV (15% to 25% of the total variation) and a narrow range of effect sizes (risk ratio= 0.75-0.80).||3.01|0.71|0.298
92345448|NCT02807259|184593963|OTHER||Odds Ratio (OR)|1.38||||0.378|TWO_SIDED|95.0|0.68|2.81|||Mixed Models Analysis|||||2.81|0.68|0.378
92345449|NCT02807259|184593964|OTHER||Odds Ratio (OR)|0.93||||0.748|TWO_SIDED|95.0|0.58|1.47|||Mixed Models Analysis|||||1.47|0.58|0.748
92345450|NCT02807259|184593965|OTHER||Odds Ratio (OR)|0.62||||0.025|TWO_SIDED|95.0|0.4|0.94|||Mixed Models Analysis|||||0.94|0.4|0.025
92399802|NCT00772538|184691020|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0001|TWO_SIDED|95.0|1.28|2.21||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|Comparison at 48 weeks||2.21|1.28|0.0001
92345451|NCT02807259|184593966|OTHER||Odds Ratio (OR)|2.07||||0.372|TWO_SIDED|95.0|0.42|10.26|||Mixed Models Analysis|||||10.26|0.42|0.372
92345452|NCT02807259|184593967|OTHER||Odds Ratio (OR)|0.96||||0.845|TWO_SIDED|95.0|0.61|1.5|||Mixed Models Analysis|||||1.50|0.61|0.845
92345453|NCT02807259|184593968|OTHER||Odds Ratio (OR)|1.69||||0.042|TWO_SIDED|95.0|1.02|2.82|||Mixed Models Analysis|||||2.82|1.02|0.042
92345454|NCT00849056|184593974|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.75|||<|0.0001|TWO_SIDED|95.0|-0.95|-0.56|||ANCOVA|||||-0.56|-0.95|<0.0001
92345455|NCT04588259|184593982|NON_INFERIORITY|The upper limit of the 95% confidence interval (CI) for the difference between faster aspart and NovoRapid was compared to a non-inferiority margin of 0.4%. If it was below or equal to 0.4%, non-inferiority was considered to be established and effect demonstrated.|Treatment difference|-0.05||||0.5102|TWO_SIDED|95.0|-0.19|0.09||p-values are from the 2-sided test for treatment difference evaluated at the 5% level.|Mixed Models Analysis|||The outcome measure was analysed using mixed-effect model for repeated measurement (MMRM) where all calculated changes in HbA1c from baseline at visits were included in analysis. Model included treatment and stratification of type 1 diabetes mellitus/ type 2 diabetes mellitus (T1DM/T2DM) as fixed factors, HbA1c at baseline as covariate and interactions between all fixed factors and visit. An unstructured covariance matrix described the variability for the repeated measurements for a participant.||0.09|-0.19|0.5102
92345456|NCT04588259|184593983|NON_INFERIORITY|The upper limit of the 95% CI for the difference between faster aspart and NovoRapid was compared to a non-inferiority margin of 0.4%. If it was below or equal to 0.4%, non-inferiority was considered to be established and effect demonstrated.|Treatment Difference|-0.52||||0.5102|TWO_SIDED|95.0|-2.08|1.03||p-values are from the 2-sided test for treatment difference evaluated at the 5% level.|Mixed Models Analysis|||The outcome measure was analysed using a mixed-effect model for repeated measurements (MMRM) where all calculated changes in HbA1c from baseline at visits are included in the analysis. The model includes treatment and stratification (T1DM/T2DM) as fixed factors, HbA1c at baseline as covariate and interactions between all fixed factors and visit. An unstructured covariance matrix is used to describe the variability for the repeated measurements for a participant.||1.03|-2.08|0.5102
92345457|NCT02100631|184594016|NON_INFERIORITY|The lower limit of the two sided 95% Wald CI on the difference in seroconversion rate was estimated by inverting a Z test with pooled variance. The lower limit of the CI had be greater than -10 percentage points to prove non-inferiority. The lower bound of the CI on the older adults serconversion rate was required to exceed 70%.|Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-6.7|0.4||||||||0.4|-6.7|
92345458|NCT02100631|184594017|OTHER||Geometric Mean Ratio (GMR)|0.44|||||TWO_SIDED|95.0|0.34|0.57||||||||0.57|0.34|
92345459|NCT02100631|184594018|NON_INFERIORITY|Analysis for information only. No non-inferiority margin specified.|Risk Difference (RD)|0.6|||||TWO_SIDED|95.0|-2.2|3.5||||||||3.5|-2.2|
92345460|NCT02100631|184594019|NON_INFERIORITY|Analysis for information only. No non-inferiority margin specified.||||||0.0062|||||||t-test, 2 sided|||||||0.0062
92345461|NCT04476043|184594022|SUPERIORITY||Least squares mean (LSM) difference|-2.7|STANDARD_ERROR_OF_MEAN|1.23||0.0277|TWO_SIDED|95.0|-5.2|-0.3|||MMRM|||||-0.3|-5.2|0.0277
92345462|NCT04476043|184594022|SUPERIORITY||LSM difference|-4.4|STANDARD_ERROR_OF_MEAN|1.25||0.0006|TWO_SIDED|95.0|-6.8|-1.9|||MMRM|||||-1.9|-6.8|0.0006
92345463|NCT04476043|184594022|SUPERIORITY||LSM difference|-3.8|STANDARD_ERROR_OF_MEAN|1.22||0.0021|TWO_SIDED|95.0|-6.2|-1.4|||MMRM|||||-1.4|-6.2|0.0021
92345464|NCT04476043|184594023|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0445|TWO_SIDED|95.0|1.0|5.3|||Wald test||Logistic regression model with treatment group and stratification factors (disease severity and geographical region).|||5.3|1.0|0.0445
92345465|NCT04476043|184594023|SUPERIORITY||Difference in response rate|19.2|STANDARD_ERROR_OF_MEAN|9.35|||||||||||Standard error of difference between response rates was from normal approximation.|||||
92345466|NCT04476043|184594023|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0998|TWO_SIDED|95.0|0.9|4.6|||Wald test||Logistic regression model with treatment group and stratification factors (disease severity and geographical region).|||4.6|0.9|0.0998
92345467|NCT04476043|184594023|SUPERIORITY||Difference in response rate|15.4|STANDARD_ERROR_OF_MEAN|9.32|||||||||||Standard error of difference between response rates was from normal approximation.|||||
92345468|NCT04476043|184594023|SUPERIORITY||Odds Ratio (OR)|2.1||||0.0829|TWO_SIDED|95.0|0.9|4.7|||Wald test||Logistic regression model with treatment group and stratification factors (disease severity and geographical region).|||4.7|0.9|0.0829
92345469|NCT04476043|184594023|SUPERIORITY||Difference in response rate|16.4|STANDARD_ERROR_OF_MEAN|9.29|||||||||||Standard error of difference between response rates was from normal approximation.|||||
92345470|NCT02631057|184594073|SUPERIORITY_OR_OTHER||Mean|-2.484|STANDARD_ERROR_OF_MEAN|0.629|<|0.001|TWO_SIDED|95.0|-3.717|-1.251|||Abadie-Imbens|LoS Average Treatment Effect on the Treated (ATET) \[Dabigatran group\], dispersion analysed with Abadie-Imbens's standard error.|The ATET of LoS from oral anticoagulant initiation to hospital discharge was calculated as \[Dabigatran - Warfarin\] in the matched cohort of matching ratio 1:3.|||-1.251|-3.717|<0.001
92345471|NCT02690727|184594082|SUPERIORITY_OR_OTHER||Ratio (%)|128.49||||0.0002|TWO_SIDED|90.0|119.13|138.59|||ANOVA|||||138.59|119.13|0.0002
92345472|NCT02690727|184594084|SUPERIORITY_OR_OTHER||Ratio (%)|139.27||||0.0278|TWO_SIDED|90.0|111.01|174.73|||ANOVA|||||174.73|111.01|0.0278
92345473|NCT04757636|184594085|SUPERIORITY||Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|1.03||0.861409|TWO_SIDED|95.0|-2.2|1.84|||MMRM|||||1.84|-2.20|0.861409
92345474|NCT04757636|184594085|SUPERIORITY||Least Squares Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|1.029||0.416264|TWO_SIDED|95.0|-2.86|1.18|||MMRM|||||1.18|-2.86|0.416264
92345475|NCT04757636|184594086|SUPERIORITY||Risk Difference (RD)|0.1||||0.981348|TWO_SIDED|95.0|-7.5|7.7|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||7.7|-7.5|0.981348
92345476|NCT04757636|184594086|SUPERIORITY||Risk Difference (RD)|-0.7||||0.856|TWO_SIDED|95.0|-8.5|7.0|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||7.0|-8.5|0.856000
92345477|NCT04757636|184594087|SUPERIORITY||Risk Difference (RD)|-1.7||||0.655104|TWO_SIDED|95.0|-8.9|5.6|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||5.6|-8.9|0.655104
92345478|NCT04757636|184594087|SUPERIORITY||Risk Difference (RD)|-0.8||||0.821257|TWO_SIDED|95.0|-8.2|6.5|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||6.5|-8.2|0.821257
92345479|NCT04757636|184594088|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.234||0.199828|TWO_SIDED|95.0|-0.76|0.16|||MMRM|||||0.16|-0.76|0.199828
92345480|NCT04757636|184594088|SUPERIORITY||Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.235||0.188725|TWO_SIDED|95.0|-0.77|0.15|||MMRM|||||0.15|-0.77|0.188725
92345481|NCT04757636|184594089|SUPERIORITY||Risk Difference (RD)|-0.5||||0.84781|TWO_SIDED|95.0|-5.6|4.6|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||4.6|-5.6|0.847810
92345482|NCT04757636|184594089|SUPERIORITY||Risk Difference (RD)|0.9||||0.718699|TWO_SIDED|95.0|-4.2|6.1|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||6.1|-4.2|0.718699
92345483|NCT01732692|184594104|NON_INFERIORITY_OR_EQUIVALENCE|The primary endpoint was analyzed by a non-inferiority test using the exact Farrington-Manning method. Non-inferiority of the two treatments was to be concluded if the lower end of the confidence interval of the difference the experimental treatment group (morning-only dose) - control treatment group (split dose) was above a non-inferiority margin of -0.15%.|Treatment Difference|0.0286|||<|0.001|ONE_SIDED|95.0|-0.097||||Exact Farrington - Manning||Treatment Difference is the difference in proportion of participants with successful colon cleansing between treatments -experimental vs. control||||-0.097|<0.001
92345484|NCT02030600|184594113|SUPERIORITY_OR_OTHER||Treatment ratio|0.7|||<|0.0001|TWO_SIDED|95.0|0.61|0.8|||Poisson||Superiority was considered confirmed if the 95% confidence interval for the rate ratio (IDeg/IGlar) was entirely below 1.0.|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 1: Primary analysis: Number of treatment emergent severe or BG confirmed symptomatic hypoglycaemic episodes during the maintenance period"||0.80|0.61|<0.0001
92345485|NCT02030600|184594114|SUPERIORITY_OR_OTHER||Treatment ratio|0.58|||<|0.0001|TWO_SIDED|95.0|0.46|0.74|||Poisson||Superiority was considered confirmed if the 95% confidence interval for the rate ratio (IDeg/IGlar) was entirely below 1.0.|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 2: Number of treatment-emergent severe or BG confirmed symptomatic nocturnal hypoglycaemic episodes during the maintenance period."||0.74|0.46|<0.0001
92345486|NCT02030600|184594115|SUPERIORITY_OR_OTHER|||||||0.3458||||||Superiority was confirmed if the p-value was less than 0.025.|McNemar|||"Stepwise hierarchical testing procedure:~Step 3: Proportion of subjects with one or more severe hypoglycaemic episodes in the maintenance period."||||0.3458
92345487|NCT02030600|184594117|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of IDeg against IGlar was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.40%.|Treatment contrast|0.09|||||TWO_SIDED|95.0|-0.04|0.23||||||"Change from baseline in HbA1c at week 32 (treatment period 1). Before the primary endpoint was tested, the secondary supportive efficacy endpoint Change from baseline in HbA1c after 32 weeks of treatment was tested for non-inferiority as prerequisite for testing the primary endpoint. Analysis was performed using a mixed model for repeated measurement (MMRM) with treatment, sex, antidiabetic therapy at screening, visit and dosing time as fixed effects, and age and baseline HbA1c as covariates."||0.23|-0.04|
92405635|NCT02683577|184701448|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|3.168|||||TWO_SIDED|90.0|1.715|5.852|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of moderate HI group (Test) versus healthy control group (Reference) on AUC(0-tlast) values for telotristat ethyl.||5.852|1.715|
92158378|NCT04955626|184203463|OTHER||Geometric mean ratio (GMR)|2.07|||||TWO_SIDED|95.0|0.88|4.88||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.88|0.88|
92218017|NCT02774616|184336708|NON_INFERIORITY|A rejection of the null hypothesis (Ho) would demonstrate evidence that the complication-free rate is greater than 90.0% in the population.||||||0.0004|||||||exact binomial|||"Serious Adverse Device Effects (SADE) possibly or securely related to the Ilivia ICD family until the 3- month follow-up are counted for this primary endpoint. The following hypothesis has been defined:~Ho: SADE-free rate through 3 months post-implant ≤ 90.0% Ha: SADE-free rate through 3 months post-implant \> 90.0%"||||0.0004
92158379|NCT04955626|184203463|OTHER||Geometric mean ratio (GMR)|2.96|||||TWO_SIDED|95.0|1.24|7.06||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||7.06|1.24|
92158380|NCT04955626|184203463|OTHER||Geometric mean ratio (GMR)|1.52|||||TWO_SIDED|95.0|0.64|3.62||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.62|0.64|
92158381|NCT04955626|184203463|OTHER||Geometric mean ratio|1.53|||||TWO_SIDED|95.0|0.64|3.67||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.67|0.64|
92218018|NCT02774616|184336709|NON_INFERIORITY|A rejection of the null hypothesis (Ho) would demonstrate evidence that the complication-free rate is greater than 90.0% in the population.||||||0.0019|||||||exact binomial|||"Serious Adverse Device Effects (SADE) possibly or securely related to the Plexa ICD lead until the 6-month follow-up are counted for this primary endpoint. The following hypothesis has been defined:~Ho: SADE-free rate through 3 months post-implant ≤ 90.0% Ha: SADE-free rate through 3 months post-implant \> 90.0%"||||0.0019
92218019|NCT02774616|184336711|NON_INFERIORITY|This endpoint evaluates the rate of appropriate right ventricular sensing of all patients in which a sensing measurement was performed. The following hypothesis has been defined: Ho: Rate of appropriate sensing through 3 months post-implant ≤ 93.0% Ha: Rate of appropriate sensing through 3 months post-implant \> 93.0%|||||<|0.0001||||||A rejection of the null hypothesis (Ho) would demonstrate evidence that the rate of appropriate sensing is greater than 93.0% in the population.|exact binomial|||||||<0.0001
92218020|NCT02774616|184336712|NON_INFERIORITY|A rejection of the null hypothesis (Ho) would demonstrate evidence that the rate of appropriate pacing is greater than 93.0% in the population.|||||<|0.0001|||||||exact binomial|||"This secondary hypothesis evaluates the rate of appropriate right ventricular pacing of all patients in which a pacing measurement was performed. The following hypothesis has been defined:~Ho: Rate of appropriate pacing through 3 months post-implant ≤ 93.0% Ha: Rate of appropriate pacing through 3 months post-implant \> 93.0%"||||<0.0001
92218021|NCT00545402|184336714|SUPERIORITY_OR_OTHER|||||||0.2611|||||||Log Rank|||||||0.2611
92275198|NCT00106028|184452444|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.594||||0.0172||95.0|6.801|68.386|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||68.386|6.801|0.0172
92218022|NCT00545402|184336716|SUPERIORITY_OR_OTHER|||||||0.7091|||||||Log Rank|||||||0.7091
92218023|NCT00382018|184336727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.69|1.47|||Log Rank|||Hazard Ration of overall survival compared Arm C2 to Arm C1.||1.47|0.69|0.98
92218024|NCT00382018|184336728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.64|TWO_SIDED|95.0|0.64|1.32|||Log Rank|||Hazard Ratio of progression free survival compared Arm C2 to Arm C1||1.32|0.64|0.64
92218025|NCT01984164|184336733|SUPERIORITY||Treatment effect size|-13.6|||||TWO_SIDED|95.0|-23.6|-3.7|||||effect size p-value = 0.008|All analyses were conducted using the intention-to-treat principle. Results are provided as adjusted least-square means with SE and effect size (ES) estimates (calculated from mixed model with repeated measures (MMRM) as the adjusted difference in cognitive change between the 2 groups over the study period).||-3.7|-23.6|
92345488|NCT02030600|184594117|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.40%|Treatment contrast|0.06|||||TWO_SIDED|95.0|-0.07|0.18||||||"Change from baseline in HbA1c at week 64 (treatment period 2). The baseline values are week 32 values. Before the primary endpoint was tested, the secondary supportive efficacy endpoint Change from baseline in HbA1c after 32 weeks of treatment was tested for non-inferiority as prerequisite for testing the primary endpoint. Analysis was performed using a MMRM with treatment, sex, antidiabetic therapy at screening, visit and dosing time as fixed effects, and age and baseline HbA1c as covariates."||0.18|-0.07|
92345489|NCT00091819|184594125|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 10% was specified based on historical regulatory precedent.|Risk Difference (RD)|1.0||||||95.0|-4.8|6.8||p-values were not calculated in deference to confidence intervals.|||"Statistical analysis applies to cure"|||6.8|-4.8|
92345490|NCT00701363|184594148|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED||||||ANCOVA|||One subject (Group B) had missing IGF-1 value at Week 48. One subject (Group A) had missing IGF-1 value at Baseline.||||0.0013
92345491|NCT00701363|184594148|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92345492|NCT00701363|184594148|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92345493|NCT00701363|184594149|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED||||||t-test, 2 sided|||||||0.0009
92345494|NCT00701363|184594149|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92158382|NCT04955626|184203464|OTHER||Geometric mean ratio (GMR)|0.52|||||TWO_SIDED|95.0|0.25|1.09||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.09|0.25|
92158383|NCT04955626|184203464|OTHER||Geometric mean ratio (GMR)|1.0|||||TWO_SIDED|95.0|0.49|2.04||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.04|0.49|
92158384|NCT04955626|184203464|OTHER||Geometric mean ratio (GMR)|1.29|||||TWO_SIDED|95.0|0.63|2.68||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.68|0.63|
92158385|NCT04955626|184203464|OTHER||Geometric mean ratio (GMR)|0.78|||||TWO_SIDED|95.0|0.38|1.59||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.59|0.38|
92345495|NCT00701363|184594149|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92345496|NCT00701363|184594149|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||t-test, 2 sided|||||||0.0170
92345497|NCT00701363|184594150|SUPERIORITY_OR_OTHER|||||||0.0103|TWO_SIDED||||||t-test, 2 sided|||Difference in baseline IGF-1 levels between 108 subjects with normalized IGF-1 levels at week 24 (A+B+C) and 14 subjects with uncontrolled IGF-1 levels at week 24.||||0.0103
92345498|NCT03704064|184594168|SUPERIORITY||Mean Difference (Net)|-1.97|STANDARD_ERROR_OF_MEAN|1.32||0.14|TWO_SIDED||||||Mixed Models Analysis|||||||0.14
92345499|NCT03704064|184594169|SUPERIORITY||Odds Ratio (OR)|1.1||||0.89|TWO_SIDED|95.0|0.4|3.4|||Mixed Models Analysis|||||3.4|0.4|0.89
92345500|NCT03704064|184594170|SUPERIORITY||Odds Ratio (OR)|3.7||||0.06|TWO_SIDED|95.0|1.0|14.7|||Mixed Models Analysis|||||14.7|1.0|0.06
92345501|NCT03704064|184594171|SUPERIORITY||Mean Difference (Net)|-2.4|STANDARD_ERROR_OF_MEAN|1.3||0.07|TWO_SIDED||||||Mixed Models Analysis|||||||0.07
92345502|NCT03704064|184594172|SUPERIORITY||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|1.3||0.42|TWO_SIDED||||||Mixed Models Analysis|||||||0.42
92345503|NCT03704064|184594173|SUPERIORITY||Odds Ratio (OR)|2.0||||0.24|TWO_SIDED|95.0|0.6|6.3|||Mixed Models Analysis|||||6.3|0.6|0.24
92345504|NCT03704064|184594174|SUPERIORITY||Odds Ratio (OR)|2.2||||0.24|TWO_SIDED|95.0|0.6|8.1|||Mixed Models Analysis|||||8.1|0.6|0.24
92345505|NCT03704064|184594175|SUPERIORITY||Odds Ratio (OR)|3.0||||0.07|TWO_SIDED|95.0|0.9|9.6|||Mixed Models Analysis|||||9.6|0.9|0.07
92345506|NCT03704064|184594176|SUPERIORITY||Odds Ratio (OR)|2.6||||0.21|TWO_SIDED|95.0|0.6|11.4|||Mixed Models Analysis|||||11.4|0.6|0.21
92345507|NCT03704064|184594177|SUPERIORITY||Mean Difference (Net)|2.4|STANDARD_ERROR_OF_MEAN|5.8||0.62|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 10 minute bouts||||0.62
92345508|NCT03704064|184594177|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|4.5||0.92|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 20 minute bouts||||0.92
92345509|NCT03704064|184594177|SUPERIORITY||Mean Difference (Net)|13.4|STANDARD_ERROR_OF_MEAN|9.6||0.16|TWO_SIDED||||||Mixed Models Analysis|||Moderate activity per day||||0.16
92345510|NCT03704064|184594177|SUPERIORITY||Mean Difference (Net)|15.9|STANDARD_ERROR_OF_MEAN|20.8||0.41|TWO_SIDED||||||Mixed Models Analysis|||Light activity per day||||0.41
92345511|NCT03704064|184594178|SUPERIORITY||Mean Difference (Net)|4.1|STANDARD_ERROR_OF_MEAN|6.1||0.46|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 10 minute bouts||||0.46
92345512|NCT03704064|184594178|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|4.9||0.87|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 20 minute bouts||||0.87
92345513|NCT03704064|184594178|SUPERIORITY||Mean Difference (Net)|18.5|STANDARD_ERROR_OF_MEAN|10.1||0.07|TWO_SIDED||||||Mixed Models Analysis|||Moderate activity per day||||0.07
92345514|NCT03704064|184594178|SUPERIORITY||Mean Difference (Net)|30.0|STANDARD_ERROR_OF_MEAN|22.5||0.17|TWO_SIDED||||||Mixed Models Analysis|||Light activity per day||||0.17
92345515|NCT03704064|184594179|SUPERIORITY||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|5.7||0.63|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 10 minute bouts||||0.63
92345516|NCT03704064|184594179|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|3.7||0.72|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 20 minute bouts||||0.72
92345517|NCT03704064|184594179|SUPERIORITY||Mean Difference (Net)|6.0|STANDARD_ERROR_OF_MEAN|9.4||0.52|TWO_SIDED||||||Mixed Models Analysis|||Moderate activity per day||||0.52
92345518|NCT03704064|184594179|SUPERIORITY||Mean Difference (Net)|-21.8|STANDARD_ERROR_OF_MEAN|19.4||0.27|TWO_SIDED||||||Mixed Models Analysis|||Light activity per day||||0.27
92218026|NCT00427349|184336753|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||one sample binomial test|The study result was compared to a null hypothesis of 20% 4-month progression free survival rate using one sample binomial test||The null hypothesis is that the 4-month progression free survival rate is 20%. Alternatively, AMG 706 will be considered worthy of further study if its true progression-free survival rate is 40% or better at 4 months (alternative hypothesis).||||<0.001
92158386|NCT04955626|184203464|OTHER||Geometric mean ratio (GMR)|0.66|||||TWO_SIDED|95.0|0.32|1.36||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.36|0.32|
92158387|NCT04955626|184203465|OTHER||Geometric mean ratio (GMR)|0.75|||||TWO_SIDED|95.0|0.32|1.76||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.76|0.32|
92158388|NCT04955626|184203465|OTHER||Geometric mean ratio (GMR)|1.69|||||TWO_SIDED|95.0|0.74|3.85||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.85|0.74|
92158389|NCT04955626|184203465|OTHER||Geometric mean ratio (GMR)|2.12|||||TWO_SIDED|95.0|0.92|4.91||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.91|0.92|
92158390|NCT04955626|184203465|OTHER||Geometric mean ratio (GMR)|1.0|||||TWO_SIDED|95.0|0.43|2.33||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.33|0.43|
92345519|NCT03704064|184594180|SUPERIORITY||Mean Difference (Net)|7.3|STANDARD_ERROR_OF_MEAN|151.2||0.84|TWO_SIDED||||||Mixed Models Analysis|||||||0.84
92345520|NCT03704064|184594181|SUPERIORITY||Mean Difference (Net)|-111.7|STANDARD_ERROR_OF_MEAN|137.2||0.53|TWO_SIDED||||||Mixed Models Analysis|||||||0.53
92345521|NCT03704064|184594182|SUPERIORITY||Mean Difference (Net)|163.2|STANDARD_ERROR_OF_MEAN|154.0||0.27|TWO_SIDED||||||Mixed Models Analysis|||||||0.27
92345522|NCT03704064|184594183|SUPERIORITY||Mean Difference (Net)|5.7|STANDARD_ERROR_OF_MEAN|4.6||0.22|TWO_SIDED||||||Mixed Models Analysis|||||||0.22
92345523|NCT03704064|184594184|SUPERIORITY||Mean Difference (Net)|5.3|STANDARD_ERROR_OF_MEAN|4.6||0.24|TWO_SIDED||||||Mixed Models Analysis|||||||0.24
92345524|NCT03704064|184594185|SUPERIORITY||Mean Difference (Net)|3.2|STANDARD_ERROR_OF_MEAN|4.5||0.48|TWO_SIDED||||||Mixed Models Analysis|||||||0.48
92345525|NCT03704064|184594186|SUPERIORITY||Mean Difference (Net)|4.9|STANDARD_ERROR_OF_MEAN|3.4||0.16|TWO_SIDED||||||Mixed Models Analysis|||||||0.16
92345526|NCT03704064|184594187|SUPERIORITY||Mean Difference (Net)|6.8|STANDARD_ERROR_OF_MEAN|3.4||0.045|TWO_SIDED||||||Mixed Models Analysis|||||||0.045
92345527|NCT03704064|184594188|SUPERIORITY||Mean Difference (Net)|3.7|STANDARD_ERROR_OF_MEAN|3.4||0.27|TWO_SIDED||||||Mixed Models Analysis|||||||0.27
92345528|NCT03704064|184594189|SUPERIORITY||Mean Difference (Net)|3.9|STANDARD_ERROR_OF_MEAN|9.4||0.72|TWO_SIDED||||||Mixed Models Analysis|||||||0.72
92345529|NCT03704064|184594190|SUPERIORITY||Mean Difference (Net)|-3.3|STANDARD_ERROR_OF_MEAN|9.1||0.67|TWO_SIDED||||||Mixed Models Analysis|||||||0.67
92345530|NCT03704064|184594191|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|2.5||0.8|TWO_SIDED||||||Mixed Models Analysis|||Systolic Blood Pressure||||0.80
92345531|NCT03704064|184594191|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|1.1||0.94|TWO_SIDED||||||Mixed Models Analysis|||Diastolic Blood Pressure||||0.94
92345532|NCT03704064|184594192|SUPERIORITY||Mean Difference (Net)|-4.3|STANDARD_ERROR_OF_MEAN|2.3||0.07|TWO_SIDED||||||Mixed Models Analysis|||Systolic Blood Pressure||||0.07
92345533|NCT03704064|184594192|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|1.5||0.96|TWO_SIDED||||||Mixed Models Analysis|||Diastolic Blood Pressure||||0.96
92345534|NCT03704064|184594193|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3|TWO_SIDED||||||Mixed Models Analysis|||||||0.30
92345535|NCT03704064|184594194|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.67|TWO_SIDED||||||Mixed Models Analysis|||||||0.67
92345536|NCT03704064|184594195|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.45|TWO_SIDED||||||Mixed Models Analysis|||||||0.45
92345537|NCT03704064|184594196|SUPERIORITY||Odds Ratio (OR)|1.7||||0.38|TWO_SIDED|95.0|0.5|5.9|||Mixed Models Analysis|||||5.9|0.5|0.38
92345538|NCT03704064|184594197|SUPERIORITY||Odds Ratio (OR)|1.0||||0.95|TWO_SIDED|95.0|0.3|3.3|||Mixed Models Analysis|||||3.3|0.3|0.95
92345539|NCT03704064|184594198|SUPERIORITY||Odds Ratio (OR)|1.0||||0.99|TWO_SIDED|95.0|0.3|3.1|||Mixed Models Analysis|||||3.1|0.3|0.99
92345540|NCT03704064|184594199|SUPERIORITY||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|1.6||0.06|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.06
92345541|NCT03704064|184594199|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.9||0.06|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.06
92345542|NCT03704064|184594199|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|0.9||0.19|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FE||||0.19
92345543|NCT03704064|184594200|SUPERIORITY||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|1.5||0.05|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.05
92158391|NCT04955626|184203465|OTHER||Geometric mean ratio (GMR)|0.89|||||TWO_SIDED|95.0|0.39|2.04||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.04|0.39|
92345544|NCT03704064|184594200|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|0.9||0.18|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.18
92345545|NCT03704064|184594200|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.9||0.046|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FE||||0.046
92345546|NCT03704064|184594201|SUPERIORITY||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|1.5||0.07|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.07
92345547|NCT03704064|184594201|SUPERIORITY||Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|0.9||0.11|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.11
92345548|NCT03704064|184594201|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|0.9||0.15|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FE||||0.15
92345549|NCT03704064|184594202|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.3||0.04|TWO_SIDED||||||ANOVA|||Overall treatment acceptability||||0.04
92345550|NCT03704064|184594202|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.35|TWO_SIDED||||||ANOVA|||BWL component acceptability||||0.35
92345551|NCT03704064|184594202|SUPERIORITY||Mean Difference (Net)|1.5|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED||||||ANOVA|||BIAS vs recipe component acceptability||||<0.001
92345552|NCT03704064|184594202|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.2||0.01|TWO_SIDED||||||ANOVA|||BWL skill acquisition||||0.01
92345553|NCT03704064|184594202|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED||||||ANOVA|||Stigma-related skill acquisition||||<0.001
92345554|NCT03704064|184594202|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED||||||ANOVA|||Stigma-related skill use||||<0.001
92345555|NCT03704064|184594203|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.24|TWO_SIDED||||||ANOVA|||Overall treatment acceptability||||0.24
92345556|NCT03704064|184594203|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.28|TWO_SIDED||||||ANOVA|||BWL component acceptability||||0.28
92345557|NCT03704064|184594203|SUPERIORITY||Mean Difference (Net)|1.8|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED||||||ANOVA|||BIAS vs recipe component acceptability||||<0.001
92345558|NCT03704064|184594203|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.34|TWO_SIDED||||||ANOVA|||BWL skill acquisition||||0.34
92345559|NCT03704064|184594203|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|0.3||0.008|TWO_SIDED||||||ANOVA|||Stigma-related skill acquisition||||0.008
92345560|NCT03704064|184594203|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED||||||ANOVA|||Stigma-related skill use||||0.001
92345561|NCT05033041|184594236|EQUIVALENCE|Equivalence is based on an equivalence hypothesis of -17mL \<difference in differences \< 17mL.||||||0.001|||||||t-test, 1 sided|||Comparison of the means using two one-sided t tests (TOST)||||.001
92345562|NCT04220021|184594269|SUPERIORITY|For the sign and binomial test our two outcomes are decreased (success) percentage change in RAN protein levels and increased (failure) percentage change in RAN protein levels.||||||0.0245||||||A priori test for significance is p less than or equal to 0.05|Sign test|One-tailed sign and binomial test||Sign and binomial test with one-tail analysis where the null hypothesis predicts a 50/50 split (p=0.5) for two outcomes.||||0.0245
92345563|NCT03043053|184594271|OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-1.4|1.3||||||||1.3|-1.4|
92345564|NCT03043053|184594272|OTHER||Mean Difference (Final Values)|-29.7|||||TWO_SIDED|95.0|-141.9|82.6|||||Controlled for lean mass. Reported values are outputted by STATA.|||82.6|-141.9|
92345565|NCT03043053|184594273|OTHER||Mean Difference (Final Values)|196.0|||||TWO_SIDED|95.0|-1036.0|1428.0||||||||1428|-1036|
92345566|NCT03043053|184594274|OTHER||Mean Difference (Final Values)|-152.0|||||TWO_SIDED|95.0|-302.3|-1.7||||||||-1.7|-302.3|
92345567|NCT04935879|184594275|SUPERIORITY||Rate ratio|0.95||||0.6967|TWO_SIDED|95.0|0.71|1.25|||Negative binomial regression model||Rate ratio = Ratio of rate of VOC for inclacumab group to placebo group.|Adjusted rates are based on estimate from a negative binomial model with the independent variable of treatment group (inclacumab, placebo) and adjusted for baseline hydroxyurea (HU) use (yes, no), number of VOCs in 12 months prior to screening visit (2-4, 5-10), and geographic region (North America, sub-Saharan Africa, Europe/rest of world).||1.25|0.71|0.6967
92345568|NCT04935879|184594276|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.4298|TWO_SIDED|95.0|0.63|1.22|||Log Rank|||Analysis was stratified by baseline HU use (yes, no), number of VOCs in 12 months prior to screening visit (2-4, 5-10), and geographic region (North America, sub-Saharan Africa, Europe/rest of world).||1.22|0.63|0.4298
92345569|NCT04935879|184594278|SUPERIORITY||Difference in Percentage|10.3||||0.0912|TWO_SIDED|95.0|-1.6|22.2|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) test stratified by baseline HU use (yes, no), number of VOCs in the 12 months prior to study entry (2-4, 5-10), and geographic region (North America, sub-Saharan Africa, Europe/rest of world).||22.2|-1.6|0.0912
92345570|NCT04935879|184594279|SUPERIORITY||Rate Ratio|1.02||||0.9246|TWO_SIDED|95.0|0.71|1.47|||Negative binomial regression model||Rate ratio = Ratio of rate of VOC for inclacumab group to placebo group.|Adjusted rates are based on estimate from a negative binomial model with the independent variable of treatment group (inclacumab, placebo) and adjusted for baseline HU use (yes, no), number of VOCs in the 12 months prior to screening visit (2-4, 5-10), and geographic region (North America, sub-Saharan Africa, Europe/rest of the world).||1.47|0.71|0.9246
92345571|NCT04935879|184594280|SUPERIORITY||Rate ratio|0.92|||=|0.8263|TWO_SIDED|95.0|0.46|1.87|||Negative binomial regression model||Rate ratio = Ratio of rate of VOC for inclacumab group to placebo group.|Adjusted rates are based on estimate from a negative binomial model with the independent variable of treatment group (inclacumab, placebo) and adjusted for baseline HU use (yes, no), number of VOCs in 12 months prior to screening visit (2-4, 5-10), and geographic region (North America, sub-Saharan Africa, Europe/rest of world).||1.87|0.46|=0.8263
92345572|NCT03533751|184594296|SUPERIORITY||Least Squares (LS) Mean Difference|7.75|STANDARD_ERROR_OF_MEAN|10.235||0.4498|TWO_SIDED|95.0|-12.4066|27.8983|||ANCOVA|The p-value was obtained using a mixed effect analysis of covariance (ANCOVA) model with treatment as fixed effect and Baseline EASI as covariate.|Difference = Etokimab - Placebo|||27.8983|-12.4066|0.4498
92345573|NCT03533751|184594296|SUPERIORITY||LS Mean Difference|-6.32|STANDARD_ERROR_OF_MEAN|9.39||0.501|TWO_SIDED|95.0|-24.774|12.1262|||ANCOVA|The p-value was obtained using a mixed effect ANCOVA model with treatment as fixed effect and Baseline EASI as covariate.|Difference = Etokimab - Placebo|||12.1262|-24.7740|0.5010
92158392|NCT04955626|184203466|OTHER||Geometric mean ratio (GMR)|0.99|||||TWO_SIDED|95.0|0.31|3.12||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.12|0.31|
92158393|NCT04955626|184203466|OTHER||Geometric mean ratio (GMR)|4.57|||||TWO_SIDED|95.0|1.49|14.07||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||14.07|1.49|
92345574|NCT03533751|184594296|SUPERIORITY||LS Mean Difference|1.97|STANDARD_ERROR_OF_MEAN|9.454||0.8349|TWO_SIDED|95.0|-16.6037|20.5476|||ANCOVA|The p-value was obtained using a mixed effect ANCOVA model with treatment as fixed effect and Baseline EASI as covariate.|Difference = Etokimab - Placebo|||20.5476|-16.6037|0.8349
92345575|NCT03533751|184594296|SUPERIORITY||LS Mean Difference|4.82|STANDARD_ERROR_OF_MEAN|11.154||0.6662|TWO_SIDED|95.0|-17.1892|26.8275|||ANCOVA|The p-value was obtained using a mixed effect ANCOVA model with treatment as fixed effect and Baseline EASI as covariate.|Difference = Etokimab - Placebo|||26.8275|-17.1892|0.6662
92345576|NCT03533751|184594297|SUPERIORITY||Odds Ratio (OR)|0.91||||0.7992|TWO_SIDED|95.0|0.42|1.9509|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||1.9509|0.4200|0.7992
92345577|NCT03533751|184594297|SUPERIORITY||Odds Ratio (OR)|1.59||||0.2197|TWO_SIDED|95.0|0.757|3.3572|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||3.3572|0.7570|0.2197
92345578|NCT03533751|184594297|SUPERIORITY||Odds Ratio (OR)|1.15||||0.7197|TWO_SIDED|95.0|0.5345|2.4774|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||2.4774|0.5345|0.7197
92345579|NCT03533751|184594297|SUPERIORITY||Odds Ratio (OR)|0.85||||0.6772|TWO_SIDED|95.0|0.391|1.8404|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||1.8404|0.3910|0.6772
92345580|NCT03533751|184594298|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9537|TWO_SIDED|95.0|0.3922|2.6994|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||2.6994|0.3922|0.9537
92218027|NCT00282295|184336770|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than (\>) the pre-defined limit of -10%.|Difference|2.18|||||TWO_SIDED|95.0|0.79|4.17||||||The non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to the percentage of subjects with anti-diphtheria toxoid (anti-D) antibody concentrations equal to or greater than (≥) 1.0 IU/mL one month after vaccination.||4.17|0.79|
92345581|NCT03533751|184594298|SUPERIORITY||Odds Ratio (OR)|1.57||||0.3316|TWO_SIDED|95.0|0.6323|3.8895|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||3.8895|0.6323|0.3316
92345582|NCT03533751|184594298|SUPERIORITY||Odds Ratio (OR)|1.36||||0.5166|TWO_SIDED|95.0|0.5331|3.4944|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||3.4944|0.5331|0.5166
92345583|NCT03533751|184594298|SUPERIORITY||Odds Ratio (OR)|1.17||||0.7426|TWO_SIDED|95.0|0.4545|3.0223|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||3.0223|0.4545|0.7426
92345584|NCT03533751|184594299|SUPERIORITY||Odds Ratio (OR)|1.76||||0.4543|TWO_SIDED|95.0|0.3998|7.7615|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||7.7615|0.3998|0.4543
92345585|NCT03533751|184594299|SUPERIORITY||Odds Ratio (OR)|2.57||||0.1874|TWO_SIDED|95.0|0.6314|10.4827|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||10.4827|0.6314|0.1874
92345586|NCT03533751|184594299|SUPERIORITY||Odds Ratio (OR)|2.69||||0.1721|TWO_SIDED|95.0|0.6506|11.0814|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||11.0814|0.6506|0.1721
92345587|NCT03533751|184594299|SUPERIORITY||Odds Ratio (OR)|0.68||||0.6755|TWO_SIDED|95.0|0.1086|4.2141|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||4.2141|0.1086|0.6755
92345588|NCT03533751|184594300|SUPERIORITY||Odds Ratio (OR)|0.75||||0.6058|TWO_SIDED|95.0|0.2481|2.2543|||Regression, Logistic|Logistic regression model with treatment as fixed effect and baseline vIGA-AD score as covariate.||||2.2543|0.2481|0.6058
92345589|NCT03533751|184594300|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9521|TWO_SIDED|95.0|0.3356|2.7923|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline vIGA-AD score as a covariate.||||2.7923|0.3356|0.9521
92345590|NCT03533751|184594300|SUPERIORITY||Odds Ratio (OR)|1.23||||0.6905|TWO_SIDED|95.0|0.4457|3.3878|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline vIGA-AD score as a covariate.||||3.3878|0.4457|0.6905
92345591|NCT03533751|184594300|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9399|TWO_SIDED|95.0|0.3671|2.9518|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline vIGA-AD score as a covariate.||||2.9518|0.3671|0.9399
92345592|NCT03533751|184594301|SUPERIORITY||Odds Ratio (OR)|1.22||||0.7659|TWO_SIDED|95.0|0.329|4.5268|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline vIGA-AD score as covariate.||||4.5268|0.3290|0.7659
92345593|NCT03533751|184594301|SUPERIORITY||Odds Ratio (OR)|1.36||||0.6273|TWO_SIDED|95.0|0.3895|4.776|||Regression, Logistic|Logistic regression model with treatment as fixed effect and baseline vIGA-AD score as covariate.||||4.7760|0.3895|0.6273
92345594|NCT03533751|184594301|SUPERIORITY||Odds Ratio (OR)|1.88||||0.2967|TWO_SIDED|95.0|0.5734|6.1879|||Regression, Logistic|Logistic regression model with treatment as fixed effect and baseline vIGA-AD score as covariate.||||6.1879|0.5734|0.2967
92345595|NCT03533751|184594301|SUPERIORITY||Odds Ratio (OR)|1.46||||0.5544|TWO_SIDED|95.0|0.4152|5.1476|||Regression, Logistic|Logistic regression model with treatment as fixed effect and baseline vIGA-AD score as covariate.||||5.1476|0.4152|0.5544
92158394|NCT04955626|184203466|OTHER||Geometric mean ratio (GMR)|7.3|||||TWO_SIDED|95.0|2.34|22.76||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||22.76|2.34|
92345596|NCT03533751|184594302|SUPERIORITY||Odds Ratio (OR)|1.12||||0.86|TWO_SIDED|95.0|0.3175|3.9513|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline peak weekly averaged NRS as covariate.||||3.9513|0.3175|0.8600
92158395|NCT04955626|184203466|OTHER||Geometric mean ratio (GMR)|2.26|||||TWO_SIDED|95.0|0.72|7.1||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||7.10|0.72|
92158396|NCT04955626|184203466|OTHER||Geometric mean ratio (GMR)|1.28|||||TWO_SIDED|95.0|0.41|4.03||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.03|0.41|
92158397|NCT04955626|184203467|OTHER||Geometric mean ratio (GMR)|1.01|||||TWO_SIDED|95.0|0.38|2.7||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.70|0.38|
92158398|NCT04955626|184203467|OTHER||Geometric mean ratio (GMR)|1.99|||||TWO_SIDED|95.0|0.76|5.2||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||5.20|0.76|
92158399|NCT04955626|184203467|OTHER||Geometric mean ratio (GMR)|2.99|||||TWO_SIDED|95.0|1.13|7.94||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||7.94|1.13|
92345597|NCT03533751|184594302|SUPERIORITY||Odds Ratio (OR)|1.84||||0.3222|TWO_SIDED|95.0|0.5511|6.1214|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline peak weekly averaged NRS as covariate.||||6.1214|0.5511|0.3222
92345598|NCT03533751|184594302|SUPERIORITY||Odds Ratio (OR)|1.98||||0.2564|TWO_SIDED|95.0|0.6089|6.431|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline peak weekly averaged NRS as covariate.||||6.4310|0.6089|0.2564
92345599|NCT03533751|184594302|SUPERIORITY||Odds Ratio (OR)|1.89||||0.2912|TWO_SIDED|95.0|0.5806|6.1275|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline peak weekly averaged NRS as covariate.||||6.1275|0.5806|0.2912
92158400|NCT04955626|184203467|OTHER||Geometric mean ratio (GMR)|1.8|||||TWO_SIDED|95.0|0.68|4.75||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.75|0.68|
92158401|NCT04955626|184203467|OTHER||Geometric mean ratio (GMR)|0.84|||||TWO_SIDED|95.0|0.32|2.24||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.24|0.32|
92158402|NCT04955626|184203468|OTHER||Geometric mean ratio (GMR)|1.5|||||TWO_SIDED|95.0|0.44|5.12||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||5.12|0.44|
92345600|NCT03533751|184594303|SUPERIORITY||LS Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|8.679||0.8927|TWO_SIDED|95.0|-18.2117|15.8686|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline weekly averaged peak NRS as covariate.|Difference = Etokimab - Placebo|||15.8686|-18.2117|0.8927
92158403|NCT04955626|184203468|OTHER||Geometric mean ratio (GMR)|3.22|||||TWO_SIDED|95.0|0.99|10.46||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||10.46|0.99|
92158404|NCT04955626|184203468|OTHER||Geometric mean ratio (GMR)|6.46|||||TWO_SIDED|95.0|1.96|21.27||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||21.27|1.96|
92345601|NCT03533751|184594303|SUPERIORITY||LS Mean Difference|3.43|STANDARD_ERROR_OF_MEAN|9.019||0.7035|TWO_SIDED|95.0|-14.2767|21.1463|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline weekly averaged peak NRS as covariate.|Difference = Etokimab - Placebo|||21.1463|-14.2767|0.7035
92345602|NCT03533751|184594303|SUPERIORITY||LS Mean Difference|-9.27|STANDARD_ERROR_OF_MEAN|8.608||0.2819|TWO_SIDED|95.0|-26.159|7.6237|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline weekly averaged peak NRS as covariate.|Difference = Etokimab - Placebo|||7.6237|-26.1590|0.2819
92345603|NCT03533751|184594303|SUPERIORITY||LS Mean Difference|-6.06|STANDARD_ERROR_OF_MEAN|8.557||0.4793|TWO_SIDED|95.0|-22.8452|10.7333|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline weekly averaged peak NRS as covariate.|Difference = Etokimab - Placebo|||10.7333|-22.8452|0.4793
92345604|NCT03533751|184594304|SUPERIORITY||LS Mean Difference|6.57|STANDARD_ERROR_OF_MEAN|6.677||0.3262|TWO_SIDED|95.0|-6.5723|19.7054|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline SCORAD as covariate.|Difference = Etokimab - Placebo|||19.7054|-6.5723|0.3262
92345605|NCT03533751|184594304|SUPERIORITY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|6.366||0.8465|TWO_SIDED|95.0|-13.7439|11.2782|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline SCORAD as covariate.|Difference = Etokimab - Placebo|||11.2782|-13.7439|0.8465
92345606|NCT03533751|184594304|SUPERIORITY||LS Mean Difference|2.51|STANDARD_ERROR_OF_MEAN|6.396||0.6947|TWO_SIDED|95.0|-10.0587|15.082|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline SCORAD as covariate.||||15.0820|-10.0587|0.6947
92345607|NCT03533751|184594304|SUPERIORITY||LS Mean Difference|6.76|STANDARD_ERROR_OF_MEAN|6.909||0.3288|TWO_SIDED|95.0|-6.8451|20.3626|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline SCORAD as covariate.|Difference = Etokimab - Placebo|||20.3626|-6.8451|0.3288
92345608|NCT03533751|184594305|SUPERIORITY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|1.355||0.8497|TWO_SIDED|95.0|-2.4081|2.9218|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline DLQI score as covariate.|Difference = Etokimab - Placebo|||2.9218|-2.4081|0.8497
92345609|NCT03533751|184594305|SUPERIORITY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|1.35||0.5016|TWO_SIDED|95.0|-3.5636|1.7473|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline DLQI score as covariate.|Difference = Etokimab - Placebo|||1.7473|-3.5636|0.5016
92158405|NCT04955626|184203468|OTHER||Geometric mean ratio (GMR)|2.08|||||TWO_SIDED|95.0|0.63|6.89||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||6.89|0.63|
92158406|NCT04955626|184203468|OTHER||Geometric mean ratio (GMR)|0.95|||||TWO_SIDED|95.0|0.28|3.17||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.17|0.28|
92158407|NCT04955626|184203493|OTHER||Adjusted Surveillance Time|100.0|||||TWO_SIDED|95.0|-358.6|100.0||||||||100.0|-358.6|
92158408|NCT04955626|184203494|OTHER||Adjusted Surveillance Time|100.0|||||TWO_SIDED|95.0|-355.5|100.0||||||2-Sided CI for RVE is derived based on the Clopper and Pearson method adjusted for surveillance time.||100.0|-355.5|
92158409|NCT04955626|184203503|OTHER||Geometric mean ratio (GMR)|0.99|||||TWO_SIDED|95.0|0.82|1.2||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||1.20|0.82|
92345610|NCT03533751|184594305|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|1.386||0.7511|TWO_SIDED|95.0|-3.167|2.287|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline DLQI score as covariate.|Difference = Etokimab - Placebo|||2.2870|-3.1670|0.7511
92345611|NCT03533751|184594305|SUPERIORITY||LS Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|1.396||0.7558|TWO_SIDED|95.0|-2.3133|3.1824|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline DLQI score as covariate.|Difference = Etokimab - Placebo|||3.1824|-2.3133|0.7558
92345612|NCT03454555|184594335|SUPERIORITY||Mean Difference (Final Values)|-5.6||||0.31|TWO_SIDED|95.0|-16.6|5.3|||Mixed Models Analysis|||||5.3|-16.6|0.31
92345613|NCT03454555|184594336|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.963|TWO_SIDED|95.0|-10.3|10.7|||Mixed Models Analysis|||||10.7|-10.3|0.963
92345614|NCT03454555|184594337|SUPERIORITY||Mean Difference (Final Values)|-6.2||||0.253|TWO_SIDED|95.0|-16.8|4.4|||Mixed Models Analysis|||||4.4|-16.8|0.253
92345615|NCT03454555|184594338|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.9|TWO_SIDED|95.0|-10.1|11.5|||Mixed Models Analysis|||||11.5|-10.1|0.90
92345616|NCT03454555|184594339|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.65|TWO_SIDED|95.0|-13.7|8.6|||Mixed Models Analysis|||||8.6|-13.7|0.65
92345617|NCT03454555|184594340|SUPERIORITY||Mean Difference (Final Values)|9.4||||0.102|TWO_SIDED|95.0|-1.9|20.8|||Mixed Models Analysis|||||20.8|-1.9|0.102
92345618|NCT03454555|184594341|SUPERIORITY||Odds Ratio (OR)|0.93||||0.83|TWO_SIDED|95.0|0.5|1.75|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.75|0.50|0.83
92345619|NCT03454555|184594342|SUPERIORITY||Odds Ratio (OR)|0.79||||0.47|TWO_SIDED|95.0|0.42|1.5|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.50|0.42|0.47
92345620|NCT03454555|184594343|SUPERIORITY||Odds Ratio (OR)|1.02||||0.96|TWO_SIDED|95.0|0.54|1.9|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.90|0.54|0.96
92345621|NCT03454555|184594344|SUPERIORITY||Odds Ratio (OR)|0.71||||0.28|TWO_SIDED|95.0|0.38|1.33|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.33|0.38|0.28
92345622|NCT03454555|184594345|SUPERIORITY||Odds Ratio (OR)|0.9||||0.75|TWO_SIDED|95.0|0.47|1.71|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.71|0.47|0.75
92345623|NCT03454555|184594346|SUPERIORITY||Odds Ratio (OR)|0.68||||0.25|TWO_SIDED|95.0|0.35|1.31|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.31|0.35|0.25
92345624|NCT03454555|184594347|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.7|TWO_SIDED|95.0|-0.9|1.4|||Mixed Models Analysis|||||1.4|-0.9|0.70
92345625|NCT03454555|184594348|SUPERIORITY||Median Difference (Final Values)|0.1||||0.92|TWO_SIDED|95.0|-1.1|1.2|||Mixed Models Analysis|||||1.2|-1.1|0.92
92345626|NCT03454555|184594349|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.64|TWO_SIDED|95.0|-0.7|1.2|||Mixed Models Analysis|||||1.2|-0.7|0.64
92345627|NCT03454555|184594350|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.75|TWO_SIDED|95.0|-0.8|1.1|||Mixed Models Analysis|||||1.1|-0.8|0.75
92345628|NCT03454555|184594351|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.69|TWO_SIDED|95.0|-0.9|1.4|||Mixed Models Analysis|||||1.4|-0.9|0.69
92345629|NCT03454555|184594352|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.33|TWO_SIDED|95.0|-0.6|1.8|||Mixed Models Analysis|||||1.8|-0.6|0.33
92158410|NCT04955626|184203503|OTHER||Geometric mean ratio (GMR)|1.3|||||TWO_SIDED|95.0|1.07|1.58||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||1.58|1.07|
92345630|NCT03454555|184594353|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.86|TWO_SIDED|95.0|-1.8|1.5|||Mixed Models Analysis|||||1.5|-1.8|0.86
92345631|NCT03454555|184594354|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.76|TWO_SIDED|95.0|-1.4|1.9|||Mixed Models Analysis|||||1.9|-1.4|0.76
92345632|NCT03454555|184594355|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.55|TWO_SIDED|95.0|-2.0|1.1|||Mixed Models Analysis|||||1.1|-2.0|0.55
92345633|NCT03454555|184594356|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.52|TWO_SIDED|95.0|-2.1|1.1|||Mixed Models Analysis|||||1.1|-2.1|0.52
92345634|NCT03454555|184594357|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.37|TWO_SIDED|95.0|-0.2|0.4|||Mixed Models Analysis|||||0.4|-0.2|0.37
92345635|NCT03454555|184594358|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.91|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||||0.3|-0.3|0.91
92345636|NCT03454555|184594359|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.33|TWO_SIDED|95.0|-0.2|0.6|||Mixed Models Analysis|||||0.6|-0.2|0.33
92345637|NCT03454555|184594360|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.46|TWO_SIDED|95.0|-0.3|0.6|||Mixed Models Analysis|||||0.6|-0.3|0.46
92158411|NCT03714022|184203511|EQUIVALENCE|Equivalence is concluded if the 90% CIs for the ratios of geometric means are contained within 0.8 to 1.25|Ratio of Geometric Means|0.998|||||TWO_SIDED|90.0|0.941|1.058|||||Cohort A vs Cohort B|||1.058|0.941|
92345638|NCT03454555|184594361|SUPERIORITY||Risk Difference (RD)|-0.02||||0.52|TWO_SIDED|95.0|-0.08|0.04|||Chi-squared|||||0.04|-0.08|0.52
92345639|NCT03454555|184594362|SUPERIORITY||Odds Ratio (OR)|1.48||||0.17|TWO_SIDED|95.0|0.85|2.59|||Mixed Models Analysis|Used a generalized logistic model for repeated measurements; modeled the outcome of intention to taper.||||2.59|0.85|0.17
92345640|NCT03454555|184594363|SUPERIORITY||Odds Ratio (OR)|1.28||||0.41|TWO_SIDED|95.0|0.71|2.31|||Mixed Models Analysis|Used a generalized logistic model for repeated measurements; modeled the outcome of intention to taper.||||2.31|0.71|0.41
92345641|NCT03454555|184594364|SUPERIORITY|||||||0.79|||||||Chi-squared|||||||0.79
92345642|NCT03454555|184594365|SUPERIORITY|||||||0.67|||||||Chi-squared|||||||0.67
92345643|NCT05539131|184594439|SUPERIORITY|The LMM analysis results refer to the F-statistics and associated p-values derived from linear mixed-effects models (LMMs), including fixed effects for time, group, and their interaction.||||||0.862||||||This is p-valu regarding time and group.|Mixed Models Analysis|||||||0.862
92345644|NCT05539131|184594440|SUPERIORITY|The LMM analysis results refer to the F-statistics and associated p-values derived from linear mixed-effects models (LMMs), including fixed effects for time, group, and their interaction.||||||0.662||||||This is p-valu regarding time and group.|Mixed Models Analysis|||||||0.662
92345645|NCT05539131|184594441|SUPERIORITY|The LMM analysis results refer to the F-statistics and associated p-values derived from linear mixed-effects models (LMMs), including fixed effects for time, group, and their interaction.||||||0.318||||||This is p-valu regarding time and group.|ANOVA|||||||0.318
92345646|NCT05539131|184594442|SUPERIORITY|||||||0.273|||||||ANOVA|||||||0.273
92345647|NCT05539131|184594443|SUPERIORITY|||||||0.639|||||||ANOVA|||||||0.639
92345648|NCT05539131|184594444|SUPERIORITY|||||||0.452|||||||ANOVA|||||||0.452
92345649|NCT01140906|184594445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.53|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|95.0|-7.66|-3.4||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-3.40|-7.66|<0.0001
92345650|NCT01140906|184594445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.09|STANDARD_ERROR_OF_MEAN|1.08|<|0.0001|TWO_SIDED|95.0|-9.21|-4.97||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-4.97|-9.21|<0.0001
92345651|NCT01140906|184594445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.45|STANDARD_ERROR_OF_MEAN|1.07|<|0.0001|TWO_SIDED|95.0|-11.55|-7.35||This treatment arm was not in the testing sequence. A nominal p-value is provided.|MMRM|||||-7.35|-11.55|<0.0001
92345652|NCT01140906|184594446|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8|||<|0.0001|TWO_SIDED|95.0|1.76|4.47||Wald's test. Since p-value \<0.025, hierarchically testing continued.|Adjusted Odds Ratio||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||4.47|1.76|<0.0001
92345653|NCT01140906|184594446|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.36|||<|0.0001|TWO_SIDED|95.0|2.1|5.36||Wald's test. Since p-value \<0.025, hierarchically testing continued.|Adjusted Odds Ratio||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||5.36|2.10|<0.0001
92345654|NCT01140906|184594446|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.94|||<|0.0001|TWO_SIDED|95.0|3.61|9.78||This treatment arm was not in the testing sequence. A nominal p-value is provided.|Adjusted Odds Ratio|||||9.78|3.61|<0.0001
92158412|NCT03714022|184203512|EQUIVALENCE|Equivalence is concluded if the 90% CIs for the ratios of geometric means are contained within 0.8 to 1.25|Ratio of Geometric Means|0.929|||||TWO_SIDED|90.0|0.884|0.976|||||Cohort A vs Cohort B|||0.976|0.884|
92218028|NCT00282295|184336770|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority objective was demonstrated if the lower limit was greater than (\>) the pre-defined limit of -10%.|Difference|0.02|||||TWO_SIDED|95.0|-1.4|1.48||||||Non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared toBoostrix® vaccine administered alone at Month 0 with respect to the percentage of subjects with anti-tetanus toxoid (anti-T) antibody concentrations equal to or greater than (≥) 1.0 IU/mL one month after vaccination.||1.48|-1.4|
92218029|NCT00282295|184336771|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than (\>) the pre-defined limit of 0.67|Adjusted GMC ratio|0.93|||||TWO_SIDED|95.0|0.84|1.03||||||Non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to anti-pertussis toxoid (anti-PT) geometric mean antibody concentrations (GMCs) one month after vaccination.||1.03|0.84|
92369364|NCT02993822|184643589|SUPERIORITY||Mean Difference (Final Values)|-5.6||||0.17|TWO_SIDED|95.0|-13.7|2.4|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||2.4|-13.7|0.170
92369365|NCT02993822|184643589|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.384|TWO_SIDED|95.0|-11.7|4.5|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||4.5|-11.7|0.384
92369366|NCT02993822|184643590|SUPERIORITY||Mean Difference (Final Values)|-11.7||||0.006|TWO_SIDED|95.0|-20.0|-3.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-3.3|-20.0|0.006
92369367|NCT02993822|184643590|SUPERIORITY||Mean Difference (Final Values)|-5.0||||0.222|TWO_SIDED|95.0|-13.0|3.0|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||3.0|-13.0|0.222
92369368|NCT02993822|184643590|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.058|TWO_SIDED|95.0|-16.0|0.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||0.3|-16.0|0.058
92369369|NCT02993822|184643591|SUPERIORITY||Mean Difference (Final Values)|-10.0||||0.027|TWO_SIDED|95.0|-18.9|-1.2|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-1.2|-18.9|0.027
92369370|NCT02993822|184643591|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.147|TWO_SIDED|95.0|-14.9|2.2|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||2.2|-14.9|0.147
92369371|NCT02993822|184643591|SUPERIORITY||Mean Difference (Final Values)|-8.9||||0.046|TWO_SIDED|95.0|-17.6|-0.1|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-0.1|-17.6|0.046
92369372|NCT02993822|184643592|SUPERIORITY||Mean Difference (Final Values)|-12.5|||<|0.001|TWO_SIDED|95.0|-19.5|-5.5|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-5.5|-19.5|<0.001
92369373|NCT02993822|184643592|SUPERIORITY||Mean Difference (Final Values)|-5.5||||0.114|TWO_SIDED|95.0|-12.4|1.3|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||1.3|-12.4|0.114
92369374|NCT02993822|184643592|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.056|TWO_SIDED|95.0|-13.7|0.2|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||0.2|-13.7|0.056
92369375|NCT02993822|184643593|SUPERIORITY||Mean Difference (Final Values)|-8.9||||0.027|TWO_SIDED|95.0|-16.8|-1.0|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-1.0|-16.8|0.027
92275199|NCT00106028|184452445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.492||||0.9786|TWO_SIDED|95.0|-36.807|35.824|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||35.824|-36.807|0.9786
92275200|NCT00106028|184452446|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.64||||0.5971|TWO_SIDED|95.0|-40.952|23.672|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||23.672|-40.952|0.5971
92275201|NCT00106028|184452447|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.014||||0.4154||95.0|-1.442|3.47|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||3.470|-1.442|0.4154
92275202|NCT00106028|184452448|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.884||||0.6404|TWO_SIDED|95.0|-2.855|4.623|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||4.623|-2.855|0.6404
92275203|NCT00106028|184452449|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.66||||0.4978|TWO_SIDED|95.0|-6.499|3.179|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||3.179|-6.499|0.4978
92275204|NCT00106028|184452450|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.534||||0.027||95.0|0.41|6.658|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||6.658|0.410|0.0270
92275205|NCT00106028|184452451|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.065||||0.5925|TWO_SIDED|95.0|-2.868|4.998|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||4.998|-2.868|0.5925
92275206|NCT00106028|184452452|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.193||||0.684|TWO_SIDED|95.0|-4.604|6.991|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||6.991|-4.604|0.6840
92158413|NCT03714022|184203514|EQUIVALENCE|Equivalence is concluded if the 90% CIs for the ratios of geometric means are contained within 0.8 to 1.25|Ratio of Geometric Means|0.936|||||TWO_SIDED|90.0|0.891|0.983|||||Cohort A vs Cohort B|||0.983|0.891|
92158414|NCT03714022|184203515|EQUIVALENCE|Equivalence is concluded if the 90% CIs for the ratios of geometric means are contained within 0.8 to 1.25|Ratio of Geometric Means|0.957|||||TWO_SIDED|90.0|0.915|1.001|||||Cohort A vs Cohort B|||1.001|0.915|
92158415|NCT02487446|184203562|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit (LL) of the 97.5% one -sided confidence interval (CI) \> -20 mL.|Mean Difference (Net)|-0.0115|STANDARD_ERROR_OF_MEAN|0.00778||0.139|TWO_SIDED|95.0|-0.0269|0.0038||p-value unadjusted|Linear Mixed Model|||Ho: QVA149 27.5/12.5 μg b.i.d. is inferior to umeclidinium/vilanterol 62.5/25 μg q.d; Ha: QVA149 27.5/12.5 μg b.i.d. is non-inferior to umeclidinium/vilanterol 62.5/25 μg q.d.||0.0038|-0.0269|0.139
92158416|NCT02487446|184203563|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0115|STANDARD_ERROR_OF_MEAN|0.00778|||TWO_SIDED|95.0|-0.0269|0.0038||||||Ho: QVA149 27.5/12.5 μg b.i.d. is inferior to umeclidinium/vilanterol 62.5/25 μg q.d; Ha: QVA149 27.5/12.5 μg b.i.d. is non-inferior to umeclidinium/vilanterol 62.5/25 μg q.d.||0.0038|-0.0269|
92158417|NCT02487446|184203564|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0153|STANDARD_ERROR_OF_MEAN|0.01062|||TWO_SIDED|95.0|-0.0361|0.0056||||||||0.0056|-0.0361|
92158418|NCT02487446|184203565|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0051|STANDARD_ERROR_OF_MEAN|0.00806|||TWO_SIDED|95.0|-0.0108|0.0209||||||||0.0209|-0.0108|
92158419|NCT04951479|184203591|SUPERIORITY|||||||0.00041|||||||t-test, 2 sided|||Paired t-test of KOOS Pain score pre and 6 months post embolization||||0.00041
92158420|NCT04951479|184203592|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
92345655|NCT01140906|184594447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.94|-0.44||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-0.44|-0.94|<0.0001
92345656|NCT01140906|184594447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-0.70|-1.20|<0.0001
92345657|NCT01140906|184594447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.36|-0.87||This treatment arm was not in the testing sequence. A nominal p-value is provided.|MMRM|||||-0.87|-1.36|<0.0001
92345658|NCT01140906|184594448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.24|STANDARD_ERROR_OF_MEAN|1.53||0.0007|TWO_SIDED|95.0|-8.25|-2.22||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-2.22|-8.25|0.0007
92345659|NCT01140906|184594448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.42|STANDARD_ERROR_OF_MEAN|1.58|<|0.0001|TWO_SIDED|95.0|-9.53|-3.31||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-3.31|-9.53|<0.0001
92345660|NCT01140906|184594448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.71|STANDARD_ERROR_OF_MEAN|1.54|<|0.0001|TWO_SIDED|95.0|-11.73|-5.69||This treatment arm was not in the testing sequence. A nominal p-value is provided.|MMRM|||||-5.69|-11.73|<0.0001
92345661|NCT01140906|184594449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.32||||0.0016|TWO_SIDED|95.0|1.37|3.91||Wald's test. Since p-value \<0.025, hierarchically testing continued.|Adjusted Odds Ratio||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||3.91|1.37|0.0016
92158421|NCT04951479|184203593|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92158422|NCT04951479|184203594|SUPERIORITY|||||||0.00797|||||||t-test, 2 sided|paired t-test||||||0.00797
92158423|NCT03706690|184203596|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.038|TWO_SIDED|95.0|0.578|0.986|||Log Rank|Analysis performed using stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs sCRT).||The hazard ratio and confidence intervals (CIs) were calculated using a stratified Cox proportional hazards model, adjusting for the level of programmed death ligand 1 (PD-L1) expression (PD-L1 \<1% versus \[vs\] PD-L1 \>=1%) and prior therapy (concurrent \[c\]CRT vs sequential \[s\]CRT), with treatment as the only covariate and ties handled by Efron approach.||0.986|0.578|0.038
92158424|NCT03706690|184203597|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.346|TWO_SIDED|95.0|0.656|1.166|||Log Rank|Analysis performed using stratified log-rank test, adjusting for level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For mITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs PD-L1 \>=1%) and prior therapy (cCRT vs sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.166|0.656|0.346
92158425|NCT03706690|184203597|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.346|TWO_SIDED|95.0|0.663|1.162|||Log Rank|Analysis performed using stratified log-rank test, adjusting for level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For ITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs PD-L1 \>=1%) and prior therapy (cCRT vs sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.162|0.663|0.346
92345662|NCT01140906|184594449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.65||||0.0002|TWO_SIDED|95.0|1.58|4.44||Wald's test. Since p-value \<0.025, hierarchically testing continued.|Adjusted Odds Ratio||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||4.44|1.58|0.0002
92345663|NCT01140906|184594449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.01|||<|0.0001|TWO_SIDED|95.0|2.99|8.37||Wald's test. This treatment arm was not in the testing sequence. A nominal p-value is provided.|Adjusted for Odds Ratio|||||8.37|2.99|<0.0001
92345664|NCT01140906|184594450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.24|STANDARD_ERROR_OF_MEAN|1.16||0.0054|TWO_SIDED|95.0|-5.51|-0.97||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-0.97|-5.51|0.0054
92345665|NCT01140906|184594450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.92|STANDARD_ERROR_OF_MEAN|1.11||0.0005|TWO_SIDED|95.0|-6.11|-1.73||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-1.73|-6.11|0.0005
92345666|NCT01140906|184594450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.93|STANDARD_ERROR_OF_MEAN|1.13|<|0.0001|TWO_SIDED|95.0|-9.16|-4.7||This treatment arm was not in the testing sequence. A nominal p-value is provided.|MMRM|||||-4.70|-9.16|<0.0001
92345667|NCT01140906|184594451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.59||0.2524|TWO_SIDED|95.0|-1.83|0.48||A nominal p-value is provided.|MMRM||No correction for multiplicity was made.|||0.48|-1.83|0.2524
92345668|NCT01140906|184594451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.59||0.4186|TWO_SIDED|95.0|-1.64|0.68||A nominal p-value is provided.|MMRM||No correction for multiplicity was made.|||0.68|-1.64|0.4186
92345669|NCT01140906|184594452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.41||0.7372|TWO_SIDED|95.0|-0.95|0.67||A nominal p-value is provided.|ANCOVA|||||0.67|-0.95|0.7372
92345670|NCT01140906|184594452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|STANDARD_ERROR_OF_MEAN|0.41||0.169|TWO_SIDED|95.0|-0.24|1.37||A nominal p-value is provided.|ANCOVA|||||1.37|-0.24|0.1690
92345671|NCT01107015|184594473|OTHER|Sample size was determined on the basis of the primary outcome, change in glycated hemoglobin. The comparison of UC, which included 56 patients from nine practices, to CPDS, which included 62 patients from seven practices, had 80% power to detect a difference in mean glycated hemoglobin changes of 0.65 SD, corresponding to 1.0% if SD was 1.58%, using a two-sided test with 0.05 type I error after accounting for a within cluster correlation of 0.10.||||||0.027||||||CO (P = 0.027) and CPP (0.40) mean HbA1c levels decreased over 12 months.|Mixed Models Analysis|||Linear mixed-effects models were used to compare mean changes in primary and secondary outcomes between UC and each active intervention. The primary analysis examined 12-month changes for glycated hemoglobin. Secondary analyses jointly compared 3-, 6-, 9-, and 12-month changes between groups. Random effects accounted for within-practice clustering and within-patient correlation.||||0.027
92345672|NCT01107015|184594473|SUPERIORITY||Mean Difference (Net)|0.05||||0.001|TWO_SIDED||||||Mixed Models Analysis|||Linear mixed-effects models were used to compare mean changes in primary and secondary outcomes between UC and each active intervention. The primary analysis examined 12-month changes for glycated hemoglobin.||||0.001
92345673|NCT01155323|184594474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.21|0.23|||Mixed Models Analysis||Mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be superior to omafilcon A for comfort.||0.23|-0.21|
92345674|NCT01155323|184594475|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.50|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.19|0.25|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be non-inferior to omafilcon A for vision.||0.25|-0.19|
92218030|NCT00282295|184336771|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was \> the pre-defined limit of 0.67|Adjusted GMC ratio|0.76|||||TWO_SIDED|95.0|0.69|0.84||||||Non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to anti-filamentous hemagglutinin (anti-FHA) GMCs one month after vaccination.||0.84|0.69|
92158426|NCT03706690|184203598|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.026|TWO_SIDED|95.0|0.575|0.966|||Log Rank|Analysis performed using stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs sCRT).||The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs PD-L1\>=1%) and prior therapy (cCRT vs sCRT), with treatment as the only covariate and ties handled by Efron approach.||0.966|0.575|0.026
92158427|NCT03706690|184203600|SUPERIORITY||Odds Ratio (OR)|1.51||||0.128|TWO_SIDED|95.0|0.891|2.607|||Regression, Logistic|||For mITT set. The comparison was performed using a logistic regression model, with treatment as a covariate and adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with 95% CI calculated by profile likelihood.||2.607|0.891|0.128
92345675|NCT01155323|184594476|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.50|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.22|0.22|||||The mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be non-inferior to omafilcon A for lens handling.||0.22|-0.22|
92345676|NCT01155323|184594477|NON_INFERIORITY_OR_EQUIVALENCE|Margin = +/-0.50|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.03|0.01|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be equivalent to omafilcon A for corneal staining.||0.01|-0.03|
92345677|NCT01155323|184594478|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.50|Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.15|0.29|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be non-inferior to omafilcon A for quality perceptions.||0.29|-0.15|
92345678|NCT01155323|184594479|NON_INFERIORITY_OR_EQUIVALENCE|Margin = +/- 0.50|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.01|0.06|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be equivalent to omafilcon A from limbal hyperemia.||0.06|-0.01|
92345679|NCT01208051|184594483|SUPERIORITY|||||||0.26||||||p-value is stratified by randomization factors.|Log Rank|The conditional power was 7.8%, reaching the futility boundary of \<15%. Patients on the combination arm were then crossed over to cediranib alone.||||||0.26
92345680|NCT01208051|184594484|SUPERIORITY|||||||0.36|||||||Log Rank|||||||0.36
92345681|NCT01208051|184594486|SUPERIORITY|||||||0.8|||||||Log Rank|||||||0.80
92345682|NCT01208051|184594487|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||0.83
92345683|NCT00973973|184594498|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.107||0.0262|TWO_SIDED|95.0|-0.45|-0.03|||ANCOVA|Analysis of covariance (ANCOVA) model including baseline value as a covariate.||Comparison of Change from Baseline at Week 4||-0.03|-0.45|0.0262
92405636|NCT02683577|184701450|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|1.72|||||TWO_SIDED|90.0|1.11|2.65|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of mild HI group (Test) versus healthy control group (Reference) for Cmax values for LP-778902.||2.65|1.11|
92345684|NCT00973973|184594498|SUPERIORITY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.152|<|0.0001|TWO_SIDED|95.0|-1.06|-0.46|||ANCOVA|Analysis of covariance (ANCOVA) model, including baseline value as a covariate.||Comparison of change from baseline at week 8||-0.46|-1.06|< 0.0001
92218031|NCT00282295|184336771|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was \> the pre-defined limit of 0.67|Adjusted GMC ratio|0.63|||||TWO_SIDED|95.0|0.54|0.72||||||To demonstrate the non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to anti-pertactin (anti-PRN) GMCs one month after vaccination.||0.72|0.54|
92158428|NCT03706690|184203600|SUPERIORITY||Odds Ratio (OR)|1.54||||0.105|TWO_SIDED|95.0|0.915|2.638|||Regression, Logistic|||For ITT set. The comparison was performed using a logistic regression model, with treatment as a covariate and adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with 95% CI calculated by profile likelihood.||2.638|0.915|0.105
92345685|NCT00973973|184594500|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.086||0.0163|TWO_SIDED|95.0|-0.38|-0.04|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 4||-0.04|-0.38|0.0163
92345686|NCT00973973|184594500|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.101||0.0066|TWO_SIDED|95.0|-0.48|-0.08|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||-0.08|-0.48|0.0066
92345687|NCT00973973|184594502|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.082||0.0089|TWO_SIDED|95.0|-0.38|-0.06|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 4||-0.06|-0.38|0.0089
92345688|NCT00973973|184594502|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.1||0.0011|TWO_SIDED|95.0|-0.53|-0.14|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||-0.14|-0.53|0.0011
92345689|NCT00973973|184594504|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.127||0.036|TWO_SIDED|95.0|-0.52|-0.02|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change form baseline at week 4||-0.02|-0.52|0.0360
92345690|NCT00973973|184594504|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.137||0.007|TWO_SIDED|95.0|-0.65|-0.11|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||-0.11|-0.65|0.0070
92345691|NCT00973973|184594510|SUPERIORITY||LS Mean Difference|-9.84|STANDARD_ERROR_OF_MEAN|3.939||0.0137|TWO_SIDED|95.0|-17.63|-2.05|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 4||-2.05|-17.63|0.0137
92345692|NCT00973973|184594510|SUPERIORITY||LS Mean Difference|-12.44|STANDARD_ERROR_OF_MEAN|3.913||0.0019|TWO_SIDED|95.0|-20.19|-4.7|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||-4.70|-20.19|0.0019
92158429|NCT03706690|184203603|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.275|TWO_SIDED|95.0|0.648|1.138|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For mITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.138|0.648|0.275
92158430|NCT03706690|184203603|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.241|TWO_SIDED|95.0|0.648|1.122|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For ITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.122|0.648|0.241
92158431|NCT03706690|184203604|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.769|TWO_SIDED|95.0|0.726|1.578|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For mITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.578|0.726|0.769
92345693|NCT00973973|184594512|SUPERIORITY||LS Mean Difference|-6.21|STANDARD_ERROR_OF_MEAN|2.728||0.0244|TWO_SIDED|95.0|-11.61|-0.81|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 4||-0.81|-11.61|0.0244
92345694|NCT00973973|184594512|SUPERIORITY||LS Mean Difference|-6.35|STANDARD_ERROR_OF_MEAN|2.549||0.0141|TWO_SIDED|95.0|-11.39|-1.3|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||-1.30|-11.39|0.0141
92345695|NCT00973973|184594514|SUPERIORITY||LS Mean Difference|-3.12|STANDARD_ERROR_OF_MEAN|1.821||0.0893|TWO_SIDED|95.0|-6.72|0.49|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 4||0.49|-6.72|0.0893
92345696|NCT00973973|184594514|SUPERIORITY||LS Mean Difference|-3.52|STANDARD_ERROR_OF_MEAN|1.938||0.072|TWO_SIDED|95.0|-7.35|0.32|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||0.32|-7.35|0.0720
92345697|NCT00973973|184594516|SUPERIORITY||LS Mean Difference|-2.26|STANDARD_ERROR_OF_MEAN|0.505|<|0.0001|TWO_SIDED|95.0|-3.26|-1.26|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of the change from baseline in CPSSS total score||-1.26|-3.26|< 0.0001
92345698|NCT00973973|184594516|SUPERIORITY||LS Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.41|-0.69|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline in CPSSS component of dysmenorrhea score||-0.69|-1.41|< 0.0001
92345699|NCT00973973|184594516|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.143||0.0139|TWO_SIDED|95.0|-0.64|-0.07|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline in CPSSS component of non-menstrual pelvic pain score||-0.07|-0.64|0.0139
92218032|NCT00282295|184336772|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was \> the pre-defined limit of -10%.|Difference in booster response rate|-4.38|||||TWO_SIDED|95.0|-9.91|1.15||||||Non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to a booster response to PT one month after vaccination.||1.15|-9.91|
92218033|NCT00282295|184336772|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was \> the pre-defined limit of -10%.|Difference in booster response rate|-3.39|||||TWO_SIDED|95.0|-7.03|0.15||||||Non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to a booster response to FHA one month after vaccination.||0.15|-7.03|
92218034|NCT00282295|184336772|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was \> the pre-defined limit of -10%.|Difference in booster response rate|-1.96|||||TWO_SIDED|95.0|-5.25|-1.25||||||To demonstrate the non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to a booster response to PRN one month after vaccination.||-1.25|-5.25|
92218035|NCT00282295|184336773|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than the pre-defined limit of -10%.|Difference in vaccine response rate|-0.21|||||TWO_SIDED|95.0|-4.85|4.43||||||Non-inferiority of Menactra™ vaccine co-administered with Boostrix® vaccinecompared to Menactra™ vaccine administered alone at Month 0 with respect to a vaccine responseto meningococcal serogroup A one month after vaccination.||4.43|-4.85|
92218036|NCT00282295|184336773|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than the pre-defined limit of -10%.|Difference in vaccine response rate|1.69|||||TWO_SIDED|95.0|-1.69|5.16||||||Non-inferiority of Menactra™ vaccine co-administered with Boostrix® vaccine compared to Menactra™ vaccine administered alone at Month 0 with respect to a vaccine responseto meningococcal serogroup C one month after vaccination.||5.16|-1.69|
92158432|NCT03706690|184203604|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.812|TWO_SIDED|95.0|0.726|1.539|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For ITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.539|0.726|0.812
92158433|NCT02711826|184203613|SUPERIORITY|||||||0.425|||||||Fisher Exact|||||||0.425
92158434|NCT02711826|184203614|SUPERIORITY|||||||0.7|||||||Kruskal-Wallis|||||||0.700
92158435|NCT02711826|184203615|SUPERIORITY|||||||0.201|||||||Kruskal-Wallis|||||||0.201
92158436|NCT00729690|184203637|SUPERIORITY_OR_OTHER|||||||0.4742||95.0|||||ANOVA|||For 1st 24 hours NRS AUC Pain scores||||0.4742
92158437|NCT00729690|184203638|SUPERIORITY_OR_OTHER|||||||0.7596||95.0|||||ANOVA|||||||0.7596
92158438|NCT00729690|184203639|SUPERIORITY_OR_OTHER|||||||0.4321||95.0|||||ANOVA|||||||0.4321
92158439|NCT00729690|184203640|SUPERIORITY_OR_OTHER|||||||0.9361||95.0|||||ANOVA|||||||0.9361
92158440|NCT02507219|184203659|SUPERIORITY||Slope|0.000055||||0.512|TWO_SIDED|95.0|-0.00011|0.00022|||Mixed Models Analysis||Slope is percent signal change per milligram of ibuprofen.|A linear mixed effects model was run for the left amygdala with contrast and percent signal change between faces and shapes as the dependent variable and ibuprofen dose as a continuous predictor. Each subject had up to 3 visits and each visit contained 3 contrasts (happy - shape, angry - shape, fearful - shape) so subject and drug were used as random effects. Drug was nested inside of subject.||0.00022|-0.00011|0.512
92158441|NCT02507219|184203659|SUPERIORITY||Slope|-0.00012||||0.221|TWO_SIDED|95.0|-0.0003|0.000067|||Mixed Models Analysis||Slope is the percent signal change per mg of ibuprofen.|A linear mixed effects model was run for the right amygdala with contrast and percent signal change between faces and shapes as the dependent variable and ibuprofen dose as a continuous predictor. Each subject had up to 3 visits and each visit contained 3 contrasts (happy - shape, angry - shape, fearful - shape) so subject and drug were used as random effects. Drug was nested inside of subject.||0.000067|-0.00030|0.221
92158442|NCT02320721|184203675|NON_INFERIORITY|Non-inferiority of HOE901-U300 vs Lantus was demonstrated if the upper bound of the two-sided 95% confidence interval (CI) for the difference between groups was \<0.3%.|LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.056|||TWO_SIDED|95.0|-0.092|0.129||||||Analysis was performed using ANCOVA model including the fixed categorical effects of treatment group, randomization strata, as well as the continuous fixed covariates of baseline value and following multiple imputation procedure for missing data.||0.129|-0.092|
92218037|NCT00282295|184336773|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than the pre-defined limit of -10%.|Difference in vaccine response rate|1.82||||||95.0|-2.58|6.25||||||Non-inferiority of Menactra™ vaccine co-administered with Boostrix® vaccine compared to Menactra™ vaccine administered alone at Month 0 with respect to a vaccine response to meningococcal serogroup Y one month after vaccination.||6.25|-2.58|
92345700|NCT00973973|184594516|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.173||0.1052|TWO_SIDED|95.0|-0.63|0.06|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline in CPSSS component of dyspareunia score||0.06|-0.63|0.1052
92345701|NCT00973973|184594516|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.143||0.0081|TWO_SIDED|95.0|-0.67|-0.1|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline in CPSSS component of pelvic tenderness score||-0.10|-0.67|0.0081
92345702|NCT00973973|184594516|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.125||0.024|TWO_SIDED|95.0|-0.53|-0.04|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline in CPSSS component of induration score||-0.04|-0.53|0.0240
92345703|NCT00973973|184594518|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.23||0.0012|TWO_SIDED|95.0|-1.2|-0.3|||ANOVA|||Comparison of Patient Global Impression of Change at week 4||-0.3|-1.2|0.0012
92345704|NCT00973973|184594518|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.26||0.0002|TWO_SIDED|95.0|-1.5|-0.5|||ANOVA|||Comparison of Patient Global Impression of Change at week 8||-0.5|-1.5|0.0002
92345705|NCT00973973|184594520|SUPERIORITY||Difference|19.4||||0.0136|TWO_SIDED|95.0|4.4|34.4|||Pearson chi-squared|||Comparison of response rates at week 4||34.4|4.4|0.0136
92345706|NCT00973973|184594520|SUPERIORITY||Difference|30.2||||0.0007|TWO_SIDED|95.0|13.6|46.7|||Pearson chi-squared|||Comparison of response rates at week 8||46.7|13.6|0.0007
92275207|NCT00106028|184452453|SUPERIORITY_OR_OTHER|||||||0.068||95.0|||||Fisher Exact|||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||||0.0680
92275208|NCT00106028|184452454|SUPERIORITY_OR_OTHER|||||||0.4121||95.0|||||Fisher Exact|||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||||0.4121
92275209|NCT00106028|184452455|SUPERIORITY_OR_OTHER|||||||0.3658||95.0|||||Savage Exact Test|||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||||0.3658
92275210|NCT00106028|184452456|SUPERIORITY_OR_OTHER|||||||0.3408||95.0|||||Savage Exact Test|||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||||0.3408
92275211|NCT00106028|184452459|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.534||||0.0253||95.0|0.31|0.922||All Fractures|Cox proportional hazards|Hazard Ratio and 95% CI based on Cox proportional hazards model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.922|0.310|0.0253
92275212|NCT00106028|184452459|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.534||||0.0253|TWO_SIDED|95.0|0.31|0.922||All Non-Vertebral Fractures|Cox Proportional Hazard|Hazard Ratio and 95% CI based on Cox proportional hazards model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.922|0.310|0.0253
92275213|NCT00106028|184452459|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.487||||0.0501|TWO_SIDED|95.0|0.25|0.95||Long Bone Non-Vertebral Fracture|Cox Proportional Hazards|Hazard Ratio and 95% CI based on Cox proportional hazards model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.950|0.250|0.0501
92275214|NCT00106028|184452459|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.608||||0.2141|TWO_SIDED|95.0|0.262|1.41||Other Non-Vertebral Fracture|Cox Proportional Hazard|Hazard Ratio and 95% CI based on Cox proportional hazards model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||1.410|0.262|0.2141
92275215|NCT00106028|184452460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.584||||0.0416||95.0|0.348|0.98||All Fractures|Wald test|Hazard Ratio and 95% CI based on Anderson-Gill mean intensity model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.980|0.348|0.0416
92345707|NCT02471339|184594526|SUPERIORITY|||||||0.05|||||||ANCOVA|||Analysis of covariance. Analyses for primary and secondary outcomes were two-tailed and alpha was set to 0.05. An a priori analysis suggested that, to detect a change of .68 standard deviation on the primary outcome measure between the two groups at .80 power, 41 patients per group would be needed.||||0.05
92345708|NCT02471339|184594527|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
92345709|NCT02471339|184594530|SUPERIORITY|||||||0.05|||||||t-test|||||||.05
92345710|NCT02471339|184594534|SUPERIORITY|||||||0.042|||||||ANOVA|||||||0.042
92345711|NCT04383132|184594562|OTHER|||||||0.388||||||Independent t-test was used to compare mean CIT between two groups. The statistical significance level was accepted as p\<0.05|t-test, 2 sided|||In sample size calculation, CIT and SD were used. It was found that 326 patients (163 per group) were required to detect a 60-second difference in CIT (SD 192 secs), with 80% power and two-sided alpha 0.05. The frequency of the auxiliary maneuvers was calculated that 324 patients were required for a 20% reduction in the auxiliary maneuvers. In case of becoming lost to follow up and withdrawal, the number of patients was expanded by 5%, and a total of 346 patients, were included in the study.||||0.388
92345712|NCT04383132|184594563|OTHER|||||||0.069||||||For the comparison of ancillary maneuvers Pearson chi-square test, Fisher's exact test, and Fisher-Freeman-Halton exact test were used.|Chi-squared|||||||0.069
92345713|NCT04383132|184594564|OTHER|||||||0.487||||||Independent t-test was used to compare mean CIL between two groups.|t-test, 2 sided|||||||0.487
92158443|NCT02320721|184203676|SUPERIORITY_OR_OTHER_LEGACY|A hierarchical testing procedure was used to control type I error and handle multiple endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only if previous endpoint was statistically significant at 0.05 level.|Relative risk|1.01||||0.8415|TWO_SIDED|95.0|0.89|1.153||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was done by Cochran-Mantel-Haenszel method with randomization strata (screening HbA1c \[\<8.0%; ≥8.0%\], previous use of insulin \[naive, pre-treated\], use of sulfonylurea or meglitinides at screening \[yes, no\]), following multiple imputation procedure for missing data.||1.153|0.890|0.8415
92218038|NCT00282295|184336773|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than the pre-defined limit of -10%.|Difference in vaccine response rate|3.56|||||TWO_SIDED|95.0|0.96|6.45||||||Non-inferiority of Menactra™ vaccine co-administered with Boostrix® vaccine compared to Menactra™ vaccine administered alone at Month 0 with respect to a vaccine response to meningococcal serogroup W-135 one month after vaccination||6.45|0.96|
92218039|NCT04456764|184336816|SUPERIORITY|||||||0.55||||||Test for group by time interaction.|Mixed Models Analysis|Adjusted for clustering.||||||0.55
92218040|NCT04456764|184336817|SUPERIORITY|||||||0.12||||||group x time interaction|Mixed Models Analysis|random agency and a random participant effect||||||0.12
92218041|NCT04456764|184336818|SUPERIORITY|||||||0.0986|||||||Mixed Models Analysis|Adjusted for clustering.||||||0.0986
92218042|NCT04456764|184336819|SUPERIORITY|||||||0.51||||||Group by time interaction.|Mixed Models Analysis|Adjusted for clustering.||||||0.51
92345714|NCT04383132|184594565|OTHER|||||||0.822|||||||Chi-squared|||||||0.822
92218043|NCT04456764|184336820|SUPERIORITY|||||||0.04||||||Group by time interaction.|Mixed Models Analysis|Adjusted for clustering.||||||0.04
92345715|NCT04383132|184594566|OTHER|||||||0.016|||||||Chi-squared|||||||0.016
92345716|NCT04383132|184594567|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
92345717|NCT04383132|184594568|OTHER|||||||0.184|||||||Fisher Exact|||||||0.184
92345718|NCT02110693|184594625|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Alcohol Use Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.7|||||TWO_SIDED|95.0|0.64|0.75||||||Each administration approach (interviewer and tablet) was tested separately against the reference measure.||.75|.64|
92218044|NCT04456764|184336821|SUPERIORITY|||||||0.02||||||Group by time interaction.|Mixed Models Analysis|Adjusted for clustering.||||||0.02
92275216|NCT00106028|184452460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.584||||0.0416|TWO_SIDED|95.0|0.348|0.98||Non-Vertebral Fracture|Wald Test|Hazard Ratio and 95% CI based on Anderson-Gill mean intensity model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.980|0.348|0.0416
92345719|NCT02110693|184594625|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Alcohol Use Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.74|||||TWO_SIDED|95.0|0.68|0.79||||||Each administration approach (interviewer and tablet) was tested separately against the reference measure.||.79|.68|
92218045|NCT00736255|184336826|SUPERIORITY_OR_OTHER|||||||0.54|||||||Chi-squared|||"Null Hypothesis:LDX and NRT will not facilitate smoking cessation compared to NRT and placebo.~Alternate Hypothesis: LDX and NRT will facilitate smoking cessation compared to NRT and placebo.~This is a one tailed, proof of concept study so there is no formal power analysis, however if we see a signal for treatment effect, we would like to do further investigation by conducting a separate trial."||||0.54
92345720|NCT02110693|184594626|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Cannabis Use Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.71|||||TWO_SIDED|95.0|0.63|0.79||||||Each administration approach (interviewer and tablet) were separately tested against the reference measure.||.79|.63|
92345721|NCT02110693|184594626|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Cannabis Use Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.7|||||TWO_SIDED|95.0|0.62|0.77||||||Each administration approach (interviewer and tablet) were separately tested against the reference measure.||.77|.62|
92345722|NCT02110693|184594627|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Cocaine and Amphetamine (Stimulant) Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.57|||||TWO_SIDED|95.0|0.47|0.67||||||Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.67|.47|
92345723|NCT02110693|184594627|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Cocaine and Amphetamine (Stimulant) Use Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.6|||||TWO_SIDED|95.0|0.5|0.69||||||Each administration approach (interviewer and tablet) were separately tested against the reference measure.||.69|.50|
92345724|NCT02110693|184594628|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Heroin Use Disorder using receiver operator characteristic (ROC) curves.|sensivity|0.66|||||TWO_SIDED|95.0|0.53|0.77||||||Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.77|.53|
92218046|NCT00457015|184336838|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0||||No adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|Blocked Wilcoxon rank sum test|||The primary efficacy analysis compared the change from baseline in MSCS Score at 4 hours post-dosing for patients treated with ecallantide and placebo. Treatment effect was assessed by the nonparametric Blocked Wilcoxon Rank Sum test because of an assumed non-normal distribution.||||0.010
92345725|NCT02110693|184594628|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Heroin Use Disorder using receiver operator characteristic (ROC) curves.|Sensivity|0.66|||||TWO_SIDED|95.0|0.53|0.77||||||Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.77|.53|
92345726|NCT02110693|184594632|OTHER|The association on the interviewer and tablet computer administered versions of the TAPS Tool compared to the reference standard AUDIT-C score was assessed using Spearman Correlation.|Spearman Correlation|0.63|||||TWO_SIDED|95.0|0.59|0.66|||||The estimated value is a Spearman Correlation point estimate between TAPS Tool Alcohol Score and the AUDIT-C score. A Confidence Interval rather than a dispersion value is therefore reported.|Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.66|.59|
92345727|NCT02110693|184594632|OTHER|The association on the interviewer and tablet administered versions of the TAPS Tool compared to the reference standard of the AUDIT C score was assessed using Spearman Correlation.|Spearman Correlation|0.64|||||TWO_SIDED|95.0|0.61|0.68|||||The estimated value is a Spearman Correlation point estimate between TAPS Tool Alcohol Score and the AUDIT-C Score. A Confidence Interval rather than a dispersion value is therefore reported.|Each administration approach (interviewer and tablet) was tested separately against the reference measure.||.68|.61|
92345728|NCT02110693|184594634|OTHER|The association on the interviewer and tablet computer administered versions of the TAPS Tool compared to the reference standard Smokeless Tobacco Questionnaire was assessed using Spearman Correlation.|Spearman Correlation|0.29|||||TWO_SIDED|95.0|0.25|0.33|||||The estimated value is a Spearman Correlation point estimate between the TAPS Tool Tobacco Score and the Smokeless Tobacco Questionnare. Confidence Interval rather than a dispersion value is therefore reported.|Each administration approach (interviewer and tablet computer) was tested separately against the reference measure.||.33|.25|
92345729|NCT02110693|184594634|OTHER||Spearman Correlation|0.28|||||TWO_SIDED|95.0|0.24|0.32|||||The estimated value is a Spearman Correlation point estimate between TAPS Tool Tobacco Score and the score on the Smokeless Tobacco Questionnaire. A Confidence Interval rather than a dispersion value is therefore reported.|Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.32|.24|
92345730|NCT02110693|184594635|OTHER|The association on the interviewer and tablet computer administered versions of the TAPS Tool compared to the reference standard of the results of the oral fluid test was assessed using Spearman Correlation.|Spearman Correlation|0.42|||||TWO_SIDED|95.0|0.35|0.48|||||The estimated value is a Spearman Correlation point estimate between TAPS Tool Cannabis Score and the results of the Oral Fluid Test. Confidence Interval rather than a dispersion value is therefore reported.|Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.48|.35|
92345731|NCT02110693|184594635|OTHER||Spearman Correlation|0.4|||||TWO_SIDED|95.0|0.33|0.46|||||The estimated value is a point estimate of the Spearman Correlation between the TAPS Tool Cannabis Score and the Oral Fluid Cannabis Screen. A Confidence Interval rather than a dispersion value is therefore reported.|||.46|.33|
92345732|NCT02054156|184594653|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0043|TWO_SIDED|95.0|0.37|0.83|||Cox Proportional Hazards Model||The estimate is adjusted for age strata (\>=6 months - 3 years, \>3 - 6 years, \>6 - 12 years, and \>12 - 18 years).|||0.83|0.37|0.0043
92345733|NCT02054156|184594654|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9915|TWO_SIDED|95.0|0.64|1.55|||Cox Proportional Hazards Model||The estimate is adjusted for age strata (\>=6 months - 3 years, \>3 - 6 years, \>6 - 12 years, and \>12 - 18 years).|||1.55|0.64|0.9915
92345734|NCT02054156|184594655|SUPERIORITY||Difference in % of Participants with SAE|-2.5||||0.7531|TWO_SIDED|95.0|-13.7|8.7|||Fisher Exact||95% confidence interval calculated using the Newcombe-Wilson method without continuity correction.|||8.7|-13.7|0.7531
92345735|NCT02054156|184594655|SUPERIORITY||Difference in % of Participants with AE|4.4||||0.3593|TWO_SIDED|95.0|-3.5|12.6|||Fisher Exact||95% confidence interval calculated using the Newcombe-Wilson.|||12.6|-3.5|0.3593
92345736|NCT02054156|184594656|SUPERIORITY||Rate Ratio|0.86||||0.0004|TWO_SIDED|95.0|0.8|0.94|||Poisson Regression|||Rate Ratio for Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in months. The total number of follow-up months of all participants (not per participant) in the trial was as follows: in the Azithromycin group was 1267.73 and in the Placebo group was 1193.72.||0.94|0.80|0.0004
92345737|NCT02054156|184594656|SUPERIORITY||Rate Ratio|1.25||||0.2098|TWO_SIDED|95.0|0.88|1.78|||Poisson Regression|||Rate Ratio for Serious Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in months. The total number of follow-up months of all participants (not per participant) in the trial was as follows: in the Azithromycin group was 1267.73 and in the Placebo group was 1193.72.||1.78|0.88|0.2098
92345738|NCT04154956|184594657|SUPERIORITY||Hazard Ratio (HR)|1.143||||0.8204|TWO_SIDED|95.0|0.864|1.512||One-sided significance level was 0.01|Log Rank||Hazard ratio and confidence intervals (CIs) were computed from a stratified Cox model according to stratification factors as per IRT.|||1.512|0.864|0.8204
92345739|NCT04154956|184594658|SUPERIORITY||Hazard Ratio (HR)|0.846||||0.112|TWO_SIDED|95.0|0.644|1.109||One-sided significance level was 0.00174.|Log Rank||Hazard ratio and CIs were computed from a stratified Cox model according to stratification factors as per IRT.|||1.109|0.644|0.1120
92345740|NCT04154956|184594659|SUPERIORITY||Odds Ratio (OR)|0.88||||0.6972|TWO_SIDED|95.0|0.55|1.42||P-value is provided for information only, there is no statistical inference based on this P-value.|Cochran-Mantel-Haenszel||Odds ratio and its 2-sided CI were provided from a Cochran-Mantel-Haenszel (CMH) test stratified according to the stratification factors.|||1.42|0.55|0.6972
92345741|NCT04154956|184594660|SUPERIORITY||Hazard Ratio (HR)|0.729||||0.0157|TWO_SIDED|95.0|0.546|0.972||P-value is provided for information only, there is no statistical inference based on this P-value.|Log Rank||Hazard ratio and CIs were computed from a stratified Cox model according to stratification factors as per IRT.|||0.972|0.546|0.0157
92345742|NCT04154956|184594661|SUPERIORITY||Hazard Ratio (HR)|0.544||||0.0002|TWO_SIDED|95.0|0.388|0.763||P-value is provided for information only, there is no statistical inference based on this P-value.|Log Rank||Hazard ratio and CIs were computed from a stratified Cox model according to stratification factors as per IRT.|||0.763|0.388|0.0002
92345743|NCT04154956|184594662|SUPERIORITY||Hazard Ratio (HR)|0.735||||0.0305|TWO_SIDED|95.0|0.533|1.014||P-value is provided for information only, there is no statistical inference based on this P-value.|Log Rank||Hazard ratio and CIs were computed from a stratified Cox model according to stratification factors as per IRT.|||1.014|0.533|0.0305
92345744|NCT04810962|184594677|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92345745|NCT04810962|184594678|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92345746|NCT04810962|184594680|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92345747|NCT04810962|184594681|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92158444|NCT03173248|184203687|SUPERIORITY||Hazard Ratio (HR)|0.33||||0.0011|TWO_SIDED|95.0|0.16|0.69||P-value is calculated from the one-sided log-rank test stratified by the randomization stratification factors (AML status and geographic region).|Log Rank||Hazard ratio is estimated using a Cox's proportional hazards model stratified by the randomization stratification factors (AML status and geographic region) with placebo + azacitidine as the denominator.|||0.69|0.16|0.0011
92345748|NCT04810962|184594682|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92345749|NCT04810962|184594683|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92345750|NCT04810962|184594684|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92345751|NCT04810962|184594685|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92345752|NCT04810962|184594686|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92345753|NCT04810962|184594687|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92158445|NCT00929305|184203753|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92158446|NCT00929305|184203756|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92158447|NCT02624778|184203769|SUPERIORITY||LS Mean|-0.071|STANDARD_ERROR_OF_MEAN|0.07||0.309|TWO_SIDED|95.0|-0.21|0.07|||Mixed Models Analysis|||||0.07|-0.21|0.309
92158448|NCT02624778|184203769|SUPERIORITY||LS Mean|-0.133|STANDARD_ERROR_OF_MEAN|0.07||0.061|TWO_SIDED|95.0|-0.27|0.01|||Mixed Models Analysis|||||0.01|-0.27|0.061
92158449|NCT02624778|184203769|SUPERIORITY||LS Mean|-0.205|STANDARD_ERROR_OF_MEAN|0.1||0.053|TWO_SIDED|95.0|-0.41|0.0|||Mixed Models Analysis|||||0.00|-0.41|0.053
92158450|NCT02624778|184203769|SUPERIORITY||LS Mean|-0.255|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.38|-0.13|||Mixed Models Analysis|||||-0.13|-0.38|<0.001
92158451|NCT02624778|184203769|SUPERIORITY||LS Mean|-0.369|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.51|-0.23|||Mixed Models Analysis|||||-0.23|-0.51|<0.001
92158452|NCT02624778|184203769|SUPERIORITY||LS Mean|-0.329|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.46|-0.2|||Mixed Models Analysis|||||-0.20|-0.46|<0.001
92158453|NCT05541497|184203776|SUPERIORITY||Risk Ratio (RR)|1.51|||||TWO_SIDED|95.0|0.68|3.37||||||||3.37|0.68|
92158454|NCT05541497|184203777|SUPERIORITY||Risk Ratio (RR)|1.36|||||TWO_SIDED|95.0|0.59|3.13||||||||3.13|0.59|
92158455|NCT04091672|184203778|NON_INFERIORITY|"The one-sided 97.5% confidence interval (97.5% CI) was calculated for the difference (Control-RECELL) in percentages of subjects with confirmed treatment area closure.~The calculation used the normal approximation taking correlation into account. In order for the null hypothesis to be rejected and the non-inferiority of RECELL to be established, the upper limit of the 97.5% CI had to be less than 10%."||||||0.005|||||||1-sided z-test of proportions|alpha=0.025||||||.005
92158456|NCT04091672|184203779|SUPERIORITY|A geometric mean ratio (GMR of ratios) 95% CI with a lower bound exceeding 1 would indicate superiority of RECELL over Control with respect to this endpoint.||||||0.001|||||||GMR of ratios|||||||0.001
92158457|NCT01796665|184203786|EQUIVALENCE|provides 85% power of success|Equivalence ratio|96.57|||||TWO_SIDED|90.0|92.5|105.2|||Fieller's method|||||105.2|92.5|
92158458|NCT01796665|184203787|EQUIVALENCE|provides 85% power of success|Equivalence ratio|99.96|||||TWO_SIDED|90.0|92.9|110.5|||Fieller's method|||||110.5|92.9|
92158459|NCT01796665|184203788|EQUIVALENCE|provides 85% power of success|Equivalence ratio|-1.14|||||TWO_SIDED|90.0|-13.23|-1.13|||Fieller's method|||||-1.13|-13.23|
92158460|NCT00231179|184203799|NON_INFERIORITY_OR_EQUIVALENCE|Sample sizes were established when the trial was first developed. For all power calculations, we set alpha = .05 and beta = .20 and specified 2-tailed tests.|Mean Difference (Final Values)|0.81|STANDARD_DEVIATION|15.0||0.59|TWO_SIDED|95.0|0.31|2.13||Bonferroni corrections were made for multiple comparisons.|t-test, 2 sided|||We compared scores for verbal, performance, and full scale Intelligence Quotient (IQ).||2.13|0.31|0.59
92158461|NCT00231179|184203800|NON_INFERIORITY_OR_EQUIVALENCE|Please see earlier power calculation.|Hazard Ratio (HR)|10.0|STANDARD_ERROR_OF_MEAN|5.0||0.72|TWO_SIDED|95.0|||||Chi-squared|||||||0.72
92158462|NCT00231179|184203801|NON_INFERIORITY_OR_EQUIVALENCE|See previous.|Hazard Ratio (HR)|10.0|STANDARD_ERROR_OF_MEAN|5.0|<|0.01|TWO_SIDED|95.0|||||Chi-squared|||||||<0.01
92158463|NCT00231179|184203802|NON_INFERIORITY_OR_EQUIVALENCE|See previous.|Hazard Ratio (HR)|3.0|STANDARD_ERROR_OF_MEAN|3.0|<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
92158464|NCT00231179|184203803|NON_INFERIORITY_OR_EQUIVALENCE|See previous.|Hazard Ratio (HR)|3.0|STANDARD_ERROR_OF_MEAN|3.0||0.64|TWO_SIDED|95.0|||||Chi-squared|||||||0.64
92158465|NCT01955382|184203811|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92158466|NCT04672460|184203838|OTHER||Ratio (Test/Reference) of Adjusted Means|105.16|||||TWO_SIDED|90.0|99.0|111.7|||Mixed Models Analysis|||Treatment A were reference; treatment B were test.||111.70|99.00|
92158467|NCT04672460|184203839|OTHER||Ratio (Test/Reference) of Adjusted Means|136.62|||||TWO_SIDED|90.0|125.05|149.27|||Mixed Models Analysis|||Treatment A were reference; treatment B were test.||149.27|125.05|
92158468|NCT04672460|184203840|OTHER||Ratio (Test/Reference) of Adjusted Means|87.97|||||TWO_SIDED|90.0|81.82|94.58|||Mixed Models Analysis|||Treatment B were reference; treatment C were test.||94.58|81.82|
92158469|NCT04672460|184203841|OTHER||Ratio (Test/Reference) of Adjusted Means|58.26|||||TWO_SIDED|90.0|51.55|65.84|||Mixed Models Analysis|||Treatment B were reference; treatment C were test.||65.84|51.55|
92158470|NCT03575962|184203849|OTHER||Ratio of geometric least square mean|1.1169|||||TWO_SIDED|90.0|0.99|1.27||||||||1.27|0.99|
92158471|NCT03575962|184203850|OTHER||Ratio of geometric least square mean|1.1556|||||TWO_SIDED|90.0|0.99|1.35||||||||1.35|0.99|
92158472|NCT02949271|184203885|OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
92158473|NCT02949271|184203886|OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92158474|NCT02949271|184203888|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92158475|NCT02949271|184203889|OTHER|||||||0.28|||||||Chi-squared|||||||0.28
92158476|NCT02949271|184203890|OTHER|||||||0.85|||||||Chi-squared|||||||0.85
92158477|NCT02949271|184203891|OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
92158478|NCT02949271|184203892|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92158479|NCT02949271|184203893|OTHER|||||||0.21|||||||Chi-squared|||||||0.21
92158480|NCT02949271|184203895|OTHER|||||||0.08|||||||Chi-squared|||||||0.08
92158481|NCT05642000|184203896|SUPERIORITY||Odds Ratio, log|0.187|STANDARD_ERROR_OF_MEAN|0.136|||TWO_SIDED|95.0|-0.079|0.454|||Mixed Models Analysis|||||0.454|-0.079|
92345754|NCT04810962|184594688|SUPERIORITY||Mean Difference (Net)|-1.2|||<|0.001|TWO_SIDED|95.0|-1.4|-1.0|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-1.0|-1.4|<0.001
92345755|NCT04810962|184594689|SUPERIORITY||Mean Difference (Net)|-0.5|||<|0.001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.3|-0.7|<0.001
92345756|NCT04810962|184594690|SUPERIORITY||Mean Difference (Net)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.3|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.3|-0.5|<0.001
92345757|NCT04810962|184594691|SUPERIORITY||Mean Difference (Net)|-0.05|||<|0.001|TWO_SIDED|95.0|-0.07|-0.02|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.02|-0.07|<0.001
92345758|NCT04810962|184594692|SUPERIORITY||Mean Difference (Net)|-0.08|||<|0.001|TWO_SIDED|95.0|-0.1|-0.05|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.05|-0.10|<0.001
92345759|NCT04810962|184594693|SUPERIORITY||Mean Difference (Net)|-0.08|||<|0.001|TWO_SIDED|95.0|-0.11|-0.05|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.05|-0.11|<0.001
92345760|NCT04810962|184594694|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92345761|NCT01348269|184594696|OTHER|T-test (with MITT, omitting outlier value of one patient in placebo group)|||||=|0.006|||||||t-test, 2 sided|||||||=0.006
92345762|NCT01348269|184594696|OTHER|Mann-Whitney-Test|||||=|0.015|||||||Wilcoxon (Mann-Whitney)|||||||=0.015
92345763|NCT00920816|184594714|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.767|||||TWO_SIDED|95.0|0.559|1.053||||||First-line participants: hazard ratio was stratified by eastern cooperative oncology group (ECOG) performance status (0 versus 1).||1.053|0.559|
92345764|NCT00920816|184594715|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.731|||||TWO_SIDED|95.0|0.506|1.058||||||Second-line participants: hazard ratio was stratified by eastern cooperative oncology group (ECOG) performance status (0 versus 1) and prior treatment (sunitinib versus cytokine-containing regimen).||1.058|0.506|
92158482|NCT01764386|184203901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.52|||<|0.0001|TWO_SIDED|95.0|-9.88|-7.15|||ANCOVA|||||-7.15|-9.88|<0.0001
92345765|NCT03185208|184594733|SUPERIORITY||treatment x time interaction coefficient|0.69||||0.048|TWO_SIDED||||||Mixed Models Analysis|||||||0.048
92345766|NCT03185208|184594734|SUPERIORITY||treatment x time interaction coefficient|-0.08835||||0.78|TWO_SIDED||||||Mixed Models Analysis|||||||0.78
92345767|NCT03185208|184594735|SUPERIORITY||treatment x time interaction coefficient|0.08738||||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
92345768|NCT03185208|184594737|SUPERIORITY||treatment x time interaction coefficient|0.012||||0.93|TWO_SIDED||||||Mixed Models Analysis|||||||0.93
92345769|NCT03185208|184594738|SUPERIORITY||treatment x time interaction coefficient|-351.8||||0.78|TWO_SIDED||||||Mixed Models Analysis|||||||0.78
92345770|NCT03185208|184594739|SUPERIORITY||treatment x time interaction coefficient|58.95||||0.087|TWO_SIDED||||||Mixed Models Analysis|||||||0.087
92345771|NCT05824026|184594795|OTHER||||||||||||||||||"The purpose of the primary analysis was to show non-inferiority to the performance of a historical control (a silver containing gelling fiber) on proportion of wounds healed, 77%, with a non-inferiority margin of 20%. Non-inferiority was demonstrated if the lower limit of the 95% confidence interval is above 57%. An exact confidence interval for the proportion was applied. In the primary analysis missing data was not included. In the post hoc sensitivity analysis missing data was imputed using multiple imputation for 3 wounds where data was assumed to be missing at random, and otherwise imputed as wound not healed.~The supplemental analysis addressed a more conservative analysis than performed for the historical control. Hence, no formal non-inferiority criteria was applied for this analysis."|||
92345772|NCT00833755|184594901|SUPERIORITY_OR_OTHER_LEGACY|||||||0.274|||||||Kruskal-Wallis|||||||0.274
92345773|NCT00833755|184594902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.552|||||||Kruskal-Wallis|||||||0.552
92345774|NCT00833755|184594903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92158483|NCT01764386|184203902|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|44.0|||<|0.0001|TWO_SIDED|95.0|16.6|116.3|||Regression, Logistic|||||116.3|16.6|<0.0001
92158484|NCT01764386|184203903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.4|||<|0.0001|TWO_SIDED|95.0|6.0|76.7|||Regression, Logistic|||||76.7|6.0|<0.0001
92158485|NCT01764386|184203905|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.65|||<|0.0001|TWO_SIDED|95.0|-10.07|-7.24|||ANCOVA|||||-7.24|-10.07|<0.0001
92158486|NCT01764386|184203906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.32|||<|0.0001|TWO_SIDED|95.0|-7.14|-3.5|||ANCOVA|||||-3.50|-7.14|<0.0001
92158487|NCT01764386|184203907|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.4||||0.0019|TWO_SIDED|95.0|-29.5|-3.3|||ANCOVA|||||-3.3|-29.5|0.0019
92158488|NCT01764386|184203908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.9686|TWO_SIDED|95.0|-5.96|5.73|||ANCOVA|||||5.73|-5.96|0.9686
92158489|NCT01764386|184203909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.0001|TWO_SIDED|95.0|1.99|6.06|||ANCOVA|||||6.06|1.99|0.0001
92158490|NCT01764386|184203910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.1706|TWO_SIDED|95.0|-4.9|0.9|||ANCOVA|||||0.9|-4.9|0.1706
92345775|NCT00560404|184594915|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean Hb within target range during efficacy evaluation period within plus or minus 1 g/dL of their reference Hb and between the target range with a non-inferiority limit of -0.15.|Difference of response rates|-0.02|||||TWO_SIDED|95.0|-0.25|0.2||||||||0.20|-0.25|
92345776|NCT04108468|184594953|SUPERIORITY||Mean Difference (Final Values)|-0.55||||0.064|TWO_SIDED|95.0|-1.12|0.03|||Regression, Linear|"Adjusted for baseline PASDAS and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.03|-1.12|0.064
92345777|NCT04108468|184594954|SUPERIORITY||Mean Difference (Final Values)|-0.86||||0.007|TWO_SIDED|95.0|-1.48|-0.24|||Regression, Linear|"Adjusted for baseline BASDAS and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||-0.24|-1.48|0.007
92345778|NCT04108468|184594955|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.096|TWO_SIDED|95.0|-1.26|0.11|||Regression, Linear|"Adjusted for baseline PASDAS and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.11|-1.26|0.096
92345779|NCT04108468|184594956|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.844|TWO_SIDED|95.0|-0.72|0.59|||Regression, Linear|"Adjusted for baseline PASDAS and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.59|-0.72|0.844
92345780|NCT04108468|184594957|SUPERIORITY||Mean Difference (Final Values)|-0.96||||0.041|TWO_SIDED|95.0|-1.88|-0.04|||Regression, Linear|"Adjusted for baseline CPDAI and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||-0.04|-1.88|0.041
92345781|NCT04108468|184594958|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.375|TWO_SIDED|95.0|-1.41|0.54|||Regression, Linear|"Adjusted for baseline CPDAI and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.54|-1.41|0.375
92345782|NCT04108468|184594959|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.392|TWO_SIDED|95.0|-1.46|0.58|||Regression, Linear|"Adjusted for baseline CPDAI and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.58|-1.46|0.392
92345783|NCT04108468|184594960|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.541|TWO_SIDED|95.0|-1.34|0.71|||Regression, Linear|"Adjusted for baseline CPDAI and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.71|-1.34|0.541
92345784|NCT04108468|184594961|SUPERIORITY||Mean Difference (Final Values)|-2.35||||0.633|TWO_SIDED|95.0|-12.14|7.43|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||7.43|-12.14|0.633
92345785|NCT04108468|184594962|SUPERIORITY||Mean Difference (Final Values)|1.24||||0.826|TWO_SIDED|95.0|-9.95|12.43|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||12.43|-9.95|0.826
92345786|NCT04108468|184594963|SUPERIORITY||Mean Difference (Final Values)|2.24||||0.268|TWO_SIDED|95.0|-1.76|6.25|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||6.25|-1.76|0.268
92345787|NCT04108468|184594964|SUPERIORITY||Mean Difference (Final Values)|1.21||||0.605|TWO_SIDED|95.0|-3.42|5.83|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||5.83|-3.42|0.605
92158491|NCT01764386|184203911|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.716|TWO_SIDED|95.0|-2.6|1.8|||ANCOVA|||||1.8|-2.6|0.7160
92158492|NCT01764386|184203912|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0||||0.0913|TWO_SIDED|95.0|-0.3|4.3|||ANCOVA|||||4.3|-0.3|0.0913
92158493|NCT01764386|184203913|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.5||||0.0016|TWO_SIDED|95.0|-7.2|-1.7|||ANCOVA|||||-1.7|-7.2|0.0016
92158494|NCT01764386|184203914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1||||0.0004|TWO_SIDED|95.0|-6.2|-2.0|||ANCOVA|||||-2.0|-6.2|0.0004
92158495|NCT01764386|184203915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.0003|TWO_SIDED|95.0|-1.7|-0.7|||ANCOVA|||||-0.7|-1.7|0.0003
92158496|NCT01764386|184203916|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.9|||<|0.0001|TWO_SIDED|95.0|-9.8|-6.0|||ANCOVA|||||-6.0|-9.8|<0.0001
92158497|NCT01764386|184203917|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1|||<|0.0001|TWO_SIDED|95.0|-3.1|-1.1|||ANCOVA|||||-1.1|-3.1|<0.0001
92345788|NCT04108468|184594965|SUPERIORITY||Mean Difference (Final Values)|-0.85||||0.62|TWO_SIDED|95.0|-4.23|2.54|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||2.54|-4.23|0.620
92345789|NCT04108468|184594966|SUPERIORITY||Mean Difference (Final Values)|-1.39||||0.449|TWO_SIDED|95.0|-5.02|2.24|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||2.24|-5.02|0.449
92345790|NCT04108468|184594967|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.364|TWO_SIDED|95.0|-2.04|5.48|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||5.48|-2.04|0.364
92345791|NCT04108468|184594968|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.806|TWO_SIDED|95.0|-3.6|4.61|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||4.61|-3.60|0.806
92345792|NCT04108468|184594969|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.588|TWO_SIDED|95.0|-2.79|4.89|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||4.89|-2.79|0.588
92345793|NCT04108468|184594970|SUPERIORITY||Mean Difference (Final Values)|-0.76||||0.372|TWO_SIDED|95.0|-2.45|0.93|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.93|-2.45|0.372
92345794|NCT04108468|184594971|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.781|TWO_SIDED|95.0|-2.05|1.55|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||1.55|-2.05|0.781
92345795|NCT04108468|184594972|SUPERIORITY||Mean Difference (Final Values)|-2.26||||0.037|TWO_SIDED|95.0|-4.39|-0.14|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||-0.14|-4.39|0.037
92345796|NCT04108468|184594973|SUPERIORITY||Mean Difference (Final Values)|-0.95||||0.058|TWO_SIDED|95.0|-1.93|0.03|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.03|-1.93|0.058
92345797|NCT04108468|184594974|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.213|TWO_SIDED|95.0|-1.54|0.35|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.35|-1.54|0.213
92345798|NCT04108468|184594975|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.606|TWO_SIDED|95.0|-0.88|1.5|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||1.50|-0.88|0.606
92345799|NCT04108468|184594976|SUPERIORITY||Incidence-rate ratio|1.01||||0.971|TWO_SIDED|95.0|0.48|2.14|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate arm was the reference category.|||2.14|0.48|0.971
92345800|NCT04108468|184594977|SUPERIORITY||Incidence-rate ratio|1.1||||0.817|TWO_SIDED|95.0|0.49|2.46|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||2.46|0.49|0.817
92345801|NCT04108468|184594978|SUPERIORITY||Incidence-rate ratio|1.35||||0.441|TWO_SIDED|95.0|0.63|2.93|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||2.93|0.63|0.441
92345802|NCT04108468|184594979|SUPERIORITY||Incidence-rate ratio|1.29||||0.563|TWO_SIDED|95.0|0.55|3.03|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||3.03|0.55|0.563
92345803|NCT04108468|184594980|SUPERIORITY||Incidence-rate ratio|0.17||||0.083|TWO_SIDED|95.0|0.02|1.26|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.26|0.02|0.083
92345804|NCT04108468|184594981|SUPERIORITY||Incidence-rate ratio|0.26||||0.432|TWO_SIDED|95.0|0.01|7.64|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||7.64|0.01|0.432
92345805|NCT04108468|184594982|SUPERIORITY||Incidence-rate ratio|0.11||||0.071|TWO_SIDED|95.0|0.01|1.21|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.21|0.01|0.071
92218047|NCT00457015|184336839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||No adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|Blocked Wilcoxon rank sum test|||The analysis compared the TOS at 4 hours post-dosing for patients treated with ecallantide and placebo. Treatment effect was assessed by the nonparametric Blocked Wilcoxon Rank Sum test because of an assumed non-normal distribution.||||0.003
92345806|NCT04108468|184594983|SUPERIORITY||Incidence-rate ratio|0.06||||0.037|TWO_SIDED|95.0|0.0|0.84|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.84|0.00|0.037
92345807|NCT04108468|184594984|SUPERIORITY||Incidence-rate ratio|0.68||||0.296|TWO_SIDED|95.0|0.32|1.41|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.41|0.32|0.296
92345808|NCT04108468|184594985|SUPERIORITY||Incidence-rate ratio|0.51||||0.081|TWO_SIDED|95.0|0.23|1.09|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.09|0.23|0.081
92345809|NCT04108468|184594986|SUPERIORITY||Incidence-rate ratio|0.75||||0.458|TWO_SIDED|95.0|0.36|1.59|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.59|0.36|0.458
92345810|NCT04108468|184594987|SUPERIORITY||Incidence-rate ratio|1.12||||0.798|TWO_SIDED|95.0|0.46|2.72|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||2.72|0.46|0.798
92345811|NCT04108468|184594988|SUPERIORITY||Median Difference (Final Values)|-0.38||||0.512|TWO_SIDED|95.0|-1.53|0.77|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.77|-1.53|0.512
92345812|NCT04108468|184594989|SUPERIORITY||Median Difference (Final Values)|-0.44||||0.32|TWO_SIDED|95.0|-1.33|0.44|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.44|-1.33|0.320
92345813|NCT04108468|184594990|SUPERIORITY||Median Difference (Final Values)|-0.47||||0.22|TWO_SIDED|95.0|-1.22|0.28|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.28|-1.22|0.220
92158498|NCT01764386|184203918|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.4|||<|0.0001|TWO_SIDED|95.0|13.45|21.36|||ANCOVA|||||21.36|13.45|<0.0001
92345814|NCT04108468|184594991|SUPERIORITY||Median Difference (Final Values)|0.05||||0.912|TWO_SIDED|95.0|-0.85|0.95|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.95|-0.85|0.912
92345815|NCT04108468|184594992|SUPERIORITY||Median Difference (Final Values)|-0.5||||0.281|TWO_SIDED|95.0|-1.42|0.42|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.42|-1.42|0.281
92345816|NCT04108468|184594993|SUPERIORITY||Median Difference (Final Values)|0.01||||0.985|TWO_SIDED|95.0|-1.44|1.47|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.47|-1.44|0.985
92158499|NCT02688621|184203974|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||The study was designed to detect a 2.2-kg group weight loss difference between groups with a standard deviation of 5.8 kg,4,5 a 5% Type I error rate, and 80% power. To adjust for possible clustering effects in this nested design, the adjusted variance estimate was increased to 7.67, calculated using a conservative intraclass correlation coefficient of 0.05.||||<.01
92345817|NCT04108468|184594994|SUPERIORITY||Odds Ratio (OR)|1.08||||0.869|TWO_SIDED|95.0|0.45|2.6|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.60|0.45|0.869
92345818|NCT04108468|184594995|SUPERIORITY||Odds Ratio (OR)|0.9||||0.802|TWO_SIDED|95.0|0.38|2.13|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.13|0.38|0.802
92158500|NCT01996644|184203992|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||ANOVA|||||||.043
92158501|NCT05349864|184204001|EQUIVALENCE|Using data from Treatment A and Treatment B, natural log transformed AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|120.25|||||TWO_SIDED|90.0|109.76|131.75||||||||131.75|109.76|
92345819|NCT04108468|184594996|SUPERIORITY||Odds Ratio (OR)|1.14||||0.767|TWO_SIDED|95.0|0.48|2.72|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.72|0.48|0.767
92345820|NCT04108468|184594997|SUPERIORITY||Odds Ratio (OR)|0.63||||0.315|TWO_SIDED|95.0|0.26|1.55|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||1.55|0.26|0.315
92345821|NCT04108468|184594998|SUPERIORITY||Odds Ratio (OR)|1.34||||0.516|TWO_SIDED|95.0|0.55|3.27|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||3.27|0.55|0.516
92345822|NCT04108468|184594999|SUPERIORITY||Odds Ratio (OR)|0.97||||0.939|TWO_SIDED|95.0|0.39|2.38|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.38|0.39|0.939
92345823|NCT04108468|184595000|SUPERIORITY||Odds Ratio (OR)|1.19||||0.701|TWO_SIDED|95.0|0.48|2.94|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.94|0.48|0.701
92345824|NCT04108468|184595001|SUPERIORITY||Odds Ratio (OR)|0.48||||0.124|TWO_SIDED|95.0|0.19|1.22|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||1.22|0.19|0.124
92345825|NCT04108468|184595002|SUPERIORITY||Odds Ratio (OR)|1.89||||0.161|TWO_SIDED|95.0|0.78|4.63|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||4.63|0.78|0.161
92345826|NCT04108468|184595003|SUPERIORITY||Odds Ratio (OR)|1.67||||0.251|TWO_SIDED|95.0|0.7|4.02|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||4.02|0.70|0.251
92345827|NCT04108468|184595004|SUPERIORITY||Odds Ratio (OR)|1.5||||0.363|TWO_SIDED|95.0|0.63|3.6|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||3.60|0.63|0.363
92345828|NCT04108468|184595005|SUPERIORITY||Odds Ratio (OR)|0.99||||0.991|TWO_SIDED|95.0|0.4|2.46|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.46|0.40|0.991
92345829|NCT04108468|184595006|SUPERIORITY||Odds Ratio (OR)|3.12||||0.037|TWO_SIDED|95.0|1.07|9.1|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||9.10|1.07|0.037
92345830|NCT04108468|184595007|SUPERIORITY||Odds Ratio (OR)|2.5||||0.056|TWO_SIDED|95.0|0.98|6.4|||Regression, Logistic||The placebo/methotrexate group was the reference category.|||6.40|0.98|0.056
92345831|NCT04108468|184595008|SUPERIORITY||Odds Ratio (OR)|1.72||||0.277|TWO_SIDED|95.0|0.65|4.57|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||4.57|0.65|0.277
92158502|NCT05349864|184204002|EQUIVALENCE|Using data from Treatment A and Treatment B, natural log transformed AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|116.22|||||TWO_SIDED|90.0|97.91|137.95||||||||137.95|97.91|
92158503|NCT05349864|184204003|EQUIVALENCE|Using data from Treatment A and Treatment B, natural log transformed Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|206.91|||||TWO_SIDED|90.0|171.14|250.15||||||||250.15|171.14|
92158504|NCT05349864|184204004|EQUIVALENCE|Using data from Treatment A and Treatment C, natural log transformed AUClast was analyzed using a mixed effect model with treatment and sequence as a fixed effect and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|135.77|||||TWO_SIDED|90.0|114.36|161.19||||||||161.19|114.36|
92158505|NCT05349864|184204005|EQUIVALENCE|Using data from Treatment A and Treatment C, natural log transformed AUCinf was analyzed using a mixed effect model with treatment and sequence as a fixed effect and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|138.36|||||TWO_SIDED|90.0|106.11|180.41||||||||180.41|106.11|
92158506|NCT05349864|184204006|EQUIVALENCE|Using data from Treatment A and Treatment C, natural log transformed Cmax was analyzed using a mixed effect model with treatment and sequence as a fixed effect and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|236.58|||||TWO_SIDED|90.0|190.12|294.38||||||||294.38|190.12|
92345832|NCT04108468|184595009|SUPERIORITY||Odds Ratio (OR)|1.38||||0.548|TWO_SIDED|95.0|0.48|3.92|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||3.92|0.48|0.548
92345833|NCT04108468|184595010|SUPERIORITY||Odds Ratio (OR)|3.7||||0.018|TWO_SIDED|95.0|1.25|10.97|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||10.97|1.25|0.018
92345834|NCT04108468|184595011|SUPERIORITY||Odds Ratio (OR)|1.06||||0.926|TWO_SIDED|95.0|0.28|4.02|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||4.02|0.28|0.926
92345835|NCT04108468|184595012|SUPERIORITY||Odds Ratio (OR)|1.73||||0.385|TWO_SIDED|95.0|0.5|5.94|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||5.94|0.50|0.385
92218048|NCT00457015|184336840|SUPERIORITY_OR_OTHER_LEGACY|||||||0.102||95.0||||No adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|Log Rank|||Kaplan-Meier analysis using the Log-Rank test was used to compare the time distribution between the 2 treatment groups.||||0.102
92405637|NCT02683577|184701450|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|2.0|||||TWO_SIDED|90.0|1.51|2.66|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of moderate HI group (Test) versus healthy control group (Reference) on Cmax values for LP-778902.||2.66|1.51|
92218049|NCT03670953|184336843|SUPERIORITY|2-sided at a significance level of alpha = 0.05|Least Squares Mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.226||0.0194|TWO_SIDED|95.0|0.09|0.97||"LSM, SE, CI and p-value from a MMRM with CFB in Good on time as outcome, baseline Good on time as a covariate, treatment and visit as fixed effects, pooled center as random effect and a treatment-by-visit interaction."|MMRM|The degree-of-freedom of the denominator is estimated using the Kenward-Roger method. Unstructured covariance structure is assumed.||||0.97|0.09|0.0194
92218050|NCT03670953|184336844|SUPERIORITY|2-sided at a significance level of alpha = 0.05|Least Squares Mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.214||0.0252|TWO_SIDED|95.0|-0.9|-0.06||"LSM, SE, CI and p-value from a MMRM with CFB in Off time as outcome, baseline Off time as a covariate, treatment and visit as fixed effects, pooled center as random effect and a treatment-by-visit interaction."|MMRM|The degree-of-freedom of the denominator is estimated using the Kenward-Roger method. Unstructured covariance structure is assumed.||||-0.06|-0.90|0.0252
92218051|NCT03670953|184336845|SUPERIORITY|2-sided at a significance level of alpha = 0.05|Percent difference|10.9||||0.0015|TWO_SIDED|95.0|3.5|18.3||"P-value from the Cochran-Mantel-Haenszel test stratified by pooled center comparing the percentage of Much or Very Much Improved participants between the treatment groups."|Cochran-Mantel-Haenszel|||||18.3|3.5|0.0015
92218052|NCT03670953|184336846|SUPERIORITY|2-sided at a significance level of alpha = 0.05|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.89||0.9587|TWO_SIDED|95.0|-1.8|1.7||LSM, SE, CI and p-value from a MMRM with CFB in MDS-UPDRS Part III Score as outcome, baseline MDS-UPDRS Part III Score as a covariate, treatment and visit as fixed effects, pooled center as random effect and a treatment-by-visit interaction.|MMRM|The degree-of-freedom of the denominator is estimated using the Kenward-Roger method. Unstructured covariance structure is assumed.||||1.7|-1.8|0.9587
92218053|NCT03670953|184336847|SUPERIORITY|2-sided at a significance level of alpha = 0.05|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.11||0.9668|TWO_SIDED|95.0|-2.2|2.1||LSM, SE, CI \& p-value from MMRM with CFB in MDS-UPDRS Part II \& III Scores as outcome, baseline MDS-UPDRS Part II and III Scores as a covariate, treatment and visit as fixed effects, pooled center as random effect \& a treatment-by-visit interaction.|MMRM|The degree-of-freedom of the denominator is estimated using the Kenward-Roger method. Unstructured covariance structure is assumed.||||2.1|-2.2|0.9668
92218054|NCT00937937|184336849|SUPERIORITY_OR_OTHER_LEGACY||1-year overall survival estimate|0.38|||||TWO_SIDED|95.0|0.27|0.49||||||one-year overall survival estimate.||0.49|0.27|
92345836|NCT04108468|184595013|SUPERIORITY||Odds Ratio (OR)|0.82||||0.684|TWO_SIDED|95.0|0.32|2.12|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.12|0.32|0.684
92345837|NCT04108468|184595014|SUPERIORITY||Odds Ratio (OR)|16.72||||0.063|TWO_SIDED|95.0|0.86|326.19|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||326.19|0.86|0.063
92218055|NCT00937937|184336850|SUPERIORITY_OR_OTHER_LEGACY||6-month PFS estimate|0.07|||||TWO_SIDED|95.0|0.03|0.15||||||6-month PFS estimate.||0.15|0.03|
92218056|NCT00054704|184336853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.828|STANDARD_ERROR_OF_MEAN|3.182||0.086|TWO_SIDED|95.0|-12.59|0.934||A linear mixed model included drug, visit and their interaction as fixed factors. Subject was a random factor. The test here is for the main effect of drug.|Mixed Models Analysis|Baseline score was a covariate. Restricted maximum likelihood estimates were used with a compound symmetry covariance structure.||The primary intent of this study was to compare the efficacy of riluzole to placebo in the treatment of overall depressive symptomatology of bipolar disorder subjects who were acutely depressed. Data from 8 riluzole and 11 placebo participants were analyzed due to missing data for one riluzole patient.||0.934|-12.590|.086
92218057|NCT01785160|184336905|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability (No formal testing was performed)|Adjusted Geometric Mean ratio|272.06|STANDARD_DEVIATION|67.9||0.9999||95.0|199.69|370.66||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Raltegravir plus Faldaprevir and Raltegravir for the category Raltegravir||370.66|199.69|0.9999
92218058|NCT01785160|184336906|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability(No formal testing was performed)|Adjusted Geometric Mean ratio|245.72|STANDARD_DEVIATION|87.1||0.9973||95.0|168.46|358.404||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Raltegravir plus Faldaprevir and Raltegravir for the category Raltegravir||358.404|168.460|0.9973
92218059|NCT05368961|184336932|OTHER|Null hypothesis; there is no difference in anxiety scores between usual care and distraction||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
92218060|NCT05714982|184336941|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
92345838|NCT04108468|184595015|SUPERIORITY||Odds Ratio (OR)|8.9||||0.041|TWO_SIDED|95.0|1.09|72.42|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||72.42|1.09|0.041
92345839|NCT04108468|184595016|SUPERIORITY||Odds Ratio (OR)|6.71||||0.069|TWO_SIDED|95.0|0.86|52.14|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||52.14|0.86|0.069
92345840|NCT04108468|184595017|SUPERIORITY||Odds Ratio (OR)|2.34||||0.397|TWO_SIDED|95.0|0.33|16.66|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||16.66|0.33|0.397
92345841|NCT04108468|184595018|SUPERIORITY||Odds Ratio (OR)|0.33||||0.309|TWO_SIDED|95.0|0.04|2.83|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate arm was the reference category.|||2.83|0.04|0.309
92345842|NCT04108468|184595019|SUPERIORITY||Odds Ratio (OR)|0.87||||0.871|TWO_SIDED|95.0|0.17|4.6|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||4.60|0.17|0.871
92345843|NCT04108468|184595020|SUPERIORITY||Odds Ratio (OR)|0.48||||0.555|TWO_SIDED|95.0|0.04|5.52|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||5.52|0.04|0.555
92345844|NCT04108468|184595021|SUPERIORITY||Odds Ratio (OR)|0.28||||0.009|TWO_SIDED|95.0|0.11|0.72|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||0.72|0.11|0.009
92345845|NCT03260023|184595023|OTHER|Enough participants will be treated to obtain 22 evaluable as a first stage. If at least 3/22 participants are considered responders, the enrolment will be continued, otherwise it will be stopped. For the second stage of the trial, enough participants will be treated to obtain a total of 40 evaluable participants and consider the study positive if at least 8/40 of them are considered responders.||||||||||||||||A Simon's two-stage design will be used. The null hypothesis for response rate H0 is set at 10% corresponding to the response rate observed in second line participants, the alternate hypothesis of efficacy is set at HA=25%, the type I error α is set at 5% one sided, the type II error β is set at 20% (power=80%).|With a hierarchical strategy on the final analysis, a subgroup analysis performed in oropharyngeal SCCHN patients and with a null hypothesis for response rate (H0) set at 10% and the alternative hypothesis of efficacy set at HA = 35%, 18 oropharyngeal SCCHN patients would have been needed to reach a power of 81% and actual alpha at 2.8%. This analysis would have been considered positive with at least 5 responders among the 18 SCCHN patients. The second stage of the Simon's design has not been done following the decision to exclude oropharyngeal SCCHN and to change to a randomized controlled two-arms study (phase II part 2).|||
92345846|NCT03260023|184595024|SUPERIORITY|Statistical analysis is performed using a one-sided log-rank unstratified test to compare Progression-Free Survival of TG4001 in combination with avelumab vs avelumab alone in participants with recurrent or metastatic (R/M) HPV-16 positive advanced malignancies and without liver metastases at baseline. PFS will be evaluated based on RECIST1.1.|Hazard Ratio (HR)|0.87||||0.281|TWO_SIDED|90.0|0.59|1.29|||Log Rank|Unstratified with one-sided p-value||Efficacy will be evaluated by comparing the PFS between TG4001 arm versus TG4001 \& avelumab arm with an adaptive approach. With one-sided type I error α at 5%, 76 events are needed to reach a power of 95%, corresponding to around 80 participants enrolled. To stick with initial timelines for final analyses and limiting the loss of statistical power, PFS analysis will be performed based on at least 69 events.||1.29|0.59|0.2810
92345847|NCT03260023|184595026|OTHER|||||||0.832||||||At level 0.05 without adjustments for multiplicity testing, pvalue is calculated using Cochran-Mantel-Haenszel Chi-Square test.|Cochran-Mantel-Haenszel|||In Phase II part 2 cohort A, statistical Test stratified by indication to compare the Overall Response Rate between TG4001+Avelumab versus Avelumab alone.||||0.832
92218061|NCT05714982|184336941|SUPERIORITY|||||||0.78|||||||General linear model|||||||.78
92218062|NCT05714982|184336942|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
92345848|NCT04513366|184595043|SUPERIORITY||Risk Difference (RD)|0.44|||<|0.0001|TWO_SIDED|97.5|0.23|0.64|||Mantel Haenszel|||||0.64|0.23|<.0001
92345849|NCT04513366|184595043|SUPERIORITY||Risk Difference (RD)|0.53|||<|0.0001|TWO_SIDED|97.5|0.32|0.73|||Mantel Haenszel|||||0.73|0.32|<.0001
92345850|NCT04513366|184595044|SUPERIORITY||Least Square (LS) Mean Difference|-5.3|||<|0.001|TWO_SIDED|97.5|-7.18|-3.42|||ANCOVA|||||-3.42|-7.18|<.001
92345851|NCT04513366|184595044|SUPERIORITY||LS Mean Difference|-5.6|||<|0.001|TWO_SIDED|97.5|-7.57|-3.7|||ANCOVA|||||-3.70|-7.57|<.001
92345852|NCT04513366|184595045|SUPERIORITY||LS Mean Difference|-64.3|||<|0.001|TWO_SIDED|97.5|-87.85|-40.85|||ANCOVA|||||-40.85|-87.85|<.001
92345853|NCT04513366|184595045|SUPERIORITY||LS Mean Difference|-69.8|||<|0.001|TWO_SIDED|97.5|-92.16|-47.35|||ANCOVA|||||-47.35|-92.16|<.001
92345854|NCT04513366|184595046|SUPERIORITY||LS Mean Difference|4.5|STANDARD_ERROR_OF_MEAN|2.6||0.09|TWO_SIDED||||||Mixed Models Analysis|||||||0.090
92345855|NCT04513366|184595046|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.5||0.472|TWO_SIDED||||||Mixed Models Analysis|||||||0.472
92345856|NCT04513366|184595047|SUPERIORITY||Difference|0.58||||0.0003|TWO_SIDED|97.5|0.25|0.91|||Chi-squared|||||0.91|0.25|0.0003
92345857|NCT04513366|184595047|SUPERIORITY||Difference|0.25||||0.1895|TWO_SIDED|97.5|-0.36|0.86|||Chi-squared|||||0.86|-0.36|0.1895
92345858|NCT04513366|184595048|SUPERIORITY||Difference|0.43||||0.0035|TWO_SIDED|97.5|0.14|0.72|||Chi-squared|||||0.72|0.14|0.0035
92345859|NCT04513366|184595048|SUPERIORITY||Difference|0.28||||0.0428|TWO_SIDED|97.5|-0.02|0.57|||Chi-squared|||||0.57|-0.02|0.0428
92345860|NCT04513366|184595049|SUPERIORITY||LS Mean Difference|-0.2||||0.517|TWO_SIDED|97.5|-1.1|0.61|||Mixed Models Analysis|||||0.61|-1.10|0.517
92218063|NCT05714982|184336942|SUPERIORITY|||||||0.66|||||||General linear model|||||||.66
92218064|NCT05714982|184336943|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
92218065|NCT05714982|184336943|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
92218066|NCT05714982|184336944|SUPERIORITY|||||||0.001|||||||General linear model|||||||.001
92218067|NCT05714982|184336944|SUPERIORITY|||||||0.95|||||||General linear model|||||||.95
92218068|NCT05714982|184336945|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
92218069|NCT05714982|184336945|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
92345861|NCT04513366|184595049|SUPERIORITY||LS Mean Difference|0.4||||0.23|TWO_SIDED|97.5|-0.39|1.28|||Mixed Models Analysis|||||1.28|-0.39|0.230
92345862|NCT04513366|184595050|SUPERIORITY||LS Mean Difference|-0.1||||0.25|TWO_SIDED|97.5|-0.35|0.12|||Mixed Models Analysis|||||0.12|-0.35|0.250
92218070|NCT05714982|184336946|SUPERIORITY||||||<|0.0001|||||||General linear model|||||||<.0001
92218071|NCT05714982|184336946|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
92218072|NCT05714982|184336947|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
92218073|NCT05714982|184336947|SUPERIORITY|||||||0.4|||||||General linear model|||||||.4
92218074|NCT05714982|184336948|SUPERIORITY|||||||0.03|||||||General linear model|||||||.03
92218075|NCT05714982|184336948|SUPERIORITY|||||||0.4|||||||General linear model|||||||.4
92218076|NCT05714982|184336949|SUPERIORITY|||||||0.61|||||||General linear model|||||||.61
92218077|NCT05714982|184336949|SUPERIORITY|||||||0.68|||||||General linear model|||||||.68
92218078|NCT05714982|184336950|SUPERIORITY|||||||0.4|||||||General linear model|||||||.4
92218079|NCT05714982|184336950|SUPERIORITY|||||||0.5|||||||General linear model|||||||.5
92218080|NCT05714982|184336951|SUPERIORITY|||||||0.001|||||||General linear model|||||||.001
92218081|NCT05714982|184336951|SUPERIORITY|||||||0.9|||||||General linear model|||||||.9
92218082|NCT05714982|184336952|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.73|1.2||||||||1.2|.73|
92218083|NCT05714982|184336952|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.69|1.2||||||||1.2|.69|
92345863|NCT04513366|184595050|SUPERIORITY||LS Mean Difference|0.1||||0.506|TWO_SIDED|97.5|-0.16|0.29|||Mixed Models Analysis|||||0.29|-0.16|0.506
92345864|NCT04513366|184595051|SUPERIORITY||LS Mean Difference|-0.1||||0.653|TWO_SIDED|97.5|-0.55|0.37|||ANOVA|||||0.37|-0.55|0.653
92345865|NCT04513366|184595051|SUPERIORITY||LS Mean Difference|0.1||||0.629|TWO_SIDED|97.5|-0.36|0.56|||ANOVA|||||0.56|-0.36|0.629
92345866|NCT04513366|184595052|SUPERIORITY||LS Mean Difference|0.1||||0.731|TWO_SIDED|97.5|-0.4|0.54|||ANOVA|||Treatment Periods 1-3 (Months 1-3)||0.54|-0.40|0.731
92218084|NCT05714982|184336953|SUPERIORITY||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.3|0.9||||||||.9|.3|
92345867|NCT04513366|184595052|SUPERIORITY||LS Mean Difference|0.1||||0.583|TWO_SIDED|97.5|-0.35|0.58|||ANOVA|||Treatment Periods 1-3 (Month 1-3)||0.58|-0.35|0.583
92218085|NCT05714982|184336953|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.6|1.7||||||||1.7|.6|
92218086|NCT05714982|184336954|SUPERIORITY|||||||0.02|||||||General linear model|||||||.02
92218087|NCT05714982|184336954|SUPERIORITY|||||||0.5|||||||General linear model|||||||.5
92218088|NCT05714982|184336955|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
92218089|NCT05714982|184336955|SUPERIORITY|||||||0.004|||||||General linear model|||||||.004
92218090|NCT05714982|184336956|SUPERIORITY|||||||0.3|||||||General linear model|||||||0.3
92345868|NCT00269152|184595081|SUPERIORITY_OR_OTHER||Feasibility Response Rate (percentage)|59.4|||||TWO_SIDED|95.0|46.4|71.5||||||||71.5|46.4|
92218091|NCT05714982|184336956|SUPERIORITY|||||||0.5|||||||General linear model|||||||0.5
92218092|NCT05714982|184336957|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.99|2.1||||||||2.1|.99|
92218093|NCT05714982|184336957|SUPERIORITY||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|1.2|2.6||||||||2.6|1.2|
92218094|NCT00549939|184336958|SUPERIORITY_OR_OTHER|||||||1||||||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||1.00
92218095|NCT00549939|184336958|SUPERIORITY_OR_OTHER|||||||0.91||||||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.91
92218096|NCT00549939|184336960|SUPERIORITY_OR_OTHER||LS Mean difference versus Placebo|-6.2|STANDARD_ERROR_OF_MEAN|3.8||0.104|TWO_SIDED|95.0|-13.72|1.29||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||"Change in detrusor LPP was analyzed using a three-way analysis of covariance (ANCOVA) including 3 variables as fixed effects:~* treatment group (alfuzosin 0.1 mg/kg/day, alfuzosin 0.2 mg/kg/day or placebo),~* age/formulation group (2-7 years of age on solution, 8-16 years of age on solution or 8-16 years of age on tablets),~* anticholinergic/antimuscarinic use (yes or no),~and using centered baseline detrusor LPP as covariate."||1.29|-13.72|0.1040
92218097|NCT00549939|184336960|SUPERIORITY_OR_OTHER||LS Mean difference versus Placebo|-7.1|STANDARD_ERROR_OF_MEAN|3.77||0.104|TWO_SIDED|95.0|-14.51|0.39||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||||0.39|-14.51|0.1040
92218098|NCT00549939|184336961|SUPERIORITY_OR_OTHER||LS Mean difference versus Placebo|-11.4|STANDARD_ERROR_OF_MEAN|7.54||0.1338|TWO_SIDED|95.0|-26.27|3.53||P-values was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||"Change in detrusor LPP was analyzed using a three-way analysis of covariance (ANCOVA) including 3 variables as fixed effects:~* treatment group (alfuzosin 0.1 mg/kg/day, alfuzosin 0.2 mg/kg/day or placebo),~* age/formulation group (2-7 years of age on solution, 8-16 years of age on solution or 8-16 years of age on tablets),~* anticholinergic/antimuscarinic use (yes or no),~and using centered baseline detrusor LPP as covariate."||3.53|-26.27|0.1338
92218099|NCT00549939|184336961|SUPERIORITY_OR_OTHER||LS Mean difference versus Placebo|-14.3|STANDARD_ERROR_OF_MEAN|7.48||0.1152|TWO_SIDED|95.0|-29.1|0.47||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||||0.47|-29.10|0.1152
92345869|NCT00269152|184595081|SUPERIORITY_OR_OTHER||Feasibility Response Rate (percentage)|50.0||||||95.0|36.1|63.9||||||||63.9|36.1|
92345870|NCT02139540|184595093|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||The primary outcome (HDRS-21) was analyzed with a repeated-measures mixed effects linear model using restricted maximum likelihood estimation. To adjust for the observed carryover effect, the model included a randomization group term and a three-way interaction (treatment × time × randomization group)||||<0.05
92345871|NCT02139540|184595094|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92158507|NCT00984282|184204016|SUPERIORITY_OR_OTHER||||||<|0.0001||||||stratified by age group (\< 60 years, \>= 60 years) and region (Europe, North-America, Asia)|Log Rank|||The two treatment groups were compared using a stratified one-sided log rank test with an overall alpha of 0.01 stratified by age group and region. The null hypothesis that both treatment arms have the same PFS distribution will be tested against the alternative hypothesis that the distribution of PFS times in the sorafenib arm is different from the control arm according to the Lehmann alternative, which is equivalent to the assumption of proportional hazards of the treatment arms.||||<0.0001
92158508|NCT00984282|184204016|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.587|||||TWO_SIDED|95.0|0.454|0.758|||Regression, Cox|stratified by age group and region||||0.758|0.454|
92158509|NCT00984282|184204017|SUPERIORITY_OR_OTHER|||||||0.2892|||||||Log Rank|stratified by age group and region||||||0.2892
92158510|NCT00984282|184204017|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.928|||||TWO_SIDED|95.0|0.713|1.208|||Regression, Cox|stratified by age group and region||||1.208|0.713|
92158511|NCT00984282|184204018|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|stratified by age group and region||||||<0.0001
92158512|NCT00984282|184204018|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.557|||||TWO_SIDED|95.0|0.429|0.724|||Regression, Cox|stratified by age group and region||||0.724|0.429|
92158513|NCT00984282|184204019|SUPERIORITY_OR_OTHER||Difference of response rates|11.7||||0.0015|TWO_SIDED|95.0|3.9|19.4||stratified by age group and region|Cochran-Mantel-Haenszel||Difference of disease control rates sorafenib minus placebo. Cochran-Mantel-Haenszel confidence interval stratified by age group and region|||19.4|3.9|0.0015
92158514|NCT00984282|184204020|SUPERIORITY_OR_OTHER||Difference in response rate|11.8|||<|0.0001|TWO_SIDED|95.0|7.0|16.5||stratified by age group and region|Cochran-Mantel-Haenszel||Difference of response rates sorafenib minus placebo. Cochran-Mantel-Haenszel confidence interval stratified by age group and region|||16.5|7.0|<0.0001
92158515|NCT01341080|184204052|OTHER||Cohen's d|0.15||||0.05|TWO_SIDED|95.0|-4.01|4.61|||Repeated measures analysis or variance|||Efficacy was measured as a change on the Berg Balance Scale (BBS) from baseline to the end of study after 8 weeks on drug. The BBS has a scale range of 0-56, with 56 indicating normal balance. To evaluate efficacy, repeated measures analysis of variance was run on BBS scores. The scale score was the dependent measure, time point (baseline or end of study) was the repeat measure, and treatment group (varenicline or sugar pill) was the independent measure. Significance was defined as alpha \<0.05.||4.61|-4.01|0.05
92158516|NCT01341080|184204053|OTHER||Cohen's d|0.16||||0.05|TWO_SIDED|95.0|-1.39|1.53|||Repeated measures analysis or variance|||Change in cognitive functioning was measured in part with the Frontal Assessment Battery (FAB) from Baseline to 8 weeks on drug. Repeated analysis of variance was run on the FAB scores. Scale cores was the dependent measure, time point (Baseline or end of study) was the repeated measure, and treatment group (varenicline or sugar pill) was the independent measure. Significant was defined as \<0.05.||1.53|-1.39|0.05
92345872|NCT03054428|184595095|SUPERIORITY||percentage difference|22.0|||<|0.0001|TWO_SIDED|95.0|12.2|31.87||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Analysis was performed using Cochran-Mantel-Haenszel (CMH) test stratified by baseline disease severity (IGA=3 vs IGA=4) and baseline weight group (less than \[\<\] 60 kilogram \[kg\] vs greater than or equal to \[≥\] 60 kg).||31.87|12.2|< 0.0001
92158517|NCT01341080|184204054|OTHER||Cohen's d|0.81||||0.05|TWO_SIDED|95.0|-0.4|1.4|||Repeated measures analysis or variance|||Change in cognitive functioning was measured in part with the Mini Mental State Exam (MMSE) from Baseline to 8 weeks on drug. Repeated analysis of variance was run on the MMSE scores. Scale score was the dependent measure, time point (Baseline or end of study) was the repeated measure, and treatment group (varenicline or sugar pill) was the independent measure. Significant was defined as \<0.05.||1.40|-0.40|0.05
92158518|NCT00790062|184204067|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.67|TWO_SIDED|95.0|0.63|1.59|||ANCOVA|||||1.59|0.63|0.670
92158519|NCT02680756|184204068|NON_INFERIORITY|A 2-sided CI for difference in the proportions of Hb responders (risk difference for ferric maltol - IV iron) between the two treatment groups, and comparing the LCL of this CI to the pre-specified non-inferiority margin of 20%. The CI was calculated using the Delta Method approach based on a logistic regression model, adjusted for treatment group, baseline Hb (below the observed median or at least the observed median), and IBD subgroup (UC or CD).|Risk Difference (RD)|-0.17||||0.298|TWO_SIDED|95.0|-0.28|-0.06|||t-test, 2 sided|||||-0.06|-0.28|0.298
92158520|NCT02680756|184204069|NON_INFERIORITY|A 2-sided CI for difference in the proportions of Hb responders (risk difference for ferric maltol - IV iron) between the two treatment groups, and comparing the LCL of this CI to the pre-specified non-inferiority margin of 20%. The CI was calculated using the Delta Method approach based on a logistic regression model, adjusted for treatment group, baseline Hb (below the observed median or at least the observed median), and IBD subgroup (UC or CD).|Risk Difference (RD)|-0.17||||0.341|TWO_SIDED|95.0|-0.3|-0.05|||t-test, 2 sided|||||-0.05|-0.30|0.341
92158521|NCT02374957|184204092|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||"Null hypothesis: six-week change in EQ5D sum score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EQ5D than the other over initial six weeks (two-sided test)."||||0.26
92158522|NCT02374957|184204093|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||"Null hypothesis: three-month change in EQ5D sum score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EQ5D than the other over three months (two-sided test)."||||0.17
92158523|NCT02374957|184204094|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||"Null hypothesis: six-week change in EQ5D visual analog score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EQ5D visual analog score than the other over initial six weeks (two-sided test)."||||0.027
92158524|NCT02374957|184204095|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||"Null hypothesis: three-month change in EQ5D visual analog score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EQ5D visual analog score than the other over three months (two-sided test)."||||0.014
92158525|NCT02374957|184204096|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||"Null hypothesis: six-week change in EACH Q sum score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EACH Q sum score than the other over initial six weeks (two-sided test)."||||0.82
92158526|NCT02374957|184204097|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||"Null hypothesis: three-month change in EACH Q sum score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EACH Q sum score than the other over three months (two-sided test)."||||0.61
92218100|NCT00549939|184336963|SUPERIORITY_OR_OTHER|||||||0.7889||||||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||"Change in detrusor compliance was analyzed using a three-way analysis of covariance (ANCOVA) including 3 variables as fixed effects:~* treatment group (alfuzosin 0.1 mg/kg/day, alfuzosin 0.2 mg/kg/day or placebo),~* age/formulation group (2-7 years of age on solution, 8-16 years of age on solution or 8-16 years of age on tablets),~* anticholinergic/antimuscarinic use (yes or no),~and using centered baseline detrusor compliance as covariate."||||0.7889
92218101|NCT00549939|184336963|SUPERIORITY_OR_OTHER|||||||0.7889||||||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||||||0.7889
92218102|NCT01360554|184336985|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.933||||0.195|TWO_SIDED|95.0|0.797|1.093||One-sided P-value.|1-sided stratified log-rank test|Stratified by epidermal growth factor receptor (EGFR) status, Kirsten Rat Sarcoma status (KRAS), baseline Eastern Cooperative Oncology Group (ECOG).|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status, KRAS, baseline ECOG as stratification factors.|||1.093|0.797|0.195
92275217|NCT00106028|184452460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.543||||0.0799|TWO_SIDED|95.0|0.274|1.076||Long Bone Non-Vertebral Fracture|Wald Test|Hazard Ratio and 95% CI based on Anderson-Gill mean intensity model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||1.076|0.274|0.0799
92275218|NCT00106028|184452460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.682||||0.682|TWO_SIDED|95.0|0.304|1.532||Other Non-Vertebral Fracture|Wald Test|Hazard Ratio and 95% CI based on Anderson-Gill mean intensity model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||1.532|0.304|0.682
92345873|NCT03054428|184595095|SUPERIORITY||percentage difference|15.5|||=|0.0007|TWO_SIDED|95.0|6.7|24.31||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Analysis was performed using CMH test stratified by baseline disease severity (IGA=3 vs IGA=4) and baseline weight group (\<60 kg vs ≥60 kg).||24.31|6.7|= 0.0007
92345874|NCT03054428|184595096|SUPERIORITY||percentage difference|33.2|||<|0.0001|TWO_SIDED|95.0|21.07|45.39||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Analysis was performed using CMH test stratified by baseline disease severity (IGA=3 vs IGA=4) and baseline weight group (\<60 kg vs ≥60 kg).||45.39|21.07|< 0.0001
92345875|NCT03054428|184595096|SUPERIORITY||percentage difference|29.9|||<|0.0001|TWO_SIDED|95.0|17.94|41.78||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Analysis was performed using CMH test stratified by baseline disease severity (IGA=3 vs IGA=4) and baseline weight group (\<60 kg vs ≥60 kg).||41.78|17.94|< 0.0001
92345876|NCT03054428|184595097|SUPERIORITY||Least Square (LS) Mean difference|-42.3|||<|0.0001|TWO_SIDED|95.0|-55.6|-29.04||Threshold for significance at 0.05 level.|ANCOVA|||A hierarchical testing procedure was used to control type I error. The confidence interval (CI) with p-value is based on treatment difference (Dupilumab group vs. Placebo) of the LS mean percent change using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment, randomization strata (baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\]) as fixed factors.||-29.04|-55.6|< 0.0001
92345877|NCT03054428|184595097|SUPERIORITY||LS Mean difference|-41.2|||<|0.0001|TWO_SIDED|95.0|-54.44|-28.02||Threshold for significance at 0.05 level.|ANCOVA|||A hierarchical testing procedure was used to control type I error. The confidence interval (CI) with p-value is based on treatment difference (Dupilumab group vs. Placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata (baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\]) as fixed factors.||-28.02|-54.44|< 0.0001
92345878|NCT03054428|184595098|SUPERIORITY||LS Mean difference|-29.0|||<|0.0001|TWO_SIDED|95.0|-39.54|-18.38||Threshold for significance at 0.05 level.|ANCOVA|||A hierarchical testing procedure was used to control type I error. The confidence interval (CI) with p-value is based on treatment difference (Dupilumab group vs. Placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata (baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\]) as fixed factors.||-18.38|-39.54|< 0.0001
92345879|NCT03054428|184595098|SUPERIORITY||LS Mean difference|-26.5|||<|0.0001|TWO_SIDED|95.0|-37.45|15.63||Threshold for significance at 0.05 level.|ANCOVA|||A hierarchical testing procedure was used to control type I error. The confidence interval (CI) with p-value is based on treatment difference (Dupilumab group vs. Placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata (baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\]) as fixed factors.||15.63|-37.45|< 0.0001
92345880|NCT03054428|184595099|SUPERIORITY||percentage difference|39.4|||<|0.0001|TWO_SIDED|95.0|26.9|51.84||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Difference is Dupilumab minus Placebo. C.I. = Confidence interval calculated using normal approximation. P-values were derived by CMH test stratified by baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\].||51.84|26.9|< 0.0001
92345881|NCT03054428|184595099|SUPERIORITY||percentage difference|29.1|||<|0.0001|TWO_SIDED|95.0|16.97|41.32||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Difference is Dupilumab minus Placebo. C.I. = Confidence interval calculated using normal approximation. P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\].||41.32|16.97|< 0.0001
92218103|NCT01360554|184336986|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.037||||0.643|TWO_SIDED|95.0|0.848|1.268||One-sided P-value|1-sided stratified log-rank test|Stratified by EGFR status and baseline ECOG.|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status and baseline ECOG as stratification factors.|||1.268|0.848|0.643
92218104|NCT01360554|184336987|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.899||||0.069|TWO_SIDED|95.0|0.78|1.035||Stratified by EGFR status, KRAS status, and baseline ECOG.|1-sided stratified log-rank test|One-sided P-value|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status, KRAS status, and baseline ECOG as stratification factors.|||1.035|0.780|0.069
92218105|NCT01360554|184336988|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.057||||0.728|TWO_SIDED|95.0|0.881|1.267||One-sided P-value.|1-sided stratified log-rank test|Stratified by EGFR status and baseline ECOG.|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status and baseline ECOG as stratification factors.|||1.267|0.881|0.728
92218106|NCT01360554|184336989|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.026||||0.638|TWO_SIDED|95.0|0.887|1.188||One-sided P-value.|1-sided stratified log-rank test.|Stratified by EGFR status, KRAS status, and baseline ECOG.|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status, KRAS status, and baseline ECOG as stratification factors.|||1.188|0.887|0.638
92345882|NCT03054428|184595100|SUPERIORITY||Percentage difference|31.8|||<|0.0001|TWO_SIDED|95.0|20.45|43.2||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Difference is Dupilumab minus Placebo. C.I. = Confidence interval calculated using normal approximation. P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\].||43.2|20.45|< 0.0001
92218107|NCT01360554|184336990|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.078||||0.775|TWO_SIDED|95.0|0.886|1.312||One-sided P-value.|1-sided stratified log-rank test.|Stratified by EGFR status and baseline ECOG.|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status and baseline ECOG as stratification factors.|||1.312|0.886|0.775
92218108|NCT01360554|184336998|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.9357||||||95.0|-4.278|0.407|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Global QoL. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||0.407|-4.278|
92158527|NCT02374957|184204098|SUPERIORITY|||||||0.26|||||||Log Rank|||"Null hypothesis: time to patency-failure (graft occlusion) is the same between treatment arms.~Alternate hypothesis: one arm differs from the other in durability of graft patency (two-sided test)."||||0.26
92158528|NCT00755755|184204130|SUPERIORITY_OR_OTHER||Difference in proportions|72.7|||<|0.001|TWO_SIDED|95.0|55.1|83.2||As comparison involved two doses of PGL4001 vs Placebo, Bonferroni correction used with p-values doubled (threshold was 0.05) and confidence intervals adjusted|Cochran-Mantel-Haenszel|Adjustment for randomization strata|Confidence intervals with the use of Newcombe-Wilson score method (uncorrected)|||83.2|55.1|<0.001
92218109|NCT01360554|184336998|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|0.8067||||||95.0|-1.312|2.926|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 cognitive functioning. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||2.926|-1.312|
92218110|NCT01360554|184336998|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model|0.73||||||95.0|-1.575|3.035|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 emotional functioning. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||3.035|-1.575|
92218111|NCT01360554|184336998|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|1.5289||||||95.0|-0.756|3.814|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 physical functioning. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||3.814|-0.756|
92218112|NCT01360554|184336998|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|1.2219||||||95.0|-1.975|4.419|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 role functioning. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||4.419|-1.975|
92158529|NCT00755755|184204130|SUPERIORITY_OR_OTHER||Difference in proportions|73.7|||<|0.001|TWO_SIDED|95.0|56.2|84.0||As comparison involved two doses of PGL4001 vs Placebo, Bonferroni correction used with p values doubled (threshold was 0.05) and confidence intervals adjusted|Cochran-Mantel-Haenszel|Adjustment for randomization strata|Confidence intervals with the use of Newcombe-Wilson score method (uncorrected)|||84.0|56.2|<0.001
92218113|NCT01360554|184336998|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.497||||||95.0|-4.575|1.581|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 social functioning. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.581|-4.575|
92345883|NCT03054428|184595100|SUPERIORITY||Percentage difference|21.7|||=|0.0001|TWO_SIDED|95.0|11.21|32.28||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Difference is Dupilumab minus Placebo. C.I. = Confidence interval calculated using normal approximation. P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\].||32.28|11.21|= 0.0001
92345884|NCT03880474|184595115|OTHER||Relative Risk|1.52||||0.1146|TWO_SIDED|95.0|0.9|2.55|||Log Binominal Model|||||2.55|0.90|0.1146
92345885|NCT03880474|184595115|OTHER||Relative Risk|1.52||||0.1146|TWO_SIDED|95.0|0.9|2.55|||Poisson Model with Robust Variance|||||2.55|0.90|0.1146
92345886|NCT03880474|184595116|OTHER||Relative Risk|1.0||||1|TWO_SIDED|95.0|0.86|1.15|||Log Binomial Model|||The Analysis concerns the Incidence of Influenza-like Illness (ILI)||1.15|0.86|1.0000
92345887|NCT03880474|184595116|OTHER||Relative Risk|1.0||||0.9799|TWO_SIDED|95.0|0.86|1.15|||Poisson Model with Robust Variance|||The Analysis concerns the Incidence of Influenza-like Illness (ILI)||1.15|0.86|0.9799
92345888|NCT03880474|184595118|OTHER||Least Squares Mean Difference|-287.1||||0.3284|TWO_SIDED|95.0|-872.75|298.59|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H3N2 (HI) at Day 28||298.59|-872.75|0.3284
92345889|NCT03880474|184595118|OTHER||Least Squares Mean Difference|-13.39||||0.8468|TWO_SIDED|95.0|-152.26|125.47|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H3N2 (HI) at Week26||125.47|-152.26|0.8468
92345890|NCT03880474|184595118|OTHER||Least Squares Mean Difference|-465.7||||0.5087|TWO_SIDED|95.0|-1875.21|943.75|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H3N2 (MN) at Day 28||943.75|-1875.21|0.5087
92158530|NCT00755755|184204131|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-22.6||||0.002|TWO_SIDED|95.0|-36.1|-8.2||As comparison involved two doses of PGL4001 vs Placebo, Bonferroni correction used with p-values doubled (threshold was 0.05) and confidence intervals adjusted.|Wilcoxon (Mann-Whitney)|Use of the Van Elteren extension to the Wilcoxon rank-sum test with adjustment for randomization strata|Hodges-Lehmann point estimator with corresponding Moses confidence interval.|||-8.2|-36.1|0.002
92158531|NCT00755755|184204131|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-18.2||||0.006|TWO_SIDED|95.0|-33.0|-5.2||As comparison involved two doses of PGL4001 vs Placebo, Bonferroni correction used with p values doubled (threshold was 0.05) and confidence intervals adjusted.|Wilcoxon (Mann-Whitney)|Use of the Van Elteren extension to the Wilcoxon rank-sum test with adjustment for randomization strata|Hodges-Lehmann point estimator with corresponding Moses confidence interval.|||-5.2|-33.0|0.006
92158532|NCT00811187|184204140|SUPERIORITY|\[Not Specified\]|Mean Difference (Net)|-2.03|||<|0.001|TWO_SIDED||||||Regression, Linear||Treatment pain difference= Lidocaine (0.97) - Placebo (3.00).|A sample size calculation and power analysis was conducted using PS Power and Sample Size Calculations 2.1.30 (Vanderbilt University, Department of Biostatistics, Nashville, TN) to determine necessary sample size.||||<.001
92345891|NCT03880474|184595118|OTHER||Least Squares Mean Difference|-83.68||||0.7509|TWO_SIDED|95.0|-611.67|444.32|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H3N2 (MN) at Week 26||444.32|-611.67|0.7509
92345892|NCT03880474|184595118|OTHER||Least Squares Mean Difference|-81.17||||0.3398|TWO_SIDED|95.0|-250.72|88.39|||ANOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H1N1pdm at Day 28||88.39|-250.72|0.3398
92345893|NCT03880474|184595118|OTHER||Least Squares Mean Difference|26.15||||0.4154|TWO_SIDED|95.0|-37.95|90.26|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H1N1pdm at Week 26||90.26|-37.95|0.4154
92345894|NCT03880474|184595118|OTHER||Least Squares Mean Difference|22.84||||0.7193|TWO_SIDED|95.0|-104.5|150.18|||ANCOVA|||Titers of neutralizing antibodies against Influenza B/ Victoria at Day 28||150.18|-104.50|0.7193
92345895|NCT03880474|184595118|OTHER||Least Squares Mean Difference|52.38||||0.1496|TWO_SIDED|95.0|-19.59|124.35|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza B/ Victoria at Week 26||124.35|-19.59|0.1496
92345896|NCT03880474|184595118|OTHER||Least Squares Mean Difference|-16.76||||0.9044|TWO_SIDED|95.0|-296.57|263.06|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza B/Yamagata at Day 28||263.06|-296.57|0.9044
92345897|NCT03880474|184595118|OTHER||Least Squares Mean Difference|38.64||||0.4198|TWO_SIDED|95.0|-56.97|134.24|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza B/Yamagata at Week 26||134.24|-56.97|0.4198
92345898|NCT03880474|184595119|OTHER||Hazard Ratio (HR)|1.08||||0.4159|TWO_SIDED|95.0|0.9|1.28|||Regression, Cox|||||1.28|0.90|0.4159
92345899|NCT03880474|184595120|OTHER||Geometric Mean Ratio (Active vs Placebo)|0.99||||0.955|TWO_SIDED|95.0|0.83|1.19|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Feeling Hot (AUC)||1.19|0.83|0.9550
92345900|NCT03880474|184595120|OTHER||Geometric Mean Ratio (Active vs Placebo)|1.0||||0.8933|TWO_SIDED|95.0|1.0|1.0|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Temperature (AUC)||1|1|0.8933
92345901|NCT03880474|184595120|OTHER||Geometric Mean Ratio (Active vs Placebo)|0.87||||0.2156|TWO_SIDED|95.0|0.7|1.09|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Cough (AUC)||1.09|0.7|0.2156
92345902|NCT03880474|184595120|OTHER||Geometric Mean Ratio (Active vs Placebo)|0.88||||0.2216|TWO_SIDED|95.0|0.71|1.1|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Sore Throat AUC||1.10|0.71|0.2216
92345903|NCT03880474|184595120|OTHER||Geometric Mean Ratio (Active vs Placebo)|0.87||||0.2306|TWO_SIDED|95.0|0.69|1.09|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Blocked Nose AUC||1.09|0.69|0.2306
92345904|NCT03880474|184595120|OTHER||Geometric Mean Ratio (Active vs Placebo)|0.99||||0.8038|TWO_SIDED|95.0|0.97|1.13|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Chest Pain AUC||1.13|0.97|0.8038
92345905|NCT03880474|184595120|OTHER||Geometric Mean Ratio (Active vs Placebo)|1.01||||0.9319|TWO_SIDED|95.0|0.84|1.21|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Muscle Pain AUC||1.21|0.84|0.9319
92345906|NCT03880474|184595120|OTHER||Geometric Mean Ratio (Active vs Placebo)|1.01||||0.8399|TWO_SIDED|95.0|0.86|1.19|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Shortness of Breath AUC||1.19|0.86|0.8399
92345907|NCT03880474|184595121|OTHER||Least Squares Mean Difference|743.78||||0|TWO_SIDED|95.0|443.71|1043.84|||ANCOVA|||Statistical analysis was performed for Total(NP+M) (SFU/10\^6 PBMC) at Day 28 Nucleoprotein = NP, matrix1 = M1||1043.84|443.71|0
92345908|NCT03880474|184595121|OTHER||Least Squares Mean Difference|177.1||||0.0673|TWO_SIDED|95.0|-13.14|367.33|||ANCOVA|||Statistical analysis was performed for Total(NP+M) (SFU/10\^6 PBMC) at Week 26 Nucleoprotein = NP, matrix1 = M1||367.33|-13.14|0.0673
92345909|NCT06070610|184595141|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|101.97|||||TWO_SIDED|90.0|93.59|111.1|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 12.3|||111.10|93.59|
92345910|NCT06070610|184595142|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|101.31|||||TWO_SIDED|90.0|93.6|109.65|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 11.4|||109.65|93.60|
92345911|NCT06070610|184595143|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|101.11|||||TWO_SIDED|90.0|87.36|117.02|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 21.4|||117.02|87.36|
92345912|NCT06070610|184595144|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|108.37|||||TWO_SIDED|90.0|102.58|114.49|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 7.5|||114.49|102.58|
92345913|NCT06070610|184595145|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|108.82|||||TWO_SIDED|90.0|102.54|115.49|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 7.7|||115.49|102.54|
92345914|NCT06070610|184595146|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|87.24|||||TWO_SIDED|90.0|75.27|101.11|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 20.5|||101.11|75.27|
92345915|NCT01499810|184595147|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
92345916|NCT01499810|184595149|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
92345917|NCT01499810|184595150|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
92345918|NCT01499810|184595151|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
92345919|NCT01499810|184595152|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
92345920|NCT01499810|184595153|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
92345921|NCT01499810|184595154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.0001
92345922|NCT01499810|184595155|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
92345923|NCT01499810|184595156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.35
92345924|NCT01499810|184595157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.12
92345925|NCT01499810|184595158|SUPERIORITY_OR_OTHER_LEGACY|||||||7e-05||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.00007
92345926|NCT01499810|184595159|SUPERIORITY_OR_OTHER_LEGACY|||||||9e-05||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.00009
92345927|NCT01499810|184595160|SUPERIORITY_OR_OTHER_LEGACY|||||||4e-05||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.00004
92345928|NCT01499810|184595161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.0001
92345929|NCT01499810|184595162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.0007
92345930|NCT01499810|184595163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.001
92345931|NCT01499810|184595164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.0004
92345932|NCT01499810|184595165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.0002
92345933|NCT01499810|184595166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.57
92345934|NCT01499810|184595167|SUPERIORITY_OR_OTHER_LEGACY|||||||0.54||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.54
92345935|NCT01499810|184595168|SUPERIORITY_OR_OTHER_LEGACY|||||||0.87||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.87
92218114|NCT01360554|184336999|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|1.2851|||||TWO_SIDED|95.0|-2.416|4.986|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Appetite loss. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||4.986|-2.416|
92345936|NCT01499810|184595169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.77
92345937|NCT01499810|184595170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.06
92345938|NCT01499810|184595171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.07
92345939|NCT01499810|184595172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.32
92345940|NCT01499810|184595173|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.12
92345941|NCT01499810|184595174|SUPERIORITY_OR_OTHER_LEGACY|||||||0.72||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.72
92345942|NCT01499810|184595175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.37
92345943|NCT01499810|184595176|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.99
92158533|NCT00083174|184204149|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.35||||0.002|TWO_SIDED|95.0|0.18|0.7|||Log Rank|||The null hypothesis was no difference between two groups. The sample size estimate was based on an assumption of annual invasive breast cancer rate of 0.60% in the placebo group and 0.21% in exemestane group, a relative reduction of 65% with exemestane. To detect this with a two-sided 5% level and 90% power, a total of 38 cases of invasive breast cancer were required, projected to occur when 4560 women were randomly assigned in a 3-year period and then followed for an additional 1.2 years.||0.70|0.18|0.002
92158534|NCT00083174|184204150|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47||||0.004|TWO_SIDED|95.0|0.27|0.79|||Log Rank|||||0.79|0.27|0.004
92158535|NCT00083174|184204151|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.36||||0.07|TWO_SIDED|95.0|0.11|1.12|||Log Rank|||||1.12|0.11|0.07
92345944|NCT01499810|184595177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.76||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.76
92345945|NCT01499810|184595178|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.08
92345946|NCT01499810|184595179|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.35
92345947|NCT01499810|184595180|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.22
92345948|NCT01499810|184595181|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.29
92345949|NCT01499810|184595182|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.89
92345950|NCT01499810|184595183|SUPERIORITY_OR_OTHER_LEGACY|||||||0.65||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.65
92345951|NCT01499810|184595184|SUPERIORITY_OR_OTHER_LEGACY|||||||0.76||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.76
92345952|NCT01499810|184595185|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||||||Repeated measures analysis|t-test, 2 sided|||Repeated measures analysis||||0.35
92345953|NCT01499810|184595186|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.92
92158536|NCT02444143|184204234|OTHER|||||||0.29|||||||t-test, 2 sided|||||||0.29
92158537|NCT02444143|184204235|OTHER|||||||0.9|||||||t-test, 2 sided|||||||0.90
92158538|NCT03582137|184204236|SUPERIORITY||Mean Difference (Net)|-1.8049||||0.3785|TWO_SIDED|95.0|-5.8839|2.2741|||Mixed Models Analysis|||||2.2741|-5.8839|0.3785
92158539|NCT03582137|184204240|SUPERIORITY||Mean Difference (Net)|-4.4254||||0.2712|TWO_SIDED|95.0|-12.4018|3.551|||Mixed Models Analysis|||||3.5510|-12.4018|0.2712
92345954|NCT01499810|184595187|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.32
92345955|NCT01499810|184595188|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.40
92345956|NCT01499810|184595189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.17
92345957|NCT01499810|184595190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.014
92345958|NCT03643848|184595240|SUPERIORITY||variance components; inferring mean diff|0.068|STANDARD_DEVIATION|0.033|<|0.046|TWO_SIDED|||||a priori threshold p\<.05|Mixed Models Analysis|REML; Satterwaite method for t-tests.Participant is random effect. Addtnl fixed effects: Valence, Condition, Anxiety Severity, Gender, Age (months).||Condition (TMR, Sham) x Valence (Negative, Neutral) predicting Lure Generalization Index at 1 week. We hypothesized a significant interaction, with a reduction in negative generalization and an increase in neutral generalization in the TMR condition.||||<.046
92275219|NCT00106028|184452461|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.678||||0.0318||95.0|-22.325|-1.031|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||-1.031|-22.325|0.0318
92275220|NCT00106028|184452462|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.067||||0.9907|TWO_SIDED|95.0|-11.401|11.536|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||11.536|-11.401|0.9907
92275221|NCT00106028|184452463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.686||||0.3826|TWO_SIDED|95.0|-15.276|5.903|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||5.903|-15.276|0.3826
92275222|NCT00106028|184452464|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.629|||<|0.0001||95.0|-38.089|-15.169|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||-15.169|-38.089|<0.0001
92275223|NCT00106028|184452465|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.04||||0.3075|TWO_SIDED|95.0|-8.433|26.512|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||26.512|-8.433|0.3075
92275224|NCT00106028|184452466|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.039||||0.3998|TWO_SIDED|95.0|-16.849|6.772|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||6.772|-16.849|0.3998
92275225|NCT00106028|184452467|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.352||||0.1592||95.0|-0.845|0.14|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.140|-0.845|0.1592
92275226|NCT00106028|184452468|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.127||||0.2917||95.0|-0.111|0.365|||ANOVA|LS means and p-value are from ANOVA model with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.365|-0.111|0.2917
92275227|NCT00106028|184452469|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.007||||0.9622||95.0|-0.304|0.319|||ANOVA|LS mean and p-value are from ANOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.319|-0.304|0.9622
92158540|NCT03582137|184204241|SUPERIORITY||Mean Difference (Net)|0.3133||||0.8974|TWO_SIDED|95.0|-4.5414|5.168|||Mixed Models Analysis|||||5.1680|-4.5414|0.8974
92158541|NCT03582137|184204242|SUPERIORITY||Mean Difference (Net)|0.1505||||0.4643|TWO_SIDED|95.0|-0.2882|0.5892|||Mixed Models Analysis|||||0.5892|-0.2882|0.4643
92158542|NCT03582137|184204243|SUPERIORITY||Mean Difference (Net)|-0.1188||||0.6245|TWO_SIDED|95.0|-0.6019|0.3644|||Mixed Models Analysis|||||0.3644|-0.6019|0.6245
92158543|NCT03582137|184204249|SUPERIORITY||Mean Difference (Net)|-0.3341||||0.5921|TWO_SIDED|95.0|-1.5749|0.9068|||Mixed Models Analysis|||||0.9068|-1.5749|0.5921
92158544|NCT03582137|184204250|SUPERIORITY||Mean Difference (Net)|1.9352||||0.1016|TWO_SIDED|95.0|-0.4372|4.3076|||Mixed Models Analysis|||||4.3076|-0.4372|0.1016
92345959|NCT03643848|184595241|SUPERIORITY||variance components; inferring mean diff|-0.033|STANDARD_ERROR_OF_MEAN|0.064|=|0.61|TWO_SIDED|||||a priori p\<.05|Mixed Models Analysis|included additional fixed effects: Anxiety severity, gender, age (months)||Condition (TMR, Sham) x Valence (Negative, Neutral) predicting Lure Generalization Index at 12 hour test. We hypothesized a significant interaction, with a reduction in negative generalization and an increase in neutral generalization in the TMR condition.||||=.61
92345960|NCT00375752|184595242|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.7||||0.106|TWO_SIDED|95.0|-1.8|31.1|||Fisher Exact|||||31.1|-1.8|0.106
92345961|NCT01649765|184595252|SUPERIORITY||Odds Ratio (OR)|1.49|||||TWO_SIDED|95.0|0.64|3.46||||||||3.46|0.64|
92345962|NCT01649765|184595253|SUPERIORITY||Odds Ratio (OR)|2.74|||||TWO_SIDED|95.0|1.15|6.54|||||Definition 1|||6.54|1.15|
92345963|NCT01649765|184595253|SUPERIORITY||Odds Ratio (OR)|2.92|||||TWO_SIDED|95.0|1.19|7.17|||||Definition 2|||7.17|1.19|
92345964|NCT02469233|184595264|SUPERIORITY||Time by treatment interaction coeff.|-3.18||||0.025|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.025
92345965|NCT02469233|184595264|SUPERIORITY||Time by treatment interaction coeff.|-1.52||||0.28|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.28
92345966|NCT02469233|184595265|SUPERIORITY||time by treatment interaction coeff.|-5.88||||0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.001
92345967|NCT02469233|184595265|SUPERIORITY||maximum likelihood estimation|-3.9||||0.03|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.03
92218115|NCT01360554|184336999|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-5.923|||||TWO_SIDED|95.0|-8.432|-3.414|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Constipation. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||-3.414|-8.432|
92158545|NCT03582137|184204251|SUPERIORITY||Mean Difference (Net)|19.686||||0.0661|TWO_SIDED|95.0|-1.3733|40.7452|||Mixed Models Analysis|||||40.7452|-1.3733|0.0661
92158546|NCT03582137|184204252|SUPERIORITY||Mean Difference (Net)|-3.2214||||0.088|TWO_SIDED|95.0|-6.9381|0.4953|||Mixed Models Analysis|||||0.4953|-6.9381|0.0880
92158547|NCT03582137|184204253|SUPERIORITY||Mean Difference (Net)|-4.9836||||0.2827|TWO_SIDED|95.0|-14.2093|4.2421|||Mixed Models Analysis|||||4.2421|-14.2093|0.2827
92218116|NCT01360554|184336999|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model|20.2564|||||TWO_SIDED|95.0|16.874|23.639|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Diarrhea. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||23.639|16.874|
92345968|NCT02469233|184595266|SUPERIORITY||time by treatment interaction coeff.|-5.55|||<|0.0001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||<0.0001
92345969|NCT02469233|184595266|SUPERIORITY||Time by treatment interaction coeff.|-4.92|||<|0.0001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||<0.0001
92345970|NCT02469233|184595267|SUPERIORITY||Time by treatment interaction coeff.|-9.14|||<|0.0001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||<0.0001
92345971|NCT02469233|184595267|SUPERIORITY||Time by treatment interaction coeff.|-5.37||||0.027|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.027
92158548|NCT03582137|184204254|SUPERIORITY||Mean Difference (Net)|0.576||||0.7703|TWO_SIDED|95.0|-3.3697|4.5216|||Mixed Models Analysis|||||4.5216|-3.3697|0.7703
92158549|NCT03582137|184204255|SUPERIORITY||Mean Difference (Net)|-0.8834||||0.1874|TWO_SIDED|95.0|-2.2172|0.4504|||Mixed Models Analysis|||||0.4504|-2.2172|0.1874
92158550|NCT03582137|184204258|SUPERIORITY||Mean Difference (Net)|1.2993||||0.1646|TWO_SIDED|95.0|-0.5533|3.1519|||Mixed Models Analysis|||||3.1519|-0.5533|0.1646
92158551|NCT03582137|184204259|SUPERIORITY||Mean Difference (Net)|-1.7519||||0.1093|TWO_SIDED|95.0|-3.9082|0.4045|||Mixed Models Analysis|||||0.4045|-3.9082|0.1093
92158552|NCT03582137|184204260|SUPERIORITY||Mean Difference (Net)|1.3532||||0.1819|TWO_SIDED|95.0|-0.6511|3.3576|||Mixed Models Analysis|||||3.3576|-0.6511|0.1819
92218117|NCT01360554|184336999|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-4.5499|||||TWO_SIDED|95.0|-7.719|-1.381|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Dysponea. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||-1.381|-7.719|
92158553|NCT03582137|184204261|SUPERIORITY||Mean Difference (Net)|0.9667||||0.2282|TWO_SIDED|95.0|-0.6287|2.5621|||Mixed Models Analysis|||||2.5621|-0.6287|0.2282
92275228|NCT00106028|184452470|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.009||||0.9596|TWO_SIDED|95.0|-0.336|0.354|||ANOVA|LS means and p-value are from ANOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.354|-0.336|0.9596
92275229|NCT00106028|184452471|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.107||||0.34||95.0|-0.114|0.328|||ANOVA|LS means and p-value are from ANOVA model with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.328|-0.114|0.3400
92275230|NCT00106028|184452472|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.029||||0.6218|TWO_SIDED|95.0|-0.084|0.142|||ANOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.142|-0.084|0.6218
92275231|NCT00479401|184452502|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority hypothesis comparing pramipexole ER to pramipexole IR was to be tested using a non-inferiority margin of -3 points. The primary efficacy endpoint in UPDRS part II+III was the change from baseline (week 0) to week 33 on the UPDRS Parts II+III score combined. The statistical model was analysis of covariance, controlling for baseline UPDRS Part II+III. Fixed terms in the model were treatment, country, and UPDRS Part II+III score at baseline.|Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.2|1.7|||ANCOVA|Null hypothesis was tested using an analysis of covariance model with α = 0.05 in full analysis set with last observation carried forward.|PPX ER non-inferior to PPX IR, if the lower limit of the confidence interval for the difference is higher than the non-inferiority margin of -3|A non-inferiority hypothesis (H0: μER - μIR \< -3 vs. H1: μER - μIR ≥ -3) comparing pramipexole ER to pramipexole IR was tested using a non-inferiority margin of -3 points.||1.7|-2.2|
92275232|NCT02257632|184452523|SUPERIORITY||Mean Difference (Final Values)|-14.98|||<|0.0001|TWO_SIDED|95.0|-19.64|-10.32||missing Baseline VEGF-A level covariate values were imputed by the mean value of non-missing Baseline VEGF-A level from all other patients|ANCOVA|including treatment group and center as fixed effect factors and Baseline VEGF-A as a covariate||||-10.32|-19.64|<0.0001
92158554|NCT03582137|184204262|SUPERIORITY||Mean Difference (Net)|-0.2614||||0.6167|TWO_SIDED|95.0|-1.3002|0.7775|||Mixed Models Analysis|||||0.7775|-1.3002|0.6167
92158555|NCT03582137|184204263|SUPERIORITY||Mean Difference (Net)|0.3067||||0.8378|TWO_SIDED|95.0|-2.6765|3.2899|||Mixed Models Analysis|||||3.2899|-2.6765|0.8378
92158556|NCT03582137|184204265|SUPERIORITY||Mean Difference (Net)|0.3237||||0.2103|TWO_SIDED|95.0|-0.188|0.8353|||Mixed Models Analysis|||||0.8353|-0.1880|0.2103
92158557|NCT03582137|184204266|SUPERIORITY||Mean Difference (Net)|-0.504||||0.7197|TWO_SIDED|95.0|-3.3015|2.2934|||Mixed Models Analysis|||||2.2934|-3.3015|0.7197
92158558|NCT03582137|184204267|SUPERIORITY||Mean Difference (Net)|2.6158||||0.0686|TWO_SIDED|95.0|-0.2058|5.4373|||Mixed Models Analysis|||||5.4373|-0.2058|0.0686
92158559|NCT03582137|184204268|SUPERIORITY||Mean Difference (Net)|2.7891||||0.2339|TWO_SIDED|95.0|-1.8523|7.4304|||Mixed Models Analysis|||||7.4304|-1.8523|0.2339
92158560|NCT03582137|184204269|SUPERIORITY||Mean Difference (Net)|0.9536||||0.7557|TWO_SIDED|95.0|-5.1655|7.0727|||Mixed Models Analysis|||||7.0727|-5.1655|0.7557
92158561|NCT03582137|184204271|SUPERIORITY||Mean Difference (Net)|0.05126||||0.915|TWO_SIDED|95.0|-0.9086|1.0111|||Mixed Models Analysis|||||1.0111|-0.9086|0.9150
92158562|NCT03582137|184204272|SUPERIORITY||Mean Difference (Net)|-0.6699||||0.6164|TWO_SIDED|95.0|-3.3316|1.9918|||Mixed Models Analysis|||||1.9918|-3.3316|0.6164
92158563|NCT03582137|184204273|SUPERIORITY||Mean Difference (Net)|-0.1358||||0.755|TWO_SIDED|95.0|-1.0028|0.7312|||Mixed Models Analysis|||||0.7312|-1.0028|0.7550
92158564|NCT03582137|184204274|SUPERIORITY||Mean Difference (Net)|-0.09605||||0.9016|TWO_SIDED|95.0|-1.6449|1.4528|||Mixed Models Analysis|||||1.4528|-1.6449|0.9016
92158565|NCT03582137|184204275|SUPERIORITY||Mean Difference (Net)|-0.3217||||0.9219|TWO_SIDED|95.0|-6.8584|6.2151|||Mixed Models Analysis|||||6.2151|-6.8584|0.9219
92158566|NCT03582137|184204276|SUPERIORITY||Mean Difference (Net)|0.02897||||0.3178|TWO_SIDED|95.0|-0.02857|0.08651|||Mixed Models Analysis|||||0.08651|-0.02857|0.3178
92158567|NCT03582137|184204281|SUPERIORITY||Mean Difference (Net)|0.2288||||0.7693|TWO_SIDED|95.0|-1.325|1.7825|||Mixed Models Analysis|||||1.7825|-1.3250|0.7693
92158568|NCT03582137|184204282|SUPERIORITY||Mean Difference (Net)|-0.8121||||0.5285|TWO_SIDED|95.0|-3.3743|1.7501|||Mixed Models Analysis|||||1.7501|-3.3743|0.5285
92158569|NCT03582137|184204283|SUPERIORITY||Mean Difference (Net)|-0.02525||||0.9463|TWO_SIDED|95.0|-0.7717|0.7212|||Mixed Models Analysis|||||0.7212|-0.7717|0.9463
92158570|NCT03582137|184204284|SUPERIORITY||Mean Difference (Net)|-0.3042||||0.4362|TWO_SIDED|95.0|-1.0817|0.4732|||Mixed Models Analysis|||||0.4732|-1.0817|0.4362
92158571|NCT03582137|184204285|SUPERIORITY||Mean Difference (Net)|-0.06489||||0.9327|TWO_SIDED|95.0|-1.5957|1.4659|||Mixed Models Analysis|||||1.4659|-1.5957|0.9327
92275233|NCT02257632|184452524|SUPERIORITY||Mean Difference (Final Values)|-11.46|||<|0.0001|TWO_SIDED|95.0|-15.98|-6.94||missing Baseline VEGF-A level covariate values were imputed by the mean value of non-missing Baseline VEGF-A level from all the patients with values|ANCOVA|including treatment group and center as fixed effect factors and Baseline VEGF-A as a covariate||||-6.94|-15.98|< 0.0001
92275234|NCT00434161|184452566|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.679||||0.188|TWO_SIDED|97.5|0.351|1.313||A 2.5% type I error rate for each comparison gives an overall type I error rate of 5%.|Proportional odds model|The proportional odds model including the randomization factors as covariates was used for the primary endpoint, maximum severity of OM.|The odds ratio was defined to be the odds of a subject receiving placebo experiencing OM divided by the odds of a subject receiving palifermin developing OM.|The null hypothesis was that the severity distribution for OM was identical for the placebo and each of the two palifermin groups, and the alternative hypothesis was that palifermin resulted in a shift in the distribution to less severe mucositis than placebo. A total of 275 subjects would give at least 95% power, with a 2.5% type I error rate for each comparison to detect an odds ratio of at least 3.5 between the placebo group and each of the two palifermin groups.||1.313|0.351|0.188
92345972|NCT02469233|184595268|SUPERIORITY||Time by treatment interaction coeff.|-0.95||||0.32|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.32
92345973|NCT02469233|184595268|SUPERIORITY||Time by treatment interaction coeff.|-1.67||||0.08|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.08
92345974|NCT02469233|184595269|SUPERIORITY||Time by treatment interaction coeff.|-0.09||||0.72|TWO_SIDED||||||intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.72
92345975|NCT02469233|184595269|SUPERIORITY||Time by treatment interaction coeff.|-0.08||||0.74|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.74
92345976|NCT02469233|184595270|SUPERIORITY||Time by treatment interaction coeff.|-2.46||||0.73|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.73
92158572|NCT03582137|184204288|SUPERIORITY||Mean Difference (Net)|-0.2763||||0.4401|TWO_SIDED|95.0|-0.988|0.4354|||Mixed Models Analysis|||||0.4354|-0.9880|0.4401
92158573|NCT03582137|184204289|SUPERIORITY||Mean Difference (Net)|-0.8319||||0.8085|TWO_SIDED|95.0|-7.6835|6.0197|||Mixed Models Analysis|||||6.0197|-7.6835|0.8085
92158574|NCT03582137|184204291|SUPERIORITY||Mean Difference (Net)|0.02673||||0.9674|TWO_SIDED|95.0|-1.2757|1.3292|||Mixed Models Analysis|||||1.3292|-1.2757|0.9674
92158575|NCT03582137|184204293|SUPERIORITY||Mean Difference (Net)|-46.92||||0.1128|TWO_SIDED|95.0|-105.51|11.68|||Mixed Models Analysis|||||11.68|-105.51|0.1128
92158576|NCT00558753|184204309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.003||95.0|||||t-test, 2 sided|||||||0.003
92158577|NCT00558753|184204310|SUPERIORITY_OR_OTHER||Independence: Chi-squared|10.3||||0.0013||95.0|||||Chi-squared|||For 3 month followup on incidence of neuropathic pain.||||0.0013
92158578|NCT00558753|184204310|SUPERIORITY_OR_OTHER||Independence: Chi-squared|6.05||||0.0139|||||||Chi-squared|||For 6 month followup on incidence of neuropathic pain.||||0.0139
92158579|NCT00558753|184204311|SUPERIORITY_OR_OTHER||Slope|-4.2||||0.0133||95.0||||Test of condition(Placebo v Pregabalin) main effect.|Mixed Models Analysis|Mixed model with main effects and time by condition interaction.||Mixed model test of condition (Placebo v Pregabalin) main effect.||||0.0133
92158580|NCT00558753|184204311|SUPERIORITY_OR_OTHER||Interaction Slice F-value|1.04||||0.3097||95.0|||||Mixed Models Analysis|Mixed model test of Condition Effect (Placebo v Pregabalin) at the 1-day post surgery time point (Slice)||Test of Condition Effect (Placebo v Pregabalin) at the 1-day post surgery time point (Slice)||||0.3097
92158581|NCT00558753|184204311|SUPERIORITY_OR_OTHER||Interaction Slice F-value|5.1||||0.0247||95.0|||||Mixed Models Analysis|||Test of Condition Effect (Placebo v Pregabalin) at the 2-day post surgery time point (Slice)||||0.0247
92158582|NCT00558753|184204311|SUPERIORITY_OR_OTHER||Interaction Slice F-value|3.11||||0.0786||95.0|||||Mixed Models Analysis|||Test of Condition Effect (Placebo v Pregabalin) at the 3-day post surgery time point (Slice)||||0.0786
92158583|NCT00558753|184204311|SUPERIORITY_OR_OTHER||Interaction Slice F-value|5.04||||0.0254||95.0|||||Mixed Models Analysis|||Test of Condition Effect (Placebo v Pregabalin) at the 30-day post surgery time point (Slice)||||0.0254
92158584|NCT01167023|184204314|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.26||||0.304||95.0||||Pain rate was analyzed using an analysis of covariance (ANCOVA) model, with baseline pain intensity, treatment group, and stratification variable sickle-cell genotype as explanatory variables.|ANCOVA||Least Squares (LS) Mean Difference is for 5 mg prasugrel minus placebo.|||||0.304
92158585|NCT01167023|184204316|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-24.051|||<|0.001||95.0||||A mixed-effects model repeated measures analysis with baseline measurement, stratification variable sickle cell genotype, treatment, time, and time\*treatment interaction as fixed effects, and participant as a random effect in the model was used.|Mixed Models Analysis||Least Squares Mean Difference is for 5 mg prasugrel minus placebo.|||||<0.001
92158586|NCT01167023|184204317|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.56||||0.244||95.0||||Average pain intensity was analyzed using an analysis of covariance (ANCOVA) model, with baseline intensity, treatment group and stratification variable sickle-cell genotype as explanatory variables.|ANCOVA||Least Squares (LS) Mean Difference is for 5 mg prasugrel minus placebo.|||||0.244
92158587|NCT01167023|184204318|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-128.3|||<|0.001||95.0||||A mixed-effects model repeated measures analysis with baseline measurement, stratification variable sickle cell genotype, treatment, time and time\*treatment interaction as fixed effects, and participant as a random effect in the model.|Mixed Models Analysis||Least Squares (LS) Mean Difference is for 5 mg prasugrel minus placebo.|||||<0.001
92218118|NCT01360554|184336999|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.6584|||||TWO_SIDED|95.0|-4.442|1.125|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Fatigue. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.125|-4.442|
92345977|NCT02469233|184595270|SUPERIORITY||Time by treatment interaction coeff.|-17.52||||0.02|TWO_SIDED||||||intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.02
92345978|NCT02469233|184595271|SUPERIORITY||Time by treatment interaction coeff.|5.68||||0.03|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||SE mean (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.03
92345979|NCT02469233|184595271|SUPERIORITY||Time by treatment interaction coeff.|5.89||||0.03|TWO_SIDED||||||intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||SE mean (min): Treatment effect on change from pre to 6-month follow-up.||||0.03
92345980|NCT02469233|184595271|SUPERIORITY||Time by treatment interaction coeff.|-1.45||||0.43|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||SE variability (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.43
92345981|NCT02469233|184595271|SUPERIORITY||Time by treatment interaction coeff.|-1.55||||0.4|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||SE variability (min): Treatment effect on change from pre to 6-month follow-up.||||0.40
92345982|NCT02469233|184595272|SUPERIORITY||Time by treatment interaction coeff.|-12.68||||0.59|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TST mean (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.59
92158588|NCT02820051|184204330|SUPERIORITY|||||||0.281||||||threshold for statistical significance: \< 0.05|Wilcoxon (Mann-Whitney)|||The sample was calculated with alpha 0.05, beta 0.20, standard deviation of 7.3,8 minimum PtcCO2 difference to detect of 5 mmHg, loss to follow-up estimated 0.20, and two-tails. According to the above, the sample size was 42 patients per group.|We tested normal distribution with the Kolmogorov-Smirnov test. Data are shown as means and standard deviations for variables with normal distribution and as medians and interquartile ranges for non-normal variables. We used the t-test, the Mann-Whitney U-test, ANOVA, or chi-square as indicated. We defined a statistically significant difference as a P value \< 0.05. The analysis was performed using SPSS version 18.0 for Windows (SPSS Inc., Chicago, IL).|||0.281
92158589|NCT02820051|184204331|SUPERIORITY|We used the t-test, the Mann-Whitney U-test, ANOVA, or chi-square as indicated. We defined a statistically significant difference as a P value \< 0.05.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92158590|NCT02820051|184204332|SUPERIORITY|T test|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92218119|NCT01360554|184336999|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-0.1469||||||95.0|-3.056|2.762|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Financial Difficulties. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||2.762|-3.056|
92345983|NCT02469233|184595272|SUPERIORITY||Time by treatment interaction coeff.|-28.33||||0.22|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TST mean (min): Treatment effect on change from pre to 6-month follow-up.||||0.22
92345984|NCT02469233|184595272|SUPERIORITY||Time by treatment interaction coeff.|4.65||||0.8|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TST variability (min) : Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.80
92345985|NCT02469233|184595272|SUPERIORITY||Time by treatment interaction coeff.|-7.57||||0.68|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TST variability (min): Treatment effect on change from pre to 6-month follow-up.||||0.68
92158591|NCT04883346|184204342|SUPERIORITY||Mean Difference (Final Values)|-3.2|STANDARD_DEVIATION|3.4|<|0.001|TWO_SIDED||||||t-test, 2 sided|Paired t-test, 32 degrees of freedom (one participant did not have baseline DEXA data so could not be included.||||||<0.001
92345986|NCT02469233|184595273|SUPERIORITY||Time by treatment interaction coeff.|-76.85||||0.34|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Waking activity count mean (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.34
92345987|NCT02469233|184595273|SUPERIORITY||Time by treatment interaction coeff.|-87.15||||0.28|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Waking activity count mean (min): Treatment effect on change from pre to 6-month follow-up.||||0.28
92158592|NCT04883346|184204343|SUPERIORITY||Mean Difference (Final Values)|-1.7|STANDARD_DEVIATION|1.5|<|0.001|TWO_SIDED||||||t-test, 2 sided|Paired t-test, 33 degrees of freedom.||||||<0.001
92158593|NCT04883346|184204344|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_DEVIATION|0.1|<|0.001|TWO_SIDED||||||t-test, 2 sided|Paired t-test, 33 degrees of freedom||||||<0.001
92345988|NCT02469233|184595273|SUPERIORITY||Time by treatment interaction coeff.|-0.15||||0.18|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Waking activity count variability (min) : Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.18
92345989|NCT02469233|184595273|SUPERIORITY||Time by treatment interaction coeff.|-0.27||||0.02|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Waking activity count variability (min): Treatment effect on change from pre to 6-month follow-up.||||0.02
92345990|NCT02469233|184595274|SUPERIORITY||Time by treatment interaction coeff.|-7.19||||0.09|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.09
92345991|NCT02469233|184595274|SUPERIORITY||Time by treatment interaction coeff.|-1.13||||0.79|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcome.||Treatment effect on change from pre to 6-month follow-up||||0.79
92218120|NCT01360554|184336999|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-4.8711|||||TWO_SIDED|95.0|-7.998|-1.745|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Insomnia. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||-1.745|-7.998|
92158594|NCT04883346|184204345|SUPERIORITY|Paired t-test.|Mean Difference (Final Values)|-4.4|STANDARD_DEVIATION|4.4|<|0.001|TWO_SIDED||||||t-test, 2 sided|Paired t-test, 33 degrees of freedom||||||<0.001
92158595|NCT03929302|184204361|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.05|TWO_SIDED||||||Regression, Linear|||||||0.05
92158596|NCT03929302|184204361|SUPERIORITY||Mean Difference (Final Values)|1.57||||0.2|TWO_SIDED||||||Regression, Linear|||||||0.20
92158597|NCT03929302|184204361|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.642|TWO_SIDED||||||Regression, Linear|||||||0.642
92158598|NCT03815916|184204378|SUPERIORITY||Mean Difference (Final Values)|0.3865||||0.1077|TWO_SIDED||||||t-test, 2 sided|||The primary efficacy endpoint is the mean change in the average NAD+/NADH brain ratio from baseline to Week 12 using a partial volume coil 31P-MRS data on the Per Protocol Treatment Population. A paired t-test will be used to analyze the mean change from baseline.||||0.1077
92158599|NCT04541186|184204468|SUPERIORITY||Median Percent Change Difference|-43.73|||<|0.001|TWO_SIDED|95.0|-57.08|-30.31||Significant level = 0.05|van Elteren test|Nonparametric analysis stratified by baseline TG level and background lipid therapy to test the treatment difference using pooled data.|The location shift and Hodges-Lehmann 95% confidence interval were based on Hodges-Lehman estimation. Placebo group is the reference group, and the comparison was performed in pooled pegozafermin treatment group vs. placebo pooled.|||-30.31|-57.08|<0.001
92158600|NCT04541186|184204469|SUPERIORITY||||||<|0.001||||||Significant level = 0.05|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by baseline TG level and lipid modifying therapy use.||||||<0.001
92158601|NCT04541186|184204470|SUPERIORITY||Least Squares Means Difference|-17.87|STANDARD_ERROR_OF_MEAN|6.425||0.007|TWO_SIDED|95.0|-30.67|-5.07||Significant level = 0.05|MMRM|||MMRM analysis of non-HDL-C comparison between pegozafermin pooled versus placebo pooled group.||-5.07|-30.67|0.007
92158602|NCT04541186|184204470|SUPERIORITY||Least Squares Means Difference|-11.75|STANDARD_ERROR_OF_MEAN|4.888||0.019|TWO_SIDED|95.0|-21.48|-2.01||Significant level of 0.05|MMRM|||MMRM analysis of ApoB comparison between pegozafermin pooled versus placebo pooled group.||-2.01|-21.48|0.019
92158603|NCT04541186|184204470|SUPERIORITY||Least Squares Means Difference|1.73|STANDARD_ERROR_OF_MEAN|10.519||0.87|TWO_SIDED|95.0|-19.21|22.68||Significant level = 0.05|MMRM|||MMRM analysis of LDL-C comparison between pegozafermin pooled versus placebo pooled group.||22.68|-19.21|0.870
92158604|NCT04541186|184204470|SUPERIORITY||Least Squares Means Difference|15.41|STANDARD_ERROR_OF_MEAN|8.182||0.064|TWO_SIDED|95.0|-0.89|31.7||Significant level = 0.05|MMRM|||MMRM analysis of HDL-C comparison between pegozafermin pooled versus placebo pooled group.||31.70|-0.89|0.064
92158605|NCT04541186|184204471|SUPERIORITY|||||||0.006||||||Significant level = 0.05|van Elteren Test|||Nonparametric analysis of VLDL-C comparison between pegozafermin pooled versus placebo pooled group.||||0.006
92158606|NCT04541186|184204471|SUPERIORITY|||||||0.002||||||Significant level of 0.05|van Elteren test|||Nonparametric analysis of VLDL-TG comparison between pegozafermin pooled versus placebo pooled group.||||0.002
92158607|NCT04541186|184204472|SUPERIORITY|||||||0.809||||||Significant level = 0.05|MMRM|||MMRM analysis of fasting plasma glucose comparison between pegozafermin pooled versus placebo pooled group.||||0.809
92158608|NCT04541186|184204472|SUPERIORITY||||||<|0.001||||||Significant level = 0.05|MMRM|||MMRM analysis of adiponectin comparison between pegozafermin pooled versus placebo pooled group.||||<0.001
92158609|NCT04541186|184204472|SUPERIORITY|||||||0.973||||||Significant level = 0.05|MMRM|||MMRM analysis of body weight comparison between pegozafermin pooled versus placebo pooled group.||||0.973
92158610|NCT04541186|184204473|SUPERIORITY|||||||0.012||||||Significant level = 0.05|ANCOVA|||||||0.012
92158611|NCT00058058|184204501|OTHER|Estimation of diagnostic yield|Binomial proportion|0.031|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.02|0.042||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 0, 4 or 5 based on Final BI-RADS||0.042|0.020|
92345992|NCT02469233|184595275|SUPERIORITY||Time by treatment interaction coeff.|0.16||||0.46|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcome,||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.46
92158612|NCT00058058|184204501|OTHER||Binomial Proportion|0.031|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.021|0.044||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 4 or 5 based on initial MRI and subsequent work-up||0.044|0.021|
92158613|NCT00058058|184204501|OTHER||Binomial Proportion|0.031|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.02|0.042||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 4 or 5 based on initial MRI and subsequent work-up and a completed biopsy procedure||0.042|0.020|
92158614|NCT00058058|184204501|OTHER||Binomial proportion|0.031|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.02|0.042||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 0, 4 or 5 on the initial MRI scan||0.042|0.020|
92158615|NCT00058058|184204501|OTHER||Binomial Proportion|0.032|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.021|0.043||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 0, 3, 4 or 5 on the initial MRI scan||0.043|0.021|
92345993|NCT02469233|184595275|SUPERIORITY||Time by treatment interaction coeff.|-0.34||||0.1|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.10
92345994|NCT02469233|184595276|SUPERIORITY||Time by treatment interaction coeff.|0.91||||0.002|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.002
92345995|NCT02469233|184595276|SUPERIORITY||Time by treatment interaction coeff.|0.64||||0.03|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up.||||0.03
92345996|NCT02469233|184595277|SUPERIORITY||Time by treatment interaction coeff.|24.85||||0.23|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Means of Total sleep time: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.23
92158616|NCT00058058|184204501|OTHER||Binomial Proportion|0.032|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.021|0.043||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 0, 3, 4 or 5 based on initial MRI and subsequent work-up||0.043|0.021|
92158617|NCT00058058|184204502|OTHER||Binomial Proportion|0.9091|STANDARD_ERROR_OF_MEAN|0.05004|||TWO_SIDED|95.0|0.7567|0.9809||||||"Sensitivity estimate - estimates the P(T+\|D+) where the MRI within 90 days of a negative mammogram is the test (T) and cancer in the contralateral breast is the Disease status(D)"||0.9809|0.7567|
92345997|NCT02469233|184595277|SUPERIORITY||Time by treatment interaction coeff.|34.31||||0.09|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Means of total sleep time: Treatment effect on change from pre to 6-month follow-up||||0.09
92158618|NCT00058058|184204502|OTHER||Binomial Proportion|0.8782|STANDARD_ERROR_OF_MEAN|0.0107|||TWO_SIDED|95.0|0.8555|0.8985||||||"Specificity - estimates the P(T-\|D-) of MRI where the MRI within 90 days of a negative mammogram is the test (T) and cancer in the contralateral breast is the Disease status(D)"||0.8985|0.8555|
92158619|NCT00058058|184204502|OTHER||Binomial Proportion|0.2083|STANDARD_ERROR_OF_MEAN|0.0338|||TWO_SIDED|95.0|0.1452|0.2839||||||"PPV estimate - estimates the P(D+\|T+), where the MRI within 90 days of a negative mammogram is the test (T) and cancer in the contralateral breast is the Disease status(D)."||0.2839|0.1452|
92158620|NCT00058058|184204502|OTHER||Binomial Proportion|0.9964|STANDARD_ERROR_OF_MEAN|0.0021|||TWO_SIDED|95.0|0.9894|0.9993||||||"B. NPV Analysis for ALL Cases in Analysis Set NPV estimate - estimates the P(D-\|T-), where the MRI within 90 days of a negative mammogram is the test (T) and cancer in the contralateral breast is the Disease status(D)"||0.9993|0.9894|
92158621|NCT00058058|184204502|OTHER||Binomial Proportion|0.031|STANDARD_ERROR_OF_MEAN|0.00556|||TWO_SIDED|95.0|0.021|0.044||||||B. Diagnostic Yield for ALL Cases in Analysis Set Diagnostic Yield - estimates the likelihood that the MRI within 90 days of a negative mammogram will provide the information needed to establish a diagnosis||0.044|0.021|
92158622|NCT00058058|184204503|OTHER||ROC analysis|0.9355|||||TWO_SIDED|95.0|0.8956|0.9753|||||exact CI|ROC analysis - estimates the accuracy of MRI within 90 days of a negative mammogram to detect cancer in the contralateral breast||0.9753|0.8956|
92158623|NCT00562965|184204521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.19||||0.0358|TWO_SIDED|95.0|0.04|1.02|||Cox proportional hazard regression model|A 2-sided 5% significance level on a stratified Cox proportional hazard regression model was used.|In this regression model, treatment arm was the covariate and the strata (number of prior regimens, investigator's choice of therapy and geographical region) over which participants were stratified prior to randomization were the variables.|To detect a hazard ratio of 0.77 with 85% power using a 2-sided log-rank test at the 5% significance level, it was planned that approximately 978 participants were needed to be randomized but due to premature termination only 29 participants were randomized.||1.02|0.04|0.0358
92158624|NCT00562965|184204522|SUPERIORITY_OR_OTHER|||||||0.0801|TWO_SIDED||||||Fisher Exact|||||||0.0801
92345998|NCT02469233|184595277|SUPERIORITY||Time by treatment interaction coeff.|-19.9||||0.19|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Variability of Total sleep time: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.19
92345999|NCT02469233|184595277|SUPERIORITY||Time by treatment interaction coeff.|-1.76||||0.91|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Variability of Total sleep time: Treatment effect on change from pre to 6-month follow-up||||0.91
92346000|NCT02469233|184595278|SUPERIORITY||Time by treatment interaction coeff.|-39.33||||0.04|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT mean (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.04
92346001|NCT02469233|184595278|SUPERIORITY||Time by treatment interaction coeff.|-28.56||||0.13|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT mean (min): Treatment effect on change from pre to 6-month follow-up.||||0.13
92346002|NCT02469233|184595278|SUPERIORITY||Time by treatment interaction coeff.|-17.57||||0.21|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT variability (min) : Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.21
92346003|NCT02469233|184595278|SUPERIORITY||Time by treatment interaction coeff.|-16.05||||0.25|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT variability (min): Treatment effect on change from pre to 6-month follow-up.||||0.25
92346004|NCT02469233|184595279|SUPERIORITY||Time by treatment interaction coeff.|-0.55||||0.1|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Bedtime (BT) mean: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.10
92346005|NCT02469233|184595279|SUPERIORITY||Time by treatment interaction coeff.|-0.71||||0.04|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||BT mean: Treatment effect on change from pre to 6-month follow-up.||||0.04
92346006|NCT02469233|184595279|SUPERIORITY||Time by treatment interaction coeff.|-0.31||||0.2|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||BT variability: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.20
92346007|NCT02469233|184595279|SUPERIORITY||Time by treatment interaction coeff.|-0.45||||0.07|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||BT variability: Treatment effect on change from pre to 6-month follow-up.||||0.07
92346008|NCT02469233|184595280|SUPERIORITY||Time by treatment interaction coeff.|-0.33||||0.39|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||WT mean: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.39
92346009|NCT02469233|184595280|SUPERIORITY||Time by treatment interaction coeff.|-0.02||||0.96|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||WT mean: Treatment effect on change from pre to 6-month follow-up.||||0.96
92158625|NCT00562965|184204523|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.1727|TWO_SIDED|95.0|0.05|1.81|||Cox proportional hazard regression model|Stratified Cox proportional hazard regression model was utilized.|In this regression model, treatment arm was the covariate and the strata (number of prior regimens, investigator's choice of therapy and geographical region) over which participants were stratified prior to randomization were the variables.|||1.81|0.05|0.1727
92158626|NCT01648283|184204535|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92346010|NCT02469233|184595280|SUPERIORITY||Time by treatment interaction coeff.|-0.39||||0.047|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||WT variability: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.047
92346011|NCT02469233|184595280|SUPERIORITY||Time by treatment interaction coeff.|0.2||||0.3|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||WT variability: Treatment effect on change from pre to 6-month follow-up.||||0.30
92346012|NCT02469233|184595281|SUPERIORITY||Time by treatment interaction coeff.|-4.42||||0.66|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT mean (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.66
92158627|NCT01253200|184204558|NON_INFERIORITY_OR_EQUIVALENCE|The Primary Safety Endpoint was evaluated using a one-sided, non-inferiority test for two binomial proportions at an alpha-level of 0.05. A 95% confidence interval based upon a score test of the difference of proportion of subjects in the Investigational and Control Groups free from a procedure-related complication seven days post-procedure was constructed. The upper bound of the confidence interval was compared to 10%.|Risk Difference (RD)|4.6|||||ONE_SIDED|95.0||9.78||||||Note that analysis of the primary outcome was conducted for Randomized subjects only as prespecified in the study protocol. This is consistent analysis publicly available in the Summary of Safety and Effectiveness Data (SSED).||9.78||
92346013|NCT02469233|184595281|SUPERIORITY||Time by treatment interaction coeff.|-13.34||||0.19|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT mean (min): Treatment effect on change from pre to 6-month follow-up.||||0.19
92158628|NCT02049437|184204562|SUPERIORITY||Risk Ratio (RR)|4.43||||0.07|TWO_SIDED|95.0|0.9|21.83|||Mixed Models Analysis|||||21.83|0.90|0.07
92346014|NCT02469233|184595281|SUPERIORITY||Time by treatment interaction coeff.|-0.05||||0.77|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT variability (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.77
92346015|NCT02469233|184595281|SUPERIORITY||Time by treatment interaction coeff.|-0.22||||0.2|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT variability (min): Treatment effect on change from pre to 6-month follow-up.||||0.20
92346016|NCT00855582|184595313|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|0.58|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0271 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346017|NCT00855582|184595314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|0.66|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0271 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346018|NCT00855582|184595315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.59||0.181||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0271 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.181
92346019|NCT00855582|184595316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4|STANDARD_ERROR_OF_MEAN|0.67|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0271 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346020|NCT00855582|184595317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.7|STANDARD_ERROR_OF_MEAN|2.8|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0228 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346021|NCT00855582|184595318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.26|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0228 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92158629|NCT02049437|184204563|SUPERIORITY||Mean Difference (Final Values)|-2036.8|||<|0.001|TWO_SIDED|95.0|-3490.32|-900.62|||Wilcoxon (Mann-Whitney)|||||-900.62|-3490.32|<0.001
92158630|NCT02049437|184204564|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.77|TWO_SIDED|95.0|-0.79|0.65|||Wilcoxon (Mann-Whitney)|||||0.65|-0.79|0.77
92158631|NCT01163149|184204568|SUPERIORITY|If p-values were less than 0.05 and the Hodges-Lehman-Sen estimate favored asfotase alfa (eg, it had a negative sign indicating the between-group differences in change from Baseline favored treated patients), then superiority over control was claimed.|Hodges-Lehman-Sen|-302.05||||0.0285|TWO_SIDED|95.0|-626.4|-59.2||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||PLP Change from Baseline to Week 24||-59.20|-626.40|0.0285
92158632|NCT01163149|184204569|SUPERIORITY|If p-values were less than 0.05 and the Hodges-Lehman-Sen estimate favored asfotase alfa (eg, it had a negative sign indicating the between-group differences in change from Baseline favored treated patients), then superiority over control was claimed.|Hodges-Lehman-Sen|-1.825||||0.0715|TWO_SIDED|95.0|-3.21|0.23||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum||Estimate and exact confidence interval are from Hodges-Lehmann-Sen method for location shift in distribution between the treatment group and the control group.|PPi Change from Baseline to Week 24||0.230|-3.210|0.0715
92158633|NCT01163149|184204571|SUPERIORITY||Hodges-Lehmann-Sen|-0.91||||0.3301|TWO_SIDED|95.0|-3.32|1.78||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Hip Total BMC Change from Baseline to Week 24||1.780|-3.320|0.3301
92158634|NCT01163149|184204571|SUPERIORITY||Hodges-Lehmann-Sen|1.33||||0.3827|TWO_SIDED|95.0|-1.36|3.12||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Lumbar Spine BMC Change from Baseline to Week 24||3.120|-1.360|0.3827
92158635|NCT01163149|184204571|SUPERIORITY||Hodges-Lehmann-Sen|-77.1||||0.0485|TWO_SIDED|95.0|-917.44|-1.74||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Whole Body BMC Change from Baseline to Week 24||-1.740|-917.440|0.0485
92158636|NCT01163149|184204572|SUPERIORITY||Hodges-Lehmann-Sen|-0.0125||||0.7357|TWO_SIDED|95.0|-0.04|0.039||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Hip Total Change from Baseline to Week 24||0.0390|-0.0400|0.7357
92158637|NCT01163149|184204572|SUPERIORITY||Hodges-Lehmann-Sen|0.0255||||0.2439|TWO_SIDED|95.0|-0.009|0.041||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Lumbar Spine BMD Change from Baseline to Week 24||0.0410|-0.0090|0.2439
92158638|NCT01163149|184204572|SUPERIORITY||Hodges-Lehmann-Sen|-0.0315||||0.1222|TWO_SIDED|95.0|-0.059|0.012||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Whole Body BMD Change from Baseline to Week 24||0.0120|-0.0590|0.1222
92158639|NCT01163149|184204573|SUPERIORITY||Hodges-Lehmann-Sen|44.0||||0.1303|TWO_SIDED|95.0|-73.0|114.0||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum||Estimate and exact confidence interval are from Hodges-Lehmann-Sen method for location shift in distribution between the treatment group and the control group|Week 24 Change from Baseline||114.0|-73.0|0.1303
92346022|NCT00855582|184595319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|STANDARD_ERROR_OF_MEAN|2.85|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. Based on the results of prior tests under this procedure, the statistical significance of this hypothesis was not assessed.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346023|NCT00855582|184595320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.26||0.156||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. Based on the results of prior tests under this procedure, the statistical significance of this hypothesis was not assessed.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.156
92346024|NCT00855582|184595321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.51||0.226||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.226
92346025|NCT00855582|184595321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.5|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346026|NCT00855582|184595322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.53||0.121||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.121
92346027|NCT00855582|184595322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.57||0.169||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.169
92346028|NCT00855582|184595322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|0.52|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346029|NCT00855582|184595322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|0.56|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346030|NCT00855582|184595323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|0.6|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346031|NCT00855582|184595323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|0.71|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346032|NCT00855582|184595323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|0.59|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92158640|NCT01700530|184204577|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92158641|NCT00916006|184204611|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92158642|NCT00916006|184204612|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92158643|NCT03419780|184204613|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92158644|NCT03419780|184204614|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
92158645|NCT03419780|184204615|SUPERIORITY|||||||0.89|||||||Chi-squared|||||||0.89
92158646|NCT03419780|184204616|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
92158647|NCT03419780|184204617|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92158648|NCT03419780|184204618|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
92158649|NCT03419780|184204619|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
92158650|NCT01072929|184204627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.0097|TWO_SIDED|95.0|-6.58|-0.92||All statistical tests were 2-tailed at the 0.05 level of significance.|mixed-model repeated measures (MMRM)|Treatment, visit, treatment-by-visit interaction, concurrent mood-stabilizing medication, and region of the world used as fixed factors.||||-0.92|-6.58|0.0097
92218121|NCT01360554|184336999|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-0.4924|||||TWO_SIDED|95.0|-2.485|1.5|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Nausea and Vomiting. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.500|-2.485|
92218122|NCT01360554|184336999|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|0.3096|||||TWO_SIDED|95.0|-2.646|3.265|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Pain. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||3.265|-2.646|
92218123|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|2.6381||||||95.0|0.172|5.104|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Trouble Swallowing as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||5.104|0.172|
92218124|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-4.2504||||||95.0|-7.178|-1.322|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Coughing as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||-1.322|-7.178|
92218125|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model|-1.0764||||||95.0|-3.997|1.845|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Haemoptysis as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.845|-3.997|
92218126|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|9.3545||||||95.0|6.211|12.497|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Sore Mouth as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||12.497|6.211|
92218127|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.1762||||||95.0|-3.56|1.208|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Shortness of Breath as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.208|-3.560|
92275235|NCT00434161|184452566|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.242||||0.468|TWO_SIDED|97.5|0.635|2.431||A 2.5% type I error rate for each comparison gives an overall type I error rate of 5%.|Proportional odds model|The proportional odds model including the randomization factors as covariates was used for the primary endpoint, maximum severity of OM.|The odds ratio was defined to be the odds of a subject receiving placebo experiencing OM divided by the odds of a subject receiving palifermin developing OM.|The null hypothesis was that the severity distribution for OM was identical for the placebo and each of the two palifermin groups, and the alternative hypothesis was that palifermin resulted in a shift in the distribution to less severe mucositis than placebo. A total of 275 subjects would give at least 95% power, with a 2.5% type I error rate for each comparison to detect an odds ratio of at least 3.5 between the placebo group and each of the two palifermin groups.||2.431|0.635|0.468
92275236|NCT00434161|184452567|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.262||||0.245|TWO_SIDED|97.5|-4.303|30.828||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|Cochran-Mantel-Haenszel|||||30.828|-4.303|0.245
92275237|NCT00434161|184452567|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.014||||0.806|TWO_SIDED|97.5|-20.519|16.491||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|Cochran-Mantel-Haenszel|||||16.491|-20.519|0.806
92275238|NCT00434161|184452568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.409|STANDARD_DEVIATION|6.82||0.095|TWO_SIDED|97.5|0.07|4.748||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|van Elteren test|||A type I error rate was protected by using the Hochberg procedure to adjust for multiple testing. Palifermin was not to be declared to be statistically superior to placebo with respect to secondary efficacy endpoints unless the primary endpoint was statistically significant in favor of palifermin.||4.748|0.070|0.095
92218128|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-0.6378||||||95.0|-3.684|2.408|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Peripheral Neuropathy as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||2.408|-3.684|
92346033|NCT00855582|184595323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|0.71|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346034|NCT00855582|184595324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|3.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346035|NCT00855582|184595324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.0|STANDARD_ERROR_OF_MEAN|3.0|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346036|NCT00855582|184595324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.5|STANDARD_ERROR_OF_MEAN|3.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346037|NCT00855582|184595324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.9|STANDARD_ERROR_OF_MEAN|2.9|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346038|NCT00855582|184595325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.22||0.215||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.215
92346039|NCT00855582|184595325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.325||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.325
92346040|NCT00855582|184595325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346041|NCT00855582|184595325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.23||0.011||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.011
92158651|NCT01072929|184204627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.0385|TWO_SIDED|95.0|-5.71|-0.16||All statistical tests were 2-tailed at the 0.05 level of significance.|mixed-model repeated measures (MMRM)|Treatment, visit, treatment-by-visit interaction, concurrent mood-stabilizing medication, and region of the world used as fixed factors.||||-0.16|-5.71|0.0385
92158652|NCT04833855|184204650|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|2.2||0.99|TWO_SIDED|95.0|-4.3|4.4||Nominal p-value|Repeated measure model|Model parameters: stratification factor (prior anti-IgE status), baseline UAS7, treatment, study week, interaction between treatment and study week.|Tezepelumab 210 mg SC Q4W - Placebo|||4.4|-4.3|0.99
92158653|NCT04833855|184204650|SUPERIORITY||LSM difference|-1.1|STANDARD_ERROR_OF_MEAN|2.2||0.6|TWO_SIDED|95.0|-5.4|3.1||Nominal p-value|Repeated measure model|Model parameters: stratification factor (prior anti-IgE status), baseline UAS7, treatment, study week, interaction between treatment and study week.|Tezepelumab 420 mg SC Q2W - Placebo|||3.1|-5.4|0.60
92158654|NCT02806336|184204675|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||change in combined groups||||0.03
92158655|NCT02806336|184204676|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||||||0.34
92158656|NCT02806336|184204677|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||||||0.78
92158657|NCT02806336|184204678|SUPERIORITY|||||||0.03||||||change in functional gait analysis (FGA) in combined groups compared to baseline|t-test, 2 sided|||||||0.03
92158658|NCT02806336|184204679|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
92158659|NCT02806336|184204680|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||.17
92158660|NCT02806336|184204680|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
92158661|NCT02806336|184204681|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
92158662|NCT03682536|184204682|SUPERIORITY||Odds Ratio (OR)|3.1|||<|0.0001|TWO_SIDED|95.0|2.0|4.8|||Cochran-Mantel-Haenszel|||||4.8|2.0|<.0001
92158663|NCT03682536|184204683|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0003|TWO_SIDED|95.0|1.4|3.7|||Cochran-Mantel-Haenszel|||||3.7|1.4|0.0003
92158664|NCT03682536|184204685|SUPERIORITY||Odds Ratio (OR)|2.8|||<|0.0001|TWO_SIDED|95.0|1.8|4.5|||Cochran-Mantel-Haenszel|||||4.5|1.8|<.0001
92158665|NCT03682536|184204687|SUPERIORITY||Odds Ratio (OR)|2.5|||<|0.0001|TWO_SIDED|95.0|1.6|4.0|||Cochran-Mantel-Haenszel|||||4.0|1.6|<.0001
92158666|NCT03682536|184204688|SUPERIORITY||Hazard Ratio (HR)|0.534||||0.0096|TWO_SIDED|95.0|0.33|0.864|||Log Rank||Calculated by Cox proportional hazard model|||0.864|0.330|0.0096
92158667|NCT03682536|184204692|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0007|TWO_SIDED|95.0|1.4|3.8|||Cochran-Mantel-Haenszel|||||3.8|1.4|0.0007
92346042|NCT00855582|184595326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.23||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.230
92346043|NCT00855582|184595326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.37|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346044|NCT00855582|184595327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.191||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.191
92346045|NCT00855582|184595327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.3|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346046|NCT00855582|184595328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.763||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.763
92158668|NCT03682536|184204693|SUPERIORITY||Odds Ratio (OR)|2.6|||<|0.0001|TWO_SIDED|95.0|1.6|4.3|||Cochran-Mantel-Haenszel|||||4.3|1.6|<.0001
92158669|NCT04824131|184204704|OTHER||Exact CI for Proportions|0.0|||||TWO_SIDED|95.0|0.0|6.7|||||||Exact 95% Confidence Interval for Proportion for Participants who Discontinued Early due to Intolerability of Injection or Burden of Study Procedures|6.7|0|
92158670|NCT04824131|184204705|OTHER||Exact CI for Proportions|61.5|||||TWO_SIDED|95.0|47.0|74.7|||||||Exact 95% confidence interval for proportion for Participants who received at least one injection and preferred injectable PrEP at end of step 2.|74.7|47.0|
92158671|NCT04824131|184204708|OTHER||Exact CI for Proportions|94.3|||||TWO_SIDED|95.0|84.3|98.8|||||||The Exact 95% Confidence Interval for Proportion for Number of Participants with Grade 2 or above AEs during Injection Phase|98.8|84.3|
92158672|NCT04824131|184204709|OTHER||Exact CI for Proportions|100.0|||||TWO_SIDED|95.0|93.3|100.0|||||||Exact 95% Confidence Interval for Proportion for Participants who received at least one Injection who Completed All Scheduled Injections|100|93.3|
92158673|NCT04824131|184204710|OTHER||Mean Difference (Final Values)|-0.2728|STANDARD_ERROR_OF_MEAN|0.1704||0.1093|TWO_SIDED|95.0|-0.61|0.06||"GEE for Change in Sexual Behavior - Number of Sexual Partners - Visit as Continuous Variable.~Difference from baselines in the number of sex partners (vaginal or anal sex) reported in the past month"|poisson model||"GEE for Change in Sexual Behavior - Number of Sexual Partners - Visit as Continuous Variable.~Difference from baselines in the number of sex partners (vaginal or anal sex) reported in the past month"|Generalized estimating equations (GEE) with robust variance to model change in self-reported sexual behavior from enrollment (W0) to follow up visits (W4, W5, W9, W17, W25, W33, W+12, W+24, W+36, W+48), with an indicator variable for all on-study visits (i.e. enrollment visit = 0) to measure change in the outcome behavior. We will model count outcomes (number of sexual partners) using a poisson model.||0.06|-0.61|0.1093
92158674|NCT04824131|184204711|OTHER||Mean Difference (Final Values)|-0.5859|STANDARD_ERROR_OF_MEAN|0.2253||0.0093|TWO_SIDED|95.0|-1.03|-0.14||GEE for Change in Sexual Behavior - Number of Episodes of Vaginal Sex without a Condom - Visit as Continuous Variable. Difference from baselines in the number of vaginal sex without a condom reported in the past month|poisson model||GEE for Change in Sexual Behavior - Number of Episodes of Vaginal Sex without a Condom - Visit as Continuous Variable. Difference from baselines in the number of vaginal sex without a condom reported in the past month.|Generalized estimating equations (GEE) with robust variance to model change in self-reported sexual behavior from enrollment (W0) to follow up visits (W4, W5, W9, W17, W25, W33, W+12, W+24, W+36, W+48), with an indicator variable for all on-study visits (i.e. enrollment visit = 0) to measure change in the outcome behavior. We will model count outcomes (number of episodes of vaginal sex without a condom) using a poisson model.||-0.14|-1.03|0.0093
92158675|NCT04824131|184204711|OTHER||Mean Difference (Final Values)|-0.3087|STANDARD_ERROR_OF_MEAN|1.4036||0.8259|TWO_SIDED|95.0|-3.06|2.44||GEE for Change in Sexual Behavior - Number of Episodes of Anal Sex without a Condom - Visit as Continuous Variable. Difference from baselines in the number of anal sex without a condom reported in the past month|Regression, Logistic||GEE for Change in Sexual Behavior - Number of Episodes of Anal Sex without a Condom - Visit as Continuous Variable. Difference from baselines in the number of anal sex without a condom reported in the past month|Generalized estimating equations (GEE) with robust variance to model change in self-reported sexual behavior from enrollment (W0) to follow up visits (W4, W5, W9, W17, W25, W33, W+12, W+24, W+36, W+48), with an indicator variable for all on-study visits (i.e. enrollment visit = 0) to measure change in the outcome behavior. We will model binary outcomes (any episodes of anal sex without a condom) using a logistic model.||2.44|-3.06|0.8259
92158676|NCT04824131|184204712|OTHER||CI for Incidence rate, exact Poisson|0.0|||||TWO_SIDED|95.0|0.0|10.8|||||Person-years: 34.0||Incidence rate is calculated HIV infections per 100 person years. CI for Incidence rate is calculated using exact Poisson method|10.8|0.0|
92158677|NCT03643965|184204713|OTHER|Ratio of UPCR at 9 months compared to baseline for Nefecon compared to Placebo|Ratio of geometric LS means|0.73||||0.0003|TWO_SIDED|96.0|0.61|0.88|||MMRM model|||||0.88|0.61|0.0003
92158678|NCT03643965|184204714|OTHER|Time-weighted average of eGFR, Nefecon compared to Placebo|Ratio of geometric LS means|1.1|||<|0.0001|TWO_SIDED|95.0|1.06|1.15|||robust regression|||||1.15|1.06|<0.0001
92218129|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.3637||||||95.0|-4.546|1.819|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Alopecia as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.819|-4.546|
92218130|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.2163||||||95.0|-3.885|1.452|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Pain in Chest as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.452|-3.885|
92158679|NCT03643965|184204715|OTHER|Ratio of eGFR at 9 months comparison of Nefecon to Placebo|Ratio of geometric LS means|1.07||||0.0014|TWO_SIDED|95.0|1.03|1.13|||robust regression|||||1.13|1.03|0.0014
92158680|NCT03643965|184204716|OTHER|Ratio of eGFR at 12 months comparison of Nefecon to Placebo|Ratio of geometric LS means|1.07||||0.0106|TWO_SIDED|95.0|1.01|1.13|||robust regression|||||1.13|1.01|0.0106
92158681|NCT03643965|184204717|OTHER|Ratio of UACR at 9 months comparison of Nefecon to Placebo|Ratio of geometric LS means|0.69||||0.0005|TWO_SIDED|95.0|0.55|0.86|||MMRM model|||||0.86|0.55|0.0005
92158682|NCT03643965|184204718|OTHER|Time to 30% reduction in eGFR comparison Nefecon to Placebo|Hazard Ratio (HR)|0.45||||0.0028|TWO_SIDED|95.0|0.26|0.75|||Cox proportional hazards model|Cox proportional hazards model with individual patient censoring weighting.||||0.75|0.26|0.0028
92158683|NCT03643965|184204719|OTHER|Time to receiving rescue medication comparison Nefecon to Placebo|Hazard Ratio (HR)|0.68||||0.2647|TWO_SIDED|95.0|0.34|1.33|||Cox proportional hazards model|||||1.33|0.34|0.2647
92158684|NCT03643965|184204720|OTHER|Ratio of UPCR compared to baseline averaged over time points between 12 and 24 months, comparison Nefecon vs Placebo|Ratio of geometric LS means|0.59|||<|0.0001|TWO_SIDED|95.0|0.51|0.68|||MMRM model|||||0.68|0.51|<0.0001
92158685|NCT03643965|184204721|OTHER|Ratio of UACR compared to baseline averaged over time points between 12 and 24 months, Nefecon vs Placebo|Ratio of geometric LS means|0.54|||<|0.0001|TWO_SIDED|95.0|0.45|0.63|||MMRM model|||||0.63|0.45|<0.0001
92158686|NCT03643965|184204722|OTHER|Ratio of eGFR compared to baseline averaged over time points between 12 and 24 months, comparison Nefecon vs Placebo|Ratio of geometric LS means|1.11|||<|0.0001|TWO_SIDED|95.0|1.06|1.16|||robust regression|||||1.16|1.06|<0.0001
92158687|NCT03643965|184204723|OTHER|Proportion of patients without microhematuria, comparison Nefecon vs Placebo|Odds Ratio (OR)|2.5||||0.0001|TWO_SIDED|95.0|1.6|4.1|||Regression, Logistic|||||4.1|1.6|0.0001
92158688|NCT02084082|184204753|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|100.37|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|90.0|96.562|104.326|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||104.326|96.562|<0.0001
92158689|NCT02084082|184204753|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio (net)|94.7|STANDARD_ERROR_OF_MEAN|1.037||0.0004|TWO_SIDED|90.0|88.712|101.089|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000 Fed/ L+M 1000 Fed)|||101.089|88.712|0.0004
92158690|NCT02084082|184204754|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|108.09|STANDARD_ERROR_OF_MEAN|1.054||0.0038|TWO_SIDED|90.0|99.022|117.989|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||117.989|99.022|0.0038
92158691|NCT02084082|184204754|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|98.24|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|90.0|94.067|102.597|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fed / L+M 1000 fed)|||102.597|94.067|<0.0001
92158692|NCT02084082|184204755|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|99.99|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|93.03|107.47|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||107.47|93.03|<0.0001
92158693|NCT02084082|184204755|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|96.95|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|92.24|101.89|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fed / L+M 1000 fed)|||101.89|92.24|<0.0001
92275239|NCT00434161|184452568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.213|STANDARD_DEVIATION|6.13||0.806|TWO_SIDED|97.5|-2.575|2.15||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|van Elteren test|||||2.150|-2.575|0.806
92218131|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.1475||||||95.0|-3.902|1.607|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Pain in Arm or Shoulder as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.607|-3.902|
92218132|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.0687||||||95.0|-4.488|2.351|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Pain Other Parts as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||2.351|-4.488|
92158694|NCT02084082|184204756|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|99.77|STANDARD_ERROR_OF_MEAN|1.046|<|0.0001|TWO_SIDED|90.0|92.464|107.645|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||107.645|92.464|<0.0001
92158695|NCT02084082|184204756|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|98.97|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|90.0|94.95|103.16|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fed / L+M 1000 fed)|||103.160|94.950|<0.0001
92158696|NCT02084082|184204757|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|99.72|STANDARD_ERROR_OF_MEAN|1.028|<|0.0001|TWO_SIDED|90.0|95.163|104.493|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||104.493|95.163|<0.0001
92158697|NCT02084082|184204757|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|97.36|STANDARD_ERROR_OF_MEAN|1.132||0.0778|TWO_SIDED|90.0|77.082|122.963|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fed / L+M 1000 fed)|||122.963|77.082|0.0778
92158698|NCT02084082|184204758|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|99.11|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|92.37|106.35|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||106.35|92.37|<0.0001
92158699|NCT02084082|184204758|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|98.18|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|93.34|103.27|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fed / L+M 1000 fed)|||103.27|93.34|<0.0001
92158700|NCT04736056|184204791|OTHER||Cohen's d effect size|1.2|||||TWO_SIDED|95.0|0.73|1.66||||||0 to 12 weeks||1.66|0.73|
92158701|NCT04736056|184204791|OTHER||Cohen's d effect size|1.07|||||TWO_SIDED|95.0|0.61|1.51||||||0 to 16 weeks||1.51|0.61|
92218133|NCT01360554|184337000|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|0.0322||||||95.0|-4.847|4.911|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Any Med for Pain as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||4.911|-4.847|
92158702|NCT04736056|184204792|OTHER||Cohen's d effect size|0.35|||||TWO_SIDED|95.0|-0.02|0.71||||||0 to 12 weeks||0.71|-0.02|
92158703|NCT04736056|184204792|OTHER||Cohen's d effect size|0.25|||||TWO_SIDED|95.0|-0.12|0.61||||||0 to 16 weeks||0.61|-0.12|
92158704|NCT04736056|184204793|OTHER||Cohen's d effect size|0.78|||||TWO_SIDED|95.0|0.38|1.18||||||0 to 12 weeks||1.18|0.38|
92158705|NCT04736056|184204793|OTHER||Cohen's d effect size|0.5|||||TWO_SIDED|95.0|0.11|0.87||||||0 to 16 weeks||0.87|0.11|
92158706|NCT04736056|184204794|OTHER||Cohen's d effect size|0.23|||||TWO_SIDED|95.0|-0.13|0.58||||||0 to 12 weeks||0.58|-0.13|
92158707|NCT04736056|184204794|OTHER||Cohen's d effect size|0.31|||||TWO_SIDED|95.0|-0.05|0.68||||||0 to 16 weeks||0.68|-0.05|
92158708|NCT04736056|184204795|OTHER||Cohen's d effect size|0.32|||||TWO_SIDED|95.0|-0.04|0.68||||||0 to 12 weeks||0.68|-0.04|
92158709|NCT04736056|184204795|OTHER||Cohen's d effect size|0.61|||||TWO_SIDED|95.0|0.22|1.0||||||0 to 16 weeks||1.00|0.22|
92158710|NCT04736056|184204796|OTHER||Cohen's d effect size|0.38|||||TWO_SIDED|95.0|0.01|0.74||||||0 to 12 weeks||0.74|0.01|
92158711|NCT04736056|184204796|OTHER||Cohen's d effect size|0.47|||||TWO_SIDED|95.0|0.09|0.85||||||0 to 16 weeks||0.85|0.09|
92158712|NCT04736056|184204797|OTHER||Cohen's d effect size|0.29|||||TWO_SIDED|95.0|-0.07|0.65||||||0 to 12 weeks||0.65|-0.07|
92158713|NCT04736056|184204797|OTHER||Cohen's d effect size|0.6|||||TWO_SIDED|95.0|0.21|0.99||||||||0.99|0.21|
92158714|NCT04736056|184204798|OTHER||Cohen's d effect size|0.54|||||TWO_SIDED|95.0|0.16|0.91||||||0 to 12 weeks||0.91|0.16|
92158715|NCT04736056|184204798|OTHER||Cohen's d effect size|0.51|||||TWO_SIDED|95.0|0.12|0.89||||||0 to 16 weeks||0.89|0.12|
92158716|NCT04736056|184204799|OTHER||Cohen's d effect size|0.89|||||TWO_SIDED|95.0|0.47|1.3||||||0 to 12 weeks||1.30|0.47|
92158717|NCT04736056|184204799|OTHER||Cohen's d effect size|0.66|||||TWO_SIDED|95.0|0.26|1.05||||||0 to 16 weeks||1.05|0.26|
92346047|NCT00855582|184595328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.075||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.075
92346048|NCT00855582|184595329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.384||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.384
92346049|NCT00855582|184595329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.082||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.082
92346050|NCT00855582|184595330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346051|NCT00855582|184595330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346052|NCT00855582|184595331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.3|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92158718|NCT04736056|184204800|OTHER||Cohen's d effect size|-0.4|||||TWO_SIDED|95.0|-0.76|-0.03||||||0 to 12 weeks||-0.03|-0.76|
92158719|NCT04736056|184204800|OTHER||Cohen's d effect size|-0.34|||||TWO_SIDED|95.0|-0.71|0.03||||||0 to 16 weeks||0.03|-0.71|
92158720|NCT04736056|184204801|OTHER||Cohen's d effect size|0.0|||||TWO_SIDED|95.0|-0.35|0.35||||||0 to 12 weeks||0.35|-0.35|
92158721|NCT04736056|184204801|OTHER||Cohen's d effect size|-0.28|||||TWO_SIDED|95.0|-0.64|0.09||||||0 to 16 weeks||0.09|-0.64|
92158722|NCT04736056|184204802|OTHER||Cohen's d effect size|0.1|||||TWO_SIDED|95.0|-0.45|0.26||||||||0.26|-0.45|
92158723|NCT04736056|184204802|OTHER||Cohen's d effect size|0.09|||||TWO_SIDED|95.0|-0.27|0.45||||||0 to 16 weeks||0.45|-0.27|
92218134|NCT01360554|184337001|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-0.3886||||||95.0|-2.413|1.636|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for EQ-5D VAS. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.636|-2.413|
92158724|NCT04736056|184204803|OTHER||Cohen's d effect size|-0.035|||||TWO_SIDED|95.0|-0.71|0.01||||||0 to 12 weeks||0.01|-0.71|
92158725|NCT04736056|184204803|OTHER||Cohen's d effect size|-0.29|||||TWO_SIDED|95.0|-0.65|0.08||||||0 to 16 weeks||0.08|-0.65|
92158726|NCT04736056|184204804|OTHER||Cohen's d effect size|-0.34|||||TWO_SIDED|95.0|-0.7|0.03||||||0 to 12 weeks||0.03|-0.70|
92158727|NCT04736056|184204804|OTHER||Cohen's d effect size|-0.47|||||TWO_SIDED|95.0|-0.85|-0.09||||||0 to 16 weeks||-0.09|-0.85|
92158728|NCT05302791|184204818|SUPERIORITY|||||||0.609|||||||ANOVA|time x condition ANOVA||||||.609
92346053|NCT00855582|184595331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.3|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346054|NCT00855582|184595332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346055|NCT00855582|184595332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346056|NCT00855582|184595333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346057|NCT00855582|184595333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346058|NCT00855582|184595334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.1|STANDARD_ERROR_OF_MEAN|2.4|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346059|NCT00855582|184595334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.8|STANDARD_ERROR_OF_MEAN|2.4|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92218135|NCT00674583|184337002|NON_INFERIORITY|Criterion for non-inferiority evaluation: The lower limit (LL) of the two-sided standardized asymptotic 95% CI for the group difference (Nimenrix Group minus Menjugate Group) in the percentages of subjects with vaccine response to rSBA-MenC is greater than or equal to (≥) the pre-defined clinical limit of -10%.|Difference in percentage|-0.88|||||TWO_SIDED|95.0|-5.25|5.75||||||To demonstrate the non-inferiority of the Nimenrix group compared to the Menjugate group, two-sided standardized asymptotic 95% confidence interval (CI) for the groups difference \[Nimenrix group minus Menjugate group\] in the percentages of subjects with bactericidal vaccine response to MenC was computed.||5.75|-5.25|
92218136|NCT01131676|184337016|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was chosen as 1.3 based on Food and Drug Administration (FDA) Guidance for Industry - Diabetes Mellitus - Evaluating Cardiovascular Risk in New Antidiabetic Therapies to Treat Type 2 Diabetes|Hazard Ratio (HR)|0.86|||<|0.0001|TWO_SIDED|95.02|0.74|0.99||One-sided test with alpha = 0.0249|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|Primary objective was to establish the non-inferiority of All empagliflozin relative to placebo for time to first 3-point MACE. A 4-step hierarchical testing strategy was followed for the non-inferiority test of the primary endpoint and then the key secondary endpoint, each at a margin of 1.3, followed by test of superiority of primary and key secondary endpoints.||0.99|0.74|<0.0001
92218137|NCT01131676|184337016|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.0382|TWO_SIDED|95.02|0.74|0.99||Two-sided test with alpha=0.0498|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||0.99|0.74|0.0382
92218138|NCT01131676|184337017|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was chosen as 1.3 based on Food and Drug Administration (FDA) Guidance for Industry - Diabetes Mellitus - Evaluating Cardiovascular Risk in New Antidiabetic Therapies to Treat Type 2 Diabetes|Hazard Ratio (HR)|0.89|||<|0.0001|TWO_SIDED|95.02|0.78|1.01||One-sided test with alpha = 0.0249|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|A 4-step hierarchical testing strategy was followed for the non-inferiority test of the primary endpoint and then the key secondary endpoint, each at a margin of 1.3, followed by test of superiority of primary and key secondary endpoints.||1.01|0.78|<0.0001
92218139|NCT01131676|184337017|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.0795|TWO_SIDED|95.02|0.78|1.01||Two-sided test with alpha=0.0498|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|A 4-step hierarchical testing strategy was followed for the non-inferiority test of the primary endpoint and then the key secondary endpoint, each at a margin of 1.3, followed by test of superiority of primary and key secondary endpoints.||1.01|0.78|0.0795
92218140|NCT01131676|184337018|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.28||||0.4172|TWO_SIDED|95.0|0.7|2.33||Two-sided test with alpha = 0.05.|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||2.33|0.70|0.4172
92218141|NCT01131676|184337019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.0017|TWO_SIDED|95.0|0.5|0.85||Two-sided test with alpha = 0.05.|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||0.85|0.50|0.0017
92158729|NCT05302791|184204819|SUPERIORITY|||||||0.858|||||||ANOVA|time x condition anova||||||.858
92158730|NCT05302791|184204820|SUPERIORITY|||||||0.633|||||||ANOVA|||||||.633
92158731|NCT05302791|184204821|SUPERIORITY|||||||0.076|||||||ANOVA|||||||.076
92158732|NCT05302791|184204822|SUPERIORITY|||||||0.151|||||||ANOVA|||||||.151
92158733|NCT05302791|184204823|SUPERIORITY|||||||0.385|||||||ANOVA|||||||.385
92158734|NCT05302791|184204824|SUPERIORITY|||||||0.665|||||||ANOVA|||||||.665
92158735|NCT05302791|184204825|SUPERIORITY|||||||0.078|||||||ANOVA|||||||.078
92218142|NCT01131676|184337020|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.2547|TWO_SIDED|95.0|0.87|1.04||Two-sided test with alpha = 0.05.|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||1.04|0.87|0.2547
92218143|NCT01131676|184337021|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.54|0.72||Two-sided test with alpha = 0.05.|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||0.72|0.54|<0.0001
92218144|NCT01131676|184337022|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.54|0.7||Two-sided test with alpha = 0.05.|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||0.70|0.54|<0.0001
92218145|NCT01286454|184337028|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|111.23|||||TWO_SIDED|90.0|102.69|120.47||||||Natural log transformed AUC (0 - ∞) of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg IR-BIC Fasted was test.||120.47|102.69|
92158736|NCT05302791|184204826|SUPERIORITY|||||||0.773|||||||ANOVA|||||||.773
92158737|NCT05302791|184204827|SUPERIORITY|||||||0.118|||||||ANOVA|||||||.118
92158738|NCT05302791|184204828|SUPERIORITY||||||<|0.001|||||||ANOVA|Time x condition ANOVA||||||<0.001
92158739|NCT05302791|184204829|SUPERIORITY||||||<|0.001|||||||ANOVA|time x condition anova||||||<0.001
92158740|NCT03552978|184204830|SUPERIORITY||Odds Ratio (OR)|11.6|||<|0.001|TWO_SIDED||||||t-test, 2 sided|df - 63||||||<.001
92158741|NCT03552978|184204831|SUPERIORITY||Mean Difference (Final Values)|3.57|||<|0.001|TWO_SIDED||||||t-test, 2 sided|df = 59||||||<.001
92346060|NCT00855582|184595335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.9|STANDARD_ERROR_OF_MEAN|3.6|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346061|NCT00855582|184595335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.7|STANDARD_ERROR_OF_MEAN|3.6|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346062|NCT00855582|184595336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.8|STANDARD_ERROR_OF_MEAN|3.6|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346063|NCT00855582|184595336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.4|STANDARD_ERROR_OF_MEAN|3.6|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
92346064|NCT00855582|184595337|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for baseline LUTS severity.||||||<0.001
92346065|NCT00855582|184595337|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for baseline LUTS severity.||||||<0.001
92346066|NCT00855582|184595338|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for baseline LUTS severity.||||||0.006
92346067|NCT00855582|184595338|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for baseline LUTS severity.||||||<0.001
92346068|NCT00855582|184595339|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for Question 1.|Regression, Logistic|Logistic regression model includes terms for treatment group, region and centered-baseline IIEF EF Domain score.||||||<0.001
92346069|NCT00855582|184595339|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for Question 2.|Regression, Logistic|Logistic regression model includes terms for treatment group, region and centered-baseline IIEF EF Domain score.||||||<0.001
92346070|NCT00855582|184595339|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for Question 1.|Regression, Logistic|Logistic regression model includes terms for treatment group, region and centered-baseline IIEF EF Domain score.||||||<0.001
92346071|NCT00855582|184595339|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for Question 2.|Regression, Logistic|Logistic regression model includes terms for treatment group, region and centered-baseline IIEF EF Domain score.||||||<0.001
92346072|NCT00855582|184595340|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Ranked ANOVA|||||||0.027
92346073|NCT00855582|184595340|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Ranked ANOVA|||||||0.186
92158742|NCT03552978|184204835|SUPERIORITY||Mean Difference (Final Values)|90.28||||0.39|TWO_SIDED||||||Mixed Models Analysis|df = 3, 152.11||We examined total Cigarettes smoked in the past 30 days using linear mixed models to account for non-independence (longitudinal data) and missing data. The null hypothesis was that the time by treatment group interaction would equal zero, indicating no difference in the change in cigarette use over time by treatment group.||||.39
92158743|NCT03552978|184204836|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.91|TWO_SIDED||||||Mixed Models Analysis|df = 3, 140.87||We examined days of e-cigarette use in the previous 30 days using linear mixed models to account for non-independence (longitudinal data) and missing data. The null hypothesis was that the time by treatment group interaction would equal zero, indicating no difference in the change in e-cigarette use over time by treatment group.||||.91
92158744|NCT03552978|184204837|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.66|TWO_SIDED||||||Mixed Models Analysis|df = 3,199||We examined days of chewing tobacco use in the previous 30 days using linear mixed models to account for non-independence (longitudinal data) and missing data. The null hypothesis was that the time by treatment group interaction would equal zero, indicating no difference in the change in chewing tobacco use over time by treatment group.||||.66
92346074|NCT03813654|184595343|OTHER|Mixed model analysis with post-hoc tests.|Mean Difference (Final Values)|90.0|STANDARD_DEVIATION|68.7|<|0.05|TWO_SIDED|||||A priori threshold was \<0.05.|Mixed Models Analysis||This is the difference between the control and 8-h Free Sleep Group.|||||<0.05
92346075|NCT03813654|184595348|SUPERIORITY|||||||0.09||||||The groups had unequal variances, so we adjusted for unequal variances when doing the t-test. The a priori threshold for statistical significance was p\<0.05.|t-test, 1 sided|Adjusted for unequal variances between the two groups.||We compared the PVT taken at the start of the final night shift between Group B and those in Group C who slept in the morning and had complete data. Our hypothesis was that Group B would have faster RTs.||||0.09
92369376|NCT02993822|184643593|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.357|TWO_SIDED|95.0|-11.3|4.1|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||4.1|-11.3|0.357
92218146|NCT01286454|184337028|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|103.07|||||TWO_SIDED|90.0|95.16|111.64||||||Natural log transformed AUC (0 - ∞) of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fasted was test.||111.64|95.16|
92218147|NCT01286454|184337028|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|70.36|||||TWO_SIDED|90.0|64.52|76.74||||||Natural log transformed AUC (0 - ∞) of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 15% ER-BIC Fasted was test.||76.74|64.52|
92218148|NCT01286454|184337028|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|113.55|||||TWO_SIDED|90.0|105.91|121.74||||||Natural log transformed AUC (0 - ∞) of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg 10% ER-BIC Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fed was test.||121.74|105.91|
92218149|NCT01286454|184337029|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|112.8|||||TWO_SIDED|90.0|103.85|122.52||||||Natural log transformed AUClast of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg IR-BIC Fasted was test.||122.52|103.85|
92218150|NCT01286454|184337029|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|103.71|||||TWO_SIDED|90.0|95.48|112.65||||||Natural log transformed AUClast of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fasted was test.||112.65|95.48|
92218151|NCT01286454|184337029|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|66.87|||||TWO_SIDED|90.0|61.56|72.63||||||Natural log transformed AUClast of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 15% ER-BIC Fasted was test.||72.63|61.56|
92218152|NCT01286454|184337029|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|28.34|||||TWO_SIDED|90.0|26.09|30.78||||||Natural log transformed AUClast of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 20% ER-BIC Fasted was test.||30.78|26.09|
92218153|NCT01286454|184337029|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|114.7|||||TWO_SIDED|90.0|106.99|122.97||||||Natural log transformed AUClast of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg 10% ER-BIC Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fed was test.||122.97|106.99|
92346076|NCT02832037|184595358|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.0145||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0145
92369377|NCT02993822|184643593|SUPERIORITY||Mean Difference (Final Values)|-8.5||||0.031|TWO_SIDED|95.0|-16.2|-0.8|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-0.8|-16.2|0.031
92218154|NCT01286454|184337030|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|259.4|||||TWO_SIDED|90.0|231.48|290.7||||||Natural log transformed Cmax of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg IR-BIC Fasted was test.||290.70|231.48|
92218155|NCT01286454|184337030|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|134.83|||||TWO_SIDED|90.0|120.31|151.09||||||Natural log transformed Cmax of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fasted was test.||151.09|120.31|
92346077|NCT02832037|184595358|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.0148||||||Adjusted for multiplicity.|MCP-Mod linear in log model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0148
92346078|NCT02832037|184595358|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.0089||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|Model assumption: 20% of the maximum effect is achieved at 2 mg of BI 425809 .||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0089
92346079|NCT02832037|184595358|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.0038||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|Model assumption: 25% of the maximum effect is achieved at 5 mg and 75% of the maximum effect is achieved at 10 mg of BI 425809.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0038
92369378|NCT02993822|184643594|SUPERIORITY||Mean Difference (Final Values)|-11.1||||0.008|TWO_SIDED|95.0|-19.2|-2.9|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-2.9|-19.2|0.008
92218156|NCT01286454|184337030|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|48.58|||||TWO_SIDED|90.0|43.35|54.44||||||Natural log transformed Cmax of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 15% ER-BIC Fasted was test.||54.44|43.35|
92218157|NCT01286454|184337030|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|14.38|||||TWO_SIDED|90.0|12.83|16.11||||||Natural log transformed Cmax of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 20% ER-BIC Fasted was test.||16.11|12.83|
92218158|NCT01286454|184337030|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|171.06|||||TWO_SIDED|90.0|115.82|187.78||||||Natural log transformed Cmax of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg 10% ER-BIC Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fed was test.||187.78|115.82|
92218159|NCT01898689|184337057|EQUIVALENCE|The a priori equivalence region for the difference in means between the two concentrations was specified as +10 mA. This value was considered the minimal clinically relevant current since it approximates the tolerated electrical current range at baseline of the general population-in other words, natural variability and therefore a relatively small amount of current to detect.|Mean Difference (Net)|0.2||||0.02|TWO_SIDED|90.0|-8.2|8.5||"P-values from the TOST procedure were 0.02 and 0.03 for the mean being inside the lower and upper boundaries, respectively.~(estimated mean difference of 0.2 mA; 90% CI 28.2 to 8.5)"|Mixed Models Analysis|||"The null and alternative hypotheses were thus:~H0: m0.1%-m0.4% ≤ -10 or m0.1%-m0.4% ≥ 10 and Ha: -10 , m0.1%-m0.4% , 10 where m0.1% and m0.1% are the population means for tolerance to current under 0.1% and 0.4% ropivacaine, respectively.~With 24 evaluable subjects, we had 90% power at the 0.05 significance level to detect equivalence of 0.1% and 0.4% ropivacaine concentration on the mean tolerance to transcutaneous electrical stimulation"||8.5|-8.2|0.02
92218160|NCT02101515|184337070|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.45|||||TWO_SIDED|95.0|0.22|0.93||||||||0.93|0.22|
92218161|NCT02101515|184337072|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.41|||||TWO_SIDED|95.0|0.67|8.4||||||||8.40|0.67|
92218162|NCT02101515|184337073|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.41|1.45||||||||1.45|0.41|
92218163|NCT02101515|184337074|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.71|||||TWO_SIDED|95.0|1.3|5.62||||||||5.62|1.30|
92218164|NCT02101515|184337075|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.06|13.92||||||||13.92|0.06|
92218165|NCT02101515|184337077|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|5.41|||||TWO_SIDED|95.0|0.68|42.9||||||||42.90|0.68|
92218166|NCT02101515|184337079|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.46|1.54||||||||1.54|0.46|
92346080|NCT02832037|184595358|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.0085||||||Adjusted for multiplicity.|MCP-Mod logistic model fit|Model assumption: 10% of the maximum effect is achieved at 5 mg and 50% of the maximum effect is achieved at 10 mg of BI 425809.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0085
92346081|NCT02832037|184595358|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.228||||||Adjusted for multiplicity.|MCP-Mod beta model fit|Assumption:75% of maximum (max) effect at 2mg, 87.5% of max effect at 5mg,25% of max effect at 25mg,max effect at 10mg BI 425809, scalar parameter=26.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.2280
92158745|NCT03552978|184204838|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.76|TWO_SIDED||||||Mixed Models Analysis|df = 3, 102.04||We examined nicotine dependence using linear mixed models to account for non-independence (longitudinal data) and missing data. The null hypothesis was that the time by treatment group interaction would equal zero, indicating no difference in the change in nicotine dependence over time by treatment group.||||.76
92158746|NCT03552978|184204839|SUPERIORITY||Odds Ratio (OR)|1.99||||0.28|TWO_SIDED|||||Week 12|Chi-squared|df = 1||||||.28
92158747|NCT03552978|184204839|SUPERIORITY||Odds Ratio (OR)|2.3||||0.19|TWO_SIDED|||||Week 24|Chi-squared|df = 1||||||.19
92158748|NCT03552978|184204840|SUPERIORITY||Odds Ratio (OR)|1.68||||0.42|TWO_SIDED||||||Chi-squared|df = 1||Week 12||||.42
92158749|NCT03552978|184204840|SUPERIORITY||Odds Ratio (OR)|2.52||||0.17|TWO_SIDED||||||Chi-squared|df = 1||Week 24||||.17
92158750|NCT03552978|184204841|SUPERIORITY||Mean Difference (Final Values)|3.66||||0.58|TWO_SIDED||||||Mixed Models Analysis|df = 3, 100.51||We examined days of changes in PTSD symptoms using linear mixed models to account for non-independence (longitudinal data) and missing data. The null hypothesis was that the time by treatment group interaction would equal zero, indicating no difference in the change in PTSD symptoms over time by treatment group.||||.58
92158751|NCT04956692|184204845|NON_INFERIORITY|The non-inferiority margin with respect to the geometric means ratio (GMR) was 0.8|Geometric Mean Ratio (GMR)|1.04|||<|0.0001|TWO_SIDED|96.0|0.98|1.1||The one-sided p-value non-inferiority boundary is 0.02|t-test, 1 sided|Welch's unequal variances t-test. The null hypothesis was that GMR≤0.8.|Numerator Arm A/Denominator Arm B|||1.10|0.98|<0.0001
92158752|NCT04956692|184204846|NON_INFERIORITY|The non-inferiority margin with respect to the geometric means ratio (GMR) was 0.8|Geometric Mean Ratio (GMR)|1.85|||<|0.0001|TWO_SIDED|94.0|1.69|2.03||The one-sided p-value non-inferiority boundary is 0.03|t-test, 1 sided|Welch's unequal variances t-test. The null hypothesis was that GMR≤0.8.|Numerator Arm A/Denominator Arm B|||2.03|1.69|<0.0001
92158753|NCT01449721|184204887|SUPERIORITY_OR_OTHER|||||||0.064|||||||2-sample z-test|z-test for differences in proportions||Null hypothesis: In patients with moderate severity sepsis, there is no change in the incidence of organ dysfunction within 72 hours associated with the use of an empiric fluid resuscitation algorithm.||||0.064
92158754|NCT04447820|184204908|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.3084|||||||Mixed Model for repeated measures (MMRM)|||||||0.3084
92158755|NCT04447820|184204908|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.593|||||||Mixed Model for repeated measures (MMRM)|||||||0.5930
92158756|NCT04447820|184204909|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.9788|||||||MMRM|||||||0.9788
92158757|NCT04447820|184204909|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.1314|||||||MMRM|||||||0.1314
92158758|NCT04447820|184204910|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.884|||||||MMRM analysis|||||||0.8840
92405638|NCT02683577|184701451|SUPERIORITY_OR_OTHER||Median difference|0.0|||=|0.316|TWO_SIDED|90.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||The Tmax was analysed using a non-parametric analysis (Walsh averages and appropriate quantile of the Wilcoxon signed rank test statistic). The median differences between the hepatic impaired group (Test) versus the healthy control group (Reference) and the corresponding 90% CIs were calculated by Hodges-Lehmann estimation.||1.000|0.000|=0.3160
92158759|NCT04447820|184204910|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.1202|||||||MMRM analysis|||||||0.1202
92158760|NCT04447820|184204911|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.9353|||||||MMRM|||||||0.9353
92158761|NCT04447820|184204911|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.3099|||||||MMRM|||||||0.3099
92158762|NCT04447820|184204912|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.2098|||||||MMRM|||||||0.2098
92158763|NCT04447820|184204912|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.3688|||||||MMRM|||||||0.3688
92158764|NCT04447820|184204913|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.5647|||||||MMRM|||||||0.5647
92158765|NCT04447820|184204913|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.217|||||||MMRM|||||||0.2170
92158766|NCT04447820|184204914|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.2562|||||||MMRM|||||||0.2562
92158767|NCT04447820|184204914|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.4268|||||||MMRM|||||||0.4268
92158768|NCT04739423|184204952|OTHER||Least Squares Mean|5.4822||||0.0479|TWO_SIDED|95.0|0.0575|10.9069|||Mixed Models Analysis|||Between treatment analysis for Accuracy for happiness - change from baseline to Day 14.||10.9069|0.0575|0.0479
92158769|NCT04739423|184204952|OTHER||Least Squares Mean|4.7954||||0.0161|TWO_SIDED|95.0|0.9843|8.6064|||Mixed Models Analysis|||Between treatment analysis for Accuracy for sadness - Change from baseline to Day 14||8.6064|0.9843|0.0161
92158770|NCT04739423|184204952|OTHER||Least Squares Mean|167.29||||0.0237|TWO_SIDED|95.0|25.36|309.23|||Mixed Models Analysis|||Between treatment analysis of Reaction time for anger - change from baseline to Day 7||309.23|25.36|0.0237
92158771|NCT04739423|184204952|OTHER||Least Squares Mean|-1.2761||||0.7188|TWO_SIDED|95.0|-9.2424|6.6902|||Mixed Models Analysis|||Between treatment analysis for Accuracy for happiness - change from baseline to Day 14||6.6902|-9.2424|0.7188
92158772|NCT04739423|184204952|OTHER||Least Squares Mean|1.8955||||0.5478|TWO_SIDED|95.0|-4.9026|8.6935|||Mixed Models Analysis|||Between treatment analysis for Accuracy for sadness - Change from baseline to Day 14||8.6935|-4.9026|0.5478
92158773|NCT04739423|184204952|OTHER||Least Squares Mean|-7.52||||0.951|TWO_SIDED|95.0|-291.21|276.17|||Mixed Models Analysis|||Between treatment analysis of Reaction time for anger - change from baseline to Day 7||276.17|-291.21|0.9510
92158774|NCT04739423|184204954|OTHER||Least Squares Mean|0.68||||0.0737|TWO_SIDED|95.0|-0.066|1.432|||Mixed Models Analysis|||Between treatment analysis for Immediate Word Recall: number of words - Change from Baseline to Day 1, 4 hours post-dose||1.432|-0.066|0.0737
92218167|NCT02101515|184337080|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.39|1.49||||||||1.49|0.39|
92218168|NCT02101515|184337082|SUPERIORITY_OR_OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.6
92218169|NCT02101515|184337086|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3|||||TWO_SIDED|95.0|0.03|2.77||||||||2.77|0.03|
92346082|NCT02832037|184595358|OTHER|Mixed Model Repeated Measures included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.|Difference of adjusted means|0.28|STANDARD_ERROR_OF_MEAN|0.8205||0.733|TWO_SIDED|95.0|-1.332|1.892||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||1.892|-1.332|0.7330
92346083|NCT02832037|184595358|OTHER|Mixed Model Repeated Measures included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.|Difference of adjusted means|0.137|STANDARD_ERROR_OF_MEAN|0.8074||0.8655|TWO_SIDED|95.0|-1.45|1.724||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||1.724|-1.450|0.8655
92346084|NCT02832037|184595358|OTHER|Mixed Model Repeated Measures included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.|Difference of adjusted means|1.982|STANDARD_ERROR_OF_MEAN|0.7875||0.0122|TWO_SIDED|95.0|0.434|3.53||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||3.530|0.434|0.0122
92346085|NCT02832037|184595358|OTHER|Mixed Model Repeated Measures included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.|Difference of adjusted means|1.73|STANDARD_ERROR_OF_MEAN|0.7884||0.0287|TWO_SIDED|95.0|0.181|3.28||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||3.280|0.181|0.0287
92346086|NCT02832037|184595359|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.066||||||P-value is considered nominal.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0660
92346087|NCT02832037|184595359|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.1619||||||P-value is considered nominal.|MCP-Mod linear in log model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1619
92346088|NCT02832037|184595359|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.0832||||||P-value is considered nominal.|MCP-Mod Emax model fit|Model assumption: 20% of the maximum effect is achieved at 2 mg of BI 425809.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0832
92218170|NCT01289821|184337087|SUPERIORITY_OR_OTHER||Percentage of Participants|43.9||||0.36|TWO_SIDED|80.0|33.19|55.09|||One-sample exact binomial test|||"Null hypothesis: True probability p of objective tumor response does not exceed p0, p0=0.4. H0: p\<=0.4 One-sided type I error probability of alpha=10%"||55.09|33.19|0.36
92218171|NCT02901574|184337093|SUPERIORITY||Mean Difference (Final Values)|3.87||||0.24|TWO_SIDED|95.0|-2.55|10.3||Threshold for significance is two-sided alpha of 0.05.|Mixed Models Analysis|||||10.30|-2.55|0.24
92158775|NCT04739423|184204954|OTHER||Least Squares Mean|1.12||||0.0033|TWO_SIDED|95.0|0.382|1.868|||Mixed Models Analysis|||Between treatment analysis for Immediate Word Recall: number of words - Change from Baseline to Day 14, 4 hours post-dose||1.868|0.382|0.0033
92158776|NCT04739423|184204954|OTHER||Least Squares Mean|1.72||||0.0029|TWO_SIDED|95.0|0.6|2.84|||Mixed Models Analysis|||Between treatment comparison for Delayed Word Recall: number of words - Change from Baseline to Day 1, 4 hours post-dose||2.840|0.600|0.0029
92158777|NCT04739423|184204954|OTHER||Least Squares Mean|1.29||||0.0247|TWO_SIDED|95.0|0.168|2.418|||Mixed Models Analysis|||Between treatment analysis for Delayed Word Recall: number of words - Change from Baseline to Day 7, 4 hours post-dose||2.418|0.168|0.0247
92158778|NCT04739423|184204954|OTHER||Least Squares Mean|1.69||||0.0016|TWO_SIDED|95.0|0.653|2.732|||Mixed Models Analysis|||Between treatment analysis for Delayed Word Recognition: number of words - Change from Baseline to Day 7, 4 hours post-dose||2.732|0.653|0.0016
92218172|NCT02887404|184337110|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.92|TWO_SIDED|95.0|-6.0|6.0|||t-test, 2 sided|||||6|-6|0.92
92218173|NCT02887404|184337111|NON_INFERIORITY|Delta: 15. The significance level for non-inferiority was 0.025|Median Difference (Final Values)|-9.0|||<|0.001|TWO_SIDED|95.0|-21.0|3.0|||Hodges-Lehmann estimator|||||3|-21|<0.001
92218174|NCT02887404|184337111|SUPERIORITY||Median Difference (Final Values)|-9.0||||0.175|TWO_SIDED|97.5|-23.0|5.0||We adjusted for two outcomes for the superiority testing only, using a significance criterion of 0.0125 for each outcome (i.e., 0.025/2, Bonferroni correction), since superiority on either outcome would suffice.|Hodges-Lehmann estimator|||||5|-23|0.175
92218175|NCT02887404|184337112|NON_INFERIORITY|Delta: 1 The significance level for the non-inferiority test was 0.025.|Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.8|1.0||This is a joint hypothesis testing. We tested non-inferiority on both secondary outcomes. If both showed significant non-inferiority, we tested superiority on both outcomes.|Regression, Linear|||||1|-0.8|<0.001
92218176|NCT02887404|184337112|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.094|TWO_SIDED|97.5|-0.8|0.1||We adjusted for two outcomes for the superiority testing only, using a significance criterion of 0.0125 for each outcome (i.e., 0.025/2, Bonferroni correction), since superiority on either outcome would suffice|Regression, Linear|||||0.1|-0.8|0.094
92346089|NCT02832037|184595359|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.0625||||||P-value is considered nominal.|MCP-Mod Sigmoid Emax model fit|Model assumption: 25% of the maximum effect is achieved at 5 mg and 75% of the maximum effect is achieved at 10 mg of BI 425809.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0625
92346090|NCT02832037|184595359|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.0768||||||P-value is considered nominal.|MCP-Mod logistic model fit|Model assumption: 10% of the maximum effect is achieved at 5 mg and 50% of the maximum effect is achieved at 10 mg of BI 425809.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0768
92158779|NCT04739423|184204954|OTHER||Least Squares Mean|-0.06||||0.9126|TWO_SIDED|95.0|-1.127|1.009|||Mixed Models Analysis|||Between treatment analysis for Immediate Word recall: number of words - Change from Baseline to Day 1, 4 hours post-dose||1.009|-1.127|0.9126
92158780|NCT04739423|184204954|OTHER||Least Squares Mean|-0.24||||0.657|TWO_SIDED|95.0|-1.317|0.837|||Mixed Models Analysis|||Between treatment analysis for Immediate Word Recall: number of words - Change from Baseline to Day 14, 4 hours post-dose||0.837|-1.317|0.6570
92158781|NCT04739423|184204954|OTHER||Least Squares Mean|-0.06||||0.9458|TWO_SIDED|95.0|-1.787|1.669|||Mixed Models Analysis|||Between treatment comparison for Delayed Word Recall: number of words - Change from Baseline to Day 1, 4 hours post-dose||1.669|-1.787|0.9458
92158782|NCT04739423|184204954|OTHER||Least Squares Mean|0.97||||0.2327|TWO_SIDED|95.0|-0.642|2.579|||Mixed Models Analysis|||Between treatment analysis for Delayed Word Recall: number of words - Change from Baseline to Day 7, 4 hours post-dose||2.579|-0.642|0.2327
92158783|NCT04739423|184204954|OTHER||Least Squares Mean|0.84||||0.4154|TWO_SIDED|95.0|-1.208|2.879|||Mixed Models Analysis|||Between treatment analysis for Delayed Word Recognition: number of words - Change from Baseline to day 7, 4 hours post-dose||2.879|-1.208|0.4154
92158784|NCT04739423|184204955|OTHER||Least Squares Mean|5.06|||<|0.0001|TWO_SIDED|95.0|3.956|6.16|||Mixed Models Analysis|||Between treatment analysis (active - placebo) for Sleeping Heart Rate change from baseline across periods||6.160|3.956|<0.0001
92158785|NCT04739423|184204956|OTHER||Least Squares Mean|1.0||||0.0017|TWO_SIDED|95.0|0.432|1.565|||Mixed Models Analysis|||Between treatment analysis (active - placebo) for sleeping HRV change from baseline across periods.||1.565|0.432|0.0017
92158786|NCT04739423|184204957|OTHER||Least Squares Mean|-10.22||||0.0049|TWO_SIDED|95.0|-16.867|-3.567|||Mixed Models Analysis|||Between treatment analysis (active - placebo) for sleeping HRV root mean square of successive differences change from baseline across periods||-3.567|-16.867|0.0049
92158787|NCT01251614|184204999|SUPERIORITY_OR_OTHER||Difference|-25.5||||0.027|TWO_SIDED|95.0|-47.2|-3.7|||Chi-squared|||"The a priori defined order of the statistical hypotheses was as follows:~1. Superiority of adalimumab 0.8 mg/kg versus MTX for the percentage of participants achieving a ≥ PASI 75 response at Week 16.~2. Superiority of adalimumab 0.8 mg/kg versus MTX, for the percentage of participants achieving a PGA cleared or minimal at Week 16.~This order was adhered to for confirmatory testing, all statistical tests were at a level of significance of 5% and the overall type I error was preserved."||-3.7|-47.2|0.027
92158788|NCT01251614|184205000|SUPERIORITY_OR_OTHER||Difference|-20.0||||0.083|TWO_SIDED|95.0|-42.2|2.2|||Chi-squared|||"The a priori defined order of the statistical hypotheses was as follows:~1. Superiority of adalimumab 0.8 mg/kg versus MTX for the percentage of participants achieving a ≥ PASI 75 response at Week 16.~2. Superiority of adalimumab 0.8 mg/kg versus MTX, for the percentage of participants achieving a PGA cleared or minimal at Week 16.~This order was adhered to for confirmatory testing, all statistical tests were at a level of significance of 5% and the overall type I error was preserved."||2.2|-42.2|0.083
92158789|NCT01251614|184205001|SUPERIORITY_OR_OTHER||Difference|-7.3||||0.466|TWO_SIDED|95.0|-26.9|12.3|||Chi-squared|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (p-value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||12.3|-26.9|0.466
92158790|NCT01251614|184205002|SUPERIORITY_OR_OTHER||Difference|-15.7||||0.056|TWO_SIDED|95.0|-29.1|-2.3|||Fisher Exact|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (p-value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||-2.3|-29.1|0.056
92158791|NCT01251614|184205003|SUPERIORITY_OR_OTHER||Difference|1.61||||0.304|TWO_SIDED|95.0|-1.48|4.7|||ANOVA|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (p-value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||4.70|-1.48|0.304
92218177|NCT02887404|184337130|NON_INFERIORITY|Delta: 9; significance level was 0.025|Median Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.3|0.1|||Wilcoxon (Mann-Whitney)|||||0.1|-0.3|<0.001
92346091|NCT02832037|184595359|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.7479||||||P-value is considered nominal.|MCP-Mod beta model fit|Assumption:75% of maximum (max) effect at 2mg, 87.5% of max effect at 5mg,25% of max effect at 25mg,max effect at 10mg BI 425809, scalar parameter=26.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.7479
92346092|NCT02832037|184595359|OTHER||Difference of adjusted means|1.178|STANDARD_ERROR_OF_MEAN|0.7306||0.11|TWO_SIDED|95.0|-0.258|2.613||P-value is considered nominal.|ANCOVA|Analysis of covariance (ANCOVA) model included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||2.613|-0.258|0.11
92346093|NCT02832037|184595359|OTHER||Difference of adjusted means|-0.837|STANDARD_ERROR_OF_MEAN|0.7224||0.25|TWO_SIDED|95.0|-2.257|0.582||P-value is considered nominal.|ANCOVA|Analysis of covariance (ANCOVA) model included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||0.582|-2.257|0.25
92346094|NCT02832037|184595359|OTHER||Difference of adjusted means|-0.263|STANDARD_ERROR_OF_MEAN|0.7152||0.71|TWO_SIDED|95.0|-1.669|1.142||P-value is considered nominal.|ANCOVA|Analysis of covariance (ANCOVA) model included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||1.142|-1.669|0.71
92346095|NCT02832037|184595359|OTHER||Difference of adjusted means|-1.072|STANDARD_ERROR_OF_MEAN|0.7125||0.13|TWO_SIDED|95.0|-2.473|0.328||P-value is considered nominal.|ANCOVA|Analysis of covariance (ANCOVA) model included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||0.328|-2.473|0.13
92346096|NCT01401166|184595361|SUPERIORITY_OR_OTHER||Estimated Proportion|0.957|||||TWO_SIDED|95.0|0.903|0.986|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding exact binomial confidence interval (CI) were determined.|||0.986|0.903|
92346097|NCT01401166|184595361|SUPERIORITY_OR_OTHER||Estimated Proportion|0.964|||||TWO_SIDED|95.0|0.908|0.986|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding CI were determined using logistic regression with factors of previous Herceptin status and treatment.|||0.986|0.908|
92346098|NCT01401166|184595361|SUPERIORITY_OR_OTHER||Estimated Proportion|0.874|||||TWO_SIDED|95.0|0.801|0.928|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding exact binomial CI were determined.|||0.928|0.801|
92218178|NCT02887404|184337130|SUPERIORITY||Median Difference (Final Values)|-0.1||||0.171|TWO_SIDED|97.5|-0.3|0.1||We adjusted for two outcomes for the superiority testing only, using a significance criterion of 0.0125 for each outcome (i.e., 0.025/2, Bonferroni correction), since superiority on either outcome would suffice|Wilcoxon sum rank test|||||0.1|-0.3|0.171
92218179|NCT02887404|184337131|NON_INFERIORITY|Delta: 1 significance level: 0.025|Mean Difference (Final Values)|-0.5|||<|0.001|TWO_SIDED|95.0|-1.0|-0.1|||Regression, Linear||||The superiority test (this is a joint-hypothesis testing) showed a mean difference of -0.5 between treatment and control group with 97.5% CI of (-1.0, 0.0) and p-value of 0.025. The significance level was 0.025.|-0.1|-1.0|<0.001
92218180|NCT02887404|184337131|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.025|TWO_SIDED|97.5|-1.0|0.0||We adjusted for two outcomes for the superiority testing only, using a significance criterion of 0.0125 for each outcome (i.e., 0.025/2, Bonferroni correction), since superiority on either outcome would suffice|Regression, Linear|||||0.0|-1.0|0.025
92218181|NCT02790138|184337132|SUPERIORITY||Percentage Difference|21.6||||0.013|TWO_SIDED|95.0|4.9|37.5||The significance level was 0.05.|Fisher's Exact Test|||The Placebo IV and Vedolizumab IV 300 mg groups were analyzed using Fisher's Exact Test at Week 14.||37.5|4.9|0.013
92346099|NCT01401166|184595361|SUPERIORITY_OR_OTHER||Estimated Proportion|0.892|||||TWO_SIDED|95.0|0.804|0.943|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding CI were determined using logistic regression with factors of previous Herceptin status and treatment.|||0.943|0.804|
92346100|NCT01401166|184595361|SUPERIORITY_OR_OTHER||Estimated Proportion|0.839|||||TWO_SIDED|95.0|0.76|0.9|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding exact binomial CI were determined.|||0.900|0.760|
92218182|NCT02790138|184337133|SUPERIORITY||Percentage Difference|17.6|||=|0.043|TWO_SIDED|95.0|0.3|35.1||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Chi-squared Test|||||35.1|0.3|=0.043
92218183|NCT02790138|184337134|SUPERIORITY||Percentage Difference|25.5|||=|0.004|TWO_SIDED|95.0|8.0|41.4||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Fisher's Exact Test|||Week 14||41.4|8.0|=0.004
92218184|NCT02790138|184337134|SUPERIORITY||Percentage Difference|19.6|||=|0.027|TWO_SIDED|95.0|1.9|37.0||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Chi-squared Test|||Week 34.||37.0|1.9|=0.027
92218185|NCT02790138|184337135|SUPERIORITY||Hazard Ratio (HR)|3.95|||||TWO_SIDED|95.0|1.7|9.4|||||Hazard ratio for achieving PDAI remission.|||9.4|1.7|
92218186|NCT02790138|184337136|SUPERIORITY||Percentage Difference|29.4|||=|0.003|TWO_SIDED|95.0|8.0|47.6||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Chi-squared Test|||Week 14||47.6|8.0|=0.003
92218187|NCT02790138|184337136|SUPERIORITY||Percentage Difference|21.6|||=|0.026|TWO_SIDED|95.0|1.9|39.8||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Chi-squared Test|||Week 34||39.8|1.9|=0.026
92218188|NCT02790138|184337137|SUPERIORITY||Odds Estimator|2.02|||=|0.002|TWO_SIDED|95.0|1.11|2.93||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 14||2.93|1.11|=0.002
92346101|NCT01401166|184595361|SUPERIORITY_OR_OTHER||Estimated Proportion|0.874|||||TWO_SIDED|95.0|0.776|0.933|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding CI were determined using logistic regression with factors of previous Herceptin status and treatment.|||0.933|0.776|
92218189|NCT02790138|184337137|SUPERIORITY||Odds Estimator|1.71|||=|0.02|TWO_SIDED|95.0|0.92|2.49||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 34||2.49|0.92|=0.020
92346102|NCT01401166|184595361|SUPERIORITY_OR_OTHER||Estimated Proportion|0.885|||||TWO_SIDED|95.0|0.811|0.937|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding exact binomial CI were determined.|||0.937|0.811|
92346103|NCT01401166|184595361|SUPERIORITY_OR_OTHER||Estimated Proportion|0.911|||||TWO_SIDED|95.0|0.827|0.956|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding CI were determined using logistic regression with factors of previous Herceptin status and treatment.|||0.956|0.827|
92346104|NCT04167462|184595398|SUPERIORITY||Odds Ratio (OR)|16.49|||<|0.0001|TWO_SIDED|95.0|6.33|42.98|||Cochran-Mantel-Haenszel|||||42.98|6.33|<0.0001
92346105|NCT04167462|184595399|SUPERIORITY||Odds Ratio (OR)|24.29|||<|0.0001|TWO_SIDED|95.0|9.6|61.46|||Cochran-Mantel-Haenszel|||||61.46|9.60|<0.0001
92346106|NCT04167462|184595400|SUPERIORITY||Odds Ratio (OR)|41.19|||<|0.0001|TWO_SIDED|95.0|5.82|291.26|||Cochran-Mantel-Haenszel|||||291.26|5.82|<0.0001
92346107|NCT04167462|184595404|SUPERIORITY||Odds Ratio (OR)|17.27|||<|0.0001|TWO_SIDED|95.0|6.06|49.25|||Cochran-Mantel-Haenszel|||||49.25|6.06|<0.0001
92346108|NCT04167462|184595405|SUPERIORITY||Odds Ratio (OR)|5.1|||<|0.0001|TWO_SIDED|95.0|2.19|11.91|||Cochran-Mantel-Haenszel|||||11.91|2.19|<0.0001
92346109|NCT04167462|184595406|SUPERIORITY||Odds Ratio (OR)|5.86||||0.0947|TWO_SIDED|95.0|0.64|53.28|||Cochran-Mantel-Haenszel|||||53.28|0.64|0.0947
92346110|NCT04167462|184595407|SUPERIORITY||Odds Ratio (OR)|4.11||||0.1741|TWO_SIDED|95.0|0.47|35.74|||Cochran-Mantel-Haenszel|||||35.74|0.47|0.1741
92346111|NCT02320396|184595411|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares (LS) Means|-0.83|||<|0.001|TWO_SIDED|95.0|-1.14|-0.51|||cLDA model|||The LS mean change from BL to post BL (average score of 2 weeks) in TNSS was estimated using a constrained longitudinal data analysis (cLDA) model, where both BL and post-BL measurements (average score of 2 weeks) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value.||-0.51|-1.14|<0.001
92346112|NCT02320396|184595414|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.82|||<|0.001|TWO_SIDED|95.0|-1.14|-0.5|||cLDA model|||"Change from BL in TNSS at Week 1: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in TNSS was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.50|-1.14|<0.001
92158792|NCT01251614|184205004|SUPERIORITY_OR_OTHER||Difference|-8.88||||0.005|TWO_SIDED|95.0|-14.94|-2.82|||ANOVA|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (p-value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||-2.82|-14.94|0.005
92158793|NCT01251614|184205005|SUPERIORITY_OR_OTHER||Difference|-28.3||||0.113|TWO_SIDED|95.0|-60.6|4.0|||Chi-squared|||"The difference between the combined adalimumab 0.8 mg/kg + MTX groups versus the adalimumab 0.4 mg/kg group.~Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were to be 2-sided with the significance level of 5%. Statistically significant results (P value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank."||4.0|-60.6|0.113
92346113|NCT02320396|184595414|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.84|||<|0.001|TWO_SIDED|95.0|-1.23|-0.46|||cLDA model|||"Change from BL in TNSS at Week 2: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in TNSS was estimated using a cLDA model, where both BL and post- BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.46|-1.23|<0.001
92346114|NCT02320396|184595415|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.14|||cLDA model|||"Change from BL to Week 1 in Sneezing: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Sneezing was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.14|-0.35|<0.001
92369379|NCT02993822|184643594|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.321|TWO_SIDED|95.0|-11.8|3.9|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||3.9|-11.8|0.321
92275240|NCT00434161|184452569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.436||||0.142|TWO_SIDED|97.5|-1.542|32.415||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|van Elteren test|||For the secondary endpoints, the type I error rate was protected by using the Hochberg procedure to adjust for multiple testing16. Palifermin was not to be declared to be statistically superior to placebo with respect to secondary efficacy endpoints unless the primary endpoint was statistically significant in favor of palifermin.||32.415|-1.542|0.142
92346115|NCT02320396|184595415|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.21|||<|0.001|TWO_SIDED|95.0|-0.32|-0.1|||cLDA model|||"Change from BL to Week 1 in Rhinorrhea: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Rhinorrhea was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.10|-0.32|<0.001
92346116|NCT02320396|184595415|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.09||||0.008|TWO_SIDED|95.0|-0.16|-0.02|||cLDA model|||"Change from BL to Week 1 in Nasal Congestion: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Nasal Congestion was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.02|-0.16|0.008
92346117|NCT02320396|184595415|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.27|||<|0.001|TWO_SIDED|95.0|-0.38|-0.15|||cLDA model|||"Change from BL to Week 1 in Nasal Itching: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Nasal Itching was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.15|-0.38|<0.001
92346118|NCT02320396|184595416|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.36|-0.13|||cLDA model|||"Change from BL to Week 2 in Sneezing: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Sneezing was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.13|-0.36|<0.001
92346119|NCT02320396|184595416|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.37|-0.12|||cLDA model|||"Change from BL to Week 2 in Rhinorrhea: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Rhinorrhea was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.12|-0.37|<0.001
92346120|NCT02320396|184595416|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.09||||0.037|TWO_SIDED|95.0|-0.18|-0.01|||cLDA model|||"Change from BL to Week 2 in Nasal Congestion: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Nasal Congestion was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.01|-0.18|0.037
92346121|NCT02320396|184595416|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.26|||<|0.001|TWO_SIDED|95.0|-0.4|-0.12|||cLDA model|||"Change from BL to Week 2 in Nasal Itching: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Nasal Itching was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.12|-0.40|<0.001
92346122|NCT02320396|184595417|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.14|||cLDA model|||"Change from BL in Sneezing During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Sneezing was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.14|-0.35|<0.001
92346123|NCT02320396|184595417|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.23|||<|0.001|TWO_SIDED|95.0|-0.33|-0.12|||cLDA model|||"Change from BL in Rhinorrhea During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Rhinorrhea was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.12|-0.33|<0.001
92346124|NCT02320396|184595417|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.09||||0.009|TWO_SIDED|95.0|-0.16|-0.02|||cLDA model|||"Change from BL in Nasal Congestion During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Nasal Congestion was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.02|-0.16|0.009
92346125|NCT02320396|184595417|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.26|||<|0.001|TWO_SIDED|95.0|-0.38|-0.15|||cLDA model|||"Change from BL in Nasal Itching During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Nasal Itching was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value.~cLDA model"||-0.15|-0.38|<0.001
92218190|NCT02790138|184337138|SUPERIORITY||Odds Estimator|1.34|||=|0.191|TWO_SIDED|95.0|0.74|1.94||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 14||1.94|0.74|=0.191
92275241|NCT00434161|184452569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.331||||0.806|TWO_SIDED|97.5|-11.82|22.482||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|van Elteren test|||||22.482|-11.820|0.806
92275242|NCT00434161|184452570|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.88|||||TWO_SIDED|95.0|-21.669|33.43||According to statistical analysis plan it was not planned to calculate any P-Value.||||||33.43|-21.669|
92346126|NCT02320396|184595418|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.15|||cLDA model|||"Change from BL to Week 1 in Eye Pruritus: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Eye Pruritus was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.15|-0.35|<0.001
92346127|NCT02320396|184595418|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.16|||<|0.001|TWO_SIDED|95.0|-0.24|-0.08|||cLDA model|||"Change from BL to Week 1 in Watering Eyes: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Watering Eyes was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.08|-0.24|<0.001
92346128|NCT02320396|184595418|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.15|||cLDA model|||"Change from BL to Week 1 in Worse of Pruritus or Watering Eyes: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in the worse symptom of Pruritus or Watering Eyes estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.15|-0.35|<0.001
92346129|NCT02320396|184595419|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.37|-0.12|||cLDA model|||"Change from BL to Week 2 in Eye Pruritus: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Eye Pruritus was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.12|-0.37|<0.001
92346130|NCT02320396|184595419|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.13||||0.01|TWO_SIDED|95.0|-0.24|-0.03|||cLDA model|||"Change from BL to Week 2 in Watering Eyes: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Watering Eyes was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.03|-0.24|0.010
92346131|NCT02320396|184595419|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.24|||<|0.001|TWO_SIDED|95.0|-0.37|-0.12|||cLDA model|||"Change from BL to Week 2 in Worse of Pruritus or Watering Eyes: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in the worse symptom of Pruritus or Watering Eyes estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.12|-0.37|<0.001
92346132|NCT02320396|184595420|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.14|||cLDA model|||"Change from BL in Eye Pruritus During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Eye Pruritus was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.14|-0.35|<0.001
92218191|NCT02790138|184337138|SUPERIORITY||Odds Estimator|1.07|||=|0.766|TWO_SIDED|95.0|0.6|1.54||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 34||1.54|0.60|=0.766
92346133|NCT02320396|184595420|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.15|||<|0.001|TWO_SIDED|95.0|-0.23|-0.07|||cLDA model|||"Change from BL in Watering Eyes During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Watering Eyes was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.07|-0.23|<0.001
92346134|NCT02320396|184595420|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.15|||cLDA model|||The LS mean change from BL to post BL (average score of 2 weeks) in the worse of Pruritus or Watering Eyes was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1-Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value||-0.15|-0.35|<0.001
92158794|NCT01251614|184205006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.343|TWO_SIDED|95.0|0.66|3.17|||Log Rank|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (P value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||3.17|0.66|0.343
92158795|NCT01251614|184205006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51||||0.276|TWO_SIDED|95.0|0.71|3.21|||Log Rank|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (P value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||3.21|0.71|0.276
92218192|NCT02790138|184337139|SUPERIORITY||Odds Estimator|1.57|||=|0.055|TWO_SIDED|95.0|0.83|2.31||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 14||2.31|0.83|=0.055
92275243|NCT00434161|184452572|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.023|||||TWO_SIDED|95.0|-0.134|0.181||||||||0.181|-0.134|
92346135|NCT02320396|184595421|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.16|||<|0.001|TWO_SIDED|95.0|-0.24|-0.07|||cLDA model|||"Change from BL to Week 1 in Interference with Daily Activities: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Interference with Daily Activities was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.07|-0.24|<0.001
92346136|NCT02320396|184595421|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.19|||<|0.001|TWO_SIDED|95.0|-0.3|-0.09|||cLDA model|||"Change from BL to Week 2 in Interference with Daily Activities: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Interference with Daily Activities was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.09|-0.30|<0.001
92346137|NCT02320396|184595421|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.17|||<|0.001|TWO_SIDED|95.0|-0.26|-0.08|||cLDA model|||"Change from BL in Interference with Daily Activities During 2 Wks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Interference with Daily Activities estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1-Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo evaluated with the 95% confidence interval and P-value."||-0.08|-0.26|<0.001
92346138|NCT02320396|184595422|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.492||||0.071|TWO_SIDED|95.0|0.966|2.303|||Regression, Logistic|||"Impression Rate as Assessed by Investigator: Desloratadine 5 mg/Placebo Odds Ratio~Impression was evaluated using a logistic model with impression rate (percentage of assessments of Better + Much better) as a response variable and treatment and severity as factors. Odds ratio was estimated and tested. A point estimate of \>1 indicated that desloratadine 5mg was more effective than placebo."||2.303|0.966|0.071
92346139|NCT02320396|184595423|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.149|||<|0.001|TWO_SIDED|95.0|1.408|3.28|||Regression, Logistic|||"Impression Rate as Assessed by Participant: Desloratadine 5 mg/Placebo Odds Ratio~Impression was evaluated using a logistic model with impression rate (percentage of assessments of Better + Much better) as a response variable and treatment and severity as factors. Odds ratio was estimated and tested. A point estimate of \>1 indicated that desloratadine 5mg was more effective than placebo"||3.280|1.408|<0.001
92346140|NCT00142415|184595442|OTHER|The maximum tolerated dose (MTD) was determined using a standard 3 + 3 dose-escalation design. The occurrence of DLTs was compared across cohorts.|Maximum tolerated dose (mCi/m^2)|65.0|||||TWO_SIDED|||||||||||||
92346141|NCT01129128|184595453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-173.0||||0.87|TWO_SIDED|95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of TNF alpha levels to account for skewed distribution of values||comparison of peak level of TNF alpha after controlling for baseline level. Based on data from 20 participants in a group, there was a power of 0.9 to detect a difference of 1000 pg/ml with a standard deviation of 700 pg/ml||||0.87
92346142|NCT01129128|184595453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|705.0||||0.82||95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of TNF alpha levels to account for skewed distribution of values||comparison of peak level of TNF alpha after controlling for baseline level. Based on data from 20 participants in a group, there was a power of .9 to detect a difference of 1000 pg/ml with a standard deviation of 700 pg/ml||||0.82
92346143|NCT01129128|184595454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15793.0||||0.82||95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of IL-6 levels to account for skewed distribution of values||||||0.82
92346144|NCT01129128|184595454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23472.0||||0.68||95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of IL-6 levels to account for skewed distribution of values||||||0.68
92346145|NCT01129128|184595455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.0||||0.9||95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of Interferon gamma levels to account for skewed distribution of values||||||0.90
92346146|NCT01129128|184595455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.0||||0.76||95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of Interferon gamma levels to account for skewed distribution of values||||||0.76
92346147|NCT01129128|184595456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.98||95.0|||||Regression, Linear|controlled for baseline levels||||||0.98
92346148|NCT01129128|184595456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|39.0||||0.34||95.0|||||Regression, Linear|controlled for baseline levels||||||0.34
92346149|NCT01311661|184595467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.152|0.229|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.229|0.152|<0.0001
92346150|NCT01311661|184595467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.111|0.189|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.189|0.111|<0.0001
92346151|NCT01311661|184595467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.228|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.19|0.266|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.266|0.190|<0.0001
92346152|NCT01311661|184595467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.17|0.247|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.247|0.170|<0.0001
92346153|NCT01311661|184595468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.15|0.229|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.229|0.150|<0.0001
92275244|NCT00434161|184452573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|||||TWO_SIDED|95.0|-0.138|0.26||||||||0.260|-0.138|
92275245|NCT00434161|184452574|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.689|||||TWO_SIDED|95.0|-21.641|14.264||||||||14.264|-21.641|
92275246|NCT00434161|184452575|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.951|||||TWO_SIDED|95.0|-0.679|12.58||||||||12.580|-0.679|
92346154|NCT01311661|184595468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.121|0.199|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.199|0.121|<0.0001
92346155|NCT01311661|184595468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.175|0.253|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.253|0.175|<0.0001
92346156|NCT01311661|184595468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.219|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.181|0.258|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.258|0.181|<0.0001
92346157|NCT01311661|184595469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.153|0.238|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.238|0.153|<0.0001
92346158|NCT01311661|184595469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.102|0.187|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.187|0.102|<0.0001
92346159|NCT01311661|184595469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.242|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.2|0.285|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.285|0.200|<0.0001
92346160|NCT01311661|184595469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.156|0.241|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.241|0.156|<0.0001
92346161|NCT01311661|184595470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.138|0.228|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.228|0.138|<0.0001
92346162|NCT01311661|184595470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.153|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.108|0.198|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.198|0.108|<0.0001
92346163|NCT01311661|184595470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.222|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.177|0.267|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.267|0.177|<0.0001
92346164|NCT01311661|184595470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.165|0.255|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.255|0.165|<0.0001
92346165|NCT01311661|184595471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.109|0.203|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.203|0.109|<0.0001
92158796|NCT02022462|184205057|SUPERIORITY|||||||0.073|||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change of z-scores.||||.073
92158797|NCT02022462|184205057|SUPERIORITY||Mean Difference (Net)|0.19|STANDARD_DEVIATION|0.91||0.066|TWO_SIDED||||||t-test, 2 sided|||Within-group mean z-score change from 6 months to 12-months (post-intervention) for the immediate treatment group only.||||.066
92158798|NCT02022462|184205058|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.983|TWO_SIDED||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.983
92158799|NCT02022462|184205058|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_DEVIATION|1.95||0.533|TWO_SIDED||||||t-test, 2 sided|||Within-group mean change from 6 months to 12-months (post-intervention) for the immediate treatment group only.||||.533
92158800|NCT02022462|184205059|SUPERIORITY|||||||0.731|||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.731
92158801|NCT02022462|184205059|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_DEVIATION|1.67||0.211|TWO_SIDED||||||t-test, 2 sided|||Within-group mean change from 6 months to 12-months (post-intervention) for the immediate treatment group only.||||.211
92158802|NCT02022462|184205060|SUPERIORITY||Mean Difference (Net)|0.04||||0.244|TWO_SIDED||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.244
92158803|NCT02022462|184205060|SUPERIORITY||Mean Difference (Net)|0.13|STANDARD_DEVIATION|0.35||0.016|TWO_SIDED||||||t-test, 2 sided|||||||.016
92158804|NCT02022462|184205061|SUPERIORITY||Mean Difference (Net)|0.4||||0.019|TWO_SIDED||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.019
92158805|NCT02022462|184205061|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.66||0.609|TWO_SIDED||||||t-test, 2 sided|||||||.609
92158806|NCT02022462|184205062|SUPERIORITY|||||||0.203|||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.203
92158807|NCT02022462|184205062|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_DEVIATION|0.59||0.48|TWO_SIDED||||||t-test, 2 sided|||||||.480
92158808|NCT02022462|184205063|SUPERIORITY||Mean Difference (Net)|0.01||||0.897|TWO_SIDED||||||t-test, 2 sided|||||||.897
92158809|NCT02022462|184205063|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.48||0.903|TWO_SIDED||||||t-test, 2 sided|||||||.903
92158810|NCT02022462|184205064|SUPERIORITY||Mean Difference (Net)|-0.787||||0.433|TWO_SIDED||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.433
92158811|NCT02022462|184205064|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.52||0.936|TWO_SIDED||||||t-test, 2 sided|||||||.936
92218193|NCT02790138|184337139|SUPERIORITY||Odds Estimator|1.48|||=|0.095|TWO_SIDED|95.0|0.79|2.16||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 34||2.16|0.79|=0.095
92218194|NCT02790138|184337140|SUPERIORITY||Odds Estimator|1.14|||=|0.575|TWO_SIDED|95.0|0.61|1.67||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 14||1.67|0.61|=0.575
92218195|NCT02790138|184337140|SUPERIORITY||Odds Estimator|1.21|||=|0.403|TWO_SIDED|95.0|0.65|1.78||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 22||1.78|0.65|=0.403
92218196|NCT02790138|184337140|SUPERIORITY||Odds Estimator|1.6|||=|0.047|TWO_SIDED|95.0|0.85|2.34||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 34||2.34|0.85|=0.047
92218197|NCT02790138|184337141|SUPERIORITY||Odds Estimator|1.44|||=|0.119|TWO_SIDED|95.0|0.77|2.12||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 14||2.12|0.77|=0.119
92218198|NCT02790138|184337141|SUPERIORITY||Odds Estimator|1.15|||=|0.542|TWO_SIDED|95.0|0.62|1.69||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 22||1.69|0.62|=0.542
92218199|NCT02790138|184337141|SUPERIORITY||Odds Estimator|1.22|||=|0.404|TWO_SIDED|95.0|0.65|1.78||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 34||1.78|0.65|=0.404
92218200|NCT01226459|184337154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.1|||<|0.0001|TWO_SIDED|95.0|5.0|13.1|||ANCOVA|P-value is from ANCOVA model with treatment and center as factors and Baseline hair count as a covariate.||Intent to Treat (ITT) population defined as all participants randomly assigned to a treatment group who received dispensed investigational product. Four participants in vehicle group and 3 participants in foam group had no hair information at Baseline. Statistical analysis is of the change from baseline to week 24 data.||13.1|5.0|<0.0001
92275247|NCT00434161|184452577|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.192|TWO_SIDED|95.0|0.33|1.26|||Log Rank|||All comparisons for the long-term safety endpoints were based on the combined palifermin group (pre- and post- high dose chemotherapy and pre-high dose chemotherapy only) versus placebo (placebo over palifermin). Overall survival was analyzed using the Kaplan-Meier method. Kaplan-Meier estimates were provided together with the 95% confidence interval.||1.26|0.33|0.192
92275248|NCT00434161|184452578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.417|||||TWO_SIDED|95.0|-11.086|45.919||||||||45.919|-11.086|
92275249|NCT00434161|184452579|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.236|TWO_SIDED|95.0|0.55|1.16|||Log Rank|||All comparisons for the long-term safety endpoints were based on the combined palifermin group (pre- and post- high dose chemotherapy and pre-high dose chemotherapy only) versus placebo (placebo over palifermin). Overall survival was analyzed using the Kaplan-Meier method. Kaplan-Meier estimates were provided together with the 95% confidence interval.||1.16|0.55|0.236
92346166|NCT01311661|184595471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.054|0.148|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.148|0.054|<0.0001
92218201|NCT01226459|184337155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.8|||<|0.0001|TWO_SIDED|95.0|7.0|14.7|||ANCOVA|P-value is from ANCOVA model with treatment and center as factors and Baseline hair count as a covariate.||Statistical analysis is of the change from baseline to week 12 data.||14.7|7.0|<0.0001
92218202|NCT01226459|184337156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|||<|0.0001|TWO_SIDED|95.0|0.35|1.04|||ANCOVA|||||1.04|0.35|<0.0001
92218203|NCT03770091|184337157|SUPERIORITY|ANOVA performed||||||0.6|||||||ANOVA|||||||0.6
92218204|NCT03770091|184337158|SUPERIORITY|||||||0.59|||||||ANOVA|||||||0.59
92218205|NCT03770091|184337159|SUPERIORITY|||||||0.9|||||||ANOVA|||||||0.9
92218206|NCT03770091|184337160|SUPERIORITY|||||||0.45|||||||ANCOVA|||||||0.45
92218207|NCT03770091|184337161|SUPERIORITY|||||||0.5|||||||ANOVA|||||||0.5
92218208|NCT01854645|184337166|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
92218209|NCT01854645|184337166|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
92218210|NCT01854645|184337166|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
92218211|NCT01854645|184337166|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
92218212|NCT01854645|184337166|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
92218213|NCT01854645|184337166|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
92158812|NCT02022462|184205065|SUPERIORITY|||||||0.228|||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change in z-scores of diet.||||.228
92158813|NCT02022462|184205065|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_DEVIATION|1.03||0.617|TWO_SIDED||||||t-test, 2 sided|||||||.617
92275250|NCT00434161|184452580|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.84||||0.372|TWO_SIDED|95.0|0.58|1.23|||Log Rank|||All comparisons for the long-term safety endpoints were based on the combined palifermin group (pre- and post- high dose chemotherapy and pre-high dose chemotherapy only) versus placebo (placebo over palifermin). Overall survival was analyzed using the Kaplan-Meier method. Kaplan-Meier estimates were provided together with the 95% confidence interval.||1.23|0.58|0.372
92275251|NCT03342898|184452582|NON_INFERIORITY|Non-inferiority of the immune response was performed only between YF + TDV (Group 3) and YF + Placebo (Group 1) at Day 120. Non-inferiority between Group 3 and Group 1 was concluded if the upper bound of the 95% CI for the seroprotection rate difference (Group 1 - Group 3) was less than 5%.|Seroprotection Rate Difference|0.4|||||TWO_SIDED|95.0|-1.85|2.69|||||The Newcombe score method was used to compute the 95% CI of the seroprotection rate difference.|||2.69|-1.85|
92275252|NCT03342898|184452583|NON_INFERIORITY|Non-inferiority of the immune response was performed only between TDV + YF (Group 3) and TDV + Placebo (Group 2) at Day 120. Non-inferiority between Group 3 and Group 2 was concluded if the upper bound of the 95% CI for the GMT ratio (Group 2/Group 3) was less than 2.0.|Geometric Mean Ratio|1.6|||||TWO_SIDED|95.0|1.19|2.22|||||Analysis of variance (ANOVA) model was used for analysis, including log-transformed value of titer as the dependent variable and trial group as a factor.|Day 120, DENV-1||2.22|1.19|
92346167|NCT01311661|184595471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.149|0.243|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.243|0.149|<0.0001
92346168|NCT01311661|184595471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.125|0.219|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.219|0.125|<0.0001
92346169|NCT01311661|184595472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.091|0.18|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.180|0.091|<0.0001
92346170|NCT01311661|184595472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.078|0.167|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.167|0.078|<0.0001
92346171|NCT01311661|184595472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.098|0.186|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.186|0.098|<0.0001
92346172|NCT01311661|184595472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.103|0.191|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.191|0.103|<0.0001
92346173|NCT01311661|184595473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.11|0.206|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.206|0.110|<0.0001
92346174|NCT01311661|184595473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.09|0.185|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.185|0.090|<0.0001
92346175|NCT01311661|184595473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.123|0.218|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.218|0.123|<0.0001
92346176|NCT01311661|184595473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.087|0.182|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.182|0.087|<0.0001
92158814|NCT02022462|184205066|SUPERIORITY||Mean Difference (Net)|0.01||||0.894|TWO_SIDED||||||t-test, 2 sided|||||||.894
92158815|NCT02022462|184205066|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.46||0.93|TWO_SIDED||||||t-test, 2 sided|||||||.930
92158816|NCT02022462|184205067|SUPERIORITY||Mean Difference (Net)|0.15||||0.53|TWO_SIDED||||||t-test, 2 sided|||||||.530
92158817|NCT02022462|184205067|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_DEVIATION|1.27||0.458|TWO_SIDED||||||t-test, 2 sided|||||||.458
92158818|NCT02022462|184205068|SUPERIORITY||Mean Difference (Net)|0.31||||0.036|TWO_SIDED||||||t-test, 2 sided|||||||.036
92158819|NCT02022462|184205068|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_DEVIATION|1.0||0.892|TWO_SIDED||||||t-test, 2 sided|||||||.892
92158820|NCT02022462|184205069|SUPERIORITY||Mean Difference (Net)|0.41||||0.931|TWO_SIDED||||||t-test, 2 sided|||||||.931
92346177|NCT01311661|184595474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.102|0.188|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.188|0.102|<0.0001
92346178|NCT01311661|184595474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.085|0.171|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.171|0.085|<0.0001
92346179|NCT01311661|184595474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.113|0.198|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.198|0.113|<0.0001
92346180|NCT01311661|184595474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.098|0.182|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.182|0.098|<0.0001
92346181|NCT01311661|184595475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.084|0.187|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.187|0.084|<0.0001
92346182|NCT01311661|184595475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.124|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.073|0.176|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.176|0.073|<0.0001
92346183|NCT01311661|184595475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.093|0.195|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.195|0.093|<0.0001
92346184|NCT01311661|184595475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.075|0.177|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.177|0.075|<0.0001
92346185|NCT01311661|184595476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.028||0.0001||95.0|0.055|0.165|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.165|0.055|0.0001
92346186|NCT01311661|184595476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.028||0.001||95.0|0.037|0.147|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.147|0.037|0.0010
92346187|NCT01311661|184595476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.063|0.172|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.172|0.063|<0.0001
92346188|NCT01311661|184595476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.057|0.166|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.166|0.057|<0.0001
92346189|NCT01311661|184595477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.629|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|0.5|0.757|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.757|0.500|<0.0001
92346190|NCT01311661|184595477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.601|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|0.473|0.73|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.730|0.473|<0.0001
92346191|NCT01311661|184595477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.631|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|0.503|0.758|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.758|0.503|<0.0001
92346192|NCT01311661|184595477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.685|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|0.558|0.813|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.813|0.558|<0.0001
92346193|NCT01311661|184595478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.665|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.532|0.799|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.799|0.532|<0.0001
92346194|NCT01311661|184595478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.564|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.431|0.698|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.698|0.431|<0.0001
92346195|NCT01311661|184595478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.702|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.569|0.835|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.835|0.569|<0.0001
92158821|NCT02022462|184205069|SUPERIORITY||Mean Difference (Net)|-6.43|STANDARD_DEVIATION|24.34||0.058|TWO_SIDED||||||t-test, 2 sided|||||||.058
92158822|NCT02022462|184205070|SUPERIORITY||Mean Difference (Net)|0.4||||0.576|TWO_SIDED||||||t-test, 2 sided|||||||.576
92158823|NCT02022462|184205070|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_DEVIATION|33.89||0.829|TWO_SIDED||||||t-test, 2 sided|||||||.829
92158824|NCT02022462|184205071|SUPERIORITY|||||||0.792|||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.792
92346196|NCT01311661|184595478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.599|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.467|0.732|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.732|0.467|<0.0001
92346197|NCT01311661|184595479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.641|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.516|0.765|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.765|0.516|<0.0001
92346198|NCT01311661|184595479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.577|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.453|0.701|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.701|0.453|<0.0001
92158825|NCT02022462|184205071|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_DEVIATION|0.55||0.622|TWO_SIDED||||||t-test, 2 sided|||||||.622
92158826|NCT02022462|184205072|SUPERIORITY||Mean Difference (Net)|1.986||||0.049|TWO_SIDED||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.049
92346199|NCT01311661|184595479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.667|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.544|0.79|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.790|0.544|<0.0001
92346200|NCT01311661|184595479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.643|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.519|0.766|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.766|0.519|<0.0001
92158827|NCT02022462|184205072|SUPERIORITY||Mean Difference (Net)|0.29|STANDARD_DEVIATION|1.67||0.211|TWO_SIDED||||||t-test, 2 sided|||||||.211
92158828|NCT02390557|184205078|SUPERIORITY||Mean Difference (Final Values)|10.7||||0.074|TWO_SIDED||||||Chi-squared, Corrected|||we had a prior hypothesis that the survey intervention would be associated with a larger increase in perceived quality of health care compared with control from Wave 1 to Wave 2||||0.074
92158829|NCT02390557|184205078|SUPERIORITY||Mean Difference (Final Values)|7.4||||0.069|TWO_SIDED||||||Chi-squared, Corrected|||We compared change in perception of quality of health care between Control v YES Health, wave 1 v Wave 2||||.069
92158830|NCT03635112|184205084|SUPERIORITY||Least Square Mean Difference|-0.76||||0.97|TWO_SIDED|95.0|-40.62|39.11|||Mixed Model Repeated Measures Analysis|||||39.11|-40.62|0.970
92158831|NCT03635112|184205084|SUPERIORITY||Least Square Mean Difference|-13.13||||0.51|TWO_SIDED|95.0|-52.46|26.19|||Mixed Model Repeated Measures Analysis|||||26.19|-52.46|0.510
92158832|NCT03635112|184205085|SUPERIORITY||Difference in Proportion|-0.07||||0.5102|TWO_SIDED|95.0|-0.277|0.135|||Cochran-Mantel-Haenszel Chi-square Test|||||0.135|-0.277|0.5102
92158833|NCT03635112|184205085|SUPERIORITY||Difference in Proportion|0.02||||0.8591|TWO_SIDED|95.0|-0.181|0.218|||Cochran-Mantel-Haenszel Chi-square Test|||||0.218|-0.181|0.8591
92158834|NCT03635112|184205086|SUPERIORITY||Difference in Proportion|-0.13||||0.1805|TWO_SIDED|95.0|-0.322|0.061|||Cochran-Mantel-Haenszel Chi-square Test|||||0.061|-0.322|0.1805
92158835|NCT03635112|184205086|SUPERIORITY||Difference in Proportion|-0.01||||0.9215|TWO_SIDED|95.0|-0.204|0.184|||Cochran-Mantel-Haenszel Chi-square Test|||||0.184|-0.204|0.9215
92158836|NCT03635112|184205087|SUPERIORITY||Least Square Mean Difference|1.6||||0.316|TWO_SIDED|95.0|-1.6|4.8|||ANCOVA|||||4.8|-1.6|0.316
92158837|NCT03635112|184205087|SUPERIORITY||Least Square Mean Difference|0.0||||0.988|TWO_SIDED|95.0|-3.2|3.2|||ANCOVA|||||3.2|-3.2|0.988
92158838|NCT03635112|184205088|SUPERIORITY||Difference in Proportion|-0.11||||0.1828|TWO_SIDED|95.0|-0.27|0.059|||Cochran-Mantel-Haenszel Chi-square Test|||||0.059|-0.270|0.1828
92158839|NCT03635112|184205088|SUPERIORITY||Difference in Proportion|0.06||||0.5785|TWO_SIDED|95.0|-0.133|0.244|||Cochran-Mantel-Haenszel Chi-square Test|||||0.244|-0.133|0.5785
92158840|NCT03635112|184205089|SUPERIORITY||Difference in Proportion|-0.07||||0.3776|TWO_SIDED|95.0|-0.225|0.095|||Cochran-Mantel-Haenszel Chi-square Test|||||0.095|-0.225|0.3776
92158841|NCT03635112|184205089|SUPERIORITY||Difference in Proportion|-0.04||||0.6063|TWO_SIDED|95.0|-0.189|0.111|||Cochran-Mantel-Haenszel Chi-square Test|||||0.111|-0.189|0.6063
92158842|NCT02002819|184205090|SUPERIORITY||Mean Difference (Net)|0.07||||0.55|TWO_SIDED|95.0|-0.18|0.32|||ANOVA|||||0.32|-0.18|0.55
92158843|NCT02002819|184205091|SUPERIORITY||Mean Difference (Net)|2.9||||0.14|TWO_SIDED|95.0|-1.0|6.8|||ANOVA|||||6.8|-1.0|0.14
92158844|NCT02002819|184205092|SUPERIORITY||Mean Difference (Net)|-1.0||||0.43|TWO_SIDED|95.0|-3.4|1.5|||ANOVA|||||1.5|-3.4|.43
92158845|NCT02002819|184205093|SUPERIORITY||Mean Difference (Net)|0.1||||0.63|TWO_SIDED|95.0|-0.2|0.4|||ANOVA|||||0.4|-0.2|0.63
92158846|NCT02002819|184205094|SUPERIORITY||Mean Difference (Net)|0.1||||0.9|TWO_SIDED|95.0|-1.1|1.3|||ANOVA|||||1.3|-1.1|0.90
92158847|NCT02002819|184205095|SUPERIORITY||Mean Difference (Net)|0.0||||0.8|TWO_SIDED|95.0|-0.3|0.3|||ANOVA|||||0.3|-0.3|0.80
92158848|NCT02002819|184205096|SUPERIORITY||Mean Difference (Net)|-1.0||||0.46|TWO_SIDED|95.0|-3.6|1.7|||ANOVA|||||1.7|-3.6|0.46
92158849|NCT02002819|184205097|SUPERIORITY||Mean Difference (Net)|0.1||||0.4|TWO_SIDED|95.0|-0.9|1.1|||ANOVA|||||1.1|-0.9|0.40
92158850|NCT02002819|184205098|SUPERIORITY||Mean Difference (Net)|7.4||||0.046|TWO_SIDED|95.0|0.2|14.7|||ANOVA|||||14.7|0.2|0.046
92158851|NCT02002819|184205099|SUPERIORITY||Mean Difference (Net)|-2.5||||0.3|TWO_SIDED|95.0|-7.8|2.7|||ANOVA|||||2.7|-7.8|.30
92158852|NCT02002819|184205100|SUPERIORITY||Mean Difference (Net)|3.8||||0.52|TWO_SIDED|95.0|-8.5|16.0|||Cohen f|||||16.0|-8.5|0.52
92158853|NCT02002819|184205101|SUPERIORITY||Mean Difference (Net)|0.7||||0.4|TWO_SIDED|95.0|-1.0|2.4|||ANOVA|||||2.4|-1.0|0.40
92158854|NCT02002819|184205102|SUPERIORITY||Mean Difference (Net)|-0.2||||0.63|TWO_SIDED|95.0|-1.1|0.7|||ANOVA|||||0.7|-1.1|0.63
92158855|NCT02002819|184205104|SUPERIORITY||Mean Difference (Net)|0.8||||0.15|TWO_SIDED|95.0|-0.3|1.8|||ANOVA|||||1.8|-0.3|.15
92158856|NCT03006341|184205111|OTHER||C-Statistic|0.81|||||||||||Regression, Logistic|Logistic regression with bleeding history or predisposition as dependent and treatment groups and claims based variables as the independent variables|The C-statistic can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|"The concordance statistic is equal to the area under a receiver operating characteristic (ROC) curve. The C-statistic (sometimes called the concordance statistic or C-index) is a measure of goodness of fit for binary outcomes in a logistic regression model."||||
92158857|NCT03006341|184205113|OTHER||Adjusted R squared statistic|0.02|||||||||||Regression, Linear|Logistic regression model with serum creatinine as the dependent variable and treatment groups and claims based variables as the independent variables|The adjusted R² statistic, or coefficient of determination, is the proportion of the variance in the (EMR) outcome that is predictable from the independent (claims) variables, adjusted for the number of predictors in the model.|R-squared is a statistical measure of how close the data are to the fitted regression line. 0% indicates that the model explains none of the variability of the response data around its mean. 100% indicates that the model explains all the variability of the response data around its mean.||||
92346201|NCT01311661|184595480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.591|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001||95.0|0.436|0.746|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.746|0.436|<0.0001
92218214|NCT00698997|184337184|OTHER|Non- equivalence.|slope difference|1.01||||0.03|TWO_SIDED||||||Mixed Models Analysis|||We used a generalized linear mixed model (GLMM). Change-over-Time was modeled as a linear within-subject effect of time across all observed data for each participant. We fit splines to manage the differing lengths of time in parent-training versus direct treatment. In all analyses, site was included as a categorical covariate to account for potential differences. Effect sizes were reported following Cohen's recommendations as f2.||||.03
92346202|NCT01311661|184595480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.522|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001||95.0|0.366|0.677|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.677|0.366|<0.0001
92346203|NCT01311661|184595480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.594|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001||95.0|0.439|0.749|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.749|0.439|<0.0001
92346204|NCT01311661|184595480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.623|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001||95.0|0.468|0.777|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.777|0.468|<0.0001
92346205|NCT01311661|184595481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.529|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.396|0.662|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.662|0.396|<0.0001
92346206|NCT01311661|184595481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.277|0.543|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.543|0.277|<0.0001
92346207|NCT01311661|184595481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.603|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.471|0.736|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.736|0.471|<0.0001
92346208|NCT01311661|184595481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.481|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.349|0.613|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.613|0.349|<0.0001
92346209|NCT01311661|184595482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.957|STANDARD_ERROR_OF_MEAN|3.18|<|0.0001||95.0|26.709|39.206|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||39.206|26.709|<0.0001
92346210|NCT01311661|184595482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.632|STANDARD_ERROR_OF_MEAN|3.167|<|0.0001||95.0|26.409|38.855|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||38.855|26.409|<0.0001
92346211|NCT01311661|184595482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.66|STANDARD_ERROR_OF_MEAN|3.161|<|0.0001||95.0|25.448|37.872|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||37.872|25.448|<0.0001
92346212|NCT01311661|184595482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.895|STANDARD_ERROR_OF_MEAN|3.161|<|0.0001||95.0|22.683|35.107|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||35.107|22.683|<0.0001
92158858|NCT03006341|184205115|OTHER||Adjusted R squared statistic|0.04|||||||||||Regression, Linear|Linear regression model with duration of atrial fibrillation as dependent and treatment groups and claims based variables as independent variables|The adjusted R² statistic, or coefficient of determination, is the proportion of the variance in the (EMR) outcome that is predictable from the independent (claims) variables, adjusted for the number of predictors in the model.|R-squared is a statistical measure of how close the data are to the fitted regression line. 0% indicates that the model explains none of the variability of the response data around its mean. 100% indicates that the model explains all the variability of the response data around its mean.||||
92346213|NCT01311661|184595483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.87|STANDARD_ERROR_OF_MEAN|3.046|<|0.0001||95.0|22.884|34.856|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||34.856|22.884|<0.0001
92218215|NCT05082376|184337208|OTHER||Adjusted Mean Difference|7.7|||<|0.0001|TWO_SIDED|95.0|6.6|8.8|||ANCOVA|Analysis of Covariance (ANCOVA) model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 2 hours post-treatment||8.8|6.6|<0.0001
92346214|NCT01311661|184595483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.056|STANDARD_ERROR_OF_MEAN|3.034|<|0.0001||95.0|26.094|38.018|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||38.018|26.094|<0.0001
92346215|NCT01311661|184595483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.816|STANDARD_ERROR_OF_MEAN|3.028|<|0.0001||95.0|25.864|37.767|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||37.767|25.864|<0.0001
92346216|NCT01311661|184595483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.327|STANDARD_ERROR_OF_MEAN|3.028|<|0.0001||95.0|27.375|39.278|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||39.278|27.375|<0.0001
92346217|NCT01311661|184595484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.581|STANDARD_ERROR_OF_MEAN|0.346|<|0.0001||95.0|-2.262|-0.9|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||-0.900|-2.262|<0.0001
92346218|NCT01311661|184595484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.426|STANDARD_ERROR_OF_MEAN|0.345|<|0.0001||95.0|-2.104|-0.748|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-0.748|-2.104|<0.0001
92218216|NCT05082376|184337208|OTHER||Adjusted Mean Difference|6.9|||<|0.0001|TWO_SIDED|95.0|5.8|7.9|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 4 hours post-treatment.||7.9|5.8|<0.0001
92346219|NCT01311661|184595484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.738|STANDARD_ERROR_OF_MEAN|0.344|<|0.0001||95.0|-2.415|-1.062|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||-1.062|-2.415|<0.0001
92346220|NCT01311661|184595484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.689|STANDARD_ERROR_OF_MEAN|0.344||0.0458||95.0|-1.366|-0.013|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.013|-1.366|0.0458
92346221|NCT01311661|184595485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|173.391|STANDARD_ERROR_OF_MEAN|19.484|<|0.0001||95.0|135.099|211.682|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||211.682|135.099|<0.0001
92346222|NCT01311661|184595485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|155.097|STANDARD_ERROR_OF_MEAN|19.406|<|0.0001||95.0|116.961|193.234|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||193.234|116.961|<0.0001
92346223|NCT01311661|184595485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|149.268|STANDARD_ERROR_OF_MEAN|19.369|<|0.0001||95.0|111.204|187.333|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||187.333|111.204|<0.0001
92346224|NCT01311661|184595485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|150.441|STANDARD_ERROR_OF_MEAN|19.369|<|0.0001||95.0|112.377|188.505|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||188.505|112.377|<0.0001
92346225|NCT01311661|184595486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|142.251|STANDARD_ERROR_OF_MEAN|18.997|<|0.0001||95.0|104.916|179.586|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||179.586|104.916|<0.0001
92346226|NCT01311661|184595486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|132.138|STANDARD_ERROR_OF_MEAN|18.92|<|0.0001||95.0|94.954|169.322|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||169.322|94.954|<0.0001
92346227|NCT01311661|184595486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|142.136|STANDARD_ERROR_OF_MEAN|18.885|<|0.0001||95.0|105.021|179.251|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||179.251|105.021|<0.0001
92346228|NCT01311661|184595486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|157.306|STANDARD_ERROR_OF_MEAN|18.885|<|0.0001||95.0|120.192|194.42|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||194.420|120.192|<0.0001
92346229|NCT01311661|184595487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.554|STANDARD_ERROR_OF_MEAN|0.115|<|0.0001||95.0|-0.78|-0.329|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||-0.329|-0.780|<0.0001
92158859|NCT03006341|184205121|OTHER||C-Statistic|0.88|||||||||||Regression, Logistic|Logistic regression model with diabetes as the dependent variable and treatment groups and claims based variables as the independent variables.|The C-statistic can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|"The concordance statistic is equal to the area under a ROC curve. The C-statistic (sometimes called the concordance statistic or C-index) is a measure of goodness of fit for binary outcomes in a logistic regression model."||||
92158860|NCT03006341|184205122|OTHER||C-Statistic|0.69|||||||||||Regression, Logistic|Logistic regression model with hyperlipidemia as the dependent variable and treatment groups and claims based variables as the independent variables.|The C-statistic can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|"The concordance statistic is equal to the area under a ROC curve. The C-statistic (sometimes called the concordance statistic or C-index) is a measure of goodness of fit for binary outcomes in a logistic regression model."||||
92158861|NCT03006341|184205123|OTHER||Adjusted R squared statistic|0.34|||||||||||Regression, Linear|Linear regression model with HAS-BLED score as the dependent variable and treatment groups and claims based variables as the independent variables.|The adjusted R² statistic, or coefficient of determination, is the proportion of the variance in the (EMR) outcome that is predictable from the independent (claims) variables, adjusted for the number of predictors in the model.|R-squared is a statistical measure of how close the data are to the fitted regression line. 0% indicates that the model explains none of the variability of the response data around its mean. 100% indicates that the model explains all the variability of the response data around its mean.||||
92158862|NCT01950260|184205128|SUPERIORITY|||||||0.23|||||||Fisher Exact|||||||0.23
92158863|NCT01950260|184205129|SUPERIORITY|||||||0.41|||||||Regression, Linear|||||||0.41
92346230|NCT01311661|184595487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.637|STANDARD_ERROR_OF_MEAN|0.114|<|0.0001||95.0|-0.862|-0.412|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-0.412|-0.862|<0.0001
92346231|NCT01311661|184595487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.588|STANDARD_ERROR_OF_MEAN|0.114|<|0.0001||95.0|-0.813|-0.364|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||-0.364|-0.813|<0.0001
92346232|NCT01311661|184595487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.546|STANDARD_ERROR_OF_MEAN|0.114|<|0.0001||95.0|-0.77|-0.322|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.322|-0.770|<0.0001
92346233|NCT01311661|184595492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.357|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001||95.0|-0.461|-0.253|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||-0.253|-0.461|<0.0001
92346234|NCT01311661|184595492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.296|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001||95.0|-0.4|-0.192|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-0.192|-0.400|<0.0001
92346235|NCT01311661|184595492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.301|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001||95.0|-0.405|-0.198|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||-0.198|-0.405|<0.0001
92346236|NCT01311661|184595492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.302|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001||95.0|-0.405|-0.198|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.198|-0.405|<0.0001
92346237|NCT01900314|184595494|SUPERIORITY_OR_OTHER|||||||0.16|||||||ANCOVA|||Repeated measures ANCOVA at 4 weeks with baseline MADRS as co-variate||||0.16
92346238|NCT01900314|184595495|SUPERIORITY_OR_OTHER|||||||0.04|||||||ANCOVA|||Repeated measures ANCOVA with baseline MADRS as co-variate||||0.04
92346239|NCT04497883|184595497|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|% Ratio of Geometric least square means|110.41|||||TWO_SIDED|90.0|91.7|132.94|||ANOVA|||The comparison analysis was planned between Cohort A: Maribavir 400 mg and Cohort B: Maribavir 400 mg group participants only.||132.94|91.70|
92346240|NCT04497883|184595498|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|% Ratio of Geometric least square means|122.49|||||TWO_SIDED|90.0|96.83|154.95|||ANOVA|||The comparison analysis was planned between Cohort A: Maribavir 400 mg and Cohort B: Maribavir 400 mg group participants only.||154.95|96.83|
92346241|NCT04497883|184595499|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|% Ratio of Geometric least square means|125.08|||||TWO_SIDED|90.0|97.99|159.64|||ANOVA|||The comparison analysis was planned between Cohort A: Maribavir 400 mg and Cohort B: Maribavir 400 mg group participants only.||159.64|97.99|
92346242|NCT04848480|184595531|NON_INFERIORITY|Non-inferiority was considered confirmed if the estimated treatment difference was below 0.3%.|Treatment difference|0.05||||0.0065|TWO_SIDED|95.0|-0.13|0.23|||ANCOVA|||Change from baseline in HbA1c after 26 weeks was analysed using ANCOVA model with treatment, region, HbA1c group at screening and pre-trial basal insulin treatment as fixed factors, and baseline response as covariate.||0.23|-0.13|0.0065
92346243|NCT02908347|184595569|SUPERIORITY||Median Difference (Final Values)|0.64||||0.8785|TWO_SIDED|95.0|-2.09|3.36|||Wilcoxon (Mann-Whitney)|||||3.36|-2.09|0.8785
92346244|NCT02908347|184595572|SUPERIORITY|||||||1|||||||Fisher Exact|||PASI 30 - Day 29||||1
92158864|NCT01950260|184205130|SUPERIORITY|||||||0.33|||||||Regression, Linear|||||||0.33
92158865|NCT03283553|184205133|SUPERIORITY|||||||0.264||||||P-value represents interaction for differential changes between time point (9 months compared to baseline) and group assignment.|Regression, Logistic|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Complete illness understanding at 9 months was compared to baseline using logistic regression models estimated with generalized estimating equations (GEE) and an exchangeable correlation specification. Each model included group assignment, time (9 months versus baseline), their interaction, and covariates.||||0.264
92158866|NCT03283553|184205134|SUPERIORITY|||||||0.555||||||P-value represents the significance of the term for group assignment.|Regression, Linear|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Satisfaction with cancer care at 9 months was compared to baseline using linear regression models with the difference in the score as the outcome and a term for group assignment as the main independent variable.||||0.555
92158867|NCT03283553|184205135|SUPERIORITY|||||||0.619||||||P-value represents interaction for differential changes between time point (9 months vs baseline) and group assignment.|Regression, Logistic|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Symptoms of anxiety at 9 months were compared to baseline using logistic regression models estimated with generalized estimating equations (GEE) and an exchangeable correlation specification. Each model included group assignment, time (9 months versus baseline), their interaction, and covariates.||||0.619
92218217|NCT05082376|184337208|OTHER||Adjusted Mean Difference|5.1|||<|0.0001|TWO_SIDED|95.0|4.0|6.2|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 6 hours post-treatment.||6.2|4.0|<0.0001
92346245|NCT02908347|184595572|SUPERIORITY|||||||1|||||||Fisher Exact|||PASI 50 - Day 29||||1
92346246|NCT02908347|184595572|SUPERIORITY|||||||0.5136|||||||Fisher Exact|||PASI 30 - Day 43||||0.5136
92346247|NCT02908347|184595572|SUPERIORITY|||||||1|||||||Fisher Exact|||PASI 50 - Day 43||||1
92346248|NCT05516758|184595591|SUPERIORITY||Odds Ratio (OR)|1.88||||0.014|TWO_SIDED|95.0|1.14|3.11|||Regression, Logistic|||||3.11|1.14|0.014
92346249|NCT05516758|184595591|SUPERIORITY||Odds Ratio (OR)|1.53||||0.098|TWO_SIDED|95.0|0.92|2.52|||Regression, Logistic|||||2.52|0.92|0.098
92346250|NCT05516758|184595591|SUPERIORITY||Odds Ratio (OR)|1.21||||0.534|TWO_SIDED|95.0|0.66|2.23|||Regression, Logistic|||||2.23|0.66|0.534
92346251|NCT00402831|184595606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was declared when the lower bounds of the 95% confidence interval (CI) of the group difference in response rates was greater than -10%.|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-2.5|2.6||||||Measles difference||2.6|-2.5|
92346252|NCT00402831|184595606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was declared when the lower bounds of the 95% confidence interval (CI) of the group difference in response rates was greater than -10%.|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-3.0|3.3||||||Mumps difference||3.3|-3.0|
92346253|NCT00402831|184595606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was declared when the lower bounds of the 95% confidence interval (CI) of the group difference in response rates was greater than -10%.|Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-2.3|4.1||||||Rubella difference||4.1|-2.3|
92218218|NCT05082376|184337208|OTHER||Adjusted Mean Difference|4.7|||<|0.0001|TWO_SIDED|95.0|3.6|5.8|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 8 hours post-treatment.||5.8|3.6|<0.0001
92346254|NCT00402831|184595606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was declared when the lower bounds of the 95% confidence interval (CI) of the group difference in response rates was greater than -10%.|Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-2.1|4.1||||||Varicella||4.1|-2.1|
92346255|NCT04761822|184595654|SUPERIORITY||Risk Difference (RD)|0.026||||0.066|TWO_SIDED|95.0|-0.002|0.06||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.060|-0.002|0.066
92346256|NCT04761822|184595655|SUPERIORITY||Risk Difference (RD)|0.012||||0.267|TWO_SIDED|95.0|-0.016|0.042||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.042|-0.016|0.267
92346257|NCT04761822|184595656|SUPERIORITY||Risk Difference (RD)|0.016||||0.165|TWO_SIDED|95.0|-0.011|0.046||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.046|-0.011|0.165
92346258|NCT04761822|184595657|SUPERIORITY||Risk Difference (RD)|0.006||||0.572|TWO_SIDED|95.0|-0.021|0.033||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.033|-0.021|0.572
92346259|NCT04761822|184595658|SUPERIORITY||Risk Difference (RD)|0.016||||0.165|TWO_SIDED|95.0|-0.011|0.046|||Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.046|-0.011|0.165
92346260|NCT04761822|184595659|SUPERIORITY||Risk Difference (RD)|0.006||||0.572|TWO_SIDED|95.0|-0.021|0.033||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.033|-0.021|0.572
92346261|NCT04761822|184595660|SUPERIORITY||Risk Difference (RD)|0.015||||0.4574|TWO_SIDED|95.0|-0.045|0.055||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the participants that received their first active dose as their first injection proportion minus the participants that received their first active dose as their second injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.055|-0.045|0.4574
92346262|NCT04761822|184595661|SUPERIORITY||Risk Difference (RD)|-0.016||||0.3242|TWO_SIDED|95.0|-0.086|0.018||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the participants that received their first active dose as their first injection proportion minus the participants that received their first active dose as their second injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.018|-0.086|0.3242
92346263|NCT04761822|184595662|SUPERIORITY||Risk Difference (RD)|0.024||||0.31|TWO_SIDED|95.0|-0.037|0.07||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the participants that received their second active dose as their second injection proportion minus the participants that received their second active dose as their third injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.070|-0.037|0.3100
92346264|NCT04761822|184595663|SUPERIORITY||Risk Difference (RD)|-0.007||||0.807|TWO_SIDED|95.0|-0.0783|0.0366||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the participants that received their second active dose as their second injection proportion minus the participants that received their second active dose as their third injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.0366|-0.0783|0.8070
92158868|NCT03283553|184205136|SUPERIORITY|||||||0.532||||||P-value represents interaction for differential changes between time point (9 months compared to baseline) and group assignment.|Regression, Logistic|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Complete illness understanding at 9 months was compared to baseline using logistic regression models estimated with generalized estimating equations (GEE) and an exchangeable correlation specification. Each model included group assignment, time (9 months versus baseline), their interaction, and covariates.||||0.532
92158869|NCT03283553|184205137|SUPERIORITY|||||||0.108||||||P-value represents the significance of the term for group assignment.|Regression, Linear|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Satisfaction with cancer care at 9 months was compared to baseline using linear regression models with the difference in the score as the outcome and a term for group assignment as the main independent variable.||||0.108
92218219|NCT02568475|184337210|EQUIVALENCE|Continuous scale: score compares results before and after intervention without a cut parameter.|Mean Difference (Final Values)|3.59|STANDARD_ERROR_OF_MEAN|1.74||0.046|TWO_SIDED|95.0|0.059|7.12|||t-test, 2 sided|||||7.12|0.059|0.046
92346265|NCT04761822|184595664|SUPERIORITY||Risk Difference (RD)|0.001||||1|TWO_SIDED|95.0|-0.04|0.042||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the Pfizer-BioNTech COVID-19 vaccine first injection proportion minus comparison placebo first injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.042|-0.040|1.000
92346266|NCT04761822|184595665|SUPERIORITY||Risk Difference (RD)|-0.015||||0.25|TWO_SIDED|95.0|-0.053|0.018||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the Moderna COVID-19 vaccine first injection proportion minus comparison placebo first injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.018|-0.053|0.250
92346267|NCT04761822|184595666|SUPERIORITY||Risk Difference (RD)|0.058||||0.004|TWO_SIDED|95.0|0.024|0.101||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.101|0.024|0.004
92346268|NCT04761822|184595667|SUPERIORITY||Risk Difference (RD)|0.075|||<|0.001|TWO_SIDED|95.0|0.039|0.124||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.124|0.039|<0.001
92346269|NCT00248560|184595678|SUPERIORITY_OR_OTHER||Response rate|0.17|||||TWO_SIDED|95.0|0.08|0.32||||||||0.32|0.08|
92346270|NCT00614393|184595696|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.41||||0.06|TWO_SIDED|95.0|0.99|2.0|||Regression, Cox|||||2.00|0.99|0.06
92346271|NCT00614393|184595696|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||0.18|TWO_SIDED|95.0|0.89|1.79|||Regression, Cox|||||1.79|0.89|0.18
92346272|NCT00614393|184595697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.33||||0.07|TWO_SIDED|95.0|0.98|1.83|||Regression, Cox|||||1.83|0.98|0.07
92346273|NCT00614393|184595697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.44|TWO_SIDED|95.0|0.83|1.55|||Regression, Cox|||||1.55|0.83|0.44
92346274|NCT03556683|184595705|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Effect immediately following hypertonic saline treatment.||||<0.001
92346275|NCT03556683|184595706|SUPERIORITY|||||||0.99|||||||Mixed Models Analysis|||Effect of hypertonic saline 4 hours after treatment.||||0.99
92346276|NCT03286504|184595710|SUPERIORITY||proportion difference|0.05||||0.55|TWO_SIDED|95.0|-0.112|0.212|||Chi-squared||Direction of proportion difference = FANMI arm minus Standard of Care arm|||0.212|-0.112|0.55
92158870|NCT03283553|184205138|SUPERIORITY|||||||0.405||||||P-value represents interaction for differential changes between time point (9 months vs baseline) and group assignment.|Regression, Logistic|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Symptoms of anxiety at 9 months were compared to baseline using logistic regression models estimated with generalized estimating equations (GEE) and an exchangeable correlation specification. Each model included group assignment, time (9 months versus baseline), their interaction, and covariates.||||0.405
92346277|NCT03286504|184595711|SUPERIORITY||proportion difference|0.033||||0.71|TWO_SIDED|95.0|-0.145|0.211|||Chi-squared||Direction of proportion difference = FANMI arm minus Standard of Care arm|||0.211|-0.145|0.71
92158871|NCT03283553|184205139|SUPERIORITY|||||||0.412||||||P-value represents the significance of the term for group assignment.|Regression, Linear|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Quality of communication at 9 months was compared to baseline using linear regression models with the difference in the score as the outcome and a term for group assignment as the main independent variable.||||0.412
92158872|NCT03283553|184205140|SUPERIORITY|||||||0.872||||||P-value represents the significance of the term for group assignment.|Regression, Linear|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Quality of communication at 9 months was compared to baseline using linear regression models with the difference in the score as the outcome and a term for group assignment as the main independent variable.||||0.872
92158873|NCT03283553|184205141|SUPERIORITY||||||<|0.001|||||||Fisher Exact|P-value assess between-group differences in proportion of participants who were registered during the 9-month follow up period.||||||<0.001
92158874|NCT03283553|184205142|SUPERIORITY|||||||0.003|||||||Fisher Exact|P-value assess between-group differences in proportion of participants who used a patient portal feature at least once during 9-month follow up.||||||0.003
92346278|NCT03286504|184595713|SUPERIORITY||proportion difference|-0.05||||0.65|TWO_SIDED|95.0|-0.269|0.169|||Chi-squared||Direction of proportion difference = FANMI arm minus Standard of Care arm|||0.169|-0.269|0.65
92346279|NCT03286504|184595714|SUPERIORITY||proportion difference|0.226||||0.04|TWO_SIDED|95.0|0.015|0.438|||Chi-squared||Direction of proportion difference = FANMI arm minus Standard of Care arm|||0.438|0.015|0.04
92346280|NCT03286504|184595715|SUPERIORITY||proportion difference|0.208||||0.03|TWO_SIDED|95.0|0.023|0.393|||Chi-squared||Direction of proportion difference = FANMI arm minus Standard of Care arm.|||0.393|0.023|0.03
92346281|NCT03320369|184595742|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92346282|NCT02326883|184595749|SUPERIORITY||Cox Proportional Hazard|1.07|STANDARD_ERROR_OF_MEAN|0.12||0.61|TWO_SIDED|95.0|0.86|1.33||A priori two-sided comparison of Care Management condition to Usual Care|Log Rank|A priori Bonferonni-corrected threshold for statistical significance was 0.025.|To clarify direction of comparison: relative hazard of suicide attempt among participants assigned to Care Management was 1.07 (95% CI 0.86 - 1.33) higher compared to participants assigned to Usual Care|Comparison of participants assigned to Care Management intervention to those assigned to continued Usual Care||1.33|0.86|0.61
92346283|NCT02326883|184595749|SUPERIORITY|A priori two-sided comparison of Skills Training to usual care.|Cox Proportional Hazard|1.29|STANDARD_ERROR_OF_MEAN|0.14||0.02|TWO_SIDED|95.0|1.05|1.59||A priori Bonferonni-corrected threshold for statistical significance was 0.025.|Log Rank||To clarify direction of comparison: relative hazard of suicide attempt in participants assigned to Skills Training was 1.29 (95% CI 1.05-1.59) times higher than in those assigned to Usual Care|Comparison of Skills Training to Usual Care||1.59|1.05|0.02
92218220|NCT02568475|184337211|OTHER|This is a continuous scale with no clinical cut score/value. We tested mean differences between the two groups.|Mean Difference (Final Values)|6.78||||0.001|TWO_SIDED|95.0|2.9|10.6|||t-test, 2 sided|||||10.6|2.9|0.001
92218221|NCT02504554|184337217|OTHER||||||<|0.001||||||"no adjustment for multiple hypothesis testing since this was an exploratory study.~the p-value listed is the actual result from analysis of the study data."|Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank analysis of symptoms at 10 weeks (end of treatment) vs. baseline||||<0.001
92218222|NCT02504554|184337218|OTHER|paired 2-sided t-test comparing baseline and 10 weeks (end of treatment)|||||<|0.001||||||no adjustment for multiple comparisons|t-test, 2 sided|paired t-test, 2 sided||||||<0.001
92218223|NCT02504554|184337220|OTHER||||||<|0.001||||||"no adjustment for multiple comparisons~The p-value listed is the result for the actual analysis of the data."|Wilcoxon (Mann-Whitney)|||Wilcoxon signed-rank test comparing the baseline score vs. the score at 10 weeks (end of treatment).||||<0.001
92218224|NCT02504554|184337221|OTHER||||||<|0.001||||||"no adjustment for multiple comparisons~the p-value listed is the actual result for the study results."|Wilcoxon (Mann-Whitney)|||Wilcoxon signed-rank test comparing scores at baseline vs. 10 weeks (end of treatment)||||<0.001
92218225|NCT02504554|184337223|OTHER||||||<|0.001||||||"no adjustment for multiple comparisons~the p-value listed is the actual result for the analysis of the study data"|t-test, 2 sided|||2-sided t-test comparing the group at baseline vs. 18 weeks (8 weeks after end of treatment)||||<0.001
92218226|NCT02504554|184337224|OTHER|||||||0.002||||||no adjustment for multiple comparisons|Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare scores at baseline vs. at 10 weeks (end of treatment)||||0.002
92346284|NCT00790036|184595760|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.276|TWO_SIDED|95.0|0.69|1.22||P-value was obtained from the one-sided unstratified log rank test.|Log Rank|||||1.22|0.69|0.276
92346285|NCT00790036|184595761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.52|1.09||There was no formal testing of the OS between treatment since the primary endpoint was not statistically significant.||||||1.09|0.52|
92346286|NCT00790036|184595762|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.41|1.07||||||||1.07|0.41|
92218227|NCT03023930|184337230|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|proc logistic||||||<0.001
92218228|NCT03023930|184337231|SUPERIORITY|||||||0.011|||||||Regression, Logistic|proc logistic||||||0.011
92218229|NCT00290186|184337260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.539||95.0|-1.5|3.3|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||3.3|-1.5|0.539
92218230|NCT00290186|184337261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.921|TWO_SIDED|95.0|-1.6|1.8|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||1.8|-1.6|0.921
92218231|NCT00290186|184337262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.945|TWO_SIDED|95.0|-3.0|5.1|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||5.1|-3.0|0.945
92218232|NCT00290186|184337263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.342|TWO_SIDED|95.0|-5.1|2.2|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||2.2|-5.1|0.342
92218233|NCT00290186|184337264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.149|TWO_SIDED|95.0|-1.6|8.6|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||8.6|-1.6|0.149
92346287|NCT04428151|184595772|SUPERIORITY||Hazard Ratio (HR)|1.48||||0.9963|TWO_SIDED|95.0|1.11|1.97||One-sided p-value based on log-rank test stratified by baseline PD-L1 TPS (\<50% versus ≥50%) and baseline ECOG performance status (0 versus 1). The reported p-value is nominal.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by baseline PD-L1 TPS (\<50% versus ≥50%) and baseline ECOG performance status (0 versus 1).|||1.97|1.11|0.9963
92218234|NCT00290186|184337265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.685|TWO_SIDED|95.0|-3.0|5.1|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||5.1|-3.0|0.685
92218235|NCT00290186|184337266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.584|TWO_SIDED|95.0|-2.4|3.0|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||3.0|-2.4|0.584
92218236|NCT00290186|184337267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.498|TWO_SIDED|95.0|-1.5|3.7|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||3.7|-1.5|0.498
92218237|NCT00290186|184337268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.945|TWO_SIDED|95.0|-2.3|2.2|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||2.2|-2.3|0.945
92218238|NCT00290186|184337269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.932|TWO_SIDED|95.0|-2.1|2.4|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||2.4|-2.1|0.932
92218239|NCT00290186|184337270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3||||0.051|TWO_SIDED|95.0|-0.2|4.7|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||4.7|-0.2|0.051
92218240|NCT00290186|184337271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.648|TWO_SIDED|95.0|-4.0|2.8|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||2.8|-4.0|0.648
92218241|NCT00290186|184337272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.473|TWO_SIDED|95.0|-4.7|1.4|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||1.4|-4.7|0.473
92218242|NCT00290186|184337273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.0||||0.157|TWO_SIDED|95.0|-22.0|114.0|||t-test, 2 sided|||Between-group difference: positive values represent greater improvement in HBO group.||114|-22|0.157
92218243|NCT00290186|184337274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.876|TWO_SIDED|95.0|-15.0|13.0|||t-test, 2 sided|||Between-group difference: positive values represent greater improvement in HBO group.||13|-15|0.876
92346288|NCT04428151|184595773|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.4181|TWO_SIDED|95.0|0.74|1.28||One-sided p-value based on log-rank test stratified by baseline PD-L1 TPS (\<50% versus ≥50%) and baseline ECOG performance status (0 versus 1). The reported p-value is nominal.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by baseline PD-L1 TPS (\<50% versus ≥50%) and baseline ECOG performance status (0 versus 1).|||1.28|0.74|0.4181
92218244|NCT00290186|184337275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-79.0||||0.167|TWO_SIDED|95.0|-198.0|41.0|||t-test, 2 sided|||Between-group difference: negative values represent greater improvement in HBO group.||41|-198|0.167
92346289|NCT04428151|184595774|SUPERIORITY||Difference in Percentage|-6.5||||0.9266219|TWO_SIDED|95.0|-15.4|2.3|||Miettinen & Nurminen|One-sided p-value for testing H0: difference in % = 0 versus H1: difference in % \> 0. The reported p-value is nominal.|Based on Miettinen \& Nurminen method stratified by baseline PD-L1 TPS (\<50% versus ≥50%) and baseline ECOG performance status (0 versus 1).|||2.3|-15.4|0.9266219
92346290|NCT00392223|184595791|NON_INFERIORITY_OR_EQUIVALENCE|Analysis performed to assess non-inferiority by calculation \& examination of 95% CI. Analysis conducted via analysis of covariance (ANCOVA) including corresponding baseline value and centre as covariates. Non-inferiority margin was chosen as largest clinically acceptable difference. This was set as difference of 3 in GAGS global score. Azithromycin declared non-inferior to minocycline when two-sided 95% confidence interval for difference lied entirely to right of non-inferiority margin.|Mean Difference (Final Values)|-0.47||||||95.0|-2.48|1.54|||||Comparison between treatment groups was performed using an analysis of covariance (ANCOVA) method, with treatment, center, and baseline value GAGS global score included as covariates.|||1.54|-2.48|
92346291|NCT00392223|184595795|NON_INFERIORITY_OR_EQUIVALENCE|Analysis performed to assess non-inferiority by calculation \& examination of 95% CI. Analysis conducted via analysis of covariance (ANCOVA) including corresponding baseline value and centre as covariates. Non-inferiority margin was chosen as largest clinically acceptable difference. This was set as difference of 3 in GAGS global score. Azithromycin declared non-inferior to minocycline when two-sided 95% confidence interval for difference lied entirely to right of non-inferiority margin.|Mean Difference (Final Values)|-0.87||||||95.0|-2.58|0.84|||||ANCOVA adjusted for baseline, center and treatment.|||0.84|-2.58|
92346292|NCT05816070|184595797|NON_INFERIORITY|The non-inferiority margin is -10% based on the general standard of antibacterial drug. Non-inferiority is established when P\<0.05.||||||0.0137|||||||Chi-squared|||||||0.0137
92346293|NCT02814526|184595830|SUPERIORITY||Mean Difference (Net)|0.078||||0.29|TWO_SIDED||||||Regression, Linear|||||||0.29
92346294|NCT02814526|184595831|SUPERIORITY||Mean Difference (Net)|0.031||||0.74|TWO_SIDED||||||Regression, Linear|||||||0.74
92346295|NCT02814526|184595832|SUPERIORITY||Mean Difference (Net)|-0.009447||||0.8284|TWO_SIDED||||||Regression, Linear|||||||0.8284
92346296|NCT02814526|184595833|SUPERIORITY||Mean Difference (Net)|-0.02024||||0.7086|TWO_SIDED||||||Regression, Linear|||||||0.7086
92218245|NCT00290186|184337276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-38.0||||0.468|TWO_SIDED|95.0|-153.0|77.0|||t-test, 2 sided|||Between-group difference: negative values represent greater improvement in HBO group.||77|-153|0.468
92346297|NCT02814526|184595834|SUPERIORITY||Mean Difference (Net)|0.29||||0.06|TWO_SIDED||||||Regression, Linear|||||||0.06
92346298|NCT02814526|184595835|SUPERIORITY||Mean Difference (Net)|-0.17||||0.33|TWO_SIDED||||||Regression, Linear|||||||0.33
92346299|NCT02814526|184595836|SUPERIORITY||Mean Difference (Net)|-0.1||||0.49|TWO_SIDED||||||Regression, Linear|||||||0.49
92346300|NCT02814526|184595837|SUPERIORITY||Mean Difference (Net)|-0.02||||0.61|TWO_SIDED||||||Regression, Linear|||||||0.61
92346301|NCT02814526|184595838|SUPERIORITY||Mean Difference (Net)|-0.01||||0.78|TWO_SIDED||||||Regression, Linear|||||||0.78
92346302|NCT02814526|184595839|SUPERIORITY||Mean Difference (Net)|-0.04||||0.31|TWO_SIDED||||||Regression, Linear|||||||0.31
92218246|NCT00262522|184337284|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) test stratified by dosing regimen was used to assess the null hypothesis of no difference between the tablet and soft gel capsule (SGC). Sample size was 600 subjects (150 each in the 4 groups). Based on a projected 48% reporting treatment-emergent diarrhea in the QD arm and 32% in the BID arm within the SGC group, with a 12% reduction in the corresponding tablet groups, this sample size provided 80% power to determine a difference between the tablet and SGC.||||>0.100
92275253|NCT03342898|184452583|NON_INFERIORITY|Non-inferiority of the immune response was performed only between TDV + YF (Group 3) and TDV + Placebo (Group 2) at Day 120. Non-inferiority between Group 3 and Group 2 was concluded if the upper bound of the 95% CI for the GMT ratio (Group 2/Group 3) was less than 2.0.|Geometric Mean Ratio|1.3||||||95.0|1.03|1.75|||||ANOVA model was used for analysis, including log-transformed value of titer as the dependent variable and trial group as a factor.|Day 120, DENV-2||1.75|1.03|
92346303|NCT02814526|184595840|SUPERIORITY||Mean Difference (Net)|-0.0005||||0.817|TWO_SIDED||||||Regression, Linear|||||||0.817
92346304|NCT02814526|184595841|SUPERIORITY||Mean Difference (Net)|0.002||||0.64|TWO_SIDED||||||Regression, Linear|||||||0.64
92346305|NCT02814526|184595842|SUPERIORITY||Mean Difference (Net)|-0.01||||0.97|TWO_SIDED||||||Regression, Linear|||||||0.97
92346306|NCT02814526|184595843|SUPERIORITY||Mean Difference (Net)|-0.17||||0.94|TWO_SIDED||||||Regression, Linear|||||||0.94
92346307|NCT02431299|184595850|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Whether there were significant changes in the IMRS baseline scores to IMRS follow up scores.|t-test, 2 sided|t = 2.78, df = 182||||||<0.01
92346308|NCT02431299|184595851|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Linear|||Hypothesized that higher levels of IMR competence would predict higher IMRS outcomes.||||<0.05
92346309|NCT06178991|184595871|NON_INFERIORITY|The criterion for non-inferiority (NI) was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|1.38|||||TWO_SIDED|95.0|1.25|1.52|||||GMRs (ratio of Arm C to Arm D titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|H1N1||1.52|1.25|
92346310|NCT06178991|184595871|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|1.71|||||TWO_SIDED|95.0|1.58|1.86|||||GMRs (ratio of Arm C to Arm D titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|H3N2||1.86|1.58|
92346311|NCT06178991|184595871|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|0.66|||||TWO_SIDED|95.0|0.61|0.73|||||GMRs (ratio of Arm C to Arm D titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|Victoria||0.73|0.61|
92346312|NCT06178991|184595872|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the difference in percentage of participants achieving seroconversion was greater than -10%.|Difference in percentage of participants|17.9|||||TWO_SIDED|95.0|14.1|21.6|||||Difference in percentage of participants achieving seroconversion (Arm C - Arm D) and the associated 2-sided 95% CI was based on the Miettinen and Nurminen method. Data was expressed as percentages.|H1N1||21.6|14.1|
92346313|NCT06178991|184595872|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the difference in percentage of participants achieving seroconversion was greater than -10%.|Difference in percentage of participants|25.6|||||TWO_SIDED|95.0|21.7|29.3|||||Difference in percentage of participants achieving seroconversion (Arm C - Arm D) and the associated 2-sided 95% CI was based on the Miettinen and Nurminen method. Data was expressed as percentages.|H3N2||29.3|21.7|
92346314|NCT06178991|184595872|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the difference in percentage of participants achieving seroconversion was greater than -10%.|Difference in percentage of participants|-13.7|||||TWO_SIDED|95.0|-17.5|-10.0|||||Difference in percentage of participants achieving seroconversion (Arm C - Arm D) and the associated 2-sided 95% CI was based on the Miettinen and Nurminen method. Data was expressed as percentages.|Victoria||-10.0|-17.5|
92346315|NCT06178991|184595873|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|1.02|||||TWO_SIDED|95.0|0.94|1.1|||||GMRs (ratio of Arm C to Arm D titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|||1.10|0.94|
92346316|NCT06178991|184595874|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the difference in percentage of participants achieving seroresponse was greater than -10%.|Difference in percentage of participants|1.8|||||TWO_SIDED|95.0|-0.9|4.6|||||Difference in percentage of participants achieving seroresponse (Arm C - Arm D) and the associated 2-sided 95% CI was based on the Miettinen and Nurminen method. Data was expressed as percentages.|||4.6|-0.9|
92158875|NCT03283553|184205143|SUPERIORITY||||||<|0.001|||||||Fisher Exact|P-value assess between-group differences in proportion of participants who used a patient portal feature at least once during 9-month follow up.||||||<0.001
92158876|NCT03283553|184205144|SUPERIORITY|||||||0.128||||||P-value assess between-group differences in proportion of participants who used a patient portal feature at least once during 9-month follow up.|Fisher Exact|||||||0.128
92158877|NCT03283553|184205145|SUPERIORITY|||||||0.247||||||P-value assess between-group differences in proportion of participants who used a patient portal feature at least once during 9-month follow up.|Fisher Exact|||||||0.247
92158878|NCT03686683|184205146|SUPERIORITY||Odds Ratio (OR)|1.16||||0.4586|TWO_SIDED|95.0|0.78|1.74|||Cochran-Mantel-Haenszel|||||1.74|0.78|0.4586
92158879|NCT01770860|184205148|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-values presented were for each of the bandage groups compared to no treatment group.|Mixed Models Analysis|P-value is from mixed model with Treatment (trt) as fix effect, and subject as random effect.||||||<0.0001
92158880|NCT01770860|184205149|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-values presented were for each of the bandage groups compared to no treatment group.|Mixed Models Analysis|P-value is from mixed model with treatment (trt) as fix effect, and subject as random effect.||||||<0.0001
92158881|NCT01770860|184205150|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-values presented were for each of the bandage groups compared to no treatment group.|Mixed Models Analysis|P-value is from mixed model with treatment (trt) as fix effect, and subject as random effect.||||||<0.0001
92158882|NCT01770860|184205151|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-values presented were for each of the bandage groups compared to no treatment group.|Mixed Models Analysis|P-value is from mixed model with treatment (trt) as fix effect, and subject as random effect.||||||<0.0001
92158883|NCT01770860|184205152|SUPERIORITY_OR_OTHER|||||||0.0476|||||||Mixed Models Analysis|P-value is from mixed model with treatment (trt) as fix effect, and subject as random effect||||||0.0476
92158884|NCT00714233|184205159|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Paired t-test to analyze BMI at baseline and 24 weeks||||<0.05
92158885|NCT03432533|184205164|NON_INFERIORITY|Conclusions for the primary efficacy hypothesis of efficacy of self-administration of romosozumab by AI/Pen compared with HCP-administered romosozumab by PFS at lumbar spine BMD at Month 6 was made using a 1-sided test with type 1 error rate of 0.025 and noninferiority margin of -2.0%.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.6||0.84|TWO_SIDED|95.0|-1.3|1.0|||ANCOVA|||||1.0|-1.3|0.84
92158886|NCT00797225|184205177|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.25||0.0464|TWO_SIDED|95.0|-0.98|-0.01|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.01|-0.98|0.0464
92158887|NCT00797225|184205177|SUPERIORITY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.24||0.008|TWO_SIDED|95.0|-1.13|-0.17|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.17|-1.13|0.0080
92158888|NCT00797225|184205177|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.24||0.0159|TWO_SIDED|95.0|-1.08|-0.11|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.11|-1.08|0.0159
92275254|NCT03342898|184452583|NON_INFERIORITY|Non-inferiority of the immune response was performed only between TDV + YF (Group 3) and TDV + Placebo (Group 2) at Day 120. Non-inferiority between Group 3 and Group 2 was concluded if the upper bound of the 95% CI for the GMT ratio (Group 2/Group 3) was less than 2.0.|Geometric Mean Ratio|1.3||||||95.0|0.99|1.61|||||ANOVA model was used for analysis, including log-transformed value of titer as the dependent variable and trial group as a factor.|Day 120, DENV-3||1.61|0.99|
92346317|NCT06178991|184595875|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|1.16|||||TWO_SIDED|95.0|1.01|1.34|||||GMRs (ratio of Arm E to Arm G titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|H1N1||1.34|1.01|
92218247|NCT00262522|184337285|NON_INFERIORITY_OR_EQUIVALENCE|The 95% confidence interval for the difference in response rates (QD minus BID, based on the normal approximation to the binomial distribution) was used to assess noninferiority. The QD regimen was considered noninferior to the BID regimen if the lower limit of the confidence interval remained above -12%.|percentage of subjects responding|1.3||||0.715||95.0|-5.1|7.8|||normal approx. to the binomial distr.|||The null hypothesis was that the response rate for the once daily (QD) regimen was more than 12% lower than the response rate for the twice daily (BID) regimen. The planned sample size of 600 subjects (300 subjects in each of the QD and BID treatment regimens) provided over 90% power to reject the null hypothesis, i.e., to determine noninferiority based on the 12% margin.||7.8|-5.1|0.715
92218248|NCT00262522|184337286|NON_INFERIORITY_OR_EQUIVALENCE|The 95% confidence interval for the difference in response rates (QD minus BID, based on the normal approximation to the binomial distribution) was used to assess noninferiority. The QD regimen was considered noninferior to the BID regimen if the lower limit of the confidence interval remained above -12%.|percentage of subjects responding|-4.3||||0.249||95.0|-11.5|2.8|||normal approx. to the binomial distr.|||The null hypothesis was that the response rate for the once daily (QD) regimen was more than 12% lower than the response rate for the twice daily (BID) regimen. The planned sample size of 600 subjects (300 subjects in each of the QD and BID treatment regimens) provided over 90% power to reject the null hypothesis, i.e., to determine noninferiority based on the 12% margin.||2.8|-11.5|0.249
92218249|NCT00262522|184337287|SUPERIORITY_OR_OTHER|||||||0.269||95.0|||||ANOVA|||||||0.269
92346318|NCT06178991|184595875|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|0.97|||||TWO_SIDED|95.0|0.85|1.11|||||GMRs (ratio of Arm E to Arm H titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|H1N1||1.11|0.85|
92346319|NCT06178991|184595875|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|1.75|||||TWO_SIDED|95.0|1.56|1.97|||||GMRs (ratio of Arm E to Arm G titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|H3N2||1.97|1.56|
92346320|NCT06178991|184595875|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|0.92|||||TWO_SIDED|95.0|0.82|1.03|||||GMRs (ratio of Arm E to Arm H titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|H3N2||1.03|0.82|
92158889|NCT00797225|184205177|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.29||0.2563|TWO_SIDED|95.0|-0.89|0.24|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.24|-0.89|0.2563
92158890|NCT00797225|184205177|SUPERIORITY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.28||0.0239|TWO_SIDED|95.0|-1.21|-0.09|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.09|-1.21|0.0239
92158891|NCT00797225|184205177|SUPERIORITY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.28||0.028|TWO_SIDED|95.0|-1.19|-0.07|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.07|-1.19|0.0280
92158892|NCT00797225|184205177|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.29||0.6904|TWO_SIDED|95.0|-0.7|0.46|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.46|-0.70|0.6904
92158893|NCT00797225|184205177|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.29||0.4022|TWO_SIDED|95.0|-0.83|0.33|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.33|-0.83|0.4022
92218250|NCT01877915|184337288|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.27|TWO_SIDED|95.0|0.84|1.05|||Log Rank|||Statistical Analysis 1||1.05|0.84|0.270
92218251|NCT01877915|184337294|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.951|TWO_SIDED|95.0|0.41|2.59|||Log Rank|||Statistical Analysis 1 (Fatal Bleeding)||2.59|0.41|0.951
92218252|NCT01877915|184337294|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.253|TWO_SIDED|95.0|0.33|1.34|||Log Rank|||Statistical Analysis 2 (Bleeding in Critical Space with Potential for Permanent Disability)||1.34|0.33|0.253
92346321|NCT06178991|184595875|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|0.58|||||TWO_SIDED|95.0|0.52|0.66|||||GMRs (ratio of Arm E to Arm G titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|Victoria||0.66|0.52|
92218253|NCT01401842|184337320|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Mixed Models Analysis|||For the primary hypothesis, differences at follow-up between the two groups on lumbar extension muscular strength (Nm) were analyzed using linear mixed-effects regression models, accounting for the effects of cluster (platoon) and adjusting for baseline measures. The linear mixed-effects model treats the data as two levels (level 1 for individuals, level 2 for clusters), while also taking into account between-cluster variation.||||0.001
92218254|NCT01401842|184337321|SUPERIORITY_OR_OTHER|||||||0.871|TWO_SIDED||||||Mixed Models Analysis|||For the primary hypothesis, differences at follow-up between the two groups on core muscular endurance (seconds) were analyzed using linear mixed-effects regression models, accounting for the effects of cluster (platoon) and adjusting for baseline measures. The linear mixed-effects model treats the data as two levels (level 1 for individuals, level 2 for clusters), while also taking into account between-cluster variation.||||0.871
92346322|NCT06178991|184595875|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|1.25|||||TWO_SIDED|95.0|1.11|1.4|||||GMRs (ratio of Arm E to Arm H titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|Victoria||1.40|1.11|
92346323|NCT06178991|184595876|NON_INFERIORITY|The criterion for NI was lower bounds of the 2-sided 95% CI for the GMR was greater than 0.67.|GMR|0.91|||||TWO_SIDED|95.0|0.82|1.01|||||GMRs (ratio of Arm E to Arm F titers) and 2-sided 95% CIs were calculated by exponentiating mean difference of the logarithms of the titers between the two comparative vaccine groups and the corresponding CIs (based on the Student t distribution).|||1.01|0.82|
92346324|NCT02485860|184595903|SUPERIORITY|||||||0.094|||||||t-test, 2 sided|||||||0.094
92346325|NCT02273167|184595916|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits (CL) were adjusted for multiple comparisons (two alternative primary endpoints): To be declared non-inferior, the primary endpoint must show a difference in success rates of no greater than 10% in favour of MOVIPREP using lower 1-sided 97.5% CL. Calculated using exact Clopper-Pearson CLs. To accommodate the comparison of 2 NER1006 regimens a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated.|Difference in success rate|4.5||||0.055|ONE_SIDED|97.5|-4.0|||The p-value was adjusted for multiple comparisons (two alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||Hypothesis was to demonstrate non-inferiority (NI) of NER1006 2-Day to MOVIPREP (10% margin). Success rate was no. of patients with successful overall bowel cleansing as proportion of no. of patients in each group. Treatment effect was NER1006 2-Day success rate - MOVIPREP success rate. Hochberg procedure used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-4.00|0.055
92346326|NCT02273167|184595916|NON_INFERIORITY_OR_EQUIVALENCE|The CLs were adjusted for multiple comparisons (2 alternative primary endpoints): To be declared non-inferior, the primary endpoint must show a difference in success rates of no greater than 10% in favour of MOVIPREP using lower 1-sided 97.5% CLs. Calculated using exact Clopper-Pearson confidences limits. To accommodate the comparison of two NER1006 regimens a hierarchical testing approach will be used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated.|Difference in success rate|1.59||||0.328|ONE_SIDED|97.5|-6.91|||The p-value was adjusted for multiple comparisons (two alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||The hypothesis was to demonstrate NI of NER1006 1-Day to MOVIPREP (10% margin). Success rate was number of patients with successful overall bowel cleansing as proportion of number of patients in each group. Treatment effect was NER1006 1-Day success rate - MOVIPREP success rate. A Hochberg procedure was used to control Type I error since there were two alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-6.91|0.328
92346327|NCT02273167|184595917|NON_INFERIORITY_OR_EQUIVALENCE|Confidence limits (CL) were adjusted for multiple comparisons (2 alternative primary endpoints): To be declared non-inferior the primary endpoint must show a difference in success rates of no greater than 10% in favour of MOVIPREP using lower 1-sided 97.5% CLs. Calculated using exact Clopper-Pearson CLs. To accommodate the comparison of two NER1006 regimens a hierarchical testing approach will be used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated.|Difference in excellent plus good rate|16.56|||<|0.001|ONE_SIDED|97.5|8.11|||The p-value was adjusted for multiple comparisons (two alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||Hypothesis was to demonstrate NI of NER1006 2-Day to MOVIPREP (10% margin). Success rate was no. of patients with highly effective cleansing of the colon ascendens as proportion of no. of patients in each group. Treatment effect was NER1006 2-Day success rate - MOVIPREP success rate. Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||8.11|<0.001
92218255|NCT01401842|184337322|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Mixed Models Analysis|||For the primary hypothesis, differences at follow-up between the two groups on core muscular endurance (seconds) were analyzed using linear mixed-effects regression models, accounting for the effects of cluster (platoon) and adjusting for baseline measures. The linear mixed-effects model treats the data as two levels (level 1 for individuals, level 2 for clusters), while also taking into account between-cluster variation.||||0.021
92218256|NCT03227471|184337456|OTHER|||||||0.9943||||||P value within treatment|Mixed-effects model for repeated measure|||||||0.9943
92218257|NCT03227471|184337456|OTHER||||||<|0.0001||||||P value within treatment|Mixed-effects model for repeated measure|||||||<0.0001
92218258|NCT03227471|184337456|OTHER||||||<|0.0001||||||P value within treatment|Mixed-effects model for repeated measure|||||||< 0.0001
92218259|NCT03227471|184337456|OTHER||||||<|0.0001||||||P value within treatment|Mixed-effects model for repeated measure|||||||<0.0001
92218260|NCT03227471|184337457|OTHER|||||||0.8869||||||P value within treatment.|Mixed-effects model for repeated measure|||||||0.8869
92218261|NCT03227471|184337457|OTHER||||||<|0.0001||||||P value within treatment|Mixed-effects model for repeated measure|||||||<0.0001
92346328|NCT02273167|184595917|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits (CLs) were adjusted for multiple comparisons (2 alternative primary endpoints): To be declared non-inferior the primary endpoint must show a difference in success rates of no greater than 10% in favour of MOVIPREP using lower 1-sided 97.5% CLs. Calculated using exact Clopper-Pearson CLs. To accommodate the comparison of 2 NER1006 regimens a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated.|Difference in excellent plus good rate|18.74|||<|0.001|ONE_SIDED|97.5|10.32|||The p-value was adjusted for multiple comparisons (2 alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||Hypothesis was to demonstrate NI of NER1006 1-Day to MOVIPREP (10% margin). Success rate was no. of patients with highly effective cleansing of the colon ascendens as proportion of no. of patients in each group. Treatment effect was NER1006 1-Day success rate - MOVIPREP success rate. Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||10.32|<0.001
92346329|NCT02273167|184595918|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of MOVIPREP using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|3.55||||0.106|TWO_SIDED|95.0|-4.8|12.0||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 2-Day relative to MOVIPREP with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 2-Day rate - MOVIPREP rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||12.00|-4.80|0.106
92346330|NCT02273167|184595918|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of MOVIPREP using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|3.55||||0.106|TWO_SIDED|95.0|-4.8|12.0||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 1-Day relative to MOVIPREP with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 1-Day rate - MOVIPREP rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||12.00|-4.80|0.106
92346331|NCT02273167|184595919|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of MOVIPREP using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|-0.29||||0.569|TWO_SIDED|95.0|-8.74|8.02||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 2-Day relative to MOVIPREP with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 2-Day rate - MOVIPREP rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||8.02|-8.74|0.569
92369380|NCT02993822|184643594|SUPERIORITY||Mean Difference (Final Values)|-8.1||||0.047|TWO_SIDED|95.0|-16.0|-0.1|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-0.1|-16.0|0.047
92218262|NCT03227471|184337458|OTHER|||||||0.6407||||||P value within treatment|Mixed-effects model for repeated measure|||||||0.6407
92218263|NCT03227471|184337458|OTHER||||||<|0.0001||||||P value within treatment.|mixed-effects model for repeated measure|||||||<0.0001
92218264|NCT03227471|184337473|OTHER|||||||0.5802||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||0.5802
92218265|NCT03227471|184337473|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
92218266|NCT03227471|184337473|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
92218267|NCT03227471|184337473|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
92218268|NCT03227471|184337474|OTHER|||||||0.8712||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.8712
92218269|NCT03227471|184337474|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
92218270|NCT03227471|184337475|OTHER|||||||0.8359||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.8359
92218271|NCT03227471|184337475|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
92218272|NCT03227471|184337476|OTHER|||||||0.9453||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||0.9453
92218273|NCT03227471|184337476|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
92346332|NCT02273167|184595919|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of MOVIPREP using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|0.8||||0.455|TWO_SIDED|95.0|-7.65|9.11||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 1-Day relative to MOVIPREP with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 1-Day rate - MOVIPREP rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||9.11|-7.65|0.455
92346333|NCT02273167|184595920|NON_INFERIORITY_OR_EQUIVALENCE|To accommodate the comparison of two NER1006 regimens, a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated. Difference in Polyp Detection Rate in the colon ascendens was calculated as NER1006 2-Day rate - MOVIPREP rate (10% margin) determined using exact Clopper-Pearson confidence limits.|Difference in PDR|7.1||||0.024|TWO_SIDED|95.0|-1.41|15.47|||Fisher Exact|||If at least one of the primary endpoints were met, then key secondary endpoints were evaluated hierarchically in a pre-specified order. Non-inferiority was concluded if the 1-sided 97.5% confidence limit difference in proportion of events between 2 groups excluded a 10% or greater difference was in favor of MOVIPREP. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint had at least met non-inferiority.||15.47|-1.41|0.024
92346334|NCT02273167|184595920|NON_INFERIORITY_OR_EQUIVALENCE|To accommodate the comparison of two NER1006 regimens, a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated. Difference in Polyp Detection Rate in the colon ascendens was calculated as NER1006 rate - MOVIPREP rate (10% margin) determined using exact Clopper-Pearson confidence limits. Non-inferiority of NER1006 1-Day to MOVIPREP was proven.|Difference in PDR|2.37||||0.268|TWO_SIDED|95.0|-6.12|10.82||Superiority of NER1006 1-Day to MOVIPREP not demonstrated statistically.|Fisher Exact|||If at least one of the primary endpoints were met, then key secondary endpoints were evaluated hierarchically in a pre-specified order. Non-inferiority was concluded if the 1-sided 97.5% confidence limit difference in proportion of events between 2 groups excluded a 10% or greater difference was in favor of MOVIPREP. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint had at least met non-inferiority.||10.82|-6.12|0.268
92369381|NCT02993822|184643595|SUPERIORITY||Mean Difference (Final Values)|-10.1||||0.018|TWO_SIDED|95.0|-18.4|-1.8|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-1.8|-18.4|0.018
92158894|NCT00797225|184205177|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.29||0.0451|TWO_SIDED|95.0|-1.17|-0.01|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.01|-1.17|0.0451
92218274|NCT03227471|184337476|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
92218275|NCT03227471|184337476|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
92218276|NCT03227471|184337477|OTHER|||||||0.7849||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.7849
92218277|NCT03227471|184337477|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
92218278|NCT03227471|184337478|OTHER|||||||0.7356||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.7356
92218279|NCT03227471|184337478|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
92218280|NCT03227471|184337479|OTHER|||||||0.394||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||0.3940
92218281|NCT03227471|184337479|OTHER|||||||0.0003||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||0.0003
92218282|NCT03227471|184337479|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
92218283|NCT03227471|184337479|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
92218284|NCT03227471|184337480|OTHER|||||||0.4757||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.4757
92218285|NCT03227471|184337480|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
92218286|NCT03227471|184337481|OTHER|||||||0.007||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.0070
92218287|NCT03227471|184337481|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
92218288|NCT01251653|184337505|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|81.27|STANDARD_DEVIATION|63.3||0.4815|TWO_SIDED|90.0|44.863|147.205|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Gemcitabine vs. Afatinib without Gemcitabine was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||147.205|44.863|0.4815
92346335|NCT02273167|184595921|NON_INFERIORITY_OR_EQUIVALENCE|To accommodate the comparison of two NER1006 regimens, a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated. Difference in Polyp Detection Rate in the overall colon was calculated as NER1006 rate - MOVIPREP rate (10% margin) determined using exact Clopper-Pearson confidence intervals.|Difference in PDR|-0.49||||0.579|TWO_SIDED|95.0|-8.85|8.0|||Fisher Exact|||If at least one of the primary endpoints were met, then key secondary endpoints were evaluated hierarchically in a pre-specified order. Non-inferiority was concluded if the 1-sided 97.5% confidence limit difference in proportion of events between 2 groups excluded a 10% or greater difference was in favor of MOVIPREP. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint had at least met non-inferiority.||8.00|-8.85|0.579
92399803|NCT01210716|184691032|NON_INFERIORITY_OR_EQUIVALENCE|If the lower 97.5% confidence limit on the mean of the paired differences is greater than -15% of the Control group mean (i.e., p-value \<=0.05), then the Test group will be considered non-inferior in the primary efficacy parameter to Control at the margin of 15%.|Mean Difference (Final Values)|6.69|STANDARD_DEVIATION|6.97|<|0.001|ONE_SIDED|95.0|4.0||||paired t-test|||A one-sample t-test on the mean of paired differences was used to evaluate the primary objective. Sample size was determined using historical data and the 95% chi-square upper confidence limit on the observed standard deviation of the paired differences. A minimum sample of 27 pairs was required to demonstrate the AMICUS procedure to be non-inferior to Spectra with a mean efficiency of plasma removal with a non-inferiority margin of 15% with at least 97.5% (one-sided) confidence and 90% power.|||4.0|<0.001
92399804|NCT01791244|184691034|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.48||||0.9148|TWO_SIDED|95.0|-8.3|9.25|||linear mixed model|||Linear mixed model, with baseline value, time, Expanded Disability Status Score (EDSS) at baseline and sex as fixed factors was used for the analysis.||9.25|-8.30|0.9148
92158895|NCT00797225|184205178|SUPERIORITY||LS Mean Difference|-1.62|STANDARD_ERROR_OF_MEAN|0.48||0.0007|TWO_SIDED|95.0|-2.56|-0.69|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.69|-2.56|0.0007
92158896|NCT00797225|184205178|SUPERIORITY||LS Mean Difference|-1.63|STANDARD_ERROR_OF_MEAN|0.47||0.0006|TWO_SIDED|95.0|-2.56|-0.7|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.70|-2.56|0.0006
92158897|NCT00797225|184205178|SUPERIORITY||LS Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.47||0.0073|TWO_SIDED|95.0|-2.21|-0.35|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.35|-2.21|0.0073
92158898|NCT00797225|184205178|SUPERIORITY||LS Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.48||0.0054|TWO_SIDED|95.0|-2.28|-0.4|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.40|-2.28|0.0054
92158899|NCT00797225|184205178|SUPERIORITY||LS Mean Difference|-2.07|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-3.01|-1.12|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-1.12|-3.01|< 0.0001
92158900|NCT00797225|184205178|SUPERIORITY||LS Mean Difference|-2.73|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-3.67|-1.79|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-1.79|-3.67|< 0.0001
92158901|NCT00797225|184205178|SUPERIORITY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.48||0.0509|TWO_SIDED|95.0|-1.89|0.0|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.00|-1.89|0.0509
92158902|NCT00797225|184205178|SUPERIORITY||LS mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|0.48||0.0046|TWO_SIDED|95.0|-2.33|-0.43|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.43|-2.33|0.0046
92158903|NCT00797225|184205178|SUPERIORITY||LS Mean Difference|-2.32|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-3.26|-1.38|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-1.38|-3.26|< 0.0001
92346336|NCT02273167|184595921|NON_INFERIORITY_OR_EQUIVALENCE|To accommodate the comparison of two NER1006 regimens, a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated. Difference in Polyp Detection Rate in the overall colon was calculated as NER1006 1-Day rate - MOVIPREP rate (10% margin) determined using exact Clopper-Pearson confidence limits.|Difference in PDR|0.61||||0.478|TWO_SIDED|95.0|-7.78|9.09|||Fisher Exact|||If at least one of the primary endpoints were met, then key secondary endpoints were evaluated hierarchically in a pre-specified order. Non-inferiority was concluded if the 1-sided 97.5% confidence limit difference in proportion of events between 2 groups excluded a 10% or greater difference was in favor of MOVIPREP. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint had at least met non-inferiority.||9.09|-7.78|0.478
92346337|NCT03082729|184595922|SUPERIORITY|||||||0.612|||||||t-test, 2 sided|||||||0.612
92346338|NCT03082729|184595923|SUPERIORITY|||||||0.083|||||||t-test, 2 sided|||||||0.083
92346339|NCT03082729|184595924|SUPERIORITY|||||||0.617|||||||t-test, 2 sided|||||||0.617
92346340|NCT03082729|184595925|SUPERIORITY|||||||0.524|||||||t-test, 2 sided|||||||0.524
92346341|NCT03082729|184595926|SUPERIORITY|||||||0.972|||||||t-test, 2 sided|||||||0.972
92346342|NCT03082729|184595927|SUPERIORITY|||||||0.315|||||||t-test, 2 sided|||||||0.315
92346343|NCT03082729|184595928|SUPERIORITY|||||||0.443|||||||t-test, 2 sided|||||||0.443
92346344|NCT03082729|184595929|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||||||0.027
92346345|NCT03082729|184595930|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||||||0.390
92346346|NCT03082729|184595931|SUPERIORITY|||||||0.116|||||||t-test, 2 sided|||||||0.116
92218289|NCT01251653|184337505|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|95.36|STANDARD_DEVIATION|15.4||0.0149|TWO_SIDED|90.0|84.139|108.077|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Docetaxel vs. Afatinib without Docetaxel was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||108.077|84.139|0.0149
92346347|NCT03082729|184595932|SUPERIORITY|||||||0.331|||||||t-test, 2 sided|||||||0.331
92346348|NCT03082729|184595933|SUPERIORITY|||||||0.225|||||||t-test, 2 sided|||||||0.225
92346349|NCT03082729|184595934|SUPERIORITY|||||||0.141|||||||t-test, 2 sided|||||||0.141
92346350|NCT03082729|184595935|SUPERIORITY|||||||0.882|||||||t-test, 2 sided|||||||0.882
92346351|NCT03082729|184595936|SUPERIORITY|||||||0.326|||||||t-test, 2 sided|||||||0.326
92346352|NCT03082729|184595937|SUPERIORITY|||||||0.094|||||||t-test, 2 sided|||||||0.094
92346353|NCT03082729|184595938|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||0.087
92399805|NCT03546621|184691067|SUPERIORITY||||||<|0.0001|||||||Bonferroni-Holm|||For each of the three Myrcludex B treatment groups, a null hypothesis of no clinically significant difference in proportion of responders compared to the control group (Tenofovir only), at week 24, were tested using the one-sided Wald test for superiority, at a one-sided overall significance level of 0.05 adjusted for multiple testing according to Bonferroni-Holm, with the superiority limit (test margin) set to 5%.||||<.0001
92346354|NCT03082729|184595939|SUPERIORITY|||||||0.771|||||||t-test, 2 sided|||||||0.771
92346355|NCT03082729|184595940|SUPERIORITY|||||||0.491|||||||t-test, 2 sided|||||||0.491
92346356|NCT03082729|184595941|SUPERIORITY|||||||0.924|||||||t-test, 2 sided|||||||0.924
92346357|NCT03082729|184595942|SUPERIORITY|||||||0.868|||||||t-test, 2 sided|||||||0.868
92346358|NCT03082729|184595943|SUPERIORITY|||||||0.922|||||||t-test, 2 sided|||||||0.922
92346359|NCT03082729|184595944|SUPERIORITY|||||||0.192|||||||t-test, 2 sided|||||||0.192
92346360|NCT03082729|184595945|SUPERIORITY|||||||0.453|||||||t-test, 2 sided|||||||0.453
92346361|NCT03082729|184595946|SUPERIORITY|||||||0.714|||||||t-test, 2 sided|||||||0.714
92346362|NCT03082729|184595947|SUPERIORITY|||||||0.434|||||||t-test, 2 sided|||||||0.434
92346363|NCT03082729|184595948|SUPERIORITY|||||||0.329|||||||t-test, 2 sided|||||||0.329
92346364|NCT03082729|184595949|SUPERIORITY|||||||0.963|||||||t-test, 2 sided|||||||0.963
92346365|NCT03082729|184595950|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||0.400
92346366|NCT03082729|184595951|SUPERIORITY|||||||0.223|||||||t-test, 2 sided|||||||0.223
92346367|NCT03082729|184595952|SUPERIORITY|||||||0.241|||||||t-test, 2 sided|||||||0.241
92346368|NCT03082729|184595953|SUPERIORITY|||||||0.348|||||||t-test, 2 sided|||||||0.348
92346369|NCT03082729|184595954|SUPERIORITY|||||||0.424|||||||t-test, 2 sided|||||||0.424
92346370|NCT03082729|184595955|SUPERIORITY|||||||0.667|||||||t-test, 2 sided|||||||0.667
92346371|NCT03082729|184595956|SUPERIORITY|||||||0.135|||||||t-test, 2 sided|||||||0.135
92346372|NCT03082729|184595957|SUPERIORITY|||||||0.331|||||||t-test, 2 sided|||||||0.331
92346373|NCT03082729|184595958|SUPERIORITY|||||||0.538|||||||t-test, 2 sided|||||||0.538
92346374|NCT03082729|184595959|SUPERIORITY|||||||0.791|||||||t-test, 2 sided|||||||0.791
92346375|NCT03082729|184595960|SUPERIORITY|||||||0.925|||||||t-test, 2 sided|||||||0.925
92346376|NCT03082729|184595961|SUPERIORITY|||||||0.161|||||||t-test, 2 sided|||||||0.161
92346377|NCT03082729|184595962|SUPERIORITY|||||||0.546|||||||t-test, 2 sided|||||||0.546
92346378|NCT03082729|184595963|SUPERIORITY|||||||0.667|||||||t-test, 2 sided|||||||0.667
92346379|NCT03082729|184595964|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.840
92346380|NCT03082729|184595965|SUPERIORITY|||||||0.367|||||||t-test, 2 sided|||||||0.367
92346381|NCT03082729|184595966|SUPERIORITY|||||||0.773|||||||t-test, 2 sided|||||||0.773
92346382|NCT03082729|184595967|SUPERIORITY|||||||0.968|||||||t-test, 2 sided|||||||0.968
92346383|NCT03082729|184595968|SUPERIORITY|||||||0.953|||||||t-test, 2 sided|||||||0.953
92346384|NCT03082729|184595969|SUPERIORITY|||||||0.911|||||||t-test, 2 sided|||||||0.911
92346385|NCT03082729|184595970|SUPERIORITY|||||||0.944|||||||t-test, 2 sided|||||||0.944
92346386|NCT03082729|184595971|SUPERIORITY|||||||0.226|||||||t-test, 2 sided|||||||0.226
92346387|NCT03082729|184595972|SUPERIORITY|||||||0.988|||||||t-test, 2 sided|||||||0.988
92346388|NCT03082729|184595973|SUPERIORITY|||||||0.189|||||||t-test, 2 sided|||||||0.189
92346389|NCT03082729|184595974|SUPERIORITY|||||||0.488|||||||t-test, 2 sided|||||||0.488
92346390|NCT03082729|184595975|SUPERIORITY|||||||0.523|||||||t-test, 2 sided|||||||0.523
92218290|NCT01251653|184337505|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|88.12|STANDARD_DEVIATION|9.2||0.0208|TWO_SIDED|90.0|81.778|94.964|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Docetaxel vs. Afatinib without Docetaxel was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||94.964|81.778|0.0208
92218291|NCT01251653|184337506|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|141.36|STANDARD_DEVIATION|14.7||0.8715|TWO_SIDED|90.0|115.848|172.495|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Gemcitabine vs. Afatinib without Gemcitabine was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||172.495|115.848|0.8715
92346391|NCT03082729|184595976|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.060
92346392|NCT03082729|184595977|SUPERIORITY|||||||0.777|||||||t-test, 2 sided|||||||0.777
92346393|NCT03082729|184595978|SUPERIORITY|||||||0.946|||||||t-test, 2 sided|||||||0.946
92346394|NCT03082729|184595979|SUPERIORITY|||||||0.351|||||||t-test, 2 sided|||||||0.351
92346395|NCT03082729|184595980|SUPERIORITY|||||||0.041|||||||t-test, 2 sided|||||||0.041
92346396|NCT03082729|184595981|SUPERIORITY|||||||0.884|||||||t-test, 2 sided|||||||0.884
92346397|NCT03082729|184595982|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||||||0.018
92346398|NCT03082729|184595983|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
92346399|NCT03082729|184595984|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||||||0.018
92346400|NCT03082729|184595985|SUPERIORITY|||||||0.283|||||||t-test, 2 sided|||||||0.283
92346401|NCT03082729|184595986|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.010
92346402|NCT03082729|184595987|SUPERIORITY|||||||0.371|||||||t-test, 2 sided|||||||0.371
92346403|NCT03082729|184595988|SUPERIORITY|||||||0.555|||||||t-test, 2 sided|||||||0.555
92346404|NCT03082729|184595989|SUPERIORITY|||||||0.533|||||||t-test, 2 sided|||||||0.533
92346405|NCT03082729|184595990|SUPERIORITY|||||||0.137|||||||t-test, 2 sided|||||||0.137
92346406|NCT03082729|184595991|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92346407|NCT03082729|184595991|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||||||0.015
92346408|NCT03082729|184595991|SUPERIORITY|||||||0.537|||||||t-test, 2 sided|||||||0.537
92346409|NCT03082729|184595992|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92346410|NCT03082729|184595992|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.010
92346411|NCT03082729|184595992|SUPERIORITY|||||||0.918|||||||t-test, 2 sided|||||||0.918
92346412|NCT03082729|184595993|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92346413|NCT03082729|184595993|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92346414|NCT03082729|184595994|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92346415|NCT03082729|184595994|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92346416|NCT03082729|184595995|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92346417|NCT03082729|184595995|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92346418|NCT03082729|184595996|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92346419|NCT03082729|184595996|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92346420|NCT03082729|184595998|SUPERIORITY|||||||0.092|||||||t-test, 2 sided|||||||0.092
92346421|NCT03082729|184595998|SUPERIORITY|||||||0.678|||||||t-test, 2 sided|||||||0.678
92346422|NCT03082729|184595999|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.020
92346423|NCT03082729|184595999|SUPERIORITY|||||||0.762|||||||t-test, 2 sided|||||||0.762
92346424|NCT03082729|184596000|SUPERIORITY|||||||0.973|||||||t-test, 2 sided|||||||0.973
92346425|NCT03082729|184596000|SUPERIORITY|||||||0.805|||||||t-test, 2 sided|||||||0.805
92346426|NCT03082729|184596001|SUPERIORITY|||||||0.951|||||||t-test, 2 sided|||||||0.951
92346427|NCT03082729|184596001|SUPERIORITY|||||||0.661|||||||t-test, 2 sided|||||||0.661
92346428|NCT03082729|184596002|SUPERIORITY|||||||0.614|||||||t-test, 2 sided|||||||0.614
92346429|NCT03082729|184596002|SUPERIORITY|||||||0.306|||||||t-test, 2 sided|||||||0.306
92346430|NCT03082729|184596003|SUPERIORITY|||||||0.322|||||||t-test, 2 sided|||||||0.322
92346431|NCT03082729|184596003|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||||||0.032
92346432|NCT03082729|184596004|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.960
92346433|NCT03082729|184596004|SUPERIORITY|||||||0.268|||||||t-test, 2 sided|||||||0.268
92346434|NCT03082729|184596005|SUPERIORITY|||||||0.501|||||||t-test, 2 sided|||||||0.501
92346435|NCT03082729|184596005|SUPERIORITY|||||||0.235|||||||t-test, 2 sided|||||||0.235
92346436|NCT03082729|184596006|SUPERIORITY|||||||0.259|||||||t-test, 2 sided|||||||0.259
92346437|NCT03082729|184596006|SUPERIORITY|||||||0.219|||||||t-test, 2 sided|||||||0.219
92346438|NCT03082729|184596007|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.140
92346439|NCT03082729|184596007|SUPERIORITY|||||||0.633|||||||t-test, 2 sided|||||||0.633
92346440|NCT03082729|184596008|SUPERIORITY|||||||0.302|||||||t-test, 2 sided|||||||0.302
92346441|NCT03082729|184596008|SUPERIORITY|||||||0.405|||||||t-test, 2 sided|||||||0.405
92346442|NCT03082729|184596009|SUPERIORITY|||||||0.297|||||||t-test, 2 sided|||||||0.297
92346443|NCT03082729|184596009|SUPERIORITY|||||||0.324|||||||t-test, 2 sided|||||||0.324
92346444|NCT03082729|184596010|SUPERIORITY|||||||0.812|||||||t-test, 2 sided|||||||0.812
92346445|NCT03082729|184596010|SUPERIORITY|||||||0.264|||||||t-test, 2 sided|||||||0.264
92346446|NCT03082729|184596011|SUPERIORITY|||||||0.283|||||||t-test, 2 sided|||||||0.283
92346447|NCT03082729|184596011|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.250
92346448|NCT03082729|184596012|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.170
92275255|NCT03342898|184452583|NON_INFERIORITY|Non-inferiority of the immune response was performed only between TDV + YF (Group 3) and TDV + Placebo (Group 2) at Day 120. Non-inferiority between Group 3 and Group 2 was concluded if the upper bound of the 95% CI for the GMT ratio (Group 2/Group 3) was less than 2.0.|Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.89|1.46|||||ANOVA model was used for analysis, including log-transformed value of titer as the dependent variable and trial group as a factor.|Day 120, DENV-4||1.46|0.89|
92275256|NCT03342898|184452587|NON_INFERIORITY|Non-inferiority of the immune response was performed only between YF + TDV (Group 3) and YF + Placebo (Group 1) at Day 30. Non-inferiority between Group 3 and Group 1 was concluded if the upper bound of the 95% CI for the GMT ratio (Group 1/Group 3) was less than 2.0.|Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.77|1.26|||||ANOVA model was used for analyses, including the log-transformed value of titer as the dependent variable and trial group as a factor.|||1.26|0.77|
92275257|NCT00461500|184452641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.23|STANDARD_ERROR_OF_MEAN|17.6||0.683||95.0|-27.96|42.43|||ANCOVA||mean difference = drug SFC 100 minus FP 100|||42.43|-27.96|0.683
92275258|NCT01267266|184452668|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Log Rank|||||||0.20
92275259|NCT01335477|184452675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|93.73|STANDARD_ERROR_OF_MEAN|24.907||0.0002||95.0|44.78|142.68||The objective of this trial was to assess the superiority of nintedanib 150 mg bid compared to placebo on the annual rate of decline in FVC.|Random coefficient regression|The Roger-Kenward approximation was used to estimate denominators degrees of freedom.|"Within-patient errors are modelled by an Unstructured variance-covariance matrix.~Inter-individual variability is modelled by a Variance-components variance-covariance matrix.~Nintedanib 150 mg bid versus Placebo."|"Random coefficient regression with fixed effects for treatment, gender, age, height and random effect of patient specific intercept and time.~A hierarchical procedure was used in order to demonstrate the superiority of nintedanib over placebo for one primary and two key secondary endpoints.~The consecutive steps of the hierarchy were only considered if the previous step was significant at the one-sided 2.5% level and the results were in favour of nintedanib."||142.68|44.78|0.0002
92275260|NCT01335477|184452676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|1.151||0.0197||95.0|-4.95|-0.43|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Total score, baseline SGRQ Total score-by-visit and random effect for patient.||-0.43|-4.95|0.0197
92275261|NCT01335477|184452677|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.38||||0.005||95.0|0.19|0.77|||Log Rank||Nintedanib 150 mg bid versus Placebo.|Hazard Ratio is based on a Cox's regression model with terms for treatment, gender, age and height.||0.77|0.19|0.0050
92275262|NCT01335477|184452678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|109.77|STANDARD_ERROR_OF_MEAN|19.808|<|0.0001||95.0|70.92|148.62|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient.||148.62|70.92|<0.0001
92275263|NCT01335477|184452679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.24|STANDARD_ERROR_OF_MEAN|0.742|<|0.0001||95.0|2.78|5.69|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient.||5.69|2.78|<0.0001
92275264|NCT01335477|184452680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.06|STANDARD_ERROR_OF_MEAN|0.607|<|0.0001||95.0|1.87|4.25|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC \[%predicted\], baseline FVC \[%predicted\]-by-visit and random effect for patient.||4.25|1.87|<0.0001
92275265|NCT01335477|184452681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.21|STANDARD_ERROR_OF_MEAN|0.743|<|0.0001||95.0|2.76|5.67|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC \[%predicted\], baseline FVC \[%predicted\]-by-visit and random effect for patient.||5.67|2.76|<0.0001
92275266|NCT01335477|184452684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.286||||0.1833||95.0|0.89|1.86|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, age, gender, height and baseline FVC % predicted||1.86|0.89|0.1833
92275267|NCT01335477|184452685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.794||||0.0011||95.0|1.26|2.55|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, age, gender, height and baseline FVC % predicted.||2.55|1.26|0.0011
92275268|NCT01335477|184452686|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.664||||0.0218||95.0|1.08|2.57|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, baseline SGRQ total score||2.57|1.08|0.0218
92275269|NCT01335477|184452687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.675||0.4019||95.0|-4.69|1.88|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Symptoms component, baseline SGRQ Symptoms component-by-visit and random effect for patient.||1.88|-4.69|0.4019
92275270|NCT01335477|184452688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.08|STANDARD_ERROR_OF_MEAN|1.342||0.022||95.0|-5.71|-0.45|||Mixed Models Analysis||"Within-patient error are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ impact component, baseline SGRQ impact component-by-visit and random effect for patient||-0.45|-5.71|0.0220
92346449|NCT03082729|184596012|SUPERIORITY|||||||0.249|||||||t-test, 2 sided|||||||0.249
92346450|NCT03082729|184596013|SUPERIORITY|||||||0.526|||||||t-test, 2 sided|||||||0.526
92346451|NCT03082729|184596013|SUPERIORITY|||||||0.632|||||||t-test, 2 sided|||||||0.632
92346452|NCT03082729|184596014|SUPERIORITY|||||||0.584|||||||t-test, 2 sided|||||||0.584
92218292|NCT01251653|184337506|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|77.42|STANDARD_DEVIATION|16.8||0.6805|TWO_SIDED|90.0|68.516|87.473|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Docetaxel vs. Afatinib without Docetaxel was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||87.473|68.516|0.6805
92275271|NCT01335477|184452689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.31|STANDARD_ERROR_OF_MEAN|1.36||0.0152||95.0|-5.97|-0.64|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Activities component, baseline SGRQ Activities component-by-visit and random effect for patient||-0.64|-5.97|0.0152
92275272|NCT01335477|184452690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12|STANDARD_ERROR_OF_MEAN|1.192||0.0089||95.0|-5.46|-0.79|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ-I Total score, baseline SGRQ-I Total score-by-visit and random effect for patient.||-0.79|-5.46|0.0089
92275273|NCT01335477|184452691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.38|STANDARD_ERROR_OF_MEAN|1.685||0.1587||95.0|-5.68|0.93|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SOBQ score, baseline SOBQ score-by-visit and random effect for patient.||0.93|-5.68|0.1587
92275274|NCT01335477|184452692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.05|STANDARD_ERROR_OF_MEAN|1.713||0.2326||95.0|-1.31|5.41|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline CASA-Q Cough symptoms score, baseline CASA-Q Cough symptoms score-by-visit and random effect for patient.||5.41|-1.31|0.2326
92275275|NCT01335477|184452693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81|STANDARD_ERROR_OF_MEAN|1.564||0.2475||95.0|-1.26|4.88|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline CASA-Q Cough impact score, baseline CASA-Q Cough impact score-by-visit and random effect for patient.||4.88|-1.26|0.2475
92275276|NCT01335477|184452694|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.379||||0.069||95.0|0.98|1.95|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with term treatment||1.95|0.98|0.0690
92275277|NCT01335477|184452696|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.38||||0.007||95.0|0.19|0.77|||Normal distribution|Risk ratio was calculated as the ratio of risk of exacerbation in both treatment groups.|Nintedanib 150 mg bid versus Placebo|The log of the risk ratio was assumed to follow a normal distribution with mean 0 and variance equal to the sum of the reciprocals of the number of patients with at least one exacerbation in each treatment arm.||0.77|0.19|0.0070
92275278|NCT01335477|184452697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.2995||95.0|0.4|1.35|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard ratio is based on a Cox´s regression model with terms for treatment, gender, age and height.||1.35|0.40|0.2995
92275279|NCT01335477|184452698|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.6654||95.0|0.39|1.9|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height.||1.90|0.39|0.6654
92275280|NCT01335477|184452699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.2209||95.0|0.34|1.35|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard ratio is based on a Cox´s regression model with terms for treatment, gender, age and height.||1.35|0.34|0.2209
92275281|NCT01335477|184452700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.1664||95.0|0.37|1.21|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height.||1.21|0.37|0.1664
92275282|NCT01335477|184452701|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.2123||95.0|0.55|1.16|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height.||1.16|0.55|0.2123
92275283|NCT01335477|184452702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.213||0.2032||95.0|-0.15|0.69|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline SpO2, baseline SpO2-by-visit and random effect for patient.||0.69|-0.15|0.2032
92275284|NCT01335477|184452703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.1005||0.26||95.0|-0.084|0.31|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline DLCO (HGB Corrected) \[mmol/min/kPa\], baseline DLCO (HGB Corrected) \[mmol/min/kPa\]-by-visit and random effect for patient.||0.310|-0.084|0.2600
92218293|NCT01251653|184337506|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|83.95|STANDARD_DEVIATION|14.3||0.2327|TWO_SIDED|90.0|74.794|94.217|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Docetaxel vs. Afatinib without Docetaxel was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||94.217|74.794|0.2327
92218294|NCT01251653|184337507|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|136.11|STANDARD_DEVIATION|26.3||0.7759|TWO_SIDED|90.0|112.09|165.29|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Gemcitabine with Afatinib vs. Gemcitabine without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||165.29|112.09|0.7759
92218295|NCT01251653|184337508|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|118.41|STANDARD_DEVIATION|31.6||0.3359|TWO_SIDED|90.0|94.81|147.88|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Gemcitabine with Afatinib vs. Gemcitabine without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||147.88|94.81|0.3359
92346453|NCT03082729|184596014|SUPERIORITY|||||||0.191|||||||t-test, 2 sided|||||||0.191
92346454|NCT03082729|184596015|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||||||0.005
92346455|NCT03082729|184596015|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92346456|NCT03082729|184596016|SUPERIORITY|||||||0.533|||||||t-test, 2 sided|||||||0.533
92346457|NCT03082729|184596016|SUPERIORITY|||||||0.079|||||||t-test, 2 sided|||||||0.079
92346458|NCT03082729|184596017|SUPERIORITY|||||||0.338|||||||t-test, 2 sided|||||||0.338
92346459|NCT03082729|184596017|SUPERIORITY|||||||0.091|||||||t-test, 2 sided|||||||0.091
92346460|NCT03082729|184596018|SUPERIORITY|||||||0.102|||||||t-test, 2 sided|||||||0.102
92346461|NCT03082729|184596018|SUPERIORITY|||||||0.153|||||||t-test, 2 sided|||||||0.153
92346462|NCT03082729|184596019|SUPERIORITY|||||||0.226|||||||t-test, 2 sided|||||||0.226
92346463|NCT03082729|184596019|SUPERIORITY|||||||0.222|||||||t-test, 2 sided|||||||0.222
92346464|NCT03082729|184596020|SUPERIORITY|||||||0.384|||||||t-test, 2 sided|||||||0.384
92218296|NCT01251653|184337511|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|93.69|STANDARD_DEVIATION|19.5||0.0349|TWO_SIDED|90.0|81.352|107.89|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Docetaxel with Afatinib vs. Docetaxel without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||107.890|81.352|0.0349
92346465|NCT03082729|184596020|SUPERIORITY|||||||0.112|||||||t-test, 2 sided|||||||0.112
92346466|NCT03082729|184596021|SUPERIORITY|||||||0.636|||||||t-test, 2 sided|||||||0.636
92346467|NCT03082729|184596021|SUPERIORITY|||||||0.896|||||||t-test, 2 sided|||||||0.896
92346468|NCT03082729|184596022|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.800
92218297|NCT01251653|184337511|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|98.11|STANDARD_DEVIATION|30.4||0.0405|TWO_SIDED|90.0|81.053|118.76|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Docetaxel with Afatinib vs. Docetaxel without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||118.760|81.053|0.0405
92275285|NCT03549130|184452706|SUPERIORITY||Least Square (LS) mean difference|-0.77||||0.2446|TWO_SIDED|95.0|-2.06|0.53||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep problems.||0.53|-2.06|0.2446
92346469|NCT03082729|184596022|SUPERIORITY|||||||0.551|||||||t-test, 2 sided|||||||0.551
92346470|NCT03082729|184596023|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||||||0.440
92346471|NCT03082729|184596023|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.170
92346472|NCT03082729|184596024|SUPERIORITY|||||||0.278|||||||t-test, 2 sided|||||||0.278
92346473|NCT03082729|184596024|SUPERIORITY|||||||0.089|||||||t-test, 2 sided|||||||0.089
92346474|NCT03082729|184596025|SUPERIORITY|||||||0.795|||||||t-test, 2 sided|||||||0.795
92346475|NCT03082729|184596025|SUPERIORITY|||||||0.284|||||||t-test, 2 sided|||||||0.284
92346476|NCT03082729|184596026|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||0.880
92346477|NCT03082729|184596026|SUPERIORITY|||||||0.028|||||||t-test, 2 sided|||||||0.028
92346478|NCT03082729|184596027|SUPERIORITY|||||||0.746|||||||t-test, 2 sided|||||||0.746
92346479|NCT03082729|184596027|SUPERIORITY|||||||0.199|||||||t-test, 2 sided|||||||0.199
92346480|NCT03082729|184596028|SUPERIORITY|||||||0.814|||||||t-test, 2 sided|||||||0.814
92346481|NCT03082729|184596028|SUPERIORITY|||||||0.036|||||||t-test, 2 sided|||||||0.036
92346482|NCT03082729|184596029|SUPERIORITY|||||||0.494|||||||t-test, 2 sided|||||||0.494
92346483|NCT03082729|184596029|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.960
92346484|NCT03082729|184596030|SUPERIORITY|||||||0.777|||||||t-test, 2 sided|||||||0.777
92346485|NCT03082729|184596030|SUPERIORITY|||||||0.028|||||||t-test, 2 sided|||||||0.028
92346486|NCT03082729|184596031|SUPERIORITY|||||||0.241|||||||t-test, 2 sided|||||||0.241
92346487|NCT03082729|184596031|SUPERIORITY|||||||0.869|||||||t-test, 2 sided|||||||0.869
92346488|NCT03082729|184596032|SUPERIORITY|||||||0.977|||||||t-test, 2 sided|||||||0.977
92346489|NCT03082729|184596032|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
92346490|NCT03082729|184596033|SUPERIORITY|||||||0.591|||||||t-test, 2 sided|||||||0.591
92346491|NCT03082729|184596033|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||||||0.088
92346492|NCT03082729|184596034|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||||||0.260
92346493|NCT03082729|184596034|SUPERIORITY|||||||0.526|||||||t-test, 2 sided|||||||0.526
92346494|NCT03082729|184596035|SUPERIORITY|||||||0.545|||||||t-test, 2 sided|||||||0.545
92346495|NCT03082729|184596035|SUPERIORITY|||||||0.69|||||||t-test, 2 sided|||||||0.690
92346496|NCT03082729|184596036|SUPERIORITY|||||||0.542|||||||t-test, 2 sided|||||||0.542
92346497|NCT03082729|184596036|SUPERIORITY|||||||0.344|||||||t-test, 2 sided|||||||0.344
92346498|NCT03082729|184596037|SUPERIORITY|||||||0.918|||||||t-test, 2 sided|||||||0.918
92346499|NCT03082729|184596037|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
92346500|NCT03082729|184596038|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.510
92346501|NCT03082729|184596038|SUPERIORITY|||||||0.516|||||||t-test, 2 sided|||||||0.516
92346502|NCT03082729|184596039|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
92346503|NCT03082729|184596039|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||||||0.088
92346504|NCT03082729|184596040|SUPERIORITY|||||||0.392|||||||t-test, 2 sided|||||||0.392
92399806|NCT03546621|184691068|SUPERIORITY|||||||0.9818||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48. Two-sided Fisher's exact tests were used to test null hypothesis of no difference in the proportion of responders compared to the Tenofovir only group. Separate comparisons were made for each of the three Myrcludex B groups versus the control group, and the adjusted p-values were computed using the Bonferroni-Holm method.||||0.9818
92399807|NCT03546621|184691068|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value as smaller than 0.05|Bonferroni-Holm|||Week 48. Two-sided Fisher's exact tests were used to test null hypothesis of no difference in the proportion of responders compared to the Tenofovir only group. Separate comparisons were made for each of the three Myrcludex B groups versus the control group, and the adjusted p-values were computed using the Bonferroni-Holm method.||||1.0000
92218298|NCT01251653|184337512|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|90.78|STANDARD_DEVIATION|22.8||0.0728|TWO_SIDED|90.0|78.566|104.901|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Docetaxel with Afatinib vs. Docetaxel without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||104.901|78.566|0.0728
92218299|NCT01251653|184337512|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|85.74|STANDARD_DEVIATION|48.9||0.3294|TWO_SIDED|90.0|65.561|112.138|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Docetaxel with Afatinib vs. Docetaxel without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||112.138|65.561|0.3294
92346505|NCT03082729|184596040|SUPERIORITY|||||||0.177|||||||t-test, 2 sided|||||||0.177
92346506|NCT03082729|184596041|SUPERIORITY|||||||0.584|||||||t-test, 2 sided|||||||0.584
92346507|NCT03082729|184596041|SUPERIORITY|||||||0.065|||||||t-test, 2 sided|||||||0.065
92346508|NCT03082729|184596042|SUPERIORITY|||||||0.421|||||||t-test, 2 sided|||||||0.421
92218300|NCT00847145|184337516|NON_INFERIORITY_OR_EQUIVALENCE|The specified cut-off levels for the vaccine antigen measles is ≥255 mIU/mL to be greater than -10%.|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-5.0|2.0||||||The immunogenicity in 12B12M (1a) group was considered non-inferior to that in group 12M13B15B (2a), if for the measles antigen (two months after the MMRV vaccine), the lower limit of the two-sided 95% CI for the difference in the percentages of subjects with antibody response greater than or equal to the specified cut-off level for Measles antigen was greater than -10%.||2|-5|
92218301|NCT00847145|184337516|NON_INFERIORITY_OR_EQUIVALENCE|The specified cut-off level for the vaccine antigen mumps is ≥10 Enzyme Linked Immunosorbent Assay(ELISA) Antibody (Ab) units to be greater than -10%.|Percentage group difference|0.0|||||TWO_SIDED|95.0|-5.0|5.0||||||The immunogenicity in 12B12M(1a) group was considered non-inferior to that in group 12M13B15B(2a), if for the mumps antigen (two months after the MMRV vaccine), the lower limit of the two-sided 95% CI for the difference in the percentages of subjects with antibody response greater than or equal to the specified cut-off level for Mumps antigen was greater than -10%.||5|-5|
92346509|NCT03082729|184596042|SUPERIORITY|||||||0.145|||||||t-test, 2 sided|||||||0.145
92346510|NCT03082729|184596043|SUPERIORITY|||||||0.611|||||||t-test, 2 sided|||||||0.611
92346511|NCT03082729|184596043|SUPERIORITY|||||||0.345|||||||t-test, 2 sided|||||||0.345
92346512|NCT03082729|184596044|SUPERIORITY|||||||0.957|||||||t-test, 2 sided|||||||0.957
92346513|NCT03082729|184596044|SUPERIORITY|||||||0.425|||||||t-test, 2 sided|||||||0.425
92346514|NCT03082729|184596045|SUPERIORITY|||||||0.698|||||||t-test, 2 sided|||||||0.698
92218302|NCT00847145|184337516|NON_INFERIORITY_OR_EQUIVALENCE|The specified cut-off level for the vaccine antigen rubella is ≥10 IU/mL to be greater than -10%.|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-4.0|1.0||||||The immunogenicity in 12B12M(1a) group was considered non-inferior to that in group 12M13B15B (2a), if for the rubella antigen(two months after the MMRV vaccine), the lower limit of the two-sided 95% CI for the difference in the percentages of subjects with antibody response greater than or equal to the specified cut-off level for rubella antigen was greater than -10%.||1|-4|
92346515|NCT03082729|184596045|SUPERIORITY|||||||0.709|||||||t-test, 2 sided|||||||0.709
92346516|NCT03082729|184596046|SUPERIORITY|||||||0.362|||||||t-test, 2 sided|||||||0.362
92346517|NCT03082729|184596046|SUPERIORITY|||||||0.221|||||||t-test, 2 sided|||||||0.221
92346518|NCT03082729|184596047|SUPERIORITY|||||||0.813|||||||t-test, 2 sided|||||||0.813
92346519|NCT03082729|184596047|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
92346520|NCT03082729|184596048|SUPERIORITY|||||||0.752|||||||t-test, 2 sided|||||||0.752
92346521|NCT03082729|184596048|SUPERIORITY|||||||0.808|||||||t-test, 2 sided|||||||0.808
92346522|NCT03082729|184596049|SUPERIORITY|||||||0.251|||||||t-test, 2 sided|||||||0.251
92346523|NCT03082729|184596049|SUPERIORITY|||||||0.329|||||||t-test, 2 sided|||||||0.329
92346524|NCT03082729|184596050|SUPERIORITY|||||||0.215|||||||t-test, 2 sided|||||||0.215
92346525|NCT03082729|184596050|SUPERIORITY|||||||0.612|||||||t-test, 2 sided|||||||0.612
92346526|NCT03082729|184596051|SUPERIORITY|||||||0.307|||||||t-test, 2 sided|||||||0.307
92346527|NCT03082729|184596051|SUPERIORITY|||||||0.686|||||||t-test, 2 sided|||||||0.686
92346528|NCT03082729|184596052|SUPERIORITY|||||||0.139|||||||t-test, 2 sided|||||||0.139
92346529|NCT03082729|184596052|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.350
92346530|NCT03082729|184596053|SUPERIORITY|||||||0.721|||||||t-test, 2 sided|||||||0.721
92346531|NCT03082729|184596053|SUPERIORITY|||||||0.285|||||||t-test, 2 sided|||||||0.285
92346532|NCT03082729|184596054|SUPERIORITY|||||||0.804|||||||t-test, 2 sided|||||||0.804
92346533|NCT03082729|184596054|SUPERIORITY|||||||0.793|||||||t-test, 2 sided|||||||0.793
92346534|NCT03082729|184596055|SUPERIORITY|||||||0.293|||||||t-test, 2 sided|||||||0.293
92346535|NCT03082729|184596055|SUPERIORITY|||||||0.355|||||||t-test, 2 sided|||||||0.355
92346536|NCT03082729|184596056|SUPERIORITY|||||||0.101|||||||t-test, 2 sided|||||||0.101
92346537|NCT03082729|184596056|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.170
92346538|NCT03082729|184596057|SUPERIORITY|||||||0.137|||||||t-test, 2 sided|||||||0.137
92346539|NCT03082729|184596057|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||||||0.204
92346540|NCT03082729|184596058|SUPERIORITY|||||||0.115|||||||t-test, 2 sided|||||||0.115
92399808|NCT03546621|184691068|SUPERIORITY|||||||0.7132||||||The threshold for statistical significance was p=0.05|Bonferroni-Holm|||Week 48. Two-sided Fisher's exact tests were used to test null hypothesis of no difference in the proportion of responders compared to the Tenofovir only group. Separate comparisons were made for each of the three Myrcludex B groups versus the control group, and the adjusted p-values were computed using the Bonferroni-Holm method.||||0.7132
92399809|NCT03546621|184691069|SUPERIORITY|||||||0.0232||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||"Fisher's exact test was used to test a null hypothesis of no difference in proportions against a two-sided alternative hypothesis. Separate tests were performed for each of the three Myrcludex B treatment groups against the control group, at week 24 and week 48, and adjusted p-values were computered using the Bonferroni-Holm method.~This analysis, and presentation of descriptive statistics, was repeated for the subgroups of patients with normal/abnormal baseline ALT values."||||0.0232
92399810|NCT03546621|184691069|SUPERIORITY|||||||0.0047||||||The threshold for statistical significance was p=0.05|Bonferroni-Holm|||Fisher's exact test was used to test a null hypothesis of no difference in proportions against a two-sided alternative hypothesis. Separate tests were performed for each of the three Myrcludex B treatment groups against the control group, at week 24 and week 48, and adjusted p-values were computered using the Bonferroni-Holm method.||||0.0047
92399811|NCT03546621|184691069|SUPERIORITY|||||||0.001||||||The threshold for statistical significance was p=0.05|Bonferroni-Holm|||Fisher's exact test was used to test a null hypothesis of no difference in proportions against a two-sided alternative hypothesis. Separate tests were performed for each of the three Myrcludex B treatment groups against the control group, at week 24 and week 48, and adjusted p-values were computered using the Bonferroni-Holm method.||||0.0010
92399812|NCT03546621|184691070|SUPERIORITY|||||||0.1642||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||"Week 24. The change from baseline to week 24 and week 48 in ALT levels was performed using van Elteren tests.~Fisher's exact test was used to test a null hypothesis of no difference in proportions (of patients with normal ALT values) against a two-sided alternative hypothesis. Separate tests were performed for each of the three Myrcludex B treatment groups against the control group, at week 24 and week 48, and adjusted p-values were computed using the Bonferroni-Holm method."||||0.1642
92399813|NCT03546621|184691070|SUPERIORITY|||||||0.0428||||||A test is considered statistically significant if the adjusted p-value is smaller than 0.05|Bonferroni-Holm|||Week 24||||0.0428
92158904|NCT00797225|184205179|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.0453|TWO_SIDED|95.0|-0.33|0.0|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.00|-0.33|0.0453
92158905|NCT00797225|184205179|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.08||0.0609|TWO_SIDED|95.0|-0.31|0.01|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.01|-0.31|0.0609
92158906|NCT00797225|184205179|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.0069|TWO_SIDED|95.0|-0.38|-0.06|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.06|-0.38|0.0069
92158907|NCT00797225|184205179|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.0556|TWO_SIDED|95.0|-0.32|0.0|||Mixed-effects Repeated Measures Model]|||Analysis at Week 8. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.00|-0.32|0.0556
92158908|NCT00797225|184205179|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.08||0.0387|TWO_SIDED|95.0|-0.33|-0.01|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.01|-0.33|0.0387
92158909|NCT00797225|184205179|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.08||0.0008|TWO_SIDED|95.0|-0.44|-0.12|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.12|-0.44|0.0008
92346541|NCT03082729|184596058|SUPERIORITY|||||||0.378|||||||t-test, 2 sided|||||||0.378
92346542|NCT03082729|184596059|SUPERIORITY|||||||0.122|||||||t-test, 2 sided|||||||0.122
92346543|NCT03082729|184596059|SUPERIORITY|||||||0.815|||||||t-test, 2 sided|||||||0.815
92346544|NCT03082729|184596060|SUPERIORITY|||||||0.321|||||||t-test, 2 sided|||||||0.321
92346545|NCT03082729|184596060|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||||||0.204
92346546|NCT03082729|184596061|SUPERIORITY|||||||0.352|||||||t-test, 2 sided|||||||0.352
92346547|NCT03082729|184596061|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||||||0.180
92346548|NCT03082729|184596062|SUPERIORITY|||||||0.094|||||||t-test, 2 sided|||||||0.094
92399814|NCT03546621|184691070|SUPERIORITY|||||||0.0428||||||A test is considered statistically significant if the adjusted p-value is smaller than 0.05|Bonferroni-Holm|||Week 24||||0.0428
92399815|NCT03546621|184691070|SUPERIORITY|||||||0.2388||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Boferroni-Holm|||Week 48||||0.2388
92218303|NCT00847145|184337516|NON_INFERIORITY_OR_EQUIVALENCE|The specified cut-off value for the vaccine antigen varicella is ≥1.25 gpELISA units/mL to be greater than -10%.|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-6.0|3.0||||||The immunogenicity in 12B12M(1a) group was considered non-inferior to that in group 12M13B15B (2a), if for the varicella antigen (two months after the MMRV vaccine), the lower limit of the two-sided 95% CI for the difference in the percentages of subjects with antibody response greater than or equal to the specified cut-off level for varicella antigen was greater than -10%.||3|-6|
92346549|NCT03082729|184596062|SUPERIORITY|||||||0.383|||||||t-test, 2 sided|||||||0.383
92346550|NCT03082729|184596063|SUPERIORITY|||||||0.024|||||||t-test, 2 sided|||||||0.024
92346551|NCT03082729|184596063|SUPERIORITY|||||||0.266|||||||t-test, 2 sided|||||||0.266
92346552|NCT03082729|184596064|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||||||0.042
92346553|NCT03082729|184596064|SUPERIORITY|||||||0.208|||||||t-test, 2 sided|||||||0.208
92346554|NCT03082729|184596065|SUPERIORITY|||||||0.446|||||||t-test, 2 sided|||||||0.446
92346555|NCT03082729|184596065|SUPERIORITY|||||||0.611|||||||t-test, 2 sided|||||||0.611
92346556|NCT03082729|184596066|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
92346557|NCT03082729|184596066|SUPERIORITY|||||||0.405|||||||t-test, 2 sided|||||||0.405
92346558|NCT03353220|184596112|OTHER|||||||0.65||||||paired t test|t-test, 2 sided|||||||0.65
92346559|NCT03353220|184596113|OTHER|||||||0.0001||||||paired t test|t-test, 2 sided|||||||0.0001
92346560|NCT03353220|184596114|OTHER|||||||0.0017||||||paired t test|t-test, 2 sided|||||||0.0017
92346561|NCT03353220|184596118|OTHER|||||||0.0189|||||||t-test, 2 sided|||||||0.0189
92346562|NCT03857256|184596136|SUPERIORITY|Mean changes from Week 0 in LDL-C were analyzed using a restricted maximum likelihood (REML)-based repeated measures approach including effects of treatment group, time (Week 6 and Week 12) and treatment group x time interaction as well as the covariates of Week 0 value of LDL-C and Week 0 value of LDL-C x time interaction. An unstructured covariance structure were used to model the within-patient errors. Contrasts under this model allowed for the three main comparisons.||||||0.0167||||||Tests involving the comparisons of each of the active groups versus placebo for the primary endpoint were conducted at the 0.0167 significance level (to account for three main comparisons).|Mixed Models Analysis|The Kenward-Roger approximation were used to estimate denominator degrees of freedom.||Tests involving the comparisons of each of the active groups versus placebo for the primary endpoint were conducted at the 0.0167 significance level (to account for three main comparisons).||||0.0167
92346563|NCT00315341|184596147|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||shift table analyses|||categorized changes in ALT/AST from BL:(1)BL transaminases(both ALT/AST)≤2X upper limit of normal(ULN)\& remained at this level;(2)BL transaminases ≤2X ULN(either ALT/AST)but increased(either ALT/AST)above this level at any time;(3)BL transaminases \>2X ULN(either ALT/AST)\& decreased and remained at ≤2X ULN(both ALT/AST);(4)BL transaminases(both ALT/AST)\>2X ULN \&remained at this level(both ALT/AST);(5)BL transaminases \>2X ULN(either ALT/AST)\& increased 2X above this level ever(either ALT/AST).||||< 0.05
92346564|NCT01431976|184596179|SUPERIORITY_OR_OTHER||percentage of participants|35.0|||||TWO_SIDED|95.0|15.39|59.22||||||||59.22|15.39|
92346565|NCT02594111|184596187|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92346566|NCT01126424|184596216|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-20.986||||0.3771|TWO_SIDED|95.0|-68.58|26.607|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||26.607|-68.580|0.3771
92346567|NCT01126424|184596216|SUPERIORITY_OR_OTHER||Least Square Mean Difference|17.508||||0.4487|TWO_SIDED|95.0|-28.854|63.87|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||63.870|-28.854|0.4487
92346568|NCT01126424|184596217|SUPERIORITY_OR_OTHER||Least Square Mean Difference|9.152||||0.0505|TWO_SIDED|95.0|-0.023|18.326|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||18.326|-0.023|0.0505
92346569|NCT01126424|184596217|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.846||||0.6753|TWO_SIDED|95.0|-7.02|10.713|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||10.713|-7.020|0.6753
92346570|NCT01126424|184596218|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.507||||0.5684|TWO_SIDED|95.0|-2.293|1.279|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||1.279|-2.293|0.5684
92346571|NCT01126424|184596218|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.792||||0.2348|TWO_SIDED|95.0|-2.122|0.538|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||0.538|-2.122|0.2348
92346572|NCT01126424|184596219|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.04||||0.6275|TWO_SIDED|95.0|-0.208|0.127|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||0.127|-0.208|0.6275
92346573|NCT01126424|184596219|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.046||||0.5361|TWO_SIDED|95.0|-0.194|0.103|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||0.103|-0.194|0.5361
92346574|NCT01126424|184596220|SUPERIORITY_OR_OTHER||Least Square Mean Difference|4.655||||0.6315|TWO_SIDED|95.0|-14.858|24.167|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||24.167|-14.858|0.6315
92346575|NCT01126424|184596220|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.457||||0.867|TWO_SIDED|95.0|-18.976|16.062|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||16.062|-18.976|0.8670
92346576|NCT01126424|184596221|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-77.919||||0.5953|TWO_SIDED|95.0|-372.814|216.976|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||216.976|-372.814|0.5953
92346577|NCT01126424|184596221|SUPERIORITY_OR_OTHER||Least Square Mean Difference|157.783||||0.3526|TWO_SIDED|95.0|-182.015|497.581|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||497.581|-182.015|0.3526
92346578|NCT02127671|184596222|SUPERIORITY||Mean Difference (Net)|-12.7|||||TWO_SIDED|95.0|-22.9|-2.5||||||||-2.5|-22.9|
92346579|NCT02127671|184596224|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.7|0.9||||||||0.9|-0.7|
92346580|NCT02127671|184596228|SUPERIORITY||Mean Difference (Net)|-7.6|||||TWO_SIDED|95.0|-17.6|2.4||||||||2.4|-17.6|
92346581|NCT02127671|184596229|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.3|0.2||||||||0.2|-0.3|
92346582|NCT02127671|184596230|SUPERIORITY||Mean Difference (Net)|-10.5|||||TWO_SIDED|95.0|-18.4|-2.6||||||||-2.6|-18.4|
92346583|NCT02127671|184596231|SUPERIORITY||Mean Difference (Net)|-1.8|||||TWO_SIDED|95.0|-5.1|1.5||||||systolic||1.5|-5.1|
92346584|NCT02127671|184596231|SUPERIORITY||Mean Difference (Net)|-1.7|||||TWO_SIDED|95.0|-3.8|0.5||||||diastolic||0.5|-3.8|
92346585|NCT02127671|184596233|SUPERIORITY||Mean Difference (Net)|-4.3|||||TWO_SIDED|95.0|-13.3|4.7||||||||4.7|-13.3|
92346586|NCT02127671|184596234|SUPERIORITY||Mean Difference (Net)|-5.4|||||TWO_SIDED|95.0|-12.7|2.0||||||||2.0|-12.7|
92346587|NCT02127671|184596235|SUPERIORITY||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|-1.8|3.8||||||||3.8|-1.8|
92346588|NCT02127671|184596236|SUPERIORITY||Mean Difference (Net)|8.1|||||TWO_SIDED|95.0|-13.4|29.6||||||||29.6|-13.4|
92346589|NCT00782067|184596242|OTHER|Single arm study|||||<|0.001|TWO_SIDED|95.0||||Null hypothesis: ORR \<= 30% Alternative hypothesis: ORR \>= 50%|Exact Binomial Test||||Exact Binomial 95% Confidence Interval|||<0.001
92346590|NCT02328105|184596249|SUPERIORITY|Assuming the true overall response rate is 0.20 under the null hypothesis, then this design will provide 81% power to detect a difference of 0.15 under the alternative hypothesis, assuming a one-sided alpha = 0.09 significance level. A three stage design with n=15, 30 and 45 subjects was determined with the following rejection regions: For n = 15, the rejection region in number of responses (CR or PR) is 0 - 2, for n = 30 it is 3 - 6, and for n = 45 it is 7 - 12.|Response Rate|0.364||||0.161|TWO_SIDED|95.0|0.109|0.692||This p-value is only based on partial enrollment of stage 1. As enrollment was halted early, this p-value is descriptive in nature and cannot determine the success/failure of the trial.|Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|||0.692|0.109|0.161
92346591|NCT02328105|184596250|OTHER|Estimation only.|Disease Control Rate|0.818|||||TWO_SIDED|95.0|0.482|0.977|||||Confidence interval estimated using the Clopper Pearson method.|||0.977|0.482|
92346592|NCT02328105|184596251|OTHER|Estimation only.|Median|7.3|||||TWO_SIDED|95.0|2.2|13.0|||||The Kaplan Meier method was used to estimate the median PFS(in months) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||13.0|2.2|
92346593|NCT02328105|184596252|OTHER|Estimation only.|Median|30.0|||||TWO_SIDED|95.0|2.2||Upper limit of the confidence interval is not reached due to censoring rate.||||The Kaplan Meier method was used to estimate median OS(in months). The Greenwood method was used to estimate confidence limits of median overall survival.||||2.2|
92346594|NCT02328105|184596253|OTHER|Estimation only.|Median|10.8|||||TWO_SIDED|95.0|4.9|11.9|||||The Kaplan Meier method was used to estimate median duration of response (in months). The Greenwood method was used to estimate confidence limits of median duration of response.|||11.9|4.9|
92346595|NCT02328105|184596254|OTHER|Estimation only.|Median|7.3|||||TWO_SIDED|95.0|3.0|13.0|||||The Kaplan Meier method was used to estimate median duration of disease control (in months). The Greenwood method was used to estimate confidence limits of median disease control duration.|||13.0|3.0|
92346596|NCT01013753|184596290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.097|0.182|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.182|0.097|<0.0001
92346597|NCT01013753|184596290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.14|0.224|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.224|0.140|<0.0001
92346598|NCT01013753|184596290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.205|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.163|0.248|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.248|0.163|<0.0001
92346599|NCT01013753|184596290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.229|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.186|0.272|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.272|0.186|<0.0001
92346600|NCT01013753|184596290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.126|0.211|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.211|0.126|<0.0001
92346601|NCT01013753|184596291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.116|0.211|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.211|0.116|<0.0001
92346602|NCT01013753|184596291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.166|0.259|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.259|0.166|<0.0001
92346603|NCT01013753|184596291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.233|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.186|0.28|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.280|0.186|<0.0001
92346604|NCT01013753|184596291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.203|0.298|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.298|0.203|<0.0001
92346605|NCT01013753|184596291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.137|0.231|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.231|0.137|<0.0001
92346606|NCT01013753|184596292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.073|0.158|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.158|0.073|<0.0001
92346607|NCT01013753|184596292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.11|0.193|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.193|0.110|<0.0001
92346608|NCT01013753|184596292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.135|0.219|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.219|0.135|<0.0001
92346609|NCT01013753|184596292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.164|0.25|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.250|0.164|<0.0001
92346610|NCT01013753|184596292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.11|0.194|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.194|0.110|<0.0001
92346611|NCT01013753|184596293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.056|0.148|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.148|0.056|<0.0001
92218304|NCT00847145|184337516|NON_INFERIORITY_OR_EQUIVALENCE|The specified cut-off level for the varicella vaccine antigen is ≥5 gp ELISA units/ml (seroprotection) to be greater than -10%.|Percentage group difference|-2.0|||||TWO_SIDED|95.0|-11.0|7.0||||||The immunogenicity in 12B12M (1a) group was considered non-inferior to that in group 12M13B15B (2), if for the varicella antigen (two months after the MMRV vaccine), the lower limit of the two-sided 95% CI for the difference in the percentages of the subjects with antibody response greater than or equal to the specified cut-off value for varicella antigen was greater than -10%.||7|-11|
92218305|NCT00980200|184337565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|||<|0.001|TWO_SIDED|95.0|0.049|0.14|||ANCOVA|||||0.140|0.049|<0.001
92346612|NCT01013753|184596293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.09|0.18|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.180|0.090|<0.0001
92218306|NCT00980200|184337565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001|TWO_SIDED|95.0|0.095|0.185|||ANCOVA|||||0.185|0.095|<0.001
92218307|NCT00980200|184337565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|||<|0.001|TWO_SIDED|95.0|0.057|0.147|||ANCOVA|||||0.147|0.057|<0.001
92218308|NCT00980200|184337565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|||<|0.001|TWO_SIDED|95.0|0.08|0.17|||ANCOVA|||||0.170|0.080|<0.001
92346613|NCT01013753|184596293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.116|0.207|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.207|0.116|<0.0001
92346614|NCT01013753|184596293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.134|0.226|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.226|0.134|<0.0001
92346615|NCT01013753|184596293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.12|0.211|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.211|0.120|<0.0001
92218309|NCT01469182|184337574|SUPERIORITY_OR_OTHER||Percent Difference|9.95||||0.005|TWO_SIDED|95.0|3.1|16.7|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||16.7|3.1|0.005
92218310|NCT01469182|184337575|SUPERIORITY_OR_OTHER||Percent Difference|5.58|||<|0.001|TWO_SIDED|95.0|2.9|8.2|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||8.2|2.9|<0.001
92346616|NCT01013753|184596294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.058|0.148|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.148|0.058|<0.0001
92346617|NCT01013753|184596294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.088|0.177|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.177|0.088|<0.0001
92346618|NCT01013753|184596294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.124|0.214|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.214|0.124|<0.0001
92346619|NCT01013753|184596294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.199|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.153|0.244|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.244|0.153|<0.0001
92346620|NCT01013753|184596294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.058|0.147|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.147|0.058|<0.0001
92346621|NCT01013753|184596295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.052|0.154|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.154|0.052|<0.0001
92346622|NCT01013753|184596295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.106|0.207|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.207|0.106|<0.0001
92346623|NCT01013753|184596295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.091|0.192|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.192|0.091|<0.0001
92346624|NCT01013753|184596295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.118|0.221|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.221|0.118|<0.0001
92346625|NCT01013753|184596295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.051|0.153|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.153|0.051|<0.0001
92399816|NCT03546621|184691070|SUPERIORITY|||||||0.7157||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||0.7157
92399817|NCT03546621|184691070|SUPERIORITY|||||||0.2388||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||0.2388
92218311|NCT01469182|184337576|SUPERIORITY_OR_OTHER||Percent Difference|7.88|||<|0.001|TWO_SIDED|95.0|5.5|10.5|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||10.5|5.5|<0.001
92346626|NCT01013753|184596296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.024||0.0107||95.0|0.014|0.107|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.107|0.014|0.0107
92346627|NCT01013753|184596296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.069|0.16|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.160|0.069|<0.0001
92346628|NCT01013753|184596296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.069|0.161|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.161|0.069|<0.0001
92218312|NCT01469182|184337577|SUPERIORITY_OR_OTHER||Percent Difference|10.17|||<|0.001|TWO_SIDED|95.0|6.6|13.6|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||13.6|6.6|<0.001
92346629|NCT01013753|184596296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.098|0.191|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.191|0.098|<0.0001
92346630|NCT01013753|184596296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.024||0.0001||95.0|0.044|0.137|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.137|0.044|0.0001
92346631|NCT01013753|184596297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.023||0.0005||95.0|0.036|0.128|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.128|0.036|0.0005
92346632|NCT01013753|184596297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.09|0.181|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.181|0.090|<0.0001
92399818|NCT03546621|184691071|SUPERIORITY|||||||0.7416||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||"Week 24. Two-sided van Elteren tests, stratified by presence of cirrhosis, were used to test for differences compared to the control group.~Separate comparisons were made for each of the three MXB groups versus the control group, and adjusted p-values were computed using the Bonferroni-Holm method."||||0.7416
92399819|NCT03546621|184691071|SUPERIORITY|||||||0.4434||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 24||||0.4434
92399820|NCT03546621|184691071|SUPERIORITY|||||||0.7371||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 24.||||0.7371
92346633|NCT01013753|184596297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.083|0.174|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.174|0.083|<0.0001
92346634|NCT01013753|184596297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.111|0.203|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.203|0.111|<0.0001
92346635|NCT01013753|184596297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.051|0.143|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.143|0.051|<0.0001
92346636|NCT01013753|184596298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.028||0.0952||95.0|-0.008|0.103|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.103|-0.008|0.0952
92346637|NCT01013753|184596298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.028||0.0003||95.0|0.048|0.158|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.158|0.048|0.0003
92346638|NCT01013753|184596298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.028||0.0016||95.0|0.034|0.145|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.145|0.034|0.0016
92346639|NCT01013753|184596298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.071|0.183|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.183|0.071|<0.0001
92346640|NCT01013753|184596298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.028||0.0096||95.0|0.018|0.129|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.129|0.018|0.0096
92346641|NCT01013753|184596299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_ERROR_OF_MEAN|0.026||0.147||95.0|-0.013|0.088|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.088|-0.013|0.1470
92346642|NCT01013753|184596299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.025||0.0003||95.0|0.042|0.141|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.141|0.042|0.0003
92346643|NCT01013753|184596299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.06|0.16|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.160|0.060|<0.0001
92399821|NCT03546621|184691071|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
92346644|NCT01013753|184596299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.078|0.179|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.179|0.078|<0.0001
92346645|NCT01013753|184596299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051|STANDARD_ERROR_OF_MEAN|0.025||0.0448||95.0|0.001|0.101|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.101|0.001|0.0448
92346646|NCT01013753|184596300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.408|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.277|0.539|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.539|0.277|<0.0001
92346647|NCT01013753|184596300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.566|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001||95.0|0.438|0.695|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.695|0.438|<0.0001
92346648|NCT01013753|184596300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.612|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001||95.0|0.482|0.743|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.743|0.482|<0.0001
92346649|NCT01013753|184596300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.539|0.801|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.801|0.539|<0.0001
92346650|NCT01013753|184596300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.588|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001||95.0|0.457|0.718|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.718|0.457|<0.0001
92346651|NCT01013753|184596301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.337|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.213|0.461|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.461|0.213|<0.0001
92399822|NCT03546621|184691071|SUPERIORITY|||||||0.9441||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||0.9441
92218313|NCT01469182|184337578|SUPERIORITY_OR_OTHER||Percent Difference|5.25|||<|0.001|TWO_SIDED|95.0|3.3|7.4|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||7.4|3.3|<0.001
92346652|NCT01013753|184596301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.485|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001||95.0|0.363|0.606|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.606|0.363|<0.0001
92346653|NCT01013753|184596301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.531|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.408|0.655|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.655|0.408|<0.0001
92346654|NCT01013753|184596301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.648|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.524|0.772|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.772|0.524|<0.0001
92346655|NCT01013753|184596301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.551|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.428|0.674|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.674|0.428|<0.0001
92346656|NCT01013753|184596302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.373|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.253|0.493|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.493|0.253|<0.0001
92346657|NCT01013753|184596302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.527|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|0.409|0.645|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.645|0.409|<0.0001
92346658|NCT01013753|184596302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.572|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.453|0.692|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.692|0.453|<0.0001
92346659|NCT01013753|184596302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.54|0.781|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.781|0.540|<0.0001
92346660|NCT01013753|184596302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.451|0.689|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.689|0.451|<0.0001
92346661|NCT01013753|184596303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.168|0.436|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.436|0.168|<0.0001
92346662|NCT01013753|184596303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.429|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.297|0.561|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.561|0.297|<0.0001
92346663|NCT01013753|184596303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.466|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.333|0.599|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.599|0.333|<0.0001
92346664|NCT01013753|184596303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.534|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.4|0.669|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.669|0.400|<0.0001
92218314|NCT01469182|184337579|SUPERIORITY_OR_OTHER||Percent Difference|0.17||||0.861|TWO_SIDED|95.0|-2.1|1.9|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||1.9|-2.1|0.861
92346665|NCT01013753|184596303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.504|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.371|0.637|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.637|0.371|<0.0001
92346666|NCT01013753|184596304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.264|STANDARD_ERROR_OF_MEAN|0.07||0.0002||95.0|0.127|0.401|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.401|0.127|0.0002
92218315|NCT01469182|184337580|SUPERIORITY_OR_OTHER||Percent Difference|1.15||||0.344||95.0|-1.5|3.3|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||3.3|-1.5|0.344
92218316|NCT01469182|184337581|SUPERIORITY_OR_OTHER||Percent Difference|0.99||||0.382|TWO_SIDED|95.0|-1.5|3.0|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||3.0|-1.5|0.382
92346667|NCT01013753|184596304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.468|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001||95.0|0.333|0.602|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.602|0.333|<0.0001
92346668|NCT01013753|184596304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.484|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001||95.0|0.348|0.62|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.620|0.348|<0.0001
92346669|NCT01013753|184596304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.624|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|0.487|0.761|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.761|0.487|<0.0001
92346670|NCT01013753|184596304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.447|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001||95.0|0.311|0.583|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.583|0.311|<0.0001
92346671|NCT01013753|184596305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.012|STANDARD_ERROR_OF_MEAN|3.671|<|0.0001||95.0|14.802|29.223|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||29.223|14.802|<0.0001
92346672|NCT01013753|184596305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.022|STANDARD_ERROR_OF_MEAN|3.61|<|0.0001||95.0|21.931|36.114|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||36.114|21.931|<0.0001
92346673|NCT01013753|184596305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.887|STANDARD_ERROR_OF_MEAN|3.631|<|0.0001||95.0|20.755|35.019|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||35.019|20.755|<0.0001
92346674|NCT01013753|184596305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.935|STANDARD_ERROR_OF_MEAN|3.668|<|0.0001||95.0|25.73|40.139|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||40.139|25.730|<0.0001
92346675|NCT01013753|184596305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.528|STANDARD_ERROR_OF_MEAN|3.644|<|0.0001||95.0|16.371|30.686|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||30.686|16.371|<0.0001
92346676|NCT01013753|184596306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.92|STANDARD_ERROR_OF_MEAN|3.64|<|0.0001||95.0|7.77|22.071|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||22.071|7.770|<0.0001
92346677|NCT01013753|184596306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.834|STANDARD_ERROR_OF_MEAN|3.58|<|0.0001||95.0|17.801|31.866|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||31.866|17.801|<0.0001
92346678|NCT01013753|184596306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.613|STANDARD_ERROR_OF_MEAN|3.601|<|0.0001||95.0|16.539|30.686|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||30.686|16.539|<0.0001
92346679|NCT01013753|184596306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.449|STANDARD_ERROR_OF_MEAN|3.637|<|0.0001||95.0|21.305|35.594|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||35.594|21.305|<0.0001
92346680|NCT01013753|184596306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.439|STANDARD_ERROR_OF_MEAN|3.614|<|0.0001||95.0|13.341|27.538|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||27.538|13.341|<0.0001
92346681|NCT01013753|184596307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.994|STANDARD_ERROR_OF_MEAN|0.507|<|0.0001||95.0|-2.989|-0.999|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||-0.999|-2.989|<0.0001
92346682|NCT01013753|184596307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.095|STANDARD_ERROR_OF_MEAN|0.498|<|0.0001||95.0|-3.073|-1.116|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-1.116|-3.073|<0.0001
92346683|NCT01013753|184596307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.836|STANDARD_ERROR_OF_MEAN|0.503||0.0003||95.0|-2.824|-0.849|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.849|-2.824|0.0003
92346684|NCT01013753|184596307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.789|STANDARD_ERROR_OF_MEAN|0.506||0.0004||95.0|-2.783|-0.795|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||-0.795|-2.783|0.0004
92346685|NCT01013753|184596307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|0.503||0.0118||95.0|-2.258|-0.283|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||-0.283|-2.258|0.0118
92346686|NCT01013753|184596308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.025||0.0002||95.0|0.045|0.141|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.141|0.045|0.0002
92346687|NCT01013753|184596308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.081|0.176|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.176|0.081|<0.0001
92346688|NCT01013753|184596308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.087|0.183|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.183|0.087|<0.0001
92346689|NCT01013753|184596308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.121|0.217|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.217|0.121|<0.0001
92218317|NCT01469182|184337582|SUPERIORITY_OR_OTHER||Percent Difference|2.46||||0.029|TWO_SIDED|95.0|0.3|4.4|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||4.4|0.3|0.029
92218318|NCT00111800|184337601|SUPERIORITY||Mean Difference (Net)|-0.28||||0.061|TWO_SIDED|95.0|-0.58|0.01|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.01|-0.58|0.061
92218319|NCT00111800|184337601|SUPERIORITY||Mean Difference (Net)|-0.53|||<|0.001|TWO_SIDED|95.0|-0.82|-0.24|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.24|-0.82|<0.001
92218320|NCT00111800|184337601|SUPERIORITY||Mean Difference (Net)|-0.45||||0.002|TWO_SIDED|95.0|-0.74|-0.16|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.16|-0.74|0.002
92346690|NCT01013753|184596308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.024||0.0001||95.0|0.045|0.141|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.141|0.045|0.0001
92346691|NCT01013753|184596309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.024||0.0362||95.0|0.003|0.097|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.097|0.003|0.0362
92218321|NCT00111800|184337601|SUPERIORITY||Mean Difference (Net)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.09|-0.5|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.50|-1.09|<0.001
92218322|NCT00111800|184337601|SUPERIORITY||Mean Difference (Net)|-0.84|||<|0.001|TWO_SIDED|95.0|-1.13|-0.55|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.55|-1.13|<0.001
92346692|NCT01013753|184596309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.023||0.0006||95.0|0.035|0.127|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.127|0.035|0.0006
92218323|NCT00111800|184337603|SUPERIORITY||Mean Difference (Net)|-0.4||||0.306|TWO_SIDED|95.0|-1.18|0.37|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.37|-1.18|0.306
92218324|NCT00111800|184337603|SUPERIORITY||Mean Difference (Net)|-0.8||||0.039|TWO_SIDED|95.0|-1.56|-0.04|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.04|-1.56|0.039
92218325|NCT00111800|184337603|SUPERIORITY||Mean Difference (Net)|-0.58||||0.13|TWO_SIDED|95.0|-1.34|0.17|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.17|-1.34|0.130
92346693|NCT01013753|184596309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.024||0.0002||95.0|0.042|0.135|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.135|0.042|0.0002
92399823|NCT03546621|184691071|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
92218326|NCT00111800|184337603|SUPERIORITY||Mean Difference (Net)|-1.46|||<|0.001|TWO_SIDED|95.0|-2.23|-0.69|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.69|-2.23|<0.001
92346694|NCT01013753|184596309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.07|0.164|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.164|0.070|<0.0001
92346695|NCT01013753|184596309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.024||0.001||95.0|0.032|0.125|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.125|0.032|0.0010
92399824|NCT03546621|184691072|SUPERIORITY||Bonferroni-Holm|||||0.5984||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||"Week 24. The change from baseline to Week 24 in HBsAg was performed using van Elteren tests. Tests were performed on log-10 transformed data.~Separare comparisons were made for each of the three Myrcludex B groups versus the control group, and the adjusted values were computed using the Bonferroni-Holm method."||||0.5984
92399825|NCT03546621|184691072|SUPERIORITY|||||||0.7529||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 24||||0.7529
92399826|NCT03546621|184691072|SUPERIORITY|||||||0.3305||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 24||||0.3305
92399827|NCT03546621|184691072|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
92399828|NCT03546621|184691072|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
92399829|NCT03546621|184691072|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
92399830|NCT03546621|184691073|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||"Week 24. Two-sided van Elteren tests, stratified by presence of cirrhosis, were used to test for differences compared to the control group.~Tests were performed on log-10 transformed data. Separate comparisons were made for each of the three MXB groups versus the control group, and adjusted p-values were computed using the Bonferroni-Holm method."||||1.0000
92399831|NCT03546621|184691073|SUPERIORITY|||||||1|||||||Bonferroni-Holm|||Week 24.||||1.0000
92218327|NCT00111800|184337603|SUPERIORITY||Mean Difference (Net)|-1.22||||0.002|TWO_SIDED|95.0|-1.99|-0.46|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.46|-1.99|0.002
92218328|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|0.92||||0.909|TWO_SIDED|95.0|0.21|3.95|||Regression, Logistic|||Placebo versus DEN 2.5 mg for HbA1c \<=6.5%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||3.95|0.21|0.909
92218329|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|1.15||||0.852|TWO_SIDED|95.0|0.27|4.92|||Regression, Logistic|||Placebo versus DEN 7.5 mg for HbA1c \<=6.5%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.92|0.27|0.852
92218330|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|1.2||||0.795|TWO_SIDED|95.0|0.3|4.83|||Regression, Logistic|||Placebo versus DEN 15 mg for HbA1c \<=6.5%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.83|0.30|0.795
92218331|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|2.68||||0.135|TWO_SIDED|95.0|0.74|9.77|||Regression, Logistic|||Placebo versus DEN 30 mg for HbA1c \<=6.5%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.77|0.74|0.135
92218332|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|3.24||||0.085|TWO_SIDED|95.0|0.85|12.37|||Regression, Logistic|||Placebo versus DEN 45 mg for HbA1c \<=6.5%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||12.37|0.85|0.085
92218333|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|1.1||||0.866|TWO_SIDED|95.0|0.36|3.36|||Regression, Logistic|||Placebo versus DEN 2.5 mg for HbA1c \<7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||3.36|0.36|0.866
92218334|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|1.99||||0.202|TWO_SIDED|95.0|0.69|5.76|||Regression, Logistic|||Placebo versus DEN 7.5 mg for HbA1c \<7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||5.76|0.69|0.202
92399832|NCT03546621|184691073|SUPERIORITY|||||||1|||||||Bonferroni-Holm|||Week 24||||1.0000
92399833|NCT03546621|184691073|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05|Bonferroni-Holm|||Week 48||||1.0000
92399834|NCT03546621|184691073|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
92399835|NCT03546621|184691073|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
92399836|NCT00660192|184691076|SUPERIORITY_OR_OTHER|||||||0.0347|TWO_SIDED||||||t-test, 2 sided|||||||0.0347
92399837|NCT00660192|184691077|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Fisher Exact|||||||0.0300
92399838|NCT01069484|184691088|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation was based on the study by Mørkved and Bø (1997), showing 67% prevalence reduction of UI in the PFMT group and 34% reduction in the control group. Assuming a similar effect, two-sided significance of \<0.05, and a power of 0.90, required a total of 62 women. Stratified analysis on major levator ani (LA) muscle defects was planned, but the effect of PFMT in women with such defects was unknown. The statistical advice was to aim for 80 women with- and 80 women without such defects.|Risk Ratio (RR)|0.89||||0.57|TWO_SIDED|95.0|0.6|1.32||P-values \< 0.05 were considered significant.|Mantel Haenszel||"Pelvic floor muscle training arm represents the numerator for relative risk and usual care arm represents the denominator for relative risk"|"Intention to treat was the principal analysis. Missing values for categorical data (self-reported UI) the approach of last observation carried forward was used."||1.32|0.60|0.57
92399839|NCT01069484|184691089|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84||||0.51|TWO_SIDED|95.0|0.49|1.42||P-values \< 0.05 were considered significant.|Mantel Haenszel||"Pelvic floor muscle training arm represents the numerator for relative risk and usual care arm represents the denominator for relative risk"|"Intention to treat was the principal analysis. Missing values for categorical data (self-reported UI) the approach of last observation carried forward was used."||1.42|0.49|0.51
92399840|NCT02588599|184691135|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|t=8.0; df=53||||||<0.0001
92399841|NCT00402168|184691143|SUPERIORITY_OR_OTHER||Difference in Percentage|7.1|||||TWO_SIDED|95.0|2.1|14.9||||||At Month 6, difference in percentage of participants with acute rejection (number with acute rejection/number randomized) using exact method.||14.9|2.1|
92346696|NCT01013753|184596310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.526|STANDARD_ERROR_OF_MEAN|0.124|<|0.0001||95.0|-0.77|-0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||-0.282|-0.770|<0.0001
92346697|NCT01013753|184596310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.432|STANDARD_ERROR_OF_MEAN|0.122||0.0004||95.0|-0.671|-0.192|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-0.192|-0.671|0.0004
92346698|NCT01013753|184596310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.478|STANDARD_ERROR_OF_MEAN|0.123||0.0001||95.0|-0.72|-0.237|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.237|-0.720|0.0001
92346699|NCT01013753|184596310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.657|STANDARD_ERROR_OF_MEAN|0.124|<|0.0001||95.0|-0.901|-0.413|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||-0.413|-0.901|<0.0001
92346700|NCT01013753|184596310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.449|STANDARD_ERROR_OF_MEAN|0.123||0.0003||95.0|-0.691|-0.207|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||-0.207|-0.691|0.0003
92346701|NCT01013753|184596315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.289|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.178|0.4|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.400|0.178|<0.0001
92346702|NCT01013753|184596315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.056||0.0002||95.0|0.099|0.318|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.318|0.099|0.0002
92346703|NCT01013753|184596315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.151|0.374|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.374|0.151|<0.0001
92346704|NCT01013753|184596315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.317|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.205|0.429|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.429|0.205|<0.0001
92346705|NCT01013753|184596315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.315|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.203|0.426|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.426|0.203|<0.0001
92346706|NCT01013753|184596316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.321|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|-0.432|-0.21|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||-0.210|-0.432|<0.0001
92346707|NCT01013753|184596316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.293|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|-0.403|-0.184|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-0.184|-0.403|<0.0001
92346708|NCT01013753|184596316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.326|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|-0.436|-0.215|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.215|-0.436|<0.0001
92346709|NCT01013753|184596316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.394|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|-0.505|-0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||-0.282|-0.505|<0.0001
92158910|NCT00797225|184205179|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.5879|TWO_SIDED|95.0|-0.21|0.12|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.12|-0.21|0.5879
92346710|NCT01013753|184596316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.346|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|-0.457|-0.235|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||-0.235|-0.457|<0.0001
92346711|NCT01013753|184596317|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.996||||0.6187||95.0|0.981|1.011|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||1.011|0.981|0.6187
92346712|NCT01013753|184596317|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.996||||0.6022||95.0|0.981|1.011|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||1.011|0.981|0.6022
92346713|NCT01013753|184596317|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.999||||0.8641||95.0|0.984|1.014|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||1.014|0.984|0.8641
92346714|NCT01013753|184596317|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.998||||0.7664||95.0|0.983|1.013|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||1.013|0.983|0.7664
92346715|NCT01013753|184596317|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.003||||0.6757||95.0|0.988|1.018|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||1.018|0.988|0.6757
92399842|NCT00402168|184691143|SUPERIORITY_OR_OTHER||Difference in Percentage|7.1|||||TWO_SIDED|95.0|2.1|14.9||||||At Month 12, difference in percentage of participants with acute rejection using exact method.||14.9|2.1|
92218335|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|1.04||||0.941|TWO_SIDED|95.0|0.35|3.13|||Regression, Logistic|||Placebo versus DEN 15 mg for HbA1c \<7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||3.13|0.35|0.941
92218336|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|2.15||||0.152|TWO_SIDED|95.0|0.76|6.13|||Regression, Logistic|||Placebo versus DEN 30 mg for HbA1c \<7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||6.13|0.76|0.152
92218337|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|3.24||||0.032|TWO_SIDED|95.0|1.11|9.52|||Regression, Logistic|||Placebo versus DEN 45 mg for HbA1c \<7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.52|1.11|0.032
92218338|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|0.46||||0.198|TWO_SIDED|95.0|0.14|1.5|||Regression, Logistic|||Placebo versus DEN 2.5 mg for HbA1c reduction \>=0.7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||1.50|0.14|0.198
92346716|NCT01013753|184596318|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.993||||0.4423||95.0|0.975|1.011|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||1.011|0.975|0.4423
92346717|NCT01013753|184596318|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.979||||0.0218||95.0|0.962|0.997|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.997|0.962|0.0218
92346718|NCT01013753|184596318|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.977||||0.0109||95.0|0.96|0.995|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.995|0.960|0.0109
92218339|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|1.43||||0.481|TWO_SIDED|95.0|0.53|3.85|||Regression, Logistic|||Placebo versus DEN 7.5 mg for HbA1c reduction \>=0.7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||3.85|0.53|0.481
92218340|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|1.01||||0.991|TWO_SIDED|95.0|0.36|2.78|||Regression, Logistic|||Placebo versus DEN 15 mg for HbA1c reduction \>=0.7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||2.78|0.36|0.991
92218341|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|3.65||||0.008|TWO_SIDED|95.0|1.41|9.48|||Regression, Logistic|||Placebo versus DEN 30 mg for HbA1c reduction \>=0.7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.48|1.41|0.008
92218342|NCT00111800|184337605|SUPERIORITY||Odds Ratio (OR)|2.0||||0.161|TWO_SIDED|95.0|0.76|5.24|||Regression, Logistic|||Placebo versus DEN 45 mg for HbA1c reduction \>=0.7%. A closed test procedure was used,P an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||5.24|0.76|0.161
92218343|NCT00111800|184337606|SUPERIORITY||Odds Ratio (OR)|1.77||||0.38|TWO_SIDED|95.0|0.5|6.3|||Regression, Logistic|||Placebo versus DEN 2.5 mg for FPG \<7mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||6.30|0.50|0.380
92218344|NCT00111800|184337606|SUPERIORITY||Odds Ratio (OR)|2.57||||0.145|TWO_SIDED|95.0|0.72|9.11|||Regression, Logistic|||Placebo versus DEN 7.5 mg for FPG \<7mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.11|0.72|0.145
92346719|NCT01013753|184596318|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.98||||0.0283||95.0|0.962|0.998|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.998|0.962|0.0283
92218345|NCT00111800|184337606|SUPERIORITY||Odds Ratio (OR)|1.09||||0.906|TWO_SIDED|95.0|0.26|4.62|||Regression, Logistic|||Placebo versus DEN 15 mg for FPG \<7mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.62|0.26|0.906
92346720|NCT01013753|184596318|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.991||||0.3085||95.0|0.973|1.009|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||1.009|0.973|0.3085
92346721|NCT01013753|184596319|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.999||||0.9112||95.0|0.984|1.015|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||1.015|0.984|0.9112
92346722|NCT01013753|184596319|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.992||||0.2955||95.0|0.977|1.007|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||1.007|0.977|0.2955
92218346|NCT00111800|184337606|SUPERIORITY||Odds Ratio (OR)|1.56||||0.509|TWO_SIDED|95.0|0.41|5.91|||Regression, Logistic|||Placebo versus DEN 30 mg for FPG \<7mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||5.91|0.41|0.509
92346723|NCT01013753|184596319|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.987||||0.1029||95.0|0.973|1.003|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||1.003|0.973|0.1029
92346724|NCT01013753|184596319|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.991||||0.2552||95.0|0.975|1.007|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||1.007|0.975|0.2552
92218347|NCT00111800|184337606|SUPERIORITY||Odds Ratio (OR)|3.14||||0.077|TWO_SIDED|95.0|0.89|11.14|||Regression, Logistic|||Placebo versus DEN 45 mg for FPG \<7mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||11.14|0.89|0.077
92218348|NCT00111800|184337606|SUPERIORITY||Odds Ratio (OR)|1.9||||0.254|TWO_SIDED|95.0|0.63|5.72|||Regression, Logistic|||Placebo versus DEN 2.5 mg for FPG reduction \>=1.7 mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||5.72|0.63|0.254
92218349|NCT00111800|184337606|SUPERIORITY||Odds Ratio (OR)|1.59||||0.396|TWO_SIDED|95.0|0.55|4.62|||Regression, Logistic|||Placebo versus DEN 7.5 mg for FPG reduction \>=1.7 mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.62|0.55|0.396
92218350|NCT00111800|184337606|SUPERIORITY||Odds Ratio (OR)|1.35||||0.59|TWO_SIDED|95.0|0.45|4.0|||Regression, Logistic|||Placebo versus DEN 15 mg for FPG reduction \>=1.7 mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.00|0.45|0.590
92218351|NCT00111800|184337606|SUPERIORITY||Odds Ratio (OR)|3.24||||0.026|TWO_SIDED|95.0|1.15|9.13|||Regression, Logistic|||Placebo versus DEN 30 mg for FPG reduction \>=1.7 mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.13|1.15|0.026
92218352|NCT00111800|184337606|SUPERIORITY||Odds Ratio (OR)|3.0||||0.034|TWO_SIDED|95.0|1.08|8.3|||Regression, Logistic|||Placebo versus DEN 45 mg for FPG reduction \>=1.7 mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||8.30|1.08|0.034
92218353|NCT00111800|184337607|SUPERIORITY||Mean Difference (Net)|-14.9||||0.057||95.0|-30.2|0.5|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.5|-30.2|0.057
92218354|NCT00111800|184337607|SUPERIORITY||Mean Difference (Net)|-22.4||||0.003||95.0|-37.1|-7.6|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-7.6|-37.1|0.003
92218355|NCT00111800|184337607|SUPERIORITY||Mean Difference (Net)|-29.2|||<|0.001||95.0|-43.9|-14.5|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-14.5|-43.9|<0.001
92218356|NCT00111800|184337607|SUPERIORITY||Mean Difference (Net)|-39.6|||<|0.001|TWO_SIDED|95.0|-54.6|-24.6|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-24.6|-54.6|<0.001
92218357|NCT00111800|184337607|SUPERIORITY||Mean Difference (Net)|-38.9|||<|0.001|TWO_SIDED|95.0|-53.8|-23.9|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-23.9|-53.8|<0.001
92346725|NCT01013753|184596319|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.994||||0.4803||95.0|0.979|1.01|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||1.010|0.979|0.4803
92346726|NCT00621530|184596331|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.94|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Power calculation assumed that all subjects would have an area of hypersensitivity surrounding the wound at 48 hours. We found that only 1 subject in the placebo group and 3 subjects in the ketorolac group had non-zero areas of hypersensitivity.||||=0.94
92346727|NCT00621530|184596332|SUPERIORITY||||||=|0.78|||||||ANOVA|Repeated measures ANOVA||||||=0.78
92218358|NCT00111800|184337609|SUPERIORITY||Mean Difference (Net)|-8.51||||0.489|TWO_SIDED|95.0|-32.66|15.65|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg for fasting serum insulin.|Placebo versus DEN 2.5 mg for fasting serum insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||15.65|-32.66|0.489
92218359|NCT00111800|184337609|SUPERIORITY||Mean Difference (Net)|14.18||||0.237|TWO_SIDED|95.0|-9.37|37.72|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg for fasting serum insulin.|Placebo versus DEN 7.5 mg for fasting serum insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||37.72|-9.37|0.237
92218360|NCT00111800|184337609|SUPERIORITY||Mean Difference (Net)|7.31||||0.534||95.0|-15.79|30.42|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg for fasting serum insulin.|Placebo versus DEN 15 mg for fasting serum insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||30.42|-15.79|0.534
92346728|NCT00621530|184596333|SUPERIORITY||||||=|0.87|||||||ANOVA|Repeated measures ANOVA||||||=0.87
92346729|NCT00621530|184596334|SUPERIORITY||||||=|0.66|||||||ANOVA|Repeated measures ANOVA||||||=0.66
92346730|NCT00621530|184596335|SUPERIORITY||||||=|0.83|||||||ANOVA|Repeated measures ANOVA||||||=0.83
92346731|NCT03104413|184596336|SUPERIORITY||Adjusted Risk Difference|22.1|||<|0.001|TWO_SIDED|95.0|13.1|31.0|||Cochran-Mantel-Haenszel|||||31.0|13.1|<0.001
92346732|NCT03104413|184596336|SUPERIORITY||Adjusted Risk Difference|20.5|||<|0.001|TWO_SIDED|95.0|11.6|29.5|||Cochran-Mantel-Haenszel|||||29.5|11.6|< 0.001
92346733|NCT03104413|184596337|SUPERIORITY||Adjusted Risk Difference|17.6|||<|0.001|TWO_SIDED|95.0|9.9|25.4|||Cochran-Mantel-Haenszel|||||25.4|9.9|< 0.001
92346734|NCT03104413|184596337|SUPERIORITY||Adjusted Risk Difference|23.1|||<|0.001|TWO_SIDED|95.0|15.1|31.1|||Cochran-Mantel-Haenszel|||||31.1|15.1|<0.001
92346735|NCT03104413|184596338|SUPERIORITY||Adjusted Risk Difference|17.6|||<|0.001|TWO_SIDED|95.0|9.9|25.4|||Cochran-Mantel-Haenszel|||||25.4|9.9|<0.001
92346736|NCT03104413|184596338|SUPERIORITY||Adjusted Risk Difference|23.1|||<|0.001|TWO_SIDED|95.0|15.1|31.1|||Cochran-Mantel-Haenszel|||||31.1|15.1|<0.001
92346737|NCT03104413|184596339|SUPERIORITY||Adjusted Risk Difference|15.2||||0.001|TWO_SIDED|95.0|6.4|24.0|||Cochran-Mantel-Haenszel|||||24.0|6.4|0.001
92346738|NCT03104413|184596339|SUPERIORITY||Adjusted Risk Difference|20.4|||<|0.001|TWO_SIDED|95.0|11.5|29.3|||Cochran-Mantel-Haenszel|||||29.3|11.5|<0.001
92346739|NCT03104413|184596340|SUPERIORITY||Adjusted Risk Difference|15.7||||0.001|TWO_SIDED|95.0|6.8|24.6|||Cochran-Mantel-Haenszel|||||24.6|6.8|0.001
92346740|NCT03104413|184596340|SUPERIORITY||Adjusted Risk Difference|11.8||||0.008|TWO_SIDED|95.0|3.0|20.5|||Cochran-Mantel-Haenszel|||||20.5|3.0|0.008
92346741|NCT03104413|184596341|SUPERIORITY||Adjusted Risk Difference|29.4|||<|0.001|TWO_SIDED|95.0|19.9|39.0|||Cochran-Mantel-Haenszel|||||39.0|19.9|< 0.001
92346742|NCT03104413|184596341|SUPERIORITY||Adjusted Risk Difference|30.6|||<|0.001|TWO_SIDED|95.0|21.1|40.1|||Cochran-Mantel-Haenszel|||||40.1|21.1|<0.001
92346743|NCT03104413|184596342|SUPERIORITY||LS Mean Difference|2.8||||0.02|TWO_SIDED|95.0|0.4|5.1|||Mixed-Effect Model Repeat Measurement|||||5.1|0.4|0.020
92346744|NCT03104413|184596342|SUPERIORITY||LS Mean Difference|3.0||||0.01|TWO_SIDED|95.0|0.7|5.3|||Mixed-Effect Model Repeat Measurement|||||5.3|0.7|0.010
92346745|NCT03104413|184596343|SUPERIORITY||Adjusted Risk Difference|9.6||||0.01|TWO_SIDED|95.0|2.3|16.9|||Cochran-Mantel-Haenszel|||||16.9|2.3|0.010
92346746|NCT03104413|184596343|SUPERIORITY||Adjusted Risk Difference|8.2||||0.023|TWO_SIDED|95.0|1.1|15.3|||Cochran-Mantel-Haenszel|||||15.3|1.1|0.023
92346747|NCT03104413|184596344|SUPERIORITY||Adjusted Risk Difference|15.0|||<|0.001|TWO_SIDED|95.0|8.5|21.5|||Cochran-Mantel-Haenszel|||||21.5|8.5|<0.001
92346748|NCT03104413|184596344|SUPERIORITY||Adjusted Risk Difference|17.8|||<|0.001|TWO_SIDED|95.0|11.1|24.5|||Cochran-Mantel-Haenszel|||||24.5|11.1|<0.001
92346749|NCT03104413|184596345|SUPERIORITY||Adjusted Risk Difference|17.5|||<|0.001|TWO_SIDED|95.0|8.0|26.9|||Cochran-Mantel-Haenszel|||||26.9|8.0|<0.001
92346750|NCT03104413|184596345|SUPERIORITY||Adjusted Risk Difference|20.3|||<|0.001|TWO_SIDED|95.0|10.8|29.8|||Cochran-Mantel-Haenszel|||||29.8|10.8|<0.001
92346751|NCT03104413|184596346|SUPERIORITY||Adjusted Risk Difference|21.8|||<|0.001|TWO_SIDED|95.0|12.1|31.6|||Cochran-Mantel-Haenszel|||||31.6|12.1|<0.001
92346752|NCT03104413|184596346|SUPERIORITY||Adjusted Risk Difference|22.7|||<|0.001|TWO_SIDED|95.0|13.0|32.5|||Cochran-Mantel-Haenszel|||||32.5|13.0|<0.001
92346753|NCT03104413|184596347|SUPERIORITY||Adjusted Risk Difference|15.0|||<|0.001|TWO_SIDED|95.0|8.9|21.2|||Cochran-Mantel-Haenszel|||||21.2|8.9|<0.001
92346754|NCT03104413|184596347|SUPERIORITY||Adjusted Risk Difference|16.2|||<|0.001|TWO_SIDED|95.0|9.9|22.4|||Cochran-Mantel-Haenszel|||||22.4|9.9|<0.001
92346755|NCT03104413|184596348|SUPERIORITY||Adjusted Risk Difference|13.6||||0.006|TWO_SIDED|95.0|4.0|23.3|||Cochran-Mantel-Haenszel|||||23.3|4.0|0.006
92346756|NCT03104413|184596348|SUPERIORITY||Adjusted Risk Difference|7.1||||0.142|TWO_SIDED|95.0|-2.4|16.6|||Cochran-Mantel-Haenszel|||||16.6|-2.4|0.142
92346757|NCT03104413|184596349|SUPERIORITY||Adjusted Risk Difference|9.4||||0.001|TWO_SIDED|95.0|3.8|15.1|||Cochran-Mantel-Haenszel|||||15.1|3.8|0.001
92346758|NCT03104413|184596349|SUPERIORITY||Adjusted Risk Difference|11.2|||<|0.001|TWO_SIDED|95.0|5.3|17.0|||Cochran-Mantel-Haenszel|||||17.0|5.3|<0.001
92346759|NCT03104413|184596350|SUPERIORITY||Adjusted Risk Difference|22.8|||<|0.001|TWO_SIDED|95.0|13.0|32.5|||Cochran-Mantel-Haenszel|||||32.5|13.0|<0.001
92346760|NCT03104413|184596350|SUPERIORITY||Adjusted Risk Difference|20.0|||<|0.001|TWO_SIDED|95.0|10.2|29.9|||Cochran-Mantel-Haenszel|||||29.9|10.2|<0.001
92346761|NCT03104413|184596351|SUPERIORITY||Adjusted Risk Difference|5.6||||0.377|TWO_SIDED|95.0|-6.8|17.9|||Cochran-Mantel-Haenszel|||||17.9|-6.8|0.377
92346762|NCT03104413|184596351|SUPERIORITY||Adjusted Risk Difference|13.4||||0.039|TWO_SIDED|95.0|0.7|26.1|||Cochran-Mantel-Haenszel|||||26.1|0.7|0.039
92346763|NCT03104413|184596352|SUPERIORITY||Risk Difference (RD)|-8.1||||0.002|TWO_SIDED|95.0|-13.2|-2.9|||Chi-squared|||||-2.9|-13.2|0.002
92346764|NCT03104413|184596352|SUPERIORITY||Risk Difference (RD)|-9.1|||<|0.001|TWO_SIDED|95.0|-14.1|-4.2|||Chi-squared|||||-4.2|-14.1|<0.001
92346765|NCT03104413|184596353|SUPERIORITY||Risk Difference (RD)|-6.2||||1|TWO_SIDED|95.0|-28.1|15.7|||Chi-squared|||||15.7|-28.1|1
92346766|NCT03104413|184596353|SUPERIORITY||Risk Difference (RD)|30.4||||0.113|TWO_SIDED|95.0|0.6|60.2|||Chi-squared|||||60.2|0.6|0.113
92346767|NCT03104413|184596354|SUPERIORITY||Adjusted Risk Difference|22.1|||<|0.001|TWO_SIDED|95.0|13.1|31.0|||Cochran-Mantel-Haenszel|||||31.0|13.1|<0.001
92346768|NCT03104413|184596354|SUPERIORITY||Adjusted Risk Difference|20.5|||<|0.001|TWO_SIDED|95.0|11.6|29.5|||Cochran-Mantel-Haenszel|||||29.5|11.6|<0.001
92346769|NCT03104413|184596355|SUPERIORITY||Adjusted Risk Difference|15.7||||0.001|TWO_SIDED|95.0|6.8|24.6|||Cochran-Mantel-Haenszel|||||24.6|6.8|0.001
92346770|NCT03104413|184596355|SUPERIORITY||Adjusted Risk Difference|11.8||||0.008|TWO_SIDED|95.0|3.0|20.5|||Cochran-Mantel-Haenszel|||||20.5|3|0.008
92346771|NCT03104413|184596356|SUPERIORITY||Adjusted Risk Difference|9.2||||0.006|TWO_SIDED|95.0|2.6|15.7|||Cochran-Mantel-Haenszel|||||15.7|2.6|0.006
92346772|NCT03104413|184596356|SUPERIORITY||Adjusted Risk Difference|10.3||||0.002|TWO_SIDED|95.0|3.7|16.8|||Cochran-Mantel-Haenszel|||||16.8|3.7|0.002
92346773|NCT03104413|184596357|SUPERIORITY||Adjusted Risk Difference|29.4|||<|0.001|TWO_SIDED|95.0|19.9|39.0|||Cochran-Mantel-Haenszel|||||39.0|19.9|<0.001
92346774|NCT03104413|184596357|SUPERIORITY||Adjusted Risk Difference|30.6|||<|0.001|TWO_SIDED|95.0|21.1|40.1|||Cochran-Mantel-Haenszel|||||40.1|21.1|<0.001
92346775|NCT03104413|184596358|SUPERIORITY||LS Mean Difference|2.8||||0.02|TWO_SIDED|95.0|0.4|5.1|||Mixed-Effect Model Repeat Measurement|||||5.1|0.4|0.020
92218361|NCT00111800|184337609|SUPERIORITY||Mean Difference (Net)|5.27||||0.665|TWO_SIDED|95.0|-18.64|29.17|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg for fasting serum insulin.|Placebo versus DEN 30 mg for fasting serum insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||29.17|-18.64|0.665
92346776|NCT03104413|184596358|SUPERIORITY||LS Mean Difference|3.0||||0.01|TWO_SIDED|95.0|0.7|5.3|||Mixed-Effect Model Repeat Measurement|||||5.3|0.7|0.010
92346777|NCT03104413|184596359|SUPERIORITY||LS Mean Difference|12.4||||0.001|TWO_SIDED|95.0|5.0|19.8|||Mixed-Effect Model Repeat Measurement|||||19.8|5.0|0.001
92346778|NCT03104413|184596359|SUPERIORITY||LS Mean Difference|15.0|||<|0.001|TWO_SIDED|95.0|7.7|22.4|||Mixed-Effect Model Repeat Measurement|||||22.4|7.7|<0.001
92346779|NCT03104413|184596360|SUPERIORITY||Adjusted Risk Difference|13.9|||<|0.001|TWO_SIDED|95.0|7.1|20.7|||Cochran-Mantel-Haenszel|||||20.7|7.1|<0.001
92346780|NCT03104413|184596360|SUPERIORITY||Adjusted Risk Difference|17.3|||<|0.001|TWO_SIDED|95.0|10.3|24.2|||Cochran-Mantel-Haenszel|||||24.2|10.3|<0.001
92346781|NCT03104413|184596361|SUPERIORITY||Adjusted Risk Difference|15.0|||<|0.001|TWO_SIDED|95.0|8.9|21.2|||Cochran-Mantel-Haenszel|||||21.2|8.9|<0.001
92346782|NCT03104413|184596361|SUPERIORITY||Adjusted Risk Difference|16.2|||<|0.001|TWO_SIDED|95.0|9.9|22.4|||Cochran-Mantel-Haenszel|||||22.4|9.9|<0.001
92346783|NCT03104413|184596362|SUPERIORITY||Adjusted Risk Difference|13.6||||0.006|TWO_SIDED|95.0|4.0|23.3|||Cochran-Mantel-Haenszel|||||23.3|4|0.006
92218362|NCT00111800|184337609|SUPERIORITY||Mean Difference (Net)|12.74||||0.295|TWO_SIDED|95.0|-11.18|36.65|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg for fasting serum insulin.|Placebo versus DEN 45 mg for fasting serum insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||36.65|-11.18|0.295
92218363|NCT00111800|184337609|SUPERIORITY||Mean Difference (Net)|3.31||||0.327|TWO_SIDED|95.0|-3.32|9.94|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg for pro-insulin.|Placebo versus DEN 2.5 mg for pro-insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.94|-3.32|0.327
92346784|NCT03104413|184596362|SUPERIORITY||Adjusted Risk Difference|7.1||||0.142|TWO_SIDED|95.0|-2.4|16.6|||Cochran-Mantel-Haenszel|||||16.6|-2.4|0.142
92346785|NCT03104413|184596363|SUPERIORITY||Adjusted Risk Difference|9.4||||0.001|TWO_SIDED|95.0|3.8|15.1|||Cochran-Mantel-Haenszel|||||15.1|3.8|0.001
92346786|NCT03104413|184596363|SUPERIORITY||Adjusted Risk Difference|11.2|||<|0.001|TWO_SIDED|95.0|5.3|17.0|||Cochran-Mantel-Haenszel|||||17.0|5.3|<0.001
92346787|NCT03104413|184596364|SUPERIORITY||Adjusted Risk Difference|22.8|||<|0.001|TWO_SIDED|95.0|13.0|32.5|||Cochran-Mantel-Haenszel|||||32.5|13.0|<0.001
92218364|NCT00111800|184337609|SUPERIORITY||Mean Difference (Net)|3.06||||0.345|TWO_SIDED|95.0|-3.31|9.44|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg for pro-insulin.|Placebo versus DEN 7.5 mg for pro-insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.44|-3.31|0.345
92346788|NCT03104413|184596364|SUPERIORITY||Adjusted Risk Difference|20.0|||<|0.001|TWO_SIDED|95.0|10.2|29.9|||Cochran-Mantel-Haenszel|||||29.9|10.2|<0.001
92346789|NCT03104413|184596365|SUPERIORITY||Adjusted Risk Difference|5.6||||0.377|TWO_SIDED|95.0|-6.8|17.9|||Cochran-Mantel-Haenszel|||||17.9|-6.8|0.377
92346790|NCT03104413|184596365|SUPERIORITY||Adjusted Risk Difference|13.4||||0.039|TWO_SIDED|95.0|0.7|26.1|||Cochran-Mantel-Haenszel|||||26.1|0.7|0.039
92346791|NCT03104413|184596366|SUPERIORITY||LS Mean Difference|-8.1||||0.002|TWO_SIDED|95.0|-13.2|-2.9|||Mixed-Effect Model Repeat Measurement|||||-2.9|-13.2|0.002
92346792|NCT03104413|184596366|SUPERIORITY||LS Mean Difference|-9.1|||<|0.001|TWO_SIDED|95.0|-14.1|-4.2|||Mixed-Effect Model Repeat Measurement|||||-4.2|-14.1|<0.001
92346793|NCT03104413|184596367|SUPERIORITY||LS Mean Difference|-6.2||||1|TWO_SIDED|95.0|-28.1|15.7|||Mixed-Effect Model Repeat Measurement|||||15.7|-28.1|1.00
92346794|NCT03104413|184596367|SUPERIORITY||LS Mean Difference|30.4||||0.113|TWO_SIDED|95.0|0.6|60.2|||Mixed-Effect Model Repeat Measurement|||||60.2|0.6|0.113
92346795|NCT03104413|184596368|SUPERIORITY||LS Mean Difference|-7.323||||0.113|TWO_SIDED|95.0|-16.399|1.753|||Mixed-Effect Model Repeat Measurement|||||1.753|-16.399|0.113
92346796|NCT03104413|184596368|SUPERIORITY||LS Mean Difference|-8.759||||0.05|TWO_SIDED|95.0|-17.518|-0.001|||Mixed-Effect Model Repeat Measurement|||||-0.001|-17.518|0.050
92346797|NCT03104413|184596369|SUPERIORITY||LS Mean Difference|2.221||||0.008|TWO_SIDED|95.0|0.577|3.865|||Mixed-Effect Model Repeat Measurement|||||3.865|0.577|0.008
92346798|NCT03104413|184596369|SUPERIORITY||LS Mean Difference|2.714||||0.001|TWO_SIDED|95.0|1.077|4.351|||Mixed-Effect Model Repeat Measurement|||||4.351|1.077|0.001
92346799|NCT03104413|184596370|SUPERIORITY||Adjusted Risk Difference|15.2||||0.001|TWO_SIDED|95.0|6.4|24.0|||Cochran-Mantel-Haenszel|||||24|6.4|0.001
92346800|NCT03104413|184596370|SUPERIORITY||Adjusted Risk Difference|20.4|||<|0.001|TWO_SIDED|95.0|11.5|29.3|||Cochran-Mantel-Haenszel|||||29.3|11.5|<0.001
92346801|NCT00303186|184596376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75|STANDARD_DEVIATION|7.03|<|0.0001|TWO_SIDED|95.0|2.4|5.1|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||5.10|2.40|<0.0001
92346802|NCT00303186|184596376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.72|STANDARD_DEVIATION|7.47|<|0.001|TWO_SIDED|95.0|1.65|5.78|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||5.78|1.65|<0.001
92346803|NCT00303186|184596376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_DEVIATION|4.1||0.518|TWO_SIDED|95.0|-1.5|0.76|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||0.76|-1.50|0.518
92346804|NCT00303186|184596377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.72|STANDARD_DEVIATION|27.89|<|0.0001|TWO_SIDED|95.0|12.38|23.07|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||23.07|12.38|<0.0001
92346805|NCT00303186|184596377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.6|STANDARD_DEVIATION|20.36|<|0.0001|TWO_SIDED|95.0|6.99|18.21|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||18.21|6.99|<0.0001
92218365|NCT00111800|184337609|SUPERIORITY||Mean Difference (Net)|-0.35||||0.914|TWO_SIDED|95.0|-6.7|6.0|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg for pro-insulin.|Placebo versus DEN 15 mg for pro-insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||6.00|-6.70|0.914
92218366|NCT00111800|184337609|SUPERIORITY||Mean Difference (Net)|-2.21||||0.504|TWO_SIDED|95.0|-8.71|4.29|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg for pro-insulin.|Placebo versus DEN 30 mg for pro-insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.29|-8.71|0.504
92218367|NCT00111800|184337609|SUPERIORITY||Mean Difference (Net)|2.75||||0.403|TWO_SIDED|95.0|-3.71|9.22|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg for pro-insulin.|Placebo versus DEN 45 mg for pro-insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.22|-3.71|0.403
92218368|NCT00111800|184337612|SUPERIORITY||Mean Difference (Net)|0.03||||0.286|TWO_SIDED|95.0|-0.02|0.08|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.08|-0.02|0.286
92218369|NCT00111800|184337612|SUPERIORITY||Mean Difference (Net)|-0.02||||0.457|TWO_SIDED|95.0|-0.07|0.03|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.03|-0.07|0.457
92218370|NCT00111800|184337612|SUPERIORITY||Mean Difference (Net)|-0.04||||0.136|TWO_SIDED|95.0|-0.09|0.01|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.01|-0.09|0.136
92218371|NCT00111800|184337612|SUPERIORITY||Mean Difference (Net)|-0.06||||0.021|TWO_SIDED|95.0|-0.11|-0.01|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.01|-0.11|0.021
92218372|NCT00111800|184337612|SUPERIORITY||Mean Difference (Net)|-0.04||||0.094|TWO_SIDED|95.0|-0.09|0.01|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.01|-0.09|0.094
92218373|NCT02752035|184337640|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.523|TWO_SIDED|95.0|0.57|1.329|||Log Rank||Based on Cox proportional hazards model.|Stratification factors were age group per IRT, risk groups and baseline FLT3 mutation status, with potential of strata pooling.||1.329|0.570|0.523
92218374|NCT02752035|184337641|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.787|TWO_SIDED|95.0|0.635|1.393|||Log Rank||Based on Cox proportional hazards model.|Stratification factors were age group per IRT, risk groups and baseline FLT3 mutation status, with potential of strata pooling.||1.393|0.635|0.787
92218375|NCT02752035|184337643|SUPERIORITY||Treatment Difference|8.2||||0.249|TWO_SIDED|95.0|-6.5|23.0||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||23.0|-6.5|0.249
92218376|NCT02752035|184337644|SUPERIORITY||Treatment Difference|33.3|||<|0.001|TWO_SIDED|95.0|16.6|50.0||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||50.0|16.6|<0.001
92218377|NCT02752035|184337645|SUPERIORITY||Treatment Difference|8.5||||0.049|TWO_SIDED|95.0|-0.1|17.1||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||17.1|-0.1|0.049
92346806|NCT00303186|184596377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_DEVIATION|18.7||0.833|TWO_SIDED|95.0|-5.7|4.61|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||4.61|-5.70|0.833
92218378|NCT02752035|184337646|SUPERIORITY||Treatment Difference|16.7||||0.032|TWO_SIDED|95.0|1.1|32.4||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||32.4|1.1|0.032
92218379|NCT02752035|184337647|SUPERIORITY||Treatment Difference|-9.0||||0.34|TWO_SIDED|95.0|-29.8|11.0||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||11.0|-29.8|0.340
92218380|NCT02752035|184337648|SUPERIORITY||Treatment Difference|50.0||||0.221|TWO_SIDED|95.0|-61.0|100.0||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||100.0|-61.0|0.221
92218381|NCT02752035|184337649|SUPERIORITY||Hazard Ratio (HR)|0.844||||0.592|TWO_SIDED|95.0|0.451|1.58|||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|||1.580|0.451|0.592
92346807|NCT00303186|184596378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.72|STANDARD_DEVIATION|2.39|<|0.0001|TWO_SIDED|95.0|2.26|3.18|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||3.18|2.26|<0.0001
92346808|NCT00303186|184596378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.23|STANDARD_DEVIATION|2.36|<|0.0001|TWO_SIDED|95.0|1.59|2.87|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||2.87|1.59|<0.0001
92346809|NCT00303186|184596378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_DEVIATION|2.03||0.309|TWO_SIDED|95.0|-0.83|0.27|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||0.27|-0.83|0.309
92346810|NCT00303186|184596380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.66|STANDARD_DEVIATION|11.75||0.004|TWO_SIDED|95.0|1.619|8.301|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||8.301|1.619|0.004
92346811|NCT00303186|184596381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.76|STANDARD_DEVIATION|18.8||0.015|TWO_SIDED|95.0|-12.155|-1.355|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||-1.355|-12.155|0.015
92346812|NCT00303186|184596382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_DEVIATION|7.41||0.676|TWO_SIDED|95.0|-1.666|2.546|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||2.546|-1.666|0.676
92346813|NCT00303186|184596383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.486|STANDARD_DEVIATION|2.96|<|0.0001|TWO_SIDED|95.0|0.918|2.05|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||2.05|0.918|<0.0001
92346814|NCT00303186|184596383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_DEVIATION|3.64|<|0.001|TWO_SIDED|95.0|1.01|2.99|||t-test, 1 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||2.99|1.01|<0.001
92346815|NCT00303186|184596383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|STANDARD_DEVIATION|3.32||0.223|TWO_SIDED|95.0|-0.35|1.46|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||1.46|-0.35|0.223
92346816|NCT00303186|184596384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.33|STANDARD_DEVIATION|5.94|<|0.0001|TWO_SIDED|95.0|5.1|7.47|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: swollen joints and Month 12: swollen joints.||7.47|5.10|<0.0001
92346817|NCT00303186|184596384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2|STANDARD_DEVIATION|6.35|<|0.0001|TWO_SIDED|95.0|4.48|7.92|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: swollen joints and Month 60: swollen joints.||7.92|4.48|<0.0001
92399843|NCT00402168|184691144|SUPERIORITY_OR_OTHER||Percent Difference|1.1|||||TWO_SIDED|95.0|-3.3|6.1||||||Participants surviving with a functioning graft by Month 6: For 95% Confidence Interval (CI) of difference, exact method was used.||6.1|-3.3|
92158911|NCT00797225|184205179|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.6122|TWO_SIDED|95.0|-0.2|0.12|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.12|-0.20|0.6122
92158912|NCT00797225|184205179|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.08||0.0023|TWO_SIDED|95.0|-0.41|-0.09|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.09|-0.41|0.0023
92158913|NCT00797225|184205180|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.69|-0.24|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.24|-0.69|< 0.0001
92218382|NCT02752035|184337650|SUPERIORITY||Hazard Ratio (HR)|0.573||||0.3|TWO_SIDED|95.0|0.198|1.658|||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|Analysis reported for duration of CR/CRh.||1.658|0.198|0.300
92346818|NCT00303186|184596384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|2.09||0.479|TWO_SIDED|95.0|-0.36|0.76|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12: swollen joints and Month 60: swollen joints.||0.76|-0.36|0.479
92346819|NCT00303186|184596384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.0|STANDARD_DEVIATION|11.16|<|0.0001|TWO_SIDED|95.0|6.86|11.13|||t-test, 1 sided|||Statistical analysis was carried out between categories, Baseline: tender joints and Month 12: tender joints.||11.13|6.86|<0.0001
92346820|NCT00303186|184596384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_DEVIATION|9.25|<|0.0001|TWO_SIDED|95.0|6.1|11.1|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: tender joints and Month 60: tender joints.||11.10|6.10|<0.0001
92346821|NCT00303186|184596384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66|STANDARD_DEVIATION|8.92||0.588|TWO_SIDED|95.0|-1.76|3.07|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12: tender joints and Month 60: tender joints.||3.07|-1.76|0.588
92346822|NCT00303186|184596388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|STANDARD_DEVIATION|11.29||0.33|TWO_SIDED|95.0|-1.3|3.82|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||3.82|-1.30|0.330
92346823|NCT00303186|184596388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.56|STANDARD_DEVIATION|32.28||0.449|TWO_SIDED|95.0|-33.37|16.26|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||16.26|-33.37|0.449
92346824|NCT00303186|184596388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.0|STANDARD_DEVIATION|38.17||0.165|TWO_SIDED|95.0|-37.04|7.04|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||7.04|-37.04|0.165
92346825|NCT00303186|184596389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.18|STANDARD_DEVIATION|24.48|<|0.0001|TWO_SIDED|95.0|26.44|35.91|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||35.91|26.44|<0.0001
92346826|NCT00303186|184596389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.76|STANDARD_DEVIATION|23.24|<|0.0001|TWO_SIDED|95.0|22.42|35.1|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||35.10|22.42|<0.0001
92399844|NCT00402168|184691144|SUPERIORITY_OR_OTHER||Percent Difference|1.1|||||TWO_SIDED|95.0|-3.3|6.1||||||Participants surviving with a functioning graft by Month 12: For 95% CI of difference, exact method was used.||6.1|-3.3|
92399845|NCT00402168|184691147|SUPERIORITY_OR_OTHER||Difference|6.0|||||TWO_SIDED|95.0|-0.1|13.8||||||||13.8|-0.1|
92218383|NCT02752035|184337650|SUPERIORITY||Hazard Ratio (HR)|0.411||||0.171|TWO_SIDED|95.0|0.113|1.504|||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|Analysis reported for duration of CR.||1.504|0.113|0.171
92218384|NCT02752035|184337650|SUPERIORITY||Hazard Ratio (HR)|0.691||||0.383|TWO_SIDED|95.0|0.295|1.62|||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|Analysis reported for duration of CRc||1.620|0.295|0.383
92346827|NCT00303186|184596389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05|STANDARD_DEVIATION|24.6||0.538|TWO_SIDED|95.0|-8.7|4.6|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||4.60|-8.70|0.538
92346828|NCT00303186|184596390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.83|STANDARD_DEVIATION|19.6|<|0.0001|TWO_SIDED|95.0|30.04|37.63|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||37.63|30.04|<0.0001
92346829|NCT00303186|184596390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.04|STANDARD_DEVIATION|21.17|<|0.0001|TWO_SIDED|95.0|31.96|44.12|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||44.12|31.96|<0.0001
92346830|NCT00303186|184596390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.38|STANDARD_DEVIATION|17.59||0.343|TWO_SIDED|95.0|-2.62|7.38|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||7.38|-2.62|0.343
92346831|NCT00303186|184596391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.18|STANDARD_DEVIATION|27.56|<|0.0001|TWO_SIDED|95.0|25.88|36.49|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||36.49|25.88|<0.0001
92346832|NCT00303186|184596391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.8|STANDARD_DEVIATION|25.89|<|0.0001|TWO_SIDED|95.0|21.52|36.09|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||36.09|21.52|<0.0001
92346833|NCT00303186|184596391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.33|STANDARD_DEVIATION|22.77||0.301|TWO_SIDED|95.0|-9.74|3.07|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||3.07|-9.74|0.301
92346834|NCT00303186|184596392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.21|STANDARD_DEVIATION|123.2|<|0.0001|TWO_SIDED|95.0|2.01|50.4|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Baseline and Month 12.||50.40|2.01|<0.0001
92346835|NCT00303186|184596392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.19|STANDARD_DEVIATION|18.3|<|0.0001|TWO_SIDED|95.0|7.81|18.57|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Baseline and Month 60.||18.57|7.81|<0.0001
92218385|NCT02752035|184337650|SUPERIORITY||Hazard Ratio (HR)|999.0||||0.998|TWO_SIDED|95.0|0.001||Upper limit of 95% confidence interval was not estimable due to insufficient number of participants.||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|Analysis reported for duration of CRh.|||0.001|0.998
92218386|NCT02752035|184337650|SUPERIORITY||Hazard Ratio (HR)|0.628||||0.174|TWO_SIDED|95.0|0.321|1.229|||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|Analysis reported for duration of response.||1.229|0.321|0.174
92218387|NCT02752035|184337651|SUPERIORITY||Least square mean difference|0.5||||0.56|TWO_SIDED|95.0|-1.1|2.0|||ANCOVA|Using analysis of covariance including treatment, age group per IRT and baseline score as covariate.|Least square mean difference and P-value were calculated using AZA as reference.|||2.0|-1.1|0.560
92346836|NCT00303186|184596392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.31|STANDARD_DEVIATION|14.07||0.132|TWO_SIDED|95.0|-6.4|1.77|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Month 12 and Month 60.||1.77|-6.40|0.132
92346837|NCT00303186|184596393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.26|STANDARD_DEVIATION|150.1|<|0.0005|TWO_SIDED|95.0|-13.52|46.04|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Baseline and Month 12.||46.04|-13.52|<0.0005
92346838|NCT00303186|184596393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|52.81|STANDARD_DEVIATION|100.25|<|0.0001|TWO_SIDED|95.0|22.33|83.29|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Baseline and Month 60.||83.29|22.33|<0.0001
92346839|NCT00303186|184596393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.4|STANDARD_DEVIATION|147.25||0.034|TWO_SIDED|95.0|-10.84|77.64|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Month 12 and Month 60.||77.64|-10.84|0.034
92346840|NCT00303186|184596395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48|STANDARD_DEVIATION|0.66|<|0.0001|TWO_SIDED|95.0|0.35|0.62|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||0.62|0.35|<0.0001
92346841|NCT00303186|184596395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_DEVIATION|0.56|<|0.0001|TWO_SIDED|95.0|0.26|0.56|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||0.56|0.26|<0.0001
92346842|NCT00303186|184596395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.61||0.6|TWO_SIDED|95.0|-0.24|0.14|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||0.14|-0.24|0.600
92346843|NCT00303186|184596396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|STANDARD_DEVIATION|0.31|<|0.0001|TWO_SIDED|95.0|0.18|0.3|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||0.30|0.18|<0.0001
92346844|NCT00303186|184596396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_DEVIATION|0.34|<|0.0001|TWO_SIDED|95.0|-0.31|-0.12|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||-0.12|-0.31|<0.0001
92346845|NCT00303186|184596396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.27||0.789|TWO_SIDED|95.0|-0.08|0.06|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||0.06|-0.08|0.789
92346846|NCT00303186|184596397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.4|STANDARD_DEVIATION|25.0|<|0.0001|TWO_SIDED|95.0|14.59|24.22|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||24.22|14.59|<0.0001
92346847|NCT00303186|184596397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.68|STANDARD_DEVIATION|22.08||0.0001|TWO_SIDED|95.0|-18.77|-6.59|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||-6.59|-18.77|0.0001
92399846|NCT00402168|184691152|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1||||0.4491|TWO_SIDED|95.0|-1.7|3.9|||ANCOVA|||Mental Component Scales (MCS)||3.9|-1.7|0.4491
92346848|NCT00303186|184596397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.85|STANDARD_DEVIATION|22.22||0.115|TWO_SIDED|95.0|-1.21|10.92|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||10.92|-1.21|0.115
92346849|NCT00303186|184596398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.41|STANDARD_DEVIATION|10.1|<|0.0001|TWO_SIDED|95.0|-10.34|-4.47|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: physical component score and Month 12: physical component score.||-4.47|-10.34|<0.0001
92346850|NCT00303186|184596398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.94|STANDARD_DEVIATION|9.13|<|0.0001|TWO_SIDED|95.0|-8.56|-3.32|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: physical component score and Month 60: physical component score.||-3.32|-8.56|<0.0001
92346851|NCT00303186|184596398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25|STANDARD_DEVIATION|8.83||0.308|TWO_SIDED|95.0|-1.19|3.68|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12: physical component score and Month 60: physical component score.||3.68|-1.19|0.308
92346852|NCT00303186|184596398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_DEVIATION|8.51||0.589|TWO_SIDED|95.0|-3.14|1.8|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: mental component score and Month 12: mental component score.||1.80|-3.14|0.589
92346853|NCT00303186|184596398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.59|STANDARD_DEVIATION|12.29||0.003|TWO_SIDED|95.0|-9.12|-2.06|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: mental component score and Month 60: mental component score.||-2.06|-9.12|0.003
92346854|NCT00303186|184596398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7|STANDARD_DEVIATION|12.8||0.002|TWO_SIDED|95.0|-9.23|-2.18|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12: mental component score and Month 60: mental component score.||-2.18|-9.23|0.002
92399847|NCT00402168|184691152|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.7892|TWO_SIDED|95.0|-2.5|1.9|||ANCOVA|||Physical Component Scales (PCS)||1.9|-2.5|0.7892
92158914|NCT00797225|184205180|SUPERIORITY||LS mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.73|-0.27|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.27|-0.73|< 0.0001
92158915|NCT00797225|184205180|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.71|-0.25|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.25|-0.71|< 0.0001
92158916|NCT00797225|184205180|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.69|-0.23|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.23|-0.69|< 0.0001
92158917|NCT00797225|184205180|SUPERIORITY||LS mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.87|-0.4|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.40|-0.87|< 0.0001
92158918|NCT00797225|184205180|SUPERIORITY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.04|-0.59|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.59|-1.04|< 0.0001
92218388|NCT01263483|184337669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.002|||||TWO_SIDED|95.0|-1.166|-0.838||||||||-0.838|-1.166|
92346855|NCT02469857|184596409|SUPERIORITY|||||||0.135|||||||Chi-squared|||This analysis utilized the mITT analysis population.||||0.135
92346856|NCT02469857|184596409|SUPERIORITY|||||||0.025|||||||Chi-squared|||This analysis utilized the US-mITT analysis population.||||0.025
92346857|NCT02469857|184596413|SUPERIORITY|||||||0.069|||||||Chi-squared|||||||0.069
92346858|NCT02469857|184596414|SUPERIORITY|||||||0.401|||||||Wilcoxon (Mann-Whitney)|||||||0.401
92346859|NCT02469857|184596415|SUPERIORITY|||||||0.195|||||||Wilcoxon (Mann-Whitney)|||||||0.195
92346860|NCT02469857|184596416|SUPERIORITY|||||||0.596|||||||Wilcoxon (Mann-Whitney)|||||||0.596
92346861|NCT02469857|184596417|SUPERIORITY|||||||0.512|||||||Wilcoxon (Mann-Whitney)|||||||0.512
92346862|NCT02469857|184596418|SUPERIORITY|||||||0.033|||||||Chi-squared|||||||0.033
92346863|NCT02469857|184596419|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.554|TWO_SIDED|95.0|0.5|1.46|||Log Rank|||||1.46|0.50|0.554
92346864|NCT02469857|184596420|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.148|TWO_SIDED|95.0|0.23|1.26|||Log Rank|||||1.26|0.23|0.148
92346865|NCT02469857|184596421|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.736|TWO_SIDED|95.0|0.46|1.73|||Log Rank|||||1.73|0.46|0.736
92346866|NCT02469857|184596422|SUPERIORITY||Hazard Ratio (HR)|0.34||||0.093|TWO_SIDED|95.0|0.09|1.25|||Log Rank|||||1.25|0.09|0.093
92346867|NCT02469857|184596423|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.352|TWO_SIDED|95.0|0.35|1.46|||Log Rank|||||1.46|0.35|0.352
92346868|NCT02469857|184596424|SUPERIORITY||Hazard Ratio (HR)|0.21||||0.031|TWO_SIDED|95.0|0.04|0.99|||Log Rank|||||0.99|0.04|0.031
92346869|NCT02469857|184596425|SUPERIORITY|||||||0.024|||||||Chi-squared|||||||0.024
92399848|NCT00402168|184691154|SUPERIORITY_OR_OTHER||Estimated Difference|0.0076|||||TWO_SIDED|95.0|-0.01|0.0252||||||Difference in Symptom Occurrence between treatment groups.||.0252|-.010|
92399849|NCT00402168|184691154|SUPERIORITY_OR_OTHER||Estimated Difference|0.0148|||||TWO_SIDED|95.0|-0.002|0.0321||||||Difference in Symptom Distress between treatment groups.||.0321|-.002|
92346870|NCT02469857|184596426|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||0.007
92346871|NCT02469857|184596427|SUPERIORITY|||||||0.034|||||||Chi-squared|||||||0.034
92346872|NCT02469857|184596428|SUPERIORITY|||||||0.003|||||||Chi-squared|||||||0.003
92158919|NCT00797225|184205180|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.12||0.0005|TWO_SIDED|95.0|-0.65|-0.18|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.18|-0.65|0.0005
92158920|NCT00797225|184205180|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.76|-0.29|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.29|-0.76|< 0.0001
92158921|NCT00797225|184205180|SUPERIORITY||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.02|-0.56|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.56|-1.02|< 0.0001
92158922|NCT00797225|184205181|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.1||0.0011|TWO_SIDED|95.0|-0.51|-0.13|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.13|-0.51|0.0011
92158923|NCT00797225|184205181|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.51|-0.13|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.13|-0.51|0.0010
92158924|NCT00797225|184205181|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.57|-0.19|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.19|-0.57|< 0.0001
92158925|NCT00797225|184205181|SUPERIORITY||-0.33|-0.33|STANDARD_ERROR_OF_MEAN|0.1||0.0007|TWO_SIDED|95.0|-0.52|-0.14|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.14|-0.52|0.0007
92158926|NCT00797225|184205181|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.62|-0.24|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.24|-0.62|< 0.0001
92158927|NCT00797225|184205181|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.73|-0.35|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.35|-0.73|< 0.0001
92218389|NCT01263483|184337669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.947|||||TWO_SIDED|95.0|-1.097|-0.796||||||||-0.796|-1.097|
92218390|NCT01263483|184337670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.176|||||TWO_SIDED|95.0|-0.229|-0.123||||||||-0.123|-0.229|
92346873|NCT00297167|184596447|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-25.52|||<|0.001|TWO_SIDED|95.0|-31.73|-19.32|||ANOVA|||P-Value was calculated using analysis of variance (ANOVA) model which included main effects for treatment and sequence and participant nested in sequence as a random effect.||-19.32|-31.73|<0.001
92346874|NCT00297167|184596448|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.5|||<|0.001|TWO_SIDED|95.0|-26.85|-16.14|||ANOVA|||P-Value was calculated using analysis of variance (ANOVA)model which included main effects for treatment and sequence and participant nested in sequence as a random effect.||-16.14|-26.85|<0.001
92346875|NCT03416179|184596457|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.6579|TWO_SIDED|95.0|0.755|1.532|||Log Rank|||Hazard ratio based on Cox proportional hazards model; under proportional hazards, hazard ratio less than (\<) 1 indicated a reduction in hazard rate in favor of Glasdegib 100 mg PO + Cytarabine 100 mg/m\^2 IV + Daunorubicin 60 mg/m\^2 compared to Placebo + Cytarabine 100 mg/m\^2 IV + Daunorubicin 60 mg/m\^2.||1.532|0.755|0.6579
92346876|NCT03416179|184596458|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.5955|TWO_SIDED|95.0|0.775|1.388|||Log Rank|||Hazard ratio based on Cox proportional hazards model; under proportional hazards, hazard ratio \< 1 indicated a reduction in hazard rate in favor of Glasdegib 100 mg PO QD + Azacitidine compared to Placebo + Azacitidine||1.388|0.775|0.5955
92346877|NCT03416179|184596459|OTHER|||||||0.5095|||||||Mantel Haenszel|||||||0.5095
92346878|NCT03416179|184596460|OTHER|||||||0.8359|||||||Mantel Haenszel|||||||0.8359
92346879|NCT00284856|184596506|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|5.92||||||95.0|0.28|11.56|||||Estimated Value is difference in least squares mean (montelukast - placebo)|||11.56|0.28|
92346880|NCT00284856|184596506|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|10.14||||||95.0|4.5|15.78|||||Estimated value is difference in least squares mean (fluticasone - placebo)|||15.78|4.50|
92346881|NCT00284856|184596506|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-4.22||||||95.0|-9.83|1.38|||||Estimated value is difference in least squares mean (montelukast - fluticasone)|||1.38|-9.83|
92346882|NCT00284856|184596507|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.15||||||95.0|-0.25|-0.05|||||Estimated value is difference in least squares mean (montelukast - placebo)|||-0.05|-0.25|
92346883|NCT00284856|184596507|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.2||||||95.0|-0.3|-0.1|||||Estimated value is difference in least squares mean (fluticasone - placebo)|||-0.10|-0.30|
92346884|NCT00284856|184596507|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.05||||||95.0|-0.05|0.15|||||Estimated value is difference in least squares mean (montelukast - fluticasone)|||0.15|-0.05|
92346885|NCT00284856|184596508|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|5.09||||||95.0|-1.27|11.45|||||Estimated value is difference in least squares mean (montelukast - placebo)|||11.45|-1.27|
92346886|NCT00284856|184596508|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|11.21||||||95.0|4.85|17.58|||||Estimated value is difference in least squares mean (fluticasone - placebo)|||17.58|4.85|
92158928|NCT00797225|184205181|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.1||0.1319|TWO_SIDED|95.0|-0.34|0.04|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.04|-0.34|0.1319
92346887|NCT00284856|184596508|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-6.13||||||95.0|-12.46|0.2|||||Estimated value is difference in least squares mean (montelukast - fluticasone)|||0.20|-12.46|
92158929|NCT00797225|184205181|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.1||0.0222|TWO_SIDED|95.0|-0.42|-0.03|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.03|-0.42|0.0222
92158930|NCT00797225|184205181|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.66|-0.28|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.28|-0.66|< 0.0001
92158931|NCT02408965|184205201|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
92158932|NCT02408965|184205202|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92158933|NCT02408965|184205203|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
92158934|NCT02408965|184205204|SUPERIORITY|||||||0.06|||||||Chi-squared|||||||0.06
92346888|NCT02921256|184596555|SUPERIORITY|||||||0.69|||||||Regression, Linear|||||||0.69
92346889|NCT02921256|184596555|SUPERIORITY|||||||0.26|||||||Regression, Linear|||||||0.26
92346890|NCT00157755|184596574|SUPERIORITY_OR_OTHER|||||||0.215||||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in the frequency of weekly vomiting episodes from when stimulation was turned OFF to when stimulation was turned ON, µ = 0;~Alternative hypothesis: There was a change in frequency of weekly vomiting episodes from when stimulation was turned OFF to when stimulation was turned ON, µ ≠ 0"||||0.215
92346891|NCT00157755|184596574|SUPERIORITY_OR_OTHER|||||||1||||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in the frequency of weekly vomiting episodes from when stimulation was turned OFF to when stimulation was turned ON, µ = 0;~Alternative hypothesis: There was a change in frequency of weekly vomiting episodes from when stimulation was turned OFF to when stimulation was turned ON, µ ≠ 0"||||1.0
92346892|NCT00157755|184596575|SUPERIORITY_OR_OTHER|||||||0.903||||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in total symptom score from when stimulation was turned OFF to when stimulation was turned ON, µ = 0;~Alternative hypothesis: There was a change in total symptom score from when stimulation was turned OFF to when stimulation was turned ON, µ ≠ 0"||||0.903
92346893|NCT00157755|184596575|SUPERIORITY_OR_OTHER|||||||0.932||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in total symptom score from when stimulation was turned OFF to when stimulation was turned ON, µ = 0;~Alternative hypothesis: There was a change in total symptom score from when stimulation was turned OFF to when stimulation was turned ON, µ ≠ 0"||||0.932
92346894|NCT00157755|184596576|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change from baseline in the long-term frequency of weekly vomiting episodes, µ = 0;~Alternative hypothesis: There was a change from baseline in the long-term frequency of weekly vomiting episodes, µ ≠ 0"||||<0.001
92346895|NCT00157755|184596576|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change from baseline in the long-term frequency of weekly vomiting episodes, µ = 0;~Alternative hypothesis: There was a change from baseline in the long-term frequency of weekly vomiting episodes, µ ≠ 0"||||<0.001
92399850|NCT00550407|184691170|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Log Rank|||||||0.010
92346896|NCT00157755|184596577|SUPERIORITY_OR_OTHER|||||||0.014||||||A one-sided significance level of 0.025 was applied to the test. No adjustments were made for multiple comparisons.|binomial, 1 sided|||"Null hypothesis: The percentage of responders was less than or equal to 50%;~Alternative hypothesis: The percentage of responders was greater than 50%"||||0.014
92346897|NCT00157755|184596577|SUPERIORITY_OR_OTHER||||||<|0.001||||||A one-sided significance level of 0.025 was applied to the test. No adjustments were made for multiple comparisons.|binomial, 1 sided|||"Null hypothesis: The percentage of responders was less than or equal to 50%;~Alternative hypothesis: The percentage of responders was greater than 50%"||||<0.001
92346898|NCT00157755|184596578|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in total symptom score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in total symptom score from baseline to 12 months, µ ≠ 0"||||<0.001
92346899|NCT00157755|184596578|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in total symptom score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in total symptom score from baseline to 12 months, µ ≠ 0"||||<0.001
92346900|NCT00157755|184596579|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in PCS score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in PCS score from baseline to 12 months, µ ≠ 0"||||<0.001
92346901|NCT00157755|184596579|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in PCS score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in PCS score from baseline to 12 months, µ ≠ 0"||||0.043
92346902|NCT00157755|184596580|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in MCS score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in MCS score from baseline to 12 months, µ ≠ 0"||||0.009
92346903|NCT00157755|184596580|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in MCS score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in MCS score from baseline to 12 months, µ ≠ 0"||||0.001
92158935|NCT02408965|184205205|SUPERIORITY|||||||0.06|||||||Chi-squared|||||||0.06
92158936|NCT02408965|184205206|SUPERIORITY|||||||0.07|||||||Chi-squared|||||||0.07
92158937|NCT02408965|184205207|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92346904|NCT00157755|184596581|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in 2-hour gastric emptying from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in 2-hour gastric emptying from baseline to 12 months, µ ≠ 0"||||<0.001
92346905|NCT00157755|184596581|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in 2-hour gastric emptying from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in 2-hour gastric emptying from baseline to 12 months, µ ≠ 0"||||<0.001
92346906|NCT00157755|184596582|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in 4-hour gastric emptying from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in 4-hour gastric emptying from baseline to 12 months, µ ≠ 0"||||0.016
92346907|NCT00157755|184596582|SUPERIORITY_OR_OTHER|||||||0.236||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in 4-hour gastric emptying from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in 4-hour gastric emptying from baseline to 12 months, µ ≠ 0"||||0.236
92158938|NCT02408965|184205208|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.03
92158939|NCT02408965|184205209|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.02
92158940|NCT01222247|184205304|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.8||||0.02|TWO_SIDED|95.0|0.66|0.97|||Chi-squared|||Analysis for Primary Outcome composite||0.97|0.66|0.02
92158941|NCT01222247|184205304|SUPERIORITY||Risk Ratio (RR)|0.77||||0.01|TWO_SIDED|95.0|0.63|0.95|||Chi-squared|||Analysis for CPAP or high-flow nasal cannula||0.95|0.63|0.01
92158942|NCT01222247|184205304|SUPERIORITY||Risk Ratio (RR)|0.77||||0.17|TWO_SIDED|95.0|0.53|1.12|||Chi-squared|||Analysis for Fraction of inspired oxygen||1.12|0.53|0.17
92158943|NCT01222247|184205304|SUPERIORITY||Risk Ratio (RR)|0.78||||0.26|TWO_SIDED|95.0|0.5|1.21|||Chi-squared|||Analysis for mechanical ventilation||1.21|0.50|0.26
92158944|NCT01222247|184205305|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.67|||<|0.001|TWO_SIDED|95.0|0.53|0.84|||Chi-squared|||||0.84|0.53|<0.001
92158945|NCT01222247|184205306|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.78||||0.003|TWO_SIDED|95.0|0.66|0.92|||Chi-squared|||||0.92|0.66|0.003
92158946|NCT01222247|184205307|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.87||||0.36|TWO_SIDED|95.0|0.65|1.17|||Chi-squared|||||1.17|0.65|0.36
92158947|NCT01222247|184205308|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.68||||0.002|TWO_SIDED|95.0|0.53|0.87|||Chi-squared|||||0.87|0.53|0.002
92346908|NCT02421939|184596583|OTHER||Hazard Ratio (HR)|0.637||||0.0004|TWO_SIDED|95.0|0.49|0.83||1-sided P-value|Log Rank||Based on Cox proportional hazards model. Assuming proportional hazards, an HR of \< 1 indicates a reduction in the hazard rate in favor of the gilteritinib arm|Stratified analysis where tratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.||0.830|0.490|0.0004
92346909|NCT02421939|184596585|OTHER||Hazard Ratio (HR)|0.793||||0.0415|TWO_SIDED|95.0|0.577|1.089||1-sided P-value|Log Rank||Based on the Cox proportional hazards model. Assuming proportional hazards, an HR of \< 1 indicates a reduction in the hazard rate in favor of the gilteritinib arm.|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT||1.089|0.577|0.0415
92346910|NCT02421939|184596586|OTHER||Adjusted Treatment Difference|10.6||||0.0106|TWO_SIDED|95.0|2.8|18.4||Stratified P-value|Cochran-Mantel-Haenszel|||Based on stratified Cochran-Mantel-Haenszel test. Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT. Treatment difference = gilteritinib -chemotherapy.||18.4|2.8|0.0106
92346911|NCT02421939|184596587|OTHER||Hazard Ratio (HR)|0.889||||0.6654|TWO_SIDED|95.0|0.506|1.563||Unstratified p-value|Log Rank||Based on the Cox proportional hazards model. Assuming proportional hazards, an HR of \< 1 indicates a reduction in the hazard rate in favor of the gilteritinib arm.|The LFS was analyzed for participants who achieved remission using the stratified log-rank test with strata to control for response to first-line AML therapy and preselected salvage chemotherapy. Duration of LFS was based on Kaplan-Meier estimates.||1.563|0.506|0.6654
92346912|NCT02421939|184596588|OTHER||Hazard Ratio (HR)|0.206||||0.1189|TWO_SIDED|95.0|0.022|1.886||Unstratified|Log Rank||Based on Cox proportional hazards model. Assuming proportional hazards, a hazard ratio \< 1 indicates a reduction in hazard rate in favor of gilteritinib arm.|||1.886|0.022|0.1189
92346913|NCT02421939|184596589|OTHER||Treatment difference|32.5|||<|0.0001|TWO_SIDED|95.0|22.3|42.6||Unstratified 2-sided P-value|2-sided Fisher's exact test|||Treatment difference = gilteritinib - chemotherapy. The 95% CIs were asymptotic confidence limits using the normal approximation to the binomial distribution.||42.6|22.3|<0.0001
92346914|NCT02421939|184596590|OTHER||Treatment Difference|10.2||||0.0333|TWO_SIDED|95.0|1.2|19.1||Unstratified 2-sided P-value.|2-sided Fisher's exact test|Treatment difference = gilteritinib - chemotherapy.||||19.1|1.2|0.0333
92346915|NCT02421939|184596591|OTHER||Least Squares Mean Difference|-1.2567||||0|||||||ANCOVA|||C1D8: Using analysis of covariance (ANCOVA) including treatment as a fixed factor, baseline score, response to first-line AML therapy and preselected salvage chemotherapy per IRT as covariates. Least Square (LS) Mean difference was estimated using chemotherapy as control.||||0.0000
92346916|NCT02421939|184596591|OTHER||Least Squares Mean Difference|0.1574||||0.8037|||||||ANCOVA|||C2D1: Using analysis of covariance (ANCOVA) including treatment as a fixed factor, baseline score, response to first-line AML therapy and preselected salvage chemotherapy per IRT as covariates. Least Square (LS) Mean difference was estimated using chemotherapy as control.||||0.8037
92158948|NCT01222247|184205309|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.88||||0.57|TWO_SIDED|95.0|0.55|1.39|||Chi-squared|||||1.39|0.55|0.57
92158949|NCT01222247|184205310|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.22||||0.04|TWO_SIDED|95.0|0.02|0.92|||Chi-squared|||||0.92|0.02|0.04
92158950|NCT01222247|184205311|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.45||||0.1|TWO_SIDED|95.0|0.17|1.19|||Chi-squared|||||1.19|0.17|0.10
92158951|NCT01222247|184205312|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.59||||0.03|TWO_SIDED|95.0|0.37|0.96|||Chi-squared|||||0.96|0.37|0.03
92158952|NCT01222247|184205313|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.78||||0.004|TWO_SIDED|95.0|0.66|0.93|||Chi-squared|||||0.93|0.66|0.004
92158953|NCT01222247|184205314|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.82||||0.74|TWO_SIDED|95.0|0.25|2.68|||Chi-squared|||||2.68|0.25|0.74
92158954|NCT01222247|184205315|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Chi-squared|||||||0.50
92158955|NCT01222247|184205316|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92158956|NCT01222247|184205317|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.14||||0.13|TWO_SIDED|95.0|0.96|1.34|||Chi-squared|||||1.34|0.96|0.13
92158957|NCT01222247|184205318|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|||||||Chi-squared|||||||0.10
92158958|NCT01222247|184205320|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.8||||0.62|TWO_SIDED|95.0|0.33|1.93|||Chi-squared|||||1.93|0.33|0.62
92158959|NCT01222247|184205322|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.88||||0.4|TWO_SIDED|95.0|0.66|1.18|||Chi-squared|||||1.18|0.66|0.40
92346917|NCT02421939|184596592|OTHER||Adjusted Treatment Difference,|18.6|||<|0.0171|TWO_SIDED|95.0|9.8|27.4||Stratified 1-sided P-value.|Cochran-Mantel-Haenszel|||Based on a stratified Cochran-Mantel-Haenszel test. Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT. Pooled strata were used as shown in Table 12.3.3.2. Treatment differences were adjusted based on pooled strata. Treatment difference = gilteritinib 120 mg - chemotherapy.||27.4|9.8|<0.0171
92346918|NCT02966834|184596600|OTHER||Mean Difference (Net)|-0.47|||||TWO_SIDED|95.0|-1.75|0.82||||||||0.82|-1.75|
92346919|NCT02966834|184596600|OTHER||Mean Difference (Net)|-0.88|||||TWO_SIDED|95.0|-2.07|0.31||||||||0.31|-2.07|
92346920|NCT02966834|184596600|OTHER||Mean Difference (Net)|-0.88|||||TWO_SIDED|95.0|-2.03|0.28||||||||0.28|-2.03|
92346921|NCT02966834|184596600|OTHER||Mean Difference (Net)|-1.13|||||TWO_SIDED|95.0|-2.29|0.03||||||||0.03|-2.29|
92346922|NCT02966834|184596600|OTHER||Mean Difference (Net)|-0.53|||||TWO_SIDED|95.0|-1.71|0.65||||||||0.65|-1.71|
92346923|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-1.9|2.3|||||Symptoms|||2.3|-1.9|
92346924|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-1.5|2.5|||||Symptoms|||2.5|-1.5|
92346925|NCT02966834|184596601|OTHER||Mean Difference (Net)|-1.1|||||TWO_SIDED|95.0|-3.1|0.8|||||Symptoms|||0.8|-3.1|
92346926|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-1.8|2.0|||||Symptoms|||2.0|-1.8|
92346927|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-2.0|1.9|||||Symptoms|||1.9|-2.0|
92346928|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-1.3|2.2|||||Itch|||2.2|-1.3|
92346929|NCT02966834|184596601|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.8|1.3|||||Itch|||1.3|-1.8|
92346930|NCT02966834|184596601|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.9|1.2|||||Itch|||1.2|-1.9|
92346931|NCT02966834|184596601|OTHER||Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-2.6|0.5|||||Itch|||0.5|-2.6|
92346932|NCT02966834|184596601|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.9|1.3|||||Itch|||1.3|-1.9|
92346933|NCT02966834|184596601|OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-4.5|3.2|||||Fatigue|||3.2|-4.5|
92346934|NCT02966834|184596601|OTHER||Median Difference (Net)|0.7|||||TWO_SIDED|95.0|-2.8|4.2|||||Fatigue|||4.2|-2.8|
92346935|NCT02966834|184596601|OTHER||Mean Difference (Net)|3.5|||||TWO_SIDED|95.0|0.0|7.0|||||Fatigue|||7.0|0.0|
92346936|NCT02966834|184596601|OTHER||Mean Difference (Net)|1.7|||||TWO_SIDED|95.0|-1.8|5.1|||||Fatigue|||5.1|-1.8|
92346937|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-3.6|3.6|||||Fatigue|||3.6|-3.6|
92346938|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-2.5|2.6|||||Cognitive|||2.6|-2.5|
92218391|NCT01263483|184337670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.247|-0.133||||||||-0.133|-0.247|
92346939|NCT02966834|184596601|OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-2.9|1.7|||||Cognitive|||1.7|-2.9|
92346940|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-2.1|2.5|||||Cognitive|||2.5|-2.1|
92346941|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-1.8|2.8|||||Cognitive|||2.8|-1.8|
92346942|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-2.2|2.5|||||Cognitive|||2.5|-2.2|
92346943|NCT02966834|184596601|OTHER||Mean Difference (Net)|-0.9|||||TWO_SIDED|95.0|-2.1|0.4|||||Emotional|||0.4|-2.1|
92346944|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-0.9|1.3|||||Emotional|||1.3|-0.9|
92346945|NCT02966834|184596601|OTHER||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-1.2|1.1|||||Emotional|||1.1|-1.2|
92346946|NCT02966834|184596601|OTHER||Mean Difference (Net)|-0.8|||||TWO_SIDED|95.0|-1.9|0.3|||||Emotional|||0.3|-1.9|
92218392|NCT01263483|184337671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.421|||||TWO_SIDED|95.0|-0.507|-0.334||||||||-0.334|-0.507|
92218393|NCT01263483|184337671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.414|||||TWO_SIDED|95.0|-0.504|-0.324||||||||-0.324|-0.504|
92218394|NCT01263483|184337672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.738|||||TWO_SIDED|95.0|-0.871|-0.605||||||||-0.605|-0.871|
92218395|NCT01263483|184337672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.749|||||TWO_SIDED|95.0|-0.875|-0.623||||||||-0.623|-0.875|
92346947|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-1.2|1.1|||||Emotional|||1.1|-1.2|
92346948|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-2.4|3.0|||||Social|||3.0|-2.4|
92346949|NCT02966834|184596601|OTHER||Mean Difference (Net)|1.2|||||TWO_SIDED|95.0|-1.3|3.7|||||Social|||3.7|-1.3|
92346950|NCT02966834|184596601|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-2.3|2.7|||||Social|||2.7|-2.3|
92346951|NCT02966834|184596601|OTHER||Mean Difference (Net)|-2.4|||||TWO_SIDED|95.0|-4.8|0.1|||||Social|||0.1|-4.8|
92346952|NCT02966834|184596601|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-2.8|2.4|||||Social|||2.4|-2.8|
92346953|NCT02966834|184596602|OTHER||Mean Difference (Net)|-106.8|||||TWO_SIDED|95.0|-251.7|38.2||||||||38.2|-251.7|
92346954|NCT02966834|184596602|OTHER||Mean Difference (Net)|-87.4|||||TWO_SIDED|95.0|-198.5|23.8||||||||23.8|-198.5|
92346955|NCT02966834|184596602|OTHER||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-125.6|126.5||||||||126.5|-125.6|
92346956|NCT02966834|184596602|OTHER||Mean Difference (Net)|-78.3|||||TWO_SIDED|95.0|-211.5|54.8||||||||54.8|-211.5|
92346957|NCT02966834|184596602|OTHER||Mean Difference (Net)|-30.0|||||TWO_SIDED|95.0|-170.7|110.7||||||||110.7|-170.7|
92346958|NCT02966834|184596604|OTHER||Mean Difference (Net)|-21.4|||||TWO_SIDED|95.0|-58.4|15.5||||||||15.5|-58.4|
92346959|NCT02966834|184596604|OTHER||Mean Difference (Net)|-12.7|||||TWO_SIDED|95.0|-41.9|16.4||||||||16.4|-41.9|
92346960|NCT02966834|184596604|OTHER||Mean Difference (Net)|-15.0|||||TWO_SIDED|95.0|-49.9|20.0||||||||20.0|-49.9|
92346961|NCT02966834|184596604|OTHER||Mean Difference (Net)|-26.5|||||TWO_SIDED|95.0|-63.3|10.4||||||||10.4|-63.3|
92346962|NCT02966834|184596604|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-36.7|37.1||||||||37.1|-36.7|
92346963|NCT02966834|184596605|OTHER||Mean Difference (Net)|-20.0|||||TWO_SIDED|95.0|-52.73|12.74||||||||12.74|-52.73|
92346964|NCT02966834|184596605|OTHER||Mean Difference (Net)|-24.7|||||TWO_SIDED|95.0|-50.8|1.39||||||||1.39|-50.80|
92346965|NCT02966834|184596605|OTHER||Mean Difference (Net)|-22.61|||||TWO_SIDED|95.0|-53.39|8.16||||||||8.16|-53.39|
92346966|NCT02966834|184596605|OTHER||Mean Difference (Net)|-31.67|||||TWO_SIDED|95.0|-63.44|0.09||||||||0.09|-63.44|
92346967|NCT02966834|184596605|OTHER||Mean Difference (Net)|-5.79|||||TWO_SIDED|95.0|-38.33|26.74||||||||26.74|-38.33|
92346968|NCT02966834|184596606|OTHER||Mean Difference (Net)|-106.0|||||TWO_SIDED|95.0|-205.1|-6.8||||||||-6.8|-205.1|
92346969|NCT02966834|184596606|OTHER||Mean Difference (Net)|-65.5|||||TWO_SIDED|95.0|-148.5|17.6||||||||17.6|-148.5|
92346970|NCT02966834|184596606|OTHER||Mean Difference (Net)|-42.8|||||TWO_SIDED|95.0|-136.5|50.9||||||||50.9|-136.5|
92346971|NCT02966834|184596606|OTHER||Mean Difference (Net)|-65.8|||||TWO_SIDED|95.0|-161.2|29.5||||||||29.5|-161.2|
92346972|NCT02966834|184596606|OTHER||Mean Difference (Net)|-54.1|||||TWO_SIDED|95.0|-153.6|45.3||||||||45.3|-153.6|
92346973|NCT02966834|184596607|OTHER||Mean Difference (Net)|-6.099|||||TWO_SIDED|95.0|-11.929|-0.268||||||||-0.268|-11.929|
92346974|NCT02966834|184596607|OTHER||Mean Difference (Net)|-2.337|||||TWO_SIDED|95.0|-6.962|2.289||||||||2.289|-6.962|
92346975|NCT02966834|184596607|OTHER||Mean Difference (Net)|-2.232|||||TWO_SIDED|95.0|-7.679|3.215||||||||3.215|-7.679|
92346976|NCT02966834|184596607|OTHER||Mean Difference (Net)|-1.492|||||TWO_SIDED|95.0|-7.413|4.43||||||||4.430|-7.413|
92346977|NCT02966834|184596607|OTHER||Mean Difference (Net)|5.236|||||TWO_SIDED|95.0|-0.591|11.063||||||||11.063|-0.591|
92346978|NCT02966834|184596608|OTHER||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-2.7|1.6||||||||1.6|-2.7|
92346979|NCT02966834|184596608|OTHER||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-1.5|2.1||||||||2.1|-1.5|
92346980|NCT02966834|184596608|OTHER||Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|-1.2|2.7||||||||2.7|-1.2|
92346981|NCT02966834|184596608|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-2.1|2.0||||||||2.0|-2.1|
92346982|NCT02966834|184596608|OTHER||Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|-1.5|2.9||||||||2.9|-1.5|
92346983|NCT02966834|184596609|OTHER||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.08|0.04||||||||0.04|-0.08|
92346984|NCT02966834|184596609|OTHER||Mean Difference (Net)|-0.04|||||TWO_SIDED|95.0|-0.09|0.01||||||||0.01|-0.09|
92346985|NCT02966834|184596609|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.06|0.05||||||||0.05|-0.06|
92346986|NCT02966834|184596609|OTHER||Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.09|0.02||||||||0.02|-0.09|
92346987|NCT02966834|184596609|OTHER||Mean Difference (Net)|-0.04|||||TWO_SIDED|95.0|-0.1|0.02||||||||0.02|-0.10|
92346988|NCT02966834|184596610|OTHER||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-0.33|0.63||||||||0.63|-0.33|
92346989|NCT02966834|184596610|OTHER||Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.51|0.3||||||||0.30|-0.51|
92346990|NCT02966834|184596610|OTHER||Mean Difference (Net)|0.12|||||TWO_SIDED|95.0|-0.34|0.58||||||||0.58|-0.34|
92346991|NCT02966834|184596610|OTHER||Mean Difference (Net)|-0.08|||||TWO_SIDED|95.0|-0.54|0.38||||||||0.38|-0.54|
92346992|NCT02966834|184596610|OTHER||Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.54|0.41||||||||0.41|-0.54|
92399851|NCT03883581|184691193|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92346993|NCT02966834|184596620|OTHER||Odds Ratio (OR)|2.89|||||TWO_SIDED|95.0|0.69|12.02|||||Analysis was performed using Logistic regression. No covariates were used.|||12.02|0.69|
92346994|NCT02966834|184596620|OTHER||Odds Ratio (OR)|1.56|||||TWO_SIDED|95.0|0.48|5.02|||||Analysis was performed using Logistic regression. No covariates were used.|||5.02|0.48|
92346995|NCT02966834|184596620|OTHER||Odds Ratio (OR)|3.0|||||TWO_SIDED|95.0|0.84|10.76|||||Analysis was performed using Logistic regression. No covariates were used.|||10.76|0.84|
92346996|NCT02966834|184596620|OTHER||Odds Ratio (OR)|3.0|||||TWO_SIDED|95.0|0.84|10.76|||||Analysis was performed using Logistic regression. No covariates were used.|||10.76|0.84|
92346997|NCT02966834|184596620|OTHER||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.43|4.13|||||Analysis was performed using Logistic regression. No covariates were used.|||4.13|0.43|
92158960|NCT01222247|184205323|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.6|||<|0.001|TWO_SIDED|95.0|1.37|1.87|||Chi-squared|||||1.87|1.37|<0.001
92158961|NCT01222247|184205324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92158962|NCT01222247|184205325|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.93||||0.4|TWO_SIDED|95.0|0.78|1.1|||Chi-squared|||||1.10|0.78|0.40
92158963|NCT01222247|184205326|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.17||||0.15|TWO_SIDED|95.0|0.95|1.4|||Chi-squared|||||1.40|0.95|0.15
92158964|NCT01222247|184205327|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.16||||0.24|TWO_SIDED|95.0|0.91|1.47|||Chi-squared|||||1.47|0.91|0.24
92158965|NCT01222247|184205328|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.93||||0.09|TWO_SIDED|95.0|0.85|1.01|||Chi-squared|||Analysis for NICU stay of any duration||1.01|0.85|0.09
92158966|NCT01222247|184205328|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.89||||0.03|TWO_SIDED|95.0|0.8|0.98|||Chi-squared|||Analysis for duration greater than or equal to 3 days||0.98|0.80|0.03
92158967|NCT01222247|184205329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.20
92158968|NCT01222247|184205330|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.61||||0.08|TWO_SIDED|95.0|0.35|1.07|||Chi-squared|||Statistical analysis for chorioamnionitis||1.07|0.35|0.08
92158969|NCT01222247|184205330|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.98||||0.96|TWO_SIDED|95.0|0.49|1.95|||Chi-squared|||Analysis for Postpartum Endometritis||1.95|0.49|0.96
92158970|NCT01222247|184205330|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.03||||0.56|TWO_SIDED|95.0|0.93|1.15|||Chi-squared|||Statistical analysis for cesarean delivery||1.15|0.93|0.56
92158971|NCT01222247|184205331|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Analysis for interval from randomization to delivery||||0.57
92158972|NCT01222247|184205332|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92158973|NCT04529538|184205341|OTHER||GMT Ratio|0.68|||||TWO_SIDED|95.0|0.252|1.838|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of Type 1 neutralizing antibody GMT at Day 29||1.838|0.252|
92158974|NCT04529538|184205342|OTHER||GMT Ratio|1.26|||||TWO_SIDED|95.0|0.232|6.833|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of type 1 neutralizing antibody GMT at Day 29||6.833|0.232|
92158975|NCT04529538|184205342|OTHER||GMT Ratio|1.98|||||TWO_SIDED|95.0|0.603|6.528|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of type 1 neutralizing antibody GMT at Day 57||6.528|0.603|
92158976|NCT04529538|184205343|OTHER||GMT Ratio|1.56|||||TWO_SIDED|95.0|0.639|3.828|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of type 3 neutralizing antibody GMT at Day 29||3.828|0.639|
92158977|NCT04529538|184205344|OTHER||GMT Ratio|1.79|||||TWO_SIDED|95.0|0.772|4.163|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of type 3 neutralizing antibody GMT at Day 29||4.163|0.772|
92346998|NCT02966834|184596621|OTHER||Odds Ratio (OR)|1.36|||||TWO_SIDED|95.0|0.41|4.47|||||Analysis was performed using Logistic regression. No covariates were used.|||4.47|0.41|
92346999|NCT02966834|184596621|OTHER||Odds Ratio (OR)|3.18|||||TWO_SIDED|95.0|0.95|10.65|||||Analysis was performed using Logistic regression. No covariates were used.|||10.65|0.95|
92347000|NCT02966834|184596621|OTHER||Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|0.62|5.53|||||Analysis was performed using Logistic regression. No covariates were used.|||5.53|0.62|
92347001|NCT02966834|184596621|OTHER||Odds Ratio (OR)|2.27|||||TWO_SIDED|95.0|0.74|6.92|||||Analysis was performed using Logistic regression. No covariates were used.|||6.92|0.74|
92347002|NCT02966834|184596621|OTHER||Odds Ratio (OR)|2.12|||||TWO_SIDED|95.0|0.69|6.51|||||Analysis was performed using Logistic regression. No covariates were used.|||6.51|0.69|
92347003|NCT02966834|184596622|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.27|3.04|||||Analysis was performed using Logistic regression. No covariates were used.|||3.04|0.27|
92347004|NCT02966834|184596622|OTHER||Odds Ratio (OR)|2.25|||||TWO_SIDED|95.0|0.73|6.91|||||Analysis was performed using Logistic regression. No covariates were used.|||6.91|0.73|
92347005|NCT02966834|184596622|OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.35|3.08|||||Analysis was performed using Logistic regression. No covariates were used.|||3.08|0.35|
92347006|NCT02966834|184596622|OTHER||Odds Ratio (OR)|2.17|||||TWO_SIDED|95.0|0.73|6.42|||||Analysis was performed using Logistic regression. No covariates were used.|||6.42|0.73|
92347007|NCT02966834|184596622|OTHER||Odds Ratio (OR)|2.0|||||TWO_SIDED|95.0|0.67|5.99|||||Analysis was performed using Logistic regression. No covariates were used.|||5.99|0.67|
92347008|NCT02966834|184596623|OTHER||Mean Difference (Net)|18.21|||||TWO_SIDED|95.0|-2.59|39.0||||||||39.00|-2.59|
92347009|NCT02966834|184596623|OTHER||Mean Difference (Net)|11.05|||||TWO_SIDED|95.0|-7.42|29.53||||||||29.53|-7.42|
92347010|NCT02966834|184596623|OTHER||Mean Difference (Net)|18.44|||||TWO_SIDED|95.0|0.82|36.06||||||||36.06|0.82|
92347011|NCT02966834|184596623|OTHER||Mean Difference (Net)|25.48|||||TWO_SIDED|95.0|7.0|43.95||||||||43.95|7.00|
92347012|NCT02966834|184596623|OTHER||Mean Difference (Net)|13.26|||||TWO_SIDED|95.0|-5.47|31.99||||||||31.99|-5.47|
92347013|NCT02966834|184596624|OTHER||Mean Difference (Net)|14.99|||||TWO_SIDED|95.0|-5.13|35.1||||||||35.10|-5.13|
92347014|NCT02966834|184596624|OTHER||Mean Difference (Net)|6.97|||||TWO_SIDED|95.0|-10.9|24.84||||||||24.84|-10.90|
92347015|NCT02966834|184596624|OTHER||Mean Difference (Net)|11.78|||||TWO_SIDED|95.0|-5.27|28.82||||||||28.82|-5.27|
92347016|NCT02966834|184596624|OTHER||Mean Difference (Net)|21.83|||||TWO_SIDED|95.0|3.96|39.7||||||||39.70|3.96|
92347017|NCT02966834|184596624|OTHER||Mean Difference (Net)|21.58|||||TWO_SIDED|95.0|3.46|39.69||||||||39.69|3.46|
92347018|NCT02966834|184596625|OTHER||Mean Difference (Net)|6.15|||||TWO_SIDED|95.0|-14.76|27.06||||||||27.06|-14.76|
92347019|NCT02966834|184596625|OTHER||Mean Difference (Net)|7.26|||||TWO_SIDED|95.0|-11.32|25.84||||||||25.84|-11.32|
92347020|NCT02966834|184596625|OTHER||Mean Difference (Net)|9.13|||||TWO_SIDED|95.0|-8.59|26.85||||||||26.85|-8.59|
92347021|NCT02966834|184596625|OTHER||Mean Difference (Net)|19.94|||||TWO_SIDED|95.0|1.36|38.51||||||||38.51|1.36|
92218396|NCT01263483|184337673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.01|||||TWO_SIDED|95.0|-18.5|-5.52||||||||-5.52|-18.50|
92218397|NCT01263483|184337673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.33|||||TWO_SIDED|95.0|-21.93|-8.73||||||||-8.73|-21.93|
92347022|NCT02966834|184596625|OTHER||Mean Difference (Net)|27.04|||||TWO_SIDED|95.0|8.2|45.87||||||||45.87|8.20|
92218398|NCT01263483|184337674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.65|||||TWO_SIDED|95.0|-23.02|-8.27||||||||-8.27|-23.02|
92218399|NCT01263483|184337674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.03|||||TWO_SIDED|95.0|-29.68|-14.38||||||||-14.38|-29.68|
92347023|NCT02966834|184596626|OTHER||Mean Difference (Net)|-0.27|||||TWO_SIDED|95.0|-1.46|0.92||||||||0.92|-1.46|
92347024|NCT02966834|184596626|OTHER||Mean Difference (Net)|-0.48|||||TWO_SIDED|95.0|-1.58|0.62||||||||0.62|-1.58|
92347025|NCT02966834|184596626|OTHER||Mean Difference (Net)|-0.46|||||TWO_SIDED|95.0|-1.53|0.61||||||||0.61|-1.53|
92347026|NCT02966834|184596626|OTHER||Mean Difference (Net)|-0.96|||||TWO_SIDED|95.0|-2.03|0.12||||||||0.12|-2.03|
92347027|NCT02966834|184596626|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.4|0.8||||||||0.80|-1.40|
92347028|NCT02966834|184596627|OTHER||Mean Difference (Net)|-0.39|||||TWO_SIDED|95.0|-1.49|0.71||||||||0.71|-1.49|
92347029|NCT02966834|184596627|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-1.41|0.61||||||||0.61|-1.41|
92347030|NCT02966834|184596627|OTHER||Mean Difference (Net)|-0.26|||||TWO_SIDED|95.0|-1.24|0.72||||||||0.72|-1.24|
92347031|NCT02966834|184596627|OTHER||Mean Difference (Net)|-0.42|||||TWO_SIDED|95.0|-1.39|0.56||||||||0.56|-1.39|
92347032|NCT02966834|184596627|OTHER||Mean Difference (Net)|-0.29|||||TWO_SIDED|95.0|-1.28|0.7||||||||0.70|-1.28|
92347033|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.7|0.5|||||Duration|||0.5|-0.7|
92347034|NCT02966834|184596628|OTHER||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-0.2|0.9|||||Duration|||0.9|-0.2|
92347035|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-1.0|0.1|||||Duration|||0.1|-1.0|
92347036|NCT02966834|184596628|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-0.3|0.7|||||Duration|||0.7|-0.3|
92347037|NCT02966834|184596628|OTHER||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.4|0.6|||||Duration|||0.6|-0.4|
92347038|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.8|0.3|||||Degree|||0.3|-0.8|
92347039|NCT02966834|184596628|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||||Degree|||0.5|-0.5|
92347040|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.6|0.5|||||Degree|||0.5|-0.6|
92347041|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.7|0.3|||||Degree|||0.3|-0.7|
92347042|NCT02966834|184596628|OTHER||Median Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.6|0.4|||||Degree|||0.4|-0.6|
92347043|NCT02966834|184596628|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Direction|||0.7|-0.7|
92347044|NCT02966834|184596628|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.7|0.6|||||Direction|||0.6|-0.7|
92347045|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.8|0.5|||||Direction|||0.5|-0.8|
92347046|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-1.0|0.2|||||Direction|||0.2|-1.0|
92347047|NCT02966834|184596628|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.6|0.6|||||Direction|||0.6|-0.6|
92347048|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-1.1|0.3|||||Disability|||0.3|-1.1|
92347049|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.8|0.5|||||Disability|||0.5|-0.8|
92347050|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.0|0.3|||||Disability|||0.3|-1.0|
92347051|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.0|0.3|||||Disability|||0.3|-1.0|
92347052|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.0|0.3|||||Disability|||0.3|-1.0|
92347053|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-0.9|0.3|||||Distribution|||0.3|-0.9|
92347054|NCT02966834|184596628|OTHER||Median Difference (Net)|-0.3|||||TWO_SIDED|95.0|-0.9|0.2|||||Distribution|||0.2|-0.9|
92347055|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.0|0.0|||||Distribution|||0.0|-1.0|
92347056|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-0.9|0.2|||||Distribution|||0.2|-0.9|
92347057|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.7|0.3|||||Distribution|||0.3|-0.7|
92347058|NCT02966834|184596628|OTHER||Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-3.3|1.3|||||5-D Itch Total Score|||1.3|-3.3|
92347059|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-2.2|2.1|||||5-D Itch Total Score|||2.1|-2.2|
92347060|NCT02966834|184596628|OTHER||Mean Difference (Net)|-1.4|||||TWO_SIDED|95.0|-3.5|0.7|||||5-D Itch Total Score|||0.7|-3.5|
92347061|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.9|||||TWO_SIDED|95.0|-3.0|1.2|||||5-D Itch Total Score|||1.2|-3.0|
92347062|NCT02966834|184596628|OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-2.7|1.6|||||5-D Itch Total Score|||1.6|-2.7|
92347063|NCT02966834|184596632|OTHER||Mean Difference (Net)|-0.71|||||TWO_SIDED|95.0|-1.69|0.28||||||||0.28|-1.69|
92347064|NCT02966834|184596632|OTHER||Mean Difference (Net)|-0.62|||||TWO_SIDED|95.0|-1.49|0.26||||||||0.26|-1.49|
92347065|NCT02966834|184596632|OTHER||Mean Difference (Net)|-0.9|||||TWO_SIDED|95.0|-1.76|-0.03||||||||-0.03|-1.76|
92347066|NCT02966834|184596632|OTHER||Mean Difference (Net)|-1.16|||||TWO_SIDED|95.0|-2.05|-0.28||||||||-0.28|-2.05|
92347067|NCT02966834|184596632|OTHER||Mean Difference (Net)|-0.95|||||TWO_SIDED|95.0|-1.85|-0.06||||||||-0.06|-1.85|
92158978|NCT04529538|184205344|OTHER||GMT Ratio|2.51|||||TWO_SIDED|95.0|0.994|6.34|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of type 3 neutralizing antibody GMT at Day 57||6.340|0.994|
92158979|NCT04529538|184205345|OTHER||Rate Difference|-4.0|||>|0.999|TWO_SIDED|95.0|-27.67|22.72|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-Group Seroconversion Rate (4-fold rise) in Neutralizing Antibody Titers||22.72|-27.67|>0.999
92158980|NCT04529538|184205346|OTHER||Rate Difference|-2.8|||>|0.999|TWO_SIDED|95.0|-20.47|20.86|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-group seroconversion rate (4-fold rise) in neutralizing antibody titers 28 days after first dose.||20.86|-20.47|>0.999
92158981|NCT04529538|184205346|OTHER||Rate Difference|8.3||||0.263|TWO_SIDED|95.0|-5.71|30.57|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-group comparison of seroconversion rate (4-fold rise) in neutralizing antibody titers 28 days after 2nd dose.||30.57|-5.71|0.263
92158982|NCT04529538|184205347|OTHER||Rate Difference|14.3||||0.224|TWO_SIDED|95.0|-8.3|40.45|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-group seroconversion rate (4-fold rise) in neutralizing antibody titers 28 days after vaccination||40.45|-8.30|0.224
92158983|NCT04529538|184205348|OTHER||Rate Difference|9.8||||0.275|TWO_SIDED|95.0|-7.29|35.19|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-group comparison of seroconversion rate (4-fold rise) in neutralizing antibody titers 28 days after first dose.||35.19|-7.29|0.275
92158984|NCT04529538|184205348|OTHER||Rate Difference|17.9||||0.1|TWO_SIDED|95.0|-1.27|44.93|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-group comparison of seroconversion rate (4-fold rise) in neutralizing antibody titers 28 days after 2nd dose.||44.93|-1.27|0.100
92158985|NCT03437668|184205366|SUPERIORITY|To test for a differential treatment effect, we fit a linear mixed with group, time, and a group by time interaction as the predictors and random intercepts to account for the correlations induced by the repeated measurements within subjects. Given the form of the trajectories and the small sample size, we chose to treat time as continuous to minimize the number of degrees of freedom and the risk of overfitting.|Slope|-0.22||||0.31|TWO_SIDED|||||p-value is for the interaction of time and treatment group in the mixed model|Mixed Models Analysis|||||||.31
92158986|NCT01822821|184205368|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was tested using a noninferiority margin of 1.15.|ratio of geometric means|0.89||||0.08|ONE_SIDED|90.0||1.06|||Regression, Linear||Ratio of geometric means (CI) for IV acetaminophen versus placebo was estimated as the exponentiated treatment effect parameter from a multivariable linear regression model on log opioid consumption adjusting for age and diabetes.|||1.06||0.08
92158987|NCT01822821|184205368|SUPERIORITY_OR_OTHER||ratio of geometric means|0.89||||0.28|ONE_SIDED|95.0||1.1|||Regression, Linear||Ratio of geometric means (CI) for IV acetaminophen versus placebo was estimated as the exponentiated treatment effect parameter from a multivariable linear regression model on log opioid consumption adjusting for age and diabetes.|||1.10||0.28
92158988|NCT01822821|184205369|NON_INFERIORITY_OR_EQUIVALENCE|We assessed whether IV acetaminophen is noninferior to placebo using a noninferiority margin of 1.0.|Median Difference (Final Values)|-0.9|||<|0.001|ONE_SIDED|90.0||-0.5|||Regression, Linear||Difference in overall postoperative pain score means based on a repeated measures linear regression model with an autoregressive correlation structure, adjusting for age, time, and diabetes.|||-0.5||< 0.001
92158989|NCT01822821|184205369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||<|0.001|ONE_SIDED|95.0||-0.42|||Regression, Linear||Difference in overall postoperative pain score means based on a repeated measures linear regression model with an autoregressive correlation structure, adjusting for age, time, and diabetes.|||-0.42||< 0.001
92158990|NCT01822821|184205370|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.76||||0.35|TWO_SIDED|99.4|0.34|1.7|||Regression, Logistic||Relative risk of PONV in IV acetaminophen versus placebo patients estimated from a multivariable logistic regression model using the log link and adjusting for age and diabetes.|||1.7|0.34|0.35
92158991|NCT01822821|184205371|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.13|TWO_SIDED|99.8|0.0|0.0|||Wilcoxon (Mann-Whitney)||Difference in medians of IV acetaminophen versus placebo patients based on Wilcoxon rank sum test and Hodges-Lehmann estimation of location shift.|Analysis at 8 hours after surgery.||0|0|0.13
92158992|NCT01822821|184205371|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.44|TWO_SIDED|99.8|0.0|0.0|||Wilcoxon (Mann-Whitney)||Difference in medians of IV acetaminophen versus placebo patients based on Wilcoxon rank sum test and Hodges-Lehmann estimation of location shift.|Analysis at 16 hours after surgery.||0|0|0.44
92158993|NCT01822821|184205371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.38|TWO_SIDED|99.8|0.0|0.0|||Wilcoxon (Mann-Whitney)||Difference in medians of IV acetaminophen versus placebo patients based on Wilcoxon rank sum test and Hodges-Lehmann estimation of location shift.|Analysis at 24 hours after surgery||0|0|0.38
92158994|NCT01822821|184205372|SUPERIORITY_OR_OTHER||ratio of geometric means|1.3||||0.46|TWO_SIDED|99.4|0.52|3.2|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on duration of mechanical ventilation was assessed by use of the ratio of geometric means from a multivariable logistic regression models adjusting for age and diabetes.|||3.20|0.52|0.46
92158995|NCT01822821|184205373|SUPERIORITY_OR_OTHER||ratio of geometric means|0.93||||0.38|TWO_SIDED|99.4|0.74|1.2|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on duration of ICU stay was assessed by use of the ratio of geometric means from a multivariable logistic regression models adjusting for age and diabetes.|||1.20|0.74|0.38
92218400|NCT01263483|184337675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.3|||||TWO_SIDED|95.0|-26.09|-10.5||||||||-10.50|-26.09|
92218401|NCT01263483|184337675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.34|||||TWO_SIDED|95.0|-27.34|-11.34||||||||-11.34|-27.34|
92218402|NCT01263483|184337676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.53|||||TWO_SIDED|95.0|-21.46|-5.6||||||||-5.60|-21.46|
92218403|NCT01263483|184337676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.97|||||TWO_SIDED|95.0|-21.53|-4.41||||||||-4.41|-21.53|
92218404|NCT01263483|184337677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.304|0.104||||||||0.104|-0.304|
92218405|NCT01263483|184337677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.036|||||TWO_SIDED|95.0|-0.239|0.167||||||||0.167|-0.239|
92218406|NCT01263483|184337678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.013|||||TWO_SIDED|95.0|-0.267|0.292||||||||0.292|-0.267|
92347068|NCT02966834|184596633|OTHER||Least Square (LS) mean ratio|0.967|||||TWO_SIDED|95.0|0.635|1.471||||||||1.471|0.635|
92347069|NCT02966834|184596633|OTHER||LS mean ratio|1.17|||||TWO_SIDED|95.0|0.8|1.712||||||||1.712|0.8|
92347070|NCT02966834|184596633|OTHER||LS mean ratio|0.909|||||TWO_SIDED|95.0|0.627|1.316||||||||1.316|0.627|
92347071|NCT02966834|184596633|OTHER||LS mean ratio|0.69|||||TWO_SIDED|95.0|0.474|1.005||||||||1.005|0.474|
92347072|NCT02966834|184596633|OTHER||LS mean ratio|0.825|||||TWO_SIDED|95.0|0.564|1.207||||||||1.207|0.564|
92347073|NCT02966834|184596634|OTHER||LS mean ratio|1.363|||||TWO_SIDED|95.0|0.932|1.995||||||||1.995|0.932|
92347074|NCT02966834|184596634|OTHER||LS mean ratio|2.05|||||TWO_SIDED|95.0|1.456|2.887||||||||2.887|1.456|
92347075|NCT02966834|184596634|OTHER||LS mean ratio|2.457|||||TWO_SIDED|95.0|1.758|3.436||||||||3.436|1.758|
92347076|NCT02966834|184596634|OTHER||LS mean ratio|3.128|||||TWO_SIDED|95.0|2.206|4.435||||||||4.435|2.206|
92218407|NCT01263483|184337678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.034|||||TWO_SIDED|95.0|-0.264|0.196||||||||0.196|-0.264|
92218408|NCT01263483|184337679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.038|||||TWO_SIDED|95.0|-0.268|0.191||||||||0.191|-0.268|
92218409|NCT01263483|184337679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.073|||||TWO_SIDED|95.0|-0.261|0.115||||||||0.115|-0.261|
92218410|NCT01263483|184337680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|||||TWO_SIDED|95.0|-0.183|0.252||||||||0.252|-0.183|
92218411|NCT01263483|184337680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|||||TWO_SIDED|95.0|-0.124|0.288||||||||0.288|-0.124|
92218412|NCT01263483|184337681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.54|||||TWO_SIDED|95.0|-41.28|-21.8||||||||-21.80|-41.28|
92218413|NCT01263483|184337681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.73|||||TWO_SIDED|95.0|-44.88|-22.57||||||||-22.57|-44.88|
92218414|NCT01263483|184337682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-70.38|||||TWO_SIDED|95.0|-90.67|-50.09||||||||-50.09|-90.67|
92347077|NCT02966834|184596634|OTHER||LS mean ratio|2.701|||||TWO_SIDED|95.0|1.915|3.81||||||||3.81|1.915|
92347078|NCT00362232|184596705|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-2.71|||<|0.001||95.0|-5.25|-0.17|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence of the primary efficacy endpoint in the rivaroxaban group is larger by more than 4% (absolute) compared to the comparator group.||-0.17|-5.25|<0.001
92347079|NCT00362232|184596705|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.71||||0.036||95.0|-5.25|-0.17|||Mantel Haenszel|weighted treatment differences||Null hypothesis: The incidence of the primary efficacy endpoint is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided).||-0.17|-5.25|0.036
92347080|NCT00362232|184596706|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.19||||0.012||95.0|-5.67|-0.71|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence of the primary efficacy endpoint is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided).||-0.71|-5.67|0.012
92347081|NCT00362232|184596707|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.37||||0.456||95.0|-1.34|0.6|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence of the major VTE is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.6|-1.34|0.456
92347082|NCT00362232|184596707|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-0.37|||<|0.001||95.0|-1.34|0.6|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence of the major VTE in the rivaroxaban group is larger by more than 1.5% (absolute) compared to the comparator group.||0.6|-1.34|<0.001
92347083|NCT00362232|184596708|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.8||||0.124||95.0|-1.82|0.22|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence of the major VTE is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.22|-1.82|0.124
92347084|NCT00362232|184596708|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-0.8|||<|0.001||95.0|-1.82|0.22|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence of the major VTE in the rivaroxaban group is larger by more than 1.5% (absolute) compared to the comparator group.||0.22|-1.82|<0.001
92347085|NCT00362232|184596709|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.44||||||95.0|-1.59|0.66|||||Mantel-Haenszel weighted difference to Enoxaparin|||0.66|-1.59|
92347086|NCT00362232|184596710|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.72||||||95.0|-1.81|0.36|||||Mantel-Haenszel weighted difference to Enoxaparin|||0.36|-1.81|
92347087|NCT00362232|184596711|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.38||||||95.0|-4.84|0.07|||||Mantel-Haenszel weighted difference to Enoxaparin|||0.07|-4.84|
92347088|NCT00362232|184596712|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.67||||||95.0|-5.02|-0.32|||||Mantel-Haenszel weighted difference to Enoxaparin|||-0.32|-5.02|
92347089|NCT00362232|184596713|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.24||||||95.0|-0.22|0.71|||||Mantel-Haenszel weighted difference to Enoxaparin|||0.71|-0.22|
92347090|NCT00362232|184596714|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.11||||||95.0|-0.35|0.56||||||||0.56|-0.35|
92347091|NCT00362232|184596715|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.3||||||95.0|-1.56|0.94|||||Exact methods for difference to Enoxaparin|||0.94|-1.56|
92347092|NCT00362232|184596716|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.47||||0.054||95.0|-4.99|0.04|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence rate is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.04|-4.99|0.054
92347093|NCT00362232|184596716|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-2.47|||<|0.001||95.0|-4.49|0.04|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence rate in the rivaroxaban group is larger by more than 4% (absolute) compared to the comparator group.||0.04|-4.49|<0.001
92399852|NCT03883581|184691194|SUPERIORITY|||||||0.647|||||||Paired t test|||||||0.647
92218415|NCT01263483|184337682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-72.49|||||TWO_SIDED|95.0|-93.1|-51.88||||||||-51.88|-93.10|
92158996|NCT01822821|184205374|SUPERIORITY_OR_OTHER||ratio of geometric means|1.1||||0.12|TWO_SIDED|99.4|0.94|1.2|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on duration of mechanical ventilation was assessed by use of the ratio of geometric means from a multivariable logistic regression models adjusting for age and diabetes.|||1.20|0.94|0.12
92158997|NCT01822821|184205375|SUPERIORITY_OR_OTHER||ratio of geometric means|1.1||||0.31|TWO_SIDED|99.4|0.9|1.2|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on ALT was assessed by use of the ratio of geometric means from a repeated measures multivariable logistic regression models adjusting for age and diabetes.|||1.2|0.9|0.31
92158998|NCT01822821|184205376|SUPERIORITY_OR_OTHER||ratio of geometric means|1.0||||0.98|TWO_SIDED|99.4|0.8|1.2|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on AST was assessed by use of the ratio of geometric means from a repeated measures multivariable logistic regression models adjusting for age and diabetes.|||1.2|0.8|0.98
92158999|NCT01822821|184205377|SUPERIORITY_OR_OTHER||ratio of geometric means|1.1||||0.4|TWO_SIDED|99.4|0.87|1.3|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on bilirubin was assessed by use of the ratio of geometric means from a repeated measures multivariable logistic regression models adjusting for age and diabetes.|||1.3|0.87|0.40
92159000|NCT03298815|184205378|SUPERIORITY|||||||0.375|||||||McNemar|||||||0.375
92159001|NCT03298815|184205379|SUPERIORITY|||||||0.391|||||||Wilcoxon (Mann-Whitney)|||||||0.391
92159002|NCT03298815|184205380|SUPERIORITY|||||||0.267|||||||Wilcoxon (Mann-Whitney)|||||||0.267
92159003|NCT03298815|184205381|SUPERIORITY|||||||0.445|||||||Wilcoxon (Mann-Whitney)|||||||0.445
92159004|NCT03298815|184205382|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.250
92159005|NCT03298815|184205383|SUPERIORITY||||||<|1|||||||Wilcoxon (Mann-Whitney)|||||||<1.00
92159006|NCT03298815|184205384|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.500
92159007|NCT03298815|184205385|SUPERIORITY|||||||0.563|||||||Wilcoxon (Mann-Whitney)|||||||0.563
92159008|NCT03298815|184205386|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92159009|NCT03298815|184205387|SUPERIORITY|||||||0.156|||||||Wilcoxon (Mann-Whitney)|||||||0.156
92218416|NCT01263483|184337683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.093|||||TWO_SIDED|95.0|2.229|11.958||||||||11.958|2.229|
92218417|NCT01263483|184337683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.967|||||TWO_SIDED|95.0|-0.521|8.455||||||||8.455|-0.521|
92218418|NCT01263483|184337684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55|||||TWO_SIDED|95.0|-0.045|1.144||||||||1.144|-0.045|
92159010|NCT03298815|184205388|SUPERIORITY|||||||0.208|||||||Wilcoxon (Mann-Whitney)|||||||0.208
92159011|NCT03298815|184205389|SUPERIORITY|||||||0.594||||||30 day visit|Wilcoxon (Mann-Whitney)|||||||0.594
92159012|NCT03298815|184205389|SUPERIORITY|||||||0.469||||||60 day visit|Wilcoxon (Mann-Whitney)|||||||0.469
92159013|NCT03298815|184205389|SUPERIORITY|||||||0.75||||||100 day visit|Wilcoxon (Mann-Whitney)|||||||0.750
92159014|NCT03298815|184205390|SUPERIORITY|||||||0.063||||||30 day visit|Wilcoxon (Mann-Whitney)|||||||0.063
92159015|NCT03298815|184205390|SUPERIORITY||||||<|1||||||60 day visit|Wilcoxon (Mann-Whitney)|||||||<1.000
92159016|NCT03298815|184205390|SUPERIORITY|||||||0.25||||||100 day visit|Wilcoxon (Mann-Whitney)|||||||0.250
92159017|NCT04996069|184205409|SUPERIORITY|No power calculation performed.||||||0.45||||||p value threshold is .05|t-test, 2 sided|||||||.45
92159018|NCT00935792|184205413|OTHER||||||||||||||||||Estimated maximum tolerated dose was 2.5mg of oral everolimus thrice weekly for 9 weeks and alemtuzumab subcutaneously thrice weekly for 8 weeks.|||
92159019|NCT02322775|184205419|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.08||||0.04|TWO_SIDED|95.0|0.0|0.15||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||The null hypothesis was: H0: Change from baseline in pre-bronchodilator FEV1 (L) at Week 12 (benralizumab vs placebo)=0.||0.15|0|0.040
92159020|NCT02322775|184205420|SUPERIORITY_OR_OTHER||Difference of Least Square Means|8.84||||0.233|TWO_SIDED|95.0|-5.74|23.42||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||23.42|-5.74|0.233
92159021|NCT02322775|184205421|SUPERIORITY_OR_OTHER||Difference of Least Square Means|5.29||||0.456|TWO_SIDED|95.0|-8.67|19.25||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||19.25|-8.67|0.456
92159022|NCT02322775|184205422|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.13||||0.266|TWO_SIDED|95.0|-0.35|0.1||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||0.10|-0.35|0.266
92159023|NCT02322775|184205423|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.36||||0.2|TWO_SIDED|95.0|-0.91|0.19||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||0.19|-0.91|0.200
92159024|NCT02322775|184205424|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.03||||0.38|TWO_SIDED|95.0|-0.08|0.03||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||0.03|-0.08|0.380
92159025|NCT02322775|184205425|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.17||||0.114|TWO_SIDED|95.0|-0.39|0.04||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||0.04|-0.39|0.114
92159026|NCT02322775|184205427|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.21||||0.055|TWO_SIDED|95.0|0.0|0.42||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|ANCOVA|||Parameter: Total score||0.42|0|0.055
92159027|NCT02322775|184205427|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.23||||0.063|TWO_SIDED|95.0|-0.01|0.47||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|ANCOVA|||Parameter: Symptoms score||0.47|-0.01|0.063
92159028|NCT02322775|184205427|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.2||||0.061|TWO_SIDED|95.0|-0.01|0.41||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|ANCOVA|||Parameter: Activity limitation score||0.41|-0.01|0.061
92218419|NCT01263483|184337684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.428|||||TWO_SIDED|95.0|-0.233|1.09||||||||1.090|-0.233|
92218420|NCT01263483|184337685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.77|||||TWO_SIDED|95.0|-36.65|-0.9||||||||-0.90|-36.65|
92218421|NCT01263483|184337685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.04|||||TWO_SIDED|95.0|-37.82|-2.27||||||||-2.27|-37.82|
92347094|NCT00362232|184596717|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.97||||0.017||95.0|-5.42|-0.53|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence rate is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||-0.53|-5.42|0.017
92347095|NCT00362232|184596717|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-2.97|||<|0.001||95.0|-5.42|-0.53|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence rate in the rivaroxaban group is larger by more than 4% (absolute) compared to the comparator group.||-0.53|-5.42|<0.001
92347096|NCT00362232|184596718|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.57||||0.27||95.0|-1.57|0.44|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence rate is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.44|-1.57|0.270
92347097|NCT00362232|184596718|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-0.57|||<|0.001||95.0|-1.57|0.44|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence rate in the rivaroxaban group is larger by more than 1.5% (absolute) compared to the comparator group.||0.44|-1.57|<0.001
92347098|NCT00362232|184596719|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.98||||0.074||95.0|-2.06|0.1|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence rate is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.10|-2.06|0.074
92218422|NCT02577406|184337688|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.2288|TWO_SIDED|95.0|0.67|1.1|||Stratified Log Rank||The hazard ratio was from a Cox proportional hazards model stratified by prior intensive therapy for AML and primary refractory|||1.10|0.67|0.2288
92218423|NCT02577406|184337689|SUPERIORITY||Odds Ratio (OR)|6.08|||<|0.0001|TWO_SIDED|95.0|3.32|11.14||p-value from a Cochran-Mantel-Haenszel test comparing the response rates between the AG-221 group and the combined CCR group with stratification factors of prior intensive therapy for AML and primary refractory status|Cochran-Mantel-Haenszel||Odds ratio from logistic regression|||11.14|3.32|<0.0001
92218424|NCT02577406|184337690|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.02|TWO_SIDED|95.0|0.55|0.95|||Stratified Log Rank||The hazard ratio is from a Cox proportional hazards model stratified by prior intensive therapy for AML and primary refractory status.|||0.95|0.55|0.0200
92275286|NCT03549130|184452706|SUPERIORITY||LS mean difference|-1.8||||0.0333|TWO_SIDED|95.0|-3.45|-0.14||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep Time Problems.||-0.14|-3.45|0.0333
92275287|NCT03549130|184452706|SUPERIORITY||LS mean difference|-1.63||||0.0345|TWO_SIDED|95.0|-3.13|-0.12||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Symptoms on Waking in the Morning.||-0.12|-3.13|0.0345
92218425|NCT02577406|184337696|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92218426|NCT02577406|184337697|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92218427|NCT02577406|184337698|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92347099|NCT00362232|184596719|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided) .|Risk Difference (RD)|-0.98|||<|0.001||95.0|-2.06|0.1|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence rate in the rivaroxaban group is larger by more than 1.5% (absolute) compared to the comparator group.||0.10|-2.06|<0.001
92347100|NCT00362232|184596720|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.39||||0.11||95.0|-0.09|0.88|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence rate is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.88|-0.09|0.110
92347101|NCT00090103|184596742|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.8||||0.18||95.0|0.58|1.11||Log-rank test with stratification by cluster.|Log Rank|||||1.11|0.58|0.18
92347102|NCT00090103|184596742|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.34|||<|0.001||95.0|0.26|0.45||Log-rank test with stratification by cluster.|Log Rank|||||0.45|0.26|<0.001
92347103|NCT00090103|184596744|SUPERIORITY_OR_OTHER|||||||0.18||95.0||||Log rank test with stratification by cluster.|Log Rank|||||||0.18
92347104|NCT00090103|184596744|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Log rank test with stratification by cluster.|Log Rank|||||||<0.001
92218428|NCT02577406|184337700|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.41|0.67|||Stratified Log Rank||The hazard ratio was from a Cox proportional hazards model stratified by prior intensive therapy for AML and primary refractory status|||0.67|0.41|<0.0001
92218429|NCT01961349|184337724|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92218430|NCT01961349|184337724|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92218431|NCT01961349|184337725|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92218432|NCT01961349|184337725|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92218433|NCT00397033|184337756|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|P-value is based on the CMH chi-square test with modified ridit scores, stratified by concomitant medication stratum, and country.||||||0.001
92218434|NCT00397033|184337756|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Cochran-Mantel-Haenszel|P-value is based on the CMH chi-square test with modified ridit scores, stratified by concomitant medication stratum, and country.||||||0.008
92347105|NCT00090103|184596746|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.65|||<|0.001||95.0|0.52|0.8|||Log Rank|Log-rank test with stratification by cluster.||||0.80|0.52|<0.001
92347106|NCT00090103|184596746|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.59|||<|0.001||95.0|0.48|0.72|||Log Rank|||||0.72|0.48|<0.001
92347107|NCT00090103|184596747|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Log Rank|Mantel-Haenszel test with stratification by cluster.||||||0.65
92347108|NCT00090103|184596747|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Log Rank|Mantel-Hanenszel test with stratification by cluster.||||||0.10
92347109|NCT00090103|184596748|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||Log Rank|Mantel-Haenszel test with stratification by cluster.||||||0.95
92347110|NCT00090103|184596748|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Log Rank|Mantel-Haenszel test with stratification by cluster.||||||0.24
92347111|NCT00320086|184596779|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||ANOVA|||ANOVA||||<0.05
92347112|NCT01080261|184596795|NON_INFERIORITY_OR_EQUIVALENCE|Study had 91% statistical power to demonstrate that the 9-month rate for MACE (accounting for an expected 9-month attrition rate of 10%) is less than the performance goal, assuming a 9-month MACE rate of 8.2%.|Percent of patients experiencing a MACE|0.0|||<|0.0001|ONE_SIDED|95.0||4.9|||One-group exact binomial test|||A one-group exact binomial test was used to test the hypothesis that the percentage of patients experiencing a MACE event (primary endpoint) in the PROMUS Element cohort is less than the predefined performance goal of 24.1% (based on historical outcomes with plain balloon angioplasty \[20.2%\] plus an adjustment of 3.9% for small vessels).||4.9||<0.0001
92347113|NCT02385318|184596807|EQUIVALENCE|85% power of success|Equivalence ratio|1.11|||||TWO_SIDED|90.0|-4.38|14.44|||Yates correction|||||14.44|-4.38|
92347114|NCT00300053|184596808|SUPERIORITY|||||||0.02|||||||ANCOVA|||Frequency of angina episodes per week 6 months after treatment.||||0.020
92347115|NCT00300053|184596808|SUPERIORITY|||||||0.035|||||||ANCOVA|||Frequency of angina episodes per week 12 months after treatment.||||0.035
92347116|NCT00300053|184596808|SUPERIORITY|||||||0.167|||||||ANCOVA|||Frequency of angina episodes per week 6 months after treatment.||||0.167
92347117|NCT00300053|184596808|SUPERIORITY|||||||0.181|||||||ANCOVA|||Frequency of angina episodes per week 12 months after treatment.||||0.181
92347118|NCT00300053|184596809|SUPERIORITY|||||||0.014|||||||ANCOVA|||Change from baseline to 6 months||||0.014
92347119|NCT00300053|184596809|SUPERIORITY|||||||0.017|||||||ANCOVA|||Change from baseline to 12 months||||0.017
92347120|NCT00300053|184596809|SUPERIORITY|||||||0.097|||||||ANCOVA|||Change from baseline to 6 months||||0.097
92347121|NCT00300053|184596809|SUPERIORITY|||||||0.134|||||||ANCOVA|||Change from baseline to 12 months||||0.134
92347122|NCT00055237|184596832|SUPERIORITY_OR_OTHER||proportion estimate,binomial exact 95%CI|31.0|STANDARD_DEVIATION|11.6|||TWO_SIDED|95.0|11.0|58.7|||sample estimate with 95% CI||As stated in the Outcome statistical Analysis 1. Section, the confidence interval was calculated using binomial exact statistics. The standard deviation is based on that calculation.|||58.7|11|
92347123|NCT01134042|184596834|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.193|||<|0.001|TWO_SIDED|95.0|0.108|0.277|||ANCOVA|||||0.277|0.108|<0.001
92347124|NCT01134042|184596834|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.21|||<|0.001|TWO_SIDED|95.0|0.127|0.294|||ANCOVA|||||0.294|0.127|<0.001
92347125|NCT01134042|184596834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the confidence interval (CI: 0.025, 1-sided significance level) for the mean difference in change from Baseline in clinic visit trough FEV1 of FF 200 µg OD versus FP 500 µg BID was greater than -125 milliliters.|Median Difference (Final Values)|0.018|||||TWO_SIDED|95.0|-0.066|0.102||||||||0.102|-0.066|
92347126|NCT01134042|184596835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136||||0.048|TWO_SIDED|95.0|0.001|0.27|||ANCOVA|||||0.270|0.001|0.048
92347127|NCT01134042|184596835|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.206||||0.003|TWO_SIDED|95.0|0.073|0.339|||ANCOVA|||||0.339|0.073|0.003
92347128|NCT03345004|184596845|SUPERIORITY||Estimated ratio|1.091|||=|0.5009|TWO_SIDED|95.0|0.845|1.408|||Mixed Models Analysis|||||1.408|0.845|= 0.5009
92347129|NCT03345004|184596845|SUPERIORITY||Estimated ratio|1.557|||=|0.0078|TWO_SIDED|95.0|1.126|2.153|||Mixed Models Analysis|||||2.153|1.126|= 0.0078
92347130|NCT02081807|184596904|OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.57|1.76|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.76|0.57|
92347131|NCT02081807|184596904|OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.52|0.94|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Dabigatran vs. Warfarin (as reference group).||0.94|0.52|
92347132|NCT02081807|184596904|OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.58|0.98|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.98|0.58|
92347133|NCT02081807|184596904|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.53|1.35|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.35|0.53|
92347134|NCT02081807|184596904|OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.57|0.98|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Rivaroxaban vs. Warfarin (as reference group).||0.98|0.57|
92347135|NCT02081807|184596904|OTHER||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.61|0.98|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||0.98|0.61|
92347136|NCT02081807|184596904|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.53|1.51|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.51|0.53|
92347137|NCT02081807|184596904|OTHER||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.38|0.89|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Apixaban vs. Warfarin (as reference group).||0.89|0.38|
92347138|NCT02081807|184596904|OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.5|0.96|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.96|0.50|
92347139|NCT02081807|184596905|OTHER||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.38|0.69|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.69|0.38|
92347140|NCT02081807|184596905|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.68|0.86|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Dabigatran vs. Warfarin (as reference group).||0.86|0.68|
92347141|NCT02081807|184596905|OTHER||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.65|0.8|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.80|0.65|
92347142|NCT02081807|184596905|OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.88|1.26|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.26|0.88|
92347143|NCT02081807|184596905|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.92|1.12|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Rivaroxaban vs. Warfarin (as reference group).||1.12|0.92|
92347144|NCT02081807|184596905|OTHER||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.94|1.12|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.12|0.94|
92347145|NCT02081807|184596905|OTHER||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.39|0.66|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.66|0.39|
92159029|NCT02322775|184205427|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.19||||0.156|TWO_SIDED|95.0|-0.07|0.45||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|ANCOVA|||Parameter: Emotional function score||0.45|-0.07|0.156
92159030|NCT02322775|184205427|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.19||||0.135|TWO_SIDED|95.0|-0.06|0.44||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|ANCOVA|||Parameter: Environmental stimuli score||0.44|-0.06|0.135
92159031|NCT05780047|184205430|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92347146|NCT02081807|184596905|OTHER||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.49|0.68|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Apixaban vs. Warfarin (as reference group).||0.68|0.49|
92347147|NCT02081807|184596905|OTHER||Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.49|0.64|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.64|0.49|
92347148|NCT02081807|184596906|OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.69|1.11|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.11|0.69|
92159032|NCT05780047|184205431|OTHER||||||<|0.05|||||||paired samples t-test|||Paired samples t-tests were run to compare whether EHL knowledge, attitudes and behavior changed after the intervention. EHL scores were expected to increase between pre and post testing.||||<0.05
92159033|NCT04019561|184205466|SUPERIORITY||Mean Difference (Final Values)|-1.41||||0.439|TWO_SIDED|95.0|-5.02|2.2|||ANCOVA|||||2.20|-5.02|0.439
92159034|NCT04019561|184205466|SUPERIORITY||Mean Difference (Final Values)|-5.01||||0.006|TWO_SIDED|95.0|-8.54|-1.48|||ANCOVA|||||-1.48|-8.54|0.006
92347149|NCT02081807|184596906|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.66|1.02|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.02|0.66|
92347150|NCT02081807|184596906|OTHER||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.47|0.88|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.88|0.47|
92347151|NCT02081807|184596907|OTHER||Hazard Ratio (HR)|1.85|||||TWO_SIDED|95.0|1.03|3.3|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||3.30|1.03|
92347152|NCT02081807|184596907|OTHER||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.65|1.71|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.71|0.65|
92347153|NCT02081807|184596907|OTHER||Hazard Ratio (HR)|0.31|||||TWO_SIDED|95.0|0.1|0.96|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.96|0.10|
92399853|NCT03883581|184691195|SUPERIORITY|||||||0.103|||||||Paired t test|||||||0.103
92399854|NCT03883581|184691196|SUPERIORITY|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||||||0.0004
92347154|NCT02081807|184596908|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.63|1.12|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.12|0.63|
92347155|NCT02081807|184596908|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.57|0.96|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||0.96|0.57|
92347156|NCT02081807|184596908|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.45|0.94|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.94|0.45|
92347157|NCT02081807|184596909|OTHER||Hazard Ratio (HR)|0.37|||||TWO_SIDED|95.0|0.18|0.78|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.78|0.18|
92347158|NCT02081807|184596909|OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.58|1.72|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.72|0.58|
92347159|NCT02081807|184596909|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.38|1.87|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.87|0.38|
92347160|NCT02081807|184596911|OTHER||Hazard Ratio (HR)|0.39|||||TWO_SIDED|95.0|0.25|0.59|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.59|0.25|
92159035|NCT04019561|184205467|SUPERIORITY||Mean Difference (Final Values)|-1.508||||0.695|TWO_SIDED|95.0|-9.191|6.174|||ANCOVA|||||6.174|-9.191|0.695
92159036|NCT04019561|184205467|SUPERIORITY||Mean Difference (Final Values)|-9.291||||0.016|TWO_SIDED|95.0|-16.76|-1.822|||ANCOVA|||||-1.822|-16.760|0.016
92159037|NCT04019561|184205468|SUPERIORITY||Mean Difference (Final Values)|-10.74||||0.468|TWO_SIDED|95.0|-40.174|18.695|||ANCOVA|||||18.695|-40.174|0.468
92159038|NCT04019561|184205468|SUPERIORITY||Mean Difference (Final Values)|-37.395||||0.012|TWO_SIDED|95.0|-66.38|-8.409|||ANCOVA|||||-8.409|-66.380|0.012
92159039|NCT04019561|184205469|SUPERIORITY||Mean Difference (Final Values)|6.26||||0.166|TWO_SIDED|95.0|-2.698|15.218|||ANCOVA|||||15.218|-2.698|0.166
92159040|NCT04019561|184205469|SUPERIORITY||Mean Difference (Final Values)|0.749||||0.856|TWO_SIDED|95.0|-7.537|9.035|||ANCOVA|||||9.035|-7.537|0.856
92159041|NCT04019561|184205470|SUPERIORITY||Mean Difference (Final Values)|-3.283||||0.302|TWO_SIDED|95.0|-9.641|3.076|||ANCOVA|||||3.076|-9.641|0.302
92159042|NCT04019561|184205470|SUPERIORITY||Mean Difference (Final Values)|-2.821||||0.304|TWO_SIDED|95.0|-8.316|2.675|||ANCOVA|||||2.675|-8.316|0.304
92159043|NCT04019561|184205471|SUPERIORITY||Mean Difference (Final Values)|1.038||||0.808|TWO_SIDED|95.0|-7.493|9.569|||ANCOVA|||||9.569|-7.493|0.808
92159044|NCT04019561|184205471|SUPERIORITY||Mean Difference (Final Values)|1.106||||0.786|TWO_SIDED|95.0|-7.043|9.255|||ANCOVA|||||9.255|-7.043|0.786
92347161|NCT02081807|184596911|OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.51|0.95|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||0.95|0.51|
92399855|NCT03883581|184691197|SUPERIORITY|||||||0.103|||||||Paired t test|||||||0.103
92159045|NCT04019561|184205472|SUPERIORITY||Mean Difference (Final Values)|3.448||||0.087|TWO_SIDED|95.0|-0.524|7.421|||ANCOVA|||||7.421|-0.524|0.087
92159046|NCT04019561|184205472|SUPERIORITY||Mean Difference (Final Values)|-0.387||||0.834|TWO_SIDED|95.0|-4.085|3.312|||ANCOVA|||||3.312|-4.085|0.834
92159047|NCT04019561|184205473|SUPERIORITY||Mean Difference (Final Values)|-0.386||||0.735|TWO_SIDED|95.0|-2.681|1.908|||ANCOVA|||||1.908|-2.681|0.735
92159048|NCT04019561|184205473|SUPERIORITY||Mean Difference (Final Values)|-1.091||||0.308|TWO_SIDED|95.0|-3.226|1.044|||ANCOVA|||||1.044|-3.226|0.308
92159049|NCT04019561|184205474|SUPERIORITY||Mean Difference (Final Values)|-19.277||||0.195|TWO_SIDED|95.0|-48.704|10.15|||ANCOVA|||||10.150|-48.704|0.195
92159050|NCT04019561|184205474|SUPERIORITY||Mean Difference (Final Values)|-24.328||||0.103|TWO_SIDED|95.0|-53.674|5.019|||ANCOVA|||||5.019|-53.674|0.103
92159051|NCT04019561|184205475|SUPERIORITY||Mean Difference (Final Values)|-10.39||||0.6|TWO_SIDED|95.0|-49.802|29.022|||ANCOVA|||||29.022|-49.802|0.600
92159052|NCT04019561|184205475|SUPERIORITY||Mean Difference (Final Values)|7.086||||0.72|TWO_SIDED|95.0|-32.163|46.336|||ANCOVA|||||46.336|-32.163|0.720
92159053|NCT04019561|184205476|SUPERIORITY||Mean Difference (Final Values)|-9.14||||0.485|TWO_SIDED|95.0|-35.134|16.854|||ANCOVA|||||16.854|-35.134|0.485
92159054|NCT04019561|184205476|SUPERIORITY||Mean Difference (Final Values)|-19.645||||0.131|TWO_SIDED|95.0|-45.288|5.999|||ANCOVA|||||5.999|-45.288|0.131
92159055|NCT04019561|184205477|SUPERIORITY||Mean Difference (Final Values)|-0.719||||0.564|TWO_SIDED|95.0|-3.191|1.754|||ANCOVA|||||1.754|-3.191|0.564
92159056|NCT04019561|184205477|SUPERIORITY||Mean Difference (Final Values)|-2.366||||0.062|TWO_SIDED|95.0|-4.854|0.122|||ANCOVA|||||0.122|-4.854|0.062
92159057|NCT04019561|184205478|SUPERIORITY||Mean Difference (Final Values)|-0.084||||0.856|TWO_SIDED|95.0|-1.007|0.838|||ANCOVA|||||0.838|-1.007|0.856
92159058|NCT04019561|184205478|SUPERIORITY||Mean Difference (Final Values)|-0.777||||0.098|TWO_SIDED|95.0|-1.7|0.147|||ANCOVA|||||0.147|-1.700|0.098
92347162|NCT02081807|184596911|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.43|1.03|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.03|0.43|
92347163|NCT02081807|184596912|OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.67|0.84|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.84|0.67|
92347164|NCT02081807|184596912|OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.97|1.16|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.16|0.97|
92347165|NCT02081807|184596912|OTHER||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.47|0.63|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.63|0.47|
92347166|NCT02081807|184596913|OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.77|1.04|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.04|0.77|
92347167|NCT02081807|184596913|OTHER||Hazard Ratio (HR)|1.21|||||TWO_SIDED|95.0|1.07|1.36|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.36|1.07|
92347168|NCT02081807|184596913|OTHER||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.48|0.72|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.72|0.48|
92347169|NCT02081807|184596914|OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.44|0.8|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.80|0.44|
92347170|NCT02081807|184596914|OTHER||Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|0.98|1.57|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.57|0.98|
92347171|NCT02081807|184596914|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.54|1.14|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.14|0.54|
92347172|NCT02081807|184596915|OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.79|1.08|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.08|0.79|
92347173|NCT02081807|184596915|OTHER||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|1.05|1.35|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.35|1.05|
92347174|NCT02081807|184596915|OTHER||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.44|0.67|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.67|0.44|
92159059|NCT03005288|184205523|SUPERIORITY||Mean Difference (Net)|-7.31|||<|0.001|TWO_SIDED|80.0|-8.48|-6.14|||Mixed-Effect Model Repeated Measure|||||-6.14|-8.48|<0.001
92159060|NCT03005288|184205524|SUPERIORITY||Mean Difference (Net)|-5.19|||<|0.001|TWO_SIDED|80.0|-6.01|-4.37|||Mixed-Effect Model Repeated Measure|||||-4.37|-6.01|<0.001
92159061|NCT03005288|184205525|SUPERIORITY||Mean Difference (Net)|-1.13|||<|0.001|TWO_SIDED|80.0|-1.42|-0.83|||Mixed Models Analysis|||week 24||-0.83|-1.42|<0.001
92159062|NCT03005288|184205525|SUPERIORITY||Mean Difference (Net)|-0.8||||0.005|TWO_SIDED|80.0|-1.2|-0.41|||Mixed Models Analysis|||week 48||-0.41|-1.20|0.005
92159063|NCT03005288|184205529|SUPERIORITY||Mean Difference (Net)|-1.33|||<|0.001|TWO_SIDED|80.0|-1.71|-0.95|||Mixed-Effect Model Repeated Measure|||week 24||-0.95|-1.71|<0.001
92159064|NCT03005288|184205529|SUPERIORITY||Mean Difference (Net)|-1.91|||<|0.001|TWO_SIDED|80.0|-2.48|-1.34|||Mixed-Effect Model Repeated Measure|||week 48||-1.34|-2.48|<0.001
92159065|NCT03005288|184205530|SUPERIORITY||Mean Difference (Net)|-3.43|||<|0.001|TWO_SIDED|80.0|-4.54|-2.31|||Mixed-Effect Model Repeated Measure|||week 24||-2.31|-4.54|<0.001
92159066|NCT03005288|184205530|SUPERIORITY||Mean Difference (Net)|-5.1|||<|0.001|TWO_SIDED|80.0|-6.74|-3.47|||Mixed-Effect Model Repeated Measure|||week 48||-3.47|-6.74|<0.001
92159067|NCT03005288|184205531|SUPERIORITY||Mean Difference (Net)|1.49||||0.003|TWO_SIDED|80.0|0.82|2.06|||Mixed-Effect Model Repeated Measure|||week 24||2.06|0.82|0.003
92159068|NCT03005288|184205531|SUPERIORITY||Mean Difference (Net)|2.14|||<|0.001|TWO_SIDED|80.0|1.36|2.93|||Mixed-Effect Model Repeated Measure|||week 48||2.93|1.36|<0.001
92218435|NCT00397033|184337757|SUPERIORITY_OR_OTHER||LS Means Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-5.1|-1.7|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-1.7|-5.1|<0.001
92218436|NCT00397033|184337757|SUPERIORITY_OR_OTHER||LS Means Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.9||0.217||95.0|-2.8|0.6|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.6|-2.8|0.217
92159069|NCT03005288|184205532|SUPERIORITY||Mean Difference (Net)|-4.09|||<|0.001|TWO_SIDED|80.0|-5.26|-2.92|||Mixed-Effect Model Repeated Measure|||week 24||-2.92|-5.26|<0.001
92218437|NCT00397033|184337758|SUPERIORITY_OR_OTHER||LS Means Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.6||0.108||95.0|-2.3|0.2|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.2|-2.3|0.108
92218438|NCT00397033|184337758|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.6||0.43||95.0|-1.7|0.7|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.7|-1.7|0.430
92347175|NCT02081807|184596917|OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.59|78.0|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||078|0.59|
92347176|NCT02081807|184596917|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.93|1.16|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.16|0.93|
92347177|NCT02081807|184596917|OTHER||Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.47|0.67|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.67|0.47|
92347178|NCT02081807|184596918|OTHER||Hazard Ratio (HR)|0.53|||||TWO_SIDED|95.0|0.34|0.82|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.82|0.34|
92347179|NCT02081807|184596918|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.55|1.29|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.29|0.55|
92347180|NCT02081807|184596918|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.41|1.42|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.42|0.41|
92347181|NCT02081807|184596919|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.6|1.15|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.15|0.60|
92347182|NCT02081807|184596919|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.63|1.14|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.14|0.63|
92159070|NCT03005288|184205532|SUPERIORITY||Mean Difference (Net)|-9.46|||<|0.001|TWO_SIDED|80.0|-11.3|-7.64|||Mixed-Effect Model Repeated Measure|||week 52||-7.64|-11.3|<0.001
92159071|NCT03005288|184205533|SUPERIORITY||Mean Difference (Net)|-0.02||||0.062|TWO_SIDED|80.0|-0.03|0.0|||Mixed-Effect Model Repeated Measure|||week 24||-0.00|-0.03|0.062
92159072|NCT03005288|184205533|SUPERIORITY||Mean Difference (Net)|-0.06|||<|0.001|TWO_SIDED|80.0|-0.08|-0.04|||Mixed-Effect Model Repeated Measure|||week 52||-0.04|-0.08|<0.001
92159073|NCT03005288|184205534|SUPERIORITY||Mean Difference (Net)|-0.65||||0.028|TWO_SIDED|80.0|-1.03|-0.28|||Mixed-Effect Model Repeated Measure|||week 12||-0.28|-1.03|0.028
92159074|NCT03005288|184205534|SUPERIORITY||Mean Difference (Net)|-0.66||||0.081|TWO_SIDED|80.0|-1.14|-0.18|||Mixed-Effect Model Repeated Measure|||week 36||-0.18|-1.14|0.081
92159075|NCT04011033|184205536|OTHER||Hazard Ratio (HR)|0.32|||<|0.001|TWO_SIDED|95.0|0.16|0.63|||Log Rank|||||0.63|0.16|<0.001
92159076|NCT04011033|184205538|OTHER||||||=|0.003|||||||Fisher Exact|||||||=0.003
92159077|NCT04011033|184205539|OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92159078|NCT04011033|184205541|OTHER||Hazard Ratio (HR)|0.37|||=|0.001|TWO_SIDED|95.0|0.19|0.71|||Log Rank|||||0.71|0.19|=0.001
92347183|NCT02081807|184596919|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.53|1.18|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.18|0.53|
92159079|NCT01823341|184205542|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92159080|NCT01823341|184205543|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
92159081|NCT01823341|184205543|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.04
92159082|NCT01823341|184205544|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92159083|NCT01823341|184205544|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||t-test, 2 sided|||||||0.005
92159084|NCT01823341|184205545|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92347184|NCT02081807|184596920|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.5|0.84|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.84|0.50|
92347185|NCT02081807|184596920|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.69|1.01|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Rivaroxaban vs. Warfarin (as reference group).||1.01|0.69|
92347186|NCT02081807|184596920|OTHER||Hazard Ratio (HR)|0.53|||||TWO_SIDED|95.0|0.37|0.76|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.76|0.37|
92347187|NCT02081807|184596921|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.47|0.88|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.88|0.47|
92347188|NCT02081807|184596921|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.65|1.04|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.04|0.65|
92347189|NCT02081807|184596921|OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.39|0.92|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.92|0.39|
92347190|NCT02081807|184596922|OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.47|1.04|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Dabigatran vs. Warfarin (as reference group).||1.04|0.47|
92347191|NCT02081807|184596922|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.6|1.05|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.05|0.60|
92347192|NCT02081807|184596922|OTHER||Hazard Ratio (HR)|0.42|||||TWO_SIDED|95.0|0.24|0.73|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.73|0.24|
92347193|NCT00984867|184596923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.072|<|0.0001|TWO_SIDED|95.0|-0.62|-0.34||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives, based on data from both strata combined|ANCOVA|with treatment group and stratum as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||-0.34|-0.62|<0.0001
92347194|NCT00984867|184596924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.89|STANDARD_ERROR_OF_MEAN|0.2466|<|0.0001|TWO_SIDED|95.0|-2.37|-1.4||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||-1.40|-2.37|<0.0001
92347195|NCT00984867|184596925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.1106|<|0.0001|TWO_SIDED|95.0|-1.05|-0.62||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||-0.62|-1.05|<0.0001
92347196|NCT00984867|184596926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.92|STANDARD_ERROR_OF_MEAN|3.32|<|0.0001|TWO_SIDED|95.0|-34.45|-21.4||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||-21.40|-34.45|<0.0001
92159085|NCT01823341|184205545|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||||||0.004
92159086|NCT01823341|184205546|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||t-test, 2 sided|||||||0.10
92159087|NCT01823341|184205546|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.50
92159088|NCT01823341|184205547|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||t-test, 2 sided|||||||0.18
92159089|NCT01823341|184205547|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||t-test, 2 sided|||||||0.77
92159090|NCT01823341|184205548|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92159091|NCT01823341|184205548|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||t-test, 2 sided|||||||0.11
92159092|NCT01823341|184205549|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||t-test, 2 sided|||||||0.57
92159093|NCT01823341|184205549|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||t-test, 2 sided|||||||0.18
92275288|NCT03549130|184452706|SUPERIORITY||LS mean difference|-0.71||||0.1711|TWO_SIDED|95.0|-1.72|0.31||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Practical Problems.||0.31|-1.72|0.1711
92399856|NCT02649556|184691198|OTHER||LS Mean Difference|1.75|||||TWO_SIDED|95.0|-0.16|3.65||||||"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of LS Mean difference of HDL-C levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on original values with visit, baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect.|3.65|-0.160|
92399857|NCT02649556|184691199|OTHER||LS Mean Difference|-0.413|||||TWO_SIDED|95.0|-0.694|-0.131||||||"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of LS Mean difference of White Blood Cell counts between CC and THS 2.2 and related 95% CI."|Mixed model conducted on original values with visit, baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect.|-0.131|-0.694|
92399858|NCT02649556|184691200|OTHER||LS Mean Difference|0.914|||||TWO_SIDED|95.0|-0.339|2.17||||||"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of LS Mean difference of FEV1 levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on original values with visit, baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect.|2.17|-0.339|
92399859|NCT02649556|184691201|OTHER||% Relative Reduction|3.11|||||TWO_SIDED|95.0|0.0231|6.1|||||Derived as 100 x (1 - Geometric LS Mean Ratio)|"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of relative reduction of sICAM-1 levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on log-transformed values with visit, log-transformed baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect|6.10|0.0231|
92399860|NCT02649556|184691202|OTHER||% Relative Reduction|3.44|||||TWO_SIDED|95.0|-8.74|14.3|||||Derived as 100 x (1-Geometric LS Mean Ratio)|"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of relative reduction of 11-DTXB2 levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on log-transformed values with visit, log-transformed baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect|14.3|-8.74|
92159094|NCT01823341|184205550|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||t-test, 2 sided|||||||0.16
92159095|NCT01823341|184205550|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||t-test, 2 sided|||||||0.39
92159096|NCT01823341|184205551|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||t-test, 2 sided|||||||0.53
92159097|NCT01823341|184205551|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||t-test, 2 sided|||||||0.28
92159098|NCT01125774|184205569|SUPERIORITY_OR_OTHER||Difference in percent incidence|-1.2|||||TWO_SIDED|95.0|-4.4|2.1|||Miettinen & Nurminen||Telcagepant percent incidence versus Placebo percent incidence|||2.1|-4.4|
92159099|NCT01125774|184205570|SUPERIORITY_OR_OTHER||Difference in percent incidence|-0.2|||||TWO_SIDED|95.0|-1.4|0.8|||Miettinen & Nurminen||Telcagepant percent incidence versus Placebo percent incidence|||0.8|-1.4|
92159100|NCT01125774|184205571|SUPERIORITY_OR_OTHER||Difference in percent incidence|0.6|||||TWO_SIDED|95.0|-0.5|1.6|||Miettinen & Nurminen||Telcagepant percent incidence versus Placebo percent incidence|||1.6|-0.5|
92159101|NCT01125774|184205573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.13|TWO_SIDED|95.0|-1.1|0.1||α=0.0499|Longitudinal data analysis (LDA)||Difference is Telcagepant 140 mg versus Placebo|This measure tests the primary hypothesis, that telcagepant 140 mg is superior to placebo as measured by mean monthly headache days in participants with MRM or PMM||0.1|-1.1|0.130
92159102|NCT01125774|184205574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.369|TWO_SIDED|95.0|-1.0|0.4||To control Type I error, formal significance of the test for treatment difference for this measure could only be achieved if the comparison corresponding to the primary hypothesis was significant at α=0.0499|LDA||Difference is Telcagepant 140 mg versus Placebo|||0.4|-1.0|0.369
92159103|NCT01125774|184205575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.2||To control Type I error, formal significance of the test for treatment difference for this measure could only be achieved if the comparison corresponding to the primary hypothesis was significant at α=0.0499|LDA||Difference is Telcagepant 140 mg versus Placebo|||-0.2|-0.5|<0.001
92159104|NCT01125774|184205576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||<|0.001|TWO_SIDED|95.0|-0.5|-0.2||To control Type I error, formal significance of the test for treatment difference for this measure could only be achieved if the comparison corresponding to the primary hypothesis was significant at α=0.0499|LDA||Difference is Telcagepant 140 mg versus Placebo|||-0.2|-0.5|<0.001
92159105|NCT01125774|184205577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.393|TWO_SIDED|95.0|-0.4|0.2||To control Type I error, formal significance of the test for treatment difference for this measure could only be achieved if the comparison corresponding to the primary hypothesis was significant at α=0.0499|LDA||Difference is Telcagepant 140 mg versus Placebo|||0.2|-0.4|0.393
92218439|NCT00397033|184337759|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|1.5||0.008||95.0|-6.7|-1.0|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-1.0|-6.7|0.008
92218440|NCT00397033|184337759|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.4||0.175||95.0|-4.8|0.9|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.9|-4.8|0.175
92218441|NCT00397033|184337760|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.9||0.001||95.0|-4.6|-1.1|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-1.1|-4.6|0.001
92347197|NCT00984867|184596927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|STANDARD_ERROR_OF_MEAN|1.4659||0.5583||95.0|-3.75|2.03||Not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||2.03|-3.75|0.5583
92347198|NCT00984867|184596928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.82|STANDARD_ERROR_OF_MEAN|3.516|||TWO_SIDED|95.0|-21.73|-7.9||Not significant. Hierarchical testing procedure stopped at previous endpoint|ANCOVA|with treatment group and stratum as effect and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||-7.90|-21.73|
92347199|NCT00984867|184596929|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.7|STANDARD_ERROR_OF_MEAN|41.2|||TWO_SIDED|95.0|11.1|26.4||Not significant. Hierarchical testing procedure stopped at previous endpoint|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value and stratum||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0.||26.4|11.1|
92347200|NCT00671060|184596930|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.682|||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||Rates of success were compared across study arms. The study was a separate, non-comparative efficacy study. In order to have 80% power (alpha=.05) to demonstrate that each misoprostol regimen was 95%, ± 5%, effective, we enrolled 73 women in each arm of the study, or 146 women total. The sample size also provided 80% power (alpha=.05) to detect a significant difference between treatments should 200μg prove 98% effective and 100μg prove 88% effective.||||<0.05
92347201|NCT00267670|184596994|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|1.0||0.46|||||||ANOVA|||Sample size estimates were based on 30% reduction in ALT in the treatment group \& 15% reduction in the placebo group. With a sample size of 30 planned (20 treatment:10 placebo), the study was designed to have a power of 90% to detect a difference in means of 1.25 standard deviations (ES=1.25), \& a power of 80% to detect a difference in means of 1.1 standard deviations (ES=1.1), based on calculations using power index, z-table, \& accounting for unequal sample size: n1 = 20, n2 = 10, a = 0.05.||||0.46
92347202|NCT00267670|184596995|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||t-test, 2 sided|||Null hypothesis was that there was no difference between mean hepatic expression of TNF-alpha receptors in patient with NASH. This was a secondary outcome and no power analysis was done.||||0.16
92347203|NCT00267670|184596996|SUPERIORITY_OR_OTHER|||||||0.94|||||||t-test, 2 sided|||||||0.94
92218442|NCT00397033|184337760|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.9||0.209||95.0|-2.8|0.6|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.6|-2.8|0.209
92347204|NCT00267670|184596997|SUPERIORITY_OR_OTHER|||||||0.49|||||||t-test, 2 sided|||||||0.49
92347205|NCT02107898|184597010|SUPERIORITY_OR_OTHER||LS Mean Difference|-64.1|||<|0.0001|TWO_SIDED|95.0|-68.5|-59.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-59.8|-68.5|<0.0001
92347206|NCT02107898|184597011|SUPERIORITY_OR_OTHER||LS Mean Difference|-65.3|||<|0.0001|TWO_SIDED|95.0|-69.4|-61.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-61.3|-69.4|<0.0001
92347207|NCT02107898|184597012|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.5|||<|0.0001|TWO_SIDED|95.0|-65.3|-57.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-57.7|-65.3|<0.0001
92218443|NCT00397033|184337762|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.6||0.032||95.0|-6.5|-0.3|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-0.3|-6.5|0.032
92218444|NCT00397033|184337762|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|1.5||0.013||95.0|-6.8|-0.8|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-0.8|-6.8|0.013
92218445|NCT00397033|184337763|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.232||95.0|-2.0|0.5|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.5|-2.0|0.232
92399861|NCT02649556|184691203|OTHER||% Relative Reduction|7.15|||||TWO_SIDED|95.0|-1.03|14.7|||||Derived as 100 x (1 - Geometric LS Mean Ratio)|"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of relative reduction of 8-epi-PGF2α levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on log-transformed values with visit, log-transformed baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect.|14.7|-1.03|
92347208|NCT02107898|184597013|SUPERIORITY_OR_OTHER||LS Mean Difference|-62.1|||<|0.0001|TWO_SIDED|95.0|-65.8|-58.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-58.3|-65.8|<0.0001
92347209|NCT02107898|184597014|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.3|||<|0.0001|TWO_SIDED|95.0|-57.5|-49.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-49.1|-57.5|<0.0001
92347210|NCT02107898|184597015|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.8|||<|0.0001|TWO_SIDED|95.0|-57.8|-49.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-49.8|-57.8|<0.0001
92347211|NCT02107898|184597016|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.5|||<|0.0001|TWO_SIDED|95.0|-61.5|-53.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-53.5|-61.5|<0.0001
92159106|NCT01449929|184205584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTG 50 mg and DRV+RTV at Week 48 can be concluded if the lower bound of a two-sided 95% confidence interval (CI) for the difference in percentages (DTG - DRV+RTV) is greater than -12%. If non-inferiority is established, superiority can be tested at the nominal 5% level based on a pre-specified testing procedure.|Difference in percentage|7.1||||0.025|TWO_SIDED|95.0|0.9|13.2||P-value is for test of superiority.|Cochran-Mantel-Haenszel|Stratified analysis|Analysis was adjusted for the Baseline (BL) stratification factors: Baseline plasma HIV-1 RNA (\<=100,000 c/mL vs \>100,000 c/mL) and Baseline background dual NRTI therapy (ABC/3TC vs TDF/FTC).|||13.2|0.9|0.025
92159107|NCT03253653|184205600|OTHER||z score|1.578||||0.115|TWO_SIDED||||||Wilcoxon signed-rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in biomarker levels for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in biomarker levels for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.115
92159108|NCT03253653|184205601|OTHER||z|0.497||||0.619|TWO_SIDED||||||z||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in biomarker levels for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in biomarker levels for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.619
92218446|NCT00397033|184337763|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.6||0.31||95.0|-1.8|0.6|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.6|-1.8|0.310
92218447|NCT00397033|184337764|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.6||0.004||95.0|-3.1|-0.6|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-0.6|-3.1|0.004
92218448|NCT00397033|184337764|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.269||95.0|-1.9|0.5|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.5|-1.9|0.269
92218449|NCT00397033|184337765|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.6|<|0.001||95.0|-3.2|-1.0|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-1.0|-3.2|<0.001
92218450|NCT00397033|184337765|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.6||0.314||95.0|-1.7|0.5|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.5|-1.7|0.314
92218451|NCT00397033|184337766|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.071||95.0|-1.8|0.1|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.1|-1.8|0.071
92347212|NCT02107898|184597017|SUPERIORITY_OR_OTHER||LS Mean Difference|-58.6|||<|0.0001|TWO_SIDED|95.0|-62.3|-54.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-54.8|-62.3|<0.0001
92347213|NCT02107898|184597018|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.5|||<|0.0001|TWO_SIDED|95.0|-44.6|-38.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-38.4|-44.6|<0.0001
92347214|NCT02107898|184597019|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.2|||<|0.0001|TWO_SIDED|95.0|-54.9|-47.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-47.6|-54.9|<0.0001
92159109|NCT03253653|184205602|OTHER||z|1.72||||0.085|TWO_SIDED||||||Wilcox and signed rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in biomarker levels for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in biomarker levels for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.085
92159110|NCT03253653|184205603|OTHER||z|6.154|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in biomarker levels for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in biomarker levels for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||<0.001
92159111|NCT03253653|184205604|OTHER||z|-1.144||||0.253|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in systolic blood pressure for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in biomarker levels for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.253
92159112|NCT03253653|184205605|OTHER||z|-1.004||||0.315|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in diastolic blood pressure for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in diastolic blood pressure for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.315
92159113|NCT03253653|184205606|OTHER||z|3.089||||0.002|TWO_SIDED||||||Wilcox and signed rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in heart rate for the Charcoal-heated tobacco smoking session (n=50) was significantly different from the pre-to-post change in heart rate for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.002
92159114|NCT03253653|184205607|OTHER||z|-7.024|||<|0.001|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the cotinine metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||<0.001
92159115|NCT03253653|184205608|OTHER||z|-4.541|||<|0.001|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the SPMA metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||<0.001
92159116|NCT03253653|184205609|OTHER||z|-2.569||||0.01|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the 1-HOP metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||.010
92159117|NCT03253653|184205610|OTHER||z|-7.03|||<|0.001|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the exhaled carbon monoxide after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||<0.001
92159118|NCT03253653|184205611|OTHER||z|-1.304||||0.192|TWO_SIDED||||||Mann-Whitney U test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the cotinine metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.192
92159119|NCT03253653|184205612|OTHER||z|-2.136||||0.033|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level diastolic blood pressure after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.033
92159120|NCT03253653|184205613|OTHER||z|-1.22||||0.223|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the heart rate after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.223
92159121|NCT03253653|184205614|OTHER||z|-7.024|||<|0.001|TWO_SIDED||||||Mann Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the cotinine metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||<0.001
92159122|NCT03253653|184205615|OTHER||z|-1.248||||0.212|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the SPMA metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.212
92159123|NCT03253653|184205616|OTHER||z|-2.721||||0.007|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the cotinine metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.007
92347215|NCT02107898|184597020|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.5|||<|0.0001|TWO_SIDED|95.0|-57.9|-51.1|||Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-51.1|-57.9|<0.0001
92347216|NCT02107898|184597021|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.0|||<|0.0001|TWO_SIDED|95.0|-41.7|-36.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-36.4|-41.7|<0.0001
92347217|NCT02107898|184597022|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|552.1|||<|0.0001|TWO_SIDED|95.0|105.6|2886.8||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||2886.8|105.6|<0.0001
92347218|NCT02107898|184597023|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1367.8|||<|0.0001|TWO_SIDED|95.0|137.8|13578.3||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||13578.3|137.8|<0.0001
92347219|NCT02107898|184597024|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-42.0|||<|0.0001|TWO_SIDED|95.0|-48.0|-36.0||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-36.0|-48.0|<0.0001
92347220|NCT02107898|184597025|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-22.0|||<|0.0001|TWO_SIDED|95.0|-30.9|-13.1||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13.1|-30.9|<0.0001
92347221|NCT02107898|184597026|SUPERIORITY_OR_OTHER||LS Mean Difference|5.8||||0.002|TWO_SIDED|95.0|2.1|9.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9.4|2.1|0.0020
92399862|NCT02649556|184691204|OTHER||% Relative Reduction|46.3|||||TWO_SIDED|95.0|36.2|54.8|||||Derived as 100 x (1 - Geometric LS Mean Ratio)|"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of relative reduction of Total NNAL levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on log-transformed values with visit, log-transformed baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect|54.8|36.2|
92347222|NCT02107898|184597027|SUPERIORITY_OR_OTHER||LS Mean Difference|4.0||||0.0382|TWO_SIDED|95.0|0.2|7.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.9|0.2|0.0382
92347223|NCT02107898|184597028|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-41.4|||<|0.0001|TWO_SIDED|95.0|-47.0|-35.7||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-35.7|-47.0|<0.0001
92218452|NCT00397033|184337766|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.099||95.0|-1.7|0.1|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.1|-1.7|0.099
92218453|NCT00397033|184337768|SUPERIORITY_OR_OTHER||LS Means Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0|-0.9|-0.3|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-0.3|-0.9|<0.001
92347224|NCT02107898|184597029|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-15.5||||0.0007|TWO_SIDED|95.0|-24.4|-6.6||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-6.6|-24.4|0.0007
92347225|NCT02107898|184597030|SUPERIORITY_OR_OTHER||LS Mean Difference|6.5|||<|0.0001|TWO_SIDED|95.0|3.7|9.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9.3|3.7|<0.0001
92347226|NCT02107898|184597031|SUPERIORITY_OR_OTHER||LS Mean Difference|6.3|||<|0.0001|TWO_SIDED|95.0|3.6|9.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9.0|3.6|<0.0001
92347227|NCT05258721|184597043|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92347228|NCT05258721|184597044|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p =0.05|Kruskal-Wallis|||||||<0.001
92347229|NCT05258721|184597045|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
92347230|NCT00879658|184597048|SUPERIORITY||Negative binomial regression model|0.524||||0.148|TWO_SIDED|95.0|0.219|1.257||Pairwise comparison and p-values refer to ARR on active treatment compared to placebo. An ARR-ratio \<1 favors active treatment.|Mixed Models Analysis|Treatment compared to placebo based on negative binomial regression model, adjusted for treatment group and baseline number of relapses in prev 2 yrs.|||An ARR-ratio \<1 favors active treatment.|1.257|0.219|0.148
92347231|NCT00879658|184597048|SUPERIORITY||Negative binomial regression model|0.34||||0.041|TWO_SIDED|95.0|0.121|0.956||Pairwise comparison and p-values refer to ARR on active treatment compared to placebo. An ARR-ratio \<1 favors active treatment.|Mixed Models Analysis|Treatment compared to placebo based on negative binomial regression model, adjusted for treatment group and baseline number of relapses in prev 2 yrs.||||0.956|0.121|0.041
92347232|NCT00879658|184597048|SUPERIORITY||Negative binomial regression model|1.051||||0.899|TWO_SIDED|95.0|0.486|2.273||Pairwise comparison and p-values refer to ARR on active treatment compared to placebo. An ARR-ratio \<1 favors active treatment.|Mixed Models Analysis|Treatment compared to placebo based on negative binomial regression model, adjusted for treatment group and baseline number of relapses in prev 2 yrs.||||2.273|0.486|0.899
92347233|NCT00879658|184597049|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|0.915||||0.879|TWO_SIDED|95.0|0.288|2.925|||Regression, Logistic|"Proportions are estimated from the logistic regression model.~\- An odds ratio of \> 1 indicates an increased odds in favor of the active treatment."||||2.925|0.288|0.879
92218454|NCT00397033|184337768|SUPERIORITY_OR_OTHER||LS Means Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.083||95.0|-0.6|0.0|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.0|-0.6|0.083
92275289|NCT03549130|184452707|SUPERIORITY||LS mean difference|-0.47||||0.5063|TWO_SIDED|95.0|-1.85|0.92||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep problems.||0.92|-1.85|0.5063
92347234|NCT00879658|184597049|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|1.745||||0.399|TWO_SIDED|95.0|0.484|7.167||"Proportions are estimated from the logistic regression model.~\- An odds ratio of \> 1 indicates an increased odds in favor of the active treatment."|Regression, Logistic|||||7.167|0.484|0.399
92347235|NCT00879658|184597049|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|1.697||||0.454|TWO_SIDED|95.0|0.438|8.296||"Proportions are estimated from the logistic regression model.~\- An odds ratio of \> 1 indicates an increased odds in favor of the active treatment."|Regression, Logistic|||||8.296|0.438|0.454
92347236|NCT00879658|184597049|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|0.509||||0.223|TWO_SIDED|95.0|0.166|1.511||"Proportions are estimated from the logistic regression model.~\- An odds ratio of \> 1 indicates an increased odds in favor of the active treatment."|Regression, Logistic|||||1.511|0.166|0.223
92347237|NCT00879658|184597049|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|0.785||||0.668|TWO_SIDED|95.0|0.253|2.392||"Proportions are estimated from the logistic regression model.~\- An odds ratio of \> 1 indicates an increased odds in favor of the active treatment."|Regression, Logistic|||||2.392|0.253|0.668
92347238|NCT00879658|184597050|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|1.996||||0.178|TWO_SIDED|95.0|0.731|5.669|||Regression, Logistic|Proportions are estimated from the logistic regression model. - An odds ratio of \> 1 indicates an increased odds in favor of the active treatment.||||5.669|0.731|0.178
92347239|NCT00879658|184597050|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|4.12||||0.014|TWO_SIDED|95.0|1.328|14.681||Proportions are estimated from the logistic regression model. - An odds ratio of \> 1 indicates an increased odds in favor of the active treatment.|Regression, Logistic|||||14.681|1.328|0.014
92347240|NCT00879658|184597050|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|1.266||||0.642|TWO_SIDED|95.0|0.468|3.494||Proportions are estimated from the logistic regression model. - An odds ratio of \> 1 indicates an increased odds in favor of the active treatment.|Regression, Logistic|||||3.494|0.468|0.642
92347241|NCT00879658|184597051|SUPERIORITY||lesion ratio|0.138|||<|0.001|TWO_SIDED|95.0|0.047|0.408|||Regression, Logistic|new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model||Pairwise treatment comparison between different BAF312 dose groups and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.408|0.047|<0.001
92347242|NCT00879658|184597051|SUPERIORITY||lesion ratio|0.307||||0.012|TWO_SIDED|95.0|0.123|0.771||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.771|0.123|0.012
92218455|NCT00397033|184337769|SUPERIORITY_OR_OTHER||LS Means Difference|-8.3|STANDARD_ERROR_OF_MEAN|2.8||0.003||95.0|-13.8|-2.9||The Hochberg step-up procedure was used to address multiplicity.|ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|One of the primary pairwise comparisons was paliperidone ER high dose vs. placebo. The Hochberg step-up procedure was used to address multiplicity. P-value for between treatment group comparisons is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.||-2.9|-13.8|0.003
92218456|NCT00397033|184337769|SUPERIORITY_OR_OTHER||LS Means Difference|-3.6|STANDARD_ERROR_OF_MEAN|2.7||0.187||95.0|-9.0|1.8||The Hochberg step-up procedure was used to address multiplicity.|ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|One of the primary pairwise comparisons was paliperidone ER low dose vs. placebo. The Hochberg step-up procedure was used to address multiplicity. P-value for between treatment group comparisons is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.||1.8|-9.0|0.187
92347243|NCT00879658|184597051|SUPERIORITY||lesion ratio|0.113|||<|0.001|TWO_SIDED|95.0|0.036|0.358||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.358|0.036|<0.001
92347244|NCT00879658|184597051|SUPERIORITY||lesion ratio|0.375||||0.021|TWO_SIDED|95.0|0.163|0.86||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.860|0.163|0.021
92347245|NCT00879658|184597051|SUPERIORITY||lesion ratio|0.478||||0.062|TWO_SIDED|95.0|0.22|1.037||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||1.037|0.220|0.062
92347246|NCT00879658|184597052|SUPERIORITY|Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.|Lesion ratio|0.154|||<|0.001|TWO_SIDED|95.0|0.063|0.376|||Regression, Logistic|new lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model||||0.376|0.063|<0.001
92347247|NCT00879658|184597052|SUPERIORITY||lesion ratio|0.228||||0.005|TWO_SIDED|95.0|0.081|0.641||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.641|0.081|0.005
92347248|NCT00879658|184597052|SUPERIORITY||lesion ratio|0.188|||<|0.001|TWO_SIDED|95.0|0.07|0.509||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.509|0.070|<0.001
92347249|NCT00879658|184597053|SUPERIORITY|Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.|lesion ratio|0.279||||0.002|TWO_SIDED|95.0|0.124|0.628||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||||0.628|0.124|0.002
92347250|NCT00879658|184597053|SUPERIORITY||lesion ratio|0.396||||0.019|TWO_SIDED|95.0|0.182|0.861||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.861|0.182|0.019
92159124|NCT03253653|184205617|OTHER||z|2.778||||0.006|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of exhaled carbon monoxide after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.006
92159125|NCT03253653|184205618|OTHER||z|-0.832||||0.406|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of systolic blood pressure after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.406
92159126|NCT03253653|184205619|OTHER||z|-1.467||||0.142|TWO_SIDED||||||Mann-Whitney U ranksum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of diastolic blood pressure after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.142
92159127|NCT03253653|184205620|OTHER||z|-0.596||||0.551|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the heart rate after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.551
92159128|NCT03253653|184205621|OTHER||z|-0.787||||0.431|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.431
92159129|NCT03253653|184205622|OTHER||z|-0.652||||0.515|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.515
92218457|NCT00397033|184337770|SUPERIORITY_OR_OTHER||LS Means Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0|-1.1|-0.4|||ANOVA|P-value is from an ANOVA model with fixed-effects for treatment, concomitant medication stratum and country.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher Scores indicate worsening.|||-0.4|-1.1|<0.001
92218458|NCT00397033|184337770|SUPERIORITY_OR_OTHER||LS Means Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.029||95.0|-0.7|0.0|||ANOVA|P-value is from an ANOVA model with fixed-effects for treatment, concomitant medication stratum and country.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.0|-0.7|0.029
92218459|NCT00397033|184337772|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|-9.9|-3.7|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-3.7|-9.9|<0.001
92218460|NCT00397033|184337772|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|1.5||0.066||95.0|-5.8|0.2|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.2|-5.8|0.066
92218461|NCT02064920|184337787|SUPERIORITY_OR_OTHER||Change in SD from Week 4 to Week 16|0.005|||||TWO_SIDED|95.0|-0.031|0.039|||||SD of average OCL repeated measurements after 12 weeks of treatment for Placebo + Donezepil treatment groups combined is hypothesized to be ≤ 0.1.|Change from Week 4 to Week 16 in Standard Deviation (SD) of OCL for Placebo + Donezepil treatment groups combined||0.039|-0.031|
92218462|NCT02109562|184337789|SUPERIORITY||Mean Difference (Final Values)|-6.148|STANDARD_ERROR_OF_MEAN|1.7261||0.0004|TWO_SIDED|95.0|-9.982|-2.314||For evaluation of treatment differences, compare against a 1-sided adjusted P value with significance at \<0.025. The P values have been adjusted for multiple comparisons using Dunnett's procedure.|repeated measure linear regression model||RBP-7000 90 mg - Placebo|Estimates, standard errors (SE), 2-sided confidence intervals (CIs), and -1-sided P values are based on a repeated-measures linear regression model of the change from baseline score, with fixed effects for visit as a categorical variable, baseline score, treatment and treatment by visit interaction, assuming an unstructured covariance matrix.||-2.314|-9.982|0.0004
92218463|NCT02109562|184337789|SUPERIORITY||Mean Difference (Final Values)|-7.237|STANDARD_ERROR_OF_MEAN|1.7141|<|0.0001|TWO_SIDED|95.0|-11.045|-3.429||For evaluation of treatment differences, compare against a 1-sided adjusted P value with significance at \<0.025. The P values have been adjusted for multiple comparisons using Dunnett's procedure.|repeated measure linear regression model||RBP-7000 120 mg - Placebo|Estimates, standard errors (SE), 2-sided confidence intervals (CIs), and -1-sided P values are based on a repeated-measures linear regression model of the change from baseline score, with fixed effects for visit as a categorical variable, baseline score, treatment and treatment by visit interaction, assuming an unstructured covariance matrix.||-3.429|-11.045|<0.0001
92275290|NCT03549130|184452707|SUPERIORITY||LS mean difference|-0.97||||0.2496|TWO_SIDED|95.0|-2.64|0.69||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep time problems.||0.69|-2.64|0.2496
92347251|NCT00879658|184597053|SUPERIORITY||lesion ratio|0.154|||<|0.001|TWO_SIDED|95.0|0.059|0.4||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.400|0.059|<0.001
92347252|NCT00879658|184597053|SUPERIORITY||lesion ratio|0.454||||0.035|TWO_SIDED|95.0|0.219|0.945||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.945|0.219|0.035
92347253|NCT00879658|184597053|SUPERIORITY||lesion ratio|0.555||||0.087|TWO_SIDED|96.0|0.283|1.09||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||1.090|0.283|0.087
92347254|NCT00879658|184597054|SUPERIORITY|Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.|lesion ratio|0.095|||<|0.001|TWO_SIDED|95.0|0.033|0.273||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||||0.273|0.033|<0.001
92218464|NCT02109562|184337790|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.0934||0.0002|TWO_SIDED|95.0|-0.557|-0.143||For evaluation of treatment differences, compare against a 1-sided adjusted P value with significance at \<0.025. The P values have been adjusted for multiple comparisons using Dunnett's procedure.|repeated measure linear regression model||RBP-7000 90 mg - Placebo|Estimates, standard errors (SE), 2-sided confidence intervals (CIs), and -1-sided P values are based on a repeated-measures linear regression model of the change from baseline score, with fixed effects for visit as a categorical variable, baseline score, treatment and treatment by visit interaction, assuming an unstructured covariance matrix.||-0.143|-0.557|0.0002
92347255|NCT00879658|184597054|SUPERIORITY||lesion ratio|0.18|||<|0.001|TWO_SIDED|95.0|0.069|0.47||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.470|0.069|<0.001
92347256|NCT00879658|184597054|SUPERIORITY||lesion ratio|0.173|||<|0.001|TWO_SIDED|95.0|0.069|0.434||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.434|0.069|<0.001
92347257|NCT00879658|184597055|SUPERIORITY|Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.|lesion ratio|0.259||||0.005|TWO_SIDED|95.0|0.1|0.67||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||||0.670|0.100|0.005
92347258|NCT00879658|184597055|SUPERIORITY||lesion ratio|0.276||||0.005|TWO_SIDED|95.0|0.112|0.676||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.676|0.112|0.005
92347259|NCT00879658|184597055|SUPERIORITY||lesion ratio|0.118|||<|0.001|TWO_SIDED|95.0|0.034|0.409||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.409|0.034|<0.001
92347260|NCT00879658|184597055|SUPERIORITY||lesion ratio|0.683||||0.485|TWO_SIDED|95.0|0.234|1.991||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||1.991|0.234|0.485
92347261|NCT00879658|184597055|SUPERIORITY||lesion ratio|0.591||||0.142|TWO_SIDED|95.0|0.292|1.193||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||1.193|0.292|0.142
92405639|NCT02683577|184701451|SUPERIORITY_OR_OTHER||Median difference|0.0|||=|0.4671|TWO_SIDED|90.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||The Tmax was analysed using a non-parametric analysis (Walsh averages and appropriate quantile of the Wilcoxon signed rank test statistic). The median differences between the hepatic impaired group (Test) versus the healthy control group (Reference) and the corresponding 90% CIs were calculated by Hodges-Lehmann estimation.||1.000|0.000|=0.4671
92347262|NCT00879658|184597056|SUPERIORITY|Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.|lesion ratio|0.161|||<|0.001|TWO_SIDED|95.0|0.062|0.421||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||||0.421|0.062|<0.001
92347263|NCT00879658|184597056|SUPERIORITY||lesion ratio|0.197||||0.001|TWO_SIDED|95.0|0.074|0.527||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.527|0.074|0.001
92347264|NCT00879658|184597056|SUPERIORITY||lesion ratio|0.416||||0.139|TWO_SIDED|95.0|0.13|1.331||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||1.331|0.130|0.139
92347265|NCT00879658|184597057|SUPERIORITY|||||||0.227||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.227
92159130|NCT03253653|184205623|OTHER||z|-2.394||||0.017|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0. 017
92159131|NCT03253653|184205624|OTHER||z|-1.286||||0.199|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.199
92347266|NCT00879658|184597057|SUPERIORITY|||||||0.02||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.020
92347267|NCT00879658|184597057|SUPERIORITY|||||||0.001||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.001
92159132|NCT03253653|184205625|OTHER||z|-3.091||||0.002|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.002
92159133|NCT03253653|184205626|OTHER||z|0.13||||0.896|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level pre the tobacco smoking session.|||0.896
92159134|NCT03253653|184205627|OTHER||z|-0.362||||0.717|TWO_SIDED||||||The Wilcoxon signed rank test||||We used the Wilcoxon signed rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level pre the tobacco smoking session.|||0.717
92159135|NCT03253653|184205628|OTHER||z|2.233||||0.026|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level pre the tobacco smoking session.|||0.026
92347268|NCT00879658|184597057|SUPERIORITY|||||||0.122||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.122
92347269|NCT00879658|184597057|SUPERIORITY|||||||0.034||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.034
92347270|NCT00879658|184597058|SUPERIORITY|||||||0.335||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.335
92347271|NCT00879658|184597058|SUPERIORITY|||||||0.022||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.022
92347272|NCT00879658|184597058|SUPERIORITY|||||||0.124||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.124
92347273|NCT00879658|184597059|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.129||||0.006|TWO_SIDED|95.0|0.03|0.561||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.561|0.030|0.006
92275291|NCT03549130|184452707|SUPERIORITY||LS mean difference|-0.71||||0.3325|TWO_SIDED|95.0|-2.16|0.74||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for symptoms on waking in the morning.||0.74|-2.16|0.3325
92275292|NCT03549130|184452707|SUPERIORITY||LS mean difference|-0.81||||0.1088|TWO_SIDED|95.0|-1.81|0.18||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for practical problems.||0.18|-1.81|0.1088
92275293|NCT03549130|184452708|SUPERIORITY||LS mean difference|-0.25||||0.2513|TWO_SIDED|95.0|-0.68|0.18||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for feel tired and unrefreshed.||0.18|-0.68|0.2513
92275294|NCT03549130|184452708|SUPERIORITY||LS mean difference|-0.37||||0.0743|TWO_SIDED|95.0|-0.78|0.04||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for nasal congestion or stuffy nose.||0.04|-0.78|0.0743
92347274|NCT00879658|184597059|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.159||||0.005|TWO_SIDED|95.0|0.044|0.578||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.578|0.044|0.005
92275295|NCT03549130|184452708|SUPERIORITY||LS mean difference|-0.55||||0.0158|TWO_SIDED|95.0|-0.99|-0.1||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for congestion in sinuses.||-0.10|-0.99|0.0158
92275296|NCT03549130|184452708|SUPERIORITY||LS mean difference|-0.47||||0.0489|TWO_SIDED|95.0|-0.94|0.0||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for time to clear nighttime drainage after waking up.||0.00|-0.94|0.0489
92275297|NCT03549130|184452709|SUPERIORITY||LS mean difference|-0.19||||0.3034|TWO_SIDED|95.0|-0.57|0.18||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for feel tired and unrefreshed.||0.18|-0.57|0.3034
92275298|NCT03549130|184452709|SUPERIORITY||LS mean difference|-0.15||||0.4891|TWO_SIDED|95.0|-0.57|0.27||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for nasal congestion or stuffy nose.||0.27|-0.57|0.4891
92347275|NCT00879658|184597059|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.052||||0.005|TWO_SIDED|95.0|0.007|0.405||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.405|0.007|0.005
92218465|NCT02109562|184337790|SUPERIORITY||Mean Difference (Final Values)|-0.396|STANDARD_ERROR_OF_MEAN|0.0928|<|0.0001|TWO_SIDED|95.0|-0.602|-0.19||For evaluation of treatment differences, compare against a 1-sided adjusted P value with significance at \<0.025. The P values have been adjusted for multiple comparisons using Dunnett's procedure.|repeated measure linear regression model||RBP-7000 120 mg - Placebo|Estimates, standard errors (SE), 2-sided confidence intervals (CIs), and -1-sided P values are based on a repeated-measures linear regression model of the change from baseline score, with fixed effects for visit as a categorical variable, baseline score, treatment and treatment by visit interaction, assuming an unstructured covariance matrix.||-0.190|-0.602|<0.0001
92218466|NCT04722042|184337794|SUPERIORITY|||||||0.557|||||||ANOVA|||comparison of word recognition over time (activation, and 1, 3, 6, and 12 months post-activation) between groups (default versus place-based)||||0.557
92218467|NCT04722042|184337795|SUPERIORITY|||||||0.208|||||||ANOVA|||comparison of spatial release from masking over time (1, 3, 6, and 12 months post-activation) between the groups (default versus place-based)||||0.208
92218468|NCT04722042|184337796|SUPERIORITY|||||||0.126|||||||ANOVA|||comparison of spatial release from masking between the groups over time||||0.126
92218469|NCT04722042|184337797|SUPERIORITY|||||||0.369|||||||ANOVA|||comparison of perceived benefit between the groups over time||||0.369
92218470|NCT04722042|184337798|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
92218471|NCT04722042|184337799|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92218472|NCT04722042|184337800|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92275299|NCT03549130|184452709|SUPERIORITY||LS mean difference|-0.01||||0.9498|TWO_SIDED|95.0|-0.43|0.4||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for congestion in sinuses.||0.40|-0.43|0.9498
92275300|NCT03549130|184452709|SUPERIORITY||LS mean difference|-0.36||||0.1235|TWO_SIDED|95.0|-0.83|0.1||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for time to clear nighttime drainage after waking up.||0.10|-0.83|0.1235
92275301|NCT03549130|184452710|SUPERIORITY|||||||0.8498||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep problems.||||0.8498
92275302|NCT03549130|184452710|SUPERIORITY|||||||0.4652||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep problems.||||0.4652
92275303|NCT03549130|184452710|SUPERIORITY|||||||0.439||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep time problems.||||0.4390
92275304|NCT03549130|184452710|SUPERIORITY|||||||0.2997||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep time problems.||||0.2997
92218473|NCT05314517|184337832|OTHER||Stratified Common Risk Difference|14.1||||0.1244|TWO_SIDED|90.0|-1.0|29.2|||Cochran-Mantel-Haenszel|||||29.2|-1.0|0.1244
92218474|NCT04714073|184337841|OTHER||Ratio of geometric means (%)|218.81|||||TWO_SIDED|90.0|194.06|246.72|||||"The estimated parameter was the adjusted geometric mean ratio (%): BI 706321 + Itraconazole (Test Treatment(T))/BI 706321 alone (Reference Treatment (R)).~Intra-individual geometric coefficient of variation (gCV) \[%\] = 18.1."|The statistical model used for the analysis of the primary PK endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subject' was considered as random, whereas 'treatment' was considered as fixed.||246.72|194.06|
92218475|NCT04714073|184337842|OTHER||Ratio of geometric means (%)|156.29|||||TWO_SIDED|90.0|135.04|180.89|||||"The estimated parameter was the adjusted geometric mean ratio (%): BI 706321 + Itraconazole (Test Treatment(T))/BI 706321 alone (Reference Treatment (R)).~Intra-individual geometric coefficient of variation (gCV) \[%\] = 22.1."|The statistical model used for the analysis of the primary PK endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subject' was considered as random, whereas 'treatment' was considered as fixed.||180.89|135.04|
92218476|NCT04714073|184337843|OTHER||Ratio of geometric means (%)|223.12|||||TWO_SIDED|90.0|198.61|250.66|||||"The estimated parameter was the adjusted geometric mean ratio (%): BI 706321 + Itraconazole (Test Treatment(T))/BI 706321 alone (Reference Treatment (R)).~Intra-individual geometric coefficient of variation (gCV) \[%\] = 17.5."|The statistical model used for the analysis of the primary PK endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subject' was considered as random, whereas 'treatment' was considered as fixed.||250.66|198.61|
92218477|NCT05470465|184337855|SUPERIORITY||Mean Difference (Final Values)|-6.5|||<|0.001|ONE_SIDED|97.5||-3.1||To demonstrate an effect of oxycodone with paroxetine compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-3.1||<0.001
92275305|NCT03549130|184452710|SUPERIORITY|||||||0.1116||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in symptoms on waking in AM.||||0.1116
92218478|NCT05470465|184337855|SUPERIORITY||Mean Difference (Final Values)|-5.5||||0.001|ONE_SIDED|97.5||-2.1||To demonstrate an effect of oxycodone with escitalopram compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and escitalopram compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-2.1||0.001
92218479|NCT05470465|184337856|SUPERIORITY||Mean Difference (Final Values)|-6.5||||0.002|ONE_SIDED|97.5||-2.1||To demonstrate an effect of paroxetine compared to placebo, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of paroxetine compared to placebo.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-2.1||0.002
92275306|NCT03549130|184452710|SUPERIORITY|||||||0.5101||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in symptoms on waking in AM.||||0.5101
92275307|NCT03549130|184452710|SUPERIORITY|||||||0.474||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in practical problems.||||0.4740
92275308|NCT03549130|184452710|SUPERIORITY|||||||0.2787||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in practical problems.||||0.2787
92275309|NCT03549130|184452711|SUPERIORITY|||||||0.5958||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep problems.||||0.5958
92275310|NCT03549130|184452711|SUPERIORITY|||||||0.7296||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep problems.||||0.7296
92275311|NCT03549130|184452711|SUPERIORITY|||||||0.7171||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep time problems.||||0.7171
92275312|NCT03549130|184452711|SUPERIORITY|||||||0.403||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep time problems.||||0.4030
92275313|NCT03549130|184452711|SUPERIORITY|||||||0.4741||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in symptoms on waking in AM.||||0.4741
92275314|NCT03549130|184452711|SUPERIORITY|||||||0.5591||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in symptoms on waking in AM.||||0.5591
92275315|NCT03549130|184452711|SUPERIORITY|||||||0.8285||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in practical problems.||||0.8285
92275316|NCT03549130|184452711|SUPERIORITY|||||||0.3487||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in practical problems.||||0.3487
92275317|NCT01078623|184452712|SUPERIORITY_OR_OTHER||Least squares mean difference|0.221|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.174|0.268|||Mixed Models Analysis|Treatment and period as fixed effects, subject as random effect, and baseline values at each period as a covariate||||0.268|0.174|<0.0001
92275318|NCT01078623|184452712|SUPERIORITY_OR_OTHER||Least squares mean difference|0.234|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.186|0.281|||Mixed Models Analysis|Treatment and period as fixed effects, subject as random effect, and baseline values at each period as a covariate||||0.281|0.186|<0.0001
92275319|NCT00621686|184452741|SUPERIORITY_OR_OTHER|||||||0.069|||||||Log Rank|||||||0.069
92275320|NCT01797120|184452750|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.02|TWO_SIDED|95.0|0.4|0.92|||Log Rank|Log rank test was stratified on ECOG performance status, measurable disease, and prior chemotherapy for metastatic disease||||0.92|0.40|0.02
92275321|NCT01797120|184452751|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.01
92275322|NCT01797120|184452752|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
92275323|NCT00992264|184452766|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.51|1.51|||||OR for smoking abstinence at 12 months in intent to treat sample. Participants receiving content written in a Prescriptive tone were compared against persons receiving content in a Motivational tone (ref group).|Comparison of persons assigned to Prescriptive message tone (n = 932) against persons assigned to Motivational message tone (n = 933).||1.51|0.51|
92275324|NCT00992264|184452766|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.66|1.91|||||OR for smoking abstinence at 12 months when persons who randomly received a Testimonial were compared against persons receiving No Testimonial (ref group).|Comparison of persons assigned to Testimonials (n = 933) against persons assigned to receive no testimonials (n = 932).||1.91|0.66|
92275325|NCT00992264|184452766|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.7|2.02|||||OR for smoking abstinence at 12 months when persons assigned to Dictated navigation were compared to those not assigned to Dictated navigation (ref group).|Comparison of persons assigned to the Dictated Navigation arm (n = 934) against persons assigned to assigned free navigation of the website (n = 931).||2.02|0.70|
92275326|NCT00992264|184452766|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75|||||TWO_SIDED|95.0|0.43|1.3|||||OR for smoking abstinence at 12 months when persons assigned to receive Proactive Email reminders were compared against persons who received No Emails (ref group).|Comparison of persons assigned to Proactive Email Outreach (n = 933) against persons assigned to receive No Proactive Email Outreach (n = 932).||1.30|0.43|
92159136|NCT03253653|184205629|OTHER||z|0.383||||0.702|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level pre the tobacco smoking session.|||0.702
92159137|NCT03253653|184205630|OTHER||z|2.244||||0.025|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level pre the tobacco smoking session.|||0.025
92159138|NCT02857283|184205640|SUPERIORITY|||||||0.46|||||||ANOVA|paired||||||0.46
92159139|NCT02857283|184205641|SUPERIORITY|||||||0.0481|||||||ANOVA|Paired||||||0.0481
92159140|NCT02857283|184205642|SUPERIORITY|||||||0.0179|||||||ANOVA|||||||0.0179
92159141|NCT02857283|184205643|SUPERIORITY|||||||0.1|||||||ANOVA|paired||||||0.10
92159142|NCT02857283|184205644|SUPERIORITY|||||||0.69|||||||ANOVA|paired||||||0.69
92159143|NCT02857283|184205645|SUPERIORITY|||||||0.27|||||||ANOVA|paired||||||0.27
92159144|NCT02857283|184205646|SUPERIORITY|||||||0.5|||||||ANOVA|paired||||||0.50
92159145|NCT02857283|184205647|SUPERIORITY|||||||0.54|||||||Wilcoxon signed rank test|||||||0.54
92159146|NCT02857283|184205648|SUPERIORITY|||||||0.9|||||||ANOVA|paired||||||0.90
92159147|NCT02857283|184205650|SUPERIORITY|||||||0.64|||||||Wilcoxon signed rank test|||||||0.64
92159148|NCT02857283|184205651|SUPERIORITY|||||||0.79|||||||Wilcoxon signed rank test|||||||0.79
92159149|NCT02857283|184205652|SUPERIORITY|||||||0.094|||||||ANOVA|||||||0.094
92159150|NCT00961805|184205662|SUPERIORITY_OR_OTHER||||||<|0.001||||||Differences in the behavior of the groups over time.|ANOVA|||"Sample size was calculated by visual analogue scale for pain (alpha error of 5%, beta error of 20% and standard deviation of 2). The sample was determined to contain 30 patients in each group. Ten additional patients were added to compensate possible losses.~Analysis was intention to treat using the LOCF technique."||||<0.001
92159151|NCT00961805|184205663|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||<0.001
92159152|NCT00961805|184205664|SUPERIORITY_OR_OTHER||||||<|0.003||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||<0.003
92159153|NCT00961805|184205665|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.146
92159154|NCT00961805|184205666|SUPERIORITY_OR_OTHER|||||||0.131||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.131
92159155|NCT00961805|184205667|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||<0.001
92159156|NCT00961805|184205668|SUPERIORITY_OR_OTHER|||||||0.58||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.580
92159157|NCT00961805|184205669|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.082
92159158|NCT00961805|184205670|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.055
92159159|NCT00961805|184205671|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.003
92159160|NCT00961805|184205672|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.021
92159161|NCT00961805|184205673|SUPERIORITY_OR_OTHER|||||||0.136||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.136
92159162|NCT00961805|184205674|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.009
92159163|NCT00587288|184205676|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.194||0.0541|TWO_SIDED|95.0|-0.76|0.01||The p-value for the treatment comparison is based on the ANCOVA with adjustment for stratification factor and for variable at baseline.|ANCOVA|||||0.01|-0.76|0.0541
92159164|NCT00587288|184205677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01||||0.0848|TWO_SIDED|95.0|0.91|4.46||The p-value for the treatment comparison was based on logistic regression with adjustment for stratification factor.|Regression, Logistic|||||4.46|0.91|0.0848
92159165|NCT00587288|184205678|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.077||0.0023|TWO_SIDED|95.0|0.088|0.392||The p-value for the treatment comparison was based on the ANCOVA with adjustment for stratification factor and for variable at baseline.|ANCOVA|||||0.392|0.088|0.0023
92159166|NCT00587288|184205679|SUPERIORITY_OR_OTHER||Adjusted mean difference|7.98|STANDARD_ERROR_OF_MEAN|2.36||0.001|TWO_SIDED|95.0|3.3|12.65||The p-value for the treatment comparison was based on the ANCOVA with adjustment for stratification factor and for variable at baseline.|ANCOVA|||||12.65|3.30|0.0010
92159167|NCT00587288|184205680|SUPERIORITY_OR_OTHER||Adjusted mean difference|-125.29|STANDARD_ERROR_OF_MEAN|44.885||0.0068|TWO_SIDED|95.0|-214.81|-35.77||The p-value for the treatment comparison was based on the ANCOVA with adjustment for stratification factor and for variable at baseline. The difference between reslizumab 3.0 mg/kg and placebo groups was from comparison of the least square means.|ANCOVA|||||-35.77|-214.81|0.0068
92159168|NCT00587288|184205681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.33||||0.0833|TWO_SIDED|95.0|0.1|1.15||The p-value for the treatment comparison was based on logistic regression with adjustment for stratification factor.|Regression, Logistic|||||1.15|0.10|0.0833
92159169|NCT00587288|184205681|SUPERIORITY_OR_OTHER|||||||0.0809|||||||Log Rank|The p value for the treatment comparison was based on log rank test adjusting for stratification factor (ie, ACQ score ≤2 and \>2).||"Kaplan-Meier estimate of time to first CAE. (First quartile, median and third quartile survival times with 95% confidence intervals (ie, time to first CAE) could not be estimated since the proportion of patients experiencing CAE was too low. Therefore, the only number presented in regard to the Kaplan-Meier analysis is the p-value of the log-rank test, below. )"||||0.0809
92347276|NCT00879658|184597059|SUPERIORITY||lesion ratio|0.271||||0.019|TWO_SIDED|95.0|0.091|0.807||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.||0.807|0.091|0.019
92347277|NCT00879658|184597059|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.504||||0.169|TWO_SIDED|95.0|0.19|1.337||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||1.337|0.190|0.169
92347278|NCT00879658|184597060|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.214|||<|0.001|TWO_SIDED|95.0|0.091|0.499||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.499|0.091|<0.001
92159170|NCT00762463|184205683|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|LS mean difference calculated as LS mean change for Celecoxib 200 mg once daily minus LS mean change for Diclofenac SR 75 mg once daily. Non-inferiority was declared if the upper bound of the 95% confidence interval was \<10 mm.|LS Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|2.79||0.0085|TWO_SIDED|95.0|-2.2|8.8|||ANCOVA|Analysis of covariance (ANCOVA); factors: treatment group and study center; covariate: baseline Patient's Assessment of Global Pain Intensity score.||"Null hypothesis: Least Squares (LS) mean difference between Celecoxib 200 mg once daily versus Diclofenac SR 75 mg once daily on change in Global Pain Intensity from baseline to Week 6 was at least 10 mm. Corresponding alternative hypothesis: This difference was \<10 mm.~For the non-inferiority test, power was 80% and significance level was 0.025 (1-sided)."||8.8|-2.2|0.0085
92159171|NCT00762463|184205685|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.5||0.7849|TWO_SIDED|95.0|-5.6|4.2|||ANCOVA|Change from baseline analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||4.2|-5.6|0.7849
92275327|NCT00992264|184452767|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.94|||||TWO_SIDED|95.0|0.62|1.43|||||OR for use of adjunct treatment at 12 months when persons assigned to Prescriptive Tone were compared to persons assigned to receive content in a Motivational Tone (ref group).|Comparison of persons assigned to Prescriptive message tone (n = 932) against persons assigned to Motivational message tone (n = 933).||1.43|0.62|
92275328|NCT00992264|184452767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.46|1.07|||||OR for use of adjunct treatment at 12 months when persons assigned to receive a Testimonial were compared to persons assigned to receive No Testimonial (ref group).|Comparison of persons assigned to Testimonials (n = 933) against persons assigned to receive no testimonials (n = 932).||1.07|0.46|
92275329|NCT00992264|184452767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.51|1.18|||||OR for use of adjunct treatment at 12 months when persons assigned to Dictated Navigation were compared to persons not assigned to Dictated Navigation (ref group).|Comparison of persons assigned to the Dictated Navigation arm (n = 934) against persons assigned to assigned free navigation of the website (n = 931).||1.18|0.51|
92159172|NCT00762463|184205685|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|2.62||0.3223|TWO_SIDED|95.0|-2.6|7.8|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||7.8|-2.6|0.3223
92159173|NCT00762463|184205687|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.8938|TWO_SIDED|95.0|-0.15|0.17|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.17|-0.15|0.8938
92275330|NCT00992264|184452767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.44|1.03|||||OR for use of adjunct treatment at 12 months when persons assigned to Proactive Email reminders were compared to persons not assigned to receive Proactive Email reminders (ref group).|Comparison of persons assigned to Proactive Email Outreach (n = 933) against persons assigned to receive No Proactive Email Outreach (n = 932).||1.03|0.44|
92275331|NCT02491788|184452798|SUPERIORITY||Mean Difference (Final Values)|2.16|STANDARD_ERROR_OF_MEAN|0.75|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92275332|NCT00672620|184452804|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|1.036||0.577|TWO_SIDED|95.0|-2.61|1.46||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.05, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|ANCOVA|ANCOVA with treatment and center as fixed factors, baseline HAM-D24 as covariate.||All statistical tests were 2-sided with 95% confidence intervals (CIs), and with P-values evaluated at the 5% significance level (ie, statistical significance if P\<0.05). To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 5 mg and 2.5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.05, the testing procedure stopped for all subsequent endpoints.||1.46|-2.61|0.577
92159174|NCT00762463|184205687|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.08||0.0426|TWO_SIDED|95.0|0.01|0.31|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.31|0.01|0.0426
92159175|NCT00762463|184205687|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.09||0.1502|TWO_SIDED|95.0|-0.05|0.29|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.29|-0.05|0.1502
92347279|NCT00879658|184597060|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.24||||0.018|TWO_SIDED|95.0|0.074|0.779||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.779|0.074|0.018
92218480|NCT05470465|184337856|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.003|ONE_SIDED|97.5||-2.5||To demonstrate an effect of escitalopram compared to placebo, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of escitalopram compared to placebo.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-2.5||0.003
92218481|NCT05470465|184337857|SUPERIORITY||Mean Difference (Final Values)|-7.1|||<|0.001|ONE_SIDED|97.5||-4.1||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of oxycodone and paroxetine compared to oxycodone, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo at day 6 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-4.1||<0.001
92218482|NCT05470465|184337857|SUPERIORITY||Mean Difference (Final Values)|-5.6|||<|0.001|ONE_SIDED|97.5||-2.6||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of oxycodone and escitalopram compared to oxycodone, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and escitalopram compared to oxycodone and placebo at day 6 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-2.6||<0.001
92218483|NCT05470465|184337858|SUPERIORITY||Mean Difference (Final Values)|-10.1|||<|0.001|ONE_SIDED|97.5||-5.9||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of oxycodone and paroxetine compared to oxycodone, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo at day 12 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-5.9||<0.001
92218484|NCT05470465|184337858|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.003|ONE_SIDED|97.5||-2.7||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of oxycodone and escitalopram compared to oxycodone, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo at day 12 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-2.7||0.003
92275333|NCT00672620|184452804|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.54|STANDARD_ERROR_OF_MEAN|1.038||0.138|TWO_SIDED|95.0|-3.58|0.5|||ANCOVA|ANCOVA with treatment and center as fixed factors, baseline HAM-D24 as covariate.||||0.50|-3.58|0.138
92275334|NCT00672620|184452804|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.96|STANDARD_ERROR_OF_MEAN|1.047||0.005|TWO_SIDED|95.0|-5.02|-0.91|||ANCOVA|ANCOVA with treatment and center as fixed factors, baseline HAM-D24 as covariate.||||-0.91|-5.02|0.005
92275335|NCT02965820|184452816|SUPERIORITY||||||=|0.003|||||||Mixed Models Analysis|||||||=0.0030
92275336|NCT03051256|184452821|SUPERIORITY||||||<|0.0122|||||||Mixed Models Analysis|||||||<0.0122
92275337|NCT03051256|184452821|SUPERIORITY||||||<|0.0308|||||||Mixed Models Analysis|||||||<0.0308
92347280|NCT00879658|184597060|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.231||||0.006|TWO_SIDED|95.0|0.081|0.653||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.653|0.081|0.006
92275338|NCT03051256|184452822|SUPERIORITY||||||<|0.0103|||||||Mixed Models Analysis|||||||<0.0103
92275339|NCT03051256|184452822|SUPERIORITY||||||<|0.0039|||||||Mixed Models Analysis|||||||<0.0039
92218485|NCT05470465|184337859|SUPERIORITY||Mean Difference (Final Values)|-11.6|||<|0.001|ONE_SIDED|97.5||-6.5||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of paroxetine compared to placebo, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of paroxetine compared to placebo at day 5 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-6.5||<0.001
92218486|NCT05470465|184337859|SUPERIORITY||Mean Difference (Final Values)|-14.0|||<|0.001|ONE_SIDED|97.5||-9.0||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of escitalopram compared to placebo, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of escitalopram compared to placebo at day 5 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-9.0||<0.001
92218487|NCT05470465|184337860|SUPERIORITY||Mean Difference (Final Values)|-14.1|||<|0.001|ONE_SIDED|97.5||-8.5||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of paroxetine compared to placebo, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of paroxetine compared to placebo at day 11 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-8.5||<0.001
92218488|NCT05470465|184337860|SUPERIORITY||Mean Difference (Final Values)|-9.5|||<|0.001|ONE_SIDED|97.5||-3.8||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of escitalopram compared to placebo, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of escitalopram compared to placebo at day 11 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-3.8||<0.001
92218489|NCT01439282|184337882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.108||||||1-side P value was obtained|1-sample binomial test|||||||0.1080
92275340|NCT03051256|184452823|SUPERIORITY|||||||0.1237|||||||Mixed Models Analysis|||||||0.1237
92275341|NCT03051256|184452823|SUPERIORITY|||||||0.1017|||||||Mixed Models Analysis|||||||0.1017
92275342|NCT03051256|184452824|SUPERIORITY||||||<|0.0066|||||||Mixed Models Analysis|||||||<0.0066
92159176|NCT00762463|184205689|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.5945|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.1|-0.2|0.5945
92347281|NCT01719653|184597063|OTHER||||||<|0.005||||||Chicago BPS Total Score -- 1 was lower than 3,4,5; 2 was lower than 5. Modified Chicago BPS Total Score -- 1 were lower than 5. Chicago BPS Fluid Score -- 1 was dryer than 3,4,5; 2 was dryer than 3,4,5; 3 was wetter than 4,5.|t-test, 2 sided|||"All 5 arms were compared pair-wise.~1=G+PEG-306 2=G+PEG-357 3=G+PEG-Split 4=PEG+Asc-Split 5=SS-Split"||||<0.005
92347282|NCT01719653|184597064|OTHER||||||<|0.001||||||1 was lower than 4,5.|t-test, 2 sided|||"All 5 arms were compared pair-wise.~1=G+PEG-306 2=G+PEG-357 3=G+PEG-Split 4=PEG+Asc-Split 5=SS-Split"||||<0.001
92347283|NCT01719653|184597065|OTHER||||||>|0.005|||||||Chi-squared|||All 5 arms were compared pair-wise.||||>0.005
92347284|NCT04773028|184597070|OTHER||Mean Difference (Final Values)|-93054.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92347285|NCT03513952|184597088|SUPERIORITY|||||||0.428||||||A one-sided significance level of 0.10 will be considered for the test.|Cochran-Mantel-Haenszel||||Estimations were done separately in each treatment arm; the difference between treatments was not calculated.|||0.428
92159177|NCT00762463|184205689|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.3427|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.2|-0.1|0.3427
92275343|NCT03051256|184452824|SUPERIORITY||||||<|0.0014|||||||Mixed Models Analysis|||||||<0.0014
92347286|NCT03513952|184597089|EQUIVALENCE|"Two-sided Cochran-Mantel-Haenszel test for the CBR was performed, which is used for testing zero effect or equivalence between treatments. A two-sided significance level of 0.05 will be considered for the test."|Risk Difference (RD)|-6.0||||0.702|TWO_SIDED|95.0|-36.3|24.3|||Cochran-Mantel-Haenszel|||||24.3|-36.3|0.702
92347287|NCT01101178|184597094|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|110.0|||||TWO_SIDED|90.0|105.21|114.47|||ANOVA||Bioequivalence was established when 90% Confidence Interval fell within 80%-125%.|||114.47|105.21|
92218490|NCT02603120|184337906|NON_INFERIORITY|A sample size of 260 participants per treatment group would provide at least 90% power to detect a noninferiority margin of 4% in difference in percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Wk 48, between B/F/TAF group and ABC/DTG/3TC group. Sample size was based on assumptions that both treatment groups have 2% of participants with HIV-1 RNA ≥ 50 copies/mL at Wk 48 and that the non-inferiority margin is 4%, and that the significance level of the test is at a one-sided 0.025 level.|Difference in Percentages|0.7|||||TWO_SIDED|95.002|-1.0|2.8|||||The differences in percentages of participants between treatment groups and their 95.002% CIs were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||2.8|-1.0|
92218491|NCT02603120|184337906|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
92218492|NCT02603120|184337907|NON_INFERIORITY|It would be concluded that B/F/TAF is noninferior to ABC/DTG/3TC if the lower bound of the 2-sided 95.002% CI of the difference between treatment groups (B/F/TAF group -ABC/DTG/3TC group) in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10%.|Difference in Percentages|-1.4|||||TWO_SIDED|95.002|-5.5|2.6|||||The differences in percentages of participants between treatment groups and their 95.002% CIs were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||2.6|-5.5|
92218493|NCT02603120|184337907|SUPERIORITY|||||||0.59|||||||Fisher Exact|||||||.59
92218494|NCT02603120|184337908|OTHER||Difference in least squares means|-35.0||||0.031|TWO_SIDED|95.0|-67.0|-3.0|||ANOVA|||||-3|-67|0.031
92218495|NCT02603120|184337910|OTHER||Difference in least squares means|0.276||||0.33|TWO_SIDED|95.0|-0.275|0.827|||ANOVA|||||0.827|-0.275|0.33
92218496|NCT02603120|184337912|OTHER||Difference in least squares means|-0.143||||0.47|TWO_SIDED|95.0|-0.534|0.248|||ANOVA|||||0.248|-0.534|0.47
92218497|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.0034||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||60 minutes after study drug injection.||||0.0034
92218498|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.26||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||60 minutes after study drug injection.||||0.2600
92218499|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated measures Analysis of Variance|||60 minutes after study drug injection.||||0.0001
92218500|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.0039||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||90 minutes after study drug injection.||||0.0039
92218501|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.93||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||90 minutes after study drug injection.||||0.9300
92218502|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.0031||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||90 minutes after study drug injection.||||0.0031
92218503|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.019||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||120 minutes after study drug injection.||||0.0190
92218504|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.92||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||120 minutes after study drug injection.||||0.9200
92218505|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.015||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||120 minutes after study drug injection.||||0.0150
92218506|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.095||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Peak postprandial glucose (PPG) values.||||0.0950
92218507|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.6||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Peak postprandial glucose (PPG) values.||||0.6000
92218508|NCT00916357|184337919|SUPERIORITY_OR_OTHER|||||||0.031||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Peak postprandial glucose (PPG) values.||||0.0310
92218509|NCT00916357|184337920|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||<0.0001
92218510|NCT00916357|184337920|SUPERIORITY_OR_OTHER|||||||0.18||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.1800
92218511|NCT00916357|184337920|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||<0.0001
92218512|NCT00916357|184337921|SUPERIORITY_OR_OTHER|||||||0.0045||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.0045
92218513|NCT00916357|184337921|SUPERIORITY_OR_OTHER|||||||0.48||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.4800
92218514|NCT00916357|184337921|SUPERIORITY_OR_OTHER|||||||0.0006||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||0.0006
92218515|NCT00916357|184337922|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||<0.0001
92275344|NCT03051256|184452825|SUPERIORITY||||||<|0.0245|||||||Mixed Models Analysis|||||||<0.0245
92218516|NCT00916357|184337922|SUPERIORITY_OR_OTHER|||||||0.0016||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.0016
92275345|NCT03051256|184452825|SUPERIORITY||||||<|0.0253|||||||Mixed Models Analysis|||||||<0.0253
92275346|NCT03051256|184452826|SUPERIORITY||||||<|0.0454|||||||Mixed Models Analysis|||||||<0.0454
92275347|NCT03051256|184452826|SUPERIORITY||||||<|0.0043|||||||Mixed Models Analysis|||||||<0.0043
92275348|NCT03051256|184452827|SUPERIORITY|||||||0.0177|||||||Mixed Models Analysis|||||||0.0177
92347288|NCT01101178|184597095|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|94.7|||||TWO_SIDED|90.0|92.71|96.64|||ANOVA||Bioequivalence was established when 90% Confidence Interval fell within 80%-125%.|||96.64|92.71|
92347289|NCT01101178|184597096|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|94.9|||||TWO_SIDED|90.0|92.9|97.02|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||97.02|92.90|
92347290|NCT04739800|184597121|EQUIVALENCE|This is the Hazard Ratio of Group 2 compared to Group 1.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.44|2.31|||||This is the Hazard Ratio of Group 2 compared to Group 1.|||2.31|0.44|
92347291|NCT04739800|184597121|EQUIVALENCE|This is the Hazard Ratio of Group 3 compared to Group 1.|Hazard Ratio (HR)|1.21|||||TWO_SIDED|95.0|0.52|2.84|||||This is the Hazard Ratio of Group 3 compared to Group 1.|||2.84|0.52|
92347292|NCT04739800|184597121|EQUIVALENCE|This is the Hazard Ratio of Group 4 compared to Group 1.|Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|0.58|3.08|||||||This is the Hazard Ratio of Group 4 compared to Group 1.|3.08|0.58|
92347293|NCT04739800|184597124|EQUIVALENCE|This is the Hazard Ratio of Group 2 compared to Group 1.|Hazard Ratio (HR)|1.41|||||TWO_SIDED|95.0|0.44|4.47|||||This is the Hazard Ratio for Group 2 compared to Group 1.|||4.47|0.44|
92159178|NCT00762463|184205689|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.6522|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.2|-0.1|0.6522
92159179|NCT00762463|184205691|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.9358|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.4|-0.3|0.9358
92159180|NCT00762463|184205691|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5916|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.5|-0.3|0.5916
92159181|NCT00762463|184205691|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.179|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.7|-0.1|0.1790
92159182|NCT00762463|184205693|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.6335|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.5|-0.3|0.6335
92159183|NCT00762463|184205693|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.2729|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.6|-0.2|0.2729
92159184|NCT00762463|184205693|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1559|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.8|-0.1|0.1559
92159185|NCT00762463|184205696|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.3|STANDARD_ERROR_OF_MEAN|2.67||0.1111|TWO_SIDED|95.0|-1.0|9.5|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||9.5|-1.0|0.1111
92159186|NCT00762463|184205696|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|2.74||0.3574|TWO_SIDED|95.0|-2.9|7.9|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||7.9|-2.9|0.3574
92159187|NCT00762463|184205696|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|2.76||0.1464|TWO_SIDED|95.0|-1.4|9.5|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||9.5|-1.4|0.1464
92159188|NCT00762463|184205698|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.87||0.9641|TWO_SIDED|95.0|-1.7|1.8|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||1.8|-1.7|0.9641
92159189|NCT00762463|184205698|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.98||0.7749|TWO_SIDED|95.0|-1.6|2.2|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||2.2|-1.6|0.7749
92218517|NCT00916357|184337922|SUPERIORITY_OR_OTHER|||||||0.1||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||0.1000
92347294|NCT04739800|184597124|EQUIVALENCE|This is the Hazard Ratio of Group 3 compared to Group 1.|Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.4|4.19|||||This is the Hazard Ratio of Group 3 compared to Group 1.|||4.19|0.40|
92347295|NCT04739800|184597124|EQUIVALENCE|This is the Hazard Ratio of Group 4 compared to Group 1.|Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|0.58|3.08|||||This is the Hazard Ratio of Group 4 compared to Group 1.|||3.08|0.58|
92218518|NCT00916357|184337923|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone + Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||<0.0001
92218519|NCT00916357|184337923|SUPERIORITY_OR_OTHER|||||||0.3||||||Treatment comparison for Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.3000
92218520|NCT00916357|184337923|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||<0.0001
92218521|NCT00916357|184337924|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||<0.0001
92218522|NCT00916357|184337924|SUPERIORITY_OR_OTHER|||||||0.77||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.7700
92218523|NCT00916357|184337924|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||<0.0001
92218524|NCT00916357|184337925|SUPERIORITY_OR_OTHER|||||||0.01||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.0100
92218525|NCT00916357|184337925|SUPERIORITY_OR_OTHER|||||||0.82||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.8200
92218526|NCT00916357|184337925|SUPERIORITY_OR_OTHER|||||||0.0056||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||0.0056
92275349|NCT03051256|184452827|SUPERIORITY|||||||0.0072|||||||Mixed Models Analysis|||||||0.0072
92218527|NCT00916357|184337926|SUPERIORITY_OR_OTHER|||||||0.064||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>160 milligrams per deciliter (mg/dL)||||0.064
92218528|NCT00916357|184337926|SUPERIORITY_OR_OTHER|||||||0.47||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>160 milligrams per deciliter (mg/dL)||||0.47
92218529|NCT00916357|184337926|SUPERIORITY_OR_OTHER|||||||0.012||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>160 milligrams per deciliter (mg/dL)||||0.012
92218530|NCT00916357|184337926|SUPERIORITY_OR_OTHER|||||||0.099||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>140 milligrams per deciliter (mg/dL)||||0.099
92218531|NCT00916357|184337926|SUPERIORITY_OR_OTHER|||||||0.46||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>140 milligrams per deciliter (mg/dL)||||0.46
92218532|NCT00916357|184337926|SUPERIORITY_OR_OTHER|||||||0.02||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>140 milligrams per deciliter (mg/dL)||||0.020
92218533|NCT00916357|184337926|SUPERIORITY_OR_OTHER|||||||0.13||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \<70 milligrams per deciliter (mg/dL)||||0.13
92218534|NCT00916357|184337926|SUPERIORITY_OR_OTHER|||||||0.41||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \<70 milligrams per deciliter (mg/dL)||||0.41
92218535|NCT00916357|184337926|SUPERIORITY_OR_OTHER|||||||0.46||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \<70 milligrams per deciliter (mg/dL)||||0.46
92218536|NCT00916357|184337927|SUPERIORITY_OR_OTHER|||||||0.016||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.016
92218537|NCT00916357|184337927|SUPERIORITY_OR_OTHER|||||||0.88||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.8800
92218538|NCT00916357|184337927|SUPERIORITY_OR_OTHER|||||||0.011||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||0.011
92218539|NCT00916357|184337929|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Analysis for 10% of exposure (area under the curve \[AUC\])||||<0.0001
92218540|NCT00916357|184337929|SUPERIORITY_OR_OTHER|||||||0.18||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Analysis for 10% of exposure (area under the curve \[AUC\])||||0.1800
92218541|NCT00916357|184337929|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Analysis for 10% of exposure (area under the curve \[AUC\])||||<0.0001
92218542|NCT00916357|184337929|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison for Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Analysis for 50% of exposure (area under the curve \[AUC\])||||<0.0001
92218543|NCT00916357|184337929|SUPERIORITY_OR_OTHER|||||||0.72||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Analysis for 50% of exposure (area under the curve \[AUC\])||||0.7200
92218544|NCT00916357|184337929|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Analysis for 50% of exposure (area under the curve \[AUC\])||||<0.0001
92275350|NCT03051256|184452828|SUPERIORITY|||||||0.0895|||||||Mixed Models Analysis|||||||0.0895
92275351|NCT03051256|184452828|SUPERIORITY|||||||0.0109|||||||Mixed Models Analysis|||||||0.0109
92275352|NCT01578707|184452842|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
92218545|NCT01111851|184337993|SUPERIORITY_OR_OTHER||Geometric Mean Ratio of the LS Means|1.0|||||TWO_SIDED|90.0|0.99|1.01|||||"The point estimate and 90% confidence interval (CI) were generated for the geometric mean ratio (GMR) \[aprepitant~165 mg/fosaprepitant 150 mg\]."|||1.01|0.99|
92218546|NCT01111851|184337994|SUPERIORITY_OR_OTHER||Geometric Mean Ratio of the LS means|1.0|||||TWO_SIDED|90.0|0.98|1.02|||||"The point estimate and 90% confidence interval (CI) were generated for the geometric mean ratio (GMR) \[aprepitant~165 mg/fosaprepitant 150 mg\]."|||1.02|0.98|
92218547|NCT01111851|184337995|SUPERIORITY_OR_OTHER||Geometric Mean Ratio of the LS means|1.0|||||TWO_SIDED|90.0|0.97|1.03|||||"The point estimate and 90% confidence interval (CI) were generated for the geometric mean ratio (GMR) \[aprepitant~165 mg/fosaprepitant 150 mg\]."|||1.03|0.97|
92218548|NCT01111851|184337996|SUPERIORITY_OR_OTHER||Geometric Mean Ratio of the LS means|0.91|||||TWO_SIDED|90.0|0.5|1.66|||||"The point estimate and 90% confidence interval (CI) were generated for the geometric mean ratio (GMR) \[aprepitant~165 mg/fosaprepitant 150 mg\]."|||1.66|0.50|
92218549|NCT00073528|184338040|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.019|TWO_SIDED|95.0|0.53|0.96||p-value is from stratified log-rank test, stratifying for site of disease and time since prior adjuvant endocrine therapy at screening|Log Rank||The estimate of the treatment Hazard Ratio wase based on the log-rank test.|||0.96|0.53|0.019
92218550|NCT00073528|184338041|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.019|TWO_SIDED|95.0|0.53|0.96||p-value is from stratified log-rank test, stratifying for site of disease and time since prior adjuvant endocrine therapy at screening|Log Rank||The estimate of the treatment Hazard Ratio was based on the log-rank test.|||0.96|0.53|0.019
92218551|NCT03437564|184338079|EQUIVALENCE|The difference in the least square (LS) means between the formulations (dosing of one Vortioxetine 20 mg tablet - dosing of two Vortioxetine 10 mg tablets) and the two-sided 90% confidence interval (CI) were provided using a crossover analysis of variance (ANOVA) model. The shown data were anti-logs of LS means difference and CI. The ANOVA model included log-transformed (natural log) PK parameters AUClast as dependent variable, and treatment condition, group, and period as independent variables.|Point Estimate|0.996|||||TWO_SIDED|90.0|0.967|1.026|||ANOVA|||||1.026|0.967|
92218552|NCT03437564|184338080|EQUIVALENCE|The difference in the LS means between the formulations (dosing of one vortioxetine 20 mg tablet - dosing of two vortioxetine 10 mg tablets) and the two-sided 90% CI were provided using a crossover ANOVA model. The shown data were anti-logs of LS means difference and CI. The ANOVA model included log-transformed (natural log) PK parameters Cmax as dependent variable, and treatment condition, group, and period as independent variables.|Point Estimate|0.972|||||TWO_SIDED|90.0|0.937|1.008|||ANOVA|||||1.008|0.937|
92218553|NCT04037748|184338092|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|90.8|||||TWO_SIDED|90.0|86.3|95.6||||||||95.6|86.3|
92218554|NCT04037748|184338093|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|93.7|||||TWO_SIDED|90.0|88.2|99.5||||||||99.5|88.2|
92218555|NCT04037748|184338095|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|97.3|||||TWO_SIDED|90.0|94.7|100.0||||||||100.0|94.7|
92218556|NCT04037748|184338096|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|94.82|||||TWO_SIDED|90.0|92.0|97.8||||||||97.8|92.0|
92218557|NCT00053703|184338100|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92218558|NCT01940471|184338113|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample sizes of 288 and 576 participants in the TDF and TAF groups, respectively, were planned to give 84% power to rule out the noninferiority margin of 10% at a 1-sided significance level of 0.025. This sample size based on the assumption that the expected difference (TAF - TDF) in the proportion of participants with HBV DNA \< 29 IU/mL was 0 and the proportion of participants with HBV DNA \< 29 IU/mL in the TDF group was 69%. Missing data were treated as not achieving the primary endpoint.|Difference in proportions|-3.6|||||TWO_SIDED|95.0|-9.8|2.6|||||Difference in the proportion between treatment groups and its 95% CI were calculated based on the Mantel-Haenszel (MH) proportions adjusted by baseline HBV DNA categories and oral antiviral treatment status strata.|The null hypothesis was that the TAF group is at least 10% worse than the TDF group with respect to the proportion of participants with HBV DNA \< 29 IU/mL at Week 48. The alternative hypothesis was that the TAF group is less than 10% worse than the TDF group with respect to the proportion of participants with HBV DNA \< 29 IU/mL at Week 48. Noninferiority was assessed using a 95% confidence interval (CI) approach, with a noninferiority margin of 10%.||2.6|-9.8|
92218559|NCT01806857|184338138|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Random Effects Model|||||||0.0003
92218560|NCT01806857|184338142|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Random Effects Model|||||||0.0001
92347296|NCT05227677|184597126|SUPERIORITY|FAS analysis||||||0.9917||||||The threshold for statical significance was p=0.05.|Chi-squared|||||||0.9917
92218561|NCT01721057|184338154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||Regression, Logistic|||||||0.001
92218562|NCT01020591|184338175|NON_INFERIORITY_OR_EQUIVALENCE|The power and sample size calculations, based on the ability to detect treatment and evaluation group differences, were performed on Minitab™ V.15. 40 participants were estimated to be required for group allocation (20 in each group: evaluation;evaluation and treatment)for 80% power in at least 3 out of the 4 outcome measures. After 30 subjects, analysis determined that there would be no further statistically significant changes in results therefore, data collection was stopped at 30 subjects.|||||<|0.05|TWO_SIDED|95.0|||||ANOVA|||A two factor mixed model Analysis of Variance (ANOVA) for Group (Evaluation vs. Treatment) with repeated measures (pre vs. post test) was employed to test for main effects and all interactions for the Resistive Index||||<0.05
92218563|NCT02426476|184338193|SUPERIORITY||||||<|0.01||||||Group by Time interaction|Mixed Models Analysis|||Linear mixed models for repeated measures (PROC MIXED in SAS) were used to assess the effects of intervention group, time, and the group by time interaction. A directional (one-sided) hypothesis was tested for the Group-by-Time interaction. The covariance matrix that minimized the Akaike Information Criterion was used. Each outcome was evaluated separately. Models were adjusted for baseline depression score and race.||||<0.01
92347297|NCT05227677|184597126|SUPERIORITY|||||||0.6555|||||||Chi-squared|||PPS analysis||||0.6555
92347298|NCT05227677|184597127|SUPERIORITY|||||||0.0649||||||The threshold for statical significance was p=0.05.|Chi-squared|||FAS analysis||||0.0649
92347299|NCT05227677|184597127|SUPERIORITY|||||||0.0342|||||||Chi-squared|||PPS analysis||||0.0342
92347300|NCT05227677|184597128|SUPERIORITY|||||||0.2199||||||The threshold for statistical significance was p =0.05.|Chi-squared|||FAS Analysis||||0.2199
92347301|NCT05227677|184597128|SUPERIORITY|The threshold for statistical significance was p =0.05.||||||0.0769|||||||Chi-squared|||PPS analysis||||0.0769
92347302|NCT05227677|184597129|SUPERIORITY|||||||0.02||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||FAS analysis||||0.0200
92347303|NCT05227677|184597129|SUPERIORITY|||||||0.0147|||||||Wilcoxon (Mann-Whitney)|||PPS analysis||||0.0147
92347304|NCT05227677|184597130|SUPERIORITY|||||||0.0256||||||The threshold for statistical significance was p =0.05.|t-test, 2 sided|||FAS analysis||||0.0256
92347305|NCT05227677|184597130|SUPERIORITY|||||||0.0181||||||The threshold for statistical significance was p =0.05.|t-test, 2 sided|||PPS analysis||||0.0181
92347306|NCT05227677|184597131|EQUIVALENCE|Compare the percentage of hypoglycemia in each group and whether the percentage of hypoglycemia is equivalent between the GA guided therapy group and the Standard therapy group.|||||>|0.999||||||The threshold for statistical significance was p =0.05.|Fisher Exact|||At Visit3 (FAS)||||>0.999
92347307|NCT05227677|184597131|EQUIVALENCE|Compare the percentage of hypoglycemia in each group and whether the percentage of hypoglycemia is equivalent between the GA guided therapy group and the Standard therapy group.||||||0.6175||||||The threshold for statistical significance was p =0.05.|Fisher Exact|||At Visit 4 (FAS)||||0.6175
92347308|NCT05227677|184597131|EQUIVALENCE|Compare the percentage of hypoglycemia in each group and whether the percentage of hypoglycemia is equivalent between the GA guided therapy group and the Standard therapy group.|||||>|0.999||||||The threshold for statistical significance was p =0.05.|Fisher Exact|||At Visit 3 (PPS)||||>0.999
92347309|NCT05227677|184597131|EQUIVALENCE|Compare the percentage of hypoglycemia in each group and whether the percentage of hypoglycemia is equivalent between the GA guided therapy group and the Standard therapy group.||||||0.5979||||||The threshold for statistical significance was p =0.05.|Fisher Exact|||At Visit4 (PPS)||||0.5979
92347310|NCT05227677|184597132|SUPERIORITY|||||||0.0404||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||FAS analysis||||0.0404
92347311|NCT05227677|184597132|SUPERIORITY|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||PPS analysis||||0.0330
92347312|NCT05227677|184597133|SUPERIORITY|||||||0.0408||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||FAS analysis||||0.0408
92347313|NCT05227677|184597133|SUPERIORITY|||||||0.0322||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||PPS analysis||||0.0322
92159190|NCT00762463|184205698|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.95||0.7529|TWO_SIDED|95.0|-1.6|2.2|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||2.2|-1.6|0.7529
92347314|NCT05227677|184597134|SUPERIORITY|||||||0.0303||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||FAS analysis||||0.0303
92347315|NCT05227677|184597134|SUPERIORITY|||||||0.0264||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||PPS analysis||||0.0264
92347316|NCT05227677|184597135|SUPERIORITY|||||||0.0374||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||FAS analysis||||0.0374
92347317|NCT05227677|184597135|SUPERIORITY|||||||0.0313||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||PPS analysis||||0.0313
92347318|NCT05227677|184597136|SUPERIORITY|||||||0.0086||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||FAS analysis||||0.0086
92347319|NCT05227677|184597136|SUPERIORITY|||||||0.0156|||||||Wilcoxon (Mann-Whitney)|||PPS analysis||||0.0156
92159191|NCT00762463|184205700|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.11||0.878|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.2|-0.2|0.8780
92159192|NCT00762463|184205700|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.13||0.2202|TWO_SIDED|95.0|-0.1|0.4|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.4|-0.1|0.2202
92159193|NCT00762463|184205700|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.534|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.4|-0.2|0.5340
92159194|NCT00762463|184205702|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.81||0.7003|TWO_SIDED|95.0|-4.3|2.9|||ANCOVA|Change from baseline analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||2.9|-4.3|0.7003
92218564|NCT02426476|184338194|SUPERIORITY|||||||0.87||||||Group by Time interaction|Mixed Models Analysis|||||||0.87
92275353|NCT01578707|184452843|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<.0001
92275354|NCT01578707|184452844|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1653|||||||Log Rank|||||||0.1653
92347320|NCT05227677|184597137|SUPERIORITY|||||||0.0118|||||||Wilcoxon (Mann-Whitney)|||FAS analysis||||0.0118
92347321|NCT05227677|184597137|SUPERIORITY|||||||0.0191||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||PPS analysis||||0.0191
92347322|NCT05227677|184597138|SUPERIORITY|||||||0.0057||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||||||0.0057
92347323|NCT05227677|184597138|SUPERIORITY|||||||0.0175||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||PPS analysis||||0.0175
92347324|NCT05227677|184597139|SUPERIORITY|||||||0.0065||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||FAS analysis||||0.0065
92347325|NCT05227677|184597139|SUPERIORITY|||||||0.0188||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||PPS analysis||||0.0188
92218565|NCT02426476|184338195|SUPERIORITY||||||<|0.01||||||Group by Time Interaction|Mixed Models Analysis|||Linear mixed models for repeated measures (PROC MIXED in SAS) were used to assess the effects of intervention group, time, and the group by time interaction. A directional (one-sided) hypothesis was tested for the Group-by-Time interaction. The covariance matrix that minimized the Akaike Information Criterion was used. Each outcome was evaluated separately. Models were adjusted for baseline depression score and race.||||<0.01
92218566|NCT00807742|184338202|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.606|TWO_SIDED|95.0|0.57|2.63|||Chi-squared|||||2.63|0.57|.606
92218567|NCT00807742|184338203|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.29|TWO_SIDED|95.0|0.57|2.63|||Chi-squared|||||2.63|0.57|.290
92218568|NCT00807742|184338204|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.03||||0.32|TWO_SIDED|95.0|0.49|8.23|||Chi-squared|||||8.23|0.49|.32
92218569|NCT00807742|184338205|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.08||||0.298|TWO_SIDED|95.0|0.51|8.45|||Chi-squared|||||8.45|0.51|.298
92218570|NCT00807742|184338206|SUPERIORITY||Effect Size d|-0.49|||<|0.001|TWO_SIDED|95.0|-0.71|-0.27|||t-test, 2 sided|||||-0.27|-0.71|<.001
92275355|NCT02063698|184452853|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 2: BPI Worst Pain Past 24 Hours||||1.0
92275356|NCT02063698|184452853|SUPERIORITY|||||||0.45|||||||Fisher Exact|||Day 3: BPI Worst Pain Past 24 Hours||||0.45
92275357|NCT02063698|184452853|SUPERIORITY|||||||0.38|||||||Fisher Exact|||Day 4: BPI Worst Pain Past 24 Hours||||0.38
92275358|NCT02063698|184452853|SUPERIORITY|||||||0.12|||||||Fisher Exact|||Day 5: BPI Worst Pain Past 24 Hours||||0.12
92275359|NCT02063698|184452853|SUPERIORITY|||||||0.7|||||||Fisher Exact|||Day 6: BPI Worst Pain Past 24 Hours||||0.70
92275360|NCT02063698|184452853|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 7: BPI Worst Pain Past 24 Hours||||1.0
92275361|NCT02063698|184452853|SUPERIORITY|||||||0.44|||||||Fisher Exact|||Day 8: BPI Worst Pain Past 24 Hours||||0.44
92275362|NCT02063698|184452854|SUPERIORITY|||||||0.44|||||||Equal variance t-test|||||||0.44
92275363|NCT02063698|184452855|SUPERIORITY|||||||0.13|||||||Equal variance t-test|||||||0.13
92347326|NCT05227677|184597140|SUPERIORITY|||||||0.0087||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||||||0.0087
92347327|NCT05227677|184597140|SUPERIORITY|||||||0.0152||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||||||0.0152
92347328|NCT05227677|184597141|SUPERIORITY|||||||0.0103||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||||||0.0103
92347329|NCT05227677|184597141|SUPERIORITY|||||||0.0176||||||The threshold for statistical significance was p =0.05.|Wilcoxon (Mann-Whitney)|||||||0.0176
92347330|NCT03573297|184597142|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.5745|TWO_SIDED|95.0|0.48|1.43||P-value is based on the log-rank test stratified by modified index episode (manic or depressive) and region (US, non-US).|Log Rank||Hazard ratio (Cariprazine 1.5 or 3.0 mg/day vs. Placebo) is based on Cox proportional hazards regression model, with treatment group as an explanatory variable, stratified by modified index episode (manic or depressive) and region (US, non-US).|||1.43|0.48|0.5745
92347331|NCT03573297|184597142|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.6308|TWO_SIDED|95.0|0.52|1.51||P-value is based on the log-rank test stratified by modified index episode (manic or depressive) and region (US, non-US).|Log Rank||Hazard ratio (Cariprazine 1.5 or 3.0 mg/day vs. Placebo) is based on Cox proportional hazards regression model, with treatment group as an explanatory variable, stratified by modified index episode (manic or depressive) and region (US, non-US).|||1.51|0.52|0.6308
92347332|NCT02696798|184597158|SUPERIORITY||Odds Ratio (OR)|2.41||||0.017|TWO_SIDED|95.0|1.17|4.95|||Regression, Logistic|||||4.95|1.17|0.017
92347333|NCT02696798|184597158|SUPERIORITY||Odds Ratio (OR)|3.06||||0.003|TWO_SIDED|95.0|1.48|6.33|||Regression, Logistic|||||6.33|1.48|0.003
92347334|NCT02696798|184597159|SUPERIORITY||Odds Ratio (OR)|2.2||||0.006|TWO_SIDED|95.0|1.26|3.84|||Regression, Logistic|||||3.84|1.26|0.006
92347335|NCT02696798|184597159|SUPERIORITY||Odds Ratio (OR)|2.08||||0.013|TWO_SIDED|95.0|1.16|3.73|||Regression, Logistic|||||3.73|1.16|0.013
92218571|NCT00807742|184338207|SUPERIORITY||Effect Size d|-0.15||||0.199|TWO_SIDED|95.0|-0.38|0.08|||t-test, 2 sided|||||0.08|-0.38|.199
92218572|NCT00807742|184338208|SUPERIORITY||Effect Size d|-0.12||||0.148|TWO_SIDED|95.0|-0.57|0.33|||t-test, 2 sided|||||0.33|-.57|.148
92218573|NCT00807742|184338209|SUPERIORITY||Effect Size d|-0.15||||0.249|TWO_SIDED|95.0|-0.4|0.11|||t-test, 2 sided|||||0.11|-0.40|.249
92218574|NCT00807742|184338210|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.402|TWO_SIDED|95.0|0.59|3.72|||Chi-squared|||||3.72|0.59|0.402
92218575|NCT00807742|184338211|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.772|TWO_SIDED|95.0|0.49|1.7|||Chi-squared|||||1.70|0.49|.772
92275364|NCT02063698|184452857|SUPERIORITY|||||||0.025|||||||Chi-squared|||||||0.025
92275365|NCT02063698|184452858|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
92275366|NCT02063698|184452859|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.02
92275367|NCT02063698|184452860|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
92275368|NCT02063698|184452861|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
92275369|NCT00449930|184452863|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin was 0.4%; i.e., non-inferiority required that the upper boundary of the 95% confidence interval for the treatment difference (sitagliptin minus metformin) to be less than 0.4%.|Mean Difference (Net)|0.14|STANDARD_DEVIATION|0.57||||95.0|0.06|0.21|||||Based on an analysis of covariance (ANCOVA) model with terms for treatment group and baseline value.|||0.21|0.06|
92275370|NCT00449930|184452864|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-7.3|||<|0.001||95.0|-10.6|-4.2|||Fisher Exact||"Difference (sitagliptin minus metformin) in the percentage of patients with diarrhea.~Wilson Score method was used for the 95% Confidence Interval (CI)."|||-4.2|-10.6|<0.001
92275371|NCT00449930|184452865|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.9||||0.032||95.0|-3.9|-0.2|||Fisher Exact||"Difference (sitagliptin minus metformin) in the percentage of patients with nausea.~Wilson Score method was used for the 95% CI."|||-0.2|-3.9|0.032
92275372|NCT00449930|184452866|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.7||||0.103||95.0|-4.0|0.3|||Fisher Exact||"Difference (sitagliptin minus metformin) in the percentage of patients with abdominal pain.~Wilson Score method was used for the 95% CI."|||0.3|-4.0|0.103
92275373|NCT00449930|184452867|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.0||||||95.0|-2.4|0.2|||||"Difference (sitagliptin minus metformin) in the percentage of patients with vomiting.~Wilson Score method was used for the 95% CI."|||0.2|-2.4|
92399863|NCT02649556|184691205|OTHER||% Relative Reduction|31.7|||||TWO_SIDED|95.0|23.3|39.1|||||Derived as 100 x (1 - Geometric LS Mean Ratio)|"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of relative reduction of COHb levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on log-transformed values with visit, log-transformed baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect.|39.1|23.3|
92399864|NCT03224130|184691206|SUPERIORITY|||||||0.21|||||||Regression, Logistic|||||||0.21
92399865|NCT03224130|184691207|SUPERIORITY|||||||0.31|||||||Regression, Linear|||||||0.31
92399866|NCT03224130|184691208|SUPERIORITY|||||||0.24|||||||censored Poisson model|||||||0.24
92399867|NCT03224130|184691209|SUPERIORITY||||||<|0.01|||||||Poisson model|||||||<0.01
92399868|NCT03224130|184691210|SUPERIORITY|||||||0.5|||||||Regression, Logistic|||||||0.50
92399869|NCT03224130|184691211|SUPERIORITY|||||||0.998|||||||Regression, Logistic|||||||0.998
92399870|NCT03224130|184691212|SUPERIORITY|||||||0.92|||||||Regression, Logistic|||||||0.92
92399871|NCT04673214|184691258|SUPERIORITY|The null hypothesis for the modification in the clinical evolution of the conjunctivitis sign in patients diagnosed with COVID-19 under early intervention treatment with Azithromycin / Ribaroxaban / Paracetamol for 14 days followed by video call is rejected.||||||0.05||||||Presence of a p \<0.05 as significant in the comparison of treatment with clinical symptoms|Chi-squared|||Null Hypothesis: There will be no modification in the clinical evolution ≥ 25% of patients diagnosed with COVID-19 under an early intervention treatment with Azithromycin / Ivermectin / Ribaroxaban / Paracetamol vs. Azithromycin / Ribaroxaban / Paracetamol for 14 days followed by video call from U.M.F 13 and U.M.F 20 from I.M.S.S., during the period of December 2020- February 2021, with a power of 90%, type I error rate 1% and loss to follow-up 20%.||||0.05
92399872|NCT04673214|184691258|SUPERIORITY|The null hypothesis is rejected with a difference of 2 days in the modification of the clinical evolution (symptoms of fever, cough, headache, myalgia, odynophagia, anosmia, rhinorrhea, arthralgia, chest pain, dyspnea, conjunctivitis) of patients diagnosed with COVID -19 in early intervention treatment. vs. therapeutic failure, for 14 days followed by video call, with a power of 90%, a type I error rate of 1% and a loss to follow-up of 20%||||||0.05|||||||t-test, 2 sided|||Assuming a difference of 2 days in the modification of the clinical course (symptoms of fever, cough, headache, myalgia, odynophagia, anosmia, rhinorrhea, arthralgia, chest pain, dyspnea, conjunctivitis) of patients diagnosed with COVID-19 in early intervention treatment vs. therapeutic failure, for 14 days followed by video call, with a power of 90%, a type I error rate of 1% and a loss to follow-up of the twenty%||||0.05
92159195|NCT00762463|184205704|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|2.221||0.5183|TWO_SIDED|95.0|-5.82|2.94|||ANCOVA|Change from baseline analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||2.94|-5.82|0.5183
92159196|NCT00531479|184205716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.74||||0.0434|TWO_SIDED|95.0|-18.99|1.51||P-value based on a 1-sided test and tested against a 1-sided alpha of 0.025 to determine statistical significance.|Z test for difference in proportions||The 95% CI was based on using Greenwood's formula for the variance of the KM estimator.|All-cause mortality calculated using the Kaplan-Meier (KM) product limit estimator on Day 42 (Week 6) within each stratum and weighted by the harmonic mean of the sample sizes in the strata. Treatment difference (stratified) based on a weighted difference in proportions. Stratification variables were site of infection and host factors.||1.51|-18.99|0.0434
92159197|NCT00531479|184205717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.23|||||TWO_SIDED|95.0|-21.6|1.15||P-value for global response was to be reported only if Week 6 mortality was significant.|||95% confidence interval based on the difference in success rates using the normal approximation to the binoial distribution.|Treatment difference (stratified) based on a weighted difference in proportions. Stratification variables: site of infection and host factors.||1.15|-21.6|
92159198|NCT00531479|184205718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.2611|TWO_SIDED|95.0|-10.77|5.56||P-Value based on a 1-sided test and tested against a 1-sided alpha of 0.025 to determine statistical significance.|Z test for difference in proportions||95% confidence interval based on using Greenwood's formula for the variance of the Kaplan Meier estimator.|Treatment difference (stratified) based on a weighted difference in proportions. Stratification variables: site of infection and host factors.||5.56|-10.77|0.2611
92159199|NCT00531479|184205719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.18||||0.0383|TWO_SIDED|95.0|-21.44|1.09||P-Value based on a 1-sided test and tested against a 1-sided alpha of 0.025 to determine statistical significance.|Z test for difference in proportions||95% confidence intervalbased on using Greenwood's formula for the variance of the Kaplan Meier estimator.|Treatment difference (stratified) based on a weighted difference in proportions. Stratification variables: site of infection and host factors.||1.09|-21.44|0.0383
92159200|NCT00531479|184205720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.24||||0.1029|TWO_SIDED|95.0|-15.9|3.42||P-Value based on a one-sided test and tested against a 1-sided alpha of 0.025 to determine statistical significance.|Z test for difference in proportions||95% confidence interval based on Greenwood's formula for the variance of the Kaplan Meier estimator.|Treatment difference (stratified) based on a weighted difference in proportions. Stratification variables: site of infection and host factors.||3.42|-15.9|0.1029
92159201|NCT00531479|184205721|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.696||||0.083|TWO_SIDED|95.0|0.46|1.04|||Cox proportional hazards model|||Hazard Ratio: hazard of death in the Voriconazole/Anidulafungin arm relative to the Voriconazole/Placebo arm, adjusted for host factor status and site of infection. Participants who died beyond Day 84 were censored.||1.04|0.46|0.083
92159202|NCT00531479|184205722|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.687||||0.164|TWO_SIDED|95.0|0.4|1.16|||Cox proportional hazards model||95% confidence interval based on Greenwood's formula.|Analysis based on Cox proportional hazards model. Participants who died beyond day 84 were censored.||1.16|0.40|0.164
92159203|NCT01743729|184205730|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|0.03||||0.6186|TWO_SIDED|95.0|-0.1|0.17|||ANCOVA|||||0.17|-0.10|0.6186
92159204|NCT01743729|184205731|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|12.61|||<|0.0001|TWO_SIDED|95.0|8.51|16.7|||ANCOVA|||||16.70|8.51|<0.0001
92399873|NCT04673214|184691259|SUPERIORITY|Assuming a difference in the percentage of effectiveness in the clinical modification and therapeutic failure of patients diagnosed with the outcome of improvement in the Modification of the clinical evolution of the symptoms of patients with COVID-19 using double therapy was reported 95.7% (n = 44) Vs. triple therapy 90.8% (n = 59) and therapeutic failure 4.3% (n = 2) vs. 9.2% (n = 6), respectively.||||||0.05||||||Presence of a p \<0.05 as significant in the comparison of treatment with clinical symptoms the clinical modification and therapeutic failure of patients diagnosed with COVID-19|Chi-squared|||Assuming a difference in the percentage of effectiveness in the clinical modification and therapeutic failure of patients diagnosed with COVID-19 under treatment with Azithromycin / Ivermectin / Ribaroxaban / Paracetamol vs. Azithromycin / Ribaroxaban / Paracetamol followed for 14 days followed by video call, with a power of 90%, a type I error rate of 1% and a loss to follow-up of 20%||||0.05
92399874|NCT04673214|184691260|SUPERIORITY|The null hypothesis is rejected with a mean duration of 2 days with clinical symptoms of COVID-19 in early intervention treatment as a result of improving the modification of the clinical evolution of symptoms vs therapeutic failure.||||||0.05|||||||t-test, 2 sided|||Assuming a difference in days of effectiveness in clinical modification and therapeutic failure of patients diagnosed with COVID-19 in treatment with Azithromycin / Ivermectin / Ribaroxaban / Paracetamol vs. Azithromycin / Ribaroxaban / Paracetamol followed for 14 days followed by video call, with a potency 90%, a Type I error rate of 1%, and a loss to follow-up of 20%||||0.05
92399875|NCT04673214|184691261|SUPERIORITY|A total of 62 patients was calculated, however due to the availability of medication, it was recalculated to 111 patients, that is, 65 cases in the triple therapy group and 46 in the double therapy group would be necessary for the analysis.||||||0.05|||||||Wilcoxon (Gehan) statistical test|||Assuming a 25% efficacy in modifying the clinical course (COVID-19 mild phase symptoms) of patients with COVID-19 under a comparative treatment for 14 days followed by video call, with a power of 90%, type I error rate 1% and loss to follow-up 20%||||0.05
92399876|NCT01018030|184691269|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.386||||0.008|TWO_SIDED|95.0|-0.67|-0.1|||ANCOVA||The estimation for least squares mean was adjusted for baseline value, country, allergic rhinitis status, age, and gender.|||-0.10|-0.67|0.008
92399877|NCT01018030|184691269|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.357||||0.014|TWO_SIDED|95.0|-0.64|-0.07|||ANCOVA||The estimation for least squares mean was adjusted for baseline value, country, allergic rhinitis status, age, and gender.|||-0.07|-0.64|0.014
92399878|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.692||||||For ILC|ANCOVA|||||||0.692
92218576|NCT00807742|184338212|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.91|TWO_SIDED|95.0|0.6|1.77|||Chi-squared|||||1.77|0.60|.910
92218577|NCT00807742|184338213|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.812|TWO_SIDED|95.0|0.54|1.62|||Chi-squared|||||1.62|0.54|.812
92218578|NCT00807742|184338214|SUPERIORITY||Odds Ratio (OR)|0.76||||0.49|TWO_SIDED|95.0|0.36|1.65|||Chi-squared|||||1.65|0.36|.490
92399879|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.467||||||For ILC|ANCOVA|||||||0.467
92218579|NCT00807742|184338215|SUPERIORITY||Odds Ratio (OR)|1.19||||0.511|TWO_SIDED|95.0|0.67|2.06|||Chi-squared|||||2.06|0.67|.511
92399880|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.281||||||For ILC|ANCOVA|||||||0.281
92399881|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.075||||||For ILC|ANCOVA|||||||0.075
92399882|NCT00713609|184691288|SUPERIORITY_OR_OTHER||||||<|0.001||||||For ILC|ANCOVA|||||||<0.001
92218580|NCT00807742|184338216|SUPERIORITY||Odds Ratio (OR)|1.19||||0.499|TWO_SIDED|95.0|0.72|1.97|||Chi-squared|||||1.97|0.72|.499
92218581|NCT00807742|184338217|SUPERIORITY||Odds Ratio (OR)|0.96||||0.876|TWO_SIDED|95.0|0.58|1.6|||Chi-squared|||||1.60|0.58|.876
92218582|NCT00807742|184338218|SUPERIORITY_OR_OTHER||Effect Size d|-0.37||||0.001|TWO_SIDED|95.0|-0.59|-0.15|||t-test, 2 sided|||||-0.15|-0.59|.001
92399883|NCT00713609|184691288|SUPERIORITY_OR_OTHER||||||<|0.001||||||For NILC|ANCOVA|||||||<0.001
92399884|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.803||||||For NILC|ANCOVA|||||||0.803
92399885|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.175||||||For NILC|ANCOVA|||||||0.175
92399886|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.552||||||For NILC|ANCOVA|||||||0.552
92399887|NCT00713609|184691288|SUPERIORITY_OR_OTHER||||||<|0.001||||||For NILC|ANCOVA|||||||<0.001
92399888|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.006||||||For TC|ANCOVA|||||||0.006
92399889|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.618||||||For TC|ANCOVA|||||||0.618
92399890|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.149||||||For TC|ANCOVA|||||||0.149
92399891|NCT00713609|184691288|SUPERIORITY_OR_OTHER|||||||0.255||||||For TC|ANCOVA|||||||0.255
92399892|NCT00713609|184691288|SUPERIORITY_OR_OTHER||||||<|0.001||||||For TC|ANCOVA|||||||<0.001
92399893|NCT00713609|184691289|SUPERIORITY_OR_OTHER|||||||0.922|||||||Cochran-Mantel-Haenszel|||||||0.922
92399894|NCT00713609|184691289|SUPERIORITY_OR_OTHER|||||||0.132|||||||Cochran-Mantel-Haenszel|||||||0.132
92399895|NCT00713609|184691289|SUPERIORITY_OR_OTHER|||||||0.02|||||||Cochran-Mantel-Haenszel|||||||0.020
92399896|NCT00713609|184691289|SUPERIORITY_OR_OTHER|||||||0.706|||||||Cochran-Mantel-Haenszel|||||||0.706
92399897|NCT00713609|184691289|SUPERIORITY_OR_OTHER|||||||0.009|||||||Cochran-Mantel-Haenszel|||||||0.009
92399898|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.504||||||For ILC|ANCOVA|||||||0.504
92399899|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.504||||||For ILC|ANCOVA|||||||0.504
92399900|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.177||||||For ILC|ANCOVA|||||||0.177
92399901|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.084||||||For ILC|ANCOVA|||||||0.084
92275374|NCT00575328|184452875|SUPERIORITY|Analysis is a test of statistical significance to evaluate whether the results are consistent with the assumption of there being no difference in the clinical improvement (i.e. change in ASEX score) of the two treatments (null hypothesis).|Mean Difference (Final Values)|1.8|STANDARD_DEVIATION|3.3||0.62|TWO_SIDED|95.0|-8.7|12.3||No adjustment for multiple comparisons. P value for significance set a priori at P\<0.05.|t-test, 2 sided|||Null hypothesis: There will be no difference in clinical improvement (i.e. change in ASEX score) between treatment arms. No formal power analysis was carried out, given the small study sample.|The analysis is not truly informative, since the analyzable sample (n=6) was too small. Results should be viewed with caution.|12.3|-8.7|0.62
92275375|NCT00575328|184452876|SUPERIORITY|Analysis is a test of statistical significance to evaluate whether the results are consistent with the assumption of there being no difference in the clinical improvement (i.e. change in MGH-SD score) of the two treatments (null hypothesis).|Mean Difference (Final Values)|3.6|STANDARD_DEVIATION|4.5||0.38|TWO_SIDED|95.0|-6.7|13.97||No adjustment for multiple comparisons. P value for significance set a priori at P\<0.05.|t-test, 2 sided|||Null hypothesis: There will be no difference in clinical improvement (i.e. change in MGH-SD score) between treatment arms. No formal power analysis was carried out, given the small study sample.|Analysis was not truly informative since the analyzable sample (n=6) was too small. Results should be interpreted with caution.|13.97|-6.7|0.38
92275376|NCT01504867|184452931|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wald|This was a large sample (Wald) test estimated using a conditional logistic regression model with site as a stratification variable.||The primary outcome significance level was adjusted for multiple testing associated with the interim analysis. Its significance level is 92.6%||||0.53
92275377|NCT01504867|184452932|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Chi-squared|||||||>0.99
92275378|NCT01504867|184452933|SUPERIORITY_OR_OTHER|||||||0.36|||||||Chi-squared|||||||0.36
92275379|NCT01504867|184452934|SUPERIORITY_OR_OTHER|||||||0.23|||||||Chi-squared|||||||0.23
92275380|NCT01504867|184452935|SUPERIORITY_OR_OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
92275381|NCT01504867|184452936|SUPERIORITY_OR_OTHER|||||||0.08|||||||Chi-squared|||||||0.08
92275382|NCT01504867|184452937|SUPERIORITY_OR_OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
92275383|NCT03124381|184452949|NON_INFERIORITY|Non-inferiority concluded if the upper bound of the two-sided 95% confidence interval (based on ANCOVA) is less than 15 percentage points. Terms for treatment, gender, center as factors and baseline as covariate.|Mean Difference (Net)|3.19|STANDARD_ERROR_OF_MEAN|5.164|||TWO_SIDED|95.0|-7.04|13.42||||||Non-inferiority test performed after significance vs. baseline confirmed for each cell. The null hypothesis for the non-inferiority test was H0: A-B≥15%, where A and B are the mean percent change at Week 12 of global face total acne lesion count of the Gel-Cream + Acne Mask cell and Acne Mask cell, respectively.||13.42|-7.04|
92275384|NCT03124381|184452949|SUPERIORITY|Superiority concluded if the upper bound of the two-sided 95% confidence interval of the treatment difference is less than 0. Terms for treatment, gender, and center as factors and baseline score as covariate.|Mean Difference (Net)|3.19|STANDARD_ERROR_OF_MEAN|5.164||0.538|TWO_SIDED|95.0|-7.04|13.42|||ANCOVA|||Superiority test performed after non-inferiority confirmed as described above. The null hypothesis for the superiority test was H0: A-B = 0, where A and B are the mean percent change at Week 12 of global face total acne lesion count of the Acne Mask and the Gel-Cream + Acne Mask cell, respectively.||13.42|-7.04|0.538
92275385|NCT02473510|184453000|SUPERIORITY_OR_OTHER||Rate Difference|0.4|||||TWO_SIDED|95.0|-5.2|2.6||||||||2.6|-5.2|
92275386|NCT02473510|184453001|SUPERIORITY_OR_OTHER||Rate Difference|16.7|||||TWO_SIDED|95.0|3.6|27.6||||||Up to Day 8||27.6|3.6|
92275387|NCT02473510|184453001|SUPERIORITY_OR_OTHER||Rate Difference|17.9|||||TWO_SIDED|95.0|4.4|29.3||||||Up to Day 15||29.3|4.4|
92275388|NCT00500656|184453034|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|3.475|||<|0.001|TWO_SIDED|95.0|1.901|6.355|||The Wilcoxon version of the log rank|The median time to onset was calculated using Kaplan Meier methodology. The Wilcoxon version of the log rank test of SAS was used||||6.355|1.901|< 0.001
92275389|NCT00500656|184453035|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||The Wilcoxon version of the log rank|The median time to almost complete symptom relief was calculated using Kaplan Meier methodology.The Wilcoxon version of the log rank test SAS was used||||||< 0.001
92275390|NCT01806597|184453049|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|19.3||||0.0002|TWO_SIDED|95.0|2.4|154.6|||Cochran-Mantel-Haenszel|||Data at Week 16 was analyzed using the stratified Cochran-Mantel-Haenszel-test. The test was stratified by body-weight category (\<90 kg or ≥90 kg).||154.6|2.4|0.0002
92159205|NCT05074498|184205765|OTHER||Least square mean difference|-0.35||||0.0838|TWO_SIDED|95.0|-0.741|0.047|||Mixed Models Analysis|||||0.047|-0.741|0.0838
92159206|NCT01306331|184205800|NON_INFERIORITY|If the upper bound for the confidence interval of the difference was \< 5.5, then the null hypothesis would be rejected.|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-2.2|3.2||||||The primary hypothesis test was performed using 95% confidence interval for the difference in cumulative pregnancy rates between the treatment arms. If the upper bound for the confidence interval of the difference was \< 5.5, then the null hypothesis would be rejected.||3.2|-2.2|
92159207|NCT03371108|184205803|EQUIVALENCE|The determination of equivalence was defined by the US-FDA as a confidence interval that was contained within the equivalence limits of +/- 10.7.|Risk Difference (RD)|-2.1|STANDARD_ERROR_OF_MEAN|3.39|||TWO_SIDED|90.0|-7.6|3.5|||||The asymptotic standard error was planned and is reported above.|This is a two-arm study.||3.5|-7.6|
92275391|NCT01806597|184453049|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|29.4|||<|0.0001|TWO_SIDED|95.0|4.1|211.9|||Cochran-Mantel-Haenszel|||Data at Week 16 was analyzed using the stratified Cochran-Mantel-Haenszel-test. The test was stratified by body-weight category (\<90 kg or ≥90 kg).||211.9|4.1|<0.0001
92275392|NCT01144663|184453057|NON_INFERIORITY|Indication of non-inferiority of Nimenrix 3 Group compared to Menjugate Group is a lower limit of the 95% CI of the group difference greater than or equal to the predefined clinical limits of -5%.|Difference in percentage|0.01|||||TWO_SIDED|95.0|-1.17|1.2||||||To demonstrate the non-inferiority of the Nimenrix 3 Group compared to the Menjugate Group, two-sided standardized asymptotic 95% CI (confidence interval) for the groups difference \[Nimenrix 3 Group minus Menjugate Group\] in the percentages of subjects with bactericidal vaccine response to MenC was computed.||1.2|-1.17|
92347336|NCT02696798|184597160|SUPERIORITY||LS Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.135|<|0.001|TWO_SIDED|95.0|-1.32|-0.79|||Mixed Models Analysis|||||-0.79|-1.32|<0.001
92347337|NCT02696798|184597160|SUPERIORITY||LS Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.3|-0.75|||Mixed Models Analysis|||||-0.75|-1.30|<0.001
92347338|NCT02696798|184597161|SUPERIORITY||Odds Ratio (OR)|2.65||||0.015|TWO_SIDED|95.0|1.21|5.84|||Regression, Logistic|||||5.84|1.21|0.015
92399902|NCT00713609|184691290|SUPERIORITY_OR_OTHER||||||<|0.001||||||For ILC|ANCOVA|||||||<0.001
92399903|NCT00713609|184691290|SUPERIORITY_OR_OTHER||||||<|0.001||||||For NILC|ANCOVA|||||||<0.001
92399904|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.776||||||For NILC|ANCOVA|||||||0.776
92399905|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.465||||||For NILC|ANCOVA|||||||0.465
92399906|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.288||||||For NILC|ANCOVA|||||||0.288
92399907|NCT00713609|184691290|SUPERIORITY_OR_OTHER||||||<|0.001||||||For NILC|ANCOVA|||||||<0.001
92399908|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.006||||||For TC|ANCOVA|||||||0.006
92399909|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.62||||||For TC|ANCOVA|||||||0.620
92399910|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.291||||||For TC|ANCOVA|||||||0.291
92399911|NCT00713609|184691290|SUPERIORITY_OR_OTHER|||||||0.085||||||For TC|ANCOVA|||||||0.085
92399912|NCT00713609|184691290|SUPERIORITY_OR_OTHER||||||<|0.001||||||For TC|ANCOVA|||||||<0.001
92218583|NCT00807742|184338219|SUPERIORITY_OR_OTHER||Effect Size d|-0.25||||0.069|TWO_SIDED|95.0|-0.46|0.02|||t-test, 2 sided|||||0.02|-0.46|.069
92218584|NCT00807742|184338220|SUPERIORITY_OR_OTHER||Effect Size d|-0.16||||0.202|TWO_SIDED|95.0|-0.4|0.08|||t-test, 2 sided|||||0.08|-0.40|.202
92218585|NCT00807742|184338221|SUPERIORITY_OR_OTHER||Effect Size d|-0.17||||0.199|TWO_SIDED|95.0|-0.42|0.09|||t-test, 2 sided|||||0.09|-0.42|.199
92218586|NCT02044133|184338222|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92347339|NCT02696798|184597161|SUPERIORITY||Odds Ratio (OR)|2.9||||0.01|TWO_SIDED|95.0|1.29|6.49|||Regression, Logistic|||||6.49|1.29|0.010
92347340|NCT02696798|184597162|SUPERIORITY||LS Mean Difference (Final Values)|-1.24|STANDARD_ERROR_OF_MEAN|0.291|<|0.001|TWO_SIDED|95.0|-1.81|-0.67|||Mixed Models Analysis|||||-0.67|-1.81|<0.001
92347341|NCT02696798|184597162|SUPERIORITY||LS Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|0.301|<|0.001|TWO_SIDED|95.0|-1.76|-0.57|||Mixed Models Analysis|||||-0.57|-1.76|<0.001
92399913|NCT00713609|184691291|SUPERIORITY_OR_OTHER|||||||0.652|||||||Cochran-Mantel-Haenszel|||||||0.652
92399914|NCT00713609|184691291|SUPERIORITY_OR_OTHER|||||||0.279|||||||Cochran-Mantel-Haenszel|||||||0.279
92399915|NCT00713609|184691291|SUPERIORITY_OR_OTHER|||||||0.312|||||||Cochran-Mantel-Haenszel|||||||0.312
92399916|NCT00713609|184691291|SUPERIORITY_OR_OTHER|||||||0.063|||||||Cochran-Mantel-Haenszel|||||||0.063
92399917|NCT00713609|184691291|SUPERIORITY_OR_OTHER|||||||0.005|||||||Cochran-Mantel-Haenszel|||||||0.005
92399918|NCT04529083|184691292|OTHER||Mean Difference (Net)|-0.625||||0.011|TWO_SIDED|95.0|-1.06|-0.19|||t-test, 2 sided|||||-0.19|-1.06|0.011
92399919|NCT04529083|184691294|SUPERIORITY||Mean Difference (Net)|1.94||||0.006|TWO_SIDED|95.0|0.63|3.26|||t-test, 2 sided|||||3.26|0.63|0.006
92399920|NCT04196686|184691300|OTHER||Hazard Ratio (HR)|0.36|||<|0.001|TWO_SIDED|95.0|0.25|0.51|||Cox mixed effects model|||||0.51|0.25|<0.001
92399921|NCT04196686|184691301|OTHER||Mean Difference (Net)|0.455||||0.2|TWO_SIDED|95.0|0.32|0.59|||Linear mixed effects model|||Analysis was controlled for dominant hand treatment assignment, dominant hand order, and gender. Overall mean difference calculated from regression model.||0.59|0.32|0.200
92399922|NCT04196686|184691302|OTHER||Mean Difference (Net)|0.002||||0.047|TWO_SIDED|95.0|0.00007|0.00368|||Linear mixed effects model|||The variables in the physiologic model were SCRD change over time and the SCRD change between groups, defined as those with and without VR.||0.00368|0.00007|0.047
92399923|NCT03448406|184691373|SUPERIORITY||Median difference (HL-estimate)|4.0||||0.366|TWO_SIDED|95.0|-5.0|13.0|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodge-Lehman (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of Placebo and the effect of empagliflozin.||13.0|-5.0|0.3660
92399924|NCT03448406|184691374|SUPERIORITY||Median difference (HL-estimate)|2.08||||0.2783|TWO_SIDED|95.0|-2.08|6.25|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodges-Lehmann estimate for the median difference was calculated.|H0: There is no difference between the effect of Placebo and the effect of empagliflozin.||6.25|-2.08|0.2783
92399925|NCT03448406|184691375|SUPERIORITY||Median difference (HL-estimate)|-0.07||||0.5512|TWO_SIDED|95.0|-0.35|0.2|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodges-Lehmann (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of Placebo and the effect of empagliflozin.||0.20|-0.35|0.5512
92399926|NCT03448406|184691376|SUPERIORITY||Median Difference (HL-estimate)|3.0||||0.3657|TWO_SIDED|95.0|-4.0|11.0|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodges-Lehmann (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of Placebo and the effect of empagliflozin.||11.0|-4.0|0.3657
92399927|NCT03448406|184691377|OTHER||Difference of adjusted mean|-0.09|STANDARD_DEVIATION|0.11||0.444|TWO_SIDED|95.0|-0.31|0.14|||Mixed Model Repeated Measure (MMRM)|Covariates: visit-by-treatment interaction, baseline-by-visit interaction. Unstructured covariance structure was used to model within-patient errors.||||0.14|-0.31|0.4440
92399928|NCT03448406|184691378|OTHER|||||||0.3924|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.3924
92399929|NCT03448406|184691379|OTHER|||||||0.4435|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.4435
92399930|NCT03448406|184691380|OTHER|||||||0.5124|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.5124
92399931|NCT03448406|184691381|OTHER|||||||0.5713|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.5713
92399932|NCT03448406|184691382|OTHER||Adjusted geometric mean ratio|0.95||||0.4032|TWO_SIDED|95.0|0.85|1.07|||Mixed model repeated Measure (MMRM)|Covariates: Visit-by-treatment interaction and baseline-by-visit interaction. Unstructured covariance structure to model within-patient errors.|Adjusted geometric mean ratio \[Empagliflozin/Placebo\] of relative change to baseline.|||1.07|0.85|0.4032
92399933|NCT01292486|184691386|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 2 days.|Median Difference (Final Values)|0.0|||<|0.025|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehman estimation|||The null hypothesis was that the median day to neutrophil recovery in this study was more than two days longer than historical controls.||0.0|0.0|<0.025
92399934|NCT04369404|184691393|SUPERIORITY|We hypothesize that participants who received the decision aid will have higher knowledge. This is pilot study, thus we did not have a power calculation.|Mean Difference (Final Values)|12.0||||0.06|TWO_SIDED|95.0|0.7|24.6|||t-test, 2 sided|||||24.6|0.7|0.06
92399935|NCT04369404|184691394|OTHER||Pearson Chi-Square|2.97||||0.085|TWO_SIDED||||||Chi-squared|||"a chisquare test was conducted to determine if the proportion of treatment unsure responses were different between the usual care and intervention arms."||||0.085
92399936|NCT04369404|184691395|OTHER||Pearson Chi-Square|1.524||||0.47|TWO_SIDED||||||Chi-squared|||||||0.47
92399937|NCT02542865|184691400|SUPERIORITY||Mean Difference (Net)|-6.0|STANDARD_ERROR_OF_MEAN|1.56||0.0628|TWO_SIDED|95.0|-12.7|0.8|||ANCOVA|Analysis of variance(ANCOVA):cluster/school=random effect,product group and gender=fixed effects,baseline Individual Dietary Diversity Score=covariate|Difference is difference in back-transformed adjusted means for Test Group (fortified malt based food plus dietary counselling) minus Control Group (dietary counselling only).|||0.8|-12.7|0.0628
92399938|NCT02542865|184691400|SUPERIORITY||Mean Difference (Net)|-4.9||||0.039|||||||ANCOVA|ANCOVA:cluster/school=random effect,product group and gender=fixed effects,baseline Individual Dietary Diversity Score=covariate|Difference is difference in back-transformed adjusted means for Test Group minus Control Group. The corresponding CI is not presented as there is no direct back-transformation.|Since the distribution of the data was found to be more skewed with more zero counts than was anticipated at the time the trial was designed, an additional analysis of log (+1)-transformed data was performed.||||0.0390
92399939|NCT01856270|184691432|SUPERIORITY|The data from this study was compared with the data from the Natural History of Headache after Mild TBI which was previously published (Lucas, Hoffman, Bell, Dikmen. (2014), A prospective study of prevalence and characterization of headache following mild traumatic brain injury. Cephalalgia (34) 93-102).|Difference of proportions|0.114||||0.101|ONE_SIDED|95.0|-0.017|||A priori significance threshold α=.05|Fisher Exact||Confidence interval estimation method from Wallenstein (1997). 71 of 205 participants (at 3 Mo post) in the Natural History study endorsed having a headache more than once per week.|A positive difference of proportions would indicate an improvement in the Amitriptyline sample, while a negative difference would indicate a worsening.|||-0.017|.101
92399940|NCT01856270|184691433|SUPERIORITY|The data from this study was compared with the data from the Natural History of Headache after Mild TBI which was previously published (Lucas, Hoffman, Bell, Dikmen. (2014), A prospective study of prevalence and characterization of headache following mild traumatic brain injury. Cephalalgia (34) 93-102).|Difference of proportions|0.194||||0.017|ONE_SIDED|95.0|0.057|||A priori significance threshold α=.05|Fisher Exact||Confidence interval estimation method from Wallenstein (1997). 56 of 148 participants (at 3 mo post) in the Natural History study reported pain \>=6.|A positive difference of proportions would indicate an improvement in the Amitriptyline sample, while a negative difference would indicate a worsening|||.057|.017
92218587|NCT04085523|184338223|SUPERIORITY||||||=|0.6004|||||||ANCOVA|||ANCOVA model using treatment (dose groups and pooled placebo) and sex as fixed effects, and baseline age and baseline height SDS as the covariates.||||= 0.6004
92218588|NCT04085523|184338223|SUPERIORITY||||||=|0.7022|||||||ANCOVA|||ANCOVA model using treatment (dose groups and pooled placebo) and sex as fixed effects, and baseline age and baseline height SDS as the covariates.||||= 0.7022
92399941|NCT01856270|184691434|SUPERIORITY||Difference of proportions|0.093||||0.456|TWO_SIDED|95.0|-0.106|0.286||A priori significance threshold α=.05|Fisher Exact||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed). Confidence interval estimation method from Wallenstein (1997).|||.286|-.106|.456
92399942|NCT01856270|184691435|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.684|TWO_SIDED|95.0|-5.1|3.4||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||3.4|-5.1|.684
92218589|NCT04085523|184338223|SUPERIORITY||||||=|0.0849|||||||ANCOVA|||ANCOVA model using treatment (dose groups and pooled placebo) and sex as fixed effects, and baseline age and baseline height SDS as the covariates.||||= 0.0849
92399943|NCT01856270|184691436|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.306|TWO_SIDED|95.0|-1.0|2.9||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||2.9|-1.0|.306
92399944|NCT01856270|184691437|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.583|TWO_SIDED|95.0|-0.9|1.6||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||1.6|-0.9|.583
92218590|NCT04085523|184338223|SUPERIORITY||||||=|0.0218|||||||ANCOVA|||ANCOVA model using treatment (dose groups and pooled placebo) and sex as fixed effects, and baseline age and baseline height SDS as the covariates.||||= 0.0218
92399945|NCT01856270|184691438|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.444|TWO_SIDED|95.0|-4.0|8.8||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||8.8|-4.0|.444
92399946|NCT01856270|184691439|SUPERIORITY||Mean Difference (Final Values)|27.3||||0.041|TWO_SIDED|95.0|1.2|53.3||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||53.3|1.2|.041
92399947|NCT01856270|184691440|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.089|TWO_SIDED|95.0|-3.8|0.3||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||0.3|-3.8|.089
92399948|NCT03535974|184691461|OTHER||Mean Difference (Final Values)|10.57|STANDARD_ERROR_OF_MEAN|5.122||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
92399949|NCT02913482|184691516|SUPERIORITY|Result compared to a performance criterion of 5% derived from natural history data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
92399950|NCT02913482|184691517|SUPERIORITY|Result compared to a performance criterion of 17% derived from natural history data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
92399951|NCT02913482|184691518|SUPERIORITY|Result compared to a performance criterion of 17% derived from natural history data. Statistical analysis was only performed for Month 12 data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
92347342|NCT02696798|184597163|SUPERIORITY||LS Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.295|<|0.001|TWO_SIDED|95.0|-1.63|-0.47|||Mixed Models Analysis|||||-0.47|-1.63|<0.001
92347343|NCT02696798|184597163|SUPERIORITY||LS Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|0.307|<|0.001|TWO_SIDED|95.0|-1.89|-0.68|||Mixed Models Analysis|||||-0.68|-1.89|<0.001
92347344|NCT02696798|184597164|SUPERIORITY||Odds Ratio (OR)|3.73||||0.242|TWO_SIDED|95.0|0.41|33.98|||Regression, Logistic|||||33.98|0.41|0.242
92347345|NCT02696798|184597164|SUPERIORITY||Odds Ratio (OR)|5.42||||0.127|TWO_SIDED|95.0|0.62|47.54|||Regression, Logistic|||||47.54|0.62|0.127
92347346|NCT02696798|184597165|SUPERIORITY||Odds Ratio (OR)|4.22||||0.006|TWO_SIDED|95.0|1.5|11.86|||Regression, Logistic|||||11.86|1.50|0.006
92347347|NCT02696798|184597165|SUPERIORITY||Odds Ratio (OR)|4.52||||0.006|TWO_SIDED|95.0|1.55|13.18|||Regression, Logistic|||||13.18|1.55|0.006
92347348|NCT02696798|184597166|SUPERIORITY||LS Mean Difference (Final Values)|0.7689|STANDARD_ERROR_OF_MEAN|1.2863||0.55|TWO_SIDED|95.0|-1.7629|3.3007|||Mixed Models Analysis|||MCS||3.3007|-1.7629|0.550
92399952|NCT02913482|184691524|SUPERIORITY|Result compared to a performance criterion of 12% derived from natural history data. Statistical analysis was only performed for Month 12 data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
92347349|NCT02696798|184597166|SUPERIORITY||LS Mean Difference (Final Values)|0.9104|STANDARD_ERROR_OF_MEAN|1.3338||0.495|TWO_SIDED|95.0|-1.7151|3.536|||Mixed Models Analysis|||MCS||3.5360|-1.7151|0.495
92159208|NCT01677936|184205815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.0|||=|0.024||||||Compared to snacks, raisins reduced percent post-prandial glucose levels by 23%, which met the a priori threshold for statistical significance.|t-test, 2 sided|||||||=0.024
92347350|NCT02696798|184597166|SUPERIORITY||LS Mean Difference (Final Values)|5.2147|STANDARD_ERROR_OF_MEAN|1.1149|<|0.001|TWO_SIDED|95.0|3.0204|7.409|||Mixed Models Analysis|||PCS||7.4090|3.0204|<0.001
92347351|NCT02696798|184597166|SUPERIORITY||LS Mean Difference (Final Values)|4.7585|STANDARD_ERROR_OF_MEAN|1.1505|<|0.001|TWO_SIDED|95.0|2.494|7.023|||Mixed Models Analysis|||PCS||7.0230|2.4940|<0.001
92399953|NCT02913482|184691526|SUPERIORITY|Result compared to a performance criterion of 5% derived from natural history data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
92159209|NCT01677936|184205816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.7|||=|0.035||||||Compared with snacks, the 8.8 mmHg reduction with raisins met the a priori threshold for statistical significance.|t-test, 2 sided|||||||=0.035
92159210|NCT02790606|184205822|SUPERIORITY|||||||0.0021|||||||Exact binomial test|||"The primary safety endpoint is evaluated against a PG of 88%, which was derived from safety event rates of PTA in published literature.~Hypothesis: The safety rate in subjects treated with the COVERA™ Vascular Covered Stent (following PTA) at 30 days post-index procedure is greater than that of the PG of 88%. 109 treated subjects \[104 evaluable\] will give 99% power with one-sided type I error = 0.05."||||0.0021
92159211|NCT02790606|184205823|SUPERIORITY||||||<|0.0001||||||The p-value is compared to the PG (40%) and computed using the exact binomial test.|Exact binomial test|||"The primary effectiveness endpoint is evaluated against a PG of 40%, which was derived from clinical literature as well as other pivotal and post-market studies of stent grafts at the graft-vein anastomosis of AV access patients dialyzing with an AV graft. 89% estimated power for primary endpoint.~Hypothesis: The proportion of subjects treated with the COVERA™ Vascular Covered Stent (following PTA) with respect to TLPP through 6 months post-index procedure is greater than that of the PG of 40%."||||<0.0001
92159212|NCT01257503|184205885|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Regression, Linear|generalized estimating equations used to account for multiple doses in same participant||change in runny nose||||.86
92159213|NCT01257503|184205885|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||Regression, Linear|generalized estimating equations used to account for multiple doses in single participant||change in sneeze||||.89
92159214|NCT01257503|184205885|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Regression, Linear|generalized estimating equations used to account for multiple doses in single participant||change in cough||||.45
92159215|NCT01257503|184205885|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||Regression, Linear|generalized estimating equations used to account for multiple doses in single participant||change in congestion||||.82
92159216|NCT01257503|184205886|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Regression, Linear|Generalized estimating equations used to account for multiple doses in single participant.||change in irritability||||.61
92159217|NCT01257503|184205886|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Regression, Linear|Generalized estimating equations used to account for multiple doses in single participant.||change in lethargy||||.97
92159218|NCT01257503|184205886|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||Regression, Linear|Generalized estimating equations used to account for multiple doses in single participant.||change in fussiness||||.79
92159219|NCT01257503|184205886|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||Regression, Linear|Generalized estimating equations used to account for multiple doses in single participant.||change in appetite||||.81
92159220|NCT01257503|184205887|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||functional status day 1||||.16
92159221|NCT01257503|184205887|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||functional status day 2||||.70
92159222|NCT01257503|184205887|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||functional status day 3||||.77
92159223|NCT01257503|184205887|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||functional status at 7-10 day follow-up||||.41
92347352|NCT02696798|184597167|SUPERIORITY||LS Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.46||0.026|TWO_SIDED|95.0|-1.94|-0.13|||Mixed Models Analysis|||||-0.13|-1.94|0.026
92347353|NCT02696798|184597167|SUPERIORITY||LS Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.477||0.149|TWO_SIDED|95.0|-1.63|0.25|||Mixed Models Analysis|||||0.25|-1.63|0.149
92347354|NCT02696798|184597168|SUPERIORITY||LS Mean Difference (Final Values)|-1.95|STANDARD_ERROR_OF_MEAN|0.512|<|0.001|TWO_SIDED|95.0|-3.0|-0.9|||ANCOVA|||||-0.9|-3.0|<0.001
92347355|NCT02696798|184597168|SUPERIORITY||LS Mean Difference (Final Values)|-2.17|STANDARD_ERROR_OF_MEAN|0.534|<|0.001|TWO_SIDED|95.0|-3.2|-1.1|||ANCOVA|||||-1.1|-3.2|<0.001
92347356|NCT02696798|184597169|SUPERIORITY||LS Mean Difference (Final Values)|-6.29|STANDARD_ERROR_OF_MEAN|1.896||0.001|TWO_SIDED|95.0|-10.0|-2.5|||ANCOVA|||||-2.5|-10.0|0.001
92347357|NCT02696798|184597169|SUPERIORITY||LS Mean Difference (Final Values)|-7.27|STANDARD_ERROR_OF_MEAN|1.978|<|0.001|TWO_SIDED|95.0|-11.2|-3.4|||ANCOVA|||||-3.4|-11.2|<0.001
92347358|NCT02696798|184597170|SUPERIORITY||LS Mean Difference (Final Values)|-20.816|STANDARD_ERROR_OF_MEAN|3.7463|<|0.001|TWO_SIDED|95.0|-28.187|-13.444|||Mixed Models Analysis|||||-13.444|-28.187|<0.001
92347359|NCT02696798|184597170|SUPERIORITY||LS Mean Difference (Final Values)|-17.841|STANDARD_ERROR_OF_MEAN|3.9018|<|0.001|TWO_SIDED|95.0|-25.518|-10.163|||Mixed Models Analysis|||||-10.163|-25.518|<0.001
92347360|NCT02696798|184597171|SUPERIORITY||LS Mean Difference (Final Values)|-0.304|STANDARD_ERROR_OF_MEAN|0.1275||0.018|TWO_SIDED|95.0|-0.555|-0.053|||Mixed Models Analysis|||||-0.053|-0.555|0.018
92347361|NCT02696798|184597171|SUPERIORITY||LS Mean Difference (Final Values)|-0.172|STANDARD_ERROR_OF_MEAN|0.1319||0.194|TWO_SIDED|95.0|-0.431|0.088|||Mixed Models Analysis|||||0.088|-0.431|0.194
92399954|NCT02913482|184691527|SUPERIORITY|Result compared to a performance criterion of 5% derived from natural history data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
92399955|NCT02913482|184691528|SUPERIORITY|Result compared to a performance criterion of 5% derived from natural history data.||||||1|||||||One-sided Exact Binomial Test|||||||1.0000
92399956|NCT02913482|184691529|SUPERIORITY|Result compared to a performance criterion of 5% derived from natural history data.||||||1|||||||One-sided Exact Binomial Test|||||||1.0000
92159224|NCT01257503|184205888|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||health status day 1||||.10
92159225|NCT01257503|184205888|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||health status day 2||||.28
92159226|NCT01257503|184205888|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||health status day 3||||.26
92159227|NCT01257503|184205888|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||health status at follow-up||||.88
92159228|NCT01257503|184205889|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score day 1 assessment 1||||.02
92159229|NCT01257503|184205889|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score day 1 assessment 2||||.01
92159230|NCT01257503|184205889|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||day 2 assessment 1||||.25
92159231|NCT01257503|184205889|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score day 2 assessment 2||||.15
92159232|NCT01257503|184205889|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score day 3 assessment 1||||.88
92159233|NCT01257503|184205889|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score day 3 assessment 2||||.35
92159234|NCT01257503|184205889|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score at 7-10 day follow-up||||.36
92159235|NCT02359435|184205915|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.016|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92159236|NCT01492309|184205927|SUPERIORITY|||||||0.003|||||||Fisher Exact|||This analysis is based on a mixed model that can handle missing data.||||0.003
92159237|NCT01492309|184205928|SUPERIORITY|||||||0.425|||||||Regression, Logistic|||This analysis is based on a mixed model that can handle missing data.||||0.425
92159238|NCT03613129|184205931|NON_INFERIORITY|Comparing 28-day pre-treatment mean TDSS and 28-day post-treatment mean TDSS||||||0.011|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.011
92159239|NCT03613129|184205931|NON_INFERIORITY|Comparing 28-day pre-treatment mean TDSS and 28-day post-treatment mean TDSS||||||0.136|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.136
92159240|NCT03613129|184205931|NON_INFERIORITY|Comparing 28-day pre-treatment mean TDSS and 28-day post-treatment mean TDSS||||||0.009|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.009
92159241|NCT03613129|184205931|NON_INFERIORITY|Comparing 28-day pre-treatment mean TDSS and 28-day post-treatment mean TDSS||||||0.451|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.451
92159242|NCT03613129|184205931|NON_INFERIORITY|Comparing 28-day pre-treatment mean TDSS and 28-day post-treatment mean TDSS||||||0.24|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.240
92159243|NCT03613129|184205932|NON_INFERIORITY|Comparing pre-treatment PCS (at Visit 3) and post-treatment PCS (at Visit 6)||||||0.039|||||||t-test, 2 sided|||||||0.039
92159244|NCT03613129|184205932|NON_INFERIORITY|Comparing pre-treatment PCS (at Visit 3) and post-treatment PCS (at Visit 6)||||||0.191|||||||t-test, 2 sided|||||||0.191
92159245|NCT03613129|184205932|NON_INFERIORITY|Comparing pre-treatment PCS (at Visit 3) and post-treatment PCS (at Visit 6)||||||0.016|||||||t-test, 2 sided|||||||0.016
92159246|NCT03613129|184205932|NON_INFERIORITY|Comparing pre-treatment PCS (at Visit 3) and post-treatment PCS (at Visit 6)||||||0.053|||||||t-test, 2 sided|||||||0.053
92159247|NCT03613129|184205932|NON_INFERIORITY|Comparing pre-treatment PCS (at Visit 3) and post-treatment PCS (at Visit 6)||||||0.06|||||||t-test, 2 sided|||||||0.060
92159248|NCT03613129|184205933|NON_INFERIORITY|Comparing pre-treatment MCS (at Visit 3) and post-treatment MCS (at Visit 6)||||||0.587|||||||t-test, 2 sided|||||||0.587
92159249|NCT03613129|184205933|NON_INFERIORITY|Comparing pre-treatment MCS (at Visit 3) and post-treatment MCS (at Visit 6)||||||0.618|||||||t-test, 2 sided|||||||0.618
92159250|NCT03613129|184205933|NON_INFERIORITY|Comparing pre-treatment MCS (at Visit 3) and post-treatment MCS (at Visit 6)||||||0.634|||||||t-test, 2 sided|||||||0.634
92159251|NCT03613129|184205933|NON_INFERIORITY|Comparing pre-treatment MCS (at Visit 3) and post-treatment MCS (at Visit 6)||||||0.355|||||||t-test, 2 sided|||||||0.355
92159252|NCT03613129|184205933|NON_INFERIORITY|Comparing pre-treatment MCS (at Visit 3) and post-treatment MCS (at Visit 6)||||||0.417|||||||t-test, 2 sided|||||||0.417
92218591|NCT04272892|184338224|SUPERIORITY||Mean Difference (Final Values)|3.35|||<|0.021|TWO_SIDED|||||p values are calculated for original data (complete case) and each of the 5 imputed datasets. The p value range was 0.002 - 0.020. This is not multiple statistical analyses- it is just one with multiple imputations.|ANCOVA|Degrees of freedom for original data (complete case): 1,64. Degrees of freedom for imputed datasets: 1,80||||||<0.021
92218592|NCT04272892|184338225|SUPERIORITY||Mean Difference (Final Values)|2.86||||0.059|TWO_SIDED|95.0|-0.106|5.822|||ANCOVA|ANCOVA of score at 8 week follow up with baseline score as covariate, effect of group||||5.822|-.106|0.059
92218593|NCT04272892|184338226|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.596|TWO_SIDED|95.0|-3.5|6.0|||ANCOVA|ANCOVA of sleep fragmentation at post-intervention with baseline as covariate, effect of group||||6.0|-3.5|0.596
92218594|NCT04272892|184338227|SUPERIORITY||Mean Difference (Final Values)|4.5||||0.031|TWO_SIDED|95.0|0.431|8.612|||ANCOVA|ANCOVA of sleep fragmentation at 8 week follow up with baseline as covariate, effect of group||||8.612|.431|0.031
92218595|NCT04272892|184338228|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.885|TWO_SIDED|95.0|-7.8|9.1|||ANCOVA|ANCOVA of wake after sleep onset post-intervention with baseline as covariate, effect of group||||9.1|-7.8|0.885
92218596|NCT04272892|184338229|SUPERIORITY||Mean Difference (Final Values)|8.0||||0.077|TWO_SIDED|95.0|-1.0|17.0|||ANCOVA|ANCOVA of wake after sleep onset at 8 week follow up with baseline as covariate, effect of group||||17|-1|0.077
92218597|NCT04272892|184338230|SUPERIORITY||Mean Difference (Final Values)|10.0||||0.014|TWO_SIDED|95.0|2.0|18.0|||ANCOVA|ANCOVA of sleep onset latency (median of 7 nights) at end of intervention with baseline as covariate, effect of group||||18|2|0.014
92218598|NCT04272892|184338231|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.03|TWO_SIDED|95.0|0.18|3.5|||ANCOVA|ANCOVA of PHQ9 score post-intervention with baseline as covariate, effect of group||||3.5|.18|0.03
92218599|NCT04272892|184338232|SUPERIORITY||Mean Difference (Final Values)|2.29||||0.036|TWO_SIDED|95.0|0.149|4.44|||ANCOVA|ANCOVA of PHQ9 score at 8 week follow up with baseline as covariate, effect of group||||4.44|.149|0.036
92218600|NCT04272892|184338233|SUPERIORITY||Mean Difference (Final Values)|1.61||||0.054|TWO_SIDED|95.0|-0.03|3.25|||ANCOVA|ANCOVA of GAD7 post-intervention, with baseline as covariate, effect of group||||3.25|-0.03|0.054
92218601|NCT04272892|184338234|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.229|TWO_SIDED|95.0|-0.7|2.87|||ANCOVA|ANCOVA of GAD7 at 8 week follow up, with baseline as covariate, effect of group||||2.87|-.70|0.229
92218602|NCT04272892|184338235|SUPERIORITY||Mean Difference (Final Values)|-1.39||||0.502|TWO_SIDED|95.0|-5.51|2.73|||ANCOVA|ANCOVA of SIS index at post-intervention, with baseline as covariate, effect of group||||2.73|-5.51|0.502
92347362|NCT02696798|184597172|SUPERIORITY||LS Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|0.893||0.17|TWO_SIDED|95.0|-0.53|2.99|||Mixed Models Analysis|||||2.99|-0.53|0.170
92218603|NCT04272892|184338236|SUPERIORITY||Mean Difference (Final Values)|0.183||||0.924|TWO_SIDED|95.0|-3.63|4.0|||ANCOVA|ANCOVA of SIS index at 8 week follow up, with baseline as covariate, effect of group||||4.0|-3.63|0.924
92218604|NCT05318937|184338243|SUPERIORITY||Difference in LS Means|0.0|STANDARD_ERROR_OF_MEAN|2.07||0.9934|TWO_SIDED|95.0|-4.13|4.09||The p-value was obtained using a MMRM model which included treatment, visit, treatment-by-visit interaction as categorical covariates, and WAIS-IV at baseline as continuous covariates.|MMRM||Difference was calculated as SAGE-718 - placebo.|||4.09|-4.13|0.9934
92218605|NCT02046096|184338247|OTHER||12-month rate (%)|97.8|||<|0.0001|TWO_SIDED|95.0|95.6|99.1||The threshold for statistical significance was p = 0.025|One-tailed Exact binomial test||The 95% confidence interval was computed using Exact method.|Null Hypothesis: The rate of technical placement success and 12-month freedom from new symptomatic PE while a filter is indwelling, π, does not meet the performance goal (90%).||99.1|95.6|<0.0001
92218606|NCT02046096|184338248|OTHER||Cumulative probability|81.5|STANDARD_ERROR_OF_MEAN|4.5||0.369|TWO_SIDED|95.0|72.6|90.4||the threshold for statistical significance is 0.025.|Z-statistic|The hypothesis is assessed using a Z-statistic. The Z-statistic is given by Z = (Ŝ(t) - 0.8) / SE where SE is the Standard Error|The estimate of the variance of the Kaplan-Meier estimate used the methods described by Peto et al.|"the null hypotheses is: H0: S(t) ≤ 80%(Performance Goal) where,~* t is time through 12 months~* S(t) is the true rate of freedom from major adverse events at time t."||90.4|72.6|0.369
92218607|NCT02046096|184338249|OTHER||12-month freedom from MAE rate (%)|86.7||||0.001|TWO_SIDED|95.0|82.5|90.2||The threshold for statistical significance was p = 0.025|One-tailed exact binomial test|||Null Hypothesis: The 12-month freedom from MAE, π, does not meet the performance goal (80%).||90.2|82.5|0.001
92218608|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|2.7|||||TWO_SIDED|95.0|-5.0|14.2||||||Comparison between treatments for common serotype 4||14.2|-5.0|
92218609|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for common serotype 6B||9.5|-7.3|
92218610|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for common serotype 9V||9.5|-7.3|
92218611|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.8|9.5||||||Comparison between treatments for common serotype 14||9.5|-7.8|
92218612|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|2.7|||||TWO_SIDED|95.0|-5.0|14.2||||||Comparison between treatments for common serotype 18C||14.2|-5.0|
92218613|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for common serotype 19F||9.5|-7.3|
92218614|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for common serotype 23F||9.5|-7.3|
92347363|NCT02696798|184597172|SUPERIORITY||LS Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.916||0.8|TWO_SIDED|95.0|-1.57|2.04|||Mixed Models Analysis|||||2.04|-1.57|0.800
92347364|NCT02696798|184597173|SUPERIORITY||LS Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.521||0.547|TWO_SIDED|95.0|-1.34|0.71|||Mixed Models Analysis|||||0.71|-1.34|0.547
92347365|NCT02696798|184597173|SUPERIORITY||LS Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.538||0.064|TWO_SIDED|95.0|-2.06|0.06|||Mixed Models Analysis|||||0.06|-2.06|0.064
92347366|NCT02696798|184597174|SUPERIORITY||LS Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.58||0.861|TWO_SIDED|95.0|-1.0|1.3|||Mixed Models Analysis|||||1.3|-1.0|0.861
92218615|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|2.7|||||TWO_SIDED|95.0|-5.0|14.2||||||Comparison between treatments for additional serotype 1||14.2|-5.0|
92347367|NCT02696798|184597174|SUPERIORITY||LS Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.59||0.626|TWO_SIDED|95.0|-1.4|0.9|||Mixed Models Analysis|||||0.9|-1.4|0.626
92347368|NCT02696798|184597175|SUPERIORITY||LS Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.59||0.504|TWO_SIDED|95.0|-1.6|0.8|||Mixed Models Analysis|||||0.8|-1.6|0.504
92347369|NCT02696798|184597175|SUPERIORITY||LS Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.62||0.86|TWO_SIDED|95.0|-1.1|1.3|||Mixed Models Analysis|||||1.3|-1.1|0.860
92399957|NCT02913482|184691533|SUPERIORITY|Result compared to a performance criterion of 42% derived from natural history data. Statistical analysis was only performed for Month 12 data.|||||<|0.0001|||||||One-sided Z-test|||||||<0.0001
92399958|NCT02913482|184691534|SUPERIORITY|Result compared to a performance criterion of 60% derived from natural history data. Statistical analysis was only performed for Month 12 data.||||||0.0005|||||||One-sided Z-test|||||||0.0005
92159253|NCT02334306|184205934|SUPERIORITY||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|1.3||0.262|TWO_SIDED|90.0|-3.6|0.7|||ANCOVA||Adjusted mean difference for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval and p-value.|||0.7|-3.6|0.262
92159254|NCT02334306|184205935|SUPERIORITY||Mean Difference (Net)|0.93|STANDARD_ERROR_OF_MEAN|0.33||0.82|TWO_SIDED|90.0|0.52|1.64|||ANCOVA||Adjusted Geometric mean ratio for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval, SE (log), and p-value.|For plasma cell levels||1.64|0.52|0.820
92159255|NCT02334306|184205935|SUPERIORITY||Median Difference (Net)|0.65|STANDARD_ERROR_OF_MEAN|0.4||0.291|TWO_SIDED|90.0|0.33|1.28|||ANCOVA||Adjusted Geometric mean ratio for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval, SE (log), and p-value.|For TFH cells||1.28|0.33|0.291
92347370|NCT02696798|184597176|SUPERIORITY||LS Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|1.03||0.362|TWO_SIDED|95.0|-3.0|1.1|||Mixed Models Analysis|||||1.1|-3.0|0.362
92159256|NCT02334306|184205936|SUPERIORITY||Mean Difference (Net)|0.87|STANDARD_ERROR_OF_MEAN|0.17||0.44|TWO_SIDED|90.0|0.65|1.18|||ANCOVA||Adjusted Geometric mean ratio for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval, SE (log), and p-value.|For total plasma cells||1.18|0.65|0.440
92218616|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 3||9.5|-7.3|
92347371|NCT02696798|184597176|SUPERIORITY||LS Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|1.08||0.303|TWO_SIDED|95.0|-3.3|1.0|||Mixed Models Analysis|||||1.0|-3.3|0.303
92347372|NCT02696798|184597177|SUPERIORITY||LS Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.813|TWO_SIDED|95.0|-1.5|1.2|||Mixed Models Analysis|||||1.2|-1.5|0.813
92159257|NCT02334306|184205936|SUPERIORITY||Median Difference (Net)|0.43|STANDARD_ERROR_OF_MEAN|0.28||0.008|TWO_SIDED|90.0|0.26|0.7|||ANCOVA||Adjusted Geometric mean ratio for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval, SE (log), and p-value.|For CD4/ICOS TFH cells||0.70|0.26|0.008
92159258|NCT02334306|184205936|SUPERIORITY||Median Difference (Net)|1.01|STANDARD_ERROR_OF_MEAN|0.26||0.972|TWO_SIDED|90.0|0.64|1.59|||ANCOVA||Adjusted Geometric mean ratio for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval, SE (log), and p-value.|For PD-1/ICOS TFH cells||1.59|0.64|0.972
92159259|NCT02334306|184205938|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.7||0.574|TWO_SIDED|90.0|-0.8|1.6|||ANCOVA||Adjusted mean difference for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval and p-value.|||1.6|-0.8|0.574
92159260|NCT02334306|184205939|SUPERIORITY||Difference in percentages|25.0||||0.252|TWO_SIDED|90.0|-3.1|50.9|||Fisher Exact|||ESSDAI \[3\]||50.9|-3.1|0.252
92159261|NCT02334306|184205939|SUPERIORITY||Difference in precentages|25.0||||0.252|TWO_SIDED|90.0|-3.1|50.9|||Fisher Exact|||ESSDAI\[4\]||50.9|-3.1|0.252
92159262|NCT00711646|184205948|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.517||||0.048|TWO_SIDED|95.0|-1.029|-0.004|||ANCOVA|||The change in mean 11-point Numerical Rating Scale spasticity score was compared between treatment groups using analysis of covariance (ANCOVA). The model included treatment and centre as factors and baseline 11-point Numerical Rating Scale spasticity score as a covariate.||-0.004|-1.029|0.048
92218617|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 5||9.5|-7.3|
92218618|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 6A||9.5|-7.3|
92218619|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 7F||9.5|-7.3|
92347373|NCT02696798|184597177|SUPERIORITY||LS Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.71||0.41|TWO_SIDED|95.0|-2.0|0.8|||Mixed Models Analysis|||||0.8|-2.0|0.410
92347374|NCT02696798|184597179|SUPERIORITY||LS Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|-1.9|-0.6|||Mixed Models Analysis|||||-0.6|-1.9|<0.001
92347375|NCT02696798|184597179|SUPERIORITY||LS Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.34||0.005|TWO_SIDED|95.0|-1.6|-0.3|||Mixed Models Analysis|||||-0.3|-1.6|0.005
92347376|NCT02696798|184597180|SUPERIORITY||LS Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.68||0.088|TWO_SIDED|95.0|-2.5|0.2|||Mixed Models Analysis|||||0.2|-2.5|0.088
92347377|NCT02696798|184597180|SUPERIORITY||LS Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.7||0.366|TWO_SIDED|95.0|-2.0|0.7|||Mixed Models Analysis|||||0.7|-2.0|0.366
92347378|NCT02696798|184597181|SUPERIORITY||LS Mean Difference (Final Values)|-11.13|STANDARD_ERROR_OF_MEAN|5.323||0.038|TWO_SIDED|95.0|-21.65|-0.6|||ANCOVA|||Overall Work Impairment Score||-0.60|-21.65|0.038
92399959|NCT02913482|184691535|SUPERIORITY|Result compared to a performance criterion of 89% derived from natural history data. Statistical analysis was only performed for Month 12 data.||||||0.2595|||||||One-sided Z-test|||||||0.2595
92399960|NCT01983228|184691578|SUPERIORITY||Odds Ratio (OR)|1.61||||0.09|TWO_SIDED|95.0|0.94|2.77||Multiple logistic regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Logistic|||measured change as a responder yes/no (30% or greater improvement from baseline).||2.77|0.94|0.09
92218620|NCT00853749|184338275|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 19A||9.5|-7.3|
92347379|NCT02696798|184597181|SUPERIORITY||LS Mean Difference (Final Values)|-13.66|STANDARD_ERROR_OF_MEAN|5.341||0.012|TWO_SIDED|95.0|-24.23|-3.1|||ANCOVA|||Overall Work Impairment Score||-3.10|-24.23|0.012
92347380|NCT02696798|184597181|SUPERIORITY||LS Mean Difference (Final Values)|-6.3|STANDARD_ERROR_OF_MEAN|3.5||0.071|TWO_SIDED|95.0|-13.2|0.5|||ANCOVA|||Percentage of Activity Impairment||0.5|-13.2|0.071
92218621|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.8|||||TWO_SIDED|95.0|-8.6|12.7||||||Comparison between treatments for common serotype 4||12.7|-8.6|
92218622|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.5|9.7||||||Comparison between treatments for common serotype 6B||9.7|-7.5|
92218623|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.5|9.7||||||Comparison between treatments for common serotype 9V||9.7|-7.5|
92218624|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.5|9.7||||||Comparison between treatments for common serotype 14||9.7|-7.5|
92218625|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.4|10.0||||||Comparison between treatments for common serotype 18C||10.0|-7.4|
92218626|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.5|10.0||||||Comparison between treatments for common serotype 19F||10.0|-7.5|
92218627|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|-2.0|||||TWO_SIDED|95.0|-10.8|8.1||||||Comparison between treatments for common serotype 23F||8.1|-10.8|
92218628|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|2.7|||||TWO_SIDED|95.0|-5.0|14.2||||||Comparison between treatments for additional serotype 1||14.2|-5.0|
92218629|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|-2.0|||||TWO_SIDED|95.0|-11.1|7.9||||||Comparison between treatments for additional serotype 3||7.9|-11.1|
92218630|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.7|||||TWO_SIDED|95.0|-8.5|12.2||||||Comparison between treatments for additional serotype 5||12.2|-8.5|
92218631|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 6A||9.5|-7.3|
92347381|NCT02696798|184597181|SUPERIORITY||LS Mean Difference (Final Values)|-8.3|STANDARD_ERROR_OF_MEAN|3.65||0.024|TWO_SIDED|95.0|-15.5|-1.1|||ANCOVA|||Percentage of Activity Impairment||-1.1|-15.5|0.024
92347382|NCT04880850|184597185|NON_INFERIORITY|Non-inferiority of insulin icodec was considered confirmed if the upper limit of the two-sided 95% confidence interval (CI) for mean treatment difference (insulin icodec minus insulin glargine) was strictly below 0.3%.|Treatment difference|0.02|||<|0.0001|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||The response and change from baseline in response after 26 weeks were analysed using an analysis of covariance (ANCOVA) model with treatment, region and personal continuous glucose monitoring (CGM) device use as fixed factors, and baseline response as covariate.||0.15|-0.11|<0.0001
92347383|NCT04091451|184597195|NON_INFERIORITY|The non-inferiority was to be demonstrated if the upper limit (UL) of the 95% confidence interval (CI) of the ratio of the incidence of HZ recurrence between HZ/su group and Placebo group was below (\<) 5.|Incidence Rate Ratio (IRR)|0.0|||||TWO_SIDED|95.0|0.0|0.46|||Poisson||IRR = incidence rate of HZ recurrence in HZ/su group divided by the incidence rate of HZ recurrence in Placebo group. Poisson method was used to adjust for differences in follow-up time across individuals.|To demonstrate the non-inferiority of HZ/su vaccine compared to placebo in terms of incidence of HZ recurrence from 30 days post-second vaccination (Month 3) until study end (duration of approximately 2 years to 4 years and 5 months).||0.46|0.00|
92218632|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|-2.0|||||TWO_SIDED|95.0|-11.3|7.7||||||Comparison between treatments for additional serotype 7F||7.7|-11.3|
92218633|NCT00853749|184338276|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 19A||9.5|-7.3|
92218634|NCT00853749|184338277|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.3|||||TWO_SIDED|95.0|0.22|0.42|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 1: Ratio of geometric mean avidity (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.42|0.22|
92218635|NCT00853749|184338277|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.32|||||TWO_SIDED|95.0|0.23|0.44|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures ((PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 5: Ratio of geometric mean avidity (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.44|0.23|
92218636|NCT00853749|184338277|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.44|||||TWO_SIDED|95.0|0.29|0.67|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 6B: Ratio of geometric mean avidity (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.67|0.29|
92218637|NCT00853749|184338277|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.88|||||TWO_SIDED|95.0|0.61|1.27|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 19F: Ratio of geometric mean avidity (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.27|0.61|
92218638|NCT00853749|184338277|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.47|||||TWO_SIDED|95.0|0.34|0.65|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 23F: Ratio of geometric mean avidity (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.65|0.34|
92218639|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.6|||||TWO_SIDED|95.0|0.35|1.12|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 4: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.12|0.35|
92399961|NCT01983228|184691579|SUPERIORITY||Median Difference (Final Values)|-0.2||||0.34|TWO_SIDED|95.0|-0.62|0.21||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.21|-0.62|0.34
92347384|NCT03907488|184597209|SUPERIORITY||||||<|0.005||||||One sided P-value|Log Rank|||The primary analysis of PFS used a stratified log rank test statistic and is reported as two-sided test. Stratified Cox regression was used to estimate treatment hazard ratios for treatment effect. 95% two-sided intervals are reported. The Kaplan-Meier method was used to estimate PFS curves.||||<0.005
92347385|NCT03074500|184597215|SUPERIORITY|||||||0.643|||||||Kruskal-Wallis|||Comparison of baseline values||||0.643
92347386|NCT03074500|184597215|SUPERIORITY|||||||0.018|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.018
92347387|NCT03074500|184597215|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||Comparison of 4 week After Treatment Values||||0.027
92159263|NCT00711646|184205949|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.11||||0.218|TWO_SIDED|95.0|-0.29|0.07|||ANCOVA|||The change in mean Ashworth Scale score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Ashworth Scale score as a covariate.||0.07|-0.29|0.218
92159264|NCT00711646|184205950|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.17||||0.141|TWO_SIDED|95.0|-0.39|0.06|||ANCOVA|||The change in mean spasm frequency score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline spasm frequency score as a covariate.||0.06|-0.39|0.141
92159265|NCT00711646|184205951|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|1.3||||0.766|TWO_SIDED|95.0|-7.47|10.07|||ANCOVA|||The change in mean Motricity Index score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Motricity Index score as a covariate.||10.07|-7.47|0.766
92159266|NCT00711646|184205952|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|8.46||||0.349|TWO_SIDED|95.0|-6.74|23.66|||Fisher Exact|||The proportion of subjects who considered their condition 'Very Much Improved', 'Much Improved' or 'Minimally Improved' was compared between treatment groups using Fisher's Exact Test.||23.66|-6.74|0.349
92159267|NCT00711646|184205954|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|3.86||||0.054|TWO_SIDED|95.0|-0.06|7.78|||ANCOVA|||The change in mean Motricity Index score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Motricity Index score as a covariate.||7.78|-0.06|0.054
92159268|NCT01360840|184205966|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89|||||TWO_SIDED|95.0|0.57|1.39||||||||1.39|0.57|
92159269|NCT01360840|184205966|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.81|||||TWO_SIDED|95.0|0.52|1.26||||||||1.26|0.52|
92347388|NCT03074500|184597215|SUPERIORITY|||||||0.677||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of baseline values||||0.677
92159270|NCT01360840|184205967|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.1|||||TWO_SIDED|95.0|0.52|2.31||||||||2.31|0.52|
92159271|NCT01360840|184205967|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.01|||||TWO_SIDED|95.0|0.47|2.15||||||||2.15|0.47|
92159272|NCT01360840|184205968|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.91|||||TWO_SIDED|95.0|0.58|1.44||||||||1.44|0.58|
92159273|NCT01360840|184205968|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.81|||||TWO_SIDED|95.0|0.52|1.27||||||||1.27|0.52|
92159274|NCT00920686|184205983|SUPERIORITY_OR_OTHER|||||||0.6407|||||||Log Rank|||||||0.6407
92159275|NCT00335153|184206054|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159276|NCT00335153|184206055|SUPERIORITY_OR_OTHER|||||||0.023|||||||t-test, 2 sided|||||||0.023
92159277|NCT00335153|184206056|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159278|NCT00335153|184206057|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92347389|NCT03074500|184597215|SUPERIORITY|||||||0.677||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of baseline values||||0.677
92159279|NCT00335153|184206058|SUPERIORITY_OR_OTHER|||||||0.974|||||||t-test, 2 sided|||||||0.974
92159280|NCT00335153|184206059|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159281|NCT00335153|184206060|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159282|NCT00335153|184206061|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159283|NCT00335153|184206062|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159284|NCT00335153|184206063|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159285|NCT00335153|184206064|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159286|NCT00335153|184206065|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159287|NCT00335153|184206066|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159288|NCT00335153|184206067|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159289|NCT00335153|184206068|SUPERIORITY_OR_OTHER|||||||0.757|||||||t-test, 2 sided|||||||0.757
92159290|NCT00335153|184206069|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159291|NCT00335153|184206070|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159292|NCT00335153|184206071|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159293|NCT00335153|184206072|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159294|NCT00335153|184206073|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159295|NCT00335153|184206074|SUPERIORITY_OR_OTHER|||||||0.824|||||||t-test, 2 sided|||||||0.824
92347390|NCT03074500|184597215|SUPERIORITY|||||||0.326||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of baseline values||||0.326
92347391|NCT03074500|184597215|SUPERIORITY|||||||0.019||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.019
92347392|NCT03074500|184597215|SUPERIORITY|||||||0.014||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.014
92347393|NCT03074500|184597215|SUPERIORITY|||||||0.427||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.427
92347394|NCT03074500|184597215|SUPERIORITY|||||||0.023||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.023
92347395|NCT03074500|184597215|SUPERIORITY|||||||0.021||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.021
92347396|NCT03074500|184597215|SUPERIORITY|||||||0.545||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Value||||0.545
92347397|NCT03074500|184597215|SUPERIORITY|||||||0.004|||||||Friedman's two-way analysis of variance|||||||0.004
92347398|NCT03074500|184597215|SUPERIORITY|||||||0.67|||||||Friedman's two-way analysis of variance|||||||0.670
92347399|NCT03074500|184597215|SUPERIORITY|||||||0.192|||||||Friedman's two-way analysis of variance|||||||0.192
92347400|NCT03074500|184597216|SUPERIORITY|||||||0.633|||||||Kruskal-Wallis|||Comparison of Before Treatment Values||||0.633
92347401|NCT03074500|184597216|SUPERIORITY|||||||0.282|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.282
92347402|NCT03074500|184597216|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.015
92347403|NCT03074500|184597216|SUPERIORITY|||||||0.677||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Before Treatment Values||||0.677
92347404|NCT03074500|184597216|SUPERIORITY|||||||0.344||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Before Treatment Values||||0.344
92347405|NCT03074500|184597216|SUPERIORITY|||||||0.596||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Before Treatment Values||||0.596
92399962|NCT01983228|184691580|SUPERIORITY||Mean Difference (Final Values)|-0.52||||0.38|TWO_SIDED|95.0|-1.69|0.65||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.65|-1.69|0.38
92347406|NCT03074500|184597216|SUPERIORITY|||||||0.161||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.161
92347407|NCT03074500|184597216|SUPERIORITY|||||||0.257||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.257
92347408|NCT03074500|184597216|SUPERIORITY|||||||0.449||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.449
92347409|NCT03074500|184597216|SUPERIORITY|||||||0.013||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.013
92347410|NCT03074500|184597216|SUPERIORITY|||||||0.019||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.019
92347411|NCT03074500|184597216|SUPERIORITY|||||||0.325||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.325
92347412|NCT03074500|184597216|SUPERIORITY|||||||0.003|||||||Friedman's two-way analysis of variance|||||||0.003
92347413|NCT03074500|184597216|SUPERIORITY|||||||0.323|||||||Friedman's two-way analysis of variance|||||||0.323
92347414|NCT03074500|184597216|SUPERIORITY|||||||0.641|||||||Friedman's two-way analysis of variance|||||||0.641
92347415|NCT03074500|184597217|SUPERIORITY|||||||0.715|||||||Kruskal-Wallis|||Comparison of Baseline Values||||0.715
92347416|NCT03074500|184597217|SUPERIORITY|||||||0.227|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.227
92347417|NCT03074500|184597217|SUPERIORITY|||||||0.012|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.012
92347418|NCT03074500|184597217|SUPERIORITY|||||||0.907||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.907
92347419|NCT03074500|184597217|SUPERIORITY|||||||0.482||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.482
92347420|NCT03074500|184597217|SUPERIORITY|||||||0.485||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.485
92347421|NCT03074500|184597217|SUPERIORITY|||||||0.129||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.129
92347422|NCT03074500|184597217|SUPERIORITY|||||||0.12||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.12
92347423|NCT03074500|184597217|SUPERIORITY|||||||0.935||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.935
92347424|NCT03074500|184597217|SUPERIORITY|||||||0.002||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.002
92347425|NCT03074500|184597217|SUPERIORITY|||||||0.036||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.036
92347426|NCT03074500|184597217|SUPERIORITY|||||||0.056||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.056
92347427|NCT03074500|184597217|SUPERIORITY|||||||0.016|||||||Friedman's two-way analysis of variance|||||||0.016
92347428|NCT03074500|184597217|SUPERIORITY|||||||0.618|||||||Friedman's two-way analysis of variance|||||||0.618
92347429|NCT03074500|184597217|SUPERIORITY|||||||0.48|||||||Friedman's two-way analysis of variance|||||||0.48
92347430|NCT03074500|184597217|SUPERIORITY|||||||0.034|||||||Wilcoxon (Mann-Whitney)|||Comparison of immediate effect between groups||||0.034
92347431|NCT03074500|184597217|SUPERIORITY|||||||0.041|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.041
92347432|NCT03074500|184597217|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||1
92347433|NCT03074500|184597218|SUPERIORITY|||||||0.103|||||||Kruskal-Wallis|||Comparison of Baseline Values||||0.103
92347434|NCT03074500|184597218|SUPERIORITY|||||||0.002|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.002
92347435|NCT03074500|184597218|SUPERIORITY|||||||0.008|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.008
92347436|NCT03074500|184597218|SUPERIORITY|||||||0.76||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.76
92399963|NCT01983228|184691581|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.28|TWO_SIDED|95.0|-1.68|0.49||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.49|-1.68|0.28
92399964|NCT01983228|184691582|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.05|TWO_SIDED|95.0|0.0|0.77||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.77|-0.00|0.05
92399965|NCT01983228|184691583|SUPERIORITY|Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Mean Difference (Final Values)|193.9||||0.56|TWO_SIDED|95.0|-454.93|842.73||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||842.73|-454.93|0.56
92399966|NCT01983228|184691584|SUPERIORITY||Odds Ratio (OR)|1.49||||0.16|TWO_SIDED|95.0|0.85|2.62||Multiple logistic regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Logistic|||measured change as a responder yes/no (30% or greater improvement from baseline).||2.62|0.85|0.16
92399967|NCT01983228|184691585|SUPERIORITY||Mean Difference (Final Values)|-0.61||||0.002|TWO_SIDED|95.0|-0.99|-0.23||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||-0.23|-0.99|0.002
92399968|NCT01983228|184691586|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.54|TWO_SIDED|95.0|-0.79|1.51||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||1.51|-0.79|0.54
92399969|NCT01983228|184691587|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.41|TWO_SIDED|95.0|-0.66|1.62||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||1.62|-0.66|0.41
92347437|NCT03074500|184597218|SUPERIORITY|||||||1||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||1
92347438|NCT03074500|184597218|SUPERIORITY|||||||0.056||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.056
92399970|NCT01983228|184691588|SUPERIORITY||Mean Difference (Final Values)|-0.72|||<|0.0001|TWO_SIDED|95.0|-1.07|-0.38||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||-0.38|-1.07|<0.0001
92399971|NCT01983228|184691589|SUPERIORITY||Mean Difference (Final Values)|540.78||||0.06|TWO_SIDED|95.0|-28.77|1110.33||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||1110.33|-28.77|0.06
92159296|NCT03194776|184206101|SUPERIORITY||Mean Difference (Final Values)|-17.74|||=|0.2612|TWO_SIDED|80.0|-38.03|2.55||P-value of \<= 0.2 was considered significant.|two-sided test|||Statistical analysis was done by mixed effect model repeat measurement (MMRM) model analysis.||2.55|-38.03|= 0.2612
92399972|NCT01983228|184691590|SUPERIORITY||Mean Difference (Final Values)|2.93||||0.05|TWO_SIDED|95.0|-0.01|5.86||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||5.86|-0.01|0.05
92399973|NCT01983228|184691591|SUPERIORITY||Mean Difference (Final Values)|0.76||||0.01|TWO_SIDED|95.0|0.15|1.36||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||1.36|0.15|0.01
92159297|NCT00764868|184206111|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|t-test of LDX at baseline and 52 weeks||||||<0.001
92159298|NCT00764868|184206113|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|t-test of LDX at baseline and 52 weeks||||||<0.001
92159299|NCT04438785|184206133|SUPERIORITY||Mean Difference (Final Values)|2.58|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Evaluate if the Apnea Hypopnea Index from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||<0.001
92347439|NCT03074500|184597218|SUPERIORITY|||||||0.002||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.002
92347440|NCT03074500|184597218|SUPERIORITY|||||||0.12||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.12
92347441|NCT03074500|184597218|SUPERIORITY|||||||0.117||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.117
92399974|NCT01983228|184691592|SUPERIORITY||Mean Difference (Final Values)|-1.07||||0.15|TWO_SIDED|95.0|-2.53|0.39||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.39|-2.53|0.15
92399975|NCT01983228|184691593|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.56|TWO_SIDED|95.0|-0.8|1.47||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||1.47|-0.80|0.56
92399976|NCT01983228|184691594|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.38|TWO_SIDED|95.0|-0.17|0.46||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.46|-0.17|0.38
92399977|NCT01983228|184691595|SUPERIORITY||Odds Ratio (OR)|1.2||||0.56|TWO_SIDED|95.0|0.66|2.19||Logistic regression modeling the odds of yes to using opioids for pain treatment adjusting for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Logistic|||||2.19|0.66|0.56
92399978|NCT01983228|184691596|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.21|TWO_SIDED|95.0|-0.18|0.84||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.84|-0.18|0.21
92399979|NCT01650558|184691610|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.27|||<=|0.05|TWO_SIDED|95.0|0.89|1.82||P-Value is not adjusted for multiple comparisons.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||1.82|0.89|<=0.05
92218640|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.68|1.38|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 6B: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.38|0.68|
92218641|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.51|1.81|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 9V: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.81|0.51|
92218642|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.67|1.48|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 14: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.48|0.67|
92218643|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.6|||||TWO_SIDED|95.0|0.33|0.98|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures(PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 18C: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.98|0.33|
92218644|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|1.1|||||TWO_SIDED|95.0|0.72|1.56|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 19F: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.56|0.72|
92218645|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.6|||||TWO_SIDED|95.0|0.39|0.99|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 23F: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.99|0.39|
92218646|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.2|||||TWO_SIDED|95.0|0.12|0.32|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 1: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.32|0.12|
92218647|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.56|1.18|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 3: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.18|0.56|
92218648|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.4|||||TWO_SIDED|95.0|0.21|0.63|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 5: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.63|0.21|
92347442|NCT03074500|184597218|SUPERIORITY|||||||0.006||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.006
92347443|NCT03074500|184597218|SUPERIORITY|||||||0.013||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.013
92218649|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|1.4|||||TWO_SIDED|95.0|0.88|2.25|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 6A: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||2.25|0.88|
92347444|NCT03074500|184597218|SUPERIORITY|||||||0.487||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.487
92347445|NCT03074500|184597218|SUPERIORITY|||||||0.002|||||||Friedman's two-way analysis of variance|||||||0.002
92347446|NCT03074500|184597218|SUPERIORITY|||||||0.102|||||||Friedman's two-way analysis of variance|||||||0.102
92399980|NCT01650558|184691610|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.28|||<=|0.05|TWO_SIDED|95.0|0.89|1.83||P-Value is not adjusted for multiple comparisons.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||1.83|0.89|<=0.05
92218650|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.7|||||TWO_SIDED|95.0|0.48|1.14|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 7F: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.14|0.48|
92218651|NCT00853749|184338278|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.54|1.2|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 19A: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.20|0.54|
92347447|NCT03074500|184597218|SUPERIORITY|||||||0.165|||||||Friedman's two-way analysis of variance|||||||0.165
92347448|NCT03074500|184597218|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||Comparison of immediate effect between groups||||0.007
92347449|NCT03074500|184597218|SUPERIORITY|||||||0.028|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.028
92347450|NCT03074500|184597218|SUPERIORITY|||||||0.83|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.83
92347451|NCT03074500|184597219|SUPERIORITY|||||||0.837|||||||Kruskal-Wallis|||Comparison of Baseline Values||||0.837
92347452|NCT03074500|184597219|SUPERIORITY|||||||0.215|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.215
92347453|NCT03074500|184597219|SUPERIORITY|||||||0.078|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.078
92347454|NCT03074500|184597219|SUPERIORITY|||||||0.699||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.699
92347455|NCT03074500|184597219|SUPERIORITY|||||||0.846||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.846
92347456|NCT03074500|184597219|SUPERIORITY|||||||0.56||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.56
92347457|NCT03074500|184597219|SUPERIORITY|||||||0.087||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.087
92159300|NCT04438785|184206134|SUPERIORITY||Median Difference (Final Values)|-0.971||||0.003|TWO_SIDED||||||t-test, 2 sided|||Evaluate if the O2 desaturation index (ODI) from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.003
92159301|NCT04438785|184206135|SUPERIORITY||Mean Difference (Net)|-0.364||||0.001|ONE_SIDED||||||t-test, 2 sided|||Evaluate if the IOPI tongue score from baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.001
92159302|NCT04438785|184206136|SUPERIORITY||Median Difference (Final Values)|-1.131||||0.001|ONE_SIDED|95.0|||||t-test, 2 sided|||Evaluate if the IOPI lip score from the baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.001
92159303|NCT04438785|184206137|SUPERIORITY||Mean Difference (Final Values)|0.98||||0.92|ONE_SIDED|95.0|||||t-test, 2 sided|||Evaluate if the neck circumference from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.92
92159304|NCT04438785|184206138|SUPERIORITY||Mean Difference (Final Values)|0.98||||0.92|ONE_SIDED||||||t-test, 2 sided|||Evaluate if the waist circumference from baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.92
92159305|NCT04438785|184206139|SUPERIORITY||Mean Difference (Final Values)|0.97||||0.98|ONE_SIDED|95.0|||||t-test, 2 sided|||Evaluate if the BMI from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.98
92159306|NCT04438785|184206140|SUPERIORITY||Median Difference (Final Values)|-1.23||||0.001|ONE_SIDED|95.0|||||t-test, 2 sided|||Evaluate if the Epworth Sleepiness Scale from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.001
92159307|NCT04438785|184206141|SUPERIORITY||Mean Difference (Net)|0.98||||0.22|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Evaluate if the Pittsburgh sleep quality index from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.22
92159308|NCT00689104|184206152|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41||||0.003|TWO_SIDED|95.0|-0.72|-0.09||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.09|-0.72|0.003
92159309|NCT00689104|184206152|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29||||0.01|TWO_SIDED|95.0|-0.61|0.03||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||0.03|-0.61|0.010
92159310|NCT00689104|184206152|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.11|TWO_SIDED|95.0|-0.42|0.21||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate||Since the comparison between tolterodine and placebo was a secondary analysis, no adjustment for multiplicity was necessary.||0.21|-0.42|0.11
92218652|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.37|||||TWO_SIDED|95.0|0.25|0.55|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 4: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.55|0.25|
92218653|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.71|||||TWO_SIDED|95.0|0.44|1.15|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 6B: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.15|0.44|
92347458|NCT03074500|184597219|SUPERIORITY|||||||0.183||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.183
92347459|NCT03074500|184597219|SUPERIORITY|||||||0.719||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.719
92347460|NCT03074500|184597219|SUPERIORITY|||||||0.023||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.023
92347461|NCT03074500|184597219|SUPERIORITY|||||||0.196||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.196
92218654|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.58|||||TWO_SIDED|95.0|0.45|0.75|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 9V: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.75|0.45|
92347462|NCT03074500|184597219|SUPERIORITY|||||||0.318||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.318
92347463|NCT03074500|184597219|SUPERIORITY|||||||0.001|||||||Friedman's two-way analysis of variance|||||||0.001
92347464|NCT03074500|184597219|SUPERIORITY|||||||0.483|||||||Friedman's two-way analysis of variance|||||||0.483
92347465|NCT03074500|184597219|SUPERIORITY|||||||0.004|||||||Friedman's two-way analysis of variance|||||||0.004
92347466|NCT03074500|184597220|SUPERIORITY|||||||0.897|||||||Kruskal-Wallis|||Comparison of Baseline Values||||0.897
92347467|NCT03074500|184597220|SUPERIORITY|||||||0.325|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.325
92347468|NCT03074500|184597220|SUPERIORITY|||||||0.172|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.172
92347469|NCT03074500|184597220|SUPERIORITY|||||||0.622||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.622
92347470|NCT03074500|184597220|SUPERIORITY|||||||0.909||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.909
92347471|NCT03074500|184597220|SUPERIORITY|||||||0.79||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.79
92347472|NCT03074500|184597220|SUPERIORITY|||||||0.24||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.24
92347473|NCT03074500|184597220|SUPERIORITY|||||||0.161||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.161
92347474|NCT03074500|184597220|SUPERIORITY|||||||0.909||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.909
92347475|NCT03074500|184597220|SUPERIORITY|||||||0.255||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.255
92347476|NCT03074500|184597220|SUPERIORITY|||||||0.058||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.058
92347477|NCT03074500|184597220|SUPERIORITY|||||||0.569||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.569
92347478|NCT03074500|184597220|SUPERIORITY|||||||0.007|||||||Friedman's two-way analysis of variance|||||||0.007
92347479|NCT03074500|184597220|SUPERIORITY|||||||0.614|||||||Friedman's two-way analysis of variance|||||||0.614
92347480|NCT03074500|184597220|SUPERIORITY|||||||0.072|||||||Friedman's two-way analysis of variance|||||||0.072
92347481|NCT03074500|184597220|SUPERIORITY|||||||0.447|||||||Wilcoxon (Mann-Whitney)|||Comparison of immediate effect between groups||||0.447
92347482|NCT03074500|184597220|SUPERIORITY|||||||0.084|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.084
92347483|NCT03074500|184597220|SUPERIORITY|||||||0.235|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.235
92347484|NCT03074500|184597221|SUPERIORITY|||||||0.958|||||||Kruskal-Wallis|||Comparison of Baseline Values||||0.958
92347485|NCT03074500|184597221|SUPERIORITY|||||||0.597|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.597
92347486|NCT03074500|184597221|SUPERIORITY|||||||0.518|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.518
92347487|NCT03074500|184597221|SUPERIORITY|||||||0.88||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.88
92347488|NCT03074500|184597221|SUPERIORITY|||||||0.733||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.733
92347489|NCT03074500|184597221|SUPERIORITY|||||||1||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||1
92347490|NCT03074500|184597221|SUPERIORITY|||||||0.404||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.404
92347491|NCT03074500|184597221|SUPERIORITY|||||||0.97||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.97
92347492|NCT03074500|184597221|SUPERIORITY|||||||0.362||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.362
92347493|NCT03074500|184597221|SUPERIORITY|||||||0.271||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.271
92347494|NCT03074500|184597221|SUPERIORITY|||||||0.519||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.519
92347495|NCT03074500|184597221|SUPERIORITY|||||||0.569||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.569
92347496|NCT03074500|184597221|SUPERIORITY|||||||0.004|||||||Friedman's two-way analysis of variance|||||||0.004
92347497|NCT03074500|184597221|SUPERIORITY|||||||0.973|||||||Friedman's two-way analysis of variance|||||||0.973
92347498|NCT03074500|184597221|SUPERIORITY|||||||0.886|||||||Friedman's two-way analysis of variance|||||||0.886
92347499|NCT03074500|184597221|SUPERIORITY|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Comparison of immediate effect between groups||||0.82
92347500|NCT03074500|184597221|SUPERIORITY|||||||0.017|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.017
92347501|NCT03074500|184597221|SUPERIORITY|||||||0.734|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.734
92369382|NCT02993822|184643595|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.682|TWO_SIDED|95.0|-9.8|6.4|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||6.4|-9.8|0.682
92218655|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.77|||||TWO_SIDED|95.0|0.48|1.24|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 14: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.24|0.48|
92218656|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.57|||||TWO_SIDED|95.0|0.38|0.85|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 18C: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.85|0.38|
92218657|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.84|||||TWO_SIDED|95.0|0.56|1.27|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 19F: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.27|0.56|
92347502|NCT06023563|184597226|OTHER|The required sample size for medium effect size (f = 0.25) and power of 0.80 was calculated to be 6 participants in each group (n =12) (G\*power 3.1.9.7 software). Data were analyzed using IBM SPSS statistical package (version 29.0.1.0).|||||<|0.05|||||||Friedman's test|||A virtual reality active video gaming intervention will be more effective than traditional physical therapy based balance exercises, both based on motor learning principles, in improving static and dynamic balance in youth and young adults with ASD and these improvements will be retained at 4 weeks after the intervention.||||< 0.05
92218658|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.64|||||TWO_SIDED|95.0|0.44|0.95|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 23F: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.95|0.44|
92218659|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.27|||||TWO_SIDED|95.0|0.18|0.4|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 1: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.40|0.18|
92218660|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|1.14|||||TWO_SIDED|95.0|0.76|1.72|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 3: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.72|0.76|
92218661|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.36|||||TWO_SIDED|95.0|0.25|0.51|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 5: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.51|0.25|
92218662|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.79|||||TWO_SIDED|95.0|0.55|1.14|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 6A: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.14|0.55|
92218663|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.89|||||TWO_SIDED|95.0|0.61|1.28|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 7F: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.28|0.61|
92347503|NCT06023563|184597227|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
92347504|NCT06023563|184597228|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
92347505|NCT06023563|184597229|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
92218664|NCT00853749|184338279|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.86|||||TWO_SIDED|95.0|0.6|1.23|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 19A: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.23|0.60|
92218665|NCT00853749|184338280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.253|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for any tenderness||||0.253
92347506|NCT06023563|184597230|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
92347507|NCT06023563|184597231|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
92347508|NCT06023563|184597232|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
92347509|NCT06023563|184597233|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
92347510|NCT01928849|184597250|OTHER||Odds Ratio (OR)|0.77||||0.53|TWO_SIDED|95.0|0.34|1.74|||Regression, Logistic|Univariable Logistic regression||||1.74|0.34|0.53
92347511|NCT01928849|184597251|OTHER|||||||0.95|||||||Chi-squared|||Comparison of rate of residual limb pain between treatment groups||||0.95
92347512|NCT01928849|184597251|OTHER|||||||0.74|||||||Chi-squared|||Comparison of rate of Phantom limb pain between treatment groups||||0.74
92218666|NCT00853749|184338280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.38|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for significant tenderness||||0.380
92218667|NCT00853749|184338280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.135|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for any redness||||0.135
92218668|NCT00853749|184338280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for mild redness||||0.520
92218669|NCT00853749|184338280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.283|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for moderate redness||||0.283
92218670|NCT00853749|184338280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.225|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for severe redness||||0.225
92218671|NCT00853749|184338280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.202|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for any swelling||||0.202
92347513|NCT01928849|184597252|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Comparison of opioid consumption postoperative hours 0-24||||0.27
92347514|NCT01928849|184597252|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Comparison of opioid consumption postoperative hours 24-48||||0.27
92347515|NCT01928849|184597253|OTHER|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||Comparison of BPI average pain score||||0.59
92347516|NCT01928849|184597253|OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Comparison of BPI Interference question sum||||0.16
92347517|NCT01928849|184597254|OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.35
92347518|NCT01928849|184597255|OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||Comparison of DVPRS numeric pain score||||0.42
92347519|NCT01928849|184597255|OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Comparison of DVPRS supplemental question sum||||0.19
92218672|NCT00853749|184338280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.294|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for mild swelling||||0.294
92218673|NCT00853749|184338280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.175|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for moderate swelling||||0.175
92218674|NCT00853749|184338280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.314|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for severe swelling||||0.314
92399981|NCT01650558|184691611|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.38|||<=|0.05|TWO_SIDED|95.0|0.83|2.3||No adjustment for multiple comparisons was made.|Fisher Exact|||||2.30|0.83|<=0.05
92399982|NCT01650558|184691611|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.51|||<=|0.05|TWO_SIDED|95.0|0.91|2.49||No adjustment for multiple comparisons was made.|Fisher Exact|||||2.49|0.91|<=0.05
92399983|NCT01650558|184691612|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.13|||<=|0.05|TWO_SIDED|95.0|0.66|1.93||No adjustments for multiple comparisons were made.|Fisher Exact|||||1.93|0.66|<=0.05
92399984|NCT01650558|184691612|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|0.96|||<=|0.05|TWO_SIDED|95.0|0.55|1.68||No adjustments for multiple comparisons were made.|Fisher Exact|||||1.68|0.55|<=0.05
92399985|NCT01650558|184691613|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.47|||<=|0.05|TWO_SIDED|95.0|1.07|2.0||No adjustments for multiple comparisons were made.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||2.00|1.07|<=0.05
92399986|NCT01650558|184691613|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.43|||<=|0.05|TWO_SIDED|95.0|1.04|1.96||No adjustments for multiple comparisons were made.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||1.96|1.04|<=0.05
92218675|NCT00853749|184338281|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for fever ≥ 38 degrees C but ≤ 39 degrees C||||> .99
92218676|NCT00853749|184338281|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for decreased appetite||||> .99
92218677|NCT00853749|184338281|SUPERIORITY_OR_OTHER_LEGACY|||||||0.543|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for irritability||||0.543
92218678|NCT00853749|184338281|SUPERIORITY_OR_OTHER_LEGACY|||||||0.233|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for increased sleep||||0.233
92218679|NCT00853749|184338281|SUPERIORITY_OR_OTHER_LEGACY|||||||0.198|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for decreased sleep||||0.198
92218680|NCT00853749|184338281|SUPERIORITY_OR_OTHER_LEGACY|||||||0.628|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for rash||||0.628
92218681|NCT00449670|184338314|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|0.81||||||95.0|0.66|1.01|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 1 and Lot 2).||1.01|0.66|
92275393|NCT01144663|184453057|NON_INFERIORITY|Indication of non-inferiority of Nimenrix 3 Group compared to Menjugate Group is a lower limit of the 95% CI of the group difference greater than or equal to the predefined clinical limits of -5%.|Difference in percenttage|-0.43|||||TWO_SIDED|95.0|-1.57|0.4||||||To demonstrate the non-inferiority of the Nimenrix 3 Group compared to the NeisVac-C Group, two-sided standardized asymptotic 95% CI for the groups difference \[Nimenrix 3 Group minus NeisVac-C Group\] in the percentages of subjects with bactericidal vaccine response to MenC was computed.||0.4|-1.57|
92347520|NCT01928849|184597256|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Comparison of RASS postoperative hours 0-24||||0.27
92347521|NCT01928849|184597256|OTHER|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||Comparison of RASS postoperative hours 24-48||||0.26
92347522|NCT03483103|184597258|SUPERIORITY||||||<|0.0001||||||One sided P-value is calculated based on the null hypothesis ORR \<= 50.2%|Exact binomial test|||||||<.0001
92347523|NCT00149643|184597333|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANOVA|||Groups' categorical baseline measures were compared by chi-square analysis, corrected for continuity. Statistical analyses were completed on an intent to-treat study group basis. Outcome measures for depression and for cannabis use and alcohol use across treatment groups were compared by repeated measures analysis of variance. The last observation carried forward (LOCF)method was used for handling missing data in the data analyses.||||<0.05
92347524|NCT02313155|184597349|SUPERIORITY_OR_OTHER||Difference|-6.6|||||TWO_SIDED|95.0|-24.858|11.592|||||Seroconversion rate difference between treatment groups was obtained by subtracting the value of TAK-850 I.M. from TAK-850 S.C.|A/H1N1 Strain||11.592|-24.858|
92347525|NCT02313155|184597349|SUPERIORITY_OR_OTHER||Difference|-15.5|||||TWO_SIDED|95.0|-33.779|2.87|||||Seroconversion rate difference between treatment groups was obtained by subtracting the value of TAK-850 I.M. from TAK-850 S.C.|A/H3N2 Strain||2.870|-33.779|
92347526|NCT02313155|184597349|SUPERIORITY_OR_OTHER||Difference|-11.8|||||TWO_SIDED|95.0|-30.048|6.547|||||Seroconversion rate difference between treatment groups was obtained by subtracting the value of TAK-850 I.M. from TAK-850 S.C.|B Strain||6.547|-30.048|
92347527|NCT04666298|184597376|SUPERIORITY||Mean Difference (Net)|-56.6|STANDARD_ERROR_OF_MEAN|3.24|<|0.0001|TWO_SIDED|95.0|-64.2|-49.0||One-sided adjusted p-value for multiple comparisons using Dunnett´s multiple t-test|Mixed Models Analysis|||||-49.0|-64.2|<.0001
92347528|NCT04666298|184597376|SUPERIORITY||Mean Difference (Net)|-60.9|STANDARD_ERROR_OF_MEAN|2.84|<|0.0001|TWO_SIDED|95.0|-67.6|-54.3||One-sided adjusted p-value for multiple comparisons using Dunnett´s multiple t-test|Mixed Models Analysis|||||-54.3|-67.6|<.0001
92347529|NCT04666298|184597376|SUPERIORITY||Mean Difference (Net)|-65.3|STANDARD_ERROR_OF_MEAN|2.86|<|0.0001|TWO_SIDED|95.0|-72.0|-58.6||One-sided adjusted p-value for multiple comparisons using Dunnett´s multiple t-test|Mixed Models Analysis|||||-58.6|-72.0|<.0001
92347530|NCT00844519|184597392|SUPERIORITY_OR_OTHER|||||||0.17||||||significant at p\<0.05|t-test, 2 sided|||within-arm, pre-post change in FMD||||0.17
92347531|NCT00844519|184597392|SUPERIORITY_OR_OTHER|||||||0.9||||||significant at p\<0.05|t-test, 2 sided|||within-arm, pre-post change in FMD||||0.90
92405640|NCT02683577|184701452|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|2.39|||||TWO_SIDED|90.0|1.45|3.94|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of mild HI group (Test) versus healthy control group (Reference) on AUC(0-tlast) values for LP-778902.||3.94|1.45|
92347532|NCT03329001|184597399|OTHER||Ratio of geometric least square mean|0.911|||||TWO_SIDED|90.0|0.855|0.9706|||||Relative bioavailability (AUC\[tablet\]/AUC\[capsule\]) was assessed using analysis of variance (ANOVA) model accounting for sequence, participants nested with sequences, period and treatment.|||0.9706|0.8550|
92347533|NCT03329001|184597400|OTHER||Ratio of geometric least square mean|0.9216|||||TWO_SIDED|90.0|0.8631|0.9841|||||Relative bioavailability (AUC\[tablet\]/AUC\[capsule\]) was assessed using ANOVA model accounting for sequence, participants nested with sequences, period and treatment.|||0.9841|0.8631|
92347534|NCT03329001|184597401|OTHER||Ratio of geometric least square mean|0.9483|||||TWO_SIDED|90.0|0.8489|1.0593|||||Relative bioavailability (Cmax\[tablet\]/Cmax\[capsule\]) was assessed using ANOVA model accounting for sequence, participants nested with sequences, period and treatment.|||1.0593|0.8489|
92347535|NCT03329001|184597406|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval of the ratio of geometric least-squares means of the test (tablet) to reference (capsule) product was within 0.80 - 1.25% for AUC0-t|Ratio of geometric least square mean|0.9594|||||TWO_SIDED|90.0|0.9199|1.0006|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence. Ratio of geometric least square mean of niraparib tablet to niraparib capsule is presented.|||1.0006|0.9199|
92347536|NCT03329001|184597407|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval of the ratio of geometric least-squares means of the test (tablet) to reference (capsule) product was within 0.80 - 1.25% for AUC0-inf|Ratio of geometric least square mean|0.9566|||||TWO_SIDED|90.0|0.9164|0.9986|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence. Ratio of geometric least square mean of niraparib tablet to niraparib capsule is presented.|||0.9986|0.9164|
92347537|NCT03329001|184597408|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval of the ratio of geometric least-squares means of the test (tablet) to reference (capsule) product was within 0.80 - 1.25% for Cmax|Ratio of geometric least square mean|0.9619|||||TWO_SIDED|90.0|0.9124|1.014|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence. Ratio of geometric least square mean of niraparib tablet to niraparib capsule is presented.|||1.0140|0.9124|
92347538|NCT03329001|184597413|OTHER||Ratio of geometric least square mean|1.3154|||||TWO_SIDED|90.0|1.1742|1.4735|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence.|||1.4735|1.1742|
92347539|NCT03329001|184597414|OTHER||Ratio of geometric least square mean|1.2771|||||TWO_SIDED|90.0|1.1537|1.4137|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence.|||1.4137|1.1537|
92347540|NCT03329001|184597415|OTHER||Ratio of geometric least square mean|1.1129|||||TWO_SIDED|90.0|0.9408|1.3164|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence.|||1.3164|0.9408|
92347541|NCT02178956|184597429|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.8596|TWO_SIDED|95.0|0.86|1.02||two-sided|Log Rank|stratified log rank test stratified by region, time to progression on 1st line therapy and disease measurability.|HR is for napabucasin + Paclitaxel vs Placebo + Paclitaxel. Based on Cox Proportional hazards model stratified by actual stratification variables including region, time to progression on first line therapy and disease measurability.|||1.02|0.86|0.8596
92347542|NCT02178956|184597430|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9028|TWO_SIDED|95.0|0.85|1.19||two sided|Log Rank|stratified log rank test stratified by region, time to progression on 1st line therapy and disease measurability.|HR is for napabucuasin + Paclitaxel vs Placebo + Paclitaxel. Based on Cox Proportional hazards model stratified by actual stratification variables including region, time to progression on first line therapy and disease measurability.|||1.19|0.85|0.9028
92347543|NCT02178956|184597431|SUPERIORITY||Odds Ratio (OR)|0.93||||0.7359|TWO_SIDED|95.0|0.6|1.44||2-sided|Cochran-Mantel-Haenszel|Based on CMH test stratified by actual stratification variables at baseline including region, and time to progression on first-line therapy.|Odds ratio for napabucasin vs. Placebo. Based on Logistic Regression Model adjusting for actual Stratification variables at baseline including region, and time to progression on first-line therapy.|||1.44|0.60|0.7359
92347544|NCT02178956|184597432|SUPERIORITY||Odds Ratio (OR)|0.93||||0.6555|TWO_SIDED|95.0|0.66|1.3||2-sided|Cochran-Mantel-Haenszel|Based on CMH test stratified by actual stratification variables at baseline including region, and time to progression on first-line therapy.|Odds ratio for napabucasin vs. Placebo. Based on Logistic Regression Model adjusting for actual Stratification variables at baseline including region, and time to progression on first-line therapy.|||1.30|0.66|0.6555
92347545|NCT00622518|184597434|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0||||P value is based on rating\*group interaction term|linear mixed model|||||||.002
92347546|NCT03769493|184597437|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||< .001
92347547|NCT03769493|184597438|SUPERIORITY|||||||0.875|||||||t-test, 2 sided|||||||.875
92347548|NCT03282097|184597486|SUPERIORITY|||||||0.4393|||||||ANCOVA|||||||0.4393
92347549|NCT03282097|184597487|SUPERIORITY|||||||0.2262|||||||ANCOVA|||||||.2262
92347550|NCT03282097|184597488|SUPERIORITY|||||||0.0023|||||||ANCOVA|||||||0.0023
92347551|NCT03282097|184597489|SUPERIORITY|||||||0.6075|||||||Regression, Logistic|||||||0.6075
92347552|NCT03282097|184597490|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<.0001
92347553|NCT03282097|184597491|SUPERIORITY||||||<|0.0001|||||||Regression, Logistic|||||||<0.0001
92347554|NCT05850494|184597513|NON_INFERIORITY|Non-inferiority margin of -0.200 L at a one-sided significance level of 0.025.|Mean Difference (Net)|-0.009|STANDARD_ERROR_OF_MEAN|0.0136|||TWO_SIDED|95.0|-0.037|0.018||P-Value not applicable since a non-inferiority test was used for the analysis.|Mixed Models Analysis|||||0.018|-0.037|
92347555|NCT03034967|184597570|OTHER|Emax|Median Posterior Difference|0.08|||||TWO_SIDED|90.0|0.0|0.66|||||Median posterior difference, 90 percent (%) credible interval for Placebo and Danirixin 5 mg has been presented.|4-parameter Emax model selected.||0.66|0.00|
92347556|NCT03034967|184597570|OTHER|Emax|Median Posterior Difference|0.61|||||TWO_SIDED|90.0|0.0|1.52|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|4-parameter Emax model||1.52|0.00|
92347557|NCT03034967|184597570|OTHER|Emax|Median Posterior Difference|1.25|||||TWO_SIDED|90.0|0.43|1.97|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|4-parameter Emax model selected.||1.97|0.43|
92347558|NCT03034967|184597570|OTHER|Emax|Median Posterior Difference|1.34|||||TWO_SIDED|90.0|0.72|2.03|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|4-parameter Emax model selected.||2.03|0.72|
92347559|NCT03034967|184597570|OTHER|Emax|Median Posterior Difference|1.38|||||TWO_SIDED|90.0|0.79|2.07|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|4-parameter Emax model selected.||2.07|0.79|
92347560|NCT03034967|184597571|OTHER|Emax|Median Posterior Difference|0.09|||||TWO_SIDED|90.0|0.0|0.42|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|4-parameter Emax model selected.||0.42|0.00|
92347561|NCT03034967|184597571|OTHER|Emax|Median Posterior Difference|0.43|||||TWO_SIDED|90.0|0.0|0.87|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|4-parameter Emax model||0.87|0.00|
92347562|NCT03034967|184597571|OTHER|Emax|Median Posterior Difference|0.68|||||TWO_SIDED|90.0|0.23|1.08|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|4-parameter Emax model selected.||1.08|0.23|
92347563|NCT03034967|184597571|OTHER|Emax|Median Posterior Difference|0.72|||||TWO_SIDED|90.0|0.37|1.1|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|4-parameter Emax model selected.||1.10|0.37|
92347564|NCT03034967|184597571|OTHER|Emax|Median Posterior Difference|0.73|||||TWO_SIDED|90.0|0.4|1.12|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|4-parameter Emax model selected.||1.12|0.40|
92347565|NCT03034967|184597572|OTHER|Emax|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|0.0|0.16|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|4-parameter Emax model selected.||0.16|0.00|
92347566|NCT03034967|184597572|OTHER|Emax|Median Posterior Difference|0.12|||||TWO_SIDED|90.0|0.0|0.43|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|4-parameter Emax model||0.43|0.00|
92347567|NCT03034967|184597572|OTHER|Emax|Median Posterior Difference|0.38|||||TWO_SIDED|90.0|0.04|0.61|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|4-parameter Emax model selected.||0.61|0.04|
92347568|NCT03034967|184597572|OTHER|Emax|Median Posterior Difference|0.42|||||TWO_SIDED|90.0|0.21|0.64|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|4-parameter Emax model selected.||0.64|0.21|
92347569|NCT03034967|184597572|OTHER|Emax|Median Posterior Difference|0.45|||||TWO_SIDED|90.0|0.26|0.66|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|4-parameter Emax model selected.||0.66|0.26|
92347570|NCT03034967|184597573|OTHER|Log-linear|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|-0.21|0.23|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|Log-linear model.||0.23|-0.21|
92347571|NCT03034967|184597573|OTHER|Log-linear|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|-0.23|0.25|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|Log-linear model||0.25|-0.23|
92347572|NCT03034967|184597573|OTHER|Log-linear|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|-0.27|0.29|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|Log-linear model||0.29|-0.27|
92347573|NCT03034967|184597573|OTHER|Log-linear|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|-0.28|0.3|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|Log-linear model||0.30|-0.28|
92218682|NCT00449670|184338314|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|0.85|||||TWO_SIDED|95.0|0.69|1.06|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 1 and Lot 3).||1.06|0.69|
92218683|NCT00449670|184338314|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|0.85|||||TWO_SIDED|95.0|0.68|1.05|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 1 and Lot 4).||1.05|0.68|
92218684|NCT00449670|184338314|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|1.05|||||TWO_SIDED|95.0|0.85|1.3|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 2 and Lot 3).||1.3|0.85|
92218685|NCT00449670|184338314|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|1.04|||||TWO_SIDED|95.0|0.84|1.29|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 2 and Lot 4).||1.29|0.84|
92218686|NCT00449670|184338314|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|0.99|||||TWO_SIDED|95.0|0.8|1.23|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 3 and Lot 4).||1.23|0.8|
92218687|NCT06098248|184338399|NON_INFERIORITY|The non-inferiority margin was set at 0.05 for sensitivity. A power calculation was conducted assuming a 30% missing data rate, with final missing data at approximately 10%|Risk Difference (RD)|-0.0123|STANDARD_ERROR_OF_MEAN|0.0132|<|0.4049|ONE_SIDED|95.0||0.0164||A one-sided significance level of 0.05 was used for the non-inferiority tests.|McNemar|McNemar's test was chosen due to paired nominal data (specimens tested by both methods). Degrees of freedom = 1|Lower Limit reflects estimated value due to 1-sided CI requirement and system constraints. True lower bound is theoretically -∞.|We performed a paired comparison within the same participant population, evaluating both cCeLL - Ex vivo and Frozen Section on each specimen.|If any secondary analyses could not fit into the above format (e.g., AUC analysis, time efficiency), they were reported as descriptive statistics rather than hypothesis testing|0.0164||<0.4049
92347574|NCT03034967|184597573|OTHER|Log-linear|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|-0.29|0.31|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|Log-linear model||0.31|-0.29|
92347575|NCT03034967|184597580|OTHER||Odds Ratio (OR)|1.71||||0.089|TWO_SIDED|90.0|1.02|2.86||Analysis performed using a generalized linear mixed model with a logit link function including treatment, relevant Baseline E-RS: COPD score, smoking status at Screening, country, month, Baseline by month and treatment by month interactions.|linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|||2.86|1.02|0.089
92399987|NCT01650558|184691614|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.31|||<=|0.05|TWO_SIDED|95.0|1.11|1.55||No adjustments for multiple comparisons were made.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||1.55|1.11|<=0.05
92227304|NCT00927368|184356881|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean ultrasound alone minus mean catheter is greater than 0.5 points).|Mean Difference (Final Values)|0.12||||0.02|TWO_SIDED|95.0|-0.33|0.57||Significance criterion of 0.01388 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing ultrasound alone to stimulating catheter on the mean time-weighted average pain score for a patient in the first 48 hours.||0.57|-0.33|0.02
92347576|NCT03034967|184597580|OTHER||Odds Ratio (OR)|1.05||||0.881|TWO_SIDED|90.0|0.62|1.79||Analysis performed using a generalized linear mixed model with a logit link function including treatment, relevant Baseline E-RS: COPD score, smoking status at Screening, country, month, Baseline by month and treatment by month interactions.|linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|||1.79|0.62|0.881
92347577|NCT03034967|184597580|OTHER||Odds Ratio (OR)|0.87||||0.674|TWO_SIDED|90.0|0.51|1.48||Analysis performed using a generalized linear mixed model with a logit link function including treatment, relevant Baseline E-RS: COPD score, smoking status at Screening, country, month, Baseline by month and treatment by month interactions.|linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|||1.48|0.51|0.674
92347578|NCT03034967|184597580|OTHER||Odds Ratio (OR)|0.92||||0.804|TWO_SIDED|90.0|0.54|1.58||Analysis performed using a generalized linear mixed model with a logit link function including treatment, relevant Baseline E-RS: COPD score, smoking status at Screening, country, month, Baseline by month and treatment by month interactions.|linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|||1.58|0.54|0.804
92347579|NCT03034967|184597580|OTHER||Odds Ratio (OR)|1.01||||0.987|TWO_SIDED|90.0|0.59|1.71||Analysis performed using a generalized linear mixed model with a logit link function including treatment, relevant Baseline E-RS: COPD score, smoking status at Screening, country, month, Baseline by month and treatment by month interactions.|linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|||1.71|0.59|0.987
92347580|NCT03034967|184597582|OTHER||Median Posterior Hazard Ratio|1.2|||||TWO_SIDED|90.0|0.5|2.6|||||Median Posterior Hazard Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.||DNX versus (vs.) Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted Forced Expiratory Volume in one second (FEV1)at Screening.|2.6|0.5|
92347581|NCT03034967|184597582|OTHER||Median Posterior Hazard Ratio|1.0|||||TWO_SIDED|90.0|0.4|2.4|||||Median Posterior Hazard Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|2.4|0.4|
92347582|NCT03034967|184597582|OTHER||Median Posterior Hazard Ratio|1.4|||||TWO_SIDED|90.0|0.6|3.2|||||Median Posterior Hazard Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|3.2|0.6|
92399988|NCT01650558|184691614|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.34|||<=|0.05|TWO_SIDED|95.0|1.14|1.58||No adjustments for multiple comparisons were made.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||1.58|1.14|<=0.05
92399989|NCT02960217|184691618|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|1.46||||0.2684|TWO_SIDED|95.0|-1.12|4.36||Hodges-Lehmann estimate of the location shift with 95% confidence interval (CI) and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Participants completing both UX007 treatment period and placebo period (n=42). Per protocol, when the normality assumption is not met (p value for Wilk-Shapiro test \< 0.05), Wilcoxon rank-sum test will be considered as the primary analysis to assess treatment difference in movement disorder event frequency.||4.36|-1.12|0.2684
92218688|NCT06098248|184338400|NON_INFERIORITY|The non-inferiority margin was set at 0.10 for specificity|Risk Difference (RD)|-0.1071|STANDARD_DEVIATION|0.4103|<|0.3075|TWO_SIDED|95.0|-0.1628|0.0557||A one-sided significance level of 0.10 was used for the non-inferiority tests.|McNemar|McNemar's test was chosen due to paired nominal data (specimens tested by both methods). Degrees of freedom = 1|Lower Limit reflects estimated value due to 1-sided CI requirement and system constraints. True lower bound is theoretically -∞.|We performed a paired comparison within the same participant population, evaluating both cCeLL - Ex vivo and Frozen Section on each specimen.|f any secondary analyses could not fit into the above format (e.g., AUC analysis, time efficiency), they were reported as descriptive statistics rather than hypothesis testing|0.0557|-0.1628|<0.3075
92347583|NCT03034967|184597582|OTHER||Median Posterior Hazard Ratio|2.0|||||TWO_SIDED|90.0|1.0|4.3|||||Median Posterior Hazard Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|4.3|1.0|
92347584|NCT03034967|184597582|OTHER||Median Posterior Hazard Ratio|2.0|||||TWO_SIDED|90.0|0.9|4.5|||||Median Posterior Hazard Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|4.5|0.9|
92347585|NCT03034967|184597585|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.5|||||TWO_SIDED|90.0|1.0|2.2|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator %predicted FEV1 at Screening.|2.2|1.0|
92275394|NCT01144663|184453057|NON_INFERIORITY|Indication of non-inferiority of Nimenrix 3 Group compared to Menjugate Group is a lower limit of the 95% CI of the group difference greater than or equal to the predefined clinical limits of -5%.|Difference in percentage|-0.88|||||TWO_SIDED|95.0|-2.45|0.43||||||To demonstrate the non-inferiority of the Nimenrix 2 Group compared to Menjugate Group, two-sided standardized asymptotic 95% CI for the groups difference \[Nimenrix 2 Group minus Menjugate Group\] in the percentages of subjects with bactericidal vaccine response to MenC was computed.||0.43|-2.45|
92347586|NCT03034967|184597585|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.1|||||TWO_SIDED|90.0|0.8|1.7|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|1.7|0.8|
92347587|NCT03034967|184597585|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.1|||||TWO_SIDED|90.0|0.7|1.6|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|1.6|0.7|
92347588|NCT03034967|184597585|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.4|||||TWO_SIDED|90.0|1.0|2.1|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|2.1|1.0|
92347589|NCT03034967|184597585|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.6|||||TWO_SIDED|90.0|1.1|2.3|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|2.3|1.1|
92347590|NCT03034967|184597586|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.8|||||TWO_SIDED|90.0|0.7|5.5|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|5.5|0.7|
92347591|NCT03034967|184597586|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.9|||||TWO_SIDED|90.0|0.7|5.8|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|5.8|0.7|
92347592|NCT03034967|184597586|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.8|||||TWO_SIDED|90.0|0.7|5.6|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|5.6|0.7|
92347593|NCT03034967|184597586|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|2.3|||||TWO_SIDED|90.0|0.9|6.9|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|6.9|0.9|
92347594|NCT03034967|184597586|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|0.8|||||TWO_SIDED|90.0|0.2|2.7|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|2.7|0.2|
92347595|NCT03034967|184597589|OTHER||Odds Ratio (OR)|1.51||||0.208|TWO_SIDED|90.0|0.88|2.59||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline SGRQ total score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|||2.59|0.88|0.208
92347596|NCT03034967|184597589|OTHER||Odds Ratio (OR)|1.27||||0.482|TWO_SIDED|90.0|0.73|2.2||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline SGRQ total score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|||2.20|0.73|0.482
92347597|NCT03034967|184597589|OTHER||Odds Ratio (OR)|1.47||||0.239|TWO_SIDED|90.0|0.86|2.53||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline SGRQ total score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|||2.53|0.86|0.239
92399990|NCT02960217|184691618|SUPERIORITY||||||<|0.0001|||||||Wilk-Shapiro test for normality|||||||< 0.0001
92399991|NCT02960217|184691621|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|25.0||||0.6419|TWO_SIDED|95.0|-62.5|91.5||Hodges-Lehmann estimate of the location shift with 95% CI and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Number of participants in this analysis completed both UX007 treatment period and placebo treatment period (n=34).||91.5|-62.5|0.6419
92347598|NCT03034967|184597589|OTHER||Odds Ratio (OR)|1.31||||0.426|TWO_SIDED|90.0|0.75|2.26||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline SGRQ total score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|||2.26|0.75|0.426
92347599|NCT03034967|184597589|OTHER||Odds Ratio (OR)|0.9||||0.763|TWO_SIDED|90.0|0.52|1.58||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline SGRQ total score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|||1.58|0.52|0.763
92347600|NCT03034967|184597591|OTHER||Odds Ratio (OR)|1.01||||0.973|TWO_SIDED|90.0|0.58|1.76||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline CAT score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|||1.76|0.58|0.973
92399992|NCT02960217|184691621|SUPERIORITY|||||||0.0005|||||||Wilk-Shapiro Test for Normality|||||||0.0005
92399993|NCT02960217|184691622|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.91||0.9513|TWO_SIDED|95.0|-2.0|1.9||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||1.9|-2.0|0.9513
92347601|NCT03034967|184597591|OTHER||Odds Ratio (OR)|0.93||||0.825|TWO_SIDED|90.0|0.53|1.63||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline CAT score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|||1.63|0.53|0.825
92347602|NCT03034967|184597591|OTHER||Odds Ratio (OR)|0.95||||0.887|TWO_SIDED|90.0|0.55|1.66||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline CAT score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|||1.66|0.55|0.887
92347603|NCT03034967|184597591|OTHER||Odds Ratio (OR)|1.21||||0.567|TWO_SIDED|90.0|0.69|2.13||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline CAT score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|||2.13|0.69|0.567
92347604|NCT03034967|184597591|OTHER||Odds Ratio (OR)|1.26||||0.501|TWO_SIDED|90.0|0.72|2.2||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline CAT score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|||2.20|0.72|0.501
92347605|NCT03806296|184597602|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.018|TWO_SIDED|95.0|-0.77|-0.07|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||-0.07|-0.77|0.018
92347606|NCT03806296|184597602|SUPERIORITY||Time X Group interaction|0.67||||0.001|TWO_SIDED|95.0|0.28|1.07|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoints, and sex.||1.07|0.28|0.001
92347607|NCT03806296|184597603|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.001|TWO_SIDED|95.0|0.61|1.59|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||1.59|0.61|<0.001
92347608|NCT03806296|184597603|SUPERIORITY||Time X Group interaction|-0.76|||<|0.001|TWO_SIDED|95.0|-1.09|-0.43|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoints, and sex.||-0.43|-1.09|<0.001
92347609|NCT03806296|184597604|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.365|TWO_SIDED|95.0|-0.64|0.24|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||0.24|-0.64|0.365
92347610|NCT03806296|184597604|SUPERIORITY||Time X Group interaction|-0.43||||0.067|TWO_SIDED|95.0|-0.88|0.03|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoints, and sex.||0.03|-0.88|0.067
92347611|NCT03806296|184597605|SUPERIORITY||Mean Difference (Final Values)|3.32||||0.234|TWO_SIDED|95.0|-2.18|8.82|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||8.82|-2.18|0.234
92347612|NCT03806296|184597605|SUPERIORITY||Time X Group interaction|-6.15||||0.018|TWO_SIDED|95.0|-11.25|-1.06|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoint, and sex.||-1.06|-11.25|0.018
92347613|NCT03806296|184597606|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.024|TWO_SIDED|95.0|0.07|0.94|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||0.94|0.07|0.024
92347614|NCT03806296|184597606|SUPERIORITY||Time X Group interaction|-0.1||||0.66|TWO_SIDED|95.0|-0.55|0.35|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoint, and sex.||0.35|-0.55|0.660
92347615|NCT03806296|184597607|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.592|TWO_SIDED|95.0|-0.03|0.06|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||0.06|-0.03|0.592
92347616|NCT03806296|184597607|SUPERIORITY||Time X Group interaction|-0.03||||0.55|TWO_SIDED|95.0|-0.11|0.06|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoint, and sex.||0.06|-0.11|0.550
92347617|NCT03806296|184597608|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.55|TWO_SIDED|95.0|-0.07|0.04|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||0.04|-0.07|0.550
92347618|NCT03806296|184597608|SUPERIORITY||Time X Group interaction|-0.02||||0.556|TWO_SIDED|95.0|-0.1|0.06|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoint, and sex.||0.06|-0.10|0.556
92399994|NCT02960217|184691622|SUPERIORITY|||||||0.8214|||||||Wilk-Shapiro Test for Normality|||||||0.8214
92347619|NCT03806296|184597609|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.124|TWO_SIDED|95.0|-0.01|0.06|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||0.06|-0.01|0.124
92347620|NCT03806296|184597609|SUPERIORITY||Time X Group interaction|0.0||||0.925|TWO_SIDED|95.0|-0.05|0.06|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoint, and sex.||0.06|-0.05|0.925
92347621|NCT03806296|184597610|SUPERIORITY||Risk Ratio (RR)|0.752||||0.42|TWO_SIDED|95.0|0.374|1.513|||Poisson GLM with robust standard error||Early/Middle Sleep group was the reference group (lower RR indicates less likelihood of cannabis use in the Late Sleep group)|For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a Poisson generalized linear model (GLM) to test the effect of group (Early/Mid vs Late) on a binary cannabis use outcome (yes/no in the past 3 months), accounting for age and sex.||1.513|0.374|0.42
92347622|NCT03806296|184597611|SUPERIORITY||Risk Ratio (RR)|1.236||||0.461|TWO_SIDED|95.0|0.704|2.171|||Poisson GLM with robust standard error||Early/Middle Sleep group was the reference group (higher RR indicates higher likelihood of alcohol use in the Late Sleep group)|For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a Poisson generalized linear model (GLM) to test the effect of group (Early/Mid vs Late) on a binary alcohol use outcome (yes/no in the past 3 months), accounting for age and sex.||2.171|0.704|0.461
92347623|NCT03806296|184597611|SUPERIORITY||Incident Rate Ratio|3.29||||0.007|TWO_SIDED|95.0|1.36|7.9|||negative binomial glm||Early/Middle Sleep group was the reference group (higher IRR indicates greater days of alcohol use in the Late Sleep group than in the Early/Middle Sleep group).|For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a negative binomial GLM to test the effect of group (Early/Mid vs Late) on days of alcohol use, accounting for age and sex.||7.90|1.36|0.007
92347624|NCT03116230|184597644|OTHER|||||||0.005|||||||t-test, 2 sided|Treatment A vs Control||||||0.005
92347625|NCT03116230|184597644|OTHER|||||||0.64|||||||t-test, 2 sided|Treatment B vs Control||||||0.64
92347626|NCT02763566|184597648|SUPERIORITY||Hazard Ratio (HR)|0.499||||0.0001|TWO_SIDED|95.0|0.346|0.719|||Log Rank|||||0.719|0.346|0.0001
92347627|NCT02763566|184597649|SUPERIORITY||Hazard Ratio (HR)|0.376|||<|0.0001|TWO_SIDED|95.0|0.24|0.588|||Log Rank|||||0.588|0.240|<0.0001
92347628|NCT02763566|184597651|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92347629|NCT02763566|184597651|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92399995|NCT02960217|184691623|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.32||0.1572|TWO_SIDED|95.0|-0.8|4.7||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||4.7|-0.8|0.1572
92159311|NCT00689104|184206153|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.29||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.29|-0.90|<0.001
92159312|NCT00689104|184206153|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44||||0.005|TWO_SIDED|95.0|-0.74|-0.13||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.13|-0.74|0.005
92159313|NCT00689104|184206153|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25||||0.11|TWO_SIDED|95.0|-0.55|0.06||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since the comparison between tolterodine and placebo was a secondary analysis, no adjustment for multiplicity was necessary.||0.06|-0.55|0.11
92347630|NCT02763566|184597653|SUPERIORITY|||||||0.0456|||||||Cochran-Mantel-Haenszel|||||||0.0456
92347631|NCT02763566|184597653|SUPERIORITY|||||||0.0004|||||||Cochran-Mantel-Haenszel|||||||0.0004
92347632|NCT02763566|184597654|SUPERIORITY|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
92347633|NCT02763566|184597654|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92347634|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-1.89|STANDARD_ERROR_OF_MEAN|1.77||0.287|TWO_SIDED|95.0|-5.36|1.59|||Mixed Models Analysis|||Global Health Status||1.59|-5.36|0.287
92347635|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-0.77|STANDARD_ERROR_OF_MEAN|1.46||0.597|TWO_SIDED|95.0|-3.64|2.1|||Mixed Models Analysis|||Functional Scales - Physical functioning||2.10|-3.64|0.597
92347636|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-0.31|STANDARD_ERROR_OF_MEAN|2.15||0.885|TWO_SIDED|95.0|-4.55|3.93|||Mixed Models Analysis|||Functional Scales - Role Functioning||3.93|-4.55|0.885
92347637|NCT02763566|184597655|SUPERIORITY||LSMean Difference|1.67|STANDARD_ERROR_OF_MEAN|1.74||0.34|TWO_SIDED|95.0|-1.77|5.1|||Mixed Models Analysis|||Functional Scales - Emotional Functioning||5.10|-1.77|0.340
92347638|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-2.17|STANDARD_ERROR_OF_MEAN|1.62||0.182|TWO_SIDED|95.0|-5.37|1.03|||Mixed Models Analysis|||Functional Scales - Cognitive Functioning||1.03|-5.37|0.182
92399996|NCT02960217|184691623|SUPERIORITY|||||||0.8451|||||||Wilk-Shapiro Test for Normality|||||||0.8451
92347639|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-0.88|STANDARD_ERROR_OF_MEAN|2.12||0.678|TWO_SIDED|95.0|-5.05|3.29|||Mixed Models Analysis|||||3.29|-5.05|0.678
92159314|NCT00689104|184206154|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.9|||<|0.001|TWO_SIDED|95.0|6.3|17.4||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||17.4|6.3|<0.001
92159315|NCT00689104|184206154|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|13.2|||<|0.001|TWO_SIDED|95.0|7.7|18.7||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||18.7|7.7|<0.001
92159316|NCT00689104|184206154|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|12.6|||<|0.001|TWO_SIDED|95.0|7.1|18.2||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since the comparison between tolterodine and placebo was a secondary analysis, no adjustment for multiplicity was necessary.||18.2|7.1|<0.001
92159317|NCT00689104|184206155|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39||||0.002|TWO_SIDED|95.0|-0.71|-0.06||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.06|-0.71|0.002
92159318|NCT00689104|184206155|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38||||0.002|TWO_SIDED|95.0|-0.71|-0.05||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.05|-0.71|0.002
92159319|NCT00689104|184206155|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.35||||0.019|TWO_SIDED|95.0|-0.68|-0.03||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since the comparison between tolterodine and placebo was a secondary analysis, no adjustment for multiplicity was necessary.||-0.03|-0.68|0.019
92218689|NCT00253643|184338401|SUPERIORITY_OR_OTHER|||||||0.1521|TWO_SIDED|||||Utilized a priori threshold for statistical significance of 0.05.|Mixed Models Analysis|||Mixed effects model to assess the effect time (pre vs. post) and treatment (GTFO, GT, FO and Placebo) on FAS summary scores||||0.1521
92347640|NCT02763566|184597655|SUPERIORITY||LSMean Difference|1.57|STANDARD_ERROR_OF_MEAN|1.7||0.355|TWO_SIDED|95.0|-1.77|4.91|||Mixed Models Analysis|||Symptom Scales - Fatigue||4.91|-1.77|0.355
92347641|NCT02763566|184597655|SUPERIORITY||LSMean Difference|0.95|STANDARD_ERROR_OF_MEAN|1.06||0.372|TWO_SIDED|95.0|-1.14|3.03|||Mixed Models Analysis|||Symptom Scales - Nausea and Vomiting||3.03|-1.14|0.372
92347642|NCT02763566|184597655|SUPERIORITY||LSMean Difference|0.74|STANDARD_ERROR_OF_MEAN|1.63||0.74|TWO_SIDED|95.0|-3.75|2.66|||Mixed Models Analysis|||Symptom Scales - Pain||2.66|-3.75|0.740
92218690|NCT00253643|184338402|SUPERIORITY_OR_OTHER|||||||0.1573|TWO_SIDED|||||A priori threshold for statistical significance is 0.05.|Mixed Models Analysis|||Mixed effects model to assess the effect of time (pre vs. post) and treatment (GTFO, GT, FO and Placebo) on Ki-67||||0.1573
92347643|NCT02763566|184597655|SUPERIORITY||LSMean Difference|2.16|STANDARD_ERROR_OF_MEAN|1.84||0.24|TWO_SIDED|95.0|-1.46|5.78|||Mixed Models Analysis|||Symptom Scales - Dyspnoea||5.78|-1.46|0.240
92347644|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-0.81|STANDARD_ERROR_OF_MEAN|1.92||0.673|TWO_SIDED|95.0|-4.6|2.97|||Mixed Models Analysis|||Symptom scales - Insomnia||2.97|-4.60|0.673
92347645|NCT02763566|184597655|SUPERIORITY||LSMean Difference|5.65|STANDARD_ERROR_OF_MEAN|1.74||0.001|TWO_SIDED|95.0|2.23|9.07|||Mixed Models Analysis|||Symptom Scales - Appetite||9.07|2.23|0.001
92347646|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-1.57|STANDARD_ERROR_OF_MEAN|1.76||0.375|TWO_SIDED|95.0|-5.04|1.91|||Mixed Models Analysis|||Symptom Scales - Constipation||1.91|-5.04|0.375
92347647|NCT02763566|184597655|SUPERIORITY||LSMean Difference|15.82|STANDARD_ERROR_OF_MEAN|1.53||0|TWO_SIDED|95.0|12.81|18.84|||Mixed Models Analysis|||Symptom Scales - Diarrhoea||18.84|12.81|0.000
92347648|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-1.75|STANDARD_ERROR_OF_MEAN|2.97||0.557|TWO_SIDED|95.0|-7.59|4.1|||Mixed Models Analysis|||Symptom Scales - Financial Difficulties||4.10|-7.59|0.557
92347649|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-3.47|STANDARD_ERROR_OF_MEAN|2.51||0.169|TWO_SIDED|95.0|-8.43|1.49|||Mixed Models Analysis|||Global Health Status||1.49|-8.43|0.169
92218691|NCT04451161|184338425|SUPERIORITY|||||||0.591||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants administered the CPSS-V to at least one student beginning of the active phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as administered CPSS-V) was binary: either the participant adopted at least one of these components with a student, or they did not at the beginning of the active phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.591
92218692|NCT04451161|184338425|SUPERIORITY|||||||0.032||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants administered the CPSS-V to at least one student by the end of the active phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as administered CPSS-V) was binary: either the participant adopted at least one of these components with a student, or they did not by the end of the active phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.032
92218693|NCT04451161|184338425|SUPERIORITY|||||||0.054||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants administered the CPSS-V to at least one student by the end of the sustainment phase.|Chi-squared|||One of the primary TF-CBT adoption outcomes (defined as administered CPSS-V) was binary: either the participant adopted at least one of these components with a student at the end of the sustainment phase, or they did not. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.054
92218694|NCT04451161|184338425|SUPERIORITY|||||||0.98||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants started TF-CBT with at least one student at the beginning of the active phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as started TF-CBT) was binary: either the participant adopted at least one of these components with a student, or they did not at the beginning of the active phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.98
92275395|NCT01144663|184453057|NON_INFERIORITY|Indication of non-inferiority of Nimenrix 3 Group compared to Menjugate Group is a lower limit of the 95% CI of the group difference greater than or equal to the predefined clinical limits of -5%.|Difference in percentage|-1.32|||||TWO_SIDED|95.0|-2.84|-0.48||||||To demonstrate the non-inferiority of the Nimenrix 2 Group compared to NeisVac-C Group, two-sided standardized asymptotic 95% CI for the groups difference \[Nimenrix 2 Group minus NeisVac-C Group\] in the percentages of subjects with bactericidal vaccine response to MenC was computed.||-0.48|-2.84|
92159320|NCT00689104|184206156|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.4||||0.004|TWO_SIDED|95.0|-0.66|-0.13||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.13|-0.66|0.004
92159321|NCT00689104|184206156|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.79|-0.26||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.26|-0.79|<0.001
92159322|NCT00689104|184206156|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33||||0.016|TWO_SIDED|95.0|-0.6|-0.06||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since the comparison between tolterodine and placebo was a secondary analysis, no adjustment for multiplicity was necessary.||-0.06|-0.60|0.016
92159323|NCT00665561|184206200|SUPERIORITY||Risk Ratio (RR)|0.53|||||TWO_SIDED|95.0|0.42|0.67||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude risk ratio (RR) and CI.||0.67|0.42|
92159324|NCT00665561|184206201|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.12|5.88||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||5.88|0.12|
92218695|NCT04451161|184338425|SUPERIORITY|||||||0.068||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants started TF-CBT with at least one student by the end of the active phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as started TF-CBT) was binary: either the participant adopted at least one of these components with a student, or they did not by the end of the active phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.068
92218696|NCT04451161|184338425|SUPERIORITY|||||||0.165||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants started TF-CBT with at least one student by the end of the sustainment phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as started TF-CBT) was binary: either the participant adopted at least one of these components with a student, or they did not by the end of the sustainment phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.165
92218697|NCT04451161|184338425|SUPERIORITY|||||||0.191||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants completed TF-CBT with at least one student by the end of the active phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as completed TF-CBT) was binary: either the participant adopted at least one of these components with a student, or they did not by the end of the active phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.191
92347650|NCT02763566|184597655|SUPERIORITY||LSMean Difference|1.58|STANDARD_ERROR_OF_MEAN|1.87||0.4|TWO_SIDED|95.0|-2.12|5.29|||Mixed Models Analysis|||Functional Scales - Physical Functioning||5.29|-2.12|0.400
92347651|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-1.72|STANDARD_ERROR_OF_MEAN|2.38||0.472|TWO_SIDED|95.0|-6.42|2.99|||Mixed Models Analysis|||Functional Scales - Role functioning||2.99|-6.42|0.472
92347652|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-2.42|STANDARD_ERROR_OF_MEAN|0.31||0.31|TWO_SIDED|95.0|-7.12|2.28|||Mixed Models Analysis|||Functional Scales - Emotional Functioning||2.28|-7.12|0.310
92347653|NCT02763566|184597655|SUPERIORITY||LSMean Difference|0.64|STANDARD_ERROR_OF_MEAN|2.98||0.83|TWO_SIDED|95.0|-5.26|6.55|||Mixed Models Analysis|||Functional Scales - Social Functioning||6.55|-5.26|0.830
92347654|NCT02763566|184597655|SUPERIORITY||LSMean Difference|2.73|STANDARD_ERROR_OF_MEAN|2.52||0.281|TWO_SIDED|95.0|-2.26|7.72|||Mixed Models Analysis|||Symptom Scales - Fatigue||7.72|-2.26|0.281
92347655|NCT02763566|184597655|SUPERIORITY||LSMean Difference|2.59|STANDARD_ERROR_OF_MEAN|1.99||0.194|TWO_SIDED|95.0|-1.33|6.52|||Mixed Models Analysis|||Symptom Scales - Nausea and Vomiting||6.52|-1.33|0.194
92347656|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-2.66|STANDARD_ERROR_OF_MEAN|2.42||0.275|TWO_SIDED|95.0|-7.45|2.14|||Mixed Models Analysis|||Symptom Scales - Pain||2.14|-7.45|0.275
92347657|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-2.49|STANDARD_ERROR_OF_MEAN|4.39||0.28|TWO_SIDED|95.0|-7.04|2.06|||Mixed Models Analysis|||Symptom Scales - Dyspnoea||2.06|-7.04|0.280
92347658|NCT02763566|184597655|SUPERIORITY||LSMean Difference|1.97|STANDARD_ERROR_OF_MEAN|2.9||0.499|TWO_SIDED|95.0|-3.78|7.72|||Mixed Models Analysis|||Symptom Scales - Insomnia||7.72|-3.78|0.499
92347659|NCT02763566|184597655|SUPERIORITY||LSMean Difference|7.46|STANDARD_ERROR_OF_MEAN|2.92||0.012|TWO_SIDED|95.0|1.68|13.23|||Mixed Models Analysis|||Symptom Scales - Appetite||13.23|1.68|0.012
92347660|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-2.28|STANDARD_ERROR_OF_MEAN|2.29||0.321|TWO_SIDED|95.0|-6.83|2.27|||Mixed Models Analysis|||Symptom Scales - Constipation||2.27|-6.83|0.321
92347661|NCT02763566|184597655|SUPERIORITY||LSMean Difference|17.83|STANDARD_ERROR_OF_MEAN|2.32||0|TWO_SIDED|95.0|13.25|22.41|||Mixed Models Analysis|||Symptom Scales - Diarrhoea||22.41|13.25|0.000
92347662|NCT02763566|184597655|SUPERIORITY||LSMean Difference|2.99|STANDARD_ERROR_OF_MEAN|3.14||0.342|TWO_SIDED|95.0|-3.21|9.19|||Mixed Models Analysis|||Symptom Scales - Financial DIfficulties||9.19|-3.21|0.342
92347663|NCT02763566|184597655|SUPERIORITY||LSMean Difference|-2.42|STANDARD_ERROR_OF_MEAN|2.38||0.31|TWO_SIDED|95.0|-7.12|2.28|||Mixed Models Analysis|||Functional Scales - Cognitive functioning||2.28|-7.12|0.310
92347664|NCT04896385|184597658|OTHER|||||||0.004|||||||repeated measures correlation|||F-VASI||||0.004
92347665|NCT04896385|184597658|OTHER|||||||0.41|||||||repeated measures correlation|||F-VASI||||0.41
92347666|NCT04896385|184597658|OTHER|||||||0.0002|||||||repeated measures correlation|||T-VASI||||0.0002
92347667|NCT04896385|184597658|OTHER|||||||0.91|||||||repeated measures correlation|||T-VASI||||0.91
92347668|NCT02612155|184597686|OTHER|||||||0.06|||||||Fisher Exact|||||||0.06
92347669|NCT05233761|184597693|SUPERIORITY|The mean nightly difference in SWS + REM sleep (% TST) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority.|Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.6||0.035|TWO_SIDED|95.0|0.1|2.5|||t-test, 2 sided|||The null hypothesis was that there was no difference in SWS + REM (% TST) sleep in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||2.5|0.1|0.0350
92347670|NCT05233761|184597694|SUPERIORITY|The mean nightly difference in SWS Sleep (% TST) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.3||0.0019|TWO_SIDED|95.0|0.4|1.6|||t-test, 2 sided|||The null hypothesis was that there was no difference in SWS Sleep (% TST) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||1.6|0.4|0.0019
92347671|NCT05233761|184597694|SUPERIORITY|The mean nightly difference in REM Sleep (% TST) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.52|TWO_SIDED|95.0|-0.6|1.2|||t-test, 2 sided|||The null hypothesis was that there was no difference in REM Sleep (% TST) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||1.2|-.6|0.52
92347672|NCT05233761|184597694|SUPERIORITY|The mean nightly difference in Light Sleep (% TST) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.6||0.004|TWO_SIDED|95.0|-2.8|-0.5|||t-test, 2 sided|||The null hypothesis was that there was no difference in Light Sleep (% TST) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||-0.5|-2.8|0.0040
92159325|NCT00665561|184206202|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.66|1.33||||||All Malignancies: Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.33|0.66|
92159326|NCT00665561|184206202|SUPERIORITY||Risk Ratio (RR)|0.62|||||TWO_SIDED|95.0|0.29|1.31||||||AIDS defining Malignancies: Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.31|0.29|
92159327|NCT00665561|184206202|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.71|1.58||||||Non-AIDS defining Malignancies: Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.58|0.71|
92275396|NCT03081767|184453107|OTHER||||||<|1e-07||||||Actual P-Value = 3.89597E-42. A P-value of \<0.05 was considered significant.|t-test, 2 sided|||||||<0.0000001
92275397|NCT01473758|184453117|SUPERIORITY_OR_OTHER||LS Mean Difference|1.404|STANDARD_ERROR_OF_MEAN|3.07||0.6491|TWO_SIDED|95.0|-4.731|7.538||The model contains neutrophil count at Baseline and treatment as independent variables, fixed effects.|ANCOVA|||||7.538|-4.731|0.6491
92275398|NCT01473758|184453118|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.412|STANDARD_ERROR_OF_MEAN|2.687||0.8786|TWO_SIDED|95.0|-5.766|4.943||The model contains neutrophil count at Baseline and treatment as independent variables, fixed effects.|ANCOVA|||||4.943|-5.766|0.8786
92275399|NCT02763579|184453175|SUPERIORITY||Stratified Hazard Ratio|0.77||||0.017|TWO_SIDED|95.0|0.62|0.96|||Log Rank|||||0.96|0.62|0.0170
92275400|NCT02763579|184453176|SUPERIORITY||Stratified Hazard Ratio|0.7||||0.0069|TWO_SIDED|95.0|0.54|0.91|||Log Rank|||||0.91|0.54|0.0069
92275401|NCT02763579|184453177|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.55|1.37||||||||1.37|0.55|
92275402|NCT02763579|184453178|SUPERIORITY||Hazard Ratio (HR)|0.715||||0.0063|TWO_SIDED|95.0|0.562|0.911|||Log Rank|||||0.911|0.562|0.0063
92275403|NCT02763579|184453179|SUPERIORITY||Difference in Event Free Rate|8.47||||0.0593|TWO_SIDED|95.0|-0.33|17.27|||Z-test|||PFS Rate at 6 months||17.27|-0.33|0.0593
92275404|NCT02763579|184453179|SUPERIORITY||Difference in Event Free Rate|7.27||||0.0133|TWO_SIDED|95.0|1.52|13.02|||Z-test|||PFS Rate at 1 year||13.02|1.52|0.0133
92275405|NCT02763579|184453180|SUPERIORITY||Difference in Event Free Rate|13.46||||0.0095|TWO_SIDED|95.0|3.29|23.64|||Z-test|||OS Rate at 1 year||23.64|3.29|0.0095
92275406|NCT02763579|184453181|SUPERIORITY|Stratified analysis. Stratification factors: Sex (male vs female) and ECOG (0 vs 1).|Hazard Ratio (HR)|1.221||||0.3604|TWO_SIDED|95.0|0.795|1.874|||Log Rank|||Cough||1.874|0.795|0.3604
92275407|NCT02763579|184453181|SUPERIORITY|Stratified analysis. Stratification factors: Sex (male vs female) and ECOG (0 vs 1).|Hazard Ratio (HR)|1.058||||0.7712|TWO_SIDED|95.0|0.722|1.553|||Log Rank|||Pain in Chest||1.553|0.722|0.7712
92275408|NCT02763579|184453181|SUPERIORITY|Stratified analysis. Stratification factors: Sex (male vs female) and ECOG (0 vs 1).|Hazard Ratio (HR)|1.077||||0.6922|TWO_SIDED|95.0|0.747|1.552|||Log Rank|||Pain in Arm or Shoulder||1.552|0.747|0.6922
92275409|NCT02763579|184453181|SUPERIORITY|Stratified analysis. Stratification factors: Sex (male vs female) and ECOG (0 vs 1).|Hazard Ratio (HR)|0.748||||0.065|TWO_SIDED|95.0|0.549|1.019|||Log Rank|||Dyspnea||1.019|0.549|0.0650
92275410|NCT00936377|184453188|SUPERIORITY_OR_OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
92275411|NCT00936377|184453188|SUPERIORITY_OR_OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92159328|NCT00665561|184206203|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.44|2.18||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||2.18|0.44|
92159329|NCT00665561|184206204|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.51|1.59||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.59|0.51|
92159330|NCT00665561|184206205|SUPERIORITY||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.7|1.76||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.76|0.70|
92275412|NCT00936377|184453189|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92275413|NCT00936377|184453189|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92275414|NCT00936377|184453190|SUPERIORITY_OR_OTHER|||||||0.066|||||||Wilcoxon (Mann-Whitney)|||||||0.066
92275415|NCT00936377|184453190|SUPERIORITY_OR_OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92275416|NCT00936377|184453191|SUPERIORITY_OR_OTHER|||||||0.18||||||Percentage of CIWA scores rates as severe|Chi-squared, Corrected|||Percentage of CIWA scores rates as severe||||0.18
92275417|NCT00936377|184453191|SUPERIORITY_OR_OTHER|||||||0.35||||||Percentage of CIWA scores rates as severe|Chi-squared, Corrected|||||||0.35
92275418|NCT00936377|184453192|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||For hypotension||||1
92275419|NCT00936377|184453192|SUPERIORITY_OR_OTHER|||||||0.47|||||||Fisher Exact|||For hypotension||||0.47
92275420|NCT00936377|184453192|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||For bradycardia||||1
92275421|NCT00936377|184453192|SUPERIORITY_OR_OTHER|||||||0.2|||||||Fisher Exact|||For bradycardia||||0.2
92275422|NCT00936377|184453193|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Repeated measures ANOVA|||||||<0.05
92275423|NCT00936377|184453194|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92275424|NCT00936377|184453194|SUPERIORITY_OR_OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92275425|NCT00936377|184453195|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
92275426|NCT00936377|184453195|SUPERIORITY_OR_OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
92275427|NCT00909727|184453202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|6.6|18.3||The primary endpoint and key secondary endpoints were tested in sequence. test 1: primary (α=0.05); test 2: using Hochberg's step-up procedure on weight (Wk 24) and sweat chloride (Wk 24)(α=0.05); test 3: CFQ-R respiratory domain score (Wk 24).|Mixed Models Analysis|Denominator degrees of freedom were estimated using the Kenward-Roger approximation. No imputation of missing data was done.||The primary analysis for the primary efficacy variable was based on a Mixed-Effects Model for Repeated Measures (MMRM). The model included absolute change from baseline in percent predicted forced expiratory volume in 1 second (FEV1) as the dependent variable, treatment (ivacaftor versus placebo) and visit (Day 15, Week 8, Week 16, and Week 24) as fixed effects, and subject as a random effect, with adjustment for the continuous baseline value of percent predicted FEV1.||18.3|6.6|<0.0001
92275428|NCT00909727|184453203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|2.7||0.0006|TWO_SIDED|95.0|4.5|15.5||There was no adjustment for multiple comparisons.|Mixed Models Analysis|Denominator degrees of freedom were estimated using the Kenward-Roger approximation. no imputation of missing data was done.||Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint, a Mixed-Effects Model for Repeated Measures (MMRM). Estimates were obtained from MMRM with dependent variable absolute change from baseline, fixed effects for categorical visit \& treatment group, \& adjustment for the continuous baseline value of percent predicted FEV1, using unstructured covariance matrix.||15.5|4.5|0.0006
92275429|NCT00909727|184453204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1|STANDARD_ERROR_OF_MEAN|3.7||0.1092|TWO_SIDED|95.0|-1.4|13.5||The primary endpoint and key secondary endpoints were tested in sequence. test 1: primary (α=0.05); test 2: using Hochberg's step-up procedure on weight (Wk 24) and sweat chloride (Wk 24)(α=0.05); test 3: CFQ-R respiratory domain score (Wk 24).|Mixed Models Analysis|||Through Week 24: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint, a Mixed-Effects Model for Repeated Measures (MMRM), with the addition of the baseline domain score as a covariate.||13.5|-1.4|0.1092
92399997|NCT02960217|184691624|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.66||0.8345|TWO_SIDED|95.0|-3.8|3.1||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||3.1|-3.8|0.8345
92275430|NCT00909727|184453204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|STANDARD_ERROR_OF_MEAN|3.3||0.1354|TWO_SIDED|95.0|-1.6|11.8||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Through Week 48: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint, a Mixed-Effects Model for Repeated Measures (MMRM), with the addition of the baseline domain score as a covariate.||11.8|-1.6|0.1354
92369383|NCT02993822|184643595|SUPERIORITY||Mean Difference (Final Values)|-11.8||||0.005|TWO_SIDED|95.0|-20.0|-3.6|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-3.6|-20.0|0.005
92399998|NCT02960217|184691624|SUPERIORITY|||||||0.2894|||||||Wilk-Shapiro Test for Normality|||||||0.2894
92399999|NCT02960217|184691625|SUPERIORITY|||||||0.0005|||||||Wilk-Shapiro Test for Normality|||||||0.0005
92159331|NCT00665561|184206206|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.25|4.93||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||4.93|0.25|
92159332|NCT00665561|184206207|SUPERIORITY||Risk Ratio (RR)|0.66|||||TWO_SIDED|95.0|0.18|2.47||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||2.47|0.18|
92159333|NCT00665561|184206208|SUPERIORITY||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.57|1.08||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.08|0.57|
92159334|NCT00665561|184206209|SUPERIORITY||Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.61|0.99||||||Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||0.99|0.61|
92159335|NCT00665561|184206210|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.64|1.33||||||All malignancies: Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.33|0.64|
92400000|NCT02960217|184691625|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|0.2||||0.4898|TWO_SIDED|95.0|-5.4|5.8||Hodges-Lehmann estimate of the location shift with 95% CI and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Number of participants in this analysis completed both UX007 treatment period and placebo treatment period (n=21).||5.8|-5.4|0.4898
92159336|NCT00665561|184206210|SUPERIORITY||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.32|1.52||||||AIDS defining malignancies: Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.52|0.32|
92400001|NCT02960217|184691626|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|1.42||0.5853|TWO_SIDED|95.0|-2.2|3.8||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||3.8|-2.2|0.5853
92400002|NCT02960217|184691626|SUPERIORITY|||||||0.1066|||||||Wilk-Shapiro Test for Normality|||||||0.1066
92159337|NCT00665561|184206210|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.66|1.52||||||Non-AIDS defining malignancies: Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.52|0.66|
92159338|NCT00665561|184206211|SUPERIORITY||Risk Ratio (RR)|0.62|||||TWO_SIDED|95.0|0.35|1.1||||||Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.10|0.35|
92159339|NCT00665561|184206212|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.59|1.52||||||Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.52|0.59|
92159340|NCT00665561|184206213|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.66|1.28||||||Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.28|0.66|
92159341|NCT00665561|184206214|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.6225|TWO_SIDED|95.0|0.66|1.28|||Regression, Cox|||||1.28|0.66|0.6225
92159342|NCT04949399|184206216|SUPERIORITY||Difference (%)|30.4|||<|0.0001|TWO_SIDED|95.0|23.5|37.2||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||37.2|23.5|<.0001
92400003|NCT02960217|184691627|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.33||0.1875|TWO_SIDED|95.0|-4.6|1.0||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||1.0|-4.6|0.1875
92400004|NCT02960217|184691627|SUPERIORITY|||||||0.2034|||||||Wilk-Shapiro Test for Normality|||||||0.2034
92218698|NCT04451161|184338425|SUPERIORITY|||||||0.86||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants completed TF-CBT with at least one student at the end of the sustainment phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as completed TF-CBT) was binary: either the participant adopted at least one of these components with a student, or they did not by the end of the sustainment phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.86
92218699|NCT04451161|184338426|SUPERIORITY||Slope|3.425|STANDARD_ERROR_OF_MEAN|2.783||0.22|TWO_SIDED|95.0|-2.064|8.915||Mixed model analysis was used (students were clustered under the providers who recruited them) to understand if BASIS+TF-CBT has a greater effect on decreasing trauma PTSD symptoms (measured using CPSS-V) over time.|Mixed Models Analysis|||We compared the BASIS group (receiving TF-CBT) against Enhanced Treatment as Usual to evaluate whether TF-CBT reduced trauma-related PTSD symptoms over time, as measured by CPSS-V scores (higher scores indicate greater symptom severity).||8.915|-2.064|0.22
92218700|NCT04451161|184338426|SUPERIORITY||Slope|4.97|STANDARD_ERROR_OF_MEAN|2.774||0.075|TWO_SIDED|95.0|-0.502|10.443||Mixed model analysis was used (the students were clustered under the providers who recruited them) to understand if AC+TF-CBT has a greater effect on decreasing trauma PTSD symptoms (measured using CPSS-V) over time.|Mixed Models Analysis|||We compared the AC group (receiving TF-CBT) against Enhanced Treatment as Usual to evaluate whether TF-CBT reduced trauma-related PTSD symptoms over time, as measured by CPSS-V scores (higher scores indicate greater symptom severity).||10.443|-.502|0.075
92218701|NCT04451161|184338427|SUPERIORITY||Slope|1.024|STANDARD_ERROR_OF_MEAN|0.952||0.284|TWO_SIDED|95.0|-0.855|2.904||Mixed model analysis was used (students were clustered under the providers who recruited them) to understand if BASIS+TF-CBT has a greater effect on decreasing negative mood and feelings symptoms (measured using SMFQ) over time.|Mixed Models Analysis|||We compared the BASIS group (receiving TF-CBT) against Enhanced Treatment as Usual to evaluate whether TF-CBT decreased children's negative moods and feelings due to their trauma (higher score indicates more negative mood and feelings).||2.904|-.855|0.284
92218702|NCT04451161|184338427|SUPERIORITY||Slope|1.908|STANDARD_ERROR_OF_MEAN|0.951||0.046|TWO_SIDED|95.0|0.03|3.786||Mixed model analysis was used (students were clustered under the providers who recruited them) to understand if AC+TF-CBT has a greater effect on decreasing negative mood and feelings symptoms (measured using SMFQ) over time.|Mixed Models Analysis|||We compared the AC group (receiving TF-CBT) against Enhanced Treatment as Usual to evaluate whether TF-CBT decreased children's negative moods and feelings due to their trauma (higher score indicates more negative mood and feelings).||3.786|.03|.046
92218703|NCT03596866|184338428|SUPERIORITY||Hazard Ratio (HR)|0.968|||=|0.8672|TWO_SIDED|95.0|0.658|1.424||P-value from a 2-sided stratified log-rank test using the stratification factors: presence of intracranial central nervous system (CNS) metastases at baseline, and best prior response to crizotinib therapy as assessed by the investigator.|2-sided Stratified Log-rank Test||The hazard ratio was obtained using the stratified Cox regression model with the same stratification factors.|||1.424|0.658|=0.8672
92218704|NCT03596866|184338429|SUPERIORITY||Hazard Ratio (HR)|1.592|||=|0.0713|TWO_SIDED|95.0|0.956|2.652||P-value was based on a 2-sided stratified log-rank test using the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|Log Rank||The HR was obtained using the stratified Cox regression model with the same stratification factors.|||2.652|0.956|=0.0713
92218705|NCT03596866|184338430|SUPERIORITY||Hazard Ratio (HR)|1.232|||=|0.2501|TWO_SIDED|95.0|0.862|1.761||P-value was based on a 2-sided stratified log-rank test using the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|Log Rank||The HR was obtained using the stratified Cox regression model with the same stratification factors.|||1.761|0.862|=0.2501
92218706|NCT03596866|184338431|SUPERIORITY||Odds Ratio (OR)|0.7|||=|0.1555|TWO_SIDED|95.0|0.42|1.15||P-value was from a Cochran-Mantel-Haenszel test stratified by the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|Cochran-Mantel-Haenszel||Odds ratio stratified by the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|BIRC Assessed||1.15|0.42|=0.1555
92218707|NCT03596866|184338431|SUPERIORITY||Odds Ratio (OR)|0.55|||=|0.0169|TWO_SIDED|95.0|0.33|0.9||P-value was from a Cochran-Mantel-Haenszel test stratified by the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|Cochran-Mantel-Haenszel||Odds ratio stratified by the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|Investigator Assessed||0.90|0.33|=0.0169
92347673|NCT05233761|184597694|SUPERIORITY|The mean nightly difference in Awake Time (% TST) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.6||0.24|TWO_SIDED|95.0|-0.5|2.0|||t-test, 2 sided|||The null hypothesis was that there was no difference in Awake Time (% TST) sleep in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||2.0|-.5|0.24
92159343|NCT04949399|184206217|SUPERIORITY||Difference (%)|39.8|||<|0.0001|TWO_SIDED|95.0|32.0|47.7||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||47.7|32.0|<0.0001
92159344|NCT04949399|184206218|SUPERIORITY||Difference (%)|41.6|||<|0.0001|TWO_SIDED|95.0|33.7|49.6||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||49.6|33.7|<0.0001
92159345|NCT04949399|184206221|SUPERIORITY||Difference (%)|54.8|||<|0.0001|TWO_SIDED|95.0|46.8|62.8||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||62.8|46.8|<.0001
92159346|NCT04949399|184206222|SUPERIORITY||Difference (%)|39.1|||<|0.0001|TWO_SIDED|95.0|30.5|47.8||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||47.8|30.5|<.0001
92159347|NCT04949399|184206223|SUPERIORITY||Difference (%)|44.6|||<|0.0001|TWO_SIDED|95.0|36.8|52.5||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||52.5|36.8|<.0001
92159348|NCT04949399|184206224|SUPERIORITY||Difference (SE)|-5.7|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|-6.7|-4.7||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||||-4.7|-6.7|<.0001
92159349|NCT04949399|184206227|SUPERIORITY||Difference (%)|46.1|||<|0.0001|TWO_SIDED|96.0|38.1|54.2||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||54.2|38.1|<0.0001
92159350|NCT04949399|184206228|SUPERIORITY||Difference (%)|51.9|||<|0.0001|TWO_SIDED|95.0|43.3|60.5||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||60.5|43.3|<0.0001
92159351|NCT04949399|184206229|SUPERIORITY||Difference (%)|40.1|||<|0.0001|TWO_SIDED|95.0|31.3|49.0||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||49.0|31.3|<0.0001
92159352|NCT04949399|184206230|SUPERIORITY||Difference (%)|45.2|||<|0.0001|TWO_SIDED|95.0|37.1|53.2||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||53.2|37.1|<0.0001
92159353|NCT04949399|184206231|SUPERIORITY||Difference (SE)|-5.7|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-6.8|-4.6||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||||-4.6|-6.8|<0.0001
92159354|NCT04949399|184206232|SUPERIORITY||Difference (SE)|-5.6|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-6.7|-4.5||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 30||-4.5|-6.7|<0.0001
92159355|NCT04949399|184206232|SUPERIORITY||Difference (SE)|-5.0|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-6.0|-3.9||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 60||-3.9|-6.0|<0.0001
92159356|NCT04949399|184206232|SUPERIORITY||Difference (SE)|-3.9|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-4.9|-2.8||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 90||-2.8|-4.9|<0.0001
92159357|NCT01871285|184206239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.182||||0.7942|TWO_SIDED|95.0|-1.6|1.24|||Mixed Models Analysis|||||1.24|-1.60|.7942
92159358|NCT01871285|184206239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.683||||0.6155|TWO_SIDED|95.0|-11.89|13.25|||Mixed Models Analysis|||||13.25|-11.89|.6155
92159359|NCT01871285|184206240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.182||||0.7942|TWO_SIDED|95.0|-1.6|1.24|||Mixed Models Analysis|||||1.24|-1.60|.7942
92159360|NCT01871285|184206240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.683||||0.6155|TWO_SIDED|95.0|-11.89|13.25|||Mixed Models Analysis|||||13.25|-11.89|.6155
92159361|NCT05397470|184206241|OTHER||Least square mean difference|0.003||||0.7501|TWO_SIDED|95.0|-0.014|0.02|||Mixed Model Repeated Measures|||||0.020|-0.014|0.7501
92159362|NCT02162446|184206288|OTHER|||||||0.016|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in total tissues between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.016
92159363|NCT02162446|184206288|OTHER|||||||0.004|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in total tissues between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.004
92159364|NCT02162446|184206288|OTHER|||||||0.012|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.012
92159365|NCT02162446|184206288|OTHER|||||||0.004|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.004
92159366|NCT02162446|184206288|OTHER|||||||0.5|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.500
92159367|NCT02162446|184206288|OTHER|||||||1|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||1.000
92159368|NCT02162446|184206290|OTHER|||||||0.25|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.250
92159369|NCT02162446|184206290|OTHER|||||||0.004|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.004
92159370|NCT02162446|184206290|OTHER|||||||0.688|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.688
92159371|NCT02162446|184206290|OTHER|||||||0.578|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.578
92159372|NCT02162446|184206291|OTHER|||||||0.027|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in liver between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.027
92159373|NCT02162446|184206291|OTHER|||||||0.219|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in lymph node between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.219
92347674|NCT05233761|184597695|SUPERIORITY|The mean nightly difference in SWS + REM Sleep (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|4.9|STANDARD_ERROR_OF_MEAN|2.6||0.0117|TWO_SIDED|95.0|1.7|13.3|||t-test, 2 sided|||The null hypothesis was that there was no difference in SWS + REM Sleep (min) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||13.3|1.7|0.0117
92347675|NCT05233761|184597695|SUPERIORITY|The mean nightly difference in SWS Sleep (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|1.3||0.0126|TWO_SIDED|95.0|0.7|5.9|||t-test, 2 sided|||The null hypothesis was that there was no difference in SWS Sleep (min) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||5.9|0.7|0.0126
92347676|NCT05233761|184597695|SUPERIORITY|The mean nightly difference in REM sleep (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|2.0||0.51|TWO_SIDED|95.0|-2.7|5.3|||t-test, 2 sided|||The null hypothesis was that there was no difference in REM Sleep (min) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||5.3|-2.7|0.51
92347677|NCT05233761|184597695|SUPERIORITY|The mean nightly difference in Light Sleep (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|3.6||0.0574|TWO_SIDED|95.0|-13.7|0.2|||t-test, 2 sided|||The null hypothesis was that there was no difference in Light Sleep (min) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||0.2|-13.7|0.0574
92347678|NCT05233761|184597695|SUPERIORITY|The mean nightly difference in Awake Time (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|2.4||0.3|TWO_SIDED|95.0|-2.4|6.9|||t-test, 2 sided|||The null hypothesis was that there was no difference in Awake Time (min) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||6.9|-2.4|0.3
92347679|NCT05233761|184597695|SUPERIORITY|The mean nightly difference in Total Sleep Time (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|4.7||0.14|TWO_SIDED|95.0|-16.1|2.4|||t-test, 2 sided|||The null hypothesis was that there was no difference in Total Sleep Time (min) sleep in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||2.4|-16.1|0.14
92347680|NCT05233761|184597696|SUPERIORITY|"The mean nightly difference in the perception of better sleep in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment differences was estimated and constructed using the above-mentioned method."|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.5||0.53|TWO_SIDED|95.0|-0.7|1.3|||t-test, 2 sided|||"The null hypothesis was that there was no difference in the perception of better sleep in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups."||1.3|-.7|0.53
92369384|NCT02993822|184643596|SUPERIORITY|||||||0.004|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.004
92369385|NCT02993822|184643596|SUPERIORITY|||||||0.134|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.134
92369386|NCT02993822|184643596|SUPERIORITY|||||||0.003|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.003
92369387|NCT02993822|184643597|SUPERIORITY|||||||0.401|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.401
92347681|NCT05233761|184597696|SUPERIORITY|"The mean nightly difference in the perception of sleep induction in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment differences was estimated and constructed using the above-mentioned method."|Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.6||0.32|TWO_SIDED|95.0|-0.6|1.7|||t-test, 2 sided|||"The null hypothesis was that there was no difference in the perception of sleep induction in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups."||1.7|-0.6|0.32
92347682|NCT05233761|184597696|SUPERIORITY|"The mean nightly difference in the perception of sleep duration in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment differences was estimated and constructed using the above-mentioned method."|Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2|TWO_SIDED|95.0|-0.4|1.9|||t-test, 2 sided|||"The null hypothesis was that there was no difference in the perception of sleep duration in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups."||1.9|-0.4|0.20
92347683|NCT05233761|184597696|SUPERIORITY|"The mean nightly difference in the perception of sleep depth in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment differences was estimated and constructed using the above-mentioned method."|Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.6||0.45|TWO_SIDED|95.0|-0.7|1.6|||t-test, 2 sided|||"The null hypothesis was that there was no difference in the perception of sleep depth in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups."||1.6|-0.7|0.45
92347684|NCT05233761|184597696|SUPERIORITY|"The mean nightly difference in the perception of vivid dreams in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment differences was estimated and constructed using the above-mentioned method."|Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.7||0.4|TWO_SIDED|95.0|-0.8|1.9|||t-test, 2 sided|||"The null hypothesis was that there was no difference in the perception of vivid dreams in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups."||1.9|-0.8|0.4
92347685|NCT04235374|184597697|SUPERIORITY||Mean Difference (Final Values)|0.06|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<.05
92347686|NCT04235374|184597698|SUPERIORITY||Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<.05
92347687|NCT04235374|184597699|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||.05
92347688|NCT04235374|184597700|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||.05
92347689|NCT04235374|184597701|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||.05
92347690|NCT01394276|184597706|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0237|||||||Exact binomial proportion test|||||||0.0237
92347691|NCT01394276|184597707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||Exact binomial proportion test|||||||0.0003
92347692|NCT01394276|184597719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.808|TWO_SIDED|95.0|-0.3|0.4|||t-test, 2 sided|||At Baseline: mean difference of scores of DAS28 between the two groups was calculated.||0.4|-0.3|0.8080
92400005|NCT02960217|184691628|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.56||0.1138|TWO_SIDED|95.0|-0.7|5.9||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||5.9|-0.7|0.1138
92347693|NCT01394276|184597719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.4884|TWO_SIDED|95.0|-0.5|0.3|||t-test, 2 sided|||At Month 1: mean difference of scores of DAS28 between the two groups was calculated.||0.3|-0.5|0.4884
92347694|NCT01394276|184597719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.3||||0.0947|TWO_SIDED|95.0|-0.7|0.1|||t-test, 2 sided|||At Month 2: mean difference of scores of DAS28 between the two groups was calculated.||0.1|-0.7|0.0947
92347695|NCT01394276|184597719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.8181|TWO_SIDED|95.0|-0.4|0.3|||t-test, 2 sided|||At Month 4: mean difference of scores of DAS28 between the two groups was calculated.||0.3|-0.4|0.8181
92347696|NCT01394276|184597719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.9721|TWO_SIDED|95.0|-0.4|0.3|||t-test, 2 sided|||At Month 6: mean difference of scores of DAS28 between the two groups was calculated.||0.3|-0.4|0.9721
92347697|NCT01394276|184597719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1||||0.5832|TWO_SIDED|95.0|-0.3|0.5|||t-test, 2 sided|||At Month 12: mean difference of scores of DAS28 between the two groups was calculated.||0.5|-0.3|0.5832
92347698|NCT01394276|184597720|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.5||||0.4211|TWO_SIDED|95.0|-5.1|12.2|||t-test, 2 sided|||At Baseline: mean difference of scores of fatigue between the two groups was calculated.||12.2|-5.1|0.4211
92347699|NCT01394276|184597720|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.1||||0.6749|TWO_SIDED|95.0|-7.9|12.1|||t-test, 2 sided|||At Month 1: mean difference of scores of fatigue between the two groups was calculated.||12.1|-7.9|0.6749
92347700|NCT01394276|184597720|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.4||||0.1817|TWO_SIDED|95.0|-3.0|15.9|||t-test, 2 sided|||At Month 2: mean difference of scores of fatigue between the two groups was calculated.||15.9|-3.0|0.1817
92347701|NCT01394276|184597720|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.8||||0.5182|TWO_SIDED|95.0|-5.8|11.4|||t-test, 2 sided|||At Month 4: mean difference of scores of fatigue between the two groups was calculated.||11.4|-5.8|0.5182
92400006|NCT02960217|184691628|SUPERIORITY|||||||0.1478|||||||Wilk-Shapiro Test for Normality|||||||0.1478
92275431|NCT00909727|184453205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-54.3|STANDARD_ERROR_OF_MEAN|3.7|<|0.0001|TWO_SIDED|95.0|-61.8|-46.8||The primary endpoint and key secondary endpoints were tested in sequence. test 1: primary (α=0.05); test 2: using Hochberg's step-up procedure on weight (Wk 24) and sweat chloride (Wk 24)(α=0.05); test 3: CFQ-R respiratory domain score (Wk 24).|Mixed Models Analysis|||Through Week 24: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for sweat chloride and percent predicted forced expiratory volume in 1 second (FEV1), using unstructured covariance matrix.||-46.8|-61.8|<0.0001
92159374|NCT02162446|184206292|OTHER|||||||0.064|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.064
92275432|NCT00909727|184453205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-53.5|STANDARD_ERROR_OF_MEAN|3.7|<|0.0001|TWO_SIDED|95.0|-60.9|-46.0||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Through Week 48: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for sweat chloride and percent predicted forced expiratory volume in 1 second (FEV1), using unstructured covariance matrix.||-46.0|-60.9|<0.0001
92275433|NCT00909727|184453206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.5||0.0004|TWO_SIDED|95.0|0.9|2.9||The primary endpoint and key secondary endpoints were tested in sequence. test 1: primary (α=0.05); test 2: using Hochberg's step-up procedure on weight (Wk 24) and sweat chloride (Wk 24)(α=0.05); test 3: CFQ-R respiratory domain score (Wk 24).|Mixed Models Analysis|||At Week 24: Analysis for this variable was based on a Linear Mixed Effect (LME) model with dependent variable weight; treatment as a fixed effect; and intercept, visit, and treatment by visit interaction as random effects, with adjustment for baseline percent predicted forced expiratory volume in 1 second (FEV1) severity.||2.9|0.9|0.0004
92275434|NCT00909727|184453206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|0.7||0.0002|TWO_SIDED|95.0|1.3|4.2||P-value is for the treatment effect at Week 48 (obtained as a linear contrast of treatment at Day 336). There was no adjustment for multiple comparisons.|Mixed Models Analysis|||At Week 48: Analysis for this variable was based on a Linear Mixed Effect (LME) model with random intercept and random slope, treatment as a fixed effect, and visit (days on study) and treatment by visit interaction as random effects, with adjustment for categorical baseline percent predicted forced expiratory volume in 1 second (FEV1) severity.||4.2|1.3|0.0002
92275435|NCT00829413|184453232|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|37.8|||<|0.0001|TWO_SIDED|95.0|27.4|48.2|||McNemar|||||48.2|27.4|<.0001
92275436|NCT00829413|184453232|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|40.3|||<|0.0001|TWO_SIDED|95.0|30.4|50.3|||McNemar|||||50.3|30.4|<.0001
92275437|NCT00829413|184453232|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|75.6|||<|0.0001|TWO_SIDED|95.0|67.9|83.3|||McNemar|||||83.3|67.9|<.0001
92275438|NCT00829413|184453233|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|7.9||||0.138|TWO_SIDED|95.0|-2.4|18.2|||McNemar|||||18.2|-2.4|0.1380
92275439|NCT00829413|184453233|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|28.6|||<|0.0001|TWO_SIDED|95.0|19.7|37.5|||McNemar|||||37.5|19.7|<.0001
92275440|NCT00829413|184453233|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|50.7|||<|0.0001|TWO_SIDED|95.0|42.0|59.5|||McNemar|||||59.5|42.0|<.0001
92275441|NCT00829413|184453234|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|21.6|||<|0.0001|TWO_SIDED|95.0|14.1|29.2|||McNemar|||||29.2|14.1|<.0001
92275442|NCT00829413|184453234|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|34.0|||<|0.0001|TWO_SIDED|95.0|27.3|40.7|||McNemar|||||40.7|27.3|<.0001
92275443|NCT00829413|184453234|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|75.6|||<|0.0001|TWO_SIDED|95.0|67.9|83.3|||McNemar|||||83.3|67.9|<.0001
92275444|NCT00829413|184453235|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
92275445|NCT00829413|184453235|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
92275446|NCT00829413|184453235|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
92275447|NCT00829413|184453236|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
92275448|NCT00829413|184453236|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
92347702|NCT01394276|184597720|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.7||||0.0025|TWO_SIDED|95.0|4.9|22.6|||t-test, 2 sided|||At Month 6: mean difference of scores of fatigue between the two groups was calculated.||22.6|4.9|0.0025
92159375|NCT02162446|184206292|OTHER|||||||0.339|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.339
92275449|NCT00829413|184453236|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
92275450|NCT00294723|184453240|NON_INFERIORITY_OR_EQUIVALENCE|The two sided 95% confidence interval for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was shown to be non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete confidence interval was below 0%.|Estimated treatment difference, LS Mean|-0.62|||<|0.0001||95.0|-0.83|-0.42||"The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity.~2-sided significance level 5%"|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.42|-0.83|<0.0001
92347703|NCT01394276|184597720|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.9||||0.354|TWO_SIDED|95.0|-4.4|12.1|||t-test, 2 sided|||At Month 12: mean difference of scores of fatigue between the two groups was calculated.||12.1|-4.4|0.3540
92347704|NCT01394276|184597721|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.7343|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|||At Baseline: mean difference of scores of HAQ between the two groups was calculated.||0.2|-0.2|0.7343
92400007|NCT02960217|184691629|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.62||0.5505|TWO_SIDED|95.0|-4.6|2.6||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||2.6|-4.6|0.5505
92400008|NCT02960217|184691629|SUPERIORITY|||||||0.4459|||||||Wilk-Shapiro Test for Normality|||||||0.4459
92400009|NCT02960217|184691630|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|2.84||0.5544|TWO_SIDED|95.0|-8.1|4.6||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||4.6|-8.1|0.5544
92159376|NCT02162446|184206292|OTHER|||||||0.001|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.001
92347705|NCT01394276|184597721|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.2||||0.1098|TWO_SIDED|95.0|-0.4|0.0|||t-test, 2 sided|||At Month 1: mean difference of scores of HAQ between the two groups was calculated.||0.0|-0.4|0.1098
92347706|NCT01394276|184597721|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.4932|TWO_SIDED|95.0|-0.3|0.2|||t-test, 2 sided|||At Month 2: mean difference of scores of HAQ between the two groups was calculated.||0.2|-0.3|0.4932
92347707|NCT01394276|184597721|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.2468|TWO_SIDED|95.0|-0.4|0.1|||t-test, 2 sided|||At Month 4: mean difference of scores of HAQ between the two groups was calculated.||0.1|-0.4|0.2468
92347708|NCT01394276|184597721|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.9639|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|||At Month 6: mean difference of scores of HAQ between the two groups was calculated.||0.2|-0.2|0.9639
92347709|NCT01394276|184597721|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1||||0.6696|TWO_SIDED|95.0|-0.2|0.3|||t-test, 2 sided|||At Month 12: mean difference of scores of HAQ between the two groups was calculated.||0.3|-0.2|0.6696
92347710|NCT04530344|184597722|SUPERIORITY||Hazard Ratio (HR)|0.422||||0.0414|TWO_SIDED|95.0|0.18|0.99|||Log Rank|The p-value was based on the log-rank test stratified by randomization stratification factor between treatment and vehicle.||Cox regression model stratified by stratification factor (treatment assignment in the parent studies) was conducted to compare the difference in hazard rate between treatment and vehicle.||0.990|0.180|0.0414
92347711|NCT04530344|184597723|SUPERIORITY||Hazard Ratio (HR)|0.316||||0.0003|TWO_SIDED|95.0|0.165|0.606|||Log Rank|The p-value was based on the log-rank test stratified by randomization stratification factor between treatment and vehicle.||Cox regression model stratified by stratification factor (treatment assignment in the parent studies) was conducted to compare the difference in hazard rate between treatment and vehicle.||0.606|0.165|0.0003
92347712|NCT04478266|184597755|SUPERIORITY||Hazard Ratio (HR)|1.209||||0.9304|TWO_SIDED|95.0|0.939|1.557||One-sided p-value based on Stratified log-rank test. Threshold for statistical significance at 0.025 level.|Stratified Log-Rank test|Stratified on presence of De-novo metastatic disease, Postmenopausal women and Visceral metastasis according to IRT.|Letrozole + Palbociclib versus Amcenestrant + Palbociclib|A hierarchical testing procedure was used to ensure a strong control of the overall Type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at one-sided 2.5% for the primary and the first secondary outcome.||1.557|0.939|0.9304
92400010|NCT02960217|184691630|SUPERIORITY|||||||0.1104|||||||Wilk-Shapiro Test for Normality|||||||0.1104
92159377|NCT02162446|184206292|OTHER|||||||0|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.000
92347713|NCT04058717|184597772|OTHER||H-statistic|10.23||||0.017|TWO_SIDED||||||Kruskal-Wallis|||||||0.017
92347714|NCT04058717|184597773|OTHER||H-statistic|7.57||||0.056|TWO_SIDED||||||Kruskal-Wallis|||||||0.056
92347715|NCT04058717|184597774|OTHER||H-statistic|1.26||||0.74|TWO_SIDED||||||Kruskal-Wallis|||||||0.74
92347716|NCT04058717|184597775|OTHER||Slope|4.13||||0.248|TWO_SIDED||||||Kruskal-Wallis|||||||0.248
92347717|NCT04058717|184597776|OTHER||H-statistic|9.33||||0.025|TWO_SIDED||||||Kruskal-Wallis|||||||0.025
92347718|NCT04058717|184597777|OTHER|||||||0.289|||||||Fisher Exact|||||||0.289
92347719|NCT02799602|184597778|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.675|||<|0.0001|TWO_SIDED|95.0|0.568|0.801||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.801|0.568|<0.0001
92400011|NCT02960217|184691631|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|3.27||0.7145|TWO_SIDED|95.0|-8.5|6.1|||ANCOVA|||||6.1|-8.5|0.7145
92400012|NCT02960217|184691631|SUPERIORITY|||||||0.8255|||||||Wilk-Shapiro Test for Normality|||||||0.8255
92400013|NCT02960217|184691632|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.82||0.4176|TWO_SIDED|95.0|-2.5|5.6||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||5.6|-2.5|0.4176
92400014|NCT02960217|184691632|SUPERIORITY|||||||0.6557|||||||Wilk-Shapiro Test for Normality|||||||0.6557
92400015|NCT02960217|184691633|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.09||0.0935|TWO_SIDED|95.0|-0.4|4.5||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||4.5|-0.4|0.0935
92275451|NCT00294723|184453240|NON_INFERIORITY_OR_EQUIVALENCE|The two sided 95% confidence interval for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was shown to be non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete confidence interval was below 0%. Superiority of 1.2 mg liraglutide was only tested if 1.2 mg liraglutide was non-inferior to glimepiride and 1.8 mg liraglutide was superior to glimepiride.|Estimated treatment difference, LS Mean|-0.33||||0.0014||95.0|-0.53|-0.13||"The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity.~2-sided significance level 5%"|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.13|-0.53|0.0014
92275452|NCT00294723|184453240|NON_INFERIORITY_OR_EQUIVALENCE|A test for superiority of liraglutide 1.8 mg to liraglutide 1.2 mg was performed to compare the two doses. Superiority of liraglutide 1.8 mg was concluded if the upper limit of the 2-sided 95% CI for the treatment difference (liraglutide 1.8 mg - liraglutide 1.2 mg) was below 0%.|Estimated treatment difference, LS Mean|-0.29||||0.0046||95.0|-0.5|-0.09||2-sided significance level 5%|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.09|-0.50|0.0046
92275453|NCT00294723|184453241|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.58|||<|0.0001||95.0|-4.28|-2.87||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.87|-4.28|<.0001
92275454|NCT00294723|184453241|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.17|||<|0.0001||95.0|-3.87|-2.47||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.47|-3.87|<.0001
92275455|NCT00294723|184453241|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-0.41||||0.2584||95.0|-1.11|0.3||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||0.30|-1.11|0.2584
92275456|NCT00294723|184453242|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.65|||<|0.0001||95.0|-4.44|-2.86||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.86|-4.44|<.0001
92275457|NCT00294723|184453242|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-2.84|||<|0.0001||95.0|-3.63|-2.06||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.06|-3.63|<.0001
92275458|NCT00294723|184453242|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-0.8||||0.0462||95.0|-1.59|-0.01||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-0.01|-1.59|0.0462
92275459|NCT00294723|184453243|NON_INFERIORITY_OR_EQUIVALENCE|The two sided 95% confidence interval for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was shown to be non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete confidence interval was below 0%.|Estimated treatment difference, LS Mean|-0.6|||<|0.0001||95.0|-0.83|-0.38||"The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity.~2-sided significance level 5%"|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.38|-0.83|<.0001
92347720|NCT02799602|184597781|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.357|||<|0.0001|TWO_SIDED|95.0|0.302|0.421||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.421|0.302|<0.0001
92347721|NCT02799602|184597783|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.792||||0.0058|TWO_SIDED|95.0|0.66|0.95||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.950|0.660|0.0058
92347722|NCT02799602|184597785|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.609|||<|0.0001|TWO_SIDED|95.0|0.516|0.718||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.718|0.516|<0.0001
92347723|NCT02799602|184597787|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.712||||0.0081|TWO_SIDED|95.0|0.539|0.94||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.940|0.539|0.0081
92347724|NCT02799602|184597789|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio, log|0.388|||<|0.0001|TWO_SIDED|95.0|0.328|0.458||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.458|0.328|<0.0001
92347725|NCT02799602|184597791|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|1.043||||0.7073|TWO_SIDED|95.0|0.894|1.217||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|1.217|0.894|0.7073
92347726|NCT02799602|184597793|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.688||||0.0037|TWO_SIDED|95.0|0.523|0.906||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.906|0.523|0.0037
92347727|NCT06006208|184597795|SUPERIORITY|||||||0.275|||||||Wilcoxon (Mann-Whitney)|||||||0.275
92347728|NCT06006208|184597796|SUPERIORITY|||||||0.891|||||||Wilcoxon (Mann-Whitney)|||||||0.891
92347729|NCT04338581|184597859|SUPERIORITY|||||||0.411||||||P-value is from comparing the proportion of F-VASI35 Responders between the two treatment groups using a Fisher's exact test.|Fisher Exact|||The p-value compares AMG 714 and Placebo treatment groups.||||0.411
92347730|NCT00770809|184597867|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED|||||Participants were stratified by clinical stage (II vs III) and hormone receptor status (positive/negative).|Log Rank|||||||0.13
92347731|NCT00770809|184597867|SUPERIORITY_OR_OTHER_LEGACY|||||||0.072|TWO_SIDED|||||Participants were stratified by clinical stage (II vs III) and hormone receptor status (positive/negative).|Log Rank|||||||0.072
92347732|NCT03834168|184597874|OTHER|||||||0.003|||||||Regression (Cosinor Fit)|||||||0.003
92159378|NCT02162446|184206292|OTHER|||||||0.297|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.297
92347733|NCT03834168|184597874|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<0.001
92347734|NCT00770367|184597877|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence.|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.37|TWO_SIDED||||||t-test, 2 sided|||A twosample comparison of mean treatment differences conducted using a pre-determined significance level of alpha level \<0.05. 2 a comparison of means for NOx levels at 12 weeks b/w groups. 3 on the change F2-isoprostanes at 12 weeks b/w groups.||||.37
92369388|NCT02993822|184643597|SUPERIORITY|||||||0.175|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.175
92369389|NCT02993822|184643597|SUPERIORITY|||||||0.126|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.126
92347735|NCT00435942|184597879|NON_INFERIORITY_OR_EQUIVALENCE|The proportion of subjects in the Effectiveness sample who were free from major device-related AEs at 1-year post-procedure was compared against a performance goal of 0.80 using a 1-sided z-test (normal approximation to the binomial) at an alpha level of 0.025. Rejection of the null hypothesis would provide evidence that this performance goal (proportion-free greater than 0.80) was met.|Proportion free|0.97|||>|0.8|ONE_SIDED|97.5|0.93||||1-sided z-test|97.5% 1-sided confidence interval||The proportion of subjects in the Effectiveness sample who were free from major device-related AEs at 1-year post-procedure was compared against a performance goal of 0.80 using a 1-sided z-test (normal approximation to the binomial) at an alpha level of 0.025. Rejection of the null hypothesis would provide evidence that this performance goal (proportion-free greater than 0.80) was met.|||.93|>0.80
92347736|NCT01033136|184597960|EQUIVALENCE|To test if MCET is equivalent to CPT in decreasing PTSD symptoms, we test the equivalence of the proportion of patients whose CAPS scores decrease by 10 from baseline, by testing whether the difference in proportions between the 2 interventions ≤ to the equivalence margin δb of .20. Results are reported based on 3-month follow-up data.||||||0.3||||||The threshold for statistical significance is p \<.05 and is not adjusted for multiple comparisons.|Fisher Exact|||||||0.30
92347737|NCT01033136|184597961|OTHER|||||||0.68||||||The threshold for statistical significance is p \<.05 and is not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom: 2, 54||Longitudinal analysis of PDSS scores||||0.68
92347738|NCT05383209|184597962|OTHER||Difference in response percentage|-5.0|||||TWO_SIDED|95.0|-24.9|13.4||||||||13.4|-24.9|
92347739|NCT05383209|184597962|OTHER||Slope|-0.2|||||TWO_SIDED|95.0|-20.6|20.6||||||||20.6|-20.6|
92347740|NCT05383209|184597963|OTHER||Difference in response percentage|5.3|||||TWO_SIDED|95.0|-13.2|26.0||||||||26.0|-13.2|
92347741|NCT00933933|184597977|SUPERIORITY_OR_OTHER||Clinical Specificity|99.77|||||TWO_SIDED|95.0|99.62|99.88|||Exact binomial|||||99.88|99.62|
92347742|NCT00933933|184597978|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0|||||TWO_SIDED|95.0|94.31|100.0|||Exact binomial|||||100.00|94.31|
92347743|NCT00933933|184597978|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0|||||TWO_SIDED|95.0|99.63|100.0|||Exact binomial|||||100.00|99.63|
92347744|NCT00933933|184597978|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0|||||TWO_SIDED|95.0|98.18|100.0|||Exact binomial|||||100.00|98.18|
92347745|NCT00933933|184597979|SUPERIORITY_OR_OTHER||Clinical Specificity|100.0|||||TWO_SIDED|95.0|99.18|100.0|||Exact binomial|||||100.00|99.18|
92347746|NCT00933933|184597979|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0|||||TWO_SIDED|95.0|94.48|100.0|||Exact binomial|||||100.00|94.48|
92347747|NCT00933933|184597980|SUPERIORITY_OR_OTHER||Clinical Specificity|99.83|||||TWO_SIDED|95.0|99.06|100.0|||Exact binomial|||||100.00|99.06|
92347748|NCT00933933|184597980|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0|||||TWO_SIDED|95.0|94.4|100.0|||Exact binomial|||||100.00|94.40|
92347749|NCT01532089|184597982|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.39|TWO_SIDED|95.0|0.5|1.31|||Log Rank|Comparisons of PFS between arms were conducted using a stratified log-rank test.||||1.31|0.50|0.39
92347750|NCT01532089|184597983|SUPERIORITY||Hazard Ratio (HR)|1.41||||0.33|TWO_SIDED|95.0|0.71|2.81|||Log Rank|||||2.81|0.71|0.33
92347751|NCT01532089|184597984|SUPERIORITY|||||||0.81|||||||Chi-squared|||||||0.81
92347752|NCT01104766|184598010|SUPERIORITY||Mean Difference (Final Values)|-6.0||||0.0044|TWO_SIDED|95.0|-10.1|-1.9|||ANCOVA|||||-1.9|-10.1|0.0044
92347753|NCT01104766|184598010|SUPERIORITY||Mean Difference (Final Values)|-8.8|||<|0.0001|TWO_SIDED|95.0|-12.9|-4.7|||ANCOVA|||||-4.7|-12.9|<0.0001
92347754|NCT01104766|184598010|SUPERIORITY||Median Difference (Final Values)|-7.0||||0.0008|TWO_SIDED|95.0|-11.0|-2.9|||ANCOVA|||||-2.9|-11.0|0.0008
92347755|NCT01104766|184598011|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.0004|TWO_SIDED|95.0|-0.6|-0.2|||ANCOVA|||||-0.2|-0.6|0.0004
92347756|NCT01104766|184598011|SUPERIORITY||Median Difference (Final Values)|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA|||||-0.3|-0.7|<0.0001
92347757|NCT01104766|184598011|SUPERIORITY||Median Difference (Final Values)|-0.4||||0.0001|TWO_SIDED|95.0|-0.6|-0.2|||ANCOVA|||||-0.2|-0.6|0.0001
92347758|NCT05452239|184598021|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-4); 2. Change in MMDs (Weeks 1-12); 3. Change in MHDs (Weeks 1-4); 4. Change in MHDs (Weeks 1-12); 5. Participants not fulfilling the ICHD-3 diagnostic criteria for CM nor MOH (Weeks 1-4), 6. Participants not fulfilling the ICHD-3 diagnostic criteria for CM nor MOH (Weeks 1-12), 7. Change in average Daily Pain assessment score (Weeks 1-2); 8. Change in MAMDs (Weeks 1-4), 9. Change in MAMDs (Weeks 1-12).|Least Square (LS) Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|0.49|<|0.0001|TWO_SIDED|95.0|-4.16|-2.23||Testing continued only if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 1 of testing order.|Mixed model for repeated measures|||Analysis was performed using a restricted maximum likelihood (REML)-based mixed model for repeated measurements (MMRM) with Baseline number of MMDs as a continuous covariate and treatment group (eptinezumab versus placebo), month (Weeks 1-4, 5-8, 9-12), country, and previous treatment failures (≤2; \>2) as factors. The interaction terms treatment-by-month and previous treatment failures-by-month as well as number of MMDs at baseline-by-month were included.||-2.23|-4.16|<0.0001
92347759|NCT05452239|184598022|OTHER||LS Mean Difference|-2.94|STANDARD_ERROR_OF_MEAN|0.469|<|0.0001|TWO_SIDED|95.0|-3.86|-2.02||Testing continued only if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 2 of testing order.|Mixed model for repeated measures|||Analysis was performed using a REML-based MMRM with Baseline number of MMDs as a continuous covariate and treatment group (eptinezumab versus placebo), month (Weeks 1-4, 5-8, 9-12), country, and previous treatment failures (≤2; \>2) as factors. The interaction terms treatment-by-month and previous treatment failures-by-month as well as number of MMDs at baseline-by-month were included.||-2.02|-3.86|<0.0001
92347760|NCT05452239|184598023|OTHER||LS Mean Difference|-3.15|STANDARD_ERROR_OF_MEAN|0.471|<|0.0001|TWO_SIDED|95.0|-4.07|-2.22||Testing continued only if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 3 of testing order.|Mixed model for repeated measures||Change From Baseline in the Number of MHDs at Weeks 1 to 4: Eptinezumab vs. Placebo|Analysis was performed using a REML-based MMRM with Baseline number of MHDs as a continuous covariate and treatment group (eptinezumab versus placebo), month (Weeks 1-4, 5-8, 9-12), country, and previous treatment failures (≤2; \>2) as factors. The interaction terms treatment-by-month and previous treatment failures-by-month as well as number of MHDs at baseline-by-month were included.||-2.22|-4.07|<0.0001
92159379|NCT02162446|184206292|OTHER|||||||1|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||1.000
92347761|NCT05452239|184598023|OTHER||LS Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001|TWO_SIDED|95.0|-3.83|-2.02||Testing continued only if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 4 of testing order.|Mixed model for repeated measures||Change From Baseline in the Number of MHDs at Weeks 1 to 12 (averaged over three 4-week intervals): Eptinezumab vs. Placebo|Analysis was performed using a REML-based MMRM with Baseline number of MHDs as a continuous covariate and treatment group (eptinezumab versus placebo), month (Weeks 1-4, 5-8, 9-12), country, and previous treatment failures (≤2; \>2) as factors. The interaction terms treatment-by-month and previous treatment failures-by-month as well as number of MHDs at baseline-by-month were included.||-2.02|-3.83|<0.0001
92347762|NCT05452239|184598024|OTHER||Odds Ratio (OR)|3.26|||<|0.0001|TWO_SIDED|95.0|2.18|4.94||Testing continued only if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 5 of testing order.|Regression, Logistic||Percentage of participants not fulfilling the ICHD-3 Diagnostic Criteria for CM nor MOH at Weeks 1 to 4: Eptinezumab vs. Placebo|The logistic regression model with baseline MMDs as a covariate, and treatment group (eptinezumab versus placebo), country and previous treatment failures (≤2, \>2) as categorical variables based on the eDiary data collected over Weeks 1-4, Weeks 5-8, Weeks 9-12 and over Weeks 1-12 separately, was fitted using the maximum likelihood method and the logit link function.||4.94|2.18|<0.0001
92347763|NCT05452239|184598024|OTHER||Odds Ratio (OR)|3.05|||<|0.0001|TWO_SIDED|95.0|1.93|4.9||Testing continued only if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 6 of testing order.|Regression, Logistic||Percentage of participants not fulfilling the ICHD-3 Diagnostic Criteria for CM nor MOH at Weeks 1 - 12 (averaged over three 4-week intervals): Eptinezumab vs. Placebo|The logistic regression model with baseline MMDs as a covariate, and treatment group (eptinezumab versus placebo), country and previous treatment failures (≤2, \>2) as categorical variables based on the eDiary data collected over Weeks 1-4, Weeks 5-8, Weeks 9-12 and over Weeks 1-12 separately, was fitted using the maximum likelihood method and the logit link function.||4.90|1.93|<0.0001
92347764|NCT05452239|184598025|OTHER||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|-0.39|-0.22||Testing continued only if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 7 of testing order.|ANCOVA|||Analysis of covariance (ANCOVA) was performed with the average Daily Pain at baseline as a covariate and including treatment group, country, and previous treatment failures, as categorical variables.||-0.22|-0.39|<0.0001
92347765|NCT05452239|184598026|OTHER||LS Mean Difference|-3.63|STANDARD_ERROR_OF_MEAN|0.487|<|0.0001|TWO_SIDED|95.0|-4.59|-2.67||Testing continued only if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 8 of testing order.|Mixed model for repeated measures||Change from baseline in monthly days with acute migraine medication use at Weeks 1 to 4: Eptinezumab vs. Placebo|Analysis was performed using a REML-based MMRM with Baseline number of monthly days with acute migraine medication use as a continuous covariate and treatment group (eptinezumab versus placebo), month (Weeks 1-4, 5-8, 9-12), country, and previous treatment failures (≤2; \>2) as factors. The interaction terms treatment-by-month and previous treatment failures-by-month as well as number of monthly days with acute migraine medication use at baseline-by-month were included.||-2.67|-4.59|<0.0001
92347766|NCT05452239|184598026|OTHER||LS Mean Difference|-3.35|STANDARD_ERROR_OF_MEAN|0.447|<|0.0001|TWO_SIDED|95.0|-4.23|-2.48||Testing continued only if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 9 of testing order.|Mixed model for repeated measures||Change from baseline in monthly days with acute migraine medication use at Weeks 1 - 12 (averaged over three 4-week intervals): Eptinezumab vs. Placebo|Analysis was performed using a REML-based MMRM with Baseline number of monthly days with acute migraine medication use as a continuous covariate and treatment group (eptinezumab versus placebo), month (Weeks 1-4, 5-8, 9-12), country, and previous treatment failures (≤2; \>2) as factors. The interaction terms treatment-by-month and previous treatment failures-by-month as well as number of monthly days with acute migraine medication use at baseline-by-month were included.||-2.48|-4.23|<0.0001
92347767|NCT00207740|184598092|SUPERIORITY_OR_OTHER|||||||0.802||||||When interpreting this p-value along with the other co-primary endpoint, Hochberg procedure was used.|ANCOVA|||The null hypothesis was that the endpoint for placebo is the same as that for combined 100 mg and 200 mg golimumab. Assuming a standard deviation of 23%, there is 86% power to detect a 10% difference at a 0.05 significance level.||||0.802
92347768|NCT00207740|184598092|SUPERIORITY_OR_OTHER|||||||0.945||||||The nominal p-value is for descriptive purpose only.|ANCOVA|||This is a secondary analysis.||||0.945
92347769|NCT00207740|184598092|SUPERIORITY_OR_OTHER|||||||0.717||||||The nominal p-value is for descriptive purpose only.|ANCOVA|||This is a secondary analysis.||||0.717
92347770|NCT00207740|184598092|SUPERIORITY_OR_OTHER|||||||0.357||||||The nominal p-value is for descriptive purpose only.|ANCOVA|||This is a secondary analysis.||||0.357
92400016|NCT02960217|184691633|SUPERIORITY|||||||0.7267|||||||Wilk-Shapiro Test for Normality|||||||0.7267
92400017|NCT02960217|184691634|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.8329|TWO_SIDED|95.0|-0.6|0.5||Based on an ANCOVA model including covariate for study baseline CGI-S score, fixed effects for treatment sequence, treatment group, period, and a random effect for subject within the sequence.|ANCOVA|||||0.5|-0.6|0.8329
92347771|NCT00207740|184598093|SUPERIORITY_OR_OTHER|||||||0.286|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that the endpoint for placebo is the same as that in the combined 100 mg and 200 mg golimumab.||||0.286
92400018|NCT02960217|184691634|SUPERIORITY|||||||0.2348|||||||Wilk-Shapiro Test for Normality|||||||0.2348
92400019|NCT02960217|184691636|SUPERIORITY|||||||0.0315|||||||Wilk-Shapiro Test for Normality|||||||0.0315
92400020|NCT02960217|184691636|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|-0.5||||0.2425|TWO_SIDED|95.0|-1.5|0.5||Hodges-Lehmann estimate of the location shift with 95% CI and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Number of participants in this analysis completed both UX007 treatment period and placebo treatment period (n=13).||0.5|-1.5|0.2425
92347772|NCT00207740|184598093|SUPERIORITY_OR_OTHER|||||||0.742|||||||Wilcoxon (Mann-Whitney)|||||||0.742
92347773|NCT00207740|184598093|SUPERIORITY_OR_OTHER|||||||0.128|||||||Wilcoxon (Mann-Whitney)|||||||0.128
92347774|NCT00207740|184598093|SUPERIORITY_OR_OTHER|||||||0.946|||||||Wilcoxon (Mann-Whitney)|||||||0.946
92347775|NCT00207740|184598094|SUPERIORITY_OR_OTHER|||||||0.718||||||When interpreting this p-value along with the other co-primary endpoint, Hochberg procedure was used.|Cochran-Mantel-Haenszel|||The null hypothesis was that the number of severe exacerbations per patient from baseline through week 24 for placebo is the same as that in the combined 100 mg and 200 mg golimumab. Assuming 1 severe exacerbation over 6 months per patient in the placebo group, there is 79% power to detect a 35% reduction in the combined 100 mg and 200 mg golimumab group at a 0.05 significance level.||||0.718
92347776|NCT00207740|184598094|SUPERIORITY_OR_OTHER|||||||0.779||||||The nominal p-value is for descriptive purpose only.|Cochran-Mantel-Haenszel|||This is a secondary analysis.||||0.779
92347777|NCT00207740|184598094|SUPERIORITY_OR_OTHER|||||||0.649||||||The nominal p-value is for descriptive purpose only.|Cochran-Mantel-Haenszel|||This is a secondary analysis.||||0.649
92347778|NCT00207740|184598094|SUPERIORITY_OR_OTHER|||||||0.256||||||The nominal p-value is for descriptive purpose only.|Cochran-Mantel-Haenszel|||This is a secondary analysis.||||0.256
92347779|NCT00207740|184598095|SUPERIORITY_OR_OTHER|||||||0.894|||||||Kruskal-Wallis|||The null hypothesis was that the endpoint for placebo is the same as that in the combined 100 mg and 200 mg golimumab.||||0.894
92347780|NCT00207740|184598095|SUPERIORITY_OR_OTHER|||||||0.572|||||||Kruskal-Wallis|||||||0.572
92347781|NCT00207740|184598095|SUPERIORITY_OR_OTHER|||||||0.731|||||||Kruskal-Wallis|||||||0.731
92347782|NCT00207740|184598095|SUPERIORITY_OR_OTHER|||||||0.856|||||||Kruskal-Wallis|||||||0.856
92347783|NCT00207740|184598096|SUPERIORITY_OR_OTHER|||||||0.273|||||||Cochran-Mantel-Haenszel|||The null hypothesis was that the endpoint for placebo is the same as that in the combined 100 mg and 200 mg golimumab.||||0.273
92159380|NCT02162446|184206293|OTHER|||||||0.47|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in muscle between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.470
92159381|NCT02162446|184206293|OTHER|||||||0.233|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in liver between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.233
92347784|NCT00207740|184598096|SUPERIORITY_OR_OTHER|||||||0.382|||||||Cochran-Mantel-Haenszel|||||||0.382
92347785|NCT00207740|184598096|SUPERIORITY_OR_OTHER|||||||0.35|||||||Cochran-Mantel-Haenszel|||||||0.350
92347786|NCT00207740|184598096|SUPERIORITY_OR_OTHER|||||||0.341|||||||Cochran-Mantel-Haenszel|||||||0.341
92347787|NCT00207740|184598097|SUPERIORITY_OR_OTHER|||||||0.986|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that the endpoint for placebo is the same as that in the combined 100 mg and 200 mg golimumab.||||0.986
92347788|NCT00207740|184598097|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.820
92347789|NCT00207740|184598097|SUPERIORITY_OR_OTHER|||||||0.858|||||||Wilcoxon (Mann-Whitney)|||||||0.858
92159382|NCT02162446|184206293|OTHER|||||||0.375|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in lymph node between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.375
92347790|NCT00207740|184598097|SUPERIORITY_OR_OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
92347791|NCT00207740|184598098|SUPERIORITY_OR_OTHER|||||||0.833||95.0|||||ANOVA|||The null hypothesis was that the endpoint for placebo is the same as that in the combined 100 mg and 200 mg golimumab.||||0.833
92347792|NCT00207740|184598098|SUPERIORITY_OR_OTHER|||||||0.814||95.0|||||ANOVA|||||||0.814
92347793|NCT00207740|184598098|SUPERIORITY_OR_OTHER|||||||0.897||95.0|||||ANOVA|||||||0.897
92347794|NCT00207740|184598098|SUPERIORITY_OR_OTHER|||||||0.726||95.0|||||ANOVA|||||||0.726
92347795|NCT05473039|184598099|SUPERIORITY|||||||0.2629|||||||Wilcoxon (Mann-Whitney)|||||||0.2629
92347796|NCT05473039|184598100|SUPERIORITY|||||||0.3582|||||||Wilcoxon (Mann-Whitney)|||||||0.3582
92347797|NCT05473039|184598101|SUPERIORITY|||||||0.2187|||||||Wilcoxon (Mann-Whitney)|||||||0.2187
92347798|NCT05473039|184598102|SUPERIORITY|||||||0.3005|||||||Wilcoxon (Mann-Whitney)|||||||0.3005
92347799|NCT05473039|184598103|SUPERIORITY|||||||0.0314|||||||Wilcoxon (Mann-Whitney)|||||||0.0314
92347800|NCT05473039|184598104|SUPERIORITY|||||||0.9214|||||||t-test, 2 sided|||||||0.9214
92347801|NCT05473039|184598104|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||Fasting glucose at the start of COH compared to baseline fasting glucose.||||0.042
92347802|NCT05473039|184598104|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Fasting glucose at the start of COH compared to baseline fasting glucose.||||<0.001
92347803|NCT05473039|184598105|SUPERIORITY|||||||0.59695|||||||t-test, 2 sided|||||||0.59695
92347804|NCT05473039|184598105|SUPERIORITY|||||||0.466503|||||||t-test, 2 sided|||AST at the start of COH compared to baseline AST.||||0.466503
92347805|NCT05473039|184598105|SUPERIORITY|||||||0.959877|||||||t-test, 2 sided|||AST at the start of COH compared to baseline AST.||||0.959877
92347806|NCT05473039|184598106|SUPERIORITY|||||||0.06281|||||||t-test, 2 sided|||||||0.062810
92347807|NCT05473039|184598106|SUPERIORITY|||||||0.417757|||||||t-test, 2 sided|||ALT at the start of COH compared to baseline ALT.||||0.417757
92347808|NCT05473039|184598106|SUPERIORITY|||||||0.968525|||||||t-test, 2 sided|||ALT at the start of COH compared to baseline ALT.||||0.968525
92347809|NCT05473039|184598107|SUPERIORITY|||||||0.686488|||||||t-test, 2 sided|||||||0.686488
92347810|NCT05473039|184598107|SUPERIORITY|||||||0.39512|||||||t-test, 2 sided|||Cholesterol at the start of COH compared to baseline cholesterol.||||0.395120
92347811|NCT05473039|184598107|SUPERIORITY|||||||0.127135|||||||t-test, 2 sided|||Cholesterol at the start of COH compared to baseline cholesterol.||||0.127135
92347812|NCT05473039|184598108|SUPERIORITY|||||||0.257496|||||||t-test, 2 sided|||||||0.257496
92347813|NCT01933594|184598119|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
92347814|NCT01933594|184598120|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.94
92347815|NCT01933594|184598120|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.74
92347816|NCT01933594|184598120|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.18
92159383|NCT02162446|184206294|OTHER|||||||0.004|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.004
92159384|NCT02162446|184206294|OTHER|||||||0.004|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.004
92347817|NCT01933594|184598120|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.16
92347818|NCT01933594|184598121|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
92347819|NCT01933594|184598122|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.9
92347820|NCT01933594|184598122|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.07
92347821|NCT01933594|184598122|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.88
92347822|NCT01933594|184598122|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.92
92347823|NCT01933594|184598123|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 6 hours post infusion||||0.44
92347824|NCT01933594|184598123|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 12 hours post infusion||||0.024
92347825|NCT01933594|184598123|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.37
92347826|NCT01933594|184598123|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 14 days post infusion||||0.79
92347827|NCT01933594|184598123|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.34
92347828|NCT01933594|184598124|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
92347829|NCT01933594|184598125|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
92347830|NCT01933594|184598126|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
92347831|NCT01933594|184598128|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.19
92347832|NCT01933594|184598128|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.63
92347833|NCT01933594|184598128|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 72 hours post infusion 2||||0.94
92347834|NCT01933594|184598128|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.66
92347835|NCT01933594|184598128|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.17
92347836|NCT01933594|184598129|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion||||0.73
92347837|NCT01933594|184598129|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 14 days post infusion||||0.9
92347838|NCT01933594|184598130|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.8
92347839|NCT01933594|184598130|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.73
92347840|NCT01933594|184598130|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 72 hours post infusion 2||||0.84
92347841|NCT01933594|184598130|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.88
92347842|NCT01933594|184598130|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.64
92347843|NCT01933594|184598138|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.34
92347844|NCT01933594|184598138|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.004
92347845|NCT01933594|184598138|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.022
92347846|NCT01933594|184598138|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.008
92347847|NCT01933594|184598138|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 2 weeks post infusion 4||||0.55
92347848|NCT01933594|184598138|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 5 weeks post infusion 4||||0.48
92347849|NCT01933594|184598138|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.54
92347850|NCT01933594|184598138|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 18 weeks post infusion 4||||0.47
92347851|NCT01933594|184598140|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||0.95
92347852|NCT01933594|184598140|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.07
92347853|NCT01933594|184598140|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.26
92347854|NCT01933594|184598141|SUPERIORITY|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||0.89
92347855|NCT01933594|184598141|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.14
92347856|NCT01933594|184598141|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.74
92347857|NCT01933594|184598142|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||0.71
92347858|NCT01933594|184598142|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.79
92347859|NCT01933594|184598142|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.38
92347860|NCT01933594|184598143|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||1
92347861|NCT01933594|184598143|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.92
92347862|NCT01933594|184598143|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.66
92218708|NCT03596866|184338434|SUPERIORITY||Odds Ratio (OR)|1.31|||=|0.6246|TWO_SIDED|95.0|0.44|3.84||P-value was from a Cochran-Mantel-Haenszel test stratified by best prior response to crizotinib therapy as assessed by the investigator at randomization per IXRS.|Cochran-Mantel-Haenszel||Odds ratio was stratified by best prior response to crizotinib therapy as assessed by the investigator at randomization per IXRS.|||3.84|0.44|=0.6246
92218709|NCT03596866|184338436|SUPERIORITY||||||=|0.0778||||||P-value from a 2-sided stratified Gray's test using the stratification factors (at randomization per IxRS): presence of intracranial CNS metastases at baseline, and best prior response to crizotinib therapy as assessed by the investigator.|Gray's Test|P-value is for the event type: Intracranial Disease Progression without Prior Systemic Progression or Death.||||||=0.0778
92218710|NCT04770532|184338439|NON_INFERIORITY|Non-inferiority of insulin icodec was considered confirmed if the upper limit of the two-sided 95% confidence interval (CI) for mean treatment difference (insulin icodec minus insulin degludec) was strictly below 0.3%.|Treatment difference|-0.22|||<|0.0001|TWO_SIDED|95.0|-0.37|-0.08|||ANCOVA|||The response and change from baseline in response after 26 weeks were analysed using an analysis of covariance (ANCOVA) model with treatment, region and personal continuous glucose monitoring (CGM) device use as fixed factors, and baseline response as covariate.||-0.08|-0.37|<0.0001
92218711|NCT01431274|184338454|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.123|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.1|0.146||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.146|0.100|<0.0001
92218712|NCT01431274|184338454|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.117|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001||95.0|0.094|0.14||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.140|0.094|<0.0001
92218713|NCT01431274|184338454|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.109|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.086|0.132||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.132|0.086|<0.0001
92275460|NCT00294723|184453243|NON_INFERIORITY_OR_EQUIVALENCE|The two sided 95% CI for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete confidence interval was below 0%. Superiority of 1.2 mg liraglutide was only tested if 1.2 mg liraglutide was non-inferior to glimepiride and 1.8 mg liraglutide was superior to glimepiride.|Estimated treatment difference, LS Mean|-0.31||||0.0076||95.0|-0.54|-0.08||"The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity.~2-sided significance level 5%"|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.08|-0.54|0.0076
92275461|NCT00294723|184453243|NON_INFERIORITY_OR_EQUIVALENCE|A test for superiority of liraglutide 1.8 mg to liraglutide 1.2 mg was performed to compare the two doses. Superiority of liraglutide 1.8 mg was concluded if the upper limit of the 2-sided 95% CI for the treatment difference (liraglutide 1.8 mg - liraglutide 1.2 mg) was below 0%.|Estimated treatment difference, LS Mean|-0.29||||0.0129||95.0|-0.52|-0.06||2-sided significance level 5%|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.06|-0.52|0.0129
92275462|NCT00294723|184453244|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.48|||<|0.0001||95.0|-4.28|-2.68||2-sided significance level was 5%.|ANCOVA|||Change in body weight from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.68|-4.28|<0.0001
92275463|NCT00294723|184453244|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-2.72|||<|0.0001||95.0|-3.52|-1.93||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-1.93|-3.52|<0.0001
92275464|NCT00294723|184453244|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-0.75||||0.0642||95.0|-1.55|0.05||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous anti-diabetic treatment as fixed effects and baseline body weight as covariance.||0.05|-1.55|0.0642
92347863|NCT01933594|184598144|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||1
92347864|NCT01933594|184598144|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.9
92347865|NCT01933594|184598144|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.47
92347866|NCT01933594|184598145|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.63
92159385|NCT02162446|184206294|OTHER|||||||0.426|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.426
92159386|NCT02162446|184206294|OTHER|||||||0.098|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.098
92159387|NCT02162446|184206294|OTHER|||||||0.813|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.813
92347867|NCT01933594|184598145|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||hange from baseline to 24 hours post infusion 4||||0.51
92347868|NCT01933594|184598145|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.028
92347869|NCT01933594|184598146|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.62
92347870|NCT01933594|184598146|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.15
92347871|NCT01933594|184598146|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.69
92347872|NCT01933594|184598147|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.28
92347873|NCT01933594|184598147|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.15
92347874|NCT01933594|184598147|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.81
92347875|NCT01933594|184598148|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||0.13
92159388|NCT02162446|184206294|OTHER|||||||0.813|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.813
92159389|NCT02162446|184206294|OTHER|||||||0.297|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.297
92347876|NCT01933594|184598148|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.22
92347877|NCT01933594|184598148|SUPERIORITY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.031
92347878|NCT01933594|184598149|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||0.13
92347879|NCT01933594|184598149|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.39
92347880|NCT01933594|184598149|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.12
92347881|NCT01933594|184598150|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.7
92347882|NCT01933594|184598150|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.51
92347883|NCT01933594|184598150|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.94
92347884|NCT01933594|184598151|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.78
92347885|NCT01933594|184598151|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.41
92347886|NCT01933594|184598151|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.94
92347887|NCT01933594|184598152|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Change in pNFKB+% on CD4||||0.69
92347888|NCT01933594|184598152|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Change in pS175% on CD4||||0.27
92347889|NCT01933594|184598153|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Change in pNFKB+% on CD8||||0.81
92347890|NCT01933594|184598153|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Change in pS175% on CD8||||0.81
92347891|NCT01933594|184598154|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.37
92347892|NCT01933594|184598154|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.1
92347893|NCT01933594|184598154|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 72 hours post infusion 2||||0.28
92347894|NCT01933594|184598154|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.16
92347895|NCT01933594|184598154|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.12
92347896|NCT01933594|184598155|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.027
92159390|NCT02162446|184206294|OTHER|||||||0.469|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.469
92347897|NCT01933594|184598155|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.004
92347898|NCT01933594|184598155|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 72 hours post infusion 2||||0.1
92347899|NCT01933594|184598155|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.022
92347900|NCT01933594|184598155|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.17
92369390|NCT02993822|184643598|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.002
92400021|NCT02960217|184691637|SUPERIORITY|||||||0.0072|||||||Wilk-Shapiro Test for Normality|||||||0.0072
92347901|NCT05252702|184598173|SUPERIORITY|"The primary safety endpoint hypothesis at 3 months was formally expressed as:~H0: CFR ≤ 78% vs. H1: CFR \> 78%~where 78% was the performance goal (PG)."|binomial proportion|90.3|||<|0.0001|ONE_SIDED|97.5|87.0|||The CFR was estimated as a binomial proportion and a one-sided 97.5% lower confidence bound of the CFR was calculated using the normal approximation. The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the PG|one-sided Z-test|The p-value from a one-sided Z-test for the binomial proportion was calculated and compared to the 0.025 significance level.|||||87|<0.0001
92347902|NCT05252702|184598174|SUPERIORITY|"The primary safety endpoint hypothesis at 12 months was formally expressed as:~H0: CFR ≤ 76.5% vs. H1: CFR \> 76.5%~where 76.5% is the performance goal. The CFR was estimated using a Kaplan-Meier survival analysis and the 97.5% lower confidence bound of CFR was calculated using the Greenwood variance estimates."|Kaplan-Meier|88.6|||<|0.0001|ONE_SIDED|97.5|84.5|||The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the Performance Goal (PG) of 76.5%.|one-sided Z-test|The p-value for the one-sided Z-test was calculated and compared to the 2.5% significance level.|||||84.5|<0.0001
92347903|NCT05252702|184598175|SUPERIORITY||binomial proportion|90.8|||<|0.0001|ONE_SIDED|97.5|87.5|||The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the PG of 82.5%.|one-sided Z-test|The p-value for the one-sided Z-test was to be calculated and compared to the 2.5% significance level.||"The primary effectiveness endpoint #1 hypothesis at 3 month was formally expressed as:~H0: Rate ≤ 82.5% vs. H1: Rate \> 82.5%~where 82.5% was the performance goal (PG)."|||87.5|<0.0001
92347904|NCT05252702|184598176|SUPERIORITY||binomial proportion|92.8|||<|0.0001|ONE_SIDED|97.5|89.7|||The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the PG of 80%.|one-sided Z-test|The p-value for the one-sided Z-test was to be calculated and compared to the 2.5% significance level.|The Rate at 12 months was estimated as a binomial proportion and the one-sided 97.5% LCB of the Rate was calculated using the normal approximation.|"The primary effectiveness endpoint #1 hypothesis at 12 months was formally expressed as:~H0: Rate ≤ 80% vs. H1: Rate \> 80%~where 80% was the performance goal (PG)."|||89.7|<0.0001
92347905|NCT05252702|184598177|SUPERIORITY||binomial proportion|98.2|||<|0.0001|ONE_SIDED|97.5|96.6|||The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the PG of 83%.|one-sided Z-test|The p-value for the one-sided Z-test was to be calculated and compared to the 2.5% significance level.||"The primary effectiveness endpoint #2 hypothesis was formally expressed as:~H0: RateAV ≤ 83% vs. H1: RateAV \> 83%~where 83% is the performance goal."|||96.6|<0.0001
92347906|NCT05252702|184598178|SUPERIORITY||binomial proportion|91.3||||0.0003|ONE_SIDED|97.5|88.1|||The null hypothesis was to be rejected at the 2.5% significance level if the lower confidence bound exceeded the Performance Goal (PG) of 84%.|one-sided Z-test|The p-value from a one-sided Z-test for the binomial proportion was to be calculated and compared to the 0.025 significance level.||"The secondary safety endpoint hypothesis at 3 months was formally expressed as:~H0: CFRA ≤ 84% vs. H1: CFRA \> 84%~where 84% was the performance goal."|||88.1|0.0003
92347907|NCT05252702|184598179|SUPERIORITY||Kaplan-Meier|91.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|ONE_SIDED|97.5|87.1|||The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the Performance Goal (PG) of 82%.|one-sided Z-test|The p-value for the one-sided Z-test was to be calculated and compared to the 2.5% significance level.|The 97.5% lower confidence bound (LCB) of CFRA was calculated using the Greenwood variance estimates.|"The secondary safety endpoint hypothesis at 12 months was formally expressed as:~H0: CFRA ≤ 82% vs. H1: CFRA \> 82%~where 82% is the performance goal."|||87.1|<0.0001
92347908|NCT05252702|184598180|OTHER||mixed effects model for repeated measure|0.91|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.78|1.04|||t-test, 1 sided|Two one-sided t-tests (TOST), with an alpha level of 0.025, and n-1 degrees of freedom.||"An analysis of these data provided an estimate of the 95% confidence interval for the mean slope across analyzable subjects, which had a pre-specified success criterion requiring that this confidence interval must fall between slopes of 65% and 135%. The following hypothesis was evaluated:~H0: Mean Slope \< 0.65 or Mean Slope \> 1.35~H1: 0.65 ≤ Mean Slope ≤ 1.35"||1.04|0.78|<0.001
92347909|NCT04153864|184598181|NON_INFERIORITY|The Non-Inferiority Margin (NIM) was defined as 10% of the mean EPDS score in the Specialist group (8.91), which corresponded to a value of 0.89. This predetermined NIM of 10% aligns with noninferiority guidelines and ensures clinically meaningful conclusions.|Mean Difference (Final Values)|0.36|||<|0.05|ONE_SIDED|95.0||0.86|||t-test, 1 sided|||Behavioral Activation (BA) delivered by Non-Specialists will be non-inferior to BA delivered by Specialists if the upper limit of the 95% confidence interval for the estimated mean difference in EPDS scores is less than the pre-specified 10% non-inferiority margin (NIM).||0.86||<0.05
92347910|NCT04153864|184598181|NON_INFERIORITY|The NIM was defined as 13% of the mean EPDS score in the In-Person group (8.92), which corresponded to a value of 1.16. This predetermined NIM of 13% aligns with noninferiority guidelines and ensures clinically meaningful conclusions.|Mean Difference (Final Values)|0.23|||<|0.05|ONE_SIDED|95.0||0.77|||t-test, 1 sided|||Behavioral Activation (BA) delivered via Telemedicine will be non-inferior to BA delivered In-Person if the upper limit of the 95% confidence interval for the estimated mean difference in EPDS scores is less than the pre-specified 13% non-inferiority margin (NIM). Please note, this presents the Intention to Treat (ITT) analysis.||0.77||<0.05
92369391|NCT02993822|184643598|SUPERIORITY|||||||0.144|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.144
92159391|NCT02162446|184206295|OTHER|||||||0.91|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as liver between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.910
92159392|NCT02162446|184206295|OTHER|||||||0.039|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as muscle between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.039
92347911|NCT04153864|184598181|NON_INFERIORITY|The NIM was defined as 13% of the mean EPDS score in the In-Person group (8.81), which corresponded to a value of 1.15. This predetermined NIM of 13% aligns with noninferiority guidelines and ensures clinically meaningful conclusions.|Mean Difference (Final Values)|0.36|||<|0.05|ONE_SIDED|95.0||0.91|||t-test, 1 sided|||Behavioral Activation (BA) delivered via Telemedicine will be non-inferior to BA delivered In-Person if the upper limit of the 95% confidence interval for the estimated mean difference in EPDS scores is less than the pre-specified 13% non-inferiority margin (NIM). Please note, this is per protocol analysis. Due to institutional pandemic-related restrictions, 21 participants were switched from In-Person to Telemedicine and met criteria for the per protocol analyses.||0.91||<0.05
92347912|NCT04153864|184598183|NON_INFERIORITY|The NIM was defined as 10% of the mean GAD-7 score for the Specialist group (6.36), which corresponded to a value of 0.64. This predetermined NIM of 10% aligns with noninferiority guidelines and ensures clinically meaningful conclusions.|Mean Difference (Final Values)|0.08|||<|0.05|ONE_SIDED|95.0||0.57|||t-test, 1 sided|||Behavioral Activation (BA) delivered by Non-Specialists will be non-inferior to BA delivered by Specialists if the upper limit of the 95% confidence interval for the estimated mean difference in GAD-7 scores is less than the pre-specified 10% non-inferiority margin (NIM).This analysis was performed on 3-months post-randomization scores.||0.57||<0.05
92347913|NCT04153864|184598183|NON_INFERIORITY|The NIM was defined as 13% of the mean GAD-7 score in the In-Person group (6.29), which corresponded to a value of 0.82. This predetermined NIM of 13% aligns with noninferiority guidelines and ensures clinically meaningful conclusions.|Mean Difference (Final Values)|0.14|||<|0.05|ONE_SIDED|95.0||0.73|||t-test, 1 sided|||Behavioral Activation (BA) delivered via Telemedicine will be non-inferior to BA delivered In-Person if the upper limit of the 95% confidence interval for the estimated mean difference in GAD-7 scores is less than the pre-specified 13% non-inferiority margin (NIM). Please note, this presents the Intention to Treat (ITT) analysis.||0.73||<0.05
92347914|NCT06442800|184598185|SUPERIORITY||Mean Difference (Final Values)|1.31|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Multiple cancers vs. Control||||<0.001
92347915|NCT06442800|184598185|SUPERIORITY||Mean Difference (Final Values)|1.19|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Dementia vs. Control||||<0.001
92347916|NCT06442800|184598185|SUPERIORITY||Mean Difference (Final Values)|1.17|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Colorectal cancer vs. Control||||<0.001
92347917|NCT06442800|184598185|SUPERIORITY||Mean Difference (Final Values)|1.15|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver cancer vs. Control||||<0.001
92347918|NCT06442800|184598185|SUPERIORITY||Mean Difference (Final Values)|1.14|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Throat and mouth cancer vs. Control||||<0.001
92347919|NCT06442800|184598185|SUPERIORITY||Mean Difference (Final Values)|1.11|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver disease vs. Control||||<0.001
92347920|NCT06442800|184598185|SUPERIORITY||Mean Difference (Final Values)|0.98|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Hypertension vs. Control||||<0.001
92347921|NCT06442800|184598185|SUPERIORITY||Mean Difference (Final Values)|0.81|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Current warning vs. Control||||<0.001
92347922|NCT06442800|184598185|SUPERIORITY||Mean Difference (Final Values)|0.58|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Guidelines vs. Control||||<0.001
92347923|NCT06442800|184598186|SUPERIORITY||Mean Difference (Final Values)|1.75|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Multiple cancers vs. Control||||<0.001
92347924|NCT06442800|184598186|SUPERIORITY||Mean Difference (Final Values)|1.59|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Dementia vs. Control||||<0.001
92347925|NCT06442800|184598186|SUPERIORITY||Mean Difference (Final Values)|1.54|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Colorectal cancer vs. Control||||<0.001
92347926|NCT06442800|184598186|SUPERIORITY||Mean Difference (Final Values)|1.6|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver cancer vs. Control||||<0.001
92347927|NCT06442800|184598186|SUPERIORITY||Mean Difference (Final Values)|1.66|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Throat and mouth cancer vs. Control||||<0.001
92347928|NCT06442800|184598186|SUPERIORITY||Mean Difference (Final Values)|1.52|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver disease vs. Control||||<0.001
92347929|NCT06442800|184598186|SUPERIORITY||Mean Difference (Final Values)|1.45|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Hypertension vs. Control||||<0.001
92347930|NCT06442800|184598186|SUPERIORITY||Mean Difference (Final Values)|1.52|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Current warning vs. Control||||<0.001
92347931|NCT06442800|184598186|SUPERIORITY||Mean Difference (Final Values)|0.93|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Guidelines vs. Control||||<0.001
92347932|NCT06442800|184598187|SUPERIORITY||Difference in predicted proportions|0.38|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Multiple cancers vs. Control||||<0.001
92347933|NCT06442800|184598187|SUPERIORITY||Difference in predicted proportions|0.34|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Dementia vs. Control||||<0.001
92347934|NCT06442800|184598187|SUPERIORITY||Difference in predicted proportions|0.4|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Colorectal cancer vs. Control||||<0.001
92347935|NCT06442800|184598187|SUPERIORITY||Difference in predicted proportions|0.14|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver cancer vs. Control||||<0.001
92347936|NCT06442800|184598187|SUPERIORITY||Difference in predicted proportions|0.37|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Throat and mouth cancer vs. Control||||<0.001
92347937|NCT06442800|184598187|SUPERIORITY||Difference in predicted proportions|0.11|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver disease vs. Control||||<0.001
92347938|NCT06442800|184598187|SUPERIORITY||Difference in predicted proportions|0.25|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Hypertension vs. Control||||<0.001
92347939|NCT06442800|184598187|SUPERIORITY||Difference in predicted proportions|0.04||||0.02|TWO_SIDED||||||Mixed Models Analysis|||Current warning vs. Control||||0.02
92347940|NCT06442800|184598187|SUPERIORITY||Difference in predicted proportions|0.14|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Guidelines vs. Control||||<0.001
92347941|NCT06354257|184598204|EQUIVALENCE|The 90% CI for each ratio was compared to 0.8 and 1.25.|Geometric mean ratio|0.88|||||TWO_SIDED|90.0|0.55|1.41|||Mixed Models Analysis|Analysis was performed using linear mixed effect models with treatment as a fixed effect and subject as a random effect.|One-sided tests (alpha=0.05) were used. 90% CIs for each ratio were compared to 0.8-1.25. No drug interaction is shown if CIs for AUC(0-inf) and Cmax of EE and LNG fall within 0.8-1.25.|A confirmatory hypothesis testing to test the effect of GSK3036656 on the AUC(0-inf) of EE.||1.41|0.55|
92347942|NCT06354257|184598204|EQUIVALENCE|The 90% CI for each ratio was compared to 0.8 and 1.25.|Geometric mean ratio|1.1|||||TWO_SIDED|90.0|0.98|1.23|||Mixed Models Analysis|Analysis was performed using linear mixed effect models with treatment as a fixed effect and subject as a random effect.|One-sided tests (alpha=0.05) were used. 90% CIs for each ratio were compared to 0.8-1.25. No drug interaction is shown if CIs for AUC(0-inf) and Cmax of EE and LNG fall within 0.8-1.25.|A confirmatory hypothesis testing to test the effect of GSK3036656 on the AUC(0-inf) of LNG.||1.23|0.98|
92347943|NCT06354257|184598205|EQUIVALENCE|The 90% CI for each ratio was compared to 0.8 and 1.25.|Geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.85|1.09|||Mixed Models Analysis|Analysis was performed using linear mixed effect models with treatment as a fixed effect and subject as a random effect.|One-sided tests (alpha=0.05) were used. 90% CIs for each ratio were compared to 0.8-1.25. No drug interaction is shown if CIs for AUC(0-inf) and Cmax of EE and LNG fall within 0.8-1.25.|A confirmatory hypothesis testing to test the effect of GSK3036656 on the Cmax of EE.||1.09|0.85|
92347944|NCT06354257|184598205|EQUIVALENCE|The 90% CI for each ratio was compared to 0.8 and 1.25.|Geometric mean ratio|1.08|||||TWO_SIDED|90.0|0.97|1.19|||Mixed Models Analysis|Analysis was performed using linear mixed effect models with treatment as a fixed effect and subject as a random effect.|One-sided tests (alpha=0.05) were used. 90% CIs for each ratio were compared to 0.8-1.25. No drug interaction is shown if CIs for AUC(0-inf) and Cmax of EE and LNG fall within 0.8-1.25.|A confirmatory hypothesis testing to test the effect of GSK3036656 on the Cmax of LNG.||1.19|0.97|
92347945|NCT02164916|184598251|SUPERIORITY||Hazard Ratio (HR)|0.48||||0.001|TWO_SIDED|95.0|0.31|0.75|||Log Rank|||||0.75|0.31|0.001
92347946|NCT00296517|184598258|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.2||||0.805||95.0|-1.6|2.0|||ANOVA|||Null Hypothesis: The population mean change from baseline on HAM-D total score at Week 12 of the placebo group is equal to the population mean change from baseline on HAMD total score at Week 12 of the Bupropion hydrochloride sustained release group.||2.0|-1.6|0.805
92347947|NCT00296517|184598268|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|||||||Log Rank|||||||0.036
92347948|NCT00846365|184598305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|||<|0.001|TWO_SIDED|95.0|-8.4|-3.8||Statistical significance was set at the 0.05 level per the predefined stepwise testing strategy used.|ANCOVA|||Analysis of Covariance (ANCOVA) model with treatment as a fixed effect and Baseline as a covariate.||-3.8|-8.4|<0.001
92347949|NCT00846365|184598305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||<|0.001|TWO_SIDED|95.0|-9.1|-4.4||Statistical significance was set at the 0.05 level per the predefined stepwise testing strategy used.|ANCOVA|||ANCOVA model with treatment as a fixed effect and Baseline as a covariate.||-4.4|-9.1|<0.001
92347950|NCT00846365|184598306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|||<|0.001|TWO_SIDED|95.0|-8.5|-3.7||Statistical significance was set at the 0.05 level per the predefined stepwise testing strategy used.|ANCOVA|||ANCOVA model with treatment as a fixed effect and Baseline as a covariate.||-3.7|-8.5|<0.001
92159393|NCT02162446|184206295|OTHER|||||||0.375|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as lymph node between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.375
92159394|NCT02162446|184206295|OTHER|||||||0.219|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as muscle between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.219
92159395|NCT02775435|184206391|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|95.0|0.45|0.7||Treatment comparison stratified by programmed cell death-ligand 1 (PD-L1) status (Tumor Proportion Score \[TPS\] ≥1% vs. \<1%), taxane chemotherapy (paclitaxel vs. nab-paclitaxel) \& geographic region (East Asia vs. non-East Asia)|Regression, Cox|||||0.70|0.45|<0.0001
92347951|NCT00846365|184598306|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-7.2|||<|0.001|TWO_SIDED|95.0|-9.6|-4.8||Statistical significance was set at the 0.05 level per the predefined stepwise testing strategy used.|ANCOVA|||ANCOVA model with treatment as a fixed effect and Baseline as a covariate.||-4.8|-9.6|<0.001
92347952|NCT00846365|184598310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6|||<|0.001|TWO_SIDED|95.0|-7.5|-3.7||Tested at the 0.05 significance level.|ANCOVA|||Statistical analysis for Week 8. ANOVA model with treatment as a fixed effect. Post-baseline p-values are obtained from an ANCOVA model with treatment as a fixed effect and baseline as a covariate.||-3.7|-7.5|<0.001
92347953|NCT00846365|184598310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.2|||<|0.001|TWO_SIDED|95.0|-9.1|-5.2||Tested at the 0.05 significance level.|ANCOVA|||Statistical analysis for Week 8. ANOVA model with treatment as a fixed effect. Post-baseline p-values are obtained from an ANCOVA model with treatment as a fixed effect and baseline as a covariate.||-5.2|-9.1|<0.001
92347954|NCT00720759|184598321|SUPERIORITY_OR_OTHER||Slope|0.83|STANDARD_ERROR_OF_MEAN|8.54|<|0.05|TWO_SIDED|95.0|||||Regression, Linear|||A general linear model was employed. The independent variables were baseline WMFT score, treatment (condensed vs distributed), treatment (d-cycloserine vs placebo), and treatment interaction effect. The dependent measure was WMFT score at 3 months post treatment.||||<0.05
92347955|NCT03100747|184598331|SUPERIORITY||Odds Ratio (OR)|1.21||||0.039|TWO_SIDED|98.3|0.97|1.52||The a priori threshold for statistical significance (adjusted for multiple comparisons) is 0.0167.|Regression, Logistic|||||1.52|0.97|0.039
92347956|NCT03100747|184598331|SUPERIORITY||Odds Ratio (OR)|1.91|||<|0.0001|TWO_SIDED|98.3|1.54|2.36||The a priori threshold for statistical significance (adjusted for multiple comparisons) is 0.0167.|Regression, Logistic|||||2.36|1.54|<0.0001
92347957|NCT03100747|184598331|SUPERIORITY||Odds Ratio (OR)|1.57|||<|0.0001|TWO_SIDED|98.3|1.29|1.92||The a priori threshold for statistical significance (adjusted for multiple comparisons) is 0.0167.|Regression, Logistic|||||1.92|1.29|<0.0001
92347958|NCT03100747|184598336|SUPERIORITY||Odds Ratio (OR)|0.84||||0.094|TWO_SIDED|98.3|0.65|1.08||p-values adjusted for multiple comparisons|Regression, Logistic|||||1.08|0.65|0.094
92159396|NCT02775435|184206392|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.0008|TWO_SIDED|95.0|0.49|0.85||Treatment comparison stratified by programmed cell death-ligand 1 (PD-L1) status (Tumor Proportion Score \[TPS\] ≥1% vs. \<1%), taxane chemotherapy (paclitaxel vs. nab-paclitaxel) \& geographic region (East Asia vs. non-East Asia)|Regression, Cox|||||0.85|0.49|0.0008
92159397|NCT00320489|184206397|SUPERIORITY_OR_OTHER|||||||0.612||95.0|||||Log Rank|||||||0.612
92347959|NCT03100747|184598336|SUPERIORITY||Odds Ratio (OR)|0.5|||<|0.0001|TWO_SIDED|98.3|0.38|0.67||p-value adjusted for multiple comparisons, the a priori threshold for statistical significance (adjusted for multiple comparisons) is 0.0167.|Regression, Logistic|||||0.67|0.38|<0.0001
92159398|NCT00320489|184206398|SUPERIORITY_OR_OTHER|||||||0.649||95.0||||P-Value is for change from baseline at Week 104.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit Baseline.||||||0.649
92159399|NCT00320489|184206399|SUPERIORITY_OR_OTHER|||||||0.744||95.0||||P-value for change at Week 104 in Mental Score Detail.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.744
92159400|NCT00320489|184206399|SUPERIORITY_OR_OTHER|||||||0.653||95.0||||P-value for change at Week 104 in Physical Score Detail.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.653
92159401|NCT00320489|184206399|SUPERIORITY_OR_OTHER|||||||0.64||95.0||||P-value for change at Week 104 in Physical Functioning.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.640
92159402|NCT00320489|184206399|SUPERIORITY_OR_OTHER|||||||0.454||95.0||||P-value for change at Week 104 in Role-Physical.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.454
92159403|NCT00320489|184206399|SUPERIORITY_OR_OTHER|||||||0.135||95.0||||P-value for change at Week 104 in Bodily Pain.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.135
92159404|NCT00320489|184206399|SUPERIORITY_OR_OTHER|||||||0.229||95.0||||P-value for change at Week 104 in General Health.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.229
92159405|NCT00320489|184206399|SUPERIORITY_OR_OTHER|||||||0.594||95.0||||P-value for change at Week 104 in Vitality.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.594
92159406|NCT00320489|184206399|SUPERIORITY_OR_OTHER|||||||0.256||95.0||||P-value for change at Week 104 in Social Functioning.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.256
92159407|NCT00320489|184206399|SUPERIORITY_OR_OTHER|||||||0.775||95.0||||P-value for change at Week 104 in Role-Emotional.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.775
92159408|NCT00320489|184206399|SUPERIORITY_OR_OTHER|||||||0.781||95.0||||P-value for change at Week 104 in Mental Health.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.781
92159409|NCT00320489|184206400|SUPERIORITY_OR_OTHER|||||||0.465||95.0||||P-value is for change from baseline to Week 104.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.465
92159410|NCT00320489|184206401|SUPERIORITY_OR_OTHER|||||||0.581||95.0||||P-value is for change from baseline to Week 104.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.581
92159411|NCT00320489|184206404|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|P-value is type III p-value of ANOVA model: Total number of hospitalization days = Therapy.||||||0.020
92159412|NCT00320489|184206405|SUPERIORITY_OR_OTHER|||||||0.583||95.0||||P-value is for Total Score (Items 1-5) change to Week 104.|ANCOVA|Model: change = investigator, treatment, and baseline.||||||0.583
92159413|NCT00320489|184206405|SUPERIORITY_OR_OTHER|||||||0.747||95.0||||P-value is for Total Score (Items 1-4) change to Week 104.|ANCOVA|Model: change = investigator, treatment, and baseline.||||||0.747
92159414|NCT00320489|184206406|SUPERIORITY_OR_OTHER|||||||0.371||95.0||||P-value is for change from baseline to Week 104.|ANCOVA|Model: change = investigator, treatment, and baseline.||||||0.371
92159415|NCT00320489|184206407|SUPERIORITY_OR_OTHER|||||||0.681||95.0||||P-value is fro change from baseline to Week 104.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.681
92159416|NCT00320489|184206408|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||P-value is for overall satisfaction with current medication.|ANCOVA|Model: Actual Result = Therapy, Investigator, Visit, Therapy\*Visit.||||||0.60
92159417|NCT00320489|184206408|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||P-value is for preference current/previous medication.|ANCOVA|Model: Actual Result = Therapy, Investigator, Visit, Therapy\*Visit||||||.258
92159418|NCT00320489|184206408|SUPERIORITY_OR_OTHER|||||||0.492||95.0||||P-value is for side effects - current vs previous medication.|ANCOVA|Model: Actual Result = Therapy, Investigator, Visit, Therapy\*Visit.||||||0.492
92159419|NCT00320489|184206409|SUPERIORITY_OR_OTHER|||||||0.854||95.0|||||ANCOVA|Model: Actual Result = Therapy, Investigator, Visit, Therapy\*Visit.||||||0.854
92159420|NCT00320489|184206410|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Fisher Exact|||||||0.600
92159421|NCT00320489|184206411|SUPERIORITY_OR_OTHER|||||||0.282||95.0|||||ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit Baseline.||||||0.282
92159422|NCT00320489|184206412|SUPERIORITY_OR_OTHER|||||||0.834||95.0||||P-value is for PANSS Total Score.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit Baseline.||||||0.834
92159423|NCT00320489|184206412|SUPERIORITY_OR_OTHER|||||||0.871||95.0||||P-value is for PANSS Positive Score.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit Baseline.||||||0.871
92159424|NCT00320489|184206412|SUPERIORITY_OR_OTHER|||||||0.692||95.0||||P-value is for PANSS Negative Score.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.692
92159425|NCT00320489|184206412|SUPERIORITY_OR_OTHER|||||||0.893||95.0||||P-value is for PANSS General Psychopathology Score.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.893
92159426|NCT00320489|184206413|SUPERIORITY_OR_OTHER|||||||0.585||95.0|||||Log Rank|||||||0.585
92159427|NCT00320489|184206414|SUPERIORITY_OR_OTHER|||||||0.659||95.0|||||Fisher Exact|||||||0.659
92159428|NCT00320489|184206415|SUPERIORITY_OR_OTHER|||||||0.952||95.0|||||ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit Baseline.||||||0.952
92159429|NCT00320489|184206417|SUPERIORITY_OR_OTHER|||||||0.777||95.0||||P-value is for change from baseline to Week 104.|ANCOVA|Model: change = baseline, treatment, and investigator.||||||0.777
92159430|NCT00320489|184206418|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Fisher Exact|||||||0.530
92159431|NCT00320489|184206419|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||P-value for fasting glucose.|Fisher Exact|||||||0.258
92159432|NCT00320489|184206419|SUPERIORITY_OR_OTHER|||||||0.688||95.0||||P-value is for fasting total cholesterol.|Fisher Exact|||||||0.688
92159433|NCT00320489|184206419|SUPERIORITY_OR_OTHER|||||||0.908||95.0||||P-value is for fasting triglycerides.|Fisher Exact|||||||0.908
92159434|NCT00320489|184206420|SUPERIORITY_OR_OTHER|||||||0.835||95.0|||||Fisher Exact|||||||0.835
92347960|NCT03100747|184598336|SUPERIORITY||Odds Ratio (OR)|0.6|||<|0.0001|TWO_SIDED|98.3|0.45|0.8||The a priori threshold for statistical significance (adjusted for multiple comparisons) is 0.0167.|Regression, Logistic|||||0.80|0.45|<0.0001
92347961|NCT03100747|184598341|SUPERIORITY||Odds Ratio (OR)|0.86||||0.24|TWO_SIDED|98.3|0.64|1.17|||Regression, Logistic|||||1.17|0.64|0.24
92347962|NCT03100747|184598341|SUPERIORITY||Odds Ratio (OR)|0.68||||0.0037|TWO_SIDED|98.3|0.49|0.93|||Regression, Logistic|||||0.93|0.49|0.0037
92347963|NCT03100747|184598341|SUPERIORITY||Odds Ratio (OR)|0.78||||0.08|TWO_SIDED|98.3|0.57|1.09|||Regression, Logistic|||||1.09|0.57|0.08
92347964|NCT04070703|184598447|SUPERIORITY|The co-primary outcome data were analyzed via a Group by Time mixed-effects model with repeated measures on the second factor (i.e., outcome measures assessed at baseline and 6 months. In the presence of a Group by Time interaction effect, pre-specified follow-up pair-wise comparisons were performed to determine between-group differences.|Mean Difference (Final Values)|2.8||||0.0125|TWO_SIDED|98.75|2.1|3.6|||Mixed Models Analysis|||||3.6|2.1|0.0125
92347965|NCT04070703|184598447|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.0125|TWO_SIDED|98.75|0.07|2.2|||Mixed Models Analysis|||||2.2|.07|.0125
92347966|NCT04070703|184598448|SUPERIORITY||Mean Difference (Final Values)|9.9||||0.0125|TWO_SIDED|98.75|2.8|16.6|||Mixed Models Analysis|||||16.6|2.8|.0125
92347967|NCT04070703|184598448|SUPERIORITY||Mean Difference (Final Values)|22.0||||0.0125|TWO_SIDED|98.75|12.6|31.2|||Mixed Models Analysis|||||31.2|12.6|.0125
92347968|NCT04070703|184598449|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.05|TWO_SIDED|95.0|-0.5|-0.1|||Mixed Models Analysis|||||-.1|-.5|0.05
92347969|NCT04070703|184598449|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.05|TWO_SIDED|95.0|-0.7|-0.3|||Mixed Models Analysis|||||-.3|-.7|.05
92347970|NCT04070703|184598450|SUPERIORITY||Mean Difference (Final Values)|-14.1||||0.05|TWO_SIDED|95.0|-20.0|-8.0|||Mixed Models Analysis|||||-8|-20|.05
92347971|NCT04070703|184598450|SUPERIORITY||Mean Difference (Final Values)|-22.0||||0.05|TWO_SIDED|95.0|-28.0|-16.0|||Mixed Models Analysis|||||-16|-28|.05
92347972|NCT04070703|184598451|SUPERIORITY||Mean Difference (Final Values)|0.1|||<|0.05|TWO_SIDED|95.0|-0.4|0.1|||Mixed Models Analysis|||||.1|-.4|<.05
92347973|NCT04070703|184598451|SUPERIORITY||Mean Difference (Final Values)|0.8|||<|0.05|TWO_SIDED|95.0|0.4|1.2|||Mixed Models Analysis|||||1.2|.4|<.05
92347974|NCT04070703|184598452|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.05|TWO_SIDED|95.0|0.5|1.6|||Mixed Models Analysis|||||1.6|.5|<.05
92347975|NCT04070703|184598452|SUPERIORITY||Mean Difference (Final Values)|2.2|||<|0.05|TWO_SIDED|95.0|1.6|2.7|||Mixed Models Analysis|||||2.7|1.6|<.05
92347976|NCT04070703|184598453|SUPERIORITY||Mean Difference (Final Values)|0.9|||<|0.05|TWO_SIDED|95.0|-0.4|2.1|||Mixed Models Analysis|||||2.1|-.4|<.05
92347977|NCT04070703|184598453|SUPERIORITY||Mean Difference (Final Values)|4.4|||<|0.05|TWO_SIDED|95.0|3.1|5.0|||Mixed Models Analysis|||||5|3.1|<.05
92347978|NCT04070703|184598454|SUPERIORITY||Mean Difference (Final Values)|0.3|||<|0.05|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|||||.7|-.3|<.05
92347979|NCT04070703|184598454|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.05|TWO_SIDED|95.0|-2.4|-1.4|||Mixed Models Analysis|||||-1.4|-2.4|<.05
92347980|NCT04070703|184598455|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.05|TWO_SIDED|95.0|-1.4|0.4|||Mixed Models Analysis|||||.4|-1.4|<.05
92159435|NCT00320489|184206421|SUPERIORITY_OR_OTHER|||||||0.834||95.0||||P-value is for ALT.|Fisher Exact|||||||0.834
92159436|NCT00320489|184206421|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||P-value is for AST.|Fisher Exact|||||||0.723
92159437|NCT00320489|184206421|SUPERIORITY_OR_OTHER|||||||0.247||95.0||||P-value is for total bilirubin.|Fisher Exact|||||||0.247
92159438|NCT00320489|184206422|SUPERIORITY_OR_OTHER|||||||0.885||95.0|||||Fisher Exact|||||||0.885
92159439|NCT01872611|184206429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.2||0.671|TWO_SIDED|95.0|0.7|1.3|||Regression, Logistic||Parameter dispersion is the standard error for the odds ratio.|This endpoint was considered primary for United States (US) registration and secondary for European Union (EU) registration.||1.3|0.7|0.671
92159440|NCT01872611|184206430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|0.2|0.7|||Regression, Logistic||Parameter dispersion is the standard error for the odds ratio.|This endpoint was considered primary for EU registration and secondary for US registration.||0.7|0.2|0.001
92347981|NCT04070703|184598455|SUPERIORITY||Mean Difference (Final Values)|1.7|||<|0.05|TWO_SIDED|95.0|0.8|2.3|||Mixed Models Analysis|||||2.3|.8|<.05
92347982|NCT04070703|184598456|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.05|TWO_SIDED|95.0|-0.1|1.1|||Mixed Models Analysis|||||1.1|-.1|<.05
92347983|NCT04070703|184598456|SUPERIORITY||Mean Difference (Final Values)|2.2|||<|0.05|TWO_SIDED|95.0|1.6|2.8|||Mixed Models Analysis|||||2.8|1.6|<.05
92347984|NCT04070703|184598457|SUPERIORITY||Mean Difference (Final Values)|0.1|||<|0.05|TWO_SIDED|95.0|-0.7|0.8|||Mixed Models Analysis|||||.8|-.7|<.05
92347985|NCT04070703|184598457|SUPERIORITY||Mean Difference (Final Values)|-2.2|||<|0.05|TWO_SIDED|95.0|-3.1|-1.3|||Mixed Models Analysis|||||-1.3|-3.1|<.05
92347986|NCT04070703|184598458|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.05|TWO_SIDED|95.0|-0.3|1.2|||Mixed Models Analysis|||||1.2|-.3|<.05
92347987|NCT04070703|184598458|SUPERIORITY||Mean Difference (Final Values)|-1.0|||<|0.05|TWO_SIDED|95.0|-1.8|-0.2|||Mixed Models Analysis|||||-.2|-1.8|<.05
92347988|NCT04070703|184598459|SUPERIORITY||Mean Difference (Final Values)|1.4|||<|0.05|TWO_SIDED|95.0|-0.4|2.0|||Mixed Models Analysis|||||2|-.4|<.05
92347989|NCT04070703|184598459|SUPERIORITY||Mean Difference (Final Values)|5.7|||<|0.05|TWO_SIDED|95.0|3.1|7.9|||Mixed Models Analysis|||||7.9|3.1|<.05
92347990|NCT04070703|184598460|SUPERIORITY||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.04|0.03|||Mixed Models Analysis|||||.03|-.04|<.05
92347991|NCT04070703|184598460|SUPERIORITY||Mean Difference (Final Values)|0.07|||<|0.05|TWO_SIDED|95.0|0.03|0.11|||Mixed Models Analysis|||||.11|.03|<.05
92347992|NCT04070703|184598461|SUPERIORITY||Mean Difference (Final Values)|4.0|||<|0.05|TWO_SIDED|95.0|-2.0|6.0|||Mixed Models Analysis|||||6|-2|<.05
92347993|NCT04070703|184598461|SUPERIORITY||Mean Difference (Final Values)|125.5|||<|0.05|TWO_SIDED|95.0|84.0|166.0|||Mixed Models Analysis|||||166|84|<.05
92347994|NCT04070703|184598462|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.05|TWO_SIDED|95.0|-0.3|-0.1|||Mixed Models Analysis|||||-.1|-.3|<.05
92347995|NCT04070703|184598462|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.05|TWO_SIDED|95.0|-0.7|-0.4|||Mixed Models Analysis|||||-.4|-.7|<.05
92347996|NCT05028569|184598477|SUPERIORITY|P-value/95% CI obtained from mixed-effects model for repeated measures (MMRM) for primary analysis of the 2 visits across Months 5 and 6. Tx (BOTOX 195 U, 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with Baseline monthly migraine days as covariate, included as a continuous variable rather than the binomial stratification variable. Subject/residual errors are random effects.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.33|=|0.914|TWO_SIDED|95.0|-0.62|0.69|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 195 U - Placebo|BOTOX 195 U vs Placebo||0.69|-0.62|=0.914
92347997|NCT05028569|184598477|SUPERIORITY|P-value/95% CI obtained from mixed-effects model for repeated measures (MMRM) for primary analysis of the 2 visits across Months 5 and 6. Tx (BOTOX 195 U, 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with Baseline monthly migraine days as covariate, included as a continuous variable rather than the binomial stratification variable. Subject/residual errors are random effects.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.33|=|0.745|TWO_SIDED|95.0|-0.76|0.55|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 155 U - Placebo|BOTOX 155 U vs Placebo||0.55|-0.76|=0.745
92347998|NCT05028569|184598479|SUPERIORITY|P-value/95% CI obtained from mixed-effects model for repeated measures (MMRM) for primary analysis of the 2 visits across Months 5 and 6. Tx (BOTOX 195 U, 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with Baseline monthly headache days as covariate, included as a continuous variable. Subject/residual errors are random effects.|LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.36|=|0.414|TWO_SIDED|95.0|-0.42|1.01|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 195 U - Placebo|BOTOX 195 U vs Placebo||1.01|-0.42|=0.414
92159441|NCT00615433|184206489|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||Improvements in PANSS ratings are estimated from 2 prior studies of lurasidone. Assuming lurasidone differs from placebo in change from baseline in PANSS by 6.8 and 10.0 for 40 and 120 mg, respectively, and assuming a standard deviation of 19.1, then n=120 subjects per group provides approximately 97% power (at α=0.05, two-sided) to reject the null hypothesis of no difference from placebo for at least 1 dose. This calculation uses Bonferroni's procedure for controlling pairwise differences.||||<0.05
92159442|NCT00615433|184206490|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Mixed Models Analysis|||||||<0.05
92159443|NCT00783692|184206491|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.8||||0.0206|TWO_SIDED|95.0|1.2|14.3||P-value is based on the Cochran-Mantel-Haenszel (CMH) chi-square test, with stratification according to: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no).|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|The Hochberg method was applied to control the overall Type I error rate at a 5% significance level for the multiple comparisons of the primary endpoints. If both p-values were ≤ 0.05, both primary endpoints were to be declared significant. If 1 of the p-values for the primary endpoints was \> 0.05, the other p-value was to be tested at the 0.025 level and declared significant only if the p-value was ≤ 0.025. If neither primary was declared significant, no further testing was to be conducted.||14.3|1.2|0.0206
92159444|NCT00783692|184206492|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.7||||0.2322|TWO_SIDED|95.0|-3.6|15.0||P-value is based on the Cochran-Mantel-Haenszel (CMH) chi-square test, with stratification according to: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no).|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|The Hochberg method was applied to control the overall Type I error rate at a 5% significance level for the multiple comparisons of the primary endpoints. If both p-values were ≤ 0.05, both primary endpoints were to be declared significant. If 1 of the p-values for the primary endpoints was \> 0.05, the other p-value was to be tested at the 0.025 level and declared significant only if the p-value was ≤ 0.025. If neither primary was declared significant, no further testing was to be conducted.||15.0|-3.6|0.2322
92159445|NCT00783692|184206493|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.4||||0.0007|TWO_SIDED|95.0|7.3|27.5||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|The Hochberg method was applied to control the overall Type I error rate at a 5% significance level. If both p-values were ≤ 0.05, both dose regimens were to be declared significant. If 1 of the p-values for the 2 dose comparisons was \> 0.05, the other p-value was to be tested at the 0.025 level and declared significant only if the p-value was ≤ 0.025. If neither dose was declared significant for the primary endpoint, no further testing was to be conducted.||27.5|7.3|0.0007
92159446|NCT00783692|184206493|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.7||||0.0042|TWO_SIDED|95.0|4.6|24.7||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|The Hochberg method was applied to control the overall Type I error rate at a 5% significance level. If both p-values were ≤ 0.05, both dose regimens were to be declared significant. If 1 of the p-values for the 2 dose comparisons was \> 0.05, the other p-value was to be tested at the 0.025 level and declared significant only if the p-value was ≤ 0.025. If neither dose was declared significant for the primary endpoint, no further testing was to be conducted.||24.7|4.6|0.0042
92159447|NCT00783692|184206494|SUPERIORITY_OR_OTHER|||||||0.9288||||||Wilcoxon Rank Sum test on the CRP change from baseline values (two-sided).|Wilcoxon (Mann-Whitney)|||If at least 1 of the primary endpoints was significant, the sequential Hochberg procedure was to be used to test the secondary endpoint for significance at the 0.05% level.||||0.9288
92218714|NCT01431274|184338454|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.093|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.07|0.116||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.116|0.070|<0.0001
92218715|NCT01431274|184338454|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.102|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.08|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.125|0.080|<0.0001
92218716|NCT01431274|184338454|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.014|STANDARD_ERROR_OF_MEAN|0.012||0.2169|TWO_SIDED|95.0|-0.008|0.037||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.037|-0.008|0.2169
92218717|NCT01431274|184338454|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.108|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.085|0.13||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.130|0.085|<0.0001
92218718|NCT01431274|184338454|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.006|STANDARD_ERROR_OF_MEAN|0.012||0.5849|TWO_SIDED|95.0|-0.017|0.029||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.029|-0.017|0.5849
92218719|NCT01431274|184338454|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.016|STANDARD_ERROR_OF_MEAN|0.012||0.1863|TWO_SIDED|95.0|-0.007|0.039||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.039|-0.007|0.1863
92218720|NCT01431274|184338454|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.012||0.4352|TWO_SIDED|95.0|-0.032|0.014||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.014|-0.032|0.4352
92218721|NCT01431274|184338455|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.082|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.059|0.106||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.106|0.059|<.0001
92218722|NCT01431274|184338455|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.047|0.094||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.094|0.047|<0.0001
92218723|NCT01431274|184338455|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.058|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.034|0.081||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.081|0.034|<0.0001
92218724|NCT01431274|184338455|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.029|STANDARD_ERROR_OF_MEAN|0.012||0.0174|TWO_SIDED|95.0|0.005|0.052||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.052|0.005|0.0174
92218725|NCT01431274|184338455|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.046|STANDARD_ERROR_OF_MEAN|0.012||0.0001|TWO_SIDED|95.0|0.023|0.07||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.070|0.023|0.0001
92218726|NCT01431274|184338455|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.024|STANDARD_ERROR_OF_MEAN|0.012||0.0407|TWO_SIDED|95.0|0.001|0.048||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.048|0.001|0.0407
92218727|NCT01431274|184338455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.03|0.077||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.077|0.030|<0.0001
92218728|NCT01431274|184338455|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.012||0.3326|TWO_SIDED|95.0|-0.012|0.035||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.035|-0.012|0.3326
92218729|NCT01431274|184338455|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.029|STANDARD_ERROR_OF_MEAN|0.012||0.0151|TWO_SIDED|95.0|0.006|0.053||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.053|0.006|0.0151
92218730|NCT01431274|184338455|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.018|STANDARD_ERROR_OF_MEAN|0.012||0.1421|TWO_SIDED|95.0|-0.041|0.006||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.006|-0.041|0.1421
92218731|NCT01431274|184338456|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.693|STANDARD_ERROR_OF_MEAN|0.553||0.0022|TWO_SIDED|95.0|-2.778|-0.608||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||-0.608|-2.778|0.0022
92218732|NCT01431274|184338456|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.233|STANDARD_ERROR_OF_MEAN|0.551||0.0252|TWO_SIDED|95.0|-2.313|-0.153||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||-0.153|-2.313|0.0252
92218733|NCT01431274|184338456|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.031|STANDARD_ERROR_OF_MEAN|0.552||0.062|TWO_SIDED|95.0|-2.113|0.052||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.052|-2.113|0.0620
92218734|NCT01431274|184338456|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.456|STANDARD_ERROR_OF_MEAN|0.548||0.4051|TWO_SIDED|95.0|-1.531|0.618||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.618|-1.531|0.4051
92218735|NCT01431274|184338456|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.571|STANDARD_ERROR_OF_MEAN|0.55||0.2988|TWO_SIDED|95.0|-1.649|0.507||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.507|-1.649|0.2988
92218736|NCT01431274|184338456|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.662|STANDARD_ERROR_OF_MEAN|0.545||0.2249|TWO_SIDED|95.0|-1.731|0.407||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.407|-1.731|0.2249
92218737|NCT01431274|184338456|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.118|STANDARD_ERROR_OF_MEAN|0.549||0.0418|TWO_SIDED|95.0|-2.195|-0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||-0.042|-2.195|0.0418
92218738|NCT01431274|184338456|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.557||0.4097|TWO_SIDED|95.0|-1.552|0.633||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg)~Spatial power covariance structure for within-patient errors."|||0.633|-1.552|0.4097
92218739|NCT01431274|184338456|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.575|STANDARD_ERROR_OF_MEAN|0.556||0.3013|TWO_SIDED|95.0|-1.664|0.515||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.515|-1.664|0.3013
92347999|NCT05028569|184598479|SUPERIORITY|P-value/95% CI obtained from mixed-effects model for repeated measures (MMRM) for primary analysis of the 2 visits across Months 5 and 6. Tx (BOTOX 195 U, 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with Baseline monthly headache days as covariate, included as a continuous variable. Subject/residual errors are random effects.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.36|=|0.889|TWO_SIDED|95.0|-0.66|0.76|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 155 U - Placebo|BOTOX 155 U vs Placebo||0.76|-0.66|=0.889
92348000|NCT05028569|184598480|SUPERIORITY|P-value is obtained from Logistic Regression. Model includes treatment (BOTOX 195 U, BOTOX 155 U, and placebo), country and strata of previous exposure to migraine prophylactic treatment as fixed effects, with the Baseline monthly migraine days as a covariate, included as a continuous variable. Subject and residual errors are random effects in this by visit logistic covariate analysis of variance (ANCOVA). Confidence intervals (Clopper-Pearson) are based on binomial-distribution assumptions.|Response Rate Difference|2.2|||=|0.451|TWO_SIDED|95.0|-7.08|11.46|||Regression, Logistic||Response Rate Difference = BOTOX 195 U - Placebo|BOTOX 195 U vs Placebo||11.46|-7.08|=0.451
92348001|NCT05028569|184598480|SUPERIORITY|P-value is obtained from Logistic Regression. Model includes treatment (BOTOX 195 U, BOTOX 155 U, and placebo), country and strata of previous exposure to migraine prophylactic treatment as fixed effects, with the Baseline monthly migraine days as a covariate, included as a continuous variable. Subject and residual errors are random effects in this by visit logistic covariate analysis of variance (ANCOVA). Confidence intervals (Clopper-Pearson) are based on binomial-distribution assumptions.|Response Rate Difference|1.2|||=|0.762|TWO_SIDED|95.0|-7.94|10.4|||Regression, Logistic||Response Rate Difference = BOTOX 155 U - Placebo|BOTOX 155 U vs Placebo||10.40|-7.94|=0.762
92348002|NCT05028569|184598481|SUPERIORITY|P-value/95% CI obtained from mixed-effects model for repeated measures (MMRM) for primary analysis of the 2 visits across Months 5 and 6. Tx (BOTOX 195 U, BOTOX 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with the Baseline monthly acute headache medication days as a covariate, included as a continuous variable. Subject and residual errors are random effects.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.31|=|0.686|TWO_SIDED|95.0|-0.48|0.74|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 195 U - Placebo|BOTOX 195 U vs Placebo||0.74|-0.48|=0.686
92348003|NCT05028569|184598481|SUPERIORITY|P-value/95% CI obtained from mixed-effects model for repeated measures (MMRM) for primary analysis of the 2 visits across Months 5 and 6. Tx (BOTOX 195 U, BOTOX 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with the Baseline monthly acute headache medication days as a covariate, included as a continuous variable. Subject and residual errors are random effects.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.31|=|0.913|TWO_SIDED|95.0|-0.57|0.64|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 155 U - Placebo|BOTOX 155 U vs Placebo||0.64|-0.57|=0.913
92348004|NCT05028569|184598482|SUPERIORITY|P-value/95% CI obtained from mixed-effects model for repeated measures (MMRM) for primary analysis of the visit at Month 6. Tx (BOTOX 195 U, BOTOX 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with the Baseline MSQ v2.1 RFR Domain Score as a covariate, included as a continuous variable. Subject and residual errors are random effects.|LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.81|=|0.837|TWO_SIDED|95.0|-3.18|3.93|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 195 U - Placebo|BOTOX 195 U vs Placebo||3.93|-3.18|=0.837
92348005|NCT05028569|184598482|SUPERIORITY|P-value/95% CI obtained from mixed-effects model for repeated measures (MMRM) for primary analysis of the visit at Month 6. Tx (BOTOX 195 U, BOTOX 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with the Baseline MSQ v2.1 RFR Domain Score as a covariate, included as a continuous variable. Subject and residual errors are random effects.|LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|1.79|=|0.662|TWO_SIDED|95.0|-2.74|4.31|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 155 U - Placebo|BOTOX 155 U vs Placebo||4.31|-2.74|=0.662
92348006|NCT05028569|184598483|SUPERIORITY|P-value/95% CI are obtained from mixed-effects model for repeated measures (MMRM) analysis for primary analysis of the 2 visits across Months 5 and 6. Tx (BOTOX 195 U, BOTOX 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with the Baseline AIM-D Physical Impairment domain score as a covariate, included as a continuous variable. Subject and residual errors are random effects.|LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.75|=|0.834|TWO_SIDED|95.0|-1.32|1.63|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 195 U - Placebo|BOTOX 195 U vs Placebo||1.63|-1.32|=0.834
92348007|NCT05028569|184598483|SUPERIORITY|P-value/95% CI are obtained from mixed-effects model for repeated measures (MMRM) analysis for primary analysis of the 2 visits across Months 5 and 6. Tx (BOTOX 195 U, BOTOX 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with the Baseline AIM-D Physical Impairment domain score as a covariate, included as a continuous variable. Subject and residual errors are random effects.|LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.75|=|0.578|TWO_SIDED|95.0|-1.06|1.9|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 155 U - Placebo|BOTOX 155 U vs Placebo||1.90|-1.06|=0.578
92159448|NCT00783692|184206495|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.4||||0.0132|TWO_SIDED|95.0|2.8|24.0||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||24.0|2.8|0.0132
92348008|NCT05028569|184598484|SUPERIORITY|P-value/95% CI are obtained from a mixed-effects model for repeated measures (MMRM) analysis for primary analysis of the 2 visits across Months 5 and 6. Tx (BOTOX 195 U, BOTOX 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with the Baseline total HIT-6 score as a covariate, included as a continuous variable. Subject and residual errors are random effects.|LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.68|=|0.589|TWO_SIDED|95.0|-1.69|0.96|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 195 U - Placebo|BOTOX 195 U vs Placebo||0.96|-1.69|=0.589
92348009|NCT05028569|184598484|SUPERIORITY|P-value/95% CI are obtained from a mixed-effects model for repeated measures (MMRM) analysis for primary analysis of the 2 visits across Months 5 and 6. Tx (BOTOX 195 U, BOTOX 155 U, placebo), month (Months 1-6), country, strata of previous exposure to migraine prophylactic treatment, and Tx group-by-month interaction as fixed effects, with the Baseline total HIT-6 score as a covariate, included as a continuous variable. Subject and residual errors are random effects.|LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.67|=|0.31|TWO_SIDED|95.0|-2.0|0.64|||Mixed Model for Repeated Measures (MMRM)||LS Mean Difference = BOTOX 155 U - Placebo|BOTOX 155 U vs Placebo||0.64|-2.00|=0.310
92348010|NCT04609553|184598485|SUPERIORITY|||||||0.64||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. Specifically, no adjustments were made for child expressive language since it was only measured at 18 months.|||0.64
92348011|NCT04609553|184598485|SUPERIORITY|||||||0.46||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. Specifically, no adjustments were made for child expressive language since it was only measured at 18 months.|||0.46
92369392|NCT02993822|184643598|SUPERIORITY|||||||0.025|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.025
92369393|NCT02993822|184643599|SUPERIORITY|||||||0.158|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.158
92159449|NCT00783692|184206495|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.3||||0.0053|TWO_SIDED|95.0|4.6|26.0||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||26.0|4.6|0.0053
92159450|NCT00783692|184206496|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.9||||0.0154|TWO_SIDED|95.0|3.0|28.7||P-value is based on the CMH chi-square test, with stratification according to: 1) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 2) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||28.7|3.0|0.0154
92168572|NCT02217904|184226876|SUPERIORITY||Posterior mean difference|-1.18|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between islatravir and placebo at least 0.5 log10 copies/mL was \>99%.|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean of pooled historical placebo data was -0.03 log10 copies/mL (95% CI -014, 0.09) change from baseline at 168 hours post dose.||||
92218740|NCT01431274|184338456|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.115|STANDARD_ERROR_OF_MEAN|0.554||0.8355|TWO_SIDED|95.0|-0.97|1.2||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||1.200|-0.970|0.8355
92218741|NCT01431274|184338457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.135||0.0019|TWO_SIDED|95.0|0.155|0.684||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.684|0.155|0.0019
92400022|NCT02960217|184691637|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|0.0||||1|TWO_SIDED|95.0|-14.5|13.5||Hodges-Lehmann estimate of the location shift with 95% CI and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Number of participants in this analysis completed both UX007 treatment period and placebo treatment period (n=12).||13.5|-14.5|1.0000
92218742|NCT01431274|184338457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.356|STANDARD_ERROR_OF_MEAN|0.135||0.0082|TWO_SIDED|95.0|0.092|0.619||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.619|0.092|0.0082
92159451|NCT00783692|184206496|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.9||||0.045|TWO_SIDED|95.0|0.3|25.5||P-value is based on the CMH chi-square test, with stratification according to: 1) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 2) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||25.5|0.3|0.0450
92218743|NCT01431274|184338457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.416|STANDARD_ERROR_OF_MEAN|0.135||0.002|TWO_SIDED|95.0|0.152|0.681||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.681|0.152|0.0020
92218744|NCT01431274|184338457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.134||0.0307|TWO_SIDED|95.0|0.027|0.554||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.554|0.027|0.0307
92218745|NCT01431274|184338457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.352|STANDARD_ERROR_OF_MEAN|0.135||0.0088|TWO_SIDED|95.0|0.089|0.616||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.616|0.089|0.0088
92218746|NCT01431274|184338457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.003|STANDARD_ERROR_OF_MEAN|0.134||0.9801|TWO_SIDED|95.0|-0.259|0.266||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.266|-0.259|0.9801
92218747|NCT01431274|184338457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.294|STANDARD_ERROR_OF_MEAN|0.134||0.0289|TWO_SIDED|95.0|0.03|0.557||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.557|0.030|0.0289
92218748|NCT01431274|184338457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.136||0.6382|TWO_SIDED|95.0|-0.202|0.33||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.330|-0.202|0.6382
92218749|NCT01431274|184338457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.126|STANDARD_ERROR_OF_MEAN|0.135||0.3525|TWO_SIDED|95.0|-0.14|0.391||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.391|-0.140|0.3525
92400023|NCT02960217|184691638|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.54||0.1076|TWO_SIDED|95.0|-0.3|2.2||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for subject within the sequence.|ANCOVA|||||2.2|-0.3|0.1076
92400024|NCT02960217|184691638|SUPERIORITY|||||||0.7698|||||||Wilk-Shapiro Test for Normality|||||||0.7698
92218750|NCT01431274|184338457|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.062|STANDARD_ERROR_OF_MEAN|0.135||0.6457|TWO_SIDED|95.0|-0.327|0.203||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.203|-0.327|0.6457
92218751|NCT01431274|184338458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.012||0.0067|TWO_SIDED|95.0|0.009|0.056||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.056|0.009|0.0067
92348012|NCT04609553|184598486|SUPERIORITY|||||||0.84||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for child communicative development was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.84
92400025|NCT02960217|184691639|SUPERIORITY|||||||0.0138|||||||Wilk-Shapiro Test for Normality|||||||0.0138
92275465|NCT00294723|184453245|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-20.28|||<|0.0001||95.0|-29.09|-11.46||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-11.46|-29.09|<.0001
92275466|NCT00294723|184453245|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-9.92||||0.027||95.0|-18.7|-1.12||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-1.12|-18.70|0.0270
92275467|NCT00294723|184453245|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-10.36||||0.0223||95.0|-19.24|-1.48||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-1.48|-19.24|0.0223
92275468|NCT00294723|184453246|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-17.79||||0.0003||95.0|-27.48|-8.09||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-8.09|-27.48|0.0003
92275469|NCT00294723|184453246|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-11.33||||0.0217||95.0|-20.99|-1.66||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-1.66|-20.99|0.0217
92275470|NCT00294723|184453246|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg|Estimated treatment difference, LS Mean|-6.46||||0.1942||95.0|-16.23|3.3||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||3.30|-16.23|0.1942
92275471|NCT00294723|184453247|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-16.63||||0.0007||95.0|-26.19|-7.06||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-7.06|-26.19|0.0007
92400026|NCT02960217|184691639|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|2.0||||0.3907|TWO_SIDED|95.0|-3.5|20.5||Hodges-Lehmann estimate of the location shift with 95% CI and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Number of participants in this analysis completed both UX007 treatment period and placebo treatment period (n=13).||20.5|-3.5|0.3907
92400027|NCT02960217|184691640|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.51||0.5233|TWO_SIDED|95.0|-4.4|2.4||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for subject within the sequence.|ANCOVA|||||2.4|-4.4|0.5233
92400028|NCT02960217|184691640|SUPERIORITY|||||||0.6918|||||||Wilk-Shapiro Test for Normality|||||||0.6918
92400029|NCT02734693|184691641|SUPERIORITY||Mean Difference (Final Values)|-5.18|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-7.565|-2.802|||ANCOVA|||Least squares means, SEs, effect sizes, 95% CIs, and p-values were generated using an ANCOVA model, with treatment (dasotraline/placebo), mean SKAMP-CS at baseline, and site as fixed effects. The dasotraline 6 mg/day treatment arm was discontinued in Version 3.00 of the protocol.||-2.802|-7.565|<0.001
92400030|NCT02734693|184691644|SUPERIORITY||Mean Difference (Final Values)|23.67|STANDARD_ERROR_OF_MEAN|7.395||0.002|TWO_SIDED|95.0|8.987|38.346|||ANCOVA|||Least squares means, SEs, effect sizes, 95% CIs, and p-values were generated using an ANCOVA model, with treatment (dasotraline/placebo), PERMP at baseline, and site as fixed effects. The dasotraline 6 mg/day treatment arm was discontinued in Version 3.00 of the protocol||38.346|8.987|0.002
92400031|NCT02734693|184691644|SUPERIORITY||Mean Difference (Net)|24.05|STANDARD_ERROR_OF_MEAN|7.389||0.002|TWO_SIDED|95.0|9.381|38.714|||ANCOVA|||Least squares means, SEs, effect sizes, 95% CIs, and p-values were generated using an ANCOVA model, with treatment (dasotraline/placebo), PERMP at baseline, and site as fixed effects. The dasotraline 6 mg/day treatment arm was discontinued in Version 3.00 of the protocol||38.714|9.381|0.002
92400032|NCT02675907|184691650|SUPERIORITY|||||||0.0034|||||||t-test, 2 sided|||||||0.0034
92400033|NCT02675907|184691651|SUPERIORITY||||||<|0.05||||||Row 1 (SPID6)|t-test, 2 sided|||||||<0.05
92400034|NCT02675907|184691651|SUPERIORITY||||||<|0.01||||||Row 2 (SPID12)|t-test, 2 sided|||||||<0.01
92400035|NCT02675907|184691651|SUPERIORITY||||||<|0.01||||||Row 3 (SPID24)|t-test, 2 sided|||||||<0.01
92400036|NCT02675907|184691651|SUPERIORITY||||||<|0.01||||||Row 4 (SPID12-48)|t-test, 2 sided|||||||<0.01
92400037|NCT02675907|184691651|SUPERIORITY||||||<|0.01||||||Row 5 (SPID24-48)|t-test, 2 sided|||||||<0.01
92400038|NCT02675907|184691652|SUPERIORITY|||||||0.0076|||||||Log Rank|||||||0.0076
92168573|NCT01903811|184226898|SUPERIORITY||Hazard Ratio (HR)|1.061||||0.384|TWO_SIDED|80.0|0.821|1.37||Stratified by pre-specified randomization stratification factors: 1 - 3 prior therapies vs. 4-6 prior therapies and refractory to bortezomib vs. not refractory to bortezomib.|Log Rank|One-sided stratified log rank test||||1.370|0.821|0.384
92168574|NCT01903811|184226899|SUPERIORITY||Hazard Ratio (HR)|1.149||||0.284|TWO_SIDED|80.0|0.841|1.571||Stratified by pre-specified randomization stratification factors: 1 - 3 prior therapies vs. 4-6 prior therapies and refractory to bortezomib vs. not refractory to bortezomib.|Log Rank|One-sided stratified log rank test||||1.571|0.841|0.284
92168575|NCT01903811|184226900|SUPERIORITY|||||||0.113|||||||Cochran-Mantel-Haenszel|||Compare the rate of confirmed PR or better between treatment arms.||||0.1130
92168576|NCT01854385|184226952|SUPERIORITY|||||||0.079|||||||Mixed Models Analysis|||||||.079
92168577|NCT02932579|184226956|SUPERIORITY||Mean Difference (Final Values)|13.0||||0.098|TWO_SIDED||||||t-test, 2 sided|||||||0.098
92400039|NCT02675907|184691653|SUPERIORITY||||||<|0.001||||||Row 1 (Hour 0-24)|Cochran-Mantel-Haenszel|||||||<0.001
92168578|NCT02932579|184226957|SUPERIORITY||Risk Ratio (RR)|1.38||||0.74|TWO_SIDED|95.0|0.45|4.21|||Fisher Exact|||||4.21|0.45|0.740
92168579|NCT02590432|184226984|SUPERIORITY||Odds Ratio (OR)|1.3||||1|TWO_SIDED|95.0|0.3|5.5|||Fisher's Exact Test|||LINZESS® 145 μg versus (vs) LINZESS® 290 μg||5.5|0.3|1.0000
92168580|NCT02590432|184226984|SUPERIORITY||Odds Ratio (OR)|0.2||||0.0844|TWO_SIDED|95.0|0.1|1.1|||Fisher's Exact Test|||LINZESS® 72 μg vs LINZESS® 290 μg||1.1|0.1|0.0844
92168581|NCT02590432|184226984|SUPERIORITY||Odds Ratio (OR)|0.9||||1|TWO_SIDED|95.0|0.3|2.5|||Fisher's Exact Test|||LINZESS® 72 μg vs LINZESS® 145 μg||2.5|0.3|1.0000
92168582|NCT02590432|184226985|SUPERIORITY||Odds Ratio (OR)|1.3||||1|TWO_SIDED|95.0|0.3|5.1|||Fisher's Exact Test|||LINZESS® 145 μg vs LINZESS® 290 μg||5.1|0.3|1.0000
92400040|NCT02675907|184691653|SUPERIORITY||||||<|0.01||||||Row 2 (Hour 24-48)|Cochran-Mantel-Haenszel|||||||<0.01
92400041|NCT02675907|184691653|SUPERIORITY||||||<|0.01||||||Row 3 (Hour 0-48)|Cochran-Mantel-Haenszel|||||||<0.01
92400042|NCT02675907|184691654|SUPERIORITY||||||<|0.05||||||Row 1 (Hour 0-24)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||<0.05
92400043|NCT02675907|184691654|SUPERIORITY||||||<|0.05||||||Row 2 (Hour 24-48)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||<0.05
92400044|NCT02675907|184691654|SUPERIORITY||||||<|0.05||||||Row 3 (Hour 0-48)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||<0.05
92400045|NCT02675907|184691655|SUPERIORITY|||||||0.1228|||||||Log Rank|||||||0.1228
92400046|NCT02675907|184691656|SUPERIORITY|||||||0.1048|||||||Log Rank|||||||0.1048
92400047|NCT02675907|184691657|SUPERIORITY|||||||0.0451|||||||Cochran-Mantel-Haenszel|||||||0.0451
92400048|NCT02675907|184691658|SUPERIORITY|||||||0.0107|||||||Cochran-Mantel-Haenszel|||||||0.0107
92400049|NCT02675907|184691659|SUPERIORITY|||||||0.0781|||||||Cochran-Mantel-Haenszel|||||||0.0781
92400050|NCT02675907|184691660|SUPERIORITY|||||||0.043|||||||Cochran-Mantel-Haenszel|||||||0.0430
92400051|NCT02675907|184691661|SUPERIORITY|||||||0.107|||||||Cochran-Mantel-Haenszel|P-value was derived from comparisons between N1539 and Placebo via General Association of CMH Test controlling for investigational site||||||0.1070
92400052|NCT02675907|184691662|SUPERIORITY|||||||0.0046|||||||Cochran-Mantel-Haenszel|P-value was derived from comparisons between N1539 and Placebo via General Association of CMH Test controlling for investigational site||||||0.0046
92400053|NCT01611792|184691663|SUPERIORITY||Mean Difference (Net)|-10.0|STANDARD_DEVIATION|9.02|<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<.0001
92400054|NCT01611792|184691664|SUPERIORITY||Mean Difference (Net)|-6.67|STANDARD_DEVIATION|11.86||0.0038|TWO_SIDED||||||Mixed Models Analysis|||||||0.0038
92218752|NCT01431274|184338458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.081|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.057|0.104||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.104|0.057|<0.0001
92348013|NCT04609553|184598486|SUPERIORITY|||||||0.82||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for child communicative development was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.82
92348014|NCT04609553|184598486|SUPERIORITY|||||||0.001||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for child communicative development was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.001
92348015|NCT04609553|184598486|SUPERIORITY|||||||0.16||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for child communicative development was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.16
92348016|NCT04609553|184598487|SUPERIORITY|||||||0.93||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the social emotional domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=2 outcomes within the social emotional). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for social emotional development was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.93
92369394|NCT02993822|184643599|SUPERIORITY|||||||0.597|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.597
92369395|NCT02993822|184643599|SUPERIORITY|||||||0.124|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.124
92400055|NCT01611792|184691665|SUPERIORITY||Mean Difference (Net)|2.0|STANDARD_DEVIATION|5.36||0.36|TWO_SIDED||||||Mixed Models Analysis|||||||0.36
92218753|NCT01431274|184338458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.022|STANDARD_ERROR_OF_MEAN|0.012||0.0746|TWO_SIDED|95.0|-0.002|0.045||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.045|-0.002|0.0746
92218754|NCT01431274|184338458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.078|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.054|0.101||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.101|0.054|<0.0001
92218755|NCT01431274|184338458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.046|0.093||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.093|0.046|<0.0001
92218756|NCT01431274|184338458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.011|STANDARD_ERROR_OF_MEAN|0.012||0.3549|TWO_SIDED|95.0|-0.013|0.035||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.035|-0.013|0.3549
92218757|NCT01431274|184338458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.089|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.065|0.113||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.113|0.065|<0.0001
92400056|NCT01611792|184691666|SUPERIORITY||Mean Difference (Net)|-1.31|STANDARD_DEVIATION|1.98||0.0018|TWO_SIDED||||||Mixed Models Analysis|||||||0.0018
92400057|NCT01611792|184691667|SUPERIORITY||Mean Difference (Net)|0.69|STANDARD_DEVIATION|2.12||0.19|TWO_SIDED||||||Mixed Models Analysis|||||||0.19
92275472|NCT00294723|184453247|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-10.02||||0.0395||95.0|-19.56|-0.49||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-0.49|-19.56|0.0395
92275473|NCT00294723|184453247|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-6.6||||0.1789||95.0|-16.24|3.03||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||3.03|-16.24|0.1789
92275474|NCT00294723|184453248|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-12.9||||0.0038||95.0|-21.6|-4.2||2-sided significance level 5%|ANCOVA|||Change in mean postprandial glucose (PPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||-4.2|-21.6|0.0038
92275475|NCT00294723|184453248|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-6.3||||0.1616||95.0|-15.0|2.5||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||2.5|-15.0|0.1616
92275476|NCT00294723|184453248|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-6.6||||0.1319||95.0|-15.3|2.0||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||2.0|-15.3|0.1319
92275477|NCT00294723|184453249|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-12.3||||0.0105||95.0|-21.71|-2.89||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||-2.89|-21.71|0.0105
92400058|NCT01611792|184691668|SUPERIORITY||Mean Difference (Net)|0.69|STANDARD_DEVIATION|2.12||0.19|TWO_SIDED||||||Mixed Models Analysis|||||||0.19
92400059|NCT00960375|184691678|SUPERIORITY_OR_OTHER|||||||0.489|TWO_SIDED||||||ANOVA|||Smoking reduction outcomes were examined in the randomized sample using data from baseline and post-treatment assessments. The variable examined was self-reported number of cigarettes smoked per day during the last 7 days. This variable was skewed so a natural log transformation was applied before linear mixed model analysis.||||0.489
92275478|NCT00294723|184453249|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-2.49||||0.606||95.0|-11.95|6.98||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||6.98|-11.95|0.6060
92348017|NCT04609553|184598487|SUPERIORITY|||||||0.04||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 9-month follow-up, A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the social emotional domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=2 outcomes within the social emotional). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for social emotional development was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.04
92348018|NCT04609553|184598487|SUPERIORITY|||||||0.08||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the social emotional domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=2 outcomes within the social emotional). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for social emotional development was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.08
92348019|NCT04609553|184598487|SUPERIORITY|||||||0.03||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the social emotional domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=2 outcomes within the social emotional). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for social emotional development was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.03
92348020|NCT04609553|184598488|SUPERIORITY|||||||0.002||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Reading Scale at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for reading activities was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.002
92348021|NCT04609553|184598488|SUPERIORITY|||||||0.8||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Reading Scale at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for reading activities was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.80
92369396|NCT02993822|184643600|SUPERIORITY|||||||0.01|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.01
92218758|NCT01431274|184338458|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.048|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|-0.072|-0.025||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.025|-0.072|<0.0001
92218759|NCT01431274|184338458|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.056|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|-0.08|-0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.033|-0.080|<0.0001
92275479|NCT00294723|184453249|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-9.81||||0.0392||95.0|-19.14|-0.49||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||-0.49|-19.14|0.0392
92275480|NCT00294723|184453250|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-10.98||||0.0227||95.0|-20.42|-1.54||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||-1.54|-20.42|0.0227
92275481|NCT00294723|184453250|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-1.83||||0.7047||95.0|-11.33|7.66||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||7.66|-11.33|0.7047
92275482|NCT00294723|184453250|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-9.15||||0.0553||95.0|-18.51|0.21||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||0.21|-18.51|0.0553
92275483|NCT00294723|184453251|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided 95% confidence interval (CI) for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was shown to be non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete CI was below 0%.|Estimated treatment difference, LS Mean|-0.55|||<|0.0001||95.0|-0.77|-0.34||The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity. 2-sided significance level was 5%.|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.34|-0.77|<0.0001
92275484|NCT00294723|184453251|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided 95% confidence interval (CI) for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was shown to be non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete CI was below 0%. Superiority of 1.2 mg liraglutide was only tested if 1.2 mg liraglutide was non-inferior to glimepiride and 1.8 mg liraglutide was superior to glimepiride.|Estimated treatment difference, LS Mean|-0.28||||0.0122||95.0|-0.49|-0.06||The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity. 2-sided significance level was 5%.|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.06|-0.49|0.0122
92275485|NCT00294723|184453251|NON_INFERIORITY_OR_EQUIVALENCE|A test for superiority of liraglutide 1.8 mg to liraglutide 1.2 mg was performed to compare the two doses. Superiority of liraglutide 1.8 mg was concluded if the upper limit of the 2-sided 95% CI for the treatment difference (liraglutide 1.8 mg - liraglutide 1.2 mg) was below 0%.|Estimated treatment difference, LS Mean|-0.28||||0.0123||95.0|-0.49|-0.06||2-sided significance level 5%|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.06|-0.49|0.0123
92275486|NCT00294723|184453252|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-4.0||||0.1396||95.0|-9.4|1.3||2-sided significance level 5%|ANCOVA|||Change in mean prandial increments of plasma glucose from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||1.3|-9.4|0.1396
92218760|NCT01431274|184338458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.008|STANDARD_ERROR_OF_MEAN|0.012||0.5018|TWO_SIDED|95.0|-0.016|0.032||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.032|-0.016|0.5018
92218761|NCT01431274|184338459|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.128|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.104|0.152||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.152|0.104|<0.0001
92218762|NCT01431274|184338459|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.126|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.102|0.15||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.150|0.102|<0.0001
92218763|NCT01431274|184338459|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.111|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.087|0.135||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.135|0.087|<0.0001
92218764|NCT01431274|184338459|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.096|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.072|0.12||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.120|0.072|<0.0001
92348022|NCT04609553|184598488|SUPERIORITY|||||||0.79||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Reading Scale at the18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for reading activities was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.79
92348023|NCT04609553|184598488|SUPERIORITY|||||||0.96||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Reading Scale at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for reading activities was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.96
92348024|NCT04609553|184598488|SUPERIORITY|||||||0.22||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Parent Verbal Responsiveness Scale at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for verbal responsiveness was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.22
92369397|NCT02993822|184643600|SUPERIORITY|||||||0.049|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.049
92369398|NCT02993822|184643600|SUPERIORITY|||||||0.001|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.001
92348025|NCT04609553|184598488|SUPERIORITY||||||<|0.001||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Parent Verbal Responsiveness Scale at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for verbal responsiveness was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||<0.001
92348026|NCT04609553|184598488|SUPERIORITY|||||||0.96||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Parent Verbal Responsiveness Scale at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for verbal responsiveness was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.96
92348027|NCT04609553|184598488|SUPERIORITY|||||||0.12||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Parent Verbal Responsiveness Scale at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for verbal responsiveness was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.12
92348028|NCT04609553|184598489|SUPERIORITY|||||||0.78||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. Dialogic reading behavior was measured at a single timepoint (9 months), so no adjustment was necessary.|||0.78
92348029|NCT04609553|184598489|SUPERIORITY|||||||0.96||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. Dialogic reading behavior was measured at a single timepoint (9 months), so no adjustment was necessary.|||0.96
92348030|NCT04609553|184598490|SUPERIORITY|||||||0.78||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. Discipline strategies were measured at a single timepoint (18 months), so no adjustment was necessary.|||0.78
92369399|NCT02993822|184643601|SUPERIORITY|||||||0.309|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.309
92348031|NCT04609553|184598490|SUPERIORITY|||||||0.96||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. Discipline strategies were measured at a single timepoint (18 months), so no adjustment was necessary.|||0.96
92348032|NCT04609553|184598491|SUPERIORITY|||||||0.8||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.80
92348033|NCT04609553|184598491|SUPERIORITY|||||||0.06||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.06
92348034|NCT04609553|184598491|SUPERIORITY|||||||0.81||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||"Analysis at the 18-month follow-up.~\\A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2."||||0.81
92348035|NCT04609553|184598491|SUPERIORITY|||||||0.08||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.08
92348036|NCT04609553|184598492|SUPERIORITY|||||||0.07||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.07
92348037|NCT04609553|184598492|SUPERIORITY|||||||0.91||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.91
92348038|NCT04609553|184598492|SUPERIORITY|||||||0.39||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.39
92348039|NCT04609553|184598492|SUPERIORITY|||||||0.1||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||"Analysis at the 18-month follow-up.~\\A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3."||||0.10
92348040|NCT04609553|184598493|SUPERIORITY|||||||0.19||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.19
92348041|NCT04609553|184598493|SUPERIORITY|||||||0.18||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.18
92348042|NCT04609553|184598493|SUPERIORITY|||||||0.18||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.18
92348043|NCT04609553|184598493|SUPERIORITY|||||||0.45||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.45
92168583|NCT02590432|184226985|SUPERIORITY||Odds Ratio (OR)|0.2||||0.0799|TWO_SIDED|95.0|0.1|1.0|||Fisher's Exact Test|||LINZESS® 72 μg vs LINZESS® 290 μg||1.0|0.1|0.0799
92348044|NCT04609553|184598494|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||<.001
92168584|NCT02590432|184226985|SUPERIORITY||Odds Ratio (OR)|0.7||||0.7871|TWO_SIDED|95.0|0.3|2.2|||Fisher's Exact Test|||LINZESS® 72 μg vs LINZESS® 145 μg||2.2|0.3|0.7871
92168585|NCT02590432|184226987|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.993|TWO_SIDED|95.0|0.42|2.19|||Log-Rank Test|||LINZESS® 145 μg vs LINZESS® 290 μg||2.19|0.42|0.9930
92168586|NCT02590432|184226987|SUPERIORITY||Hazard Ratio (HR)|0.31||||0.0247|TWO_SIDED|95.0|0.11|0.89|||Log-Rank Test|||LINZESS® 72 μg vs LINZESS® 290 μg||0.89|0.11|0.0247
92348045|NCT04609553|184598494|SUPERIORITY|||||||0.68||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.68
92348046|NCT04609553|184598494|SUPERIORITY|||||||0.16||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.16
92348047|NCT04609553|184598494|SUPERIORITY|||||||0.39||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.39
92348048|NCT04609553|184598495|SUPERIORITY|||||||0.87||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.87
92348049|NCT04609553|184598495|SUPERIORITY|||||||0.14||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.14
92348050|NCT04609553|184598495|SUPERIORITY|||||||0.007||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.007
92348051|NCT04609553|184598495|SUPERIORITY|||||||0.34||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.34
92348052|NCT04609553|184598496|SUPERIORITY|||||||0.99||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.99
92348053|NCT04609553|184598496|SUPERIORITY|||||||0.07||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.07
92348054|NCT04609553|184598496|SUPERIORITY|||||||0.41||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.41
92348055|NCT04609553|184598496|SUPERIORITY|||||||0.03||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.03
92348056|NCT01035788|184598499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39|STANDARD_ERROR_OF_MEAN|7.24||0.849|TWO_SIDED|95.0|-1.39|13.2|||Mixed Models Analysis|p value was obtained from the contrast of the linear mixed model||We sought to obtain a sample size of 18 per group to provide 80% power to detect a .97 standard deviation difference in mean change in CAPS between MB-CBCT and the CBCT-Communication Skills at treatment end based on a two-tailed t-test at 5% significance. Linear mixed models with repeated measures were performed to address the primary hypotheses that MB-CBCT would result in a greater improvement for Veterans and their partners than CBCT-Communication Skills at the end of treatment.||13.2|-1.39|.849
92348057|NCT03829475|184598501|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
92348058|NCT00764517|184598520|OTHER||Hazard Ratio (HR)|0.33||||0.002|TWO_SIDED|95.0|0.16|0.69|||Log Rank|||||0.69|0.16|0.002
92348059|NCT00764517|184598521|OTHER||Hazard Ratio (HR)|0.42||||0.011|TWO_SIDED|95.0|0.21|0.84|||Log Rank|||||0.84|0.21|0.011
92348060|NCT01433913|184598524|OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.23
92348061|NCT01433913|184598525|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92348062|NCT01433913|184598526|OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
92348063|NCT01433913|184598527|OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
92348064|NCT01433913|184598528|OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
92348065|NCT01433913|184598532|OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
92348066|NCT01433913|184598533|OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
92348067|NCT01433913|184598534|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
92348068|NCT01433913|184598535|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
92348069|NCT01433913|184598536|OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
92348070|NCT00460798|184598541|SUPERIORITY_OR_OTHER||Obective Response Rate (Percent)|40.6|||||TWO_SIDED|95.0|35.5|46.0|||||Exact method based on binomial distribution|Objective Response Rate (ORR) = Percentage of participants with best overall response of CR or PR||46.0|35.5|
92348071|NCT01953237|184598554|SUPERIORITY_OR_OTHER_LEGACY|||||||0.558|||||||Mixed Models Analysis|||||||0.5580
92348072|NCT01186770|184598559|SUPERIORITY||Least square (LS) mean difference|2.83||||0.1692||95.0|-1.21|6.86||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with treatment as effect and analysis region as covariate.||6.86|-1.21|0.1692
92348073|NCT01186770|184598559|SUPERIORITY||LS mean difference|6.51||||0.0016|TWO_SIDED|95.0|2.47|10.55||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using ANCOVA with treatment as effect and analysis region as covariate.||10.55|2.47|0.0016
92348074|NCT01186770|184598559|SUPERIORITY||LS mean difference|9.13|||<|0.0001|TWO_SIDED|95.0|5.09|13.18||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using ANCOVA with treatment as effect and analysis region as covariate.||13.18|5.09|< 0.0001
92348075|NCT01186770|184598560|SUPERIORITY||Odds Ratio (OR)|1.23||||0.3076|TWO_SIDED|95.0|0.82|1.84||Threshold for significance at 0.0167 level.|Regression, Logistic|||Analysis was performed using logistic regression model with treatment as effect and analysis region as covariate.||1.84|0.82|0.3076
92348076|NCT01186770|184598560|SUPERIORITY||Odds Ratio (OR)|1.54||||0.0339|TWO_SIDED|95.0|1.03|2.29||Threshold for significance at 0.0167 level.|Regression, Logistic|||Analysis was performed using logistic regression model with treatment as effect and analysis region as covariate.||2.29|1.03|0.0339
92348077|NCT01186770|184598560|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0043||95.0|1.2|2.66||Threshold for significance at 0.0167 level.|Regression, Logistic|||Analysis was performed using logistic regression model with treatment as effect and analysis region as covariate.||2.66|1.20|0.0043
92348078|NCT01186770|184598561|SUPERIORITY||LS mean difference|0.09||||0.692|TWO_SIDED|95.0|-0.36|0.55||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using ANCOVA model with treatment as effect and analysis region and baseline as covariates.||0.55|-0.36|0.6920
92400060|NCT00960375|184691679|SUPERIORITY_OR_OTHER|||||||0.685|TWO_SIDED||||||ANOVA|||This outcome was examined in the randomized sample. Abstinence was defined as self-reported no smoking in the last 7 days + expired CO ≤ 10 PPM. To assess difference in change between conditions, we tested the significance of the condition-by-time interaction using repeated measured mixed models with a random participant effect. Time was binary: post-treatment versus baseline. We used a logistic model for binary outcomes.||||0.685
92348079|NCT01186770|184598561|SUPERIORITY||LS mean difference|0.51||||0.0274|TWO_SIDED|95.0|0.06|0.97||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using ANCOVA model with treatment as effect and analysis region and baseline as covariates.||0.97|0.06|0.0274
92348080|NCT01186770|184598561|SUPERIORITY||LS mean difference|0.53||||0.0237|TWO_SIDED|95.0|0.07|0.98||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using ANCOVA model with treatment as effect and analysis region and baseline as covariates.||0.98|0.07|0.0237
92348081|NCT00689936|184598583|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72||||6e-05|TWO_SIDED|95.0|0.61|0.85||The p-value is based on the unstratified log-rank test.|Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|||0.85|0.61|0.00006
92159452|NCT00783692|184206497|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.2||||0.1036|TWO_SIDED|95.0|-1.5|16.0||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||16.0|-1.5|0.1036
92168587|NCT02590432|184226987|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.5149|TWO_SIDED|95.0|0.41|1.5|||Log-Rank Test|||LINZESS® 72 μg vs LINZESS® 145 μg||1.50|0.41|0.5149
92348082|NCT00689936|184598583|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7||||1e-05|TWO_SIDED|95.0|0.6|0.82||The p-value is based on the unstratified log-rank test.|Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|||0.82|0.60|0.00001
92348083|NCT00689936|184598583|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.03||||0.70349|TWO_SIDED|95.0|0.89|1.2||The p-value is based on the unstratified log-rank test.|Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|||1.20|0.89|0.70349
92348084|NCT00689936|184598584|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||<|1e-05|TWO_SIDED|95.0|0.59|0.79||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.79|0.59|<0.00001
92348085|NCT00689936|184598584|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||<|1e-05|TWO_SIDED|95.0|0.6|0.81||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.81|0.60|<0.00001
92348086|NCT00689936|184598584|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.91161|TWO_SIDED|95.0|0.86|1.14||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.14|0.86|0.91161
92348087|NCT00689936|184598585|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78||||0.00234|TWO_SIDED|95.0|0.67|0.92||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.92|0.67|0.00234
92348088|NCT00689936|184598585|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.02||||0.82903|TWO_SIDED|95.0|0.86|1.2||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.20|0.86|0.82903
92348089|NCT00689936|184598585|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.00119|TWO_SIDED|95.0|0.66|0.9||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.90|0.66|0.00119
92348090|NCT00689936|184598586|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.83|||<|1e-05|TWO_SIDED|95.0|1.41|2.37|||Fisher Exact|||||2.37|1.41|<0.00001
92348091|NCT00689936|184598586|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.1||||0.53065|TWO_SIDED|95.0|0.83|1.44|||Fisher Exact|||||1.44|0.83|0.53065
92348092|NCT00689936|184598586|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.67||||0.0001|TWO_SIDED|95.0|1.29|2.15|||Fisher Exact|||||2.15|1.29|0.00010
92348093|NCT00689936|184598587|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.02|||<|1e-05|TWO_SIDED|95.0|1.53|2.68|||Fisher Exact|||||2.68|1.53|<0.00001
92348094|NCT00689936|184598587|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.14||||0.405|TWO_SIDED|95.0|0.85|1.54|||Fisher Exact|||||1.54|0.85|0.40500
92218765|NCT01431274|184338459|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.109|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.085|0.133||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.133|0.085|<0.0001
92218766|NCT01431274|184338459|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.012||0.1569|TWO_SIDED|95.0|-0.007|0.041||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.041|-0.007|0.1569
92218767|NCT01431274|184338459|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.113|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.089|0.137||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.137|0.089|<0.0001
92218768|NCT01431274|184338459|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.002|STANDARD_ERROR_OF_MEAN|0.012||0.8834|TWO_SIDED|95.0|-0.022|0.026||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.026|-0.022|0.8834
92348095|NCT00689936|184598587|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.77||||4e-05|TWO_SIDED|95.0|1.35|2.32|||Fisher Exact|||||2.32|1.35|0.00004
92348096|NCT00689936|184598588|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||<|1e-05|TWO_SIDED|95.0|0.51|0.76||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||0.76|0.51|<0.00001
92348097|NCT00689936|184598588|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||<|1e-05|TWO_SIDED|95.0|0.5|0.72||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||0.72|0.50|<0.00001
92348098|NCT00689936|184598588|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.03||||0.7674|TWO_SIDED|95.0|0.86|1.23||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||1.23|0.86|0.76740
92218769|NCT01431274|184338459|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.015|STANDARD_ERROR_OF_MEAN|0.012||0.2129|TWO_SIDED|95.0|-0.009|0.039||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.039|-0.009|0.2129
92348099|NCT00689936|184598589|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.61|||<|1e-05|TWO_SIDED|95.0|0.51|0.72||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.72|0.51|<0.00001
92348100|NCT00689936|184598589|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.61|||<|1e-05|TWO_SIDED|95.0|0.52|0.72||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.72|0.52|<0.00001
92348101|NCT00689936|184598589|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.99537|TWO_SIDED|95.0|0.85|1.17||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.17|0.85|0.99537
92348102|NCT00689936|184598590|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||||||<0.00001
92348103|NCT00689936|184598590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.46672|||||||Wilcoxon (Mann-Whitney)|||||||0.46672
92348104|NCT00689936|184598590|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||||||<0.00001
92348105|NCT00689936|184598591|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||||||<0.00001
92348106|NCT00689936|184598591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.46987|||||||Wilcoxon (Mann-Whitney)|||||||0.46987
92348107|NCT00689936|184598591|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||||||<0.00001
92348108|NCT00689936|184598592|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.00012|TWO_SIDED|95.0|0.68|0.88||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.88|0.68|0.00012
92348109|NCT00689936|184598592|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81||||0.00187|TWO_SIDED|95.0|0.71|0.93||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.93|0.71|0.00187
92348110|NCT00689936|184598592|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.95||||0.45973|TWO_SIDED|95.0|0.84|1.08||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.08|0.84|0.45973
92348111|NCT00689936|184598593|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||2e-05|TWO_SIDED|95.0|0.67|0.86||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.86|0.67|0.00002
92348112|NCT00689936|184598593|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81||||0.00126|TWO_SIDED|95.0|0.72|0.92||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.92|0.72|0.00126
92159453|NCT00783692|184206497|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.0||||0.6413|TWO_SIDED|95.0|-6.3|10.2||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||10.2|-6.3|0.6413
92159454|NCT05174065|184206498|SUPERIORITY||Adjusted Difference in Proportion|32.6|||<|0.0001|TWO_SIDED|95.0|18.7|46.5|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors of rounded PPPASI total score range (≤ 20/21 to 30/≥ 31) and focal infection status (yes/no) at baseline.|Based on the Cochran-Mantel-Haenszel method adjusting for the stratification factors. The adjusted difference in proportion was the weighted average of the treatment differences across strata.|||46.5|18.7|<0.0001
92159455|NCT05174065|184206499|SUPERIORITY||Difference in Least Squares Mean|-6.13|||<|0.0001|TWO_SIDED|95.0|-8.57|-3.69|||MMRM|With treatment group, visit time, treatment-by-time interaction, and stratification factors as fixed effect, and the baseline value as a covariate.|Apremilast - Placebo|||-3.69|-8.57|<0.0001
92159456|NCT05174065|184206500|SUPERIORITY||Difference in Least Squares Mean|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.2|-0.9|||MMRM|With treatment group, visit time, treatment-by-time interaction, and stratification factors as fixed effect, and baseline value as covariate.|Apremilast - Placebo|||-0.9|-2.2|<0.0001
92159457|NCT05174065|184206501|SUPERIORITY||Difference in Least Squares Mean|-7.8||||0.033|TWO_SIDED|95.0|-14.9|-0.6|||MMRM|With treatment group, visit time, treatment-by-time interaction, and stratification factors as fixed effect, and the baseline value as a covariate.|Apremilast - Placebo|||-0.6|-14.9|0.0330
92159458|NCT05174065|184206502|SUPERIORITY||Difference in Least Squares Mean|-10.8||||0.0076|TWO_SIDED|95.0|-18.6|-2.9|||MMRM|With treatment group, visit time, treatment-by-time interaction, and stratification factors as fixed effect, and the baseline value as a covariate.|Apremilast - Placebo|||-2.9|-18.6|0.0076
92159459|NCT05174065|184206503|SUPERIORITY||Difference in Least Squares Mean|-1.4||||0.0036|TWO_SIDED|95.0|-2.4|-0.5|||MMRM|With treatment group, visit time, treatment-by-time interaction, and stratification factors as fixed effect, and the baseline value as a covariate.|Apremilast - Placebo|||-0.5|-2.4|0.0036
92159460|NCT04873817|184206514|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||< 0.0001
92159461|NCT00216320|184206516|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<.001
92159462|NCT02909101|184206527|SUPERIORITY|||||||0.039|||||||ANCOVA|ANCOVAs were 2 (Arm) by 2 (Time). Covariates were age, WTAR standard score, and number of games improved (as a proxy of intervention engagement).||Estimated marginal means, adjusted for covariates in the model, are reported. The p-value reported is for the Arm by Time interaction effect.||||0.039
92159463|NCT02909101|184206528|SUPERIORITY|||||||0.054|||||||ANCOVA|ANCOVAs were 2 (Arm) by 2 (Time). Covariates were age, WTAR standard score, and number of games improved (as a proxy of intervention engagement).||Estimated marginal means, adjusted for covariates in the model, are reported. The p-value reported is for the Arm by Time interaction effect.||||0.054
92159464|NCT02909101|184206529|OTHER|||||||0.744|||||||t-test, 2 sided|||To determine acceptability, we examined whether mean ratings for both arms were above 3.5, and we also examined whether there was any difference between arms.||||0.744
92159465|NCT02909101|184206530|OTHER|||||||0.719|||||||t-test, 2 sided|||To determine acceptability in terms of helpfulness, we examined whether mean ratings for both arms were above 3.5, and we also examined whether there was any difference between arms.||||0.719
92159466|NCT02909101|184206531|SUPERIORITY|||||||0.337|||||||ANCOVA|ANCOVAs were 2 (Arm) by 2 (Time). Covariates were age, WTAR standard score, and number of games improved (as a proxy of intervention engagement).||Estimated marginal means, adjusted for covariates in the model, are reported. The p-value reported is for the Arm by Time interaction effect.||||0.337
92159467|NCT02909101|184206532|SUPERIORITY|||||||0.025|||||||ANCOVA|ANCOVAs were 2 (Arm) by 2 (Time). Covariates were age, WTAR standard score, and number of games improved (as a proxy of intervention engagement).||Estimated marginal means, adjusted for covariates in the model, are reported. The p-value reported is for the Arm by Time interaction effect.||||0.025
92159468|NCT02909101|184206533|SUPERIORITY|||||||0.133|||||||ANCOVA|ANCOVAs were 2 (Arm) by 2 (Time). Covariates were age, WTAR standard score, and number of games improved (as a proxy of intervention engagement).||Estimated marginal means, adjusted for covariates in the model, are reported. The p-value reported is for the Arm by Time interaction effect.||||0.133
92159469|NCT02081365|184206534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|||<|0.05|TWO_SIDED|95.0|0.74|3.55|||ANCOVA|||Comparison of two groups at 1 month follow up with baseline value as the covariate||3.55|.74|<0.05
92159470|NCT02081365|184206535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.98|||<|0.05|TWO_SIDED|95.0|0.39|1.57|||ANCOVA|||Comparison of two groups at 1 month follow up with baseline value as the covariate||1.57|.39|<0.05
92159471|NCT02081365|184206536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|||<|0.05|TWO_SIDED|95.0|0.61|1.85|||ANCOVA|||Comparison of two groups at 1 month follow up with baseline value as the covariate||1.85|.61|<0.05
92159472|NCT02081365|184206537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|||<|0.05|TWO_SIDED|95.0|0.01|1.64|||ANCOVA|||Comparison of two groups at 1 month follow up with baseline value as the covariate||1.64|.01|<0.05
92159473|NCT01394991|184206552|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.018||||0.248|TWO_SIDED|95.0|-0.051|0.016|||Chi-squared|||The primary hypothesis was that the group of participants receiving epoetin alfa QW and the group of participants receiving epoetin alfa TIW would have similar incidence rate of participants with at least 1 clinically relevant and objectively confirmed TVE from randomization through Week 16.||0.016|-0.051|0.248
92348113|NCT00689936|184598593|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.27704|TWO_SIDED|95.0|0.83|1.06||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.06|0.83|0.27704
92348114|NCT00689936|184598594|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66|||<|1e-05|TWO_SIDED|95.0|0.56|0.78||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.78|0.56|<0.00001
92348115|NCT00689936|184598594|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.00067|TWO_SIDED|95.0|0.63|0.88||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.88|0.63|0.00067
92348116|NCT00689936|184598594|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.12333|TWO_SIDED|95.0|0.75|1.03||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.03|0.75|0.12333
92348117|NCT00689936|184598595|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||<|1e-05|TWO_SIDED|95.0|0.54|0.73||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||.73|0.54|<0.00001
92348118|NCT00689936|184598595|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||1e-05|TWO_SIDED|95.0|0.61|0.83||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||0.83|0.61|0.00001
92348119|NCT00689936|184598595|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.05821|TWO_SIDED|95.0|0.76|1.0||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||1.00|0.76|0.05821
92159474|NCT01394991|184206552|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.254||95.0|0.18|1.58|||Regression, Logistic|||||1.58|0.18|0.254
92159475|NCT01394991|184206553|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.029||||0.08|TWO_SIDED|95.0|-0.065|0.007|||Chi-squared|||||0.007|-0.065|0.08
92159476|NCT01394991|184206554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.073|TWO_SIDED|95.0|0.14|1.13|||Log Rank|The stratified log-rank test accounting for ECOG performance status (0 or 1 versus 2) was used to compare the difference between treatment groups.|The Cox regression model with covariates for treatment group and Eastern Cooperative Oncology Group (ECOG) performance status (0 or 1 versus 2) was used for estimates of hazard ratio and its 95% confidence interval.|||1.13|0.14|0.073
92159477|NCT01394991|184206555|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.039||||0.059||95.0|-0.083|0.005|||Chi-squared|||||0.005|-0.083|0.059
92348120|NCT00689936|184598596|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.93824|TWO_SIDED|95.0|0.75|1.38|||Fisher Exact|||||1.38|0.75|0.93824
92348121|NCT00689936|184598596|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.76||||0.08836|TWO_SIDED|95.0|0.56|1.03|||Fisher Exact|||||1.03|0.56|0.08836
92348122|NCT00689936|184598596|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.34||||0.04974|TWO_SIDED|95.0|1.01|1.79|||Fisher Exact|||||1.79|1.01|0.04974
92348123|NCT00689936|184598597|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.68||||0.02134|TWO_SIDED|95.0|1.08|2.59|||Fisher Exact|||||2.59|1.08|0.02134
92348124|NCT00689936|184598597|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01||||1|TWO_SIDED|95.0|0.64|1.59|||Fisher Exact|||||1.59|0.64|1.00000
92348125|NCT00689936|184598597|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.65||||0.02374|TWO_SIDED|95.0|1.08|2.53|||Fisher Exact|||||2.53|1.08|0.02374
92159478|NCT01394991|184206556|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.47||||0.054|TWO_SIDED|95.0|0.21|1.03|||Log Rank|The stratified log-rank test accounting for ECOG score status (0 or 1 versus 2) was used to compare the difference between treatment groups.|The Cox regression model including covariates for treatment group and the Eastern Cooperative Oncology Group (ECOG) score status (0 or 1 versus 2) was used for estimates of a hazard ratio and its 95% confidence interval.|||1.03|0.21|0.054
92159479|NCT01394991|184206557|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0041||||0.88||95.0|-0.0526|0.0608|||Chi-squared|||||0.0608|-0.0526|0.88
92159480|NCT01394991|184206558|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.026||||0.514|TWO_SIDED|95.0|-0.056|0.108|||Chi-squared|||||0.108|-0.056|0.514
92159481|NCT01394991|184206559|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.003||||0.92|TWO_SIDED|95.0|-0.071|0.065|||Chi-squared|||||0.065|-0.071|0.920
92159482|NCT02337361|184206561|OTHER||||||||||||||||||Generalized estimating equations (GEE)(Diggle et al. 2002) tested e-SBI efficacy, controlling for demographic differences between study condition and study sites. GEE models estimate population average or marginal models and account for within-subject nonindependence (clustering) of observations across multiple waves of data collection and use all available data in model estimation.|||
92159483|NCT02337361|184206561|OTHER||||||||||||||||||Generalized estimating equations tested e-SBI efficacy, controlling for demographic differences between study condition and study sites. GEE models estimate population average or marginal models and account for within-subject nonindependence (clustering) of observations across multiple waves of data collection and use all available data in model estimation|||
92168588|NCT02590432|184226988|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.9519|TWO_SIDED|95.0|0.39|2.18|||Log-Rank Test|||LINZESS® 145 μg vs LINZESS® 290 μg||2.18|0.39|0.9519
92168589|NCT02590432|184226988|SUPERIORITY||Hazard Ratio (HR)|0.27||||0.0234|TWO_SIDED|95.0|0.08|0.87|||Log-Rank Test|||LINZESS® 72 μg vs LINZESS® 290 μg||0.87|0.08|0.0234
92348126|NCT00689936|184598598|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.7||||0.11152|TWO_SIDED|95.0|0.91|3.21|||Fisher Exact|||||3.21|0.91|0.11152
92348127|NCT00689936|184598598|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.93||||0.86336|TWO_SIDED|95.0|0.47|1.83|||Fisher Exact|||||1.83|0.47|0.86336
92348128|NCT00689936|184598598|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.84||||0.07321|TWO_SIDED|95.0|0.96|3.55|||Fisher Exact|||||3.55|0.96|0.07321
92348129|NCT00689936|184598599|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.62||||0.00043|TWO_SIDED|95.0|1.55|4.45|||Fisher Exact|||||4.45|1.55|0.00043
92348130|NCT00689936|184598599|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.38||||0.31274|TWO_SIDED|95.0|0.78|2.43|||Fisher Exact|||||2.43|0.78|0.31274
92348131|NCT00689936|184598599|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.01936|TWO_SIDED|95.0|1.13|3.19|||Fisher Exact|||||3.19|1.13|0.01936
92348132|NCT00689936|184598600|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.13||||0.82128|TWO_SIDED|95.0|0.46|2.8|||Fisher Exact|||||2.80|0.46|0.82128
92348133|NCT00689936|184598600|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.46||||0.11041|TWO_SIDED|95.0|0.19|1.14|||Fisher Exact|||||1.14|0.19|0.11041
92348134|NCT00689936|184598600|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.44||||0.07302|TWO_SIDED|95.0|1.01|5.91|||Fisher Exact|||||5.91|1.01|0.07302
92348135|NCT01995201|184598628|OTHER|||||||0.5231|||||||Chi-squared|||||||0.5231
92348136|NCT01138735|184598686|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No adjustment for multiplicity is required. The tests will be conducted as two-sided, each at the 0.05 significance level. The trial will be claimed 'positive' if all primary analyses are shown statistically significant at the 0.05 level.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH) test stratified by analysis center, using general association statistics||"null hypothesis: no difference in Success rate in two treatment groups (adapalene/benzoyl peroxide vs Topical Gel Vehicle).~power calculation: 90%"||||<0.001
92348137|NCT01138735|184598687|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No adjustment for multiplicity is required. The tests will be conducted as two-sided, each at the 0.05 significance level. The trial will be claimed 'positive' if all primary analyses are shown statistically significant at the 0.05 level.|ANCOVA|normality assumption is not met. ANCOVA Model: Ranked Change in Total Lesion Counts = Ranked Baseline Lesion Counts, Analysis Center, Treatment.||null hypothesis: no difference in change from baseline in total lesion count in two treatment groups (adapalene/benzoyl peroxide vs Topical Gel Vehicle)||||<0.001
92348138|NCT01138735|184598688|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|CMH test with row mean difference statistic using relative to an identified distribution(RIDIT) score, controlling for analysis center||||||<0.001
92348139|NCT01138735|184598689|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|Ranked Change in Inflammatory Lesion Counts = Ranked Baseline Inflammatory Lesion Counts, Analysis Center, Treatment||||||<0.001
92348140|NCT06001866|184598690|SUPERIORITY||||||<|0.0001|||||||LSD test|||||||<0.0001
92348141|NCT06001866|184598690|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92348142|NCT06001866|184598691|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92348143|NCT06001866|184598691|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92348144|NCT06001866|184598692|SUPERIORITY||||||=|0.78|||||||LSD test|||||||=0.78
92348145|NCT06001866|184598692|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<.00001
92348146|NCT06001866|184598693|SUPERIORITY||||||=|1|||||||LSD test|||||||=1.00
92348147|NCT06001866|184598693|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92348148|NCT06001866|184598694|SUPERIORITY||||||=|0.75|||||||LSD test|||||||=0.75
92159484|NCT02337361|184206562|OTHER||Odds Ratio (OR)|0.22|STANDARD_ERROR_OF_MEAN|0.12|<|0.01|TWO_SIDED||||||t-test, 2 sided||the e-SBI group was at reduced odds relative to the control group to report weekly or more frequent drinking at 6 month follow-up||Generalized estimating equations (GEE) tested e-SBI efficacy, controlling for demographic differences between study condition and study sites. GEE models estimate population average or marginal models and account for within-subject nonindependence (clustering) of observations across multiple waves of data collection and use all available data in model estimation.|||<.01
92159485|NCT02337361|184206563|OTHER||Odds Ratio (OR)|0.23|STANDARD_ERROR_OF_MEAN|0.14|<|0.05|TWO_SIDED||||||t-test, 2 sided||the e-SBI group was at reduced odds relative to the control group to report drinking a maximum quantity of 5 or more drinks in a day at 6 month follow-up|||||<.05
92168590|NCT02590432|184226988|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.4518|TWO_SIDED|95.0|0.39|1.47|||Log-Rank Test|||LINZESS® 72 μg vs LINZESS® 145 μg||1.47|0.39|0.4518
92348149|NCT06001866|184598694|SUPERIORITY||||||<|0.01|||||||LSD test|||||||<0.01
92348150|NCT06001866|184598695|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92348151|NCT06001866|184598695|SUPERIORITY||||||=|0.62|||||||LSD test|||||||=0.62
92168591|NCT04788641|184226990|OTHER||Geometric LS Mean Ratio (%)|71.1|||||TWO_SIDED|90.0|65.44|77.24|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Tacrolimus||77.24|65.44|
92348152|NCT06001866|184598696|SUPERIORITY||||||=|0.16|||||||LSD test|||||||=0.16
92348153|NCT06001866|184598696|SUPERIORITY||||||=|0.33|||||||LSD test|||||||=0.33
92348154|NCT06001866|184598697|SUPERIORITY||||||=|0.54|||||||t-test, 2 sided|||||||=.54
92348155|NCT06001866|184598698|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92348156|NCT04725188|184598722|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.091|TWO_SIDED|95.0|0.53|1.13|||Regression, Cox|||||1.13|0.53|0.0910
92348157|NCT04725188|184598722|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.9622|TWO_SIDED|95.0|0.96|2.02|||Regression, Cox|||||2.02|0.96|0.9622
92348158|NCT04725188|184598723|SUPERIORITY||Difference in percentage|14.7||||0.0113|TWO_SIDED|95.0|2.1|26.9|||Miettinen & Nurminen method|||||26.9|2.1|0.0113
92348159|NCT04725188|184598723|SUPERIORITY||Difference in percentage|-9.4||||0.975|TWO_SIDED|95.0|-19.6|0.0|||Miettinen & Nurminen method|||||0.0|-19.6|0.9750
92348160|NCT04725188|184598724|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0943|TWO_SIDED|95.0|0.5|1.15|||Regression, Cox|||||1.15|0.50|0.0943
92348161|NCT04725188|184598724|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.5974|TWO_SIDED|95.0|0.7|1.58|||Regression, Cox|||||1.58|0.70|0.5974
92348162|NCT04279483|184598777|SUPERIORITY|Linear mixed effects|Slope|-0.64|STANDARD_ERROR_OF_MEAN|1.95||0.74|TWO_SIDED|||||Statistical significance was evaluated at α = 0.05.|Mixed Models Analysis|||Our hypothesis was that craving would be higher for those in the Tobacco retailer group, relative to the Nontobacco retailer group, during the intervention phase but not the baseline phase. We tested the interaction between study phase and experimental condition, in a model where the baseline was the reference study phase and Tobacco group was the reference experimental condition.||||0.74
92348163|NCT04279483|184598777|SUPERIORITY|Linear mixed effects|Slope|-0.84|STANDARD_ERROR_OF_MEAN|2.12||0.69|TWO_SIDED|||||Statistical significance was evaluated at α = 0.05.|Mixed Models Analysis|||Our hypothesis was that craving would be higher for those in the Tobacco retailer group, relative to the control group, during the intervention phase but not the baseline phase. We tested the interaction between study phase and experimental condition, in a model where the baseline was the reference study phase and Tobacco group was the reference experimental condition.||||0.69
92348164|NCT04279483|184598778|SUPERIORITY|Linear mixed effects|Slope|-0.37|STANDARD_ERROR_OF_MEAN|0.54||0.49|TWO_SIDED|||||Statistical significance was evaluated at α = 0.05.|Mixed Models Analysis|||Our hypothesis was that cigarettes smoked would be higher for those in the Tobacco retailer group, relative to the Nontobacco retailer group, during the intervention phase but not the baseline phase. We tested the interaction between study phase and experimental condition, in a model where the baseline was the reference study phase and Tobacco group was the reference experimental condition.||||0.49
92348165|NCT04279483|184598778|SUPERIORITY|Linear mixed effects|Slope|0.21|STANDARD_ERROR_OF_MEAN|0.59||0.72|TWO_SIDED|||||Statistical significance was evaluated at α = 0.05.|Mixed Models Analysis|||Our hypothesis was that craving would be higher for those in the Tobacco retailer group, relative to the control group, during the intervention phase but not the baseline phase. We tested the interaction between study phase and experimental condition, in a model where the baseline was the reference study phase and Tobacco group was the reference experimental condition.||||0.72
92348166|NCT00876343|184598781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.006|TWO_SIDED|95.0|-3.7|-0.6|||ANCOVA|||||-0.6|-3.7|0.006
92348167|NCT00876343|184598781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|||<|0.001|TWO_SIDED|95.0|-4.6|-1.5|||ANCOVA|||||-1.5|-4.6|<0.001
92348168|NCT00230737|184598811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3594.0|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92348169|NCT04717557|184598896|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
92348170|NCT04717557|184598896|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
92348171|NCT04717557|184598897|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
92348172|NCT04717557|184598898|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
92348173|NCT04717557|184598899|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|t-test, 2 sided|||||||>0.5
92348174|NCT04717557|184598900|SUPERIORITY||||||>|0.5|||||||Cochran-Mantel-Haenszel|||Underpowered - no statistically significant difference.||||>0.5
92348175|NCT04717557|184598901|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
92348176|NCT04717557|184598902|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
92348177|NCT04717557|184598903|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
92348178|NCT04717557|184598904|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
92348179|NCT01654276|184598912|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|TWO_SIDED||||||t-test, 2 sided|||||||0.66
92348180|NCT01192178|184598923|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.971||||0.928|TWO_SIDED|95.0|0.519|1.819||Cox Proportional Hazards model adjusted for investigative center|Regression, Cox||The risk of having an asthma exacerbation during the treatment period was analyzed.|||1.819|0.519|0.928
92168592|NCT04788641|184226990|OTHER||Geometric LS Mean Ratio (%)|102.9|||||TWO_SIDED|90.0|96.11|110.1|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Cyclosporin||110.1|96.11|
92168593|NCT04788641|184226991|OTHER||Geometric LS Mean Ratio (%)|62.91|||||TWO_SIDED|90.0|55.64|71.13|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Tacrolimus||71.13|55.64|
92348181|NCT01143324|184598933|SUPERIORITY_OR_OTHER||Mean|1.3|STANDARD_DEVIATION|0.5|||TWO_SIDED|95.0|1.2|1.3||||||||1.3|1.2|
92348182|NCT01143324|184598934|SUPERIORITY_OR_OTHER||Difference from pre-op mean|-3.3|||<|0.0001|TWO_SIDED|95.0|-3.6|-2.9|||t-test, 2 sided|||||-2.9|-3.6|<0.0001
92348183|NCT01143324|184598935|SUPERIORITY_OR_OTHER||Difference from pre-op mean|-3.8|||<|0.0001|TWO_SIDED|95.0|-4.2|-3.3|||t-test, 2 sided|||||-3.3|-4.2|<0.0001
92348184|NCT01143324|184598936|SUPERIORITY_OR_OTHER||Difference from pre-op mean|0.35|||<|0.0001|TWO_SIDED|95.0|0.3|0.41|||t-test, 2 sided|||||0.41|0.30|<0.0001
92348185|NCT01143324|184598938|SUPERIORITY_OR_OTHER||Percentage|27.0|||||||||||||61/226 patients underwent a rehabilitation programs between 6 and 12 months follow up visit, making it 27.0 % of the total.|||||
92348186|NCT01143324|184598939|SUPERIORITY_OR_OTHER||Percentage|1.2|||||||||||||The rate of additional lumbar spinal surgeries at treated level was 1.2% (3/252) patients.|||||
92348187|NCT01143324|184598940|SUPERIORITY_OR_OTHER||Percentage|1.6|||||||||||||The rate of additional lumbar spinal surgeries at the same level was 1.6% (4/252) patients.|||||
92348188|NCT01143324|184598941|SUPERIORITY_OR_OTHER||Percentage at 12 months|47.6||||||||||||||||||
92348189|NCT01143324|184598943|SUPERIORITY_OR_OTHER||Difference from pre-op mean|-23.0|||<|0.0001|TWO_SIDED|95.0|-25.5|-20.5|||t-test, 2 sided|||||-20.5|-25.5|<0.0001
92348190|NCT01143324|184598944|SUPERIORITY_OR_OTHER||Percentage|42.7||||||||||||||||||
92348191|NCT01143324|184598945|SUPERIORITY_OR_OTHER||Mean|3.2|STANDARD_DEVIATION|2.0||||95.0|2.9|3.4||||||||3.4|2.9|
92348192|NCT02629159|184598962|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|Response Rate Difference|34.1|||<|0.001|TWO_SIDED|95.0|29.0|39.2||This comparison was the primary analysis for US/FDA regulatory purposes, and a ranked key secondary endpoint for EU/EMA regulatory purposes.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||39.2|29.0|<0.001
92348193|NCT02629159|184598962|SUPERIORITY||Response Rate Difference|7.5||||0.018|TWO_SIDED|95.0|1.2|13.8||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Adalimumab|||13.8|1.2|0.018
92348194|NCT02629159|184598963|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|Response Rate Difference|22.6|||<|0.001|TWO_SIDED|95.0|18.6|26.5||This comparison was the primary analysis for EU/EMA regulatory purposes, and a ranked key secondary endpoint for US/FDA regulatory purposes.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||26.5|18.6|<0.001
92400061|NCT03309020|184691732|OTHER|||||||0.802||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment and gender (male or female) were included as covariates in the model||Null hypothesis is no difference in grade between survivor statuses one month after cataract surgery||||0.802
92218770|NCT01431274|184338459|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.013|STANDARD_ERROR_OF_MEAN|0.012||0.2702|TWO_SIDED|95.0|-0.037|0.01||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.010|-0.037|0.2702
92218771|NCT01431274|184338460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.141|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.117|0.166||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.166|0.117|<0.0001
92400062|NCT03309020|184691733|OTHER|||||||0.713||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment and gender (male or female) were included as covariates in the model||Null hypothesis is no difference in grade between survivor statuses three months after cataract surgery||||.713
92218772|NCT01431274|184338460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.115|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.09|0.139||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.139|0.090|<0.0001
92218773|NCT01431274|184338460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.119|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.094|0.143||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.143|0.094|<0.0001
92218774|NCT01431274|184338460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.099|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.074|0.123||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.123|0.074|<0.0001
92218775|NCT01431274|184338460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.092|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.067|0.117||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.117|0.067|<0.0001
92218776|NCT01431274|184338460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.023|STANDARD_ERROR_OF_MEAN|0.013||0.0717|TWO_SIDED|95.0|-0.002|0.047||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.047|-0.002|0.0717
92218777|NCT01431274|184338460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.121|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.097|0.146||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.146|0.097|<0.0001
92218778|NCT01431274|184338460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.027|STANDARD_ERROR_OF_MEAN|0.013||0.0344|TWO_SIDED|95.0|0.002|0.051||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.051|0.002|0.0344
92218779|NCT01431274|184338460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.013||0.1126|TWO_SIDED|95.0|-0.005|0.045||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.045|-0.005|0.1126
92218780|NCT01431274|184338460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.007|STANDARD_ERROR_OF_MEAN|0.013||0.6009|TWO_SIDED|95.0|-0.018|0.031||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.031|-0.018|0.6009
92218781|NCT01431274|184338461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.072|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.049|0.096||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.096|0.049|<0.0001
92400063|NCT03309020|184691734|OTHER||Odds Ratio (OR)|0.1|||||TWO_SIDED|95.0|0.01|0.69|||||Odds of eye with at least 20/40 best corrected visual acuity (BCVA) 12 months after cataract surgery for controls vs. EVD survivors|Null hypothesis is no difference in the proportion of participants with at least 20/40 best corrected visual acuity (BCVA) between survivor statuses||0.69|0.01|
92348195|NCT02629159|184598963|SUPERIORITY||Response Rate Difference|10.7|||<|0.001|TWO_SIDED|95.0|5.3|16.1||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Adalimumab|||16.1|5.3|<0.001
92348196|NCT02629159|184598964|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-1.33|||<|0.001|TWO_SIDED|95.0|-1.469|-1.194||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|ANCOVA|Analysis of covariance (ANCOVA) model with treatment, prior biological DMARD use, and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-1.194|-1.469|<0.001
92348197|NCT02629159|184598964|SUPERIORITY||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.638|-0.295||This comparison was not part of the pre-specified multiplicity testing sequence.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Adalimumab|||-0.295|-0.638|<0.001
92348198|NCT02629159|184598965|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.97|-0.37||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.37|-0.97|<0.001
92348199|NCT02629159|184598965|SUPERIORITY||LS Mean Difference|0.14||||0.448|TWO_SIDED|95.0|-0.23|0.51||This comparison was not part of the pre-specified multiplicity testing sequence.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Adalimumab|||0.51|-0.23|0.448
92348200|NCT02629159|184598966|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.372|-0.253||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.253|-0.372|<0.001
92348201|NCT02629159|184598966|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-0.11||||0.004|TWO_SIDED|95.0|-0.184|-0.036||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA only.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Adalimumab|||-0.036|-0.184|0.004
92400064|NCT03309020|184691735|OTHER|||||||0.832||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment and gender (male or female) were included as covariates in the model||||||.832
92168594|NCT04788641|184226991|OTHER||Geometric LS Mean Ratio (%)|97.23|||||TWO_SIDED|90.0|92.93|101.7|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Cyclosporin||101.7|92.93|
92168595|NCT04788641|184226992|OTHER||Geometric LS Mean Ratio (%)|65.57|||||TWO_SIDED|90.0|58.69|73.24|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Tacrolimus||73.24|58.69|
92168596|NCT04788641|184226992|OTHER||Geometric LS Mean Ratio (%)|97.04|||||TWO_SIDED|90.0|92.7|101.6|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Cyclosporin||101.6|92.70|
92168597|NCT04788641|184226993|OTHER||Geometric LS Mean Ratio (%)|83.86|||||TWO_SIDED|90.0|73.38|95.84|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Tacrolimus||95.84|73.38|
92168598|NCT04788641|184226993|OTHER||Geometric LS Mean Ratio (%)|97.55|||||TWO_SIDED|90.0|87.16|109.2|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Cyclosporin||109.2|87.16|
92168599|NCT04788641|184226994|OTHER||Geometric LS Mean Ratio (%)|98.42|||||TWO_SIDED|90.0|94.62|102.4|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Tacrolimus||102.4|94.62|
92168600|NCT04788641|184226994|OTHER||Geometric LS Mean Ratio (%)|94.12|||||TWO_SIDED|90.0|85.74|103.3|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Cyclosporin||103.3|85.74|
92168601|NCT04191499|184227007|SUPERIORITY||Hazard Ratio (HR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.32|0.59|||Log Rank|||Hazard ratios were estimated by Cox regression. Hazard ratios and log-rank p-values are using stratified methods by stratifying Visceral Disease, Endocrine Resistance, and Region.||0.59|0.32|<0.0001
92168602|NCT03951805|184227021|OTHER||Treatment difference|0.76||||0.7675|TWO_SIDED|95.0|-4.28|5.8|||ANCOVA|||The response and change from baseline in response during the last two weeks of treatment (week 15 and 16) are analysed using an analysis of covariance (ANCOVA) model with treatment and SGLT2i use as fixed factors, and baseline response as covariate. Missing endpoint values are imputed using multiple imputation based on own treatment arm with baseline response as a covariate. Each imputed dataset is analysed separately and estimates are combined using Rubin's rules.||5.80|-4.28|0.7675
92218782|NCT01431274|184338461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.039|0.087||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.087|0.039|<0.0001
92218783|NCT01431274|184338461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.012||0.0001|TWO_SIDED|95.0|0.023|0.07||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.070|0.023|0.0001
92348202|NCT02629159|184598967|NON_INFERIORITY|A non-inferiority test of upadacitinib versus adalimumab was evaluated using the lower bound of the 95% confidence interval (CI) of the treatment difference against a non-inferiority margin of 10%. This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA only.|Response Rate Difference|16.1|||||TWO_SIDED|95.0|9.9|22.3|||||Response Rate Difference = Upadacitinib - Adalimumab|||22.3|9.9|
92348203|NCT02629159|184598967|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|||||<|0.001||||||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA only.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use.||||||<0.001
92348204|NCT02629159|184598967|SUPERIORITY||Response Rate Difference|30.3|||<|0.001|TWO_SIDED|95.0|25.6|35.0||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||35.0|25.6|<0.001
92348205|NCT02629159|184598968|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|4.33|||<|0.001|TWO_SIDED|95.0|3.52|5.15||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.15|3.52|<0.001
92348206|NCT02629159|184598968|SUPERIORITY||LS Mean Difference|1.62||||0.002|TWO_SIDED|95.0|0.62|2.62||This comparison was not part of the pre-specified multiplicity testing sequence.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||2.62|0.62|0.002
92348207|NCT02629159|184598969|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|Response Rate Difference|31.2|||<|0.001|TWO_SIDED|95.0|26.5|35.8||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||35.8|26.5|<0.001
92348208|NCT02629159|184598969|NON_INFERIORITY|A non-inferiority test of upadacitinib versus adalimumab was evaluated using the lower bound of the 95% confidence interval (CI) of the treatment difference against a non-inferiority margin of 10%. This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for EU/EMA only.|Response Rate Difference|16.3|||||TWO_SIDED|95.0|10.0|22.5|||||Response Rate Difference = Upadacitinib - Adalimumab|||22.5|10.0|
92348209|NCT02629159|184598969|SUPERIORITY||||||<|0.001||||||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use||||||<0.001
92348210|NCT02629159|184598970|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|Response Rate Difference|24.1|||<|0.001|TWO_SIDED|95.0|19.4|28.8||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use.|Response Rate Difference = Upadacitinib - Placebo|||28.8|19.4|<0.001
92348211|NCT02629159|184598970|SUPERIORITY||Response Rate Difference|10.4||||0.001|TWO_SIDED|95.0|4.2|16.7||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Adalimumab|||16.7|4.2|0.001
92218784|NCT01431274|184338461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.012||0.0122|TWO_SIDED|95.0|0.007|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.054|0.007|0.0122
92369400|NCT02993822|184643601|SUPERIORITY|||||||0.387|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.387
92400065|NCT03309020|184691736|OTHER|||||||0.995||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment and gender (male or female) were included as covariates in the model||||||.995
92159486|NCT02337361|184206564|OTHER||Odds Ratio (OR)|0.51|STANDARD_ERROR_OF_MEAN|0.2|<|0.1|TWO_SIDED||||||t-test, 2 sided||the e-SBI group was at reduced odds relative to the control group to report any tobacco use at 6 month follow-up||Generalized estimating equations (GEE) tested e-SBI efficacy, controlling for demographic differences between study condition and study sites. GEE models estimate population average or marginal models and account for within-subject nonindependence (clustering) of observations across multiple waves of data collection and use all available data in model estimation.|||<.10
92159487|NCT02337361|184206565|OTHER||Odds Ratio (OR)|0.26|STANDARD_ERROR_OF_MEAN|0.15|<|0.01|TWO_SIDED||||||t-test, 2 sided||the e-SBI group was at reduced odds relative to the control group to report significant depression at 6 month follow-up|||||<.01
92159488|NCT02337361|184206566|OTHER||||||||||||||||||Generalized estimating equations (GEE) tested DrinkWise's effects on changes in depression over time controlling for demographic differences between study condition and study sites.|||
92159489|NCT02427646|184206576|OTHER|"A linear mixed effects (LME) model via the maximized likelihood estimation was implemented using open-source statistical software, R (version 3.3.3). The effects of each clinical and kinematic outcome measures were examined for each participant group (ET and PD arms were separately analyzed thus no interaction effects were investigated) in separate LME models (lme4 package using lmer function)."|||||<|0.05|||||||Linear mixed effects model|||||||<0.05
92159490|NCT02427646|184206577|OTHER|"A linear mixed effects (LME) model via the maximized likelihood estimation was implemented using open-source statistical software, R (version 3.3.3). The effects of each clinical and kinematic outcome measures were examined for each participant group (ET and PD arms were separately analyzed thus no interaction effects were investigated) in separate LME models (lme4 package using lmer function)."|||||<|0.05|||||||Linear mixed effects model|a log-transformation ofthe RMS datasets was applied for statistical analysis||||||<0.05
92159491|NCT03824236|184206591|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people (P-Fx Group) compared to unvaccinated people (Infectivity Control Group).|Vaccine efficacy rate|52.0||||0.003|TWO_SIDED|95.0|28.0|68.0|||Fisher Exact|||Efficacy analysis aimed at comparing P. falciparum parasitemia incidence after sporozoite challenge between P-Fx group and the Infectivity Control group.||68|28|0.003
92159492|NCT03824236|184206591|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people (NP-Fx Group) compared to unvaccinated people (Infectivity Control Group).|Vaccine efficacy rate|54.0||||0.002|TWO_SIDED|95.0|29.0|70.0|||Fisher Exact|||Efficacy analysis aimed at comparing P. falciparum parasitemia incidence after sporozoite challenge between NP-Fx group and the Infectivity Control group.||70|29|0.002
92348212|NCT02629159|184598971|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-44.04|||<|0.001|TWO_SIDED|95.0|-55.39|-32.69||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-32.69|-55.39|<0.001
92348213|NCT02629159|184598971|SUPERIORITY||LS Mean Difference|-9.92||||0.164|TWO_SIDED|95.0|-23.89|4.05||This comparison was not part of the pre-specified multiplicity testing sequence.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||4.05|-23.89|0.164
92348214|NCT02629159|184598972|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|4.15|||<|0.001|TWO_SIDED|95.0|3.13|5.16||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate|Treatment Difference = Upadacitinib - Placebo|||5.16|3.13|<0.001
92348215|NCT02629159|184598972|SUPERIORITY||LS Mean Difference|1.51||||0.017|TWO_SIDED|95.0|0.27|2.76||This comparison was not part of the pre-specified multiplicity testing sequence.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||2.76|0.27|0.017
92369401|NCT02993822|184643601|SUPERIORITY|||||||0.025|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.025
92369402|NCT02993822|184643602|SUPERIORITY|||||||0.003|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.003
92369403|NCT02993822|184643602|SUPERIORITY|||||||0.152|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.152
92369404|NCT02993822|184643602|SUPERIORITY|||||||0.004|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.004
92400066|NCT03309020|184691737|OTHER|||||||0.441||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment and gender (male or female) were included as covariates in the model||||||0.441
92218785|NCT01431274|184338461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.037|STANDARD_ERROR_OF_MEAN|0.012||0.0021|TWO_SIDED|95.0|0.014|0.061||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.061|0.014|0.0021
92218786|NCT01431274|184338461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.026|STANDARD_ERROR_OF_MEAN|0.012||0.0347|TWO_SIDED|95.0|0.002|0.049||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.049|0.002|0.0347
92218787|NCT01431274|184338461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.056|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.032|0.08||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.080|0.032|<0.0001
92348216|NCT02629159|184598973|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-6.45|||<|0.001|TWO_SIDED|95.0|-9.63|-3.27||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA only.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||-3.27|-9.63|<0.001
92348217|NCT02629159|184598973|SUPERIORITY||LS Mean Difference|-16.3|||<|0.001|TWO_SIDED|95.0|-18.89|-13.71||This comparison was not part of the pre-specified multiplicity testing sequence.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-13.71|-18.89|<0.001
92348218|NCT02629159|184598974|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|Response Rate Difference|7.5|||<|0.001|TWO_SIDED|95.0|3.0|12.1||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for EU/EMA only.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||12.1|3.0|<0.001
92348219|NCT02629159|184598974|SUPERIORITY||Response Rate Difference|-3.4||||0.187|TWO_SIDED|95.0|-8.2|1.5||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use.|Response Rate Difference = Upadacitinib - Adalimumab|||1.5|-8.2|0.187
92348220|NCT02629159|184598975|SUPERIORITY||Response Rate Difference|20.0|||<|0.001|TWO_SIDED|95.0|16.3|23.7||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||23.7|16.3|<0.001
92348221|NCT02629159|184598975|SUPERIORITY||Response Rate Difference|11.4|||<|0.001|TWO_SIDED|95.0|6.5|16.4||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Adalimumab|||16.4|6.5|<0.001
92348222|NCT05722015|184598976|NON_INFERIORITY|Non-inferiority margin is 0.8.|Geometric Mean Ratio (GMR)|1.14|||<|1e-05|TWO_SIDED|96.0|1.06|1.22|||Welch's t test|One-sided p-value was calculated using the Welch's t test.|GMR was calculated as the ratio of geometric mean (GM) of Cycle 1 AUC0-6 weeks in Arm 1 to that of Arm 2. The associated 96% confidence interval (CI) were calculated using Welch's t test.|||1.22|1.06|<0.00001
92400067|NCT03309020|184691738|OTHER|||||||0.892||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment, survivor status (EVD survivor/control) included as covariates; within-subject measurement of distinct eyes treated as independent||||||.892
92400068|NCT03309020|184691739|OTHER|||||||0.913||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment, survivor status (EVD survivor/control) included as covariates; within-subject measurement of distinct eyes treated as independent||||||.913
92400069|NCT03309020|184691740|OTHER|||||||0.106||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Gender (male/female), survivor status (EVD survivor/control) as covariates; within-subject measurement of distinct eyes treated as independent||||||.106
92218788|NCT01431274|184338461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.009|STANDARD_ERROR_OF_MEAN|0.012||0.4407|TWO_SIDED|95.0|-0.014|0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.033|-0.014|0.4407
92218789|NCT01431274|184338461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.016|STANDARD_ERROR_OF_MEAN|0.012||0.1777|TWO_SIDED|95.0|-0.007|0.04||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.040|-0.007|0.1777
92159493|NCT01641861|184206602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.1|7.3||||||||7.3|0.1|
92159494|NCT01641861|184206603|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.5|||||TWO_SIDED|95.0|0.9|12.8||||||||12.8|0.9|
92348223|NCT05722015|184598977|NON_INFERIORITY|Non-inferiority margin is 0.8.|GMR|1.67|||<|1e-05|TWO_SIDED|94.0|1.52|1.84|||Welch's t test|One sided p-value was calculated using Welch's t test.|GMR was calculated as the ratio of GM of Cycle 3 Ctrough in Arm 1 to that of Arm 2. The associated 94% CI were calculated using Welch's t test.|||1.84|1.52|<0.00001
92348224|NCT02685735|184598992|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without gabapentin treatment group. A statistically significant result is interpreted as evidence to support that the gabapentin treatment impacts some element of change after surgery (i.e, intercept or slope).||||||0.882||||||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the gabapentin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, age, sex, pupil diameter, and catastophizing-optimism construct.||||0.882
92348225|NCT02685735|184598998|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without gabapentin treatment group. A statistically significant result is interpreted as evidence to support that the gabapentin treatment impacts some element of change after surgery (i.e, intercept or slope).||||||0.137||||||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the gabapentin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, age, sex, pupil diameter, and catastrophizing-optimism construct.||||0.137
92348226|NCT02685735|184598999|SUPERIORITY||||||<|0.0001|||||||Chi-squared|14 degrees of freedom||The null hypothesis (H0) is that modeled trajectory of change in pain intensity report after total hip or total knee arthroplasty does not differ between oral gabapentin and placebo in a manner dependent on its interaction with preferred cognitive style and pre-surgery pupil resting diameter . The alternative hypothesis (H1) is that there is a difference between the two groups which is dependent on these interactions.|A likelihood ratio test was conducted to compare these two models, conditional on the difference in the degrees of freedom in both models. A statistically significant likelihood ratio test would be interpreted as evidence that the three mechanistic predictors (Catastrophising-Optimism construct, Study Group, resting Pupil diameter) impact some aspect of the change in pain that occurs after surgery. If a statistically significant effect is observed, the individual interaction parameters will be interpreted.|||<0.0001
92348227|NCT02512419|184599000|SUPERIORITY||regression parameter (median diff)|37.52|STANDARD_ERROR_OF_MEAN|18.01||0.04|TWO_SIDED||||||quantile regression|Models regressed outcome at 6 months on treatment assigned, baseline value of the outcome and actigraph wear time. Effect sizes reported are adjusted|Effects are unstandardized regression coefficients. They represent difference in median outcome between conditions at 6m controlling for baseline and covariates.|To examine potential intervention effects on the primary outcome (MVPA at 6 months), we used a series of quantile regression models which model median outcome at follow-up as a function of baseline value of the outcome (MVPA), treatment condition and covariates. Note that the adjusted difference in median MVPA between conditions at follow-up will not equal the difference in median minutes as seen in the unadjusted tables as these estimates are adjusted||||.04
92348228|NCT02512419|184599001|SUPERIORITY||Median Difference (Final Values)|42.36|STANDARD_ERROR_OF_MEAN|38.83||0.1|TWO_SIDED||||||quantile regression|||Quantile regression was used.||||0.10
92348229|NCT04133909|184599002|SUPERIORITY||Rate ratio (Mepolizumab 100 mg/Placebo)|0.79||||0.011|TWO_SIDED|95.0|0.66|0.94|||Negative binomial model|||Analysis performed using a negative binomial model with covariates of treatment group, geographic region, number of moderate/severe exacerbations in previous year (less than or equal to \[\<=\]2, 3, \>=4 as ordinal), baseline percent (%) predicted Forced expiratory volume in one second (FEV1) and smoking status (current vs. former smoker), and with logarithm (time on- and off-treatment) as an offset variable.||0.94|0.66|0.011
92348230|NCT04133909|184599003|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.009|TWO_SIDED|95.0|0.64|0.93|||Cox Proportional Hazards Model|||Estimated from a Cox Proportional Hazards Model with covariates of treatment group, geographic region, number of moderate or severe exacerbations in previous year \<=2, 3, \>=4 as ordinal), baseline % predicted FEV1 and smoking status (current vs former).||0.93|0.64|0.009
92348231|NCT04133909|184599004|SUPERIORITY||Odds Ratio (OR)|0.81||||0.161|TWO_SIDED|95.0|0.6|1.09|||Regression, Logistic|||A logistic regression model was used to compare the proportion of responders between the mepolizumab and placebo arms in the mITT and mITT2 populations. The model includes fixed categorical covariates (treatment group, smoking status, geographic region) and a fixed continuous covariate (baseline score).||1.09|0.60|0.161
92348232|NCT04133909|184599005|SUPERIORITY||Odds Ratio (OR)|1.17||||0.291|TWO_SIDED|95.0|0.87|1.57|||Regression, Logistic|||A logistic regression model was used to compare the proportion of responders between the mepolizumab and placebo arms in the mITT and mITT2 populations. The model includes fixed categorical covariates (treatment group, smoking status, geographic region) and a fixed continuous covariate (baseline score).||1.57|0.87|0.291
92348233|NCT04133909|184599006|SUPERIORITY||Odds Ratio (OR)|0.82||||0.209|TWO_SIDED|95.0|0.6|1.12|||Regression, Logistic|||A logistic regression model was used to compare the proportion of responders between the mepolizumab and placebo arms in the mITT and mITT2 populations. The model includes fixed categorical covariates (treatment group, smoking status, geographic region) and a fixed continuous covariate (baseline score).||1.12|0.60|0.209
92348234|NCT04133909|184599007|SUPERIORITY||Rate ratio (Mepolizumab 100/Placebo)|0.65||||0.032|TWO_SIDED|95.0|0.43|0.96|||Negative binomial model|||Analysis performed using a negative binomial model with covariates of treatment group, geographic region, number of moderate/severe exacerbations in previous year (\<=2, 3, \>=4 as ordinal), baseline % predicted FEV1 and smoking status (current vs. former smoker), and with logarithm (time on- and off-treatment) as an offset variable. Estimates based on weighting applied to each level of class variable determined from observed proportions.||0.96|0.43|0.032
92159495|NCT01641861|184206605|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
92159496|NCT01641861|184206606|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
92275487|NCT00294723|184453252|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-2.9||||0.2968||95.0|-8.3|2.5||2-sided significance level 5%|ANCOVA|||Change in mean prandial increments of plasma glucose from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||2.5|-8.3|0.2968
92275488|NCT00294723|184453252|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-1.2||||0.6639||95.0|-6.5|4.1||2-sided significance level 5%|ANCOVA|||Change in postprandial (PPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||4.1|-6.5|0.6639
92348235|NCT02003924|184599013|SUPERIORITY||Hazard Ratio (HR)|0.292|||<|0.0001|TWO_SIDED|95.0|0.241|0.352||P-value was based on stratified log-rank test by prostate-specific antigen (PSA) doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no). Threshold for significance at 0.05 level.|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|||0.352|0.241|<0.0001
92348236|NCT02003924|184599014|SUPERIORITY||Hazard Ratio (HR)|0.066|||<|0.0001|TWO_SIDED|95.0|0.054|0.081||P-value was based on a stratified log-rank test by PSA doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no) as per IXRS. Threshold for significance at 0.02 level.|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|To maintain the family-wise 2-sided type I error rate at 0.05, a parallel testing strategy between OS (with allocated type I error rate 0.03) and remaining key secondary endpoints (time to PSA progression and time to first use of new antineoplastic therapy with allocated type I error rate 0.02) was performed. Testing was performed only if the primary endpoint was statistically significant.||0.081|0.054|<0.0001
92348237|NCT02003924|184599015|SUPERIORITY||Hazard Ratio (HR)|0.208|||<|0.0001|TWO_SIDED|95.0|0.168|0.258||P-value was based on a stratified log-rank test by PSA doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no) as per IXRS. Threshold for significance at 0.02 level.|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|To maintain the family-wise 2-sided type I error rate at 0.05, a parallel testing strategy between OS (with allocated type I error rate 0.03) and remaining key secondary endpoints (time to PSA progression and time to first use of new antineoplastic therapy with allocated type I error rate 0.02) was performed. Testing was performed only if the previous endpoint was statistically significant.||0.258|0.168|<0.0001
92348238|NCT02003924|184599016|SUPERIORITY||Hazard Ratio (HR)|0.734||||0.0011|TWO_SIDED|95.0|0.608|0.885||P-value was based on a stratified log-rank test by PSA doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no) as per interactive voice/web recognition system (IXRS).|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|To maintain family-wise 2-sided type I error rate at 0.05,parallel testing strategy between OS(with allocated type I error rate 0.03)and remaining key secondary endpoints(time to PSA progression and time to first use of new antineoplastic therapy with allocated type I error rate 0.02)was performed.OS tested at error rate 0.05 when both time to PSA progression and time to first use of new antineoplastic therapy were significant. When either failed to show significance.OS was tested at error 0.03.||0.885|0.608|0.0011
92348239|NCT02003924|184599017|SUPERIORITY||Hazard Ratio (HR)|0.959||||0.6534|TWO_SIDED|95.0|0.801|1.149||P-value was based on a stratified log-rank test by PSA doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no) as per IXRS.|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|||1.149|0.801|0.6534
92400070|NCT03309020|184691741|OTHER|||||||0.09||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Gender (male/female), survivor status (EVD survivor/control) as covariates; within-subject measurement of distinct eyes treated as independent||||||0.09
92159497|NCT03230006|184206641|SUPERIORITY||Partial eta squared|0.152||||0.002|TWO_SIDED|95.0|||||ANOVA||A two-way mixed ANOVA was conducted to investigate treatment group differences in change in mean number of drinks consumed from baseline to post-treatment, as indicated by the Time by Treatment Condition interaction effect.|||||0.002
92159498|NCT03230006|184206641|SUPERIORITY||Partial eta squared|0.342|||<|0.001|TWO_SIDED|95.0||||The threshold for significance is p \<.05.|ANOVA||This is the partial eta squared for the main effect of time.|||||<.001
92159499|NCT03230006|184206641|SUPERIORITY||Partial eta squared|0.018||||0.309|TWO_SIDED|95.0|||||ANOVA||This is the partial eta squared for the main effect of treatment condition.|||||.309
92159500|NCT03230006|184206641|OTHER||F|38.92|||<|0.001|TWO_SIDED|95.0||||The threshold for significance is p \<.05.|ANOVA|||After conducting the initial two-way mixed ANOVA, follow-up testing was conducted to determine the simple main effects of time (pre to post) on mean number of drinks per week within each treatment condition, which was examined using one-way repeated measures ANOVAs.||||<.001
92159501|NCT03230006|184206641|OTHER||F|5.43||||0.03|TWO_SIDED|95.0|||||ANOVA|||After conducting the initial two-way mixed ANOVA, follow-up testing was conducted to determine the simple main effects of time (pre to post) on mean number of drinks per week within each treatment condition, which was examined using one-way repeated measures ANOVAs.||||.030
92159502|NCT03230006|184206641|OTHER||F|1.15||||0.016|TWO_SIDED|95.0|||||ANOVA||This is the simple main effect of treatment condition on mean number of drinks consumed per week at baseline. For the UP, n=51; for the TC, n=24.|After conducting the initial two-way mixed ANOVA, the simple main effects for treatment condition on mean number of drinks consumed per week at each timepoint (pre and post) were examined using one-way ANOVAs.||||.016
92159503|NCT03230006|184206641|OTHER||F|7.78||||0.007|TWO_SIDED|95.0|||||ANOVA||This is the simple main effect of treatment condition on mean number of drinks consumed per week at post-treatment. For the UP, n=38; for the TC, n=21.|After conducting the initial two-way mixed ANOVA, the simple main effects for treatment condition on mean number of drinks consumed per week at each timepoint (pre and post) were examined using one-way ANOVAs.||||.007
92159504|NCT00901485|184206741|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To test for non-inferiority, a sample size of 36 (18 patients completing both arms of the crossover) was calculated to provide 80% power to detect a 2.5% drop in the primary outcome, mean overnight oxygen saturation (SpO2), with a SD of 3% at a significance level of 0.05|Median Difference (Final Values)|0.4||||0.13|TWO_SIDED|95.0|-0.2|1.0||a priori threshold for significance p\<0.05|Wilcoxon (Mann-Whitney)|||"We tested the hypothesis that iVAPS can ventilate a patient naive to NIV at least as effectively as standard PS.~Sleep and breathing parameters at the end of each treatment period were compared using Wilcoxon Signed Rank test. The median difference between treatments with 95% confidence intervals was then compared by related-samples Hodges-Lehman test"||1.0|-0.2|0.13
92159505|NCT00901485|184206742|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|PtcCO2 is compared as a secondary outcome resulting in CO2 elimination similar to that of standard PS ventilation (median difference (95% CI) of -0.04(- 0.03 to 0.4)kPa in mean overnight PtcCO2).|Median Difference (Final Values)|0.0||||0.54|TWO_SIDED|95.0|-0.3|0.4|||Wilcoxon (Mann-Whitney)|||Hypothesis: that we tested the hypothesis that iVAPS, with automated selection of ventilator settings, was non-inferior to standard pressure support (PS) ventilation, with settings determined by an experienced healthcare professional, for controlling nocturnal hypoventilation in patients naïve to NIV.||0.4|-0.3|0.54
92218790|NCT01431274|184338461|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.007|STANDARD_ERROR_OF_MEAN|0.012||0.5641|TWO_SIDED|95.0|-0.031|0.017||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.017|-0.031|0.5641
92218791|NCT01431274|184338462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.057|0.104||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.104|0.057|<0.0001
92218792|NCT01431274|184338462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.075|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.051|0.099||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.099|0.051|<0.0001
92218793|NCT01431274|184338462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.038|STANDARD_ERROR_OF_MEAN|0.012||0.0018|TWO_SIDED|95.0|0.014|0.062||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.062|0.014|0.0018
92218794|NCT01431274|184338462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.024|STANDARD_ERROR_OF_MEAN|0.012||0.0517|TWO_SIDED|95.0|0.0|0.047||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.047|-0.000|0.0517
92218795|NCT01431274|184338462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.012||0.0072|TWO_SIDED|95.0|0.009|0.056||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.056|0.009|0.0072
92218796|NCT01431274|184338462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.042|STANDARD_ERROR_OF_MEAN|0.012||0.0005|TWO_SIDED|95.0|0.019|0.066||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.066|0.019|0.0005
92218797|NCT01431274|184338462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.066|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.042|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.090|0.042|<0.0001
92218798|NCT01431274|184338462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.005|STANDARD_ERROR_OF_MEAN|0.012||0.6619|TWO_SIDED|95.0|-0.018|0.029||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.029|-0.018|0.6619
92348240|NCT02003924|184599018|SUPERIORITY||Hazard Ratio (HR)|0.378|||<|0.0001|TWO_SIDED|95.0|0.282|0.507||P-value was based on a stratified log-rank test by PSA doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no) as per IXRS.|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|||0.507|0.282|<0.0001
92275489|NCT00294723|184453253|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.81||||0.172||95.0|-9.28|1.66||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||1.66|-9.28|0.1720
92275490|NCT00294723|184453253|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-0.33||||0.906||95.0|-5.82|5.16||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||5.16|-5.82|0.9060
92275491|NCT00294723|184453253|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-3.48||||0.2089||95.0|-8.91|1.95||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||1.95|-8.91|0.2089
92159506|NCT00901485|184206743|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|0.0||||0.94|TWO_SIDED|95.0|-0.5|0.5|||Wilcoxon (Mann-Whitney)|||||0.5|-0.5|0.94
92159507|NCT00901485|184206744|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|-1.0||||0.42|TWO_SIDED|95.0|-2.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-2|0.42
92159508|NCT00901485|184206745|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|0.0||||0.82||95.0|-8.0|4.0|||Wilcoxon (Mann-Whitney)|||||4|-8|0.82
92159509|NCT00901485|184206746|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|1.04||||0.0004|TWO_SIDED|95.0|0.27|1.44|||Wilcoxon (Mann-Whitney)|||||1.44|0.27|0.0004
92159510|NCT00901485|184206747|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Mean Difference (Net)|-0.2||||0.5|TWO_SIDED|95.0|-1.2|0.5|||Wilcoxon (Mann-Whitney)|||||0.5|-1.2|0.5
92159511|NCT00901485|184206748|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|-2.2||||0.001|TWO_SIDED|95.0|-4.5|0.3|||Wilcoxon (Mann-Whitney)|||||0.3|-4.5|0.001
92159512|NCT00901485|184206749|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|-10.0||||0.47|TWO_SIDED|95.0|-54.0|23.0|||Wilcoxon (Mann-Whitney)|||||23|-54|0.47
92159513|NCT00901485|184206750|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|0.3||||0.41|TWO_SIDED|95.0|-0.7|2.2|||Wilcoxon (Mann-Whitney)|||||2.2|-0.7|0.41
92159514|NCT00901485|184206751|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|4.0||||0.36|TWO_SIDED|95.0|-5.0|12.0|||Wilcoxon (Mann-Whitney)|||||12|-5|0.36
92159515|NCT00901485|184206752|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|2.0||||0.59|TWO_SIDED|95.0|-5.0|14.0|||Wilcoxon (Mann-Whitney)|||||14|-5|0.59
92159516|NCT00901485|184206753|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|2.0||||0.59|TWO_SIDED|95.0|-5.0|14.0|||Wilcoxon (Mann-Whitney)|||||14|-5|0.59
92348241|NCT02003924|184599021|SUPERIORITY||Difference in Response Rate|73.96|||<|0.0001|TWO_SIDED|95.0|70.91|77.02||P-value was based on a Cochran-Mantel-Haenszel mean score test stratified by PSA doubling time (\<6 months, \>= 6 months) and prior concurrent use of a bone targeting agent (yes, no) as per IXRS.|Cochran-Mantel-Haenszel|||Decrease from Baseline \>= 50%||77.02|70.91|<0.0001
92159517|NCT00901485|184206754|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|-1.0||||0.72|TWO_SIDED|95.0|-9.0|5.0|||Wilcoxon (Mann-Whitney)|||||5|-9|0.72
92159518|NCT04358549|184206796|SUPERIORITY||Median Difference (Final Values)|14.0||||0.0415|TWO_SIDED|90.0|||||Log Rank|||||||0.0415
92159519|NCT04358549|184206797|SUPERIORITY||Odds Ratio (OR)|0.653|||||TWO_SIDED|90.0|0.19|2.24||||||||2.240|0.190|
92159520|NCT04358549|184206798|SUPERIORITY||Median Difference (Final Values)|3.0||||0.9879|TWO_SIDED|90.0|||||Log Rank|||||||0.9879
92159521|NCT00646451|184206832|SUPERIORITY_OR_OTHER_LEGACY|||||||0.162|||||||ANOVA|||"Outcome on study completers was assessed via ANOVA models using a 2 × 2 Latin-square crossover design including sequence, period, and treatment effects. A significant carryover effect was excluded. Analyses were performed using Stata IC version 10.0 for Windows.~Unfortunately the small sample size of our study limits the possibility of a meaningful post-hoc analysis targeted to these variables."|The Quest rates patient perception of health status as influenced by tremor across 5 domains, physical, psychosocial, communication, hobbies/leisure, and work/finance. HAM-A rates severity of anxiety symptomatology across 14 parameters. Scores of 14-17 correspond to mild anxiety, scores of 18-24 is moderate anxiety and 25-30 severe anxiety. HD-16 rates insomnia-related QoL across 5 domains: physical symptoms, energy \& motivation, concentration, interpersonal relations and psychological symptoms. These scales were scored per published guidelines.|||0.162
92159522|NCT00157014|184206860|SUPERIORITY_OR_OTHER|||||||0.4725||95.0||||No adjustments for multiple comparisons were performed.|Wilcoxon (Mann-Whitney)|||||||0.4725
92159523|NCT00157014|184206871|SUPERIORITY_OR_OTHER|||||||0.8373||95.0||||No adjustments for multiple comparisons were performed.|Wilcoxon (Mann-Whitney)|||||||0.8373
92159524|NCT01362491|184206874|SUPERIORITY_OR_OTHER||Least-Square (LS) mean difference|6.11|||<|0.001|TWO_SIDED|95.0|4.49|7.73||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms.|ANOVA|||Treatment difference (Ibuprofen sodium-placebo) and 95 percent (%) confidence interval (CI): based on LS means from analysis of variance (ANOVA). Type I error was controlled at 0.05 significance level (2-sided) by declaring pair wise comparisons significant only if overall treatment effect among 3 treatment groups was significant and testing in a sequential order Ibuprofen sodium versus (vs.) placebo for SPRID 0-3 then Ibuprofen sodium vs. Ibuprofen (Motrin IB) for time to meaningful relief.||7.73|4.49|<0.001
92218799|NCT01431274|184338462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.014|STANDARD_ERROR_OF_MEAN|0.012||0.2401|TWO_SIDED|95.0|-0.01|0.038||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.038|-0.010|0.2401
92218800|NCT01431274|184338462|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.012||0.4601|TWO_SIDED|95.0|-0.033|0.015||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.015|-0.033|0.4601
92218801|NCT01431274|184338463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.088|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.064|0.112||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.112|0.064|<0.0001
92275492|NCT00294723|184453254|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.04||||0.2749||95.0|-8.51|2.42||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||2.42|-8.51|0.2749
92275493|NCT00294723|184453254|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|0.43||||0.8765||95.0|-5.05|5.92||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||5.92|-5.05|0.8765
92275494|NCT00294723|184453254|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-3.48||||0.2088||95.0|-8.9|1.95||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||1.95|-8.90|0.2088
92275495|NCT03255031|184453278|SUPERIORITY|||||||0.067||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||||||0.067
92275496|NCT03255031|184453279|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||||||0.004
92275497|NCT01809314|184453288|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||The difference between Baseline and Month 4 was analyzed using the Wilcoxon signed-rank test.||||<0.0001
92275498|NCT01809314|184453289|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon signed-rank test|||Overall (all categories combined) change from Baseline in ECOG performance status at Month 4 was analyzed using Wilcoxon signed-rank test.||||0.001
92275499|NCT02444533|184453382|SUPERIORITY|||||||0.043|||||||t-test, 2 sided|||Comparison between groups for pain on day of surgery. Statistical significance was defined as a p-value less than 0.05.||||0.043
92275500|NCT02444533|184453382|SUPERIORITY|||||||0.445|||||||t-test, 2 sided|||Comparison between groups for pain at 14 days after surgery. Statistical significance was defined as a p-value less than 0.05.||||0.445
92275501|NCT02444533|184453383|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||Comparison between groups for ibuprofen usage. Statistical significance was defined as a p-value less than 0.05.||||0.650
92275502|NCT02444533|184453383|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||Comparison between groups for acetaminophen usage. Statistical significance was defined as a p-value less than 0.05.||||0.970
92275503|NCT02444533|184453383|SUPERIORITY|||||||0.835|||||||t-test, 2 sided|||Comparison between groups for oxycodone usage. Statistical significance was defined as a p-value less than 0.05.||||0.835
92275504|NCT02444533|184453384|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison between groups at 7 days. Statistical significance was defined as a p-value less than 0.05.||||1.0
92275505|NCT03654898|184453404|SUPERIORITY||cross-tabulation|0.48||||0.49|TWO_SIDED||||||Chi-squared|||||||0.49
92275506|NCT03654898|184453404|SUPERIORITY||Odds Ratio (OR)|1.06||||0.67|TWO_SIDED|95.0|0.8|1.42|||Regression, Logistic|Adjusted logistic regression||||1.42|0.80|0.67
92275507|NCT03654898|184453405|SUPERIORITY||Cross-tabulation|0.71||||0.4|TWO_SIDED||||||Chi-squared|||||||0.40
92275508|NCT03654898|184453406|SUPERIORITY||Cross-tabulation|0.5||||0.78|TWO_SIDED||||||Chi-squared|||Test 1 was for TFVdp while test 2 was for 3TCtp.||||0.78
92275509|NCT03654898|184453406|SUPERIORITY||Cross-tabulation|2.13||||0.34|TWO_SIDED||||||Chi-squared|||Test 2 was for 3TCtp while test 1 was for TFVdp.||||0.34
92275510|NCT02868281|184453442|OTHER||Odds Ratio (OR)|7.87||||0.027|TWO_SIDED|95.0|1.29|48.11|||Mixed effect logistic regression||The model included treatment, Baseline ACT total score, Baseline ACT total score squared, center, type of Baseline controller, gender and age, with the center as a random factor.|||48.11|1.29|0.027
92275511|NCT02868281|184453443|OTHER||Difference in Least Squares Mean|-0.1||||0.222|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 1-4. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.222
92348242|NCT02003924|184599021|SUPERIORITY||Difference in Response Rate|55.52|||<|0.0001|TWO_SIDED|95.0|52.28|58.76||P-value was based on a Cochran-Mantel-Haenszel mean score test stratified by PSA doubling time (\<6 months, \>= 6 months) and prior concurrent use of a bone targeting agent (yes, no) as per IXRS|Cochran-Mantel-Haenszel|||Decrease from Baseline \>= 90%||58.76|52.28|<0.0001
92348243|NCT02003924|184599021|SUPERIORITY||Difference in Response Rate|9.65|||<|0.0001|TWO_SIDED|95.0|7.75|11.54||P-value was based on a Cochran-Mantel-Haenszel mean score test stratified by PSA doubling time (\<6 months, \>= 6 months) and prior concurrent use of a bone targeting agent (yes, no) as per IXRS.|Cochran-Mantel-Haenszel|||Decrease to Undetectable Level||11.54|7.75|<0.0001
92348244|NCT00434434|184599067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13||95.0|||||Wilcoxon (Mann-Whitney)|exact Wilcoxon-Mann-Whitney||||||0.13
92159525|NCT01362491|184206875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.253|TWO_SIDED|95.0|0.88|1.65||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms.|Proportional hazards model|||Hazard Ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model. Type I error was controlled at 0.05 significance level (2-sided) by declaring pair wise comparisons significant only if overall treatment effect among 3 treatment groups was significant and testing in a sequential order Ibuprofen sodium vs. placebo for SPRID 0-3 then Ibuprofen sodium vs. Ibuprofen (Motrin IB) for time to meaningful relief.||1.65|0.88|0.253
92348245|NCT00434434|184599067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0133||95.0|||||Wilcoxon (Mann-Whitney)|exact Wilcoxon-Mann-Whitney||||||0.0133
92348246|NCT00434434|184599068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09||95.0|||||Wilcoxon (Mann-Whitney)|exact Wilcoxon-Mann-Whitney||||||0.09
92348247|NCT00434434|184599068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0028||95.0|||||Wilcoxon (Mann-Whitney)|exact Wilcoxon-Mann-Whitney||||||0.0028
92348248|NCT01155570|184599075|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 4||||<0.0001
92348249|NCT01155570|184599076|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 8||||<0.0001
92159526|NCT01362491|184206876|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.38|||<|0.001|TWO_SIDED|95.0|2.69|7.14||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||7.14|2.69|<0.001
92348250|NCT01155570|184599077|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
92348251|NCT01155570|184599078|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
92348252|NCT01155570|184599079|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
92348253|NCT01155570|184599080|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
92159527|NCT01362491|184206876|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.64|||<|0.001|TWO_SIDED|95.0|2.23|5.94||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||5.94|2.23|<0.001
92159528|NCT01362491|184206877|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.68|||<|0.001|TWO_SIDED|95.0|2.87|7.64||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||7.64|2.87|<0.001
92159529|NCT01362491|184206877|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.88|||<|0.001|TWO_SIDED|95.0|2.38|6.34||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||6.34|2.38|<0.001
92159530|NCT01362491|184206877|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.247|TWO_SIDED|95.0|0.88|1.66||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.66|0.88|0.247
92275512|NCT02868281|184453443|OTHER||Difference in Least Squares Mean|-0.1||||0.156|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 5-8. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.156
92348254|NCT01155570|184599085|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
92348255|NCT01155570|184599086|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
92348256|NCT01155570|184599087|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 4||||<0.0001
92348257|NCT01155570|184599088|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
92348258|NCT01155570|184599090|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
92348259|NCT01155570|184599091|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 4||||<0.0001
92348260|NCT01155570|184599092|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
92348261|NCT01155570|184599093|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
92348262|NCT01155570|184599094|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 4||||<0.0001
92348263|NCT01155570|184599095|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
92348264|NCT01155570|184599096|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
92348265|NCT01922934|184599097|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92348266|NCT02354118|184599110|NON_INFERIORITY|10% non-inferiority margin||||||1|||||||Chi-squared|||||||1.0
92159531|NCT01362491|184206878|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.26|||<|0.001|TWO_SIDED|95.0|0.92|1.59||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.59|0.92|<0.001
92218802|NCT01431274|184338463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.052|0.1||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.100|0.052|<0.0001
92218803|NCT01431274|184338463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.046|0.094||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.094|0.046|<0.0001
92218804|NCT01431274|184338463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.051|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.027|0.075||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.075|0.027|<0.0001
92218805|NCT01431274|184338463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.058|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.034|0.082||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.082|0.034|<0.0001
92348267|NCT02774889|184599111|SUPERIORITY||Rate Ratio|0.72||||0.55|TWO_SIDED|95.0|0.27|2.57|||Fisher Exact|||||2.57|0.27|0.55
92348268|NCT02774889|184599112|SUPERIORITY||Mean Difference (Final Values)|-4.74||||0.001|TWO_SIDED|95.0|-6.61|-2.89|||Fisher Exact|||at 3 months||-2.89|-6.61|0.001
92348269|NCT02774889|184599112|SUPERIORITY||Mean Difference (Final Values)|-4.07||||0.001|TWO_SIDED|95.0|-6.47|-1.68|||Fisher Exact|||at 6 months||-1.68|-6.47|0.001
92348270|NCT02774889|184599113|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.05|TWO_SIDED|95.0|0.0|0.16|||Fisher Exact|||3 months||0.16|0.00|0.05
92159532|NCT01362491|184206878|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.27|||<|0.001|TWO_SIDED|95.0|0.93|1.61||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.61|0.93|< 0.001
92218806|NCT01431274|184338463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.012||0.1405|TWO_SIDED|95.0|-0.006|0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.042|-0.006|0.1405
92348271|NCT02774889|184599113|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.0003|TWO_SIDED|95.0|0.07|0.22|||Fisher Exact|||6 months||0.22|0.07|0.0003
92348272|NCT02774889|184599114|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.88|TWO_SIDED|95.0|-0.4|0.44|||Fisher Exact|||3 months||0.44|-0.40|0.88
92348273|NCT02774889|184599114|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.83|TWO_SIDED|95.0|-0.48|0.37|||Fisher Exact|||6 months||0.37|-0.48|0.83
92159533|NCT01362491|184206878|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.01||||0.943|TWO_SIDED|95.0|-0.29|0.27||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.27|-0.29|0.943
92275513|NCT02868281|184453443|OTHER||Difference in Least Squares Mean|-0.1||||0.245|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 9-12. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.245
92348274|NCT02774889|184599115|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.36|TWO_SIDED|95.0|-0.2|0.54|||Fisher Exact|||3 months||0.54|-0.20|0.36
92348275|NCT02774889|184599115|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.14|TWO_SIDED|95.0|-0.11|0.77|||Fisher Exact|||6 months||0.77|-0.11|0.14
92348276|NCT02774889|184599116|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.52|TWO_SIDED|95.0|-0.43|0.85|||Fisher Exact|||3 months||0.85|-0.43|0.52
92348277|NCT02774889|184599116|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.36|TWO_SIDED|95.0|-0.31|0.85|||Fisher Exact|||6 months||0.85|-0.31|0.36
92348278|NCT02774889|184599117|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.43|TWO_SIDED|95.0|-0.58|1.32|||Fisher Exact|||3 months||1.32|-0.58|0.43
92348279|NCT02774889|184599117|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.26|TWO_SIDED|95.0|-0.42|1.49|||Fisher Exact|||6 months||1.49|-0.42|0.26
92348280|NCT02774889|184599118|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.16|TWO_SIDED|95.0|-0.09|0.61|||Fisher Exact|||3 months||0.61|-0.09|0.16
92348281|NCT02774889|184599118|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.29|TWO_SIDED|95.0|-0.55|0.17|||Fisher Exact|||6 months||0.17|-0.55|0.29
92348282|NCT02774889|184599120|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.91|TWO_SIDED|95.0|-2.66|2.4|||Fisher Exact|||3 months||2.40|-2.66|0.91
92348283|NCT02774889|184599120|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.8|TWO_SIDED|95.0|-2.79|2.15|||Fisher Exact|||6 months||2.15|-2.79|0.80
92218807|NCT01431274|184338463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.069|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.045|0.093||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.093|0.045|<0.0001
92218808|NCT01431274|184338463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.012||0.3118|TWO_SIDED|95.0|-0.012|0.036||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.036|-0.012|0.3118
92348284|NCT02774889|184599121|SUPERIORITY||Mean Difference (Final Values)|0.63||||0.54|TWO_SIDED|95.0|-1.44|2.64|||Fisher Exact|||3 months||2.64|-1.44|0.54
92348285|NCT02774889|184599121|SUPERIORITY||Mean Difference (Final Values)|1.18||||0.38|TWO_SIDED|95.0|-1.49|3.81|||Fisher Exact|||6 months||3.81|-1.49|0.38
92348286|NCT02774889|184599123|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.04|TWO_SIDED|95.0|0.06|3.71|||Fisher Exact|||Inside Balance||3.71|0.06|0.04
92348287|NCT02774889|184599123|SUPERIORITY||Mean Difference (Final Values)|1.75||||0.05|TWO_SIDED|95.0|-0.02|3.51|||Fisher Exact|||Outside Balance||3.51|-0.02|0.05
92348288|NCT02774889|184599123|SUPERIORITY||Mean Difference (Final Values)|1.86||||0.06|TWO_SIDED|95.0|-0.08|3.81|||Fisher Exact|||Strength||3.81|-0.08|0.06
92348289|NCT02774889|184599124|SUPERIORITY||Mean Difference (Final Values)|1.63||||0.003|TWO_SIDED|95.0|0.54|2.17|||Fisher Exact|||Balance Exercises at 3 months||2.17|0.54|0.003
92348290|NCT02774889|184599124|SUPERIORITY||Mean Difference (Final Values)|1.01||||0.11|TWO_SIDED|95.0|-0.22|2.24|||Fisher Exact|||Balance Exercises at 6 Months||2.24|-0.22|0.11
92348291|NCT02774889|184599125|SUPERIORITY||Mean Difference (Final Values)|1.06||||0.01|TWO_SIDED|95.0|0.23|1.89|||Fisher Exact|||Strength Exercises at 3 months||1.89|0.23|0.01
92218809|NCT01431274|184338463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.019|STANDARD_ERROR_OF_MEAN|0.012||0.1171|TWO_SIDED|95.0|-0.005|0.043||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.043|-0.005|0.1171
92348292|NCT02774889|184599125|SUPERIORITY||Mean Difference (Final Values)|0.75||||0.11|TWO_SIDED|95.0|-0.16|1.67|||Fisher Exact|||Strength Exercises at 6 months||1.67|-0.16|0.11
92348293|NCT02774889|184599126|SUPERIORITY||Mean Difference (Final Values)|1.02||||0.38|TWO_SIDED|95.0|-1.3|3.3|||Fisher Exact|||3 months||3.30|-1.30|0.38
92348294|NCT02774889|184599126|SUPERIORITY||Mean Difference (Final Values)|2.6||||0.02|TWO_SIDED|95.0|0.43|4.73|||Fisher Exact|||6 months||4.73|0.43|0.02
92348295|NCT02774889|184599127|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.33|TWO_SIDED|95.0|-0.33|0.97|||Fisher Exact|||3 months||0.97|-0.33|0.33
92348296|NCT02774889|184599127|SUPERIORITY||Mean Difference (Final Values)|0.63||||0.06|TWO_SIDED|95.0|-0.02|1.27|||Fisher Exact|||6 months||1.27|-0.02|0.06
92400071|NCT03062358|184691772|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.018|TWO_SIDED|95.0|0.63|0.99||Log-rank test|One-sided p-value|Stratified by macrovascular invasion, α-Fetoprotein and region with all cells that correspond to macrovascular invasion=Yes combined|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate||Stratified by macrovascular invasion (Yes vs. No), α-Fetoprotein (ng/mL) (\< 200 vs. ≥ 200) and region (China vs. ex-China) with all cells that correspond to macrovascular invasion=Yes combined.|0.99|0.63|0.0180
92348297|NCT02774889|184599128|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.06|TWO_SIDED|95.0|-0.03|1.28|||Fisher Exact|||3 months||1.28|-0.03|0.06
92348298|NCT02774889|184599128|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.59|TWO_SIDED|95.0|-0.45|0.81|||Fisher Exact|||||0.81|-0.45|0.59
92348299|NCT01069939|184599160|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.09|||<|0.001|TWO_SIDED|96.65|0.02|0.41||An interim analysis was done so that the significance level was adjusted using the Pocock-like alpha-spending function with Lan-DeMets approach. The adjusted significance level was the two-sided 3.35%.|Log Rank|||The above two groups were compared.||0.41|0.02|<0.001
92348300|NCT01706328|184599187|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.025||||0.137|TWO_SIDED|95.0|-0.008|0.059|||ANCOVA|||||0.059|-0.008|0.137
92348301|NCT04603066|184599193|SUPERIORITY||Mean Difference (Final Values)|0.0204257||||0.8651|TWO_SIDED|95.0|-0.2624635|0.2216122|||t-test, 2 sided|||||0.2216122|-0.2624635|0.8651
92348302|NCT04603066|184599194|SUPERIORITY||Mean Difference (Net)|0.01727052||||0.056|TWO_SIDED|95.0|-0.0005895|0.03513063|||t-test, 2 sided|||||0.03513063|-0.0005895|0.056
92348303|NCT04390750|184599259|OTHER|The effect estimate reflects the adjusted difference in change from baseline on plaque levels between Treatment Group 1 and Control at 3 months.|Interaction coefficient|0.0||||0.939|TWO_SIDED|95.0|-0.11|0.11|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in plaque levels at the primary endpoint of 3 months.||0.11|-0.11|0.939
92348304|NCT04390750|184599259|OTHER|The effect estimate reflects the adjusted difference in change from baseline on plaque levels between Treatment Group 2 and Control at 3 months.|Interaction coefficient|-0.09||||0.103|TWO_SIDED|95.0|-0.21|0.02|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in plaque levels at the primary endpoint of 3 months.||0.02|-0.21|0.103
92348305|NCT04390750|184599260|OTHER|The effect estimate reflects the adjusted difference in change from baseline on gingival inflammation between Treatment Group 1 and Control at 3 months.|Interaction coefficient|0.0||||0.995||95.0|-0.16|0.16|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in gingival inflammation at the primary endpoint of 3 months.||0.16|-0.16|0.995
92275514|NCT02868281|184453443|OTHER||Difference in Least Squares Mean|-0.1||||0.057|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 13-16. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.057
92275515|NCT02868281|184453443|OTHER||Difference in Least Squares Mean|-0.1||||0.151|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 17-20. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.151
92275516|NCT02868281|184453443|OTHER||Difference in Least Squares Mean|-0.1||||0.114|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 21-24. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.114
92159534|NCT01362491|184206878|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.25|||<|0.001|TWO_SIDED|95.0|0.89|1.62||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.62|0.89|<0.001
92159535|NCT01362491|184206878|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.22|||<|0.001|TWO_SIDED|95.0|0.85|1.59||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.59|0.85|<0.001
92159536|NCT01362491|184206878|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.03||||0.847|TWO_SIDED|95.0|-0.27|0.33||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.33|-0.27|0.847
92275517|NCT02868281|184453444|OTHER||Difference in Least Squares Mean|-0.05||||0.487|TWO_SIDED|95.0|-0.18|0.09|||Mixed Model Repeat Measures||Weeks 1-4. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.09|-0.18|0.487
92275518|NCT02868281|184453444|OTHER||Difference in Least Squares Mean|-0.04||||0.546|TWO_SIDED|95.0|-0.16|0.09|||Mixed Model Repeat Measures||Weeks 5-8. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.09|-0.16|0.546
92275519|NCT02868281|184453444|OTHER||Difference in Least Squares Mean|-0.06||||0.314|TWO_SIDED|95.0|-0.17|0.06|||Mixed Model Repeat Measures||Weeks 9-12. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.06|-0.17|0.314
92159537|NCT01362491|184206878|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.59|||<|0.001|TWO_SIDED|95.0|1.14|2.05||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.05|1.14|<0.001
92159538|NCT01362491|184206878|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.68|||<|0.001|TWO_SIDED|95.0|1.22|2.13||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.13|1.22|<0.001
92275520|NCT02868281|184453444|OTHER||Difference in Least Squares Mean|-0.07||||0.197|TWO_SIDED|95.0|-0.19|0.04|||Mixed Model Repeat Measures||Weeks 13-16. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.04|-0.19|0.197
92275521|NCT02868281|184453444|OTHER||Difference in Least Squares Mean|-0.06||||0.282|TWO_SIDED|95.0|-0.17|0.06|||Mixed Model Repeat Measures||Weeks 17-20. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.06|-0.17|0.282
92275522|NCT02868281|184453444|OTHER||Difference in Least Squares Mean|-0.03||||0.543|TWO_SIDED|95.0|-0.15|0.08|||Mixed Model Repeat Measures||Weeks 21-24. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.08|-0.15|0.543
92275523|NCT02868281|184453445|OTHER||Difference in Least Squares Mean|0.06||||0.273|TWO_SIDED|95.0|-0.059|0.18|||Mixed Model Repeat Measures||The model included covariates of treatment, center, Baseline FEV1, type of Baseline controller, gender and age, with the center as a random factor.|||0.180|-0.059|0.273
92275524|NCT02868281|184453446|OTHER||Difference in Least Squares Mean|-12.0||||0.367|TWO_SIDED|95.0|-40.3|16.3|||Mixed Model Repeat Measures||Weeks 1-4. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||16.3|-40.3|0.367
92275525|NCT02868281|184453446|OTHER||Difference in Least Squares Mean|-7.2||||0.587|TWO_SIDED|95.0|-35.5|21.2|||Mixed Model Repeat Measures||Weeks 5-8. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||21.2|-35.5|0.587
92275526|NCT02868281|184453446|OTHER||Difference in Least Squares Mean|-4.7||||0.721|TWO_SIDED|95.0|-33.1|23.7|||Mixed Model Repeat Measures||Weeks 9-12. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||23.7|-33.1|0.721
92369405|NCT02993822|184643603|SUPERIORITY|||||||0.1|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.100
92348306|NCT04390750|184599260|OTHER|The effect estimate reflects the adjusted difference in change from baseline on gingival inflammation between Treatment Group 2 and Control at 3 months.|Interaction coefficient|-0.12||||0.132||95.0|-0.28|0.04|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in gingival inflammation at the primary endpoint of 3 months.||0.04|-0.28|0.132
92275527|NCT02868281|184453446|OTHER||Difference in Least Squares Mean|-3.3||||0.801|TWO_SIDED|95.0|-31.7|25.1|||Mixed Model Repeat Measures||Weeks 13-16. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||25.1|-31.7|0.801
92348307|NCT04390750|184599261|OTHER|The effect estimate reflects the adjusted difference in change from baseline on plaque levels between Treatment Group 1 and Control at 6 months.|Interaction coefficient|-0.05||||0.402|TWO_SIDED|95.0|-0.16|0.06|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in plaque levels at the secondary endpoint of 6 months.||0.06|-0.16|0.402
92348308|NCT04390750|184599261|OTHER|The effect estimate reflects the adjusted difference in change from baseline on plaque levels between Treatment Group 2 and Control at 6 months.|Interaction coefficient|-0.1||||0.072|TWO_SIDED|95.0|-0.21|0.01|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in plaque levels at the secondary endpoint of 6 months.||0.01|-0.21|0.072
92348309|NCT04390750|184599262|OTHER|The effect estimate reflects the adjusted difference in change from baseline on gingival inflammation between Treatment Group 1 and Control at 6 months.|Interaction coefficient|-0.2||||0.014|TWO_SIDED|95.0|-0.36|-0.04|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in gingival inflammation at the secondary endpoint of 6 months.||-0.04|-0.36|0.014
92348310|NCT04390750|184599262|OTHER|The effect estimate reflects the adjusted difference in change from baseline on gingival inflammation between Treatment Group 2 and Control at 6 months.|Interaction coefficient|-0.23||||0.005|TWO_SIDED|95.0|-0.39|-0.07|||Linear mixed effects model.|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in gingival inflammation at the secondary endpoint of 6 months.||-0.07|-0.39|0.005
92348311|NCT04190225|184599303|SUPERIORITY||Median Difference (Final Values)|18.4||||0.04|TWO_SIDED|95.0|4.67|37.28|||quantile regression||Median difference is not the difference in the two medians, but is the median of differences between groups (why it is 18.4 and not 23)|||37.28|4.67|0.04
92348312|NCT04190225|184599304|SUPERIORITY||Median Difference (Final Values)|23.5||||0.03|TWO_SIDED|95.0|8.35|32.76|||quantile regression|||||32.76|8.35|0.03
92348313|NCT04190225|184599305|SUPERIORITY||||||<|0.001|||||||quantile regression|||||||<.001
92348314|NCT00884065|184599306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|4.08|>|0.05|TWO_SIDED|95.0|-9.93|6.49|||t-test, 2 sided|||||6.49|-9.93|>0.05
92348315|NCT00884065|184599307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.4|STANDARD_ERROR_OF_MEAN|2.83|<|0.01||95.0|5.72|17.08|||t-test, 2 sided|||||17.08|5.72|<0.01
92348316|NCT00884065|184599308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.24|STANDARD_ERROR_OF_MEAN|2.59|<|0.01|TWO_SIDED|95.0|2.03|12.45|||t-test, 2 sided|||||12.45|2.03|<0.01
92348317|NCT00884065|184599309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.92|STANDARD_ERROR_OF_MEAN|1.72|>|0.05|TWO_SIDED|95.0|-1.53|5.37|||t-test, 2 sided|||||5.37|-1.53|>0.05
92348318|NCT00884065|184599310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|2.18|>|0.05|TWO_SIDED|95.0|-3.81|5.01|||t-test, 2 sided|||||5.01|-3.81|>0.05
92159539|NCT01362491|184206878|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.08||||0.663|TWO_SIDED|95.0|-0.46|0.29||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - (Ibuprofen IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.29|-0.46|0.663
92348319|NCT00884065|184599311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.08|STANDARD_ERROR_OF_MEAN|1.49|<|0.01|TWO_SIDED|95.0|0.08|6.09|||t-test, 2 sided|||||6.09|0.08|<0.01
92348320|NCT03331562|184599338|SUPERIORITY||Risk Ratio (RR)|0.0||||0.31|ONE_SIDED|95.0|0.0||||Fisher Exact||Lower bound cannot be estimated because there were 0 events in the comparison group.||||0|.31
92348321|NCT04044690|184599412|SUPERIORITY||Odds Ratio (OR)|1.13||||0.371008|TWO_SIDED|95.0|0.551|2.309||Threshold of significance at \<= 0.025.|Regression, Logistic|Exact logistic regression model including fixed effects for treatment, region (Japan vs. non-Japan) and Baseline MMT-8 (≤ 142 points vs. \>142 points).|Rubin's rule applied following MI.|||2.309|0.551|0.371008
92348322|NCT04044690|184599413|SUPERIORITY||LS mean difference|1.46||||0.360939|TWO_SIDED|95.0|-6.651|9.57||Descriptive p-value.|MMRM|||||9.570|-6.651|0.360939
92348323|NCT04044690|184599414|SUPERIORITY||LS mean difference|-2.4||||0.730994|TWO_SIDED|95.0|-10.15|5.33||Descriptive p-value.|MMRM|||||5.33|-10.15|0.730994
92348324|NCT04044690|184599415|SUPERIORITY||LS mean difference|-5.3||||0.001647|TWO_SIDED|95.0|-8.72|-1.82||Descriptive p-value.|MMRM|||||-1.82|-8.72|0.001647
92159540|NCT01362491|184206879|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.54|||<|0.001|TWO_SIDED|95.0|0.37|0.72||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.72|0.37|<0.001
92159541|NCT01362491|184206879|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.51|||<|0.001|TWO_SIDED|95.0|0.33|0.69||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.69|0.33|<0.001
92348325|NCT04044690|184599416|SUPERIORITY||Odds Ratio (OR)|1.2||||0.335347|TWO_SIDED|95.0|0.52|2.766||Descriptive p-value.|Regression, Logistic|Exact logistic regression model including fixed effects for treatment, region (Japan vs. non-Japan) and Baseline MMT-8 (≤ 142 points vs. \>142 points).|Rubin's rule for combination applied following MI.|||2.766|0.520|0.335347
92348326|NCT03881371|184599494|SUPERIORITY||Least-Square Mean|-1.1|STANDARD_ERROR_OF_MEAN|0.277|<|0.0001|TWO_SIDED|95.0|-1.643|-0.555||"Analysis was based on a covariance model (ANCOVA) with treatment and centre as independent factors, baseline mean total daily OFF time measurement as covariate and change from baseline as dependent variable."|ANCOVA|||Treatment difference (Safinamide - Placebo)||-0.555|-1.643|<.0001
92348327|NCT03881371|184599495|SUPERIORITY||Least-Square Mean|-0.03|STANDARD_ERROR_OF_MEAN|0.21||0.8901|TWO_SIDED|95.0|-0.44|0.382||ANCOVA with treatment and centre as independent factors, baseline NRS measurement as covariate and change from baseline as dependent variable.|ANCOVA|||Treatment difference (Safinamide - Placebo)||0.382|-0.440|0.8901
92348328|NCT03881371|184599496|SUPERIORITY||Least-Square Mean|0.89|STANDARD_ERROR_OF_MEAN|0.315||0.0049|TWO_SIDED|95.0|0.274|1.515||"ANCOVA with treatment and centre as independent factors, baseline mean total daily ON time measurement as covariate and change from baseline as dependent variable."|ANCOVA|||Treatment difference (Safinamide - Placebo)||1.515|0.274|0.0049
92348329|NCT03881371|184599497|SUPERIORITY||Least-Square Mean|1.07|STANDARD_ERROR_OF_MEAN|0.345||0.0021|TWO_SIDED|95.0|0.392|1.753||"ANCOVA with treatment and centre as independent factors, baseline mean total daily ON time with no/non-troublesome Dyskinesia measurement as covariate and change from baseline as dependent variable."|ANCOVA|||||1.753|0.392|0.0021
92348330|NCT03881371|184599498|SUPERIORITY||Least-Square Mean|-5.99|STANDARD_ERROR_OF_MEAN|1.447|<|0.0001|TWO_SIDED|95.0|-8.842|-3.141||ANCOVA with treatment and centre as independent factors, baseline UPDRS score as covariate and change from baseline as dependent variable.|ANCOVA|||Treatment difference (Safinamide - Placebo)||-3.141|-8.842|<.0001
92348331|NCT03881371|184599499|SUPERIORITY||Least-Square Mean|-1.52|STANDARD_ERROR_OF_MEAN|0.51||0.0033|TWO_SIDED|95.0|-2.521|-0.511||ANCOVA with treatment and centre as independent factors, baseline UPDRS part II (ADL) score as covariate and change from baseline as dependent variable.|ANCOVA|||Treatment difference (Safinamide - Placebo)||-0.511|-2.521|0.0033
92348332|NCT03881371|184599500|SUPERIORITY||Least-Square Mean|-3.8|STANDARD_ERROR_OF_MEAN|0.988||0.0002|TWO_SIDED|95.0|-5.749|-1.856||ANCOVA with treatment and centre as independent factors, baseline UPDRS part III (motor function) score as covariate and change from baseline as dependent variable.|ANCOVA|||Treatment difference (Safinamide - Placebo)||-1.856|-5.749|0.0002
92348333|NCT03881371|184599501|SUPERIORITY||Median|0.0||||0.015|TWO_SIDED|95.0|0.0|0.0||Analysis was based on the Wilcoxon-Mann-Whitney test stratified by centre.|Wilcoxon (Mann-Whitney)||Non-parametric 95% confidence interval was presented for the treatment difference in CGI-S at each post-baseline visit as reported by the Hodges-Lehmann estimator.|Treatment difference (Safinamide - Placebo)||0.000|0.000|0.0150
92348334|NCT03881371|184599502|SUPERIORITY||Median|0.5||||0.0007|TWO_SIDED|95.0|0.0|1.0||Analysis was based on the Wilcoxon-Mann-Whitney test stratified by centre.|Wilcoxon (Mann-Whitney)||Non-parametric 95% confidence interval was presented for the treatment difference in CGI-C score at each post-baseline visit as reported by the Hodges-Lehmann estimator.|Treatment difference (Safinamide - Placebo)||1.000|0.000|0.0007
92348335|NCT03881371|184599503|SUPERIORITY||Least-Square Mean|-3.36|STANDARD_ERROR_OF_MEAN|1.132||0.0033|TWO_SIDED|95.0|-5.589|-1.128||ANCOVA with treatment and centre as independent factor, baseline Summary Index score as covariate and change from baseline as dependent variable.|ANCOVA|||Treatment difference (Safinamide - Placebo)||-1.128|-5.589|0.0033
92348336|NCT04225832|184599553|SUPERIORITY||Odds Ratio (OR)|2.51||||0.049|TWO_SIDED|95.0|1.01|6.26||a-priori threshold was p\<.05 for two-sided p-value Regression employed nonresponse weights to account for any bias associated with completing any follow-up survey.|Regression, Logistic|Regression results control for immigration status and length of time in U.S.|Odds ratio is for indicator of intervention arm||Regression results control for immigration status and length of time in U.S.|6.26|1.01|.049
92400072|NCT03062358|184691773|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0032|TWO_SIDED|95.0|0.6|0.92||Log-rank test|One-sided p-value|Stratified by macrovascular invasion, α-Fetoprotein and region with all cells that correspond to macrovascular invasion=Yes combined|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate||Stratified by macrovascular invasion (Yes vs. No), α-Fetoprotein (ng/mL) (\< 200 vs. ≥ 200) and region (China vs. ex-China) with all cells that correspond to macrovascular invasion=Yes combined.|0.92|0.60|0.0032
92159542|NCT01362491|184206879|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.03||||0.651|TWO_SIDED|95.0|-0.11|0.18||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.18|-0.11|0.651
92159543|NCT01362491|184206879|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.62|||<|0.001|TWO_SIDED|95.0|0.42|0.81||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.81|0.42|<0.001
92159544|NCT01362491|184206879|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.65|||<|0.001|TWO_SIDED|95.0|0.46|0.85||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.85|0.46|<0.001
92159545|NCT01362491|184206879|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.03||||0.669|TWO_SIDED|95.0|-0.19|0.13||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.13|-0.19|0.669
92218810|NCT01431274|184338463|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.007|STANDARD_ERROR_OF_MEAN|0.012||0.5759|TWO_SIDED|95.0|-0.031|0.017||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.017|-0.031|0.5759
92218811|NCT01431274|184338464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.079|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.055|0.103||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.103|0.055|<0.0001
92218812|NCT01431274|184338464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.062|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.038|0.086||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.086|0.038|<0.0001
92348337|NCT04225832|184599554|SUPERIORITY||Odds Ratio (OR)|1.06||||0.83|TWO_SIDED|95.0|0.62|1.81||a-priori threshold was p\<.05 for two-sided p-value Regression employed nonresponse weights to account for any bias associated with completing any follow-up survey.|Regression, Logistic|Regression results control for immigration status and length of time in U.S.|Odds ratio is for indicator of intervention arm|||1.81|0.62|.83
92348338|NCT04225832|184599555|SUPERIORITY||Slope|0.14|STANDARD_ERROR_OF_MEAN|0.09||0.14|TWO_SIDED|||||a-priori threshold was p\<.05 for two-sided p-value Regression employed nonresponse weights to account for any bias associated with completing any follow-up survey.|Regression, Linear|Regression results control for immigration status, length of time in U.S., and baseline value of the outcome|Slope is adjusted regression coefficient for indicator of intervention arm|"Unlike the observed at any FU primary outcomes which have a single value for each participant, for this outcome we employed a repeated measures style structure with one record for each of up to 3 FU observations. A sandwich estimator (SAS Proc Surveyreg) was employed to account for clustering of observations within participant."||||.14
92348339|NCT00311168|184599556|SUPERIORITY|A target of an 80% reduction in percentage of ventricular pacing with VIP™ is proposed in this study. In order to achieve an 80% power of detecting an 80% reduction in the percentage of ventricular paced events and using a two group two-sided t-test of equal means, a minimum sample size of 39 patients per group was required. To account for possible withdrawal or loss to follow-up, this study targeted to enroll 100 patients (50 per group).|Mean Difference (Final Values)|-60.2|STANDARD_DEVIATION|19.0|<|0.0001|TWO_SIDED|95.0|-67.5|-52.9|||t-test, 2 sided||Mean difference in the percentage of intrinsic ventricular events is presented as, VIP Off - VIP On.|||-52.9|-67.5|<0.0001
92348340|NCT02452190|184599567|SUPERIORITY|A fixed-sequence multiple testing procedure was implemented to test the primary and secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.|CAE rate ratio (reslizumab vs placebo)|0.79||||0.194|TWO_SIDED|95.0|0.562|1.124||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group, randomization stratification factors, and number of prior exacerbations as model factors and the logarithm of treatment duration excluding the summed duration of exacerbations in the treatment period as an offset variable.||1.124|0.562|0.194
92348341|NCT06001021|184599581|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008).~Lesaffre E. Superiority, equivalence, and non-inferiority trials. Bull NYU Hosp Jt Dis. 2008;66(2):150-4. PMID: 18537788."|Mean Difference (Final Values)|-35.55|STANDARD_DEVIATION|17.78||0|TWO_SIDED|90.0|-38.9|-32.19||The significance level is 0.10 with 90% confidence interval|ANCOVA|||||-32.19|-38.90|0.000
92348342|NCT06001021|184599582|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008). Lesaffre E. Superiority, equivalence, and non-inferiority trials. Bull NYU Hosp Jt Dis.~2008;66(2):150-4. PMID: 18537788"|Mean Difference (Final Values)|23.96|STANDARD_DEVIATION|23.14||0|TWO_SIDED|90.0|19.59|28.32||The significance level is 0.10 with 90% confidence interval|ANCOVA|||||28.32|19.59|0.000
92369406|NCT02993822|184643603|SUPERIORITY|||||||0.557|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.557
92218813|NCT01431274|184338464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.061|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.037|0.085||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.085|0.037|<0.0001
92218814|NCT01431274|184338464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.012||0.0002|TWO_SIDED|95.0|0.022|0.071||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.071|0.022|0.0002
92348343|NCT06001021|184599583|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008).~Lesaffre E. Superiority, equivalence, and non-inferiority trials. Bull NYU Hosp Jt Dis. 2008;66(2):150-4. PMID: 18537788."|Mean Difference (Final Values)|86.89|STANDARD_DEVIATION|45.43||0|TWO_SIDED|90.0|78.33|95.46||The significance level is 0.10 with 90% confidence interval|ANCOVA|||||95.46|78.33|0.00
92348344|NCT06001021|184599584|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008).~Lesaffre E. Superiority, equivalence, and non-inferiority trials. Bull NYU Hosp Jt Dis. 2008;66(2):150-4. PMID: 18537788."|Mean Difference (Final Values)|22.26|STANDARD_DEVIATION|15.15||0|TWO_SIDED|90.0|19.41|25.12||The significance level is 0.10 with 90% confidence interval|ANCOVA|||||25.12|19.41|0.000
92348345|NCT06001021|184599585|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008)."|Mean Difference (Final Values)|16.44|STANDARD_DEVIATION|7.55||0|TWO_SIDED|90.0|15.02|17.87||The significance level is 0.10 with 90% confidence interval|ANCOVA|||Physical Domain of Quality of Life||17.87|15.02|0.000
92348346|NCT06001021|184599585|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008)."|Mean Difference (Final Values)|16.6|STANDARD_DEVIATION|7.62||0|TWO_SIDED|90.0|15.16|18.04||The significance level is 0.10 with 90% confidence interval.|ANCOVA|||Psychological Domain of Quality of Life||18.04|15.16|0.000
92348347|NCT06001021|184599585|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008)."|Mean Difference (Final Values)|8.26|STANDARD_DEVIATION|3.96||0|TWO_SIDED|90.0|7.52|9.01||The significance level is 0.10 with 90% confidence interval.|ANCOVA|||Social Domain of Quality of Life||9.01|7.52|0.000
92348348|NCT06001021|184599585|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008)."|Mean Difference (Final Values)|23.73|STANDARD_DEVIATION|11.07||0|TWO_SIDED|90.0|21.64|25.81||The significance level is 0.10 with 90% confidence interval.|ANCOVA|||||25.81|21.64|0.000
92348349|NCT03112603|184599590|OTHER||Odds Ratio (OR)|2.99|||<|0.0001|TWO_SIDED|95.0|1.86|4.8|||Cochran-Mantel-Haenszel|||||4.80|1.86|<0.0001
92159546|NCT01362491|184206879|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.84|||<|0.001|TWO_SIDED|95.0|0.57|1.11||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.11|0.57|<0.001
92348350|NCT03112603|184599592|OTHER||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.268|0.51||The p-value was derived from a 1-sided stratified log-rank test.|Log Rank||The hazard ratio was obtained from a stratified Cox model using cGvHD severity at randomization as strata.|||0.510|0.268|<0.0001
92348351|NCT03112603|184599593|OTHER||Hazard Ratio (HR)|0.361|||||TWO_SIDED|95.0|0.268|0.485|||||The hazard ratio was obtained from a stratified Cox model using cGvHD severity at randomization as strata.|||0.485|0.268|
92348352|NCT03112603|184599594|OTHER||Odds Ratio (OR)|2.17||||0.0011|TWO_SIDED|95.0|1.34|3.52||The one-sided p-value was calculated using a stratified Cochran-Mantel-Haenszel test.|Cochran-Mantel-Haenszel||The odds ratio and 95% confidence interval (CI) were calculated using a stratified Cochran-Mantel-Haenszel test.|||3.52|1.34|0.0011
92348353|NCT03112603|184599596|OTHER||Odds Ratio (OR)|2.77|||<|0.0001|TWO_SIDED|95.0|1.75|4.39||The one-sided p-value was calculated using a stratified Cochran-Mantel-Haenszel (CMH) test.|Cochran-Mantel-Haenszel||The odds ratio and 95% CI were calculated using a stratified CMH test.|||4.39|1.75|<0.0001
92159547|NCT01362491|184206879|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.94|||<|0.001|TWO_SIDED|95.0|0.67|1.21||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.21|0.67|<0.001
92159548|NCT01362491|184206879|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.1||||0.396|TWO_SIDED|95.0|-0.32|0.13||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.13|-0.32|0.396
92159549|NCT01362491|184206880|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.8|||<|0.001|TWO_SIDED|95.0|1.3|2.3||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.30|1.30|<0.001
92159550|NCT01362491|184206880|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.78|||<|0.001|TWO_SIDED|95.0|1.28|2.28||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.28|1.28|<0.001
92159551|NCT01362491|184206880|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.02||||0.911|TWO_SIDED|95.0|-0.39|0.43||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.43|-0.39|0.911
92159552|NCT01362491|184206880|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.87|||<|0.001|TWO_SIDED|95.0|1.33|2.41||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.41|1.33|<0.001
92159553|NCT01362491|184206880|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.88|||<|0.001|TWO_SIDED|95.0|1.34|2.42||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.42|1.34|<0.001
92159554|NCT01362491|184206880|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.0||||0.982|TWO_SIDED|95.0|-0.45|0.44||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.44|-0.45|0.982
92159555|NCT01362491|184206880|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.44|||<|0.001|TWO_SIDED|95.0|1.72|3.15||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.15|1.72|<0.001
92159556|NCT01362491|184206880|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.61|||<|0.001|TWO_SIDED|95.0|1.9|3.33||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.33|1.90|<0.001
92159557|NCT01362491|184206880|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.18||||0.547|TWO_SIDED|95.0|-0.77|0.41||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.41|-0.77|0.547
92159558|NCT01362491|184206881|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.16|||<|0.001|TWO_SIDED|95.0|0.83|1.5||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.50|0.83|<0.001
92159559|NCT01362491|184206881|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.17|||<|0.001|TWO_SIDED|95.0|0.83|1.5||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.50|0.83|<0.001
92159560|NCT01362491|184206881|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.0||||0.992|TWO_SIDED|95.0|-0.28|0.27||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.27|-0.28|0.992
92159561|NCT01362491|184206881|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.01|||<|0.001|TWO_SIDED|95.0|1.43|2.58||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.58|1.43|<0.001
92159562|NCT01362491|184206881|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.1|||<|0.001|TWO_SIDED|95.0|1.53|2.68||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.68|1.53|<0.001
92159563|NCT01362491|184206881|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.1||||0.684|TWO_SIDED|95.0|-0.57|0.38||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.38|-0.57|0.684
92159564|NCT01362491|184206882|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.51|||<|0.001|TWO_SIDED|95.0|1.85|3.17||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Ibuprofen Sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.17|1.85|<0.001
92218815|NCT01431274|184338464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.044|STANDARD_ERROR_OF_MEAN|0.012||0.0004|TWO_SIDED|95.0|0.019|0.068||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.068|0.019|0.0004
92348354|NCT03112603|184599598|OTHER||Hazard Ratio (HR)|0.851||||0.2396|TWO_SIDED|95.0|0.544|1.331||The p-value was derived from a 1-sided stratified log-rank test.|Log Rank||The hazard ratio was obtained from a stratified Cox model using cGvHD severity at randomization as strata.|||1.331|0.544|0.2396
92348355|NCT00848185|184599624|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||ANOVA for three groups||||<0.001
92348356|NCT03785366|184599723|OTHER|"For the primary analysis, a ANOVA model with treatment as a fixed effect and subject as a random effect was used to analyze the uncorrected PK parameters Cmax, Cmean, and AUC0-56 days.~Analysis methodology for the secondary analysis mirrored the approach for the primary analysis applied to the baseline-corrected PK parameters."|test to Reference geometric mean ratio|0.93|||||TWO_SIDED|90.0|0.8|1.25|||ANCOVA|||||1.25|0.80|
92348357|NCT05360056|184599777|SUPERIORITY|paired t-test|Mean Difference (Net)|8.51|STANDARD_DEVIATION|28.0||0.03|TWO_SIDED|||||unadjusted p-value|paired t-test|||Paired t-test was performed comparing the %Time in range from 2 weeks to 12 weeks||||0.03
92348358|NCT05360056|184599779|SUPERIORITY||Wilcoxon signed rank|9.85|||<|0.0001|||||||paired Wilcoxon rank test|||||||<0.0001
92348359|NCT00927472|184599857|SUPERIORITY_OR_OTHER|||||||0.0386|||||||t-test, 2 sided|||||||0.0386
92348360|NCT00927472|184599858|SUPERIORITY_OR_OTHER|||||||0.3675|||||||t-test, 2 sided|||||||0.3675
92348361|NCT00927472|184599859|SUPERIORITY_OR_OTHER|||||||0.049|||||||t-test, 2 sided|||||||0.0490
92348362|NCT00927472|184599860|SUPERIORITY_OR_OTHER|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
92348363|NCT00927472|184599861|SUPERIORITY_OR_OTHER|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
92348364|NCT00927472|184599862|SUPERIORITY_OR_OTHER|||||||0.0012|||||||t-test, 2 sided|||||||0.0012
92348365|NCT00927472|184599863|SUPERIORITY_OR_OTHER|||||||0.3817|||||||t-test, 2 sided|||||||0.3817
92348366|NCT00927472|184599864|SUPERIORITY_OR_OTHER|||||||0.1059|||||||t-test, 2 sided|||||||0.1059
92400073|NCT03062358|184691774|OTHER||Percent Difference|11.4||||4e-05|TWO_SIDED|95.0|6.7|16.0|||One-sided p-value for testing|H0: difference in % =0 versus H1: difference in % \> 0.|Difference in % vs Placebo|Difference in % vs Placebo|Based on Miettinen \& Nurminen method stratified by macrovascular invasion (Yes vs. No), α-Fetoprotein (ng/mL) (\< 200 vs. \>= 200) and region (China vs. ex-China) with all cells that correspond to macrovascular invasion=Yes combined.|16.0|6.7|0.00004
92348367|NCT00927472|184599865|SUPERIORITY_OR_OTHER|||||||0.1088|||||||t-test, 2 sided|||||||0.1088
92348368|NCT00927472|184599866|SUPERIORITY_OR_OTHER|||||||0.1527|||||||t-test, 2 sided|||||||0.1527
92159565|NCT01362491|184206882|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.49|||<|0.001|TWO_SIDED|95.0|1.83|3.15||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference \[Ibuprofen (Motrin IB) - Placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.15|1.83|<0.001
92348369|NCT04707469|184599867|SUPERIORITY|Change from baseline was analyzed using an ANCOVA model with treatment, strata and region as categorical fixed effects and baseline value as covariate for each of the 1000 imputed complete datasets,and pooled by Rubin's rule to draw inference.|Treatment difference|-0.27||||0.0006|TWO_SIDED|95.0|-0.42|-0.12||Unadjusted two-sided p-value for test of no difference.|ANCOVA|||Treatment policy estimand||-0.12|-0.42|0.0006
92348370|NCT04707469|184599867|SUPERIORITY|Change from baseline was analyzed using an ANCOVA model with treatment, strata and region as categorical fixed effects and baseline value as covariate for each of the 1000 imputed complete datasets,and pooled by Rubin's rule to draw inference.|Treatment difference|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.68|-0.38||Unadjusted two-sided p-value for test of no difference.|ANCOVA|||Treatment policy estimand||-0.38|-0.68|<.0001
92348371|NCT04635423|184599914|SUPERIORITY||Observed Efficacy (%)|89.3|||<|0.001|TWO_SIDED|95.0|55.4|98.2||one-sided p-value based on exact binomial method proposed by Chan and Bohidar|Exact Binomial Method Chan and Bohidar||The statistical criterion for success requires that the lower bound of the 2-sided 95% confidence interval (CI) for vaccine efficacy (VE) against the primary efficacy endpoint is greater than 0%.|||98.2|55.4|<0.001
92348372|NCT04635423|184599915|OTHER||Difference in Percentages|40.1|||||TWO_SIDED|95.0|34.5|45.5|||Miettinen & Nurminen method||Difference in percentages calculated as % V503 minus % Placebo.|||45.5|34.5|
92348373|NCT04635423|184599916|OTHER||Difference in Percentage|0.4|||||TWO_SIDED|95.0|-4.4|5.2|||Miettinen & Nurminen method||Difference in percentages calculated as % V503 minus % Placebo.|||5.2|-4.4|
92348374|NCT04635423|184599919|SUPERIORITY||Observed Efficacy (%)|63.5||||0.023|TWO_SIDED|95.0|2.7|86.0||one-sided p-value based on exact binomial method proposed by Chan and Bohidar|Exact Binomial Method Chan and Bohidar||The statistical criterion for success requires that the lower bound of the 2-sided 95% confidence interval (CI) for vaccine efficacy (VE) against the primary efficacy endpoint is greater than 0%.|||86.0|2.7|0.023
92348375|NCT01811238|184599937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|STANDARD_DEVIATION|2.18|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|"The primary endpoint will be the actual reduction rate of pain intensity (0 -10) score at 8 weeks.~It will be analyzed by using paired t-test."||||||<0.05
92348376|NCT01811238|184599938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_DEVIATION|0.37|<|0.05|TWO_SIDED|95.0|0.0|1.12|||t-test, 2 sided|The change(difference) in EQ-5D score at Week 8 from baseline was analyzed by using paired t-test.||||1.12|0|<0.05
92348377|NCT00724945|184599951|SUPERIORITY_OR_OTHER||Least Square Mean|-0.08591|STANDARD_ERROR_OF_MEAN|0.008816||||95.0|-0.08591|-0.06857|||Mixed Models Analysis|||Alternative hypothesis: senofilcon A multifocal would be better than or equal to 0.1 logMAR units.||-0.06857|-0.08591|
92348378|NCT00724945|184599952|SUPERIORITY_OR_OTHER||Least Square Mean|0.02711|STANDARD_ERROR_OF_MEAN|0.008816||||97.5|0.02711|0.04445|||Mixed Models Analysis|||Alternative hypothesis: senofilcon A multifocal lens would be better than or equal to 0.17 logMAR units.||0.04445|0.02711|
92348379|NCT00724945|184599953|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is -0.5.|Mean Difference (Final Values)|0.07407|STANDARD_ERROR_OF_MEAN|0.1279||||97.5|-0.1797|0.07407|||Mixed Models Analysis||Mean difference was calculated as senofilcon A multifocal minus balafilcon A multifocal.|Alternative hypothesis: senofilcon A multifocal lens will have subjective vision that is non-inferior to balafilcon A multifocal.||0.07407|-0.1797|
92348380|NCT04901624|184599960|SUPERIORITY||Slope|1.19|STANDARD_ERROR_OF_MEAN|0.4||0.003|TWO_SIDED|95.0|0.42|1.97|||Mixed Models Analysis||Coefficient for mixed effects regression comparing Time 2 attendance to Time 1 attendance for Personal + Loss Protection relative to reference group (Personal + Lottery).|||1.97|0.42|0.003
92348381|NCT04901624|184599960|SUPERIORITY||Slope|1.46|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|0.68|2.24|||Mixed Models Analysis||Coefficient for mixed effects regression comparing Time 2 attendance to Time 1 attendance for Family + Loss Protection relative to reference group (Personal + Lottery).|||2.24|0.68|<0.001
92348382|NCT04901624|184599960|SUPERIORITY||Slope|1.11|STANDARD_ERROR_OF_MEAN|0.44||0.01|TWO_SIDED|95.0|0.26|1.96|||Mixed Models Analysis||Coefficient for mixed effects regression comparing Time 2 attendance to Time 1 attendance for Family + Lottery relative to reference group (Personal + Lottery).|||1.96|0.26|0.01
92348383|NCT04901624|184599961|SUPERIORITY||Slope|-0.29|STANDARD_ERROR_OF_MEAN|0.35||0.409|TWO_SIDED|95.0|-0.98|0.4|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that money was the biggest barrier to getting the vaccine.||0.4|-0.98|0.409
92348384|NCT04901624|184599961|SUPERIORITY||Slope|0.5|STANDARD_ERROR_OF_MEAN|0.3||0.098|TWO_SIDED|95.0|-0.09|1.1|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that money was the biggest barrier to getting the vaccine.||1.10|-0.09|0.098
92348385|NCT04901624|184599961|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.37||0.982|TWO_SIDED|95.0|-0.71|0.73|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that money was the biggest barrier to getting the vaccine.||0.73|-0.71|0.982
92348386|NCT04901624|184599961|SUPERIORITY||Slope|-0.27|STANDARD_ERROR_OF_MEAN|0.2||0.177|TWO_SIDED|95.0|-0.67|0.12|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that their medical provider was the most trusted source of COVID-19 information.||0.12|-0.67|0.177
92348387|NCT04901624|184599961|SUPERIORITY||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.21||0.117|TWO_SIDED|95.0|-0.08|0.74|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that their medical provider was the most trusted source of COVID-19 information.||0.74|-0.08|0.117
92348388|NCT04901624|184599961|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.23||0.809|TWO_SIDED|95.0|-0.39|0.5|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that their medical provider was the most trusted source of COVID-19 information.||0.50|-0.39|0.809
92348389|NCT04901624|184599961|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.19||0.847|TWO_SIDED|95.0|-0.34|0.41|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who scored below or equal to 5 on the risk aversion scale (scale of 0-10, with 0 being more risk averse and 10 being more risk prone).||0.41|-0.34|0.847
92348390|NCT04901624|184599961|SUPERIORITY||Slope|-0.002|STANDARD_ERROR_OF_MEAN|0.2||0.993|TWO_SIDED|95.0|-0.39|0.38|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who scored below or equal to 5 on the risk aversion scale (scale of 0-10, with 0 being more risk averse and 10 being more risk prone).||0.38|-0.39|0.993
92348391|NCT04901624|184599961|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.22||0.671|TWO_SIDED|95.0|-0.51|0.33|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who scored below or equal to 5 on the risk aversion scale (scale of 0-10, with 0 being more risk averse and 10 being more risk prone).||0.33|-0.51|0.671
92348392|NCT03479905|184599962|SUPERIORITY|||||||0.0004|||||||Kruskal-Wallis|||||||0.0004
92348393|NCT01147458|184599963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|0.374||0.067|TWO_SIDED|80.0|0.08|1.04|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||1.04|0.08|0.067
92348394|NCT01147458|184599963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.369||0.701|TWO_SIDED|80.0|-0.67|0.28|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.28|-0.67|0.701
92348395|NCT01147458|184599964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|0.374||0.067|TWO_SIDED|80.0|0.08|1.04|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||1.04|0.08|0.067
92348396|NCT01147458|184599964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.369||0.701|TWO_SIDED|80.0|-0.67|0.28|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.28|-0.67|0.701
92400074|NCT03062358|184691776|OTHER||Percent Difference|5.4||||0.13281|TWO_SIDED|95.0|-4.1|14.8|||One-sided p-value for testing|H0: difference in % =0 versus H1: difference in % \> 0.|Difference in % vs Placebo|Difference in % vs Placebo|Based on Miettinen \& Nurminen method stratified by macrovascular invasion (Yes vs. No), α-Fetoprotein (ng/mL) (\< 200 vs. ≥ 200) and region (China vs. ex-China) with all cells that correspond to macrovascular invasion=Yes combined.|14.8|-4.1|0.13281
92400075|NCT03062358|184691777|OTHER||Hazard Ratio (HR)|0.72||||0.0019|TWO_SIDED|95.0|0.58|0.9||Log-rank test|One-sided p-value|Stratified by macrovascular invasion, α-Fetoprotein and region with all cells that correspond to macrovascular invasion=Yes combined|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate||Stratified by macrovascular invasion (Yes vs. No), α-Fetoprotein (ng/mL) (\< 200 vs. ≥ 200) and region (China vs. ex-China) with all cells that correspond to macrovascular invasion=Yes combined.|0.90|0.58|0.0019
92275528|NCT02868281|184453446|OTHER||Difference in Least Squares Mean|-5.0||||0.704|TWO_SIDED|95.0|-33.3|23.4|||Mixed Model Repeat Measures||Weeks 17-20. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||23.4|-33.3|0.704
92348397|NCT01147458|184599965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.172|||TWO_SIDED|80.0|-0.15|0.29|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.29|-0.15|
92348398|NCT01147458|184599965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|80.0|-0.09|0.35|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.35|-0.09|
92348399|NCT01147458|184599966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.26|STANDARD_ERROR_OF_MEAN|1.239|||TWO_SIDED|80.0|-0.34|2.85|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||2.85|-0.34|
92348400|NCT01147458|184599966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|1.252|||TWO_SIDED|80.0|-1.95|1.28|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||1.28|-1.95|
92159566|NCT01362491|184206882|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.02||||0.943|TWO_SIDED|95.0|-0.52|0.56||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.56|-0.52|0.943
92159567|NCT01362491|184206882|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|4.1|||<|0.001|TWO_SIDED|95.0|3.03|5.18||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Ibuprofen Sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||5.18|3.03|<0.001
92159568|NCT01362491|184206882|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|4.17|||<|0.001|TWO_SIDED|95.0|3.09|5.24||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference \[Ibuprofen (Motrin IB) - Placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||5.24|3.09|<0.001
92159569|NCT01362491|184206882|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.06||||0.888|TWO_SIDED|95.0|-0.95|0.82||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.82|-0.95|0.888
92159570|NCT01362491|184206883|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|3.67|||<|0.001|TWO_SIDED|95.0|2.71|4.64||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Ibuprofen Sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.64|2.71|<0.001
92159571|NCT01362491|184206883|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|3.66|||<|0.001|TWO_SIDED|95.0|2.68|4.63||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.63|2.68|<0.001
92159572|NCT01362491|184206883|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.02||||0.964|TWO_SIDED|95.0|-0.78|0.82||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.82|-0.78|0.964
92159573|NCT01362491|184206883|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|6.27|||<|0.001|TWO_SIDED|95.0|4.65|7.89||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||7.89|4.65|<0.001
92159574|NCT01362491|184206883|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.16||||0.812|TWO_SIDED|95.0|-1.49|1.17||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.17|-1.49|0.812
92218816|NCT01431274|184338464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.012||0.136|TWO_SIDED|95.0|-0.006|0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.042|-0.006|0.1360
92348401|NCT01147458|184599967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.06|STANDARD_ERROR_OF_MEAN|1.699|||TWO_SIDED|80.0|-0.13|4.25|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||4.25|-0.13|
92348402|NCT01147458|184599967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|1.709|||TWO_SIDED|80.0|-2.53|1.88|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||1.88|-2.53|
92348403|NCT01147458|184599968|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77|STANDARD_ERROR_OF_MEAN|0.624|||TWO_SIDED|80.0|-0.03|1.58|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||1.58|-0.03|
92348404|NCT01147458|184599968|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.628|||TWO_SIDED|80.0|-0.97|0.65|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.65|-0.97|
92348405|NCT01147458|184599969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|80.0|-0.18|0.2|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.20|-0.18|
92218817|NCT01431274|184338464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.041|0.089||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.089|0.041|<0.0001
92348406|NCT01147458|184599969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.147|||TWO_SIDED|80.0|-0.07|0.31|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.31|-0.07|
92218818|NCT01431274|184338464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.012||0.1617|TWO_SIDED|95.0|-0.007|0.041||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.041|-0.007|0.1617
92218819|NCT01431274|184338464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.014|STANDARD_ERROR_OF_MEAN|0.012||0.2476|TWO_SIDED|95.0|-0.01|0.039||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.039|-0.010|0.2476
92218820|NCT01431274|184338464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.003|STANDARD_ERROR_OF_MEAN|0.012||0.8083|TWO_SIDED|95.0|-0.021|0.027||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.027|-0.021|0.8083
92218821|NCT01431274|184338465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.075|0.124||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.124|0.075|<0.0001
92218822|NCT01431274|184338465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.039|0.088||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.088|0.039|<0.0001
92218823|NCT01431274|184338465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.051|0.1||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.100|0.051|<0.0001
92218824|NCT01431274|184338465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.013||0.0001|TWO_SIDED|95.0|0.023|0.072||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.072|0.023|0.0001
92218825|NCT01431274|184338465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.012||0.0014|TWO_SIDED|95.0|0.015|0.064||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.064|0.015|0.0014
92218826|NCT01431274|184338465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.024|STANDARD_ERROR_OF_MEAN|0.012||0.0554|TWO_SIDED|95.0|-0.001|0.048||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.048|-0.001|0.0554
92218827|NCT01431274|184338465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.047|0.096||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.096|0.047|<0.0001
92275529|NCT02868281|184453446|OTHER||Difference in Least Squares Mean|-4.0||||0.762|TWO_SIDED|95.0|-32.4|24.5|||Mixed Model Repeat Measures||Weeks 21-24. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||24.5|-32.4|0.762
92348407|NCT01147458|184599970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|80.0|-0.12|0.31|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.31|-0.12|
92400076|NCT05893862|184691780|OTHER|LS Mean Difference 1 Hr|LS Mean Difference|9.22|||<|0.0001|TWO_SIDED|90.0|7.4|11.04|||t-test, 1 sided|||||11.04|7.40|<0.0001
92218828|NCT01431274|184338465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.036|STANDARD_ERROR_OF_MEAN|0.013||0.0041|TWO_SIDED|95.0|0.011|0.06||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.060|0.011|0.0041
92348408|NCT01147458|184599970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|80.0|-0.11|0.31|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.31|-0.11|
92400077|NCT05893862|184691780|OTHER|LS Mean Difference 2 Hr|LS Mean Difference|8.44||||0.0141|TWO_SIDED|90.0|6.31|10.56|||t-test, 1 sided|||||10.56|6.31|0.0141
92218829|NCT01431274|184338465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.028|STANDARD_ERROR_OF_MEAN|0.013||0.0248|TWO_SIDED|95.0|0.004|0.053||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.053|0.004|0.0248
92218830|NCT01431274|184338465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.008|STANDARD_ERROR_OF_MEAN|0.013||0.5338|TWO_SIDED|95.0|-0.017|0.032||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.032|-0.017|0.5338
92218831|NCT01431274|184338466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.077|STANDARD_ERROR_OF_MEAN|0.024||0.0017|TWO_SIDED|95.0|0.029|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.125|0.029|0.0017
92218832|NCT01431274|184338466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.138|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.09|0.186||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.186|0.090|<0.0001
92218833|NCT01431274|184338466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.024||0.0426|TWO_SIDED|95.0|0.002|0.098||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.098|0.002|0.0426
92218834|NCT01431274|184338466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.122|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.074|0.17||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.170|0.074|<0.0001
92218835|NCT01431274|184338466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.111|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.063|0.159||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.159|0.063|<0.0001
92218836|NCT01431274|184338466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.027|STANDARD_ERROR_OF_MEAN|0.025||0.2661|TWO_SIDED|95.0|-0.021|0.075||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.075|-0.021|0.2661
92218837|NCT01431274|184338466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.102|0.198||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.198|0.102|<0.0001
92400078|NCT05893862|184691780|OTHER|LS Mean Difference 3 Hr|LS Mean Difference|10.8|||<|0.0001|TWO_SIDED|90.0|8.85|12.74|||t-test, 1 sided|||||12.74|8.85|<0.0001
92348409|NCT02811159|184599986|OTHER|||||||0.1797|||||||Chi-Square Test|||||||0.1797
92348410|NCT02811159|184599987|OTHER|||||||0.125|||||||Wilcoxon Signed-Rank Test|||||||0.1250
92348411|NCT02811159|184599988|OTHER|||||||0.25|||||||Wilcoxon Signed-Rank Test|||||||0.2500
92348412|NCT02811159|184599989|OTHER|||||||0.5|||||||Wilcoxon Signed-Rank Test|||||||0.5000
92400079|NCT05893862|184691780|OTHER|LS Mean Difference Week 4 Hr|LS Mean Difference|6.43||||0.1045|TWO_SIDED|90.0|3.96|8.91|||t-test, 1 sided|||||8.91|3.96|0.1045
92400080|NCT05893862|184691780|OTHER|LS Mean Difference 8 Hr|LS Mean Difference|6.52|||||TWO_SIDED|90.0|4.66|8.38||||||||8.38|4.66|
92400081|NCT05893862|184691780|OTHER|LS Mean Difference 11 Hr|LS Mean Difference|7.33||||||90.0|4.74|9.93||||||||9.93|4.74|
92400082|NCT05893862|184691780|OTHER|LS Mean Difference 14 Hr|LS Mean Difference|6.42|||||TWO_SIDED|90.0|3.95|8.88||||||||8.88|3.95|
92400083|NCT05893862|184691780|OTHER|LS Mean Difference 24 Hr|LS Mean Difference|2.79|||||TWO_SIDED|90.0|0.81|4.76||||||||4.76|0.81|
92348413|NCT02811159|184599990|OTHER|||||||0.25|||||||Wilcoxon Signed-Rank Test|||||||0.2500
92348414|NCT02811159|184599991|OTHER|||||||1|||||||Wilcoxon Signed-Rank Test|||||||1.0000
92348415|NCT02811159|184599992|OTHER|||||||0.875|||||||Wilcoxon Signed-Rank Test|||||||0.8750
92348416|NCT02811159|184599993|OTHER|||||||0.5|||||||Wilcoxon Signed-Rank Test|||||||0.5000
92159575|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|12.02||||0.015|TWO_SIDED|95.0|5.27|18.77||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.77|5.27|0.015
92348417|NCT02811159|184599994|OTHER|||||||0.5|||||||Wilcoxon Signed-Rank Test|||||||0.5000
92159576|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|4.5||||0.146|TWO_SIDED|95.0|0.13|8.88||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.88|0.13|0.146
92159577|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|7.62||||0.064|TWO_SIDED|95.0|-0.38|15.63||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.63|-0.38|0.064
92159578|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|58.58|||<|0.001|TWO_SIDED|95.0|44.96|72.21||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||72.21|44.96|<0.001
92159579|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|52.31|||<|0.001|TWO_SIDED|95.0|38.2|66.41||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||66.41|38.20|<0.001
92159580|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|6.4||||0.357|TWO_SIDED|95.0|-7.27|20.07||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.07|-7.27|0.357
92159581|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|46.68|||<|0.001|TWO_SIDED|95.0|30.43|62.93||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||62.93|30.43|<0.001
92275530|NCT02868281|184453447|OTHER||Difference in Least Squares Mean|-12.8||||0.354|TWO_SIDED|95.0|-42.1|16.5|||Mixed Model Repeat Measures||Weeks 1-4. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||16.5|-42.1|0.354
92348418|NCT02811159|184599995|OTHER|||||||0.25|||||||Wilcoxon Signed-Rank Test|||||||0.2500
92348419|NCT02811159|184599996|OTHER|||||||0.0645|||||||Wilcoxon Signed-Rank Test|||||||0.0645
92348420|NCT00143507|184600000|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.945|TWO_SIDED|95.0|0.91|1.1|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.10|0.91|0.945
92348421|NCT00143507|184600001|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.316|TWO_SIDED|95.0|0.94|1.22|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.22|0.94|0.316
92348422|NCT00143507|184600002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.159|TWO_SIDED|95.0|0.72|1.06|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.06|0.72|0.159
92348423|NCT00143507|184600003|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.85|TWO_SIDED|95.0|0.86|1.13|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.13|0.86|0.850
92348424|NCT00143507|184600004|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.547|TWO_SIDED|95.0|0.92|1.16|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.16|0.92|0.547
92348425|NCT00143507|184600005|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.331|TWO_SIDED|95.0|0.71|1.12|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.12|0.71|0.331
92348426|NCT00143507|184600006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.078|TWO_SIDED|95.0|0.67|1.02|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.02|0.67|0.078
92400084|NCT05893862|184691783|OTHER|LS Mean Difference 0.5 Hr|LS Mean Difference|0.52|||||TWO_SIDED|90.0|-1.11|2.14||||||||2.14|-1.11|
92400085|NCT05893862|184691783|OTHER|LS Mean Difference 1 Hr|LS Mean Difference|0.36|||||TWO_SIDED|90.0|-1.26|1.98||||||||1.98|-1.26|
92400086|NCT05893862|184691783|OTHER|LS Mean Difference 2 Hr|LS Mean Difference|1.31|||||TWO_SIDED|90.0|-1.04|3.66||||||||3.66|-1.04|
92400087|NCT05893862|184691783|OTHER|LS Mean Difference 3 hr|LS Mean Difference|4.27|||||TWO_SIDED|90.0|1.9|6.64||||||||6.64|1.90|
92400088|NCT05893862|184691783|OTHER|LS Mean Difference 4 Hr|LS Mean Difference|7.0|||||TWO_SIDED|90.0|4.35|9.64||||||||9.64|4.35|
92400089|NCT05893862|184691783|OTHER|LS Mean Difference 6 Hr|LS Mean Difference|7.85|||||TWO_SIDED|90.0|4.35|9.64||||||||9.64|4.35|
92400090|NCT05893862|184691783|OTHER|LS Mean Difference 8 Hr|LS Mean Difference|9.25|||||TWO_SIDED|90.0|6.71|11.8||||||||11.80|6.71|
92400091|NCT05893862|184691783|OTHER|LS Mean Difference 12 Hr|LS Mean Difference|4.81|||||TWO_SIDED|90.0|2.27|7.35||||||||7.35|2.27|
92400092|NCT05893862|184691783|OTHER|LS Mean Difference 14 Hr|LS Mean Difference|3.57|||||TWO_SIDED|90.0|0.91|6.23||||||||6.23|0.91|
92400093|NCT05893862|184691783|OTHER|LS Mean Difference 24 Hr|LS Mean Difference|5.01|||||TWO_SIDED|90.0|3.18|6.85||||||||6.85|3.18|
92400094|NCT05893862|184691783|OTHER|LS Mean Difference 1 Hr|LS Mean Difference|3.95|||||TWO_SIDED|90.0|1.56|6.34||||||||6.34|1.56|
92400095|NCT05893862|184691783|OTHER|LS Mean Difference 2 Hr|LS Mean Difference|3.92|||||TWO_SIDED|90.0|1.49|6.35||||||||6.35|1.49|
92400096|NCT05893862|184691783|OTHER|LS Mean Difference 3 Hr|LS Mean Difference|4.68|||||TWO_SIDED|90.0|2.33|7.03||||||||7.03|2.33|
92400097|NCT05893862|184691783|OTHER|LS Mean Difference 4 Hr|LS Mean Difference|4.79|||||TWO_SIDED|90.0|2.45|7.12||||||||7.12|2.45|
92275531|NCT02868281|184453447|OTHER||Difference in Least Squares Mean|-8.4||||0.538|TWO_SIDED|95.0|-37.8|21.0|||Mixed Model Repeat Measures||Weeks 5-8. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||21.0|-37.8|0.538
92400098|NCT05893862|184691783|OTHER|LS Mean Difference 8 Hr|LS Mean Difference|4.82|||||TWO_SIDED|90.0|1.93|7.71||||||||7.71|1.93|
92400099|NCT05893862|184691783|OTHER|LS Mean Difference 11 Hr|LS Mean Difference|5.3|||||TWO_SIDED|90.0|2.51|8.09||||||||8.09|2.51|
92400100|NCT05893862|184691783|OTHER|LS Mean Difference 14 Hr|LS Mean Difference|5.85|||||TWO_SIDED|90.0|2.97|8.74||||||||8.74|2.97|
92400101|NCT05893862|184691783|OTHER|LS Mean Difference 16 Hr|LS Mean Difference|4.12|||||TWO_SIDED|90.0|1.79|6.45||||||||6.45|1.79|
92400102|NCT05893862|184691783|OTHER|LS Mean Difference 24 Hr|LS Mean Difference|0.78|||||TWO_SIDED|90.0|-1.69|3.26||||||||3.26|-1.69|
92400103|NCT01766050|184691808|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.991|||||TWO_SIDED|90.0|0.898|1.093||||||||1.093|0.898|
92400104|NCT01766050|184691808|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.911|||||TWO_SIDED|90.0|0.83|1.0||||||||1.000|0.830|
92400105|NCT01766050|184691808|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.994|||||TWO_SIDED|90.0|0.885|1.116||||||||1.116|0.885|
92400106|NCT01766050|184691826|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.05|||||TWO_SIDED|90.0|0.976|1.13||||||AUC (0-T)||1.130|0.976|
92400107|NCT01766050|184691826|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.966|||||TWO_SIDED|90.0|0.889|1.049||||||AUC (0-T)||1.049|0.889|
92400108|NCT01766050|184691826|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.033|||||TWO_SIDED|90.0|0.95|1.123||||||AUC (0-T)||1.123|0.950|
92400109|NCT01766050|184691826|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.049|||||TWO_SIDED|90.0|0.975|1.127||||||AUC (INF)||1.127|0.975|
92400110|NCT01766050|184691826|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.968|||||TWO_SIDED|90.0|0.892|1.049||||||AUC (INF)||1.049|0.892|
92400111|NCT01766050|184691826|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.031|||||TWO_SIDED|90.0|0.948|1.121||||||AUC(INF)||1.121|0.948|
92400112|NCT01766050|184691827|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.991|||||TWO_SIDED|90.0|0.898|1.093||||||||1.093|0.898|
92400113|NCT01766050|184691827|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.911|||||TWO_SIDED|90.0|0.83|1.0||||||||1.000|0.830|
92400114|NCT01766050|184691827|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.994|||||TWO_SIDED|90.0|0.885|1.116||||||||1.116|0.885|
92400115|NCT01766050|184691828|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.013|||||TWO_SIDED|90.0|0.944|1.088||||||AUC (0-T)||1.088|0.944|
92400116|NCT01766050|184691828|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.016|||||TWO_SIDED|90.0|0.936|1.103||||||AUC (0-T)||1.103|0.936|
92400117|NCT01766050|184691828|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.001|||||TWO_SIDED|90.0|0.893|1.121||||||AUC (0-T)||1.121|0.893|
92400118|NCT01766050|184691828|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.011|||||TWO_SIDED|90.0|0.942|1.085||||||AUC (INF)||1.085|0.942|
92400119|NCT01766050|184691828|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.016|||||TWO_SIDED|90.0|0.938|1.101||||||AUC (INF)||1.101|0.938|
92400120|NCT01766050|184691828|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.002|||||TWO_SIDED|90.0|0.896|1.121||||||AUC (INF)||1.121|0.896|
92400121|NCT01766050|184691829|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.26|||||TWO_SIDED|90.0|1.118|1.421||||||||1.421|1.118|
92400122|NCT01766050|184691829|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.292|||||TWO_SIDED|90.0|1.09|1.531||||||||1.531|1.090|
92400123|NCT01766050|184691829|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.178|||||TWO_SIDED|90.0|0.971|1.429||||||||1.429|0.971|
92400124|NCT01766050|184691830|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.159|||||TWO_SIDED|90.0|1.056|1.272||||||AUC (0-T)||1.272|1.056|
92400125|NCT01766050|184691830|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.228|||||TWO_SIDED|90.0|1.092|1.381||||||AUC (0-T)||1.381|1.092|
92400126|NCT01766050|184691830|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.215|||||TWO_SIDED|90.0|1.047|1.41||||||AUC (0-T)||1.410|1.047|
92400127|NCT01766050|184691830|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.193|||||TWO_SIDED|90.0|1.091|1.304||||||AUC (INF)||1.304|1.091|
92400128|NCT01766050|184691830|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.227|||||TWO_SIDED|90.0|1.093|1.379||||||AUC (INF)||1.379|1.093|
92400129|NCT01766050|184691830|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.3|||||TWO_SIDED|90.0|1.141|1.482||||||AUC (INF)||1.482|1.141|
92400130|NCT01766050|184691831|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.863|||||TWO_SIDED|90.0|0.746|0.997||||||||0.997|0.746|
92400131|NCT01766050|184691831|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.922|||||TWO_SIDED|90.0|0.793|1.071||||||||1.071|0.793|
92400132|NCT01766050|184691831|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.856|||||TWO_SIDED|90.0|0.709|1.034||||||||1.034|0.709|
92400133|NCT01766050|184691832|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.915|||||TWO_SIDED|90.0|0.817|1.024||||||AUC (0-T)||1.024|0.817|
92400134|NCT01766050|184691832|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.003|||||TWO_SIDED|90.0|0.856|1.175||||||AUC (0-T)||1.175|0.856|
92275532|NCT02868281|184453447|OTHER||Difference in Least Squares Mean|-5.0||||0.716|TWO_SIDED|95.0|-34.4|24.5|||Mixed Model Repeat Measures||Weeks 9-12. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||24.5|-34.4|0.716
92275533|NCT02868281|184453447|OTHER||Difference in Least Squares Mean|-3.1||||0.822|TWO_SIDED|95.0|-32.5|26.3|||Mixed Model Repeat Measures||Weeks 13-16. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||26.3|-32.5|0.822
92275534|NCT02868281|184453447|OTHER||Difference in Least Squares Mean|-4.0||||0.767|TWO_SIDED|95.0|-33.4|25.4|||Mixed Model Repeat Measures||Weeks 17-20. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||25.4|-33.4|0.767
92275535|NCT02868281|184453447|OTHER||Difference in Least Squares Mean|-3.8||||0.779|TWO_SIDED|95.0|-33.4|25.7|||Mixed Model Repeat Measures||Weeks 21-24. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||25.7|-33.4|0.779
92159582|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|47.59|||<|0.001|TWO_SIDED|95.0|31.35|63.83||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||63.83|31.35|<0.001
92159583|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|-0.72||||0.889|TWO_SIDED|95.0|-10.89|9.45||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.45|-10.89|0.889
92159584|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|40.26|||<|0.001|TWO_SIDED|95.0|23.85|56.68||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||56.68|23.85|<0.001
92159585|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|41.19|||<|0.001|TWO_SIDED|95.0|24.78|57.59||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||57.59|24.78|<0.001
92159586|NCT01362491|184206884|SUPERIORITY_OR_OTHER||Difference in proportion|-0.72||||0.889|TWO_SIDED|95.0|-10.89|9.45||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.45|-10.89|0.889
92159587|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|18.58||||0.002|TWO_SIDED|95.0|10.43|26.73||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||26.73|10.43|0.002
92275536|NCT02868281|184453448|OTHER||Difference in Least Squares Mean|0.3||||0.059|TWO_SIDED|95.0|0.0|0.6|||Mixed Model Repeat Measures||The model included covariates of treatment, center, Baseline AQLQ(S) score, type of Baseline controller, gender and age, with the center as a random factor.|||0.6|-0.0|0.059
92275537|NCT02868281|184453449|OTHER||Hazard Ratio (HR)|1.843||||0.01|TWO_SIDED|95.0|1.16|2.926|||Cox proportional hazards model||The model included treatment, Baseline ACT total score, center, type of Baseline controller, gender and age as covariates.|||2.926|1.160|0.010
92275538|NCT02868281|184453450|OTHER||Rate Ratio|1.09||||0.897|TWO_SIDED|95.0|0.32|3.73|||Generalised linear model||The model included treatment, Baseline ACT total score, type of Baseline controller, gender and age as covariates.|||3.73|0.32|0.897
92348427|NCT00143507|184600007|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.583|TWO_SIDED|95.0|0.83|1.4|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.40|0.83|0.583
92348428|NCT00143507|184600008|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.501|TWO_SIDED|95.0|0.81|1.11|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.11|0.81|0.501
92400135|NCT01766050|184691832|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.963|||||TWO_SIDED|90.0|0.821|1.13||||||AUC (0-T)||1.130|0.821|
92400136|NCT01766050|184691832|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.877|||||TWO_SIDED|90.0|0.783|0.982||||||AUC (INF)||0.982|0.783|
92400137|NCT01766050|184691832|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.031|||||TWO_SIDED|90.0|0.885|1.2||||||AUC (INF)||1.200|0.885|
92400138|NCT01766050|184691832|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.022|||||TWO_SIDED|90.0|0.839|1.245||||||AUC (INF)||1.245|0.839|
92400139|NCT01766050|184691833|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.948|||||TWO_SIDED|90.0|0.88|1.021||||||||1.021|0.880|
92400140|NCT01766050|184691833|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.922|||||TWO_SIDED|90.0|0.857|0.993||||||||0.993|0.857|
92400141|NCT01766050|184691833|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.954|||||TWO_SIDED|90.0|0.885|1.028||||||||1.028|0.885|
92159588|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|7.8||||0.055|TWO_SIDED|95.0|2.14|13.46||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.46|2.14|0.055
92218838|NCT01431274|184338466|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.061|STANDARD_ERROR_OF_MEAN|0.024||0.0119|TWO_SIDED|95.0|-0.109|-0.014||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.014|-0.109|0.0119
92400142|NCT01766050|184691834|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.941|||||TWO_SIDED|90.0|0.874|1.013||||||AUC (0-T)||1.013|0.874|
92400143|NCT01766050|184691834|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.986|||||TWO_SIDED|90.0|0.902|1.076||||||AUC (0-T)||1.076|0.902|
92159589|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|10.91||||0.033|TWO_SIDED|95.0|0.98|20.83||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.83|0.98|0.033
92159590|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|62.03|||<|0.001|TWO_SIDED|95.0|48.65|75.41||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||75.41|48.65|<0.001
92159591|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|59.44|||<|0.001|TWO_SIDED|95.0|45.69|73.19||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||73.19|45.69|<0.001
92159592|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|2.96||||0.642|TWO_SIDED|95.0|-9.52|15.44||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.44|-9.52|0.642
92159593|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|40.26|||<|0.001|TWO_SIDED|95.0|23.85|56.68||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||56.68|23.85|<0.001
92159594|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|41.19|||<|0.001|TWO_SIDED|95.0|24.78|57.59||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||57.59|24.78|<0.001
92159595|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|-0.72||||0.889|TWO_SIDED|95.0|-10.89|9.45||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.45|-10.89|0.889
92159596|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|40.26|||<|0.001|TWO_SIDED|95.0|23.85|56.68||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||56.68|23.85|<0.001
92159597|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|41.19|||<|0.001|TWO_SIDED|95.0|24.78|57.59||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||57.59|24.78|<0.001
92159598|NCT01362491|184206885|SUPERIORITY_OR_OTHER||Difference in proportion|-0.72||||0.889|TWO_SIDED|95.0|-10.89|9.45||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.45|-10.89|0.889
92159599|NCT01362491|184206888|SUPERIORITY_OR_OTHER||Difference in proportion|3.21||||0.389|TWO_SIDED|95.0|-3.12|9.55||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen Sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.55|-3.12|0.389
92400144|NCT01766050|184691834|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.027|||||TWO_SIDED|90.0|0.942|1.12||||||AUC (0-T)||1.120|0.942|
92400145|NCT01766050|184691834|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.939|||||TWO_SIDED|90.0|0.868|1.017||||||AUC (INF)||1.017|0.868|
92159600|NCT01362491|184206888|SUPERIORITY_OR_OTHER||Difference in proportion|2.35||||0.49|TWO_SIDED|95.0|-3.69|8.39||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.39|-3.69|0.490
92218839|NCT01431274|184338466|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.073|STANDARD_ERROR_OF_MEAN|0.024||0.0029|TWO_SIDED|95.0|-0.121|-0.025||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.025|-0.121|0.0029
92218840|NCT01431274|184338466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.011|STANDARD_ERROR_OF_MEAN|0.024||0.6408|TWO_SIDED|95.0|-0.036|0.059||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.059|-0.036|0.6408
92218841|NCT01431274|184338467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.221|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.173|0.27||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.270|0.173|<0.0001
92218842|NCT01431274|184338467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.193|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.145|0.242||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.242|0.145|<0.0001
92218843|NCT01431274|184338467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.185|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.136|0.233||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.233|0.136|<0.0001
92218844|NCT01431274|184338467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.114|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.065|0.162||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.162|0.065|<0.0001
92218845|NCT01431274|184338467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.157|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.108|0.205||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.205|0.108|<0.0001
92218846|NCT01431274|184338467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.037|STANDARD_ERROR_OF_MEAN|0.025||0.1355|TWO_SIDED|95.0|-0.012|0.085||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.085|-0.012|0.1355
92218847|NCT01431274|184338467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.151|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.102|0.199||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.199|0.102|<0.0001
92218848|NCT01431274|184338467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.028|STANDARD_ERROR_OF_MEAN|0.025||0.2562|TWO_SIDED|95.0|-0.02|0.076||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.076|-0.020|0.2562
92218849|NCT01431274|184338467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.025||0.0041|TWO_SIDED|95.0|0.022|0.119||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.119|0.022|0.0041
92348429|NCT00143507|184600009|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.141|TWO_SIDED|95.0|0.78|1.04|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.04|0.78|0.141
92348430|NCT00143507|184600010|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.411|TWO_SIDED|95.0|0.86|1.06|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.06|0.86|0.411
92218850|NCT01431274|184338467|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.043|STANDARD_ERROR_OF_MEAN|0.025||0.0815|TWO_SIDED|95.0|-0.091|0.005||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.005|-0.091|0.0815
92218851|NCT01431274|184338468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.195|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.149|0.242||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.242|0.149|<0.0001
92218852|NCT01431274|184338468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.153|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.107|0.199||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.199|0.107|<0.0001
92218853|NCT01431274|184338468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.174|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.128|0.221||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.221|0.128|<0.0001
92218854|NCT01431274|184338468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.107|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.061|0.154||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.154|0.061|<0.0001
92218855|NCT01431274|184338468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.086|0.178||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.178|0.086|<0.0001
92218856|NCT01431274|184338468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.024||0.3727|TWO_SIDED|95.0|-0.025|0.067||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.067|-0.025|0.3727
92218857|NCT01431274|184338468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.128|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.082|0.175||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.175|0.082|<0.0001
92218858|NCT01431274|184338468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.042|STANDARD_ERROR_OF_MEAN|0.024||0.0744|TWO_SIDED|95.0|-0.004|0.089||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.089|-0.004|0.0744
92218859|NCT01431274|184338468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.067|STANDARD_ERROR_OF_MEAN|0.024||0.0047|TWO_SIDED|95.0|0.021|0.114||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.114|0.021|0.0047
92348431|NCT00143507|184600011|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.484|TWO_SIDED|95.0|0.94|1.15|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.15|0.94|0.484
92348432|NCT00143507|184600012|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.835|TWO_SIDED|95.0|0.9|1.13|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.13|0.90|0.835
92348433|NCT00177671|184600015|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.97|STANDARD_DEVIATION|2.09||0.05|TWO_SIDED|95.0|1.0|4.41|||Log Rank|||We followed the intention to treat principle. We used Kaplan-Meier curves to quantify the percentage of participants who were free of depression recurrence over time. Cox proportional hazard models quantified hazard ratios comparing the 2 treatment groups.||4.41|1.00|.05
92348434|NCT01496456|184600058|SUPERIORITY_OR_OTHER|||||||0.002|||||||Regression, Logistic|Ordinal logistic regression, controlled for baseline lesion size and for correlation among pairs of teeth using the GEE method.||||||0.002
92348435|NCT01496456|184600059|SUPERIORITY_OR_OTHER|||||||0.045|||||||Regression, Logistic|Ordinal logistic regression, controlled for correlation among pairs of teeth using the GEE method.||||||0.045
92348436|NCT01496456|184600060|SUPERIORITY_OR_OTHER|||||||0.0077|||||||Discreet Time Survival Analysis|Controlled for correlation among tooth pairs (GEE model).||||||0.0077
92348437|NCT04919161|184600061|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Kruskal-Wallis|Due sample size differences and pairwise nature of the data, a Kruskal-Wallis was conducted.||Null hypothesis for this analysis is that there will be no differences between pre-scores and post-scores across the different treatment arms. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||<0.0001
92159601|NCT01362491|184206888|SUPERIORITY_OR_OTHER||Difference in proportion|0.98||||0.764|TWO_SIDED|95.0|-5.45|7.41||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||7.41|-5.45|0.764
92348438|NCT04919161|184600061|SUPERIORITY||||||=|0.0025||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||=0.0025
92159602|NCT01362491|184206888|SUPERIORITY_OR_OTHER||Difference in proportion|28.71|||<|0.001|TWO_SIDED|95.0|15.72|41.7||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen Sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||41.70|15.72|<0.001
92159603|NCT01362491|184206888|SUPERIORITY_OR_OTHER||Difference in proportion|29.37|||<|0.001|TWO_SIDED|95.0|16.19|42.56||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||42.56|16.19|<0.001
92159604|NCT01362491|184206888|SUPERIORITY_OR_OTHER||Difference in proportion|-0.93||||0.898|TWO_SIDED|95.0|-15.22|13.36||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.36|-15.22|0.898
92159605|NCT01474538|184206931|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% confidence interval (CI) was below 0.4%, lispro was declared non-inferior to aspart.|LS Mean difference|0.1|||||TWO_SIDED|95.0|-0.002|0.21|||Mixed Models Analysis|||||0.210|-0.002|
92159606|NCT01474538|184206932|SUPERIORITY_OR_OTHER||LS Mean difference|-0.28|||||TWO_SIDED|95.0|-2.92|2.35|||Mixed Models Analysis|||||2.35|-2.92|
92159607|NCT01474538|184206933|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.94||||0.522|||||||Negative binomial|||||||0.522
92159608|NCT01474538|184206934|SUPERIORITY_OR_OTHER||LS Mean difference|-0.58||||0.216|||||||Grizzle Model|||||||0.216
92159609|NCT01474538|184206935|SUPERIORITY_OR_OTHER|||||||0.471|||||||Prescott test|||||||0.471
92159610|NCT00367237|184206936|SUPERIORITY_OR_OTHER||Difference in percentages of respondents|19.61||||0.021||95.0|3.27|35.95||Comparison of treatments (IFX + MTX versus MTX)|Chi-squared||Difference in percentages of respondents is (percentage of respondents in IFX+MTX group minus percentage of respondents in MTX group)|||35.95|3.27|0.0210
92159611|NCT00367237|184206936|SUPERIORITY_OR_OTHER||Proportion of Responders|0.863||||||95.0||||||||||||
92218860|NCT01431274|184338468|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.025|STANDARD_ERROR_OF_MEAN|0.024||0.2945|TWO_SIDED|95.0|-0.071|0.022||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.022|-0.071|0.2945
92348439|NCT04919161|184600061|SUPERIORITY||||||=|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||=0.0001
92348440|NCT04919161|184600061|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||>0.9999
92159612|NCT00367237|184206936|SUPERIORITY_OR_OTHER||Proportion of Responders|0.667||||||95.0||||||||||||
92159613|NCT02501629|184206940|SUPERIORITY||Odds Ratio (OR)|1.23||||0.468|TWO_SIDED|95.0|0.702|2.157||Significance at 0.05.|proportional odds model|factors for treatment group and randomization strata (age and OCS dose); baseline OCS dose and duration of OCS use prior to study were covariates.||The proportional odds ratio (reslizumab/placebo) was estimated from this model, representing the ratio of the odds of a patient outcome being in a higher OCS dose reduction category for reslizumab compared to placebo.||2.157|0.702|0.468
92159614|NCT02501629|184206941|SUPERIORITY||Odds Ratio (OR)|1.45||||0.234|TWO_SIDED|95.0|0.786|2.683||significance at 0.05.|Regression, Logistic|logistic regression model adjusted for treatment, stratification factors (age group and OCS dose group), duration of OCS use, and baseline value.||As the analysis of the primary efficacy endpoint did not meet criteria for statistical significance (p≤0.05), the secondary efficacy endpoints were not interpreted inferentially according to the pre-defined hierarchy. P-values are nominal, meaning they were obtained from the analysis without adjustments to protect family-wise errors and should be interpreted with caution. Nominal p-values do not indicate treatment differences.||2.683|0.786|0.234
92400146|NCT01766050|184691834|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.002|||||TWO_SIDED|90.0|0.914|1.098||||||||1.098|0.914|
92400147|NCT01766050|184691834|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.036|||||TWO_SIDED|90.0|0.94|1.142||||||AUC (INF)||1.142|0.940|
92218861|NCT01431274|184338469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.205|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.155|0.255||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.255|0.155|<0.0001
92218862|NCT01431274|184338469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.156|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.107|0.206||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.206|0.107|<0.0001
92218863|NCT01431274|184338469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.192|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.142|0.242||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.242|0.142|<0.0001
92218864|NCT01431274|184338469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.124|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.074|0.174||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.174|0.074|<0.0001
92218865|NCT01431274|184338469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.144|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.094|0.193||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.193|0.094|<0.0001
92218866|NCT01431274|184338469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.013|STANDARD_ERROR_OF_MEAN|0.025||0.6103|TWO_SIDED|95.0|-0.037|0.062||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.062|-0.037|0.6103
92218867|NCT01431274|184338469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.137|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.087|0.186||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.186|0.087|<0.0001
92218868|NCT01431274|184338469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.049|STANDARD_ERROR_OF_MEAN|0.025||0.0559|TWO_SIDED|95.0|-0.001|0.098||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.098|-0.001|0.0559
92218869|NCT01431274|184338469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.068|STANDARD_ERROR_OF_MEAN|0.025||0.0073|TWO_SIDED|95.0|0.018|0.118||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.118|0.018|0.0073
92218870|NCT01431274|184338469|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.02|STANDARD_DEVIATION|0.025||0.4368|TWO_SIDED|95.0|-0.07|0.03||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.030|-0.070|0.4368
92218871|NCT01431274|184338470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.147|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.098|0.196||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.196|0.098|<0.0001
92348441|NCT04919161|184600061|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison would be that there would be no significant difference between post-scores of the two treatment groups.||||>0.9999
92400148|NCT01097668|184691845|SUPERIORITY_OR_OTHER||||||<|0.001|||||||negative binomial model|||Comparison of the baseline 'ITT population' MRI data with week 16 data.||||<0.001
92400149|NCT01097668|184691845|SUPERIORITY_OR_OTHER|||||||0.03|||||||negative binomial model|||Comparison of the baseline 'MRI population' data with data from week 16.||||0.030
92400150|NCT02421172|184691852|SUPERIORITY_OR_OTHER_LEGACY||Posterior probablility|0.9729||||||||||||||||||
92400151|NCT02670811|184691866|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The primary outcome, systolic blood pressure (mmHg), between groups was analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
92218872|NCT01431274|184338470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.025||0.0023|TWO_SIDED|95.0|0.027|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.125|0.027|0.0023
92218873|NCT01431274|184338470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.121|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.072|0.17||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.170|0.072|<0.0001
92218874|NCT01431274|184338470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.025||0.0545|TWO_SIDED|95.0|-0.001|0.097||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 μg).~Spatial power covariance structure for within-patient errors."|||0.097|-0.001|0.0545
92218875|NCT01431274|184338470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.025||0.0456|TWO_SIDED|95.0|0.001|0.099||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.099|0.001|0.0456
92218876|NCT01431274|184338470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.026|STANDARD_ERROR_OF_MEAN|0.025||0.2949|TWO_SIDED|95.0|-0.023|0.075||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.075|-0.023|0.2949
92218877|NCT01431274|184338470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.074|STANDARD_ERROR_OF_MEAN|0.025||0.0029|TWO_SIDED|95.0|0.025|0.123||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.123|0.025|0.0029
92218878|NCT01431274|184338470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.025||0.0045|TWO_SIDED|95.0|0.022|0.12||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.120|0.022|0.0045
92218879|NCT01431274|184338470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.073|STANDARD_ERROR_OF_MEAN|0.025||0.0035|TWO_SIDED|95.0|0.024|0.122||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.122|0.024|0.0035
92218880|NCT01431274|184338470|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.002|STANDARD_ERROR_OF_MEAN|0.025||0.9369|TWO_SIDED|95.0|-0.051|0.047||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.047|-0.051|0.9369
92218881|NCT01431274|184338471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.168|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.119|0.217||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.217|0.119|<0.0001
92218882|NCT01431274|184338471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.105|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.056|0.154||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.154|0.056|<0.0001
92218883|NCT01431274|184338471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.103|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.054|0.152||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.152|0.054|<0.0001
92218884|NCT01431274|184338471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.025||0.0585|TWO_SIDED|95.0|-0.002|0.096||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.096|-0.002|0.0585
92348442|NCT04919161|184600062|SUPERIORITY|Prior to analysis, the score change or difference between post-test and pre-test were calculated for each participant as: ScoreChange=(PostTest) - (PreTest). These changes in score were then compared.|||||=|0.3045||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|t-test, 2 sided|||Null hypothesis is that there are no differences between groups. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||=0.3045
92348443|NCT04919161|184600063|SUPERIORITY|Prior to analysis, the score change or difference between post-test and pre-test were calculated for each participant as: PercentScoreChange = (\[(PostTest)-(PreTest)\]/\[PreTest\]) x 100%|||||=|3152||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Two-Tailed Welch t test|Due to unequal standard deviation, a two-tailed Welch's t test was used.||Null hypothesis is that there are no differences between groups. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||=3152
92159615|NCT02501629|184206942|SUPERIORITY||Odds Ratio (OR)|1.19||||0.596|TWO_SIDED|95.0|0.631|2.229||significance at 0.05.|Regression, Logistic|logistic regression model adjusted for treatment, stratification factors (age group and OCS dose group), duration of OCS use, and baseline value.||As the analysis of the primary efficacy endpoint did not meet criteria for statistical significance (p≤0.05), the secondary efficacy endpoints were not interpreted inferentially according to the pre-defined hierarchy. P-values are nominal, meaning they were obtained from the analysis without adjustments to protect family-wise errors and should be interpreted with caution. Nominal p-values do not indicate treatment differences.||2.229|0.631|0.596
92159616|NCT02501629|184206943|SUPERIORITY||Mean Difference (Final Values)|-17.75|STANDARD_ERROR_OF_MEAN|10.759||0.101|TWO_SIDED|95.0|-38.986|3.494|||mixed model repeated measures (MMRM)||Reslizumab - Placebo|Mixed model repeated measures (MMRM) with fixed effects for treatment, visit, treatment by visit interaction, age group, and OCS dose group, duration of OCS use and baseline value as covariates, and patient as a random effect. Unstructured covariance was assumed for the repeated measures.||3.494|-38.986|0.101
92159617|NCT02501629|184206944|SUPERIORITY||Odds Ratio (OR)|1.36||||0.341|TWO_SIDED|95.0|0.722|2.562||significance at 0.05.|Regression, Logistic|logistic regression model adjusted for treatment, stratification factors (age group and OCS dose group), duration of OCS use, and baseline value.||As the analysis of the primary efficacy endpoint did not meet criteria for statistical significance (p≤0.05), the secondary efficacy endpoints were not interpreted inferentially according to the pre-defined hierarchy. P-values are nominal, meaning they were obtained from the analysis without adjustments to protect family-wise errors and should be interpreted with caution. Nominal p-values do not indicate treatment differences.||2.562|0.722|0.341
92159618|NCT02501629|184206945|SUPERIORITY||CAE rate ratio|0.82||||0.407|TWO_SIDED|95.0|0.504|1.321|||Negative binomial regression model|Negative binomial regression model adjusted for stratification factors (OCS dose group), age, number of prior exacerbations, and an offset variable.|reslizumab vs placebo|||1.321|0.504|0.407
92159619|NCT02501629|184206946|SUPERIORITY||Odds Ratio (OR)|0.82||||0.628|TWO_SIDED|95.0|0.371|1.818||significance at 0.05.|Regression, Logistic|logistic regression model adjusted for treatment, stratification factors (age group and OCS dose group), duration of OCS use, and baseline value.||As the analysis of the primary efficacy endpoint did not meet criteria for statistical significance (p≤0.05), the secondary efficacy endpoints were not interpreted inferentially according to the pre-defined hierarchy. P-values are nominal, meaning they were obtained from the analysis without adjustments to protect family-wise errors and should be interpreted with caution. Nominal p-values do not indicate treatment differences.||1.818|0.371|0.628
92159620|NCT02004613|184206949|SUPERIORITY||Risk Ratio (RR)|0.91||||0.34|TWO_SIDED|97.8|0.72|1.15|||Regression, Logistic|||Hypothesis: dexmedetomidine would reduce the incidence of postoperative atrial arrhythmias.||1.15|0.72|0.34
92159621|NCT02004613|184206950|SUPERIORITY||Risk Ratio (RR)|1.48||||0.026|TWO_SIDED|97.8|0.99|2.23|||Regression, Logistic|||hypothesis: Dexmedetomidine may reduce the incidence of postoperative delirium.||2.23|0.99|0.026
92159622|NCT02004613|184206951|SUPERIORITY||Risk Ratio (RR)|1.4||||0.14|TWO_SIDED|97.5|0.84|2.34|||Regression, Logistic|||||2.34|0.84|0.14
92159623|NCT02004613|184206952|OTHER||Risk Ratio (RR)|0.87||||0.29|TWO_SIDED|97.5|0.65|1.16|||Regression, Logistic|||||1.16|0.65|0.29
92159624|NCT00886613|184206980|SUPERIORITY_OR_OTHER||kappa coefficient of agreement|0.85||||0.564|TWO_SIDED|90.0|0.72|0.99|||McNemar||The significance of the difference between the proportion of subjects with a positive skin test at 48 hours and the proportion of subjects with a positive skin test at 72 hours|||0.99|0.72|0.564
92159625|NCT00886613|184206982|SUPERIORITY_OR_OTHER||Difference in proportions|0.06||||0.343|TWO_SIDED|90.0|-0.17|0.28|||Chi-squared||Statistical analysis for dose 2|||0.28|-0.17|0.343
92159626|NCT00672256|184206988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|||<|0.05||95.0|||||Paired t-test|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.05
92159627|NCT00672256|184206989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.104|||<|0.05||95.0|||||Paired t-test|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.05
92159628|NCT00672256|184206990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|||<|0.05||95.0|||||Paired t-test|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.05
92159629|NCT00672256|184206991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|||<|0.05||95.0|||||Paired t-test|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.05
92159630|NCT01124162|184207017|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|108.14|||||TWO_SIDED|90.0|97.43|120.03|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||120.03|97.43|
92400152|NCT02670811|184691866|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The primary outcome, systolic blood pressure (mmHg), was analyzed using a paired student t test.|t-test, 2 sided|||||||<0.05
92348444|NCT04919161|184600064|SUPERIORITY||||||=|0.9568||||||Prior to analysis, the score change between post assessment and pre-assessment was calculated. The threshold for significance was p\<0.05.|t-test, 2 sided|An unpaired T-test was used. Normality and F-test for Variances were conducted and found to be normal.||Null hypothesis is that there are no differences between groups. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||=0.9568
92348445|NCT04919161|184600065|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Kruskal-Wallis|Due to the pairwise nature and abnormal distribution of the pre- and post-scores, a Kruskal Wallis test was completed.||Null Hypothesis, there would be no difference between the pre-score and post-score of each treatment group. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||<0.0001
92159631|NCT01124162|184207018|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|101.7|||||TWO_SIDED|90.0|98.57|104.93|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.93|98.57|
92159632|NCT01124162|184207019|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|101.5|||||TWO_SIDED|90.0|98.41|104.68|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.68|98.41|
92159633|NCT01124162|184207020|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|102.08|||||TWO_SIDED|90.0|98.24|106.06|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||106.06|98.24|
92159634|NCT01124162|184207021|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|100.31|||||TWO_SIDED|90.0|97.84|102.84|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.84|97.84|
92159635|NCT01124162|184207022|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|100.25|||||TWO_SIDED|90.0|97.87|102.69|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.69|97.87|
92159636|NCT02534896|184207045|SUPERIORITY|||||||0.018|||||||Hochberg and Gatekeeping|||||||0.018
92159637|NCT02534896|184207045|SUPERIORITY|||||||0.007|||||||Hochberg and Gatekeeping|||||||0.007
92159638|NCT02534896|184207046|SUPERIORITY|||||||0.028|||||||Hochberg and Gatekeeping|||||||0.028
92159639|NCT02534896|184207046|SUPERIORITY|||||||0.003|||||||Hochberg and Gatekeeping|||||||0.003
92159640|NCT02534896|184207047|SUPERIORITY|||||||0.96|||||||Hochberg and Gatekeeping|||||||0.960
92159641|NCT02534896|184207047|SUPERIORITY|||||||0.339|||||||Hochberg and Gatekeeping|||||||0.339
92159642|NCT02534896|184207048|SUPERIORITY|||||||0.573|||||||Hochberg and Gatekeeping|||||||0.573
92159643|NCT02534896|184207048|SUPERIORITY|||||||0.374|||||||Hochberg and Gatekeeping|||||||0.374
92159644|NCT05349084|184207080|EQUIVALENCE|A Fisher's exact test was performed to determine the association between coronary artery stenosis and PET myocardial blood flow (MBF) values during stress. The following myocardial segments were analyzed: left anterior descending (LAD), left circumflex (LCx), and right coronary artery (RCA). Coronary arteries were categorized as coronary arteries with a diameter stenosis ≥50% or \<50%. The MBF values during stress were categorized as normal or abnormal. Normal MBF is defined as \>1.8 mL/g/min.||||||0.2522||||||The threshold for statistical significance was p = 0.05.|Fisher Exact|||||||0.2522
92159645|NCT05349084|184207081|OTHER|A Pearson's Correlation test was performed between PET MFR during stress and CT-FFR by territory.||||||0.028||||||The threshold for statistical significance was p = 0.05.|Pearson's correlation test|A Pearson's Correlation test was performed between PET MFR during stress and CT-FFR by territory.||||||0.028
92159646|NCT01579578|184207087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|12.23||0.688|TWO_SIDED|95.0|-30.81|20.81||two sided p value|ANCOVA|ANCOVA model including covariates for baseline tumour size, for the time from the baseline scan to randomisation and with a term for HER2 status.|the difference in LS means is estimated|60 patients had been considered to detect a -20% difference in the estimated average percentage change in tumour size at 8 weeks for AZD8931 plus paclitaxel compared to paclitaxel alone at a one-sided significance level of 10% with 90% power. This is based on a standard deviation of 30% for tumour data (on an absolute scale)||20.81|-30.81|0.688
92159647|NCT03688542|184207090|SUPERIORITY||Slope|-1.4|||<|0.05|TWO_SIDED|95.0|-3.8|1.0|||Regression, Linear|Dependant variable = follow-up value; adjusted for baseline value, canton, avg number of residents, mission||||1.0|-3.8|<0.05
92159648|NCT03688542|184207091|SUPERIORITY||Slope|-0.18|||<|0.05|TWO_SIDED|95.0|-0.39|0.03|||Regression, Linear|Dependant variable = number of PIM DDD at follow-up, adjusted for baseline value, canton, avg number of residents, mission||||0.03|-0.39|<0.05
92159649|NCT03688542|184207092|SUPERIORITY||Slope|-0.035|||<|0.05|TWO_SIDED|95.0|-0.095|0.025|||Regression, Linear|Dependant variable = number of PIM DDD at follow-up, adjusted for baseline value, canton, avg number of residents, mission||||0.025|-0.095|<0.05
92159650|NCT03688542|184207093|SUPERIORITY||Slope|-0.237|||<|0.05|TWO_SIDED|95.0|-0.435|-0.04|||Regression, Linear|Dependant variable = number of PIM DDD at follow-up, adjusted for baseline value, canton, avg number of residents, mission||||-0.040|-0.435|<0.05
92348446|NCT04919161|184600065|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||<0.0001
92159651|NCT03688542|184207094|SUPERIORITY||Slope|1.55|||<|0.05|TWO_SIDED|95.0|0.164|2.938|||Regression, Linear|Dependent variable = follow-up value, adjusted for baseline value, canton, avg number of residents, interaction between mission and group.||||2.938|0.164|<0.05
92159652|NCT03688542|184207095|SUPERIORITY||Slope|-12.7|||<|0.05|TWO_SIDED|95.0|-21.5|-4.0|||Regression, Linear|Dependent variable = follow-up value, adjusted for baseline value, canton, avg number of residents, interaction between mission and group.||||-4.0|-21.5|<0.05
92159653|NCT03688542|184207096|SUPERIORITY||Slope|-0.165|||<|0.05|TWO_SIDED|95.0|-0.754|0.424|||Regression, Linear|Dependent variable = follow-up value, adjusted for baseline value, canton, avg number of residents||||0.424|-0.754|<0.05
92159654|NCT03688542|184207097|SUPERIORITY||Slope|-4.2|||<|0.05|TWO_SIDED|95.0|-16.0|7.6|||Regression, Linear|Dependent variable = follow-up value, adjusted for baseline value, canton, avg number of residents||||7.6|-16.0|<0.05
92159655|NCT02341534|184207105|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.21|TWO_SIDED|95.0|0.64|1.1|||Log Rank|||||1.10|0.64|0.21
92159656|NCT01112735|184207159|SUPERIORITY|||||||0.5621|||||||Wilcoxon (Mann-Whitney)|||||||0.5621
92159657|NCT01112735|184207160|SUPERIORITY|||||||0.3595|||||||Wilcoxon (Mann-Whitney)|||||||0.3595
92159658|NCT01112735|184207161|SUPERIORITY|||||||0.9417|||||||Wilcoxon (Mann-Whitney)|||Day 3||||0.9417
92159659|NCT01112735|184207161|SUPERIORITY|||||||0.5488|||||||Wilcoxon (Mann-Whitney)|||Day 7||||0.5488
92159660|NCT01112735|184207161|SUPERIORITY|||||||0.7107|||||||Wilcoxon (Mann-Whitney)|||Day 14||||0.7107
92159661|NCT01112735|184207161|SUPERIORITY|||||||0.8809|||||||Wilcoxon (Mann-Whitney)|||Day 28||||0.8809
92159662|NCT01112735|184207161|SUPERIORITY|||||||0.4598|||||||Wilcoxon (Mann-Whitney)|||Day 60||||0.4598
92159663|NCT01112735|184207161|SUPERIORITY|||||||0.3837|||||||Wilcoxon (Mann-Whitney)|||Day 90||||0.3837
92159664|NCT01112735|184207162|SUPERIORITY|||||||0.9699|||||||Wilcoxon (Mann-Whitney)|||Day 3||||0.9699
92159665|NCT01112735|184207162|SUPERIORITY|||||||0.4709|||||||Wilcoxon (Mann-Whitney)|||Day 7||||0.4709
92159666|NCT01112735|184207162|SUPERIORITY|||||||0.1406|||||||Wilcoxon (Mann-Whitney)|||Day 14||||0.1406
92159667|NCT01112735|184207162|SUPERIORITY|||||||0.4291|||||||Wilcoxon (Mann-Whitney)|||Day 28||||0.4291
92159668|NCT01112735|184207162|SUPERIORITY|||||||0.2704|||||||Wilcoxon (Mann-Whitney)|||Day 60||||0.2704
92159669|NCT01112735|184207162|SUPERIORITY|||||||0.7564|||||||Wilcoxon (Mann-Whitney)|||Day 90||||0.7564
92159670|NCT02783950|184207184|SUPERIORITY|||||||0.27|||||||Chi-squared|||||||0.27
92159671|NCT02783950|184207185|SUPERIORITY|||||||0.7|||||||Wilcoxon Rank Test p-value|||||||0.70
92159672|NCT02584790|184207369|OTHER|||||||0.004|||||||Chi-squared|||2x2 table of: Row: 1. NBI suspicious pattern 2. NBI non-suspicious pattern Category: 1. with residual disease 2. without residual disease||||0.004
92159673|NCT00810303|184207406|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe alone and free ezetimibe with single dose treatment of efavirenz.||||<0.05
92159674|NCT00810303|184207407|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe alone and free ezetimibe with single dose treatment of efavirenz.||||<0.05
92159675|NCT00810303|184207409|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz without chronic treatment of ezetimibe.||||<0.05
92159676|NCT00810303|184207410|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz with chronic treatment of ezetimibe.||||<0.05
92159677|NCT00810303|184207411|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz without chronic treatment of ezetimibe.||||<0.05
92159678|NCT00810303|184207411|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz with chronic treatment of ezetimibe.||||<0.05
92159679|NCT00810303|184207412|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz without chronic treatment of ezetimibe.||||<0.05
92159680|NCT00810303|184207413|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetics of efavirenz with chronic treatment of ezetimibe.||||<0.05
92159681|NCT00810303|184207414|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz without chronic treatment of ezetimibe.||||<0.05
92159682|NCT00810303|184207414|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetics of efavirenz with chronic treatment of ezetimibe.||||<0.05
92159683|NCT00810303|184207415|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe alone and free ezetimibe with single dose treatment of efavirenz.||||<0.05
92159684|NCT00810303|184207415|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe alone.||||<0.05
92159685|NCT00810303|184207416|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe alone and free ezetimibe with single dose treatment of efavirenz.||||<0.05
92159686|NCT00810303|184207416|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe with single dose treatment of efavirenz.||||<0.05
92159687|NCT00810303|184207417|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe alone.||||<0.05
92159688|NCT00810303|184207417|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe with single dose treatment of efavirenz.||||<0.05
92348447|NCT04919161|184600065|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||<0.0001
92348448|NCT04919161|184600065|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||>0.9999
92159689|NCT00810303|184207418|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe alone.||||<0.05
92159690|NCT00810303|184207419|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe with single dose treatment of efavirenz.||||<0.05
92159691|NCT00810303|184207420|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe alone.||||<0.05
92159692|NCT00810303|184207420|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe with single dose treatment of efavirenz.||||<0.05
92159693|NCT01720043|184207421|SUPERIORITY|||||||0.181|||||||t-test, 2 sided|||Collagen.5.g.ml, 24 hrs||||0.181
92159694|NCT01720043|184207421|SUPERIORITY|||||||0.164|||||||t-test, 2 sided|||Collagen.2.g.ml||||.164
92159695|NCT01720043|184207421|SUPERIORITY|||||||0.132|||||||t-test, 2 sided|||ADP.10.M, 24 hrs||||.132
92159696|NCT01720043|184207421|SUPERIORITY|||||||0.066|||||||t-test, 2 sided|||ADP.5.M||||.066
92159697|NCT01720043|184207421|SUPERIORITY|||||||0.268|||||||t-test, 2 sided|||ADP.3.M, 24 hrs||||0.268
92159698|NCT01720043|184207421|SUPERIORITY|||||||0.106|||||||t-test, 2 sided|||Arach.Acid.0.5.mg.ml||||0.106
92159699|NCT01720043|184207421|SUPERIORITY|||||||0.625|||||||t-test, 2 sided|||Ristocetin.1.5.mg.ml||||0.625
92159700|NCT01720043|184207421|SUPERIORITY|||||||0.381|||||||t-test, 2 sided|||Ristocetin.0.5.mg.ml||||0.381
92159701|NCT01720043|184207421|SUPERIORITY|||||||0.549|||||||t-test, 2 sided|||Collagen.5.g.ml, 48 hrs||||0.549
92159702|NCT01720043|184207421|SUPERIORITY|||||||0.838|||||||t-test, 2 sided|||Collagen.2.g.ml, 48 hrs||||.838
92159703|NCT01720043|184207421|SUPERIORITY|||||||0.245|||||||t-test, 2 sided|||ADP.10.M||||0.245
92159704|NCT01720043|184207421|SUPERIORITY|||||||0.417|||||||t-test, 2 sided|||ADP.5.M||||0.417
92159705|NCT01720043|184207421|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||ADP.3.M, 48 hrs||||0.770
92159706|NCT01720043|184207421|SUPERIORITY|||||||0.614|||||||t-test, 2 sided|||Arach.Acid.0.5.mg.ml, 48 hrs||||0.614
92159707|NCT01720043|184207421|SUPERIORITY|||||||0.969|||||||t-test, 2 sided|||Ristochetin.1.5.mg.ml||||0.969
92159708|NCT01720043|184207421|SUPERIORITY|||||||0.238|||||||t-test, 2 sided|||Ristocetin.0.5.mg.ml, 48 hrs||||0.238
92159709|NCT02796092|184207457|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Assuming that both methods were equally effective, we did not use this primary outcome to calculate sample size. It was determined using our own retrospective data of patients from the year 2013, comparing the means of the procedure total time with both methods (41.20±4.66 vs 34.99±4.43 minutes). Ten patients in each group were considered enough to detect the above-mentioned differences with a α-error of 0.05 and 80% power, using a two-sided test.||||>0.999
92159710|NCT02796092|184207458|SUPERIORITY_OR_OTHER|||||||0.3|||||||Fisher Exact|||||||0.3
92159711|NCT02796092|184207459|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92159712|NCT02796092|184207460|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92159713|NCT02796092|184207461|SUPERIORITY_OR_OTHER|||||||0.061|||||||Wilcoxon (Mann-Whitney)|||||||0.061
92159714|NCT02796092|184207462|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92159715|NCT02796092|184207463|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92159716|NCT02796092|184207464|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159717|NCT02796092|184207465|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92159718|NCT02796092|184207466|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92159719|NCT02796092|184207467|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92159720|NCT02796092|184207468|SUPERIORITY_OR_OTHER|||||||0.0499|||||||Chi-squared|||||||0.0499
92159721|NCT02796092|184207470|SUPERIORITY_OR_OTHER|||||||0.095|||||||Fisher Exact|||||||0.095
92159722|NCT03710564|184207471|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.76||0.4537|TWO_SIDED|95.0|-2.1|0.9|||Pairwise ANOVA|||||0.9|-2.1|0.4537
92159723|NCT00293462|184207488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09||95.0|||||Fisher Exact|Two by two table was used. One cell had expected frequency test less than five, so Fisher's exact two-tailed test was used.||Fisher's exact two tailed test||||0.09
92159724|NCT00293462|184207489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92|TWO_SIDED|95.0|||||Mantel Haenszel|Log rank, Breslow, Tarone-Ware test, but used mantel cox log rank for this analysis||Kaplan-Meier estimate of the survival curves used information from subjects who develop mucositis to the healing of the mucositis in three groups, Group GG, SS, and SG. In order to compare the three curves that were created, the Mantel-Haenszel log-rank statistic was used||||0.92
92159725|NCT00293462|184207490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28||95.0||||0.28 (quadratic)|Mixed Models Analysis|Restricted Maximum Likelihood Methods with random intercepts was the only model used for the three groups and seven measurement time points.||Multilevel regression was used.||||0.28
92159726|NCT00293462|184207491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78||95.0||||0.78 (quadratic)|Mixed Models Analysis|Restricted Maximum Likelihood Methods with random intercepts was the only model used for the three groups and seven measurement time points.||||||0.78
92159727|NCT00293462|184207492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||95.0||||0.22 (quadratic)|Mixed Models Analysis|Restricted Maximum Likelihood Methods with random intercepts was the only model used for the three groups and seven measurement time points.||||||0.22
92218885|NCT01431274|184338471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.041|STANDARD_ERROR_OF_MEAN|0.025||0.1042|TWO_SIDED|95.0|-0.008|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.090|-0.008|0.1042
92218886|NCT01431274|184338471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.025||0.0097|TWO_SIDED|95.0|0.016|0.114||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.114|0.016|0.0097
92218887|NCT01431274|184338471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.112|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.063|0.161||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.161|0.063|<0.0001
92218888|NCT01431274|184338471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.025||0.012|TWO_SIDED|95.0|0.014|0.112||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.112|0.014|0.0120
92218889|NCT01431274|184338471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.056|STANDARD_ERROR_OF_MEAN|0.025||0.025|TWO_SIDED|95.0|0.007|0.105||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.105|0.007|0.0250
92218890|NCT01431274|184338471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.007|STANDARD_ERROR_OF_MEAN|0.025||0.7889|TWO_SIDED|95.0|-0.042|0.056||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.056|-0.042|0.7889
92218891|NCT01431274|184338472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.187|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.138|0.237||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.237|0.138|<0.0001
92218892|NCT01431274|184338472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.121|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.072|0.17||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.170|0.072|<0.0001
92218893|NCT01431274|184338472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.153|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.103|0.202||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.202|0.103|<0.0001
92275539|NCT01335464|184453451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|125.26|STANDARD_ERROR_OF_MEAN|24.209|<|0.0001|TWO_SIDED|95.0|77.68|172.84||The objective of this trial was to assess the superiority of nintedanib 150 mg bid compared to placebo on the annual rate of decline in FVC.|Random coefficient regression|The Roger-Kenward approximation was used to estimate denominators degrees of freedom.|"Within-patient errors are modelled by an Unstructured variance-covariance matrix.~Inter-individual variability is modelled by a Variance-components variance-covariance matrix~Nintedanib 150 mg bid versus Placebo"|"Random coefficient regression with fixed effects for treatment, gender, age, height and random effect of patient specific intercept and time.~A hierarchical procedure was used in order to demonstrate the superiority of nintedanib over placebo for one primary and two key secondary endpoints.~The consecutive steps of the hierarchy were only considered if the previous step was significant at the one-sided 2.5% level and the results were in favour of nintedanib."||172.84|77.68|<0.0001
92400153|NCT02670811|184691867|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The secondary outcome, diastolic blood pressure (mmHg), between groups was analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
92218894|NCT01431274|184338472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.062|STANDARD_ERROR_OF_MEAN|0.025||0.0134|TWO_SIDED|95.0|0.013|0.111||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.111|0.013|0.0134
92218895|NCT01431274|184338472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.086|STANDARD_ERROR_OF_MEAN|0.025||0.0006|TWO_SIDED|95.0|0.037|0.136||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.136|0.037|0.0006
92218896|NCT01431274|184338472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.035|STANDARD_ERROR_OF_MEAN|0.025||0.167|TWO_SIDED|95.0|-0.015|0.084||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.084|-0.015|0.1670
92218897|NCT01431274|184338472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.097|STANDARD_ERROR_OF_MEAN|0.025||0.0001|TWO_SIDED|95.0|0.048|0.146||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.146|0.048|0.0001
92348449|NCT04919161|184600065|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||>0.9999
92369407|NCT02993822|184643603|SUPERIORITY|||||||0.054|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.054
92159728|NCT00372060|184207493|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.1|<|0.001||95.0|-1.0|-0.6|||ANCOVA|Model terms: treatment, prior oral anti-hyperglycemic medication (except for pioglitazone), and baseline HbA1c.||||-0.6|-1.0|<0.001
92159729|NCT00372060|184207494|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|3.39|<|0.001||95.0|-23.4|-10.0|||ANCOVA|Model terms: treatment, prior oral anti-hyperglycemic medication (except for pioglitazone), and baseline fasting plasma glucose.||||-10.0|-23.4|<0.001
92159730|NCT00372060|184207495|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-49.2|STANDARD_ERROR_OF_MEAN|7.7|<|0.001||95.0|-64.5|-33.9|||ANCOVA|Model terms: treatment, prior oral anti-hyperglycemic medication (except for pioglitazone), and baseline 2-hour postprandial glucose.||||-33.9|-64.5|<0.001
92159731|NCT00647348|184207497|OTHER|intention-to-treat analysis||||||0.003|||||||BBSI=brain boundary shift integral|||||||0.003
92159732|NCT00647348|184207498|SUPERIORITY|||||||0.05||||||EDSS,mean score at 24 months was compared between treatment groups using an ANCOVA model adjusting for baseline score and minimisation variables.|ANCOVA|EDSS,mean score at 24 months was compared between treatment groups using an ANCOVA model adjusting for baseline score and minimisation variables.||||||0.05
92159733|NCT01119703|184207527|SUPERIORITY_OR_OTHER||Coefficient of Determination %|-9.1|||||TWO_SIDED|95.0|-13.8|-0.7|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all baseline biomarkers as predictors.||-0.7|-13.8|
92159734|NCT01119703|184207528|SUPERIORITY_OR_OTHER||Coefficient of Determination %|17.6|||||TWO_SIDED|95.0|10.6|20.9|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all baseline biomarkers as predictors.||20.9|10.6|
92159735|NCT01119703|184207529|SUPERIORITY_OR_OTHER||Coefficient of Determination %|27.8|||||TWO_SIDED|95.0|19.6|32.4|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all baseline biomarkers as predictors.||32.4|19.6|
92159736|NCT01119703|184207530|SUPERIORITY_OR_OTHER||Coefficient of Determination %|3.3||||||95.0|-2.8|8.5|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all baseline biomarkers as predictors.||8.5|-2.8|
92159737|NCT01119703|184207531|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|-0.04||||0.66|TWO_SIDED|95.0|-0.2|0.13|||Fisher's Z-transformation||Within-participant rank correlation|Diphtheria versus Hepatitis B||0.13|-0.2|0.66
92159738|NCT01119703|184207531|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|0.1||||0.26|TWO_SIDED|95.0|-0.07|0.25|||Fisher's Z-transformation||Within-participant rank correlation|Diphtheria versus Cholera||0.25|-0.07|0.26
92159739|NCT01119703|184207531|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|0.4|||<|0.001|TWO_SIDED|95.0|0.26|0.53|||Fisher's Z-transformation||Within-participant rank correlation|Diphtheria versus Tetanus||0.53|0.26|<0.001
92159740|NCT01119703|184207531|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|-0.17||||0.04|TWO_SIDED|95.0|-0.32|-0.01|||Fisher's Z-transformation||Within-participant rank correlation|Hepatitis B versus Cholera||-0.01|-0.32|0.04
92159741|NCT01119703|184207531|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|-0.09||||0.3|TWO_SIDED|95.0|-0.25|0.08|||Fisher's Z-transformation||Within-participant rank correlation|Hepatitis B versus Tetanus||0.08|-0.25|0.30
92159742|NCT01119703|184207531|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|0.08||||0.36|TWO_SIDED|95.0|-0.09|0.24|||Fisher's Z-transformation||Within-participant rank correlation|Cholera versus Tetanus||0.24|-0.09|0.36
92159743|NCT01119703|184207532|SUPERIORITY_OR_OTHER||Coefficient of Determination %|-9.5|||||TWO_SIDED|95.0|-16.6|-2.7|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all Day 7 biomarkers as predictors.||-2.7|-16.6|
92348450|NCT04919161|184600066|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Kruskal-Wallis|Due to missing measurements and the pairwise nature of the pre- and post-scores, a Kruskal Wallis test was completed.||Null hypothesis is that there are no differences between groups. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||<0.0001
92159744|NCT01119703|184207533|SUPERIORITY_OR_OTHER||Coefficient of Determination %|23.7|||||TWO_SIDED|95.0|14.0|29.7|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all Day 7 biomarkers as predictors.||29.7|14.0|
92159745|NCT01119703|184207534|SUPERIORITY_OR_OTHER||Coefficient of Determination %|36.7|||||TWO_SIDED|95.0|28.7|41.5|||||Crossvalidated;negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all Day 7 biomarkers as predictors.||41.5|28.7|
92159746|NCT01119703|184207535|SUPERIORITY_OR_OTHER||Coefficient of Determination %|-2.2|||||TWO_SIDED|95.0|-7.8|4.4|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all Day 7 biomarkers as predictors.||4.4|-7.8|
92159747|NCT04668144|184207550|NON_INFERIORITY|Under the assumption of 0 difference in mean PRU between groups and a common standard deviation of 50 PRU, a sample size of 22 patients per group would allow for the 95%CI to stay within ± 45 PRU with a 90% power and alpha=0.05. In line with previously reported investigations, 45 PRU was chosen for the noninferiority margin for the upper 95%CI limit of the difference.|Mean Difference (Final Values)|130.0|||||TWO_SIDED|95.0|85.0|176.0||p-value was not calculated for noninferiority analysis|ANCOVA|||The primary hypothesis of our study was that in patients receiving concomitant administration of cangrelor and prasugrel (experimental arm), platelet inhibition as assessed by PRU would be noninferior to patients receiving prasugrel only (active control)||176|85|
92159748|NCT03441984|184207553|OTHER||Ratio of geometric LS means|1.6946|||||TWO_SIDED|90.0|1.569|1.8373|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented|||1.8373|1.5690|
92159749|NCT03441984|184207553|OTHER||Ratio of geometric LS means|1.3512|||||TWO_SIDED|90.0|1.2465|1.4647|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.4647|1.2465|
92159750|NCT03441984|184207553|OTHER||Ratio of geometric LS means|1.2541|||||TWO_SIDED|90.0|1.1569|1.3595|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented|||1.3595|1.1569|
92159751|NCT03441984|184207554|OTHER||Ratio of geometric LS means|1.7001|||||TWO_SIDED|90.0|1.5685|1.8428|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.8428|1.5685|
92159752|NCT03441984|184207554|OTHER||Ratio of geometric LS means|1.3519|||||TWO_SIDED|90.0|1.2475|1.465|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.4650|1.2475|
92159753|NCT03441984|184207554|OTHER||Ratio of geometric LS means|1.2576|||||TWO_SIDED|90.0|1.1605|1.3629|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.3629|1.1605|
92159754|NCT03441984|184207555|OTHER||Ratio of geometric LS means|1.7382|||||TWO_SIDED|90.0|1.5983|1.8904|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.8904|1.5983|
92348451|NCT04919161|184600066|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Dunn's Multiple Comparison Test|||||||<0.0001
92348452|NCT04919161|184600066|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Dunn's Multiple Comparison Test|||||||<0.0001
92348453|NCT04919161|184600066|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Dunn's Multiple Comparison Test|||||||>0.9999
92348454|NCT04919161|184600066|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Dunn's Multiple Comparison Test|||||||>0.9999
92159755|NCT03441984|184207555|OTHER||Ratio of geometric LS means|1.3614|||||TWO_SIDED|90.0|1.2525|1.4798|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.4798|1.2525|
92159756|NCT03441984|184207555|OTHER||Ratio of geometric LS means|1.2768|||||TWO_SIDED|90.0|1.1746|1.3878|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.3878|1.1746|
92159757|NCT03441984|184207556|OTHER||Ratio of geometric LS means|1.0407|||||TWO_SIDED|90.0|1.0118|1.0704|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0704|1.0118|
92159758|NCT03441984|184207556|OTHER||Ratio of geometric LS means|1.0228|||||TWO_SIDED|90.0|0.9944|1.052|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0520|0.9944|
92369408|NCT01939977|184643620|SUPERIORITY|||||||0.0083|||||||Chi-squared|||"Taking per protocol population, the percentage of patients with iPTH\> 110 pg / ml at 6 months post-transplant treated with Paricalcitol was statistically lower than in patients treated with Calcifediol"||||0.0083
92348455|NCT04919161|184600067|SUPERIORITY||||||<|0.0001||||||The threshold for statistical significance was p\<0.05.|Kruskal-Wallis|Due to the missing measurement and the pairwise nature of the perturbation levels between participants, a Kruskal Wallis test was completed.||Null hypothesis is there are no differences between groups. Prior to hypothesis testing, normality testing was conducted using a Shapiro-Wild test to inform if parametric or non-parametric testing was required.||||<0.0001
92348456|NCT04919161|184600067|SUPERIORITY||||||>|0.9999||||||Reported p-value is adjusted for multiple comparisons. The a priori threshold for statistical significance was established as p\<0.05.|Dunn's Multiple Comparison Test|||Null hypothesis for any comparisons would be that there is no significant mean perturbation level between sessions.|The p-value reported above was the result for 15 comparisons of the recorded perturbation levels in sessions: 1 vs 2, 2 vs 3, 3 vs 4, 3 vs 5, 3 vs 6, 4 vs 5, 4 vs 6, 4 vs 7, 4 vs 8, 5 vs 6, 5 vs 7, 5 vs 8, 6 vs 7, 6 vs 8, and 7 vs 8.|||>0.9999
92348457|NCT04919161|184600067|SUPERIORITY||||||=|0.0629|||||||Dunn's Multiple Comparison Test|||||||=0.0629
92348458|NCT04919161|184600067|SUPERIORITY||||||=|0.0069|||||||Dunn's Multiple Comparison Test|||||||=0.0069
92348459|NCT04919161|184600067|SUPERIORITY||||||=|0.0003|||||||Dunn's Multiple Comparison Test|||||||=0.0003
92348460|NCT04919161|184600067|SUPERIORITY||||||<|0.0001|||||||Dunn's Multiple Comparison Test|||||||<0.0001
92348461|NCT04919161|184600067|SUPERIORITY||||||<|0.0001|||||||Dunn's Multiple Comparison Test|||||||<0.0001
92348462|NCT04919161|184600067|SUPERIORITY||||||<|0.0001|||||||Dunn's Multiple Comparison Test|||||||<0.0001
92348463|NCT04919161|184600067|SUPERIORITY||||||=|0.6497|||||||Dunn's Multiple Comparison Test|||||||=0.6497
92159759|NCT03441984|184207556|OTHER||Ratio of geometric LS means|1.0175|||||TWO_SIDED|90.0|0.9893|1.0465|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.0465|0.9893|
92159760|NCT03441984|184207557|OTHER||Ratio of geometric LS means|1.041|||||TWO_SIDED|90.0|1.0121|1.0708|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0708|1.0121|
92159761|NCT03441984|184207557|OTHER||Ratio of geometric LS means|1.0232|||||TWO_SIDED|90.0|0.9948|1.0524|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0524|0.9948|
92159762|NCT03441984|184207557|OTHER||Ratio of geometric LS means|1.0174|||||TWO_SIDED|90.0|0.9892|1.0465|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.0465|0.9892|
92159763|NCT03441984|184207558|OTHER||Ratio of geometric LS means|1.0533|||||TWO_SIDED|90.0|0.9885|1.1223|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.1223|0.9885|
92159764|NCT03441984|184207558|OTHER||Ratio of geometric LS means|0.9766|||||TWO_SIDED|90.0|0.9167|1.0405|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0405|0.9167|
92348464|NCT04919161|184600067|SUPERIORITY||||||=|0.0743|||||||Dunn's Multiple Comparison Test|||||||=0.0743
92348465|NCT04919161|184600067|SUPERIORITY||||||=|0.0198|||||||Dunn's Multiple Comparison Test|||||||=0.0198
92348466|NCT04919161|184600067|SUPERIORITY||||||=|0.0017|||||||Dunn's Multiple Comparison Test|||||||=0.0017
92348467|NCT04919161|184600067|SUPERIORITY||||||=|0.0006|||||||Dunn's Multiple Comparison Test|||||||=0.0006
92348468|NCT04919161|184600067|SUPERIORITY||||||=|0.5297|||||||Dunn's Multiple Comparison Test|||||||=0.5297
92348469|NCT04919161|184600067|SUPERIORITY||||||=|0.2595|||||||Dunn's Multiple Comparison Test|||||||=0.2595
92348470|NCT04919161|184600068|OTHER|This is a descriptive analysis.|Odds Ratio (OR)|2.6|||=|0.3898|TWO_SIDED|95.0|0.4671|15.3||Threshold for statistical significance was p\<0.05|Fisher Exact|||Null hypothesis was that there would be no difference in the proportion of males and females between treatment arms.||15.300|0.4671|=0.3898
92348471|NCT02239328|184600069|OTHER|Multilevel random coefficient models estimated the mean score of each PROMIS domain as a function of time elapsed between date of surgery and assessment (in years), and patient comorbidity. Statistical significance of estimated fixed effects were assessed by the F-test statistic for type 3 tests, p \< 0.05.|||||<|0.05|||||||ANOVA|||||||<0.05
92348472|NCT01932606|184600091|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||ANCOVA|||||||0.0003
92348473|NCT01932606|184600092|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in right atrial pressure.||||0.0003
92348474|NCT01932606|184600092|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in pulmonary artery systolic pressure.||||0.01
92348475|NCT01932606|184600092|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in mean pulmonary artery pressure.||||0.002
92348476|NCT01932606|184600092|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Comparison between the 2 arms for change in PCWP.||||<0.0001
92348477|NCT01932606|184600093|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||t-test, 2 sided|||||||0.15
92348478|NCT01932606|184600094|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in systolic blood pressure.||||0.11
92348479|NCT01932606|184600094|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in mean blood pressure.||||0.2
92348480|NCT01932606|184600095|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in PVR.||||0.7
92348481|NCT01932606|184600096|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in pulmonary artery compliance.||||0.1
92348482|NCT01932606|184600097|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in SVR.||||0.3
92348483|NCT01932606|184600098|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in LVSW.||||0.3
92348484|NCT01932606|184600099|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in VO\_2.||||0.8
92348485|NCT01932606|184600100|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for arteriovenous oxygen content difference.||||0.1
92348486|NCT01932606|184600101|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in cardiac output.||||0.4
92348487|NCT01932606|184600102|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in stroke volume.||||0.4
92218898|NCT01431274|184338472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.066|STANDARD_ERROR_OF_MEAN|0.025||0.0085|TWO_SIDED|95.0|0.017|0.115||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.115|0.017|0.0085
92218899|NCT01431274|184338472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.025||0.0003|TWO_SIDED|95.0|0.041|0.14||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.140|0.041|0.0003
92218900|NCT01431274|184338472|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.024|STANDARD_ERROR_OF_MEAN|0.025||0.3332|TWO_SIDED|95.0|-0.074|0.025||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.025|-0.074|0.3332
92218901|NCT01431274|184338473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.153|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.105|0.201||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.201|0.105|<0.0001
92218902|NCT01431274|184338473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.077|STANDARD_ERROR_OF_MEAN|0.024||0.0016|TWO_SIDED|95.0|0.029|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.125|0.029|0.0016
92218903|NCT01431274|184338473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.084|0.18||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.180|0.084|<0.0001
92348488|NCT01932606|184600103|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in right atrial pressure (exercise).||||0.0002
92348489|NCT01932606|184600103|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in pulmonary artery systolic pressure (exercise).||||0.01
92218904|NCT01431274|184338473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.041|STANDARD_ERROR_OF_MEAN|0.024||0.0926|TWO_SIDED|95.0|-0.007|0.089||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.089|-0.007|0.0926
92218905|NCT01431274|184338473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.055|STANDARD_ERROR_OF_MEAN|0.024||0.0231|TWO_SIDED|95.0|0.008|0.103||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.103|0.008|0.0231
92348490|NCT01932606|184600103|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in mean pulmonary artery pressure (exercise).||||0.0002
92348491|NCT01932606|184600103|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in PCWP (exercise).||||0.0002
92348492|NCT01932606|184600104|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in heart rate.||||0.3
92348493|NCT01932606|184600105|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in systolic blood pressure.||||0.2
92348494|NCT01932606|184600105|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in diastolic blood pressure.||||0.05
92348495|NCT01932606|184600106|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in PVR after study drug (exercise)||||0.3
92348496|NCT01932606|184600107|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in PA compliance after study drug (exercise)||||0.3
92348497|NCT01932606|184600108|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in SVR after study drug (exercise).||||0.007
92348498|NCT01932606|184600109|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in LVSW after study drug (exercise)||||0.0003
92348499|NCT01932606|184600110|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in oxygen consumption (VO\_2) after study drug (exercise).||||0.02
92348500|NCT01932606|184600111|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in arteriovenous oxygen difference after study drug (exercise).||||0.6
92348501|NCT01932606|184600112|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in cardiac output after study drug (exercise).||||0.002
92348502|NCT01932606|184600113|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in stroke volume after study drug (exercise).||||0.0002
92159765|NCT03441984|184207558|OTHER||Ratio of geometric LS means|1.0785|||||TWO_SIDED|90.0|1.0123|1.149|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.1490|1.0123|
92159766|NCT03441984|184207559|OTHER||Ratio of geometric LS means|1.0|||||TWO_SIDED|90.0|0.9536|1.0486|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0486|0.9536|
92159767|NCT03441984|184207559|OTHER||Ratio of geometric LS means|0.9478|||||TWO_SIDED|90.0|0.9039|0.9939|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||0.9939|0.9039|
92159768|NCT03441984|184207559|OTHER||Ratio of geometric LS means|1.055|||||TWO_SIDED|90.0|1.0061|1.1063|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.1063|1.0061|
92159769|NCT03441984|184207560|OTHER||Ratio of geometric LS means|0.9994|||||TWO_SIDED|90.0|0.9525|1.0486|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0486|0.9525|
92159770|NCT03441984|184207560|OTHER||Ratio of geometric LS means|0.9432|||||TWO_SIDED|90.0|0.899|0.9896|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||0.9896|0.8990|
92159771|NCT03441984|184207560|OTHER||Ratio of geometric LS means|1.0596|||||TWO_SIDED|90.0|1.0099|1.1117|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.1117|1.0099|
92159772|NCT03441984|184207561|OTHER||Ratio of geometric LS means|0.9362|||||TWO_SIDED|90.0|0.8677|1.0101|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0101|0.8677|
92159773|NCT03441984|184207561|OTHER||Ratio of geometric LS means|0.9079|||||TWO_SIDED|90.0|0.8416|0.9795|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||0.9795|0.8416|
92159774|NCT03441984|184207561|OTHER||Ratio of geometric LS means|1.0312|||||TWO_SIDED|90.0|0.9558|1.1124|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.1124|0.9558|
92159775|NCT03441984|184207562|OTHER||Ratio of geometric LS means|1.6439|||||TWO_SIDED|90.0|1.4649|1.8449|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||1.8449|1.4649|
92159776|NCT03441984|184207562|OTHER||Ratio of geometric LS means|1.2698|||||TWO_SIDED|90.0|1.1315|1.425|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.4250|1.1315|
92159777|NCT03441984|184207562|OTHER||Ratio of geometric LS means|1.2946|||||TWO_SIDED|90.0|1.1536|1.4529|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.4529|1.1536|
92159778|NCT03441984|184207563|OTHER||Ratio of geometric LS means|1.6578|||||TWO_SIDED|90.0|1.4709|1.8685|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||1.8685|1.4709|
92218906|NCT01431274|184338473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.024||0.3802|TWO_SIDED|95.0|-0.026|0.069||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.069|-0.026|0.3802
92159779|NCT03441984|184207563|OTHER||Ratio of geometric LS means|1.2755|||||TWO_SIDED|90.0|1.1317|1.4375|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.4375|1.1317|
92159780|NCT03441984|184207563|OTHER||Ratio of geometric LS means|1.2998|||||TWO_SIDED|90.0|1.1533|1.465|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.4650|1.1533|
92159781|NCT03441984|184207564|OTHER||Ratio of geometric LS means|1.9758|||||TWO_SIDED|90.0|1.7585|2.2201|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||2.2201|1.7585|
92159782|NCT03441984|184207564|OTHER||Ratio of geometric LS means|1.2873|||||TWO_SIDED|90.0|1.1457|1.4465|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.4465|1.1457|
92159783|NCT03441984|184207564|OTHER||Ratio of geometric LS means|1.5348|||||TWO_SIDED|90.0|1.366|1.7245|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.7245|1.3660|
92159784|NCT03441984|184207565|OTHER||Ratio of geometric LS means|0.9798|||||TWO_SIDED|90.0|0.9241|1.0389|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||1.0389|0.9241|
92159785|NCT03441984|184207565|OTHER||Ratio of geometric LS means|0.9605|||||TWO_SIDED|90.0|0.9059|1.0185|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.0185|0.9059|
92348503|NCT00695019|184600310|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61||95.0|||||Chi-squared|||||||0.61
92159786|NCT03441984|184207565|OTHER||Ratio of geometric LS means|1.0201|||||TWO_SIDED|90.0|0.9633|1.0802|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.0802|0.9633|
92159787|NCT03441984|184207566|OTHER||Ratio of geometric LS means|0.9831|||||TWO_SIDED|90.0|0.9243|1.0457|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||1.0457|0.9243|
92400154|NCT02670811|184691868|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The secondary outcome, total cholesterol (mg/dL), between groups was analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
92159788|NCT03441984|184207566|OTHER||Ratio of geometric LS means|0.9702|||||TWO_SIDED|90.0|0.9121|1.032|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.0320|0.9121|
92159789|NCT03441984|184207566|OTHER||Ratio of geometric LS means|1.0134|||||TWO_SIDED|90.0|0.9527|1.0779|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.0779|0.9527|
92159790|NCT03441984|184207567|OTHER||Ratio of geometric LS means|0.91|||||TWO_SIDED|90.0|0.8196|1.0102|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||1.0102|0.8196|
92159791|NCT03441984|184207567|OTHER||Ratio of geometric LS means|0.9198|||||TWO_SIDED|90.0|0.8285|1.0212|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.0212|0.8285|
92218907|NCT01431274|184338473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.062|STANDARD_ERROR_OF_MEAN|0.024||0.0105|TWO_SIDED|95.0|0.015|0.11||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.110|0.015|0.0105
92348504|NCT00695019|184600311|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48||95.0|||||Chi-squared|||||||0.48
92348505|NCT00695019|184600312|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||95.0|||||Kruskal-Wallis|||||||0.77
92348506|NCT00695019|184600313|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3||95.0|||||Kruskal-Wallis|||||||0.30
92348507|NCT00695019|184600314|SUPERIORITY_OR_OTHER_LEGACY|||||||0.72||95.0|||||Chi-squared|||||||0.72
92348508|NCT00695019|184600315|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0023||95.0||||Analysis not adjusted to account for baseline differences between the groups.|Kruskal-Wallis|||||||0.0023
92348509|NCT00695019|184600316|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21||95.0|||||Kruskal-Wallis|||Fibrotest provides an estimate of liver fibrosis based on the values of 5 serum markers. Scores range from 0 to 1 with higher scores indicating a greater level of liver fibrosis. A negative change in Fibrotest score is therefore deemed to indicate improvement (reduction in fibrosis), while a positive change indicates worsening condition.||||0.21
92348510|NCT00695019|184600317|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||Chi-squared|||||||0.03
92348511|NCT00695019|184600317|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||Chi-squared|||||||0.005
92159792|NCT03441984|184207567|OTHER||Ratio of geometric LS means|0.9893|||||TWO_SIDED|90.0|0.8911|1.0983|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.0983|0.8911|
92159793|NCT03441984|184207573|OTHER||Ratio of geometric LS means|1.6503|||||TWO_SIDED|90.0|1.5131|1.8|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.8000|1.5131|
92159794|NCT03441984|184207573|OTHER||Ratio of geometric LS means|1.3501|||||TWO_SIDED|90.0|1.2381|1.4722|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.4722|1.2381|
92159795|NCT03441984|184207573|OTHER||Ratio of geometric LS means|1.2224|||||TWO_SIDED|90.0|1.121|1.333|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.3330|1.1210|
92218908|NCT01431274|184338473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.025||0.0018|TWO_SIDED|95.0|0.028|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.125|0.028|0.0018
92348512|NCT04063163|184600368|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.496|0.763|||Log Rank|||Defined as a period from randomization through death regardless of causality. Data of patients without a death record will be censored on the last known survival date. COX proportional risk model will be used to estimate HR and its 95% confidence interval (CI); the Kaplan-Meier method will be used to estimate the median, and the Kaplan-Meier curve will be plotted.||0.763|0.496|<0.001
92348513|NCT04063163|184600369|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.001|TWO_SIDED|95.0|0.381|0.576|||Log Rank|||||0.576|0.381|0.001
92348514|NCT05495997|184600372|SUPERIORITY|||||||0.015|||||||ANCOVA|||Mental Imagery Group (PD-MI) compared to Psychoeducation Control Group (PD-Con) at 6 weeks compared to baseline (group-by-time interaction)||||0.015
92348515|NCT05495997|184600373|SUPERIORITY|||||||0.993|||||||ANCOVA|||Mental Imagery Group (PD-MI) compared to Psychoeducation Control Group (PD-Con) at 18 weeks compared to baseline (group-by-time interaction)||||0.993
92348516|NCT05495997|184600374|SUPERIORITY|||||||0.517|||||||ANCOVA|||Mental Imagery Group (PD-MI) compared to Psychoeducation Control Group (PD-Con) at 6 weeks compared to baseline (group-by-time interaction)||||0.517
92348517|NCT05495997|184600375|SUPERIORITY|||||||0.817|||||||ANCOVA|||Mental Imagery Group (PD-MI) compared to Psychoeducation Control Group (PD-Con) at 18 weeks compared to baseline (group-by-time interaction)||||0.817
92348518|NCT04435626|184600422|SUPERIORITY||Rate ratio|0.84||||0.0072|TWO_SIDED|95.0|0.74|0.95||Two-sided p-value; p-value threshold =0.04967;|stratified Andersen-Gill model|stratified Andersen-Gill model with robust sandwich estimate for the covariance matrix of recurrent events|stratified Andersen-Gill model with robust sandwich estimate for the covariance matrix of recurrent events|Rate Ratio (Finerenone/Placebo)||0.95|0.74|0.0072
92369409|NCT03641716|184643642|OTHER||Mean Difference (Net)|3.67|STANDARD_DEVIATION|2.08|||TWO_SIDED|||||||||||||
92369410|NCT03641716|184643643|OTHER||Effect Size - Cohen's d|-0.01|||||TWO_SIDED|95.0|-0.66|0.65||||||Due to limited size of sub-sample, we calculated a Cohen's d effect size for raw total score on the PSI from baseline to the 3-month follow-up, with a 95% confidence interval.||.65|-.66|
92275540|NCT01335464|184453452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|1.248||0.9657|TWO_SIDED|95.0|-2.5|2.4|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix~Nintedanib 150 mg bid versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Total score, baseline SGRQ Total score-by-visit and random effect for patient.||2.40|-2.50|0.9657
92275541|NCT01335464|184453453|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.6728|TWO_SIDED|95.0|0.54|2.42|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard Ratio is based on a Cox´s regression model with terms for treatment, gender, age and height||2.42|0.54|0.6728
92275542|NCT01335464|184453454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|109.93|STANDARD_ERROR_OF_MEAN|19.708|<|0.0001|TWO_SIDED|95.0|71.27|148.59|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient.||148.59|71.27|<0.0001
92275543|NCT01335464|184453455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.02|STANDARD_ERROR_OF_MEAN|0.753|<|0.0001|TWO_SIDED|95.0|2.54|5.5|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient.||5.50|2.54|<0.0001
92275544|NCT01335464|184453456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.22|STANDARD_ERROR_OF_MEAN|0.564|<|0.0001|TWO_SIDED|95.0|2.11|4.33|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC \[%predicted\], baseline FVC \[%predicted\]-by-visit and random effect for patient.||4.33|2.11|<0.0001
92275545|NCT01335464|184453457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|0.753|<|0.0001|TWO_SIDED|95.0|2.52|5.48|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC \[%predicted\], baseline FVC \[%predicted\]-by-visit and random effect for patient.||5.48|2.52|<0.0001
92275546|NCT01335464|184453460|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.914||||0.0007|TWO_SIDED|95.0|1.32|2.79|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, age, gender, height and baseline FVC % predicted||2.79|1.32|0.0007
92275547|NCT01335464|184453461|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.847||||0.001|TWO_SIDED|95.0|1.28|2.66|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, age, gender, height and baseline FVC % predicted||2.66|1.28|0.0010
92275548|NCT01335464|184453462|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.4298|TWO_SIDED|95.0|0.55|1.29|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, baseline SGRQ total score||1.29|0.55|0.4298
92275549|NCT01335464|184453463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.32|STANDARD_ERROR_OF_MEAN|1.744||0.1832|TWO_SIDED|95.0|-5.74|1.1|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Symptoms component, baseline SGRQ Symptoms component-by-visit and random effect for patient.||1.10|-5.74|0.1832
92275550|NCT01335464|184453464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|1.446||0.551|TWO_SIDED|95.0|-1.97|3.7|||Mixed Models Analysis||"Within-patient error are modelled by compound symmetry covariance matrix~Nintedanib 150 mg bid versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ impact component, baseline SGRQ Impact component-by-visit and random effect for patient||3.70|-1.97|0.5510
92348519|NCT04435626|184600424|SUPERIORITY||Rate ratio|0.82||||0.0062|TWO_SIDED|95.0|0.71|0.94||Two-sided p-value; p-value threshold=0.04967;|Stratified Andersen-Gill model|stratified Andersen-Gill model with robust sandwich estimate for the covariance matrix of recurrent events|stratified Andersen-Gill model with robust sandwich estimate for the covariance matrix of recurrent events|Rate Ratio (Finerenone/Placebo)||0.94|0.71|0.0062
92348520|NCT04435626|184600426|OTHER|mixed-effects model for repeated measures (MMRM)|Difference in LS Mean|1.56|||<|0.0001|TWO_SIDED|95.0|0.79|2.34||Two-sided p-value;|Mixed Models Analysis|The analysis was performed using mixed-effects model for repeated measures (MMRM)||Difference in LS Mean||2.34|0.79|<.0001
92159796|NCT03441984|184207582|OTHER||Ratio of geometric LS means|1.0251|||||TWO_SIDED|90.0|0.848|1.2392|||||Treatment comparison between Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) and Adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg, 1 conventional tablet) is presented|||1.2392|0.8480|
92159797|NCT03441984|184207582|OTHER||Ratio of geometric LS means|0.9181|||||TWO_SIDED|90.0|0.7592|1.1103|||||Treatment comparison between Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) and Adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg, 1 conventional tablet) is presented|||1.1103|0.7592|
92159798|NCT03441984|184207582|OTHER||Ratio of geometric LS means|1.1165|||||TWO_SIDED|90.0|0.9376|1.3295|||||Treatment comparison between Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) and Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) is presented|||1.3295|0.9376|
92159799|NCT03441984|184207590|OTHER||Ratio of geometric LS means|1.0844|||||TWO_SIDED|90.0|0.9904|1.1873|||||Treatment comparison between Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) and Adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg, 1 conventional tablet) is presented|||1.1873|0.9904|
92159800|NCT03441984|184207590|OTHER||Ratio of geometric LS means|1.1311|||||TWO_SIDED|90.0|1.0334|1.2379|||||Treatment comparison between Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) and Adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg, 1 conventional tablet) is presented|||1.2379|1.0334|
92159801|NCT03441984|184207590|OTHER||Ratio of geometric LS means|0.9587|||||TWO_SIDED|90.0|0.876|1.0493|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.0493|0.8760|
92218909|NCT01431274|184338473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.091|STANDARD_ERROR_OF_MEAN|0.025||0.0002|TWO_SIDED|95.0|0.043|0.139||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.139|0.043|0.0002
92218910|NCT01431274|184338473|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.014|STANDARD_ERROR_OF_MEAN|0.024||0.5554|TWO_SIDED|95.0|-0.062|0.034||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.034|-0.062|0.5554
92159802|NCT03441984|184207598|OTHER||Ratio of geometric LS means|1.5619|||||TWO_SIDED|90.0|1.3678|1.7835|||||Treatment comparison between Pediatric DTG/3TC (DTG 5 mg/3TC 30 mg, 10 dispersible tablets) and Adult DTG (50 mg, 1 conventional tablet) and adult 3TC (300 mg, 1 conventional tablet) is presented|||1.7835|1.3678|
92159803|NCT03441984|184207598|OTHER||Ratio of geometric LS means|1.253|||||TWO_SIDED|90.0|1.0973|1.4307|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.4307|1.0973|
92159804|NCT03441984|184207598|OTHER||Ratio of geometric LS means|1.2466|||||TWO_SIDED|90.0|1.0917|1.4234|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.4234|1.0917|
92218911|NCT01431274|184338474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.178|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.127|0.228||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.228|0.127|<0.0001
92275551|NCT01335464|184453465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19|STANDARD_ERROR_OF_MEAN|1.427||0.4049|TWO_SIDED|95.0|-3.99|1.61|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix~Nintedanib 150 mg bid versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Activities component, baseline SGRQ Activities component-by-visit and random effect for patient||1.61|-3.99|0.4049
92275552|NCT01335464|184453466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|1.289||0.5446|TWO_SIDED|95.0|-3.31|1.75|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150mg versus placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ-I Total score, baseline SGRQ-I Total score-by-visit and random effect for patient.||1.75|-3.31|0.5446
92275553|NCT01335464|184453467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|1.77||0.6203|TWO_SIDED|95.0|-4.35|2.6|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150mg versus placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SOBQ score, baseline SOBQ score-by-visit and random effect for patient.||2.60|-4.35|0.6203
92275554|NCT01335464|184453468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|1.803||0.8942|TWO_SIDED|95.0|-3.78|3.3|||Mixed Models Analysis||"Within- patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline CASA-Q Cough symptoms score, baseline CASA-Q Cough symptoms score-by-visit and random effect for patient.||3.30|-3.78|0.8942
92275555|NCT01335464|184453469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.64|STANDARD_ERROR_OF_MEAN|1.596||0.3042|TWO_SIDED|95.0|-1.49|4.77|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix~Nintedanib 150 mg versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline CASA-Q Cough impact score, baseline CASA-Q Cough impact score-by-visit and random effect for patient.||4.77|-1.49|0.3042
92275556|NCT01335464|184453470|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.276||||0.1818|TWO_SIDED|95.0|0.89|1.83|||Regression, Logistic||Nintedanib 150mg versus placebo|Logistic regression with term treatment||1.83|0.89|0.1818
92275557|NCT01335464|184453472|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.17||||0.6793|TWO_SIDED|95.0|0.56|2.46|||Normal distribution|Risk ratio was calculated as the ratio of risk of exacerbation in both treatment groups.|Nintedanib 150mg bid versus placebo|The log of the risk ratio was assumed to follow a normal distribution with mean 0 and variance equal to the sum of the reciprocals of the number of patients with at least one exacerbation in each treatment arm.||2.46|0.56|0.6793
92400155|NCT02670811|184691869|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The secondary outcome, low density lipoprotein (mg/dL), between groups was analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
92400156|NCT02670811|184691870|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The secondary outcome, high density lipoproteins (mg/dL), between groups were analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
92400157|NCT02670811|184691871|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The secondary outcome, triglycerides (mg/dL), between groups was analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
92159805|NCT03441984|184207607|OTHER||Ratio of geometric LS means|1.0745|||||TWO_SIDED|90.0|0.9997|1.1549|||||Treatment comparison between Pediatric DTG/3TC (DTG 5 mg/3TC 30 mg, 10 dispersible tablets) and Adult DTG (50 mg, 1 conventional tablet) and adult 3TC (300 mg, 1 conventional tablet) is presented|||1.1549|0.9997|
92159806|NCT03441984|184207607|OTHER||Ratio of geometric LS means|1.0706|||||TWO_SIDED|90.0|0.9961|1.1507|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.1507|0.9961|
92159807|NCT03441984|184207607|OTHER||Ratio of geometric LS means|1.0036|||||TWO_SIDED|90.0|0.9338|1.0787|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.0787|0.9338|
92218912|NCT01431274|184338474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.084|STANDARD_ERROR_OF_MEAN|0.026||0.0011|TWO_SIDED|95.0|0.033|0.134||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.134|0.033|0.0011
92348521|NCT04435626|184600427|OTHER|Logistic regression analysis|Odds Ratio (OR)|1.01||||0.9295|TWO_SIDED|95.0|0.88|1.15||Two-sided p-value|Regression, Logistic|||Odds ratio (finerenone /placebo)||1.15|0.88|0.9295
92348522|NCT04435626|184600428|OTHER|Stratified log-rank test|Cause-specific Hazard Ratio|1.33||||0.1071|TWO_SIDED|95.0|0.94|1.89||two-sided p-value|Stratified log-rank test||stratified Cox proportional hazards model|Cause-specific Hazard Ratio||1.89|0.94|0.1071
92218913|NCT01431274|184338474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.142|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.091|0.192||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.192|0.091|<0.0001
92218914|NCT01431274|184338474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.041|STANDARD_ERROR_OF_MEAN|0.026||0.1112|TWO_SIDED|95.0|-0.009|0.091||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.091|-0.009|0.1112
92218915|NCT01431274|184338474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.026||0.0632|TWO_SIDED|95.0|-0.003|0.098||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.098|-0.003|0.0632
92218916|NCT01431274|184338474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.036|STANDARD_ERROR_OF_MEAN|0.026||0.1615|TWO_SIDED|95.0|-0.014|0.086||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.086|-0.014|0.1615
92218917|NCT01431274|184338474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.077|STANDARD_ERROR_OF_MEAN|0.026||0.0027|TWO_SIDED|95.0|0.027|0.127||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.127|0.027|0.0027
92218918|NCT01431274|184338474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.026||0.0003|TWO_SIDED|95.0|0.044|0.144||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.144|0.044|0.0003
92275558|NCT01335464|184453473|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63||||0.288|TWO_SIDED|95.0|0.29|1.36|||Log Rank||Nintedanib 150mg bid versus placebo|Hazard ratio is based on a Cox´s regression model with terms for treatment, gender, age and height||1.36|0.29|0.2880
92348523|NCT04435626|184600429|OTHER|Stratified log-rank test|cause-specific hazard ratio|0.93||||0.2794|TWO_SIDED|95.0|0.83|1.06||two-sided p-value|stratified log-rank||stratified Cox proportional hazards model|Hazard Ratio||1.06|0.83|0.2794
92348524|NCT04357795|184600461|OTHER|Single group analysis|||||<|0.0001|||||||Paired t-test|||||||<0.0001
92348525|NCT04357795|184600462|OTHER|Single group analysis|||||<|0.0001|||||||Paired t-test|||||||<0.0001
92348526|NCT04357795|184600463|OTHER|Single group analysis|||||<|0.0001|||||||Paired t-test|||||||<0.0001
92348527|NCT04357795|184600464|OTHER|Single group analysis|||||<|0.0001|||||||Paired t-test|||||||<0.0001
92348528|NCT04357795|184600465|OTHER|Single group analysis||||||0.0323|||||||Paired t-test|OD- Right eye p value||||||0.0323
92348529|NCT04357795|184600465|OTHER|Single group analysis||||||0.3447||||||OS: P-Value|Paired t-test|||||||0.3447
92348530|NCT04357795|184600466|OTHER|Single group analysis|||||<|0.0001|||||||Paired t-test|||||||<0.0001
92348531|NCT04357795|184600467|OTHER|Single group analysis||||||0.0029|||||||Paired t-test|||||||0.0029
92348532|NCT05845619|184600498|SUPERIORITY|There was no power calculation because this was a pilot study.|Odds Ratio (OR)|1.21||||0.33|TWO_SIDED|95.0|0.83|1.76|||Regression, Logistic||Numerator: pilot; denominator: prospective controls|In this pilot study, we hypothesized that pilot participants would have a reduced risk of viremia 6 months after the intervention compared to controls.||1.76|0.83|0.33
92348533|NCT05845619|184600498|SUPERIORITY|No power calculation, pilot study.|Odds Ratio (OR)|1.25||||0.41|TWO_SIDED|95.0|0.73|2.14|||Regression, Logistic|||||2.14|0.73|0.41
92348534|NCT02595892|184600499|OTHER||Hazard Ratio (HR)|0.57||||0.044|TWO_SIDED|90.0|0.33|0.98|||Log Rank|||||.98|.33|0.044
92348535|NCT02595892|184600502|OTHER|||||||0.44|||||||Fisher Exact|Two-Sided Fisher's exact test.||||||0.44
92348536|NCT05168800|184600541|SUPERIORITY|||||||0.99||||||To achieve a group-wise 95% confidence for the primary outcome, each of the three tests were evaluated with acceptance based on a 98.4% confidence interval, or greater than 2.15 standard deviations of the mean for the superiority analyses.|Groupwise binomial comparison|||||||0.99
92348537|NCT05168800|184600541|SUPERIORITY|||||||0.98||||||To achieve a group-wise 95% confidence for the primary outcome, each of the three tests were evaluated with acceptance based on a 98.4% confidence interval, or greater than 2.15 standard deviations of the mean for the superiority analyses.|Groupwise binomial comparison|||||||0.98
92159808|NCT02696785|184207680|SUPERIORITY||Odds Ratio (OR)|2.73||||0.005|TWO_SIDED|95.0|1.35|5.52|||Regression, Logistic|||Overall Work Impairment Score||5.52|1.35|0.005
92159809|NCT02696785|184207680|SUPERIORITY||Odds Ratio (OR)|4.45|||<|0.001|TWO_SIDED|95.0|2.2|9.03|||Regression, Logistic|||Overall Work Impairment Score.||9.03|2.20|<0.001
92159810|NCT02696785|184207680|SUPERIORITY||Odds Ratio (OR)|5.09|||<|0.001|TWO_SIDED|95.0|2.52|10.28|||Regression, Logistic|||Overall Work Impairment Score.||10.28|2.52|<0.001
92159811|NCT02696785|184207680|SUPERIORITY||LSMean Difference|-7.0|STANDARD_ERROR_OF_MEAN|3.16|<|0.001|TWO_SIDED|95.0|-13.2|-0.7|||ANCOVA|||Percentage of Activity Impairment||-0.7|-13.2|<0.001
92159812|NCT02696785|184207680|SUPERIORITY||LSMean Difference|-9.3|STANDARD_ERROR_OF_MEAN|3.19|<|0.001|TWO_SIDED|95.0|-15.5|-3.0|||ANCOVA|||Percentage of Activity Impairment||-3.0|-15.5|<0.001
92159813|NCT02696785|184207680|SUPERIORITY||LSMean Difference|-8.9|STANDARD_ERROR_OF_MEAN|3.22|<|0.001|TWO_SIDED|95.0|-15.2|-2.5|||ANCOVA|||Percentage of Activity Impairment||-2.5|-15.2|<0.001
92159814|NCT02696785|184207681|SUPERIORITY||Odds Ratio (OR)|2.3||||0.007|TWO_SIDED|95.0|1.25|4.23|||Regression, Logistic|||||4.23|1.25|0.007
92159815|NCT02696785|184207681|SUPERIORITY||Odds Ratio (OR)|2.78||||0.001|TWO_SIDED|95.0|1.48|5.24|||Regression, Logistic|||||5.24|1.48|0.001
92159816|NCT02696785|184207681|SUPERIORITY||Odds Ratio (OR)|3.39|||<|0.001|TWO_SIDED|95.0|1.79|6.41|||Regression, Logistic|||||6.41|1.79|<0.001
92159817|NCT02696785|184207682|SUPERIORITY||LSMean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.137|<|0.001|TWO_SIDED|95.0|-1.11|-0.57|||Mixed Models Analysis|||||-0.57|-1.11|<0.001
92348538|NCT05168800|184600541|EQUIVALENCE|A sample size of 1800 LTCWs (600 per arm) was identified to provide 80% power to detect an 8% difference in the rate of individuals reporting vaccine confidence between arms with 95% confidence. This sample size was sufficient to retain 80% power to detect a 10% difference after 40% attrition. Per study design, the equivalence margin is +/- 10% with anticipated attrition using the binomial confidence interval.||||||0.85||||||To achieve a group-wise 95% confidence for the primary outcome, each of the three tests were evaluated with acceptance based on a 98.4% confidence interval, or +/- 2.45 standard deviations of the mean for the equivalency test.|Groupwise binomial comparison|||||||0.85
92348539|NCT05168800|184600542|SUPERIORITY|||||||0.93|||||||Fisher Exact|||||||0.93
92348540|NCT05168800|184600542|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.90
92348541|NCT05168800|184600542|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.83|||||||Fisher Exact|||||||0.83
92348542|NCT05168800|184600543|SUPERIORITY|||||||0.22|||||||Fisher Exact|||||||0.22
92348543|NCT05168800|184600543|SUPERIORITY|||||||0.43|||||||Fisher Exact|||||||0.43
92348544|NCT05168800|184600543|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.61|||||||Fisher Exact|||||||0.61
92348545|NCT05168800|184600544|SUPERIORITY|||||||0.65|||||||Fisher Exact|||||||0.65
92348546|NCT05168800|184600544|SUPERIORITY|||||||0.34|||||||Fisher Exact|||||||0.34
92348547|NCT05168800|184600544|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.48|||||||Fisher Exact|||||||0.48
92348548|NCT05168800|184600545|SUPERIORITY|||||||0.88|||||||Adjusted Wald test|||||||0.88
92348549|NCT05168800|184600545|SUPERIORITY|||||||0.97|||||||Adjusted Wald test|||||||0.97
92348550|NCT05168800|184600545|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.48|||||||Adjusted Wald test|||||||0.48
92348551|NCT05168800|184600546|SUPERIORITY|||||||0.95|||||||Adjusted Wald test|||||||0.95
92348552|NCT05168800|184600546|SUPERIORITY|||||||0.98|||||||Adjusted Wald test|||||||0.98
92348553|NCT05168800|184600546|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.66|||||||Adjusted Wald test|||||||0.66
92159818|NCT02696785|184207682|SUPERIORITY||LSMean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.141|<|0.001|TWO_SIDED|95.0|-1.25|-0.7|||Mixed Models Analysis|||||-0.70|-1.25|<0.001
92159819|NCT02696785|184207682|SUPERIORITY||LSMean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.18|-0.63|||Mixed Models Analysis|||||-0.63|-1.18|<0.001
92159820|NCT02696785|184207683|SUPERIORITY||Odds Ratio (OR)|2.53||||0.012|TWO_SIDED|95.0|1.23|5.21|||Regression, Logistic|||||5.21|1.23|0.012
92159821|NCT02696785|184207683|SUPERIORITY||Odds Ratio (OR)|3.74|||<|0.001|TWO_SIDED|95.0|1.82|7.7|||Regression, Logistic|||||7.70|1.82|<0.001
92159822|NCT02696785|184207683|SUPERIORITY||Odds Ratio (OR)|3.9|||<|0.001|TWO_SIDED|95.0|1.91|7.98|||Regression, Logistic|||||7.98|1.91|<0.001
92159823|NCT02696785|184207684|SUPERIORITY||LSMean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.299||0.001|TWO_SIDED|95.0|-1.56|-0.39|||Mixed Models Analysis|||||-0.39|-1.56|0.001
92159824|NCT02696785|184207684|SUPERIORITY||LSMean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.307|<|0.001|TWO_SIDED|95.0|-1.83|-0.62|||Mixed Models Analysis|||||-0.62|-1.83|<0.001
92159825|NCT02696785|184207684|SUPERIORITY||LSMean Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.304|<|0.001|TWO_SIDED|95.0|-1.86|-0.67|||Mixed Models Analysis|||||-0.67|-1.86|<0.001
92159826|NCT02696785|184207685|SUPERIORITY||LSMean Difference|7.62||||0.009|TWO_SIDED|95.0|1.67|34.68|||Regression, Logistic|||||34.68|1.67|0.009
92159827|NCT02696785|184207685|SUPERIORITY||Odds Ratio (OR)|8.03||||0.007|TWO_SIDED|95.0|1.75|36.83|||Regression, Logistic|||||36.83|1.75|0.007
92348554|NCT05168800|184600547|SUPERIORITY|||||||0.08|||||||Fisher Exact|||||||0.08
92348555|NCT05168800|184600547|SUPERIORITY|||||||0.64|||||||Fisher Exact|||||||0.64
92348556|NCT05168800|184600547|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.09|||||||Fisher Exact|||||||0.09
92348557|NCT05168800|184600548|SUPERIORITY|||||||0.13|||||||Fisher Exact|||||||0.13
92348558|NCT05168800|184600548|SUPERIORITY|||||||0.73|||||||Fisher Exact|||||||0.73
92348559|NCT05168800|184600548|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.1|||||||Fisher Exact|||||||0.10
92348560|NCT05168800|184600549|SUPERIORITY|||||||0.37|||||||Fisher Exact|||||||0.37
92348561|NCT05168800|184600549|SUPERIORITY|||||||0.45|||||||Fisher Exact|||||||0.45
92348562|NCT05168800|184600549|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.88|||||||Fisher Exact|||||||0.88
92348563|NCT05168800|184600550|SUPERIORITY|||||||0.92|||||||Adjusted Wald test|||||||0.92
92348564|NCT05168800|184600550|SUPERIORITY|||||||0.97|||||||Adjusted Wald test|||||||0.97
92348565|NCT05168800|184600550|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.83|||||||Adjusted Wald test|||||||0.83
92348566|NCT05168800|184600551|SUPERIORITY|||||||0.88|||||||Adjusted Wald test|||||||0.88
92348567|NCT05168800|184600551|SUPERIORITY|||||||0.49|||||||Adjusted Wald test|||||||0.49
92348568|NCT05168800|184600551|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.23|||||||Adjusted Wald test|||||||0.23
92348569|NCT05168800|184600552|SUPERIORITY|||||||0.9|||||||Adjusted Wald test|||||||0.90
92348570|NCT05168800|184600552|SUPERIORITY|||||||0.94|||||||Adjusted Wald test|||||||0.94
92348571|NCT05168800|184600552|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.86|||||||Adjusted Wald test|||||||0.86
92348572|NCT05168800|184600553|SUPERIORITY|||||||1|||||||Two-sample z test|||||||1.00
92348573|NCT05168800|184600553|SUPERIORITY|||||||1|||||||Two-sample z test|||||||1.0
92400158|NCT04516746|184691883|SUPERIORITY||Vaccine efficacy|73.98|||<|0.001|TWO_SIDED|95.0|65.34|80.47|||Poisson regression with robust variance|||The 95% confidence interval (CI) and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||80.47|65.34|<0.001
92159828|NCT02696785|184207685|SUPERIORITY||Odds Ratio (OR)|5.13||||0.041|TWO_SIDED|95.0|1.07|24.49|||Regression, Logistic|||||24.49|1.07|0.041
92159829|NCT02696785|184207686|SUPERIORITY||LSMean Difference|-2.78|STANDARD_ERROR_OF_MEAN|0.447|<|0.001|TWO_SIDED|95.0|-3.7|-1.9|||ANCOVA|||||-1.9|-3.7|<0.001
92159830|NCT02696785|184207686|SUPERIORITY||LSMean Difference|-2.62|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|95.0|-3.5|-1.7|||ANCOVA|||||-1.7|-3.5|<0.001
92348574|NCT05168800|184600553|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.49|||||||Two-sample z test|||||||0.49
92348575|NCT05168800|184600554|SUPERIORITY|||||||0.88|||||||Two-sample z test|||||||0.88
92348576|NCT05168800|184600554|SUPERIORITY|||||||1|||||||Two-sample z test|||||||1.00
92348577|NCT05168800|184600554|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.02|||||||Two-sample z test|||||||0.02
92348578|NCT05168800|184600555|SUPERIORITY|||||||0.82|||||||Two-sample z test|||||||0.82
92348579|NCT05168800|184600555|SUPERIORITY|||||||0.97|||||||Two-sample z test|||||||0.97
92348580|NCT05168800|184600555|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.18|||||||Two-sample z test|||||||0.18
92159831|NCT02696785|184207686|SUPERIORITY||LSMean Difference|-2.39|STANDARD_ERROR_OF_MEAN|0.452|<|0.001|TWO_SIDED|95.0|-3.3|-1.5|||ANCOVA|||||-1.5|-3.3|<0.001
92159832|NCT02696785|184207687|SUPERIORITY||LSMean Difference|3.2574|STANDARD_ERROR_OF_MEAN|1.0437||0.002|TWO_SIDED|95.0|1.2041|5.3106|||Mixed Models Analysis|||PCS||5.3106|1.2041|0.002
92348581|NCT03488524|184600652|SUPERIORITY||Mean Difference (Final Values)|4.23|STANDARD_ERROR_OF_MEAN|1.87||0.0239|TWO_SIDED|95.0|0.56|7.9||Significance testing was 2-tailed and considered statistically significant if the calculated p-value was ≤0.05.|Mixed Models Analysis|Random-slope, shared-baseline, linear mixed model was adjusted for age and prebaseline ALSFRS-R slope.||Participants who did not enter the open-label extension (OLE) were included in this analysis.||7.90|0.56|0.0239
92348582|NCT03488524|184600653|SUPERIORITY||Hazard Ratio (HR)|0.644||||0.0475|TWO_SIDED|95.0|0.416|0.995|||Hazard ratio|||Cox Proportional Hazards analysis||0.995|0.416|0.0475
92348583|NCT03488524|184600654|SUPERIORITY||Hazard Ratio (HR)|0.621||||0.0308|TWO_SIDED|95.0|0.403|0.957|||Hazard Ratio|||||0.957|0.403|0.0308
92348584|NCT03488524|184600655|SUPERIORITY||Mean Difference (Final Values)|7.77|STANDARD_ERROR_OF_MEAN|3.55||0.0291|TWO_SIDED|95.0|0.8|14.75|||Mixed Models Analysis|||||14.75|0.80|0.0291
92348585|NCT03488524|184600656|SUPERIORITY||Mean Difference (Final Values)|4.76|STANDARD_ERROR_OF_MEAN|3.923||0.2261|TWO_SIDED|95.0|-2.95|12.47|||Mixed Models Analysis|||||12.47|-2.95|0.2261
92348586|NCT03488524|184600657|SUPERIORITY||Mean Difference (Final Values)|10.66|STANDARD_ERROR_OF_MEAN|5.103||0.0372|TWO_SIDED|95.0|0.63|20.69||Nominal p-value|Mixed Models Analysis|||||20.69|0.63|0.0372
92348587|NCT03488524|184600658|SUPERIORITY|||||||0.0503||||||Nominal p-value|Mixed Models Analysis|||||||0.0503
92348588|NCT00315445|184600659|SUPERIORITY_OR_OTHER|||||||0.035||||||P values are from a repeated measures model|Mixed Models Analysis|||A repeated measures analysis was performed to assess the effects due to treatment, center, and treatment by center interaction. Observations within each subject were assumed to follow a first-order autoregressive model. Missing values were extrapolated by the last observation carried forward (LOCF). Covariates were gender, age, race, weight, baseline pain, and previous opioid use which were incorporated into the model when P \< 0.10, using a backward elimination procedure.||||0.0350
92159833|NCT02696785|184207687|SUPERIORITY||LSMean Difference|4.052|STANDARD_ERROR_OF_MEAN|1.072|<|0.001|TWO_SIDED|95.0|1.9432|6.1608|||Mixed Models Analysis|||PCS||6.1608|1.9432|<0.001
92159834|NCT02696785|184207687|SUPERIORITY||LSMean Difference|4.3254|STANDARD_ERROR_OF_MEAN|1.0641|<|0.001|TWO_SIDED|95.0|2.2321|6.4186|||Mixed Models Analysis|||PCS||6.4186|2.2321|<0.001
92159835|NCT02696785|184207687|SUPERIORITY||LSMean Difference|0.4321|STANDARD_ERROR_OF_MEAN|1.1718||0.713|TWO_SIDED|95.0|-1.8732|2.7373|||Mixed Models Analysis|||MCS||2.7373|-1.8732|0.713
92159836|NCT02696785|184207687|SUPERIORITY||LSMean Difference|0.6273|STANDARD_ERROR_OF_MEAN|1.2028||0.602|TWO_SIDED|95.0|-1.7387|2.9934|||Mixed Models Analysis|||MCS||2.9934|-1.7387|0.602
92159837|NCT02696785|184207687|SUPERIORITY||LSMean Difference|0.4467|STANDARD_ERROR_OF_MEAN|1.1978||0.709|TWO_SIDED|95.0|-1.9097|2.803|||Mixed Models Analysis|||MCS||2.8030|-1.9097|0.709
92159838|NCT02696785|184207688|SUPERIORITY||LSMean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.416||0.012|TWO_SIDED|95.0|-1.87|-0.23|||Mixed Models Analysis|||||-0.23|-1.87|0.012
92159839|NCT02696785|184207688|SUPERIORITY||LSMean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.428||0.01|TWO_SIDED|95.0|-1.95|-0.27|||Mixed Models Analysis|||||-0.27|-1.95|0.010
92159840|NCT02696785|184207688|SUPERIORITY||LSMean Difference|-1.49|STANDARD_ERROR_OF_MEAN|0.423|<|0.001|TWO_SIDED|95.0|-2.32|-0.66|||Mixed Models Analysis|||||-0.66|-2.32|<0.001
92348589|NCT00315445|184600659|SUPERIORITY_OR_OTHER|||||||0.0624||||||Repeated measures analysis to assess the effects due to treatment, center, and treatment by center. Missing values = last observation carried forward (LOCF). Covariates: gender, age, race, weight, baseline pain, and previous opioid use.|Mixed Models Analysis|||||||0.0624
92348590|NCT00315445|184600660|SUPERIORITY_OR_OTHER||Day 84 Mean|46.4|||||TWO_SIDED|90.0|40.2|48.7|||Day 84 Mean|||||48.7|40.2|
92348591|NCT00315445|184600660|SUPERIORITY_OR_OTHER||Day 84 Mean|44.5|||||TWO_SIDED|90.0|43.3|52.4|||Day 84 Mean|||||52.4|43.3|
92348592|NCT00315445|184600660|SUPERIORITY_OR_OTHER||Day 84 Mean|46.5|||||TWO_SIDED|90.0|41.7|50.2|||Day 84 Mean|||||50.2|41.7|
92348593|NCT00315445|184600661|SUPERIORITY_OR_OTHER||Day 84 Mean|18.9|||||TWO_SIDED|90.0|5.2|26.2|||Day 84 Mean|||||26.2|5.2|
92348594|NCT00315445|184600661|SUPERIORITY_OR_OTHER||Day 84 Mean|24.4|||||TWO_SIDED|90.0|10.7|32.0|||Day 84 Mean|||||32.0|10.7|
92348595|NCT00315445|184600661|SUPERIORITY_OR_OTHER||Day 84 Mean|33.9|||||TWO_SIDED|90.0|16.0|35.2|||Day 84 Mean|||||35.2|16.0|
92400159|NCT04516746|184691887|SUPERIORITY||Vaccine efficacy|64.32|||<|0.001|TWO_SIDED|95.0|56.05|71.03|||Poisson regression with robust variance|||The 95% CI and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||71.03|56.05|<0.001
92400160|NCT04516746|184691888|SUPERIORITY||Vaccine efficacy|69.65|||<|0.001|TWO_SIDED|95.0|60.68|76.57|||Poisson regression with robust variance|||The 95% CI and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||76.57|60.68|<0.001
92400161|NCT04516746|184691889|SUPERIORITY||Vaccine efficacy|70.7|||<|0.001|TWO_SIDED|95.0|61.62|77.64|||Poisson regression with robust variance|||The 95% CI and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||77.64|61.62|<0.001
92400162|NCT04516746|184691890|SUPERIORITY||Vaccine efficacy|73.68|||<|0.001|TWO_SIDED|95.0|65.13|80.13|||Poisson regression with robust variance|||The 95% CI and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||80.13|65.13|<0.001
92400163|NCT04516746|184691891|SUPERIORITY||Vaccine efficacy|100.0|||<|0.001|ONE_SIDED|97.5|71.62||||Poisson regression exact conditional|||The exact 1-sided 97.5% CI and p-value were estimated based on stratified Poisson regression with exact conditional method (including study arm and stratification factor \[age group at informed consent\] as strata factor and log of total number of participants for each combination of study arm and strata as an offset).|||71.62|<0.001
92159841|NCT02696785|184207689|SUPERIORITY||LSMean Difference|-8.628|STANDARD_ERROR_OF_MEAN|2.6724||0.001|TWO_SIDED|95.0|-13.885|-3.371|||Mixed Models Analysis|||||-3.371|-13.885|0.001
92159842|NCT02696785|184207689|SUPERIORITY||LSMean Difference|-6.635|STANDARD_ERROR_OF_MEAN|2.7438||0.016|TWO_SIDED|95.0|-12.033|-1.238|||Mixed Models Analysis|||||-1.238|-12.033|0.016
92159843|NCT02696785|184207689|SUPERIORITY||LSMean Difference|-7.991|STANDARD_ERROR_OF_MEAN|2.7248||0.004|TWO_SIDED|95.0|-13.351|-2.631|||Mixed Models Analysis|||||-2.631|-13.351|0.004
92348596|NCT00315445|184600662|SUPERIORITY_OR_OTHER|||||||0.0452||||||Multiple linear regression|Mixed Models Analysis|||A repeated measures analysis was performed to assess the effects due to treatment, center, and treatment by center interaction. Observations within each subject were assumed to follow a first-order autoregressive model. Missing values were extrapolated by the last observation carried forward (LOCF). Covariates were gender, age, race, weight, baseline pain, and previous opioid use which were incorporated into the model when P \< 0.10, using a backward elimination procedure.||||0.0452
92159844|NCT02696785|184207690|SUPERIORITY||LSMean Difference|-0.367|STANDARD_ERROR_OF_MEAN|0.1143||0.001|TWO_SIDED|95.0|-0.592|-0.142|||Mixed Models Analysis|||||-0.142|-0.592|0.001
92159845|NCT02696785|184207690|SUPERIORITY||LSMean Difference|-0.422|STANDARD_ERROR_OF_MEAN|0.1184|<|0.001|TWO_SIDED|95.0|-0.655|-0.189|||Mixed Models Analysis|||||-0.189|-0.655|<0.001
92348597|NCT00315445|184600662|SUPERIORITY_OR_OTHER|||||||0.0962|||||||Mixed Models Analysis|||||||0.0962
92159846|NCT02696785|184207690|SUPERIORITY||LSMean Difference|-0.329|STANDARD_ERROR_OF_MEAN|0.1167||0.005|TWO_SIDED|95.0|-0.558|-0.099|||Mixed Models Analysis|||||-0.099|-0.558|0.005
92159847|NCT02696785|184207691|SUPERIORITY||LSMean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.211||0.003|TWO_SIDED|95.0|0.22|1.05|||Mixed Models Analysis|||||1.05|0.22|0.003
92159848|NCT02696785|184207691|SUPERIORITY||LSMean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.219||0.051|TWO_SIDED|95.0|0.0|0.86|||Mixed Models Analysis|||||0.86|-0.00|0.051
92159849|NCT02696785|184207691|SUPERIORITY||LSMean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.215||0.005|TWO_SIDED|95.0|0.18|1.03|||Mixed Models Analysis|||||1.03|0.18|0.005
92159850|NCT02696785|184207692|SUPERIORITY||LSMean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.321||0.039|TWO_SIDED|95.0|-1.3|-0.03|||Mixed Models Analysis|||||-0.03|-1.30|0.039
92348598|NCT00315445|184600663|SUPERIORITY_OR_OTHER||Day 84 Mean|35.3|||||TWO_SIDED|90.0|24.3|35.6|||Day 84 Mean|||||35.6|24.3|
92348599|NCT00315445|184600663|SUPERIORITY_OR_OTHER||Day 84 Mean|39.0|||||TWO_SIDED|90.0|29.0|40.3|||Day 84 Mean|||||40.3|29.0|
92348600|NCT00315445|184600663|SUPERIORITY_OR_OTHER||Day 84 Mean|41.9|||||TWO_SIDED|90.0|32.1|42.5|||Day 84 Mean|||||42.5|32.1|
92348601|NCT00315445|184600664|SUPERIORITY_OR_OTHER||Day 84 Mean|52.4||||||90.0|50.3|56.6|||Day 84 Mean|||||56.6|50.3|
92348602|NCT00315445|184600664|SUPERIORITY_OR_OTHER||Day 84 Mean|52.5|||||TWO_SIDED|90.0|51.8|58.3|||Day 84 Mean|||||58.3|51.8|
92348603|NCT00315445|184600664|SUPERIORITY_OR_OTHER||Day 84 Mean|57.7|||||TWO_SIDED|90.0|52.3|58.6|||Day 84 Mean|||||58.6|52.3|
92348604|NCT00315445|184600667|SUPERIORITY_OR_OTHER||Day 84 Mean|55.3|||||TWO_SIDED|90.0|49.8|67.9|||Day 84 Mean|||||67.9|49.8|
92348605|NCT00315445|184600667|SUPERIORITY_OR_OTHER||Day 84 Mean|56.3|||||TWO_SIDED|90.0|45.9|65.3|||Day 84 Mean|||||65.3|45.9|
92348606|NCT00315445|184600667|SUPERIORITY_OR_OTHER||Day 84 Mean|63.0|||||TWO_SIDED|90.0|53.1|70.9|||Day 84 Mean|||||70.9|53.1|
92348607|NCT00315445|184600668|SUPERIORITY_OR_OTHER||Day 84 Mean|67.4|||||TWO_SIDED|90.0|61.3|68.6|||Day 84 Mean|||||68.6|61.3|
92348608|NCT00315445|184600668|SUPERIORITY_OR_OTHER||Day 84 Mean|68.8|||||TWO_SIDED|90.0|61.7|68.8|||Day 84 Mean|||||68.8|61.7|
92348609|NCT00315445|184600668|SUPERIORITY_OR_OTHER||Day 84 Mean|67.8|||||TWO_SIDED|90.0|62.0|68.7|||Day 84 Mean|||||68.7|62.0|
92400164|NCT04516746|184691892|SUPERIORITY||Vaccine efficacy|84.97|||<|0.001|TWO_SIDED|95.0|58.97|94.5|||Poisson regression with robust variance|||The 95% CI were estimated based on Poisson regression with robust variance (including study arm and age group at screening (18-65 years, ≥ 65 years) as covariates and log of the follow-up time as an offset).||94.50|58.97|<0.001
92159851|NCT02696785|184207692|SUPERIORITY||LSMean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.33||0.057|TWO_SIDED|95.0|-1.28|0.02|||Mixed Models Analysis|||||0.02|-1.28|0.057
92159852|NCT02696785|184207692|SUPERIORITY||LSMean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.327||0.042|TWO_SIDED|95.0|-1.31|-0.03|||Mixed Models Analysis|||||-0.03|-1.31|0.042
92159853|NCT02696785|184207693|SUPERIORITY||LSMean Difference|-5.13|STANDARD_ERROR_OF_MEAN|0.806|<|0.001|TWO_SIDED|95.0|-6.7|-3.5|||ANCOVA|||||-3.5|-6.7|<0.001
92159854|NCT02696785|184207693|SUPERIORITY||LSMean Difference|-4.89|STANDARD_ERROR_OF_MEAN|0.812|<|0.001|TWO_SIDED|95.0|-6.5|-3.3|||ANCOVA|||||-3.3|-6.5|<0.001
92159855|NCT02696785|184207693|SUPERIORITY||LSMean Difference|-5.17|STANDARD_ERROR_OF_MEAN|0.816|<|0.001|TWO_SIDED|95.0|-6.8|-3.6|||ANCOVA|||||-3.6|-6.8|<0.001
92218919|NCT01431274|184338474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.101|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.05|0.151||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.151|0.050|<0.0001
92218920|NCT01431274|184338474|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.007|STANDARD_ERROR_OF_MEAN|0.026||0.7925|TWO_SIDED|95.0|-0.057|0.044||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.044|-0.057|0.7925
92218921|NCT01431274|184338475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.118|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.074|0.162||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).|||0.162|0.074|<0.0001
92218922|NCT01431274|184338475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.123|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.077|0.169||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).|||0.169|0.077|<0.0001
92218923|NCT01431274|184338475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.022||0.0012|TWO_SIDED|95.0|0.028|0.114||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).|||0.114|0.028|0.0012
92218924|NCT01431274|184338475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.05|0.137||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).|||0.137|0.050|<0.0001
92218925|NCT01431274|184338475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.023||0.001|TWO_SIDED|95.0|0.031|0.121||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).|||0.121|0.031|0.0010
92218926|NCT01431274|184338475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.023||0.0384|TWO_SIDED|95.0|0.003|0.092||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).|||0.092|0.003|0.0384
92218927|NCT01431274|184338475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.141|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.097|0.185||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).|||0.185|0.097|<0.0001
92218928|NCT01431274|184338475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.004|STANDARD_ERROR_OF_MEAN|0.023||0.8428|TWO_SIDED|95.0|-0.049|0.04||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Olodaterol (5 µg).|||0.040|-0.049|0.8428
92218929|NCT01431274|184338475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.022|STANDARD_ERROR_OF_MEAN|0.022||0.3048|TWO_SIDED|95.0|-0.065|0.02||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (2.5 µg) versus Olodaterol (5 µg).|||0.020|-0.065|0.3048
92159856|NCT02696785|184207694|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.48||0.317|TWO_SIDED|95.0|-1.4|0.5|||Mixed Models Analysis|||||0.5|-1.4|0.317
92218930|NCT01431274|184338475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.023||0.4311|TWO_SIDED|95.0|-0.027|0.063||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Tiotropium (2.5 µg).|||0.063|-0.027|0.4311
92218931|NCT01431274|184338476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.098|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|0.057|0.139||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).|||0.139|0.057|<0.0001
92218932|NCT01431274|184338476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.106|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.063|0.149||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).|||0.149|0.063|<0.0001
92159857|NCT02696785|184207694|SUPERIORITY||LSMean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.48||0.683|TWO_SIDED|95.0|-1.1|0.8|||Mixed Models Analysis|||||0.8|-1.1|0.683
92159858|NCT02696785|184207694|SUPERIORITY||LSMean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.48||0.5|TWO_SIDED|95.0|-1.3|0.6|||Mixed Models Analysis|||||0.6|-1.3|0.500
92159859|NCT02696785|184207695|SUPERIORITY||LSMean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.56||0.154|TWO_SIDED|95.0|-1.9|0.3|||Mixed Models Analysis|||||0.3|-1.9|0.154
92159860|NCT02696785|184207695|SUPERIORITY||LSMean Difference|0.255|STANDARD_ERROR_OF_MEAN|0.56||-0.6|TWO_SIDED|95.0|-1.8|0.5|||Mixed Models Analysis|||||0.5|-1.8|-0.6
92159861|NCT02696785|184207695|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.58||0.398|TWO_SIDED|95.0|-1.6|0.7|||Mixed Models Analysis|||||0.7|-1.6|0.398
92159862|NCT02696785|184207696|SUPERIORITY||LSMean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.76||0.783|TWO_SIDED|95.0|-1.7|1.3|||Mixed Models Analysis|||||1.3|-1.7|0.783
92159863|NCT02696785|184207696|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.78||0.55|TWO_SIDED|95.0|-2.0|1.1|||Mixed Models Analysis|||||1.1|-2.0|0.550
92159864|NCT02696785|184207696|SUPERIORITY||LSMean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.77||0.091|TWO_SIDED|95.0|-2.8|0.2|||Mixed Models Analysis|||||0.2|-2.8|0.091
92159865|NCT02696785|184207698|SUPERIORITY||LSMean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.32||0.027|TWO_SIDED|95.0|-1.3|-0.1|||Mixed Models Analysis|||||-0.1|-1.3|0.027
92400165|NCT04516746|184691893|SUPERIORITY||Vaccine efficacy|94.8||||0.005|TWO_SIDED|95.0|58.98|99.34|||Poisson regression with robust variance|||The 95% CI and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||99.34|58.98|0.005
92159866|NCT02696785|184207698|SUPERIORITY||LSMean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.33||0.002|TWO_SIDED|95.0|-1.7|-0.4|||Mixed Models Analysis|||||-0.4|-1.7|0.002
92159867|NCT02696785|184207698|SUPERIORITY||LSMean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.33||0.035|TWO_SIDED|95.0|-1.3|0.0|||Mixed Models Analysis|||||-0.0|-1.3|0.035
92159868|NCT02696785|184207699|SUPERIORITY||LSMean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.57||0.041|TWO_SIDED|95.0|-2.3|0.0|||Mixed Models Analysis|||||-0.0|-2.3|0.041
92159869|NCT02696785|184207699|SUPERIORITY||LSMean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.59||0.125|TWO_SIDED|95.0|-2.1|0.3|||Mixed Models Analysis|||||0.3|-2.1|0.125
92159870|NCT02696785|184207699|SUPERIORITY||LSMean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.58||0.013|TWO_SIDED|95.0|-2.6|-0.3|||Mixed Models Analysis|||||-0.3|-2.6|0.013
92159871|NCT02696785|184207700|SUPERIORITY||LSMean Difference|0.04|STANDARD_ERROR_OF_MEAN|3.082||0.989|TWO_SIDED|95.0|-6.03|6.12|||Mixed Models Analysis|||||6.12|-6.03|0.989
92159872|NCT02696785|184207700|SUPERIORITY||LSMean Difference|2.5|STANDARD_ERROR_OF_MEAN|3.146||0.429|TWO_SIDED|95.0|-3.71|8.7|||Mixed Models Analysis|||||8.70|-3.71|0.429
92159873|NCT02696785|184207700|SUPERIORITY||LSMean Difference|-5.47|STANDARD_ERROR_OF_MEAN|3.27||0.096|TWO_SIDED|95.0|-11.92|0.98|||Mixed Models Analysis|||||0.98|-11.92|0.096
92159874|NCT02696785|184207704|SUPERIORITY||LSMean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.76||0.166|TWO_SIDED|95.0|-2.6|0.4|||Mixed Models Analysis|||||0.4|-2.6|0.166
92275559|NCT01335464|184453474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.3515|TWO_SIDED|95.0|0.25|1.47|||Log Rank||Nintedanib 150mg versus placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height||1.47|0.25|0.3515
92159875|NCT02696785|184207704|SUPERIORITY||LSMean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.73||0.011|TWO_SIDED|95.0|-3.4|-0.4|||Mixed Models Analysis|||||-0.4|-3.4|0.011
92275560|NCT01335464|184453475|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.4869|TWO_SIDED|95.0|0.26|1.82|||Log Rank||Nintedanib 150mg bid versus placebo|Hazard ratio is based on a Cox´s regression model with terms for treatment, gender, age and height||1.82|0.26|0.4869
92159876|NCT02696785|184207704|SUPERIORITY||LSMean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.77||0.182|TWO_SIDED|95.0|-2.6|0.5|||Mixed Models Analysis|||||0.5|-2.6|0.182
92159877|NCT02696785|184207705|SUPERIORITY||LSMean Difference|-10.07|STANDARD_ERROR_OF_MEAN|1.588|<|0.001|TWO_SIDED|95.0|-13.2|-6.9|||ANCOVA|||||-6.9|-13.2|<0.001
92159878|NCT02696785|184207705|SUPERIORITY||LSMean Difference|-9.51|STANDARD_ERROR_OF_MEAN|1.591|<|0.001|TWO_SIDED|95.0|-12.6|-6.4|||ANCOVA|||||-6.4|-12.6|<0.001
92159879|NCT02696785|184207705|SUPERIORITY||LSMean Difference|-8.08|STANDARD_ERROR_OF_MEAN|1.603|<|0.001|TWO_SIDED|95.0|-11.2|-4.9|||ANCOVA|||||-4.9|-11.2|<0.001
92159880|NCT01016353|184207709|SUPERIORITY|||||||0.06|||||||Log Rank|||||||0.06
92159881|NCT04863898|184207710|SUPERIORITY||Mean Difference (Net)|-6.1|||||TWO_SIDED|95.0|-7.0|-5.2|||||LME regression, random intercepts by individual and fixed effects of participant characteristics. Difference = endline - baseline.|Using the PASS software program, we estimated the power for comparisons of scores from pre- to post-intervention, assuming a p-value of 0.05 (two-sided) and a final sample size of 131 with both measurements. We would have 85% power to detect a small-to-medium sized effect based on standardized mean difference (d=0.32).||-5.2|-7|
92159882|NCT04863898|184207714|SUPERIORITY||Mean Difference (Net)|0.97|||||TWO_SIDED|95.0|0.86|1.09|||||Calculated using a linear mixed effect regression model with random intercepts by individual Difference = endline - baseline.|Using the PASS software program, we estimated the power for comparisons of scores from pre- to post-intervention, assuming a p-value of 0.05 (two-sided) and a final sample size of 131 with both measurements. We would have 85% power to detect a small-to-medium sized effect based on standardized mean difference (d=0.32).||1.09|0.86|
92159883|NCT04863898|184207715|SUPERIORITY||Mean Difference (Net)|-4.2|||||TWO_SIDED|95.0|-4.7|-3.6|||||LME regression, random intercepts by individual and fixed effects of participant characteristics. Difference = endline - baseline.|Using the PASS software program, we estimated the power for comparisons of scores from pre- to post-intervention, assuming a p-value of 0.05 (two-sided) and a final sample size of 131 with both measurements. We would have 85% power to detect a small-to-medium sized effect based on standardized mean difference (d=0.32).||-3.6|-4.7|
92159884|NCT00614744|184207716|SUPERIORITY|This trial estimated the probability that the intervention has no effect on the outcome (or conversely, the probability that it does), given the data obtained in the trial and any prior evidence.|Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.59|1.29|||Bayesian log binomial models|Bayesian log binomial models were used to analyze the primary outcome of death or moderate/severe disability.|In log binomial models used Normal (0, sd=0.35) neutral prior in the log RR scale. Estimation used Normal weakly informative priors. Reported posterior medians \& 95% credible intervals for the RR above instead of confidence intervals.|Whole-body Hypothermia vs. Normothermia (Normothermia is the comparison group)|"We fitted all Bayesian models via Markov chain Monte Carlo methods (MCMC) using JAGS (version 3.4) and OpenBUGS (3.2.3) in R (version 3.2.5). For each analysis we ran 3 MCMC chains with starting values randomly drawn from the estimated parameters from a frequentist log binomial model. A burn-in of 1,000 iterations was used, with sampling from a further 10,000 iterations for each chain. To monitor convergence, trace plots and the Gelman-Rubin convergence diagnostic (Rhat) were used for all parameters.~For all analyses, the trace plots show good mixing of the 3 chains with Rhat \< 1.01 for all parameters, indicating convergence."|1.29|0.59|
92159885|NCT00770211|184207756|SUPERIORITY_OR_OTHER||Difference response rate|0.48|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.4|0.56|||Fisher Exact|||The efficacy of the treatment was confirmed, if H0 was rejected at a given alpha of 5%, that means if the two sided p-value is ≤ 0.05. Power of 90%||0.56|0.40|<0.0001
92275561|NCT01335464|184453476|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.443|TWO_SIDED|95.0|0.36|1.51|||Log Rank||Nintedanib 150mg versus placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height||1.51|0.36|0.4430
92159886|NCT01446003|184207762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.02|||||TWO_SIDED|90.0|-0.52|4.56|||Linear mixed effect models|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||If the upper limit of the 90% confidence interval lies below the bound 5 mmHg, the hypothesis that change from baseline in ambulatory 24-hour mean SBP in participants with mild to moderate hypertension following 10 days of multiple dosing of MK-8457 is similar to placebo will be supported.||4.56|-0.52|
92159887|NCT01446003|184207763|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.57|||||TWO_SIDED|90.0|0.19|2.96|||Linear mixed effects model|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||||2.96|0.19|
92159888|NCT01446003|184207764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9|||||TWO_SIDED|90.0|2.44|13.35|||Linear mixed effects model|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||Treatment comparison of maxMAΔ in SBP from baseline to Day 10 after AM dosing||13.35|2.44|
92159889|NCT01446003|184207764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|||||TWO_SIDED|90.0|-5.68|3.81|||Linear mixed effects model|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||Treatment comparison of maxMAΔ in SBP from baseline to Day 10 after PM dosing||3.81|-5.68|
92275562|NCT01335464|184453477|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.3558|TWO_SIDED|95.0|0.52|1.25|||Log Rank||Nintedanib 150mg bid versus placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height||1.25|0.52|0.3558
92275563|NCT01335464|184453478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.181||0.1138|TWO_SIDED|95.0|-0.07|0.64|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150mg bid versus placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline SpO2, baseline SpO2-by-visit and random effect for patient.||0.64|-0.07|0.1138
92275564|NCT01335464|184453479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.0896||0.865|TWO_SIDED|95.0|-0.191|0.161|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150mg bid versus placebo"|Mixed Model for Repeated Measures with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline DLCO (HGB Corrected) \[mmol/min/kPa\], baseline DLCO (HGB Corrected) \[mmol/min/kPa\]-by-visit and random effect for patient.||0.161|-0.191|0.8650
92275565|NCT03210259|184453490|EQUIVALENCE|Equivalence was concluded if the confidence interval (CI) for the least squares (LS) means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Least squares means ratio|105.19|||||TWO_SIDED|90.2|96.58|114.64|||||The least squares means were from ANCOVA. Ratio was calculated with the switching arm in the numerator and the continuous arm in the denominator.|The null hypothesis was that the ratio of expected means for Switching vs. Continuous Humira is less than 80.00% or more than 125.00%.||114.64|96.58|
92275566|NCT03210259|184453491|EQUIVALENCE|Equivalence was concluded if the confidence interval (CI) for the LS means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Least squares means ratio|101.14|||||TWO_SIDED|90.2|93.26|109.7|||||The least squares means were from ANCOVA. Ratio was calculated with the switching arm in the numerator and the continuous arm in the denominator.|The null hypothesis was that the ratio of expected means for Switching vs. Continuous Humira is less than 80.00% or more than 125.00%.||109.70|93.26|
92275567|NCT03210259|184453492|OTHER||Least squares means ratio|107.31|||||TWO_SIDED|90.2|97.33|118.43|||||The least squares means were from ANCOVA. Ratio was calculated with the switching arm as numerator and the continuous arm as the denominator.|No hypothesis was defined and no statistical test was performed.||118.43|97.33|
92275568|NCT03210259|184453494|OTHER||Risk Difference (RD)|5.75|||||TWO_SIDED|90.0|-2.45|13.96|||||Risk difference was calculated as Switching arm minus Continuous Humira.|No hypothesis was tested.||13.96|-2.45|
92275569|NCT03210259|184453495|OTHER||Risk Difference (RD)|5.63|||||TWO_SIDED|90.0|-4.35|15.62|||||Risk difference was calculated as Switching arm minus Continuous Humira.|No hypothesis was tested.||15.62|-4.35|
92275570|NCT00990561|184453538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.0|||<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||Null hypothesis = there is no difference between using ultravate once daily vs. twice daily||||<0.001
92275571|NCT03182686|184453539|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"H0:π ≤ π0 versus HA:π \> π0~Where π0 is the hypothesized clinically significant value for the proportion of responders. The value will be 30% in this study. This test will be tested using an exact binomial test. That is, given the sample size of n, the number of responders X, and the value of π0 =0.30, then probability that X or more events would be observed will be calculated as the p-value. Since this is a one-sided test, the alpha level will be 0.025."||||<0.0001
92275572|NCT01989195|184453599|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92348610|NCT00315445|184600673|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.67||||0.054|||||||Regression, Cox|For the secondary outcome measure no alpha adjustment for multiple comparison was performed.||||||0.054
92348611|NCT00315445|184600673|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51||||0.138|||||||Regression, Cox|For the secondary outcome measure no alpha adjustment for multiple comparison was performed.||||||0.138
92348612|NCT00315445|184600674|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.0105|||||||Regression, Cox|For the secondary outcomes no alpha adjustment for multiple comparison was performed.||||||0.0105
92159890|NCT01446003|184207764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.26|||||TWO_SIDED|90.0|0.81|9.71|||Linear mixed effects model|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||Treatment comparison of maxMAΔ in DBP from baseline to Day 10 after AM dosing||9.71|0.81|
92275573|NCT01512979|184453611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001||95.0|-1.13|-0.46||The model includes treatment and continuous baseline HbA1c.|ANCOVA|||||-0.46|-1.13|<0.0001
92348613|NCT00315445|184600674|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.04||||0.0024|||||||Regression, Cox|For the secondary outcome measure no alpha adjustment for multiple comparison was performed.||||||0.0024
92348614|NCT00315445|184600675|SUPERIORITY_OR_OTHER|||||||0.033|||||||Mixed Models Analysis|||||||.033
92348615|NCT00315445|184600675|SUPERIORITY_OR_OTHER|||||||0.043|||||||Mixed Models Analysis|||||||.043
92348616|NCT00315445|184600676|SUPERIORITY_OR_OTHER|||||||0.011|||||||Mixed Models Analysis|||||||.011
92348617|NCT00315445|184600676|SUPERIORITY_OR_OTHER|||||||0.034|||||||Mixed Models Analysis|||||||.034
92348618|NCT00315445|184600677|SUPERIORITY_OR_OTHER|||||||0.038|||||||Mixed Models Analysis|||||||.038
92159891|NCT01446003|184207764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|||||TWO_SIDED|90.0|-4.55|1.17|||Linear mixed effects model|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||Treatment comparison of maxMAΔ in DBP from baseline to Day 10 after PM dosing||1.17|-4.55|
92159892|NCT00318656|184207771|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.02|STANDARD_ERROR_OF_MEAN|2.49||0.064||95.0|-0.32|10.36|||ANCOVA|Analysis of covariance (ANCOVA)|Mean Difference =(Rosiglitazone + Met) - (Glimepiride+Met)|Statistical analysis was based off of week 12 results.||10.36|-0.32|0.064
92159893|NCT00318656|184207772|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|1.45||0.923||95.0|-3.37|2.85||P value von elteren (adjusted on sex)|ANCOVA||Mean Difference =(Rosiglitazone + Met) - (Glimepiride+Met)|Statistical analysis was based off of week 12 results.||2.85|-3.37|0.923
92159894|NCT00819234|184207835|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.23|STANDARD_ERROR_OF_MEAN|2.863||0.0135|TWO_SIDED|95.0|-12.93|-1.54|||t-test, 2 sided|||Treatment comparisons between each active treatment and placebo. Statistical tests performed two-sided at a significance level of α = 0.05. The null hypothesis tested was that there is no difference between each active treatment and the placebo treatment. The primary analysis did not incorporate any adjustment for multiple comparisons.||-1.54|-12.93|0.0135
92159895|NCT00819234|184207835|SUPERIORITY_OR_OTHER||LS Mean|-6.55|STANDARD_ERROR_OF_MEAN|2.681||0.0168|TWO_SIDED|95.0|-11.89|-1.21|||t-test, 2 sided|||Treatment comparisons between each active treatment and placebo. Statistical tests performed two-sided at a significance level of α = 0.05. The null hypothesis tested was that there is no difference between each active treatment and the placebo treatment. The primary analysis did not incorporate any adjustment for multiple comparisons||-1.21|-11.89|0.0168
92159896|NCT00819234|184207835|SUPERIORITY_OR_OTHER||LS Mean|-5.52|STANDARD_ERROR_OF_MEAN|2.887||0.0595|TWO_SIDED|95.0|-11.27|0.23|||t-test, 2 sided|||Treatment comparisons between each active treatment and placebo. Statistical tests performed two-sided at a significance level of α = 0.05. The null hypothesis tested was that there is no difference between each active treatment and the placebo treatment. The primary analysis did not incorporate any adjustment for multiple comparisons||0.23|-11.27|0.0595
92159897|NCT03568162|184207869|SUPERIORITY|The analysis was conducted using a mixed model for repeated measures (MMRM) model for percent change from baseline in EASI with the corresponding baseline value as covariate, and treatment group, region, disease severity, visit as fixed effect factors, and interactions of treatment-by-visit, baseline-by-visit|LS Mean Difference|-20.192|STANDARD_ERROR_OF_MEAN|7.4781|=|0.008|TWO_SIDED|95.0|-34.944|5.439|||Mixed Models Analysis||A linear contrast was used to estimate the treatment difference|||5.439|-34.944|= 0.008
92159898|NCT03568162|184207869|SUPERIORITY|The analysis was conducted using a MMRM model for percent change from baseline in EASI with the corresponding baseline value as covariate, and treatment group, region, disease severity, visit as fixed effect factors, and interactions of treatment-by-visit, baseline-by-visit.|LS Mean Difference|-14.439|STANDARD_ERROR_OF_MEAN|7.6622|=|0.061|TWO_SIDED|95.0|-29.552|0.674|||Mixed Models Analysis||A linear contrast was used to estimate the treatment difference|||0.674|-29.552|= 0.061
92159899|NCT03568162|184207869|SUPERIORITY|The analysis was conducted using a mixed MMRM model for percent change from baseline in EASI with the corresponding baseline value as covariate, and treatment group, region, disease severity, visit as fixed effect factors, and interactions of treatment-by-visit, baseline-by-visit.|LS Mean Difference|3.144|STANDARD_ERROR_OF_MEAN|7.8864|=|0.691|TWO_SIDED|95.0|-12.41|18.698|||Mixed Models Analysis||A linear contrast was used to estimate the treatment difference.|||18.698|-12.410|= 0.691
92348619|NCT00315445|184600677|SUPERIORITY_OR_OTHER|||||||0.63|||||||Mixed Models Analysis|||||||0.63
92348620|NCT00315445|184600678|SUPERIORITY_OR_OTHER|||||||0.064|||||||Mixed Models Analysis|||||||.064
92348621|NCT00315445|184600678|SUPERIORITY_OR_OTHER|||||||0.066|||||||Mixed Models Analysis|||||||.066
92348622|NCT00315445|184600679|SUPERIORITY_OR_OTHER|||||||0.607|||||||Mixed Models Analysis|||||||.607
92348623|NCT00315445|184600679|SUPERIORITY_OR_OTHER|||||||0.94|||||||Mixed Models Analysis|||||||.940
92348624|NCT00315445|184600680|SUPERIORITY_OR_OTHER|||||||0.702|||||||Mixed Models Analysis|||||||.702
92348625|NCT00315445|184600680|SUPERIORITY_OR_OTHER|||||||0.634|||||||Mixed Models Analysis|||||||.634
92348626|NCT01299909|184600684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.35|TWO_SIDED|95.0|0.67|3.51|||Regression, Logistic|||||3.51|0.67|0.35
92348627|NCT01299909|184600685|SUPERIORITY||Mean Difference (Final Values)|4.81||||0.03|TWO_SIDED||||||ANOVA|df=(1,57)||||||0.03
92348628|NCT01299909|184600686|SUPERIORITY||Mean Difference (Final Values)|6.09||||0.02|TWO_SIDED||||||ANOVA|df=(1,57)||||||0.02
92348629|NCT01299909|184600687|SUPERIORITY||Mean Difference (Final Values)|4.96||||0.03|TWO_SIDED||||||ANOVA|df=(1,57)||||||0.03
92348630|NCT02293499|184600737|SUPERIORITY||partial eta squared|0.003||||0.043|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.043
92348631|NCT02293499|184600737|SUPERIORITY||partial eta squared|0.21||||0|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.00
92348632|NCT02293499|184600737|SUPERIORITY||Sobel Statistic|2.4119||||0.0079|TWO_SIDED||||||Sobel|||Mediator analysis of AMI-SEI subscale on quality of life||||.0079
92348633|NCT02293499|184600737|SUPERIORITY||Sobel Statistic|2.1132||||0.0172|TWO_SIDED||||||Sobel|||Mediator analysis of ACQ Total score subscale on quality of life||||.0172
92348634|NCT02293499|184600738|SUPERIORITY||partial eta squared|0.001||||0.295|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||0.295
92159900|NCT03568162|184207869|SUPERIORITY||LS Mean Difference|-17.199|STANDARD_ERROR_OF_MEAN|6.409|=|0.008|TWO_SIDED|95.0|-29.895|-4.503|||Mixed Models Analysis||A linear contrast was used to estimate the treatment difference.|The analysis was conducted using a MMRM model for percent change from baseline in EASI with the corresponding baseline value as covariate, and treatment group, region, disease severity, visit as fixed effect factors, and interactions of treatment-by-visit, baseline-by-visit.||-4.503|-29.895|= 0.008
92159901|NCT00938340|184207891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0|||||Mixed Models Analysis|||||||0.012
92159902|NCT00938340|184207891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.52
92159903|NCT00938340|184207891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.011
92159904|NCT00938340|184207891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.29
92159905|NCT00938340|184207891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.002
92159906|NCT00938340|184207891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.093||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.093
92159907|NCT00938340|184207891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.12
92159908|NCT00938340|184207892|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
92159909|NCT00938340|184207892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.15
92159910|NCT00938340|184207892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.35
92159911|NCT00938340|184207892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.011
92159912|NCT00938340|184207892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.62
92159913|NCT00938340|184207892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.0002
92159914|NCT00938340|184207892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.0013
92159915|NCT00938340|184207893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15||||||Main effect of treatment by timepoint|Mixed Models Analysis|||||||0.15
92159916|NCT00938340|184207894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79|||||||Mixed Models Analysis|||||||0.79
92159917|NCT00938340|184207895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Mixed Models Analysis|||||||0.010
92159918|NCT00938340|184207895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.98
92159919|NCT00938340|184207895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.004
92159920|NCT00938340|184207895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.11
92159921|NCT00938340|184207895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.004
92159922|NCT00938340|184207895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.11
92159923|NCT00938340|184207895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.16
92159924|NCT00938340|184207896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||Mixed Models Analysis|||||||0.007
92159925|NCT00938340|184207896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.004
92159926|NCT00938340|184207896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.62
92159927|NCT00938340|184207896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.14
92159928|NCT00938340|184207896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.002
92348635|NCT02293499|184600738|SUPERIORITY||partial eta squared|0.15||||0|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.00
92400166|NCT04516746|184691900|SUPERIORITY||Vaccine efficacy|54.47|||||TWO_SIDED|95.0|46.48|61.26||||||The 95% CI were estimated based on Poisson regression with robust variance (including study arm and age group at screening (18-65 years, ≥ 65 years) as covariates and log of the follow-up time as an offset).||61.26|46.48|
92348636|NCT02293499|184600739|SUPERIORITY||partial eta squared|0.002||||0.14|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.140
92159929|NCT00938340|184207896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.22
92159930|NCT00938340|184207896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.074||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.074
92159931|NCT00938340|184207897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53|||||||Mixed Models Analysis|||||||0.53
92159932|NCT00938340|184207898|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92159933|NCT00938340|184207899|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92159934|NCT00938340|184207900|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92159935|NCT00938340|184207901|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92159936|NCT00938340|184207902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44|||||||Mixed Models Analysis|||||||0.44
92159937|NCT00938340|184207903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62|||||||Mixed Models Analysis|||||||0.62
92159938|NCT00938340|184207904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011|||||||Mixed Models Analysis|||||||0.011
92159939|NCT00938340|184207904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.007
92159940|NCT00938340|184207904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.99
92159941|NCT00938340|184207904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.037
92159942|NCT00938340|184207904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0087||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.0087
92159943|NCT00938340|184207904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.64
92159944|NCT00938340|184207904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.043
92159945|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92159946|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.91
92159947|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.21
92159948|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0011
92159949|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0004
92159950|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.11
92159951|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.53
92159952|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.59||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.59
92159953|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.31
92159954|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.98
92400167|NCT03489863|184691901|NON_INFERIORITY|see above|Mean Difference (Net)|-18.0|||<|0.05|TWO_SIDED|95.0|-38.0|2.0|||ANCOVA|||The primary endpoint is non-inferiority in PRU, at 24 hours of prasugrel versus ticagrelor. Under the assumption of 0 difference at 24 hours in mean PRU between ticagrelor and prasugrel and a common standard deviation of 50 PRU, a sample size of 22 patients per group allows for the 95% CI to stay within ± 45 PRU with a 90% power and alpha = 0.05.||2|-38|<0.05
92348637|NCT02293499|184600739|SUPERIORITY||partial eta squared|0.15||||0|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.00
92348638|NCT02293499|184600740|SUPERIORITY||partial eta squared|0.001||||0.268|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.268
92348639|NCT02293499|184600740|SUPERIORITY||partial eta squared|0.06||||0.14|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.14
92400168|NCT05546476|184691968|SUPERIORITY||Difference in Posterior Median|1.33|||||TWO_SIDED|90.0|0.49|2.34||||||Bayesian Emax model was used for statistical calculation. The posterior medians and 90% credible intervals (5th and 95th percentiles of the relevant posterior distribution) were reported for differences relative to placebo). No adjustments were made for multiplicity.||2.34|0.49|
92400169|NCT05546476|184691968|SUPERIORITY||Difference in Posterior Median|2.08|||||TWO_SIDED|90.0|1.08|3.15||||||Bayesian Emax model was used for statistical calculation. The posterior medians and 90% credible intervals (5th and 95th percentiles of the relevant posterior distribution) were reported for differences relative to placebo). No adjustments were made for multiplicity.||3.15|1.08|
92400170|NCT05546476|184691968|SUPERIORITY||Difference in Posterior Median|3.0|||||TWO_SIDED|90.0|1.68|4.34||||||Bayesian Emax model was used for statistical calculation. The posterior medians and 90% credible intervals (5th and 95th percentiles of the relevant posterior distribution) were reported for differences relative to placebo). No adjustments were made for multiplicity.||4.34|1.68|
92400171|NCT05546476|184691969|SUPERIORITY||Difference in LS Mean|53.36|||=|0.826|TWO_SIDED|90.0|-40.89|147.6|||MMRM analysis; 1-sided|||Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||147.60|-40.89|=0.8260
92159955|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.30
92159956|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.91
92159957|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.12
92159958|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.007
92159959|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0089||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0089
92159960|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.28
92159961|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.62
92159962|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.48
92159963|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||<0.0001
92159964|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0003
92218933|NCT01431274|184338476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.051|STANDARD_ERROR_OF_MEAN|0.021||0.0136|TWO_SIDED|95.0|0.01|0.091||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).|||0.091|0.010|0.0136
92159965|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.57
92159966|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.99
92159967|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.71
92159968|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.62
92400172|NCT05546476|184691969|SUPERIORITY||Difference in LS Mean|-37.9|||=|0.254|TWO_SIDED|90.0|-132.94|57.14|||MMRM analysis; 1-sided|||Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||57.14|-132.94|=0.2540
92400173|NCT05546476|184691969|SUPERIORITY||Difference in LS Mean|-1.95|||=|0.487|TWO_SIDED|90.0|-101.63|97.73|||MMRM analysis; 1-sided|||Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||97.73|-101.63|=0.4870
92400174|NCT05546476|184691969|SUPERIORITY||Difference in LS Mean|37.76|||=|0.0497|TWO_SIDED|90.0|0.07|75.46|||MMRM analysis; 1-sided|||Non-Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||75.46|0.07|=0.0497
92400175|NCT05546476|184691969|SUPERIORITY||Difference in LS Mean|-4.36|||=|0.5745|TWO_SIDED|90.0|-42.94|34.22|||MMRM analysis; 1-sided|||Non-Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||34.22|-42.94|=0.5745
92400176|NCT05546476|184691969|SUPERIORITY||Difference in LS Mean|49.85|||=|0.0189|TWO_SIDED|90.0|10.62|89.08|||MMRM analysis; 1-sided|||Non-Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||89.08|10.62|=0.0189
92400177|NCT05546476|184691969|SUPERIORITY||Difference in LS Mean|8.51|||=|0.1302|TWO_SIDED|90.0|-4.0|21.03|||MMRM analysis; 1-sided|||Moderate to Vigorous Physical Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||21.03|-4.00|=0.1302
92400178|NCT05546476|184691969|SUPERIORITY||Difference in LS Mean|4.49|||=|0.278|TWO_SIDED|90.0|-8.18|17.16|||MMRM analysis; 1-sided|||Moderate to Vigorous Physical Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||17.16|-8.18|=0.2780
92400179|NCT05546476|184691969|SUPERIORITY||Difference in LS Mean|8.11|||=|0.1529|TWO_SIDED|90.0|-5.01|21.23|||MMRM analysis; 1-sided|||Moderate to Vigorous Physical Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||21.23|-5.01|=0.1529
92159969|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.33
92159970|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.65||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.65
92159971|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.66
92159972|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.30
92159973|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0005
92159974|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0085||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0085
92159975|NCT00938340|184207905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.92
92159976|NCT00924560|184207909|NON_INFERIORITY_OR_EQUIVALENCE|91-day levonorgestrel OC was declared to be non-inferior to the untreated control group if the lower bound of the 2-sided 95% confidence interval (CI) was greater than -3%.|LS Mean Difference|-0.23|||||TWO_SIDED|95.0|-0.67|0.2|||||Difference = OC group minus the untreated control|The primary efficacy endpoint (percent change from baseline to 12 months in lumbar spine BMD) was analyzed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.20|-0.67|
92159977|NCT00924560|184207909|NON_INFERIORITY_OR_EQUIVALENCE|28-day levonorgestrel OC was declared to be non-inferior to the untreated control group if the lower bound of the 2-sided 95% confidence interval (CI) was greater than -3%.|LS Mean Difference|-1.05|||||TWO_SIDED|95.0|-1.49|-0.61|||||Difference = OC group minus the untreated control|The primary efficacy endpoint (percent change from baseline to 12 months in lumbar spine BMD) was analyzed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.61|-1.49|
92348640|NCT02293499|184600741|SUPERIORITY||partial eta squared|0.001||||0.238|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.238
92159978|NCT00924560|184207910|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|0.0|0.01||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.01|-0.00|
92159979|NCT00924560|184207910|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.00|-0.01|
92348641|NCT02293499|184600741|SUPERIORITY||partial eta squared|0.03||||0.43|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.43
92348642|NCT02293499|184600741|SUPERIORITY||Slope|-0.203||||0.024|TWO_SIDED||||||Mixed Models Analysis|||||||.024
92348643|NCT02293499|184600742|SUPERIORITY||partial eta squared|0.0||||0.484|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.484
92348644|NCT02293499|184600742|SUPERIORITY||partial eta squared|0.12||||0|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.00
92400180|NCT05546476|184691970|SUPERIORITY||Difference in LS Mean|-130.27|||=|0.5762|TWO_SIDED|90.0|-1257.31|996.77|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||996.77|-1257.31|=0.5762
92159980|NCT00924560|184207910|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.00|-0.01|
92159981|NCT00924560|184207910|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.02|-0.01||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.01|-0.02|
92159982|NCT00924560|184207911|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17|||||TWO_SIDED|95.0|-0.08|0.42||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.42|-0.08|
92159983|NCT00924560|184207911|SUPERIORITY_OR_OTHER||LS mean Difference|-0.43|||||TWO_SIDED|95.0|-0.68|-0.18||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.18|-0.68|
92159984|NCT00924560|184207911|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07|||||TWO_SIDED|95.0|-0.39|0.24||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.24|-0.39|
92159985|NCT00924560|184207911|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.74|||||TWO_SIDED|95.0|-1.05|-0.42||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.42|-1.05|
92159986|NCT00924560|184207912|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|0.0|0.01||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.01|0.00|
92159987|NCT00924560|184207912|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.00|-0.01|
92159988|NCT00924560|184207912|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|||||TWO_SIDED|95.0|0.0|0.01||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.01|0.00|
92159989|NCT00924560|184207912|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|0.95|-0.01|0.0||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.00|-0.01|
92159990|NCT00924560|184207913|SUPERIORITY_OR_OTHER||LS mean Difference|0.13|||||TWO_SIDED|95.0|-0.03|0.28||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.28|-0.03|
92159991|NCT00924560|184207913|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|||||TWO_SIDED|95.0|-0.2|0.11||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.11|-0.20|
92159992|NCT00924560|184207913|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16|||||TWO_SIDED|95.0|-0.01|0.34||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.34|-0.01|
92275574|NCT01512979|184453612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.9|STANDARD_ERROR_OF_MEAN|5.7||0.0032||95.0|-28.0|-5.7||The model includes treatment, continuous baseline HbA1c and continuous baseline FPG.|ANCOVA|||||-5.7|-28.0|0.0032
92348645|NCT02293499|184600743|SUPERIORITY||partial eta squared|0.0||||0.648|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.648
92348646|NCT02293499|184600743|SUPERIORITY||partial eta squared|0.07||||0.04|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.04
92348647|NCT02293499|184600744|SUPERIORITY||partial eta squared|0.003||||0.02|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.020
92348648|NCT02293499|184600744|SUPERIORITY||partial eta squared|0.04||||0.23|TWO_SIDED|||||A priori threshold for statistical significance is \<.05|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.23
92159993|NCT00924560|184207913|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|||||TWO_SIDED|95.0|-0.32|0.03||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.03|-0.32|
92218934|NCT01431274|184338476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.075|STANDARD_ERROR_OF_MEAN|0.021||0.0003|TWO_SIDED|95.0|0.035|0.116||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).|||0.116|0.035|0.0003
92159994|NCT00924560|184207914|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.00|-0.01|
92159995|NCT00924560|184207914|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.00|-0.01|
92159996|NCT00924560|184207914|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.00|-0.01|
92159997|NCT00924560|184207914|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.00|-0.01|
92159998|NCT00924560|184207915|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.48|||||TWO_SIDED|95.0|-23.57|12.61||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||12.61|-23.57|
92159999|NCT00924560|184207915|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.55|||||TWO_SIDED|95.0|-25.65|10.55||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||10.55|-25.65|
92218935|NCT01431274|184338476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.059|STANDARD_ERROR_OF_MEAN|0.022||0.0065|TWO_SIDED|95.0|0.016|0.101||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).|||0.101|0.016|0.0065
92160000|NCT00924560|184207915|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.09|||||TWO_SIDED|95.0|-34.99|10.81||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||10.81|-34.99|
92160001|NCT00924560|184207915|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.17|||||TWO_SIDED|95.0|-44.08|1.74||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||1.74|-44.08|
92160002|NCT02753530|184207951|SUPERIORITY||Least Square (LS) Mean Difference|-0.99||||0.1146|TWO_SIDED|95.0|-2.23|0.24||Primary Estimand (Treatment Policy)|Mixed Models Analysis|||The baseline observation was the last observation recorded prior to the first dose of study medication. The change from baseline in IBMFRS total score was analyzed using a Mixed Models for Repeated Measures (MMRM) with treatment interacting with visit and trial site as factors. Baseline IBMFRS total score interacting with visit was further included as covariate. An unstructured covariance matrix was assumed.||0.24|-2.23|0.1146
92160003|NCT01324882|184207999|OTHER|||||||1|||||||Fisher Exact|||||||1.00
92160004|NCT01290094|184208002|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED|||||P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||<0.0005
92160005|NCT01290094|184208003|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED|||||P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||<0.0005
92160006|NCT01290094|184208004|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||0.001
92160007|NCT01290094|184208005|SUPERIORITY_OR_OTHER|||||||0.056|TWO_SIDED|||||P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||0.056
92160008|NCT01290094|184208006|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED|||||Month 12: P-value for percent change from baseline was from a Wilcoxon signed rank test.|Wilcoxon signed rank test|||||||<0.0005
92348649|NCT02293499|184600745|SUPERIORITY||partial eta squared|0.002||||0.049|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.049
92348650|NCT02293499|184600745|SUPERIORITY||partial eta squared|0.12||||0|TWO_SIDED|||||A priori threshold for statistical significance is \<.05|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.00
92348651|NCT02293499|184600745|SUPERIORITY||Slope|-0.294||||0.004|TWO_SIDED||||||Mixed Models Analysis|||||||.004
92348652|NCT02293499|184600745|SUPERIORITY||Sobel Statistic|-2.3505||||0.0093|TWO_SIDED||||||Sobel|||Mediator analysis of AMI-SEI subscale on ACQ total||||.0093
92348653|NCT03915067|184600746|SUPERIORITY||Rate Difference|65.8|||<|0.0001|TWO_SIDED|95.0|51.5|80.1||P-value derived from CMH model stratified by investigator site and C-APPS at Day 1.|Cochran-Mantel-Haenszel|||||80.1|51.5|<0.0001
92160009|NCT01290094|184208006|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED|||||Month 24: P-value for percent change from baseline was from a Wilcoxon signed rank test.|Wilcoxon signed rank test|||||||<0.0005
92160010|NCT01290094|184208007|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED|||||Month 12: P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||<0.0005
92160011|NCT01290094|184208007|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED|||||Month 24: P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||0.027
92160012|NCT01289119|184208032|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|||<|0.001|TWO_SIDED|95.0|-0.78|-0.37|||ANCOVA|ANCOVA model with treatment as a fixed effect, and baseline HbA1c as a covariate.||The analysis was conducted at the 2-sided 5% significance level without a multiplicity adjustment.||-0.37|-0.78|<0.001
92160013|NCT01289119|184208032|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.69|||<|0.001|TWO_SIDED|95.0|-0.87|-0.51||ANCOVA model with treatment as a fixed effect, and baseline HbA1c with baseline metformin dose as covariates.|ANCOVA|||The analysis was conducted at the 2-sided 5% significance level without a multiplicity adjustment.||-0.51|-0.87|<0.001
92160014|NCT01289119|184208032|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.75|-0.28|||ANCOVA|ANCOVA model with treatment as a fixed effect, and baseline HbA1c with baseline metformin therapy status and baseline pioglitazone dose as covariates.||The analysis was conducted at the 2-sided 5% significance level without a multiplicity adjustment.||-0.28|-0.75|<0.001
92160015|NCT01704846|184208044|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|100.47|||||TWO_SIDED|90.0|95.9|105.25|||||Ratio calculated as Test product divided by reference product|||105.25|95.90|
92160016|NCT01704846|184208045|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|102.99|||||TWO_SIDED|90.0|95.57|110.98|||||Ratio calculated as Test product divided by reference product|||110.98|95.57|
92160017|NCT01704846|184208046|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|100.54|||||TWO_SIDED|90.0|96.1|105.18|||||Ratio calculated as Test product divided by reference product|||105.18|96.10|
92160018|NCT01704846|184208047|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the adjusted mean ratio was 80 to 125%.|Adjusted Mean Ratio (%)|97.66|||||TWO_SIDED|90.0|91.54|103.78|||||Ratio calculated as Test product divided by reference product|||103.78|91.54|
92218936|NCT01431274|184338476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.021||0.0277|TWO_SIDED|95.0|0.005|0.089||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).|||0.089|0.005|0.0277
92348654|NCT03915067|184600746|SUPERIORITY||Rate Difference|76.2|||<|0.0001|TWO_SIDED|95.0|63.6|88.9||P-value derived from CMH model stratified by investigator site and C-APPS at Day 1.|Cochran-Mantel-Haenszel|||||88.9|63.6|<0.0001
92160019|NCT01704846|184208048|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|100.34|||||TWO_SIDED|90.0|98.51|102.2|||||Ratio calculated as Test product divided by reference product|||102.20|98.51|
92218937|NCT01431274|184338476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.122|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|0.081|0.164||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).|||0.164|0.081|<0.0001
92275575|NCT01512979|184453614|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.83||||0.0031||95.0|1.573|9.328||The model includes treatment and continuous baseline HbA1c.|Regression, Logistic|||||9.328|1.573|0.0031
92160020|NCT01704846|184208049|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|99.66|||||TWO_SIDED|90.0|97.85|101.51|||||Ratio calculated as Test product divided by reference product|||101.51|97.85|
92160021|NCT01704846|184208050|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|100.2|||||TWO_SIDED|90.0|98.1|102.34|||||Ratio calculated as Test product divided by reference product|||102.34|98.10|
92160022|NCT00530335|184208067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Total ADHD Symptoms Score (endpoint - baseline).|t-test, 2 sided|||||||<0.001
92348655|NCT03915067|184600769|SUPERIORITY||Rate Difference|57.9|||<|0.0001|TWO_SIDED|95.0|42.3|73.5||P-value was derived from CMH model stratified by investigator site and P-APPS at Day 1.|Cochran-Mantel-Haenszel|||||73.5|42.3|<0.0001
92218938|NCT01431274|184338476|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.008|STANDARD_ERROR_OF_MEAN|0.021||0.7116|TWO_SIDED|95.0|-0.049|0.034||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Olodaterol (5 µg).|||0.034|-0.049|0.7116
92348656|NCT03915067|184600769|SUPERIORITY||Rate Difference|70.2|||<|0.0001|TWO_SIDED|95.0|56.4|84.1||P-value derived from CMH model stratified by investigator site and P-APPS at Day 1.|Cochran-Mantel-Haenszel|||||84.1|56.4|<0.0001
92348657|NCT02034591|184600794|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.682|||||TWO_SIDED|90.0|0.621|0.748||||||||0.748|0.621|
92348658|NCT02034591|184600795|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.813|||||TWO_SIDED|90.0|0.766|0.863||||||||0.863|0.766|
92348659|NCT02034591|184600796|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.81|||||TWO_SIDED|90.0|0.764|0.86||||||||0.860|0.764|
92348660|NCT02034591|184600797|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.884|||||TWO_SIDED|90.0|0.83|0.942||||||||0.942|0.830|
92348661|NCT02034591|184600798|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.95|||||TWO_SIDED|90.0|0.905|0.997||||||||0.997|0.905|
92348662|NCT02034591|184600799|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.947|||||TWO_SIDED|90.0|0.903|0.994||||||||0.994|0.903|
92400181|NCT05546476|184691970|SUPERIORITY||Difference in LS Mean|724.14|||=|0.1486|TWO_SIDED|90.0|-425.81|1874.09|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1874.09|-425.81|=0.1486
92400182|NCT05546476|184691970|SUPERIORITY||Difference in LS Mean|185.62|||=|0.3972|TWO_SIDED|90.0|-997.94|1369.18|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1369.18|-997.94|=0.3972
92160023|NCT00530335|184208067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Inattentive Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
92160024|NCT00530335|184208067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Hyperactivity/Impulsive Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
92160025|NCT00530335|184208067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in ADHD Index Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
92160026|NCT00530335|184208068|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Total ADHD Symptoms Score (endpoint - baseline).|t-test, 2 sided|||||||<0.001
92160027|NCT00530335|184208068|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Inattentive Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
92160028|NCT00530335|184208068|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Hyperactive/Impulsive Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
92160029|NCT00530335|184208068|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in ADHD Index Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
92160030|NCT00530335|184208069|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92160031|NCT00530335|184208070|SUPERIORITY_OR_OTHER|||||||0.749||95.0|||||t-test, 2 sided|||||||0.749
92160032|NCT00530335|184208071|SUPERIORITY_OR_OTHER|||||||0.886||95.0|||||t-test, 2 sided|||||||0.886
92160033|NCT00530335|184208073|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for comparing differences in Word Test number of correct responses (endpoint - baseline).|t-test, 2 sided|||||||0.005
92160034|NCT00530335|184208073|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for comparing differences in Color Test number of correct responses (endpoint - baseline).|t-test, 2 sided|||||||<0.001
92160035|NCT00530335|184208073|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for comparing differences in Color-Word Test number of correct responses (endpoint - baseline).|t-test, 2 sided|||||||0.003
92160036|NCT02072226|184208134|OTHER|Confidence Interval|Adjusted Risk Difference|-1.1|||||TWO_SIDED|95.0|-9.44|7.25||||||||7.25|-9.44|
92160037|NCT02072226|184208135|OTHER|Confidence Interval|Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.527|1.244||||||||1.244|0.527|
92160038|NCT02072226|184208136|OTHER|Confidence Interval|Odds Ratio (OR)|0.858|||||TWO_SIDED|95.0|0.529|1.393||||||||1.393|0.529|
92160039|NCT02072226|184208137|OTHER|Confidence Interval|difference in percentages|3.25|||||TWO_SIDED|95.0|0.75|7.38||||||||7.38|0.75|
92160040|NCT02072226|184208138|OTHER|Confidence Interval|difference in percentages|4.53|||||TWO_SIDED|95.0|-0.34|10.07||||||Any ICH within 36 hours reported by site||10.07|-0.34|
92160041|NCT02072226|184208138|OTHER|Confidence Interval|difference in percentages|3.87|||||TWO_SIDED|95.0|-1.23|9.49||||||Any ICH within 36 hours reported by central reader||9.49|-1.23|
92160042|NCT02467491|184208148|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||t-test, 2 sided|||The Short Physical Performance Battery (SPPB) score at baseline was compared with the SPPB scored after 4 weeks of physical activity intervention with a paired t-test||||0.04
92348663|NCT00712920|184600826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.03||95.0|-1.7|-0.1|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.10|-1.70|0.03
92348664|NCT00712920|184600826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.08||95.0|-1.5|0.1|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||0.1|-1.5|0.08
92348665|NCT00712920|184600827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6419|STANDARD_DEVIATION|0.3924||0.102||95.0|-1.41|0.13|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||0.13|-1.41|0.102
92348666|NCT00712920|184600827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7925|STANDARD_DEVIATION|0.3935||0.044||95.0|-1.56|-0.02|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.02|-1.56|0.044
92348667|NCT00712920|184600828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4394|STANDARD_DEVIATION|0.3631||0.226||95.0|-1.15|0.27|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 28||0.27|-1.15|0.226
92160043|NCT02467491|184208149|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||The Short Physical Performance Battery (SPPB) score after 4 weeks of physical activity intervention was compared with the SPPB score after 2 to 3 months from the completion of the physical activity intervention with a paired t-test||||0.02
92160044|NCT01466881|184208189|SUPERIORITY_OR_OTHER|||||||0.2316|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided alpha level of 0.05||The null hypothesis is that there is no significant difference in Aurora kinase A expression between responders and non-responders.||||0.2316
92160045|NCT03101592|184208190|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|4.0|||||TWO_SIDED|95.0|-4.3|12.3|||||RD is for retention 3MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||12.3|-4.3|
92160046|NCT03101592|184208190|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|9.1|||||TWO_SIDED|95.0|0.9|17.2|||||RD is for retention 6MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||17.2|0.9|
92160047|NCT03101592|184208190|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|1.0|9.1|||||RD is for retention 6MD vs. 3MD.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||9.1|1|
92160048|NCT03101592|184208190|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-0.8|1.6|||||RD is for transfer 3MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||1.6|-0.8|
92160049|NCT03101592|184208190|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.9|0.8|||||RD is for transfer 6MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||0.8|-0.9|
92160050|NCT03101592|184208190|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|-0.5|||||TWO_SIDED|95.0|-1.7|0.7|||||RD is for transfer 6MD vs. 3MD.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||0.7|-1.7|
92160051|NCT03101592|184208190|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.4|0.2|||||RD is for death 3MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||0.2|-0.4|
92160052|NCT03101592|184208190|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.9|0.8|||||RD is for death 6MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||0.8|-0.9|
92348668|NCT00712920|184600828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1252|STANDARD_DEVIATION|0.3649||0.002||95.0|-1.84|-0.41|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 28||-0.41|-1.84|0.002
92348669|NCT00712920|184600829|SUPERIORITY_OR_OTHER|||||||0.292||95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||||||0.292
92348670|NCT00712920|184600829|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||||||0.040
92348671|NCT02489773|184600831|OTHER|Calculate the pearson correlation within whole subjects (across Group 1 and Group 2)|pearson correlation coefficient|0.6342|||||TWO_SIDED|||||||||||||
92160053|NCT03101592|184208190|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-0.3|0.3|||||RD is for death 6MD vs. 3MD.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||0.3|-0.3|
92160054|NCT01970943|184208194|OTHER||Mean Difference (Final Values)|0.6078||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92160055|NCT01970943|184208196|OTHER||Mean Difference (Final Values)|0.037786||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||.05
92160056|NCT02219490|184208207|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
92160057|NCT02219490|184208207|SUPERIORITY||Cox Proportional Hazard Ratio|0.126|||<|0.001|TWO_SIDED|95.0|0.044|0.358|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.358|0.044|<0.001
92160058|NCT02219490|184208208|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
92160059|NCT02219490|184208208|SUPERIORITY||Cox Proportional Hazard Ratio|0.031||||0.007|TWO_SIDED|95.0|0.003|0.38|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.380|0.003|0.007
92160060|NCT02219490|184208209|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
92160061|NCT02219490|184208209|SUPERIORITY||Cox Proportional Hazard Ratio|0.038|||<|0.001|TWO_SIDED|95.0|0.009|0.156|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.156|0.009|<0.001
92160062|NCT02219490|184208210|SUPERIORITY|||||||0.86|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||0.860
92160063|NCT02219490|184208210|SUPERIORITY|||||||0.997||||||The Hazard Ratio for experiencing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to those who did not achieve SVR12 is infinite and the CI is not bounded due to zero events in one of the groups.|Cox proportional hazards model|||A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||||0.997
92160064|NCT02219490|184208211|SUPERIORITY|||||||0.608|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||0.608
92160065|NCT02219490|184208211|SUPERIORITY|||||||0.992||||||The Hazard Ratio for experiencing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to those who did not achieve SVR12 is infinite and the CI is not bounded due to zero events in one of the groups.|Cox proportional hazards model|||A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||||0.992
92160066|NCT02219490|184208212|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
92160067|NCT02219490|184208212|SUPERIORITY||Cox Proportional Hazard Ratio|0.133|||<|0.001|TWO_SIDED|95.0|0.057|0.313|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.313|0.057|<0.001
92160068|NCT02219490|184208213|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.7||0.151|TWO_SIDED|95.0|-0.37|2.37|||ANCOVA||Difference = with SVR12 minus without SVR12|"Final Treatment Visit~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||2.37|-0.37|0.151
92160069|NCT02219490|184208213|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.78||0.878|TWO_SIDED|95.0|-1.64|1.4|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 12~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||1.4|-1.64|0.878
92160070|NCT02219490|184208213|SUPERIORITY||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.72|=|0.199|TWO_SIDED|95.0|-2.33|0.48|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 24~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||0.48|-2.33|=0.199
92160071|NCT02219490|184208213|SUPERIORITY||LS Mean Difference|-2.16|STANDARD_ERROR_OF_MEAN|0.93||0.021|TWO_SIDED|95.0|-4.0|-0.33|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 52~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||-0.33|-4|0.021
92160072|NCT02219490|184208213|SUPERIORITY||LS Mean Difference|-2.47|STANDARD_ERROR_OF_MEAN|0.89||0.006|TWO_SIDED|95.0|-4.22|-0.71|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 104~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||-0.71|-4.22|0.006
92218939|NCT01431274|184338476|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.024|STANDARD_ERROR_OF_MEAN|0.02||0.2332|TWO_SIDED|95.0|-0.065|0.016||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (2.5 µg) versus Olodaterol (5 µg).|||0.016|-0.065|0.2332
92218940|NCT01431274|184338476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.021||0.4374|TWO_SIDED|95.0|-0.025|0.059||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Tiotropium (2.5 µg).|||0.059|-0.025|0.4374
92218941|NCT01431274|184338477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.161|STANDARD_ERROR_OF_MEAN|0.043||0.0002|TWO_SIDED|95.0|0.077|0.244||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).|||0.244|0.077|0.0002
92160073|NCT02219490|184208213|SUPERIORITY||LS Mean Difference|-2.58|STANDARD_ERROR_OF_MEAN|0.92||0.005|TWO_SIDED|95.0|-4.38|-0.79|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 156~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||-0.79|-4.38|0.005
92160074|NCT02219490|184208213|SUPERIORITY||LS Mean Difference|-1.36|STANDARD_ERROR_OF_MEAN|1.0||0.172|TWO_SIDED|95.0|-3.32|0.59|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 208~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||0.59|-3.32|0.172
92160075|NCT02219490|184208213|SUPERIORITY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|1.14||0.322|TWO_SIDED|95.0|-3.35|1.1|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 260~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||1.1|-3.35|0.322
92160076|NCT01454362|184208215|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92160077|NCT01454362|184208216|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
92160078|NCT01454362|184208217|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92160079|NCT01454362|184208218|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92160080|NCT01454362|184208219|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
92160081|NCT01928940|184208242|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||For Investigator Assessed ORR|||99.6|35.9|<0.0001
92160082|NCT01928940|184208242|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||BICR Assessed ORR|||99.6|35.9|<0.0001
92160083|NCT01928940|184208247|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||For Investigator Assessed ORR|||99.6|35.9|<0.0001
92160084|NCT01928940|184208247|SUPERIORITY_OR_OTHER||Percentage|50.0||||0.0158|TWO_SIDED|95.0|11.8|82.2|||Exact binomial test||BICR Assessed ORR|||82.2|11.8|0.0158
92160085|NCT01928940|184208248|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||For Investigator Assessed ORR|||99.6|35.9|<0.0001
92160086|NCT01928940|184208248|SUPERIORITY_OR_OTHER||Percentage|50.0||||0.0158|TWO_SIDED|95.0|11.8|88.2|||Exact binomial test||BICR Assessed ORR|||88.2|11.8|0.0158
92160087|NCT01928940|184208251|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||For Investigator Assessed ORR|||99.6|35.9|<0.0001
92160088|NCT01928940|184208251|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||BICR Assessed ORR|||99.6|35.9|<0.0001
92160089|NCT01363479|184208266|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The null hypothesis was rejected (and non inferiority of oral palonosetron 0.50 mg versus I.V. palonosetron 0.25 mg demonstrated), if the lower limit of the 2 sided 99% CI for the difference in proportion of patients with CR (risk difference) was greater (i.e., closer to zero) than 15%.Study had 90% power.|Risk Difference (RD)|3.21|||||TWO_SIDED|99.0|-2.74|9.17|||||The risk difference and the 99% CI calculation were performed using a 2 sided stratum adjusted Cochran Mantel Haenszel (CMH) test including gender and region as strata.|||9.17|-2.74|
92160090|NCT01352507|184208269|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilson Score method|||Null hypothesis (H0): The proportion of participants who chose tadalafil over sildenafil is equal to 0.5 (p = 0.5), versus alternative hypothesis (H1): p is not equal to 0.5 (2-sided test).||||<0.001
92160091|NCT01352507|184208271|SUPERIORITY_OR_OTHER||Least Squares (LS) mean difference|0.02||||0.793|TWO_SIDED|95.0|-0.11|0.15||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.15|-0.11|0.793
92160092|NCT01352507|184208272|SUPERIORITY_OR_OTHER||LS mean difference|0.01||||0.988|TWO_SIDED|95.0|-1.35|1.37||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||1.37|-1.35|0.988
92160093|NCT01352507|184208273|SUPERIORITY_OR_OTHER||LS mean difference|0.03||||0.102|TWO_SIDED|95.0|-0.01|0.08||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.08|-0.01|0.102
92160094|NCT01352507|184208275|SUPERIORITY_OR_OTHER||LS mean difference|-0.01||||0.861|TWO_SIDED|95.0|-0.22|0.19||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.19|-0.22|0.861
92160095|NCT01352507|184208276|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05||||0.495|TWO_SIDED|95.0|-0.19|0.09||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.09|-0.19|0.495
92160096|NCT01352507|184208277|SUPERIORITY_OR_OTHER||LS mean difference|-0.01||||0.917|TWO_SIDED|95.0|-0.18|0.16||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.16|-0.18|0.917
92160097|NCT01352507|184208278|SUPERIORITY_OR_OTHER||LS mean difference|1.23||||0.391|TWO_SIDED|95.0|-1.58|4.04||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||4.04|-1.58|0.391
92160098|NCT01352507|184208279|SUPERIORITY_OR_OTHER||LS mean difference|0.13|||<|0.001|TWO_SIDED|95.0|0.09|0.18||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.18|0.09|<0.001
92160099|NCT01352507|184208280|SUPERIORITY_OR_OTHER||LS mean difference|-0.14|||<|0.001|TWO_SIDED|95.0|-0.19|-0.09||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||-0.09|-0.19|<0.001
92160100|NCT01352507|184208281|SUPERIORITY_OR_OTHER||LS mean difference|0.18||||0.364|TWO_SIDED|95.0|-0.2|0.55||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.55|-0.20|0.364
92168603|NCT03951805|184227021|OTHER||Treatment difference|7.08||||0.0051|TWO_SIDED|95.0|2.12|12.04|||ANCOVA|||The response and change from baseline in response during the last two weeks of treatment (week 15 and 16) are analysed using an analysis of covariance (ANCOVA) model with treatment and SGLT2i use as fixed factors, and baseline response as covariate. Missing endpoint values are imputed using multiple imputation based on own treatment arm with baseline response as a covariate. Each imputed dataset is analysed separately and estimates are combined using Rubin's rules.||12.04|2.12|0.0051
92218942|NCT01431274|184338477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.045||0.0017|TWO_SIDED|95.0|0.053|0.228||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).|||0.228|0.053|0.0017
92275576|NCT01512979|184453615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92||||0.0025||95.0|1.458|5.849||The model includes treatment and continuous baseline HbA1c.|Regression, Logistic|||||5.849|1.458|0.0025
92348672|NCT02489773|184600831|OTHER|Diffenrence between Pearson correlations within whole subjects (accross Group 1 and Group 2) and PG, 0.8.|Difference with PG 0.8|-0.1658|||>|0.9999|TWO_SIDED|95.0|-0.2204|-0.1113|||t-test, 2 sided|||||-0.1113|-0.2204|>0.9999
92348673|NCT02489773|184600832|OTHER|The difference in Spearman correlation coefficient between GA and MBG vs HbA1c and MBG in the first 3-month period in Group 1.|Difference in correlation coefficients|0.249|||<|0.0001|TWO_SIDED|95.0|0.13|0.364|||t-test, 2 sided|||||0.364|0.130|<0.0001
92348674|NCT02489773|184600833|OTHER|The difference in Kendall correlation coefficient between GA and MBG vs HbA1c and MBG in the first 3-month period in Group 1.|Difference in correlation coefficient|0.181|||<|0.0001|TWO_SIDED|95.0|0.096|0.265|||t-test, 2 sided|||||0.265|0.096|<0.0001
92400183|NCT05546476|184691971|SUPERIORITY||Difference in LS Mean|1587.26|||=|0.0985|TWO_SIDED|90.0|-443.79|3618.31|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||3618.31|-443.79|=0.0985
92160101|NCT01018511|184208300|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Overall power was 90% power for non-inferiority vs placebo for total IPSS. Only the FDC(s) that succeeded in stage 1 were evaluated in stage 2 for total IPSS. If both FDCs succeeded in stage 1, then both FDCs proceeded to stage 2 and the Hochberg procedure was implemented at one-sided alpha = 0.025. If one FDC succeeded in stage 1, then only this FDC proceeded to stage 2 and the FDC vs. TOCAS alone for non-inferiority was assessed at one-sided alpha = 0.025/2 = 0.0125.|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.41||0.001|TWO_SIDED|97.5|-1.73|0.11||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The non-inferiority of FDC vs TOCAS on the change from baseline to end of treatment in total IPSS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||0.11|-1.73|0.001
92160102|NCT01018511|184208300|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Only the FDC(s) that succeeded in stage 1 were evaluated in stage 2 for total IPSS. If both FDCs succeeded in stage 1, then both FDCs proceeded to stage 2 and the Hochberg procedure was implemented at one-sided alpha = 0.025. If one FDC succeeded in stage 1, then only this FDC proceeded to stage 2 and the FDC vs. TOCAS alone for non-inferiority was assessed at one-sided alpha = 0.025/2 = 0.0125.|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.41||0.028|TWO_SIDED|97.5|-1.22|0.64||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The non-inferiority of FDC vs. TOCAS on the change from baseline to end of treatment in total IPSS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||0.64|-1.22|0.028
92160103|NCT01018511|184208300|SUPERIORITY_OR_OTHER_LEGACY|||||||0.048|TWO_SIDED|||||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC vs. TOCAS on the change from baseline to end of treatment in total IPSS.||||0.048
92160104|NCT01018511|184208300|SUPERIORITY_OR_OTHER_LEGACY|||||||0.483|TWO_SIDED|||||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC vs. TOCAS on the change from baseline to end of treatment in total IPSS.||||0.483
92160105|NCT01018511|184208300|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.4|-0.9||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of the FDC vs placebo on the change from baseline to end of treatment in total IPSS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||-0.9|-2.4|<0.001
92160106|NCT01018511|184208300|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.41||0.006|TWO_SIDED|95.0|-1.9|-0.3||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of the FDC vs. placebo on the change from baseline to end of treatment in total IPSS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||-0.3|-1.9|0.006
92348675|NCT03755076|184600851|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92348676|NCT03755076|184600852|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92348677|NCT05523297|184600877|NON_INFERIORITY|The test for non-inferiority was one-sided Farrington-Manning score test with non-inferiority margin 10% at a significance level of 2.5%. If the 95% CI for treatment effect not only lay above -10% (the non-inferiority margin) but also above 0, then there was evidence of superiority.|percent difference|17.55|||<|0.0001|TWO_SIDED|95.0|8.7|26.4|||Two-sided Farrington-Manning score test.||Difference between Octaplex and FP arms for effectiveness|||26.4|8.7|<0.0001
92348678|NCT05523297|184600878|OTHER||Odds Ratio (OR)|1.91||||0.0022|TWO_SIDED|95.0|1.26|2.88|||Regression, Logistic|||||2.88|1.26|0.0022
92348679|NCT05523297|184600879|OTHER||Least Squares Mean Difference|-170.73|||<|0.0001|TWO_SIDED|95.0|-250.24|-91.22|||ANOVA|||12 hours after chest closure||-91.22|-250.24|<0.0001
92348680|NCT05523297|184600879|OTHER||Least Squares Mean Difference|-231.92|||<|0.0001|TWO_SIDED|95.0|-338.17|-125.67|||ANOVA|||24 hours after chest closure||-125.67|-338.17|<0.0001
92348681|NCT05523297|184600880|OTHER||Odds Ratio (OR)|3.19|||<|0.0001|TWO_SIDED|95.0|1.97|5.15|||Regression, Logistic|||Within 24 hours after IMP start||5.15|1.97|<0.0001
92348682|NCT05523297|184600880|OTHER||Odds Ratio (OR)|2.88|||<|0.0001|TWO_SIDED|95.0|1.83|4.52|||Regression, Logistic|||Within 24 hours after surgery start||4.52|1.83|<0.0001
92348683|NCT05523297|184600880|OTHER||Odds Ratio (OR)|3.19|||<|0.0001|TWO_SIDED|95.0|1.97|5.15|||Regression, Logistic|||Within 24 hours after CPB end||5.15|1.97|<0.0001
92348684|NCT05523297|184600881|OTHER||Mean ratio|0.48|||<|0.0001|TWO_SIDED|95.0|0.41|0.57|||Counting regression|||||0.57|0.41|<0.0001
92348685|NCT05523297|184600882|OTHER||Mean ratio|0.71||||0.0015|TWO_SIDED|95.0|0.57|0.88|||Counting regression|||||0.88|0.57|0.0015
92160107|NCT01018511|184208300|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.41||0.039|TWO_SIDED|95.0|-1.6|0.0||No adjustments for multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of TOCAS vs. placebo on the change from baseline to end of treatment in total IPSS. With a sample size of 274 participants per arm, the overall power to meet this outcome measure was 97% power for superiority vs placebo for total IPSS.||-0.0|-1.6|0.039
92160108|NCT01018511|184208301|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.64||0.025|TWO_SIDED|97.5|-2.9|0.0||The primary analysis was adjusted for multiplicity for TUS using the Hochberg procedure.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC 0.4 mg/6 mg vs. TOCAS in the change from baseline to end of treatment in TUS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||0.0|-2.9|0.025
92160109|NCT01018511|184208301|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.64||0.162|TWO_SIDED|97.5|-2.3|0.5||The primary analysis was adjusted for multiplicity for TUS using the Hochberg procedure.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC 0.4 mg/6 mg vs. TOCAS in the change from baseline to end of treatment in TUS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||0.5|-2.3|0.162
92160110|NCT01018511|184208301|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|-4.9|-2.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC 0.4 mg/6 mg vs. placebo on the change from baseline to end of treatment in TUS.||-2.5|-4.9|<0.001
92160111|NCT01018511|184208301|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-3.2|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|-4.4|-1.9||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC 0.4 mg/9 mg vs. placebo on the change from baseline to end of treatment in TUS.||-1.9|-4.4|<0.001
92160112|NCT01018511|184208301|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-3.5|-1.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of TOCAS vs. placebo on the change from baseline to end of treatment in TUS.||-1.0|-3.5|<0.001
92160113|NCT01018511|184208302|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.0|-0.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.3|-1.0|<0.001
92218943|NCT01431274|184338477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.128|STANDARD_ERROR_OF_MEAN|0.042||0.0022|TWO_SIDED|95.0|0.046|0.21||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).|||0.210|0.046|0.0022
92275577|NCT01512979|184453616|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.448||||0.0008||95.0|1.453|4.123||The model includes treatment and continuous baseline HbA1c.|Regression, Logistic|||||4.123|1.453|0.0008
92348686|NCT05523297|184600883|OTHER||Mean ratio|0.61||||0.001|TWO_SIDED|95.0|0.46|0.82|||Counting regression|||During the first 24 hours after IMP start||0.82|0.46|0.0010
92348687|NCT05523297|184600883|OTHER||Mean ratio|0.59|||<|0.0001|TWO_SIDED|95.0|0.45|0.76|||Counting regression|||During the first 7 days after IMP start||0.76|0.45|<0.0001
92348688|NCT05523297|184600884|OTHER||Mean ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.03|0.06|||Negative binomial regression|||FP including IMP (During the first 24 hours after IMP start)||0.06|0.03|<0.0001
92348689|NCT05523297|184600884|OTHER||Mean ratio|0.85||||0.8522|TWO_SIDED|95.0|0.15|4.82|||Negative binomial regression|||FP excluding IMP (During the first 24 hours after IMP start)||4.82|0.15|0.8522
92348690|NCT05523297|184600884|OTHER||Mean ratio|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.68|||Negative binomial regression|||RBCs (During the first 24 hours after IMP start)||0.68|0.40|<0.0001
92348691|NCT05523297|184600884|OTHER||Mean ratio|0.65||||0.0169|TWO_SIDED|95.0|0.45|0.92|||Negative binomial regression|||Platelets (During the first 24 hours after IMP start)||0.92|0.45|0.0169
92348692|NCT05523297|184600884|OTHER||Mean ratio|0.57||||0.3288|TWO_SIDED|95.0|0.18|1.76|||Negative binomial regression|||Cryoprecipitate (During the first 24 hours after IMP start)||1.76|0.18|0.3288
92348693|NCT05523297|184600884|OTHER||Mean ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.04|0.06|||Negative binomial regression|||FP including IMP (During the first 7 days after IMP start)||0.06|0.04|<0.0001
92348694|NCT05523297|184600884|OTHER||Mean ratio|0.63||||0.5439|TWO_SIDED|95.0|0.14|2.84|||Negative binomial regression|||FP excluding IMP (During the first 7 days after IMP start)||2.84|0.14|0.5439
92400184|NCT05546476|184691971|SUPERIORITY||Difference in LS Mean|-98.54|||=|0.5315|TWO_SIDED|90.0|-2169.67|1972.58|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1972.58|-2169.67|=0.5315
92400185|NCT05546476|184691971|SUPERIORITY||Difference in LS Mean|2203.18|||=|0.0437|TWO_SIDED|90.0|84.51|4321.85|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||4321.85|84.51|=0.0437
92400186|NCT05546476|184691972|SUPERIORITY||Difference in LS Mean|0.0|||=|0.5052|TWO_SIDED|90.0|-0.046|0.045|||MMRM analysis; 1-sided|||Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.045|-0.046|=0.5052
92218944|NCT01431274|184338477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.176|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001|TWO_SIDED|95.0|0.093|0.259||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).|||0.259|0.093|<0.0001
92218945|NCT01431274|184338477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.108|STANDARD_ERROR_OF_MEAN|0.044||0.0141|TWO_SIDED|95.0|0.022|0.194||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).|||0.194|0.022|0.0141
92218946|NCT01431274|184338477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.032|STANDARD_ERROR_OF_MEAN|0.043||0.4581|TWO_SIDED|95.0|-0.053|0.118||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).|||0.118|-0.053|0.4581
92218947|NCT01431274|184338477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.208|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|0.124|0.293||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).|||0.293|0.124|<0.0001
92218948|NCT01431274|184338477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.043||0.6335|TWO_SIDED|95.0|-0.064|0.105||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Olodaterol (5 µg).|||0.105|-0.064|0.6335
92218949|NCT01431274|184338477|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.047|STANDARD_ERROR_OF_MEAN|0.041||0.253|TWO_SIDED|95.0|-0.129|0.034||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (2.5 µg) versus Olodaterol (5 µg).|||0.034|-0.129|0.2530
92218950|NCT01431274|184338477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.068|STANDARD_ERROR_OF_MEAN|0.043||0.1188|TWO_SIDED|95.0|-0.017|0.153||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Tiotropium (2.5 µg).|||0.153|-0.017|0.1188
92218951|NCT01431274|184338478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.137|STANDARD_ERROR_OF_MEAN|0.041||0.0008|TWO_SIDED|95.0|0.057|0.217||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).|||0.217|0.057|0.0008
92218952|NCT01431274|184338478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.126|STANDARD_ERROR_OF_MEAN|0.043||0.0032|TWO_SIDED|95.0|0.042|0.209||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).|||0.209|0.042|0.0032
92218953|NCT01431274|184338478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.105|STANDARD_ERROR_OF_MEAN|0.04||0.0085|TWO_SIDED|95.0|0.027|0.183||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).|||0.183|0.027|0.0085
92218954|NCT01431274|184338478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.156|STANDARD_ERROR_OF_MEAN|0.04||0.0001|TWO_SIDED|95.0|0.077|0.235||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).|||0.235|0.077|0.0001
92348695|NCT05523297|184600884|OTHER||Mean ratio|0.59|||<|0.0001|TWO_SIDED|95.0|0.47|0.74|||Negative binomial regression|||Red blood cells (During the first 7 days after IMP start)||0.74|0.47|<0.0001
92348696|NCT05523297|184600884|OTHER||Mean ratio|0.58||||0.0042|TWO_SIDED|95.0|0.4|0.84|||Negative binomial regression|||Platelets (During the first 7 days after IMP start)||0.84|0.40|0.0042
92348697|NCT05523297|184600884|OTHER||Mean ratio|0.49||||0.2241|TWO_SIDED|95.0|0.15|1.56|||Negative binomial regression|||Cryoprecipitate (During the first 7 days after IMP start)||1.56|0.15|0.2241
92348698|NCT05523297|184600885|OTHER||Odds Ratio (OR)|0.9||||0.8364|TWO_SIDED|95.0|0.32|2.52|||Regression, Logistic|||FP excluding IMP (Within 24 hours after IMP start)||2.52|0.32|0.8364
92348699|NCT05523297|184600885|OTHER||Odds Ratio (OR)|2.11||||0.0002|TWO_SIDED|95.0|1.42|3.11|||Regression, Logistic|||RBCs (Within 24 hours after IMP start)||3.11|1.42|0.0002
92400187|NCT05546476|184691972|SUPERIORITY||Difference in LS Mean|-0.004|||=|0.5599|TWO_SIDED|90.0|-0.05|0.042|||MMRM analysis; 1-sided|||Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.042|-0.050|=0.5599
92400188|NCT05546476|184691972|SUPERIORITY||Difference in LS Mean|0.017|||=|0.277|TWO_SIDED|90.0|-0.03|0.064|||MMRM analysis; 1-sided|||Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.064|-0.030|=0.2770
92348700|NCT05523297|184600885|OTHER||Odds Ratio (OR)|1.31||||0.1742|TWO_SIDED|95.0|0.89|1.91|||Regression, Logistic|||Platelets (Within 24 hours after IMP start)||1.91|0.89|0.1742
92348701|NCT05523297|184600885|OTHER||Odds Ratio (OR)|1.4||||0.4618|TWO_SIDED|95.0|0.58|3.38|||Regression, Logistic|||Cryoprecipitate (Within 24 hours after IMP start)||3.38|0.58|0.4618
92218955|NCT01431274|184338478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.042||0.0255|TWO_SIDED|95.0|0.011|0.176||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).|||0.176|0.011|0.0255
92218956|NCT01431274|184338478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.032|STANDARD_ERROR_OF_MEAN|0.041||0.4393|TWO_SIDED|95.0|-0.049|0.113||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).|||0.113|-0.049|0.4393
92160114|NCT01018511|184208302|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.223|TWO_SIDED|95.0|-0.6|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.1|-0.6|0.223
92160115|NCT01018511|184208302|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.5|-0.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.8|-1.5|< 0.001
92160116|NCT01018511|184208302|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.1|-0.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs placebo.||-0.4|-1.1|< 0.001
92160117|NCT01018511|184208302|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.002|TWO_SIDED|95.0|-0.9|-0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.2|-0.9|0.002
92160118|NCT01018511|184208303|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|23.1|STANDARD_ERROR_OF_MEAN|3.33|<|0.001|TWO_SIDED|95.0|16.6|29.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||29.6|16.6|< 0.001
92160119|NCT01018511|184208303|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|23.2|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|16.6|29.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||29.8|16.6|< 0.001
92160120|NCT01018511|184208303|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|27.4|STANDARD_ERROR_OF_MEAN|3.27|<|0.001|TWO_SIDED|95.0|21.0|33.9||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||33.9|21.0|< 0.001
92160121|NCT01018511|184208303|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|27.6|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|21.1|34.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||34.1|21.1|< 0.001
92218957|NCT01431274|184338478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.188|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.108|0.269||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).|||0.269|0.108|<0.0001
92218958|NCT01431274|184338478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.041||0.7784|TWO_SIDED|95.0|-0.069|0.092||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Olodaterol (5 µg).|||0.092|-0.069|0.7784
92348702|NCT05523297|184600885|OTHER||Odds Ratio (OR)|1.69||||0.0129|TWO_SIDED|95.0|1.12|2.55|||Regression, Logistic|||Any individual ABP (Within 24 hours after IMP start)||2.55|1.12|0.0129
92160122|NCT01018511|184208303|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.4|STANDARD_ERROR_OF_MEAN|3.32||0.189|TWO_SIDED|95.0|-2.2|10.9||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs placebo.||10.9|-2.2|0.189
92218959|NCT01431274|184338478|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.051|STANDARD_ERROR_OF_MEAN|0.039||0.1965|TWO_SIDED|95.0|-0.129|0.026||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (2.5 µg) versus Olodaterol (5 µg).|||0.026|-0.129|0.1965
92218960|NCT01431274|184338478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.041||0.1315|TWO_SIDED|95.0|-0.019|0.144||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Tiotropium (2.5 µg).|||0.144|-0.019|0.1315
92348703|NCT05523297|184600885|OTHER||Odds Ratio (OR)|1.58||||0.3297|TWO_SIDED|95.0|0.63|3.94|||Regression, Logistic|||FP excluding IMP (Within 7 days after IMP start)||3.94|0.63|0.3297
92160123|NCT01018511|184208304|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|14.5|STANDARD_ERROR_OF_MEAN|7.51||0.053|TWO_SIDED|95.0|-0.2|29.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||29.3|-0.2|0.053
92160124|NCT01018511|184208304|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|14.7|STANDARD_ERROR_OF_MEAN|7.59||0.053|TWO_SIDED|95.0|-0.2|29.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||29.6|-0.2|0.053
92348704|NCT05523297|184600885|OTHER||Odds Ratio (OR)|1.82||||0.0049|TWO_SIDED|95.0|1.2|2.76|||Regression, Logistic|||RBCs (Within 7 days after IMP start)||2.76|1.20|0.0049
92348705|NCT05523297|184600885|OTHER||Odds Ratio (OR)|1.26||||0.2417|TWO_SIDED|95.0|0.86|1.84|||Regression, Logistic|||Platelets (Within 7 days after IMP start)||1.84|0.86|0.2417
92348706|NCT05523297|184600885|OTHER||Odds Ratio (OR)|1.4||||0.4618|TWO_SIDED|95.0|0.58|3.38|||Regression, Logistic|||Cryoprecipitate (Within 7 days after IMP start)||3.38|0.58|0.4618
92348707|NCT05523297|184600885|OTHER||Odds Ratio (OR)|1.56||||0.0564|TWO_SIDED|95.0|0.99|2.47|||Regression, Logistic|||Any individual ABP (Within 7 days after IMP start)||2.47|0.99|0.0564
92348708|NCT05523297|184600886|OTHER||Odds Ratio (OR)|1.1||||0.6956|TWO_SIDED|95.0|0.69|1.73|||Regression, Logistic|||Fibrinogen concentrate (Within 24 hours after IMP start)||1.73|0.69|0.6956
92348709|NCT05523297|184600886|OTHER||Odds Ratio (OR)|5.337||||0.0317|TWO_SIDED|95.0|1.12|50.7|||Regression, Logistic|||||50.70|1.12|0.0317
92348710|NCT05523297|184600886|OTHER||Odds Ratio (OR)|18.88|||<|0.0001|TWO_SIDED|95.0|2.9|796.37|||Regression, Logistic|||PCC excluding IMP (Within 24 hours after IMP start)||796.37|2.90|<0.0001
92348711|NCT05523297|184600886|OTHER||Odds Ratio (OR)|1.334||||0.1981|TWO_SIDED|95.0|0.86|2.07|||Regression, Logistic|||Any coagulation factor product (Within 24 hours after IMP start)||2.07|0.86|0.1981
92400189|NCT05546476|184691972|SUPERIORITY||Difference in LS Mean|0.0|||=|0.5047|TWO_SIDED|90.0|-0.071|0.07|||MMRM analysis; 1-sided|||95th Percentile of Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.070|-0.071|=0.5047
92400190|NCT05546476|184691972|SUPERIORITY||Difference in LS Mean|-0.026|||=|0.7316|TWO_SIDED|90.0|-0.097|0.045|||MMRM analysis; 1-sided|||95th Percentile of Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.045|-0.097|=0.7316
92160125|NCT01018511|184208304|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|18.5|STANDARD_ERROR_OF_MEAN|7.37||0.012|TWO_SIDED|95.0|4.1|33.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||33.0|4.1|0.012
92160126|NCT01018511|184208304|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|18.7|STANDARD_ERROR_OF_MEAN|7.45||0.012|TWO_SIDED|95.0|4.1|33.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||33.4|4.1|0.012
92160127|NCT01018511|184208304|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.0|STANDARD_ERROR_OF_MEAN|7.49||0.591|TWO_SIDED|95.0|-10.7|18.7||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||18.7|-10.7|0.591
92160128|NCT01018511|184208305|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.25||0.616|TWO_SIDED|95.0|-0.6|0.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.4|-0.6|0.616
92160129|NCT01018511|184208305|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.319|TWO_SIDED|95.0|-0.7|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-0.7|0.319
92160130|NCT01018511|184208305|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.5|-0.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.6|-1.5|< 0.001
92160131|NCT01018511|184208305|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.7|-0.7||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.7|-1.7|< 0.001
92160132|NCT01018511|184208305|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.4|-0.4||No adjustments to multiplicity were made|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.4|-1.4|< 0.001
92218961|NCT01431274|184338479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.141|STANDARD_ERROR_OF_MEAN|0.56||0.0001|TWO_SIDED|95.0|-3.239|-1.043||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||-1.043|-3.239|0.0001
92348712|NCT05523297|184600886|OTHER||Odds Ratio (OR)|1.187||||0.4599|TWO_SIDED|95.0|0.75|1.87|||Regression, Logistic|||Fibrinogen concentrate (Within 7 days after IMP start)||1.87|0.75|0.4599
92348713|NCT05523297|184600886|OTHER||Odds Ratio (OR)|5.337||||0.0317|TWO_SIDED|95.0|1.12|50.7|||Regression, Logistic|||rFVIIa (Within 7 days after IMP start)||50.70|1.12|0.0317
92348714|NCT05523297|184600886|OTHER||Odds Ratio (OR)|18.88|||<|0.0001|TWO_SIDED|95.0|2.9|796.37|||Regression, Logistic|||PCC excluding IMP (Within 7 days after IMP start)||796.37|2.90|<0.0001
92348715|NCT05523297|184600886|OTHER||Odds Ratio (OR)|1.431||||0.1073|TWO_SIDED|95.0|0.93|2.21|||Regression, Logistic|||Any coagulation factor product (Within 7 days after IMP start)||2.21|0.93|0.1073
92348716|NCT05523297|184600889|OTHER||Odds Ratio (OR)|1.435||||0.3782|TWO_SIDED|95.0|0.6429|3.2013|||Regression, Logistic|||Within 24 hours after CPB end||3.2013|0.6429|0.3782
92348717|NCT05523297|184600889|OTHER||Odds Ratio (OR)|1.435||||0.3782|TWO_SIDED|95.0|0.6429|3.2013|||Regression, Logistic|||Within 24 hours after IMP start||3.2013|0.6429|0.3782
92405641|NCT02683577|184701452|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|3.52|||||TWO_SIDED|90.0|2.45|5.03|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of moderate HI group (Test) versus healthy control group (Reference) on AUC(0-tlast) values for LP-778902.||5.03|2.45|
92348718|NCT05523297|184600889|OTHER||Odds Ratio (OR)|1.332||||0.4899|TWO_SIDED|95.0|0.5902|3.0062|||Regression, Logistic|||Within 24 hours after surgery start||3.0062|0.5902|0.4899
92348719|NCT05523297|184600890|OTHER||Least Squares Mean Difference|-0.15||||0.0081|TWO_SIDED|95.0|-0.26|-0.04|||ANOVA|||||-0.04|-0.26|0.0081
92218962|NCT01431274|184338479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.131|STANDARD_ERROR_OF_MEAN|0.56||0.0435|TWO_SIDED|95.0|-2.23|-0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).|||-0.033|-2.230|0.0435
92218963|NCT01431274|184338479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.528|STANDARD_ERROR_OF_MEAN|0.559||0.0063|TWO_SIDED|95.0|-2.623|-0.432||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||-0.432|-2.623|0.0063
92348720|NCT05523297|184600891|OTHER||Least Squares Mean Difference|-9.63||||0.6735|TWO_SIDED|95.0|-60.45|41.18|||ANOVA|||||41.18|-60.45|0.6735
92160133|NCT01018511|184208306|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.22||0.591|TWO_SIDED|95.0|-0.3|0.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.5|-0.3|0.591
92218964|NCT01431274|184338479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.517|STANDARD_ERROR_OF_MEAN|0.558||0.3545|TWO_SIDED|95.0|-1.611|0.577||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.577|-1.611|0.3545
92218965|NCT01431274|184338479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.518|STANDARD_ERROR_OF_MEAN|0.559||0.3542|TWO_SIDED|95.0|-1.614|0.578||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.578|-1.614|0.3542
92218966|NCT01431274|184338479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.613|STANDARD_ERROR_OF_MEAN|0.556||0.2697|TWO_SIDED|95.0|-1.702|0.476||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.476|-1.702|0.2697
92160134|NCT01018511|184208306|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.102|TWO_SIDED|95.0|-0.1|0.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.8|-0.1|0.102
92160135|NCT01018511|184208306|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.204|TWO_SIDED|95.0|-0.6|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.1|-0.6|0.204
92160136|NCT01018511|184208306|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.19||0.936|TWO_SIDED|95.0|-0.4|0.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.4|-0.4|0.936
92160137|NCT01018511|184208306|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.081|TWO_SIDED|95.0|-0.8|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.0|-0.8|0.081
92160138|NCT01018511|184208307|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.24||0.511|TWO_SIDED|95.0|-0.3|0.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.6|-0.3|0.511
92160139|NCT01018511|184208307|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.24||0.182|TWO_SIDED|95.0|-0.2|0.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.8|-0.2|0.182
92348721|NCT05523297|184600892|OTHER||Least Squares Mean Difference|-17.93||||0.9033|TWO_SIDED|95.0|-450.13|414.28|||ANOVA|||||414.28|-450.13|0.9033
92348722|NCT05523297|184600893|OTHER||Least Squares Mean Difference|-0.41||||0.1808|TWO_SIDED|95.0|-1.1|0.29|||ANOVA|||||0.29|-1.10|0.1808
92348723|NCT05523297|184600894|OTHER||Least Squares Mean Difference|0.28||||0.9698|TWO_SIDED|95.0|-14.78|15.34|||ANOVA|||||15.34|-14.78|0.9698
92160140|NCT01018511|184208307|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.22||0.552|TWO_SIDED|95.0|-0.6|0.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.3|-0.6|0.552
92160141|NCT01018511|184208307|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.891|TWO_SIDED|95.0|-0.4|0.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo||0.5|-0.4|0.891
92348724|NCT05523297|184600895|OTHER||Least Squares Mean Difference|-3.1||||0.3363|TWO_SIDED|95.0|-9.61|3.42|||ANOVA|||||3.42|-9.61|0.3363
92348725|NCT05523297|184600896|OTHER||Least Squares Mean Difference|2.42||||0.5736|TWO_SIDED|95.0|-6.33|11.16|||ANOVA|||||11.16|-6.33|0.5736
92348726|NCT05523297|184600897|OTHER||Least Squares Mean Difference|-13.19||||0.2667|TWO_SIDED|95.0|-37.05|10.67|||ANOVA|||||10.67|-37.05|0.2667
92348727|NCT05523297|184600898|OTHER||Least Squares Mean Difference|12.25||||0.0658|TWO_SIDED|95.0|-0.87|25.38|||ANOVA|||||25.38|-0.87|0.0658
92160142|NCT01018511|184208307|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.23||0.215|TWO_SIDED|95.0|-0.8|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.2|-0.8|0.215
92160143|NCT01018511|184208308|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.383|TWO_SIDED|95.0|-0.2|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs TOCAS.||0.1|-0.2|0.383
92160144|NCT01018511|184208308|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.08||0.402|TWO_SIDED|95.0|-0.1|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-0.1|0.402
92160145|NCT01018511|184208308|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.021|TWO_SIDED|95.0|-0.3|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.0|-0.3|0.021
92160146|NCT01018511|184208308|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.584|TWO_SIDED|95.0|-0.2|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.1|-0.2|0.584
92160147|NCT01018511|184208308|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.166|TWO_SIDED|95.0|-0.3|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.0|-0.3|0.166
92160148|NCT01018511|184208309|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.187|TWO_SIDED|95.0|-1.0|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-1.0|0.187
92160149|NCT01018511|184208309|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.31||0.203|TWO_SIDED|95.0|-1.0|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-1.0|0.203
92160150|NCT01018511|184208309|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.29||0.09|TWO_SIDED|95.0|-1.1|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.1|-1.1|0.090
92160151|NCT01018511|184208309|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.29||0.098|TWO_SIDED|95.0|-1.1|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.1|-1.1|0.098
92160152|NCT01018511|184208309|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.772|TWO_SIDED|95.0|-0.7|0.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.5|-0.7|0.772
92348728|NCT05523297|184600899|OTHER||Least Squares Mean Difference|-0.19||||0.0726|TWO_SIDED|95.0|-0.4|0.02|||ANOVA|||||0.02|-0.40|0.0726
92160153|NCT01018511|184208310|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.21|TWO_SIDED|95.0|-0.9|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-0.9|0.210
92348729|NCT05523297|184600904|OTHER||Odds Ratio (OR)|1.183||||0.7497|TWO_SIDED|95.0|0.4211|3.3235|||Regression, Logistic|||||3.3235|0.4211|0.7497
92348730|NCT05965427|184600906|SUPERIORITY|||||||0.097|||||||Chi-squared|||||||0.097
92348731|NCT05965427|184600907|SUPERIORITY|||||||0.005|||||||Chi-squared|||"Statistical analysis of Any of the specified clinical complications measure"||||0.005
92348732|NCT05965427|184600908|SUPERIORITY|||||||0.011|||||||Chi-squared|||||||0.011
92348733|NCT05965427|184600910|SUPERIORITY|||||||0.002|||||||Chi-squared|||"Statistical analysis relates to not presenting with skin lesions measure"||||0.002
92348734|NCT05965427|184600914|SUPERIORITY|||||||0.114|||||||Chi-squared|||"Statistical analysis relates to any drug treatment for mpox measure"||||0.114
92348735|NCT05965427|184600915|SUPERIORITY||||||<|0.001|||||||Chi-squared|||"Statistical analysis relates to any drug for complications measure"||||<0.001
92348736|NCT05965427|184600916|SUPERIORITY|"Statistical analysis relates to lesion onset measure"|||||<|0.001|||||||Chi-squared|||||||<0.001
92348737|NCT04556097|184600937|SUPERIORITY||Rate Ratio|0.61|STANDARD_ERROR_OF_MEAN|0.35||0.05|TWO_SIDED|95.0|0.31|1.2|||Difference in differences|Difference in differences model with a negative binomial distribution and log link that provides rate ratio estimate of the relative difference.|The rate ratio is estimated for intervention patients as compared to controls.|||1.20|0.31|0.05
92348738|NCT04556097|184600938|SUPERIORITY||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|1.95||0.05|TWO_SIDED|95.0|-6.53|1.12|||Difference in differences|Difference in differences model with a Gaussian distribution and identity link that provides linear estimate of the relative point difference.||||1.12|-6.53|0.05
92348739|NCT05317546|184600989|SUPERIORITY|We used linear mixed effects models containing the main effect of medication (CBD vs. placebo), visit (visit 1 vs. visit 2), and sequence (CBD/placebo vs. placebo/CBD) with random intercepts. For 1H-MRS models, brain tissue composition \[Gray Matter: Brain Matter or GM:BM defined as GM/(GM+WM)\] was included as a covariate.||||||0.33||||||alpha \< 0.05|Mixed Models Analysis|Adjusted for brain tissue composition||An a priori power analysis was conducted to ensure power to detect differences in neurometabolite levels in the dACC. Due to type of modeling, participants were included even if they did not complete the second medication allocation.||||0.33
92400191|NCT05546476|184691972|SUPERIORITY||Difference in LS Mean|0.01|||=|0.4145|TWO_SIDED|90.0|-0.063|0.082|||MMRM analysis; 1-sided|||95th Percentile of Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.082|-0.063|=0.4145
92400192|NCT05546476|184691973|SUPERIORITY||Difference in LS Mean|4.24|||=|0.0114|TWO_SIDED|90.0|1.19|7.28|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||7.28|1.19|=0.0114
92400193|NCT05546476|184691973|SUPERIORITY||Difference in LS Mean|0.64|||=|0.36|TWO_SIDED|90.0|-2.3|3.57|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||3.57|-2.30|=0.3600
92160154|NCT01018511|184208310|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.28||0.775|TWO_SIDED|95.0|-0.5|0.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.6|-0.5|0.775
92160155|NCT01018511|184208310|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.27||0.01|TWO_SIDED|95.0|-1.2|-0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.2|-1.2|0.010
92160156|NCT01018511|184208310|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.317|TWO_SIDED|95.0|-0.8|0.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.3|-0.8|0.317
92160157|NCT01018511|184208310|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.196|TWO_SIDED|95.0|-0.9|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.2|-0.9|0.196
92160158|NCT01018511|184208311|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.009|TWO_SIDED|95.0|-0.9|-0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.1|-0.9|0.009
92160159|NCT01018511|184208311|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.045|TWO_SIDED|95.0|-0.8|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.0|-0.8|0.045
92160160|NCT01018511|184208311|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.4|-0.7||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.7|-1.4|< 0.001
92218967|NCT01431274|184338479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.13|STANDARD_ERROR_OF_MEAN|0.559||0.0434|TWO_SIDED|95.0|-2.227|-0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||-0.033|-2.227|0.0434
92400194|NCT05546476|184691973|SUPERIORITY||Difference in LS Mean|4.11|||=|0.0138|TWO_SIDED|90.0|1.06|7.17|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||7.17|1.06|=0.0138
92160161|NCT01018511|184208311|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.011|TWO_SIDED|95.0|-0.9|-0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.1|-0.9|0.011
92348740|NCT05317546|184600990|SUPERIORITY|We used linear mixed effects models containing the main effect of medication (CBD vs. placebo), visit (visit 1 vs. visit 2), and sequence (CBD/placebo vs. placebo/CBD) with random intercepts. For 1H-MRS models, brain tissue composition \[Gray Matter: Brain Matter or GM:BM defined as GM/(GM+WM)\] was included as a covariate.||||||0.75||||||alpha \<0.05|Mixed Models Analysis|Adjusted for brain tissue composition||Due to type of modeling, participants were included even if they did not complete the second medication allocation.||||0.75
92160162|NCT01018511|184208311|SUPERIORITY_OR_OTHER_LEGACY||Least squares men difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.3|-0.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.5|-1.3|< 0.001
92348741|NCT05317546|184600991|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Several studies have demonstrated that CBD can modulate resting-state or task-based BOLD signal under similar study design (acute dosing, 600 mg CBD) with sample sizes smaller than our sample. Due to the modeling, only participants with usable data from both medication allocation visits were included. Contrast of interest was alcohol beverages vs. non-alcohol beverages.||||>0.05
92348742|NCT05317546|184600992|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||We were not able to complete a power calculation for this task. We used linear mixed effects models, containing the main effect of medication (CBD vs. placebo), visit (visit 1 vs. visit 2), and sequence (CBD/placebo vs. placebo/CBD) and cue-by-medication interaction terms. Random intercepts were included to account for individual differences.||||0.82
92348743|NCT05317546|184600993|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||We were not able to complete a power calculation for this task. We used linear mixed effects models, containing the main effect of medication (CBD vs. placebo), visit (visit 1 vs. visit 2), and sequence (CBD/placebo vs. placebo/CBD) and cue-by-medication interaction terms. Random intercepts were included to account for individual differences.||||0.21
92348744|NCT02290184|184601035|SUPERIORITY_OR_OTHER|A multi-level regression was employed to test differences between the 2 arm's change trajectories of their estimated simple slopes. Bootstrapped full information maximum likelihood models were estimated to obtain nonparametric, bias-corrected confidence interval (CI).|cross-level interaction|-2.0|||||TWO_SIDED|0.05|-3.0|-1.1|||||"Multilevel regression analysis was used. The primary test of between-group change effect is also called the cross-level interaction between time and group. Simple slopes were also tested to determine if the change was significant within each group."|Hypothesis: the intervention group will have a significantly greater reduction in weight (kg) compared to the active control from baseline to 3-months.||-1.1|-3.0|
92348745|NCT02290184|184601036|SUPERIORITY|Multi-level regression was used to test differences between the 2 arm's change trajectories of their estimated simple slopes. Bootstrapped full information maximum likelihood models were estimated to obtain nonparametric, bias-corrected CI.|cross-level interaction|-2.6|||||TWO_SIDED|0.05|-3.9|-1.4|||||"Multilevel regression was used. The primary test of between group change effect is also called the cross-level interaction between time and group. Simple slopes were also tested to determine if the change was significant within each group."|Hypothesis: Intervention group will have a significantly greater reduction in % weight change compared to the active control from baseline to 3-months||-1.4|-3.9|
92400195|NCT05546476|184691974|SUPERIORITY||Difference in LS Mean|2.35|||=|0.009|TWO_SIDED|90.0|0.72|3.97|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||3.97|0.72|=0.0090
92400196|NCT05546476|184691974|SUPERIORITY||Difference in LS Mean|0.0|||=|0.4987|TWO_SIDED|90.0|-1.55|1.56|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.56|-1.55|=0.4987
92400197|NCT05546476|184691974|SUPERIORITY||Difference in LS Mean|2.3|||=|0.01|TWO_SIDED|90.0|0.68|3.92|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||3.92|0.68|=0.0100
92160163|NCT01018511|184208312|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.008|TWO_SIDED|95.0|-0.5|-0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.1|-0.5|0.008
92160164|NCT01018511|184208312|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.021|TWO_SIDED|95.0|-0.4|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.0|-0.4|0.021
92160165|NCT01018511|184208312|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.2|-0.6|< 0.001
92160166|NCT01018511|184208312|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.2|-0.6|< 0.001
92160167|NCT01018511|184208312|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.139|TWO_SIDED|95.0|-0.3|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.0|-0.3|0.139
92348746|NCT02290184|184601037|SUPERIORITY|A multi-level regression was used to test differences between the 2 arm's change trajectories of their estimated simple slopes. Bootstrapped full information maximum likelihood models were estimated to obtain nonparametric, bias-corrected CI.|cross-level interaction|-2.7|||||TWO_SIDED|95.0|-4.5|-0.91|||||"Multilevel regression was used. The primary test of between -group change effect is also called the cross-level interaction between time and group. Simple slopes were also tested to determine if the change was significant within each group."|Hypothesis: Intervention group will have a significantly greater reduction in waist-circumference (cm) compared to the Active Control from baseline to 3-months||-.91|-4.5|
92348747|NCT01017250|184601065|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.04
92348748|NCT01017250|184601066|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.002
92348749|NCT01017250|184601067|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.02
92348750|NCT01017250|184601068|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.0005
92348751|NCT01017250|184601069|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.53
92348752|NCT01017250|184601070|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.002
92348753|NCT01017250|184601071|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.76
92348754|NCT01017250|184601072|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.34
92348755|NCT02555878|184601073|SUPERIORITY||Hazard Ratio (HR)|0.66|||=|0.101|TWO_SIDED|95.0|0.4|1.09|||Log Rank|||Statistical analysis for primary efficacy composite endpoint.||1.09|0.40|= 0.101
92160168|NCT01018511|184208314|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.1|STANDARD_ERROR_OF_MEAN|1.14||0.068|TWO_SIDED|95.0|-4.3|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-4.3|0.068
92160169|NCT01018511|184208314|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.7|STANDARD_DEVIATION|1.15||0.02|TWO_SIDED|95.0|-4.9|-0.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.4|-4.9|0.020
92348756|NCT02555878|184601073|SUPERIORITY||Hazard Ratio (HR)|1.12|||=|0.814|TWO_SIDED|95.0|0.43|2.91|||Log Rank|||Statistical analysis for Symptomatic lower extremity proximal DVT.||2.91|0.43|= 0.814
92160170|NCT01018511|184208314|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-4.7|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|-6.9|-2.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-2.5|-6.9|< 0.001
92160171|NCT01018511|184208314|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-5.3|STANDARD_ERROR_OF_MEAN|1.13|<|0.001|TWO_SIDED|95.0|-7.5|-3.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs placebo.||-3.1|-7.5|< 0.001
92348757|NCT02555878|184601073|SUPERIORITY||Hazard Ratio (HR)|0.4|||=|0.26|TWO_SIDED|95.0|0.08|2.07|||Log Rank|||Statistical analysis for symptomatic lower extremity distal DVT.||2.07|0.08|= 0.260
92160172|NCT01018511|184208314|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.6|STANDARD_ERROR_OF_MEAN|1.14||0.022|TWO_SIDED|95.0|-4.8|0.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.4|-4.8|0.022
92160173|NCT01018511|184208315|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|3.0|STANDARD_ERROR_OF_MEAN|1.16||0.011|TWO_SIDED|95.0|0.7|5.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs TOCAS.||5.2|0.7|0.011
92348758|NCT02555878|184601073|SUPERIORITY||Hazard Ratio (HR)|0.67|||=|0.538|TWO_SIDED|95.0|0.19|2.39|||Log Rank|||Statistical analysis for symptomatic upper extremity DVT.||2.39|0.19|= 0.538
92160174|NCT01018511|184208315|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.5|STANDARD_ERROR_OF_MEAN|1.17||0.035|TWO_SIDED|95.0|0.2|4.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||4.8|0.2|0.035
92348759|NCT02555878|184601073|SUPERIORITY||Hazard Ratio (HR)|1.02|||=|0.977|TWO_SIDED|95.0|0.29|3.52|||Log Rank|||Statistical analysis for symptomatic non-fatal PE.||3.52|0.29|= 0.977
92348760|NCT02555878|184601073|SUPERIORITY||Hazard Ratio (HR)|0.35|||=|0.063|TWO_SIDED|95.0|0.11|1.11|||Log Rank|||Statistical analysis for asymptomatic lower extremity proximal DVT.||1.11|0.11|= 0.063
92348761|NCT02555878|184601073|SUPERIORITY||Hazard Ratio (HR)|0.59|||=|0.301|TWO_SIDED|95.0|0.21|1.62|||Log Rank|||Statistical analysis for incidental PE.||1.62|0.21|= 0.301
92348762|NCT02555878|184601073|SUPERIORITY||Hazard Ratio (HR)|0.33|||=|0.314|TWO_SIDED|95.0|0.03|3.18|||Log Rank|||Statistical analysis for VTE-related death.||3.18|0.03|= 0.314
92348763|NCT02555878|184601074|SUPERIORITY||Hazard Ratio (HR)|1.96|||=|0.265|TWO_SIDED|95.0|0.59|6.49|||Log Rank|||||6.49|0.59|= 0.265
92348764|NCT01164475|184601102|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.395|TWO_SIDED|95.0|0.44|9.17|||Regression, Logistic|||The comparison was done using the logistic regression model, adjusted for country and baseline PB CD34+ cell count.||9.17|0.44|0.395
92348765|NCT03160170|184601154|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
92348766|NCT03160170|184601155|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
92348767|NCT03160170|184601156|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92348768|NCT04835441|184601183|SUPERIORITY|||||||0.107|||||||Cochran-Mantel-Haenszel|||||||0.107
92348769|NCT04835441|184601184|SUPERIORITY|||||||0.308|||||||Cochran-Mantel-Haenszel|||||||0.308
92348770|NCT04835441|184601185|SUPERIORITY|||||||0.442|||||||ANOVA|||||||0.442
92348771|NCT04835441|184601186|SUPERIORITY|||||||0.788|||||||Kaplan-Meier methods|||||||0.788
92348772|NCT04835441|184601187|SUPERIORITY|||||||0.792|||||||Cochran-Mantel-Haenszel|||||||0.792
92348773|NCT04835441|184601188|SUPERIORITY|||||||0.302|||||||Mixed models for repeated measures|||||||0.302
92160175|NCT01018511|184208315|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|5.1|STANDARD_ERROR_OF_MEAN|1.14|<|0.001|TWO_SIDED|95.0|2.8|7.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||7.3|2.8|< 0.001
92160176|NCT01018511|184208315|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.6|STANDARD_ERROR_OF_MEAN|1.15|<|0.001|TWO_SIDED|95.0|2.3|6.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||6.8|2.3|< 0.001
92160177|NCT01018511|184208315|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.1|STANDARD_ERROR_OF_MEAN|1.16||0.068|TWO_SIDED|95.0|-0.2|4.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||4.4|-0.2|0.068
92160178|NCT01018511|184208316|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.6|STANDARD_ERROR_OF_MEAN|1.07||0.013|TWO_SIDED|95.0|0.5|4.7||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||4.7|0.5|0.013
92160179|NCT01018511|184208316|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.2|STANDARD_ERROR_OF_MEAN|1.08||0.043|TWO_SIDED|95.0|0.1|4.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||4.3|0.1|0.043
92160180|NCT01018511|184208316|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.4|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED|95.0|2.4|6.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||6.5|2.4|< 0.001
92160181|NCT01018511|184208316|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.0|STANDARD_ERROR_OF_MEAN|1.06|<|0.001|TWO_SIDED|95.0|1.9|6.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||6.1|1.9|< 0.001
92160182|NCT01018511|184208316|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.8|STANDARD_ERROR_OF_MEAN|1.06||0.092|TWO_SIDED|95.0|-0.3|3.9||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||3.9|-0.3|0.092
92160183|NCT01018511|184208317|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|3.1|STANDARD_ERROR_OF_MEAN|1.21||0.011|TWO_SIDED|95.0|0.7|5.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||5.5|0.7|0.011
92348774|NCT04835441|184601189|SUPERIORITY|||||||0.506|||||||ANOVA|||||||0.506
92348775|NCT04835441|184601190|SUPERIORITY|||||||0.659|||||||Fisher Exact|||||||0.659
92348776|NCT05370326|184601201|SUPERIORITY||Mean Difference (Net)|0.89||||0.69|TWO_SIDED|95.0|-3.67|5.46|||t-test, 2 sided|||||5.46|-3.67|0.69
92348777|NCT05370326|184601206|SUPERIORITY||Mean Difference (Net)|0.23||||0.67|TWO_SIDED|95.0|-0.89|1.36|||t-test, 2 sided|||||1.36|-0.89|0.67
92348778|NCT05370326|184601207|SUPERIORITY||Mean Difference (Net)|0.59||||0.5|TWO_SIDED|95.0|-1.16|2.34|||t-test, 2 sided|||||2.34|-1.16|0.50
92348779|NCT05370326|184601208|SUPERIORITY||Mean Difference (Net)|0.2||||0.74|TWO_SIDED|95.0|-1.09|1.51|||t-test, 2 sided|||||1.51|-1.09|0.74
92348780|NCT05370326|184601210|SUPERIORITY|||||||0.33|||||||Chi-squared|||||||0.33
92348781|NCT05370326|184601211|SUPERIORITY|||||||0.47|||||||Chi-squared|||||||0.47
92348782|NCT01991314|184601235|NON_INFERIORITY_OR_EQUIVALENCE|We calculated, on the premise that there is non-inferiority between adolescent and adult groups in the difference in increase of mean haemoglobin levels of 0.35g/dL, with estimated standard deviation 0.7g/dL following treatment, that 45 patients in each group would be required, derived using power 80% power, 1-sided significance level 0.05 and R 0.5 for the covariate; this calculation took into account planned ANCOVA methodology and 20% patients who might be lost to follow up or withdraw.|Mean Difference (Net)|0.08||||0.23|TWO_SIDED|||||To test the hypothesis of non-inferiority with maximal statistical power, ANCOVA (one-tailed P\<0.05) was employed to compare the change in mean haemoglobin levels between adults and adolescents after accounting for necessary covariates|ANCOVA|||||||0.23
92348783|NCT01991314|184601236|SUPERIORITY_OR_OTHER||difference in proportions|3.6|||<|0.05|TWO_SIDED||||||Fisher Exact|Fisher's exact test was used to compare proportions (expressed as percentages) of total number of participants in each group who were iron intolerant||Chi squared test or Fisher's exact test, as appropriate.||||<0.05
92348784|NCT01991314|184601237|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.0||||0.96|TWO_SIDED||||||t-test, 2 sided|||Unpaired Students t test||||0.96
92348785|NCT01991314|184601238|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5||||0.49|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U test||||0.49
92348786|NCT01991314|184601239|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.85|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Mann Whitney U test||||0.85
92348787|NCT01991314|184601240|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.69|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Mann Whitney U test||||0.69
92348788|NCT01991314|184601241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.9|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U test||||<0.0001
92348789|NCT00879359|184601242|SUPERIORITY_OR_OTHER||Hazard Ratio, log|92.0|||||TWO_SIDED|95.0|64.0|99.0||||||||99|64|
92348790|NCT00970944|184601245|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||Mixed Models Analysis|||We will have 80% power to detect a one point difference in DRS score between the groups across the four week treatment window. With this sample size, we will be able to detect any unforeseen adverse events that have a prevalence of at least 2.5% in each group with 90% probability. With 92 patients per group we will be able to estimate the rate of adverse events to within ±10%.||||0.045
92348791|NCT00970944|184601246|SUPERIORITY_OR_OTHER||Slope|-0.24|STANDARD_ERROR_OF_MEAN|0.088||0.007||95.0|-0.41|-0.07||The final analysis used a significance level of 0.045.|Mixed Models Analysis|Final analysis adjusted for early v. late enrollment relative to date of injury, baseline CRS-R rating category (MCS vs. VS), and site.||The planned sample size of 184 patients provided 80% power to detect a difference between the AH and placebo in the rate of Disability Rating Scale (DRS) score change of 0.3 points/week (1.22 DRS point mean difference by the end of the 4-week treatment interval). Two blinded interim analyses were conducted at 60 and 120 patients recruited using the O'Brien-Fleming boundary, with alpha levels of 0.0005 and 0.014. The final analysis used an alpha level of 0.045.||-0.07|-0.41|0.007
92160184|NCT01018511|184208317|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.2|STANDARD_ERROR_OF_MEAN|1.23||0.314|TWO_SIDED|95.0|-1.2|3.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||3.6|-1.2|0.314
92160185|NCT01018511|184208317|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|3.6|STANDARD_ERROR_OF_MEAN|1.19||0.003|TWO_SIDED|95.0|1.2|5.9||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||5.9|1.2|0.003
92160186|NCT01018511|184208317|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.7|STANDARD_ERROR_OF_MEAN|1.21||0.161|TWO_SIDED|95.0|-0.7|4.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||4.1|-0.7|0.161
92160187|NCT01018511|184208317|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.5|STANDARD_ERROR_OF_MEAN|1.21||0.708|TWO_SIDED|95.0|-1.9|2.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||2.8|-1.9|0.708
92160188|NCT01018511|184208318|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.7|STANDARD_ERROR_OF_MEAN|0.83||0.043|TWO_SIDED|95.0|0.1|3.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||3.3|0.1|0.043
92160189|NCT01018511|184208318|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.3|STANDARD_ERROR_OF_MEAN|0.84||0.12|TWO_SIDED|95.0|-0.3|3.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||3.0|-0.3|0.120
92160190|NCT01018511|184208318|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.4|STANDARD_ERROR_OF_MEAN|0.82||0.003|TWO_SIDED|95.0|0.8|4.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||4.0|0.8|0.003
92160191|NCT01018511|184208318|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.0|STANDARD_ERROR_OF_MEAN|0.83||0.014|TWO_SIDED|95.0|0.4|3.7||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs placebo.||3.7|0.4|0.014
92160192|NCT01018511|184208318|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.83||0.384|TWO_SIDED|95.0|-0.9|2.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||2.4|-0.9|0.384
92160193|NCT01018511|184208319|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.6|STANDARD_ERROR_OF_MEAN|0.92||0.004|TWO_SIDED|95.0|0.8|4.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||4.4|0.8|0.004
92160194|NCT01018511|184208319|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.0|STANDARD_ERROR_OF_MEAN|0.93||0.035|TWO_SIDED|95.0|0.1|3.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||3.8|0.1|0.035
92160195|NCT01018511|184208319|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.0|STANDARD_ERROR_OF_MEAN|0.91|<|0.001|TWO_SIDED|95.0|2.2|5.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||5.8|2.2|< 0.001
92160196|NCT01018511|184208319|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|0.92|<|0.001|TWO_SIDED|95.0|1.5|5.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||5.1|1.5|< 0.001
92160197|NCT01018511|184208319|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.4|STANDARD_ERROR_OF_MEAN|0.92||0.142|TWO_SIDED|95.0|-0.5|3.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||3.2|-0.5|0.142
92160198|NCT01018511|184208320|SUPERIORITY_OR_OTHER_LEGACY|||||||0.874|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS (superiority test).||||0.874
92160199|NCT01018511|184208320|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS (superiority test).||||0.240
92348792|NCT01001104|184601269|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the linear trend test at 12 weeks.|Mixed Models Analysis|||||||<.001
92160200|NCT01018511|184208320|SUPERIORITY_OR_OTHER_LEGACY|||||||0.324|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo (superiority test).||||0.324
92160201|NCT01018511|184208320|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo (superiority test).||||0.043
92160202|NCT01018511|184208320|SUPERIORITY_OR_OTHER_LEGACY|||||||0.407|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo (superiority test).||||0.407
92160203|NCT01018511|184208327|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||<.001
92160204|NCT01018511|184208327|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||<.001
92160205|NCT01018511|184208327|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
92160206|NCT01018511|184208327|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
92160207|NCT01018511|184208327|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||0.058
92160208|NCT01018511|184208328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.053|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||0.053
92160209|NCT01018511|184208328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.031|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||0.031
92160210|NCT01018511|184208328|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
92160211|NCT01018511|184208328|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
92160212|NCT01018511|184208328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||0.018
92160213|NCT01018511|184208329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||0.110
92160214|NCT01018511|184208329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.071|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||0.071
92160215|NCT01018511|184208329|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
92160216|NCT01018511|184208329|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
92160217|NCT01018511|184208329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||0.019
92160218|NCT00430677|184208406|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.1||||0.746|TWO_SIDED|95.0|0.6|2.03||The median time to confirmed CRR was not estimable due to the low number of events. However, the time to confirmed CRR was compared between the abatacept and placebo treatment regimens using a score test.|Regression, Cox||Point estimate, 95% CI and P-value (based on Score Test) for the hazard ratio is determined by a Cox proportional hazards model including treatment as a covariate and stratified by prior treatment status.|||2.03|0.60|0.746
92160219|NCT00430677|184208406|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.6||||0.118|TWO_SIDED|95.0|0.89|2.83||The median time to confirmed CRR was not estimable due to the low number of events. However, the time to confirmed CRR was compared between the abatacept and placebo treatment regimens using a score test.|Regression, Cox||Point estimate, 95% CI and P-value (based on Score Test) for the hazard ratio is determined by a Cox proportional hazards model including treatment as a covariate and stratified by prior treatment status.|||2.83|0.89|0.118
92160220|NCT00430677|184208409|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.3|||||TWO_SIDED|95.0|0.91|1.78|||||Point Estimate, 95% CI for the hazard ratio was determined by a Cox proportional hazards model including treatment as a covariate and stratified by prior treatment status.|||1.78|0.91|
92160221|NCT00430677|184208409|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.3|||||TWO_SIDED|95.0|0.91|1.77|||||Point Estimate, 95% CI for the hazard ratio was determined by a Cox proportional hazards model including treatment as a covariate and stratified by prior treatment status.|||1.77|0.91|
92160222|NCT00430677|184208415|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21|||||TWO_SIDED|95.0|0.68|21.3||||||||21.3|0.68|
92160223|NCT00430677|184208415|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.49|1.59||||||||1.59|0.49|
92160224|NCT00430677|184208417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.13|0.19|||ANCOVA||Adjustment based on ANCOVA model with treatment as factor and randomization strata (prior treatment status) and baseline measurements as covariates.|||0.19|-0.13|
92160225|NCT00430677|184208417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.18|0.14|||ANCOVA||Adjustment based on ANCOVA model with treatment as factor and randomization strata (prior treatment status) and baseline measurements as covariates.|||0.14|-0.18|
92160226|NCT01779375|184208448|SUPERIORITY||||||>|0.05||||||All analyses were conducted with values on a log scale and re-exponentiated for presentation.|Regression, Linear|Measures of ß-cell response were modeled simultaneously with insulin sensitivity (M/I) using 2-df seemingly unrelated regression models.||Seemingly unrelated regression was used to compare treatment arms on the combination of insulin sensitivity (M/I as calculated from the hyperglycemic clamp) and insulin secretion (steady-state C-peptide and ACPRmax as co-primary; ACPRg as major secondary,). See statistical analysis plan for further details and R code.||||>0.05
92160227|NCT01779375|184208449|SUPERIORITY||||||>|0.05|||||||Regression, Linear|||Analyses were completed on a log scale and re-exponentiated for presentation.||||>0.05
92160228|NCT01779375|184208451|SUPERIORITY||||||>|0.05|||||||Regression, Linear|||Analyses were completed on a log scale and re-exponentiated for display.||||>0.05
92160229|NCT00299702|184208561|SUPERIORITY_OR_OTHER|||||||0.684||||||Hochberg procedure was used for adjusting multiple endpoint comparisons|Log Rank|Insufficient number of subjects who had an event for median estimation.||Null hypothesis: there is no difference in time to relapse||||0.684
92218968|NCT01431274|184338479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.01|STANDARD_ERROR_OF_MEAN|0.563||0.0732|TWO_SIDED|95.0|-2.114|0.095||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.095|-2.114|0.0732
92218969|NCT01431274|184338479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.011|STANDARD_ERROR_OF_MEAN|0.563||0.0724|TWO_SIDED|95.0|-2.114|0.092||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.092|-2.114|0.0724
92218970|NCT01431274|184338479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.563||0.9983|TWO_SIDED|95.0|-1.102|1.104||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||1.104|-1.102|0.9983
92218971|NCT01431274|184338480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.852|STANDARD_ERROR_OF_MEAN|0.578||0.0014|TWO_SIDED|95.0|-2.985|-0.718||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||-0.718|-2.985|0.0014
92218972|NCT01431274|184338480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.444|STANDARD_ERROR_OF_MEAN|0.576||0.4413|TWO_SIDED|95.0|-1.573|0.686||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.686|-1.573|0.4413
92218973|NCT01431274|184338480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.437|STANDARD_ERROR_OF_MEAN|0.578||0.0129|TWO_SIDED|95.0|-2.569|-0.304||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||-0.304|-2.569|0.0129
92218974|NCT01431274|184338480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.056|STANDARD_ERROR_OF_MEAN|0.574||0.9222|TWO_SIDED|95.0|-1.182|1.07||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||1.070|-1.182|0.9222
92348793|NCT01001104|184601269|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92218975|NCT01431274|184338480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.029|STANDARD_ERROR_OF_MEAN|0.576||0.9602|TWO_SIDED|95.0|-1.157|1.1||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|ANCOVA|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||1.100|-1.157|0.9602
92218976|NCT01431274|184338480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.415|STANDARD_ERROR_OF_MEAN|0.57||0.4669|TWO_SIDED|95.0|-1.533|0.703||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.703|-1.533|0.4669
92218977|NCT01431274|184338480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.471|STANDARD_ERROR_OF_MEAN|0.575||0.4126|TWO_SIDED|95.0|-1.598|0.656||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.656|-1.598|0.4126
92218978|NCT01431274|184338480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.408|STANDARD_ERROR_OF_MEAN|0.583||0.0158|TWO_SIDED|95.0|-2.551|-0.265||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.265|-2.551|0.0158
92348794|NCT01001104|184601269|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.97|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92348795|NCT01001104|184601269|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.17|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92348796|NCT01001104|184601270|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value from the Cochran-Armitage trend test.|Cochran-Armitage|||||||<0.001
92348797|NCT01001104|184601270|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92348798|NCT01001104|184601270|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92348799|NCT01001104|184601270|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92348800|NCT01001104|184601271|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value from the Cochran-Armitage trend test.|Cochran-Armitage|||||||<0.001
92348801|NCT01001104|184601271|SUPERIORITY_OR_OTHER|||||||0.358||95.0|||||Fisher Exact|||||||0.358
92218979|NCT01431274|184338480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.381|STANDARD_ERROR_OF_MEAN|0.582||0.0177|TWO_SIDED|95.0|-2.521|-0.24||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.240|-2.521|0.0177
92218980|NCT01431274|184338480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.027|STANDARD_ERROR_OF_MEAN|0.58||0.9624|TWO_SIDED|95.0|-1.164|1.109||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||1.109|-1.164|0.9624
92218981|NCT01431274|184338481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.595|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.329|0.862||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.862|0.329|<0.0001
92218982|NCT01431274|184338481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.64|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.373|0.907||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.907|0.373|<0.0001
92218983|NCT01431274|184338481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.423|STANDARD_ERROR_OF_MEAN|0.136||0.0019|TWO_SIDED|95.0|0.156|0.69||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.690|0.156|0.0019
92348802|NCT01001104|184601271|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Fisher Exact|||||||0.014
92348803|NCT01001104|184601271|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92348804|NCT01001104|184601272|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the linear trend test at week 12.|Mixed Models Analysis|||||||<0.001
92400198|NCT05546476|184691975|SUPERIORITY||Difference in LS Mean|0.43|||=|0.1912|TWO_SIDED|90.0|-0.38|1.24|||MMRM analysis; 1-sided|||Appetite: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.24|-0.38|=0.1912
92218984|NCT01431274|184338481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.446|STANDARD_ERROR_OF_MEAN|0.136||0.0011|TWO_SIDED|95.0|0.179|0.712||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.712|0.179|0.0011
92218985|NCT01431274|184338481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.468|STANDARD_ERROR_OF_MEAN|0.136||0.0006|TWO_SIDED|95.0|0.201|0.735||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.735|0.201|0.0006
92218986|NCT01431274|184338481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.172|STANDARD_ERROR_OF_MEAN|0.136||0.2045|TWO_SIDED|95.0|-0.094|0.438||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.438|-0.094|0.2045
92218987|NCT01431274|184338481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.618|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.351|0.885||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.885|0.351|<0.0001
92348805|NCT01001104|184601272|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.2||||0.003||95.0||||Primary comparisons are based on the MMRM Least Squares (LS) Mean Value at week 12.|Mixed Models Analysis|||||||0.003
92348806|NCT01001104|184601272|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-19.54||||0.003||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.003
92348807|NCT01001104|184601272|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-28.48|||<|0.001||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||<0.001
92348808|NCT01001104|184601273|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the linear trend test at week 12.|Mixed Models Analysis|||||||<0.001
92348809|NCT01001104|184601273|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-33.2|||<|0.001||95.0||||Primary comparisons are based on the MMRM Least Squares (LS) Mean Value at week 12.|Mixed Models Analysis|||||||<0.001
92348810|NCT01001104|184601273|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-45.63|||<|0.001||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||<0.001
92348811|NCT01001104|184601273|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-41.49|||<|0.001||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||<0.001
92218988|NCT01431274|184338481|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.045|STANDARD_ERROR_OF_MEAN|0.137||0.7432|TWO_SIDED|95.0|-0.313|0.223||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.223|-0.313|0.7432
92218989|NCT01431274|184338481|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.023|STANDARD_ERROR_OF_MEAN|0.136||0.8687|TWO_SIDED|95.0|-0.29|0.245||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.245|-0.290|0.8687
92218990|NCT01431274|184338481|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.022|STANDARD_ERROR_OF_MEAN|0.137||0.8709|TWO_SIDED|95.0|-0.29|0.246||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.246|-0.290|0.8709
92218991|NCT01431274|184338482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.63|STANDARD_ERROR_OF_MEAN|0.137|<|0.0001|TWO_SIDED|95.0|0.362|0.898||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.898|0.362|<0.0001
92218992|NCT01431274|184338482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.434|STANDARD_ERROR_OF_MEAN|0.137||0.0015|TWO_SIDED|95.0|0.166|0.703||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.703|0.166|0.0015
92348812|NCT01001104|184601274|SUPERIORITY_OR_OTHER|||||||0.987||95.0||||This is the p-value for the linear trend test at week 12.|Mixed Models Analysis|||||||0.987
92348813|NCT01001104|184601274|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.26||||0.005||95.0||||Primary comparisons are based on the MMRM Least Squares (LS) Mean Value at week 12.|Mixed Models Analysis|||||||0.005
92348814|NCT01001104|184601274|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.45||||0.311||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.311
92348815|NCT01001104|184601274|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.26||||0.556||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.556
92348816|NCT01001104|184601275|SUPERIORITY_OR_OTHER|||||||0.202||95.0||||This is the p-value from the linear trend test at week 12.|Mixed Models Analysis|||||||0.202
92348817|NCT01001104|184601275|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.91||||0.917||95.0||||Primary comparisons are based on the MMRM Least Squares (LS) Mean Value at week 12.|Mixed Models Analysis|||||||0.917
92218993|NCT01431274|184338482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.419|STANDARD_ERROR_OF_MEAN|0.137||0.0022|TWO_SIDED|95.0|0.151|0.687||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.687|0.151|0.0022
92348818|NCT01001104|184601275|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.81||||0.264||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.264
92348819|NCT01001104|184601275|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-8.4||||0.346||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.346
92218994|NCT01431274|184338482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.227|STANDARD_ERROR_OF_MEAN|0.137||0.0966|TWO_SIDED|95.0|-0.041|0.495||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.495|-0.041|0.0966
92348820|NCT01001104|184601276|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the linear trend test at week 12.|Mixed Models Analysis|||||||<0.001
92348821|NCT01001104|184601276|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|13.1||||0.036||95.0||||Primary comparisons are based on the MMRM Least Squares (LS) Mean Value at week 12.|Mixed Models Analysis|||||||0.036
92348822|NCT01001104|184601276|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|19.73||||0.002||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.002
92348823|NCT01001104|184601276|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|31.68|||<|0.001||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||<0.001
92348824|NCT01001104|184601278|SUPERIORITY_OR_OTHER|||||||0.073||95.0||||This is the p-value from the Cochran-Armitage trend test (dose-effect).|Cochran-Armitage|||||||0.073
92348825|NCT01001104|184601278|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
92348826|NCT01001104|184601278|SUPERIORITY_OR_OTHER|||||||0.233||95.0|||||Fisher Exact|||||||0.233
92348827|NCT01121926|184601285|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax,ss is between 80% and 125%.|Mean ratio|56.53|||||TWO_SIDED|90.0|49.99|63.94|||||Test/reference (%)|||63.94|49.99|
92218995|NCT01431274|184338482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.223|STANDARD_ERROR_OF_MEAN|0.137||0.1029|TWO_SIDED|95.0|-0.045|0.492||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.492|-0.045|0.1029
92218996|NCT01431274|184338482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.211|STANDARD_ERROR_OF_MEAN|0.136||0.122|TWO_SIDED|95.0|-0.056|0.478||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.478|-0.056|0.1220
92218997|NCT01431274|184338482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.438|STANDARD_ERROR_OF_MEAN|0.137||0.0014|TWO_SIDED|95.0|0.17|0.707||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.707|0.170|0.0014
92218998|NCT01431274|184338482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.196|STANDARD_ERROR_OF_MEAN|0.137||0.1542|TWO_SIDED|95.0|-0.074|0.465||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.465|-0.074|0.1542
92348828|NCT01121926|184601286|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUCss is between 80% and 125%.|Mean ratio|85.72|||||TWO_SIDED|90.0|81.05|90.67|||||Test/reference (%)|||90.67|81.05|
92348829|NCT02175758|184601292|EQUIVALENCE|Equivalence was determined if the 90% confidence intervals (CI) were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|129.48|||||TWO_SIDED|90.0|109.96|152.48||||||AUCtau of GS-331007 for the 12 to \< 18 Years old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||152.48|109.96|
92348830|NCT02175758|184601292|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|109.8|||||TWO_SIDED|90.0|93.25|129.29||||||AUCtau of GS-331007 for the 6 to \< 12 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||129.29|93.25|
92400199|NCT05546476|184691975|SUPERIORITY||Difference in LS Mean|0.46|||=|0.1866|TWO_SIDED|90.0|-0.39|1.3|||MMRM analysis; 1-sided|||Appetite: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.30|-0.39|=0.1866
92348831|NCT02175758|184601292|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|149.67|||||TWO_SIDED|90.0|127.12|176.21||||||AUCtau of GS-331007 for the 3 to \< 6 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||176.21|127.12|
92348832|NCT02175758|184601294|SUPERIORITY||||||<|0.001|||||||2-sided exact 1-sample binomial test|||The SVR12 rate for the 12 to \< 18 Years Old group was compared with the historical SVR12 rate of 80% using a 2-sided exact 1-sample binomial test at the 0.05 significance level. If superiority was demonstrated in the 12 to \< 18 Years Old group, then the SVR12 rate for participants aged 3 to \< 12 years would be compared with 80% at the 0.05 significance level.||||<0.001
92400200|NCT05546476|184691975|SUPERIORITY||Difference in LS Mean|0.92|||=|0.0349|TWO_SIDED|90.0|0.09|1.75|||MMRM analysis; 1-sided|||Appetite: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.75|0.09|=0.0349
92400201|NCT05546476|184691975|SUPERIORITY||Difference in LS Mean|0.47|||=|0.8754|TWO_SIDED|90.0|-0.2|1.14|||MMRM analysis; 1-sided|||Nausea: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.14|-0.20|=0.8754
92400202|NCT05546476|184691975|SUPERIORITY||Difference in LS Mean|0.38|||=|0.8205|TWO_SIDED|90.0|-0.31|1.08|||MMRM analysis; 1-sided|||Nausea: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.08|-0.31|=0.8205
92400203|NCT05546476|184691975|SUPERIORITY||Difference in LS Mean|-0.17|||=|0.3375|TWO_SIDED|90.0|-0.86|0.51|||MMRM analysis; 1-sided|||Nausea: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.51|-0.86|=0.3375
92218999|NCT01431274|184338482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.192|STANDARD_ERROR_OF_MEAN|0.137||0.1626|TWO_SIDED|95.0|-0.077|0.461||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.461|-0.077|0.1626
92160230|NCT00299702|184208562|SUPERIORITY_OR_OTHER|||||||0.646||||||Hochberg procedure was used for adjusting multiple endpoint comparisons|Wilcoxon (Mann-Whitney)|||Null hypothesis: there is no difference in time in remission between the two treatment groups||||0.646
92160231|NCT02931396|184208577|SUPERIORITY||Mean Difference (Net)|2.3||||0.768|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.768
92160232|NCT02931396|184208578|SUPERIORITY||Mean Difference (Net)|25.5||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1
92160233|NCT02931396|184208579|SUPERIORITY||Mean Difference (Net)|2.7||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.03
92160234|NCT05460663|184208587|EQUIVALENCE|Paired Wilcoxon signed ranks tests were used to compare changes at 12-week, 18-week, or 24-week follow-ups from the baseline scores for all measurements in each training modality separately and combined. Comparisons were made with participants who had data at both baseline and the follow-up. Difference-in-difference comparison of changes between two training modalities at each follow-up from the baseline were made to assess differences between CBT and in-person training.||||||0.083||||||The reported P-value is for differences between groups at 24-weeks post-intervention.The Benjamini \& Hochberg adjustment was applied to control for the false-discovery rate among all pairwise pre-post comparisons.|Wilcoxon (Mann-Whitney)|||||||.083
92160235|NCT01866917|184208613|SUPERIORITY|||||||0.574|||||||Chi-squared|||||||.574
92160236|NCT01866917|184208614|SUPERIORITY|Statistical analysis performed using SPSS software, version 15 (SPSS Inc., Chicago, IL). Data for quantitative variables reported as a median and interquartile range. The Mann Whitney and chi-square tests were used for the analysis of continuous and categorical variables.|Interquartile range (IQR)|3.0||||0.825|TWO_SIDED|||||Effect size was calculated for the numeric pain rating scale at the immediate post-operative period, 4-hour, 8-hour , 12-hour, and 24-hour time periods as a means to assess post-operative pain control.|Chi-squared|||TAP has been demonstrated to have a potential role in reducing pain, post-operative opioid requirement, and time to hospital discharge after abdominal hysterectomies and cesarean sections.||||.825
92160237|NCT01140347|184208615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.866||||0.1391|TWO_SIDED|95.0|0.717|1.046|||Log Rank||HR with 95% confidence interval (CI) was estimated using a stratified Cox proportional hazards regression model using the Interactive Web Response System (IWRS) stratification factors (geographical regions and etiology of liver disease).|||1.046|0.717|0.1391
92160238|NCT01140347|184208616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.625|||<|0.0001|TWO_SIDED|95.0|0.522|0.75|||Log Rank||HR with 95% CI was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors (geographical regions and etiology of liver disease).|||0.750|0.522|<0.0001
92160239|NCT01140347|184208617|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) adjusted for geographic region and etiology liver disease||||||<0.0001
92160240|NCT01140347|184208618|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.593|||<|0.0001|TWO_SIDED|95.0|0.487|0.722|||Log Rank||HR with 95% CI was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors (geographical regions and etiology of liver disease).|||0.722|0.487|<0.0001
92160241|NCT00662909|184208642|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34||||0.026|TWO_SIDED|95.0|-0.66|-0.03||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.03|-0.66|0.026
92160242|NCT00662909|184208642|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|||<|0.001|TWO_SIDED|95.0|-0.82|-0.18||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.18|-0.82|<0.001
92160243|NCT00662909|184208643|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61||||0.001|TWO_SIDED|95.0|-0.98|-0.24||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.24|-0.98|0.001
92160244|NCT00662909|184208643|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|||<|0.001|TWO_SIDED|95.0|-1.07|-0.33||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.33|-1.07|<0.001
92219000|NCT01431274|184338482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.004|STANDARD_ERROR_OF_MEAN|0.138||0.9765|TWO_SIDED|95.0|-0.265|0.274||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.274|-0.265|0.9765
92219001|NCT01431274|184338483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.647|STANDARD_ERROR_OF_MEAN|0.142|<|0.0001|TWO_SIDED|95.0|0.37|0.925||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.925|0.370|<0.0001
92348833|NCT02175758|184601294|SUPERIORITY||||||<|0.001|||||||2-sided exact 1-sample binomial test|||The SVR12 rate for the 3 to \< 12 Years Old group was compared with the historical SVR12 rate of 80% using a 2-sided exact 1-sample binomial test at the 0.05 significance level.||||<0.001
92348834|NCT02111980|184601325|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||t-test, 2 sided|||||||1.0
92160245|NCT00662909|184208644|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.1||||0.001|TWO_SIDED|95.0|4.4|17.9||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||17.9|4.4|0.001
92348835|NCT01625182|184601342|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9838|TWO_SIDED|95.0|0.6|1.7|||Regression, Cox|||||1.7|0.6|0.9838
92348836|NCT01970371|184601352|SUPERIORITY|The 2-sided 90% confidence interval (CI) for the difference between groups in Cohort 1 (colistin minus plazomicin) is based on the unconditional exact method.|Difference Estimate|26.5|||||TWO_SIDED|90.0|-0.7|51.2|||1-sided Fisher's exact test|||||51.2|-0.7|
92348837|NCT01970371|184601353|SUPERIORITY|The 2-sided 90% confidence interval (CI) for the difference between groups in Cohort 1 (colistin minus plazomicin) is based on the unconditional exact method.|Difference Estimate|28.2|||||TWO_SIDED|90.0|0.7|52.5|||1-sided Fisher's exact test|||||52.5|0.7|
92348838|NCT01970371|184601354|SUPERIORITY|The 2-sided 90% confidence interval (CI) for the difference in clinical cure percentage at the TOC visit between groups in Cohort 1 (colistin minus plazomicin) is based on the unconditional exact method.|Difference Estimate|-0.3|||||TWO_SIDED|90.0|-26.9|26.8|||1-sided Fisher's exact test|||||26.8|-26.9|
92348839|NCT01970371|184601355|SUPERIORITY|The 2-sided 90% confidence interval (CI) for the unadjusted hazard ratio between groups in Cohort 1 (colistin:plazomicin) is based on a Cox proportional hazards regression model.|Hazard Ratio (HR)|3.97|||||TWO_SIDED|90.0|1.08|14.61|||1-sided logrank test|||||14.61|1.08|
92348840|NCT01970371|184601356|SUPERIORITY|The two-sided 90% confidence interval for the difference between groups in Cohort 1 (colistin minus plazomicin) is based on the unconditional exact method.|Difference Estimate|14.1|||||TWO_SIDED|90.0|-13.0|40.3|||1-sided Fisher's exact test|||||40.3|-13|
92348841|NCT01922011|184601364|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower bound of the 2-sided 95% CI is greater than -15%|Common Difference|-6.1||||0.421|TWO_SIDED|95.0|-19.4|7.4|||Wald||Daptomycin - Comparator|95% confidence interval of the common difference was based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.||7.4|-19.4|0.421
92160246|NCT00662909|184208644|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.0||||0.002|TWO_SIDED|95.0|4.2|17.7||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||17.7|4.2|0.002
92160247|NCT00662909|184208645|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48||||0.003|TWO_SIDED|95.0|-0.8|-0.15||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.15|-0.80|0.003
92160248|NCT00662909|184208645|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|||<|0.001|TWO_SIDED|95.0|-0.79|-0.13||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.13|-0.79|<0.001
92219002|NCT01431274|184338483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.322|STANDARD_ERROR_OF_MEAN|0.141||0.0226|TWO_SIDED|95.0|0.045|0.6||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.600|0.045|0.0226
92348842|NCT01922011|184601365|SUPERIORITY_OR_OTHER||Common difference|-7.1||||0.467|TWO_SIDED|95.0|-21.6|7.9|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|||7.9|-21.6|0.467
92219003|NCT01431274|184338483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.371|STANDARD_ERROR_OF_MEAN|0.142||0.0089|TWO_SIDED|95.0|0.093|0.649||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.649|0.093|0.0089
92219004|NCT01431274|184338483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.332|STANDARD_ERROR_OF_MEAN|0.141||0.0186|TWO_SIDED|95.0|0.056|0.609||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.609|0.056|0.0186
92219005|NCT01431274|184338483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.046|STANDARD_ERROR_OF_MEAN|0.142||0.7441|TWO_SIDED|95.0|-0.231|0.324||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.324|-0.231|0.7441
92219006|NCT01431274|184338483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.276|STANDARD_ERROR_OF_MEAN|0.14||0.0492|TWO_SIDED|95.0|0.001|0.551||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 μg).~Spatial power covariance structure for within-patient errors."|||0.551|0.001|0.0492
92219007|NCT01431274|184338483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.608|STANDARD_ERROR_OF_MEAN|0.141|<|0.0001|TWO_SIDED|95.0|0.332|0.884||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.884|0.332|<0.0001
92219008|NCT01431274|184338483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.325|STANDARD_ERROR_OF_MEAN|0.143||0.023|TWO_SIDED|95.0|0.045|0.605||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg)~Spatial power covariance structure for within-patient errors."|||0.605|0.045|0.0230
92219009|NCT01431274|184338483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.039|STANDARD_ERROR_OF_MEAN|0.142||0.7855|TWO_SIDED|95.0|-0.24|0.317||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.317|-0.240|0.7855
92219010|NCT01431274|184338483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.286|STANDARD_ERROR_OF_MEAN|0.142||0.0442|TWO_SIDED|95.0|0.007|0.564||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.564|0.007|0.0442
92348843|NCT01922011|184601366|SUPERIORITY_OR_OTHER||Common difference|-6.2||||0.313|TWO_SIDED|95.0|-17.5|5.0|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|At EOIV visit||5.0|-17.5|0.313
92348844|NCT01922011|184601366|SUPERIORITY_OR_OTHER||Common difference|-7.9||||0.239|TWO_SIDED|95.0|-19.8|4.0|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|At EOT visit||4.0|-19.8|0.239
92219011|NCT04206605|184338499|SUPERIORITY||Rate Ratio|1.02|||=|0.899|TWO_SIDED|95.0|0.71|1.47||P-value was from Wald-based chi-square test; unadjusted for multiple testing.|Chi-squared|||||1.47|0.71|=0.899
92219012|NCT04206605|184338500|SUPERIORITY||Risk Difference (RD)|0.003|||=|1|TWO_SIDED|95.0|-0.153|0.114||P-value was from the corresponding Mantel-Haenszel estimate for the common risk difference from Cochran-Mantel-Haenszel (CMH) test; unadjusted for multiple testing.|Cochran-Mantel-Haenszel|||||0.114|-0.153|=1.000
92219013|NCT04206605|184338501|SUPERIORITY||Rate Ratio|0.96|||=|0.852|TWO_SIDED|95.0|0.62|1.48||P-value was from Wald-based chi-square test; unadjusted for multiple testing.|Chi-squared|||||1.48|0.62|=0.852
92219014|NCT04206605|184338502|SUPERIORITY||Rate Ratio|1.1|||=|0.66|TWO_SIDED|95.0|0.72|1.7||P-value was from Wald-based chi-square test; unadjusted for multiple testing.|Chi-squared|||||1.70|0.72|=0.660
92219015|NCT04206605|184338503|SUPERIORITY||Risk Difference (RD)|-0.087|||=|0.25|TWO_SIDED|95.0|-0.28|0.063||P-value was from the corresponding Mantel-Haenszel estimate for the common risk difference from CMH test; unadjusted for multiple testing.|Cochran-Mantel-Haenszel|||||0.063|-0.280|=0.250
92219016|NCT04206605|184338505|SUPERIORITY||Rate Ratio|0.97|||=|0.896|TWO_SIDED|95.0|0.58|1.61||P-value was from Wald-based chi-square test; unadjusted for multiple testing.|Chi-squared|||||1.61|0.58|=0.896
92219017|NCT04206605|184338507|SUPERIORITY||||||=|0.498||||||P-value comparing lanadelumab to placebo was from a log rank test stratified by baseline strata.|Log Rank|||||||=0.498
92219018|NCT04206605|184338508|SUPERIORITY||||||=|0.184||||||P-value comparing lanadelumab to placebo was from a log rank test stratified by baseline strata.|Log Rank|||||||=0.184
92348845|NCT01922011|184601366|SUPERIORITY_OR_OTHER||Common difference|-6.7||||0.37|TWO_SIDED|95.0|-19.1|5.8|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|At TOC visit||5.8|-19.1|0.370
92219019|NCT04580446|184338516|OTHER|Descriptive analysis used to identify the dose level associated with ≤1 of 6 participants experiencing a dose-limiting toxicity (DLT), consistent with standard 3+3 design methodology.|Maximally Tolerated Dose/Fractionation|46.5|||||TWO_SIDED||||||||MTD/fractionation determined as 46.5 Gy in 15 fractions based on incidence of DLTs during dose escalation (3 + 3 design)|"Estimation Parameter: Maximally Tolerated Dose/Fractionation Description: The maximally tolerated dose (MTD)/fractionation of hypofractionated radiation therapy was determined based on the incidence of dose-limiting toxicities (DLTs) observed during the dose-escalation phase.~Estimate: 46.5 Gy × 15 fractions"||||
92160249|NCT00662909|184208646|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42||||0.022|TWO_SIDED|95.0|-0.77|-0.06||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.06|-0.77|0.022
92160250|NCT00662909|184208646|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.001|TWO_SIDED|95.0|-0.96|-0.24||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.24|-0.96|0.001
92160251|NCT01451814|184208679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.22|TWO_SIDED|95.0|0.67|5.48|||Chi-squared|||||5.48|0.67|.22
92160252|NCT01451814|184208680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.3||||0.06|TWO_SIDED|95.0|0.84|22.1|||Chi-squared|||||22.1|0.84|.06
92160253|NCT01451814|184208681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0||||0.18|TWO_SIDED|95.0|0.56|16.11|||Chi-squared|||||16.11|0.56|.18
92160254|NCT03107611|184208704|SUPERIORITY|||||||0.0817|||||||Fisher Exact|||||||0.0817
92160255|NCT03107611|184208704|SUPERIORITY|||||||0.2874|||||||Fisher Exact|||||||0.2874
92160256|NCT03107611|184208705|EQUIVALENCE|Equivalence margin: -0.20, +0.20|Difference in proportions|-0.03|||||TWO_SIDED|90.0|-0.12|0.06||||||||0.06|-0.12|
92160257|NCT01020838|184208722|SUPERIORITY_OR_OTHER||Sensitivity|0.774|||||TWO_SIDED|95.0|0.654|0.894|||||Point estimate of sensitivity was calculated by the method of Rao and Scott. Variance for sensitivity is based on subjects that contribute at least one brain region, which is amyloid positive according to the SoT|"For the primary analysis, point estimates together with normal-approximated, two sided 95% confidence intervals, were given for sensitivity in beta-amyloid detection based on the majority read.~The following hypothesis was formulated for sensitivity:~H0,sens: sensitivity ≤ 0.6 vs. H1, sens: sensitivity \> 0.6 H0,sens was to be rejected if the lower bound of the two-sided 95% CI is larger than 0.6"||0.894|0.654|
92160258|NCT01020838|184208722|SUPERIORITY_OR_OTHER||Specificity|0.942|||||TWO_SIDED|95.0|0.886|0.998|||||Point estimate of specificity was calculated using the method of Rao and Scott. Variance for specificity is based on subjects that contribute at least one brain region, which is amyloid negative according to the SoT|"For the primary analysis, point estimates together with normal-approximated, two sided 95% confidence intervals, were given for specificity in amyloid detection based on the majority read.~The following hypothesis was formulated for specificity:~H0,spec: specificity ≤ 0.8 vs. H1, spec: specificity \> 0.8 H0,spec was to be rejected if the lower bound of the two-sided 95% CI is larger than 0.8"||0.998|0.886|
92160259|NCT02145182|184208732|SUPERIORITY||Odds Ratio (OR)|0.81||||0.3983|TWO_SIDED|95.0|0.49|1.33|||Regression, Logistic|Logistic regression results for the DGF composite, the effect of treatment adjusted for preservation type, donor type, and Irish score.|Calculated using the logistic regression model.|Analysis of DGF composite||1.33|0.49|0.3983
92160260|NCT00952718|184208798|SUPERIORITY|||||||0.005||||||p-value for MIP was adjusted by linear regression model.|Regression, Linear|||||||0.005
92160261|NCT00952718|184208798|SUPERIORITY|||||||0.038||||||adjusted p for MEP by linear regression|Regression, Linear|||||||0.038
92160262|NCT00952718|184208799|SUPERIORITY|||||||0.063|||||||Regression, Linear|||||||0.063
92160263|NCT00952718|184208800|SUPERIORITY|||||||0.269|||||||Regression, Linear|||||||0.269
92160264|NCT04807517|184208839|OTHER|Within-group test for 16-week change|||||<|0.001|||||||Regression, Linear|Repeated measures linear regression||||||<0.001
92160265|NCT04939428|184208865|SUPERIORITY||Confidence Interval|-2.0|||=|0.0848|TWO_SIDED|95.0|-5.0|0.9|||Miettinen & Nurminen method|||Adjusted differences and the corresponding confidence intervals are based on Miettinen \& Nurminen method stratified by age and household size.||0.9|-5|= 0.0848
92160266|NCT04939428|184208866|OTHER|Estimated differences and confidence intervals are provided.|Confidence Interval|-1.4|||||TWO_SIDED|95.0|-4.8|2.0|||Miettinen & Nurminen method|||95% CIs (Tier 2 endpoints) was provided for between treatment differences in the percentage of participants with events; these analyses was performed using the Miettinen and Nurminen method.||2.0|-4.8|
92160267|NCT04939428|184208867|OTHER|Estimated differences and confidence intervals are provided|Confidence Interval|0.3|||||TWO_SIDED|95.0|-0.4|1.0|||Miettinen & Nurminen method.|||95% CIs (Tier 2 endpoints) was provided for between treatment differences in the percentage of participants with events; these analyses was performed using the Miettinen and Nurminen method.||1.0|-0.4|
92160268|NCT04939428|184208868|SUPERIORITY||Confidence Interval|-3.2|||=|0.0205|TWO_SIDED|95.0|-6.3|-0.1|||Miettinen & Nurminen method|||Adjusted differences and the corresponding confidence intervals are based on Miettinen \& Nurminen method stratified by age and household size.||-0.1|-6.3|= 0.0205
92160269|NCT04939428|184208869|OTHER|Adjusted differences and the corresponding confidence intervals.|Confidence Interval|-2.2|||||TWO_SIDED|95.0|-5.4|1.0|||Miettinen & Nurminen method|||Adjusted differences and the corresponding confidence intervals are based on Miettinen \& Nurminen method stratified by age and household size.||1.0|-5.4|
92160270|NCT04939428|184208870|OTHER|Adjusted differences and the corresponding confidence intervals|Confidence Interval|-3.0|||||TWO_SIDED|95.0|-6.9|0.8||||||Adjusted differences and the corresponding confidence intervals are based on Miettinen \& Nurminen method stratified by age and household size.||0.8|-6.9|
92348846|NCT01922011|184601367|SUPERIORITY_OR_OTHER||Common difference|-10.5||||0.23|TWO_SIDED|95.0|-26.3|5.4|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|Overall Baseline Infecting Pathogen||5.4|-26.3|0.230
92348847|NCT01922011|184601367|SUPERIORITY_OR_OTHER||Common difference|-12.3||||0.164|TWO_SIDED|95.0|-28.5|4.4|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|SA||4.4|-28.5|0.164
92160271|NCT04939428|184208871|OTHER|Adjusted differences and the corresponding confidence intervals.|Mean Difference (Final Values)|-10.5|||||TWO_SIDED|95.0|-22.7|2.0|||Miettinen & Nurminen method|||Adjusted differences and the corresponding confidence intervals are based on Miettinen \& Nurminen method stratified by age and household size.||2.0|-22.7|
92160272|NCT05096117|184208872|SUPERIORITY||Least Square Mean Difference|0.178||||0.784|TWO_SIDED||||||ANCOVA|||||||0.784
92160273|NCT04319094|184208886|SUPERIORITY||Mean Difference (Net)|-3.7|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-4.77|-2.62||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 501|Score difference = Post-intervention - Baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-2.62|-4.77|<0.0001
92160274|NCT04319094|184208886|SUPERIORITY||Mean Difference (Net)|-2.53|STANDARD_ERROR_OF_MEAN|0.65||0.0001|TWO_SIDED|95.0|-3.81|-1.25||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 501|Score difference = 3-month - Baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-1.25|-3.81|0.0001
92160275|NCT04319094|184208886|SUPERIORITY||Median Difference (Net)|-2.83|STANDARD_ERROR_OF_MEAN|0.66|<|0.0001|TWO_SIDED|95.0|-4.13|-1.53||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 501|Score difference = 6-month - baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-1.53|-4.13|<0.0001
92160276|NCT04319094|184208886|SUPERIORITY||Mean Difference (Net)|-2.76|STANDARD_ERROR_OF_MEAN|0.65|<|0.0001|TWO_SIDED|95.0|-4.03|-1.49||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 501|Score difference = 9-month - baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-1.49|-4.03|<0.0001
92168604|NCT03951805|184227021|OTHER||Treatment difference|5.01||||0.0519|TWO_SIDED|95.0|-0.04|10.05|||ANCOVA|||The response and change from baseline in response during the last two weeks of treatment (week 15 and 16) are analysed using an analysis of covariance (ANCOVA) model with treatment and SGLT2i use as fixed factors, and baseline response as covariate. Missing endpoint values are imputed using multiple imputation based on own treatment arm with baseline response as a covariate. Each imputed dataset is analysed separately and estimates are combined using Rubin's rules.||10.05|-0.04|0.0519
92219020|NCT01748942|184338585|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
92219021|NCT01748942|184338588|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92219022|NCT01748942|184338589|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
92348848|NCT01922011|184601367|SUPERIORITY_OR_OTHER||Common difference|-15.5||||0.043|TWO_SIDED|95.0|-31.2|1.1|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|MSSA||1.1|-31.2|0.043
92348849|NCT01922011|184601367|SUPERIORITY_OR_OTHER|||||||0.45|||||||Wald|||MRSA||||0.450
92348850|NCT01922011|184601367|SUPERIORITY_OR_OTHER|||||||0.28|||||||Wald|||Other Pathogen||||0.280
92348851|NCT01922011|184601368|SUPERIORITY_OR_OTHER||Common difference|-6.3||||0.272|TWO_SIDED|95.0|-18.2|5.5|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|EOT||5.5|-18.2|0.272
92219023|NCT01748942|184338590|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
92219024|NCT01748942|184338591|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
92275578|NCT00529568|184453618|SUPERIORITY_OR_OTHER||Percentage difference in SVR|6.0||||0.0202|TWO_SIDED|95.0|1.2|10.9||Stratified Cochran-Mantel-Haenszel (CMH) chi-square test adjusted for the randomization strata|Cochran-Mantel-Haenszel||The estimated value reflects the percentage of participants with SVR in the eltrombopag group minus the percentage of participants with SVR in the placebo group. Adjusted for the actual strata: HCV genotype, baseline platelet count, and HCV RNA.|||10.9|1.2|0.0202
92348852|NCT01922011|184601368|SUPERIORITY_OR_OTHER||Common difference|-4.8||||0.48|TWO_SIDED|95.0|-17.6|7.9|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|TOC||7.9|-17.6|0.480
92348853|NCT01922011|184601369|SUPERIORITY_OR_OTHER||Common difference|-10.1|||||TWO_SIDED|95.0|-24.8|4.2|||||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|Overall Baseline Infecting Pathogen||4.2|-24.8|
92348854|NCT01922011|184601369|SUPERIORITY_OR_OTHER||Common difference|-12.2|||||TWO_SIDED|95.0|-27.2|2.8|||||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|SA||2.8|-27.2|
92348855|NCT01922011|184601369|SUPERIORITY_OR_OTHER||Common difference|-10.4|||||TWO_SIDED|95.0|-25.4|5.2|||||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|MSSA||5.2|-25.4|
92348856|NCT00924482|184601393|SUPERIORITY_OR_OTHER_LEGACY||Correlation Coefficient (R^2)|0.63||||||95.0|||||Regression, Linear|Linear regression between the average of six thermodilution cardiac output measurements was compared to the average of six ECOM output measurements||||||
92348857|NCT03483584|184601447|OTHER|Chi-square test is to detect the difference in the prevalence of hypertension between INSTI and non-INSTI groups||||||0.244||||||The threshold for significance was set at p \< 0.05.|Chi-squared|||||||0.244
92160277|NCT04319094|184208886|SUPERIORITY||Mean Difference (Net)|-2.56|STANDARD_ERROR_OF_MEAN|0.71||0.0003|TWO_SIDED|95.0|-3.95|-1.17||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 501|Score difference =12-month - baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-1.17|-3.95|0.0003
92160278|NCT04319094|184208886|SUPERIORITY|||||||0.4375|||||||Mixed Models Analysis|||Null hypothesis: There is no difference in the change of PHQ-9 over time between the control and PEERS participants.||||0.4375
92348858|NCT03483584|184601447|OTHER|Chi square test is to detect the difference in prevalence of diabetes mellitus between INSTI and non-INSTI groups||||||0.584||||||The threshold for significance was set at p \< 0.05.|Chi-squared|||||||0.584
92348859|NCT03483584|184601447|OTHER|Chi square test is used to detect the difference in prevalence of insulin resistance between INSTI and non-INSTI groups||||||0.067||||||The threshold for significance was set at p \< 0.05.|Chi-squared|||||||0.067
92348860|NCT03483584|184601447|OTHER|Chi square test is used to detect the difference in prevalence of dyslipidemia between INSTI and non-INSTI groups||||||0.365||||||The threshold for significance was set at p \< 0.05.|Chi-squared|||||||0.365
92348861|NCT03483584|184601447|OTHER|Chi square test is used to detect the difference in prevalence of metabolic syndrome between INSTI and non-INSTI groups||||||0.033||||||The threshold for significance was set at p \< 0.05.|Chi-squared|||||||0.033
92348862|NCT03483584|184601447|OTHER|Chi square is used to detect the difference in prevalence of osteopenia between INSTI and non-INSTI groups||||||0.196||||||The threshold for significance was set at p \< 0.05.|Chi-squared|||||||0.196
92348863|NCT03483584|184601447|OTHER|||||||1||||||The threshold for significance was set at p \< 0.05.|Fisher Exact|Fisher exact test is used when any cells have expected count less than 5.||Chi square test is used to detect the difference in prevalence of osteoporosis between INSTI and non-INSTI groups.||||1.000
92348864|NCT03483584|184601447|OTHER|||||||0.572||||||The threshold for significance was set at p \< 0.05.|Fisher Exact|Fisher exact test is used when any cells have expected less than 5.||Chi square test is used to detect the difference in prevalence of vitamin D deficiency between INSTI and non-INSTI groups.||||0.572
92219025|NCT01748942|184338592|SUPERIORITY|||||||0.15|||||||Log Rank|||||||0.15
92219026|NCT00243386|184338593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6016||95.0|||||t-test, 2 sided|||A t-test was used to compare the means of the transformed data. The null-hypothesis tested was H0: X'A(PK-driven prophylaxis) - X'B (standard prophylaxis) = 0 (i.e., no difference for treatment under the 2 prophylactic regimens. X' = (ABR+0.5)\^(1/2)||||0.6016
92219027|NCT00243386|184338594|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||2-sided paired T-tests were done comparing transformed annualized bleeding rates between On-Demand and Prophylaxis regimens.|Paired t-Test|||||||<0.0001
92219028|NCT00243386|184338595|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||2-sided paired T-tests were done comparing transformed annualized bleeding rates between On-Demand and Prophylaxis regimens.|Paired t-test|||||||<0.0001
92219029|NCT00243386|184338596|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||2-sided paired T-tests were done comparing transformed annualized bleeding rates between On-Demand and Prophylaxis regimens.|Paired t-test|||||||<0.0001
92275579|NCT00951899|184453677|SUPERIORITY_OR_OTHER|||||||0.0006||95.0||||A P value \< 0.05 was considered statistically significant|t-test, 2 sided|||Comparison of mean total GLP-1 concentration from baseline to 12 weeks in Colesevelam subjects||||0.0006
92348865|NCT03483584|184601447|OTHER|||||||0.698||||||The threshold for significance was set at p \< 0.05.|Chi-squared|||Chi square test is used to detect the difference in prevalence in renal disease between INSTI and non-INSTI groups.||||0.698
92348866|NCT03483584|184601447|OTHER|Chi square test is used to detect the difference in prevalence of kidney tubular dysfunction between INSTI and non-INSTI groups.||||||0.848||||||The threshold for significance was set at p \< 0.05.|Chi-squared|||||||0.848
92348867|NCT03483584|184601447|OTHER|Chi square test is used to detect the difference in prevalence of intermediate or advanced fibrosis (FIB-4 \>1.3) between INSTI and non-INSTI groups||||||0.274||||||The threshold for significance was set at p \< 0.05.|Chi-squared|||||||0.274
92348868|NCT03483584|184601447|OTHER|Chi square test is used to detect the difference in prevalence of advanced fibrosis (FIB-4 \>2.67) between INSTI and non-INSTI groups||||||1||||||The threshold for significance was set at p \< 0.05.|Fisher Exact|Fisher exact test is used when any cells have expected count less than 5.||||||1.000
92160279|NCT04319094|184208887|SUPERIORITY||Mean Difference (Net)|1.61|STANDARD_ERROR_OF_MEAN|2.42||0.51|TWO_SIDED|95.0|-3.15|6.37||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 364||Null hypothesis: there is no difference in the mean SF36 - Physical Functioning scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|6.37|-3.15|0.51
92160280|NCT04319094|184208887|SUPERIORITY||Mean Difference (Net)|4.57||||0.18|TWO_SIDED|95.0|-2.08|11.21||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 364||Null hypothesis: there is no difference in the mean SF36-physical function scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|11.21|-2.08|0.18
92160281|NCT04319094|184208887|SUPERIORITY||Mean Difference (Net)|1.57|STANDARD_ERROR_OF_MEAN|3.29||0.63|TWO_SIDED|95.0|-4.89|8.04||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 364||Null hypothesis: there is no difference in the mean SF36-physical function scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|8.04|-4.89|0.63
92160282|NCT04319094|184208887|SUPERIORITY||Mean Difference (Net)|-1.02|STANDARD_ERROR_OF_MEAN|3.01||0.74|TWO_SIDED|95.0|-6.94|4.91||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 364||Null hypothesis: there is no difference in the mean SF36-physical function scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|4.91|-6.94|0.74
92160283|NCT04319094|184208887|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|3.83||0.85|TWO_SIDED|95.0|-6.82|8.23||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 364||Null hypothesis: there is no difference in the mean SF36-physical function scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|8.23|-6.82|0.85
92160284|NCT04319094|184208887|SUPERIORITY|||||||0.3988|||||||Mixed Models Analysis|||Null hypothesis: There is no difference in the change of physical functioning over time between the control and PEERS participants.||||0.3988
92160285|NCT04319094|184208888|SUPERIORITY||Mean Difference (Net)|5.08|STANDARD_ERROR_OF_MEAN|3.41||0.14|TWO_SIDED|95.0|-1.63|11.79||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 360||Null hypothesis: there is no difference in the mean SF36-social function scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|11.79|-1.63|0.14
92168605|NCT05999435|184227033|SUPERIORITY||Least Square Means difference|-0.8|STANDARD_ERROR_OF_MEAN|1.1||0.4463|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||"Null hypothesis of no difference; statistical results of observed PCS and change from baseline PCS are identical."||||0.4463
92219030|NCT00243386|184338597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4924||95.0|||||Wilcoxon-Rank Sum (Mann-Whitney)|||||||0.4924
92348869|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|1.508|||||TWO_SIDED|95.0|0.352|6.45|||||Wald chi square test is used to investigate whether INSTI group had a higher risk of developing of HANA conditions compared with non-INSTI group, with IRR \>1 meaning higher risk of developing new HANA conditions.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing hypertension in INSTI group compared with non-INSTI group as reference group at 2 years.||6.450|0.352|
92348870|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|1.936|||||TWO_SIDED|95.0|0.251|14.919|||||Wald chi square test is used to detect the difference in incidence rates in the INSTI group compared with the non-INSTI group (as reference group) after adjustment of covariates, with IRR \>1 meaning higher risk of developing new HANA conditions.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing hypertension in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||14.919|0.251|
92348871|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.388|||||TWO_SIDED|95.0|0.099|1.155|||||Wald chi square test is used to investigate whether INSTI group had a higher risk of developing of HANA conditions compared with non-INSTI group, with IRR \>1 meaning higher risk of developing new HANA conditions.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing diabetes mellitus in INSTI group compared with non-INSTI group as reference group at 2 years.||1.155|0.099|
92160286|NCT04319094|184208888|SUPERIORITY||Mean Difference (Net)|10.32|STANDARD_ERROR_OF_MEAN|4.0||0.01|TWO_SIDED|95.0|2.45|18.19||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 360||Null hypothesis: there is no difference in the mean SF36-social function scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|18.19|2.45|0.01
92160287|NCT04319094|184208888|SUPERIORITY||Mean Difference (Net)|10.25|STANDARD_ERROR_OF_MEAN|4.19||0.015|TWO_SIDED|95.0|2.01|18.5||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 360||Null hypothesis: there is no difference in the mean SF36-social function scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|18.5|2.01|0.015
92160288|NCT04319094|184208888|SUPERIORITY||Mean Difference (Net)|11.72|STANDARD_ERROR_OF_MEAN|4.07||0.004|TWO_SIDED|95.0|3.7|19.73||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|degrees of freedom: 360||Null hypothesis: there is no difference in the mean SF36-social function scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|19.73|3.7|0.004
92160289|NCT04319094|184208888|SUPERIORITY||Mean Difference (Net)|5.73|STANDARD_ERROR_OF_MEAN|4.49||0.2|TWO_SIDED|95.0|-3.09|14.55||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 360||Null hypothesis: there is no difference in the mean SF36-social function scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|14.55|-3.09|0.2
92160290|NCT04319094|184208888|SUPERIORITY|||||||0.8037|||||||Mixed Models Analysis|||Null hypothesis: There is no difference in the change of social functioning over time between the control and PEERS participants.||||0.8037
92160291|NCT04319094|184208889|SUPERIORITY||Median Difference (Net)|12.52|STANDARD_ERROR_OF_MEAN|5.01||0.0129|TWO_SIDED|95.0|2.67|22.37||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 366||Null hypothesis: there is no difference in the mean SF36-emotional functioning scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|22.37|2.67|0.0129
92168606|NCT05999435|184227033|SUPERIORITY||Least Square Means difference|0.2|STANDARD_ERROR_OF_MEAN|1.1||0.8707|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||"Null hypothesis of no difference; statistical results of observed PCS and change from baseline PCS are identical."||||0.8707
92168607|NCT05999435|184227033|SUPERIORITY||Least Square Means difference|-1.0|STANDARD_ERROR_OF_MEAN|1.11||0.36|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||"Null hypothesis of no difference; statistical results of observed PCS and change from baseline PCS are identical."||||0.3600
92168608|NCT05999435|184227036|SUPERIORITY|||||||0.1618||||||Alpha set at 0.05|Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||0.1618
92168609|NCT05999435|184227036|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||1.000
92348872|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.507|||||TWO_SIDED|95.0|0.132|1.948|||||Wald chi square test is used to detect the difference in incidence rates in the INSTI group compared with the non-INSTI group (as reference group) after adjustment of covariates, with IRR \>1 meaning higher risk of developing new HANA conditions.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing diabetes mellitus in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||1.948|0.132|
92348873|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.743|||||TWO_SIDED|95.0|0.395|1.397|||||Wald chi square test is used to investigate whether INSTI group had a higher risk of developing of HANA conditions compared with non-INSTI group, with IRR \>1 meaning higher risk of developing new HANA conditions.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing insulin resistance in INSTI group compared with non-INSTI group as reference group at 2 years.||1.397|0.395|
92348874|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.883|||||TWO_SIDED|95.0|0.444|1.759|||||Wald chi square test is used to detect the difference in incidence rates in the INSTI group compared with the non-INSTI group (as reference group) after adjustment of covariates, with IRR \>1 meaning higher risk of developing new HANA conditions.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing insulin resistance in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||1.759|0.444|
92348875|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|1.187|||||TWO_SIDED|95.0|0.274|5.139|||||Wald chi square test is used to investigate whether INSTI group had a higher risk of developing of HANA conditions compared with non-INSTI group, with IRR \>1 meaning higher risk of developing new HANA conditions.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing dyslipidemia in INSTI group compared with non-INSTI group as reference group at 2 years.||5.139|0.274|
92160292|NCT04319094|184208889|SUPERIORITY||Mean Difference (Net)|19.84|STANDARD_ERROR_OF_MEAN|5.86||0.0008|TWO_SIDED|95.0|8.32|31.36||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 366||Null hypothesis: there is no difference in the mean SF36-emotional functioning scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|31.36|8.32|0.0008
92160293|NCT04319094|184208889|SUPERIORITY||Median Difference (Net)|17.99|STANDARD_ERROR_OF_MEAN|6.14||0.0036|TWO_SIDED|95.0|5.92|30.06||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 366||Null hypothesis: there is no difference in the mean SF36-emotional functioning scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|30.06|5.92|0.0036
92160294|NCT04319094|184208889|SUPERIORITY||Median Difference (Net)|16.24|STANDARD_ERROR_OF_MEAN|5.98||0.007|TWO_SIDED|95.0|4.47|28.01||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 366||Null hypothesis: there is no difference in the mean SF36-emotional functioning scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|28.01|4.47|0.007
92160295|NCT04319094|184208889|SUPERIORITY||Mean Difference (Net)|12.26|STANDARD_ERROR_OF_MEAN|6.58||0.065|TWO_SIDED|95.0|-0.68|25.19||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 366||Null hypothesis: there is no difference in the mean SF36-emotional functioning scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|25.19|-0.68|0.065
92160296|NCT04319094|184208889|SUPERIORITY|||||||0.881|||||||Mixed Models Analysis|||Null hypothesis: There is no difference in the change of emotional functioning over time between the control and PEERS participants.||||0.8810
92168610|NCT05999435|184227036|SUPERIORITY|||||||0.1027|||||||Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||0.1027
92168611|NCT05999435|184227036|SUPERIORITY|||||||0.0229|||||||Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||0.0229
92168612|NCT05999435|184227036|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||1.000
92168613|NCT05999435|184227036|SUPERIORITY|||||||0.0296|||||||Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||0.0296
92168614|NCT05999435|184227036|SUPERIORITY|||||||0.8448|||||||Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.8448
92168615|NCT05999435|184227036|SUPERIORITY|||||||0.0307|||||||Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.0307
92168616|NCT05999435|184227036|SUPERIORITY|||||||0.0105|||||||Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.0105
92219031|NCT00243386|184338618|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1467||95.0|||||Wilcoxon-Rank Sum (Mann-Whitney)|||||||0.1467
92219032|NCT00243386|184338619|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007||95.0||||Due to multiple hypotheses testing results, adjusted alpha values are set to α\*=0.005 (0.05/10). Adjustments take into account 10 hypotheses tests between On-Demand and any Prophylaxis. Statistically significant results are considered p-values \< α\*|Wilcoxon signed-rank test|||||||0.0007
92219033|NCT00243386|184338620|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0||||Due to multiple hypotheses testing results, adjusted alpha values are set to α\*=0.005 (0.05/10). Adjustments take into account 10 hypotheses tests between On-Demand and any Prophylaxis. Statistically significant results are considered p-values \< α\*|Wilcoxon signed-rank test|||||||0.0002
92219034|NCT00243386|184338621|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon Signed-Rank Test|||||||<0.0001
92219035|NCT04995055|184338629|SUPERIORITY||Least-square Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|2.81|||TWO_SIDED|95.0|-21.2|-9.5|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as senofilcon A (C3)- senofilcon A|||-9.5|-21.2|
92219036|NCT04995055|184338630|SUPERIORITY||Least-square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|0.2|0.4|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as senofilcon A (C3)- senofilcon A|||0.4|0.2|
92219037|NCT04995055|184338631|SUPERIORITY||Least-square Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-4.9|-2.1|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as senofilcon A (C3)- senofilcon A|||-2.1|-4.9|
92275580|NCT00951899|184453677|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||t-test, 2 sided|||Comparison of mean total GLP-1 concentration from baseline to 12 weeks in Placebo subjects||||0.30
92275581|NCT01123980|184453685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered to be confirmed if the upper bound of the two-sided 95% confidence interval (CI) was below or equal to 0.4% or equivalent if the p-value for the one-sided test of H0: D \> 0.4% against HA: D =\< 0.4%, was less than or equal to 2.5%, where D is the mean treatment difference (investigational product minus comparator). Furthermore, superiority of BIAsp 30 OD over insulin glargine OD was shown if the upper limit of the 95% CI for the difference is lower than 0%|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.07|<|0.001||95.0|-0.25|0.02||The p-values correspond to one-sided hypotheses of either non-inferiority or superiority, statistical significance level is 2.5%.|ANCOVA|The estimates are from a normal linear regression model with treatment, country and previous OADs as factors and baseline HbA1c as a covariate||H0: The mean treatment difference (BIAsp 30 minus insulin glargine) \> 0.4%. HA: The mean treatment difference (BIAsp 30 minus insulin glargine) =\< 0.4%. Sample size was calculated to achieve a power of at least 90%, assuming an equal change in HbA1c and a common standard deviation of 1.25%||0.02|-0.25|< 0.001
92348876|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|1.21|||||TWO_SIDED|95.0|0.257|5.688|||||Wald chi square test is used to detect the difference in incidence rates in the INSTI group compared with the non-INSTI group (as reference group) after adjustment of covariates, with IRR \>1 meaning higher risk of developing new HANA conditions.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing dyslipidemia in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||5.688|0.257|
92275582|NCT01123980|184453686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|||<|0.001||95.0|-0.24|0.19||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Before breakfast|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||0.19|-0.24|<0.001
92219038|NCT04995055|184338632|SUPERIORITY||Least-square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|0.2|0.4|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as senofilcon A (C3)- senofilcon A|||0.4|0.2|
92219039|NCT04995055|184338634|SUPERIORITY||Least-square Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-4.4|-1.9|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as senofilcon A (C3)- senofilcon A|||-1.9|-4.4|
92219040|NCT03418129|184338635|SUPERIORITY||Slope|0.2331|STANDARD_ERROR_OF_MEAN|0.2176||0.2852|TWO_SIDED||||||ANCOVA||Multilevel modeling was used to model outcome at baseline and 3-month follow-up. Resulting slopes capture change in outcome from baseline to follow-up, with relaxation set as the comparison.|||||0.2852
92219041|NCT03418129|184338635|SUPERIORITY||Slope|0.03057|STANDARD_ERROR_OF_MEAN|0.2132||0.8861|TWO_SIDED||||||ANCOVA||Multilevel modeling was used to model outcome at baseline and 3-month follow-up. Resulting slopes capture change in outcome from baseline to follow-up, with relaxation set as the comparison.|||||0.8861
92219042|NCT03418129|184338636|SUPERIORITY||Slope|-0.03844|STANDARD_ERROR_OF_MEAN|0.09424||0.6842|TWO_SIDED||||||ANOVA||Multilevel modeling was used to model outcomes at two time points (3-month follow-up and baseline) and across three treatment groups (Mindfulness, Neurofeedback, and Relaxation).|||||0.6842
92219043|NCT03418129|184338636|SUPERIORITY||Slope|-0.1432|STANDARD_ERROR_OF_MEAN|0.09427||0.132|TWO_SIDED||||||ANOVA||Multilevel modeling was used to model outcomes at two time points (3-month follow-up and baseline) and across three treatment groups (Mindfulness, Neurofeedback, and Relaxation).|||||0.132
92219044|NCT03418129|184338637|SUPERIORITY||Slope|0.1911|STANDARD_ERROR_OF_MEAN|0.2551||0.4542|TWO_SIDED||||||ANCOVA|||||||0.4542
92219045|NCT03418129|184338637|SUPERIORITY||Slope|-0.3761|STANDARD_ERROR_OF_MEAN|0.2454||0.1261|TWO_SIDED||||||ANCOVA|||||||0.1261
92219046|NCT04261504|184338663|SUPERIORITY|||||||0.03||||||Threshold p\<0.05.|threshold-free cluster enhancement|||||||0.03
92219047|NCT01202279|184338664|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||95.0|||||Fisher Exact|||||||0.025
92219048|NCT01202279|184338665|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0|||||ANCOVA|||||||0.022
92219049|NCT03159091|184338695|SUPERIORITY|||||||0.0422|||||||G-test (Chi-square)|||||||0.0422
92219050|NCT03159091|184338696|SUPERIORITY|||||||0.1101|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between initial and 4 weeks total scores row.||||0.1101
92348877|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.855|||||TWO_SIDED|95.0|0.196|3.739|||||Wald chi square test is used to investigate whether INSTI group had a higher risk of developing of HANA conditions compared with non-INSTI group, with IRR \>1 meaning higher risk of developing new HANA conditions.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing metabolic syndrome in INSTI group compared with non-INSTI group as reference group at 2 years.||3.739|0.196|
92348878|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.534|||||TWO_SIDED|95.0|0.108|2.631|||||Wald chi square test is used to detect the difference in incidence rates in the INSTI group compared with the non-INSTI group (as reference group) after adjustment of covariates, with IRR \>1 meaning higher risk of developing new HANA conditions.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing metabolic syndrome in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||2.631|0.108|
92348879|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|1.396|||||TWO_SIDED|95.0|0.172|11.35|||||Wald chi square test is used to investigate whether INSTI group had a higher risk of developing of HANA conditions compared with non-INSTI group, with IRR \>1 meaning higher risk of developing new HANA conditions.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing osteopenia in INSTI group compared with non-INSTI group as reference group at 2 years.||11.350|0.172|
92348880|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|1.053|||||TWO_SIDED|95.0|0.119|9.317|||||Wald chi square test is used to detect the difference in incidence rates in the INSTI group compared with the non-INSTI group (as reference group) after adjustment of covariates, with IRR \>1 meaning higher risk of developing new HANA conditions.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing osteopenia in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||9.317|0.119|
92348881|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||No incidence of osteoporosis was reported in non-INSTI group at 2 years.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing osteoporosis in INSTI group compared with non-INSTI group as reference group at 2 years.||0|0|
92400204|NCT05546476|184691975|SUPERIORITY||Difference in LS Mean|0.66|||=|0.9138|TWO_SIDED|90.0|-0.14|1.45|||MMRM analysis; 1-sided|||Physical Fatigue: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.45|-0.14|=0.9138
92160297|NCT04319094|184208890|SUPERIORITY|||||||0.031||||||The a priori threshold for statistical significance is p=0.05.|F-test for overall significance|Degrees of freedom: 370||Null hypothesis: there is no difference in the change in probability of ER use from baseline to post-intervention between PEERS and control participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|||0.031
92160298|NCT04319094|184208895|SUPERIORITY||Mean Difference (Net)|-4.98|STANDARD_ERROR_OF_MEAN|1.42||0.0005|TWO_SIDED|95.0|-7.78|-2.18||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 414|Score difference: post-intervention - baseline|Null hypothesis: there is no difference in the mean UCLA Loneliness scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-2.18|-7.78|0.0005
92160299|NCT04319094|184208895|SUPERIORITY||Mean Difference (Net)|-7.38|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-11.08|-3.69||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 414|Score difference: 3-month - baseline|Null hypothesis: there is no difference in the mean UCLA Loneliness scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-3.69|-11.08|<0.0001
92168617|NCT05999435|184227037|SUPERIORITY||Least Square Means difference|1.6|STANDARD_ERROR_OF_MEAN|1.3||0.2217|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 4 comparison, null hypothesis of no difference||||0.2217
92168618|NCT05999435|184227037|SUPERIORITY||Least Square Means difference|-0.5|STANDARD_ERROR_OF_MEAN|1.3||0.6834|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 4 comparison, null hypothesis of no difference||||0.6834
92348882|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||No incidence of osteoporosis was reported in non-INSTI group at 2 years.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing osteoporosis in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||0|0|
92400205|NCT05546476|184691975|SUPERIORITY||Difference in LS Mean|0.64|||=|0.9011|TWO_SIDED|90.0|-0.18|1.46|||MMRM analysis; 1-sided|||Physical Fatigue: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.46|-0.18|=0.9011
92400206|NCT05546476|184691975|SUPERIORITY||Difference in LS Mean|0.21|||=|0.6618|TWO_SIDED|90.0|-0.61|1.02|||MMRM analysis; 1-sided|||Physical Fatigue: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.02|-0.61|=0.6618
92348883|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|2.198|||||TWO_SIDED|95.0|0.679|7.122|||||Wald chi square test is used to investigate whether INSTI group had a higher risk of developing of HANA conditions compared with non-INSTI group, with IRR \>1 meaning higher risk of developing new HANA conditions.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing vitamin D deficiency in INSTI group compared with non-INSTI group as reference group at 2 years.||7.122|0.679|
92348884|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|3.551|||||TWO_SIDED|95.0|0.85|14.833|||||Wald chi square test is used to detect the difference in incidence rates in the INSTI group compared with the non-INSTI group (as reference group) after adjustment of covariates, with IRR \>1 meaning higher risk of developing new HANA conditions.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing vitamin D deficiency in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||14.833|0.850|
92348885|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|1.197|||||TWO_SIDED|95.0|0.465|3.077|||||Wald chi square test is used to investigate whether INSTI group had a higher risk of developing of HANA conditions compared with non-INSTI group, with IRR \>1 meaning higher risk of developing new HANA conditions.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing renal diseases in INSTI group compared with non-INSTI group as reference group at 2 years.||3.077|0.465|
92348886|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|1.538|||||TWO_SIDED|95.0|0.51|4.638|||||Wald chi square test is used to detect the difference in incidence rates in the INSTI group compared with the non-INSTI group (as reference group) after adjustment of covariates, with IRR \>1 meaning higher risk of developing new HANA conditions.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing renal diseases in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||4.638|0.510|
92348887|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|1.166|||||TWO_SIDED|95.0|0.408|3.331|||||Wald chi square test is used to investigate whether INSTI group had a higher risk of developing of HANA conditions compared with non-INSTI group, with IRR \>1 meaning higher risk of developing new HANA conditions.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing kidney tubular dysfunction in INSTI group compared with non-INSTI group as reference group at 2 years.||3.331|0.408|
92348888|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|2.101|||||TWO_SIDED|95.0|0.615|7.18|||||Wald chi square test is used to detect the difference in incidence rates in the INSTI group compared with the non-INSTI group (as reference group) after adjustment of covariates, with IRR \>1 meaning higher risk of developing new HANA conditions.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing kidney tubular dysfunction in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||7.180|0.615|
92348889|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.563|||||TWO_SIDED|95.0|0.159|1.995|||||Wald chi square test is used to investigate whether INSTI group had a higher risk of developing of HANA conditions compared with non-INSTI group, with IRR \>1 meaning higher risk of developing new HANA conditions.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing intermediate or advanced fibrosis (FIB-4 \> 1.3) in INSTI group compared with non-INSTI group as reference group at 2 years.||1.995|0.159|
92348890|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.922|||||TWO_SIDED|95.0|0.244|3.493|||||Wald chi square test is used to detect the difference in incidence rates in the INSTI group compared with the non-INSTI group (as reference group) after adjustment of covariates, with IRR \>1 meaning higher risk of developing new HANA conditions.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing intermediate or advanced fibrosis (FIB-4 \> 1.3) in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||3.493|0.244|
92348891|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||No incidence in advanced fibrosis (FIB-4 \>2.67) was reported in non-INSTI group at 2 years.|Crude incidence rate ratio (IRR) was expressed as a ratio of incidence rates of developing advanced fibrosis (FIB-4 \>2.67) in INSTI group compared with non-INSTI group as reference group at 2 years.||0|0|
92348892|NCT03483584|184601448|OTHER|Poisson loglinear|Incidence rate ratio|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||No incidence in advanced fibrosis (FIB-4 \>2.67) was reported in non-INSTI group at 2 years.|Adjusted Incidence rate ratio (IRR) was expressed as a ratio of incidence rate of developing advanced fibrosis (FIB-4 \> 2.67) in INSTI group compared with non-INSTI group at 2 years after adjusted by age, sex, treatment-naive or experienced, duration of HIV diagnosis, baseline body weight and CD4 count.||0|0|
92168619|NCT05999435|184227037|SUPERIORITY||Least Square Means difference|2.1|STANDARD_ERROR_OF_MEAN|1.31||0.1061|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 4 comparison, null hypothesis of no difference||||0.1061
92348893|NCT04426656|184601449|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||The comparison was made using the outcome variable measured at Week 12.||||0.85
92348894|NCT04426656|184601450|SUPERIORITY|||||||0.72|||||||Chi-squared|||||||0.72
92168620|NCT05999435|184227037|SUPERIORITY||Least Square Means difference|2.2|STANDARD_ERROR_OF_MEAN|1.3||0.0854|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 8 comparison, null hypothesis of no difference||||0.0854
92219051|NCT03159091|184338697|SUPERIORITY|||||||0.1373|||||||G-test (Chi-square)|||||||0.1373
92219052|NCT03159091|184338698|SUPERIORITY|||||||0.087|||||||Wilcoxon (Mann-Whitney)|||||||0.0870
92348895|NCT04426656|184601451|SUPERIORITY|||||||0.318|||||||Fisher Exact|||||||0.318
92219053|NCT03159091|184338699|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92219054|NCT00943579|184338731|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Chi-squared|||Chi-square analyses were used to assess CGI-I scores. there were no transformations.||||>.05
92219055|NCT00418665|184338739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||||95.0|0.07|5.136|||||Romiplostim/placebo|||5.136|0.070|
92219056|NCT00418665|184338739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.154||||||95.0|0.022|1.071|||||Romiplostim/placebo|||1.071|0.022|
92219057|NCT00418665|184338740|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.154||||||95.0|0.022|1.071|||||Romiplostim/placebo|||1.071|0.022|
92219058|NCT00418665|184338740|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.514||||||95.0|0.102|2.589|||||Romiplostim/placebo|||2.589|0.102|
92219059|NCT00418665|184338741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0||||||95.0|0.227|39.608|||||Romiplostim/placebo|||39.608|0.227|
92219060|NCT00418665|184338741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.714||||||95.0|0.144|20.473|||||Romiplostim/placebo|||20.473|0.144|
92219061|NCT00418665|184338742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.911||||||95.0|0.097|8.529|||||Romiplostim/placebo|||8.529|0.097|
92219062|NCT00418665|184338742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.866||||||95.0|0.175|4.278|||||Romiplostim/placebo|||4.278|0.175|
92219063|NCT01538628|184338744|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Exact binomial test|testing the null hypothesis that the proportion for SpaceOAR is less than or equal to 0.70.||||||.0001
92348896|NCT04426656|184601452|SUPERIORITY|||||||0.527|||||||Fisher Exact|||||||0.527
92219064|NCT06689527|184338751|OTHER||Ratio of Geometric LS Mean (%)|83.95|||||TWO_SIDED|90.0|74.08|93.59|||||The linear mixed model was applied to log-transformed PK parameter AUC0-tlast, of midazolam based on the PK Set to assess treatment differences on the log scale of midazolam with vamorolone vs midazolam alone (Day 14 vs Day 1).|Linear model with treatment as fixed effect and subjects as random effect||93.59|74.08|
92219065|NCT06689527|184338752|OTHER||Ratio of Geometric LS Mean (|83.05|||||TWO_SIDED|90.0|74.18|95.0|||||The linear mixed model was applied to log-transformed PK parameter AUC0-inf of midazolam based on the PK Set to assess treatment differences on the log scale of midazolam with vamorolone vs midazolam alone (Day 14 vs Day 1)|Linear model with treatment as fixed effect and subjects as random effect||95.00|74.18|
92219066|NCT06689527|184338753|OTHER||Ratio of Geometric LS Mean (%)|88.59|||||TWO_SIDED|90.0|79.44|98.79|||||The linear mixed model was applied to log-transformed PK parameter Cmax of midazolam based on the PK Set to assess treatment differences on the log scale of midazolam with vamorolone vs midazolam alone (Day 14 vs Day 1).|Linear model with treatment as fixed effect and subject as random effect||98.79|79.44|
92219067|NCT06689527|184338754|OTHER||Ratio of Geometric LS Mean (%)|114.55|||||TWO_SIDED|90.0|101.59|129.18|||||The linear mixed model was applied to log-transformed PK parameter AUC0-tlast of 1'-hydroxymidazolam based on the PK Set to assess treatment differences on the log scale of midazolam with vamorolone vs midazolam alone (Day 14 vs Day 1)|Linear model with treatment as fixed effect and subject as random effect||129.18|101.59|
92219068|NCT06689527|184338755|OTHER||Ratio of Geometric LS Mean (%)|113.7|||||TWO_SIDED|90.0|101.29|127.63|||||The linear mixed model was applied to log-transformed PK parameter AUC0-inf, of 1'-hydroxymidazolam based on the PK Set to assess treatment differences on the log scale of midazolam with vamorolone vs midazolam alone (Day 14 vs Day 1)|Linear model with treatment as fixed effect and subject as random effect||127.63|101.29|
92219069|NCT06689527|184338756|OTHER||Ratio of Geometric LS Mean (%)|128.67|||||TWO_SIDED|90.0|105.36|157.13|||||The linear mixed model was applied to log-transformed PK parameter Cmax of 1'-hydroxymidazolam based on the PK Set to assess treatment differences on the log scale of midazolam with vamorolone vs midazolam alone (Day 14 vs Day 1)|Linear model with treatment as fixed effect and subject as random effect||157.13|105.36|
92219070|NCT01761292|184338813|OTHER||mean|13.906|||<|0.0001|TWO_SIDED|95.0|11.5657|16.2466||The paired t-test or non-parametric signed rank test for 2 means (paired observations) (as is appropriate) was applied for testing the statistical significance of the Change From Baseline to End of Study. MFA% P \< 0.05 was set as significant.|t-test, 2 sided|||||16.2466|11.5657|<0.0001
92219071|NCT01761292|184338814|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||< 0.0001
92219072|NCT03577730|184338824|OTHER||Median Difference (Final Values)|55.0||||0.092|TWO_SIDED|95.0|-9.0|118.0|||Generalized estimating equations||The median difference (+55) is an estimated difference between groups - rather than the actual difference - based on the pre-specified generalized estimated equations modeling.|||118|-9|0.092
92219073|NCT03577730|184338825|OTHER|||||||0.802|||||||Mixed Models Analysis|||Analysis for visual analog scale scores at rest presented.||||0.802
92219074|NCT03577730|184338826|OTHER|||||||0.32|||||||Mixed Models Analysis|||||||0.320
92219075|NCT03577730|184338827|OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||||||0.670
92219076|NCT03577730|184338828|OTHER|||||||0.595|||||||Fisher Exact|||||||0.595
92219077|NCT03577730|184338829|OTHER|||||||0.985|||||||Fisher Exact|||||||0.985
92219078|NCT03577730|184338830|OTHER|||||||0.417|||||||Wilcoxon (Mann-Whitney)|||||||0.417
92219079|NCT03577730|184338831|OTHER|||||||0.432|||||||Wilcoxon (Mann-Whitney)|||||||0.432
92219080|NCT03577730|184338832|OTHER|||||||0.673|||||||Wilcoxon (Mann-Whitney)|||||||0.673
92219081|NCT03577730|184338833|OTHER|||||||0.058|||||||Chi-squared|||||||0.058
92219082|NCT05611671|184338845|OTHER||Risk Difference (RD)|6.71|||||TWO_SIDED|95.0|-7.76|21.18||||||||21.18|-7.76|
92219083|NCT05611671|184338845|OTHER||Risk Difference (RD)|-0.41|||||TWO_SIDED|95.0|-13.99|13.17||||||||13.17|-13.99|
92219084|NCT05611671|184338845|OTHER||Risk Difference (RD)|-6.93|||||TWO_SIDED|95.0|-19.74|5.88||||||||5.88|-19.74|
92219085|NCT05611671|184338846|OTHER||Risk Difference (RD)|7.05|||||TWO_SIDED|95.0|-8.77|22.86||||||||22.86|-8.77|
92219086|NCT05611671|184338846|OTHER||Risk Difference (RD)|-0.93|||||TWO_SIDED|95.0|-16.74|14.88||||||||14.88|-16.74|
92219087|NCT05611671|184338846|OTHER||Risk Difference (RD)|3.07|||||TWO_SIDED|95.0|-12.78|18.92||||||||18.92|-12.78|
92219088|NCT00309465|184338853|SUPERIORITY_OR_OTHER|||||||0.332||95.0||||P-value for three dosing strategies in insulin glargine only group in fasting blood glucose achievement of 100-179 mg/dl range.|Chi-squared|||Comparison for Target Blood Glucose Achievement of 100-179 mg/dl||||0.332
92348897|NCT04426656|184601453|SUPERIORITY|||||||0.928|||||||Fisher Exact|||||||0.928
92348898|NCT04426656|184601454|SUPERIORITY|||||||0.678|||||||Fisher Exact|||||||0.678
92348899|NCT04426656|184601455|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||The comparison test was made using the outcome variable measured at Week 12.||||0.26
92348900|NCT04426656|184601456|SUPERIORITY|||||||0.08|||||||Fisher Exact|||The comparison was made using data measured at Week 12.||||0.08
92348901|NCT04426656|184601457|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||The comparison was made using data measured at Week 12.||||0.03
92160300|NCT04319094|184208895|SUPERIORITY||Mean Difference (Net)|-7.63|STANDARD_ERROR_OF_MEAN|1.87|<|0.0001|TWO_SIDED|95.0|-11.3|-3.95||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 414|Score difference: 6-month - baseline|Null hypothesis: there is no difference in the mean UCLA Loneliness scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-3.95|-11.3|<0.0001
92348902|NCT04426656|184601458|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||This comparison was made using data at Week 12.||||0.58
92348903|NCT04426656|184601459|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||The comparison was made using data measured at Week 12.||||0.85
92348904|NCT03033355|184601461|OTHER|||||||0.0012||||||Threshold for statistical significance used P-value \<0.05|Student t-Test|||Right Cingulate Body||||0.0012
92348905|NCT03033355|184601461|OTHER|||||||0.02||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Posterior Cingulate||||0.02
92348906|NCT03033355|184601461|OTHER|||||||0.0015||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Anterior Cingulate||||0.0015
92348907|NCT03033355|184601461|OTHER|||||||0.0015||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Right Prefrontal Cortex||||0.0015
92348908|NCT03033355|184601461|OTHER|||||||0.0138||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Insula||||0.0138
92348909|NCT03033355|184601461|OTHER|||||||0.049||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Pons Micturition Center||||0.049
92400207|NCT03585660|184691981|SUPERIORITY|||||||0.02|||||||bootstrap z-test|The standard error of the difference in accuracy was estimated using nonparametric bootstrap, with B=9999 resamples.||The null hypothesis is that the accuracy of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the accuracy of HM-MRI is greater than the accuracy of mp-MRI.||||0.02
92348910|NCT03033355|184601461|OTHER|||||||0.001||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Cerebellum||||0.001
92348911|NCT03033355|184601461|OTHER|||||||0.026||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Lentiform Nucleus||||0.026
92348912|NCT03033355|184601461|OTHER|||||||0.026||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Right Lentiform Nucleus||||0.026
92348913|NCT03033355|184601461|OTHER|||||||0.015||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Amygdala/parahippocampal Gyrus||||0.015
92348914|NCT01525589|184601481|SUPERIORITY|||||||0.0909|||||||Log Rank|||||||0.0909
92348915|NCT01525589|184601485|SUPERIORITY|||||||0.002|||||||Log Rank|||||||0.002
92348916|NCT01525589|184601489|SUPERIORITY|||||||0.0561|||||||Log Rank|||||||0.0561
92400208|NCT03585660|184691982|SUPERIORITY|||||||0.08|||||||bootstrap z-test|The standard error of the difference of AUCs was estimated using nonparametric bootstrap, with B=9999 resamples.||The null hypothesis is that the AUCs of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the AUC of HM-MRI is greater than the AUC of mp-MRI.||||0.08
92400209|NCT03585660|184691983|SUPERIORITY|||||||0.97|||||||bootstrap z-test|||The null hypothesis is that the sensitivity of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the sensitivity of HM-MRI is greater than the sensitivity of mp-MRI.||||0.97
92348917|NCT01201863|184601557|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.07816|STANDARD_ERROR_OF_MEAN|1.3315||0.954|TWO_SIDED||||||comparison of slopes|Slopes by group and slope difference||To investigate a difference in change in outcome over time between treatment and control, a trend analysis was used in place of a profile analysis, where both control and treatment arms are described more parsimoniously i.e. by a slope (change in outcome over time) (Fitzmaurice 2011).||||0.9540
92348918|NCT01149785|184601558|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|316.36|||||TWO_SIDED|90.0|286.17|349.73||||||Natural log transformed AUC (0-∞) of crizotinib was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||349.73|286.17|
92348919|NCT01149785|184601559|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|328.31|||||TWO_SIDED|90.0|296.42|363.63||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||363.63|296.42|
92348920|NCT01149785|184601562|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|144.13|||||TWO_SIDED|90.0|126.42|164.33||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||164.33|126.42|
92348921|NCT01149785|184601565|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|519.65|||||TWO_SIDED|90.0|460.42|586.5||||||Natural log transformed AUClast of crizotinib metabolite (PF-06260182) was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||586.50|460.42|
92348922|NCT01149785|184601566|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|516.98|||||TWO_SIDED|90.0|457.88|583.72||||||Natural log transformed AUC (0-∞) of crizotinib metabolite (PF-06260182) was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||583.72|457.88|
92400210|NCT03585660|184691984|SUPERIORITY||||||<|0.01|||||||bootstrap z-test|||The null hypothesis is that the specificity of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the specificity of HM-MRI is greater than the specificity of mp-MRI.||||<0.01
92348923|NCT01149785|184601568|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|161.42|||||TWO_SIDED|90.0|143.09|182.09||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||182.09|143.09|
92348924|NCT03439514|184601572|SUPERIORITY||Median Difference (Net)|4.936||||0.818|TWO_SIDED|95.0|-24.246|34.118||Two-sided p-value|Van Elteren test||The Week 24 change from baseline in 6MWT between PF 07265803 and placebo was estimated using the stratified HL median difference, considering only participants who survived 24 weeks.|||34.118|-24.246|0.818
92348925|NCT03439514|184601578|OTHER||Hazard Ratio (HR)|0.43||||0.2257|TWO_SIDED|95.0|0.13|1.39|||Log Rank|||||1.39|0.13|0.2257
92168621|NCT05999435|184227037|SUPERIORITY||Least Square Means difference|-0.6|STANDARD_ERROR_OF_MEAN|1.3||0.6686|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 8 comparison, null hypothesis of no difference||||0.6686
92348926|NCT03439514|184601579|OTHER||Hazard Ratio (HR)|1.19||||0.837|TWO_SIDED|95.0|0.3|4.63|||Log Rank|||||4.63|0.30|0.8370
92348927|NCT00975923|184601649|SUPERIORITY_OR_OTHER||infection rates per device days|2.0|STANDARD_ERROR_OF_MEAN|0.05|<|0.05|TWO_SIDED|95.0|1.0|3.0||p-value and confidence intervals|Regression, Linear|||Infection rates were analyzed using hierarchical negative binomial regression models to model infection rate changes over time and account for clustering of ICUs within hospitals and adjusting for baseline covariates. Power was calculated a priori with a 1-tailed alpha of 0.05 and group size of 30; a 50% decrease in infection rates in the Collaborative group and 15% for the Tool Kit group, yielding power ranging from 82% to 91% for testing group differences.||3.0|1.0|<.05
92348928|NCT00975923|184601650|SUPERIORITY_OR_OTHER||percentages|10.0|||<|5|TWO_SIDED|95.0|||||Chi-squared||Power calculation used alpha = .05 and group size = 30.The estimated effect was a 50% decrease in infection rates for the Collaborative Group and from 10% to 15% decrease in the Tool Kit group.Power ranged from 82%-91% for testing group differences.|It was hypothesized that the Collaborative group would engage in more processes and tools than the Tool Kit group. Power was based on infection rates.||||<05
92348929|NCT01964404|184601651|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.87|TWO_SIDED|||||p-FDR|t-test, 2 sided|||||||0.87
92400211|NCT03585660|184691985|SUPERIORITY|The null hypothesis is that the PPV of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the PPV of HM-MRI is greater than the PPV of mp-MRI.||||||0.06|||||||bootstrap z-test|||||||0.06
92275583|NCT01123980|184453686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|||<|0.001||95.0|-0.45|0.58||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Two hours after breakfast|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||0.58|-0.45|<0.001
92348930|NCT01964404|184601653|SUPERIORITY||Mean Difference (Final Values)|0.82|STANDARD_ERROR_OF_MEAN|0.81||0.31|TWO_SIDED|95.0|-0.77|2.4|||ANOVA|||This analysis tested whether the marijuana cigarette group had different PANSS Positive symptom scores compared to the placebo group adjusting for the SCZ only group. (The dronabinol group was tested separately per our analytic plan.)||2.4|-0.77|0.31
92348931|NCT01964404|184601653|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.62||0.62|TWO_SIDED|95.0|-2.4|0.18|||ANOVA|||This analysis tested whether the dronabinol group had different PANSS Positive symptom scores compared to the placebo group adjusting for the SCZ only group. (The marijuana cigarette group was tested separately per our analytic plan.)||0.18|-2.4|.62
92348932|NCT01964404|184601654|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.28|TWO_SIDED|95.0|-1.0|3.45|||ANOVA|||This analysis tested whether the marijuana cigarette group had different PANSS Negative symptom scores compared to the placebo group adjusting for the SCZ only group. (The dronabinol group was tested separately per our analytic plan.)||3.45|-1|0.28
92348933|NCT01964404|184601654|SUPERIORITY||Mean Difference (Final Values)|0.88|STANDARD_ERROR_OF_MEAN|1.0||0.39|TWO_SIDED|95.0|-1.1|2.85|||ANOVA|||This analysis tested whether the dronabinol group had different PANSS Positive negative scores compared to the placebo group adjusting for the SCZ only group. (The dronabinol group was tested separately per our analytic plan.)||2.85|-1.1|0.39
92348934|NCT01964404|184601655|SUPERIORITY||Mean Difference (Final Values)|-9.98|STANDARD_ERROR_OF_MEAN|3.424||0.004|TWO_SIDED|95.0|-16.06|-3.18||We set threshold of p\<.01 for statistical significance due to multiple comparisons|Regression, Linear|Adjusted for pre-drug exposure cognitive functioning||This analysis tested whether the dronabinol group had different verbal learning scores compared to the placebo group adjusting for the SCZ only group. (The marijuana cigarette group was tested separately per our analytic plan.)||-3.18|-16.06|0.004
92348935|NCT01964404|184601656|SUPERIORITY||Mean Difference (Final Values)|6.07|STANDARD_ERROR_OF_MEAN|4.94||0.22|TWO_SIDED|95.0|-3.62|15.75|||Regression, Linear|||This analysis tested whether the marijuana cigarette group had different anxiety scores compared to the placebo group adjusting for the SCZ only group. (The dronabinol group was tested separately per our analytic plan.)||15.75|-3.62|.22
92348936|NCT01964404|184601656|SUPERIORITY||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|2.95||0.98|TWO_SIDED|95.0|-5.87|5.7|||Regression, Linear|||This analysis tested whether the dronabinol group had different anxiety scores compared to the placebo group adjusting for the SCZ only group. (The dronabinol group was tested separately per our analytic plan.)||5.70|-5.87|0.98
92348937|NCT01964404|184601657|SUPERIORITY||Mean Difference (Final Values)|50.91|STANDARD_ERROR_OF_MEAN|20.4||0.13|TWO_SIDED|95.0|10.9|90.9|||ANOVA|||This analysis tested whether the dronabinol group had different drug experience ratings of liking scores compared to the placebo group. (The marijuana cigarette group was tested separately per our analytic plan.)||90.9|10.9|0.13
92400212|NCT03585660|184691986|SUPERIORITY|The null hypothesis is that the NPV of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the NPV of HM-MRI is greater than the NPV of mp-MRI.||||||0.97|||||||bootstrap z-test|||||||0.97
92400213|NCT05316597|184691991|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.914|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.914
92168622|NCT05999435|184227037|SUPERIORITY||Least Square Means difference|2.8|STANDARD_ERROR_OF_MEAN|1.31||0.0331|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 8 comparison, null hypothesis of no difference||||0.0331
92348938|NCT01964404|184601657|SUPERIORITY||Mean Difference (Final Values)|51.1|STANDARD_ERROR_OF_MEAN|21.95||0.002|TWO_SIDED|95.0|8.01|94.07|||Regression, Linear|||This analysis tested whether the marijuana cigarette group had different drug liking scores compared to the placebo group. (The dronabinol group was tested separately per our analytic plan.)||94.07|8.01|.002
92348939|NCT01964404|184601658|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.178||0.002|TWO_SIDED|95.0|-1.0|-0.23|||Regression, Linear|||||-0.23|-1.0|0.002
92348940|NCT06717399|184601745|OTHER|The number of participants (n=15) was calculated using an effect size of 0.89. This effect size was based on a randomized clinical trial utilizing a structured mindfulness meditation program on moderate sleep disturbances in older adults (Black et al. 2015). A power of 0.8 and a significance level of 0.05 was utilized to calculate the sample size, a minimum of 12 participants is required to demonstrate significance in this study. To account for 20% attrition total participants needed is 15.||||||0.00058|||||||t-test, 2 sided|||"Null Hypothesis:~● There will not be a change in sleep quality after participation in eight mindfulness meditation sessions as measured by the Pittsburgh Sleep Quality Index."||||0.00058
92348941|NCT06717399|184601746|OTHER|||||||0.004|||||||t-test, 2 sided|||||||0.004
92348942|NCT03043573|184601748|SUPERIORITY||Mean Difference (Final Values)|-0.7011||||0.9644|TWO_SIDED|95.0|-31.8605|30.4583|||t-test, 2 sided|||Baseline||30.4583|-31.8605|0.9644
92348943|NCT03043573|184601748|SUPERIORITY||Mean Difference (Final Values)|2.4595||||0.888|TWO_SIDED|95.0|-32.3472|37.2661|||t-test, 2 sided|||Week 12||37.2661|-32.3472|0.8880
92348944|NCT03043573|184601748|SUPERIORITY||Mean Difference (Final Values)|-0.5119||||0.9773|TWO_SIDED|95.0|-36.5024|35.4785|||t-test, 2 sided|||Week 24||35.4785|-36.5024|0.9773
92160301|NCT04319094|184208895|SUPERIORITY||Mean Difference (Net)|-8.12|STANDARD_ERROR_OF_MEAN|1.74|<|0.0001|TWO_SIDED|95.0|-11.53|-4.7||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 414|Score difference: 9-month - baseline|Null hypothesis: there is no difference in the mean UCLA Loneliness scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-4.7|-11.53|<0.0001
92160302|NCT04319094|184208895|SUPERIORITY||Mean Difference (Net)|-8.26|STANDARD_ERROR_OF_MEAN|2.09|<|0.0001|TWO_SIDED|95.0|-12.37|-4.14||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 414|Score difference: 12-month - baseline|Null hypothesis: there is no difference in the mean UCLA Loneliness scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-4.14|-12.37|<0.0001
92160303|NCT04319094|184208895|SUPERIORITY|||||||0.6857|||||||Mixed Models Analysis|||Null hypothesis: there is no statistical difference in the change of UCLA Loneliness score over time between control and PEERS participants||||0.6857
92348945|NCT03043573|184601748|SUPERIORITY||Mean Difference (Final Values)|15.6667||||0.6173|TWO_SIDED|95.0|-47.0598|78.3931|||t-test, 1 sided|||Week 52||78.3931|-47.0598|0.6173
92348946|NCT03043573|184601749|SUPERIORITY||Mean Difference (Final Values)|1.1302||||0.5454|TWO_SIDED|95.0|-2.5767|4.8371|||t-test, 2 sided|||Baseline||4.8371|-2.5767|0.5454
92348947|NCT03043573|184601749|SUPERIORITY||Mean Difference (Final Values)|2.9618||||0.1212|TWO_SIDED|95.0|-0.8038|6.7275|||t-test, 2 sided|||Week 6||6.7275|-0.8038|0.1212
92348948|NCT03043573|184601749|SUPERIORITY||Mean Difference (Final Values)|1.095||||0.571|TWO_SIDED|95.0|-2.7476|4.9377|||t-test, 2 sided|||Week 12||4.9377|-2.7476|0.5710
92348949|NCT03043573|184601749|SUPERIORITY||Mean Difference (Final Values)|-1.5524||||0.4377|TWO_SIDED|95.0|-5.5256|2.4209|||t-test, 2 sided|||Week 24||2.4209|-5.5256|0.4377
92348950|NCT03043573|184601749|SUPERIORITY||Mean Difference (Final Values)|0.8937||||0.6813|TWO_SIDED|95.0|-3.4439|5.2312|||t-test, 2 sided|||Week 36||5.2312|-3.4439|0.6813
92348951|NCT03043573|184601749|SUPERIORITY||Mean Difference (Final Values)|2.9457||||0.162|TWO_SIDED|95.0|-1.2234|7.1148|||t-test, 2 sided|||||7.1148|-1.2234|0.1620
92348952|NCT03043573|184601750|SUPERIORITY||Mean Difference (Final Values)|0.0319||||0.9813|TWO_SIDED|95.0|-2.6668|2.7305|||t-test, 2 sided|||Baseline||2.7305|-2.6668|0.9813
92348953|NCT03043573|184601750|SUPERIORITY||Mean Difference (Final Values)|-0.0564||||0.9735|TWO_SIDED|95.0|-3.4397|3.3268|||t-test, 2 sided|||Week 6||3.3268|-3.4397|0.9735
92348954|NCT03043573|184601750|SUPERIORITY|Week 12|Mean Difference (Final Values)|1.0611||||0.5164|TWO_SIDED|95.0|-2.1885|4.3107|||t-test, 2 sided|||||4.3107|-2.1885|0.5164
92348955|NCT03043573|184601750|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.197|TWO_SIDED|95.0|-5.0651|1.0651|||t-test, 2 sided|||Week 24||1.0651|-5.0651|0.1970
92348956|NCT03043573|184601750|SUPERIORITY||Mean Difference (Net)|0.362||||0.8342|TWO_SIDED|95.0|-3.0907|3.8146|||t-test, 2 sided|||Week 36||3.8146|-3.0907|0.8342
92348957|NCT03043573|184601750|SUPERIORITY||Mean Difference (Final Values)|1.2667||||0.4717|TWO_SIDED|95.0|-2.2424|4.7758|||t-test, 2 sided|||Week 52||4.7758|-2.2424|0.4717
92348958|NCT03043573|184601751|SUPERIORITY||Mean Difference (Final Values)|-2.9318||||0.513|TWO_SIDED|95.0|-11.8176|5.9539|||t-test, 2 sided|||Baseline||5.9539|-11.8176|0.5130
92348959|NCT03043573|184601751|SUPERIORITY||Mean Difference (Final Values)|0.4835||||0.4835|TWO_SIDED|95.0|-15.2306|7.2967|||t-test, 2 sided|||Week 12||7.2967|-15.2306|0.4835
92400214|NCT05316597|184691992|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.554|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||.554
92400215|NCT05316597|184691993|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.905|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|||||||0.905
92400216|NCT05316597|184691994|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.076|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.076
92348960|NCT03043573|184601751|SUPERIORITY||Mean Difference (Final Values)|-5.156||||0.359|TWO_SIDED|95.0|-16.3357|6.0238|||t-test, 2 sided|||Week 24||6.0238|-16.3357|0.3590
92348961|NCT03043573|184601751|SUPERIORITY||Mean Difference (Final Values)|1.1083||||0.876|TWO_SIDED|95.0|-13.1598|15.3765|||t-test, 2 sided|||Week 52||15.3765|-13.1598|0.8760
92348962|NCT03043573|184601752|SUPERIORITY||Mean Difference (Final Values)|-0.0606||||0.3248|TWO_SIDED|95.0|-0.1841|0.0628|||t-test, 2 sided|||Trails A Baseline||0.0628|-0.1841|0.3248
92348963|NCT03043573|184601752|SUPERIORITY||Mean Difference (Final Values)|-0.6953||||0.3615|TWO_SIDED|95.0|-2.2261|0.8354|||t-test, 2 sided|||Trails A - Week 12||0.8354|-2.2261|0.3615
92348964|NCT03043573|184601752|SUPERIORITY||Mean Difference (Final Values)|0.9917||||0.5046|TWO_SIDED|95.0|-1.9664|3.9498|||t-test, 2 sided|||Trails B - Baseline||3.9498|-1.9664|0.5046
92348965|NCT03043573|184601752|SUPERIORITY||Mean Difference (Final Values)|-2.0607||||0.0679|TWO_SIDED|95.0|-4.2821|0.1607|||t-test, 2 sided|||Trails B - Week 12||0.1607|-4.2821|0.0679
92348966|NCT03043573|184601752|SUPERIORITY||Mean Difference (Final Values)|-0.8929||||0.1669|TWO_SIDED|95.0|-2.1825|0.3968|||t-test, 2 sided|||Trails B - Week 24||0.3968|-2.1825|0.1669
92348967|NCT03043573|184601752|SUPERIORITY||Mean Difference (Final Values)|-1.4286||||0.2178|TWO_SIDED|95.0|-3.8115|0.9543|||t-test, 2 sided|||Trails B - Week 52||0.9543|-3.8115|0.2178
92348968|NCT03043573|184601753|SUPERIORITY||Mean Difference (Final Values)|1.558||||0.2932|TWO_SIDED|95.0|-1.3747|4.4908|||t-test, 2 sided|||Baseline||4.4908|-1.3747|0.2932
92348969|NCT03043573|184601753|SUPERIORITY||Mean Difference (Final Values)|1.7043||||0.2871|TWO_SIDED|95.0|-1.4659|4.8744|||t-test, 2 sided|||Week 6||4.8744|-1.4659|0.2871
92348970|NCT03043573|184601753|SUPERIORITY||Mean Difference (Final Values)|0.9167||||0.591|TWO_SIDED|95.0|-2.4737|4.307|||t-test, 2 sided|||Week 12||4.3070|-2.4737|0.5910
92348971|NCT03043573|184601753|SUPERIORITY||Mean Difference (Final Values)|-1.0238||||0.6128|TWO_SIDED|95.0|-5.0469|2.9993|||t-test, 2 sided|||||2.9993|-5.0469|0.6128
92348972|NCT03043573|184601753|SUPERIORITY||Mean Difference (Final Values)|1.9276||||0.3326|TWO_SIDED|95.0|-2.0231|5.8783|||t-test, 2 sided|||Week 36||5.8783|-2.0231|0.3326
92348973|NCT03043573|184601753|SUPERIORITY||Mean Difference (Final Values)|2.0741||||0.2935|TWO_SIDED|95.0|-1.8522|6.0004|||t-test, 2 sided|||Week 52||6.0004|-1.8522|0.2935
92348974|NCT00876395|184601786|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.1166|TWO_SIDED|95.0|0.73|1.08|||Log Rank|||||1.08|0.73|0.1166
92348975|NCT00876395|184601787|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0049|TWO_SIDED|95.0|0.48|0.91|||Log Rank|||||0.91|0.48|0.0049
92348976|NCT00876395|184601790|SUPERIORITY|||||||0.7276|||||||Exact Cochran-Mantel-Haenzel chi-square|||||||0.7276
92348977|NCT00876395|184601791|SUPERIORITY|||||||0.4085|||||||Exact Cochran-Mantel-Haenzel chi-square|||||||0.4085
92348978|NCT00876395|184601792|SUPERIORITY|||||||0.9573|||||||Exact Cochran-Mantel-Haenzel chi-square|||||||0.9573
92348979|NCT00876395|184601793|SUPERIORITY|||||||0.6382|||||||Exact Cochran-Mantel-Haenzel chi-square|||||||0.6382
92348980|NCT00639379|184601807|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.65|Odds Ratio (OR)|0.967|||||TWO_SIDED|98.98|0.436|0.967|||Regression, Logistic||Odds ratio is senofilcon A toric / alphafilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to alphafilcon A toric for proportion of eyes with lens orientation within 5 degrees.||0.967|0.436|
92348981|NCT00639379|184601808|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.65|Odds Ratio (OR)|1.416|||||TWO_SIDED|98.98|0.68|1.416|||Regression, Logistic||Odds ratio is senofilcon A toric / alphafilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to alphafilcon A toric for proportion of eyes with lens stability within 5 degrees.||1.416|0.680|
92348982|NCT00639379|184601809|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.4|Mean Difference (Final Values)|0.1868|STANDARD_ERROR_OF_MEAN|0.0921|||TWO_SIDED|98.98|-0.0517|0.1868|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus alphafilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to alphafilcon A toric for lens comfort.||0.1868|-0.0517|
92348983|NCT00639379|184601810|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.4|Mean Difference (Final Values)|-0.01185|STANDARD_ERROR_OF_MEAN|0.08566|||TWO_SIDED|98.98|-0.2337|-0.01185|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus alphafilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to alphafilcon A toric for subjective vision.||-0.01185|-0.2337|
92348984|NCT00639379|184601811|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.5|Mean Difference (Final Values)|-0.01267|STANDARD_ERROR_OF_MEAN|0.01265|||TWO_SIDED|98.98|-0.01267|0.01986|||||The mean difference was calculated as senofilcon A toric minus alphafilcon A toric.|Alternative hypothesis is senofilcon A toric is non-inferior to alphafilcon A toric by having a lower level of corneal staining.||0.01986|-0.01267|
92348985|NCT01787838|184601816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||<|0.0001|TWO_SIDED|95.0|1.65|1.96|||Chi-squared|||Prospective data from 12 months were compared to data that had been collected for the previous 12 month period to determine statistical significance and trended outcomes for comparative periods. Patients were screened for eligibility during the first 12 months, and staff and patients received the interventions during the second 12 month period.||1.96|1.65|<.0001
92348986|NCT01033942|184601818|SUPERIORITY_OR_OTHER|||||||0.6983||||||The p-value is for the difference in treatment (TX) groups overall. The interaction between TX group and study time that tests whether the TX groups differed over time could not be tested due to small no. of subjects that missed visits during study.|Chi-squared|||||||0.6983
92348987|NCT01033942|184601819|SUPERIORITY_OR_OTHER|||||||0.8722|TWO_SIDED||||||Fisher Exact|||||||0.8722
92348988|NCT01033942|184601820|SUPERIORITY_OR_OTHER|||||||0.6921||||||Not all subjects answered every question.|Fisher Exact|||||||0.6921
92348989|NCT01033942|184601821|SUPERIORITY_OR_OTHER|||||||0.4655||||||Not all participants answered every question|Fisher Exact|||||||0.4655
92348990|NCT01033942|184601822|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED|||||Not all participants answered every question|Fisher Exact|||||||0.9999
92348991|NCT01033942|184601823|SUPERIORITY_OR_OTHER|||||||0.2297|TWO_SIDED|||||Not all participants answered every question|Fisher Exact|||||||0.2297
92348992|NCT01033942|184601824|SUPERIORITY_OR_OTHER|||||||0.1886||||||Not all participants answered every question|Fisher Exact|||||||0.1886
92348993|NCT01033942|184601825|SUPERIORITY_OR_OTHER|||||||0.1908|||||||Fisher Exact|||||||0.1908
92348994|NCT01033942|184601826|SUPERIORITY_OR_OTHER|||||||0.224||||||Not all participants answered every question|Fisher Exact|||||||0.2240
92348995|NCT01033942|184601827|SUPERIORITY_OR_OTHER|||||||0.1538||||||Not all participants answered every question|Fisher Exact|||||||0.1538
92219089|NCT00309465|184338853|SUPERIORITY_OR_OTHER|||||||0.294||95.0||||P value is for three strategies in insulin glargine plus bolus group for fasting blood glucose achievement of 100-179 mg/dl|Chi-squared|||Comparison for Target Achievement of blood glucose values of 100-179 mg/dl||||0.294
92348996|NCT01033942|184601828|SUPERIORITY_OR_OTHER|||||||0.2151||||||Not all participants answered every question|Fisher Exact|||||||0.2151
92348997|NCT01033942|184601829|SUPERIORITY_OR_OTHER|||||||0.2809||||||Not all participants answered every question|Fisher Exact|||||||0.2809
92348998|NCT01033942|184601830|SUPERIORITY_OR_OTHER|||||||0.185||||||Not all participants answered every question|Fisher Exact|||||||0.1850
92348999|NCT01033942|184601831|SUPERIORITY_OR_OTHER|||||||0.2366||||||Not all participants answered every question|Fisher Exact|||||||0.2366
92349000|NCT01033942|184601832|SUPERIORITY_OR_OTHER|||||||0.4089||||||Not all subjects answered every question.|Fisher Exact|||||||0.4089
92349001|NCT01033942|184601833|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
92349002|NCT01033942|184601834|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
92349003|NCT01033942|184601835|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
92349004|NCT01033942|184601836|SUPERIORITY_OR_OTHER|||||||0.7007|||||||Fisher Exact|||||||0.7007
92219090|NCT00309465|184338853|SUPERIORITY_OR_OTHER|||||||0.162||95.0||||P value is for three strategies in insulin glargine only group for achievement of 80-249 mg/dl|Chi-squared|||Comparison of Achievement of blood glucose values of 80-249 mg/dl||||0.162
92349005|NCT01033942|184601837|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
92349006|NCT01033942|184601838|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
92349007|NCT01033942|184601839|SUPERIORITY_OR_OTHER|||||||0.8934|||||||Chi-squared|||||||0.8934
92349008|NCT01033942|184601840|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
92349009|NCT01033942|184601841|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
92349010|NCT01033942|184601842|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
92349011|NCT01033942|184601843|SUPERIORITY_OR_OTHER|||||||0.4003|||||||Fisher Exact|||||||0.4003
92349012|NCT01033942|184601844|SUPERIORITY_OR_OTHER|||||||0.6462|||||||Fisher Exact|||||||0.6462
92349013|NCT01033942|184601845|SUPERIORITY_OR_OTHER|||||||0.8505|||||||Chi-squared|||||||0.8505
92349014|NCT01033942|184601853|SUPERIORITY_OR_OTHER|||||||0.7434|TWO_SIDED||||||Chi-squared|||||||0.7434
92349015|NCT01033942|184601854|SUPERIORITY_OR_OTHER|||||||0.6153|TWO_SIDED||||||Chi-squared|||||||0.6153
92349016|NCT01033942|184601855|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Chi-squared|||||||0.2000
92349017|NCT01033942|184601856|SUPERIORITY_OR_OTHER|||||||0.5265|TWO_SIDED||||||Chi-squared|||||||0.5265
92349018|NCT01033942|184601857|SUPERIORITY_OR_OTHER|||||||0.2559|TWO_SIDED||||||Chi-squared|||||||0.2559
92349019|NCT01033942|184601858|SUPERIORITY_OR_OTHER|||||||0.3846|TWO_SIDED||||||Chi-squared|||||||0.3846
92349020|NCT01033942|184601859|SUPERIORITY_OR_OTHER|||||||0.5133|TWO_SIDED||||||Chi-squared|||||||0.5133
92349021|NCT01033942|184601860|SUPERIORITY_OR_OTHER|||||||0.1661|TWO_SIDED||||||Chi-squared|||||||0.1661
92349022|NCT01033942|184601861|SUPERIORITY_OR_OTHER|||||||0.0729|TWO_SIDED||||||Chi-squared|||||||0.0729
92400217|NCT05316597|184691994|SUPERIORITY|||||||0.02||||||Threshold of P \< 0.05 for significance. ANCOVA results of comparing reduced vs. full model over time.|ANOVA|||Exploratory ANOVA results comparing full and reduced models to test the effect of terpene exposure on pattern of outcome over time.||||0.02
92400218|NCT05316597|184691995|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.21|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.210
92349023|NCT01033942|184601862|SUPERIORITY_OR_OTHER|||||||0.1912|TWO_SIDED||||||Chi-squared|||||||0.1912
92349024|NCT01033942|184601863|SUPERIORITY_OR_OTHER|||||||0.2829|TWO_SIDED||||||Chi-squared|||||||0.2829
92349025|NCT01033942|184601864|SUPERIORITY_OR_OTHER|||||||0.2685|TWO_SIDED||||||Chi-squared|||||||0.2685
92349026|NCT01033942|184601865|SUPERIORITY_OR_OTHER|||||||0.2342|TWO_SIDED||||||Chi-squared|||||||0.2342
92349027|NCT01033942|184601866|SUPERIORITY_OR_OTHER|||||||0.7314|TWO_SIDED||||||Fisher Exact|||||||0.7314
92349028|NCT01033942|184601867|SUPERIORITY_OR_OTHER|||||||0.377|||||||Fisher Exact|||||||0.3770
92349029|NCT01033942|184601868|SUPERIORITY_OR_OTHER|||||||0.7004|||||||Fisher Exact|||||||0.7004
92349030|NCT01033942|184601869|SUPERIORITY_OR_OTHER|||||||0.4668|||||||Fisher Exact|||||||0.4668
92349031|NCT01033942|184601870|SUPERIORITY_OR_OTHER|||||||0.7573|||||||Fisher Exact|||||||0.7573
92349032|NCT01033942|184601871|SUPERIORITY_OR_OTHER|||||||0.0356|||||||Fisher Exact|||||||0.0356
92349033|NCT01033942|184601872|SUPERIORITY_OR_OTHER|||||||0.3176|||||||Fisher Exact|||||||0.3176
92349034|NCT01033942|184601873|SUPERIORITY_OR_OTHER|||||||0.1348|||||||Fisher Exact|||||||0.1348
92349035|NCT01033942|184601874|SUPERIORITY_OR_OTHER|||||||0.042|||||||Fisher Exact|||||||0.0420
92349036|NCT01033942|184601875|SUPERIORITY_OR_OTHER|||||||0.4906|||||||Fisher Exact|||||||0.4906
92349037|NCT01033942|184601876|SUPERIORITY_OR_OTHER|||||||0.0544|||||||Fisher Exact|||||||0.0544
92349038|NCT01033942|184601877|SUPERIORITY_OR_OTHER|||||||0.5645|||||||Fisher Exact|||||||0.5645
92349039|NCT01033942|184601878|SUPERIORITY_OR_OTHER|||||||0.7847|||||||Fisher Exact|||||||0.7847
92349040|NCT01033942|184601879|SUPERIORITY_OR_OTHER|||||||0.0288|||||||Fisher Exact|||||||0.0288
92349041|NCT01033942|184601880|SUPERIORITY_OR_OTHER|||||||0.0945|||||||Fisher Exact|||||||0.0945
92349042|NCT01033942|184601881|SUPERIORITY_OR_OTHER|||||||0.3884|||||||Fisher Exact|||||||0.3884
92349043|NCT01033942|184601882|SUPERIORITY_OR_OTHER|||||||0.2235|||||||Fisher Exact|||||||0.2235
92349044|NCT01033942|184601883|SUPERIORITY_OR_OTHER|||||||0.0467|||||||Fisher Exact|||||||0.0467
92349045|NCT01033942|184601884|SUPERIORITY_OR_OTHER|||||||0.6331|||||||Fisher Exact|||||||0.6331
92349046|NCT01033942|184601885|SUPERIORITY_OR_OTHER|||||||0.0948|||||||Fisher Exact|||||||0.0948
92349047|NCT01033942|184601886|SUPERIORITY_OR_OTHER|||||||0.5826|||||||Fisher Exact|||||||0.5826
92349048|NCT01033942|184601887|SUPERIORITY_OR_OTHER|||||||0.0087|||||||Fisher Exact|||||||0.0087
92349049|NCT01033942|184601888|SUPERIORITY_OR_OTHER|||||||0.1934|||||||Fisher Exact|||||||0.1934
92349050|NCT01033942|184601889|SUPERIORITY_OR_OTHER|||||||0.2146|||||||Fisher Exact|||||||0.2146
92349051|NCT01033942|184601890|SUPERIORITY_OR_OTHER|||||||0.5317|||||||Fisher Exact|||||||0.5317
92349052|NCT01033942|184601891|SUPERIORITY_OR_OTHER|||||||0.1733|||||||Fisher Exact|||||||0.1733
92349053|NCT01033942|184601892|SUPERIORITY_OR_OTHER|||||||0.1747|||||||Fisher Exact|||||||0.1747
92349054|NCT01033942|184601893|SUPERIORITY_OR_OTHER|||||||0.1203|||||||Fisher Exact|||||||0.1203
92349055|NCT01033942|184601894|SUPERIORITY_OR_OTHER|||||||0.8243|||||||Fisher Exact|||||||0.8243
92349056|NCT01033942|184601895|SUPERIORITY_OR_OTHER|||||||0.6202|||||||Fisher Exact|||||||0.6202
92349057|NCT01033942|184601896|SUPERIORITY_OR_OTHER|||||||0.8351|||||||Fisher Exact|||||||0.8351
92349058|NCT01033942|184601897|SUPERIORITY_OR_OTHER|||||||0.0484|||||||Fisher Exact|||||||0.0484
92349059|NCT01033942|184601898|SUPERIORITY_OR_OTHER|||||||0.4207|||||||Fisher Exact|||||||0.4207
92349060|NCT01033942|184601899|SUPERIORITY_OR_OTHER|||||||0.2187|||||||Fisher Exact|||||||0.2187
92349061|NCT01033942|184601900|SUPERIORITY_OR_OTHER|||||||0.5369|||||||Fisher Exact|||||||0.5369
92349062|NCT01033942|184601901|SUPERIORITY_OR_OTHER|||||||0.1524|||||||Fisher Exact|||||||0.1524
92349063|NCT01033942|184601902|SUPERIORITY_OR_OTHER|||||||0.47|||||||Fisher Exact|||||||0.4700
92349064|NCT01033942|184601903|SUPERIORITY_OR_OTHER|||||||0.4686|||||||Fisher Exact|||||||0.4686
92349065|NCT01033942|184601904|SUPERIORITY_OR_OTHER|||||||0.3791|||||||Fisher Exact|||||||0.3791
92349066|NCT01033942|184601905|SUPERIORITY_OR_OTHER|||||||0.7374|||||||Fisher Exact|||||||0.7374
92349067|NCT01033942|184601906|SUPERIORITY_OR_OTHER|||||||0.9363|||||||Fisher Exact|||||||0.9363
92349068|NCT01033942|184601907|SUPERIORITY_OR_OTHER|||||||0.6267|||||||Fisher Exact|||||||0.6267
92349069|NCT01033942|184601908|SUPERIORITY_OR_OTHER|||||||0.6434|TWO_SIDED||||||Fisher Exact|||||||0.6434
92349070|NCT01033942|184601909|SUPERIORITY_OR_OTHER|||||||0.8582|TWO_SIDED||||||Fisher Exact|||||||0.8582
92349071|NCT01033942|184601910|SUPERIORITY_OR_OTHER|||||||0.5778|TWO_SIDED||||||Fisher Exact|||||||0.5778
92349072|NCT01033942|184601911|SUPERIORITY_OR_OTHER|||||||0.9881|TWO_SIDED||||||Fisher Exact|||||||0.9881
92349073|NCT01033942|184601912|SUPERIORITY_OR_OTHER|||||||0.9771|TWO_SIDED||||||Fisher Exact|||||||0.9771
92349074|NCT01033942|184601913|SUPERIORITY_OR_OTHER|||||||0.2301|TWO_SIDED||||||Fisher Exact|||||||0.2301
92349075|NCT01115231|184601916|OTHER|multivariable logistic regression model|Odds Ratio (OR)|2.03|||||TWO_SIDED|95.0|0.93|4.42||||||||4.42|0.93|
92349076|NCT02260986|184601932|SUPERIORITY||difference in percentages|26.3|||<|0.0001|TWO_SIDED|95.0|16.34|36.26||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing IGA scores at Week 16 were considered as non-responders.||36.26|16.34|<0.0001
92349077|NCT02260986|184601932|SUPERIORITY||difference in percentages|26.8|||<|0.0001|TWO_SIDED|95.0|20.33|33.28||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing IGA scores at Week 16 were considered as non-responders.||33.28|20.33|<0.0001
92349078|NCT02260986|184601933|SUPERIORITY|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing EASI score at Week 16 were considered as non-responders.|difference in percentages|45.7|||<|0.0001|TWO_SIDED|95.0|35.72|55.66||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.025 level for both comparisons.||55.66|35.72|<0.0001
92349079|NCT02260986|184601933|SUPERIORITY|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing EASI score at Week 16 were considered as non-responders.|difference in percentages|40.8|||<|0.0001|TWO_SIDED|95.0|33.74|47.81||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level for both comparisons.||47.81|33.74|<0.0001
92349080|NCT02260986|184601934|SUPERIORITY||difference in percentages|39.1|||<|0.0001|TWO_SIDED|95.0|28.53|49.65||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing peak NRS at Week 16 were considered as non-responders.||49.65|28.53|<0.0001
92349081|NCT02260986|184601934|SUPERIORITY||difference in percentages|31.1|||<|0.0001|TWO_SIDED|95.0|23.84|38.39||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing peak NRS at Week 16 were considered as non-responders.||38.39|23.84|<0.0001
92349082|NCT02260986|184601935|SUPERIORITY||difference in percentages|37.9|||<|0.0001|TWO_SIDED|95.0|27.56|48.31||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing peak NRS at Week 16 were considered as non-responders.||48.31|27.56|<0.0001
92349083|NCT02260986|184601935|SUPERIORITY||difference in percentages|34.7|||<|0.0001|TWO_SIDED|95.0|27.31|42.05||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing peak NRS at Week 16 were considered as non-responders.||42.05|27.31|<0.0001
92349084|NCT02260986|184601936|SUPERIORITY||difference in percentages|23.5|||<|0.0001|TWO_SIDED|95.0|12.72|34.19||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing IGA scores at Week 52 were considered as non-responders.||34.19|12.72|<0.0001
92349085|NCT02260986|184601936|SUPERIORITY||difference in percentages|27.5|||<|0.0001|TWO_SIDED|95.0|20.42|34.58||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing IGA scores at Week 52 were considered as non-responders.||34.58|20.42|<0.0001
92349086|NCT02260986|184601937|SUPERIORITY||difference in percentages|43.6|||<|0.0001|TWO_SIDED|95.0|32.5|54.65||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing EASI score at Week 52 were considered as non-responders.||54.65|32.50|<0.0001
92349087|NCT02260986|184601937|SUPERIORITY||difference in percentages|42.5|||<|0.0001|TWO_SIDED|95.0|34.91|50.06||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing EASI score at Week 52 were considered as non-responders.||50.06|34.91|<0.0001
92349088|NCT02260986|184601938|SUPERIORITY||Least square (LS) mean difference|-26.2|||<|0.0001|TWO_SIDED|95.0|-35.04|-17.43||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-17.43|-35.04|<0.0001
92349089|NCT02260986|184601938|SUPERIORITY||LS mean difference|-26.8|||<|0.0001|TWO_SIDED|95.0|-32.83|-20.73||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-20.73|-32.83|<0.0001
92349090|NCT02260986|184601939|SUPERIORITY||difference in percentages|38.3|||<|0.0001|TWO_SIDED|95.0|26.96|49.66||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 52 were considered as non-responders.||49.66|26.96|<0.0001
92349091|NCT02260986|184601939|SUPERIORITY||difference in percentages|26.1|||<|0.0001|TWO_SIDED|95.0|18.76|33.45||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 52 were considered as non-responders.||33.45|18.76|<0.0001
92349092|NCT02260986|184601940|SUPERIORITY||difference in percentages|40.1|||<|0.0001|TWO_SIDED|95.0|28.76|51.35||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 52 were considered as non-responders.||51.35|28.76|<0.0001
92400219|NCT05316597|184691995|SUPERIORITY|||||||0.57||||||Threshold of P \< 0.05 for significance. ANCOVA results of comparing reduced vs. full model over time.|ANOVA|||Exploratory ANOVA results comparing full and reduced models to test the effect of terpene exposure on pattern of outcome over time.||||0.57
92400220|NCT05316597|184691996|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.921|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.921
92400221|NCT05316597|184691996|SUPERIORITY|||||||0.82||||||Threshold of P \< 0.05 for significance. ANCOVA results of comparing reduced vs. full model over time.|ANOVA|||||||0.82
92168623|NCT05999435|184227037|SUPERIORITY||Least Square Means difference|-1.0|STANDARD_ERROR_OF_MEAN|1.29||0.4327|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 12 comparison, null hypothesis of no difference||||0.4327
92168624|NCT05999435|184227037|SUPERIORITY||Least Square Means difference|-2.0|STANDARD_ERROR_OF_MEAN|1.29||0.1247|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 12 comparison, null hypothesis of no difference||||0.1247
92168625|NCT05999435|184227037|SUPERIORITY||Least Square Means difference|1.0|STANDARD_ERROR_OF_MEAN|1.31||0.4606|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 12 comparison, null hypothesis of no difference||||0.4606
92168626|NCT05999435|184227038|SUPERIORITY|||||||0.7807||||||Alpha set at 0.05|Fisher Exact|||Baseline comparison, null hypothesis of no difference||||0.7807
92168627|NCT05999435|184227038|SUPERIORITY|||||||0.4965||||||Alpha set at 0.05|Fisher Exact|||Baseline comparison, null hypothesis of no difference||||0.4965
92168628|NCT05999435|184227038|SUPERIORITY|||||||0.2093||||||Alpha set at 0.05|Fisher Exact|||Baseline comparison, null hypothesis of no difference||||0.2093
92168629|NCT05999435|184227038|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||1.000
92168630|NCT05999435|184227038|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||1.000
92168631|NCT05999435|184227038|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||1.000
92168632|NCT05999435|184227039|SUPERIORITY||Least Square Means difference|0.4|STANDARD_ERROR_OF_MEAN|1.11||0.7052|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 4 comparison, null hypothesis of no difference||||0.7052
92168633|NCT05999435|184227039|SUPERIORITY||Least Square Means difference|1.8|STANDARD_ERROR_OF_MEAN|1.11||0.115|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 4 comparison, null hypothesis of no difference||||0.1150
92168634|NCT05999435|184227039|SUPERIORITY||Least Square Means difference|-1.3|STANDARD_ERROR_OF_MEAN|1.11||0.2296|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 4 comparison, null hypothesis of no difference||||0.2296
92168635|NCT05999435|184227039|SUPERIORITY||Least Square Means difference|0.3|STANDARD_ERROR_OF_MEAN|1.11||0.7761|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 8 comparison, null hypothesis of no difference||||0.7761
92168636|NCT05999435|184227039|SUPERIORITY||Least Square Means difference|0.2|STANDARD_ERROR_OF_MEAN|1.11||0.8544|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 8 comparison, null hypothesis of no difference||||0.8544
92168637|NCT05999435|184227039|SUPERIORITY||Least Square Means difference|0.1|STANDARD_ERROR_OF_MEAN|1.11||0.9197|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 8 comparison, null hypothesis of no difference||||0.9197
92168638|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-1.2|STANDARD_ERROR_OF_MEAN|2.5||0.6269|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Vitality domain, Week 12 comparison, null hypothesis of no difference||||0.6269
92168639|NCT05999435|184227040|SUPERIORITY||Leat Square Means difference|-1.9|STANDARD_ERROR_OF_MEAN|2.5||0.4427|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Vitality domain, Week 12 comparison, null hypothesis of no difference||||0.4427
92168640|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|0.7|STANDARD_ERROR_OF_MEAN|2.52||0.7783|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Vitality domain, Week 12 comparison, null hypothesis of no difference||||0.7783
92168641|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-1.0|STANDARD_ERROR_OF_MEAN|3.19||0.7488|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Physical Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.7488
92168642|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|1.9|STANDARD_ERROR_OF_MEAN|3.18||0.5557|TWO_SIDED||||||Mixed Models Analysis|||Physical Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.5557
92168643|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-2.9|STANDARD_ERROR_OF_MEAN|3.22||0.3679|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Physical Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.3679
92168644|NCT05999435|184227040|SUPERIORITY||Least Squre Means difference|-8.0|STANDARD_ERROR_OF_MEAN|2.78||0.0044|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Bodily Pain domain, Week 12 comparison, null hypothesis of no difference||||0.0044
92168645|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-6.8|STANDARD_ERROR_OF_MEAN|2.79||0.0158|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Bodily Pain domain, Week 12 comparison, null hypothesis of no difference||||0.0158
92168646|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-1.2|STANDARD_ERROR_OF_MEAN|2.81||0.6682|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Bodily Pain domain, Week 12 comparison, null hypothesis of no difference||||0.6682
92168647|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|2.2|STANDARD_ERROR_OF_MEAN|1.9||0.2448|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||General Health domain, Week 12 comparison, null hypothesis of no difference||||0.2448
92168648|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|1.4|STANDARD_ERROR_OF_MEAN|1.9||0.4702|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||General Health domain, Week 12 comparison, null hypothesis of no difference||||0.4702
92168649|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|0.8|STANDARD_ERROR_OF_MEAN|1.92||0.6627|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||General Health domain, Week 12 comparison, null hypothesis of no difference||||0.6627
92168650|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-3.1|STANDARD_ERROR_OF_MEAN|2.85||0.2774|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Role Physical Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.2774
92168651|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-4.1|STANDARD_ERROR_OF_MEAN|2.85||0.1537|TWO_SIDED||||||Mixed Models Analysis|||Role Physical Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.1537
92168652|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|1.0|STANDARD_ERROR_OF_MEAN|2.87||0.7355|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Role Physical Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.7355
92400222|NCT05316597|184691997|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.265|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.265
92400223|NCT05316597|184691997|SUPERIORITY|||||||0.63||||||Threshold of P \< 0.05 for significance. ANCOVA results of comparing reduced vs. full model over time.|ANOVA|||||||0.63
92168653|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-8.0|STANDARD_ERROR_OF_MEAN|5.9||0.1757|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Role Emotional Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.1757
92349093|NCT02260986|184601940|SUPERIORITY||difference in percentages|27.3|||<|0.0001|TWO_SIDED|95.0|19.81|34.76||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 52 were considered as non-responders.||34.76|19.81|<0.0001
92349094|NCT02260986|184601941|SUPERIORITY||difference in percentages|37.9|||<|0.0001|TWO_SIDED|95.0|27.34|48.4||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 24 were considered as non-responders.||48.40|27.34|<0.0001
92349095|NCT02260986|184601941|SUPERIORITY||difference in percentages|27.7|||<|0.0001|TWO_SIDED|95.0|20.65|34.7||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 24 were considered as non-responders.||34.70|20.65|<0.0001
92349096|NCT02260986|184601942|SUPERIORITY||difference in percentages|20.9|||<|0.0001|TWO_SIDED|95.0|10.59|31.15||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 4 were considered as non-responders.||31.15|10.59|<0.0001
92349097|NCT02260986|184601942|SUPERIORITY||difference in percentages|10.7||||0.0021|TWO_SIDED|95.0|4.15|17.31||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 4 were considered as non-responders.||17.31|4.15|0.0021
92349098|NCT02260986|184601943|SUPERIORITY||difference in percentages|9.6||||0.0062|TWO_SIDED|95.0|1.61|17.63||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 2 were considered as non-responders.||17.63|1.61|0.0062
92349099|NCT02260986|184601943|SUPERIORITY||difference in percentages|5.5||||0.0344|TWO_SIDED|95.0|0.56|10.51||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 2 were considered as non-responders.||10.51|0.56|0.0344
92349100|NCT02260986|184601944|SUPERIORITY||LS mean difference|-1.81|||<|0.0001|TWO_SIDED|95.0|-2.297|-1.322||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-1.322|-2.297|<0.0001
92349101|NCT02260986|184601945|SUPERIORITY||LS mean difference|-32.1|||<|0.0001|TWO_SIDED|95.0|-46.37|-17.82||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-17.82|-46.37|<0.0001
92168654|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-10.9|STANDARD_ERROR_OF_MEAN|5.89||0.0649|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Rome Emotional Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.0649
92400224|NCT05316597|184691998|SUPERIORITY||Median Difference (Final Values)|-0.34||||0.724|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.724
92400225|NCT05316597|184691999|SUPERIORITY||Mean Difference (Final Values)|-2.85||||0.716|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.716
92400226|NCT05316597|184692000|SUPERIORITY||Mean Difference (Final Values)|-0.53||||0.852|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.852
92400227|NCT05316597|184692001|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.166|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.166
92160304|NCT04319094|184208896|SUPERIORITY||Mean Difference (Net)|1.79|STANDARD_ERROR_OF_MEAN|0.54||0.001|TWO_SIDED|95.0|0.72|2.86|||Mixed Models Analysis|Degrees of freedom: 421|Score difference: post-intervention - baseline|Null hypothesis: there is no difference in the mean GSES scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|2.86|0.72|0.001
92160305|NCT04319094|184208896|SUPERIORITY||Mean Difference (Net)|0.93|STANDARD_ERROR_OF_MEAN|0.67||0.18|TWO_SIDED|95.0|-0.39|2.25||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 421|Score difference: 3-month - baseline|Null hypothesis: there is no difference in the mean GSES scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|2.25|-0.39|0.18
92275584|NCT01123980|184453686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001||95.0|-0.31|0.58||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Before lunch|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||0.58|-0.31|<0.001
92275585|NCT01123980|184453686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|||<|0.001||95.0|-0.26|0.82||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Two hours after lunch|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||0.82|-0.26|<0.001
92275586|NCT01123980|184453686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64|||<|0.001||95.0|0.22|1.06||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Before dinner|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||1.06|0.22|<0.001
92275587|NCT01123980|184453686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51|||<|0.001||95.0|-2.03|-1.0||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Two hours after dinner|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||-1.00|-2.03|<0.001
92275588|NCT01123980|184453686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|||<|0.001||95.0|-1.73|-0.78||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Bedtime|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||-0.78|-1.73|<0.001
92275589|NCT01123980|184453686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||<|0.001||95.0|-0.81|-0.13||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||02 - 04 a.m.|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||-0.13|-0.81|<0.001
92275590|NCT01123980|184453686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||<|0.001||95.0|-0.06|0.4||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Before breakfast the following day|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||0.40|-0.06|<0.001
92275591|NCT01123980|184453687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8583||95.0|0.64|1.46|||Regression, Logistic||The odds ratio and 95% confidence interval is for the HbA1c less than 7% treatment target were included.|The responder analysis was based on logistic regression model using treatment, country and previous OAD therapy (with or without a third OAD) as factors and baseline HbA1c as covariate.||1.46|0.64|0.8583
92275592|NCT01123980|184453688|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8013||95.0|0.64|1.79|||Regression, Logistic||The odds ratio and 95% confidence interval is for the HbA1c below or equal to 6.5% treatment target were included.|The responder analysis was based on logistic regression model using treatment, country and previous OAD therapy (with or without a third OAD) as factors and baseline HbA1c as covariate.||1.79|0.64|0.8013
92275593|NCT02557672|184453699|SUPERIORITY||Ratio of the Geometric Means|0.98||||0.84|TWO_SIDED|95.0|0.81|1.19|||Regression, Linear|||||1.19|0.81|0.84
92275594|NCT02557672|184453700|SUPERIORITY||Odds Ratio (OR)|0.49||||0.09|TWO_SIDED|95.0|0.22|1.11|||Regression, Logistic|||||1.11|0.22|0.09
92275595|NCT02557672|184453701|SUPERIORITY||Odds Ratio, log|0.76||||0.51|TWO_SIDED|95.0|0.33|1.73|||Regression, Logistic|||||1.73|0.33|0.51
92275596|NCT02557672|184453702|SUPERIORITY||Odds Ratio (OR)|1.39||||0.53|TWO_SIDED|95.0|0.51|3.79|||Regression, Logistic|||||3.79|0.51|0.53
92275597|NCT02557672|184453703|SUPERIORITY||Odds Ratio (OR)|0.52||||0.39|TWO_SIDED|95.0|0.12|2.3|||Regression, Logistic|||||2.30|0.12|0.39
92349102|NCT02260986|184601946|SUPERIORITY||LS mean difference|-18.38|||<|0.0001|TWO_SIDED|95.0|-22.583|-14.187||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-14.187|-22.583|<0.0001
92349103|NCT02260986|184601947|SUPERIORITY||LS mean difference|-27.7|||<|0.0001|TWO_SIDED|95.0|-33.46|-21.9||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-21.9|-33.46|<0.0001
92219091|NCT00309465|184338853|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||P value is for three strategies in insulin glargine plus bolus group in achievement of fasting blood glucose value of 80-249 mg/dl.|Chi-squared|||Comparison of Achievement of blood glucose values of 80-249 mg/dl.||||0.031
92400228|NCT05316597|184692002|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.046|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.046
92160306|NCT04319094|184208896|SUPERIORITY||Mean Difference (Net)|1.11|STANDARD_ERROR_OF_MEAN|0.68||0.11|TWO_SIDED|95.0|-0.24|2.45||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 421|Score difference: 6-month - baseline|Null hypothesis: there is no difference in the mean GSES scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|2.45|-0.24|0.11
92160307|NCT04319094|184208896|SUPERIORITY||Mean Difference (Net)|2.26|STANDARD_ERROR_OF_MEAN|0.65||0.0006|TWO_SIDED|95.0|0.98|3.54||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 421|Score difference: 9-month - baseline|Null hypothesis: there is no difference in the mean GSES scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|3.54|0.98|0.0006
92160308|NCT04319094|184208896|SUPERIORITY||Mean Difference (Net)|2.48|STANDARD_ERROR_OF_MEAN|0.75||0.001|TWO_SIDED|95.0|1.01|3.95||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 421|Score difference: 12-month - baseline|Null hypothesis: there is no difference in the mean GSES scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|3.95|1.01|0.001
92160309|NCT04319094|184208896|SUPERIORITY|||||||0.1195|||||||Mixed Models Analysis|||Null hypothesis: There is no difference in the change of GSES scores over time between the control and PEERS participants.||||0.1195
92160310|NCT04319094|184208897|SUPERIORITY||Mean Difference (Net)|3.22|STANDARD_ERROR_OF_MEAN|0.77|<|0.0001|TWO_SIDED|95.0|1.71|4.73||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 361|Score difference: post-intervention - baseline|Null hypothesis: there is no difference in the mean Brief-COPE Adaptive Coping scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|4.73|1.71|<0.0001
92160311|NCT04319094|184208897|SUPERIORITY||Mean Difference (Net)|2.59|STANDARD_ERROR_OF_MEAN|1.03||0.0123|TWO_SIDED|95.0|0.57|4.62||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 361|Score difference: 3-month - baseline|Null hypothesis: there is no difference in the mean Brief-COPE Adaptive Coping scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|4.62|0.57|0.0123
92160312|NCT04319094|184208897|SUPERIORITY||Mean Difference (Net)|2.63|STANDARD_ERROR_OF_MEAN|1.02||0.01|TWO_SIDED|95.0|0.63|4.63||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 361|Score difference: 6-month - baseline|Null hypothesis: there is no difference in the mean Brief-COPE Adaptive Coping scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|4.63|0.63|0.01
92168655|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|2.9|STANDARD_ERROR_OF_MEAN|5.93||0.6262|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Role Emotional Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.6262
92168656|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|0.1|STANDARD_ERROR_OF_MEAN|2.92||0.9709|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Social Role Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.9709
92168657|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-2.9|STANDARD_ERROR_OF_MEAN|2.92||0.3201|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Social Role Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.3201
92219092|NCT02113436|184338858|SUPERIORITY_OR_OTHER||Difference in Least square means|-0.97||||0.206|TWO_SIDED|95.0|-2.47|0.54|||ANCOVA|||||0.54|-2.47|0.206
92400229|NCT01706458|184692020|OTHER|||||||0.906|||||||Log Rank|||||||0.9060
92400230|NCT03547518|184692027|SUPERIORITY|||||||0.111|||||||t-test, 2 sided|||||||0.111
92400231|NCT03547518|184692028|SUPERIORITY|||||||0.487|||||||t-test, 2 sided|||||||0.487
92400232|NCT03547518|184692029|SUPERIORITY|||||||0.0393|||||||t-test, 2 sided|||||||0.0393
92400233|NCT03547518|184692030|SUPERIORITY|||||||0.242|||||||t-test, 2 sided|||||||0.242
92400234|NCT03547518|184692031|SUPERIORITY|||||||0.855|||||||t-test, 2 sided|||||||0.855
92400235|NCT02766023|184692041|SUPERIORITY||Risk Difference (RD)|0.04||||0.467|TWO_SIDED|95.0|-0.1|0.18|||Fisher Exact|||||0.18|-0.10|0.467
92400236|NCT02766023|184692042|SUPERIORITY||Odds Ratio (OR)|0.54||||0.031|TWO_SIDED|95.0|0.3|0.95|||Chi-squared|||||0.95|0.30|0.031
92400237|NCT02766023|184692043|SUPERIORITY||Risk Difference (RD)|0.03||||0.643|TWO_SIDED|95.0|-0.08|0.15|||Chi-squared|||Analysis is for self-reported compliance||0.15|-0.08|0.643
92400238|NCT02766023|184692043|SUPERIORITY||Risk Difference (RD)|0.05||||0.446|TWO_SIDED|95.0|-0.07|0.17|||Chi-squared|||Analysis is for compliance assessed by staining.||0.17|-0.07|0.446
92400239|NCT02766023|184692052|SUPERIORITY||Odds Ratio (OR)|79.64|||<|0.001|TWO_SIDED|95.0|29.02|218.57|||Chi-squared|||||218.57|29.02|<0.001
92168658|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|3.0|STANDARD_ERROR_OF_MEAN|2.95||0.3065|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Social Role Functioning domain, Week 12 comparison, null hypothesis of no difference||||0.3065
92400240|NCT02766023|184692060|SUPERIORITY||Odds Ratio (OR)|72.78|||<|0.001|TWO_SIDED|95.0|28.07|188.66|||Chi-squared|||||188.66|28.07|<0.001
92400241|NCT02766023|184692061|SUPERIORITY||Odds Ratio (OR)|0.54||||0.03|TWO_SIDED|95.0|0.31|0.94|||Chi-squared|||||0.94|0.31|0.030
92400242|NCT00286468|184692063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.001|TWO_SIDED|95.0|-0.59|-0.19||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for glycosylated hemoglobin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at week 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 subjects had 94% power to detect a treatment difference as small as 0.4% in the supportive per-protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level, and \>=80% of subjects meeting per protocol criteria.||-0.19|-0.59|<0.001
92400243|NCT00286468|184692063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|||<|0.001|TWO_SIDED|95.0|-0.73|-0.33||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at week 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 subjects had 94% power to detect a treatment difference as small as 0.4% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of subjects meeting per-protocol criteria.||-0.33|-0.73|<0.001
92400244|NCT00286468|184692064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|||<|0.001|TWO_SIDED|95.0|-0.33|-0.13||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.13|-0.33|<0.001
92400245|NCT00286468|184692064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|||<|0.001|TWO_SIDED|95.0|-0.38|-0.18||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.18|-0.38|<0.001
92400246|NCT00286468|184692065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.001|TWO_SIDED|95.0|-0.53|-0.26||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.26|-0.53|<0.001
92400247|NCT00286468|184692065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.61|-0.33||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.33|-0.61|<0.001
92168659|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|1.0|STANDARD_ERROR_OF_MEAN|0.95||0.2891|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Mental Health domain, Week 12 comparison, null hypothesis of no difference||||0.2891
92400248|NCT00286468|184692066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||<|0.001|TWO_SIDED|95.0|-0.57|-0.25||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.25|-0.57|<0.001
92219093|NCT02113436|184338859|SUPERIORITY_OR_OTHER||Difference in Least sqaure means|-0.49||||0.235|TWO_SIDED|95.0|-1.29|0.32|||ANCOVA|||||0.32|-1.29|0.235
92219094|NCT02113436|184338860|SUPERIORITY_OR_OTHER||Difference in Least-Sqaure means|-0.48||||0.236|TWO_SIDED|95.0|-1.27|0.31|||ANCOVA|||||0.31|-1.27|0.236
92219095|NCT02113436|184338861|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47|||||TWO_SIDED|95.0|0.14|1.6||||||||1.60|0.14|
92219096|NCT02113436|184338862|SUPERIORITY_OR_OTHER||Difference in Least-Square Means|0.7||||0.041|TWO_SIDED|95.0|0.0|1.4|||ANCOVA|||||1.4|0.0|0.041
92219097|NCT02113436|184338863|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-0.06||||0.335|TWO_SIDED|95.0|-0.2|0.07|||ANCOVA|||||0.07|-0.20|0.335
92275598|NCT03705169|184453705|EQUIVALENCE|Confidence Interval (CI) on Geometric Mean Ratio.|Geometric Mean Ratio|3.2|||||TWO_SIDED|95.0|1.9|5.3|||||The ratios of the geometric means (Arm A/Arm C) and the corresponding 95% CI were obtained by exponentiating the least squares mean difference and its 95% CI of the natural log-transformed data.|As dose-normalized AUC 0-12WK values were considered, participants were pooled within Arm (i.e., Arm A participants receiving 1, 3, 10, or 30 mg/kg were pooled and Arm C participants 0.3 or 1.0 mg/kg were pooled).|No comparisons were done with Arm B participants, as only two participants in that arm had available measurements such that AUC 0-12WK could be estimated.|5.3|1.9|
92275599|NCT03705169|184453706|OTHER||Mean|-0.18||||0.26|TWO_SIDED|95.0|-0.53|0.18||Under the null hypothesis, it was assumed there was no change in HIV-1 RNA (log10 copies/mL) from baseline to Day 7 of SAR441236 monotherapy for viremic participants with HIV (Arm B cohorts).|t-test, 2 sided|||Arm B participants were pooled across doses for analysis.||0.18|-0.53|0.26
92275600|NCT03705169|184453708|OTHER||Mean|-0.02||||0.78|TWO_SIDED|95.0|-0.24|0.19||Under the null hypothesis, it was assumed there was no change in HIV-1 RNA (log10 copies/mL) from baseline to Day 14 of SAR441236 monotherapy for viremic participants with HIV (Arm B cohorts).|t-test, 2 sided|||Arm B participants were pooled across doses for analysis.||0.19|-0.24|0.78
92275601|NCT00458302|184453725|NON_INFERIORITY_OR_EQUIVALENCE|The primary comparison was performed at Week 48. If at Week 48, the lower limit of the 95% two-sided confidence interval of the difference between DRV/r and DRV/r+2NRTIs exceeds -12%, non-inferiority of the DRV/r 800/100 once a day (O.D) monotherapy versus the DRV/r 800/100 mg O.D. plus two NRTIs triple combination therapy was concluded.|Difference in proportion of response|-1.6|||||TWO_SIDED|95.0|-10.1|6.8|||||Difference in proportion of response DRV/r minus DRV/r+2NRTIs.|Assuming a virologic response rate of 90% at 48 weeks for both treatment arms, 111 patients were required per treatment arm to establish non-inferiority of DRV/r versus triple regimen with a maximum allowable difference of 12%, with a one-sided significance level of p=0.025 and 80% power. To account for a maximum of 10% major protocol violations that would be excluded from the on-protocol analysis, 125 patients were recruited in each treatment arm, so 250 patients in total.||6.8|-10.1|
92275602|NCT00458302|184453726|NON_INFERIORITY_OR_EQUIVALENCE|If at Week 48, the lower limit of the 95% two-sided confidence interval of the difference between DRV/r and DRV/r+2NRTIs exceeds -12%, non-inferiority of the DRV/r 800/100 once a day (O.D) monotherapy versus the DRV/r 800/100 mg O.D. plus two NRTIs triple combination therapy was concluded.|Difference in proportion of response|-1.0|||||TWO_SIDED|95.0|-9.9|7.8|||||Difference in proportion of response DRV/r minus DRV/r+2NRTIs.|Assuming a virologic response rate of 90% at 48 weeks for both treatment arms, 111 patients were required per treatment arm to establish non-inferiority of DRV/r versus triple regimen with a maximum allowable difference of 12%, with a one-sided significance level of p=0.025 and 80% power. To account for a maximum of 10% major protocol violations that would be excluded from the on-protocol analysis, 125 patients were recruited in each treatment are, so 250 patients in total.||7.8|-9.9|
92275603|NCT00458302|184453728|SUPERIORITY_OR_OTHER||Difference in proportion of response|1.29|||||TWO_SIDED|95.0|-7.99|10.58|||||Difference in proportion of response DRV/r minus DRV/r+2NRTIs.|||10.58|-7.99|
92219098|NCT02113436|184338864|SUPERIORITY_OR_OTHER||Difference in Least Square Means|2.6||||0.389|TWO_SIDED|95.0|-3.3|8.6|||ANCOVA|||||8.6|-3.3|0.389
92219099|NCT01486927|184338868|SUPERIORITY_OR_OTHER||Rate ratio|0.08|||<|0.0001|TWO_SIDED|95.0|0.07|0.1|||Poisson, regression|||A test of the null hypothesis of no difference on AsBR between the 2 comparison groups was based on the Poisson Regression method. The corresponding prophylaxis/on-demand ratio with 95% confidence interval (CI) was calculated.||0.10|0.07|< 0.0001
92219100|NCT01148537|184338890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.91|||<|0.001|TWO_SIDED|90.0|3.4|8.4|||ANCOVA|ANCOVA model with baseline QTci as a covariate and with sex and treatment as effects in the model.||||8.4|3.4|< .001
92219101|NCT01148537|184338891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.77|TWO_SIDED|90.0|-1.8|2.6|||ANCOVA||For the comparison of BTDS to placebo, the subjects randomized to moxifloxacin were excluded.|||2.6|-1.8|.770
92219102|NCT01148537|184338892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.86|||<|0.001|TWO_SIDED|90.0|3.3|8.4|||ANCOVA|ANCOVA model with baseline QTci as a covariate and with sex and treatment as effects in the model.||Day 13 analysis||8.4|3.3|< .001
92219103|NCT01148537|184338893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.64|||<|0.001|TWO_SIDED|90.0|5.4|9.9|||ANCOVA|ANCOVA model with average baseline as a covariate, and with gender and treatment as main effects||||9.9|5.4|< .001
92219104|NCT01148537|184338894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.936|TWO_SIDED|90.0|-2.9|2.6|||ANCOVA|||Day 6 analysis||2.6|-2.9|.936
92219105|NCT01148537|184338894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.16|||<|0.001|TWO_SIDED|90.0|4.2|10.1|||ANCOVA|||Day 13 analysis||10.1|4.2|< .001
92219106|NCT01148537|184338895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.23|||<|0.001|TWO_SIDED|90.0|5.5|10.9|||ANCOVA|||Day 6 analysis||10.9|5.5|< .001
92219107|NCT01148537|184338895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4|||<|0.001|TWO_SIDED|90.0|4.3|10.5|||ANCOVA|||Day 13 analysis||10.5|4.3|< .001
92219108|NCT01148537|184338896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29||||0.427|TWO_SIDED|90.0|-1.4|4.0|||ANCOVA|||Day 6 analysis||4.0|-1.4|.427
92219109|NCT01148537|184338896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.01||||0.001|TWO_SIDED|90.0|3.2|8.8|||ANCOVA|||Day 13 analysis||8.8|3.2|.001
92219110|NCT01148537|184338897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.86|||<|0.001|TWO_SIDED|90.0|4.2|9.6|||ANCOVA|||Day 6 analysis||9.6|4.2|< .001
92219111|NCT01148537|184338897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.68||||0.006|TWO_SIDED|90.0|1.9|7.4|||ANCOVA|||Day 13 analysis||7.4|1.9|.006
92400249|NCT00286468|184692066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.68|-0.36||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.36|-0.68|<0.001
92400250|NCT00286468|184692067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|||<|0.001|TWO_SIDED|95.0|-0.54|-0.19||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.19|-0.54|<0.001
92400251|NCT00286468|184692067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||<|0.001|TWO_SIDED|95.0|-0.68|-0.33||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.33|-0.68|<0.001
92400252|NCT00286468|184692068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|||<|0.001|TWO_SIDED|95.0|-0.54|-0.17||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.17|-0.54|<0.001
92400253|NCT00286468|184692068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.71|-0.34||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.71|<0.001
92400254|NCT00286468|184692069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.1||||0.006|TWO_SIDED|95.0|-20.8|-3.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-3.4|-20.8|0.006
92160313|NCT04319094|184208897|SUPERIORITY||Mean Difference (Net)|4.18|STANDARD_ERROR_OF_MEAN|0.95|<|0.0001|TWO_SIDED|95.0|2.32|6.04||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 361|Score difference: 9-month - baseline|Null hypothesis: there is no difference in the mean Brief-COPE Adaptive Coping scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|6.04|2.32|<0.0001
92160314|NCT04319094|184208897|SUPERIORITY||Mean Difference (Net)|3.14|STANDARD_ERROR_OF_MEAN|1.17||0.0078|TWO_SIDED|95.0|0.83|5.44||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 361|Score difference: 12-month - baseline|Null hypothesis: there is no difference in the mean Brief-COPE Adaptive Coping scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|5.44|0.83|0.0078
92160315|NCT04319094|184208897|SUPERIORITY|||||||0.1408|||||||Mixed Models Analysis|||Null hypothesis: there is no statistical difference in the change in adaptive coping over time between control and PEERS participants.||||0.1408
92160316|NCT02042443|184208928|SUPERIORITY||Hazard Ratio (HR)|2.02||||0.05|TWO_SIDED|95.0|1.01|4.03|||Log Rank|||||4.03|1.01|0.05
92160317|NCT01649427|184208932|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority||||||0.0003|||||||ANCOVA|||||||0.0003
92400255|NCT00286468|184692069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3|||<|0.001|TWO_SIDED|95.0|-28.0|-10.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.6|-28.0|<0.001
92400256|NCT00286468|184692070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|||<|0.001|TWO_SIDED|95.0|-22.5|-7.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-7.2|-22.5|<0.001
92160318|NCT02735187|184208938|SUPERIORITY|A paired t-test was applied to test the primary hypothesis. In case the requirements for normality were not met, a non-parametric analysis (Wilcoxon signed rank test) was performed.||||||0.6469||||||A probability (P-Value) above 0.05 is considered not to be statistical significant.|t-test, 2 sided|||||||0.6469
92400257|NCT00286468|184692070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.0|||<|0.001|TWO_SIDED|95.0|-27.7|-12.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.4|-27.7|<0.001
92400258|NCT00286468|184692071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9||||0.01|TWO_SIDED|95.0|-19.3|-2.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-2.6|-19.3|0.010
92219112|NCT05895552|184338898|SUPERIORITY|The mixed model repeated measures (MMRM) model includes treatment group, baseline NPRS score, visit, interaction of visit and treatment group, and interaction of baseline NPRS score and visit.|Least square (LS) mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.351|<|0.5224|TWO_SIDED|95.0|-0.468|0.918|||MMRM|||||0.918|-0.468|<0.5224
92349104|NCT02260986|184601948|SUPERIORITY||LS mean difference|-4.2|||<|0.0001|TWO_SIDED|95.0|-5.31|-3.02||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-3.02|-5.31|<0.0001
92349105|NCT02260986|184601949|SUPERIORITY||LS mean difference|-7.4|||<|0.0001|TWO_SIDED|95.0|-8.85|-5.93||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-5.93|-8.85|<0.0001
92349106|NCT02260986|184601950|SUPERIORITY||LS mean difference|-1.0||||0.1596|TWO_SIDED|95.0|-2.27|0.37||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||0.37|-2.27|0.1596
92349107|NCT00817063|184601990|SUPERIORITY||Odds Ratio (OR)|3.78|||<|0.001|TWO_SIDED|95.0|2.55|5.62|||Chi-squared, Corrected|||||5.62|2.55|<0.001
92349108|NCT00817063|184601990|SUPERIORITY||Difference in Percentage|24.8|||<|0.001|TWO_SIDED|95.0|18.0|31.7|||Chi-squared, Corrected|||||31.7|18.0|<0.001
92349109|NCT00817063|184601991|SUPERIORITY||Mean Difference (Net)|-24.13|||<|0.001|TWO_SIDED|95.0|-30.4|-17.85|||Kruskal-Wallis|||||-17.85|-30.40|<0.001
92349110|NCT00817063|184601992|SUPERIORITY||Odds Ratio (OR)|4.05|||<|0.001|TWO_SIDED|95.0|2.71|6.07|||Chi-squared, Corrected|||||6.07|2.71|<0.001
92400259|NCT00286468|184692071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4|||<|0.001|TWO_SIDED|95.0|-25.8|-9.1||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.1|-25.8|<0.001
92160319|NCT02138916|184208949|SUPERIORITY||Rate ratio|0.96||||0.649|TWO_SIDED|95.0|0.8|1.15|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.15|0.8|0.6490
92219113|NCT05895552|184338898|SUPERIORITY|The MMRM model includes treatment group, baseline NPRS score, visit, interaction of visit and treatment group, and interaction of baseline NPRS score and visit.|LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.351|<|0.8223|TWO_SIDED|95.0|-0.772|0.614|||MMRM|||||0.614|-0.772|<0.8223
92275604|NCT02661126|184453738|OTHER|Geometric least-squares mean ratio (GMR) of AUC0-last in Moderate RI/Healthy Participants.|GMR of AUC0-last in Moderate RI/Healthy|2.02|||||TWO_SIDED|90.0|1.4|2.92||||||||2.92|1.40|
92275605|NCT02661126|184453739|OTHER|GMR of AUC0-∞ in Moderate RI/Healthy Participants|GMR of AUC0-∞ in Moderate RI/Healthy|2.0|||||TWO_SIDED|90.0|1.39|2.89||||||||2.89|1.39|
92349111|NCT00817063|184601992|SUPERIORITY||Difference in Percentage|25.5|||<|0.001|TWO_SIDED|95.0|18.7|32.3|||Chi-squared, Corrected|||||32.3|18.7|<0.001
92349112|NCT00817063|184601993|SUPERIORITY||Mean Difference (Net)|-22.36|||<|0.001|TWO_SIDED|95.0|-31.0|-13.73|||Kruskal-Wallis|||||-13.73|-31.00|<0.001
92400260|NCT00286468|184692072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.7|||<|0.001|TWO_SIDED|95.0|-25.2|-8.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.2|-25.2|<0.001
92160320|NCT02138916|184208949|SUPERIORITY||Risk Ratio (RR)|0.83||||0.0525|TWO_SIDED|95.0|0.69|1.0|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.00|0.69|0.0525
92275606|NCT02661126|184453740|OTHER|GMR of AUC0-24 in Moderate RI/Healthy Participants|GMR of AUC0-24 in Moderate RI/Healthy|2.02|||||TWO_SIDED|90.0|1.39|2.92||||||||2.92|1.39|
92160321|NCT02138916|184208950|SUPERIORITY||Risk Ratio (RR)|1.07||||0.5236|TWO_SIDED|95.0|0.86|1.34|||Negative binomial|Model includes treatment group, region, number of exacerbations in the previous year.||||1.34|0.86|0.5236
92275607|NCT02661126|184453741|OTHER|GMR of Cmax in Moderate RI/Healthy Participants|GMR of Cmax in Moderate RI/Healthy|1.92|||||TWO_SIDED|90.0|1.35|2.74||||||||2.74|1.35|
92275608|NCT02661126|184453747|OTHER|GMR of AUC0-last in Moderate RI/Healthy Participants.|GMR of AUC0-last in Moderate RI/Healthy|1.94|||||TWO_SIDED|90.0|1.39|2.72||||||||2.72|1.39|
92275609|NCT02661126|184453748|OTHER|GMR of AUC0-∞ in Moderate RI/Healthy Participants|GMR of AUC0-∞ in Moderate RI/Healthy|2.02|||||TWO_SIDED|90.0|1.5|2.74||||||||2.74|1.50|
92275610|NCT02661126|184453749|OTHER|GMR of AUC0-24 in Moderate RI/Healthy Participants|GMR of AUC0-24 in Moderate RI/Healthy|1.72|||||TWO_SIDED|90.0|1.15|2.56||||||||2.56|1.15|
92349113|NCT00817063|184601994|SUPERIORITY|||||||0.047|||||||Log Rank|||||||0.047
92349114|NCT00817063|184601995|SUPERIORITY|||||||0.068|||||||Log Rank|||||||0.068
92349115|NCT00817063|184601996|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92349116|NCT00817063|184602005|SUPERIORITY||Mean Difference (Net)|0.489||||0.179|TWO_SIDED|95.0|-0.226|1.204||The analysis of covariance model includes treatment, age at Baseline, gender, menopausal status of females, baseline BMD score and duration of treatment exposure (\<12weeks, \>=12 weeks) as covariates.|ANCOVA|||Lumbar Spine BMD||1.204|-0.226|0.179
92349117|NCT00817063|184602005|SUPERIORITY||Mean Difference (Net)|0.497||||0.089|TWO_SIDED|95.0|-0.077|1.071||The analysis of covariance model includes treatment, age at Baseline, gender, menopausal status of females, baseline BMD score and duration of treatment exposure (\<12weeks, \>=12 weeks) as covariates.|ANCOVA|||Femur BMD||1.071|-0.077|0.089
92349118|NCT02493855|184602038|SUPERIORITY|This study was an exploratory study to evaluate the effect of ribavirin on the slope of the second phase of HCV RNA decline in participants who received the 3-direct-acting antiviral agent regimen.||||||0.311|||||||Wilcoxon Rank Sum Test|||||||0.311
92349119|NCT02493855|184602038|SUPERIORITY|This study was an exploratory study to evaluate the effect of ribavirin on the slope of the second phase of HCV RNA decline in participants who received the 3-direct-acting antiviral agent regimen.||||||0.561|||||||Wilcoxon Rank Sum Test|||||||0.561
92349120|NCT03086343|184602039|NON_INFERIORITY|The non-inferiority of upadacitinib 15 mg versus abatacept was tested using the 95% confidence interval (CI) of treatment difference against a non-inferiority margin of 0.6.|LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.69|-0.35||The ANCOVA model included treatment as the fixed factor; corresponding baseline value and the stratification factor of prior bDMARD used as covariates.|ANCOVA||Treatment Difference = Upadacitinib 15 mg - Abatacept|In order to preserve Type I error, a step-down approach was used to test the primary and ranked secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.||-0.35|-0.69|< 0.001
92349121|NCT03086343|184602040|SUPERIORITY||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.69|-0.35||This comparison was a ranked secondary endpoint in the pre-specified multiplicity testing sequence.|ANCOVA|The ANCOVA model included treatment as the fixed factor; corresponding baseline value and the stratification factor of prior bDMARD used as covariates|Treatment Difference = Upadacitinib 15 mg - Abatacept|In order to preserve Type I error, a step-down approach was used to test the primary and ranked secondary endpoints in a pre specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.||-0.35|-0.69|< 0.001
92349122|NCT03086343|184602041|SUPERIORITY||Mean Difference|16.8|||<|0.001|TWO_SIDED|95.0|10.4|23.2||This comparison was a ranked secondary endpoint in the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|The stratification factor of prior failed bDMARD was used.|Treatment Difference = Upadacitinib 15 mg - Abatacept|In order to preserve Type I error, a step-down approach was used to test the primary and ranked secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.||23.2|10.4|< 0.001
92400261|NCT00286468|184692072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.4|||<|0.001|TWO_SIDED|95.0|-23.9|-6.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.9|-23.9|<0.001
92160322|NCT02138916|184208950|SUPERIORITY||Risk Ratio (RR)|1.02||||0.8812|TWO_SIDED|95.0|0.82|1.27|||Negative binomial|Model includes treatment group, EOS cohort, region, number of exacerbations in the previous year.||||1.27|0.82|0.8812
92160323|NCT02138916|184208951|SUPERIORITY||Mean Difference (Final Values)|0.007||||0.755|TWO_SIDED|95.0|-0.035|0.048|||Mixed Models Analysis|Model includes treatment group, baseline FEV1 value, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.048|-0.035|0.7550
92275611|NCT02661126|184453750|OTHER|GMR of Cmax in Moderate RI/Healthy Participants|GMR of Cmax in Moderate RI/Healthy|1.85|||||TWO_SIDED|90.0|1.2|2.87||||||||2.87|1.20|
92275612|NCT02661126|184453751|OTHER|GMR of C24 in Moderate RI/Healthy Participants|GMR of C24 in Moderate RI/Healthy|2.03|||||TWO_SIDED|90.0|1.38|2.97||||||||2.97|1.38|
92275613|NCT02661126|184453755|OTHER|GMR of AUC0-last in Moderate RI/Healthy Participants.|GMR of AUC0-last in Moderate RI/Healthy|1.91|||||TWO_SIDED|90.0|1.44|2.53||||||||2.53|1.44|
92275614|NCT02661126|184453756|OTHER|GMR of AUC0-∞ in Moderate RI/Healthy Participants|GMR of AUC0-∞ in Moderate RI/Healthy|1.97|||||TWO_SIDED|90.0|1.48|2.63||||||||2.63|1.48|
92275615|NCT02661126|184453757|OTHER|GMR of AUC0-24 in Moderate RI/Healthy Participants|GMR of AUC0-24 in Moderate RI/Healthy|1.96|||||TWO_SIDED|90.0|1.54|2.48||||||||2.48|1.54|
92275616|NCT02661126|184453758|OTHER|GMR of Cmax in Moderate RI/Healthy Participants|GMR of Cmax in Moderate RI/Healthy|1.7|||||TWO_SIDED|90.0|1.29|2.24||||||||2.24|1.29|
92275617|NCT02661126|184453759|OTHER|GMR of C24 in Moderate RI/Healthy Participants|GMR of C24 in Moderate RI/Healthy|1.94|||||TWO_SIDED|90.0|1.47|2.57||||||||2.57|1.47|
92349123|NCT04900272|184602042|OTHER|||||||0.785|||||||ANOVA|||||||0.785
92349124|NCT04900272|184602043|OTHER|||||||0.583|||||||ANOVA|||||||0.583
92349125|NCT04900272|184602044|OTHER|||||||0.5015|||||||ANOVA|||||||0.5015
92349126|NCT04900272|184602045|OTHER|||||||0.3536|||||||ANOVA|||||||0.3536
92160324|NCT02138916|184208951|SUPERIORITY||Mean Difference (Final Values)|0.021||||0.3285|TWO_SIDED|95.0|-0.021|0.062|||Mixed Models Analysis|Model includes treatment group, baseline FEV1 value, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.062|-0.021|0.3285
92160325|NCT02138916|184208952|SUPERIORITY||Mean Difference (Final Values)|-1.011||||0.2906|TWO_SIDED|95.0|-2.887|0.865|||Mixed Models Analysis|Model includes treatment group, baseline SGRQ score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.865|-2.887|0.2906
92349127|NCT04900272|184602046|OTHER|||||||0.2688|||||||ANOVA|||||||0.2688
92349128|NCT04900272|184602047|OTHER|||||||0.728|||||||ANOVA|||||||0.728
92349129|NCT04900272|184602048|OTHER|||||||0.473|||||||ANOVA|||||||0.473
92275618|NCT02661126|184453762|OTHER|GMR of AUC0-last in Moderate RI/Healthy Participants.|GMR of AUC0-last in Moderate RI/Healthy|1.33|||||TWO_SIDED|90.0|0.65|2.75||||||||2.75|0.65|
92275619|NCT02661126|184453763|OTHER|GMR of AUC0-∞ in Moderate RI/Healthy Participants|GMR of AUC0-∞ in Moderate RI/Healthy|1.59|||||TWO_SIDED|90.0|0.79|3.19||||||||3.19|0.79|
92275620|NCT02661126|184453764|OTHER|GMR of AUC0-24 in Moderate RI/Healthy Participants|GMR of AUC0-24 in Moderate RI/Healthy|1.15|||||TWO_SIDED|90.0|0.51|2.57||||||||2.57|0.51|
92275621|NCT02661126|184453765|OTHER|GMR of Cmax in Moderate RI/Healthy Participants|GMR of Cmax in Moderate RI/Healthy|1.23|||||TWO_SIDED|90.0|0.5|3.05||||||||3.05|0.50|
92275622|NCT02661126|184453766|OTHER|GMR of C24 in Moderate RI/Healthy Participants|GMR of C24 in Moderate RI/Healthy|1.28|||||TWO_SIDED|90.0|0.56|2.91||||||||2.91|0.56|
92275623|NCT02661126|184453771|OTHER|GMR of AUC0-last in Moderate RI/Healthy Participants.|GMR of AUC0-last in Moderate RI/Healthy|1.56|||||TWO_SIDED|90.0|1.19|2.05||||||||2.05|1.19|
92349130|NCT04900272|184602049|OTHER|||||||0.4161|||||||ANOVA|||||||0.4161
92275624|NCT02661126|184453772|OTHER|GMR of AUC0-∞ in Moderate RI/Healthy Participants|GMR of AUC0-∞ in Moderate RI/Healthy|1.57|||||TWO_SIDED|90.0|1.2|2.05||||||||2.05|1.20|
92275625|NCT02661126|184453773|OTHER|GMR of AUC0-24 in Moderate RI/Healthy Participants|GMR of AUC0-24 in Moderate RI/Healthy|1.49|||||TWO_SIDED|90.0|1.13|1.98||||||||1.98|1.13|
92275626|NCT02661126|184453774|OTHER|GMR of Cmax in Moderate RI/Healthy Participants|GMR of Cmax in Moderate RI/Healthy|1.44|||||TWO_SIDED|90.0|1.05|1.98||||||||1.98|1.05|
92160326|NCT02138916|184208952|SUPERIORITY||Mean Difference (Final Values)|-2.136||||0.0264|TWO_SIDED|95.0|-4.02|-0.251|||Mixed Models Analysis|Model includes treatment group, baseline SGRQ score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.251|-4.020|0.0264
92275627|NCT02661126|184453775|OTHER|GMR of C24 in Moderate RI/Healthy Participants|GMR of C24 in Moderate RI/Healthy|1.54|||||TWO_SIDED|90.0|1.15|2.07||||||||2.07|1.15|
92275628|NCT01513551|184453780|OTHER||Risk Difference (RD)|6.8|||||TWO_SIDED|95.0|-1.4|15.0|||Miettinen & Nurminen|||||15.0|-1.4|
92275629|NCT01513551|184453780|OTHER||Risk Difference (RD)|9.5|||||TWO_SIDED|95.0|1.1|17.7|||Miettinen & Nurminen|||||17.7|1.1|
92275630|NCT02917447|184453787|SUPERIORITY|||||||0.15||||||Omnibus test for difference in change from baseline in PCL by treatment group across the three post-treatment assessments, adjusted for rural/urban status and MST.|Mixed Models Analysis|Fixed effects were study assessment, group, the assessment by group interaction, and covariates. Participant was modeled as a random effect.||||||0.15
92275631|NCT02917447|184453788|SUPERIORITY|||||||0.049||||||Omnibus test for difference in change from baseline in outcome by treatment group across the three post-treatment assessments, adjusted for rural/urban status and MST.|Mixed Models Analysis|Fixed effects were study assessment, group, the assessment by group interaction, and covariates. Participant was modeled as a random effect.||||||.049
92349131|NCT04900272|184602050|OTHER|||||||0.3356|||||||ANOVA|||||||0.3356
92349132|NCT04900272|184602051|OTHER|||||||0.9825|||||||ANOVA|||||||0.9825
92349133|NCT02299167|184602063|OTHER|The ED50% of spinal bupivacaine was estimated using a modified Dixon's up-and-down method|Mean (95% CI) of effective dose in 90% (|1.9|||||TWO_SIDED|95.0|1.7|2.1|||||The ED50% of spinal bupivacaine was estimated using a modified Dixon's up-and-down method|Descriptive statistics were considered to calculate the mathematic mean (SD) of demographic, surgical, and other postoperative continuous data and to calculate the median (range) of sensory and motor block levels, as well as the degree of patient and surgeon satisfaction||2.1|1.7|
92349134|NCT04868682|184602101|SUPERIORITY||Mean Difference (Final Values)|1.28|STANDARD_ERROR_OF_MEAN|0.32||0.0001|TWO_SIDED|95.0|0.65|1.91|||t-test, 2 sided||The parameter estimate is the difference in means (treatment vs. control) during the first 180 nights following randomization.|||1.91|0.65|.0001
92160327|NCT02138916|184208953|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.6782|TWO_SIDED|95.0|-1.08|0.7|||Mixed Models Analysis|Model includes treatment group, baseline CAT total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.70|-1.08|0.6782
92160328|NCT02138916|184208953|SUPERIORITY||Mean Difference (Final Values)|-0.81||||0.0753|TWO_SIDED|95.0|-1.7|0.08|||Mixed Models Analysis|Model includes treatment group, baseline CAT total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.08|-1.70|0.0753
92160329|NCT02138916|184208954|SUPERIORITY||Mean Difference (Final Values)|-0.585||||0.0889|TWO_SIDED|95.0|-1.26|0.089|||Mixed Models Analysis|Model includes treatment group, baseline total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.089|-1.260|0.0889
92160330|NCT02138916|184208954|SUPERIORITY||Mean Difference (Final Values)|-0.703||||0.0413|TWO_SIDED|95.0|-1.378|-0.028|||Mixed Models Analysis|Model includes treatment group, baseline total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.028|-1.378|0.0413
92275632|NCT02917447|184453789|SUPERIORITY|||||||0.92||||||Omnibus test for difference in change from baseline in outcome by treatment group across the three post-treatment assessments, adjusted for rural/urban status and MST.|Mixed Models Analysis|Fixed effects were study assessment, group, the assessment by group interaction, and covariates. Participant was modeled as a random effect.||||||0.92
92275633|NCT01706198|184453790|OTHER||Adjusted Odds Ratio|2.0|||<|0.001|TWO_SIDED|95.0|1.7|2.34||The analysis method was logistic regression adjusted for randomized treatment, asthma maintenance therapy (AMT) at Baseline per randomization stratification, Baseline ACT total score, Baseline ACT total score squared, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care has been presented.|||2.34|1.70|<0.001
92349135|NCT04868682|184602102|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|0.81||0.378|TWO_SIDED|95.0|-2.29|0.87|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 6-months for the treatment group versus the same improvement in respect to the control group.|||0.87|-2.29|0.378
92168660|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.95||0.8714|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Mental Health domain, Week 12 comparison, null hypothesis of no difference||||0.8714
92275634|NCT01706198|184453791|OTHER||Adjusted Odds Ratio|1.92|||<|0.001|TWO_SIDED|95.0|1.67|2.2||Logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, Baseline ACT total score squared, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care for Week 12 has been presented.|||2.20|1.67|<0.001
92349136|NCT04868682|184602103|SUPERIORITY||Mean Difference (Net)|-2.78|STANDARD_ERROR_OF_MEAN|0.72|<|0.001|TWO_SIDED|95.0|-4.09|-1.27|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 6-months for the treatment group versus the same improvement in respect to the control group.|||-1.27|-4.09|<0.001
92349137|NCT04868682|184602104|SUPERIORITY||Median Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.66||0.865|TWO_SIDED|95.0|-1.4|1.18|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 6-months for the treatment group versus the same improvement in respect to the control group.|||1.18|-1.40|0.865
92349138|NCT00063622|184602105|SUPERIORITY_OR_OTHER|||||||0.001||||||Given the fact that there were two planned primary comparisons, Bonferroni-adjusted P values of less than 0.025 were considered to indicate statistical significance.|Mantel Haenszel|||The proportions in each active-treatment group (pioglitazone and vitamin E) in whom there was improvement in non-alcoholic steatohepatitis were compared with the proportion of subjects in the placebo group in whom there was improvement.||||0.001
92349139|NCT00063622|184602105|SUPERIORITY_OR_OTHER|||||||0.04||||||Given the fact that there were two planned primary comparisons, Bonferroni-adjusted P values of less than 0.025 were considered to indicate statistical significance.|Mantel Haenszel|||The proportions in each active-treatment group (pioglitazone and vitamin E) in whom there was improvement in non-alcoholic steatohepatitis were compared with the proportion of subjects in the placebo group in whom there was improvement.||||0.04
92349140|NCT00063622|184602106|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Fisher Exact|||||||0.005
92349141|NCT00063622|184602106|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92160331|NCT02138916|184208955|SUPERIORITY||Mean Difference (Final Values)|-0.348||||0.0728|TWO_SIDED|95.0|-0.728|0.032|||Mixed Models Analysis|Model includes treatment group, baseline rescue med. use, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.032|-0.728|0.0728
92160332|NCT02138916|184208955|SUPERIORITY||Mean Difference (Final Values)|-0.487||||0.0121|TWO_SIDED|95.0|-0.868|-0.107|||Mixed Models Analysis|Model includes treatment group, baseline rescue med. use, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.107|-0.868|0.0121
92160333|NCT02138916|184208956|SUPERIORITY||Mean Difference (Final Values)|-0.041||||0.0235|TWO_SIDED|95.0|-0.077|-0.006|||Mixed Models Analysis|Model includes treatment group, baseline prop. of nights awakens., EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.006|-0.077|0.0235
92160334|NCT02138916|184208956|SUPERIORITY||Mean Difference (Final Values)|-0.044||||0.0158|TWO_SIDED|95.0|-0.08|-0.008|||Mixed Models Analysis|Model includes treatment group, baseline prop. of nights awakens., EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.008|-0.080|0.0158
92160335|NCT02138916|184208960|SUPERIORITY||Rate ratio|1.09||||0.408|TWO_SIDED|95.0|0.89|1.34|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.34|0.89|0.4080
92160336|NCT02138916|184208960|SUPERIORITY||Rate ratio|0.98||||0.8688|TWO_SIDED|95.0|0.8|1.21|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.21|0.80|0.8688
92160337|NCT02138916|184208961|SUPERIORITY||Odds Ratio (OR)|0.9||||0.485|TWO_SIDED|95.0|0.66|1.22|||Cochran-Mantel-Haenszel|CMH test controlling for EOS cohort, region, and background therapy.||Proportion of participants with \>=1 COPD exacerbation.||1.22|0.66|0.4850
92160338|NCT02138916|184208961|SUPERIORITY||Odds Ratio (OR)|0.89||||0.4489|TWO_SIDED|95.0|0.65|1.21|||Cochran-Mantel-Haenszel|CMH test controlling for EOS cohort, region, and background therapy.||Proportion of participants with \>=1 COPD exacerbation.||1.21|0.65|0.4489
92160339|NCT02138916|184208963|SUPERIORITY||Rate ratio|1.06||||0.7733|TWO_SIDED|95.0|0.73|1.53|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, previous year exacerbations associated with hospitalization (Y/N).||||1.53|0.73|0.7733
92160340|NCT02138916|184208963|SUPERIORITY||Rate ratio|0.58||||0.0114|TWO_SIDED|95.0|0.39|0.89|||Nagative binomial|Model includes treatment group, EOS cohort, region, background therapy, previous year exacerbations associated with hospitalization (Y/N).||||0.89|0.39|0.0114
92160341|NCT05750745|184208980|SUPERIORITY||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.096||0.0871|TWO_SIDED|95.0|-0.36|0.02|||Mixed Model with Repeated Measure (MMRM)||Adjusted mean difference was calculated as test minus negative control.|||0.02|-0.36|0.0871
92160342|NCT05750745|184208981|SUPERIORITY||Adjusted Mean Difference|6.21|STANDARD_ERROR_OF_MEAN|3.548||0.0972|TWO_SIDED|95.0|-0.78|13.2|||van Elteren Test|P-value was from the van Elteren test adjusted for Baseline Schiff sensitivity stratification factor.|Adjusted mean difference was calculated as test minus negative control.|||13.20|-0.78|0.0972
92160343|NCT05750745|184208982|SUPERIORITY||Adjusted Mean Difference|-5.81|STANDARD_ERROR_OF_MEAN|3.16||0.0671|TWO_SIDED|95.0|-12.04|0.41|||MMRM||Adjusted mean difference was calculated as test minus negative control.|||0.41|-12.04|0.0671
92160344|NCT05750745|184208983|SUPERIORITY||Adjusted Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.0673|TWO_SIDED|95.0|-0.27|0.01|||MMRM||Adjusted mean difference was calculated as test minus negative control.|||0.01|-0.27|0.0673
92160345|NCT05750745|184208984|SUPERIORITY||Adjusted Mean Difference|2.38|STANDARD_ERROR_OF_MEAN|2.446||0.405|TWO_SIDED|95.0|-2.44|7.2|||van Elteren Test|P-value was from the van Elteren test adjusted for Baseline Schiff sensitivity stratification factor.|Adjusted mean difference was calculated as test minus negative control.|||7.20|-2.44|0.4050
92160346|NCT05750745|184208985|SUPERIORITY||Adjusted Mean Difference|-5.64|STANDARD_ERROR_OF_MEAN|2.656||0.0346|TWO_SIDED|95.0|-10.88|-0.41|||MMRM||Adjusted mean difference was calculated as test minus negative control.|||-0.41|-10.88|0.0346
92160347|NCT05750745|184208986|SUPERIORITY||Adjusted Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.085||0.8256|TWO_SIDED|95.0|-0.15|0.19|||MMRM||Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 6||0.19|-0.15|0.8256
92160348|NCT05750745|184208986|SUPERIORITY||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.117||0.5314|TWO_SIDED|95.0|-0.16|0.3|||MMRM||Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 12||0.30|-0.16|0.5314
92160349|NCT05750745|184208987|SUPERIORITY||Adjusted Mean Difference|-2.59|STANDARD_ERROR_OF_MEAN|2.99||0.5575|TWO_SIDED|95.0|-8.48|3.3|||van Elteren Test|P-value was from the Van Elteren test adjusted for Baseline Schiff sensitivity stratification factor.|Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 6||3.30|-8.48|0.5575
92227301|NCT00927368|184356881|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating needle minus mean stimulating catheter is greater than 0.5 points).|Mean Difference (Final Values)|-0.16|||<|0.001|TWO_SIDED|95.0|-0.61|0.29||Significance criterion of 0.00694 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing stimulating needle to stimulating catheter on the mean time-weighted average pain score for a patient in the first 48 hours.||0.29|-0.61|< 0.001
92349142|NCT00063622|184602107|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Fisher Exact|||||||0.02
92349143|NCT00063622|184602107|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Fisher Exact|||||||0.004
92349144|NCT00063622|184602108|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Fisher Exact|||||||0.01
92349145|NCT00063622|184602108|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Fisher Exact|||||||0.08
92349146|NCT00063622|184602109|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Fisher Exact|||||||0.24
92349147|NCT00063622|184602109|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Fisher Exact|||||||0.12
92349148|NCT00063622|184602110|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Fisher Exact|||||||0.05
92349149|NCT00063622|184602110|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||||||0.001
92349150|NCT02202616|184602115|OTHER||Mean Difference (Final Values)|0.17|STANDARD_DEVIATION|0.34|||TWO_SIDED|95.0|0.14|0.21|||Descriptive Statistics with 95% CI|The mean change from baseline along with the 95% confidence interval used to assess the precision of the estimate||||0.21|0.14|
92349151|NCT02202616|184602116|OTHER||Mean Difference (Final Values)|0.14|STANDARD_DEVIATION|0.278|||TWO_SIDED|95.0|0.11|0.17|||Descriptive Statistics with 95% CI|The mean change from baseline along with the 95% confidence interval used to assess the precision of the estimate||||0.17|0.11|
92349152|NCT02202616|184602117|OTHER||Mean Difference (Final Values)|2.0|STANDARD_DEVIATION|2.47|||TWO_SIDED|95.0|1.74|2.3|||Standard Descriptive Statistics|The estimated mean change from baseline and corresponding 95% confidence intervals will be displayed for each visit.||Week 4||2.30|1.74|
92349153|NCT02202616|184602117|OTHER||Mean Difference (Final Values)|2.5|STANDARD_DEVIATION|2.92|||TWO_SIDED|95.0|2.21|2.85|||Standard Descriptive Statistics|The estimated mean change from baseline and corresponding 95% confidence intervals will be displayed for each visit||Week 16||2.85|2.21|
92349154|NCT02202616|184602118|OTHER||Mean Difference (Final Values)|-5.0|STANDARD_DEVIATION|6.25|||TWO_SIDED|95.0|-5.7|-4.3|||standard descriptive statistics|The estimated mean change from baseline to Week 4 along with the 95% confidence interval||Week 4||-4.3|-5.7|
92349155|NCT02202616|184602118|OTHER||Mean Difference (Final Values)|-6.5|STANDARD_DEVIATION|7.03|||TWO_SIDED|95.0|-7.3|-5.7|||standard descriptive statistics|The estimated mean change from baseline to Week 4 along with the 95% confidence interval||Week 16||-5.7|-7.3|
92349156|NCT04327271|184602128|NON_INFERIORITY|Non-inferiority margin of -0.25% set as lower bound of 95% CI for the maximum mean difference between the proportion of cumulative AEs between control and 2wT arms to conclude that 2wT is non-inferior. This margin was set considering the average AE rate of 0.5% from routine SSA MC programs at scale, and assuming that 2wT increases AE ascertainment to 2.0%, similar to 1.9% of Zimbabwe RCT and the widely-accepted standard 2% AE rate.|Mean Difference (Final Values)|1.2|||||ONE_SIDED|95.0|-0.09|||||||With 10% loss to follow-up (LTFU), a sample size of 1104 men provides at least 80% power to rule out a decrease in AE ascertainment of more than 0.25% based on the lower bound of the one-sided 95% CI. The one tailed alpha was set 0.05.|||-.09|
92349157|NCT04327271|184602129|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.001|TWO_SIDED|95.0|1.03|1.21|||Fisher Exact|||The mean number of in-person clinic visit, excluding non-study visits, were compared between the two arms using a t-test. The proportion of potential AEs was calculated as number of potential AE responses divided by the total number of daily responses (no AE and potential AE). A superiority test was performed on the safety outcomes using a two-sided 95% confidence interval and p-value using Fisher's exact test.||1.21|1.03|0.001
92349158|NCT02903914|184602155|OTHER|||||||0.0731|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.0731
92349159|NCT02903914|184602155|OTHER||pairwise geometric mean ratio (GMR)|0.933|||||TWO_SIDED|90.0|0.784|1.11||||||||1.110|0.784|
92349160|NCT02903914|184602155|OTHER||pairwise GMR|1.074|||||TWO_SIDED|90.0|0.908|1.271||||||||1.271|0.908|
92349161|NCT02903914|184602155|OTHER||pairwise GMR|1.23|||||TWO_SIDED|90.0|1.034|1.463||||||||1.463|1.034|
92349162|NCT02903914|184602156|OTHER|||||||0.1496|||||||Kruskal-Wallis|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.1496
92349163|NCT02903914|184602157|OTHER|||||||0.2867|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.2867
92349164|NCT02903914|184602157|OTHER||pairwise GMR|1.007|||||TWO_SIDED|90.0|0.825|1.23||||||||1.230|0.825|
92349165|NCT02903914|184602157|OTHER||pairwise GMR|1.081|||||TWO_SIDED|90.0|0.892|1.311||||||||1.311|0.892|
92349166|NCT02903914|184602157|OTHER||pairwise GMR|1.234|||||TWO_SIDED|90.0|1.011|1.507||||||||1.507|1.011|
92349167|NCT02903914|184602158|OTHER|||||||0.6167|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.6167
92349168|NCT02903914|184602158|OTHER||pairwise GMR|1.014|||||TWO_SIDED|90.0|0.82|1.255||||||||1.255|0.820|
92349169|NCT02903914|184602158|OTHER||pairwise GMR|1.043|||||TWO_SIDED|90.0|0.849|1.281||||||||1.281|0.849|
92349170|NCT02903914|184602158|OTHER||pairwise GMR|1.17|||||TWO_SIDED|90.0|0.945|1.447||||||||1.447|0.945|
92349171|NCT02903914|184602162|OTHER|||||||0.0745|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.0745
92349172|NCT02903914|184602162|OTHER||pairwise GMR|1.127|||||TWO_SIDED|90.0|0.947|1.341||||||||1.341|0.947|
92349173|NCT02903914|184602162|OTHER||pairwise GMR|0.991|||||TWO_SIDED|90.0|0.833|1.18||||||||1.180|0.833|
92349174|NCT02903914|184602162|OTHER||pairwise GMR|1.258|||||TWO_SIDED|90.0|1.064|1.486||||||||1.486|1.064|
92349175|NCT02903914|184602163|OTHER|||||||0.0518|||||||Kruskal-Wallis|||||||0.0518
92349176|NCT02903914|184602164|OTHER|||||||0.1723|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.1723
92349177|NCT02903914|184602164|OTHER||pairwise GMR|1.156|||||TWO_SIDED|90.0|0.941|1.42||||||||1.420|0.941|
92349178|NCT02903914|184602164|OTHER||pairwise GMR|0.976|||||TWO_SIDED|90.0|0.794|1.198||||||||1.198|0.794|
92349179|NCT02903914|184602164|OTHER||pairwise GMR|1.233|||||TWO_SIDED|90.0|1.012|1.503||||||||1.503|1.012|
92349180|NCT02903914|184602165|OTHER|||||||0.1705|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.1705
92400262|NCT00286468|184692073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.1||||0.03|TWO_SIDED|95.0|-19.2|-1.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-1.0|-19.2|0.030
92400263|NCT00286468|184692073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.7||||0.012|TWO_SIDED|95.0|-20.8|-2.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-2.5|-20.8|0.012
92400264|NCT00286468|184692074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.701|TWO_SIDED|95.0|-11.6|7.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.8|-11.6|0.701
92349181|NCT02903914|184602165|OTHER||pairwise GMR|1.083|||||TWO_SIDED|90.0|0.863|1.359||||||||1.359|0.863|
92349182|NCT02903914|184602165|OTHER||pairwise GMR|0.902|||||TWO_SIDED|90.0|0.719|1.132||||||||1.132|0.719|
92400265|NCT00286468|184692074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0||||0.228|TWO_SIDED|95.0|-15.7|3.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.7|-15.7|0.228
92400266|NCT00286468|184692075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0||||0.097|TWO_SIDED|95.0|-19.6|1.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.6|-19.6|0.097
92160350|NCT05750745|184208987|SUPERIORITY||Adjusted Mean Difference|-1.12|STANDARD_ERROR_OF_MEAN|4.308||0.7717|TWO_SIDED|95.0|-9.6|7.37|||van Elteren Test|P-value was from the van Elteren test adjusted for Baseline Schiff sensitivity stratification factor.|Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 12||7.37|-9.60|0.7717
92160351|NCT05750745|184208988|SUPERIORITY||Adjusted Mean Difference|0.75|STANDARD_ERROR_OF_MEAN|3.235||0.818|TWO_SIDED|95.0|-5.63|7.12|||MMRM||Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 6||7.12|-5.63|0.8180
92349183|NCT02903914|184602165|OTHER||pairwise GMR|1.212|||||TWO_SIDED|90.0|0.945|1.554||||||||1.554|0.945|
92160352|NCT05750745|184208988|SUPERIORITY||Adjusted Mean Difference|3.73|STANDARD_ERROR_OF_MEAN|3.834||0.3322|TWO_SIDED|95.0|-3.83|11.28|||MMRM||Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 12||11.28|-3.83|0.3322
92160353|NCT04888585|184209010|SUPERIORITY||Response Rate Difference|21.2|||<|0.001|TWO_SIDED|95.0|11.5|31.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||31.0|11.5|<0.001
92160354|NCT04888585|184209010|SUPERIORITY||Response Rate Difference|26.6|||<|0.001|TWO_SIDED|95.0|16.5|36.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||36.7|16.5|<0.001
92160355|NCT04888585|184209010|SUPERIORITY||Response Rate Difference|37.7|||<|0.001|TWO_SIDED|95.0|27.4|48.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||48.1|27.4|<0.001
92160356|NCT04888585|184209010|SUPERIORITY||Response Rate Difference|23.2|||<|0.001|TWO_SIDED|95.0|13.8|32.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||32.6|13.8|<0.001
92349184|NCT02903914|184602169|OTHER||pairwise GMR|1.057||||0.7702|TWO_SIDED|90.0|0.753|1.483|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.483|0.753|0.7702
92349185|NCT02903914|184602169|OTHER||pairwise GMR|1.012||||0.9384|TWO_SIDED|90.0|0.762|1.346|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.346|0.762|0.9384
92349186|NCT02903914|184602169|OTHER||pairwise GMR|1.07||||0.6733|TWO_SIDED|90.0|0.809|1.415|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.415|0.809|0.6733
92349187|NCT02903914|184602169|OTHER||pairwise GMR|1.238||||0.3456|TWO_SIDED|90.0|0.83|1.847|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.847|0.830|0.3456
92400267|NCT00286468|184692075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.3||||0.014|TWO_SIDED|95.0|-23.9|-2.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-2.7|-23.9|0.014
92400268|NCT00286468|184692076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.8||||0.241|TWO_SIDED|95.0|-18.3|4.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.6|-18.3|0.241
92349188|NCT02903914|184602170|OTHER|||||||0.0441|||||||Wilcoxon (Mann-Whitney)|||Fed versus Fasted||||0.0441
92349189|NCT02903914|184602170|OTHER|||||||0.4092|||||||Wilcoxon (Mann-Whitney)|||Fed versus Fasted||||0.4092
92349190|NCT02903914|184602170|OTHER|||||||0.7748|||||||Wilcoxon (Mann-Whitney)|||Fed versus Fasted||||0.7748
92349191|NCT02903914|184602170|OTHER|||||||0.1948|||||||Wilcoxon (Mann-Whitney)|||Fed versus Fasted||||0.1948
92160357|NCT04888585|184209011|SUPERIORITY||Least Squares (LS) Mean Difference|-0.51||||0.007|TWO_SIDED|95.0|-0.87|-0.14|||Mixed Models Analysis|MMRM includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 40mg - Placebo|||-0.14|-0.87|0.007
92160358|NCT04888585|184209011|SUPERIORITY||Least Squares (LS) Mean Difference|-1.01|||<|0.001|TWO_SIDED|95.0|-1.38|-0.64|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||-0.64|-1.38|<0.001
92160359|NCT04888585|184209011|SUPERIORITY||Least Squares (LS) Mean Difference|-1.42|||<|0.001|TWO_SIDED|95.0|-1.8|-1.05|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||-1.05|-1.80|<0.001
92160360|NCT04888585|184209011|SUPERIORITY||Least Squares (LS) Mean Difference|-0.62|||<|0.001|TWO_SIDED|95.0|-0.99|-0.26|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340 E4W - Placebo|||-0.26|-0.99|<0.001
92160361|NCT04888585|184209012|SUPERIORITY||Least Squares (LS) Mean Difference|-4.56||||0.014|TWO_SIDED|95.0|-8.21|-0.92|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||-0.92|-8.21|0.014
92160362|NCT04888585|184209012|SUPERIORITY||Least Squares (LS) Mean Difference|-8.01|||<|0.001|TWO_SIDED|95.0|-11.7|-4.31|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||-4.31|-11.70|<0.001
92160363|NCT04888585|184209012|SUPERIORITY||Least Squares (LS) Mean Difference|-11.41|||<|0.001|TWO_SIDED|95.0|-15.1|-7.73|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||-7.73|-15.10|<0.001
92160364|NCT04888585|184209012|SUPERIORITY||Least Squares (LS) Mean Difference|-5.29||||0.004|TWO_SIDED|95.0|-8.89|-1.69|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||-1.69|-8.89|0.004
92160365|NCT04888585|184209013|SUPERIORITY||Response Rate Difference|24.7|||<|0.001|TWO_SIDED|95.0|12.1|37.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||37.3|12.1|<0.001
92160366|NCT04888585|184209013|SUPERIORITY||Response Rate Difference|30.2|||<|0.001|TWO_SIDED|95.0|17.4|42.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||42.9|17.4|<0.001
92160367|NCT04888585|184209013|SUPERIORITY||Response Rate Difference|45.4|||<|0.001|TWO_SIDED|95.0|33.5|57.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||57.4|33.5|<0.001
92160368|NCT04888585|184209013|SUPERIORITY||Response Rate Difference|24.6|||<|0.001|TWO_SIDED|95.0|11.9|37.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||37.3|11.9|<0.001
92160369|NCT04888585|184209014|SUPERIORITY||Response Rate Difference|6.5||||0.031|TWO_SIDED|95.0|0.6|12.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||12.4|0.6|0.031
92160370|NCT04888585|184209014|SUPERIORITY||Response Rate Difference|9.8||||0.007|TWO_SIDED|95.0|2.7|17.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||17.0|2.7|0.007
92160371|NCT04888585|184209014|SUPERIORITY||Response Rate Difference|10.9||||0.004|TWO_SIDED|95.0|3.6|18.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||18.2|3.6|0.004
92160372|NCT04888585|184209014|SUPERIORITY||Response Rate Difference|0.9||||0.709|TWO_SIDED|95.0|-4.0|5.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||5.9|-4.0|0.709
92160373|NCT04888585|184209015|SUPERIORITY||Response Rate Difference|16.9||||0.006|TWO_SIDED|95.0|4.9|28.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||28.9|4.9|0.006
92160374|NCT04888585|184209015|SUPERIORITY||Response Rate Difference|25.8|||<|0.001|TWO_SIDED|95.0|13.5|38.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||38.1|13.5|<0.001
92160375|NCT04888585|184209015|SUPERIORITY||Response Rate Difference|31.5|||<|0.001|TWO_SIDED|95.0|18.9|44.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||44.2|18.9|<0.001
92160376|NCT04888585|184209015|SUPERIORITY||Response Rate Difference|23.2|||<|0.001|TWO_SIDED|95.0|11.0|35.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||35.4|11.0|<0.001
92160377|NCT04888585|184209016|SUPERIORITY||Response Rate Difference|14.1||||0.022|TWO_SIDED|95.0|2.0|26.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||26.2|2.0|0.022
92160378|NCT04888585|184209016|SUPERIORITY||Response Rate Difference|22.8|||<|0.001|TWO_SIDED|95.0|10.0|35.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||35.5|10.0|<0.001
92160379|NCT04888585|184209016|SUPERIORITY||Response Rate Difference|24.3|||<|0.001|TWO_SIDED|95.0|11.6|37.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||37.0|11.6|<0.001
92349192|NCT02903914|184602171|OTHER||pairwise GMR|0.92||||0.705|TWO_SIDED|90.0|0.62|1.363|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.363|0.620|0.7050
92349193|NCT02903914|184602171|OTHER||pairwise GMR|0.929||||0.703|TWO_SIDED|90.0|0.658|1.31|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.310|0.658|0.7030
92349194|NCT02903914|184602171|OTHER||pairwise GMR|0.999||||0.9952|TWO_SIDED|90.0|0.725|1.377|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.377|0.725|0.9952
92349195|NCT02903914|184602171|OTHER||pairwise GMR|0.742||||0.4012|TWO_SIDED|90.0|0.394|1.397|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.397|0.394|0.4012
92349196|NCT02903914|184602172|OTHER||pairwise GMR|0.992||||0.9623|TWO_SIDED|90.0|0.729|1.349|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = formulation)||Tablet (test) versus Capsule (reference)||1.349|0.729|0.9623
92349197|NCT02903914|184602173|OTHER|||||||0.754|||||||Wilcoxon (Mann-Whitney)|||Tablet (test) versus Capsule (reference)||||0.7540
92349198|NCT02903914|184602174|OTHER||pairwise GMR|0.951||||0.7514|TWO_SIDED|90.0|0.718|1.261|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||Tablet (test) versus Capsule (reference)||1.261|0.718|0.7514
92349199|NCT02903914|184602175|OTHER||pairwise GMR|0.954||||0.7707|TWO_SIDED|90.0|0.712|1.277|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = formulation)||Tablet (test) versus Capsule (reference)||1.277|0.712|0.7707
92349200|NCT05177094|184602237|SUPERIORITY||Posterior Mean Difference|-0.15|||||TWO_SIDED|95.0|-0.7|0.4|||||Posterior mean difference with 95% credible interval is reported.|||0.40|-0.70|
92349201|NCT05177094|184602238|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.66|0.64|||||Posterior mean difference with 95% credible interval is reported.|||0.64|-0.66|
92349202|NCT05177094|184602239|SUPERIORITY||Posterior Mean Difference|-0.13|||||TWO_SIDED|95.0|-0.72|0.46|||||Posterior mean difference with 95% credible interval is reported.|||0.46|-0.72|
92349203|NCT05177094|184602240|SUPERIORITY||Posterior Mean Difference|-0.26|||||TWO_SIDED|95.0|-0.98|0.46|||||Posterior mean difference with 95% credible interval is reported.|||0.46|-0.98|
92400269|NCT00286468|184692076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.5||||0.072|TWO_SIDED|95.0|-22.0|0.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.9|-22.0|0.072
92349204|NCT05177094|184602241|SUPERIORITY||Posterior Mean Difference|-0.22|||||TWO_SIDED|95.0|-0.61|0.18|||||Posterior mean difference with 95% credible interval is reported.|||0.18|-0.61|
92349205|NCT05177094|184602242|SUPERIORITY||Posterior Mean Difference|-0.17|||||TWO_SIDED|95.0|-0.58|0.24|||||Posterior mean difference with 95% credible interval is reported.|||0.24|-0.58|
92349206|NCT05177094|184602243|SUPERIORITY||Posterior Mean Difference|-0.12|||||TWO_SIDED|95.0|-0.68|0.45|||||Posterior mean difference with 95% credible interval is reported.|||0.45|-0.68|
92349207|NCT05177094|184602244|SUPERIORITY||Posterior Mean Difference|0.06|||||TWO_SIDED|95.0|-0.65|0.77|||||Posterior mean difference with 95% credible interval is reported.|||0.77|-0.65|
92349208|NCT05177094|184602245|SUPERIORITY||Posterior Mean Difference|-3.09|||||TWO_SIDED|95.0|-10.43|4.28|||||Posterior mean difference with 95% credible interval is reported.|||4.28|-10.43|
92349209|NCT05177094|184602246|SUPERIORITY||Posterior Mean Difference|-1.5|||||TWO_SIDED|95.0|-10.04|7.0|||||Posterior mean difference with 95% credible interval is reported.|||7.00|-10.04|
92349210|NCT05177094|184602247|SUPERIORITY||Posterior Mean Difference|0.12|||||TWO_SIDED|95.0|-0.32|0.54|||||Posterior mean difference with 95% credible interval is reported.|||0.54|-0.32|
92349211|NCT05177094|184602248|SUPERIORITY||Posterior Mean Difference|0.2|||||TWO_SIDED|95.0|-0.24|0.65|||||Posterior mean difference with 95% credible interval is reported.|||0.65|-0.24|
92349212|NCT05177094|184602249|SUPERIORITY||Posterior Mean Difference|44.36|||||TWO_SIDED|95.0|-114.73|204.0|||||Posterior mean difference with 95% credible interval is reported.|||204.00|-114.73|
92349213|NCT05177094|184602250|SUPERIORITY||Posterior Mean Difference|-98.76|||||TWO_SIDED|95.0|-231.86|34.49|||||Posterior mean difference with 95% credible interval is reported.|||34.49|-231.86|
92400270|NCT00286468|184692077|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.775||||0.338|TWO_SIDED|95.0|0.46|1.306||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||1.306|0.460|0.338
92349214|NCT05177094|184602251|SUPERIORITY||Posterior Mean Difference|0.01|||||TWO_SIDED|95.0|-0.05|0.07|||||Posterior mean difference with 95% credible interval is reported.|||0.07|-0.05|
92349215|NCT05177094|184602252|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.09|0.08|||||Posterior mean difference with 95% credible interval is reported.|||0.08|-0.09|
92349216|NCT03487445|184602315|SUPERIORITY|The statistical analysis comprised a 2-step testing strategy. The first test, carried out at an alpha level of 0.025, determined whether the proportion of responders (patients with a PRU value \<100) was ≥ 50% (null hypothesis: proportion of responders \<50%) and is reported below. The second step for the Selatogrel 8 mg is described in statistical analysis 2: In this second analysis the subsequent null hypothesis of treatment effect less or equal to 85% was tested for the 8 mg dose.|||||<|0.001||||||P-value for hypotheses (H0: p \<= 50% vs. H1: p \> 50%)|one-sided z-test|A p-value significance level was set to 0.025.||The main analysis (mFAS, treatment dose as received) of treatment effect on the primary endpoint was conducted independently for each dose.||||<0.001
92349217|NCT03487445|184602315|SUPERIORITY|This statistical analysis reports the second of the 2-step testing strategy. This second test for the 8 mg Selatogrel dose, carried out at an alpha level of 0.025, determined whether the proportion of responders (patients with a PRU value \<100) was ≥ 85% (null hypothesis: proportion of responders \<85%).||||||0.142||||||P-value for hypotheses (H0: p \<= 85% vs. H1: p \> 85%)|one-sided z-test|A p-value significance level was set to 0.025, an overall level of 0.05 and adjusted for multiplicity using the Bonferroni approach.||The main analysis (mFAS, treatment dose as received) of treatment effect on the primary endpoint was conducted independently for each dose.||||0.142
92400271|NCT00286468|184692077|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.521||||0.016|TWO_SIDED|95.0|0.306|0.887||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.887|0.306|0.016
92400272|NCT00286468|184692078|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.374||||0.003|TWO_SIDED|95.0|0.194|0.72||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.720|0.194|0.003
92400273|NCT00286468|184692078|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.372||||0.003|TWO_SIDED|95.0|0.193|0.718||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.718|0.193|0.003
92400274|NCT00286468|184692079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.923|TWO_SIDED|95.0|-6.1|6.7||No multiplicity adjustments.|Regression, Logistic|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.7|-6.1|0.923
92160380|NCT04888585|184209016|SUPERIORITY||Response Rate Difference|12.6||||0.042|TWO_SIDED|95.0|0.5|24.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||24.7|0.5|0.042
92275635|NCT01706198|184453791|OTHER||Adjusted Odds Ratio|1.66|||<|0.001|TWO_SIDED|95.0|1.45|1.91||Logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, Baseline ACT total score squared, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care for Week 40 has been presented.|||1.91|1.45|<0.001
92349218|NCT03487445|184602315|SUPERIORITY|The statistical analysis comprised a 2-step testing strategy. The first test, carried out at an alpha level of 0.025, determined whether the proportion of responders (patients with a PRU value \<100) was ≥ 50% (null hypothesis: proportion of responders \<50%) and is reported below. The second step for the Selatogrel 16 mg is described in statistical analysis 4: In this second analysis the subsequent null hypothesis of treatment effect less or equal to 85% was tested for the 16 mg dose.|||||<|0.0001||||||P-value for hypotheses (H0: p \<= 50% vs. H1: p \> 50%)|one-sided z-test|A p-value significance level was set to 0.025.||The main analysis (mFAS, treatment dose as received) of treatment effect on the primary endpoint was conducted independently for each dose.||||<0.0001
92349219|NCT03487445|184602315|SUPERIORITY|This statistical analysis reports the second of the 2-step testing strategy. This second test for the 16 mg Selatogrel dose, carried out at an alpha level of 0.025, determined whether the proportion of responders (patients with a PRU value \<100) was ≥ 85% (null hypothesis: proportion of responders \<85%).||||||0.009||||||P-value for hypotheses (H0: p \<= 85% vs. H1: p \> 85%)|one-sided z-test|A p-value significance level was set to 0.025, an overall level of 0.05 and adjusted for multiplicity using the Bonferroni approach.||The main analysis (mFAS, treatment dose as received) of treatment effect on the primary endpoint was conducted independently for each dose.||||0.009
92349220|NCT03487445|184602316|SUPERIORITY|||||||0.228||||||P-value for hypotheses (H0: p \<= 85% versus H1: p \> 85%)|One-sided Z-test|||As per the main analysis (mFAS) the supporting analysis on the per-protocol set this analysis of treatment effect was conducted independently for each dose, i.e., 8 and 16 mg.||||0.2280
92349221|NCT03487445|184602316|SUPERIORITY|||||||0.0201||||||P-value for hypotheses (H0: p \<= 85% versus H1: p \> 85%)|One-sided Z-test|||As per the main analysis (mFAS) the supporting analysis on the per-protocol set this analysis of treatment effect was conducted independently for each dose, i.e., 8 and 16 mg.||||0.0201
92349222|NCT02320175|184602340|OTHER|We compared percent top-box experience ratings pre- vs. post-intervention using a GEE chi-squared test for binary outcomes, clustered by site. Top-box score was calculated as the percentage of participants that gave the top-most response for the given survey item (e.g., 5=Extremely; 5=Excellent). Missing data was accounted for through use of multiple imputations appropriate for missing data in clustered studies.|||||<|0.05|||||||GEE chi-squared test for binary outcomes|||||||<.05
92349223|NCT00373672|184602418|SUPERIORITY||||||<|0.016|||||||t-test, 2 sided|||Treatment effects were analyzed using a repeated measures analysis of variance model with time (baseline, 6 weeks) as the within-subjects factor and treatment group (armodafinil, placebo) as the between-subjects factor.||||<0.016
92349224|NCT04871074|184602419|SUPERIORITY|||||||0.74|||||||DeLong's Test|||||||.74
92400275|NCT00286468|184692079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.259|TWO_SIDED|95.0|-2.7|10.1||No multiplicity adjustments.|Regression, Logistic|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||10.1|-2.7|0.259
92400276|NCT00286468|184692080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.916|TWO_SIDED|95.0|-6.6|5.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.9|-6.6|0.916
92160381|NCT04888585|184209017|SUPERIORITY||Response Rate Difference|5.1||||0.296|TWO_SIDED|95.0|-4.4|14.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||14.6|-4.4|0.296
92160382|NCT04888585|184209017|SUPERIORITY||Response Rate Difference|19.5|||<|0.001|TWO_SIDED|95.0|8.7|30.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||30.2|8.7|<0.001
92349225|NCT04871074|184602420|SUPERIORITY|||||||0.66|||||||DeLong's Test|||||||.66
92349226|NCT04871074|184602421|SUPERIORITY|||||||0.135|||||||Mixed Models Analysis|Linear mixed effects model, fixed effects coefficient test with a Wald test||||||.135
92349227|NCT04871074|184602425|SUPERIORITY|||||||0.39|||||||Mixed Models Analysis|Fixed effects estimate, Wald test||||||.39
92349228|NCT04132050|184602438|SUPERIORITY||Difference in Percent of Participants|36.4||||0.03|TWO_SIDED|95.0|3.1|59.3|||Fisher Exact||"The difference in the achievement rate of Stable platelet response (= platelet count of ≥ 50000/μL at 4 or more of the 6 visits from Weeks 14 to 24) between two groups and its two-sided 95% CI were calculated."|||59.3|3.1|0.030
92349229|NCT02516241|184602487|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0751|TWO_SIDED|98.66|0.688|1.063||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.063|0.688|0.0751
92349230|NCT02516241|184602488|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.3039|TWO_SIDED|96.99|0.695|1.139||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.139|0.695|0.3039
92349231|NCT02516241|184602489|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.8637|TWO_SIDED|95.0|0.83|1.169||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.169|0.830|0.8637
92349232|NCT02516241|184602490|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0091|TWO_SIDED|95.0|0.589|0.928||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||0.928|0.589|0.0091
92349233|NCT02516241|184602491|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7599|TWO_SIDED|95.0|0.799|1.359||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.359|0.799|0.7599
92349234|NCT02516241|184602491|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.4424|TWO_SIDED|95.0|0.692|1.175||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|monotherapy as reference.||1.175|0.692|0.4424
92349235|NCT02516241|184602495|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.2579|TWO_SIDED|95.0|0.931|1.304||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.304|0.931|0.2579
92160383|NCT04888585|184209017|SUPERIORITY||Response Rate Difference|25.5|||<|0.001|TWO_SIDED|95.0|14.3|36.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||36.7|14.3|<0.001
92160384|NCT04888585|184209017|SUPERIORITY||Response Rate Difference|14.1||||0.007|TWO_SIDED|95.0|3.8|24.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||24.5|3.8|0.007
92160385|NCT04888585|184209018|SUPERIORITY||Response Rate Difference|7.1||||0.017|TWO_SIDED|95.0|1.3|13.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||13.0|1.3|0.017
92349236|NCT02516241|184602495|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.0008|TWO_SIDED|95.0|1.124|1.567||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.567|1.124|0.0008
92349237|NCT02516241|184602496|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.2395|TWO_SIDED|95.0|0.705|1.091||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.091|0.705|0.2395
92400277|NCT00286468|184692080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.305|TWO_SIDED|95.0|-3.0|9.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||9.5|-3.0|0.305
92349238|NCT02516241|184602496|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.2431|TWO_SIDED|95.0|0.917|1.406||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.406|0.917|0.2431
92349239|NCT02516241|184602497|SUPERIORITY||Hazard Ratio (HR)|1.53||||0.0014|TWO_SIDED|95.0|1.177|1.99||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.990|1.177|0.0014
92349240|NCT02516241|184602497|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6236|TWO_SIDED|95.0|0.729|1.209||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|monotherapy as reference.||1.209|0.729|0.6236
92349241|NCT02516241|184602501|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0477|TWO_SIDED|95.0|0.683|0.998||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||0.998|0.683|0.0477
92349242|NCT02516241|184602501|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.7885|TWO_SIDED|95.0|0.809|1.175||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.175|0.809|0.7885
92349243|NCT02516241|184602502|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0053|TWO_SIDED|95.0|0.549|0.901||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||0.901|0.549|0.0053
92349244|NCT02516241|184602502|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.1336|TWO_SIDED|95.0|0.651|1.059||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.059|0.651|0.1336
92349245|NCT02516241|184602503|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.8148|TWO_SIDED|95.0|0.772|1.391||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.391|0.772|0.8148
92349246|NCT02516241|184602503|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.2684|TWO_SIDED|95.0|0.636|1.134||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|monotherapy as reference.||1.134|0.636|0.2684
92349247|NCT02516241|184602504|SUPERIORITY||Odds Ratio (OR)|0.58||||0.0005|TWO_SIDED|95.0|0.422|0.788||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.788|0.422|0.0005
92349248|NCT02516241|184602504|SUPERIORITY||Odds Ratio (OR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.253|0.485||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.485|0.253|<0.0001
92349249|NCT02516241|184602505|SUPERIORITY||Odds Ratio (OR)|0.94||||0.7708|TWO_SIDED|95.0|0.639|1.394||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||1.394|0.639|0.7708
92349250|NCT02516241|184602505|SUPERIORITY||Odds Ratio (OR)|0.41|||<|0.0001|TWO_SIDED|95.0|0.268|0.61||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.610|0.268|<0.0001
92400278|NCT00286468|184692081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.953|TWO_SIDED|95.0|-6.1|5.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.8|-6.1|0.953
92400279|NCT00286468|184692081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.957|TWO_SIDED|95.0|-6.1|5.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.8|-6.1|0.957
92160386|NCT04888585|184209018|SUPERIORITY||Response Rate Difference|2.0||||0.424|TWO_SIDED|95.0|-2.8|6.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||6.8|-2.8|0.424
92160387|NCT04888585|184209018|SUPERIORITY||Response Rate Difference|2.6||||0.303|TWO_SIDED|95.0|-2.3|7.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||7.5|-2.3|0.303
92160388|NCT04888585|184209018|SUPERIORITY||Response Rate Difference|1.3||||0.551|TWO_SIDED|95.0|-2.9|5.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340 E4W - Placebo|||5.4|-2.9|0.551
92219114|NCT02445651|184338995|OTHER|Correlation coefficient: The correlation between the pre-to-post change in UPDRS and the imaging findings of DAT binding in the caudate and putamen, as well as SERT binding in the midbrain, was evaluated using both Pearson and Spearman correlation coefficients to confirm any findings using both methods. Analysis of UPDRS total scores, pre-to post differences were compared between NAC and controls study groups using 2-sample t-test.||||||0.05||||||P value adjusted for multiple comparisons. Threshold, for a 5-10% improvement in oral and IV NAC cohort for an 80% power to detect a significant change of P = 0.05. for sample size \~ 28 subjects in the NAC arm and \~ 14 subjects in the control arm.|5-10% improvement in the oral and IV NAC|Threshold, for a 5-10% improvement in oral and IV NAC cohort for an 80% power to detect a significant change of P = 0.05.|||The primary analysis of dopamine and midbrain serotonin uptake measures from DaTscan was performed using separate linear mixed effect (LME) models with random subject effect. This method differs from a repeated measures analysis of variance because the LME is a statistical model that has both fixed effects and random effects.|||0.05
92219115|NCT02445651|184338995|OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
92219116|NCT02445651|184338995|OTHER|The primary analysis of dopamine and midbrain serotonin uptake measures from DaTscan was performed using separate linear mixed effect (LME) models with random subject effect. This method differs from a repeated measures analysis of variance because the LME is a statistical model that has both fixed effects and random effects.||||||0.05||||||For a 5-10% improvement in the oral and IV NAC cohort for an 80% power to detect a significant change of P = 0.05. for sample size \~ 28 subjects in the NAC arm and \~ 14 subjects in the control arm.|t-test, 2 sided|Correlation coefficient: pre-to-post evaluated using Pearson and Spearman correlation coefficients to confirm any findings.||||||0.05
92219117|NCT00829179|184339017|SUPERIORITY_OR_OTHER||Difference in Mean|11.0|STANDARD_DEVIATION|13.3||0.005||95.0|||||Sign test|||||||0.005
92219118|NCT02018822|184339024|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.2552|||||||Chi-squared|||||||0.2552
92219119|NCT02018822|184339025|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.2235|||||||Chi-squared|||||||0.2235
92349251|NCT02516241|184602506|SUPERIORITY||Odds Ratio (OR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.135|0.406||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.406|0.135|<0.0001
92349252|NCT02516241|184602506|SUPERIORITY||Odds Ratio (OR)|0.86||||0.6195|TWO_SIDED|95.0|0.469|1.566||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|monotherapy as reference.||1.566|0.469|0.6195
92349253|NCT02516241|184602508|SUPERIORITY||Odds Ratio (OR)|0.56||||0.0002|TWO_SIDED|95.0|0.41|0.759||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.759|0.410|0.0002
92349254|NCT02516241|184602508|SUPERIORITY||Odds Ratio (OR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.267|0.5||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.500|0.267|<0.0001
92400280|NCT00286468|184692082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.908|TWO_SIDED|95.0|-5.9|6.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.6|-5.9|0.908
92349255|NCT02516241|184602509|SUPERIORITY||Odds Ratio (OR)|0.87||||0.4959|TWO_SIDED|95.0|0.59|1.291||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||1.291|0.590|0.4959
92400281|NCT00286468|184692082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.826|TWO_SIDED|95.0|-5.6|7.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.0|-5.6|0.826
92275636|NCT01706198|184453791|OTHER||Adjusted Odds Ratio|1.76|||<|0.001|TWO_SIDED|95.0|1.54|2.02||Logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, Baseline ACT total score squared, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care for Week 52 has been presented.|||2.02|1.54|<0.001
92219120|NCT02018822|184339026|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.3891|||||||Chi-squared|||||||0.3891
92219121|NCT02018822|184339027|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.3883|||||||Chi-squared|||||||0.3883
92349256|NCT02516241|184602509|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0001|TWO_SIDED|95.0|0.305|0.679||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.679|0.305|0.0001
92349257|NCT02516241|184602510|SUPERIORITY||Odds Ratio (OR)|0.27|||<|0.0001|TWO_SIDED|95.0|0.16|0.448||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.448|0.160|<0.0001
92349258|NCT02516241|184602510|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8074|TWO_SIDED|95.0|0.623|1.836||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|monotherapy as reference.||1.836|0.623|0.8074
92349259|NCT02516241|184602511|SUPERIORITY||Odds Ratio (OR)|0.59||||0.0008|TWO_SIDED|95.0|0.432|0.802||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.802|0.432|0.0008
92349260|NCT02516241|184602511|SUPERIORITY||Odds Ratio (OR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.27|0.512||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.512|0.270|<0.0001
92349261|NCT02516241|184602512|SUPERIORITY||Odds Ratio (OR)|0.94||||0.7717|TWO_SIDED|95.0|0.639|1.394||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||1.394|0.639|0.7717
92349262|NCT02516241|184602512|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0001|TWO_SIDED|95.0|0.303|0.682||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.682|0.303|0.0001
92349263|NCT02516241|184602513|SUPERIORITY||Odds Ratio (OR)|0.26|||<|0.0001|TWO_SIDED|95.0|0.151|0.439||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.439|0.151|<0.0001
92349264|NCT02516241|184602513|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9692|TWO_SIDED|95.0|0.556|1.759||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|monotherapy as reference.||1.759|0.556|0.9692
92349265|NCT02516241|184602521|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.1617|TWO_SIDED|95.0|-0.6|3.59||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||3.59|-0.6|0.1617
92400282|NCT00286468|184692083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.894|TWO_SIDED|95.0|-5.9|6.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.8|-5.9|0.894
92400283|NCT00286468|184692083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.432|TWO_SIDED|95.0|-3.8|8.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||8.9|-3.8|0.432
92160389|NCT04888585|184209019|SUPERIORITY||Least Squares (LS) Mean Difference|-0.18||||0.022|TWO_SIDED|95.0|-0.33|-0.03|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|ABBV-154 40mg EOW - Placebo|||-0.03|-0.33|0.022
92160390|NCT04888585|184209019|SUPERIORITY||Least Squares (LS) Mean Difference|-0.25||||0.001|TWO_SIDED|95.0|-0.41|-0.1|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||-0.10|-0.41|0.001
92160391|NCT04888585|184209019|SUPERIORITY||Least Squares (LS) Mean Difference|-0.32|||<|0.001|TWO_SIDED|95.0|-0.48|-0.17|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||-0.17|-0.48|<0.001
92160392|NCT04888585|184209019|SUPERIORITY||Least Squares (LS) Mean Difference|-0.21||||0.007|TWO_SIDED|95.0|-0.36|-0.06|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||-0.06|-0.36|0.007
92349266|NCT02516241|184602521|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.0578|TWO_SIDED|95.0|-0.07|4.29||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||4.29|-0.07|0.0578
92349267|NCT02516241|184602521|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.2003|TWO_SIDED|95.0|-0.91|4.32||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||4.32|-0.91|0.2003
92349268|NCT02516241|184602521|SUPERIORITY||Mean Difference (Final Values)|3.3||||0.0178|TWO_SIDED|95.0|0.57|6.0||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||6.00|0.57|0.0178
92349269|NCT02516241|184602521|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.3765|TWO_SIDED|95.0|-1.96|5.17||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||5.17|-1.96|0.3765
92349270|NCT02516241|184602521|SUPERIORITY||Mean Difference (Final Values)|4.1||||0.03|TWO_SIDED|95.0|0.4|7.81||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||7.81|0.40|0.0300
92349271|NCT02516241|184602522|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.1373|TWO_SIDED|95.0|-0.6|4.36||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||4.36|-0.6|0.1373
92349272|NCT02516241|184602522|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.0034|TWO_SIDED|95.0|1.26|6.27||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||6.27|1.26|0.0034
92349273|NCT02516241|184602522|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.1774|TWO_SIDED|95.0|-1.0|5.39||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||5.39|-1.00|0.1774
92349274|NCT02516241|184602522|SUPERIORITY||Mean Difference (Final Values)|5.4||||0.0011|TWO_SIDED|95.0|2.19|8.65||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||8.65|2.19|0.0011
92349275|NCT02516241|184602522|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.3494|TWO_SIDED|95.0|-2.27|6.38||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||6.38|-2.27|0.3494
92349276|NCT02516241|184602522|SUPERIORITY||Mean Difference (Final Values)|7.3||||0.0011|TWO_SIDED|95.0|2.96|11.71||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||11.71|2.96|0.0011
92349277|NCT02516241|184602523|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.3865|TWO_SIDED|95.0|-4.35|1.69||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||1.69|-4.35|0.3865
92349278|NCT02516241|184602523|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.284|TWO_SIDED|95.0|-5.05|1.49||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||1.49|-5.05|0.2840
92349279|NCT02516241|184602523|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.297|TWO_SIDED|95.0|-5.41|1.66||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||1.66|-5.41|0.2970
92349280|NCT02516241|184602523|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.3026|TWO_SIDED|95.0|-5.85|1.83||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||1.83|-5.85|0.3026
92349281|NCT02516241|184602523|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.3168|TWO_SIDED|95.0|-7.29|2.38||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||2.38|-7.29|0.3168
92349282|NCT02516241|184602523|SUPERIORITY||Mean Difference (Final Values)|-3.3||||0.2179|TWO_SIDED|95.0|-8.51|1.96||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||1.96|-8.51|0.2179
92349283|NCT02516241|184602524|SUPERIORITY||Odds Ratio (OR)|1.4||||0.2419|TWO_SIDED|95.0|0.8|2.6||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood|Patients with improvement in fatigue||2.6|0.8|0.2419
92349284|NCT02516241|184602524|SUPERIORITY||Odds Ratio (OR)|1.5||||0.1553|TWO_SIDED|95.0|0.9|2.8||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patients with improvement in fatigue||2.8|0.9|0.1553
92349285|NCT02516241|184602524|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0003|TWO_SIDED|95.0|1.4|2.8||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patient with deterioration in pain||2.8|1.4|0.0003
92349286|NCT02516241|184602524|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0148|TWO_SIDED|95.0|1.1|2.3||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patient with deterioration in pain||2.3|1.1|0.0148
92349287|NCT02516241|184602525|SUPERIORITY||Odds Ratio (OR)|1.6||||0.2473|TWO_SIDED|95.0|0.7|3.4||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patients with improvement in fatigue||3.4|0.7|0.2473
92349288|NCT02516241|184602525|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0148|TWO_SIDED|95.0|0.8|3.8||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patients with improvement in fatigue||3.8|0.8|0.0148
92349289|NCT02516241|184602525|SUPERIORITY||Odds Ratio (OR)|1.9||||0.009|TWO_SIDED|95.0|1.2|3.0||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood|Patient with deterioration in pain||3.0|1.2|0.0090
92160393|NCT04927975|184209020|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-7.6||||0.304|TWO_SIDED|95.0|-22.18|6.97|||Mixed-Effect Model Repeat Measurement|||Upa 6 mg Period 1 versus Placebo Period 1||6.97|-22.18|0.304
92160394|NCT04927975|184209020|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-21.27||||0.005|TWO_SIDED|95.0|-36.02|-6.52|||Mixed-Effect Model Repeat Measurement|||Upa 11 mg Period 1 versus Placebo Period 1||-6.52|-36.02|0.005
92168661|NCT05999435|184227040|SUPERIORITY||Least Square Means difference|1.2|STANDARD_ERROR_OF_MEAN|0.96||0.226|TWO_SIDED|||||Alpha set at 0.05|Mixed Models Analysis|||Mental Health domain, Week 12 comparison, null hypothesis of no difference||||0.2260
92275637|NCT01706198|184453792|OTHER||Adjusted Odds Ratio|2.09|||<|0.001|TWO_SIDED|95.0|1.82|2.4||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 12 has been presented.|||2.40|1.82|<0.001
92349290|NCT02516241|184602525|SUPERIORITY||Odds Ratio (OR)|1.4||||0.151|TWO_SIDED|95.0|0.9|2.3||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patient with deterioration in pain||2.3|0.9|0.1510
92349291|NCT02516241|184602526|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6763|TWO_SIDED|95.0|0.5|3.2||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patients with improvement in fatigue||3.2|0.5|0.6763
92168662|NCT05999435|184227041|SUPERIORITY|||||||||||||||||Week 4 comparison, null hypothesis of no difference|No comparison possible since zero count in both groups|||
92349292|NCT02516241|184602526|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6539|TWO_SIDED|95.0|0.5|3.3||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patients with improvement in fatigue||3.3|0.5|0.6539
92349293|NCT02516241|184602526|SUPERIORITY||Odds Ratio (OR)|2.2||||0.0092|TWO_SIDED|95.0|1.2|4.0||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood|Patient with deterioration in pain||4.0|1.2|0.0092
92349294|NCT02516241|184602526|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0324|TWO_SIDED|95.0|1.1|3.5||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patient with deterioration in pain||3.5|1.1|0.0324
92349295|NCT03018938|184602541|NON_INFERIORITY|If Lower limit (L) \>-0.4%, the Non-inferiority (NI) of basal insulin analog QD to insulin analog mid mixture BID is established; If Upper limit (U) \<0.4%, the NI of insulin analog mid mixture BID to basal insulin analog QD is established|LS Mean Difference (Final Values)|-0.158|STANDARD_ERROR_OF_MEAN|0.0959||0.1009|TWO_SIDED|95.0|-0.346|0.031|||ANCOVA|||||0.031|-0.346|0.1009
92349296|NCT03018938|184602542|SUPERIORITY||LS Mean Difference (Final Values)|-0.201|STANDARD_ERROR_OF_MEAN|0.0891||0.0246|TWO_SIDED|95.0|-0.376|-0.026|||ANCOVA|||||-0.026|-0.376|0.0246
92349297|NCT03018938|184602543|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0941|TWO_SIDED|95.0|0.95|1.87|||Regression, Logistic|||||1.87|0.95|0.0941
92349298|NCT03018938|184602544|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8592|TWO_SIDED|95.0|0.72|1.49|||Regression, Logistic|||||1.49|0.72|0.8592
92349299|NCT03018938|184602545|SUPERIORITY||LS Mean Difference (Final Values)|0.423|STANDARD_ERROR_OF_MEAN|0.2152||0.0497|TWO_SIDED|95.0|0.0|0.846|||ANCOVA|||||0.846|0.000|0.0497
92349300|NCT03018938|184602546|SUPERIORITY||LS Mean Difference (Final Values)|0.647|STANDARD_ERROR_OF_MEAN|0.1955||0.001|TWO_SIDED|95.0|0.263|1.031|||ANCOVA|||||1.031|0.263|0.0010
92349301|NCT03018938|184602547|SUPERIORITY||LS Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.2191||0.2193|TWO_SIDED|95.0|-0.161|0.7|||ANCOVA|||FBG||0.700|-0.161|0.2193
92349302|NCT03018938|184602547|SUPERIORITY||LS Mean Difference (Final Values)|-0.084|STANDARD_ERROR_OF_MEAN|0.3331||0.8014|TWO_SIDED|95.0|-0.739|0.571|||ANCOVA|||PPG||0.571|-0.739|0.8014
92349303|NCT03018938|184602548|SUPERIORITY||LS Mean Difference (Final Values)|0.491|STANDARD_ERROR_OF_MEAN|0.2033||0.016|TWO_SIDED|95.0|0.092|0.891|||ANCOVA|||FBG||0.891|0.092|0.0160
92168663|NCT05999435|184227041|SUPERIORITY|||||||0.2459||||||Alpha set at 0.05|Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||0.2459
92349304|NCT03018938|184602548|SUPERIORITY||LS Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.3028||0.9661|TWO_SIDED|95.0|-0.608|0.582|||ANCOVA|||PPG||0.582|-0.608|0.9661
92349305|NCT03018938|184602550|SUPERIORITY||LS Mean Difference|0.667|STANDARD_ERROR_OF_MEAN|0.2776||0.0166|TWO_SIDED|95.0|0.122|1.211|||ANCOVA|||||1.211|0.122|0.0166
92349306|NCT03018938|184602551|SUPERIORITY||LS Mean Difference (Final Values)|0.754|STANDARD_ERROR_OF_MEAN|0.2864||0.0086|TWO_SIDED|95.0|0.192|1.316|||ANCOVA|||||1.316|0.192|0.0086
92168664|NCT05999435|184227041|SUPERIORITY|||||||0.2459||||||Alpha set at 0.05|Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||0.2459
92168665|NCT05999435|184227041|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||1.000
92168666|NCT05999435|184227041|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||1.000
92168667|NCT05999435|184227041|SUPERIORITY|||||||||||||||||Week 8 comparison, null hypothesis of no difference|No comparison possible since zero count in both groups|||
92349307|NCT03018938|184602554|SUPERIORITY||Odds Ratio (OR)|1.25||||0.2009|TWO_SIDED|95.0|0.89|1.77|||Regression, Logistic|||||1.77|0.89|0.2009
92349308|NCT03018938|184602555|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8054|TWO_SIDED|95.0|0.72|1.53|||Regression, Logistic|||||1.53|0.72|0.8054
92349309|NCT03018938|184602556|SUPERIORITY||LS Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.33||0.7553|TWO_SIDED|95.0|-0.8|0.5|||Mixed Models Analysis|||||0.5|-0.8|0.7553
92349310|NCT00191100|184602557|SUPERIORITY_OR_OTHER||PFS Probability Difference at 3 Years|0.095||||0.029||95.0|0.01|0.179||The p-value is two-sided and was tested at the 0.05 significance level.|Z Statistic||Difference in progression-free survival probability between Gem/Cis/Rad and Cis/Rad. The difference in PFS probability between the two treatment arms can also be presented as a percentage (ie, PFS at 3 years was 9.5% better in the Gem/Cis/Rad arm).|||0.179|0.010|0.029
92349311|NCT00191100|184602558|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Log Rank|||||||0.0008
92349312|NCT00191100|184602559|SUPERIORITY_OR_OTHER|||||||0.096||95.0||||The p-value is two-sided and was tested at the 0.05 significance level.|Fisher Exact|||"Note: There were 2 patients with unknown site of progressive disease; these patients were counted as a Local failure.~Note: There was 1 patient with both local and distant failure; this patient was counted as a Local failure."||||0.096
92349313|NCT00191100|184602560|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||The p-value is two-sided and was tested at the 0.05 significance level.|Fisher Exact|||||||0.250
92349314|NCT00191100|184602561|SUPERIORITY_OR_OTHER|||||||0.0224||95.0|||||Log Rank|||||||0.0224
92349315|NCT00191100|184602562|SUPERIORITY_OR_OTHER|||||||0.0227||95.0|||||Log Rank|||||||0.0227
92349316|NCT01769586|184602563|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.38|||<|0.001|TWO_SIDED|95.0|0.24|0.5|||Chi-squared|||||.50|.24|<0.001
92349317|NCT02141113|184602565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.779|||||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These changed scores show the total change in ADHD symptoms over the course of the trial. Higher values indiicate improved functioning at the end of the trial compared to the beginning.||||.779
92349318|NCT02141113|184602566|SUPERIORITY|||||||0.834|||||||ANOVA|||||||.834
92349319|NCT02141113|184602567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.705|TWO_SIDED||||||ANOVA|||||||.705
92349320|NCT02141113|184602568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.322|TWO_SIDED||||||ANOVA|||||||.322
92349321|NCT02141113|184602569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|TWO_SIDED||||||ANOVA|||||||.043
92349322|NCT02141113|184602570|SUPERIORITY_OR_OTHER_LEGACY|||||||0.212|TWO_SIDED||||||ANOVA|||||||.212
92349323|NCT04950686|184602582|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.08||0.983|TWO_SIDED||||||Mixed Models Analysis|||||||0.983
92349324|NCT04950686|184602582|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.465|TWO_SIDED||||||Mixed Models Analysis|||||||0.465
92349325|NCT04950686|184602583|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.09||0.579|TWO_SIDED||||||Mixed Models Analysis|||||||0.579
92349326|NCT04950686|184602583|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Median Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.12||0.536|TWO_SIDED||||||Mixed Models Analysis|||||||0.536
92349327|NCT04950686|184602584|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.11||0.745|TWO_SIDED||||||Mixed Models Analysis|||||||0.745
92349328|NCT04950686|184602584|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.005|STANDARD_ERROR_OF_MEAN|0.14||0.972|TWO_SIDED||||||Mixed Models Analysis|||||||0.972
92349329|NCT04950686|184602585|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.12||||0.682|TWO_SIDED|95.0|0.24|5.25|||Mixed Models Analysis|||||5.25|0.24|0.682
92349330|NCT04950686|184602585|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.15||||0.63|TWO_SIDED|95.0|0.28|4.69|||Mixed Models Analysis|||||4.69|0.28|0.630
92349331|NCT04950686|184602586|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.26||||0.418|TWO_SIDED|95.0|0.12|12.82|||Mixed Models Analysis|||||12.82|0.12|0.418
92349332|NCT04950686|184602586|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.47||||0.194|TWO_SIDED|95.0|0.13|17.29|||Mixed Models Analysis|||||17.29|0.13|0.194
92349333|NCT04950686|184602587|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.91||||0.731|TWO_SIDED|95.0|0.1|8.07|||Mixed Models Analysis|||||8.07|0.10|0.731
92349334|NCT04950686|184602587|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.08||||0.786|TWO_SIDED|95.0|0.16|7.34|||Mixed Models Analysis|||||7.34|0.16|0.786
92349335|NCT04950686|184602588|SUPERIORITY|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.11||||0.71|TWO_SIDED|95.0|0.16|7.49|||Mixed Models Analysis|||||7.49|0.16|0.710
92349336|NCT04950686|184602588|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.16||||0.61|TWO_SIDED|95.0|0.16|8.73|||Mixed Models Analysis|||||8.73|0.16|0.610
92168668|NCT05999435|184227041|SUPERIORITY|||||||0.4972||||||Alpha set to 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.4972
92168669|NCT05999435|184227041|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||1.000
92168670|NCT05999435|184227041|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||1.000
92168671|NCT05999435|184227042|SUPERIORITY|||||||0.3081||||||Alpha set at 0.05|Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||0.3081
92168672|NCT05999435|184227042|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||1.000
92349337|NCT04950686|184602589|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.37||||0.27|TWO_SIDED|95.0|0.09|20.33|||Mixed Models Analysis|||||20.33|.09|0.270
92349338|NCT04950686|184602589|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.25||||0.465|TWO_SIDED|95.0|0.08|18.57|||Mixed Models Analysis|||||18.57|0.08|0.465
92219122|NCT02018822|184339028|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.3883|||||||Chi-squared|||||||0.3883
92219123|NCT02018822|184339029|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.2707|||||||Chi-squared|||||||0.2707
92219124|NCT00271596|184339033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.166|STANDARD_ERROR_OF_MEAN|0.098||0.092|TWO_SIDED|95.0|-0.361|0.028|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.028|-0.361|0.092
92219125|NCT00271596|184339034|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.337|STANDARD_ERROR_OF_MEAN|0.168||0.048|TWO_SIDED|95.0|-0.672|-0.003|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||-0.003|-0.672|0.048
92219126|NCT00271596|184339035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.278|STANDARD_ERROR_OF_MEAN|0.268||0.302|TWO_SIDED|95.0|-0.81|0.254|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic)||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.254|-0.810|0.302
92219127|NCT00271596|184339036|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.057|STANDARD_ERROR_OF_MEAN|0.153||0.708|TWO_SIDED|95.0|-0.361|0.246|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.246|-0.361|0.708
92349339|NCT04950686|184602590|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.91||||0.702|TWO_SIDED|95.0|0.07|11.95|||Mixed Models Analysis|||||11.95|0.07|0.702
92349340|NCT04950686|184602590|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.21||||0.538|TWO_SIDED|95.0|0.19|7.56|||Mixed Models Analysis|||||7.56|0.19|0.538
92219128|NCT00271596|184339037|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.069|STANDARD_ERROR_OF_MEAN|0.15||0.646|TWO_SIDED|95.0|-0.229|0.367|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.367|-0.229|0.646
92219129|NCT00271596|184339038|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.174||0.23||95.0|-0.554|0.135|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.135|-0.554|0.230
92219130|NCT00271596|184339039|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.317|STANDARD_ERROR_OF_MEAN|0.482||0.512|TWO_SIDED|95.0|-1.276|0.642|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.642|-1.276|0.512
92219131|NCT00271596|184339040|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9|STANDARD_ERROR_OF_MEAN|1.17||0.12|TWO_SIDED|95.0|-4.3|0.5|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.50|-4.30|0.12
92219132|NCT00271596|184339041|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.68||0.49|TWO_SIDED|95.0|-1.87|0.91|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.91|-1.87|0.49
92275638|NCT01706198|184453792|OTHER||Adjusted Odds Ratio|1.96|||<|0.001|TWO_SIDED|95.0|1.7|2.25||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 24 has been presented.|||2.25|1.70|<0.001
92349341|NCT04950686|184602591|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.04||0.084|TWO_SIDED||||||Mixed Models Analysis|||||||0.084
92349342|NCT04950686|184602591|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.04||0.501|TWO_SIDED||||||Mixed Models Analysis|||||||0.501
92349343|NCT04950686|184602592|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.614|TWO_SIDED||||||Mixed Models Analysis|||||||0.614
92349344|NCT04950686|184602592|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.854|TWO_SIDED||||||Mixed Models Analysis|||||||0.854
92349345|NCT04950686|184602593|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.499|TWO_SIDED||||||Mixed Models Analysis|||||||0.499
92349346|NCT04950686|184602593|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.623|TWO_SIDED||||||Mixed Models Analysis|||||||0.623
92349347|NCT04950686|184602594|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.84||||0.618|TWO_SIDED|95.0|0.14|5.15|||Mixed Models Analysis|||||5.15|0.14|0.618
92349348|NCT04950686|184602594|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.19||||0.626|TWO_SIDED|95.0|0.1|14.13|||Mixed Models Analysis|||||14.13|0.10|0.626
92349349|NCT04950686|184602595|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.47||||0.232|TWO_SIDED|95.0|0.23|9.18|||Mixed Models Analysis|||||9.18|0.23|.232
92349350|NCT04950686|184602595|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.08||||0.811|TWO_SIDED|95.0|0.22|5.38|||Mixed Models Analysis|||||5.38|0.22|0.811
92349351|NCT04950686|184602596|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.26||||0.427|TWO_SIDED|95.0|0.16|9.94|||Mixed Models Analysis|||||9.94|0.16|0.427
92349352|NCT04950686|184602596|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.39||||0.337|TWO_SIDED|95.0|0.25|7.68|||Mixed Models Analysis|||||7.68|0.25|0.337
92349353|NCT04950686|184602597|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.11||0.419|TWO_SIDED||||||Mixed Models Analysis|||||||0.419
92349354|NCT04950686|184602597|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.12||0.808|TWO_SIDED||||||Mixed Models Analysis|||||||0.808
92349355|NCT04950686|184602598|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.12||0.616|TWO_SIDED||||||Mixed Models Analysis|||||||0.616
92349356|NCT04950686|184602598|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.12||0.486|TWO_SIDED||||||Mixed Models Analysis|||||||0.486
92349357|NCT04950686|184602599|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.12||0.638|TWO_SIDED||||||Mixed Models Analysis|||||||0.638
92349358|NCT04950686|184602599|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.226|TWO_SIDED||||||Mixed Models Analysis|||||||0.226
92349359|NCT04950686|184602600|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.14||0.63|TWO_SIDED||||||Mixed Models Analysis|||||||0.630
92349360|NCT04950686|184602600|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.15||0.88|TWO_SIDED||||||Mixed Models Analysis|||||||0.880
92349361|NCT04950686|184602601|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.11||0.569|TWO_SIDED||||||Mixed Models Analysis|||||||0.569
92349362|NCT04950686|184602601|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.003|STANDARD_ERROR_OF_MEAN|0.12||0.98|TWO_SIDED||||||Mixed Models Analysis|||||||0.980
92349363|NCT04950686|184602602|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.466|TWO_SIDED||||||Mixed Models Analysis|||||||0.466
92349364|NCT04950686|184602602|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.13||0.99|TWO_SIDED||||||Mixed Models Analysis|||||||0.990
92349365|NCT04950686|184602603|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.14||0.989|TWO_SIDED||||||Mixed Models Analysis|||||||0.989
92349366|NCT04950686|184602603|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.16||0.678|TWO_SIDED||||||Mixed Models Analysis|||||||0.678
92349367|NCT04950686|184602604|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.14||0.075|TWO_SIDED||||||Mixed Models Analysis|||||||0.075
92349368|NCT04950686|184602604|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|0.15||0.024|TWO_SIDED||||||Mixed Models Analysis|||||||0.024
92349369|NCT04950686|184602605|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.16||0.301|TWO_SIDED||||||Mixed Models Analysis|||||||0.301
92349370|NCT04950686|184602605|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.17||0.702|TWO_SIDED||||||Mixed Models Analysis|||||||0.702
92349371|NCT04950686|184602606|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.76||||0.352|TWO_SIDED|95.0|0.1|6.13|||Mixed Models Analysis|||||6.13|0.10|0.352
92349372|NCT04950686|184602606|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.82||||0.445|TWO_SIDED|95.0|0.11|6.16|||Mixed Models Analysis|||||6.16|0.11|0.445
92349373|NCT04950686|184602607|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.55||||0.039|TWO_SIDED|95.0|0.12|2.6|||Mixed Models Analysis|||||2.60|0.12|0.039
92168673|NCT05999435|184227042|SUPERIORITY|||||||0.3081|||||||Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||0.3081
92168674|NCT05999435|184227042|SUPERIORITY|||||||0.066||||||Alpha set at 0.05|Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||0.066
92168675|NCT05999435|184227042|SUPERIORITY|||||||0.0297||||||Alpha set at 0.05|Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||0.0297
92168676|NCT05999435|184227042|SUPERIORITY|||||||0.8471||||||Alpha set at 0.05|Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||0.8471
92219133|NCT00271596|184339042|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|-2.5|STANDARD_ERROR_OF_MEAN|1.23||0.05|TWO_SIDED|95.0|-5.04|0.04||Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).|Mixed Models Analysis|||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.04|-5.04|0.05
92219134|NCT04707157|184339043|SUPERIORITY||Posterior Mean Difference|-1.56|||||TWO_SIDED|95.0|-2.76|-0.38|||||Posterior mean difference with 95% credible interval is reported.|||-0.38|-2.76|
92349374|NCT04950686|184602607|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.59||||0.073|TWO_SIDED|95.0|0.17|2.12|||Mixed Models Analysis|||||2.12|0.17|0.073
92349375|NCT04950686|184602608|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.62||||0.11|TWO_SIDED|95.0|0.13|2.93|||Mixed Models Analysis|||||2.93|0.13|0.110
92349376|NCT04950686|184602608|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.65||||0.174|TWO_SIDED|95.0|0.11|3.78|||Mixed Models Analysis|||||3.78|0.11|0.174
92349377|NCT04950686|184602609|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|0.31||0.208|TWO_SIDED||||||Mixed Models Analysis|||||||0.208
92349378|NCT04950686|184602609|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|0.35||0.302|TWO_SIDED||||||Mixed Models Analysis|||||||0.302
92349379|NCT04950686|184602610|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.35||0.483|TWO_SIDED||||||Mixed Models Analysis|||||||0.483
92349380|NCT04950686|184602610|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.3||0.933|TWO_SIDED||||||Mixed Models Analysis|||||||0.933
92349381|NCT04950686|184602611|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.32||0.877|TWO_SIDED||||||Mixed Models Analysis|||||||0.877
92349382|NCT04950686|184602611|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.32||0.418|TWO_SIDED||||||Mixed Models Analysis|||||||0.418
92349383|NCT04950686|184602612|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|2.23||||0.22|TWO_SIDED|95.0|0.05|98.76|||Mixed Models Analysis|||||98.76|0.05|0.220
92219135|NCT04707157|184339044|SUPERIORITY||Posterior Mean Difference|-1.03|||||TWO_SIDED|95.0|-2.14|0.08|||||Posterior mean difference with 95% credible interval is reported.|||0.08|-2.14|
92349384|NCT04950686|184602612|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.1|11.3||||||||11.30|0.10|
92349385|NCT04950686|184602613|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.48||||0.506|TWO_SIDED|95.0|0.03|63.29|||Mixed Models Analysis|||||63.29|0.03|0.506
92400284|NCT00286468|184692084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.548|TWO_SIDED|95.0|-8.1|4.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.3|-8.1|0.548
92400285|NCT00286468|184692084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.986|TWO_SIDED|95.0|-6.3|6.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.2|-6.3|0.986
92219136|NCT04707157|184339045|SUPERIORITY||Posterior Mean Difference|-0.91|||||TWO_SIDED|95.0|-1.56|-0.25|||||Posterior mean difference with 95% credible interval is reported.|||-0.25|-1.56|
92219137|NCT04707157|184339046|SUPERIORITY||Posterior Mean Difference|-1.99|||||TWO_SIDED|95.0|-3.22|-0.77|||||Posterior mean difference with 95% credible interval is reported.|||-0.77|-3.22|
92349386|NCT04950686|184602613|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.04|36.32||||||||36.32|0.04|
92349387|NCT04950686|184602614|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.09||||0.877|TWO_SIDED|95.0|0.04|28.37|||Mixed Models Analysis|||||28.37|0.04|0.877
92349388|NCT04950686|184602614|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.02|26.92||||||||26.92|0.02|
92349389|NCT04950686|184602615|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.04||0.005|TWO_SIDED||||||Mixed Models Analysis|||||||0.005
92349390|NCT04950686|184602615|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.05||1e-05|TWO_SIDED||||||Mixed Models Analysis|||||||0.00001
92349391|NCT04950686|184602616|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.314|TWO_SIDED||||||Mixed Models Analysis|||||||0.314
92349392|NCT04950686|184602616|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.06||0.176|TWO_SIDED||||||Mixed Models Analysis|||||||0.176
92349393|NCT04950686|184602617|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.05||0.009|TWO_SIDED||||||Mixed Models Analysis|||||||0.009
92349394|NCT04950686|184602617|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.008|TWO_SIDED||||||Mixed Models Analysis|||||||0.008
92349395|NCT04950686|184602618|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.132|TWO_SIDED||||||Mixed Models Analysis|||||||0.132
92160395|NCT04927975|184209020|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-19.6||||0.013|TWO_SIDED|95.0|-35.04|-4.16|||Mixed-Effect Model Repeat Measurement|||Upa 22 mg Period 1 versus Placebo Period 1||-4.16|-35.04|0.013
92160396|NCT04927975|184209021|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|6.9||||0.1|TWO_SIDED|95.0|-1.3|15.2|||Cochran-Mantel-Haenszel|||Upa 6 mg Period 1 versus Placebo Period 1||15.2|-1.3|0.100
92168677|NCT05999435|184227042|SUPERIORITY|||||||0.7009||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.7009
92349396|NCT04950686|184602618|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.04||0.008|TWO_SIDED||||||Mixed Models Analysis|||||||0.008
92400286|NCT00286468|184692085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26||||0.415|TWO_SIDED|95.0|-1.78|4.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.30|-1.78|0.415
92168678|NCT05999435|184227042|SUPERIORITY|||||||0.7064||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.7064
92168679|NCT05999435|184227042|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||1.000
92168680|NCT05999435|184227043|SUPERIORITY|||||||0.1686|||||||Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||0.1686
92168681|NCT05999435|184227043|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||1.000
92168682|NCT05999435|184227043|SUPERIORITY|||||||0.0643||||||Alpha set at 0.05|Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||0.0643
92168683|NCT05999435|184227043|SUPERIORITY|||||||0.1531|||||||Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||0.1531
92349397|NCT04950686|184602619|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.003|STANDARD_ERROR_OF_MEAN|0.05||0.941|TWO_SIDED||||||Mixed Models Analysis|||||||0.941
92349398|NCT04950686|184602619|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.569|TWO_SIDED||||||Mixed Models Analysis|||||||0.569
92349399|NCT04950686|184602620|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.04||0.354|TWO_SIDED||||||Mixed Models Analysis|||||||0.354
92349400|NCT04950686|184602620|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.038|TWO_SIDED||||||Mixed Models Analysis|||||||0.038
92349401|NCT04950686|184602621|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.501|TWO_SIDED||||||Mixed Models Analysis|||||||0.501
92349402|NCT04950686|184602621|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.385|TWO_SIDED||||||Mixed Models Analysis|||||||0.385
92349403|NCT04950686|184602622|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.095|TWO_SIDED||||||Mixed Models Analysis|||||||0.095
92349404|NCT04950686|184602622|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.349|TWO_SIDED||||||Mixed Models Analysis|||||||0.349
92349405|NCT04950686|184602623|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.846|TWO_SIDED||||||Mixed Models Analysis|||||||0.846
92400287|NCT00286468|184692085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51||||0.332|TWO_SIDED|95.0|-1.54|4.55||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.55|-1.54|0.332
92349406|NCT04950686|184602623|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.103|TWO_SIDED||||||Mixed Models Analysis|||||||0.103
92349407|NCT04950686|184602624|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.864|TWO_SIDED||||||Mixed Models Analysis|||||||0.864
92349408|NCT04950686|184602624|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.054|TWO_SIDED||||||Mixed Models Analysis|||||||0.054
92349409|NCT04950686|184602625|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.05||0.168|TWO_SIDED||||||Mixed Models Analysis|||||||0.168
92349410|NCT04950686|184602625|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.063|TWO_SIDED||||||Mixed Models Analysis|||||||0.063
92349411|NCT04950686|184602626|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.819|TWO_SIDED||||||Mixed Models Analysis|||||||0.819
92400288|NCT00286468|184692086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.89|TWO_SIDED|95.0|-2.47|2.85||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.85|-2.47|0.890
92400289|NCT00286468|184692086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19||||0.38|TWO_SIDED|95.0|-1.48|3.86||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.86|-1.48|0.380
92349412|NCT04950686|184602626|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.06||0.775|TWO_SIDED||||||Mixed Models Analysis|||||||0.775
92349413|NCT04950686|184602627|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.034|TWO_SIDED||||||Mixed Models Analysis|||||||0.034
92349414|NCT04950686|184602627|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.579|TWO_SIDED||||||Mixed Models Analysis|||||||0.579
92349415|NCT04950686|184602628|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.04||0.485|TWO_SIDED||||||Mixed Models Analysis|||||||0.485
92349416|NCT04950686|184602628|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.911|TWO_SIDED||||||Mixed Models Analysis|||||||0.911
92349417|NCT04950686|184602629|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.583|TWO_SIDED||||||Mixed Models Analysis|||||||0.583
92349418|NCT04950686|184602629|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.04||0.971|TWO_SIDED||||||Mixed Models Analysis|||||||0.971
92349419|NCT04950686|184602630|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.602|TWO_SIDED||||||Mixed Models Analysis|||||||0.602
92400290|NCT00286468|184692087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.35||||0.448|TWO_SIDED|95.0|-2.14|4.85||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.85|-2.14|0.448
92160397|NCT04927975|184209021|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|17.8||||0.002|TWO_SIDED|95.0|6.5|29.0|||Cochran-Mantel-Haenszel|||Upa 11 mg Period 1 versus Placebo Period 1||29.0|6.5|0.002
92349420|NCT04950686|184602630|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.003|STANDARD_ERROR_OF_MEAN|0.04||0.948|TWO_SIDED||||||Mixed Models Analysis|||||||0.948
92400291|NCT00286468|184692087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02||||0.568|TWO_SIDED|95.0|-2.48|4.52||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.52|-2.48|0.568
92349421|NCT04950686|184602631|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.763|TWO_SIDED||||||Mixed Models Analysis|||||||0.763
92349422|NCT04950686|184602631|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.578|TWO_SIDED||||||Mixed Models Analysis|||||||0.578
92349423|NCT04950686|184602632|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.863|TWO_SIDED||||||Mixed Models Analysis|||||||0.863
92349424|NCT04950686|184602632|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.04||0.538|TWO_SIDED||||||Mixed Models Analysis|||||||0.538
92349425|NCT04950686|184602633|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|1.41||0.662|TWO_SIDED||||||Mixed Models Analysis|||||||0.662
92349426|NCT04950686|184602633|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-1.51|STANDARD_ERROR_OF_MEAN|1.81||0.406|TWO_SIDED||||||Mixed Models Analysis|||||||0.406
92349427|NCT04950686|184602634|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-2.66|STANDARD_ERROR_OF_MEAN|1.64||0.105|TWO_SIDED||||||Mixed Models Analysis|||||||0.105
92349428|NCT04950686|184602634|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-1.33|STANDARD_ERROR_OF_MEAN|1.91||0.487|TWO_SIDED||||||Mixed Models Analysis|||||||0.487
92349429|NCT04950686|184602635|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-2.3|STANDARD_ERROR_OF_MEAN|1.68||0.171|TWO_SIDED||||||Mixed Models Analysis|||||||0.171
92349430|NCT04950686|184602635|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-2.06|STANDARD_ERROR_OF_MEAN|1.9||0.278|TWO_SIDED||||||Mixed Models Analysis|||||||0.278
92349431|NCT04950686|184602636|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.04||0.283|TWO_SIDED||||||Mixed Models Analysis|||||||0.283
92349432|NCT04950686|184602636|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.824|TWO_SIDED||||||Mixed Models Analysis|||||||0.824
92349433|NCT04950686|184602637|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.04||0.965|TWO_SIDED||||||Mixed Models Analysis|||||||0.965
92349434|NCT04950686|184602637|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.902|TWO_SIDED||||||Mixed Models Analysis|||||||0.902
92400292|NCT00286468|184692088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.95||||0.077|TWO_SIDED|95.0|-0.32|6.22||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.22|-0.32|0.077
92400293|NCT00286468|184692088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.72||||0.303|TWO_SIDED|95.0|-1.55|4.99||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.99|-1.55|0.303
92400294|NCT00286468|184692089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25||||0.461|TWO_SIDED|95.0|-2.08|4.57||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.57|-2.08|0.461
92168684|NCT05999435|184227043|SUPERIORITY|||||||0.7187|||||||Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||0.7187
92168685|NCT05999435|184227043|SUPERIORITY|||||||0.072||||||Alpha set at 0.05|Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||0.0720
92168686|NCT05999435|184227043|SUPERIORITY|||||||0.6117||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.6117
92349435|NCT04950686|184602638|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.04||0.074|TWO_SIDED||||||Mixed Models Analysis|||||||0.074
92349436|NCT04950686|184602638|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.828|TWO_SIDED||||||Mixed Models Analysis|||||||0.828
92160398|NCT04927975|184209021|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|11.7||||0.026|TWO_SIDED|95.0|1.4|21.9|||Cochran-Mantel-Haenszel|||Upa 22 mg Period 1 versus Placebo Period 1||21.9|1.4|0.026
92168687|NCT05999435|184227043|SUPERIORITY|||||||0.0479||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.0479
92349437|NCT04950686|184602639|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.25||0.336|TWO_SIDED||||||Mixed Models Analysis|||||||0.336
92349438|NCT04950686|184602639|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.28||0.902|TWO_SIDED||||||Mixed Models Analysis|||||||0.902
92349439|NCT04950686|184602640|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.24||0.629|TWO_SIDED||||||Mixed Models Analysis|||||||0.629
92349440|NCT04950686|184602640|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.29||0.318|TWO_SIDED||||||Mixed Models Analysis|||||||0.318
92349441|NCT04950686|184602641|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.24||0.863|TWO_SIDED||||||Mixed Models Analysis|||||||0.863
92349442|NCT04950686|184602641|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.29||0.299|TWO_SIDED||||||Mixed Models Analysis|||||||0.299
92349443|NCT04950686|184602642|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.010
92168688|NCT05999435|184227043|SUPERIORITY|||||||0.2042||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.2042
92168689|NCT05999435|184227044|SUPERIORITY|||||||0.2458||||||Alpha set at 0.05|Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||0.2458
92168690|NCT05999435|184227044|SUPERIORITY|||||||||||||||||Week 4 comparison, null hypothesis of no difference|Comparison not possible since zero counts in both groups|||
92168691|NCT05999435|184227044|SUPERIORITY|||||||0.2458|||||||Fisher Exact|||Week 4 comparison, null hypothesis of no difference||||0.2458
92168692|NCT05999435|184227044|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||1.000
92349444|NCT04950686|184602642|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.05||0.119|TWO_SIDED||||||Mixed Models Analysis|||||||0.119
92349445|NCT04950686|184602643|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.04||0.161|TWO_SIDED||||||Mixed Models Analysis|||||||0.161
92349446|NCT04950686|184602643|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.087|TWO_SIDED||||||Mixed Models Analysis|||||||0.087
92349447|NCT04950686|184602644|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.81|TWO_SIDED||||||Mixed Models Analysis|||||||0.810
92349448|NCT04950686|184602644|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.901|TWO_SIDED||||||Mixed Models Analysis|||||||0.901
92349449|NCT04950686|184602645|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.145|TWO_SIDED||||||Mixed Models Analysis|||||||0.145
92349450|NCT04950686|184602645|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.096|TWO_SIDED||||||Mixed Models Analysis|||||||0.096
92349451|NCT04950686|184602646|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.08||0.272|TWO_SIDED||||||Mixed Models Analysis|||||||0.272
92349452|NCT04950686|184602646|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.08||0.689|TWO_SIDED||||||Mixed Models Analysis|||||||0.689
92349453|NCT04950686|184602647|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.08||0.824|TWO_SIDED||||||Mixed Models Analysis|||||||0.824
92349454|NCT04950686|184602647|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.271|TWO_SIDED||||||Mixed Models Analysis|||||||0.271
92349455|NCT04950686|184602648|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.04||0.391|TWO_SIDED||||||Mixed Models Analysis|||||||0.391
92349456|NCT04950686|184602648|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.04||0.952|TWO_SIDED||||||Mixed Models Analysis|||||||0.952
92400295|NCT00286468|184692089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99||||0.559|TWO_SIDED|95.0|-2.34|4.32||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.32|-2.34|0.559
92160399|NCT04927975|184209022|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|6.6||||0.327|TWO_SIDED|95.0|-6.6|19.7|||Cochran-Mantel-Haenszel|||Upa 6 mg Period 1 versus Placebo Period 1||19.7|-6.6|0.327
92349457|NCT04950686|184602649|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.004|STANDARD_ERROR_OF_MEAN|0.04||0.925|TWO_SIDED||||||Mixed Models Analysis|||||||0.925
92349458|NCT04950686|184602649|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.05||0.153|TWO_SIDED||||||Mixed Models Analysis|||||||0.153
92160400|NCT04927975|184209022|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|29.3|||<|0.001|TWO_SIDED|95.0|13.8|44.9|||Cochran-Mantel-Haenszel|||Upa 11 mg Period 1 versus Placebo Period 1||44.9|13.8|<0.001
92168693|NCT05999435|184227044|SUPERIORITY|||||||0.4944||||||Alpha set at 0.05|Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||0.4944
92168694|NCT05999435|184227044|SUPERIORITY|||||||0.4798|||||||Fisher Exact|||Week 8 comparison, null hypothesis of no difference||||0.4798
92168695|NCT05999435|184227044|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||1.000
92168696|NCT05999435|184227044|SUPERIORITY|||||||0.4972||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.4972
92168697|NCT05999435|184227044|SUPERIORITY|||||||0.4885||||||Alpha set at 0.05|Fisher Exact|||Week 12 comparison, null hypothesis of no difference||||0.4885
92168698|NCT05999435|184227045|SUPERIORITY||Least Square Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.4156|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 4 comparison, null hypothesis of no difference||||0.4156
92349459|NCT04950686|184602650|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.495|TWO_SIDED||||||Mixed Models Analysis|||||||0.495
92349460|NCT04950686|184602650|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.06||0.229|TWO_SIDED||||||Mixed Models Analysis|||||||0.229
92400296|NCT00286468|184692090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04||||0.43|TWO_SIDED|95.0|-1.54|3.62||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.62|-1.54|0.430
92349461|NCT04950686|184602651|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.753|TWO_SIDED||||||Mixed Models Analysis|||||||0.753
92349462|NCT04950686|184602651|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.35|TWO_SIDED||||||Mixed Models Analysis|||||||0.350
92349463|NCT04950686|184602652|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.541|TWO_SIDED||||||Mixed Models Analysis|||||||0.541
92349464|NCT04950686|184602652|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.887|TWO_SIDED||||||Mixed Models Analysis|||||||0.887
92349465|NCT04950686|184602653|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.05||0.375|TWO_SIDED||||||Mixed Models Analysis|||||||0.375
92349466|NCT04950686|184602653|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.06||0.293|TWO_SIDED||||||Mixed Models Analysis|||||||0.293
92349467|NCT04950686|184602654|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-5.97|STANDARD_ERROR_OF_MEAN|1.89||0.002|TWO_SIDED||||||Mixed Models Analysis|||||||0.002
92349468|NCT04950686|184602654|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.08|STANDARD_ERROR_OF_MEAN|2.21||0.163|TWO_SIDED||||||Mixed Models Analysis|||||||0.163
92349469|NCT04950686|184602655|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-5.09|STANDARD_ERROR_OF_MEAN|1.99||0.011|TWO_SIDED||||||Mixed Models Analysis|||||||0.011
92349470|NCT04950686|184602655|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.21|STANDARD_ERROR_OF_MEAN|2.27||0.159|TWO_SIDED||||||Mixed Models Analysis|||||||0.159
92219138|NCT04707157|184339047|SUPERIORITY||Posterior Mean Difference|-19.12|||||TWO_SIDED|95.0|-31.22|-6.97|||||Posterior mean difference with 95% credible interval is reported.|||-6.97|-31.22|
92349471|NCT04950686|184602656|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.83|STANDARD_ERROR_OF_MEAN|2.06||0.064|TWO_SIDED||||||Mixed Models Analysis|||||||0.064
92349472|NCT04950686|184602656|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.37|STANDARD_ERROR_OF_MEAN|2.27||0.137|TWO_SIDED||||||Mixed Models Analysis|||||||0.137
92349473|NCT04950686|184602657|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-5.05|STANDARD_ERROR_OF_MEAN|1.52||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||0.001
92160401|NCT04927975|184209022|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|28.7|||<|0.001|TWO_SIDED|95.0|12.6|44.7|||Cochran-Mantel-Haenszel|||Upa 22 mg Period 1 versus Placebo Period 1||44.7|12.6|<0.001
92160402|NCT04927975|184209023|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|3.7||||0.34|TWO_SIDED|95.0|-3.9|11.2|||Cochran-Mantel-Haenszel|||Upa 6 mg Period 1 versus Placebo Period 1||11.2|-3.9|0.340
92160403|NCT04927975|184209023|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|3.8||||0.358|TWO_SIDED|95.0|-4.3|11.8|||Cochran-Mantel-Haenszel|||Upa 11 mg Period 1 versus Placebo Period 1||11.8|-4.3|0.358
92160404|NCT04927975|184209023|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|9.1||||0.027|TWO_SIDED|95.0|1.0|17.2|||Cochran-Mantel-Haenszel|||Upa 22 mg Period 1 versus Placebo Period 1||17.2|1.0|0.027
92349474|NCT04950686|184602657|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.25|STANDARD_ERROR_OF_MEAN|1.76||0.065|TWO_SIDED||||||Mixed Models Analysis|||||||0.065
92349475|NCT04950686|184602658|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.67|STANDARD_ERROR_OF_MEAN|1.51||0.015|TWO_SIDED||||||Mixed Models Analysis|||||||0.015
92349476|NCT04950686|184602658|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-2.56|STANDARD_ERROR_OF_MEAN|1.78||0.152|TWO_SIDED||||||Mixed Models Analysis|||||||0.152
92349477|NCT04950686|184602659|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.78|STANDARD_ERROR_OF_MEAN|1.78||0.034|TWO_SIDED||||||Mixed Models Analysis|||||||0.034
92349478|NCT04950686|184602659|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.13|STANDARD_ERROR_OF_MEAN|1.84||0.09|TWO_SIDED||||||Mixed Models Analysis|||||||0.090
92349479|NCT04950686|184602660|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.04||0.282|TWO_SIDED||||||Mixed Models Analysis|||||||0.282
92349480|NCT04950686|184602660|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.532|TWO_SIDED||||||Mixed Models Analysis|||||||0.532
92349481|NCT04950686|184602661|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.675|TWO_SIDED||||||Mixed Models Analysis|||||||0.675
92349482|NCT04950686|184602661|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.443|TWO_SIDED||||||Mixed Models Analysis|||||||0.443
92400297|NCT00286468|184692090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03||||0.124|TWO_SIDED|95.0|-0.56|4.61||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.61|-0.56|0.124
92400298|NCT00286468|184692091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.056||||0.011|TWO_SIDED|95.0|-0.099|-0.013||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.013|-0.099|0.011
92400299|NCT00286468|184692091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.035||||0.116|TWO_SIDED|95.0|-0.078|0.009||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.009|-0.078|0.116
92400300|NCT00286468|184692092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044||||0.024|TWO_SIDED|95.0|-0.081|-0.006||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.006|-0.081|0.024
92400301|NCT00286468|184692092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.037||||0.059|TWO_SIDED|95.0|-0.074|0.001||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.001|-0.074|0.059
92400302|NCT00286468|184692093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.028||||0.159|TWO_SIDED|95.0|-0.067|0.011||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.011|-0.067|0.159
92400303|NCT00286468|184692093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.038||||0.055|TWO_SIDED|95.0|-0.077|0.001||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.001|-0.077|0.055
92400304|NCT00286468|184692094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039||||0.062|TWO_SIDED|95.0|-0.08|0.002||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.002|-0.080|0.062
92400305|NCT00286468|184692094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.043||||0.041|TWO_SIDED|95.0|-0.084|-0.002||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.002|-0.084|0.041
92400306|NCT00286468|184692095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.148|TWO_SIDED|95.0|-0.069|0.01||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.010|-0.069|0.148
92400307|NCT00286468|184692095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.031||||0.135|TWO_SIDED|95.0|-0.071|0.009||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.009|-0.071|0.135
92400308|NCT00286468|184692096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026||||0.177|TWO_SIDED|95.0|-0.065|0.012||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.012|-0.065|0.177
92400309|NCT00286468|184692096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026||||0.177|TWO_SIDED|95.0|-0.065|0.012||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.012|-0.065|0.177
92160405|NCT04927975|184209024|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-7.45||||0.12|TWO_SIDED|95.0|-16.86|1.96|||Mixed-Effect Model Repeat Measurement|||Upa 6 mg Period 1 versus Placebo Period 1||1.96|-16.86|0.120
92168699|NCT05999435|184227045|SUPERIORITY||Least Square Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.7088|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 4 comparison, null hypothesis of no difference||||0.7088
92219139|NCT04707157|184339048|SUPERIORITY||Posterior Mean Difference|-0.11|||||TWO_SIDED|95.0|-0.86|0.64|||||Posterior mean difference with 95% credible interval is reported.|||0.64|-0.86|
92349483|NCT04950686|184602662|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.685|TWO_SIDED||||||Mixed Models Analysis|||||||0.685
92349484|NCT04950686|184602662|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.06||0.726|TWO_SIDED||||||Mixed Models Analysis|||||||0.726
92349485|NCT04950686|184602663|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.04||0.282|TWO_SIDED||||||Mixed Models Analysis|||||||0.282
92349486|NCT04950686|184602663|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.591|TWO_SIDED||||||Mixed Models Analysis|||||||0.591
92349487|NCT04950686|184602664|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.675|TWO_SIDED||||||Mixed Models Analysis|||||||0.675
92349488|NCT04950686|184602664|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.359|TWO_SIDED||||||Mixed Models Analysis|||||||0.359
92349489|NCT04950686|184602665|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.rt-type scale from 1 (strongly disagree) to 4 (strongly agree); higher scores indicate greater self-efficacy to use a dental dam; range = 1-4|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.685|TWO_SIDED||||||Mixed Models Analysis|||||||0.685
92349490|NCT04950686|184602665|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.198|TWO_SIDED||||||Mixed Models Analysis|||||||0.198
92160406|NCT04927975|184209024|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-10.84||||0.026|TWO_SIDED|95.0|-20.37|-1.32|||Mixed-Effect Model Repeat Measurement|||Upa 11 mg Period 1 versus Placebo Period 1||-1.32|-20.37|0.026
92349491|NCT04950686|184602666|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.-type scale from 1 (strongly disagree) to 4 (strongly agree); higher scores indicate greater self-efficacy to use a dental dam; range = 1-4|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.06||0.46|TWO_SIDED||||||Mixed Models Analysis|||||||0.460
92349492|NCT04950686|184602666|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.822|TWO_SIDED||||||Mixed Models Analysis|||||||0.822
92160407|NCT04927975|184209024|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-14.27||||0.005|TWO_SIDED|95.0|-24.24|-4.3|||Mixed-Effect Model Repeat Measurement|||Upa 22 mg Period 1 versus Placebo Period 1||-4.30|-24.24|0.005
92219140|NCT04707157|184339049|SUPERIORITY||Posterior Mean Difference|-269.92|||||TWO_SIDED|95.0|-624.98|86.24|||||Posterior mean difference with 95% credible interval is reported.|||86.24|-624.98|
92349493|NCT04950686|184602667|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.06||0.671|TWO_SIDED||||||Mixed Models Analysis|||||||0.671
92349494|NCT04950686|184602667|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.939|TWO_SIDED||||||Mixed Models Analysis|||||||0.939
92349495|NCT04950686|184602668|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.655|TWO_SIDED||||||Mixed Models Analysis|||||||0.655
92400310|NCT00286468|184692097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162||||0.324|TWO_SIDED|95.0|-0.161|0.486||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.486|-0.161|0.324
92400311|NCT00286468|184692097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176||||0.284|TWO_SIDED|95.0|-0.147|0.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.500|-0.147|0.284
92160408|NCT04927975|184209025|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-1.9||||0.545|TWO_SIDED|95.0|-8.3|4.4|||Mixed-Effect Model Repeat Measurement|||Upa 6 mg Period 1 versus Placebo Period 1||4.4|-8.3|0.545
92160409|NCT04927975|184209025|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|1.9||||0.565|TWO_SIDED|95.0|-4.5|8.3|||Mixed-Effect Model Repeat Measurement|||Upa 11 mg Period 1 versus Placebo Period 1||8.3|-4.5|0.565
92160410|NCT04927975|184209025|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-1.1||||0.754|TWO_SIDED|95.0|-7.8|5.6|||Mixed-Effect Model Repeat Measurement|||Upa 22 mg Period 1 versus Placebo Period 1||5.6|-7.8|0.754
92160411|NCT05550337|184209065|EQUIVALENCE|The 90% CI for the Test-to-Reference ratio of LS mean percent reduction from Baseline to Week 12/Day 84, in the inflammatory lesion counts to be contained within (0.80, 1.25).|Mean Difference (Net)|0.998|||||TWO_SIDED|90.0|0.927|1.076||||||||1.076|0.927|
92160412|NCT05550337|184209066|EQUIVALENCE|The 90% CI for the Test-to-Reference ratio of LS mean percent reduction from Baseline to Week 12/Day 84, in the non-inflammatory lesion counts to be contained within (0.80, 1.25).|Mean Difference (Net)|1.116|||||TWO_SIDED|90.0|1.017|1.228||||||||1.228|1.017|
92160413|NCT02266329|184209076|SUPERIORITY||Mean Difference (Net)|-3.9|STANDARD_ERROR_OF_MEAN|1.6||0.034|TWO_SIDED|95.0|-6.9|-0.8||The significance of the study visit by treatment interaction with study visit coded as baseline, 4 weeks, 8 weeks, and 12 weeks.|Mixed Models Analysis|||Change from baseline in headache (HA) frequency (1. Primary Outcome Measure) is based on linear mixed effects regression of outcome on study visit by treatment interaction with study participant as a random effect.||-0.8|-6.9|0.034
92160414|NCT00813488|184209090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.09||0.0004|TWO_SIDED|95.0|0.06|0.2|||Mixed effects ANOVA crossover model|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID15 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.20|0.06|0.0004
92160415|NCT00813488|184209091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.2242|TWO_SIDED|95.0|-0.01|0.05||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID5 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||.05|-0.01|0.2242
92160416|NCT00813488|184209092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.05||0.0106|TWO_SIDED|95.0|0.01|0.11||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID10 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||.11|0.01|0.0106
92219141|NCT04707157|184339050|SUPERIORITY||Posterior Mean Difference|0.03|||||TWO_SIDED|95.0|-0.22|0.29|||||Posterior mean difference with 95% credible interval is reported.|||0.29|-0.22|
92349496|NCT04950686|184602668|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.07||0.315|TWO_SIDED||||||Mixed Models Analysis|||||||0.315
92219142|NCT02969915|184339065|SUPERIORITY||Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.64|2.26||||||||2.26|0.64|
92219143|NCT02969915|184339066|SUPERIORITY||Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.91|1.9||||||||1.90|0.91|
92349497|NCT04950686|184602669|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.04||0.966|TWO_SIDED||||||Mixed Models Analysis|||||||0.966
92349498|NCT04950686|184602669|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.708|TWO_SIDED||||||Mixed Models Analysis|||||||0.708
92400312|NCT00286468|184692098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.268||||0.053|TWO_SIDED|95.0|-0.004|0.54||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.540|-0.004|0.053
92400313|NCT00286468|184692098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.349||||0.012|TWO_SIDED|95.0|0.077|0.621||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.621|0.077|0.012
92400314|NCT00286468|184692099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182||||0.196|TWO_SIDED|95.0|-0.094|0.458||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.458|-0.094|0.196
92400315|NCT00286468|184692099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226||||0.11|TWO_SIDED|95.0|-0.051|0.502||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.502|-0.051|0.110
92160417|NCT00813488|184209093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|0.21|0.4||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID30 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||.40|.21|<0.0001
92160418|NCT00813488|184209094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|0.18|0.37||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID45 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||.37|0.18|<0.0001
92168700|NCT05999435|184227045|SUPERIORITY||Least Square Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.661|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 4 comparison, null hypothesis of no difference||||0.6610
92168701|NCT05999435|184227045|SUPERIORITY||Least Square Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.758|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 8 comparison, null hypothesis of no difference||||0.7580
92168702|NCT05999435|184227045|SUPERIORITY||Least Square Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.4974|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 8 comparison, null hypothesis of no difference||||0.4974
92168703|NCT05999435|184227045|SUPERIORITY||Least Square Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.3289|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 8 comparison, null hypothesis of no difference||||0.3289
92168704|NCT05999435|184227045|SUPERIORITY||Least Square Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.17|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 12 comparison, null hypothesis of no difference||||0.1700
92349499|NCT04950686|184602670|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.006|STANDARD_ERROR_OF_MEAN|0.04||0.887|TWO_SIDED||||||Mixed Models Analysis|||||||0.887
92219144|NCT02969915|184339067|SUPERIORITY||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.7|1.95||||||||1.95|0.70|
92349500|NCT04950686|184602670|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.077|TWO_SIDED||||||Mixed Models Analysis|||||||0.077
92349501|NCT04950686|184602671|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.217|TWO_SIDED||||||Mixed Models Analysis|||||||0.217
92349502|NCT04950686|184602671|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.879|TWO_SIDED||||||Mixed Models Analysis|||||||0.879
92349503|NCT04950686|184602672|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.866|TWO_SIDED||||||Mixed Models Analysis|||||||0.866
92400316|NCT00286468|184692100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.228||||0.121|TWO_SIDED|95.0|-0.06|0.517||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.517|-0.060|0.121
92160419|NCT00813488|184209095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.15||0.0002|TWO_SIDED|95.0|0.08|0.27||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID60 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.27|0.08|0.0002
92160420|NCT00813488|184209102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|||<|0.0001|TWO_SIDED|95.0|0.25|0.5|||ANOVA|||||0.50|0.25|<0.0001
92160421|NCT00813488|184209103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|||<|0.0001|TWO_SIDED|95.0|0.55|1.1|||ANOVA|||||1.10|.55|<0.0001
92160422|NCT00813488|184209104|SUPERIORITY_OR_OTHER|||||||0.5575|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.5575
92160423|NCT00813488|184209105|SUPERIORITY_OR_OTHER|||||||0.0981|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0981
92160424|NCT00813488|184209106|SUPERIORITY_OR_OTHER|||||||0.0443|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0443
92219145|NCT02969915|184339068|SUPERIORITY||Risk Ratio (RR)|1.29|||||TWO_SIDED|95.0|0.85|1.95||||||||1.95|0.85|
92349504|NCT04950686|184602672|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.06||0.695|TWO_SIDED||||||Mixed Models Analysis|||||||0.695
92349505|NCT04950686|184602673|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.004|STANDARD_ERROR_OF_MEAN|0.06||0.94|TWO_SIDED||||||Mixed Models Analysis|||||||0.940
92349506|NCT04950686|184602673|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.451|TWO_SIDED||||||Mixed Models Analysis|||||||0.451
92349507|NCT04950686|184602674|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.06||0.442|TWO_SIDED||||||Mixed Models Analysis|||||||0.442
92349508|NCT04950686|184602674|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.082|TWO_SIDED||||||Mixed Models Analysis|||||||0.082
92349509|NCT04950686|184602675|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.06||0.236|TWO_SIDED||||||Mixed Models Analysis|||||||0.236
92160425|NCT00813488|184209107|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0004
92349510|NCT04950686|184602675|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.08||0.674|TWO_SIDED||||||Mixed Models Analysis|||||||0.674
92349511|NCT04950686|184602676|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.08||0.135|TWO_SIDED||||||Mixed Models Analysis|||||||0.135
92349512|NCT04950686|184602676|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.08||0.5|TWO_SIDED||||||Mixed Models Analysis|||||||0.500
92349513|NCT04950686|184602677|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.005|STANDARD_ERROR_OF_MEAN|0.09||0.956|TWO_SIDED||||||Mixed Models Analysis|||||||0.956
92349514|NCT04950686|184602677|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.09||0.214|TWO_SIDED||||||Mixed Models Analysis|||||||0.214
92349515|NCT04950686|184602678|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.06||0.337|TWO_SIDED||||||Mixed Models Analysis|||||||0.337
92160426|NCT00813488|184209108|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0001
92160427|NCT00813488|184209109|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0018
92160428|NCT00813488|184209110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|0.58|0.9||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||||0.90|0.58|<0.0001
92160429|NCT00813488|184209112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1464||||0.7012|TWO_SIDED|95.0|0.6|2.3|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.3|0.6|0.7012
92160430|NCT00813488|184209113|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0704||||0.6545|TWO_SIDED|95.0|0.8|1.4|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.4|0.8|0.6545
92219146|NCT02969915|184339069|SUPERIORITY||Risk Ratio (RR)|1.17|||||TWO_SIDED|95.0|0.79|1.75||||||||1.75|0.79|
92219147|NCT02969915|184339070|SUPERIORITY||Risk Ratio (RR)|1.48|||||TWO_SIDED|95.0|0.38|5.76||||||||5.76|0.38|
92349516|NCT04950686|184602678|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.004|STANDARD_ERROR_OF_MEAN|0.07||0.957|TWO_SIDED||||||Mixed Models Analysis|||||||0.957
92349517|NCT04950686|184602679|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.08||0.086|TWO_SIDED||||||Mixed Models Analysis|||||||0.086
92349518|NCT04950686|184602679|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.08||0.515|TWO_SIDED||||||Mixed Models Analysis|||||||0.515
92349519|NCT04950686|184602680|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.597|TWO_SIDED||||||Mixed Models Analysis|||||||0.597
92349520|NCT04950686|184602680|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.09||0.551|TWO_SIDED||||||Mixed Models Analysis|||||||0.551
92349521|NCT04950686|184602681|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.634|TWO_SIDED||||||Mixed Models Analysis|||||||0.634
92349522|NCT04950686|184602681|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.308|TWO_SIDED||||||Mixed Models Analysis|||||||0.308
92349523|NCT04950686|184602682|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.06||0.415|TWO_SIDED||||||Mixed Models Analysis|||||||0.415
92349524|NCT04950686|184602682|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.06||0.721|TWO_SIDED||||||Mixed Models Analysis|||||||0.721
92349525|NCT04950686|184602683|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.06||0.261|TWO_SIDED||||||Mixed Models Analysis|||||||0.261
92349526|NCT04950686|184602683|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.369|TWO_SIDED||||||Mixed Models Analysis|||||||0.369
92349527|NCT04950686|184602684|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.06||0.124|TWO_SIDED||||||Mixed Models Analysis|||||||0.124
92349528|NCT04950686|184602684|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.06||0.794|TWO_SIDED||||||Mixed Models Analysis|||||||0.794
92349529|NCT04950686|184602685|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.011|TWO_SIDED||||||Mixed Models Analysis|||||||0.011
92349530|NCT04950686|184602685|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.068|TWO_SIDED||||||Mixed Models Analysis|||||||0.068
92349531|NCT04950686|184602686|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.585|TWO_SIDED||||||Mixed Models Analysis|||||||0.585
92349532|NCT04950686|184602686|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.08||0.338|TWO_SIDED||||||Mixed Models Analysis|||||||0.338
92349533|NCT04950686|184602687|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.259|TWO_SIDED||||||Mixed Models Analysis|||||||0.259
92349534|NCT04950686|184602687|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.003|STANDARD_ERROR_OF_MEAN|0.05||0.95|TWO_SIDED||||||Mixed Models Analysis|||||||0.950
92219148|NCT02969915|184339071|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.68|1.36||||||||1.36|0.68|
92349535|NCT04950686|184602688|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.05||0.411|TWO_SIDED||||||Mixed Models Analysis|||||||0.411
92349536|NCT04950686|184602688|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.491|TWO_SIDED||||||Mixed Models Analysis|||||||0.491
92349537|NCT04950686|184602689|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.498|TWO_SIDED||||||Mixed Models Analysis|||||||0.498
92160431|NCT00813488|184209114|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2544||||0.0407|TWO_SIDED|95.0|1.0|1.6|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.6|1.0|0.0407
92160432|NCT00813488|184209115|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5745||||0.0007|TWO_SIDED|95.0|1.2|2.0|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.0|1.2|0.0007
92219149|NCT02969915|184339072|SUPERIORITY||Risk Ratio, log|1.38|||||TWO_SIDED|95.0|0.77|2.46||||||||2.46|0.77|
92349538|NCT04950686|184602689|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.573|TWO_SIDED||||||Mixed Models Analysis|||||||0.573
92349539|NCT04950686|184602690|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.06||0.128|TWO_SIDED||||||Mixed Models Analysis|||||||0.128
92349540|NCT04950686|184602690|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.08||0.013|TWO_SIDED||||||Mixed Models Analysis|||||||0.013
92349541|NCT04950686|184602691|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.0001|STANDARD_ERROR_OF_MEAN|0.07||0.999|TWO_SIDED||||||Mixed Models Analysis|||||||0.999
92349542|NCT04950686|184602691|EQUIVALENCE|This arm will receive Health Aware for Young Adults in between the pretest and posttest questionnaire. Health Aware for Young Adults is a web-based sexual and relationship health promotion program. The program contains the same health content as Media Aware for Young Adults but without the media literacy education components. The program is self-paced and includes four modules.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.08||0.638|TWO_SIDED||||||Mixed Models Analysis|||||||0.638
92349543|NCT04950686|184602692|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.841|TWO_SIDED||||||Mixed Models Analysis|||||||0.841
92349544|NCT04950686|184602692|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.08||0.27|TWO_SIDED||||||Mixed Models Analysis|||||||0.270
92349545|NCT04950686|184602693|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.08||0.94|TWO_SIDED||||||Mixed Models Analysis|||||||0.940
92349546|NCT04950686|184602693|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.001|STANDARD_ERROR_OF_MEAN|0.09||0.992|TWO_SIDED||||||Mixed Models Analysis|||||||0.992
92349547|NCT04950686|184602694|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.06||0.47|TWO_SIDED||||||Mixed Models Analysis|||||||0.470
92349548|NCT04950686|184602694|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.06||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.130
92219150|NCT02969915|184339073|SUPERIORITY||Risk Ratio (RR)|0.39|||||TWO_SIDED|95.0|0.09|1.8||||||||1.80|0.09|
92219151|NCT00789880|184339110|SUPERIORITY_OR_OTHER|||||||0.7|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether the change in CAMP expression in lesional skin of AD participants differs by treatment group.||||0.7
92219152|NCT00789880|184339110|SUPERIORITY_OR_OTHER|||||||0.12|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether the change in CAMP mRNA expression in non-lesional skin of AD participants differs by treatment group.||||0.12
92349549|NCT04950686|184602695|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.931|TWO_SIDED||||||Mixed Models Analysis|||||||0.931
92349550|NCT04950686|184602695|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.666|TWO_SIDED||||||Mixed Models Analysis|||||||0.666
92349551|NCT04950686|184602696|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.822|TWO_SIDED||||||Mixed Models Analysis|||||||0.822
92349552|NCT04950686|184602696|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.721|TWO_SIDED||||||Mixed Models Analysis|||||||0.721
92219153|NCT00789880|184339111|SUPERIORITY_OR_OTHER|||||||0.3|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether the change in CAMP mRNA expression in non-lesional skin of Non-AD participants differs by treatment group.||||0.3
92219154|NCT00789880|184339112|SUPERIORITY_OR_OTHER|||||||0.4|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether change in CAMP mRNA expression in lesional skin of psoriatic participants differs by treatment group.||||0.4
92219155|NCT00789880|184339112|SUPERIORITY_OR_OTHER|||||||0.2|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether change in CAMP mRNA expression in non-lesional skin of psoriatic participants differs by treatment group.||||0.2
92219156|NCT00789880|184339113|SUPERIORITY_OR_OTHER|||||||0.8|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether change in HBD-3 mRNA expression in lesional skin of AD participants differs by treatment group.||||0.8
92219157|NCT00789880|184339113|SUPERIORITY_OR_OTHER|||||||0.2|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether change in HBD-3 mRNA expression in non-lesional skin of AD participants differs by treatment group.||||0.2
92275639|NCT01706198|184453792|OTHER||Adjusted Odds Ratio|1.79|||<|0.001|TWO_SIDED|95.0|1.56|2.06||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 40 has been presented.|||2.06|1.56|<0.001
92275640|NCT01706198|184453792|OTHER||Adjusted Odds Ratio|1.95|||<|0.001|TWO_SIDED|95.0|1.69|2.24||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 52 has been presented.|||2.24|1.69|<0.001
92219158|NCT00789880|184339114|SUPERIORITY_OR_OTHER|||||||0.4||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in HBD-3 mRNA expression in non-lesional skin of Non-AD participants differs by treatment group.||||0.4
92219159|NCT00789880|184339115|SUPERIORITY_OR_OTHER|||||||0.4||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in HBD-3 mRNA expression in lesional skin of psoriatic participants differs by treatment group.||||0.4
92275641|NCT01706198|184453793|OTHER||Adjusted Odds Ratio|2.28|||<|0.001|TWO_SIDED|95.0|1.98|2.62||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 12 has been presented.|||2.62|1.98|<0.001
92275642|NCT01706198|184453793|OTHER||Adjusted Odds Ratio|2.09|||<|0.001|TWO_SIDED|95.0|1.81|2.41||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 24 has been presented.|||2.41|1.81|<0.001
92275643|NCT01706198|184453793|OTHER||Adjusted Odds Ratio|1.76|||<|0.001|TWO_SIDED|95.0|1.53|2.02||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 40 has been presented.|||2.02|1.53|<0.001
92275644|NCT01706198|184453793|OTHER||Adjusted Odds Ratio|1.91|||<|0.001|TWO_SIDED|95.0|1.66|2.21||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 52 has been presented.|||2.21|1.66|<0.001
92275645|NCT01706198|184453794|OTHER||Mean Difference (Net)|1.54|||<|0.001|TWO_SIDED|95.0|1.3|1.77||MMRM adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, randomized treatment-by-Baseline ACT total score interaction, gender, age, visit and randomized treatment by visit interaction.|Mixed Model Repeated Measures (MMRM)||Treatment difference of FF/VI versus Usual Care at Week 12 has been presented.|||1.77|1.30|<0.001
92275646|NCT01706198|184453794|OTHER||Mean Difference (Net)|1.5|||<|0.001|TWO_SIDED|95.0|1.25|1.76||MMRM adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, randomized treatment-by-Baseline ACT total score interaction, gender, age, visit and randomized treatment by visit interaction.|MMRM||Treatment difference of FF/VI versus Usual Care at Week 24 has been presented.|||1.76|1.25|<0.001
92275647|NCT01706198|184453794|OTHER||Mean Difference (Net)|1.37|||<|0.001|TWO_SIDED|95.0|1.11|1.63||MMRM adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, randomized treatment-by-Baseline ACT total score interaction, gender, age, visit and randomized treatment by visit interaction.|MMRM||Treatment difference of FF/VI versus Usual Care at Week 40 has been presented.|||1.63|1.11|<0.001
92275648|NCT01706198|184453794|OTHER||Mean Difference (Net)|1.5|||<|0.001|TWO_SIDED|95.0|1.24|1.76||MMRM adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, randomized treatment-by-Baseline ACT total score interaction, gender, age, visit and randomized treatment by visit interaction.|MMRM||Treatment difference of FF/VI versus Usual Care at Week 52 has been presented.|||1.76|1.24|<0.001
92219160|NCT00789880|184339115|SUPERIORITY_OR_OTHER|||||||1||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in HBD-3 mRNA expression in non-lesional skin of psoriatic participants differs by treatment group.||||1.0
92219161|NCT00789880|184339116|SUPERIORITY_OR_OTHER|||||||0.2||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in IL-13 mRNA expression in lesional skin of AD participants differs by treatment group.||||0.2
92219162|NCT00789880|184339116|SUPERIORITY_OR_OTHER|||||||0.5||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in IL-13 mRNA expression in non-lesional skin of AD participants differs by treatment group.||||0.5
92349553|NCT04950686|184602697|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.54|TWO_SIDED||||||Mixed Models Analysis|||||||0.540
92349554|NCT04950686|184602697|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.003|STANDARD_ERROR_OF_MEAN|0.06||0.956|TWO_SIDED||||||Mixed Models Analysis|||||||0.956
92349555|NCT04950686|184602698|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.06||0.175|TWO_SIDED||||||Mixed Models Analysis|||||||0.175
92349556|NCT04950686|184602698|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.06||0.136|TWO_SIDED||||||Mixed Models Analysis|||||||0.136
92349557|NCT04950686|184602699|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.829|TWO_SIDED||||||Mixed Models Analysis|||||||0.829
92349558|NCT04950686|184602699|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.748|TWO_SIDED||||||Mixed Models Analysis|||||||0.748
92349559|NCT04950686|184602700|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.12||0.49|TWO_SIDED||||||Mixed Models Analysis|||||||0.490
92349560|NCT04950686|184602700|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.13||0.831|TWO_SIDED||||||Mixed Models Analysis|||||||0.831
92349561|NCT04950686|184602701|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.1||0.35|TWO_SIDED||||||Mixed Models Analysis|||||||0.350
92349562|NCT04950686|184602701|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.1||0.235|TWO_SIDED||||||Mixed Models Analysis|||||||0.235
92349563|NCT04950686|184602702|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.1||0.682|TWO_SIDED||||||Mixed Models Analysis|||||||0.682
92400317|NCT00286468|184692100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159||||0.28|TWO_SIDED|95.0|-0.13|0.448||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.448|-0.130|0.280
92400318|NCT00286468|184692101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.015||||0.924|TWO_SIDED|95.0|-0.29|0.32||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.320|-0.290|0.924
92168705|NCT05999435|184227045|SUPERIORITY||Least Square Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.0557|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 12 comparison, null hypothesis of no difference||||0.0557
92349564|NCT04950686|184602702|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.11||0.373|TWO_SIDED||||||Mixed Models Analysis|||||||0.373
92349565|NCT04950686|184602703|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.25||||0.242|TWO_SIDED|95.0|0.24|6.63|||Mixed Models Analysis|||||6.63|0.24|0.242
92349566|NCT04950686|184602703|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.78||||0.207|TWO_SIDED|95.0|0.11|5.72|||Mixed Models Analysis|||||5.72|0.11|0.207
92349567|NCT04950686|184602704|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.88||||0.576|TWO_SIDED|95.0|0.51|1.52|||Mixed Models Analysis|||||1.52|0.51|0.576
92275649|NCT01706198|184453796|OTHER||Ratio|1.03||||0.786|TWO_SIDED|95.0|0.83|1.28||GLM assuming negative binomial distribution (NBD) adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age|Generalized Linear Model (GLM)||Ratio comparing FF/VI with Usual Care has been presented.|||1.28|0.83|0.786
92349568|NCT04950686|184602704|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.97||||0.888|TWO_SIDED|95.0|0.46|2.03|||Mixed Models Analysis|||||2.03|0.46|0.888
92349569|NCT04950686|184602705|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.87||||0.467|TWO_SIDED|95.0|0.22|3.45|||Mixed Models Analysis|||||3.45|0.22|0.467
92349570|NCT04950686|184602705|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.97||||0.888|TWO_SIDED|95.0|0.46|2.03|||Mixed Models Analysis|||||2.03|0.46|0.888
92349571|NCT04950686|184602706|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.07||0.0003|TWO_SIDED||||||Mixed Models Analysis|||||||0.0003
92349572|NCT04950686|184602706|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.09||0.432|TWO_SIDED||||||Mixed Models Analysis|||||||0.432
92349573|NCT04950686|184602707|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.08||0.031|TWO_SIDED||||||Mixed Models Analysis|||||||0.031
92349574|NCT04950686|184602707|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.09||0.794|TWO_SIDED||||||Mixed Models Analysis|||||||0.794
92349575|NCT04950686|184602708|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.07||0.277|TWO_SIDED||||||Mixed Models Analysis|||||||0.277
92349576|NCT04950686|184602708|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.09||0.115|TWO_SIDED||||||Mixed Models Analysis|||||||0.115
92349577|NCT02266576|184602781|OTHER|||||||0.04||||||The linear regression model was used, adjusted for within cohort correlation, within participant correlation, and gender.|Regression, Linear|||Baseline vs month 6||||0.04
92160433|NCT00813488|184209116|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5828||||0.0372|TWO_SIDED|95.0|1.0|2.4|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.4|1.0|0.0372
92349578|NCT02266576|184602781|OTHER|||||||0.02|||||||Regression, Linear|The linear regression model was used, adjusted for within cohort correlation, within participant correlation, and gender.||Baseline vs month 12||||0.02
92349579|NCT02266576|184602782|OTHER|||||||0.004|||||||Regression, Linear|The linear regression model was used, adjusted for within cohort correlation, within participant correlation, and gender.||Baseline vs month 6 in physical component score||||0.004
92349580|NCT02266576|184602782|OTHER|||||||0.01|||||||Regression, Linear|The linear regression model was used, adjusted for within cohort correlation, within participant correlation, and gender.||Baseline vs month 12 in physical component score||||0.01
92349581|NCT03921541|184602816|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92349582|NCT03921541|184602817|SUPERIORITY|||||||0.5961|||||||Mixed Models Analysis|||||||0.5961
92349583|NCT03921541|184602818|SUPERIORITY|||||||0.1087|||||||Mixed Models Analysis|||||||0.1087
92160434|NCT00813488|184209117|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3722||||0.3099|TWO_SIDED|95.0|0.7|2.5|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.5|0.7|0.3099
92160435|NCT00813488|184209118|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8434||||0.5777|TWO_SIDED|95.0|0.5|1.5|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.5|.5|0.5777
92160436|NCT00813488|184209119|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.986||||0.9567|TWO_SIDED|95.0|0.6|1.6|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.6|0.6|0.9567
92349584|NCT03921541|184602819|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92349585|NCT03921541|184602820|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92349586|NCT03921541|184602821|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92349587|NCT03921541|184602823|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||||||0.0003
92349588|NCT03921541|184602824|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92349589|NCT03921541|184602825|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92349590|NCT03921541|184602826|SUPERIORITY|||||||0.0208|||||||Mixed Models Analysis|||||||0.0208
92349591|NCT03921541|184602827|SUPERIORITY|||||||0.4434|||||||Mixed Models Analysis|||||||0.4434
92349592|NCT03921541|184602828|SUPERIORITY|||||||0.5301|||||||Mixed Models Analysis|||||||0.5301
92349593|NCT03921541|184602829|SUPERIORITY|||||||0.2515|||||||Mixed Models Analysis|||||||0.2515
92349594|NCT04633447|184602859|SUPERIORITY||Difference in Percentage|6.6|||=|0.638|TWO_SIDED|90.0|-14.7|27.9|||Cochran-Mantel-Haenszel|||||27.9|-14.7|=0.638
92349595|NCT04333498|184602874|OTHER||Mean Difference (Net)|-221.03||||0.014|TWO_SIDED|95.0|-396.33|-45.73|||t-test, 2 sided|||||-45.73|-396.33|.014
92349596|NCT04333498|184602875|OTHER||Mean Difference (Net)|1103.96||||0.122|TWO_SIDED|95.0|-296.532|2502.722|||t-test, 2 sided|||||2502.722|-296.532|0.122
92349597|NCT04333498|184602876|OTHER||Mean Difference (Net)|-2.61||||0.218|TWO_SIDED|95.0|-8.614|3.391|||t-test, 2 sided|||Adherence percentage||3.391|-8.614|.218
92400319|NCT00286468|184692101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138||||0.376|TWO_SIDED|95.0|-0.168|0.444||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.444|-0.168|0.376
92168706|NCT05999435|184227045|SUPERIORITY||Least Square Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.6008|TWO_SIDED|||||No adjustment for multiple comparisons, alpha set at 0.05|Mixed Models Analysis|||Week 12 comparison, null hypothesis of no difference||||0.6008
92349598|NCT04333498|184602876|OTHER|Linear regression with generalized estimating equations (GEE)|Slope|0.046||||0.272|TWO_SIDED|95.0|-0.036|0.128|||Regression, Linear|||||0.128|-0.036|0.272
92349599|NCT01565694|184602877|OTHER|P-Value was from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
92349600|NCT01565694|184602877|OTHER|P-Value was from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
92349601|NCT01565694|184602878|OTHER|P-Value was obtained from a 2-sided one sample t-test, testing the null hypothesis that Change from Baseline=0.|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92349602|NCT01565694|184602879|OTHER|P-Value was from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.029|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||0.029
92349603|NCT01565694|184602879|OTHER|P-Value was from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.026|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||0.026
92168707|NCT05999435|184227046|SUPERIORITY|||||||0.8046||||||Alpha set at 0.05|Fisher Exact|||Null hypothesis of no difference||||0.8046
92168708|NCT05999435|184227046|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Null hypothesis of no difference||||1.000
92349604|NCT01565694|184602880|OTHER|From a Wilcoxon Signed Rank testing the null hypothesis is that the Median at Week 24 is equal to Baseline Median.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Analysis of change from baseline to Week 24.||||<0.001
92349605|NCT01565694|184602881|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0||||||0.006|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 in bladder volume at 30 cmH20.||||0.006
92349606|NCT01565694|184602881|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF in bladder volume at 30 cmH20.||||0.001
92349607|NCT01565694|184602882|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0||||||0.001|||||||t-test, 2 sided|||Analysis of change from baseline to week 24 in bladder volume at 40 cmH20.||||0.001
92349608|NCT01565694|184602882|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0||||||0.004|||||||t-test, 2 sided|||Analysis of change from baseline to week 24 LOCF in bladder volume at 40 cmH20.||||0.004
92349609|NCT01565694|184602883|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0||||||0.003|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||0.003
92349610|NCT01565694|184602883|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0||||||0.028|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||0.028
92349611|NCT01565694|184602884|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.068|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||0.068
92349612|NCT01565694|184602884|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.075|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||0.075
92349613|NCT01565694|184602885|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
92349614|NCT01565694|184602885|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
92349615|NCT01565694|184602886|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
92349616|NCT01565694|184602886|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
92349617|NCT01565694|184602887|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
92349618|NCT01565694|184602887|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
92349619|NCT01565694|184602888|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
92349620|NCT01565694|184602888|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
92349621|NCT01565694|184602889|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.01|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||0.010
92349622|NCT01565694|184602889|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.004|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||0.004
92349623|NCT01565694|184602890|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
92349624|NCT01565694|184602890|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
92349625|NCT01565694|184602891|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.568|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||0.568
92349626|NCT01565694|184602891|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.573|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||0.573
92349627|NCT02906618|184602933|OTHER|A mixed-effect analysis of variance model was applied to the log-transformed dose-adjusted AUC(0-∞) of LY3039478 after oral dosing and IV administration of 13C 15N 2H-LY3039478. The model contained a fixed effect for formulation (oral or IV) and a random effect for participant.|Ratio of geometric LS means|0.572|||||TWO_SIDED|90.0|0.532|0.615||||||||0.615|0.532|
92349628|NCT04766333|184602940|SUPERIORITY||Odds Ratio (OR)|0.45|||<|0.05|TWO_SIDED|95.0|0.17|1.23|||Regression, Logistic||Healthcare Arm is the reference category|||1.23|0.17|<0.05
92349629|NCT00541229|184602956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.8||||0.004||95.0|-53.1|-10.5|||ANOVA|Model term: treatment||For this comparison, the mean in the placebo group was subtracted from the mean in the sitagliptin 200 mg group.||-10.5|-53.1|0.004
92349630|NCT00541229|184602956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.9|||<|0.001||95.0|-63.6|-20.2|||ANOVA|Model term: treatment||For this comparison, the mean in the placebo group was subtracted from the mean in the sitagliptin 100 mg group.||-20.2|-63.6|<0.001
92160437|NCT00813488|184209120|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1366||||0.4253|TWO_SIDED|95.0|0.8|1.6|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.6|0.8|0.4253
92349631|NCT00541229|184602956|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis stated that the lower bound of 80% one-sided confidence interval for the comparison in 24-hour WMG reduction between sitagliptin 200 mg and sitagliptin 100 mg is above -5 mg/dL.|Mean Difference (Final Values)|10.1||||||80.0|0.61|9999999.0|||||This is a 1-sided 80% confidence interval and the upper bound 9999999 was used here to indicate positive infinity.|This was pre-defined as a non-superiority test, i.e., to show that sitagliptin 200 mg is not superior to sitagliptin 100 mg. For this comparison, the mean in the sitagliptin 100 mg group was subtracted from the mean in the sitagliptin 200 mg group.||9999999|0.61|
92349632|NCT03807843|184602958|OTHER||V184 GMFR/Placebo GMFR Ratio|1.6||||0.004|TWO_SIDED|95.0|1.2|2.1|||Mixed Effects Model|||"Day 28 V184 GMFR/Placebo GMFR Ratio~The ratio of V184 GMFR/Placebo GMFR at Day 28 was derived from the mixed effects model used to determine GMFR."||2.1|1.2|0.004
92349633|NCT03807843|184602958|OTHER||V184 GMFR/Placebo GMFR Ratio|2.1|||<|0.001|TWO_SIDED|95.0|1.5|2.8|||Mixed Effects Model|||"Day 56 V184 GMFR/Placebo GMFR Ratio~The ratio of V184 GMFR/Placebo GMFR at Day 56 was derived from the mixed effects model used to determine GMFR."||2.8|1.5|<0.001
92349634|NCT03807843|184602958|OTHER||V184 GMFR/Placebo GMFR Ratio|1.3||||0.121|TWO_SIDED|95.0|0.9|1.7|||Mixed Effects Model|||"Day 196 V184 GMFR/Placebo GMFR Ratio~The ratio of V184 GMFR/Placebo GMFR at Day 196 was derived from the mixed effects model used to determine GMFR."||1.7|0.9|0.121
92349635|NCT01312129|184602961|SUPERIORITY_OR_OTHER||||||=|0.05|TWO_SIDED|||||=0.05 is the actual computed p-value via the ANOVA.|ANOVA|The ANOVA is comparing the % increase in BOLD response above baseline during cue presentation (Alcohol vs. Control) b/w placebo \& Sulfasalazine .||||||=.05
92349636|NCT02734667|184602977|SUPERIORITY||t statistic from GLM/regression|-0.47||||0.64|TWO_SIDED|||||Generalized linear models were used to compare outcomes between the CGM and control groups at 6 months while adjusting for participant gender, age, annual household income, days since diagnosis, and baseline A1c.|Regression, Linear|||||||0.64
92349637|NCT02734667|184602978|SUPERIORITY||t-statistic from GLM/regression results|-2.6||||0.013|TWO_SIDED|||||Generalized linear models were used to compare outcomes between the CGM and control groups at 6 months while adjusting for participant gender, age, annual household income, days since diagnosis, and baseline A1c.|Regression, Linear|||||||0.013
92349638|NCT02734667|184602979|SUPERIORITY||t-statistic from GLM/regression results|3.12||||0.003|TWO_SIDED|||||Generalized linear models were used to compare outcomes between the CGM and control groups at 6 months while adjusting for participant gender, age, annual household income, days since diagnosis, and baseline A1c.|Regression, Linear|||||||0.003
92349639|NCT02397837|184602994|OTHER|||||||0.38|||||||t-test, 2 sided|||||||0.38
92349640|NCT02397837|184602995|OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.22
92349641|NCT02397837|184602996|OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
92349642|NCT02397837|184602997|OTHER|||||||0.55|||||||t-test, 2 sided|||||||0.55
92349643|NCT02397837|184602998|OTHER|||||||0.99|||||||t-test, 2 sided|||||||0.99
92349644|NCT02397837|184602999|OTHER|||||||0.98|||||||t-test, 2 sided|||||||0.98
92349645|NCT02397837|184603000|OTHER||||||||||||||||||Tabulation of participants with suicidal acknowledgements over 12-week study|||
92349646|NCT02397837|184603001|OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.09
92349647|NCT02397837|184603002|OTHER|||||||1|||||||t-test, 2 sided|||||||1.00
92349648|NCT02397837|184603003|OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
92349649|NCT00138294|184603023|OTHER||Incidence Rate Ratio|0.89|||||TWO_SIDED|95.0|0.87|0.91||||||Overall Effectiveness against MAARI during the Epidemic Period (2007-2008)||0.91|0.87|
92349650|NCT00138294|184603024|OTHER||Incidence Rate Ratio|0.69|||||TWO_SIDED|95.0|0.67|0.71||||||Overall Effectiveness against MAARI during the Epidemic Period (2008-2009)||0.71|0.67|
92349651|NCT00138294|184603025|OTHER||Incidence Rate Ratio|0.75|||||TWO_SIDED|95.0|0.73|0.76||||||Overall Effectiveness against MAARI during the Epidemic Period (2008-2009)||0.76|0.73|
92349652|NCT02827708|184603043|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.6||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.6|-1.0|<0.0001
92349653|NCT02827708|184603043|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-1.0|||<|0.0001||95.0|-1.2|-0.8||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral semaglutide 14 mg - Placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata, interaction strata and region as categorical fixed effects and the baseline value as covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.8|-1.2|<0.0001
92349654|NCT02827708|184603044|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.8||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.8|-3.2|<0.0001
92349655|NCT02827708|184603044|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-2.7|||<|0.0001|TWO_SIDED|95.0|-3.5|-1.9||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral semaglutide 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata, interaction strata and region as categorical fixed effects and the baseline value as covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.9|-3.5|<0.0001
92349656|NCT02827708|184603060|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.64|||=|0.1834|TWO_SIDED|95.0|0.34|1.23||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.23|0.34|=0.1834
92349657|NCT02827708|184603061|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.43|||=|0.061|TWO_SIDED|95.0|0.17|1.04||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.04|0.17|=0.0610
92349658|NCT00407511|184603089|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||End of treatment/last observation carried forward (EOT/LOCF): value consists of the mean of the last 7 post-baseline visits scores. Mean change: the arithmetic mean change and p-value from the single sample t-test. If \< = 7 and \> = 4 post-baseline scores were available, the mean pain score was computed using the available scores. The mean was not calculated if there were less than 4 post-baseline scores prior to study termination.||||< 0.0001
92349659|NCT00407511|184603090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.6|-2.8|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 4||-2.8|-3.6|< 0.0001
92349660|NCT00407511|184603090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-4.3|-3.5|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8||-3.5|-4.3|< 0.0001
92349661|NCT00407511|184603090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-4.5|-3.7|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12||-3.7|-4.5|< 0.0001
92349662|NCT00407511|184603091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-4.7|-3.7|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8, FAS. Week 8: subjects were only included if their visit fell within the computed week (49 to 63 days).||-3.7|-4.7|< 0.0001
92349663|NCT00407511|184603091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-5.1|-4.1|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12: subjects were only included if their visit fell within the computed week (\>= 78 days).||-4.1|-5.1|< 0.0001
92349664|NCT00407511|184603091|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||EOT/LOCF: last post-baseline value; mean change from Baseline was the arthmetic mean change and the p-value was from the single-sample t-test.||||< 0.0001
92349665|NCT00407511|184603092|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-4.2|-3.4|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8: subjects were only included if their visit fell within the computed week (Day 49 to 63).||-3.4|-4.2|< 0.0001
92349666|NCT00407511|184603092|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-4.5|-3.7|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12: subjects were only included if their visit fell within the computed week (\>= Day 78)||-3.7|-4.5|< 0.0001
92349667|NCT00407511|184603092|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||EOT/LOCF: last post-baseline value; mean change from Baseline was the arthmetic mean change and the p-value was from the single-sample t-test.||||< 0.0001
92349668|NCT00407511|184603095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.1|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001||95.0|-22.3|-14.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 1: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 1 assessment if their visit fell within Days 4 to 10.||-14.0|-22.3|< 0.0001
92349669|NCT00407511|184603095|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-28.2|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001||95.0|-32.4|-24.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 2: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 2 assessment if their visit fell within Days 11 to 17.||-24.0|-32.4|< 0.0001
92349670|NCT00407511|184603095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-34.3|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001||95.0|-38.5|-30.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 3: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 3 assessment if their visit fell within Days 18 to 24.||-30.0|-38.5|< 0.0001
92349671|NCT00407511|184603095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-40.9|STANDARD_ERROR_OF_MEAN|2.2|<|0.0001||95.0|-45.2|-36.7|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 4: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 4 assessment if their visit fell within days 25 to 35.||-36.7|-45.2|< 0.0001
92349672|NCT00407511|184603095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-45.8|STANDARD_ERROR_OF_MEAN|2.2|<|0.0001||95.0|-50.2|-41.4|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 8 assessment if their visit fell within Days 49 to 63.||-41.4|-50.2|< 0.0001
92349673|NCT00407511|184603095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-48.4|STANDARD_ERROR_OF_MEAN|2.2|<|0.0001||95.0|-52.8|-44.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 12 assessment if their visit fell \>= Day 78.||-44.0|-52.8|< 0.0001
92349674|NCT00407511|184603095|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||EOT/LOCF: last post-baseline assessment. Mean change is the arithmetic mean change; p-value is from a single-sample t-test.||||< 0.0001
92349675|NCT00407511|184603096|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.7|STANDARD_ERROR_OF_MEAN|2.4|<|0.0001||95.0|-43.4|-33.9|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8: LS mean, p-value, and confidence interval are based on a repeated measures effect model with baseline value, center, and week as fixed effects; subjects were included as a random effect. Subjects were included in the Week 8 assessment only if their visit fell within Days 49 and 63.||-33.9|-43.4|< 0.0001
92349676|NCT00407511|184603096|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-40.7|STANDARD_ERROR_OF_MEAN|2.4|<|0.0001||95.0|-45.5|-35.9|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12: LS mean, p-value, and confidence interval are based on a repeated measures effect model with baseline value, center, and week as fixed effects; subjects were included as a random effect. Subjects were included in the Week 12 assessment only if their visit fell \>=Day 78.||-35.9|-45.5|< 0.0001
92349677|NCT00407511|184603096|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||EOT/LOCF: last post-baseline assessment. Mean change= arithmetic mean change; p-value is from a single-sample t-test.||||< 0.0001
92160438|NCT00813488|184209121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4269||||0.0038|TWO_SIDED|95.0|1.1|1.8|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.8|1.1|0.0038
92349678|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-1.4|-0.7|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 1: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-0.7|-1.4|< 0.0001
92168709|NCT05999435|184227046|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Null hypothesis of no difference||||1.000
92168710|NCT05999435|184227048|SUPERIORITY|||||||||||||||||Null hypothesis of no difference|Sustained recovery was not achieved in any participant, no possible statistical analysis|||
92349679|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-2.2|-1.5|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 2: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-1.5|-2.2|< 0.0001
92349680|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-2.9|-2.2|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 3: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.2|-2.9|< 0.0001
92400320|NCT00286468|184692102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075||||0.642|TWO_SIDED|95.0|-0.242|0.393||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.393|-0.242|0.642
92400321|NCT00286468|184692102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063||||0.698|TWO_SIDED|95.0|-0.255|0.381||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.381|-0.255|0.698
92400322|NCT00286468|184692103|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.596|TWO_SIDED|95.0|0.503|3.306||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||3.306|0.503|0.596
92349681|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.2|-2.5|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 4: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.5|-3.2|< 0.0001
92349682|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.3|-2.6|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 5: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.6|-3.3|< 0.0001
92349683|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.4|-2.6|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 6: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.6|-3.4|< 0.0001
92349684|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.5|-2.8|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 7: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.8|-3.5|< 0.0001
92349685|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.6|-2.8|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.8|-3.6|< 0.0001
92400323|NCT00286468|184692103|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96||||0.148|TWO_SIDED|95.0|0.787|4.885||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||4.885|0.787|0.148
92400324|NCT00286468|184692104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.925||||0.046|TWO_SIDED|95.0|1.011|3.666||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||3.666|1.011|0.046
92160439|NCT00813488|184209122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5118||||0.0012||95.0|1.2|1.9|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.9|1.2|0.0012
92160440|NCT00813488|184209123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5826||||0.0074|TWO_SIDED|95.0|1.1|2.2|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.2|1.1|0.0074
92168711|NCT05999435|184227049|SUPERIORITY|||||||0.7699||||||Treatment group effect, alpha set at 0.05|ANOVA|||Week 4 comparison, null hypothesis of no difference||||0.7699
92168712|NCT05999435|184227049|SUPERIORITY|||||||0.9928||||||Treatment group effect, alpha set at 0.05|ANOVA|||Week 8 comparison, null hypothesis of no difference||||0.9928
92168713|NCT05999435|184227049|SUPERIORITY|||||||0.8363||||||Treatment group effect, alpha set at 0.05|ANOVA|||Week 12 comparison, null hypothesis of no difference||||0.8363
92168714|NCT05999435|184227049|SUPERIORITY|||||||0.693||||||Treatment group effect, alpha set at 0.05|ANOVA|||Week 24 comparison, null hypothesis of no difference||||0.6930
92168715|NCT05999435|184227050|SUPERIORITY|||||||0.278||||||Alpha set at 0.05|Fisher Exact|||Null hypothesis of no difference||||0.2780
92168716|NCT05999435|184227050|SUPERIORITY|||||||0.4967||||||Alpha set at 0.05|Fisher Exact|||Null hypothesis of no difference||||0.4967
92168717|NCT05999435|184227050|SUPERIORITY|||||||1||||||Alpha set at 0.05|Fisher Exact|||Null hypothesis of no difference||||1.000
92219163|NCT00789880|184339117|SUPERIORITY_OR_OTHER|||||||0.7||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in IL-13 mRNA expression in non-lesional skin of Non-AD participants differs by treatment group.||||0.7
92349686|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.7|-2.9|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 9: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.9|-3.7|< 0.0001
92349687|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.7|-3.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 10: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-3.0|-3.7|< 0.0001
92349688|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.8|-3.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Visit 11: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-3.0|-3.8|< 0.0001
92349689|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.7|-3.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-3.0|-3.7|< 0.0001
92349690|NCT00407511|184603097|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||EOT/LOCF value consists of the mean of the last 7 post-baseline sleep scores; mean change = arithmetic mean change; p-value: from single sample t-test.||||< 0.0001
92349691|NCT01047501|184603132|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-21.5|||<|0.0001|TWO_SIDED|95.0|-26.7|-16.2||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|A sample size of 194 was required to provide 90.6% power to detect a difference of 15% between AMR101 4 g/day and placebo in percent change from baseline in fasting TG levels, assuming an SD of 45% in TG measurements and a significance level (p value) of 0.05, and 80% power to demonstrate noninferiority (p 0.025, 1-sided) of the LDL-cholesterol response between AMR101 4 g/day and placebo with a +6% margin. To accommodate a 10% drop-out rate, recruitment was planned for 648 randomized patients.||-16.2|-26.7|<0.0001
92349692|NCT01047501|184603132|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-10.1||||0.0005|TWO_SIDED|95.0|-15.7|-4.5|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-4.5|-15.7|0.0005
92349693|NCT01047501|184603133|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo with a significance level of 0.05. Non-inferiority tests for percent change from baseline in LDL-C were performed between AMR101 and placebo to determine if AMR101 was statistically non-inferior to placebo with regard to increases in LDL-C. The pre-specified LDL-C criterion for noninferiority was the upper boundary 97.5% confidence interval not crossing the +6% threshold.|Median Difference (Final Values)|-6.2||||0.0067|TWO_SIDED|95.0|-10.5|-1.7|||Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|A sample size of 194 was required to provide 90.6% power to detect a difference of 15% between AMR101 4 g/day and placebo in percent change from baseline in fasting TG levels, assuming an SD of 45% in TG measurements and a significance level (p value) of 0.05, and 80% power to demonstrate noninferiority (p 0.025, 1-sided) of the LDL-cholesterol response between AMR101 4 g/day and placebo with a +6% margin. To accommodate a 10% drop-out rate, recruitment was planned for 648 randomized patients.||-1.7|-10.5|0.0067
92349694|NCT01047501|184603133|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo with a significance level of 0.05. Non-inferiority tests for percent change from baseline in LDL-C were performed between AMR101 and placebo to determine if AMR101 was statistically non-inferior to placebo with regard to increases in LDL-C. The pre-specified LDL-C criterion for noninferiority was the upper boundary 97.5% confidence interval not crossing the +6% threshold.|Median Difference (Final Values)|-3.6||||0.0867|TWO_SIDED|95.0|-7.9|0.5|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||0.5|-7.9|0.0867
92400325|NCT00286468|184692104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.505||||0.005|TWO_SIDED|95.0|1.313|4.78||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||4.780|1.313|0.005
92219164|NCT00789880|184339118|SUPERIORITY_OR_OTHER|||||||0.2||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in IL-13 mRNA expression in lesional skin of psoriatic participants differs by treatment group.||||0.2
92219165|NCT00789880|184339118|SUPERIORITY_OR_OTHER|||||||0.3||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in IL-13 mRNA expression in non-lesional skin of psoriatic participants differs by treatment group.||||0.3
92219166|NCT00487396|184339133|OTHER||||||<|0.0001|||||||McNemar|||"Pathologies were including in the analysis as follows:~* combination of CE+IC procedures but not detected by the combination of SBFT+IC procedures were marked as CE+IC new finding ;~* Pathologies detected by the combination of SBFT+IC procedures but not detected by the combination of CE+IC procedures were marked as SBFT+IC new finding event;~* Pathologies detected by the combination of CE+IC procedures and by the combination of SBFT+IC procedures were marked as same findings event."||||<0.0001
92219167|NCT00487396|184339134|OTHER||||||<|0.0001|||||||McNemar|||"For each category, the numbers of found and missed pathologies were including in the analysis as follows:~* Pathologies detected by CE procedure but not detected by SBFT procedure were marked as CE new finding event;~* Pathologies detected by SBFT procedure but not detected by CE procedure were marked as SBFT new finding event;~* Pathologies detected by both procedures (i.e., CE and SBFT) were marked as same findings event."||||<0.0001
92349695|NCT01047501|184603134|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-13.6||||0.0001|TWO_SIDED|95.0|-17.2|-9.9||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-9.9|-17.2|0.0001
92219168|NCT00487396|184339135|OTHER|||||||0.085|||||||McNemar|||"Pathologies were including in the analysis as follows:~* Pathologies detected by CE procedure but not detected by IC procedure were marked as CE new finding event;~* Pathologies detected by IC procedure but not detected by CE procedure were marked as IC new finding event;~* Pathologies detected by both procedures (i.e., CE and IC) were marked as same findings event."||||0.085
92349696|NCT01047501|184603134|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-5.5||||0.014|TWO_SIDED|95.0|-9.4|-1.7|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-1.7|-9.4|0.0140
92349697|NCT01047501|184603135|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-24.4||||0.0001|TWO_SIDED|95.0|-31.9|-17.0||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-17.0|-31.9|0.0001
92349698|NCT01047501|184603135|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-10.5||||0.017|TWO_SIDED|95.0|-18.3|-2.5|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-2.5|-18.3|0.0170
92349699|NCT01047501|184603136|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-19.0||||0.0001|TWO_SIDED|95.0|-22.2|-15.7||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-15.7|-22.2|0.0001
92400326|NCT00286468|184692105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.955||||0.025|TWO_SIDED|95.0|1.086|3.519||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||3.519|1.086|0.025
92400327|NCT00286468|184692105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.707|||<|0.001|TWO_SIDED|95.0|2.012|6.831||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||6.831|2.012|<0.001
92400328|NCT00286468|184692106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.994|||<|0.001|TWO_SIDED|95.0|1.72|5.213||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||5.213|1.720|<0.001
92400329|NCT00286468|184692106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.401|||<|0.001|TWO_SIDED|95.0|1.95|5.933||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||5.933|1.950|<0.001
92400330|NCT00286468|184692107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.776||||0.115|TWO_SIDED|95.0|0.87|3.627||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||3.627|0.870|0.115
92400331|NCT00286468|184692107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.416|||<|0.001|TWO_SIDED|95.0|1.703|6.851||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||6.851|1.703|<0.001
92219169|NCT01357577|184339157|OTHER|||||||0.48||||||P-Value show above is for post-assessment time point.|Mixed Models Analysis|Mixed-model p-values are adjusted for study site and the baseline total CAPS score.||||||.48
92219170|NCT01357577|184339157|OTHER|||||||0.12||||||The p-value shown above is for the 6-month time point.|Mixed Models Analysis|Mixed-model p-values are adjusted for study site and the baseline total CAPS score.||||||.12
92349700|NCT01047501|184603136|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-8.0||||0.0004|TWO_SIDED|95.0|-11.6|-4.5|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-4.5|-11.6|0.0004
92219171|NCT01357577|184339157|OTHER|||||||0.65||||||The p-value shown above refers to the treatment main effect.|Mixed Models Analysis|||||||.65
92219172|NCT01357577|184339157|OTHER|||||||0.072||||||The p-value shown above refers to the timepoint main effect.|Mixed Models Analysis|||||||.072
92219173|NCT01357577|184339157|OTHER|||||||0.005|||||||Mixed Models Analysis|The p-value shown above refers to the interaction.||||||.0050
92219174|NCT01357577|184339157|OTHER|||||||0.12|||||||Mixed Models Analysis|The p-value shown above refers to the site main effect.||||||.12
92219175|NCT01357577|184339158|OTHER|mixed-effects linear regression model adjusted for study site and the baseline value of the dependent variable.||||||0.12||||||Post-treatment P-value.|Mixed Models Analysis|Mixed-model p-values are adjusted for study site and baseline ASI (Alcohol Use) score.||||||.12
92219176|NCT01357577|184339158|OTHER|||||||0.84||||||6-month P-Value.|Mixed Models Analysis|Mixed-model p-values adjusted for study site and Baseline ASI (Alcohol Use) score.||||||.84
92219177|NCT01357577|184339158|OTHER|||||||0.26||||||treatment main effect|Mixed Models Analysis|Mixed-model p-values adjusted for study site and Baseline ASI (Alcohol Use) score.||||||.26
92219178|NCT01357577|184339158|OTHER|||||||0.14||||||Timepoint main effect P-value|Mixed Models Analysis|Mixed-model p-values adjusted for study site and Baseline ASI (Alcohol Use) score.||||||.14
92219179|NCT01357577|184339158|OTHER|||||||0.29||||||interaction|Mixed Models Analysis|Mixed-model p-values adjusted for study site and Baseline ASI (Alcohol Use) score.||||||.29
92219180|NCT01357577|184339158|OTHER|||||||0.16||||||Site main effect P-Value.|Mixed Models Analysis|Mixed-model p-values adjusted for study site and Baseline ASI (Alcohol Use) score.||||||.16
92219181|NCT01357577|184339159|OTHER|||||||0.66||||||Post-treatment p-value.|Mixed Models Analysis|Mixed-model p-values are adjusted for study site and baseline ASI (drug score).||||||.66
92219182|NCT01357577|184339159|OTHER|||||||0.53||||||6-month P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline ASI (Drug Use) score.||||||.53
92219183|NCT01357577|184339159|OTHER|||||||0.86||||||Treatment main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline ASI (Drug Use) score.||||||.86
92219184|NCT01357577|184339159|OTHER|||||||0.16||||||Timepoint main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline ASI (Drug Use) score.||||||.16
92219185|NCT01357577|184339159|OTHER|||||||0.47||||||Interaction P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline ASI (Drug Use) score.||||||.47
92219186|NCT01357577|184339159|OTHER|||||||0.19||||||Site main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline ASI (Drug Use) score.||||||.19
92219187|NCT01357577|184339160|OTHER|||||||0.18||||||Post-Treatment P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.18
92219188|NCT01357577|184339160|OTHER|||||||0.45||||||P-value at 6 months.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.45
92219189|NCT01357577|184339160|OTHER|||||||0.73||||||Treatment main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.73
92219190|NCT01357577|184339160|OTHER|||||||0.63||||||Timepoint main effect P-Value|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.63
92219191|NCT01357577|184339160|OTHER|||||||0.024||||||Interaction P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.024
92219192|NCT01357577|184339160|OTHER|||||||0.15||||||Site main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.15
92219193|NCT01357577|184339161|OTHER|||||||0.48||||||Post-Treatment P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.48
92219194|NCT01357577|184339161|OTHER|||||||0.2||||||6-Month P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.20
92219195|NCT01357577|184339161|OTHER|||||||0.26||||||Treatment main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.26
92219196|NCT01357577|184339161|OTHER|||||||0.71||||||Timepoint main effect.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.71
92219197|NCT01357577|184339161|OTHER|||||||0.56||||||Interaction main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.56
92219198|NCT01357577|184339161|OTHER|||||||0.51||||||Site main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.51
92219199|NCT00307151|184339190|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.6||||0.015|TWO_SIDED|95.0|3.7|33.6||P-value not adjusted for multiple interim analyses, but adjustment would be negligible because Peto-Haybittle spending function used as basis for calculating repeated confidence intervals used in interim monitoring.|t-test, 2 sided|Risk difference estimate stratified by age (\<12 months vs. \>=12 months)and reports rate on NVP arm minus rate on LPV/r arm|Endpoint rates with standard errors calculated from Kaplan-Meier curves for each treatment group and age stratum. Differences in week 24 failure proportions by treatment calculated weighted by the inverse of the variance in each age stratum.|||33.6|3.7|0.015
92219200|NCT00307151|184339190|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.5|||<|0.001|TWO_SIDED|95.0|11.2|31.8||P-value not adjusted for multiple interim analyses, but adjustment would be negligible because Peto-Haybittle spending function used as basis for calculating repeated confidence intervals used in interim monitoring.|t-test, 2 sided|Risk difference estimate stratified by age (\<12 months vs. \>=12 months) and reports rate on NVP arm minus rate on LPV/r arm|Endpoint rates with standard errors calculated from Kaplan-Meier curves for each treatment group and age stratum. Differences in week 24 failure proportions by treatment calculated weighted by the inverse of the variance in each age stratum.|||31.8|11.2|<0.001
92219201|NCT01308008|184339231|SUPERIORITY||coefficient|0.05||||0.16|TWO_SIDED|95.0|-0.02|0.13|||Regression, Logistic|||||0.13|-0.02|0.16
92219202|NCT01308008|184339232|SUPERIORITY||coefficient|34.0||||0.17|TWO_SIDED|95.0|-15.0|83.0|||Regression, Logistic|||||83|-15|0.17
92219203|NCT01308008|184339233|SUPERIORITY||coefficient|-8.7||||0.5|TWO_SIDED|95.0|-35.0|17.0|||Regression, Logistic|||||17|-35|0.5
92219204|NCT02187172|184339236|SUPERIORITY||Mean Difference (Final Values)|-0.2456|STANDARD_ERROR_OF_MEAN|0.07||0.0012|TWO_SIDED|95.0|-0.3873|-0.104|||Regression, Linear|||Comparison during RCT period||-0.1040|-0.3873|0.0012
92160441|NCT00813488|184209124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.059||||0.8444|TWO_SIDED|95.0|0.6|1.9|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.9|0.6|0.8444
92349701|NCT01047501|184603137|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-9.3||||0.0001|TWO_SIDED|95.0|-12.3|-6.1||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-6.1|-12.3|0.0001
92349702|NCT01047501|184603137|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-3.8||||0.017|TWO_SIDED|95.0|-6.9|-0.7|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-0.7|-6.9|0.0170
92349703|NCT04602000|184603142|SUPERIORITY||Difference estimated using CMH weights|-8.0|||<|0.0001|TWO_SIDED|95.0|-11.7|-4.5|||Cochran-Mantel-Haenszel|P-value was calculated using CMH test stratified by age (≥60 vs. \<60 years), baseline comorbidities (Yes vs. No) and region (US vs. EU vs. Other)|The 95% stratified Newcombe CI with CMH weights was presented.|||-4.5|-11.7|<0.0001
92349704|NCT00693303|184603180|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||t-test, 2 sided|||||||.27
92349705|NCT00195429|184603182|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Fisher Exact|||||||1.0
92349706|NCT00195429|184603183|SUPERIORITY_OR_OTHER_LEGACY|||||||0.361||95.0|||||Student's t-test|||||||0.361
92349707|NCT04837521|184603203|SUPERIORITY||γ01|0.25||||0.03|TWO_SIDED||||||t-test, 2 sided||analysis completed using the 1 week follow up data|||||.03
92349708|NCT04837521|184603204|OTHER|The conditions were expected to be similar, and the primary interest of the analysis was changes over time across both groups.|Mean Difference (Final Values)|3.4|||||TWO_SIDED|95.0|2.32|4.49||To estimate the mean improvement in PSFS across the entire sample, we calculated a posterior predictive distribution of within-person change scores between time fixed equal to 0 and equal to -1.|Bayesian framework|||PSFS scores were analyzed using mixed-effects linear growth models with time, treatment condition, and their interaction as predictors. Random effects modeled variation in intercepts, slopes over time, and their covariance. Time was specified as a continuous variable, centered on the final observation date. The SG group served as the reference level for the treatment factor. Models were estimated in a Bayesian framework using default priors in the brms package.||4.49|2.32|
92160442|NCT00813488|184209125|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6033|||<|0.0001|TWO_SIDED|95.0|1.4|1.8|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A cumulative logit link function and independent working correlation were applied in this model. Treatment differences for each time point were measured across all categories of responses.||1.8|1.4|<0.0001
92349709|NCT05561140|184603236|SUPERIORITY||Difference in percentage|-0.3|||=|1|TWO_SIDED|95.0|-10.9|10.2|||Cochran-Mantel-Haenszel|||||10.2|-10.9|=1.0000
92349710|NCT05561140|184603238|SUPERIORITY||Least Square (LS) Mean Difference|-8.2|||=|0.0297|TWO_SIDED|95.0|-15.6|-0.8|||Mixed Models Analysis|||The mixed model for repeated measures (MMRM) model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for stratification factors.||-0.8|-15.6|=0.0297
92349711|NCT05561140|184603239|SUPERIORITY||Difference in percentage|-8.1|||=|0.3456|TWO_SIDED|95.0|-26.9|10.7|||Cochran-Mantel-Haenszel|||||10.7|-26.9|=0.3456
92160443|NCT00813488|184209126|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3334|||<|0.0001|TWO_SIDED|95.0|1.2|1.5|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A cumulative logit link function and independent working correlation were applied in this model. Treatment differences for each time point were measured across all categories of responses.||1.5|1.2|<0.0001
92160444|NCT02926937|184209144|SUPERIORITY||Difference in Least Squares (LS) Mean|-0.69|||<|0.0001|TWO_SIDED|95.0|-0.975|-0.415|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.415|-0.975|<0.0001
92160445|NCT02926937|184209145|SUPERIORITY||Difference in LS Mean|-0.565||||0.0141|TWO_SIDED|95.0|-1.0166|-0.114|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, country, treatment-by-country as fixed effects, and baseline HbA1c as a covariate.||-0.1140|-1.0166|0.0141
92219205|NCT02187172|184339236|SUPERIORITY||Mean Difference (Final Values)|-0.0151|STANDARD_ERROR_OF_MEAN|0.0353||0.6718|TWO_SIDED|95.0|-0.0867|0.0565|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||0.0565|-0.0867|0.6718
92349712|NCT00221104|184603251|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.8234|TWO_SIDED|95.0|0.73|1.29|||Stratified log-rank test|log-rank test adjusted for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the adjusted hazard ratio (HR) and the 95% confidence interval (CI) were calculated by the Cox proportional hazard model with for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the stratification factors at randomization: stroke subtype (atherothrombotic infarction vs. others), high blood pressure (≥150/90 mmHg vs. not), and diabetes mellitus (absence vs. presence)||1.29|0.73|0.8234
92219206|NCT02187172|184339237|SUPERIORITY||Mean Difference (Final Values)|-64.97|STANDARD_ERROR_OF_MEAN|44.88||0.1159|TWO_SIDED|95.0|-115.83|25.89|||Regression, Linear|||Comparison during RCT period||25.89|-115.83|0.1159
92219207|NCT02187172|184339237|SUPERIORITY||Mean Difference (Final Values)|6.65|STANDARD_ERROR_OF_MEAN|22.24||0.7666|TWO_SIDED|95.0|-38.41|51.72|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||51.72|-38.41|0.7666
92349713|NCT00221104|184603252|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.0047|TWO_SIDED|95.0|0.15|0.74|||Stratified log-rank test|log-rank test adjusted for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|The adjusted hazard ratio (HR) and the 95% confidence interval (CI) were calculated by the Cox proportional hazard model with for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the stratification factors at randomization: stroke subtype (atherothrombotic infarction vs. others), high blood pressure (≥150/90 mmHg vs. not), and diabetes mellitus (absence vs. presence)||0.74|0.15|0.0047
92349714|NCT00221104|184603253|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.3075|TWO_SIDED|95.0|0.81|1.91|||Stratified log-rank test|log-rank test adjusted for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|The adjusted hazard ratio (HR) and the 95% confidence interval (CI) were calculated by the Cox proportional hazard model with for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the stratification factors at randomization: stroke subtype (atherothrombotic infarction vs. others), high blood pressure (≥150/90 mmHg vs. not), and diabetes mellitus (absence vs. presence)||1.91|0.81|0.3075
92349715|NCT00221104|184603254|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.36||||0.1986|TWO_SIDED|95.0|0.61|9.14|||Stratified log-rank test|log-rank test adjusted for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|The adjusted hazard ratio (HR) and the 95% confidence interval (CI) were calculated by the Cox proportional hazard model with for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the stratification factors at randomization: stroke subtype (atherothrombotic infarction vs. others), high blood pressure (≥150/90 mmHg vs. not), and diabetes mellitus (absence vs. presence)||9.14|0.61|0.1986
92349716|NCT00221104|184603255|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9953|TWO_SIDED|95.0|0.45|2.22|||Stratified log-rank test|log-rank test adjusted for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|The adjusted hazard ratio (HR) and the 95% confidence interval (CI) were calculated by the Cox proportional hazard model with for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the stratification factors at randomization: stroke subtype (atherothrombotic infarction vs. others), high blood pressure (≥150/90 mmHg vs. not), and diabetes mellitus (absence vs. presence)||2.22|0.45|0.9953
92349717|NCT02989389|184603262|SUPERIORITY||Mean Difference (Final Values)|-11.57||||0.215|TWO_SIDED|90.0|-29.52|10.96|||Mixed Models Analysis|||Aβ 1-40||10.96|-29.52|0.215
92349718|NCT02989389|184603262|SUPERIORITY||Mean Difference (Final Values)|-60.53|||<|0.001|TWO_SIDED|90.0|-69.79|-48.43|||Mixed Models Analysis|||Aβ 1-40||-48.43|-69.79|<0.001
92349719|NCT02989389|184603262|SUPERIORITY||Mean Difference (Final Values)|-87.07|||<|0.001|TWO_SIDED|90.0|-90.21|-82.92|||Mixed Models Analysis|||Aβ 1-40||-82.92|-90.21|<0.001
92349720|NCT02989389|184603262|SUPERIORITY||Mean Difference (Final Values)|-19.6||||0.015|TWO_SIDED|90.0|-33.69|-2.51|||Mixed Models Analysis|||Aβ 1-42||-2.51|-33.69|0.015
92349721|NCT02989389|184603262|SUPERIORITY||Mean Difference (Final Values)|-65.41|||<|0.001|TWO_SIDED|90.0|-72.23|-56.92|||Mixed Models Analysis|||Aβ 1-42||-56.92|-72.23|<0.001
92349722|NCT02989389|184603262|SUPERIORITY||Mean Difference (Final Values)|-84.56|||<|0.001|TWO_SIDED|90.0|-88.97|-78.38|||Mixed Models Analysis|||Aβ 1-42||-78.38|-88.97|<0.001
92349723|NCT00088153|184603271|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||After controlling for baseline age and weight changes|t-test, 2 sided|We also used a mixed model analysis of variance (PROC MIXED), to analyze longitudinal data.||Power analysis: We have previously demonstrated that normal female adolescents gain bone density at the rate of 0.039 +/- 0.0507 per year. The pooled SD in that study was 0.046. Based on these data, with a sample size of 110 girls with anorexia nervosa (AN), half of whom are randomized to receive estrogen and half placebo (with a 10% drop-out rate), there will be an 80% chance that we will detect an increase in bone density to 75% of normal in the girls who receive estrogen.||||<0.05
92219208|NCT02187172|184339238|SUPERIORITY||Mean Difference (Final Values)|-80.89|STANDARD_ERROR_OF_MEAN|30.46||0.0115|TWO_SIDED|95.0|-142.55|-19.23|||Regression, Linear|||Comparison during RCT period||-19.23|-142.55|0.0115
92219209|NCT02187172|184339238|SUPERIORITY||Mean Difference (Final Values)|-1.99|STANDARD_ERROR_OF_MEAN|14.11||0.8883|TWO_SIDED|95.0|-30.58|26.59|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||26.59|-30.58|0.8883
92219210|NCT02187172|184339239|SUPERIORITY||Mean Difference (Final Values)|-3027.21|STANDARD_ERROR_OF_MEAN|3180.58||0.3472|TWO_SIDED|95.0|-9465.95|3411.54|||Regression, Linear|||Comparison during RCT period||3411.54|-9465.95|0.3472
92349724|NCT00088153|184603272|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||t-test, 2 sided|||The null hypothesis was that there would be no differences between the groups for changes in P1NP levels over time||||>0.05
92219211|NCT02187172|184339239|SUPERIORITY||Mean Difference (Final Values)|-1974.63|STANDARD_ERROR_OF_MEAN|1659.11||0.2416|TWO_SIDED|95.0|-5336.3|1387.04|||Regression, Linear|||Combined ustekinumab and placebo groups for active treatment period analysis.||1387.04|-5336.30|0.2416
92219212|NCT02187172|184339240|SUPERIORITY||Mean Difference (Final Values)|20.66|STANDARD_ERROR_OF_MEAN|24.75||0.6742|TWO_SIDED|95.0|-78.03|119.34|||Regression, Linear|||Comparison during RCT period||119.34|-78.03|0.6742
92349725|NCT00088153|184603273|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||The p value was adjusted for age and weight changes|t-test, 2 sided|||The null hypothesis was that the groups would not differ for changes in spine bone density z-scores over the study duration||||<0.05
92219213|NCT02187172|184339240|SUPERIORITY||Mean Difference (Final Values)|47.0|STANDARD_ERROR_OF_MEAN|35.84||0.1979|TWO_SIDED|95.0|-25.63|11963.0|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||11963|-25.63|0.1979
92349726|NCT01063114|184603282|OTHER||3-Year Cumulative incidence|26.0|||||TWO_SIDED|95.0|16.0|37.0||||||||37|16|
92349727|NCT01063114|184603282|OTHER||5-Year Cumulative incidence|27.0|||||TWO_SIDED|95.0|17.0|38.0||||||||38|17|
92349728|NCT01063114|184603283|OTHER||3-Year Cumulative incidence|46.0|||||TWO_SIDED|95.0|34.0|57.0||||||||57|34|
92349729|NCT01063114|184603283|OTHER||5-Year Cumulative incidence|67.0|||||TWO_SIDED|95.0|54.0|77.0||||||||77|54|
92349730|NCT01063114|184603284|OTHER||Mean Difference (Net)|-11.0||||0.01024|TWO_SIDED|95.0|-19.2|-2.9|||t-test, 2 sided|Paired t test||||-2.9|-19.2|0.01024
92400332|NCT00286468|184692108|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.991||||0.986|TWO_SIDED|95.0|0.365|2.689||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||2.689|0.365|0.986
92349731|NCT01063114|184603285|OTHER||3-Year Survival Probability|83.2|||||TWO_SIDED|95.0|75.8|91.3||||||||91.3|75.8|
92349732|NCT01063114|184603285|OTHER||5-Year Survival Probability|79.6|||||TWO_SIDED|95.0|71.7|88.5||||||||88.5|71.7|
92219214|NCT02187172|184339241|SUPERIORITY||Mean Difference (Final Values)|-7884.29|STANDARD_ERROR_OF_MEAN|7780.29||0.3173|TWO_SIDED|95.0|-23634.67|7566.1|||Regression, Linear|||Comparison during RCT period||7566.10|-23634.67|0.3173
92349733|NCT03409367|184603288|EQUIVALENCE|The risk ratio is equal to 1.|Risk Ratio (RR)|0.84||||0.019|TWO_SIDED|95.0|0.73|0.97|||Regression, log-binomial||Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations.|The null hypothesis is that the cumulative incidence of atopic dermatitis does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio is equal to 1.||0.97|0.73|0.019
92219215|NCT02187172|184339241|SUPERIORITY||Mean Difference (Final Values)|-3782.54|STANDARD_ERROR_OF_MEAN|4073.25||0.3591|TWO_SIDED|95.0|-12035.72|4470.64|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||4470.64|-12035.72|0.3591
92219216|NCT02187172|184339242|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|2.54||0.9767|TWO_SIDED|95.0|-5.22|5.07|||Regression, Linear|||Comparison during RCT period||5.07|-5.22|0.9767
92219217|NCT02187172|184339242|SUPERIORITY||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|1.09||0.3205|TWO_SIDED|95.0|-3.29|1.11|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||1.11|-3.29|0.3205
92349734|NCT03409367|184603289|EQUIVALENCE|The risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.76||||0.002|TWO_SIDED|95.0|0.65|0.9|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations.||The null hypothesis is that the cumulative incidence of parent-reported AD does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||0.90|0.65|0.002
92349735|NCT03409367|184603290|EQUIVALENCE|Risk ratio is equal to 1.|Risk Ratio (RR)|0.86||||0.323|TWO_SIDED|95.0|0.65|1.15||Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations.|Regression, log-binomial|||The null hypothesis is that the cumulative incidence of AD by modified UK Working Party criteria does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||1.15|0.65|0.323
92349736|NCT03409367|184603291|EQUIVALENCE|Risk ratio is equal to 1.|Risk Ratio (RR)|0.83||||0.044|TWO_SIDED|95.0|0.7|0.99|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations.||The null hypothesis is that the cumulative incidence of AD by CEQ does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||0.99|0.70|0.044
92349737|NCT03409367|184603292|EQUIVALENCE|The risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.68||||0.0004|TWO_SIDED|95.0|0.55|0.84|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations.||The null hypothesis is that the cumulative incidence of AD with prescription or OTC therapies in the health record does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||0.84|0.55|0.0004
92349738|NCT03409367|184603293|EQUIVALENCE|The odds ratio (OR) is equal to 1. An OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD, as operationalized here by the type of recommended treatment.|Odds Ratio (OR)|0.7||||0.004|TWO_SIDED|95.0|0.55|0.89||Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations of 199 missing outcomes.|Regression, proportional odds|||The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms.||0.89|0.55|0.004
92400333|NCT00286468|184692108|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05||||0.131|TWO_SIDED|95.0|0.808|5.203||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||5.203|0.808|0.131
92400334|NCT00286468|184692109|SUPERIORITY_OR_OTHER|||||||0.626||95.0||||no multiplicity adjustments|Mantel Haenszel|OR and 95% CI not estimable using logistic regression model. Tested using extended Mantel-Haenszel test.||||||0.626
92400335|NCT00286468|184692109|SUPERIORITY_OR_OTHER|||||||0.178||||||no multiplicity adjustments|Mantel Haenszel|OR and 95% CI not estimable using logistic regression model. Tested using extended Mantel-Haenszel test.||||||0.178
92160446|NCT02926937|184209146|SUPERIORITY||Difference in LS Mean|-0.346||||0.2081|TWO_SIDED|95.0|-0.8853|0.1928|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups under Amendment 1 randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, country, treatment-by-country as fixed effects, and baseline HbA1c as a covariate.||0.1928|-0.8853|0.2081
92160447|NCT02926937|184209147|SUPERIORITY||Difference in LS Mean|-1.556|||<|0.0001|TWO_SIDED|95.0|-2.1876|-0.9234|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥ 130mmHg) at screening, and country as fixed effects, and baseline fasting plasma glucose as a covariate.||-0.9234|-2.1876|<0.0001
92160448|NCT02926937|184209148|SUPERIORITY||Difference in LS Mean|-3.5||||0.168|TWO_SIDED|95.0|-8.478|1.476|||ANCOVA|||The change from baseline to Week 12 is analyzed using analysis ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening and country as fixed effects, and baseline SBP as a covariate.||1.476|-8.478|0.1680
92219218|NCT02187172|184339243|SUPERIORITY||Mean Difference (Final Values)|-14.79|STANDARD_ERROR_OF_MEAN|19.96||0.4632|TWO_SIDED|95.0|-55.19|25.61|||Regression, Linear|||Comparison during RCT period||25.61|-55.19|0.4632
92349739|NCT03409367|184603294|EQUIVALENCE|Odds ratio (OR) is equal to 1. An OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD, as operationalized here by the type of treatment.|Odds Ratio (OR)|0.72||||0.013|TWO_SIDED|95.0|0.56|0.93|||Regression, proportional odds|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms.||0.93|0.56|0.013
92349740|NCT03409367|184603295|EQUIVALENCE|The risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.92||||0.509|TWO_SIDED|95.0|0.73|1.17|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the cumulative incidence of skin infections in the health record does not differ between the Daily Emollient and Natural Skin arms.||1.17|0.73|0.509
92349741|NCT03409367|184603296|EQUIVALENCE|The risk ratio is equal to 1.|Risk Ratio (RR)|1.05||||0.9|TWO_SIDED|95.0|0.5|2.18|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the cumulative incidence of asthma in the health record does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||2.18|0.50|0.900
92349742|NCT03409367|184603297|EQUIVALENCE|An ordinal OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD symptoms among those diagnosed with AD.|Odds Ratio (OR)|1.47||||0.064|TWO_SIDED|95.0|0.98|2.21|||Regression, proportional odds|Adjusted for family history of atopy (stratified randomization).|The daily emollient is in the numerator and the natural skin is in the denominator.|The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms, or that the ordinal odds ratio (OR) is equal to 1.||2.21|0.98|0.064
92349743|NCT03409367|184603298|EQUIVALENCE|An ordinal OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD symptoms among those diagnosed with AD.|Odds Ratio (OR)|1.62||||0.007|TWO_SIDED|95.0|1.14|2.3|||Regression, proportional odds|Adjusted for family history of atopy (stratified randomization).|Daily emollient in the numerator and natural skin in the denominator.|The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms, or that the ordinal odds ratio (OR) is equal to 1.||2.30|1.14|0.007
92349744|NCT03409367|184603299|EQUIVALENCE|The ordinal odds ratio (OR) is equal to 1. An OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD symptoms among those diagnosed with AD.|Odds Ratio (OR)|1.45||||0.07|TWO_SIDED|95.0|0.97|2.18|||Regression, proportional odds|Adjusted for family history of atopy (stratified randomization).|Daily moisturizer is the numerator and natural skin is the denominator.|The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms, or that the ordinal odds ratio (OR) is equal to 1.||2.18|0.97|0.070
92349745|NCT03409367|184603300|EQUIVALENCE|Odds ratio (OR) is equal to 1. An OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD symptoms among those diagnosed with AD.|Odds Ratio (OR)|1.36||||0.085|TWO_SIDED|95.0|0.96|1.91|||Regression, proportional odds|Adjusted for family history of atopy (stratified randomization).||The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms, or that the odds ratio (OR) is equal to 1. An OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD symptoms among those diagnosed with AD.||1.91|0.96|0.085
92160449|NCT02926937|184209149|SUPERIORITY||Difference in LS Mean|-0.78||||0.5467|TWO_SIDED|95.0|-3.311|1.753|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||1.753|-3.311|0.5467
92160450|NCT02926937|184209150|SUPERIORITY||Difference in LS Mean|-3.19||||0.0193|TWO_SIDED|95.0|-5.869|-0.518|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||-0.518|-5.869|0.0193
92160451|NCT02926937|184209151|SUPERIORITY||Difference in LS Mean|-1.54||||0.0005|TWO_SIDED|95.0|-2.404|-0.676|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline weight as a covariate.||-0.676|-2.404|0.0005
92400336|NCT00286468|184692110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|||<|0.001|TWO_SIDED|95.0|0.32|1.16||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.16|0.32|<0.001
92400337|NCT00286468|184692110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.006|TWO_SIDED|95.0|0.17|1.02||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.02|0.17|0.006
92400338|NCT00286468|184692111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69||||0.006|TWO_SIDED|95.0|0.2|1.18||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.18|0.20|0.006
92400339|NCT00286468|184692111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.04|TWO_SIDED|95.0|0.02|1.01||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.01|0.02|0.040
92400340|NCT00286468|184692112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||<|0.001|TWO_SIDED|95.0|0.47|1.73||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.73|0.47|<0.001
92400341|NCT00286468|184692112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91||||0.005|TWO_SIDED|95.0|0.28|1.55||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.55|0.28|0.005
92400342|NCT00286468|184692113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.018|TWO_SIDED|95.0|0.14|1.46||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.46|0.14|0.018
92400343|NCT00286468|184692113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88||||0.01|TWO_SIDED|95.0|0.21|1.54||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.54|0.21|0.010
92400344|NCT00072462|184692141|SUPERIORITY||Hazard Ratio (HR)|0.88|STANDARD_DEVIATION|0.12||0.33|TWO_SIDED|95.0|0.67|1.14|||Regression, Cox|Univariate||||1.14|0.67|0.33
92400345|NCT00072462|184692141|SUPERIORITY||Hazard Ratio (HR)|0.87|STANDARD_DEVIATION|0.12||0.33|TWO_SIDED|95.0|0.66|1.15|||Regression, Cox|Covariates included in model: Hormone Replacement Therapy use, Age, BMI, Use of radiotherapy, Extent of margins, Grade(categorical: low, medium, high)||||1.15|0.66|0.33
92400346|NCT00072462|184692142|SUPERIORITY||Hazard Ratio (HR)|0.72|STANDARD_DEVIATION|0.12||0.06|TWO_SIDED|95.0|0.52|1.01|||Regression, Cox|Univariate||||1.01|0.52|0.06
92400347|NCT00072462|184692142|SUPERIORITY||Hazard Ratio (HR)|0.74|STANDARD_DEVIATION|0.13||0.09|TWO_SIDED|95.0|0.52|1.05|||Regression, Cox|Covariates included in model: Hormone Replacement Therapy use, Age, BMI, Use of radiotherapy, Extent of margins, Grade(categorical: low, medium, high)||||1.05|0.52|0.09
92400348|NCT00072462|184692143|SUPERIORITY||Hazard Ratio (HR)|1.64|STANDARD_DEVIATION|0.54||0.13|TWO_SIDED|95.0|0.75|2.84|||Regression, Cox|Univariate||||2.84|0.75|0.13
92400349|NCT00072462|184692143|SUPERIORITY||Hazard Ratio (HR)|1.46|STANDARD_DEVIATION|0.5||0.26|TWO_SIDED|95.0|0.75|2.84|||Regression, Cox|Covariates included in model: Hormone Replacement Therapy use, Age, BMI, Use of radiotherapy, Extent of margins, Grade(categorical: low, medium, high)||||2.84|0.75|0.26
92400350|NCT00072462|184692144|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.97|TWO_SIDED|95.0|0.21|5.11|||Regression, Cox|Univariate||||5.11|0.21|0.97
92160452|NCT02926937|184209152|SUPERIORITY||Difference in LS Mean|-1.17||||0.0406|TWO_SIDED|95.0|-2.281|-0.05|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130mmHg) at screening, and country as fixed effects, and baseline weight as a covariate.||-0.050|-2.281|0.0406
92160453|NCT02926937|184209153|SUPERIORITY||Percentage Difference|12.6||||0.0037|TWO_SIDED|95.0|4.18|21.02|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups from each stratum (randomization strata of HbA1c (\<=8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, \>=130 mmHg) at screening) using Cochran-Mantel-Haenszel weights.||21.02|4.18|0.0037
92160454|NCT02926937|184209154|SUPERIORITY||Percentage Difference|19.2||||0.0007|TWO_SIDED|95.0|8.39|30.0|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups from each stratum (randomization strata of HbA1c (\<=8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, \>=130 mmHg) at screening) using Cochran-Mantel-Haenszel weights.||30.00|8.39|0.0007
92160455|NCT02926937|184209155|SUPERIORITY||Difference in LS Mean|-0.67|||<|0.0001|TWO_SIDED|95.0|-0.989|-0.354|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.354|-0.989|<0.0001
92160456|NCT00126113|184209175|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|Analysis for main effect of group||||||>0.05
92219219|NCT02187172|184339243|SUPERIORITY||Mean Difference (Final Values)|-7.24|STANDARD_ERROR_OF_MEAN|11.47||0.5316|TWO_SIDED|95.0|-30.47|15.99|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||15.99|-30.47|0.5316
92219220|NCT02187172|184339244|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.68||0.1928|TWO_SIDED|95.0|-2.27|0.47|||Regression, Linear|||Comparison during RCT period||0.47|-2.27|0.1928
92219221|NCT02187172|184339244|SUPERIORITY||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.34||0.058|TWO_SIDED|95.0|-1.36|0.02|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||0.02|-1.36|0.0580
92219222|NCT02187172|184339245|SUPERIORITY||Mean Difference (Final Values)|-4.14|STANDARD_ERROR_OF_MEAN|11.41||0.7185|TWO_SIDED|95.0|-27.24|18.96|||Regression, Linear|||Comparison during RCT period||18.96|-27.24|0.7185
92219223|NCT02187172|184339245|SUPERIORITY||Mean Difference (Final Values)|-8.35|STANDARD_ERROR_OF_MEAN|8.41||0.3271|TWO_SIDED|95.0|-25.4|8.69|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||8.69|-25.40|0.3271
92219224|NCT02187172|184339246|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.51||0.3124|TWO_SIDED|95.0|-1.56|0.51|||Regression, Linear|||Comparison during RCT period||0.51|-1.56|0.3124
92275650|NCT01706198|184453797|OTHER||Ratio|1.02||||0.461|TWO_SIDED|95.0|0.97|1.08||GLM assuming NBD adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age|Generalized Linear Model (GLM)||Ratio comparing FF/VI with Usual Care has been presented.|||1.08|0.97|0.461
92349746|NCT03409367|184603301|EQUIVALENCE|The risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.75||||0.079|TWO_SIDED|95.0|0.55|1.03|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the cumulative incidence of immediate food allergy reactions does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||1.03|0.55|0.079
92349747|NCT03409367|184603302|EQUIVALENCE|Risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.87||||0.669|TWO_SIDED|95.0|0.45|1.66|||Regression, log-binomial|||The null hypothesis is that the cumulative incidence of food allergies does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||1.66|0.45|0.669
92349748|NCT03409367|184603303|EQUIVALENCE|Risk ratio (RR) is equal to 1. Alternatively, a RR \< 1 could be considered evidence that daily emollient is associated with lower incidence of AD.|Risk Ratio (RR)|0.77||||0.013|TWO_SIDED|95.0|0.62|0.95|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the cumulative incidence of AD does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1. Alternatively, a RR \< 1 could be considered evidence that daily emollient is associated with lower incidence of AD.||0.95|0.62|0.013
92349749|NCT03409367|184603304|EQUIVALENCE|Risk ratio (RR) is equal to 1. Alternatively, a RR \< 1 could be considered evidence that daily emollient is associated with lower incidence of AD.|Risk Ratio (RR)|0.8||||0.009|TWO_SIDED|95.0|0.67|0.94|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the cumulative incidence of AD does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1. Alternatively, a RR \< 1 could be considered evidence that daily emollient is associated with lower incidence of AD.||0.94|0.67|0.009
92349750|NCT03409367|184603305|EQUIVALENCE|Risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.77||||0.012|TWO_SIDED|95.0|0.63|0.94|||Regression, log-binomial|Adjusted for primary care site. Adjusted for multiple imputations of 121 missing outcomes.||The null hypothesis is that the cumulative incidence of AD does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||0.94|0.63|0.012
92349751|NCT03409367|184603306|EQUIVALENCE|Risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.9||||0.303|TWO_SIDED|95.0|0.73|1.1|||Regression, log-binomial|Adjusted for primary care site. Adjusted for multiple imputations of 78 missing outcomes.||The null hypothesis is that the cumulative incidence of AD does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||1.10|0.73|0.303
92349752|NCT03279458|184603362|OTHER|least square regression analysis|correlation coefficient (R)|0.94|||<|0.05|TWO_SIDED|95.0|0.88|0.97|||Regression, Linear|||||0.97|0.88|<0.05
92349753|NCT00898807|184603383|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.93||||0.036|TWO_SIDED|95.0|-1.8|-0.06||P-value was not adjusted for multiple comparisons. All p-values are two-sided and p\<0.05 was the threshold for statistical significance.|Mixed Models Analysis|Mixed effects model w/ random intercept for patient, visit indicator, treatment by visit interactions and adjusted for baseline NBRS-A \& cognition.|Negative numbers favor citalopram group.|Primary assessment of efficacy was based on intention-to-treat comparison of the difference in the NBRS-A scores at week 9 and comparison at week 9 for the CGIC. For the NBRS-A, the study was designed to have 85% power to detect a standardized difference at week 9 of 40% for citalopram compared to placebo at week 9.||-0.06|-1.80|0.036
92349754|NCT00898807|184603384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.007|TWO_SIDED|95.0|1.23|3.69||All p-values are two-sided and p \<0.05 was the threshold for statistical significance. No adjustments were made for multiple comparisons.|Proportional odds|estimated treatment effect from the proportional odds model|Positive numbers favors citalopram.|Primary assessment of efficacy was based on intention-to-treat comparison of the difference in the NBRS-A scores at week 9 and comparison at week 9 for the CGIC. For the CGIC proportional odds analysis, the study was designed to have power greater than 80% to detect a difference of 20% between citalopram and placebo in the proportions of patients who improve (or worsen).||3.69|1.23|0.007
92349755|NCT03928327|184603387|OTHER||Geometric Least Squares (LS) Mean Ratio|2.86|||||TWO_SIDED|90.0|2.48|3.3|||||Linear mixed-effects model was used for analysis, using fixed-effect(treatment), random-effect(participants). Geometric mean ratios(GMR), 90% confidence interval(CI) calculated using exponentiation of treatment least squares means(LSMs) difference.|||3.30|2.48|
92400351|NCT00072462|184692144|SUPERIORITY||Hazard Ratio (HR)|1.08|STANDARD_DEVIATION|0.88||0.93|TWO_SIDED|95.0|0.22|5.36|||Regression, Cox|Covariates included in model: Hormone Replacement Therapy use, Age, BMI, Use of radiotherapy, Extent of margins, Grade(categorical: low, medium, high)||||5.36|0.22|0.93
92400352|NCT00072462|184692145|SUPERIORITY||Hazard Ratio (HR)|0.93|STANDARD_DEVIATION|0.17||0.67|TWO_SIDED|95.0|0.65|1.32|||Regression, Cox|Univariate||||1.32|0.65|0.67
92349756|NCT03928327|184603388|OTHER||Geometric LS Mean Ratio|0.08|||||TWO_SIDED|90.0|0.07|0.11|||||Linear mixed-effects model was used for analysis, using fixed-effect (treatment) and random-effect (participants). GMR and 90% CI was calculated using exponentiation of treatment LSMs difference.|||0.11|0.07|
92349757|NCT03928327|184603389|OTHER||Geometric LS Mean Ratio|6.27|||||TWO_SIDED|90.0|5.2|7.56|||||Linear mixed-effects model was used for analysis, using fixed-effect (treatment) and random-effect (participants). GMR and 90% CI was calculated using exponentiation of treatment LSMs difference.|||7.56|5.20|
92349758|NCT03928327|184603390|OTHER||Geometric LS Mean Ratio|0.05|||||TWO_SIDED|90.0|0.04|0.07|||||Linear mixed-effects model was used for analysis, using fixed-effect (treatment) and random-effect (participants). GMR and 90% CI was calculated using exponentiation of treatment LSMs difference.|||0.07|0.04|
92349759|NCT01482221|184603394|SUPERIORITY_OR_OTHER||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|1.695||0.63|TWO_SIDED|95.0|-4.519|2.152||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Mixed models for repeated measures|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit, treatment by visit interaction, and baseline MADRS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline MADRS score by visit interaction are fixed effects in the model; pooled center is a random effect.||2.152|-4.519|0.630
92349760|NCT01482221|184603394|SUPERIORITY_OR_OTHER||LS mean difference|-1.21|STANDARD_ERROR_OF_MEAN|1.701||0.476|TWO_SIDED|95.0|-4.563|2.134||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline MADRS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline MADRS score by visit interaction are fixed effects in the model; pooled center is a random effect.||2.134|-4.563|0.476
92349761|NCT01482221|184603395|SUPERIORITY_OR_OTHER||LS mean difference|-2.05|STANDARD_ERROR_OF_MEAN|1.816||0.63|TWO_SIDED|95.0|-5.628|1.522||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Mixed models for repeated measures|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit, treatment by visit interaction, and baseline MADRS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline MADRS score by visit interaction are fixed effects in the model; pooled center is a random effect.||1.522|-5.628|0.630
92349762|NCT01482221|184603395|SUPERIORITY_OR_OTHER||LS mean difference|0.88|STANDARD_ERROR_OF_MEAN|1.83||0.63|TWO_SIDED|95.0|-2.72|4.485||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline MADRS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline MADRS score by visit interaction are fixed effects in the model; pooled center is a random effect.||4.485|-2.720|0.630
92349763|NCT01482221|184603396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07|STANDARD_ERROR_OF_MEAN|0.366||0.852|TWO_SIDED|95.0|0.544|2.089||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Regression, Logistic|||Logistic regression model including treatment as a fixed effect and the baseline MADRS total score as a covariate.||2.089|0.544|0.852
92349764|NCT01482221|184603396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08|STANDARD_ERROR_OF_MEAN|0.37||0.821|TWO_SIDED|95.0|0.552|2.115||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Regression, Logistic|||Logistic regression model including treatment as a fixed effect and the baseline MADRS total score as a covariate.||2.115|0.552|0.821
92349765|NCT01482221|184603397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.318||0.751|TWO_SIDED|95.0|0.485|1.686|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||1.686|0.485|0.751
92349766|NCT01482221|184603397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|STANDARD_ERROR_OF_MEAN|0.315||0.555|TWO_SIDED|95.0|0.65|2.233|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||2.233|0.650|0.555
92160457|NCT00126113|184209176|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Analysis for main effect of group|ANOVA|||||||>0.05
92275651|NCT01706198|184453799|OTHER||Ratio|0.99||||0.822|TWO_SIDED|95.0|0.91|1.08||GLM assuming NBD adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age|Generalized Linear Model (GLM)||Ratio comparing FF/VI with Usual Care has been presented.|||1.08|0.91|0.822
92349767|NCT01482221|184603398|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27|STANDARD_ERROR_OF_MEAN|0.304||0.434|TWO_SIDED|95.0|0.699|2.301|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||2.301|0.699|0.434
92349768|NCT01482221|184603398|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71|STANDARD_ERROR_OF_MEAN|0.322||0.286|TWO_SIDED|95.0|0.377|1.334|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||1.334|0.377|0.286
92349769|NCT01482221|184603399|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42|STANDARD_ERROR_OF_MEAN|0.382||0.357|TWO_SIDED|95.0|0.672|3.007|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||3.007|0.672|0.357
92349770|NCT01482221|184603399|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33|STANDARD_ERROR_OF_MEAN|0.387||0.463|TWO_SIDED|95.0|0.622|2.84|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||2.840|0.622|0.463
92349771|NCT01482221|184603400|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04|STANDARD_ERROR_OF_MEAN|0.342||0.911|TWO_SIDED|95.0|0.532|2.031|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||2.031|0.532|0.911
92349772|NCT01482221|184603400|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78|STANDARD_ERROR_OF_MEAN|0.368||0.509|TWO_SIDED|95.0|0.382|1.613|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||1.613|0.382|0.509
92349773|NCT01482221|184603401|SUPERIORITY_OR_OTHER||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|1.238||0.889|TWO_SIDED|95.0|-2.609|2.264||Analysis for change in SDS total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline SDS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline SDS score by visit interaction are fixed effects in the model; pooled center is a random effect.||2.264|-2.609|0.889
92349774|NCT01482221|184603401|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|1.264||0.992|TWO_SIDED|95.0|-2.477|2.501||Analysis for change in SDS total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline SDS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline SDS score by visit interaction are fixed effects in the model; pooled center is a random effect.||2.501|-2.477|0.992
92349775|NCT01482221|184603401|SUPERIORITY_OR_OTHER||LS mean difference|1.11|STANDARD_ERROR_OF_MEAN|1.301||0.392|TWO_SIDED|95.0|-1.448|3.678||Analysis for change in SDS total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline SDS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline SDS score by visit interaction are fixed effects in the model; pooled center is a random effect.||3.678|-1.448|0.392
92349776|NCT01482221|184603401|SUPERIORITY_OR_OTHER||LS mean difference|1.29|STANDARD_ERROR_OF_MEAN|1.329||0.333|TWO_SIDED|95.0|-1.327|3.908||Analysis for changed in SDS total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline SDS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline SDS score by visit interaction are fixed effects in the model; pooled center is a random effect.||3.908|-1.327|0.333
92349777|NCT01482221|184603402|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.728|TWO_SIDED|95.0|-0.49|0.34||Analysis for change in CGI-S total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction are fixed effects in the model; pooled center is a random effect.||0.34|-0.49|0.728
92349778|NCT01482221|184603402|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.562|TWO_SIDED|95.0|-0.54|0.29||Analysis for change in CGI-S total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction are fixed effects in the model; pooled center is a random effect.||0.29|-0.54|0.562
92349779|NCT01482221|184603402|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.283|TWO_SIDED|95.0|-0.64|0.19||Analysis for change in CGI-S total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction are fixed effects in the model; pooled center is a random effect.||0.19|-0.64|0.283
92349780|NCT01482221|184603402|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.54|TWO_SIDED|95.0|-0.29|0.55||Analysis for changed in CGI-S total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction are fixed effects in the model; pooled center is a random effect.||0.55|-0.29|0.540
92349781|NCT01482221|184603403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74|STANDARD_ERROR_OF_MEAN|0.302||0.067|TWO_SIDED|95.0|0.962|3.141|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline CGI-S total score as a covariate.||3.141|0.962|0.067
92349782|NCT01482221|184603403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43|STANDARD_ERROR_OF_MEAN|0.297||0.23|TWO_SIDED|95.0|0.798|2.558|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline CGI-S total score as a covariate.||2.558|0.798|0.230
92349783|NCT01482221|184603404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38|STANDARD_ERROR_OF_MEAN|0.292||0.268|TWO_SIDED|95.0|0.78|2.447|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline CGI-S total score as a covariate.||2.447|0.780|0.268
92400353|NCT00072462|184692145|SUPERIORITY||Hazard Ratio (HR)|0.85|STANDARD_DEVIATION|0.16||0.38|TWO_SIDED|95.0|0.59|1.22|||Regression, Cox|Covariates included in model: Hormone Replacement Therapy use, Age, BMI, Use of radiotherapy, Extent of margins, Grade(categorical: low, medium, high)||||1.22|0.59|0.38
92219225|NCT02187172|184339246|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.11||0.0106|TWO_SIDED|95.0|-0.54|-0.08|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||-0.08|-0.54|0.0106
92219226|NCT02187172|184339247|SUPERIORITY||Mean Difference (Final Values)|-70.76|STANDARD_ERROR_OF_MEAN|33.42||0.0408|TWO_SIDED|95.0|-138.42|-3.11|||Regression, Linear|||Comparison during RCT period||-3.11|-138.42|0.0408
92219227|NCT02187172|184339247|SUPERIORITY||Mean Difference (Final Values)|71.72|STANDARD_ERROR_OF_MEAN|132.87||0.5926|TWO_SIDED|95.0|-197.5|340.93|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||340.93|-197.50|0.5926
92219228|NCT02187172|184339248|SUPERIORITY||Mean Difference (Final Values)|191.49|STANDARD_ERROR_OF_MEAN|46.1||0.0002|TWO_SIDED|95.0|98.18|284.81|||Regression, Linear|||Comparison during RCT period||284.81|98.18|0.0002
92219229|NCT02187172|184339248|SUPERIORITY||Mean Difference (Final Values)|171.21|STANDARD_ERROR_OF_MEAN|20.3|<|0.0001|TWO_SIDED|95.0|130.08|212.34|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||212.34|130.08|<0.0001
92349784|NCT01482221|184603404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97|STANDARD_ERROR_OF_MEAN|0.303||0.909|TWO_SIDED|95.0|0.533|1.75|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline CGI-S total score as a covariate.||1.750|0.533|0.909
92349785|NCT01482221|184603405|SUPERIORITY_OR_OTHER||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.87||0.505|TWO_SIDED|95.0|-2.29|1.13||Analysis for change in QIDS-SR-16 total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction are fixed effects in the model; pooled center is a random effect.||1.13|-2.29|0.505
92349786|NCT01482221|184603405|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.88||0.842|TWO_SIDED|95.0|-1.56|1.91||Analysis for change in QIDS-SR-16 total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction are fixed effects in the model; pooled center is a random effect.||1.91|-1.56|0.842
92349787|NCT01482221|184603405|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.89||0.788|TWO_SIDED|95.0|-1.98|1.51||Analysis for change in QIDS-SR-16 total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction are fixed effects in the model; pooled center is a random effect.||1.51|-1.98|0.788
92349788|NCT01482221|184603405|SUPERIORITY_OR_OTHER||LS mean difference|1.4|STANDARD_ERROR_OF_MEAN|0.9||0.133|TWO_SIDED|95.0|-0.42|3.12||Analysis for changed in QIDS-SR-16 total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction are fixed effects in the model; pooled center is a random effect.||3.12|-0.42|0.133
92349789|NCT01846871|184603418|OTHER|||||||0.7|||||||t-test, 2 sided|||||||0.70
92349790|NCT01846871|184603419|OTHER|||||||0.028|||||||t-test, 2 sided|||||||0.028
92349791|NCT01846871|184603420|OTHER|||||||0.0019|||||||t-test, 2 sided|||||||0.0019
92349792|NCT01846871|184603421|OTHER|||||||0.033|||||||t-test, 2 sided|||||||0.033
92219230|NCT02187172|184339249|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|0.98||0.011|TWO_SIDED|95.0|-4.62|-0.64|||Regression, Linear|||Comparison during RCT period||-0.64|-4.62|0.0110
92349793|NCT01257542|184603439|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.252|TWO_SIDED|95.0|0.59|1.15||p-value was calculated using negative binomial regression model with treatment, site and baseline of cough count terms with log (exposure time) as the offset parameter.|Negative binomial regression|||Odds Ratio and corresponding 95 percent (%) confidence interval (CI) were assessed from the negative binomial regression model.||1.15|0.59|0.252
92349794|NCT01257542|184603440|SUPERIORITY_OR_OTHER||LS mean difference|-0.26||||0.134|TWO_SIDED|95.0|-0.6|0.08||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||Treatment difference and corresponding 95% CI were calculated based on least-square (LS) means from analysis of variance (ANOVA) model.||0.08|-0.60|0.134
92349795|NCT01257542|184603441|SUPERIORITY_OR_OTHER||LS mean difference|-0.06||||0.768|TWO_SIDED|95.0|-0.45|0.33||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||1 hour: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.33|-0.45|0.768
92349796|NCT01257542|184603441|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.358|TWO_SIDED|95.0|-0.64|0.23||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||2 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.23|-0.64|0.358
92160458|NCT00126113|184209177|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|Analysis for main effect of group||||||>0.05
92160459|NCT00126113|184209178|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|Analysis for main effect of group||||||>0.05
92160460|NCT03499600|184209180|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.03|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. This linear regressions tested condition effects on caregiver perceptions of the extent to which the provider understood the caregivers' values or what is important to them.||||.03
92219231|NCT02187172|184339249|SUPERIORITY||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.32||0.0008|TWO_SIDED|95.0|-1.79|-0.51|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||-0.51|-1.79|0.0008
92400354|NCT02795117|184692210|EQUIVALENCE|provides 85% power of success|equivalence ratio|96.4|||||TWO_SIDED|90.0|91.0|105.4||No p-value was calculated for bioequivalence, only a T/R ratio and 90% confidence interval|ANOVA|||||105.4|91.0|
92219232|NCT02187172|184339250|SUPERIORITY||Mean Difference (Final Values)|-155.31|STANDARD_ERROR_OF_MEAN|688.28||0.8227|TWO_SIDED|95.0|-1548.66|1238.04|||Regression, Linear|||Comparison during RCT period||1238.04|-1548.66|0.8227
92219233|NCT02187172|184339250|SUPERIORITY||Mean Difference (Final Values)|-407.43|STANDARD_ERROR_OF_MEAN|180.7||0.0302|TWO_SIDED|95.0|-773.57|-41.29|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||-41.29|-773.57|0.0302
92219234|NCT02187172|184339251|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|-0.47||0.2333|TWO_SIDED|95.0|-1.25|0.32|||Regression, Linear|||Comparison during RCT period||0.32|-1.25|0.2333
92219235|NCT02187172|184339251|SUPERIORITY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.21||0.0713|TWO_SIDED|95.0|-0.8|0.03|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||0.03|-0.80|0.0713
92160461|NCT03499600|184209180|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.68|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed.This linear regressions tested condition effects on caregiver satisfaction with the intake.||||.68
92219236|NCT02187172|184339252|SUPERIORITY||Mean Difference (Final Values)|-16.87|STANDARD_ERROR_OF_MEAN|15.62||0.2869|TWO_SIDED|95.0|-48.48|14.75|||Regression, Linear|||Comparison during RCT period||14.75|-48.48|0.2869
92219237|NCT02187172|184339252|SUPERIORITY||Mean Difference (Final Values)|-2.23|STANDARD_ERROR_OF_MEAN|1.71||0.1988|TWO_SIDED|95.0|-5.69|1.22|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||1.22|-5.69|0.1988
92219238|NCT02187172|184339253|SUPERIORITY||Mean Difference (Final Values)|2.06|STANDARD_ERROR_OF_MEAN|12.91||0.8744|TWO_SIDED|95.0|-24.09|28.2|||Regression, Linear|||Comparison during RCT period||28.20|-24.09|0.8744
92160462|NCT03499600|184209180|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.03|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed.This linear regressions tested condition effects on provider perceptions of the extent to which the provider understood the caregivers' values or what is important to them.||||.03
92160463|NCT03499600|184209180|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.|||||<|0.05|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. This linear regressions tested condition effects on provider satisfaction with the intake.||||<.05
92219239|NCT02187172|184339253|SUPERIORITY||Mean Difference (Final Values)|10.55|STANDARD_ERROR_OF_MEAN|8.26||0.2093|TWO_SIDED|95.0|-6.18|27.29|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||27.29|-6.18|0.2093
92219240|NCT02187172|184339254|SUPERIORITY||Mean Difference (Final Values)|19.2|STANDARD_ERROR_OF_MEAN|7.41||0.0135|TWO_SIDED|95.0|4.21|34.2|||Regression, Linear|||Comparison during RCT period||34.20|4.21|0.0135
92400355|NCT02795117|184692211|EQUIVALENCE|provides 85% power of success|Equivalence difference|-6.48|||||TWO_SIDED|90.0|-18.31|1.85|||Wald's method|||||1.85|-18.31|
92160464|NCT03499600|184209182|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.93|||||||Regression, Linear|||Power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. Linear regressions tested condition effects on therapeutic alliance.||||.93
92160465|NCT03499600|184209182|SUPERIORITY|||||||0.9|||||||Regression, Linear|||Tested the moderation effects of language of service reception and condition on therapeutic alliance.||||.90
92160466|NCT03499600|184209183|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery. Baseline ECBI score was included as a covariate for the treatment response analyses.||||||0.171|||||||Regression, Logistic|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. A logistic regression tested condition effects on treatment response.||||.171
92160467|NCT03499600|184209183|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||Testes the effects of the moderation of language of service delivery and condition on treatment response.||||<.05
92160468|NCT03499600|184209184|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.38|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. Linear regressions tested condition effects on session attendance.||||.38
92160469|NCT03499600|184209184|SUPERIORITY|||||||0.01|||||||Regression, Linear|||Analyses tested the moderation of language of service delivery and condition on session attendance.||||.01
92160470|NCT03499600|184209184|SUPERIORITY|||||||0.56|||||||Regression, Linear|||Power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. linear regressions tested condition effects on homework completion. Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||.56
92160471|NCT03499600|184209184|SUPERIORITY||||||<|0.01|||||||Regression, Linear|||Analyses tested the moderation effect of language of service delivery and condition on homework completion.||||<.01
92400356|NCT01903356|184692219|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis.||Comparison of % of HbA1c before and 24 weeks after administration of TrajentaDuo® Tablet treatment.|The difference considered in the analysis is HbA1c values after drug administration minus HbA1c values before drug administration|||<0.0001
92349797|NCT01257542|184603441|SUPERIORITY_OR_OTHER||LS mean difference|-0.32||||0.139|TWO_SIDED|95.0|-0.74|0.1||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||3 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.10|-0.74|0.139
92349798|NCT01257542|184603441|SUPERIORITY_OR_OTHER||LS mean difference|-0.21||||0.364|TWO_SIDED|95.0|-0.68|0.25||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||4 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.25|-0.68|0.364
92349799|NCT01257542|184603441|SUPERIORITY_OR_OTHER||LS mean difference|-0.46||||0.039|TWO_SIDED|95.0|-0.9|-0.02||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||5 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||-0.02|-0.90|0.039
92349800|NCT01257542|184603441|SUPERIORITY_OR_OTHER||LS mean difference|-0.29||||0.206|TWO_SIDED|95.0|-0.75|0.16||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||6 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.16|-0.75|0.206
92349801|NCT01257542|184603442|SUPERIORITY_OR_OTHER||LS mean difference|-0.49||||0.304|TWO_SIDED|95.0|-1.43|0.45||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||Treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.45|-1.43|0.304
92349802|NCT01257542|184603443|SUPERIORITY_OR_OTHER||LS mean difference|-0.03||||0.954|TWO_SIDED|95.0|-1.03|0.97||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||1 hour: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.97|-1.03|0.954
92400357|NCT01903356|184692222|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis.||Comparison of FPG before and 24 weeks after administration of TrajentaDuo® Tablet treatment|The difference considered in the analysis is FPG values after drug administration minus FPG values before drug administration|||<0.0001
92219241|NCT02187172|184339254|SUPERIORITY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|4.14||0.8499|TWO_SIDED|95.0|-9.19|7.61|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||7.61|-9.19|0.8499
92219242|NCT02187172|184339255|SUPERIORITY||Mean Difference (Final Values)|3.66|STANDARD_ERROR_OF_MEAN|1.96||0.0693|TWO_SIDED|95.0|-0.3|7.62|||Regression, Linear|||Comparison during RCT period||7.62|-0.30|0.0693
92349803|NCT01257542|184603443|SUPERIORITY_OR_OTHER||LS mean difference|-0.44||||0.426|TWO_SIDED|95.0|-1.54|0.65||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||2 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.65|-1.54|0.426
92349804|NCT01257542|184603443|SUPERIORITY_OR_OTHER||LS mean difference|-0.45||||0.396|TWO_SIDED|95.0|-1.49|0.6||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||3 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.60|-1.49|0.396
92349805|NCT01257542|184603443|SUPERIORITY_OR_OTHER||LS mean difference|-0.49||||0.402|TWO_SIDED|95.0|-1.63|0.66||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||4 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.66|-1.63|0.402
92349806|NCT01257542|184603443|SUPERIORITY_OR_OTHER||LS mean difference|-0.69||||0.204|TWO_SIDED|95.0|-1.75|0.38||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||5 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.38|-1.75|0.204
92349807|NCT01257542|184603443|SUPERIORITY_OR_OTHER||LS mean difference|-0.84||||0.179|TWO_SIDED|95.0|-2.06|0.39||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||6 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.39|-2.06|0.179
92349808|NCT01257542|184603444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.523|TWO_SIDED|95.0|-0.21|0.39||p-value was calculated from the Cochran-Mantel-Haenszel (CMH) test with modified ridit scores controlling site.|Cochran-Mantel-Haenszel|||Treatment difference and the associated 95% CI were based on the weighted Gamma statistics.||0.39|-0.21|0.523
92349809|NCT01257542|184603445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.796|TWO_SIDED|95.0|-0.35|0.24||p-value was calculated from the CMH test with modified ridit scores controlling site.|Cochran-Mantel-Haenszel|||Treatment difference and the associated 95% CI were based on the weighted Gamma statistics.||0.24|-0.35|0.796
92349810|NCT00081458|184603446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0|||||ANCOVA|||||||0.007
92400358|NCT03305666|184692224|NON_INFERIORITY|Statistical analyses were conduced using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.12|||||||ANOVA|||||||0.12
92400359|NCT03305666|184692225|NON_INFERIORITY|Statistical analyses were conducted using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.41|||||||ANOVA|||This is the P-Value for between groups comparison of Postoperative Day #1.||||0.41
92400360|NCT03305666|184692225|NON_INFERIORITY|Statistical analyses were conducted using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.25|||||||ANOVA|||This is the P-Value for between groups comparison of Postoperative Day #2.||||0.25
92349811|NCT00081458|184603447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||ANCOVA|||An efficacy responder was defined as achieving at least a 20% reduction from Baseline to Week 20 and maintained at Week 24 in weekly actual PN infusion volume.||||0.005
92349812|NCT03384966|184603463|SUPERIORITY||Odds Ratio (OR)|58.9|||<|0.0001|TWO_SIDED|97.5|22.4|154.8||A p-value significance level was set to 0.025, based on an overall Type-I error rate of 0.05 adjusted for multiple comparisons using a Bonferroni approach (two comparisons).|Chi-squared|||"The study aimed at assessing the efficacy of each selatogrel dose versus placebo. The proportion of responders for each of the two doses of selatogrel was compared to placebo.~No imputation was considered for handling missing values."||154.8|22.4|< 0.0001
92349813|NCT03384966|184603463|SUPERIORITY||Odds Ratio (OR)|61.2|||<|0.0001|TWO_SIDED|97.5|23.1|162.3||A p-value significance level was set to 0.025, based on an overall Type-I error rate of 0.05 adjusted for multiple comparisons using a Bonferroni approach (two comparisons).|Chi-squared|||"The study aimed at assessing the efficacy of each selatogrel dose versus placebo. The proportion of responders for each of the two doses of selatogrel was compared to placebo.~No imputation was considered for handling missing values in the main analysis."||162.3|23.1|< 0.0001
92349814|NCT03384966|184603467|OTHER|Logistic regression (Type III analysis)||||||0.1915|||||||Chi-squared|||||||0.1915
92349815|NCT03384966|184603469|OTHER||LS Mean difference with placebo|-27.49|||<|0.0001|TWO_SIDED|95.0|-35.4|-19.6|||Mixed Models Analysis|P-value significance level is set to 0.025, i.e. type I error (0.05) adjusted for multiplicity (2 comparisons) using a Bonferroni approach.||Longitudinal analysis of the treatment effect, from start of treatment to 8 hours after injection.||-19.6|-35.4|<.0001
92400361|NCT03305666|184692225|NON_INFERIORITY|Statistical analyses were conducted using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.12|||||||ANOVA|||This is the P-Value for between groups comparison of Postoperative Day #3.||||0.12
92400362|NCT03305666|184692225|NON_INFERIORITY|Statistical analyses were conducted using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.04|||||||ANOVA|||This is the P-Value for between groups comparison of Postoperative Day #4.||||0.04
92160472|NCT03499600|184209184|SUPERIORITY|||||||0.4|||||||Regression, Logistic|||Power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. Logistic regressions tested condition effects on initial session attendance. Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||.40
92349816|NCT03384966|184603469|OTHER||LS Mean difference with placebo|-31.06|||<|0.0001|TWO_SIDED|95.0|-39.0|-23.1|||Mixed Models Analysis|P-value significance level is set to 0.025, i.e. type I error (0.05) adjusted for multiplicity (2 comparisons) using a Bonferroni approach||Longitudinal analysis of the treatment effect, from start of treatment up to 8 hours after injection.||-23.1|-39.0|<.0001
92400363|NCT03305666|184692225|NON_INFERIORITY|Statistical analyses were conducted using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.32|||||||ANOVA|||This is the P-Value for between groups comparison of Postoperative Day #5.||||0.32
92349817|NCT03925220|184603497|SUPERIORITY||Prevalence Ratio (PR)|2.86|||<|0.001|TWO_SIDED|95.0|2.02|4.04||"At 3 months:~Parent-reported frequency of conversations on drinking alcohol"|Generalized estimation|||A sample size of 400 parents and children was calculated to yield 80% power to detect one or more differences between the intervention and control arms, of 45% in talking about alcohol, 20% about marijuana, and 20% about other drugs, using a two-sided Bonferroni-corrected 1.5% level of significance (based on estimates from the pilot trial).||4.04|2.02|<0.001
92349818|NCT03925220|184603497|SUPERIORITY||Prevalence Ratio [PR]|2.4|||<|0.001|TWO_SIDED|95.0|1.67|3.45||"At 3 months:~Parent-reported frequency of conversations on using e-cigarettes or vaping"|Generalized estimation|||||3.45|1.67|<0.001
92349819|NCT03925220|184603497|SUPERIORITY||Prevalence Ratio [PR]|2.36|||<|0.001|TWO_SIDED|95.0|1.62|3.43||"At 3 months:~Parent-reported frequency of conversations on using marijuana"|Generalized estimation|||||3.43|1.62|<0.001
92349820|NCT03925220|184603497|SUPERIORITY||Prevalence Ratio [PR]|3.45|||<|0.001|TWO_SIDED|95.0|2.34|5.08||"At 3 months:~Parent-reported frequency of conversations on smoking cigarettes"|Generalized estimation|||||5.08|2.34|<0.001
92349821|NCT03925220|184603497|SUPERIORITY||Prevalence Ratio [PR]|2.47|||<|0.001|TWO_SIDED|95.0|1.58|3.86||"At 3 months:~Parent-reported frequency of conversations on using other drugs"|Generalized estimation|||||3.86|1.58|<0.001
92349822|NCT03925220|184603497|SUPERIORITY||Prevalence Ratio [PR]|1.45||||0.04|TWO_SIDED|95.0|1.02|2.06||"At 18 months:~Parent-reported frequency of conversations on drinking alcohol"|Generalized estimation|||||2.06|1.02|0.04
92400364|NCT03305666|184692226|NON_INFERIORITY|Statistical analyses were conduced using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.23|||||||ANOVA|||||||0.23
92400365|NCT02546609|184692230|OTHER|||||||0.0572|||||||ANCOVA|||Analysis of variance (ANOVA) model: with treatment group as the factor. Placebo is used as the reference group.||||0.0572
92400366|NCT02546609|184692230|OTHER|||||||0.377|||||||ANCOVA|||Analysis of variance (ANOVA) model: with treatment group as the factor. Placebo is used as the reference group.||||0.3770
92160473|NCT03499600|184209184|SUPERIORITY|||||||0.01|||||||Regression, Logistic|||Analyses tested the moderation of language of service delivery and condition on initial session attendance.||||.01
92160474|NCT03499600|184209184|SUPERIORITY|||||||0.03|||||||Regression, Logistic|||power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. A Logistic regression tested condition effects on completion of first treatment module. Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||.03
92160475|NCT03499600|184209184|SUPERIORITY|||||||0.03|||||||Regression, Logistic|||Analyses tested the moderation of language of service delivery and condition on completion of first treatment module.||||.03
92400367|NCT02546609|184692231|OTHER|||||||0.3811|||||||Mixed Effect Model Repeat Measurement|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.3811
92219243|NCT02187172|184339255|SUPERIORITY||Mean Difference (Final Values)|1.92|STANDARD_ERROR_OF_MEAN|1.42||0.1841|TWO_SIDED|95.0|-0.96|4.8|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||4.80|-0.96|0.1841
92219244|NCT02187172|184339256|SUPERIORITY||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|1.03||0.2305|TWO_SIDED|95.0|-0.83|3.34|||Regression, Linear|||Comparison during RCT period||3.34|-0.83|0.2305
92219245|NCT02187172|184339256|SUPERIORITY||Mean Difference (Final Values)|0.91|STANDARD_ERROR_OF_MEAN|0.72||0.2189|TWO_SIDED|95.0|-0.53|2.37|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||2.37|-0.53|0.2189
92219246|NCT02187172|184339257|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.11||0.3212|TWO_SIDED|95.0|-0.34|0.11|||Regression, Linear|||Comparison during RCT period||0.11|-0.34|0.3212
92219247|NCT02187172|184339257|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.07||0.0137|TWO_SIDED|95.0|0.04|0.31|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||0.31|0.04|0.0137
92219248|NCT02187172|184339258|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.6||0.8383|TWO_SIDED|95.0|-1.09|1.33|||Regression, Linear|||Comparison during RCT period||1.33|-1.09|0.8383
92219249|NCT02187172|184339258|SUPERIORITY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.36||0.1651|TWO_SIDED|95.0|-0.22|1.24|||Regression, Logistic|||Global change from baseline after 52 weeks of active treatment.||1.24|-0.22|0.1651
92349823|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio (PR)|1.31|||<|0.001|TWO_SIDED|95.0|1.18|1.45||"At 3 months:~Parent-reported have warned your child about the dangers of drinking alcohol and using drugs"|Generalized estimation|||||1.45|1.18|<0.001
92349824|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio [PR]|1.55|||<|0.001|TWO_SIDED|95.0|1.32|1.83||"At 3 months:~Parent-reported 'have talked to your child about how to handle offers of alcoholic drinks and drugs'"|Generalized estimation|||||1.83|1.32|<0.001
92349825|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio [PR]|2.13|||<|0.001|TWO_SIDED|95.0|1.73|2.63||"At 3 months:~Parent-reported 'have given your child rules to obey about drinking alcohol and using drugs'"|Generalized estimation|||||2.63|1.73|<0.001
92349826|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio [PR]|1.67||||0.001|TWO_SIDED|95.0|1.25|2.25||"At 3 months:~Parent-reported 'have lectured or given your child a speech about drinking alcohol and using drugs'"|Generalized estimation|||||2.25|1.25|0.001
92219250|NCT02187172|184339259|SUPERIORITY||Mean Difference (Final Values)|2.49|STANDARD_ERROR_OF_MEAN|1.7||0.1502|TWO_SIDED|95.0|-0.94|5.93|||Regression, Linear|||Comparison during RCT period||5.93|-0.94|0.1502
92219251|NCT02187172|184339259|SUPERIORITY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.84||0.8054|TWO_SIDED|95.0|-1.49|1.91|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||1.91|-1.49|0.8054
92219252|NCT02187172|184339260|SUPERIORITY||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|1.69||0.4235|TWO_SIDED|95.0|-4.79|2.05|||Regression, Linear|||Comparison during RCT period||2.05|-4.79|0.4235
92219253|NCT02187172|184339260|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.97||0.8653|TWO_SIDED|95.0|-1.8|2.13|||Regression, Linear|||Comparison during RCT period||2.13|-1.80|0.8653
92219254|NCT02187172|184339261|SUPERIORITY||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|1.89||0.558|TWO_SIDED|95.0|-4.95|2.71|||Regression, Linear|||Comparison during RCT period||2.71|-4.95|0.5580
92219255|NCT02187172|184339261|SUPERIORITY||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|1.0||0.4454|TWO_SIDED|95.0|-1.25|2.8|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||2.80|-1.25|0.4454
92219256|NCT02187172|184339262|SUPERIORITY||Mean Difference (Final Values)|21.37|STANDARD_ERROR_OF_MEAN|6.67||0.0027|TWO_SIDED|95.0|7.86|34.87|||Regression, Linear|||Comparison during RCT period||34.87|7.86|0.0027
92219257|NCT02187172|184339262|SUPERIORITY||Mean Difference (Final Values)|-2.92|STANDARD_ERROR_OF_MEAN|4.07||0.4775|TWO_SIDED|95.0|-11.17|5.33|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||5.33|-11.17|0.4775
92219258|NCT02187172|184339263|SUPERIORITY||Mean Difference (Final Values)|230.77|STANDARD_ERROR_OF_MEAN|69.8||0.0021|TWO_SIDED|95.0|89.47|372.08|||Regression, Linear|||Comparison during RCT period||372.08|89.47|0.0021
92349827|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio [PR]|1.51|||<|0.001|TWO_SIDED|95.0|1.21|1.9||"At 3 months:~Parent-reported 'have made a comment to your child about how drinking alcohol and using drugs is bad if a character on TV is drinking or drunk'"|Generalized estimation|||||1.90|1.21|<0.001
92349828|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio [PR]|1.25||||0.008|TWO_SIDED|95.0|1.06|1.47||"At 3 months:~Parent-reported 'have told your child stories of people who drink alcohol, have been drunk, or use drugs'"|Generalized estimation|||||1.47|1.06|0.008
92349829|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio [PR]|1.65|||<|0.001|TWO_SIDED|95.0|1.29|2.1||"At 3 months:~Parent-reported 'have told your child you would be disappointed in her/him if they were to drink alcohol or use drugs'"|Generalized estimation|||||2.10|1.29|<0.001
92219259|NCT02187172|184339263|SUPERIORITY||Mean Difference (Final Values)|-31.89|STANDARD_ERROR_OF_MEAN|41.71||0.4493|TWO_SIDED|95.0|-116.4|52.61|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||52.61|-116.40|0.4493
92219260|NCT02187172|184339264|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.17||0.8008|TWO_SIDED|95.0|-0.3|0.38|||Regression, Linear|||Comparison during RCT period||0.38|-0.30|0.8008
92219261|NCT02187172|184339264|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.11||0.8068|TWO_SIDED|95.0|-0.19|0.24|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||0.24|-0.19|0.8068
92219262|NCT02187172|184339265|SUPERIORITY||Mean Difference (Final Values)|46.96|STANDARD_ERROR_OF_MEAN|56.12||0.4079|TWO_SIDED|95.0|-66.65|160.57|||Regression, Logistic|||Comparison during RCT period||160.57|-66.65|0.4079
92349830|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio [PR]|1.64|||<|0.001|TWO_SIDED|95.0|1.24|2.15||"At 3 months:~Parent-reported 'have shown your child information on the web, TV, or in the news about the dangers of drinking alcohol and using drugs'"|Generalized estimation|||||2.15|1.24|<0.001
92349831|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio [PR]|1.65|||<|0.001|TWO_SIDED|95.0|1.4|1.93||"At 3 months:~Parent-reported 'have asked your child about their thoughts and opinions about drinking alcohol and using drugs'"|Generalized estimation|||||1.93|1.40|<0.001
92349832|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio [PR]|1.4||||0.003|TWO_SIDED|95.0|1.12|1.74||"At 18 months:~Parent-reported 'have given your child rules to obey about drinking alcohol and using drugs'"|Generalized estimation|||||1.74|1.12|0.003
92349833|NCT03925220|184603498|SUPERIORITY||Prevalence Ratio [PR]|1.38||||0.01|TWO_SIDED|95.0|1.06|1.78||"At 18 months:~Parent-reported 'have made a comment to your child about how drinking alcohol and using drugs is bad if a character on TV is drinking or drunk'"|Generalized estimation|||||1.78|1.06|0.01
92349834|NCT04470427|184603521|OTHER||VE|93.2|||<|0.0001|TWO_SIDED|95.0|91.0|94.8|||Vaccine Efficacy (VE)|VE (percent) is demonstrated if the lower limit of the 2-sided confidence interval for the VE is above 30%.|VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|"Vaccine efficacy was defined as the percent reduction in the hazard of the primary endpoint (mRNA-1273 vs. placebo).~Null hypothesis of Vaccine Efficacy ≤30%, 95% CI."||94.8|91.0|<.0001
92349835|NCT04470427|184603527|OTHER||VE|98.2|||||TWO_SIDED|95.0|92.8|99.6|||VE||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|||99.6|92.8|
92349836|NCT04470427|184603528|OTHER||VE|82.0|||||TWO_SIDED|95.0|79.5|84.2|||||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model|||84.2|79.5|
92160476|NCT03499600|184209185|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.854|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. linear regressions tested condition effects on treatment satisfaction.||||.854
92160477|NCT03499600|184209186|SUPERIORITY|||||||0.319|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. linear regressions tested change in ECBI score from baseline to post treatment.||||.319
92160478|NCT00561574|184209193|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160479|NCT00561574|184209193|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160480|NCT00561574|184209194|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160481|NCT00561574|184209194|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160482|NCT00561574|184209195|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160483|NCT00561574|184209195|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160484|NCT00561574|184209196|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3129||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||0.3129
92160485|NCT00561574|184209196|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3154||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||0.3154
92349837|NCT04470427|184603529|OTHER|VE|VE|93.4|||||TWO_SIDED|95.0|91.4|94.9|||||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|||94.9|91.4|
92349838|NCT04470427|184603531|OTHER||VE|93.3|||||TWO_SIDED|95.0|91.1|94.9|||||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|||94.9|91.1|
92349839|NCT04470427|184603532|OTHER||VE|82.0|||||TWO_SIDED|95.0|79.5|84.3|||||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|||84.3|79.5|
92349840|NCT04470427|184603533|OTHER||VE|63.0|||||TWO_SIDED|95.0|56.6|68.5|||||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|||68.5|56.6|
92349841|NCT04470427|184603539|NON_INFERIORITY|Non-inferiority of a booster as compared with mRNA-1273 after second dose based on Ratio of GMC is demonstrated if lower bound of 95% CI of Ratio of GMC ≥ 0.67.|Ratio of GMC|6.996|||||TWO_SIDED|95.0|6.509|7.52||||||Ratio of GMC 28 days following the booster dose (BD-Day 29) compared with 28 days following second dose (Part A-Day 57).||7.520|6.509|
92349842|NCT04470427|184603540|NON_INFERIORITY|Non-inferiority of a booster as compared with mRNA-1273 after second dose based on SRR difference is demonstrated if lower bound of 95% CI of SRR difference \> -10%.|Difference in Seroresponse|0.9|||||TWO_SIDED|95.0|0.1|1.8|||||95% CI were calculated using adjusted Wald method for the paired binary data.|Seroresponse 28 days following the booster dose (BD-Day 29) compared with 28 days following second dose (Part A-Day 57)||1.8|0.1|
92160486|NCT00561574|184209197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160487|NCT00561574|184209197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160488|NCT00561574|184209198|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160489|NCT00561574|184209198|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160490|NCT00561574|184209199|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
92160491|NCT00561574|184209199|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||0.0001
92160492|NCT00561574|184209200|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0116||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||0.0116
92349843|NCT01018979|184603543|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|TWO_SIDED|||||P values less than 0.05 are considered statistically significant in this study.|t-test, 2 sided|||Analyze whether the mean fold increase from the baseline to the peak time change was significant or not.||||0.023
92349844|NCT01018979|184603543|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038|TWO_SIDED|||||P values less than 0.05 are considered statistically significant in this study.|t-test, 2 sided|||Analyze whether the mean fold increase from the baseline to the peak time change was significant or not.||||0.038
92349845|NCT00248547|184603553|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||Wilcoxon Rank Sum Test|||||||0.041
92349846|NCT01913353|184603563|NON_INFERIORITY|The non-inferiority margin to show that Group 1 (after 2 doses of MVA-BN) is non-inferior to Group 2 (after 1 dose of ACAM2000) in terms of PRNT GMTs at the respective peak visit (Week 6 in Group 1 / Week 4 in Group 2) was predefined as '1/2 (i.e. 0.5)' for the GMT ratio (Group 1 / Group 2).|GMT Ratio (Group 1 / Group 2)|1.935|||||TWO_SIDED|95.0|1.562|2.397||||||||2.397|1.562|
92349847|NCT01913353|184603564|SUPERIORITY|Predefined threshold of clinical relevance for the area attenuation ratio (AAR): 40%|Area attenuation ratio (AAR)|97.9|||||TWO_SIDED|95.0|96.6|98.3|||||The AAR, i.e. the reduction in MLA \[1 - MLA ratio (Group 1/Group 2)\] after scarification was to be significantly above 40%. The MLA ratio and the corresponding 95% CI were based on the Hodges-Lehmann estimate of the shift for log-transformed MLAs.|||98.3|96.6|
92349848|NCT01260948|184603600|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.72|||||TWO_SIDED|90.0|94.13|103.53|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||103.53|94.13|
92349849|NCT01260948|184603601|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|94.81|||||TWO_SIDED|90.0|91.3|98.47|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||98.47|91.30|
92400368|NCT02546609|184692231|OTHER|||||||0.8479|||||||Mixed Effect Model Repeat Measurement|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.8479
92400369|NCT02546609|184692232|OTHER|||||||0.7742|||||||Mixed effect Model Repeat Measurement|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.7742
92400370|NCT02546609|184692232|OTHER|||||||0.6666|||||||Mixed effect Model Repeat Measurement|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.6666
92400371|NCT02546609|184692233|OTHER|||||||0.002|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.0020
92160493|NCT00561574|184209200|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||0.0004
92168718|NCT03337399|184227066|NON_INFERIORITY|Non-inferiority of stepped PC was established if the lower one-sided 95% confidence limit for the estimated difference in means was greater than the pre-specified margin of -4.5 points, which corresponds to the one-sided 5% significance level test against this margin.|Mean Difference (Final Values)|2.9|||<|0.05|ONE_SIDED|95.0|-0.01||||Regression, Linear|||The difference in week 24 means between groups was estimated using a linear regression model adjusted for baseline FACT-L score.|||-.01|<0.05
92219263|NCT02187172|184339265|SUPERIORITY||Mean Difference (Final Values)|4.68|STANDARD_ERROR_OF_MEAN|33.85||0.8907|TWO_SIDED|95.0|-63.91|73.28|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||73.28|-63.91|0.8907
92219264|NCT02187172|184339266|SUPERIORITY||Mean Difference (Final Values)|7.01|STANDARD_ERROR_OF_MEAN|48.81||0.8866|TWO_SIDED|95.0|-91.8|105.81|||Regression, Linear|||Comparison during RCT period||105.81|-91.80|0.8866
92219265|NCT02187172|184339266|SUPERIORITY||Mean Difference (Final Values)|-24.74|STANDARD_ERROR_OF_MEAN|32.59||0.4527|TWO_SIDED|95.0|-90.78|41.3|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||41.30|-90.78|0.4527
92349850|NCT03301714|184603655|EQUIVALENCE|equivalence analysis|Mean Difference (Final Values)|7.62||||0|TWO_SIDED|95.0||||baseline demographics, correlated errors due to repeated measures, and bias due to lost to follow-up were accounted for via Generalized Estimating Equation (statistical threshold \<0.01)|Regression, Linear||Mean change difference in oral health related quality of life among control, intervention 1: group-based oral health education and intervention 2: individual-based oral health education using motivational interviewing.|||||.000
92349851|NCT03188185|184603658|SUPERIORITY|Hypothesis tests were two-sided with an alpha of 0.05 .|Least Squares Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.99||0.128|TWO_SIDED|95.0|-3.5|0.4||ALK 5461 was compared to placebo using stage-specific MMRM for MADRS-10 Change from Baseline.Model-derived estimates were combined using equal weights|Mixed Models Analysis|||Analysis was conducted for each stage separately, and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified equal weights. Within each stage ALKS 5461 2mg/2mg was compared to placebo (i.e., ALKS 5461 2mg/2mg S1 vs Placebo S1; and ALKS 5461 2mg/2mg S2 vs Placebo S2).||0.4|-3.5|0.128
92400372|NCT02546609|184692233|OTHER|||||||0.0164|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.0164
92349852|NCT02965456|184603661|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with factors of treatment group and analysis center and the respective baseline lesion count as a covariate.||||<0.001
92160494|NCT03860077|184209217|SUPERIORITY|Average cigarettes per day was positively skewed, with a non-normal residual distribution in a mixed model analysis specifying a normal (Gaussian) outcome distribution. Therefore, this outcome was recoded to integers and modeled as a count with a negative binomial distribution and log link. The focal test is the difference in change from Baseline to Week 4 (i.e., Time) in the VLNC vs. NNC condition (i.e., Group), which is a cross-level interactive effect of Time and Group.|Risk Ratio (RR)|1.42|STANDARD_ERROR_OF_MEAN|0.21||0.111|TWO_SIDED|95.0|0.92|2.19|||Mixed Models Analysis||The reported value is the standard error of the mean for the non-exponentiated estimate = 0.35.|These are results of a 2-group (VLNC \& NNC) x 2 repeated measures (Baseline \& Week 4) mixed effects model to test the effect of the randomization group (VLNC vs. NNC) on change in cigarette use and alternative tobacco product (ATP) use from Baseline to Week 4. Group (VLNC vs. NNC) is a fixed, between-subjects focal predictor. Timepoint (Baseline vs. Week 4) is a fixed, within-subjects repeated measure. Subject is a random effect, accounting for variability in Baseline cigarette and ATP use.||2.19|0.92|.111
92160495|NCT03860077|184209218|SUPERIORITY||Odds Ratio (OR)|0.71|STANDARD_ERROR_OF_MEAN|0.93||0.721|TWO_SIDED|95.0|0.11|4.75|||Mixed Models Analysis||The reported value is the standard error of the mean for the non-exponentiated estimate = - 0.34.|This outcome was recoded as a dichotomous outcome with a binary distribution and log link. The focal test is the difference in change from Baseline to Week 4 (i.e., Time) in the VLNC vs. NNC condition (i.e., Group), which is a cross-level interactive effect of Time and Group.||4.75|.11|.721
92160496|NCT03860077|184209219|SUPERIORITY|Frequencies of non-combustible alternative product use (ATP) were bimodal with peaks at 0 (no use) and 7 (daily use). Therefore, this outcome was recoded as a dichotomous outcome with a binary distribution and log link. The focal test is the difference in change from Baseline to Week 4 (i.e., Time) in the VLNC vs. NNC condition (i.e., Group), which is a cross-level interactive effect of Time and Group.|Odds Ratio (OR)|0.57|STANDARD_ERROR_OF_MEAN|0.96||0.564|TWO_SIDED|95.0|0.08|3.99|||Mixed Models Analysis||The reported value is the standard error of the mean for the non-exponentiated estimate = - 0.56.|||3.99|.08|.564
92160497|NCT03860077|184209220|SUPERIORITY||Slope|0.25|STANDARD_ERROR_OF_MEAN|1.56||0.876|TWO_SIDED|95.0|-2.92|3.42|||Mixed Models Analysis|||The study cigarette outcome is modeled with a normal, Gaussian distribution. The focal test is the difference in change from Baseline to Week 4 (i.e., Time) in the VLNC vs. NNC condition (i.e., Group), which is a cross-level interactive effect of Time and Group. Baseline in this analysis is average number of usual brand cigarettes at baseline, prior to randomization.||3.42|-2.92|.876
92160498|NCT03860077|184209221|SUPERIORITY|The focal test is the difference in change from Baseline to Week 4 (i.e., Time) in the VLNC vs. NNC condition (i.e., Group), which is a cross-level interactive effect of Time and Group.|Slope|-2166.79|STANDARD_ERROR_OF_MEAN|1753.48||0.226|TWO_SIDED|95.0|-5743.04|1409.47|||Mixed Models Analysis|||||1409.47|-5743.04|.226
92160499|NCT01606124|184209266|SUPERIORITY|||||||0.5631|||||||Wilcoxon (Mann-Whitney)|||||||0.5631
92160500|NCT01606124|184209267|SUPERIORITY|||||||0.1439|||||||Wilcoxon (Mann-Whitney)|||||||0.1439
92160501|NCT01149681|184209308|SUPERIORITY|||||||0.2364|||||||Repeated measures analysis|||||||0.2364
92160502|NCT01720446|184209336|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of semaglutide versus placebo was considered to be confirmed if the upper limit of the two-sided 95% CI for the HR was below 1.8 or equivalent if the p-value for the one-sided test of: H0: HR ≥ 1.8 against Ha: HR \<1.8 was less than 2.5% (or equivalent to 5% for a two-sided test).|Hazard Ratio (HR)|0.74|||<|0.0001|TWO_SIDED|95.0|0.58|0.95||The 'p-value' is for the two-sided Wald test of non-inferiority with limit 1.8.|Regression, Cox||Semaglutide/Placebo|The primary endpoint was analysed using a stratified Cox proportional hazards model with treatment group (semaglutide, placebo) as fixed factor. Assuming the same population MACE risk for the semaglutide and placebo groups (i.e., the population hazards ratio \[HR\] equals 1), a total minimum of 122 events were needed in order to have at least 90% power to ascertain that the upper two-sided 95% confidence limit for the HR was less than 1.8.||0.95|0.58|<0.0001
92160503|NCT01720446|184209336|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.0167|TWO_SIDED|95.0|0.58|0.95||The 'p-value' is for the two-sided Wald test of no difference.|Regression, Cox||Semaglutide/Placebo|A post hoc analysis of superiority of semaglutide versus placebo was performed based on the pre-specified Cox proportional hazard analysis using the two-sided Wald test of no difference, with treatment (semaglutide, placebo) as fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||0.95|0.58|0.0167
92160504|NCT01720446|184209337|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.0016|TWO_SIDED|95.0|0.62|0.89|||Regression, Cox||Semaglutide/Placebo|Analysis was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||0.89|0.62|0.0016
92160505|NCT01720446|184209338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.9181|TWO_SIDED|95.0|0.65|1.48|||Regression, Cox||Semaglutide/Placebo|Analysis for CV death was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||1.48|0.65|0.9181
92160506|NCT01720446|184209338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.1194|TWO_SIDED|95.0|0.51|1.08|||Regression, Cox||Semaglutide/Placebo|Analysis for non-fatal myocardial infarction was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||1.08|0.51|0.1194
92160507|NCT01720446|184209338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.0438|TWO_SIDED|95.0|0.38|0.99|||Regression, Cox||Semaglutide/Placebo|Analysis for non-fatal stroke was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||0.99|0.38|0.0438
92219266|NCT02187172|184339267|SUPERIORITY||Mean Difference (Final Values)|194.69|STANDARD_ERROR_OF_MEAN|66.23||0.0056|TWO_SIDED|95.0|60.61|328.77|||Regression, Linear|||Comparison during RCT period||328.77|60.61|0.0056
92349853|NCT02965456|184603662|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05.|ANCOVA|||Analysis was performed using ANCOVA with factors of treatment group and analysis center and the respective baseline lesion count as a covariate.||||<0.001
92349854|NCT02965456|184603663|SUPERIORITY|||||||0.007||||||Threshold for significance at 0.05.|Regression, Logistic|||Analysis was performed using a logistic regression test (using Firth's Penalized Likelihood) with factors of treatment group and analysis center.||||0.007
92349855|NCT05073315|184603666|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Ratio Geometric Least Square Mean (GMR)|1.0516|||||TWO_SIDED|90.0|0.901|1.2273||||||||1.2273|0.9010|
92349856|NCT05073315|184603667|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Least Square Mean Ratio|1.0044|||||TWO_SIDED|90.0|0.8717|1.1574||||||||1.1574|0.8717|
92349857|NCT05073315|184603670|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Mean Difference (Final Values)|-2.47|||||TWO_SIDED|90.0|-5.23|0.29||||||||0.29|-5.23|
92349858|NCT01529268|184603677|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|1.3||||0.34|TWO_SIDED|95.0|0.8|2.1|||Cochran-Mantel-Haenszel|||||2.1|0.8|0.34
92400373|NCT02546609|184692234|OTHER|||||||0.4099|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.4099
92400374|NCT02546609|184692234|OTHER|||||||0.1455|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.1455
92400375|NCT02546609|184692235|OTHER|||||||0.2559|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.2559
92160508|NCT01720446|184209338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.0027|TWO_SIDED|95.0|0.5|0.86|||Regression, Cox||Semaglutide/Placebo|Analysis for revascularisation was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||0.86|0.50|0.0027
92160509|NCT01720446|184209338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.4914|TWO_SIDED|95.0|0.47|1.44|||Regression, Cox||Semaglutide/Placebo|Analysis for 'unstable angina requiring hospitalisation' was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||1.44|0.47|0.4914
92160510|NCT01720446|184209338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.5735|TWO_SIDED|95.0|0.77|1.61|||Regression, Cox||Semaglutide/Placcbo|Analysis for hospitalisation for heart failure was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||1.61|0.77|0.5735
92160511|NCT01720446|184209339|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.0292|TWO_SIDED|95.0|0.61|0.97|||Regression, Cox||Semaglutide/Placebo|Analysis for all-cause death, non-fatal MI or non-fatal stroke was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||0.97|0.61|0.0292
92160512|NCT01720446|184209340|SUPERIORITY_OR_OTHER||Treatment difference|-0.66|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.52|||Mixed Models Analysis||Sema 0.5 mg - Placebo 0.5 mg|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-0.52|-0.80|<0.0001
92160513|NCT01720446|184209340|SUPERIORITY_OR_OTHER||Treatment difference|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.19|-0.91|||Mixed Models Analysis||Sema 1.0 mg - Placebo 1.0 mg|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-0.91|-1.19|<0.0001
92160514|NCT01720446|184209341|SUPERIORITY_OR_OTHER||Treatment difference|-0.72|||<|0.0001|TWO_SIDED|95.0|-1.06|-0.38|||Mixed Models Analysis||Sema 0.5 mg - Placebo 0.5 mg|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-0.38|-1.06|<0.0001
92349859|NCT01529268|184603678|SUPERIORITY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|0.0||||0.9|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||||0.5|-0.6|0.90
92349860|NCT01529268|184603679|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|0.7||||0.15|TWO_SIDED|95.0|0.5|1.1|||Cochran-Mantel-Haenszel|||Steatosis: patients with improvement||1.1|0.5|0.15
92349861|NCT01529268|184603680|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|0.1||||0.59|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|||Steatosis: change in score||0.4|-0.2|0.59
92349862|NCT01529268|184603681|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|1.8||||0.03|TWO_SIDED|95.0|1.1|2.9|||Cochran-Mantel-Haenszel|||||2.9|1.1|0.03
92349863|NCT01529268|184603682|SUPERIORITY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|-0.2||||0.06|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.06
92349864|NCT01529268|184603683|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|0.8||||0.29|TWO_SIDED|95.0|0.4|1.3|||Cochran-Mantel-Haenszel|||||1.3|0.4|0.29
92400376|NCT02546609|184692235|OTHER|||||||0.9776|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.9776
92219267|NCT02187172|184339267|SUPERIORITY||Mean Difference (Final Values)|-29.16|STANDARD_ERROR_OF_MEAN|38.01||0.4478|TWO_SIDED|95.0|-106.17|47.85|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||47.85|-106.17|0.4478
92349865|NCT01529268|184603684|SUPERIORITY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|0.1||||0.15|TWO_SIDED|95.0|-0.1|0.3|||ANCOVA|||||0.3|-0.1|0.15
92349866|NCT01529268|184603685|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|1.2||||0.57|TWO_SIDED|95.0|0.6|2.3|||Cochran-Mantel-Haenszel|||||2.3|0.6|0.57
92349867|NCT01529268|184603686|SUPERIORITY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|0.0||||0.76|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|||||0.2|-0.2|0.76
92349868|NCT01529268|184603687|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|1.0||||0.98|TWO_SIDED|95.0|0.6|1.6|||Cochran-Mantel-Haenszel|||||1.6|0.6|0.98
92349869|NCT01529268|184603688|SUPERIORITY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|-0.2||||0.24|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.24
92349870|NCT01529268|184603689|NON_INFERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|2.7||||0.29|TWO_SIDED|95.0|0.4|18.3|||Cochran-Mantel-Haenszel|Stratified by clinic and weight group||||18.3|0.4|0.29
92400377|NCT02546609|184692236|OTHER|||||||0.2265|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.2265
92219268|NCT02187172|184339268|SUPERIORITY||Mean Difference (Final Values)|3.14|STANDARD_ERROR_OF_MEAN|2.81||0.2704|TWO_SIDED|95.0|-2.55|8.83|||Regression, Linear|||Comparison during RCT period||8.83|-2.55|0.2704
92219269|NCT02187172|184339268|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|1.41||0.295|TWO_SIDED|95.0|-1.36|4.36|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||4.36|-1.36|0.2950
92219270|NCT02187172|184339269|SUPERIORITY||Mean Difference (Final Values)|-16.74|STANDARD_ERROR_OF_MEAN|6.57||0.0149|TWO_SIDED|95.0|-30.03|-3.45|||Regression, Linear|||Comparison during RCT period||-3.45|-30.03|0.0149
92219271|NCT02187172|184339269|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|3.37||0.9734|TWO_SIDED|95.0|-6.93|6.71|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||6.71|-6.93|0.9734
92219272|NCT02187172|184339270|SUPERIORITY||Mean Difference (Net)|-9.21|STANDARD_ERROR_OF_MEAN|11.76||0.4384|TWO_SIDED|95.0|-33.03|14.6|||Regression, Linear|||Comparison during RCT period||14.60|-33.03|0.4384
92219273|NCT02187172|184339270|SUPERIORITY||Mean Difference (Final Values)|11.14|STANDARD_ERROR_OF_MEAN|7.33||0.1373|TWO_SIDED|95.0|-3.72|25.99|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||25.99|-3.72|0.1373
92349871|NCT01529268|184603690|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing change from baseline to 52 weeks in serum alanine aminotransferase on treatment group and baseline value of serum alanine aminotransferase.|Adjusted difference in mean changes|-24.0||||0.02|TWO_SIDED|95.0|-44.0|-4.0|||ANCOVA|Adjusted for baseline serum alanine aminotransferase||Adjusted difference in mean changes in serum alanine aminotransferase (ALT). The change in ALT is adjusted for the baseline ALT value; therefore, the adjusted difference in mean changes is not equal to the net change.||-4|-44|0.02
92349872|NCT01529268|184603690|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in serum aspartate aminotransferase on treatment group and baseline value of serum aspartate aminotransferase.|Mean Difference (Net)|-15.0||||0.008|TWO_SIDED|95.0|-26.0|-4.0|||ANCOVA|Adjusted for baseline serum aspartate aminotransferase.||Adjusted difference in mean changes in serum aspartate aminotransferase (AST). The change in AST is adjusted for the baseline AST value; therefore, the adjusted difference in mean changes is not equal to the net change.||-4|-26|0.008
92349873|NCT01529268|184603690|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in gamma-glutamyl transpeptidase on treatment group and baseline value of gamma-glutamyl transpeptidase.|Mean Difference (Net)|-7.0||||0.02|TWO_SIDED|95.0|-13.0|-1.0|||ANCOVA|Adjusted for baseline gamma-glutamyl transpeptidase||Adjusted difference in mean changes in serum gamma-glutamyl transpeptidase (GGT). The change in GGT is adjusted for the baseline GGTvalue; therefore, the adjusted difference in mean changes is not equal to the net change.||-1|-13|0.02
92349874|NCT01529268|184603691|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|P-value and adjusted difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in weight (kg) on treatment group and baseline weight (kg).|Adjusted difference in mean changes|-1.5||||0.25|TWO_SIDED|95.0|-4.1|1.1|||ANCOVA|Adjusted for baseline weight (kg).||Adjusted difference in mean changes in weight (kg). The change in weight is adjusted for the baseline weight value; therefore, the adjusted difference in mean changes is not equal to the net change.||1.1|-4.1|0.25
92349875|NCT01529268|184603692|SUPERIORITY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks on treatment group and baseline value of the outcome.|Adjusted difference in mean changes|-0.3||||0.42|TWO_SIDED|95.0|-1.1|0.5|||ANCOVA|Adjusted for baseline BMI (kg/m2)||Adjusted difference in mean changes in body mass index (BMI). The change in BMI is adjusted for the baseline BMI value; therefore, the adjusted difference in mean changes is not equal to the net change.||0.5|-1.1|0.42
92349876|NCT01529268|184603693|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks on treatment group and baseline value of the outcome.|Mean Difference (Net)|-0.1||||0.11|TWO_SIDED|95.0|-0.1|0.0|||ANCOVA|||||0.0|-0.1|0.11
92219274|NCT02187172|184339271|SUPERIORITY||Mean Difference (Final Values)|-15.71|STANDARD_ERROR_OF_MEAN|5.77||0.0097|TWO_SIDED|95.0|-27.39|-4.03|||Regression, Linear|||Comparison during RCT period||-4.03|-27.39|0.0097
92219275|NCT02187172|184339271|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|2.07||0.8119|TWO_SIDED|95.0|-4.69|3.7|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||3.70|-4.69|0.8119
92349877|NCT01529268|184603694|SUPERIORITY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in waist circumference on treatment group and baseline value of waist circumference.|Adjusted difference in mean changes|0.2||||0.89|TWO_SIDED|95.0|-2.3|2.6|||ANCOVA|Adjusted for baseline waist circumference (cm)||Adjusted difference in mean changes in waist circumference (cm). The change in waist circumference is adjusted for the baseline waist circumference value; therefore, the adjusted difference in mean changes is not equal to the net change.||2.6|-2.3|0.89
92349878|NCT01529268|184603695|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in fasting serum glucose on treatment group and baseline fasting serum glucose value.|Adjusted difference in mean changes|-4.0||||0.24|TWO_SIDED|95.0|-11.0|3.0|||ANCOVA|Adjusted for baseline serum glucose value.||Adjusted difference in mean changes in fasting serum glucose. The change in fasting serum glucose is adjusted for the baseline fasting serum glucose value; therefore, the adjusted difference in mean changes is not equal to the net change.||3|-11|0.24
92349879|NCT01529268|184603696|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in fasting insulin on treatment group and baseline fasting insulin.|Adjusted difference in mean changes|-6.0||||0.34|TWO_SIDED|95.0|-18.0|6.0|||ANCOVA|Adjusted for baseline fasting insulin.||Adjusted difference in mean changes in fasting insulin. The change in fasting insulin is adjusted for the baseline fasting insulin value; therefore, the adjusted difference in mean changes is not equal to the net change.||6|-18|0.34
92349880|NCT01529268|184603697|SUPERIORITY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in HOMA-IR on treatment group and baseline HOMA-IR value.|Adjusted difference in mean changes|-2.6||||0.15|TWO_SIDED|95.0|-6.2|1.0|||ANCOVA|Adjusted for baseline HOMA-IR.||Adjusted difference in mean changes in HOMA-IR. The change in HOMA-IR is adjusted for the baseline HOMA-IR value; therefore, the adjusted difference in mean changes is not equal to the net change.||1.0|-6.2|0.15
92349881|NCT01529268|184603698|SUPERIORITY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in systolic blood pressure on treatment group and baseline systolic blood pressure value.|Adjusted difference in mean changes|1.0||||0.71|TWO_SIDED|95.0|-3.0|4.0|||ANCOVA|Adjusted for baseline systolic blood pressure.||Adjusted difference in mean changes in systolic blood pressure. The change in systolic blood pressure is adjusted for the baseline systolic blood pressure value; therefore, the adjusted difference in mean changes is not equal to the net change.||4|-3|0.71
92349882|NCT01529268|184603699|SUPERIORITY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in diastolic blood pressure on treatment group and baseline diastolic blood pressure value.|Adjusted difference in mean changes|-1.0||||0.31|TWO_SIDED|95.0|-4.0|1.0|||ANCOVA|Adjusted for baseline diastolic blood pressure.||Adjusted difference in mean changes in diastolic blood pressure. The change in diastolic blood pressure is adjusted for the baseline diastolic blood pressure value; therefore, the adjusted difference in mean changes is not equal to the net change.||1|-4|0.31
92219276|NCT02187172|184339272|SUPERIORITY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|4.57||0.9415|TWO_SIDED|95.0|-8.91|9.59|||Regression, Linear|||Comparison during RCT period||9.59|-8.91|0.9415
92349883|NCT01529268|184603700|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in self-reported Physical Health summary score on treatment group and baseline value of the Physical Health summary score.|Adjusted difference in mean changes|-1.0||||0.77|TWO_SIDED|95.0|-5.0|3.0|||ANCOVA|Adjusted for baseline self-reported Physical Health summary score.||Adjusted difference in mean changes from baseline in self-reported Physical Health summary score from the Pediatric Quality of Life Inventory (PedsQL). The difference in mean changes in Physical Health summary score is adjusted for the baseline Physical Health summary score; therefore, the adjusted difference in mean changes is not equal to the net change. Higher scores indicate better health-related quality of life.||3|-5|0.77
92369411|NCT03641716|184643644|OTHER||||||<|0.01||||||a prior threshold for statistical significance set at p\<.05|t-test, 2 sided|We ran a paired samples t-test with pre/post intervention data (from baseline and 3-month assessments).||After examining the data to ensure it met the statistical assumptions (e.g. normality, no outliers), we ran a paired-sample pre-post t-test to examine the difference in scores from baseline to 3 months on the NutriSTEP (Screening Tool for Every Preschooler) assessment.||||<.01
92369412|NCT01696981|184643654|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.95|1.0|||Poisson regression|||||1.00|0.95|
92369413|NCT01696981|184643656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.72|0.85|||Poisson regression|||||0.85|0.72|
92369414|NCT01696981|184643658|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.63|0.87|||Poisson regression|||||0.87|0.63|
92369415|NCT00005947|184643685|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.052||95.0|0.99|2.11|||Log Rank||Obtained from a Cox proportional hazards model with treatment group as the independent variable \[placebo/sipuleucel-T\].|||2.11|0.99|0.052
92369416|NCT00005947|184643685|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.052|TWO_SIDED|95.0|0.47|1.01|||Log Rank||Obtained from a Cox proportional hazards model with treatment group as the independent variable \[sipuleucel-T/placebo\]|||1.01|0.47|0.052
92369417|NCT00005947|184643686|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.71||||0.01||95.0|1.13|2.58|||Log Rank||Cox proportional hazards model with treatment as the independent variable \[placebo/sipuleucel-T\].|ITT Population - all randomized participants||2.58|1.13|0.010
92369418|NCT00005947|184643686|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.586||||0.01|TWO_SIDED|95.0|0.388|0.884|||Log Rank||Cox proportional hazards model with treatment as the independent variable \[sipuleucel-T/placebo\]|ITT Population - all randomized participants.||0.884|0.388|0.010
92349884|NCT01529268|184603700|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in Pyschosocial Health summary score on treatment group and baseline Psychosocial Health summary score.|Adjusted difference in mean changes|-1.0||||0.64|TWO_SIDED|95.0|-5.0|3.0|||ANCOVA|Adjusted for baseline Psychosocial Health summary score.||Adjusted difference in mean changes from baseline in self-reported Psychosocial Health summary score from the Pediatric Quality of Life Inventory (PedsQL). The difference in mean changes in Psychosocial Health summary score is adjusted for the baseline Psychosocial Health summary score; therefore, the adjusted difference in mean changes is not equal to the net change. Higher scores indicate better health-related quality of life.||3|-5|0.64
92349885|NCT01529268|184603700|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in parent/guardian-reported Physical Health summary score on treatment group and baseline value of the parent/guardian-reported Physical Health summary score.|Adjusted difference in mean changes|-2.0||||0.58|TWO_SIDED|95.0|-9.0|5.0|||ANCOVA|Adjusted for baseline parent/guardian-reported Physical Health summary score.||Adjusted difference in mean changes from baseline in parent/guardian-reported Physical Health summary score from the Pediatric Quality of Life Inventory (PedsQL). The difference in mean changes in parent/guardian-reported Physical Health summary score is adjusted for the baseline parent/guardian-reported Physical Health summary score; therefore, the adjusted difference in mean changes is not equal to the net change. Higher scores indicate better health-related quality of life.||5|-9|0.58
92349886|NCT01529268|184603700|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in parent/guardian-reported Psychosocial Health summary score on treatment group and baseline value of the parent/guardian-reported Psychosocial Health summary score.|Adjusted difference in mean changes|-1.0||||0.85|TWO_SIDED|95.0|-6.0|5.0|||ANCOVA|||Adjusted difference in mean changes from baseline in parent/guardian-reported Psychosocial Health summary score from the Pediatric Quality of Life Inventory (PedsQL). The difference in mean changes in parent/guardian-reported Psychosocial Health summary score is adjusted for the baseline parent/guardian-reported Psychosocial Health summary score; therefore, the adjusted difference in mean changes is not equal to the net change. Higher scores indicate better health-related quality of life.||5|-6|0.85
92160515|NCT01720446|184209341|SUPERIORITY_OR_OTHER||Treatment difference|-1.22|||<|0.0001|TWO_SIDED|95.0|-1.56|-0.88|||Mixed Models Analysis||Sema 1.0 mg - Placebo 1.0 mg|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-0.88|-1.56|<0.0001
92349887|NCT01529268|184603701|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.11|TWO_SIDED||||||ANCOVA|||||||0.11
92400378|NCT02546609|184692236|OTHER|||||||0.8366|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.8366
92160516|NCT01720446|184209342|SUPERIORITY_OR_OTHER||Treatment difference|-2.95|||<|0.0001|TWO_SIDED|95.0|-3.47|-2.44|||Mixed Models Analysis||Sema 0.5 mg - Placebo|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-2.44|-3.47|<0.0001
92160517|NCT01720446|184209342|SUPERIORITY_OR_OTHER||Treatment difference|-4.27|||<|0.0001|TWO_SIDED|95.0|-4.78|-3.75|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-3.75|-4.78|<0.0001
92160518|NCT01720446|184209343|SUPERIORITY_OR_OTHER||Treatment ratio|0.97||||0.0149|TWO_SIDED|95.0|0.95|1.0|||Mixed Models Analysis||Semaglutide 0.5 mg/Placebo 0.5 mg|Analysis for total cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit. The response and its baseline value were log-transformed before analysis.||1.00|0.95|0.0149
92219277|NCT02187172|184339272|SUPERIORITY||Mean Difference (Final Values)|-1.86|STANDARD_ERROR_OF_MEAN|2.43||0.4485|TWO_SIDED|95.0|-6.77|3.06|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||3.06|-6.77|0.4485
92349888|NCT04465955|184603705|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.4345|TWO_SIDED|95.0|-0.528|0.227|||Random coefficient model|Covariates included terms for time, treatment-by-time interaction, baseline fellow eye CNV status, baseline focality, and baseline GA lesion location||Rate of Change Difference Between NGM621 Q4W and Pooled Sham||0.227|-0.528|0.4345
92349889|NCT04465955|184603705|SUPERIORITY||Mean Difference (Final Values)|-0.155||||0.4217|TWO_SIDED|95.0|-0.536|0.225|||Random coefficient model|Covariates included terms for time, treatment-by-time interaction, baseline fellow eye CNV status, baseline focality, and baseline GA lesion location||Rate of Change Difference Between NGM621 Q8W and Pooled Sham||0.225|-0.536|0.4217
92400379|NCT02546609|184692237|OTHER|||||||0.347|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.3470
92400380|NCT02546609|184692237|OTHER|||||||0.6221|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.6221
92400381|NCT02546609|184692238|OTHER|||||||0.347|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.3470
92219278|NCT02187172|184339273|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|5.16||0.988|TWO_SIDED|95.0|-10.37|10.53|||Regression, Linear|||Comparison during RCT period||10.53|-10.37|0.9880
92219279|NCT02187172|184339273|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|2.59||0.8836|TWO_SIDED|95.0|-4.86|5.63|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||5.63|-4.86|0.8836
92219280|NCT02187172|184339274|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|1.3||0.8321|TWO_SIDED|95.0|-2.91|2.36|||Regression, Linear|||Comparison during RCT period||2.36|-2.91|0.8321
92219281|NCT02187172|184339274|SUPERIORITY||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|1.08||0.0394|TWO_SIDED|95.0|0.12|4.48|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||4.48|0.12|0.0394
92160519|NCT01720446|184209343|SUPERIORITY_OR_OTHER||Treatment ratio|0.99||||0.258|TWO_SIDED|95.0|0.97|1.01|||Mixed Models Analysis||Semaglutide 1.0 mg/Placebo 1.0 mg|Analysis for total cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit. The response and its baseline value were log-transformed before analysis.||1.01|0.97|0.2580
92160520|NCT01720446|184209343|SUPERIORITY_OR_OTHER||Treatment ratio|1.0||||0.8106|TWO_SIDED|95.0|0.99|1.02|||Mixed Models Analysis||Semaglutide 0.5 mg/Placebo 0.5 mg|Analysis for HDL-cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.02|0.99|0.8106
92160521|NCT01720446|184209343|SUPERIORITY_OR_OTHER||Treatment ratio|1.04|||<|0.0001|TWO_SIDED|95.0|1.02|1.06|||Mixed Models Analysis||Semaglutide 1.0 mg/Placebo 1.0 mg|Analysis for HDL-cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.06|1.02|<0.0001
92160522|NCT01720446|184209343|SUPERIORITY_OR_OTHER||Treatment ratio|0.96||||0.0185|TWO_SIDED|95.0|0.93|0.99|||Mixed Models Analysis||Semaglutide 0.5 mg/Placebo 0.5 mg|Analysis for LDL-cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.99|0.93|0.0185
92160523|NCT01720446|184209343|SUPERIORITY_OR_OTHER||Treatment ratio|0.99||||0.5996|TWO_SIDED|95.0|0.96|1.03|||Mixed Models Analysis||Semaglutide 1.0 mg/Placebo 1.0 mg|Analysis for LDL-cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.03|0.96|0.5996
92160524|NCT01720446|184209343|SUPERIORITY_OR_OTHER||Treatment ratio|0.97||||0.1833|TWO_SIDED|95.0|0.93|1.01|||Mixed Models Analysis||Semaglutide 0.5 mg/Placebo 0.5 mg|Analysis for triglycerides was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.01|0.93|0.1833
92160525|NCT01720446|184209343|SUPERIORITY_OR_OTHER||Treatment ratio|0.93||||0.0009|TWO_SIDED|95.0|0.89|0.97|||Mixed Models Analysis||Semaglutide 1.0 mg/Placebo 1.0 mg|Analysis for triglycerides was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.97|0.89|0.0009
92160526|NCT01720446|184209344|SUPERIORITY_OR_OTHER||Treatment ratio|0.78||||0.0003|TWO_SIDED|95.0|0.68|0.89|||Mixed Models Analysis||Sema 0.5 mg / Placebo 0.5 mg|Analysis for urinary albumin to creatinine ration was donne using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit. The response and its baseline value were log-transformed before analysis.||0.89|0.68|0.0003
92160527|NCT01720446|184209344|SUPERIORITY_OR_OTHER||Treatment ratio|0.71|||<|0.0001|TWO_SIDED|95.0|0.62|0.81|||Mixed Models Analysis||Sema 1.0 mg / Placebo 1.0 mg|Analysis for urinary albumin to creatinine ration was donne using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.81|0.62|<0.0001
92160528|NCT01720446|184209345|SUPERIORITY_OR_OTHER||Treatment difference|0.04||||0.9205|TWO_SIDED|95.0|-0.83|0.92|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for diastolic blood pressure was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.92|-0.83|0.9205
92160529|NCT01720446|184209345|SUPERIORITY_OR_OTHER||Treatment difference|0.14||||0.7477|TWO_SIDED|95.0|-0.74|1.03|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for diastolic blood pressure was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.03|-0.74|0.7477
92160530|NCT01720446|184209345|SUPERIORITY_OR_OTHER||Treatment difference|-1.27||||0.0976|TWO_SIDED|95.0|-2.77|0.23|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for systolic blood pressure was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.23|-2.77|0.0976
92160531|NCT01720446|184209345|SUPERIORITY_OR_OTHER||Treatment difference|-2.59||||0.0008|TWO_SIDED|95.0|-4.09|-1.08|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for systolic blood pressure was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-1.08|-4.09|0.0008
92160532|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|0.5||||0.3171|TWO_SIDED|95.0|-0.48|1.47|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for bodily pain was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.47|-0.48|0.3171
92160533|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|1.47||||0.0031|TWO_SIDED|95.0|0.5|2.45|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for bodily pain was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.45|0.50|0.0031
92160534|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|0.87||||0.035|TWO_SIDED|95.0|0.06|1.69|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for general health was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.69|0.06|0.0350
92160535|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|1.42||||0.0007|TWO_SIDED|95.0|0.6|2.24|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for general health was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.24|0.60|0.0007
92349890|NCT04822194|184603726|SUPERIORITY|||||||0.053|||||||Mixed Models Analysis|Ran linear mixed model, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups. Power analyses using an approximate effect size (d=.70) previously reported for within and between-subjects behavioral analyses of longitudinal reappraisal training data indicate over 95% power (α=.05) to detect within-group effects and 90% power (α=.05) to detect between-group effects require 36 per group.||||0.053
92160536|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|0.17||||0.7277|TWO_SIDED|95.0|-0.79|1.13|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for mental component summary was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.13|-0.79|0.7277
92160537|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|0.97||||0.0489|TWO_SIDED|95.0|0.0|1.94|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for mental component summary was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.94|0.00|0.0489
92160538|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment Difference|0.61||||0.186|TWO_SIDED|95.0|-0.3|1.53|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for mental health was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.53|-0.30|0.1860
92160539|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|1.39||||0.0029|TWO_SIDED|95.0|0.48|2.31|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for mental health was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.31|0.48|0.0029
92160540|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|0.68||||0.0833|TWO_SIDED|95.0|-0.09|1.45|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for physical component summary was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.45|-0.09|0.0833
92160541|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|1.4||||0.0004|TWO_SIDED|95.0|0.62|2.17|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for physical component summary was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.17|0.62|0.0004
92160542|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|0.8||||0.0799|TWO_SIDED|95.0|-0.1|1.69|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for physical functioning was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.69|-0.10|0.0799
92160543|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|1.5||||0.0011|TWO_SIDED|95.0|0.6|2.4|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for physical functioning was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.40|0.60|0.0011
92160544|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|0.53||||0.3717|TWO_SIDED|95.0|-0.63|1.68|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for role emotional was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.68|-0.63|0.3717
92160545|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|0.94||||0.1136|TWO_SIDED|95.0|-0.22|2.1|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for role emotional was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.10|-0.22|0.1136
92219282|NCT02187172|184339275|SUPERIORITY||Mean Difference (Final Values)|152.68|STANDARD_ERROR_OF_MEAN|43.76||0.0012|TWO_SIDED|95.0|64.07|241.23|||Regression, Linear|||Comparison during RCT period||241.23|64.07|0.0012
92160546|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|0.72||||0.1431|TWO_SIDED|95.0|-0.24|1.67|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for role physical was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.67|-0.24|0.1431
92160547|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|1.14||||0.0197|TWO_SIDED|95.0|0.18|2.11|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for role physical was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.11|0.18|0.0197
92219283|NCT02187172|184339275|SUPERIORITY||Mean Difference (Final Values)|-2.97|STANDARD_ERROR_OF_MEAN|25.7||0.9085|TWO_SIDED|95.0|-55.04|49.09|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||49.09|-55.04|0.9085
92349891|NCT04822194|184603727|SUPERIORITY|||||||0.741|||||||Mixed Models Analysis|Ran linear mixed models on natural log of RMSSD, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups. Power analyses using an approximate effect size (d=.70) previously obtained for within and between-subjects analyses of respiratory sinus arrhythmia data indicate over 95% power (α=.05) to detect within-group effects and 90% power (α=.05) to detect between-group effects should be achieved with 36 per group.||||0.741
92219284|NCT02187172|184339276|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.04||0.1792|TWO_SIDED|95.0|-0.03|0.14|||Regression, Linear|||Comparison during RCT period||0.14|-0.03|0.1792
92369419|NCT00819156|184643748|SUPERIORITY_OR_OTHER_LEGACY||Percentage|61.0||||||95.0|41.0|78.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||78|41|
92219285|NCT02187172|184339276|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.03||0.2559|TWO_SIDED|95.0|-0.03|0.1|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||0.10|-0.03|0.2559
92349892|NCT04822194|184603728|SUPERIORITY|||||||0.021|||||||Mixed Models Analysis|Ran linear mixed model, p-value above reflects a group by session interaction.||Null hypothesis: no difference between groups. Power analyses using a within-subject fMRI effect size estimate for right amygdala affective reactivity from a meta-analysis of Human Connectome Project data of approx. d=.70, applying to between-subjects effects as well, indicate over 95% power (α=.05) to detect within-group effects and 90% power (α=0.05) to detect between-group effects should be achieved with 36 participants per group.||||0.021
92349893|NCT04822194|184603729|SUPERIORITY|||||||0.724|||||||Mixed Models Analysis|We ran linear mixed models, p-value reflects a group by session interaction for the UGRS composite scores.||Null hypothesis: no difference between groups. Power analyses of an effect size (d=.70) previously reported for within and between-subjects analyses of questionnaire outcomes (i.e., depressive symptoms, grief rumination, perceived stress, reappraisal usage) indicate over 95% power (α=.05) to detect within-group effects and 90% power (α=0.05) for between-group effects should be achieved with 36 per group.||||0.724
92349894|NCT04822194|184603729|SUPERIORITY|||||||0.835|||||||Mixed Models Analysis|Ran linear mixed model on counterfactuals adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.835
92160548|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|-0.05||||0.9223|TWO_SIDED|95.0|-1.03|0.93|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for social functioning was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.93|-1.03|0.9223
92349895|NCT04822194|184603729|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|Ran linear mixed model on injustice adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups.||||0.090
92349896|NCT04822194|184603729|SUPERIORITY|||||||0.983|||||||Mixed Models Analysis|Ran linear mixed model on meaning adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.983
92349897|NCT04822194|184603729|SUPERIORITY|||||||0.76|||||||Mixed Models Analysis|Ran linear mixed model on reaction adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.760
92349898|NCT04822194|184603729|SUPERIORITY|||||||0.402|||||||Mixed Models Analysis|Ran linear mixed model on relations adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups.||||0.402
92349899|NCT04822194|184603730|SUPERIORITY|||||||0.092|||||||Mixed Models Analysis|We ran a linear mixed model, p-value reflects group by session interaction||Null hypothesis: no difference between groups||||0.092
92349900|NCT04822194|184603731|SUPERIORITY|||||||0.585|||||||Mixed Models Analysis|Ran a linear mixed model, p-value reflects group by session interaction||Null hypothesis: no difference between groups||||0.585
92349901|NCT04822194|184603732|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|Ran linear mixed model, p-value reflects group by session interaction||Null hypothesis: no difference between groups||||0.70
92160549|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|1.14||||0.0237|TWO_SIDED|95.0|0.15|2.13|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for social functioning was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.13|0.15|0.0237
92160550|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|0.33||||0.4523|TWO_SIDED|95.0|-0.53|1.19|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for vitality was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.19|-0.53|0.4523
92160551|NCT01720446|184209349|SUPERIORITY_OR_OTHER||Treatment difference|1.2||||0.0064|TWO_SIDED|95.0|0.34|2.07|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for vitality was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.07|0.34|0.0064
92160552|NCT01720446|184209350|SUPERIORITY_OR_OTHER||Treatment ratio|0.99||||0.7796|TWO_SIDED|95.0|0.95|1.04|||Mixed Models Analysis||Semaglutide 0.5 mg/Placebo 0.5 mg|Analysis for free fatty acids was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.04|0.95|0.7796
92160553|NCT01720446|184209350|SUPERIORITY_OR_OTHER||Treatment ratio|0.92||||0.0003|TWO_SIDED|95.0|0.88|0.96|||Mixed Models Analysis||Semaglutide 1.0 mg/Placebo 1.0 mg|Analysis for free fatty acids was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.96|0.88|0.0003
92160554|NCT01720446|184209351|SUPERIORITY_OR_OTHER||Treatment difference|2.02|||<|0.0001|TWO_SIDED|95.0|1.07|2.98|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for pulse rate was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.98|1.07|<0.0001
92160555|NCT01720446|184209351|SUPERIORITY_OR_OTHER||Treatment difference|2.47|||<|0.0001|TWO_SIDED|95.0|1.52|3.43|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for pulse rate was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||3.43|1.52|<0.0001
92160556|NCT01803646|184209352|SUPERIORITY||Mean Difference (Net)|-0.17||||0.32|TWO_SIDED|95.0|-0.51|0.17|||Mixed Models Analysis|||||0.17|-0.51|0.32
92160557|NCT01803646|184209353|SUPERIORITY||Mean Difference (Net)|-0.79||||0.63|TWO_SIDED|95.0|-4.0|2.4|||Mixed Models Analysis|||||2.4|-4|0.63
92160558|NCT01803646|184209354|SUPERIORITY|||||||0.821|||||||Fisher Exact|||Analysis for air conduction||||0.821
92160559|NCT01803646|184209354|SUPERIORITY|||||||1|||||||Fisher Exact|||Analysis for bone conduction||||1.0
92160560|NCT00742274|184209391|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92400382|NCT02546609|184692238|OTHER|||||||0.6221|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.6221
92160561|NCT01101165|184209392|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|96.6|||||TWO_SIDED|90.0|92.8|100.56|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||100.56|92.80|
92160562|NCT01101165|184209393|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|94.8|||||TWO_SIDED|90.0|92.42|97.24|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||97.24|92.42|
92219286|NCT02187172|184339277|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.13||0.2453|TWO_SIDED|95.0|-0.11|0.41|||Regression, Linear|||||0.41|-0.11|0.2453
92400383|NCT02546609|184692239|OTHER|||||||0.0129|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.0129
92400384|NCT02546609|184692239|OTHER|||||||0.4316|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.4316
92160563|NCT01101165|184209394|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|95.5|||||TWO_SIDED|90.0|92.93|98.18|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||98.18|92.93|
92219287|NCT02187172|184339277|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.06||0.1087|TWO_SIDED|95.0|-0.02|0.23|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||0.23|-0.02|0.1087
92219288|NCT02187172|184339278|SUPERIORITY||Mean Difference (Final Values)|48.43|STANDARD_ERROR_OF_MEAN|61.62||0.4368|TWO_SIDED|95.0|-76.31|173.16|||Regression, Linear|||Comparison during RCT period||173.16|-76.31|0.4368
92219289|NCT02187172|184339278|SUPERIORITY||Mean Difference (Final Values)|-49.56|STANDARD_ERROR_OF_MEAN|27.84||0.0833|TWO_SIDED|95.0|-105.97|6.85|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||6.85|-105.97|0.0833
92275652|NCT01706198|184453800|OTHER||Ratio|1.1|||<|0.001|TWO_SIDED|95.0|1.05|1.15||GLM assuming NBD adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age|Generalized Linear Model (GLM)||Ratio comparing FF/VI with Usual Care has been presented.|||1.15|1.05|<0.001
92275653|NCT01706198|184453802|OTHER||Ratio|0.98||||0.697|TWO_SIDED|95.0|0.88|1.09||GLM assuming NBD adjusted for randomized treatment; asthma maintenance therapy and ACT total score at Baseline per randomization stratification; number of severe asthma exacerbations in previous year prior to randomization categorized; gender \& age|Generalized Linear Model (GLM)||Ratio comparing FF/VI with Usual Care has been presented.|||1.09|0.88|0.697
92275654|NCT01706198|184453803|OTHER||Hazard Ratio (HR)|0.96||||0.504|TWO_SIDED|95.0|0.86|1.07||Cox proportional hazards model with randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age as covariates|Cox proportional hazards model||A hazard ratio \<1 indicated a lower risk with FF/VI compared with Usual Care|||1.07|0.86|0.504
92275655|NCT01706198|184453804|OTHER||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.1|-0.5||ANCOVA adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender,age \& number of salbutamol inhalers in year prior to randomization|ANCOVA||Difference of FF/VI versus Usual Care has been presented.|||-0.5|-1.1|<0.001
92400385|NCT02546609|184692240|OTHER|MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||||0.1946|||||||MMRM|||||||0.1946
92400386|NCT02546609|184692240|OTHER|||||||0.4697|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.4697
92219290|NCT02187172|184339279|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|1.11||0.8036|TWO_SIDED|95.0|-2.52|1.97|||Regression, Linear|||Comparison during RCT period||1.97|-2.52|0.8036
92219291|NCT02187172|184339279|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.51||0.4608|TWO_SIDED|95.0|-0.65|1.4|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||1.40|-0.65|0.4608
92219292|NCT02187172|184339280|SUPERIORITY||Mean Difference (Final Values)|3320.58|STANDARD_ERROR_OF_MEAN|3414.9||0.337|TWO_SIDED|95.0|-3592.52|10233.67|||Regression, Linear|||Comparison during RCT period||10233.67|-3592.52|0.3370
92219293|NCT02187172|184339280|SUPERIORITY||Mean Difference (Final Values)|6926.25|STANDARD_ERROR_OF_MEAN|2257.84||0.004|TWO_SIDED|95.0|2351.43|11501.07|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||11501.07|2351.43|0.0040
92219294|NCT02187172|184339281|SUPERIORITY||Mean Difference (Final Values)|-68.95|STANDARD_ERROR_OF_MEAN|131.9||0.6042|TWO_SIDED|95.0|-335.97|198.08|||Regression, Linear|||Comparison during RCT period||198.08|-335.97|0.6042
92219295|NCT02187172|184339281|SUPERIORITY||Mean Difference (Final Values)|-7.96|STANDARD_ERROR_OF_MEAN|85.98||0.9267|TWO_SIDED|95.0|-182.18|166.26|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||166.26|-182.18|0.9267
92219296|NCT02187172|184339282|SUPERIORITY||Mean Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|5.18||0.4226|TWO_SIDED|95.0|-6.28|14.68|||Regression, Linear|||Comparison during RCT period||14.68|-6.28|0.4226
92219297|NCT02187172|184339282|SUPERIORITY||Mean Difference (Final Values)|3.41|STANDARD_ERROR_OF_MEAN|3.43||0.327|TWO_SIDED|95.0|-3.54|10.36|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||10.36|-3.54|0.3270
92219298|NCT02187172|184339283|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|1.52||0.7507|TWO_SIDED|95.0|-3.56|2.59|||Regression, Linear|||Comparison during RCT period||2.59|-3.56|0.7507
92219299|NCT02187172|184339283|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.89||0.9348|TWO_SIDED|95.0|-1.88|1.73|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||1.73|-1.88|0.9348
92219300|NCT02187172|184339284|SUPERIORITY||Difference of proportions|0.67||||0.0005|TWO_SIDED|95.0|0.45|0.89|||Chi-squared|||||0.89|0.45|0.0005
92219301|NCT02187172|184339284|OTHER|95% CI of proportion achieving PASI75 at end of study|Proportion|0.72|||||TWO_SIDED|95.0|0.55|0.85||||||||0.85|0.55|
92219302|NCT02187172|184339285|SUPERIORITY||Difference of proportions|0.41||||0.0016|TWO_SIDED|95.0|0.2|0.62|||Chi-squared|||||0.62|0.20|0.0016
92219303|NCT02187172|184339285|OTHER|95% CI of proportion achieving PASI90 at end of study|Proportion|0.49|||||TWO_SIDED|95.0|0.32|0.65||||||||0.65|0.32|
92219304|NCT02187172|184339286|SUPERIORITY||Difference of proportions|0.53||||0.0005|TWO_SIDED|95.0|0.29|0.78|||Chi-squared|||Comparison during RCT period for binary Physician Global Assessment||0.78|0.29|0.0005
92219305|NCT02187172|184339286|OTHER|95% CI of proportion achieving PGA clear/almost clear at end of study|Proportion|0.46|||||TWO_SIDED|95.0|0.3|0.63||||||||0.63|0.30|
92219306|NCT02187172|184339287|SUPERIORITY||Mean Difference (Final Values)|8.32|STANDARD_ERROR_OF_MEAN|6.3||0.1944|TWO_SIDED|95.0|-4.42|21.06|||Regression, Linear|||||21.06|-4.42|0.1944
92219307|NCT02187172|184339287|SUPERIORITY||Mean Difference (Final Values)|-12.33|STANDARD_ERROR_OF_MEAN|3.5||0.0011|TWO_SIDED|95.0|-19.4|-5.25|||Regression, Linear|||||-5.25|-19.40|0.0011
92349902|NCT04822194|184603733|SUPERIORITY|||||||0.696|||||||Mixed Models Analysis|Ran linear mixed model on emotional problems adjusted for covariates, p-value above reflects group by session interaction||Null hypothesis: no difference between groups.||||0.696
92349903|NCT04822194|184603733|SUPERIORITY|||||||0.452|||||||Mixed Models Analysis|Ran linear mixed model on emotional well-being adjusted for covariates, p-value reflects group by session interaction||Null hypothesis: no difference between groups||||0.452
92219308|NCT02187172|184339288|SUPERIORITY||Mean Difference (Final Values)|-779.59|STANDARD_ERROR_OF_MEAN|1049.99||0.4628|TWO_SIDED|95.0|-2911.19|1352.01|||Regression, Linear|||||1352.01|-2911.19|0.4628
92219309|NCT02187172|184339288|SUPERIORITY||Mean Difference (Final Values)|-910.84|STANDARD_ERROR_OF_MEAN|729.96||0.2209|TWO_SIDED|95.0|-2395.95|574.27|||Regression, Linear|||||574.27|-2395.95|0.2209
92219310|NCT01035099|184339297|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.31
92400387|NCT02546609|184692241|OTHER|||||||0.3474|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.3474
92219311|NCT01035099|184339298|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.19
92219312|NCT01035099|184339301|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.12
92219313|NCT01035099|184339302|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.77
92219314|NCT01035099|184339303|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.63
92349904|NCT04822194|184603733|SUPERIORITY|||||||0.65|||||||Mixed Models Analysis|Ran a linear mixed model on energy adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.650
92219315|NCT01035099|184339305|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.14
92219316|NCT01035099|184339306|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||<0.0001
92219317|NCT01035099|184339307|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.58
92219318|NCT01035099|184339309|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.42
92219319|NCT02605187|184339322|SUPERIORITY|||||||0.882||||||Final parameter estimates would be considered significant at P \< 0.05.|ANOVA|||Comparison of pain at rest 24 hours after delivery. Null Hypothesis: all the means are the same.||||0.882
92219320|NCT02605187|184339322|SUPERIORITY|||||||0.565||||||Final parameter estimates would be considered significant at P \< 0.05.|ANOVA|||Comparison of pain at movement 24 hours after delivery. Null Hypothesis: all the means are the same.||||0.565
92349905|NCT04822194|184603733|SUPERIORITY|||||||0.224|||||||Mixed Models Analysis|Ran linear mixed model on general health perceptions adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.224
92160564|NCT02020018|184209417|SUPERIORITY|||||||0.55|||||||Fisher Exact|||||||0.55
92160565|NCT03124108|184209427|SUPERIORITY||Difference in percentage|-52.0|STANDARD_ERROR_OF_MEAN|5.4|<|0.001|TWO_SIDED|95.0|-62.5|-41.5|||ANCOVA|||||-41.5|-62.5|<0.001
92160566|NCT03124108|184209427|SUPERIORITY||Difference in percentage|-43.9|STANDARD_ERROR_OF_MEAN|6.0|<|0.001|TWO_SIDED|95.0|-55.7|-32.1|||ANCOVA|||||-32.1|-55.7|<0.001
92160567|NCT01219855|184209480|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Z-test cmpared 2 independ. proportions|||||||<0.0001
92160568|NCT01219855|184209481|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Mixed effect model|||||||<0.01
92160569|NCT01219855|184209482|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed effect model|||||||<0.0001
92160570|NCT01219855|184209482|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Mixed effect model|||||||<0.01
92160571|NCT01219855|184209483|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed effect model|||||||<0.0001
92160572|NCT01219855|184209484|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Z-test compared 2 independ. proportions|||||||<0.05
92219321|NCT02605187|184339322|SUPERIORITY|||||||0.022||||||Final parameter estimates would be considered significant at P \< 0.05.|ANOVA|||Comparison of pain at rest 48 hours after delivery. Null Hypothesis: all the means are the same.||||0.022
92219322|NCT02605187|184339322|SUPERIORITY|||||||0.14||||||Final parameter estimates would be considered significant at P \< 0.05.|ANOVA|||Comparison of pain at movement 48 hours after delivery. Null Hypothesis: all the means are the same.||||0.140
92349906|NCT04822194|184603733|SUPERIORITY|||||||0.256|||||||Mixed Models Analysis|Ran linear mixed model on pain adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference in groups||||0.256
92219323|NCT02605187|184339323|SUPERIORITY|||||||0.311||||||Final parameter estimates would be considered significant at P \< 0.05.|Fisher Exact|||Comparison of opioid use 0-24 hours after delivery.||||0.311
92219324|NCT02605187|184339323|SUPERIORITY|||||||0.008||||||Final parameter estimates would be considered significant at P \< 0.05.|Fisher Exact|||Comparison of opioid use 24-48 hours after delivery.||||0.008
92219325|NCT02605187|184339324|SUPERIORITY|||||||0.092|||||||Fisher Exact|||Comparison of presence of pruritus 0-24 hours after delivery.||||0.092
92219326|NCT02605187|184339324|SUPERIORITY|||||||0.269|||||||Fisher Exact|||Comparison of presence of pruritus 24-48 hours after delivery.||||0.269
92219327|NCT02605187|184339325|SUPERIORITY|||||||0.006|||||||ANOVA|||Comparison of pruritus score 24 hours after delivery. Null Hypothesis: all means are equal||||0.006
92219328|NCT02605187|184339325|SUPERIORITY|||||||0.296|||||||ANOVA|||Comparison of pruritus score 48 hours after delivery. Null Hypothesis: all means are equal||||0.296
92219329|NCT02605187|184339326|SUPERIORITY|||||||0.759|||||||Fisher Exact|||Comparison of participants who need medical treatment of pruritus 0-24 hours after delivery.||||0.759
92349907|NCT04822194|184603733|SUPERIORITY|||||||0.984|||||||Mixed Models Analysis|Ran linear mixed model on physical function adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.984
92349908|NCT04822194|184603733|SUPERIORITY|||||||0.363|||||||Mixed Models Analysis|Ran linear mixed model on physical health adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.363
92219330|NCT02605187|184339326|SUPERIORITY|||||||0.761|||||||Fisher Exact|||Comparison of participants who need medical treatment of pruritus 24-48 hours after delivery.||||0.761
92219331|NCT02605187|184339327|SUPERIORITY|||||||0.281|||||||Chi-squared|||||||0.281
92219332|NCT02605187|184339328|SUPERIORITY|||||||0.786|||||||ANOVA|||Comparison of nausea score 24 hours after delivery. Null Hypothesis: all means are equal||||0.786
92349909|NCT04822194|184603733|SUPERIORITY|||||||0.045|||||||Mixed Models Analysis|Ran linear mixed model on social functioning adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.045
92219333|NCT02605187|184339328|SUPERIORITY|||||||0.985|||||||ANOVA|||Comparison of nausea score at 48 hours after delivery. Null Hypothesis: all means are equal||||0.985
92219334|NCT02605187|184339329|SUPERIORITY|||||||0.057|||||||Chi-squared|||Comparison of participants who need nausea treatment from 0-24 hours after delivery.||||0.057
92219335|NCT02605187|184339329|SUPERIORITY|||||||0.246|||||||Fisher Exact|||Comparison of participants who need nausea treatment from 24-48 hours after delivery.||||0.246
92349910|NCT04822194|184603734|SUPERIORITY|||||||0.422|||||||ANCOVA|Ran a repeated measures ANCOVA of logged IL-6 serum, p-value above reflects time by ER group interaction effect.||Null hypothesis: no difference between groups||||0.422
92349911|NCT04822194|184603734|SUPERIORITY|||||||0.438|||||||ANCOVA|Ran a repeated measures ANCOVA of TNFα, p-value above reflects time by ER group interaction effect.||Null hypothesis: no difference between groups||||0.438
92219336|NCT02605187|184339330|SUPERIORITY|||||||0.226|||||||ANOVA|||Comparison of average number of vomiting episodes 0-24 hours after delivery. Null Hypothesis: all means are equal||||0.226
92219337|NCT02605187|184339331|SUPERIORITY|||||||0.036|||||||ANOVA|||||||0.036
92219338|NCT02605187|184339332|SUPERIORITY|||||||0.019|||||||ANOVA|||Comparison of satisfaction with pain medication 24 hours after delivery.||||0.019
92219339|NCT02605187|184339332|SUPERIORITY|||||||0.873|||||||ANOVA|||Comparison of satisfaction with pain medication 48 hours after delivery.||||0.873
92219340|NCT01648790|184339333|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.983|||||TWO_SIDED|90.0|0.819|1.18|||||Least Squares (LS) means were determined by mixed-effect linear models with treatment, period, sequence as fixed effects, and participants nested within sequence as random effect.|||1.18|0.819|
92369420|NCT00819156|184643748|SUPERIORITY_OR_OTHER_LEGACY||Percentage|84.0||||||95.0|64.0|95.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||95|64|
92369421|NCT00819156|184643748|SUPERIORITY_OR_OTHER_LEGACY||Percentage|96.0||||||95.0|81.0|100.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||100|81|
92369422|NCT00819156|184643748|SUPERIORITY_OR_OTHER_LEGACY||Percentage|90.0||||||95.0|73.0|98.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||98|73|
92369423|NCT00819156|184643748|SUPERIORITY_OR_OTHER_LEGACY||Percentage|90.0||||||95.0|73.0|98.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||98|73|
92369424|NCT00819156|184643748|SUPERIORITY_OR_OTHER_LEGACY||Percentage|92.0||||||95.0|74.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||99|74|
92369425|NCT00819156|184643749|SUPERIORITY_OR_OTHER_LEGACY||Percentage|92.0||||||95.0|80.0|98.0|||||The estimated value is the percentage of patients with Testosterone (T) \<=0.5 nanograms (ng)/milliliter (mL) from Day 28 to Day 364 for Patients With T \<=0.5 ng/mL at Day 28. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||98|80|
92369426|NCT00819156|184643749|SUPERIORITY_OR_OTHER_LEGACY||Percentage|96.0||||||95.0|86.0|100.0|||||The estimated value is the percentage of patients with Testosterone (T) \<=0.5 nanograms (ng)/milliliter (mL) from Day 28 to Day 364 for Patients With T \<=0.5 ng/mL at Day 28. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||100|86|
92369427|NCT00819156|184643749|SUPERIORITY_OR_OTHER_LEGACY||Percentage|100.0||||||95.0|93.0|100.0|||||The estimated value is the percentage of patients with Testosterone (T) \<=0.5 nanograms (ng)/milliliter (mL) from Day 28 to Day 364 for Patients With T \<=0.5 ng/mL at Day 28. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||100|93|
92369428|NCT00819156|184643750|SUPERIORITY_OR_OTHER_LEGACY||Percentage|70.0||||||95.0|51.0|85.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||85|51|
92219341|NCT01648790|184339334|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.987|||||TWO_SIDED|90.0|0.918|1.06|||||LS means were determined by mixed-effect linear models with treatment, period, sequence as fixed effects, and participants nested within sequence as random effect.|||1.06|0.918|
92349912|NCT01257438|184603769|SUPERIORITY_OR_OTHER||Greenwood's estimate of variance|0.59|||<|0.001|TWO_SIDED|95.0|0.44|0.79|||Log Rank|||Subjects at risk (at 6 months) is a calculation in Kaplan-Meier time-to-event analyses that refers to subjects who have not had ACPP failure through the 6 months (i.e., are event-free through 6 months).||0.79|0.44|<0.001
92349913|NCT01257438|184603770|NON_INFERIORITY_OR_EQUIVALENCE|The p-value is based on a non-inferiority Farrington and Manning Exact Test. The non-inferiority margin is 0.075 (or 7.5%).||||||0.007|TWO_SIDED||||||Farrington and Manning Exact Test|The non-inferiority margin is 0.075 (or 7.5%)||||||0.007
92349914|NCT02965833|184603772|SUPERIORITY||||||=|0.0073|||||||Mixed Models Analysis|||||||=0.0073
92349915|NCT04738487|184603793|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.6712|TWO_SIDED|95.0|0.83|1.35||One-sided p-value based on log-rank test.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.35|0.83|0.6712
92349916|NCT04738487|184603794|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.332|TWO_SIDED|95.0|0.82|1.13||One-sided p-value based on log-rank test.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.13|0.82|0.3320
92349917|NCT04738487|184603795|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.1646|TWO_SIDED|95.0|0.72|1.11||One-sided p-value based on log-rank test.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.11|0.72|0.1646
92349918|NCT03976375|184603843|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4342|TWO_SIDED|95.0|0.78|1.23||Stratified by Baseline ECOG performance status (0 versus 1), anti-PD-1/PD-L1 mAb (immediate prior therapy versus not the immediate prior therapy), and Baseline PD-L1 Status (\<50% versus \>=50)|Log Rank||Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status|||1.23|0.78|0.4342
92349919|NCT03976375|184603844|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.1563|TWO_SIDED|95.0|0.7|1.12||Stratified by Baseline ECOG performance status (0 versus 1), anti-PD-1/PD-L1 mAb (immediate prior therapy versus not the immediate prior therapy), and Baseline PD-L1 Status (\<50% versus \>=50)|Log Rank||Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||1.12|0.70|0.1563
92349920|NCT03976375|184603845|SUPERIORITY||Difference in Percentage vs Docetaxel|8.4||||0.01818|TWO_SIDED|95.0|0.5|16.3||One-sided p-value for testing. H0: difference in % =0 versus H1: difference in % \> 0.|Miettinen and Nurminen method||Based on Miettinen \& Nurminen method stratified by Baseline ECOG performance status (0 versus 1), anti-PD-1/PD-L1 mAb (immediate prior therapy versus not the immediate prior therapy), and Baseline PD-L1 Status (\<50% versus \>=50%)|||16.3|0.5|0.01818
92349921|NCT03976375|184603846|SUPERIORITY||Difference in Percentage vs Lenvatinib|10.2||||0.06009|TWO_SIDED|95.0|-3.1|19.9||One-sided p-value for testing. H0: difference in % =0 versus H1: difference in % \> 0.|Miettinen & Nurminen method|||||19.9|-3.1|0.06009
92219342|NCT01648790|184339335|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.28|||||TWO_SIDED|90.0|0.233|0.335|||||LS means were determined by mixed-effect linear models with treatment, period, sequence as fixed effects, and participants nested within sequence as random effect.|||0.335|0.233|
92349922|NCT03976375|184603850|OTHER||Difference in least squares means|-1.36||||0.4998|TWO_SIDED|95.0|-5.32|2.6|||t-test, 2 sided||Based on cLDA model with covariates for treatment by time interaction, stratification factors of baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and baseline PD-L1 Status|||2.60|-5.32|0.4998
92349923|NCT03976375|184603851|OTHER||Difference in Least Squares Mean|-3.86||||0.1531|TWO_SIDED|95.0|-9.16|1.44|||t-test, 2 sided||Based on cLDA model with covariates for treatment by time interaction, stratification factors of baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and baseline PD-L1 Status|||1.44|-9.16|0.1531
92349924|NCT03976375|184603852|OTHER||Difference in Least Squares Means|2.48||||0.3084|TWO_SIDED|95.0|-2.31|7.27|||t-test, 2 sided||Based on cLDA model with covariates for treatment by time interaction, stratification factors of baseline ECOG performance status, timing of anti-PD-1/PD-L1 mAb therapy, and baseline PD-L1 Status|||7.27|-2.31|0.3084
92349925|NCT03976375|184603853|OTHER||Difference in Least Squares Means|-8.04||||0.0058|TWO_SIDED|95.0|-13.73|-2.35|||t-test, 2 sided||Based on cLDA model with covariates for treatment by time interaction, stratification factors of baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and baseline PD-L1 Status|||-2.35|-13.73|0.0058
92349926|NCT03976375|184603854|OTHER||Difference in Least Squares Means|2.89||||0.1681|TWO_SIDED|95.0|-1.23|7.01|||t-test, 2 sided||Based on cLDA model with covariates for treatment by time interaction, stratification factors of baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and baseline PD-L1 Status|||7.01|-1.23|0.1681
92349927|NCT03976375|184603855|OTHER||Hazard Ratio (HR)|0.91||||0.6145|TWO_SIDED|95.0|0.63|1.31||stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Log Rank||Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||1.31|0.63|0.6145
92349928|NCT03976375|184603856|OTHER||Hazard Ratio (HR)|0.61||||0.0398|TWO_SIDED|95.0|0.38|0.98|||Log Rank|Stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||0.98|0.38|0.0398
92349929|NCT03976375|184603857|OTHER||Hazard Ratio (HR)|1.05||||0.8724|TWO_SIDED|95.0|0.59|1.85|||Log Rank|Stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status|||1.85|0.59|0.8724
92349930|NCT03976375|184603858|OTHER||Hazard Ratio (HR)|0.75||||0.1944|TWO_SIDED|95.0|0.49|1.16||Stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Log Rank||Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||1.16|0.49|0.1944
92349931|NCT03976375|184603859|OTHER||Hazard Ratio (HR)|1.0||||0.9837|TWO_SIDED|95.0|0.71|1.41|||Log Rank|Stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||1.41|0.71|0.9837
92349932|NCT03976375|184603860|OTHER||Hazard Ratio (HR)|0.84||||0.2903|TWO_SIDED|95.0|0.6|1.16|||Log Rank|Stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||1.16|0.60|0.2903
92349933|NCT00768053|184603983|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||F test for H0: ICC = 0|F test|||Intraclass correlation coefficient (ICC)||||0.000
92349934|NCT00768053|184603983|SUPERIORITY_OR_OTHER||standard error of measurement|0.65|||||TWO_SIDED|95.0|0.57|0.75||||||Standardized response mean: standard error of measurement||0.75|0.57|
92349935|NCT00768053|184603985|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Week 4||||<0.001
92349936|NCT00768053|184603986|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Week 12||||<0.001
92349937|NCT00768053|184603987|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Time-normalized average||||<0.001
92349938|NCT00768053|184603988|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Week 4||||<0.001
92349939|NCT00768053|184603989|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Week 12||||<0.001
92349940|NCT00768053|184603990|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Time-normalized average||||<0.001
92349941|NCT00768053|184603991|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Pain NRS value||||<0.001
92349942|NCT00768053|184603991|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Functional disability NRS value||||<0.001
92349943|NCT00768053|184603991|SUPERIORITY_OR_OTHER|||||||0.837|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Fatigue NRS value||||0.837
92349944|NCT00768053|184603991|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Sleep NRS value||||0.035
92349945|NCT00768053|184603991|SUPERIORITY_OR_OTHER|||||||0.351|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Physical well-being NRS value||||0.351
92349946|NCT00768053|184603991|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Emotional well-being NRS value||||0.025
92400388|NCT02546609|184692241|OTHER|||||||0.8832|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.8832
92349947|NCT00768053|184603991|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Coping NRS value||||<0.001
92349948|NCT00768053|184603992|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Pain NRS value||||<0.001
92349949|NCT00768053|184603992|SUPERIORITY_OR_OTHER|||||||0.052|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Functional disability NRS value||||0.052
92349950|NCT00768053|184603992|SUPERIORITY_OR_OTHER|||||||0.895|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Fatigue NRS value||||0.895
92349951|NCT00768053|184603992|SUPERIORITY_OR_OTHER|||||||0.153|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Sleep NRS value||||0.153
92349952|NCT00768053|184603992|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Physical well-being NRS value||||0.029
92349953|NCT00768053|184603992|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Emotional well-being NRS value||||0.043
92349954|NCT00768053|184603992|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Coping NRS value||||<0.001
92349955|NCT01590875|184604009|EQUIVALENCE|Kappa statistics on per pulmonary vein basis were used to determine the probability of recovery, transient recovery or no recovery with second adenosine dose compared with probability of same response after first adenosine dose|||||<|0.01|||||||no relevant statistical analysis|||Kappa statistics on per pulmonary vein basis were used to determine the probability of recovery, transient recovery or no recovery with second adenosine dose compared with probability of same response after first adenosine dose||||<0.01
92349956|NCT01590875|184604010|EQUIVALENCE|Kappa statistics on per pulmonary vein basis were used to determine the probability of recovery, transient recovery or no recovery with second adenosine dose compared with probability of same response after first adenosine dose|||||<|0.01|||||||kappa statistic|||Kappa statistics on per pulmonary vein basis were used to determine the probability of recovery, transient recovery or no recovery with second adenosine dose compared with probability of same response after first adenosine dose||||< 0.01
92349957|NCT04253626|184604020|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||||||< 0.001
92349958|NCT04253626|184604024|OTHER|||||||0.88||||||The a priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||Between-group analysis of change at week 4||||0.88
92349959|NCT04253626|184604025|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|The a priori threshold for statistical significance was \< 0.05.||Between-group analysis of change at week 4||||0.27
92349960|NCT04253626|184604026|OTHER|||||||0.72||||||The a priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||Between-group analysis of change at week 4||||0.72
92349961|NCT04253626|184604027|OTHER|||||||0.009||||||The a priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||Between-group analysis of change at week 4||||0.009
92349962|NCT05643794|184604045|SUPERIORITY||Difference from Placebo|-0.54||||0.129|TWO_SIDED|95.0|-1.24|0.16|||Longitudinal linear mixed effect model||The difference presented is RLZ 12 weeks minus Placebo.|||0.16|-1.24|0.129
92349963|NCT05643794|184604048|SUPERIORITY||Difference from Placebo|-0.51||||0.358|TWO_SIDED|95.0|-1.6|0.58|||Longitudinal mixed effects model||The difference presented is RLZ 24 weeks minus PBO 24 weeks.|||0.58|-1.60|0.358
92349964|NCT05643794|184604049|SUPERIORITY||Difference from Placebo|-8.4||||0.003|TWO_SIDED|95.0|-13.84|-2.96|||Longitudinal mixed effects model||The difference presented is RLZ 12 weeks minus Placebo|||-2.96|-13.84|0.003
92349965|NCT05643794|184604050|SUPERIORITY||Differences from Placebo|0.05||||0.878|TWO_SIDED|95.0|-0.55|0.64|||Longitudinal mixed effects model||The differences presented is RLZ 12 weeks minus Placebo.|||0.64|-0.55|0.878
92349966|NCT05643794|184604051|SUPERIORITY||Difference from Placebo|-0.28||||0.352|TWO_SIDED|95.0|-0.86|0.31|||Longitudinal mixed effects model||The difference presented is RLZ 12 weeks minus Placebo.|||0.31|-0.86|0.352
92349967|NCT01022580|184604073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89|TWO_SIDED||||||unadj GEE|||||||0.89
92160573|NCT01219855|184209485|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Z-test compared 2 independ. proportions|||The proportion of subjects achieving a ≥20% decrease in plasma iPTH at EOT was greater in the CTAP101 Capsules 60 and 90 μg groups compared to the corresponding placebo group.||||<0.001
92160574|NCT01335932|184209496|OTHER|||||||0.0001|||||||Fisher Exact|||||||.0001
92160575|NCT01335932|184209497|OTHER|||||||0.31|||||||t-test, 2 sided|||||||0.31
92160576|NCT01335932|184209503|OTHER|||||||0.006|||||||Fisher Exact|||||||0.006
92160577|NCT01335932|184209504|OTHER|||||||0.14|||||||Fisher Exact|||||||0.14
92160578|NCT01335932|184209505|OTHER|||||||0.1|||||||Fisher Exact|||||||0.10
92349968|NCT01022580|184604074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33|TWO_SIDED||||||unadj GEE|||||||0.33
92349969|NCT03720847|184604092|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.012|TWO_SIDED||||||t-test, 2 sided|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.|Positive estimated value indicates greater perimenstrual increase in symptoms in the placebo condition relative to the active condition.|||||.012
92160579|NCT01335932|184209506|OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
92160580|NCT01335932|184209507|OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
92160581|NCT01335932|184209508|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92160582|NCT01335932|184209509|OTHER|||||||0.73|||||||t-test, 2 sided|||||||0.73
92160583|NCT01335932|184209510|OTHER|||||||0.33|||||||t-test, 2 sided|||||||0.33
92160584|NCT01335932|184209511|OTHER|||||||0.31|||||||t-test, 2 sided|||||||0.31
92160585|NCT01335932|184209512|OTHER|||||||0.96|||||||t-test, 2 sided|||||||0.96
92160586|NCT01335932|184209513|OTHER|||||||0.63|||||||t-test, 2 sided|||||||0.63
92160587|NCT01335932|184209514|OTHER|||||||0.51|||||||t-test, 2 sided|||||||0.51
92160588|NCT01335932|184209515|OTHER|||||||0.12|||||||t-test, 2 sided|||||||0.12
92160589|NCT01335932|184209516|OTHER|||||||0.13|||||||t-test, 2 sided|||||||0.13
92160590|NCT01335932|184209517|OTHER|||||||0.008|||||||t-test, 2 sided|||||||0.008
92160591|NCT01335932|184209518|OTHER|||||||0.64|||||||t-test, 2 sided|||||||0.64
92160592|NCT01335932|184209519|OTHER|||||||0.24|||||||t-test, 2 sided|||||||0.24
92160593|NCT01335932|184209520|OTHER|||||||0.76|||||||t-test, 2 sided|||||||0.76
92349970|NCT03720847|184604093|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.03|TWO_SIDED||||||t-test, 2 sided|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.|Positive estimated value indicates a greater perimenstrual increase in the outcome in the placebo condition relative to the active condition.|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.030
92349971|NCT03720847|184604094|SUPERIORITY||Mean Difference (Final Values)|3.16||||0.013|TWO_SIDED||||||t-test, 2 sided||Positive estimated value indicates greater perimenstrual increase in symptoms in the placebo condition relative to the active condition.|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.013
92349972|NCT03720847|184604095|SUPERIORITY||Mean Difference (Final Values)|3.65||||0.018|TWO_SIDED||||||t-test, 2 sided||Positive estimated value indicates greater perimenstrual change in the placebo condition relative to the active condition.|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.018
92349973|NCT03720847|184604096|SUPERIORITY||Mean Difference (Final Values)|1.04||||0.073|TWO_SIDED||||||t-test, 2 sided||Positive estimated value indicates greater perimenstrual increase in symptoms in the placebo condition relative to the active condition.|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.073
92349974|NCT03720847|184604097|SUPERIORITY||Mean Difference (Final Values)|-1.16||||0.25|TWO_SIDED||||||t-test, 2 sided|||paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.25
92349975|NCT03720847|184604098|SUPERIORITY||Mean Difference (Final Values)|-1.32||||0.23|TWO_SIDED||||||t-test, 2 sided|||paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.23
92349976|NCT01500096|184604099|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.15
92349977|NCT01500096|184604099|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms||||0.73
92349978|NCT01500096|184604100|SUPERIORITY|||||||0.1329|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.1329
92349979|NCT01500096|184604100|SUPERIORITY|||||||0.1191|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.1191
92349980|NCT01500096|184604101|SUPERIORITY|||||||0.7454|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.7454
92349981|NCT01500096|184604101|SUPERIORITY|||||||0.7391|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.7391
92349982|NCT01500096|184604102|SUPERIORITY|||||||0.6818|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.6818
92349983|NCT01500096|184604102|SUPERIORITY|||||||0.0579|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.0579
92349984|NCT01500096|184604103|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.17
92349985|NCT01500096|184604103|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.51
92349986|NCT01500096|184604104|SUPERIORITY|||||||0.7884|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.7884
92219343|NCT01648790|184339336|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.779|||||TWO_SIDED|90.0|0.724|0.837|||||LS means were determined by mixed-effect linear models with treatment, period, sequence as fixed effects, and participants nested within sequence as random effect.|||0.837|0.724|
92349987|NCT01500096|184604104|SUPERIORITY|||||||0.5532|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.5532
92349988|NCT01500096|184604105|SUPERIORITY|||||||0.9885|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.9885
92349989|NCT01500096|184604105|SUPERIORITY|||||||0.2898|||||||Wilcoxon (Mann-Whitney)|2 sides Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.2898
92349990|NCT01500096|184604106|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the IL-6 level changes from baseline to week 4 are significantly different between arms.||||0.60
92349991|NCT01500096|184604106|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the IL-6 level changes from baseline to week 4 are significantly different between arms.||||0.28
92349992|NCT01500096|184604106|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the sTNFR1 level changes from baseline to week 4 are significantly different between arms.||||0.41
92349993|NCT01500096|184604106|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the sTNFR1 level changes from baseline to week 4 are significantly different between arms.||||0.72
92349994|NCT01500096|184604106|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the sTNFR2 level changes from baseline to week 4 are significantly different between arms.||||0.34
92349995|NCT01500096|184604106|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the sTNFR2 level changes from baseline to week 4 are significantly different between arms.||||0.58
92349996|NCT01500096|184604107|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 5 are significantly different between arms.||||0.31
92349997|NCT01500096|184604107|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.71
92349998|NCT01500096|184604108|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.18
92349999|NCT01500096|184604108|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.19
92350000|NCT01500096|184604109|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.47
92350001|NCT01500096|184604109|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.41
92350002|NCT00924651|184604143|OTHER||Mean Difference (Final Values)|-0.01916|STANDARD_ERROR_OF_MEAN|0.1791||0.9148|TWO_SIDED|95.0|-0.371|0.3327|||ANCOVA|||||0.3327|-0.3710|0.9148
92369429|NCT00819156|184643750|SUPERIORITY_OR_OTHER_LEGACY||Percentage|91.0||||||95.0|75.0|98.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||98|75|
92369430|NCT00819156|184643750|SUPERIORITY_OR_OTHER_LEGACY||Percentage|97.0||||||95.0|84.0|100.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||100|84|
92369431|NCT00819156|184643750|SUPERIORITY_OR_OTHER_LEGACY||Percentage|97.0||||||95.0|83.0|100.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||100|83|
92219344|NCT02636582|184339363|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||0.71
92219345|NCT02636582|184339364|SUPERIORITY|||||||0.964|||||||Wilcoxon (Mann-Whitney)|||||||0.964
92219346|NCT02636582|184339365|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
92219347|NCT02636582|184339366|OTHER|||||||0.172||||||HER2 expression - biopsy|Fisher Exact|||||||0.172
92219348|NCT02636582|184339366|OTHER|||||||0.38||||||HER2 expression - resection|Fisher Exact|||||||0.38
92219349|NCT01278745|184339378|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019|||||||ANCOVA|Adjusted for baseline PAV||||||0.0019
92219350|NCT00896779|184339391|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||0.02
92219351|NCT00896779|184339391|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||t-test, 2 sided|||||||0.06
92219352|NCT01843842|184339392|SUPERIORITY|||||||0.016|||||||Global Test Statistic|See O'Brien 1984, Pocock 1997.||||||0.016
92219353|NCT01843842|184339393|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92219354|NCT01843842|184339394|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92219355|NCT01843842|184339395|SUPERIORITY|||||||0.0283||||||p-value is not adjusted for multiple comparisons|Kruskal-Wallis|||Fever (Day 3, doctor's examination)||||0.0283
92219356|NCT01843842|184339395|SUPERIORITY|||||||0.3264|||||||Kruskal-Wallis|||Non-specific (Day 3, doctor's examination)||||0.3264
92219357|NCT01843842|184339395|SUPERIORITY|||||||0.706|||||||Kruskal-Wallis|||Nasal/Throat/Chest (Day 3, doctor's examination)||||0.7060
92219358|NCT01843842|184339395|SUPERIORITY|||||||0.25|||||||Kruskal-Wallis|||All symptoms (Day 3, doctor's examination)||||0.25
92219359|NCT01843842|184339395|SUPERIORITY|||||||0.244|||||||ANCOVA|||Severity of clinical manifestations of acute respiratory infection (ARI) by Total Symptom Score on Days 2, 3, 4 and 5 of Observation (Based on Patient Diary Data)||||0.244
92219360|NCT01843842|184339396|SUPERIORITY|||||||0.1158|||||||Kruskal-Wallis|||Duration of fever based on Patient Diary Data||||0.1158
92219361|NCT01843842|184339396|SUPERIORITY|||||||0.5755|||||||Kruskal-Wallis|||Duration of non-specific symptoms based on Patient Diary Data||||0.5755
92219362|NCT01843842|184339396|SUPERIORITY|||||||0.4331|||||||Kruskal-Wallis|||Duration of nasal/ throat/ chest symptoms based on Patient Diary Data||||0.4331
92219363|NCT01843842|184339396|SUPERIORITY|||||||0.356|||||||Kruskal-Wallis|||Duration of all acute respiratory infection symptoms (fever, non-specific symptoms and nasal/ throat/ chest symptoms) based on Patient Diary Data||||0.3560
92219364|NCT01843842|184339397|SUPERIORITY|||||||0.0166||||||p-value is not adjusted for multiple comparisons|Kruskal-Wallis|||Fever (Days 1, 3, 6 doctor's examination)||||0.0166
92219365|NCT01843842|184339397|SUPERIORITY|||||||0.082|||||||Kruskal-Wallis|||Non-specific (Days 1, 3, 6 doctor's examination)||||0.0820
92219366|NCT01843842|184339397|SUPERIORITY|||||||0.7227|||||||Kruskal-Wallis|||Nasal/Throat/Chest (Days 1, 3, 6 doctor's examination)||||0.7227
92219367|NCT01843842|184339397|SUPERIORITY|||||||0.2645|||||||Kruskal-Wallis|||All symptoms (Days 1, 3, 6 doctor's examination)||||0.2645
92219368|NCT01843842|184339397|SUPERIORITY|||||||0.0142||||||p-value is not adjusted for multiple comparisons|Kruskal-Wallis|||Fever (Days 1-5, patient diary data)||||0.0142
92219369|NCT01843842|184339397|SUPERIORITY|||||||0.0145||||||p-value is not adjusted for multiple comparisons|Kruskal-Wallis|||Non-specific (Days 1-5, patient diary data)||||0.0145
92219370|NCT01843842|184339397|SUPERIORITY|||||||0.2963|||||||Kruskal-Wallis|||Nasal/Throat/Chest (Days 1-5, patient diary data)||||0.2963
92219371|NCT01843842|184339397|SUPERIORITY|||||||0.0364||||||p-value is not adjusted for multiple comparisons|Kruskal-Wallis|||All symptoms (Days 1-5, patient diary data)||||0.0364
92219372|NCT01843842|184339398|SUPERIORITY|||||||0.4|||||||ANCOVA|||||||0.40
92219373|NCT01376778|184339400|SUPERIORITY||Risk Ratio (RR)|1.17||||0.42|TWO_SIDED|95.0|0.8|1.72|||Chi-squared|||||1.72|0.80|0.42
92219374|NCT01376778|184339405|SUPERIORITY||Risk Ratio (RR)|1.61|||||TWO_SIDED|95.0|0.86|3.03||||||||3.03|0.86|
92219375|NCT01376778|184339406|SUPERIORITY||Risk Ratio (RR)|2.82|||||TWO_SIDED|95.0|0.29|72.42||||||||72.42|0.29|
92219376|NCT01376778|184339407|SUPERIORITY||Risk Difference (RD)|-0.41|||||TWO_SIDED|||||||||||||
92219377|NCT01376778|184339408|SUPERIORITY||Risk Ratio (RR)|1.47|||||TWO_SIDED|95.0|0.81|2.67||||||||2.67|0.81|
92219378|NCT01376778|184339409|SUPERIORITY||Risk Ratio (RR)|1.61|||||TWO_SIDED|95.0|0.65|4.01||||||||4.01|0.65|
92219379|NCT01376778|184339411|SUPERIORITY||Risk Ratio (RR)|1.88|||||TWO_SIDED|95.0|0.66|5.41||||||||5.41|0.66|
92219380|NCT01376778|184339412|SUPERIORITY||Risk Difference (RD)|-0.25|||||TWO_SIDED|95.0|-0.66|0.15||||||||0.15|-0.66|
92219381|NCT01376778|184339413|SUPERIORITY||Risk Difference (RD)|-35.0|||||TWO_SIDED|95.0|-157.0|87.0||||||||87|-157|
92219382|NCT01376778|184339414|SUPERIORITY||Risk Ratio (RR)|1.92|||||TWO_SIDED|95.0|0.92|3.99||||||||3.99|0.92|
92219383|NCT01376778|184339418|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.03|31.5||||||||31.5|0.03|
92219384|NCT01376778|184339419|SUPERIORITY||Risk Ratio (RR)|0.48|||||TWO_SIDED|95.0|0.17|1.38||||||||1.38|0.17|
92219385|NCT01376778|184339422|SUPERIORITY||Risk Ratio (RR)|0.63|||||TWO_SIDED|95.0|0.32|1.23||||||||1.23|0.32|
92219386|NCT01376778|184339423|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.42|1.68||||||||1.68|0.42|
92219387|NCT01376778|184339424|SUPERIORITY||Risk Ratio (RR)|0.47|||||TWO_SIDED|95.0|0.17|5.23||||||||5.23|0.17|
92219388|NCT01376778|184339432|SUPERIORITY||Risk Ratio (RR)|1.3||||0.37|TWO_SIDED|95.0|0.7|2.5|||Chi-squared|||||2.5|0.7|0.37
92219389|NCT01376778|184339433|SUPERIORITY|||||||0.26|||||||Chi-squared|||||||0.26
92219390|NCT01376778|184339434|SUPERIORITY|||||||0.84|||||||Chi-squared|||||||0.84
92219391|NCT00632099|184339435|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||||||<0.05
92219392|NCT02184195|184339456|SUPERIORITY||Hazard Ratio (HR)|0.531||||0.0038|TWO_SIDED|95.0|0.346|0.815|||Log-rank test|||||0.815|0.346|0.0038
92219393|NCT02184195|184339457|OTHER||Hazard Ratio (HR)|0.831||||0.3487|TWO_SIDED|95.0|0.564|1.224|||Log-rank test|||||1.224|0.564|0.3487
92219394|NCT02184195|184339458|SUPERIORITY||Hazard Ratio (HR)|0.659||||0.0613|TWO_SIDED|95.0|0.426|1.02|||Log-rank test|||||1.020|0.426|0.0613
92219395|NCT02184195|184339459|SUPERIORITY||Hazard Ratio (HR)|0.611||||0.0111|TWO_SIDED|95.0|0.418|0.894|||Log-rank test|||||0.894|0.418|0.0111
92219396|NCT02184195|184339460|SUPERIORITY||Hazard Ratio (HR)|0.442|||<|0.0001|TWO_SIDED|95.0|0.297|0.658|||Log-rank test|||||0.658|0.297|<0.0001
92350003|NCT00835978|184604146|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.578||||0.0189|TWO_SIDED|95.0|1.017|2.448||A priori defined threshold for statistical significance was: alpha=0.10 (one-sided)|Cochran-Mantel-Haenszel|||ORR for the 2 treatment arms was compared with the Cochran-Mantel-Haenszel test stratified by ECOG performance status. The relative risk ratio estimator was used to contrast the treatment effects on the endpoint. Both a point estimate and a 2-sided 95% CI were calculated using a normal approximation.||2.448|1.017|0.0189
92350004|NCT00835978|184604147|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.849||||0.2444|TWO_SIDED|95.0|0.535|1.348|||Log Rank|||||1.348|0.535|0.2444
92350005|NCT02383173|184604187|OTHER|||||||0.445|||||||Generalized Estimating Equation (GEE)|Sandwich estimators were used to adjust for the small number of clusters.||Generalized Estimating Equation (GEE) analyses of post-intervention data were used to account for clustering. We adjusted for age, race, cancer, length of stay and study year.||||0.445
92350006|NCT00429299|184604211|NON_INFERIORITY_OR_EQUIVALENCE|An exploratory comparison between the combined two single anti-HER2 arms and the dual anti-HER2 arm was performed (Arm 3 versus Arms 1 and 2).|percentage of participants|25.0||||0.019||90.0|13.1|36.9||Exploratory analysis|Chi-squared||The estimated value represents the percentage of particpants in the CT plus trastuzumab treatment group with pathological complete response.|||36.9|13.1|0.019
92350007|NCT00429299|184604211|SUPERIORITY_OR_OTHER||percentage of participants|26.3||||||90.0|14.5|38.1|||||The estimated value represents the percentage of particpants in the CT plus lapatinib 1500 mg treatment group with pathological complete response.|||38.1|14.5|
92350008|NCT00429299|184604211|SUPERIORITY_OR_OTHER||percentage of participants|46.7|||||TWO_SIDED|90.0|34.4|58.9|||||The estimated value represents the percentage of particpants in the CT plus traztuzumab plus lapatinib 1000 mg treatment group with pathological complete response.|||58.9|34.4|
92350009|NCT04871113|184604228|OTHER||Emax|-1.848|||||TWO_SIDED|95.0|-2.225|-1.472|||||Emax is defined as maximum response.|||-1.472|-2.225|
92350010|NCT04871113|184604228|OTHER||EC50|68.578|||||TWO_SIDED|95.0|15.866|121.29|||||EC50 is defined as the dose (in mg) that attains the 50% of the maximal effect.|||121.290|15.866|
92350011|NCT04871113|184604228|OTHER||s2e|0.257|||||TWO_SIDED|95.0|0.145|0.368|||||e is defined as random error assumed to be normally distributed with mean zero and constant variance (s2).|||0.368|0.145|
92350012|NCT00315822|184604246|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.94||||0.8|TWO_SIDED|95.0|0.52|1.68|||Cochran-Mantel-Haenszel|||||1.68|0.52|0.80
92350013|NCT05630755|184604249|NON_INFERIORITY|A margin of 4 percentage points is used to define non-inferiority.|Risk Difference (RD)|0.88||||0.003|TWO_SIDED|95.0|-1.86|2.9|||Miettinen and Nurminen method|Unstratified Miettinen and Nurminen method was used|||The estimated difference was calculated using the unstratified Miettinen and Nurminen method.|2.90|-1.86|0.003
92350014|NCT05630755|184604249|SUPERIORITY||Risk Difference (RD)|0.88||||0.192|TWO_SIDED|95.0|-1.86|2.9|||Miettinen and Nurminen method|Unstratified Miettinen and Nurminen method was used|||The estimated difference was calculated using the unstratified Miettinen and Nurminen method.|2.90|-1.86|0.192
92350015|NCT02969018|184604268|OTHER||Least Squares Mean Difference|-8.64|STANDARD_ERROR_OF_MEAN|2.232||0.0005|TWO_SIDED|90.0|-12.33|-4.95||Hochberg adjusted p-value|Mixed Models Analysis|||||-4.95|-12.33|0.0005
92350016|NCT02969018|184604268|OTHER||Least Squares Mean Difference|-3.34|STANDARD_ERROR_OF_MEAN|2.206||0.0963|TWO_SIDED|90.0|-6.99|0.3||Hochberg adjusted p-value|Mixed Models Analysis|||||0.30|-6.99|0.0963
92350017|NCT02969018|184604268|OTHER||Least Squares Mean Difference|-7.07|STANDARD_ERROR_OF_MEAN|2.233||0.0046|TWO_SIDED|90.0|-10.76|-3.37||Hochberg adjusted p-value|Mixed Models Analysis|||||-3.37|-10.76|0.0046
92350018|NCT02969018|184604268|OTHER||Least Squares Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|2.238||0.0963|TWO_SIDED|90.0|-6.63|0.77||Hochberg adjusted p-value|Mixed Models Analysis|||||0.77|-6.63|0.0963
92350019|NCT02969018|184604268|OTHER||Least Squares Mean Difference|-10.07|STANDARD_ERROR_OF_MEAN|2.152|<|0.0001|TWO_SIDED|90.0|-13.63|-6.51||Hochberg adjusted p-value|Mixed Models Analysis|||||-6.51|-13.63|<0.0001
92350020|NCT02969018|184604268|OTHER||Least Squares Mean Difference|-6.06|STANDARD_ERROR_OF_MEAN|2.255||0.0158|TWO_SIDED|90.0|-9.79|-2.33||Hochberg adjusted p-value|Mixed Models Analysis|||||-2.33|-9.79|0.0158
92350021|NCT02969018|184604268|OTHER||Least Squares Mean Difference|-4.66|STANDARD_ERROR_OF_MEAN|2.163||0.0488|TWO_SIDED|90.0|-8.24|-1.09||Hochberg adjusted p-value|Mixed Models Analysis|||||-1.09|-8.24|0.0488
92350022|NCT02969018|184604269|OTHER||Odds Ratio (OR)|10.0|||||TWO_SIDED|90.0|2.95|33.87|||||||Logistic regression|33.87|2.95|
92350023|NCT02969018|184604269|OTHER||Odds Ratio (OR)|2.12|||||TWO_SIDED|90.0|0.61|7.36|||||||Logistic regression|7.36|0.61|
92350024|NCT02969018|184604269|OTHER||Odds Ratio (OR)|9.09|||||TWO_SIDED|90.0|2.71|30.48|||||||Logistic regression|30.48|2.71|
92350025|NCT02969018|184604269|OTHER||Odds Ratio (OR)|2.11|||||TWO_SIDED|90.0|0.59|7.55|||||||Logistic regression|7.55|0.59|
92350026|NCT02969018|184604269|OTHER||Odds Ratio (OR)|41.67|||||TWO_SIDED|90.0|10.8|160.68|||||||Logistic regression|160.68|10.80|
92350027|NCT02969018|184604269|OTHER||Odds Ratio (OR)|2.11|||||TWO_SIDED|90.0|0.59|7.55|||||||Logistic regression|7.55|0.59|
92350028|NCT02969018|184604269|OTHER||Odds Ratio (OR)|3.86|||||TWO_SIDED|90.0|1.17|12.74|||||||Logistic regression|12.74|1.17|
92350029|NCT02969018|184604270|OTHER||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.47|<|0.0001|TWO_SIDED|90.0|-11.43|-6.57|||Mixed Models Analysis|||||-6.57|-11.43|<0.0001
92160594|NCT01335932|184209521|OTHER|||||||0.45|||||||t-test, 2 sided|||||||0.45
92160595|NCT01335932|184209522|OTHER|||||||0.92|||||||t-test, 2 sided|||||||0.92
92160596|NCT01335932|184209523|OTHER|||||||0.94|||||||t-test, 2 sided|||||||0.94
92160597|NCT01335932|184209524|OTHER|||||||0.37|||||||t-test, 2 sided|||||||0.37
92160598|NCT01335932|184209525|OTHER|||||||0.8|||||||t-test, 2 sided|||||||0.80
92160599|NCT01335932|184209526|OTHER|||||||0.93|||||||t-test, 2 sided|||||||0.93
92160600|NCT01335932|184209527|OTHER|||||||0.93|||||||t-test, 2 sided|||||||0.93
92160601|NCT01335932|184209528|OTHER|||||||0.45|||||||t-test, 2 sided|||||||0.45
92160602|NCT03582956|184209562|SUPERIORITY|||||||0.525|||||||t-test, 2 sided|||||||0.525
92219397|NCT02184195|184339461|SUPERIORITY||Hazard Ratio (HR)|0.425|||<|0.0001|TWO_SIDED|95.0|0.289|0.627|||Log-rank test|||||0.627|0.289|<0.0001
92160603|NCT03582956|184209563|SUPERIORITY|||||||0.607|||||||t-test, 2 sided|||||||0.607
92219398|NCT02184195|184339462|SUPERIORITY||Odds Ratio (OR)|1.52||||0.3273|TWO_SIDED|95.0|0.668|3.61|||Regression, Logistic|||||3.610|0.668|0.3273
92219399|NCT02184195|184339464|SUPERIORITY||Mean Difference (Final Values)|-2.21||||0.355|TWO_SIDED|95.0|-6.917|2.496|||Mixed Models Analysis|||||2.496|-6.917|0.355
92219400|NCT03002155|184339471|SUPERIORITY|||||||0.26||||||Not adjusted for multiple comparisons due to the pilot nature of the study, alpha level was 0.10.|ANOVA|||||||.26
92219401|NCT03002155|184339472|SUPERIORITY|||||||0.38|||||||ANOVA|||||||0.38
92275656|NCT01706198|184453805|OTHER||Hazard Ratio (HR)|1.23|||<|0.001|TWO_SIDED|95.0|1.09|1.38||Cox proportional hazards model with randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age as covariates|Cox proportional hazards model||Hazard ratio for FF/VI versus Usual Care has been presented|||1.38|1.09|<0.001
92350030|NCT02969018|184604270|OTHER||Least Squares Mean Difference|-7.99|STANDARD_ERROR_OF_MEAN|1.502|<|0.0001|TWO_SIDED|90.0|-10.48|-5.51|||Mixed Models Analysis|||||-5.51|-10.48|<0.0001
92350031|NCT04502524|184604282|OTHER|||||||0.999|||||||Fisher Exact|||For overall satisfaction, a reliable estimate could not be calculated using a logistic regression model as all the responses were the same in the Vet Flexiquit arm. We calculated the p-value using the Fisher's exact test.||||.999
92350032|NCT04502524|184604283|OTHER||Slope|0.05||||0.852|TWO_SIDED|95.0|-0.46|0.56|||Regression, negative binomial|||||0.56|-0.46|0.852
92350033|NCT04502524|184604284|OTHER||Slope|-0.44||||0.451|TWO_SIDED|95.0|-1.6|0.71|||Regression, negative binomial|||||0.71|-1.60|0.451
92350034|NCT04502524|184604285|OTHER||Slope|-0.73||||0.508|TWO_SIDED|95.0|-1.46|0.003|||Regression, negative binomial|||||0.003|-1.46|0.508
92350035|NCT04502524|184604286|OTHER||Odds Ratio (OR)|0.65||||0.602|TWO_SIDED|95.0|0.13|3.32|||Regression, Logistic|||||3.32|0.13|0.602
92350036|NCT04502524|184604287|OTHER||Odds Ratio (OR)|0.94||||0.941|TWO_SIDED|95.0|0.17|5.29|||Regression, Logistic|||||5.29|0.17|0.941
92350037|NCT04502524|184604288|OTHER||Odds Ratio (OR)|0.61||||0.612|TWO_SIDED|95.0|0.09|4.12|||Regression, Logistic|||||4.12|0.09|0.612
92350038|NCT04502524|184604289|OTHER||Slope|0.56||||0.504|TWO_SIDED|95.0|-1.13|2.26|||Regression, Linear|||||2.26|-1.13|0.504
92350039|NCT04502524|184604290|OTHER||Slope|0.11||||0.67|TWO_SIDED|95.0|-0.4|0.61|||Regression, Linear|||||0.61|-0.40|0.670
92350040|NCT01479530|184604302|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0228|TWO_SIDED|95.0|-0.92|-0.07|||ANCOVA|||||-0.07|-0.92|0.0228
92350041|NCT01479530|184604303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.61|-0.22|||ANCOVA|||||-0.22|-0.61|<0.0001
92350042|NCT01479530|184604304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|0.37||0.0075|TWO_SIDED|95.0|-1.75|-0.27|||ANCOVA|||||-0.27|-1.75|0.0075
92350043|NCT01479530|184604305|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|0.74||0.0317|TWO_SIDED|95.0|-3.05|-0.14|||ANCOVA|||||-0.14|-3.05|0.0317
92350044|NCT02232698|184604381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24|STANDARD_ERROR_OF_MEAN|0.239|<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92160604|NCT03582956|184209564|SUPERIORITY|||||||0.466|||||||t-test, 2 sided|||||||0.466
92160605|NCT03582956|184209565|SUPERIORITY|||||||0.414|||||||t-test, 2 sided|||||||0.414
92160606|NCT00517933|184209573|SUPERIORITY_OR_OTHER|||||||0.39|||||||Chi-squared|||||||0.39
92160607|NCT00517933|184209575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.7||||0.11|TWO_SIDED|95.0|-3.9|37.3|||Regression, Linear|||||37.3|-3.9|0.11
92160608|NCT00517933|184209576|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Log Rank|||||||0.41
92219402|NCT03002155|184339473|SUPERIORITY|||||||0.24|||||||ANOVA|||For PROMIS Global Physical||||0.24
92219403|NCT03002155|184339473|SUPERIORITY|||||||0.8||||||p-value is interaction of group and time. Alpha level= 0.10; not adjusted for multiple comparisons (pilot study)|ANOVA|||For PROMIS Global Mental||||0.80
92219404|NCT03002155|184339474|SUPERIORITY|||||||0.81||||||p-value is interaction of group and time. Alpha level= 0.10; not adjusted for multiple comparisons (pilot study)|ANOVA|||||||0.81
92219405|NCT03002155|184339475|SUPERIORITY|||||||0.03||||||p-value is interaction of group and time. Alpha level= 0.10; not adjusted for multiple comparisons (pilot study)|ANOVA|||||||0.03
92219406|NCT02662036|184339482|SUPERIORITY|||||||0.76|||||||Mann Whitney U Test|||Statistical analysis #1 is for intraoperative opioid use||||0.76
92219407|NCT02662036|184339482|SUPERIORITY|||||||0.38|||||||Mann Whitney U Test|||Statistical analysis #2 is for postoperative acute care unit opioid use||||0.38
92219408|NCT02662036|184339482|SUPERIORITY|||||||0.69|||||||Mann Whitney U Test|||Statistical analysis #3 is for postoperative floor opioid use||||0.69
92219409|NCT02662036|184339482|SUPERIORITY|||||||0.98|||||||Mann Whitney U Test|||Statistical analysis #4 is for total opioid use||||0.98
92350045|NCT02232698|184604382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.059||0.9556|TWO_SIDED||||||ANCOVA|||||||0.9556
92350046|NCT02232698|184604383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.175|<|0.0001|TWO_SIDED|||||Statistical analysis of time spent \<55 mg/dL|ANCOVA|||||||<0.0001
92350047|NCT02232698|184604383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.122||0.0003|TWO_SIDED|||||Statistical analysis of time spent \<40 mg/dL|ANCOVA|||||||0.0003
92350048|NCT02232698|184604384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.089|<|0.0001|TWO_SIDED||||||ANCOVA|||Statistical analysis of frequency of episodes \<70 mg/dL||||<0.0001
92350049|NCT02232698|184604384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.074|<|0.0001|TWO_SIDED||||||ANCOVA|||Statistical analysis of frequency of episodes \<55 mg/dL||||<0.0001
92350050|NCT02232698|184604384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED||||||ANCOVA|||Statistical analysis of frequency of episodes \<40 mg/dL||||<0.0001
92350051|NCT02232698|184604385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.329||0.5623|TWO_SIDED||||||ANCOVA|||Statistical analysis of time spent \>180 mg/dL||||0.5623
92350052|NCT02232698|184604385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.163||0.0247|TWO_SIDED||||||ANCOVA|||Statistical analysis for time spent \>240 mg/dL||||0.0247
92350053|NCT02232698|184604386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.3||0.0006|TWO_SIDED||||||ANCOVA|||||||0.0006
92350054|NCT02232698|184604389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED||||||ANCOVA|||Statistical analysis of perceived frequency of hyperglycaemia||||<0.0001
92350055|NCT02232698|184604389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0713|TWO_SIDED||||||ANCOVA|||Statistical analysis of perceived frequency of hypoglycaemia||||0.0713
92350056|NCT02232698|184604389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1|STANDARD_ERROR_OF_MEAN|0.84|<|0.0001|TWO_SIDED||||||ANCOVA|||Statistical analysis of total treatment satisfaction score||||<0.0001
92400389|NCT02212015|184692242|OTHER||Rate|0.46|||||TWO_SIDED|||||||||Question is, if 6 months progression free survival rate (PFS-R) denoted by pPFS is higher than 35%. Test hypothesis is thus formulated as: H0: pPFS ≤0.35 versus H1: pPFS ≥0.35. This hypothesis is tested at the one-side significance level of 0.05. A 6 months PFS-R of 0.55 of cases or more is considered as clinically relevant success rate. The design is chosen such that rates of 0.55 or higher can be detected with a power of at least 0.8.||||
92400390|NCT02212015|184692243|SUPERIORITY||Rate difference|0.486|||||TWO_SIDED|||||||||||||
92350057|NCT03491917|184604405|NON_INFERIORITY|Non-inferiority margin is delta = 0.05.|||||<|0.01||||||The average difference in AUC was 0.023 (two-sided 95% CI: -0.012, 0.059; non-inferiority p \< 0.01 for non-inferiority margin delta = -0.05).|t-test, 2 sided|df: 417.0 for FFDM, 424.6 for DBT plus S-View, and (1, 18.9) for the difference.||The primary endpoint for this study was a non-inferior per-subject average area under the receiver operating characteristic (ROC) curve (AUC) requiring correct lesion localization for DBT (digital breast tomosynthesis) plus S-View (synthesized view) versus FFDM (full field digital mammography). AUCs for each reader were estimated in each review condition based on per-subject probability of malignancy (POM) scores requiring correct lesion localization.||||<0.01
92350058|NCT04615507|184604417|SUPERIORITY|The superiority of the Test lens will be concluded if the upper confidence limit of the mean is below the predefined threshold +0.00 logMAR for Distance.|Mean estimate|-0.132|STANDARD_ERROR_OF_MEAN|0.0201|||TWO_SIDED|95.0|-0.18|-0.083|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom.||||-0.083|-0.180|
92350059|NCT04615507|184604417|SUPERIORITY|The superiority of the Test lens will be concluded if the upper confidence limit of the mean is below the predefined threshold +0.17 logMAR for Intermediate.|Mean estimate|-0.066|STANDARD_ERROR_OF_MEAN|0.0202|||TWO_SIDED|95.0|-0.115|-0.017|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom.||||-0.017|-0.115|
92350060|NCT04615507|184604417|SUPERIORITY|The superiority of the Test lens will be concluded if the upper confidence limit of the mean is below the predefined threshold +0.17 logMAR for Near.|Mean estimate|0.072|STANDARD_ERROR_OF_MEAN|0.0217|||TWO_SIDED|95.0|0.022|0.121|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom.||||0.121|0.022|
92350061|NCT04615507|184604418|SUPERIORITY|The superiority of the Test lens will be concluded if the lower confidence limit of the LSM is above the predefined threshold 32 points.|Least-square mean|59.6|STANDARD_ERROR_OF_MEAN|3.05|||TWO_SIDED|95.0|52.3|66.8|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom||||66.8|52.3|
92350062|NCT04615507|184604418|NON_INFERIORITY|The non-Inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above -5 points.|Least-square mean difference|5.5|STANDARD_ERROR_OF_MEAN|2.36|||TWO_SIDED|95.0|0.9|10.2|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom|LSM difference was calculated as Test minus Control|||10.2|0.9|
92350063|NCT01112267|184604525|SUPERIORITY_OR_OTHER|||||||0.0367|||||||Cochran-Mantel-Haenszel|p-value for percentage of participants with reduction in pain intensity was calculated for tramadol HCl/acetaminophen and placebo groups||||||0.0367
92350064|NCT01112267|184604526|SUPERIORITY_OR_OTHER|||||||0.0095||||||p-value for change in reduction in pain intensity at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups|Mann-Whitney U test|||||||0.0095
92350065|NCT01112267|184604527|SUPERIORITY_OR_OTHER|||||||0.0202||||||p-value for percentage of participants with pain relief at Day 8 was calculated for tramadol HCl/acetaminophen and placebo groups|Chi-squared|||||||0.0202
92350066|NCT01112267|184604527|SUPERIORITY_OR_OTHER|||||||0.0102||||||p-value for percentage of participants with pain relief at Day 15 was calculated for tramadol HCl/acetaminophen and placebo groups|Chi-squared|||||||0.0102
92350067|NCT01112267|184604527|SUPERIORITY_OR_OTHER|||||||0.4652||||||p-value for percentage of participants with pain relief at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups|Chi-squared|||||||0.4652
92400391|NCT02212015|184692244|SUPERIORITY||Rate difference|0.0|||||TWO_SIDED|||||||||||||
92160609|NCT00517933|184209577|SUPERIORITY_OR_OTHER||Slope|-6.58|STANDARD_ERROR_OF_MEAN|2.3||0.006|TWO_SIDED|95.0|-11.25|-1.92|||Mixed Models Analysis|||||-1.92|-11.25|0.006
92350068|NCT01112267|184604528|SUPERIORITY_OR_OTHER|||||||0.3524||||||p-value for change from Baseline in physical conditioning at Day 29 was calculated using for tramadol HCl/acetaminophen and placebo groups|Wilcoxon (Mann-Whitney)|||||||0.3524
92350069|NCT01112267|184604528|SUPERIORITY_OR_OTHER|||||||0.0224||||||p-value for change from Baseline in role physical at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.0224
92350070|NCT01112267|184604528|SUPERIORITY_OR_OTHER|||||||0.5712||||||p-value for change from Baseline in bodily pain at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.5712
92350071|NCT01112267|184604528|SUPERIORITY_OR_OTHER|||||||0.0395||||||p-value for change from Baseline in general health at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.0395
92350072|NCT01112267|184604528|SUPERIORITY_OR_OTHER|||||||0.0524||||||p-value for change from Baseline in vitality at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.0524
92400392|NCT02212015|184692245|OTHER||Median|21.6|||||TWO_SIDED|||||||||"The analysis of secondary endpoints is of descriptive nature and generally consists of summary statistics and interval estimation.~Overall survival (OS) was defined as the time of start of treatment until death (event status=1) or last contact (censoring, event status=0). OS was analyzed using Kaplan-Meier curves. Median survival time is provided alonsgside two-sided 95% confidence interval (CI), if possible."||||
92350073|NCT01112267|184604528|SUPERIORITY_OR_OTHER|||||||0.115||||||p-value for change from Baseline in social functioning at Day 29 was calculated using for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.115
92350074|NCT01112267|184604528|SUPERIORITY_OR_OTHER|||||||0.7788||||||p-value for change from Baseline in role emotional at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.7788
92350075|NCT01112267|184604528|SUPERIORITY_OR_OTHER|||||||0.7776||||||p-value for change from Baseline in mental health at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.7776
92350076|NCT01112267|184604528|SUPERIORITY_OR_OTHER|||||||0.0047||||||p-value for change from Baseline in Reptd. health transition at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.0047
92350077|NCT01112267|184604529|SUPERIORITY_OR_OTHER|||||||0.0527||||||p-value for change from Baseline in ODI- Korean version at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.0527
92350078|NCT01112267|184604530|SUPERIORITY_OR_OTHER|||||||0.0917||||||p-value for investigator's global assessment on investigational product at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Chi-squared|||||||0.0917
92350079|NCT01112267|184604531|SUPERIORITY_OR_OTHER|||||||0.5632||||||p-value for participant's global assessment on investigational product at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Chi-squared|||||||0.5632
92160610|NCT00517933|184209579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.7|TWO_SIDED|95.0|-0.05|0.07|||Mixed Models Analysis|||||0.07|-0.05|0.70
92160611|NCT00517933|184209581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.04|TWO_SIDED|95.0|0.1|3.0|||Mixed Models Analysis|||||3.0|0.1|0.04
92350080|NCT02421211|184604540|SUPERIORITY_OR_OTHER||LS means ratio|4.7|||||TWO_SIDED|90.0|3.4|6.5||||||||6.5|3.4|
92350081|NCT02421211|184604541|SUPERIORITY_OR_OTHER||LS means ratio|2.3|||||TWO_SIDED|90.0|2.0|2.8||||||||2.8|2.0|
92350082|NCT02421211|184604542|SUPERIORITY_OR_OTHER||LS means ratio|3.1|||||TWO_SIDED|90.0|2.4|3.8||||||||3.8|2.4|
92350083|NCT02421211|184604543|SUPERIORITY_OR_OTHER||LS means ratio|1.7|||||TWO_SIDED|90.0|1.5|2.0||||||||2.0|1.5|
92350084|NCT02421211|184604544|SUPERIORITY_OR_OTHER||LS means ratio|1.6|||||TWO_SIDED|90.0|1.4|1.9||||||||1.9|1.4|
92350085|NCT02421211|184604545|SUPERIORITY_OR_OTHER||LS means ratio|1.7|||||TWO_SIDED|90.0|1.6|2.0||||||||2.0|1.6|
92350086|NCT02810327|184604562|OTHER|||||||0.054|||||||Wilcoxon (Mann-Whitney)|||The MUSC Bioinformatics Core analyzed group genomic data for variant association with COPD severity score, including single variant association or type of variant association with symptoms. Descriptive statistical analysis was performed using statistical package SAS 9.4 for Windows (SAS Institute Inc., Cary, NC, USA).||||0.054
92350087|NCT00827242|184604579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.66||0.004||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IPSS. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.004
92350088|NCT00827242|184604580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.26||0.029||95.0||||The p-value associates with LS Mean difference of changes from baseline to 4 weeks between treatment groups for BII. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.029
92350089|NCT00827242|184604581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.057||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for BII. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.057
92350090|NCT00827242|184604582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.3||0.002||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IPSS storage subscore. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.002
92350091|NCT00827242|184604583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.43||0.02||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IPSS voiding subscore. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.020
92350092|NCT00827242|184604584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.233||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IPSS nocturia question. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.233
92160612|NCT00517933|184209583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.16|TWO_SIDED|95.0|-0.81|0.14|||Regression, Linear|||||0.14|-0.81|0.16
92160613|NCT00517933|184209585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.01|TWO_SIDED|95.0|-7.3|-0.9|||Regression, Linear|||||-0.9|-7.3|0.01
92350093|NCT00827242|184604585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.013||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IPSS QoL Index. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.013
92350094|NCT00827242|184604586|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||The p-value associates with difference between treatment groups for the 7 response categories.|Cochran-Mantel-Haenszel|Results were adjusted for baseline LUTS severity (moderate \[total IPSS \< 20\]; severe \[total IPSS \>= 20\]||||||0.021
92160614|NCT00517933|184209587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.02|TWO_SIDED|95.0|-10.6|-0.9|||Regression, Linear|||||-0.9|-10.6|0.02
92160615|NCT00517933|184209589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.04|TWO_SIDED|95.0|-7.2|-0.1|||Regression, Linear|||||-0.1|-7.2|0.04
92160616|NCT00517933|184209591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.07|TWO_SIDED|95.0|-7.8|0.4|||Regression, Logistic|||||0.4|-7.8|0.07
92160617|NCT00517933|184209593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.18|TWO_SIDED|95.0|-0.01|0.06|||Regression, Linear|||||0.06|-0.01|0.18
92160618|NCT00517933|184209595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3||||0.37|TWO_SIDED|95.0|-2.8|7.3|||Regression, Linear|||||7.3|-2.8|0.37
92350095|NCT00827242|184604587|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||The p-value associates with difference between treatment groups for the 7 response categories.|Cochran-Mantel-Haenszel|Results were adjusted for baseline LUTS severity (moderate \[total IPSS \< 20\]; severe \[total IPSS \>= 20\]||||||0.009
92160619|NCT00517933|184209599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9||||0.008|TWO_SIDED|95.0|0.8|5.0|||Regression, Linear|||||5.0|0.8|0.008
92160620|NCT00517933|184209601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.86|TWO_SIDED|95.0|-2.1|1.7|||Regression, Linear|||||1.7|-2.1|0.86
92160621|NCT01078246|184209603|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|2.282||||0.002|TWO_SIDED|95.0|1.344|3.875|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||AIDS-defining malignancies||3.875|1.344|0.002
92160622|NCT01078246|184209603|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.84|||<|0.05|TWO_SIDED|95.0|1.621|4.977|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||AIDS-defining malignancies||4.977|1.621|<0.05
92160623|NCT01078246|184209603|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.871||||0.005|TWO_SIDED|95.0|1.207|2.899|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||AIDS-defining malignancies||2.899|1.207|0.005
92160624|NCT01078246|184209603|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.879||||0.004|TWO_SIDED|95.0|1.227|2.879|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||AIDS-defining malignancies||2.879|1.227|0.004
92160625|NCT01078246|184209603|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.943||||0.008|TWO_SIDED|95.0|1.191|3.168|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||Non-AIDS-defining malignancies||3.168|1.191|0.008
92160626|NCT01078246|184209603|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.459||||0.001|TWO_SIDED|95.0|1.454|4.159|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||Non-AIDS-defining malignancies||4.159|1.454|0.001
92160627|NCT01078246|184209603|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.776||||0.004|TWO_SIDED|95.0|1.199|2.631|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||Non-AIDS-defining malignancies||2.631|1.199|0.004
92160628|NCT01078246|184209603|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.86||||0.001|TWO_SIDED|95.0|1.274|2.717|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||Non-AIDS-defining malignancies||2.717|1.274|0.001
92160629|NCT01078246|184209604|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.807||||0.255|TWO_SIDED|95.0|0.557|1.168|||Poisson regression|The analysis included adjustments for raltegravir exposure, propensity score, treatment regimen (1st, 2nd, 3rd+), and Hepatitis B/C status.||||1.168|0.557|0.255
92219410|NCT02662036|184339483|SUPERIORITY|||||||0.28|||||||Mann Whitney U Test|||Statistical analysis #1 is for postoperative acute care unit antiemetic use||||0.28
92219411|NCT02662036|184339483|SUPERIORITY|||||||0.62|||||||Mann Whitney U Test|||Statistical analysis #2 is for floor antiemetic use||||0.62
92219412|NCT02662036|184339483|SUPERIORITY|||||||0.5|||||||Mann Whitney U Test|||Statistical analysis #3 is for total antiemetic use||||0.50
92219413|NCT02662036|184339484|SUPERIORITY|||||||0.2|||||||Mann Whitney U Test|||||||0.20
92219414|NCT02662036|184339485|SUPERIORITY|||||||0.64|||||||Mann Whitney U Test|||||||0.64
92219415|NCT02662036|184339486|SUPERIORITY|||||||0.38|||||||Mann Whitney U Test|||||||0.38
92350096|NCT00827242|184604588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.49||0.146||95.0||||The p-value associates with LS Mean difference of changes from baseline to 1 week between treatment groups for IPSS. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.146
92160630|NCT01078246|184209604|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.907||||0.646|TWO_SIDED|95.0|0.597|1.376|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, treatment regimen (1st, 2nd, 3rd+), and Hepatitis B/C status.||||1.376|0.597|0.646
92219416|NCT01412554|184339493|OTHER|Only descriptive statistics|||||<|0.05|||||||Spearman|The degree of tracking was assessed by Spearman's rank or Pearson's correlation coefficient||Only an observational follow-up study|The degree of tracking was assessed by Spearman's rank or Pearson's correlation coefficient|||<0.05
92219417|NCT03302975|184339512|SUPERIORITY|||||||0.001|TWO_SIDED|95.0|||||ANOVA|||||||0.001
92219418|NCT03834519|184339515|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.2616|TWO_SIDED|95.0|0.77|1.14|||Log Rank|One-sided p-value based on log-rank test stratified by measurable disease status and prior NHA treatment.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|Treatment difference in survival assessed by the stratified log-rank test stratified by measurable disease status and prior NHA treatment.||1.14|0.77|0.2616
92275657|NCT01706198|184453806|OTHER||Adjusted Odds Ratio|1.79|||<|0.001|TWO_SIDED|95.0|1.55|2.06||Logistic regression adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender, age and Baseline score.|Regression, Logistic||Adjusted odds ratio of FF/VI with Usual Care has been presented.|||2.06|1.55|<0.001
92160631|NCT01078246|184209604|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.268||||0.182|TWO_SIDED|95.0|0.895|1.795|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, treatment regimen (1st, 2nd, 3rd+), and Hepatitis B/C status.||||1.795|0.895|0.182
92160632|NCT01078246|184209604|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.257||||0.188|TWO_SIDED|95.0|0.894|1.768|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, treatment regimen (1st, 2nd, 3rd+), and Hepatitis B/C status.||||1.768|0.894|0.188
92160633|NCT01078246|184209605|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.016||||0.897|TWO_SIDED|95.0|0.796|1.297|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.297|0.796|0.897
92219419|NCT03834519|184339516|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.5544|TWO_SIDED|95.0|0.82|1.25|||Log Rank|One-sided p-value based on log-rank test stratified by measurable disease status and prior NHA treatment.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|Treatment difference in rPFS assessed by the stratified log-rank test stratified by measurable disease status and prior NHA treatment.||1.25|0.82|0.5544
92160634|NCT01078246|184209605|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.287||||0.07|TWO_SIDED|95.0|0.98|1.69|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.690|0.980|0.070
92219420|NCT03834519|184339517|OTHER|Treatment difference in TFST|Hazard Ratio (HR)|0.86||||||95.0|0.71|1.03|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|||1.03|0.71|
92219421|NCT03834519|184339518|OTHER|Treatment difference in ORR|Difference in percentage|10.9|||||TWO_SIDED|95.0|4.0|17.1||||||||17.1|4.0|
92219422|NCT03834519|184339520|OTHER|Treatment difference in time to PSA progression|Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.89|1.38|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|||1.38|0.89|
92219423|NCT03834519|184339521|OTHER|Treatment difference in SSRE|Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.38|0.78|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|||0.78|0.38|
92219424|NCT03834519|184339522|OTHER|Treatment difference in time to radiographic soft tissue progression|Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.62|1.0|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|||1.00|0.62|
92219425|NCT03834519|184339523|OTHER|Treatment difference in TTPE|Hazard Ratio (HR)|0.95||||0.3643|TWO_SIDED|95.0|0.72|1.26|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|||1.26|0.72|0.3643
92219426|NCT04490018|184339526|NON_INFERIORITY|The two-sided 95 percent (%) confidence interval (CI) was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 95% CI of the percentage difference between compared groups was greater than (\>) -10%.|Difference in Percentage|4.98|||||TWO_SIDED|95.0|0.06|10.36||||||Serogroup A||10.36|0.06|
92219427|NCT04490018|184339526|NON_INFERIORITY|The two-sided 95% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 95% CI of the percentage difference between compared groups was greater \> -10%.|Difference in Percentage|4.97|||||TWO_SIDED|95.0|1.58|9.5||||||Serogroup C||9.50|1.58|
92219428|NCT04490018|184339526|NON_INFERIORITY|The two-sided 95% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 95% CI of the percentage difference between compared groups was greater \> -10%.|Difference in Percentage|1.24|||||TWO_SIDED|95.0|-1.28|4.42||||||Serogroup W||4.42|-1.28|
92219429|NCT04490018|184339526|NON_INFERIORITY|The two-sided 95% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 95% CI of the percentage difference between compared groups was greater \> -10%.|Difference in Percentage|1.24|||||TWO_SIDED|95.0|-1.88|4.77||||||Serogroup Y||4.77|-1.88|
92219430|NCT01392677|184339568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.1022|<|0.0001|TWO_SIDED|95.0|-0.89|-0.49||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|Mixed Models Analysis|Longitudinal repeated measures model using mixed model with treatment group, baseline value, week and week\*treatment and week\*baseline||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.49|-0.89|<0.0001
92275658|NCT01706198|184453807|OTHER||Adjusted Odds Ratio|1.51|||<|0.001|TWO_SIDED|95.0|1.31|1.73||Logistic regression adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender, age and Baseline score.|Regression, Logistic||Adjusted odds ratio of FF/VI versus Usual Care has been presented.|||1.73|1.31|<0.001
92275659|NCT01706198|184453808|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the two-sided 95% confidence interval for the incidence ratio is less than 2.|Incidence ratio|1.4|||||TWO_SIDED|95.0|0.8|2.7|||||Incidence ratio was calculated as percentage of participants who had at least one SAE of pneumonia in the FF/VI group divided by the percentage of participants who had at least one SAE of pneumonia in the Usual Care group.|||2.7|0.8|
92275660|NCT01706198|184453809|OTHER||Hazard Ratio (HR)|1.45||||0.255|TWO_SIDED|95.0|0.77|2.74||Cox proportional hazards model with randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age as covariates.|Cox proportional hazards model||Hazard ratio for FF/VI versus Usual Care has been presented.|||2.74|0.77|0.255
92350097|NCT00827242|184604589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.6||0.003||95.0||||The p-value associates with LS Mean difference of changes from baseline to 4 weeks between treatment groups for IPSS. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.003
92369432|NCT00819156|184643750|SUPERIORITY_OR_OTHER_LEGACY||Percentage|94.0||||||95.0|80.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||99|80|
92160635|NCT01078246|184209605|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.067||||0.575|TWO_SIDED|95.0|0.85|1.339|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.339|0.850|0.575
92160636|NCT01078246|184209605|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.057||||0.626|TWO_SIDED|95.0|0.847|1.319|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.319|0.847|0.626
92160637|NCT01078246|184209607|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.389|||<|0.0001|TWO_SIDED|95.0|0.274|0.551|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||0.551|0.274|<0.0001
92400393|NCT02212015|184692246|SUPERIORITY|||||||0.752|||||||Log Rank|||"The analysis of secondary endpoints is of descriptive nature and generally consists of summary statistics and interval estimation.~Overall survival (OS) for subgroup 1 was defined as the time of start of treatment until death (event status=1) or last contact (censoring, event status=0). OS was analyzed using Kaplan-Meier curves. Median survival time is provided alonsgside two-sided 95% confidence interval (CI), if possible."||||0.752
92160638|NCT01078246|184209607|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.471|||<|0.05|TWO_SIDED|95.0|0.314|0.707|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||0.707|0.314|<0.05
92160639|NCT01078246|184209607|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.65||||0.015|TWO_SIDED|95.0|1.102|2.47|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||2.470|1.102|0.015
92160640|NCT01078246|184209607|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.622||||0.018|TWO_SIDED|95.0|1.085|2.425|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||2.425|1.085|0.018
92160641|NCT01078246|184209608|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.75||||0.423|TWO_SIDED|95.0|0.37|1.517|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.517|0.370|0.423
92160642|NCT01078246|184209608|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.208||||0.631|TWO_SIDED|95.0|0.559|2.612|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||2.612|0.559|0.631
92160643|NCT01078246|184209608|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.845||||0.592|TWO_SIDED|95.0|0.458|1.561|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.561|0.458|0.592
92160644|NCT01078246|184209608|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.022||||0.943|TWO_SIDED|95.0|0.565|1.85|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.850|0.565|0.943
92160645|NCT01078246|184209609|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.708||||0.109|TWO_SIDED|95.0|0.464|1.08|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.080|0.464|0.109
92160646|NCT01078246|184209609|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.794||||0.356|TWO_SIDED|95.0|0.486|1.296|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.296|0.486|0.356
92160647|NCT01078246|184209609|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.556||||0.039|TWO_SIDED|95.0|1.022|2.37|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||2.370|1.022|0.039
92160648|NCT01078246|184209609|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.564||||0.033|TWO_SIDED|95.0|1.036|2.361|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||2.361|1.036|0.033
92160649|NCT01078246|184209609|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.72||||0.125|TWO_SIDED|95.0|0.861|3.437|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, and propensity score, and was stratified by the 1st treatment regimen.||||3.437|0.861|0.125
92160650|NCT01078246|184209609|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.056||||0.881|TWO_SIDED|95.0|0.517|2.155|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, and propensity score, and was stratified by the 2nd treatment regimen.||||2.155|0.517|0.881
92160651|NCT01078246|184209609|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.077||||0.107|TWO_SIDED|95.0|0.854|5.05|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, and propensity score, and was stratified by the 3rd+ treatment regimen.||||5.05|0.854|0.107
92160652|NCT00235495|184209610|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.84|1.1||The generalized linear model with log link function is tested at the one-sided alpha level of 0.025.|Regression, Logistic|Adjustment is made for baseline NIHSS and Thrombolysis stratum.|Adjusted risk ratio greater than 1 indicates greater risk of good outcome in the Albumin treatment group, while adjusted risk ratio less than 1 indicates greater risk of good outcome in the Saline treatment group.|Test of null hypothesis (equal proportions of subjects with NIHSS 0-1 or mRS 0-1 or both at 90 days post-randomization in Albumin and Saline treatment arms) versus alternative hypothesis (greater proportion of subjects with NIHSS 0-1 or mRS 0-1 or both at 90 days post-randomization in Albumin treatment arm).||1.10|0.84|
92160653|NCT00235495|184209611|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.93|||||TWO_SIDED|99.0|0.8|1.09|||Regression, Logistic|||||1.09|0.80|
92160654|NCT00235495|184209612|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.99|||||TWO_SIDED|99.0|0.66|1.49|||Regression, Logistic|||||1.49|0.66|
92405642|NCT02683577|184701453|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|2.26|||||TWO_SIDED|90.0|1.33|3.82|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of mild HI group (Test) versus healthy control group (Reference) on ln transformed AUC(0-inf) values for LP-778902.||3.82|1.33|
92160655|NCT00235495|184209613|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.88|||||TWO_SIDED|99.0|0.71|1.1|||Regression, Logistic|||||1.10|0.71|
92160656|NCT00235495|184209614|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.03|||||TWO_SIDED|99.0|0.82|1.28|||Regression, Logistic|||||1.28|0.82|
92160657|NCT00235495|184209615|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.99|||||TWO_SIDED|99.0|0.85|1.13|||Regression, Logistic|||||1.13|0.85|
92160658|NCT00235495|184209616|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.98|||||TWO_SIDED|99.0|0.87|1.11|||Regression, Logistic|||||1.11|0.87|
92160659|NCT00235495|184209617|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.95|||||TWO_SIDED|99.0|0.83|1.1|||Regression, Logistic|||||1.10|0.83|
92160660|NCT00235495|184209618|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.99|||||TWO_SIDED|99.0|0.84|1.17|||Regression, Logistic|||||1.17|0.84|
92160661|NCT00235495|184209619|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.93|||||TWO_SIDED|99.0|0.84|1.02|||Regression, Logistic|||||1.02|0.84|
92160662|NCT00235495|184209620|SUPERIORITY_OR_OTHER_LEGACY||Rank Sum|73098.0||||0.913||95.0|||||Wilcoxon rank sum test, normal approx|||||||0.913
92160663|NCT00235495|184209621|SUPERIORITY_OR_OTHER_LEGACY||Rank Sum|44853.5||||0.923||95.0|||||Wilcoxon rank sum test, normal approx|||||||0.923
92219431|NCT01392677|184339569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.45|STANDARD_ERROR_OF_MEAN|4.8846|<|0.0001|TWO_SIDED|95.0|-43.08|-23.82||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group as effect and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-23.82|-43.08|<0.0001
92219432|NCT01392677|184339570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.07|STANDARD_ERROR_OF_MEAN|0.3651|<|0.0001|TWO_SIDED|95.0|-2.79|-1.35||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group as effect and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.35|-2.79|<0.0001
92219433|NCT01392677|184339571|SUPERIORITY_OR_OTHER||Risk Difference (RD)|20.7|STANDARD_ERROR_OF_MEAN|5.056|<|0.0001|TWO_SIDED|95.0|10.7|30.6||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Tsiatis, Davidian, Zhang \& Lu, with adjustment for baseline value||H0: proportion(treat) minus proportion (placebo) = 0 versus the alternative HA: proportion (treat) minus proportion (placebo) =/= 0||30.6|10.7|<0.0001
92219434|NCT01392677|184339572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.76|STANDARD_ERROR_OF_MEAN|1.6677||0.025|TWO_SIDED|95.0|-7.05|-0.48||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group as effect and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.48|-7.05|0.025
92219435|NCT03996876|184339573|SUPERIORITY|Given the relatively small sample size, results of our inferential statistical tests should be interpreted with caution.|F Statistic|1.032||||0.322|TWO_SIDED|||||The a priori threshold for statistical significance was set at 0.05.|ANOVA|We conducted a two-way mixed ANOVA with intervention as the between-subjects and time as the within-subjects variable.|The F Statistic reported is for the interaction between Intervention and Time.|||||0.322
92219436|NCT00121108|184339576|SUPERIORITY||Relative risk|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.21|||Fisher Exact|||||0.21|0.08|<0.001
92275661|NCT00549198|184453813|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by MDRD, baseline BMI, race group, treatment\*visit, baseline GFR by MDRD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.435
92275662|NCT00549198|184453814|SUPERIORITY_OR_OTHER|||||||0.057||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by MDRD, baseline BMI, race group, age group, treatment\*visit, baseline GFR by MDRD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.057
92275663|NCT00549198|184453815|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by MDRD, baseline BMI, race group, treatment\*visit, baseline GFR by MDRD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.060
92219437|NCT01380379|184339587|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|Single group comparison pre-post change score, compared to a value of 0 (no change)||||||<.01
92219438|NCT01380379|184339588|SUPERIORITY_OR_OTHER||||||<|0.04|||||||t-test, 2 sided|||||||<.04
92219439|NCT06608368|184339611|SUPERIORITY||Least Square Mean Difference|-6.2108|STANDARD_ERROR_OF_MEAN|4.0959||0.1332|TWO_SIDED|95.0|-14.3568|1.9353|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|||1.9353|-14.3568|0.1332
92275664|NCT00549198|184453816|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by CG, baseline BMI, race group, age group, hypertension, treatment\*visit, baseline GFR by CG\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.186
92275665|NCT00549198|184453817|SUPERIORITY_OR_OTHER|||||||0.413||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by CG, baseline BMI, race group, age group, hypertension, treatment\*visit, baseline GFR by CG\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.413
92275666|NCT00549198|184453818|SUPERIORITY_OR_OTHER|||||||0.315||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by CG, baseline BMI, race group, baseline CD4, treatment\*visit, baseline GFR by CG\*visit, baseline BMI\*visit and baseline CD4\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.315
92275667|NCT00549198|184453825|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The model includes the following covariates: treatment, visit, baseline spine BMD, baseline BMI, race group, age group, hypertension, treatment\*visit, baseline spine BMD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||<0.001
92369433|NCT00819156|184643750|SUPERIORITY_OR_OTHER_LEGACY||Percentage|93.0||||||95.0|77.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||99|77|
92369434|NCT00819156|184643751|SUPERIORITY_OR_OTHER_LEGACY||Percentage|83.0||||||95.0|65.0|94.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||94|65|
92369435|NCT00819156|184643751|SUPERIORITY_OR_OTHER_LEGACY||Percentage|94.0||||||95.0|79.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||99|79|
92275668|NCT00549198|184453826|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The model includes the following covariates: treatment, visit, baseline hip BMD, baseline BMI, race group, risk factor, country group, treatment\*visit, baseline hip BMD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||<0.001
92275669|NCT00549198|184453827|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||The model includes the following covariates: treatment, visit, baseline spine BMD, baseline BMI, race group, age group, treatment\*visit, baseline spine BMD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.036
92275670|NCT00549198|184453828|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The model includes the following covariates: treatment, visit, baseline hip BMD, baseline BMI, race group, risk factor, prohibited medication, previous fracture, treatment\*visit, baseline hip BMD\*visit and baseline BMI\*visit.|Mixed Models Analysis|Correlation matrix for within-subject errors is unstructured.||||||<0.001
92275671|NCT00549198|184453829|SUPERIORITY_OR_OTHER|||||||0.112||95.0||||The model includes the following covariates: treatment, visit, baseline spine BMD, baseline BMI, race group, age group, treatment\*visit, baseline spine BMD\*visit and baseline BMI\*visit.|Mixed Models Analysis|correlation matrix for within-subject errors is unstructured.||||||0.112
92275672|NCT00549198|184453830|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The model includes the following covariates: treatment, visit, baseline hip BMD, baseline BMI, race group, risk factor, prohibited medication, previous fracture, treatment\*visit, baseline hip BMD\*visit, and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||<0.001
92275673|NCT00549198|184453863|SUPERIORITY_OR_OTHER|||||||0.3025||95.0||||The model includes the following covariates: treatment, age, baseline biomarker value, and gender.|ANOVA|Estimates are calculated from an ANOVA model. Parameters are analyzed based on log transformed data.||||||0.3025
92275674|NCT00549198|184453864|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The model includes the following covariates: treatment, age, baseline biomarker value, baseline CD4, and gender.|ANOVA|Estimates are calculated from an ANOVA model. Parameters are analyzed based on log transformed data.||||||<0.0001
92275675|NCT00549198|184453865|SUPERIORITY_OR_OTHER|||||||0.3323||95.0||||The model includes the following covariates: treatment, age, and baseline biomarker value.|ANOVA|Estimates are calculated from an ANOVA model. Parameters are analyzed based on log transformed data.||||||0.3323
92275676|NCT00549198|184453866|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The model includes the following covariates: treatment, baseline biomarker value, baseline CD4, and gender.|ANOVA|Estimates are calculated from an ANOVA model. Parameters are analyzed based on log transformed data.||||||<0.0001
92275677|NCT00549198|184453867|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The model includes the following covariates: treatment, age, and baseline biomarker value.|ANOVA|Estimates are calculated from ana ANOVA model. Parameters are analyzed based on log transformed data.||||||<0.0001
92275678|NCT00549198|184453868|SUPERIORITY_OR_OTHER|||||||0.0019||95.0||||The model includes the following covariates: treatment, baseline biomarker value, and gender.|ANOVA|Estimates are calculated from an ANOVA model.||||||0.0019
92275679|NCT00549198|184453869|SUPERIORITY_OR_OTHER|||||||0.0019||95.0||||The model includes the following covariates: treatment, age, baseline biomarker value, and baseline CD4.|ANOVA|Estimates are calculated from an ANOVA model.||||||0.0019
92275680|NCT00549198|184453870|SUPERIORITY_OR_OTHER|||||||0.0266||95.0||||The model includes the following covariates: treatment, baseline biomarker value, and baseline CD4.|ANOVA|Estimates are calculated from an ANOVA model.||||||0.0266
92275681|NCT04229303|184453872|OTHER||Slope|0.62|||<|0.0001|TWO_SIDED|90.0|0.424|0.821|||General power constant model|||Statistics for Voriconazole AUC0-t||0.821|0.424|<0.0001
92275682|NCT04229303|184453872|OTHER||Slope|1.21||||0.0363|TWO_SIDED|90.0|1.05|1.362|||General power linear model|||Statistics for Voriconazole AUC0-t||1.362|1.050|0.0363
92275683|NCT04229303|184453872|OTHER||Geometric mean difference|13.48|||<|0.0001|TWO_SIDED|90.0|10.096|17.994|||ANOVA|||Statistics for Voriconazole AUC0-t, 40mg vs 5mg||17.994|10.096|<0.0001
92275684|NCT04229303|184453872|OTHER||Slope|1.85|||<|0.0001|TWO_SIDED|90.0|1.728|1.963|||General power constant model|||Statistics for N-oxide Voriconazole AUC0-t||1.963|1.728|<0.0001
92275685|NCT04229303|184453872|OTHER||Slope|0.87||||0.0201|TWO_SIDED|90.0|0.789|0.96|||General power linear model|||Statistics for N-oxide Voriconazole AUC0-t||0.960|0.789|0.0201
92160664|NCT00235495|184209622|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.18|||||TWO_SIDED|95.0|0.79|1.76|||Regression, Logistic|||||1.76|0.79|
92160665|NCT00235495|184209623|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.47|2.15|||Regression, Logistic|||||2.15|0.47|
92160666|NCT00235495|184209624|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.39|3.41|||Regression, Logistic|||||3.41|0.39|
92160667|NCT00235495|184209625|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.69|||||TWO_SIDED|95.0|0.98|2.94|||Regression, Logistic|||||2.94|0.98|
92160668|NCT00235495|184209626|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|10.8|||||TWO_SIDED|95.0|4.37|26.72|||Regression, Logistic|||||26.72|4.37|
92160669|NCT00235495|184209627|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.58|||||TWO_SIDED|95.0|1.09|6.12|||Regression, Logistic|||||6.12|1.09|
92160670|NCT00235495|184209628|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.42|||||TWO_SIDED|95.0|1.02|5.78|||Regression, Logistic|||||5.78|1.02|
92160671|NCT00235495|184209629|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.68|2.01|||Regression, Logistic|||||2.01|0.68|
92160672|NCT00235495|184209630|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.68|1.61|||Regression, Logistic|||||1.61|0.68|
92160673|NCT00235495|184209631|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.74|1.63|||Regression, Logistic|||||1.63|0.74|
92160674|NCT01639443|184209636|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||"We counted days containing at least one Fast-tracked participant as a Fast-tracked day for the sake of analysis at the clinic level. Our null hypothesis is that these days will not differ in terms of percentage of clinic capacity filled. We are powered to detect a 0.5 Standard Deviation (SD) difference in clinic capacity (Type I error rate = 5%; Power = 81%), with a equal ratio of Experimental and Control days."||||<0.0001
92400394|NCT02212015|184692247|SUPERIORITY|||||||0.621|||||||Log Rank|||"The analysis of secondary endpoints is of descriptive nature and generally consists of summary statistics and interval estimation.~Overall survival (OS) for subgroup 2 was defined as the time of start of treatment until death (event status=1) or last contact (censoring, event status=0). OS was analyzed using Kaplan-Meier curves. Median survival time is provided alonsgside two-sided 95% confidence interval (CI), if possible."||||0.621
92400395|NCT02212015|184692248|OTHER||||||||||||||||||Frequency of each category is given|||
92400396|NCT02212015|184692249|SUPERIORITY|||||||0.349|||||||Chi squared test, exact|||Response Rate (RR) is given as Best Overall Response (BOR) and given be absolute and relative frequencies. Categories of BOR are CR, PR, SD, PD and NE)|Response Rate (RR) is given as Best Overall Response (BOR) and given be absolute and relative frequencies applied to the total of 26 enrolled subjects.. Categories of BOR are CR, PR, SD, PD and NE).|||0.349
92400397|NCT02212015|184692250|SUPERIORITY|||||||0.385|||||||Chi squared test, exact|||||||0.385
92219440|NCT06608368|184339611|SUPERIORITY||Least Square Mean Difference|-2.9623|STANDARD_ERROR_OF_MEAN|4.1021||0.4722|TWO_SIDED|95.0|-11.1207|5.196|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|||5.1960|-11.1207|0.4722
92219441|NCT06608368|184339611|SUPERIORITY||Least Square Mean Difference|3.2484|STANDARD_ERROR_OF_MEAN|3.9692||0.4155|TWO_SIDED|95.0|-4.6456|11.1425|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|||11.1425|-4.6456|0.4155
92219442|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|-4.739|STANDARD_ERROR_OF_MEAN|3.383||0.165|TWO_SIDED|95.0|-11.4672|1.9891|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|LMS Intensity||1.9891|-11.4672|0.1650
92219443|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|-4.4392|STANDARD_ERROR_OF_MEAN|3.3248||0.1855|TWO_SIDED|95.0|-11.0516|2.1732|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|LMS Intensity||2.1732|-11.0516|0.1855
92350098|NCT00827242|184604590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|1.12|<|0.001||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IIEF-EF domain score. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||<0.001
92400398|NCT00659061|184692311|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||at baseline|Chi-squared|||||||0.32
92400399|NCT00659061|184692311|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||at endline|Chi-squared|||||||<0.001
92400400|NCT00659061|184692313|SUPERIORITY_OR_OTHER||||||<|0||95.0|||||ANOVA|adjusted for baseline, child age, sex, number of sprinkles sachets consumed, number of mths between enrollment and endline Hb measurement)||||||<0.000
92400401|NCT00659061|184692314|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||baseline|Chi-squared|||||||0.34
92400402|NCT00659061|184692314|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||endline|Chi-squared|||||||<0.001
92219444|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|0.2998|STANDARD_ERROR_OF_MEAN|3.2234||0.9261|TWO_SIDED|95.0|-6.1107|6.7104|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|LMS Intensity||6.7104|-6.1107|0.9261
92219445|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|-2.7189|STANDARD_ERROR_OF_MEAN|3.2406||0.4039|TWO_SIDED|95.0|-9.1643|3.7265|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|LMS Duration||3.7265|-9.1643|0.4039
92350099|NCT00827242|184604591|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||The p-value associates with mean difference of changes from baseline to 12 weeks between treatment groups for Qmax. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ranked ANOVA|||||||0.300
92400403|NCT00659061|184692315|SUPERIORITY_OR_OTHER|||||||0||95.0||||endline|ANOVA|adjusted for baseline child age, sex, # of sprinkle sachet consumed, # of mths between enrollment and endline Hb measurement||||||0.000
92219446|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|-3.6986|STANDARD_ERROR_OF_MEAN|3.1959||0.2505|TWO_SIDED|95.0|-10.0548|2.6577|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|LMS Duration||2.6577|-10.0548|0.2505
92275686|NCT04229303|184453872|OTHER||Geometric mean difference|6.16|||<|0.0001|TWO_SIDED|90.0|5.253|7.217|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-t, 40mg vs 5mg||7.217|5.253|<0.0001
92350100|NCT00827242|184604594|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||The p-value associates with mean difference of changes from baseline to 12 weeks between treatment groups for PVR volume. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ranked ANOVA|||||||0.500
92400404|NCT00659061|184692316|SUPERIORITY_OR_OTHER|||||||0.7||95.0||||baseline|Chi-squared|||||||0.7
92400405|NCT00659061|184692316|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||endline|Chi-squared|||||||0.02
92400406|NCT00659061|184692317|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||baseline|Chi-squared|||||||0.62
92400407|NCT00659061|184692317|SUPERIORITY_OR_OTHER|||||||0.89||95.0||||endline|Chi-squared|||||||0.89
92400408|NCT00659061|184692318|SUPERIORITY_OR_OTHER|||||||0.93||95.0||||baseline|Chi-squared|||||||0.93
92400409|NCT00659061|184692318|SUPERIORITY_OR_OTHER|||||||0.49||95.0||||endline|Chi-squared|||||||0.49
92400410|NCT03164668|184692319|SUPERIORITY||Estimated mean ratio|0.31|||||TWO_SIDED|95.0|0.13|0.72|||||Baseline adjusted model estimated mean ratio in cigarettes smoked per day of those randomized conditions in which menthol cigarettes are avoided relative to conditions in which participants can continue smoking usual cigarettes|Comparison of those assigned to conditions in which menthol cigarettes are avoided relative to conditions in which can continue smoking usual cigarettes||0.72|0.13|
92400411|NCT03164668|184692319|SUPERIORITY||Estimated mean ratio|0.98|||||TWO_SIDED|95.0|0.78|1.22|||||Baseline adjusted model estimated mean ratio in cigarettes smoked per day among those in conditions in which they receive tobacco flavored e-cigarettes relative to conditions in which they receive menthol flavored e-cigarettes|Comparison of those assigned to conditions in which they receive tobacco flavored e-cigarettes relative to conditions in which they receive menthol flavored e-cigarettes||1.22|0.78|
92350101|NCT01944774|184604604|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 500mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.291||||0.133|TWO_SIDED|95.0|0.058|1.457||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||1.457|0.058|0.133
92350102|NCT01944774|184604604|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 650mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.492||||0.423|TWO_SIDED|95.0|0.087|2.788||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||2.788|0.087|0.423
92350103|NCT01944774|184604605|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 500mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.276||||0.118|TWO_SIDED|95.0|0.055|1.385||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||1.385|0.055|0.118
92160675|NCT01639443|184209637|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||We calculated this measure on the patient level. Our null hypothesis is that the lag time between scheduling and appointment, measured in days, will not differ between groups. We are powered to detect a 0.3 SD difference in lag time (Type I error rate = 5%; Power = 84%), accounting for the large sampling ratio (approximately 14:1).||||0.29
92160676|NCT01639443|184209638|SUPERIORITY_OR_OTHER|||||||0.49||||||We would have only expected 2 patients to be bumped in the Experimental Group, and observed 0.|Fisher Exact|||We did not explicitly power this study to detect differences in the number of service bumps, but we can compare them using Fisher's Exact Test||||0.49
92160677|NCT01639443|184209639|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||We calculated this measure on the patient level, but were hampered by a large sampling ratio (more than 50:1). Our null hypothesis is that the number of polyps detected will not differ between groups. We are powered to detect a 0.25 SD difference in polyp count per patient (Type I error rate = 5%; Power = 80%).||||0.05
92350104|NCT01944774|184604605|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 650mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.644||||0.636|TWO_SIDED|95.0|0.104|3.999||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||3.999|0.104|0.636
92350105|NCT01944774|184604606|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 500mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.517||||0.456|TWO_SIDED|95.0|0.091|2.93||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||2.930|0.091|0.456
92350106|NCT01944774|184604606|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 650mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.508||||0.445|TWO_SIDED|95.0|0.09|2.883||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||2.883|0.090|0.445
92350107|NCT01944774|184604607|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 500mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.518||||0.458|TWO_SIDED|95.0|0.091|2.941||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||2.941|0.091|0.458
92369436|NCT00819156|184643751|SUPERIORITY_OR_OTHER_LEGACY||Percentage|87.0||||||95.0|70.0|96.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||96|70|
92219447|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|-0.9797|STANDARD_ERROR_OF_MEAN|3.1648||0.7577|TWO_SIDED|95.0|-7.2744|5.3151|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|LMS Duration||5.3151|-7.2744|0.7577
92369437|NCT00819156|184643751|SUPERIORITY_OR_OTHER_LEGACY||Percentage|93.0||||||95.0|78.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||99|78|
92369438|NCT00819156|184643751|SUPERIORITY_OR_OTHER_LEGACY||Percentage|91.0||||||95.0|76.0|98.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||98|76|
92369439|NCT00819156|184643751|SUPERIORITY_OR_OTHER_LEGACY||Percentage|93.0||||||95.0|78.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||99|78|
92369440|NCT00819156|184643752|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0933||95.0|||||Log Rank|||||||0.0933
92369441|NCT00819156|184643753|SUPERIORITY_OR_OTHER_LEGACY|||||||0.165||95.0|||||Log Rank|||||||0.165
92369442|NCT00819156|184643754|SUPERIORITY_OR_OTHER_LEGACY|||||||0.429||95.0|||||Log Rank|||||||0.429
92369443|NCT00851890|184643767|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.012
92350108|NCT01944774|184604607|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 650mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.667||||0.664|TWO_SIDED|95.0|0.107|4.144||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||4.144|0.107|0.664
92350109|NCT01944774|184604608|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.959|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.959
92350110|NCT01944774|184604608|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.961|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.961
92350111|NCT01944774|184604609|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.96|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.960
92400412|NCT03164668|184692320|SUPERIORITY||Estimated mean ratio|3.03|||||TWO_SIDED|95.0|1.39|6.61|||||Model estimated mean ratio in puffs of e-cigarettes used per day among those randomized to conditions in which menthol cigarettes are avoided relative to conditions in which participants can continue smoking usual cigarettes|Comparison of those assigned to conditions in which menthol cigarettes are avoided relative to conditions in which can continue smoking usual cigarettes||6.61|1.39|
92400413|NCT03164668|184692320|SUPERIORITY||Estimated mean ratio|0.74|||||TWO_SIDED|95.0|0.59|0.92|||||Estimated mean ratio of number of puffs of e-cigarettes used per day among those in conditions in which they receive tobacco flavored e-cigarettes relative to conditions in which they receive menthol flavored e-cigarettes|Comparison of those assigned to conditions in which they receive tobacco flavored e-cigarettes relative to conditions in which they receive menthol flavored e-cigarettes||0.92|0.59|
92160678|NCT01639443|184209640|SUPERIORITY_OR_OTHER|||||||0.024|||||||t-test, 2 sided|||"We counted days containing at least one Fast-tracked participant as a Fast-tracked day for the sake of analysis at the clinic level. Our null hypothesis is that these days will not differ in terms of length of workday. We are powered to detect approximately 0.5 SD difference in workday length in hours (Type I error rate = 5%; Power = 81%), with a equal ratio of Experimental and Control days."||||0.024
92160679|NCT01639443|184209641|SUPERIORITY_OR_OTHER|||||||0.11|||||||t-test, 2 sided|||"We counted days containing at least one Fast-tracked participant as a Fast-tracked day for the sake of analysis at the clinic level. Our null hypothesis is that these days will not differ in terms of cost per day. We are powered to detect a 0.5 SD difference in clinic capacity (Type I error rate = 5%; Power = 81%), with a equal ratio of Experimental and Control days."||||0.11
92275687|NCT04229303|184453872|OTHER||Slope|0.81|||<|0.0001|TWO_SIDED|90.0|0.661|0.958|||General power constant model|||Statistics for Voriconazole AUC0-inf||0.958|0.661|<0.0001
92350112|NCT01944774|184604609|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.962|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.962
92350113|NCT01944774|184604610|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.95|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.950
92350114|NCT01944774|184604610|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.962|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.962
92350115|NCT01944774|184604611|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.949|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.949
92350116|NCT01944774|184604611|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.962|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.962
92350117|NCT01944774|184604612|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.438||||0.491|TWO_SIDED|95.0|0.042|4.609||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||4.609|0.042|0.491
92350118|NCT01944774|184604612|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.531||||0.619|TWO_SIDED|95.0|0.044|6.444||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||6.444|0.044|0.619
92350119|NCT01944774|184604613|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.444||||0.501|TWO_SIDED|95.0|0.042|4.708||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||4.708|0.042|0.501
92160680|NCT02806895|184209642|SUPERIORITY|||||||0.0062|||||||ANOVA|||||||0.0062
92160681|NCT02806895|184209643|SUPERIORITY|||||||0.0432|||||||ANOVA|||||||0.0432
92160682|NCT02806895|184209644|SUPERIORITY|||||||0.0414|||||||McNemar|||||||0.0414
92350120|NCT01944774|184604613|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.567||||0.656|TWO_SIDED|95.0|0.047|6.895||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||6.895|0.047|0.656
92350121|NCT01944774|184604614|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.733||||0.807|TWO_SIDED|95.0|0.061|8.832||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||8.832|0.061|0.807
92350122|NCT01944774|184604614|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.567||||0.656|TWO_SIDED|95.0|0.047|6.895||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||6.895|0.047|0.656
92160683|NCT02806895|184209645|SUPERIORITY|||||||0.0963|||||||McNemar|||||||0.0963
92160684|NCT02806895|184209646|SUPERIORITY|||||||0.1435|||||||McNemar|||||||0.1435
92160685|NCT02806895|184209647|SUPERIORITY|||||||0.1796|||||||McNemar|||||||0.1796
92160686|NCT02806895|184209648|SUPERIORITY|||||||0.1094|||||||McNemar|||||||0.1094
92350123|NCT01944774|184604615|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7||||0.779|TWO_SIDED|95.0|0.058|8.445||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||8.445|0.058|0.779
92350124|NCT01944774|184604615|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.567||||0.656|TWO_SIDED|95.0|0.047|6.895||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||6.895|0.047|0.656
92219448|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|-1.8461|STANDARD_ERROR_OF_MEAN|2.9755||0.5367|TWO_SIDED|95.0|-7.7642|4.072|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|LMS Tolerability||4.0720|-7.7642|0.5367
92350125|NCT01068912|184604645|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|||||A step-down approach was applied to the primary analysis, with the higher dose of favipiravir first tested against placebo.|Gehan-Wilcoxon|||Time required from first study drug administration to alleviation of the 6 primary influenza symptoms and fever. The primary influenza symptoms included cough, sore throat, headache, nasal congestion, body aches and pains, and fatigue. Symptoms were considered alleviated when all were decreased to ≤1 and decrease persisted unchanged ≥ 21.5 hours. Fever was considered alleviated when maintained at \< 38.0°C (age 20 to \< 65 years) or \< 37.8°C (age ≥ 65 years) ≥ 21.5 hours.||||.05
92350126|NCT03998462|184604655|SUPERIORITY||Mean Difference (Final Values)|1.85|STANDARD_ERROR_OF_MEAN|1.92||0.34|||||||Mixed Models Analysis|||||||0.34
92350127|NCT03998462|184604656|SUPERIORITY||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|1.25||0.41|||||||Mixed Models Analysis|||||||0.41
92350128|NCT03998462|184604657|SUPERIORITY||Mean Difference (Final Values)|0.398|STANDARD_ERROR_OF_MEAN|1.05||0.71|||||||Mixed Models Analysis|||||||0.71
92350129|NCT05710224|184604658|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the GMT Ratio (V181 / Butantan - DV) to be \>0.67.|GMT Ratio|0.87|||<|0.001|TWO_SIDED|95.0|0.76|0.99||p-value, GMT Ratio, and CI are calculated using t-distribution with the variance estimate from serotype specific linear model utilizing the natural log-transformed antibody titers as the response and a single term for vaccination group.|t-distribution|||DENV-1 GMT Ratio (V181/Butantan - DV)||0.99|0.76|<0.001
92350130|NCT05710224|184604658|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the GMT Ratio (V181 / Butantan - DV) to be \>0.67.|GMT Ratio|7.1|||<|0.001|TWO_SIDED|95.0|6.03|8.35||p-value, GMT ratio, and CI are calculated using the t-distribution with the variance estimate from a serotype specific linear model utilizing the natural log-transformed antibody titers as the response and a single term for vaccination group.|t-distribution|||DENV-2 GMT Ratio (V181 / Butantan - DV)||8.35|6.03|<0.001
92350131|NCT05710224|184604658|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the GMT Ratio (V181 / Butantan - DV) to be \>0.67.|GMT Ratio|0.45||||1|TWO_SIDED|95.0|0.39|0.53||p-value, GMT ratio, and CI were calculated using the t-distribution with the variance estimate from a serotype specific linear model utilizing the natural log-transformed antibody titers as the response and a single term for vaccination group.|t- distribution|||DENV-3 GMT Ratio (V181 / Butantan - DV)||0.53|0.39|1.000
92350132|NCT05710224|184604658|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the GMT Ratio (V181 / Butantan - DV) to be \>0.67.|GMT Ratio|0.35||||1|TWO_SIDED|95.0|0.29|0.42||p-value, GMT ratio, and CI were calculated using the t-distribution with the variance estimate from a serotype specific linear model utilizing the natural log-transformed antibody titers as the response and a single term for vaccination group.|t-distribution|||DENV-4 GMT Ratio (V181 / Butantan - DV)||0.42|0.29|1.000
92350133|NCT05710224|184604659|NON_INFERIORITY|The statistical criterion for non-inferiority required the lower bound of the 2-sided 95% CI for the difference in percentages (V181 - Butantan-DV) to be \>-10 percentage points|Difference in Percentage|-0.2|||<|0.001|TWO_SIDED|95.0|-1.8|1.3||p-value, estimated difference in percentage, and CI were calculated using the unstratified Miettinen \& Nurminen method|Miettinen & Nurminen method|||DENV-1 Difference in percentage (V181 - Butantan-DV)||1.3|-1.8|<0.001
92350134|NCT05710224|184604659|NON_INFERIORITY|The statistical criterion for non-inferiority required the lower bound of the 2-sided 95% CI for the difference in percentages (V181 - Butantan - DV) to be \>-10 percentage points.|Difference in Percentage|15.0|||<|0.001|TWO_SIDED|95.0|12.0|18.5||p-value, estimated difference in percentage, and CI were calculated using the unstratified Miettinen \& Nurminen method.|Miettinen & Nurminen method|||DENV-2 Difference in Percentage (V181 - Butantan-DV)||18.5|12.0|<0.001
92350135|NCT05710224|184604659|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the difference in percentages (V181 - Butantan-DV) to be \>-10 percentage points.|Difference in percentage|-3.5|||<|0.001|TWO_SIDED|95.0|-5.8|-1.6||p-value, estimated difference in percentage, and CI are calculated using the unstratified Miettinen \& Nurminen method.|Miettinen & Nurminen method|||DENV-3 Difference in Percentage (V181 - Butantan-DV)||-1.6|-5.8|<0.001
92219449|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|-2.0435|STANDARD_ERROR_OF_MEAN|2.9907||0.4963|TWO_SIDED|95.0|-7.9916|3.9047|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|LMS Tolerability||3.9047|-7.9916|0.4963
92350136|NCT05710224|184604659|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the difference in percentages (V181 - Butantan - DV) to be \>-10 percentage points.|Difference in Percentage|-3.6|||<|0.001|TWO_SIDED|95.0|-6.7|-0.8||p-value, estimated difference in percentage, and CI are calculated using the unstratified Miettinen \& Nurminen method.|Miettinen & Nurminen method|||DENV-4 Difference in Percentage (V181 - Butantan - DV)||-0.8|-6.7|<0.001
92350137|NCT05710224|184604661|OTHER|Estimated difference in percentage and CI were calculated using the unstratified Miettinen \& Nurminen method.|Difference in percentage|4.2|||||TWO_SIDED|95.0|1.4|7.2||||||Erythema: Difference in Percentage (V181-Butantan - DV)||7.2|1.4|
92350138|NCT05710224|184604661|OTHER|Estimated difference in percentage and CI are calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|-0.2|||||TWO_SIDED|95.0|-4.3|3.9||||||Pain: Difference in Percentage (V181 - Butantan - DV).||3.9|-4.3|
92350139|NCT05710224|184604661|OTHER|Estimated difference in percentage and CI are calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|0.6|||||TWO_SIDED|95.0|-1.1|2.3||||||Swelling: Difference in Percentage (V181 - Butantan - DV)||2.3|-1.1|
92350140|NCT05710224|184604662|OTHER|Estimated difference in percentage and CI were calculated using the unstratified Miettinen \& Nurminen method.|Difference in percentage|-1.1|||||TWO_SIDED|95.0|-5.5|3.3||||||Arthralgia: Difference in Percentage (V181 - Butantan - DV)||3.3|-5.5|
92160687|NCT02806895|184209649|SUPERIORITY|||||||0.4531|||||||McNemar|||||||0.4531
92160688|NCT02806895|184209650|SUPERIORITY|||||||0.3593|||||||McNemar|||||||0.3593
92160689|NCT02806895|184209651|SUPERIORITY|||||||0.6072|||||||McNemar|||||||0.6072
92160690|NCT02806895|184209652|SUPERIORITY|||||||0.7905|||||||McNemar|||||||0.7905
92160691|NCT02806895|184209653|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
92160692|NCT02806895|184209654|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
92160693|NCT02806895|184209655|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
92160694|NCT02806895|184209656|SUPERIORITY|||||||0.4116|||||||ANOVA|||||||0.4116
92160695|NCT02806895|184209657|SUPERIORITY|||||||0.1991|||||||ANOVA|||||||0.1991
92160696|NCT02806895|184209658|SUPERIORITY|||||||0.0806|||||||ANOVA|||||||0.0806
92160697|NCT02806895|184209659|SUPERIORITY|||||||0.9391|||||||ANOVA|||||||0.9391
92219450|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|-0.1974|STANDARD_ERROR_OF_MEAN|2.8888||0.9457|TWO_SIDED|95.0|-5.9429|5.5481|||Mixed Model with Repeated Measures||Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|LMS Tolerability||5.5481|-5.9429|0.9457
92350141|NCT05710224|184604662|OTHER|Estimated difference in percentage and CI are calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|-2.2|||||TWO_SIDED|95.0|-7.5|3.1||||||Fatigue: Difference in Percentage (V181 - Butantan - DV)||3.1|-7.5|
92160698|NCT02806895|184209660|SUPERIORITY|||||||0.2116|||||||ANOVA|||||||0.2116
92160699|NCT02806895|184209661|SUPERIORITY|||||||0.1604|||||||ANOVA|||||||0.1604
92160700|NCT02806895|184209662|SUPERIORITY|||||||0.2144|||||||ANOVA|||||||0.2144
92160701|NCT02806895|184209663|SUPERIORITY|||||||0.0387|||||||ANOVA|||||||0.0387
92160702|NCT02806895|184209664|SUPERIORITY|||||||0.3426|||||||ANOVA|||||||0.3426
92350142|NCT05710224|184604662|OTHER|Estimated difference in percentage and CI are calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|-3.1|||||TWO_SIDED|95.0|-8.2|1.9||||||Headache: Difference in Percentage (V181 - Butantan - DV)||1.9|-8.2|
92350143|NCT05710224|184604662|OTHER|Estimated difference in percentage and CI were calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|-7.9|||||TWO_SIDED|95.0|-13.1|-2.7||||||Myalgia: Difference in Percentage (V181 - Butantan - DV)||-2.7|-13.1|
92350144|NCT05710224|184604662|OTHER|Estimated difference in percentage and CI are calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|-5.2|||||TWO_SIDED|95.0|-8.2|-2.3||||||Pyrexia: Difference in Percentage (V181 - Butantan - DV)||-2.3|-8.2|
92350145|NCT05710224|184604662|OTHER|Estimated difference in percentage and CI were calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|6.9|||||TWO_SIDED|95.0|1.9|11.8||||||Rash: Difference in Percentage (V181 - Butantan - DV)||11.8|1.9|
92350146|NCT03010501|184604736|SUPERIORITY||||||<|0.0001||||||According to predefined comparisons, outcomes of the 80% and 120% Food Energy Density interventions were compared to the outcome of the baseline (100%) intervention.|Mixed Models Analysis|||||||< 0.0001
92350147|NCT03010501|184604737|SUPERIORITY|||||||0.1||||||According to predefined comparisons, intake by weight in the 80% intervention was compared to the 100% intervention.|Mixed Models Analysis|||||||0.10
92350148|NCT03010501|184604737|SUPERIORITY|||||||0.15||||||According to predefined comparisons, intake by weight in the 120% intervention was compared to the 100% intervention.|Mixed Models Analysis|||||||0.15
92350149|NCT03010501|184604738|SUPERIORITY||||||<|0.0001||||||According to predefined comparisons, outcomes of the 80% and 120% Food Energy Density interventions were compared to the outcome of the baseline (100%) intervention.|Mixed Models Analysis|||||||< 0.0001
92350150|NCT02347787|184604742|SUPERIORITY|||||||0.3|||||||Regression, Linear|||Determination of targeted sample size was based on detecting a between-arm difference in mean change in SF-12 Physical Component Summary of 3 points, which is the minimal clinically significant difference for this instrument. To achieve at least 80% power with a type I error rate of 5%, we required 444 total participants. To account for 25% attrition, we aimed to accrue 592 participants.||||0.30
92350151|NCT02347787|184604743|SUPERIORITY||Risk Difference (RD)|-0.2||||0.21|TWO_SIDED|95.0|-1.3|0.9|||Regression, Linear|||||0.9|-1.3|0.21
92350152|NCT02347787|184604744|SUPERIORITY||Risk Difference (RD)|-0.2||||0.21|TWO_SIDED|95.0|-0.7|0.4|||Regression, Linear|||||0.4|-0.7|0.21
92350153|NCT02347787|184604745|SUPERIORITY||Risk Difference (RD)|-0.5||||0.21|TWO_SIDED|95.0|-2.2|1.2|||Regression, Linear|||||1.2|-2.2|0.21
92350154|NCT02347787|184604746|SUPERIORITY||Risk Difference (RD)|-6.3||||0.21|TWO_SIDED|95.0|-14.3|1.8|||Regression, Linear|||||1.8|-14.3|0.21
92350155|NCT02347787|184604747|SUPERIORITY|||||||0.41|||||||Regression, Linear|||||||0.41
92350156|NCT02347787|184604748|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92350157|NCT02347787|184604749|SUPERIORITY||Odds Ratio (OR)|1.0||||0.98|TWO_SIDED|95.0|0.6|1.5|||Regression, Logistic|||||1.5|0.6|0.98
92350158|NCT02347787|184604751|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92350159|NCT02347787|184604752|SUPERIORITY|||||||0.02|||||||Regression, Logistic|||||||0.02
92350160|NCT02347787|184604753|SUPERIORITY|||||||0.04|||||||Regression, Logistic|||||||0.04
92350161|NCT02347787|184604755|SUPERIORITY|||||||0.09|||||||Regression, Linear|||||||0.09
92350162|NCT02347787|184604756|SUPERIORITY|||||||0.06|||||||Regression, Linear|||||||0.06
92350163|NCT01917773|184604757|NON_INFERIORITY_OR_EQUIVALENCE|"Reported MIs and SDs in healthy volunteers from an adult study were used to calculate sample size (1). A sample size of 13 patients was deemed adequate to detect a 25% change in MI with 80% power.~Reference: Rao SS, Kavelock R, Beaty J, Ackerson K, et al. Effects of fat and carbohydrate meals on colonic motor response. Gut. Feb 2000;46(2):205-211."||||||0.087|TWO_SIDED||||||Wilcoxon signed rank test|||The Wilcoxon signed rank test was used to analyze change in MI at 15 minutes. Values were considered to be significant if P \<0.05.||||0.087
92350164|NCT01917773|184604757|SUPERIORITY_OR_OTHER|||||||0.552|TWO_SIDED||||||Wilcoxon signed rank test|||The Wilcoxon signed rank test was used to analyze change in MI at 30 minutes. Values were considered to be significant if P \<0.05.||||0.552
92350165|NCT01917773|184604757|SUPERIORITY_OR_OTHER|||||||0.807|TWO_SIDED||||||Wilcoxon signed rank test|||The Wilcoxon signed rank test was used to analyze change in MI at 45 minutes. Values were considered to be significant if P \<0.05.||||0.807
92350166|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6346|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 2 time point. p-values \< 0.05 were considered statistically significant.||||0.6346
92350167|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2757|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 4 time point.||||0.2757
92400414|NCT00528957|184692356|NON_INFERIORITY_OR_EQUIVALENCE|In the randomized phase, it was assumed that the respective proportions of participants maintaining HIV-1 RNA \< 400 copies/mL was 92% for participants switching to tenofovir DF and 90% for participants continuing stavudine or zidovudine, as estimated from previous GSI studies. The equivalence limit was set at -15% for the lower boundary of a two-sided 95% confidence interval (CI) on the difference in proportions of participants maintaining HIV-1 RNA \< 400 copies/mL at Week 48.|Difference in percentages between groups|-8.5|||||TWO_SIDED|95.0|-21.5|4.5|||Normal approximation|The difference between the two proportions and its CI were based on normal approximation methods.|Difference is for tenofovir DF minus stavudine or zidovudine (randomized phase)|"The statistical hypotheses for the primary endpoint was as follows:~* Null Hypothesis: tenofovir DF group is more than 15% worse than the stavudine or zidovudine group with respect to the proportion of participants maintaining HIV-1 RNA concentrations \< 400 copies/mL at Week 48.~* Alternate Hypothesis: tenofovir DF group is no more than 15% worse than the stavudine or zidovudine group with respect to the proportion of participants maintaining HIV-1 RNA \< 400 copies/mL at Week 48."||4.5|-21.5|
92350168|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1321|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 6 time point.||||0.1321
92350169|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5543|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Days 19-20 time point.||||0.5543
92350170|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.394|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 23 time point.||||0.3940
92350171|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7891|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 24 time point.||||0.7891
92350172|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4829|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 25 time point.||||0.4829
92350173|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4526|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 27 time point.||||0.4526
92350174|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2485|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 28 time point.||||0.2485
92350175|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6252|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 2 time point.||||0.6252
92350176|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4003|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 4 time point.||||0.4003
92350177|NCT00544882|184604769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8841|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 6 time point.||||0.8841
92350178|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8892|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 2 time point. p-values \< 0.05 were considered statistically significant.||||0.8892
92350179|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7678|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 4 time point.||||0.7678
92350180|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5782|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 6 time point.||||0.5782
92350181|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8083|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Days 19-20 time point.||||0.8083
92160703|NCT02806895|184209665|SUPERIORITY|||||||0.1531|||||||ANOVA|||||||0.1531
92350182|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 23 time point.||||1.0000
92350183|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4122|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 24 time point.||||0.4122
92160704|NCT02806895|184209666|SUPERIORITY|||||||0.5603|||||||ANOVA|||||||0.5603
92160705|NCT02806895|184209667|SUPERIORITY|||||||0.4851|||||||ANOVA|||||||0.4851
92350184|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6675|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 25 time point.||||0.6675
92350185|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8445|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 27 time point.||||0.8445
92350186|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3772|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 28 time point.||||0.3772
92350187|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1918|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 2 time point.||||0.1918
92350188|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6675|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 4 time point.||||0.6675
92160706|NCT02806895|184209668|SUPERIORITY|||||||0.0241|||||||ANOVA|||||||0.0241
92160707|NCT00601965|184209684|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Log rank test = 32.67, df = 3||||||<.001
92160708|NCT00601965|184209685|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|Beta = -0.48, 95% CI = -0.84 to -0.11||||||0.01
92160709|NCT02387749|184209700|SUPERIORITY|||||||0.005|||||||Chi-squared, Corrected|||||||0.005
92160710|NCT02929069|184209710|SUPERIORITY||Risk Ratio (RR)|0.88||||0.52|TWO_SIDED|95.0|0.52|1.25|||Regression, Logistic|||||1.25|.52|0.52
92160711|NCT00836810|184209849|SUPERIORITY||||||<|0.001||||||A priory test for statistical significance was P\<0.05|t-test, 2 sided|||||||<0.001
92350189|NCT00544882|184604771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9226|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 6 time point.||||0.9226
92350190|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0979|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 2 time point. p-values \< 0.05 were considered statistically significant.||||0.0979
92350191|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0629|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 4 time point.||||0.0629
92350192|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8464|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 6 time point.||||0.8464
92350193|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6316|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Days 19-20 time point.||||0.6316
92219451|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|-4.8837|STANDARD_ERROR_OF_MEAN|4.0222||0.2281|TWO_SIDED|95.0|-12.8837|3.1163|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|LMS Description||3.1163|-12.8837|0.2281
92350194|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 23 time point.||||0.3000
92350195|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0955|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 24 time point.||||0.0955
92350196|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1523|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 25 time point.||||0.1523
92350197|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2809|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 27 time point.||||0.2809
92350198|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8829|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 28 time point.||||0.8829
92350199|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9262|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 2 time point.||||0.9262
92350200|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7811|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 -Day 4 time point.||||0.7811
92350201|NCT00544882|184604772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3703|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 6 time point.||||0.3703
92350202|NCT00308685|184604778|OTHER||Difference in adjusted means|5.163||||0.0002|TWO_SIDED|95.0|2.478|7.847||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using an analysis of covariance (ANCOVA) with baseline FEV1 as covariate and fixed effects of pooled center and treatment group.||7.847|2.478|0.0002
92350203|NCT01121575|184604810|SUPERIORITY_OR_OTHER||Ratio of adjust geometric mean|69.25|||||TWO_SIDED|90.0|54.22|88.44|||||Ratio of crizotinib + dacomitinib / crizotinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for crizotinib AUClast for participants who had both Day -1 and C2D1 data. Result for the analysis of AUClast was based on data from 11 participants. No statistical analysis was performed for PF-06260182.||88.44|54.22|
92350204|NCT01121575|184604811|SUPERIORITY_OR_OTHER||Ratio of adjust geometric mean|78.84|||||TWO_SIDED|90.0|58.9|105.54|||||Ratio of crizotinib + dacomitinib / crizotinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for crizotinib AUC10 for participants who had both Day -1 and C2D1 data. Result for the analysis of AUC10 was based on data from 6 participants. No statistical analysis was performed for PF-06260182.||105.54|58.90|
92160712|NCT00836810|184209849|SUPERIORITY||||||<|0.001||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||<0.001
92350205|NCT01121575|184604813|SUPERIORITY_OR_OTHER||Ration of adjust geometric mean|70.6|||||TWO_SIDED|90.0|54.71|91.12|||||Ratio of crizotinib + dacomitinib / crizotinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for crizotinib Cmax for participants who had both Day -1 and C2D1 data. Result for the analysis of Cmax was based on data from 11 participants. No statistical analysis was performed for PF-06260182.||91.12|54.71|
92350206|NCT01121575|184604816|SUPERIORITY_OR_OTHER||Ratio of adjust geometric mean|117.81|||||TWO_SIDED|90.0|64.97|213.61|||||Ratio of crizotinib + dacomitinib / dacomitinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for dacomitinib AUClast for participants who had both Day -1 and C2D1 data. Result for the analysis of AUClast was based on data from 3 participants. No statistical analysis was performed for PF-05199265.||213.61|64.97|
92350207|NCT01121575|184604817|SUPERIORITY_OR_OTHER||Ratio of adjust geometric mean|121.9|||||TWO_SIDED|90.0|70.2|211.66|||||Ratio of crizotinib + dacomitinib / dacomitinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for dacomitinib AUC24 for participants who had both Day -1 and C2D1 data. Result for the analysis of AUC24 was based on data from 3 participants. No statistical analysis was performed for PF-05199265.||211.66|70.20|
92350208|NCT01121575|184604819|SUPERIORITY_OR_OTHER||Ratio of adjust geometric mean|130.57|||||TWO_SIDED|90.0|82.46|206.73|||||Ratio of crizotinib + dacomitinib / dacomitinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for dacomitinib Cmax for participants who had both Day -1 and C2D1 data. Result for the analysis of Cmax was based on data from 3 participants. No statistical analysis was performed for PF-05199265.||206.73|82.46|
92350209|NCT02583269|184604827|OTHER|||||||0.76|||||||ANOVA|||Overall FACT G score p value baseline to week 8||||0.76
92350210|NCT02583269|184604827|OTHER|||||||0.25|||||||ANOVA|||Fact G functional well being p value baseline to week 8||||0.25
92350211|NCT02583269|184604827|OTHER|||||||0.18|||||||ANOVA|||FACT G emotional well being p value baseline to week 8||||0.18
92350212|NCT02583269|184604827|OTHER|||||||0.87|||||||ANOVA|||Fact G physical well being p value baseline to week 8||||0.87
92350213|NCT02583269|184604827|OTHER|||||||0.22|||||||ANOVA|||Fact G social well being p value baseline to week 8||||0.22
92350214|NCT02583269|184604835|OTHER|||||||0.67|||||||ANOVA|||||||0.67
92350215|NCT02583269|184604836|OTHER|||||||0.119|||||||ANOVA|||Baseline v. 4 weeks log IL-8||||0.119
92350216|NCT02583269|184604836|OTHER|||||||0.414|||||||ANOVA|||Baseline v. 8 weeks log IL-8||||0.414
92350217|NCT02583269|184604837|OTHER|||||||0.851|||||||ANOVA|||Baseline v. 4 weeks p value log VEGF||||0.851
92350218|NCT02583269|184604837|OTHER|||||||0.688|||||||ANOVA|||Baseline vs. 8 weeks p value log VEGF||||0.688
92350219|NCT03244189|184604840|OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.77|1.2||||||||1.20|0.77|
92350220|NCT03244189|184604841|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.72|1.37||||||||1.37|0.72|
92350221|NCT03244189|184604842|OTHER||Odds Ratio (OR)|1.44|||||TWO_SIDED|95.0|0.91|2.29||||||||2.29|0.91|
92350222|NCT02743494|184604931|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0003|TWO_SIDED|96.4|0.56|0.86|||Stratified log-rank test||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab over Placebo.|||0.86|0.56|0.0003
92219452|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|-3.9754|STANDARD_ERROR_OF_MEAN|4.0489||0.329|TWO_SIDED|95.0|-12.0283|4.0775|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|LMS Description||4.0775|-12.0283|0.3290
92350223|NCT02743494|184604932|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1064|TWO_SIDED|95.0|0.07|1.03|||Log Rank||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab over Placebo.|||1.03|0.070|0.1064
92350224|NCT04167670|184604951|NON_INFERIORITY|P-value based on a Farrington and Manning test with a noninferiority margin of 10%.|Percentage Difference|-0.3||||0.0037|TWO_SIDED|95.0|-7.39|6.76|||Farrington and Manning test||The confidence interval of the difference in H pylori eradication rates between vonoprazan dual therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|Noninferiority of vonoprazan dual therapy to lansoprazole triple therapy.||6.76|-7.39|0.0037
92350225|NCT04167670|184604951|NON_INFERIORITY|P-value based on a Farrington and Manning test with a noninferiority margin of 10%.|Percentage Difference|5.9|||<|0.0001|TWO_SIDED|95.0|-0.75|12.62|||Farrington and Manning test||The confidence interval of the difference in H pylori eradication rates between vonoprazan triple therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|Noninferiority of vonoprazan triple therapy to lansoprazole triple therapy.||12.62|-0.75|<0.0001
92350226|NCT04167670|184604952|SUPERIORITY|P-value based on a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|Percentage Difference|37.7|||<|0.0001|TWO_SIDED|95.0|20.54|52.56|||Farrington and Manning test||The confidence interval of the difference in H pylori eradication rates between vonoprazan dual therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|Superiority of vonoprazan dual therapy to lansoprazole triple therapy.||52.56|20.54|<0.0001
92350227|NCT04167670|184604952|SUPERIORITY|P-value based on a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|Percentage Difference|33.8|||<|0.0001|TWO_SIDED|95.0|17.74|48.12|||Farrington and Manning test||The confidence interval of the difference in H pylori eradication rates between vonoprazan triple therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|Superiority of vonoprazan triple therapy to lansoprazole triple therapy.||48.12|17.74|<0.0001
92350228|NCT04167670|184604953|SUPERIORITY|P-value based on a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|Percentage Difference|8.7||||0.0063|TWO_SIDED|95.0|1.86|15.44|||Farrington and Manning test||The confidence interval of the difference in H pylori eradication rates between vonoprazan dual therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|Superiority of vonoprazan dual therapy to lansoprazole triple therapy.||15.44|1.86|0.0063
92350229|NCT04167670|184604953|SUPERIORITY|P-value based on a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|Percentage Difference|12.3||||0.0001|TWO_SIDED|95.0|5.72|18.81|||Farrington and Manning test|||Superiority of vonoprazan triple therapy to lansoprazole triple therapy.|The confidence interval of the difference in H pylori eradication rates between vonoprazan triple therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|18.81|5.72|0.0001
92350230|NCT05399485|184604954|SUPERIORITY||[Difference in Least square (LS) Mean]|-1.1||||0.0021|TWO_SIDED|95.0|-1.73|-0.38|||Mixed Models Analysis|||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as a covariate, treatment group, randomization stratum (stable prophylactic migraine medication use throughout randomization), month, and month-by treatment group interaction as fixed effects.||-0.38|-1.73|0.0021
92350231|NCT05399485|184604955|SUPERIORITY||Difference in Percentage|7.3||||0.0989|TWO_SIDED|95.0|-1.4|15.9||P-value \>0.05; therefore, all secondary outcome measures listed after this outcome measure in the hierarchy were not tested.|Mantel Haenszel|||The percentages of participants with reductions were compared between treatment groups using Mantel-Haenszel risk estimation with stratification by randomization stratum (stable prophylactic migraine medication use throughout randomization; yes, no).||15.9|-1.4|0.0989
92350232|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Astellas Ratio X 100|115.78|||||TWO_SIDED|90.0|107.04|125.22|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||125.22|107.04|
92350233|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr. Reddys/Astellas Ratio|103.7|||||TWO_SIDED|90.0|95.91|112.12|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||112.12|95.91|
92350234|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Astellas Ratio X 100|99.79|||||TWO_SIDED|90.0|92.3|107.89|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||107.89|92.30|
92350235|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Astellas Ratio|103.65|||||TWO_SIDED|90.0|95.83|112.11|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 and Cmax parameters||112.11|95.83|
92350236|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Sandoz/Astellas Ratio X100|101.7|||||TWO_SIDED|90.0|94.03|110.0|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 and parameters||110.0|94.03|
92350237|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Dr Reddys Ratio X 100|111.64|||||TWO_SIDED|90.0|103.26|120.7|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||120.70|103.26|
92160713|NCT00836810|184209849|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||||||A priori statistical significance set as P\<0.05|t-test, 2 sided|||||||<0.01
92350238|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Mylan Ratio X 100|116.02|||||TWO_SIDED|90.0|107.27|125.49|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||125.49|107.27|
92350239|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Panacea Ratio X 100|111.7|||||TWO_SIDED|90.0|103.27|120.81|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||120.81|103.27|
92350240|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Sandoz Ratio X 100|113.84|||||TWO_SIDED|90.0|105.3|123.08|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||123.08|105.30|
92350241|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Mylan Ratio X 100|103.92|||||TWO_SIDED|90.0|96.08|112.4|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||112.40|96.08|
92350242|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Panacea Ratio x 100|100.05|||||TWO_SIDED|90.0|92.5|108.21|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||108.21|92.50|
92350243|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Sandoz Ratio X 100|101.97|||||TWO_SIDED|90.0|94.28|110.29|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||110.29|94.28|
92350244|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Panacea Ratio X 100|96.28|||||TWO_SIDED|90.0|89.05|104.09|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||104.09|89.05|
92350245|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Sandoz Ratio X 100|98.12|||||TWO_SIDED|90.0|90.72|106.12|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||106.12|90.72|
92350246|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Sandoz Ratio X 100|101.92|||||TWO_SIDED|90.0|94.27|110.19|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||110.19|94.27|
92350247|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Astellas Ratio X 100|109.75|||||TWO_SIDED|90.0|100.42|119.25|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||119.25|100.42|
92350248|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Astellas Ratio X 100|99.76|||||TWO_SIDED|90.0|91.28|109.03|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||109.03|91.28|
92350249|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Astellas Ratio X 100|101.63|||||TWO_SIDED|90.0|92.99|111.06|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||111.06|92.99|
92350250|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Astellas Ratio X 100|106.2|||||TWO_SIDED|90.0|97.17|116.06|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||116.06|97.17|
92350251|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Sandoz/Astellas Ratio X 100|104.09|||||TWO_SIDED|90.0|95.25|113.75|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||113.75|95.25|
92400415|NCT00528957|184692357|NON_INFERIORITY|In the randomized phase, it was assumed that the respective proportions of participants maintaining HIV-1 RNA \< 400 copies/mL was 92% for subjects switching to tenofovir DF and 90% for subjects continuing stavudine or zidovudine, as estimated from previous GSI studies. The equivalence limit was set at -15% for the lower boundary of a two-sided 95% confidence interval (CI) on the difference in proportions of participants maintaining HIV-1 RNA \< 400 copies/mL at Week 48.|Difference in percentages between groups|-0.9|||||TWO_SIDED|95.0|-13.7|11.8|||||The difference between the two proportions and its CI were based on normal approximation methods.|||11.8|-13.7|
92350252|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Dr Reddy Ratio X 100|110.02|||||TWO_SIDED|90.0|100.66|120.24|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||120.24|100.66|
92350253|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Mylan Ratio X 100|108.0|||||TWO_SIDED|90.0|98.82|118.02|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||118.02|98.82|
92400416|NCT00083889|184692409|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5268|||<|0.0001|TWO_SIDED|95.0|0.4316|0.643||p-value from 2-sided, unstratified test.|Log Rank||Assuming proportional hazards, a hazard ratio les than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in favor of IFN-a.|Unstratified analysis: Hazard Ratio (SU011248 vs IFN-α). Progression-free survival (PFS) was assessed in each treatment arm using the Kaplan-Meier method.||0.6430|0.4316|<0.0001
92160714|NCT00836810|184209850|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|A priori statistical significance set at P\<0.05||||||<0.001
92160715|NCT00836810|184209850|SUPERIORITY||||||<|0.01||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||<0.01
92350254|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Panacea Ratio X 100|103.34|||||TWO_SIDED|90.0|94.56|112.94|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||112.94|94.56|
92350255|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Sandoz Ratio X 100|105.44|||||TWO_SIDED|90.0|96.48|115.23|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||115.23|96.48|
92350256|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Mylan Ration X 100|98.16|||||TWO_SIDED|90.0|89.82|107.28|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||107.28|89.82|
92350257|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr. Reddys/Panacea Ratio X 100|93.93|||||TWO_SIDED|90.0|85.96|102.65|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||102.65|85.96|
92350258|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Sandoz Ratio X 100|95.84|||||TWO_SIDED|90.0|87.69|104.74|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||104.74|87.69|
92350259|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Panacea Ratio X 100|95.69|||||TWO_SIDED|90.0|87.56|104.58|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||104.58|87.56|
92350260|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Sandoz Ratio X 100|97.63|||||TWO_SIDED|90.0|89.34|107.71|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||107.71|89.34|
92350261|NCT02014103|184604999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Pancea/Sandoz Ratio X 100|102.03|||||TWO_SIDED|90.0|93.36|111.51|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||111.51|93.36|
92350262|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Astellas Ratio X 100|141.91|||||TWO_SIDED|90.0|125.73|160.16|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||160.16|125.73|
92350263|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Astellas Ratio X 100|104.13|||||TWO_SIDED|90.0|92.33|117.45|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||117.45|92.33|
92350264|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Astellas Ratio X 100|116.02|||||TWO_SIDED|90.0|102.87|130.87|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||130.87|102.87|
92350265|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Astellas Ratio X 100|108.92|||||TWO_SIDED|90.0|96.51|122.94|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||122.94|96.51|
92400417|NCT00083889|184692409|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5136|||<|1e-05|TWO_SIDED|95.0|0.4196|0.6288||p-value is from 2-sided, stratified test. Stratification factors were: Lactic Dehydrogenase (LDH) \> or \<= 1.5 x upper limit of normal, Eastern Cooperative Oncology Group (ECOG) performance status 0 or 1, and absence or presence of prior nephrectomy.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248: a hazard ratio greater than 1 indicates a reduction in favor of IFN-a.|Stratified analysis: Hazard Ratio (SU011248 vs IFN-a).||0.6288|0.4196|<.00001
92400418|NCT00083889|184692410|SUPERIORITY_OR_OTHER||treatment difference|30.93|||<|0.001|TWO_SIDED|95.0|25.31|36.56|||Chi-squared||95% confidence interval was calculated based on a normal distribution.|||36.56|25.31|<0.001
92400419|NCT00083889|184692411|SUPERIORITY_OR_OTHER||treatment difference|33.66|||<|0.001|TWO_SIDED|95.0|27.62|39.69|||Chi-squared||95% confidence interval was calculated based on a normal distribution.|||39.69|27.62|<0.001
92160716|NCT00836810|184209850|SUPERIORITY||||||<|0.01||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||<0.01
92275688|NCT04229303|184453872|OTHER||Slope|1.12||||0.1278|TWO_SIDED|90.0|0.99|1.245|||General power linear model|||Statistics for Voriconazole AUC0-inf||1.245|0.990|0.1278
92350266|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Sandoz/Astellas Ratio X 100|94.06|||||TWO_SIDED|90.0|83.33|106.16|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||106.16|83.33|
92350267|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Dr. Reddys Ratio X 100|136.27|||||TWO_SIDED|90.0|120.82|153.7|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||153.70|120.82|
92275689|NCT04229303|184453872|OTHER||Geometric mean difference|9.43|||<|0.0001|TWO_SIDED|90.0|6.834|13.012|||ANOVA|||Statistics for Voriconazole AUC0-inf, 40mg vs 5mg||13.012|6.834|<0.0001
92219453|NCT06608368|184339612|SUPERIORITY||Least Square Mean Difference|0.9083|STANDARD_ERROR_OF_MEAN|3.9297||0.8178|TWO_SIDED|95.0|-6.9076|8.7243|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|LMS Description||8.7243|-6.9076|0.8178
92219454|NCT06608368|184339613|SUPERIORITY||Least Square Mean Difference|-0.6315|STANDARD_ERROR_OF_MEAN|0.351||0.0756|TWO_SIDED|95.0|-1.3296|0.06658|||Mixed Model with Repeated Measures||Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|||0.06658|-1.3296|0.0756
92219455|NCT06608368|184339613|SUPERIORITY||Least Square Mean Difference|-0.6447|STANDARD_ERROR_OF_MEAN|0.3589||0.0761|TWO_SIDED|95.0|-1.3586|0.06924|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|||0.06924|-1.3586|0.0761
92350268|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Mylan Ratio X 100|122.31|||||TWO_SIDED|90.0|108.37|138.04|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||138.04|108.37|
92350269|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Panacea Ratio X 100|130.28|||||TWO_SIDED|90.0|115.43|147.04|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||147.04|115.43|
92350270|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Sandoz Ratio X 100|150.88|||||TWO_SIDED|90.0|133.77|170.18|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||170.18|133.77|
92350271|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr. Reddys/Mylan Ratio X 100|89.75|||||TWO_SIDED|90.0|79.52|101.3|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||101.30|79.52|
92350272|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Panacea Ratio X 100|95.6|||||TWO_SIDED|90.0|84.71|107.9|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||107.90|84.71|
92350273|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Sandoz Ratio X 100|110.72|||||TWO_SIDED|90.0|98.1|124.96|||||Bioequivalence is established when 90% confidence interval falls within 80-125|||124.96|98.10|
92350274|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Panacea Ratio X 100|106.52|||||TWO_SIDED|90.0|94.44|120.15|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||120.15|94.44|
92350275|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Sandoz Ratio X 100|123.36|||||TWO_SIDED|90.0|109.3|139.23|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||139.23|109.30|
92350276|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Sandoz Ratio X 100|115.81|||||TWO_SIDED|90.0|102.68|130.62|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||130.62|102.68|
92219456|NCT06608368|184339613|SUPERIORITY||Least Square Mean Difference|-0.01316|STANDARD_ERROR_OF_MEAN|0.3469||0.9698|TWO_SIDED|95.0|-0.7031|0.6767|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|||0.6767|-0.7031|0.9698
92350277|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Astellas Ratio X 100|112.96|||||TWO_SIDED|90.0|100.32|127.2|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||127.20|100.32|
92350278|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Astellas Ratio X 100|101.75|||||TWO_SIDED|90.0|90.37|114.57|||||Bioequivalence is established when 90% confidence interval falls within 80-125|||114.57|90.37|
92350279|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Astella Ratio X 100|113.52|||||TWO_SIDED|90.0|100.82|127.83|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||127.83|100.82|
92350280|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Astellas Ratio X 100|99.16|||||TWO_SIDED|90.0|88.06|111.64|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||111.64|88.06|
92350281|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Sandoz/Astellas Ratio X 100|95.57|||||TWO_SIDED|90.0|84.89|107.61|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||107.61|84.89|
92219457|NCT06608368|184339616|SUPERIORITY||Least Square Mean Difference|-6.0228|STANDARD_ERROR_OF_MEAN|5.9481||0.3142|TWO_SIDED|95.0|-17.8534|5.8078|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|||5.8078|-17.8534|0.3142
92219458|NCT06608368|184339616|SUPERIORITY||Least Square Mean Difference|-9.3856|STANDARD_ERROR_OF_MEAN|5.9568||0.1189|TWO_SIDED|95.0|-21.2335|2.4624|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|||2.4624|-21.2335|0.1189
92350282|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Dr Reddy Ratio X 100|111.01|||||TWO_SIDED|90.0|98.59|125.0|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||125.00|98.59|
92350283|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Mylan Ratio X 100|99.51|||||TWO_SIDED|90.0|88.38|112.04|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||112.04|88.38|
92350284|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Panacea Ratio X 100|113.93|||||TWO_SIDED|90.0|101.18|128.28|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||128.28|101.18|
92350285|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Sandoz Ratio X 100|118.19|||||TWO_SIDED|90.0|104.96|133.08|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||133.08|104.96|
92350286|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Mylan|89.64|||||TWO_SIDED|90.0|79.61|100.93|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||100.93|79.61|
92350287|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr. Reddys/Panacea Ratio X 100|102.63|||||TWO_SIDED|90.0|91.15|115.55|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||115.55|91.15|
92350288|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr. Reddys/Sandoz Ratio X 100|106.46|||||TWO_SIDED|90.0|94.55|119.88|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||119.88|94.55|
92350289|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Panacea Ratio X 100|114.49|||||TWO_SIDED|90.0|110.68|128.92|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||128.92|110.68|
92350290|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Sandoz Ratio X 100|118.77|||||TWO_SIDED|90.0|105.48|133.74|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||133.74|105.48|
92350291|NCT02014103|184605000|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Sandoz Ratio X 100|103.74|||||TWO_SIDED|90.0|92.13|116.81|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||116.81|92.13|
92400420|NCT00083889|184692412|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8209||||0.051|TWO_SIDED|95.0|0.673|1.0013||p-value is from 2-sided, unstratified tests.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a|Unstratified analysis: Hazard Ratio (SU011248 vs IFN-α).||1.0013|0.6730|0.0510
92400421|NCT00083889|184692412|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8209||||0.0128|TWO_SIDED|95.0|0.673|1.0013||p-value is from 2-sided, unstratified tests.|Wilcoxon (Mann-Whitney)||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a.|Unstratified analysis: Hazard Ratio (SU011248 vs IFN-α).||1.0013|0.6730|0.0128
92350292|NCT03712852|184605042|SUPERIORITY||Mean Difference (Net)|0.92|||||TWO_SIDED|95.0|0.68|1.17|||||||Multiple univariate analyses for each variable were performed. GT was analyzed by non-parametric Cliff's delta tests to assess group dominance and by a Heteroscedastic ANOVA with Games-Howell posthoc tests. A sensitivities analysis with different types of robust analyses (M-estimators and High Breakdown LTS Estimators, both with Huber's, Hampel's and Biweight's loss functions) was conducted to get an effect-size estimate by means of Bootstrap Bias Corrected and accelerated (BCa) 95% Confidence Intervals.|1.17|0.68|
92350293|NCT03712852|184605043|SUPERIORITY||Median Difference (Final Values)|3.28|||||TWO_SIDED|95.0|3.0|3.55|||||||This outcome was analyzed by posthoc Nemenyi's tests|3.55|3.00|
92350294|NCT03712852|184605044|SUPERIORITY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|95.0|-0.46|2.46|||||||This outcome was analyzed by posthoc Nemenyi's tests|2.46|-0.46|
92350295|NCT03712852|184605045|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.4|0.69|||||||This outcome was analyzed by posthoc Nemenyi's tests|0.69|-0.40|
92350296|NCT03712852|184605046|SUPERIORITY||Mean Difference (Final Values)|3.38|||||TWO_SIDED|95.0|2.96|3.81|||||||CAL was analyzed with both Nemenyi's tests and a Moderated Regression (Treatment by Baseline values)|3.81|2.96|
92350297|NCT04307394|184605064|SUPERIORITY|||||||0.957|||||||t-test, 2 sided|||||||0.957
92160717|NCT00836810|184209851|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.023
92160718|NCT00836810|184209851|SUPERIORITY|||||||0.0906||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.0906
92160719|NCT00836810|184209851|SUPERIORITY|||||||0.044||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.044
92160720|NCT00836810|184209852|SUPERIORITY|||||||0.007||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.007
92160721|NCT00836810|184209852|SUPERIORITY|||||||0.002||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.002
92160722|NCT00836810|184209852|SUPERIORITY|||||||0.57||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.57
92219459|NCT06608368|184339616|SUPERIORITY||Least Square Mean Difference|-3.3627|STANDARD_ERROR_OF_MEAN|5.7636||0.5612|TWO_SIDED|95.0|-14.8264|8.1009|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|||8.1009|-14.8264|0.5612
92219460|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-0.9595|STANDARD_ERROR_OF_MEAN|4.7895||0.8417|TWO_SIDED|95.0|-10.4856|8.5665|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|LMS Intensity||8.5665|-10.4856|0.8417
92219461|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-3.5821|STANDARD_ERROR_OF_MEAN|4.7059||0.4487|TWO_SIDED|95.0|-12.942|5.7777|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|LMS Intensity||5.7777|-12.9420|0.4487
92400422|NCT00083889|184692412|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8179||||0.049|TWO_SIDED|95.0|0.6692|0.9995||p-value is from 2-sided, stratified tests. Stratification factors were: Lactic Dehydrogenase (LDH) \> or \<= 1.5 x upper limit of normal, Eastern Cooperative Oncology Group (ECOG) performance status 0 or 1, and absence or presence of prior nephrectomy.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a.|Stratified analysis: Hazard Ratio (SU011248 vs IFN-α).||0.9995|0.6692|0.0490
92400423|NCT00083889|184692413|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5332|||<|0.0001|TWO_SIDED|95.0|0.4345|0.6544||p-value is from 2-sided, unstratified test.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a|Unstratified Analysis: Hazard Ratio (SU011248 vs IFN-a)||0.6544|0.4345|<0.0001
92400424|NCT00083889|184692413|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.516|||<|1e-05|TWO_SIDED|95.0|0.4191|0.6352||p-value is from 2-sided, stratified test. Stratification factors are: Lactic Dehydrogenase (LDH) \> or \<= 1.5 x upper limit of normal, Eastern Cooperative Oncology Group (ECOG) performance status 0 or 1, and absence or presence of prior nephrectomy.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a.|Stratified Analysis: Hazard Ratio (SU011248 vs IFN-a)||0.6352|0.4191|<.00001
92400425|NCT00083889|184692414|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5454|||<|0.0001|TWO_SIDED|95.0|0.4558|0.6526||p-value is from 2-sided, unstratified test.|Log Rank||Assuming proportional hazards, a hazard ratio \< 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio \> 1 indicates a reduction in hazard rate in favor of IFN-a.|Unstratified Analysis: Hazard Ratio (SU011248 vs IFN-α)||0.6526|0.4558|<0.0001
92400426|NCT00083889|184692414|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5417|||<|1e-05|TWO_SIDED|95.0|0.4519|0.6492||p-value is from 2-sided, stratified test. Stratification factors were: Lactic Dehydrogenase (LDH) \> or \<= 1.5 x upper limit of normal, Eastern Cooperative Oncology Group (ECOG) performance status 0 or 1, and absence or presence of prior nephrectomy.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a.|Stratified Analysis: Hazard Ratio (SU011248 vs IFN-α)||0.6492|0.4519|<.00001
92219462|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-2.6226|STANDARD_ERROR_OF_MEAN|4.5624||0.567|TWO_SIDED|95.0|-11.697|6.4517|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|LMS Intensity||6.4517|-11.6970|0.5670
92219463|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-2.4045|STANDARD_ERROR_OF_MEAN|3.9029||0.5395|TWO_SIDED|95.0|-10.1672|5.3583|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|LMS Duration||5.3583|-10.1672|0.5395
92219464|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-4.1471|STANDARD_ERROR_OF_MEAN|3.8479||0.2843|TWO_SIDED|95.0|-11.8005|3.5062|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|LMS Duration||3.5062|-11.8005|0.2843
92400427|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.913|||<|0.0001|TWO_SIDED|95.0|1.376|2.45|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index-Disease Related Symptoms (FKSI-DRS) baseline score (intercept and time since randomization are included as random effects).||2.450|1.376|<.0001
92160723|NCT00836810|184209853|SUPERIORITY|||||||0.022||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.022
92275690|NCT04229303|184453872|OTHER||Slope|1.98|||<|0.0001|TWO_SIDED|90.0|1.86|2.106|||General power constant model|||Statistics for N-oxide Voriconazole AUC0-inf||2.106|1.860|<0.0001
92160724|NCT00836810|184209853|SUPERIORITY|||||||0.002||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.002
92160725|NCT00836810|184209853|SUPERIORITY|||||||0.51||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.51
92160726|NCT00836810|184209854|SUPERIORITY|||||||0.003||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||.003
92160727|NCT00836810|184209854|SUPERIORITY|||||||0.001||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||.001
92160728|NCT00836810|184209854|SUPERIORITY|||||||0.88||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.88
92160729|NCT02014558|184209878|OTHER||Slope|0.99|||||TWO_SIDED|90.0|0.788|1.19||||||Dose Proportionality (Single Dose / Day -2) was evaluated using the power model.||1.19|0.788|
92160730|NCT02014558|184209878|OTHER||Slope|1.22|||||TWO_SIDED|90.0|1.0|1.43||||||Dose Proportionality (Multiple Dose / Cycle 1 Day 15) was evaluated using the power model.||1.43|1.00|
92160731|NCT02014558|184209879|OTHER||Slope|0.808|||||TWO_SIDED|90.0|0.629|0.988||||||Dose Proportionality (Single Dose / Day -2) was evaluated using the power model.||0.988|0.629|
92160732|NCT02014558|184209879|OTHER||Slope|1.21|||||TWO_SIDED|90.0|1.02|1.41||||||Dose Proportionality (Multiple Dose / Cycle 1 Day 15) was evaluated using the power model.||1.41|1.02|
92219465|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-1.7427|STANDARD_ERROR_OF_MEAN|3.8124||0.6488|TWO_SIDED|95.0|-9.3255|5.8401|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|LMS Duration||5.8401|-9.3255|0.6488
92350298|NCT00447278|184605090|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.36|||<|0.001|TWO_SIDED|95.0|-6.47|-2.25||P-value for Change from Baseline at 6 Months. P-value is not adjusted and the threshold is 0.05.|Mixed Models Analysis|Mixed model repeated measure analysis with terms for corresponding baseline T-score, treatment, country, visit, and treatment-by-visit interaction.|Least Squares Mean Difference = Atomoxetine minus OEST.|||-2.25|-6.47|<0.001
92350299|NCT00447278|184605090|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.6|||<|0.001|TWO_SIDED|95.0|-6.56|-2.63||P-value for Change from Baseline: 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-2.63|-6.56|<0.001
92350300|NCT00447278|184605091|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.1||||0.002|TWO_SIDED|95.0|-5.08|-1.13||P-value for Change from Baseline: 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-1.13|-5.08|0.002
92350301|NCT00447278|184605092|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.04||||0.002|TWO_SIDED|95.0|-4.92|-1.15||P-value for Comfort Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-1.15|-4.92|0.002
92350302|NCT00447278|184605092|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.1||||0.031|TWO_SIDED|95.0|-4.01|-0.2||P-value for Comfort Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.20|-4.01|0.031
92350303|NCT00447278|184605092|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.55||||0.629|TWO_SIDED|95.0|-1.68|2.77||P-value for Resilience Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.77|-1.68|0.629
92350304|NCT00447278|184605092|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.96||||0.421|TWO_SIDED|95.0|-3.3|1.38||P-value for Resilience Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||1.38|-3.30|0.421
92350305|NCT00447278|184605092|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.05||||0.388|TWO_SIDED|95.0|-3.44|1.34||P-value for Risk Avoidance Change: 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||1.34|-3.44|0.388
92350306|NCT00447278|184605092|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.29||||0.059|TWO_SIDED|95.0|-4.66|0.09||P-value for Risk Avoidance Change: 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.09|-4.66|0.059
92350307|NCT00447278|184605092|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.56||||0.006|TWO_SIDED|95.0|-6.09|-1.04||P-value for Satisfaction Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-1.04|-6.09|0.006
92350308|NCT00447278|184605092|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.91||||0.027|TWO_SIDED|95.0|-5.49|-0.33||P-value for Satisfaction Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.33|-5.49|0.027
92350309|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.073||||0.015|TWO_SIDED|95.0|0.014|0.131||P-value for Total Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.131|0.014|0.015
92219466|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|0.6984|STANDARD_ERROR_OF_MEAN|3.7493||0.8527|TWO_SIDED|95.0|-6.7589|8.1556|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|LMS Tolerability||8.1556|-6.7589|0.8527
92350310|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.085||||0.004|TWO_SIDED|95.0|0.027|0.143||P-value for Total Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.143|0.027|0.004
92350311|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.094||||0.063|TWO_SIDED|95.0|-0.005|0.192||P-value for Home Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.192|-0.005|0.063
92350312|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.075||||0.131|TWO_SIDED|95.0|-0.022|0.172||P-value for Home Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.172|-0.022|0.131
92350313|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.052||||0.156|TWO_SIDED|95.0|-0.02|0.124||P-value for Daily Living Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.124|-0.020|0.156
92350314|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.072||||0.046|TWO_SIDED|95.0|0.001|0.143||P-value for Daily Living Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.143|0.001|0.046
92350315|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.04||||0.068|TWO_SIDED|95.0|-0.003|0.084||P-value for Risk Taking Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.084|-0.003|0.068
92350316|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.028||||0.212|TWO_SIDED|95.0|-0.016|0.073||P-value for Risk Taking Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.073|-0.016|0.212
92350317|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.121||||0.006|TWO_SIDED|95.0|0.034|0.208||P-value for School Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.208|0.034|0.006
92350318|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.15|||<|0.001|TWO_SIDED|95.0|0.064|0.236||P-value for School Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.236|0.064|<0.001
92350319|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.125||||0.034|TWO_SIDED|95.0|0.009|0.24||P-value for Self-Concept Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.240|0.009|0.034
92350320|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.119||||0.04|TWO_SIDED|95.0|0.005|0.233||P-value for Self-Concept Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.233|0.005|0.040
92219467|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-3.2212|STANDARD_ERROR_OF_MEAN|3.7677||0.395|TWO_SIDED|95.0|-10.7149|4.2726|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|LMS Tolerability||4.2726|-10.7149|0.3950
92275691|NCT04229303|184453872|OTHER||Slope|0.79||||0.0082|TWO_SIDED|90.0|0.67|0.912|||General power linear model|||Statistics for N-oxide Voriconazole AUC0-inf||0.912|0.670|0.0082
92350321|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.085||||0.042|TWO_SIDED|95.0|0.003|0.166||p-value for Social Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.166|0.003|0.042
92350322|NCT00447278|184605093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.048||||0.271|TWO_SIDED|95.0|-0.038|0.134||P-value for Social Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.134|-0.038|0.271
92350323|NCT00447278|184605094|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.307||||0.034|TWO_SIDED|95.0|0.173|4.44||P-value for Total Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||4.440|0.173|0.034
92350324|NCT00447278|184605094|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.072||||0.005|TWO_SIDED|95.0|0.942|5.202||P-value for Total Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||5.202|0.942|0.005
92350325|NCT00447278|184605094|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.721||||0.004|TWO_SIDED|95.0|0.544|2.899||P-value for Inattention Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.899|0.544|0.004
92350326|NCT00447278|184605094|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.269|||<|0.001|TWO_SIDED|95.0|1.086|3.453||P-value for Inattention Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||3.453|1.086|<0.001
92350327|NCT00447278|184605094|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.58||||0.298|TWO_SIDED|95.0|-0.515|1.676||P-value for Hyperactivity Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||1.676|-0.515|0.298
92350328|NCT00447278|184605094|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.865||||0.119|TWO_SIDED|95.0|-0.225|1.956||P-value for Hyperactivity Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||1.956|-0.225|0.119
92400428|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.935|||<|0.0001|TWO_SIDED|95.0|1.421|2.449|||Mixed Models Analysis|||Cycle 1 Day 28: Difference in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.449|1.421|<.0001
92350329|NCT00447278|184605095|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.104||||0.366|TWO_SIDED|95.0|-0.122|0.329||P-value for Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.329|-0.122|0.366
92350330|NCT00447278|184605095|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.169||||0.165|TWO_SIDED|95.0|-0.07|0.407||P-value for Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.407|-0.070|0.165
92350331|NCT00447278|184605096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.35||||0.054|TWO_SIDED|95.0|-4.74|0.04||P-value for Achievement Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.04|-4.74|0.054
92350332|NCT00447278|184605096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.71||||0.003|TWO_SIDED|95.0|-6.16|-1.26||P-value for Achievement Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-1.26|-6.16|0.003
92350333|NCT00447278|184605096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.74||||0.033|TWO_SIDED|95.0|-3.33|-0.14||P-value for Comfort Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.14|-3.33|0.033
92350334|NCT00447278|184605096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.5||||0.003|TWO_SIDED|95.0|-4.12|-0.88||P-value for Comfort Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.88|-4.12|0.003
92350335|NCT00447278|184605096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.5||||0.623|TWO_SIDED|95.0|-1.5|2.5||P-value for Resilience Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.50|-1.50|0.623
92400429|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.948|||<|0.0001|TWO_SIDED|95.0|1.443|2.452|||Mixed Models Analysis|||Cycle 2 Day 1: Difference in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.452|1.443|<.0001
92219468|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-3.9195|STANDARD_ERROR_OF_MEAN|3.6397||0.2847|TWO_SIDED|95.0|-11.1588|3.3198|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|LMS Tolerability||3.3198|-11.1588|0.2847
92350336|NCT00447278|184605096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.16||||0.88|TWO_SIDED|95.0|-1.96|2.29||P-value for Resilience Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.29|-1.96|0.880
92350337|NCT00447278|184605096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.4||||0.149|TWO_SIDED|95.0|-3.31|0.5||P-value for Risk Avoidance Change: 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.50|-3.31|0.149
92350338|NCT00447278|184605096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.78||||0.003|TWO_SIDED|95.0|-4.58|-0.98||P-value for Risk Avoidance Change: 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.98|-4.58|0.003
92350339|NCT00447278|184605096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.62||||0.015|TWO_SIDED|95.0|-4.71|-0.52||P-value for Satisfaction Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.52|-4.71|0.015
92350340|NCT00447278|184605096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.12||||0.004|TWO_SIDED|95.0|-5.26|-0.98||P-value for Satisfaction Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.98|-5.26|0.004
92350341|NCT00447278|184605097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.39||||0.263|TWO_SIDED|95.0|-1.83|6.6||P-value for Achievement Change at 4 Month LOCF. Achievement was derived from the academic achievement subdomain only.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||6.60|-1.83|0.263
92219469|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-2.4837|STANDARD_ERROR_OF_MEAN|4.6595||0.5954|TWO_SIDED|95.0|-11.7512|6.7839|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|LMS Description||6.7839|-11.7512|0.5954
92219470|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-2.9779|STANDARD_ERROR_OF_MEAN|4.6891||0.5271|TWO_SIDED|95.0|-12.3044|6.3485|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|LMS Description||6.3485|-12.3044|0.5271
92219471|NCT06608368|184339617|SUPERIORITY||Least Square Mean Difference|-0.4942|STANDARD_ERROR_OF_MEAN|4.5519||0.9138|TWO_SIDED|95.0|-9.5478|8.5593|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|LMS Description||8.5593|-9.5478|0.9138
92350342|NCT00447278|184605097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.38||||0.848|TWO_SIDED|95.0|-3.6|4.36||P-value for Achievement Change at 6 Month LOCF. Achievement was derived from the academic achievement subdomain only.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||4.36|-3.60|0.848
92350343|NCT00447278|184605097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.19||||0.895|TWO_SIDED|95.0|-3.01|2.64||P-value for Statisfaction Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.64|-3.01|0.895
92350344|NCT00447278|184605097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.2||||0.038|TWO_SIDED|95.0|-6.22|-0.19||P-value for Satisfaction Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.19|-6.22|0.038
92350345|NCT00447278|184605097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.3||||0.854|TWO_SIDED|95.0|-3.59|2.98||P-value for Comfort Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.98|-3.59|0.854
92350346|NCT00447278|184605097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.26||||0.161|TWO_SIDED|95.0|-5.45|0.92||P-value for Comfort Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.92|-5.45|0.161
92350347|NCT00447278|184605097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.7||||0.54|TWO_SIDED|95.0|-2.98|1.58||P-value for Risk Avoidance Change: 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||1.58|-2.98|0.540
92350348|NCT00447278|184605097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.98||||0.106|TWO_SIDED|95.0|-4.4|0.44||P-value for Risk Avoidance Change: 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.44|-4.40|0.106
92350349|NCT00447278|184605097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3||||0.833|TWO_SIDED|95.0|-2.49|3.08||P-value for Resilience Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||3.08|-2.49|0.833
92350350|NCT00447278|184605097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.34||||0.11|TWO_SIDED|95.0|-5.21|0.54||P-value for Resilience Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.54|-5.21|0.110
92350351|NCT03677401|184605099|SUPERIORITY|P-value from a Cochran-Mantel- Haenszel (CMH) test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.||||||0.158|||||||Cochran-Mantel-Haenszel|||At Week 10||||0.158
92400430|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97|||<|0.0001|TWO_SIDED|95.0|1.476|2.464|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.464|1.476|<.0001
92219472|NCT06608368|184339618|SUPERIORITY||Least Square Mean Difference|-0.2639|STANDARD_ERROR_OF_MEAN|0.4455||0.5551|TWO_SIDED|95.0|-1.15|0.6221|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Test Dentifrice value.|||0.6221|-1.1500|0.5551
92275692|NCT04229303|184453872|OTHER||Geometric mean difference|5.86|||<|0.0001|TWO_SIDED|90.0|4.627|7.421|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-inf, 40mg vs 5mg||7.421|4.627|<0.0001
92350352|NCT03677401|184605100|SUPERIORITY|P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.||||||0.75|||||||Cochran-Mantel-Haenszel|||At Week 4||||0.750
92350353|NCT03677401|184605101|SUPERIORITY|P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation||||||0.674|||||||Cochran-Mantel-Haenszel|||At Week 2||||0.674
92350354|NCT03677401|184605102|SUPERIORITY|P-values, least squares means (LS Mean) and standard deviations (LS SD) from an analysis of covariance (ANCOVA) with treatment group and stratification factor as fixed effects, and baseline value as a covariate.||||||0.06|||||||ANCOVA|||At Week 2||||0.060
92350355|NCT03677401|184605102|SUPERIORITY|||||||0.401||||||P-values, LS Mean and LS SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.401
92350356|NCT03677401|184605102|SUPERIORITY|P-values, LS Mean and LS SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.||||||0.185|||||||ANCOVA|||At Week 6||||0.185
92350357|NCT03677401|184605102|SUPERIORITY|P-values, LS Mean and LS SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.||||||0.164|||||||ANCOVA|||At Week 10||||0.164
92350358|NCT03677401|184605103|SUPERIORITY|||||||0.283||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 2||||0.283
92350359|NCT03677401|184605103|SUPERIORITY|||||||0.701||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 4||||0.701
92219473|NCT06608368|184339618|SUPERIORITY||Least Square Mean Difference|-0.5044|STANDARD_ERROR_OF_MEAN|0.4555||0.2714|TWO_SIDED|95.0|-1.4104|0.4016|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice value.|||0.4016|-1.4104|0.2714
92219474|NCT06608368|184339618|SUPERIORITY||Least Square Mean Difference|-0.2404|STANDARD_ERROR_OF_MEAN|0.4402||0.5864|TWO_SIDED|95.0|-1.116|0.6351|||Mixed Model with Repeated Measures||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|||0.6351|-1.1160|0.5864
92275693|NCT04229303|184453873|OTHER||Slope|0.12||||0.2575|TWO_SIDED|90.0|-0.06|0.308|||General power constant model|||Statistics for Voriconazole Cmax||0.308|-0.060|0.2575
92219475|NCT06608368|184339621|SUPERIORITY||Least Square Mean Difference|-0.3597|STANDARD_ERROR_OF_MEAN|0.4238||0.3984|TWO_SIDED|95.0|-1.2026|0.4831|||ANCOVA||Least Square Mean Difference was calculated as Positive Control Dentifrice minus Test Dentifrice value.|||0.4831|-1.2026|0.3984
92350360|NCT03677401|184605103|SUPERIORITY|||||||0.033||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 10||||0.033
92350361|NCT03677401|184605104|SUPERIORITY|||||||0.797||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.797
92350362|NCT03677401|184605105|SUPERIORITY|||||||0.845||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.845
92350363|NCT03677401|184605106|SUPERIORITY|||||||0.385||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 2||||0.385
92350364|NCT03677401|184605106|SUPERIORITY|||||||0.786||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.786
92350365|NCT03677401|184605106|SUPERIORITY|||||||0.502||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.502
92350366|NCT03677401|184605107|SUPERIORITY|||||||0.197||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 2||||0.197
92350367|NCT03677401|184605107|SUPERIORITY|||||||0.694||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.694
92219476|NCT06608368|184339621|SUPERIORITY||Least Square Mean Difference|-0.3827|STANDARD_ERROR_OF_MEAN|0.4277||0.3734|TWO_SIDED|95.0|-1.2332|0.4678|||ANCOVA||Least Square Mean Difference was calculated as Positive Control Dentifrice value minus Reference Dentifrice.|||0.4678|-1.2332|0.3734
92350368|NCT03677401|184605107|SUPERIORITY|||||||0.916||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.916
92350369|NCT06262607|184605109|SUPERIORITY||Least square (LS) mean difference|6.0|STANDARD_ERROR_OF_MEAN|7.74||0.4422|TWO_SIDED|95.0|-9.54|21.53|||Mixed Models Repeated Measures (MMRM)|||||21.53|-9.54|0.4422
92400431|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.983|||<|0.0001|TWO_SIDED|95.0|1.491|2.475|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.475|1.491|<.0001
92219477|NCT06608368|184339621|SUPERIORITY||Least Square Mean Difference|-0.02296|STANDARD_ERROR_OF_MEAN|0.4099||0.9555|TWO_SIDED|95.0|-0.8382|0.7923|||ANCOVA||Least Square Mean Difference was calculated as Test Dentifrice value minus Reference Dentifrice value.|||0.7923|-0.8382|0.9555
92350370|NCT01692756|184605118|SUPERIORITY|||||||0.33|||||||Kruskal-Wallis|||||||0.33
92350371|NCT01692756|184605119|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|||||||0.08
92350372|NCT01692756|184605120|SUPERIORITY|||||||0.93|||||||Kruskal-Wallis|||||||0.93
92350373|NCT01692756|184605121|SUPERIORITY|||||||0.13|||||||Kruskal-Wallis|||||||0.13
92350374|NCT01692756|184605122|SUPERIORITY|||||||0.15|||||||Kruskal-Wallis|||||||0.15
92350375|NCT01692756|184605123|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||.003
92350376|NCT01692756|184605124|SUPERIORITY|||||||0.007|||||||Kruskal-Wallis|||||||.007
92350377|NCT01692756|184605125|SUPERIORITY|||||||0.63|||||||Kruskal-Wallis|||||||.63
92350378|NCT01692756|184605126|SUPERIORITY|||||||0.17|||||||Kruskal-Wallis|||||||0.17
92350379|NCT01692756|184605127|SUPERIORITY|||||||0.62|||||||Kruskal-Wallis|||||||.62
92350380|NCT01692756|184605128|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|||||||.02
92350381|NCT01692756|184605129|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||||||.20
92350382|NCT01692756|184605130|SUPERIORITY|||||||0.87|||||||Kruskal-Wallis|||||||.87
92400432|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.005|||<|0.0001|TWO_SIDED|95.0|1.51|2.501|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.501|1.510|<.0001
92219478|NCT03080883|184339629|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.3117|TWO_SIDED|95.0|0.38|1.37|||Gray Test P-value|||||1.37|0.38|0.3117
92219479|NCT03080883|184339630|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.997|TWO_SIDED|95.0|0.4|2.53|||Gray Test P-value|||||2.53|0.40|0.9970
92219480|NCT00666458|184339646|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.055|||TWO_SIDED|95.0|-0.01|0.2||||||||0.20|-0.01|
92350383|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|90.0|-3.82|4.38|||Mixed Models Analysis|||Pre-dose; mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual. Sample sizing calculated based on results from previous methodology studies performed using the same cold pain test; primary criteria was ability to detect a significant gabapentin effect over placebo.||4.38|-3.82|
92350384|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|90.0|-3.53|4.68|||Mixed Models Analysis|||Pre-dose; mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||4.68|-3.53|
92350385|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|90.0|-3.99|4.22|||Mixed Models Analysis|||Pre-dose; mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||4.22|-3.99|
92350386|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.14|STANDARD_ERROR_OF_MEAN|1.97|||TWO_SIDED|90.0|-1.15|5.44|||Mixed Models Analysis|||1 hour post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||5.44|-1.15|
92219481|NCT00666458|184339647|SUPERIORITY_OR_OTHER||Difference in Percent|-2.8|||||TWO_SIDED|95.0|-9.0|3.5||||||||3.5|-9.0|
92350387|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.18|STANDARD_ERROR_OF_MEAN|1.97|||TWO_SIDED|90.0|-14.48|-7.89|||Mixed Models Analysis|||1 hour post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||-7.89|-14.48|
92350388|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.49|STANDARD_ERROR_OF_MEAN|1.96|||TWO_SIDED|90.0|2.2|8.78|||Mixed Models Analysis|||1 hour post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||8.78|2.20|
92350389|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|2.87|||TWO_SIDED|90.0|-5.53|4.08|||Mixed Models Analysis|||1.5 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||4.08|-5.53|
92350390|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.93|STANDARD_ERROR_OF_MEAN|2.87|||TWO_SIDED|90.0|-18.74|-9.13|||Mixed Models Analysis|||1.5 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||-9.13|-18.74|
92350391|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.88|STANDARD_ERROR_OF_MEAN|2.92|||TWO_SIDED|90.0|-2.01|7.78|||Mixed Models Analysis|||1.5 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||7.78|-2.01|
92350392|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|STANDARD_ERROR_OF_MEAN|3.66|||TWO_SIDED|90.0|-5.32|6.96|||Mixed Models Analysis|||2 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||6.96|-5.32|
92350393|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.12|STANDARD_ERROR_OF_MEAN|3.59|||TWO_SIDED|90.0|-19.14|-7.09|||Mixed Models Analysis|||2 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||-7.09|-19.14|
92350394|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.58|STANDARD_ERROR_OF_MEAN|3.59|||TWO_SIDED|90.0|-4.45|7.6|||Mixed Models Analysis|||2 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||7.60|-4.45|
92350395|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.53|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|90.0|-7.39|2.32||||||4 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||2.32|-7.39|
92350396|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.59|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|90.0|-14.44|-4.73|||Mixed Models Analysis|||4 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||-4.73|-14.44|
92400433|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.018|||<|0.0001|TWO_SIDED|95.0|1.517|2.519|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.519|1.517|<.0001
92160733|NCT02014558|184209917|OTHER||Geometric LS Mean Ratio|109.46|||||TWO_SIDED|90.0|49.82|240.48||||||Statistical Comparison of Midazolam Exposure after Administration of Midazolam Alone or Coadministered with Gilteritinib: The difference of least squares (LS) means of log-transformed pharmacokinetic parameters between midazolam alone and midazolam + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||240.48|49.82|
92350397|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|90.0|-4.85|4.85|||Mixed Models Analysis|||4 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||4.85|-4.85|
92350398|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|2.22|||TWO_SIDED|90.0|-3.23|4.22|||Mixed Models Analysis|||8 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||4.22|-3.23|
92350399|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.47|STANDARD_ERROR_OF_MEAN|2.22|||TWO_SIDED|90.0|-11.19|-3.75|||Mixed Models Analysis|||8 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||-3.75|-11.19|
92350400|NCT01119222|184605152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|2.22|||TWO_SIDED|90.0|-3.99|3.45|||Mixed Models Analysis|||8 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||3.45|-3.99|
92160734|NCT02014558|184209918|OTHER||Geometric LS Mean Ratio|149.9||||||90.0|74.88|300.06||||||Statistical Comparison of Midazolam Exposure after Administration of Midazolam Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between 1-hydroxymidazolam alone and 1-hydroxymidazolam + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||300.06|74.88|
92350401|NCT01119222|184605153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.17|||TWO_SIDED|90.0|-4.24|3.04|||Mixed Models Analysis|||||3.04|-4.24|
92350402|NCT01119222|184605153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.43|STANDARD_ERROR_OF_MEAN|2.17|||TWO_SIDED|90.0|-13.07|-5.79|||Mixed Models Analysis|||||-5.79|-13.07|
92350403|NCT01119222|184605153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.84|STANDARD_ERROR_OF_MEAN|2.17|||TWO_SIDED|90.0|-2.8|4.48|||Mixed Models Analysis|||||4.48|-2.80|
92219482|NCT00666458|184339648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.42|STANDARD_ERROR_OF_MEAN|2.064|||TWO_SIDED|95.0|1.37|9.47||||||||9.47|1.37|
92219483|NCT00666458|184339649|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.115|||TWO_SIDED|95.0|0.08|0.53||||||||0.53|0.08|
92350404|NCT04925934|184605161|SUPERIORITY||Rate Difference|2.8|||=|0.7474|TWO_SIDED|90.0|-11.4|17.0|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||17.0|-11.4|=0.7474
92350405|NCT04925934|184605161|SUPERIORITY||Rate Difference|-0.1|||=|0.9942|TWO_SIDED|90.0|-14.2|14.1|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||14.1|-14.2|=0.9942
92350406|NCT04925934|184605162|SUPERIORITY||Rate Difference|37.2|||=|0.1626|TWO_SIDED|90.0|-0.3|74.7|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment, randomization stratification factors and Baseline CLASI-A score in the model.||74.7|-0.3|=0.1626
92350407|NCT04925934|184605162|SUPERIORITY||Rate Difference|24.1|||=|0.2873|TWO_SIDED|90.0|-7.5|55.8|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment, randomization stratification factors and Baseline CLASI-A score in the model.||55.8|-7.5|=0.2873
92350408|NCT04925934|184605163|SUPERIORITY||Rate Difference|8.6|||=|0.322|TWO_SIDED|90.0|-5.6|22.7|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||22.7|-5.6|=0.3220
92350409|NCT04925934|184605163|SUPERIORITY||Rate Difference|2.9|||=|0.7364|TWO_SIDED|90.0|-11.2|17.0|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||17.0|-11.2|=0.7364
92350410|NCT04925934|184605164|SUPERIORITY||Rate Difference|11.7|||=|0.2805|TWO_SIDED|90.0|-6.1|29.4|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment, stratification factors (SLEDAI-2K only) and Baseline OGC dose included in the model.||29.4|-6.1|=0.2805
92350411|NCT04925934|184605164|SUPERIORITY||Rate Difference|9.4|||=|0.3926|TWO_SIDED|90.0|-8.6|27.3|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment, stratification factors (SLEDAI-2K only) and Baseline OGC dose included in the model.||27.3|-8.6|=0.3926
92350412|NCT04925934|184605165|SUPERIORITY||Rate Difference|16.5|||=|0.037|TWO_SIDED|90.0|4.0|29.0|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||29.0|4.0|=0.0370
92350413|NCT04925934|184605165|SUPERIORITY||Rate Difference|4.9|||=|0.4939|TWO_SIDED|90.0|-6.7|16.4|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||16.4|-6.7|=0.4939
92350414|NCT04425018|184605177|SUPERIORITY||Risk Difference (RD)|11.6||||0.188|TWO_SIDED|95.0|-5.8|29.0|||Fisher Exact||"Estimate and corresponding Wald 95% confidence interval of the difference in pCR response rates (%) between the Paclitaxel + Pertuzumab + Margetuximab and Paclitaxel + Pertuzumab + Trastuzumab arms."|||29.0|-5.8|0.188
92160735|NCT02014558|184209919|OTHER||Geometric LS Mean Ratio|111.64|||||TWO_SIDED|90.0|69.54|179.25||||||Statistical Comparison of Midazolam Exposure after Administration of Midazolam Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between midazolam alone and midazolam + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||179.25|69.54|
92350415|NCT04425018|184605178|SUPERIORITY||Risk Difference (RD)|18.9||||0.0715|TWO_SIDED|95.0|-2.2|40.1|||Fisher Exact||"Estimate and corresponding Wald 95% confidence interval of the difference in pCR response rates (%) between the Paclitaxel + Pertuzumab + Margetuximab and Paclitaxel + Pertuzumab + Trastuzumab arms among HR+ subjects"|||40.1|-2.2|0.0715
92350416|NCT04425018|184605179|SUPERIORITY||Risk Difference (RD)|-5.2||||0.7754|TWO_SIDED|95.0|-36.5|26.1|||Fisher Exact||"Estimate and corresponding Wald 95% confidence interval of the difference in pCR response rates (%) between the Paclitaxel + Pertuzumab + Margetuximab and Paclitaxel + Pertuzumab + Trastuzumab arms among HR- subjects."|||26.1|-36.5|0.7754
92350417|NCT02337946|184605220|SUPERIORITY||Difference of PFS rate between groups|0.9|||||TWO_SIDED|95.0|-17.2|19.0|||||||Agresti-Caffo method was used for estimation of 95% CI.|19.0|-17.2|
92350418|NCT02337946|184605221|SUPERIORITY||Adjusted Hazard Ratio (HR)|0.93||||0.7349|TWO_SIDED|95.0|0.6|1.43|||Regression, Multivariable Cox|The Cox regression model was adjusted by stratification factors except for study sites.||||1.43|0.60|0.7349
92350419|NCT02337946|184605222|SUPERIORITY||Adjusted Hazard Ratio (HR)|1.41||||0.3485|TWO_SIDED|95.0|0.69|2.88|||Regression, Multivariable Cox|The Cox regression model was adjusted by stratification factors except for study sites.||||2.88|0.69|0.3485
92160736|NCT02014558|184209920|OTHER||Geometric LS Mean Ratio|123.47|||||TWO_SIDED|90.0|72.41|210.52||||||Statistical Comparison of Midazolam Exposure after Administration of Midazolam Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between 1-hydroxymidazolam/midazolam alone and 1-hydroxymidazolam/midazolam + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||210.52|72.41|
92160737|NCT02014558|184209925|OTHER||Geometric LS Mean Ratio|93.96|||||TWO_SIDED|90.0|75.29|117.26||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||117.26|75.29|
92160738|NCT02014558|184209926|OTHER||Geometric LS Mean Ratio|91.46|||||TWO_SIDED|90.0|74.6|112.12||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||112.12|74.60|
92350420|NCT02337946|184605224|SUPERIORITY||Multivariable Hazard Ratio (HR)|0.9||||0.5901|TWO_SIDED|95.0|0.6|1.33|||Regression, Multivariable Cox|The Cox regression model was adjusted by stratification factors except for study sites.||||1.33|0.60|0.5901
92350421|NCT01327703|184605229|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval (CI) of Panzytrat® versus Kreon® exceeded -10%.|Treatment difference|-2.08||||0.459|TWO_SIDED|95.0|-7.23|4.02||As there was only a single pre-specified primary analysis, there was no adjustment for multiplicity.|Mixed Models Analysis|||Mixed model analysis method was used for comparison using log-transformed percent CFA as the response variable, fixed effect factors for treatment, period, treatment sequence and pooled site and participant within treatment sequence as a random effect.||4.02|-7.23|0.4590
92219484|NCT01999465|184339650|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|We applied Wilcoxon-Mann Whitney test with the Null hypothesis that there is no difference between 2 arms.||||||0.40
92219485|NCT01999465|184339651|OTHER|||||||0.2|||||||t-test, 2 sided|||||||0.20
92350422|NCT02949934|184605271|SUPERIORITY|||||||0.013|||||||ANCOVA|Covariates were age, baseline AUDIT score, baseline drinks per day, and whether participant participated before vs. during the COVID-19 pandemic.||Analysis was an ANCOVA testing the interaction between rs4680 genotype and medication group.||||0.013
92350423|NCT02949934|184605272|SUPERIORITY|||||||0.014|||||||ANCOVA|Covariates were age, baseline AUDIT score, and baseline drinks per day.||Analysis was an ANCOVA testing the interaction between rs4680 genotype and medication group||||0.014
92350424|NCT02949934|184605273|SUPERIORITY|||||||0.062|||||||Mixed Models Analysis|Linear mixed model testing interaction between rs4680 genotype, medication group, and time, controlling for scanner||||||0.062
92350425|NCT02949934|184605274|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|Linear mixed model testing interaction between rs4680 genotype, medication group, and time, controlling for scanner||||||0.83
92350426|NCT02949934|184605274|SUPERIORITY|||||||0.026|||||||Mixed Models Analysis|Linear mixed model testing interaction between medication group and time, controlling for scanner||||||0.026
92350427|NCT00849472|184605277|SUPERIORITY_OR_OTHER||Percentage of participants|17.98|||||TWO_SIDED|95.0|10.64|27.55|||||The estimated value (EV) represents the percentage of participants with pCR. Participants with missing data were excluded from the denominator (n=89; 4 participants with missing data) for the calculation of the EV.|||27.55|10.64|
92350428|NCT05887401|184605296|SUPERIORITY|ITT analysis using linear mixed models comparing MVPA change over time (from baseline to 3 months). We fit a linear mixed model that included a random effect for participant and predictors (fixed effects) included time (baseline vs. follow-up) and all 4 factors.|Mean Difference (Net)|61.45||||0.02|TWO_SIDED|95.0|9.95|112.95||The reported p-value reflects the change across time for the full sample.|Mixed Models Analysis|DF(2, 119)|The positive parameter estimate indicates an increase in MVPA over time for the full sample.|||112.95|9.95|0.02
92350429|NCT05887401|184605296|SUPERIORITY||Mean Difference (Net)|21.36||||0.65|TWO_SIDED|95.0|-70.89|113.61|||Mixed Models Analysis|DF(1, 69)|Green food monitoring (reference) vs red food monitoring; a positive estimation parameter indicates that the reference group had greater increases in MVPA over time.|ITT analysis for factor 1 (dietary self-monitoring) using linear mixed models comparing the effect of simplified dietary monitoring (green vs. red) on MVPA change over time (from baseline to 3 months).||113.61|-70.89|0.65
92350430|NCT05887401|184605296|SUPERIORITY||Mean Difference (Net)|-60.05||||0.2|TWO_SIDED|95.0|-152.4|32.39|||Mixed Models Analysis|DF(1,70)|Nutrition goals (yes; reference) vs no goals provided; a negative estimation parameter indicates that the non-referent group had greater increases in MVPA over time.|ITT analysis for factor 2 (dietary goals) using linear mixed models comparing the effect of dietary goals (yes vs. no) on MVPA change over time (from baseline to 3 months).||32.39|-152.40|0.20
92400434|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.04|||<|0.0001|TWO_SIDED|95.0|1.522|2.559|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.559|1.522|<.0001
92400435|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.053|||<|0.0001|TWO_SIDED|95.0|1.522|2.584|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.584|1.522|<.0001
92400436|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.075|||<|0.0001|TWO_SIDED|95.0|1.515|2.635|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.635|1.515|<.0001
92275694|NCT04229303|184453873|OTHER||Slope|1.17||||0.0491|TWO_SIDED|90.0|1.03|1.316|||General power linear model|||Statistics for Voriconazole Cmax||1.316|1.030|0.0491
92275695|NCT04229303|184453873|OTHER||Geometric mean difference|11.17|||<|0.0001|TWO_SIDED|90.0|8.435|14.803|||ANOVA|||Statistics for Voriconazole Cmax, 40mg vs 5mg||14.803|8.435|<0.0001
92275696|NCT04229303|184453873|OTHER||Slope|1.25|||<|0.0001|TWO_SIDED|90.0|1.135|1.363|||General power constant model|||Statistics for N-oxide Voriconazole Cmax||1.363|1.135|<0.0001
92219486|NCT02325219|184339654|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92219487|NCT02325219|184339654|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92219488|NCT02325219|184339655|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92219489|NCT02325219|184339655|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92219490|NCT00880399|184339707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.4295|TWO_SIDED|95.0|-1.65|0.7|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 30 mg at Week 1||0.70|-1.65|0.4295
92219491|NCT00880399|184339707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.15||||0.0586|TWO_SIDED|95.0|-2.34|0.04|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 60 mg at Week 1||0.04|-2.34|0.0586
92275697|NCT04229303|184453873|OTHER||Slope|0.74||||0.0003|TWO_SIDED|90.0|0.634|0.843|||General power linear model|||Statistics for N-oxide Voriconazole Cmax||0.843|0.634|0.0003
92350431|NCT05887401|184605296|SUPERIORITY||Mean Difference (Net)|29.52||||0.53|TWO_SIDED|95.0|-63.07|122.11|||Mixed Models Analysis|DF(1,70)|Supportive text messages (yes; reference) vs no text messages; a positive estimation parameter indicates that the reference group had greater increases in MVPA over time.|ITT analysis for factor 3 (supportive text messages) using linear mixed models comparing the effect of text messages (yes vs. no) on MVPA change over time (from baseline to 3 months).||122.11|-63.07|0.53
92350432|NCT05887401|184605296|SUPERIORITY||Mean Difference (Final Values)|-20.5||||0.66|TWO_SIDED|95.0|-113.26|72.27|||Mixed Models Analysis|DF(1,70)|Lesson delivery once (reference) vs weekly; a negative estimation parameter indicates that the non-referent group had greater increases in MVPA over time.|ITT analysis for factor 4 (lesson delivery) using linear mixed models comparing the effect of lesson timing (once vs. weekly) on MVPA change over time (from baseline to 3 months).||72.27|-113.26|0.66
92350433|NCT05887401|184605297|SUPERIORITY|ITT analysis using linear mixed models comparing self-reported MVPA change over time (from baseline to 3 months). We fit a linear mixed model that included a random effect for participant and predictors (fixed effects) included time (baseline vs. follow-up) and all 4 factors.|Mean Difference (Net)|44.87||||0.004|TWO_SIDED|95.0|14.39|75.43|||Mixed Models Analysis|DF(2,127)|The positive parameter estimate indicates an increase in self-reported MVPA over time for the full sample.|||75.43|14.39|0.004
92400437|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.088|||<|0.0001|TWO_SIDED|95.0|1.509|2.667|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.667|1.509|<.0001
92400438|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.11|||<|0.0001|TWO_SIDED|95.0|1.494|2.727|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.727|1.494|<.0001
92400439|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.123|||<|0.0001|TWO_SIDED|95.0|1.483|2.763|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.763|1.483|<.0001
92400440|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.146|||<|0.0001|TWO_SIDED|95.0|1.461|2.83|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.830|1.461|<.0001
92400441|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.158|||<|0.0001|TWO_SIDED|95.0|1.447|2.869|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.869|1.447|<.0001
92400442|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.181|||<|0.0001|TWO_SIDED|95.0|1.42|2.941|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.941|1.420|<.0001
92400443|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.193|||<|0.0001|TWO_SIDED|95.0|1.404|2.983|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.983|1.404|<.0001
92400444|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.216|||<|0.0001|TWO_SIDED|95.0|1.373|3.059|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.059|1.373|<.0001
92400445|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.228|||<|0.0001|TWO_SIDED|95.0|1.355|3.102|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.102|1.355|<.0001
92160739|NCT02014558|184209927|OTHER||Geometric LS Mean Ratio|97.71|||||TWO_SIDED|90.0|74.19|128.7||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||128.70|74.19|
92160740|NCT02014558|184209930|OTHER||Geometric LS Mean Ratio|106.42|||||TWO_SIDED|90.0|85.28|132.81||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||132.81|85.28|
92350434|NCT05887401|184605297|SUPERIORITY||Mean Difference (Net)|-15.32||||0.47|TWO_SIDED|95.0|-58.96|28.32|||Mixed Models Analysis|DF(1,72)|Green food monitoring (reference) vs red food monitoring; a negative estimation parameter indicates that the non-referent group had greater increases in MVPA over time.|ITT analysis for factor 1 (dietary self-monitoring) using linear mixed models comparing the effect of simplified dietary monitoring (green vs. red) on self-reported MVPA change over time (from baseline to 3 months).||28.32|-58.96|0.47
92350435|NCT05887401|184605297|SUPERIORITY||Mean Difference (Net)|16.02||||0.47|TWO_SIDED|95.0|-27.67|59.7|||Mixed Models Analysis|DF(1,73)|Nutrition goals (yes; reference) vs no goals provided; a positive estimation parameter indicates that the reference group had greater increases in self-reported MVPA over time.|ITT analysis for factor 2 (dietary goals) using linear mixed models comparing the effect of dietary goals (yes vs. no) on self-reported MVPA change over time (from baseline to 3 months).||59.7|-27.67|0.47
92400446|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.251|||<|0.0001|TWO_SIDED|95.0|1.321|3.18|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.180|1.321|<.0001
92400447|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.263|||<|0.0001|TWO_SIDED|95.0|1.302|3.225|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.225|1.302|<.0001
92400448|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.286|||<|0.0001|TWO_SIDED|95.0|1.266|3.305|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.305|1.266|<.0001
92400449|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.298|||<|0.0001|TWO_SIDED|95.0|1.246|3.351|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.351|1.246|<.0001
92160741|NCT02014558|184209932|OTHER||Geometric LS Mean Ratio|83.93|||||TWO_SIDED|90.0|46.53|151.39||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||151.39|46.53|
92400450|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.321|||<|0.0001|TWO_SIDED|95.0|1.209|3.433|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.433|1.209|<.0001
92400451|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.333|||<|0.0001|TWO_SIDED|95.0|1.188|3.479|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.479|1.188|<.0001
92400452|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.356||||0.0001|TWO_SIDED|95.0|1.15|3.562|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.562|1.150|0.0001
92400453|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.369||||0.0002|TWO_SIDED|95.0|1.128|3.609|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.609|1.128|0.0002
92400454|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.391||||0.0003|TWO_SIDED|95.0|1.089|3.693|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.693|1.089|0.0003
92160742|NCT02014558|184209934|OTHER||Geometric LS Mean Ratio|82.84|||||TWO_SIDED|90.0|40.25|170.48||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||170.48|40.25|
92160743|NCT05273801|184209935|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||How frequently clinician ask about RPE/HR during session||||0.73
92160744|NCT05273801|184209935|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||How frequently education provided regarding HR/RPE during session||||0.05
92160745|NCT05273801|184209935|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||How frequently HR/RPE target is mentioned in session||||0.007
92160746|NCT05273801|184209935|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||How frequently clinician modifies session/task to reach HR/RPE target||||0.005
92160747|NCT05273801|184209935|SUPERIORITY|||||||1e-05|||||||t-test, 2 sided|||How frequently clinicians monitor HR/RPE during session||||0.00001
92160748|NCT05570006|184209961|SUPERIORITY||Difference in proportion|7.4|||||ONE_SIDED|||||Bayesian method||||Compared to historical placebo||||
92160749|NCT01875250|184210035|SUPERIORITY|||||||0.74|||||||Wilcoxon rank sum tests|||||||0.74
92219492|NCT00880399|184339707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.89||||0.0111|TWO_SIDED|95.0|-3.34|-0.43|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 30 mg at Week 2||-0.43|-3.34|0.0111
92219493|NCT00880399|184339707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.84||||0.0141|TWO_SIDED|95.0|-3.3|-0.37|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 60 mg at Week 2||-0.37|-3.30|0.0141
92219494|NCT00880399|184339707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.22||||0.0152|TWO_SIDED|95.0|-4.0|-0.43|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 30 mg at Week 4||-0.43|-4.00|0.0152
92219495|NCT00880399|184339707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.06||||0.001|TWO_SIDED|95.0|-4.86|-1.25|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 60 mg at Week 4||-1.25|-4.86|0.0010
92219496|NCT00880399|184339707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.41||||0.0245|TWO_SIDED|95.0|-4.5|-0.31|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 30 mg at Week 6||-0.31|-4.50|0.0245
92219497|NCT00880399|184339707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.86||||0.0082|TWO_SIDED|95.0|-4.97|-0.75|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 60 mg at Week 6||-0.75|-4.97|0.0082
92219498|NCT00880399|184339709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.51|TWO_SIDED|95.0|0.8|3.19|||Log Rank|||Placebo Vs Orvepitant 30 mg at Week 6||3.19|0.80|0.51
92219499|NCT00880399|184339709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.66||||0.37|TWO_SIDED|95.0|0.84|3.3|||Log Rank|||Placebo Vs Orvepitant 60 mg at Week 6||3.30|0.84|0.37
92219500|NCT00880399|184339710|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.7859|TWO_SIDED|95.0|-0.72|0.55|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||0.55|-0.72|0.7859
92219501|NCT00880399|184339710|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.15||||0.6429|TWO_SIDED|95.0|-0.79|0.49|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||0.49|-0.79|0.6429
92219502|NCT00880399|184339710|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.04||||0.0092|TWO_SIDED|95.0|-1.82|-0.26|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||-0.26|-1.82|0.0092
92219503|NCT00880399|184339710|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.91||||0.023|TWO_SIDED|95.0|-1.69|-0.13|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||-0.13|-1.69|0.0230
92219504|NCT00880399|184339710|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.29||||0.0104|TWO_SIDED|95.0|-2.27|-0.31|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||-0.31|-2.27|0.0104
92219505|NCT00880399|184339710|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.68||||0.001|TWO_SIDED|95.0|-2.67|-0.69|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||-0.69|-2.67|0.0010
92219506|NCT00880399|184339710|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.22||||0.0361|TWO_SIDED|95.0|-2.37|-0.08|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||-0.08|-2.37|0.0361
92219507|NCT00880399|184339710|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.54||||0.0092||95.0|-2.69|-0.38|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.38|-2.69|0.0092
92219508|NCT00880399|184339711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.72||||0.1662|TWO_SIDED|95.0|-1.74|0.3|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||0.30|-1.74|0.1662
92219509|NCT00880399|184339711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.66||||0.2116|TWO_SIDED|95.0|-1.69|0.38|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||0.38|-1.69|0.2116
92219510|NCT00880399|184339711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.02||||0.082|TWO_SIDED|95.0|-2.17|0.13|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||0.13|-2.17|0.0820
92275698|NCT04229303|184453873|OTHER||Geometric mean difference|4.97|||<|0.0001|TWO_SIDED|90.0|3.946|6.254|||ANOVA|||Statistics for N-oxide Voriconazole Cmax, 40mg vs 5mg||6.254|3.946|<0.0001
92219511|NCT00880399|184339711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.55||||0.3498|TWO_SIDED|95.0|-1.71|0.61|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||0.61|-1.71|0.3498
92219512|NCT00880399|184339711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.69||||0.0107|TWO_SIDED|95.0|-2.99|-0.4|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||-0.40|-2.99|0.0107
92219513|NCT00880399|184339711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1||||0.0017|TWO_SIDED|95.0|-3.4|-0.79|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||-0.79|-3.40|0.0017
92219514|NCT00880399|184339711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.29||||0.088|TWO_SIDED|95.0|-2.78|0.19|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||0.19|-2.78|0.0880
92219515|NCT00880399|184339711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.68||||0.0282|TWO_SIDED|95.0|-3.17|-0.18|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.18|-3.17|0.0282
92219516|NCT00880399|184339712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.9854|TWO_SIDED|95.0|-0.45|0.44|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||0.44|-0.45|0.9854
92219517|NCT00880399|184339712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21||||0.3476|TWO_SIDED|95.0|-0.66|0.23|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||0.23|-0.66|0.3476
92219518|NCT00880399|184339712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.0898|TWO_SIDED|95.0|-0.94|0.07|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||0.07|-0.94|0.0898
92219519|NCT00880399|184339712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.0928|TWO_SIDED|95.0|-0.95|0.07|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||0.07|-0.95|0.0928
92219520|NCT00880399|184339712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32||||0.2937|TWO_SIDED|95.0|-0.93|0.28|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||0.28|-0.93|0.2937
92219521|NCT00880399|184339712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.0587|TWO_SIDED|95.0|-1.2|0.02|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||0.02|-1.20|0.0587
92219522|NCT00880399|184339712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45||||0.195|TWO_SIDED|95.0|-1.14|0.23|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||0.23|-1.14|0.1950
92219523|NCT00880399|184339712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.0498|TWO_SIDED|95.0|-1.4|0.0|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.00|-1.40|0.0498
92219524|NCT00880399|184339713|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.14||||0.1731|TWO_SIDED|95.0|0.72|6.4|||Regression, Logistic|||Placebo Vs Orvepitant 30 mg at Week 1||6.40|0.72|0.1731
92275699|NCT04229303|184453880|OTHER||Slope|2.0||||0.0004|TWO_SIDED|90.0|1.528|2.617|||ANOVA|||Statistics for Voriconazole AUC0-t Day 1||2.617|1.528|0.0004
92160750|NCT03068468|184210050|SUPERIORITY||Difference|-0.2||||0.8483|TWO_SIDED|95.0|-2.0|1.6|||Mixed model for repeated measures (MMRM)|||28-item:Adjusted mean for each treatment group, difference with Placebo,95% confidence interval and p-value at each time point were based on a mixed model for repeated measures model (MMRM), with change from baseline in 28-item PSPRS total score as dependent variable and with fixed effects of treatment group, time(categorical), treatment group-by-time interaction, baseline 28-item PSPRS, baseline 28-item PSPRS by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||1.6|-2.0|0.8483
92160751|NCT03068468|184210050|SUPERIORITY||Difference|-0.28||||0.6503|TWO_SIDED|95.0|-1.5|0.94|||MMRM|||15-items:Adjusted mean for each treatment group, difference with Placebo,95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in 15-item PSPRS total score as dependent variable and with fixed effects of treatment group, time(categorical), treatment groupby-time interaction, baseline 15-item PSPRS, baseline 15-item PSPRS by time interaction, baseline Color Trails 2 test(\<=170 or \>170 seconds) and region.||0.94|-1.50|0.6503
92219525|NCT00880399|184339713|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.77||||0.7084|TWO_SIDED|95.0|0.2|2.97|||Regression, Logistic|||Placebo Vs Orvepitant 60 mg at Week 1||2.97|0.20|0.7084
92219526|NCT00880399|184339713|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.6||||0.0247|TWO_SIDED|95.0|1.13|5.98|||Regression, Logistic|||Placebo Vs Orvepitant 30 mg at Week 2||5.98|1.13|0.0247
92350436|NCT05887401|184605297|SUPERIORITY||Mean Difference (Net)|9.72||||0.66|TWO_SIDED|95.0|-34.09|53.52|||Mixed Models Analysis|DF(1,71)|Supportive text messages (yes; reference) vs no text messages; a positive estimation parameter indicates that the reference group had greater increases in self-reported MVPA over time.|ITT analysis for factor 3 (supportive text messages) using linear mixed models comparing the effect of text messages (yes vs. no) on self-reported MVPA change over time (from baseline to 3 months).||53.52|-34.09|0.66
92350437|NCT05887401|184605297|SUPERIORITY||Mean Difference (Net)|-42.15||||0.06|TWO_SIDED|95.0|-86.04|1.73|||Mixed Models Analysis|DF(1,72)|Lesson delivery once (reference) vs weekly; a negative estimation parameter indicates that the non-referent group had greater increases in self-reported MVPA over time.|ITT analysis for factor 4 (lesson delivery) using linear mixed models comparing the effect of lesson timing (once vs. weekly) on self-reported MVPA change over time (from baseline to 3 months).||1.73|-86.04|0.06
92350438|NCT05887401|184605298|SUPERIORITY||Mean Difference (Net)|2.49||||0.109|TWO_SIDED|95.0|-0.56|5.54|||Mixed Models Analysis|DF(1,61)|The positive parameter estimate indicates an increase in HEI score over time for the full sample.|ITT analysis using linear mixed models comparing HEI score change over time (from baseline to 3 months). We fit a linear mixed model that included a random effect for participant and predictors (fixed effects) included time (baseline vs. follow-up) and all 4 factors.||5.54|-0.56|0.109
92350439|NCT05887401|184605298|SUPERIORITY||Mean Difference (Net)|-1.17||||0.71|TWO_SIDED|95.0|-7.42|5.08|||Mixed Models Analysis|DF(1,68)|Green food monitoring (reference) vs red food monitoring; a negative estimation parameter indicates that the non-referent group had greater increases in HEI score.|ITT analysis for factor 1 (dietary self-monitoring) using linear mixed models comparing the effect of simplified dietary monitoring (green vs. red) on HEI score change over time (from baseline to 3 months).||5.08|-7.42|0.71
92350440|NCT05887401|184605298|SUPERIORITY||Mean Difference (Net)|0.44||||0.89|TWO_SIDED|95.0|-5.82|6.69|||Mixed Models Analysis|DF(1,68)|Nutrition goals (yes; reference) vs no goals provided; a positive estimation parameter indicates that the reference group had greater increases in HEI score over time.|ITT analysis for factor 2 (dietary goals) using linear mixed models comparing the effect of dietary goals (yes vs. no) on HEI score change over time (from baseline to 3 months).||6.69|-5.82|0.89
92350441|NCT05887401|184605298|SUPERIORITY||Mean Difference (Net)|3.66||||0.25|TWO_SIDED|95.0|-2.61|9.93|||Mixed Models Analysis|DF(1,68)|Supportive text messages (yes; reference) vs no text messages; a positive estimation parameter indicates that the reference group had greater increases in HEI score over time.|ITT analysis for factor 3 (supportive text messages) using linear mixed models comparing the effect of text messages (yes vs. no) on HEI score change over time (from baseline to 3 months).||9.93|-2.61|0.25
92350442|NCT05887401|184605298|SUPERIORITY||Mean Difference (Net)|-1.83||||0.57|TWO_SIDED|95.0|-8.11|4.45|||Mixed Models Analysis|DF(1,68)|Lesson delivery once (reference) vs weekly; a negative estimation parameter indicates that the non-referent group had greater increases in HEI score over time.|ITT analysis for factor 4 (lesson delivery) using linear mixed models comparing the effect of lesson timing (once vs. weekly) on HEI score change over time (from baseline to 3 months).||4.45|-8.11|0.57
92350443|NCT05942040|184605313|OTHER|Pre-post test|Odds Ratio (OR)|0.7|STANDARD_ERROR_OF_MEAN|0.18||0.17|TWO_SIDED|95.0|0.43|1.16|||Regression, Logistic|||||1.16|0.43|0.17
92350444|NCT06461455|184605321|NON_INFERIORITY|Non-inferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.011|||ONE_SIDED|95.0||0.04||Since a non-inferiority hypothesis is being tested, confidence limit is more appropriate than p-value in assessing the results against the predefined non-inferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens by visit interaction, period, and lens sequence) and random (subject) effects. Difference=LID230451-ULTRA MFfA. Sign is retained with the rounded value.|||0.04||
92350445|NCT02642679|184605339|OTHER|We set alpha=0.05/3=0.17 to account for multiple outcomes for sample size and power calculations. With 10 patients in each group, we had 95% power to detect an improvement of 2 points in VAS score assuming a common standard deviation of 1 point with a two sided two sample t-test each at alpha=0.17 level.|||||||||||||||||A student t-test was used for correlated samples to determine if there were significant differences in pain. Microsoft Excel 2010 (Microsoft Corp., Redmond, WA) was used for statistical analysis. Data that were considered normally distributed are reported as the mean ± standard deviation (SD) and percentage. P-values \<0.05 were considered significant.|||
92369444|NCT00851890|184643767|SUPERIORITY_OR_OTHER|||||||0.071|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.071
92400455|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.404||||0.0004|TWO_SIDED|95.0|1.067|3.74|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.740|1.067|0.0004
92400456|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.426||||0.0007|TWO_SIDED|95.0|1.027|3.825|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.825|1.027|0.0007
92400457|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.439||||0.0009||95.0|1.005|3.872|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.872|1.005|0.0009
92400458|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.461||||0.0013|TWO_SIDED|95.0|0.964|3.958|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.958|0.964|0.0013
92400459|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.474||||0.0016|TWO_SIDED|95.0|0.942|4.006|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.006|0.942|0.0016
92400460|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.496||||0.0022|TWO_SIDED|95.0|0.901|4.092|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.092|0.901|0.0022
92400461|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.509||||0.0026|TWO_SIDED|95.0|0.878|4.14|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.140|0.878|0.0026
92400462|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.531||||0.0034|TWO_SIDED|95.0|0.836|4.226|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.226|0.836|0.0034
92400463|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.544||||0.004|TWO_SIDED|95.0|0.813|4.274|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.274|0.813|0.0040
92400464|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.566||||0.0051|TWO_SIDED|95.0|0.772|4.361|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.361|0.772|0.0051
92400465|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.579||||0.0058|TWO_SIDED|95.0|0.748|4.41|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.410|0.748|0.0058
92160752|NCT03068468|184210052|SUPERIORITY||Difference|0.4||||0.6031|TWO_SIDED|95.0|-1.0|1.7|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MDS-UPDRS as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline MDS-UPDRS, baseline MDS-UPDRS by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||1.7|-1.0|0.6031
92160753|NCT03068468|184210053|SUPERIORITY||Difference|0.0||||0.7743|TWO_SIDED|95.0|-0.2|0.1|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with CGI-C as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline CGI-S, baseline CGI-S by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.1|-0.2|0.7743
92219527|NCT00880399|184339713|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.8||||0.1862|TWO_SIDED|95.0|0.75|4.3|||Regression, Logistic|||Placebo Vs Orvepitant 60 mg at Week 2||4.30|0.75|0.1862
92219528|NCT00880399|184339713|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.87||||0.063|TWO_SIDED|95.0|0.97|3.61|||Regression, Logistic|||Placebo Vs Orvepitant 30 mg at Week 4||3.61|0.97|0.0630
92219529|NCT00880399|184339713|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.65||||0.1413|TWO_SIDED|95.0|0.85|3.23|||Regression, Logistic|||Placebo Vs Orvepitant 60 mg at Week 4||3.23|0.85|0.1413
92219530|NCT00880399|184339713|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.77||||0.0806|TWO_SIDED|95.0|0.93|3.37|||Regression, Logistic|||Placebo Vs Orvepitant 30 mg at Week 6||3.37|0.93|0.0806
92219531|NCT00880399|184339713|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.53||||0.2007|TWO_SIDED|95.0|0.8|2.92|||Regression, Logistic|||Placebo Vs Orvepitant 60 mg at Week 6||2.92|0.80|0.2007
92350446|NCT02642679|184605340|OTHER|We set alpha=0.05/3=0.17 to account for multiple outcomes for sample size and power calculations. With 10 patients in each group, we will have 80% power to detect an improvement in re-epithelialization from 14.6 days to 10 days assuming a common standard deviation of 2.9 days.|||||||||||||||||A student t-test was used for correlated samples to determine if there were significant differences in healing rate. Microsoft Excel 2010 (Microsoft Corp., Redmond, WA) was used for statistical analysis. Data that were considered normally distributed are reported as the mean ± standard deviation (SD) and percentage. P-values \<0.05 were considered significant.|||
92350447|NCT02642679|184605341|OTHER|We set alpha=0.05/3=0.17 to account for multiple outcomes for sample size and power calculations. With 10 patients in each group, we will have 95% power to detect an improvement of 2 points in VSS score assuming a common standard deviation of 1 point.|||||||||||||||||A student t-test was used for correlated samples to determine if there were significant differences in healing quality. Microsoft Excel 2010 (Microsoft Corp., Redmond, WA) was used for statistical analysis. Data that were considered normally distributed are reported as the mean ± standard deviation (SD) and percentage. P-values \<0.05 were considered significant.|||
92350448|NCT05638737|184605379|SUPERIORITY|One-sided test where a negative change in relative to baseline is favourable|%-change in relative to base vs placebo|7.5||||0.893|TWO_SIDED|95.0|-4.1|20.5|||Mixed Models Analysis|Participant as random effect; treatment, visit and trt:vis interaction as fixed effects; baseline ALT as covariate. Model uses log-scaled variables.||||20.5|-4.1|0.893
92400466|NCT00083889|184692417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.602||||0.0071|TWO_SIDED|95.0|0.706|4.497|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.497|0.706|0.0071
92400467|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.165|||<|0.0001|TWO_SIDED|95.0|2.234|4.095|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.095|2.234|<.0001
92400468|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.205|||<|0.0001|TWO_SIDED|95.0|2.318|4.092|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.092|2.318|<.0001
92160754|NCT03068468|184210054|SUPERIORITY||Difference|0.038||||0.318|TWO_SIDED|95.0|-0.036|0.112|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in PSP-cognitive composite battery as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline PSP-cognitive composite battery, baseline PSP-cognitive composite battery by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.112|-0.036|0.3180
92160755|NCT03068468|184210055|SUPERIORITY||Difference|-0.2||||0.827|TWO_SIDED|95.0|-1.8|1.4|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in RBANS as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline RBANS , baseline RBANS by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds and region.||1.4|-1.8|0.8270
92160756|NCT03068468|184210056|SUPERIORITY||Difference|-0.2||||0.9304|TWO_SIDED|95.0|-3.6|3.3|||MMRM|||Physical scale score: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in PSP-QoL as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for PSP-QoL, baseline PSP-QoL by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||3.3|-3.6|0.9304
92160757|NCT03068468|184210056|SUPERIORITY||Difference|0.5||||0.7859|TWO_SIDED|95.0|-2.8|3.7|||MMRM|||Mental scale score: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in PSPQoL as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-bytime interaction, baseline for PSP-QoL, baseline PSP-QoL by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||3.7|-2.8|0.7859
92160758|NCT03068468|184210056|SUPERIORITY||Difference|-1.7||||0.4297|TWO_SIDED|95.0|-5.8|2.5|||MMRM|||Satisfaction With Your Life Today: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in PSPQoL as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-bytime interaction, baseline for PSP-QoL, baseline PSP-QoL by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||2.5|-5.8|0.4297
92160759|NCT03068468|184210057|SUPERIORITY||Difference|2.0||||0.2084|TWO_SIDED|95.0|-1.1|5.2|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in SEADL as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for SEADL , baseline SEADL by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||5.2|-1.1|0.2084
92219532|NCT00880399|184339714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.2523|TWO_SIDED|95.0|-0.25|0.07|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||0.07|-0.25|0.2523
92219533|NCT00880399|184339714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.2639|TWO_SIDED|95.0|-0.25|0.07|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||0.07|-0.25|0.2639
92400469|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.228|||<|0.0001|TWO_SIDED|95.0|2.358|4.097|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects)||4.097|2.358|<.0001
92400470|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.268|||<|0.0001|TWO_SIDED|95.0|2.418|4.119|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.119|2.418|<.0001
92400471|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.291|||<|0.0001|TWO_SIDED|95.0|2.443|4.139|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.139|2.443|<.0001
92400472|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.331|||<|0.0001|TWO_SIDED|95.0|2.474|4.189|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.189|2.474|<.0001
92400473|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.354|||<|0.0001||95.0|2.484|4.224|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.224|2.484|<.0001
92400474|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.395|||<|0.0001|TWO_SIDED|95.0|2.489|4.3|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.300|2.489|<.0001
92219534|NCT00880399|184339714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37||||0.0004|TWO_SIDED|95.0|-0.58|-0.17|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||-0.17|-0.58|0.0004
92219535|NCT00880399|184339714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.0348|TWO_SIDED|95.0|-0.43|-0.02|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||-0.02|-0.43|0.0348
92219536|NCT00880399|184339714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.0166|TWO_SIDED|95.0|-0.62|-0.06|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||-0.06|-0.62|0.0166
92350449|NCT05638737|184605380|SUPERIORITY|One-sided test where a negative change in relative to baseline is favourable|%-change in relative to base vs placebo|-0.9||||0.396|TWO_SIDED|95.0|-7.5|6.1|||Mixed Models Analysis|Participant as random effect; treatment, visit and trt:vis interaction as fixed effects; baseline Pro-C3 as covariate. Model uses log-scaled variables||||6.1|-7.5|0.396
92400475|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.417|||<|0.0001|TWO_SIDED|95.0|2.486|4.348|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.348|2.486|<.0001
92400476|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.458|||<|0.0001|TWO_SIDED|95.0|2.469|4.446|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.446|2.469|<.0001
92400477|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.48|||<|0.0001|TWO_SIDED|95.0|2.455|4.505|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.505|2.455|<.0001
92400478|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.521|||<|0.0001|TWO_SIDED|95.0|2.422|4.62|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.620|2.422|<.0001
92219537|NCT00880399|184339714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46||||0.0014|TWO_SIDED|95.0|-0.75|-0.18|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||-0.18|-0.75|0.0014
92350450|NCT06059066|184605381|OTHER|||||||0.57||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Willingness to repeat procedure immediately after received intradetrusor BTX-A injections||||0.57
92219538|NCT00880399|184339714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45||||0.0099|TWO_SIDED|95.0|-0.79|-0.11|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||-0.11|-0.79|0.0099
92350451|NCT06059066|184605381|OTHER|||||||0.83||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Willingness to repeat procedure asses 6-weeks after intradetrusor BTX-A injections||||0.83
92219539|NCT00880399|184339714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49||||0.0059|TWO_SIDED|95.0|-0.83|-0.14|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.14|-0.83|0.0059
92219540|NCT00880399|184339715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||0.5473|TWO_SIDED|95.0|-2.04|1.08|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||1.08|-2.04|0.5473
92219541|NCT00880399|184339715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.9814|TWO_SIDED|95.0|-1.56|1.6|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||1.60|-1.56|0.9814
92219542|NCT00880399|184339715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.51||||0.0515|TWO_SIDED|95.0|-3.03|0.01|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||0.01|-3.03|0.0515
92350452|NCT06059066|184605382|OTHER|||||||0.59||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in total ICIQ-SF score assessed before and 6-weeks after treatment||||0.59
92350453|NCT06059066|184605382|OTHER|||||||0.29||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in ICIQ QoL score assessed before and 6-weeks after treatment||||0.29
92350454|NCT06059066|184605383|OTHER|||||||0.57||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in total NBSS-SF score assessed before and 6-weeks after treatment||||0.57
92350455|NCT06059066|184605383|OTHER|||||||0.42||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in NBSS-SF QoL score assessed before and 6-weeks after treatment||||0.42
92350456|NCT06059066|184605383|OTHER|||||||0.24||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in NBSS-SF incontinence domain score assessed before and 6-weeks after treatment||||0.24
92219543|NCT00880399|184339715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.468|TWO_SIDED|95.0|-2.09|0.96|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||0.96|-2.09|0.4680
92219544|NCT00880399|184339715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.22||||0.1757|TWO_SIDED|95.0|-2.98|0.55|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||0.55|-2.98|0.1757
92219545|NCT00880399|184339715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.15||||0.2048|TWO_SIDED|95.0|-2.93|0.63|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||0.63|-2.93|0.2048
92219546|NCT00880399|184339715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.16||||0.0312|TWO_SIDED|95.0|-4.12|-0.2|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||-0.20|-4.12|0.0312
92275700|NCT04229303|184453880|OTHER||Slope|4.73|||<|0.0001|TWO_SIDED|90.0|3.612|6.187|||ANOVA|||Statistics for Voriconazole AUC0-t Day 1||6.187|3.612|<0.0001
92350457|NCT06059066|184605383|OTHER|||||||0.93||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in NBSS-SF storage and voiding domain score assessed before and 6-weeks after treatment||||0.93
92350458|NCT06059066|184605383|OTHER|||||||0.64||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in NBSS-SF consequences domain score assessed before and 6-weeks after treatment||||0.64
92350459|NCT06059066|184605384|OTHER|||||||0.21||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||||||0.21
92350460|NCT06059066|184605385|OTHER||||||<|2e-05||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Change in post-procedural pain as compared to baseline||||<0.00002
92350461|NCT03928704|184605489|SUPERIORITY||Odds Ratio (OR)|3.51|||<|0.001|TWO_SIDED|95.0|2.0|6.16|||Regression, Logistic|||||6.16|2.00|<0.001
92350462|NCT03928704|184605490|SUPERIORITY||Odds Ratio (OR)|3.08|||<|0.001|TWO_SIDED|95.0|1.71|5.54|||Regression, Logistic|||||5.54|1.71|<0.001
92219547|NCT00880399|184339715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.34||||0.0202|TWO_SIDED|95.0|-4.31|-0.37|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.37|-4.31|0.0202
92219548|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.45||||0.7246|TWO_SIDED|95.0|-20.38|29.28|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, TST at Week 1||29.28|-20.38|0.7246
92219549|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.36||||0.0332|TWO_SIDED|95.0|2.2|52.52|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, TST at Week 1||52.52|2.20|0.0332
92219550|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.12||||0.5439|TWO_SIDED|95.0|-18.18|34.41|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, TST at Week 2||34.41|-18.18|0.5439
92219551|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.52||||0.3127|TWO_SIDED|95.0|-12.8|39.85|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, TST at Week 2||39.85|-12.80|0.3127
92275701|NCT04229303|184453880|OTHER||Slope|2.81|||<|0.0001|TWO_SIDED|90.0|2.017|3.925|||ANOVA|||Statistics for Voriconazole AUC0-t day 10||3.925|2.017|<0.0001
92350463|NCT03928704|184605491|SUPERIORITY||LS Mean difference|-1.51|||<|0.001||95.0|-2.04|-0.98|||ANCOVA|||||-0.98|-2.04|<0.001
92350464|NCT03928704|184605491|SUPERIORITY||LS Mean difference|-0.91||||0.22|TWO_SIDED|95.0|-2.42|0.61|||ANCOVA|||||0.61|-2.42|0.220
92350465|NCT03928704|184605492|SUPERIORITY||Odds Ratio (OR)|3.69|||<|0.001|TWO_SIDED|95.0|2.17|6.26|||Regression, Logistic|||||6.26|2.17|<0.001
92350466|NCT03928704|184605493|SUPERIORITY||Odds Ratio (OR)|4.52|||<|0.001|TWO_SIDED|95.0|2.06|9.93|||Regression, Logistic|||||9.93|2.06|<0.001
92350467|NCT03928704|184605494|SUPERIORITY||Odds Ratio (OR)|5.43|||<|0.001|TWO_SIDED|95.0|2.41|12.23|||Regression, Logistic|||||12.23|2.41|<0.001
92350468|NCT03928704|184605495|SUPERIORITY||Odds Ratio (OR)|3.31|||<|0.001|TWO_SIDED|95.0|1.87|5.84|||Regression, Logistic|||||5.84|1.87|<0.001
92350469|NCT03928704|184605496|SUPERIORITY||LS Mean difference|-1.48|||<|0.001||95.0|-1.99|-0.97|||ANCOVA|||||-0.97|-1.99|<0.001
92350470|NCT03928704|184605496|SUPERIORITY||LS Mean difference|-1.25||||0.019|TWO_SIDED|95.0|-2.26|-0.24|||ANCOVA|||||-0.24|-2.26|0.019
92350471|NCT03928704|184605497|SUPERIORITY||LS Mean difference|-1.8|||<|0.001||95.0|-2.42|-1.18|||ANCOVA|||||-1.18|-2.42|<0.001
92350472|NCT03928704|184605497|SUPERIORITY||LS Mean difference|-1.09||||0.199|TWO_SIDED|95.0|-2.83|0.65|||ANCOVA|||||0.65|-2.83|0.199
92350473|NCT03928704|184605498|SUPERIORITY||LS Mean difference|-2.63|||<|0.001||95.0|-3.66|-1.61|||ANCOVA|||||-1.61|-3.66|<0.001
92350474|NCT03928704|184605498|SUPERIORITY||LS Mean difference|-1.84||||0.17|TWO_SIDED|95.0|-4.56|0.89|||ANCOVA|||||0.89|-4.56|0.170
92350475|NCT03928704|184605499|SUPERIORITY||LS Mean difference|3.96|||<|0.001|TWO_SIDED|95.0|2.08|5.83|||ANCOVA|||||5.83|2.08|<0.001
92160760|NCT03068468|184210058|SUPERIORITY||Difference|0.0||||0.5701|TWO_SIDED|95.0|-0.2|0.1|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in CGI-S as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for CGI-S, baseline CGI-S by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.1|-0.2|0.5701
92160761|NCT03068468|184210059|SUPERIORITY||Difference|0.9||||0.0517|TWO_SIDED|95.0|0.0|1.8|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in Phonemic Fluency Test as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline Phonemic Fluency Test, baseline Phonemic Fluency Test by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||1.8|-0.0|0.0517
92219552|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.51||||0.2419|TWO_SIDED|95.0|-46.9|11.89|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, TST at Week 4||11.89|-46.90|0.2419
92219553|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Median Difference (Net)|21.11||||0.1606|TWO_SIDED|95.0|-8.43|50.64|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, TST at Week 4||50.64|-8.43|0.1606
92219554|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.48||||0.7412||95.0|-22.21|31.16|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, TST at Week 6||31.16|-22.21|0.7412
92219555|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.47||||0.3974|TWO_SIDED|95.0|-15.19|38.14|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, TST at Week 6||38.14|-15.19|0.3974
92219556|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.52||||0.1397|TWO_SIDED|95.0|-26.83|3.79|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SOL at Week 1||3.79|-26.83|0.1397
92275702|NCT04229303|184453880|OTHER||Slope|5.28|||<|0.0001|TWO_SIDED|90.0|3.783|7.361|||ANOVA|||Statistics for Voriconazole AUC0-t Day 10||7.361|3.783|<0.0001
92275703|NCT04229303|184453880|OTHER||Slope|1.97|||<|0.0001|TWO_SIDED|90.0|1.615|2.396|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-t Day 1||2.396|1.615|<0.0001
92275704|NCT04229303|184453880|OTHER||Slope|5.09|||<|0.0001|TWO_SIDED|90.0|4.178|6.196|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-t Day 1||6.196|4.178|<0.0001
92275705|NCT04229303|184453880|OTHER||Slope|2.45||||0.0002|TWO_SIDED|90.0|1.791|3.349|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-t Day 10||3.349|1.791|0.0002
92275706|NCT04229303|184453880|OTHER||Slope|4.6|||<|0.0001|TWO_SIDED|90.0|3.365|6.294|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-t Day 10||6.294|3.365|<0.0001
92275707|NCT04229303|184453880|OTHER||Slope|1.99||||0.0005|TWO_SIDED|90.0|1.524|2.602|||ANOVA|||Statistics for Voriconazole AUC0-inf Day 1||2.602|1.524|0.0005
92275708|NCT04229303|184453880|OTHER||Slope|4.58|||<|0.0001|TWO_SIDED|90.0|3.505|5.984|||ANOVA|||Statistics for Voriconazole AUC0-inf Day 1||5.984|3.505|<0.0001
92275709|NCT04229303|184453880|OTHER||Slope|2.65||||0.0003|TWO_SIDED|90.0|1.851|3.781|||ANOVA|||Statistics for Voriconazole AUC0-inf Day 10||3.781|1.851|0.0003
92275710|NCT04229303|184453880|OTHER||Slope|5.04|||<|0.0001|TWO_SIDED|90.0|3.587|7.088|||ANOVA|||Statistics for Voriconazole AUC0-inf Day 10||7.088|3.587|<0.0001
92219557|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.9||||0.0026|TWO_SIDED|95.0|-39.4|-8.41|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SOL at Week 1||-8.41|-39.40|0.0026
92219558|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.67||||0.3206|TWO_SIDED|95.0|-22.85|7.5|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SOL at Week 2||7.50|-22.85|0.3206
92219559|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.67||||0.0015|TWO_SIDED|95.0|-39.86|-9.49|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SOL at Week 2||-9.49|-39.86|0.0015
92219560|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.71||||0.2157|TWO_SIDED|95.0|-27.7|6.28|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SOL at Week 4||6.28|-27.70|0.2157
92219561|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.31||||0.0784|TWO_SIDED|95.0|-32.37|1.75|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SOL at Week 4||1.75|-32.37|0.0784
92219562|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.84||||0.3345|TWO_SIDED|95.0|-7.09|20.78|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SOL at Week 6||20.78|-7.09|0.3345
92219563|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.25||||0.6471|TWO_SIDED|95.0|-17.19|10.7|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SOL at Week 6||10.70|-17.19|0.6471
92219564|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4||||0.8071|TWO_SIDED|95.0|-16.95|21.75|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, WTSO at Week 1||21.75|-16.95|0.8071
92219565|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.3||||0.3564|TWO_SIDED|95.0|-29.11|10.52|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, WTSO at Week 1||10.52|-29.11|0.3564
92219566|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.86||||0.122|TWO_SIDED|95.0|-36.0|4.28|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, WTSO at Week 2||4.28|-36.00|0.1220
92275711|NCT04229303|184453880|OTHER||Slope|1.93|||<|0.0001|TWO_SIDED|90.0|1.569|2.384|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-inf Day 1||2.384|1.569|<0.0001
92275712|NCT04229303|184453880|OTHER||Slope|4.56|||<|0.0001|TWO_SIDED|90.0|3.608|5.759|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-inf Day 1||5.759|3.608|<0.0001
92275713|NCT04229303|184453880|OTHER||Slope|2.4||||0.0007|TWO_SIDED|90.0|1.694|3.402|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-inf Day 10||3.402|1.694|0.0007
92275714|NCT04229303|184453880|OTHER||Slope|4.22|||<|0.0001|TWO_SIDED|90.0|2.975|5.974|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-inf Day 10||5.974|2.975|<0.0001
92275715|NCT04229303|184453881|OTHER||Slope|2.03||||0.0003|TWO_SIDED|90.0|1.562|2.65|||ANOVA|||Statistics for Voriconazole Cmax Day 1||2.650|1.562|0.0003
92275716|NCT04229303|184453881|OTHER||Slope|4.87|||<|0.0001|TWO_SIDED|90.0|3.74|6.345|||ANOVA|||Statistics for Voriconazole Cmax Day 1||6.345|3.740|<0.0001
92350476|NCT03928704|184605499|SUPERIORITY||LS Mean difference|7.27||||0.035|TWO_SIDED|95.0|0.6|13.95|||ANCOVA|||||13.95|0.60|0.035
92275717|NCT04229303|184453881|OTHER||Slope|2.67|||<|0.0001|TWO_SIDED|90.0|2.081|3.429|||ANOVA|||Statistics for Voriconazole Cmax Day 10||3.429|2.081|<0.0001
92275718|NCT04229303|184453881|OTHER||Slope|5.97|||<|0.0001|TWO_SIDED|90.0|4.647|7.658|||ANOVA|||Statistics for Voriconazole Cmax Day 10||7.658|4.647|<0.0001
92275719|NCT04229303|184453881|OTHER||Slope|2.02|||<|0.0001|TWO_SIDED|90.0|1.688|2.406|||ANOVA|||Statistics for N-oxide Voriconazole Cmax Day 1||2.406|1.688|<0.0001
92275720|NCT04229303|184453881|OTHER||Slope|4.73|||<|0.0001|TWO_SIDED|90.0|3.964|5.65|||ANOVA|||Statistics for N-oxide Voriconazole Cmax Day 1||5.650|3.964|<0.0001
92275721|NCT04229303|184453881|OTHER||Slope|2.12|||<|0.0001|TWO_SIDED|90.0|1.655|2.711|||ANOVA|||Statistics for N-oxide Voriconazole Cmax Day 10||2.711|1.655|<0.0001
92275722|NCT04229303|184453881|OTHER||Slope|4.01|||<|0.0001|TWO_SIDED|90.0|3.135|5.135|||ANOVA|||Statistics for N-oxide Voriconazole Cmax day 10||5.135|3.135|<0.0001
92275723|NCT04229303|184453902|OTHER||Geometric mean ratio|0.13|||||TWO_SIDED|90.0|0.107|0.146||||||Part 3 - ZP-059 20mg: Oral Voriconazole (200mg VFEND)||0.146|0.107|
92275724|NCT04229303|184453902|OTHER||Geometric mean ratio|2.1|||||TWO_SIDED|90.0|1.545|2.853||||||ZP-059 20mg: Part 3 / Part 1||2.853|1.545|
92275725|NCT04229303|184453902|OTHER||Geometric mean ratio|2.63|||||TWO_SIDED|90.0|1.953|3.544||||||ZP-059 20mg: Part 3 / Part 2 Day 1||3.544|1.953|
92275726|NCT04229303|184453902|OTHER||Geometric mean ratio|1.87|||||TWO_SIDED|90.0|1.386|2.52||||||ZP-059 20mg: Part 3 / Part 2 Day 10||2.520|1.386|
92275727|NCT04229303|184453903|OTHER||Geometric mean ratio|0.07|||||TWO_SIDED|90.0|0.059|0.075||||||Part 3 ZP-059 20mg: Oral Voriconazole (200mg VFEND®)||0.075|0.059|
92275728|NCT04229303|184453903|OTHER||Geometric mean ratio|1.27|||||TWO_SIDED|90.0|0.85|1.891||||||ZP-059 20mg: Part 3 / Part 1||1.891|0.850|
92275729|NCT04229303|184453903|OTHER||Geometric mean ratio|2.63|||||TWO_SIDED|90.0|1.953|3.544||||||ZP-059 20mg: Part 3 / Part 2 Day 1||3.544|1.953|
92275730|NCT04229303|184453903|OTHER||Geometric mean ratio|1.87|||||TWO_SIDED|90.0|1.386|2.52||||||ZP-059 20mg: Part 3 / Part 2 Day 10||2.520|1.386|
92275731|NCT01764854|184453904|SUPERIORITY|||||||0.46|||||||ANCOVA|||AZD1722 in-patient and Placebo in-patient are not included in this analysis since it was only a one week evaluation period and an effect was not expected. Also the size (n=8) of the group was too small to .perform this analysis.||||0.46
92275732|NCT01764854|184453905|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||AZD1722 out-patient and Placebo out-patient were not included in this analysis since stool was only collected in the clinical pharmacology unit of the in-patient groups.||||<0.0001
92275733|NCT03273387|184453906|SUPERIORITY|||||||0.008||||||95% Confidence interval 1.97 - 11.3 statistical significant if p\<0.05|t-test, 2 sided|t=2.988 df=18||||||0.008
92275734|NCT03273387|184453907|SUPERIORITY|||||||0.33||||||statistical significant if p \<0.05|two-way ANOVA|DF=3||||||0.33
92275735|NCT03273387|184453908|SUPERIORITY|||||||0.0002||||||95% Confidence interval 15.92 to 42.53 statistical significant if p \<0.05|t-test, 2 sided|t=4.598 df=19||||||0.0002
92275736|NCT01399723|184453920|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority between amoxicillin and benzyl penicillin was defined a priori as a risk difference of treatment failure and associated upper bound of the 95% confidence interval (CI) of \<7%. A sample size of 576 would provide 80% power to detect noninferiority of amoxicillin against benzyl penicillin within a margin of 7% at a 1-sided level of significance of 0.025, assuming a prevalence of treatment failure of 10% at 48 hours derived from a preintervention pilot phase of the study|Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-5.0|4.2|||||Risk difference comparison is for amoxicillin versus benzyl penicillin|||4.2|-5.0|
92275737|NCT01399723|184453921|NON_INFERIORITY_OR_EQUIVALENCE|The initial sample size estimate of 576 children (288 per group) would provide 80% power to detect noninferiority of amoxicillin against benzyl penicillin within a margin of 7% at a 1-sided level of significance of 0.025, assuming a prevalence of treatment failure of 10% at 48 hours derived from a preintervention pilot phase of the study|Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-5.0|5.8|||||Risk difference comparison is for amoxicillin versus benzyl penicillin|||5.8|-5.0|
92275738|NCT01399723|184453924|NON_INFERIORITY_OR_EQUIVALENCE|The initial sample size estimate of 576 children (288 per group) would provide 80% power to detect noninferiority of amoxicillin against benzyl penicillin within a margin of 7% at a 1-sided level of significance of 0.025, assuming a prevalence of treatment failure of 10% at 48 hours derived from a preintervention pilot phase of the study|Risk Difference (RD)|-3.3|||||TWO_SIDED|95.0|-10.0|3.0|||||Risk difference comparison is for amoxicillin versus benzyl penicillin|||3.0|-10.0|
92350477|NCT03928704|184605500|SUPERIORITY||LS Mean difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.52|-0.14|||ANCOVA|||||-0.14|-0.52|<0.001
92275739|NCT00981253|184453928|SUPERIORITY||Mean Difference (Final Values)|-10.1|||||TWO_SIDED|95.0|-18.7|-1.5|||ANCOVA|||||-1.5|-18.7|
92275740|NCT00981253|184453929|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92275741|NCT00981253|184453930|SUPERIORITY||Cox Proportional Hazard|0.47|||||TWO_SIDED|95.0|0.24|0.91|||Log Rank|||||0.91|0.24|
92275742|NCT00981253|184453931|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.95|TWO_SIDED|95.0|-0.14|1.17|||ANCOVA|||||1.17|-0.14|.95
92275743|NCT00981253|184453932|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.99|TWO_SIDED|95.0|-0.22|0.46|||ANCOVA|||||0.46|-0.22|0.99
92275744|NCT00981253|184453933|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.99|TWO_SIDED|95.0|-0.78|1.74|||ANCOVA|||||1.74|-0.78|0.99
92275745|NCT00981253|184453934|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.99|TWO_SIDED|95.0|-0.22|0.46|||ANCOVA|||||0.46|-0.22|0.99
92275746|NCT00981253|184453934|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.99|TWO_SIDED|95.0|-0.14|0.39|||ANCOVA|||||0.39|-0.14|0.99
92275747|NCT01769378|184453937|SUPERIORITY_OR_OTHER||LS Squares Mean Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.57|-0.97|||Mixed Models Analysis|||||-0.97|-1.57|<0.001
92275748|NCT01769378|184453938|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.37|||<|0.001|TWO_SIDED|95.0|3.82|33.84|||Regression, Logistic|Sequential gatekeeping strategy was used to adjust for multiplicity.||\<7.0% HbA1c||33.84|3.82|<0.001
92350478|NCT03928704|184605500|SUPERIORITY||LS Mean difference|-0.5||||0.086|TWO_SIDED|95.0|-1.07|0.07|||ANCOVA|||||0.07|-1.07|0.086
92350479|NCT03928704|184605501|SUPERIORITY||LS Mean difference|-1.06|||=|0.013|TWO_SIDED|95.0|-1.88|-0.23|||ANCOVA|||||-0.23|-1.88|=0.013
92350480|NCT03928704|184605502|SUPERIORITY||Odds Ratio (OR)|3.49|||<|0.001|TWO_SIDED|95.0|1.84|6.62|||Regression, Logistic|||||6.62|1.84|<0.001
92219567|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.25||||0.0313|TWO_SIDED|95.0|-42.49|-2.01|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, WTSO at Week 2||-2.01|-42.49|0.0313
92219568|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.15||||0.8861|TWO_SIDED|95.0|-27.45|31.76|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, WTSO at Week 4||31.76|-27.45|0.8861
92219569|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.67||||0.9132|TWO_SIDED|95.0|-31.87|28.53|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, WTSO at Week 4||28.53|-31.87|0.9132
92219570|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.09||||0.7844|TWO_SIDED|95.0|-33.55|25.37|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, WTSO at Week 6||25.37|-33.55|0.7844
92219571|NCT00880399|184339716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9||||0.8497|TWO_SIDED|95.0|-27.33|33.14|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, WTSO at Week 6||33.14|-27.33|0.8497
92219572|NCT00880399|184339717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.4814|TWO_SIDED|95.0|-0.83|0.39|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||0.39|-0.83|0.4814
92219573|NCT00880399|184339717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.6179|TWO_SIDED|95.0|-0.47|0.79|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||0.79|-0.47|0.6179
92219574|NCT00880399|184339717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.5022|TWO_SIDED|95.0|-0.44|0.21|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||0.21|-0.44|0.5022
92219575|NCT00880399|184339717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.1389|TWO_SIDED|95.0|-0.57|0.08|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||0.08|-0.57|0.1389
92219576|NCT00880399|184339717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.9663|TWO_SIDED|95.0|-0.36|0.38|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||0.38|-0.36|0.9663
92275749|NCT01769378|184453938|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.45|||<|0.001|TWO_SIDED|95.0|3.71|35.34|||Regression, Logistic|||≤6.5% HbA1c||35.34|3.71|<0.001
92350481|NCT00327171|184605512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.123||||0.5043|TWO_SIDED|95.0|0.8|1.58|||Log Rank||Estimated using Cox proportional Hazard model using treatment as the factor|||1.58|0.80|0.5043
92219577|NCT00880399|184339717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29||||0.1311|TWO_SIDED|95.0|-0.67|0.09|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||0.09|-0.67|0.1311
92219578|NCT00880399|184339717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31||||0.1362|TWO_SIDED|95.0|-0.73|0.1|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||0.10|-0.73|0.1362
92219579|NCT00880399|184339717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||0.0275|TWO_SIDED|95.0|-0.91|-0.05|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.05|-0.91|0.0275
92219580|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.52||||0.0606|TWO_SIDED|95.0|-0.02|1.06|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SQ at Week 1||1.06|-0.02|0.0606
92219581|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.69||||0.0132|TWO_SIDED|95.0|0.15|1.24|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SQ at Week 1||1.24|0.15|0.0132
92219582|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.94||||0.001|TWO_SIDED|95.0|0.38|1.5|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SQ at Week 2||1.50|0.38|0.0010
92219583|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.84||||0.0034|TWO_SIDED|95.0|0.28|1.4|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SQ at Week 2||1.40|0.28|0.0034
92219584|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13||||0.6692|TWO_SIDED|95.0|-0.47|0.72|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SQ at Week 4||0.72|-0.47|0.6692
92219585|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.82||||0.0078|TWO_SIDED|95.0|0.22|1.42|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SQ at Week 4||1.42|0.22|0.0078
92219586|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.66||||0.044|TWO_SIDED|95.0|0.02|1.3|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SQ at Week 6||1.30|0.02|0.0440
92219587|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77||||0.0181|TWO_SIDED|95.0|0.13|1.41|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SQ at Week 6||1.41|0.13|0.0181
92219588|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.1484|TWO_SIDED|95.0|-0.14|0.92|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, RVS at Week 1||0.92|-0.14|0.1484
92219589|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7||||0.0108|TWO_SIDED|95.0|0.16|1.24|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, RVS at Week 1||1.24|0.16|0.0108
92219590|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.0361||95.0|0.04|1.16|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, RVS at Week 2||1.16|0.04|0.0361
92219591|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58||||0.0418|TWO_SIDED|95.0|0.02|1.15|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, RVS at Week 2||1.15|0.02|0.0418
92275750|NCT01769378|184453939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-33.54|STANDARD_ERROR_OF_MEAN|6.6|<|0.001|TWO_SIDED|95.0|-46.55|-20.53|||ANCOVA|Sequential gatekeeping strategy was used to adjust for multiplicity.||||-20.53|-46.55|<0.001
92350482|NCT00327171|184605515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.093||||0.5592|TWO_SIDED|95.0|0.81|1.48|||Log Rank||Estimated using Cox proportional Hazard model using treatment as the factor (4mg/kg vs. 2mg/kg)|||1.48|0.81|0.5592
92219592|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.9305|TWO_SIDED|95.0|-0.64|0.58|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, RVS at Week 4||0.58|-0.64|0.9305
92219593|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77||||0.0141|TWO_SIDED|95.0|0.16|1.39|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, RVS at Week 4||1.39|0.16|0.0141
92219594|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.65||||0.0562|TWO_SIDED|95.0|-0.02|1.31|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, RVS at Week 6||1.31|-0.02|0.0562
92219595|NCT00880399|184339718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74||||0.0296|TWO_SIDED|95.0|0.07|1.4|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, RVS at Week 6||1.40|0.07|0.0296
92350483|NCT00327171|184605516|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.124||||0.5457|TWO_SIDED|95.0|0.77|1.64|||Log Rank||Estimated using Cox proportional Hazard model using treatment as the factor (4 mg/kg vs. 2mg/kg)|||1.64|0.77|0.5457
92219596|NCT00880399|184339722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2||||0.0735|TWO_SIDED|95.0|-0.21|4.61|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||4.61|-0.21|0.0735
92219597|NCT00880399|184339722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.35||||0.2905|TWO_SIDED|95.0|-1.17|3.86|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||3.86|-1.17|0.2905
92350484|NCT01363440|184605520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.19|||<|0.0001|TWO_SIDED|97.5|9.35|15.04|||ANCOVA|||||15.04|9.35|<.0001
92350485|NCT01363440|184605520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.45|||<|0.0001|TWO_SIDED|97.5|7.73|13.17|||ANCOVA|||||13.17|7.73|<.0001
92350486|NCT01363440|184605521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|45.9||||0.0001|TWO_SIDED|97.5|34.7|57.0|||Cochran-Mantel-Haenszel|||||57.0|34.7|.0001
92350487|NCT01363440|184605521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|38.8||||0.0001|TWO_SIDED|97.5|27.2|50.3|||Cochran-Mantel-Haenszel|||||50.3|27.2|.0001
92350488|NCT01363440|184605522|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.2|||<|0.0001|TWO_SIDED|97.5|24.1|44.4|||Cochran-Mantel-Haenszel|||||44.4|24.1|<0.0001
92350489|NCT01363440|184605522|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.3|||<|0.0001|TWO_SIDED|97.5|13.5|33.1|||Cochran-Mantel-Haenszel|||||33.1|13.5|<.0001
92350490|NCT01363440|184605523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.7|||<|0.0001|TWO_SIDED|97.5|9.0|30.4|||Cochran-Mantel-Haenszel|||||30.4|9.0|<.0001
92219598|NCT00880399|184339722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.05||||0.4327|TWO_SIDED|95.0|-1.6|3.7|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||3.70|-1.60|0.4327
92219599|NCT00880399|184339722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.01||||0.4642|TWO_SIDED|95.0|-1.73|3.75|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||3.75|-1.73|0.4642
92219600|NCT00880399|184339722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.48||||0.285|TWO_SIDED|95.0|-1.26|4.23|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||4.23|-1.26|0.2850
92350491|NCT01363440|184605523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.9||||0.0017|TWO_SIDED|97.5|4.4|25.4|||Cochran-Mantel-Haenszel|||||25.4|4.4|0.0017
92350492|NCT01363440|184605524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-110.8|||<|0.0001|TWO_SIDED|97.5|-141.3|-80.22|||ANCOVA|||||-80.22|-141.3|<.0001
92350493|NCT01363440|184605524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-113.5|||<|0.0001|TWO_SIDED|97.5|-144.2|-82.75|||ANCOVA|||||-82.75|-144.2|<.0001
92350494|NCT01363440|184605525|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.19||||0.0168||97.5|0.33|10.04|||ANCOVA|||||10.04|0.33|0.0168
92350495|NCT01363440|184605525|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.36||||0.0323|TWO_SIDED|97.5|-0.21|8.93|||ANCOVA|||||8.93|-0.21|0.0323
92350496|NCT01363440|184605526|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.86||||0.1702|TWO_SIDED|97.5|-1.82|7.54|||ANCOVA|||||7.54|-1.82|0.1702
92350497|NCT01363440|184605526|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.65||||0.4067|TWO_SIDED|97.5|-2.83|6.13|||ANCOVA|||||6.13|-2.83|0.4067
92350498|NCT03695094|184605537|OTHER||Geometric mean ratio|0.725|||||TWO_SIDED|90.0|0.586|0.896|||ANOVA|||The analysis of variance model (ANOVA) included the fixed effects of treatment group. The natural logs were taken of the dependent variables and were back-transformed after the analysis. The geometric mean ratio and the respective 90% confidence interval (CI) was derived for the Inducers group vs the Neutral-control group from the ANOVA model using least-squares means difference.||0.896|0.586|
92350499|NCT03695094|184605539|OTHER||Geometric mean ratio|0.636|||||TWO_SIDED|90.0|0.504|0.801|||ANOVA|||The analysis of variance model (ANOVA) included the fixed effects of treatment group. The natural logs were taken of the dependent variables and were back-transformed after the analysis. The geometric mean ratio and the respective 90% confidence interval (CI) was derived for the Inducers group vs the Neutral-control group from the ANOVA model using least-squares means difference.||0.801|0.504|
92350500|NCT04764539|184605560|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_DEVIATION|0.294|<|0.555|TWO_SIDED|95.0|-1.276|0.796||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group - iPad Pro group)|The Mean Length of Utterance (MLU) will not increase from baseline for the either the iPad Pro or VR goggle participant group after having used the VAST system for 2 months.||0.796|-1.276|<0.555
92350501|NCT04764539|184605560|SUPERIORITY||Mean Difference (Final Values)|0.5383|STANDARD_DEVIATION|0.659|<|0.2128|TWO_SIDED|95.0|-0.471|1.548||Sample size is too small for statistical power.|ANOVA||Difference = (iPad Pro group Post-Treatment - iPad Pro group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||1.548|-0.471|<0.2128
92350502|NCT04764539|184605560|SUPERIORITY||Mean Difference (Final Values)|0.298|STANDARD_DEVIATION|0.365|<|0.533|TWO_SIDED|95.0|-0.915|1.511||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group Post-Treatment - VR goggles group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||1.511|-0.915|<0.533
92350503|NCT04764539|184605561|SUPERIORITY||Mean Difference (Final Values)|1.388|STANDARD_DEVIATION|1.7|<|0.289|TWO_SIDED|95.0|-1.763|4.539||Sample size too small for statistical power. In addition, automated speech recognition for child speech had a very poor state-of-the-art at the time of this study.|ANOVA||Difference = (iPad Pro group - VR goggles group)|The percentage of correctly transcribed words using automatic speech recognition will not increase from baseline for the either the iPad Pro or VR goggle participant group after having used the VAST system for 2 months.||4.539|-1.763|<0.289
92350504|NCT04764539|184605562|SUPERIORITY||Mean Difference (Final Values)|-3.51|STANDARD_DEVIATION|4.3||0.4296|TWO_SIDED|95.0|-49.68|42.66||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group - iPad Pro group)|Articulation Accuracy does not statistically differ for the iPad Pro or VR goggle participant group after having used the VAST system for 2 months.||42.66|-49.68|0.4296
92350505|NCT04764539|184605562|SUPERIORITY||Mean Difference (Final Values)|19.75|STANDARD_DEVIATION|24.19|<|0.294|TWO_SIDED|95.0|-25.7|65.2||Sample size is too small for statistical power.|ANOVA||Difference = (iPad Pro group Post-Treatment - iPad Pro group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||65.2|-25.7|<0.294
92350506|NCT04764539|184605562|SUPERIORITY||Mean Difference (Final Values)|16.25|STANDARD_DEVIATION|19.9|<|0.419|TWO_SIDED|95.0|-33.86|66.36||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group Post-Treatment - VR goggles group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||66.36|-33.86|<0.419
92219601|NCT00880399|184339722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75||||0.5984|TWO_SIDED|95.0|-2.08|3.59|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||3.59|-2.08|0.5984
92219602|NCT00880399|184339722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.21||||0.4192|TWO_SIDED|95.0|-1.76|4.19|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||4.19|-1.76|0.4192
92219603|NCT00880399|184339722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.64||||0.6766|TWO_SIDED|95.0|-2.42|3.71|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||3.71|-2.42|0.6766
92219604|NCT00880399|184339723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.9951|TWO_SIDED|95.0|-1.26|1.25|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||1.25|-1.26|0.9951
92219605|NCT00880399|184339723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.894|TWO_SIDED|95.0|-1.17|1.34|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||1.34|-1.17|0.8940
92219606|NCT00880399|184339723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.8195|TWO_SIDED|95.0|-1.61|1.28|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||1.28|-1.61|0.8195
92219607|NCT00880399|184339723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.4106|TWO_SIDED|95.0|-0.84|2.05|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||2.05|-0.84|0.4106
92219608|NCT00880399|184339723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.9403|TWO_SIDED|95.0|-1.71|1.85|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||1.85|-1.71|0.9403
92219609|NCT00880399|184339723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.58||||0.5206|TWO_SIDED|95.0|-2.36|1.2|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||1.20|-2.36|0.5206
92219610|NCT00880399|184339723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.714|TWO_SIDED|95.0|-2.3|1.58|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||1.58|-2.30|0.7140
92219611|NCT00880399|184339723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.26||||0.0234|TWO_SIDED|95.0|-4.22|-0.31|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.31|-4.22|0.0234
92219612|NCT01761084|184339799|SUPERIORITY||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.58|1.94||||||||1.94|.58|
92219613|NCT01761084|184339800|SUPERIORITY||Risk Ratio (RR)|1.32|||||TWO_SIDED|95.0|0.99|1.74||||||||1.74|.99|
92219614|NCT01761084|184339801|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.811|TWO_SIDED|95.0|-0.84|1.07|||t-test, 2 sided|Intention-to-treat analysis|Intention-to-treat analysis|Baseline||1.07|-0.84|0.811
92275751|NCT01769378|184453940|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.43||0.12|TWO_SIDED|95.0|-1.53|0.18|||Mixed Models Analysis|Sequential gatekeeping strategy was used to adjust for multiplicity.||||0.18|-1.53|0.120
92219615|NCT01761084|184339801|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.765|TWO_SIDED|95.0|-0.8|1.09|||t-test, 2 sided||Per-protocol analysis|Month 12||1.09|-0.80|0.765
92219616|NCT01761084|184339802|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.796|TWO_SIDED|95.0|-0.8|0.61|||t-test, 2 sided||Intention-to-treat analysis|Baseline||0.61|-0.80|0.796
92219617|NCT01761084|184339802|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.888|TWO_SIDED|95.0|-0.75|0.65|||t-test, 2 sided||Per-protocol analysis|Month 12||0.65|-0.75|0.888
92219618|NCT01761084|184339803|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.719|TWO_SIDED|95.0|-0.54|0.78|||t-test, 2 sided||Intention-to-treat analysis|Baseline||0.78|-0.54|0.719
92219619|NCT01761084|184339803|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.745|TWO_SIDED|95.0|-0.56|0.79|||t-test, 2 sided||Per-protocol analysis|Month 12||0.79|-0.56|0.745
92219620|NCT01761084|184339804|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.854|TWO_SIDED|95.0|-5.66|6.83|||t-test, 2 sided||Intention-to-treat analysis|Comparison of change from baseline in EQ5D - VAS||6.83|-5.66|0.854
92219621|NCT01761084|184339804|SUPERIORITY||Mean Difference (Final Values)|1.78||||0.585|TWO_SIDED|95.0|-4.66|8.22|||t-test, 2 sided||Per-protocol analysis|Comparison of change from baseline in EQ5D-VAS||8.22|-4.66|0.585
92219622|NCT01761084|184339804|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.335|TWO_SIDED|95.0|-0.16|0.47|||t-test, 2 sided||Intention-to-treat analysis|Comparison of change from baseline in OQLQ Average Score||0.47|-0.16|0.335
92219623|NCT01761084|184339804|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.285|TWO_SIDED|95.0|-0.15|0.5|||t-test, 2 sided||Per-protocol analysis|Comparison of change from baseline in OQLQ Average Score||0.50|-0.15|0.285
92219624|NCT01761084|184339804|SUPERIORITY||Mean Difference (Final Values)|-0.52||||0.225|TWO_SIDED|95.0|-1.36|0.32|||t-test, 2 sided||Intention-to-treat analysis|Comparison of change from baseline in pain VAS at rest||0.32|-1.36|0.225
92219625|NCT01761084|184339804|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.488|TWO_SIDED|95.0|-1.16|0.56|||t-test, 2 sided||Per-protocol analysis|Comparison of change from baseline in pain VAS at rest||0.56|-1.16|0.488
92219626|NCT01761084|184339804|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.808|TWO_SIDED|95.0|-0.68|0.88|||t-test, 2 sided||Intention-to-treat analysis|Comparison of change from baseline in pain VAS during movement||0.88|-0.68|0.808
92219627|NCT01761084|184339804|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.566|TWO_SIDED|95.0|-0.57|1.04|||t-test, 2 sided||Per-protocol analysis|Comparison of change from baseline in pain VAS during movement||1.04|-0.57|0.566
92219628|NCT01761084|184339807|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.951|TWO_SIDED|95.0|-1.412|1.501|||t-test, 2 sided|||Baseline||1.501|-1.412|.951
92219629|NCT01761084|184339807|SUPERIORITY||Mean Difference (Final Values)|-1.396||||0.039|TWO_SIDED|95.0|-2.721|-0.071|||t-test, 2 sided|||Month 12||-0.071|-2.721|0.039
92219630|NCT01761084|184339808|SUPERIORITY||Mean Difference (Final Values)|-65.9|||<|0.05|TWO_SIDED|95.0|-91.8|-40.0||Month 6 strength and balance physical activity|t-test, 2 sided|||Only Month 6 and Month 12 strength and balance physical activity differences were significant.||-40.0|-91.8|<0.05
92219631|NCT01761084|184339808|SUPERIORITY||Mean Difference (Final Values)|-49.3|||<|0.05|TWO_SIDED|95.0|-69.8|-28.8||Month 12 strength and balance physical activity|t-test, 2 sided|||Only Month 6 and Month 12 strength and balance physical activity differences were significant.||-28.8|-69.8|<0.05
92219632|NCT01761084|184339813|SUPERIORITY||Incident Rate Ratio|0.97|||||TWO_SIDED|95.0|0.58|1.63||||||Negative Binomial Regression.||1.63|.58|
92219633|NCT01761084|184339816|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.536|TWO_SIDED|95.0|-0.28|0.53|||t-test, 2 sided||Intention-to-treat analysis|Comparison of change from baseline in height||0.53|-0.28|0.536
92350507|NCT04764539|184605563|SUPERIORITY||Mean Difference (Final Values)|1.33|STANDARD_DEVIATION|1.63|<|0.659|TWO_SIDED|95.0|-6.436|9.096||Sample size to small for statistical power.|ANOVA||difference = (iPad group mean - VR goggles group mean)|||9.096|-6.436|<0.659
92350508|NCT04764539|184605564|SUPERIORITY||Mean Difference (Final Values)|7.9|STANDARD_DEVIATION|9.67|<|0.789|TWO_SIDED|95.0|-68.91|84.7|||ANOVA|Sample size too small for statistical power.|Difference = (iPad Pro group - VR Goggles group)|||84.7|-68.91|<0.789
92350509|NCT04764539|184605564|SUPERIORITY||Mean Difference (Final Values)|30.16|STANDARD_DEVIATION|36.94|<|0.304|TWO_SIDED|95.0|-40.85|101.17||Sample size is too small for statistical power.|ANOVA||Difference = (iPad Pro group Post-Treatment - iPad Pro group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||101.17|-40.85|<0.304
92350510|NCT04764539|184605564|SUPERIORITY||Mean Difference (Final Values)|22.26|STANDARD_DEVIATION|27.26|<|0.403|TWO_SIDED|95.0|-43.91|88.43||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group Post-Treatment - VR goggles group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||88.43|-43.91|<0.403
92350511|NCT04764539|184605565|SUPERIORITY||Mean Difference (Final Values)|-2.34|STANDARD_DEVIATION|2.87|<|0.485|TWO_SIDED|95.0|-10.79|6.11||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group - iPad Pro group)|The response to treatment stimuli will not increase from baseline for the either the iPad Pro or VR goggle participant group after having used the VAST system for 2 months.||6.11|-10.79|<0.485
92350512|NCT04764539|184605565|SUPERIORITY||Mean Difference (Final Values)|5.66|STANDARD_DEVIATION|6.94|<|0.065|TWO_SIDED|95.0|-0.569|11.9||Sample size is too small for statistical power.|ANOVA||Difference = (iPad Pro group Post-Treatment - iPad Pro group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||11.9|-0.569|<0.065
92160762|NCT03068468|184210060|SUPERIORITY||Difference|0.9||||0.0387|TWO_SIDED|95.0|0.0|1.7|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in Letter Number Sequence as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline Letter Number Sequence, baseline Letter Number Sequence by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||1.7|0.0|0.0387
92350513|NCT04764539|184605565|SUPERIORITY||Mean Difference (Final Values)|3.34|STANDARD_DEVIATION|4.09|<|0.549|TWO_SIDED|95.0|-10.85|17.53||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group Post-Treatment - VR goggles group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||17.53|-10.85|<0.549
92160763|NCT03068468|184210061|SUPERIORITY||Difference|0.1||||0.9815|TWO_SIDED|95.0|-8.1|8.3|||MMRM|||Color Trails Test 1: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in Color trails Test 1 as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for Color Trails Test 1, baseline Color Trails Test 1 by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||8.3|-8.1|0.9815
92160764|NCT03068468|184210061|SUPERIORITY||Difference|0.0||||0.9869|TWO_SIDED|95.0|-5.7|5.6|||MMRM|||Color Trails Test 2: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in Color Trails Test 2 as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for Color Trails Test 2, baseline Color Trails Test 2 by time interaction, and region.||5.6|-5.7|0.9869
92350514|NCT01795937|184605595|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|198.55|STANDARD_DEVIATION|14.2|||TWO_SIDED|90.0|182.43|216.09|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison faldaprevir+itraconazole : faldaprevir||216.09|182.43|
92350515|NCT01795937|184605596|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|180.63|STANDARD_DEVIATION|14.5|||TWO_SIDED|90.0|165.68|196.93|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison faldaprevir+itraconazole : faldaprevir.||196.93|165.68|
92350516|NCT01795937|184605597|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|946.45|STANDARD_DEVIATION|27.3|||TWO_SIDED|90.0|797.61|1123.07|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison atorvastatin+faldaprevir : atorvastatin.||1123.07|797.61|
92350517|NCT01795937|184605598|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|3372.72|STANDARD_DEVIATION|20.5|||TWO_SIDED|90.0|2961.95|3840.47|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison atorvastatin+faldaprevir : atorvastatin.||3840.47|2961.95|
92350518|NCT01795937|184605601|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|1358.91|STANDARD_DEVIATION|16.4|||TWO_SIDED|90.0|1224.32|1508.29|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison atorvastatin+faldaprevir : atorvastatin.||1508.29|1224.32|
92350519|NCT01795937|184605602|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|1466.35|STANDARD_DEVIATION|23.3|||TWO_SIDED|90.0|1277.62|1682.95|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison rosuvastatin+faldaprevir : rosuvastatin.||1682.95|1277.62|
92350520|NCT01795937|184605603|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|3288.7|STANDARD_DEVIATION|28.5|||TWO_SIDED|90.0|2782.04|3887.63|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison rosuvastatin+faldaprevir : rosuvastatin.||3887.63|2782.04|
92219634|NCT01761084|184339817|SUPERIORITY||Mean Difference (Net)|-0.055||||0.9|TWO_SIDED|95.0|-0.917|0.807|||t-test, 2 sided|||Month 12 scores.||0.807|-0.917|.900
92219635|NCT01761084|184339818|SUPERIORITY||Mean Difference (Final Values)|-5.2|STANDARD_ERROR_OF_MEAN|13.9||0.712|TWO_SIDED|95.0|-33.6|23.2|||t-test, 2 sided|||Baseline||23.2|-33.6|.712
92350521|NCT01795937|184605604|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|1678.23|STANDARD_DEVIATION|22.6|||TWO_SIDED|90.0|1468.52|1917.89|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison rosuvastatin+faldaprevir : rosuvastatin.||1917.89|1468.52|
92350522|NCT01137812|184605605|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation: assuming a difference between canagliflozin and sitagliptin of 0.0% and a common standard deviation of 1.0%, and using a 2-sample, 1-sided t-test with a Type I error rate of 0.025, it was estimated that 234 patients per group would provide approximately 90% power to demonstrate non-inferiority with the non-inferiority margin of 0.3, comparing canagliflozin with sitagliptin.|Least-Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.064|<|0.05|TWO_SIDED|95.0|-0.5|-0.25|||ANCOVA|||If the hypothesis of non-inferiority of canagliflozin to sitagliptin at Week 52 was demonstrated (ie, upper bound of the 95% Confidence Interval of the treatment difference \[canagliflozin minus sitagliptin\] was less than 0.3) and the upper bound was less than 0.0, the superiority of the canagliflozin dose relative to sitagliptin would be concluded.||-0.250|-0.500|<0.05
92350523|NCT01137812|184605606|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|1.3|2.48|||Regression, Logistic|||||2.48|1.30|
92350524|NCT01137812|184605607|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-24.1|||<|0.001|TWO_SIDED|95.0|-29.89|-18.24|||ANCOVA|||||-18.24|-29.89|<0.001
92350525|NCT01137812|184605608|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.3|-2.2|||ANCOVA|||||-2.2|-3.3|<0.001
92350526|NCT01137812|184605609|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.91|STANDARD_ERROR_OF_MEAN|0.883|<|0.001|TWO_SIDED|95.0|-7.642|-4.175|||ANCOVA|||||-4.175|-7.642|<0.001
92400479|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.543|||<|0.0001|TWO_SIDED|95.0|2.399|4.687|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.687|2.399|<.0001
92219636|NCT01761084|184339818|SUPERIORITY||Mean Difference (Final Values)|8.1|STANDARD_ERROR_OF_MEAN|15.3||0.6|TWO_SIDED|95.0|-23.3|39.5|||t-test, 1 sided|||Month 12||39.5|-23.3|.60
92219637|NCT01761084|184339820|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.461|TWO_SIDED|95.0|-0.25|0.55|||t-test, 2 sided||Per-protocol analysis|Comparison of change from baseline in weight||0.55|-0.25|0.461
92275752|NCT01769378|184453941|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.16||0.161|TWO_SIDED|95.0|-0.54|0.09||No adjustment for multiplicity|Mixed Models Analysis|||||0.09|-0.54|0.161
92275753|NCT01769378|184453942|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-28.95|STANDARD_ERROR_OF_MEAN|4.85|<|0.001|TWO_SIDED|95.0|-38.49|-19.4|||Mixed Models Analysis|||||-19.40|-38.49|<0.001
92350527|NCT01137812|184605610|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|3.9||0.554|TWO_SIDED|95.0|-9.8|5.3|||ANCOVA|||||5.3|-9.8|0.554
92350528|NCT01137812|184605611|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|4.6|9.3|||ANCOVA|||||9.3|4.6|<0.001
92350529|NCT03927157|184605619|SUPERIORITY||Rate Ratio|0.26|||<|0.001|TWO_SIDED|95.0|0.17|0.39|||Negative Binomial Regression|||||0.39|0.17|<0.001
92350530|NCT03927157|184605620|SUPERIORITY||Least Squares Mean Difference|0.24|||<|0.001|TWO_SIDED|95.0|0.16|0.32|||Mixed Models Analysis|||||0.32|0.16|<0.001
92350531|NCT03927157|184605621|SUPERIORITY||Least Squares Means Difference|0.35||||0.001|TWO_SIDED|95.0|0.14|0.55|||Mixed Models Analysis|||||0.55|0.14|0.001
92350532|NCT03927157|184605622|SUPERIORITY||Least Squares Means Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.47|-0.15|||Mixed Models Analysis|||||-0.15|-0.47|<0.001
92350533|NCT03927157|184605623|SUPERIORITY||Least Squares Means Difference|-0.16||||0.001|TWO_SIDED|95.0|-0.27|-0.06|||Mixed Models Analysis|||||-0.06|-0.27|0.001
92350534|NCT02265744|184605654|SUPERIORITY|||||||0.9745|||||||Chi-squared|Nominal p-values that are not adjusted for multiplicity.||||||0.9745
92350535|NCT02265744|184605654|SUPERIORITY|||||||0.6217|||||||Chi-squared|Nominal p-values that are not adjusted for multiplicity.||||||0.6217
92350536|NCT02265744|184605654|SUPERIORITY|||||||0.8295|||||||Chi-squared|Nominal p-values that are not adjusted for multiplicity.||||||0.8295
92350537|NCT02265744|184605654|SUPERIORITY|||||||0.9439|||||||Chi-squared|Nominal p-values that are not adjusted for multiplicity.||||||0.9439
92350538|NCT00923702|184605688|NON_INFERIORITY|To test for non-inferiority of antibody concentrations in different dose groups, log-transformed mean MFIs in linear regression models were used to obtain MFI ratios and their corresponding 95% confidence intervals (CIs). Antibody titres at months 0, 7, 12, 36 and 48 were compared and non-inferiority was inferred when the lower bound of the confidence interval of the ratio of the immunogenicity measures exceeded 0.5.|Risk Ratio (RR)|0.5|||||ONE_SIDED||||||Regression, Linear||The lower bound of the 95% CI ratio of immunogeneicity measures was used instead. No p-values were estimated.|||||
92350539|NCT00923702|184605689|SUPERIORITY||Vaccine efficacy|95.0|||||TWO_SIDED|||||||||||||
92350540|NCT01086475|184605693|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||t-test, 2 sided|||||||0.45
92275754|NCT02784106|184454017|SUPERIORITY||Difference in Proportion of Responders|0.1|||||TWO_SIDED|80.0|-0.07|0.25||||||||0.25|-0.07|
92350541|NCT01086475|184605694|SUPERIORITY_OR_OTHER|||||||0.927|||||||Chi-squared|||||||0.927
92350542|NCT01086475|184605695|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||t-test, 2 sided|||||||0.048
92350543|NCT02448043|184605729|SUPERIORITY|||||||0.532||||||Threshold is p\<0.05|t-test, 2 sided|||||||0.532
92350544|NCT02448043|184605730|SUPERIORITY|||||||0.523||||||Threshold is p\<0.05|t-test, 2 sided|||||||0.523
92400480|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.584|||<|0.0001||95.0|2.354|4.814|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects)||4.814|2.354|<.0001
92219638|NCT01261507|184339821|SUPERIORITY_OR_OTHER||difference in areas under the LROC curve|-0.059|STANDARD_ERROR_OF_MEAN|0.037|<|0.05|TWO_SIDED|95.0|-0.086|-0.031|||mixed model:Dorfman, Berbaum, Metz|||Measure is the difference between the radiologists working without the software less the value for the radiologists working with the software. Thus a negative value would indicate that the the radiologists showed better results when using the software.||-0.031|-0.086|<0.05
92160765|NCT03068468|184210062|SUPERIORITY||Difference|0.5||||0.1763|TWO_SIDED|95.0|-0.2|1.2|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MoCA as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MoCA, baseline MoCA by time interaction,baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||1.2|-0.2|0.1763
92219639|NCT02700412|184339833|OTHER|Single group.|||||<|0.0001||||||P-value reported above is the global test for change in seizure frequency over a 12-month period.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test with Bonferonni multiple comparison correction was used as a post-hoc analysis to indicate direction of change.||Null hypothesis is that there was no change in seizure frequency between any two assessment time points during this period of analysis. Alternative hypothesis is that there were two or more assessment time points for which change in seizure frequency was different from zero.|Generalized least squares statistical techniques were used for modeling longitudinal data after normality of seizure frequency outcome measures were achieved through log-transformations methods. The following baseline clinical variables were adjusted for: AEDs, AEDs tried, epileptic surgery, and gender. Reported results were geometric least squares mean and its associated 95% Confidence Interval. Percentage reduction in seizure frequency relative to baseline were obtained by subtracting from 1 and then multiplying by 100 at all post-baseline timepoints.|||<0.0001
92275755|NCT02784106|184454018|SUPERIORITY||Difference in Mean Changes|-1.93|||||TWO_SIDED|80.0|-5.54|1.69||||||||1.69|-5.54|
92275756|NCT02784106|184454019|SUPERIORITY||Difference in Proportion of Responders|-0.04|||||TWO_SIDED|80.0|-0.13|0.06||||||Day 28||0.06|-0.13|
92350545|NCT02448043|184605731|SUPERIORITY|||||||0.912||||||Threshold is p\<0.05|t-test, 2 sided|||Comparing baseline values of both arms to completion values of both arms||||0.912
92350546|NCT02448043|184605732|SUPERIORITY|||||||0.062||||||Threshold is p\<0.05|t-test, 2 sided|||Comparison between baseline nail brittleness values and completion values||||0.062
92350547|NCT06901544|184605848|OTHER|Comparison of 28-day mortality between groups using chi-squared test.||||||0.001|||||||Chi-squared|||||||0.001
92350548|NCT06901544|184605849|SUPERIORITY||Mean Difference (Final Values)|0.243||||0.243|TWO_SIDED|95.0|-0.567|2.207|||t-test, 2 sided|||||2.207|-0.567|0.243
92275757|NCT02784106|184454019|SUPERIORITY||Difference in Proportion of Responders|-0.04|||||TWO_SIDED|80.0|-0.18|0.09||||||Day 56||0.09|-0.18|
92275758|NCT02784106|184454019|SUPERIORITY||Difference in Proportion of Responders|-0.01|||||TWO_SIDED|80.0|-0.15|0.12||||||Day 84||0.12|-0.15|
92350549|NCT06901544|184605850|OTHER|Comparison of mean PCT levels between groups using two-sample t-test.|Mean Difference (Final Values)|7.97||||0.037|TWO_SIDED|95.0|0.54|15.4|||t-test, 2 sided|||||15.40|0.54|0.037
92350550|NCT03971422|184605851|SUPERIORITY||LS Mean Difference|-2.586|||<|0.001|TWO_SIDED|95.0|-4.091|-1.249||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||Mixed model repeated measure (MMRM) ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-1.249|-4.091|<0.001
92350551|NCT03971422|184605851|SUPERIORITY||LS Mean Difference|-2.619|||<|0.001|TWO_SIDED|95.0|-3.994|-1.163||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM analysis of covariance (ANCOVA) model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-1.163|-3.994|<0.001
92350552|NCT03971422|184605852|SUPERIORITY||Odds Ratio (OR)|5.765|||<|0.001|TWO_SIDED|95.0|2.1|14.882||p-value is nominal. Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Wald test||The OR of responder rates is estimated and tested between treatment groups using logistic regression model with treatment group, Baseline MG-ADL score and stratification factor (MuSK+ or AChR+). An OR \> 1 favours rozanolixizumab.|||14.882|2.100|<0.001
92350553|NCT03971422|184605852|SUPERIORITY||Odds Ratio (OR)|4.273|||<|0.001|TWO_SIDED|95.0|1.653|11.791||p-value is nominal. Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Wald test||The OR of responder rates is estimated and tested between treatment groups using logistic regression model with treatment group, Baseline MG-ADL score and stratification factor (MuSK+ or AChR+). An OR \> 1 favours rozanolixizumab.|||11.791|1.653|<0.001
92400481|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.606|||<|0.0001|TWO_SIDED|95.0|2.326|4.887|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.887|2.326|<.0001
92400482|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.647|||<|0.0001|TWO_SIDED|95.0|2.272|5.022|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.022|2.272|<.0001
92219640|NCT02700412|184339834|OTHER|Single group.|||||<|0.0001||||||P-value reported above is the global test for change in seizure severity scores over a 12-month period.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test with Bonferonni multiple comparison correction was used as a post-hoc analysis to indicate direction of change.||Null hypothesis is that there was no change in seizure severity scores between any two assessment time points during this period of analysis. Alternative hypothesis is that there were two or more assessment time points for which change in seizure severity scores was different from zero.|Generalized least squares statistical techniques were used for modeling longitudinal data after normality of seizure severity score outcome measures were achieved through log-transformations methods. The following baseline clinical variables were adjusted for: AEDs, AEDs tried, epileptic surgery, and gender. Reported results were geometric least squares mean and its associated 95% Confidence Interval. Percentage reduction in seizure severity relative to baseline were obtained by subtracting from 1 and then multiplying by 100 at all post-baseline timepoints.|||<0.0001
92219641|NCT04416555|184339836|SUPERIORITY|||||||0.391|||||||Mixed Models Analysis|||||||0.391
92219642|NCT04416555|184339837|SUPERIORITY|||||||0.608|||||||Regression, Linear|||||||0.608
92350554|NCT03971422|184605853|SUPERIORITY||LS Mean Difference|-3.901|||<|0.001|TWO_SIDED|95.0|-6.634|-1.245||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-1.245|-6.634|<0.001
92350555|NCT03971422|184605853|SUPERIORITY||LS Mean Difference|-5.525|||<|0.001|TWO_SIDED|95.0|-8.303|-2.968||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-2.968|-8.303|<0.001
92350556|NCT03971422|184605854|SUPERIORITY||LS Mean Difference|-3.483|||<|0.001|TWO_SIDED|95.0|-5.614|-1.584||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-1.584|-5.614|<0.001
92350557|NCT03971422|184605854|SUPERIORITY||LS Mean Difference|-4.756|||<|0.001|TWO_SIDED|95.0|-6.821|-2.859||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-2.859|-6.821|<0.001
92350558|NCT03971422|184605855|SUPERIORITY||LS Mean Difference|-12.441|||<|0.001|TWO_SIDED|95.0|-21.804|-4.089||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-4.089|-21.804|<0.001
92350559|NCT03971422|184605855|SUPERIORITY||LS Mean Difference|-15.163|||<|0.001|TWO_SIDED|95.0|-23.596|-6.45||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-6.450|-23.596|<0.001
92350560|NCT03971422|184605856|SUPERIORITY||LS Mean Difference|-8.65||||0.012|TWO_SIDED|95.0|-18.058|-0.134||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-0.134|-18.058|0.012
92350561|NCT03971422|184605856|SUPERIORITY||LS Mean Difference|-14.822|||<|0.001|TWO_SIDED|95.0|-23.759|-5.936||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-5.936|-23.759|<0.001
92219643|NCT04416555|184339838|SUPERIORITY|||||||0.768|||||||Mixed Models Analysis|||||||0.768
92219644|NCT04416555|184339839|SUPERIORITY|||||||0.244|||||||Wilcoxon (Mann-Whitney)|||||||0.244
92160766|NCT03068468|184210064|SUPERIORITY||Difference|-0.021||||0.9527|TWO_SIDED|95.0|-0.726|0.684|||MMRM|||Ventricles Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.684|-0.726|0.9527
92160767|NCT03068468|184210064|SUPERIORITY||Difference|-0.514||||0.7357|TWO_SIDED|95.0|-3.506|2.478|||MMRM|||Whole Brain Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||2.478|-3.506|0.7357
92350562|NCT03971422|184605857|SUPERIORITY||LS Mean Difference|-11.32|||<|0.001|TWO_SIDED|95.0|-18.958|-4.998||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-4.998|-18.958|<0.001
92350563|NCT03971422|184605857|SUPERIORITY||LS Mean Difference|-10.705|||<|0.001|TWO_SIDED|95.0|-17.787|-3.998||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-3.998|-17.787|<0.001
92350564|NCT03083379|184605860|EQUIVALENCE|Equivalency is defined as no statistically significant difference in dorsal region redistribution of ventilation following breath cycle 1, 2, and 3 lung expansion therapy sequences.||||||0.9|||||||Mann-Whitney U test|||||||.90
92350565|NCT01779362|184605871|SUPERIORITY||||||>|0.05||||||All analyses were conducted with values on a log scale and re-exponentiated for presentation.|Regression, Linear|Measures of ß-cell response were modeled simultaneously with insulin sensitivity (M/I) using 2-df seemingly unrelated regression models.||Seemingly unrelated regression was used to compare treatment arms on the combination of insulin sensitivity (M/I as calculated from the hyperglycemic clamp) and insulin secretion (steady-state C-peptide and ACPRmax as co-primary; ACPRg as major secondary,). See statistical analysis plan for further details and R code.||||>0.05
92350566|NCT01779362|184605872|SUPERIORITY||||||>|0.05|||||||Regression, Linear|||||||>0.05
92350567|NCT01779362|184605873|SUPERIORITY||||||>|0.05|||||||Regression, Linear|||||||>0.05
92350568|NCT01779362|184605874|SUPERIORITY||||||<|0.001||||||For all 3 secondary outcomes at M12, p\<0.001, with the Liraglutide+Metformin group different from the 3 others (all p\<0.001).|ANOVA|||Analyses were completed on a log scale and re-exponentiated for display.||||<0.001
92350569|NCT01177410|184605879|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.369||||0.0432|TWO_SIDED|95.0|1.027|5.467|||Regression, Logistic|||||5.467|1.027|0.0432
92350570|NCT01177410|184605879|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.267||||0.6059|TWO_SIDED|95.0|0.515|3.115|||Regression, Logistic|||||3.115|0.515|0.6059
92350571|NCT01177410|184605880|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.232||||0.0327|TWO_SIDED|95.0|1.068|4.664|||Proportional Odds Model|||Proportional odds model was used to compare the number of months the subjects are responders.||4.664|1.068|0.0327
92350572|NCT01177410|184605880|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.148||||0.726|TWO_SIDED|95.0|0.531|2.483|||Proportional Odds Model|||||2.483|0.531|0.7260
92350573|NCT00471354|184605881|SUPERIORITY_OR_OTHER|||||||0.293||95.0|||||Spearman Partial Rank Order Correlation|||||||0.293
92219645|NCT04416555|184339840|SUPERIORITY|||||||0.191|||||||Wilcoxon (Mann-Whitney)|||||||0.191
92275759|NCT02784106|184454020|SUPERIORITY||Difference in Proportion of Responders|0.06|||||TWO_SIDED|80.0|0.01|0.14||||||Day 28||0.14|0.01|
92350574|NCT00471354|184605882|SUPERIORITY_OR_OTHER|||||||0.276||95.0||||P-value for Correlation with Language Scores|Spearman Partial Rank Order Correlation|||||||0.276
92350575|NCT00471354|184605882|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||P-value for Correlation with Math Scores.|Spearman Partial Rank Order Correlation|||||||0.110
92350576|NCT00471354|184605882|SUPERIORITY_OR_OTHER|||||||0.464||95.0||||P-value for Correlation with Science Scores.|Spearman Partial Rank Order Correlation|||||||0.464
92219646|NCT03201458|184339843|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.027|TWO_SIDED|90.0|0.35|0.93||One-sided test|Log Rank|||||0.93|0.35|0.027
92219647|NCT03201458|184339844|SUPERIORITY||Odds Ratio (OR)|2.3||||0.22|TWO_SIDED||||||Fisher Exact|||||||0.22
92219648|NCT03201458|184339846|SUPERIORITY|||||||0.41||||||One-sided test|Log Rank|||||||0.410
92275760|NCT02784106|184454020|SUPERIORITY||Difference in Proportion of Responders|0.03|||||TWO_SIDED|80.0|-0.05|0.11||||||Day 56||0.11|-0.05|
92350577|NCT00471354|184605883|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline in Language Scores.|Paired t-test|||||||<0.001
92350578|NCT00471354|184605883|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline in Math Scores.|Paired t-test|||||||<0.001
92350579|NCT00471354|184605883|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline in Science Scores.|Paired t-test|||||||<0.001
92350580|NCT00471354|184605883|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline in Total Scores.|Paired t-test|||||||<0.001
92400483|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.669|||<|0.0001|TWO_SIDED|95.0|2.24|5.099|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.099|2.240|<.0001
92350581|NCT00471354|184605884|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|||||||<0.001
92219649|NCT00916149|184339868|OTHER||||||>|0.05||||||For each group (levetiracetam and no treatment), the change in IEDs/hour from pre to post-intervention: p \>0.05. The a priori threshold for statistical significance was p=0.05.|Wilcoxon Signed Ranks Test|||Change in frequency of IEDs/per hour was assessed for each group (levetiracetam and no treatment)||||>0.05
92219650|NCT00916149|184339869|OTHER|||||||0.005|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Trial 1 Learning Score from pre to post time points in the no treatment group.||||0.005
92219651|NCT00916149|184339869|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Trial 1 Learning Score from pre to post time points in the levetiracetam group.||||>0.05
92350582|NCT00471354|184605885|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|||||||<0.001
92350583|NCT00471354|184605887|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|||||||<0.001
92350584|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Test to compare Final Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||<0.05
92350585|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Test to compare Final Treatment versus Baseline|paited t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||<0.05
92350586|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Final Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350587|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Post Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350588|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Post Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350589|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Post Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350590|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350591|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350592|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||<0.05
92275761|NCT02784106|184454020|SUPERIORITY||Difference in Proportion of Responders|-0.04|||||TWO_SIDED|80.0|-0.15|0.07||||||Day 84||0.07|-0.15|
92350593|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350594|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350595|NCT01336972|184605888|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92219652|NCT00916149|184339870|OTHER|||||||0.016|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Total Learning Score from pre to post time points in the no treatment group.||||0.016
92219653|NCT00916149|184339870|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Total Learning Score from pre to post time points in the levetiracetam treatment group.||||>0.05
92275762|NCT02784106|184454021|SUPERIORITY||Difference in Mean Changes|-1.4|||||TWO_SIDED|80.0|-5.37|2.58||||||||2.58|-5.37|
92275763|NCT02784106|184454022|SUPERIORITY||Difference in Mean Changes|-0.08|||||TWO_SIDED|80.0|-0.33|0.16||||||Day 28||0.16|-0.33|
92350596|NCT01336972|184605889|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Final Treatment versus Baseline for all treatment groups|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350597|NCT01336972|184605889|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Post Treatment versus Baseline for all treatment groups|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350598|NCT01336972|184605889|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350599|NCT01336972|184605889|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350600|NCT01336972|184605889|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350601|NCT01336972|184605889|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350602|NCT01336972|184605889|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92160768|NCT03068468|184210064|SUPERIORITY||Difference|-0.004||||0.6439|TWO_SIDED|95.0|-0.023|0.014|||MMRM|||Midbrain Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.014|-0.023|0.6439
92160769|NCT03068468|184210064|SUPERIORITY||Difference|0.0||||0.9864|TWO_SIDED|95.0|-0.039|0.04|||MMRM|||Pons Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.040|-0.039|0.9864
92350603|NCT01336972|184605890|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Final Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92160770|NCT03068468|184210064|SUPERIORITY||Difference|0.001||||0.7529|TWO_SIDED|95.0|-0.004|0.006|||MMRM|||Cerebellar Peduncle Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.006|-0.004|0.7529
92160771|NCT03068468|184210064|SUPERIORITY||Difference|0.006||||0.685|TWO_SIDED|95.0|-0.025|0.038|||MMRM|||Third Ventricle Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.038|-0.025|0.6850
92160772|NCT03068468|184210064|SUPERIORITY||Difference|-0.041||||0.9|TWO_SIDED|95.0|-0.68|0.598|||MMRM|||Frontal Lobe Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.598|-0.680|0.9000
92160773|NCT02085356|184210073|OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED|||||||||||||
92160774|NCT02085356|184210074|OTHER||Odds Ratio (OR)|0.32|||||TWO_SIDED|||||||||||||
92160775|NCT02085356|184210075|OTHER|||||||0.605|||||||Mixed Models Analysis|||||||0.605
92160776|NCT02085356|184210076|OTHER|||||||0.902|||||||Chi-squared|||Attendance records could not be retrieved for most participants. However, this analysis was still conducted among those participants who had data.||||0.902
92160777|NCT02085356|184210077|OTHER|||||||0.869|||||||Mixed Models Analysis|||||||0.869
92160778|NCT02085356|184210077|OTHER||Odds Ratio (OR)|0.32||||0.982|TWO_SIDED||||||Mixed Models Analysis|||||||0.982
92160779|NCT01107626|184210188|SUPERIORITY|||||||0.12|||||||Log Rank|Stratified logrank test||||||0.12
92160780|NCT01107626|184210188|SUPERIORITY|||||||0.28|||||||Log Rank|Stratified logrank test||||||0.28
92160781|NCT02715258|184210217|SUPERIORITY||mixed-effects repeated measures|-0.41||||0.0012|TWO_SIDED|95.0|-0.66|-0.16||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|Mixed Models Analysis|||Analysis of change from baseline in HbA1c (%) at Week 24||-0.16|-0.66|0.0012
92160782|NCT02715258|184210217|SUPERIORITY||mixed-effects repeated measures|-0.41||||0.0021|TWO_SIDED|95.0|-0.68|-0.15||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 1: Multiple imputation for change from baseline in HbA1c (%) including observations obtained after rescue medication||-0.15|-0.68|0.0021
92219654|NCT00916149|184339871|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Short Delay score from pre to post time points in the no treatment group.||||>0.05
92219655|NCT00916149|184339871|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Short Delay score from pre to post time points in the levetiracetam treatment group.||||>0.05
92275764|NCT02784106|184454022|SUPERIORITY||Difference in Mean Changes|0.07|||||TWO_SIDED|80.0|-0.29|0.43||||||Day 84||0.43|-0.29|
92275765|NCT02784106|184454023|SUPERIORITY||Difference in Proportion of Participants|0.08|||||TWO_SIDED|80.0|-0.04|0.21||||||||0.21|-0.04|
92275766|NCT02784106|184454024|SUPERIORITY||Difference in Proportion of Participants|-0.04|||||TWO_SIDED|80.0|-0.13|0.06||||||||0.06|-0.13|
92275767|NCT02927847|184454048|OTHER||t-value|0.138||||0.891|TWO_SIDED||||||t-test, 2 sided|||||||0.891
92160783|NCT02715258|184210217|SUPERIORITY||mixed-effects repeated measures|-0.55|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.3||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|Mixed Models Analysis|||Sensitivity Analysis 2: Multiple imputation for change from baseline in HbA1c (%) excluding observations obtained after rescue medication||-0.30|-0.80|<0.0001
92160784|NCT02715258|184210217|SUPERIORITY||mixed-effects repeated measures|-0.4||||0.0009|TWO_SIDED|95.0|-0.64|-0.17||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 3: LOCF for change from baseline in HbA1c (%) including observations obtained after rescue medication||-0.17|-0.64|0.0009
92160785|NCT02715258|184210218|SUPERIORITY||mixed-effects repeated measures|-2.14||||0.234|TWO_SIDED|95.0|-5.66|1.39||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Analysis of change from baseline in SBP (mm Hg) at Week 24||1.39|-5.66|0.2340
92160786|NCT02715258|184210218|SUPERIORITY||mixed-effects repeated measures|-1.91||||0.2937|TWO_SIDED|95.0|-5.48|1.66||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 1: Multiple imputation for change from baseline in SBP (mm Hg) including observations obtained after rescue medication||1.66|-5.48|0.2937
92160787|NCT02715258|184210218|SUPERIORITY||mixed-effects repeated measures|-1.72||||0.403|TWO_SIDED|95.0|-5.75|2.32||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 2: Multiple imputation for change from baseline in SBP (mm Hg) excluding observations obtained after rescue medication||2.32|-5.75|0.4030
92160788|NCT02715258|184210218|SUPERIORITY||mixed-effects repeated measures|-2.09||||0.216|TWO_SIDED|95.0|-5.41|1.23||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||||1.23|-5.41|0.2160
92160789|NCT02715258|184210219|SUPERIORITY||mixed-effects repeated measures|-0.79||||0.1222|TWO_SIDED|95.0|-1.8|0.21||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Analysis of change from baseline in body weight (kg) at Week 24 for subjects with BMI greater than or equal to 25 kg/m2||0.21|-1.80|0.1222
92160790|NCT02715258|184210219|SUPERIORITY||mixed-effects repeated measures|-0.65||||0.2014|TWO_SIDED|95.0|-1.65|0.35||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 1: Multiple imputation for change from baseline in body weight (kg) for subjects with BMI greater than or equal to 25 kg/m2 including observations obtained after rescue medication||0.35|-1.65|0.2014
92160791|NCT02715258|184210219|SUPERIORITY||mixed-effects repeated measures|-0.91||||0.0638|TWO_SIDED|95.0|-1.88|0.05||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 2: Multiple imputation for change from baseline in body weight (kg) for subjects with BMI greater than or equal to 25 kg/m2 excluding observations obtained after rescue medication||0.05|-1.88|0.0638
92160792|NCT02715258|184210219|SUPERIORITY||mixed-effects repeated measures|-0.69||||0.1456|TWO_SIDED|95.0|-1.63|0.24||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 3: LOCF for change from baseline in body weight (kg) for subjects with BMI greater than or equal to 25 kg/m2 including observations obtained after rescue medication||0.24|-1.63|0.1456
92219656|NCT00916149|184339872|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Long Delay score from pre to post time points in the no treatment group.||||>0.05
92219657|NCT00916149|184339872|OTHER|||||||0.045|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Long Delay score from pre to post time points in the levetiracetam treatment group.||||0.045
92219658|NCT00916149|184339873|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Learning score from pre to post time points in the no treatment group.||||>0.05
92275768|NCT02927847|184454049|OTHER||t-value|-0.575||||0.571|TWO_SIDED||||||t-test, 2 sided|||||||0.571
92275769|NCT02927847|184454050|OTHER||Odds Ratio (OR)|1.17||||0.739|TWO_SIDED||||||Regression, Cox|||||||0.739
92275770|NCT03882047|184454088|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275771|NCT03882047|184454088|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275772|NCT03882047|184454088|OTHER|||||||0.03|||||||ANOVA|||||||0.03
92275773|NCT03882047|184454089|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275774|NCT03882047|184454089|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275775|NCT03882047|184454089|OTHER|||||||0.31|||||||ANOVA|||||||0.31
92350604|NCT01336972|184605890|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Post Treatment versus Baseline for all treatment groups|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92160793|NCT02715258|184210220|SUPERIORITY||mixed-effects repeated measures|-1.5|||<|0.0001|TWO_SIDED|95.0|-1.92|-1.09||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Analysis of change from baseline in FPG (mmol/L) over time across 24 weeks||-1.09|-1.92|<0.0001
92160794|NCT02715258|184210221|SUPERIORITY||mixed-effects repeated measures|-0.61|||<|0.0001|TWO_SIDED|95.0|-0.79|-0.43||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Change from baseline in HbA1c (%) at Week 6||-0.43|-0.79|<0.0001
92160795|NCT02715258|184210221|SUPERIORITY||mixed-effects repeated measures|-0.71|||<|0.0001|TWO_SIDED|95.0|-0.92|-0.5||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Change from baseline in HbA1c (%) at Week 12||-0.50|-0.92|<0.0001
92160796|NCT02715258|184210221|SUPERIORITY||mixed-effects repeated measures|-0.57|||<|0.0001|TWO_SIDED|95.0|-0.78|-0.36||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Change from baseline in HbA1c (%) at Week 18||-0.36|-0.78|<0.0001
92219659|NCT00916149|184339873|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Learning score from pre to post time points in the levetiracetam treatment group.||||>0.05
92219660|NCT00916149|184339874|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Total Learning score from pre to post time points in the no treatment group||||>0.05
92219661|NCT00916149|184339874|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Total Learning score from pre to post time points in the levetiracetam treatment group||||>0.05
92219662|NCT00916149|184339875|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Delayed Recall score from pre to post time points in the no treatment group||||>0.05
92219663|NCT00916149|184339875|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Delayed Recall score from pre to post time points in the levetiracetam treatment group||||>0.05
92219664|NCT00916149|184339876|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the QOLIE score from pre to post time points in the levetiracetam treatment group||||>0.05
92219665|NCT00916149|184339877|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Letter Number Sequencing score from pre to post time points in the no treatment group||||>0.05
92219666|NCT00916149|184339877|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Letter Number Sequencing score from pre to post time points in the levetiracetam treatment group||||>0.05
92219667|NCT00916149|184339878|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Spatial Span score from pre to post time points in the no treatment group||||>0.05
92219668|NCT00916149|184339878|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Spatial Span score from pre to post time points in the levetiracetam treatment group||||>0.05
92219669|NCT00916149|184339879|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Digit Span score from pre to post time points in the no treatment group||||>0.05
92219670|NCT00916149|184339879|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Digit Span score from pre to post time points in the levetiracetam treatment group||||>0.05
92219671|NCT00916149|184339880|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Fluency score from pre to post time points in the no treatment group||||>0.05
92219672|NCT00916149|184339880|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Fluency score from pre to post time points in the levetiracetam treatment group||||>0.05
92219673|NCT00916149|184339881|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in Stroop performance from pre to post time points in the no treatment group||||>0.05
92219674|NCT00916149|184339881|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in Stroop performance from pre to post time points in the levetiracetam treatment group||||>0.05
92219675|NCT00916149|184339882|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Design Fluency score from pre to post time points in the no treatment group||||>0.05
92219676|NCT00916149|184339882|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Design Fluency score from pre to post time points in the levetiracetam treatment group||||>0.05
92219677|NCT00916149|184339883|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in performance on the Trails Test from pre to post time points in the no treatment group||||>0.05
92219678|NCT00916149|184339883|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in performance on the Trails Test from pre to post time points in the levetiracetam treatment group||||>0.05
92350605|NCT01336972|184605890|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92219679|NCT00916149|184339884|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in performance on the Grooved Pegboard task from pre to post time points in the no treatment group||||>0.05
92219680|NCT00916149|184339884|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in performance on the Grooved Pegboard task from pre to post time points in the levetiracetam treatment group||||>0.05
92219681|NCT00916149|184339885|OTHER|||||||0.014|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Digit Symbol score from pre to post time points in the no treatment group||||0.014
92219682|NCT00916149|184339885|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Digit Symbol score from pre to post time points in the levetiracetam treatment group||||>0.05
92219683|NCT00916149|184339886|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CPT Accuracy score from pre to post time points in the no treatment group||||>0.05
92219684|NCT00916149|184339886|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CPT Accuracy score from pre to post time points in the levetiracetam treatment group||||>0.05
92219685|NCT00916149|184339887|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CPT reaction time from pre to post time points in the no treatment group||||>0.05
92219686|NCT00916149|184339887|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CPT reaction time from pre to post time points in the levetiracetam treatment group||||>0.05
92219687|NCT00916149|184339888|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Choice Accuracy score from pre to post time points in the no treatment group||||>0.05
92350606|NCT01336972|184605890|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding||||>0.05
92219688|NCT00916149|184339889|OTHER|||||||0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Choice Reaction Time score from pre to post time points in the no treatment group||||0.05
92219689|NCT00916149|184339890|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Working Memory Accuracy score from pre to post time points in the no treatment group||||>0.05
92219690|NCT00916149|184339890|OTHER|||||||0.039|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Working Memory Accuracy score from pre to post time points in the levetiracetam treatment group||||0.039
92350607|NCT01336972|184605890|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92350608|NCT01336972|184605890|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92219691|NCT00916149|184339891|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Working Memory Reaction Time from pre to post time points in the no treatment group||||>0.05
92219692|NCT00916149|184339891|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Working Memory Reaction Time from pre to post time points in the levetiracetam treatment group||||>0.05
92219693|NCT00916149|184339892|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Non-verbal Working Memory Accuracy score from pre to post time points in the no treatment group||||>0.05
92350609|NCT01336972|184605890|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||<0.05
92350610|NCT01336972|184605890|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
92219694|NCT00916149|184339892|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Non-verbal Working Memory Accuracy score from pre to post time points in the levetiracetam treatment group||||>0.05
92219695|NCT00916149|184339893|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Non-verbal Working Memory Reaction Time from pre to post time points in the no treatment group||||>0.05
92219696|NCT00916149|184339893|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Non-verbal Working Memory Reaction Time from pre to post time points in the levetiracetam treatment group||||>0.05
92219697|NCT00916149|184339894|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Recognition Accuracy score from pre to post time points in the no treatment group||||>0.05
92219698|NCT00916149|184339894|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Recognition Accuracy score from pre to post time points in the levetiracetam treatment group||||>0.05
92219699|NCT00916149|184339895|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Recognition Reaction Time from pre to post time points in the no treatment group||||>0.05
92219700|NCT00916149|184339895|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Recognition Reaction Time from pre to post time points in the levetiracetam treatment group||||>0.05
92219701|NCT00916149|184339896|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Facial Recognition Accuracy score from pre to post time points in the no treatment group||||>0.05
92219702|NCT00916149|184339896|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Facial Recognition Accuracy score from pre to post time points in the levetiracetam treatment group||||>0.05
92219703|NCT00916149|184339897|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Facial Recognition Reaction Time from pre to post time points in the no treatment group||||>0.05
92275776|NCT03882047|184454090|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92160797|NCT02715258|184210221|SUPERIORITY||mixed-effects repeated measures|-0.41||||0.0012|TWO_SIDED|95.0|-0.66|-0.16||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Change from baseline in HbA1c (%) at Week 24||-0.16|-0.66|0.0012
92219704|NCT00916149|184339897|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Facial Recognition Reaction Time from pre to post time points in the levetiracetam treatment group||||>0.05
92350611|NCT01336972|184605891|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t-test|||Test to compare Final Treatment versus Baseline for all treatment groups||||<0.05
92350612|NCT01336972|184605891|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||paired t-test|||Test to compare Post Treatment versus Baseline||||>0.05
92350613|NCT01336972|184605891|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||paired t-test|||Test to compare Post Treatment versus Baseline||||>0.05
92350614|NCT01336972|184605891|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t-test|||Test to compare Post Treatment versus Baseline||||<0.05
92350615|NCT01336972|184605891|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Test to compare treatment groups at Final Treatment||||||>0.05
92350616|NCT01336972|184605891|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|paired t-test|||||||>0.05
92350617|NCT01336972|184605891|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||||||>0.05
92350618|NCT01336972|184605891|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||||||>0.05
92350619|NCT01336972|184605891|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||||||>0.05
92350620|NCT01336972|184605891|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||||||<0.05
92350621|NCT01336972|184605895|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t-test|||Comparison of all treatment groups versus Baseline at Final Treatment||||<0.05
92350622|NCT01336972|184605895|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t-test|||Comparison of all treatment groups versus Baseline at Post Treatment||||<0.05
92350623|NCT01336972|184605895|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
92400484|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.71|||<|0.0001|TWO_SIDED|95.0|2.18|5.24|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.240|2.180|<.0001
92350624|NCT01336972|184605895|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||<0.05
92400485|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.733|||<|0.0001|TWO_SIDED|95.0|2.145|5.32|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.320|2.145|<.0001
92160798|NCT02715258|184210221|SUPERIORITY||mixed-effects repeated measures|-0.58|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.39||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Change from baseline in HbA1c (%) across 24 weeks||-0.39|-0.76|<0.0001
92160799|NCT02715258|184210222|SUPERIORITY||Odds Ratio (OR)|3.39||||0.0006|TWO_SIDED|95.0|1.69|6.8||The logistic regression includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Model-Adjusted proportion of subjects with HbA1c \<7% across 24 weeks||6.80|1.69|0.0006
92160800|NCT04310579|184210223|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.22|ONE_SIDED|95.0||2.5||To demonstrate an effect of oxycodone with midazolam compared to oxycodone alone, it is necessary that the upper bound of the one-sided 95% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone with midazolam compared to oxycodone alone.|Part 1 is powered with consideration to both the effect of oxycodone versus placebo and oxycodone plus midazolam versus oxycodone. Assuming a -4 L/min effect size on VE55 and standard deviation of 5 L/min, there is greater than 90% power at a one-sided 0.05 significance level for a sample size of 20 subjects.||2.5||0.22
92160801|NCT04310579|184210224|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.01|ONE_SIDED|97.5||-0.6||To demonstrate an effect of oxycodone with paroxetine compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-0.6||0.01
92168719|NCT03337399|184227067|NON_INFERIORITY|Pre-specified margin of -10%.|Estimated Proportions|-2.6|||<|0.15|ONE_SIDED|95.0|-10.4|||We used a false discovery rate (FDR) control approach to interpret the results of significance tests of the three secondary outcomes with an FDR of 0.15.|Regression, Linear|||Non-inferiority of stepped PC in the proportion reporting patient-clinician communication about end-of-life care at each patient's final follow-up assessment was evaluated using a binomial generalized linear model with identity link and a one-sided test against the pre-specified margin of -10%.|||-10.4|<0.15
92350625|NCT01336972|184605895|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
92160802|NCT04310579|184210224|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.28|ONE_SIDED|97.5||2.8||To demonstrate an effect of oxycodone with quetiapine compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||2.8||0.28
92160803|NCT04310579|184210225|SUPERIORITY||Mean Difference (Final Values)|-10.2|||<|0.001|ONE_SIDED|97.5||-6.3||To demonstrate an effect of oxycodone with paroxetine compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-6.3||<0.001
92160804|NCT04310579|184210225|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.37|ONE_SIDED|97.5||3.2||To demonstrate an effect of oxycodone with quetiapine compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||3.2||0.37
92160805|NCT04310579|184210226|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.005|ONE_SIDED|95.0||-2.5||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of oxycodone compared to placebo, it is necessary that the upper bound of the one-sided 95% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone compared to placebo.|Part 1 is powered with consideration to both the effect of oxycodone versus placebo and oxycodone plus midazolam versus oxycodone. Assuming a -4 L/min effect size on VE55 and standard deviation of 5 L/min, there is greater than 90% power at a one-sided 0.05 significance level for a sample size of 20 subjects.||-2.5||0.005
92160806|NCT04310579|184210226|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.37|ONE_SIDED|95.0||3.7||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of midazolam compared to placebo, it is necessary that the upper bound of the one-sided 95% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of midazolam compared to placebo.|Part 1 is powered with consideration to both the effect of oxycodone versus placebo and oxycodone plus midazolam versus oxycodone. Assuming a -4 L/min effect size on VE55 and standard deviation of 5 L/min, there is greater than 90% power at a one-sided 0.05 significance level for a sample size of 20 subjects.||3.7||0.37
92168720|NCT03337399|184227068|NON_INFERIORITY|Pre-specified margin of -7 days|Median Difference (Final Values)|-15.2||||0.15|ONE_SIDED|95.0|-25.1|||We used a false discovery rate (FDR) control approach to interpret the results of significance tests of the three secondary outcomes with an FDR of 0.15.|Regression, Linear|||Among patients who died, non-inferiority of stepped PC in the mean length of stay in hospice was assessed using linear regression and a one-sided test against the pre-specified margin of -7 days, based upon published quality metrics.|||-25.1|0.15
92168721|NCT03337399|184227069|SUPERIORITY||Median Difference (Final Values)|-2.3||||0.15|TWO_SIDED|95.0|-2.7|-1.8||We used a false discovery rate (FDR) control approach to interpret the results of significance tests of the three secondary outcomes with an FDR of 0.15|Regression, Linear|||The difference between groups in the mean number of outpatient PC visits per patient by week 24 was assessed using linear regression and a two-sided superiority test.||-1.8|-2.7|0.15
92168722|NCT01198145|184227073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
92168723|NCT01198145|184227074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.23|||||||Chi-squared|||Comparing Tenesmus During RT||||0.23
92168724|NCT01198145|184227074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64|||||||Chi-squared|||Comparing Tenesmus after RT||||0.64
92168725|NCT01198145|184227074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Chi-squared|||Comparing abdominal pain during RT.||||0.30
92168726|NCT01198145|184227074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Chi-squared|||Comparing abdominal pain after RT||||0.02
92168727|NCT01198145|184227074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|||||||Chi-squared|||Comparing constipation during RT||||0.70
92168728|NCT01198145|184227074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63|||||||Chi-squared|||Comparing constipation after RT||||0.63
92275777|NCT03882047|184454090|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92350626|NCT01336972|184605895|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
92350627|NCT01336972|184605895|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
92350628|NCT01336972|184605895|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
92160807|NCT04310579|184210227|SUPERIORITY||Mean Difference (Final Values)|-9.3|||<|0.001|ONE_SIDED|97.5||-3.9||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of paroxetine compared to placebo, it is necessary that the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of paroxetine compared to placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-3.9||<0.001
92160808|NCT04310579|184210227|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.67|ONE_SIDED|97.5||6.4||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of quetiapine compared to placebo, it is necessary that the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of quetiapine compared to placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||6.4||0.67
92160809|NCT04310579|184210229|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.06||||0.33|TWO_SIDED|90.0|0.96|1.17||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Maximum oxycodone concentration was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 1 with treatment as a categorical variable and participant as a random effect||1.17|0.96|0.33
92160810|NCT04310579|184210229|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.25|||<|0.001|TWO_SIDED|90.0|1.14|1.37||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Maximum oxycodone concentration was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 1 with treatment as a categorical variable and participant as a random effect||1.37|1.14|<0.001
92160811|NCT04310579|184210230|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.3|||<|0.001|TWO_SIDED|90.0|1.19|1.43||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Maximum oxycodone concentration was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 5 with treatment as a categorical variable and participant as a random effect||1.43|1.19|<0.001
92160812|NCT04310579|184210230|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.39|||<|0.001|TWO_SIDED|90.0|1.22|1.57||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Maximum oxycodone concentration was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 5 with treatment as a categorical variable and participant as a random effect||1.57|1.22|<0.001
92160813|NCT04310579|184210232|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.03||||0.64|TWO_SIDED|90.0|0.91|1.17||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Area under the curve was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 1 with treatment as a categorical variable and participant as a random effect||1.17|0.91|0.64
92350629|NCT01336972|184605896|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Paired t-test|||Test to compare Final Treatment versus Baseline for all treatment groups||||<0.05
92168729|NCT01198145|184227074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44|||||||Chi-squared|||Comparing diarrhea during RT||||0.44
92350630|NCT01336972|184605896|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||<0.05
92350631|NCT01336972|184605896|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
92168730|NCT01198145|184227074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48|||||||Chi-squared|||Comparing diarrhea after RT||||0.48
92168731|NCT01198145|184227074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.38|||||||Chi-squared|||Comparing rectal bleeding during RT||||0.38
92168732|NCT01198145|184227074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|||||||Chi-squared|||||||0.15
92168733|NCT01198145|184227075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||Result comparing Arm I and Arm II during RT.||||0.56
92168734|NCT01198145|184227075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Result comparing Arm I and Arm II after RT.||||0.74
92168735|NCT00603954|184227081|SUPERIORITY|||||||0.508|||||||Multivariate Cox models|||||||0.508
92350632|NCT01336972|184605896|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||<0.05
92168736|NCT00603954|184227081|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||At day 180||||0.02
92168737|NCT00603954|184227081|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||At Day 365||||0.002
92168738|NCT00603954|184227082|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||At day 100||||0.09
92219705|NCT00916149|184339898|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the NDDIE score from pre to post time points in the no treatment group||||>0.05
92219706|NCT00916149|184339898|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the NDDIE score from pre to post time points in the levetiracetam treatment group||||>0.05
92219707|NCT00916149|184339899|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the AEP score from pre to post time points in the no treatment group||||>0.05
92219708|NCT00916149|184339899|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the AEP score from pre to post time points in the levetiracetam treatment group||||>0.05
92219709|NCT02997735|184339903|SUPERIORITY||Odds Ratio (OR)|7.78|||<|0.001|TWO_SIDED|95.0|2.81|27.9|||Chi-squared||ORs from multivariable logistic regression model of characteristics associated with successful quitline enrollment.|||27.90|2.81|<0.001
92219710|NCT02997735|184339904|SUPERIORITY||Odds Ratio (OR)|0.48||||0.15|TWO_SIDED|95.0|0.13|1.72|||Chi-squared||1-5 years Row (\<1 Ref)|||1.72|0.13|0.15
92350633|NCT01336972|184605896|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Paired t-test|||Test to compare PostTreatment versus Baseline for all treatment groups||||>0.05
92219711|NCT02997735|184339904|SUPERIORITY||Odds Ratio (OR)|0.61|||||TWO_SIDED|95.0|0.18|2.12|||||6-12 years Row (\<1 Ref)|||2.12|0.18|
92219712|NCT02997735|184339904|SUPERIORITY||Odds Ratio (OR)|1.82|||||TWO_SIDED|95.0|0.49|6.94|||||13 or Older Row (\<1 Ref)|||6.94|0.49|
92219713|NCT02997735|184339905|SUPERIORITY||Odds Ratio (OR)|2.38||||0.028|TWO_SIDED|95.0|0.92|6.5|||Chi-squared||35-49 years Row (18-34 Ref)|||6.50|0.92|0.028
92350634|NCT01336972|184605896|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
92350635|NCT01336972|184605896|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
92350636|NCT01336972|184605896|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||<0.05
92350637|NCT01336972|184605897|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired te-test|||Test to compare Final Treatment versus Baseline for all treatment groups||||<0.05
92350638|NCT01336972|184605897|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
92350639|NCT01336972|184605897|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
92350640|NCT01336972|184605897|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
92350641|NCT01336972|184605897|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t-test|||Test to compare Post Treatment versus Baseline||||<0.05
92350642|NCT01336972|184605897|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||paired t-test|||Test to compare Post Treatment versus Baseline||||>0.05
92350643|NCT01336972|184605897|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Paired t-test|||Test to compare Post Treatment versus Baseline||||>0.05
92219714|NCT02997735|184339905|SUPERIORITY||Odds Ratio (OR)|5.1|||||TWO_SIDED|95.0|1.46|17.32|||||50 or older Row (18-34 Ref)|||17.32|1.46|
92219715|NCT02997735|184339906|SUPERIORITY||Odds Ratio (OR)|1.1||||0.85|TWO_SIDED|95.0|0.4|2.8|||Chi-squared||Asthma Row (No asthma Ref)|||2.80|0.40|0.85
92219716|NCT02997735|184339907|SUPERIORITY||Odds Ratio (OR)|2.07||||0.086|TWO_SIDED|95.0|0.9|6.5|||Chi-squared||10 or more cigarettes Row (\<10 cigarettes Ref)|||6.50|0.90|0.086
92219717|NCT02997735|184339908|SUPERIORITY||Odds Ratio (OR)|0.47||||0.35|TWO_SIDED|95.0|0.15|1.27|||Chi-squared||Less than 6 months Row (30 days Ref)|||1.27|0.15|0.35
92219718|NCT02997735|184339908|SUPERIORITY||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.15|2.21|||||||6 or more months Row (30 days Ref)|2.21|0.15|
92219719|NCT00978029|184339911|SUPERIORITY_OR_OTHER||Percent Difference|6.9||||0.486|TWO_SIDED|95.0|-10.17|23.97|||Fisher Exact|||||23.97|-10.17|0.486
92219720|NCT00978029|184339911|SUPERIORITY_OR_OTHER||Percent Difference|16.9||||0.078|TWO_SIDED|95.0|0.01|33.83|||Fisher Exact|||||33.83|0.01|0.078
92275778|NCT03882047|184454090|OTHER|||||||0.01|||||||ANOVA|||||||0.01
92275779|NCT03882047|184454091|OTHER|||||||0.08|||||||ANOVA|||||||0.08
92275780|NCT03882047|184454091|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275781|NCT03882047|184454091|OTHER|||||||0.1|||||||ANOVA|||||||0.10
92350644|NCT01336972|184605897|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
92350645|NCT01336972|184605897|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
92350646|NCT01336972|184605897|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
92350647|NCT03446573|184605900|NON_INFERIORITY|Non-inferiority of switching to DTG + 3TC compared to continuation of TBR (as per FDA snapshot algorithm) was to be concluded if the upper bound of a two-sided 95% confidence interval (CI) for the difference in virologic failure rates between the two treatment arms was smaller than 4%.|Adjusted difference in proportion (ADP)|-0.3|||||TWO_SIDED|95.0|-1.2|0.7|||||ADP was based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factor:Baseline third agent (protease inhibitor \[PI\], non-nucleoside reverse transcriptase inhibitor \[NNRTI\], and integrase inhibitor \[INI\]).|||0.7|-1.2|
92350648|NCT03446573|184605901|NON_INFERIORITY|Non-inferiority of switching to DTG + 3TC compared to continuation of TBR (as per FDA snapshot algorithm) was to be concluded when the lower bound of a 2-sided 95% confidence interval for the difference in success rates between the two treatment arms was greater than -8%.|Adjusted difference in proportion|0.2|||||TWO_SIDED|95.0|-3.4|3.9|||||ADP was based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factor: Baseline third agent (PI, NNRTI, and INSTI).|||3.9|-3.4|
92350649|NCT03446573|184605927|OTHER||Treatment ratio|1.057||||0.257|TWO_SIDED|95.0|0.96|1.164|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UA/C at Week 24 has been presented.|||1.164|0.960|0.257
92350650|NCT03446573|184605927|OTHER||Treatment ratio|1.062||||0.35|TWO_SIDED|95.0|0.936|1.205|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UA/C at Week 48 has been presented.|||1.205|0.936|0.350
92350651|NCT03446573|184605927|OTHER||Treatment ratio|0.979||||0.473|TWO_SIDED|95.0|0.924|1.037|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UP/C at Week 24 has been presented.|||1.037|0.924|0.473
92350652|NCT03446573|184605927|OTHER||Treatment ratio|0.956||||0.212|TWO_SIDED|95.0|0.891|1.026|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UP/C at Week 48 has been presented.|||1.026|0.891|0.212
92350653|NCT03446573|184605929|OTHER||Treatment ratio|0.977||||0.7|TWO_SIDED|95.0|0.866|1.102|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UA/C at Week 96 has been presented.|||1.102|0.866|0.700
92350654|NCT03446573|184605929|OTHER||Treatment ratio|0.971||||0.7|TWO_SIDED|95.0|0.835|1.129|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UA/C at Week 144 has been presented.|||1.129|0.835|0.700
92350655|NCT03446573|184605929|OTHER||Treatment ratio|0.969||||0.356|TWO_SIDED|95.0|0.907|1.036|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UP/C at Week 96 has been presented.|||1.036|0.907|0.356
92350656|NCT03446573|184605929|OTHER||Treatment ratio|0.991||||0.814|TWO_SIDED|95.0|0.916|1.071|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UP/C at Week 144 has been presented.|||1.071|0.916|0.814
92350657|NCT03446573|184605930|OTHER||Treatment ratio|0.958||||0.56|TWO_SIDED|95.0|0.83|1.106|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine beta-2 microglobulin/urine creatinine at Week 24 has been presented.|||1.106|0.830|0.560
92350658|NCT03446573|184605930|OTHER||Treatment ratio|1.055||||0.489|TWO_SIDED|95.0|0.906|1.229|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine beta-2 microglobulin/urine creatinine at Week 48 has been presented.|||1.229|0.906|0.489
92350659|NCT03446573|184605932|OTHER||Treatment ratio|1.165||||0.081|TWO_SIDED|95.0|0.981|1.384|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine beta-2 microglobulin/urine creatinine at Week 96 has been presented.|||1.384|0.981|0.081
92350660|NCT03446573|184605932|OTHER||Treatment ratio|0.981||||0.834|TWO_SIDED|95.0|0.819|1.175|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine beta-2 microglobulin/urine creatinine at Week 144 has been presented.|||1.175|0.819|0.834
92350661|NCT03446573|184605933|OTHER||Treatment ratio|1.017||||0.758|TWO_SIDED|95.0|0.915|1.13|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine phosphate at Week 24 has been presented.|||1.130|0.915|0.758
92350662|NCT03446573|184605933|OTHER||Treatment ratio|0.999||||0.985|TWO_SIDED|95.0|0.894|1.116|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine phosphate at Week 48 has been presented.|||1.116|0.894|0.985
92350663|NCT03446573|184605935|OTHER||Treatment ratio|1.015||||0.806|TWO_SIDED|95.0|0.904|1.139|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine phosphate at Week 96 has been presented.|||1.139|0.904|0.806
92350664|NCT03446573|184605935|OTHER||Treatment ratio|1.019||||0.745|TWO_SIDED|95.0|0.909|1.142|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine phosphate at Week 144 has been presented.|||1.142|0.909|0.745
92350665|NCT03446573|184605936|OTHER||Treatment ratio|0.935||||0.264|TWO_SIDED|95.0|0.83|1.052|||Mixed Model Reported Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine retinol binding protein 4/urine creatinine at Week 24 has been presented.|||1.052|0.830|0.264
92350666|NCT03446573|184605936|OTHER||Treatment ratio|0.996||||0.932|TWO_SIDED|95.0|0.903|1.098|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine retinol binding protein 4/urine creatinine at Week 48 has been presented.|||1.098|0.903|0.932
92350667|NCT03446573|184605938|OTHER||Treatment ratio|1.15||||0.011|TWO_SIDED|95.0|1.032|1.281|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine retinol binding protein 4/urine creatinine at Week 96 has been presented.|||1.281|1.032|0.011
92350668|NCT03446573|184605938|OTHER||Treatment ratio|1.007||||0.895|TWO_SIDED|95.0|0.905|1.121|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine retinol binding protein 4/urine creatinine at Week 144 has been presented.|||1.121|0.905|0.895
92350669|NCT03446573|184605946|OTHER||Mean Difference (Net)|0.29||||0.047|TWO_SIDED|95.0|0.0|0.57|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Bone-ALP at Week 24 has been presented|||0.57|0.00|0.047
92350670|NCT03446573|184605946|OTHER||Mean Difference (Net)|0.31||||0.094|TWO_SIDED|95.0|-0.05|0.68|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Bone-ALP at Week 48 has been presented|||0.68|-0.05|0.094
92350671|NCT03446573|184605946|OTHER||Mean Difference (Net)|-1.34|||<|0.001|TWO_SIDED|95.0|-2.01|-0.68|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Osteocalcin at Week 24 has been presented|||-0.68|-2.01|<0.001
92350672|NCT03446573|184605946|OTHER||Mean Difference (Net)|-1.84|||<|0.001|TWO_SIDED|95.0|-2.59|-1.09|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Osteocalcin at Week 48 has been presented|||-1.09|-2.59|<0.001
92350673|NCT03446573|184605946|OTHER||Mean Difference (Net)|2.1||||0.066|TWO_SIDED|95.0|-0.1|4.3|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for P1NP at Week 24 has been presented|||4.3|-0.1|0.066
92350674|NCT03446573|184605946|OTHER||Mean Difference (Net)|2.9||||0.046|TWO_SIDED|95.0|0.0|5.8|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for P1NP at Week 48 has been presented|||5.8|0.0|0.046
92350675|NCT03446573|184605946|OTHER||Mean Difference (Net)|0.0381||||0.005|TWO_SIDED|95.0|0.0117|0.0646|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for CTX-1 at Week 24 has been presented|||0.0646|0.0117|0.005
92350676|NCT03446573|184605946|OTHER||Mean Difference (Net)|0.0292||||0.032|TWO_SIDED|95.0|0.0025|0.0559|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for CTX-1 at Week 48 has been presented|||0.0559|0.0025|0.032
92160814|NCT04310579|184210232|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.06||||0.24|TWO_SIDED|90.0|0.98|1.15||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Area under the curve was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 1 with treatment as a categorical variable and participant as a random effect||1.15|0.98|0.24
92350677|NCT03446573|184605948|OTHER||Mean Difference (Net)|0.17||||0.386|TWO_SIDED|95.0|-0.22|0.57|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Bone-ALP at Week 96 has been presented|||0.57|-0.22|0.386
92350678|NCT03446573|184605948|OTHER||Mean Difference (Net)|0.14||||0.573|TWO_SIDED|95.0|-0.34|0.61|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Bone-ALP at Week 144 has been presented|||0.61|-0.34|0.573
92350679|NCT03446573|184605948|OTHER||Mean Difference (Net)|-1.87|||<|0.001|TWO_SIDED|95.0|-2.7|-1.04|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Osteocalcin at Week 96 has been presented|||-1.04|-2.70|< 0.001
92350680|NCT03446573|184605948|OTHER||Mean Difference (Net)|-1.95|||<|0.001|TWO_SIDED|95.0|-2.77|-1.14|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Osteocalcin at Week 144 has been presented|||-1.14|-2.77|< 0.001
92350681|NCT03446573|184605948|OTHER||Mean Difference (Net)|2.1||||0.082|TWO_SIDED|95.0|-0.3|4.4|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for P1NP at Week 96 has been presented.|||4.4|-0.3|0.082
92350682|NCT03446573|184605948|OTHER||Mean Difference (Net)|0.4||||0.765|TWO_SIDED|95.0|-2.3|3.2|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for P1NP at Week 144 has been presented|||3.2|-2.3|0.765
92350683|NCT03446573|184605948|OTHER||Mean Difference (Net)|0.0151||||0.301|TWO_SIDED|95.0|-0.0136|0.0438|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for CTX-1 at Week 96 has been presented|||0.0438|-0.0136|0.301
92350684|NCT03446573|184605948|OTHER||Mean Difference (Net)|0.0126||||0.34|TWO_SIDED|95.0|-0.0133|0.0384|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for CTX-1 at Week 144 has been presented|||0.0384|-0.0133|0.340
92350685|NCT03446573|184605949|OTHER||Mean Difference (Net)|-2.2||||0.173|TWO_SIDED|95.0|-5.3|1.0|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum 25 hydroxyvitamin D at Week 24 has been presented|||1.0|-5.3|0.173
92350686|NCT03446573|184605949|OTHER||Mean Difference (Net)|-2.3||||0.168|TWO_SIDED|95.0|-5.5|1.0|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum 25 hydroxyvitamin D at Week 48 has been presented|||1.0|-5.5|0.168
92350687|NCT03446573|184605951|OTHER||Mean Difference (Net)|-9.4|||<|0.001|TWO_SIDED|95.0|-14.0|-4.7|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum 25 hydroxyvitamin D at Week 96 has been presented.|||-4.7|-14.0|<0.001
92350688|NCT03446573|184605951|OTHER||Mean Difference (Net)|-5.6||||0.005|TWO_SIDED|95.0|-9.4|-1.7|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum 25 hydroxyvitamin D at Week 144 has been presented.|||-1.7|-9.4|0.005
92350689|NCT03446573|184605952|OTHER||Mean Difference (Net)|-0.01||||0.027|TWO_SIDED|95.0|-0.03|0.0|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum cystatin C at Week 24 has been presented|||0.00|-0.03|0.027
92350690|NCT03446573|184605952|OTHER||Mean Difference (Net)|-0.01||||0.061|TWO_SIDED|95.0|-0.03|0.0|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum cystatin C at Week 48 has been presented|||0.00|-0.03|0.061
92350691|NCT03446573|184605954|OTHER||Mean Difference (Net)|-0.03||||0.004|TWO_SIDED|95.0|-0.06|-0.01|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum cystatin C at Week 96 has been presented|||-0.01|-0.06|0.004
92350692|NCT03446573|184605954|OTHER||Mean Difference (Net)|-0.01||||0.094|TWO_SIDED|95.0|-0.03|0.0|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum cystatin C at Week 144 has been presented|||0.00|-0.03|0.094
92350693|NCT03446573|184605955|OTHER||Mean Difference (Net)|1.8||||0.012|TWO_SIDED|95.0|0.4|3.1|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from cystatin C adjusted using CKD-EPI at Week 24 has been presented|||3.1|0.4|0.012
92350694|NCT03446573|184605955|OTHER||Mean Difference (Net)|1.6||||0.059|TWO_SIDED|95.0|-0.1|3.3|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from cystatin C adjusted using CKD-EPI at Week 48 has been presented|||3.3|-0.1|0.059
92350695|NCT03446573|184605955|OTHER||Mean Difference (Net)|-5.0|||<|0.001|TWO_SIDED|95.0|-6.3|-3.7|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from creatinine adjusted using CKD-EPI at Week 24 has been presented|||-3.7|-6.3|<0.001
92350696|NCT03446573|184605955|OTHER||Mean Difference (Net)|-4.8|||<|0.001|TWO_SIDED|95.0|-6.1|-3.4|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from creatinine adjusted using CKD-EPI at Week 48 has been presented|||-3.4|-6.1|<0.001
92350697|NCT03446573|184605957|OTHER||Mean Difference (Net)|4.1||||0.002|TWO_SIDED|95.0|1.5|6.7|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from cystatin C adjusted using CKD-EPI at Week 96 has been presented|||6.7|1.5|0.002
92350698|NCT03446573|184605957|OTHER||Mean Difference (Net)|1.9||||0.064|TWO_SIDED|95.0|-0.1|3.8|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from cystatin C adjusted using CKD-EPI at Week 148 has been presented|||3.8|-0.1|0.064
92350699|NCT03446573|184605957|OTHER||Mean Difference (Net)|-5.2|||<|0.001|TWO_SIDED|95.0|-6.7|-3.8|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from creatinine adjusted using CKD-EPI at Week 96 has been presented|||-3.8|-6.7|<0.001
92350700|NCT03446573|184605957|OTHER||Mean Difference (Net)|-4.5|||<|0.001|TWO_SIDED|95.0|-6.2|-2.8|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from creatinine adjusted using CKD-EPI at Week 144 has been presented|||-2.8|-6.2|<0.001
92400486|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.773|||<|0.0001|TWO_SIDED|95.0|2.08|5.466|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.466|2.080|<.0001
92400487|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.796|||<|0.0001|TWO_SIDED|95.0|2.043|5.548|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.548|2.043|<.0001
92400488|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.836|||<|0.0001|TWO_SIDED|95.0|1.975|5.698|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.698|1.975|<.0001
92400489|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.859|||<|0.0001|TWO_SIDED|95.0|1.936|5.781|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.781|1.936|<.0001
92400490|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.899||||0.0002|TWO_SIDED|95.0|1.866|5.933|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.933|1.866|0.0002
92400491|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.922||||0.0002|TWO_SIDED|95.0|1.826|6.018|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.018|1.826|0.0002
92400492|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.962||||0.0004|TWO_SIDED|95.0|1.753|6.172|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.172|1.753|0.0004
92350701|NCT03446573|184605958|OTHER||Mean Difference (Net)|4.37|||<|0.001|TWO_SIDED|95.0|3.03|5.7|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TBR) and its 95% CI for serum creatinine at Week 24 has been presented.|||5.70|3.03|<0.001
92350702|NCT03446573|184605958|OTHER||Mean Difference (Net)|4.49|||<|0.001|TWO_SIDED|95.0|3.18|5.81|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TBR) and its 95% CI for serum creatinine at Week 48 has been presented.|||5.81|3.18|<0.001
92350703|NCT03446573|184605960|OTHER||Mean Difference (Net)|4.95|||<|0.001|TWO_SIDED|95.0|3.47|6.43|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TBR) and its 95% CI for serum creatinine at Week 96 has been presented.|||6.43|3.47|<0.001
92350704|NCT03446573|184605960|OTHER||Mean Difference (Net)|4.08|||<|0.001|TWO_SIDED|95.0|2.32|5.85|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TBR) and its 95% CI for serum creatinine at Week 144 has been presented.|||5.85|2.32|<0.001
92350705|NCT03446573|184605961|OTHER||Mean Difference (Net)|-0.0017||||0.741|TWO_SIDED|95.0|-0.0119|0.0085|||Mixed Model Repeated Measures||Week 24. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Utility (continuous), Treatment by Visit interaction, and Baseline EQ-5D Utility by Visit interaction, with Visit as the repeated factor.|||0.0085|-0.0119|0.741
92350706|NCT03446573|184605961|OTHER||Mean Difference (Net)|0.0015||||0.792|TWO_SIDED|95.0|-0.0094|0.0123|||Mixed Model Repeated Measures||Week 48. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Utility (continuous), Treatment by Visit interaction, and Baseline EQ-5D Utility by Visit interaction, with Visit as the repeated factor.|||0.0123|-0.0094|0.792
92350707|NCT03446573|184605962|OTHER||Mean Difference (Net)|0.0003||||0.965|TWO_SIDED|95.0|-0.0121|0.0126|||Mixed Model Repeated Measures||Week 96. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Utility (continuous), Treatment by Visit interaction, and Baseline EQ-5D Utility by Visit interaction, with Visit as the repeated factor.|||0.0126|-0.0121|0.965
92350708|NCT03446573|184605962|OTHER||Mean Difference (Net)|-0.0109||||0.12|TWO_SIDED|95.0|-0.0247|0.0029|||Mixed Model Repeated Measures||Week 144. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Utility (continuous), Treatment by Visit interaction, and Baseline EQ-5D Utility by Visit interaction, with Visit as the repeated factor.|||0.0029|-0.0247|0.120
92350709|NCT03446573|184605963|OTHER||Mean Difference (Net)|-0.1||||0.879|TWO_SIDED|95.0|-1.4|1.2|||Mixed Model Repeated Measures||Week 24. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Thermometer (continuous), Treatment by Visit interaction, and Baseline EQ-5D Thermometer by Visit interaction, with Visit as the repeated factor.|||1.2|-1.4|0.879
92400493|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.985||||0.0006||95.0|1.712|6.258|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.258|1.712|0.0006
92350710|NCT03446573|184605963|OTHER||Mean Difference (Net)|-0.5||||0.414|TWO_SIDED|95.0|-1.9|0.8|||Mixed Model Repeated Measures||Week 48. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Thermometer (continuous), Treatment by Visit interaction, and Baseline EQ-5D Thermometer by Visit interaction, with Visit as the repeated factor.|||0.8|-1.9|0.414
92219721|NCT01147744|184339921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.056||||0.326|TWO_SIDED|95.0|-0.06|0.17||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.17|-0.06|0.326
92219722|NCT01147744|184339921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.104||||0.066|TWO_SIDED|95.0|-0.01|0.22||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.22|-0.01|0.066
92219723|NCT01147744|184339921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.069||||0.224|TWO_SIDED|95.0|-0.04|0.18||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.18|-0.04|0.224
92219724|NCT01147744|184339921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.062||||0.271|TWO_SIDED|95.0|-0.05|0.17||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.17|-0.05|0.271
92219725|NCT01147744|184339921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.189|||<|0.001|TWO_SIDED|95.0|0.08|0.3||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.30|0.08|<0.001
92219726|NCT01147744|184339921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.22|TWO_SIDED|95.0|-0.04|0.18||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.18|-0.04|0.220
92400494|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.026||||0.001|TWO_SIDED|95.0|1.638|6.413|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.413|1.638|0.0010
92219727|NCT01147744|184339922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.385||||0.932|TWO_SIDED|95.0|-9.25|8.48|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||8.48|-9.25|0.932
92219728|NCT01147744|184339922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.367||||0.762|TWO_SIDED|95.0|-7.5|10.23|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||10.23|-7.50|0.762
92219729|NCT01147744|184339922|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.798||||0.689|TWO_SIDED|95.0|-10.62|7.03|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||7.03|-10.62|0.689
92219730|NCT01147744|184339922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.321||||0.605|TWO_SIDED|95.0|-6.49|11.13|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||11.13|-6.49|0.605
92219731|NCT01147744|184339922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.46||||0.584|TWO_SIDED|95.0|-6.36|11.28|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||11.28|-6.36|0.584
92219732|NCT01147744|184339922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.529||||0.907|TWO_SIDED|95.0|-8.4|9.45|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||9.45|-8.40|0.907
92219733|NCT01147744|184339923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.463||||0.753|TWO_SIDED|95.0|-7.65|10.58|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||10.58|-7.65|0.753
92219734|NCT01147744|184339923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.75||||0.419|TWO_SIDED|95.0|-5.36|12.87|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||12.87|-5.36|0.419
92219735|NCT01147744|184339923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.046||||0.51|TWO_SIDED|95.0|-12.12|6.03|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||6.03|-12.12|0.510
92219736|NCT01147744|184339923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.585||||0.32|TWO_SIDED|95.0|-4.47|13.64|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||13.64|-4.47|0.320
92219737|NCT01147744|184339923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.484||||0.452|TWO_SIDED|95.0|-5.61|12.58|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||12.58|-5.61|0.452
92219738|NCT01147744|184339923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.615||||0.229|TWO_SIDED|95.0|-3.55|14.78|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||14.78|-3.55|0.229
92275782|NCT03882047|184454092|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275783|NCT03882047|184454092|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275784|NCT03882047|184454092|OTHER|||||||0.01|||||||ANOVA|||||||0.01
92275785|NCT03882047|184454093|OTHER|||||||0.02|||||||ANOVA|||||||0.02
92275786|NCT03882047|184454093|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275787|NCT03882047|184454093|OTHER|||||||0.05|||||||ANOVA|||||||0.05
92219739|NCT01147744|184339924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.169||||0.771|TWO_SIDED|95.0|-6.73|9.07|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||9.07|-6.73|0.771
92219740|NCT01147744|184339924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.56||||0.257|TWO_SIDED|95.0|-3.33|12.45|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||12.45|-3.33|0.257
92219741|NCT01147744|184339924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.326||||0.741|TWO_SIDED|95.0|-6.54|9.19|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||9.19|-6.54|0.741
92219742|NCT01147744|184339924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.083||||0.983|TWO_SIDED|95.0|-7.76|7.93|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||7.93|-7.76|0.983
92350711|NCT03446573|184605964|OTHER||Mean Difference (Net)|-1.2||||0.102|TWO_SIDED|95.0|-2.5|0.2|||Mixed Model Repeated Measures||Week 96. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Thermometer (continuous), Treatment by Visit interaction, and Baseline EQ-5D Thermometer by Visit interaction, with Visit as the repeated factor.|||0.2|-2.5|0.102
92219743|NCT01147744|184339924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.204||||0.041|TWO_SIDED|95.0|0.34|16.07|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||16.07|0.34|0.041
92219744|NCT01147744|184339924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.891||||0.475|TWO_SIDED|95.0|-5.05|10.83|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.83|-5.05|0.475
92219745|NCT01147744|184339925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.837||||0.838|TWO_SIDED|95.0|-7.22|8.89|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||8.89|-7.22|0.838
92350712|NCT03446573|184605964|OTHER||Mean Difference (Net)|-1.3||||0.093|TWO_SIDED|95.0|-2.8|0.2|||Mixed Model Repeated Measures||Week 144. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Thermometer (continuous), Treatment by Visit interaction, and Baseline EQ-5D Thermometer by Visit interaction, with Visit as the repeated factor.|||0.2|-2.8|0.093
92350713|NCT00303628|184606044|SUPERIORITY_OR_OTHER_LEGACY|||||||0.876|TWO_SIDED|||||Stratified log rank test. The above P value was for one-sided test|Log Rank|||||||0.876
92350714|NCT00303628|184606045|SUPERIORITY_OR_OTHER_LEGACY|||||||0.299|TWO_SIDED|||||two-sided stratified log rank test p value|Log Rank|||||||0.299
92350715|NCT03158688|184606050|SUPERIORITY||Stratified Cox model hazard ratio|0.63||||0.0014|TWO_SIDED|95.0|0.464|0.854||alpha level of 0.025|Log Rank||KdD/Kd|Stratification factors used in the Log-rank p-value (1-sided) and the Cox model hazard ratio (KdD/Kd) were as assessed at randomization: International Staging System stage at screening (Stage 1 or 2 vs Stage 3); prior proteasome inhibitor exposure (yes vs no); number of prior lines of therapy (1 vs \>= 2).||0.854|0.464|0.0014
92350716|NCT03158688|184606051|SUPERIORITY||Odds Ratio (OR)|1.925||||0.004|TWO_SIDED|95.0|1.184|3.129|||Cochran-Mantel-Haenszel||KdD/Kd|"Odds ratios and corresponding 95% CIs were estimated using the stratified Mantel-Haenszel method.~P-values were calculated using the stratified Cochran-Mantel-Haenszel Chi-Square test."||3.129|1.184|0.0040
92350717|NCT03158688|184606052|SUPERIORITY||Odds Ratio (OR)|7.819|||||TWO_SIDED|95.0|2.364|25.858|||||KdD/Kd|Odds ratios and corresponding 95% CIs were estimated using the stratified Mantel-Haenszel method.||25.858|2.364|
92350718|NCT03158688|184606053|SUPERIORITY||Cox Proportional Hazard|0.784||||0.0417|TWO_SIDED|95.0|0.595|1.033|||Log Rank||KdD/Kd|"Hazard ratio and corresponding 95% CIs were estimated using the stratified Cox proportional hazards models.~1-sided p-value from the log-rank test controlling for the randomization stratification factors."||1.033|0.595|0.0417
92350719|NCT03158688|184606062|SUPERIORITY||Odds Ratio (OR)|4.403|||||TWO_SIDED|95.0|2.007|9.656|||||KdD/Kd|Odds ratios and corresponding 95% CIs were estimated by a stratified analysis using the Mantel-Haenszel method.||9.656|2.007|
92350720|NCT03158688|184606063|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|1.24||0.948|TWO_SIDED|95.0|-2.52|2.35|||linear mixed effects model||The overall treatment difference (KdD - Kd)|Analysis was performed based on a linear mixed effects model. The model included fixed effects of treatment (all baseline responses were modeled with a dummy treatment), baseline QLQ-C30 GHS/QoL score, randomization stratification factors (ISS stage at screening (Stage 1 or 2 vs Stage 3), prior proteasome inhibitor exposure (yes vs no), number of prior lines of therapy (1 vs ≥ 2)), interaction between treatment and time, and random effects of participant intercept and random slope of time.||2.35|-2.52|0.9480
92219746|NCT01147744|184339925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.715||||0.508|TWO_SIDED|95.0|-5.33|10.76|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.76|-5.33|0.508
92219747|NCT01147744|184339925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.124||||0.603|TWO_SIDED|95.0|-5.9|10.14|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.14|-5.90|0.603
92219748|NCT01147744|184339925|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|-1.781||||0.662|TWO_SIDED|95.0|-9.78|6.22|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||6.22|-9.78|0.662
92219749|NCT01147744|184339925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.949||||0.146|TWO_SIDED|95.0|-2.08|13.98|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||13.98|-2.08|0.146
92219750|NCT01147744|184339925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.394||||0.191|TWO_SIDED|95.0|-2.69|13.48|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||13.48|-2.69|0.191
92219751|NCT01147744|184339926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.106||||0.164|TWO_SIDED|95.0|-2.5|14.71|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||14.71|-2.50|0.164
92219752|NCT01147744|184339926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.106||||0.349||95.0|-4.49|12.7|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||12.70|-4.49|0.349
92275788|NCT03882047|184454094|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275789|NCT03882047|184454094|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92219753|NCT01147744|184339926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.148||||0.623|TWO_SIDED|95.0|-6.42|10.72|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.72|-6.42|0.623
92219754|NCT01147744|184339926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.713||||0.694|TWO_SIDED|95.0|-6.84|10.26|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.26|-6.84|0.694
92219755|NCT01147744|184339926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.592||||0.028|TWO_SIDED|95.0|1.03|18.15|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||18.15|1.03|0.028
92219756|NCT01147744|184339926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.75||||0.125|TWO_SIDED|95.0|-1.89|15.38|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||15.38|-1.89|0.125
92350721|NCT00471107|184606064|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||Power analysis was based on WMS-III Word Lists performance. With an effect comparable to the effect on verbal fluency in an earlier study of left frontal TDCS in healthy subjects, it would require 10 subjects per group (30 total) for a significance level of 0.05 and 80% power.||||>0.05
92350722|NCT02942407|184606065|NON_INFERIORITY|Due to a lower recruitment rate than anticipated in the early stage of the trial, the sample size was curtailed from 760 to 230 patients. Thus, under the initial protocol assumptions, the study is considered under-powered for the two-sided upper 95% CI on the HR to rule-out the non-inferiority margin of 1.40.|Hazard Ratio (HR)|1.2||||0.321|TWO_SIDED|95.0|0.63|2.3|||Regression, Cox|Cox model was adjusted for prior warfarin status (naive vs experienced) and treatment (apixaban vs warfarin)|Time from randomization to first occurrence of outcome was modeled. If no event, censored at earliest of: most recent date of evaluation of outcome, month 15 target (460 days + randomization date), or end of study date (July 27, 2019).|Exploratory analysis due to failure to reach initial sample size: Non-inferiority (NI) null hypothesis: HR \>= 1.4 (Non-inferiority).||2.3|0.63|0.321
92350723|NCT02942407|184606065|SUPERIORITY|Exploratory analysis due to lack of achieving initial sample size.|Hazard Ratio (HR)|1.2||||0.583|TWO_SIDED|95.0|0.63|2.3||If upper limit of 95% confidence interval \< 1 this would be considered evidence of superiority.|Regression, Cox|Cox model was adjusted for prior warfarin status (naive vs experienced) and treatment (apixaban vs warfarin).|Time from randomization to first occurrence of outcome was modeled. If no event, censored at earliest of: most recent date of evaluation of outcome, month 15 target (460 days + randomization date), or end of study date (July 27, 2019).|||2.3|0.63|0.583
92350724|NCT02942407|184606067|SUPERIORITY||Hazard Ratio (HR)|1.47|||||TWO_SIDED|95.0|0.74|2.93||No p-value provided as analysis is considered exploratory due to study being under powered.||||Hazard ratios (apixaban vs warfarin) and 95% confidence intervals obtained using Cox model adjusted for prior warfarin status (naive vs experienced) and treatment. Time from randomization to first occurrence of the composite outcome/censoring date modeled. Those that did not experience the outcome are censored at the earliest of the following: 1) most recent date of evaluation of all of the components, 2) month 15 target (460 days + randomization date), and end of study date (July 27, 2019).||2.93|0.74|
92400495|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.048||||0.0012|TWO_SIDED|95.0|1.597|6.5|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.500|1.597|0.0012
92400496|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.089||||0.0018|TWO_SIDED|95.0|1.521|6.656|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.656|1.521|0.0018
92400497|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.111||||0.0022|TWO_SIDED|95.0|1.479|6.743|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.743|1.479|0.0022
92350725|NCT02942407|184606076|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.67|2.17||No p-value provided as analysis is considered exploratory due to study being under powered.||||Hazard ratios (apixaban vs warfarin) and 95% confidence intervals obtained using Cox model adjusted for prior warfarin status (naive vs experienced) and treatment. Time from randomization to first occurrence of the composite outcome/censoring date modeled. Those that did not experience the outcome are censored at the earliest of the following: 1) most recent date of evaluation of all of the components, 2) month 15 target (460 days + randomization date), and end of stud date (July 27, 2019).||2.17|0.67|
92219757|NCT01147744|184339927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.346||||0.585|TWO_SIDED|95.0|-6.09|10.78|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.78|-6.09|0.585
92219758|NCT01147744|184339927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.431||||0.92|TWO_SIDED|95.0|-8.0|8.86|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||8.86|-8.00|0.920
92219759|NCT01147744|184339927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.702||||0.528|TWO_SIDED|95.0|-5.7|11.11|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||11.11|-5.70|0.528
92219760|NCT01147744|184339927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.218||||0.776|TWO_SIDED|95.0|-9.6|7.17|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||7.17|-9.60|0.776
92219761|NCT01147744|184339927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.49||||0.081|TWO_SIDED|95.0|-0.92|15.9|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||15.90|-0.92|0.081
92275790|NCT03882047|184454094|OTHER|||||||0.06|||||||ANOVA|||||||0.06
92219762|NCT01147744|184339927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.611||||0.403|TWO_SIDED|95.0|-4.87|12.09|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||12.09|-4.87|0.403
92219763|NCT01147744|184339928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.005||||0.951|TWO_SIDED|95.0|-0.17|0.16|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.16|-0.17|0.951
92219764|NCT01147744|184339928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.166||||0.043|TWO_SIDED|95.0|-0.33|-0.01|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||-0.01|-0.33|0.043
92219765|NCT01147744|184339928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.028||||0.734|TWO_SIDED|95.0|-0.19|0.13|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.13|-0.19|0.734
92219766|NCT01147744|184339928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.003||||0.972|TWO_SIDED|95.0|-0.16|0.16|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.16|-0.16|0.972
92219767|NCT01147744|184339928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.097||||0.238|TWO_SIDED|95.0|-0.26|0.06|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.06|-0.26|0.238
92219768|NCT01147744|184339928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.075||||0.36|TWO_SIDED|95.0|-0.24|0.09|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.09|-0.24|0.360
92219769|NCT01147744|184339929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.028||||0.692|TWO_SIDED|95.0|-0.11|0.17|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.17|-0.11|0.692
92275791|NCT03882047|184454095|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92350726|NCT05887908|184606078|NON_INFERIORITY|Non-inferirority margin = 15.0%|Difference in success proportion|21.3|||||TWO_SIDED|95.0|10.9|32.0||If the lower limit of the 2-sided 95% CI of the group difference \> -15.0%, non-inferiority is concluded. If non-inferiority is declared, a test for superiority will be performed. If the lower bound of the 95% CI \> 0.0%, superiority will be declared.|||Miettinen-Nurminen confidence interval|||32.0|10.9|
92350727|NCT05887908|184606078|NON_INFERIORITY|Non-inferirority margin = 15.0%|Difference in success proportion|11.4|||||TWO_SIDED|95.0|-1.2|23.7||If non-inferiority of the cefepime/nacubactam group is declared, a non-inferiority hypothesis test for the aztreonam/nacubactam group will be performed. For this analysis, the same approach as that used for the cefepime/nacubactam group will be used.|||Miettinen-Nurminen confidence interval|||23.7|-1.2|
92350728|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|2.5|||||TWO_SIDED|95.0|-3.2|9.9|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EA||9.9|-3.2|
92219770|NCT01147744|184339929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.096||||0.176|TWO_SIDED|95.0|-0.24|0.04|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.04|-0.24|0.176
92219771|NCT01147744|184339929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.021||||0.768|TWO_SIDED|95.0|-0.16|0.12|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.12|-0.16|0.768
92350729|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|6.8|||||TWO_SIDED|95.0|1.1|14.0|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EA||14.0|1.1|
92350730|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|3.5|||||TWO_SIDED|95.0|-2.7|11.3|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT||11.3|-2.7|
92350731|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|1.5|||||TWO_SIDED|95.0|-6.6|10.0|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT||10.0|-6.6|
92350732|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|6.8|||||TWO_SIDED|95.0|-4.1|18.1|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP||18.1|-4.1|
92400498|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.152||||0.0031|TWO_SIDED|95.0|1.403|6.901|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.901|1.403|0.0031
92219772|NCT01147744|184339929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.887|TWO_SIDED|95.0|-0.13|0.15|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.15|-0.13|0.887
92219773|NCT01147744|184339929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.051||||0.471|TWO_SIDED|95.0|-0.19|0.09|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.09|-0.19|0.471
92219774|NCT01147744|184339929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.083||||0.248|TWO_SIDED|95.0|-0.22|0.06|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.06|-0.22|0.248
92219775|NCT01147744|184339930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.131||||0.209|TWO_SIDED|95.0|-0.33|0.07|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.07|-0.33|0.209
92219776|NCT01147744|184339930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.264||||0.011|TWO_SIDED|95.0|-0.47|-0.06|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||-0.06|-0.47|0.011
92219777|NCT01147744|184339930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.076||||0.464|TWO_SIDED|95.0|-0.28|0.13|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.13|-0.28|0.464
92219778|NCT01147744|184339930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.045||||0.662|TWO_SIDED|95.0|-0.25|0.16|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.16|-0.25|0.662
92275792|NCT03882047|184454095|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275793|NCT03882047|184454095|OTHER|||||||0.46|||||||ANOVA|||||||0.46
92275794|NCT03882047|184454096|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92350733|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|3.3|||||TWO_SIDED|95.0|-9.5|16.0|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP||16.0|-9.5|
92400499|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.174||||0.0037||95.0|1.36|6.988|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.988|1.360|0.0037
92400500|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.215||||0.0048|TWO_SIDED|95.0|1.283|7.147|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.147|1.283|0.0048
92400501|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.237||||0.0056|TWO_SIDED|95.0|1.24|7.235|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.235|1.240|0.0056
92400502|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.278||||0.0071|TWO_SIDED|95.0|1.162|7.394|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.394|1.162|0.0071
92400503|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3||||0.0081|TWO_SIDED|95.0|1.119|7.482|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.482|1.119|0.0081
92400504|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.341||||0.0099|TWO_SIDED|95.0|1.041|7.642|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.642|1.041|0.0099
92400505|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.364||||0.0111|TWO_SIDED|95.0|0.997|7.73|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.730|0.997|0.0111
92400506|NCT00083889|184692418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.404||||0.0133|TWO_SIDED|95.0|0.918|7.89|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.890|0.918|0.0133
92400507|NCT00083889|184692419|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5404|||<|0.0001|TWO_SIDED|95.0|0.4532|0.6444||p-value is from 2-sided, unstratified test.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248: a hazard ratio greater than 1 indicates a reduction in favor of IFN-a.|Unstratified analysis: Hazard Ratio (SU011248 vs IFN-α).||0.6444|0.4532|<0.0001
92400508|NCT00083889|184692419|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5418|||<|1e-05|TWO_SIDED|95.0|0.4536|0.6473||p-value is from 2-sided, stratified test. Stratification factors are: Lactic Dehydrogenase (LDH) \> or \<= 1.5 x upper limit of normal, Eastern Cooperative Oncology Group (ECOG) performance status 0 or 1, and absence or presence of prior nephrectomy.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248: a hazard ratio greater than 1 indicates a reduction in favor of IFN-a.|Stratified analysis: Hazard Ratio (SU011248 vs IFN-α).||0.6473|0.4536|<.00001
92400509|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.486|||<|0.0001|TWO_SIDED|95.0|3.852|7.119|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Functional Assessment of Cancer Therapy-General (FACT-G) baseline score (intercept and time since randomization are included as random effects).||7.119|3.852|<.0001
92400510|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.535|||<|0.0001|TWO_SIDED|95.0|3.955|7.115|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.115|3.955|<.0001
92160815|NCT04310579|184210233|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.1||||0.05|TWO_SIDED|90.0|1.02|1.19||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Area under the curve was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 5 with treatment as a categorical variable and participant as a random effect||1.19|1.02|0.05
92400511|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.562|||<|0.0001|TWO_SIDED|95.0|4.0|7.124|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.124|4.000|<.0001
92275795|NCT03882047|184454096|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92350734|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|24.1|||||TWO_SIDED|95.0|12.0|36.6|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at TOC by baseline pathogen: Escherichia coli||36.6|12.0|
92350735|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|10.5|||||TWO_SIDED|95.0|-4.2|24.9|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at TOC by baseline pathogen: Escherichia coli||24.9|-4.2|
92350736|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|28.1|||||TWO_SIDED|95.0|1.8|54.1|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at TOC by baseline pathogen: Klebsiella pneumoniae||54.1|1.8|
92350737|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|35.4|||||TWO_SIDED|95.0|1.1|61.6|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at TOC by baseline pathogen: Klebsiella pneumoniae||61.6|1.1|
92350738|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|6.4|||||TWO_SIDED|95.0|-1.3|16.3|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT by baseline pathogen: Escherichia coli||16.3|-1.3|
92350739|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|4.2|||||TWO_SIDED|95.0|-5.6|14.7|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT by baseline pathogen: Escherichia coli||14.7|-5.6|
92350740|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|-6.3|||||TWO_SIDED|95.0|-20.3|13.9|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT by baseline pathogen: Klebsiella pneumoniae||13.9|-20.3|
92350741|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|-16.7|||||TWO_SIDED|95.0|-45.4|5.2|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT by baseline pathogen: Klebsiella pneumoniae||5.2|-45.4|
92350742|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|11.2|||||TWO_SIDED|95.0|-1.7|24.4|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP by baseline pathogen: Escherichia coli||24.4|-1.7|
92160816|NCT04310579|184210233|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.27|||<|0.001|TWO_SIDED|90.0|1.19|1.36||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Area under the curve was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 5 with treatment as a categorical variable and participant as a random effect||1.36|1.19|<0.001
92350743|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|6.2|||||TWO_SIDED|95.0|-8.7|20.9|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP by baseline pathogen: Escherichia coli||20.9|-8.7|
92350744|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|-6.3|||||TWO_SIDED|95.0|-31.9|23.1|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP by baseline pathogen: Klebsiella pneumoniae||23.1|-31.9|
92350745|NCT05887908|184606079|OTHER|Descriptive analysis|Difference in success proportion|6.3|||||TWO_SIDED|95.0|-28.8|37.9|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP by baseline pathogen: Klebsiella pneumoniae||37.9|-28.8|
92350746|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|2.3|||||TWO_SIDED|95.0|-2.8|6.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA||6.3|-2.8|
92160817|NCT01280591|184210241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-70.3|STANDARD_ERROR_OF_MEAN|13.17||0.0002|TWO_SIDED|95.0|-106.8|-33.7|||ANCOVA|||||-33.7|-106.8|0.0002
92160818|NCT01280591|184210242|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92350747|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|1.7|||||TWO_SIDED|95.0|-3.5|7.2|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA||7.2|-3.5|
92350748|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|0.1|||||TWO_SIDED|95.0|-4.6|6.4|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT||6.4|-4.6|
92350749|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|-0.6|||||TWO_SIDED|95.0|-7.1|6.0|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT||6.0|-7.1|
92160819|NCT01280591|184210243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|70.4|STANDARD_ERROR_OF_MEAN|12.85||0.0001|TWO_SIDED|95.0|28.1|112.7|||ANCOVA|||||112.7|28.1|0.0001
92160820|NCT01280591|184210244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7|STANDARD_ERROR_OF_MEAN|2.14||0.0007|TWO_SIDED|95.0|3.7|19.7|||ANCOVA|||||19.7|3.7|0.0007
92160821|NCT01280591|184210245|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92275796|NCT03882047|184454096|OTHER|||||||0.07|||||||ANOVA|||||||0.07
92350750|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|3.5|||||TWO_SIDED|95.0|-3.3|11.8|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC||11.8|-3.3|
92350751|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|4.3|||||TWO_SIDED|95.0|-3.9|13.0|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC||13.0|-3.9|
92350752|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|3.1|||||TWO_SIDED|95.0|-4.5|12.1|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP||12.1|-4.5|
92350753|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|2.7|||||TWO_SIDED|95.0|-6.6|12.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP||12.3|-6.6|
92350754|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|1.8|||||TWO_SIDED|95.0|-4.2|6.0|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA by baseline pathogen: Escherichia coli||6.0|-4.2|
92350755|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|2.1|||||TWO_SIDED|95.0|-4.1|8.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA by baseline pathogen: Escherichia coli||8.3|-4.1|
92400512|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.611|||<|0.0001|TWO_SIDED|95.0|4.061|7.162|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.162|4.061|<.0001
92400513|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.639|||<|0.0001|TWO_SIDED|95.0|4.083|7.195|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.195|4.083|<.0001
92400514|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.688|||<|0.0001|TWO_SIDED|95.0|4.1|7.276|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.276|4.100|<.0001
92400515|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.715|||<|0.0001|TWO_SIDED|95.0|4.098|7.333|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.333|4.098|<.0001
92400516|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.764|||<|0.0001|TWO_SIDED|95.0|4.075|7.454|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.454|4.075|<.0001
92400517|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.792|||<|0.0001|TWO_SIDED|95.0|4.053|7.531|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.531|4.053|<.0001
92400518|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.841|||<|0.0001|TWO_SIDED|95.0|3.998|7.684|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.684|3.998|<.0001
92400519|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.868|||<|0.0001|TWO_SIDED|95.0|3.96|7.777|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.777|3.960|<.0001
92400520|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.917|||<|0.0001|TWO_SIDED|95.0|3.88|7.955|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.955|3.880|<.0001
92400521|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.945|||<|0.0001|TWO_SIDED|95.0|3.83|8.06|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.060|3.830|<.0001
92275797|NCT03882047|184454097|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92160822|NCT01280591|184210246|SUPERIORITY_OR_OTHER|||||||0.0027|||||||Cochran-Mantel-Haenszel|||||||0.0027
92350756|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|6.3|||||TWO_SIDED|95.0|-13.9|20.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA by baseline pathogen: Klebsiella pneumoniae||20.3|-13.9|
92350757|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|8.3|||||TWO_SIDED|95.0|-12.6|36.0|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA by baseline pathogen: Klebsiella pneumoniae||36.0|-12.6|
92350758|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|2.3|||||TWO_SIDED|95.0|-3.5|10.5|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT by baseline pathogen: Escherichia coli||10.5|-3.5|
92350759|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|1.0|||||TWO_SIDED|95.0|-6.9|9.6|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT by baseline pathogen: Escherichia coli||9.6|-6.9|
92350760|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|-3.1|||||TWO_SIDED|95.0|-15.9|16.8|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT by baseline pathogen: Klebsiella pneumoniae||16.8|-15.9|
92160823|NCT01280591|184210247|SUPERIORITY_OR_OTHER|||||||0.0321|||||||Cochran-Mantel-Haenszel|||||||0.0321
92160824|NCT01280591|184210248|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Cochran-Mantel-Haenszel|||||||0.0019
92275798|NCT03882047|184454097|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275799|NCT03882047|184454097|OTHER|||||||0.53|||||||ANOVA|||||||0.53
92275800|NCT03882047|184454098|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92350761|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|-8.3|||||TWO_SIDED|95.0|-36.0|12.6|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT by baseline pathogen: Klebsiella pneumoniae||12.6|-36.0|
92350762|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|3.2|||||TWO_SIDED|95.0|-4.5|13.1|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC by baseline pathogen: Escherichia coli||13.1|-4.5|
92160825|NCT01280591|184210249|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92219779|NCT01147744|184339930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.245||||0.018|TWO_SIDED|95.0|-0.45|-0.04|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||-0.04|-0.45|0.018
92350763|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|4.0|||||TWO_SIDED|95.0|-5.3|14.2|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC by baseline pathogen: Escherichia coli||14.2|-5.3|
92350764|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|12.5|||||TWO_SIDED|95.0|-6.0|38.0|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC by baseline pathogen: Klebsiella pneumoniae||38.0|-6.0|
92160826|NCT01280591|184210250|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
92160827|NCT01280591|184210251|SUPERIORITY_OR_OTHER|||||||0.0012|||||||Cochran-Mantel-Haenszel|||||||0.0012
92350765|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|10.4|||||TWO_SIDED|95.0|-20.5|37.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC by baseline pathogen: Klebsiella pneumoniae||37.3|-20.5|
92350766|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|6.7|||||TWO_SIDED|95.0|-2.6|17.8|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP by baseline pathogen: Escherichia coli||17.8|-2.6|
92400522|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.994|||<|0.0001|TWO_SIDED|95.0|3.731|8.257|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.257|3.731|<.0001
92160828|NCT01280591|184210252|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92160829|NCT01280591|184210253|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92160830|NCT01280591|184210254|SUPERIORITY_OR_OTHER|||||||0.0016|||||||Cochran-Mantel-Haenszel|||||||0.0016
92160831|NCT01280591|184210255|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
92160832|NCT01280591|184210256|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92350767|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|6.1|||||TWO_SIDED|95.0|-5.0|17.8|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP by baseline pathogen: Escherichia coli||17.8|-5.0|
92350768|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|-6.3|||||TWO_SIDED|95.0|-23.6|17.6|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP by baseline pathogen: Klebsiella pneumoniae||17.6|-23.6|
92350769|NCT05887908|184606080|OTHER|Descriptive analysis|Difference in success proportion|-2.1|||||TWO_SIDED|95.0|-30.9|22.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP by baseline pathogen: Klebsiella pneumoniae||22.3|-30.9|
92350770|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|3.4|||||TWO_SIDED|95.0|-1.7|10.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA||10.5|-1.7|
92160833|NCT01280591|184210257|SUPERIORITY_OR_OTHER|||||||0.0064|||||||ANCOVA|||||||0.0064
92160834|NCT01280591|184210258|SUPERIORITY_OR_OTHER|||||||0.0047|||||||Cochran-Mantel-Haenszel|||||||0.0047
92160835|NCT01280591|184210259|SUPERIORITY_OR_OTHER|||||||0.0053|||||||Log Rank|||||||0.0053
92160836|NCT01280591|184210261|SUPERIORITY_OR_OTHER|||||||0.2734|||||||Cochran-Mantel-Haenszel|||||||0.2734
92160837|NCT02263508|184210263|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.13|TWO_SIDED|95.0|0.71|1.04|||Stratified log-rank test|Stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|Cox proportional hazards model stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|||1.04|0.71|0.13
92160838|NCT02263508|184210264|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.77|TWO_SIDED|95.0|0.77|1.21|||Stratified log-rank test|Stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|Cox proportional hazards model stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|||1.21|0.77|0.77
92160839|NCT02263508|184210272|OTHER||Odds Ratio (OR)|1.88||||0.012|TWO_SIDED|95.0|1.15|3.07|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||3.07|1.15|0.012
92160840|NCT02263508|184210273|OTHER||Hazard Ratio (HR)|1.05||||0.14|TWO_SIDED|95.0|0.82|1.34|||Stratified log-rank test|Stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|Cox proportional hazards model stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|||1.34|0.82|0.14
92160841|NCT02263508|184210274|OTHER||Hazard Ratio (HR)|0.88||||0.47|TWO_SIDED|95.0|0.63|1.24|||Stratified log-rank test|Stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|Cox proportional hazards model stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|||1.24|0.63|0.47
92219780|NCT01147744|184339930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.207||||0.047|TWO_SIDED|95.0|-0.41|0.0|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||-0.00|-0.41|0.047
92275801|NCT03882047|184454098|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92275802|NCT03882047|184454098|OTHER|||||||0.12|||||||ANOVA|||||||0.12
92350771|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|7.6|||||TWO_SIDED|95.0|3.9|14.3|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA||14.3|3.9|
92350772|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|4.4|||||TWO_SIDED|95.0|-1.3|11.9|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT||11.9|-1.3|
92350773|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|3.3|||||TWO_SIDED|95.0|-4.2|11.2|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT||11.2|-4.2|
92400523|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.021|||<|0.0001|TWO_SIDED|95.0|3.672|8.37|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.370|3.672|<.0001
92400524|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.071|||<|0.0001|TWO_SIDED|95.0|3.56|8.581|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.581|3.560|<.0001
92400525|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.098|||<|0.0001|TWO_SIDED|95.0|3.495|8.701|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.701|3.495|<.0001
92400526|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.147|||<|0.0001|TWO_SIDED|95.0|3.373|8.921|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.921|3.373|<.0001
92400527|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.174|||<|0.0001|TWO_SIDED|95.0|3.303|9.045|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||9.045|3.303|<.0001
92400528|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.224|||<|0.0001|TWO_SIDED|95.0|3.174|9.273|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||9.273|3.174|<.0001
92400529|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.251||||0.0001|TWO_SIDED|95.0|3.101|9.401|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||9.401|3.101|0.0001
92400530|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3||||0.0002|TWO_SIDED|95.0|2.966|9.634|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||9.634|2.966|0.0002
92400531|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.327||||0.0003|TWO_SIDED|95.0|2.89|9.765|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||9.765|2.890|0.0003
92400532|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.377||||0.0006|TWO_SIDED|95.0|2.751|10.002|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.002|2.751|0.0006
92400533|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.404||||0.0008|TWO_SIDED|95.0|2.673|10.135|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.135|2.673|0.0008
92160842|NCT02263508|184210275|OTHER||Odds Ratio (OR)|1.32||||0.081|TWO_SIDED|95.0|0.97|1.79|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||1.79|0.97|0.081
92160843|NCT02263508|184210277|OTHER||Odds Ratio (OR)|1.39||||0.039|TWO_SIDED|95.0|1.02|1.9|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||1.90|1.02|0.039
92160844|NCT02263508|184210279|OTHER||Odds Ratio (OR)|1.28||||0.11|TWO_SIDED|95.0|0.94|1.75|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||1.75|0.94|0.11
92168739|NCT00603954|184227082|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||At Day 40||||0.03
92168740|NCT00603954|184227082|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||At Day 180||||0.01
92350774|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|22.2|||||TWO_SIDED|95.0|12.2|32.7|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC||32.7|12.2|
92350775|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|10.3|||||TWO_SIDED|95.0|-2.0|22.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC||22.5|-2.0|
92350776|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|8.6|||||TWO_SIDED|95.0|-2.0|19.7|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP||19.7|-2.0|
92350777|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|2.2|||||TWO_SIDED|95.0|-10.4|14.8|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP||14.8|-10.4|
92350778|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|2.3|||||TWO_SIDED|95.0|-3.5|10.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA by baseline pathogen: Escherichia coli||10.5|-3.5|
92350779|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|6.6|||||TWO_SIDED|95.0|2.3|14.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA by baseline pathogen: Escherichia coli||14.5|2.3|
92350780|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|12.5|||||TWO_SIDED|95.0|-6.0|38.0|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA by baseline pathogen: Klebsiella pneumoniae||38.0|-6.0|
92350781|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|18.8|||||TWO_SIDED|95.0|-8.3|43.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA by baseline pathogen: Klebsiella pneumoniae||43.5|-8.3|
92160845|NCT02263508|184210280|OTHER||Odds Ratio (OR)|1.44||||0.02|TWO_SIDED|95.0|1.06|1.96|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||1.96|1.06|0.020
92160846|NCT02263508|184210282|OTHER||Odds Ratio (OR)|1.59||||0.004|TWO_SIDED|95.0|1.16|2.17|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||2.17|1.16|0.004
92350782|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|6.9|||||TWO_SIDED|95.0|-0.1|16.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT by baseline pathogen: Escherichia coli||16.5|-0.1|
92350783|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|5.1|||||TWO_SIDED|95.0|-3.9|15.1|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT by baseline pathogen: Escherichia coli||15.1|-3.9|
92168741|NCT00603954|184227083|SUPERIORITY|||||||0.0165|||||||Multivariate Cox models|||||||0.0165
92350784|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|-6.3|||||TWO_SIDED|95.0|-20.3|13.9|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT by baseline pathogen: Klebsiella pneumoniae||13.9|-20.3|
92350785|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|-8.3|||||TWO_SIDED|95.0|-36.0|12.6|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT by baseline pathogen: Klebsiella pneumoniae||12.6|-36.0|
92350786|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|25.2|||||TWO_SIDED|95.0|13.5|37.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC by baseline pathogen: Escherichia coli||37.5|13.5|
92350787|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|8.9|||||TWO_SIDED|95.0|-5.5|23.3|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC by baseline pathogen: Escherichia coli||23.3|-5.5|
92350788|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|21.9|||||TWO_SIDED|95.0|-3.4|48.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC by baseline pathogen: Klebsiella pneumoniae||48.5|-3.4|
92350789|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|29.2|||||TWO_SIDED|95.0|-4.4|56.0|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC by baseline pathogen: Klebsiella pneumoniae||56.0|-4.4|
92168742|NCT00603954|184227083|SUPERIORITY||Hazard Ratio (HR)|0.3||||0.01|TWO_SIDED|95.0|||||Mutivariate|||||||0.010
92168743|NCT00603954|184227083|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.0495|TWO_SIDED|95.0|||||Multivariate|||||||0.0495
92350790|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|12.9|||||TWO_SIDED|95.0|0.3|25.9|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP by baseline pathogen: Escherichia coli||25.9|0.3|
92350791|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|4.6|||||TWO_SIDED|95.0|-10.1|19.3|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP by baseline pathogen: Escherichia coli||19.3|-10.1|
92350792|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|-6.3|||||TWO_SIDED|95.0|-30.4|22.6|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP by baseline pathogen: Klebsiella pneumoniae||22.6|-30.4|
92350793|NCT05887908|184606081|OTHER|Descriptive analysis|Difference in success proportion|0.0|||||TWO_SIDED|95.0|-34.0|31.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP by baseline pathogen: Klebsiella pneumoniae||31.5|-34.0|
92350794|NCT05887908|184606082|OTHER|Descriptive analysis|Difference in success proportion|20.0|||||TWO_SIDED|95.0|-16.0|54.3|||||Miettinen-Nurminen confidence interval|||54.3|-16.0|
92350795|NCT05887908|184606082|OTHER|Descriptive analysis|Difference in success proportion|28.9||||||95.0|-13.0|62.1|||||Miettinen-Nurminen confidence interval|||62.1|-13.0|
92350796|NCT05887908|184606083|OTHER|Descriptive analysis|Difference in success proportion|20.0|||||TWO_SIDED|95.0|-16.0|54.3|||||Miettinen-Nurminen confidence interval|||54.3|-16.0|
92219781|NCT01147744|184339931|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.098||||0.3|TWO_SIDED|95.0|-0.28|0.09|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.09|-0.28|0.300
92219782|NCT01147744|184339931|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.138||||0.145|TWO_SIDED|95.0|-0.32|0.05|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.05|-0.32|0.145
92400534|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.453||||0.0013|TWO_SIDED|95.0|2.53|10.376|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.376|2.530|0.0013
92350797|NCT05887908|184606083|OTHER|Descriptive analysis|Difference in success proportion|28.9||||||95.0|-13.0|62.1|||||Miettinen-Nurminen confidence interval|||62.1|-13.0|
92350798|NCT05887908|184606084|OTHER|Desriptive analysis|Difference in success proportion|53.3|||||TWO_SIDED|95.0|12.8|78.1|||||Miettinen-Nurminen confidence interval|||78.1|12.8|
92350799|NCT05887908|184606084|OTHER|Descriptive analysis|Difference in success proportion|24.4|||||TWO_SIDED|95.0|-18.4|60.5|||||Miettinen-Nurminen confidence interval|||60.5|-18.4|
92350800|NCT05887908|184606085|OTHER|Descriptive analysis|Difference in success proportion|20.0|||||TWO_SIDED|95.0|-16.0|54.3|||||Miettinen-Nurminen confidence interval|||54.3|-16.0|
92350801|NCT05887908|184606085|OTHER|Descriptive analysis|Difference in success proportion|28.9|||||TWO_SIDED|95.0|-13.0|62.1|||||Miettinen-Nurminen confidence interval|||62.1|-13.0|
92350802|NCT03928743|184606105|SUPERIORITY||Odds Ratio (OR)|2.88|||<|0.001|TWO_SIDED|95.0|1.71|4.87|||Regression, Logistic|||||4.87|1.71|<0.001
92160847|NCT02263508|184210284|OTHER||Odds Ratio (OR)|1.35||||0.058|TWO_SIDED|95.0|0.99|1.85|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||1.85|0.99|0.058
92160848|NCT02263508|184210285|OTHER||Difference|0.19|STANDARD_ERROR_OF_MEAN|0.95||0.84|TWO_SIDED|95.0|-1.67|2.05|||Mixed Model for Repeated Measures|||Mixed Model for Repeated Measures include the fixed and categorical effects of treatment, visit and treatment-by-visit interaction, the fixed and continuous covariates of baseline HRQL score, randomization stratification factors (stage of disease and prior BRAF inhibitor therapy per IVRS) and baseline PD-L1 status (positive and not positive). Random subject effect was modeled using within subject-error correlation structure.||2.05|-1.67|0.84
92350803|NCT03928743|184606106|SUPERIORITY||Odds Ratio (OR)|2.8|||<|0.001|TWO_SIDED|95.0|1.59|4.93|||Regression, Logistic|||||4.93|1.59|<0.001
92350804|NCT03928743|184606107|SUPERIORITY||Odds Ratio (OR)|2.66|||<|0.001|TWO_SIDED|95.0|1.65|4.28|||Regression, Logistic|||||4.28|1.65|<0.001
92350805|NCT03928743|184606108|SUPERIORITY||LS Mean difference|-1.04|||<|0.001|TWO_SIDED|95.0|-1.48|-0.59|||Regression, Logistic|||||-0.59|-1.48|<0.001
92350806|NCT03928743|184606109|SUPERIORITY||Odds Ratio (OR)|4.26|||<|0.001|TWO_SIDED|95.0|1.93|9.39|||Regression, Logistic|||||9.39|1.93|<0.001
92350807|NCT03928743|184606110|SUPERIORITY||Odds Ratio (OR)|6.47|||<|0.001|TWO_SIDED|95.0|2.67|15.65|||Regression, Logistic|||||15.65|2.67|<0.001
92160849|NCT01167426|184210300|SUPERIORITY_OR_OTHER||Difference in mean ranks|79.6|||<|0.0001||95.0|||||Wilcoxon Signed-Rank||Difference in mean ranks between Week 2 and Week 6|Comparison of Week 2 (20 mg/1.0 mL utilizing autoject 2 for glass syringe) to Week 6 (20 mg/0.5 mL utilizing the autoject 2 20 mg/0.5 mL).||||<0.0001
92160850|NCT01167426|184210301|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Goodness-of-fit p-value comparing overall preference to expected frequencies of 33.3% in each category. That is, no preference across the full sample of patients in the study.|Chi-squared|||||||<0.0001
92160851|NCT04044664|184210307|OTHER|||||||0.1728|||||||t-test, 1 sided|||CAPS-5 Total Score||||0.1728
92160852|NCT04044664|184210307|OTHER|||||||0.0962|||||||t-test, 1 sided|||Cognition and Mood sub-score||||0.0962
92160853|NCT04044664|184210307|OTHER|||||||0.0191|||||||t-test, 1 sided|||Arousal and Reactivity sub-score||||0.0191
92160854|NCT04044664|184210313|OTHER|||||||0.0452|||||||t-test, 1 sided|||||||0.0452
92350808|NCT03928743|184606111|SUPERIORITY||Odds Ratio (OR)|4.65|||<|0.001|TWO_SIDED|4.65|2.51|7.57|||Regression, Logistic|||||7.57|2.51|<0.001
92350809|NCT03928743|184606112|SUPERIORITY||LS Mean difference|-1.05|||<|0.001|TWO_SIDED|95.0|-1.48|-0.63|||Regression, Logistic|||||-0.63|-1.48|<0.001
92350810|NCT03928743|184606113|SUPERIORITY||LS Mean difference|-1.48|||<|0.001|TWO_SIDED|95.0|-2.0|-0.96|||Regression, Logistic|||||-0.96|-2.00|<0.001
92350811|NCT03928743|184606114|SUPERIORITY||LS Mean difference|-1.52|||<|0.001|TWO_SIDED|95.0|-2.36|-0.68|||Regression, Logistic|||||-0.68|-2.36|<0.001
92350812|NCT03928743|184606115|SUPERIORITY||LS Mean difference|3.38|||<|0.001|TWO_SIDED|95.0|1.67|5.09|||Regression, Logistic|||||5.09|1.67|<0.001
92350813|NCT03928743|184606116|SUPERIORITY||LS Mean difference|-0.28||||0.006|TWO_SIDED|95.0|-0.47|-0.08|||Regression, Logistic|||||-0.08|-0.47|0.006
92350814|NCT03928743|184606117|SUPERIORITY||LS Mean difference|-1.08||||0.003|TWO_SIDED|95.0|-1.79|-0.38|||Regression, Logistic|||||-0.38|-1.79|0.003
92350815|NCT03928743|184606118|SUPERIORITY||Odds Ratio (OR)|2.47||||0.006|TWO_SIDED|95.0|1.3|4.68|||Regression, Logistic|||||4.68|1.30|0.006
92350816|NCT06204887|184606129|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92350817|NCT02762604|184606146|SUPERIORITY||Mean Difference (Net)|-2.12|STANDARD_ERROR_OF_MEAN|8.79|||TWO_SIDED|95.0|-19.36|15.12|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in normal pace gait speed pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||15.12|-19.36|
92350818|NCT02762604|184606146|SUPERIORITY||Mean Difference (Net)|17.19|STANDARD_ERROR_OF_MEAN|8.05|||TWO_SIDED|95.0|1.4|32.97|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in gait speed during walking while talking pre and post intervention||32.97|1.40|
92400535|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.48||||0.0016|TWO_SIDED|95.0|2.451|10.51|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.510|2.451|0.0016
92400536|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.53||||0.0025|TWO_SIDED|95.0|2.306|10.754|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.754|2.306|0.0025
92400537|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.557||||0.003|TWO_SIDED|95.0|2.224|10.889|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.889|2.224|0.0030
92400538|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.606||||0.0043|TWO_SIDED|95.0|2.077|11.135|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||11.135|2.077|0.0043
92400539|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.634||||0.0051|TWO_SIDED|95.0|1.995|11.272|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||11.272|1.995|0.0051
92400540|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.683||||0.0068|TWO_SIDED|95.0|1.847|11.519|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||11.519|1.847|0.0068
92400541|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.71||||0.0079|TWO_SIDED|95.0|1.764|11.657|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||11.657|1.764|0.0079
92400542|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.759||||0.01|TWO_SIDED|95.0|1.613|11.905|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||11.905|1.613|0.0100
92160855|NCT04044664|184210313|OTHER|||||||0.0614|||||||t-test, 1 sided|||||||0.0614
92160856|NCT04044664|184210314|OTHER|||||||0.0182|||||||t-test, 1 sided|||greater than or equal to 30% decrease from baseline||||0.0182
92160857|NCT04044664|184210314|OTHER|||||||0.0705|||||||t-test, 1 sided|||greater than or equal to 50% decrease from baseline||||0.0705
92160858|NCT00478556|184210321|SUPERIORITY_OR_OTHER||difference in proportions|62.0|||<|0.001|||||||Binomial test of proportion|tested if values were different from 50%||All individuals tasted both preparations and indicated preference. A binomial test of proportion was done to see if these values differed from 50%.||||<0.001
92160859|NCT00478556|184210322|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum test was used to assess differences in bowel opacification score between the two groups.||||0.270
92400543|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.787||||0.0114|TWO_SIDED|95.0|1.53|12.043|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||12.043|1.530|0.0114
92160860|NCT03736785|184210324|EQUIVALENCE|Equivalence margin is zero.|||||<|0.001||||||P-value reported is within group comparison between Week 32 and baseline.|Mixed Models Analysis|||||||<0.001
92160861|NCT03736785|184210324|EQUIVALENCE|Equivalence margin is zero.|||||<|0.001||||||P-value reported is within group comparison between Week 32 and baseline.|Mixed Models Analysis|||||||<0.001
92168744|NCT00603954|184227083|SUPERIORITY||Hazard Ratio (HR)|3.8||||0.001|TWO_SIDED|95.0|||||Multivariate|||||||0.001
92168745|NCT00603954|184227084|SUPERIORITY|||||||0.15|||||||Fisher Exact|||19 of 49 Flu-TBI patients (39%) versus 25 of 45 TLI ATG patients (56%) had a least one episode of bacterial infection the first 100 days after transplantation (P = 0.15).||||0.15
92168746|NCT00603954|184227084|SUPERIORITY|||||||0.19|||||||Fisher Exact|||For fungal infections, the figures were 3 of 45 (6%) and 7 of 45 (16%), respectively (P = 0.19)||||0.19
92400544|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.836||||0.0141|TWO_SIDED|95.0|1.378|12.293|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||12.293|1.378|0.0141
92400545|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.863||||0.0157|TWO_SIDED|95.0|1.294|12.432|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||12.432|1.294|0.0157
92219783|NCT01147744|184339931|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.123||||0.19|TWO_SIDED|95.0|-0.31|0.06|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.06|-0.31|0.190
92219784|NCT01147744|184339931|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.002||||0.98|TWO_SIDED|95.0|-0.19|0.18|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.18|-0.19|0.980
92219785|NCT01147744|184339931|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.171||||0.07|TWO_SIDED|95.0|-0.36|0.01|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.01|-0.36|0.070
92275803|NCT00475852|184454118|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.7||||0.313|TWO_SIDED|95.0|-2.1|0.7|||Cochran-Mantel-Haenszel|Stratified by geographical region.||||0.7|-2.1|0.313
92400546|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.912||||0.0189|TWO_SIDED|95.0|1.142|12.683|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||12.683|1.142|0.0189
92400547|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.94||||0.0208|TWO_SIDED|95.0|1.057|12.822|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||12.822|1.057|0.0208
92400548|NCT00083889|184692420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.989||||0.0244|TWO_SIDED|95.0|0.904|13.074|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||13.074|0.904|0.0244
92400549|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.459|||<|0.0001|TWO_SIDED|95.0|0.805|2.114|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Functional Assessment of Cancer Therapy-General (FACT-G) Physical Well Being (PWB) subscale baseline score (intercept and time since randomization are included as random effects).||2.114|0.805|<.0001
92400550|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.453|||<|0.0001|TWO_SIDED|95.0|0.827|2.079|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.079|0.827|<.0001
92160862|NCT03736785|184210324|EQUIVALENCE|Equivalence margin is zero.|||||<|0.001||||||P-value reported is within group comparison between Week 32 and baseline.|Mixed Models Analysis|||||||<0.001
92160863|NCT03736785|184210325|NON_INFERIORITY|Non-inferiority margin is 0.4%|LSMean Difference|0.08|||||TWO_SIDED|90.0|-0.11|0.28|||Mixed Models Analysis|||||0.28|-0.11|
92160864|NCT03736785|184210325|NON_INFERIORITY|Non-inferiority margin is 0.4%|LSMean Difference|0.09|||||TWO_SIDED|90.0|-0.1|0.29|||Mixed Models Analysis|||||0.29|-0.10|
92160865|NCT02974010|184210337|SUPERIORITY|||||||0.03||||||BDM LS difference overall|Mixed Models Analysis|BDM LS difference overall||||||.03
92160866|NCT03852433|184210404|OTHER||Difference in percentages|34.0||||0.0003|TWO_SIDED|95.0|14.6|50.4|||Fisher Exact|||||50.4|14.6|0.0003
92219786|NCT01147744|184339931|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.158||||0.095|TWO_SIDED|95.0|-0.34|0.03|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.03|-0.34|0.095
92219787|NCT01147744|184339932|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
92219788|NCT01147744|184339932|SUPERIORITY_OR_OTHER|||||||0.814|||||||Fisher Exact|||||||0.814
92219789|NCT01147744|184339932|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
92400551|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.45|||<|0.0001|TWO_SIDED|95.0|0.837|2.063|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.063|0.837|<.0001
92160867|NCT03852433|184210404|OTHER||Difference in percentages|15.3||||0.2631|TWO_SIDED|95.0|-8.2|34.2|||Fisher Exact|||||34.2|-8.2|0.2631
92160868|NCT03852433|184210404|OTHER||Difference in percentages|29.3||||0.0197|TWO_SIDED|95.0|1.8|48.2|||Fisher Exact|||||48.2|1.8|0.0197
92160869|NCT03852433|184210404|OTHER||Difference in percentages|-4.7||||0.7186|TWO_SIDED|95.0|-26.3|11.8|||Fisher Exact|||||11.8|-26.3|0.7186
92160870|NCT03852433|184210404|OTHER||Difference in percentages|14.0||||0.2184|TWO_SIDED|95.0|-5.5|32.7|||Fisher Exact|||||32.7|-5.5|0.2184
92160871|NCT03852433|184210404|OTHER||Difference in percentages|-20.0||||0.0283|TWO_SIDED|95.0|-36.1|-3.5|||Fisher Exact|||||-3.5|-36.1|0.0283
92219790|NCT01147744|184339932|SUPERIORITY_OR_OTHER|||||||0.828|||||||Fisher Exact|||||||0.828
92219791|NCT01147744|184339932|SUPERIORITY_OR_OTHER|||||||0.477|||||||Fisher Exact|||||||0.477
92219792|NCT01147744|184339932|SUPERIORITY_OR_OTHER|||||||0.46|||||||Fisher Exact|||||||0.460
92275804|NCT00475852|184454119|SUPERIORITY_OR_OTHER|||||||0.03|||||||Van Elteren test|Controlled for region.||||||0.030
92275805|NCT00475852|184454120|SUPERIORITY_OR_OTHER|||||||0.007|||||||Van Elteren test|Controlled for region.||||||0.007
92275806|NCT00475852|184454121|SUPERIORITY_OR_OTHER|||||||0.318|||||||Van Elteren test|Controlled for region.||||||0.318
92275807|NCT00475852|184454122|SUPERIORITY_OR_OTHER|||||||0.018|||||||Van Elteren test|Controlled for region.||||||0.018
92275808|NCT00475852|184454123|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.5||||0.295|TWO_SIDED|95.0|-1.5|0.5|||Cochran-Mantel-Haenszel|Controlled for region.||||0.5|-1.5|0.295
92350819|NCT02762604|184606147|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|0.21|2.99|||||The estimate parameter reflects change in the number of correct letters generated pre to post intervention as a function intervention (Imagined Gait vs. Visual Imagery).|A linear mixed effects model was used to compare changes in correct letters generated pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||2.99|0.21|
92350820|NCT02762604|184606148|SUPERIORITY||Mean Difference (Net)|2.4|STANDARD_ERROR_OF_MEAN|7.37|||TWO_SIDED|95.0|-12.04|16.85|||||The estimate parameter reflects change in functional activation/deactivation pattern from pre to post intervention as a function intervention (Imagined Gait vs. Visual Imagery).|Linear mixed effects model were used to compare changes in the functional activation/deactivation pattern (factor score) during imagery of walking-while talking (relative to walking and talking alone) pre and post intervention - as a function of of intervention (Imagined Gait vs. Visual Imagery)||16.85|-12.04|
92350821|NCT02762604|184606149|SUPERIORITY||Mean Difference (Net)|-0.54|STANDARD_ERROR_OF_MEAN|6.94|||TWO_SIDED|95.0|-14.15|13.07|||||The estimate parameter is the difference in change pre to post intervention between Imagined Gait and Visual Imagery group.|Linear mixed effects model were used to compare changes in trails a time pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||13.07|-14.15|
92350822|NCT02762604|184606150|SUPERIORITY||Mean Difference (Net)|-12.21|STANDARD_ERROR_OF_MEAN|20.26|||TWO_SIDED|95.0|-51.92|27.51|||||The estimate parameter is the difference in change pre to post intervention between Imagined Gait and Visual Imagery group.|Linear mixed effects model were used to compare changes in trails b time pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||27.51|-51.92|
92350823|NCT02762604|184606151|SUPERIORITY||Mean Difference (Net)|-10.83|STANDARD_ERROR_OF_MEAN|19.03|||TWO_SIDED|95.0|-48.12|26.47|||||The estimate parameter is the difference in change pre to post intervention between Imagined Gait and Visual Imagery group.|Linear mixed effects model were used to compare changes in trails B minus A time pre and post intervention.||26.47|-48.12|
92350824|NCT02762604|184606152|SUPERIORITY||Mean Difference (Net)|-0.93|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-2.65|0.79|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in correct letter number sequences pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||0.79|-2.65|
92350825|NCT02762604|184606153|SUPERIORITY||Mean Difference (Net)|1.39|STANDARD_ERROR_OF_MEAN|12.95|||TWO_SIDED|95.0|-24.0|26.78|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in Stroop interference pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||26.78|-24.00|
92350826|NCT02762604|184606154|SUPERIORITY||Mean Difference (Net)|6.76|STANDARD_ERROR_OF_MEAN|79.95|||TWO_SIDED|95.0|-149.94|163.47|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in flanker interference pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||163.47|-149.94|
92350827|NCT02762604|184606155|SUPERIORITY||Mean Difference (Net)|15.2|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|5.99|24.41|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in stride length during walking while talking pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||24.41|5.99|
92350828|NCT02762604|184606156|SUPERIORITY||Mean Difference (Net)|-1.96|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-3.73|-0.2|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in gait variability during walking while talking pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||-0.20|-3.73|
92350829|NCT02762604|184606158|SUPERIORITY||Mean Difference (Net)|2.43|STANDARD_ERROR_OF_MEAN|4.29|||TWO_SIDED|95.0|-5.98|10.84|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in total free recall pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||10.84|-5.98|
92350830|NCT02762604|184606159|SUPERIORITY||Mean Difference (Net)|-1.94|STANDARD_ERROR_OF_MEAN|2.01|||TWO_SIDED|95.0|-5.88|2.0|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in delayed figure copy recall pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||2.00|-5.88|
92400552|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.444|||<|0.0001|TWO_SIDED|95.0|0.847|2.041|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.041|0.847|<.0001
92275809|NCT00475852|184454124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.17||0.16|||||||ANOVA|Controlled for region.|This analysis excluded subjects who were lost to follow-up, or withdrawal of consent before Day 30, or whose Day 30 visit occurred prior to Day 30.|||||0.160
92350831|NCT02762604|184606160|SUPERIORITY||Mean Difference (Net)|-6.36|STANDARD_ERROR_OF_MEAN|6.96|||TWO_SIDED|95.0|-20.01|7.28|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in word fluency pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||7.28|-20.01|
92350832|NCT02762604|184606161|SUPERIORITY||Mean Difference (Net)|5.73|STANDARD_ERROR_OF_MEAN|6.25|||TWO_SIDED|95.0|-6.51|17.97|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in semantic fluency pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||17.97|-6.51|
92160872|NCT03852433|184210407|OTHER||Difference in percentages|26.0||||0.0134|TWO_SIDED|95.0|6.0|44.0|||Fisher Exact|||||44.0|6.0|0.0134
92350833|NCT02762604|184606162|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|8.2|||TWO_SIDED|95.0|-16.1|16.03||||||A linear mixed effects model was used to compare changes in digit symbol substitution performance pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)|The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|16.03|-16.10|
92350834|NCT02762604|184606164|SUPERIORITY||Mean Difference (Net)|3.64|STANDARD_ERROR_OF_MEAN|7.54|||TWO_SIDED|95.0|-11.14|18.42|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in immediate maze performance pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||18.42|-11.14|
92350835|NCT02762604|184606165|SUPERIORITY||Mean Difference (Net)|3.26|STANDARD_ERROR_OF_MEAN|12.2|||TWO_SIDED|95.0|-20.65|27.18|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in delayed maze performance pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||27.18|-20.65|
92350836|NCT02762604|184606166|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-0.45|0.9|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in maze errors pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||0.90|-0.45|
92350837|NCT02762604|184606167|SUPERIORITY||Mean Difference (Net)|0.26|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|95.0|-1.74|2.26|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in depressive symptoms pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||2.26|-1.74|
92350838|NCT02762604|184606168|SUPERIORITY||Mean Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|1.24|||TWO_SIDED|95.0|-3.38|1.49|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in anxiety symptoms pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||1.49|-3.38|
92350839|NCT02762604|184606169|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-0.04|0.12|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in cortical thickness pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||0.12|-0.04|
92350840|NCT03833167|184606172|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.07243|TWO_SIDED|95.0|0.53|1.1||One-sided p-value based on log-rank test stratified by baseline Extracapsular extension (yes versus no) and Cortical bone invasion (yes versus no) with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by baseline Extracapsular extension (yes versus no) and Cortical bone invasion (yes versus no) with small strata collapsed.|||1.10|0.53|0.07243
92350841|NCT03833167|184606173|SUPERIORITY||Hazard Ratio (HR)|1.47|||||TWO_SIDED|95.0|0.87|2.48|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by baseline Extracapsular extension (yes versus no) and Cortical bone invasion (yes versus no) with small strata collapsed.|||2.48|0.87|
92350842|NCT03833167|184606174|SUPERIORITY||Mean Difference (Final Values)|-3.41||||0.2227|TWO_SIDED|95.0|-8.91|2.09||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Extracapsular extension, Cortical bone invasion, and Prior systemic therapy.|Log Rank||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Extracapsular extension, Cortical bone invasion, and Prior systemic therapy.|||2.09|-8.91|0.2227
92350843|NCT03833167|184606175|SUPERIORITY||Mean Difference (Final Values)|-2.89||||0.1874|TWO_SIDED|95.0|-7.19|1.42||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Extracapsular extension, Cortical bone invasion, and Prior systemic therapy.|Log Rank||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Extracapsular extension, Cortical bone invasion, and Prior systemic therapy.|||1.42|-7.19|0.1874
92350844|NCT03003962|184606228|OTHER|"The analysis was performed using the stratified log-rank test, adjusting for PD-L1 expression (TC 25% to 49% versus \>= 50%) and histology and smoking status (squamous vs. non-squamous + never smoker vs.~non-squamous + former/current smoker) and using the rank tests of association approach."|Hazard Ratio (HR)|0.84||||0.037|TWO_SIDED|95.0|0.706|0.989|||Stratified Log-rank test||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model|||0.989|0.706|0.037
92350845|NCT03003962|184606229|OTHER|"The analysis was performed using the stratified log-rank test, adjusting for PD-L1 expression (TC 25% to 49% versus \>= 50%) and histology and smoking status (squamous vs. non-squamous + never smoker vs.~non-squamous + former/current smoker) and using the rank tests of association approach."|Hazard Ratio (HR)|0.96||||0.628|TWO_SIDED|95.0|0.793|1.151|||Stratified log-rank test||The HR and CI were calculated using a stratified Cox proportional hazards model.|||1.151|0.793|0.628
92350846|NCT01405911|184606294|OTHER||Difference in Least Squares Means|-7.11|||<|0.001|TWO_SIDED|95.0|-9.85|-4.36|||Constrained Longitudinal Data Analysis|||||-4.36|-9.85|<0.001
92350847|NCT01405911|184606294|OTHER||Difference in Least Squares Means|-9.08|||<|0.001|TWO_SIDED|95.0|-11.82|-6.33|||Constrained Longitudinal Data Analysis|||||-6.33|-11.82|<0.001
92350848|NCT01405911|184606294|OTHER||Difference in Least Squares Means|-1.97||||0.143|TWO_SIDED|95.0|-4.61|0.67|||Constrained Longitudinal Data Analysis|||||0.67|-4.61|0.143
92350849|NCT01405911|184606295|OTHER||Difference in Least Squares Means|-17.7|||<|0.001|TWO_SIDED|95.0|-21.55|-13.86|||Constrained Longitudinal Data Analysis|||||-13.86|-21.55|<0.001
92400553|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44|||<|0.0001|TWO_SIDED|95.0|0.848|2.032|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.032|0.848|<.0001
92275810|NCT00475852|184454125|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.9||||0.238|TWO_SIDED|95.0|-2.4|0.6|||Cochran-Mantel-Haenszel|Controlled for region.|For subjects with a Day 30 visit prior to Day 30, information from their Day 180 visit, if available, was used to impute the mortality and rehospitalization status at Day 30.|||0.6|-2.4|0.238
92275811|NCT00475852|184454129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.109|TWO_SIDED|95.0|0.98|1.21|||Cochran-Mantel-Haenszel|Controlled for region.||||1.21|0.98|0.109
92275812|NCT03563027|184454138|SUPERIORITY||Mean Difference (Net)|433.0||||0.81|TWO_SIDED|95.0|-337.0|1203.0|||Regression, Linear|||||1203|-337|.81
92275813|NCT03563027|184454138|SUPERIORITY||Mean Difference (Net)|1224.0||||0.005|TWO_SIDED|95.0|451.0|1996.0|||Regression, Linear|||||1996|451|.005
92275814|NCT03563027|184454139|SUPERIORITY||Mean Difference (Net)|-160.0||||0.92|TWO_SIDED|95.0|-983.0|663.0|||Regression, Linear|||||663|-983|.92
92275815|NCT03563027|184454139|SUPERIORITY||Mean Difference (Net)|564.0||||0.37|TWO_SIDED|95.0|-261.0|1389.0|||Regression, Linear|||||1389|-261|.37
92275816|NCT03563027|184454140|SUPERIORITY||Median Difference (Net)|0.21|||<|0.001|TWO_SIDED|95.0|0.18|0.24|||Regression, Linear|||||.24|.18|<.001
92275817|NCT03563027|184454140|SUPERIORITY||Mean Difference (Net)|0.34|||<|0.001|TWO_SIDED|95.0|0.31|0.37|||Regression, Linear|||||.37|.31|<.001
92275818|NCT03563027|184454141|SUPERIORITY||Mean Difference (Net)|0.09|||<|0.001|TWO_SIDED|95.0|0.06|0.1|||Regression, Linear|||||0.1|.06|<.001
92275819|NCT03563027|184454141|SUPERIORITY||Median Difference (Net)|0.18|||<|0.001|TWO_SIDED|95.0|0.15|0.2|||Regression, Linear|||||.20|.15|<.001
92275820|NCT01365845|184454185|SUPERIORITY_OR_OTHER||Non-parametric paired t-test (Wilcoxon)|29.1||||0.0078|||||||Wilcoxon (Mann-Whitney)|||||||0.0078
92275821|NCT01488019|184454194|NON_INFERIORITY|The hazard ratio and 90% two-sided confidence interval for the hazard ratio comparing Perforomist to placebo were estimated. Non-inferiority was declared if the upper limit of the two-sided 90% confidence interval was wholly less than 1.5.|Hazard Ratio (HR)|0.965|||||TWO_SIDED|90.0|0.711|1.308||Hazard Ratio was calculated as Perforomist vs Placebo. The non-inferiority margin for the hazard ratio is 1.5. Subjects with no primary event at withdrawal or study completion were treated as censored observations at time of withdrawal|Regression, Cox|Treatment, site group, and bronchodilator reversibility included as covariates in the model.|Hazard Ratio was calculated as Perforomist Inhalation Solution vs Placebo. The non-inferiority margin for the hazard ratio is 1.5.|||1.308|0.711|
92275822|NCT02173301|184454237|SUPERIORITY|||||||0.066|||||||Mixed Models Analysis|Restricted Maximum Likelihood (REML) - an REML-based mixed model for repeated measures (MMRM) with and with baseline PASI score as covariate||||||0.066
92275823|NCT02173301|184454237|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|Restricted Maximum Likelihood (REML) - an REML-based mixed model for repeated measures (MMRM) with and with baseline PASI score as covariate||||||0.001
92275824|NCT02173301|184454237|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Restricted Maximum Likelihood (REML) - an REML-based mixed model for repeated measures (MMRM) with and with baseline PASI score as covariate||||||<0.001
92275825|NCT02173301|184454238|SUPERIORITY|||||||0.501|||||||Regression, Logistic|||Week 12 comparison||||0.501
92275826|NCT02173301|184454238|SUPERIORITY|||||||0.34|||||||Regression, Logistic|||Week 12 comparison||||0.340
92275827|NCT02173301|184454238|SUPERIORITY|||||||0.075|||||||Regression, Logistic|||Week 12 comparison||||0.075
92275828|NCT02173301|184454239|SUPERIORITY|||||||0.229|||||||Regression, Logistic|||Week 12 comparison||||0.229
92275829|NCT02173301|184454239|SUPERIORITY|||||||0.604|||||||Regression, Logistic|||Week 12 comparison||||0.604
92275830|NCT02173301|184454239|SUPERIORITY|||||||0.573|||||||Regression, Logistic|||Week 12 comparison||||0.573
92275831|NCT04444752|184454266|SUPERIORITY|Pairwise comparisons for each CBP-201 group vs placebo were performed and a serial gate-keeping procedure was used for multiplicity adjustment. Each CBP-201 group was compared to placebo group in order from highest dose (300 mg Q2W) to the lowest dose frequency (300 mg Q4W), until statistical signficance at p=0.05 level was not achieved.|Mean Difference (Final Values)|23.36|STANDARD_ERROR_OF_MEAN|6.794||0.0007|TWO_SIDED|||||Adjusted for multiplicity using a serial gatekeeping procedure at the 5% in descending order: 1. 300 mg dose Q2W 2. 150 mg dose Q2W 3. 300 mg dose Q4W vs placebo|ANCOVA|The data were analyzed using an ANCOVA model adjusted for treatment, baseline vIGA (moderate, severe), and baseline EASI.||"The primary efficacy analysis includes comparison of percentage reduction in EASI from baseline to Week 16 for CBP-201 300 mg Q2W regimen vs placebo.~The sample size of the study was determined based on power calculations for the primary endpoint in patients receiving CBP-201 300 mg Q2W.~Null hypothesis: CBP-201 300 Q2W is not superior to placebo in terms of percent reduction in EASI Score from Baseline to Week 16."||||0.0007
92350850|NCT01405911|184606295|OTHER||Difference in Least Squares Means|-16.41|||<|0.001|TWO_SIDED|95.0|-20.32|-12.5|||Constrained Longitudinal Data Analysis|||||-12.50|-20.32|<0.001
92350851|NCT01405911|184606295|OTHER||Difference in Least Squares Means|1.3||||0.469|TWO_SIDED|95.0|-2.22|4.82|||Constrained Longitudinal Data Analysis|||||4.82|-2.22|0.469
92350852|NCT01059851|184606323|NON_INFERIORITY_OR_EQUIVALENCE|"AUC(0-∞) GMR = AUC(0-∞) GM for Severe Renal Impairment Participants ÷ AUC(0-∞) GM for Healthy Participants.~A 90% CI for the AUC(0-∞) GMR was computed from the ANCOVA model. As prespecified by the analysis plan, if the 90% CI for the AUC(0-∞) GMR was contained within the interval \[0.50, 2.00\], then the hypothesis would be met and the AUC(0-∞) of suvorexant would be similar in both groups of participants. That is, if the true ratio of the GM AUC(0-∞) is greater than 0.50 and no more than 2.00."|AUC(0-∞) Geometric Mean Ratio|1.22|||||TWO_SIDED|90.0|0.93|1.6|||ANCOVA|||"The geometric mean (GM) for each participant group and the corresponding 95% confidence interval (CI) were calculated for AUC(0-∞) using an analysis of covariance (ANCOVA) model.~The AUC(0-∞) geometric mean ratio (GMR) of the 2 participant groups was used to test the primary hypothesis, which was that the AUC(0-∞) of suvorexant following a single oral dose would be similar between participants with renal impairment and healthy matched control participants."||1.60|0.93|
92350853|NCT04937387|184606331|OTHER||Least Squares Mean Difference|0.059|STANDARD_ERROR_OF_MEAN|0.0449|||TWO_SIDED|95.0|-0.03|0.147|||||||Analysis performed using mixed effect model for repeated measures with covariates of treatment, age, sex, eCRF-reported pre-study ICS dosage at screening (med, high), baseline trough FEV1 value, visit, and interaction terms for baseline trough FEV1-by-visit and treatment-by-visit, covariance structure = unstructured.|0.147|-0.030|
92219793|NCT01342484|184339934|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.48||0.3295|TWO_SIDED|95.0|-1.47|0.51|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean Difference (Net Values) is actually the adjusted mean difference calculated as Linagliptin 1 mg minus Placebo.|Superiority of Linagliptin 1 mg vs. placebo: change from baseline in HbA1c using a restricted maximum likelihood (REML) - based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c and age as linear covariates; treatment, gender, pharmacokinetic (PK) / pharmacodynamics (PD) subgroup, background therapy, visit and visit by treatment interaction as fixed effects and patient as a random effect. The unstructured covariance structure has been used to fit the mixed model.||0.51|-1.47|0.3295
92350854|NCT04937387|184606331|OTHER||Posterior Mean|0.076|||||TWO_SIDED|90.0|0.025|0.115|||||Analysis was conducted in the Bayesian paradigm using the pre-specified mixture prior distribution, which was updated with the treatment difference between FF/UMEC/VI 100/62.5/25 and FF/VI 100/25 estimated in the MMRM analysis.|||0.115|0.025|
92350855|NCT04937387|184606331|OTHER||Posterior Median|0.079|||||TWO_SIDED|95.0|0.005|0.123|||||Analysis was conducted in the Bayesian paradigm using the pre-specified mixture prior distribution, which was updated with the treatment difference between FF/UMEC/VI 100/62.5/25 and FF/VI 100/25 estimated in the MMRM analysis.|||0.123|0.005|
92350856|NCT04937387|184606332|OTHER||Least Squares Mean Difference|-0.005|STANDARD_ERROR_OF_MEAN|0.0455|||TWO_SIDED|95.0|-0.094|0.084|||||||Analysis performed using mixed effect model for repeated measures with covariates of treatment, age, sex, eCRF-reported pre-study ICS dosage at screening (med, high), baseline trough FEV1 value, visit, and interaction terms for baseline trough FEV1-by-visit and treatment-by-visit, covariance structure = unstructured.|0.084|-0.094|
92350857|NCT04937387|184606332|OTHER||Posterior Mean|0.023|||||TWO_SIDED|90.0|-0.071|0.103|||||Analysis was conducted in the Bayesian paradigm using the pre-specified mixture prior distribution, which was updated with the treatment difference between FF/UMEC/VI 200/62.5/25 and FF/VI 200/25 estimated in the MMRM analysis.|||0.103|-0.071|
92350858|NCT04937387|184606332|OTHER||Posterior Median|0.023||||||95.0|-0.086|0.11|||||Analysis was conducted in the Bayesian paradigm using the pre-specified mixture prior distribution, which was updated with the treatment difference between FF/UMEC/VI 200/62.5/25 and FF/VI 200/25 estimated in the MMRM analysis.|||0.110|-0.086|
92350859|NCT04937387|184606333|OTHER||Least Squares Mean Difference|-0.028|STANDARD_ERROR_OF_MEAN|0.0823|||TWO_SIDED|95.0|-0.19|0.134|||||||Analysis performed using mixed effect model for repeated measures with covariates of treatment, age, sex, eCRF-reported pre-study ICS dosage at screening (med, high), baseline ACQ-7 total score, visit, and interaction terms for baseline ACQ-7 total score-by-visit and treatment-by-visit, covariance structure = unstructured.|0.134|-0.190|
92350860|NCT04937387|184606333|OTHER||Least Squares Mean Difference|0.112|STANDARD_ERROR_OF_MEAN|0.0832|||TWO_SIDED|95.0|-0.052|0.276|||||||Analysis performed using mixed effect model for repeated measures with covariates of treatment, age, sex, eCRF-reported pre-study ICS dosage at screening (med, high), baseline ACQ-7 total score, visit, and interaction terms for baseline ACQ-7 total score-by-visit and treatment-by-visit, covariance structure = unstructured.|0.276|-0.052|
92350861|NCT01039675|184606334|NON_INFERIORITY_OR_EQUIVALENCE|UMEC/VI will be declared non-inferior to placebo in terms of weighted mean pulse rate if the upper limit of the 95% confidence interval around the estimated treatment difference for weighted mean pulse rate is less than the non-inferiority margin of +10bpm.|Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-5.5|4.5|||||Estimated from repeated measures analysis of covariance.|||4.5|-5.5|
92350862|NCT00567580|184606341|SUPERIORITY||||||<|0.001||||||One-sided significance level = 0.001|Z test|||Alternative hypotheses: 10% improvement in 5-year FFP in Arm 2 and 20% improvement in Arm 3, both relative to Arm 1, which has an assumed 5-year FFP of 70%. Sample size of 1587 (529/arm) with overall one-sided 0.025 alpha provides 90% power. Interim analyses (reported here) tested at one-sided significance level of 0.001. P\<0.001 indicates comparison crossed interim efficacy boundary. See Limitations and Caveats section.||||<0.001
92350863|NCT00567580|184606341|SUPERIORITY|||||||0.003|||||||Z-test|||Alternative hypotheses: 10% improvement in 5-year FFP in Arm 2 and 20% improvement in Arm 3, both relative to Arm 1, which has an assumed 5-year FFP of 70%. Sample size of 1587 (529/arm) with overall one-sided 0.025 alpha provides 90% power. Interim analyses (reported here) tested at one-sided significance level of 0.001. P\<0.001 indicates comparison crossed interim efficacy boundary. See Limitations and Caveats section.||||0.003
92350864|NCT00567580|184606341|SUPERIORITY||||||<|0.001|||||||Z-test|||Alternative hypotheses: 10% improvement in 5-year FFP in Arm 2 and 20% improvement in Arm 3, both relative to Arm 1, which has an assumed 5-year FFP of 70%. Sample size of 1587 (529/arm) with overall one-sided 0.025 alpha provides 90% power. Interim analyses (reported here) tested at one-sided significance level of 0.001. P\<0.001 indicates comparison crossed interim efficacy boundary. See Limitations and Caveats section.||||<0.001
92400554|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.434|||<|0.0001|TWO_SIDED|95.0|0.844|2.024|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.024|0.844|<.0001
92350865|NCT00567580|184606342|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.001|TWO_SIDED|97.5|0.45|0.72||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||0.72|0.45|<0.001
92350866|NCT00567580|184606342|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|97.5|0.51|0.89||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||0.89|0.51|<0.001
92350867|NCT00567580|184606342|SUPERIORITY||Hazard Ratio (HR)|0.39|||<|0.001|TWO_SIDED|97.5|0.3|0.51||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||0.51|0.30|<0.001
92350868|NCT00567580|184606343|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.137|TWO_SIDED|97.5|0.39|1.39||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.39|0.39|0.137
92350869|NCT00567580|184606343|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.007|TWO_SIDED|97.5|0.16|0.95||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||0.95|0.16|0.007
92350870|NCT00567580|184606343|SUPERIORITY||Hazard Ratio (HR)|0.29|||<|0.001|TWO_SIDED|97.5|0.12|0.68||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||0.68|0.12|<0.001
92350871|NCT00567580|184606344|SUPERIORITY||Hazard Ratio (HR)|0.37||||0.01|TWO_SIDED|97.5|0.14|1.01||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.01|0.14|0.010
92350872|NCT00567580|184606344|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.177|TWO_SIDED|97.5|0.14|2.3||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||2.30|0.14|0.177
92350873|NCT00567580|184606344|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|97.5|0.06|0.71||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||0.71|0.06|<0.001
92350874|NCT00567580|184606345|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.105|TWO_SIDED|97.5|0.49|1.22||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.22|0.49|0.105
92350875|NCT00567580|184606345|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.022|TWO_SIDED|97.5|0.36|1.06||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||1.06|0.36|0.022
92350876|NCT00567580|184606345|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|97.5|0.29|0.81||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||0.81|0.29|<0.001
92350877|NCT00567580|184606346|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.137|TWO_SIDED|97.5|0.35|1.43||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.43|0.35|0.137
92350878|NCT00567580|184606346|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.141|TWO_SIDED|97.5|0.3|1.54||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||1.54|0.30|0.141
92350879|NCT00567580|184606346|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.014|TWO_SIDED|97.5|0.21|1.03||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.03|0.21|0.014
92350880|NCT00567580|184606347|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.235|TWO_SIDED|97.5|0.54|1.38||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.38|0.54|0.235
92350881|NCT00567580|184606347|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.481|TWO_SIDED|97.5|0.61|1.6||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||1.60|0.61|0.481
92350882|NCT00567580|184606347|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.213|TWO_SIDED|97.5|0.53|1.35||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.35|0.53|0.213
92350883|NCT00567580|184606348|SUPERIORITY||Odds Ratio (OR)|2.47|||<|0.001|TWO_SIDED|97.5|1.81|3.37||One-sided significance level = 0.025|Regression, Logistic|Model was adjusted for entry PSA level, pathology, seminal vesicle involvement, Gleason score, race, and age.|Reference level = PBRT Alone|Acute grade 2+ acute adverse events||3.37|1.81|<0.001
92350884|NCT00567580|184606348|SUPERIORITY||Odds Ratio (OR)|1.35||||0.007|TWO_SIDED|97.5|1.03|1.77||One-sided significance level = 0.025|Regression, Logistic|Model was adjusted for entry PSA level, pathology, seminal vesicle involvement, Gleason score, race, and age.|Reference level = PBRT + STAD|Acute grade 2+ acute adverse events||1.77|1.03|0.007
92400555|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.431|||<|0.0001|TWO_SIDED|95.0|0.838|2.023|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.023|0.838|<.0001
92350885|NCT00567580|184606348|SUPERIORITY||Odds Ratio (OR)|2.04||||0.002|TWO_SIDED|97.5|1.16|3.6||One-sided significance level = 0.025|Regression, Logistic|Univariate model was used due to the low number of events.|Reference level = PBRT Alone|Acute grade 3+ acute adverse events||3.60|1.16|0.002
92350886|NCT00567580|184606348|SUPERIORITY||Odds Ratio (OR)|1.47||||0.025|TWO_SIDED|95.0|0.975|2.27||One-sided significance level = 0.025|Regression, Logistic|Univariate model was used due to the low number of events.|Reference level = PBRT + STAD|Acute grade 3+ adverse events||2.27|0.975|0.025
92350887|NCT00567580|184606349|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.268|TWO_SIDED|97.5|0.88|1.26||One-sided significance level = 0.025|Log Rank||Reference level = PBRT Alone|Late grade 2+ adverse events||1.26|0.88|0.268
92350888|NCT00567580|184606349|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.101|TWO_SIDED|97.5|0.93|1.32||One-sided significance level = 0.025|Log Rank||Reference level = PBRT + STAD|Late grade 2+ adverse events||1.32|0.93|0.101
92350889|NCT00567580|184606349|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.119|TWO_SIDED|97.5|0.83|1.8||One-sided significance level = 0.025|Log Rank||Reference level = PBRT Alone|Late grade 3+ adverse events||1.80|0.83|0.119
92350890|NCT00567580|184606349|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.17|TWO_SIDED|97.5|0.82|1.65||One-sided significance level = 0.025|Log Rank||Reference level = PBRT + STAD|Late grade 3+ adverse events||1.65|0.82|0.170
92350891|NCT01807520|184606427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.7|STANDARD_ERROR_OF_MEAN|6.26|<|0.0001|TWO_SIDED|95.0|-39.1|-14.3|||Mixed model reapeated measures|||||-14.3|-39.1|<0.0001
92350892|NCT01807520|184606427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.4|STANDARD_ERROR_OF_MEAN|5.47|<|0.0001|TWO_SIDED|95.0|-45.2|-23.5|||Mixed model repeated measures|||||-23.5|-45.2|<0.0001
92350893|NCT01258855|184606431|OTHER|||||||0.002|||||||Log Rank|||||||0.002
92350894|NCT01258855|184606432|OTHER|||||||0.43|||||||Log Rank|||||||0.43
92350895|NCT01258855|184606435|OTHER|||||||0.003|||||||Log Rank|||||||0.003
92350896|NCT01258855|184606436|OTHER|||||||0.02|||||||Log Rank|||||||0.02
92350897|NCT02400736|184606461|SUPERIORITY|"Proportion of steady workers in each group was analyzed using a logistic regression model to calculate an odds ratio and 95% Confidence Interval. Adhering to the principle of intent-to-treat, participants were retained in the arm to which they were randomized for the 12-month follow-up period despite discontinuing the treatment intervention or exiting the study early. Missing data was counted as not worked."|Odds Ratio (OR)|2.49||||0.02|TWO_SIDED|95.0|1.14|5.43||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|Chi-squared|||Using SamplePower 3.0 to estimate the statistical power, the target sample size of 120 (60 per group) provided 84% power to detect a 25% or greater absolute difference between groups in the percent of participants achieving 'steady worker' status (e.g., 40% in IPS vs. 15% in control arm), at the .05 level of significance, assuming a 10% attrition.||5.43|1.14|0.02
92350898|NCT02400736|184606462|SUPERIORITY|Intent to treat analysis.||||||0.003||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|t-test, 2 sided|||Total mean time worked was compared using an analysis of variance (ANOVA).||||0.003
92350899|NCT02400736|184606463|SUPERIORITY|||||||0.005||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|Mixed Models Analysis|||intent to treat analysis||||0.005
92350900|NCT02400736|184606464|SUPERIORITY|a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.||||||0.033|||||||t-test, 2 sided|||||||0.033
92350901|NCT02400736|184606465|SUPERIORITY|||||||0.853||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|Mixed Models Analysis|Effect of treatment on outcome was analyzed using longitudinal mixed-effects regression model.Group by time interaction tested for treatment effect.||||||0.853
92350902|NCT02400736|184606466|SUPERIORITY|a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.||||||0.004|||||||t-test, 2 sided|||||||0.004
92350903|NCT02400736|184606467|SUPERIORITY|||||||0.47||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|Mixed Models Analysis|Effect of treatment on outcome was analyzed using longitudinal mixed-effects regression model.Group by time interaction tested for treatment effect.||The effect of treatment on each of secondary outcome measures were analyzed using a longitudinal mixed-effects regression model. The group by time interaction tested for the treatment effect.||||0.47
92350904|NCT02400736|184606468|SUPERIORITY|||||||0.062||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|t-test, 2 sided|||||||0.062
92350905|NCT02400736|184606469|SUPERIORITY||||||>|0.3||||||a priori threshold for statistical significance p \</= 0.05 or lower. No adjustments were made for multiple comparisons.|ANOVA|||||||>0.3
92350906|NCT02400736|184606470|SUPERIORITY|||||||0.001||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|t-test, 2 sided|||||||0.001
92350907|NCT02400736|184606471|SUPERIORITY|||||||0.006||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|Chi-squared|||||||0.006
92350908|NCT01771913|184606472|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.310
92350909|NCT01771913|184606473|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.026
92400556|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.424|||<|0.0001|TWO_SIDED|95.0|0.819|2.029|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.029|0.819|<.0001
92350910|NCT01771913|184606474|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED||||||Fisher Exact|||||||0.103
92400557|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.421|||<|0.0001|TWO_SIDED|95.0|0.805|2.037|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.037|0.805|<.0001
92350911|NCT04621760|184606475|SUPERIORITY|||||||0.51||||||a priori threshold for statistical significance: 0.05|Fisher Exact|||||||0.51
92350912|NCT04621760|184606476|SUPERIORITY|||||||0.62||||||threshold for significance: 0.05|Fisher Exact|one sided Fisher's exct test, given small cell sizes.||||||0.62
92350913|NCT04621760|184606477|SUPERIORITY|||||||0.207||||||a priori threshold for significance: 0.05|Fisher Exact|Fisher's exact test used due to small sample size||||||0.207
92350914|NCT04621760|184606478|SUPERIORITY|||||||0.496||||||a priori threshold for significance: 0.05|Fisher Exact|Fisher's exact test used due to small cell size||||||0.496
92350915|NCT04621760|184606479|SUPERIORITY|||||||0.02||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion correctly identifying PrEP is a daily pill to prevent HIV"||||0.02
92350916|NCT04621760|184606479|SUPERIORITY|||||||0.01||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion correctly responding to prompt: PrEP is for all adults"||||0.01
92350917|NCT04621760|184606479|SUPERIORITY||||||<|0.01||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion who correctly identified: PrEP will not work if taken once a week"||||<0.01
92350918|NCT04621760|184606479|SUPERIORITY||||||<|0.01||||||a priori threshold for significance: 0.05|Chi-squared|||"Test of proportion who correctly identified PrEP does not prevent STDs other than HIV"||||<0.01
92350919|NCT04621760|184606479|SUPERIORITY||||||<|0.01||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion who correctly identified, PrEP side effects do not last forever"||||<0.01
92350920|NCT04621760|184606479|SUPERIORITY|||||||0.03||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion who correctly identified, A baby could be norm to HIV discordant parents without transmitting HIV"||||0.03
92350921|NCT04621760|184606479|SUPERIORITY||||||<|0.01||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion who correctly identified There is medication you can take after sex to prevent HIV"||||<0.01
92350922|NCT04621760|184606479|SUPERIORITY|||||||0.29||||||a priori threshold for significance: 0.05|Chi-squared|||"Test for proportion who correctly identified PrEP efficacy is \> 95%"||||0.29
92350923|NCT04621760|184606480|SUPERIORITY|||||||0.04||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.04
92350924|NCT04621760|184606481|SUPERIORITY|||||||0.02||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.02
92350925|NCT04621760|184606482|SUPERIORITY|||||||0.05||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.05
92350926|NCT04621760|184606483|SUPERIORITY|||||||0.03||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.03
92350927|NCT04621760|184606484|SUPERIORITY|||||||0.07||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.07
92350928|NCT04621760|184606485|SUPERIORITY|||||||0.1||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.10
92350929|NCT04621760|184606486|SUPERIORITY|||||||0.22||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong negative skew of responses, transformed into a binary variable comparing those with highest possible score versus higher score. Data then tested through tests of proportions.||||0.22
92350930|NCT04621760|184606487|SUPERIORITY|||||||0.51||||||a priori threshold for significance: 0.05|Fisher Exact|Fisher's exact test used due to small cell size||||||0.51
92350931|NCT04621760|184606488|SUPERIORITY|||||||0.9||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use PrEP||||0.90
92350932|NCT04621760|184606488|SUPERIORITY|||||||0.75||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use abstinence||||0.75
92350933|NCT04621760|184606488|SUPERIORITY|||||||0.32||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use PEP||||0.32
92350934|NCT04621760|184606488|SUPERIORITY|||||||0.4||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use HIV testing||||0.40
92350935|NCT04621760|184606488|SUPERIORITY|||||||0.34||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use STD testing||||0.34
92350936|NCT04621760|184606488|SUPERIORITY|||||||0.1||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use Treatment as Prevention||||0.10
92350937|NCT04621760|184606489|SUPERIORITY|||||||0.01||||||a priori threshold for significance: 0.05|Chi-squared|||||||0.01
92350938|NCT04621760|184606490|SUPERIORITY|||||||0.26||||||a priori threshold for significance: 0.05|Fisher Exact|||"Comparing proportions in response to prompt The information was easy to understand"||||0.26
92160873|NCT03852433|184210408|OTHER||Difference in percentages|28.0||||0.0049|TWO_SIDED|95.0|8.2|45.1|||Fisher Exact|||||45.1|8.2|0.0049
92350939|NCT04621760|184606490|SUPERIORITY|||||||0.26||||||a priori threshold for significance: 0.05|Fisher Exact|||"Comparing proportions in response to prompt: I got all of the information I needed"||||0.26
92350940|NCT04621760|184606490|SUPERIORITY|||||||0.59||||||a priori threshold for significance: 0.05|Fisher Exact|||||||0.59
92350941|NCT04621760|184606490|SUPERIORITY|||||||0.17||||||a priori threshold for significance: 0.05|Fisher Exact|||"Comparing proportions in response to prompt: The information felt useful to me"||||0.17
92160874|NCT03852433|184210409|OTHER||Difference in percentages|34.0||||0.0003|TWO_SIDED|95.0|14.6|50.4|||Fisher Exact|||||50.4|14.6|0.0003
92160875|NCT03852433|184210409|OTHER||Difference in percentages|1.0||||1|TWO_SIDED|95.0|-22.8|21.4|||Fisher Exact|||||21.4|-22.8|1.0000
92160876|NCT03852433|184210409|OTHER||Difference in percentages|21.0||||0.1265|TWO_SIDED|95.0|-5.3|42.2|||Fisher Exact|||||42.2|-5.3|0.1265
92160877|NCT03852433|184210409|OTHER||Difference in percentages|-13.0||||0.1863|TWO_SIDED|95.0|-35.3|5.4|||Fisher Exact|||||5.4|-35.3|0.1863
92160878|NCT03852433|184210409|OTHER||Difference in percentages|20.0||||0.0601|TWO_SIDED|95.0|1.0|38.2|||Fisher Exact|||||38.2|1.0|0.0601
92160879|NCT03852433|184210409|OTHER||Difference in percentages|-14.0||||0.1247|TWO_SIDED|95.0|-29.9|1.7|||Fisher Exact|||||1.7|-29.9|0.1247
92160880|NCT03852433|184210410|OTHER||Difference in LS Mean|1.56||||0.0717|TWO_SIDED|95.0|-0.14|3.26|||MMRM|||||3.26|-0.14|0.0717
92350942|NCT04621760|184606491|SUPERIORITY|||||||0.74|||||||Chi-squared|||"Testing proportion of acceptability of abstinence method (proportion that responded great for me)"||||0.74
92350943|NCT04621760|184606491|SUPERIORITY|||||||0.59|||||||Chi-squared|||"Testing proportion of acceptability of condoms method (proportion that responded great for me)"||||0.59
92350944|NCT04621760|184606491|SUPERIORITY|||||||0.66|||||||Chi-squared|||"Testing proportion of acceptability of PEP method (proportion that responded great for me)"||||0.66
92350945|NCT04621760|184606491|SUPERIORITY|||||||0.49|||||||Chi-squared|||"Testing proportion of acceptability of PrEP method (proportion that responded great for me)"||||0.49
92350946|NCT04621760|184606491|SUPERIORITY|||||||0.94|||||||Chi-squared|||"Testing proportion of acceptability of HIV testing method (proportion that responded great for me)"||||0.94
92350947|NCT04621760|184606491|SUPERIORITY|||||||0.95|||||||Chi-squared|||"Testing proportion of acceptability of STD testing method (proportion that responded great for me)"||||0.95
92350948|NCT04621760|184606491|SUPERIORITY|||||||0.39|||||||Chi-squared|||"Testing proportion of acceptability of Treatment as prevention method (proportion that responded great for me)"||||0.39
92350949|NCT04621760|184606497|SUPERIORITY|||||||0.13||||||a priori threshold for significance: 0.05|Fisher Exact|||||||0.13
92160881|NCT03852433|184210410|OTHER||Difference in LS Mean|-1.84||||0.1563|TWO_SIDED|95.0|-4.39|0.71|||MMRM|||||0.71|-4.39|0.1563
92160882|NCT03852433|184210410|OTHER||Difference in LS Mean|-1.8||||0.1626|TWO_SIDED|95.0|-4.33|0.73|||MMRM|||||0.73|-4.33|0.1626
92160883|NCT03852433|184210410|OTHER||Difference in LS Mean|-3.34||||0.0099|TWO_SIDED|95.0|-5.87|-0.82|||MMRM|||||-0.82|-5.87|0.0099
92160884|NCT03852433|184210410|OTHER||Difference in LS Mean|0.07||||0.9384|TWO_SIDED|95.0|-1.67|1.81|||MMRM|||||1.81|-1.67|0.9384
92160885|NCT03852433|184210410|OTHER||Difference in LS Mean|-1.49||||0.0875|TWO_SIDED|95.0|-3.2|0.22|||MMRM|||||0.22|-3.20|0.0875
92160886|NCT03852433|184210411|OTHER||Difference in LS Mean|0.15||||0.8645|TWO_SIDED|95.0|-1.54|1.83|||MMRM|||||1.83|-1.54|0.8645
92160887|NCT03852433|184210411|OTHER||Difference in LS Mean|-0.33||||0.7033|TWO_SIDED|95.0|-2.06|1.39|||MMRM|||||1.39|-2.06|0.7033
92160888|NCT03852433|184210411|OTHER||Difference in LS Mean|-0.48||||0.5806|TWO_SIDED|95.0|-2.18|1.23|||MMRM|||||1.23|-2.18|0.5806
92160889|NCT03852433|184210412|OTHER||Difference in LS Mean|-1.68||||0.1103|TWO_SIDED|95.0|-3.75|0.39|||MMRM|||||0.39|-3.75|0.1103
92350950|NCT04621760|184606498|SUPERIORITY|||||||0.08||||||a priori threshold for significance: 0.05|Fisher Exact|||||||0.08
92350951|NCT00106535|184606517|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92350952|NCT00106535|184606517|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92350953|NCT00106535|184606518|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92350954|NCT00106535|184606518|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92350955|NCT00106535|184606519|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92350956|NCT00106535|184606519|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92350957|NCT00106535|184606528|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's test|Stratified by region.||||||<0.0001
92350958|NCT00106535|184606528|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's test|Stratified by region.||||||<0.0001
92350959|NCT00106535|184606529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-70.26|||<|0.0001|TWO_SIDED|95.0|-96.96|-43.56|||ANOVA|Adjusted for region and original treatment group.||||-43.56|-96.96|<0.0001
92350960|NCT00106535|184606529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-85.95|||<|0.0001|TWO_SIDED|95.0|-112.69|-59.22|||ANOVA|Adjusted for region and original treatment group.||||-59.22|-112.69|<0.0001
92350961|NCT00106535|184606531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-148.1|||<|0.0001|TWO_SIDED|95.0|-205.22|-90.98|||ANOVA|Adjusted for region.||||-90.98|-205.22|<0.0001
92350962|NCT00106535|184606531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-181.4|||<|0.0001|TWO_SIDED|95.0|-238.6|-124.21|||ANOVA|Adjusted for region.||||-124.21|-238.60|<0.0001
92350963|NCT00106535|184606556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5212.28|||<|0.0001|TWO_SIDED|95.0|3139.4|7285.16|||ANOVA|Adjusted for region.||||7285.16|3139.40|<0.0001
92350964|NCT00106535|184606556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7092.76|||<|0.0001|TWO_SIDED|95.0|5066.16|9119.36||Adjusted for region.|ANOVA|||||9119.36|5066.16|<0.0001
92350965|NCT00106535|184606572|SUPERIORITY_OR_OTHER|||||||0.0023||95.0|||||Van Elteren's test|Stratified by region.||||||0.0023
92160890|NCT03852433|184210412|OTHER||Difference in LS Mean|-2.05||||0.1533|TWO_SIDED|95.0|-4.88|0.77|||MMRM|||||0.77|-4.88|0.1533
92160891|NCT03852433|184210412|OTHER||Difference in LS Mean|-2.22||||0.1129|TWO_SIDED|95.0|-4.98|0.53|||MMRM|||||0.53|-4.98|0.1129
92160892|NCT03852433|184210412|OTHER||Difference in LS Mean|-0.58||||0.6753|TWO_SIDED|95.0|-3.34|2.17|||MMRM|||||2.17|-3.34|0.6753
92350966|NCT00106535|184606572|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's test|||||||<0.0001
92350967|NCT00106535|184606573|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Van Elteren's test|Stratified by region.||||||0.0001
92350968|NCT00106535|184606573|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's test|Stratified by region.||||||<0.0001
92160893|NCT03852433|184210412|OTHER||Difference in LS Mean|-0.12||||0.9124|TWO_SIDED|95.0|-2.28|2.04|||MMRM|||||2.04|-2.28|0.9124
92160894|NCT03852433|184210412|OTHER||Difference in LS Mean|1.56||||0.1526|TWO_SIDED|95.0|-0.59|3.7|||MMRM|||||3.70|-0.59|0.1526
92350969|NCT06042855|184606622|SUPERIORITY|Posterior probability of efficacy (P(HR\>1))|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.89|1.03|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.03|0.89|
92350970|NCT06042855|184606623|SUPERIORITY||Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|0.32|6.38||||||No hypothesis test or decision rule was evaluated.||6.38|0.32|
92350971|NCT06042855|184606626|SUPERIORITY||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|0.82|1.78|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.78|0.82|
92350972|NCT06042855|184606627|SUPERIORITY||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.66|1.31|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.31|0.66|
92350973|NCT06042855|184606628|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.57|1.41|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.41|0.57|
92350974|NCT06042855|184606629|SUPERIORITY||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.78|1.42|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.42|0.78|
92350975|NCT06042855|184606630|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.85|1.32||||||Day 7||1.32|0.85|
92350976|NCT06042855|184606630|OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.85|1.28||||||Day 14||1.28|0.85|
92350977|NCT06042855|184606630|OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.94|1.53||||||Day 28||1.53|0.94|
92350978|NCT06042855|184606630|OTHER||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.91|1.48||||||Day 90||1.48|0.91|
92350979|NCT06042855|184606630|OTHER||Odds Ratio (OR)|1.37|||||TWO_SIDED|95.0|1.06|1.77||||||Day 120||1.77|1.06|
92350980|NCT06042855|184606630|OTHER||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|1.02|1.66||||||Day 180||1.66|1.02|
92160895|NCT00389519|184210436|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||two-sided test|ANCOVA|test from contrast statement from full model||"Planned interim efficacy analysis: 80 placebo and 80 high-dose ramipril subjects provided 93% power, alpha=0.032, to detect 5 mmHg difference in primary outcome. SD of 8.5 mmHg assumed. Alpha of 0.032 required for the planned interim efficacy analysis.~If study continued: 450 total subjects would provide 90% power, alpha=0.027, to detect 3 mmHg difference between placebo and combined ramipril dose groups. Alpha of 0.027 required for the final analysis."||||0.044
92160896|NCT00389519|184210437|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||two-sided, unadjusted|ANCOVA|test from contrast statement from full model||||||0.006
92350981|NCT06042855|184606631|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.86|1.15||||||Day 7||1.15|0.86|
92350982|NCT06042855|184606631|OTHER||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.87|1.21||||||Day 14||1.21|0.87|
92350983|NCT06042855|184606631|OTHER||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.58|0.92||||||Day 28||0.92|0.58|
92350984|NCT06042855|184606631|OTHER||Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.7|1.02||||||Day 90||1.02|0.70|
92350985|NCT06042855|184606631|OTHER||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.68|0.99||||||Day 120||0.99|0.68|
92350986|NCT06042855|184606631|OTHER||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.7|1.01||||||Day 180||1.01|0.70|
92350987|NCT06042855|184606632|OTHER||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.7|1.06||||||Day 7||1.06|0.70|
92350988|NCT06042855|184606632|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.79|1.14||||||Day 14||1.14|0.79|
92350989|NCT06042855|184606632|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.69|1.1||||||Day 28||1.10|0.69|
92350990|NCT06042855|184606632|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.8|1.25||||||Day 90||1.25|0.80|
92350991|NCT06042855|184606632|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.7|1.08||||||Day 120||1.08|0.70|
92400558|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.415|||<|0.0001|TWO_SIDED|95.0|0.774|2.056|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.056|0.774|<.0001
92400559|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.411|||<|0.0001|TWO_SIDED|95.0|0.753|2.069|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.069|0.753|<.0001
92160897|NCT03425539|184210441|OTHER|An ANCOVA was applied to the change from baseline to Month 6 including the baseline value, the two stratification factors (sex and enzyme replacement therapy (ERT) treatment status), and the treatment group.|LS Mean difference vs. placebo|0.42||||0.3189|TWO_SIDED|95.0|-0.4|1.23|||ANCOVA|||||1.23|-0.4|0.3189
92160898|NCT03425539|184210442|OTHER|An ANCOVA was applied to the change from baseline to Month 6 including the baseline value, the two stratification factors (sex and ERT treatment status), and the treatment group.|LS Mean difference vs. placebo|-873.53|||<|0.0001|TWO_SIDED|95.0|-1097.53|-649.53|||ANCOVA|||||-649.53|-1097.53|<0.0001
92160899|NCT03425539|184210443|OTHER|An ANCOVA was applied to the change from baseline to Month 6 including the terms value, the two stratification factors (sex and ERT treatment status), and the treatment group.|LS Mean difference vs. placebo|0.31||||0.4676|TWO_SIDED|95.0|-0.53|1.16|||ANCOVA|||||1.16|-0.53|0.4676
92160900|NCT03425539|184210444|OTHER||Win ratio|1.0||||0.8986|TWO_SIDED|95.0|0.57|1.89|||ANCOVA|||The p-value was derived from a rank ANCOVA adjusted for the baseline value and stratified by sex and ERT treatment status.||1.89|0.57|0.8986
92160901|NCT00946192|184210445|OTHER|Least square means||||||0.039|||||||Mixed Models Analysis|||||||0.039
92160902|NCT00946192|184210446|OTHER|||||||0.018|||||||Mixed Models Analysis|||||||0.018
92160903|NCT04159506|184210480|SUPERIORITY||Median Difference (Final Values)|0.63|||<|0.05|TWO_SIDED|||||This pilot study was designed mostly to determine feasibility and acceptability of TEE, AC, and study methods. Nonetheless, Paired Difference Signed Rank Tests were used to compare conditions given small sample and non-normal distribution of data.|Wilcoxon (Mann-Whitney)|No adjustments were made given this was a pilot study focused on feasibility and acceptability.||||||<0.05
92160904|NCT04159506|184210481|SUPERIORITY||Median Difference (Final Values)|0.31|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|No adjustments were made given this was a pilot study focused on feasibility and acceptability.||This pilot study was designed mostly to determine feasibility and acceptability of TEE, AC, and study methods. Nonetheless, Paired Difference Signed Rank Tests were used to compare conditions given small sample and non-normal distribution of data.||||<0.05
92350992|NCT06042855|184606632|OTHER||Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.66|1.04||||||Day 180||1.04|0.66|
92350993|NCT06042855|184606633|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.7|1.09||||||Day 7||1.09|0.70|
92160905|NCT04159506|184210482|SUPERIORITY||Median Difference (Final Values)|0.67|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|No adjustments were made given this was a pilot study focused on feasibility and acceptability.||This pilot study was designed mostly to determine feasibility and acceptability of TEE, AC, and study methods. Nonetheless, Paired Difference Signed Rank Tests were used to compare conditions given small sample and non-normal distribution of data.||||<0.05
92160906|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Day 1.|Student's t-test|||||||<0.0001
92160907|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Day 14.|Student's t-test|||||||<0.0001
92350994|NCT06042855|184606633|OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.65|0.98||||||Day 14||0.98|0.65|
92350995|NCT06042855|184606633|OTHER||Odds Ratio (OR)|0.63|||||TWO_SIDED|95.0|0.47|0.85||||||Day 28||0.85|0.47|
92350996|NCT06042855|184606633|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.7|1.08||||||Day 90||1.08|0.70|
92350997|NCT06042855|184606633|OTHER||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.62|0.96||||||Day 120||0.96|0.62|
92350998|NCT06042855|184606633|OTHER||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.61|0.95||||||Day 180||0.95|0.61|
92350999|NCT06042855|184606634|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.83|1.22||||||Day 7||1.22|0.83|
92351000|NCT06042855|184606634|OTHER||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.76|1.13||||||Day 14||1.13|0.76|
92351001|NCT06042855|184606634|OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.45|0.8||||||Day 28||0.80|0.45|
92351002|NCT06042855|184606634|OTHER||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.59|0.9||||||Day 90||0.90|0.59|
92351003|NCT06042855|184606634|OTHER||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.61|0.97||||||Day 120||0.97|0.61|
92351004|NCT06042855|184606634|OTHER||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.62|0.94||||||Day 180||0.94|0.62|
92351005|NCT06042855|184606635|OTHER||Odds Ratio (OR)|1.17|||||TWO_SIDED|95.0|0.95|1.43||||||Day 7||1.43|0.95|
92351006|NCT06042855|184606635|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.87|1.25||||||Day 14||1.25|0.87|
92351007|NCT06042855|184606635|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.99|1.59||||||Day 28||1.59|0.99|
92351008|NCT06042855|184606635|OTHER||Odds Ratio (OR)|1.09|||||TWO_SIDED|95.0|0.89|1.35||||||Day 90||1.35|0.89|
92351009|NCT06042855|184606635|OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.98|1.48||||||Day 120||1.48|0.98|
92351010|NCT06042855|184606635|OTHER||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.96|1.46||||||Day 180||1.46|0.96|
92351011|NCT06042855|184606636|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.96|1.26||||||Day 7||1.26|0.96|
92351012|NCT06042855|184606636|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.87|1.14||||||Day 14||1.14|0.87|
92160908|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Day 31.|Student's t-test|||||||<0.0001
92351013|NCT06042855|184606636|OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.81|1.07||||||Day 28||1.07|0.81|
92351014|NCT06042855|184606636|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.76|1.07||||||Day 90||1.07|0.76|
92351015|NCT06042855|184606636|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.78|1.06||||||Day 120||1.06|0.78|
92351016|NCT06042855|184606636|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.75|1.04||||||Day 180||1.04|0.75|
92351017|NCT06042855|184606637|SUPERIORITY|Posterior probability of efficacy (P(Difference in MTU (Active - Placebo)\<0))|Difference in model estimate time unwell|0.03|||||TWO_SIDED|95.0|-0.21|0.28|||||The mean time unwell is estimated from receipt of study drug to study day 14. The interval is a highest density credible interval.|No hypothesis test or decision rule was evaluated.||0.28|-0.21|
92351018|NCT06042855|184606638|SUPERIORITY|Posterior probability of efficacy (P(Difference days benefit (Active - Placebo)\>0))|Difference in model estimate time unwell|-0.04|||||TWO_SIDED|95.0|-0.34|0.26|||||The interval is a highest density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.26|-0.34|
92351019|NCT06100250|184606661|OTHER|Paired sample t-test, 2 sided|Mean Difference (Net)|0.82||||0.01|TWO_SIDED|||||A priori threshold for statistical significance = 0.05|Paired sample t-test, 2 sided|Degrees of freedom = 66|Estimation parameter represents the average of the differences between the paired observations (post-intervention score minus pre-intervention score)|Null hypothesis = Mean difference between the paired STI-related knowledge scores (pre-intervention and post-intervention) is 0||||0.01
92351020|NCT06100250|184606663|OTHER|Paired sample t-test, 2 sided|Mean Difference (Net)|-1.29|||<|0.01|TWO_SIDED|||||A priori threshold for statistical significance = 0.05|Paired sample t-test, 2 sided|Degrees of freedom = 47|Estimation parameter represents the average of the differences between the paired observations (post-intervention score minus pre-intervention score)|Null hypothesis = Mean difference between the paired self-efficacy for specimen self-collection scores (pre-intervention and post-intervention) is 0||||<0.01
92351021|NCT05259033|184606673|SUPERIORITY|Responses were analysed using an analysis of covariance (ANCOVA) model with region and randomised treatment as fixed factors and baseline HbA1c as covariate. Each imputed dataset is analysed separately and estimates are combined using Rubin's rules.|Estimated treatment difference|-0.44|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.33|||ANCOVA|||Treatment policy strategy||-0.33|-0.56|<0.0001
92351022|NCT05537571|184606679|SUPERIORITY||Mean Difference (Final Values)|-82.8|||<|0.0001|TWO_SIDED|95.0|-88.19|-77.39|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-77.39|-88.19|<0.0001
92351023|NCT05537571|184606679|SUPERIORITY||Mean Difference (Final Values)|-81.3|||<|0.0001|TWO_SIDED|95.0|-86.68|-76.0|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-76.0|-86.68|<0.0001
92351024|NCT05537571|184606679|SUPERIORITY||Mean Difference (Final Values)|-85.6|||<|0.0001|TWO_SIDED|95.0|-90.88|-80.26|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-80.26|-90.88|<0.0001
92351025|NCT05537571|184606680|SUPERIORITY||Mean Difference (Final Values)|-83.1|||<|0.0001|TWO_SIDED|95.0|-88.7|-77.57|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-77.57|-88.7|<0.0001
92351026|NCT05537571|184606680|SUPERIORITY||Mean Difference (Final Values)|-78.7|||<|0.0001|TWO_SIDED|95.0|-84.18|-73.17|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-73.17|-84.18|<0.0001
92351027|NCT05537571|184606680|SUPERIORITY||Mean Difference (Final Values)|-83.0|||<|0.0001|TWO_SIDED|95.0|-88.43|-77.49|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-77.49|-88.43|<0.0001
92351028|NCT05537571|184606681|SUPERIORITY||Mean Difference (Final Values)|-79.2|||<|0.0001|TWO_SIDED|95.0|-85.25|-73.1|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-73.1|-85.25|<0.0001
92351029|NCT05537571|184606681|SUPERIORITY||Mean Difference (Final Values)|-71.8|||<|0.0001|TWO_SIDED|95.0|-77.81|-65.8|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-65.8|-77.81|<0.0001
92351030|NCT05537571|184606681|SUPERIORITY||Mean Difference (Final Values)|-77.1|||<|0.0001|TWO_SIDED|95.0|-83.09|-71.15|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-71.15|-83.09|<0.0001
92351031|NCT05537571|184606682|SUPERIORITY||Mean Difference (Final Values)|-13.3|||<|0.0001|TWO_SIDED|95.0|-18.55|-8.09|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-8.09|-18.55|<0.0001
92351032|NCT05537571|184606682|SUPERIORITY||Mean Difference (Final Values)|-9.9|||=|0.0002|TWO_SIDED|95.0|-15.02|-4.68|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-4.68|-15.02|=0.0002
92351033|NCT05537571|184606682|SUPERIORITY||Mean Difference (Final Values)|-15.0|||<|0.0001|TWO_SIDED|95.0|-20.1|-9.82|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-9.82|-20.1|<0.0001
92351034|NCT05537571|184606683|SUPERIORITY||Mean Difference (Final Values)|-12.3|||<|0.0001|TWO_SIDED|95.0|-17.62|-7.08|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-7.08|-17.62|<0.0001
92219794|NCT01342484|184339934|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.63|STANDARD_ERROR_OF_MEAN|0.42||0.1447|TWO_SIDED|95.0|-1.5|0.23|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean Difference (Net Values) is actually the adjusted mean difference calculated as Linagliptin 5 mg minus Placebo.|Superiority of Linagliptin 5 mg vs. placebo: change from baseline in HbA1c using a restricted maximum likelihood (REML) - based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c and age as linear covariates; treatment, gender, PK/PD subgroup, background therapy, visit and visit by treatment interaction as fixed effects and patient as a random effect. The unstructured covariance structure has been used to fit the mixed model.||0.23|-1.50|0.1447
92219795|NCT01342484|184339936|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|1.36||0.8216|TWO_SIDED|95.0|-3.08|2.46|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean Difference (Net Values) is actually the adjusted mean difference calculated as Linagliptin 1 mg minus Placebo.|Superiority of Linagliptin 1 mg vs. placebo: change from baseline in FPG using a restricted maximum likelihood (REML) - based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c, baseline FPG and age as linear covariates; treatment, gender, PK/PD subgroup, background therapy, visit and visit by treatment interaction as fixed effects and patient as a random effect. The unstructured covariance structure has been used to fit the mixed model.||2.46|-3.08|0.8216
92219796|NCT01342484|184339936|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9|STANDARD_ERROR_OF_MEAN|1.18||0.1189|TWO_SIDED|95.0|-4.31|0.52|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean Difference (Net Values) is actually the adjusted mean difference calculated as Linagliptin 5 mg minus Placebo.|Superiority of Linagliptin 5 mg vs. placebo: change from baseline in FPG using a restricted maximum likelihood (REML) - based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c, baseline FPG and age as linear covariates; treatment, gender, PK/PD subgroup, background therapy, visit and visit by treatment interaction as fixed effects and patient as a random effect. The unstructured covariance structure has been used to fit the mixed model.||0.52|-4.31|0.1189
92219797|NCT05998148|184339951|OTHER||Mean Difference (Net)|0.2||||0.91|TWO_SIDED|||||The threshold for statistical significance was p= 0.05.|t-test, 2 sided|Since 2 hypothesis tests are conducted, we applied a Bonferroni correction. Our new adjusted threshold level is 0.05/2= 0.025.|Treatment Difference = Virtual - Standard In-person|The null hypothesis states that the virtual group and in-person group exhibit no difference in mean PROMIS physical score. From the literature, an effect size of 0.618 was obtained from the PROMIS physical. Using a power of 80% and a significance level of 0.05, it was determined that a sample size of 34 per group would detect a statistical difference between the groups. An intention-to-treat analysis was conducted on the scores at the 6-month follow-up appointment.||||0.91
92219798|NCT05998148|184339951|OTHER||Mean Difference (Net)|-3.7||||0.077|TWO_SIDED|||||The threshold for statistical significance was p= 0.05.|t-test, 2 sided|Since 2 hypothesis tests are conducted, we applied a Bonferroni correction. Our new adjusted threshold level is 0.05/2= 0.025.|Treatment Difference = Virtual - Standard In-person|The null hypothesis states that the virtual group and in-person group exhibit no difference in mean PROMIS mental score. The minimum sample size determined for the PROMIS physical score was applied to this outcome score. An intention-to-treat analysis was conducted on the scores at the 6-month follow-up appointment.||||0.077
92351035|NCT05537571|184606683|SUPERIORITY||Mean Difference (Final Values)|-8.6|||=|0.0013|TWO_SIDED|95.0|-13.85|-3.44|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-3.44|-13.85|=0.0013
92351036|NCT05537571|184606683|SUPERIORITY||Mean Difference (Final Values)|-14.0|||<|0.0001|TWO_SIDED|95.0|-19.2|-8.84|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-8.84|-19.2|<0.0001
92351037|NCT05537571|184606684|SUPERIORITY||Mean Difference (Final Values)|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.81|-5.73|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-5.73|-16.81|<0.0001
92351038|NCT05537571|184606684|SUPERIORITY||Mean Difference (Final Values)|-7.2|||=|0.0106|TWO_SIDED|95.0|-12.64|-1.69|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-1.69|-12.64|=0.0106
92351039|NCT05537571|184606684|SUPERIORITY||Mean Difference (Final Values)|-12.6|||<|0.0001|TWO_SIDED|95.0|-18.04|-7.15|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-7.15|-18.04|<0.0001
92351040|NCT05537571|184606685|SUPERIORITY||Mean Difference (Final Values)|-31.9|||=|0.0051|TWO_SIDED|95.0|-54.07|-9.72|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-9.72|-54.07|=0.0051
92351041|NCT05537571|184606685|SUPERIORITY||Mean Difference (Final Values)|-29.7|||=|0.0081|TWO_SIDED|95.0|-51.62|-7.81|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-7.81|-51.62|=0.0081
92351042|NCT05537571|184606685|SUPERIORITY||Mean Difference (Final Values)|-25.1|||=|0.0241|TWO_SIDED|95.0|-46.89|-3.33|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-3.33|-46.89|=0.0241
92351043|NCT05537571|184606686|SUPERIORITY||Mean Difference (Final Values)|-29.8|||=|0.0023|TWO_SIDED|95.0|-48.86|-10.76|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-10.76|-48.86|=0.0023
92351044|NCT05537571|184606686|SUPERIORITY||Mean Difference (Final Values)|-27.4|||=|0.0046|TWO_SIDED|95.0|-46.23|-8.58|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-8.58|-46.23|=0.0046
92351045|NCT05537571|184606686|SUPERIORITY||Mean Difference (Final Values)|-26.0|||=|0.0068|TWO_SIDED|95.0|-44.67|-7.24|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-7.24|-44.67|=0.0068
92275832|NCT04444752|184454266|SUPERIORITY|Pairwise comparisons for each CBP-201 group vs placebo were performed and a serial gatekeeping procedure was used for multiplicity adjustment. Each CBP-201 group was compared with the placebo group in order from the highest dose (300 mg Q2W) to the lowest dose frequency (300 mg Q4W), until statistical significance at 0.05 level was not achieved.|Mean Difference (Final Values)|17.89|STANDARD_ERROR_OF_MEAN|6.537||0.0067|TWO_SIDED|||||Adjusted for multiplicity using a serial gatekeeping procedure at the 5% in descending order: 1. 300 mg dose Q2W 2. 150 mg Q2W 3. 300 mg Q4W vs placebo.|ANCOVA|The data were analyzed using an ANCOVA model with terms for treatment, baseline vIGA (moderate, severe), and baseline EASI.||"The sample size of the study was determined based on power calculations for the primary endpoint in patients receiving CBP-201 300 mg Q2W.~Null hypothesis: CBP-201 150 Q2W is not superior to placebo in terms of percent reduction in EASI Score from Baseline to Week 16."||||0.0067
92275833|NCT04444752|184454266|SUPERIORITY|Pairwise comparisons for each CBP-201 group vs placebo were performed and a serial gatekeeping procedure was used for multiplicity adjustment. Each CBP-201 group was compared with placebo in order from highest dose (300 mg Q2W) to the lowest dose frequency (300 mg Q4W), until statistical significance at the 0.05 level was not achieved.|Mean Difference (Final Values)|23.83|STANDARD_ERROR_OF_MEAN|6.575||0.0004|TWO_SIDED|||||Adjusted for mulitplicity using a serial gatekeeping procedure at the 5% in descending order: 1. 300 mg dose Q2W 2. 150 mg Q2W 3. 300 mg Q4W vs placebo.|ANCOVA|The data were anlayzed using an ANCOVA model with terms for treatment, baseline vIGA (moderate, severe), and baseline EASI||"The efficacy analysis includes comparing percentage reduction in EASI from baseline to Week 16 for CBP-201 300 mg Q4W regimen vs placebo.~The sample size of the study was determined based on power calculations for the primary endpoint in patients receiving CBP-201 300 mg Q2W.~Null hypothesis: CBP-201 300 Q4W is not superior to placebo in terms of percent reduction in EASI Score from Baseline to Week 16."||||0.0004
92275834|NCT04444752|184454267|SUPERIORITY|The secondary efficacy analysis includes comparison of the number of patients achieving a vIGA score of 0/1 (clear/almost clear) at Week 16 for each CBP-201 300 mg Q2W vs placebo.|Difference in vIGA Response Rate|28.1||||0.0089|TWO_SIDED|||||There were no adjustments for multiple comparisons. For IGA response, counts, percentage, and 95% CIs obtained using the Clopper-Pearson method and were presented for pairwise comparisons for each CBP-201 group vs. placebo.|Chi-squared|||Null hypothesis: CBP-201 300 Q2W is not superior to placebo in terms of the number of patients achieving a vIGA score of 0/1 (clear/almost clear) at Week 16.||||0.0089
92275835|NCT01381900|184454285|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|95.0|-0.644|-0.367|||ANCOVA|||||-0.367|-0.644|<0.001
92275836|NCT01381900|184454285|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|95.0|-0.731|-0.453|||ANCOVA|||||-0.453|-0.731|<0.001
92275837|NCT01381900|184454286|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.173|<|0.001|TWO_SIDED|95.0|-1.375|-0.694|||ANCOVA|||||-0.694|-1.375|<0.001
92275838|NCT01381900|184454286|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.43|STANDARD_ERROR_OF_MEAN|0.173|<|0.001|TWO_SIDED|95.0|-1.769|-1.089|||ANCOVA|||||-1.089|-1.769|<0.001
92275839|NCT01381900|184454287|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.7|-1.6|||ANCOVA|||||-1.6|-2.7|<0.001
92275840|NCT01381900|184454287|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.9|-1.8|||ANCOVA|||||-1.8|-2.9|<0.001
92275841|NCT01381900|184454288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.26|||||TWO_SIDED|95.0|2.09|5.09|||Regression, Logistic|||||5.09|2.09|
92275842|NCT01381900|184454288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.99|||||TWO_SIDED|95.0|2.55|6.27|||Regression, Logistic|||||6.27|2.55|
92275843|NCT01381900|184454289|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.55|||||TWO_SIDED|95.0|1.45|4.48|||Regression, Logistic|||||4.48|1.45|
92275844|NCT01381900|184454289|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.29|||||TWO_SIDED|95.0|1.88|5.75|||Regression, Logistic|||||5.75|1.88|
92275845|NCT01772368|184454290|OTHER|linearity statistical test|||||<|0.0001||||||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.||A linear in log-dose-trend contrast was constructed to evaluate the dose-response trend, where the logarithm of dose was defined precisely as log (dose+1) to accommodate the case of Fp MDPI 100 mcg, since the dose used in this trend analysis was the salmeterol dose. The study was considered positive if the trend test was positive and the test involving the highest FS MDPI dose (100/50 mcg) compared with Fp MDPI 100 mcg was positive, regardless of the results of the tests for the other doses.||||<0.0001
92275846|NCT01772368|184454290|SUPERIORITY||LSM difference|251.3|||<|0.0001|TWO_SIDED|95.0|215.6|287.1||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/50 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/50 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||287.1|215.6|<0.0001
92160909|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 10.|Student's t-test|||||||<0.0001
92160910|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 18.|Student's t-test|||||||<0.0001
92160911|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 26.|Student's t-test|||||||<0.0001
92160912|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 34.|Student's t-test|||||||<0.0001
92160913|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 42.|Student's t-test|||||||<0.0001
92160914|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 50.|Student's t-test|||||||<0.0001
92400560|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.405|||<|0.0001|TWO_SIDED|95.0|0.711|2.099|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.099|0.711|<.0001
92400561|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.402||||0.0001|TWO_SIDED|95.0|0.685|2.119|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.119|0.685|0.0001
92400562|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.396||||0.0003|TWO_SIDED|95.0|0.634|2.157|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.157|0.634|0.0003
92400563|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.392||||0.0005|TWO_SIDED|95.0|0.604|2.18|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.180|0.604|0.0005
92400564|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.386||||0.0012|TWO_SIDED|95.0|0.547|2.225|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.225|0.547|0.0012
92351046|NCT05537571|184606687|SUPERIORITY||Mean Difference (Final Values)|-28.7|||=|0.0057|TWO_SIDED|95.0|-48.91|-8.46|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-8.46|-48.91|=0.0057
92351047|NCT05537571|184606687|SUPERIORITY||Mean Difference (Final Values)|-26.1|||||TWO_SIDED|95.0|-46.13|-6.16||||||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-6.16|-46.13|
92351048|NCT05537571|184606687|SUPERIORITY||Mean Difference (Final Values)|-24.1||||0.0179|TWO_SIDED|95.0|-43.93|-4.2|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-4.2|-43.93|0.0179
92351049|NCT06375655|184606688|OTHER||Odds Ratio (OR)|0.0||||1|TWO_SIDED||||||Fisher Exact|||||||1
92400565|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.383||||0.0018|TWO_SIDED|95.0|0.514|2.252|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.252|0.514|0.0018
92275847|NCT01772368|184454290|SUPERIORITY||LSM difference|227.56|||<|0.0001|TWO_SIDED|95.0|191.6|263.5||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/25 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/25 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||263.5|191.6|<0.0001
92351050|NCT06375655|184606689|SUPERIORITY||Odds Ratio (OR)|1.901509||||0.5007|TWO_SIDED|95.0|0.41|10.25|||Fisher Exact|||This analysis did not power the study||10.25|0.41|0.5007
92351051|NCT06375655|184606690|SUPERIORITY||Odds Ratio (OR)|4.43||||0.3497|TWO_SIDED|95.0|0.3986|232.3218|||Fisher Exact|||||232.3218|0.3986|0.3497
92400566|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.376||||0.0035|TWO_SIDED|95.0|0.451|2.301|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.301|0.451|0.0035
92400567|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.373||||0.0049|TWO_SIDED|95.0|0.416|2.33|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.330|0.416|0.0049
92351052|NCT06375655|184606691|SUPERIORITY|||||||0.7|||||||Chi-squared|||||||0.7
92351053|NCT06375655|184606692|SUPERIORITY||Odds Ratio (OR)|0.6909776||||0.2302|TWO_SIDED|95.0|0.4025454|1.1860776||Value at 1 month|Cochran-Mantel-Haenszel|||||1.1860776|0.4025454|0.2302
92160915|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 58.|Student's t-test|||||||<0.0001
92351054|NCT06375655|184606692|SUPERIORITY||Odds Ratio (OR)|0.6909776||||0.3|TWO_SIDED|95.0|0.4025454|1.1860776||Value at 3 months|Cochran-Mantel-Haenszel|||||1.1860776|0.4025454|0.3
92351055|NCT06375655|184606692|SUPERIORITY||Odds Ratio (OR)|0.6909776||||0.3|TWO_SIDED|95.0|0.4025454|1.1860776||Value at 6 months|Cochran-Mantel-Haenszel|||||1.1860776|0.4025454|0.3
92351056|NCT06375655|184606693|SUPERIORITY||Odds Ratio (OR)|2.726859||||0.01692|TWO_SIDED|95.0|1.253958|5.929833||Value at 1 month postpartum|Cochran-Mantel-Haenszel|||||5.929833|1.253958|0.01692
92351057|NCT06375655|184606693|SUPERIORITY||Odds Ratio (OR)|2.726859||||0.7|TWO_SIDED|95.0|1.253958|5.929833||Value at 2 months postpartum|Cochran-Mantel-Haenszel|||||5.929833|1.253958|0.7
92351058|NCT06375655|184606693|SUPERIORITY||Odds Ratio (OR)|2.726859||||0.3|TWO_SIDED|95.0|1.253958|5.929833||Value at 3 months postpartum|Cochran-Mantel-Haenszel|||||5.929833|1.253958|0.3
92351059|NCT06375655|184606693|SUPERIORITY||Odds Ratio (OR)|2.726859||||0.15|TWO_SIDED|95.0|1.253958|5.929833||Value at 6 months postpartum|Cochran-Mantel-Haenszel|||||5.929833|1.253958|0.15
92351060|NCT06394323|184606717|SUPERIORITY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|2.74||0.2157|TWO_SIDED|95.0|-8.9|1.9||The a priori threshold for statistical significance is p\<0.05.|Welch's t test, 2 sided|The Welch's t test statistic was -1.25 and the degrees of freedom were 84.67.|The mean difference was calculated by subtracting the mean DCS of the SOC arm from the mean DCS of the MyChoice intervention arm (MyChoice mean - SOC mean).|The null hypothesis is that the mean DCS for the MyChoice and SOC arms are equal.||1.9|-8.9|0.2157
92351061|NCT01778985|184606725|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.21
92351062|NCT01778985|184606726|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
92351063|NCT01778985|184606727|SUPERIORITY_OR_OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.22
92351064|NCT01778985|184606728|SUPERIORITY_OR_OTHER|||||||0.088|||||||t-test, 2 sided|t(18)=1.78, p=0.088||||||0.088
92351065|NCT01778985|184606729|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92351066|NCT01778985|184606730|SUPERIORITY_OR_OTHER|||||||0.91||||||t(28)=0.11, p=0.91|t-test, 2 sided|||||||0.91
92400568|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.367||||0.0084|TWO_SIDED|95.0|0.35|2.383|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.383|0.350|0.0084
92400569|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.363||||0.011|TWO_SIDED|95.0|0.313|2.414|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.414|0.313|0.0110
92351067|NCT01778985|184606731|SUPERIORITY_OR_OTHER|||||||0.1||||||t(18)=1.69, p=.10|t-test, 2 sided|||||||0.10
92351068|NCT01778985|184606732|SUPERIORITY_OR_OTHER|||||||0.02||||||t(10)=2.76, p=0.020|t-test, 2 sided|||||||0.020
92351069|NCT01778985|184606733|SUPERIORITY_OR_OTHER|||||||0.78||||||t(23)=0.28, p=0.78|t-test, 2 sided|||||||0.78
92400570|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.357||||0.0168|TWO_SIDED|95.0|0.245|2.47|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.470|0.245|0.0168
92400571|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.354||||0.0208|TWO_SIDED|95.0|0.206|2.501|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.501|0.206|0.0208
92351070|NCT01778985|184606734|SUPERIORITY_OR_OTHER|||||||0.51||||||t(28)=0.67, p=0.51|t-test, 2 sided|||||||0.51
92351071|NCT01778985|184606735|SUPERIORITY_OR_OTHER|||||||0.24||||||t(23)=1.23, p=0.24|t-test, 2 sided|||||||0.24
92351072|NCT01778985|184606736|SUPERIORITY_OR_OTHER|||||||0.53|||||||t-test, 2 sided|||||||0.53
92351073|NCT01778985|184606737|SUPERIORITY_OR_OTHER|||||||0.33|||||||t-test, 2 sided|||||||0.33
92160916|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 70.|Student's t-test|||||||<0.0001
92351074|NCT01778985|184606738|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92351075|NCT01778985|184606739|SUPERIORITY_OR_OTHER|||||||0.15|||||||t-test, 2 sided|||||||0.15
92351076|NCT01778985|184606740|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||||||0.82
92351077|NCT01778985|184606741|SUPERIORITY_OR_OTHER|||||||0.7|||||||t-test, 2 sided|||||||0.70
92351078|NCT01778985|184606742|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|||||||0.25
92351079|NCT01778985|184606743|SUPERIORITY_OR_OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
92351080|NCT01778985|184606744|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||||||1
92351081|NCT05788328|184606768|OTHER||Ratio of Adjusted Geometric Means|86.5|||||TWO_SIDED|90.0|66.05|113.29|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 80mg QD + DE 150mg (Period 4). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||113.29|66.05|
92351082|NCT05788328|184606768|OTHER||Ratio of Adjusted Geometric Means|82.64|||||TWO_SIDED|90.0|63.1|108.24|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 240mg QD + DE 150mg (Period 7). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||108.24|63.10|
92351083|NCT05788328|184606769|OTHER||Ratio of Adjusted Geometric Means|85.65|||||TWO_SIDED|90.0|64.96|112.94|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 80mg QD + DE 150mg (Period 4). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||112.94|64.96|
92351084|NCT05788328|184606769|OTHER||Ratio of Adjusted Geometric Means|80.81|||||TWO_SIDED|90.0|61.28|106.55|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 240mg QD + DE 150mg (Period 7). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||106.55|61.28|
92351085|NCT05788328|184606770|OTHER||Ratio of Adjusted Geometric Means|229.11|||||TWO_SIDED|90.0|185.23|283.37|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 80 mg QD+rosuvastatin 10 mg (Period 5). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||283.37|185.23|
92351086|NCT05788328|184606770|OTHER||Ratio of Adjusted Geometric Means|214.73|||||TWO_SIDED|90.0|173.38|265.94|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 240 mg QD+rosuvastatin 10 mg (Period 8). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||265.94|173.38|
92351087|NCT05788328|184606771|OTHER||Ratio of Adjusted Geometric Means|213.05|||||TWO_SIDED|90.0|170.46|266.29|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 80 mg QD+rosuvastatin 10 mg (Period 5). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||266.29|170.46|
92351088|NCT05788328|184606771|OTHER||Ratio of Adjusted Geometric Means|232.32|||||TWO_SIDED|90.0|185.88|290.38|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 240 mg QD+rosuvastatin 10 mg (Period 8). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||290.38|185.88|
92351089|NCT05788328|184606779|OTHER||Ratio of Adjusted Geometric Means|45.25|||||TWO_SIDED|90.0|33.97|60.27|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 80mg QD + DE 150mg (Period 4). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||60.27|33.97|
92351090|NCT05788328|184606779|OTHER||Ratio of Adjusted Geometric Means|47.44|||||TWO_SIDED|90.0|35.62|63.19|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 240mg QD + DE 150mg (Period 7). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||63.19|35.62|
92351091|NCT05788328|184606784|OTHER||Ratio of Adjusted Geometric Means|176.39|||||TWO_SIDED|90.0|135.51|229.6|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 80 mg QD+rosuvastatin 10 mg (Period 5). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||229.60|135.51|
92351092|NCT05788328|184606784|OTHER||Ratio of Adjusted Geometric Means|221.62|||||TWO_SIDED|90.0|170.26|288.48|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 240 mg QD+rosuvastatin 10 mg (Period 8). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||288.48|170.26|
92351093|NCT00845182|184606792|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||||||<0.05
92351094|NCT00845182|184606792|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92351095|NCT05558410|184606805|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92351096|NCT05558410|184606806|SUPERIORITY|||||||0.2781|||||||ANCOVA|||||||0.2781
92351097|NCT05558410|184606807|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
92351098|NCT05558410|184606808|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
92351099|NCT05558410|184606809|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92351100|NCT05558410|184606810|SUPERIORITY||||||<|0.0001|||||||Pearson's chi-squared test|||||||<0.0001
92351101|NCT05558410|184606811|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92351102|NCT05558410|184606812|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
92351103|NCT05558410|184606813|SUPERIORITY|||||||0.0237|||||||Cochran-Mantel-Haenszel|||||||0.0237
92351104|NCT05558410|184606814|SUPERIORITY|||||||0.008|||||||Wilcoxon rank-sum|||||||0.0080
92400572|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.348||||0.0293|TWO_SIDED|95.0|0.136|2.559|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.559|0.136|0.0293
92351105|NCT01028560|184606817|OTHER||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.22||0.38|TWO_SIDED|95.0|-0.24|0.63|||Mixed Models Analysis||The above is the slope for immunotherapy group . The (quadratic) slope is for 1 month increase in time.|Linear mixed effects model (LME) with random coefficients model was fitted with Restricted Maximum Likelihood estimation. The functional form of the model was quadratic and the model adjusted for gender, race, ethnicity and number of asthma hospitalizations since birth. Unequal data collection were smoothed over two month period with a median score values.||0.63|-0.24|0.38
92351106|NCT01028560|184606817|OTHER||Slope|0.55|STANDARD_ERROR_OF_MEAN|0.22||0.013|TWO_SIDED|95.0|0.11|0.99|||Mixed Models Analysis|The above (quadratic) slope is for control group|The above is the (quadratic) slope is for control group and is for 1 month increase in time.|Linear mixed effects model (LME) with random coefficients model was fitted with Restricted Maximum Likelihood estimation. The functional form of the model was quadratic and the model adjusted for gender, race, ethnicity and number of asthma hospitalizations since birth. Unequal data collection were smoothed over two month period with median score values.||0.99|0.11|0.013
92351107|NCT01028560|184606817|OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|4.97||0.978|TWO_SIDED|95.0|-11.76|12.03||Post estimation means were tested between the intervention arms after LME model at year 1 and the p- values were adjusted using Bonferroni correction.|contrast testing post mixed model||The difference is IT-Control group and the confidence interval is Bonferroni CI|Linear mixed effects model (LME) with random coefficients model was fitted with Restricted Maximum Likelihood estimation. The functional form of the model was quadratic and the model adjusted for gender, race, ethnicity and number of asthma hospitalizations since birth. Unequal data collection between immunotherapy and control groups were smoothed over two month period with a median score values.||12.03|-11.76|0.978
92400573|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.344||||0.0348|TWO_SIDED|95.0|0.096|2.592|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.592|0.096|0.0348
92219799|NCT05998148|184339951|OTHER||Mean Difference (Net)|0.56||||0.75|TWO_SIDED||||||t-test, 2 sided||Treatment Difference = Virtual - Standard In-person|The null hypothesis states that the virtual group and in-person group exhibit no difference in mean PROMIS physical score. From the literature, effect size of 0.618 was obtained from PROMIS physical. Using a power of 80% and a significance level of 0.05, it was determined that a sample size of 34 per group would detect a statistical difference between the groups. A per-protocol analysis was conducted on the scores at the 6-month follow-up appointment. There were 34 patients in each group.||||0.75
92219800|NCT05998148|184339951|OTHER||Mean Difference (Net)|-4.49||||0.049|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|t-test, 2 sided|Since 2 hypothesis tests are conducted, we applied a Bonferroni correction. Our new adjusted threshold level is 0.05/2= 0.025.|Treatment Difference = Virtual - Standard In-person|The null hypothesis states that the virtual group and in-person group exhibit no difference in mean PROMIS mental score. The minimum sample size determined for the PROMIS physical score was used for this analysis. A per-protocol analysis was conducted on the scores at the 6-month follow-up appointment. There were 34 patients in each group.||||0.049
92351108|NCT01028560|184606817|OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|5.89||0.77|TWO_SIDED|95.0|-15.83|12.38||Post estimation means were tested between the intervention arms after LME model at year 2 and the p- value was unadjusted p value|contrast testing post mixed model]||The difference is IT-Control group and the confidence interval is Bonferroni CI|Linear mixed effects model (LME) with random coefficients model was fitted with Restricted Maximum Likelihood estimation. The functional form of the model was quadratic and the model adjusted for gender, race, ethnicity and number of asthma hospitalizations since birth. Unequal data collection between immunotherapy and control groups were smoothed over two month period with a median score values.||12.38|-15.83|0.77
92400574|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.338||||0.0459|TWO_SIDED|95.0|0.024|2.652|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.652|0.024|0.0459
92219801|NCT05998148|184339952|OTHER||Mean Difference (Net)|3.84||||0.49|TWO_SIDED|||||The threshold for statistical significance was p=0.05.|t-test, 2 sided||Treatment Difference = Virtual - Standard In-person|There were 27 patients in the virtual phone group. There were 26 patients in the standard in-person group.||||0.49
92219802|NCT05998148|184339953|OTHER||Mean Difference (Net)|3.65||||0.54|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided||Treatment Difference = Virtual - Standard In-person|There are 18 patients in the virtual group. There are 9 patients in the standard in-person group.||||0.54
92219803|NCT05998148|184339954|OTHER||Mean Difference (Net)|0.13||||0.39|TWO_SIDED|||||The threshold for statistical significance was p=0.05|t-test, 2 sided||Treatment Difference = Virtual - Standard In-person|There are 45 patients in the virtual phone group. There are 35 patients in the standard in-person group.||||0.39
92219804|NCT02090413|184339958|SUPERIORITY_OR_OTHER||Difference in percentage|2.4|||||TWO_SIDED|95.0|-6.4|11.2|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 1-4 combined||11.2|-6.4|
92219805|NCT02090413|184339958|SUPERIORITY_OR_OTHER||Difference in percentage|-1.3|||||TWO_SIDED|95.0|-10.8|8.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 1-4 combined||8.3|-10.8|
92219806|NCT02090413|184339958|SUPERIORITY_OR_OTHER||Difference in percentage|2.0|||||TWO_SIDED|95.0|-9.3|13.2|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 1||13.2|-9.3|
92219807|NCT02090413|184339958|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-11.4|11.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 1||11.4|-11.4|
92219808|NCT02090413|184339958|SUPERIORITY_OR_OTHER||Difference in percentage|-14.8|||||TWO_SIDED|95.0|-29.2|-0.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 2||-0.3|-29.2|
92219809|NCT02090413|184339958|SUPERIORITY_OR_OTHER||Difference in percentage|-7.0|||||TWO_SIDED|95.0|-20.9|6.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 2||6.9|-20.9|
92219810|NCT02090413|184339958|SUPERIORITY_OR_OTHER||Difference in percentage|-17.6|||||TWO_SIDED|95.0|-32.8|-2.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 3||-2.4|-32.8|
92219811|NCT02090413|184339958|SUPERIORITY_OR_OTHER||Difference in percentage|-19.0|||||TWO_SIDED|95.0|-34.1|-3.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 3||-3.9|-34.1|
92219812|NCT02090413|184339958|SUPERIORITY_OR_OTHER||Difference in percentage|-4.8|||||TWO_SIDED|95.0|-21.0|11.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 4||11.4|-21.0|
92219813|NCT02090413|184339958|SUPERIORITY_OR_OTHER||Difference in percentage|-4.8|||||TWO_SIDED|95.0|-21.0|11.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 4||11.4|-21.0|
92219814|NCT02090413|184339959|SUPERIORITY_OR_OTHER||Difference in percentage|4.9|||||TWO_SIDED|95.0|-2.6|12.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing events||12.4|-2.6|
92219815|NCT02090413|184339959|SUPERIORITY_OR_OTHER||Difference in percentage|5.0|||||TWO_SIDED|95.0|-2.5|12.5|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing events||12.5|-2.5|
92219816|NCT02090413|184339959|SUPERIORITY_OR_OTHER||Difference in percentage|-1.5|||||TWO_SIDED|95.0|-11.2|8.1|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall redness events||8.1|-11.2|
92219817|NCT02090413|184339959|SUPERIORITY_OR_OTHER||Difference in percentage|-1.3|||||TWO_SIDED|95.0|-10.8|8.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall redness events||8.3|-10.8|
92275848|NCT01772368|184454290|SUPERIORITY||LSM difference|196.85|||<|0.0001|TWO_SIDED|95.0|161.2|232.5||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/12.5 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/512.5 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||232.5|161.2|<0.0001
92275849|NCT01772368|184454290|SUPERIORITY||LSM difference|151.71|||<|0.0001|TWO_SIDED|95.0|115.9|187.5||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/6.25 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/6.25 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||187.5|115.9|<0.0001
92275850|NCT01772368|184454290|SUPERIORITY||LSM difference|193.42|||<|0.0001|TWO_SIDED|95.0|157.4|229.5||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|Advair Diskus 100/50 mcg - Fp MDPI 100|The estimated treatment difference from the ANCOVA model between Advair Diskus 100/50 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||229.5|157.4|<0.0001
92275851|NCT01772368|184454290|SUPERIORITY||LSM difference|57.88||||0.0017|TWO_SIDED|95.0|22.0|93.7||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/50 - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/50 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||93.7|22.0|0.0017
92400575|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.335||||0.0528|TWO_SIDED|95.0|-0.016|2.685|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.685|-0.016|0.0528
92160917|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 82.|Student's t-test|||||||<0.0001
92160918|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 94.|Student's t-test|||||||<0.0001
92275852|NCT01772368|184454290|SUPERIORITY||LSM difference|34.14||||0.0624|TWO_SIDED|95.0|-1.8|70.1||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/25 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/25 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||70.1|-1.8|0.0624
92275853|NCT01772368|184454290|SUPERIORITY||LSM difference|3.42||||0.8503|TWO_SIDED|95.0|-32.3|39.1||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/12.5mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/12.5 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||39.1|-32.3|0.8503
92160919|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 106.|Student's t-test|||||||<0.0001
92160920|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 118.|Student's t-test|||||||<0.0001
92160921|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 130.|Student's t-test|||||||<0.0001
92160922|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 142.|Student's t-test|||||||<0.0001
92160923|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 154.|Student's t-test|||||||<0.0001
92160924|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 166.|Student's t-test|||||||<0.0001
92160925|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 178.|Student's t-test|||||||<0.0001
92160926|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 190.|Student's t-test|||||||<0.0001
92160927|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 202.|Student's t-test|||||||<0.0001
92160928|NCT02449044|184210488|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 214.|Student's t-test|||||||<0.0001
92160929|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.4922|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Day 31||||0.4922
92160930|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.1054|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 10||||0.1054
92160931|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.7656|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 18||||0.7656
92275854|NCT01772368|184454290|SUPERIORITY||LSM difference|-41.72||||0.0229|TWO_SIDED|95.0|-77.6|-5.8||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/6.25 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/6.25 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||-5.8|-77.6|0.0229
92275855|NCT01772368|184454290|SUPERIORITY||LSM difference|-193.42|||<|0.0001|TWO_SIDED|95.0|-229.5|-157.4||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|Fp MDPI 100 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between Fp MDPI 100 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||-157.4|-229.5|<0.0001
92275856|NCT01772368|184454291|SUPERIORITY||LSM difference|226.77|||<|0.0001|TWO_SIDED|95.0|172.4|281.1||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/50 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/50 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||281.1|172.4|<0.0001
92275857|NCT01772368|184454291|SUPERIORITY||LSM difference|198.32|||<|0.0001|TWO_SIDED|95.0|143.7|252.9||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/25 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/25 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||252.9|143.7|<0.0001
92160932|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.7084|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 26||||0.7084
92160933|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.5138|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 34||||0.5138
92160934|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.7175|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 42||||0.7175
92160935|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.354|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 50||||0.3540
92160936|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.0852|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 58||||0.0852
92160937|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.1923|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 70||||0.1923
92160938|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.2335|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 82||||0.2335
92160939|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.1346|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 94||||0.1346
92160940|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.5237|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 106||||0.5237
92160941|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.3476|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 118||||0.3476
92160942|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.2488|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 130||||0.2488
92160943|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.1598|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 142||||0.1598
92160944|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.282|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 154||||0.2820
92160945|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.3743|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 166||||0.3743
92160946|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 178||||0.3600
92160947|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.3101|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 190||||0.3101
92160948|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.0269|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 202||||0.0269
92160949|NCT02449044|184210495|SUPERIORITY_OR_OTHER|||||||0.0944|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 214||||0.0944
92160950|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.1739|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student t-test|||Statistical analysis at Day 14||||0.1739
92160951|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.6095|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Day 31||||0.6095
92160952|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.6902|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 10||||0.6902
92160953|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.634|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 18||||0.6340
92351109|NCT01028560|184606817|OTHER||Mean Difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|7.39||0.8|TWO_SIDED|95.0|-19.54|15.84||Post estimation means were tested between the intervention arms after LME model at year 3 and the p- values were adjusted using Bonferroni correction.|contrast testing post mixed model||The difference is IT-Control group and the confidence interval is Bonferroni CI|Linear mixed effects model (LME) with random coefficients model was fitted with Restricted Maximum Likelihood estimation. The functional form of the model was quadratic and the model adjusted for gender, race, ethnicity and number of asthma hospitalizations since birth. Unequal data collection between immunotherapy and control groups were smoothed over two month period with a median score values.||15.84|-19.54|0.80
92400576|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.328||||0.0663|TWO_SIDED|95.0|-0.09|2.746|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.746|-0.090|0.0663
92400577|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.325||||0.0744|TWO_SIDED|95.0|-0.131|2.78|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.780|-0.131|0.0744
92400578|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.319||||0.0898|TWO_SIDED|95.0|-0.205|2.842|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.842|-0.205|0.0898
92400579|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.315||||0.0988|TWO_SIDED|95.0|-0.246|2.877|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.877|-0.246|0.0988
92400580|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.309||||0.1156|TWO_SIDED|95.0|-0.321|2.94|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.940|-0.321|0.1156
92400581|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.306||||0.1252|TWO_SIDED|95.0|-0.363|2.975|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.975|-0.363|0.1252
92400582|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.1429|TWO_SIDED|95.0|-0.439|3.038|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.038|-0.439|0.1429
92351110|NCT01028560|184606818|SUPERIORITY|||||||0.677||||||Chi-square test (proportion of new sensitizations versus unchanged or lost sensitizations in each group, intention-to treat analysis).|Chi-squared|||||||0.677
92351111|NCT01028560|184606819|SUPERIORITY||Slope|0.56||||0.546|TWO_SIDED|95.0|-2.18|3.29||Test of parallelism (group x time) hypothesis P-value.|covariance pattern (rep. measure) model|Within group difference p-values ( baseline vs 3-years) in control and intervention arm were 0.56 and 0.20 respectively.|The estimated slope reported is for year 3 from the covariance pattern model with autoregressive covariance structure.|Covariance Pattern Model with autoregressive covariance structure with REML (Restricted Estimation of Maximum Likelihood) with time and role as categorical variable was modeled.||3.29|-2.18|0.5460
92351112|NCT01028560|184606820|SUPERIORITY||Rate ratio|1.27||||0.289|TWO_SIDED|95.0|0.82|1.96||Poisson regression model for treatment arm adjusting for gender, race and history of hospitalization was used to analyze the corticosteroid burst and the time period contributed by each child in years were fitted as offset.|Poisson regression|Poisson regression model with robust variance with contributed person years used as offset was modeled.||Null hypothesis = Incidence rate of CSB in each group are same. Poisson regression adjusting for gender, race and history of hospitalization was used to analyze the corticosteroid burst.||1.96|0.82|0.289
92160954|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.321|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 26||||0.3210
92160955|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.7787|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 34||||0.7787
92160956|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.2198|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 42||||0.2198
92160957|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.1926|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 50||||0.1926
92160958|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.3109|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 58||||0.3109
92160959|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.2269|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 70||||0.2269
92160960|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.2749|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 82||||0.2749
92160961|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.0702|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 94||||0.0702
92275858|NCT01772368|184454291|SUPERIORITY||LSM difference|158.99|||<|0.0001|TWO_SIDED|95.0|104.7|213.3||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/12.5 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/12.5 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||213.3|104.7|<0.0001
92351113|NCT01960842|184606823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.64|||<|0.001|TWO_SIDED|95.0|-5.78|-3.5|||One-sample t-test, 2-sided|||||-3.50|-5.78|<0.001
92160962|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.0412|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 106||||0.0412
92351114|NCT01960842|184606824|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.58|||<|0.001|TWO_SIDED|95.0|4.21|6.95|||One-sample t-test, 2-sided|||||6.95|4.21|<0.001
92351115|NCT01960842|184606825|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.0|||<|0.001|TWO_SIDED|95.0|-16.3|-7.7|||One-sample t-test, 2-sided|||||-7.7|-16.3|<0.001
92160963|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.4448|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 142||||0.4448
92160964|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.6233|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 166||||0.6233
92160965|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.1001|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 178||||0.1001
92160966|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.3739|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 190||||0.3739
92160967|NCT02449044|184210496|SUPERIORITY_OR_OTHER|||||||0.3334|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 214||||0.3334
92160968|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.2575|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student t-test|||Statistical analysis at Day 14||||0.2575
92160969|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.2715|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Day 31||||0.2715
92160970|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.686|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 10||||0.6860
92160971|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.0224|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 18||||0.0224
92160972|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.1871|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 26||||0.1871
92160973|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.0039|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 34||||0.0039
92160974|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.0325|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 42||||0.0325
92160975|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.0631|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 50||||0.0631
92160976|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.0277|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 58||||0.0277
92160977|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.0128|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 70||||0.0128
92160978|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.0164|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 82||||0.0164
92160979|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.0119|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 94||||0.0119
92160980|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 106||||0.0013
92160981|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.6691|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 142||||0.6691
92160982|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.6923|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 166||||0.6923
92160983|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.9292|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 178||||0.9292
92160984|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.4401|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 190||||0.4401
92160985|NCT02449044|184210497|SUPERIORITY_OR_OTHER|||||||0.3609|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 214||||0.3609
92168747|NCT00603954|184227084|SUPERIORITY|||||||0.12|||||||Fisher Exact|||Among CMV-seropositive patients and/or donors, the 100-day cumulative incidence of CMV reactivation was 31% in Flu-TBI patients versus 47% in TLI-ATG patient||||0.12
92168748|NCT00603954|184227085|SUPERIORITY||Multivariate Cox models|2.3|STANDARD_DEVIATION|0.02||0.017|TWO_SIDED|95.0|1.1|4.7|||Cumulative incidence curves|||Four-year cumulative incidences of relapse/progression were 22% and 50% in Flu-TBI and TLI-ATG patients, respectively||4.7|1.1|0.017
92275859|NCT01772368|184454291|SUPERIORITY||LSM difference|116.96|||<|0.0001|TWO_SIDED|95.0|62.4|171.6||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/6.25 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/6.25 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||171.6|62.4|<0.0001
92275860|NCT01772368|184454291|SUPERIORITY||LSM difference|159.01|||<|0.0001|TWO_SIDED|95.0|104.3|213.7||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|Advair Diskus 100/50 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between each Advair Diskus 100/50 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||213.7|104.3|<0.0001
92275861|NCT01772368|184454291|SUPERIORITY||LSM difference|67.76||||0.015|TWO_SIDED|95.0|13.3|122.2||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/50 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/50 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||122.2|13.3|0.0150
92275862|NCT01772368|184454291|SUPERIORITY||LSM difference|39.31||||0.1578|TWO_SIDED|95.0|-15.3|94.0||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/25 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/25 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||94.0|-15.3|0.1578
92275863|NCT01772368|184454291|SUPERIORITY||LSM difference|-0.02||||0.9993|TWO_SIDED|95.0|-54.4|54.4||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/12.5 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/12.5 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||54.4|-54.4|0.9993
92275864|NCT01772368|184454291|SUPERIORITY||LSM difference|-42.05||||0.1311|TWO_SIDED|95.0|-96.7|12.6||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/6.25 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/6.25 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||12.6|-96.7|0.1311
92275865|NCT01772368|184454291|SUPERIORITY||LSM difference|-159.01|||<|0.0001|TWO_SIDED|95.0|-213.7|-104.3||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|Fp MDPI 100 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between each Fp MDPI 100 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||-104.3|-213.7|<0.0001
92275866|NCT01772368|184454292|SUPERIORITY||geometric mean ratio|1.929|||||TWO_SIDED|90.0|1.69|2.202||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=58||2.202|1.690|
92275867|NCT01772368|184454292|SUPERIORITY||geometric mean ratio|0.8|||||TWO_SIDED|90.0|0.702|0.911||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=59||0.911|0.702|
92275868|NCT01772368|184454292|SUPERIORITY||geometric mean ratio|0.427|||||TWO_SIDED|90.0|0.376|0.485||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=61||0.485|0.376|
92275869|NCT01772368|184454292|SUPERIORITY||LSM difference|0.172|||||TWO_SIDED|90.0|0.151|0.196||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=59||0.196|0.151|
92275870|NCT01772368|184454293|SUPERIORITY||geometric mean ratio|3.622|||||TWO_SIDED|90.0|3.149|4.168||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=58||4.168|3.149|
92275871|NCT01772368|184454293|SUPERIORITY||geometric mean ratio|1.534|||||TWO_SIDED|90.0|1.335|1.763||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=59||1.763|1.335|
92275872|NCT01772368|184454293|SUPERIORITY||geometric mean ratio|0.795|||||TWO_SIDED|90.0|0.694|0.911||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=61||0.911|0.694|
92275873|NCT01772368|184454293|SUPERIORITY||geometric mean ratio|0.339|||||TWO_SIDED|90.0|0.295|0.39||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=59||0.390|0.295|
92351116|NCT01960842|184606826|SUPERIORITY_OR_OTHER||Mean change from score = 4|-2.1|STANDARD_DEVIATION|0.77|<|0.001|TWO_SIDED||||||Wilcoxon signed-rank test|||The p-value is based on a one-sample Wilcoxon signed-rank test with the hypothesis of no change (score = 4).||||<0.001
92351117|NCT01960842|184606827|SUPERIORITY_OR_OTHER||Mean change from score = 4|-2.0|STANDARD_DEVIATION|0.94|<|0.001|TWO_SIDED||||||Wilcoxon signed-rank test|||The p-value is based on a one-sample Wilcoxon signed-rank test with the hypothesis of no change (score = 4).||||<0.001
92351118|NCT01960842|184606828|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|||=|0.101|TWO_SIDED|95.0|-4.0|0.4|||One-sample t-test, 2-sided|||||0.4|-4.0|=0.101
92351119|NCT01960842|184606829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1|||=|0.182|TWO_SIDED|95.0|-5.3|1.1|||One-sample t-test, 2-sided|||||1.1|-5.3|=0.182
92351120|NCT01960842|184606830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|||=|0.032|TWO_SIDED|95.0|-1.9|-0.09|||One-sample t-test, 2-sided|||||-0.09|-1.90|=0.032
92351121|NCT01960842|184606831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.2|||<|0.001|TWO_SIDED|95.0|-27.8|-10.6|||One-sample t-test, 2-sided|||Mobility Domain analysis.||-10.6|-27.8|<0.001
92351122|NCT01960842|184606831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.5|||=|0.059|TWO_SIDED|95.0|-13.3|0.3|||One-sample t-test, 2-sided|||Emotional Well-Being Domain analysis.||0.3|-13.3|=0.059
92351123|NCT01960842|184606831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.5|||=|0.07|TWO_SIDED|95.0|-15.6|0.6|||One-sample t-test, 2-sided|||Stigma Domain analysis.||0.6|-15.6|=0.070
92351124|NCT01960842|184606831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5|||=|0.591|TWO_SIDED|95.0|-7.3|4.2|||One-sample t-test, 2-sided|||Social Support Domain analysis.||4.2|-7.3|=0.591
92351125|NCT01960842|184606831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.0|||<|0.001|TWO_SIDED|95.0|-20.7|-7.3|||One-sample t-test, 2-sided|||Cognition Domain analysis.||-7.3|-20.7|<0.001
92351126|NCT01960842|184606831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|||=|0.67|TWO_SIDED|95.0|-4.2|6.4|||One-sample t-test, 2-sided|||Communication Domain analysis.||6.4|-4.2|=0.670
92351127|NCT01960842|184606831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.8|||<|0.001|TWO_SIDED|95.0|-25.2|-10.3|||One-sample t-test, 2-sided|||Bodily Discomfort Domain analysis.||-10.3|-25.2|<0.001
92351128|NCT01960842|184606832|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.8|||=|0.056|TWO_SIDED|95.0|-9.8|0.1|||One-sample t-test, 2-sided|||||0.1|-9.8|=0.056
92351129|NCT01960842|184606833|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|||=|0.011|TWO_SIDED|95.0|-1.6|-0.2|||One-sample t-test, 2-sided|||||-0.2|-1.6|=0.011
92351130|NCT01960842|184606834|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|||<|0.001|TWO_SIDED|95.0|-4.4|-1.9|||One-sample t-test, 2-sided|||||-1.9|-4.4|<0.001
92351131|NCT01960842|184606835|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.65|||<|0.001|TWO_SIDED|95.0|-5.83|-3.47|||One-sample t-test, 2-sided|||||-3.47|-5.83|<0.001
92160986|NCT00739102|184210518|SUPERIORITY_OR_OTHER||Proportion - 12-month patency rate|0.665|STANDARD_ERROR_OF_MEAN|0.032||0.437|TWO_SIDED|95.0|0.6|0.725||The observed rate of primary patency at 12 month was 66.5% (143/215) with a lower 95% confidence interval of 60.0%.|Agresti-Coull method||The 95% confidence intervals and the standard error were calculated using the Agresti-Coull method|The null hypothesis to be tested was Ho: P = 0.66 against Ha: P \> 0.66, where 0.66 was the Objective Performance Criteria (OPC). A sample size of 212 subjects was required to achieve 90% power to reject the 66% 12-months patency rate at a one-sided 2.5% significance level when the unknown true patency is at 76%.||0.725|0.6|0.437
92351132|NCT01960842|184606836|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.58|||<|0.001|TWO_SIDED|95.0|-5.73|-3.44|||One-sample t-test, 2-sided|||||-3.44|-5.73|<0.001
92351133|NCT05278065|184606859|SUPERIORITY||Mean Difference (Final Values)|8.09||||0.004|TWO_SIDED|95.0|3.2|12.98|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||12.98|3.20|.004
92351134|NCT05278065|184606859|SUPERIORITY||Mean Difference (Final Values)|6.74||||0.06|TWO_SIDED|95.0|-0.4|13.87|||t-test, 2 sided||Paired t-test|Repeated measures analysis at BL and Wk 8 for control arm||13.87|-0.40|.060
92351135|NCT05278065|184606859|SUPERIORITY||Slope|-0.932||||0.766|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||.766
92351136|NCT05278065|184606859|SUPERIORITY||Mean Difference (Final Values)|1.39||||0.533|TWO_SIDED|95.0|-3.41|6.19|||t-test, 2 sided|Paired t-test||Repeated measures analysis at Wk 8 and Wk 16 for experimental arm||6.19|-3.41|0.533
92351137|NCT05278065|184606859|SUPERIORITY||Mean Difference (Final Values)|-3.69||||0.296|TWO_SIDED|95.0|-12.21|4.84|||t-test, 2 sided|Paired t-test||Repeated measures analysis at Wk 8 and Wk 16 for control arm||4.84|-12.21|0.296
92351138|NCT05278065|184606859|SUPERIORITY||Slope|-5.075||||0.14|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.14
92351139|NCT05278065|184606859|SUPERIORITY||Mean Difference (Final Values)|9.48||||0.002|TWO_SIDED|95.0|4.24|14.71|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 16 for experimental arm||14.71|4.24|.002
92351140|NCT05278065|184606859|SUPERIORITY||Mean Difference (Final Values)|3.05||||0.291|TWO_SIDED|95.0|-3.91|10.01|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||10.01|-3.91|.291
92351141|NCT05278065|184606859|SUPERIORITY||Slope|-5.834||||0.067|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||.067
92351142|NCT05278065|184606860|SUPERIORITY||Mean Difference (Final Values)|0.82||||0.068|TWO_SIDED|95.0|-0.07|1.71|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||1.71|-0.07|.068
92351143|NCT05278065|184606860|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-2.32|2.32|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||2.32|-2.32|1.00
92351144|NCT05278065|184606860|SUPERIORITY||Slope|-0.66||||0.44|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.44
92351145|NCT05278065|184606861|SUPERIORITY||Mean Difference (Final Values)|0.447||||0.145|TWO_SIDED|95.0|-0.184|1.078|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||1.078|-0.184|.145
92351146|NCT05278065|184606861|SUPERIORITY||Mean Difference (Final Values)|1.23||||0.28|TWO_SIDED|95.0|-1.5|3.95|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||3.95|-1.50|0.280
92351147|NCT05278065|184606861|SUPERIORITY||Slope|0.802||||0.38|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.38
92351148|NCT05278065|184606862|SUPERIORITY||Mean Difference (Final Values)|0.086||||0.268|TWO_SIDED|95.0|-0.077|0.25|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||0.250|-0.077|0.268
92351149|NCT05278065|184606862|SUPERIORITY||Mean Difference (Final Values)|-0.047||||0.624|TWO_SIDED|95.0|-0.291|0.198|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||0.198|-0.291|0.624
92351150|NCT05278065|184606862|SUPERIORITY||Slope|-0.15||||0.17|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.17
92351151|NCT05278065|184606863|SUPERIORITY||Mean Difference (Final Values)|-0.077||||0.574|TWO_SIDED|95.0|-0.374|0.219|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||0.219|-0.374|0.574
92351152|NCT05278065|184606863|SUPERIORITY||Mean Difference (Final Values)|0.116||||0.077|TWO_SIDED|95.0|-0.02|0.252|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||0.252|-0.020|.077
92351153|NCT05278065|184606863|SUPERIORITY||Slope|0.193||||0.149|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||.149
92275874|NCT02449291|184454296|SUPERIORITY|||||||0.016|ONE_SIDED|95.0||||One-sided p-value. After adjustment for multiplicity using Hommel's method. (Note: unadjusted p value = 0.016) A priori threshold for statistical significance = 0.025.|Chi-squared|||The primary efficacy analysis was a comparison of the incidence of the primary efficacy variable between the two groups that received APD421 and the group that received placebo, using Pearson's χ2 test. The threshold for determining statistical significance in the comparison of incidence of success between the active and placebo groups (the primary efficacy analysis) was a p-value of 2.5% one-sided.||||0.016
92275875|NCT02449291|184454296|SUPERIORITY|||||||0.016||||||One-sided p-value. After adjustment for multiplicity using Hommel's method. (Note: unadjusted p value = 0.015) A priori threshold for statistical significance = 0.025.|Chi-squared|||The primary efficacy analysis was a comparison of the incidence of the primary efficacy variable between the two groups that received APD421 and the group that received placebo, using Pearson's χ2 test. The threshold for determining statistical significance in the comparison of incidence of success between the active and placebo groups (the primary efficacy analysis) was a p-value of 2.5% one-sided.||||0.016
92160987|NCT00739102|184210520|SUPERIORITY_OR_OTHER||Death Rate (%)|2.1|||||TWO_SIDED|95.0|0.7|4.9||||||||4.9|0.7|
92160988|NCT00739102|184210521|SUPERIORITY_OR_OTHER||Index Limb Amputation Rate (%)|0.0|||||TWO_SIDED|95.0|0.0|1.5||||||||1.5|0.0|
92275876|NCT02449291|184454297|SUPERIORITY|||||||0.009||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.009
92275877|NCT02449291|184454297|SUPERIORITY|||||||0.002||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.002
92275878|NCT02449291|184454298|SUPERIORITY|||||||0.17||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.170
92275879|NCT02449291|184454298|SUPERIORITY|||||||0.552||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.552
92275880|NCT02449291|184454299|SUPERIORITY|||||||0.003|||||||Regression, Cox|||||||0.003
92275881|NCT02449291|184454299|SUPERIORITY||||||<|0.001|||||||Regression, Cox|||||||<0.001
92275882|NCT02449291|184454300|SUPERIORITY|||||||0.209|||||||Chi-squared|||||||0.209
92275883|NCT02449291|184454300|SUPERIORITY|||||||0.44|||||||Chi-squared|||||||0.440
92160989|NCT00739102|184210522|SUPERIORITY_OR_OTHER||Clinically Driven TVR Rate (%)|0.0|||||TWO_SIDED|95.0|0.0|1.5||||||||1.5|0.0|
92275884|NCT02449291|184454301|SUPERIORITY|||||||0.009|||||||Chi-squared|||||||0.009
92275885|NCT02449291|184454301|SUPERIORITY|||||||0.009|||||||Chi-squared|||||||0.009
92275886|NCT02449291|184454302|SUPERIORITY|||||||0.115|||||||Chi-squared|||||||0.115
92275887|NCT02449291|184454302|SUPERIORITY|||||||0.222|||||||Chi-squared|||||||0.222
92275888|NCT02449291|184454303|SUPERIORITY|||||||0.474|||||||Chi-squared|||||||0.474
92275889|NCT02449291|184454303|SUPERIORITY|||||||0.505|||||||Chi-squared|||||||0.505
92160990|NCT00739102|184210523|SUPERIORITY_OR_OTHER||Clinically Driven TVR Rate (%)|13.6|||||TWO_SIDED|95.0|9.5|18.6||||||||18.6|9.5|
92275890|NCT02449291|184454304|SUPERIORITY|||||||0.103|||||||Wilcoxon (Mann-Whitney)|||||||0.103
92275891|NCT02449291|184454304|SUPERIORITY|||||||0.166|||||||Wilcoxon (Mann-Whitney)|||||||0.166
92275892|NCT02449291|184454305|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
92275893|NCT02449291|184454305|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
92160991|NCT00739102|184210524|SUPERIORITY_OR_OTHER||Stent Fracture Rate (%)|1.5|||||TWO_SIDED|95.0|0.3|4.4||||||||4.4|0.3|
92160992|NCT00739102|184210525|SUPERIORITY_OR_OTHER||Index Limb Ischemia Rate (%)|5.6||||||95.0||||||||||||
92160993|NCT00739102|184210526|SUPERIORITY_OR_OTHER||Primary safety endpoint rate (%)|100.0|||<|0.001|TWO_SIDED|95.0|98.2|100.0|||Agresti-Coull method|||The null hypothesis to be tested was Ho: P = 0.88 against Ha: P \> 0.88, where 0.88 was the Objective Performance Criteria (OPC).||100|98.2|<0.001
92160994|NCT00739102|184210527|SUPERIORITY_OR_OTHER||Index Limb Ischemia Rate (%)|8.4||||||95.0||||||||||||
92160995|NCT00739102|184210530|SUPERIORITY_OR_OTHER||Major adverse event rate (%)|14.4|||||TWO_SIDED|95.0|10.2|19.5||||||||19.5|10.2|
92275894|NCT02462421|184454308|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.92||||||No adjustment for multiple comparisons. Viewed as unnecessary inasmuch as none of the comparisons achieved p\<0.05.|t-test, 2 sided|||"Each of the variant genotypes was compared to the control group (homozygous for major alleles at all three genetic loci) in an unpaired t-test. The study was terminated early because it was clear that we would not meet our recruitment targets and that the study was likely underpowered.~Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant."||||0.92
92275895|NCT02462421|184454308|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.63||||||Not corrected for multiple comparisons|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.63
92275896|NCT02462421|184454308|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.86||||||Not adjusted for multiple comparisons|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.86
92275897|NCT02462421|184454309|OTHER|"We compared the two groups (wild type versus SLC2A9 variant homozygotes. Null hypothesis: there are no differences between the two groups with respect to the pharmacodynamic effect of canagliflozin on fractional excretion of uric acid in the urine."||||||0.04||||||Because the study was terminated early, we did not have sufficient statistical power to adjust for multiple comparisons. We are reporting a nominal p-value without adjusting for multiple comparisons|t-test, 2 sided|||The study was terminated early because of slow recruitment. As a result the study did not achieve the statistical power that had been planned.||||0.04
92275898|NCT02462421|184454310|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.07||||||Not corrected for multiple comparisons|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.07
92400583|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.296||||0.1529|TWO_SIDED|95.0|-0.481|3.074|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.074|-0.481|0.1529
92400584|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29||||0.1711|TWO_SIDED|95.0|-0.558|3.138|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.138|-0.558|0.1711
92400585|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.287||||0.1813|TWO_SIDED|95.0|-0.6|3.173|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.173|-0.600|0.1813
92400586|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.28||||0.1998|TWO_SIDED|95.0|-0.677|3.238|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.238|-0.677|0.1998
92400587|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.277||||0.21|TWO_SIDED|95.0|-0.72|3.273|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.273|-0.720|0.2100
92400588|NCT00083889|184692421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.271||||0.2283|TWO_SIDED|95.0|-0.797|3.338|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.338|-0.797|0.2283
92400589|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.214|||<|0.0001|TWO_SIDED|95.0|0.719|1.708|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Functional Assessment of Cancer Therapy-General (FACT-G) Social/Family Well Being (SWB) subscale baseline score (intercept and time since randomization are included as random effects).||1.708|0.719|<.0001
92400590|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.216|||<|0.0001|TWO_SIDED|95.0|0.729|1.703|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.703|0.729|<.0001
92400591|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.217|||<|0.0001|TWO_SIDED|95.0|0.731|1.704|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.704|0.731|<.0001
92400592|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.22|||<|0.0001|TWO_SIDED|95.0|0.73|1.71|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.710|0.730|<.0001
92400593|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.221|||<|0.0001|TWO_SIDED|95.0|0.727|1.716|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.716|0.727|<.0001
92160996|NCT05298111|184210555|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92160997|NCT05298111|184210556|SUPERIORITY||||||<|0.001|||||||Paired t-test|||||||< 0.001
92160998|NCT05298111|184210557|SUPERIORITY||||||<|0.001|||||||Sign test|||||||< 0.001
92160999|NCT05298111|184210558|SUPERIORITY|||||||0.001|||||||Sign test|||||||0.001
92161000|NCT05298111|184210559|SUPERIORITY|||||||0.894|||||||Paired t-test|||||||0.894
92161001|NCT05298111|184210560|SUPERIORITY|||||||0.629|||||||Paired t-test|||||||0.629
92161002|NCT05298111|184210561|SUPERIORITY|||||||0.653|||||||Paired t-test|||||||0.653
92161003|NCT05298111|184210562|SUPERIORITY|||||||0.624|||||||Paired t-test|||||||0.624
92161004|NCT05298111|184210563|SUPERIORITY|||||||0.414|||||||Paired t-test|||||||0.414
92161005|NCT05298111|184210564|SUPERIORITY|||||||0.105|||||||Paired t-test|||||||0.105
92168749|NCT00603954|184227086|SUPERIORITY||Median Difference (Final Values)|4.0|||||TWO_SIDED|||||||||This statistical analysis applies to median ATG serum levels at day 0||||
92168750|NCT00603954|184227086|SUPERIORITY||Mean Difference (Final Values)|2.2|||||TWO_SIDED|||||||||This statistical analysis applies to median ATG serum levels at day 3||||
92168751|NCT00603954|184227086|SUPERIORITY||Mean Difference (Final Values)|0.95|||||TWO_SIDED|||||||||This statistical analysis applies to median ATG serum levels at day 10||||
92168752|NCT00603954|184227087|SUPERIORITY|||||||0.5|||||||Cumulative incidence curve|||||||0.5
92168753|NCT00603954|184227088|SUPERIORITY||multivariate analyses|2.0|STANDARD_DEVIATION|0.07||0.14|TWO_SIDED|95.0|1.0|4.1|||Kaplan-Meier method|||||4.1|1|0.14
92275899|NCT02462421|184454310|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.53||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.53
92351154|NCT05278065|184606864|SUPERIORITY||Mean Difference (Final Values)|-0.116||||0.376|TWO_SIDED|95.0|-0.396|0.163|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||0.163|-0.396|0.376
92351155|NCT05278065|184606864|SUPERIORITY||Mean Difference (Final Values)|0.37||||0.065|TWO_SIDED|95.0|-0.036|0.78|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||0.78|-0.036|0.065
92351156|NCT05278065|184606864|SUPERIORITY||Slope|0.486||||0.006|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||.006
92351157|NCT05278065|184606865|SUPERIORITY||Mean Difference (Final Values)|0.046||||0.849|TWO_SIDED|95.0|-0.483|0.576|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||0.576|-0.483|0.849
92351158|NCT05278065|184606865|SUPERIORITY||Mean Difference (Final Values)|-0.302||||0.107|TWO_SIDED|95.0|-0.706|0.102|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||0.102|-0.706|.107
92351159|NCT05278065|184606865|SUPERIORITY||Slope|-0.34||||0.19|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.19
92351160|NCT05278065|184606866|SUPERIORITY||Mean Difference (Final Values)|-0.085||||0.828|TWO_SIDED|95.0|-0.929|0.76|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||0.760|-0.929|0.828
92351161|NCT05278065|184606866|SUPERIORITY||Mean Difference (Final Values)|0.762||||0.249|TWO_SIDED|95.0|-0.81|2.33|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||2.33|-0.81|0.249
92351162|NCT05278065|184606866|SUPERIORITY||Slope|0.857||||0.17|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.17
92351163|NCT05278065|184606867|SUPERIORITY||Mean Difference (Final Values)|-0.182||||0.965|TWO_SIDED|95.0|-9.25|8.89|||t-test, 2 sided|Paired t-test||||8.89|-9.25|0.965
92351164|NCT05278065|184606867|SUPERIORITY||Mean Difference (Final Values)|3.25||||0.522|TWO_SIDED|95.0|-11.1|17.6|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||17.6|-11.1|0.522
92351165|NCT05278065|184606867|SUPERIORITY||Slope|1.41||||0.781|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.781
92351166|NCT02070991|184606874|SUPERIORITY_OR_OTHER||Difference between maci. and placebo|10.08||||0.3372|TWO_SIDED|95.0|-15.07|33.26|||Fisher Exact|||||33.26|-15.07|0.3372
92351167|NCT02070991|184606875|SUPERIORITY_OR_OTHER||Treatment effect (ratio of geom. means)|0.77|||||TWO_SIDED|95.0|0.55|1.08||||||||1.08|0.55|
92168754|NCT00603954|184227090|SUPERIORITY||multivariate analyses|1.2|STANDARD_DEVIATION|0.02||0.9|TWO_SIDED|95.0|1.0|1.4|||Kaplan-Meier method|||||1.4|1|0.9
92168755|NCT00603954|184227091|SUPERIORITY||multivariate analyses|1.2|STANDARD_DEVIATION|0.02||0.96|TWO_SIDED|95.0|1.0|1.4|||Kaplan-Meier method|||||1.4|1|0.96
92168756|NCT04705480|184227092|OTHER|The study sought to assess if adding multiple doses of pregabalin or gabapentin upon admission will reduce opioid usage in trauma patients. No specific assessment of inferiority or superiority was done.||||||0.687|||||||Wilcoxon (Mann-Whitney)|||||||0.687
92168757|NCT04705480|184227092|OTHER|The study sought to assess if adding multiple doses of pregabalin or gabapentin upon admission will reduce opioid usage in trauma patients. No specific assessment of inferiority or superiority was done.||||||0.557|||||||Wilcoxon (Mann-Whitney)|||||||0.557
92168758|NCT04705480|184227092|OTHER|The study sought to assess if adding multiple doses of pregabalin or gabapentin upon admission will reduce opioid usage in trauma patients. No specific assessment of inferiority or superiority was done.||||||0.601|||||||ANCOVA|Rank transformation was applied to account this for nonparametric outcome while adjusting for significantly different psychiatric comorbidities.||||||0.601
92168759|NCT04705480|184227093|OTHER|||||||0.346|||||||Wilcoxon (Mann-Whitney)|||||||0.346
92168760|NCT04705480|184227093|OTHER|||||||0.233|||||||Wilcoxon (Mann-Whitney)|||||||0.233
92168761|NCT04705480|184227093|OTHER|||||||0.145|||||||Wilcoxon (Mann-Whitney)|||||||0.145
92168762|NCT04705480|184227094|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||Chi-squared|||||||<0.05
92168763|NCT04705480|184227094|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||Chi-squared|||||||<0.05
92168764|NCT04705480|184227094|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||Regression, Logistic|This was applied to adjust for significantly different psychiatric comorbidities.||||||<0.05
92168765|NCT04705480|184227095|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92168766|NCT04705480|184227095|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92168767|NCT04705480|184227095|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||ANCOVA|Rank transformation was applied to account this for nonparametric outcome while adjusting for significantly different psychiatric comorbidities.||||||<0.05
92168768|NCT04705480|184227096|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92168769|NCT04705480|184227096|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92168770|NCT04705480|184227096|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||ANCOVA|Rank transformation was applied to account this for nonparametric outcome while adjusting for significantly different psychiatric comorbidities.||||||<0.05
92168771|NCT04705480|184227097|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||Chi-squared|||||||<0.05
92168772|NCT04705480|184227097|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||Chi-squared|||||||<0.05
92168773|NCT04705480|184227097|OTHER|No specific assessment of inferiority or superiority was done.|||||<|0.05|||||||Regression, Logistic|This was applied to adjust for significantly different psychiatric comorbidities.||||||<0.05
92351168|NCT02070991|184606876|SUPERIORITY_OR_OTHER||Treatment effect (ratio of geom. means)|0.93|||||TWO_SIDED|95.0|0.64|1.36||||||||1.36|0.64|
92351169|NCT02070991|184606877|SUPERIORITY_OR_OTHER||Treatment effect (mean change from BL)|0.3|||||TWO_SIDED|95.0|-4.3|4.9||||||||4.9|-4.3|
92351170|NCT02070991|184606878|SUPERIORITY_OR_OTHER||Treatment effect (mean change from BL)|0.7|||||TWO_SIDED|95.0|-2.2|3.6||||||||3.6|-2.2|
92351171|NCT02070991|184606879|SUPERIORITY_OR_OTHER||Treatment effect (mean change from BL)|-0.3|||||TWO_SIDED|95.0|-4.2|3.7||||||||3.7|-4.2|
92351172|NCT02070991|184606880|SUPERIORITY_OR_OTHER||Treatment effect (mean change from BL)|0.4|||||TWO_SIDED|95.0|0.11|0.69||||||||0.69|0.11|
92351173|NCT02070991|184606881|SUPERIORITY_OR_OTHER||Treatment effect (mean change from BL)|-0.4|||||TWO_SIDED|95.0|-4.5|3.6||||||||3.6|-4.5|
92351174|NCT04999020|184606882|SUPERIORITY||Difference in response rates|-15.38||||0.4192|TWO_SIDED|80.0|-38.55|8.48|||Barnard's unconditional exact test|||||8.48|-38.55|0.4192
92351175|NCT02697422|184606915|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
92351176|NCT02697422|184606916|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
92400594|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.224|||<|0.0001|TWO_SIDED|95.0|0.716|1.732|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.732|0.716|<.0001
92351177|NCT02697422|184606917|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
92351178|NCT02697422|184606918|SUPERIORITY|||||||0.9|TWO_SIDED|95.0||||Smoker/tobacco use results were calculated using logistic regression.|Regression, Logistic|||Smoker/tobacco use results were calculated using logistic regression. A P value of .90 was found comparing smoking/tobacco use in intervention vs control participants. A difference was not reported between intervention and control because smoking/ tobacco use was a binary variable.||||0.90
92400595|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.225|||<|0.0001|TWO_SIDED|95.0|0.707|1.744|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.744|0.707|<.0001
92400596|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.228|||<|0.0001|TWO_SIDED|95.0|0.687|1.769|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.769|0.687|<.0001
92351179|NCT02697422|184606919|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
92351180|NCT02697422|184606920|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
92351181|NCT02697422|184606921|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
92351182|NCT02697422|184606922|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
92351183|NCT02697422|184606923|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
92351184|NCT02697422|184606924|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
92351185|NCT02068599|184606926|SUPERIORITY||LSM difference from placebo|4.26||||0.1213|TWO_SIDED|95.0|-1.13|9.66||5% level of significance|mixed model for repeated measures|||LSM = least square mean||9.66|-1.13|0.1213
92351186|NCT02068599|184606926|SUPERIORITY||LSM difference from placebo|1.74||||0.5231|TWO_SIDED|95.0|-3.62|7.11||5% level of significance|mixed model for repeated measures|||LSM = least square mean||7.11|-3.62|0.5231
92351187|NCT02068599|184606927|SUPERIORITY||LSM difference from placebo|17.86||||0.1795|TWO_SIDED|95.0|-8.26|43.98||5% level of significance|mixed model for repeated measures|||LSM = least square mean||43.98|-8.26|0.1795
92351188|NCT02068599|184606927|SUPERIORITY||LSM difference from placebo|9.0||||0.4956|TWO_SIDED|95.0|-16.95|34.96||5% level of significance|mixed model for repeated measures|||LSM = least square mean||34.96|-16.95|0.4956
92351189|NCT02068599|184606928|SUPERIORITY||LSM difference from placebo|3.61||||0.1963|TWO_SIDED|95.0|-1.87|9.08||5% level of significance|mixed model for repeated measures|||||9.08|-1.87|0.1963
92351190|NCT02068599|184606928|SUPERIORITY||LSM difference from placebo|2.06||||0.4584|TWO_SIDED|95.0|-3.39|7.5||5% level of significance|mixed model for repeated measures|||||7.50|-3.39|0.4584
92351191|NCT02068599|184606929|SUPERIORITY||LSM difference from placebo|23.51||||0.642|TWO_SIDED|95.0|-75.83|122.84||5% level of significance|mixed model for repeated measures|||||122.84|-75.83|0.6420
92351192|NCT02068599|184606929|SUPERIORITY||LSM difference from placebo|-50.4||||0.3141|TWO_SIDED|95.0|-148.72|47.92||5% level of significance|mixed model for repeated measures|||||47.92|-148.72|0.3141
92351193|NCT02068599|184606930|SUPERIORITY||LSM difference from placebo|3.16||||0.6184|TWO_SIDED|95.0|-9.31|15.63||5% level of significance|mixed model for repeated measures|||||15.63|-9.31|0.6184
92351194|NCT02068599|184606930|SUPERIORITY||LSM difference from placebo|-3.48||||0.5775|TWO_SIDED|95.0|-15.78|8.81||5% level of significance|mixed model for repeated measures|||||8.81|-15.78|0.5775
92351195|NCT02068599|184606931|SUPERIORITY||Odds Ratio (OR)|0.62||||0.1011|TWO_SIDED|95.0|0.345|1.099||5% level of significance|mixed model for repeated measures|||\>=50% responder rate||1.099|0.345|0.1011
92351196|NCT02068599|184606931|SUPERIORITY||Odds Ratio (OR)|1.06||||0.84|TWO_SIDED|95.0|0.615|1.819||5% level of significance|mixed model for repeated measures|||\>=50% responder rate||1.819|0.615|0.8400
92351197|NCT02068599|184606931|SUPERIORITY||Odds Ratio (OR)|0.89||||0.6607|TWO_SIDED|95.0|0.531|1.494||5% level of significance|mixed model for repeated measures|||\>=30% responder rate||1.494|0.531|0.6607
92351198|NCT02068599|184606931|SUPERIORITY||Odds Ratio (OR)|0.87||||0.5777|TWO_SIDED|95.0|0.52|1.441||5% level of significance|mixed model for repeated measures|||\>=30% responder rate||1.441|0.520|0.5777
92219818|NCT02090413|184339959|SUPERIORITY_OR_OTHER||Difference in percentage|4.9|||||TWO_SIDED|95.0|-1.8|11.7|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall warmth events||11.7|-1.8|
92219819|NCT02090413|184339959|SUPERIORITY_OR_OTHER||Difference in percentage|5.0|||||TWO_SIDED|95.0|-1.7|11.7|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall warmth events||11.7|-1.7|
92219820|NCT02090413|184339959|SUPERIORITY_OR_OTHER||Difference in percentage|5.9|||||TWO_SIDED|95.0|-5.4|17.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall tingling events||17.3|-5.4|
92219821|NCT02090413|184339959|SUPERIORITY_OR_OTHER||Difference in percentage|5.0|||||TWO_SIDED|95.0|-6.4|16.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall tingling events||16.4|-6.4|
92219822|NCT02090413|184339959|SUPERIORITY_OR_OTHER||Difference in percentage|-8.0|||||TWO_SIDED|95.0|-19.5|3.5|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall itching events||3.5|-19.5|
92351199|NCT02068599|184606932|SUPERIORITY||LSM difference from placebo|3.94||||0.4316|TWO_SIDED|95.0|-5.9|13.79||5% level of significance|mixed model for repeated measures|||||13.79|-5.90|0.4316
92351200|NCT02068599|184606932|SUPERIORITY||LSM difference from placebo|2.51||||0.6126|TWO_SIDED|95.0|-7.24|12.26||5% level of significance|mixed model for repeated measures|||||12.26|-7.24|0.6126
92351201|NCT02068599|184606933|SUPERIORITY||LSM difference from placebo|0.01||||0.9208|TWO_SIDED|95.0|-0.232|0.257||5% level of significance|mixed model for repeated measures|||Week 2||0.257|-0.232|0.9208
92351202|NCT02068599|184606933|SUPERIORITY||LSM difference from placebo|0.04||||0.7344|TWO_SIDED|95.0|-0.2|0.284||5% level of significance|mixed model for repeated measures|||Week 2||0.284|-0.200|0.7344
92219823|NCT02090413|184339959|SUPERIORITY_OR_OTHER||Difference in percentage|-11.3|||||TWO_SIDED|95.0|-23.1|0.6|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall itching events||0.6|-23.1|
92219824|NCT02090413|184339962|SUPERIORITY_OR_OTHER||Difference in percentage|-1.4|||||TWO_SIDED|95.0|-15.8|13.0|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 5-8 combined||13.0|-15.8|
92275900|NCT02462421|184454310|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.92||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.92
92275901|NCT02462421|184454311|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.|||||<|0.01||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||<0.01
92219825|NCT02090413|184339962|SUPERIORITY_OR_OTHER||Difference in percentage|5.4|||||TWO_SIDED|95.0|-8.4|19.1|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 5-8 combined||19.1|-8.4|
92219826|NCT02090413|184339962|SUPERIORITY_OR_OTHER||Difference in percentage|6.5|||||TWO_SIDED|95.0|-9.9|23.0|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 9-12 combined||23.0|-9.9|
92219827|NCT02090413|184339962|SUPERIORITY_OR_OTHER||Difference in percentage|15.7|||||TWO_SIDED|95.0|0.2|31.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 9-12 combined||31.3|0.2|
92219828|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|2.6|||||TWO_SIDED|95.0|-10.2|15.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing, Weeks 5-8 combined||15.4|-10.2|
92351203|NCT02068599|184606933|SUPERIORITY||LSM difference from placebo|0.21||||0.1199|TWO_SIDED|95.0|-0.056|0.486||5% level of significance|mixed model for repeated measures|||Week 4||0.486|-0.056|0.1199
92351204|NCT02068599|184606933|SUPERIORITY||LSM difference from placebo|0.06||||0.6357|TWO_SIDED|95.0|-0.204|0.334||5% level of significance|mixed model for repeated measures|||Week 4||0.334|-0.204|0.6357
92351205|NCT02068599|184606934|SUPERIORITY||LSM difference from placebo|2.77||||0.2906|TWO_SIDED|95.0|-2.377|7.916||5% level of significance|mixed model for repeated measures|||Week 2||7.916|-2.377|0.2906
92351206|NCT02068599|184606934|SUPERIORITY||LSM difference from placebo|1.41||||0.5892|TWO_SIDED|95.0|-3.707|6.518||5% level of significance|mixed model for repeated measures|||Week 2||6.518|-3.707|0.5892
92351207|NCT02068599|184606934|SUPERIORITY||LSM difference from placebo|0.82||||0.7699|TWO_SIDED|95.0|-4.678|6.315||5% level of significance|mixed model for repeated measures|||Week 4||6.315|-4.678|0.7699
92351208|NCT02068599|184606934|SUPERIORITY||LSM difference from placebo|1.74||||0.532|TWO_SIDED|95.0|-3.721|7.193||5% level of significance|mixed model for repeated measures|||Week 4||7.193|-3.721|0.5320
92351209|NCT02068599|184606935|SUPERIORITY||Odds Ratio (OR)|0.85||||0.5358|TWO_SIDED|95.0|0.501|1.433||5% level of significance|generalized estimating equation (GEE)|||For the responder analyses, participants with missing values were deemed non-responders. Analysis performed using a generalized estimating equation (GEE) method where binary variable responder rate (Yes/No) was modeled through logit link function, with treatment, center, week, and treatment\*week as explanatory factors. The unstructured working correlation structure was applied.||1.433|0.501|0.5358
92351210|NCT02068599|184606935|SUPERIORITY||Odds Ratio (OR)|1.45||||0.1532|TWO_SIDED|95.0|0.87|2.423||5% level of significance|generalized estimating equation (GEE)|||For the responder analyses, participants with missing values were deemed non-responders. Analysis performed using a generalized estimating equation (GEE) method where binary variable responder rate (Yes/No) was modeled through logit link function, with treatment, center, week, and treatment\*week as explanatory factors. The unstructured working correlation structure was applied.||2.423|0.870|0.1532
92351211|NCT03019588|184606937|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.29|TWO_SIDED|95.0|0.58|1.36|||Log Rank|One-sided p-value based on log-rank test stratified by time to progression on first line therapy (\< 6 months vs. ≥ 6 months) and ECOG PS (0 vs. 1).|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by time to progression on first line therapy (\< 6 months vs. ≥ 6 months) and ECOG PS (0 vs. 1).|||1.36|0.58|0.2900
92219829|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|4.0|||||TWO_SIDED|95.0|-8.6|16.6|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing, Weeks 5-8 combined||16.6|-8.6|
92400597|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.229|||<|0.0001|TWO_SIDED|95.0|0.673|1.785|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.785|0.673|<.0001
92161006|NCT00991276|184210581|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-27.1|STANDARD_ERROR_OF_MEAN|4.38|<|0.0001|TWO_SIDED|95.0|-35.78|-18.42||This analysis was step 1 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The least squares (LS) means and standard errors (SE) were used to test for a treatment difference and construct 2-sided 95% confidence intervals (CIs). The hypothesis test was 2-sided and conducted at the 5% level of significance.||-18.42|-35.78|<0.0001
92161007|NCT00991276|184210581|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-26.93|STANDARD_ERROR_OF_MEAN|4.35|<|0.0001|TWO_SIDED|95.0|-35.54|-18.32||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-18.32|-35.54|<0.0001
92161008|NCT00991276|184210581|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|4.32||0.9684|TWO_SIDED|95.0|-8.72|8.38||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||8.38|-8.72|0.9684
92161009|NCT00991276|184210582|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.68|STANDARD_ERROR_OF_MEAN|0.89|<|0.0001|TWO_SIDED|95.0|-5.44|-1.92||This analysis was step 2 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.92|-5.44|<0.0001
92161010|NCT00991276|184210582|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.26|STANDARD_ERROR_OF_MEAN|0.88||0.1541|TWO_SIDED|95.0|-0.48|3.01||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||3.01|-0.48|0.1541
92161011|NCT00991276|184210582|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.94|STANDARD_ERROR_OF_MEAN|0.88|<|0.0001|TWO_SIDED|95.0|-6.68|-3.21||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-3.21|-6.68|<0.0001
92161012|NCT00991276|184210583|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|30.81|STANDARD_ERROR_OF_MEAN|7.42|<|0.0001|TWO_SIDED|95.0|16.14|45.49||This analysis was step 3 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||45.49|16.14|<0.0001
92161013|NCT00991276|184210583|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|26.79|STANDARD_ERROR_OF_MEAN|7.34||0.0004|TWO_SIDED|95.0|12.26|41.32||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||41.32|12.26|0.0004
92161014|NCT00991276|184210583|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.03|STANDARD_ERROR_OF_MEAN|7.27||0.5807|TWO_SIDED|95.0|-10.36|18.41||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||18.41|-10.36|0.5807
92219830|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|3.1|||||TWO_SIDED|95.0|-12.8|18.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing, Weeks 9-12 combined||18.9|-12.8|
92219831|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|12.3|||||TWO_SIDED|95.0|-2.8|27.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing, Weeks 9-12 combined||27.3|-2.8|
92219832|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|-1.8|||||TWO_SIDED|95.0|-15.7|12.2|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Redness, Weeks 5-8 combined||12.2|-15.7|
92275902|NCT02462421|184454311|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.77||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.77
92275903|NCT02462421|184454311|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.65||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.65
92275904|NCT02462421|184454312|OTHER|Null hypothesis: None of the three genotypes is associated with an alteration in the pharmacodynamic effect of canagliflozin on urinary Na excretion||||||0.2||||||Because the study was terminated early, the study does not have sufficient statistical power to adjust for multiple comparisons. Accordingly, nominal p-values are reported.|t-test, 2 sided|||"The wild type genotype group was compared to homozygotes for each of the three other genotypes."||||0.20
92275905|NCT02462421|184454312|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.01|||||||t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.01
92275906|NCT02462421|184454312|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.16||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.16
92275907|NCT02462421|184454313|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.21||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.21
92275908|NCT02462421|184454313|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.92||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.92
92275909|NCT02462421|184454313|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.39||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Not corrected for multiple comparisons.||||0.39
92275910|NCT02891200|184454314|SUPERIORITY||Predicted Mean Difference|1.46||||0.467|TWO_SIDED|95.0|-2.47|5.38|||Mixed Models Analysis|Mixed effects linear model with study site and setting as fixed effects, and adjusted for baseline SGRQ domain scores.||||5.38|-2.47|0.467
92275911|NCT01339910|184454333|SUPERIORITY||Difference in 18 month OS (MAC-RIC)|9.8||||0.07|TWO_SIDED|95.0|-0.8|20.3||This final test was performed at a 0.049 significance level, since 0.001 was spent at interim analyses and the overall significance level was 0.050.|Difference in Kaplan-Meier estimators|||The null hypothesis is that there is no difference in overall survival at 18 months post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. 18 month overall survival was compared between treatment arms using the difference in Kaplan-Meier estimators, which should be close to 0 under the null hypothesis.||20.3|-0.8|0.07
92275912|NCT01339910|184454334|SUPERIORITY||Difference in 18 month RFS (MAC-RIC)|20.4|||<|0.01|TWO_SIDED|95.0|8.9|32.0||Test performed at a significance level of 0.05|Difference in Kaplan-Meier estimators|||The null hypothesis is that there is no difference in relapse-free survival at 18 months post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. 18 month relapse-free survival was compared between treatment arms using the difference in Kaplan-Meier estimators, which should be close to 0 under the null hypothesis.||32.0|8.9|< 0.01
92275913|NCT01339910|184454335|SUPERIORITY||||||<|0.001||||||Test performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of disease relapse during the first 18 months post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of disease relapse was compared between treatment arms using Gray's test, treating death as a competing risk.||||< 0.001
92275914|NCT01339910|184454336|SUPERIORITY|||||||0.002||||||Test performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of treatment-related mortality during the first 18 months post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of treatment-related mortality was compared between treatment arms using Gray's test, treating disease relapse as a competing risk.||||0.002
92275915|NCT01339910|184454337|SUPERIORITY|||||||0.002||||||Test performed at a significance level of 0.05|Difference in Aalen-Johansen estimators|||The null hypothesis is that there is no difference in the cumulative incidence of neutrophil engraftment at Day 28 post-transplant between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of neutrophil engraftment at Day 28 was compared between treatment arms using the difference in Aalen-Johansen estimators, which should be close to 0 under the null hypothesis. Death was treated as a competing risk.||||0.002
92219833|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|4.0|||||TWO_SIDED|95.0|-9.4|17.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Redness, Weeks 5-8 combined||17.3|-9.4|
92219834|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|-9.0|||||TWO_SIDED|95.0|-25.1|7.0|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Redness, Weeks 9-12 combined||7.0|-25.1|
92351212|NCT03019588|184606938|SUPERIORITY||Hazard Ratio (HR)|1.77||||0.9954|TWO_SIDED|95.0|1.14|2.74|||Log Rank|One-sided p-value based on log-rank test stratified by time to progression on first line therapy (\< 6 months vs. ≥ 6 months) and ECOG PS (0 vs. 1).|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by time to progression on first line therapy (\< 6 months vs. ≥ 6 months) and ECOG PS (0 vs. 1).|||2.74|1.14|0.9954
92400598|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.232|||<|0.0001|TWO_SIDED|95.0|0.646|1.818|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.818|0.646|<.0001
92161015|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.67|STANDARD_ERROR_OF_MEAN|2.09||0.0076|TWO_SIDED|95.0|-9.8|-1.54||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N1 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.54|-9.80|0.0076
92351213|NCT03019588|184606939|SUPERIORITY||Difference in percentage|-6.0||||0.7884|TWO_SIDED|95.0|-21.6|9.3|||Z-test|One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Based on Miettinen \& Nurminen method stratified by time to progression on first line therapy (\< 6 months vs. ≥ 6 months) and ECOG PS (0 vs. 1).|||9.3|-21.6|0.7884
92351214|NCT00699751|184606949|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.691||||5e-05|TWO_SIDED|95.0|0.578|0.827|||Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of overall survival, and also for the secondary endpoints, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||0.827|0.578|0.00005
92351215|NCT00699751|184606950|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.169|||<|1e-05|TWO_SIDED|95.0|0.131|0.22|||Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of time to total ALP progression, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||0.22|0.131|<0.00001
92351216|NCT00699751|184606951|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=30% reduction in blood level|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=30% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92400599|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.233|||<|0.0001|TWO_SIDED|95.0|0.629|1.838|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.838|0.629|<.0001
92400600|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.236||||0.0002|TWO_SIDED|95.0|0.595|1.876|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.876|0.595|0.0002
92161016|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-10.32|STANDARD_ERROR_OF_MEAN|2.08|<|0.0001|TWO_SIDED|95.0|-14.43|-6.21||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N1 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-6.21|-14.43|<0.0001
92351217|NCT00699751|184606951|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=50% reduction in blood level|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=50% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351218|NCT00699751|184606951|SUPERIORITY_OR_OTHER||||||<|0.001||||||Confirmed Total ALP Response (\>=30%)|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Confirmed Total ALP Response (\>=30%), is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351219|NCT00699751|184606951|SUPERIORITY_OR_OTHER||||||<|0.001||||||Confirmed Total ALP Response (\>=50%)|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Confirmed Total ALP Response (\>=50%), is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351220|NCT00699751|184606952|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=30% reduction in blood level|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=30% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92219835|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|3.3|||||TWO_SIDED|95.0|-12.0|18.5|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Redness, Weeks 9-12 combined||18.5|-12.0|
92400601|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.237||||0.0003|TWO_SIDED|95.0|0.575|1.899|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.899|0.575|0.0003
92400602|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24||||0.0005|TWO_SIDED|95.0|0.537|1.942|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.942|0.537|0.0005
92219836|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|-0.3|||||TWO_SIDED|95.0|-13.5|12.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Warmth, Weeks 5-8 combined||12.9|-13.5|
92219837|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|2.6|||||TWO_SIDED|95.0|-10.2|15.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Warmth, Weeks 5-8 combined||15.4|-10.2|
92219838|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|0.2|||||TWO_SIDED|95.0|-15.3|15.7|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Warmth, Weeks 9-12 combined||15.7|-15.3|
92219839|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|4.8|||||TWO_SIDED|95.0|-10.3|19.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Warmth, Weeks 9-12 combined||19.9|-10.3|
92219840|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-18.4|14.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Tingling, Weeks 5-8 combined||14.3|-18.4|
92219841|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|13.7|||||TWO_SIDED|95.0|-1.9|29.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Tingling, Weeks 5-8 combined||29.3|-1.9|
92219842|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|-5.2|||||TWO_SIDED|95.0|-22.1|11.8|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Tingling, Weeks 9-12 combined||11.8|-22.1|
92219843|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|7.1|||||TWO_SIDED|95.0|-9.6|23.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Tingling, Weeks 9-12 combined||23.9|-9.6|
92219844|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|9.4|||||TWO_SIDED|95.0|-6.8|25.5|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Itching, Weeks 5-8 combined||25.5|-6.8|
92275916|NCT01339910|184454337|SUPERIORITY|||||||0.065||||||Test performed at a significance level of 0.05|Difference in Aalen-Johansen estimators|||The null hypothesis is that there is no difference in the cumulative incidence of platelet engraftment at Day 60 post-transplant between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of platelet engraftment at Day 60 was compared between treatment arms using the difference in Aalen-Johansen estimators, which should be close to 0 under the null hypothesis. Death was treated as a competing risk.||||0.065
92275917|NCT01339910|184454338|SUPERIORITY|||||||0.005||||||Test performed at a significance level of 0.05|Chi-squared|3 degrees of freedom||The null hypothesis is that there is no difference in the proportions of participants with full chimerism, mixed chimerism, graft rejection, and death prior to assessment at Day 28 post-transplant between AML/MDS participants receiving MAC and RIC conditioning regimens.||||0.005
92275918|NCT01339910|184454338|SUPERIORITY|||||||0.011||||||Test performed at a significance level of 0.05|Chi-squared|3 degrees of freedom||The null hypothesis is that there is no difference in the proportions of participants with full chimerism, mixed chimerism, graft rejection, and death prior to assessment at Day 100 post-transplant between AML/MDS participants receiving MAC and RIC conditioning regimens.||||0.011
92219845|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|9.4|||||TWO_SIDED|95.0|-6.8|25.5|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Itching, Weeks 5-8||25.5|-6.8|
92219846|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|3.8|||||TWO_SIDED|95.0|-13.2|20.8|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Itching, Weeks 9-12 combined||20.8|-13.2|
92400603|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.241||||0.0008|TWO_SIDED|95.0|0.515|1.967|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.967|0.515|0.0008
92219847|NCT02090413|184339963|SUPERIORITY_OR_OTHER||Difference in percentage|8.4|||||TWO_SIDED|95.0|-8.5|25.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Itching, Weeks 9-12 combined||25.3|-8.5|
92219848|NCT02090413|184339967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.145|||||TWO_SIDED|95.0|-0.414|0.125|||||Analysis of variance model (ANCOVA) model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 1-4 combined||0.125|-0.414|
92219849|NCT02090413|184339967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.392|||||TWO_SIDED|95.0|-0.656|-0.128|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 1-4 combined||-0.128|-0.656|
92219850|NCT02090413|184339967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.247|||||TWO_SIDED|95.0|-0.507|0.012|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 1-4 combined||0.012|-0.507|
92219851|NCT02090413|184339967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.376|||||TWO_SIDED|95.0|-0.193|0.945|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 5-8 combined||0.945|-0.193|
92161017|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.65|STANDARD_ERROR_OF_MEAN|2.06||0.0257|TWO_SIDED|95.0|0.58|8.73||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N1 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||8.73|0.58|0.0257
92219852|NCT02090413|184339967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|||||TWO_SIDED|95.0|-0.498|0.635|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 5-8 combined||0.635|-0.498|
92219853|NCT02090413|184339967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.308|||||TWO_SIDED|95.0|-0.867|0.251|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 5-8 combined||0.251|-0.867|
92219854|NCT02090413|184339967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|||||TWO_SIDED|95.0|-0.308|0.355|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 9-12 combined||0.355|-0.308|
92219855|NCT02090413|184339967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-0.374|0.254|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 9-12 combined||0.254|-0.374|
92219856|NCT02090413|184339967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.084|||||TWO_SIDED|95.0|-0.4|0.232|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 9-12 combined||0.232|-0.4|
92161018|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|22.7|STANDARD_ERROR_OF_MEAN|6.05||0.0003|TWO_SIDED|95.0|10.74|34.67||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N2 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||34.67|10.74|0.0003
92161019|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.47|STANDARD_ERROR_OF_MEAN|6.0||0.0174|TWO_SIDED|95.0|-26.35|-2.59||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N2 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-2.59|-26.35|0.0174
92161020|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|37.17|STANDARD_ERROR_OF_MEAN|5.96|<|0.0001|TWO_SIDED|95.0|25.38|48.96||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N2 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||48.96|25.38|<0.0001
92219857|NCT05248295|184339982|OTHER|Separate regression models were used within each group (People with aphasia and Controls) to independently assess the effects of the variables. Below, the results are reported for the effect of production condition (Unison vs. Solo) for the group of interest, People with aphasia.|Odds Ratio (OR)|1.21|STANDARD_ERROR_OF_MEAN|0.13||0.077|TWO_SIDED|||||Results are reported for production condition for people with aphasia (experimental group).|Regression, Logistic||OR computed with Unison as the numerator and Solo as the denominator|People with aphasia (PWA) were not directly compared to controls since the finding of a lower % syllables correct in any condition in PWA would be trivial. Instead, within-groups analyses were conducted to understand how the experimental variables affected syllable accuracy within each group.||||0.077
92219858|NCT05248295|184339982|OTHER|Below, the results are reported for the effect of timing condition (Metrical vs. Conversational) for the group of interest, People with aphasia.|||||>|0.1||||||Results are reported for Timing Condition for the People with aphasia.|Regression, Logistic|||||||>.1
92219859|NCT05248295|184339982|OTHER|Below, the results are reported for the interaction effect between production condition and timing condition for the group of interest, People with aphasia.|Odds Ratio (OR)|1.55|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED||||||Regression, Logistic||OR computed as ((Unison Metrical)/(Unison Conversational)) / ((Solo Metrical)/(Solo Conversational))|||||<0.001
92219860|NCT05248295|184339982|OTHER||Odds Ratio (OR)|0.63|STANDARD_ERROR_OF_MEAN|0.14||0.036|TWO_SIDED|||||Results are reported for Production Condition for the Control group.|Regression, Logistic||OR computed with Unison as the numerator and Solo as the denominator|Separate regression models were used within each group. Here, the results are reported for the Control group.||||0.036
92219861|NCT05248295|184339982|OTHER|Below, the results are reported for the effect of timing condition (Metrical vs. Conversational) for the control group.|Odds Ratio (OR)|3.36|STANDARD_ERROR_OF_MEAN|1.19|<|0.001|TWO_SIDED||||||Regression, Logistic||OR computed with Metrical as the numerator and Conversational as the denominator|||||<0.001
92219862|NCT05248295|184339982|OTHER|Below, the results are reported for the interaction effect between production condition and timing condition for the control group.|||||>|0.1|||||||Regression, Logistic|||||||>.1
92219863|NCT05248295|184339983|OTHER|Separate regression models were used within each group (People with aphasia and Controls) to independently assess the effects of Timing Condition. Production Condition is not included in the analysis since all timing data are from the unison production condition, by definition.|Slope|-0.14|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||Results are reported for people with aphasia (experimental group).|Regression, Linear|||People with aphasia were not directly compared to Controls since the Control group is a context-providing reference group rather than a true comparator. Instead, within-groups analyses were conducted to understand how the experimental variable affected timing alignment in each group.||||<0.001
92219864|NCT05248295|184339983|OTHER||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.0|<|0.001|TWO_SIDED|||||Results are reported for the Control group.|Regression, Linear|||People with aphasia were not directly compared to Controls since the Control group is a context-providing reference group and not a true comparator. Instead, within-groups analyses were conducted to understand how experimental variables affected timing alignment in each group.||||<0.001
92219865|NCT01133379|184339986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|4.75||0.811|TWO_SIDED|95.0|-10.5|8.24||Per statistical analysis plan, if experimental rinse (12027-019) was better than vehicle control at Week 6 (p\<0.05), testing for 12027-019 versus vehicle control proceeded to Week 4. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.24|-10.5|0.811
92219866|NCT01133379|184339986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.75|STANDARD_ERROR_OF_MEAN|4.75||0.105|TWO_SIDED|95.0|-17.1|1.63||Per statistical analysis plan, if experimental rinse (12027-020) was better than vehicle control at Week 6 (p\<0.05), testing for 12027-020 versus vehicle control proceeded to Week 4. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.63|-17.1|0.105
92219867|NCT01133379|184339987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|3.969||0.779|TWO_SIDED|95.0|-6.72|8.95||Per statistical analysis plan, if experimental rinse (12027-019) was better than vehicle control at Week 4 (p\<0.05), testing for 12027-019 versus vehicle control proceeded to Week 2. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.95|-6.72|0.779
92219868|NCT01133379|184339987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.92|STANDARD_ERROR_OF_MEAN|3.969||0.217|TWO_SIDED|95.0|-12.8|2.92||Per statistical analysis plan, if experimental rinse (12027-020) was better than vehicle control at Week 4 (p\<0.05), testing for 12027-020 versus vehicle control proceeded to Week 2. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.92|-12.8|0.217
92219869|NCT01133379|184339988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|2.613||0.904|TWO_SIDED|95.0|-4.84|5.47||Per statistical analysis plan, if experimental rinse (12027-019) was better than vehicle control at Week 2 (p\<0.05), testing for 12027-019 versus vehicle control proceeded to Week 1. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||5.47|-4.84|0.904
92219870|NCT01133379|184339988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.99|STANDARD_ERROR_OF_MEAN|2.613||0.129|TWO_SIDED|95.0|-9.15|1.17||Per statistical analysis plan, if experimental rinse (12027-020) was better than vehicle control at Week 2 (p\<0.05), testing for 12027-020 versus vehicle control proceeded to Week 1. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.17|-9.15|0.129
92219871|NCT01133379|184339989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|1.336||0.477|TWO_SIDED|95.0|-3.59|1.69||The significance threshold was 0.05. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.69|-3.59|0.477
92219872|NCT01133379|184339989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|1.336||0.472|TWO_SIDED|95.0|-3.6|1.67||The significance threshold was 0.05. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.67|-3.60|0.472
92219873|NCT01133379|184339990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|2.726||0.86|TWO_SIDED|95.0|-5.86|4.9||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.90|-5.86|0.860
92219874|NCT01133379|184339990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|2.723||0.763|TWO_SIDED|95.0|-6.2|4.55||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.55|-6.20|0.763
92219875|NCT01133379|184339991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|2.856||0.488|TWO_SIDED|95.0|-7.62|3.66||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||3.66|-7.62|0.488
92351221|NCT00699751|184606952|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=50% reduction in blood level|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=50% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351222|NCT00699751|184606952|SUPERIORITY_OR_OTHER||||||<|0.001||||||Confirmed Total ALP Response (\>=50%)|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Confirmed Total ALP Response (\>=50%), is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351223|NCT00699751|184606953|SUPERIORITY_OR_OTHER||||||<|0.001||||||Total ALP normalization|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Total ALP normalization, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351224|NCT00699751|184606954|SUPERIORITY_OR_OTHER||||||<|0.001||||||Percentage Change from Baseline|ANCOVA|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Percentage change from baseline, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351225|NCT00699751|184606955|SUPERIORITY_OR_OTHER||||||<|0.001||||||Maximum Percentage decrease from baseline to week 12|ANCOVA|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Maximum Percentage decrease from baseline to week 12, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92219876|NCT01133379|184339991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|2.854||0.311|TWO_SIDED|95.0|-8.54|2.73||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups||2.73|-8.54|0.311
92351226|NCT00699751|184606956|SUPERIORITY_OR_OTHER||||||<|0.001||||||Percentage change from baseline|ANCOVA|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Percentage change from baseline, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92275919|NCT01339910|184454338|SUPERIORITY|||||||0.39||||||Test performed at a significance level of 0.05|Chi-squared|3 degrees of freedom||The null hypothesis is that there is no difference in the proportions of participants with full chimerism, mixed chimerism, graft rejection, and death prior to assessment at 18 months post-transplant between AML/MDS participants receiving MAC and RIC conditioning regimens.||||0.39
92351227|NCT00699751|184606957|SUPERIORITY_OR_OTHER||||||<|0.001||||||Maximum Percentage decrease from baseline during the 24 week treatment|ANCOVA|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Maximum Percentage decrease from baseline during the 24 week treatment, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351228|NCT00699751|184606958|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.643|||<|1e-05|TWO_SIDED|95.0|0.539|0.768||Time to Prostate Specific Antigen (PSA) progression|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to PSA progression, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||0.768|0.539|<0.00001
92351229|NCT00699751|184606959|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=30% reduction in blood level|Cochran-Mantel-Haenszel|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=30% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351230|NCT00699751|184606959|SUPERIORITY_OR_OTHER|||||||0.106||||||\>=50% reduction in blood level|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=50% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.106
92351231|NCT00699751|184606959|SUPERIORITY_OR_OTHER|||||||0.032||||||Confirmed PSA Response(\>=50%)|Cochran-Mantel-Haenszel|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Confirmed PSA Response(\>=50%), is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.032
92219877|NCT01133379|184339992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|3.478||0.604|TWO_SIDED|95.0|-8.68|5.06||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||5.06|-8.68|0.604
92219878|NCT01133379|184339992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.91|STANDARD_ERROR_OF_MEAN|3.477||0.583|TWO_SIDED|95.0|-4.95|8.78||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.78|-4.95|0.583
92219879|NCT01133379|184339993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|3.61||0.847|TWO_SIDED|95.0|-7.83|6.43||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||6.43|-7.83|0.847
92219880|NCT01133379|184339993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|3.61||0.708|TWO_SIDED|95.0|-5.77|8.48||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.48|-5.77|0.708
92219881|NCT01133379|184339994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.46|STANDARD_ERROR_OF_MEAN|2.678||0.36|TWO_SIDED|95.0|-7.75|2.83||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.83|-7.75|0.360
92275920|NCT01339910|184454339|SUPERIORITY|||||||0.024||||||Test performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of grade II-IV acute GVHD during the first 100 days post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of grade II-IV acute GVHD was compared between treatment arms using Gray's test, treating death as a competing risk.||||0.024
92275921|NCT01339910|184454339|SUPERIORITY|||||||0.066||||||Test performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of grade III-IV acute GVHD during the first 100 days post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of grade III-IV acute GVHD was compared between treatment arms using Gray's test, treating death as a competing risk.||||0.066
92275922|NCT01339910|184454340|SUPERIORITY|||||||0.019||||||Test performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of chronic GVHD during the first 18 months post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of chronic GVHD was compared between treatment arms using Gray's test, treating death as a competing risk.||||0.019
92275923|NCT02322879|184454348|SUPERIORITY|||||||0.59|||||||Chi-squared|||||||0.59
92275924|NCT00810732|184454349|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.19||0.004|TWO_SIDED|95.0|-0.94|-0.19|||ANCOVA|||||-0.19|-0.94|0.0040
92275925|NCT00810732|184454349|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.19||0.0018|TWO_SIDED|95.0|-0.99|-0.24|||ANCOVA|||||-0.24|-0.99|0.0018
92275926|NCT00810732|184454349|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.19||0.7945|TWO_SIDED|95.0|-0.33|0.43|||ANCOVA|||||0.43|-0.33|0.7945
92275927|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.5|STANDARD_ERROR_OF_MEAN|1.3||0.0087|TWO_SIDED|95.0|-6.08|-0.91|||ANCOVA|||Mean Systemic Arterial BP: Week 3||-0.91|-6.08|0.0087
92275928|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.92|STANDARD_ERROR_OF_MEAN|1.3||0.1424|TWO_SIDED|95.0|-4.5|0.66|||ANCOVA|||Mean Systemic Arterial BP: Week 3||0.66|-4.50|0.1424
92275929|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.58|STANDARD_ERROR_OF_MEAN|1.29||0.2277|TWO_SIDED|95.0|-4.15|1.0|||ANCOVA|||Mean Systemic Arterial BP: Week 3||1.00|-4.15|0.2277
92275930|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.56|STANDARD_ERROR_OF_MEAN|1.81||0.1599|TWO_SIDED|95.0|-6.16|1.03|||ANCOVA|||Systolic Blood Pressure: Week 3||1.03|-6.16|0.1599
92275931|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.07|STANDARD_ERROR_OF_MEAN|1.8||0.5545|TWO_SIDED|95.0|-4.66|2.52|||ANCOVA|||Systolic Blood Pressure: Week 3||2.52|-4.66|0.5545
92275932|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.49|STANDARD_ERROR_OF_MEAN|1.8||0.4095|TWO_SIDED|95.0|-5.08|2.09|||ANCOVA|||Systolic Blood Pressure: Week 3||2.09|-5.08|0.4095
92275933|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.08|STANDARD_ERROR_OF_MEAN|1.21||0.0012|TWO_SIDED|95.0|-6.49|-1.67|||ANCOVA|||Diastolic Blood Pressure: Week 3||-1.67|-6.49|0.0012
92275934|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.98|STANDARD_ERROR_OF_MEAN|1.21||0.0159|TWO_SIDED|95.0|-5.38|-0.57|||ANCOVA|||Diastolic Blood Pressure: Week 3||-0.57|-5.38|0.0159
92275935|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.21||0.3627|TWO_SIDED|95.0|-3.51|1.3|||ANCOVA|||Diastolic Blood Pressure: Week 3||1.30|-3.51|0.3627
92275936|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.36|STANDARD_ERROR_OF_MEAN|1.16||0.0057|TWO_SIDED|95.0|-5.69|-1.03|||ANCOVA|||Mean Systemic Arterial BP: Week 6||-1.03|-5.69|0.0057
92275937|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|1.16||0.6503|TWO_SIDED|95.0|-2.86|1.8|||ANCOVA|||Mean Systemic Arterial BP: Week 6||1.80|-2.86|0.6503
92275938|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.83|STANDARD_ERROR_OF_MEAN|1.16||0.0183|TWO_SIDED|95.0|-5.16|-0.5|||ANCOVA|||Mean Systemic Arterial BP: Week 6||-0.50|-5.16|0.0183
92219882|NCT01133379|184339994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.88|STANDARD_ERROR_OF_MEAN|2.679||0.149|TWO_SIDED|95.0|-9.17|1.41||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.41|-9.17|0.149
92219883|NCT01133379|184339995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.61|STANDARD_ERROR_OF_MEAN|3.235||0.421|TWO_SIDED|95.0|-9.0|3.78||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||3.78|-9.00|0.421
92351232|NCT00699751|184606960|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=30% reduction in blood level|Cochran-Mantel-Haenszel|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=30% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351233|NCT00699751|184606960|SUPERIORITY_OR_OTHER|||||||0.002||||||\>=50% reduction in blood level|Cochran-Mantel-Haenszel|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=50% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.002
92351234|NCT00699751|184606960|SUPERIORITY_OR_OTHER|||||||0.005||||||Confirmed PSA Response(\>=50%)|Cochran-Mantel-Haenszel|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Confirmed PSA Response(\>=50%), is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.005
92351235|NCT00699751|184606961|SUPERIORITY_OR_OTHER|||||||0.16||||||Percentage change from baseline in PSA at Week 12|ANCOVA|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Percentage change from baseline in PSA at Week 12, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.160
92351236|NCT00699751|184606962|SUPERIORITY_OR_OTHER|||||||0.004||||||Maximum Percentage Decrease from Baseline up to Week 12|ANCOVA|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Maximum Percentage Decrease from Baseline up to Week 12, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.004
92351237|NCT00699751|184606963|SUPERIORITY_OR_OTHER|||||||0.009||||||Percentage change from baseline in PSA at EOT|ANCOVA|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Percentage change from baseline in PSA at EOT, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.009
92219884|NCT01133379|184339995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.66|STANDARD_ERROR_OF_MEAN|3.235||0.26|TWO_SIDED|95.0|-10.0|2.73||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.73|-10.0|0.260
92219885|NCT01133379|184339996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|3.601||0.989|TWO_SIDED|95.0|-7.16|7.06||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||7.06|-7.16|0.989
92351238|NCT00699751|184606964|SUPERIORITY_OR_OTHER||||||<|0.001||||||Maximum Percentage Decrease from Baseline in PSA response During the 24 Week Treatment Period|ANCOVA|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Maximum Percentage Decrease from Baseline in PSA response During the 24 Week Treatment Period, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
92351239|NCT00699751|184606965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.657||||0.00012|TWO_SIDED|95.0|0.529|0.814||Time to first Skeletal Related Event (SRE)|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of time to first SRE, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists||0.814|0.529|0.00012
92351240|NCT00699751|184606966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.639||||8e-05|TWO_SIDED|95.0|0.511|0.8||Time to External Beam Radiotherapy|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of time to EBRT, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists||0.8|0.511|0.00008
92400604|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.244||||0.0015|TWO_SIDED|95.0|0.474|2.013|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.013|0.474|0.0015
92219886|NCT01133379|184339996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|3.599||0.721|TWO_SIDED|95.0|-8.39|5.82||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||5.82|-8.39|0.721
92219887|NCT01133379|184339997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21|STANDARD_ERROR_OF_MEAN|3.69||0.743|TWO_SIDED|95.0|-8.5|6.07||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||6.07|-8.50|0.743
92351241|NCT00699751|184606967|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.344||||0.00191|TWO_SIDED|95.0|0.17|0.695||stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Receiving Radio-isotope, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists||0.695|0.17|0.00191
92351242|NCT00699751|184606968|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.847||||0.53277|TWO_SIDED|95.0|0.504|1.426||Time to Pathological Bone Fracture|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Pathological Bone Fracture, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists||1.426|0.504|0.53277
92351243|NCT00699751|184606969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.949||||0.89567|TWO_SIDED|95.0|0.435|2.07||Time to Surgical Intervention|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Surgical Intervention, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists||2.07|0.435|0.89567
92351244|NCT00699751|184606970|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.14486|TWO_SIDED|95.0|0.404|1.145||Time to Spinal Cord Compression|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Spinal Cord Compression, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||1.145|0.404|0.14486
92351245|NCT00699751|184606971|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.727||||0.00932|TWO_SIDED|95.0|0.571|0.925||Time to Other Cancer Treatment|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Other Cancer Treatment, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||0.925|0.571|0.00932
92351246|NCT00699751|184606972|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.00187|TWO_SIDED|95.0|0.546|0.873||Time to Marked Deterioration of ECOG PS|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Marked Deterioration of ECOG PS, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||0.873|0.546|0.00187
92351247|NCT00294398|184606992|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||t-test, 2 sided|||||||0.87
92351248|NCT04337021|184607012|SUPERIORITY|||||||0.513|||||||Chi-squared|||There were no statistical differences between the two treatment groups (chi-square=0.43, p=0.513)||||0.513
92351249|NCT04337021|184607013|SUPERIORITY|||||||0.184|||||||Mixed Models Analysis|||||||.184
92351250|NCT04337021|184607014|SUPERIORITY|||||||0.525|||||||Chi-squared|||||||0.525
92351251|NCT04337021|184607015|SUPERIORITY|||||||0.723|||||||Chi-squared|||||||0.723
92351252|NCT04337021|184607016|SUPERIORITY|||||||0.569|||||||Chi-squared|||||||0.569
92351253|NCT01181479|184607024|EQUIVALENCE|Comparison of AG200-15 and Lessina for cycles 1-6.||||||0.067|||||||Chi-squared|||||||0.067
92351254|NCT06875115|184607032|SUPERIORITY|The primary outcome (5-D Itch Scale score) will be analyzed by comparing the change from baseline to 4 weeks between the laser acupuncture group and the sham laser group. Continuous variables will be summarized as mean ± standard deviation. Between-group comparisons will be performed using independent t-tests or Mann-Whitney U tests, as appropriate. A two-sided p value \< 0.05 will be considered statistically significant.|||||<|0.05|||||||t-test, 1 sided|||Primary Outcome Analysis||||<0.05
92351255|NCT06922760|184607035|OTHER|Statistical Test of Hypothesis||||||0.411|||||||Regression, Linear|||||||0.411
92351256|NCT06922760|184607035|OTHER|Statistical Test of Hypothesis||||||0.161|||||||Regression, Linear|||||||0.161
92351257|NCT06922760|184607036|OTHER|Statistical Test of Hypothesis||||||0.007|||||||Regression, Linear|||||||0.007
92351258|NCT06922760|184607036|OTHER|Statistical Test of Hypothesis||||||0.5|||||||Regression, Linear|||||||0.5
92369445|NCT00851890|184643767|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.140
92275939|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.81|STANDARD_ERROR_OF_MEAN|1.53||0.0726|TWO_SIDED|95.0|-5.89|0.27|||ANCOVA|||Systolic Blood Pressure (SBP): Week 6||0.27|-5.89|0.0726
92351259|NCT02564978|184607042|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.39|TWO_SIDED|||||Result of statistical analyses were considered significant if the p-value from the one-sided test was \<0.025. No adjustments for multiplicity were made.|Mixed Models Analysis||The estimate was the difference in rates of change in mean of appropriately transformed GA area between the treatment phase and run-in phase.|Analysis: linear spline regression with fixed knot @ Month 9 on study eyes alone. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between treatment phase \& run-in phase \>= 0. Square root transformation used to satisfy the linear trend assumption. Missing values: treated as missing completely at random. Covariance structure of random effect that provided best model fit chosen (Spatial Power). One-sided Type I error rate: 2.5%.||||0.39
92351260|NCT02564978|184607043|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.48|TWO_SIDED|95.0|-0.06|0.03||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on study eyes alone. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.03|-0.06|0.48
92351261|NCT02564978|184607043|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.15|TWO_SIDED|95.0|-0.24|0.04||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on qualifying fellow eyes alone. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.04|-0.24|0.15
92351262|NCT02564978|184607043|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.15|TWO_SIDED|95.0|-0.09|0.01||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided||No. of units analyzed = no. of study eyes + no. qualifying fellow eyes (QFE). However, the value contributing to analysis is the avg. of study eye \& QFE from a participant if both values are available, otherwise equal to eye with data available.|Analysis: two-sided Student's paired t-test on study and qualifying fellow eyes (Study eye + QFE) together. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.01|-0.09|0.15
92351263|NCT02564978|184607044|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.61|TWO_SIDED|||||Result of statistical analyses were considered significant if the p-value from the one-sided test was \<0.025. No adjustments for multiplicity were made.|Mixed Models Analysis||The estimate was the difference in rates of change in mean of appropriately transformed GA area between the treatment phase and run-in phase.|Analysis: linear spline regression with fixed knot @ Month 9 on study eyes alone. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between treatment phase \& run-in phase \>= 0. Square root transformation used to satisfy the linear trend assumption. Missing values: treated as missing completely at random. Covariance structure of random effect that provided best model fit chosen (Spatial Power). One-sided Type I error rate: 2.5%.||||0.61
92351264|NCT02564978|184607044|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.08||0.43|TWO_SIDED|||||Result of statistical analyses were considered significant if the p-value from the one-sided test was \<0.025. No adjustments for multiplicity were made.|Mixed Models Analysis||The estimate was the difference in rates of change in mean of appropriately transformed GA area between the treatment phase and run-in phase.|Analysis: linear spline regression with fixed knot @ Month 9 on qualifying fellow eyes alone. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between treatment phase \& run-in phase \>= 0. Square root transformation used to satisfy the linear trend assumption. Missing values: treated as missing completely at random. Covariance structure of random effect that provided best model fit chosen (Spatial Power). One-sided Type I error rate: 2.5%.||||0.43
92351265|NCT02564978|184607044|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.89|TWO_SIDED|||||Result of statistical analyses were considered significant if the p-value from the one-sided test was \<0.025. No adjustments for multiplicity were made.|Mixed Models Analysis||Study eye + QFE: study \& qualifying fellow eyes analyzed as separate observations. Estimate: difference in rate of change in mean of appropriately transformed GA area between treatment and run-in phase.|Analysis: linear spline regression with fixed knot @ Month 9 on study and qualifying fellow eyes together. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between treatment phase \& run-in phase \>= 0. Square root transformation used to satisfy the linear trend assumption. Missing values: treated as missing completely at random. Covariance structure of random effect that provided best model fit chosen (Spatial Power). One-sided Type I error rate: 2.5%.||||0.89
92351266|NCT02564978|184607045|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.44|TWO_SIDED|95.0|-0.4|0.9||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on study eyes alone. Null hypothesis: difference in the mean rates of change in BCVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.9|-0.4|0.44
92219888|NCT01133379|184339997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|3.688||0.928|TWO_SIDED|95.0|-7.61|6.95||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||6.95|-7.61|0.928
92275940|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.07|STANDARD_ERROR_OF_MEAN|1.53||0.9661|TWO_SIDED|95.0|-3.01|3.14|||ANCOVA|||Systolic Blood Pressure (SBP): Week 6||3.14|-3.01|0.9661
92275941|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.88|STANDARD_ERROR_OF_MEAN|1.53||0.0656|TWO_SIDED|95.0|-5.94|0.19|||ANCOVA|||Systolic Blood Pressure (SBP): Week 6||0.19|-5.94|0.0656
92219889|NCT01133379|184339998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|2.369||0.683|TWO_SIDED|95.0|-3.71|5.65||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||5.65|-3.71|0.683
92219890|NCT01133379|184339998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|2.371||0.914|TWO_SIDED|95.0|-4.94|4.42||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.42|-4.94|0.914
92219891|NCT01133379|184339999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.19|STANDARD_ERROR_OF_MEAN|2.994||0.04|TWO_SIDED|95.0|-12.1|-0.27||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.27|-12.1|0.040
92219892|NCT01133379|184339999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|2.997||0.043|TWO_SIDED|95.0|-12.0|-0.18||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.18|-12.0|0.043
92219893|NCT01133379|184340000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.32|STANDARD_ERROR_OF_MEAN|3.522||0.511|TWO_SIDED|95.0|-9.27|4.64||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.64|-9.27|0.511
92219894|NCT01133379|184340000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.07|STANDARD_ERROR_OF_MEAN|3.526||0.25|TWO_SIDED|95.0|-11.0|2.89||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.89|-11.0|0.250
92219895|NCT01133379|184340001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.41|STANDARD_ERROR_OF_MEAN|3.684||0.233|TWO_SIDED|95.0|-11.7|2.86||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.86|-11.7|0.233
92219896|NCT01133379|184340001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.84|STANDARD_ERROR_OF_MEAN|3.687||0.115|TWO_SIDED|95.0|-13.1|1.44||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.44|-13.1|0.115
92219897|NCT00841204|184340005|OTHER|||||||0.0056|||||||Wilcoxon (Mann-Whitney)|||||||0.0056
92219898|NCT00841204|184340006|OTHER|||||||0.386|||||||Wilcoxon (Mann-Whitney)|||||||0.386
92219899|NCT00841204|184340007|OTHER||||||<|0.05|||||||Regression, Linear|||||||<0.05
92219900|NCT00841204|184340008|OTHER|||||||0.58|||||||Regression, Linear|||||||0.58
92219901|NCT00841204|184340009|OTHER|||||||0.12|||||||Regression, Linear|||||||0.12
92219902|NCT02726971|184340010|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92219903|NCT00597753|184340039|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 95% confidence interval for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.072|||TWO_SIDED|95.0|-0.3|-0.01|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study was determined based on a two group evaluation of non-inferiority using the t-distribution (one-sided significance level 0.025) with a non inferiority margin of -1.0 g/dL. A sample size of approximately 750 (peginesatide group of 500 and epoetin alfa group of 250) provided at least 99% power for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a standard deviation of 1.5 g/dL.||-0.01|-0.30|
92219904|NCT00597753|184340040|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.76|1.92|||Cochran-Mantel-Haenszel|||||1.92|0.76|
92219905|NCT00597753|184340041|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.79|0.97|||Cochran-Mantel-Haenszel|||||0.97|0.79|
92219906|NCT04649255|184340042|OTHER||Exact binomial|96.4|||<|0.025|TWO_SIDED|95.0|96.4|100.0|||One-sided exact binomial test|Exact binomial one-sided lower 97.5% CI for performance goal test \>72% for primary effectiveness and \>82% for primary safety.||Descriptive assessment; H0: Ps ≤ PGS, versus HA: PS \> PGS, where where Ps is the population primary safety success rate in the Test group and PGS is the safety performance goal of 82%.||100|96.4|<0.025
92219907|NCT04649255|184340043|OTHER||Exact binomial|89.1|||<|0.025|TWO_SIDED|95.0|89.1|97.5|||One-sided exact binomial test|Exact binomial one-sided lower 97.5% CI for performance goal test \>72% for primary effectiveness and \>82% for primary safety.||Descriptive assessment; H0: PE ≤ PGE, versus HA: PE \> PGE, where PE is the proportion of target lesions with clinical success and PGE is the effectiveness performance goal of 72%.||97.5|89.1|<0.025
92219908|NCT04342871|184340075|OTHER|Pre-post comparison from baseline to 2-weeks post-intervention||||||0.2|||||||t-test, 2 sided|||||||0.2
92219909|NCT01417195|184340121|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin for the lower limit of the 95% CI for the difference in fertilization rate was below -12%.|Mean Difference (Final Values)|3.6|||||TWO_SIDED|95.0|-4.3|11.5|||||"Mean difference = Menopur/Bravelle - Menopur.~95% CI is based on Student's t-distribution, assuming equal variances."|||11.5|-4.3|
92219910|NCT03357731|184340127|SUPERIORITY||Mean Difference (Net)|-2.15|STANDARD_ERROR_OF_MEAN|0.9242||0.027|TWO_SIDED|95.0|-4.0432|-0.257|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||-0.2570|-4.0432|0.027
92219911|NCT03357731|184340128|SUPERIORITY||Mean Difference (Net)|0.193|STANDARD_ERROR_OF_MEAN|0.9832||0.846|TWO_SIDED|95.0|-1.8176|2.2042|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||2.2042|-1.8176|0.846
92219912|NCT03357731|184340129|SUPERIORITY||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|0.93||0.177|TWO_SIDED|95.0|-0.62|3.19|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||3.19|-0.62|0.177
92219913|NCT03357731|184340129|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.48||0.839|TWO_SIDED|95.0|-1.08|0.88|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||0.88|-1.08|0.839
92219914|NCT03357731|184340130|SUPERIORITY||Mean Difference (Net)|-0.0977|STANDARD_ERROR_OF_MEAN|0.03308||0.007|TWO_SIDED|95.0|-0.16634|-0.02915|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||-0.02915|-0.16634|0.007
92219915|NCT03357731|184340130|SUPERIORITY||Mean Difference (Net)|-0.0371|STANDARD_ERROR_OF_MEAN|0.02194||0.103|TWO_SIDED|95.0|-0.08243|0.00814|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||0.00814|-0.08243|0.103
92219916|NCT03357731|184340131|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.037||0.003|TWO_SIDED|95.0|-0.205|-0.051|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|E/A ratio||-0.051|-0.205|0.003
92219917|NCT03357731|184340131|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.026||0.904|TWO_SIDED|95.0|-0.051|0.057|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|E/A ratio||0.057|-0.051|0.904
92219918|NCT03357731|184340131|SUPERIORITY||Mean Difference (Net)|-1.66|STANDARD_ERROR_OF_MEAN|0.527||0.006|TWO_SIDED|95.0|-2.763|-0.549|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|E/e' ratio||-0.549|-2.763|0.006
92351267|NCT02564978|184607045|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.21|TWO_SIDED|95.0|-0.8|0.2||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on qualifying fellow eyes alone. Null hypothesis: difference in the mean rates of change in BCVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.2|-0.8|0.21
92219919|NCT03357731|184340131|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.392||0.503|TWO_SIDED|95.0|-1.085|0.55|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|E/e' ratio||0.550|-1.085|0.503
92219920|NCT03357731|184340132|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.398||0.994|TWO_SIDED|95.0|-0.827|0.82|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|annular e' velocity||0.820|-0.827|0.994
92275942|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.16|STANDARD_ERROR_OF_MEAN|1.11||0.0068|TWO_SIDED|95.0|-5.39|-0.92|||ANCOVA|||Diastolic Blood Pressure (DBP): Week 6||-0.92|-5.39|0.0068
92405643|NCT02683577|184701453|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|3.32|||||TWO_SIDED|90.0|2.3|4.8|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of moderate HI group (Test) versus healthy control group (Reference) on AUC(0-inf) values for LP-778902.||4.80|2.30|
92219921|NCT03357731|184340132|SUPERIORITY||Mean Difference (Net)|0.48|STANDARD_ERROR_OF_MEAN|0.258||0.073|TWO_SIDED|95.0|-0.049|1.013|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|annular e' velocity||1.013|-0.049|0.073
92219922|NCT03357731|184340133|SUPERIORITY||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.4||0.705|TWO_SIDED|95.0|-0.67|0.976|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||0.976|-0.670|0.705
92219923|NCT03357731|184340133|SUPERIORITY||Mean Difference (Net)|-0.68|STANDARD_ERROR_OF_MEAN|0.404||0.105|TWO_SIDED|95.0|-1.504|0.151|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||0.151|-1.504|0.105
92219924|NCT02634151|184340144|SUPERIORITY||LS Mean Difference|-11.05||||0.0057|TWO_SIDED|95.0|-18.81|-3.29|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||A 2-sided test with a significance level of 0.05 was used for the comparison.||-3.29|-18.81|0.0057
92275943|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|1.11||0.376|TWO_SIDED|95.0|-3.22|1.24|||ANCOVA|||Diastolic Blood Pressure (DBP): Week 6||1.24|-3.22|0.3760
92219925|NCT02634151|184340145|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-11.8||||0.0648|TWO_SIDED|95.0|-24.35|0.75|||ANCOVA|Randomized treatment group and baseline diabetes status are included as factors, and the outcome at baseline is included as a covariate.||High-Intensity.||0.75|-24.35|0.0648
92219926|NCT02634151|184340145|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-10.64||||0.0398|TWO_SIDED|95.0|-20.77|-0.51|||ANCOVA|Randomized treatment group and baseline diabetes status are included as factors, and the outcome at baseline is included as a covariate.||Moderate Intensity.||-0.51|-20.77|0.0398
92351268|NCT02564978|184607045|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.52|TWO_SIDED|95.0|-0.4|0.8||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided||No. of units analyzed = no. of study eyes + no. qualifying fellow eyes (QFE). However, the value contributing to analysis is the avg. of study eye \& QFE from a participant if both values are available, otherwise equal to eye with data available.|Analysis: two-sided Student's paired t-test on study and qualifying fellow eyes together (Study eye + QFE). Null hypothesis: difference in the mean rates of change in BCVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.8|-0.4|0.52
92351269|NCT02564978|184607046|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.48|TWO_SIDED|95.0|-0.4|0.9||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on study eyes alone. Null hypothesis: difference in the mean rates of change in LLVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.9|-0.4|0.48
92351270|NCT02564978|184607046|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.09|TWO_SIDED|95.0|-0.9|0.1||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on qualifying fellow eyes alone. Null hypothesis: difference in the mean rates of change in LLVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.1|-0.9|0.09
92351271|NCT02564978|184607046|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.54|TWO_SIDED|95.0|-0.4|0.7||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided||No. of units analyzed = no. of study eyes + no. qualifying fellow eyes (QFE). However, the value contributing to analysis is the avg. of study eye \& QFE from a participant if both values are available, otherwise equal to eye with data available.|Analysis: two-sided Student's paired t-test on study and qualifying fellow eyes together (Study eye + QFE). Null hypothesis: difference in the mean rates of change in LLVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.7|-0.4|0.54
92351272|NCT02564978|184607047|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.2|TWO_SIDED|95.0|-0.4|1.8||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on study eyes alone. Null hypothesis: difference in the mean rate of change of central retinal thickness as measured on OCT between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||1.8|-0.4|0.20
92219927|NCT02634151|184340146|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-10.09||||0.0275|TWO_SIDED|95.0|-19.04|-1.14|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-1.14|-19.04|0.0275
92219928|NCT02634151|184340146|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-9.4||||0.0524|TWO_SIDED|95.0|-18.9|0.1|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4.||0.10|-18.90|0.0524
92369446|NCT00851890|184643768|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.008
92219929|NCT02634151|184340146|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.89||||0.8602|TWO_SIDED|95.0|-9.12|10.9|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||10.90|-9.12|0.8602
92219930|NCT02634151|184340146|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-12.63||||0.0115|TWO_SIDED|95.0|-22.37|-2.89|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-2.89|-22.37|0.0115
92275944|NCT00810732|184454350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.16|STANDARD_ERROR_OF_MEAN|1.11||0.0572|TWO_SIDED|95.0|-4.4|0.07|||ANCOVA|||Diastolic Blood Pressure (DBP): Week 6||0.07|-4.40|0.0572
92219931|NCT02634151|184340146|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-5.87||||0.1945|TWO_SIDED|95.0|-14.79|3.05|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Average of week 8 and 12||3.05|-14.79|0.1945
92219932|NCT02634151|184340147|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-5.88||||0.0991|TWO_SIDED|95.0|-12.89|1.13|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||1.13|-12.89|0.0991
92275945|NCT00810732|184454351|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.21||0.8823|TWO_SIDED|95.0|-0.39|0.45|||ANCOVA|||Week 3||0.45|-0.39|0.8823
92219933|NCT02634151|184340148|OTHER|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-7.58||||0.0101|TWO_SIDED|95.0|-13.32|-1.84|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-1.84|-13.32|0.0101
92219934|NCT02634151|184340148|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-9.56||||0.0037|TWO_SIDED|95.0|-15.94|-3.18|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-3.18|-15.94|0.0037
92219935|NCT02634151|184340148|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.94||||0.7839|TWO_SIDED|95.0|-7.72|5.84|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||5.84|-7.72|0.7839
92219936|NCT02634151|184340148|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-10.69||||0.0025|TWO_SIDED|95.0|-17.53|-3.84|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-3.84|-17.53|0.0025
92219937|NCT02634151|184340149|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-12.66||||0.0117|TWO_SIDED|95.0|-22.45|-2.88|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-2.88|-22.45|0.0117
92219938|NCT02634151|184340149|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-15.55||||0.0036|TWO_SIDED|95.0|-25.88|-5.21|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-5.21|-25.88|0.0036
92219939|NCT02634151|184340149|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.59||||0.9147|TWO_SIDED|95.0|-11.48|10.31||Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.|ANCOVA|||Week 8||10.31|-11.48|0.9147
92219940|NCT02634151|184340149|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-16.59||||0.0026|TWO_SIDED|95.0|-27.24|-5.93|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-5.93|-27.24|0.0026
92219941|NCT02634151|184340150|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.13||||0.0101|TWO_SIDED|95.0|-10.77|-1.5|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-1.50|-10.77|0.0101
92219942|NCT02634151|184340150|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-7.73||||0.0036|TWO_SIDED|95.0|-12.89|-2.58|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-2.58|-12.89|0.0036
92219943|NCT02634151|184340150|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.12||||0.9653|TWO_SIDED|95.0|-5.27|5.51|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||5.51|-5.27|0.9653
92219944|NCT02634151|184340150|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.89||||0.0101|TWO_SIDED|95.0|-12.1|-1.68|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-1.68|-12.10|0.0101
92219945|NCT02634151|184340151|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-12.74||||0.0173|TWO_SIDED|95.0|-23.19|-2.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-2.30|-23.19|0.0173
92219946|NCT02634151|184340151|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-16.29||||0.0038|TWO_SIDED|95.0|-27.17|-5.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-5.40|-27.17|0.0038
92219947|NCT02634151|184340151|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.58||||0.7846|TWO_SIDED|95.0|-9.85|13.01|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||13.01|-9.85|0.7846
92219948|NCT02634151|184340151|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-13.98||||0.0121|TWO_SIDED|95.0|-24.83|-3.13|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-3.13|-24.83|0.0121
92219949|NCT02634151|184340152|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-13.32||||0.0108|TWO_SIDED|95.0|-23.32|-3.12|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-3.12|-23.32|0.0108
92219950|NCT02634151|184340152|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-23.6|||<|0.0001|TWO_SIDED|95.0|-34.78|-12.42|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-12.42|-34.78|<0.0001
92219951|NCT02634151|184340152|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.71||||0.1376|TWO_SIDED|95.0|-15.6|2.18|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||2.18|-15.60|0.1376
92219952|NCT02634151|184340152|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-15.64||||0.0144|TWO_SIDED|95.0|-28.1|-3.18|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||-3.18|-28.10|0.0144
92219953|NCT02634151|184340153|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-19.53||||0.0113|TWO_SIDED|95.0|-34.55|-4.51|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-4.51|-34.55|0.0113
92351273|NCT02564978|184607047|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.02|TWO_SIDED|95.0|0.4|3.1||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on qualifying fellow eyes alone. Null hypothesis: difference in the mean rate of change of central retinal thickness as measured on OCT between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||3.1|0.4|0.02
92351274|NCT02564978|184607047|SUPERIORITY|Number of eyes contributing to this analysis exceeds the number of eyes contributing to the study eye only analysis since one participant had relevant data for the qualifying fellow eye but not the study eye.|Mean Difference (Final Values)|1.0||||0.06|TWO_SIDED|95.0|0.0|2.0||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided||No. of units analyzed = no. of study eyes + no. qualifying fellow eyes (QFE). However, the value contributing to analysis is the avg. of study eye \& QFE from a participant if both values are available, otherwise equal to eye with data available.|Analysis: two-sided Student's paired t-test on study and qualifying fellow eyes together (Study eye + QFE). Null hypothesis: difference in the mean rate of change of central retinal thickness as measured on OCT between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||2.0|0.0|0.06
92351275|NCT01501513|184607061|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92351276|NCT05675020|184607065|OTHER|The descriptive analysis yields frequencies and percentages for categorical variables. The statistical analysis was conducted using IBM SPSS V27.0. We analyzed the percentage of correct responses for knowledge survey questions from pre- and post-intervention survey responses.|||||||||||||||||Participant data was collected from the REDCap pre- and post-intervention questionnaires completed by the adolescents and parents/legal guardians that participated in the project. Data was collected from October to December 2022. The sample size was nine parent-adolescent dyads. Descriptive analysis was used to assess differences in sociodemographic variables, including age, gender, race, material status, employment status, salary, height, and weight. The descriptive analysis yields frequencies and percentages for categorical variables. The statistical analysis was conducted using IBM SPSS V27.0.|||
92219954|NCT02634151|184340153|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-33.64||||0.0002|TWO_SIDED|95.0|-50.58|-16.69|||ANCOVA|||Week 4||-16.69|-50.58|0.0002
92219955|NCT02634151|184340153|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-8.33||||0.1873|TWO_SIDED|95.0|-20.77|4.12|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||4.12|-20.77|0.1873
92219956|NCT02634151|184340153|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-29.58||||0.0172|TWO_SIDED|95.0|-53.8|-5.37|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-5.37|-53.80|0.0172
92219957|NCT02634151|184340154|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-11.52||||0.021|TWO_SIDED|95.0|-21.27|-1.77|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-1.77|-21.27|0.0210
92219958|NCT02634151|184340154|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-23.01|||<|0.0001|TWO_SIDED|95.0|-34.02|-12.01|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-12.01|-34.02|<0.0001
92219959|NCT02634151|184340154|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.43||||0.1483|TWO_SIDED|95.0|-15.19|2.33|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||2.33|-15.19|0.1483
92275946|NCT00810732|184454351|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.21||0.9457|TWO_SIDED|95.0|-0.41|0.43|||ANCOVA|||Week 3||0.43|-0.41|0.9457
92405644|NCT03219528|184701456|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|||Baseline||||0.78
92405645|NCT03219528|184701456|SUPERIORITY|||||||0.88|||||||Mixed Models Analysis|||Week 5||||0.88
92219960|NCT02634151|184340154|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-11.63||||0.0214|TWO_SIDED|95.0|-21.5|-1.76|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-1.76|-21.50|0.0214
92219961|NCT02634151|184340155|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-2.95||||0.0308|TWO_SIDED|95.0|-5.62|-0.28|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-0.28|-5.62|0.0308
92219962|NCT02634151|184340155|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.3||||0.0002|TWO_SIDED|95.0|-9.56|-3.04|||ANCOVA|A 2-sided test with a significance level of 0.05 was used for the comparison.||Week 4||-3.04|-9.56|0.0002
92219963|NCT02634151|184340155|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-1.58||||0.2056|TWO_SIDED|95.0|-4.03|0.88|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||0.88|-4.03|0.2056
92275947|NCT00810732|184454351|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.21||0.9358|TWO_SIDED|95.0|-0.4|0.44|||ANCOVA|||Week 3||0.44|-0.40|0.9358
92275948|NCT00810732|184454351|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.19||0.0022|TWO_SIDED|95.0|-1.03|-0.25|||ANCOVA|||Week 6||-0.25|-1.03|0.0022
92219964|NCT02634151|184340155|SUPERIORITY||LS Mean Difference|-4.0||||0.0103|TWO_SIDED|95.0|-7.04|-0.96|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-0.96|-7.04|0.0103
92219965|NCT02634151|184340156|SUPERIORITY||LS Mean Difference|-2.13||||0.3193|TWO_SIDED|95.0|-6.36|2.09|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||2.09|-6.36|0.3193
92351277|NCT01952678|184607110|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.3|20.7|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.7|-17.3|1.0000
92351278|NCT01952678|184607110|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|-7.0||||0.4608|TWO_SIDED|95.0|-25.8|12.1|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||12.1|-25.8|0.4608
92351279|NCT01952678|184607110|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.3|20.7|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.7|-17.3|1.0000
92351280|NCT01952678|184607110|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.3|20.7|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.7|-17.3|1.0000
92351281|NCT01952678|184607111|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.5|20.9|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.9|-17.5|1.0000
92351282|NCT01952678|184607111|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|-7.1||||0.4599|TWO_SIDED|95.0|-26.1|12.2|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||12.2|-26.1|0.4599
92351283|NCT01952678|184607111|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.5|20.9|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.9|-17.5|1.0000
92351284|NCT01952678|184607111|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.5|20.9|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.9|-17.5|1.0000
92351285|NCT01952678|184607112|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-22.0|22.0|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||22.0|-22.0|1.0000
92351286|NCT01952678|184607112|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.4||||1|TWO_SIDED|95.0|-20.8|20.8|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.8|-20.8|1.0000
92351287|NCT01952678|184607112|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|-2.0||||1|TWO_SIDED|95.0|-23.0|18.5|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||18.5|-23.0|1.0000
92351288|NCT01952678|184607112|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.3||||1|TWO_SIDED|95.0|-20.8|20.8|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.8|-20.8|1.0000
92219966|NCT02634151|184340156|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-2.4||||0.2932|TWO_SIDED|95.0|-6.91|2.11|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||2.11|-6.91|0.2932
92351289|NCT01952678|184607113|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-22.8|22.8|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||22.8|-22.8|1.0000
92351290|NCT01952678|184607113|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|5.2||||0.5187|TWO_SIDED|95.0|-16.7|26.2|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||26.2|-16.7|0.5187
92351291|NCT01952678|184607113|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.2||||1|TWO_SIDED|95.0|-21.5|21.5|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||21.5|-21.5|1.0000
92219967|NCT02634151|184340156|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.98||||0.4383|TWO_SIDED|95.0|-3.06|7.02|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||7.02|-3.06|0.4383
92219968|NCT02634151|184340156|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|2.78||||0.2814|TWO_SIDED|95.0|-2.31|7.86|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||7.86|-2.31|0.2814
92275949|NCT00810732|184454351|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.19||0.8956|TWO_SIDED|95.0|-0.41|0.36|||ANCOVA|||Week 6||0.36|-0.41|0.8956
92351292|NCT01952678|184607113|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|2.7||||0.7123|TWO_SIDED|95.0|-19.1|23.9|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||23.9|-19.1|0.7123
92351293|NCT01952678|184607114|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.0||||1|TWO_SIDED|95.0|-13.3|15.3|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||15.3|-13.3|1.0000
92351294|NCT01952678|184607114|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|-3.8||||0.5731|TWO_SIDED|95.0|-17.7|9.8|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||9.8|-17.7|0.5731
92219969|NCT02634151|184340157|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.92||||0.4278|TWO_SIDED|95.0|-3.23|1.38|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||1.38|-3.23|0.4278
92219970|NCT02634151|184340157|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-1.13||||0.3529|TWO_SIDED|95.0|-3.53|1.27|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||1.27|-3.53|0.3529
92161021|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|20.93|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001|TWO_SIDED|95.0|12.61|29.25||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N3 sleep/SWS: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||29.25|12.61|<0.0001
92219971|NCT02634151|184340157|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.24||||0.3522|TWO_SIDED|95.0|-1.39|3.86|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||3.86|-1.39|0.3522
92219972|NCT02634151|184340157|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.6||||0.2635|TWO_SIDED|95.0|-1.22|4.42|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||4.42|-1.22|0.2635
92219973|NCT02634151|184340158|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|2.23||||0.0464|TWO_SIDED|95.0|1.01|4.93|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||4.93|1.01|0.0464
92351295|NCT01952678|184607114|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.1||||1|TWO_SIDED|95.0|-13.8|13.8|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||13.8|-13.8|1.0000
92219974|NCT02634151|184340158|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|1.3||||0.5278|TWO_SIDED|95.0|0.58|2.92|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||2.92|0.58|0.5278
92219975|NCT02634151|184340158|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|2.36||||0.0359|TWO_SIDED|95.0|1.06|5.27|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||5.27|1.06|0.0359
92219976|NCT02634151|184340159|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|2.5||||0.0268|TWO_SIDED|95.0|1.11|5.61|||Regression, Logistic|||Week 4||5.61|1.11|0.0268
92351296|NCT01952678|184607114|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.1||||0.834|TWO_SIDED|95.0|-12.8|14.7|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||14.7|-12.8|0.8340
92351297|NCT01952678|184607115|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.0||||1|TWO_SIDED|95.0|-13.5|15.6|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||15.6|-13.5|1.0000
92405646|NCT03219528|184701465|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||Baseline||||0.77
92405647|NCT03219528|184701465|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis|||Week 5||||0.58
92219977|NCT02634151|184340159|SUPERIORITY||Odds Ratio (OR)|1.55||||0.2755|TWO_SIDED|95.0|0.7|3.41|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||3.41|0.70|0.2755
92219978|NCT02634151|184340159|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|4.74||||0.0003|TWO_SIDED|95.0|2.05|10.94|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||10.94|2.05|0.0003
92219979|NCT02634151|184340160|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|3.26||||0.0079|TWO_SIDED|95.0|1.36|7.8|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||7.80|1.36|0.0079
92219980|NCT02634151|184340160|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|1.44||||0.4002|TWO_SIDED|95.0|0.62|3.35|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||3.35|0.62|0.4002
92275950|NCT00810732|184454351|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.19||0.003|TWO_SIDED|95.0|-1.0|-0.23|||ANCOVA|||Week 6||-0.23|-1.00|0.0030
92219981|NCT02634151|184340160|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|3.09||||0.0142|TWO_SIDED|95.0|1.25|7.59|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||7.59|1.25|0.0142
92219982|NCT02634151|184340161|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|3.7||||0.0115|TWO_SIDED|95.0|1.34|10.2|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||10.20|1.34|0.0115
92219983|NCT02634151|184340161|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|1.15||||0.7566|TWO_SIDED|95.0|0.48|2.75|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||2.75|0.48|0.7566
92219984|NCT02634151|184340161|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|2.96||||0.0298|TWO_SIDED|95.0|1.11|7.88|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||7.88|1.11|0.0298
92219985|NCT02634151|184340162|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-10.4||||0.0029|TWO_SIDED|95.0|-17.2|-3.7|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-3.7|-17.2|0.0029
92219986|NCT02634151|184340162|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-4.3||||0.1666|TWO_SIDED|95.0|-10.4|1.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||1.8|-10.4|0.1666
92219987|NCT02634151|184340162|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-11.5||||0.001|TWO_SIDED|95.0|-18.2|-4.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-4.8|-18.2|0.0010
92219988|NCT02634151|184340163|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-10.7||||0.0018|TWO_SIDED|95.0|-17.3|-4.1|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-4.1|-17.3|0.0018
92219989|NCT02634151|184340163|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-3.8||||0.2437|TWO_SIDED|95.0|-10.1|2.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||2.6|-10.1|0.2437
92219990|NCT02634151|184340163|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-11.6||||0.0012|TWO_SIDED|95.0|-18.5|-4.7|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-4.7|-18.5|0.0012
92219991|NCT02634151|184340164|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.7||||0.6832|TWO_SIDED|95.0|-4.2|2.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||2.8|-4.2|0.6832
92219992|NCT02634151|184340164|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.8||||0.674|TWO_SIDED|95.0|-2.9|4.5|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||4.5|-2.9|0.6740
92351298|NCT01952678|184607115|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|-1.9||||0.8429|TWO_SIDED|95.0|-16.1|12.0|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||12.0|-16.1|0.8429
92351299|NCT01952678|184607115|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.1||||0.8214|TWO_SIDED|95.0|-13.0|15.0|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||15.0|-13.0|0.8214
92219993|NCT02634151|184340164|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.9||||0.3379|TWO_SIDED|95.0|-2.0|5.7|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||5.7|-2.0|0.3379
92219994|NCT02634151|184340165|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.7||||0.7753|TWO_SIDED|95.0|-5.9|4.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||4.4|-5.9|0.7753
92219995|NCT02634151|184340165|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.7||||0.5472|TWO_SIDED|95.0|-3.9|7.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||7.4|-3.9|0.5472
92219996|NCT02634151|184340165|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|3.6||||0.2406|TWO_SIDED|95.0|-2.4|9.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||9.6|-2.4|0.2406
92219997|NCT02634151|184340166|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.2||||0.9028|TWO_SIDED|95.0|-3.3|3.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||3.8|-3.3|0.9028
92219998|NCT02634151|184340166|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|5.2||||0.0199|TWO_SIDED|95.0|0.8|9.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||9.6|0.8|0.0199
92219999|NCT02634151|184340166|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|4.6||||0.0369|TWO_SIDED|95.0|0.3|8.9|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||8.9|0.3|0.0369
92220000|NCT02634151|184340167|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.1||||0.911|TWO_SIDED|95.0|-1.2|1.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||1.4|-1.2|0.9110
92351300|NCT01952678|184607115|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|2.2||||0.6577|TWO_SIDED|95.0|-12.0|16.1|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||16.1|-12.0|0.6577
92351301|NCT00422461|184607142|SUPERIORITY||Least square (LS) mean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.6||0.0822|TWO_SIDED|95.0|-5.97|0.36|||Nonlinear dose response regression model|||||0.36|-5.97|0.0822
92351302|NCT00422461|184607142|SUPERIORITY||LS mean difference|-4.66|STANDARD_ERROR_OF_MEAN|1.92||0.017|TWO_SIDED|95.0|-8.47|-0.85|||Nonlinear dose response regression model|||||-0.85|-8.47|0.0170
92351303|NCT00422461|184607142|SUPERIORITY||LS mean difference|-6.97|STANDARD_ERROR_OF_MEAN|2.26||0.0026|TWO_SIDED|95.0|-11.45|-2.48|||Nonlinear dose response regression model|||||-2.48|-11.45|0.0026
92351304|NCT00422461|184607143|SUPERIORITY||LS mean difference|-2.7|STANDARD_ERROR_OF_MEAN|1.2||0.0264|TWO_SIDED|95.0|-5.09|-0.32|||Nonlinear dose response regression model|||||-0.32|-5.09|0.0264
92351305|NCT00422461|184607143|SUPERIORITY||LS mean difference|-4.56|STANDARD_ERROR_OF_MEAN|1.41||0.0016|TWO_SIDED|95.0|-7.35|-1.77|||Nonlinear dose response regression model|||||-1.77|-7.35|0.0016
92351306|NCT00422461|184607143|SUPERIORITY||LS mean difference|-6.96|STANDARD_ERROR_OF_MEAN|1.55|<|0.0001|TWO_SIDED|95.0|-10.03|-3.89|||Nonlinear dose response regression model|||||-3.89|-10.03|<0.0001
92351307|NCT00422461|184607144|SUPERIORITY||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|1.98||0.9479|TWO_SIDED|95.0|-3.79|4.05|||ANCOVA|||For SBP||4.05|-3.79|0.9479
92351308|NCT00422461|184607144|SUPERIORITY||LS mean difference|-4.75|STANDARD_ERROR_OF_MEAN|2.03||0.0215|TWO_SIDED|95.0|-8.78|-0.72|||ANCOVA|||For SBP||-0.72|-8.78|0.0215
92351309|NCT00422461|184607144|SUPERIORITY||LS mean difference|-3.43|STANDARD_ERROR_OF_MEAN|2.0||0.0886|TWO_SIDED|95.0|-7.39|0.53|||ANCOVA|||For SBP||0.53|-7.39|0.0886
92351310|NCT00422461|184607144|SUPERIORITY||LS mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.44||0.3173|TWO_SIDED|95.0|-4.3|1.41|||ANCOVA|||For DBP||1.41|-4.30|0.3173
92351311|NCT00422461|184607144|SUPERIORITY||LS mean difference|-3.81|STANDARD_ERROR_OF_MEAN|1.42||0.0087|TWO_SIDED|95.0|-6.64|-0.99|||ANCOVA|||For DBP||-0.99|-6.64|0.0087
92351312|NCT00422461|184607144|SUPERIORITY||LS mean difference|-3.95|STANDARD_ERROR_OF_MEAN|1.41||0.0062|TWO_SIDED|95.0|-6.76|-1.15|||ANCOVA|||For DBP||-1.15|-6.76|0.0062
92351313|NCT00422461|184607146|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|2.48||0.8091|TWO_SIDED|95.0|-5.51|4.31|||ANCOVA|||For cuff SBP||4.31|-5.51|0.8091
92351314|NCT00422461|184607146|SUPERIORITY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|2.44||0.8809|TWO_SIDED|95.0|-5.21|4.48|||ANCOVA|||For cuff SBP||4.48|-5.21|0.8809
92351315|NCT00422461|184607146|SUPERIORITY||LS mean difference|-5.16|STANDARD_ERROR_OF_MEAN|2.46||0.0382|TWO_SIDED|95.0|-10.04|-0.29|||ANCOVA|||For cuff SBP||-0.29|-10.04|0.0382
92351316|NCT00422461|184607146|SUPERIORITY||LS mean difference|-3.03|STANDARD_ERROR_OF_MEAN|1.67||0.0731|TWO_SIDED|95.0|-6.35|0.29|||ANCOVA|||For cuff DBP||0.29|-6.35|0.0731
92220001|NCT02634151|184340167|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.9||||0.0243|TWO_SIDED|95.0|0.3|3.5|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||3.5|0.3|0.0243
92351317|NCT00422461|184607146|SUPERIORITY||LS mean difference|-4.49|STANDARD_ERROR_OF_MEAN|1.65||0.0077|TWO_SIDED|95.0|-7.77|-1.22|||ANCOVA|||For cuff DBP||-1.22|-7.77|0.0077
92351318|NCT00422461|184607146|SUPERIORITY||LS mean difference|-4.29|STANDARD_ERROR_OF_MEAN|1.66||0.0111|TWO_SIDED|95.0|-7.58|-1.0|||ANCOVA|||For cuff DBP||-1.00|-7.58|0.0111
92351319|NCT00422461|184607148|SUPERIORITY||LS mean difference|-1.94|STANDARD_ERROR_OF_MEAN|1.7||0.2567|TWO_SIDED|95.0|-5.32|1.44|||ANCOVA|||||1.44|-5.32|0.2567
92351320|NCT00422461|184607148|SUPERIORITY||LS mean difference|-2.94|STANDARD_ERROR_OF_MEAN|1.69||0.086|TWO_SIDED|95.0|-6.29|0.42|||ANCOVA|||||0.42|-6.29|0.0860
92351321|NCT00422461|184607148|SUPERIORITY||LS mean difference|-4.46|STANDARD_ERROR_OF_MEAN|1.71||0.0103|TWO_SIDED|95.0|-7.85|-1.08|||ANCOVA|||||-1.08|-7.85|0.0103
92351322|NCT00908388|184607177|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||(1-Posterior probability of meeting performance goal given the data)|Bayesian adaptive|||||||.006
92351323|NCT01454063|184607207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.577|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001||95.0|0.475|0.678||p-value based on the generalized Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata.|Cochran-Mantel-Haenszel|CMH-weighted mean difference (OMS - Placebo) adjusted for randomization strata.||||0.678|0.475|<0.0001
92220002|NCT02634151|184340167|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.7||||0.0388|TWO_SIDED|95.0|0.1|3.2|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||3.2|0.1|0.0388
92275951|NCT00124020|184454352|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 20% was specified based on historical regulatory precedent.|Risk Difference (RD)|0.2||||||95.0|-6.8|7.2||p-values were not calculated in deference to confidence intervals.||||||7.2|-6.8|
92351324|NCT01454063|184607208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.199|STANDARD_ERROR_OF_MEAN|1.076|<|0.0001||95.0|-7.307|-3.091||p-value based on the generalized CMH test stratified by randomization strata.|Cochran-Mantel-Haenszel|CMH-weighted mean difference (OMS302-placebo) adjusted for randomization strata.||||-3.091|-7.307|<0.0001
92351325|NCT01454063|184607209|SUPERIORITY_OR_OTHER|||||||0.0514||||||Treatment comparisons based on CMH test adjusting for randomization strata.|Cochran-Mantel-Haenszel|||||||0.0514
92351326|NCT01454063|184607210|SUPERIORITY_OR_OTHER|||||||0.0034||||||Treatment comparisons based on CMH test adjusting for the randomization strata.|Cochran-Mantel-Haenszel|||||||0.0034
92351327|NCT01454063|184607211|SUPERIORITY_OR_OTHER|||||||0.0963||||||Treatment comparisons based on Wilcoxon rank-sum test stratified by randomization strata. For subjects without a score due to inability to read the ETDRS chart, the log score will be imputed as 1.6 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.0963
92351328|NCT01454063|184607212|SUPERIORITY_OR_OTHER|||||||0.0532||||||Treatment comparisons are based on generalized CMH test stratified by randomization strata.|Cochran-Mantel-Haenszel|||||||0.0532
92351329|NCT01454063|184607213|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Generalized CMH test stratified by randomization strata.|Cochran-Mantel-Haenszel|||||||<0.0001
92351330|NCT01286324|184607325|SUPERIORITY|||||||0.21||||||Adjusted p-value based on a general linear model adjusted for group and the baseline of the measure|t-test, 2 sided|||||||0.21
92351331|NCT01286324|184607326|SUPERIORITY|||||||0.6||||||Adjusted p-value based on a general linear model adjusted for group and the baseline of the measure|t-test, 2 sided|||||||0.60
92351332|NCT01286324|184607327|SUPERIORITY|||||||0.47||||||Adjusted p-value based on a general linear model adjusted for group and the baseline of the measure|t-test, 2 sided|||Statistical Analysis for State Subscale||||0.47
92351333|NCT01286324|184607327|SUPERIORITY|||||||0.45||||||Adjusted p-value based on a general linear model adjusted for group and the baseline of the measure|t-test, 2 sided|||P-value for Trait Subscale||||0.45
92351334|NCT01286324|184607328|SUPERIORITY|||||||0.11||||||P value is adjusted based on a general linear model adjusted for group and the baseline of the measure|t-test, 2 sided|||||||0.11
92220003|NCT02634151|184340168|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|7.0||||0.2799|TWO_SIDED|95.0|-5.7|19.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||19.6|-5.7|0.2799
92351335|NCT03055195|184607334|OTHER||Proportions Difference|11.0|||||TWO_SIDED|90.0|-1.1|23.3|||||Difference in Proportions between Mepolizumab 100 mg SC versus Placebo SC has been presented.|||23.3|-1.1|
92351336|NCT03055195|184607336|OTHER||Proportion Difference|-1.0|||||TWO_SIDED|90.0|-14.0|12.6|||||Difference in Proportions between Mepolizumab 100 mg SC Versus Placebo SC at Week 4 has been presented.|||12.6|-14.0|
92220004|NCT02634151|184340168|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|26.8||||0.0018|TWO_SIDED|95.0|10.2|43.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||43.3|10.2|0.0018
92351337|NCT03055195|184607336|OTHER||Proportion Difference|11.0|||||TWO_SIDED|90.0|-1.1|23.3|||||Difference in Proportions between Mepolizumab 100 mg SC Versus Placebo SC at Week 8 has been presented.|||23.3|-1.1|
92351338|NCT03055195|184607336|OTHER||Proportion Difference|11.0|||||TWO_SIDED|90.0|-1.1|23.3|||||Difference in Proportions between Mepolizumab 100 mg SC Versus Placebo SC at Week 12 has been presented.|||23.3|-1.1|
92275952|NCT00752791|184454363|SUPERIORITY_OR_OTHER||Mean change from Baseline|0.1|||||TWO_SIDED|95.0|-0.24|0.44|||||A two-sided 95% CI of the estimated mean change from Baseline in hemoglobin was derived from the t-distribution.|||0.44|-0.24|
92351339|NCT03055195|184607336|OTHER||Proportion Difference|11.0|||||TWO_SIDED|90.0|-1.1|23.3|||||Difference in Proportions between Mepolizumab 100 mg SC Versus Placebo SC at Week 16 has been presented.|||23.3|-1.1|
92351340|NCT03055195|184607336|OTHER||Proportion Difference|6.0|||||TWO_SIDED|90.0|-3.3|14.4|||||Difference in Proportions between Mepolizumab 100 mg SC Versus Placebo SC at Week 20 has been presented.|||14.4|-3.3|
92351341|NCT00896233|184607469|SUPERIORITY_OR_OTHER||ICC|0.9|||||TWO_SIDED|90.0|0.81|0.99||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Common ROI.||0.99|0.81|
92351342|NCT00896233|184607469|SUPERIORITY_OR_OTHER||ICC|0.85|||||TWO_SIDED|90.0|0.71|0.98||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Common ROI.||0.98|0.71|
92351343|NCT00896233|184607469|SUPERIORITY_OR_OTHER||ICC|0.88|||||TWO_SIDED|90.0|0.78|0.98||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Individual ROI.||0.98|0.78|
92351344|NCT00896233|184607469|SUPERIORITY_OR_OTHER||ICC|0.86|||||TWO_SIDED|90.0|0.75|0.98||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Individual ROI.||0.98|0.75|
92351345|NCT00896233|184607470|SUPERIORITY_OR_OTHER||ICC|0.9|||||TWO_SIDED|90.0|0.8|0.99||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Common ROI.||0.99|0.80|
92351346|NCT00896233|184607470|SUPERIORITY_OR_OTHER||ICC|0.88|||||TWO_SIDED|90.0|0.78|0.99||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Common ROI.||0.99|0.78|
92351347|NCT00896233|184607470|SUPERIORITY_OR_OTHER||ICC|0.93|||||TWO_SIDED|90.0|0.87|1.0||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Individual ROI.||1.00|0.87|
92220005|NCT02634151|184340168|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|20.1||||0.0197|TWO_SIDED|95.0|3.3|36.9|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||36.9|3.3|0.0197
92220006|NCT02634151|184340169|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.6||||0.0179|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||1.0|0.1|0.0179
92220007|NCT02634151|184340169|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.1||||0.0003|TWO_SIDED|95.0|0.5|1.7|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||1.7|0.5|0.0003
92220008|NCT02634151|184340169|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.8||||0.0095|TWO_SIDED|95.0|0.2|1.5|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||1.5|0.2|0.0095
92220009|NCT02634151|184340170|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-12.2||||0.0057|TWO_SIDED|95.0|-20.8|-3.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-3.6|-20.8|0.0057
92220010|NCT02634151|184340170|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.2||||0.9665|TWO_SIDED|95.0|-8.3|8.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||8.6|-8.3|0.9665
92220011|NCT02634151|184340170|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.2||||0.2358|TWO_SIDED|95.0|-16.4|4.1|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||4.1|-16.4|0.2358
92220012|NCT02634151|184340171|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-1.3||||0.0048|TWO_SIDED|95.0|-2.3|-0.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-0.4|-2.3|0.0048
92220013|NCT02634151|184340171|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.1||||0.9064|TWO_SIDED|95.0|-0.9|0.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||0.8|-0.9|0.9064
92220014|NCT02634151|184340171|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.6||||0.2505|TWO_SIDED|95.0|-1.7|0.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||0.4|-1.7|0.2505
92351348|NCT00896233|184607470|SUPERIORITY_OR_OTHER||ICC|0.94|||||TWO_SIDED|90.0|0.88|1.0||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Individual ROI.||1.00|0.88|
92220015|NCT02634151|184340172|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-15.8|||<|0.0001|TWO_SIDED|95.0|-22.6|-9.0|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-9.0|-22.6|<0.0001
92220016|NCT02634151|184340172|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-7.2||||0.0406|TWO_SIDED|95.0|-14.0|-0.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||-0.3|-14.0|0.0406
92351349|NCT03767894|184607488|OTHER|Descriptive analysis (paired sample t-test)|Mean Difference (Final Values)|1.36||||0.24|TWO_SIDED|||||a priori threshold: p\<0.05 p-value is adjusted for multiple comparisons using Bonferroni correction.|t-test, 2 sided|Adjustment for p-value is 2.||Baseline scores compared to Post Unassisted condition (ARAT performed unassisted/without the use of the MyHand device).||||0.24
92351350|NCT03767894|184607488|OTHER|Descriptive analysis (paired sample t-test)|Mean Difference (Final Values)|-1.72||||0.207|TWO_SIDED|||||a priori threshold: p\<0.05 p-value is adjusted for multiple comparisons using Bonferroni correction.|t-test, 2 sided|Adjustment for p-value is 2.||Post Unassisted condition (ARAT performed unassisted/without the use of the MyHand device) compared to Post Assisted condition (ARAT performed assisted with the use of the MyHand device).||||0.207
92220017|NCT02634151|184340172|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-15.3|||<|0.0001|TWO_SIDED|95.0|-22.8|-7.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-7.8|-22.8|<0.0001
92220018|NCT02634151|184340173|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-0.3|-0.9|<0.0001
92220019|NCT02634151|184340173|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.3||||0.0771|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||0.0|-0.6|0.0771
92220020|NCT02634151|184340173|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.6||||0.0006|TWO_SIDED|95.0|-1.0|-0.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-0.3|-1.0|0.0006
92220021|NCT02634151|184340174|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|8.6||||0.121|TWO_SIDED|95.0|-2.3|19.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||19.6|-2.3|0.1210
92220022|NCT02634151|184340174|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|8.0||||0.0948|TWO_SIDED|95.0|-1.4|17.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||17.3|-1.4|0.0948
92220023|NCT02634151|184340174|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|4.1||||0.5113|TWO_SIDED|95.0|-8.2|16.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||16.4|-8.2|0.5113
92220024|NCT02634151|184340175|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.7||||0.7276|TWO_SIDED|95.0|-7.8|11.1|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||11.1|-7.8|0.7276
92220025|NCT02634151|184340175|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|4.7||||0.2218|TWO_SIDED|95.0|-2.9|12.2|||ANCOVA|||Week 8||12.2|-2.9|0.2218
92220026|NCT02634151|184340175|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.3||||0.942|TWO_SIDED|95.0|-9.2|9.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||9.8|-9.2|0.9420
92220027|NCT02634151|184340176|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|32.57||||0.6786|TWO_SIDED|95.0|-122.98|188.12|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||188.12|-122.98|0.6786
92220028|NCT02634151|184340177|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.84||||0.1648|TWO_SIDED|95.0|-2.03|0.35|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||0.35|-2.03|0.1648
92220029|NCT02634151|184340178|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|41.5||||0.4701|TWO_SIDED|95.0|-72.1|155.1|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||155.1|-72.1|0.4701
92220030|NCT02634151|184340179|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-32.4||||0.0517|TWO_SIDED|95.0|-65.1|0.2|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||0.2|-65.1|0.0517
92220031|NCT02634151|184340180|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-9.5||||0.9111|TWO_SIDED|95.0|-177.8|158.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||158.8|-177.8|0.9111
92220032|NCT02634151|184340181|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-3.0||||0.3864|TWO_SIDED|95.0|-10.0|3.9|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||3.9|-10.0|0.3864
92220033|NCT02634151|184340182|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|12.2||||0.0145|TWO_SIDED|95.0|2.5|22.0|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||22.0|2.5|0.0145
92351351|NCT03767894|184607489|OTHER|Descriptive analysis (paired sample t-test)|Mean Difference (Final Values)|2.64||||0.026|TWO_SIDED|||||a priori threshold: p\<0.05|Paired sample T-test|2-tailed||Baseline scores compared to Post Unassisted condition (UEMF performed unassisted/without the use of the MyHand device).||||0.026
92220034|NCT02634151|184340183|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.8||||0.051|TWO_SIDED|95.0|0.0|1.5|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||1.5|-0.0|0.0510
92220035|NCT02347098|184340199|SUPERIORITY|||||||0.2533|||||||t-test, 2 sided|||||||0.2533
92220036|NCT02347098|184340200|SUPERIORITY|||||||0.779|||||||t-test, 2 sided|||||||0.7790
92220037|NCT02347098|184340201|SUPERIORITY|||||||0.4549||||||The p-value reported compares the trends of outcome across time (baseline pre-PCI, baseline post-PCI, 30-day follow-up, and 90-day follow-up) between treatment groups using the repeated measurement analysis.|Mixed Models Analysis|||||||0.4549
92220038|NCT02347098|184340202|SUPERIORITY|||||||0.2663|||||||Fisher Exact|||||||0.2663
92220039|NCT04673292|184340206|EQUIVALENCE|The fixed site SOC testing study arm was the standard of care and reference group. The null hypothesis was that there is not a statistically significant difference in the proportion of participants who complete PCR COVID-19 testing within 30 days of randomization when comparing community-based testing to the fixed site SOC testing.|Prevalence Ratio|1.04||||0.67|TWO_SIDED|95.0|0.86|1.27|||Poisson Regression|Adjusted poisson regression was performed using Study Arm as a nominal variable in the model with the Fixed Site SOC Testing as the reference group.|||Models were adjusted for employment.|1.27|0.86|0.67
92220040|NCT04673292|184340206|EQUIVALENCE|The fixed site SOC testing study arm was the standard of care and reference group. The null hypothesis was that there is not a statistically significant difference in the proportion of participants who complete PCR COVID-19 testing within 30 days of randomization when comparing self-collected testing to the fixed site SOC testing.|Prevalence Ratio|1.08||||0.43|TWO_SIDED|95.0|0.89|1.31|||Poisson Regression|Adjusted poisson regression was performed using Study Arm as a nominal variable in the model with the Fixed Site SOC Testing as the reference group.|||Models were adjusted for employment.|1.31|0.89|0.43
92220041|NCT04673292|184340207|EQUIVALENCE|Testing for equivalence in the difference in time from randomization to completion of SARS-CoV-2 PCR testing when comparing the community-based testing to fixed site SOC testing. Alpha threshold of 0.05.|Time Ratio|0.87||||0.14|TWO_SIDED|95.0|0.73|1.05||aprior significance threshold: p-value\<0.05|Accelerated Failure Time|Study Arm included as a nominal (dummy) variable in accelerated failure time models. Models adjusted for employment.||Times were censored at 30 days.|Models adjusted for employment|1.05|0.73|0.14
92351352|NCT03767894|184607491|OTHER|Descriptive analysis (paired Wilcoxon)|Mean Difference (Final Values)|-1.09||||0.442|TWO_SIDED|||||a priori threshold: p\<0.05 p-value is adjusted for multiple comparisons using Bonferroni correction.|Wilcoxon (Mann-Whitney)|Adjustment for p-value is 2.||Baseline scores compared to Post Unassisted condition (BBT performed unassisted/without the use of the MyHand device) of the impaired (hemiparetic) hand.||||0.442
92161022|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|32.1|STANDARD_ERROR_OF_MEAN|4.18|<|0.0001|TWO_SIDED|95.0|23.83|40.36||This analysis was step 4 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||Stage N3 sleep/SWS: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||40.36|23.83|<0.0001
92161023|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-11.17|STANDARD_ERROR_OF_MEAN|4.14||0.008|TWO_SIDED|95.0|-19.37|-2.97||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N3 sleep/SWS: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-2.97|-19.37|0.0080
92275953|NCT01127581|184454370|SUPERIORITY_OR_OTHER||Median Difference (Net)|-677.0|||<|0.001|TWO_SIDED|95.0|||||Log Rank||Sample size 675 per group provides 90% power to see an improvement of ≥320 minutes (20% improvement from DVI) in time to vaginal delivery between MVI 200 \& DVI assuming a median time of 1600 minutes for DVI \& 34% dropout rate based on 5% 2-sided test|Subjects who underwent a cesarean delivery during the first hospitalization were censored using the longest time interval from study drug administration to cesarean delivery during the first hospitalization, independent of treatment group. Subjects who, in their first hospitalization, were discharged prior to delivery or withdrew consent prior to delivery were censored using the longest time interval from study drug administration to labor and delivery discharge, independent of treatment group.||||<0.001
92275954|NCT01127581|184454371|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 675 subjects per group will provide a sufficient number of subjects to assess non-inferiority of MVI 200 with respect to rate of cesarean delivery, based on an alpha level of 5% and 80% power for a two-sided approach using a 10% non-inferiority limit (relative to the DVI rate), assuming a 30% rate of cesarean delivery in the DVI group compared to a 26% rate in the MVI 200 group.|Difference in Populations|-1.1|||||TWO_SIDED|95.0|-5.79|3.59|||Chi-squared||MVI 200 - DVI|The analysis of the cesarean delivery rates during the first hospitalization was based on a between-treatment-group difference. If the upper limit of the asymptotic two-sided 95% confidence interval of the difference in event rates (MVI minus DVI) was less than the calculated non-inferiority margin (10% relative to the DVI rate, i.e., 0.1 times DVI rate), then MVI 200 would be considered non-inferior to DVI.||3.59|-5.79|
92275955|NCT01127581|184454372|SUPERIORITY_OR_OTHER||Median Difference (Net)|-543.0|||<|0.001|TWO_SIDED|95.0|||||Log Rank||MVI 200 - DVI|Subjects who did not deliver during the first hospitalization were censored using the longest time interval from study drug administration to labor and delivery discharge without delivery, independent of treatment group.||||<0.001
92275956|NCT01127581|184454373|SUPERIORITY_OR_OTHER||Median Difference (Net)|-390.0|||<|0.001|TWO_SIDED|95.0|||||Log Rank||MVI 200 - DVI|Subjects who never went into active labor during the first hospitalization were censored using the longest time interval from study drug administration to delivery during the first hospitalization, independent of treatment group. Subjects who, in their first hospitalization, were discharged prior to delivery or withdrew consent prior to delivery were censored using the longest time interval from study drug administration to labor and delivery discharge, independent of treatment group.||||<0.001
92275957|NCT01127581|184454374|SUPERIORITY_OR_OTHER||Difference in Proportions|-26.0|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
92275958|NCT01127581|184454375|SUPERIORITY_OR_OTHER||Difference in Proportions|9.67|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
92275959|NCT01127581|184454376|SUPERIORITY_OR_OTHER||Difference in Proportions|26.96|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
92275960|NCT01127581|184454377|SUPERIORITY_OR_OTHER||Difference in Proportions|13.9|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
92275961|NCT01127581|184454378|SUPERIORITY_OR_OTHER||Difference in Proportions|29.8|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
92275962|NCT01127581|184454379|SUPERIORITY_OR_OTHER||Difference in Proportions|1.68|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
92275963|NCT05117099|184454384|SUPERIORITY|||||||0.548|||||||ANOVA|||||||.548
92275964|NCT05117099|184454386|SUPERIORITY|||||||0.915|||||||ANOVA|||||||.915
92275965|NCT05117099|184454387|SUPERIORITY|||||||0.663|||||||ANOVA|||||||.663
92275966|NCT05117099|184454388|SUPERIORITY|||||||0.138|||||||ANOVA|||||||.138
92275967|NCT05117099|184454389|SUPERIORITY|||||||0.114|||||||ANOVA|||||||.114
92275968|NCT05117099|184454390|SUPERIORITY|||||||0.065|||||||ANOVA|||||||.065
92275969|NCT05117099|184454391|SUPERIORITY|||||||0.394|||||||ANOVA|||||||.394
92275970|NCT05117099|184454392|SUPERIORITY|||||||0.388|||||||ANOVA|||||||.388
92168774|NCT04970654|184227098|NON_INFERIORITY|Non-inferiority was considered confirmed if the lower bound of the 95% confidence interval was higher than the margin of -2.0 cm/year.|Treatment difference|0.6|||||TWO_SIDED|95.0|-0.2|1.3||||||Hypothetical strategy estimand. Height velocity at 52 weeks was analyzed using a mixed model for repeated measurements, with treatment, gender, age group, growth hormone (GH) peak group and gender by age group interaction term as factors and baseline height as a covariate, all nested within week as a factor.||1.3|-0.2|
92275971|NCT05117099|184454393|SUPERIORITY|||||||0.332|||||||ANOVA|||||||.332
92275972|NCT05085613|184454407|SUPERIORITY||Mean Difference (Final Values)|0.6279928|STANDARD_ERROR_OF_MEAN|4.150369||0.998|TWO_SIDED|95.0|-9.463627|10.71961||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF=6|Economic recovery condition - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||10.71961|-9.463627|0.998
92275973|NCT05085613|184454407|SUPERIORITY||Mean Difference (Final Values)|4.044194|STANDARD_ERROR_OF_MEAN|4.302202||0.725|TWO_SIDED|95.0|-6.416608|14.505||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Freedom - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||14.505|-6.416608|0.725
92161024|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.97|STANDARD_ERROR_OF_MEAN|2.85||0.0834|TWO_SIDED|95.0|-10.61|0.67||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage R sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.67|-10.61|0.0834
92351353|NCT03767894|184607491|OTHER|Descriptive analysis (paired Wilcoxon)|Mean Difference (Final Values)|-1.0||||1|TWO_SIDED|||||a priori threshold: p\<0.05 p-value is adjusted for multiple comparisons using Bonferroni correction.|Wilcoxon (Mann-Whitney)|Adjustment for p-value is 2.||Post Unassisted condition (BBT performed unassisted/without the use of the MyHand device) compared to Post Assisted condition (BBT performed assisted with the use of the MyHand device).||||1.0
92351354|NCT00387127|184607494|SUPERIORITY_OR_OTHER||Difference in percentage of par. with CR|10.7||||0.3658|TWO_SIDED|95.0|-13.4|37.3||From exact test that common odds ratio equals 1|Fisher Exact||Complete response was defined as the percentage of participants achieving a CR as determined by an independent radiological review.|||37.3|-13.4|0.3658
92351355|NCT00387127|184607495|SUPERIORITY_OR_OTHER||Difference in percentage of par. with CR|28.8||||0.013|TWO_SIDED|95.0|5.7|53.6||From exact test that common odds ratio equals 1|Fisher Exact||Complete response was defined as the percentage of participants achieving a CR as determined by the investigator.|||53.6|5.7|0.0130
92351356|NCT00387127|184607504|SUPERIORITY_OR_OTHER||Difference in overall response rate|16.3||||0.1969|TWO_SIDED|95.0|-8.6|42.1||From exact test that common odds ratio equals 1|Fisher Exact||Overall response was defined as the percentage of participants achieving a PR or CR as determined by the investigator.|||42.1|-8.6|0.1969
92351357|NCT03296345|184607513|OTHER||Mean Difference (Final Values)|-15.0||||0.004|TWO_SIDED|95.0|-28.0|-2.3|||Wilcoxon (Mann-Whitney)|||||-2.3|-28|0.004
92351358|NCT03296345|184607514|OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
92351359|NCT03296345|184607515|OTHER|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||0.58
92351360|NCT03296345|184607517|OTHER|A Wilcoxon sign-rank, given non parametric data, was used to compare the intervention and historical control groups for statistical significance, while a student's t-test was used to estimate effect size||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
92351361|NCT06038643|184607563|OTHER||||||<|0.001||||||Adjusted for multiple comparisons using False Discovery Rate.|Wilcoxon (Mann-Whitney)|||||||<0.001
92351362|NCT06038643|184607566|SUPERIORITY||||||<|0.01|||||||ANCOVA|||We conducted one-way analyses of covariance (ANCOVAs) to assess the effect of group (intervention vs. control) on post-intervention secondary outcomes, including cognition (Test My Brain Digital Neuropsychology Toolkit). Covariates in all models included age, sex, years of education, APOE4 status, and baseline scores.||||<0.01
92351363|NCT03837938|184607613|NON_INFERIORITY|According to the protocol and SAP non-inferiority margin was defined as 20%.|Difference in rates Levopront®-Libexin®|5.81|||||ONE_SIDED|97.5|-7.17|||||||Difference in daytime resolved rates Levopront® (Test) vs Libexin® (Control) was reported|||-7.17|
92351364|NCT03837938|184607614|NON_INFERIORITY|According to the protocol and SAP non-inferiority margin was defined as 20%|difference in rates Levopront®-Libexin®|5.43|||||ONE_SIDED|97.5|-7.31|||||||Difference in daytime resolved rates Levopront® (Test) vs Libexin® (Control) was reported|||-7.31|
92351365|NCT03837938|184607615|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||>|0.999|||||||Fisher Exact|||||||>0.999
92351366|NCT03837938|184607616|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||=|0.861|||||||Fisher Exact|||||||=0.861
92168775|NCT02528188|184227106|SUPERIORITY||Risk Difference (RD)|2.39||||0.0123|TWO_SIDED|95.0|0.58|4.68|||Exact methods for risk difference|||||4.68|0.58|0.0123
92168776|NCT02528188|184227106|SUPERIORITY||Risk Difference (RD)|5.61|||<|0.0001|TWO_SIDED|95.0|3.55|8.14|||Exact methods for risk difference|||||8.14|3.55|<0.0001
92168777|NCT02528188|184227107|SUPERIORITY||Rate Difference|23.5||||0.0012|TWO_SIDED|95.0|9.3|37.7|||Poisson model for rate difference|||||37.7|9.3|0.0012
92168778|NCT02528188|184227107|SUPERIORITY||Rate Difference|56.7|||<|0.0001|TWO_SIDED|95.0|38.4|74.9|||Poisson model for rate difference|||||74.9|38.4|<0.0001
92351367|NCT03837938|184607617|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||Daytime at Visit 2, Day 4||||<0.001
92351368|NCT03837938|184607617|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 2 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||Daytime at Visit 3, Day 8||||<0.001
92351369|NCT03837938|184607617|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||Nightime at Visit 2, Day 4||||<0.001
92351370|NCT03837938|184607617|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||Nighttime at Visit 3, Day 8||||<0.001
92351371|NCT03837938|184607618|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||Visit 2, Day 4||||<0.001
92351372|NCT03837938|184607618|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||at Visit 3, Day 8||||<0.001
92351373|NCT03837938|184607619|NON_INFERIORITY|non-inferiority margin is defined as 20%|||||=|0.336|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||||||=0.336
92220042|NCT04673292|184340207|EQUIVALENCE|Testing for equivalence in the difference in time from randomization to completion of SARS-CoV-2 PCR testing when comparing the self-collected testing arm to the fixed site SOC testing Alpha threshold of 0.05.|Time Ratio|0.86||||0.09|TWO_SIDED|95.0|0.71|1.03||aprior significance threshold: p-value\<0.05|Accelerated Failure Time|Study Arm included as a nominal (dummy) variable in accelerated failure time models. Models adjusted for employment.||Times were censored at 30 days.|Models adjusted for employment|1.03|0.71|0.09
92220043|NCT04673292|184340208|EQUIVALENCE|Null hypothesis: There is no significant difference in time from completion of SARS-CoV-2 test to receipt of SARS-CoV-2 test results when comparing the community-based testing to fixed site SOC testing.|Time Ratio|0.96||||0.56|TWO_SIDED|95.0|0.83|1.1||aprior threshold for significance: p\<0.05|Accelerated Failure Time|Study arm included as a nominal (dummy) variable in accelerated failure time models. Models adjusted for employment.||Times were censored at 10 days.|Models adjusted for employment|1.10|0.83|0.56
92220044|NCT04673292|184340208|EQUIVALENCE|Null hypothesis: There is no significant difference in time from completion of SARS-CoV-2 test to receipt of SARS-CoV-2 test results when comparing the self-collected testing arm to the fixed site SOC testing.|Time Ratio|0.93||||0.32|TWO_SIDED|95.0|0.81|1.07||aprior significance threshold: p-value\<0.05|Accelerated Failure Time|Study Arm included as a nominal (dummy) variable in accelerated failure time models. Models adjusted for employment.||Times were censored at 10 days.|Models adjusted for employment|1.07|0.81|0.32
92220045|NCT02535715|184340213|SUPERIORITY|ANOVA Bonferroni adjustment|||||<|0.05|||||||ANOVA|||||||<0.05
92220046|NCT04353284|184340214|SUPERIORITY||Mean Difference (Net)|0.74||||0.06|TWO_SIDED|95.0|-0.03|1.51|||Mixed Models Analysis|||This analysis compares the change from baseline between treatment arms.||1.51|-0.03|0.06
92220047|NCT04353284|184340215|SUPERIORITY||Mean Difference (Net)|0.06||||0.87|TWO_SIDED|95.0|-0.7|0.83|||Mixed Models Analysis|||||0.83|-0.70|0.87
92220048|NCT04353284|184340216|SUPERIORITY||Mean Difference (Net)|0.23||||0.69|TWO_SIDED|95.0|-0.94|1.4|||Mixed Models Analysis|||||1.4|-0.94|0.69
92220049|NCT04353284|184340217|SUPERIORITY||Odds Ratio (OR)|1.3||||0.71|TWO_SIDED|95.0|0.33|5.09|||GEE|||Nasopharyngeal Swab Samples analyzed.||5.09|0.33|0.71
92351374|NCT00223821|184607622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.2|STANDARD_ERROR_OF_MEAN|7.65||0.16|TWO_SIDED|95.0|-5.13|25.54|||ANCOVA|ANCOVA, with baseline frequency of incontinent episodes as the covariate, was used to compare the treatment groups.||The effectiveness of each intervention was calculated by comparing the weekly frequency of incontinent episodes (derived from seven-day bladder diaries) during baseline to that in the immediate post-intervention period (week 8). The primary analysis was based on intent-to-treat, in which post-treatment frequency of incontinence for non-completers was derived from the most recent week of diaries.||25.54|-5.13|.16
92220050|NCT04353284|184340217|SUPERIORITY||Odds Ratio (OR)|0.4||||0.17|TWO_SIDED|95.0|0.11|1.47|||GEE|Within subject correlation is controlled by specifying a compound symmetry R-side structure in the model.||Saliva RT-PCR samples analyzed.||1.47|0.11|0.17
92220051|NCT04353284|184340218|SUPERIORITY||Odds Ratio (OR)|3.05||||0.03|TWO_SIDED|95.0|1.12|8.26|||GEE|Within subject correlation is controlled by specifying a compound symmetry R-side structure in the model.||||8.26|1.12|0.03
92351375|NCT00223821|184607623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|8.71||0.37|TWO_SIDED|95.0|-10.73|24.33|||ANCOVA|ANCOVA, with baseline frequency of incontinent episodes as the covariate, was used to compare the treatment groups.||||24.33|-10.73|.37
92220052|NCT04353284|184340218|SUPERIORITY||Odds Ratio (OR)|1.23||||0.68|TWO_SIDED|95.0|0.47|3.23|||GEE|Within subject correlation is controlled by specifying a compound symmetry R-side structure in the model.||Saliva RT-PCR samples analyzed.||3.23|0.47|0.68
92220053|NCT04353284|184340219|SUPERIORITY||Odds Ratio (OR)|6.28||||0.1|TWO_SIDED|95.0|0.7|56.6|||GEE|Within subject correlation is controlled by specifying a compound symmetry R-side structure in the model.||||56.60|0.70|0.10
92220054|NCT04353284|184340219|SUPERIORITY||Odds Ratio (OR)|0.9||||0.87|TWO_SIDED|95.0|0.25|3.23|||GEE|Within subject correlation is controlled by specifying a compound symmetry R-side structure in the model.||Saliva RT-PCR samples analyzed.||3.23|0.25|0.87
92220055|NCT04353284|184340220|SUPERIORITY||Mean Difference (Net)|-6.6||||0.02|TWO_SIDED|95.0|-12.1|-1.2|||Mixed Models Analysis|||||-1.2|-12.1|0.02
92220056|NCT04353284|184340221|SUPERIORITY||Mean Difference (Net)|-2.1||||0.48|TWO_SIDED|95.0|-7.9|3.7|||Mixed Models Analysis|||||3.7|-7.9|0.48
92220057|NCT04353284|184340222|SUPERIORITY||Mean Difference (Net)|1.0||||0.16|TWO_SIDED|95.0|-0.4|2.3|||Mixed Models Analysis|||||2.3|-0.4|0.16
92220058|NCT04353284|184340223|SUPERIORITY||Mean Difference (Net)|0.7||||0.34|TWO_SIDED|95.0|-0.7|2.1|||Mixed Models Analysis|||||2.1|-0.7|0.34
92220059|NCT01040351|184340237|NON_INFERIORITY_OR_EQUIVALENCE|. The aggregate result of 6 studies reporting the pregnancy rate of patients with ultrasound visible hydrosalpinx revealed that clinical pregnancy rate among the patients with ultrasound-visible hydrosalpinges was 12.6%. We assumed that the aspiration of hydrosalpinx could restore clinical pregnancy rate to that expected for patients with tubal factor of infertility but without hydrosalpinges (about 36.5% in our hospital)|Odds Ratio (OR)|3.02||||0.023|TWO_SIDED|95.0|1.13|8.0|||Chi-squared|||||8.0|1.13|0.023
92220060|NCT01438489|184340247|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.014|TWO_SIDED|90.0|1.33|4.26|||Regression, Logistic|||All-comers||4.26|1.33|0.014
92220061|NCT01438489|184340247|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.94||||0.063|TWO_SIDED|90.0|1.08|3.49|||Regression, Logistic|||All-comers||3.49|1.08|0.063
92220062|NCT01438489|184340248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.55||||0.004|TWO_SIDED|90.0|1.72|7.32|||Regression, Logistic|||High||7.32|1.72|0.004
92220063|NCT01438489|184340248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.65||||0.029|TWO_SIDED|90.0|1.27|5.53|||Regression, Logistic|||High||5.53|1.27|0.029
92220064|NCT00940589|184340264|SUPERIORITY_OR_OTHER||||||<|0.045|TWO_SIDED||||||ANCOVA|||||||<0.045
92220065|NCT00940589|184340265|SUPERIORITY_OR_OTHER||||||<|0.044|TWO_SIDED||||||ANCOVA|||||||<0.044
92351376|NCT01734928|184607735|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.001|TWO_SIDED|95.0|0.49|0.77|||Based on Cox proportional hazards model|||||0.77|0.49|0.001
92351377|NCT01734928|184607736|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.571|TWO_SIDED|95.0|0.77|1.15|||Log Rank|The p-value is based on a stratified log-rank test with stratification factors as above Cox model.|Based on Cox proportional hazards model, comparing the hazard functions associated with treatment groups, stratified by age, prior number of anti-myeloma regimens, and beta-2 macroglobulin at Screening.|||1.15|0.77|0.571
92351378|NCT01734928|184607738|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.064|TWO_SIDED|95.0|0.56|1.02|||Unstratified log-rank test|The p-value is based on an unstratified log-rank test.|Based on Cox proportional hazards model comparing the hazard functions associated with treatment groups|||1.02|0.56|0.064
92351379|NCT02370394|184607763|SUPERIORITY||Mean Difference (Final Values)|-4.14||||0.4016|TWO_SIDED|95.0|-14.02|5.75|||t-test, 2 sided|Unequal variances handled by Satterthwaite's degrees of freedom||CAS Victimization Total Score at Follow Up||5.75|-14.02|0.4016
92351380|NCT02370394|184607763|SUPERIORITY||Mean Difference (Net)|14.46||||0.0072|TWO_SIDED|95.0|4.11|24.82|||t-test, 2 sided|||Change in CAS Victimization Total score from Baseline to Follow Up||24.82|4.11|0.0072
92351381|NCT02370394|184607764|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.6011|TWO_SIDED|95.0|-0.21|0.12|||t-test, 2 sided|||Safety Behavior Change Score at Follow Up||0.12|-0.21|0.6011
92351382|NCT02370394|184607764|SUPERIORITY||Mean Difference (Net)|-0.01||||0.9116|TWO_SIDED|95.0|-0.16|0.15|||t-test, 2 sided|||Change is Safety Behavior Change Score from Baseline to Follow Up||0.15|-0.16|0.9116
92351383|NCT02370394|184607765|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.8646|TWO_SIDED|95.0|-1.62|1.36|||t-test, 2 sided|Unequal variances handled by Satterthwaite's degrees of freedom||EOR Number of issues Effective at Accomplishing at Follow Up||1.36|-1.62|0.8646
92351384|NCT02370394|184607765|SUPERIORITY||Mean Difference (Net)|-0.86||||0.3045|TWO_SIDED|95.0|-2.54|0.82|||t-test, 2 sided|||Change in Number of Issues Effective at Accomplishing from Baseline to Follow Up||0.82|-2.54|0.3045
92351385|NCT02370394|184607766|SUPERIORITY|||||||0.9085|||||||Wilcoxon (Mann-Whitney)|||Motivation Scale at Follow Up||||0.9085
92351386|NCT02370394|184607766|SUPERIORITY|||||||0.3256|||||||Wilcoxon (Mann-Whitney)|||Change in Motivation Scale from Baseline to Follow Up||||0.3256
92275974|NCT05085613|184454407|SUPERIORITY||Mean Difference (Final Values)|-1.53656|STANDARD_ERROR_OF_MEAN|-1.53656||0.98|TWO_SIDED|95.0|-12.25295|9.179834||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Humor - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||9.179834|-12.25295|0.980
92351387|NCT02370394|184607767|SUPERIORITY|||||||0.4085|||||||Wilcoxon (Mann-Whitney)|||Readiness at Follow Up||||0.4085
92351388|NCT02370394|184607767|SUPERIORITY|||||||0.2467|||||||Wilcoxon (Mann-Whitney)|||Change in Readiness from Baseline to Follow Up||||0.2467
92351389|NCT01524705|184607834|SUPERIORITY||Wilcoxon||||<|0.024||||||Wilcoxon rank sum test was used due to nonnormality distribution|Wilcoxon (Mann-Whitney)|||Two-tailed t test with type I error = 0.05, a sample of 110 participants (55 per group) would give 90% power to detect a difference of a mean change from baseline of 5 CV units (SD = 8) between control and treatment groups. An ANCOVA model, adjusting for baseline value and clinical site, was to be performed. If residual values from the ANCOVA indicated nonnormality in distribution by Shapiro-Wilk testing, a Wilcoxon rank sum test was used instead.||||<0.024
92351390|NCT01524705|184607836|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92351391|NCT01524705|184607837|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
92351392|NCT00412451|184607841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.001||||0.131|TWO_SIDED|95.0|0.001|999.999|||Fisher Exact|||||999.999|0.001|0.131
92351393|NCT00412451|184607841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.562||||0.67|TWO_SIDED|95.0|0.132|2.4|||Fisher Exact|||||2.400|0.132|0.670
92351394|NCT00412451|184607841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.346||||0.372||95.0|0.07|1.703|||Fisher Exact|||||1.703|0.070|0.372
92351395|NCT04676646|184607917|SUPERIORITY||Odds Ratio (OR)|4.45|||<|0.001|TWO_SIDED|95.0|2.89|6.86|||GEE model||An odds ratio greater than 1 indicated increased odds of response on SZC compared to placebo.|||6.86|2.89|<0.001
92351396|NCT04676646|184607918|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.001|TWO_SIDED|95.0|2.78|7.55|||GEE model||An odds ratio \>1 indicated increased odds of response on SZC compared to placebo.|||7.55|2.78|<0.001
92351397|NCT04676646|184607919|SUPERIORITY||Odds Ratio (OR)|4.33|||<|0.001|TWO_SIDED|95.0|2.5|7.52|||GEE model||An odds ratio greater than 1 indicated increased odds of response on SZC compared to placebo.|||7.52|2.50|<0.001
92351398|NCT04676646|184607920|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.001||95.0|0.37|0.71|||Regression, Cox||A hazard ratio less than 1 favors SZC to be associated with a longer time to first hyperkalaemia episode than placebo.|||0.71|0.37|<0.001
92351399|NCT04676646|184607921|SUPERIORITY||Hazard Ratio (HR)|0.37||||0.006|TWO_SIDED|95.0|0.17|0.73|||Regression, Cox||A hazard ratio less than 1 favored SZC to be associated with a longer time to first instance of a decrease of spironolactone dose due to hyperkalaemia than placebo.|||0.73|0.17|0.006
92351400|NCT04676646|184607922|SUPERIORITY||Least-squares Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|2.84||0.724|TWO_SIDED|95.0|-6.64|4.63|||t-test, 2 sided||A least-squares mean difference greater than 0 favors SZC compared to placebo.|||4.63|-6.64|0.724
92351401|NCT05156125|184607924|SUPERIORITY||Risk Difference (RD)|16.1||||0.0184|TWO_SIDED|95.0|2.58|29.05|||Cochran-Mantel-Haenszel|||At 13 weeks||29.05|2.58|0.0184
92351402|NCT05156125|184607924|SUPERIORITY||Risk Difference (RD)|13.1||||0.041|TWO_SIDED|95.0|-0.03|25.58|||Cochran-Mantel-Haenszel|||At 13 weeks||25.58|-0.03|0.0410
92351403|NCT05156125|184607925|SUPERIORITY||Risk Difference (RD)|20.6||||0.007|TWO_SIDED|95.0|5.73|34.42|||Cochran-Mantel-Haenszel|||At 13 weeks||34.42|5.73|0.0070
92351404|NCT05156125|184607925|SUPERIORITY||Risk Difference (RD)|17.3||||0.0162|TWO_SIDED|95.0|2.75|30.67|||Cochran-Mantel-Haenszel|||At Week 13||30.67|2.75|0.0162
92351405|NCT05156125|184607926|SUPERIORITY||Risk Difference (RD)|16.5||||0.0448|TWO_SIDED|95.0|0.65|31.37|||Cochran-Mantel-Haenszel|||||31.37|0.65|0.0448
92351406|NCT05156125|184607926|SUPERIORITY||Risk Difference (RD)|16.0||||0.0417|TWO_SIDED|95.0|0.23|30.58|||Cochran-Mantel-Haenszel|||At Week 13||30.58|0.23|0.0417
92351407|NCT05156125|184607927|SUPERIORITY||Risk Difference (RD)|11.5||||0.0499|TWO_SIDED|95.0|-0.99|23.38|||Cochran-Mantel-Haenszel|||||23.38|-0.99|0.0499
92351408|NCT05156125|184607927|SUPERIORITY||Risk Difference (RD)|21.4||||0.0011|TWO_SIDED|95.0|7.94|33.53|||Cochran-Mantel-Haenszel|||At Week 13||33.53|7.94|0.0011
92351409|NCT05156125|184607928|SUPERIORITY|||||||0.0072|||||||Cochran-Mantel-Haenszel|||At Week 13||||0.0072
92351410|NCT05156125|184607928|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||At Week 13||||<0.0001
92351411|NCT04018001|184607930|SUPERIORITY|||||||0.0115|||||||Chi-squared|||||||0.0115
92351412|NCT04018001|184607930|SUPERIORITY||Odds Ratio (OR)|1.410198||||0.0227|TWO_SIDED|95.0|1.0492535|1.8953079||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Logistic|||||1.8953079|1.0492535|0.0227
92351413|NCT04018001|184607931|SUPERIORITY|||||||0.3564|||||||t-test, 2 sided|||||||0.3564
92351414|NCT04018001|184607931|SUPERIORITY||Hazard Ratio (HR)|0.9022||||0.2629|TWO_SIDED|95.0|0.7534|1.0803||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Cox|||||1.0803|0.7534|0.2629
92351415|NCT04018001|184607932|SUPERIORITY|||||||0.0123|||||||t-test, 2 sided|||||||0.0123
92351416|NCT04018001|184607932|SUPERIORITY||Difference in Least Squares (LS) Means|0.0300853||||0.0047|TWO_SIDED|95.0|0.0092322|0.0509385||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Generalized linear model|||||0.0509385|0.0092322|0.0047
92351417|NCT04018001|184607933|SUPERIORITY|||||||0.0002|||||||Chi-squared|||||||0.0002
92351418|NCT04018001|184607933|SUPERIORITY||Odds Ratio (OR)|1.7910474||||0.0002|TWO_SIDED|95.0|1.3167136|2.4362554||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Logistic|||||2.4362554|1.3167136|0.0002
92351419|NCT04018001|184607934|SUPERIORITY|||||||0.4071|||||||t-test, 2 sided|||||||0.4071
92351420|NCT04018001|184607934|SUPERIORITY||Difference in LS Means|0.0104065||||0.6143|TWO_SIDED|95.0|-0.030062|0.0508746||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Generalized linear model|||||0.0508746|-0.030062|0.6143
92351421|NCT04018001|184607935|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.0010
92351422|NCT04018001|184607935|SUPERIORITY||Odds Ratio (OR)|1.5211586||||0.0025|TWO_SIDED|95.0|1.1594614|1.9956882||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Logistic|||||1.9956882|1.1594614|0.0025
92351423|NCT04018001|184607936|SUPERIORITY|||||||0.4595|||||||t-test, 2 sided|||||||0.4595
92351424|NCT04018001|184607936|SUPERIORITY||Hazard Ratio (HR)|1.1225||||0.3354|TWO_SIDED|95.0|0.8873|1.4201||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Cox|||||1.4201|0.8873|0.3354
92275975|NCT05085613|184454408|SUPERIORITY||Mean Difference (Final Values)|7.002255|STANDARD_ERROR_OF_MEAN|8.801527||0.813|TWO_SIDED|95.0|-14.39448|28.39899||Sidak's adjusted p-value for multiple comparisons|ANCOVA|Df = 6|Economic recovery condition - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||28.39899|-14.39448|0.813
92351425|NCT04018001|184607937|SUPERIORITY|||||||0.113|||||||t-test, 2 sided|||||||0.1130
92351426|NCT04018001|184607937|SUPERIORITY||Difference in LS Means|0.0151242||||0.1194|TWO_SIDED|95.0|-0.003908|0.0341568||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Generalized linear model|||||0.0341568|-0.003908|0.1194
92351427|NCT04018001|184607938|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.0200
92351428|NCT04018001|184607938|SUPERIORITY||Odds Ratio (OR)|1.4143816||||0.0364|TWO_SIDED|95.0|1.0221455|1.9571335||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Logistic|||||1.9571335|1.0221455|0.0364
92351429|NCT04018001|184607939|SUPERIORITY|||||||0.9031|||||||t-test, 2 sided|||||||0.9031
92351430|NCT04018001|184607939|SUPERIORITY||Difference in LS Means|-0.008587||||0.6376|TWO_SIDED|95.0|-0.044317|0.0271416||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Generalized linear model|||||0.0271416|-0.044317|0.6376
92351431|NCT04018001|184607940|SUPERIORITY|||||||0.3584|||||||Chi-squared|||||||0.3584
92351432|NCT04018001|184607940|SUPERIORITY||Odds Ratio (OR)|1.1077385||||0.451|TWO_SIDED|95.0|0.8489444|1.4454238||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Logistic|||||1.4454238|0.8489444|0.4510
92351433|NCT04018001|184607941|SUPERIORITY|||||||0.0624|||||||Chi-squared|||||||0.0624
92351434|NCT04018001|184607942|SUPERIORITY|||||||0.4914|||||||Chi-squared|||||||0.4914
92351435|NCT02993302|184607980|OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92351436|NCT02993302|184607981|OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
92351437|NCT02993302|184607982|OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
92351438|NCT00997126|184607988|SUPERIORITY_OR_OTHER|||||||0.657|||||||Chi-squared|||||||0.657
92351439|NCT00567112|184608064|NON_INFERIORITY_OR_EQUIVALENCE|Geometric Mean Ratio of OCT (fasted)/DFC (fasted)|Geometric Mean Ratio|0.98|||>|0.2|TWO_SIDED|90.0|0.92|1.05|||ANOVA|||OCT (fasted)/DFC (fasted)||1.05|0.92|>0.200
92351440|NCT00567112|184608065|NON_INFERIORITY_OR_EQUIVALENCE|Geometric Mean Ratio of OCT (fasted)/DFC (fasted)|Geometric Mean Ratio|0.98|||>|0.2|TWO_SIDED|90.0|0.8|1.19|||ANOVA|||OCT (fasted)/DFC (fasted)||1.19|0.80|>0.200
92351441|NCT00567112|184608066|NON_INFERIORITY_OR_EQUIVALENCE|Geometric Mean Ratio of OCT (after meal)/OCT (fasted)|Geometric Mean Ratio|0.92||||0.026|TWO_SIDED|90.0|0.86|0.98|||ANOVA|||OCT (after meal)/OCT (fasted)||0.98|0.86|0.026
92351442|NCT00567112|184608067|NON_INFERIORITY_OR_EQUIVALENCE|Geometric Mean Ratio OCT (after meal)/OCT (fasted)|Geometric Mean Ratio|0.59|||<|0.001|TWO_SIDED|90.0|0.49|0.72|||ANOVA|||OCT (after meal)/OCT (fasted)||0.72|0.49|<0.001
92351443|NCT00567112|184608068|SUPERIORITY_OR_OTHER||||||>|0.2||95.0|||||ANOVA|||OCT (fasted)/DFC (fasted)||||>0.200
92351444|NCT00567112|184608069|SUPERIORITY_OR_OTHER||||||>|0.2||95.0|||||ANOVA|||OCT (fasted)/DFC (fasted)||||>0.200
92351445|NCT00567112|184608070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||OCT (after meal)/OCT (fasted)||||<0.001
92351446|NCT00567112|184608071|SUPERIORITY_OR_OTHER||||||>|0.2|||||||ANOVA|||OCT (after meal)/OCT (fasted)||||>0.200
92220066|NCT03070470|184340283|OTHER|The appropriateness of the linear model will be assessed. Projected estimates will be computed only if the linear model is found acceptable.|Mean Difference (Final Values)|1.2|||||TWO_SIDED|90.0|-9.5|12.0||The degrees of freedom for the model estimates were determined by the Kenward-Rogers method as prespecified in the SAP.|Mixed Models Analysis|||Upper bound of the 2-sided 90% confidence interval (CI) to be \<10 msec for the projected placebo-corrected change from baseline J-Tpeakc effect at the peak plasma level on Day 3 using a linear mixed-effects exposure response model||12.0|-9.5|
92220067|NCT03070470|184340283|OTHER|The appropriateness of the linear model will be assessed. Projected estimates will be computed only if the linear model is found acceptable.|Mean Difference (Final Values)|-2.6|||||TWO_SIDED|90.0|-11.4|6.1|||Mixed Models Analysis|The degrees of freedom for the model estimates were determined by the Kenward-Rogers method as prespecified in the SAP.||Upper bound of the 2-sided 90% confidence interval (CI) to be \<10 msec for the projected placebo-corrected change from baseline J-Tpeakc effect at the peak plasma level on Day 3 using a linear mixed-effects exposure response model||6.1|-11.4|
92220068|NCT03070470|184340283|OTHER|The appropriateness of the linear model will be assessed. Projected estimates will be computed only if the linear model is found acceptable.|Mean Difference (Final Values)|-2.9|||||TWO_SIDED|90.0|-14.6|8.8|||Mixed Models Analysis|The degrees of freedom for the model estimates were determined by the Kenward-Rogers method as prespecified in the SAP.||Upper bound of the 2-sided 90% confidence interval (CI) to be \<10 msec for the projected placebo-corrected change from baseline J-Tpeakc effect at the peak plasma level on Day 3 using a linear mixed-effects exposure response model||8.8|-14.6|
92220069|NCT03070470|184340284|OTHER|The appropriateness of the linear model will be assessed. Projected estimates will be computed only if the linear model is found acceptable.|Mean Difference (Final Values)|30.7|||||TWO_SIDED|90.0|22.6|38.9|||Mixed Models Analysis|The degrees of freedom for the model estimates were determined by the Kenward-Rogers method as prespecified in the SAP.||Upper bound of the 2-sided 90% CI to be ≥10 msec for the projected placebo-corrected change from baseline QTc effect at the peak plasma level on Day 1 using a linear mixed-effects exposure response model.||38.9|22.6|
92220070|NCT02953340|184340289|NON_INFERIORITY|The study used non inferiority margin of 0.62 days for the above comparison. The non-inferiority of SPI-2012 to Pegfilgrastim was declared if the upper bound of 95% confidence interval (CI) of the difference in mean DSN between the treatment arms was \<0.62 days.|Mean difference|-0.074|||<|0.0001|TWO_SIDED|95.0|-0.292|0.129|||t-statistics|The p-values are based on the calculated t-statistics from the bootstrapped sample mean and standard deviation.||||0.129|-0.292|< 0.0001
92220071|NCT01977599|184340299|OTHER|Chi Square|||||<|0.001|||||||Chi-squared|||||||<0.001
92351447|NCT00002874|184608073|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.02|TWO_SIDED|95.0|0.59|0.98||One-sided significance level = 0.046 to preserve overall significance level of 0.05 for the study.|Log Rank||Stratifying variables were fixed covariates: prior hormone therapy (yes/no), entry prostate-specific antigen (PSA) (1.6-4.0 vs. 0.2-1.5), PSA nadir after surgery (\< 0.5 vs. \>= 0.5), positive surgical margins (yes/no). Reference level = placebo arm.|||0.98|0.59|0.020
92351448|NCT00002874|184608074|SUPERIORITY||Cox Proportional Hazard|1.1||||0.289|TWO_SIDED|95.0|0.79|1.53|||Gray's test|One-sided test|||Reference level = placebo arm|1.53|0.79|0.289
92351449|NCT00002874|184608075|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.4|0.58|||Gray's test|One-sided test|Reference level = placebo arm|||0.58|0.40|<0.001
92351450|NCT00002874|184608076|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.213|TWO_SIDED|95.0|0.85|1.46|||Gray's test|One-sided test|Reference level = placebo arm|||1.46|0.85|0.213
92351451|NCT00002874|184608077|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92161025|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|18.59|STANDARD_ERROR_OF_MEAN|2.83|<|0.0001|TWO_SIDED|95.0|12.99|24.19||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage R sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||24.19|12.99|<0.0001
92351452|NCT00002874|184608078|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.002|TWO_SIDED|95.0|0.46|0.87|||Gray's test|One-sided test|Reference level = placebo arm|||0.87|0.46|0.002
92351453|NCT00002874|184608079|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.32|0.74|||Gray's test|One-sided test|Reference level = placebo arm|||0.74|0.32|<0.001
92351454|NCT00002874|184608080|SUPERIORITY||Cox Proportional Hazard|0.6|||<|0.001|TWO_SIDED|95.0|0.5|0.71|||Log Rank|One-side test|||Reference level = placebo arm|0.71|0.50|< 0.001
92220072|NCT00530270|184340301|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||A two-sided alpha of 0.05 was used. No multiple comparison adjustments were made.|Mixed Models Analysis|||The null hypothesis of no difference in the log duration of signs and symptoms or hospitalization between the two treatment groups was tested using an F test from a generalized mixed model with fixed effects for treatment group, age group and ACS severity. Please note that the study was stopped prematurely so only 11 of the 112 originally planned were included in the analysis.||||0.127
92220073|NCT00530270|184340302|SUPERIORITY_OR_OTHER|||||||0.801||||||A two-sided alpha of 0.05 was used. No multiple comparison adjustments were made.|Mixed Models Analysis|||The null hypothesis of no difference in the log duration of signs and symptoms or hospitalization between the two treatment groups was tested using an F test from a generalized mixed model with fixed effects for treatment group, age group and ACS severity. Please note that the study was stopped prematurely so only 11 of the 112 originally planned were included in the analysis.||||0.801
92351455|NCT00002874|184608081|SUPERIORITY|||||||0.06|||||||Chi-squared|||Acute radiotherapy toxicity||||0.060
92351456|NCT00002874|184608081|SUPERIORITY|||||||0.029|||||||Chi-squared|||Hormone therapy and late radiotherapy toxicity||||0.029
92351457|NCT02114684|184608104|SUPERIORITY|||||||0.46|||||||Fisher Exact|||comparison of culture negative results at week 8||||0.46
92220074|NCT00530270|184340303|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||A two-sided alpha of 0.05 was used. No multiple comparison adjustments were made.|Mixed Models Analysis|Different error variance estimates were allowed for the two treatment groups.||The null hypothesis of no difference in the log duration of signs and symptoms or hospitalization between the two treatment groups was tested using an F test from a generalized mixed model with fixed effects for treatment group, age group and ACS severity. Please note that the study was stopped prematurely so only 11 of the 112 originally planned were included in the analysis.||||0.02
92220075|NCT00530270|184340304|SUPERIORITY_OR_OTHER|||||||0.876||95.0||||A two-sided alpha of 0.05 was used. No multiple comparison adjustments were made.|Mixed Models Analysis|Different error variance estimates were allowed for the two treatment groups.||The null hypothesis of no difference in the log duration of signs and symptoms or hospitalization between the two treatment groups was tested using an F test from a generalized mixed model with fixed effects for treatment group, age group and ACS severity. Please note that the study was stopped prematurely so only 11 of the 112 originally planned were included in the analysis.||||0.876
92220076|NCT00530270|184340305|SUPERIORITY_OR_OTHER|||||||0.77||95.0||||A two-sided alpha of 0.05 was used. No multiple comparison adjustments were made.|Mixed Models Analysis|Different error variance estimates were allowed for the two treatment groups.||The null hypothesis of no difference in the log duration of signs and symptoms or hospitalization between the two treatment groups was tested using an F test from a generalized mixed model with fixed effects for treatment group, age group and ACS severity. Please note that the study was stopped prematurely so only 11 of the 112 originally planned were included in the analysis.||||0.770
92220077|NCT01118273|184340311|SUPERIORITY_OR_OTHER|||||||0.54|||||||ANCOVA|||||||0.54
92220078|NCT01118273|184340312|SUPERIORITY_OR_OTHER|||||||0.31|||||||ANCOVA|||||||0.31
92220079|NCT01118273|184340313|SUPERIORITY_OR_OTHER|||||||0.45|||||||Log Rank|||||||0.45
92220080|NCT01118273|184340314|SUPERIORITY_OR_OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
92220081|NCT01118273|184340315|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANCOVA|||||||0.05
92220082|NCT01118273|184340316|SUPERIORITY_OR_OTHER|||||||0.019|||||||ANCOVA|||||||0.019
92220083|NCT01118273|184340317|SUPERIORITY_OR_OTHER|||||||0.018|||||||ANCOVA|||||||0.018
92220084|NCT01118273|184340318|SUPERIORITY_OR_OTHER|||||||0.03|||||||Cochran-Mantel-Haenszel|||||||0.03
92220085|NCT01118273|184340319|SUPERIORITY_OR_OTHER|||||||0.76|||||||Cochran-Mantel-Haenszel|||||||0.76
92220086|NCT01118273|184340320|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANCOVA|||||||0.015
92220087|NCT01118273|184340321|SUPERIORITY_OR_OTHER|||||||0.04|||||||Cochran-Mantel-Haenszel|||||||0.04
92220088|NCT01118273|184340322|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANCOVA|||||||0.95
92220089|NCT01118273|184340323|SUPERIORITY_OR_OTHER|||||||0.05|||||||Cochran-Mantel-Haenszel|||||||0.05
92220090|NCT01118273|184340325|SUPERIORITY_OR_OTHER|||||||0.42|||||||ANCOVA|||||||0.42
92220091|NCT01118273|184340326|SUPERIORITY_OR_OTHER|||||||0.35|||||||ANCOVA|||||||0.35
92220092|NCT01118273|184340327|SUPERIORITY_OR_OTHER|||||||0.35|||||||ANCOVA|||||||0.35
92220093|NCT01118273|184340328|SUPERIORITY_OR_OTHER|||||||0.72|||||||ANCOVA|||||||0.72
92220094|NCT01118273|184340329|SUPERIORITY_OR_OTHER|||||||0.001|||||||Log Rank|||||||0.001
92220095|NCT01118273|184340331|SUPERIORITY_OR_OTHER|||||||0.35|||||||Cochran-Mantel-Haenszel|||||||0.35
92220096|NCT01118273|184340333|SUPERIORITY_OR_OTHER|||||||0.53|||||||ANCOVA|||||||0.53
92220097|NCT01118273|184340334|SUPERIORITY_OR_OTHER|||||||0.55|||||||ANCOVA|||||||0.55
92220098|NCT01118273|184340335|SUPERIORITY_OR_OTHER|||||||0.59|||||||ANCOVA|||||||0.59
92220099|NCT01118273|184340336|SUPERIORITY_OR_OTHER|||||||0.25|||||||ANCOVA|||||||0.25
92220100|NCT01923285|184340337|NON_INFERIORITY|The non-inferiority margin, which is pre-specified at 10%. If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025.|||||<|0.0001||||||The non-inferiority margin, which is pre-specified at 10%. If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025.|Chi-squared|||"The primary hypothesis tested was: H0: p1 ≤ p0 - δ vs. H1: p1\> p0 - δ, where p0 is the success rate in the Control group, p1 is the success rate in the Axium group, and δ is the non-inferiority margin, which is pre-specified at 10%.~If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025."||||<0.0001
92220101|NCT01923285|184340337|SUPERIORITY|The non-inferiority margin, which is pre-specified at 10%. If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025|||||=|0.0004|||||||Chi-squared|||The primary hypothesis tested was: H0: p1 ≤ p0 - δ vs. H1: p1\> p0 - δ, where p0 is the success rate in the Control group, p1 is the success rate in the Axium group, and δ is the non-inferiority margin, which is pre-specified at 10%.||||=0.0004
92220102|NCT01923285|184340338|OTHER|Comparison of the mean difference. Difference in intensities is calculated as the supine paresthesia intensity minus the upright paresthesia intensity.|Mean Difference (Net)|1.9|||<|0.0001|TWO_SIDED|95.0|1.0|2.8|||Wilcoxon (Mann-Whitney)||Difference in paresthesia intensities is calculated as the supine paresthesia score minus the upright paresthesia score for each subject.|"Secondary endpoint compared the mean differences in upright and supine paresthesia scores between the Axium and Control groups at three months post INS implant. This endpoint was evaluated at a two-sided significance level of 0.05.~The primary hypothesis tested was: H0: μ0- μ1≤0 vs. H1: μ0- μ1\>0 where μ0 is the mean difference in paresthesia intensities in the Control group and μ1 is the mean difference in the Axium group."||2.8|1.0|<0.0001
92220103|NCT01923285|184340339|NON_INFERIORITY|If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025.|||||<|0.0001|||||||Chi-squared|||The primary hypothesis tested was: H0: p1 ≤ p0 - δ vs. H1: p1\> p0 - δ, where p0 is the success rate in the Control group, p1 is the success rate in the Axium group, and δ is the non-inferiority margin, which is pre-specified at 10%.||||<0.0001
92220104|NCT01923285|184340339|SUPERIORITY|If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025.|||||=|0.0047|||||||Chi-squared|||||||=0.0047
92275976|NCT05085613|184454408|SUPERIORITY||Mean Difference (Final Values)|15.12214|STANDARD_ERROR_OF_MEAN|9.07444||0.268|TWO_SIDED|95.0|-6.938055|37.18234||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Freedom - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||37.18234|-6.938055|0.268
92220105|NCT01923285|184340340|NON_INFERIORITY|If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025.||||||0.0003|||||||Non-inferiority|||The primary hypothesis tested was: H0: p1 ≤ p0 - δ vs. H1: p1\> p0 - δ, where p0 is the success rate in the Control group, p1 is the success rate in the Axium group, and δ is the non-inferiority margin, which is pre-specified at 10%.||||0.0003
92220106|NCT01309659|184340347|SUPERIORITY_OR_OTHER|||||||0.308|TWO_SIDED|||||Correlation between ferritin and change in hemoglobin in the immediate intervention group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.308
92220107|NCT01309659|184340347|SUPERIORITY_OR_OTHER|||||||0.601|TWO_SIDED|||||Correlation between ferritin and change in hemoglobin in the waitlist group. Testing the correlation = 0.|t-test, 2 sided|||||||0.601
92351458|NCT02114684|184608104|SUPERIORITY|||||||0.43|||||||Fisher Exact|||comparison of culture negative results at month 6||||0.43
92351459|NCT02114684|184608105|SUPERIORITY|||||||0.018|||||||Gehan-Breslow-Wilcoxon test|||||||0.018
92351460|NCT02114684|184608106|SUPERIORITY|||||||0.011|||||||Fisher Exact|||||||0.011
92351461|NCT02114684|184608107|SUPERIORITY|||||||0.01||||||There are significantly more adverse events in the active arm|Mantel Haenszel|||Comparison of the number of adverse events in the two arms, controlling for HIV status||||0.01
92351462|NCT02114684|184608107|SUPERIORITY|||||||0.45|||||||Mantel Haenszel|||Comparison of the 8-week culture conversion rates in the two arms, controlling for HIV status||||0.45
92220108|NCT01309659|184340347|SUPERIORITY_OR_OTHER|||||||0.396|TWO_SIDED|||||Correlation between iron and change in hemoglobin in the intermediate intervention group. Testing the correlation = 0.|t-test, 2 sided|||||||0.396
92220109|NCT01309659|184340347|SUPERIORITY_OR_OTHER|||||||0.106|TWO_SIDED|||||Correlation between iron and change in hemoglobin in the waitlist group. Testing the correlation = 0.|t-test, 2 sided|||||||0.106
92220110|NCT01309659|184340347|SUPERIORITY_OR_OTHER|||||||0.606|TWO_SIDED|||||Correlation between transferrin saturation and change in hemoglobin in the immediate intervention group. Testing the correlation = 0.|t-test, 2 sided|||||||0.606
92220111|NCT01309659|184340347|SUPERIORITY_OR_OTHER|||||||0.077|TWO_SIDED|||||Correlation between transferrin saturation and change in hemoglobin in the waitlist group. Testing the correlation = 0.|t-test, 2 sided|||||||0.077
92351463|NCT02114684|184608108|SUPERIORITY|||||||0.15|||||||Fisher Exact|||||||0.15
92351464|NCT04625972|184608109|SUPERIORITY||Relative Risk Reduction|33.31||||0.212|TWO_SIDED|95.0|-25.92|64.68|||Poisson regression||Primary Analysis Estimates are based on Poisson regression with robust variance. The model includes covariate for treatment and the log of follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|||64.68|-25.92|0.212
92220112|NCT01309659|184340356|SUPERIORITY_OR_OTHER|||||||0.649|TWO_SIDED|||||Correlation between soluble transfer receptor and change in hemoglobin in the immediate intervention group. Testing the correlation =0.|t-test, 2 sided|||||||0.649
92220113|NCT01309659|184340356|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Correlation between soluble transfer receptor and change in hemoglobin in the wait list group. Testing the correlation =0.|t-test, 2 sided|||||||0.001
92220114|NCT01309659|184340357|SUPERIORITY_OR_OTHER|||||||0.391|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor index (soluble receptor/log ferritin) and the change in hemoglobin in the immediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.391
92220115|NCT01309659|184340357|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor index (soluble receptor/log ferritin) and the change in hemoglobin in the wait list control group. Testing correlation =0.|t-test, 2 sided|||||||0.111
92220116|NCT01309659|184340358|SUPERIORITY_OR_OTHER|||||||0.077|TWO_SIDED|||||Correlation between baseline serum ferritin and the change in 6 Minute Walk Test distance in the immediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.077
92351465|NCT04625972|184608109|SUPERIORITY||Relative Risk Reduction|43.28||||0.044|TWO_SIDED|95.0|1.4|67.37|||Poisson regression||Final Analysis Estimates are based on Poisson regression with robust variance. The model includes covariate for treatment and the log of follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|||67.37|1.40|0.044
92351466|NCT04625972|184608111|SUPERIORITY||Relative Risk Reduction|100.0||||0.664|ONE_SIDED|97.5|-1836.98||||Poisson regression||||||-1836.98|0.664
92351467|NCT04625972|184608112|SUPERIORITY||Relative Risk Reduction|13.9||||0.163|TWO_SIDED|95.0|-6.23|30.21|||Poisson regression|||||30.21|-6.23|0.163
92351468|NCT04625972|184608114|SUPERIORITY||Relative Risk Reduction|25.75||||0.744|TWO_SIDED|95.0|-343.53|87.57|||Poisson regression|||||87.57|-343.53|0.744
92351469|NCT00504309|184608137|SUPERIORITY_OR_OTHER|||||||0.002|||||||Mixed Models Analysis|Tukey p-values were used for post hoc comparisons.||Fasting triglycerides (mg/dL) were measured on two consecutive days and averaged for analysis at the end of each treatment period. The null hypothesis was that triglycerides did not differ between groups.||||0.002
92351470|NCT00504309|184608137|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Mixed Models Analysis|||Cholesterol values were compared as the average of two fasting values at the end of each treatment. Cholesterol values included LDL-C, HDL-C, total cholesterol, and calculated ratios.||||> 0.05
92351471|NCT03345095|184608152|SUPERIORITY||Mean Difference (Net)|-6.4||||0.0004|TWO_SIDED|95.0|-8.6|-2.5|||Wilcoxon (Mann-Whitney)|||||-2.5|-8.6|0.0004
92351472|NCT03345095|184608153|SUPERIORITY||Mean Difference (Net)|-0.55||||0.15|TWO_SIDED|95.0|-1.27|0.16|||Wilcoxon (Mann-Whitney)|||||0.16|-1.27|0.15
92351473|NCT00983957|184608180|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.105|||||TWO_SIDED|90.0|1.023|1.195|||||Point estimates and 90% Confidence Interval (CIs) for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.195|1.023|
92351474|NCT00983957|184608181|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.071|||||TWO_SIDED|90.0|0.988|1.16|||||Point estimates and 90% CIs for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.160|0.988|
92351475|NCT00983957|184608182|SUPERIORITY_OR_OTHER||Adjusted geometric mean|1.009|||||TWO_SIDED|90.0|0.951|1.07|||||Point estimates and 90% CIs for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.070|0.951|
92351476|NCT00983957|184608183|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.121|||||TWO_SIDED|90.0|1.018|1.234|||||Point estimates and 90% CIs for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.234|1.018|
92351477|NCT00983957|184608186|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.059|||||TWO_SIDED|90.0|0.988|1.135|||||Point estimates and 90% CIs for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.135|0.988|
92351478|NCT00983957|184608191|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.115|||||TWO_SIDED|90.0|1.063|1.171|||||Point estimates and 90% CIs for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.171|1.063|
92351479|NCT05894564|184608193|SUPERIORITY|Posterior probability of efficacy (P(HR\>1))|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.88|1.1|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.10|0.88|
92351480|NCT05894564|184608194|SUPERIORITY||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.05|5.65|||||Low event rate precluded covariate adjustment.|No hypothesis test or decision rule was evaluated.||5.65|0.05|
92220117|NCT01309659|184340358|SUPERIORITY_OR_OTHER|||||||0.798|TWO_SIDED|||||Correlation between baseline serum ferritin and the change in 6 Minute Walk Test distance in the wait list group. Testing correlation =0.|t-test, 2 sided|||||||0.798
92351481|NCT05894564|184608197|SUPERIORITY|Posterior probability of efficacy (P(HR\<1))|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.31|1.28|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.28|0.31|
92351482|NCT05894564|184608198|SUPERIORITY||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.56|1.87|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.87|0.56|
92351483|NCT05894564|184608199|SUPERIORITY||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.25|1.16|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.16|0.25|
92220118|NCT01309659|184340358|SUPERIORITY_OR_OTHER|||||||0.383|TWO_SIDED|||||Correlation between baseline iron and the change in 6 Minute Walk Test distance in the immediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.383
92351484|NCT05894564|184608200|SUPERIORITY||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.33|1.74|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.74|0.33|
92351485|NCT05894564|184608201|OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.71|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.21|0.71|
92351486|NCT05894564|184608201|OTHER||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.67|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.19|0.67|
92351487|NCT05894564|184608201|OTHER||Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.61|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.19|0.61|
92351488|NCT05894564|184608201|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.61|1.28|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.28|0.61|
92351489|NCT05894564|184608201|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.7|1.49|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.49|0.70|
92351490|NCT05894564|184608202|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.8|1.27|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.27|0.80|
92351491|NCT05894564|184608202|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.77|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.26|0.77|
92351492|NCT05894564|184608202|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.67|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.14|0.67|
92351493|NCT05894564|184608202|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.77|1.36|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.36|0.77|
92351494|NCT05894564|184608202|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.76|1.33|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.33|0.76|
92351495|NCT05894564|184608203|OTHER||Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.65|1.09|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.09|0.65|
92351496|NCT05894564|184608203|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.74|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.32|0.74|
92351497|NCT05894564|184608203|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.64|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.21|0.64|
92351498|NCT05894564|184608203|OTHER||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.87|1.73|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.73|0.87|
92351499|NCT05894564|184608203|OTHER||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.85|1.64|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.64|0.85|
92351500|NCT05894564|184608204|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.74|1.33|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.33|0.74|
92161026|NCT00991276|184210584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-23.56|STANDARD_ERROR_OF_MEAN|2.81|<|0.0001|TWO_SIDED|95.0|-29.12|-18.01||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage R sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-18.01|-29.12|<0.0001
92220119|NCT01309659|184340358|SUPERIORITY_OR_OTHER|||||||0.732|TWO_SIDED|||||Correlation between baseline iron and the change in 6 Minute Walk Test distance in the wait list group. Testing correlation =0.|t-test, 2 sided|||||||0.732
92220120|NCT01309659|184340358|SUPERIORITY_OR_OTHER|||||||0.286|TWO_SIDED|||||Correlation between baseline transferrin saturation and the change in 6 Minute Walk Test distance in the immediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.286
92351501|NCT05894564|184608204|OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.59|1.1|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.10|0.59|
92351502|NCT05894564|184608204|OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.59|1.12|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.12|0.59|
92351503|NCT05894564|184608204|OTHER||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.83|1.62|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.62|0.83|
92351504|NCT05894564|184608204|OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.7|1.34|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.34|0.70|
92351505|NCT05894564|184608205|OTHER||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.79|1.34|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.34|0.79|
92351506|NCT05894564|184608205|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.74|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.32|0.74|
92351507|NCT05894564|184608205|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.64|1.2|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.20|0.64|
92351508|NCT05894564|184608205|OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.7|1.34|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.34|0.70|
92220121|NCT01309659|184340358|SUPERIORITY_OR_OTHER|||||||0.356|TWO_SIDED|||||Correlation between baseline transferrin saturation and the change in 6 Minute Walk Test distance in the wait list group. Testing correlation =0.|t-test, 2 sided|||||||0.356
92220122|NCT01309659|184340359|SUPERIORITY_OR_OTHER|||||||0.649|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor and the change in the 6 Meter Walk Test distance of the immediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.649
92220123|NCT01309659|184340359|SUPERIORITY_OR_OTHER|||||||0.396|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor and the change in the 6 Meter Walk Test distance of the wait list group. Testing correlation =0.|t-test, 2 sided|||||||0.396
92220124|NCT01309659|184340360|SUPERIORITY_OR_OTHER|||||||0.624|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor index (soluble receptor/log ferritin) and the change in the 6 Minute Walk Test Distance in the intermediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.624
92220125|NCT01309659|184340360|SUPERIORITY_OR_OTHER|||||||0.329|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor index (soluble receptor/log ferritin) and the change in the 6 Minute Walk Test Distance in the wait list group. Testing correlation =0.|t-test, 2 sided|||||||0.329
92220126|NCT00941668|184340382|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92220127|NCT00941668|184340383|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92275977|NCT05085613|184454408|SUPERIORITY||Mean Difference (Final Values)|14.4032|STANDARD_ERROR_OF_MEAN|9.305576||0.33|TWO_SIDED|95.0|-8.218891|37.0253||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Humor - Control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||37.0253|-8.218891|0.330
92351509|NCT05894564|184608205|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.64|1.25|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.25|0.64|
92351510|NCT05894564|184608206|OTHER||Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.61|1.01|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.01|0.61|
92220128|NCT03455491|184340408|SUPERIORITY|||||||0.3541|||||||Gekhan-Wilcoxon test|||||||0.3541
92220129|NCT03455491|184340409|SUPERIORITY|||||||0.3597|||||||Gekhan-Wilcoxon test|||||||0.3597
92220130|NCT03455491|184340411|SUPERIORITY|||||||0.4551|||||||ANOVA|one-way ANOVA||||||0.4551
92220131|NCT00884273|184340419|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority was to be established if the treatment difference in adjusted (for baseline volume, and baseline total IPSS) mean percentage reduction was significantly greater (two-sided at α=0.05 level) than Δ = 10 points (non-inferiority margin) in both the FAS and PP analyses sets.~If the Week 12 treatment assessment of prostate volume was missing the LOCF approach was used, i.e., the prostate volume value closest to and before Week 12 was used."|Mean Difference (Final Values)|2.37||||0.36|TWO_SIDED|95.0|-2.78|7.52||FAS.|ANCOVA|The baseline IPSS and baseline Prostate volume were used as covariates and treatment was used as a factor in the analysis.||Estimates from analysis of variance with treatment as factors and baseline IPSS and baseline Prostate volume as covariates.||7.52|-2.78|0.36
92220132|NCT00884273|184340428|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority was to be established if the treatment difference in adjusted (for baseline volume, and baseline total IPSS) mean percentage reduction was significantly greater (two-sided at α=0.05 level) than Δ = 10 points (non-inferiority margin) in both the FAS and PP analyses sets.~If the Week 12 treatment assessment of prostate volume was missing the LOCF approach was used, i.e., the prostate volume value closest to and before Week 12 was used."|Mean Difference (Net)|2.24||||0.41|TWO_SIDED|95.0|-3.1|7.58||PP.|ANCOVA|The baseline IPSS and baseline Prostate volume were used as covariates and treatment was used as a factor in the analysis.||Estimates from analysis of variance with treatment as factors and baseline IPSS and baseline Prostate volume as covariates.||7.58|-3.10|0.41
92220133|NCT00258674|184340429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.307||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.307
92220134|NCT00258674|184340430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.551||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.551
92275978|NCT05085613|184454409|SUPERIORITY||Mean Difference (Final Values)|-1.457003|STANDARD_ERROR_OF_MEAN|6.380984||0.994|TWO_SIDED|95.0|-16.98852|14.07451||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 5|Economic recovery - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||14.07451|-16.98852|0.994
92275979|NCT05085613|184454409|SUPERIORITY||Mean Difference (Final Values)|-1.097586|STANDARD_ERROR_OF_MEAN|6.675066||0.998|TWO_SIDED|95.0|-17.34491|15.14973||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 5|Freedom - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||15.14973|-17.34491|0.998
92351511|NCT05894564|184608206|OTHER||Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.64|1.11|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.11|0.64|
92351512|NCT05894564|184608206|OTHER||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.63|1.12|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.12|0.63|
92351513|NCT05894564|184608206|OTHER||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.6|1.12|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.12|0.60|
92351514|NCT05894564|184608206|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.67|1.24|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.24|0.67|
92351515|NCT05894564|184608207|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.81|1.27|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.27|0.81|
92351516|NCT05894564|184608207|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.76|1.18|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.18|0.76|
92351517|NCT05894564|184608207|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.72|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.14|0.72|
92351518|NCT05894564|184608207|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.79|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.26|0.79|
92351519|NCT05894564|184608207|OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.64|1.01|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.01|0.64|
92351520|NCT05894564|184608208|SUPERIORITY|Posterior probability of efficacy (P(Difference in MTU (Active - Placebo)\<0))|Difference in model estimate time unwell|-0.17|||||TWO_SIDED|95.0|-0.56|0.26|||||The mean time unwell is estimated from receipt of study drug to study day 14. The interval is a highest density credible interval.|No hypothesis test or decision rule was evaluated.||0.26|-0.56|
92351521|NCT05894564|184608209|SUPERIORITY|Posterior probability of efficacy (P(Difference days benefit (Active - Placebo)\>0))|Difference in model estimated means|0.21|||||TWO_SIDED|95.0|-0.29|0.68|||||The interval is a highest density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.68|-0.29|
92161027|NCT00991276|184210585|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.67|STANDARD_ERROR_OF_MEAN|0.99||0.0077|TWO_SIDED|95.0|-4.63|-0.72||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.72|-4.63|0.0077
92220135|NCT00258674|184340431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.927||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.927
92351522|NCT05890586|184608242|SUPERIORITY|The posterior was based on a covariate adjusted Cox proportional hazards regression with skeptical prior. The baseline hazard was a degree 5 M-spline function.|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.86|1.07|||||Hazard ratios greater than one favored the active intervention for a faster time to recovery.|||1.07|0.86|
92351523|NCT05890586|184608243|SUPERIORITY|No hypothesis test or decision rule was evaluated.|Hazard Ratio (HR)|0.3|||||TWO_SIDED|95.0|0.03|2.88|||||Low event rate precluded covariate adjustment.|||2.88|0.03|
92351524|NCT05890586|184608246|SUPERIORITY|No hypothesis test or decision rule was evaluated.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.6|1.7|||||Hazard ratios less than one favor the active intervention of inhaled fluticasone furoate. The interval is a highest density credible interval.|The posterior was based on a covariate adjusted Cox proportional hazards regression with skeptical prior. The baseline hazard was a degree 5 M-spline function.||1.7|0.6|
92351525|NCT05890586|184608247|SUPERIORITY|No hypothesis test or decision rule was evaluated.|Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.74|1.98|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Adjustment variables are randomization assignment, age (as restricted cubic spline), sex, duration of symptoms prior to receipt of study drug, calendar time (as restricted cubic spline), vaccination status, geographic region (Northeast, Midwest, South, West), call center indicator, and baseline symptom severity.||1.98|0.74|
92351526|NCT05890586|184608248|SUPERIORITY|No hypothesis test or decision rule was evaluated.|Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.53|2.06|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Adjustment variables are randomization assignment, age (as restricted cubic spline), sex, duration of symptoms prior to receipt of study drug, calendar time (as restricted cubic spline), vaccination status, geographic region (Northeast, Midwest, South, West), call center indicator, and baseline symptom severity.||2.06|0.53|
92351527|NCT05890586|184608249|SUPERIORITY|No hypothesis test or decision rule was evaluated.|Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|0.74|2.22|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Adjustment variables are randomization assignment, age (as restricted cubic spline), sex, duration of symptoms prior to receipt of study drug, calendar time (as restricted cubic spline), vaccination status, geographic region (Northeast, Midwest, South, West), call center indicator, and baseline symptom severity.||2.22|0.74|
92351528|NCT05890586|184608250|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.51|0.83|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||0.83|0.51|
92351529|NCT05890586|184608250|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.7|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.21|0.70|
92351530|NCT05890586|184608250|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.75|||||TWO_SIDED|95.0|0.55|1.03|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.03|0.55|
92351531|NCT05890586|184608250|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.68|1.39|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.39|0.68|
92351532|NCT05890586|184608251|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|1.04|1.6|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.60|1.04|
92351533|NCT05890586|184608251|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.98|1.51|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.51|0.98|
92351534|NCT05890586|184608251|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.84|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.35|0.84|
92351535|NCT05890586|184608251|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.92|1.47|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.47|0.92|
92351536|NCT05890586|184608252|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.8|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.29|0.80|
92351537|NCT05890586|184608252|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.84|1.47|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.47|0.84|
92351538|NCT05890586|184608252|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.8|1.46|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.46|0.80|
92351539|NCT05890586|184608252|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.77|1.44|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.44|0.77|
92351540|NCT05890586|184608253|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.7|1.16|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.16|0.70|
92351541|NCT05890586|184608253|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.63|1.1|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.10|0.63|
92220136|NCT00258674|184340432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.308||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.308
92351542|NCT05890586|184608253|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.54|0.99|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||0.99|0.54|
92351543|NCT05890586|184608253|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.66|1.18|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.18|0.66|
92351544|NCT05890586|184608254|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.85|1.37|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.37|0.85|
92351545|NCT05890586|184608254|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.85|1.44|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.44|0.85|
92351546|NCT05890586|184608254|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.7|1.24|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.24|0.70|
92351547|NCT05890586|184608254|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.78|1.37|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.37|0.78|
92351548|NCT05890586|184608255|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.68|1.05|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.05|0.68|
92351549|NCT05890586|184608255|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.7|1.11|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.11|0.70|
92351550|NCT05890586|184608255|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.72|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.21|0.72|
92351551|NCT05890586|184608255|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.75|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.29|0.75|
92351552|NCT05890586|184608256|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio, log|1.3|||||TWO_SIDED|95.0|1.05|1.6|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.60|1.05|
92351553|NCT05890586|184608256|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|1.0|1.52|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.52|1.00|
92351554|NCT05890586|184608256|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.84|1.27|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.27|0.84|
92351555|NCT05890586|184608256|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.8|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.21|0.80|
92220137|NCT00258674|184340433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.867||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.867
92220138|NCT00258674|184340434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98||||0.807||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.807
92220139|NCT00258674|184340435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.702||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.702
92220140|NCT00258674|184340436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.413||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.413
92220141|NCT00258674|184340437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.996||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.996
92220142|NCT00258674|184340438|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.02||||0.451||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.451
92220143|NCT00258674|184340439|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.1||||0.447||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.447
92220144|NCT00258674|184340440|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.01||||0.936||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.936
92220145|NCT00258674|184340441|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.04||||0.332||95.0||||A comparison of the claims vs. claims+MR arms was also conducted, giving a p-value of 0.537.|Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.332
92220146|NCT00258674|184340442|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.01||||0.86||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.860
92220147|NCT00258674|184340443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.382||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.382
92220148|NCT00258674|184340444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.988||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.988
92351556|NCT05890586|184608257|SUPERIORITY||Difference in model estimate time unwell|-0.07|||||TWO_SIDED|95.0|-0.43|0.31|||||The interval is a highest-density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.31|-0.43|
92351557|NCT05890586|184608258|SUPERIORITY||Difference in model estimated means|0.08|||||TWO_SIDED|95.0|-0.37|0.52|||||The interval is a highest-density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.52|-0.37|
92351558|NCT03197935|184608279|SUPERIORITY||Absolute difference in pCR rate|16.5||||0.0044|TWO_SIDED|95.0|5.91|27.1||(one-sided)|Cochran-Mantel-Haenszel|||Stratified analysis. Strata are: tumor PD-L1 status (IC0 vs. IC1/2/3) and clinical stage at presentation (Stage II vs. III).||27.10|5.91|0.0044
92351559|NCT03197935|184608280|SUPERIORITY||Difference in pCR|19.5||||0.0206|TWO_SIDED|95.0|4.17|34.83||(one-sided)|Cochran-Mantel-Haenszel|||Stratified analysis. Strata are: AJCC stage at diagnosis (II vs. III).||34.83|4.17|0.0206
92351560|NCT03197935|184608281|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoint of EFS. The analyses of this secondary endpoint is descriptive in nature.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.47|1.21|||Stratified log-rank test|||"Stratified analysis. Strata are:~Tumor PD-L1 status (IC0 vs IC1/2/3) and AJCC stage at diagnosis (II vs. III)."||1.21|0.47|
92351561|NCT03197935|184608282|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoint of EFS. The analyses of this secondary endpoint is descriptive in nature.|Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.26|1.18|||Stratified log-rank test|||Stratified analysis. Strata are: AJCC stage at diagnosis (II vs. III).||1.18|0.26|
92351562|NCT03197935|184608283|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoint of DFS. The analyses of this secondary endpoint are descriptive in nature.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.44|1.3|||Stratified log-rank test|||Stratified analysis. Strata are: Tumor PD-L1 status (IC0 vs IC1/2/3) and AJCC stage at diagnosis (II vs. III).||1.30|0.44|
92351563|NCT03197935|184608284|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoint of DFS. The analyses of this secondary endpoint are descriptive in nature.|Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.23|1.43|||Stratified log-rank test|||Stratified analysis. Strata are: AJCC stage at diagnosis (II vs. III).||1.43|0.23|
92351564|NCT03197935|184608285|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoints of OS. The analyses of this secondary endpoint are descriptive in nature.|Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.3|1.04|||Stratified log-rank test|||"Stratified analysis. Strata are:~Tumor PD-L1 status (IC0 vs IC1/2/3) and AJCC stage at diagnosis (II vs. III)."||1.04|0.30|
92351565|NCT03197935|184608286|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoints of EFS, DFS and OS. The analyses of this secondary endpoint are descriptive in nature.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.26|1.91|||Stratified log-rank test|||Stratified analysis. Strata are: AJCC stage at diagnosis (II vs. III).||1.91|0.26|
92351566|NCT02357485|184608294|SUPERIORITY_OR_OTHER||||||<|0.004|TWO_SIDED|||||Baseline vs 1 year Post-treatment|t-test, 2 sided|||||||<0.004
92351567|NCT02357485|184608295|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Baseline vs 1 year Post-treatment|t-test, 2 sided|||||||<0.001
92220149|NCT00258674|184340445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.685||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.685
92351568|NCT02357485|184608296|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||t-test, 2 sided|||||||0.053
92351569|NCT02357485|184608297|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
92351570|NCT03593629|184608298|NON_INFERIORITY|Non-inferiority margin was defined as -10%|Risk Difference (RD)|2.37|||||ONE_SIDED|95.0|-5.05||||||||||-5.05|
92351571|NCT03593629|184608299|NON_INFERIORITY|non-inferiority margin is defined as -10%|Risk Difference (RD)|-2.6|||||ONE_SIDED|95.0|-8.88||||||||||-8.88|
92351572|NCT03593629|184608300|NON_INFERIORITY|non-inferiority margin is defined as -10%|Risk Difference (RD)|-1.15|||||ONE_SIDED|95.0|-6.89||||||||||-6.89|
92351573|NCT00421733|184608359|SUPERIORITY_OR_OTHER|||||||0.071||||||There were no P-value adjustments for multiple comparisons.|ANCOVA|1-way ANCOVA using treatment group as the factor and baseline FMV UACR as the covariate.||||||0.071
92351574|NCT00421733|184608359|SUPERIORITY_OR_OTHER|||||||0.229||95.0||||There were no P-value adjustments for multiple comparisons.|ANCOVA|1-way ANCOVA with treatment group as the factor and baseline FMV UACR as the covariate.||||||0.229
92351575|NCT00421733|184608359|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||There were no P-value adjustments for multiple comparisons.|ANCOVA|1-way ANCOVA using treatment group as the factor and baseline FMV UACR as the covariate.||||||0.053
92351576|NCT00421733|184608360|SUPERIORITY_OR_OTHER|||||||0.102||95.0|||||Fisher Exact|||||||0.102
92351577|NCT00421733|184608360|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||Fisher Exact|||||||0.038
92351578|NCT00421733|184608361|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.855|TWO_SIDED|95.0|-0.26|0.22|||ANCOVA|2-way ANCOVA: baseline UACR as covariate; fixed factors for treatment group, stratification level, and treatment by stratification level interaction||||0.22|-0.26|0.855
92351579|NCT00421733|184608361|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.33||||0.009|TWO_SIDED|95.0|-0.57|-0.08|||ANCOVA|2-way ANCOVA: baseline UACR as covariate; fixed factors for treatment group, stratification level, and treatment by stratification level interaction||||-0.08|-0.57|0.009
92220150|NCT03710486|184340446|SUPERIORITY||Odds Ratio (OR)|0.61|||=|0.13202|TWO_SIDED|95.0|0.32|1.16|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by propensity scores inverse probability treatment weighting (PS-IPTW).|Estimated with a logistic regression adjusted by PS-IPTW.|||1.16|0.32|=0.13202
92220151|NCT03710486|184340447|SUPERIORITY||Odds Ratio (OR)|1.18|||=|0.5861|TWO_SIDED|95.0|0.65|2.13|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.13|0.65|=0.5861
92275980|NCT05085613|184454409|SUPERIORITY||Mean Difference (Final Values)|8.926191|STANDARD_ERROR_OF_MEAN|6.588643||0.447|TWO_SIDED|95.0|-7.110771|24.96315||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 5|Humor - Control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||24.96315|-7.110771|0.447
92351580|NCT00421733|184608362|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|1-way ANCOVA with treatment group as the factor and baseline iPTH as covariate.||||||<0.001
92351581|NCT00421733|184608362|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|1-way ANCOVA with treatment group as the factor and baseline iPTH as covariate.||||||<0.001
92351582|NCT01967277|184608368|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||H0: µL ≤ µs Versus Ha: µL \> µs||||<0.001
92351583|NCT03300336|184608374|SUPERIORITY||Odds Ratio (OR)|0.77||||0.01|TWO_SIDED|95.0|0.64|0.93||a priori threshold for statistical significance p \<.05|generalized linear model|generalized linear model with a logit link and a binomial distribution|Odds in intervention numerator vs odds in usual care denominator|Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the 7 post-baseline timepoints), and a site-level random effect. Model was not adjusted for patient characteristics. Estimated means and standard errors are provided in Outcome Measure Data table.||0.93|0.64|0.01
92351584|NCT03300336|184608375|SUPERIORITY||rate ratio|1.05||||0.25|TWO_SIDED|95.0|0.97|1.15||a priori threshold for statistical significance p\<.05|generalized linear model|generalized linear model with a log link and negative binomial distribution.|The rate ratio compares the intervention rate in the numerator vs the usual care rate in the denominator|Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the 7 post-baseline time points), a site-level random effect and random effects for each of the time periods. Model was not adjusted for patient characteristics. Estimated means and standard errors are provided in Outcome Measure Data table.||1.15|0.97|0.25
92351585|NCT03300336|184608376|SUPERIORITY||Mean Difference (Net)|1.32||||0.52|TWO_SIDED|95.0|-2.7|5.33||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care group: 5 out of 227 Missing data due to item nonresponse in intervention group: 18 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||5.33|-2.70|0.52
92351586|NCT03300336|184608377|SUPERIORITY||Mean Difference (Net)|1.56||||0.66|TWO_SIDED|95.0|-3.14|6.25||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care group: 5 out of 227 Missing data due to item nonresponse in intervention group: 18 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||6.25|-3.14|0.66
92351587|NCT03300336|184608378|SUPERIORITY||Mean Difference (Net)|-0.52||||0.81|TWO_SIDED|95.0|-4.74|3.7||a priori threshold for significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect.. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care group: 5 out of 227 Missing data due to item nonresponse in intervention group: 14 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||3.70|-4.74|0.81
92351588|NCT03300336|184608379|SUPERIORITY||Odds Ratio (OR)|1.13||||0.74|TWO_SIDED|95.0|0.55|2.32||a priori threshold for statistical significance p\<.05|generalized linear model|generalized linear model with a logit link and a binomial distribution|Odds in intervention numerator vs odds in usual care denominator|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 0 out of 227 Missing data due to item nonresponse in intervention: 5 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||2.32|0.55|0.74
92405648|NCT00790842|184701473|OTHER|Recommended Phase 2 dose for Group A|Dose in milligrams per day|25.0|||||TWO_SIDED||||||||Because no dose limiting toxicities were noted, the recommended phase 2 dose for patients with creatinine clearance of 30 to 60 mL/min is 25 mg/day|Recommended Phase 2 dose for Group A||||
92220152|NCT03710486|184340450|SUPERIORITY||Odds Ratio (OR)|0.65|||=|0.1648|TWO_SIDED|95.0|0.35|1.19|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.19|0.35|=0.1648
92220153|NCT03710486|184340451|SUPERIORITY||Odds Ratio (OR)|0.66|||=|0.1732|TWO_SIDED|95.0|0.36|1.2|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.20|0.36|=0.1732
92220154|NCT03710486|184340454|SUPERIORITY||||||=|0.2011|||||||Log Rank Test Adjusted by PS-IPTW|p-value was estimated with Log Rank test adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.||CD: Vedolizumab Versus Other Biological||||=0.2011
92220155|NCT03710486|184340455|SUPERIORITY||||||=|0.6939|||||||Log Rank Test Adjusted by PS-IPTW|p-value was estimated with Log Rank test adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.||||||=0.6939
92275981|NCT05085613|184454410|SUPERIORITY||Mean Difference (Final Values)|-4.154612|STANDARD_ERROR_OF_MEAN|1.986723||0.113|TWO_SIDED|95.0|-8.985328|0.6761041||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Economic recovery - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||.6761041|-8.985328|0.113
92351589|NCT03300336|184608380|SUPERIORITY||Mean Difference (Net)|0.02||||0.4|TWO_SIDED|95.0|-0.03|0.06||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 14 out of 227 Missing data due to item nonresponse in intervention: 33 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||0.06|-0.03|0.40
92351590|NCT03300336|184608381|SUPERIORITY||Mean Difference (Net)|0.03||||0.18|TWO_SIDED|95.0|-0.01|0.07||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 7 out of 227 Missing data due to item nonresponse in intervention: 23 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||0.07|-0.01|0.18
92351591|NCT03300336|184608382|SUPERIORITY||Mean Difference (Net)|0.8||||0.83|TWO_SIDED|95.0|-6.38|7.98||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 1 out of 227 Missing data due to item nonresponse in intervention: 4 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||7.98|-6.38|0.83
92351592|NCT03300336|184608383|SUPERIORITY||Mean Difference (Net)|1.46||||0.25|TWO_SIDED|95.0|-1.05|3.96||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 2 out of 227 Missing data due to item nonresponse in intervention: 6 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||3.96|-1.05|0.25
92351593|NCT03300336|184608384|SUPERIORITY||Odds Ratio (OR)|1.16||||0.59|TWO_SIDED|95.0|0.68|1.99||a priori threshold for statistical significance p\<.05|generalized linear model|generalized linear model with a logit link and a binomial distribution|Odds in intervention numerator vs odds in usual care denominator|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 1 out of 227 Missing data due to item nonresponse in intervention: 3 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||1.99|0.68|0.59
92351594|NCT03300336|184608385|SUPERIORITY||Mean Difference (Net)|0.99||||0.47|TWO_SIDED|95.0|-1.71|3.69||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 11 out of 227 Missing data due to item nonresponse in intervention: 20 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||3.69|-1.71|0.47
92351595|NCT03300336|184608386|SUPERIORITY||Mean Difference (Net)|-0.07||||0.94|TWO_SIDED|95.0|-1.76|1.62||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 2 out of 227 Missing data due to item nonresponse in intervention group: 7 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||1.62|-1.76|0.94
92351596|NCT00397930|184608387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.3||0.009|TWO_SIDED|||||Between-group differences are expressed as differences in mean Post-Pre change for the global sleep quality PSQI score.|ANCOVA|ANCOVA with post-intervention PSQI score as the outcome, with Group as the factor, and pre-intervention PSQI score as the covariate.|The negative estimated value indicates that the mean Post-Pre change for the YOCAS group was less than that of the Control group.|"H0: There is no statistically significant difference in global sleep quality between post-treatment cancer survivors under the standardized yoga intervention and control protocol at the 0.05 two-sided significance level.~Ha: There is a statistically significant difference in global sleep quality between post-treatment cancer survivors under the standardized yoga intervention and control protocol at the 0.05 two-sided significance level."||||0.009
92161028|NCT00991276|184210585|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.87|STANDARD_ERROR_OF_MEAN|0.98|<|0.0001|TWO_SIDED|95.0|-9.81|-5.93||This analysis was step 5 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-5.93|-9.81|<0.0001
92351597|NCT00505362|184608399|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
92351598|NCT00505362|184608400|SUPERIORITY_OR_OTHER|||||||0.61|||||||t-test, 2 sided|||||||0.61
92351599|NCT02384460|184608401|OTHER||Hazard Ratio (HR)|1.004||||0.985|TWO_SIDED|95.0|0.651|1.549||p-value is for Type 3 chi-square test for comparison between treatments.|Cox Model Analysis|||Cox proportional hazards model compares treatment groups with baseline target wound size, target wound age, and EB type as covariates.||1.549|0.651|0.985
92400605|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.245||||0.0021|TWO_SIDED|95.0|0.45|2.04|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.040|0.450|0.0021
92400606|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.248||||0.0037|TWO_SIDED|95.0|0.406|2.089|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.089|0.406|0.0037
92400607|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.249||||0.0048|TWO_SIDED|95.0|0.382|2.116|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.116|0.382|0.0048
92400608|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.251||||0.0074|TWO_SIDED|95.0|0.336|2.167|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.167|0.336|0.0074
92400609|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.253||||0.0092|TWO_SIDED|95.0|0.31|2.196|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.196|0.310|0.0092
92220156|NCT03710486|184340456|SUPERIORITY||Odds Ratio (OR)|0.29|||=|0.0071|TWO_SIDED|95.0|0.12|0.71|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.71|0.12|=0.0071
92400610|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.255||||0.0132|TWO_SIDED|95.0|0.262|2.248|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.248|0.262|0.0132
92220157|NCT03710486|184340457|SUPERIORITY||Odds Ratio (OR)|1.28|||=|0.4809|TWO_SIDED|95.0|0.64|2.55|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.55|0.64|=0.4809
92220158|NCT03710486|184340458|SUPERIORITY||Odds Ratio (OR)|1.05|||=|0.915|TWO_SIDED|95.0|0.46|2.36|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.36|0.46|=0.9150
92220159|NCT03710486|184340459|SUPERIORITY||Odds Ratio (OR)|1.13|||=|0.7254|TWO_SIDED|95.0|0.56|2.28|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.28|0.56|=0.7254
92220160|NCT03710486|184340460|SUPERIORITY||Odds Ratio (OR)|0.34|||=|0.0051|TWO_SIDED|95.0|0.16|0.72|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.72|0.16|=0.0051
92400611|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.257||||0.0159|TWO_SIDED|95.0|0.236|2.278|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.278|0.236|0.0159
92400612|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.259||||0.0213|TWO_SIDED|95.0|0.187|2.332|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.332|0.187|0.0213
92400613|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.261||||0.0248|TWO_SIDED|95.0|0.16|2.362|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.362|0.160|0.0248
92405649|NCT00790842|184701473|OTHER|Recommended phase 2 dose for patients in Group B|Dose in milligrams/day|25.0|||||TWO_SIDED||||||||Because no dose limiting toxicities were noted, the recommended phase 2 dose of lenalidomide is 25 mg/day for patients with creatinine clearance \< 30 mL/minute who are not on dialysis|Recommended phase 2 dose for patients in Group B||||
92220161|NCT03710486|184340461|SUPERIORITY||Odds Ratio (OR)|0.53|||=|0.0653|TWO_SIDED|95.0|0.27|1.04|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.04|0.27|=0.0653
92220162|NCT03710486|184340462|SUPERIORITY||Odds Ratio (OR)|0.9|||=|0.7629|TWO_SIDED|95.0|0.47|1.74|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.74|0.47|=0.7629
92220163|NCT03710486|184340463|SUPERIORITY||Odds Ratio (OR)|0.8|||=|0.4895|TWO_SIDED|95.0|0.43|1.5|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.50|0.43|=0.4895
92220164|NCT03710486|184340464|SUPERIORITY||Odds Ratio (OR)|0.76|||=|0.4458|TWO_SIDED|95.0|0.38|1.54|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.54|0.38|=0.4458
92220165|NCT03710486|184340465|SUPERIORITY||Odds Ratio (OR)|0.98|||=|0.9471|TWO_SIDED|95.0|0.47|2.04|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.04|0.47|=0.9471
92351600|NCT02384460|184608402|OTHER|Multiple imputation was implemented by 2 steps. The first step used Markov Chain Monte Carlo (MCMC) to get monotonic missing data pattern. In the second step, a logistic regression model was used, with the following covariates included in the imputation model: treatment, EB type, baseline target wound size, target wound age, and non-missing data from earlier time points. The seed number was 010005 and the number of imputations was 5.|Odds Ratio (OR)|0.733||||0.39|TWO_SIDED|95.0|0.365|1.474||p-value is from the logistic regression model for treatment comparison.|Regression, Logistic|||Comparison between treatment groups of complete closure of target wound within 3 months was performed using a logistic regression model with multiple imputation with EB type, baseline target wound size, and baseline target wound age as covariates.||1.474|0.365|0.39
92351601|NCT02384460|184608403|OTHER|Multiple imputation was implemented by 2 steps. The first step used MCMC to get the monotonic missing data pattern. In the second step, a logistic regression model was used, with the following covariates included in the imputation method: treatment, EB type, baseline target wound size, target wound age, and non-missing data from earlier time points. The seed number was 01005 and the number of imputations was 5.|Odds Ratio (OR)|1.633||||0.212|TWO_SIDED|95.0|0.758|3.517||p-value is from the logistic regression model for treatment comparison.|Regression, Logistic|||Logistic Regression Analysis at Month 1 visit. Comparison between treatment groups of complete closure of target wound within 1 month was performed using a logistic regression model with multiple imputation with EB type, baseline target wound size, and baseline target wound age as covariates.||3.517|0.758|0.212
92351602|NCT02384460|184608403|OTHER|Multiple imputation was implemented by 2 steps. The first step used MCMC to get monotonic missing data pattern. In the second step, a logistic regression model was used, with the following covariates included in the imputation model: treatment, EB type, baseline target wound size, target wound age, and non-missing data from earlier time points. The seed number was 01005 and the number of imputations was 5.|Odds Ratio (OR)|0.891||||0.802|TWO_SIDED|95.0|0.436|1.821||p-value is from the logistic regression model for treatment comparison.|Regression, Logistic|||Logistic Regression Analysis at Month 2 visit. Comparison between treatment groups of complete closure of target wound within 2 months was performed using a logistic regression model with multiple imputation with EB type, baseline target wound size, and baseline target wound age as covariates.||1.821|0.436|0.802
92351603|NCT02384460|184608404|OTHER|Multiple imputation was used by 2 steps. The first step used MCMC to get monotonic missing data pattern. In the second step, a linear regression model was used, with the following covariates included in the imputation model: treatment, EB type, baseline BSAI of lesional skin, and non-missing data from earlier time points. The seed number was 01005 and the number of imputations was 5.|LS means difference|0.682||||0.706|TWO_SIDED|95.0|-2.873|4.238||The p-value is calculated based on the hypothesis testing for the difference of least-squares (LS)-means between treatment and placebo.|Mixed Models Analysis|||Mixed Model Repeated Measures (MMRM) Analysis. The MMRM approach (using restricted maximum likelihood \[REML\] estimation) was used on each multiply-imputed data set. The model included treatment, baseline BSAI of lesional skin, EB type, visit, and visit-treatment interaction as the fixed effects.||4.238|-2.873|0.706
92351604|NCT02384460|184608405|OTHER|Multiple imputation was used by 2 steps. The first step used MCMC to get monotonic missing data pattern. In the second step, a linear regression model was used, with the following covariates included in the imputation model: treatment, EB type, baseline BSAI of lesional skin, and non-missing data from earlier time points. The seed number was 01005 and the number of imputations was 5.|LS means difference|0.128||||0.9|TWO_SIDED|95.0|-2.116|1.861||The p-value is calculated based on the hypothesis testing for the difference of LS-means between treatment and placebo.|Mixed Models Analysis|||MMRM Analysis. The MMRM approach (using REML estimation) was used on each multiply-imputed data set. The model included treatment, baseline BSAI of lesional skin, EB type, visit, and visit-treatment interaction as the fixed effects.||1.861|-2.116|0.9
92351605|NCT02384460|184608406|OTHER|Pre-specified.|Odds Ratio (OR)|1.445||||0.262|TWO_SIDED|95.0|0.759|2.752||p-value is from the logistic regression model for treatment comparison.|Regression, Logistic|||The proportion of participants experiencing improvement in itching versus non-improvement (including missing) was compared between the 2 treatment groups for Day 7 using the logistic regression model with baseline itching score, and EB type as covariates.||2.752|0.759|0.262
92351606|NCT02384460|184608407|OTHER|Pre-specified.|Odds Ratio (OR)|0.596||||0.098|TWO_SIDED|95.0|0.323|1.1||p-value is from the logistic regression model for treatment comparison.|Regression, Logistic|||The proportion of participants experiencing improvement in pain versus non-improvement (including missing) was compared between the 2 treatment groups for Day 7 using the logistic regression model with baseline pain score and EB type as covariates.||1.1|0.323|0.098
92351607|NCT02400580|184608411|OTHER|||||||0.517|||||||Fisher Exact|||||||0.517
92351608|NCT02400580|184608413|OTHER|||||||0.508|||||||Fisher Exact|||||||0.508
92351609|NCT01060111|184608428|SUPERIORITY_OR_OTHER|||||||0.6207|||||||ANOVA|Analysis of Variance (ANOVA) for treatment groups (Topiramate standard, Topiramate slow, Topiramate slow and Propranolol booster) was used.||||||0.6207
92351610|NCT01060111|184608428|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferioirity was to be concluded if the ratio of percentage decrease in migraine episodes was greater than 0.7. Power of calculation was 0.9, significance level was 0.025.|Ratio of percentage decrease|0.95||||0.5|TWO_SIDED|95.0|0.519|1.737|||t-test, 1 sided|||||1.737|0.519|0.5
92351611|NCT01060111|184608429|SUPERIORITY_OR_OTHER|||||||0.7247|||||||ANOVA|Analysis of Variance (ANOVA) for treatment groups (Topiramate standard, Topiramate slow, Topiramate slow and Propranolol booster) was used.||||||0.7247
92351612|NCT01060111|184608430|SUPERIORITY_OR_OTHER|||||||0.9872|||||||ANOVA|Analysis of Variance (ANOVA) for treatment groups (Topiramate standard, Topiramate slow, Topiramate slow and Propranolol booster) was used.||||||0.9872
92351613|NCT01060111|184608431|SUPERIORITY_OR_OTHER|||||||0.4326||||||Analysis of Variance (ANOVA) for treatment groups (Topiramate standard, Topiramate slow, Topiramate slow and Propranolol booster) was used.|ANOVA|||||||0.4326
92351614|NCT01004393|184608440|SUPERIORITY_OR_OTHER|||||||0.161|TWO_SIDED||||||ANOVA|||||||0.161
92220166|NCT03710486|184340466|SUPERIORITY||Odds Ratio (OR)|0.42|||=|0.0104|TWO_SIDED|95.0|0.21|0.81|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.81|0.21|=0.0104
92220167|NCT03710486|184340467|SUPERIORITY||Odds Ratio (OR)|0.26|||=|0.0011|TWO_SIDED|95.0|0.12|0.59|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.59|0.12|=0.0011
92220168|NCT03710486|184340468|SUPERIORITY||Odds Ratio (OR)|0.98|||=|0.9471|TWO_SIDED|95.0|0.47|2.04|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|CD Participants||2.04|0.47|=0.9471
92220169|NCT03710486|184340469|SUPERIORITY||Odds Ratio (OR)|0.3|||=|0.0104|TWO_SIDED|95.0|0.12|0.75|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.75|0.12|=0.0104
92220170|NCT03710486|184340470|SUPERIORITY||Odds Ratio (OR)|0.26|||=|0.0011|TWO_SIDED|95.0|0.12|0.59|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.59|0.12|=0.0011
92351615|NCT00976391|184608447|NON_INFERIORITY_OR_EQUIVALENCE|P-value from a one-sided t-test to test whether the difference of least square means (albiglutide - preprandial lispro insulin) is less than or equal to the pre-specified non-inferiority margin of 0.4%|Mean Difference (Net)|-0.16|||<|0.0001|TWO_SIDED|95.0|-0.32|0.0|||t-test, 1 sided|||||0.00|-0.32|<0.0001
92351616|NCT04270760|184608455|SUPERIORITY||Treatment difference|-70.51|STANDARD_ERROR_OF_MEAN|2.35|<|0.001|TWO_SIDED|95.0|-75.12|-65.9||Adjusted p-value is reported based on the Hochberg procedure to control the type I error for multiple comparisons. Each individual adjusted p-value is compared to 0.05 to determine statistical significance.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 36.|Group 1 versus (vs) Group 5||-65.90|-75.12|<0.001
92351617|NCT04270760|184608455|SUPERIORITY||Treatment difference|-97.38|STANDARD_ERROR_OF_MEAN|2.35|<|0.001|TWO_SIDED|95.0|-101.98|-92.77||Adjusted p-value is reported based on the Hochberg procedure to control the type I error for multiple comparisons. Each individual adjusted p-value is compared to 0.05 to determine statistical significance.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 36.|Group 2 vs Group 5||-92.77|-101.98|<0.001
92369447|NCT00851890|184643768|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.003
92369448|NCT00851890|184643768|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.009
92220171|NCT03710486|184340471|SUPERIORITY||Odds Ratio (OR)|1.28|||=|0.54|TWO_SIDED|95.0|0.59|2.78|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.78|0.59|=0.5400
92369449|NCT00851890|184643775|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Day 28 time point.||||0.018
92369450|NCT00851890|184643775|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Day 28 time point.||||0.020
92220172|NCT03710486|184340472|SUPERIORITY||Odds Ratio (OR)|1.21|||=|0.8123|TWO_SIDED|95.0|0.26|5.66|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||5.66|0.26|=0.8123
92369451|NCT00851890|184643775|SUPERIORITY_OR_OTHER|||||||0.054|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Day 28 time point.||||0.054
92369452|NCT00851890|184643775|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Final Visit time point.||||0.010
92369453|NCT00851890|184643775|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Final Visit time point.||||0.005
92369454|NCT00851890|184643775|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Final Visit time point.||||0.014
92369455|NCT00851890|184643776|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.026
92369456|NCT00851890|184643776|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.026
92369457|NCT00851890|184643776|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.138
92369458|NCT00851890|184643777|SUPERIORITY_OR_OTHER|||||||0.209|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.209
92369459|NCT00851890|184643777|SUPERIORITY_OR_OTHER|||||||0.473|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.473
92351618|NCT04270760|184608455|SUPERIORITY||Treatment difference|-101.13|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-105.79|-96.47||Adjusted p-value is reported based on the Hochberg procedure to control the type I error for multiple comparisons. Each individual adjusted p-value is compared to 0.05 to determine statistical significance.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 36.|Group 3 vs Group 5||-96.47|-105.79|<0.001
92351619|NCT04270760|184608455|SUPERIORITY||Treatment difference|-100.49|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-105.16|-95.82|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 36.|Group 4 vs Group 5||-95.82|-105.16|< 0.001
92351620|NCT04270760|184608456|SUPERIORITY||Treatment difference|-68.47|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-74.27|-62.67|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 48.|Group 1 vs Group 5||-62.67|-74.27|<0.001
92351621|NCT04270760|184608456|SUPERIORITY||Treatment difference|-96.12|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-101.92|-90.33|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 48.|Group 2 vs Group 5||-90.33|-101.92|<0.001
92351622|NCT04270760|184608456|SUPERIORITY||Treatment difference|-100.88|STANDARD_ERROR_OF_MEAN|2.99|<|0.001|TWO_SIDED|95.0|-106.74|-95.02|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 48.|Group 3 vs Group 5||-95.02|-106.74|<0.001
92351623|NCT04270760|184608456|SUPERIORITY||Treatment difference|-85.94|STANDARD_ERROR_OF_MEAN|3.0|<|0.001|TWO_SIDED|95.0|-91.83|-80.06|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 48.|Group 4 vs Group 5||-80.06|-91.83|< 0.001
92351624|NCT04270760|184608457|SUPERIORITY||Treatment difference|-23.659|STANDARD_ERROR_OF_MEAN|5.874|<|0.001|TWO_SIDED|95.0|-35.176|-12.143|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 1 vs Group 5||-12.143|-35.176|<0.001
92161029|NCT00991276|184210585|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|0.97|<|0.0001|TWO_SIDED|95.0|3.27|7.12||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||7.12|3.27|<0.0001
92161030|NCT00991276|184210586|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.35|STANDARD_ERROR_OF_MEAN|2.57||0.0396|TWO_SIDED|95.0|-10.44|-0.26||This analysis was step 6 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.26|-10.44|0.0396
92351625|NCT04270760|184608457|SUPERIORITY||Treatment difference|-22.518|STANDARD_ERROR_OF_MEAN|5.875|<|0.001|TWO_SIDED|95.0|-34.036|-11.0|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 2 vs Group 5||-11.000|-34.036|<0.001
92220173|NCT03710486|184340473|SUPERIORITY||Odds Ratio (OR)|0.22|||=|0.0282|TWO_SIDED|95.0|0.06|0.85|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.85|0.06|=0.0282
92369460|NCT00851890|184643777|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.031
92369461|NCT00851890|184643778|SUPERIORITY_OR_OTHER|||||||0.209|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.209
92369462|NCT00851890|184643778|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||1.000
92369463|NCT03135431|184643781|NON_INFERIORITY|\<=.5g/dl difference in the decrease in hemoglobin was considered equivalent as 1 unit of blood typically raises the hemoglobin by 1g/dl and would be a clinical significant difference.|Mean Difference (Final Values)|-0.04121||||0.08|ONE_SIDED|95.0||0.0712|||t-test, 1 sided|||Assuming that a difference of 0.5 g/dl in the drop in hemoglobin between study arms would be considered as equivalent, and assuming a common standard deviation of 1.1 based on previous studies of cesarean deliveries deliveries , the study would have 80% power to test for non-inferiority with 60 participants in each arm (120 total).|Based on new data from a retrospective study preformed at Mayo Clinic sites an additional power calculation was preformed. Based on the new information, our study was well powered (84%) to assess our primary aim with 38 participants (18 salpingectomy, 20 BTL); therefore, we discontinued recruitment and completed the study with the accrued subjects.|.0712||0.08
92369464|NCT03135431|184643782|SUPERIORITY||Mean Difference (Final Values)|-11.21|||||TWO_SIDED|95.0|-14.1|-8.3|||||Evidence to suggest salpingecotomy procedure had a longer operation time than a tubal ligation.|||-8.3|-14.1|
92351626|NCT04270760|184608457|SUPERIORITY||Treatment difference|-22.967|STANDARD_ERROR_OF_MEAN|5.962|<|0.001|TWO_SIDED|95.0|-34.656|-11.278|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 3 vs Group 5||-11.278|-34.656|<0.001
92220174|NCT03710486|184340474|SUPERIORITY||Odds Ratio (OR)|1.13|||=|0.8584|TWO_SIDED|95.0|0.29|4.36|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||4.36|0.29|=0.8584
92220175|NCT03710486|184340475|SUPERIORITY||Odds Ratio (OR)|0.95|||=|0.9474|TWO_SIDED|95.0|0.24|3.78|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||3.78|0.24|=0.9474
92351627|NCT04270760|184608457|SUPERIORITY||Treatment difference|-24.696|STANDARD_ERROR_OF_MEAN|5.969|<|0.001|TWO_SIDED|95.0|-36.399|-12.993|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 4 vs Group 5||-12.993|-36.399|< 0.001
92351628|NCT04270760|184608457|SUPERIORITY||Treatment difference|-24.856|STANDARD_ERROR_OF_MEAN|6.119|<|0.001|TWO_SIDED|95.0|-36.853|-12.859|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 1 vs Group 5||-12.859|-36.853|<0.001
92351629|NCT04270760|184608457|SUPERIORITY||Treatment difference|-21.594|STANDARD_ERROR_OF_MEAN|6.118|<|0.001|TWO_SIDED|95.0|-33.59|-9.598|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 2 vs Group 5||-9.598|-33.590|<0.001
92351630|NCT04270760|184608457|SUPERIORITY||Treatment difference|-27.421|STANDARD_ERROR_OF_MEAN|6.194|<|0.001|TWO_SIDED|95.0|-39.565|-15.277|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 3 vs Group 5||-15.277|-39.565|<0.001
92351631|NCT04270760|184608457|SUPERIORITY||Treatment difference|-27.021|STANDARD_ERROR_OF_MEAN|6.232|<|0.001|TWO_SIDED|95.0|-39.24|-14.801|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 4 vs Group 5||-14.801|-39.240|<0.001
92351632|NCT04270760|184608458|SUPERIORITY||Treatment difference|-18.89|STANDARD_ERROR_OF_MEAN|3.779|<|0.001|TWO_SIDED|95.0|-26.303|-11.477|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 1 vs Group 5||-11.477|-26.303|<0.001
92351633|NCT04270760|184608458|SUPERIORITY||Treatment difference|-16.696|STANDARD_ERROR_OF_MEAN|3.778|<|0.001|TWO_SIDED|95.0|-24.107|-9.284|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 2 vs Group 5||-9.284|-24.107|<0.001
92351634|NCT04270760|184608458|SUPERIORITY||Treatment difference|-17.635|STANDARD_ERROR_OF_MEAN|3.825|<|0.001|TWO_SIDED|95.0|-25.139|-10.131|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 3 vs Group 5||-10.131|-25.139|<0.001
92220176|NCT03710486|184340476|SUPERIORITY||Odds Ratio (OR)|0.73|||=|0.3103|TWO_SIDED|95.0|0.4|1.34|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse event||1.34|0.40|=0.3103
92220177|NCT03710486|184340476|SUPERIORITY||Odds Ratio (OR)|0.41|||=|0.0045|TWO_SIDED|95.0|0.22|0.76|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse event||0.76|0.22|=0.0045
92351635|NCT04270760|184608458|SUPERIORITY||Treatment difference|-18.772|STANDARD_ERROR_OF_MEAN|3.839|<|0.001|TWO_SIDED|95.0|-26.303|-11.241|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 4 vs Group 5||-11.241|-26.303|< 0.001
92351636|NCT04270760|184608458|SUPERIORITY||Treatment difference|-20.04|STANDARD_ERROR_OF_MEAN|4.443|<|0.001|TWO_SIDED|95.0|-28.757|-11.323|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 1 vs Group 5||-11.323|-28.757|<0.001
92351637|NCT04270760|184608458|SUPERIORITY||Treatment difference|-17.06|STANDARD_ERROR_OF_MEAN|4.442|<|0.001|TWO_SIDED|95.0|-25.774|-8.345|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 2 vs Group 5||-8.345|-25.774|<0.001
92351638|NCT04270760|184608458|SUPERIORITY||Treatment difference|-19.509|STANDARD_ERROR_OF_MEAN|4.5|<|0.001|TWO_SIDED|95.0|-28.336|-10.682|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 3 vs Group 5||-10.682|-28.336|<0.001
92351639|NCT04270760|184608458|SUPERIORITY||Treatment difference|-21.839|STANDARD_ERROR_OF_MEAN|4.517|<|0.001|TWO_SIDED|95.0|-30.7|-12.979|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 4 vs Group 5||-12.979|-30.700|<0.001
92220178|NCT03710486|184340476|SUPERIORITY||Odds Ratio (OR)|1.19|||=|0.6287|TWO_SIDED|95.0|0.59|2.42|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse event||2.42|0.59|=0.6287
92220179|NCT03710486|184340476|SUPERIORITY||Odds Ratio (OR)|0.65|||=|0.2495|TWO_SIDED|95.0|0.31|1.36|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse event||1.36|0.31|=0.2495
92351640|NCT00762177|184608484|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351641|NCT00762177|184608485|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92220180|NCT03710486|184340477|SUPERIORITY||Risk Ratio (RR)|0.89|||=|0.4784|TWO_SIDED|95.0|0.66|1.22|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse event||1.22|0.66|=0.4784
92220181|NCT03710486|184340477|SUPERIORITY||Risk Ratio (RR)|0.83|||=|0.2616|TWO_SIDED|95.0|0.6|1.15|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse event||1.15|0.60|=0.2616
92351642|NCT00762177|184608486|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351643|NCT00762177|184608487|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92400614|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.263||||0.0318|TWO_SIDED|95.0|0.11|2.416|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.416|0.110|0.0318
92405650|NCT00790842|184701473|OTHER|Recommended phase 2 dose for Group C|Lenalidomide dose in mg/day|25.0|||||TWO_SIDED||||||||Because no dose limiting toxicities were observed, the recommended phase 2 dose of lenalidomide is 25 mg/day for patients with creatinine clearance \< 30 mL/min who are receiving dialysis|Recommended phase 2 dose for Group C||||
92220182|NCT03710486|184340477|SUPERIORITY||Risk Ratio (RR)|2.01|||=|0.0077|TWO_SIDED|95.0|1.2|3.34|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse event||3.34|1.20|=0.0077
92220183|NCT03710486|184340477|SUPERIORITY||Risk Ratio (RR)|1.3|||=|0.3046|TWO_SIDED|95.0|0.79|2.14|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse event||2.14|0.79|=0.3046
92220184|NCT03710486|184340478|SUPERIORITY||Odds Ratio (OR)|0.54|||=|0.1681|TWO_SIDED|95.0|0.22|1.3|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse events related to treatment||1.30|0.22|=0.1681
92220185|NCT03710486|184340478|SUPERIORITY||Odds Ratio (OR)|0.23|||=|0.0645|TWO_SIDED|95.0|0.05|1.09|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse events related to treatment||1.09|0.05|=0.0645
92351644|NCT00762177|184608488|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351645|NCT00762177|184608489|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351646|NCT00762177|184608490|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351647|NCT00762177|184608491|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||the tongue will be scrapped 5 times with the edge of a tongue depressor. The depressor is vortex in sterile phosphate buffered saline(PBS) and the sample is then sonicated using a Branson 450A sonicator with a cup horn for 30 seconds. Samples diluted (10 fold) in PBS and plated using a spiral systems autoplate 4000 spiral plater on CFAT Agar||||0.05
92351648|NCT00762177|184608492|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351649|NCT00762177|184608493|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351650|NCT00762177|184608494|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351651|NCT00762177|184608495|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351652|NCT00762177|184608496|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351653|NCT00762177|184608497|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351654|NCT00762177|184608498|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351655|NCT00762177|184608499|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351656|NCT00762177|184608500|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351657|NCT00762177|184608501|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351658|NCT00762177|184608502|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351659|NCT00762177|184608503|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351660|NCT00762177|184608504|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351661|NCT00762177|184608505|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351662|NCT00762177|184608506|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92400615|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.265||||0.036|TWO_SIDED|95.0|0.083|2.447|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.447|0.083|0.0360
92400616|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.267||||0.0443|TWO_SIDED|95.0|0.032|2.502|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.502|0.032|0.0443
92400617|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.269||||0.0493|TWO_SIDED|95.0|0.004|2.533|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.533|0.004|0.0493
92351663|NCT00762177|184608507|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92351664|NCT04180696|184608539|SUPERIORITY|Endpoint for statistical analysis is the proportion Improved.||||||0.61|||||||Chi-squared|||||||0.61
92351665|NCT04180696|184608540|SUPERIORITY||Odds Ratio (OR)|1.192|STANDARD_ERROR_OF_MEAN|0.367||0.63|TWO_SIDED|95.0|0.579|2.455|||Regression, Logistic|Proportional odds logistic regression model. Baseline NYHA class and time included as fixed covariates.||Due to limited number of subjects with NYHA class III or IV during follow-up, class III, IV, and death were grouped as a single category for analysis.||2.455|0.579|0.63
92351666|NCT04180696|184608541|SUPERIORITY||Hazard Ratio (HR)|1.25|STANDARD_ERROR_OF_MEAN|0.476||0.64|TWO_SIDED|95.0|0.492|3.175|||Regression, Cox|Adjusted for NYHA class and sex.||||3.175|0.492|0.64
92351667|NCT04180696|184608542|SUPERIORITY|||||||0.78|||||||Log Rank|||||||0.78
92351668|NCT04180696|184608543|SUPERIORITY||Hazard Ratio (HR)|1.02|STANDARD_ERROR_OF_MEAN|0.817||0.98|TWO_SIDED|95.0|0.206|5.056|||Regression, Cox|||||5.056|0.206|0.98
92351669|NCT04906421|184608562|SUPERIORITY|||||||0.0018||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|One-sided||ITT Population analysis||||0.0018
92351670|NCT04906421|184608562|SUPERIORITY|||||||0.0035||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||ITT Population Analysis||||0.0035
92351671|NCT04906421|184608562|SUPERIORITY|||||||0.0001||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|t-test, 1 sided|One-sided||mITT Population Analysis||||0.0001
92351672|NCT04906421|184608562|SUPERIORITY|||||||0.0003||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||0.0003
92351673|NCT04906421|184608563|SUPERIORITY|||||||0.0087||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|One-sided||ITT Population Analysis||||0.0087
92351674|NCT04906421|184608563|SUPERIORITY|||||||0.0173||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||ITT Population Analysis||||0.0173
92351675|NCT04906421|184608563|SUPERIORITY|||||||0.0022||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|One-sided||mITT Population Analysis||||0.0022
92351676|NCT04906421|184608563|SUPERIORITY|||||||0.0044||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||0.0044
92351677|NCT04906421|184608564|SUPERIORITY|||||||0.0102|TWO_SIDED|95.0||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||0.0102
92351678|NCT04906421|184608564|SUPERIORITY|||||||0.59|TWO_SIDED|95.0||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||Subgroup Fibrosis Stage F2 at Baseline Population Analysis||||0.59
92351679|NCT04906421|184608564|SUPERIORITY|||||||0.0032|TWO_SIDED|95.0||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-Sided||Subgroup Fibrosis Stage F3 at Baseline Population Analysis||||0.0032
92351680|NCT04906421|184608564|SUPERIORITY|||||||0.0764|TWO_SIDED|95.0||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||Subgroup Type 2 Diabetes Mellitus at Baseline Population Analysis||||0.0764
92351681|NCT04906421|184608565|SUPERIORITY|||||||0.0043||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||0.0043
92351682|NCT04906421|184608566|SUPERIORITY|||||||0.0018||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||0.0018
92161031|NCT00991276|184210586|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|2.55||0.0568|TWO_SIDED|95.0|-9.95|0.14||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.14|-9.95|0.0568
92351683|NCT04906421|184608567|SUPERIORITY||||||<|0.0001||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||<0.0001
92351684|NCT02405962|184608593|SUPERIORITY||Adjusted Incidence Rate Ratio|0.2|||<|0.05|TWO_SIDED|95.0|0.08|0.53|||Mixed Models Analysis|||||0.53|0.08|<0.05
92351685|NCT00990769|184608608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|5.0|>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Sample size calculation concluded that 20 patients in each group would have 80% power to detect a mean difference of 4 ± 4 with alpha equal to 0.05, as would be determined by a two-sample T test.||||>0.05
92351686|NCT01214720|184608614|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0002|TWO_SIDED|95.0|0.61|0.86|||Log Rank|||||0.86|0.61|0.0002
92351687|NCT01214720|184608615|SUPERIORITY_OR_OTHER||Difference in Response Rates|3.62||||0.3621|TWO_SIDED|95.0|-4.3|11.6|||Chi-squared|Approximate 95% confidence interval (CI) for difference of two rates using Hauck-Anderson method.||||11.6|-4.3|0.3621
92351688|NCT01214720|184608616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.2087||95.0|0.74|1.07|||Log Rank|||||1.07|0.74|0.2087
92351689|NCT00433290|184608624|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Week 4 Change from Baseline. Treatment effects and interaction effects were evaluated based on two-sided significance level of 0.05. No adjustments for multiple comparisons were made.|Mixed Models Analysis|Repeated Measures Model: Change=Treatment,NSAID use, Pooled Investigator, Visit, Baseline, Treatment\*Visit, Baseline\*Visit||Null hypothesis=the difference in the BPI average pain score between the duloxetine and placebo treatment goups at the last visit of the treatment phase is zero.||||<0.001
92161032|NCT00991276|184210586|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|2.52||0.8589|TWO_SIDED|95.0|-5.44|4.54||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||4.54|-5.44|0.8589
92220186|NCT03710486|184340478|SUPERIORITY||Odds Ratio (OR)|0.38|||=|0.3145|TWO_SIDED|95.0|0.06|2.51|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse events related to treatment||2.51|0.06|=0.3145
92351690|NCT00433290|184608624|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Week 7 Change from Baseline. Treatment effects and interaction effects were evaluated based on two-sided significance level of 0.05. No adjustments for multiple comparisons were made.|Mixed Models Analysis|Repeated Measures Model: Change=Treatment,NSAID use, Pooled Investigator, Visit, Baseline, Treatment\*Visit, Baseline\*Visit||Null hypothesis=the difference in the BPI average pain score between the duloxetine and placebo treatment goups at the last visit of the treatment phase is zero.||||<0.001
92351691|NCT00433290|184608624|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Week 13 Change from Baseline. Treatment effects and interaction effects were evaluated based on two-sided significance level of 0.05. No adjustments for multiple comparisons were made.|Mixed Models Analysis|Repeated Measures Model: Change=Treatment,NSAID use, Pooled Investigator, Visit, Baseline, Treatment\*Visit, Baseline\*Visit||Null hypothesis=the difference in the BPI average pain score between the duloxetine and placebo treatment goups at the last visit of the treatment phase is zero.||||<0.001
92351692|NCT00433290|184608625|SUPERIORITY_OR_OTHER|||||||0.164||95.0|||||ANCOVA|Model: PGI-Improvement=Treatment, Pooled Investigator, baseline severity and NSAID used for main effect p-values.||||||0.164
92351693|NCT00433290|184608626|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value for Change from Baseline (change = endpoint - baseline)|ANCOVA|Model: Change=Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.016
92351694|NCT00433290|184608627|SUPERIORITY_OR_OTHER|||||||0.068||95.0||||P-value for Change from Baseline. Change = Week 13 value minus baseline value.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.068
92351695|NCT00433290|184608628|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||P-value for Change from Baseline. Change = Week 13 value minus baseline value.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.064
92351696|NCT00433290|184608629|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value for Change in Weekly 24-Hour Average Pain. Change = endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.008
92351697|NCT00433290|184608629|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-value for Change in Weekly 24-Hour Worst Pain. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.047
92351698|NCT00433290|184608630|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.009
92351699|NCT00433290|184608631|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92351700|NCT00433290|184608632|SUPERIORITY_OR_OTHER|||||||0.897||95.0||||P-value for Mental Component Summary Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.897
92351701|NCT00433290|184608632|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Physical Component Summary Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||<0.001
92161033|NCT00991276|184210587|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.5|STANDARD_ERROR_OF_MEAN|2.91|<|0.0001|TWO_SIDED|95.0|-20.26|-8.74||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-8.74|-20.26|<0.0001
92161034|NCT00991276|184210587|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.35|STANDARD_ERROR_OF_MEAN|2.88||0.0001|TWO_SIDED|95.0|5.65|17.04||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||17.04|5.65|0.0001
92161035|NCT00991276|184210587|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.84|STANDARD_ERROR_OF_MEAN|2.86|<|0.0001|TWO_SIDED|95.0|-31.51|-20.17||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-20.17|-31.51|<0.0001
92161036|NCT00991276|184210588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.53|STANDARD_ERROR_OF_MEAN|3.19|<|0.0001|TWO_SIDED|95.0|-20.84|-8.22||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-8.22|-20.84|<0.0001
92161037|NCT00991276|184210588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|14.42|STANDARD_ERROR_OF_MEAN|3.15|<|0.0001|TWO_SIDED|95.0|8.18|20.67||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||20.67|8.18|<0.0001
92400618|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.271||||0.0587|TWO_SIDED|95.0|-0.047|2.589|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.589|-0.047|0.0587
92161038|NCT00991276|184210588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.95|STANDARD_ERROR_OF_MEAN|3.14|<|0.0001|TWO_SIDED|95.0|-35.16|-22.74||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-22.74|-35.16|<0.0001
92220187|NCT03710486|184340478|SUPERIORITY||Odds Ratio (OR)|1.49|||=|0.8197|TWO_SIDED|95.0|0.05|47.11|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse events related to treatment||47.11|0.05|=0.8197
92220188|NCT03710486|184340479|SUPERIORITY||Risk Ratio (RR)|0.43|||=|0.0239|TWO_SIDED|95.0|0.2|0.89|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse events related to treatment||0.89|0.20|=0.0239
92220189|NCT03710486|184340479|SUPERIORITY||Risk Ratio (RR)|0.21|||=|0.0373|TWO_SIDED|95.0|0.05|0.91|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse events related to treatment||0.91|0.05|=0.0373
92220190|NCT03710486|184340479|SUPERIORITY||Risk Ratio (RR)|0.54|||=|0.426|TWO_SIDED|95.0|0.12|2.49|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse events related to treatment||2.49|0.12|=0.4260
92220191|NCT03710486|184340479|SUPERIORITY||Risk Ratio (RR)|1.56|||=|0.8012|TWO_SIDED|95.0|0.05|48.44|||Poisson Regression||The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse events related to treatment||48.44|0.05|=0.8012
92220192|NCT03710486|184340480|SUPERIORITY||Odds Ratio (OR)|0.17|||=|0.0044|TWO_SIDED|95.0|0.05|0.58|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|||0.58|0.05|=0.0044
92220193|NCT03710486|184340480|SUPERIORITY||Odds Ratio (OR)|0.32|||=|0.0215|TWO_SIDED|95.0|0.12|0.84|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|||0.84|0.12|=0.0215
92220194|NCT03710486|184340481|SUPERIORITY||Risk Ratio (RR)|0.27|||=|0.0152|TWO_SIDED|95.0|0.1|0.78|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|||0.78|0.10|=0.0152
92351702|NCT00433290|184608632|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for Bodily Pain Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.004
92351703|NCT00433290|184608632|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value for General Health Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.051
92351704|NCT00433290|184608632|SUPERIORITY_OR_OTHER|||||||0.508||95.0||||P-value for Mental Health Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.508
92351705|NCT00433290|184608632|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value for Physical Functioning Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.019
92351706|NCT00433290|184608632|SUPERIORITY_OR_OTHER|||||||0.415||95.0||||P-value for Role-Emotional Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.415
92351707|NCT00433290|184608632|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value for Role-Physical Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.006
92351708|NCT00433290|184608632|SUPERIORITY_OR_OTHER|||||||0.342||95.0||||P-value for Social Functioning Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.342
92351709|NCT00433290|184608632|SUPERIORITY_OR_OTHER|||||||0.135||95.0||||P-value for Vitality Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.135
92351710|NCT00433290|184608633|SUPERIORITY_OR_OTHER|||||||0.209||95.0||||P-value for EQ-5D Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change=Treament, Pooled Investigator, NSAID use and Baseline for main effect p-value.||||||0.209
92405651|NCT02504151|184701481|SUPERIORITY||Mean Difference (Net)|-0.284|STANDARD_ERROR_OF_MEAN|1.01||0.08|TWO_SIDED|95.0|-2.28|1.71|||Mixed Models Analysis|Linear mixed models was used with treatment, time and time\*treatment interaction in the model.|This is the estimated difference between treatment groups (cbd - placebo).|The p value is based on the interaction of treatment and time.||1.71|-2.28|0.08
92275982|NCT05085613|184454410|SUPERIORITY||Mean Difference (Final Values)|-2.685896|STANDARD_ERROR_OF_MEAN|2.046067||0.473|TWO_SIDED|95.0|-7.6609|2.289114||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Freedom - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||2.289114|-7.66090|0.473
92351711|NCT00433290|184608634|SUPERIORITY_OR_OTHER|||||||0.871||95.0||||P-value for Change from Baseline. Change = Week 13 value minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.871
92351712|NCT00433290|184608635|SUPERIORITY_OR_OTHER|||||||0.138||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.138
92351713|NCT00433290|184608636|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.003
92351714|NCT00433290|184608637|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.015
92351715|NCT00433290|184608638|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||<0.001
92351716|NCT00433290|184608638|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for direct analgesic effect. The null hypothesis was tested by testing a1=0 versus a1≠0.|Regression, Linear|||Path analysis was used to test null hypothesis that change in BPI average pain severity depends on improvement of BDI or HADS-A, versus improvement in BPI average pain severity is due to a direct analgesic effect of treatment and not dependent on improvement in depression or anxiety symptoms. Model:Change in BPI average pain score=a0+a1\*treatment group+a2\*change in BDI total+a3\*change in HADS-A+a4\*BL of BPI average pain+a5\*BL of BDI total+a6\*BL of HADS-A.||||0.002
92351717|NCT00433290|184608639|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value for Change from Baseline. Change=Endpoint minus baseline.|ANCOVA|||||||0.007
92351718|NCT00433290|184608640|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.050
92351719|NCT00433290|184608641|SUPERIORITY_OR_OTHER|||||||0.913||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.913
92351720|NCT00433290|184608642|SUPERIORITY_OR_OTHER|||||||0.066||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.066
92351721|NCT00433290|184608643|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.001
92351722|NCT00433290|184608644|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.260
92351723|NCT00433290|184608645|SUPERIORITY_OR_OTHER|||||||0.489||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.489
92351724|NCT00433290|184608646|SUPERIORITY_OR_OTHER|||||||0.131||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.131
92351725|NCT00433290|184608647|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.082
92351726|NCT00433290|184608649|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Alkaline Phosphatase Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||<0.001
92351727|NCT00433290|184608649|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value for AST Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.010
92351728|NCT00433290|184608649|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value for GGT Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.023
92351729|NCT00433290|184608650|SUPERIORITY_OR_OTHER|||||||0.042||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.042
92161039|NCT00991276|184210589|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.86|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-3.93|-1.8||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.80|-3.93|<0.0001
92351730|NCT00433290|184608651|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.005
92351731|NCT00433290|184608652|SUPERIORITY_OR_OTHER|||||||0.285||95.0||||P-value for SBP Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.285
92351732|NCT00433290|184608652|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||P-value for DBP Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.668
92351733|NCT00433290|184608653|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||<0.001
92351734|NCT00433290|184608654|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||t-test, 2 sided|||||||0.040
92351735|NCT00086307|184608666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.826|STANDARD_ERROR_OF_MEAN|2.296||0.018|TWO_SIDED|95.0|1.111|12.541||This is the omnibus effect of drug.|Mixed Models Analysis|||A linear mixed model with restricted maximum likelihood estimation and a first order autoregressive covariance structure was used to examine depressive symptoms over time. Fixed factors for drug, time, and a time by drug interaction were included in the model along with the intercept. No random factors were included because the subject factor did not contribute significantly to the model. Baseline symptoms were used as a covariate.||12.541|1.111|.018
92351736|NCT00086307|184608666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.826|STANDARD_ERROR_OF_MEAN|2.296||0.014|TWO_SIDED|95.0|1.111|12.541||The significance level was adjusted using a Bonferroni correction.|Post hoc simple effects test||The pramipexole group had a lower MADRS score than the pramipexole and escitalopram group.|Post-hoc simple effects tests with Bonferroni correction were used to compare the pramipexole group to the pramipexole and escitalopram combination group.||12.541|1.111|.014
92400619|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.273||||0.0642|TWO_SIDED|95.0|-0.075|2.62|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.620|-0.075|0.0642
92400620|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.275||||0.0746|TWO_SIDED|95.0|-0.127|2.677|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.677|-0.127|0.0746
92161040|NCT00991276|184210589|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.71|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-5.76|-3.65||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-3.65|-5.76|<0.0001
92220195|NCT03710486|184340481|SUPERIORITY||Risk Ratio (RR)|1.56|||=|0.8012|TWO_SIDED|95.0|0.05|48.44|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|||48.44|0.05|=0.8012
92351737|NCT00086307|184608666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.353|STANDARD_ERROR_OF_MEAN|2.296||0.454|TWO_SIDED|95.0|-2.36|9.066||The significance level was adjusted using a Bonferroni correction.|Post hoc simple effects test||The escitalopram group had a lower MADRS score than the pramipexole and escitalopram group.|Post-hoc simple effects tests with Bonferroni correction were used to compare the escitalopram group to the pramipexole and escitalopram combination group.||9.066|-2.360|.454
92351738|NCT00086307|184608666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.473|STANDARD_ERROR_OF_MEAN|2.162||0.349|TWO_SIDED|95.0|-1.942|8.888||The significance level was adjusted using a Bonferroni correction.|Post hoc simple effects test||The pramipexole group had a lower MADRS score than the escitalopram group.|Post-hoc simple effects tests with Bonferroni correction were used to compare the pramipexole group to the escitalopram group.||8.888|-1.942|.349
92351739|NCT03158311|184608672|NON_INFERIORITY|Non-inferiority margin: 0.25 points|Least Square mean (LS Mean)|-0.038|STANDARD_ERROR_OF_MEAN|0.051|<|0.001|ONE_SIDED|97.5|-0.139|||P-Value is one-sided|Mixed Model for Repeated Measures (MMRM)||||||-0.139|<0.001
92351740|NCT03158311|184608672|NON_INFERIORITY|Non-inferiority margin: 0.25 points|LS Mean|0.073|STANDARD_ERROR_OF_MEAN|0.051|<|0.001|ONE_SIDED|97.5|-0.027|||P-Value is one-sided|MMRM||||||-0.027|<0.001
92351741|NCT03158311|184608673|SUPERIORITY||LS Mean|0.003|STANDARD_ERROR_OF_MEAN|0.025||0.892|TWO_SIDED|95.0|-0.046|0.052||P-value is two-sided|MMRM|||Week 8||0.052|-0.046|0.892
92351742|NCT03158311|184608673|SUPERIORITY||LS Mean|0.067|STANDARD_ERROR_OF_MEAN|0.025||0.007|TWO_SIDED|95.0|0.018|0.115||P-value is two-sided|MMRM|||Week 8||0.115|0.018|0.007
92351743|NCT03158311|184608673|SUPERIORITY||LS Mean|-0.002|STANDARD_ERROR_OF_MEAN|0.025||0.945|TWO_SIDED|95.0|-0.05|0.047||P-value is two-sided|MMRM|||Week 16||0.047|-0.050|0.945
92351744|NCT03158311|184608673|SUPERIORITY||LS Mean|0.066|STANDARD_ERROR_OF_MEAN|0.025||0.007|TWO_SIDED|95.0|0.018|0.114||P-value is two-sided|MMRM|||Week 16||0.114|0.018|0.007
92351745|NCT03158311|184608673|SUPERIORITY||LS Mean|0.009|STANDARD_ERROR_OF_MEAN|0.026||0.713|TWO_SIDED|95.0|-0.041|0.06||P-value is two-sided|MMRM|||Week 24||0.060|-0.041|0.713
92351746|NCT03158311|184608673|SUPERIORITY||LS Mean|0.096|STANDARD_ERROR_OF_MEAN|0.026|<|0.001|TWO_SIDED|95.0|0.046|0.146||P-value is two-sided|MMRM|||Week 24||0.146|0.046|<0.001
92351747|NCT03158311|184608674|SUPERIORITY||LS Mean|-0.023|STANDARD_ERROR_OF_MEAN|0.046||0.308|TWO_SIDED|95.0|-0.113|0.067||P-value is one-sided|MMRM|||Week 16||0.067|-0.113|0.308
92220196|NCT00432042|184340498|NON_INFERIORITY_OR_EQUIVALENCE|Measles difference|Mean Difference (Final Values)|1.14|||||TWO_SIDED|95.0|-1.62|4.82|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -10%.|||4.82|-1.62|
92220197|NCT00432042|184340498|NON_INFERIORITY_OR_EQUIVALENCE|Mumps difference|Mean Difference (Final Values)|-1.83|||||TWO_SIDED|95.0|-4.21|1.1|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -10%.|||1.10|-4.21|
92351748|NCT03158311|184608674|SUPERIORITY||LS Mean|-0.079|STANDARD_ERROR_OF_MEAN|0.046||0.044|TWO_SIDED|95.0|-0.169|0.012||P-value is one-sided|MMRM|||Week 16||0.012|-0.169|0.044
92351749|NCT03158311|184608674|SUPERIORITY||LS Mean|-0.032|STANDARD_ERROR_OF_MEAN|0.047||0.245|TWO_SIDED|95.0|-0.125|0.06||P-value is one sided|MMRM|||Week 24||0.060|-0.125|0.245
92351750|NCT03158311|184608674|SUPERIORITY||LS Mean|-0.124|STANDARD_ERROR_OF_MEAN|0.047||0.004|TWO_SIDED|95.0|-0.216|-0.032||P-value is one sided|MMRM|||Week 24||-0.032|-0.216|0.004
92351751|NCT03158311|184608675|SUPERIORITY||LS Mean|0.018|STANDARD_ERROR_OF_MEAN|0.049||0.719|TWO_SIDED|95.0|-0.079|0.115||P-value is two-sided|MMRM|||||0.115|-0.079|0.719
92275983|NCT05085613|184454410|SUPERIORITY||Mean Difference (Final Values)|-6.469932|STANDARD_ERROR_OF_MEAN|2.102231||0.008|TWO_SIDED|95.0|-11.58151|-1.358358||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Humor - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||-1.358358|-11.58151|0.008
92351752|NCT03158311|184608675|SUPERIORITY||LS Mean|0.082|STANDARD_ERROR_OF_MEAN|0.049||0.097|TWO_SIDED|95.0|-0.015|0.179||P-value is two-sided|MMRM|||||0.179|-0.015|0.097
92351753|NCT03158311|184608676|SUPERIORITY||Odds Ratio (OR)|1.23||||0.061|TWO_SIDED|95.0|0.94|1.61||P-value is one sided|Regression, Logistic|Logistic Regression Model via Generalized estimating equations (GEE)||||1.61|0.94|0.061
92351754|NCT03158311|184608676|SUPERIORITY||Odds Ratio (OR)|1.11||||0.227|TWO_SIDED|95.0|0.85|1.46||P-value is one-sided|Regression, Logistic|Logistic Regression Model via GEE||||1.46|0.85|0.227
92351755|NCT03158311|184608677|SUPERIORITY||Odds Ratio (OR)|1.17||||0.108|TWO_SIDED|95.0|0.91|1.49||P-value is one sided|Regression, Logistic|Logistic regression model via the GEE||||1.49|0.91|0.108
92405652|NCT02504151|184701482|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.48|TWO_SIDED|95.0|-0.12|0.07|||Mixed Models Analysis||This is the estimated difference between treatment groups (cbd - placebo).|The p value is based on the interaction of treatment and time.||0.07|-0.12|0.48
92220198|NCT00432042|184340498|NON_INFERIORITY_OR_EQUIVALENCE|Rubella difference|Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-3.19|1.35|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -10%.|||1.35|-3.19|
92220199|NCT00432042|184340498|NON_INFERIORITY_OR_EQUIVALENCE|Varicella difference|Mean Difference (Final Values)|2.53|||||TWO_SIDED|95.0|-0.41|6.58|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -10%.|||6.58|-0.41|
92351756|NCT03158311|184608677|SUPERIORITY||Odds Ratio (OR)|1.33||||0.013|TWO_SIDED|95.0|1.03|1.7||P-Value is one sided|Regression, Logistic|Logistic regression model via the GEE||||1.70|1.03|0.013
92351757|NCT03158311|184608678|SUPERIORITY||LS Mean|-0.003|STANDARD_ERROR_OF_MEAN|0.027||0.908|TWO_SIDED|95.0|-0.055|0.049||P-Value is two-sided|MMRM|||Week 8||0.049|-0.055|0.908
92351758|NCT03158311|184608678|SUPERIORITY||LS Mean|0.053|STANDARD_ERROR_OF_MEAN|0.026||0.046|TWO_SIDED|95.0|0.001|0.104||P-Value is two-sided|MMRM|||Week 8||0.104|0.001|0.046
92351759|NCT03158311|184608678|SUPERIORITY||LS Mean|0.004|STANDARD_ERROR_OF_MEAN|0.026||0.87|TWO_SIDED|95.0|-0.047|0.056||P-Value is two-sided|MMRM|||Week 16||0.056|-0.047|0.870
92351760|NCT03158311|184608678|SUPERIORITY||LS Mean|0.058|STANDARD_ERROR_OF_MEAN|0.026||0.028|TWO_SIDED|95.0|0.006|0.109||P-Value is two-sided|MMRM|||Week 16||0.109|0.006|0.028
92351761|NCT03158311|184608678|SUPERIORITY||LS Mean|0.028|STANDARD_ERROR_OF_MEAN|0.028||0.303|TWO_SIDED|95.0|-0.026|0.083||P-Value is two-sided|MMRM|||Week 24||0.083|-0.026|0.303
92351762|NCT03158311|184608678|SUPERIORITY||LS Mean|0.095|STANDARD_ERROR_OF_MEAN|0.027|<|0.001|TWO_SIDED|95.0|0.041|0.148||P-Value is two-sided|MMRM|||Week 24||0.148|0.041|<0.001
92351763|NCT03158311|184608679|SUPERIORITY||LS Mean|0.02|STANDARD_ERROR_OF_MEAN|0.034||0.563|TWO_SIDED|95.0|-0.048|0.087||P-value is two-sided|MMRM|||Week 8||0.087|-0.048|0.563
92351764|NCT03158311|184608679|SUPERIORITY||LS Mean|0.062|STANDARD_ERROR_OF_MEAN|0.034||0.068|TWO_SIDED|95.0|-0.005|0.129||P-Value is two-sided|MMRM|||Week 8||0.129|-0.005|0.068
92351765|NCT03158311|184608679|SUPERIORITY||LS Mean|-0.007|STANDARD_ERROR_OF_MEAN|0.035||0.844|TWO_SIDED|95.0|-0.076|0.062||P-Value is two-sided|MMRM|||Week 16||0.062|-0.076|0.844
92351766|NCT03158311|184608679|SUPERIORITY||LS Mean|0.058|STANDARD_ERROR_OF_MEAN|0.035||0.097|TWO_SIDED|95.0|-0.01|0.125||P-Value is two-sided|MMRM|||Week 16||0.125|-0.010|0.097
92351767|NCT03158311|184608679|SUPERIORITY||LS Mean|0.003|STANDARD_ERROR_OF_MEAN|0.036||0.927|TWO_SIDED|95.0|-0.067|0.074||P-Value is two-sided|MMRM|||Week 24||0.074|-0.067|0.927
92351768|NCT03158311|184608679|SUPERIORITY||LS Mean|0.089|STANDARD_ERROR_OF_MEAN|0.036||0.013|TWO_SIDED|95.0|0.019|0.159||P-Value is two-sided|MMRM|||Week 24||0.159|0.019|0.013
92351769|NCT00724503|184608687|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.551|TWO_SIDED|95.0|0.77|1.12|||Log Rank|||The null hypothesis tested for the primary efficacy endpoint is rate of progression (months) of SIRT/FOLFOX treatment versus FOLFOX is equal for both groups. The two-sided alternative hypothesis tested with 95% confidence is PFS rate for SIRT/FOLFOX treatment lower to that of FOLFOX.||1.12|0.77|0.551
92351770|NCT00724503|184608688|SUPERIORITY||Hazard Ratio (HR)|0.75|||<|0.05|TWO_SIDED|95.0|||||Log Rank|||A sample size of at least 450 patients for the SIRFLOX study was estimated to be needed to detect an increase in the median PFS at any site from 9.4 months to 12.5 months with 80% power and 95% confidence. Taking into account the number of patients who might receive the alternative treatment or lack of imaging data, the sample size was increased to 530. The Null hypothesis is no difference between the treatment arms with respect to PFS.||||< 0.05
92351771|NCT01186419|184608692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0765|TWO_SIDED||||||t-test, 2 sided|||||||0.0765
92351772|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.77|||||TWO_SIDED|95.0|1.3|2.4||||||1 min post bolus (Bolus time: 3 hours)||2.40|1.30|
92351773|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.91|||||TWO_SIDED|95.0|1.42|2.59||||||1 min post bolus (Bolus time: 3 hours)||2.59|1.42|
92351774|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.84|||||TWO_SIDED|95.0|1.37|2.49||||||1 min post bolus (Bolus time: 3 hours)||2.49|1.37|
92351775|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.42|||||TWO_SIDED|95.0|1.05|1.92||||||1 min post bolus (Bolus time: 3 hours)||1.92|1.05|
92351776|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.08|||||TWO_SIDED|95.0|0.8|1.46||||||1 min post bolus (Bolus time: 3 hours)||1.46|0.80|
92351777|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.04|||||TWO_SIDED|95.0|0.77|1.41||||||1 min post bolus (Bolus time: 3 hours)||1.41|0.77|
92351778|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|0.8|||||TWO_SIDED|95.0|0.59|1.08||||||1 min post bolus (Bolus time: 3 hours)||1.08|0.59|
92351779|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|0.96|||||TWO_SIDED|95.0|0.72|1.3||||||1 min post bolus (Bolus time: 3 hours)||1.30|0.72|
92351780|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|0.74|||||TWO_SIDED|95.0|0.55|1.0||||||1 min post bolus (Bolus time: 3 hours)||1.00|0.55|
92351781|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|0.77|||||TWO_SIDED|95.0|0.57|1.04||||||1 min post bolus (Bolus time: 3 hours)||1.04|0.57|
92351782|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.49|||||TWO_SIDED|95.0|1.09|2.02||||||1 min post bolus (Bolus time: 6 hours)||2.02|1.09|
92275984|NCT00602030|184454458|SUPERIORITY||Adjusted Odds Ratio|0.72||||0.505|TWO_SIDED|95.0|0.27|1.89|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel estimation of odds ratio adjusted for the smoking history stratification factor, using placebo as reference group.|||1.89|0.27|0.505
92351783|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.68|||||TWO_SIDED|95.0|1.25|2.28||||||1 min post bolus (Bolus time: 6 hours)||2.28|1.25|
92351784|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.84|||||TWO_SIDED|95.0|1.36|2.48||||||1 min post bolus (Bolus time: 6 hours)||2.48|1.36|
92405653|NCT02504151|184701483|SUPERIORITY||Mean Difference (Net)|-4.97|STANDARD_ERROR_OF_MEAN|2.47||0.485|TWO_SIDED|95.0|-9.87|-0.06|||Mixed Models Analysis||This is the estimated difference between treatment groups (cbd - placebo).|The p value is based on the interaction of treatment and time.||-0.06|-9.87|0.485
92351785|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.16|||||TWO_SIDED|95.0|0.85|1.56||||||1 min post bolus (Bolus time: 6 hours)||1.56|0.85|
92351786|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.13|||||TWO_SIDED|95.0|0.83|1.54||||||1 min post bolus (Bolus time: 6 hours)||1.54|0.83|
92351787|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.24|||||TWO_SIDED|95.0|0.91|1.68||||||1 min post bolus (Bolus time: 6 hours)||1.68|0.91|
92351788|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|0.78|||||TWO_SIDED|95.0|0.57|1.05||||||1 min post bolus (Bolus time: 6 hours)||1.05|0.57|
92351789|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.09|||||TWO_SIDED|95.0|0.81|1.47||||||1 min post bolus (Bolus time: 6 hours)||1.47|0.81|
92351790|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|0.69|||||TWO_SIDED|95.0|0.51|0.93||||||1 min post bolus (Bolus time: 6 hours)||0.93|0.51|
92351791|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|0.63|||||TWO_SIDED|95.0|0.47|0.85||||||1 min post bolus (Bolus time: 6 hours)||0.85|0.47|
92351792|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.49|||||TWO_SIDED|95.0|1.1|2.03||||||1 min post bolus (Bolus time: 9 hours)||2.03|1.10|
92351793|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.96|||||TWO_SIDED|95.0|1.45|2.65||||||1 min post bolus (Bolus time: 9 hours)||2.65|1.45|
92351794|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|2.03|||||TWO_SIDED|95.0|1.5|2.74||||||1 min post bolus (Bolus time: 9 hours)||2.74|1.50|
92351795|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.25|||||TWO_SIDED|95.0|0.93|1.69||||||1 min post bolus (Bolus time: 9 hours)||1.69|0.93|
92351796|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.31|||||TWO_SIDED|95.0|0.97|1.78||||||1 min post bolus (Bolus time: 9 hours)||1.78|0.97|
92351797|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.36|||||TWO_SIDED|95.0|1.01|1.84||||||1 min post bolus (Bolus time: 9 hours)||1.84|1.01|
92351798|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|0.84|||||TWO_SIDED|95.0|0.62|1.14||||||1 min post bolus (Bolus time: 9 hours)||1.14|0.62|
92351799|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|1.04|||||TWO_SIDED|95.0|0.77|1.4||||||1 min post bolus (Bolus time: 9 hours)||1.40|0.77|
92351800|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|0.64|||||TWO_SIDED|95.0|0.47|0.86||||||1 min post bolus (Bolus time: 9 hours)||0.86|0.47|
92351801|NCT05067270|184608695|OTHER||Geometric Least Squares Mean Ratio|0.62|||||TWO_SIDED|95.0|0.46|0.83||||||1 min post bolus (Bolus time: 9 hours)||0.83|0.46|
92351802|NCT01560416|184608698|SUPERIORITY|||||||0.79|||||||Log Rank|||||||0.79
92351803|NCT01560416|184608700|SUPERIORITY|||||||0.68|||||||Fisher Exact|||||||0.68
92351804|NCT01033071|184608703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|||<|0.001||95.0|-7.6|-3.1||"Overall Type 1 error rate of 0.05 controlled using 'Closed Testing' principle (hypothesis of all treatment groups equal first tested at 0.05 significance level; upon rejection of this hypothesis, pairwise comparison was tested at the 0.05 level."|ANCOVA|||Analysis of covariance (ANCOVA) model with treatment group as a fixed effect and baseline value as a covariate.||-3.1|-7.6|<0.001
92351805|NCT01033071|184608703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.9|||<|0.001|TWO_SIDED|95.0|-9.2|-4.6||"Overall Type 1 error rate of 0.05 controlled using 'Closed Testing' principle (hypothesis of all treatment groups equal first tested at 0.05 significance level; upon rejection of this hypothesis, pairwise comparison was tested at the 0.05 level."|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate.||-4.6|-9.2|<0.001
92351806|NCT01033071|184608706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0|||<|0.001|TWO_SIDED|95.0|-9.4|-4.7||Tested at the 0.05 significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate.||-4.7|-9.4|<0.001
92351807|NCT01033071|184608706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|||<|0.001|TWO_SIDED|95.0|-11.5|-6.6||Tested at the 0.05 significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate.||-6.6|-11.5|<0.001
92351808|NCT01033071|184608708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4|||<|0.001|TWO_SIDED|95.0|-8.5|-4.3||Tested at the 0.05 significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate.||-4.3|-8.5|<0.001
92351809|NCT01033071|184608708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.8|||<|0.001|TWO_SIDED|95.0|-11.0|-6.7||Tested at the 0.05 significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate.||-6.7|-11.0|<0.001
92220200|NCT00432042|184340499|NON_INFERIORITY_OR_EQUIVALENCE|Hepatitis B difference|Mean Difference (Final Values)|1.36|||||TWO_SIDED|95.0|-0.29|4.24|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -5%.|||4.24|-0.29|
92351810|NCT00727064|184608721|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||<0.001
92351811|NCT00727064|184608722|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||<0.001
92351812|NCT00727064|184608723|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||0.004
92351813|NCT00727064|184608724|SUPERIORITY_OR_OTHER|||||||0.018|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||0.018
92351814|NCT00727064|184608725|SUPERIORITY_OR_OTHER|||||||0.081|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||0.081
92351815|NCT00727064|184608726|SUPERIORITY_OR_OTHER|||||||0.427|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||0.427
92351816|NCT00758043|184608752|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Estimated by evaluating the treatment differences in the SVR24planned rates (T12PR24/eRVR+ minus T12PR48/eRVR+) and the 95% CI for these groups (the entire 2 sided CI is to the right of the predefined non-inferiority margin of -10.5%).|Difference in proportions|4.5|||||TWO_SIDED|95.0|-2.1|11.1||||||Primary efficacy analysis was based on CI estimates (using the normal approximation, confidence limits were constructed for the difference in proportions) to rule out the inferiority of the T12/PR24/eRVR+ treatment regimen relative to the T12/PR48/eRVR+ treatment regimen. SVR24 was defined as undetectable HCV RNA at end of treatment through 24 weeks after the last planned dose.||11.1|-2.1|
92351817|NCT00758043|184608752|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Estimated by evaluating the treatment differences in the SVR24planned rates (T12PR24/eRVR+ minus T12PR48/eRVR+) and the 95% CI for these groups (the entire 2 sided CI is to the right of the predefined non-inferiority margin of -10.5%).|Difference in proportions|2.0|||||TWO_SIDED|95.0|-4.3|8.2||||||SVR24 was defined as below the limit of quantitation at 24 weeks after the planned end of treatment. For subjects who had missing data at week 24 after the planned end of treatment, the week 12 data or the last follow-up time point after week 12 was carried forward for determining SVR24.||8.2|-4.3|
92351818|NCT00758043|184608753|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Estimated by evaluating the treatment differences in the SVR at Week 72 planned rates (T12PR24/eRVR+ minus T12PR48/eRVR+) and the 95% CI for these groups (the entire 2 sided CI is to the right of the predefined non-inferiority margin of 10.5%).|Difference in Proportion|-0.5|||||TWO_SIDED|95.0|-7.7|6.8||||||||6.8|-7.7|
92351819|NCT00758043|184608753|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Estimated by evaluating the treatment differences in the SVR at Week 72 planned rates (T12PR24/eRVR+ minus T12PR48/eRVR+) and the 95% CI for these groups (the entire 2 sided CI is to the right of the predefined non-inferiority margin of 10.5%).|Odds Ratio, log|0.94|||||TWO_SIDED|95.0|0.49|1.82||||||||1.82|0.49|
92400621|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.276||||0.0806|TWO_SIDED|95.0|-0.155|2.708|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.708|-0.155|0.0806
92400622|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.279||||0.0917|TWO_SIDED|95.0|-0.207|2.765|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.765|-0.207|0.0917
92400623|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.28||||0.098|TWO_SIDED|95.0|-0.236|2.797|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.797|-0.236|0.0980
92220201|NCT00432042|184340499|NON_INFERIORITY_OR_EQUIVALENCE|Haemophilus Influenza type B difference|Mean Difference (Final Values)|2.97|||||TWO_SIDED|95.0|-0.17|6.89|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -5%.|||6.89|-0.17|
92351820|NCT00669331|184608768|SUPERIORITY_OR_OTHER||Rate Ratio Mannitol:Control|0.92||||0.3115|TWO_SIDED|95.0|0.78|1.08|||Negative binomial regression model|Negative binomial regression model with treatment, region and baseline PE rate as predictors and log of follow-up time as an offset variable|For rate ratio, Mannitol rate is the numerator, Control rate is the denominator|||1.08|0.78|0.3115
92351821|NCT00669331|184608769|SUPERIORITY_OR_OTHER||LS mean difference across the 52 weeks|-2.4||||0.0457|TWO_SIDED|95.0|-4.76|-0.05|||Mixed model repeated measures analysis|Model included treatment, visit, treatment\*visit, region and baseline SGRQ Total score.|difference calculated Mannitol-control. Negative difference is in favour of mannitol since lower scores indicate improved quality of life.|||-0.05|-4.76|0.0457
92351822|NCT00669331|184608770|SUPERIORITY_OR_OTHER||Rate ratio|0.91||||0.2754|TWO_SIDED|95.0|0.77|1.08|||Negative binomial regression model|Negative binomial regression model with treatment, region and baseline pulmonary exacerbation rate as predictors, log follow-up as offset|Rate ratio is for mannitol vs control.|||1.08|0.77|0.2754
92351823|NCT00669331|184608771|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0218|TWO_SIDED|95.0|0.63|0.96|||Regression, Cox|Cox regression model was stratified by region and baseline PE rate||||0.96|0.63|0.0218
92351824|NCT00669331|184608772|SUPERIORITY_OR_OTHER||Rate ratio|0.88||||0.3602|TWO_SIDED|95.0|0.67|1.16|||Negative binomial model|treatment, region and baseline pulmonary exacerbation rate as predictors, and with log of follow-up time as the offset variable||Analysed using a negative binomial model with treatment, region and baseline pulmonary exacerbation rate as predictors, and with log of follow-up time as the offset variable||1.16|0.67|0.3602
92351825|NCT00669331|184608773|SUPERIORITY_OR_OTHER||ls mean difference across 52 weeks|2.76||||0.0355|TWO_SIDED|95.0|0.19|5.33|||Mixed Models Analysis|Model includes treatment, visit, treatment\*visit, region and baseline sputum weight (g).|Difference mannitol-control|||5.33|0.19|0.0355
92351826|NCT00669331|184608774|SUPERIORITY_OR_OTHER||LS mean diff across post-baseline visits|-0.44||||0.1159|TWO_SIDED|95.0|-0.99|0.11|||Mixed Models Analysis|Model includes treatment, visit, treatment\*visit, region and baseline ESS score|Negative change indicates an improvement in ESS score. Difference calculated Mannitol - Control.|||0.11|-0.99|0.1159
92351827|NCT00669331|184608775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.56||||0.6677|TWO_SIDED|95.0|-27.01|42.13|||Mixed Models Analysis|Model of absolute change from baseline in FEV1. Model includes terms for treatment, visit, trt\*visit, region and baseline value|ls mean difference Mannitol-Control|||42.13|-27.01|0.6677
92351828|NCT00669331|184608782|SUPERIORITY_OR_OTHER||Rate ratio|0.61||||0.0928|TWO_SIDED|95.0|0.34|1.09|||Negative binomial regression|||||1.09|0.34|0.0928
92351829|NCT00299221|184608835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.4||0.44||95.0|||||t-test, 2 sided|||comparing ISHLT biopsy score between groups at 1 year||||0.44
92351830|NCT03676725|184608844|SUPERIORITY||Odds Ratio (OR)|5.17||||0.017|ONE_SIDED||||||Fisher Exact|||Women with PMS vs. without PMS.||||0.017
92351831|NCT03676725|184608844|SUPERIORITY||Odds Ratio (OR)|16.0||||0.001|TWO_SIDED||||||Fisher Exact|||Women with PMS and with ADHD vs. other women||||0.001
92351832|NCT03676725|184608844|SUPERIORITY||Odds Ratio (OR)|0.86||||0.8|TWO_SIDED||||||Fisher Exact|||ADHD vs. no ADHD||||0.8
92351833|NCT01755637|184608853|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%|Geometric mean Ratio of treatments|114.37|||||TWO_SIDED|90.0|100.49|130.16|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||130.16|100.49|
92351834|NCT01755637|184608854|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%|Geometric mean ratio of treatments|107.41|||||TWO_SIDED|90.0|69.03|167.13|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||167.13|69.03|
92351835|NCT01755637|184608855|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range of 70% -143%.|Geometric mean ratio of treatments|111.28|||||TWO_SIDED|90.0|94.76|130.68|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||130.68|94.76|
92351836|NCT01755637|184608856|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0167||||0.0011||95.0|||||Wilcoxon signed rank test|The values were not adjusted for this non-parametric analysis.|The median difference was calculated as = (Experimental-Reference)|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.0011
92351837|NCT01755637|184608857|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%|Geometric mean ratio of treatments|112.05|||||TWO_SIDED|90.0|103.65|121.12|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||121.12|103.65|
92351838|NCT01755637|184608858|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%|Geometric mean ratio of treatments|113.1|||||TWO_SIDED|90.0|103.4|123.71|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||123.71|103.40|
92351839|NCT01755637|184608859|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range of 70% -143%.|Geometric mean ratio of treatments|114.33|||||TWO_SIDED|90.0|102.99|126.93|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||126.93|102.99|
92351840|NCT02933476|184608863|SUPERIORITY||||||>|0.05|||||||ANOVA|||We compared off therapy UPDRS III scores at baseline to one and four weeks after stimulation.||||>0.05
92220202|NCT00432042|184340500|NON_INFERIORITY_OR_EQUIVALENCE|Anti-PT difference|GMT ratio|0.97|||||TWO_SIDED|95.0|0.88|1.08|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -5%.|||1.08|0.88|
92351841|NCT02933476|184608864|SUPERIORITY|||||||0.008|||||||ANOVA|||||||0.008
92220203|NCT00432042|184340500|NON_INFERIORITY_OR_EQUIVALENCE|Anti-FHA difference|GMT ratio|1.09|||||TWO_SIDED|95.0|0.98|1.23|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -5%.|||1.23|0.98|
92351842|NCT02933476|184608865|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92351843|NCT03338023|184608866|NON_INFERIORITY|Noninferiority of LY2963016 to Lantus® was demonstrated at the 0.4% noninferiority margin and over 80 percent power.|Mean Difference (Net)|-0.12|||||TWO_SIDED|95.0|-0.32|0.08||||||||0.08|-0.32|
92220204|NCT00432042|184340500|NON_INFERIORITY_OR_EQUIVALENCE|Anti-PRN difference|GMT ratio|1.18|||||TWO_SIDED|95.0|1.03|1.36|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -5%.|||1.36|1.03|
92351844|NCT03338023|184608867|NON_INFERIORITY|Noninferiority of Lantus® to LY2963016 was demonstrated at the 0.4% noninferiority margin.|Mean Difference (Net)|-0.12|||||TWO_SIDED|95.0|-0.32|0.08||||||||0.08|-0.32|
92351845|NCT03338023|184608868|SUPERIORITY||Mean Difference (Net)|-6.8||||0.191|TWO_SIDED|95.0|-17.0|3.4|||Mixed Models Analysis|||Before Morning Meal Glucose||3.4|-17.0|0.191
92351846|NCT03338023|184608868|SUPERIORITY||Mean Difference (Net)|-7.8||||0.25|TWO_SIDED|95.0|-21.2|5.5|||Mixed Models Analysis|||2 Hours After Morning Meal Glucose||5.5|-21.2|0.250
92351847|NCT03338023|184608868|SUPERIORITY||Mean Difference (Net)|-13.1||||0.028|TWO_SIDED|95.0|-24.7|-1.5|||Mixed Models Analysis|||Before Mid-Day Meal Glucose||-1.5|-24.7|0.028
92351848|NCT03338023|184608868|SUPERIORITY||Mean Difference (Net)|-3.6||||0.599|TWO_SIDED|95.0|-16.8|9.7|||Mixed Models Analysis|||2 Hours After Mid-Day Meal Glucose||9.7|-16.8|0.599
92351849|NCT03338023|184608868|SUPERIORITY||Mean Difference (Net)|-11.0||||0.109|TWO_SIDED|95.0|-24.4|2.5|||Mixed Models Analysis|||Before Evening Meal Glucose||2.5|-24.4|0.109
92351850|NCT03338023|184608868|SUPERIORITY||Mean Difference (Net)|-5.4||||0.452|TWO_SIDED|95.0|-19.4|8.6|||Mixed Models Analysis|||Bedtime Glucose||8.6|-19.4|0.452
92351851|NCT03338023|184608868|SUPERIORITY||Mean Difference (Net)|-7.4||||0.18|TWO_SIDED|95.0|-18.3|3.5|||Mixed Models Analysis|||0300 Am Glucose||3.5|-18.3|0.180
92351852|NCT03338023|184608869|SUPERIORITY|||||||0.787|||||||Fisher Exact|||||||0.787
92351853|NCT03338023|184608870|SUPERIORITY|||||||0.201|||||||Fisher Exact|||||||0.201
92351854|NCT03338023|184608871|SUPERIORITY||Mean Difference (Net)|-0.3||||0.885|TWO_SIDED|95.0|-0.4|3.4|||Mixed Models Analysis|||||3.4|-0.4|0.885
92351855|NCT03338023|184608872|SUPERIORITY||Mean Difference (Net)|-3.5||||0.328|TWO_SIDED|95.0|-10.6|3.6|||Mixed Models Analysis|||Morning Pre-meal Standard Deviation||3.6|-10.6|0.328
92400624|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.283||||0.1095|TWO_SIDED|95.0|-0.288|2.854|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.854|-0.288|0.1095
92400625|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.284||||0.1161|TWO_SIDED|95.0|-0.318|2.886|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.886|-0.318|0.1161
92220205|NCT00492752|184340529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6783||||0.014144||95.0|0.4962|0.9272|||Log Rank||Hazard ratio is for Sorafenib vs placebo.|||0.9272|0.4962|0.014144
92351856|NCT03338023|184608872|SUPERIORITY||Mean Difference (Net)|-1.7||||0.467|TWO_SIDED|95.0|-6.5|3.0|||Mixed Models Analysis|||Daily Mean Standard Deviation||3.0|-6.5|0.467
92351857|NCT03338023|184608873|SUPERIORITY||Mean Difference (Net)|-0.8||||0.09|TWO_SIDED|95.0|-1.7|0.1|||Mixed Models Analysis|||||0.1|-1.7|0.090
92351858|NCT03338023|184608874|SUPERIORITY||Mean Difference (Net)|-1.2||||0.089|TWO_SIDED|95.0|-2.6|0.2|||Mixed Models Analysis|||||0.2|-2.6|0.089
92351859|NCT03338023|184608875|SUPERIORITY||Mean Difference (Net)|-0.1||||0.77|TWO_SIDED|95.0|-0.7|0.5|||Mixed Models Analysis|||||0.5|-0.7|0.770
92351860|NCT03338023|184608876|SUPERIORITY||Mean Difference (Net)|-0.3||||0.879|TWO_SIDED|95.0|-3.9|3.3|||ANCOVA|||ITSQ Inconvenience of Regimen Transformed Score||3.3|-3.9|0.879
92351861|NCT03338023|184608876|SUPERIORITY||Mean Difference (Net)|-0.7||||0.788|TWO_SIDED|95.0|-5.9|4.5|||ANCOVA|||ITSQ Lifestyle Flexibility Transformed Score||4.5|-5.9|0.788
92351862|NCT03338023|184608876|SUPERIORITY||Mean Difference (Net)|-0.6||||0.775|TWO_SIDED|95.0|-4.5|3.3|||ANCOVA|||ITSQ Hypoglycemic Control Transformed Score||3.3|-4.5|0.775
92351863|NCT03338023|184608876|SUPERIORITY||Mean Difference (Net)|1.0||||0.681|TWO_SIDED|95.0|-3.6|5.6|||ANCOVA|||ITSQ Glycemic Control Transformed Score||5.6|-3.6|0.681
92351864|NCT03338023|184608876|SUPERIORITY||Mean Difference (Net)|0.4||||0.819|TWO_SIDED|95.0|-3.1|3.9|||ANCOVA|||ITSQ Insulin Delivery Device Satisfaction Transformed Score||3.9|-3.1|0.819
92351865|NCT03338023|184608876|SUPERIORITY||Mean Difference (Net)|-0.8||||0.605|TWO_SIDED|95.0|-3.9|2.3|||ANCOVA|||ITSQ Total Transformed Score||2.3|-3.9|0.605
92351866|NCT02030418|184608905|SUPERIORITY|"The primary safety hypothesis is:~H0: CFR ≤ 86% vs. H1: CFR \> 86% Where CFR is the Complication Free Rate. The CFR is estimated as a binomial proportion and the 95% confidence interval (CI) of CFR is calculated using the Clopper-Pearson exact method. The null hypothesis is rejected at the 2.5% significance level if the lower bound of this CI exceeds the Performance Goal (PG) of 86%."|binomial proportion|93.3|||<|0.001|TWO_SIDED|95.0|89.9|95.9|||1-sided exact test for binomial proporti|||||95.9|89.9|<0.001
92351867|NCT02030418|184608906|SUPERIORITY|"The primary effectiveness hypothesis is:~H0: Rate ≤ 85.0% vs. H1: Rate \> 85.0%~where Rate is the proportion of subjects experiencing success, and success is defined as: pacing threshold voltage ≤ 2.0 V at 0.4 ms at 6-month visit and sensed R-wave amplitude either ≥ 5.0 mV at the 6-month visit or ≥ value at implant."|binomial proportion|93.4|||<|0.001|TWO_SIDED|95.0|89.9|96.0||The null hypothesis is rejected at the 2.5% significance level if the lower bound of the CI exceeds the Performance Goal (PG) of 85%.|1-sided exact test for binomial proporti|||||96.0|89.9|<0.001
92351868|NCT02030418|184608907|OTHER|"The hypothesis is intended to test whether the mean slope is within 35% of 1. The hypothesis is stated as follows:~H0: absolute value (Mean Slope - 100%) ≥ equivalence margin, equal to 35%~H1: absolute value (Mean Slope - 100%) \< equivalence margin, equal to 35%~The calculation of slope for individual subjects in the CAEP exercise protocol is done by setting the y-intercept to zero."|Slope|0.83|STANDARD_DEVIATION|0.27||0.001|TWO_SIDED|95.0|0.73|0.93|||two 1-sided test (TOST)|||||0.93|0.73|0.001
92351869|NCT01179516|184608982|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|1.488||0.597|TWO_SIDED|95.0|-3.71|2.14||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||All statistical tests were 2-sided with the estimated P-values at the 5% level of significance. To control for multiplicity, a pre-specified sequential testing procedure for each dose was applied to compare 10 mg and 15 mg vortioxetine to placebo. Efficacy endpoints were tested for each dose in sequential order at significance level 0.025; as soon as an endpoint was non-significant at 0.025, the testing procedure stopped for all subsequent endpoints.||2.14|-3.71|0.597
92161041|NCT00991276|184210589|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.84|STANDARD_ERROR_OF_MEAN|0.53||0.0007|TWO_SIDED|95.0|0.79|2.89||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||2.89|0.79|0.0007
92220206|NCT00492752|184340529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6208||||0.003464||95.0|0.4498|0.8568|||Log Rank|log rank test stratified by country, tumor burden, and ECOG.|Hazard ratio is for Sorafenib vs placebo|||0.8568|0.4498|0.003464
92220207|NCT00492752|184340530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9032||||0.497537||95.0|0.6705|1.2165|||Log Rank||Hazard ratio is for Sorafenib vs placebo.|||1.2165|0.6705|0.497537
92351870|NCT01179516|184608982|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|1.501||0.745|TWO_SIDED|95.0|-3.44|2.46||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||2.46|-3.44|0.745
92351871|NCT01179516|184608983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.232||||0.396|TWO_SIDED|95.0|0.761|1.995|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.995|0.761|0.396
92351872|NCT01179516|184608983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.212||||0.435|TWO_SIDED|95.0|0.748|1.963|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.963|0.748|0.435
92351873|NCT01179516|184608984|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.149||0.554|TWO_SIDED|95.0|-0.38|0.21|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||0.21|-0.38|0.554
92351874|NCT01179516|184608984|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.151||0.739|TWO_SIDED|95.0|-0.35|0.25|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||0.25|-0.35|0.739
92351875|NCT01179516|184608985|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|2.261||0.67|TWO_SIDED|95.0|-5.43|3.5|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||3.50|-5.43|0.670
92351876|NCT01179516|184608985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.73|STANDARD_ERROR_OF_MEAN|2.295||0.451|TWO_SIDED|95.0|-2.8|6.26|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||6.26|-2.80|0.451
92220208|NCT00492752|184340530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8831||||0.437926||95.0|0.6449|1.2093|||Log Rank|log rank test stratified by country, tumor burden, and ECOG.|Hazard ratio is for Sorafenib vs placebo|||1.2093|0.6449|0.437926
92220209|NCT00492752|184340531|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5744||||0.000537||95.0|0.4154|0.7942|||Log Rank||Hazard ratio is for Sorafenib vs placebo|||0.7942|0.4154|0.000537
92351877|NCT01179516|184608986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.291||||0.352|TWO_SIDED|95.0|0.754|2.211|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS total score.||||2.211|0.754|0.352
92351878|NCT01179516|184608986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.116||||0.694|TWO_SIDED|95.0|0.646|1.928|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS total score.||||1.928|0.646|0.694
92351879|NCT01179516|184608987|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|1.25||0.464|TWO_SIDED|95.0|-3.38|1.55|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||1.55|-3.38|0.464
92351880|NCT01179516|184608987|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|1.322||0.6|TWO_SIDED|95.0|-1.91|3.3|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||3.30|-1.91|0.600
92351881|NCT01668537|184608988|NON_INFERIORITY|The non-inferiority margin to show that the FD formulation is non-inferior to the LF formulation in terms of ELISA GMTs at the peak visit (Week 6) was predefined as '1.5' for the GMT ratio (LF/FD). Non-inferiority is demonstrated if the upper 95% CI of the GMT ratio (LF/FD) is entirely below 1.5|GMT ratio (LF/FD)|0.796|||||TWO_SIDED|95.0|0.707|0.896||||||||0.896|0.707|
92351882|NCT02122952|184609014|SUPERIORITY||||||<|0.001|||||||One-sided Exact Binomial Test|||Data for the current study were compared to historical control data (Pediatric Neuromuscular Clinical Research \[PNCR\], Finkel et al 2014 - PubMed 25080519) where 0 participants were able to sit independently.||||<0.001
92351883|NCT02021318|184609056|NON_INFERIORITY|Non-inferiority of roxadustat versus darbepoetin alfa, margin = -15% (non-inferiority is concluded if the lower limit of the 95% confidence interval of the difference was \>-15%).|Difference in percentage|11.51|||||TWO_SIDED|95.0|5.66|17.36||||||A generalized linear model as an approximation for the Miettinen and Nurminen method, adjusted for stratification factors (actual) was used to estimate the difference of proportions and 95% confidence interval.||17.36|5.66|
92351884|NCT02021318|184609057|NON_INFERIORITY|Non-Inferiority, margin = -0.75 (non-inferiority is concluded if the lower bound of the 95% CI of the least square mean difference (LSM) is \> -0.75 g/dL).|LSM Difference|0.015||||0.839|TWO_SIDED|95.0|-0.131|0.162|||Mixed Models Analysis|||The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.162|-0.131|0.839
92351885|NCT02021318|184609058|SUPERIORITY||LSM Difference|-0.403|||<|0.001|TWO_SIDED|95.0|-0.51|-0.296|||Mixed Models Analysis|||The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline LDL, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||-0.296|-0.510|<0.001
92369465|NCT03135431|184643783|SUPERIORITY||Mean Difference (Net)|-9.17||||0.77|TWO_SIDED|95.0|-72.5|54.17|||t-test, 2 sided|||Analysis preformed as categorical and categorical variable. Both analyzes had the same conclusion.||54.17|-72.5|0.77
92275985|NCT00602030|184454459|SUPERIORITY||Adjusted Odds Ratio|0.31||||0.13|TWO_SIDED|95.0|0.06|1.54|||Cochran-Mantel-Haenszel||Estimation of odds ratio was adjusted for the smoking history stratification factor, using placebo as reference group .|||1.54|0.06|0.13
92351886|NCT02021318|184609059|SUPERIORITY||Hazard Ratio (HR)|0.45||||0.004|TWO_SIDED|95.0|0.26|0.78|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on cardiovascular history and region and adjusting on Hb and eGFR at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI was below 1.0.||0.78|0.26|0.004
92351887|NCT02021318|184609060|NON_INFERIORITY|Non-Inferiority, margin = -3 (non-inferiority is concluded if the lower bound of the 95% confidence interval of the LSM difference is \> -3 points).|LSM Difference|-1.284||||0.027|TWO_SIDED|95.0|-2.423|-0.145|||Mixed Models Analysis|||The model included treatment, visit (weeks 8, 12 and 28) visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline SF-36 PF, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||-0.145|-2.423|0.027
92351888|NCT02021318|184609061|NON_INFERIORITY|Non-Inferiority, margin = -3 (non-inferiority is concluded if the lower bound of the 95% confidence interval of the LSM difference is \> -3 points).|LSM Difference|-0.457||||0.454|TWO_SIDED|95.0|-1.656|0.742|||Mixed Models Analysis|||The model included treatment, visit (weeks 8, 12 and 28), visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline SF-36 VT, baseline Hb, baseline eGFR as continuous covariates.||0.742|-1.656|0.454
92351889|NCT02021318|184609062|NON_INFERIORITY|Non-Inferiority, margin = 1 mmHg (non-inferiority is concluded if the upper bound of the 95% confidence interval of the LSM difference is \< 1).|LSM Difference|-0.372||||0.547|TWO_SIDED|95.0|-1.587|0.842|||Mixed Models Analysis|||The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline MAP, baseline Hb, baseline eGFR as continuous covariates.||0.842|-1.587|0.547
92351890|NCT02021318|184609063|NON_INFERIORITY|Non-inferiority (hazard ratio margin of 1.3). Non-Inferiority was declared if the upper bound of the 95% CI is below 1.3.|Hazard Ratio (HR)|0.83||||0.336|TWO_SIDED|95.0|0.56|1.22|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and Region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.22|0.56|0.336
92351891|NCT02021318|184609064|SUPERIORITY||LSM Difference|-0.136||||0.818|TWO_SIDED|95.0|-1.299|1.026|||Mixed Models Analysis|||The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline MAP, baseline Hb, baseline eGFR as continuous covariates.||1.026|-1.299|0.818
92351892|NCT02021318|184609065|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.452|TWO_SIDED|95.0|0.6|1.26|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on cardiovascular history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI is lower than 1.||1.26|0.60|0.452
92351893|NCT02021318|184609066|SUPERIORITY||LSM Difference|0.038||||0.529|TWO_SIDED|95.0|-0.081|0.157|||Mixed Models Analysis|||The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.157|-0.081|0.529
92351894|NCT02021318|184609067|SUPERIORITY||Hazard Ratio (HR)|1.64|||<|0.001|TWO_SIDED|95.0|1.38|1.96|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on cardiovascular history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.96|1.38|<0.001
92351895|NCT02021318|184609068|SUPERIORITY||Hazard Ratio (HR)|1.66|||<|0.001|TWO_SIDED|95.0|1.39|1.98|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.98|1.39|<0.001
92351896|NCT02021318|184609069|SUPERIORITY||LSM Difference|0.051||||0.478|TWO_SIDED|95.0|-0.091|0.194|||Mixed Models Analysis|||Weeks 28-36 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.194|-0.091|0.478
92351897|NCT02021318|184609069|SUPERIORITY||LSM Difference|-0.003||||0.969|TWO_SIDED|95.0|-0.149|0.143|||Mixed Models Analysis|||Weeks 44-52 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.143|-0.149|0.969
92351898|NCT02021318|184609069|SUPERIORITY||LSM Difference|0.009||||0.91|TWO_SIDED|95.0|-0.14|0.157|||Mixed Models Analysis|||Weeks 72-80 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.157|-0.140|0.910
92351899|NCT02021318|184609069|SUPERIORITY||LSM Difference|0.024||||0.775|TWO_SIDED|95.0|-0.14|0.188|||Mixed Models Analysis|||Weeks 96-104 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.188|-0.140|0.775
92351900|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.087||||0.086|TWO_SIDED|95.0|-0.012|0.185|||Mixed Models Analysis|||Week 1- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.185|-0.012|0.086
92351901|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.278|||<|0.001|TWO_SIDED|95.0|0.165|0.391|||Mixed Models Analysis|||Week 2- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.391|0.165|<0.001
92351902|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.435|||<|0.001|TWO_SIDED|95.0|0.284|0.586|||Mixed Models Analysis|||Week 4- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.586|0.284|<0.001
92351903|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.422|||<|0.001|TWO_SIDED|95.0|0.254|0.59|||Mixed Models Analysis|||Week 6- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.590|0.254|<0.001
92220210|NCT00492752|184340531|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5375||||0.00054||95.0|0.3763|0.7677|||Log Rank|log rank test stratified by country, tumor burden, and ECOG.|Hazard ratio is for Sorafenib vs placebo|||0.7677|0.3763|0.000540
92351904|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.38|||<|0.001|TWO_SIDED|95.0|0.205|0.556|||Mixed Models Analysis|||Week 8- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.556|0.205|<0.001
92351905|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.33|||<|0.001|TWO_SIDED|95.0|0.155|0.505|||Mixed Models Analysis|||Week 10- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.505|0.155|<0.001
92351906|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.3||||0.001|TWO_SIDED|95.0|0.119|0.482|||Mixed Models Analysis|||Week 12- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.482|0.119|0.001
92351907|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.159||||0.079|TWO_SIDED|95.0|-0.018|0.336|||Mixed Models Analysis|||Week 14- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.336|-0.018|0.079
92351908|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.183||||0.044|TWO_SIDED|95.0|0.005|0.361|||Mixed Models Analysis|||Week 16- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.361|0.005|0.044
92351909|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.173||||0.037|TWO_SIDED|95.0|0.01|0.336|||Mixed Models Analysis|||Week 18- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.336|0.010|0.037
92351910|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.085||||0.319|TWO_SIDED|95.0|-0.083|0.253|||Mixed Models Analysis|||Week 20- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.253|-0.083|0.319
92351911|NCT02021318|184609070|SUPERIORITY||LSM Difference|-0.03||||0.709|TWO_SIDED|95.0|-0.19|0.129|||Mixed Models Analysis|||Week 22- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.129|-0.190|0.709
92351912|NCT02021318|184609070|SUPERIORITY||LSM Difference|-0.061||||0.45|TWO_SIDED|95.0|-0.219|0.097|||Mixed Models Analysis|||Week 24- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.097|-0.219|0.450
92351913|NCT02021318|184609070|SUPERIORITY||LSM Difference|-0.065||||0.44|TWO_SIDED|95.0|-0.231|0.101|||Mixed Models Analysis|||Week 28- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.101|-0.231|0.440
92351914|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.014||||0.874|TWO_SIDED|95.0|-0.157|0.184|||Mixed Models Analysis|||Week 32- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.184|-0.157|0.874
92220211|NCT00492752|184340532|SUPERIORITY_OR_OTHER||Disease control rate|0.3533||||||95.0|0.2771|0.4355||||||||0.4355|0.2771|
92220212|NCT00492752|184340532|SUPERIORITY_OR_OTHER||Disease control rate|0.1579||||||95.0|0.0843|0.2596||||||||0.2596|0.0843|
92220213|NCT00492752|184340535|SUPERIORITY_OR_OTHER|||||||0.67|||||||Fisher Exact|based on tumor response rate (CR+PR)||||||0.67
92220214|NCT02904915|184340543|SUPERIORITY|||||||0.59|||||||Fisher Exact|||||||0.59
92220215|NCT02904915|184340544|SUPERIORITY|||||||0.39|||||||Fisher Exact|||||||0.39
92220216|NCT02904915|184340545|SUPERIORITY|||||||0.23|||||||Fisher Exact|||||||0.23
92220217|NCT02321930|184340550|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Analysis performed to test for the change in values from Baseline to 3 months||||<0.0001
92220218|NCT02321930|184340551|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Analysis performed to test for the change in values from Baseline to 3 months||||<0.0001
92220219|NCT02321930|184340552|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Analysis performed to test for the change in values from Baseline to 3 months||||<0.0001
92220220|NCT02321930|184340553|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Analysis performed to test for the change in values from Baseline to 3 months||||<0.0001
92220221|NCT02321930|184340554|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Analysis performed to test for the change in values from Baseline to 3 months||||<0.0001
92220222|NCT01484977|184340555|SUPERIORITY_OR_OTHER||Retention Rate|73.3|||||TWO_SIDED|95.0|65.42|81.25||||||"Analyses of the primary efficacy variable will be descriptive only. No hypothesis tests are planned.~The number and percentage of subjects remaining in the study through the 21-Week Treatment Period will be calculated. Subjects with retention will be counted in the numerator. All subjects in the relevant population will be used as the denominator.~This percentage will be known as the retention rate, along with the 95 % confidence interval based on the normal approximation."||81.25|65.42|
92220223|NCT00255970|184340562|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||This study had been designed as a superiority study. The null hypothesis had been that there would be no significant difference in probing depth between groups at the time points measured.||||>.05
92220224|NCT00255970|184340562|SUPERIORITY_OR_OTHER||||||>|0.05||||||The power analysis had been computed for a threshold of 0.05 with a power of 0.8.|ANOVA|||A power analysis, prior to data collection, determined that a minimum of 18 in each arm would be needed for this study.||||>0.05
92220225|NCT00255970|184340563|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||This study had been designed as a superiority study. The a priori power analysis had been designed with an effect size based on historical data. Thus, a minimal sample size of 34 patients would be necessary to determine if there was a true difference between groups, α =.05, power= 0.8. This number was then rounded to 40 patients, 20/ group (DFDBA and Regenafil).||||>.05
92220226|NCT00255970|184340564|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||The change in recession, measured in mm, had been designed as a superiority study. The a priori power analysis had been designed with an effect size based on historical data. Thus, a minimal sample size of 34 patients would be necessary to determine if there was a true difference between groups, α =.05, power= 0.8. This number was then rounded to 40 patients, 20/ group (DFDBA and Regenafil).||||>0.05
92220227|NCT00255970|184340565|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||Each gingival unit (buccal, lingual, mesiobuccal, distobuccal, mesiolingual, and distolingual) of the individual tooth will be given a score from 0-3, called the gingival index for the area. The scores from the 6 areas of the tooth are added and divided by 6 to give the gingival index for the tooth.||||>0.05
92220228|NCT00255970|184340566|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||This study had been designed as a superiority study. The a priori power analysis had been designed with an effect size based on historical data. Thus, a minimal sample size of 34 patients would be necessary to determine if there was a true difference between groups, α =.05, power= 0.8. This number was then rounded to 40 patients, 20/ group (DFDBA and Regenafil).||||>0.05
92220229|NCT02484911|184340571|SUPERIORITY_OR_OTHER|||||||0.397|||||||Chi-squared|||||||0.397
92220230|NCT02484911|184340572|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.0
92220231|NCT02484911|184340574|SUPERIORITY_OR_OTHER|||||||0.397|||||||Chi-squared|||||||0.397
92220232|NCT02484911|184340575|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared|||||||0.02
92220233|NCT02484911|184340576|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.0
92220234|NCT02484911|184340577|SUPERIORITY_OR_OTHER|||||||0.005|||||||Chi-squared|||||||0.005
92220235|NCT02484911|184340579|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.0
92220236|NCT02484911|184340580|SUPERIORITY_OR_OTHER|||||||0.283|||||||Chi-squared|||||||0.283
92220237|NCT02484911|184340581|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.0
92220238|NCT02484911|184340582|SUPERIORITY_OR_OTHER|||||||0.246|||||||Chi-squared|||||||0.246
92220239|NCT02257372|184340597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|||<|0.001|TWO_SIDED|95.0|0.071|0.174|||Mixed model repeated measures analysis|||||0.174|0.071|<0.001
92220240|NCT02257372|184340598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|||<|0.001|TWO_SIDED|95.0|0.099|0.197|||Mixed model repeated measures analysis|||||0.197|0.099|<0.001
92220241|NCT02104583|184340600|SUPERIORITY||Eleclazine : Placebo Incident Rate Ratio|1.52||||0.152|TWO_SIDED|95.0|0.86|2.71|||generalized linear model|||The primary analysis of overall occurrence of appropriate ICD interventions through Week 24 was performed using a generalized linear model assuming a negative binomial distribution and log link. This model included terms for treatment, implanted device (ICD or CRT-D) and region \[US or rest of world (ROW)\].||2.71|0.86|0.152
92220242|NCT02104583|184340600|SUPERIORITY||Eleclazine : Placebo Incident Rate Ratio|0.82||||0.662|TWO_SIDED|95.0|0.34|1.97|||generalized linear model|||The primary analysis of overall occurrence of appropriate ICD interventions through Week 24 was performed using a generalized linear model assuming a negative binomial distribution and log link. This model included terms for treatment, implanted device (ICD or CRT-D) and region \[US or ROW\].||1.97|0.34|0.662
92220243|NCT02104583|184340600|SUPERIORITY||Eleclazine : Placebo Incident Rate Ratio|1.24||||0.618|TWO_SIDED|95.0|0.54|2.86|||generalized linear model|||The primary analysis of overall occurrence of appropriate ICD interventions through Week 24 was performed using a generalized linear model assuming a negative binomial distribution and log link. This model included terms for treatment, implanted device (ICD or CRT-D) and region \[US or ROW.||2.86|0.54|0.618
92220244|NCT00129766|184340611|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval and relative risk adjusted for the stratification factor of presence or absence of CLD of prematurity as specified on the CRF.|Risk Ratio (RR)|0.74|||||TWO_SIDED|95.0|0.503|1.083|||t-test, 2 sided||Relative risk was calculated as (Pn/Ps) where Pn is the proportion of patients with RSV hospitalization in the motavizumab group and Ps is the proportion of patients with RSV hospitalization in the palivizumab group.|ITT population||1.083|0.503|
92220245|NCT00129766|184340620|NON_INFERIORITY_OR_EQUIVALENCE|A CMH approach stratified by presence or absence of CLD of prematurity requiring medical intervention was used.||||||0.11||95.0||||Test stratified by presence or absence of CLD of prematurity specified on the CRF|Cochran-Mantel-Haenszel|||||||0.110
92220246|NCT00129766|184340621|NON_INFERIORITY_OR_EQUIVALENCE|A CMH approach stratified by presence or absence of CLD of prematurity requiring medical intervention was used.||||||0.005||95.0||||No adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The CMH test was stratified by presence or absence of CLD of prematurity as specified on the CRF||||||0.005
92220247|NCT00129766|184340622|NON_INFERIORITY_OR_EQUIVALENCE|A CMH approach stratified by presence or absence of CLD of prematurity requiring medical intervention was used.||||||0.476||95.0|||||Van Eleteren test|Test stratified by presence or absence of CLD of prematurity specified on the CRF||P-value is for overall incidence||||0.476
92220248|NCT00129766|184340623|NON_INFERIORITY_OR_EQUIVALENCE|A CMH approach stratified by presence or absence of CLD of prematurity requiring medical intervention was used.||||||0.493||95.0||||Test stratified by presence or absence of CLD of prematurity specified on the CRF|Van Eleteren test|||||||0.493
92220249|NCT00129766|184340624|NON_INFERIORITY_OR_EQUIVALENCE|A CMH approach stratified by presence or absence of CLD of prematurity requiring medical intervention was used.||||||0.652||95.0||||Test stratified by presence or absence of CLD of prematurity specified on the CRF|Van Eleteren test|||||||0.652
92220250|NCT03448068|184340631|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92220251|NCT03448068|184340632|SUPERIORITY|||||||0.2252|||||||t-test, 2 sided|||||||0.2252
92220252|NCT03448068|184340633|SUPERIORITY|||||||0.061|||||||t-test, 2 sided|||||||0.0610
92220253|NCT03448068|184340634|SUPERIORITY|||||||0.272|||||||t-test, 2 sided|||||||0.2720
92220254|NCT03448068|184340635|SUPERIORITY|||||||0.7298|||||||Chi-squared|||Nausea 1st 12 hours for Ketamine Therapy vs Standard Therapy||||0.7298
92220255|NCT03448068|184340635|SUPERIORITY|||||||0.1058|||||||Chi-squared|||Nausea 2nd 12 hours for Ketamine Therapy vs Standard Therapy||||0.1058
92220256|NCT03448068|184340635|SUPERIORITY|||||||1|||||||Chi-squared|||Nausea 2nd 24 hours for Ketamine Therapy vs Standard Therapy||||1.000
92220257|NCT03448068|184340636|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.2
92161042|NCT00991276|184210590|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.45|STANDARD_ERROR_OF_MEAN|1.3||0.0617|TWO_SIDED|95.0|-5.02|0.12||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.12|-5.02|0.0617
92351915|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.131||||0.132|TWO_SIDED|95.0|-0.039|0.302|||Mixed Models Analysis|||Week 36- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.302|-0.039|0.132
92351916|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.187||||0.024|TWO_SIDED|95.0|0.024|0.351|||Mixed Models Analysis|||Week 40- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.351|0.024|0.024
92351917|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.022||||0.807|TWO_SIDED|95.0|-0.153|0.197|||Mixed Models Analysis|||Week 44- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.197|-0.153|0.807
92351918|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.012||||0.89|TWO_SIDED|95.0|-0.16|0.185|||Mixed Models Analysis|||Week 48- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.185|-0.160|0.890
92351919|NCT02021318|184609070|SUPERIORITY||LSM Difference|-0.029||||0.746|TWO_SIDED|95.0|-0.201|0.144|||Mixed Models Analysis|||Week 52- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.144|-0.201|0.746
92351920|NCT02021318|184609070|SUPERIORITY||LSM Difference|-0.032||||0.715|TWO_SIDED|95.0|-0.202|0.139|||Mixed Models Analysis|||Week 56- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.139|-0.202|0.715
92351921|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.066||||0.463|TWO_SIDED|95.0|-0.11|0.242|||Mixed Models Analysis|||Week 60- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.242|-0.110|0.463
92351922|NCT02021318|184609070|SUPERIORITY||LSM Difference|-0.002||||0.987|TWO_SIDED|95.0|-0.187|0.184|||Mixed Models Analysis|||Week 64- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.184|-0.187|0.987
92351923|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.104||||0.251|TWO_SIDED|95.0|-0.074|0.281|||Mixed Models Analysis|||Week 68- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.281|-0.074|0.251
92351924|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.067||||0.473|TWO_SIDED|95.0|-0.117|0.251|||Mixed Models Analysis|||Week 72- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.251|-0.117|0.473
92351925|NCT02021318|184609070|SUPERIORITY||LSM Difference|-0.022||||0.813|TWO_SIDED|95.0|-0.204|0.16|||Mixed Models Analysis|||Week 76- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.160|-0.204|0.813
92351926|NCT02021318|184609070|SUPERIORITY||LSM Difference|-0.045||||0.622|TWO_SIDED|95.0|-0.223|0.134|||Mixed Models Analysis|||Week 80- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.134|-0.223|0.622
92351927|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.045||||0.632|TWO_SIDED|95.0|-0.138|0.227|||Mixed Models Analysis|||Week 84- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.227|-0.138|0.632
92161043|NCT00991276|184210590|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.35|STANDARD_ERROR_OF_MEAN|1.29|<|0.0001|TWO_SIDED|95.0|-8.91|-3.8||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-3.80|-8.91|<0.0001
92351928|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.055||||0.568|TWO_SIDED|95.0|-0.133|0.242|||Mixed Models Analysis|||Week 88- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.242|-0.133|0.568
92351929|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.034||||0.729|TWO_SIDED|95.0|-0.158|0.226|||Mixed Models Analysis|||Week 92- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.226|-0.158|0.729
92351930|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.025||||0.797|TWO_SIDED|95.0|-0.168|0.218|||Mixed Models Analysis|||Week 96- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.218|-0.168|0.797
92351931|NCT02021318|184609070|SUPERIORITY||LSM Difference|-0.11||||0.28|TWO_SIDED|95.0|-0.31|0.09|||Mixed Models Analysis|||Week 100- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.090|-0.310|0.280
92351932|NCT02021318|184609070|SUPERIORITY||LSM Difference|0.037||||0.733|TWO_SIDED|95.0|-0.177|0.251|||Mixed Models Analysis|||Week 104- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.251|-0.177|0.733
92161044|NCT00991276|184210590|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|1.28||0.0028|TWO_SIDED|95.0|1.37|6.44||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||6.44|1.37|0.0028
92351933|NCT02021318|184609071|SUPERIORITY||LSM Difference|0.026||||0.727|TWO_SIDED|95.0|-0.119|0.17|||Mixed Models Analysis|||Weeks 28-36 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.170|-0.119|0.727
92351934|NCT02021318|184609071|SUPERIORITY||LSM Difference|-0.001||||0.985|TWO_SIDED|95.0|-0.151|0.148|||Mixed Models Analysis|||Weeks 44-52 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.148|-0.151|0.985
92351935|NCT02021318|184609071|SUPERIORITY||LSM Difference|0.003||||0.965|TWO_SIDED|95.0|-0.148|0.154|||Mixed Models Analysis|||Weeks 72-80 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.154|-0.148|0.965
92351936|NCT02021318|184609071|SUPERIORITY||LSM Difference|-0.016||||0.856|TWO_SIDED|95.0|-0.188|0.157|||Mixed Models Analysis|||Weeks 96-104 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.157|-0.188|0.856
92351937|NCT02021318|184609073|SUPERIORITY||Hazard Ratio (HR)|1.74|||<|0.001|TWO_SIDED|95.0|1.36|2.22|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and Region and adjusting on Hb and eGFR at baseline as continuous covariates.||2.22|1.36|<0.001
92351938|NCT02021318|184609076|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.079|TWO_SIDED|95.0|0.98|1.5|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and Region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI is below 1.0.||1.50|0.98|0.079
92351939|NCT02021318|184609077|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.3|TWO_SIDED|95.0|0.79|2.11|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI is below 1.0.||2.11|0.79|0.300
92351940|NCT02021318|184609081|SUPERIORITY||Hazard Ratio (HR)|1.59||||0.055|TWO_SIDED|95.0|0.99|2.54|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and Region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI is below 1.0.||2.54|0.99|0.055
92351941|NCT02021318|184609084|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.052|TWO_SIDED|95.0|0.51|1.0|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI is below 1.0.||1.00|0.51|0.052
92351942|NCT02021318|184609094|SUPERIORITY||LSM Difference|-1.068||||0.027|TWO_SIDED|95.0|-2.012|-0.124|||Mixed Models Analysis|||Weeks 12-28 - The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline SF-36 PCS, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||-0.124|-2.012|0.027
92351943|NCT02021318|184609094|SUPERIORITY||LSM Difference|-0.603||||0.239|TWO_SIDED|95.0|-1.606|0.401|||Mixed Models Analysis|||Weeks 36-52 - The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline SF-36 PCS, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||0.401|-1.606|0.239
92351944|NCT02021318|184609095|SUPERIORITY||LSM Difference|-0.528||||0.517|TWO_SIDED|95.0|-2.127|1.072|||Mixed Models Analysis|||Weeks 12-28 - The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline FACT-An AnS, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||1.072|-2.127|0.517
92161045|NCT00991276|184210591|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.24||0.0056|TWO_SIDED|95.0|-1.17|-0.21||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.21|-1.17|0.0056
92161046|NCT00991276|184210591|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.9|-0.95||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.95|-1.90|<0.0001
92275986|NCT00602030|184454460|SUPERIORITY||Adjusted Odds Ratio|1.06||||0.918|TWO_SIDED|95.0|0.34|3.27|||Cochran-Mantel-Haenszel||Estimation of odds ratio was adjusted for the smoking history stratification factor, using placebo as reference group.|||3.27|0.34|0.918
92275987|NCT00397839|184454500|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.58|||<|0.001||95.0|1.41|3.76|||ANCOVA|||||3.76|1.41|<0.001
92351945|NCT02021318|184609095|SUPERIORITY||LSM Difference|-0.947||||0.308|TWO_SIDED|95.0|-2.771|0.877|||Mixed Models Analysis|||Weeks 36-52 - The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline FACT-An AnS, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||0.877|-2.771|0.308
92351946|NCT02021318|184609096|SUPERIORITY||LSM Difference|-0.904||||0.57|TWO_SIDED|95.0|-4.032|2.224|||Mixed Models Analysis|||Week 12-28 - The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline FACT-An total score, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||2.224|-4.032|0.570
92351947|NCT02021318|184609096|SUPERIORITY||LSM Difference|-1.767||||0.334|TWO_SIDED|95.0|-5.354|1.82|||Mixed Models Analysis|||Weeks 36-52 -The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline FACT-An total score, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||1.820|-5.354|0.334
92351948|NCT02021318|184609098|SUPERIORITY||LSM Difference|0.784||||0.497|TWO_SIDED|95.0|-1.481|3.049|||Mixed Models Analysis|||The model includes treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline EQ-5D 5L VAS, baseline Hb, baseline eGFR as continuous covariates.||3.049|-1.481|0.497
92351949|NCT02021318|184609109|SUPERIORITY||LSM Difference|-0.05||||0.902|TWO_SIDED|95.0|-0.93|0.82|||Mixed Models Analysis|||||0.82|-0.93|0.902
92351950|NCT02021318|184609111|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.96|TWO_SIDED|95.0|0.79|1.29|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.29|0.79|0.960
92351951|NCT02021318|184609113|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.939|TWO_SIDED|95.0|0.79|1.25|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.25|0.79|0.939
92351952|NCT02021318|184609114|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.948|TWO_SIDED|95.0|0.77|1.27|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.27|0.77|0.948
92351953|NCT02021318|184609115|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.568|TWO_SIDED|95.0|0.75|1.17|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.17|0.75|0.568
92351954|NCT01740427|184609122|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.576|||<|1e-06|TWO_SIDED|95.0|0.463|0.718||1-sided p-value from the stratified log-rank test.|Stratified Log Rank|||||0.718|0.463|<0.000001
92351955|NCT01740427|184609123|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.428||||0.0224|TWO_SIDED|95.0|1.008|2.03||1-sided p-value is from exact test.|Fisher Exact|||Stratified analysis: Stratified by disease site (visceral vs non-visceral) per randomization.||2.030|1.008|0.0224
92351956|NCT01740427|184609124|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.594||||0.009|TWO_SIDED|95.0|1.08|2.347||1-sided p-value is from exact test.|Fisher Exact|||Stratified analysis: Stratified by disease site (visceral vs non-visceral) per randomization.||2.347|1.080|0.0090
92351957|NCT01740427|184609126|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.451|||<|0.0001|TWO_SIDED|95.0|1.619|3.722||1-sided p-value is from exact test.|Fisher Exact|||Stratified analysis: Stratified by disease site (visceral, non-visceral) per randomization.||3.722|1.619|<0.0001
92351958|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.571|||<|0.0001|TWO_SIDED|95.0|0.443|0.737|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for ER positive||0.737|0.443|<0.0001
92351959|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.405||||0.003|TWO_SIDED|95.0|0.218|0.751|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for ER Negative||0.751|0.218|0.0030
92351960|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.531|||<|0.0001|TWO_SIDED|95.0|0.416|0.68|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Rb Positive||0.680|0.416|<0.0001
92161047|NCT00991276|184210591|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.74|STANDARD_ERROR_OF_MEAN|0.24||0.0026|TWO_SIDED|95.0|0.26|1.21||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.21|0.26|0.0026
92161048|NCT00991276|184210592|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|1.01|<|0.0001|TWO_SIDED|95.0|-8.1|-4.09||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-4.09|-8.10|<0.0001
92275988|NCT00397839|184454501|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.86||||0.118||95.0|-0.22|1.94|||ANCOVA|||||1.94|-0.22|0.118
92275989|NCT00397839|184454502|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.13|||<|0.001||95.0|1.34|2.92|||ANCOVA|||Total Hip subgroup||2.92|1.34|<0.001
92275990|NCT00397839|184454502|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.43||||0.012||95.0|0.32|2.55|||ANCOVA|||Femoral Neckm subgroup||2.55|0.32|0.012
92351961|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.675||||0.3237|TWO_SIDED|95.0|0.308|1.481|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Rb Negative||1.481|0.308|0.3237
92227302|NCT00927368|184356881|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating catheter minus mean stimulating needle is greater than 0.5 points).|Mean Difference (Final Values)|0.16||||0.03|TWO_SIDED|95.0|-0.29|0.61||Significance criterion of 0.01735 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing stimulating catheter to stimulating needle on the mean time-weighted average pain score for a patient in the first 48 hours.||0.61|-0.29|0.03
92275991|NCT00397839|184454502|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.72||||0.004||95.0|0.56|2.88|||ANCOVA|||Trochanter subgroup||2.88|0.56|0.004
92351962|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.555|||<|0.0001|TWO_SIDED|95.0|0.437|0.705|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Cyclin D1 Positive||0.705|0.437|<0.0001
92351963|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.997||||0.9964|TWO_SIDED|95.0|0.287|3.461|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Cyclin D1 Negative||3.461|0.287|0.9964
92351964|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.518|||<|0.0001|TWO_SIDED|95.0|0.4|0.67|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for p16 Positive||0.670|0.400|<0.0001
92351965|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.731||||0.3221|TWO_SIDED|95.0|0.392|1.364|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for p16 Negative||1.364|0.392|0.3221
92351966|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.581|||<|0.0001|TWO_SIDED|95.0|0.455|0.742|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for p16 HScore\<175||0.742|0.455|<0.0001
92351967|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.255||||0.0022|TWO_SIDED|95.0|0.1|0.65|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for p16 HScore\>=175||0.650|0.100|0.0022
92351968|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.53||||0.0002|TWO_SIDED|95.0|0.379|0.742|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Ki67 \<=20%||0.742|0.379|0.0002
92351969|NCT01740427|184609127|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.569||||0.0007|TWO_SIDED|95.0|0.409|0.791|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Ki67 \>20%||0.791|0.409|0.0007
92351970|NCT01740427|184609131|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.023||||0.0925|TWO_SIDED|95.0|-0.004|0.051|||Mixed Models Analysis|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||||0.051|-0.004|0.0925
92351971|NCT01740427|184609132|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.325||||0.7822|TWO_SIDED|95.0|-2.63|1.98|||Mixed Models Analysis|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||||1.98|-2.63|0.7822
92351972|NCT01740427|184609134|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.956||||0.33775|TWO_SIDED|95.0|0.777|1.177||1-sided p-value from the stratified log-rank test.|Stratified Log Rank|||||1.177|0.777|0.337750
92351973|NCT01740427|184609135|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.921||||0.208706|TWO_SIDED|95.0|0.755|1.124||1-sided p-value from the stratified log-rank test.|Stratified Log Rank|||||1.124|0.755|0.208706
92351974|NCT00963508|184609138|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92351975|NCT00963508|184609139|SUPERIORITY_OR_OTHER|||||||0.0005|||||||t-test, 2 sided|||||||0.0005
92275992|NCT00397839|184454503|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.75|||<|0.001||95.0|1.11|2.4|||ANCOVA|||Total Hip subgroup||2.40|1.11|<0.001
92351976|NCT02184156|184609141|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92351977|NCT02184156|184609142|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.25
92351978|NCT00165698|184609145|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Symbols rank sum test|||||||0.26
92351979|NCT00165698|184609146|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||Symbols rank sum test|||||||0.19
92351980|NCT00165698|184609147|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Symbols rank sum test|||||||0.31
92275993|NCT00397839|184454503|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.18||||0.031||95.0|0.11|2.25|||ANCOVA|||Femoral Neck subgroup||2.25|0.11|0.031
92275994|NCT00397839|184454503|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.18||||0.031||95.0|0.11|2.25|||ANCOVA|||Trochanter subgroup||2.25|0.11|0.031
92351981|NCT00165698|184609148|SUPERIORITY_OR_OTHER|||||||0.869||95.0|||||symbols rank sum test|||||||0.869
92351982|NCT00165698|184609149|SUPERIORITY_OR_OTHER|||||||0.174||95.0|||||symbols rank sum test|||||||0.174
92351983|NCT00165698|184609150|SUPERIORITY_OR_OTHER|||||||0||95.0|||||symbols rank sum test|||||||0.000
92351984|NCT00165698|184609151|SUPERIORITY_OR_OTHER|||||||0||95.0|||||symbols rank sum test|||||||0.000
92351985|NCT00165698|184609152|SUPERIORITY_OR_OTHER|||||||0||95.0|||||symbols rank sum test|||||||0.000
92351986|NCT02547935|184609156|SUPERIORITY||Difference in adjusted mean change|-0.58|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.8|-0.37||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures analysis included the fixed categorical effects of treatment, week, randomisation stratification factor (i.e. anti-diabetic treatment strata), and treatment-by-week interaction, as well as the continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.||-0.37|-0.80|<0.001
92351987|NCT02547935|184609157|SUPERIORITY||Difference in adjusted mean change|-38.0|STANDARD_ERROR_OF_MEAN|5.7|<|0.001|TWO_SIDED|95.0|-48.2|-25.8||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation stratification factor (i.e. anti-diabetic treatment strata), as well as the continuous fixed covariates of log-baseline UACR value and log-baseline UACR value-by-week interaction.||-25.8|-48.2|<0.001
92405654|NCT02504151|184701484|SUPERIORITY||Mean Difference (Net)|4.13|STANDARD_ERROR_OF_MEAN|2.05||0.994|TWO_SIDED|95.0|0.07|8.19|||Mixed Models Analysis||This is the estimated difference between treatment groups (cbd - placebo).|The p value is based on the interaction of treatment and time.||8.19|0.07|0.994
92161049|NCT00991276|184210592|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.07|STANDARD_ERROR_OF_MEAN|1.01||0.0029|TWO_SIDED|95.0|-5.07|-1.07||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.07|-5.07|0.0029
92351988|NCT02547935|184609157|SUPERIORITY||Difference in adjusted mean change|-21.0|STANDARD_ERROR_OF_MEAN|7.3||0.011|TWO_SIDED|95.0|-34.1|-5.2||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation stratification factor (i.e. anti-diabetic treatment strata), as well as the continuous fixed covariates of log-baseline UACR value and log-baseline UACR value-by-week interaction.||-5.2|-34.1|0.011
92351989|NCT02547935|184609158|SUPERIORITY||Difference in adjusted mean change|-0.04|STANDARD_ERROR_OF_MEAN|0.66||0.953|TWO_SIDED|95.0|-1.32|1.26||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation stratification factor (i.e. anti-diabetic treatment strata), as well as the continuous fixed covariates of log-baseline total body weight value and log-baseline total body weight value-by-week interaction.||1.26|-1.32|0.953
92351990|NCT02547935|184609158|SUPERIORITY||Difference in adjusted mean change|-0.87|STANDARD_ERROR_OF_MEAN|0.66||0.193|TWO_SIDED|95.0|-2.17|0.44||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation stratification factor (i.e. anti-diabetic treatment strata), as well as the continuous fixed covariates of log-baseline total body weight value and log-baseline total body weight value-by-week interaction.||0.44|-2.17|0.193
92351991|NCT02547935|184609159|SUPERIORITY||Difference in adjusted mean change|-6.1|STANDARD_ERROR_OF_MEAN|5.8||0.298|TWO_SIDED|95.0|-17.5|5.4||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures analysis included the fixed categorical effects of treatment, week, randomisation stratification factor (i.e.anti-diabetic treatment strata), and treatment-by-week interaction, as well as the continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.||5.4|-17.5|0.298
92351992|NCT02547935|184609159|SUPERIORITY||Difference in adjusted mean change|-1.9|STANDARD_ERROR_OF_MEAN|5.9||0.746|TWO_SIDED|95.0|-13.6|9.8||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures analysis included the fixed categorical effects of treatment, week, randomisation stratification factor (i.e.anti-diabetic treatment strata), and treatment-by-week interaction, as well as the continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.||9.8|-13.6|0.746
92351993|NCT02547935|184609160|SUPERIORITY||Odds Ratio (OR)|2.98|||<|0.001|TWO_SIDED|95.0|1.8|4.8||Statistical significance level = 0.025.|Regression, Logistic|||Logistic regression model analysis with adjustment for baseline UACR and pooled randomisation strata.||4.8|1.8|<0.001
92351994|NCT02547935|184609160|SUPERIORITY||Odds Ratio (OR)|1.86||||0.013|TWO_SIDED|95.0|1.1|3.0||Statistical significance level = 0.025.|Regression, Logistic|||Logistic regression model analysis with adjustment for baseline UACR and pooled randomisation strata.||3.0|1.1|0.013
92351995|NCT02547935|184609161|SUPERIORITY||Odds Ratio (OR)|5.43|||<|0.001|TWO_SIDED|95.0|2.6|11.2||Statistical significance level = 0.025.|Regression, Logistic|||Logistic regression model analysis with adjustment for baseline HbA1c and pooled randomisation strata.||11.2|2.6|<0.001
92351996|NCT02547935|184609161|SUPERIORITY||Odds Ratio (OR)|1.74||||0.167|TWO_SIDED|95.0|0.8|3.8||Statistical significance level = 0.025.|Regression, Logistic|||Logistic regression model analysis with adjustment for baseline HbA1c and pooled randomisation strata.||3.8|0.8|0.167
92351997|NCT02547935|184609162|SUPERIORITY||Difference in adjusted mean change|-4.8|STANDARD_ERROR_OF_MEAN|1.8||0.009|TWO_SIDED|95.0|-8.3|-1.2||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios, included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation strata, as well as the continuous fixed covariates of log-baseline SBP value and log-baseline SBP value-by-week interaction.||-1.2|-8.3|0.009
92351998|NCT02547935|184609162|SUPERIORITY||Difference in adjusted mean change|-2.8|STANDARD_ERROR_OF_MEAN|1.8||0.122|TWO_SIDED|95.0|-6.4|0.8||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios, included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation strata, as well as the continuous fixed covariates of log-baseline SBP value and log-baseline SBP value-by-week interaction.||0.8|-6.4|0.122
92351999|NCT02547935|184609163|SUPERIORITY||Difference in adjusted mean change|-0.16|STANDARD_ERROR_OF_MEAN|0.11||0.142|TWO_SIDED|95.0|-0.38|0.05||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures analysis included the fixed categorical effects of treatment, week, randomisation stratification factor (i.e. anti-diabetic treatment strata), and treatment-by-week interaction, as well as the continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.||0.05|-0.38|0.142
92352000|NCT01398475|184609164|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|1.02|||||TWO_SIDED|90.0|0.951|1.1|||||The geometric LS mean ratio (TF1 fasted divided by RF fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||1.10|0.951|
92352001|NCT01398475|184609164|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|1.02|||||TWO_SIDED|90.0|0.947|1.09|||||The geometric LS mean ratio (TF2 fasted divided by RF fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||1.09|0.947|
92352002|NCT01398475|184609164|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.888|||||TWO_SIDED|90.0|0.827|0.953|||||The geometric LS mean ratio (TF2 fed divided by TF2 fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||0.953|0.827|
92352003|NCT01398475|184609165|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|0.979|||||TWO_SIDED|90.0|0.868|1.1|||||The geometric LS mean ratio (TF1 fasted divided by RF fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||1.10|0.868|
92220258|NCT01476475|184340645|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority of insulin glargine/lixisenatide FRC versus insulin glargine was tested first, at alpha level of 0.025 (1-sided) and a non-inferiority margin of 0.4% HbA1c. If non-inferiority was established, then a test of superiority of insulin glargine/lixisenatide FRC over insulin glargine would be performed, at alpha level of 0.05 (2-sided). The non-inferiority was assessed using upper bound of 2-sided 95% confidence interval (CI) at ≤0.4%.|Least square (LS) mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.312|-0.037|||ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects and baseline HbA1c value as covariates. A step-down testing procedure described by Hochberg and Tamhane was used to control type-1 error.||-0.037|-0.312|
92275995|NCT00397839|184454504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.91||||0.362||95.0|0.73|1.13|||Cochran-Mantel-Haenszel||Relative risk|Total Spine BMD at Month 6||1.13|0.73|0.362
92275996|NCT00397839|184454504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.85||||0.044||95.0|0.72|1.01|||Cochran-Mantel-Haenszel||Relative risk|Total Spine BMD at Month 12||1.01|0.72|0.044
92352004|NCT01398475|184609165|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.962|||||TWO_SIDED|90.0|0.852|1.08|||||The geometric LS mean ratio (TF2 fasted divided by RF fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||1.08|0.852|
92352005|NCT01398475|184609165|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.82|||||TWO_SIDED|90.0|0.727|0.925|||||The geometric LS mean ratio (TF2 fed divided by TF2 fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||0.925|0.727|
92352006|NCT01398475|184609166|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.719|TWO_SIDED|90.0|-0.25|0.5|||Wilcoxon (Mann-Whitney)||The median difference was calculated as TF1 fasted minus RF fasted.|||0.500|-0.250|0.719
92352007|NCT01398475|184609166|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.96|TWO_SIDED|90.0|-0.25|0.75|||Wilcoxon (Mann-Whitney)||The median difference was calculated as TF2 fasted minus RF fasted.|||0.750|-0.250|0.960
92352008|NCT01398475|184609166|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.5||||0.006|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon (Mann-Whitney)||The median difference was calculated as TF2 fed minus TF2 fasted.|||2.00|0|0.006
92352009|NCT01271855|184609184|SUPERIORITY||Z-Score|0.93||||0.35|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The z-score is a standardized version of the Wilcoxon test statistic. In this study, z-scores with an absolute value exceeding 1.96 signal the two groups have meaningfully different pain scores. Other values would fail to reject the null hypothesis.|The null hypothesis is that there is no difference in the visual analogue pain score scale (VAS) between participants in the Glycerin suppository group and those in the Belladonna and opioid suppository group 24-hours after delivery.||||.35
92352010|NCT01271855|184609185|SUPERIORITY||Odds Ratio (OR)|1.88||||0.3|TWO_SIDED|95.0|0.57|6.21|||Regression, Logistic|||The null hypothesis is that there is no difference in the odds of taking additional pain medications between participants in the Glycerin suppository group and those in the Belladonna and opioid suppository group 24-hours after delivery.||6.21|0.57|.30
92352011|NCT01271855|184609186|SUPERIORITY||Z-Score|2.34||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The z-score is a standardized version of the Wilcoxon test statistic. In this study, z-scores with an absolute value exceeding 1.96 signal the two groups have meaningfully different satisfaction scores. Other values fail to reject the null hypothesis|The null hypothesis is that there is no difference in the pain satisfaction score between participants in the Glycerin suppository group and those in the Belladonna and opioid suppository group at discharge||||.02
92352012|NCT00126737|184609199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.395||||0.0129|TWO_SIDED|95.0|-11.41|-1.38|||ANCOVA|Co-variates entered into the model were BMI and WOMAC function subscale.||||-1.38|-11.41|0.0129
92352013|NCT00126737|184609199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.174||||0.0535|TWO_SIDED|95.0|-10.43|0.079|||ANCOVA|Covariates entered into the model were BMI and WOMAC function||||0.079|-10.43|0.0535
92352014|NCT00126737|184609200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.545||||0.0307|TWO_SIDED|95.0|0.432|8.659|||ANCOVA|||||8.659|0.432|0.0307
92352015|NCT00126737|184609202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|39.94||||0.0158|TWO_SIDED|95.0|7.655|72.215|||ANCOVA|Total disease (co-morbidity) as covariate was entered into the model||||72.215|7.655|0.0158
92352016|NCT00126737|184609202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|62.25||||0.0002|TWO_SIDED|95.0|29.97|94.54|||ANCOVA|Total disease (co-morbidity) as covariate was entered into the model||||94.54|29.97|0.0002
92352017|NCT00126737|184609202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.95||||0.0056|TWO_SIDED|95.0|12.54|75.36|||ANCOVA|Total disease (co-morbidity) as covariate was entered into the model||||75.36|12.54|0.0056
92352018|NCT00126737|184609203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.129||||0.0018|TWO_SIDED|95.0|10.767|45.492|||ANCOVA|Kellgren Lawrence Scale was entered into the model||||45.492|10.767|0.0018
92352019|NCT00126737|184609203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.71||||0.0024|TWO_SIDED|95.0|9.675|43.746|||ANCOVA|Kellgren Lawrence scale was entered into the model||||43.746|9.675|0.0024
92352020|NCT00126737|184609203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.747||||0.0368|TWO_SIDED|95.0|1.169|36.325|||ANCOVA|Kellgren Lawrence Scale was entered into the model||||36.325|1.169|0.0368
92352021|NCT01567085|184609204|OTHER|Exact binomial test|||||<|0.001||||||The p-value was calculated from an exact binomial test, where the null hypothesis was that the true failure rate = 40%.|Exact binomial test|Exact 95% confidence interval (3.6, 17.2)||Analysis of post-transplantation treatment failure rate||||< 0.001
92275997|NCT00397839|184454504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|||<|0.001||95.0|0.3|0.72|||Cochran-Mantel-Haenszel||Relative risk|Total Hip BMD at Month 6||0.72|0.30|<0.001
92352022|NCT04193176|184609207|SUPERIORITY||Mean Difference (Net)|-11.67||||0.004|TWO_SIDED|95.0|-19.67|-3.67|||ANCOVA|||||-3.67|-19.67|0.004
92352023|NCT00324857|184609210|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||"Please note that although the outcome is measured using a Likert scale, for the analysis we dichotomized the results.~P-value not adjusted for multiple comparison. Lastly, \<0.05 is the actual computed P-value."|Regression, Logistic|||Comparisons of the baseline demographic and clinical characteristics (TKR) across the 4 intervention groups were performed using chi-square tests for categorical data and analysis of variance for continuous variables. Willingness were compared across the groups over time using mixed-effect logistic regressions for dichotomous outcomes.||||<0.05
92220259|NCT01476475|184340645|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.013|TWO_SIDED|95.0|-0.312|-0.037||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects and baseline HbA1c value as covariates. If non-inferiority was established, then a test of superiority of insulin glargine/lixisenatide FRC over insulin glargine would be performed, at alpha level of 0.05 (2-sided).||-0.037|-0.312|0.0130
92220260|NCT01476475|184340646|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.17|STANDARD_ERROR_OF_MEAN|0.337|<|0.0001|TWO_SIDED|95.0|-3.832|-2.504||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Analysis was performed using ANCOVA with treatment groups,randomization strata of screening HbA1c(\<8.0, ≥8.0%)\& screening BMI(\<30 kg/m\^2, ≥30 kg/m\^2),country as fixed effects and baseline 2-hour PPG value as covariates.A step-down testing procedure used to control type-1 error.If non-inferiority demonstrated for primary endpoint,superiority testing on secondary endpoints was performed sequentially in order endpoints are reported(continued only if previous endpoint was statistically significant).||-2.504|-3.832|<0.0001
92352024|NCT00944645|184609212|NON_INFERIORITY_OR_EQUIVALENCE|Primary research hypothesis I: The Cmax of nicotinuric acid (NUA) following the administration of MK0524A (ER niacin 1000 mg/ laropiprant 20 mg) tablets from 2 manufacturing sites is similar (i.e., the true GMR of NUA Cmax is contained within the bioequivalence interval (0.80, 1.25)).|Geometric Mean Ratio|0.98||||||90.0|0.93|1.03||||||"MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) tablet from new manufacturing site (Source 2)~MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) Phase III tablet (Source 1)"||1.03|0.93|
92352025|NCT00944645|184609213|NON_INFERIORITY_OR_EQUIVALENCE|Primary research hypothesis II: The total urinary excretion of niacin and niacin metabolites following the administration of MK0524 (ER niacin 1000 mg/ laropiprant 20 mg) tablets from 2 manufacturing sites is similar (i.e., the true GMR of total urinary excretion of niacin and its metabolites is contained within the bioequivalence interval (0.80, 1.25)).|Geometric Mean Ratio|0.94||||||90.0|0.89|0.98||||||"MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) tablet from new manufacturing site (Source 2)~MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) Phase III tablet (Source 1)"||0.98|0.89|
92352026|NCT00944645|184609214|NON_INFERIORITY_OR_EQUIVALENCE|Primary research hypothesis III: The AUC0-infinity of laropiprant following the administration of MK0524A (ER niacin 1000 mg/ laropiprant 20 mg) tablets from 2 manufacturing sites is similar (i.e., the true GMR of MK0524 AUC0-∞ is contained within the bioequivalence interval (0.80, 1.25)).|Geometric Mean Ratio|1.0||||||95.0|0.95|1.05||||||"Group B: MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) tablet from new manufacturing site (Source 2)~Group A: MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) Phase III tablet (Source 1)"||1.05|0.95|
92352027|NCT00944645|184609215|NON_INFERIORITY_OR_EQUIVALENCE|Primary research hypothesis IV: The Cmax of laropiprant following the administration of MK0524A (ER niacin 1000 mg/ laropiprant 20 mg) tablets from 2 manufacturing sites is similar (i.e., the true GMR of MK0524 Cmax is contained within the bioequivalence interval (0.80, 1.25)).|Geometric Mean Ratio|1.02||||||95.0|0.96|1.09||||||"MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) tablet from new manufacturing site (Source 2)~MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) Phase III tablet (Source 1)"||1.09|0.96|
92352028|NCT03537729|184609218|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|0.19|<|0.01|TWO_SIDED|95.0|0.18|0.91||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Cues minus control|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||0.91|0.18|<.01
92352029|NCT03537729|184609218|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.18||0.96|TWO_SIDED|95.0|-0.35|0.37||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus control.|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||0.37|-0.35|.96
92352030|NCT03537729|184609218|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.18|<|0.01|TWO_SIDED|95.0|-0.89|-0.18||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus cues only|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||-0.18|-0.89|<.01
92400626|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.287||||0.128|TWO_SIDED|95.0|-0.37|2.944|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.944|-0.370|0.1280
92275998|NCT00397839|184454504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.57|||<|0.001||95.0|0.41|0.8|||Cochran-Mantel-Haenszel||Relative risk|Total Hip BMD at Month 12||0.80|0.41|<0.001
92400627|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.288||||0.1346|TWO_SIDED|95.0|-0.399|2.976|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.976|-0.399|0.1346
92275999|NCT00397839|184454504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|||<|0.001||95.0|0.23|0.72|||Cochran-Mantel-Haenszel||Relative risk|Both Total Hip and Total Spine BMD at Month 6||0.72|0.23|<0.001
92276000|NCT00397839|184454504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|||<|0.001||95.0|0.33|0.75|||Cochran-Mantel-Haenszel||Relative risk|Both Total Hip and Total Spine BMD||0.75|0.33|<0.001
92276001|NCT02151461|184454505|OTHER|A mixed-effects model for analysis of covariance (ANCOVA) was used to analyze changes from Baseline in plasma glucose AUC(0-3hr) at Week 4 in the Day 28 Evaluable population. The model includes factors for treatment group and fasting plasma glucose stratum.||||||0.0435||||||Baseline plasma glucose AUC(0-3hr) is adjusted as a covariate.|ANCOVA|||||||0.0435
92352031|NCT03537729|184609218|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.12||0.23|TWO_SIDED|95.0|-0.09|0.38||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Cues minus control|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||0.38|-0.09|.23
92352032|NCT03537729|184609218|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.12||0.9|TWO_SIDED|95.0|-0.25|0.22||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus control|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||0.22|-0.25|.90
92352033|NCT03537729|184609218|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.11||0.17|TWO_SIDED|95.0|-0.38|0.07||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus cues only.|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||0.07|-0.38|.17
92352034|NCT03537729|184609218|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.11||0.58|TWO_SIDED|95.0|-0.16|0.28||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Cues minus control.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||0.28|-0.16|.58
92352035|NCT03537729|184609218|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.11||0.15|TWO_SIDED|95.0|-0.06|0.37||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus control.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||0.37|-0.06|.15
92352036|NCT03537729|184609218|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.1||0.37|TWO_SIDED|95.0|-0.11|0.29||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus cues only.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||0.29|-0.11|.37
92276002|NCT02151461|184454505|OTHER|||||||0.065|||||||ANCOVA|||||||0.065
92352037|NCT03537729|184609219|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.02||0.04|TWO_SIDED|95.0|-0.07|-0.01||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Cues minus control.|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||-0.01|-0.07|.04
92352038|NCT03537729|184609219|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.1|TWO_SIDED|95.0|-0.07|0.01||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus control.|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||0.01|-0.07|.10
92352039|NCT03537729|184609219|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.69|TWO_SIDED|95.0|-0.03|0.04||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus cues only.|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||0.04|-0.03|.69
92352040|NCT03537729|184609220|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|0.65||||0.04|TWO_SIDED|95.0|0.44|0.99||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for cues divided by proportion of errors for control. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means for two arms was exponentiated.|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||0.99|0.44|0.04
92352041|NCT03537729|184609220|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|0.59||||0.01|TWO_SIDED|95.0|0.39|0.9||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for spaced retrieval divided by proportion of errors for control. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means was exponentiated.|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||0.90|0.39|.01
92352042|NCT03537729|184609220|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|0.9||||0.61|TWO_SIDED|95.0|0.6|1.35||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for spaced retrieval divided by proportion of errors for cues. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means was exponentiated.|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||1.35|0.60|.61
92352043|NCT03537729|184609220|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|1.26||||0.26|TWO_SIDED|95.0|0.84|1.88||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for cues divided by proportion of errors for control. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means was exponentiated.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||1.88|0.84|.26
92400628|NCT00083889|184692422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.291||||0.1466|TWO_SIDED|95.0|-0.452|3.034|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||3.034|-0.452|0.1466
92400629|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.929||||0.0001|TWO_SIDED|95.0|0.46|1.398|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Functional Assessment of Cancer Therapy-General (FACT-G) Emotional Well Being (EWB) subscale baseline score (intercept and time since randomization are included as random effects).||1.398|0.460|0.0001
92400630|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.922|||<|0.0001||95.0|0.469|1.375|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.375|0.469|<.0001
92220261|NCT01476475|184340647|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|0.331|<|0.0001|TWO_SIDED|95.0|-3.895|-2.592||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the step-down testing procedure (continued only if previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects and baseline 2-hour plasma glucose excursion value as covariates.||-2.592|-3.895|<0.0001
92220262|NCT01476475|184340648|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.125||0.0154|TWO_SIDED|95.0|-0.55|-0.058||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the step-down testing procedure (continued only if previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects and baseline average 7-point SMPG value as covariates.||-0.058|-0.550|0.0154
92276003|NCT02151461|184454505|OTHER|||||||0.1216|||||||ANCOVA|||||||0.1216
92352044|NCT03537729|184609220|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|0.79||||0.25|TWO_SIDED|95.0|0.53|1.19||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for spaced retrieval divided by proportion of errors for control. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means was exponentiated.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||1.19|0.53|.25
92352045|NCT03537729|184609220|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|0.63||||0.03|TWO_SIDED|95.0|0.42|0.94||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for spaced retrieval divided by proportion of errors for cues. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means was exponentiated.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||0.94|0.42|.03
92352046|NCT03537729|184609221|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|1.69||0.31|TWO_SIDED|95.0|-5.03|1.6||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline.|Cues minus control.|The null hypothesis was that means of two arms are equal, the alternative was that means were not equal.||1.60|-5.03|.31
92352047|NCT03537729|184609221|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|1.75||0.66|TWO_SIDED|95.0|-4.23|2.66||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline.|Spaced retrieval minus control.|The null hypothesis was that means of two arms are equal, the alternative was that means were not equal.||2.66|-4.23|.66
92352048|NCT03537729|184609221|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|1.65||0.57|TWO_SIDED|95.0|-2.3|4.17||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline.|Spaced retrieval minus cues only.|The null hypothesis was that means of two arms are equal, the alternative was that means were not equal.||4.17|-2.30|.57
92352049|NCT02504775|184609270|NON_INFERIORITY_OR_EQUIVALENCE|Log-transformed PK parameter was compared between products using a linear mixed effects model including terms for product, period, sequence as fixed effect and subject nested within sequence as random effect. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25|Ratio of Averages of Tylenol/Mejoral|94.704|||||TWO_SIDED|90.0|88.329|101.54|||ANOVA|||||101.540|88.329|
92352050|NCT02504775|184609271|NON_INFERIORITY_OR_EQUIVALENCE|Log-transformed PK parameter was compared between products using a linear mixed effects model including terms for product, period, sequence as fixed effect and subject nested within sequence as random effect. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25|Ratio of Averages of Tylenol/Mejoral|95.989|||||TWO_SIDED|90.0|89.826|102.574|||ANOVA|||||102.574|89.826|
92352051|NCT02504775|184609272|NON_INFERIORITY_OR_EQUIVALENCE|Log-transformed PK parameter was compared between products using a linear mixed effects model including terms for product, period, sequence as fixed effect and subject nested within sequence as random effect. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25|Ratio of Averages of Tylenol/Mejoral|106.132|||||TWO_SIDED|90.0|85.151|132.283|||ANOVA|||||132.283|85.151|
92400631|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.918|||<|0.0001||95.0|0.471|1.365|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.365|0.471|<.0001
92276004|NCT02151461|184454506|OTHER|A mixed-effects model for analysis of covariance (ANCOVA) was used to analyze changes from Baseline in incremental plasma glucose AUC at Week 4 in the Day 28 Evaluable population. The model will include factors for treatment group and fasting plasma glucose stratum.||||||0.8867|||||||ANCOVA|The model includes factors for treatment group and fasting plasma glucose stratum.||||||0.8867
92276005|NCT02151461|184454506|OTHER|||||||0.7641|||||||ANCOVA|||||||0.7641
92276006|NCT02151461|184454506|OTHER|||||||0.2518|||||||ANCOVA|||||||0.2518
92276007|NCT02151461|184454507|OTHER|||||||0.0179|||||||ANCOVA|Total daily dose is twice the respective dose, Pairwise comparison using Treatment D as the reference group||||||0.0179
92276008|NCT02151461|184454507|OTHER|||||||0.0736|||||||ANCOVA|||||||0.0736
92400632|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.911|||<|0.0001||95.0|0.469|1.352|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.352|0.469|<.0001
92400633|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.907|||<|0.0001||95.0|0.466|1.348|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.348|0.466|<.0001
92352052|NCT00666978|184609305|SUPERIORITY|The x2 test was used to determine whether there was a difference between treatment groups (bupropion SR vs placebo) in verified 7-day point prevalence abstinence at week 26, imputing the missing participants as smokers.|Odds Ratio (OR)|1.39||||0.23|TWO_SIDED|95.0|0.82|2.35||All tests of statistical significance were two-sided, and all P values less than .05 were considered statistically significant.|t-test, 2 sided||Raw proportions were used to estimate the verified cessation rate in each group and corresponding odds ratio along with its 95% confidence interval .|Based on our previous studies, sample size was determined a priori assuming a two-sided x2 test with a type I error rate of .05, a power of 80%, and a cotinine-verified abstinence rate of 15% in the placebo group and 25% in the bupropion SR group at week 26, with the assumption that those lost to follow-up would be imputed as smokers.||2.35|0.82|.23
92352053|NCT00666978|184609306|OTHER||Odds Ratio (OR)|0.97||||0.0022|TWO_SIDED|95.0|0.95|0.99||This reflects Week 7.|Regression, Logistic||This reflects Week 7.|||0.99|0.95|0.0022
92352054|NCT00666978|184609307|OTHER||Odds Ratio (OR)|2.82|||<|0.05|TWO_SIDED|||||Analysis relied on examining quit rates using linear regression, where the hydroxybupropion was a significant predictor of smoking cessation. CYP2B6 genotype was not a direct significant predictor of cessation in either the placebo or bupropion arm.|Regression, Linear||Bupropion adherent individuals with higher hydroxybupropion levels were more likely to be abstinent at Weeks 3, 7 and 26 compared to individuals with lower hydroxybupropion levels.|||||<0.05
92352055|NCT01428713|184609315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|536.4|STANDARD_ERROR_OF_MEAN|162.12||0.01||||||P value \< 0.05 is considered significant in this study|Mixed Models Analysis||Comparing PBAC score value at baseline vs. end of 3 cycles for TA|||||0.01
92352056|NCT01428713|184609315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|430.6|STANDARD_ERROR_OF_MEAN|157.35||0.03||||||P value \< 0.05 is considered significant for this study|Mixed Models Analysis||Comparing PBAC score value at baseline vs. end of 3 cycles for COCP|||||0.03
92352057|NCT01428713|184609315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.6|STANDARD_ERROR_OF_MEAN|5.08||0.03||||||P value \< 0.05 is considered significant for this study|Mixed Models Analysis||Comparing Peds QL score value at baseline vs. end of 3 cycles for TA|||||0.03
92352058|NCT01428713|184609315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.75|STANDARD_ERROR_OF_MEAN|4.87||0.01|||||||Mixed Models Analysis||Comparing Peds QL score value at baseline vs. end of 3 cycles for COCP|||||0.01
92352059|NCT00875667|184609316|SUPERIORITY||Stratified Hazard Ratio|0.63||||0.012|TWO_SIDED|95.0|0.43|0.9||Stratification factors were: time from diagnosis to first dose, time from last prior anti-lymphoma therapy to first dose, prior stem cell transplant, and MIPI at baseline|Stratified Log Rank Test|||||0.90|0.43|0.012
92352060|NCT00875667|184609317|SUPERIORITY||Stratified Hazard Ratio|0.6||||0.003|TWO_SIDED|95.0|0.43|0.85||Stratification factors were: time from diagnosis to first dose, time from last prior anti-lymphoma therapy to first dose, prior stem cell transplant, and MIPI at baseline|Stratified Log Rank Test||The weights are based on observed events at the time the third DMC meeting was held and based on the difference between observed and expected events at the time of the primary analysis.|||0.85|0.43|0.003
92352061|NCT00875667|184609318|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352062|NCT00875667|184609319|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92161050|NCT00991276|184210592|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.03|STANDARD_ERROR_OF_MEAN|1.01||0.0032|TWO_SIDED|95.0|-5.02|-1.04||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.04|-5.02|0.0032
92352063|NCT00875667|184609320|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.421|TWO_SIDED|95.0|0.29|1.68|||Log Rank|||||1.68|0.29|0.421
92352064|NCT00875667|184609321|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.875|TWO_SIDED|95.0|0.52|1.74|||Log Rank|||||1.74|0.52|0.875
92352065|NCT00875667|184609322|SUPERIORITY|||||||0.313|||||||Chi-squared|||||||0.313
92352066|NCT00875667|184609323|SUPERIORITY|||||||0.465|||||||Chi-squared|||||||0.465
92352067|NCT00875667|184609324|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.005|TWO_SIDED|95.0|0.45|0.87|||Log Rank|||||0.87|0.45|0.005
92276009|NCT02151461|184454507|OTHER|||||||0.0475|||||||ANCOVA|||||||0.0475
92276010|NCT02151461|184454508|OTHER|||||||0.0089|||||||ANCOVA|Total daily dose is twice the respective dose. Pairwise Comparison using Treatment D as the Reference Group||||||0.0089
92276011|NCT02151461|184454508|OTHER|||||||0.376|||||||ANCOVA|||||||0.376
92276012|NCT02151461|184454508|OTHER|||||||0.0578|||||||ANCOVA|||||||0.0578
92352068|NCT00875667|184609325|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.003|TWO_SIDED|95.0|0.46|0.86|||Log Rank|||||0.86|0.46|0.003
92352069|NCT00875667|184609326|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.046|TWO_SIDED|95.0|0.54|1.0|||Log Rank|||||1.00|0.54|0.046
92352070|NCT00875667|184609327|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.095|TWO_SIDED|95.0|0.58|1.05|||Log Rank|||||1.05|0.58|0.095
92352071|NCT00875667|184609328|SUPERIORITY||Hazard Ratio (HR)|3.91|||<|0.001|TWO_SIDED|95.0|1.95|7.85|||Log Rank|||||7.85|1.95|<0.001
92352072|NCT00875667|184609329|SUPERIORITY||Hazard Ratio (HR)|2.06|||<|0.004|TWO_SIDED|95.0|1.24|3.42|||Log Rank|||||3.42|1.24|<0.004
92400634|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.899|||<|0.0001||95.0|0.453|1.345|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.345|0.453|<.0001
92400635|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.895||||0.0001||95.0|0.444|1.347|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.347|0.444|0.0001
92400636|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.888||||0.0002||95.0|0.421|1.355|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.355|0.421|0.0002
92400637|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.884||||0.0003||95.0|0.406|1.362|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.362|0.406|0.0003
92161051|NCT00991276|184210594|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|10.69|STANDARD_ERROR_OF_MEAN|7.71||0.1677|TWO_SIDED|95.0|-4.56|25.95||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||25.95|-4.56|0.1677
92400638|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.877||||0.0006||95.0|0.375|1.379|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.379|0.375|0.0006
92161052|NCT00991276|184210594|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.77|STANDARD_ERROR_OF_MEAN|7.63|<|0.0001|TWO_SIDED|95.0|-50.88|-20.66||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-20.66|-50.88|<0.0001
92352073|NCT00875667|184609330|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.519|TWO_SIDED|95.0|0.62|1.28|||Log Rank|||||1.28|0.62|0.519
92352074|NCT00875667|184609331|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.558|TWO_SIDED|95.0|0.67|1.25|||Log Rank|||||1.25|0.67|0.558
92352075|NCT01579305|184609373|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is pre-defined as 15% i.e., if the difference in responder rates is significantly greater than -15% (i.e., the lower confidence limit is greater than -15%), statistical non-inferiority of VOLBELLA® to Restylane-L® is established.|Difference in responder rates|4.9|||||ONE_SIDED|97.5|-6.7||||||Difference in responder rates is calculated as the responder rate at Month 3 for VOLBELLA® minus the responder rate at Month 3 for Restylane-L®.|The null hypothesis is that VOLBELLA® is inferior to Restylane-L® in terms of responder rate at Month 3, and the alternative hypothesis is that VOLBELLA® is inferior to Restylane-L® in terms of responder rate at Month 3 with 15% pre-defined non-inferiority margin. To test the null hypothesis, a difference in responder rates of these products (VOLBELLA® - Restylane-L®) at Month 3 and a 1-sided 97.5% Wald confidence interval for the difference is calculated.|||-6.7|
92352076|NCT05987540|184609424|SUPERIORITY|||||||0.8125|||||||Wilcoxon matched-pairs signed rank|||||||.8125
92352077|NCT05987540|184609427|SUPERIORITY||||||>|0.9999|||||||Wilconxon matched-pairs signed rank test|||||||>0.9999
92352078|NCT02734147|184609430|OTHER|||||||0.631|||||||Other|||||||0.631
92352079|NCT02734147|184609431|OTHER|||||||0.64|||||||Other|||||||0.640
92352080|NCT02734147|184609432|SUPERIORITY|||||||0.006|||||||Fisher Exact|||||||0.006
92352081|NCT02734147|184609433|SUPERIORITY|||||||0.655|||||||Fisher Exact|||||||0.655
92352082|NCT02734147|184609434|SUPERIORITY|||||||0.133|||||||Fisher Exact|||||||0.133
92352083|NCT02734147|184609435|OTHER|||||||0.566|||||||Other|||||||0.566
92352084|NCT02734147|184609436|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
92352085|NCT01835756|184609459|SUPERIORITY_OR_OTHER||||||<|1e-05|TWO_SIDED||||||t-test, 2 sided|||||||<0.00001
92352086|NCT01835756|184609460|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92352087|NCT00888849|184609499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|7.69||0.7774|TWO_SIDED|95.0|-19.4|10.9||Adjusted for multiplicity via the Bonferroni-Holm method|ANOVA|||||10.9|-19.4|0.7774
92352088|NCT00888849|184609500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|0.8||0.0008|TWO_SIDED|95.0|1.4|4.5||Adjusted for multiplicity via Bonferroni-Holm procedure|ANOVA|||||4.5|1.4|0.0008
92352089|NCT00888849|184609501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.7774|TWO_SIDED|95.0|-0.2|0.6||Adjusted for multiplicity via Bonferroni-Holm procedure|ANOVA|||||0.6|-0.2|0.7774
92352090|NCT05064800|184609502|OTHER||Ratio of Adjusted Geometric Means|233.06|||||TWO_SIDED|90.0|172.14|315.54|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 2 was Test. Natural log-transformed Cmax of dabigatran was analyzed using mixed effect model with treatment, period, sequence as fixed effects; participant within sequence as a random effect. Estimates of the adjusted mean differences(AMD) (Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||315.54|172.14|
92352091|NCT05064800|184609503|OTHER||Ratio of Adjusted Geometric Means|169.07|||||TWO_SIDED|90.0|135.25|211.35|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 2 was Test. Natural log-transformed AUCinf of dabigatran was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences(AMD)(Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means(Test/Reference) and 90%CI for the ratios.||211.35|135.25|
92161053|NCT00991276|184210594|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|46.47|STANDARD_ERROR_OF_MEAN|7.59|<|0.0001|TWO_SIDED|95.0|31.45|61.48||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||61.48|31.45|<0.0001
92352092|NCT05064800|184609504|OTHER||Ratio of Adjusted Geometric Means|160.05|||||TWO_SIDED|90.0|119.19|214.9|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 2 was Test. Natural log-transformed AUClast of dabigatran was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences(AMD)(Test-Reference) and 90%CIs were obtained from the model.The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means(Test/Reference) and 90%CI for the ratios.||214.90|119.19|
92352093|NCT05064800|184609505|OTHER||Ratio of Adjusted Geometric Means|171.91|||||TWO_SIDED|90.0|127.51|231.77|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 3 was Test. Natural log-transformed Cmax of dabigatran was analyzed using mixed effect model with treatment, period, sequence as fixed effects; participant within sequence as a random effect. Estimates of the adjusted mean differences(AMD) (Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||231.77|127.51|
92400639|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.873||||0.0009||95.0|0.356|1.39|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.390|0.356|0.0009
92161054|NCT00991276|184210595|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.73|STANDARD_ERROR_OF_MEAN|4.72||0.104|TWO_SIDED|95.0|-17.07|1.61||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.61|-17.07|0.1040
92161055|NCT00991276|184210595|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|4.68||0.9325|TWO_SIDED|95.0|-9.67|8.87||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||8.87|-9.67|0.9325
92220263|NCT01476475|184340649|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.34|<|0.0001|TWO_SIDED|95.0|-2.11|-0.773||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the step-down testing procedure (continued only if previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects and baseline body weight value as covariates.||-0.773|-2.110|<0.0001
92352094|NCT05064800|184609506|OTHER||Ratio of Adjusted Geometric Means|169.07|||||TWO_SIDED|90.0|135.25|211.35|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 3 was Test. Natural log-transformed AUCinf of dabigatran was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences(AMD)(Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means(Test/Reference) and 90%CI for the ratios.||211.35|135.25|
92400640|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.866||||0.002||95.0|0.318|1.414|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.414|0.318|0.0020
92352095|NCT05064800|184609507|OTHER||Ratio of Adjusted Geometric Means|160.05|||||TWO_SIDED|90.0|119.19|214.9|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 3 was Test. Natural log-transformed AUClast of dabigatran was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences(AMD)(Test-Reference) and 90%CIs were obtained from the model.The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means(Test/Reference) and 90%CI for the ratios.||214.90|119.19|
92161056|NCT00991276|184210595|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.33|STANDARD_ERROR_OF_MEAN|4.65||0.1175|TWO_SIDED|95.0|-16.54|1.87||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.87|-16.54|0.1175
92161057|NCT00991276|184210596|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-23.98|STANDARD_ERROR_OF_MEAN|4.45|<|0.0001|TWO_SIDED|95.0|-32.78|-15.18||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-15.18|-32.78|<0.0001
92161058|NCT00991276|184210596|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-24.74|STANDARD_ERROR_OF_MEAN|4.41|<|0.0001|TWO_SIDED|95.0|-33.46|-16.02||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-16.02|-33.46|<0.0001
92161059|NCT00991276|184210596|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.76|STANDARD_ERROR_OF_MEAN|4.38||0.8622|TWO_SIDED|95.0|-7.9|9.43||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||9.43|-7.90|0.8622
92161060|NCT00991276|184210597|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|1.87||0.08|TWO_SIDED|95.0|-7.0|0.4||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.40|-7.00|0.0800
92352096|NCT02508207|184609536|OTHER|||||||0.7151||||||p-value for within TEZ/IVA group was analyzed using a 2-sided, paired, t-test at a 5% level of significance.|t-test, 2 sided|||||||0.7151
92352097|NCT02508207|184609537|OTHER|||||||0.0004||||||p-value for within TEZ/IVA group was analyzed using a 2-sided, paired, t-test at a 5% level of significance.|t-test, 2 sided|||||||0.0004
92352098|NCT02508207|184609538|OTHER|||||||0.3345|||||||t-test, 2 sided|p-value for within TEZ/IVA group was analyzed using a 2-sided, paired, t-test at a 5% level of significance.||||||0.3345
92352099|NCT02508207|184609539|OTHER|||||||0.0002||||||p-value for within TEZ/IVA group was analyzed using a 2-sided, paired, t-test at a 5% level of significance.|t-test, 2 sided|||||||0.0002
92400641|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.862||||0.0029||95.0|0.295|1.428|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.428|0.295|0.0029
92352100|NCT00395512|184609575|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.56|||<|0.001|TWO_SIDED|95.0|-0.78|-0.33||ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.|ANCOVA|||The primary efficacy variable was defined as change from Baseline in HbA1c level at Week 26. The null hypothesis was that the average change from Baseline in HbA1c at Week 26 for the A25 + P30 group would be equal to the average changes for the P30 alone and A25 alone groups; further, under the null hypothesis, the average change from Baseline in HbA1c at Week 26 for the A12.5 + P30 group was equal to the average change for the P30 alone group.||-0.33|-0.78|<0.001
92352101|NCT00395512|184609575|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-0.98|-0.53||ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.|ANCOVA|||||-0.53|-0.98|<0.001
92352102|NCT00395512|184609575|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-0.63|-0.18||ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.|ANCOVA|||||-0.18|-0.63|<0.001
92352103|NCT00395512|184609576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33||||0.003|TWO_SIDED|95.0|-0.55|-0.12|||ANCOVA|ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.||Comparison of change from Baseline at Week 20 between Pioglitazone 30 mg and Alogliptin 12.5 mg + Pioglitazone 30 mg.||-0.12|-0.55|0.003
92352104|NCT00395512|184609576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.74|-0.3|||ANCOVA|ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.||Comparison of change from Baseline at Week 20 between Pioglitazone 30 mg and Alogliptin 25 mg + Pioglitazone 30 mg.||-0.30|-0.74|<0.001
92352105|NCT00395512|184609576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.73|||<|0.001|TWO_SIDED|95.0|-0.94|-0.51|||ANCOVA|ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.||Comparison of change from Baseline at Week 20 between Alogliptin 25 mg and Alogliptin 25 mg + Pioglitazone 30 mg.||-0.51|-0.94|<0.001
92352106|NCT00395512|184609577|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.2||||0.017|TWO_SIDED|95.0|-20.3|-2.0|||ANCOVA|P-value is from an ANCOVA model with treatment and geographic region as class variables and Baseline fasting plasma glucose as covariate.||Comparison of change from Baseline in fasting plasma glucose at Week 26 between Pioglitazone 30 mg and Alogliptin 12.5 mg + Pioglitazone 30 mg.||-2.0|-20.3|0.017
92352107|NCT00395512|184609577|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.9||||0.006|TWO_SIDED|95.0|-22.0|-3.8|||ANCOVA|P-value is from an ANCOVA model with treatment and geographic region as class variables and Baseline fasting plasma glucose as covariate.||Comparison of change from Baseline in fasting plasma glucose at Week 26 between Pioglitazone 30 mg and Alogliptin 25 mg + Pioglitazone 30 mg.||-3.8|-22.0|0.006
92352108|NCT00395512|184609577|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.5|||<|0.001|TWO_SIDED|95.0|-33.5|-15.4|||ANCOVA|P-value is from an ANCOVA model with treatment and geographic region as class variables and Baseline fasting plasma glucose as covariate.||Comparison of change from Baseline in fasting plasma glucose at Week 26 between Alogliptin 25 mg and Alogliptin 25 mg + Pioglitazone 30 mg.||-15.4|-33.5|<0.001
92352109|NCT01659541|184609656|OTHER|Statistical analyses were performed using a repeated measures analysis of variance and Paired t test. A p value was calculated.|||||<|0.05|||||||ANOVA|Statistical analyses will be performed using a repeated measures analysis of variance and Paired t test.||Each patient was served as their own control (Pre-Implant); comparisons was made at various points in the study (Week #28, #40 and #52).||||<0.05
92352110|NCT01659541|184609657|OTHER|Statistical analyses were performed using a repeated measures analysis of variance and Paired t test. A p value was calculated.|||||<|0.05|||||||ANOVA|Statistical analyses will be performed using a repeated measures analysis of variance and Paired t test.||Each patient was served as their own control (Pre-Implant); comparisons were made at various points in the study (Week #28, #40 and #52).||||<0.05
92352111|NCT01659541|184609658|OTHER||||||<|0.05|||||||nonparametric analog (Freidman Test)|||The data prior to implantation (Pre-Implant)) were compared with data obtained after implantation (Week ##28, #40, #52) of the cough system using a nonparametric analog (Friedman Test) to the standard repeated measures analysis of variance. A p value was calculated. This alpha level was chosen as a correlation for inflated type I error rates because of multiple comparisons. Results are reported as means ± Standard Error.||||<0.05
92352112|NCT01659541|184609659|OTHER||||||<|0.05|||||||nonparametric analog (Freidman Test)|||The data prior to implantation (Pre-Implant) were compared with data obtained after implantation (Week #28, #40, #52) of the cough system using a nonparametric analog (Friedman Test) to the standard repeated measures analysis of variance. A p value was calculated. This alpha level was chosen as a correlation for inflated type I error rates because of multiple comparisons. Results are reported as means ± Standard Error.||||<0.05
92352113|NCT01659541|184609660|OTHER||||||<|0.05|||||||nonparametric analog (Freidman Test)|||The data prior to implantation (Pre-Implant) were compared with data obtained after implantation (Week #28 ,#40, #52) of the cough system using a nonparametric analog (Friedman Test) to the standard repeated measures analysis of variance. Paired t test. A p value was calculated. This alpha level was chosen as a correlation for inflated type I error rates because of multiple comparisons. Results are reported as means ± Standard Error.||||<0.05
92352114|NCT01659541|184609661|OTHER||||||<|0.05|||||||nonparametric analog (Freidman Test)|||The data prior to implantation (Pre-Implant) were compared with data obtained after implantation (Week #28, #40, #52) of the cough system using a nonparametric analog (Friedman Test) to the standard repeated measures analysis of variance. A p value was calculated. This alpha level was chosen as a correlation for inflated type I error rates because of multiple comparisons. Results are reported as means ± Standard Error.||||<0.05
92352115|NCT01222351|184609662|EQUIVALENCE|The null hypothesis was that there is no difference in the rate of cognitive decline between participants with and without amyloid.|Slope|-0.034||||0.02|TWO_SIDED||||||latent growth curve model|Latent growth curve models tested cognitive decline rate by amyloid status.|B weights were the estimates for the association between Aβ and cognitive change.|||||0.02
92352116|NCT01860404|184609682|SUPERIORITY|||||||0.871|||||||Kruskal-Wallis|||||||0.871
92352117|NCT01860404|184609683|SUPERIORITY|||||||0.14|||||||Kruskal-Wallis|||||||0.140
92352118|NCT01860404|184609684|SUPERIORITY|||||||0.267|||||||Kruskal-Wallis|||||||0.267
92352119|NCT01860404|184609685|SUPERIORITY|||||||0.476|||||||Kruskal-Wallis|||||||0.476
92352120|NCT01860404|184609686|SUPERIORITY|||||||0.581|||||||Kruskal-Wallis|||||||0.581
92352121|NCT01860404|184609687|SUPERIORITY|||||||0.203|||||||Fisher Exact|||||||0.203
92352122|NCT01860404|184609688|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92352123|NCT01860404|184609689|SUPERIORITY|||||||0.482|||||||Kruskal-Wallis|||||||0.482
92352124|NCT01860404|184609690|SUPERIORITY|||||||0.393|||||||Kruskal-Wallis|||||||0.393
92352125|NCT01860404|184609691|SUPERIORITY|||||||0.629|||||||Kruskal-Wallis|||||||0.629
92352126|NCT01860404|184609692|SUPERIORITY|||||||0.624|||||||Regression, Linear|||||||0.624
92352127|NCT01860404|184609693|SUPERIORITY|||||||0.2554|||||||Regression, Linear|||||||0.2554
92352128|NCT01860404|184609694|SUPERIORITY|||||||0.7964|||||||Regression, Linear|||||||0.7964
92352129|NCT01860404|184609695|SUPERIORITY|||||||0.7749|||||||Regression, Linear|||||||0.7749
92352130|NCT01860404|184609696|SUPERIORITY|||||||0.0036|||||||Regression, Linear|||||||0.0036
92352131|NCT01860404|184609697|SUPERIORITY|||||||0.0053|||||||Regression, Linear|||||||0.0053
92352132|NCT01860404|184609698|SUPERIORITY|||||||0.8234|||||||Regression, Linear|||||||0.8234
92352133|NCT02641353|184609699|OTHER||Geometric Mean Ratio|84.9|||||TWO_SIDED|90.0|77.3|93.2|||||Ratio of adjusted geometric means (Treatment B / Treatment A) expressed as a percentage.|To assess the bioavailability between the apremilast oral suspension and tablet formulation an analysis of variance (ANOVA) model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax.||93.2|77.3|
92400642|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.854||||0.0055||95.0|0.251|1.457|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.457|0.251|0.0055
92352134|NCT02641353|184609699|OTHER||Geometric Mean Ratio|78.2|||||TWO_SIDED|90.0|71.2|86.0|||||Ratio of adjusted geometric means (Treatment C / Treatment B) expressed as a percentage.|To assess the effect of food on the PK of apremilast oral suspension formulation, an ANOVA model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax.||86.0|71.2|
92352135|NCT02641353|184609700|OTHER||Geometric Mean Ratio|87.6|||||TWO_SIDED|90.0|83.0|92.5|||||Ratio of adjusted geometric means (Treatment B / Treatment A) expressed as a percentage.|To assess the bioavailability between the apremilast oral suspension and tablet formulation an ANOVA model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t.||92.5|83.0|
92352136|NCT02641353|184609700|OTHER||Geometric Mean Ratio|115.3|||||TWO_SIDED|90.0|109.2|121.7|||||Ratio of adjusted geometric means (Treatment C / Treatment B) expressed as a percentage.|To assess the effect of food on the PK of apremilast oral suspension formulation, an ANOVA model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t.||121.7|109.2|
92352137|NCT02641353|184609701|OTHER||Geometric Mean Ratio|87.8|||||TWO_SIDED|90.0|83.2|92.6|||||Ratio of adjusted geometric means (Treatment B / Treatment A) expressed as a percentage.|To assess the bioavailability between the apremilast oral suspension and tablet formulation an ANOVA model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞.||92.6|83.2|
92352138|NCT02641353|184609701|OTHER||Geometric Mean Ratio|115.0|||||TWO_SIDED|90.0|109.0|121.7|||||Ratio of adjusted geometric means (Treatment C / Treatment B) expressed as a percentage.|To assess the effect of food on the PK of apremilast oral suspension formulation, an ANOVA model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞.||121.7|109.0|
92352139|NCT02641353|184609702|OTHER||Median Difference|0.25||||0.1508|TWO_SIDED|90.0|0.0|0.5|||Wilcoxon signed-rank test||Median difference (Treatment B - Treatment A) calculated from the Hodges-Lehmann estimate|Tmax was analyzed by nonparametric methods. The median difference and 90% confidence interval (CI) of the median difference were calculated from the Hodges-Lehrmann estimate.||0.50|0.00|0.1508
92352140|NCT02641353|184609702|OTHER||Median Difference|2.25|||<|0.0001|TWO_SIDED|90.0|1.27|3.25|||Wilcoxon signed-rank test||Median difference (Treatment C - Treatment B) calculated from the Hodges-Lehmann estimate|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||3.25|1.27|<0.0001
92352141|NCT03461861|184609714|SUPERIORITY||Median Difference (Final Values)|-0.083|STANDARD_DEVIATION|0.0056||0.007567|TWO_SIDED|95.0|-0.0886|-0.0774|||t-test, 2 sided|||The null hypothesis (H0) of this superiority trials asserts that there is no true difference in functional connectivity between the interventions of placebo and AGB101, and the alternative hypothesis (H1) states that there is a difference between the interventions of placebo and AGB101. A type I error is the error of rejecting H0 when it is actually true.||-0.0774|-0.0886|0.007567
92161061|NCT00991276|184210597|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.28|STANDARD_ERROR_OF_MEAN|1.86||0.2209|TWO_SIDED|95.0|-5.95|1.39||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.39|-5.95|0.2209
92352142|NCT03461861|184609715|SUPERIORITY||Mean Difference (Final Values)|3.12|STANDARD_DEVIATION|1.4||0.900593|TWO_SIDED|95.0|1.72|4.52|||t-test, 2 sided|||The null hypothesis (H0) of this trial asserts that there is no true difference in AVLT between the interventions of placebo and AGB101, and the alternative hypothesis (H1) states that there is a difference between the interventions of placebo and AGB101. A type I error is the error of rejecting H0 when it is actually true.||4.52|1.72|0.900593
92352143|NCT01928771|184609716|SUPERIORITY_OR_OTHER||Rate ratio|0.55|||<|0.001|TWO_SIDED|95.0|0.42|0.71|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||0.71|0.42|<0.001
92352144|NCT01928771|184609716|SUPERIORITY_OR_OTHER||Rate ratio|0.49|||<|0.001|TWO_SIDED|95.0|0.37|0.64|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||0.64|0.37|<0.001
92352145|NCT01928771|184609717|SUPERIORITY_OR_OTHER||Rate ratio|0.7||||0.047|TWO_SIDED|95.0|0.5|1.0|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||1.0|0.5|0.047
92352146|NCT01928771|184609717|SUPERIORITY_OR_OTHER||Rate ratio|0.83||||0.268|TWO_SIDED|95.0|0.59|1.16|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||1.16|0.59|0.268
92352147|NCT01928771|184609718|SUPERIORITY_OR_OTHER||Rate ratio|0.61||||0.053|TWO_SIDED|95.0|0.37|1.01|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations resulting in ER/hospitalization in the previous year, and use of OCS||||1.01|0.37|0.053
92352148|NCT01928771|184609718|SUPERIORITY_OR_OTHER||Rate ratio|0.37|||<|0.001|TWO_SIDED|95.0|0.2|0.67|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations resulting in ER/hospitalization in the previous year, and use of OCS||||0.67|0.2|<0.001
92220264|NCT01476475|184340650|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|1.704||0.0583|TWO_SIDED|95.0|-6.592|0.114||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the step-down testing procedure (continued only if previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects.||0.114|-6.592|0.0583
92220265|NCT00676676|184340659|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Baseline versus 2-week||||0.002
92220266|NCT00676676|184340659|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Baseline versus 8-week||||0.004
92352149|NCT01928771|184609719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.54|||<|0.001|TWO_SIDED|95.0|0.37|0.78|||Cochran-Mantel-Haenszel|Controlling for region, number of exacerbations in the previous year, use of OCS||Proportion of patients with \>=1 asthma exacerbation||0.78|0.37|<0.001
92352150|NCT01928771|184609719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62||||0.01|TWO_SIDED|95.0|0.43|0.9|||Cochran-Mantel-Haenszel|Controlling for region, number of exacerbations from the previous year, use of OCS||Proportion of patients with \>=1 asthma exacerbation||0.90|0.43|0.01
92352151|NCT01928771|184609720|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.49|0.82|||Regression, Cox|Model includes treatment, number of exacerbations in the previous year, region, use of OCS||Time to first exacerbation||0.82|0.49|<0.001
92352152|NCT01928771|184609720|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6|||<|0.001|TWO_SIDED|95.0|0.46|0.78|||Regression, Cox|Model includes treatment, number of exacerbations from the previous year, region, use of OCS||Time to first exacerbation||0.78|0.46|<0.001
92352153|NCT01928771|184609721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106||||0.022|TWO_SIDED|95.0|0.016|0.196|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit and treatment by visit||||0.196|0.016|0.022
92352154|NCT01928771|184609721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159||||0.001|TWO_SIDED|95.0|0.068|0.249|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit and treatment by visit||||0.249|0.068|0.001
92352155|NCT01928771|184609722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025||||0.644|TWO_SIDED|95.0|-0.134|0.083|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit and treatment by visit||||0.083|-0.134|0.644
92220267|NCT01372384|184340671|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED||||||"Clopper-Pearson exact method"|||Response assessment of Stable Disease Vs Partial Response at Visit 4 (Two proportions for Stable Disease Vs Partial Response of Erlotinib): The observed significance value of performed test for differences between two proportions for Stable Disease Vs Partial Response was analyzed.||||0.045
92352156|NCT01928771|184609722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102||||0.057|TWO_SIDED|95.0|-0.003|0.208|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit and treatment by visit||||0.208|-0.003|0.057
92352157|NCT01928771|184609723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.442|TWO_SIDED|95.0|-0.27|0.12|||Mixed Models Analysis|Model includes treatment, baseline asthma symptom score, region, use of OCS, visit and visit by treatment||||0.12|-0.27|0.442
92352158|NCT01928771|184609723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.012|TWO_SIDED|95.0|-0.45|-0.06|||Mixed Models Analysis|Model includes treatment, baseline asthma symptom score, region, use of OCS, visit and visit by treatment||||-0.06|-0.45|0.012
92352159|NCT01928771|184609724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.169|TWO_SIDED|95.0|-0.48|0.08|||Mixed Models Analysis|Model includes treatment, baseline asthma symptom score, region, use of OCS, visit and visit by treatment||||0.08|-0.48|0.169
92352160|NCT01928771|184609724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.043|TWO_SIDED|95.0|-0.57|-0.01|||Mixed Models Analysis|Model includes treatment, baseline asthma symptom score, region, use of OCS, visit and visit by treatment||||-0.01|-0.57|0.043
92352161|NCT01928771|184609725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.1|TWO_SIDED|95.0|-1.16|0.1|||Mixed Models Analysis|Model includes treatment, baseline asthma medication use, region, use of OCS, visit and visit by treatment||||0.10|-1.16|0.1
92352162|NCT01928771|184609725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.081|TWO_SIDED|95.0|-1.21|0.07|||Mixed Models Analysis|Model includes treatment, baseline asthma medication use, region, use of OCS, visit and visit by treatment||||0.07|-1.21|0.081
92352163|NCT01928771|184609726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.32||||0.001|TWO_SIDED|95.0|9.2|37.43|||Mixed Models Analysis|Model includes treatment, baseline morning PEF, region, use of OCS, visit and visit by treatment||Morning PEF change from baseline to Week 48||37.43|9.20|0.001
92352164|NCT01928771|184609726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.46||||0.025|TWO_SIDED|95.0|2.08|30.83|||Mixed Models Analysis|Model includes treatment, baseline morning PEF, region, use of OCS, visit and visit by treatment||Morning PEF change from baseline to Week 48||30.83|2.08|0.025
92352165|NCT01928771|184609727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.75||||0.002|TWO_SIDED|95.0|7.86|35.65|||Mixed Models Analysis|Model includes treatment, baseline evening PEF, region, use of OCS, visit and visit by treatment||Evening PEF change from baseline to Week 48||35.65|7.86|0.002
92352166|NCT01928771|184609727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.18||||0.008|TWO_SIDED|95.0|5.09|33.28|||Mixed Models Analysis|Model includes treatment, baseline evening PEF, region, use of OCS, visit and visit by treatment||Evening PEF change from baseline to Week 48||33.28|5.09|0.008
92352167|NCT01928771|184609728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.964|TWO_SIDED|95.0|-0.05|0.04|||Mixed Models Analysis|Model includes treatment, baseline proportion of nights with nocturnal awakenings, region, use of OCS, visit and visit by treatment||||0.04|-0.05|0.964
92220268|NCT01372384|184340671|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||"Clopper-Pearson exact method"|||Response assessment of Stable Disease Vs Partial Response at Visit 6 (Two proportions for Stable Disease Vs Partial Response of Erlotinib): The observed significance value of performed test for differences between two proportions for Stable Disease Vs Partial Response was analyzed||||1.000
92220269|NCT01372384|184340671|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||"Clopper-Pearson exact method"|||Response assessment of Partial Response Vs Progression of disease at Visit 6 (Two proportions for of Partial Response Vs Progression of disease of Erlotinib): The observed significance value of performed test for differences between two proportions for of Partial Response Vs Progression of disease was analyzed||||1.000
92352168|NCT01928771|184609728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.012|TWO_SIDED|95.0|-0.11|-0.01|||Mixed Models Analysis|Model includes treatment, baseline proportion of nights with nocturnal awakenings, region, use of OCS, visit and visit by treatment||||-0.01|-0.11|0.012
92352169|NCT01928771|184609729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.111|TWO_SIDED|95.0|-0.34|0.04|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit and visit by treatment||||0.04|-0.34|0.111
92352170|NCT01928771|184609729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.003|TWO_SIDED|95.0|-0.48|-0.1|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit and visit by treatment||||-0.10|-0.48|0.003
92352171|NCT01928771|184609730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|95.0|-0.27|0.27|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit and visit by treatment||||0.27|-0.27|0.99
92161062|NCT00991276|184210597|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|1.84||0.5815|TWO_SIDED|95.0|-4.66|2.63||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||2.63|-4.66|0.5815
92352172|NCT01928771|184609730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.107|TWO_SIDED|95.0|-0.48|0.05|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit and visit by treatment||||0.05|-0.48|0.107
92352173|NCT01928771|184609734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.081|TWO_SIDED|95.0|-0.02|0.37|||Mixed Models Analysis|Model includes covariates treatment, baseline AQLQ(S)+12 score, region, use of OCS, visit, and visit by treatment||||0.37|-0.02|0.081
92352174|NCT01928771|184609734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.004|TWO_SIDED|95.0|0.1|0.5|||Mixed Models Analysis|Model includes covariates treatment, baseline AQLQ(S)+12 score, region, use of OCS, visit, and visit by treatment||||0.5|0.1|0.004
92352175|NCT00441896|184609744|SUPERIORITY|||||||0.7391|||||||ANCOVA|||||||0.7391
92352176|NCT00441896|184609744|SUPERIORITY|||||||0.537|||||||ANCOVA|||||||0.5370
92352177|NCT00441896|184609744|SUPERIORITY|||||||0.908|||||||ANCOVA|||||||0.9080
92352178|NCT00441896|184609744|SUPERIORITY|||||||0.2539|||||||ANCOVA|||||||0.2539
92352179|NCT00441896|184609744|SUPERIORITY|||||||0.6657|||||||ANCOVA|||||||0.6657
92352180|NCT00441896|184609745|SUPERIORITY|||||||0.4249|||||||ANCOVA|||||||0.4249
92352181|NCT00441896|184609745|SUPERIORITY|||||||0.4177|||||||ANCOVA|||||||0.4177
92161063|NCT00991276|184210598|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|32.72|STANDARD_ERROR_OF_MEAN|5.41|<|0.0001|TWO_SIDED|95.0|22.02|43.42||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||43.42|22.02|<0.0001
92161064|NCT00991276|184210598|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|25.86|STANDARD_ERROR_OF_MEAN|5.37|<|0.0001|TWO_SIDED|95.0|15.22|36.49||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||36.49|15.22|<0.0001
92161065|NCT00991276|184210598|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.86|STANDARD_ERROR_OF_MEAN|5.33||0.2005|TWO_SIDED|95.0|-3.69|17.42||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||17.42|-3.69|0.2005
92352182|NCT00441896|184609745|SUPERIORITY|||||||0.3033|||||||ANCOVA|||||||0.3033
92352183|NCT00441896|184609745|SUPERIORITY|||||||0.3014|||||||ANCOVA|||||||0.3014
92352184|NCT00441896|184609745|SUPERIORITY|||||||0.1839|||||||ANCOVA|||||||0.1839
92352185|NCT01301092|184609753|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|0.443|||||TWO_SIDED|90.0|0.395|0.497|||Mixed Linear effects model analyses|||||0.497|0.395|
92352186|NCT01301092|184609754|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|2.1|||||TWO_SIDED|90.0|1.84|2.41|||Mixed Linear effects model analyses|||||2.41|1.84|
92352187|NCT01301092|184609755|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|0.962|||||TWO_SIDED|90.0|0.858|1.08|||Mixed Linear effects model analyses|||||1.08|0.858|
92352188|NCT01301092|184609756|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.05|||||TWO_SIDED|90.0|0.924|1.19|||Mixed Linear effects model analyses|||||1.19|0.924|
92352189|NCT03277274|184609772|OTHER|TAK-954 (Total): An analysis of variance (ANOVA) were performed on log transformed Cmax (total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.579|||||||ANOVA|||||||0.579
92352190|NCT03277274|184609772|OTHER|TAK-954 (Total): An ANOVA were performed on log transformed Cmax (total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.026|||||||ANOVA|||||||0.026
92352191|NCT03277274|184609772|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed Cmax (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.02|||||||ANOVA|||||||0.020
92352192|NCT03277274|184609772|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed Cmax (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.031|||||||ANOVA|||||||0.031
92352193|NCT03277274|184609773|OTHER|TAK-954 (Total): An ANOVA were performed on log transformed AUClast (Total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.151|||||||ANOVA|||||||0.151
92220270|NCT01372384|184340671|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||"Clopper-Pearson exact method"|||Response assessment of Stable Disease Vs Progression of disease at Visit 6 (Two proportions for of Stable Disease Vs Progression of disease of Erlotinib): The observed significance value of performed test for differences between two proportions for of Stable Disease Vs Progression of disease was analyzed||||1.000
92400643|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.0076||95.0|0.226|1.475|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.475|0.226|0.0076
92400644|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.843||||0.0129||95.0|0.179|1.508|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.508|0.179|0.0129
92400645|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.839||||0.0168||95.0|0.151|1.527|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.527|0.151|0.0168
92400646|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.832||||0.0257||95.0|0.101|1.563|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.563|0.101|0.0257
92400647|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.828||||0.0318||95.0|0.072|1.583|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.583|0.072|0.0318
92400648|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.821||||0.0447||95.0|0.019|1.622|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.622|0.019|0.0447
92400649|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.817||||0.0529||95.0|-0.01|1.643|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.643|-0.010|0.0529
92400650|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.809||||0.0696||95.0|-0.065|1.683|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.683|-0.065|0.0696
92400651|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.805||||0.0797||95.0|-0.095|1.706|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.706|-0.095|0.0797
92352194|NCT03277274|184609773|OTHER|TAK-954 (Total): An ANOVA were performed on log transformed AUClast (Total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.017|||||||ANOVA|||||||0.017
92352195|NCT03277274|184609773|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed AUClast (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.129|||||||ANOVA|||||||0.129
92352196|NCT03277274|184609773|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed AUClast (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.023|||||||ANOVA|||||||0.023
92352197|NCT03277274|184609774|OTHER|TAK-954 (Total): An ANOVA were performed on log transformed AUCinf (Total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.138|||||||ANOVA|||||||0.138
92352198|NCT03277274|184609774|OTHER|TAK-954 (Total): An ANOVA were performed on log transformed AUCinf (Total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.029|||||||ANOVA|||||||0.029
92352199|NCT03277274|184609774|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed AUCinf (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.201|||||||ANOVA|||||||0.201
92352200|NCT03277274|184609774|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed AUCinf (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.023|||||||ANOVA|||||||0.023
92400652|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.798||||0.0994||95.0|-0.151|1.747|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.747|-0.151|0.0994
92220271|NCT01372384|184340671|SUPERIORITY_OR_OTHER|||||||0.274|TWO_SIDED||||||"Clopper-Pearson exact method"|||Response assessment of Partial Response Vs Progression of disease at Visit 10 (Two proportions for of Partial Response Vs Progression of disease of Erlotinib): The observed significance value of performed test for differences between two proportions for of Partial Response Vs Progression of disease was analyzed||||0.274
92220272|NCT03129321|184340674|EQUIVALENCE|Equivalence margin: +/-20%|Difference in proportions|4.24|||||TWO_SIDED|90.0|-5.05|13.54||||||||13.54|-5.05|
92352201|NCT00004859|184609782|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED|95.0|||||Log Rank|||||||0.99
92369466|NCT00943098|184643784|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation was based on a hypothesis of non-inferiority of Diclofenac HPBCD 75mg/ml s.c. versus Voltarol® 75mg/3ml i.m. with regard to the primary efficacy variable (PID at 1.5 hours after study drug administration). The clinically significant difference (delta) between groups was defined in 15 mm of pain intensity difference (a 30% decline from starting levels of pain intensity of 50 mm or greater on a 0 to 100 VAS).|Mean Difference (Final Values)|-0.71||||0.813|TWO_SIDED|95.0|-6.62|5.2|||ANCOVA|||Assuming a difference in means of 0 mm, a common standard deviation of 22.5 mm, a sample size of 60 subjects in each group had 95% power to reject the null hypothesis.||5.20|-6.62|0.813
92369467|NCT00943098|184643797|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation was based on a hypothesis of non-inferiority of Diclofenac HPBCD 75mg/ml s.c. versus Voltarol® 75mg/3ml i.m. with regard to the primary efficacy variable (PID at 1.5 hours after study drug administration). The clinically significant difference (delta) between groups was defined in 15 mm of pain intensity difference (a 30% decline from starting levels of pain intensity of 50 mm or greater on a 0 to 100 VAS).|Mean Difference (Final Values)|-0.51||||0.862|TWO_SIDED|95.0|-6.23|5.22|||ANCOVA|||Assuming a difference in means of 0 mm, a common standard deviation of 22.5 mm, a sample size of 60 subjects in each group had 95% power to reject the null hypothesis.||5.22|-6.23|0.862
92369468|NCT00281099|184643798|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority analysis was performed, with the hazard ratio as the parameter of interest and the non-inferiority threshold of 1.21. The one-sided upper confidence bound for the hazard ratio had to be less than 1.21 for the null hypothesis to be rejected. The threshold of 1.21 was derived by using a noninferiority threshold of a 5 percentage point difference in 24 month event-free rates.|Hazard Ratio (HR)|1.139||||||96.3|1.139|1.59||There were 167 events by 90 subjects in the VVI 40 arm, compared to 188 events among 104 subjects in the MVP arm.|Andersen-Gill Model|An Andersen-Gill model was used to account for multiple primary endpoints per subject.|4 interim analyses were performed \& the O'Brien-Fleming alpha-spending function required a 96.3% confidence interval.|"This is a multiple events survival analysis, with time to first primary endpoint, time between successive endpoints, and time from last endpoint to last follow-up visit determined for each subject. The null hypothesis is that the mortality/ heart failure (HF) urgent care/HF hospitalization hazard rate for patients with no Class I pacing indication and MVP is greater than that of similar patients with VVI 40."||1.590|1.139|
92369469|NCT00281099|184643799|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority analysis was performed, with the hazard ratio as the parameter of interest and the non-inferiority threshold of 1.241. The one-sided upper confidence bound for the hazard ratio had to be less than 1.241 for the null hypothesis to be rejected. The threshold of 1.241 was derived by using a non-inferiority threshold of a 5 percentage point difference in 24 month HF event-free rates.|Hazard Ratio (HR)|1.029||||||95.0|1.029|1.381|||Andersen-Gill Model|An Andersen-Gill model was utilized to account for multiple HF events per subject.||This is a multiple events survival analysis, and so the time from randomization to first HF event, time between successive HF events, and time from last HF event to last follow-up visit was determined for each subject. Since non-inferiority analysis is intended to prove that one therapy is equivalent or superior to another therapy, the null hypothesis being tested is that the worsening HF hazard rate for patients with MVP programming is greater than that of patients with VVI 40 programming.||1.381|1.029|
92369470|NCT00281099|184643800|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori alpha level for each covariate was 0.05. The p-value outcome provided is for the randomization arm main effect and all interactions between randomization arm and time.|Cumulative Logits Model|The analysis included data for all four time points (baseline, 12, 24, and 36 months) and all NYHA levels.||A model with covariates for time and randomization arm was fit to test the null hypothesis that the risk of worsening NYHA status over time among patients with MVP programming was equal to that of patients with VVI 40 programming. This analysis combined NYHA IV and Death into one category. The model included interaction terms for time and randomization arm.||||> 0.05
92369471|NCT00281099|184643800|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori alpha level for each covariate was 0.05. The p-value outcome provided is for the randomization arm main effect and all interaction terms between randomization arm and time.|Cumulative Logit Model|The analysis included data for all four time points (baseline, 12, 24, and 36 months) and all NYHA levels.||The null hypothesis for this analysis was the same as for the prior analysis: that the risk of worsening NYHA status over time among patients with MVP programming was equal to that of patients with VVI 40 programming. In this analysis, however, death was considered a 5th category in addition to NYHA I-IV. An interaction term for time and randomization arm was also included.||||> 0.05
92369472|NCT00281099|184643801|SUPERIORITY_OR_OTHER||||||>|0.1||95.0||||In each case the a priori threshold for significance for Arm was 0.05.|Mixed Models Analysis|Model fit with time and arm as covariates, the interaction between them included. Interaction shown to not be significant and model refit without it.||A linear mixed model was fit for each of the followoing: LVEDD, LVESD, Septal Wall Thickness, and Posterior Wall Thickness; the purpose was to test whether patients with MVP and no pacing indication over time had a different average value for that measure than patients with VVI and no pacing indication. Data were also collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||> 0.10
92369473|NCT00281099|184643802|SUPERIORITY_OR_OTHER||||||>|0.1||95.0||||The a priori threshold for significance for Arm was 0.05, with no adjustment for multiple analyses.|Mixed Models Analysis|Models were fit with time and arm as covariates.||A linear mixed model was fit for each of the following: LV Ejection Fraction and LV Fractional Shortening; the purpose was to test whether patients with MVP and no pacing indication over time had a different average value for that measure than patients with VVI and no pacing indication. Two-sided tests were used. Data were also collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||> 0.10
92369474|NCT00281099|184643803|SUPERIORITY_OR_OTHER|||||||0.0424||95.0||||The a priori threshold for statistical significance for Arm was 0.05, with no correction for multiple comparisons.|Mixed Models Analysis|The model was fit with time and arm as covariates.||"A linear mixed model was fit to test whether patients with MVP and no pacing indication had a different values for left ventricular end diastolic volume (LVEDV) over time than similar patients with VVI 40. A two-sided test was used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits."||||0.0424
92161066|NCT00991276|184210599|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.8|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|4.57|9.02||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||9.02|4.57|<0.0001
92161067|NCT00991276|184210599|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.24|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|3.02|7.45||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||7.45|3.02|<0.0001
92352202|NCT03882801|184609793|SUPERIORITY||Least Square Geometric Means Ratio|0.92|||||TWO_SIDED|90.0|0.73|1.17|||||Back transformed least squares mean and confidence interval from linear mixed effects model performed on natural log-transformed values.|||1.17|0.73|
92352203|NCT03548415|184609804|SUPERIORITY|||||||0.306||||||The p-value was analyzed using the nonparametric test, Van Elteren test with IGF-1 level as stratification factor.|Van Elteren test|||||||0.306
92352204|NCT01230814|184609815|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.69|TWO_SIDED|95.0|0.62|1.37||The a priori threshold for statistical significance for VVC was p\<0.020 (two-sided).|Clustered chi-squared statistic||For the relative risk estimate, the metronidazole plus miconazole arm represented the numerator and the placebo arm represented the denominator such that a relative risk \<1 indicates a lower percentage of positive test visits in the treated arm.|Each participant within a study arm was considered a cluster, with observations at a maximum of 6 visits. The percentage of visits at which VVC was detected was compared between metronidazole plus miconazole arm versus placebo arm using a chi-squared statistic adjusted for clustering using the method of Donner and Klar (2000).||1.37|0.62|0.690
92352205|NCT01230814|184609816|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.65||||0.005|TWO_SIDED|95.0|0.48|0.87||The a priori threshold for statistical significance for BV was p\<0.030 (two-sided).|clutstered chi-squared statistic||For the relative risk estimate, the metronidazole plus miconazole arm represented the numerator and the placebo arm represented the denominator such that a relative risk \<1 indicates a lower percentage of test visits in the treated arm.|Each participant within a study arm was considered a cluster, with observations at a maximum of 6 visits. The percentage of visits at which BV was detected was compared between metronidazole plus miconazole arm versus placebo arm using a chi-squared statistic adjusted for clustering using the method of Donner and Klar (2000).||0.87|0.48|0.005
92352206|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||0.367|TWO_SIDED||||||Fisher Exact|||All bleeds||||.367
92352207|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||0.104|TWO_SIDED||||||Fisher Exact|||All bleeds||||.104
92352208|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||0.864|TWO_SIDED||||||Fisher Exact|||All bleeds||||.864
92352209|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Fisher Exact|||All bleeds||||.002
92352210|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Major or Clinically Relevant (CR) non-major bleeding||||1.000
92400653|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.794||||0.111||95.0|-0.182|1.77|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.770|-0.182|0.1110
92352211|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Fisher Exact|||Major or Clinically Relevant (CR) non-major bleeding||||0.029
92352212|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||0.807|TWO_SIDED||||||Fisher Exact|||Major or Clinically Relevant (CR) non-major bleeding||||0.807
92161068|NCT00991276|184210599|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.56|STANDARD_ERROR_OF_MEAN|1.11||0.1622|TWO_SIDED|95.0|-0.64|3.75||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||3.75|-0.64|0.1622
92352213|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Fisher Exact|||Major or Clinically Relevant (CR) non-major bleeding||||0.002
92352214|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Major bleeds||||1.000
92352215|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||0.119|TWO_SIDED||||||Fisher Exact|||Major bleeds||||0.119
92220273|NCT03129321|184340675|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92220274|NCT03129321|184340675|SUPERIORITY|||||||0.0004|||||||Cochran-Mantel-Haenszel|||||||0.0004
92352216|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Major bleeds||||1.000
92352217|NCT00504556|184609845|SUPERIORITY_OR_OTHER|||||||0.023|TWO_SIDED||||||Fisher Exact|||Major bleeds||||0.023
92352218|NCT00676052|184609878|SUPERIORITY||Mean Difference (Net)|0.067||||0.009|TWO_SIDED|95.0|0.017|0.117||Analysis performed using ANCOVA with covariates of Baseline, sex, age, smoking status, responsiveness stratum and treatment. Missing trough FEV1 data at Day 29 was imputed using LOCF.|ANCOVA|||||0.117|0.017|0.009
92352219|NCT00676052|184609878|SUPERIORITY||Mean Difference (Net)|0.097|||<|0.001|TWO_SIDED|95.0|0.047|0.147||Analysis performed using ANCOVA with covariates of Baseline, sex, age, smoking status, responsiveness stratum and treatment. Missing trough FEV1 data at Day 29 was imputed using LOCF.|ANCOVA|||||0.147|0.047|<0.001
92352220|NCT00676052|184609878|SUPERIORITY||Mean Difference (Net)|0.069||||0.007|TWO_SIDED|95.0|0.019|0.118||Analysis performed using ANCOVA with covariates of Baseline, sex, age, smoking status, responsiveness stratum and treatment. Missing trough FEV1 data at Day 29 was imputed using LOCF.|ANCOVA|||||0.118|0.019|0.007
92352221|NCT00676052|184609878|SUPERIORITY||Mean Difference (Net)|0.082||||0.001|TWO_SIDED|95.0|0.032|0.132||Analysis performed using ANCOVA with covariates of Baseline, sex, age, smoking status, responsiveness stratum and treatment. Missing trough FEV1 data at Day 29 was imputed using LOCF.|ANCOVA|||||0.132|0.032|0.001
92352222|NCT00676052|184609878|SUPERIORITY||Mean Difference (Net)|0.137|||<|0.001|TWO_SIDED|95.0|0.086|0.187||Analysis performed using ANCOVA with covariates of Baseline, sex, age, smoking status, responsiveness stratum and treatment. Missing trough FEV1 data at Day 29 was imputed using LOCF.|ANCOVA|||||0.187|0.086|<0.001
92352223|NCT00676052|184609879|SUPERIORITY||Mean Difference (Net)|0.106|||<|0.001|TWO_SIDED|95.0|0.065|0.146||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions|Repeated Measures Model|||FEV1, Day 1||0.146|0.065|<0.001
92352224|NCT00676052|184609879|SUPERIORITY||Mean Difference (Net)|0.107|||<|0.001|TWO_SIDED|95.0|0.067|0.147||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions|Repeated Measures Model|||FEV1, Day 1||0.147|0.067|<0.001
92352225|NCT00676052|184609879|SUPERIORITY||Mean Difference (Net)|0.123|||<|0.001|TWO_SIDED|95.0|0.083|0.163||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||FEV1, Day 1||0.163|0.083|<0.001
92400654|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.787||||0.1328||95.0|-0.239|1.813|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.813|-0.239|0.1328
92161069|NCT00991276|184210606|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.18|-0.47||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.47|-1.18|<0.0001
92352226|NCT00676052|184609879|SUPERIORITY||Mean Difference (Net)|0.152|||<|0.001|TWO_SIDED|95.0|0.112|0.193||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions|Repeated Measures Model|||FEV1, Day 1||0.193|0.112|<0.001
92352227|NCT00676052|184609879|SUPERIORITY||Mean Difference (Net)|0.176|||<|0.001|TWO_SIDED|95.0|0.135|0.216||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||FEV1, Day 1||0.216|0.135|<0.001
92352228|NCT00676052|184609879|SUPERIORITY||Mean Difference (Net)|0.106|||<|0.001|TWO_SIDED|95.0|0.056|0.157||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions|Repeated Measures Model|||FEV1, Day 28||0.157|0.056|<0.001
92352229|NCT00676052|184609879|SUPERIORITY||Mean Difference (Net)|0.142|||<|0.001|TWO_SIDED|95.0|0.092|0.192||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||FEV, Day 28||0.192|0.092|<0.001
92352230|NCT00676052|184609879|SUPERIORITY||Mean Difference (Net)|0.124|||<|0.001|TWO_SIDED|95.0|0.074|0.174||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions|Repeated Measures Model|||FEV1, Day 28||0.174|0.074|<0.001
92352231|NCT00676052|184609879|SUPERIORITY||Mean Difference (Net)|0.142|||<|0.001|TWO_SIDED|95.0|0.092|0.193||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||FEV1, Day 28||0.193|0.092|<0.001
92352232|NCT00676052|184609879|SUPERIORITY||Mean Difference (Net)|0.17|||<|0.001|TWO_SIDED|95.0|0.12|0.22||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||FEV1, Day 28||0.220|0.120|<0.001
92352233|NCT00676052|184609880|SUPERIORITY||Mean Difference (Net)|0.166|||<|0.001|TWO_SIDED|95.0|0.094|0.237||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 1||0.237|0.094|<0.001
92352234|NCT00676052|184609880|SUPERIORITY||Mean Difference (Net)|0.186|||<|0.001|TWO_SIDED|95.0|0.115|0.258||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 1||0.258|0.115|<0.001
92352235|NCT00676052|184609880|SUPERIORITY||Mean Difference (Net)|0.198|||<|0.001|TWO_SIDED|95.0|0.127|0.268||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 1||0.268|0.127|<0.001
92352236|NCT00676052|184609880|SUPERIORITY||Mean Difference (Net)|0.244|||<|0.001|TWO_SIDED|95.0|0.172|0.315||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 1||0.315|0.172|<0.001
92220275|NCT03129321|184340676|EQUIVALENCE|Equivalence margin: +/-20%|Difference in proportions|2.85|||||TWO_SIDED|90.0|-6.29|11.98||||||||11.98|-6.29|
92220276|NCT03129321|184340677|EQUIVALENCE|Equivalence margin: +/-20%|Difference in proportions|-0.02|||||TWO_SIDED|90.0|-8.29|8.26||||||||8.26|-8.29|
92220277|NCT03129321|184340678|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|||||||0.0020
92220278|NCT03129321|184340678|SUPERIORITY|||||||0.0076|||||||Cochran-Mantel-Haenszel|||||||0.0076
92352237|NCT00676052|184609880|SUPERIORITY||Mean Difference (Net)|0.301|||<|0.001|TWO_SIDED|95.0|0.229|0.372||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 1||0.372|0.229|<0.001
92352238|NCT00676052|184609880|SUPERIORITY||Mean Difference (Net)|0.178|||<|0.001|TWO_SIDED|95.0|0.098|0.258||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 28||0.258|0.098|<0.001
92352239|NCT00676052|184609880|SUPERIORITY||Mean Difference (Net)|0.219|||<|0.001|TWO_SIDED|95.0|0.139|0.298||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 28||0.298|0.139|<0.001
92352240|NCT00676052|184609880|SUPERIORITY||Mean Difference (Net)|0.191|||<|0.001|TWO_SIDED|95.0|0.111|0.27||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 28||0.270|0.111|<0.001
92352241|NCT00676052|184609880|SUPERIORITY||Mean Difference (Net)|0.232|||<|0.001|TWO_SIDED|95.0|0.152|0.312||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 28||0.312|0.152|<0.001
92220279|NCT03129321|184340679|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92352242|NCT00676052|184609880|SUPERIORITY||Mean Difference (Net)|0.294|||<|0.001|TWO_SIDED|95.0|0.214|0.373||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 28||0.373|0.214|<0.001
92352243|NCT00676052|184609881|SUPERIORITY||Mean Difference (Net)|0.099||||0.021|TWO_SIDED|95.0|0.015|0.182||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||||0.182|0.015|0.021
92352244|NCT00676052|184609881|SUPERIORITY||Mean Difference (Net)|0.15|||<|0.001|TWO_SIDED|95.0|0.067|0.233||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||||0.233|0.067|<0.001
92352245|NCT00676052|184609881|SUPERIORITY||Mean Difference (Net)|0.094||||0.026|TWO_SIDED|95.0|0.011|0.177||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||||0.177|0.011|0.026
92220280|NCT03129321|184340679|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92220281|NCT03503877|184340697|SUPERIORITY|||||||0.07|||||||Wilcoxon signed-rank testing|||||||0.07
92220282|NCT03503877|184340698|SUPERIORITY|||||||0.89|||||||Wilcoxon signed-rank testing|||||||0.89
92220283|NCT03503877|184340699|SUPERIORITY|||||||0.54||||||High mosaicism|Wilcoxon signed-rank testing|||||||0.54
92220284|NCT03503877|184340699|SUPERIORITY|||||||0.2||||||Low mosaicism|Wilcoxon signed-rank|||||||.20
92220285|NCT03503877|184340700|SUPERIORITY|||||||0.01||||||Time to Expanded Blastocyst|Wilcoxon signed-rank testing|||||||0.01
92352246|NCT00676052|184609881|SUPERIORITY||Mean Difference (Net)|0.163|||<|0.001|TWO_SIDED|95.0|0.08|0.247||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||||0.247|0.080|<0.001
92352247|NCT00676052|184609881|SUPERIORITY||Mean Difference (Net)|0.235|||<|0.001|TWO_SIDED|95.0|0.152|0.319||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||||0.319|0.152|<0.001
92352248|NCT03737032|184609902|SUPERIORITY|||||||0.8|||||||ANOVA|||Null hypothesis: post-TBS dmPFC activation will not vary by TBS condition. This is tested using the main effect of condition in a repeated measures model.||||0.80
92352249|NCT03737032|184609903|SUPERIORITY|||||||0.23|||||||ANOVA|Repeated measures ANOVA with time (pre or post), condition (cTBS, iTBS, sham TBS), and time\*condition effects.||Null hypothesis: pre-post change in positive affect will not vary by TBS condition. This is tested using the interaction of time\*condition in a repeated measures model.||||0.23
92352250|NCT03737032|184609904|SUPERIORITY|||||||0.84|||||||ANOVA|||Null hypothesis: post-TBS functional connectivity between the dmPFC and ventral striatum (VS) will not vary by TBS condition. This is tested using the main effect of condition in a repeated measures model.||||0.84
92352251|NCT01368185|184609919|SUPERIORITY_OR_OTHER_LEGACY||% change SUA from baseline|4.6|STANDARD_DEVIATION|0.9|<|0.01||95.0|||||t-test, 2 sided||Percent change of month 3 SUA minus baseline SUA.|Comparison between Month 3 and Baseline||||<0.01
92352252|NCT01368185|184609920|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||McNemar|||||||<0.0001
92352253|NCT01368185|184609921|SUPERIORITY_OR_OTHER_LEGACY||% change DBP from Baseline|-7.1|STANDARD_DEVIATION|0.4|<|0.01||95.0|||||t-test, 2 sided||Percent change of month 3 DBP minus baseline DBP (n=1239).|Comparison between Month 3 and Baseline||||<0.01
92352254|NCT01368185|184609922|SUPERIORITY_OR_OTHER_LEGACY||% change SBP from Baseline|-9.1|STANDARD_DEVIATION|0.3|<|0.01||95.0|||||t-test, 2 sided||Percent change of month 3 SBP minus baseline SBP (n=1245).|Comparison between Month 3 and Baseline||||<0.01
92369475|NCT00281099|184643803|SUPERIORITY_OR_OTHER||||||>|0.1||95.0||||In each case the a priori threshold for significance for Arm was 0.05.|Mixed Models Analysis|Models were fit with time and arm as covariates.||"Similar models were fit for left ventricle (LV) End Systolic Volume and Left Atrial Volume."||||>0.10
92369476|NCT00281099|184643804|SUPERIORITY_OR_OTHER|||||||0.0418||95.0||||The a priori threshold for significance for Arm was 0.05, with no adjustment for multiple analyses.|Mixed Models Analysis|The model fit with time and arm as covariates.||A linear mixed model was fit to test whether patients with MVP and no pacing indication had a different values of Left Ventricular Sphericity Index over time than similar patients with VVI 40. A two-sided test was used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||0.0418
92161070|NCT00991276|184210606|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.31|-0.6||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.60|-1.31|<0.0001
92352255|NCT04535362|184609928|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.63||0.93|TWO_SIDED||||||Mixed Models Analysis|||The fixed effects in the mixed models were infusion rate (2.5 minutes, 5 minutes and 10 minutes (placebo)), cigarette condition (menthol vs. non-menthol), and their interaction. We also controlled for order effects of cigarette condition by including session in the models Subject was a clustering factor and different variance-covariance structures were considered within each condition and subject. The best-fitting structure was selected based on Schwartz's Bayesian Criterion.||||0.93
92352256|NCT04535362|184609929|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.3||0.68|TWO_SIDED||||||Mixed Models Analysis|||The fixed effects in the mixed models were infusion rate (2.5 minutes, 5 minutes and 10 minutes (placebo)), cigarette condition (menthol vs. non-menthol), and their interaction. We also controlled for order effects of cigarette condition by including session in the models Subject was a clustering factor and different variance-covariance structures were considered within each condition and subject. The best-fitting structure was selected based on Schwartz's Bayesian Criterion.||||0.68
92352257|NCT04535362|184609931|SUPERIORITY||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|0.51||0.37|TWO_SIDED||||||Mixed Models Analysis|||The fixed effects in the mixed models were infusion rate (2.5 minutes, 5 minutes and 10 minutes (placebo)), cigarette condition (menthol vs. non-menthol), and their interaction. We also controlled for order effects of cigarette condition by including session in the models Subject was a clustering factor and different variance-covariance structures were considered within each condition and subject. The best-fitting structure was selected based on Schwartz's Bayesian Criterion.||||0.37
92352258|NCT04535362|184609932|SUPERIORITY||Mean Difference (Net)|1.26|STANDARD_ERROR_OF_MEAN|0.98||0.2|TWO_SIDED||||||Mixed Models Analysis|||The fixed effects in the mixed models were infusion rate (2.5 minutes, 5 minutes and 10 minutes (placebo)), cigarette condition (menthol vs. non-menthol), and their interaction. We also controlled for order effects of cigarette condition by including session in the models Subject was a clustering factor and different variance-covariance structures were considered within each condition and subject. The best-fitting structure was selected based on Schwartz's Bayesian Criterion.||||0.20
92352259|NCT04053452|184609948|OTHER||Area under the curve|0.7262|||||TWO_SIDED||||||||Area under the receiver operating characteristic (ROC) curve.|||||
92352260|NCT04053452|184609949|OTHER||Area under the curve|0.6667|||||TWO_SIDED||||||||Area under the receiver operating characteristic (ROC) curve.|||||
92352261|NCT04053452|184609950|OTHER||Area under the curve|0.7083|||||TWO_SIDED||||||||Area under the receiver operating characteristic (ROC) curve.|||||
92352262|NCT04053452|184609951|OTHER|Median at wrist|Kendall's tau correlation coefficient|-0.0623|||||TWO_SIDED|95.0|-0.5005|0.4791||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.4791|-0.5005|
92352263|NCT04053452|184609951|OTHER|Median at forearm|Kendall's tau correlation coefficient|-0.1628|||||TWO_SIDED|95.0|-0.6503|0.4222||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.4222|-0.6503|
92220286|NCT01197521|184340753|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.15|||<|0.001|TWO_SIDED|95.0|0.08|0.22||Week 24|Mantel Haenszel|Treatment difference in proportion of responders with a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.22|0.08|<0.001
92352264|NCT04053452|184609951|OTHER|Median at cubital fossa|Kendall's tau correlation coefficient|-0.185|||||TWO_SIDED|95.0|-0.549|0.1829||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.1829|-0.5490|
92352265|NCT04053452|184609951|OTHER|Median at humerus|Kendall's tau correlation coefficient|0.0512|||||TWO_SIDED|95.0|-0.3411|0.5017||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.5017|-0.3411|
92352266|NCT04053452|184609951|OTHER|Median at axilla|Kendall's tau correlation coefficient|0.0476|||||TWO_SIDED|95.0|-0.4335|0.5592||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.5592|-0.4335|
92352267|NCT04053452|184609951|OTHER|Ulnar at wrist|Kendall's tau correlation coefficient|-0.1229|||||TWO_SIDED|95.0|-0.5092|0.304||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.3040|-0.5092|
92352268|NCT04053452|184609951|OTHER|Ulnar at forearm|Kendall's tau correlation coefficient|0.0603|||||TWO_SIDED|95.0|-0.3057|0.4137||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.4137|-0.3057|
92352269|NCT04053452|184609951|OTHER|Ulnar at cubital fossa|Kendall's tau correlation coefficient|0.1059|||||TWO_SIDED|95.0|-0.4028|0.57||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.5700|-0.4028|
92352270|NCT04053452|184609951|OTHER|Ulnar at humerus|Kendall's tau correlation coefficient|-0.1786|||||TWO_SIDED|95.0|-0.6503|0.2838||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.2838|-0.6503|
92352271|NCT04053452|184609951|OTHER|Ulnar at axilla|Kendall's tau correlation coefficient|-0.2396|||||TWO_SIDED|95.0|-0.5714|0.195||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.1950|-0.5714|
92352272|NCT04053452|184609951|OTHER|C6|Kendall's tau correlation coefficient|-0.0671|||||TWO_SIDED|95.0|-0.4667|0.3336||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.3336|-0.4667|
92352273|NCT04053452|184609951|OTHER|C7|Kendall's tau correlation coefficient|-0.2134|||||TWO_SIDED|95.0|-0.7018|0.3193||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.3193|-0.7018|
92352274|NCT04053452|184609951|OTHER|Vagus|Kendall's tau correlation coefficient|0.0246|||||TWO_SIDED|95.0|-0.3506|0.4596||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.4596|-0.3506|
92161071|NCT00991276|184210606|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.18||0.4677|TWO_SIDED|95.0|-0.22|0.48||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.48|-0.22|0.4677
92352275|NCT04053452|184609952|OTHER|Median at wrist|Odds Ratio (OR)|0.7686494||||0.36|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.360
92352276|NCT04053452|184609952|OTHER|Median at forearm|Odds Ratio (OR)|0.9315228||||0.521|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.521
92352277|NCT04053452|184609952|OTHER|Median at cubital fossa|Odds Ratio (OR)|0.7949528||||0.245|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.245
92352278|NCT04053452|184609952|OTHER|Median at humerus|Odds Ratio (OR)|0.8603349||||0.541|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.541
92161072|NCT00991276|184210607|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.32|STANDARD_ERROR_OF_MEAN|5.31|<|0.0001|TWO_SIDED|95.0|-35.83|-14.8||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-14.80|-35.83|<0.0001
92161073|NCT00991276|184210607|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.45|STANDARD_ERROR_OF_MEAN|5.27|<|0.0001|TWO_SIDED|95.0|-38.89|-18.02||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-18.02|-38.89|<0.0001
92161074|NCT00991276|184210607|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.14|STANDARD_ERROR_OF_MEAN|5.19||0.5461|TWO_SIDED|95.0|-7.13|13.4||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||13.40|-7.13|0.5461
92161075|NCT00991276|184210608|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.04|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|0.63|1.45||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.45|0.63|<0.0001
92161076|NCT00991276|184210608|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.05|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|0.65|1.46||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.46|0.65|<0.0001
92161077|NCT00991276|184210608|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.2||0.9403|TWO_SIDED|95.0|-0.42|0.39||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.39|-0.42|0.9403
92220287|NCT01197521|184340753|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.1||||0.006|TWO_SIDED|95.0|0.03|0.18||Week 24|Mantel Haenszel|Treatment difference in proportion of responders with a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.18|0.03|0.006
92352279|NCT04053452|184609952|OTHER|Median at axilla|Odds Ratio (OR)|0.8767973||||0.415|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.415
92352280|NCT04053452|184609952|OTHER|Ulnar at wrist|Odds Ratio, log|0.7613965||||0.504|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.504
92352281|NCT04053452|184609952|OTHER|Ulnar at forearm|Odds Ratio (OR)|0.8061505||||0.393|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.393
92352282|NCT04053452|184609952|OTHER|Ulnar at cubital fossa|Odds Ratio (OR)|0.8336885||||0.222|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.222
92352283|NCT04053452|184609952|OTHER|Ulnar at humerus|Odds Ratio (OR)|1.1214848||||0.615|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.615
92352284|NCT04053452|184609952|OTHER|Ulnar at axilla|Odds Ratio (OR)|0.9898411||||0.926|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.926
92352285|NCT04053452|184609952|OTHER|C6|Odds Ratio (OR)|0.9402829||||0.519|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.519
92352286|NCT04053452|184609952|OTHER|C7|Odds Ratio (OR)|0.9347906||||0.379|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.379
92352287|NCT04053452|184609952|OTHER|Vagus|Odds Ratio (OR)|0.8968658||||0.511|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.511
92352288|NCT04053452|184609953|OTHER|Median at wrist|Kendall's tau correlation coefficient|-0.057735|||||TWO_SIDED|95.0|-0.4273|0.3293||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.3293|-0.4273|
92352289|NCT04053452|184609953|OTHER|Median at forearm|Kendall's tau correlation coefficient|-0.0359442|||||TWO_SIDED|95.0|-0.548|0.5248||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.5248|-0.5480|
92352290|NCT04053452|184609953|OTHER|Median at cubital fossa|Kendall's tau correlation coefficient|0.1429483|||||TWO_SIDED|95.0|-0.1938|0.4763||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.4763|-0.1938|
92352291|NCT04053452|184609953|OTHER|Median at humerus|Kendall's tau correlation coefficient|-0.3955939|||||TWO_SIDED|95.0|-0.6811|-0.0874||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||-0.0874|-0.6811|
92352292|NCT04053452|184609953|OTHER|Median at axilla|Kendall's tau correlation coefficient|-0.3681051|||||TWO_SIDED|95.0|-0.7032|0.1185||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.1185|-0.7032|
92352293|NCT04053452|184609953|OTHER|Ulnar at wrist|Kendall's tau correlation coefficient|-0.4938292|||||TWO_SIDED|95.0|-0.7112|-0.1978||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||-0.1978|-0.7112|
92352294|NCT04053452|184609953|OTHER|Ulnar at forearm|Kendall's tau correlation coefficient|0.1304373|||||TWO_SIDED|95.0|-0.2201|0.5014||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.5014|-0.2201|
92220288|NCT01197521|184340754|SUPERIORITY_OR_OTHER|||||||0.252||||||Week 24|Cochran-Mantel-Haenszel|The residuals from the ANCOVA are analysed using a Cochran-Mantel-Haenszel approach, adjusting for the effects of pooled country.||This analysis is performed using an ANCOVA model on the ranks of the change from baseline, by pooled country, including a term for the ranks of the baseline score as a covariate.||||0.252
92352295|NCT04053452|184609953|OTHER|Ulnar at cubital fossa|Kendall's tau correlation coefficient|0.3273268|||||TWO_SIDED|95.0|-0.0679|0.6612||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.6612|-0.0679|
92352296|NCT04053452|184609953|OTHER|Ulnar at humerus|Kendall's tau correlation coefficient|-0.0552157|||||TWO_SIDED|95.0|-0.4213|0.361||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.3610|-0.4213|
92352297|NCT04053452|184609953|OTHER|Ulnar at axilla|Kendall's tau correlation coefficient|-0.1666667|||||TWO_SIDED|95.0|-0.5389|0.2057||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.2057|-0.5389|
92352298|NCT04053452|184609953|OTHER|C6|Kendall's tau correlation coefficient|-0.3194892|||||TWO_SIDED|95.0|-0.6539|0.2288||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.2288|-0.6539|
92352299|NCT04053452|184609953|OTHER|C7|Kendall's tau correlation coefficient|-0.4959498|||||TWO_SIDED|95.0|-0.686|-0.2065||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||-0.2065|-0.6860|
92352300|NCT04053452|184609953|OTHER|Vagus|Kendall's tau correlation coefficient|-0.3228883|||||TWO_SIDED|95.0|-0.6487|0.0||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.0000|-0.6487|
92352301|NCT04053452|184609954|OTHER|Median at wrist|Kendall's tau correlation coefficient|-0.1415346|||||TWO_SIDED|95.0|-0.735|0.4247||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.4247|-0.7350|
92352302|NCT04053452|184609954|OTHER|Median at forearm|Kendall's tau correlation coefficient|0.1987845|||||TWO_SIDED|95.0|-0.4377|0.8004||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.8004|-0.4377|
92352303|NCT04053452|184609954|OTHER|Median at cubital fossa|Kendall's tau correlation coefficient|-0.0789747|||||TWO_SIDED|95.0|-0.5256|0.3778||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.3778|-0.5256|
92352304|NCT04053452|184609954|OTHER|Median at humerus|Kendall's tau correlation coefficient|0.1621509|||||TWO_SIDED|95.0|-0.3591|0.5606||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.5606|-0.3591|
92161078|NCT00991276|184210609|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.58|STANDARD_ERROR_OF_MEAN|3.26||0.0215|TWO_SIDED|95.0|-14.03|-1.14||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.14|-14.03|0.0215
92161079|NCT00991276|184210609|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|3.23||0.5569|TWO_SIDED|95.0|-4.49|8.29||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||8.29|-4.49|0.5569
92161080|NCT00991276|184210609|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-9.48|STANDARD_ERROR_OF_MEAN|3.2||0.0036|TWO_SIDED|95.0|-15.81|-3.16||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-3.16|-15.81|0.0036
92161081|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.71|STANDARD_ERROR_OF_MEAN|1.8||0.6947|TWO_SIDED|95.0|-2.85|4.27||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Awaken Short of Breath/with Headache: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||4.27|-2.85|0.6947
92352305|NCT04053452|184609954|OTHER|Median at axilla|Kendall's tau correlation coefficient|0.1499412|||||TWO_SIDED|95.0|-0.3901|0.6374||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.6374|-0.3901|
92352306|NCT04053452|184609954|OTHER|Ulnar at wrist|Kendall's tau correlation coefficient|-0.0140441|||||TWO_SIDED|95.0|-0.5773|0.5407||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.5407|-0.5773|
92352307|NCT04053452|184609954|OTHER|Ulnar at forearm|Kendall's tau correlation coefficient|0.01383297|||||TWO_SIDED|95.0|-0.5288|0.5485||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.5485|-0.5288|
92352308|NCT04053452|184609954|OTHER|Ulnar at cubital fossa|Kendall's tau correlation coefficient|-0.2935683|||||TWO_SIDED|95.0|-0.6968|0.2414||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.2414|-0.6968|
92161082|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.52|STANDARD_ERROR_OF_MEAN|1.79||0.398|TWO_SIDED|95.0|-5.06|2.02||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Awaken Short of Breath/with Headache: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||2.02|-5.06|0.3980
92161083|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.23|STANDARD_ERROR_OF_MEAN|1.78||0.2144|TWO_SIDED|95.0|-1.3|5.76||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Awaken Short of Breath/with Headache: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||5.76|-1.30|0.2144
92220289|NCT01197521|184340754|SUPERIORITY_OR_OTHER|||||||0.17||||||Week 24|Cochran-Mantel-Haenszel|The residuals from the ANCOVA are analysed using a Cochran-Mantel-Haenszel approach, adjusting for the effects of pooled country.||This analysis is performed using an ANCOVA model on the ranks of the change from baseline, by pooled country, including a term for the ranks of the baseline score as a covariate.||||0.170
92352309|NCT04053452|184609954|OTHER|Ulnar at humerus|Kendall's tau correlation coefficient|0.1067521|||||TWO_SIDED|95.0|-0.5204|0.6392||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.6392|-0.5204|
92352310|NCT04053452|184609954|OTHER|Ulnar at axilla|Kendall's tau correlation coefficient|0.0549235|||||TWO_SIDED|95.0|-0.4633|0.5594||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.5594|-0.4633|
92352311|NCT04053452|184609954|OTHER|C6|Kendall's tau correlation coefficient|-0.2597622|||||TWO_SIDED|95.0|-0.6816|0.1857||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.1857|-0.6816|
92352312|NCT04053452|184609954|OTHER|C7|Kendall's tau correlation coefficient|-0.0129034|||||TWO_SIDED|95.0|-0.4476|0.4025||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.4025|-0.4476|
92352313|NCT04053452|184609954|OTHER|Vagus|Kendall's tau correlation coefficient|0.02457737|||||TWO_SIDED|95.0|-0.3506|0.4596||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.4596|-0.3506|
92352314|NCT04053452|184609955|OTHER|Median at wrist|Kendall's tau correlation coefficient|0.1704986|||||TWO_SIDED|95.0|-0.395|0.6584||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.6584|-0.3950|
92352315|NCT04053452|184609955|OTHER|Median at forearm|Kendall's tau correlation coefficient|0.1704986|||||TWO_SIDED|95.0|-0.395|0.6584||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.6584|-0.3950|
92161084|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|14.17|STANDARD_ERROR_OF_MEAN|4.0||0.0006|TWO_SIDED|95.0|6.25|22.08||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Adequacy: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||22.08|6.25|0.0006
92161085|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.07|STANDARD_ERROR_OF_MEAN|3.97||0.0061|TWO_SIDED|95.0|3.22|18.92||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Adequacy: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||18.92|3.22|0.0061
92352316|NCT04053452|184609955|OTHER|Median at cubital fossa|Kendall's tau correlation coefficient|0.09040847|||||TWO_SIDED|95.0|-0.3821|0.5979||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.5979|-0.3821|
92352317|NCT04053452|184609955|OTHER|Median at humerus|Kendall's tau correlation coefficient|0.02501955|||||TWO_SIDED|95.0|-0.4158|0.479||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.4790|-0.4158|
92352318|NCT04053452|184609955|OTHER|Median at axilla|Kendall's tau correlation coefficient|-0.0349215|||||TWO_SIDED|95.0|-0.5033|0.443||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.4430|-0.5033|
92352319|NCT04053452|184609955|OTHER|Ulnar at wrist|Kendall's tau correlation coefficient|-0.0961|||||TWO_SIDED|95.0|-0.5458|0.4037||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.4037|-0.5458|
92352320|NCT04053452|184609955|OTHER|Ulnar at forearm|Kendall's tau correlation coefficient|-0.2239171|||||TWO_SIDED|95.0|-0.6514|0.2935||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.2935|-0.6514|
92352321|NCT04053452|184609955|OTHER|Ulnar at cubital fossa|Kendall's tau correlation coefficient|-0.0805076|||||TWO_SIDED|95.0|-0.5371|0.2974||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.2974|-0.5371|
92352322|NCT04053452|184609955|OTHER|Ulnar at humerus|Kendall's tau correlation coefficient|0.2910126|||||TWO_SIDED|95.0|-0.2791|0.7651||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.7651|-0.2791|
92400655|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.783||||0.1454||95.0|-0.271|1.836|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.836|-0.271|0.1454
92161086|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|3.95||0.4342|TWO_SIDED|95.0|-4.72|10.93||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Adequacy: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||10.93|-4.72|0.4342
92400656|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.776||||0.1686||95.0|-0.329|1.88|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.880|-0.329|0.1686
92400657|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.771||||0.1817||95.0|-0.361|1.904|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.904|-0.361|0.1817
92352323|NCT04053452|184609955|OTHER|Ulnar at axilla|Kendall's tau correlation coefficient|0.02342428|||||TWO_SIDED|95.0|-0.4531|0.5267||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.5267|-0.4531|
92352324|NCT04053452|184609955|OTHER|C6|Kendall's tau correlation coefficient|0.06536087|||||TWO_SIDED|95.0|-0.2786|0.4454||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.4454|-0.2786|
92352325|NCT04053452|184609955|OTHER|C7|Kendall's tau correlation coefficient|0.2207792|||||TWO_SIDED|95.0|-0.2459|0.6708||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.6708|-0.2459|
92352326|NCT04053452|184609955|OTHER|Vagus|Kendall's tau correlation coefficient|0.14415|||||TWO_SIDED|95.0|-0.2333|0.4899||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.4899|-0.2333|
92352327|NCT04053452|184609956|OTHER|Median at wrist|Odds Ratio (OR)|0.9310743||||0.548|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.548
92352328|NCT04053452|184609956|OTHER|Median at forearm|Odds Ratio (OR)|0.9310743||||0.548|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.548
92352329|NCT04053452|184609956|OTHER|Median at cubital fossa|Odds Ratio (OR)|1.23944918||||0.25|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.250
92161087|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.43|STANDARD_ERROR_OF_MEAN|2.07||0.242|TWO_SIDED|95.0|-6.53|1.66||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Somnolence: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.66|-6.53|0.2420
92352330|NCT04053452|184609956|OTHER|Median at humerus|Odds Ratio (OR)|0.9613236||||0.874|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.874
92352331|NCT04053452|184609956|OTHER|Median at axilla|Odds Ratio (OR)|0.9442314||||0.698|TWO_SIDED|95.0|||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.698
92352332|NCT04053452|184609956|OTHER|Ulnar at wrist|Odds Ratio (OR)|1.193941||||0.665|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.665
92352333|NCT04053452|184609956|OTHER|Ulnar at forearm|Odds Ratio (OR)|1.0524489||||0.82|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.820
92352334|NCT04053452|184609956|OTHER|Ulnar at cubital fossa|Odds Ratio (OR)|1.21669122||||0.193|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.193
92352335|NCT04053452|184609956|OTHER|Ulnar at humerus|Odds Ratio (OR)|1.2994068||||0.314|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.314
92352336|NCT04053452|184609956|OTHER|Ulnar at axilla|Odds Ratio (OR)|1.1015629||||0.405|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.405
92161088|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|2.05||0.981|TWO_SIDED|95.0|-4.12|4.02||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Somnolence: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||4.02|-4.12|0.9810
92220290|NCT01197521|184340755|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.13|||<|0.001|TWO_SIDED|95.0|0.1|0.17||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.17|0.10|<0.001
92161089|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.38|STANDARD_ERROR_OF_MEAN|2.05||0.2468|TWO_SIDED|95.0|-6.44|1.67||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Somnolence: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.67|-6.44|0.2468
92352337|NCT04053452|184609956|OTHER|C6|Odds Ratio (OR)|0.9140133||||0.389|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.389
92352338|NCT04053452|184609956|OTHER|C7|Odds Ratio (OR)|0.7982946||||0.139|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.139
92352339|NCT04053452|184609956|OTHER|Vagus|Odds Ratio (OR)|0.9330042||||0.622|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.622
92352340|NCT04053452|184609957|OTHER|Median at wrist, 3 months|Kendall's tau correlation coefficient|0.2641183|||||TWO_SIDED|95.0|-0.2344|0.7511||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.7511|-0.2344|
92352341|NCT04053452|184609957|OTHER|Median at forearm, 3 months|Kendall's tau correlation coefficient|0.02596308|||||TWO_SIDED|95.0|-0.4859|0.5555||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.5555|-0.4859|
92352342|NCT04053452|184609957|OTHER|Median at cubital fossa, 3 months|Kendall's tau correlation coefficient|0.05162687|||||TWO_SIDED|95.0|-0.3342|0.417||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.4170|-0.3342|
92352343|NCT04053452|184609957|OTHER|Median at humerus, 3 months|Kendall's tau correlation coefficient|-0.1714461|||||TWO_SIDED|95.0|-0.6473|0.2723||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.2723|-0.6473|
92352344|NCT04053452|184609957|OTHER|Median at axilla, 3 months|Kendall's tau correlation coefficient|-0.0531775|||||TWO_SIDED|95.0|-0.583|0.4451||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.4451|-0.5830|
92352345|NCT04053452|184609957|OTHER|Ulnar at wrist, 3 months|Kendall's tau correlation coefficient|0.1371924|||||TWO_SIDED|95.0|-0.3592|0.6944||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.6944|-0.3592|
92352346|NCT04053452|184609957|OTHER|Ulnar at forearm, 3 months|Kendall's tau correlation coefficient|-0.0134595|||||TWO_SIDED|95.0|-0.5145|0.4627||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.4627|-0.5145|
92352347|NCT04053452|184609957|OTHER|Ulnar at cubital fossa, 3 months|Kendall's tau correlation coefficient|0.01313517|||||TWO_SIDED|95.0|-0.5056|0.4833||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.4833|-0.5056|
92161090|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.32||0.1496|TWO_SIDED|95.0|-0.17|1.09||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Quantity: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.09|-0.17|0.1496
92161091|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.31||0.8184|TWO_SIDED|95.0|-0.69|0.55||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Quantity: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.55|-0.69|0.8184
92161092|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.31||0.0918|TWO_SIDED|95.0|-0.09|1.15||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Quantity: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.15|-0.09|0.0918
92161093|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-9.89|STANDARD_ERROR_OF_MEAN|2.48||0.0001|TWO_SIDED|95.0|-14.8|-4.99||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||6-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-4.99|-14.80|0.0001
92161094|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.54|STANDARD_ERROR_OF_MEAN|2.46||0.0089|TWO_SIDED|95.0|-11.42|-1.67||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||6-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.67|-11.42|0.0089
92161095|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.35|STANDARD_ERROR_OF_MEAN|2.45||0.1746|TWO_SIDED|95.0|-8.21|1.51||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||6-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.51|-8.21|0.1746
92352348|NCT04053452|184609957|OTHER|Ulnar at humerus, 3 months|Kendall's tau correlation coefficient|-0.1196495|||||TWO_SIDED|95.0|-0.5876|0.3467||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.3467|-0.5876|
92352349|NCT04053452|184609957|OTHER|Ulnar at axilla, 3 months|Kendall's tau correlation coefficient|0.0|||||TWO_SIDED|95.0|-0.3682|0.3885||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.3885|-0.3682|
92352350|NCT04053452|184609957|OTHER|C6, 3 months|Kendall's tau correlation coefficient|0.1194695|||||TWO_SIDED|95.0|-0.422|0.6686||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.6686|-0.4220|
92352351|NCT04053452|184609957|OTHER|C7, 3 months|Kendall's tau correlation coefficient|-0.0593456|||||TWO_SIDED|95.0|-0.5651|0.454||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.4540|-0.5651|
92352352|NCT04053452|184609957|OTHER|Vagus, 3 months|Kendall's tau correlation coefficient|-0.1920694|||||TWO_SIDED|95.0|-0.549|0.238||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.238|-0.5490|
92352353|NCT04053452|184609957|OTHER|Median at wrist, 6 months|Kendall's tau correlation coefficient|0.3150905|||||TWO_SIDED|||||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||||
92161096|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-10.14|STANDARD_ERROR_OF_MEAN|2.44|<|0.0001|TWO_SIDED|95.0|-14.96|-5.32||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||9-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-5.32|-14.96|<0.0001
92352354|NCT04053452|184609957|OTHER|Median at forearm, 6 months|Kendall's tau correlation coefficient|0.1203751|||||TWO_SIDED|||||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||||
92352355|NCT04053452|184609957|OTHER|Median at cubital fossa, 6 months|Kendall's tau correlation coefficient|0.2526605|||||TWO_SIDED|95.0|-0.1865|0.643||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.6430|-0.1865|
92352356|NCT04053452|184609957|OTHER|Median at humerus, 6 months|Kendall's tau correlation coefficient|-0.073601|||||TWO_SIDED|95.0|-0.5806|0.4223||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.4223|-0.5806|
92352357|NCT04053452|184609957|OTHER|Median at axilla, 6 months|Kendall's tau correlation coefficient|0.01369735|||||TWO_SIDED|95.0|-0.5619|0.5236||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.5236|-0.5619|
92352358|NCT04053452|184609957|OTHER|Ulnar at wrist, 6 months|Kendall's tau correlation coefficient|0.2685663|||||TWO_SIDED|95.0|-0.2488|0.7683||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.7683|-0.2488|
92352359|NCT04053452|184609957|OTHER|Ulnar at forearm, 6 months|Kendall's tau correlation coefficient|0.1802776|||||TWO_SIDED|95.0|-0.2573|0.6027||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.6027|-0.2573|
92352360|NCT04053452|184609957|OTHER|Ulnar at cubital fossa, 6 months|Kendall's tau correlation coefficient|0.2571327|||||TWO_SIDED|95.0|-0.2595|0.6227||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.6227|-0.2595|
92352361|NCT04053452|184609957|OTHER|Ulnar at humerus, 6 months|Kendall's tau correlation coefficient|-0.0684867|||||TWO_SIDED|95.0|-0.5757|0.3944||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.3944|-0.5757|
92352362|NCT04053452|184609957|OTHER|Ulnar at axilla, 6 months|Kendall's tau correlation coefficient|0.1929429|||||TWO_SIDED|95.0|-0.1828|0.555||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.5550|-0.1828|
92352363|NCT04053452|184609957|OTHER|C6, 6 months|Kendall's tau correlation coefficient|0.1975146|||||TWO_SIDED|95.0|-0.3557|0.7344||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.7344|-0.3557|
92352364|NCT04053452|184609957|OTHER|C7, 6 months|Kendall's tau correlation coefficient|-0.0754722|||||TWO_SIDED|95.0|-0.615|0.5083||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.5083|-0.6150|
92352365|NCT04053452|184609957|OTHER|Vagus, 6 months|Kendall's tau correlation coefficient|-0.0706753|||||TWO_SIDED|95.0|-0.5042|0.3963||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.3963|-0.5042|
92352366|NCT01421134|184609958|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|1.37|<|0.0001|TWO_SIDED|95.0|-10.2|-4.8|||Mixed Models Analysis|||||-4.8|-10.2|<0.0001
92352367|NCT01421134|184609959|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.157|<|0.0001|TWO_SIDED|95.0|-0.96|-0.34|||Mixed Models Analysis|||||-0.34|-0.96|<0.0001
92352368|NCT01421134|184609960|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|-3.1|-1.1|||Mixed Models Analysis|||||-1.1|-3.1|<0.0001
92352369|NCT01421134|184609961|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|1.21||0.0001|TWO_SIDED|95.0|-7.2|-2.4|||ANCOVA|||||-2.4|-7.2|0.0001
92352370|NCT01421134|184609962|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-6.1|-2.9|||ANCOVA|||||-2.9|-6.1|<0.0001
92352371|NCT01421134|184609963|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.615|||<|0.0001|TWO_SIDED|95.0|3.251|13.459|||Regression, Logistic||Odds Ratio was based on a logistic regression of response, with treatment group, baseline MADRS total score, and pooled center as fixed effects.|||13.459|3.251|<0.0001
92352372|NCT01421134|184609964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.27|||<|0.0001|TWO_SIDED|95.0|2.105|8.663|||Regression, Logistic|||||8.663|2.105|<0.0001
92352373|NCT06083493|184609994|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92352374|NCT06083493|184609995|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.20
92352375|NCT01810952|184610034|SUPERIORITY_OR_OTHER|||||||0.35||||||This is the p-value for Day 5|t-test, 2 sided|||||||0.35
92352376|NCT01810952|184610035|SUPERIORITY_OR_OTHER|||||||0.65|||||||Chi-squared|||||||0.65
92352377|NCT01810952|184610036|SUPERIORITY_OR_OTHER|||||||0.06||||||Comparison of the 5 day averages resulted in a p-value of 0.06.|t-test, 2 sided|||Daily values for each protocol were compared using t-tests.||||0.06
92352378|NCT01810952|184610037|SUPERIORITY_OR_OTHER||difference in binomial proportions|||||0.795||||||Comparison of the number of participants in each group with glucose value \<70 mg/dL resulted in p-value 0.795.|Chi-squared|||||||0.795
92400658|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.764||||0.2055||95.0|-0.419|1.948|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.948|-0.419|0.2055
92400659|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.76||||0.2188||95.0|-0.452|1.972|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.972|-0.452|0.2188
92161097|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.13|STANDARD_ERROR_OF_MEAN|2.42||0.0359|TWO_SIDED|95.0|-9.91|-0.34||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||9-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.34|-9.91|0.0359
92161098|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.01|STANDARD_ERROR_OF_MEAN|2.41||0.0395|TWO_SIDED|95.0|-9.78|-0.24||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||9-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.24|-9.78|0.0395
92161099|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.06||0.0278|TWO_SIDED|95.0|0.02|0.27||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Optimal Sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.27|0.02|0.0278
92161100|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.06||0.2||95.0|-0.04|0.2||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Optimal Sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.20|-0.04|0.2000
92161101|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.06||0.3396|TWO_SIDED|95.0|-0.06|0.18||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Optimal Sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.18|-0.06|0.3396
92161102|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.56|STANDARD_ERROR_OF_MEAN|3.22|<|0.0001|TWO_SIDED|95.0|-20.93|-8.19||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Disturbance: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-8.19|-20.93|<0.0001
92352379|NCT01810952|184610038|SUPERIORITY_OR_OTHER|||||||0.055||||||Comparison between groups of percent of glucose values \>180 mg/dL.|Chi-squared|||Values in each group were compared by Chi squared.||||0.055
92400660|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.753||||0.2427||95.0|-0.51|2.016|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.016|-0.510|0.2427
92161103|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.11|STANDARD_ERROR_OF_MEAN|3.2||0.0584|TWO_SIDED|95.0|-12.43|0.22||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Disturbance: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.22|-12.43|0.0584
92161104|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-8.45|STANDARD_ERROR_OF_MEAN|3.19||0.009|TWO_SIDED|95.0|-14.76|-2.15||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Disturbance: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-2.15|-14.76|0.0090
92161105|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.69|STANDARD_ERROR_OF_MEAN|2.28||0.2405|TWO_SIDED|95.0|-7.2|1.82||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Snoring: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.82|-7.20|0.2405
92352380|NCT00114777|184610048|SUPERIORITY_OR_OTHER||Treament Difference|1.1|||||TWO_SIDED|97.3|-7.2|9.4|||||The treatment differences between each belatacept treatment group and cyclosporin group was tested at the 0.027 significance level for participant and graft survival (based on 10% non-inferiority margin).|||9.4|-7.2|
92352381|NCT00114777|184610048|SUPERIORITY_OR_OTHER||Treatment difference|3.2|||||TWO_SIDED|97.3|-5.0|11.4|||||The treatment differences between each belatacept treatment group and cyclosporin group was tested at the 0.027 significance level for participant and graft survival (based on 10% non-inferiority margin).|||11.4|-5.0|
92352382|NCT00114777|184610049|SUPERIORITY_OR_OTHER||Percentage difference|-14.4||||0.0018|TWO_SIDED|97.3|-24.0|-4.7|||Chi-squared||A continuity-corrected chi-squared test at the significance level 0.027 was performed to assess the effect of each belatacept regimen compared with cyclosporin A.|||-4.7|-24|0.0018
92352383|NCT00114777|184610049|SUPERIORITY_OR_OTHER||Percentage difference|-8.5||||0.0616|TWO_SIDED|97.3|-18.0|0.9|||Chi-squared||A continuity-corrected chi-squared test at the significance level 0.027 was performed to assess the effect of each belatacept regimen compared with cyclosporin A.|||0.9|-18|0.0616
92352384|NCT01181128|184610076|SUPERIORITY_OR_OTHER_LEGACY||Bleeding Rate Ratio|0.08|||<|0.001|TWO_SIDED|95.0|0.05|0.13|||negative binomial model|||The null hypothesis for the primary endpoint is no difference between the individualized (tailored) prophylaxis regimen and the on-demand regimen. The sample size of this study was mainly based on clinical rather than statistical considerations. However it was projected to have \> 90% power at the 2-sided 0.05 level of significance to detect a 60% reduction in annualized bleeding episodes, based upon this hypothesis test.||0.13|0.05|<0.001
92352385|NCT01181128|184610082|SUPERIORITY_OR_OTHER_LEGACY||Bleeding Rate Ratio|0.24|||<|0.001|TWO_SIDED|95.0|0.12|0.46|||negative binomial model|||||0.46|0.12|<0.001
92352386|NCT04477486|184610115|SUPERIORITY|Comparing against a historical reference of 12.5% CRR.|||||<|0.001|||||||Exact Binomial Distribution|||||||<0.001
92352387|NCT02618187|184610140|OTHER|Null hypothesis: the two groups compared show no difference in mean ranks Alternative hypothesis: the two groups compared show a difference in mean ranks||||||0.766|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.766
92352388|NCT02618187|184610140|OTHER|Null hypothesis: the two groups compared show no difference in mean ranks Alternative hypothesis: the two groups compared show a difference in mean ranks||||||0.037|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.037
92352389|NCT02618187|184610140|OTHER|Null hypothesis: the two groups compared show no difference in mean ranks Alternative hypothesis: the two groups compared show a difference in mean ranks||||||0.313|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.313
92352390|NCT02618187|184610140|OTHER|Null hypothesis: the two groups compared show no difference in mean ranks Alternative hypothesis: the two groups compared show a difference in mean ranks||||||0.384|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.384
92352391|NCT02618187|184610140|OTHER|Null hypothesis: the two groups compared show no difference in mean ranks Alternative hypothesis: the two groups compared show a difference in mean ranks||||||0.237|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.237
92352392|NCT02618187|184610141|SUPERIORITY|Weekly SER-287, after Placebo Pre-Treat. tested against Daily placebo, after Placebo Pre-Treat., for superiority||||||0.257|||||||Wilcoxon (Mann-Whitney)|1-sided||||||0.257
92352393|NCT02618187|184610141|SUPERIORITY|Daily SER-287, After Vanco. Pre-Treat. tested against Daily Placebo, After Placebo Pre-Treat., for superiority||||||0.001|||||||Wilcoxon (Mann-Whitney)|1-sided||||||0.001
92352394|NCT02618187|184610141|SUPERIORITY|Weekly SER-287, After Vanco. Pre-Treat. tested against Daily Placebo, After Placebo Pre-Treat., for superiority||||||0.001|||||||Wilcoxon (Mann-Whitney)|1-sided||||||0.001
92352395|NCT02618187|184610141|SUPERIORITY|Weekly SER-287, After Vanco. Pre-Treat. tested against Weekly SER-287, After Placebo Pre-Treat., for superiority||||||0.009|||||||Wilcoxon (Mann-Whitney)|1-sided||||||0.009
92352396|NCT02618187|184610141|SUPERIORITY|Daily SER-287, After Vanco. Pre-Treat., tested against Weekly SER-287, After Vanco. Pre-Treat., for superiority||||||0.168|||||||Wilcoxon (Mann-Whitney)|1-sided||||||0.168
92352397|NCT02618187|184610142|SUPERIORITY||Rate difference (SER-287 - placebo)|13.3||||0.4923|TWO_SIDED|95.0|-3.87|30.54|||Fisher Exact|||||30.54|-3.87|0.4923
92352398|NCT02618187|184610142|SUPERIORITY||Rate difference (SER-287 - placebo)|40.0||||0.0237|TWO_SIDED|95.0|15.21|64.79|||Fisher Exact|||||64.79|15.21|0.0237
92352399|NCT02618187|184610142|SUPERIORITY||Rate difference (SER-287 - placebo)|17.6||||0.2579|TWO_SIDED|95.0|-0.47|35.77|||Fisher Exact|||||35.77|-0.47|0.2579
92352400|NCT02618187|184610143|SUPERIORITY||Rate difference (SER-287 - placebo)|24.2||||0.1973|TWO_SIDED|95.0|-5.04|53.53|||Fisher Exact|||||53.53|-5.04|0.1973
92352401|NCT02618187|184610143|SUPERIORITY||Rate difference (SER-287 - placebo)|30.9||||0.1783|TWO_SIDED|95.0|0.86|60.96|||Fisher Exact|||||60.96|0.86|0.1783
92352402|NCT02618187|184610143|SUPERIORITY||Rate difference (SER-287 - placebo)|14.4||||0.6195|TWO_SIDED|95.0|-11.93|40.81|||Fisher Exact|||||40.81|-11.93|0.6195
92352403|NCT00514917|184610163|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.0501|TWO_SIDED|95.0|1.0|1.65||A priori threshold for statistical significance = 0.05|Log Rank|P-value was not adjusted for multiplicity of tests.|The hazard ratio Leuprolide+Bicalutamide vs. Docetaxel+Leuprolide+Bicalutamide was estimated using an un-stratified Cox proportional hazards model. A hazard ratio \>1 indicates a lower risk of Docetaxel+Leuprolide, compared to Leuprolide.|"Null hypothesis: No difference between new treatment combination (Docetaxel+Leuprolide+Bicalutamide) and conventional treatment (Leuprolide+Bicalutamide).~The study was sized to have 90% power to detect a difference between treatment arms at a 2-sided 0.05 significance level with 186 events and anticipating 10% non-evaluable participants."||1.65|1.00|0.0501
92352404|NCT03055507|184610179|SUPERIORITY||Mean Difference (Final Values)|-0.9|||<|0.05|TWO_SIDED|96.0|-2.4|0.5|||t-test, 1 sided|||||0.5|-2.4|<0.05
92352405|NCT04560309|184610191|SUPERIORITY|||||||0.993||||||The threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.993
92352406|NCT04560309|184610192|SUPERIORITY|||||||0.883||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.883
92352407|NCT04560309|184610193|SUPERIORITY|||||||0.034||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.034
92352408|NCT04560309|184610194|SUPERIORITY|||||||0.038||||||The threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.038
92352409|NCT04560309|184610195|SUPERIORITY|||||||0.423||||||The threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.423
92352410|NCT04560309|184610196|SUPERIORITY|||||||0.216||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.216
92352411|NCT04560309|184610197|SUPERIORITY|||||||0.001||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.001
92352412|NCT04560309|184610198|SUPERIORITY|||||||0.043||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.043
92352413|NCT04560309|184610199|SUPERIORITY|||||||0.011||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.011
92352414|NCT04560309|184610200|SUPERIORITY|||||||0.975||||||The threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.975
92276013|NCT02151461|184454509|OTHER|||||||0.2177|||||||ANCOVA|Total daily dose is twice the respective dose. Pairwise Comparison using Treatment D as the Reference Group||The HOMA Calculator,is an algorithm that takes account of variations in hepatic and peripheral glucose resistance, increases in insulin secretion curve for plasma glucose concentrations above 10 mmol/L (180 mg/dL), and contribution of circulating proinsulin (eg, C-peptide) to estimate steady state beta cell function (%HOMA-B) and insulin sensitivity (%HOMA-S), as percentages of a normal reference population. %HOMA-IR was analyzed on a logarithmic scale (natural logarithmic transformation).||||0.2177
92276014|NCT02151461|184454509|OTHER|||||||0.4144|||||||ANCOVA|||||||0.4144
92352415|NCT04560309|184610201|SUPERIORITY|||||||0.031||||||The threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.031
92352416|NCT04560309|184610202|SUPERIORITY|||||||0.549||||||The threshold of statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.549
92352417|NCT04560309|184610203|SUPERIORITY|||||||0.645||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||||||0.645
92352418|NCT04560309|184610204|SUPERIORITY|||||||0.33||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||After induction to anesthesia||||0.330
92352419|NCT04560309|184610204|SUPERIORITY|||||||0.352||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||5 minutes after cardiopulmonary bypass||||0.352
92352420|NCT04560309|184610204|SUPERIORITY|||||||0.544||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||2 hours after cardiopulmonary bypass||||0.544
92352421|NCT04560309|184610204|SUPERIORITY|||||||0.022||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||6 hours after cardiopulmonary bypass||||0.022
92352422|NCT04560309|184610204|SUPERIORITY|||||||0.038||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||24 hour after cardiopulmonary bypass||||0.038
92352423|NCT04560309|184610205|SUPERIORITY|||||||0.2||||||The threshold of statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.200
92352424|NCT04560309|184610206|SUPERIORITY|||||||0.72||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||||||0.720
92352425|NCT04560309|184610207|SUPERIORITY|||||||0.042||||||The threshold of statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.042
92352426|NCT04560309|184610208|SUPERIORITY|||||||0.044||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||||||0.044
92352427|NCT04560309|184610209|SUPERIORITY|||||||0.349||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||||||0.349
92352428|NCT04560309|184610210|SUPERIORITY|||||||0.95||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||||||0.950
92352429|NCT04560309|184610211|SUPERIORITY|The threshold of statistical significance was p \< 0.05||||||0.862|||||||Wilcoxon (Mann-Whitney)|||||||0.862
92352430|NCT04560309|184610212|SUPERIORITY|The threshold of statistical significance was p \< 0.05||||||0.075|||||||Wilcoxon (Mann-Whitney)|||||||0.075
92352431|NCT02187055|184610246|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was a treatment difference larger than -13% at the population level|Difference in response rate|-7.73||||0.2101|TWO_SIDED|98.34|-16.29|0.83|||Normal approximation to proportions|Multiplicity-adjusted||||0.83|-16.29|0.2101
92352432|NCT02187055|184610246|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was a treatment difference larger than -13% at the population level|Difference in response rate|-5.5||||0.0512|TWO_SIDED|98.34|-13.98|2.98|||Normal approximation to proportions|Multiplicity-adjusted||||2.98|-13.98|0.0512
92352433|NCT02187055|184610246|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was a treatment difference larger than -13% at the population level|Difference in response rate|2.23|||<|0.0001|TWO_SIDED|98.34|-6.4|10.86|||Normal approximation to proportions|Multiplicity adjusted||||10.86|-6.40|<0.0001
92352434|NCT02187055|184610247|SUPERIORITY_OR_OTHER||LS mean difference|2.8|||||TWO_SIDED|95.0|1.23|4.41||||||||4.41|1.23|
92352435|NCT02187055|184610247|SUPERIORITY_OR_OTHER||LS mean difference|1.9|||||TWO_SIDED|95.0|0.33|3.49||||||||3.49|0.33|
92352436|NCT02187055|184610247|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|||||TWO_SIDED|95.0|-2.51|0.68||||||||0.68|-2.51|
92352437|NCT02187055|184610248|SUPERIORITY_OR_OTHER||LS mean difference|2.6|||||TWO_SIDED|95.0|1.08|4.18||||||||4.18|1.08|
92352438|NCT02187055|184610248|SUPERIORITY_OR_OTHER||LS mean difference|1.9|||||TWO_SIDED|95.0|0.4|3.48||||||||3.48|0.40|
92352439|NCT02187055|184610248|SUPERIORITY_OR_OTHER||LS mean difference|-0.7|||||TWO_SIDED|95.0|-2.24|0.86||||||||0.86|-2.24|
92352440|NCT02187055|184610249|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|0.16|0.5||||||||0.50|0.16|
92276015|NCT02151461|184454509|OTHER|||||||0.3117|||||||ANCOVA|||||||0.3117
92352441|NCT02187055|184610249|SUPERIORITY_OR_OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|0.05|0.39||||||||0.39|0.05|
92352442|NCT02187055|184610249|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-0.28|0.06||||||||0.06|-0.28|
92352443|NCT02187055|184610250|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|0.15|0.51||||||||0.51|0.15|
92352444|NCT02187055|184610250|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|0.1|0.46||||||||0.46|0.10|
92352445|NCT02187055|184610250|SUPERIORITY_OR_OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.23|0.13||||||||0.13|-0.23|
92352446|NCT02187055|184610251|SUPERIORITY_OR_OTHER||Difference in remission rate|-1.21|||||TWO_SIDED|95.0|-4.99|2.56||||||||2.56|-4.99|
92352447|NCT02187055|184610251|SUPERIORITY_OR_OTHER||Difference in remission rate|-1.78|||||TWO_SIDED|95.0|-5.59|2.04||||||||2.04|-5.59|
92352448|NCT02187055|184610251|SUPERIORITY_OR_OTHER||Difference in remission rate|-0.56|||||TWO_SIDED|95.0|-4.53|3.4||||||||3.40|-4.53|
92352449|NCT02187055|184610252|SUPERIORITY_OR_OTHER||Difference in remission rate|-3.4|||||TWO_SIDED|95.0|-7.95|1.15||||||||1.15|-7.95|
92352450|NCT02187055|184610252|SUPERIORITY_OR_OTHER||Difference in remission rate|-3.06|||||TWO_SIDED|95.0|-7.55|1.43||||||||1.43|-7.55|
92352451|NCT02187055|184610252|SUPERIORITY_OR_OTHER||Difference in remission rate|0.34|||||TWO_SIDED|95.0|-4.45|5.14||||||||5.14|-4.45|
92352452|NCT02187055|184610253|SUPERIORITY_OR_OTHER||Difference in remission rate|-3.67|||||TWO_SIDED|95.0|-8.29|0.94||||||||0.94|-8.29|
92352453|NCT02187055|184610253|SUPERIORITY_OR_OTHER||Difference in remission rate|-3.06|||||TWO_SIDED|95.0|-7.59|1.48||||||||1.48|-7.59|
92352454|NCT02187055|184610253|SUPERIORITY_OR_OTHER||Difference in remission rate|0.62|||||TWO_SIDED|95.0|-4.24|5.47||||||||5.47|-4.24|
92352455|NCT02187055|184610254|SUPERIORITY_OR_OTHER||Difference in remission rate|-1.55|||||TWO_SIDED|95.0|-6.03|2.93||||||||2.93|-6.03|
92352456|NCT02187055|184610254|SUPERIORITY_OR_OTHER||Difference in remission rate|-2.02|||||TWO_SIDED|95.0|-6.51|2.47||||||||2.47|-6.51|
92352457|NCT02187055|184610254|SUPERIORITY_OR_OTHER||Difference in remission rate|-0.47|||||TWO_SIDED|95.0|-5.11|4.18||||||||4.18|-5.11|
92161106|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.26||0.7565|TWO_SIDED|95.0|-5.18|3.77||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Snoring: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||3.77|-5.18|0.7565
92276016|NCT02151461|184454510|OTHER|Average Change in Pre-meal Glucose Level||||||0.011|||||||ANCOVA|Total daily dose is twice the respective dose Pairwise comparison using Treatment D as the reference group||||||0.011
92276017|NCT02151461|184454510|OTHER|Average Change in Pre-meal Glucose Level||||||0.0152|||||||ANCOVA|||||||0.0152
92276018|NCT02151461|184454510|OTHER|Average Change in Pre-meal Glucose Level||||||0.0284|||||||ANCOVA|||||||0.0284
92276019|NCT02151461|184454510|OTHER|Average Change in Post-meal Glucose Level||||||0.1273|||||||ANCOVA|Total daily dose is twice the respective dose Pairwise comparison using Treatment D as the reference group||||||0.1273
92276020|NCT02151461|184454510|OTHER|Average Change in Post-meal Glucose Level||||||0.0085|||||||ANCOVA|||||||0.0085
92276021|NCT02151461|184454510|OTHER|Average Change in Post-meal Glucose Level||||||0.1289|||||||ANCOVA|||||||0.1289
92276022|NCT02151461|184454511|OTHER|Plasma Insulin Absolute AUC(0-2hr) (h\*uIU/mL)||||||0.3143|||||||ANCOVA|Total daily dose is twice the respective dose. Pairwise comparison using Treatment D as the reference group.||||||0.3143
92276023|NCT02151461|184454511|OTHER|Plasma Insulin Absolute AUC(0-2hr) (h\*uIU/mL)||||||0.5677|||||||ANCOVA|||||||0.5677
92276024|NCT02151461|184454511|OTHER|Plasma Insulin Absolute AUC(0-2hr) (h\*uIU/mL)||||||0.8407|||||||ANCOVA|||||||0.8407
92276025|NCT02151461|184454512|OTHER|||||||0.9789|||||||ANCOVA|Total daily dose is twice the respective dose Pairwise comparison using Treatment D as the reference group||||||0.9789
92276026|NCT02151461|184454512|OTHER|||||||0.841|||||||ANCOVA|||||||0.841
92352458|NCT02187055|184610255|SUPERIORITY_OR_OTHER||Difference in remission rate|-9.49|||||TWO_SIDED|95.0|-15.68|-3.3||||||||-3.30|-15.68|
92352459|NCT02187055|184610255|SUPERIORITY_OR_OTHER||Difference in remission rate|-6.89|||||TWO_SIDED|95.0|-12.94|-0.83||||||||-0.83|-12.94|
92352460|NCT02187055|184610255|SUPERIORITY_OR_OTHER||Difference in remission rate|2.61|||||TWO_SIDED|95.0|-3.86|9.07||||||||9.07|-3.86|
92276027|NCT02151461|184454512|OTHER|||||||0.748|||||||ANCOVA|||||||0.748
92276028|NCT00252187|184454517|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||Change in end systolic LV volume index compared between two groups||||0.004
92276029|NCT00252187|184454517|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||Change in LV end diastolic volume was compared between two groups||||0.001
92276030|NCT00252187|184454518|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||||||0.001
92276031|NCT00252187|184454520|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Chi-squared|||||||0.14
92352461|NCT02187055|184610256|SUPERIORITY_OR_OTHER||Difference in response rate|-6.24|||||TWO_SIDED|95.0|-13.32|0.84||||||||0.84|-13.32|
92352462|NCT02187055|184610256|SUPERIORITY_OR_OTHER||Difference in response rate|-3.66|||||TWO_SIDED|95.0|-10.69|3.37||||||||3.37|-10.69|
92352463|NCT02187055|184610256|SUPERIORITY_OR_OTHER||Difference in response rate|2.58|||||TWO_SIDED|95.0|-4.51|9.68||||||||9.68|-4.51|
92352464|NCT02187055|184610257|SUPERIORITY_OR_OTHER||Difference in response rate|-6.22|||||TWO_SIDED|95.0|-13.29|0.85||||||||0.85|-13.29|
92352465|NCT02187055|184610257|SUPERIORITY_OR_OTHER||Difference in response rate|-3.93|||||TWO_SIDED|95.0|-10.94|3.09||||||||3.09|-10.94|
92276032|NCT00252187|184454521|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Chi-squared|||||||0.006
92276033|NCT02191579|184454553|SUPERIORITY||Odds Ratio (OR)|4.94|||<|0.001|TWO_SIDED|95.0|2.681|9.085||Odds ratio, 95% CI, and p-value were estimated using a logistic regression model adjusted by baseline headache days.|Regression, Logistic|||||9.085|2.681|<0.001
92276034|NCT02191579|184454554|SUPERIORITY||Mean Difference (Net)|-6.199|||<|0.001|TWO_SIDED|95.0|-7.936|-4.462||Estimated mean difference, 95% CI, and p-value were assessed using analysis of covariance adjusting for baseline headache days.|ANCOVA|||||-4.462|-7.936|<0.001
92276035|NCT02191579|184454555|SUPERIORITY||Median Difference (Net)|-4.248|||<|0.001||95.0|-5.766|-2.731||Estimated mean difference, 95% CI, and p-value for Week 30 were assessed using analysis of covariance adjusting for baseline headache days.|ANCOVA|||||-2.731|-5.766|<0.001
92276036|NCT02191579|184454556|SUPERIORITY||Odds Ratio (OR)|4.05|||<|0.001||95.0|2.014|8.157||Odds ratio, 95% CI, and p-value for the Week 29-32 interval were estimated using a logistic regression model adjusted by baseline headache days.|Regression, Logistic|||||8.157|2.014|<0.001
92276037|NCT01086215|184454583|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \>0||||||<0.0001
92276038|NCT01086215|184454583|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \>0||||||<0.0001
92276039|NCT01086215|184454583|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \>0||||||<0.0001
92276040|NCT01086215|184454583|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \>0||||||<0.0001
92276041|NCT01965652|184454587|SUPERIORITY_OR_OTHER||LS Mean Difference|1.28|STANDARD_ERROR_OF_MEAN|0.226|<|0.0001|TWO_SIDED|95.0|0.83|1.72||The significance level was set at 0.05 (2-sided). The analysis of efficacy endpoints was not adjusted for multiplicity; hence, the p-values are purely nominal. A mixed-effects model repeated measures (MMRM) method was used for the comparisons.|Mixed-effects model repeated measures|The MMRM method included the opioid dose strata as a covariate and treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||1.72|0.83|<0.0001
92352466|NCT02187055|184610257|SUPERIORITY_OR_OTHER||Difference in response rate|2.3|||||TWO_SIDED|95.0|-4.79|9.39||||||||9.39|-4.79|
92352467|NCT02187055|184610258|SUPERIORITY_OR_OTHER||Difference in response rate|-6.02|||||TWO_SIDED|95.0|-12.05|0.0||||||||0.00|-12.05|
92352468|NCT02187055|184610258|SUPERIORITY_OR_OTHER||Difference in response rate|-6.89|||||TWO_SIDED|95.0|-12.9|-0.87||||||||-0.87|-12.90|
92352469|NCT02187055|184610258|SUPERIORITY_OR_OTHER||Difference in response rate|-0.87|||||TWO_SIDED|95.0|-7.17|5.44||||||||5.44|-7.17|
92276042|NCT01965652|184454587|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|0.53|1.47|||Mixed-effects model repeated measures|The MMRM method included the opioid dose strata as a covariate and treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||1.47|0.53|<0.0001
92276043|NCT01965652|184454587|SUPERIORITY_OR_OTHER||LS Mean Difference|1.01|STANDARD_ERROR_OF_MEAN|0.249|<|0.0001|TWO_SIDED|95.0|0.52|1.5|||Mixed-effects model repeated measures|The MMRM method included the opioid dose strata as a covariate and treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||1.50|0.52|<0.0001
92276044|NCT01965652|184454587|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.259||0.0001|TWO_SIDED|95.0|0.49|1.51|||Mixed-effects model repeated measures|The MMRM method included the opioid dose strata as a covariate and treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||1.51|0.49|0.0001
92276045|NCT01965652|184454589|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.44|-0.25|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.25|-0.44|<0.0001
92276046|NCT01965652|184454589|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|-0.36|-0.14|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.14|-0.36|<0.0001
92276047|NCT01965652|184454589|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|-0.4|-0.18|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.18|-0.40|<0.0001
92276048|NCT01965652|184454589|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001|TWO_SIDED|95.0|-0.47|-0.24|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.24|-0.47|<0.0001
92276049|NCT01965652|184454589|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|95.0|-0.35|-0.12|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.12|-0.35|<0.0001
92276050|NCT01965652|184454590|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.054||0.0002|TWO_SIDED|95.0|-0.31|-0.1|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.10|-0.31|0.0002
92276051|NCT01965652|184454590|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.06||0.0173|TWO_SIDED|95.0|-0.26|-0.03|||Mixed-effects model repeated meaures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.03|-0.26|0.0173
92276052|NCT01965652|184454590|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.061||0.0035|TWO_SIDED|95.0|-0.3|-0.06|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.06|-0.30|0.0035
92276053|NCT01965652|184454590|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|-0.4|-0.16|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.16|-0.40|<0.0001
92276054|NCT01965652|184454590|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.064||0.0336|TWO_SIDED|95.0|-0.26|-0.01|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.01|-0.26|0.0336
92276055|NCT01965652|184454591|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001|TWO_SIDED|95.0|-0.37|-0.14|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.14|-0.37|<0.0001
92276056|NCT01965652|184454591|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.063||0.0114|TWO_SIDED|95.0|-0.28|-0.04|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.04|-0.28|0.0114
92352470|NCT02187055|184610259|SUPERIORITY_OR_OTHER||Difference in response rate|-4.87|||||TWO_SIDED|95.0|-11.92|2.18||||||||2.18|-11.92|
92352471|NCT02187055|184610259|SUPERIORITY_OR_OTHER||Difference in response rate|-5.48|||||TWO_SIDED|95.0|-12.49|1.52||||||||1.52|-12.49|
92276057|NCT01965652|184454591|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.065||0.0003|TWO_SIDED|95.0|-0.36|-0.11|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.11|-0.36|0.0003
92276058|NCT01965652|184454591|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.064|<|0.0001|TWO_SIDED|95.0|-0.38|-0.13|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.13|-0.38|<0.0001
92276059|NCT01965652|184454591|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.066||0.0119|TWO_SIDED|95.0|-0.29|-0.04|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.04|-0.29|0.0119
92352472|NCT02187055|184610259|SUPERIORITY_OR_OTHER||Difference in rresponse rate|-0.61|||||TWO_SIDED|95.0|-7.7|6.47||||||||6.47|-7.70|
92352473|NCT02187055|184610260|SUPERIORITY_OR_OTHER||Difference in response rate|-8.29|||||TWO_SIDED|95.0|-14.84|-1.75||||||||-1.75|-14.84|
92352474|NCT02187055|184610260|SUPERIORITY_OR_OTHER||Difference in response rate|-6.14|||||TWO_SIDED|95.0|-12.72|0.44||||||||0.44|-12.72|
92352475|NCT02187055|184610260|SUPERIORITY_OR_OTHER||Difference in response rate|2.15|||||TWO_SIDED|95.0|-4.22|8.52||||||||8.52|-4.22|
92352476|NCT02187055|184610261|SUPERIORITY_OR_OTHER||Difference in response rate|-6.77|||||TWO_SIDED|95.0|-12.61|-0.93||||||||-0.93|-12.61|
92352477|NCT02187055|184610261|SUPERIORITY_OR_OTHER||Difference in response rate|-2.5|||||TWO_SIDED|95.0|-8.09|3.1||||||||3.10|-8.09|
92352478|NCT02187055|184610261|SUPERIORITY_OR_OTHER||Difference in response rate|4.27|||||TWO_SIDED|95.0|-1.68|10.23||||||||10.23|-1.68|
92352479|NCT02187055|184610262|SUPERIORITY_OR_OTHER||LS mean difference|0.07|||||TWO_SIDED|95.0|-0.011|0.148||||||||0.148|-0.011|
92352480|NCT02187055|184610262|SUPERIORITY_OR_OTHER||LS mean difference|0.03|||||TWO_SIDED|95.0|-0.054|0.105||||||||0.105|-0.054|
92352481|NCT02187055|184610262|SUPERIORITY_OR_OTHER||LS mean difference|-0.04|||||TWO_SIDED|95.0|-0.122|0.037||||||||0.037|-0.122|
92352482|NCT02187055|184610263|SUPERIORITY_OR_OTHER||Difference in response rate|-4.07|||||TWO_SIDED|95.0|-10.68|2.55||||||||2.55|-10.68|
92352483|NCT02187055|184610263|SUPERIORITY_OR_OTHER||Difference in response rate|-1.21|||||TWO_SIDED|95.0|-7.87|5.44||||||||5.44|-7.87|
92352484|NCT02187055|184610263|SUPERIORITY_OR_OTHER||Difference in response rate|2.86|||||TWO_SIDED|95.0|-3.72|9.43||||||||9.43|-3.72|
92352485|NCT02187055|184610264|SUPERIORITY_OR_OTHER||LS mean difference|-1.2|||||TWO_SIDED|95.0|-2.28|-0.11||||||||-0.11|-2.28|
92220291|NCT01197521|184340756|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.16|||<|0.001|TWO_SIDED|95.0|0.11|0.22||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.22|0.11|<0.001
92276060|NCT01965652|184454592|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001|TWO_SIDED|95.0|-0.64|-0.39|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.39|-0.64|<0.0001
92276061|NCT01965652|184454592|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.51|-0.26|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.26|-0.51|<0.0001
92352486|NCT02187055|184610264|SUPERIORITY_OR_OTHER||LS mean difference|-1.1|||||TWO_SIDED|95.0|-2.16|0.01||||||||0.01|-2.16|
92352487|NCT02187055|184610264|SUPERIORITY_OR_OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.97|1.2||||||||1.20|-0.97|
92352488|NCT02187055|184610265|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|||||TWO_SIDED|95.0|-1.74|0.85||||||||0.85|-1.74|
92276062|NCT01965652|184454592|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001|TWO_SIDED|95.0|-0.54|-0.27|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.27|-0.54|<0.0001
92352489|NCT02187055|184610265|SUPERIORITY_OR_OTHER||LS mean difference|0.8|||||TWO_SIDED|95.0|-0.48|2.11||||||||2.11|-0.48|
92352490|NCT02187055|184610265|SUPERIORITY_OR_OTHER||LS mean difference|1.3|||||TWO_SIDED|95.0|-0.04|2.56||||||||2.56|-0.04|
92352491|NCT02187055|184610266|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|||||TWO_SIDED|95.0|-2.22|0.39||||||||0.39|-2.22|
92352492|NCT02187055|184610266|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|||||TWO_SIDED|95.0|-2.19|0.42||||||||0.42|-2.19|
92352493|NCT02187055|184610266|SUPERIORITY_OR_OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-1.27|1.34||||||||1.34|-1.27|
92352494|NCT02187055|184610267|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|||||TWO_SIDED|95.0|-1.52|0.87||||||||0.87|-1.52|
92352495|NCT02187055|184610267|SUPERIORITY_OR_OTHER||LS mean difference|0.4|||||TWO_SIDED|95.0|-0.8|1.58||||||||1.58|-0.80|
92352496|NCT02187055|184610267|SUPERIORITY_OR_OTHER||LS mean difference|0.7|||||TWO_SIDED|95.0|-0.47|1.91||||||||1.91|-0.47|
92352497|NCT02187055|184610268|SUPERIORITY_OR_OTHER||LS mean difference|-2.0|||||TWO_SIDED|95.0|-3.25|-0.8||||||||-0.80|-3.25|
92352498|NCT02187055|184610268|SUPERIORITY_OR_OTHER||LS mean difference|-1.7|||||TWO_SIDED|95.0|-2.91|-0.47||||||||-0.47|-2.91|
92352499|NCT02187055|184610268|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|-0.89|1.55||||||||1.55|-0.89|
92352500|NCT02187055|184610269|SUPERIORITY_OR_OTHER||LS mean difference|-1.2|||||TWO_SIDED|95.0|-2.27|-0.05||||||||-0.05|-2.27|
92352501|NCT02187055|184610269|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|||||TWO_SIDED|95.0|-1.4|0.82||||||||0.82|-1.40|
92352502|NCT02187055|184610269|SUPERIORITY_OR_OTHER||LS mean difference|0.9|||||TWO_SIDED|95.0|-0.25|1.98||||||||1.98|-0.25|
92352503|NCT02187055|184610270|SUPERIORITY_OR_OTHER||LS mean difference|-0.5|||||TWO_SIDED|95.0|-1.71|0.68||||||||0.68|-1.71|
92352504|NCT02187055|184610270|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-1.33|1.05||||||||1.05|-1.33|
92352505|NCT02187055|184610270|SUPERIORITY_OR_OTHER||LS mean difference|0.4|||||TWO_SIDED|95.0|-0.83|1.57||||||||1.57|-0.83|
92352506|NCT02187055|184610271|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|||||TWO_SIDED|95.0|-2.2|0.45||||||||0.45|-2.20|
92352507|NCT02187055|184610271|SUPERIORITY_OR_OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-1.13|1.51||||||||1.51|-1.13|
92352508|NCT02187055|184610271|SUPERIORITY_OR_OTHER||LS mean difference|1.1|||||TWO_SIDED|95.0|-0.26|2.39||||||||2.39|-0.26|
92352509|NCT02187055|184610272|SUPERIORITY_OR_OTHER||LS mean difference|-1.1|||||TWO_SIDED|95.0|-2.54|0.39||||||||0.39|-2.54|
92352510|NCT02187055|184610272|SUPERIORITY_OR_OTHER||LS mean difference|0.7|||||TWO_SIDED|95.0|-0.76|2.16||||||||2.16|-0.76|
92352511|NCT02187055|184610272|SUPERIORITY_OR_OTHER||LS mean difference|1.8|||||TWO_SIDED|95.0|0.3|3.24||||||||3.24|0.30|
92352512|NCT02187055|184610273|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|||||TWO_SIDED|95.0|-1.55|1.08||||||||1.08|-1.55|
92352513|NCT02187055|184610273|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|-1.01|1.62||||||||1.62|-1.01|
92352514|NCT02187055|184610273|SUPERIORITY_OR_OTHER||LS mean difference|0.5|||||TWO_SIDED|95.0|-0.78|1.86||||||||1.86|-0.78|
92352515|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-0.43|||||TWO_SIDED|95.0|-2.279|1.427||||||Work hours missed due to problems||1.427|-2.279|
92352516|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-0.87|||||TWO_SIDED|95.0|-2.783|1.044||||||Work hours missed due to problems||1.044|-2.783|
92352517|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-0.44|||||TWO_SIDED|95.0|-2.349|1.462||||||Work hours missed due to problems||1.462|-2.349|
92220292|NCT01197521|184340756|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.09||||0.002|TWO_SIDED|95.0|0.03|0.14||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.14|0.03|0.002
92220293|NCT01197521|184340757|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.08|||<|0.001|TWO_SIDED|95.0|0.05|0.12||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.12|0.05|<0.001
92352518|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-0.29|||||TWO_SIDED|95.0|-2.928|2.346||||||Work hours missed other reason||2.346|-2.928|
92352519|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|0.9|||||TWO_SIDED|95.0|-1.832|3.64||||||Work hours missed other reason||3.640|-1.832|
92352520|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|1.2|||||TWO_SIDED|95.0|-1.52|3.911||||||Work hours missed other reason||3.911|-1.520|
92352521|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|4.95|||||TWO_SIDED|95.0|0.52|9.37||||||Hours worked in past 7 days||9.370|0.520|
92352522|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|2.85|||||TWO_SIDED|90.0|-1.736|7.43||||||Hours worked in past 7 days||7.430|-1.736|
92352523|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-2.1|||||TWO_SIDED|95.0|-6.65|2.454||||||Hours worked in past 7 days||2.454|-6.650|
92352524|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|0.21|||||TWO_SIDED|95.0|-0.373|0.786||||||Problems affecting productivity||0.786|-0.373|
92352525|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|0.01|||||TWO_SIDED|95.0|-0.578|0.607||||||Problems affecting productivity||0.607|-0.578|
92220294|NCT01197521|184340757|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.04||||0.015|TWO_SIDED|95.0|0.01|0.07||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.07|0.01|0.015
92400661|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.749||||0.2559||95.0|-0.543|2.041|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.041|-0.543|0.2559
92352526|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-0.19|||||TWO_SIDED|95.0|-0.784|0.4||||||Problems affecting productivity||0.400|-0.784|
92352527|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|0.24|||||TWO_SIDED|95.0|-0.112|0.587||||||Problem affecting daily activities||0.587|-0.112|
92352528|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|0.01|||||TWO_SIDED|95.0|-0.341|0.357||||||Problem affecting daily activities||0.357|-0.341|
92352529|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-0.23|||||TWO_SIDED|95.0|-0.582|0.122||||||Problem affecting daily activities||0.122|-0.582|
92352530|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-1.1|||||TWO_SIDED|95.0|-5.748|3.553||||||% work time missed due to health||3.553|-5.748|
92352531|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-2.64|||||TWO_SIDED|95.0|-7.339|2.067||||||% work time missed due to health||2.067|-7.339|
92352532|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-1.54|||||TWO_SIDED|95.0|-6.283|3.207||||||% work time missed due to health||3.207|-6.283|
92352533|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|2.07|||||TWO_SIDED|95.0|-3.726|7.858||||||% impairment while working due to health||7.858|-3.726|
92352534|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|0.15|||||TWO_SIDED|95.0|-5.777|6.068||||||% impairment while working due to health||6.068|-5.777|
92352535|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-1.92|||||TWO_SIDED|95.0|-7.839|3.998||||||% impairment while working due to health||3.998|-7.839|
92352536|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|2.11|||||TWO_SIDED|95.0|-4.664|8.877||||||% overall work impairment due to health||8.877|-4.664|
92352537|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|1.71|||||TWO_SIDED|95.0|-5.164|8.58||||||% overall work impairment due to health||8.580|-5.164|
92352538|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|||||TWO_SIDED|95.0|-7.307|6.51||||||% overall work impairment due to health||6.510|-7.307|
92352539|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|2.38|||||TWO_SIDED|95.0|-1.118|5.873||||||% activity impairment due to health||5.873|-1.118|
92352540|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|0.08|||||TWO_SIDED|95.0|-3.411|3.573||||||% activity impairment due to health||3.573|-3.411|
92352541|NCT02187055|184610274|SUPERIORITY_OR_OTHER||LS mean difference|-2.3|||||TWO_SIDED|95.0|-5.818|1.225||||||% activity impairment due to health||1.225|-5.818|
92352542|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|-0.02|||||TWO_SIDED|95.0|-0.057|0.011||||||Utility score||0.011|-0.057|
92352543|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|-0.02|||||TWO_SIDED|95.0|-0.054|0.013||||||Utility score||0.013|-0.054|
92352544|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.031|0.036||||||Utility score||0.036|-0.031|
92352545|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|-0.03|||||TWO_SIDED|95.0|-0.098|0.042||||||Mobility score||0.042|-0.098|
92352546|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|-0.01|||||TWO_SIDED|95.0|-0.079|0.06||||||Mobility score||0.060|-0.079|
92161107|NCT00991276|184210610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.98|STANDARD_ERROR_OF_MEAN|2.25||0.3792|TWO_SIDED|95.0|-6.43|2.47||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Snoring: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||2.47|-6.43|0.3792
92352547|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.02|||||TWO_SIDED|95.0|-0.051|0.089||||||Mobility score||0.089|-0.051|
92352548|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.06|||||TWO_SIDED|95.0|-0.014|0.127||||||Self-care score||0.127|-0.014|
92352549|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.04|||||TWO_SIDED|95.0|-0.027|0.114||||||Self-care score||0.114|-0.027|
92352550|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|-0.01|||||TWO_SIDED|95.0|-0.083|0.058||||||Self-care score||0.058|-0.083|
92352551|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.01|||||TWO_SIDED|95.0|-0.062|0.084||||||Usual activities score||0.084|-0.062|
92352552|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.06|||||TWO_SIDED|95.0|-0.018|0.129||||||Usual activities score||0.129|-0.018|
92352553|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.04|||||TWO_SIDED|95.0|-0.029|0.118||||||Usual activities score||0.118|-0.029|
92352554|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.03|||||TWO_SIDED|95.0|-0.041|0.091||||||Pain/discomfort score||0.091|-0.041|
92400662|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.742||||0.2794||95.0|-0.602|2.086|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.086|-0.602|0.2794
92400663|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.738||||0.2923||95.0|-0.635|2.111|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.111|-0.635|0.2923
92400664|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73||||0.3152||95.0|-0.695|2.156|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.156|-0.695|0.3152
92400665|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.726||||0.3276||95.0|-0.728|2.181|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.181|-0.728|0.3276
92352555|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.05|||||TWO_SIDED|95.0|-0.015|0.116||||||Pain/discomfort score||0.116|-0.015|
92352556|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.03|||||TWO_SIDED|95.0|-0.041|0.091||||||Pain/discomfort score||0.091|-0.041|
92400666|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.719||||0.3497||95.0|-0.788|2.227|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.227|-0.788|0.3497
92352557|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.03|||||TWO_SIDED|95.0|-0.046|0.103||||||Anxiety/depression score||0.103|-0.046|
92352558|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|0.01|||||TWO_SIDED|95.0|-0.066|0.083||||||Anxiety/depression score||0.083|-0.066|
92352559|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|-0.02|||||TWO_SIDED|95.0|-0.094|0.055||||||Anxiety/depression score||0.055|-0.094|
92352560|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|-0.14|||||TWO_SIDED|95.0|-2.934|2.648||||||VAS score||2.648|-2.934|
92352561|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|1.23|||||TWO_SIDED|95.0|-1.556|4.016||||||VAS score||4.016|-1.556|
92352562|NCT02187055|184610275|SUPERIORITY_OR_OTHER||LS mean difference|1.37|||||TWO_SIDED|95.0|-1.425|4.171||||||VAS score||4.171|-1.425|
92352563|NCT02187055|184610276|SUPERIORITY_OR_OTHER||LS mean difference|-0.45|||||TWO_SIDED|95.0|-1.706|0.808||||||||0.808|-1.706|
92352564|NCT02187055|184610276|SUPERIORITY_OR_OTHER||LS mean difference|1.07|||||TWO_SIDED|95.0|-0.178|2.325||||||||2.325|-0.178|
92352565|NCT02187055|184610276|SUPERIORITY_OR_OTHER||LS mean difference|1.52|||||TWO_SIDED|95.0|0.266|2.779||||||||2.779|0.266|
92352566|NCT01407367|184610334|OTHER||Hazard Ratio (HR)|0.38||||0.04|TWO_SIDED|95.0|0.16|0.94||calculated p-value. Results adjusted for gender, race, age, BMI, MAP, eGFR, smoking history, diabetes, hypertension, cardiovascular disease, cancer, education employment status, health literacy and RAAS use.|Regression, Cox|||||0.94|0.16|.04
92352567|NCT01407367|184610335|OTHER||Hazard Ratio (HR)|1.03||||0.86|TWO_SIDED|95.0|0.53|1.99||calculated p-value. Results adjusted for gender, race, age, BMI, MAP, eGFR, smoking history, diabetes, hypertension, cardiovascular disease, cancer, education employment status, health literacy and RAAS use.|Regression, Cox|||||1.99|0.53|0.86
92352568|NCT01793129|184610336|SUPERIORITY|This trial estimated the probability that the intervention has no effect on the outcome (or conversely, the probability that id does), given the data obtained in the trial and any prior evidence.|Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.74|2.0|||||The relative risk estimate was calculated by dividing risk under hypothermia by risk under normothermia.|Whole-body Hypothermia vs. Normothermia (Normothermia is the comparison group)|To get estimates of RR from the Bayesian logistic regression model, predicted probabilities of the outcome were generated for all infants assuming the infants were treated with and without hypothermia and with/without severe encephalopathy. Next subject level RR values were estimated for all infants and 2.5, 50, and 97.5 percentiles were calculated.|2.00|0.74|
92276063|NCT01965652|184454592|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.071|<|0.0001|TWO_SIDED|95.0|-0.62|-0.34|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.34|-0.62|<0.0001
92161108|NCT00991276|184210611|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.27|STANDARD_ERROR_OF_MEAN|1.66||0.0019|TWO_SIDED|95.0|1.98|8.55||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||8.55|1.98|0.0019
92161109|NCT00991276|184210611|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.25|STANDARD_ERROR_OF_MEAN|1.65||0.0506|TWO_SIDED|95.0|-0.01|6.51||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||6.51|-0.01|0.0506
92276064|NCT01965652|184454592|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.072|<|0.0001|TWO_SIDED|95.0|-0.52|-0.23|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.23|-0.52|<0.0001
92276065|NCT01965652|184454593|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001|TWO_SIDED|95.0|-0.49|-0.3|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.30|-0.49|<0.0001
92276066|NCT01965652|184454593|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|-0.46|-0.26|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.26|-0.46|<0.0001
92276067|NCT01965652|184454593|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.054|<|0.0001|TWO_SIDED|95.0|-0.43|-0.22|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.22|-0.43|<0.0001
92276068|NCT01965652|184454593|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|-0.5|-0.29|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.29|-0.50|<0.0001
92276069|NCT01965652|184454593|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|-0.42|-0.2|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.20|-0.42|<0.0001
92276070|NCT01965652|184454594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|-0.5|-0.28|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.28|-0.50|<0.0001
92276071|NCT01965652|184454594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001|TWO_SIDED|95.0|-0.44|-0.2|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Anaysis||-0.20|-0.44|<0.0001
92276072|NCT01965652|184454594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001|TWO_SIDED|95.0|-0.4|-0.15|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.15|-0.40|<0.0001
92276073|NCT01965652|184454594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001|TWO_SIDED|95.0|-0.48|-0.21|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.21|-0.48|<0.0001
92276074|NCT01965652|184454594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001|TWO_SIDED|95.0|-0.41|-0.15|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.15|-0.41|<0.0001
92276075|NCT01965652|184454595|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|-0.34|-0.14|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.14|-0.34|<0.0001
92352569|NCT01243424|184610422|NON_INFERIORITY|This was the first step in a pre-defined hierarchical testing approach. The upper bound of the confidence interval (CI) of the Hazard ratio (HR) of linagliptin vs. glimepiride was compared with this noninferiority margin for the testing of non-inferiority. All non-inferiority tests were based on a margin of 1.3.|Hazard Ratio (HR)|0.98|||<|0.0001|TWO_SIDED|95.47|0.84|1.14||P-values derived from Wald´s Chi-square test for non-inferiority were calculated.|Regression, Cox|Cox proportional-hazard model with factor treatment was applied to compare linagliptin with glimepiride||||1.14|0.84|<0.0001
92352570|NCT01243424|184610422|SUPERIORITY|This was the second step in a pre-defined hierarchical testing approach.|Hazard Ratio (HR)|0.98||||0.3813|TWO_SIDED|95.47|0.84|1.14||P-values derived from Wald´s Chi-square test.|Regression, Cox|Cox proportional-hazard model with factor treatment was applied to compare linagliptin with glimepiride.||||1.14|0.84|0.3813
92352571|NCT01243424|184610423|SUPERIORITY|This was the third step in a pre-defined hierarchical testing approach.|Hazard Ratio (HR)|0.99||||0.4334|TWO_SIDED|95.47|0.86|1.14||P-values derived from Wald´s Chi-square test for non-inferiority.|Regression, Cox|Cox proportional-hazard model with factor treatment was applied to compare linagliptin with glimepiride.||||1.14|0.86|0.4334
92400667|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.715||||0.3616||95.0|-0.822|2.252|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.252|-0.822|0.3616
92400668|NCT00083889|184692423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.708||||0.3827||95.0|-0.882|2.298|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.298|-0.882|0.3827
92276076|NCT01965652|184454595|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|-0.35|-0.14|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.14|-0.35|<0.0001
92352572|NCT01243424|184610424|OTHER||Odds Ratio (OR)|1.68|||<|0.0001|TWO_SIDED|95.47|1.43|1.96||p-value derived from logistic regression.|Regression, Logistic||Odds ratio and confidence interval are based on logistic regression with factor for treatment.|||1.96|1.43|<0.0001
92352573|NCT01243424|184610425|OTHER||Odds Ratio (OR)|1.29||||0.0004|TWO_SIDED|95.47|1.11|1.48||p-value derived from logistic regression.|Regression, Logistic||Odds ratio and confidence interval are based on logistic regression with factor for treatment.|This was the fifth step in a pre-defined hierarchical testing approach.||1.48|1.11|0.0004
92352574|NCT01243424|184610429|OTHER||Hazard Ratio (HR)|0.96||||0.5249|TWO_SIDED|95.0|0.85|1.09||p-value derived from Wald´s chi-square test.|Regression, Cox||Hazard ratio and confidence interval derived from Cox regression with factor treatment.|This was the fifth step in a pre-defined hierarchical testing approach.||1.09|0.85|0.5249
92352575|NCT01243424|184610430|OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.0023|TWO_SIDED|95.0|-0.15|-0.03|||ANCOVA|The Analysis of Covariance (ANCOVA) model includes the fixed categorical effect of treatment and the continuous covariate of baseline HbA1c.|Mean difference = Linagliptin mean - Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||-0.03|-0.15|0.0023
92352576|NCT01243424|184610431|OTHER||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-9.7|-4.8|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline FPG.|Mean difference = Linagliptin mean - Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||-4.8|-9.7|<0.0001
92352577|NCT01243424|184610432|OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.9||0.64|TWO_SIDED|95.47|-1.3|2.1|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline LDL cholesterol.|Mean difference = Linagliptin mean - Glimepiride mean|LDL cholesterol, this was the fifth step in a pre-defined hierarchical testing approach.||2.1|-1.3|0.6400
92352578|NCT01243424|184610432|OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0497|TWO_SIDED|95.0|0.0|1.0|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline HDL cholesterol.|Mean difference = Linagliptin mean - Glimepiride mean|HDL cholesterol, this was the fifth step in a pre-defined hierarchical testing approach.||1.0|0.0|0.0497
92352579|NCT01243424|184610432|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.0||0.6823|TWO_SIDED|95.0|-2.4|1.6|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline total cholesterol.|Mean difference = Linagliptin mean - Glimepiride mean|Total cholesterol, this was the fifth step in a pre-defined hierarchical testing approach.||1.6|-2.4|0.6823
92352580|NCT01243424|184610433|OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|3.1||0.2678|TWO_SIDED|95.0|-9.6|2.7|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline FPG.|Mean difference = Linagliptin mean - Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||2.7|-9.6|0.2678
92352581|NCT01243424|184610434|OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.5165|TWO_SIDED|95.0|-0.03|0.01|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline creatinine.|Mean difference = Linagliptin mean - Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||0.01|-0.03|0.5165
92352582|NCT01243424|184610435|OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.4||0.5165|TWO_SIDED|95.0|0.2|1.8|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline eGFR.|Mean difference = Linagliptin mean - Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||1.8|0.2|0.5165
92352583|NCT01243424|184610436|OTHER||geometric mean (gMean) ratio (%)|0.97||||0.2921|TWO_SIDED|95.0|0.91|1.03|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline UACR.|gMean ration= Linagliptin mean/ Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||1.03|0.91|0.2921
92352584|NCT01243424|184610438|EQUIVALENCE|This was the fifth step in a pre-defined hierarchical testing approach.|Mean Difference (Net)|4.13||||0.8402|TWO_SIDED|95.0|-36.46|44.71|||ANCOVA|The ANCOVA model includes the fixed categorical effects of treatment and the continuous covariate of baseline ISR.|Mean difference= Linagliptin mean- Glimepiride mean|||44.71|-36.46|0.8402
92352585|NCT01243424|184610439|OTHER||Odds Ratio (OR)|1.01||||0.9112|TWO_SIDED|95.0|0.86|1.18|||Regression, Logistic|Logistic regression model with terms for treatment as a fixed effect with Wald confidence Interval was used.|Linagliptin vs. Glimepiride odds is presented.|This was the fifth step in a pre-defined hierarchical testing approach.||1.18|0.86|0.9112
92400669|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.897|||<|0.0001|TWO_SIDED|95.0|1.261|2.533|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Functional Assessment of Cancer Therapy-General (FACT-G) Functional Well Being (FWB) subscale baseline score (intercept and time since randomization are included as random effects).||2.533|1.261|<.0001
92352586|NCT00710554|184610444|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-0.34||||0.139|TWO_SIDED|95.0|-0.79|0.11|||ANCOVA|||The model used for the analysis of the end of study value was an analysis of covariance (ANCOVA) with baseline value as a covariate and treatment group and centre group as main effect. Due to the low power of the test for interaction, the test was performed at the 10% significance level as a possible indicator of an interactive effect. The null hypothesis was one of no difference between treatments.||0.11|-0.79|0.139
92352587|NCT00710554|184610445|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.86||||0.198|TWO_SIDED|95.0|-7.22|1.5|||ANCOVA|||The change from baseline in mean Neuropathic Pain Scale score was compared between treatment groups and centres using ANCOVA. The model was to include treatment and centre group as factors and baseline mean usage as a covariate.||1.50|-7.22|0.198
92352588|NCT00710554|184610446|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.83||||0.007|TWO_SIDED|95.0|-1.43|-0.23|||ANCOVA|||The change from baseline score was compared between treatment groups and centres using ANCOVA. The model was to include treatment and centre group as factors and baseline mean usage as a covariate.||-0.23|-1.43|0.007
92352589|NCT00710554|184610447|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.08||||0.795|TWO_SIDED|95.0|-0.52|0.68|||ANCOVA|||The change in the dynamic allodynia pain score from baseline to the end of treatment was analysed using ANCOVA with the baseline value as a covariate and country and treatment group as factors.||0.68|-0.52|0.795
92352590|NCT00710554|184610448|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.14||||0.233|TWO_SIDED|95.0|-0.37|0.09|||ANCOVA|||The change in the punctate allodynia pain threshold force from baseline to the end of treatment was analysed using ANCOVA with the baseline value as a covariate and country and treatment group as factors.||0.09|-0.37|0.233
92352591|NCT00710554|184610449|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.762||||0.023|TWO_SIDED|95.0|1.08|2.88|||Regression, Logistic|||The two treatment groups were compared using ordinal logistic regression and the proportional odds model. The initial model incorporated treatment and centre group as factors. The odds ratio together with its 95% CI and associated p-value are presented.||2.88|1.08|0.023
92352592|NCT00710554|184610450|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.25||||0.288|TWO_SIDED|95.0|-0.72|0.21|||ANCOVA|||The change from baseline in mean Brief Pain Inventory (short form) score was compared between treatment groups and centres using ANCOVA. The model was to include treatment and centre group as factors and baseline mean usage as a covariate.||0.21|-0.72|0.288
92352593|NCT00710554|184610451|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.01||||0.617|TWO_SIDED|95.0|-0.06|0.04|||ANCOVA|||The change from baseline in mean EuroQol-5D score was compared between treatment groups and centres using ANCOVA. The model included treatment and centre groups as factors and baseline mean usage as a covariate.||0.04|-0.06|0.617
92352594|NCT00710554|184610452|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|2.459||0.76|TWO_SIDED|95.0|-5.6|4.09|||ANCOVA|||The change from baseline in mean EuroQol-5D score was compared between treatment groups and centres using ANCOVA. The model included treatment and centre groups as factors and baseline mean usage as a covariate.||4.09|-5.60|0.76
92352595|NCT00710554|184610453|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.38||||0.112|TWO_SIDED|95.0|-0.85|0.09|||ANCOVA|||The model used for the analysis of the end of study value was an ANCOVA with baseline value as a covariate and treatment group and centre group as main effect. The null hypothesis was one of no difference between treatments.||0.09|-0.85|0.112
92352596|NCT00292370|184610477|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92352597|NCT01301001|184610486|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.07|TWO_SIDED|95.0|-0.7|0.0|||Mixed Models Analysis|||||0.0|-0.7|0.07
92352598|NCT01301001|184610487|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.76|TWO_SIDED|95.0|-0.9|0.6|||Mixed Models Analysis|||||0.6|-0.9|0.76
92352599|NCT01301001|184610488|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.36|TWO_SIDED|95.0|-0.5|0.2|||Mixed Models Analysis|||||0.2|-0.5|0.36
92161110|NCT00991276|184210611|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.01|STANDARD_ERROR_OF_MEAN|1.64||0.2222|TWO_SIDED|95.0|-1.24|5.26||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||5.26|-1.24|0.2222
92352600|NCT03992482|184610515|OTHER|||||||1|||||||Kruskal-Wallis|||||||1.000
92352601|NCT03992482|184610516|OTHER|||||||0.0044|||||||Mixed Models Analysis|||||||0.0044
92352602|NCT03992482|184610517|OTHER|||||||0.0002|||||||Mixed Models Analysis|||||||0.0002
92352603|NCT02421510|184610518|SUPERIORITY||Least squares mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.058|<|0.001|TWO_SIDED|95.0|-0.48|-0.25||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline A1C-by-time interaction as a covariate.||-0.25|-0.48|< 0.001
92352604|NCT02421510|184610518|SUPERIORITY||Least squares mean difference|-0.35|||<|0.001|TWO_SIDED|95.0|-0.47|-0.24||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from Mixed effect Model Repeat Measurement (MMRM) model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline A1C- by-time interaction as a covariate.||-0.24|-0.47|< 0.001
92369477|NCT00281099|184643805|SUPERIORITY_OR_OTHER||||||>|0.1||95.0||||The a priori threshold for statistical significance for Arm was 0.05, with no correction for multiple comparisons.|Mixed Models Analysis|Models were fit with time and arm as covariates.||A linear mixed model was fit for each of the following: TR Velocity, Mitral Inflow-peak E and Mitral Inflow-peak A; the purpose was to test whether patients with MVP and no pacing indication over time had a different average value for that measure than patients with VVI and no pacing indication. Two-sided tests were used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||> 0.10
92352605|NCT02421510|184610519|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Percentage difference|16.3|||<|0.001|TWO_SIDED|95.0|9.17|23.43||Threshold for significance \<= 0.05|Cochran-Mantel-Haenszel||Sotagliflozin 200 mg versus Placebo|P-values were obtained from a Cochran-Mantel-Haenszel (CMH) test stratified by the different levels of the randomization stratification factors of insulin delivery method (MDI, CSII) and Week -2 A1C (\<=8.5%, \>8.5%). The 95% Confidence Limits (CL) were calculated using asymptotic Wald method. Only positively adjudicated severe hypoglycemia and diabetic ketoacidosis were included in the analysis.||23.43|9.17|< 0.001
92352606|NCT02421510|184610519|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Percentage difference|17.2|||<|0.001|TWO_SIDED|95.0|10.06|24.35||Threshold for significance \<= 0.05|Cochran-Mantel-Haenszel||Sotagliflozin 400 mg versus Placebo|P-values were obtained from a CMH test stratified by the different levels of the randomization stratification factors of insulin delivery method (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%). The 95% CL were calculated using asymptotic Wald method.||24.35|10.06|< 0.001
92352607|NCT02421510|184610520|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-1.98|STANDARD_ERROR_OF_MEAN|0.276|<|0.001|TWO_SIDED|95.0|-2.53|-1.44||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects.||-1.44|-2.53|< 0.001
92352608|NCT02421510|184610520|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-2.58|STANDARD_ERROR_OF_MEAN|0.276|<|0.001|TWO_SIDED|95.0|-3.12|-2.04|||MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects.||-2.04|-3.12|< 0.001
92352609|NCT02421510|184610521|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-3.2|STANDARD_ERROR_OF_MEAN|0.847|<|0.001|TWO_SIDED|95.0|-4.86|-1.53||Threshold for significance \<=0.05|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline mean daily bolus insulin dose-by-time interaction as a covariate.||-1.53|-4.86|< 0.001
92352610|NCT02421510|184610521|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-3.59|STANDARD_ERROR_OF_MEAN|0.845|<|0.001|TWO_SIDED|95.0|-5.25|-1.93||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline mean daily bolus insulin dose-by-time interaction as a covariate.||-1.93|-5.25|< 0.001
92352611|NCT02421510|184610522|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-21.6|STANDARD_ERROR_OF_MEAN|5.38|<|0.001|TWO_SIDED|95.0|-32.2|-11.0||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline Fasting Plasma Glucose-by-time interaction as a covariate.||-11|-32.2|< 0.001
92369478|NCT00281099|184643806|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||The a priori threshold for significance for Arm was 0.05, with no adjustment for multiple analyses.|Mixed Models Analysis|Model fit with time and arm as covariates.||A linear mixed model was fit for Mitral Inflow - Deceleration time; the purpose was to test whether patients with MVP and no pacing indication over time had a different average value for that measure than patients with VVI and no pacing indication. A two-sided test was used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||0.9490
92161111|NCT01268891|184210612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.35||0.3257|TWO_SIDED|90.0|-0.93|0.23||The threshold for statistical significance in showing a trend for this study is 0.10.|ANCOVA|||The power for this study, which is designed to show a trend, that is, to show a clinical difference in the primary outcome measure, is 72%.||0.23|-0.93|0.3257
92161112|NCT01268891|184210613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0946|TWO_SIDED|95.0|-0.65|0.05|||ANCOVA|||||0.05|-0.65|0.0946
92161113|NCT01268891|184210614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.57||0.2258|TWO_SIDED|95.0|-1.84|0.44|||ANCOVA|||||0.44|-1.84|0.2258
92161114|NCT01268891|184210615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|0.98||0.17|TWO_SIDED|95.0|-3.29|0.59|||ANCOVA|||||0.59|-3.29|0.1700
92220295|NCT01197521|184340758|SUPERIORITY_OR_OTHER||||||<|0.001||||||Nominal p-value presented for treatment comparison. ACRn was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|Van Elteren|The treatment differences, 95% CIs and p-values are estimated using the Van Elteren test stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||<0.001
92220296|NCT01197521|184340758|SUPERIORITY_OR_OTHER|||||||0.002||||||Nominal p-value presented for treatment comparison. ACRn was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|Van Elteren|The treatment differences, 95% CIs and p-values are estimated using the Van Elteren test stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||0.002
92220297|NCT01197521|184340759|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.0|||<|0.001|TWO_SIDED|95.0|2.44|14.64||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||14.64|2.44|<0.001
92276077|NCT01965652|184454595|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001|TWO_SIDED|95.0|-0.36|-0.14|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.14|-0.36|<0.0001
92276078|NCT01965652|184454595|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|95.0|-0.43|-0.19|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.19|-0.43|<0.0001
92276079|NCT01965652|184454595|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.061||0.0006|TWO_SIDED|95.0|-0.33|-0.09|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.09|-0.33|0.0006
92276080|NCT01965652|184454596|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.054|<|0.0001|TWO_SIDED|95.0|-0.5|-0.29|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.29|-0.50|<0.0001
92400670|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.924|||<|0.0001||95.0|1.309|2.539|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.539|1.309|<.0001
92276081|NCT01965652|184454596|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.48|-0.24|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.24|-0.48|<0.0001
92276082|NCT01965652|184454596|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|-0.45|-0.21|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.21|-0.45|<0.0001
92276083|NCT01965652|184454596|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001|TWO_SIDED|95.0|-0.54|-0.3|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.30|-0.54|<0.0001
92276084|NCT01965652|184454596|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.064|<|0.0001|TWO_SIDED|95.0|-0.44|-0.19|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.19|-0.44|<0.0001
92276085|NCT01965652|184454597|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.81|-0.53|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.53|-0.81|<0.0001
92276086|NCT01965652|184454597|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|-0.73|-0.43|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.43|-0.73|<0.0001
92276087|NCT01965652|184454597|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.077|<|0.0001|TWO_SIDED|95.0|-0.66|-0.36|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.36|-0.66|<0.0001
92276088|NCT01965652|184454597|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.69|-0.38|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.38|-0.69|<0.0001
92276089|NCT01965652|184454597|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.083|<|0.0001|TWO_SIDED|95.0|-0.64|-0.32|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.32|-0.64|<0.0001
92352612|NCT02421510|184610522|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-25.7|STANDARD_ERROR_OF_MEAN|5.37|<|0.001|TWO_SIDED|95.0|-36.2|-15.1||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline Fasting Plasma Glucose-by-time interaction as a covariate.||-15.1|-36.2|< 0.001
92352613|NCT02421510|184610523|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|2.0|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|1.3|2.7||Threshold for significance \<= 0.05.|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline DTSQs total score-by-time interaction as a covariate.||2.7|1.3|< 0.001
92352614|NCT02421510|184610523|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|1.7|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|1.0|2.4||Threshold for significance \<= 0.05.|MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline DTSQs total score-by-time interaction as a covariate.||2.4|1|< 0.001
92352615|NCT02421510|184610524|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.025|TWO_SIDED|95.0|-0.6|0.0||Threshold for significance \<= 0.05.|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline DDS2 total score-by-time interaction as a covariate.||0|-0.6|0.025
92352616|NCT02421510|184610524|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.003|TWO_SIDED|95.0|-0.7|-0.2||Threshold for significance \<= 0.05.|MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<=8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline DDS2 total score-by-time interaction as a covariate.||-0.2|-0.7|0.003
92400671|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.939|||<|0.0001||95.0|1.331|2.546|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.546|1.331|<.0001
92400672|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.965|||<|0.0001||95.0|1.363|2.568|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.568|1.363|<.0001
92400673|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.98|||<|0.0001||95.0|1.376|2.584|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.584|1.376|<.0001
92352617|NCT03203512|184610526|SUPERIORITY||||||<|0.001||||||Treatment effect: p\<0.001; period effect : p=0.552; treatment x period interaction: p=0.622|ANOVA|||Null hypothesis is that there was no difference in change of total EV numbers detected by NTA between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total EV numbers.||||<0.001
92400674|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.007|||<|0.0001||95.0|1.392|2.622|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.622|1.392|<.0001
92400675|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.022|||<|0.0001||95.0|1.396|2.647|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.647|1.396|<.0001
92400676|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.048|||<|0.0001||95.0|1.397|2.7|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.700|1.397|<.0001
92400677|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.063|||<|0.0001||95.0|1.394|2.732|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.732|1.394|<.0001
92161115|NCT00959920|184210656|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.8||||0.42|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis is that patients for whom indwelling foley catheterization was employed will have their time to delivery interval reduced by 30 minutes.||||.42
92161116|NCT02628093|184210663|OTHER|Because this was a pilot (exploratory) randomized study, no formal sample size calculation was required.||||||0.214||||||P value threshold \<0.05|Wilcoxon (Mann-Whitney)|||Because this was a pilot (exploratory) randomized study, no formal sample size calculation was required. Demographic, preoperative, and postoperative variables and the primary outcome were compared between groups (THUNDERBEAT and LigaSure) by the Wilcoxon rank-sum test for continuous variables and the chi-square test/Fisher's exact test for categorical variables, as appropriate. All p-values are two-sided with statistical significance evaluated at the 0.05 alpha level.||||0.214
92352618|NCT03203512|184610527|SUPERIORITY||||||=|0.001||||||Treatment: p=0.001; period: p=0.646; treatment x period interaction: p=0.267|ANOVA|||Null hypothesis is that there was no difference in change of total PS+EV numbers detected by FCM between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total PS+EV numbers.||||=0.001
92352619|NCT03203512|184610528|SUPERIORITY||||||=|0.002||||||Treatment: p=0.002; period: p=0.350; treatment x period interaction: p=0.572|ANOVA|||Null hypothesis is that there was no difference in change of PDEV numbers detected by FCM between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on PDEV numbers.||||=0.002
92352620|NCT03203512|184610528|SUPERIORITY|Null hypothesis is that there was no difference in change of EDEV numbers detected by FCM between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EDEV numbers.|||||<|0.001||||||Treatment: p\<0.001; period: p=0.362; treatment x period interaction: p=0.225|ANOVA|||||||<0.001
92352621|NCT03203512|184610529|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.010; treatment x period: p=0.608|ANOVA|||Null hypothesis is that there was no difference in change of EV thrombogenicity in affecting lag time for TF-dependent thrombin generation between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EV thrombogenicity.||||<0.001
92352622|NCT03203512|184610530|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.073; treatment x period: p=0.667|ANOVA|||Null hypothesis is that there was no difference in change of EV thrombogenicity in affecting TF-dependent thrombin peak concentration between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EV thrombogenicity.||||<0.001
92352623|NCT03203512|184610531|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.138; treatment x period: p=0.872|ANOVA|||Null hypothesis is that there was no difference in change of EV thrombogenicity in affecting the time to reach peak TF-dependent thrombin concentration between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EV thrombogenicity.||||<0.001
92352624|NCT03203512|184610532|SUPERIORITY||||||=|0.015||||||Treatment: p=0.015; period: p=0.059; treatment x period: p=0.220|ANOVA|||Null hypothesis is that there was no difference in change of EV thrombogenicity in affecting TF-dependent velocity index between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EV thrombogenicity.||||=0.015
92352625|NCT03203512|184610533|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.118; treatment x period: p=0.802|ANOVA|||Null hypothesis is that there was no difference in change of EV thrombogenicity in affecting TF-dependent endogenous thrombin potential (ETP) between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EV thrombogenicity.||||<0.001
92352626|NCT03203512|184610534|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of platelet function in affecting LogEC50 values in response to ADP between fish oil and placebo capsules. Comparisons of this parameter after each intervention were drawn using 2-way ANOVA with the Turkey multiple comparisons test.||||>0.05
92352627|NCT03203512|184610534|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of platelet function in affecting LogEC50 values in response to epinephrine between fish oil and placebo capsules. Comparisons of this parameter after each intervention were drawn using 2-way ANOVA with the Turkey multiple comparisons test.||||>0.05
92352628|NCT03203512|184610534|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of platelet function in affecting LogEC50 values in response to TRAP-6 between fish oil and placebo capsules. Comparisons of this parameter after each intervention were drawn using 2-way ANOVA with the Turkey multiple comparisons test.||||>0.05
92161117|NCT02628093|184210664|OTHER|||||||0.007||||||P value threshold \<0.05|Wilcoxon (Mann-Whitney)|||compared between groups by the Wilcoxon rank-sum test||||0.007
92352629|NCT03203512|184610534|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of platelet function in affecting LogEC50 values in response to U46619 between fish oil and placebo capsules. Comparisons of this parameter after each intervention were drawn using 2-way ANOVA with the Turkey multiple comparisons test.||||>0.05
92352630|NCT03203512|184610535|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of platelet function in affecting LogEC50 values in response to CRP-XL between fish oil and placebo capsules. Comparisons of this parameter after each intervention were drawn using 2-way ANOVA with the Turkey multiple comparisons test.||||>0.05
92161118|NCT02628093|184210668|OTHER|||||||1||||||P value threshold \<0.05|Fisher Exact|||||||1.0
92276090|NCT01965652|184454598|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92276091|NCT01033864|184454599|SUPERIORITY_OR_OTHER|||||||0.8055|||||||Wilcoxon (Mann-Whitney)|||||||0.8055
92276092|NCT01033864|184454600|SUPERIORITY_OR_OTHER|||||||0.2548|||||||Wilcoxon (Mann-Whitney)|||||||0.2548
92352631|NCT03203512|184610536|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of pro-thrombotic activity of PDEVs in affecting endpoint for ex vivo thrombus formation between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on the pro-thrombotic activity of PDEVs.||||>0.05
92352632|NCT03203512|184610536|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of pro-thrombotic activity of PDEVs in affectingamximum for ex vivo thrombus formation between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on the pro-thrombotic activity of PDEVs.||||>0.05
92352633|NCT03203512|184610537|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of pro-thrombotic activity of PDEVs in affecting area under curve for ex vivo thrombus formation between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on the pro-thrombotic activity of PDEVs.||||>0.05
92352634|NCT03203512|184610538|SUPERIORITY||||||<|0.001||||||Treatment: \<0.001; period: p=0.978; treatment x period interaction: p=0.140|ANOVA|||Null hypothesis is that there was no difference in change of EPA in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EPA in circulating EV total lipids.||||<0.001
92352635|NCT03203512|184610538|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.699; treatment x period interaction: p=0.114|ANOVA|||Null hypothesis is that there was no difference in change of DHA in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on DHA in circulating EV total lipids.||||<0.001
92352636|NCT03203512|184610538|SUPERIORITY||||||=|0.011||||||Treatment: p=0.011; period: p=0.381; treatment x period interaction: p=0.762|ANOVA|||Null hypothesis is that there was no difference in change of oleic acid in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on oleic acid in circulating EV total lipids.||||=0.011
92352637|NCT03203512|184610538|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.512; treatment x period interaction: p=0.812|ANOVA|||Null hypothesis is that there was no difference in change of AA in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on AA in circulating EV total lipids.||||<0.001
92352638|NCT03203512|184610538|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.160; treatment x period interaction: p=0.132|ANOVA|||Null hypothesis is that there was no difference in change of total n-3 PUFA in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total n-3 PUFA in circulating EV total lipids.||||<0.001
92352639|NCT03203512|184610538|SUPERIORITY||||||=|0.013||||||Treatment: p=0.013; period: p=0.500; treatment x period interaction: p=0.522|ANOVA|||Null hypothesis is that there was no difference in change of total MUFA in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total MUFA in circulating EV total lipids.||||=0.013
92352640|NCT03203512|184610539|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.169; treatment x period interaction: p=0.629|ANOVA|||Null hypothesis is that there was no difference in change of EPA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EPA in plasma total phospholipids.||||<0.001
92400678|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09|||<|0.0001||95.0|1.383|2.797|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.797|1.383|<.0001
92276093|NCT01033864|184454601|SUPERIORITY_OR_OTHER|||||||0.4417|||||||Wilcoxon (Mann-Whitney)|||||||0.4417
92276094|NCT01033864|184454602|SUPERIORITY_OR_OTHER|||||||0.0455|||||||Wilcoxon (Mann-Whitney)|||||||0.0455
92276095|NCT01033864|184454603|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.2300
92161119|NCT02175212|184210750|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.88||||0.01|TWO_SIDED|95.0|1.12|3.15|||Regression, Cox|||||3.15|1.12|0.01
92161120|NCT02175212|184210751|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.31||||0.01|TWO_SIDED|95.0|1.23|3.85|||Regression, Cox|||||3.85|1.23|0.01
92161121|NCT02175212|184210752|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.48||||0.009|TWO_SIDED|95.0|1.31|4.68|||Regression, Cox|||||4.68|1.31|0.009
92161122|NCT02131324|184210779|EQUIVALENCE|Two-sided hypothesis testing was conducted for all the tests. Resulting p-values less than 0.05 were considered statistically significant unless noted otherwise. No adjustments of p values were made for multiple comparisons.||||||0.086|||||||ANOVA|||Two-sided hypothesis testing was conducted for all the tests. Resulting p-values less than 0.05 were considered statistically significant unless noted otherwise. No adjustments of p values were made for multiple comparisons.||||0.086
92161123|NCT00812877|184210792|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.35||||0.046|TWO_SIDED|95.0|1.19|4.66||A clustered permutation test with 10,000 random permutations based on the log rank test statistic was used for the primary treatment comparison to account for censoring and to ensure proper test size given the number of practices.|Log Rank||A confirmatory analysis, adjusted for patient, dentist, and tooth characteristics, and follow-up time, was performed using marginal proportional hazards regression with robust standard error estimates accounting for clustering by practice.|||4.66|1.19|.046
92352641|NCT03203512|184610539|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.262; treatment x period interaction: p=0.150|ANOVA|||Null hypothesis is that there was no difference in change of DHA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on DHA in plasma total phospholipids.||||<0.001
92352642|NCT03203512|184610539|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.302; treatment x period interaction: p=0.385|ANOVA|||Null hypothesis is that there was no difference in change of DPA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on DPA in plasma total phospholipids.||||<0.001
92161124|NCT03102710|184210802|SUPERIORITY|Covariates included 1) age, 2) cream randomization, and 3) the difference in ERS for lidocaine before and after expectancy manipulation (which represented how well the expectancy was modulated) in Session 2.|Mean Difference (Final Values)|0.4||||0.03|TWO_SIDED|||||The threshold for significance was \<0.05.|ANCOVA||The mean difference between anodal vs. sham was 0.4, between cathodal vs. sham was 1.2, and between anodal vs. cathodal was -0.8.|To assess the modulation effects of tDCS on placebo, we first performed an analysis of covariance (ANCOVA) with placebo as the dependent variable and group (i.e., anodal, cathodal, and sham tDCS) as the fixed factor.||||0.03
92161125|NCT03102710|184210802|SUPERIORITY|Covariates included 1) age, 2) cream randomization, and 3) the difference in ERS for capsaicin before and after expectancy manipulation (which represented how well the expectancy was modulated) in Session 2. In addition, we added the STAI state and trait anxiety scores as covariates when assessing the modulation effects of tDCS on the nocebo effect, as previous studies have suggested that anxiety level could affect nocebo hyperalgesia.|Mean Difference (Final Values)|1.3||||0.04|TWO_SIDED|||||The threshold for significance was \<0.05.|ANCOVA||The mean difference between anodal vs. sham was 1.4, between cathodal vs. sham was 1.0, and between anodal vs. cathodal was -0.3.|To assess the modulation effects of tDCS on nocebo, we first performed an analysis of covariance (ANCOVA) with nocebo as the dependent variable and group (i.e., anodal, cathodal, and sham tDCS) as the fixed factor.||||0.04
92161126|NCT01368406|184210803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.055|TWO_SIDED|95.0|-0.65|1.13|||t-test, 2 sided|t test for independent samples||||1.13|-0.65|0.055
92161127|NCT01368406|184210803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.055|TWO_SIDED|95.0|0.13|0.83|||t-test, 2 sided|||||0.83|0.13|0.055
92161128|NCT04304534|184210814|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.052|||=|0.8439|TWO_SIDED|90.0|0.687|1.612|||Log Rank|||Comparison of the Asundexian 20 mg group and 50 mg group versus Placebo group||1.612|0.687|= 0.8439
92161129|NCT04304534|184210814|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.096|||=|0.7562|TWO_SIDED|90.0|0.674|1.781|||Log Rank|||Comparison of the Asundexian 20 mg group versus Placebo group||1.781|0.674|= 0.7562
92220298|NCT01197521|184340759|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4||||0.002|TWO_SIDED|95.0|1.76|11.02||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||11.02|1.76|0.002
92220299|NCT01197521|184340760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0|||<|0.001|TWO_SIDED|95.0|1.63|5.67||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||5.67|1.63|<0.001
92220300|NCT01197521|184340760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.083|TWO_SIDED|95.0|0.93|3.5||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.50|0.93|0.083
92220301|NCT01197521|184340761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43|||<|0.001|TWO_SIDED|95.0|1.79|3.3||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.30|1.79|<0.001
92276096|NCT01033864|184454604|SUPERIORITY_OR_OTHER|||||||0.0106|||||||Wilcoxon (Mann-Whitney)|||||||0.0106
92276097|NCT01033864|184454605|SUPERIORITY_OR_OTHER|||||||0.3401|||||||Wilcoxon (Mann-Whitney)|||||||0.3401
92276098|NCT01033864|184454606|SUPERIORITY_OR_OTHER|||||||0.0074|||||||Wilcoxon (Mann-Whitney)|||||||0.0074
92276099|NCT01033864|184454607|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Wilcoxon (Mann-Whitney)|||||||0.0002
92276100|NCT02524106|184454609|OTHER||percentage difference|61.0||||0.028|TWO_SIDED||||||Mixed Models Analysis|||||||0.028
92400679|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.105|||<|0.0001||95.0|1.374|2.836|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.836|1.374|<.0001
92400680|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.132|||<|0.0001||95.0|1.353|2.91|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.910|1.353|<.0001
92400681|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.146|||<|0.0001||95.0|1.339|2.954|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.954|1.339|<.0001
92400682|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.173|||<|0.0001||95.0|1.311|3.036|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.036|1.311|<.0001
92400683|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.188|||<|0.0001||95.0|1.294|3.082|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.082|1.294|<.0001
92161130|NCT04304534|184210814|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.008|||=|0.978|TWO_SIDED|90.0|0.614|1.656|||Log Rank|||Comparison of the Asundexian 50 mg group versus Placebo group||1.656|0.614|= 0.978
92352643|NCT03203512|184610539|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.793; treatment x period interaction: p=0.522|ANOVA|||Null hypothesis is that there was no difference in change of linoleic acid in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on linoleic acid in plasma total phospholipids.||||<0.001
92352644|NCT03203512|184610539|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.956; treatment x period interaction: p=0.238|ANOVA|||Null hypothesis is that there was no difference in change of dihomo-γ-linolenic acid (DGLA) in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on DGLA in plasma total phospholipids.||||<0.001
92352645|NCT03203512|184610539|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.457; treatment x period interaction: p=0.613|ANOVA|||Null hypothesis is that there was no difference in change of AA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on AA in plasma total phospholipids.||||<0.001
92352646|NCT03203512|184610539|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.134; treatment x period interaction: p=0.260|ANOVA|||Null hypothesis is that there was no difference in change of total n-3 PUFA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total n-3 PUFA in plasma total phospholipids.||||<0.001
92352647|NCT03203512|184610539|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.917; treatment x period interaction: p=0.603|ANOVA|||Null hypothesis is that there was no difference in change of total n-6 PUFA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total n-6 PUFA in plasma total phospholipids.||||<0.001
92400684|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.215|||<|0.0001||95.0|1.26|3.169|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.169|1.260|<.0001
92400685|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.23|||<|0.0001||95.0|1.241|3.219|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.219|1.241|<.0001
92400686|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.256|||<|0.0001||95.0|1.203|3.309|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.309|1.203|<.0001
92352648|NCT03203512|184610540|SUPERIORITY||||||=|0.016||||||Treatment: p=0.016; period: p=0.566; treatment x period interaction: p=0.659|ANOVA|||Null hypothesis is that there was no difference in change of plasma TAG between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on plasma TAG.||||=0.016
92352649|NCT03203512|184610540|SUPERIORITY||||||=|0.014||||||Treatment: p=0.014; period: p=0.842; treatment x period interaction: p=0.943|ANOVA|||Null hypothesis is that there was no difference in change of plasma LDL-C between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on plasma LDL-C.||||=0.014
92352650|NCT03203512|184610540|SUPERIORITY||||||=|0.077||||||Treatment: p=0.077; period: p=0.921; treatment x period interaction: p=0.793|ANOVA|||Null hypothesis is that there was no difference in change of plasma TC between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on plasma TC.||||=0.077
92352651|NCT03203512|184610540|SUPERIORITY||||||=|0.379||||||Treatment: p=0.379; period: p=0.938; treatment x period interaction: p=0.341|ANOVA|||Null hypothesis is that there was no difference in change of plasma HDL-C between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on plasma HDL-C.||||=0.379
92352652|NCT03203512|184610541|SUPERIORITY||||||=|0.285||||||Treatment: p=0.285; period: p=0.954; treatment x period interaction: p=0.528|ANOVA|||Null hypothesis is that there was no difference in change of plasma TC/HDL-C ratio between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on plasma TC/HDL-C ratio.||||=0.285
92352653|NCT03203512|184610542|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period effect: p=0.011; treatment x period interaction: p=0.033|ANOVA|||Null hypothesis is that there was no difference in change of SBP between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on SBP.||||<0.001
92352654|NCT03203512|184610542|SUPERIORITY||||||=|0.002||||||Treatment: p=0.002; period: p=0.952; treatment x period interaction: p=0.114|ANOVA|||Null hypothesis is that there was no difference in change of DBP between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on DBP.||||=0.002
92352655|NCT01623752|184610553|OTHER|||||||0.278|||||||Paired t-test|||P-value was calculated using Paired t-test for the change in normalized progression.||||0.278
92352656|NCT01623752|184610553|OTHER|||||||0.222|||||||Paired t-test|||P-value was calculated using Paired t-test for the change in normalized progression.||||0.222
92352657|NCT01623752|184610554|OTHER|||||||0.251|||||||Paired t-test|||P-value was calculated using Paired t-test for the change in normalized progression.||||0.251
92352658|NCT01623752|184610554|OTHER|||||||0.218|||||||Paired t-test|||P-value was calculated using Paired t-test for the change in normalized progression.||||0.218
92161131|NCT04304534|184210815|OTHER|HR was only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups.|Hazard Ratio (HR)|0.98|||=|0.9158|TWO_SIDED|90.0|0.713|1.347|||Log Rank|||Comparison of the Pooled Asundexian group versus Placebo group||1.347|0.713|= 0.9158
92352659|NCT01623752|184610557|OTHER|||||||0.675|||||||Regression, Linear|||||||0.675
92161132|NCT04304534|184210815|OTHER|HR was only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups.|Hazard Ratio (HR)|0.867|||=|0.5633|TWO_SIDED|90.0|0.577|1.302|||Log Rank|||Comparison of the Asundexian 10 mg group versus Placebo group||1.302|0.577|= 0.5633
92352660|NCT01623752|184610557|OTHER|||||||0.357|||||||Regression, Linear|||||||0.357
92352661|NCT01623752|184610558|OTHER|||||||0.106|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.106
92352662|NCT01623752|184610558|OTHER|||||||0.181|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.181
92352663|NCT01623752|184610559|OTHER|||||||0.015|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.015
92352664|NCT01623752|184610559|OTHER|||||||0.969|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.969
92352665|NCT01623752|184610560|OTHER|||||||0.489|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.489
92352666|NCT01623752|184610560|OTHER|||||||0.386|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.386
92352667|NCT01623752|184610561|OTHER|||||||0.364|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.364
92352668|NCT01623752|184610561|OTHER|||||||0.849|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.849
92352669|NCT00793611|184610605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.07|||||||t-test, 2 sided|19 degrees of freedom||ITT between group differences in change scores compared for behavioral therapy and hypnotherapy groups. Power analysis: This is a pilot study underpowered find between group differences based on our power analysis(a 20% difference between groups would require 88 women, assuming 80% power and α=0.05 based on Freeman's study cited later). The purpose of this pilot study is to evaluate the feasibility of the larger study and determine the appropriate control intervention and outcomes||||.07
92352670|NCT00793611|184610606|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||t-test, 2 sided|||intent to treat.||||.17
92352671|NCT00793611|184610607|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|||intent to treat||||.009
92352672|NCT04098302|184610635|SUPERIORITY|||||||0.012|||||||Mixed Models Analysis|||||||0.012
92161133|NCT04304534|184210815|OTHER|HR was only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups.|Hazard Ratio (HR)|0.875|||=|0.584|TWO_SIDED|90.0|0.587|1.306|||Log Rank|||Comparison of the Asundexian 20 mg group versus Placebo group||1.306|0.587|= 0.584
92161134|NCT04304534|184210815|OTHER|HR was only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups.|Hazard Ratio (HR)|1.202|||=|0.417|TWO_SIDED|90.0|0.828|1.747|||Log Rank|||Comparison of the Asundexian 50 mg group versus Placebo group||1.747|0.828|= 0.417
92161135|NCT04304534|184210816|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.275|||||TWO_SIDED|90.0|0.322|5.05||||||Comparison of the Asundexian 20 mg group and Asundexian 50 mg group versus Placebo group||5.050|0.322|
92352673|NCT04098302|184610636|SUPERIORITY|||||||0.019|||||||Mixed Models Analysis|||||||0.019
92352674|NCT04098302|184610637|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92352675|NCT04098302|184610638|SUPERIORITY|||||||0.29|||||||Mixed Models Analysis|||||||0.29
92352676|NCT05061706|184610639|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.77|<|0.0001|TWO_SIDED|95.0|-6.03|-3.02|||Mixed Effects Model for Repeated Measure|||||-3.02|-6.03|<0.0001
92352677|NCT05061706|184610640|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.72|-0.33|||Mixed Effects Model for Repeated Measure|||||-0.33|-0.72|<0.0001
92352678|NCT00191152|184610641|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Log Rank|||||||0.145
92352679|NCT00191152|184610642|SUPERIORITY_OR_OTHER|||||||0.361||95.0|||||Log Rank|||||||0.361
92352680|NCT00191152|184610643|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Log Rank|||||||0.145
92352681|NCT00191152|184610644|SUPERIORITY_OR_OTHER|||||||0.385||95.0|||||Log Rank|||||||0.385
92352682|NCT00191152|184610645|SUPERIORITY_OR_OTHER|||||||0.377||95.0|||||Log Rank|||||||0.377
92352683|NCT00191152|184610646|SUPERIORITY_OR_OTHER|||||||0.446||95.0|||||Log Rank|||||||0.446
92352684|NCT00191152|184610647|SUPERIORITY_OR_OTHER|||||||0.785||95.0|||||Log Rank|||||||0.785
92352685|NCT00191152|184610648|SUPERIORITY_OR_OTHER|||||||0.364||95.0|||||Fisher Exact|||||||0.364
92352686|NCT00191152|184610649|SUPERIORITY_OR_OTHER|||||||0.446||95.0|||||Fisher Exact|||||||0.446
92352687|NCT00191152|184610650|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||Mixed Models Analysis|||||||0.990
92352688|NCT00191152|184610651|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||Mixed Models Analysis|||||||0.117
92352689|NCT00191152|184610652|SUPERIORITY_OR_OTHER|||||||0.801||95.0|||||Mixed Models Analysis|||||||0.801
92276101|NCT02524106|184454610|OTHER||percentage difference|39.0||||0.096|TWO_SIDED||||||Mixed Models Analysis|||||||0.096
92352690|NCT00191152|184610653|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||Mixed Models Analysis|||||||0.190
92352691|NCT01543503|184610654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.851|||<|0.001|TWO_SIDED|95.0|-1.112|-0.589|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor: Analysis is based on an analysis of covariance (ANCOVA) model with change from baseline in DAS28-ESR at 24 weeks as dependent variable; therapy, site country, and treatment as fixed effects; DAS28-ESR at baseline as covariates.||-0.589|-1.112|<0.001
92352692|NCT01543503|184610655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.91|||<|0.001|TWO_SIDED|95.0|-1.204|-0.617|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor: Analysis is based on an ANCOVA model with change from baseline to 12 months in DAS28-ESR as dependent variable; therapy and treatment as fixed effects; DAS28-ESR at baseline as covariates.||-0.617|-1.204|<0.001
92352693|NCT01543503|184610656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.23|||<|0.001|TWO_SIDED|95.0|-15.513|-10.947|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for ESR at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in ESR as a dependent variable; therapy and treatment as fixed effects; ESR at baseline as the covariate.||-10.947|-15.513|<0.001
92161136|NCT04304534|184210816|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.991|||||TWO_SIDED|90.0|0.479|8.273||||||Comparison of the Asundexian 50 mg group versus Placebo group||8.273|0.479|
92276102|NCT01121900|184454611|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax is between 80% and 125%.|Mean ratio|39.8|||||TWO_SIDED|90.0|34.4|46.0|||||Test/reference (%)|||46.0|34.4|
92352694|NCT01543503|184610656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.648|||<|0.001|TWO_SIDED|95.0|-15.419|-9.876|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for ESR at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in ESR, as the dependent variable; therapy and treatment as fixed effects; ESR at baseline as the covariate.||-9.876|-15.419|<0.001
92352695|NCT01543503|184610657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.673|||<|0.001|TWO_SIDED|95.0|-10.271|-3.074|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for CRP at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in CRP as a dependent variable; therapy and treatment as fixed effects; CRP at baseline as the covariate.||-3.074|-10.271|<0.001
92352696|NCT01543503|184610657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.116||||0.659|TWO_SIDED|95.0|-6.074|3.842|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for CRP at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in CRP as the dependent variable; therapy and treatment as fixed effects; CRP at baseline as the covariate.||3.842|-6.074|0.659
92352697|NCT01543503|184610658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.576||||0.024|TWO_SIDED|95.0|-1.078|-0.075|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for SJC at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in SJC as the dependent variable; therapy and treatment as fixed effects; SJC at baseline as the covariate.||-0.075|-1.078|0.024
92352698|NCT01543503|184610658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.752||||0.002|TWO_SIDED|95.0|-1.238|-0.267|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for SJC at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in SJC, as the dependent variable; therapy and treatment as fixed effects; SJC, at baseline as the covariate.||-0.267|-1.238|0.002
92400687|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.271|||<|0.0001||95.0|1.182|3.361|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.361|1.182|<.0001
92161137|NCT04304534|184210817|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.125|||||TWO_SIDED|90.0|0.696|1.819||||||Comparison of the Asundexian 20 mg group and Asundexian 50 mg versus Placebo group||1.819|0.696|
92352699|NCT01543503|184610659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.62||||0.123|TWO_SIDED|95.0|-1.408|0.169|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for TJC at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in TJC as the dependent variable; therapy and treatment as fixed effects; TJC at baseline as the covariate.||0.169|-1.408|0.123
92352700|NCT01543503|184610659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.216||||0.004|TWO_SIDED|95.0|-2.039|-0.393|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for TJC at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in TJC as the dependent variable; therapy and treatment as fixed effects; TJC at baseline as the covariate.||-0.393|-2.039|0.004
92352701|NCT01543503|184610660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.475|||<|0.001|TWO_SIDED|95.0|-5.481|-1.469|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for CDAI score at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in CDAI the dependent variable; therapy and treatment as fixed effects; CDAI at baseline as the covariate.||-1.469|-5.481|<0.001
92352702|NCT01543503|184610660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.6|||<|0.001|TWO_SIDED|95.0|-6.708|-2.492|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for CDAI score at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in CDAI as the dependent variable; therapy and treatment as fixed effects; CDAI at baseline as the covariate.||-2.492|-6.708|<0.001
92352703|NCT01543503|184610660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.229||||0.014|TWO_SIDED|95.0|-5.806|-0.652|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for SDAI score at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in SDAI as the dependent variable; therapy and treatment as fixed effects; SDAI at baseline as the covariate.||-0.652|-5.806|0.014
92352704|NCT01543503|184610660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.245||||0.027|TWO_SIDED|95.0|-6.121|-0.37|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for SDAI score at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in SDAI as the dependent variable; therapy and treatment as fixed effects; SDAI at baseline as the covariate.||-0.370|-6.121|0.027
92352705|NCT01543503|184610661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.03|||<|0.001|TWO_SIDED|95.0|-12.655|-5.404|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for Physician Global Assessment score at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in Physician Global Assessment of Disease Activity as the dependent variable; therapy and treatment as fixed effects; Physician Global Assessment of Disease Activity at baseline as covariates.||-5.404|-12.655|<0.001
92352706|NCT01543503|184610661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.237|||<|0.001|TWO_SIDED|95.0|-14.13|-6.345|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for Physician Global Assessment score at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in Physician Global Assessment of Disease Activity as the dependent variable; therapy and treatment as fixed effects; Physician Global Assessment of Disease Activity at baseline as covariates.||-6.345|-14.130|<0.001
92352707|NCT01543503|184610665|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Log Rank|||||||<0.001
92352708|NCT01543503|184610669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.146||||0.02|TWO_SIDED|95.0|-0.269|-0.024|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in HAQ-DI as dependent variable; therapy and treatment as fixed effects; HAQ-DI at baseline as covariates.||-0.024|-0.269|0.020
92400688|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.298|||<|0.0001||95.0|1.142|3.454|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.454|1.142|<.0001
92400689|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.313||||0.0001||95.0|1.119|3.507|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.507|1.119|0.0001
92352709|NCT01543503|184610669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.164||||0.02|TWO_SIDED|95.0|-0.301|-0.026|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in HAQ-DI as dependent variable; therapy and treatment as fixed effects; HAQ-DI at baseline as covariates.||-0.026|-0.301|0.020
92400690|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.34||||0.0003||95.0|1.076|3.603|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.603|1.076|0.0003
92352710|NCT01543503|184610670|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.893||||0.032|TWO_SIDED|95.0|-7.457|-0.329|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in FACIT-F score as dependent variable; therapy and treatment as fixed effects; FACIT-F score at baseline as covariates.||-0.329|-7.457|0.032
92352711|NCT01543503|184610670|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.787||||0.168|TWO_SIDED|95.0|-6.763|1.189|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in FACIT-F score as dependent variable; therapy and treatment as fixed effects; FACIT-F score at baseline as covariates.||1.189|-6.763|0.168
92352712|NCT01543503|184610671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.661||||0.009|TWO_SIDED|95.0|-9.912|-1.411|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in participant's VAS score as dependent variable; therapy and treatment as fixed effects; participant's VAS score at baseline as covariates.||-1.411|-9.912|0.009
92352713|NCT01543503|184610671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.802|||<|0.001|TWO_SIDED|95.0|-14.245|-5.36|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in participant's VAS score as dependent variable; therapy and treatment as fixed effects; participant's VAS score at baseline as covariates.||-5.360|-14.245|<0.001
92352714|NCT01543503|184610673|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.108||||0.01|TWO_SIDED|95.0|-9.017|-1.2|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in Patient's Global Assessment of Disease as dependent variable; therapy and treatment as fixed effects; Patient's Global Assessment of Disease at baseline as covariates.||-1.200|-9.017|0.010
92352715|NCT01543503|184610673|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.767|||<|0.001|TWO_SIDED|95.0|-12.161|-3.372|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in Patient's Global Assessment of Disease as dependent variable; therapy and treatment as fixed effects; Patient's Global Assessment of Disease at baseline as covariates.||-3.372|-12.161|<0.001
92352716|NCT02864914|184610702|OTHER||Adjusted incidence rate ratio|0.77|||||TWO_SIDED|95.0|0.5|1.19|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||1.19|0.50|
92400691|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.354||||0.0004||95.0|1.052|3.657|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.657|1.052|0.0004
92400692|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.381||||0.0007||95.0|1.008|3.754|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.754|1.008|0.0007
92400693|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.396||||0.0009||95.0|0.983|3.809|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.809|0.983|0.0009
92161138|NCT04304534|184210817|OTHER||Cox Proportional Hazard|1.181|||||TWO_SIDED|90.0|0.686|2.031||||||Comparison of the Asundexian 20 mg group versus Placebo group||2.031|0.686|
92161139|NCT04304534|184210817|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.07|||||TWO_SIDED|90.0|0.613|1.866||||||Comparison of the Asundexian 50 mg group versus Placebo group||1.866|0.613|
92161140|NCT04304534|184210820|OTHER|For all-cause mortality there is no competing event.|Cox Proportional Hazard|1.266|||=|0.6016|TWO_SIDED|90.0|0.603|2.658|||Log Rank|||Comparison of the Asundexian 20 mg group and Asundexian 50 mg group versus Placebo group||2.658|0.603|= 0.6016
92352717|NCT02864914|184610702|OTHER||Adjusted incidence rate ratio|0.55|||||TWO_SIDED|95.0|0.23|1.32|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||1.32|0.23|
92352718|NCT02864914|184610702|OTHER||Adjusted incidence rate ratio|0.86|||||TWO_SIDED|95.0|0.52|1.41|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||1.41|0.52|
92352719|NCT02864914|184610703|OTHER||Adjusted incidence rate ratio|0.54|||||TWO_SIDED|95.0|0.41|0.73|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.73|0.41|
92352720|NCT02864914|184610703|OTHER||Adjusted incidence rate ratio|0.41|||||TWO_SIDED|95.0|0.3|0.55|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.55|0.30|
92352721|NCT02864914|184610703|OTHER||Adjusted incidence rate ratio|0.69|||||TWO_SIDED|95.0|0.45|1.05|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||1.05|0.45|
92352722|NCT02864914|184610703|OTHER||Adjusted incidence rate ratio|0.41|||||TWO_SIDED|95.0|0.2|0.86|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.86|0.20|
92352723|NCT02864914|184610703|OTHER||Adjusted incidence rate ratio|0.65|||||TWO_SIDED|95.0|0.56|0.76|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.76|0.56|
92352724|NCT02864914|184610704|OTHER||Adjusted incidence rate ratio|2.19|||||TWO_SIDED|95.0|1.74|2.76|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||2.76|1.74|
92352725|NCT02864914|184610704|OTHER||Adjusted incidence rate ratio|2.78|||||TWO_SIDED|95.0|1.77|4.36|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||4.36|1.77|
92352726|NCT02864914|184610704|OTHER||Adjusted incidence rate ratio|2.14|||||TWO_SIDED|95.0|1.11|4.12|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||4.12|1.11|
92352727|NCT02864914|184610704|OTHER||Adjusted incidence rate ratio|1.99|||||TWO_SIDED|95.0|1.48|2.66|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||2.66|1.48|
92352728|NCT02864914|184610705|OTHER||Adjusted incidence rate ratio|0.51|||||TWO_SIDED|95.0|0.37|0.72|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.72|0.37|
92352729|NCT02864914|184610706|OTHER||Adjusted incidence rate ratio|4.04|||||TWO_SIDED|95.0|3.46|4.71|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||4.71|3.46|
92352730|NCT02864914|184610707|OTHER||Adjusted incidence rate ratio|3.24|||||TWO_SIDED|95.0|2.81|3.74|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||3.74|2.81|
92352731|NCT02864914|184610708|OTHER||Adjusted incidence rate ratio|0.7|||||TWO_SIDED|95.0|0.56|0.88|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.88|0.56|
92352732|NCT02864914|184610708|OTHER||Adjusted incidence rate ratio|0.5|||||TWO_SIDED|95.0|0.29|0.85|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.85|0.29|
92352733|NCT02864914|184610708|OTHER||Adjusted incidence rate ratio|0.66|||||TWO_SIDED|95.0|0.34|1.29|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||1.29|0.34|
92352734|NCT02864914|184610708|OTHER||Adjusted incidence rate ratio|0.77|||||TWO_SIDED|95.0|0.61|0.97|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.97|0.61|
92352735|NCT02864914|184610709|OTHER||Adjusted incidence rate ratio|0.53|||||TWO_SIDED|95.0|0.43|0.65|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.65|0.43|
92352736|NCT02864914|184610710|OTHER||Adjusted incidence rate ratio|4.04|||||TWO_SIDED|95.0|3.44|4.75|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||4.75|3.44|
92352737|NCT02864914|184610711|OTHER||Adjusted incidence rate ratio|3.34|||||TWO_SIDED|95.0|2.83|3.95|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||3.95|2.83|
92352738|NCT03501277|184610730|EQUIVALENCE|Alogliptin: For each analyte, an analysis of variance (ANOVA) was performed on natural logarithm transformed Cmax with factors for sequence, the participant nested within sequence, period, and regimen. For the relative bioavailability (BA) determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90 percent (%) confidence interval (CI) for the ratio of Cmax for Regimen A (test) versus Regimen B (reference).|Least Square Mean (LSM) difference|1.0706||||0.014|TWO_SIDED|90.0|1.023|1.1204|||ANOVA|||||1.1204|1.0230|0.014
92352739|NCT03501277|184610730|EQUIVALENCE|Alogliptin: For each analyte, ANOVA was performed on natural logarithm transformed Cmax with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of Cmax for Regimen C (test) versus Regimen D (reference).|LSM difference|1.0276||||0.326|TWO_SIDED|90.0|0.9817|1.0757|||ANOVA|||||1.0757|0.9817|0.326
92352740|NCT03501277|184610730|EQUIVALENCE|Pioglitazone: For each analyte, ANOVA was performed on natural logarithm transformed Cmax with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of Cmax for Regimen A (test) versus Regimen B (reference).|LSM diiference|0.9594||||0.405|TWO_SIDED|90.0|0.8837|1.0415|||ANOVA|||||1.0415|0.8837|0.405
92400694|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.423||||0.0014||95.0|0.938|3.908|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.908|0.938|0.0014
92161141|NCT04304534|184210820|OTHER||Cox Proportional Hazard|0.996|||=|0.9945|TWO_SIDED|90.0|0.414|2.401|||Log Rank|||Comparison of the Asundexian 20 mg group versus Placebo group||2.401|0.414|= 0.9945
92161142|NCT04304534|184210820|OTHER||Cox Proportional Hazard|1.506|||=|0.4085|TWO_SIDED|90.0|0.667|3.405|||Log Rank|||Comparison of the Asundexian 50 mg group versus Placebo group||3.405|0.667|= 0.4085
92161143|NCT01664104|184210894|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value was calculated between baseline versus change at Month 3.|Wilcoxon test|||||||<0.0001
92161144|NCT01664104|184210894|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value was calculated between baseline versus change at Month 6.|Wilcoxon test|||||||<0.0001
92276103|NCT01121900|184454612|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-tlast) is between 80% and 125%.|Mean ratio|80.9|||||TWO_SIDED|90.0|74.2|88.3|||||Test/reference (%)|||88.3|74.2|
92276104|NCT01121900|184454613|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-∞) is between 80% and 125%.|Mean ratio|83.5|||||TWO_SIDED|90.0|76.5|91.1|||||Test/reference (%)|||91.1|76.5|
92276105|NCT00408876|184454624|SUPERIORITY_OR_OTHER|||||||0.503||95.0|||||Repeated Measures|||||||0.503
92276106|NCT00408876|184454624|SUPERIORITY_OR_OTHER|||||||0.447||95.0|||||Repeated Measures|||||||0.447
92276107|NCT00408876|184454624|SUPERIORITY_OR_OTHER|||||||0.084||95.0|||||Repeated Measures|||||||0.084
92276108|NCT00408876|184454624|SUPERIORITY_OR_OTHER|||||||0.964||95.0|||||Repeated Measures|||||||0.964
92276109|NCT00408876|184454624|SUPERIORITY_OR_OTHER|||||||0.451||95.0|||||Repeated Measures|||||||0.451
92276110|NCT00408876|184454624|SUPERIORITY_OR_OTHER|||||||0.333||95.0|||||Repeated Measures|||||||0.333
92276111|NCT00408876|184454625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21||||0.318||95.0|-0.62|0.2|||t-test, 2 sided|||||0.20|-0.62|0.318
92352741|NCT03501277|184610730|EQUIVALENCE|Pioglitazone: For each analyte, ANOVA was performed on natural logarithm transformed Cmax with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of Cmax for Regimen C (test) versus Regimen D (reference).|LSM difference|0.9257||||0.124|TWO_SIDED|90.0|0.8523|1.0053|||ANOVA|||||1.0053|0.8523|0.124
92352742|NCT03501277|184610731|EQUIVALENCE|Alogliptin: For each analyte, ANOVA was performed on natural logarithm transformed AUC(0-72) with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of Cmax for Regimen A (test) versus Regimen B (reference).|LSM difference|1.0157||||0.081|TWO_SIDED|90.0|1.0009|1.0308|||ANOVA|||||1.0308|1.0009|0.081
92400695|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.438||||0.0017||95.0|0.912|3.963|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.963|0.912|0.0017
92161145|NCT01664104|184210895|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value was calculated between baseline versus change at Month 3.|Wilcoxon test|||||||<0.0001
92161146|NCT01664104|184210895|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon test|P-value was calculated between baseline versus change at Month 6.||||||<0.0001
92276112|NCT00408876|184454625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49||||0.005||95.0|-0.83|-0.15|||t-test, 2 sided|||||-0.15|-0.83|0.005
92276113|NCT00408876|184454625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.124||95.0|-0.61|0.07|||t-test, 2 sided|||||0.07|-0.61|0.124
92276114|NCT00408876|184454625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.183||95.0|-0.7|0.13|||t-test, 2 sided|||||0.13|-0.70|0.183
92276115|NCT00408876|184454625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.778||95.0|-0.48|0.36|||t-test, 2 sided|||||0.36|-0.48|0.778
92161147|NCT01664104|184210896|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon test|P-value was calculated between baseline versus change at Month 3.||||||<0.0001
92161148|NCT01664104|184210896|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon test|P-value was calculated between baseline versus change at Month 6.||||||<0.0001
92161149|NCT01664104|184210916|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value was calculated between baseline versus change at Month 3.|Wilcoxon test|||||||<0.0001
92161150|NCT01664104|184210916|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value was calculated between baseline versus change at Month 6.|Wilcoxon test|||||||<0.0001
92161151|NCT01664104|184210917|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value was calculated between baseline versus change at Month 3.|Wilcoxon test|||||||<0.0001
92161152|NCT01664104|184210917|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value was calculated between baseline versus change at Month 6.|Wilcoxon test|||||||<0.0001
92276116|NCT00408876|184454625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22||||0.21||95.0|-0.13|0.57|||t-test, 2 sided|||||0.57|-0.13|0.210
92276117|NCT00408876|184454626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97||||0.161||95.0|-2.32|0.39|||t-test, 2 sided|||||0.39|-2.32|0.161
92276118|NCT00408876|184454626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.41||||0.019||95.0|-2.59|-0.24|||t-test, 2 sided|||||-0.24|-2.59|0.019
92276119|NCT00408876|184454626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.56||||0.01||95.0|-2.74|-0.38|||t-test, 2 sided|||||-0.38|-2.74|0.010
92276120|NCT00408876|184454626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45||||0.526||95.0|-1.83|0.94|||t-test, 2 sided|||||0.94|-1.83|0.526
92276121|NCT00408876|184454626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.397||95.0|-1.96|0.78|||t-test, 2 sided|||||0.78|-1.96|0.397
92276122|NCT00408876|184454626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.813||95.0|-1.35|1.06|||t-test, 2 sided|||||1.06|-1.35|0.813
92276123|NCT00408876|184454627|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.657||95.0|-0.5|0.79|||t-test, 2 sided|||||0.79|-0.50|0.657
92276124|NCT00408876|184454627|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.23||||0.384||95.0|-0.76|0.29|||t-test, 2 sided|||||0.29|-0.76|0.384
92276125|NCT00408876|184454627|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.04||95.0|-1.1|-0.03|||t-test, 2 sided|||||-0.03|-1.10|0.040
92276126|NCT00408876|184454627|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.38||||0.253||95.0|-1.03|0.27|||t-test, 2 sided|||||0.27|-1.03|0.253
92276127|NCT00408876|184454627|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.71||||0.034||95.0|-1.36|-0.05|||t-test, 2 sided|||||-0.05|-1.36|0.034
92161153|NCT01664104|184210918|SUPERIORITY_OR_OTHER|||||||0.6904|||||||t-test|P-value signifies CRP at the start of TCZ treatment by remission status using DAS28-CRP (remission versus no remission).||||||0.6904
92161154|NCT01664104|184210918|SUPERIORITY_OR_OTHER|||||||0.6032|||||||t-test|P-value signifies the CRP at the start of TCZ treatment by remission status using SDAI (remission versus no remission).||||||0.6032
92161155|NCT01664104|184210918|SUPERIORITY_OR_OTHER|||||||0.6146|||||||t-test|P-value signifies the CRP at the start of TCZ treatment by remission status using CDAI (remission versus no remission).||||||0.6146
92161156|NCT01664104|184210919|SUPERIORITY_OR_OTHER|||||||0.0018|||||||t-test|P-value signifies the BMI at the start of TCZ treatment by remission status using DAS28-CRP (remission versus no remission).||||||0.0018
92161157|NCT01664104|184210919|SUPERIORITY_OR_OTHER|||||||0.1617|||||||t-test|P-value signifies the BMI at the start of TCZ treatment by remission status using SDAI (remission versus no remission).||||||0.1617
92161158|NCT01664104|184210919|SUPERIORITY_OR_OTHER|||||||0.1296|||||||t-test|P-value signifies the BMI at the start of TCZ treatment by remission status using CDAI (remission versus no remission).||||||0.1296
92161159|NCT01664104|184210922|SUPERIORITY_OR_OTHER|||||||0.5332|||||||t-test|P-value signifies the CRP at the start of TCZ treatment using the morning stiffness ( ≤ 30 minutes versus \> 30 minutes).||||||0.5332
92161160|NCT01664104|184210923|SUPERIORITY_OR_OTHER|||||||0.6159|||||||t-test|P-value signifies the BMI at the start of TCZ treatment using the morning stiffness ( ≤ 30 minutes versus \> 30 minutes).||||||0.6159
92161161|NCT01664104|184210924|SUPERIORITY_OR_OTHER|||||||0.237|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient between CRP at the start of TCZ treatment versus HAQ-DI (0-3) at Month 6.||||||0.2370
92161162|NCT01664104|184210924|SUPERIORITY_OR_OTHER|||||||0.8033|||||||Spearman Correlation|P-value was calculated from Spearman correlation coefficient between CRP at the start of TCZ treatment versus HAQ-D1 (0-3) at Month 6.||||||0.8033
92161163|NCT01664104|184210925|SUPERIORITY_OR_OTHER|||||||0.0306|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient for change from baseline in CRP versus change from baseline in HAQ-DI (0-3) at Month 6.||||||0.0306
92161164|NCT01664104|184210925|SUPERIORITY_OR_OTHER|||||||0.0749|||||||Spearman Correlation|P-value was calculated from Spearman correlation coefficient for change from baseline in CRP versus change from baseline in HAQ-DI (0-3) at Month 6.||||||0.0749
92161165|NCT01664104|184210926|SUPERIORITY_OR_OTHER|||||||0.4854|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient between CRP at the start of TCZ treatment versus VAS fatigue at Month 6.||||||0.4854
92161166|NCT01664104|184210926|SUPERIORITY_OR_OTHER|||||||0.325|||||||S|P-value was calculated from Spearman correlation coefficient between CRP at the start of TCZ treatment versus VAS fatigue at Month 6.||||||0.3250
92161167|NCT01664104|184210927|SUPERIORITY_OR_OTHER|||||||0.0011|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient between change from baseline in CRP versus change from baseline in VAS fatigue at Month 6.||||||0.0011
92161168|NCT01664104|184210927|SUPERIORITY_OR_OTHER|||||||0.0013|||||||Spearman Correlation|P-value calculated from Spearman correlation coefficient between change from baseline in CRP versus change from baseline in VAS fatigue at Month 6.||||||0.0013
92161169|NCT01664104|184210928|SUPERIORITY_OR_OTHER|||||||0.5655|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient between BMI at the start of TCZ treatment versus HAQ-DI (0-3) at Month 6.||||||0.5655
92161170|NCT01664104|184210928|SUPERIORITY_OR_OTHER|||||||0.3977|||||||Spearman Correlation|P-value was calculated from Spearman correlation coefficient between BMI at the start of TCZ treatment versus HAQ-DI (0-3) at Month 6.||||||0.3977
92161171|NCT01664104|184210929|SUPERIORITY_OR_OTHER|||||||0.0123|||||||Pearson correlation|P-value obtained from Pearson correlation coefficient between change from baseline in CRP versus change from baseline in morning stiffness at Month 6.||||||0.0123
92161172|NCT01664104|184210929|SUPERIORITY_OR_OTHER|||||||0.0151|||||||Spearman Correlation|P-value obtained from Spearman correlation coefficient between change from baseline in CRP versus change from baseline in morning stiffness at Month 6||||||0.0151
92161173|NCT01664104|184210930|SUPERIORITY_OR_OTHER|||||||0.9909|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient between BMI at the start of TCZ treatment versus VAS fatigue at Month 6.||||||0.9909
92161174|NCT01664104|184210930|SUPERIORITY_OR_OTHER|||||||0.6482|||||||Spearman Correlation|P-value was calculated from Spearman correlation coefficient between BMI at the start of TCZ treatment versus VAS fatigue at Month 6.||||||0.6482
92161175|NCT04930822|184210931|SUPERIORITY||Predicted least squares mean difference|-5.107||||0.1779|TWO_SIDED|95.0|-12.6|2.385||Fisher's LSD utilized; no correction for multiple comparisons|ANOVA|||Alpha set at 0.05||2.385|-12.60|0.1779
92161176|NCT04930822|184210931|SUPERIORITY||Predicted least squares mean difference|-8.809||||0.0219|TWO_SIDED|95.0|-16.3|-1.317||Fisher's LSD utilized; no corrections for multiple comparisons|ANOVA|||Alpha set at 0.05||-1.317|-16.30|0.0219
92161177|NCT04930822|184210931|SUPERIORITY||Predicted least squares mean difference|-4.063||||0.0139|TWO_SIDED|95.0|-7.24|-0.8849||Fisher's LSD utilized; no corrections for multiple comparisons|ANOVA|||Alpha set at 0.05||-0.8849|-7.240|0.0139
92161178|NCT04930822|184210931|SUPERIORITY||Predicted least squares mean difference|-7.765|||<|0.0001|TWO_SIDED|95.0|-10.85|-4.682||Fisher's LSD utilized; no corrections for multiple comparisons|ANOVA|||Alpha set at 0.05||-4.682|-10.85|<0.0001
92161179|NCT04930822|184210932|SUPERIORITY||Predicted least squares mean difference|-7.883||||0.493|TWO_SIDED|95.0|-30.59|14.83||Fisher's LSD utilized; no correction for multiple comparisons|ANOVA|||Alpha set at 0.05||14.83|-30.59|0.4930
92161180|NCT04930822|184210932|SUPERIORITY||Predicted least squares mean difference|-13.97||||0.2255|TWO_SIDED|95.0|-36.68|8.744||Fisher's LSD utilized; no correction for multiple comparisons|ANOVA|||Alpha set at 0.05||8.744|-36.68|0.2255
92161181|NCT04930822|184210932|SUPERIORITY||Predicted least squares mean difference|-49.32|||<|0.0001|TWO_SIDED|95.0|-63.18|-35.46||Fisher's LSD utilized; no correction for multiple comparisons|ANOVA|||Alpha set at 0.05||-35.46|-63.18|<0.0001
92161182|NCT04930822|184210932|SUPERIORITY||Predicted least squares mean difference|-55.41|||<|0.0001|TWO_SIDED|95.0|-67.66|-43.16||Fisher's LSD utilized; no correction for multiple comparisons|ANOVA|||Alpha set at 0.05||-43.16|-67.66|<0.0001
92161183|NCT04930822|184210933|SUPERIORITY||Predicted least squares mean difference|-2.611||||0.49|TWO_SIDED|95.0|-10.13|4.909||Fisher's LSD utilized; no correction for multiple comparisons|ANOVA|||Alpha is set at 0.05||4.909|-10.13|0.49
92276128|NCT00408876|184454627|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.33||||0.232||95.0|-0.86|0.21|||t-test, 2 sided|||||0.21|-0.86|0.232
92352743|NCT03501277|184610731|EQUIVALENCE|Alogliptin: For each analyte, ANOVA was performed on natural logarithm transformed AUC(0-72) with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of AUC(0-72) for Regimen C (test) versus Regimen D (reference).|LSM difference|1.0009||||0.922|TWO_SIDED|90.0|0.9862|1.0158|||ANOVA|||||1.0158|0.9862|0.922
92352744|NCT03501277|184610731|EQUIVALENCE|Pioglitazone: For each analyte, ANOVA was performed on natural logarithm transformed AUC(0-72) with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of AUC(0-72) for Regimen A (test) versus Regimen B (reference).|LSM difference|1.0486||||0.066|TWO_SIDED|90.0|1.0051|1.0939|||ANOVA|||||1.0939|1.0051|0.066
92161184|NCT04930822|184210933|SUPERIORITY||Predicted least squares mean difference|-4.634||||0.2246|TWO_SIDED|95.0|-12.15|2.886||Fisher's LSD utlilized; no correction for multiple comparisons|ANOVA|||Alpha set at 0.05||2.886|-12.15|0.2246
92161185|NCT04930822|184210933|SUPERIORITY||Predicted least squares mean difference|-16.32|||<|0.0001|TWO_SIDED|95.0|-20.91|-11.74||Fisher's LSD; no correction for multiple comparisons|ANOVA|||Alpha set at 0.05||-11.74|-20.91|<0.0001
92161186|NCT04930822|184210933|SUPERIORITY||Predicted least squares mean difference|-18.35|||<|0.0001|TWO_SIDED|95.0|-22.4|-14.29||Fisher's LSD utilized; no correction for multiple comparisons|ANOVA|||Alpha set at 0.05||-14.29|-22.40|<0.0001
92276129|NCT00408876|184454628|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33||||0.365||95.0|-0.39|1.05|||t-test, 2 sided|||||1.05|-0.39|0.365
92352745|NCT03501277|184610731|EQUIVALENCE|Pioglitazone: For each analyte, ANOVA was performed on natural logarithm transformed AUC(0-72) with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of AUC(0-72) for Regimen C (test) versus Regimen D (reference).|LSM difference|1.0267||||0.308|TWO_SIDED|90.0|0.9839|1.0714|||ANOVA|||||1.0714|0.9839|0.308
92352746|NCT00098293|184610773|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was greater than (\>) -10%.|Difference in Percentage|-3.0|||||ONE_SIDED|97.5|-9.5|||||||Less than 400 copies/mL: Treatment difference in percentages stratified by randomization strata (screening viral load and geographic region) was presented along with the lower bound of the 1-sided 97.5% confidence interval (CI) based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-9.5|
92352747|NCT00098293|184610773|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was \> -10%.|Difference in Percentage|-4.2|||||ONE_SIDED|97.5|-10.9|||||||Less than 50 copies/mL: Treatment difference in percentages stratified by randomization strata (screening viral load and geographic region) was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-10.9|
92352748|NCT00098293|184610774|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was \> -10%.|Difference in Percentage|-4.1|||||ONE_SIDED|97.5|-10.5|||||||Less than 400 copies/mL: Treatment difference in percentage stratified by randomization strata (screening viral load and geographic region) was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-10.5|
92352749|NCT00098293|184610774|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was \> -10%.|Difference in Percentage|-4.4|||||ONE_SIDED|97.5|-11.2|||||||Less than 50 copies/mL: Treatment difference in percentage stratified by randomization strata (screening viral load and geographic region) was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-11.2|
92352750|NCT00098293|184610775|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.4485|TWO_SIDED|95.0|0.64|1.22|||Regression, Logistic|||Less than 400 copies/mL: Two-sided 95% CI was presented for the odds ratio between treatment groups. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), geographic region (Northern or Southern Hemisphere) as covariates was used. Odds ratio \> 1 would favor maraviroc.||1.22|0.64|0.4485
92352751|NCT00098293|184610775|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.2724|TWO_SIDED|95.0|0.61|1.15|||Regression, Logistic|||Less than 50 copies/mL: Two-sided 95% CI was presented for the odds ratio between treatment groups. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), geographic region (Northern or Southern Hemisphere) as covariates were used. Odds ratio \> 1 would favor maraviroc.||1.15|0.61|0.2724
92161187|NCT03410992|184211008|SUPERIORITY||Odds Ratio (OR)|496.318|||<|0.001|TWO_SIDED|95.0|82.798|2975.086||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||2975.086|82.798|<0.001
92161188|NCT03410992|184211009|SUPERIORITY||Odds Ratio (OR)|657.255|||<|0.001|TWO_SIDED|95.0|105.792|4083.333||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||4083.333|105.792|<0.001
92161189|NCT03410992|184211010|SUPERIORITY||Odds Ratio (OR)|220.038|||<|0.001|TWO_SIDED|95.0|28.757|1683.639||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||1683.639|28.757|<0.001
92276130|NCT00408876|184454628|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.232||95.0|-0.95|0.23|||t-test, 2 sided|||||0.23|-0.95|0.232
92352752|NCT00098293|184610776|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.3943|TWO_SIDED|95.0|0.65|1.19|||Regression, Logistic|||Less than 400 copies/mL: Two-sided 95% CI was presented for the odds ratio between treatment groups. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), geographic region (Northern or Southern Hemisphere) as covariates were used. Odds ratio \> 1 would favor maraviroc.||1.19|0.65|0.3943
92352753|NCT00098293|184610776|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.1289|TWO_SIDED|95.0|0.59|1.07|||Regression, Logistic|||Less than 50 copies/mL: Two-sided 95% CI was presented for the odds ratio between treatment groups. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), geographic region (Northern or Southern Hemisphere) as covariates were used. Odds ratio \> 1 would favor maraviroc.||1.07|0.59|0.1289
92352754|NCT00098293|184610777|SUPERIORITY_OR_OTHER||LS Mean Difference|0.118|STANDARD_ERROR_OF_MEAN|0.1077||0.2741|TWO_SIDED|95.0|-0.094|0.329|||ANCOVA|||Change at week 48: P-value was calculated using Analysis of Covariance (ANCOVA) with the model including treatment arm and, as covariates, the randomization strata (screening viral load and geographic region). The difference between the treatment least squares means (LS means) adjusted for the covariates was presented in addition to 2-sided 95% CI. Negative value would favor maraviroc.||0.329|-0.094|0.2741
92352755|NCT00098293|184610777|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1162||0.3899|TWO_SIDED|95.0|-0.128|0.328|||ANCOVA|||Change at week 96: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Negative value would favor maraviroc.||0.328|-0.128|0.3899
92352756|NCT00098293|184610778|SUPERIORITY_OR_OTHER||LS Mean Difference|0.111|STANDARD_ERROR_OF_MEAN|0.1002||0.2693|TWO_SIDED|95.0|-0.086|0.307|||ANCOVA|||Week 48: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Negative value would favor maraviroc.||0.307|-0.086|0.2693
92352757|NCT00098293|184610778|SUPERIORITY_OR_OTHER||LS Mean Difference|0.089|STANDARD_ERROR_OF_MEAN|0.1121||0.427|TWO_SIDED|95.0|-0.131|0.309|||ANCOVA|||Week 96: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Negative value would favor maraviroc.||0.309|-0.131|0.4270
92276131|NCT00408876|184454628|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.314||95.0|-0.9|0.29|||t-test, 2 sided|||||0.29|-0.90|0.314
92352758|NCT00098293|184610779|SUPERIORITY_OR_OTHER||LS Mean Difference|26.34|STANDARD_ERROR_OF_MEAN|9.827||0.0075|TWO_SIDED|95.0|7.04|45.63|||ANCOVA|||Change at Week 48: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, baseline CD4 count and the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Positive value would favor maraviroc.||45.63|7.04|0.0075
92352759|NCT00098293|184610779|SUPERIORITY_OR_OTHER||LS Mean Difference|35.44|STANDARD_ERROR_OF_MEAN|11.419||0.002|TWO_SIDED|95.0|13.02|57.86|||ANCOVA|||Change at Week 96: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, baseline CD4 count and the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Positive value would favor maraviroc.||57.86|13.02|0.0020
92400696|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.464||||0.0025||95.0|0.866|4.063|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.063|0.866|0.0025
92400697|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.479||||0.003||95.0|0.84|4.119|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.119|0.840|0.0030
92276132|NCT00408876|184454628|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.69||||0.062||95.0|-1.41|0.03|||t-test, 2 sided|||||0.03|-1.41|0.062
92352760|NCT00098293|184610780|SUPERIORITY_OR_OTHER||LS Mean Difference|166.29|STANDARD_ERROR_OF_MEAN|25.04|<|0.0001|TWO_SIDED|95.0|117.13|215.46|||ANCOVA|||Change at Week 48: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, baseline CD8 count and the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Positive value would favor maraviroc.||215.46|117.13|<0.0001
92352761|NCT00098293|184610780|SUPERIORITY_OR_OTHER||LS Mean Difference|172.22|STANDARD_ERROR_OF_MEAN|25.471|<|0.0001|TWO_SIDED|95.0|122.21|222.23|||ANCOVA|||Change at Week 96: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, baseline CD8 count and the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Positive value would favor maraviroc.||222.23|122.21|<0.0001
92352762|NCT00098293|184610781|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.5874|TWO_SIDED|95.0|0.83|1.45|||Log Rank|||Week 48: P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio was calculated by fitting a Cox proportional hazards model including treatment group and the two randomization strata, HIV-1 RNA at screening and geographic region. Hazard ratio \< 1 would favor maraviroc.||1.45|0.83|0.5874
92276133|NCT00408876|184454628|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64||||0.083||95.0|-1.36|0.08|||t-test, 2 sided|||||0.08|-1.36|0.083
92276134|NCT00408876|184454628|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.859||95.0|-0.54|0.65|||t-test, 2 sided|||||0.65|-0.54|0.859
92161190|NCT03410992|184211011|SUPERIORITY||Odds Ratio (OR)|224.744|||<|0.001|TWO_SIDED|95.0|30.13|1676.425||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||1676.425|30.130|<0.001
92161191|NCT03410992|184211012|SUPERIORITY||Odds Ratio (OR)|316.641|||<|0.001|TWO_SIDED|95.0|39.423|2543.254||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||2543.254|39.423|<0.001
92220302|NCT01197521|184340761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.004|TWO_SIDED|95.0|1.16|2.14||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.14|1.16|0.004
92352763|NCT00098293|184610781|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.4811|TWO_SIDED|95.0|0.86|1.4|||Log Rank|||Week 96: P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio was calculated by fitting a Cox proportional hazards model including treatment group and the two randomization strata, HIV-1 RNA at screening and geographic region. Hazard ratio \< 1 would favor maraviroc.||1.40|0.86|0.4811
92220303|NCT01197521|184340762|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.68|3.26||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.26|1.68|<0.001
92220304|NCT01197521|184340762|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9|||<|0.001|TWO_SIDED|95.0|1.38|2.68||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.68|1.38|<0.001
92220305|NCT01197521|184340763|SUPERIORITY_OR_OTHER||Treatment difference|2.24|||<|0.001||95.0|1.16|3.31||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.31|1.16|<0.001
92220306|NCT01197521|184340763|SUPERIORITY_OR_OTHER||Treatment difference|1.27||||0.02||95.0|0.2|2.35||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.35|0.20|0.020
92220307|NCT01197521|184340764|SUPERIORITY_OR_OTHER||Treatment difference|1.8||||0.005||95.0|0.54|3.07||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.07|0.54|0.005
92220308|NCT01197521|184340764|SUPERIORITY_OR_OTHER||Treatment difference|1.56||||0.017||95.0|0.28|2.83||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.83|0.28|0.017
92220309|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.48|||||TWO_SIDED|95.0|1.22|1.81|||||The analysis of covariance (ANCOVA) model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 1||1.81|1.22|
92161192|NCT03410992|184211013|SUPERIORITY||Odds Ratio (OR)|34.325|||<|0.001|TWO_SIDED|95.0|14.22|82.856||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||82.856|14.220|<0.001
92220310|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.31|||||TWO_SIDED|95.0|1.12|1.54|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 3||1.54|1.12|
92220311|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.34|||||TWO_SIDED|95.0|1.13|1.58|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 4||1.58|1.13|
92276135|NCT00408876|184454629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.984||95.0|-0.34|0.34|||t-test, 2 sided|||||0.34|-0.34|0.984
92352764|NCT00098293|184610788|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was greater than (\>) -10%.|Difference in Percentage|-3.2|||||ONE_SIDED|97.5|-10.2|||||||Less than 400 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-10.2|
92352765|NCT00098293|184610788|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was \> -10%.|Difference in Percentage|-5.8|||||ONE_SIDED|97.5|-12.8|||||||Less than 50 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-12.8|
92352766|NCT00098293|184610789|SUPERIORITY_OR_OTHER||Difference in Percentage|0.6|||||ONE_SIDED|97.5|-6.4|||||||Less than 400 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Due to its post-hoc nature, this analysis was considered descriptive only rather than inferential.|||-6.4|
92352767|NCT00098293|184610789|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.2|||||ONE_SIDED|97.5|-7.4|||||||Less than 50 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Due to its post-hoc nature, this analysis was considered descriptive only rather than inferential.|||-7.4|
92352768|NCT00098293|184610790|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.4|||||ONE_SIDED|97.5|-7.9|||||||Less than 400 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Due to its post-hoc nature, this analysis was considered descriptive only rather than inferential.|||-7.9|
92352769|NCT00098293|184610790|SUPERIORITY_OR_OTHER||Difference in Percentage|-3.9|||||ONE_SIDED|97.5|-11.5|||||||Less than 50 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Due to its post-hoc nature, this analysis was considered descriptive only rather than inferential.|||-11.5|
92352770|NCT03193307|184610814|OTHER||Geometric Mean (T1/R1) ratio (%)|153.2|||||TWO_SIDED|90.0|134.34|174.7|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) =21.4."|||174.70|134.34|
92352771|NCT03193307|184610815|OTHER||Geometric Mean (T1/R1) ratio (%)|115.91|||||TWO_SIDED|90.0|104.559|128.502|||||"Analysis of variance (ANOVA) including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) = 16.7."|||128.502|104.559|
92352772|NCT03193307|184610816|OTHER||Geometric Mean (T2/R2) ratio (%)|104.82|||||TWO_SIDED|90.0|102.092|107.613|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) =4.3."|||107.613|102.092|
92352773|NCT03193307|184610817|OTHER||Geometric Mean (T2/R2) ratio (%)|102.77|||||TWO_SIDED|90.0|100.66|104.92|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) = 3.3."|||104.92|100.66|
92352774|NCT03193307|184610818|OTHER||Geometric Mean (T2/R2) ratio (%)|114.12|||||TWO_SIDED|90.0|109.266|119.183|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\])=7.0."|||119.183|109.266|
92352775|NCT03193307|184610819|OTHER||Geometric Mean (T2/R2) ratio (%)|110.7|||||TWO_SIDED|90.0|105.8|115.83|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) = 7.3."|||115.83|105.80|
92352776|NCT03193307|184610820|OTHER||Geometric Mean (T1/R1) ratio (%)|154.15|||||TWO_SIDED|90.0|133.81|177.58|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) = 22.4."|||177.58|133.81|
92352777|NCT01666314|184610823|SUPERIORITY_OR_OTHER|||||||0.1078|TWO_SIDED||||||Fisher Exact|||||||0.1078
92276136|NCT00408876|184454629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41||||0.004||95.0|-0.7|-0.13|||t-test, 2 sided|||||-0.13|-0.70|0.004
92276137|NCT00408876|184454629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53|||<|0.001||95.0|-0.81|-0.24|||t-test, 2 sided|||||-0.24|-0.81|<0.001
92352778|NCT01666314|184610824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.145||||0.0355|TWO_SIDED|95.0|0.9895|18.7606|||Fisher Exact||Odds ratio \>1 favors orteronel.|||18.7606|0.9895|0.0355
92352779|NCT04739709|184610845|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92220312|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.36|||||TWO_SIDED|95.0|1.08|1.71|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 5||1.71|1.08|
92220313|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.37|||||TWO_SIDED|95.0|1.12|1.69|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 6A||1.69|1.12|
92352780|NCT04739709|184610846|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352781|NCT04739709|184610848|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352782|NCT04739709|184610849|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352783|NCT04739709|184610850|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352784|NCT04739709|184610851|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352785|NCT04739709|184610852|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352786|NCT04739709|184610853|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352787|NCT04739709|184610854|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352788|NCT04739709|184610855|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352789|NCT04739709|184610856|SUPERIORITY||Mean Difference (Net)|-1.6|||<|0.001|TWO_SIDED|95.0|-1.8|-1.3|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-1.3|-1.8|<0.001
92352790|NCT04739709|184610857|SUPERIORITY||Mean Difference (Net)|-0.7|||<|0.001|TWO_SIDED|95.0|-0.9|-0.6|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.6|-0.9|<0.001
92352791|NCT04739709|184610858|SUPERIORITY||Mean Difference (Net)|-0.7|||<|0.001|TWO_SIDED|95.0|-0.8|-0.5|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.5|-0.8|<0.001
92352792|NCT04739709|184610859|SUPERIORITY||Mean Difference (Net)|-0.03||||0.017|TWO_SIDED|95.0|-0.06|-0.01|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.01|-0.06|0.017
92352793|NCT04739709|184610860|SUPERIORITY||Mean Difference (Net)|-0.07|||<|0.001|TWO_SIDED|95.0|-0.1|-0.04|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.04|-0.10|<0.001
92276138|NCT00408876|184454629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42||||0.018||95.0|-0.76|-0.07|||t-test, 2 sided|||||-0.07|-0.76|0.018
92352794|NCT04739709|184610861|SUPERIORITY||Mean Difference (Net)|-0.09|||<|0.001|TWO_SIDED|95.0|-0.11|-0.06|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.06|-0.11|<0.001
92352795|NCT04739709|184610862|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92352796|NCT01452347|184610865|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|74.22|STANDARD_ERROR_OF_MEAN|1.05||||95.0|68.08|80.91|||ANOVA|The Ctrough,ss (predicted or observed) was log transformed (natural logarithm) prior to fitting the ANOVA model.|"The standard error of the mean is actually the geometric standard error.~(Observed vs Predicted)"|"Null hypothesis: The difference of the population average responses was either ≤ to the lower bound or ≥ to the upper bound of the acceptance range .~Alternative hypothesis: The difference of the population average responses was both \> than the lower bound and \< than the upper bound of the acceptance range \[Note: The acceptance range for the geometric mean is 80-125%\]"||80.91|68.08|
92352797|NCT01452347|184610866|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|84.46|STANDARD_ERROR_OF_MEAN|1.11||||95.0|70.32|101.44|||ANOVA|The Ctrough,ss (predicted or observed) was log transformed (natural logarithm) prior to fitting the ANOVA model.|"The standard error of the mean is actually the geometric standard error.~(Observed vs Predicted)"|"Null hypothesis: The difference of the population average responses was either ≤ to the lower bound or ≥ to the upper bound of the acceptance range .~Alternative hypothesis: The difference of the population average responses was both \> than the lower bound and \< than the upper bound of the acceptance range \[Note: The acceptance range for the geometric mean is 80-125%\]"||101.44|70.32|
92352798|NCT01452347|184610867|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|95.5|STANDARD_ERROR_OF_MEAN|1.05||||95.0|88.69|102.84|||ANOVA|The Ctrough,ss (predicted or observed) was log transformed (natural logarithm) prior to fitting the ANOVA model.|"The standard error of the mean is actually the geometric standard error.~(Observed vs Predicted)"|"Null hypothesis: The difference of the population average responses was either ≤ to the lower bound or ≥ to the upper bound of the acceptance range .~Alternative hypothesis: The difference of the population average responses was both \> than the lower bound and \< than the upper bound of the acceptance range \[Note: The acceptance range for the geometric mean is 80-125%\]"||102.84|88.69|
92352799|NCT01452347|184610868|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|103.25|STANDARD_ERROR_OF_MEAN|1.11||||95.0|86.4|123.4|||ANOVA|The Ctrough,ss (predicted or observed) was log transformed (natural logarithm) prior to fitting the ANOVA model.|"The standard error of the mean is actually the geometric standard error.~(Observed vs Predicted)"|"Null hypothesis: The difference of the population average responses was either ≤ to the lower bound or ≥ to the upper bound of the acceptance range .~Alternative hypothesis: The difference of the population average responses was both \> than the lower bound and \< than the upper bound of the acceptance range \[Note: The acceptance range for the geometric mean is 80-125%\]"||123.40|86.40|
92352800|NCT01452347|184610869|SUPERIORITY_OR_OTHER||||||<|0.001||||||Probability that P remains \< 10% are presented, where P=Percentage of patients with observed Ctrough,ss value \< 50 ng/mL|Beta Function|Probability calculated using Beta function \~B(1 + r, 1 + n - r),r=no. of patients(observed Ctrough,ss value \< 50 ng/mL), n=no. of patients evaluated||||||<0.001
92352801|NCT01452347|184610870|SUPERIORITY_OR_OTHER|||||||0.05||||||Probability that P remains \< 10% are presented, where P=Percentage of patients with observed Ctrough,ss value \< 50 ng/mL|Beta Function|Probability calculated using Beta function \~B(1 + r, 1 + n - r),r=no. of patients(observed Ctrough,ss value \< 50 ng/mL), n=no. of patients evaluated||||||0.05
92352802|NCT01452347|184610871|SUPERIORITY_OR_OTHER|||||||0.46||||||Probability that P remains \< 10% are presented, where P=Percentage of patients with observed Ctrough,ss value \< 50 ng/mL|Beta Function|Probability calculated using Beta function \~B(1 + r, 1 + n - r),r=no. of patients(observed Ctrough,ss value \< 50 ng/mL), n=no. of patients evaluated||||||0.46
92352803|NCT01452347|184610872|SUPERIORITY_OR_OTHER|||||||0.65||||||Probability that P remains \< 10% are presented, where P=Percentage of patients with observed Ctrough,ss value \< 50 ng/mL|Beta Function|Probability calculated using Beta function \~B(1 + r, 1 + n - r),r=no. of patients(observed Ctrough,ss value \< 50 ng/mL), n=no. of patients evaluated||||||0.65
92352804|NCT05762744|184610873|OTHER|Unpaired two-tailed t-test to test null hypothesis||||||0.37||||||The t-test was conducted on the logarithms of the variable.|t-test, 2 sided|||Null hypothesis: the order of FSIGTs (saline or exenatide-stimulated) does not affect the response during an FSIGT||||0.37
92352805|NCT05762744|184610874|OTHER|Two-tailed unpaired t-test to test null hypothesis||||||0.66|||||||t-test, 2 sided|||Null hypothesis: The order of FSIGT (exenatide-stimulated or saline) does not affect the response to an FSIGT.||||0.66
92352806|NCT05762744|184610875|OTHER|Two-tailed unpaired t-test to test null hypothesis||||||0.55|||||||t-test, 2 sided|||Null hypothesis: the order of testing (exenatide-stimulated or saline FSIGT) does not affect data obtained in the FSIGTs.||||0.55
92352807|NCT05762744|184610876|OTHER|Unpaired, two-tailed t-test to test the null hypothesis||||||0.45|||||||t-test, 2 sided|||The order of FSIGTs (exenatide-stimulated or saline) does not affect the response during an FSIGT||||0.45
92352808|NCT05762744|184610877|OTHER|Two-tailed unpaired t-test to test null hypothesis||||||0.86||||||The t-test was conducted on the logarithms of the variable|t-test, 2 sided|||Null hypothesis: the order of FSIGT (exenatide or saline) does not affect the response during an FSIGT||||0.86
92352809|NCT05762744|184610878|OTHER|Two-tailed p-test for unpaired data||||||0.44||||||The t-test was conducted on the logarithms of the variable.|t-test, 2 sided|||Null hypothesis: The order of FSIGTs (exenatide-stimulated or saline) does not affect the response to an FSIGT||||0.44
92352810|NCT05762744|184610879|OTHER|||||||0.41|||||||t-test, 2 sided|||"Null hypothesis: no differences between the two groups with respect to exenatide's effect on first-phase insulin secretion.~t-test conducted on logarithms of the values"||||0.41
92352811|NCT05762744|184610879|OTHER|||||||0.38|||||||t-test, 2 sided|||Null hypothesis: no difference between two groups with respect to exenatide's effect on first phase insulin secretion||||0.38
92352812|NCT05762744|184610880|OTHER|||||||0.8|||||||t-test, 2 sided|||Null hypothesis: the two genotype groups do not differ with respect to the effect of exenatide on the rate of glucose disappearance||||0.80
92400698|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.506||||0.0042||95.0|0.792|4.219|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.219|0.792|0.0042
92352813|NCT05762744|184610880|OTHER|||||||0.98|||||||t-test, 2 sided|||Null hypothesis: the two genotype groups do not differ with respect to the effect of exenatide on the rate of glucose disappearance during an FSIGT||||0.98
92352814|NCT03403517|184610908|SUPERIORITY||Risk Ratio (RR)|0.859||||0.213|TWO_SIDED|95.0|0.682|1.082|||Fisher Exact|||||1.082|0.682|0.213
92400699|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.521||||0.0049||95.0|0.766|4.275|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.275|0.766|0.0049
92352815|NCT03403517|184610912|SUPERIORITY||Risk Ratio (RR)|0.977|||>|0.999|TWO_SIDED|95.0|0.557|1.715|||Fisher Exact|||||1.715|0.557|>0.999
92352816|NCT03403517|184610913|SUPERIORITY|||||||0.16|||||||Fisher Exact|||||||0.160
92352817|NCT01245751|184610945|NON_INFERIORITY_OR_EQUIVALENCE|Week 6 GMT value for Group 1 is statistically non-inferior to Group 2 for the prespecified clinically relevant 1.5-fold ratio if the lower bound of the 95% confidence interval for the GMT ratio is \>0.67|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.97|1.15||The alpha threshold for statistical significance is 0.025 (1-sided)|Longitudinal regression model|The analyzed GMT ratio, 95% confidence interval, and P-value were based on a longitudinal regression model adjusting for age and vaccination group||Week 6 analysis||1.15|0.97|<0.001
92352818|NCT01245751|184610946|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.54|||<|0.001|TWO_SIDED|95.0|1.44|1.66||The alpha threshold for statistical significance is 0.025 (1-sided)|Longitudinal regression model|The analyzed GMFR, 95% confidence interval, and P-value were based on a longitudinal regression model adjusting for age||A booster dose induces a statistically acceptable VZV antibody response if the lower bound of the 95% confidence interval is \>1.0.||1.66|1.44|<0.001
92352819|NCT02391584|184610959|SUPERIORITY||||||<|0.0001||||||p\<0.025 was considered significant.|t-test, 1 sided|||||||<0.0001
92352820|NCT02391584|184610963|SUPERIORITY||||||<|0.0001||||||Dunnett's t-test was used for the multiple comparisons with baseline. A p value \<0.05 was considered significant.|Mixed Models Analysis|||||||<0.0001
92352821|NCT02391584|184610964|SUPERIORITY||||||<|0.0001||||||Dunnett's t-test was used for the multiple comparisons with baseline. A p value \<0.05 was considered significant.|Mixed Models Analysis|||||||<0.0001
92400700|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.547||||0.0064||95.0|0.718|4.377|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.377|0.718|0.0064
92400701|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.562||||0.0073||95.0|0.691|4.433|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.433|0.691|0.0073
92400702|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.589||||0.0091||95.0|0.643|4.535|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.535|0.643|0.0091
92400703|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.604||||0.0103||95.0|0.616|4.592|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.592|0.616|0.0103
92400704|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.631||||0.0125||95.0|0.567|4.695|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.695|0.567|0.0125
92400705|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.645||||0.0138||95.0|0.539|4.752|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.752|0.539|0.0138
92400706|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.672||||0.0164||95.0|0.49|4.855|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.855|0.490|0.0164
92400707|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.687||||0.0179||95.0|0.462|4.912|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.912|0.462|0.0179
92352822|NCT02391584|184610965|SUPERIORITY||||||<|0.0001||||||Dunnett's t-test was used for the multiple comparisons with baseline. A p value \<0.05 was considered significant.|Mixed Models Analysis|||||||<0.0001
92400708|NCT00083889|184692424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.714||||0.0208||95.0|0.413|5.015|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||5.015|0.413|0.0208
92400709|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.049||||0.0004|TWO_SIDED|95.0|0.022|0.076|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EuroQoL Five Dimension (EQ-5D): Health state index baseline score (intercept and time since randomization are included as random effects).||0.076|0.022|0.0004
92400710|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048||||0.0003||95.0|0.022|0.075|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.075|0.022|0.0003
92400711|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048||||0.0003||95.0|0.022|0.074|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.074|0.022|0.0003
92400712|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047||||0.0003||95.0|0.021|0.072|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.072|0.021|0.0003
92352823|NCT02391584|184610966|SUPERIORITY||||||<|0.0001||||||Dunnett's t-test was used for the multiple comparisons with baseline. A p value \<0.05 was considered significant.|Mixed Models Analysis|||||||<0.0001
92352824|NCT03636269|184610967|SUPERIORITY||Odds Ratio (OR)|1.61||||0.02|TWO_SIDED|95.0|1.08|2.41|||Cui, Hung, Wang|||||2.41|1.08|0.020
92352825|NCT03636269|184610968|SUPERIORITY||Odds Ratio (OR)|1.77||||0.01|TWO_SIDED|95.0|1.14|2.74|||Cui, Hung, Wang|||||2.74|1.14|0.010
92352826|NCT03636269|184610969|SUPERIORITY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|1.29||0.171|TWO_SIDED|95.0|-4.3|0.8|||ANCOVA|||||0.8|-4.3|0.171
92352827|NCT03636269|184610970|SUPERIORITY||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.35||0.002|TWO_SIDED|95.0|-1.7|-0.4|||ANCOVA|||||-0.4|-1.7|0.002
92352828|NCT04250363|184610996|OTHER||Odds Ratio (OR)|3.57||||0.00284|TWO_SIDED|95.0|1.85|10.6|||Regression, Logistic|||||10.6|1.85|0.00284
92352829|NCT04250363|184610996|OTHER||Odds Ratio (OR)|4.19||||0.00367|TWO_SIDED|95.0|2.0|14.8|||Regression, Logistic|||||14.8|2.00|0.00367
92352830|NCT04250363|184610996|OTHER||Odds Ratio (OR)|4.22||||0.0137|TWO_SIDED|95.0|1.9|23.7|||Regression, Logistic|||||23.7|1.90|0.0137
92352831|NCT04250363|184610996|OTHER||Odds Ratio (OR)|2.23||||0.00349|TWO_SIDED|95.0|1.47|4.48|||Regression, Logistic|||||4.48|1.47|0.00349
92352832|NCT04250363|184610996|OTHER||Odds Ratio (OR)|11.6||||0.00594|TWO_SIDED|95.0|3.19|129.0|||Regression, Logistic|||||129|3.19|0.00594
92352833|NCT01507103|184610997|SUPERIORITY_OR_OTHER||Effect estimate|-0.04||||0.794|TWO_SIDED|95.0|-0.72|0.65||Arm effect|type III SS F-test|||Category: CD8+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm C) based on an analysis of covariance (ANCOVA) model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.65|-0.72|0.794
92352834|NCT01507103|184610997|SUPERIORITY_OR_OTHER||Effect estimate|-0.2||||0.794|TWO_SIDED|95.0|-0.82|0.43||Arm effect|type III SS F-test|||Category: CD8+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm B vs Arm C) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.43|-0.82|0.794
92352835|NCT01507103|184610997|SUPERIORITY_OR_OTHER||Effect estimate|0.16||||0.794|TWO_SIDED|95.0|-0.49|0.82||Arm effect|type III SS F-test|||Category: CD8+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm B) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.82|-0.49|0.794
92352836|NCT01507103|184610997|SUPERIORITY_OR_OTHER||Effect estimate|0.02||||0.654|TWO_SIDED|95.0|-0.52|0.57||Arm effect|type III SS F-test|||Category: CD8+/GrB+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm C) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.57|-0.52|0.654
92352837|NCT01507103|184610997|SUPERIORITY_OR_OTHER||Effect estimate|-0.19||||0.654|TWO_SIDED|95.0|-0.69|0.31||Arm effect|type III SS F-test|||Category: CD8+/GrB+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm B vs Arm C) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.31|-0.69|0.654
92352838|NCT01507103|184610997|SUPERIORITY_OR_OTHER||Effect estimate|0.21||||0.654|TWO_SIDED|95.0|-0.31|0.74||Arm effect|type III SS F-test|||Category: CD8+/GrB+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm B) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.74|-0.31|0.654
92352839|NCT01507103|184610998|SUPERIORITY_OR_OTHER||LS Means estimate|-0.03||||0.921|TWO_SIDED|95.0|-0.73|0.67|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category: CD8+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm C) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.67|-0.73|0.921
92400713|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046||||0.0004||95.0|0.021|0.072|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.072|0.021|0.0004
92400714|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045||||0.0005||95.0|0.02|0.071|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.071|0.020|0.0005
92400715|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045||||0.0007||95.0|0.019|0.07|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.070|0.019|0.0007
92400716|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044||||0.0011||95.0|0.017|0.07|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.070|0.017|0.0011
92352840|NCT01507103|184610998|SUPERIORITY_OR_OTHER||LS Means estimate|-0.2||||0.921|TWO_SIDED|95.0|-0.83|0.44|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category: CD8+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm B vs Arm C) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.44|-0.83|0.921
92352841|NCT01507103|184610998|SUPERIORITY_OR_OTHER||LS Means estimate|0.17||||0.921|TWO_SIDED|95.0|-0.5|0.83|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category: CD8+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm B) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.83|-0.50|0.921
92400717|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.043||||0.0016||95.0|0.016|0.07|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.070|0.016|0.0016
92400718|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042||||0.0029||95.0|0.014|0.07|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.070|0.014|0.0029
92400719|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042||||0.0041||95.0|0.013|0.07|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.070|0.013|0.0041
92400720|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041||||0.0076||95.0|0.011|0.071|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.071|0.011|0.0076
92400721|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.0105||95.0|0.009|0.071|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.071|0.009|0.0105
92400722|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039||||0.0179||95.0|0.007|0.072|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.072|0.007|0.0179
92400723|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039||||0.0236||95.0|0.005|0.072|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.072|0.005|0.0236
92400724|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038||||0.037||95.0|0.002|0.073|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.073|0.002|0.0370
92400725|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037||||0.0464||95.0|0.001|0.074|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.074|0.001|0.0464
92400726|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036||||0.0667||95.0|-0.002|0.075|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.075|-0.002|0.0667
92161193|NCT03410992|184211014|SUPERIORITY||Odds Ratio (OR)|43.497|||<|0.001|TWO_SIDED|95.0|15.728|120.295||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||120.295|15.728|<0.001
92161194|NCT03410992|184211015|SUPERIORITY||Odds Ratio (OR)|60.946|||<|0.001|TWO_SIDED|95.0|20.56|180.669||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haensze (CMH) test with region and prior biologic exposure as stratification variables.||180.669|20.560|<0.001
92161195|NCT03410992|184211016|SUPERIORITY||Odds Ratio (OR)|158.0|||<|0.001|TWO_SIDED|95.0|49.263|506.745||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||506.745|49.263|<0.001
92352842|NCT01507103|184610998|SUPERIORITY_OR_OTHER||LS Means estimate|0.02||||0.89|TWO_SIDED|95.0|-0.54|0.58|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category:CD8+/GrB+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm C) based on an ANCOVA model. Difference from baseline=Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.58|-0.54|0.890
92400727|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036||||0.08||95.0|-0.004|0.076|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.076|-0.004|0.0800
92161196|NCT03410992|184211017|SUPERIORITY||Odds Ratio (OR)|45.192|||<|0.001|TWO_SIDED|95.0|18.622|109.672||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables. This statistical analysis is not controlled for multiplicity and is only nominal.||109.672|18.622|<0.001
92161197|NCT03410992|184211017|SUPERIORITY||Odds Ratio (OR)|49.297|||<|0.001|TWO_SIDED|95.0|18.887|128.673||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables. This statistical analysis is not controlled for multiplicity and is only nominal.||128.673|18.887|<0.001
92161198|NCT03410992|184211017|SUPERIORITY||Odds Ratio (OR)|47.406|||<|0.001|TWO_SIDED|95.0|22.087|101.75||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables. This statistical analysis is not controlled for multiplicity and is only nominal.||101.750|22.087|<0.001
92161199|NCT04988295|184211028|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.35|0.56|||Log Rank|||||0.56|0.35|<0.0001
92352843|NCT01507103|184610998|SUPERIORITY_OR_OTHER||LS Means estimate|-0.19||||0.89|TWO_SIDED|95.0|-0.7|0.31|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category:CD8+/GrB+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm B vs Arm C) based on an ANCOVA model. Difference from baseline=Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.31|-0.70|0.890
92352844|NCT01507103|184610998|SUPERIORITY_OR_OTHER||LS Means estimate|0.21||||0.89|TWO_SIDED|95.0|-0.32|0.74|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category:CD8+/GrB+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm B) based on an ANCOVA model. Difference from baseline=Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.74|-0.32|0.890
92352845|NCT05075772|184611009|OTHER||Ratio of gMeans (%)|46.3|||||TWO_SIDED|90.0|38.3|55.9|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of SC injection (T))/(gMean of IV infusion (R)).~Intra-matched-pair geometric coefficient of variation=28.2."|The statistical model used for the analysis of this primary endpoint was an analysis of variance (ANOVA). The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included a fixed effect for treatment assignment and a random effect for matching pair (each matched pair in the study was assigned a number for the analysis).||55.9|38.3|
92352846|NCT05075772|184611010|OTHER||Ratio of gMeans (%)|26.8|||||TWO_SIDED|90.0|23.2|31.1|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of SC injection (T))/(gMean of IV infusion (R)). Intra-matched-pair geometric coefficient of variation=22.5"|The statistical model used for the analysis of this primary endpoint was an analysis of variance (ANOVA). The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included a fixed effect for treatment assignment and a random effect for matching pair (each matched pair in the study was assigned a number for the analysis).||31.1|23.2|
92352847|NCT05075772|184611011|OTHER||Ratio of gMeans (%)|47.0|||||TWO_SIDED|90.0|39.0|56.6|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of SC injection (T))/(gMean of IV infusion (R)).~Intra-matched-pair geometric coefficient of variation=27.7."|The statistical model used for the analysis of this secondary endpoint was an analysis of variance (ANOVA). The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included a fixed effect for treatment assignment and a random effect for matching pair (each matched pair in the study was assigned a number for the analysis).||56.6|39.0|
92161200|NCT04988295|184211028|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|0.0001||95.0|0.36|0.64|||Log Rank|||||0.64|0.36|<0.0001
92161201|NCT00516503|184211047|SUPERIORITY_OR_OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.90
92161202|NCT00516503|184211048|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.50
92161203|NCT00516503|184211049|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.50
92161204|NCT00930813|184211094|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||t-test, 2 sided|||The study required 100 subjects to provide 80% power to detect a clinically meaningful difference in late lumen loss of 15% of reference vessel diameter between treatment groups on the basis of a 2-sample Student t test with 2-sided alpha 0.05.||||0.016
92220314|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.41|||||TWO_SIDED|95.0|1.17|1.7|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 6B||1.70|1.17|
92352848|NCT01145222|184611026|SUPERIORITY|Overall comparison between remimazolam and midazolam||||||0.007|||||||Fisher Exact|||||||0.007
92352849|NCT00927186|184611029|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The pre-specified significance level 0.05 was used.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352850|NCT00927186|184611030|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92352851|NCT00927186|184611031|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352852|NCT00927186|184611031|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.002
92352853|NCT00927186|184611032|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352854|NCT00927186|184611032|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352855|NCT00927186|184611033|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.002
92352856|NCT00927186|184611033|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.002
92352857|NCT00927186|184611034|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352858|NCT00927186|184611034|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352859|NCT00927186|184611034|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.002
92352860|NCT00927186|184611034|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.002
92352861|NCT00927186|184611035|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352862|NCT00927186|184611035|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352863|NCT00927186|184611036|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.002
92352864|NCT00927186|184611036|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.002
92352865|NCT00927186|184611037|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352866|NCT00927186|184611037|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352867|NCT00927186|184611037|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.003
92352868|NCT00927186|184611037|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.002
92352869|NCT00927186|184611038|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352870|NCT00927186|184611038|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352871|NCT00927186|184611039|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.020
92352872|NCT00927186|184611039|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.005
92352873|NCT00927186|184611040|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352874|NCT00927186|184611040|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352875|NCT00927186|184611040|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.039
92352876|NCT00927186|184611040|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.025
92352877|NCT00927186|184611041|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352878|NCT00927186|184611041|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352879|NCT00927186|184611042|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.050
92352880|NCT00927186|184611042|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.016
92352881|NCT00927186|184611043|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92220315|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.34|||||TWO_SIDED|95.0|1.16|1.55|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 7F||1.55|1.16|
92352882|NCT00927186|184611043|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352883|NCT00927186|184611043|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.003
92352884|NCT00927186|184611043|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.003
92352885|NCT00927186|184611044|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92400728|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035||||0.107||95.0|-0.007|0.077|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.077|-0.007|0.1070
92400729|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034||||0.1237||95.0|-0.009|0.078|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.078|-0.009|0.1237
92400730|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033||||0.1561||95.0|-0.013|0.079|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.079|-0.013|0.1561
92400731|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033||||0.1752||95.0|-0.015|0.08|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.080|-0.015|0.1752
92276139|NCT00408876|184454629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53||||0.003||95.0|-0.87|-0.19|||t-test, 2 sided|||||-0.19|-0.87|0.003
92352886|NCT00927186|184611044|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352887|NCT00927186|184611045|SUPERIORITY_OR_OTHER|||||||0.906||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.906
92352888|NCT00927186|184611045|SUPERIORITY_OR_OTHER|||||||0.159||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.159
92161205|NCT00315120|184211105|SUPERIORITY_OR_OTHER||Response ratio|2.0||||0.007|TWO_SIDED|95.0|1.2|3.2|||Chi-squared|||||3.2|1.2|0.007
92352889|NCT00927186|184611046|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.049
92352890|NCT00927186|184611046|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352891|NCT00927186|184611046|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.151
92352892|NCT00927186|184611046|SUPERIORITY_OR_OTHER|||||||0.196||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.196
92352893|NCT00927186|184611047|SUPERIORITY_OR_OTHER|||||||0.502||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.502
92352894|NCT00927186|184611047|SUPERIORITY_OR_OTHER|||||||0.597||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.597
92352895|NCT00927186|184611048|SUPERIORITY_OR_OTHER|||||||0.077||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.077
92352896|NCT00927186|184611048|SUPERIORITY_OR_OTHER|||||||0.358||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.358
92352897|NCT00927186|184611049|SUPERIORITY_OR_OTHER|||||||0.647||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.647
92352898|NCT00927186|184611049|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.120
92352899|NCT00927186|184611049|SUPERIORITY_OR_OTHER|||||||0.695||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.695
92352900|NCT00927186|184611049|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||1.00
92352901|NCT00927186|184611050|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352902|NCT00927186|184611050|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
92352903|NCT00927186|184611051|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||1.00
92352904|NCT00927186|184611051|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.198
92352905|NCT00927186|184611052|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.022
92161206|NCT00315120|184211110|SUPERIORITY_OR_OTHER||Response ratio|1.1||||0.72|TWO_SIDED|95.0|0.7|1.7|||Chi-squared|||||1.7|0.7|0.72
92161207|NCT05419557|184211170|SUPERIORITY||Odds Ratio (OR)|8.5||||0.02|TWO_SIDED|95.0|1.3|54.6|||Regression, Logistic|||||54.6|1.3|0.02
92276140|NCT00408876|184454629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.442||95.0|-0.4|0.17|||t-test, 2 sided|||||0.17|-0.40|0.442
92161208|NCT05419557|184211171|SUPERIORITY||Odds Ratio (OR)|9.98||||0.015|TWO_SIDED|95.0|1.55|64.25|||Regression, Logistic|||||64.25|1.55|0.015
92161209|NCT02281318|184211174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7|||<|0.001|TWO_SIDED|95.0|-10.5|-4.9|||Mixed model repeated measures analysis|||||-4.9|-10.5|<0.001
92161210|NCT02281318|184211175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|120.0||||0.001|TWO_SIDED|95.0|47.0|192.0|||Mixed model repeated measures analysis|||||192|47|0.001
92352906|NCT00927186|184611052|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352907|NCT00927186|184611052|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.151
92352908|NCT00927186|184611052|SUPERIORITY_OR_OTHER|||||||0.139||95.0||||-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.139
92352909|NCT00927186|184611053|SUPERIORITY_OR_OTHER|||||||0.154||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.154
92352910|NCT00927186|184611053|SUPERIORITY_OR_OTHER|||||||0.052||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.052
92352911|NCT00927186|184611054|SUPERIORITY_OR_OTHER|||||||0.906||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.906
92161211|NCT02281318|184211176|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.23|||<|0.001|TWO_SIDED|95.0|1.55|3.22|||Regression, Logistic|||||3.22|1.55|<0.001
92220316|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.38|||||TWO_SIDED|95.0|1.17|1.64|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 8||1.64|1.17|
92276141|NCT00408876|184454630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.31||||0.464||95.0|-0.52|1.14|||t-test, 2 sided|||||1.14|-0.52|0.464
92352912|NCT00927186|184611054|SUPERIORITY_OR_OTHER|||||||0.159||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.159
92352913|NCT00927186|184611055|SUPERIORITY_OR_OTHER|||||||0.979||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.979
92352914|NCT00927186|184611055|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.002
92352915|NCT00927186|184611055|SUPERIORITY_OR_OTHER|||||||0.695||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.695
92352916|NCT00927186|184611055|SUPERIORITY_OR_OTHER|||||||0.853||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.853
92352917|NCT00927186|184611056|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for sLS/BS.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352918|NCT00927186|184611056|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for dLS/BS.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352919|NCT00927186|184611057|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is for sLS/BS.|Wilcoxon (Mann-Whitney)|||||||0.006
92352920|NCT00927186|184611057|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value is for dLS/BS.|Wilcoxon (Mann-Whitney)|||||||0.001
92352921|NCT00927186|184611058|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for sLS/BS at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352922|NCT00927186|184611058|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for dLS/BS at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352923|NCT00927186|184611058|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value is for sLS/BS at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.004
92352924|NCT00927186|184611058|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is for dLS/BS at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.006
92352925|NCT00927186|184611059|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||"P-value is a comparison of No Label vs. Single, Double, Single and Double Label."|Fisher Exact|||||||<0.001
92352926|NCT00927186|184611060|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||"P-value is a comparison of No Label vs. Single, Double, Single and Double Label."|Fisher Exact|||||||0.033
92352927|NCT00927186|184611061|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||"P-value is a comparison of No Label vs. Single, Double, Single and Double Label at 6 months."|Fisher Exact|||||||<0.001
92352928|NCT00927186|184611061|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||"P-value is a comparison of No Label vs. Single, Double, Single and Double Label at 24 months."|Fisher Exact|||||||0.009
92352929|NCT00927186|184611062|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92352930|NCT00927186|184611063|SUPERIORITY_OR_OTHER|||||||0.906||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.906
92161212|NCT02281318|184211177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.58|-0.22|||Mixed model repeated measures analysis|||||-0.22|-0.58|<0.001
92161213|NCT03055767|184211220|SUPERIORITY|||||||0.038|||||||Wilcoxon signed-rank test|||||||0.038
92161214|NCT03055767|184211221|SUPERIORITY|||||||0.047|||||||Wilcoxon signed-rank test)|||||||0.047
92161215|NCT03055767|184211222|SUPERIORITY|||||||0.148|||||||Wilcoxon signed-rank test)|||||||0.148
92161216|NCT03055767|184211223|SUPERIORITY|||||||0.047|||||||Wilcoxon signed-rank test)|||||||0.047
92161217|NCT03055767|184211224|SUPERIORITY|||||||0.002|||||||Wilcoxon signed-rank test)|||||||0.002
92161218|NCT03055767|184211225|SUPERIORITY|||||||0.82|||||||McNemar|||||||0.82
92161219|NCT03055767|184211226|SUPERIORITY|||||||0.006|||||||McNemar|||||||0.006
92161220|NCT03055767|184211227|SUPERIORITY|||||||0.039|||||||McNemar|||||||0.039
92276142|NCT00408876|184454630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.68||||0.052||95.0|-1.36|0.0|||t-test, 2 sided|||||0.00|-1.36|0.052
92276143|NCT00408876|184454630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.68||||0.052||95.0|-1.37|0.01|||t-test, 2 sided|||||0.01|-1.37|0.052
92352931|NCT00927186|184611064|SUPERIORITY_OR_OTHER|||||||0.536||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||0.536
92352932|NCT00927186|184611064|SUPERIORITY_OR_OTHER|||||||0.896||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.896
92352933|NCT00927186|184611065|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92352934|NCT00927186|184611066|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92352935|NCT00927186|184611067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92352936|NCT00927186|184611068|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.008
92352937|NCT00927186|184611069|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92352938|NCT00927186|184611069|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.006
92352939|NCT00927186|184611070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92352940|NCT00927186|184611071|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.079
92352941|NCT00927186|184611072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92161221|NCT03055767|184211228|SUPERIORITY|||||||0.016|||||||McNemar|||||||0.016
92352942|NCT00927186|184611072|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.039
92352943|NCT00927186|184611073|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.014
92352944|NCT00927186|184611074|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.079
92352945|NCT00927186|184611075|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||0.027
92352946|NCT00927186|184611075|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.268
92352947|NCT00927186|184611076|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92400732|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.2112||95.0|-0.018|0.081|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.081|-0.018|0.2112
92161222|NCT03055767|184211229|SUPERIORITY|||||||0.18|||||||McNemar|||||||0.18
92352948|NCT00927186|184611077|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.025
92161223|NCT03055767|184211230|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed-rank test)|||||||<0.001
92161224|NCT03055767|184211231|SUPERIORITY|||||||0.64|||||||Wilcoxon signed-rank test)|||||||0.64
92161225|NCT02228408|184211236|SUPERIORITY|||||||0.04|||||||poisson|||||||0.04
92161226|NCT02228408|184211237|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
92161227|NCT02228408|184211238|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||||||0.34
92161228|NCT02228408|184211242|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|||||||0.62
92352949|NCT00927186|184611078|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||0.012
92352950|NCT00927186|184611078|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.092
92352951|NCT00927186|184611079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 1 month.|t-test, 2 sided|||||||<0.001
92352952|NCT00927186|184611079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 3 months.|t-test, 2 sided|||||||<0.001
92352953|NCT00927186|184611079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 6 months.|t-test, 2 sided|||||||<0.001
92352954|NCT00927186|184611080|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92352955|NCT00927186|184611081|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 1 month.|t-test, 2 sided|||||||<0.001
92352956|NCT00927186|184611081|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 3 months.|t-test, 2 sided|||||||<0.001
92352957|NCT00927186|184611081|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 6 months.|t-test, 2 sided|||||||<0.001
92352958|NCT00927186|184611082|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92352959|NCT00927186|184611083|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 1 month.|t-test, 2 sided|||||||<0.001
92352960|NCT00927186|184611083|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 3 months.|t-test, 2 sided|||||||<0.001
92352961|NCT00927186|184611083|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 6 months.|t-test, 2 sided|||||||<0.001
92352962|NCT00927186|184611084|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92352963|NCT00604383|184611085|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.034
92352964|NCT03016403|184611108|SUPERIORITY||Mean Difference (Final Values)|1.75||||0.0057|TWO_SIDED|95.0|0.52|2.98||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||2.98|0.52|0.0057
92352965|NCT03016403|184611109|SUPERIORITY||Mean Difference (Final Values)|1.46||||0.0243|TWO_SIDED|95.0|0.19|2.73||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|Linear mixed models (LMM) have been used with time and the interaction between time and group as fixed effects. A structure of random effects that includes random intercepts for patients was used. The study was powered for testing the hypothesis of no group differences in change over the four time points. A significant group by time interaction was hypothesized.||2.73|0.19|0.0243
92352966|NCT03016403|184611110|SUPERIORITY||Mean Difference (Final Values)|-15.31||||0.0061|TWO_SIDED|95.0|-26.23|-4.39||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of an interaction between time and intervention arm.|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|Linear mixed models (LMM) have been used with time and the interaction between time and group as fixed effects. A structure of random effects that includes random intercepts for patients was used. The study was powered for testing the hypothesis of no group differences in change over the four time points. A significant group by time interaction was hypothesized.||-4.39|-26.23|0.0061
92352967|NCT03016403|184611111|SUPERIORITY||Mean Difference (Final Values)|-7.73||||0.21|TWO_SIDED|95.0|-19.73|4.27||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||4.27|-19.73|0.21
92352968|NCT03016403|184611112|SUPERIORITY||Mean Difference (Final Values)|1.52||||0.052|TWO_SIDED|95.0|-0.01|3.05||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||3.05|-0.01|0.052
92352969|NCT03016403|184611113|SUPERIORITY||Mean Difference (Final Values)|0.91||||0.214|TWO_SIDED|95.0|-0.52|2.36||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||2.36|-0.52|0.214
92352970|NCT03016403|184611114|SUPERIORITY||Mean Difference (Final Values)|-4.16||||0.0134|TWO_SIDED|95.0|-7.45|-0.87||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||-0.87|-7.45|0.0134
92400733|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031||||0.2319||95.0|-0.02|0.082|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.082|-0.020|0.2319
92400734|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.2698||95.0|-0.023|0.084|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.084|-0.023|0.2698
92400735|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.291||95.0|-0.025|0.085|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.085|-0.025|0.2910
92400736|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029||||0.3293||95.0|-0.029|0.086|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.086|-0.029|0.3293
92161229|NCT00606580|184211269|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Chi-squared|||H01: There is no difference in the final clinical cure rate between WR 279,396 and Vehicle AND there is no difference in the final clinical cure rate between Paromomycin Alone and Vehicle.||||0.0001
92276144|NCT00408876|184454630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.99||||0.021||95.0|-1.83|-0.15|||t-test, 2 sided|||||-0.15|-1.83|0.021
92276145|NCT00408876|184454630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.99||||0.02||95.0|-1.83|-0.16|||t-test, 2 sided|||||-0.16|-1.83|0.020
92276146|NCT00408876|184454630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.988||95.0|-0.7|0.69|||t-test, 2 sided|||||0.69|-0.70|0.988
92161230|NCT00606580|184211269|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||H01: There is no difference in the final clinical cure rate between WR 279,396 and Vehicle AND there is no difference in the final clinical cure rate between Paromomycin Alone and Vehicle.||||<0.0001
92400737|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028||||0.3504||95.0|-0.031|0.087|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.087|-0.031|0.3504
92400738|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027||||0.3881||95.0|-0.034|0.089|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.089|-0.034|0.3881
92400739|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027||||0.4086||95.0|-0.036|0.09|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.090|-0.036|0.4086
92400740|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026||||0.4449||95.0|-0.04|0.091|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.091|-0.040|0.4449
92161231|NCT00606580|184211269|NON_INFERIORITY_OR_EQUIVALENCE|Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.871|||||||Chi-squared|||H02: There is no difference in clinical cure between WR 279,396 and Paromomycin Alone. Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||0.871
92161232|NCT00606580|184211270|SUPERIORITY_OR_OTHER|||||||0.0006|||||||Chi-squared|||||||0.0006
92352971|NCT03016403|184611115|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.42|TWO_SIDED|95.0|-0.9|2.12||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||2.12|-0.9|0.42
92369479|NCT00281099|184643807|SUPERIORITY_OR_OTHER||||||>|0.1||95.0||||The a priori threshold for significance for Arm was 0.05, with no adjustment for multiple analyses.|Mixed Models Analysis|Models fit with time and arm as covariates.||A linear mixed model was fit for each of the following: Left Atrial Area and Mitral Regurgitation Area; the purpose was to test whether patients with MVP and no pacing indication over time had a different average value for that measure than patients with VVI and no pacing indication. Two-sided tests were used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||> 0.10
92400741|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.025||||0.4646||95.0|-0.042|0.092|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.092|-0.042|0.4646
92161233|NCT00606580|184211270|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Chi-squared|||||||0.0002
92161234|NCT00606580|184211270|NON_INFERIORITY_OR_EQUIVALENCE|Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.767|||||||Chi-squared|||||||0.767
92161235|NCT00606580|184211271|SUPERIORITY_OR_OTHER|||||||0.33|||||||Log Rank|Mantel-Cox (log-rank) grouped failure time test using proportion re-epithelialized at each of the scheduled assessments through Day 42 without relapse||||||0.330
92161236|NCT00606580|184211271|SUPERIORITY_OR_OTHER|||||||0.275|||||||Log Rank|||||||0.275
92161237|NCT00606580|184211271|NON_INFERIORITY_OR_EQUIVALENCE|The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.83|||||||Log Rank|||||||0.830
92161238|NCT00606580|184211276|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Chi-squared|||||||0.0001
92161239|NCT00606580|184211276|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92400742|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024||||0.499||95.0|-0.046|0.094|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.094|-0.046|0.4990
92400743|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024||||0.5176||95.0|-0.048|0.095|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.095|-0.048|0.5176
92400744|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023||||0.5501||95.0|-0.051|0.097|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.097|-0.051|0.5501
92352972|NCT03016403|184611116|SUPERIORITY||Mean Difference (Final Values)|1.77||||0.0269|TWO_SIDED|95.0|0.2|3.34||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||3.34|0.2|0.0269
92352973|NCT03016403|184611117|SUPERIORITY||Mean Difference (Final Values)|2.56||||0.0044|TWO_SIDED|95.0|0.8|4.32||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||4.32|0.8|0.0044
92352974|NCT04641975|184611154|SUPERIORITY||LS Mean difference|2.22|STANDARD_ERROR_OF_MEAN|1.34||0.121|TWO_SIDED|90.0|-0.15|4.59|||ANCOVA|||Analysis of Covariance (ANCOVA) was performed with change from baseline at week 12 Last Observation Carried Forward (LOCF) as response, treatment group, sex and geographical region as fixed effects and the mean number of micturitions per 24 hours at baseline as covariate.||4.59|-0.15|0.121
92352975|NCT04641975|184611155|SUPERIORITY||Mean Difference (Final Values)|-15.51|STANDARD_ERROR_OF_MEAN|18.91||0.43|TWO_SIDED|90.0|-49.47|18.46|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 without LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||18.46|-49.47|0.430
92352976|NCT04641975|184611155|SUPERIORITY||Mean Difference (Final Values)|-15.51|STANDARD_ERROR_OF_MEAN|18.91||0.43|TWO_SIDED|90.0|-49.47|18.46|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 with LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||18.46|-49.47|0.430
92352977|NCT04641975|184611156|SUPERIORITY||Mean Difference (Final Values)|2.58|STANDARD_ERROR_OF_MEAN|31.08||0.935|TWO_SIDED|90.0|-53.23|58.38|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 without LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||58.38|-53.23|0.935
92352978|NCT04641975|184611156|SUPERIORITY||Mean Difference (Final Values)|2.58|STANDARD_ERROR_OF_MEAN|31.08||0.935|TWO_SIDED|90.0|-53.23|58.38|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 with LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||58.38|-53.23|0.935
92352979|NCT04641975|184611157|SUPERIORITY||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.53||0.073|TWO_SIDED|90.0|-1.99|-0.1|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 without LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||-0.10|-1.99|0.073
92352980|NCT04641975|184611157|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.45||0.044|TWO_SIDED|90.0|-1.8|-0.2|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 with LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||-0.20|-1.80|0.044
92352981|NCT04641975|184611158|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.39||0.91|TWO_SIDED|90.0|-0.74|0.64|||ANCOVA|||ANCOVA as performed with change from baseline at week 12 without LOCF as response, treatment group, sex and geographical region as fixed effects and the mean number of daytime incontinence episodes per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||0.64|-0.74|0.910
92352982|NCT04641975|184611158|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.39||0.91|TWO_SIDED|90.0|-0.74|0.64|||ANCOVA|||ANCOVA as performed with change from baseline at week 12 with LOCF as response, treatment group, sex and geographical region as fixed effects and the mean number of daytime incontinence episodes per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||0.64|-0.74|0.910
92352983|NCT04641975|184611159|SUPERIORITY||Mean Difference (Final Values)|2.48|STANDARD_ERROR_OF_MEAN|0.85||0.012|TWO_SIDED|90.0|0.97|3.99|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 without LOCF as response, treatment group, sex and geographical region as fixed effects and the mean number of daytime micturitions per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||3.99|0.97|0.012
92161240|NCT00606580|184211276|NON_INFERIORITY_OR_EQUIVALENCE|Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.725|||||||Chi-squared|||||||0.725
92161241|NCT00606580|184211277|SUPERIORITY_OR_OTHER|||||||0.005|||||||Chi-squared|||||||0.005
92352984|NCT04641975|184611159|SUPERIORITY||Mean Difference (Final Values)|2.46|STANDARD_ERROR_OF_MEAN|0.77||0.007|TWO_SIDED|90.0|1.1|3.82|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 with LOCF as response, treatment group, sex and geographical region as fixed effects and the mean number of daytime micturitions per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||3.82|1.10|0.007
92352985|NCT04641975|184611160|SUPERIORITY||Rate ratio|0.2||||0.105|TWO_SIDED|90.0|0.04|1.02|||Binomial regression|||Without LOCF: From a negative binomial regression model including treatment group, sex and region as factors and the log baseline rate of number of dry days (the log of the ratio of dry days at baseline and number of diary days at baseline) as covariate.||1.02|0.04|0.105
92352986|NCT04641975|184611160|SUPERIORITY||Rate ratio|0.22||||0.111|TWO_SIDED|90.0|0.05|1.05|||Binomial regression|||With LOCF: From a negative binomial regression model including treatment group, sex and region as factors and the log baseline rate of number of dry days (the log of the ratio of dry days at baseline and number of diary days at baseline) as covariate.||1.05|0.05|0.111
92352987|NCT04299425|184611171|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92352988|NCT04299425|184611172|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
92352989|NCT04299425|184611174|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
92352990|NCT04299425|184611175|SUPERIORITY|||||||0.36|||||||Chi-squared|||||||0.36
92352991|NCT00601107|184611250|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||1|TWO_SIDED|95.0|0.17|4.22||The p-value was not adjusted for multiple comparisons or a prior significance threshold.|Regression, Exact Logistic|||Estimate of the log odds, relative to the Placebo, in participants with at least 50 % reduction in PASI score at Week 12 or early termination was analyzed using exact logistic regression model adjusted for site and baseline PASI strata (\<=16, \>16).||4.22|0.17|1.000
92352992|NCT00601107|184611250|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.992||95.0|0.13|4.14||The p-value was not adjusted for multiple comparisons or a prior significance threshold.|Regression, Exact Logistic|||Estimate of the log odds, relative to the Placebo, in participants with at least 50 % reduction in PASI score at Week 12 or early termination was analyzed using exact logistic regression model adjusted for site and baseline PASI strata (\<=16, \>16).||4.14|0.13|0.992
92352993|NCT00601107|184611250|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||1|TWO_SIDED|95.0|0.15|4.59||The p-value was not adjusted for multiple comparisons or a prior significance threshold.|Regression, Exact Logistic|||Estimate of the log odds, relative to the Placebo, in participants with at least 50 % reduction in PASI score at Week 12 or early termination was analyzed using exact logistic regression model adjusted for site and baseline PASI strata (\<=16, \>16).||4.59|0.15|1.000
92352994|NCT03892915|184611253|SUPERIORITY||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.73|1.93||||||||1.93|0.73|
92352995|NCT03892915|184611254|SUPERIORITY||beta coefficient|5.33|STANDARD_ERROR_OF_MEAN|5.39|||TWO_SIDED|||||||||||||
92352996|NCT03892915|184611256|SUPERIORITY||Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|0.53|6.5||||||||6.50|0.53|
92161242|NCT00606580|184211277|SUPERIORITY_OR_OTHER|||||||0.005|||||||Chi-squared|||||||0.005
92161243|NCT00606580|184211277|NON_INFERIORITY_OR_EQUIVALENCE|Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||1|||||||Chi-squared|||||||1.000
92161244|NCT00606580|184211278|SUPERIORITY_OR_OTHER|||||||0.003|||||||Chi-squared|||||||0.003
92352997|NCT03892915|184611257|SUPERIORITY||Odds Ratio (OR)|2.73|||||TWO_SIDED|95.0|0.45|16.64||||||||16.64|0.45|
92352998|NCT03892915|184611258|SUPERIORITY||Odds Ratio (OR)|0.2|||||TWO_SIDED|95.0|0.05|0.83||||||||0.83|0.05|
92352999|NCT00682838|184611270|SUPERIORITY_OR_OTHER|||||||0.5|||||||t-test, 1 sided|||||||0.50
92353000|NCT00449007|184611274|SUPERIORITY||Mean Difference (Final Values)|4.5||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"Difference between 6 months and baseline for Bupropion treated group.~Due to the low number of participants, the results are unreliable."||||1.0
92353001|NCT03518203|184611280|EQUIVALENCE|A binomial test was used to test 6 month survival in study cohort against an 18% historical rate.|Proportion|0.714|||<|0.0001|TWO_SIDED|||||The a priori threshold was 0.05.|binomial test|||||||<0.0001
92353002|NCT00345592|184611292|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.987|||||TWO_SIDED|95.0|0.684|1.503||||||||1.503|0.684|
92353003|NCT03336866|184611321|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 5 (primary). Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353004|NCT03336866|184611321|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 12. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92369480|NCT00281099|184643808|SUPERIORITY_OR_OTHER|||||||0.8403||95.0||||The a priori threshold for significance for Arm was 0.05.|Cumulative Logits Model|Because Composite Mitral Regurgitation Score was measured on the ordinal scale, a GEE cumulative logits model was fit.||"A General Estimating Equation (GEE) Cumulative Logits model was fit with Arm, Time, and their interaction as covariates in the model to test the hypothesis that patients with no pacing indication and MVP programming have different Mitral Regurgation over time than similar patients with VVI 40 programming. A two-sided test was used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits."||||0.8403
92161245|NCT00606580|184211278|SUPERIORITY_OR_OTHER|||||||0.002|||||||Chi-squared|||||||0.002
92353005|NCT03336866|184611321|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 19 (primary). Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353006|NCT03336866|184611321|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 26. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353007|NCT03336866|184611321|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 5 (primary). Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353008|NCT03336866|184611321|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 12. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353009|NCT03336866|184611321|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 19. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92400745|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022||||0.5675||95.0|-0.054|0.098|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.098|-0.054|0.5675
92400746|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021||||0.5979||95.0|-0.057|0.099|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.099|-0.057|0.5979
92276147|NCT00408876|184454631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.543||95.0|-0.46|0.88|||t-test, 2 sided|||||0.88|-0.46|0.543
92400747|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021||||0.6141||95.0|-0.059|0.1|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.100|-0.059|0.6141
92400748|NCT00083889|184692425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.6424||95.0|-0.063|0.102|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.102|-0.063|0.6424
92353010|NCT03336866|184611321|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 26. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353011|NCT03336866|184611322|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 5 (primary). Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353012|NCT03336866|184611322|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 12. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353013|NCT03336866|184611322|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 19. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353014|NCT03336866|184611322|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 26. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353015|NCT03336866|184611322|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 5 (primary). Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353016|NCT03336866|184611322|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 12. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92400749|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.026|||<|0.0001|TWO_SIDED|95.0|2.088|5.965|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Euro-QoL Visual Analog Scale (EQ-VAS) baseline score (intercept and time since randomization are included as random effects).||5.965|2.088|<.0001
92353017|NCT03336866|184611322|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 19. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
92353018|NCT00032487|184611333|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis tested was for equivalence. We assumed 86% power with 21% of effect size and the sample size 1700 with 5% drop out rate.|Cox Proportional Hazard|0.79|||<|0.05|TWO_SIDED|95.0|0.79|0.99|||Log Rank|||It was hypothesized 21% reduction in intensive glycemic control group compared to standard control group on primary cardiovascular composite outcomes.||.99|.79|<0.05
92353019|NCT01107457|184611362|SUPERIORITY_OR_OTHER_LEGACY|||||||0.079|TWO_SIDED||||||Fisher Exact|||||||0.079
92353020|NCT01107457|184611362|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92353021|NCT01107457|184611362|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92353022|NCT01107457|184611362|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92353023|NCT01107457|184611363|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92353024|NCT01107457|184611363|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92353025|NCT01107457|184611363|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92400750|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.165|||<|0.0001||95.0|2.269|6.061|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.061|2.269|<.0001
92353026|NCT01107457|184611363|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92353027|NCT02186171|184611430|SUPERIORITY||LS Mean Difference|10.9|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|9.6|12.2||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||12.2|9.6|< 0.0001
92353028|NCT02186171|184611431|SUPERIORITY|The Hochberg procedure was employed to control the overall type 1 error for the percent change from baseline at 12 months in total hip and femoral neck to maintain the overall significance level at 0.05.|LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.3|3.7||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||3.7|2.3|< 0.0001
92161246|NCT00606580|184211278|NON_INFERIORITY_OR_EQUIVALENCE|Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.893|||||||Chi-squared|||||||0.893
92353029|NCT02186171|184611432|SUPERIORITY|The Hochberg procedure was employed to control the overall type 1 error for the percent change from baseline at 12 months in total hip and femoral neck to maintain the overall significance level at 0.05.|LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|1.5|3.3||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||3.3|1.5|< 0.0001
92353030|NCT02186171|184611433|SUPERIORITY|The Hochberg procedure was employed to control the overall type 1 error for the percent change from baseline at 6 months at the lumbar spine, total hip and femoral neck BMD in order to maintain the overall significance level at 0.05.|LS Mean Difference|8.7|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|7.6|9.7||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||9.7|7.6|< 0.0001
92161247|NCT00606580|184211279|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92353031|NCT02186171|184611434|SUPERIORITY|The Hochberg procedure was employed to control the overall type 1 error for the percent change from baseline at 6 months at the lumbar spine, total hip and femoral neck BMD in order to maintain the overall significance level at 0.05.|LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|0.8|2.0||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||2.0|0.8|< 0.0001
92400751|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.243|||<|0.0001||95.0|2.358|6.128|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.128|2.358|<.0001
92161248|NCT00606580|184211279|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92161249|NCT00606580|184211279|NON_INFERIORITY_OR_EQUIVALENCE|The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.247|||||||Chi-squared|||||||0.247
92161250|NCT00606580|184211280|SUPERIORITY_OR_OTHER|||||||0.409|||||||Chi-squared|||||||0.409
92161251|NCT00606580|184211280|SUPERIORITY_OR_OTHER|||||||0.651|||||||Chi-squared|||||||0.651
92353032|NCT02186171|184611435|SUPERIORITY|The Hochberg procedure was employed to control the overall type 1 error for the percent change from baseline at 6 months at the lumbar spine, total hip and femoral neck BMD in order to maintain the overall significance level at 0.05.|LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.4|=|0.0033|TWO_SIDED|95.0|0.4|2.1||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||2.1|0.4|= 0.0033
92353033|NCT01245062|184611436|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.31|0.64||P-value from a stratified log-rank test was adjusted for prior chemotherapy for advanced or metastatic disease and Baseline lactate dehydrogenase.|Log Rank||Investigator-Assessed PFS. HR \<1 indicates a lower risk with Trametinib compared with CT. HR from a stratified log-rank test was adjusted for prior chemotherapy for advanced or metastatic disease and Baseline lactate dehydrogenase.|||0.64|0.31|<0.0001
92353034|NCT01245062|184611436|SUPERIORITY||Hazard Ratio (HR)|0.41|||<|0.0001|TWO_SIDED|95.0|0.29|0.6||P-value from a stratified log-rank test was adjusted for prior chemotherapy for advanced or metastatic disease and Baseline lactate dehydrogenase.|Log Rank||Independent Review PFS. HR \<1 indicates a lower risk with Trametinib compared with CT. HR from a stratified log-rank test was adjusted for prior chemotherapy for advanced or metastatic disease and Baseline lactate dehydrogenase.|||0.60|0.29|<0.0001
92353035|NCT06025695|184611460|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit (LL) of the two-sided asymptotic standardized 95% confidence interval (CI) for the difference in seroconversion rate between the HRV PCV-free group and HRV group is greater than or equal to -10%.|Difference in seroconversion rate|-3.73|||||TWO_SIDED|95.0|-6.93|-0.55|||||The asymptotic standardized 95% CI for the difference in seroconversion rate between HRV PCV-free Group minus HRV Group is computed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of HRV PCV-free Group as compared to HRV Group in terms of seroconversion rates 1 month post-Dose 2.||-0.55|-6.93|
92353036|NCT06025695|184611461|NON_INFERIORITY|NI was to be demonstrated if the LL of the two-sided 95% CI for the ratio of anti-RV IgA Ab GMC between the HRV PCV-free group and HRV group is greater than or equal to 0.67.|GMC Ratio|0.71|||||TWO_SIDED|95.0|0.6|0.84|||||The comparison is done using the group GMC ratio (HRV PCV-free/HRV) (ANOVA model applied to the log10-transformed titers). The ANOVA model included the group as a fixed effect.|To demonstrate the non-inferiority of the HRV PCV-free Group as compared to HRV Group in terms of serum anti-RV IgA Ab concentrations 1 month post-Dose 2.||0.84|0.60|
92353037|NCT06025695|184611462|NON_INFERIORITY|NI was to be demonstrated if the LL of the two-sided asymptotic standardized 95% CI for the difference in the percentage between the HRV PCV-free group and HRV group is greater than or equal to -10%.|Difference in percentage|-6.37|||||TWO_SIDED|95.0|-10.81|-1.92|||||The asymptotic standardized 95% CI for the difference in in the percentage between HRV PCV-free Group minus HRV Group is computed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of HRV PCV-free Group as compared to HRV Group in terms of percentage of participants with anti-RV IgA antibody concentrations \>=90 U/mL 1 month post-Dose 2.||-1.92|-10.81|
92353038|NCT03572218|184611480|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.22|TWO_SIDED||||||Mixed Models Analysis|||||||0.22
92353039|NCT03572218|184611481|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.45|TWO_SIDED||||||Mixed Models Analysis|||||||0.45
92353040|NCT03572218|184611482|SUPERIORITY||Mean Difference (Net)|-4.4|STANDARD_ERROR_OF_MEAN|1.9||0.03|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.03
92353041|NCT03572218|184611482|SUPERIORITY||Mean Difference (Net)|-2.8|STANDARD_ERROR_OF_MEAN|1.1||0.02|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.02
92353042|NCT03572218|184611482|SUPERIORITY||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|1.2||0.19|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FNE||||0.19
92353043|NCT03572218|184611483|SUPERIORITY||Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|2.1||0.11|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.11
92353044|NCT03572218|184611483|SUPERIORITY||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|1.1||0.03|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.03
92353045|NCT03572218|184611483|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.3||0.53|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FNE||||0.53
92353046|NCT03572218|184611484|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||0.12
92353047|NCT03572218|184611485|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.09|TWO_SIDED||||||Mixed Models Analysis|||||||0.09
92353048|NCT03572218|184611486|SUPERIORITY||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|2.9||0.84|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Impact of Weight on Quality of Life Questionnaire-Lite for Total score||||0.84
92353049|NCT03572218|184611486|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|4.0||0.82|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Physical Function Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.82
92353050|NCT03572218|184611486|SUPERIORITY||Mean Difference (Net)|3.7|STANDARD_ERROR_OF_MEAN|4.3||0.39|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Self Esteem Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.39
92353051|NCT03572218|184611486|SUPERIORITY||Mean Difference (Net)|-4.0|STANDARD_ERROR_OF_MEAN|5.0||0.42|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Sexual Life Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.42
92353052|NCT03572218|184611486|SUPERIORITY||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|4.3||0.64|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Work Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.64
92353053|NCT03572218|184611486|SUPERIORITY||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|3.6||0.59|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Public Distress Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.59
92353054|NCT03572218|184611487|SUPERIORITY||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|3.0||0.58|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Impact of Weight on Quality of Life Questionnaire-Lite for Total score||||0.58
92353055|NCT03572218|184611487|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|4.0||0.89|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Physical Function Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.89
92276148|NCT00408876|184454631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.55||||0.053||95.0|-1.1|0.01|||t-test, 2 sided|||||0.01|-1.10|0.053
92353056|NCT03572218|184611487|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|4.7||0.9|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Self Esteem Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.90
92353057|NCT03572218|184611487|SUPERIORITY||Mean Difference (Net)|-7.1|STANDARD_ERROR_OF_MEAN|5.0||0.16|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Sexual Life Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.16
92276149|NCT00408876|184454631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.65||||0.024||95.0|-1.21|-0.09|||t-test, 2 sided|||||-0.09|-1.21|0.024
92276150|NCT00408876|184454631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.75||||0.03||95.0|-1.43|-0.07|||t-test, 2 sided|||||-0.07|-1.43|0.030
92161252|NCT00606580|184211280|NON_INFERIORITY_OR_EQUIVALENCE|The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.701|||||||Chi-squared|||||||0.701
92161253|NCT01444287|184211288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.636|STANDARD_ERROR_OF_MEAN|0.2093||0.0035||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: No Lenses (control) - narafilcon B (test) = 0. Ha: No Lenses (control) - narafilcon B (test) ≠ 0.||||0.0035
92161254|NCT01444287|184211288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.743|STANDARD_ERROR_OF_MEAN|0.2093||0||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control - Test.|Ho: Polymacon (+ control) - Narafilcon B (test) = 0. Ha: Polymacon (+ control) - Narafilcon B (test) ≠ 0.||||0.0000
92161255|NCT01444287|184211288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0275|STANDARD_ERROR_OF_MEAN|0.2093||0.8957||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: lotrafilcon A (control) - narafilcon B (test) = 0. Ha: lotrafilcon A (control) - narafilcon B (test) ≠ 0.||||0.8957
92161256|NCT01444287|184211289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0057|STANDARD_ERROR_OF_MEAN|0.0031||0.0692||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: No Lenses (control) - narafilcon B (test) = 0. Ha: No Lenses (control) - narafilcon B (test) ≠ 0.||||0.0692
92161257|NCT01444287|184211289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0011|STANDARD_ERROR_OF_MEAN|0.0032||0.7301||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: Polymacon (+ control) - Narafilcon B (test) = 0. Ha: Polymacon (+ control) - Narafilcon B (test) ≠ 0.||||0.7301
92161258|NCT01444287|184211289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0008|STANDARD_ERROR_OF_MEAN|0.0032||0.8055||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: lotrafilcon A (control) - narafilcon B (test) = 0. Ha: lotrafilcon A (control) - narafilcon B (test) ≠ 0.||||0.8055
92161259|NCT01444287|184211290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0122|STANDARD_ERROR_OF_MEAN|0.1111||0.9127||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: No Lenses (control) - narafilcon B (test) = 0. Ha: No Lenses (control) - narafilcon B (test) ≠ 0.||||0.9127
92161260|NCT01444287|184211290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6864|STANDARD_ERROR_OF_MEAN|0.1098||0||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: Polymacon (+ control) - Narafilcon B (test) = 0. Ha: Polymacon (+ control) - Narafilcon B (test) ≠ 0.||||0.0000
92161261|NCT01444287|184211290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1705|STANDARD_ERROR_OF_MEAN|0.1098||0.1256||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: lotrafilcon A (control) - narafilcon B (test) = 0. Ha: lotrafilcon A (control) - narafilcon B (test) ≠ 0.||||0.1256
92161262|NCT01444287|184211291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0688|STANDARD_ERROR_OF_MEAN|5.044||0.9892||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: No Lenses (control) - narafilcon B (test) = 0. Ha: No Lenses (control) - narafilcon B (test) ≠ 0.||||0.9892
92161263|NCT01444287|184211291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.75|STANDARD_ERROR_OF_MEAN|4.984||0.0007||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: Polymacon (+ control) - Narafilcon B (test) = 0. Ha: Polymacon (+ control) - Narafilcon B (test) ≠ 0.||||0.0007
92161264|NCT01444287|184211291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.37|STANDARD_ERROR_OF_MEAN|4.984||0.003||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: lotrafilcon A (control) - narafilcon B (test) = 0. Ha: lotrafilcon A (control) - narafilcon B (test) ≠ 0.||||0.0030
92161265|NCT04889118|184211307|SUPERIORITY|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|0.55||||0.0013|TWO_SIDED|95.0|0.37|0.81||One-sided p-value based on log-rank test.|Log Rank||HR=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|||0.81|0.37|0.0013
92161266|NCT04889118|184211308|SUPERIORITY|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|Hazard Ratio (HR)|0.93||||0.3728|TWO_SIDED|95.0|0.58|1.48||One-sided p-value based on log-rank test|Log Rank||HR=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|||1.48|0.58|0.3728
92161267|NCT00601640|184211317|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Fisher Exact|||||||0.022
92161268|NCT02427737|184211320|SUPERIORITY||||||<|0.0001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Comparison among trained and untrained sites||||<0.0001
92161269|NCT02427737|184211320|SUPERIORITY|||||||0.3037||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Change in the average quarterly completion rate as compared to the baseline quarter||||0.3037
92161270|NCT02427737|184211320|SUPERIORITY||||||<|0.01||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Change in the average quarterly completion rate as compared to the baseline quarter||||<0.01
92161271|NCT02427737|184211321|SUPERIORITY||||||<|0.0001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Comparison among trained and untrained sites||||<0.0001
92161272|NCT02427737|184211321|SUPERIORITY|||||||0.201||||||Bonferroni-correction was not done since the corrected p-value would be have been greater than 1.|Chi-squared|||Change in the average quarterly completion rate as compared to the baseline quarter||||0.2010
92161273|NCT02427737|184211321|SUPERIORITY||||||<|0.001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared|||Change in the average quarterly completion rate as compared to the baseline quarter||||<0.001
92353058|NCT03572218|184611487|SUPERIORITY||Mean Difference (Net)|1.8|STANDARD_ERROR_OF_MEAN|4.3||0.68|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Work Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.68
92353059|NCT03572218|184611487|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|3.6||0.72|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Public Distress Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.72
92353060|NCT03572218|184611488|SUPERIORITY||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|1.7||0.08|TWO_SIDED||||||Mixed Models Analysis|||||||0.08
92353061|NCT03572218|184611489|SUPERIORITY||Mean Difference (Net)|-2.9|STANDARD_ERROR_OF_MEAN|1.7||0.1|TWO_SIDED||||||Mixed Models Analysis|||||||0.10
92353062|NCT03572218|184611490|SUPERIORITY||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|1.1||0.4|TWO_SIDED||||||Mixed Models Analysis|||||||0.40
92353063|NCT03572218|184611491|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|1.1||0.98|TWO_SIDED||||||Mixed Models Analysis|||||||0.98
92353064|NCT03572218|184611492|SUPERIORITY||Mean Difference (Net)|9.7|STANDARD_ERROR_OF_MEAN|6.5||0.14|TWO_SIDED||||||Mixed Models Analysis|||||||0.14
92353065|NCT03572218|184611493|SUPERIORITY||Mean Difference (Net)|12.1|STANDARD_ERROR_OF_MEAN|6.5||0.06|TWO_SIDED||||||Mixed Models Analysis|||||||0.06
92276151|NCT00408876|184454631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.85||||0.014||95.0|-1.54|-0.17|||t-test, 2 sided|||||-0.17|-1.54|0.014
92353066|NCT03572218|184611494|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|4.4||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
92353067|NCT03572218|184611495|SUPERIORITY||Mean Difference (Net)|3.1|STANDARD_ERROR_OF_MEAN|4.4||0.49|TWO_SIDED||||||Mixed Models Analysis|||||||0.49
92353068|NCT03572218|184611496|SUPERIORITY||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|1.4||0.31|TWO_SIDED||||||Mixed Models Analysis|||||||0.31
92353069|NCT03572218|184611497|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|1.3||0.54|TWO_SIDED||||||Mixed Models Analysis|||||||0.54
92353070|NCT03572218|184611498|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|2.2||0.94|TWO_SIDED||||||Mixed Models Analysis|||Systolic Blood Pressure||||0.94
92353071|NCT03572218|184611498|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|1.6||0.64|TWO_SIDED||||||Mixed Models Analysis|||Diastolic Blood Pressure||||0.64
92353072|NCT03572218|184611499|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.58|TWO_SIDED||||||Mixed Models Analysis|||Full Scale||||0.58
92353073|NCT03572218|184611499|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.49|TWO_SIDED||||||Mixed Models Analysis|||Negative Affect||||0.49
92353074|NCT03572218|184611499|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.96|TWO_SIDED||||||Mixed Models Analysis|||Maladaptive Eating||||0.96
92353075|NCT03572218|184611499|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.71|TWO_SIDED||||||Mixed Models Analysis|||Healthy Lifestyle||||0.71
92353076|NCT03572218|184611499|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.41|TWO_SIDED||||||Mixed Models Analysis|||Exercise Avoidance||||0.41
92353077|NCT03572218|184611500|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.61|TWO_SIDED||||||Mixed Models Analysis|||Full Scale||||0.61
92161274|NCT02427737|184211322|SUPERIORITY||||||<|0.0001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared|||Comparison among trained and untrained sites||||<0.0001
92353078|NCT03572218|184611500|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.73|TWO_SIDED||||||Mixed Models Analysis|||Negative Affect||||0.73
92353079|NCT03572218|184611500|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.94|TWO_SIDED||||||Mixed Models Analysis|||Maladaptive Eating||||0.94
92353080|NCT03572218|184611500|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.47|TWO_SIDED||||||Mixed Models Analysis|||Healthy Lifestyle||||0.47
92353081|NCT03572218|184611500|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.99|TWO_SIDED||||||Mixed Models Analysis|||Exercise Avoidance||||0.99
92353082|NCT03572218|184611501|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
92353083|NCT03572218|184611502|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
92353084|NCT03572218|184611503|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.53|TWO_SIDED||||||Mixed Models Analysis|||||||0.53
92353085|NCT03572218|184611504|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.24|TWO_SIDED||||||Mixed Models Analysis|||||||0.24
92353086|NCT03572218|184611505|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.83|TWO_SIDED||||||Mixed Models Analysis|||Global||||0.83
92353087|NCT03572218|184611505|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.69|TWO_SIDED||||||Mixed Models Analysis|||Eating Restraint||||0.69
92353088|NCT03572218|184611505|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3|TWO_SIDED||||||Mixed Models Analysis|||Eating Concern||||0.30
92353089|NCT03572218|184611505|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.99|TWO_SIDED||||||Mixed Models Analysis|||Weight Concern||||0.99
92276152|NCT00408876|184454631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.727||95.0|-0.66|0.46|||t-test, 2 sided|||||0.46|-0.66|0.727
92353090|NCT03572218|184611505|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.36|TWO_SIDED||||||Mixed Models Analysis|||Shape Concern||||0.36
92353091|NCT03572218|184611506|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3|TWO_SIDED||||||Mixed Models Analysis|||Global||||0.30
92353092|NCT03572218|184611506|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.69|TWO_SIDED||||||Mixed Models Analysis|||Eating Restraint||||0.69
92353093|NCT03572218|184611506|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7|TWO_SIDED||||||Mixed Models Analysis|||Eating Concern||||0.70
92353094|NCT03572218|184611506|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.26|TWO_SIDED||||||Mixed Models Analysis|||Weight Concern||||0.26
92353095|NCT03572218|184611506|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.18|TWO_SIDED||||||Mixed Models Analysis|||Shape Concern||||0.18
92276153|NCT00408876|184454632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.813||95.0|-0.63|0.8|||t-test, 2 sided|||||0.80|-0.63|0.813
92220317|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.24|||||TWO_SIDED|95.0|1.05|1.47|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 9V||1.47|1.05|
92220318|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.22|||||TWO_SIDED|95.0|1.03|1.44|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 10A||1.44|1.03|
92220319|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.18|||||TWO_SIDED|95.0|0.98|1.42|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 11A||1.42|0.98|
92353096|NCT03572218|184611507|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|1.0||0.69|TWO_SIDED||||||Mixed Models Analysis|||Dietary Restraint||||0.69
92353097|NCT03572218|184611507|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.8||0.28|TWO_SIDED||||||Mixed Models Analysis|||Disinhibition||||0.28
92353098|NCT03572218|184611507|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.8||0.02|TWO_SIDED||||||Mixed Models Analysis|||Hunger||||0.02
92220320|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.2|||||TWO_SIDED|95.0|0.99|1.46|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 12F||1.46|0.99|
92220321|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.42|||||TWO_SIDED|95.0|1.21|1.67|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 14||1.67|1.21|
92220322|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.46|||||TWO_SIDED|95.0|1.22|1.76|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 15B||1.76|1.22|
92220323|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.29|||||TWO_SIDED|95.0|1.07|1.55|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 18C||1.55|1.07|
92353099|NCT03572218|184611508|SUPERIORITY||Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|1.1||0.29|TWO_SIDED||||||Mixed Models Analysis|||Dietary Restraint||||0.29
92353100|NCT03572218|184611508|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.8||0.34|TWO_SIDED||||||Mixed Models Analysis|||Disinhibition||||0.34
92220324|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.39|||||TWO_SIDED|95.0|1.2|1.61|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 19A||1.61|1.20|
92276154|NCT00408876|184454632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.63||||0.035||95.0|-1.21|-0.04|||t-test, 2 sided|||||-0.04|-1.21|0.035
92276155|NCT00408876|184454632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.58||||0.054||95.0|-1.17|0.01|||t-test, 2 sided|||||0.01|-1.17|0.054
92353101|NCT03572218|184611508|SUPERIORITY||Mean Difference (Net)|-2.5|STANDARD_ERROR_OF_MEAN|0.8||0.001|TWO_SIDED||||||Mixed Models Analysis|||Hunger||||0.001
92353102|NCT03572218|184611509|SUPERIORITY||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|1.1||0.32|TWO_SIDED||||||Mixed Models Analysis|||||||0.32
92353103|NCT03572218|184611510|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.2||0.16|TWO_SIDED||||||Mixed Models Analysis|||||||0.16
92353104|NCT03572218|184611511|SUPERIORITY||Mean Difference (Net)|2.6|STANDARD_ERROR_OF_MEAN|4.8||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||0.59
92353105|NCT03572218|184611512|SUPERIORITY||Mean Difference (Net)|-10.2|STANDARD_ERROR_OF_MEAN|13.1||0.44|TWO_SIDED||||||Mixed Models Analysis|||||||0.44
92353106|NCT03572218|184611513|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.46|TWO_SIDED||||||Mixed Models Analysis|||Self-Reported Weighing||||0.46
92353107|NCT03572218|184611513|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|0.4||0.12|TWO_SIDED||||||Mixed Models Analysis|||Track Food/Drink||||0.12
92353108|NCT03572218|184611513|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.42|TWO_SIDED||||||Mixed Models Analysis|||Track Calories||||0.42
92353109|NCT03572218|184611513|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|0.4||0.03|TWO_SIDED||||||Mixed Models Analysis|||Track Activity||||0.03
92276156|NCT00408876|184454632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.71||||0.051||95.0|-1.43|0.0|||t-test, 2 sided|||||0.00|-1.43|0.051
92353110|NCT03572218|184611514|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.3||0.23|TWO_SIDED||||||Mixed Models Analysis|||Self-Reported Weighing||||0.23
92353111|NCT03572218|184611514|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.4||0.9|TWO_SIDED||||||Mixed Models Analysis|||Track Food/Drink||||0.90
92353112|NCT03572218|184611514|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.5||0.36|TWO_SIDED||||||Mixed Models Analysis|||Track Calories||||0.36
92353113|NCT03572218|184611514|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|0.4||0.29|TWO_SIDED||||||Mixed Models Analysis|||Track Activity||||0.29
92353114|NCT03572218|184611515|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.25|TWO_SIDED||||||Mixed Models Analysis|||||||0.25
92353115|NCT03572218|184611516|SUPERIORITY||Mean Difference (Net)|-2.5|STANDARD_ERROR_OF_MEAN|2.2||0.27|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.27
92353116|NCT03572218|184611516|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|1.2||0.13|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.13
92353117|NCT03572218|184611516|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|1.4||0.65|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FNE||||0.65
92400752|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.382|||<|0.0001||95.0|2.494|6.269|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.269|2.494|<.0001
92400753|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.459|||<|0.0001||95.0|2.558|6.361|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.361|2.558|<.0001
92161275|NCT02427737|184211322|SUPERIORITY|||||||0.303||||||"Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.~Chi-square analysis was used to assess equipment utilization at trained sites compared with untrained sites when stratifying by time (chi-square MH = 858.2)."|Chi-squared|||Change in the quarterly equipment utilization rate as compared to the baseline quarter Q4FY15 over time and at sites||||0.303
92161276|NCT02427737|184211322|SUPERIORITY||||||<|0.001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Change in the average quarterly completion rate as compared to the baseline quarter||||<0.001
92353118|NCT03572218|184611517|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.21|TWO_SIDED||||||Mixed Models Analysis|||||||0.21
92353119|NCT03572218|184611518|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.2||0.7|TWO_SIDED||||||Mixed Models Analysis|||||||0.7
92353120|NCT03572218|184611519|SUPERIORITY||Mean Difference (Net)|-2.3|STANDARD_ERROR_OF_MEAN|1.8||0.2|TWO_SIDED||||||Mixed Models Analysis|||||||0.2
92353121|NCT03572218|184611520|SUPERIORITY||Mean Difference (Net)|3.7|STANDARD_ERROR_OF_MEAN|6.9||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||0.59
92353122|NCT03572218|184611521|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|3.5||0.81|TWO_SIDED||||||Mixed Models Analysis|||Total||||0.81
92353123|NCT03572218|184611521|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|4.4||0.86|TWO_SIDED||||||Mixed Models Analysis|||Physical Function||||0.86
92353124|NCT03572218|184611521|SUPERIORITY||Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|7.0||0.87|TWO_SIDED||||||Mixed Models Analysis|||Self Esteem||||0.87
92353125|NCT03572218|184611521|SUPERIORITY||Mean Difference (Net)|1.8|STANDARD_ERROR_OF_MEAN|5.2||0.73|TWO_SIDED||||||Mixed Models Analysis|||Sexual Life||||0.73
92353126|NCT03572218|184611521|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|4.4||0.95|TWO_SIDED||||||Mixed Models Analysis|||Work||||0.95
92353127|NCT03572218|184611521|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|3.8||0.19|TWO_SIDED||||||Mixed Models Analysis|||Public Distress||||0.19
92353128|NCT03572218|184611522|SUPERIORITY||Mean Difference (Net)|7.3|STANDARD_ERROR_OF_MEAN|4.9||0.14|TWO_SIDED||||||Mixed Models Analysis|||||||0.14
92353129|NCT03572218|184611523|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|1.5||0.53|TWO_SIDED||||||Mixed Models Analysis|||||||0.53
92353130|NCT03572218|184611524|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.5||0.99|TWO_SIDED||||||Mixed Models Analysis|||||||0.99
92353131|NCT03572218|184611525|SUPERIORITY||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|3.6||0.71|TWO_SIDED||||||Mixed Models Analysis|||Systolic Blood Pressure||||0.71
92353132|NCT03572218|184611525|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|1.9||0.72|TWO_SIDED||||||Mixed Models Analysis|||Diastolic Blood Pressure||||0.72
92353133|NCT03572218|184611526|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.07|TWO_SIDED||||||Mixed Models Analysis|||||||0.07
92353134|NCT03572218|184611527|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.52|TWO_SIDED||||||Mixed Models Analysis|||Full Scale||||0.52
92353135|NCT03572218|184611527|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.02|TWO_SIDED||||||Mixed Models Analysis|||Negative Affect||||0.02
92353136|NCT03572218|184611527|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.63|TWO_SIDED||||||Mixed Models Analysis|||Maladaptive Eating||||0.63
92353137|NCT03572218|184611527|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.4||0.74|TWO_SIDED||||||Mixed Models Analysis|||Exercise Avoidance||||0.74
92353138|NCT03572218|184611527|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.49|TWO_SIDED||||||Mixed Models Analysis|||Healthy Lifestyle||||0.49
92353139|NCT03572218|184611528|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.33|TWO_SIDED||||||Mixed Models Analysis|||||||0.33
92400754|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.598|||<|0.0001||95.0|2.65|6.547|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.547|2.650|<.0001
92220325|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.33|||||TWO_SIDED|95.0|1.12|1.57|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 19F||1.57|1.12|
92400755|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.676|||<|0.0001||95.0|2.689|6.662|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.662|2.689|<.0001
92400756|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.815|||<|0.0001||95.0|2.741|6.889|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.889|2.741|<.0001
92276157|NCT00408876|184454632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.67||||0.07||95.0|-1.39|0.05|||t-test, 2 sided|||||0.05|-1.39|0.070
92276158|NCT00408876|184454632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.872||95.0|-0.54|0.64|||t-test, 2 sided|||||0.64|-0.54|0.872
92276159|NCT00408876|184454633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.79||95.0|-0.68|0.89|||t-test, 2 sided|||||0.89|-0.68|0.790
92276160|NCT00408876|184454633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.93||||0.005||95.0|-1.57|-0.28|||t-test, 2 sided|||||-0.28|-1.57|0.005
92276161|NCT00408876|184454633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87||||0.009||95.0|-1.52|-0.22|||t-test, 2 sided|||||-0.22|-1.52|0.009
92276162|NCT00408876|184454633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.03||||0.011||95.0|-1.83|-0.24|||t-test, 2 sided|||||-0.24|-1.83|0.011
92276163|NCT00408876|184454633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97||||0.016||95.0|-1.77|-0.18|||t-test, 2 sided|||||-0.18|-1.77|0.016
92276164|NCT00408876|184454633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06||||0.857||95.0|-0.6|0.72|||t-test, 2 sided|||||0.72|-0.60|0.857
92276165|NCT00408876|184454634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.948||95.0|-0.81|0.76|||t-test, 2 sided|||||0.76|-0.81|0.948
92276166|NCT00408876|184454634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.55||||0.096||95.0|-1.2|0.1|||t-test, 2 sided|||||0.10|-1.20|0.096
92276167|NCT00408876|184454634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.239||95.0|-1.05|0.26|||t-test, 2 sided|||||0.26|-1.05|0.239
92276168|NCT00408876|184454634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53||||0.196||95.0|-1.32|0.27|||t-test, 2 sided|||||0.27|-1.32|0.196
92276169|NCT00408876|184454634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37||||0.367||95.0|-1.17|0.43|||t-test, 2 sided|||||0.43|-1.17|0.367
92276170|NCT00408876|184454634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.637||95.0|-0.5|0.82|||t-test, 2 sided|||||0.82|-0.50|0.637
92400757|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.892|||<|0.0001||95.0|2.76|7.024|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||7.024|2.760|<.0001
92276171|NCT00408876|184454635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.887||95.0|-0.76|0.65|||t-test, 2 sided|||||0.65|-0.76|0.887
92276172|NCT00408876|184454635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.81||||0.006||95.0|-1.4|-0.23|||t-test, 2 sided|||||-0.23|-1.40|0.006
92276173|NCT00408876|184454635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26||||0.392||95.0|-0.84|0.33|||t-test, 2 sided|||||0.33|-0.84|0.392
92276174|NCT00408876|184454635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.76||||0.036||95.0|-1.48|-0.05|||t-test, 2 sided|||||-0.05|-1.48|0.036
92276175|NCT00408876|184454635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.573||95.0|-0.92|0.51|||t-test, 2 sided|||||0.51|-0.92|0.573
92276176|NCT00408876|184454635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56||||0.064||95.0|-0.03|1.15|||t-test, 2 sided|||||1.15|-0.03|0.064
92276177|NCT00408876|184454636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.374||95.0|-1.15|0.43|||t-test, 2 sided|||||0.43|-1.15|0.374
92276178|NCT00408876|184454636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.007||95.0|-1.55|-0.25|||t-test, 2 sided|||||-0.25|-1.55|0.007
92276179|NCT00408876|184454636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46||||0.169||95.0|-1.12|0.2|||t-test, 2 sided|||||0.20|-1.12|0.169
92276180|NCT00408876|184454636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.54||||0.182||95.0|-1.35|0.26|||t-test, 2 sided|||||0.26|-1.35|0.182
92276181|NCT00408876|184454636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.802||95.0|-0.91|0.7|||t-test, 2 sided|||||0.70|-0.91|0.802
92276182|NCT00408876|184454636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.44||||0.191||95.0|-0.22|1.11|||t-test, 2 sided|||||1.11|-0.22|0.191
92276183|NCT00408876|184454637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.556||95.0|-1.1|0.59|||t-test, 2 sided|||||0.59|-1.10|0.556
92276184|NCT00408876|184454637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.73||||0.041||95.0|-1.42|-0.03|||t-test, 2 sided|||||-0.03|-1.42|0.041
92276185|NCT00408876|184454637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.22||95.0|-1.14|0.26|||t-test, 2 sided|||||0.26|-1.14|0.220
92276186|NCT00408876|184454637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.278||95.0|-1.33|0.38|||t-test, 2 sided|||||0.38|-1.33|0.278
92276187|NCT00408876|184454637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.673||95.0|-1.04|0.68|||t-test, 2 sided|||||0.68|-1.04|0.673
92353140|NCT03572218|184611529|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|1.2||0.11|TWO_SIDED||||||Mixed Models Analysis|||||||0.11
92353141|NCT03572218|184611530|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.35|TWO_SIDED||||||Mixed Models Analysis|||Global||||0.35
92353142|NCT03572218|184611530|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.46|TWO_SIDED||||||Mixed Models Analysis|||Eating Restraint||||0.46
92353143|NCT03572218|184611530|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.33|TWO_SIDED||||||Mixed Models Analysis|||Eating Concern||||0.33
92353144|NCT03572218|184611530|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.18|TWO_SIDED||||||Mixed Models Analysis|||Weight Concern||||0.18
92353145|NCT03572218|184611530|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.16|TWO_SIDED||||||Mixed Models Analysis|||Shape Concern||||0.16
92353146|NCT03572218|184611531|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|1.3||0.82|TWO_SIDED||||||Mixed Models Analysis|||Dietary Restraint||||0.82
92353147|NCT03572218|184611531|SUPERIORITY||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.8||0.45|TWO_SIDED||||||Mixed Models Analysis|||Disinhibition||||0.45
92353148|NCT03572218|184611531|SUPERIORITY||Mean Difference (Net)|-2.2|STANDARD_ERROR_OF_MEAN|0.8||0.007|TWO_SIDED||||||Mixed Models Analysis|||Hunger||||0.007
92353149|NCT03572218|184611532|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.3||0.23|TWO_SIDED||||||Mixed Models Analysis|||Self-Reported Weighing||||0.23
92353150|NCT03572218|184611532|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.48|TWO_SIDED||||||Mixed Models Analysis|||Track Food/Drink||||0.48
92353151|NCT03572218|184611532|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.89|TWO_SIDED||||||Mixed Models Analysis|||Track Calories||||0.89
92353152|NCT03572218|184611532|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.5||0.3|TWO_SIDED||||||Mixed Models Analysis|||Track Activity||||0.30
92353153|NCT03572218|184611533|SUPERIORITY|||||||0.32|||||||ANOVA|||BWL component||||0.32
92353154|NCT03572218|184611534|SUPERIORITY|||||||0.14|||||||ANOVA|||||||0.14
92353155|NCT02507284|184611536|NON_INFERIORITY|Results for the secondary safety endpoint, adverse events (AEs) in study subjects, was performed using a test for non-inferiority with a threshold of 0.50. The null hypothesis is that the treatment minus placebo proportion difference is greater than (or equal to) the margin of 0.50 and the alternative hypothesis is that the difference is less than 0.50.|Risk Ratio (RR)|0.025||||0.5|ONE_SIDED|97.5|||||t-test, 1 sided|||||||0.50
92353156|NCT01350973|184611537|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.876|TWO_SIDED|95.0|-4.2491|4.983||An ANCOVA model was employed, using the baseline triglyceride level as covariate and the treatment group as an independent variable.|ANCOVA|||||4.9830|-4.2491|0.8760
92353157|NCT01350973|184611537|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.35|||<|0.0001|TWO_SIDED|95.0|-15.9442|-6.7637||An ANCOVA model was employed, using the baseline triglyceride level as covariate and the treatment group as an independent variable.|ANCOVA|||||-6.7637|-15.9442|< 0.0001
92353158|NCT06765889|184611568|OTHER||Bayes Factor (BF₁₀)|0.03|||||TWO_SIDED|||||||||||||
92353159|NCT06765889|184611571|OTHER||Mean (of both conditions)|4.17|||||TWO_SIDED|||||||||||||
92353160|NCT02935036|184611621|SUPERIORITY||LS Mean Difference|1.33||||0.5947|TWO_SIDED||||||ANOVA|||||||0.5947
92353161|NCT02935036|184611622|SUPERIORITY||LS Mean Difference|2.75||||0.2912|TWO_SIDED||||||ANOVA|||||||0.2912
92276188|NCT00408876|184454637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.29||||0.422||95.0|-0.42|1.0|||t-test, 2 sided|||||1.00|-0.42|0.422
92353162|NCT02935036|184611623|SUPERIORITY||Percent difference|2.4||||0.692|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.6920
92353163|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.01|||||TWO_SIDED|95.0|0.01|0.01|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age 18 to 34||0.01|0.01|
92353164|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.01|||||TWO_SIDED|95.0|0.01|0.01|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age 35 to 44||0.01|0.01|
92353165|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.03|||||TWO_SIDED|95.0|0.03|0.04|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age 45 to 54||0.04|0.03|
92353166|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.08|||||TWO_SIDED|95.0|0.07|0.09|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age 55 to 64||0.09|0.07|
92353167|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.12|||||TWO_SIDED|95.0|0.11|0.14|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age 65 to 74||0.14|0.11|
92353168|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.18|||||TWO_SIDED|95.0|0.15|0.21|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age ≥75||0.21|0.15|
92353169|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.09|||||TWO_SIDED|95.0|0.06|0.13|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Age 18 to 34||0.13|0.06|
92353170|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.11|||||TWO_SIDED|95.0|0.08|0.16|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Age 35 to 44||0.16|0.08|
92353171|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.37|||||TWO_SIDED|95.0|0.3|0.45|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Age 45 to 54||0.45|0.30|
92353172|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.83|||||TWO_SIDED|95.0|2.68|5.47|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Age 65 to 74||5.47|2.68|
92400758|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.031|||<|0.0001||95.0|2.78|7.283|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||7.283|2.780|<.0001
92400759|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.109|||<|0.0001||95.0|2.783|7.435|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||7.435|2.783|<.0001
92400760|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.248|||<|0.0001||95.0|2.776|7.72|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||7.720|2.776|<.0001
92400761|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.325|||<|0.0001||95.0|2.767|7.884|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||7.884|2.767|<.0001
92400762|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.464|||<|0.0001||95.0|2.741|8.188|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||8.188|2.741|<.0001
92400763|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.542||||0.0001||95.0|2.723|8.361|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||8.361|2.723|0.0001
92161277|NCT02427737|184211323|SUPERIORITY||||||<|0.0001||||||CMH test was used with time as a strata variable (rather than pooling all data together as in the regular chi-squared test). The CMH chi-squared value was 858.2, and the regular chi-squared value was 858.8.|Chi-squared, Corrected|Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.||||||<0.0001
92161278|NCT02427737|184211324|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92161279|NCT02427737|184211326|SUPERIORITY|||||||0.2357||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Comparison among trained and untrained sites||||0.2357
92161280|NCT02427737|184211326|SUPERIORITY|||||||0.8523||||||No Bonferroni-correction|Chi-squared|||Change in the quarterly no-shows as compared to the baseline quarter||||0.8523
92161281|NCT02427737|184211326|SUPERIORITY|||||||0.5883||||||Bonferroni-correction was not done for this nonsignificant result since the corrected p-value would be have been greater than 1, which is not possible.|Chi-squared|||Change in the quarterly average no-show rate as compared to the baseline quarter at untrained sites||||0.5883
92161282|NCT02427737|184211327|SUPERIORITY|||||||0.0195||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Comparison among trained and untrained sites||||0.0195
92400764|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.681||||0.0002||95.0|2.683|8.679|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||8.679|2.683|0.0002
92400765|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.758||||0.0003||95.0|2.657|8.859|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||8.859|2.657|0.0003
92161283|NCT02427737|184211327|SUPERIORITY|||||||0.276||||||No Bonferroni-correction|Chi-squared|||Change in the quarterly no-shows compared to the baseline quarter||||0.276
92161284|NCT02427737|184211327|SUPERIORITY|||||||0.2764||||||No Bonferroni-correction|Chi-squared|||Change in the quarterly no-shows as compared to the baseline quarter at untrained sites||||0.2764
92161285|NCT02427737|184211328|SUPERIORITY||||||<|0.01||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Comparison among trained and untrained sites||||<0.01
92161286|NCT02427737|184211328|SUPERIORITY|||||||0.9012||||||Bonferroni-correction was not done since the corrected p-value would be have been greater than 1.|Chi-squared|||Change in the quarterly average no show rate as compared to the baseline quarter for trained sites||||0.9012
92400766|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.898||||0.0004||95.0|2.607|9.188|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||9.188|2.607|0.0004
92161287|NCT02427737|184211328|SUPERIORITY|||||||0.9065||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Change in the quarterly average no-show rate as compared to the baseline quarter for untrained sites||||0.9065
92161288|NCT02427737|184211329|SUPERIORITY||||||<|0.0001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|CMH test with time as a strata variable was 28.7; chi-square value with pooling all data together was 28.6||Comparison among trained and untrained sites over time||||<0.0001
92353173|NCT01260324|184611624|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.73|||||TWO_SIDED|95.0|4.0|8.22|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Age ≥75||8.22|4.00|
92353174|NCT01260324|184611625|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.04|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Female||0.05|0.04|
92353175|NCT01260324|184611625|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.05|0.06|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Male||0.06|0.05|
92353176|NCT01260324|184611625|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.83|||||TWO_SIDED|95.0|1.5|2.22|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Male||2.22|1.50|
92353177|NCT01260324|184611626|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Year 2003||0.05|0.04|
92353178|NCT01260324|184611626|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Year 2004||0.05|0.04|
92353179|NCT01260324|184611626|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Year 2005||0.05|0.04|
92353180|NCT01260324|184611626|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.04|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Year 2006||0.05|0.04|
92353181|NCT01260324|184611626|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Year 2007||0.05|0.04|
92353182|NCT01260324|184611626|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.61|0.96|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Year 2004||0.96|0.61|
92353183|NCT01260324|184611626|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.58|0.91|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Year 2005||0.91|0.58|
92353184|NCT01260324|184611626|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.68|1.12|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Year 2006||1.12|0.68|
92353185|NCT01260324|184611626|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.72|1.19|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Year 2007||1.19|0.72|
92353186|NCT01260324|184611627|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.06|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Northeast||0.06|0.04|
92353187|NCT01260324|184611627|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Midwest||0.05|0.04|
92161289|NCT02427737|184211334|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92161290|NCT02427737|184211335|SUPERIORITY|||||||0.2396|||||||Chi-squared|||||||0.2396
92353188|NCT01260324|184611627|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.05|0.06|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate South||0.06|0.05|
92353189|NCT01260324|184611627|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.04|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate West||0.05|0.04|
92353190|NCT01260324|184611627|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.41|||||TWO_SIDED|95.0|0.31|0.56|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Northeast||0.56|0.31|
92353191|NCT01260324|184611627|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.68|||||TWO_SIDED|95.0|0.56|0.84|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Midwest||0.84|0.56|
92353192|NCT01260324|184611627|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.57|0.93|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio West||0.93|0.57|
92353193|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.09|||||TWO_SIDED|95.0|0.08|0.1|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Diabetes||0.10|0.08|
92353194|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.11|||||TWO_SIDED|95.0|0.08|0.14|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Smoking||0.14|0.08|
92353195|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.04|||||TWO_SIDED|95.0|0.03|0.06|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Obesity||0.06|0.03|
92161291|NCT02427737|184211336|SUPERIORITY|||||||0.5267|||||||Chi-squared|||||||0.5267
92161292|NCT02427737|184211337|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92353196|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.07|||||TWO_SIDED|95.0|0.06|0.09|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Nitrates||0.09|0.06|
92400767|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.975||||0.0006||95.0|2.576|9.374|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||9.374|2.576|0.0006
92400768|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.114||||0.0009||95.0|2.517|9.711|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||9.711|2.517|0.0009
92400769|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.191||||0.0011||95.0|2.482|9.9|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||9.900|2.482|0.0011
92400770|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.331||||0.0015||95.0|2.417|10.244|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||10.244|2.417|0.0015
92161293|NCT02427737|184211338|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92220326|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.34|||||TWO_SIDED|95.0|1.12|1.6|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 22F||1.60|1.12|
92353197|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.15|||||TWO_SIDED|95.0|0.12|0.18|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Anti-platelet agents||0.18|0.12|
92353198|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.13|||||TWO_SIDED|95.0|0.09|0.17|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Diuretics||0.17|0.09|
92353199|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.03|||||TWO_SIDED|95.0|0.01|0.04|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Recent PDE-5 inhibitors use||0.04|0.01|
92400771|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.408||||0.0018||95.0|2.379|10.436|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||10.436|2.379|0.0018
92353200|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.82|||||TWO_SIDED|95.0|1.47|2.25|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Diabetes||2.25|1.47|
92353201|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.63|2.85|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Smoking||2.85|0.63|
92353202|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.43|||||TWO_SIDED|95.0|0.23|0.81|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Obesity||0.81|0.23|
92353203|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.63|||||TWO_SIDED|95.0|0.42|0.94|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Nitrates||0.94|0.42|
92353204|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.12|||||TWO_SIDED|95.0|1.53|2.94|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Anti-platelet agents||2.94|1.53|
92400772|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.547||||0.0025||95.0|2.309|10.785|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||10.785|2.309|0.0025
92400773|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.624||||0.0029||95.0|2.269|10.98|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||10.980|2.269|0.0029
92400774|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.764||||0.0037||95.0|2.195|11.332|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||11.332|2.195|0.0037
92276189|NCT00408876|184454638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.234||95.0|-1.03|0.25|||t-test, 2 sided|||||0.25|-1.03|0.234
92276190|NCT00408876|184454638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.93|||<|0.001||95.0|-1.46|-0.4|||t-test, 2 sided|||||-0.40|-1.46|<0.001
92161294|NCT00543725|184211339|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|3.7|||<|0.0001||95.0|-1.6|9.0||Significance level was set at 2.5% (one-sided). No adjustment of p-value for multiple comparisons, since there was only single comparison for the primary endpoint.|Regression, Logistic|Logistic regression model included treatment arm and background NRTI regimen as factors, and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|Assuming a response rate of 75% at 48 weeks for both treatment groups, 340 subjects were needed per treatment (TMC278 or EFV) to establish non-inferiority of TMC278 versus EFV with a maximum allowable difference of 12% and a 1-sided significance level of 2.5%, to yield 95% power.||9.0|-1.6|<0.0001
92161295|NCT00543725|184211340|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|3.9|||<|0.0001||95.0|-1.9|9.6|||Regression, Logistic|Logistic regression model included treatment arm and background NRTI regimen as factors, and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|||9.6|-1.9|<0.0001
92161296|NCT00543725|184211341|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|2.4|||<|0.0001||95.0|-3.6|8.4||Significance level was set at 2.5% (one-sided). No adjustment of p-value for multiple comparisons, since there was only single comparison for the primary endpoint.|Regression, Logistic|Logistic regression model included treatment arm and background NRTI regimen as factors, and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|Assuming a response rate of 75% at 48 weeks for both treatment groups, 340 subjects were needed per treatment (TMC278 or EFV) to establish non-inferiority of TMC278 versus EFV with a maximum allowable difference of 12% and a 1-sided significance level of 2.5%, to yield 95% power.||8.4|-3.6|<0.0001
92220327|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.36|||||TWO_SIDED|95.0|1.09|1.71|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 23F||1.71|1.09|
92276191|NCT00408876|184454638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.213||95.0|-0.87|0.2|||t-test, 2 sided|||||0.20|-0.87|0.213
92353205|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.24|||||TWO_SIDED|95.0|1.46|3.43|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Diuretics||3.43|1.46|
92353206|NCT01260324|184611628|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.57|||||TWO_SIDED|95.0|0.31|1.04|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Recent PDE-5 inhibitors use||1.04|0.31|
92353207|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.33|||||TWO_SIDED|95.0|0.28|0.39|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Other retinal disorders||0.39|0.28|
92353208|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.13|||||TWO_SIDED|95.0|0.11|0.16|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Glaucoma||0.16|0.11|
92353209|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.2|||||TWO_SIDED|95.0|0.08|0.41|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Cataract||0.41|0.08|
92353210|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.99|||||TWO_SIDED|95.0|0.83|1.17|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Visual disturbances||1.17|0.83|
92353211|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|2.0|||||TWO_SIDED|95.0|1.6|2.46|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Blindness and low vision||2.46|1.60|
92353212|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.19|||||TWO_SIDED|95.0|0.16|0.23|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Other disorders of eye||0.23|0.16|
92353213|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.22|||||TWO_SIDED|95.0|0.18|0.27|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Occlusion and stenosis of precerebral arteries||0.27|0.18|
92353214|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.07|||||TWO_SIDED|95.0|0.05|0.08|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Acute sinusitis||0.08|0.05|
92353215|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.06|||||TWO_SIDED|95.0|0.05|0.08|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Other dermatoses||0.08|0.05|
92353216|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.08|||||TWO_SIDED|95.0|0.06|0.1|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Other disorders of bone and cartilage||0.10|0.06|
92353217|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.12|||||TWO_SIDED|95.0|0.1|0.14|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Symptoms involving head and neck||0.14|0.10|
92353218|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.14|||||TWO_SIDED|95.0|0.1|0.18|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Other ill defined and unknown causes of morbidity and mortality||0.18|0.10|
92353219|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.65|||||TWO_SIDED|95.0|4.72|9.38|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Other retinal disorders||9.38|4.72|
92353220|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.6|||||TWO_SIDED|95.0|1.77|3.81|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Glaucoma||3.81|1.77|
92353221|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.31|||||TWO_SIDED|95.0|1.02|1.68|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Cataract||1.68|1.02|
92353222|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|14.2|||||TWO_SIDED|95.0|10.4|19.3|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Visual disturbances||19.30|10.40|
92353223|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|15.1|||||TWO_SIDED|95.0|6.6|34.5|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Blindness and low vision||34.50|6.60|
92353224|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.02|||||TWO_SIDED|95.0|1.44|2.82|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Other disorders of eye||2.82|1.44|
92353225|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.64|2.31|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Occlusion and stenosis of precerebral arteries||2.31|0.64|
92400775|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.841||||0.0042||95.0|2.153|11.529|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||11.529|2.153|0.0042
92276192|NCT00408876|184454638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.54||||0.105||95.0|-1.19|0.11|||t-test, 2 sided|||||0.11|-1.19|0.105
92353226|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|0.96|1.74|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Acute sinusitis||1.74|0.96|
92353227|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|1.02|1.77|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Other dermatoses||1.77|1.02|
92353228|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.98|1.77|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Other disorders of bone and cartilage||1.77|0.98|
92353229|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37|||||TWO_SIDED|95.0|1.02|1.84|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Symptoms involving head and neck||1.84|1.02|
92276193|NCT00408876|184454638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.876||95.0|-0.6|0.7|||t-test, 2 sided|||||0.70|-0.60|0.876
92276194|NCT00408876|184454638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.59||||0.033||95.0|0.05|1.13|||t-test, 2 sided|||||1.13|0.05|0.033
92353230|NCT01260324|184611629|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.64|||||TWO_SIDED|95.0|1.08|2.49|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Ill defined and unknown causes of morbidity and mortality||2.49|1.08|
92353231|NCT01260324|184611630|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.03|0.07|||||Standardized to the quintiles of the probability predicted by all the other risk factors of NAION among the Controls.|Incidence rate Recent use||0.07|0.03|
92353232|NCT01260324|184611630|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.06|||||TWO_SIDED|95.0|0.04|0.08|||||Standardized to the quintiles of the probability predicted by all the other risk factors of NAION among the Controls.|Incidence rate Any use (includes chronic and non-chronic use)||0.08|0.04|
92353233|NCT01260324|184611630|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.03|0.08|||||Standardized to the quintiles of the probability predicted by all the other risk factors of NAION among the Controls.|Incidence rate Chronic use||0.08|0.03|
92353234|NCT01260324|184611630|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.06|||||TWO_SIDED|95.0|0.03|0.11|||||Standardized to the quintiles of the probability predicted by all the other risk factors of NAION among the Controls.|Incidence rate Non-chronic use||0.11|0.03|
92353235|NCT01260324|184611630|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.09|||||TWO_SIDED|95.0|0.08|0.1|||||Standardized to the quintiles of the probability predicted by all the other risk factors of NAION among the Controls.|Incidence rate Never use||0.10|0.08|
92353236|NCT01160744|184611640|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.1318|TWO_SIDED|90.0|0.55|1.03|||Log Rank|||||1.03|0.55|0.1318
92353237|NCT01160744|184611640|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.5215|TWO_SIDED|90.0|0.64|1.22|||Log Rank|||||1.22|0.64|0.5215
92353238|NCT01160744|184611641|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.58||||0.1797|TWO_SIDED|90.0|0.9|2.78|||Chi-squared|||||2.78|0.90|0.1797
92276195|NCT00408876|184454639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.925||95.0|-0.73|0.8|||t-test, 2 sided|||||0.80|-0.73|0.925
92400776|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.98||||0.0053||95.0|2.076|11.884|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||11.884|2.076|0.0053
92400777|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.057||||0.0059||95.0|2.032|12.083|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||12.083|2.032|0.0059
92400778|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.197||||0.0072||95.0|1.953|12.441|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||12.441|1.953|0.0072
92400779|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.274||||0.0079||95.0|1.908|12.64|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||12.640|1.908|0.0079
92353239|NCT01160744|184611641|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.66||||0.007|TWO_SIDED|90.0|1.45|4.86|||Chi-squared|||||4.86|1.45|0.0070
92353240|NCT01160744|184611642|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.03||||0.8916|TWO_SIDED|90.0|0.74|1.42|||Log Rank|||||1.42|0.74|0.8916
92353241|NCT01160744|184611642|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.6847|TWO_SIDED|90.0|0.68|1.27|||Log Rank|||||1.27|0.68|0.6847
92353242|NCT01160744|184611645|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.48||||0.0316|TWO_SIDED|90.0|1.22|5.02|||Chi-squared|||||5.02|1.22|0.0316
92161297|NCT00543725|184211342|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|0.7|||<|0.0001||95.0|-5.6|7.0|||Regression, Logistic|Logistic regression model included treatment arm and background NRTI regimen as factors, and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|||7.0|-5.6|<0.0001
92161298|NCT03095508|184211352|SUPERIORITY|||||||0.446|||||||Fisher Exact|||||||0.446
92161299|NCT03095508|184211354|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92353243|NCT01160744|184611645|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.3962|TWO_SIDED|90.0|0.74|2.52|||Chi-squared|||||2.52|0.74|0.3962
92353244|NCT01160744|184611646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1571|TWO_SIDED||||||t-test, 2 sided|||||||0.1571
92353245|NCT01160744|184611646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1597|TWO_SIDED||||||t-test, 2 sided|||||||0.1597
92353246|NCT03606213|184611664|OTHER|||||||0.56||||||P-value week 14 versus baseline (Cohort A, arm 1; placebo)|Wilcoxon (Mann-Whitney)|||||||0.56
92353247|NCT01697501|184611676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.7831|TWO_SIDED|95.0|0.29|2.57|||univariate logistic analysis|||||2.57|0.29|0.7831
92353248|NCT01697501|184611677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.25||||0.1951|TWO_SIDED|95.0|0.66|7.67|||univariate logistic analysis|||||7.67|0.66|0.1951
92353249|NCT01697501|184611678|SUPERIORITY_OR_OTHER|||||||0.2642|TWO_SIDED||||||Wald Chi Square|||||||0.2642
92353250|NCT01697501|184611679|SUPERIORITY_OR_OTHER|||||||0.0672|TWO_SIDED||||||Wald Chi Square|||||||0.0672
92353251|NCT00215553|184611794|SUPERIORITY_OR_OTHER|||||||0.794||95.0|||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference between treatment groups||||0.794
92353252|NCT00215553|184611794|SUPERIORITY_OR_OTHER|||||||0.236||95.0|||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference between treatment groups||||0.236
92353253|NCT00215553|184611794|SUPERIORITY_OR_OTHER|||||||0.396||95.0|||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference between treatment groups||||0.396
92353254|NCT00215553|184611795|SUPERIORITY_OR_OTHER|||||||0.346||95.0|||||Cochran-Mantel-Haenszel|||||||0.346
92353255|NCT00215553|184611795|SUPERIORITY_OR_OTHER|||||||0.286||95.0|||||Cochran-Mantel-Haenszel|||||||0.286
92353256|NCT00215553|184611795|SUPERIORITY_OR_OTHER|||||||0.964||95.0|||||Cochran-Mantel-Haenszel|||||||0.964
92400780|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.413||||0.0093||95.0|1.826|13.0|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||13.000|1.826|0.0093
92400781|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.491||||0.0101||95.0|1.78|13.201|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||13.201|1.780|0.0101
92161300|NCT03095508|184211355|SUPERIORITY|||||||0.145|||||||t-test, 2 sided|||||||0.145
92161301|NCT03095508|184211356|SUPERIORITY|||||||0.188|||||||Wilcoxon (Mann-Whitney)|||||||0.188
92353257|NCT00215553|184611796|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||ANOVA|ANOVA on ranks||||||0.028
92353258|NCT00215553|184611796|SUPERIORITY_OR_OTHER|||||||0.147||95.0|||||ANOVA|ANOVA on ranks||||||0.147
92353259|NCT00215553|184611796|SUPERIORITY_OR_OTHER|||||||0.293||95.0|||||ANOVA|ANOVA on ranks||||||0.293
92353260|NCT01429623|184611798|SUPERIORITY||Odds Ratio (OR)|1.55|||<|0.16|TWO_SIDED|95.0|0.74|3.25|||Log Rank|||||3.25|0.74|<0.16
92353261|NCT01429623|184611799|SUPERIORITY||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.24|<|0.61|TWO_SIDED||||||Mixed Models Analysis|||||||<0.61
92353262|NCT01429623|184611800|SUPERIORITY||Mean Difference (Net)|-0.066|STANDARD_ERROR_OF_MEAN|0.085|<|0.32|TWO_SIDED||||||Mixed Models Analysis|||||||<0.32
92353263|NCT01429623|184611801|SUPERIORITY||Mean Difference (Net)|0.79|STANDARD_ERROR_OF_MEAN|1.17|<|0.97|TWO_SIDED||||||Mixed Models Analysis|||||||<0.97
92161302|NCT03095508|184211357|NON_INFERIORITY|non-inferiority margin 14.5% absolute difference between percentages in group A and B|Risk Difference (RD)|0.14||||1e-05|TWO_SIDED|95.0|0.03|0.24||p- value for superiority: 0.021|Fisher Exact|||p1=proportion of patients without sore throat at Day 4 in Arm A p2=proportion of patients without sore throat at Day 4 in Arm B Н0: p1 - p2 ≤ -0.145||0.24|0.03|0.00001
92353264|NCT03156621|184611802|SUPERIORITY||Least squares (LS) mean difference|-35.6|STANDARD_ERROR_OF_MEAN|7.8|<|0.0001|TWO_SIDED|95.0|-51.2|-19.9||P-value taken from MMRM (mixed-effect model with repeated measures) analysis|MMRM||p-value vs Placebo|||-19.9|-51.2|<0.0001
92353265|NCT03156621|184611803|SUPERIORITY||Least squares (LS) mean difference|-29.8|STANDARD_ERROR_OF_MEAN|6.3|<|0.0001|TWO_SIDED|95.0|-42.3|-17.3||p-value taken from MMRM (mixed-effect model with repeated measures) analysis|MMRM|||||-17.3|-42.3|< 0.0001
92353266|NCT03156621|184611804|SUPERIORITY||Least squares (LS) mean difference|-32.9|STANDARD_ERROR_OF_MEAN|7.4|<|0.0001|TWO_SIDED|95.0|-47.6|-18.2||P-value taken from MMRM (mixed-effect model with repeated measures) analysis|MMRM|||||-18.2|-47.6|< 0.0001
92353267|NCT03156621|184611805|SUPERIORITY||Least squares (LS) mean difference|-26.5|STANDARD_DEVIATION|6.2|<|0.0001|TWO_SIDED|95.0|-38.9|-14.0||P-value taken from MMRM (mixed-effect model with repeated measures) analysis.|MMRM|||||-14.0|-38.9|< 0.0001
92353268|NCT03156621|184611806|SUPERIORITY||Odds Ratio, log|12.2|||=|0.0004|TWO_SIDED|95.0|3.1|48.8|||Regression, Logistic|||||48.8|3.1|= 0.0004
92353269|NCT03156621|184611807|SUPERIORITY||Odds Ratio, log|36.5|||=|0.001|TWO_SIDED|95.0|4.3|308.9|||Regression, Logistic|||||308.9|4.3|= 0.0010
92353270|NCT03156621|184611808|SUPERIORITY||Mean Difference (Final Values)|-28.4|STANDARD_DEVIATION|6.7|<|0.0001|TWO_SIDED|95.0|-41.5|-15.2|||Regression model|||||-15.2|-41.5|< 0.0001
92353271|NCT03156621|184611809|SUPERIORITY||Odds Ratio (OR)|17.7|||=|0.0017|TWO_SIDED|95.0|3.3||Maximum likelihood estimate does not exist||Exact Conditional Logistic Regression||||||3.3|= 0.0017
92353272|NCT03156621|184611810|SUPERIORITY||Least squares (LS) mean difference|3.6|STANDARD_ERROR_OF_MEAN|3.8|=|0.3541|TWO_SIDED|95.0|-4.1|11.3||P-value taken from MMRM (mixed-effect model with repeated measures) analysis.|MMRM|||||11.3|-4.1|= 0.3541
92353273|NCT03156621|184611811|SUPERIORITY||Mean Difference (Final Values)|-11.3|STANDARD_ERROR_OF_MEAN|7.1|||TWO_SIDED|95.0|-25.2|2.6||||||||2.6|-25.2|
92353274|NCT03156621|184611812|SUPERIORITY||Least squares (LS) mean difference|3.6|STANDARD_DEVIATION|3.6|||TWO_SIDED|95.0|-3.6|10.7||||||||10.7|-3.6|
92353275|NCT03156621|184611813|SUPERIORITY||Least squares (LS) mean difference|-35.6|STANDARD_ERROR_OF_MEAN|7.8|||TWO_SIDED|95.0|-51.2|-19.9||||||||-19.9|-51.2|
92161303|NCT00335556|184211358|OTHER||Log Rank Test Statistic|5.419||||0.0199|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients with Stage II-IV diffuse anaplastic Wilms' tumor on AREN0321 and NWTS-5 (NCT00002610) were compared using the log-rank test.||||.0199
92276196|NCT00408876|184454639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.85||||0.008||95.0|-1.49|-0.22|||t-test, 2 sided|||||-0.22|-1.49|0.008
92353276|NCT03156621|184611814|SUPERIORITY||Least squares (LS) mean difference|-29.8|STANDARD_ERROR_OF_MEAN|6.3|||TWO_SIDED|95.0|-43.3|-17.3||||||||-17.3|-43.3|
92353277|NCT03156621|184611815|SUPERIORITY||Least squares (LS) mean difference|-32.9|STANDARD_ERROR_OF_MEAN|7.4|||TWO_SIDED|95.0|-47.6|-18.2||||||||-18.2|-47.6|
92353278|NCT03156621|184611816|SUPERIORITY||Least squares (LS) mean difference|-26.5|STANDARD_ERROR_OF_MEAN|6.2|||TWO_SIDED|95.0|-28.9|-14.0||||||||-14.0|-28.9|
92353279|NCT03156621|184611817|SUPERIORITY||Mean Difference (Final Values)|-28.4|STANDARD_ERROR_OF_MEAN|6.7|||TWO_SIDED|95.0|-41.5|-15.2||||||||-15.2|-41.5|
92353280|NCT03156621|184611818|SUPERIORITY||Least squares (LS) mean difference|3.6|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-4.1|11.3||||||||11.3|-4.1|
92353281|NCT03156621|184611819|SUPERIORITY||Mean Difference (Final Values)|-11.3|STANDARD_ERROR_OF_MEAN|7.1|||TWO_SIDED|95.0|-25.2|2.6||||||||2.6|-25.2|
92353282|NCT03156621|184611820|SUPERIORITY||Least squares (LS) mean difference|3.6|STANDARD_ERROR_OF_MEAN|3.6|||TWO_SIDED|95.0|-3.6|10.7||||||||10.7|-3.6|
92353283|NCT03156621|184611821|SUPERIORITY||Odds Ratio (OR)|12.2|||||TWO_SIDED|95.0|3.1|48.8||||||≥15% reduction||48.8|3.1|
92353284|NCT03156621|184611821|SUPERIORITY|≥ 30% reduction|Odds Ratio (OR)|36.5|||||TWO_SIDED|95.0|4.3|308.9||||||||308.9|4.3|
92353285|NCT03156621|184611821|SUPERIORITY||Odds Ratio (OR)|17.7|||||TWO_SIDED|95.0|3.3||Maximum likelihood estimate does not exist|||||≥ 50% reduction|||3.3|
92353286|NCT03156621|184611822|SUPERIORITY||Least squares (LS) mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.6|-0.1||||||||-0.1|-0.6|
92353287|NCT01657500|184611833|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|See above|||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Main outcome measure was endothelial cell loss at 6 months after EK. Sample size and statistical power calculations for testing equivalence of means within 10% range were performed at 80% power/0.025 level of significance. 20% variability was assumed. 6-month endothelial cell loss) should not differ significantly for surgeon-prepared versus eye bank-prepared tissue. Assuming pairs of corneas matched by pt. diagnosis and other characteristics, the required sample size was 34 donor pairs.||||< 0.05
92353288|NCT03566550|184611865|OTHER|||||||0.04|||||||Log Rank|||||||0.04
92353289|NCT03566550|184611866|OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
92353290|NCT03566550|184611867|OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
92353291|NCT03566550|184611868|OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
92353292|NCT03566550|184611869|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92353293|NCT00986583|184611872|SUPERIORITY_OR_OTHER||Ratio of medians|1.34||||0.018|TWO_SIDED|95.0|1.05|1.72||This is for the primary comparison at 20 minute|ANCOVA||Ratio of medians of myoglobin measured at 20 minute for statin users vs. non-statin users|||1.72|1.05|0.018
92353294|NCT00137280|184611888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.01|TWO_SIDED|95.0|1.47|3.58|||Regression, Logistic||Comparison group is the control (denominator)|||3.58|1.47|<0.01
92353295|NCT00137280|184611889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.02|STANDARD_ERROR_OF_MEAN|5.93||0.03|||||||ANCOVA|||||||.03
92276197|NCT00408876|184454639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49||||0.132||95.0|-1.12|0.15|||t-test, 2 sided|||||0.15|-1.12|0.132
92353296|NCT00137280|184611890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.01|TWO_SIDED|95.0|1.22|4.34|||Regression, Logistic||Comparison group is the control (denominator)|||4.34|1.22|<0.01
92353297|NCT00137280|184611891|SUPERIORITY_OR_OTHER|||||||0.11|||||||Chi-squared|||||||.11
92353298|NCT05001165|184611892|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-0.1|0.7|||Regression, Linear|||||0.7|-0.1|
92353299|NCT05001165|184611893|SUPERIORITY||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.84|2.14|||Regression, Logistic|||||2.14|0.84|
92353300|NCT05001165|184611894|SUPERIORITY||Odds Ratio (OR)|1.06|||<|0.05|TWO_SIDED|95.0|0.64|1.76|||Regression, Logistic|||||1.76|0.64|<0.05
92353301|NCT05001165|184611895|SUPERIORITY||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.73|1.93|||Regression, Logistic|||||1.93|0.73|
92353302|NCT05001165|184611896|SUPERIORITY||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.68|2.05|||Regression, Logistic|||||2.05|0.68|
92353303|NCT05001165|184611897|SUPERIORITY||Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|0.88|2.51|||Regression, Logistic|||||2.51|0.88|
92353304|NCT05001165|184611898|SUPERIORITY||Odds Ratio (OR)|1.87|||||TWO_SIDED|95.0|0.99|3.64|||Regression, Logistic|||||3.64|0.99|
92353305|NCT05001165|184611899|SUPERIORITY||Odds Ratio (OR)|0.68|||||TWO_SIDED|95.0|0.34|1.33|||Regression, Logistic|||||1.33|0.34|
92353306|NCT03467945|184611939|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|81.4421|||||TWO_SIDED|90.0|75.2805|88.1079||||||||88.1079|75.2805|
92353307|NCT03467945|184611939|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|102.293|||||TWO_SIDED|90.0|97.8819|106.9028||||||||106.9028|97.8819|
92353308|NCT03467945|184611939|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|81.0112|||||TWO_SIDED|90.0|74.8823|87.6417||||||||87.6417|74.8823|
92353309|NCT03467945|184611940|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|102.293|||||TWO_SIDED|90.0|97.8819|106.9028||||||||106.9028|97.8819|
92161304|NCT00335556|184211359|OTHER||Log Rank Test Statistic|0.8814||||0.3478|TWO_SIDED|95.0|||||Log Rank|||The overall survival distributions of patients with Stage I-IV malignant rhabdoid tumors on AREN0321 and National Wilms Tumor Study-5 -- Treatment of Relapsed Patients, A National Wilms Tumor Study Group Phase III Study (NCT00002610) were compared using the log-rank test.||||.3478
92353310|NCT03467945|184611940|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|105.7255|||||TWO_SIDED|90.0|101.1665|110.49||||||||110.4900|101.1665|
92353311|NCT03467945|184611940|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|96.7533|||||TWO_SIDED|90.0|92.5812|101.1135||||||||101.1135|92.5812|
92353312|NCT03467945|184611941|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|77.6923|||||TWO_SIDED|90.0|70.383|85.7606||||||||85.7606|70.3830|
92353313|NCT03467945|184611941|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|108.0819|||||TWO_SIDED|90.0|102.237|114.2609||||||||114.2609|102.2370|
92353314|NCT03467945|184611941|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|79.4367|||||TWO_SIDED|90.0|71.9633|87.6861||||||||87.6861|71.9633|
92353315|NCT03467945|184611942|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|108.0819|||||TWO_SIDED|90.0|102.237|114.2609||||||||114.2609|102.2370|
92353316|NCT03467945|184611942|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|93.6828|||||TWO_SIDED|90.0|88.6166|99.0386||||||||99.0386|88.6166|
92353317|NCT03467945|184611942|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|115.37|||||TWO_SIDED|90.0|109.131|121.9658||||||||121.9658|109.1310|
92353318|NCT03467945|184611943|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|82.6022|||||TWO_SIDED|90.0|76.5513|89.1314||||||||89.1314|76.5513|
92353319|NCT03467945|184611943|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|101.8499|||||TWO_SIDED|90.0|97.8819|106.9028||||||||106.9028|97.8819|
92353320|NCT03467945|184611943|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|81.0112|||||TWO_SIDED|90.0|74.8823|87.6417||||||||87.6417|74.8823|
92353321|NCT03467945|184611944|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|101.8499|||||TWO_SIDED|90.0|97.5947|106.2906||||||||106.2906|97.5947|
92353322|NCT03467945|184611944|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|105.915|||||TWO_SIDED|90.0|101.49|110.533||||||||110.5330|101.4900|
92353323|NCT03467945|184611944|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|96.1619|||||TWO_SIDED|90.0|92.1443|100.3546||||||||100.3546|92.1443|
92353324|NCT01125748|184611985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.3|||||TWO_SIDED|95.0|5.0|33.6||||||||33.6|5.0|
92353325|NCT01028391|184611987|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|4.0||||95.0|-0.76|-0.26|||||This is a difference in least squares means, based on an ANCOVA model with terms for treatment and baseline (i.e., Week 0 of the 24-week base study) HbA1c.|||-0.26|-0.76|
92353326|NCT01028391|184611988|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.5|STANDARD_ERROR_OF_MEAN|4.0||||95.0|-16.3|-0.7|||||This is a difference in least squares means, based on an ANCOVA model with terms for treatment and baseline (i.e., Week 0 of the 24-week base study) FPG.|||-0.7|-16.3|
92353327|NCT01227395|184612028|SUPERIORITY_OR_OTHER||||||=|0.696|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.696
92353328|NCT01227395|184612029|SUPERIORITY_OR_OTHER||||||=|0.334|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between Male and Female  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.334
92353329|NCT01227395|184612030|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was concomitant drugs. The null hypothesis is there is no difference between with and without concomitant drugs  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=1.000
92353330|NCT01227395|184612031|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without renal dysfunction  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=1.000
92220328|NCT05879107|184340765|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.4|||||TWO_SIDED|95.0|1.2|1.64|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 33F||1.64|1.20|
92400782|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.63||||0.0117||95.0|1.697|13.562|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||13.562|1.697|0.0117
92400783|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.707||||0.0126||95.0|1.65|13.764|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||13.764|1.650|0.0126
92400784|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.846||||0.0144||95.0|1.565|14.127|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||14.127|1.565|0.0144
92353331|NCT01227395|184612032|SUPERIORITY_OR_OTHER||||||=|0.015|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Allergies. The null hypothesis is there is no difference between with and without allergies in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.015
92353332|NCT01227395|184612033|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=1.000
92353333|NCT01227395|184612034|SUPERIORITY_OR_OTHER||||||=|0.29|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between Male and Female  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.290
92353334|NCT01227395|184612035|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without renal dysfunction  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.003
92353335|NCT01227395|184612036|SUPERIORITY_OR_OTHER||||||=|0.707|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Allergies. The null hypothesis is there is no difference between with and without allergies in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.707
92400785|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.924||||0.0153||95.0|1.518|14.329|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||14.329|1.518|0.0153
92353336|NCT05181657|184612044|OTHER|The intervention effect was determined via a two sided, 0.05 level of significance, multivariable Poisson regression model, with Intervention group as the primary predictor.|Risk Ratio (RR)|1.45|||<|0.05|TWO_SIDED|95.0|1.18|1.78||"Alpha significance levels used:~For the primary predictor (i.e., intervention group): alpha=0.05; For covariates: alpha=0.10; For interactions: alpha=0.15"|Poisson Regression||The estimate refers to the relative risk of getting a COVID-19 test onsite (Intervention/Control). Also, the above estimate is from the unadjusted Poisson regression model (i.e., model not adjusted for covariates and interactions).|To assess whether the active intervention was more successful than the control condition at increasing COVID-19 testing, we used univariable and multivariable Poisson regression models, with whether one received onsite testing right after the intervention as the outcome and intervention group as the main predictor. Potential clustering due to the randomization by week was accounted for by specifying an exchangeable correlation structure for participants who were recruited during the same week.||1.78|1.18|<0.05
92353337|NCT00694122|184612046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|277.9|STANDARD_ERROR_OF_MEAN|164.9|<|0.05|TWO_SIDED|95.0|-75.9|631.6|||t-test, 2 sided|No adjustments were made. T-test type: Paired samples t-test (df=14) was performed using 15 within subject differences.|The comparative measures was defined as (mean AUC of glargine (Lantus)) minus (mean AUC of NPH).|||631.6|-75.9|<0.05
92353338|NCT00694122|184612047|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92353339|NCT00694122|184612051|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92353340|NCT00063232|184612057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||paired t-test|||"self-controlled comparison of NASH activity index at 48 weeks and baseline. Null hypothesis is no change."||||<0.001
92353341|NCT00063232|184612058|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Fisher Exact|||self-controlled comparison of serum aminotransferase levels at 48 weeks and baseline. Null hypothesis: No change||||0.04
92353342|NCT00063232|184612059|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||paired t-test|||||||0.04
92400786|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.063||||0.0172||95.0|1.432|14.693|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||14.693|1.432|0.0172
92400787|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.14||||0.0182||95.0|1.384|14.896|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||14.896|1.384|0.0182
92161305|NCT00335556|184211361|OTHER||Log Rank Test Statistic|3.6216||||0.057|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients with Stage I focal and diffuse anaplastic Wilms tumors on AREN0321 and National Wilms Tumor Study-5 -- Treatment of Relapsed Patients, A National Wilms Tumor Study Group Phase III Study (NCT00002610) were compared using the log-rank test.||||.0570
92161306|NCT01710514|184211421|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis (H0) was tested against the alternative (Ha) by constructing two-sided 95%CI for the difference. The non-inferiority limit for the difference was pre-specified to -10.0% (absolute). If the lower limit of the two-sided 95%CI was greater than the non-inferiority limit (-10.0%) for both the FAS and per protocol set, the null hypothesis was to be rejected. In that case it would be claimed that the rate observed in this trial was non-inferior to the rate observed in the CS08 trial|Difference of % to historical control|-0.9|||||TWO_SIDED|95.0|-3.6|1.8||||||To verify sufficient supplementation of luteal hormone, the proportion of subjects with blood progesterone concentration ≥ 10 ng/mL on Day 5 was compared to the result from a historical control, trial CS08 (NCT number: 00884221). The corresponding proportion of subjects in trial CS08 was 99.8% (95%CI: 99.1;100.0, 631/632 subjects). The non-inferiority hypothesis tested for this primary endpoint was: H0: P(000072)-P(CS08) ≤ -10.0% against the alternative Ha: P(000072)-P(CS08) \> -10.0%.||1.8|-3.6|
92353343|NCT00809146|184612060|NON_INFERIORITY_OR_EQUIVALENCE|Assay sensitivity established by extensive review of lorazepam efficacy data. Noninferiority margin of 10% established by both clinical and statistical reasoning.|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|0.04|0.16|||one-sided z statistic|||The null hypothesis of inferiority was tested with a one-sided z statistic. Sample size was estimated assuming independent proportions, 2 interim analyses, 70% control event rate; 90% power; a noninferiority margin of 10%; and a 1-sided test with type I error probability of 0.025. A sample size of 890 (445 per treatment group) was inflated by 15% (1024 subjects) to account for inadvertent repeated enrollment of the same subjects. Repeated enrollments of the same subject were not analyzed.||0.16|0.04|<0.001
92353344|NCT00809146|184612061|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.7|1.34||||||||1.34|0.70|
92353345|NCT00809146|184612062|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.79|0.98||||||||0.98|0.79|
92353346|NCT00809146|184612063|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.65|0.95||||||||0.95|0.65|
92353347|NCT00809146|184612064|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.74|1.56||||||All participants were included in this analysis of rate of recurrence because this is the most clinically relevant denominator, although, by definition, only participants who stopped could have recurrent seizures.||1.56|0.74|
92353348|NCT00809146|184612065|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.42|1.98||||||||1.98|0.42|
92353349|NCT00809146|184612066|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.99|||||TWO_SIDED|95.0|0.3|10.7||||||||10.70|0.30|
92353350|NCT00809146|184612068|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||t-test, 2 sided|||||||0.09
92353351|NCT00809146|184612069|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||t-test, 2 sided|||||||0.11
92353352|NCT03632720|184612070|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95 percent (%) confidence interval (CI) was greater (\>) -10% for all four serogroups.|Difference in Percentage|0.64|||||TWO_SIDED|95.0|-1.78|3.54||||||Serogroup A||3.54|-1.78|
92161307|NCT03404843|184211429|OTHER|||||||0.97|||||||ANOVA|||Within group comparison of treatment||||0.97
92161308|NCT03404843|184211429|OTHER||||||<|0.05|||||||ANOVA|||Within group comparison of treatment||||<0.05
92161309|NCT03404843|184211430|OTHER||||||<|0.05|||||||ANOVA|||Within group comparison of treatment||||<0.05
92161310|NCT03404843|184211430|OTHER||||||<|0.05|||||||ANOVA|||Within group comparison of treatment||||<0.05
92161311|NCT03404843|184211431|OTHER|||||||0.28|||||||ANOVA|||Within group comparison of treatment||||0.28
92353353|NCT03632720|184612070|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for all four serogroups.|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.24|2.28||||||Serogroup C||2.28|-2.24|
92353354|NCT03632720|184612070|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for all four serogroups.|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.33|2.36||||||Serogroup Y||2.36|-2.33|
92353355|NCT03632720|184612070|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for all four serogroups.|Difference in Percentage|-0.58|||||TWO_SIDED|95.0|-3.22|1.81||||||Serogroup W||1.81|-3.22|
92353356|NCT01049828|184612116|OTHER|The analysis is based on a threshold-free cluster enhancement permutation technique.|||||<|0.01||||||all correlations were transformed into z scores using Fisher's transformation and a t test evaluated group differences.|Fisher Exact|The analysis is based on a threshold-free cluster enhancement permutation technique.||Null hypothesis: Fisher's transform z scores for a seed region were comparable between the control and non-bothered tinnitus groups.||||<0.01
92353357|NCT03738215|184612120|SUPERIORITY||Least Squares Mean Difference|-2.5||||0.005|TWO_SIDED|95.0|-4.17|-0.89||Adjusted P-Value (based on truncated Hochberg with parameter=0.9)|MMRM|MMRM = mixed-effects model for repeated measures||||-0.89|-4.17|0.0050
92353358|NCT03738215|184612120|SUPERIORITY||Least Squares Mean Difference|-1.5||||0.0727|TWO_SIDED|95.0|-3.16|0.12||Adjusted P-Value (based on truncated Hochberg with parameter=0.9)|MMRM|MMRM = mixed-effects model for repeated measures||||0.12|-3.16|0.0727
92353359|NCT03738215|184612121|SUPERIORITY||Lease Squares Mean Difference|-0.3||||0.0727|TWO_SIDED|95.0|-0.49|-0.07||Adjusted P-Value (based on Hochberg procedure)|MMRM|MMRM = mixed-effects model for repeated measures||||-0.07|-0.49|0.0727
92353360|NCT03738215|184612121|SUPERIORITY||Least Squares Mean Difference|-0.2||||0.0944|TWO_SIDED|95.0|-0.39|0.03||Adjusted P-Value (based on Hochberg procedure)|MMRM|MMRM = mixed-effects model for repeated measures.||||0.03|-0.39|0.0944
92400788|NCT00083889|184692426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.279||||0.0201||95.0|1.297|15.261|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||15.261|1.297|0.0201
92161312|NCT03404843|184211431|OTHER|||||||0.37|||||||ANOVA|||Within group comparison of treatment||||0.37
92161313|NCT03404843|184211432|OTHER|||||||0.89|||||||ANOVA|||Within group comparison of treatment||||0.89
92276198|NCT00408876|184454639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.89||||0.024||95.0|-1.67|-0.12|||t-test, 2 sided|||||-0.12|-1.67|0.024
92353361|NCT03211858|184612124|NON_INFERIORITY|Non-inferiority of SAR341402 over NovoLog/NovoRapid was demonstrated if upper bound of the 2-sided 95% confidence interval (CI) of the difference between SAR341402 and NovoLog/NovoRapid was \<0.3%. If non-inferiority was demonstrated, using a hierarchical step down testing procedure, the inverse non-inferiority of NovoLog/NovoRapid over SAR341402 was tested and was demonstrated if lower bound of the 2-sided 95% CI of the difference between SAR341402 and NovoLog/NovoRapid was \> -0.3%.|LS Mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.059|||TWO_SIDED|95.0|-0.192|0.039|||||SAR341402 vs NovoLog/NovoRapid|Analysis was performed using ANCOVA with treatment group (SAR341402, NovoLog/NovoRapid), the randomization strata of geographical region, type of diabetes and prior use of NovoLog/NovoRapid as fixed categorical effects, as well as the continuous fixed covariate of baseline HbA1c value.||0.039|-0.192|
92353362|NCT00004228|184612142|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Regression, Cox|||"A Cox model was used to assess evidence of a difference in event-free survival comparing regimens A1+A2 (A: CCG BFM) to regimens B1+B2 (B: NHL/BFM-95) while adjusting for the other intervention through stratification."||||.97
92353363|NCT00004228|184612142|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||Regression, Cox|||"A Cox model was used to assess evidence of a difference in event-free survival comparing A1+B1 (1: no intensification) to A2 +B2 (2: intensification), while adjusting for the other intervention through stratification."||||.63
92353364|NCT01934231|184612165|SUPERIORITY_OR_OTHER||Rate of Cure|88.5|||||TWO_SIDED|95.0|69.85|97.55|||||"The estimated parameter represents the rate of cure, calculated as (number of participants with an outcome of Cure/number of participants analyzed) \* 100."|||97.55|69.85|
92353365|NCT02457546|184612171|NON_INFERIORITY|"The statistical hypothesis for testing the treatment difference was presented as follows:~H0: Δ ≤ -0.10 tested against the alternative hypothesis Ha: Δ \> -0.10. where:~* Δ is the difference between the success rates of Experimental (Evicel®) and Control (DuraSeal™) (Experimental minus Control)~* -0.10 is the non-inferiority difference PC is the proportion of success in DuraSeal™ Control subjects and PE is the proportion of success in EVICEL® subjects."|Difference in Success Rates|6.3|||||TWO_SIDED|95.0|-1.8|14.4||||||||14.4|-1.8|
92353366|NCT03074643|184612198|SUPERIORITY|||||||0.16|||||||ANCOVA|Adjusted for age, sex, race||||||0.16
92353367|NCT03074643|184612198|SUPERIORITY|||||||0.45|||||||ANCOVA|Adjusted for age, sex, race||||||0.45
92353368|NCT03074643|184612199|SUPERIORITY|||||||0.81|||||||ANCOVA|Adjusted for age, sex, race||||||0.81
92353369|NCT03074643|184612199|SUPERIORITY|||||||0.8|||||||ANCOVA|Adjusted for age, sex, race||||||0.80
92353370|NCT03074643|184612200|SUPERIORITY|||||||0.56|||||||ANCOVA|Adjusted for age, sex, race||||||0.56
92353371|NCT03074643|184612200|SUPERIORITY|||||||0.96|||||||ANCOVA|Adjusted for age, sex, race||||||0.96
92353372|NCT03074643|184612201|SUPERIORITY|||||||0.76|||||||ANCOVA|Adjusted for age, sex, race||||||0.76
92353373|NCT03074643|184612201|SUPERIORITY|||||||0.45|||||||ANCOVA|Adjusted for age, sex, race||||||0.45
92353374|NCT03074643|184612202|SUPERIORITY|||||||0.75|||||||ANCOVA|Adjusted for age, sex, race||||||0.75
92353375|NCT03074643|184612202|SUPERIORITY|||||||0.95|||||||ANCOVA|Adjusted for age, sex, race||||||0.95
92353376|NCT03074643|184612203|SUPERIORITY|||||||0.06|||||||ANCOVA|Adjusted for age, sex, race||||||0.06
92353377|NCT03074643|184612203|SUPERIORITY|||||||0.22|||||||ANCOVA|Adjusted for age, sex, race||||||0.22
92353378|NCT03074643|184612204|SUPERIORITY|||||||0.48|||||||ANCOVA|Adjusted for age, sex, race||||||0.48
92353379|NCT03074643|184612204|SUPERIORITY|||||||0.22|||||||ANCOVA|Adjusted for age, sex, race||||||0.22
92353380|NCT00564070|184612249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.2|||<|0.0001|TWO_SIDED|95.0|17.37|42.9|||Mixed Models Analysis|General linear model, controlling for baseline values|The Mean Difference was calculated as percent adherence to glucose monitoring for the CBT-AD Arm minus the adherence to glucose monitoring for the Enhanced Treatment as Usual Arm.|Multiple imputation was used to handle missing data; analyses are reported for the acute outcomes of glucose monitoring (i.e., 4 month)||42.9|17.37|<.0001
92353381|NCT00564070|184612250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72|||=|0.001|TWO_SIDED|95.0|0.29|1.15|||ANCOVA|General linear model; Controlling for baseline values|The Mean Difference was calculated as percent of HbA1c for the Enhanced Treatment as Usual Arm minus percent of HbA1c for the CBT-AD Arm.|Multiple imputation was used to handle missing data; results are reported for HbA1c at the acute outcome (i.e., 4 months)||1.15|.29|=.001
92353382|NCT00564070|184612251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.7|||<|0.0001|TWO_SIDED|95.0|10.22|31.14|||Mixed Models Analysis||The Mean Difference was calculated as percent pill adherence via MEMs for the CBT-AD Arm minus the percent pill adherence for the Enhanced Treatment as Usual Arm.|Analyses are reported for the acute outcomes of MEMs monitoring (4 month). Higher percentages represent better adherence.||31.14|10.22|<0.0001
92353383|NCT00564070|184612252|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.22|||=|0.002|TWO_SIDED|95.0|2.33|10.56|||Mixed Models Analysis|General linear model, controlling for baseline values.|The Mean Difference was calculated as MADRS unit scale for the CBT-AD Arm minus the MADRS unit scale for the Enhanced Treatment as Usual Arm.|Analyses are reported for the acute outcomes of depression as assessed on the MADRS at acute outcome.||10.56|2.33|=.002
92353384|NCT00564070|184612253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|||=|0.01|TWO_SIDED|95.0|0.16|1.32|||ANCOVA|using GLM|The Mean Difference was calculated as CGI unit scale for the Enhanced Treatment as Usual Arm minus the CGI unit scale for the CBT-AD Arm.|||1.32|.16|=.01
92353385|NCT00564070|184612254|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|22.3|STANDARD_ERROR_OF_MEAN|7.0|=|0.002|TWO_SIDED|95.0|8.6|36.1|||Mixed Models Analysis|||We hypothesized that differences in glucose monitoring adherence would continue to be superior in the CBT-AD condition compared to ETAU||36.1|8.6|=.002
92353386|NCT00564070|184612255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.3|STANDARD_ERROR_OF_MEAN|5.0|=|0.001|TWO_SIDED|95.0|6.5|26.1|||Mixed Models Analysis|||We hypothesized that the CBT-AD condition would maintain higher medication adherence over follow up compared to ETAU||26.1|6.5|=.001
92161314|NCT03404843|184211432|OTHER|||||||0.3|||||||ANOVA|||Within group comparison of treatment||||0.30
92276199|NCT00408876|184454639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52||||0.184||95.0|-1.3|0.25|||t-test, 2 sided|||||0.25|-1.30|0.184
92353387|NCT00564070|184612256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|2.1||0.16|TWO_SIDED|95.0|-1.2|7.2|||Mixed Models Analysis|||We hypothesized that the lower depression scores would remain in the CBT arm compared to ETAU over follow up.||7.2|-1.2|.16
92353388|NCT00564070|184612257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.29||0.1|TWO_SIDED|95.0|-0.1|1.1|||Mixed Models Analysis|||We hypothesized that depression scores would remain lower in the CBT-AD arm compared to the ETAU arm||1.1|-.1|.10
92353389|NCT00564070|184612258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.29||0.03|TWO_SIDED|95.0|0.6|1.2|||Mixed Models Analysis|||We hypothesized that glucose control (HbA1C) would remain superior in the CBT-AD arm compared to the ETAU arm over follow up.||1.2|.6|.03
92353390|NCT03142334|184612259|OTHER|HR and the associated 95% CIs were calculated based on Cox Regression model and p-value was calculated based on log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.68||||0.001|TWO_SIDED|95.0|0.53|0.87|||Log Rank|One-sided p-value was based on log-rank test stratified by metastasis status, ECOG PS, US participant within M0 group by investigator.|Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastasis status, ECOG PS, and US participant within M0 group by investigator was used to calculate HR and 95% CIs.|||0.87|0.53|0.0010
92353391|NCT02006654|184612320|SUPERIORITY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.46||0.2365|TWO_SIDED|95.0|-1.45|0.36||Corrected for multiplicity|Mixed Models Analysis|Adjusted for effects of country, MMSE stratum-by-week, treatment-by-week, base treatment stratum-by-week, and baseline score-by-week interactions|A negative mean difference indicates a treatment effect in favor of idalopirdine|For demonstrating efficacy, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for idalopirdine at significance level 5%.||0.36|-1.45|0.2365
92353392|NCT02006654|184612321|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.4064|TWO_SIDED|95.0|-0.09|0.23||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Adjusted for effects of country, MMSE stratum-by-week, treatment-by-week, base treatment stratum-by-week, and baseline score-by-week interactions|A negative mean difference indicates a treatment effect in favor of idalopirdine|For demonstrating efficacy, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested at significance level 5%.||0.23|-0.09|0.4064
92353393|NCT02006654|184612322|SUPERIORITY||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|0.63||0.4064|TWO_SIDED|95.0|-0.57|1.92||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Adjusted for effects of country, MMSE stratum-by-week, treatment-by-week, base treatment stratum-by-week, and baseline score-by-week interactions|A positive mean difference indicates a treatment effect in favour of idalopirdine|For demonstrating efficacy, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested at significance level 5%.||1.92|-0.57|0.4064
92353394|NCT02362412|184612366|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.5|||||TWO_SIDED|95.0|-3.4|2.3||p-value was not adjusted|||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||2.3|-3.4|
92353395|NCT02362412|184612367|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1|||||TWO_SIDED|95.0|-1.7|1.9|||||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||1.9|-1.7|
92353396|NCT02362412|184612368|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1|||||TWO_SIDED|95.0|-0.3|0.4|||||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||0.4|-0.3|
92353397|NCT02362412|184612369|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1|||||TWO_SIDED|95.0|-0.3|0.4|||||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||0.4|-0.3|
92353398|NCT02362412|184612371|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||0.5|-0.5|
92353399|NCT02362412|184612372|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||0.5|-0.5|
92353400|NCT04595370|184612382|OTHER||F test statistics|1.07||||0.3645|||||||F-Test|||||||0.3645
92353401|NCT04595370|184612383|OTHER||Percent difference between treatment|-33.606||||0.1588|TWO_SIDED|95.0|-62.53|17.644|||Mixed Models Analysis|||||17.644|-62.530|0.1588
92353402|NCT04595370|184612383|OTHER||Percent difference between treatment|-11.826||||0.6846|TWO_SIDED|95.0|-52.195|62.634|||Mixed Models Analysis|||||62.634|-52.195|0.6846
92353403|NCT04595370|184612383|OTHER||Percent difference between treatment|-36.127||||0.1398|TWO_SIDED|95.0|-64.85|16.066|||Mixed Models Analysis|||||16.066|-64.850|0.1398
92353404|NCT03520387|184612389|SUPERIORITY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-10.2|3.7|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate benefit with LRFA over simulated LRFA.|||3.7|-10.2|
92161315|NCT03404843|184211433|OTHER|||||||0.08|||||||ANOVA|||Within group comparison of treatment||||0.08
92400789|NCT00168844|184692433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry,centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|||||<0.0001
92400790|NCT00168844|184692433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry,centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|||||<0.0001
92400791|NCT00168844|184692434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.269|STANDARD_ERROR_OF_MEAN|0.996||0.0011||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|||||0.0011
92400792|NCT00168844|184692434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.242|STANDARD_ERROR_OF_MEAN|0.999|<|0.0001||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|||||<0.0001
92400793|NCT00168844|184692435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.053|STANDARD_ERROR_OF_MEAN|0.165|<|0.0001|TWO_SIDED|95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|||||<0.0001
92400794|NCT00168844|184692435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.075|STANDARD_ERROR_OF_MEAN|0.166|<|0.0001||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.||||||<0.0001
92276200|NCT00408876|184454639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37||||0.262||95.0|-0.27|1.01|||t-test, 2 sided|||||1.01|-0.27|0.262
92353405|NCT03520387|184612389|SUPERIORITY||Mean Difference (Final Values)|-6.3|STANDARD_ERROR_OF_MEAN|2.1|||TWO_SIDED|95.0|-11.0|-1.6|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate benefit with AcTIVE-CBT over TBSCE.|||-1.6|-11.0|
92353406|NCT03520387|184612390|SUPERIORITY||Mean Difference (Final Values)|-6059.0|STANDARD_ERROR_OF_MEAN|2832.7|||TWO_SIDED|95.0|-12467.0|349.1|||||This is an analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on CHANGE in step counts, after adjustment for age and baseline step counts. Positive values show increased steps with LRFA over simulated LRFA.|||349.1|-12467.0|
92353407|NCT03520387|184612390|SUPERIORITY||Mean Difference (Final Values)|2081.9|STANDARD_ERROR_OF_MEAN|2983.2|||TWO_SIDED|95.0|-4666.6|8830.4|||||This is an analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on CHANGE in step counts, after adjustment for age and baseline step counts.Positive values show increased steps with AcTIVE-CBT over TBSCE.|||8830.4|-4666.6|
92353408|NCT03520387|184612391|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.8|||TWO_SIDED|95.0|-5.2|3.1|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate benefit with LRFA over simulated LRFA.|||3.1|-5.2|
92400795|NCT00168844|184692436|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.782||||0.0002|TWO_SIDED|95.0|0.687|0.89|||Poisson regression||Tiotropium Respimat 5mcg - Placebo|||0.890|0.687|0.0002
92400796|NCT00168844|184692436|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.725|||<|0.0001|TWO_SIDED|95.0|0.635|0.828|||Poisson regression||Tiotropium Respimat 10mcg - Placebo|||0.828|0.635|<0.0001
92400797|NCT00168844|184692480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry,centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92400798|NCT00168844|184692480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.323|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry,centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92400799|NCT00168844|184692481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92400800|NCT00168844|184692481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.234|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92400801|NCT00168844|184692482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92353409|NCT03520387|184612391|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|-4.2|3.6|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate benefit with AcTIVE-CBT over TBSCE.|||3.6|-4.2|
92353410|NCT03520387|184612392|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-8.1|10.1|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Positive scores indicate better health with LRFA vs. simulated LRFA.|PROMIS physical health scores||10.1|-8.1|
92353411|NCT03520387|184612392|SUPERIORITY||Mean Difference (Final Values)|6.2|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-0.4|12.9|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Positive scores indicate better health with AcTIVE-CBT vs. TBSCE|PROMIS physical health scores||12.9|-0.4|
92400802|NCT00168844|184692482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.419|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92161316|NCT03404843|184211433|OTHER|||||||0.05|||||||ANOVA|||Within group comparison of treatment||||0.05
92276201|NCT00408876|184454640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.849||95.0|-0.84|0.69|||t-test, 2 sided|||||0.69|-0.84|0.849
92353412|NCT03520387|184612392|SUPERIORITY||Mean Difference (Final Values)|3.7|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-5.4|12.7|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Positive scores indicate better health with LRFA vs. simulated LRFA.|PROMIS mental health scores||12.7|-5.4|
92353413|NCT03520387|184612392|SUPERIORITY||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|-7.0|10.6|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Positive scores indicate better health with AcTIVE-CBT vs. TBSCE|PROMIS mental health scores||10.6|-7.0|
92353414|NCT03520387|184612393|SUPERIORITY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|2.1|||TWO_SIDED|95.0|-7.7|1.9|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate lower doses with LRFA over simulated LRFA.|||1.9|-7.7|
92353415|NCT03520387|184612393|SUPERIORITY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|-7.5|1.0|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate lower doses with AcTIVE-CBT over TBSCE.|||1.0|-7.5|
92353416|NCT03520387|184612394|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-1.4|1.7|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months, after adjustment for age. Positive scores indicate perceived benefit with LRFA over simulated LRFA.|||1.7|-1.4|
92353417|NCT03520387|184612394|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-1.3|1.5|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Positive scores indicate perceived benefit with AcTIVE-CBT over TBSCE.|||1.5|-1.3|
92353418|NCT03520387|184612395|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-5.5|3.7|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Negative scores indicate less pain with LRFA over simulated LRFA.|||3.7|-5.5|
92353419|NCT03520387|184612395|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.8|||TWO_SIDED|95.0|-5.4|2.6|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Negative scores indicate less pain with AcTIVE-CBT vs. TBSCE|||2.6|-5.4|
92353420|NCT03520387|184612396|SUPERIORITY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|95.0|-0.5|3.0|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months, after adjustment for age. Positive scores indicate more satisfaction with LRFA over simulated LRFA.|||3.0|-0.5|
92161317|NCT00567164|184211435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.85|STANDARD_DEVIATION|30.356||0.0001||95.0|-16.3|-7.394|||t-test, 2 sided|||||-7.394|-16.3|0.0001
92161318|NCT01879371|184211472|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|107.85|||||TWO_SIDED|90.0|105.334|110.431|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen acid film-coated tablet '.|"The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect.~The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested."||110.431|105.334|
92276202|NCT00408876|184454640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.73||||0.024||95.0|-1.36|-0.1|||t-test, 2 sided|||||-0.10|-1.36|0.024
92353421|NCT03520387|184612396|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-0.4|2.8|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months, after adjustment for age. Positive scores indicate more satisfaction with AcTIVE-CBT over TBSCE.|||2.8|-0.4|
92353422|NCT03520387|184612397|SUPERIORITY||Mean Difference (Final Values)|-637.0|STANDARD_ERROR_OF_MEAN|433.3|||TWO_SIDED|95.0|-1636.2|362.1|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months adjusting for age and baseline value of the outcome. Positive scores indicate greater activity with LRFA over simulated LRFA.|||362.1|-1636.2|
92353423|NCT03520387|184612397|SUPERIORITY||Mean Difference (Final Values)|572.2|STANDARD_ERROR_OF_MEAN|334.5|||TWO_SIDED|95.0|-199.3|1343.6|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months adjusting for age and baseline value of the outcome. Positive scores indicate more satisfaction with AcTIVE-CBT over TBSCE.|||1343.6|-199.3|
92353424|NCT00541775|184612398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<=|0.001||95.0|-0.7|-0.32|||ANCOVA|Analysis of covariance with a term for treatment, and a covariate for baseline value.||||-0.32|-0.70|<=0.001
92276203|NCT00408876|184454640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.773||95.0|-0.73|0.54|||t-test, 2 sided|||||0.54|-0.73|0.773
92353425|NCT00541775|184612399|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.8|STANDARD_ERROR_OF_MEAN|5.0|<=|0.001||95.0|-27.6|-8.1|||ANCOVA|Analysis of covariance with a term for treatment, and a covariate for baseline value.||||-8.1|-27.6|<=0.001
92353426|NCT00541775|184612400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-30.5|STANDARD_ERROR_OF_MEAN|7.9|<=|0.001||95.0|-46.0|-15.0|||ANCOVA|Analysis of covariance with a term for treatment, and a covariate for baseline value.||||-15.0|-46.0|<=0.001
92353427|NCT04913675|184612408|NON_INFERIORITY|This outcome measure was analyzed using a hypothetical estimand and assessing non-inferiority of 500 mg IM dose versus 500 mg IV using a non-inferiority margin of 3.5 percent (%) on the risk difference scale. A post-hoc weekly imputation algorithm imputes the missing outcome iteratively for each week, where missing outcomes at Day 8, 15, 22, 29 are imputed.|Risk Difference (RD)|1.06|||||TWO_SIDED|95.0|-1.15|3.26|||||Analysis was performed using a binomial regression model with identity link function and with treatment (Sotrovimab 500mg IM, 500mg IV), age (\<65, =\>65 years old) and gender (male, female) as covariates.|||3.26|-1.15|
92353428|NCT04913675|184612408|NON_INFERIORITY|This outcome measure was analyzed using a hypothetical estimand and assessing non-inferiority of 500 mg IM vs 500 mg IV using a non-inferiority margin of 3.5 percent (%) on the risk difference scale. A pre-specified daily imputation algorithm imputed the missing outcome iteratively for each study day starting with Day 2 and ending at Day 29.|Risk Difference (RD)|1.16|||||TWO_SIDED|95.0|-1.23|3.56|||||Analysis was performed using a binomial regression model with identity link function and with treatment (Sotrovimab 500mg IM, 500mg IV), age (\<65, =\>65 years old) and gender (male, female) as covariates.|||3.56|-1.23|
92353429|NCT04913675|184612426|NON_INFERIORITY|This outcome measure was analyzed using a hypothetical estimand and assessing non-inferiority of IM dose versus IV using a non-inferiority margin of 3.5% on the risk difference scale. Weekly imputation algorithm imputes the missing outcome iteratively for each week, where missing outcomes at Day 8, 15, 22, 29 are imputed.|Risk Difference (RD)|0.86|||||TWO_SIDED|95.0|-1.56|3.28|||||Post-hoc analysis was performed using a binomial regression model with identify link function and with treatment (Sotrovimab 500 mg IM, 500 mg IV), age (\<65, \>-65 years old), and sex (male, female) as covariates.|||3.28|-1.56|
92353430|NCT04913675|184612429|EQUIVALENCE|IM dose was assessed for equivalence to IV based on the two-sided 90% confidence interval for the treatment ratio falling within equivalence bounds of 0.5 to 2.0.|Ratio of least square(LS) geometric mean|1.04|||||TWO_SIDED|90.0|1.0|1.07|||||LS geometric mean was calculated for 500mg IV versus IM by using an Analysis of Covariance (ANCOVA) Model with treatment group (sotrovimab 500mg IM, 500mg IV), age (\<65, =\>65 years old), gender (male, female) and Baseline viral load as covariates.|||1.07|1.00|
92353431|NCT03339453|184612523|NON_INFERIORITY|95% Confidence Interval of the treatment differences in treatment success rate.|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.52|1.52||||||||1.52|-1.52|
92353432|NCT01348490|184612537|OTHER|1-sample t-test with null hypothesis mean \>= 0||||||0.025||||||1-sample t-test was used.|t-test, 1 sided|||||||0.0250
92353433|NCT01348490|184612537|OTHER|1-sample t-test with null hypothesis mean \>= 0||||||0.0163||||||1-sample t-test was used.|t-test, 1 sided|||||||0.0163
92353434|NCT01348490|184612537|OTHER|1-sample t-test with null hypothesis mean \>= 0|||||<|0.0001||||||1-sample t-test was used.|t-test, 1 sided|||||||<0.0001
92353435|NCT01348490|184612537|OTHER|1-sample t-test with null hypothesis mean \>= 0||||||0.2019||||||1-sample t-test was used.|t-test, 1 sided|||||||0.2019
92353436|NCT01348490|184612538|OTHER|||||||0.6887||||||1-sample t-test was used.|t-test, 1 sided|||||||0.6887
92353437|NCT01348490|184612538|OTHER||||||<|0.0001||||||1-sample t-test was used.|t-test, 1 sided|||||||<0.0001
92353438|NCT01348490|184612538|OTHER|||||||0.8701||||||1-sample t-test was used.|t-test, 1 sided|||||||0.8701
92353439|NCT01348490|184612542|OTHER||||||<|0.0001||||||1-sample t-test was used.|t-test, 1 sided|||||||<0.0001
92353440|NCT01348490|184612543|OTHER|||||||0.0028||||||1-sample t-test was used.|t-test, 1 sided|||||||0.0028
92353441|NCT03834883|184612560|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|||||||0.07
92353442|NCT03834883|184612561|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|||||||0.006
92353443|NCT03834883|184612562|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|||||||0.16
92353444|NCT03834883|184612563|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||0.002
92353445|NCT03834883|184612564|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
92353446|NCT03834883|184612565|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92353447|NCT03834883|184612567|SUPERIORITY|||||||0.015|||||||Mixed Models Analysis|||||||0.015
92353448|NCT03834883|184612568|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|||||||0.0005
92353449|NCT03834883|184612569|SUPERIORITY|||||||0.017|||||||Mixed Models Analysis|||||||0.017
92353450|NCT03834883|184612570|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||||||0.83
92353451|NCT03834883|184612571|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92353452|NCT00286455|184612580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.76|-0.31||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint (HbA1c) as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=325 subjects had 95% power to detect a treatment difference as small as 0.5% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of subjects meeting per protocol criteria.||-0.31|-0.76|<0.001
92353453|NCT00286455|184612580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001|TWO_SIDED|95.0|-0.8|-0.35|||ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint (HbA1c) as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=325 subjects had 95% power to detect a treatment difference as small as 0.5% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of subjects meeting per protocol criteria.||-0.35|-0.80|<0.001
92353454|NCT00286455|184612581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|||<|0.001|TWO_SIDED|95.0|-0.39|-0.14||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.14|-0.39|<0.001
92353455|NCT00286455|184612581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001|TWO_SIDED|95.0|-0.46|-0.21||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.21|-0.46|<0.001
92353456|NCT00286455|184612582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.57|-0.23||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.23|-0.57|<0.001
92353457|NCT00286455|184612582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||<|0.001|TWO_SIDED|95.0|-0.68|-0.33||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.33|-0.68|<0.001
92353458|NCT00286455|184612583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|||<|0.001|TWO_SIDED|95.0|-0.63|-0.25||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.25|-0.63|<0.001
92353459|NCT00286455|184612583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.73|-0.35||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.35|-0.73|<0.001
92276204|NCT00408876|184454640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.66||||0.097||95.0|-1.43|0.12|||t-test, 2 sided|||||0.12|-1.43|0.097
92353460|NCT00286455|184612584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.68|-0.27||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.27|-0.68|<0.001
92353461|NCT00286455|184612584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.74|-0.33||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.33|-0.74|<0.001
92353462|NCT00286455|184612585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|||<|0.001|TWO_SIDED|95.0|-0.67|-0.24||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.24|-0.67|<0.001
92353463|NCT00286455|184612585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|||<|0.001|TWO_SIDED|95.0|-0.7|-0.27||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.27|-0.70|<0.001
92353464|NCT00286455|184612586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.2||||0.002|TWO_SIDED|95.0|-21.5|-5.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-5.0|-21.5|0.002
92353465|NCT00286455|184612586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.7|||<|0.001|TWO_SIDED|95.0|-27.0|-10.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.4|-27.0|<0.001
92353466|NCT00286455|184612587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.4|||<|0.001|TWO_SIDED|95.0|-26.7|-10.1||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.1|-26.7|<0.001
92353467|NCT00286455|184612587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.4|||<|0.001|TWO_SIDED|95.0|-29.7|-13.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-13.0|-29.7|<0.001
92353468|NCT00286455|184612588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.4|||<|0.001|TWO_SIDED|95.0|-27.1|-9.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.7|-27.1|<0.001
92161319|NCT01879371|184211472|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|109.48|||||TWO_SIDED|90.0|107.072|111.936|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen lysinate film-coated tablet '.|The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested.||111.936|107.072|
92161320|NCT01879371|184211473|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|99.65|||||TWO_SIDED|90.0|93.874|105.776|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen acid film-coated tablet '.|The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested.||105.776|93.874|
92276205|NCT00408876|184454640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.96||95.0|-0.79|0.75|||t-test, 2 sided|||||0.75|-0.79|0.960
92276206|NCT00408876|184454640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.64||||0.052||95.0|0.0|1.28|||t-test, 2 sided|||||1.28|0.00|0.052
92220329|NCT05879107|184340766|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio between the Control group (at Day 61) versus Co-administration group (at Day 31) for RSV-A neutralizing titer was \<=1.5.|GMT ratio|1.06|||||TWO_SIDED|95.0|0.94|1.2|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|RSV-A||1.20|0.94|
92353469|NCT00286455|184612588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.4|||<|0.001|TWO_SIDED|95.0|-33.2|-15.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-15.7|-33.2|<0.001
92353470|NCT00286455|184612589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.7||||0.001|TWO_SIDED|95.0|-26.8|-6.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.7|-26.8|0.001
92353471|NCT00286455|184612589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.3|||<|0.001|TWO_SIDED|95.0|-32.4|-12.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.2|-32.4|<0.001
92353472|NCT00286455|184612590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.5||||0.002|TWO_SIDED|95.0|-26.8|-6.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.2|-26.8|0.002
92353473|NCT00286455|184612590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.2|||<|0.001|TWO_SIDED|95.0|-31.6|-10.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.8|-31.6|<0.001
92353474|NCT00286455|184612591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.8|||<|0.001|TWO_SIDED|95.0|-30.9|-8.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.7|-30.9|<0.001
92353475|NCT00286455|184612591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.4|||<|0.001|TWO_SIDED|95.0|-34.6|-12.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.2|-34.6|<0.001
92353476|NCT00286455|184612592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3|||<|0.001|TWO_SIDED|95.0|-30.6|-8.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.0|-30.6|<0.001
92353477|NCT00286455|184612592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.3|||<|0.001|TWO_SIDED|95.0|-35.7|-12.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.9|-35.7|<0.001
92353478|NCT00286455|184612593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.6|||<|0.001|TWO_SIDED|95.0|-34.1|-9.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.0|-34.1|<0.001
92353479|NCT00286455|184612593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.8|||<|0.001|TWO_SIDED|95.0|-40.4|-15.1||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-15.1|-40.4|<0.001
92353480|NCT00286455|184612594|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.569||||0.165|TWO_SIDED|95.0|0.257|1.262|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||1.262|0.257|0.165
92353481|NCT00286455|184612594|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||0.008|TWO_SIDED|95.0|0.138|0.739|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.739|0.138|0.008
92353482|NCT00286455|184612595|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.194||||0.001|TWO_SIDED|95.0|0.073|0.516|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.516|0.073|0.001
92220330|NCT05879107|184340767|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio between the Control group (at Day 61) versus Co-administration group (at Day 31) for RSV-B neutralizing titer was \<=1.5.|GMT ratio|1.0|||||TWO_SIDED|95.0|0.89|1.13|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|RSV-B||1.13|0.89|
92353483|NCT00286455|184612595|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.145|||<|0.001|TWO_SIDED|95.0|0.052|0.405|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.405|0.052|<0.001
92353484|NCT00286455|184612596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6||||0.056|TWO_SIDED|95.0|-15.3|0.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.2|-15.3|0.056
92353485|NCT00286455|184612596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.3|||<|0.001|TWO_SIDED|95.0|-21.1|-5.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-5.5|-21.1|<0.001
92161321|NCT01879371|184211473|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|70.42|||||TWO_SIDED|90.0|67.087|73.928|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen lysinate film-coated tablet '.|The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested.||73.928|67.087|
92161322|NCT01879371|184211474|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|106.5|||||TWO_SIDED|90.0|104.05|109.004|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen acid film-coated tablet '.|The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested.||109.004|104.050|
92161323|NCT01879371|184211474|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|108.59|||||TWO_SIDED|90.0|106.185|111.054|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen lysinate film-coated tablet '.|The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested.||111.054|106.185|
92161324|NCT00580801|184211489|SUPERIORITY_OR_OTHER||Least square mean ratio|0.98||||||90.0|0.54|1.78|||||Day 1: The least square (LS) means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||1.78|0.54|
92161325|NCT00580801|184211489|SUPERIORITY_OR_OTHER||Least square mean ratio|1.33||||||90.0|1.03|1.72|||||Day 15: The LS means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||1.72|1.03|
92161326|NCT00580801|184211490|SUPERIORITY_OR_OTHER||Least square mean ratio|1.0||||||90.0|0.58|1.72|||||Day 1: The LS means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||1.72|0.58|
92400803|NCT00168844|184692483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.5|STANDARD_ERROR_OF_MEAN|5.3|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92400804|NCT00168844|184692483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.1|STANDARD_ERROR_OF_MEAN|5.3|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92161327|NCT00580801|184211490|SUPERIORITY_OR_OTHER||Least square mean ratio|1.32||||||90.0|1.05|1.66|||||Day 15: The LS means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||1.66|1.05|
92161328|NCT00580801|184211491|SUPERIORITY_OR_OTHER||Least square mean ratio|1.43||||||90.0|1.02|2.02|||||Day 15: The LS means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||2.02|1.02|
92161329|NCT00580801|184211492|SUPERIORITY_OR_OTHER||Least square mean ratio|1.24||||||90.0|0.88|1.74|||||Day 15: The LS means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||1.74|0.88|
92161330|NCT02595398|184211495|SUPERIORITY||Difference in percentages|31.25|||<|0.001|TWO_SIDED|95.0|15.5|45.9||The a priori threshold for statistical significance was 0.050. Prior to evaluating the results of the CMH test, a Breslow-Day test with Tarone's adjustment was conducted to confirm the homogeneity of the odds ratios between country strata.|Cochran-Mantel-Haenszel|The CMH test was stratified by the country, i.e., US+Israel and India.|Estimated value was calculated as the percentage of subjects in the Active arm meeting the primary endpoint minus the percentage of subjects in the Control arm meeting the primary endpoint.|A total sample size of 150 subjects in a 3:2 randomization had 90% power to detect a difference between treatments in the proportion of subjects showing improvement is 0.60 for treated and 0.34 for sham. The primary analysis was a test of superiority of the CLS-TA arm over the sham arm, and was based on a Cochran-Mantel-Haenszel chi-square test stratified by country.||45.9|15.5|<0.001
92161331|NCT05576051|184211587|OTHER|||||||0.278|||||||Mixed model linear regression|Mixed model linear regression with propensity-score matched pairs as the random effect.||||||0.278
92161332|NCT05576051|184211588|OTHER|||||||0.131|||||||Mixed model linear regression|Mixed model linear regression with propensity-score matched pairs as the random effect.||||||0.131
92161333|NCT05576051|184211589|OTHER|||||||0.987|||||||Mixed model linear regression|Mixed model linear regression with propensity-score matched pairs as the random effect.||||||0.987
92353486|NCT00286455|184612597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.85|TWO_SIDED|95.0|-7.8|9.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||9.4|-7.8|0.850
92353487|NCT00286455|184612597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.571|TWO_SIDED|95.0|-6.2|11.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||11.2|-6.2|0.571
92353488|NCT00286455|184612598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.917|TWO_SIDED|95.0|-7.8|7.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.0|-7.8|0.917
92353489|NCT00286455|184612598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.133|TWO_SIDED|95.0|-13.2|1.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.7|-13.2|0.133
92353490|NCT00286455|184612599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9||||0.348|TWO_SIDED|95.0|-12.1|4.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.3|-12.1|0.348
92400805|NCT00168844|184692484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.5|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92400806|NCT00168844|184692484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.5|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92400807|NCT00168844|184692485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92161334|NCT01460342|184211608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-2.4|-0.6|||Mixed Models Analysis|||||-0.6|-2.4|<0.001
92353491|NCT00286455|184612599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0||||0.152|TWO_SIDED|95.0|-14.3|2.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.2|-14.3|0.152
92353492|NCT00286455|184612600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.2||||0.12|TWO_SIDED|95.0|-11.7|1.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.4|-11.7|0.120
92400808|NCT00168844|184692485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92400809|NCT02994108|184692497|SUPERIORITY||Chi-Square|0.415||||0.601|TWO_SIDED||||||Chi-squared|||||||.601
92400810|NCT02994108|184692498|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.249|TWO_SIDED||||||t-test, 2 sided|||||||.249
92400811|NCT02994108|184692499|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.675|TWO_SIDED||||||t-test, 2 sided|||||||.675
92400812|NCT02994108|184692500|SUPERIORITY||Odds Ratio (OR)|3.43||||0.025|TWO_SIDED|95.0|1.17|10.08|||Regression, Logistic|||||10.08|1.17|.025
92161335|NCT01460342|184211609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.0|-0.5||The p-value is for the change from baseline in the IPSS Total Score at Week 4.|Mixed Models Analysis|||||-0.5|-2.0|<0.001
92161336|NCT01460342|184211609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.4||0.003|TWO_SIDED|95.0|-2.0|-0.4||The p-value is for the change from baseline in the IPSS Total Score at Week 8.|Mixed Models Analysis|||||-0.4|-2.0|0.003
92161337|NCT01460342|184211610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.09|TWO_SIDED|95.0|-0.6|0.0||The p-value was for the change from baseline in the IPSS Storage (Irritative) Subscore at Week 4.|Mixed Models Analysis|||||0.0|-0.6|0.090
92161338|NCT01460342|184211610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.011|TWO_SIDED|95.0|-0.8|-0.1||The p-value was for the change from baseline in the IPSS Storage (Irritative) Subscore at Week 8.|Mixed Models Analysis|||||-0.1|-0.8|0.011
92161339|NCT01460342|184211610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.002|TWO_SIDED|95.0|-0.9|-0.2||The p-value was for the change from baseline in the IPSS Storage (Irritative) Subscore at Week 12.|Mixed Models Analysis|||||-0.2|-0.9|0.002
92161340|NCT01460342|184211611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.5|-0.4||The p-value was for the change from baseline in the IPSS Voiding (Obstructive) Subscore at Week 4.|Mixed Models Analysis|||||-0.4|-1.5|<0.001
92161341|NCT01460342|184211611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.3||0.007|TWO_SIDED|95.0|-1.3|-0.2||The p-value was for the change from baseline in the IPSS Voiding (Obstructive) Subscore at Week 8.|Mixed Models Analysis|||||-0.2|-1.3|0.007
92276207|NCT00408876|184454641|SUPERIORITY_OR_OTHER|||||||0.756||95.0|||||Repeated Measures|||||||0.756
92400813|NCT02994108|184692501|SUPERIORITY||Odds Ratio (OR)|1.14||||0.923|TWO_SIDED|95.0|0.08|16.95|||Regression, Logistic|||||16.95|0.08|.923
92161342|NCT01460342|184211611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.3||0.002|TWO_SIDED|95.0|-1.5|-0.3||The p-value was for the change from baseline in the IPSS Voiding (Obstructive) Subscore at Week 12.|Mixed Models Analysis|||||-0.3|-1.5|0.002
92161343|NCT01460342|184211612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.277|TWO_SIDED|95.0|-0.2|0.1||The p-value was for the change from baseline in the IPSS QoL Index Score at Week 4.|Mixed Models Analysis|||||0.1|-0.2|0.277
92161344|NCT01460342|184211612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.17|TWO_SIDED|95.0|-0.3|0.1||The p-value was for the change from baseline in the IPSS QoL Index Score at Week 8.|Mixed Models Analysis|||||0.1|-0.3|0.170
92161345|NCT01460342|184211612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.038|TWO_SIDED|95.0|-0.4|0.0||The p-value was for the change from baseline in the IPSS QoL Index Score at Week 12.|Mixed Models Analysis|||||-0.0|-0.4|0.038
92161346|NCT01460342|184211613|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was from the Cochran-Mantel-Haenszel test adjusted for baseline severity of benign prostatic hyperplasia lower urinary tract symptoms (BPH-LUTS) and previous alpha-blocker therapy.|Cochran-Mantel-Haenszel|||||||<0.001
92161347|NCT01460342|184211614|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was from the Cochran-Mantel-Haenszel test adjusted for baseline severity of benign prostatic hyperplasia lower urinary tract symptoms (BPH-LUTS) and previous alpha-blocker therapy.|Cochran-Mantel-Haenszel|||||||<0.001
92353493|NCT00286455|184612600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.5||||0.104|TWO_SIDED|95.0|-12.1|1.1||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.1|-12.1|0.104
92353494|NCT00286455|184612601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.247|TWO_SIDED|95.0|-10.9|2.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.8|-10.9|0.247
92353495|NCT00286455|184612601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.4||||0.129|TWO_SIDED|95.0|-12.3|1.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.6|-12.3|0.129
92353496|NCT00286455|184612602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.671|TWO_SIDED|95.0|-4.14|2.67||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.67|-4.14|0.671
92353497|NCT00286455|184612602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15||||0.218|TWO_SIDED|95.0|-5.57|1.27||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.27|-5.57|0.218
92353498|NCT00286455|184612603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.54||||0.403|TWO_SIDED|95.0|-2.07|5.14||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.14|-2.07|0.403
92353499|NCT00286455|184612603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29||||0.487|TWO_SIDED|95.0|-2.35|4.93||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.93|-2.35|0.487
92400814|NCT02994108|184692502|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.174|TWO_SIDED||||||t-test, 2 sided|||||||.174
92161348|NCT01460342|184211615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.06|TWO_SIDED|95.0|-1.2|0.0|||ANCOVA|||||0.0|-1.2|0.060
92161349|NCT01194258|184211620|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin was set at 0.40.|LS Mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.041||0.3876|TWO_SIDED|95.0|-0.12|0.05|||Mixed Models Analysis|||Approximately 110 participants were planned to be enrolled to allow approximately 88 participants to complete both treatment periods. Assuming a dropout rate of ≤20%, an intra-participant correlation of 0.80, a standard deviation of 1.2, and a true difference of 0, the study would have \>90% power to show that either Lispro-PH20 or Aspart-PH20 (each tested separately) was non-inferior to insulin lispro alone with respect to the change from baseline in A1C at the end of each treatment period.||0.05|-0.12|0.3876
92276208|NCT00408876|184454641|SUPERIORITY_OR_OTHER|||||||0.507||95.0|||||Repeated Measures|||||||0.507
92400815|NCT02994108|184692503|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.002|TWO_SIDED||||||t-test, 2 sided|||||||.002
92400816|NCT02994108|184692504|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.964|TWO_SIDED||||||t-test, 2 sided|||||||.964
92400817|NCT02994108|184692505|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.053|TWO_SIDED||||||t-test, 2 sided|||||||.053
92400818|NCT02994108|184692506|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.183|TWO_SIDED||||||t-test, 2 sided|||||||.183
92400819|NCT02994108|184692507|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.064|TWO_SIDED||||||t-test, 2 sided|||||||.064
92400820|NCT02994108|184692508|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.147|TWO_SIDED||||||t-test, 2 sided|||||||.147
92400821|NCT02994108|184692509|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.096|TWO_SIDED||||||t-test, 2 sided|||||||.096
92400822|NCT02994108|184692510|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.013|TWO_SIDED||||||t-test, 2 sided|||||||.013
92220331|NCT03029143|184340782|OTHER||Odds Ratio (OR)|0.6|||=|0.401|TWO_SIDED|95.0|0.2|1.8|||Chi-squared||||Chi-squared test was used to estimate P-value from the logistic regression model where Endoscopic Mucosal Healing was the response variable and Treatment and TNF stratification were factors. Baseline complete Mayo Score and natural logarithm of trough concentration at week 6 were covariates.|1.8|0.2|=0.401
92276209|NCT00408876|184454641|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||Repeated Measures|||||||0.056
92353500|NCT00286455|184612604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.143|TWO_SIDED|95.0|-0.88|6.08||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.08|-0.88|0.143
92353501|NCT00286455|184612604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.974|TWO_SIDED|95.0|-3.46|3.57||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.57|-3.46|0.974
92353502|NCT00286455|184612605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97||||0.612|TWO_SIDED|95.0|-2.78|4.71||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.71|-2.78|0.612
92353503|NCT00286455|184612605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04||||0.587|TWO_SIDED|95.0|-4.82|2.74||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.74|-4.82|0.587
92353504|NCT00286455|184612606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.514|TWO_SIDED|95.0|-2.0|3.99||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.99|-2.00|0.514
92353505|NCT00286455|184612606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.899|TWO_SIDED|95.0|-2.83|3.22||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.22|-2.83|0.899
92353506|NCT00286455|184612607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.885|TWO_SIDED|95.0|-3.09|3.58||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.58|-3.09|0.885
92353507|NCT00286455|184612607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.958|TWO_SIDED|95.0|-3.28|3.46||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.46|-3.28|0.958
92353508|NCT00286455|184612608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.051||||0.003|TWO_SIDED|95.0|-0.084|-0.018||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.018|-0.084|0.003
92353509|NCT00286455|184612608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.072|||<|0.001|TWO_SIDED|95.0|-0.105|-0.038||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.038|-0.105|<0.001
92220332|NCT03029143|184340783|OTHER||Adjusted risk difference|-0.4|||=|0.943|TWO_SIDED|95.0|-11.4|10.6|||CMH Chi-square test||||Cochran-Mantel-Haenszel (CMH) chi-square test was stratified by TNF antagonist status.|10.6|-11.4|=0.943
92353510|NCT00286455|184612609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.069|||<|0.001|TWO_SIDED|95.0|-0.099|-0.038||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.038|-0.099|<0.001
92353511|NCT00286455|184612609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.052||||0.001|TWO_SIDED|95.0|-0.083|-0.021||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.021|-0.083|0.001
92400823|NCT02535481|184692584|SUPERIORITY|||||||0.366||||||At 6 weeks|Fisher Exact|||||||0.366
92400824|NCT02535481|184692584|SUPERIORITY|||||||0.24||||||At 3 months|Fisher Exact|||||||0.24
92400825|NCT02535481|184692585|SUPERIORITY||||||<|0.0001|||||||Log Rank|Kaplan-Meier analysis of cumulative wound healing followed by a log rank test||||||<0.0001
92400826|NCT02535481|184692586|SUPERIORITY|||||||0.12|||||||Log Rank|||||||0.12
92400827|NCT02535481|184692587|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92400828|NCT02535481|184692588|SUPERIORITY|||||||0.001||||||At 6 weeks|Wilcoxon (Mann-Whitney)|||||||0.001
92220333|NCT03029143|184340784|OTHER||Adjusted risk difference|-1.2|||=|0.893|TWO_SIDED|95.0|-18.7|16.3|||CMH Chi-square test||||Cochran-Mantel-Haenszel (CMH) chi-square test was stratified by TNF antagonist status.|16.3|-18.7|=0.893
92161350|NCT01467700|184211626|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.28||0.518|TWO_SIDED|98.0|-2.9|3.1||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||3.1|-2.9|0.518
92161351|NCT01467700|184211626|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.29||0.979|TWO_SIDED|98.0|-0.4|5.7||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||5.7|-0.4|0.979
92161352|NCT01467700|184211626|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.29||0.4|TWO_SIDED|99.0|-3.7|3.0||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||3.0|-3.7|0.400
92161353|NCT01467700|184211627|SUPERIORITY_OR_OTHER||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|2.22||0.017|TWO_SIDED|98.0|-0.5|9.9||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||9.9|-0.5|0.017
92161354|NCT01467700|184211627|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|2.25||0.361|TWO_SIDED|98.0|-4.5|6.1||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||6.1|-4.5|0.361
92161355|NCT01467700|184211627|SUPERIORITY_OR_OTHER||LS Mean Difference|6.4|STANDARD_ERROR_OF_MEAN|2.23||0.002|TWO_SIDED|99.0|0.6|12.1||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||12.1|0.6|0.002
92161356|NCT05822440|184211708|OTHER||Ratio of Adjusted Geometric Means|124.35|||||TWO_SIDED|90.0|100.22|154.29||||||Ratio was between test to reference, where test is PF-07817883 + Itraconazole arm and reference is PF-07817883 arm. Natural log transformed Cmax of PF-07817883 were analyzed using a mixed effect model with treatment as fixed effect and participant as a random effect. The ratios (and 90% CIs) were expressed as percentages.||154.29|100.22|
92353512|NCT00286455|184612610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.068|||<|0.001|TWO_SIDED|95.0|-0.103|-0.032||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.032|-0.103|<0.001
92353513|NCT00286455|184612610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.073|||<|0.001|TWO_SIDED|95.0|-0.109|-0.037||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.037|-0.109|<0.001
92353514|NCT00286455|184612611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045||||0.021|TWO_SIDED|95.0|-0.084|-0.007||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.007|-0.084|0.021
92353515|NCT00286455|184612611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.043|TWO_SIDED|95.0|-0.079|-0.001||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.001|-0.079|0.043
92353516|NCT00286455|184612612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.162|||<|0.001|TWO_SIDED|95.0|-0.255|-0.069||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.069|-0.255|<0.001
92353517|NCT00286455|184612612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.159||||0.001|TWO_SIDED|95.0|-0.254|-0.065||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.065|-0.254|0.001
92353518|NCT00286455|184612613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.086||||0.001|TWO_SIDED|95.0|-0.138|-0.034||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.034|-0.138|0.001
92161357|NCT05822440|184211709|OTHER||Ratio of Adjusted Geometric Means|212.83||||||90.0|183.76|246.5||||||Ratio was between test to reference, where test is PF-07817883 + Itraconazole arm and reference is PF-07817883 arm. Natural log transformed Cmax of PF-07817883 were analyzed using a mixed effect model with treatment as fixed effect and participant as a random effect. The ratios (and 90% CIs) were expressed as percentages.||246.50|183.76|
92220334|NCT03029143|184340785|OTHER||Adjusted risk difference|6.0|||=|0.525|TWO_SIDED|95.0|-12.4|24.3|||CMH Chi-square test||||Cochran-Mantel-Haenszel (CMH) chi-square test was stratified by TNF antagonist status.|24.3|-12.4|=0.525
92220335|NCT03029143|184340786|OTHER||Adjusted risk difference|-6.6|||=|0.623|TWO_SIDED|95.0|-34.0|20.8|||CMH Chi-square test||||Cochran-Mantel-Haenszel (CMH) chi-square test was stratified by TNF antagonist status.|20.8|-34.0|=0.623
92353519|NCT00286455|184612613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.084||||0.002|TWO_SIDED|95.0|-0.137|-0.032||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.032|-0.137|0.002
92400829|NCT02535481|184692588|SUPERIORITY|||||||0.001||||||At 3 months|Wilcoxon (Mann-Whitney)|||||||0.001
92400830|NCT02927301|184692603|SUPERIORITY||Other/Percentage|20.3|||<|0.0001|ONE_SIDED|95.0|14.9||||binomial test||||||14.900|<.0001
92161358|NCT02081391|184211719|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.02||0.0404|TWO_SIDED|95.0|-0.09|0.0|||ANOVA|||The endpoint was analyzed using an analysis of variance model. This included treatment, baseline age group, and the used SOAM as factors. For participants discontinuing treatment before 12 hours for any other reason than no further need of opioid analgesics or switch to exclusively oral opioid analgesics, cumulative SOAM use over the respective time period was based on the observed SOAM use up to the time of the participant's discontinuation.||0|-0.09|0.0404
92161359|NCT02081391|184211720|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0154|TWO_SIDED|95.0|-0.18|-0.02|||ANOVA|||The endpoint was analyzed using an analysis of variance model. This included treatment, baseline age group, and the used supplemental opioid analgesic medication (SOAM) as factors. For participants discontinuing treatment before 24 hours for any other reason than no further need of SOAM or switch to exclusively oral opioid analgesics, cumulative SOAM use over the respective time period was based on the observed SOAM use up to the time of the participant's discontinuation.||-0.02|-0.18|0.0154
92161360|NCT03184428|184211736|OTHER||||||<|0.05|||||||Spearman's rank-order correlation|Bonferroni adjustment in addition||||||<0.05
92220336|NCT03029143|184340787|SUPERIORITY||Adjusted risk difference|8.1|||=|0.344|TWO_SIDED|95.0|-8.5|24.7|||CMH Chi-square test||||Cochran-Mantel-Haenszel (CMH) chi-square test was stratified by TNF antagonist status.|24.7|-8.5|=0.344
92353520|NCT00286455|184612614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.216||||0.23|TWO_SIDED|95.0|-0.568|0.137||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.137|-0.568|0.230
92353521|NCT00286455|184612614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.154||||0.393|TWO_SIDED|95.0|-0.508|0.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.200|-0.508|0.393
92353522|NCT00286455|184612615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084||||0.703|TWO_SIDED|95.0|-0.348|0.515||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.515|-0.348|0.703
92353523|NCT00286455|184612615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.282||||0.203|TWO_SIDED|95.0|-0.153|0.717||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.717|-0.153|0.203
92353524|NCT00286455|184612616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169||||0.408|TWO_SIDED|95.0|-0.232|0.569||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.569|-0.232|0.408
92353525|NCT00286455|184612616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.013||||0.949|TWO_SIDED|95.0|-0.391|0.417||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.417|-0.391|0.949
92353526|NCT00286455|184612617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.886|TWO_SIDED|95.0|-0.44|0.38||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.380|-0.440|0.886
92400831|NCT02927301|184692604|SUPERIORITY||Risk Difference (RD)|11.41||||0.0358|ONE_SIDED|80.0|5.279||||Fisher Exact||||||5.279|0.0358
92161361|NCT03568318|184211754|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|50.6|||<|0.001|TWO_SIDED|95.0|43.8|57.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||57.4|43.8|<0.001
92220337|NCT04744207|184340790|SUPERIORITY||Least squares mean estimate|0.81|||<|0.05|TWO_SIDED|95.0|-2.48|4.1|||ANCOVA|||||4.10|-2.48|<0.05
92220338|NCT05376215|184340815|NON_INFERIORITY|The non-inferiority margin of -12.5 was used per the findings from Chisolm, et al (2005), see attached article. In that study, the smallest critical difference for the short term retest difference was 12.5 for the APHAB global score at the 90th percentile. For this study, non-inferiority is confirmed if Fitting Method B is no more than 12.5 percentage points below the mean global benefit score of Fitting Method A.||||||0.806|||||||Mixed Models Analysis|||||||0.806
92400832|NCT02927301|184692605|SUPERIORITY||Risk Difference (RD)|16.363||||0.0395|ONE_SIDED|80.0|6.509||||Chi-squared||||||6.509|0.0395
92400833|NCT04742556|184692611|OTHER||Probability of true DLT rate in [0.33-1]|0.0051||||||||||||||Probability of true DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
92400834|NCT04742556|184692611|OTHER||Probability of true DLT rate in [0.33-1]|0.03105||||||||||||||Probability of true DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
92400835|NCT04742556|184692611|OTHER||Probability of true DLT rate in [0.33-1]|0.27405||||||||||||||Probability of true DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
92353527|NCT00286455|184612617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.097||||0.645|TWO_SIDED|95.0|-0.51|0.317||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.317|-0.510|0.645
92353528|NCT00286455|184612618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.656|TWO_SIDED|95.0|-0.378|0.239||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.239|-0.378|0.656
92353529|NCT00286455|184612618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.036||||0.819|TWO_SIDED|95.0|-0.347|0.275||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.275|-0.347|0.819
92353530|NCT00286455|184612619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.079||||0.642|TWO_SIDED|95.0|-0.411|0.253||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.253|-0.411|0.642
92353531|NCT00286455|184612619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003||||0.986|TWO_SIDED|95.0|-0.332|0.338||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.338|-0.332|0.986
92353532|NCT00286455|184612620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.686||||0.305|TWO_SIDED|95.0|0.622|4.571|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||4.571|0.622|0.305
92353533|NCT00286455|184612620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.349||||0.091|TWO_SIDED|95.0|0.873|6.321|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||6.321|0.873|0.091
92353534|NCT00286455|184612621|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.704||||0.001|TWO_SIDED|95.0|1.694|8.1|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||8.100|1.694|0.001
92353535|NCT00286455|184612621|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.305||||0.003|TWO_SIDED|95.0|1.505|7.255|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||7.255|1.505|0.003
92353536|NCT00286455|184612622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.905||||0.006|TWO_SIDED|95.0|1.359|6.21|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||6.210|1.359|0.006
92353537|NCT00286455|184612622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.552|||<|0.001|TWO_SIDED|95.0|2.068|10.017|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||10.017|2.068|<0.001
92353538|NCT00286455|184612623|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.663||||0.004|TWO_SIDED|95.0|1.367|5.188|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||5.188|1.367|0.004
92353539|NCT00286455|184612623|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.277|||<|0.001|TWO_SIDED|95.0|1.671|6.429|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||6.429|1.671|<0.001
92353540|NCT00286455|184612624|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.331||||0.002|TWO_SIDED|95.0|1.714|10.947|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||10.947|1.714|0.002
92353541|NCT00286455|184612624|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.732||||0.001|TWO_SIDED|95.0|1.862|12.025|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||12.025|1.862|0.001
92276210|NCT00408876|184454641|SUPERIORITY_OR_OTHER|||||||0.816||95.0|||||Repeated Measures|||||||0.816
92353542|NCT00286455|184612625|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.766||||0.153|TWO_SIDED|95.0|0.685|11.16|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||11.160|0.685|0.153
92400836|NCT03562195|184692637|SUPERIORITY||Posterior probablity|0.9999|||||||||||Bayesian Dynamic Borrowing|A BDB approach was used in the estimation of primary endpoint in the Chinese participants of this study, with information borrowed from MEA115588.|"Pr (rate ratio \<1 \| data)\>0.999. The 'positive result' is defined as if the posterior probability that the rate ratio is less than 1 is at least 0.95"|||||
92276211|NCT00408876|184454641|SUPERIORITY_OR_OTHER|||||||0.208||95.0|||||Repeated Measures|||||||0.208
92276212|NCT00408876|184454641|SUPERIORITY_OR_OTHER|||||||0.212||95.0|||||Repeated Measures|||||||0.212
92276213|NCT00408876|184454642|SUPERIORITY_OR_OTHER|||||||0.885||95.0|||||Repeated Measures|||||||0.885
92276214|NCT00408876|184454642|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Repeated Measures|||||||0.026
92276215|NCT00408876|184454642|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Repeated Measures|||||||0.007
92276216|NCT00408876|184454642|SUPERIORITY_OR_OTHER|||||||0.095||95.0|||||Repeated Measures|||||||0.095
92400837|NCT03562195|184692637|SUPERIORITY|The null hypothesis is defined as the rate ratio of events between Mepolizumab 100mg SC versus placebo is less than 1.|Rate Ratio|0.35|||<|0.001|TWO_SIDED|95.0|0.24|0.5|||Negative binomial model|||||0.50|0.24|<0.001
92161362|NCT03568318|184211754|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|38.1|||<|0.001|TWO_SIDED|95.0|30.8|45.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||45.4|30.8|<0.001
92161363|NCT03568318|184211755|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|47.6|||<|0.001|TWO_SIDED|95.0|41.1|54.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response rate difference = Upadacitinib - Placebo|||54.0|41.1|<0.001
92161364|NCT03568318|184211755|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|28.5|||<|0.001|TWO_SIDED|95.0|22.1|34.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response rate difference = Upadacitinib - Placebo|||34.9|22.1|<0.001
92161365|NCT03568318|184211756|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|48.8|||<|0.001|TWO_SIDED|95.0|41.9|55.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||55.7|41.9|<0.001
92161366|NCT03568318|184211756|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|36.8|||<|0.001|TWO_SIDED|95.0|29.7|43.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||43.8|29.7|<0.001
92161367|NCT03568318|184211757|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|49.9|||<|0.001|TWO_SIDED|95.0|43.3|56.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||56.4|43.3|<0.001
92276217|NCT00408876|184454642|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Repeated Measures|||||||0.040
92276218|NCT00408876|184454642|SUPERIORITY_OR_OTHER|||||||0.635||95.0|||||Repeated Measures|||||||0.635
92276219|NCT00408876|184454643|SUPERIORITY_OR_OTHER|||||||0.575||95.0|||||Repeated Measures|||||||0.575
92276220|NCT00408876|184454643|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Repeated Measures|||||||0.009
92276221|NCT00408876|184454643|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
92276222|NCT00408876|184454643|SUPERIORITY_OR_OTHER|||||||0.115||95.0|||||Repeated Measures|||||||0.115
92276223|NCT00408876|184454643|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Repeated Measures|||||||0.002
92276224|NCT00408876|184454643|SUPERIORITY_OR_OTHER|||||||0.072||95.0|||||Repeated Measures|||||||0.072
92276225|NCT00408876|184454644|SUPERIORITY_OR_OTHER|||||||0.516||95.0|||||Repeated Measures|||||||0.516
92276226|NCT00408876|184454644|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Repeated Measures|||||||0.006
92276227|NCT00408876|184454644|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
92276228|NCT00408876|184454644|SUPERIORITY_OR_OTHER|||||||0.112||95.0|||||Repeated Measures|||||||0.112
92276229|NCT00408876|184454644|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Repeated Measures|||||||0.010
92276230|NCT00408876|184454644|SUPERIORITY_OR_OTHER|||||||0.219||95.0|||||Repeated Measures|||||||0.219
92276231|NCT00408876|184454645|SUPERIORITY_OR_OTHER|||||||0.309||95.0|||||Repeated Measures|||||||0.309
92276232|NCT00408876|184454645|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Repeated Measures|||||||0.001
92276233|NCT00408876|184454645|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
92276234|NCT00408876|184454645|SUPERIORITY_OR_OTHER|||||||0.116||95.0|||||Repeated Measures|||||||0.116
92276235|NCT00408876|184454645|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Repeated Measures|||||||0.033
92276236|NCT00408876|184454645|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Repeated Measures|||||||0.480
92276237|NCT00408876|184454646|SUPERIORITY_OR_OTHER|||||||0.709||95.0|||||Repeated Measures|||||||0.709
92276238|NCT00408876|184454646|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Repeated Measures|||||||0.012
92220339|NCT05376215|184340816|NON_INFERIORITY|The non-inferiority margin is -1.8 dB. This is based off of work by Killion (2004) in which the critical difference for 4 lists is 1.9 dB at the 95% confidence interval. Killion also found that if all 12 lists are presented, the mean SNR scores will differ by 1.8 dB 5% of the time.||||||0.889|||||||Mixed Models Analysis|||||||0.889
92220340|NCT01301950|184340817|SUPERIORITY_OR_OTHER|||||||0.54|||||||ANOVA|||The null hypothesis was no difference in skin-to-skin time. The alternative hypothesis was that the TruMatch group time was less than the conventional group. Statistical power was anticipated to be 86% with 40 enrolled subjects based upon a Cohen's D effect size of 1. The Sponsor had difficulty identifying and recruiting sites suitable for participation. The statistically required sample size (N=40) was therefore not obtained, causing the group comparison to be statistically underpowered.||||0.54
92220341|NCT00942175|184340822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|||||TWO_SIDED|90.0|0.6106|0.8026|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.8026|0.6106|
92220342|NCT00942175|184340822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.734|||||TWO_SIDED|90.0|0.6516|0.8269|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.8269|0.6516|
92220343|NCT00942175|184340822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5564|||||TWO_SIDED|90.0|0.4877|0.6347|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.6347|0.4877|
92220344|NCT00942175|184340822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6783|||||TWO_SIDED|90.0|0.5063|0.9087|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.9087|0.5063|
92220345|NCT00942175|184340823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8573|||||TWO_SIDED|90.0|0.802|0.9165|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.9165|0.8020|
92220346|NCT00942175|184340823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9103|||||TWO_SIDED|90.0|0.8567|0.9672|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.9672|0.8567|
92220347|NCT00942175|184340823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6943|||||TWO_SIDED|90.0|0.6438|0.7487|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.7487|0.6438|
92220348|NCT00942175|184340823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8389|||||TWO_SIDED|90.0|0.644|1.0928|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||1.0928|0.6440|
92220349|NCT00942175|184340824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1016|||||TWO_SIDED|90.0|0.0348|8.1684|||||Included only participants with complete data for both regimens. Values are least squares mean difference.|||8.1684|0.0348|
92220350|NCT00942175|184340824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0474|||||TWO_SIDED|90.0|-0.8555|4.9503|||||Included only participants with complete data for both regimens. Values are least squares mean difference.|||4.9503|-0.8555|
92220351|NCT00942175|184340824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0407|||||TWO_SIDED|90.0|6.5219|15.5595|||||Included only participants with complete data for both regimens. Values are least squares mean difference.|||15.5595|6.5219|
92220352|NCT00942175|184340824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.4437|||||TWO_SIDED|90.0|7.1791|15.7083|||||Included only participants with complete data for both regimens. Values are least squares mean difference.|||15.7083|7.1791|
92220353|NCT00942175|184340825|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||0.035
92220354|NCT00942175|184340825|SUPERIORITY_OR_OTHER|||||||0.445||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||0.445
92220355|NCT00942175|184340825|SUPERIORITY_OR_OTHER||||||<|0.001||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||<0.001
92220356|NCT00942175|184340825|SUPERIORITY_OR_OTHER||||||<|0.001||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||<0.001
92220357|NCT00942175|184340826|SUPERIORITY_OR_OTHER|||||||0.004||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||0.004
92220358|NCT00942175|184340826|SUPERIORITY_OR_OTHER|||||||0.148||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||0.148
92220359|NCT00942175|184340826|SUPERIORITY_OR_OTHER||||||<|0.001||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||<0.001
92220360|NCT00942175|184340826|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||<.0001
92220361|NCT02651584|184340827|NON_INFERIORITY|The p-value was based on the chi square test for non-inferiority with the margin of 10% point.|||||<|0.001|||||||Chi-squared|||||||<0.001
92220362|NCT02651584|184340828|SUPERIORITY|||||||0.004|||||||Wilcoxon Rank-Sum|||including subject self-reported opioid use||||0.004
92220363|NCT02651584|184340828|SUPERIORITY|||||||0.008|||||||Wilcoxon Rank-Sum|||not including self-reported opioid use||||0.008
92220364|NCT02651584|184340830|NON_INFERIORITY_OR_EQUIVALENCE|The p-value was based on the chi square test for non-inferiority with the margin of 15%.||||||0.006|||||||Chi-squared|||||||0.006
92220365|NCT04041284|184340831|OTHER||LS mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|-3.16|-1.21|||ANCOVA|||||-1.21|-3.16|<0.0001
92220366|NCT04041284|184340832|OTHER||LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.61||0.0205|TWO_SIDED|95.0|-2.61|-0.22|||Mixed Models Analysis|||||-0.22|-2.61|0.0205
92220367|NCT04041284|184340833|OTHER||Odds Ratio (OR)|3.26|||<|0.0001|TWO_SIDED|95.0|1.89|5.62|||Regression, Logistic|||||5.62|1.89|<0.0001
92353543|NCT00286455|184612625|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.632||||0.029|TWO_SIDED|95.0|1.169|18.354|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||18.354|1.169|0.029
92353544|NCT00286455|184612626|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||No multiplicity adjustments.|Mantel Haenszel|Odd's Ratio and 95% CI not estimable using logistic regression model. Tested using extended Mantel-Haenszel test.||||||0.102
92353545|NCT00286455|184612626|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||No multiplicity adjustments.|Mantel Haenszel|Odd's Ratio and 95% CI not estimable using logistic regression model. Tested using extended Mantel-Haenszel test.||||||0.063
92353546|NCT00286455|184612627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.186|TWO_SIDED|95.0|-0.18|0.93||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.93|-0.18|0.186
92353547|NCT00286455|184612627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.237|TWO_SIDED|95.0|-0.22|0.89||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.89|-0.22|0.237
92353548|NCT00286455|184612628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.702|TWO_SIDED|95.0|-0.74|0.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.50|-0.74|0.702
92353549|NCT00286455|184612628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.338|TWO_SIDED|95.0|-0.32|0.93||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.93|-0.32|0.338
92353550|NCT00286455|184612629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.978|TWO_SIDED|95.0|-0.74|0.72||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.72|-0.74|0.978
92353551|NCT00286455|184612629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.991|TWO_SIDED|95.0|-0.73|0.74||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.74|-0.73|0.991
92353552|NCT00286455|184612630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.539|TWO_SIDED|95.0|-1.16|0.61||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.61|-1.16|0.539
92353553|NCT00286455|184612630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.379|TWO_SIDED|95.0|-1.29|0.49||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.49|-1.29|0.379
92353554|NCT00286455|184612631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.616|TWO_SIDED|95.0|-4.4|7.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.5|-4.4|0.616
92353555|NCT00286455|184612631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.93|TWO_SIDED|95.0|-6.4|5.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.8|-6.4|0.930
92353556|NCT00286455|184612632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.915|TWO_SIDED|95.0|-5.3|6.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.0|-5.3|0.915
92220368|NCT04041284|184340834|OTHER||LS mean difference|11.3|STANDARD_ERROR_OF_MEAN|2.21|<|0.0001|TWO_SIDED|95.0|6.91|15.59|||Mixed Models Analysis||Restrictive score: Fremanezumab versus placebo|||15.59|6.91|<0.0001
92220369|NCT04041284|184340834|OTHER||LS mean difference|9.9|STANDARD_ERROR_OF_MEAN|2.12|<|0.0001|TWO_SIDED|95.0|5.73|14.08|||Mixed Models Analysis||Preventive score: Fremanezumab versus placebo|||14.08|5.73|<0.0001
92353557|NCT00286455|184612632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.745|TWO_SIDED|95.0|-4.8|6.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.7|-4.8|0.745
92353558|NCT00286455|184612633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.466|TWO_SIDED|95.0|-3.4|7.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.5|-3.4|0.466
92220370|NCT04041284|184340835|OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0915|TWO_SIDED|95.0|-0.39|0.03|||Mixed Models Analysis||Change at Week 4: Fremanezumab versus Placebo|||0.03|-0.39|0.0915
92353559|NCT00286455|184612633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.154|TWO_SIDED|95.0|-1.5|9.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||9.6|-1.5|0.154
92353560|NCT00286455|184612634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.774|TWO_SIDED|95.0|-5.1|6.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.9|-5.1|0.774
92353561|NCT00286455|184612634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.761|TWO_SIDED|95.0|-5.2|7.1||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.1|-5.2|0.761
92353562|NCT00286455|184612635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.559|TWO_SIDED|95.0|-4.2|7.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.7|-4.2|0.559
92353563|NCT00286455|184612635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.523|TWO_SIDED|95.0|-4.1|8.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||8.0|-4.1|0.523
92353564|NCT00286455|184612636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.739|TWO_SIDED|95.0|-7.4|5.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.2|-7.4|0.739
92353565|NCT00286455|184612636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.388|TWO_SIDED|95.0|-9.3|3.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.6|-9.3|0.388
92353566|NCT04826731|184612637|OTHER|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||Nonparametric testing was utilized due to non-standard distribution and reduced sample size. Comparison between groups was made by Mann-Whitney U testing. Spearman's rho was utilized for correlation analysis. No subgroup analyses were planned for the study.||||0.374
92353567|NCT04826731|184612638|OTHER|||||||0.635|||||||Wilcoxon (Mann-Whitney)|||Nonparametric testing was utilized due to non-standard distribution and reduced sample size. Comparison between groups was made by Mann-Whitney U testing. Spearman's rho was utilized for correlation analysis. No subgroup analyses were planned for the study.||||0.635
92353568|NCT02933151|184612652|SUPERIORITY||Cox Proportional Hazard|1.03|||||TWO_SIDED|95.0|0.92|1.14|||||Reference group is usual care|||1.14|0.92|
92353569|NCT01423084|184612697|NON_INFERIORITY_OR_EQUIVALENCE|Two different lots of rMenB+OMV NZ are to be considered equivalent in terms of hSBA GMTs against H44/76 strain if the two sided 95% Confidence Interval (CI) between groups GMTs ratio at day 31 (ie, one month after the second vaccination) does not exceed the range 0.5 (lower limit) - 2.0 (higher limit).|between groups ratio|1.0|||||TWO_SIDED|95.0|0.82|1.23||||||Equivalence of 2 different lots of rMenB+OMV NZ in terms of hSBA GMTs against H44/76 strain||1.23|0.82|
92353570|NCT01423084|184612697|NON_INFERIORITY_OR_EQUIVALENCE|Two different lots of rMenB+OMV NZ are to be considered equivalent in terms of hSBA GMTs against 5/99 strain if the two sided 95% Confidence Interval (CI) between groups GMTs ratio at day 31 (ie, one month after the second vaccination ) does not exceed the range 0.5 (lower limit) - 2.0 (higher limit).|between groups ratio|0.92|||||TWO_SIDED|95.0|0.77|1.1||||||Equivalence of 2 different lots of rMenB+OMV NZ in terms of hSBA GMTs against 5/99 strain||1.1|0.77|
92353571|NCT01423084|184612697|NON_INFERIORITY_OR_EQUIVALENCE|Two different lots of rMenB+OMV NZ are to be considered equivalent in terms of hSBA GMTs against NZ 98/254 strain if the two sided 95% Confidence Interval (CI) between groups GMTs ratio at day 31 (ie, one month after the second vaccination ) does not exceed the range 0.5 (lower limit) - 2.0 (higher limit).|between groups ratio|0.81|||||TWO_SIDED|95.0|0.6|1.09||||||Equivalence of 2 different lots of rMenB+OMV NZ in terms of hSBA GMTs against NZ98/254 strain||1.09|0.6|
92353572|NCT01423084|184612705|NON_INFERIORITY_OR_EQUIVALENCE|Two different lots of rMenB+OMV NZ are to be considered equivalent in terms of ELISA GMCs against vaccine antigen 287-953 if the two sided 95% Confidence Interval (CI) between groups GMTs ratio at day 31 (ie, one month after the second vaccination ) does not exceed the range 0.5 (lower limit) - 2.0 (higher limit).|between groups ratio|0.83|||||TWO_SIDED|95.0|0.67|1.02||||||Equivalence of 2 different lots of rMenB+OMV NZ in terms of hSBA GMTs||1.02|0.67|
92353573|NCT02462057|184612721|EQUIVALENCE|The anticipated sample size of 3500 provided 80% power to detect a 3% pairwise difference between the proportions of participants who enrolled in HF with significance testing conducted at the Bonferroni-corrected significance level of 0.005 (0.05/10) to account for the 10 pairwise between-arm comparisons and pessimistically allowing for up to 10% further exclusions. The baseline monthly enrolment rate was estimated at ∼1%/month.|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92220371|NCT04041284|184340835|OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.11||0.0006|TWO_SIDED|95.0|-0.59|-0.16|||Mixed Models Analysis||Change at Week 8: Fremanezumab versus Placebo|||-0.16|-0.59|0.0006
92220372|NCT04041284|184340835|OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.12||0.003|TWO_SIDED|95.0|-0.58|-0.12|||Mixed Models Analysis||Change at Week 12: Fremanezumab versus Placebo|||-0.12|-0.58|0.0030
92220373|NCT04041284|184340836|OTHER||LS mean difference|-3.6|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-5.15|-1.96|||Mixed Models Analysis|||||-1.96|-5.15|<0.0001
92220374|NCT02822885|184340984|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
92220375|NCT02822885|184340985|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
92220376|NCT02822885|184340986|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
92220377|NCT02822885|184340987|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
92220378|NCT02822885|184340988|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
92220379|NCT03803059|184340998|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Calculated using Wilcoxon signed rank test. Testing hypothesis is that the mean change from baseline is zero||||<0.01
92220380|NCT03803059|184340999|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Calculated using Wilcoxon signed rank test. Testing hypothesis is that the mean score is equal to 4 (no change).||||<0.01
92220381|NCT03803059|184341000|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Calculated using the Wilcoxon signed rank test. Testing hypothesis is that the mean score is equal to 4.||||<0.01
92353574|NCT01791205|184612737|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.538||||0.1194|TWO_SIDED|95.0|0.65|19.33||The relation between retention rate and duration of disease for phase II was estimated with the Cox regression model.|Regression, Cox|||The relation between retention rate and DAS28 (\<2.6 vs \<3.2) was assayed with the Cox regression.||19.33|0.65|0.1194
92353575|NCT01791205|184612738|SUPERIORITY_OR_OTHER|||||||0.3895|||||||Regression, Cox|||||||0.3895
92220382|NCT03803059|184341001|SUPERIORITY|||||||0.051|||||||t-test, 1 sided|||Calculated using paired t-test. The testing hypothesis is that the mean change from baseline is zero.||||0.051
92220383|NCT03803059|184341002|SUPERIORITY||||||<|0.01|||||||t-test, 1 sided|||Calculated from paired t-test. The testing hypothesis is that the mean change from baseline is zero.||||<0.01
92353576|NCT01791205|184612739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.211||||0.49|TWO_SIDED|95.0|0.703|2.086|||Regression, Logistic|||||2.086|0.703|0.4900
92353577|NCT01791205|184612740|SUPERIORITY_OR_OTHER||Delta|-0.042||||0.6908|TWO_SIDED|95.0|-0.251|0.167|||t-test, 2 sided|||||0.167|-0.251|0.6908
92353578|NCT01791205|184612741|SUPERIORITY_OR_OTHER|||||||0.021|||||||Pearson's chi-squared test|||||||0.0210
92353579|NCT01750281|184612832|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A hazard ratio \<1 favours selumetinib in combination with docetaxel|Hazard Ratio (HR)|1.12||||0.584|TWO_SIDED|90.0|0.8|1.61|||Cox Proportional Hazards|||||1.61|0.80|0.584
92353580|NCT01750281|184612832|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A hazard ratio \<1 favours selumetinib in combination with docetaxel|Hazard Ratio (HR)|0.92||||0.69|TWO_SIDED|90.0|0.65|1.31|||Cox Proportional Hazards|||||1.31|0.65|0.690
92353581|NCT01750281|184612833|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A hazard ratio \<1 favours selumetinib in combination with docetaxel|Hazard Ratio (HR)|1.43||||0.126|TWO_SIDED|90.0|0.97|2.13|||Cox Proportional Hazards|||||2.13|0.97|0.126
92220384|NCT03803059|184341003|SUPERIORITY|||||||0.331|||||||t-test, 1 sided|||Calculated from paired t-test. The testing hypothesis is that the mean change from baseline is zero.||||0.331
92220385|NCT03803059|184341004|SUPERIORITY|||||||0.863|||||||t-test, 2 sided|||Calculated using the paired t test. Testing hypothesis is that the mean change from baseline is zero.||||0.863
92220386|NCT03803059|184341005|SUPERIORITY|||||||0.048|||||||t-test, 2 sided|||Calculated using the paired t-test. The testing hypothesis is that the mean change from baseline is zero.||||0.048
92220387|NCT03803059|184341006|SUPERIORITY|||||||0.355||||||P-value reported is for viscoelastic deformation.|t-test, 2 sided|at significance level alpha+0.05||Calculated using the paired t-test. The testing hypothesis is that the mean change from baseline is zero.||||0.355
92220388|NCT03803059|184341007|SUPERIORITY|||||||0.859||||||Calculated with a paired T test. Testing hypothesis is that the mean change from baseline is zero.|t-test, 2 sided|||Calculated using the paired t test. Testing hypothesis is that the mean change from baseline is zero.||||0.859
92220389|NCT03803059|184341008|EQUIVALENCE|.A binomial (sign) test was performed to test if the the proportion of the combined designated favorable evaluations/responses is equal to the combined designated negative evaluations/responses for each question|||||<|0.01|||||||Sign test|||Patient satisfaction questionnaires were tabulated, and the frequency and percentage of all response options were reported for each question and time point calculated from the binomial (sign) test. The testing hypothesis is that the proportion of favorable responses is equal to the unfavorable||||<0.01
92220390|NCT03803059|184341009|SUPERIORITY|||||||0.031||||||All statistical tests were 2-sided at significance level alpha=0.05. No multiple testing corrections were considered in the study.|t-test, 2 sided|||The null hypothesis that the mean change from baseline is zero was tested using a paired t-test||||0.031
92220391|NCT04013529|184341010|SUPERIORITY||||||=|0.9|||||||ANCOVA|||||||=0.90
92220392|NCT04013529|184341011|SUPERIORITY||||||=|0.88|||||||ANCOVA|||||||= 0.88
92220393|NCT04013529|184341012|SUPERIORITY||||||<|0.17|||||||ANCOVA|||||||< 0.17
92220394|NCT04013529|184341013|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||< 0.05
92220395|NCT04013529|184341014|SUPERIORITY||||||=|0.81|||||||ANCOVA|||||||= 0.81
92220396|NCT02971631|184341043|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|Paired analysis||||||0.008
92220397|NCT02971631|184341044|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|Paired analysis||||||0.03
92220398|NCT02971631|184341045|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|Paired analysis||For meal consumption rate||||0.79
92220399|NCT02971631|184341047|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|Paired analysis||Baseline||||0.20
92220400|NCT02971631|184341047|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|Paired analysis||Post-OGTT||||0.58
92220401|NCT02971631|184341047|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|Paired analysis||Pre-meal||||0.39
92220402|NCT02971631|184341047|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|Paired analysis||Post-meal||||0.20
92161368|NCT03568318|184211757|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|29.5|||<|0.001|TWO_SIDED|95.0|22.8|36.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||36.3|22.8|<0.001
92161369|NCT03568318|184211758|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|50.6|||<|0.001|TWO_SIDED|95.0|43.8|57.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||57.3|43.8|<0.001
92161370|NCT03568318|184211758|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|37.4|||<|0.001|TWO_SIDED|95.0|30.4|44.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||44.3|30.4|<0.001
92161371|NCT03568318|184211759|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|57.6|||<|0.001|TWO_SIDED|95.0|51.2|63.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||63.9|51.2|<0.001
92161372|NCT03568318|184211759|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|43.8|||<|0.001|TWO_SIDED|95.0|37.0|50.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||50.5|37.0|<0.001
92220403|NCT02971631|184341048|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|Paired analysis||Baseline||||0.26
92220404|NCT02971631|184341048|SUPERIORITY|||||||0.06||||||Paired analysis|t-test, 2 sided|||Post-OGTT||||0.06
92220405|NCT02971631|184341048|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|Paired analysis||Pre-meal||||0.95
92353582|NCT01750281|184612833|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A hazard ratio \<1 favours selumetinib in combination with docetaxel|Hazard Ratio (HR)|1.18||||0.485|TWO_SIDED|90.0|0.8|1.78|||Cox Proportional Hazards|||||1.78|0.80|0.485
92353583|NCT03757715|184612859|SUPERIORITY|||||||0.16|||||||t-test, 1 sided|||||||0.16
92353584|NCT03757715|184612860|SUPERIORITY|||||||0.42|||||||t-test, 1 sided|||||||0.42
92400838|NCT02218372|184692656|OTHER||adjusted treatment difference|7.5|||||TWO_SIDED|95.0|-7.4|23.9||||||Adjusted difference of CCR at EOT + 2 Days. Adjusted treatment difference of proportions was calculated using a stratified Cochran-Mantel-Haenszel (CMH) method. Newcombe 95% confidence intervals (CIs) presented for adjusted treatment difference.||23.9|-7.4|
92161373|NCT03568318|184211760|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|37.2|||<|0.001|TWO_SIDED|95.0|31.0|43.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||43.3|31.0|<0.001
92161374|NCT03568318|184211760|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|24.0|||<|0.001|TWO_SIDED|95.0|18.1|29.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||29.9|18.1|<0.001
92161375|NCT03568318|184211761|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|38.8|||<|0.001|TWO_SIDED|95.0|32.8|44.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||44.8|32.8|<0.001
92220406|NCT02971631|184341048|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|Paired analysis||Post-meal||||0.88
92220407|NCT02971631|184341049|SUPERIORITY|||||||1|||||||Other|0 events over whole study, no statistical test appropriate||||||1
92220408|NCT02971631|184341050|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
92227303|NCT00927368|184356881|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean catheter minus mean ultrasound alone is greater than 0.5 points).|Mean Difference (Final Values)|-0.12|||<|0.001|TWO_SIDED|95.0|-0.57|0.33||Significance criterion of 0.01041 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing stimulating catheter to ultrasound alone on the mean time-weighted average pain score for a patient in the first 48 hours.||0.33|-0.57|< 0.001
92400839|NCT02218372|184692657|OTHER||adjusted treatment difference|16.3|||||TWO_SIDED|95.0|1.8|34.2||||||Adjusted difference of SCR at EOT +9 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||34.2|1.8|
92353585|NCT01122680|184612939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.039||0.0043||95.0|0.036|0.19||First step of closed testing procedure, where the active treatments are compared to placebo. If this statisical test significant at the 0.05 alpha level then proceed to comparison of the next lower dose to placebo.|Mixed model repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R5 minus Placebo||0.190|0.036|0.0043
92353586|NCT01122680|184612939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.039||0.1484||95.0|-0.021|0.135||Second step of closed testing procedure. If this statisical test significant at the 0.05 alpha level then proceed to comparison of the next lower dose to placebo.|Mixed effect repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R2.5 minus Placebo||0.135|-0.021|0.1484
92353587|NCT01122680|184612939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.036||0.0664||95.0|-0.005|0.138||This test is considered as descriptive.|Mixed effect repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R1.25 minus Placebo||0.138|-0.005|0.0664
92400840|NCT02218372|184692658|OTHER||adjusted treatment difference|21.3|||||TWO_SIDED|95.0|4.5|37.7||||||Adjusted difference of GC at EOT +9 days. Adjusted treatment difference of rates was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||37.7|4.5|
92400841|NCT02218372|184692659|OTHER||adjusted treatment difference|-16.3|||||TWO_SIDED|95.0|-34.2|-1.8||||||Adjusted difference of CDAD recurrence at EOT +9 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||-1.8|-34.2|
92400842|NCT02218372|184692660|OTHER||adjusted treatment difference|17.2|||||TWO_SIDED|95.0|1.9|35.6||||||Adjusted difference of SCR at EOT +16 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||35.6|1.9|
92400843|NCT02218372|184692661|OTHER||adjusted treatment difference|19.4|||||TWO_SIDED|95.0|2.3|35.9||||||Adjusted difference of GC at EOT +16 days. Adjusted treatment difference of rates was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||35.9|2.3|
92400844|NCT02218372|184692662|OTHER||adjusted treatment difference|-17.2|||||TWO_SIDED|95.0|-35.6|-1.9||||||Adjusted difference of CDAD Recurrence at EOT +16 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||-1.9|-35.6|
92400845|NCT02218372|184692663|OTHER||adjusted treatment difference|15.8|||||TWO_SIDED|95.0|-0.5|34.5||||||Adjusted difference of SCR at EOT +23 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||34.5|-0.5|
92353588|NCT01122680|184612939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.039||||95.0|-0.031|0.124|||Mixed effect repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R5 minus Tio R1.25||0.124|-0.031|
92400846|NCT02218372|184692664|OTHER||adjusted treatment difference|18.8|||||TWO_SIDED|95.0|1.5|35.3||||||Adjusted difference of GC at EOT +23 days. Adjusted treatment difference of rates was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||35.3|1.5|
92220409|NCT04036708|184341114|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|2.33||0.77|TWO_SIDED|95.0|-3.93|5.32||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Planned sample size of total 100 analyzed was determined by feasibility considerations for this exploratory developmental R21 study. With planned n=66 in MISC+WTM arm and n=34 in WTM only arm, the unadjusted effect size of 0.60 was detectable as statistically significant with power of 0.80 and 0.05 level of significance in two-tailed tests.||5.32|-3.93|.77
92353589|NCT01122680|184612939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.036||||95.0|-0.014|0.126|||Mixed effect repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R5 minus Tio R2.5||0.126|-0.014|
92353590|NCT01122680|184612939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.04||||95.0|-0.088|0.069|||Mixed effect repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R2.5 minus Tio R1.25||0.069|-0.088|
92353591|NCT01655069|184612977|OTHER||Adjusted change from baseline|-0.95|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-1.19|-0.71|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.71|-1.19|
92400847|NCT02218372|184692665|OTHER||adjusted treatment difference|-15.8|||||TWO_SIDED|95.0|-34.5|0.5||||||Adjusted difference of CDAD Recurrence at EOT +23 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||0.5|-34.5|
92400848|NCT02218372|184692666|OTHER||adjusted treatment difference|15.8|||||TWO_SIDED|95.0|-0.5|34.5||||||Adjusted difference of SCR at EOS (EOT +30 days). Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||34.5|-0.5|
92400849|NCT02218372|184692667|OTHER||adjusted treatment difference|18.8|||||TWO_SIDED|95.0|1.5|35.3||||||Adjusted difference of GC at EOS (EOT +30 days). Adjusted treatment difference of rates was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||35.3|1.5|
92220410|NCT04036708|184341114|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|2.44||0.9|TWO_SIDED|95.0|-5.14|4.54||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Planned sample size of total 100 analyzed was determined by feasibility considerations for this exploratory developmental R21 study. With planned n=66 in MISC+WTM arm and n=34 in WTM only arm, the unadjusted effect size of 0.60 was detectable as statistically significant with power of 0.80 and 0.05 level of significance in two-tailed tests.||4.54|-5.14|.90
92220411|NCT04036708|184341115|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|64.03|STANDARD_ERROR_OF_MEAN|24.55||0.01|TWO_SIDED|95.0|15.26|112.8||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, the HOME score, child's age and sex were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Planned sample size of total 100 analyzed was determined by feasibility considerations for this exploratory developmental R21 study. With planned n=66 in MISC+WTM arm and n=34 in WTM only arm, the unadjusted effect size of 0.60 was detectable as statistically significant with power of 0.80 and 0.05 level of significance in two-tailed tests.||112.8|15.26|.01
92220412|NCT04036708|184341115|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|-37.53|STANDARD_ERROR_OF_MEAN|24.86||0.13|TWO_SIDED|95.0|-86.92|11.85||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, the HOME score, and child's age and sex were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Planned sample size of total 100 analyzed was determined by feasibility considerations for this exploratory developmental R21 study. With planned n=66 in MISC+WTM arm and n=34 in WTM only arm, the unadjusted effect size of 0.60 was detectable as statistically significant with power of 0.80 and 0.05 level of significance in two-tailed tests.||11.85|-86.92|.13
92353592|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.11|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-1.34|-0.88|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.88|-1.34|
92220413|NCT04036708|184341116|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|-1.76|STANDARD_ERROR_OF_MEAN|2.97||0.55|TWO_SIDED|95.0|-7.65|4.13||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome and household material possessions were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||4.13|-7.65|.55
92220414|NCT04036708|184341116|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|-3.42|STANDARD_ERROR_OF_MEAN|3.05||0.26|TWO_SIDED|95.0|-9.48|2.63||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome and household material possessions were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||2.63|-9.48|.26
92220415|NCT04036708|184341117|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.16||0.32|TWO_SIDED|95.0|-0.48|0.16||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||0.16|-0.48|.32
92220416|NCT04036708|184341117|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.16||0.02|TWO_SIDED|95.0|-0.72|-0.06||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||-0.06|-0.72|.02
92220417|NCT04036708|184341118|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.2||0.06|TWO_SIDED|95.0|-0.78|0.01||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||0.01|-0.78|.06
92400850|NCT02218372|184692668|OTHER|Newcombe 95% CIs presented for adjusted treatment difference.|adjusted treatment difference|-15.8|||||TWO_SIDED|95.0|-34.5|0.5||||||Adjusted difference of CDAD recurrence at EOS/EOT +30 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||0.5|-34.5|
92276239|NCT00408876|184454646|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Repeated Measures|||||||0.001
92276240|NCT00408876|184454646|SUPERIORITY_OR_OTHER|||||||0.097||95.0|||||Repeated Measures|||||||0.097
92220418|NCT04036708|184341118|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.001|TWO_SIDED|95.0|-1.11|-0.28||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||-0.28|-1.11|.001
92276241|NCT00408876|184454646|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Repeated Measures|||||||0.023
92353593|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.26|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-1.53|-1.0|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.00|-1.53|
92353594|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.39|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-1.63|-1.16|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.16|-1.63|
92353595|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.54|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-1.76|-1.32|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.32|-1.76|
92353596|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.56|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-1.81|-1.31|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-1.31|-1.81|
92353597|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.93|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-2.19|-1.67|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.67|-2.19|
92353598|NCT01655069|184612977|OTHER||Adjusted change from baseline|-0.93|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-1.62|-0.23|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.23|-1.62|
92353599|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.38|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-2.09|-0.68|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-0.68|-2.09|
92353600|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.4|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-2.09|-0.7|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.70|-2.09|
92353601|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.58|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-2.27|-0.88|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.88|-2.27|
92353602|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.8|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-2.5|-1.1|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.10|-2.50|
92353603|NCT01655069|184612977|OTHER||Adjusted change from baseline|-1.57|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-2.29|-0.85|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.85|-2.29|
92161376|NCT03568318|184211761|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|23.3|||<|0.001|TWO_SIDED|95.0|17.7|28.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||28.9|17.7|<0.001
92400851|NCT02218372|184692669|OTHER|||||||0.579|||||||Log Rank|||Time to resolution of diarrhea.||||0.579
92276242|NCT00408876|184454646|SUPERIORITY_OR_OTHER|||||||0.435||95.0|||||Repeated Measures|||||||0.435
92276243|NCT00408876|184454647|SUPERIORITY_OR_OTHER|||||||0.931||95.0|||||Repeated Measures|||||||0.931
92353604|NCT01655069|184612977|OTHER||Adjusted change from baseline|-2.0|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-2.83|-1.17|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.17|-2.83|
92353605|NCT01655069|184612978|OTHER||Adjusted change from baseline|1.35|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|0.97|1.73|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||1.73|0.97|
92400852|NCT02218372|184692670|OTHER|||||||0.023|||||||Log Rank|||Time to recurrence of CDAD.||||0.023
92400853|NCT02923726|184692679|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.005|TWO_SIDED|95.9|0.57|0.92|||Log Rank||Shock only was the reference group. Confidence interval adjusted for interim analyses.|||0.92|0.57|0.005
92220419|NCT04036708|184341119|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|1.05|STANDARD_ERROR_OF_MEAN|0.49||0.04|TWO_SIDED|95.0|0.07|2.03||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||2.03|0.07|.04
92220420|NCT04036708|184341119|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|0.94|STANDARD_ERROR_OF_MEAN|0.51||0.07|TWO_SIDED|95.0|-0.08|1.96||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||1.96|-0.08|.07
92220421|NCT04036708|184341120|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|2.04|STANDARD_ERROR_OF_MEAN|0.51|<|0.01|TWO_SIDED|95.0|1.02|3.06||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||3.06|1.02|<.01
92276244|NCT00408876|184454647|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Repeated Measures|||||||0.007
92276245|NCT00408876|184454647|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
92400854|NCT02923726|184692680|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.284|TWO_SIDED|95.0|0.78|1.07|||Log Rank||Shock Only was the reference group.|||1.07|0.78|0.284
92400855|NCT02923726|184692681|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.02|TWO_SIDED|95.0|0.56|0.95|||Log Rank||Shock Only arm is reference group.|||0.95|0.56|0.020
92400856|NCT02923726|184692682|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.033|TWO_SIDED|95.0|0.44|0.97|||Log Rank||Shock Only is the reference group.|||0.97|0.44|0.033
92276246|NCT00408876|184454647|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||Repeated Measures|||||||0.036
92276247|NCT00408876|184454647|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Repeated Measures|||||||0.007
92400857|NCT02923726|184692683|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.184|TWO_SIDED|95.0|0.94|1.41|||Log Rank||Shock Only is the reference group.|||1.41|0.94|0.184
92276248|NCT00408876|184454647|SUPERIORITY_OR_OTHER|||||||0.416||95.0|||||Repeated Measures|||||||0.416
92400858|NCT02753283|184692684|SUPERIORITY||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|1.48||0.007|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.007
92400859|NCT02753283|184692684|SUPERIORITY||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|1.09||0.018|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.018
92400860|NCT02753283|184692685|SUPERIORITY||Mean Difference (Final Values)|3.99|STANDARD_ERROR_OF_MEAN|1.45||0.014|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.014
92400861|NCT02753283|184692685|SUPERIORITY||Mean Difference (Final Values)|5.16|STANDARD_ERROR_OF_MEAN|1.45||0.002|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.002
92400862|NCT02753283|184692686|SUPERIORITY||Mean Difference (Final Values)|2.54|STANDARD_ERROR_OF_MEAN|1.26||0.06|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.060
92400863|NCT02753283|184692686|SUPERIORITY||Mean Difference (Final Values)|2.45|STANDARD_ERROR_OF_MEAN|1.22||0.055|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.055
92400864|NCT02753283|184692687|SUPERIORITY||Mean Difference (Final Values)|2.21|STANDARD_ERROR_OF_MEAN|1.37||0.112|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.112
92400865|NCT02753283|184692687|SUPERIORITY||Mean Difference (Final Values)|2.46|STANDARD_ERROR_OF_MEAN|1.34||0.07|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.070
92353606|NCT01655069|184612978|OTHER||Adjusted change from baseline|1.43|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|1.02|1.83|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||1.83|1.02|
92161377|NCT03568318|184211762|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|21.2|||<|0.001|TWO_SIDED|95.0|16.3|26.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||26.1|16.3|<0.001
92353607|NCT01655069|184612978|OTHER||Adjusted change from baseline|1.72|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|1.27|2.16|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||2.16|1.27|
92161378|NCT03568318|184211763|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|16.2|||<|0.001|TWO_SIDED|95.0|11.3|21.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||21.1|11.3|<0.001
92161379|NCT03568318|184211763|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|9.2|||<|0.001|TWO_SIDED|95.0|4.9|13.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||13.4|4.9|<0.001
92161380|NCT03568318|184211764|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for European Union (EU)/European Medicines Agency (EMA) regulatory purposes only.|Least Squares (LS) Mean Difference|-41.79|STANDARD_ERROR_OF_MEAN|4.417|<|0.001|TWO_SIDED|95.0|-50.46|-33.11|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-33.11|-50.46|<0.001
92161381|NCT03568318|184211764|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for European Union (EU)/European Medicines Agency (EMA) regulatory purposes only.|LS Mean Difference|-33.08|STANDARD_ERROR_OF_MEAN|4.403|<|0.001|TWO_SIDED|95.0|-41.72|-24.44|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-24.44|-41.72|<0.001
92276249|NCT00408876|184454648|SUPERIORITY_OR_OTHER|||||||0.634||95.0|||||Repeated Measures|||||||0.634
92400866|NCT02753283|184692688|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|1.39||0.904|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.904
92400867|NCT02753283|184692688|SUPERIORITY||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|2.29||0.616|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.616
92161382|NCT03568318|184211765|SUPERIORITY||LS Mean Difference|-41.45|STANDARD_ERROR_OF_MEAN|2.662|<|0.001|TWO_SIDED|95.0|-46.68|-36.22|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.||-36.22|-46.68|<0.001
92161383|NCT03568318|184211765|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-32.13|STANDARD_ERROR_OF_MEAN|2.659|<|0.001|TWO_SIDED|95.0|-37.35|-26.91|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-26.91|-37.35|<0.001
92161384|NCT03568318|184211766|SUPERIORITY||Adjusted Response Rate Difference|53.1|||<|0.001|TWO_SIDED|95.0|38.8|67.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||67.4|38.8|<0.001
92276250|NCT00408876|184454648|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Repeated Measures|||||||0.031
92276251|NCT00408876|184454648|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Repeated Measures|||||||0.002
92400868|NCT02753283|184692689|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||<.001
92220422|NCT04036708|184341120|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|1.73|STANDARD_ERROR_OF_MEAN|0.53|<|0.01|TWO_SIDED|95.0|0.67|2.79||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||2.79|0.67|<.01
92400869|NCT02753283|184692689|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.005|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.005
92400870|NCT02753283|184692690|SUPERIORITY||Mean Difference (Final Values)|-26.2|STANDARD_ERROR_OF_MEAN|6.0||0.001|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.001
92400871|NCT02753283|184692690|SUPERIORITY||Mean Difference (Final Values)|-8.2|STANDARD_ERROR_OF_MEAN|3.9||0.038|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.038
92276252|NCT00408876|184454648|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Repeated Measures|||||||0.026
92400872|NCT03988400|184692691|SUPERIORITY|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||1
92276253|NCT00408876|184454648|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Repeated Measures|||||||0.003
92276254|NCT00408876|184454648|SUPERIORITY_OR_OTHER|||||||0.313||95.0|||||Repeated Measures|||||||0.313
92276255|NCT00408876|184454649|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||Repeated Measures|||||||0.910
92276256|NCT00408876|184454649|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Repeated Measures|||||||0.026
92276257|NCT00408876|184454649|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
92276258|NCT00408876|184454649|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Repeated Measures|||||||0.090
92276259|NCT00408876|184454649|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Repeated Measures|||||||0.006
92276260|NCT00408876|184454649|SUPERIORITY_OR_OTHER|||||||0.171||95.0|||||Repeated Measures|||||||0.171
92400873|NCT03988400|184692692|SUPERIORITY|||||||0.017||||||The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||||||0.017
92400874|NCT03988400|184692693|SUPERIORITY|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||1
92400875|NCT03988400|184692694|SUPERIORITY|||||||0.72||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.72
92400876|NCT03988400|184692695|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.001
92400877|NCT03988400|184692696|SUPERIORITY|||||||0.68||||||The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||||||0.68
92276261|NCT00408876|184454650|SUPERIORITY_OR_OTHER|||||||0.733||95.0|||||Repeated Measures|||||||0.733
92276262|NCT00408876|184454650|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Repeated Measures|||||||0.022
92276263|NCT00408876|184454650|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
92400878|NCT03988400|184692697|SUPERIORITY|||||||0.25||||||The a priori threshold for statistical significance was 0.05|t-test, 2 sided|||||||0.25
92276264|NCT00408876|184454650|SUPERIORITY_OR_OTHER|||||||0.128||95.0|||||Repeated Measures|||||||0.128
92276265|NCT00408876|184454650|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||Repeated Measures|||||||0.013
92276266|NCT00408876|184454650|SUPERIORITY_OR_OTHER|||||||0.225||95.0|||||Repeated Measures|||||||0.225
92276267|NCT00408876|184454651|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Repeated Measures|||||||0.890
92276268|NCT00408876|184454651|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||Repeated Measures|||||||0.079
92276269|NCT00408876|184454651|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Repeated Measures|||||||0.035
92276270|NCT00408876|184454651|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||Repeated Measures|||||||0.117
92276271|NCT00408876|184454651|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Repeated Measures|||||||0.060
92276272|NCT00408876|184454651|SUPERIORITY_OR_OTHER|||||||0.647||95.0|||||Repeated Measures|||||||0.647
92276273|NCT00408876|184454652|SUPERIORITY_OR_OTHER|||||||0.243||95.0|||||Repeated Measures|||||||0.243
92276274|NCT00408876|184454652|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Repeated Measures|||||||0.110
92276275|NCT00408876|184454652|SUPERIORITY_OR_OTHER|||||||0.236||95.0|||||Repeated Measures|||||||0.236
92276276|NCT00408876|184454652|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Repeated Measures|||||||0.014
92276277|NCT00408876|184454652|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||Repeated Measures|||||||0.036
92276278|NCT00408876|184454652|SUPERIORITY_OR_OTHER|||||||0.756||95.0|||||Repeated Measures|||||||0.756
92276279|NCT00408876|184454653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.23||||0.465||95.0|-0.84|0.39|||t-test, 2 sided|||||0.39|-0.84|0.465
92276280|NCT00408876|184454653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.79||||0.002||95.0|-1.3|-0.29|||t-test, 2 sided|||||-0.29|-1.30|0.002
92276281|NCT00408876|184454653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31||||0.233||95.0|-0.82|0.2|||t-test, 2 sided|||||0.20|-0.82|0.233
92276282|NCT00408876|184454653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.075||95.0|-1.19|0.06|||t-test, 2 sided|||||0.06|-1.19|0.075
92276283|NCT00408876|184454653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.798||95.0|-0.71|0.54|||t-test, 2 sided|||||0.54|-0.71|0.798
92276284|NCT00408876|184454653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.48||||0.066||95.0|-0.03|1.0|||t-test, 2 sided|||||1.00|-0.03|0.066
92276285|NCT00408876|184454654|SUPERIORITY_OR_OTHER|||||||0.869||95.0|||||Fisher Exact|||||||0.869
92276286|NCT00408876|184454654|SUPERIORITY_OR_OTHER|||||||0.141||95.0|||||Fisher Exact|||||||0.141
92276287|NCT00408876|184454654|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Fisher Exact|||||||0.033
92400879|NCT03988400|184692698|SUPERIORITY|||||||0.69||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.69
92400880|NCT03988400|184692699|SUPERIORITY|||||||0.2||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.20
92400881|NCT03988400|184692700|SUPERIORITY|||||||0.62||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.62
92161385|NCT03568318|184211766|SUPERIORITY||Adjusted Response Rate Difference|32.7|||<|0.001|TWO_SIDED|95.0|16.3|49.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||49.0|16.3|<0.001
92220423|NCT02918864|184341121|SUPERIORITY||Beta Coefficient|-0.22||||0.037|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SB=Group+Time+Group\*Time+ADHD+ γ + ε; ADHD, CASI T-score significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.037
92220424|NCT02918864|184341123|SUPERIORITY||Beta Coefficient|-0.23||||0.016|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SB=Group+Time+Group\*Time+ADHD+ γ + ε; ADHD, CASI T-score significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.016
92353608|NCT01655069|184612978|OTHER||Adjusted change from baseline|1.8|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|1.36|2.24|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||2.24|1.36|
92353609|NCT01655069|184612978|OTHER||Adjusted change from baseline|2.21|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|1.74|2.67|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||2.67|1.74|
92353610|NCT01655069|184612978|OTHER||Adjusted change from baseline|2.28|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|95.0|1.79|2.77|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||2.77|1.79|
92353611|NCT01655069|184612978|OTHER||Adjusted change from baseline|2.84|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|95.0|2.19|3.49|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||3.49|2.19|
92353612|NCT01655069|184612978|OTHER||Adjusted change from baseline|1.53|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|0.17|2.89|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||2.89|0.17|
92353613|NCT01655069|184612978|OTHER||Adjusted change from baseline|1.9|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|0.52|3.27|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||3.27|0.52|
92353614|NCT01655069|184612978|OTHER||Adjusted change from baseline|1.75|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|0.39|3.1|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||3.10|0.39|
92353615|NCT01655069|184612978|OTHER||Adjusted change from baseline|2.69|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|1.34|4.05|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||4.05|1.34|
92353616|NCT01655069|184612978|OTHER||Adjusted change from baseline|3.07|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|1.7|4.43|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||4.43|1.70|
92353617|NCT01655069|184612978|OTHER||Adjusted change from baseline|2.45|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|1.05|3.85|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||3.85|1.05|
92400882|NCT04913610|184692702|OTHER||||||=|0.036|||||||Mann-Whitney U test|The p-value is for the pairwise comparison of Arm A to Arm E using the Mann-Whitney U test for the percentage per participant.||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.036
92161386|NCT03568318|184211767|SUPERIORITY||Adjusted Response Rate Difference|55.4|||<|0.001|TWO_SIDED|95.0|41.4|69.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||69.5|41.4|<0.001
92161387|NCT03568318|184211767|SUPERIORITY||Adjusted Response Rate Difference|26.3|||<|0.001|TWO_SIDED|95.0|12.1|40.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||40.4|12.1|<0.001
92276288|NCT00408876|184454654|SUPERIORITY_OR_OTHER|||||||0.142||95.0|||||Fisher Exact|||||||0.142
92276289|NCT00408876|184454654|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||Fisher Exact|||||||0.049
92276290|NCT00408876|184454654|SUPERIORITY_OR_OTHER|||||||0.587||95.0|||||Fisher Exact|||||||0.587
92276291|NCT00408876|184454655|SUPERIORITY_OR_OTHER|||||||0.356||95.0|||||Fisher Exact|||||||0.356
92161388|NCT03568318|184211768|SUPERIORITY||Adjusted Response Rate Difference|30.5|||<|0.001|TWO_SIDED|95.0|14.1|46.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||46.8|14.1|<0.001
92161389|NCT03568318|184211768|SUPERIORITY||Adjusted Response Rate Difference|24.5||||0.003|TWO_SIDED|95.0|8.2|40.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||40.8|8.2|0.003
92276292|NCT00408876|184454655|SUPERIORITY_OR_OTHER|||||||0.472||95.0|||||Fisher Exact|||||||0.472
92276293|NCT00408876|184454655|SUPERIORITY_OR_OTHER|||||||0.255||95.0|||||Fisher Exact|||||||0.255
92276294|NCT00408876|184454655|SUPERIORITY_OR_OTHER|||||||0.107||95.0|||||Fisher Exact|||||||0.107
92276295|NCT00408876|184454655|SUPERIORITY_OR_OTHER|||||||0.053||95.0|||||Fisher Exact|||||||0.053
92276296|NCT00408876|184454655|SUPERIORITY_OR_OTHER|||||||0.779||95.0|||||Fisher Exact|||||||0.779
92353618|NCT01655069|184612978|OTHER||Adjusted change from baseline|3.93|STANDARD_ERROR_OF_MEAN|0.81|||TWO_SIDED|95.0|2.34|5.53|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||5.53|2.34|
92161390|NCT03568318|184211769|SUPERIORITY||Adjusted Response Rate Difference|52.0|||<|0.001|TWO_SIDED|95.0|37.3|66.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||66.7|37.3|<0.001
92161391|NCT03568318|184211769|SUPERIORITY||Adjusted Response Rate Difference|27.1||||0.001|TWO_SIDED|95.0|11.1|43.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||43.1|11.1|0.001
92161392|NCT03568318|184211770|SUPERIORITY||Adjusted Response Rate Difference|23.5||||0.006|TWO_SIDED|95.0|6.9|40.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||40.1|6.9|0.006
92161393|NCT03568318|184211770|SUPERIORITY||Adjusted Response Rate Difference|22.7||||0.007|TWO_SIDED|95.0|6.2|39.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||39.2|6.2|0.007
92161394|NCT03568318|184211771|SUPERIORITY||Adjusted Response Rate Difference|49.3|||<|0.001|TWO_SIDED|95.0|34.1|64.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||64.6|34.1|<0.001
92161395|NCT03568318|184211771|SUPERIORITY||Adjusted Response Rate Difference|26.2||||0.002|TWO_SIDED|95.0|9.4|43.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||43.1|9.4|0.002
92276297|NCT00408876|184454656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21||||0.747||95.0|-1.47|1.06|||t-test, 2 sided|||||1.06|-1.47|0.747
92276298|NCT00408876|184454656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.07||||0.045||95.0|-2.12|-0.02|||t-test, 2 sided|||||-0.02|-2.12|0.045
92276299|NCT00408876|184454656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.58||95.0|-0.76|1.36|||t-test, 2 sided|||||1.36|-0.76|0.580
92276300|NCT00408876|184454656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.86||||0.185||95.0|-2.14|0.41|||t-test, 2 sided|||||0.41|-2.14|0.185
92276301|NCT00408876|184454656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51||||0.438||95.0|-0.77|1.79|||t-test, 2 sided|||||1.79|-0.77|0.438
92276302|NCT00408876|184454656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.37||||0.012||95.0|0.3|2.44|||t-test, 2 sided|||||2.44|0.30|0.012
92276303|NCT00408876|184454657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46||||0.729||95.0|-2.16|3.08|||t-test, 2 sided|||||3.08|-2.16|0.729
92276304|NCT00408876|184454657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.02||||0.352||95.0|-1.14|3.18|||t-test, 2 sided|||||3.18|-1.14|0.352
92276305|NCT00408876|184454657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.81||||0.465||95.0|-3.0|1.37|||t-test, 2 sided|||||1.37|-3.00|0.465
92276306|NCT00408876|184454657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56||||0.677||95.0|-2.09|3.21|||t-test, 2 sided|||||3.21|-2.09|0.677
92276307|NCT00408876|184454657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.27||||0.345||95.0|-3.92|1.38|||t-test, 2 sided|||||1.38|-3.92|0.345
92276308|NCT00408876|184454657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.84||||0.102||95.0|-4.04|0.37|||t-test, 2 sided|||||0.37|-4.04|0.102
92276309|NCT00408876|184454658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.977||95.0|-2.91|2.83|||t-test, 2 sided|||||2.83|-2.91|0.977
92276310|NCT00408876|184454658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9||||0.451||95.0|-1.44|3.24|||t-test, 2 sided|||||3.24|-1.44|0.451
92276311|NCT00408876|184454658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.74||||0.15||95.0|-0.63|4.11|||t-test, 2 sided|||||4.11|-0.63|0.150
92276312|NCT00408876|184454658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.94||||0.524||95.0|-1.96|3.83|||t-test, 2 sided|||||3.83|-1.96|0.524
92276313|NCT00408876|184454658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.78||||0.23||95.0|-1.13|4.69|||t-test, 2 sided|||||4.69|-1.13|0.230
92276314|NCT00408876|184454658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.84||||0.491||95.0|-1.55|3.23|||t-test, 2 sided|||||3.23|-1.55|0.491
92276315|NCT00408876|184454659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.645||95.0|-0.49|0.79|||t-test, 2 sided|||||0.79|-0.49|0.645
92276316|NCT00408876|184454659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.027||95.0|0.07|1.12|||t-test, 2 sided|||||1.12|0.07|0.027
92276317|NCT00408876|184454659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75||||0.006||95.0|0.22|1.29|||t-test, 2 sided|||||1.29|0.22|0.006
92276318|NCT00408876|184454659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.44||||0.18||95.0|-0.21|1.1|||t-test, 2 sided|||||1.10|-0.21|0.180
92276319|NCT00408876|184454659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.069||95.0|-0.05|1.25|||t-test, 2 sided|||||1.25|-0.05|0.069
92220425|NCT02918864|184341125|SUPERIORITY||Beta Coefficient|-0.16||||0.061|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SB=Group+Time+Group\*Time+ADHD+ γ + ε; ADHD, CASI T-score significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.061
92353619|NCT01655069|184612979|OTHER||Adjusted change from baseline|-0.98|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-1.27|-0.69|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.69|-1.27|
92353620|NCT01655069|184612979|OTHER||Adjusted change from baseline|-1.15|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-1.44|-0.86|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-0.86|-1.44|
92353621|NCT01655069|184612979|OTHER||Adjusted change from baseline|-1.31|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-1.6|-1.02|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-1.02|-1.60|
92353622|NCT01655069|184612979|OTHER||Adjusted change from baseline|-1.22|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-1.51|-0.93|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-0.93|-1.51|
92353623|NCT01655069|184612979|OTHER||Adjusted change from baseline|-1.5|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-1.8|-1.21|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.21|-1.80|
92353624|NCT01655069|184612979|OTHER||Adjusted change from baseline|-1.52|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-1.83|-1.22|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.22|-1.83|
92353625|NCT01655069|184612979|OTHER||Adjusted change from baseline|-1.83|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-2.22|-1.43|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.43|-2.22|
92353626|NCT01655069|184612979|OTHER||Adjusted change from baseline|-0.93|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-1.73|-0.13|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.13|-1.73|
92220426|NCT02918864|184341127|SUPERIORITY||Beta Coefficient|0.03||||0.674|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SC=Group+Time+Group\*Time+Group\*VIQ+ γ + ε; VIQ, verbal intelligence quotient (VIQ) significant moderator), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.674
92353627|NCT01655069|184612979|OTHER||Adjusted change from baseline|-0.94|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-1.48|-0.4|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.40|-1.48|
92353628|NCT01655069|184612979|OTHER||Adjusted change from baseline|-0.81|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-1.46|-0.17|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.17|-1.46|
92220427|NCT02918864|184341129|SUPERIORITY||Beta Coefficient|0.09||||0.191|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SC=Group+Time+Group\*Time+Group\*VIQ+ γ + ε; VIQ, verbal intelligence quotient (VIQ) significant moderator), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.191
92220428|NCT02918864|184341131|SUPERIORITY||Beta Coefficient|0.04||||0.599|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SC=Group+Time+Group\*Time+Group\*VIQ+ γ + ε; VIQ, verbal intelligence quotient (VIQ) significant moderator), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||H0=No significant interaction of Group\*Time||||0.599
92400883|NCT04913610|184692702|OTHER||||||=|0.53||||||The p-value is for the pairwise comparison of Arm B to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.530
92161396|NCT03568318|184211772|SUPERIORITY||Adjusted Response Rate Difference|41.5|||<|0.001|TWO_SIDED|95.0|27.8|55.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||55.1|27.8|<0.001
92220429|NCT02918864|184341133|SUPERIORITY|||||||0.462||||||2-sided p-value; p-value reported not adjusted for multiple tests (with different time points)|Fisher Exact|||"Ho=Group and response are independent (responders=improved scores of 1-2; non-responders=worsened scores of 5-7 on the CGI-I) at week 12"||||0.462
92353629|NCT01655069|184612979|OTHER||Adjusted change from baseline|-0.91|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-1.53|-0.28|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.28|-1.53|
92353630|NCT01655069|184612979|OTHER||Adjusted change from baseline|-0.71|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-1.8|-0.38|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.38|-1.80|
92353631|NCT01655069|184612979|OTHER||Adjusted change from baseline|-1.18|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-1.92|-0.44|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.44|-1.92|
92353632|NCT01655069|184612979|OTHER||Adjusted change from baseline|-1.79|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-2.59|-1.0|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.00|-2.59|
92353633|NCT01655069|184612980|OTHER||Adjusted change from baseline|-0.74|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.65|0.17|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||0.17|-1.65|
92353634|NCT01655069|184612980|OTHER||Adjusted change from baseline|-1.3|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.23|-0.36|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.36|-2.23|
92353635|NCT01655069|184612980|OTHER||Adjusted change from baseline|-1.14|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.06|-0.22|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.22|-2.06|
92353636|NCT01655069|184612980|OTHER||Adjusted change from baseline|-1.28|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-2.18|-0.38|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.38|-2.18|
92161397|NCT03568318|184211772|SUPERIORITY||Adjusted Response Rate Difference|24.4||||0.001|TWO_SIDED|95.0|10.3|38.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||38.4|10.3|0.001
92220430|NCT02918864|184341134|SUPERIORITY|||||||1||||||2-sided p-value; p-value reported not adjusted for multiple tests (with different time points)|Fisher Exact|||"Ho=Group and response are independent (responders=improved scores of 1-2; non-responders=worsened scores of 5-7 on the CGI-I) at week 16"||||1.000
92353637|NCT01655069|184612980|OTHER||Adjusted change from baseline|-1.04|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.95|-0.12|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-0.12|-1.95|
92400884|NCT04913610|184692702|OTHER||||||=|0.852||||||The p-value is for the pairwise comparison of Arm C to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.852
92161398|NCT03568318|184211773|SUPERIORITY||Adjusted Response Rate Difference|34.9|||<|0.001|TWO_SIDED|95.0|20.6|49.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||49.3|20.6|<0.001
92161399|NCT03568318|184211773|SUPERIORITY||Adjusted Response Rate Difference|24.5||||0.001|TWO_SIDED|95.0|10.4|38.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||38.7|10.4|0.001
92276320|NCT00408876|184454659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.564||95.0|-0.38|0.7|||t-test, 2 sided|||||0.70|-0.38|0.564
92276321|NCT00408876|184454660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.929||95.0|-0.92|1.0|||t-test, 2 sided|||||1.00|-0.92|0.929
92353638|NCT01655069|184612980|OTHER||Adjusted change from baseline|-1.96|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-2.93|-1.0|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.00|-2.93|
92353639|NCT01655069|184612980|OTHER||Adjusted change from baseline|-2.2|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|95.0|-3.48|-0.93|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.93|-3.48|
92353640|NCT05529173|184612985|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92353641|NCT00835042|184612991|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|92.5||||||90.0|85.8|99.8|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||99.8|85.8|
92353642|NCT00835042|184612992|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.9||||||90.0|92.2|106.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106|92.2|
92353643|NCT00835042|184612993|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.1||||||90.0|92.3|106.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106|92.3|
92400885|NCT04913610|184692702|OTHER||||||=|0.366||||||The p-value is for the pairwise comparison of Arm D to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.366
92161400|NCT03568318|184211774|SUPERIORITY||Adjusted Response Rate Difference|19.8||||0.001|TWO_SIDED|95.0|7.8|31.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||31.8|7.8|0.001
92353644|NCT00835042|184612994|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|105.0||||||90.0|99.3|111.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||111|99.3|
92276322|NCT00408876|184454660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58||||0.147||95.0|-0.21|1.36|||t-test, 2 sided|||||1.36|-0.21|0.147
92353645|NCT00835042|184612995|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.1||||||90.0|96.4|102.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102|96.4|
92353646|NCT00835042|184612996|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.3||||||90.0|96.7|102.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102|96.7|
92353647|NCT00835042|184612997|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|91.0||||||90.0|81.8|101.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101|81.8|
92353648|NCT00835042|184612998|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.9||||||90.0|94.6|103.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||103|94.6|
92353649|NCT00835042|184612999|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.0||||||90.0|97.6|108.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||108|97.6|
92353650|NCT02571244|184613071|SUPERIORITY||Risk Ratio (RR)|1.35|||||TWO_SIDED|95.0|0.99|1.85||||||||1.85|0.99|
92161401|NCT03568318|184211775|SUPERIORITY||Adjusted Response Rate Difference|6.2||||0.306|TWO_SIDED|95.0|-5.7|18.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||18.2|-5.7|0.306
92276323|NCT00408876|184454660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.7||95.0|-0.64|0.95|||t-test, 2 sided|||||0.95|-0.64|0.700
92276324|NCT00408876|184454660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.54||||0.279||95.0|-0.44|1.51|||t-test, 2 sided|||||1.51|-0.44|0.279
92276325|NCT00408876|184454660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.822||95.0|-0.86|1.09|||t-test, 2 sided|||||1.09|-0.86|0.822
92276326|NCT00408876|184454660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42||||0.299||95.0|-1.22|0.38|||t-test, 2 sided|||||0.38|-1.22|0.299
92220431|NCT02918864|184341135|SUPERIORITY|||||||0.607||||||2-sided p-value; p-value reported not adjusted for multiple tests (with different time points)|Fisher Exact|||"Ho=Group and response are independent (responders=improved scores of 1-2; non-responders=worsened scores of 5-7 on the CGI-I) at week 24"||||0.607
92220432|NCT02918864|184341136|SUPERIORITY||Beta Coefficient|-0.15||||0.31|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SRS=Group+Time+Group\*Time+VIQ+ γ + ε; VIQ, verbal IQ significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.310
92220433|NCT02918864|184341138|SUPERIORITY||Beta Coefficient|-0.2||||0.115|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SRS=Group+Time+Group\*Time+VIQ+ γ + ε; VIQ, verbal IQ significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.115
92220434|NCT02918864|184341140|SUPERIORITY||Beta Coefficient|-0.08||||0.455|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SRS=Group+Time+Group\*Time+VIQ+ γ + ε; VIQ, verbal IQ significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.455
92276327|NCT00408876|184454661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.766||95.0|-1.33|0.98|||t-test, 2 sided|||||0.98|-1.33|0.766
92353651|NCT02571244|184613072|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.28
92220435|NCT02918864|184341142|SUPERIORITY||Beta Coefficient|-0.14||||0.379|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (CGS=Group+Time+Group\*Time+ γ + ε), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.379
92220436|NCT02918864|184341144|SUPERIORITY||Beta Coefficient|-0.14||||0.275|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (CGS=Group+Time+Group\*Time+ γ + ε), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.275
92220437|NCT02918864|184341146|SUPERIORITY||Beta Coefficient|-0.2||||0.087|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (CGS=Group+Time+Group\*Time+ γ + ε), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||||||0.087
92276328|NCT00408876|184454661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.217||95.0|-0.35|1.55|||t-test, 2 sided|||||1.55|-0.35|0.217
92276329|NCT00408876|184454661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.88||95.0|-0.89|1.04|||t-test, 2 sided|||||1.04|-0.89|0.880
92276330|NCT00408876|184454661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.78||||0.193||95.0|-0.39|1.94|||t-test, 2 sided|||||1.94|-0.39|0.193
92276331|NCT00408876|184454661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25||||0.675||95.0|-0.92|1.42|||t-test, 2 sided|||||1.42|-0.92|0.675
92353652|NCT02571244|184613073|SUPERIORITY|||||||0.42|||||||Fisher Exact|||||||0.42
92353653|NCT02571244|184613074|SUPERIORITY||Risk Ratio (RR)|1.45|||||TWO_SIDED|95.0|1.08|1.95||||||||1.95|1.08|
92353654|NCT02571244|184613075|SUPERIORITY||Risk Ratio (RR)|1.44|||||TWO_SIDED|95.0|1.07|1.92||||||||1.92|1.07|
92353655|NCT00185900|184613076|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
92353656|NCT02777190|184613142|NON_INFERIORITY|Margin of 4 hours|Mean Difference (Final Values)|-1.7||||0.09|ONE_SIDED|97.5||6.7|||t-test, 1 sided|one-sided two-sample t-test with alpha=0.025|Difference calculated as oral minus vaginal|||6.7||0.09
92353657|NCT02777190|184613143|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||||||0.54
92353658|NCT02777190|184613144|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||0.64
92353659|NCT02777190|184613145|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
92353660|NCT02777190|184613146|SUPERIORITY|||||||0.34|||||||Fisher Exact|||||||0.34
92353661|NCT02777190|184613147|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92353662|NCT02777190|184613148|SUPERIORITY|||||||0.6|||||||Fisher Exact|||||||0.60
92353663|NCT02777190|184613150|SUPERIORITY|||||||0.4|||||||Fisher Exact|||||||0.40
92353664|NCT02777190|184613151|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92353665|NCT02777190|184613152|SUPERIORITY|||||||0.04|||||||Fisher Exact|||||||0.04
92353666|NCT02777190|184613153|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92353667|NCT02777190|184613154|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
92353668|NCT04000724|184613233|SUPERIORITY||Average treatment effect|-0.54||||0.141|TWO_SIDED|95.0|-1.26|0.18|||Longitudinal Targeted Maximum Likelihood|||||0.18|-1.26|0.141
92353669|NCT04000724|184613233|SUPERIORITY||Average treatment effect|-0.51||||0.123|TWO_SIDED|95.0|-1.16|0.14|||Longitudinal Targeted Maximum Likelihood|||||0.14|-1.16|0.123
92353670|NCT04000724|184613234|SUPERIORITY||Average treatment effect|-0.24||||0.127|TWO_SIDED|95.0|-0.56|0.07|||Longitudinal Targeted Maximum Likelihood|||||.07|-.56|.127
92353671|NCT04000724|184613234|SUPERIORITY||Average treatment effect|-0.02||||0.899|TWO_SIDED|95.0|-0.34|0.3|||Longitudinal Targeted Maximum Likelihood|||||.30|-.34|.899
92353672|NCT00472641|184613244|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||Random Regression Mixed Effects Modeling|||||||<0.00001
92353673|NCT00472641|184613245|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||Random Regression Mixed Effects Modeling|||||||<0.00001
92353674|NCT00676689|184613248|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier|0.971|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.889|0.993||||||||0.993|0.889|
92353675|NCT00676689|184613249|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier|0.941|STANDARD_ERROR_OF_MEAN|0.028|||TWO_SIDED|95.0|0.851|0.978||||||Freedom from Major Adverse Cardiovascular and Cerebrovascular Event (MACCE) at 6 months in the valve implant population.||0.978|0.851|
92353676|NCT00676689|184613250|SUPERIORITY_OR_OTHER_LEGACY||Percentage|87.9|||||TWO_SIDED|||||||||Overall functional improvement at 6 months for patients in the valve implant population with baseline and 6 month data.||||
92353677|NCT01487161|184613259|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.1249|TWO_SIDED|90.0|-1.2|0.2|||Longitudinal mixed effect model|||||0.2|-1.2|0.1249
92353678|NCT01487161|184613260|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.2002|TWO_SIDED|90.0|-1.1|0.3|||Longitudinal mixed effect model|||||0.3|-1.1|0.2002
92353679|NCT01487161|184613261|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.5541|TWO_SIDED|90.0|-0.7|0.8|||Longitudinal mixed effect model|||||0.8|-0.7|0.5541
92161402|NCT03568318|184211775|SUPERIORITY||Adjusted Response Rate Difference|-1.0||||0.855|TWO_SIDED|95.0|-11.2|9.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||9.3|-11.2|0.855
92353680|NCT02057666|184613355|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.406||||0.027|TWO_SIDED|95.0|0.182|0.903|||Log Rank|Stratified as per randomisation.|Stratified as per randomisation.|||0.903|0.182|0.027
92353681|NCT02057666|184613356|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.465||||0.448|TWO_SIDED|95.0|0.065|3.355|||Log Rank|||||3.355|0.065|0.448
92353682|NCT03259308|184613364|SUPERIORITY|||||||0.027|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.027
92353683|NCT03259308|184613364|SUPERIORITY|||||||0.014|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.014
92353684|NCT03259308|184613365|SUPERIORITY|||||||0.001|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.001
92161403|NCT03568318|184211776|SUPERIORITY||LS Mean Difference|-16.05|STANDARD_ERROR_OF_MEAN|11.956||0.18|TWO_SIDED|95.0|-39.59|7.48|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||7.48|-39.59|0.180
92161404|NCT03568318|184211776|SUPERIORITY||LS Mean Difference|-26.38|STANDARD_ERROR_OF_MEAN|11.986||0.029|TWO_SIDED|95.0|-49.97|-2.79|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-2.79|-49.97|0.029
92161405|NCT03568318|184211777|SUPERIORITY||LS Mean Difference|-35.69|STANDARD_ERROR_OF_MEAN|5.354|<|0.001|TWO_SIDED|95.0|-46.28|-25.11|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-25.11|-46.28|<0.001
92161406|NCT03568318|184211777|SUPERIORITY||LS Mean Difference|-24.37|STANDARD_ERROR_OF_MEAN|5.423|<|0.001|TWO_SIDED|95.0|-35.1|-13.65|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-13.65|-35.10|<0.001
92161407|NCT02657629|184211793|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92161408|NCT05197049|184211801|SUPERIORITY||Adjusted treatment difference:percentage|34.9|||<|0.001|TWO_SIDED|95.0|25.1|44.6|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||44.6|25.1|< 0.001
92353685|NCT03259308|184613365|SUPERIORITY|||||||0.003|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.003
92353686|NCT03259308|184613366|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||<0.001
92353687|NCT03259308|184613366|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||<0.001
92353688|NCT03259308|184613367|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||<0.001
92353689|NCT03259308|184613367|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||<0.001
92353690|NCT03259308|184613368|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.002
92353691|NCT03259308|184613368|SUPERIORITY|||||||0.017|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.017
92353692|NCT00066937|184613388|OTHER||||||<|0.05|||||||ANOVA|Repeated measures ANOVAs compared baseline to each timepoint||||||<.05
92353693|NCT00066937|184613389|OTHER||||||<|0.05|||||||ANOVA|Repeated measures ANOVAs compared baseline scores to each period of follow-up (post-treatment, 3-months, 6 months)||||||<.05
92353694|NCT00066937|184613390|OTHER||||||<|0.05|||||||ANOVA|Repeated measures ANOVAs compared baseline scores to each period of follow-up (post-treatment, 3-months, 6 months)||||||<.05
92353695|NCT00066937|184613391|OTHER||||||<|0.05|||||||ANOVA|Repeated measures ANOVAs compared baseline scores to each period of follow-up (post-treatment, 3-months, 6 months)||||||<.05
92353696|NCT01027754|184613396|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||Fisher Exact|||||||0.03
92353697|NCT01027754|184613397|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|||||||Fisher Exact|||||||0.24
92353698|NCT01027754|184613406|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
92353699|NCT05033561|184613412|NON_INFERIORITY|Non-inferiority would be verified if the lower bound of the two-sided 95% CI around each difference (shorter interval minus standard interval) is greater than -10%.||||||0.05||||||This is the nominal alpha level for the two-sided confidence interval comparison.|Miettinen-Nurminen|Pairwise comparisons with two-sided Miettinen-Nurminen confidence intervals.||This study was designed to demonstrate the non-inferiority of Group A (1-week interval nOPV2 administration) and Group B (2-weeks interval nOPV2 administration) versus Group C (standard 4-week interval).||||0.05
92353700|NCT05033561|184613412|NON_INFERIORITY|Non-inferiority would be verified if the lower bound of the two-sided 95% CI around each difference (shorter interval minus standard interval) is greater than -10%.||||||0.05||||||This is the nominal alpha level for the two-sided confidence interval comparison.|Miettinen-Nurminen|Pairwise comparisons with two-sided Miettinen-Nurminen confidence intervals.||This study was designed to demonstrate the non-inferiority of Group A (1-week interval nOPV2 administration) and Group B (2-weeks interval nOPV2 administration) versus Group C (standard 4-week interval).||||0.05
92353701|NCT05033561|184613413|NON_INFERIORITY|Non-inferiority would be verified if the lower bound of the two-sided 95% CI around each difference (shorter interval minus standard interval) is greater than -10%.||||||0.05||||||This is the nominal alpha level for the two-sided confidence interval comparison.|Miettinen-Nurminen|Pairwise comparisons with two-sided Miettinen-Nurminen confidence intervals.||This study was designed to demonstrate the non-inferiority of Group A (1-week interval nOPV2 administration) and Group B (2-weeks interval nOPV2 administration) versus Group C (standard 4-week interval).||||0.05
92353702|NCT05033561|184613413|NON_INFERIORITY|Non-inferiority would be verified if the lower bound of the two-sided 95% CI around each difference (shorter interval minus standard interval) is greater than -10%.||||||0.05||||||This is the nominal alpha level for the two-sided confidence interval comparison.|Miettinen-Nurminen|Pairwise comparisons with two-sided Miettinen-Nurminen confidence intervals.||This study was designed to demonstrate the non-inferiority of Group A (1-week interval nOPV2 administration) and Group B (2-weeks interval nOPV2 administration) versus Group C (standard 4-week interval).||||0.05
92353703|NCT01557244|184613426|SUPERIORITY|||||||0.0001|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an analysis of covariance (ANCOVA) model with terms for treatment group, baseline maximum cystometric bladder capacity and baseline weight.||||0.0001
92353704|NCT01557244|184613426|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on ANCOVA model with terms for treatment group, baseline maximum cystometric bladder capacity and baseline weight.||||<.0001
92353705|NCT01557244|184613426|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline maximum cystometric bladder capacity and baseline weight.||||<.0001
92353706|NCT01557244|184613426|OTHER||Difference in Least square (LS) Mean|-29.06|||||TWO_SIDED|95.0|-71.42|13.31||||||||13.31|-71.42|
92353707|NCT01557244|184613426|OTHER||Difference in LS Mean|-3.82|||||TWO_SIDED|95.0|-45.87|38.23||||||||38.23|-45.87|
92353708|NCT01557244|184613427|SUPERIORITY|||||||0.2334|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline detrusor pressure at maximum bladder capacity and baseline weight.||||0.2334
92353709|NCT01557244|184613427|SUPERIORITY|||||||0.5087|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline detrusor pressure at maximum bladder capacity and baseline weight.||||0.5087
92353710|NCT01557244|184613427|SUPERIORITY|||||||0.3333|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline detrusor pressure at maximum bladder capacity and baseline weight.||||0.3333
92353711|NCT01557244|184613427|OTHER||Difference in LS Mean|-0.47|||||TWO_SIDED|95.0|-7.28|6.33||||||||6.33|-7.28|
92353712|NCT01557244|184613427|OTHER||Difference in LS Mean|0.82|||||TWO_SIDED|95.0|-5.96|7.6||||||||7.60|-5.96|
92353713|NCT01557244|184613429|SUPERIORITY|||||||0.0336|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder volume at first IDC and baseline weight.||||0.0336
92353714|NCT01557244|184613429|SUPERIORITY|||||||0.0327|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder volume at first IDC and baseline weight.||||0.0327
92353715|NCT01557244|184613429|SUPERIORITY|||||||0.0017|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder volume at first IDC and baseline weight.||||0.0017
92353716|NCT01557244|184613429|OTHER||Difference in LS Mean|-10.78|||||TWO_SIDED|95.0|-48.75|27.19||||||||27.19|-48.75|
92353717|NCT01557244|184613429|OTHER||Difference in LS Mean|-15.25|||||TWO_SIDED|95.0|-50.15|19.64||||||||19.64|-50.15|
92353718|NCT01557244|184613430|SUPERIORITY|||||||0.0679|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder compliance and baseline weight.||||0.0679
92353719|NCT01557244|184613430|SUPERIORITY|||||||0.1233|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder compliance and baseline weight.||||0.1233
92353720|NCT01557244|184613430|SUPERIORITY|||||||0.0019|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder compliance and baseline weight.||||0.0019
92353721|NCT01557244|184613430|OTHER||Difference in LS Mean|-4.96|||||TWO_SIDED|95.0|-14.81|4.89||||||||4.89|-14.81|
92353722|NCT01557244|184613430|OTHER||Difference in LS Mean|-5.95|||||TWO_SIDED|95.0|-15.85|3.95||||||||3.95|-15.85|
92353723|NCT01557244|184613431|SUPERIORITY|||||||0.0116|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions per 24 hours and baseline weight.||||0.0116
92353724|NCT01557244|184613431|SUPERIORITY|||||||0.0765|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions per 24 hours and baseline weight.||||0.0765
92353725|NCT01557244|184613431|SUPERIORITY|||||||0.0061|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions per 24 hours and baseline weight.||||0.0061
92353726|NCT01557244|184613431|OTHER||Difference in LS Mean|-0.1|||||TWO_SIDED|95.0|-1.16|0.97||||||||0.97|-1.16|
92353727|NCT01557244|184613431|OTHER||Difference in LS Mean|0.28|||||TWO_SIDED|95.0|-0.74|1.31||||||||1.31|-0.74|
92353728|NCT01557244|184613432|SUPERIORITY|||||||0.0787|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of catheterizations per 24 hours and baseline weight.||||0.0787
92353729|NCT01557244|184613432|SUPERIORITY|||||||0.0727|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of catheterizations per 24 hours and baseline weight.||||0.0727
92353730|NCT01557244|184613432|SUPERIORITY|||||||0.0666|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of catheterizations per 24 hours and baseline weight.||||0.0666
92353731|NCT01557244|184613432|OTHER||Difference in LS Mean|0.04|||||TWO_SIDED|95.0|-0.45|0.54||||||||0.54|-0.45|
92353732|NCT01557244|184613432|OTHER||Difference in LS Mean|0.02|||||TWO_SIDED|95.0|-0.49|0.52||||||||0.52|-0.49|
92353733|NCT01557244|184613433|SUPERIORITY|||||||0.0111|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions and catheterizations combined per 24 hours and baseline weight.||||0.0111
92353734|NCT01557244|184613433|SUPERIORITY|||||||0.0171|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions and catheterizations combined per 24 hours and baseline weight.||||0.0171
92353735|NCT01557244|184613433|SUPERIORITY|||||||0.0028|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions and catheterizations combined per 24 hours and baseline weight.||||0.0028
92353736|NCT01557244|184613433|OTHER||Difference in LS Mean|0.14|||||TWO_SIDED|95.0|-0.53|0.82||||||||0.82|-0.53|
92353737|NCT01557244|184613433|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.54|0.84||||||||0.84|-0.54|
92353738|NCT01557244|184613434|SUPERIORITY|||||||0.0496|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of incontinence episodes per 24 hours and baseline weight.||||0.0496
92353739|NCT01557244|184613434|SUPERIORITY|||||||0.0002|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of incontinence episodes per 24 hours and baseline weight.||||0.0002
92353740|NCT01557244|184613434|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of incontinence episodes per 24 hours and baseline weight.||||<.0001
92353741|NCT01557244|184613434|OTHER||Difference in LS Mean|0.55|||||TWO_SIDED|95.0|-0.09|1.19||||||||1.19|-0.09|
92353742|NCT01557244|184613434|OTHER||Difference in LS Mean|0.12|||||TWO_SIDED|95.0|-0.52|0.77||||||||0.77|-0.52|
92353743|NCT01557244|184613435|SUPERIORITY|||||||0.0298|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of urgency episodes per 24 hours and baseline weight.||||0.0298
92161409|NCT05197049|184211802|SUPERIORITY||Adjusted treatment difference:percentage|19.9|||<|0.001|TWO_SIDED|95.0|10.2|29.6|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||29.6|10.2|< 0.001
92161410|NCT05197049|184211803|SUPERIORITY||Adjusted treatment difference:percentage|37.0|||<|0.001|TWO_SIDED|95.0|25.6|48.4|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||48.4|25.6|< 0.001
92353744|NCT01557244|184613435|SUPERIORITY|||||||0.1417|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of urgency episodes per 24 hours and baseline weight.||||0.1417
92353745|NCT01557244|184613435|SUPERIORITY|||||||0.6219|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of urgency episodes per 24 hours and baseline weight.||||0.6219
92353746|NCT01557244|184613435|OTHER||Difference in LS Mean|-0.48|||||TWO_SIDED|95.0|-1.28|0.32||||||||0.32|-1.28|
92353747|NCT01557244|184613435|OTHER||Difference in LS Mean|-0.36|||||TWO_SIDED|95.0|-1.24|0.52||||||||0.52|-1.24|
92353748|NCT01557244|184613436|SUPERIORITY|||||||0.7986|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition and baseline weight.||||0.7986
92353749|NCT01557244|184613436|SUPERIORITY|||||||0.2313|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition and baseline weight.||||0.2313
92353750|NCT01557244|184613436|SUPERIORITY|||||||0.7571|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition and baseline weight.||||0.7571
92353751|NCT01557244|184613436|OTHER||Difference in LS Mean|-0.05|||||TWO_SIDED|95.0|-42.11|42.0||||||||42.00|-42.11|
92353752|NCT01557244|184613436|OTHER||Difference in LS Mean|15.07|||||TWO_SIDED|95.0|-26.5|56.63||||||||56.63|-26.50|
92353753|NCT01557244|184613437|SUPERIORITY|||||||0.061|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per catheterization and baseline weight.||||0.0610
92353754|NCT01557244|184613437|SUPERIORITY|||||||0.0048|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per catheterization and baseline weight.||||0.0048
92353755|NCT01557244|184613437|SUPERIORITY|||||||0.01|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per catheterization and baseline weight.||||0.0100
92353756|NCT01557244|184613437|OTHER||Difference in LS Mean|-16.43|||||TWO_SIDED|95.0|-63.14|30.29||||||||30.29|-63.14|
92353757|NCT01557244|184613437|OTHER||Difference in LS Mean|1.28|||||TWO_SIDED|95.0|-46.0|48.57||||||||48.57|-46.00|
92353758|NCT01557244|184613438|SUPERIORITY|||||||0.2246|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition or catheterization and baseline weight.||||0.2246
92353759|NCT01557244|184613438|SUPERIORITY|||||||0.0003|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition or catheterization and baseline weight.||||0.0003
92353760|NCT01557244|184613438|SUPERIORITY|||||||0.0161|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition or catheterization and baseline weight.||||0.0161
92353761|NCT01557244|184613438|OTHER||Difference in LS Mean|-18.24|||||TWO_SIDED|95.0|-61.0|24.53||||||||24.53|-61.00|
92353762|NCT01557244|184613438|OTHER||Difference in LS Mean|18.86|||||TWO_SIDED|95.0|-22.93|60.65||||||||60.65|-22.93|
92353763|NCT01313676|184613474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.878||||0.137|TWO_SIDED|95.0|0.739|1.042|||Cox Proportional Hazards Model|||||1.042|0.739|0.137
92161411|NCT05197049|184211803|SUPERIORITY||Adjusted treatment difference:percentage|39.3|||<|0.001|TWO_SIDED|95.0|28.0|50.7|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||50.7|28.0|< 0.001
92353764|NCT01313676|184613474|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|12.2|||||TWO_SIDED|95.0|-4.2|26.1|||||Confidence Interval (95%) and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||26.1|-4.2|
92353765|NCT01313676|184613474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.911||||0.284|TWO_SIDED|95.0|0.767|1.081|||Cox Proportional Hazards Model|||||1.081|0.767|0.284
92353766|NCT01313676|184613474|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|8.9|||||TWO_SIDED|95.0|-8.1|23.3|||||Confidence Interval (95%) and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||23.3|-8.1|
92353767|NCT01313676|184613474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.962||||0.655|TWO_SIDED|95.0|0.813|1.139|||Cox Proportional Hazards Model|||||1.139|0.813|0.655
92353768|NCT01313676|184613474|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|3.8|||||TWO_SIDED|95.0|-13.9|18.7|||||Confidence Interval (95%) and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||18.7|-13.9|
92353769|NCT01313676|184613474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.964||||0.681|TWO_SIDED|95.0|0.808|1.149|||Cox Proportional Hazards Model|||||1.149|0.808|0.681
92353770|NCT01313676|184613474|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|3.6|||||TWO_SIDED|95.0|-14.9|19.2|||||Confidence Interval (95%) and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||19.2|-14.9|
92353771|NCT01313676|184613474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.912||||0.299|TWO_SIDED|95.0|0.767|1.085|||Cox Proportional Hazards Model|||||1.085|0.767|0.299
92353772|NCT01313676|184613474|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|8.8|||||TWO_SIDED|95.0|-8.5|23.3|||||Confidence Interval (95%) and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||23.3|-8.5|
92353773|NCT01313676|184613475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|3.4||0.019|TWO_SIDED|95.0|1.0|15.0|||Mixed Models Analysis|||||15|1|0.019
92353774|NCT01313676|184613475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|3.5||0.026|TWO_SIDED|95.0|1.0|14.0|||Mixed Models Analysis|||||14|1|0.026
92161412|NCT05197049|184211804|SUPERIORITY||Adjusted treatment difference:percentage|32.1|||<|0.001|TWO_SIDED|95.0|22.9|41.2|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||41.2|22.9|< 0.001
92161413|NCT05197049|184211805|SUPERIORITY||Adjusted treatment difference:percentage|40.3|||<|0.001|TWO_SIDED|95.0|29.9|50.7|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||50.7|29.9|< 0.001
92353775|NCT01313676|184613475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|3.4||0.654|TWO_SIDED|95.0|-8.0|5.0|||Mixed Models Analysis|||||5|-8|0.654
92353776|NCT01313676|184613475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|3.4||0.913|TWO_SIDED|95.0|-6.0|7.0|||Mixed Models Analysis|||||7|-6|0.913
92353777|NCT01313676|184613475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|3.4||0.004|TWO_SIDED|95.0|3.0|16.0|||Mixed Models Analysis|||||16|3|0.004
92353778|NCT01313676|184613476|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.926||||0.475|TWO_SIDED|95.0|0.75|1.143|||Cox Proportional Hazards Model|||||1.143|0.750|0.475
92353779|NCT01313676|184613476|SUPERIORITY_OR_OTHER||Percent reduction in risk of CV event|7.4|||||TWO_SIDED|95.0|-14.3|25.0|||||Confidence Interval and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||25.0|-14.3|
92353780|NCT01313676|184613476|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.896||||0.317|TWO_SIDED|95.0|0.723|1.111|||Cox Proportional Hazards Model|||||1.111|0.723|0.317
92353781|NCT01313676|184613476|SUPERIORITY_OR_OTHER||Percent reduction in risk of CV event|10.4|||||TWO_SIDED|95.0|-11.1|27.7|||||Confidence Interval and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||27.7|-11.1|
92353782|NCT01313676|184613476|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.988||||0.908|TWO_SIDED|95.0|0.802|1.217|||Cox Proportional Hazards Model|||||1.217|0.802|0.908
92353783|NCT01313676|184613476|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|1.2|||||TWO_SIDED|95.0|-21.7|19.8|||||Confidence Interval and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||19.8|-21.7|
92353784|NCT01313676|184613476|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.033||||0.763|TWO_SIDED|95.0|0.834|1.281|||Cox Proportional Hazards Model|||||1.281|0.834|0.763
92353785|NCT01313676|184613476|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|-3.3|||||TWO_SIDED|95.0|-28.1|16.6|||||Confidence Interval and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||16.6|-28.1|
92353786|NCT01313676|184613476|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.938||||0.545|TWO_SIDED|95.0|0.761|1.155|||Cox Proportional Hazards Model|||||1.155|0.761|0.545
92276332|NCT00408876|184454661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53||||0.288||95.0|-1.5|0.45|||t-test, 2 sided|||||0.45|-1.50|0.288
92353787|NCT01313676|184613476|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|6.2|||||TWO_SIDED|95.0|-15.5|23.9|||||Confidence Interval and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||23.9|-15.5|
92353788|NCT01654250|184613477|SUPERIORITY_OR_OTHER||Least Square(LS) Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.99|<|0.001|TWO_SIDED|95.0|-10.9|-3.1|||Mixed Models Analysis|||Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point, and time point by treatment interaction as main effects and participant intercept as a random effect.||-3.1|-10.9|<0.001
92400886|NCT04913610|184692703|OTHER||||||=|0.869||||||The p-value is for the pairwise comparison of Arm A to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.869
92276333|NCT00408876|184454662|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42||||0.501||95.0|-1.66|0.81|||t-test, 2 sided|||||0.81|-1.66|0.501
92353789|NCT01654250|184613478|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.2|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-12.7|-3.7|||Mixed Models Analysis|||Hour 0.75 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-3.7|-12.7|<0.001
92353790|NCT01654250|184613478|SUPERIORITY_OR_OTHER|||||||0.133|||||||Mixed Models Analysis|||Hour 0.75 post-dose: Adjusted p-values were generated using a fixed sequence testing procedure from p-values which were generated from the mixed effects model.||||0.133
92353791|NCT01654250|184613478|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.8|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-17.3|-8.3|||Mixed Models Analysis|||Hour 2 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-8.3|-17.3|<0.001
92353792|NCT01654250|184613478|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Hour 2 post-dose: Adjusted p-values were generated using a fixed sequence testing procedure from p-values which were generated from the mixed effects model.||||<0.001
92353793|NCT01654250|184613478|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.3|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-16.8|-7.8|||Mixed Models Analysis|||Hour 4 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-7.8|-16.8|<0.001
92353794|NCT01654250|184613478|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Hour 4 post-dose: Adjusted p-values were generated using a fixed sequence testing procedure from p-values which were generated from the mixed effects model.||||<0.001
92353795|NCT01654250|184613478|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-12.3|-3.3|||Mixed Models Analysis|||Hour 8 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effect and participant intercept as a random effect.||-3.3|-12.3|<0.001
92353796|NCT01654250|184613478|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Hour 8 post-dose: Adjusted p-values were generated using a fixed sequence testing procedure from p-values which were generated from the mixed effects model.||||<0.001
92353797|NCT01654250|184613478|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.28||0.133|TWO_SIDED|95.0|-7.9|1.1|||Mixed Models Analysis|||Hour 10 post-dose: Nominal p-value -treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||1.1|-7.9|0.133
92353798|NCT01654250|184613478|SUPERIORITY_OR_OTHER|||||||0.133|||||||Mixed Models Analysis|||Hour 10 post-dose: Adjusted p-value were generated using a fixed sequence testing procedure from p-values generated from the mixed effects model.||||0.133
92400887|NCT04913610|184692703|OTHER||||||=|0.973||||||The p-value is for the pairwise comparison of Arm B to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.973
92161414|NCT01456936|184211847|SUPERIORITY_OR_OTHER|||||||0.0652||||||An interaction between treatment and cohort was considered significant at 10% level. No multiplicity adjustments were utilized.|Regression, Linear|A generalized linear regression analysis based on the safety analysis set was used to evaluate incidence of NPS AE as the primary analysis.||The reduced (final) statistical model included treatment group, cohort and region, plus the 2-way interaction of treatment by cohort. Other interactions not included due to lack of significance. Region reduced to 2-level to address event sparseness issue.||||0.0652
92161415|NCT01456936|184211848|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.28|||||TWO_SIDED|95.0|-2.4|-0.15|||Regression, Linear||Risk difference for varenicline versus placebo from estimation model.|Non-psychiatric cohort||-0.15|-2.40|
92161416|NCT01456936|184211848|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.08|||||TWO_SIDED|95.0|-1.37|1.21|||Regression, Linear||Risk difference for bupropion 150 mg BID versus placebo from estimation model.|Non-psychiatric cohort||1.21|-1.37|
92353799|NCT01654250|184613478|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|2.28||0.206|TWO_SIDED|95.0|-7.4|1.6|||Mixed Models Analysis|||Hour 12 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||1.6|-7.4|0.206
92353800|NCT01654250|184613478|SUPERIORITY_OR_OTHER|||||||0.133|||||||Mixed Models Analysis|||Hour 12 post-dose: Adjusted p-values are generated using a fixed sequence testing procedure from p-values which were generated from the mixed effects model.||||0.133
92353801|NCT01654250|184613478|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|2.28||0.496|TWO_SIDED|95.0|-6.0|2.9|||Mixed Models Analysis|||Hour 13 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||2.9|-6.0|0.496
92353802|NCT01654250|184613478|SUPERIORITY_OR_OTHER|||||||0.133|||||||Mixed Models Analysis|||Hour 13 post-dose: Adjusted p-value were generated using a fixed sequence testing procedure from p-values generated from the mixed effects model.||||0.133
92400888|NCT04913610|184692703|OTHER||||||=|0.744||||||The p-value is for the pairwise comparison of Arm C to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.744
92400889|NCT04913610|184692703|OTHER||||||=|0.794||||||The p-value is for the pairwise comparison of Arm D to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.794
92353803|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.56||0.007|TWO_SIDED|95.0|-2.6|-0.4|||Mixed Models Analysis|||Hour 0.75 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-0.4|-2.6|0.007
92353804|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|-3.6|-1.4|||Mixed Models Analysis|||Hour 2 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-1.4|-3.6|<0.001
92353805|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|-3.4|-1.2|||Mixed Models Analysis|||Hour 4 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-1.2|-3.4|<0.001
92353806|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.56||0.003|TWO_SIDED|95.0|-2.8|-0.6|||Mixed Models Analysis|||Hour 8 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-0.6|-2.8|0.003
92353807|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.56||0.097|TWO_SIDED|95.0|-2.0|0.2|||Mixed Models Analysis|||Hour 10 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||0.2|-2.0|0.097
92353808|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.56||0.49|TWO_SIDED|95.0|-1.5|0.7|||Mixed Models Analysis|||Hour 12 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||0.7|-1.5|0.490
92353809|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.56||0.164|TWO_SIDED|95.0|-1.9|0.3|||Mixed Models Analysis|||Hour 13 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||0.3|-1.9|0.164
92353810|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.94||0.004|TWO_SIDED|95.0|-4.6|-0.9|||Mixed Models Analysis|||Hour 0.75 post-dose deportment subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-0.9|-4.6|0.004
92353811|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean difference|-3.9|STANDARD_ERROR_OF_MEAN|0.94|<|0.001|TWO_SIDED|95.0|-5.8|-2.1|||Mixed Models Analysis|||Hour 2 post-dose deportment subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-2.1|-5.8|<0.001
92353812|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|0.94|<|0.001|TWO_SIDED|95.0|-5.8|-2.1|||Mixed Models Analysis|||Hour 4 post-dose deportment sub scale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-2.1|-5.8|<0.001
92353813|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.94||0.042|TWO_SIDED|95.0|-3.8|-0.1|||Mixed Models Analysis|||Hour 8 post-dose deportment subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-0.1|-3.8|0.042
92353814|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.94||0.118|TWO_SIDED|95.0|-3.3|0.4|||Mixed Models Analysis|||Hour 10 post-dose deportment sub scale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||0.4|-3.3|0.118
92353815|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.94||0.342|TWO_SIDED|95.0|-2.7|1.9|||Mixed Models Analysis|||Hour 12 post-dose deportment sub scale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||1.9|-2.7|0.342
92161417|NCT01456936|184211848|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.21|||||TWO_SIDED|95.0|-1.54|1.12|||Regression, Linear||Risk difference for NRT versus placebo from estimation model.|Non-psychiatric cohort||1.12|-1.54|
92161418|NCT01456936|184211848|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.59|||||TWO_SIDED|95.0|-0.42|3.59|||Regression, Linear||Risk difference for varenicline versus placebo from estimation model|Psychiatric cohort||3.59|-0.42|
92161419|NCT01456936|184211848|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.78|||||TWO_SIDED|95.0|-0.24|3.81|||Regression, Linear||Risk difference for bupropion 150 mg BID versus placebo from estimation model.|Psychiatric cohort||3.81|-0.24|
92161420|NCT01456936|184211848|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.37|||||TWO_SIDED|95.0|-1.53|2.26|||Regression, Linear||Risk difference for NRT versus placebo from estimation model.|Psychiatric cohort||2.26|-1.53|
92353816|NCT01654250|184613479|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.94||0.962|TWO_SIDED|95.0|-1.8|1.9|||Mixed Models Analysis|||Hour 13 post-dose deportment sub scale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||1.9|-1.8|0.962
92353817|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean difference|25.3|STANDARD_ERROR_OF_MEAN|11.12||0.024|TWO_SIDED|95.0|3.4|47.1|||Mixed Models Analysis|||Hour 0.75 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||47.1|3.4|0.024
92353818|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|36.1|STANDARD_ERROR_OF_MEAN|11.12||0.001|TWO_SIDED|95.0|14.2|57.9|||Mixed Models Analysis|||Hour 2 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||57.9|14.2|0.001
92353819|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|34.7|STANDARD_ERROR_OF_MEAN|11.12||0.002|TWO_SIDED|95.0|12.8|56.6|||Mixed Models Analysis|||Hour 4 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||56.6|12.8|0.002
92353820|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|29.3|STANDARD_ERROR_OF_MEAN|11.12||0.009|TWO_SIDED|95.0|7.4|51.1|||Mixed Models Analysis|||Hour 8 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||51.1|7.4|0.009
92353821|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|12.5|STANDARD_ERROR_OF_MEAN|11.12||0.261|TWO_SIDED|95.0|-9.3|34.4|||Mixed Models Analysis|||Hour 10 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||34.4|-9.3|0.261
92353822|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|15.1|STANDARD_ERROR_OF_MEAN|11.12||0.175|TWO_SIDED|95.0|-6.7|37.0|||Mixed Models Analysis|||Hour 12 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||37.0|-6.7|0.175
92353823|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|18.7|STANDARD_ERROR_OF_MEAN|11.12||0.094|TWO_SIDED|95.0|-3.2|40.5|||Mixed Models Analysis|||Hour 13 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||40.5|-3.2|0.094
92353824|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|22.6|STANDARD_ERROR_OF_MEAN|11.44||0.049|TWO_SIDED|95.0|0.1|45.1|||Mixed Models Analysis|||Hour 0.75 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||45.1|0.1|0.049
92353825|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|34.4|STANDARD_ERROR_OF_MEAN|11.44||0.003|TWO_SIDED|95.0|11.9|56.9|||Mixed Models Analysis|||Hour 2 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||56.9|11.9|0.003
92353826|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|32.9|STANDARD_ERROR_OF_MEAN|11.44||0.004|TWO_SIDED|95.0|10.5|55.4|||Mixed Models Analysis|||Hour 4 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||55.4|10.5|0.004
92353827|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|27.0|STANDARD_ERROR_OF_MEAN|11.44||0.019|TWO_SIDED|95.0|4.5|49.5|||Mixed Models Analysis|||Hour 8 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||49.5|4.5|0.019
92353828|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean difference|8.6|STANDARD_ERROR_OF_MEAN|11.44||0.451|TWO_SIDED|95.0|-13.9|31.1|||Mixed Models Analysis|||Hour 10 (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||31.1|-13.9|0.451
92353829|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean Difference|9.8|STANDARD_ERROR_OF_MEAN|11.44||0.394|TWO_SIDED|95.0|-12.7|32.2|||Mixed Models Analysis|||Hour 12 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||32.2|-12.7|0.394
92353830|NCT01654250|184613480|SUPERIORITY_OR_OTHER||LS Mean difference|8.3|STANDARD_ERROR_OF_MEAN|11.44||0.466|TWO_SIDED|95.0|-14.1|30.8|||Mixed Models Analysis|||Hour 13 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||30.8|-14.1|0.466
92276334|NCT00408876|184454662|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33||||0.524||95.0|-0.69|1.35|||t-test, 2 sided|||||1.35|-0.69|0.524
92400890|NCT04913610|184692704|OTHER||||||=|0.559||||||The p-value is for the pairwise comparison of Arm A to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.559
92400891|NCT04913610|184692704|OTHER||||||=|0.786||||||The p-value is for the pairwise comparison of Arm B to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.786
92400892|NCT04913610|184692704|OTHER||||||=|0.423||||||The p-value is for the pairwise comparison of Arm C to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.423
92400893|NCT04913610|184692704|OTHER||||||=|0.92||||||The p-value is for the pairwise comparison of Arm D to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.920
92400894|NCT04913610|184692705|OTHER||||||=|0.981||||||The p-value is for the pairwise comparison of Arm A to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.981
92400895|NCT04913610|184692705|OTHER||||||=|0.981||||||The p-value is for the pairwise comparison of Arm B to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.981
92161421|NCT01456936|184211863|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0|||<|0.0001|TWO_SIDED|95.0|3.2|5.0||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||5.00|3.20|<0.0001
92161422|NCT01456936|184211863|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.26|||<|0.0001|TWO_SIDED|95.0|1.8|2.85||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.85|1.80|<0.0001
92161423|NCT01456936|184211863|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.83|2.9||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.90|1.83|<0.0001
92353831|NCT02596893|184613484|SUPERIORITY||Stratified Difference|-2.9||||0.2523|TWO_SIDED|95.0|-9.7|3.9|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||3.9|-9.7|0.2523
92353832|NCT02596893|184613484|SUPERIORITY||Slope|4.8||||0.1626|TWO_SIDED|95.0|-3.0|11.8|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||11.8|-3.0|0.1626
92353833|NCT02596893|184613484|SUPERIORITY||Stratified Difference|-2.1||||0.442|TWO_SIDED|95.0|-9.1|5.3|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.3|-9.1|0.4420
92276335|NCT00408876|184454662|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.89||||0.089||95.0|-0.14|1.91|||t-test, 2 sided|||||1.91|-0.14|0.089
92353834|NCT02596893|184613485|SUPERIORITY||Stratified Difference|-2.6||||0.1799|TWO_SIDED|95.0|-9.5|5.0|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.0|-9.5|0.1799
92400896|NCT04913610|184692705|OTHER||||||=|0.96||||||The p-value is for the pairwise comparison of Arm C to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.960
92400897|NCT04913610|184692705|OTHER||||||=|0.96||||||The p-value is for the pairwise comparison of Arm D to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.960
92400898|NCT04913610|184692706|OTHER||||||=|0.157||||||The p-value is for the pairwise comparison of Arm A to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.157
92400899|NCT04913610|184692706|OTHER||||||=|0.15||||||The p-value is for the pairwise comparison of Arm B to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.150
92400900|NCT04913610|184692706|OTHER||||||=|0.15||||||The p-value is for the pairwise comparison of Arm C to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.150
92400901|NCT04913610|184692706|OTHER||||||=|0.173||||||The p-value is for the pairwise comparison of Arm D to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.173
92400902|NCT04913610|184692707|OTHER||||||=|0.619||||||The p-value is for the pairwise comparison of Arm A to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.619
92400903|NCT04913610|184692707|OTHER||||||=|0.194||||||The p-value is for the pairwise comparison of Arm B to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.194
92353835|NCT02596893|184613485|SUPERIORITY||Stratified Difference|-2.4||||0.2309|TWO_SIDED|95.0|-9.4|4.9|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||4.9|-9.4|0.2309
92353836|NCT02596893|184613485|SUPERIORITY||Stratified Difference|-2.1||||0.3264|TWO_SIDED|95.0|-9.1|4.6|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||4.6|-9.1|0.3264
92353837|NCT02596893|184613486|SUPERIORITY||Stratified Difference|-11.7||||0.0299|TWO_SIDED|95.0|-22.0|-1.1|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||-1.1|-22.0|0.0299
92353838|NCT02596893|184613486|SUPERIORITY||Stratified difference|-9.9||||0.0582|TWO_SIDED|95.0|-20.3|0.7|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||0.7|-20.3|0.0582
92353839|NCT02596893|184613486|SUPERIORITY||Stratified difference|-9.7||||0.0741|TWO_SIDED|95.0|-20.1|1.0|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||1.0|-20.1|0.0741
92353840|NCT02596893|184613487|SUPERIORITY||Stratified difference|-5.8||||0.2493|TWO_SIDED|95.0|-15.5|4.0|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||4.0|-15.5|0.2493
92353841|NCT02596893|184613487|SUPERIORITY||Stratified difference|-1.8||||0.716|TWO_SIDED|95.0|-11.8|8.2|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||8.2|-11.8|0.7160
92161424|NCT01456936|184211864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.24|||<|0.0001|TWO_SIDED|95.0|2.56|4.11||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||4.11|2.56|<0.0001
92161425|NCT01456936|184211864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87|||<|0.0001|TWO_SIDED|95.0|1.46|2.39||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.39|1.46|<0.0001
92276336|NCT00408876|184454662|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75||||0.234||95.0|-0.49|2.0|||t-test, 2 sided|||||2.00|-0.49|0.234
92353842|NCT02596893|184613487|SUPERIORITY||Stratified difference|-5.8||||0.2452|TWO_SIDED|95.0|-15.5|4.1|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||4.1|-15.5|0.2452
92353843|NCT02596893|184613488|SUPERIORITY||Stratified difference|-1.3||||0.7541|TWO_SIDED|95.0|-9.8|7.1|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||7.1|-9.8|0.7541
92353844|NCT02596893|184613488|SUPERIORITY||Stratified difference|-3.7||||0.3784|TWO_SIDED|95.0|-12.0|4.6|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||4.6|-12.0|0.3784
92353845|NCT02596893|184613488|SUPERIORITY||Stratified difference|-4.4||||0.2865|TWO_SIDED|95.0|-12.6|3.8|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||3.8|-12.6|0.2865
92353846|NCT02596893|184613489|SUPERIORITY||Unstratified CMH|-2.2||||0.3572|TWO_SIDED|95.0|-11.3|7.0|||Cochran-Mantel-Haenszel|p-values were based on the unstratified CMH test when 1 and only 1 of the 2 treatment groups being compared had no subjects in a stratum.|The weighted average of the treatment differences across the strata with the CMH weights.|2-sided 95% CI were based on the unstratified Newcombe method.||7.0|-11.3|0.3572
92353847|NCT02596893|184613489|SUPERIORITY||Stratified difference|4.7||||0.2823|TWO_SIDED|95.0|-8.8|18.9|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||18.9|-8.8|0.2823
92400904|NCT04913610|184692707|OTHER||||||=|0.518||||||The p-value is for the pairwise comparison of Arm C to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.518
92400905|NCT04913610|184692707|OTHER||||||=|0.652||||||The p-value is for the pairwise comparison of Arm D to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.652
92400906|NCT04913610|184692708|OTHER||||||=|0.386||||||The p-value is for the pairwise comparison of Arm A to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.386
92353848|NCT02596893|184613489|SUPERIORITY||Stratified difference|0.0|||>|0.9999|TWO_SIDED|95.0|-12.8|13.7|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||13.7|-12.8|> 0.9999
92353849|NCT02596893|184613490|SUPERIORITY||Stratified difference|-0.5||||0.8031|TWO_SIDED|95.0|-6.7|5.9|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.9|-6.7|0.8031
92353850|NCT02596893|184613490|SUPERIORITY||Stratified difference|1.4||||0.5583|TWO_SIDED|95.0|-5.1|7.3|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||7.3|-5.1|0.5583
92353851|NCT02596893|184613490|SUPERIORITY||Stratified difference|-1.0||||0.6123|TWO_SIDED|95.0|-7.2|6.8|||Cochran-Mantel-Haenszel||||The weighted average of the treatment differences across the strata with the CMH weights.|6.8|-7.2|0.6123
92353852|NCT02596893|184613491|SUPERIORITY||Stratified difference|-10.6||||0.0239|TWO_SIDED|95.0|-19.6|-1.4|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||-1.4|-19.6|0.0239
92353853|NCT02596893|184613491|SUPERIORITY||Stratified difference|-1.0||||0.8334|TWO_SIDED|95.0|-10.8|8.7|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||8.7|-10.8|0.8334
92353854|NCT02596893|184613491|SUPERIORITY||Stratified difference|-3.9||||0.4383|TWO_SIDED|95.0|-13.5|5.8|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||5.8|-13.5|0.4383
92353855|NCT02596893|184613492|SUPERIORITY||Stratified difference|-1.6||||0.3573|TWO_SIDED|95.0|-8.3|5.9|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with CMH weights.|||5.9|-8.3|0.3573
92353856|NCT02596893|184613492|SUPERIORITY||Stratified difference|-2.0||||0.2221|TWO_SIDED|95.0|-8.7|5.1|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.1|-8.7|0.2221
92400907|NCT04913610|184692708|OTHER||||||=|0.279||||||The p-value is for the pairwise comparison of Arm B to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.279
92400908|NCT04913610|184692708|OTHER||||||=|0.385||||||The p-value is for the pairwise comparison of Arm C to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.385
92161426|NCT01456936|184211864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||<|0.0001|TWO_SIDED|95.0|1.56|2.55||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.55|1.56|<0.0001
92161427|NCT01456936|184211865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.61|||<|0.0001|TWO_SIDED|95.0|3.07|4.24||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||4.24|3.07|<0.0001
92161428|NCT01456936|184211865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.07|||<|0.0001|TWO_SIDED|95.0|1.75|2.45||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||2.45|1.75|<0.0001
92161429|NCT01456936|184211865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.15|||<|0.0001|TWO_SIDED|95.0|1.82|2.54||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||2.54|1.82|<0.0001
92353857|NCT02596893|184613492|SUPERIORITY||Stratified difference|-2.0||||0.2578|TWO_SIDED|95.0|-8.7|5.6|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.6|-8.7|0.2578
92353858|NCT02596893|184613495|SUPERIORITY||Stratified Difference|0.5||||0.9141|TWO_SIDED|95.0|-8.9|10.0|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights|||10.0|-8.9|0.9141
92353859|NCT02596893|184613495|SUPERIORITY||Stratified Difference|-3.6||||0.4286|TWO_SIDED|95.0|-12.8|5.6|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.6|-12.8|0.4286
92353860|NCT02596893|184613495|SUPERIORITY||Stratified Difference|-2.7||||0.5591|TWO_SIDED|95.0|-12.0|6.6|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||6.6|-12.0|0.5591
92353861|NCT03280615|184613496|SUPERIORITY|||||||0.257|||||||Fisher Exact|||A Fisher exact test was performed||||0.257
92353862|NCT03280615|184613497|SUPERIORITY|||||||0.231|||||||Fisher Exact|||A mixed linear regression model for repeated measures was performed to test if the outcome behaved differently in both treatment groups||||0.231
92353863|NCT03280615|184613498|SUPERIORITY|||||||0.043|||||||Mixed Models Analysis|||A mixed linear regression model for repeated measures was performed to test if the outcome behaved differently in both treatment groups||||0.043
92353864|NCT00090402|184613499|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|95.0|||||Regression, Linear|Adjusted for age and body mass index||||||0.83
92353865|NCT02327143|184613511|SUPERIORITY_OR_OTHER||Ratio of geometric least squares|0.448|||||TWO_SIDED|90.0|0.395|0.508|||||Absolute bioavailability of LY2835219 following the administration of 200 mg LY2835219 (oral) with 0.4 mg \[13C8\]-LY2835219 (IV).|||0.508|0.395|
92353866|NCT02123511|184613514|SUPERIORITY|||||||0.1232|||||||t-test, 1 sided|||||||0.1232
92353867|NCT02123511|184613515|SUPERIORITY|||||||0.0422|||||||t-test, 1 sided|||||||0.0422
92353868|NCT02123511|184613516|SUPERIORITY|||||||0.5634|||||||t-test, 1 sided|||||||0.5634
92353869|NCT02123511|184613517|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||||||0.02
92353870|NCT02123511|184613518|SUPERIORITY|||||||0.22|||||||t-test, 1 sided|||||||0.22
92353871|NCT02123511|184613519|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||||||0.02
92353872|NCT02123511|184613520|SUPERIORITY|||||||0.95|||||||t-test, 1 sided|||||||0.95
92353873|NCT02123511|184613521|SUPERIORITY|||||||0.17|||||||t-test, 1 sided|||||||0.17
92353874|NCT02123511|184613522|SUPERIORITY|||||||0.48|||||||t-test, 1 sided|||||||0.48
92353875|NCT02123511|184613523|SUPERIORITY|||||||0.3824|||||||Wilcoxon (Mann-Whitney)|||||||0.3824
92400909|NCT04913610|184692708|OTHER||||||=|0.755||||||The p-value is for the pairwise comparison of Arm D to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.755
92161430|NCT01456936|184211866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.99|||<|0.0001|TWO_SIDED|95.0|2.33|3.83||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||3.83|2.33|<0.0001
92161431|NCT01456936|184211866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||<|0.0001|TWO_SIDED|95.0|1.54|2.59||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.59|1.54|<0.0001
92161432|NCT01456936|184211866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96|||<|0.0001|TWO_SIDED|95.0|1.51|2.54||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.54|1.51|<0.0001
92161433|NCT01456936|184211867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5|||<|0.0001|TWO_SIDED|95.0|1.9|3.29||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||3.29|1.90|<0.0001
92353876|NCT01133977|184613536|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.23|0.75||||||The current study was not powered or designed to determine superiority of the '20 mg Lenvatinib + Dacarbazine (Phase 2)' arm compared with 'Dacarbazine (Phase 2) ' arm.||0.75|0.23|
92353877|NCT03615534|184613541|SUPERIORITY|||||||0.0001||||||Results were evaluated in terms of adjusted end line TG levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: TG= 240.4 mg/dl, HDL-C = 31.8 mg/dl, ApoA1 = 144.6 mg/dl.||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline TG level as a covariate, with further adjustments for baseline HDL-C, ApoA1levels.||||0.0001
92353878|NCT03615534|184613542|SUPERIORITY|||||||0.06||||||Results were evaluated in terms of adjusted end line TC levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: TC=199.9 mg/dl, Non HDL-C= 168.0 mg/dl, d-LDL-C= 119.1 mg/dl.||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline TC level as a covariate, with further adjustments for baseline Non HDL-C and d-LDL-C.||||0.060
92353879|NCT03615534|184613542|SUPERIORITY|||||||0.0001||||||Results were evaluated in terms of adjusted end line HDL-C levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: HDL-C = 31.8 mg/dL,TG= 240.4 mg/dL, ApoA1 = 144.6 mg/dL.||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline HDL-C level as a covariate, with further adjustments for baselineTG, ApoA1levels.||||0.0001
92353880|NCT03615534|184613542|SUPERIORITY|||||||0.334||||||Results were evaluated in terms of adjusted end line d-LDL-C levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: d-LDL-C= 119.1 mg/dl.TC=199.9 mg/dl, Non HDL-C= 168.0 mg/dl,||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline d-LDL-C level as a covariate, with further adjustments for baseline TC and Non HDL-C .||||0.334
92161434|NCT01456936|184211867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77|||<|0.0001|TWO_SIDED|95.0|1.33|2.36||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.36|1.33|<0.0001
92161435|NCT01456936|184211867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65|||<|0.0001|TWO_SIDED|95.0|1.24|2.2||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.20|1.24|<0.0001
92276337|NCT00408876|184454662|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.31||||0.04||95.0|0.06|2.56|||t-test, 2 sided|||||2.56|0.06|0.040
92353881|NCT03615534|184613542|SUPERIORITY|||||||0.012||||||Results were evaluated in terms of adjusted end line Non HDL-C levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: Non HDL-C= 168.0 mg/dl,TC=199.9 mg/dl, d-LDL-C= 119.1 mg/dl.||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline Non HDL-C level as a covariate, with further adjustments for baseline TC and d-LDL-C.||||0.012
92400910|NCT03186209|184692710|SUPERIORITY||Rate Ratio|0.26|||<|0.0001|TWO_SIDED|95.0|0.19|0.36||Multiplicity protected by hierarchy testing procedure. First in line hypothesis testing, requiring p-value \<0.05.|Negative binomial|Model with covariates: treatment group, region (China/Non-China), number of exacerbations in previous year, use of maintenance oral corticosteroids||||0.36|0.19|<0.0001
92353882|NCT03615534|184613542|SUPERIORITY|||||||0.001||||||Results were evaluated in terms of adjusted end line RC levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values:RC=48.9,TC=199.9, Non HDL-C=168.0, d-LDL-C=119.1, ApoB=133.1mg/dl||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline RC level as a covariate, with further adjustments for baselineTC, Non HDL-C, d-LDL-C, and ApoB.||||0.001
92353883|NCT03615534|184613543|SUPERIORITY|||||||0.058||||||Results were evaluated in terms of adjusted end line ApoA1 levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: ApoA1 = 144.6 mg/dl, TG= 240.4 mg/dl, HDL-C = 31.8 mg/dl.||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline ApoA1 level as a covariate, with further adjustments for baseline TG and HDL-C levels.||||0.058
92161436|NCT01456936|184211868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.74|||<|0.0001|TWO_SIDED|95.0|2.28|3.3||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||3.30|2.28|<0.0001
92161437|NCT01456936|184211868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89|||<|0.0001|TWO_SIDED|95.0|1.56|2.29||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||2.29|1.56|<0.0001
92161438|NCT01456936|184211868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81|||<|0.0001|TWO_SIDED|95.0|1.49|2.19||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||2.19|1.49|<0.0001
92161439|NCT00906698|184211881|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|126.2|||||TWO_SIDED|90.0|69.549|229.012|||ANOVA|||||229.012|69.549|
92161440|NCT00906698|184211882|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|75.58|||||TWO_SIDED|90.0|65.037|87.837|||ANOVA|||||87.837|65.037|
92161441|NCT00906698|184211883|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|132.8|||||TWO_SIDED|90.0|72.305|243.917|||ANOVA|||||243.917|72.305|
92161442|NCT00906698|184211884|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|83.8|||||TWO_SIDED|90.0|61.156|114.823|||ANOVA|||||114.823|61.156|
92161443|NCT00906698|184211887|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|90.21|||||TWO_SIDED|90.0|76.071|106.978|||ANOVA|||||106.978|76.071|
92161444|NCT00906698|184211888|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|76.75|||||TWO_SIDED|90.0|56.71|103.871|||ANOVA|||||103.871|56.710|
92161445|NCT00906698|184211889|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|83.86|||||TWO_SIDED|95.0|66.369|105.966|||ANOVA|||||105.966|66.369|
92161446|NCT00906698|184211890|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|81.7|||||TWO_SIDED|90.0|60.47|110.369|||ANOVA|||||110.369|60.470|
92161447|NCT03879642|184211893|SUPERIORITY||partial eta squared|0.117|||||TWO_SIDED||||||ANOVA|||||||
92161448|NCT03879642|184211894|SUPERIORITY||partial eta squared|0.005|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92161449|NCT00404079|184211920|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.5|STANDARD_DEVIATION|4.0||0.05|||||||Mixed Models Analysis|||Null hypothesis was glucosamine sulfate is not superior to placebo to reduce pain and disability associated with chronic low back pain. Power calculation was based on a 3 point difference between the groups with the primary outcome. Data was analysed with linear mixed models||||0.05
92161450|NCT00404079|184211920|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Mixed Models Analysis|||||||0.05
92161451|NCT01859312|184211926|OTHER|||||||0.021|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.021
92161452|NCT01859312|184211928|OTHER|||||||0.027|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.027
92161453|NCT01859312|184211930|OTHER|||||||0.008|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.008
92161454|NCT01859312|184211932|OTHER|||||||0.012|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.012
92161455|NCT01859312|184211934|OTHER|||||||0.157|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.157
92161456|NCT01859312|184211936|OTHER|||||||0.015|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.015
92161457|NCT01859312|184211938|OTHER|||||||0.009|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.009
92161458|NCT01859312|184211940|OTHER|||||||0.008|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.008
92161459|NCT01859312|184211942|OTHER|||||||0.009|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.009
92276338|NCT00408876|184454662|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56||||0.289||95.0|-0.48|1.59|||t-test, 2 sided|||||1.59|-0.48|0.289
92161460|NCT01859312|184211944|OTHER|||||||0.043|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.043
92353884|NCT03615534|184613543|SUPERIORITY|||||||0.067||||||Results were evaluated in terms of adjusted end line ApoB levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values:ApoB=133.1, RC=48.9,TC=199.9, Non HDL-C=168.0, d-LDL-C=119.1mg/dl||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline ApoB level as a covariate, with further adjustments for baselineTC, Non HDL-C, dLDL-C, and RC .||||0.067
92353885|NCT03615534|184613544|SUPERIORITY|||||||0.001||||||Results were evaluated in terms of adjusted end line FSG levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: FSG= 95.7 mg/dl.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline FSG level as a covariate.||||0.001
92353886|NCT03615534|184613545|SUPERIORITY|||||||0.786||||||Results were evaluated in terms of adjusted end line eGFR levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: eGFR= 88.0 ml/min per 1.73 m\^2.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline eGFR level as a covariate.||||0.786
92353887|NCT03615534|184613546|SUPERIORITY|||||||0.0001||||||Results were evaluated in terms of adjusted end line serum uric acid levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: serum uric acid= 5.0 mg/dl.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline serum uric acid level as a covariate.||||0.0001
92353888|NCT03615534|184613547|OTHER|||||||0.201||||||Results were evaluated in terms of adjusted end line AST levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|"Covariates appearing in ANCOVA model are evaluated at the following baseline values: AST= 18.1 IU/L.~."||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline AST level as a covariate.||||0.201
92353889|NCT03615534|184613547|SUPERIORITY|||||||0.033||||||Results were evaluated in terms of adjusted end line ALT levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: ALT= 16.0 IU/L.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline ALT level as a covariate.||||0.033
92353890|NCT03615534|184613547|SUPERIORITY|||||||0.511||||||Results were evaluated in terms of adjusted end line CK levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: CK= 28.0 IU/L.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline CK level as a covariate.||||0.511
92161461|NCT01859312|184211946|OTHER|||||||0.024|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.024
92161462|NCT01859312|184211948|OTHER|||||||0.031|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.031
92276339|NCT00408876|184454663|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.862||95.0|-0.27|0.32|||t-test, 2 sided|||||0.32|-0.27|0.862
92353891|NCT03615534|184613548|OTHER|||||||0.434||||||Results were evaluated in terms of adjusted end line diastolic blood pressure levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: diastolic blood pressure= 80.0 mmHg.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline diastolic blood pressure level as a covariate.||||0.434
92353892|NCT03615534|184613548|SUPERIORITY|||||||0.966||||||Results were evaluated in terms of adjusted end line systolic blood pressure levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: systolic blood pressure= 121.5 mmHg.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline systolic blood pressure level as a covariate.||||0.966
92353893|NCT03760640|184613557|SUPERIORITY||LS Mean Difference|-0.86||||0.339|TWO_SIDED|90.0|-2.35|0.63|||Mixed Models Analysis|||||0.63|-2.35|0.339
92353894|NCT03760640|184613558|SUPERIORITY||LS Mean Difference|3.0||||0.011|TWO_SIDED|90.0|1.1|4.9|||Mixed Models Analysis|||||4.90|1.10|0.011
92353895|NCT03760640|184613559|SUPERIORITY||LS Mean Difference|0.56||||0.557|TWO_SIDED|90.0|-1.02|2.14|||Mixed Models Analysis|||||2.14|-1.02|0.557
92353896|NCT03760640|184613560|SUPERIORITY||LS Mean Difference|-0.04||||0.548|TWO_SIDED|90.0|-0.15|0.07|||Mixed Models Analysis|||||0.07|-0.15|0.548
92353897|NCT03760640|184613562|SUPERIORITY||LS Mean Difference|0.49||||0.577|TWO_SIDED|90.0|-0.97|1.94|||Mixed Models Analysis|||||1.94|-0.97|0.577
92353898|NCT02662582|184613564|SUPERIORITY||LSMean difference|-12.0||||0.734|TWO_SIDED|90.0|-71.2|47.2||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Least square means (LSMeans), LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||47.2|-71.2|0.734
92161463|NCT01859312|184211950|OTHER|||||||0.005|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.005
92161464|NCT01859312|184211952|OTHER|||||||0.004|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.004
92161465|NCT01859312|184211954|OTHER|||||||0.524|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.524
92161466|NCT01859312|184211956|OTHER|||||||0.007|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.|Comparison of hormone levels on conventional glucocorticoid therapy at baseline and following 6 months of CSHI.|||0.007
92161467|NCT01859312|184211958|OTHER|||||||0.084|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.084
92161468|NCT01859312|184211960|OTHER|||||||0.057|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.057
92161469|NCT01859312|184211962|OTHER|||||||0.103|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.103
92161470|NCT01859312|184211964|OTHER|||||||0.07|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.070
92161471|NCT02107014|184211983|SUPERIORITY_OR_OTHER|||||||0.576|||||||Mixed Models Analysis|||||||.576
92161472|NCT02107014|184211984|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|||||||0.010
92161473|NCT02107014|184211985|SUPERIORITY_OR_OTHER|||||||0.008|||||||Mixed Models Analysis|||||||.008
92161474|NCT02107014|184211986|SUPERIORITY_OR_OTHER|||||||0.015|||||||Mixed Models Analysis|||||||.015
92161475|NCT02107014|184211987|SUPERIORITY_OR_OTHER|||||||0.007|||||||Mixed Models Analysis|||||||.007
92161476|NCT02107014|184211988|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mixed Models Analysis|||||||.016
92161477|NCT02107014|184211989|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92161478|NCT02107014|184211990|SUPERIORITY_OR_OTHER|||||||0.212|||||||Mixed Models Analysis|||||||0.212
92161479|NCT02107014|184211993|SUPERIORITY_OR_OTHER|||||||0.008|||||||Mixed Models Analysis|||||||0.008
92161480|NCT02107014|184211994|SUPERIORITY_OR_OTHER|||||||0.004|||||||Mixed Models Analysis|||||||0.004
92161481|NCT02107014|184211995|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92161482|NCT02107014|184211996|SUPERIORITY_OR_OTHER|||||||0.047|||||||Mixed Models Analysis|||||||0.047
92161483|NCT02107014|184211997|SUPERIORITY_OR_OTHER|||||||0.002|||||||Mixed Models Analysis|||||||0.002
92161484|NCT02107014|184211998|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|||||||0.003
92161485|NCT02107014|184211999|SUPERIORITY_OR_OTHER|||||||0.191|||||||Mixed Models Analysis|||||||0.191
92161486|NCT02107014|184212000|SUPERIORITY_OR_OTHER|||||||0.088|||||||Mixed Models Analysis|||||||0.088
92161487|NCT02107014|184212001|SUPERIORITY_OR_OTHER|||||||0.478|||||||Mixed Models Analysis|||||||0.478
92161488|NCT02107014|184212004|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mixed Models Analysis|||||||0.016
92161489|NCT02107014|184212005|SUPERIORITY_OR_OTHER|||||||0.025|||||||Mixed Models Analysis|||||||0.025
92161490|NCT02107014|184212006|SUPERIORITY_OR_OTHER|||||||0.012|||||||Mixed Models Analysis|||||||0.012
92161491|NCT02107014|184212007|SUPERIORITY_OR_OTHER|||||||0.426|||||||Mixed Models Analysis|||||||0.426
92161492|NCT02107014|184212008|SUPERIORITY_OR_OTHER|||||||0.042|||||||Mixed Models Analysis|||||||0.042
92161493|NCT02107014|184212009|SUPERIORITY_OR_OTHER|||||||0.708|||||||Mixed Models Analysis|||||||0.708
92353899|NCT02662582|184613565|SUPERIORITY||LSMean Difference|-0.0219||||0.438|TWO_SIDED|90.0|-0.0694|0.0256||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0256|-0.0694|0.438
92353900|NCT02662582|184613565|SUPERIORITY||LSMean Difference|-0.0325||||0.114|TWO_SIDED|90.0|-0.0663|0.0014||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0014|-0.0663|0.114
92353901|NCT02662582|184613566|SUPERIORITY||LSMean difference|0.75||||0.612|TWO_SIDED|90.0|-1.75|3.24||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||3.24|-1.75|0.612
92161494|NCT02107014|184212010|SUPERIORITY_OR_OTHER|||||||0.558|||||||Mixed Models Analysis|||||||0.558
92161495|NCT02107014|184212011|SUPERIORITY_OR_OTHER|||||||0.35|||||||Mixed Models Analysis|||||||0.350
92161496|NCT02107014|184212012|SUPERIORITY_OR_OTHER|||||||0.655|||||||Mixed Models Analysis|||||||0.655
92353902|NCT02662582|184613566|SUPERIORITY||LSMean difference|0.29||||0.789|TWO_SIDED|90.0|-1.55|2.14||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||2.14|-1.55|0.789
92353903|NCT02662582|184613567|SUPERIORITY||LSMean difference|0.72||||0.225|TWO_SIDED|90.0|-0.26|1.7||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.70|-0.26|0.225
92353904|NCT02662582|184613567|SUPERIORITY||LSMean difference|0.92||||0.064||90.0|0.11|1.174||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.174|0.11|0.064
92353905|NCT02662582|184613568|SUPERIORITY||LSMean difference|0.052||||0.447|TWO_SIDED|90.0|-0.063|0.167||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.167|-0.063|0.447
92161497|NCT02107014|184212013|SUPERIORITY_OR_OTHER|||||||0.248|||||||Mixed Models Analysis|||||||0.248
92161498|NCT02107014|184212014|SUPERIORITY_OR_OTHER|||||||0.128|||||||Mixed Models Analysis|||||||0.128
92161499|NCT02107014|184212015|SUPERIORITY_OR_OTHER|||||||0.065|||||||Mixed Models Analysis|||||||0.065
92161500|NCT02107014|184212016|SUPERIORITY_OR_OTHER|||||||0.962|||||||Mixed Models Analysis|||||||0.962
92161501|NCT02107014|184212017|SUPERIORITY_OR_OTHER|||||||0.402|||||||Mixed Models Analysis|||||||0.402
92161502|NCT02107014|184212018|SUPERIORITY_OR_OTHER|||||||0.201|||||||Mixed Models Analysis|||||||0.201
92161503|NCT02107014|184212019|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mixed Models Analysis|||||||0.016
92161504|NCT02107014|184212020|SUPERIORITY_OR_OTHER|||||||0.006|||||||Mixed Models Analysis|||||||0.006
92161505|NCT02107014|184212021|SUPERIORITY_OR_OTHER|||||||0.007|||||||Mixed Models Analysis|||||||0.007
92161506|NCT02107014|184212022|SUPERIORITY_OR_OTHER|||||||0.038|||||||Mixed Models Analysis|||||||0.038
92161507|NCT02107014|184212023|SUPERIORITY_OR_OTHER|||||||0.032|||||||Mixed Models Analysis|||||||0.032
92161508|NCT02107014|184212024|SUPERIORITY_OR_OTHER|||||||0.002|||||||Mixed Models Analysis|||||||0.002
92161509|NCT02107014|184212026|SUPERIORITY_OR_OTHER|||||||0.508|||||||Mixed Models Analysis|||||||0.508
92161510|NCT02107014|184212027|SUPERIORITY_OR_OTHER|||||||0.119|||||||Mixed Models Analysis|||||||0.119
92161511|NCT02107014|184212028|SUPERIORITY_OR_OTHER|||||||0.326|||||||Mixed Models Analysis|||||||0.326
92161512|NCT02107014|184212029|SUPERIORITY_OR_OTHER|||||||0.753|||||||Mixed Models Analysis|||||||0.753
92161513|NCT02107014|184212030|SUPERIORITY_OR_OTHER|||||||0.067|||||||Mixed Models Analysis|||||||0.067
92161514|NCT02107014|184212031|SUPERIORITY_OR_OTHER|||||||0.08|||||||Mixed Models Analysis|||||||0.080
92161515|NCT02107014|184212032|SUPERIORITY_OR_OTHER|||||||0.639|||||||Mixed Models Analysis|||||||0.639
92161516|NCT02107014|184212035|SUPERIORITY_OR_OTHER|||||||0.945|||||||Mixed Models Analysis|||||||0.945
92161517|NCT02107014|184212036|SUPERIORITY_OR_OTHER|||||||0.038|||||||Mixed Models Analysis|||||||0.038
92161518|NCT02107014|184212037|SUPERIORITY_OR_OTHER|||||||0.281|||||||Mixed Models Analysis|||||||0.281
92161519|NCT02107014|184212038|SUPERIORITY_OR_OTHER|||||||0.03|||||||Mixed Models Analysis|||||||0.030
92161520|NCT02107014|184212039|SUPERIORITY_OR_OTHER|||||||0.948|||||||Mixed Models Analysis|||||||0.948
92161521|NCT02107014|184212040|SUPERIORITY_OR_OTHER|||||||0.61|||||||Mixed Models Analysis|||||||0.610
92161522|NCT02107014|184212041|SUPERIORITY_OR_OTHER|||||||0.893|||||||Mixed Models Analysis|||||||0.893
92161523|NCT02107014|184212042|SUPERIORITY_OR_OTHER|||||||0.041|||||||Mixed Models Analysis|||||||0.041
92161524|NCT02107014|184212045|SUPERIORITY_OR_OTHER|||||||0.967|||||||Mixed Models Analysis|||||||0.967
92161525|NCT02107014|184212046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92161526|NCT02107014|184212047|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92353906|NCT02662582|184613569|SUPERIORITY||LSMean difference|-0.8||||0.099|TWO_SIDED|90.0|-1.7|0.0||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Borg (Dyspnea) at Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0|-1.7|0.099
92353907|NCT02662582|184613569|SUPERIORITY||LSMean difference|-0.5||||0.255|TWO_SIDED|90.0|-1.3|0.2||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Borg (Dyspnea) at isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.2|-1.3|0.255
92353908|NCT02662582|184613569|SUPERIORITY||LSMean difference|-0.2||||0.651|TWO_SIDED|90.0|-1.1|0.6||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Borg (Leg Effort) at Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.6|-1.1|0.651
92161527|NCT01549652|184212067|SUPERIORITY_OR_OTHER|||||||0.87||||||Students' t-tests for paired samples with Bonferroni correction for multiple comparisons were used to compare differences between the outcome measures for crossover treatment arms (placebo vs. ondansetron).|t-test, 2 sided|||For the purposes of our post-hoc power calculation we considered a 30% treatment effect clinically significant. Based on the mean observed OOWS score during withdrawal during the placebo session and the variance of that mean score and assuming a paired data analysis and an alpha of 0.05, we found that we had 80% power to detect a treatment effect as low as 25% reduction in OOWS.||||0.87
92161528|NCT01549652|184212068|SUPERIORITY_OR_OTHER|||||||0.92|||||||t-test, 2 sided|||||||0.92
92161529|NCT01549652|184212069|SUPERIORITY_OR_OTHER|||||||0.47|||||||t-test, 2 sided|||||||0.47
92161530|NCT01549652|184212070|SUPERIORITY_OR_OTHER|||||||0.91|||||||t-test, 2 sided|||||||0.91
92161531|NCT01549652|184212071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92161532|NCT01549652|184212072|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
92161533|NCT01549652|184212073|SUPERIORITY_OR_OTHER|||||||0.6||||||Students' t-test for paired samples were used to compare differences between the outcome measures for treatment groups (placebo vs. ondansetron).|t-test, 2 sided|||We aimed for a 20% change in OOWS score to show the treatment effect with a power of 80% and an alpha of 0.05, yielding a target of 23 patients per treatment group.||||0.6
92220438|NCT05433571|184341185|SUPERIORITY|Superiority was tested for Senofilcon A (C3) Multifocal Toric lens with UV/HEV filter (Low DC) and concluded if the lower limit of a 95% confidence interval was above 0.80|Mean Population Estimate|0.917|STANDARD_ERROR_OF_MEAN|0.0194|||TWO_SIDED|95.0|0.878|0.955|||Bootstrapping Methods|bias adjusted confidence intervals||||0.955|0.878|
92220439|NCT05433571|184341185|SUPERIORITY|Superiority was tested for Senofilcon A (C3) Multifocal Toric lens with UV/HEV filter (High DC) and concluded if the lower limit of a 95% confidence interval was above 0.80|Mean Population Estimate|0.887|STANDARD_ERROR_OF_MEAN|0.0219|||TWO_SIDED|95.0|0.845|0.93|||Bootstrapping Methods|bias adjusted confidence intervals||||0.930|0.845|
92220440|NCT01918007|184341201|SUPERIORITY||Odds Ratio (OR)|1.3||||0.54|TWO_SIDED|95.0|0.5|3.3|||Chi-squared|||||3.3|0.5|0.54
92161534|NCT01549652|184212074|SUPERIORITY_OR_OTHER|||||||0.2|||||||t-test, 2 sided|||||||0.20
92161535|NCT01549652|184212075|SUPERIORITY_OR_OTHER|||||||0.34|||||||t-test, 2 sided|||||||0.34
92161536|NCT01549652|184212076|SUPERIORITY_OR_OTHER|||||||0.4|||||||t-test, 2 sided|||||||0.40
92161537|NCT01549652|184212077|SUPERIORITY_OR_OTHER|||||||0.84|||||||t-test, 2 sided|||||||0.84
92161538|NCT01549652|184212078|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
92161539|NCT02512042|184212111|EQUIVALENCE|The limits of each two-sided 95% confidence interval of the treatment difference (test-reference) for mean IOP of both eyes at approximately 8:00 (hours 0, before the morning drop) at the Day 14 visit should be within +/-1.5mm Hg, and should be within +/-1.0mm Hg for majority of time points using the PP population.|Mean Difference (Net)|-0.36|||||TWO_SIDED|95.0|-0.69|-0.03||||||||-0.03|-0.69|
92161540|NCT02512042|184212111|EQUIVALENCE|The limits of each two-sided 95% confidence interval of the treatment difference (test-reference) for mean IOP of both eyes at approximately 8:00 hour on Day 42 should be within +/-1.5mm Hg, and should be within +/- 1.0mm Hg for majority of time points using the PP population.|Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.43|0.22||||||||0.22|-0.43|
92161541|NCT02512042|184212111|EQUIVALENCE|The limits of each two-sided 95% confidence interval of the treatment difference (test-reference) for mean IOP of both eyes at approximately 10:00 hour on Day 14 should be within +/-1.5mm Hg, and should be within +/-1.0mm Hg for majority of time points using the PP population.|Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-0.71|-0.09||||||||-0.09|-0.71|
92161542|NCT02512042|184212111|EQUIVALENCE|The limits of each two-sided 95% confidence interval of the treatment difference (test-reference) for mean IOP of both eyes at approximately 10:00 hour on Day 42 should be within +/-1.5mm Hg, and should be within +/-1.0mm Hg for majority of time points using the PP population|Mean Difference (Net)|-0.19|||||TWO_SIDED|95.0|-0.5|0.13||||||||0.13|-0.50|
92161543|NCT01097343|184212118|SUPERIORITY_OR_OTHER||||||=|0.02|TWO_SIDED|95.0|||||Chi-squared|||A sample of size of 50 patients for the cross-over study was chosen because it provided 80% power to detect a decrease in the rate of high on-clopidogrel platelet reactivity (HPR, defined as \>230 PRU) from 75% to 46% with high dose clopidogrel, with a two-sided alpha of 0.05||||=0.02
92161544|NCT03495713|184212119|OTHER||||||||||||||||||Descriptive analysis only based limited enrollments.|||
92161545|NCT00964119|184212124|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|90.0||||P-value \< .05 is the computed p-value for this measurement.|t-test, 2 sided|||PI and lead author left the institution before publishing data. Study has been closed and data files archived.||||<.05
92161546|NCT02059980|184212125|SUPERIORITY||||||=|0.56|||||||Mixed Models Analysis|||It was calculated that 30 participants rnadomized in a 1:1 fashion between the 2 arms would have .90 power to detect a large effect (f=.40), but is somewhat underpowered to detect a medium effect (f=.25) between the two groups. Sample size was determined using a repeated-measures ANOVA test (α = .05, a correlation of .5 among repeated measures, and a nonsphericity correction of .6), considering the design effect and potential patient attrition (=25%).||||= 0.56
92161547|NCT02059980|184212126|SUPERIORITY||||||=|0.98|||||||Mixed Models Analysis|||It was calculated that 30 participants randomized in a 1:1 fashion between the 2 arms would have .90 power to detect a large effect (f=.40), but is somewhat underpowered to detect a medium effect (f=.25) between the two groups. Sample size was determined using a repeated-measures ANOVA test (α = .05, a correlation of .5 among repeated measures, and a nonsphericity correction of .6), considering the design effect and potential patient attrition (=25%).||||=.98
92161548|NCT02501811|184212224|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|1.05||0.993|TWO_SIDED|95.0|-2.19|2.023|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values|Confidence intervals based on t-test|||2.023|-2.190|0.993
92220441|NCT01918007|184341202|SUPERIORITY||Odds Ratio (OR)|14.0|||<|0.001|TWO_SIDED|95.0|2.9|68.4|||Chi-squared|||||68.4|2.9|<0.001
92220442|NCT01918007|184341203|SUPERIORITY||Mean Difference (Net)|-0.31|||<|0.001|TWO_SIDED|95.0|-0.35|-0.27|||t-test, 2 sided|||||-0.27|-0.35|<0.001
92220443|NCT01918007|184341204|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92220444|NCT01918007|184341205|SUPERIORITY||Mean Difference (Net)|-2.76|||<|0.001|TWO_SIDED|95.0|-3.63|-1.9|||t-test, 2 sided|||||-1.90|-3.63|<0.001
92220445|NCT01918007|184341206|SUPERIORITY||Risk Ratio (RR)|1.16||||0.553|TWO_SIDED|95.0|0.71|1.89|||Chi-squared|||||1.89|0.71|0.553
92161549|NCT02501811|184212224|SUPERIORITY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.96||0.499|TWO_SIDED|95.0|-1.229|2.635|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||2.635|-1.229|0.499
92161550|NCT02501811|184212224|SUPERIORITY||Mean Difference (Final Values)|1.38|STANDARD_ERROR_OF_MEAN|1.05||0.578|TWO_SIDED|95.0|-0.729|3.485|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||3.485|-0.729|0.578
92220446|NCT01918007|184341207|SUPERIORITY||Risk Ratio (RR)|1.79||||0.057|TWO_SIDED|95.0|0.98|3.27|||Chi-squared|||||3.27|0.98|0.057
92161551|NCT02501811|184212224|SUPERIORITY||Mean Difference (Final Values)|-1.46|STANDARD_ERROR_OF_MEAN|1.04||0.523|TWO_SIDED|95.0|-3.552|0.629|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||0.629|-3.552|0.523
92353909|NCT02662582|184613569|SUPERIORITY||LSMean difference|-0.3||||0.591|TWO_SIDED|90.0|-1.0|0.5||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Borg (Leg Effort) at isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.5|-1.0|0.591
92353910|NCT02662582|184613570|SUPERIORITY||LSMean difference|0.0286||||0.04|TWO_SIDED|90.0|0.0061|0.0511||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0511|0.0061|0.040
92353911|NCT02662582|184613570|SUPERIORITY||LSMean differencce|0.0185||||0.155|TWO_SIDED|90.0|-0.0031|0.0401||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0401|-0.0031|0.155
92353912|NCT02662582|184613571|SUPERIORITY||LSMean difference|0.001||||0.972|TWO_SIDED|90.0|-0.0459|0.0479||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0479|-0.0459|0.972
92161552|NCT02501811|184212224|SUPERIORITY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.95||0.471|TWO_SIDED|95.0|-2.7|1.127|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||1.127|-2.7|0.471
92161553|NCT02501811|184212224|SUPERIORITY||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|0.95||0.485|TWO_SIDED|95.0|-1.24|2.59|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||2.590|-1.240|0.485
92161554|NCT02501811|184212225|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|1.05||0.942|TWO_SIDED|95.0|-2.406|1.887|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values|Confidence intervals based on t-test|||1.887|-2.406|0.942
92161555|NCT02501811|184212225|SUPERIORITY||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|1.17||0.282|TWO_SIDED|95.0|-1.815|2.975|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||2.975|-1.815|0.282
92161556|NCT02501811|184212225|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.95||0.163|TWO_SIDED|95.0|-1.31|2.635|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||2.635|-1.310|0.163
92161557|NCT02501811|184212225|SUPERIORITY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.77||0.175|TWO_SIDED|95.0|-2.471|0.628|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.628|-2.471|0.175
92220447|NCT01918007|184341208|SUPERIORITY||Risk Ratio (RR)|2.29||||0.084|TWO_SIDED|95.0|0.84|6.25|||Chi-squared|||||6.25|0.84|0.084
92220448|NCT01918007|184341209|SUPERIORITY|||||||0.547|||||||Wilcoxon (Mann-Whitney)|||||||0.547
92220449|NCT01918007|184341210|SUPERIORITY|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||||||0.062
92220450|NCT01918007|184341211|SUPERIORITY|||||||0.208|||||||Wilcoxon (Mann-Whitney)|||||||0.208
92220451|NCT01918007|184341212|SUPERIORITY|||||||0.585|||||||Wilcoxon (Mann-Whitney)|||||||0.585
92220452|NCT01918007|184341213|SUPERIORITY|||||||0.074|||||||Wilcoxon (Mann-Whitney)|||||||0.074
92276340|NCT00408876|184454663|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.368||95.0|-0.13|0.35|||t-test, 2 sided|||||0.35|-0.13|0.368
92353913|NCT02662582|184613571|SUPERIORITY||LSMean difference|-0.0118||||0.578|TWO_SIDED|90.0|-0.0471|0.0236||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0236|-0.0471|0.578
92353914|NCT02662582|184613572|SUPERIORITY||LSMean difference|-0.65||||0.235|TWO_SIDED|90.0|-1.55|0.26||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.26|-1.55|0.235
92353915|NCT02662582|184613572|SUPERIORITY||LSMean differencce|-0.57||||0.215|TWO_SIDED|90.0|-1.33|0.19||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.19|-1.33|0.215
92220453|NCT04962022|184341250|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir co-administered with itraconazole was the Test treatment.|Specified in comments|118.57||||0.05|TWO_SIDED|90.0|112.5|124.97|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of geometric means 2.90% CI of ratio of geometric means"|||124.97|112.50|0.05
92220454|NCT04962022|184341251|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir co-administered with itraconazole was the Test treatment.|Specified in comments|138.82||||0.05|TWO_SIDED|90.0|129.25|149.11|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of geometric means 2.90% CI of ratio of geometric means"|||149.11|129.25|0.05
92220455|NCT02375724|184341263|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.02||||0.0306|TWO_SIDED|95.0|-1.94|-0.1|||Mixed Models Analysis|Baseline and age as covariates; treatment group, sex, visit, smoking-status and treatment group-by-visit interaction as fixed effect factors||||-0.10|-1.94|0.0306
92220456|NCT02375724|184341264|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.22||||0.0793|TWO_SIDED|95.0|-0.46|0.03|||Mixed Models Analysis|Baseline and age as covariates; treatment group, sex, visit, smoking-status and treatment group-by-visit interaction as fixed effect factors||||0.03|-0.46|0.0793
92220457|NCT02375724|184341265|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.06||||0.844|TWO_SIDED|95.0|-0.64|0.52|||Mixed Models Analysis|Baseline and age as covariates; treatment group, sex, visit, smoking-status and treatment group-by-visit interaction as fixed effect factors||||0.52|-0.64|0.844
92220458|NCT03548935|184341277|SUPERIORITY||Treatment difference|-12.44|||<|0.0001|TWO_SIDED|95.0|-13.37|-11.51|||ANCOVA|||Treatment policy estimand||-11.51|-13.37|<.0001
92220459|NCT03548935|184341277|SUPERIORITY||Treatment difference|-14.42|||<|0.0001|TWO_SIDED|95.0|-15.29|-13.55|||ANCOVA|||Hypothetical estimand||-13.55|-15.29|<0.0001
92353916|NCT02662582|184613573|SUPERIORITY||LSMean difference|0.7||||0.28|TWO_SIDED|90.0|-0.38|1.77||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.77|-0.38|0.280
92353917|NCT02662582|184613573|SUPERIORITY||LSMean difference|0.46||||0.424|TWO_SIDED|90.0|-0.49|1.4||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.40|-0.49|0.424
92220460|NCT03548935|184341278|SUPERIORITY||Odds Ratio (OR)|11.22|||<|0.0001|TWO_SIDED|95.0|8.88|14.19|||Regression, Logistic|||Treatment policy estimand||14.19|8.88|<0.0001
92353918|NCT02662582|184613574|SUPERIORITY||LSMean difference|0.039||||0.187|TWO_SIDED|90.0|-0.0099|0.0879||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0879|-0.0099|0.187
92220461|NCT03548935|184341278|SUPERIORITY||Odds Ratio (OR)|37.03|||<|0.0001|TWO_SIDED|95.0|28.02|48.95|||Regression, Logistic|||Hypothetical estimand||48.95|28.02|<0.0001
92220462|NCT01074190|184341327|SUPERIORITY|||||||0.34|||||||Chi-squared|||||||.34
92276341|NCT00408876|184454663|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06||||0.628||95.0|-0.18|0.31|||t-test, 2 sided|||||0.31|-0.18|0.628
92220463|NCT01074190|184341328|SUPERIORITY|||||||0.1|||||||Chi-squared|||||||.1
92220464|NCT01074190|184341329|SUPERIORITY|||||||0.1|||||||Chi-squared|||A sample size of 315 achieves 80% power to detect a difference among groups using a 2 degrees of freedom Chi-Square Test with a significance level (alpha) of 0.05.||||.1
92220465|NCT01594515|184341338|SUPERIORITY_OR_OTHER||Slope|0.9702|STANDARD_ERROR_OF_MEAN|0.0151|||TWO_SIDED|95.0|0.94|1.0005|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of the drug for Cmax was analysed.(N=50)||1.0005|0.9400|
92220466|NCT01594515|184341339|SUPERIORITY_OR_OTHER||Slope|1.0442|STANDARD_ERROR_OF_MEAN|0.0148|||TWO_SIDED|95.0|1.0145|1.074|||||"Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1.~PK endpoints on the log-transformed scale."|This was non confirmatory testing (Single dose). Dose proportionality of the drug for AUC0-inf was analysed. (N=48)||1.0740|1.0145|
92220467|NCT00804570|184341345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.3||||0.12|TWO_SIDED|95.0|-9.72|1.13|||Mixed Models Analysis|||||1.13|-9.72|0.120
92220468|NCT00804570|184341346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71||||0.013|TWO_SIDED|95.0|-1.27|-0.15|||Mixed Models Analysis|||||-0.15|-1.27|0.013
92220469|NCT00804570|184341347|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.37||||0.051|TWO_SIDED|95.0|-0.02|10.77|||Mixed Models Analysis|||||10.77|-0.02|0.051
92220470|NCT00804570|184341348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.249|TWO_SIDED|95.0|-1.07|0.28|||Mixed Models Analysis|||||0.28|-1.07|0.249
92276342|NCT00408876|184454663|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.573||95.0|-0.21|0.38|||t-test, 2 sided|||||0.38|-0.21|0.573
92276343|NCT00408876|184454663|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.819||95.0|-0.26|0.33|||t-test, 2 sided|||||0.33|-0.26|0.819
92353919|NCT02662582|184613574|SUPERIORITY||LSMean difference|0.0488||||0.213|TWO_SIDED|90.0|-0.0163|0.114||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.1140|-0.0163|0.213
92353920|NCT02662582|184613575|SUPERIORITY||LSMean difference|-0.4||||0.64||90.0|-2.1|1.2||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.2|-2.1|0.640
92400911|NCT03186209|184692711|SUPERIORITY||Mean Difference (Final Values)|0.25|||<|0.0001|TWO_SIDED|95.0|0.17|0.34||Test after significant primary endpoint. Two secondary endpoints (change in FEV1 and total asthma symptom score) using Holm's procedure; smaller p-value to be \<0.025, and larger p-value to be \<0.05.|Mixed Models Analysis|Model includes Treatment, baseline pre-bronchodilator FEV1, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||0.34|0.17|<0.0001
92400912|NCT03186209|184692712|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.0126|TWO_SIDED|95.0|-0.45|-0.05||Test after significant primary endpoint. Two secondary endpoints (change in FEV1 and total asthma symptom score) using Holm's procedure; smaller p-value to be \<0.025, and larger p-value to be \<0.05.|Mixed Models Analysis|Model includes Treatment, baseline total asthma symptom score, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||-0.05|-0.45|0.0126
92400913|NCT03186209|184692713|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.1835|TWO_SIDED|95.0|-0.42|0.08||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline total asthma rescue medication use, region, use of maintenance oral corticosteroids, visit, treatment\*visit||||0.08|-0.42|0.1835
92400914|NCT03186209|184692714|SUPERIORITY||Mean Difference (Final Values)|38.66|||<|0.0001|TWO_SIDED|95.0|24.24|53.07||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline morning PEF, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||53.07|24.24|<0.0001
92400915|NCT03186209|184692715|SUPERIORITY||Mean Difference (Final Values)|35.85|||<|0.0001|TWO_SIDED|95.0|21.52|50.18||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline evening PEF, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||50.18|21.52|<0.0001
92400916|NCT03186209|184692716|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.3385|TWO_SIDED|95.0|-0.03|0.01||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline proportion of nights awakening, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||0.01|-0.03|0.3385
92400917|NCT03186209|184692717|SUPERIORITY||Mean Difference (Final Values)|-0.43|||<|0.0001|TWO_SIDED|95.0|-0.58|-0.28||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline ACQ-6 score, use of maintenance oral corticosteroids, visit, and treatment by visit||||-0.28|-0.58|<0.0001
92400918|NCT03186209|184692718|SUPERIORITY||Hazard Ratio (HR)|0.32|||<|0.0001|TWO_SIDED|95.0|0.23|0.43||Nominal p-value. Not multiplicity protected by testing procedure.|Regression, Cox|model including covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||0.43|0.23|<0.0001
92161558|NCT02501811|184212225|SUPERIORITY||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|1.03||0.329|TWO_SIDED|95.0|-2.932|1.254|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.254|-2.932|0.329
92400919|NCT03186209|184692719|SUPERIORITY||Odds Ratio (OR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.19|0.42||Nominal p-value. Not multiplicity protected by testing procedure.|Cochran-Mantel-Haenszel|Controlling for region, number of exacerbations in the previous year (2, \>=3), use of OCS||||0.42|0.19|<0.0001
92161559|NCT02501811|184212225|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.93||0.752|TWO_SIDED|95.0|-1.829|1.994|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||1.994|-1.829|0.752
92400920|NCT03186209|184692720|SUPERIORITY||Mean Difference (Final Values)|-9.19|||<|0.0001|TWO_SIDED|95.0|-12.79|-5.6||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model with covariates: treatment group, baseline SGRQ total score, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||-5.60|-12.79|<0.0001
92400921|NCT03186209|184692721|SUPERIORITY||Rate ratio|0.46||||0.0222|TWO_SIDED|95.0|0.24|0.9||Nominal p-value. Not multiplicity protected by testing procedure.|Negative binomial|Model includes Treatment, use of maintenance oral corticosteroids, categorical variable of ER/UC or hospitalization exacerbations during previous year||||0.90|0.24|0.0222
92400922|NCT03186209|184692725|SUPERIORITY||Mean Difference (Final Values)|-119.31|||<|0.0001|TWO_SIDED|95.0|-169.78|-68.84||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|model includes treatment , baseline eosinophil count, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||-68.84|-169.78|<0.0001
92400923|NCT03186209|184692726|SUPERIORITY||Rate Ratio|0.83||||0.4519|TWO_SIDED|95.0|0.51|1.35||Nominal p-value. Not multiplicity protected by testing procedure.|Negative binomial|Model with covariates: treatment group, region (China/Non-China), number of exacerbations in previous year, use of maintenance oral corticosteroids||||1.35|0.51|0.4519
92400924|NCT03186209|184692727|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.0214|TWO_SIDED|95.0|0.02|0.22||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline pre-bronchodilator FEV1, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||0.22|0.02|0.0214
92400925|NCT03186209|184692728|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.1589|TWO_SIDED|95.0|-0.51|0.08||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline total asthma symptom score, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||0.08|-0.51|0.1589
92400926|NCT02005016|184692800|OTHER|This was a single-group study. A t-test was administered comparing pre- and post-treatment PNT scores (range: 1-175; higher scores are better).|||||<|0.005|||||||t-test, 1 sided|||||||<0.005
92400927|NCT02005016|184692801|OTHER|This was a single-group study. A t-test was administered comparing pre- and post-treatment CAT modality mean T-scores (range: 30-70, mean: 50; higher scores are better).|||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92161560|NCT02501811|184212226|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.75||0.733|TWO_SIDED|95.0|-1.118|1.927|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||1.927|-1.118|0.733
92161561|NCT02501811|184212226|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.81||0.735|TWO_SIDED|95.0|-1.248|2.041|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||2.041|-1.248|0.735
92161562|NCT02501811|184212226|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.8||0.794|TWO_SIDED|95.0|-1.464|1.767|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.767|-1.464|0.794
92161563|NCT02501811|184212226|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.7||0.951|TWO_SIDED|95.0|-1.161|1.666|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.666|-1.161|0.951
92353921|NCT02662582|184613575|SUPERIORITY||LSMean difference|-0.7||||0.487|TWO_SIDED|90.0|-2.5|1.1||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.1|-2.5|0.487
92353922|NCT02662582|184613576|SUPERIORITY||LSMean difference|0.095||||0.1|TWO_SIDED|90.0|0.0|0.189||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.189|0.000|0.100
92353923|NCT02662582|184613576|SUPERIORITY||LSMean difference|0.133||||0.008|TWO_SIDED|90.0|0.053|0.213||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.213|0.053|0.008
92400928|NCT01323582|184692823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.6|STANDARD_ERROR_OF_MEAN|11.7||0.76|TWO_SIDED|95.0|-21.5|28.6|||t-test, 2 sided|Satterthwaite corrected t-test was used|A positive (negative) value would suggest AZI values would tend to be larger (smaller) than EZ values.|Study planned to accrue 50 subjects, but due to difficult recruitment was not able to meet its objective.||28.6|-21.5|0.76
92400929|NCT01323582|184692824|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|2.8||0.65||95.0|-4.8|7.5|||t-test, 2 sided|Satterthwaite Correction used|A positive (negative) value would suggest AZI values would tend to be larger (smaller) than EZ values.|Study planned to accrue 50 subjects, but due to difficult recruitment was not able to meet its objective.||7.5|-4.8|0.65
92400930|NCT01323582|184692825|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|2.3||0.88|TWO_SIDED|95.0|-4.58|5.19|||t-test, 2 sided|Satterthwaite correction for unequal standard deviations was used|A positive (negative) value would suggest AZI values would tend to be larger (smaller) than EZ values.|Half of the period 2 minus period 1 differences were used, since the difference between these two derived means is an unbiased estimate of the effect size.||5.19|-4.58|0.88
92400931|NCT01323582|184692826|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.49|STANDARD_ERROR_OF_MEAN|5.7||0.8|TWO_SIDED|95.0|-13.9|10.9|||t-test, 2 sided|Satterthwaite Corrected t-test|A positive (negative) value would suggest AZI values would tend to be larger (smaller) than EZ values.|||10.9|-13.9|0.80
92161564|NCT02501811|184212226|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.71||0.962|TWO_SIDED|95.0|-1.441|1.457|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.457|-1.441|0.962
92161565|NCT02501811|184212226|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.76||0.945|TWO_SIDED|95.0|-1.793|1.303|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.303|-1.793|0.945
92400932|NCT01323582|184692827|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.8|STANDARD_ERROR_OF_MEAN|9.1||0.21|TWO_SIDED|95.0|-30.9|7.3|||t-test, 2 sided||Negative values suggest shorter emptying time post-treatment.|||7.3|-30.9|0.21
92161566|NCT02501811|184212227|SUPERIORITY||Mean Difference (Final Values)|-2.02|STANDARD_ERROR_OF_MEAN|3.85||0.602|TWO_SIDED|95.0|-9.754|5.711|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||5.711|-9.754|0.602
92161567|NCT02501811|184212227|SUPERIORITY||Mean Difference (Final Values)|-2.78|STANDARD_ERROR_OF_MEAN|3.39||0.443|TWO_SIDED|95.0|-9.609|4.044|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||4.044|-9.609|0.443
92161568|NCT02501811|184212227|SUPERIORITY||Mean Difference (Net)|-4.13|STANDARD_ERROR_OF_MEAN|3.42||0.348|TWO_SIDED|95.0|-11.011|2.76|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||2.760|-11.011|0.348
92161569|NCT02501811|184212227|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|3.92||0.812|TWO_SIDED|95.0|-5.76|9.968|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||9.968|-5.760|0.812
92220471|NCT00804570|184341349|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44||||0.199|TWO_SIDED|95.0|-1.12|0.23|||Mixed Models Analysis|||||0.23|-1.12|0.199
92353924|NCT02662582|184613577|SUPERIORITY||LSMean difference|0.051||||0.408|TWO_SIDED|90.0|-0.052|0.154||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.154|-0.052|0.408
92353925|NCT02662582|184613577|SUPERIORITY||LSMean difference|0.094||||0.058|TWO_SIDED|90.0|0.013|0.174||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.174|0.013|0.058
92353926|NCT02662582|184613578|SUPERIORITY||LSMean difference|1.44||||0.648|TWO_SIDED|90.0|-3.85|6.73||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||6.73|-3.85|0.648
92161570|NCT02501811|184212227|SUPERIORITY||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|3.89||0.9|TWO_SIDED|95.0|-7.052|8.574|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||8.574|-7.052|0.900
92353927|NCT02662582|184613578|SUPERIORITY||LSMean difference|0.85||||0.775|TWO_SIDED|90.0|-4.12|5.82||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||5.82|-4.12|0.775
92353928|NCT02662582|184613579|SUPERIORITY||LSMean difference|1.1||||0.544|TWO_SIDED|90.0|-1.9|4.0||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||4.0|-1.9|0.544
92353929|NCT02662582|184613579|SUPERIORITY||LSMean difference|2.1||||0.216|TWO_SIDED|90.0|-0.7|5.0||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||5.0|-0.7|0.216
92353930|NCT02662582|184613580|SUPERIORITY||LSMean difference|-7.4||||0.171|TWO_SIDED|90.0|-16.5|1.6||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.6|-16.5|0.171
92353931|NCT02662582|184613580|SUPERIORITY||LSMean difference|0.2||||0.976|TWO_SIDED|90.0|-10.3|10.7||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||10.7|-10.3|0.976
92353932|NCT02662582|184613581|SUPERIORITY||LSMean difference|-0.6||||0.844|TWO_SIDED|90.0|-6.1|4.9||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||4.9|-6.1|0.844
92400933|NCT01323582|184692828|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.0|STANDARD_ERROR_OF_MEAN|6.61||0.034|TWO_SIDED|95.0|-28.7|-1.26|||t-test, 2 sided||Negative values suggest shorter emptying time post-treatment.|||-1.26|-28.7|0.034
92161571|NCT02501811|184212227|SUPERIORITY||Mean Difference (Final Values)|-1.34|STANDARD_ERROR_OF_MEAN|3.47||0.848|TWO_SIDED|95.0|-8.321|5.635|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||5.635|-8.321|0.848
92161572|NCT02501811|184212228|SUPERIORITY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|3.01||0.659|TWO_SIDED|95.0|-7.281|4.789|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||4.789|-7.281|0.659
92353933|NCT02662582|184613581|SUPERIORITY||LSMean difference|-0.9||||0.751|TWO_SIDED|90.0|-5.8|4.0||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||4.0|-5.8|0.751
92353934|NCT02662582|184613582|SUPERIORITY||LSMean difference|0.2||||0.59|TWO_SIDED|90.0|-0.5|0.9||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.9|-0.5|0.590
92353935|NCT02662582|184613582|SUPERIORITY||LSMean difference|0.3||||0.399|TWO_SIDED|90.0|-0.3|0.9||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.9|-0.3|0.399
92353936|NCT02662582|184613583|SUPERIORITY||LSMean difference|-0.09||||0.151|TWO_SIDED|90.0|-0.2|0.01||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.01|-0.20|0.151
92353937|NCT02662582|184613584|SUPERIORITY||LSMean difference|-0.007||||0.857|TWO_SIDED|90.0|-0.07|0.056||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.056|-0.070|0.857
92353938|NCT02662582|184613585|SUPERIORITY||LSMean difference|1.56||||0.11|TWO_SIDED|90.0|-0.05|3.17||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||3.17|-0.05|0.110
92400934|NCT01323582|184692829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.32|STANDARD_ERROR_OF_MEAN|1.98||0.015|TWO_SIDED|95.0|-9.48|-1.16|||t-test, 2 sided||Lower scores are favorable.|||-1.16|-9.48|0.015
92400935|NCT01323582|184692830|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.4|STANDARD_ERROR_OF_MEAN|2.2||0.0083|TWO_SIDED|95.0|-10.97|-1.83|||t-test, 2 sided||Lower scores are favorable.|||-1.83|-10.97|0.0083
92400936|NCT00988832|184692846|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
92400937|NCT00988832|184692847|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||ANOVA|||||||0.0004
92400938|NCT00988832|184692848|SUPERIORITY_OR_OTHER|||||||0.0041||95.0|||||ANOVA|||||||0.0041
92400939|NCT00988832|184692849|SUPERIORITY_OR_OTHER|||||||0.0423||95.0|||||ANOVA|||||||0.0423
92400940|NCT00988832|184692850|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANOVA|||||||0.0006
92220472|NCT00804570|184341350|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68||||0.318|TWO_SIDED|95.0|-2.03|0.66|||Mixed Models Analysis|||||0.66|-2.03|0.318
92353939|NCT02662582|184613586|SUPERIORITY||LSMean difference|2.07||||0.766|TWO_SIDED|90.0|-9.57|13.71||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||13.71|-9.57|0.766
92353940|NCT02662582|184613586|SUPERIORITY||LSMean difference|2.94||||0.642|TWO_SIDED|90.0|-7.66|13.54||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||13.54|-7.66|0.642
92353941|NCT00806026|184613604|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|-4.5|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-5.9|-3.2||This analysis was step 1 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pregabalin 300 mg versus placebo: Mixed model analysis was used to analyze RLS symptom severity score with baseline value, region \[United states (US) or European union (EU)\], treatment, week and treatment by week interaction as fixed effects.||-3.20|-5.90|<0.0001
92353942|NCT00806026|184613604|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.68||0.3603|TWO_SIDED|95.0|-2.0|0.7||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.25 mg versus placebo: Mixed model analysis was used to analyze RLS symptom severity score with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||0.7|-2.0|0.3603
92400941|NCT00988832|184692851|SUPERIORITY_OR_OTHER|||||||0.0014||95.0|||||ANOVA|||||||0.0014
92161573|NCT02501811|184212228|SUPERIORITY||Mean Difference (Final Values)|-2.46|STANDARD_ERROR_OF_MEAN|3.06||0.466|TWO_SIDED|95.0|-8.621|3.71|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||3.710|-8.621|0.466
92161574|NCT02501811|184212228|SUPERIORITY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|3.08||0.293|TWO_SIDED|95.0|-10.799|1.594|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.594|-10.799|0.293
92161575|NCT02501811|184212228|SUPERIORITY||Mean Difference (Final Values)|3.36|STANDARD_ERROR_OF_MEAN|3.06||0.53|TWO_SIDED|95.0|-2.795|9.508|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||9.508|-2.795|0.530
92161576|NCT02501811|184212228|SUPERIORITY||Mean Difference (Final Values)|1.21|STANDARD_ERROR_OF_MEAN|3.05||0.761|TWO_SIDED|95.0|-4.91|7.33|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||7.330|-4.910|0.761
92161577|NCT02501811|184212228|SUPERIORITY||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|3.12||0.669|TWO_SIDED|95.0|-8.426|4.132|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||4.132|-8.426|0.669
92161578|NCT02501811|184212229|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.989|TWO_SIDED|95.0|-0.048|0.04|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.040|-0.048|0.989
92220473|NCT00804570|184341351|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.01||||0.034|TWO_SIDED|95.0|-5.8|-0.22|||Mixed Models Analysis|||||-0.22|-5.80|0.034
92220474|NCT00804570|184341352|SUPERIORITY_OR_OTHER_LEGACY||GMR over Baseline relative to placebo|0.9||||0.001|TWO_SIDED|95.0|0.85|0.96|||Mixed Models Analysis|||||0.96|0.85|0.001
92220475|NCT00804570|184341353|SUPERIORITY_OR_OTHER_LEGACY||GMR over Baseline relative to placebo|0.96||||0.103|TWO_SIDED|95.0|0.91|1.01|||Mixed Models Analysis|||||1.01|0.91|0.103
92353943|NCT00806026|184613604|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.2|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-4.5|-1.9||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.5 mg versus placebo: Mixed model analysis was used to analyze RLS symptom severity score with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||-1.9|-4.5|<0.0001
92353944|NCT00806026|184613605|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||This analysis was step 2 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Cochran-Mantel-Haenszel|||For pregabalin 300 mg versus placebo: Cochran-Mantel-Haenszel (CMH) test stratified by geographical region (US or EU) was used to analyze CGI-I responder status.||||<0.0001
92400942|NCT00988832|184692853|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
92400943|NCT00525512|184692865|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.13||||0.1062||95.0|0.97|1.32||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.32|0.97|0.1062
92400944|NCT00525512|184692866|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.12||||0.008||95.0|1.03|1.23||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.23|1.03|0.008
92400945|NCT00525512|184692867|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.1||||0.0597||95.0|1.0|1.21||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.21|1.00|0.0597
92400946|NCT00525512|184692868|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.15||||0.0131||95.0|1.03|1.29||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.29|1.03|0.0131
92400947|NCT00525512|184692869|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.18||||0.0041||95.0|1.05|1.32||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.32|1.05|0.0041
92353945|NCT00806026|184613605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4393|TWO_SIDED|||||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Cochran-Mantel-Haenszel|||For pramipexole 0.25 mg versus placebo: CMH test stratified by geographical region (US or EU) was used to analyze CGI-I responder status.||||0.4393
92353946|NCT00806026|184613605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0022|TWO_SIDED|||||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Cochran-Mantel-Haenszel|||For pramipexole 0.5 mg versus placebo: CMH test stratified by geographical region (US or EU) was used to analyze CGI-I responder status.||||0.0022
92353947|NCT00806026|184613606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0826|TWO_SIDED|||||This analysis was step 6 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Log Rank|||For pramipexole 0.25 mg versus pregabalin 300 mg: Stratified log rank test by block (40 weeks versus 52 weeks of active treatment) was used to calculate p-value.||||0.0826
92353948|NCT00806026|184613606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012|TWO_SIDED|||||This analysis was step 3 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Log Rank|||For pramipexole 0.5 mg versus pregabalin 300 mg: Stratified log rank test by block (40 weeks versus 52 weeks of active treatment) was used to calculate p-value.||||0.0012
92353949|NCT00806026|184613608|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-17.25|STANDARD_ERROR_OF_MEAN|4.332|<|0.0001|TWO_SIDED|95.0|-25.76|-8.74||This analysis was step 7 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pregabalin 300 mg versus placebo: Mixed model analysis was used to analyze SSQ-Subjective WASO score with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||-8.74|-25.76|<0.0001
92353950|NCT00806026|184613608|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.07|STANDARD_ERROR_OF_MEAN|4.408||0.8075|TWO_SIDED|95.0|-9.73|7.58||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.25 mg versus placebo: Mixed model analysis was used to analyze SSQ-Subjective WASO score with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||7.58|-9.73|0.8075
92353951|NCT00806026|184613608|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.57|STANDARD_ERROR_OF_MEAN|4.318||0.2906|TWO_SIDED|95.0|-13.05|3.91||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.5 mg versus placebo: Mixed model analysis was used to analyze SSQ-Subjective WASO score with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||3.91|-13.05|0.2906
92353952|NCT00806026|184613614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|3.93||0.7073|TWO_SIDED|95.0|-9.3|6.3||This analysis was step 8 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pregabalin 300 mg versus placebo: Mixed model analysis was used to analyze RLS-NDI with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||6.30|-9.30|0.7073
92353953|NCT00806026|184613614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|3.78||0.5299|TWO_SIDED|95.0|-5.1|9.9||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.25 mg versus placebo: Mixed model analysis was used to analyze RLS-NDI with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||9.9|-5.1|0.5299
92353954|NCT00806026|184613614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.9|STANDARD_ERROR_OF_MEAN|3.69||0.0354|TWO_SIDED|95.0|-15.2|-0.5||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.5 mg versus placebo: Mixed model analysis was used to analyze RLS-NDI with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||-0.5|-15.2|0.0354
92353955|NCT00806026|184613616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.28||0.0004|TWO_SIDED|95.0|-1.55|-0.45||This analysis was step 9 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pregabalin 300 mg versus placebo: Mixed model analysis was used to analyze limb pain-VAS with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||-0.45|-1.55|0.0004
92353956|NCT00806026|184613616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.282||0.1242|TWO_SIDED|95.0|-0.99|0.12||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.25 mg versus placebo: Mixed model analysis was used to analyze limb pain-VAS with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||0.12|-0.99|0.1242
92400948|NCT00525512|184692870|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.11||||0.0945||95.0|0.98|1.26||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.26|0.98|0.0945
92400949|NCT00525512|184692871|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.12||||0.0899||95.0|0.98|1.28||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.28|0.98|0.0899
92220476|NCT00804570|184341354|SUPERIORITY_OR_OTHER_LEGACY||GMR over Baseline relative to placebo|0.94||||0.012|TWO_SIDED|95.0|0.89|0.99|||Mixed Models Analysis|||||0.99|0.89|0.012
92220477|NCT00804570|184341355|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32||||0.392|TWO_SIDED|95.0|-1.05|0.41|||Mixed Models Analysis|||||0.41|-1.05|0.392
92220478|NCT00804570|184341356|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44||||0.185|TWO_SIDED|95.0|-1.1|0.21|||Mixed Models Analysis|||||0.21|-1.10|0.185
92353957|NCT00806026|184613616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.287||0.0553|TWO_SIDED|95.0|-1.12|0.01||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.5 mg versus placebo: Mixed model analysis was used to analyze limb pain-VAS with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||0.01|-1.12|0.0553
92353958|NCT01452789|184613633|SUPERIORITY||||||<|0.05|||||||van Elteren|||||||<0.05
92353959|NCT01452789|184613634|SUPERIORITY||||||<|0.05|||||||van Elteren|||||||<0.05
92353960|NCT01452789|184613635|SUPERIORITY||||||<|0.05|||||||Cochran-Mantel-Haenszel|||||||<0.05
92353961|NCT03733483|184613637|EQUIVALENCE|Maximum likelihood estimates in a repeated measures model were used to assess the effect of insufficient sleep on P1NP levels. Change in P1NP in response to insufficient sleep was assessed using values measured every two hours on two, 24-h profiles obtained at baseline and on night 6 of sleep restriction. Circadian rhythmicity was included in the repeated-measures model as diurnal variation has been documented in prior studies. Data are presented as estimate ± standard error of the estimate.||||||0.53|||||||Mixed Models Analysis|||||||0.53
92353962|NCT03733483|184613638|EQUIVALENCE|Maximum likelihood estimates in a repeated measures model were used to assess the effect of insufficient sleep on CTX levels. Change in CTX in response to insufficient sleep was assessed using values measured every two hours on two, 24-h profiles obtained at baseline and on night 6 of sleep restriction. Circadian rhythmicity was included in the repeated-measures model as diurnal variation has been documented in prior studies. Data are presented as estimate ± standard error of the estimate.||||||0.1|||||||Mixed Models Analysis|||||||0.10
92400950|NCT00525512|184692872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116|||<|0.0001||95.0|0.073|0.16||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.160|0.073|<0.0001
92220479|NCT00804570|184341357|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.25||||0.142|TWO_SIDED|95.0|-0.42|2.92|||ANCOVA|||||2.92|-0.42|0.142
92220480|NCT00804570|184341358|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48||||0.69|TWO_SIDED|95.0|-1.01|0.04||P-value is for desire to stop drinking at this time.|ANCOVA|||||0.04|-1.01|0.69
92220481|NCT00804570|184341358|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.545|TWO_SIDED|95.0|-0.85|0.45||P-value is for expectation of success in quitting alcohol.|ANCOVA|||||0.45|-0.85|0.545
92220482|NCT00804570|184341358|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48||||0.19|TWO_SIDED|95.0|-1.2|0.24||P-value is for difficulty to quit and remain abstinent.|ANCOVA|||||0.24|-1.20|0.190
92220483|NCT00804570|184341358|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04||||0.856|TWO_SIDED|95.0|-0.49|0.4||P-value is for goal related to alcohol use.|ANCOVA|||||0.40|-0.49|0.856
92220484|NCT00804570|184341359|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.77||||0.297|TWO_SIDED|95.0|-0.68|2.22|||Mixed Models Analysis|||||2.22|-0.68|0.297
92220485|NCT00804570|184341360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.46||||0.633|TWO_SIDED|95.0|-1.44|2.36|||Mixed Models Analysis|||||2.36|-1.44|0.633
92353963|NCT01927861|184613644|OTHER||Treatment difference|0.63|||<|0.0001|TWO_SIDED|95.0|0.38|0.88|||ANCOVA|||The change from baseline (week 0) in the height SDS after 104 weeks of treatment was analysed using an ANCOVA model with treatment as a fixed effect and baseline height SDS as a covariate.||0.88|0.38|< 0.0001
92353964|NCT00987935|184613712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.357|||||TWO_SIDED|95.0|0.802|2.296|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||2.296|0.802|
92353965|NCT00987935|184613713|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.213|||||TWO_SIDED|95.0|0.73|2.014|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||2.014|0.730|
92353966|NCT00987935|184613717|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.186|||||TWO_SIDED|95.0|0.728|1.932|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||1.932|0.728|
92353967|NCT00987935|184613718|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.593|1.489|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||1.489|0.593|
92353968|NCT02222181|184613728|SUPERIORITY_OR_OTHER|||||||0.23|||||||t-test, 1 sided|||||||0.23
92353969|NCT02222181|184613729|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92353970|NCT02222181|184613730|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 1 sided|||||||0.03
92353971|NCT02222181|184613731|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92353972|NCT02222181|184613732|SUPERIORITY_OR_OTHER|||||||0.025|||||||t-test, 1 sided|||||||0.025
92353973|NCT02222181|184613733|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92353974|NCT02222181|184613734|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92353975|NCT00754559|184613735|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Exact Binomial Test|||Null hypothesis: Proportion of participants reaching LDAS (≤ 3.2) at Week 24 equals (=) expected proportion of 42%.||||<0.001
92353976|NCT00728182|184613765|SUPERIORITY_OR_OTHER|||||||0.445||95.0|||||ANCOVA|Data were cubic root transformed and modelled with multiple linear regression.||Comparison of the summed volume of new FLAIR lesions in the NA-1 and placebo treated groups.||||0.445
92400951|NCT00525512|184692873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082||||0.0005||95.0|0.036|0.128||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.128|0.036|0.0005
92400952|NCT00525512|184692874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089||||0.0003||95.0|0.041|0.137||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.137|0.041|0.0003
92353977|NCT00728182|184613766|SUPERIORITY_OR_OTHER||Adjusted Incidence Rate Ratio|0.53||||0.018|TWO_SIDED|95.0|0.38|0.74|||Generalized linear model|With log link and negative bnomial distribution.||Comparison of the total number of new ischemic lesions on DWI for NA-1 versus placebo treated groups.||0.74|0.38|0.018
92161579|NCT02501811|184212229|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.493|TWO_SIDED|95.0|-0.056|0.033|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.033|-0.056|0.493
92220486|NCT00804570|184341363|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.77||||0.409|TWO_SIDED|95.0|-2.62|1.07||P-value is for supine systolic blood pressure.|Mixed Models Analysis|||||1.07|-2.62|0.409
92353978|NCT00728182|184613767|SUPERIORITY_OR_OTHER||Adjusted Incidence Rate Ratio|0.59||||0.048|TWO_SIDED|95.0|0.42|0.83|||Generalized linear model|With log link and negative binomial distribution.||Comparison of the total number of new FLAIR lesions in the NA-1 versus placebo treated groups.||0.83|0.42|0.048
92353979|NCT00728182|184613768|SUPERIORITY_OR_OTHER|||||||0.306||95.0|||||ANCOVA|Data were cubic root transformed and modelled with multiple linear regresion.||Comparison of the summed volume of new ischemic lesions on DWI.||||0.306
92353980|NCT00728182|184613769|SUPERIORITY_OR_OTHER||Relative Risk|1.0||||0.43|TWO_SIDED|95.0|0.9|1.1|||Chi-squared|||Number of patients obtaining a score on the NIHSS of 0-1 at Day 30.||1.1|0.9|0.43
92353981|NCT00728182|184613770|SUPERIORITY_OR_OTHER||Relative Risk|1.0||||1|TWO_SIDED|95.0|0.9|1.1|||Chi-squared|||Comparison of the number of patients with mRS scores of 0-2 at Day 30 for NA-1 and placebo treated groups.||1.1|0.9|1.00
92353982|NCT00728182|184613771|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANCOVA|||||||0.023
92353983|NCT00728182|184613772|SUPERIORITY_OR_OTHER||Adjusted Incidence Rate Ratio|0.36||||0.027|TWO_SIDED|95.0|0.17|0.73|||Adjusted Incidence Rate Ratio|||||0.73|0.17|0.027
92400953|NCT00525512|184692875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105|||<|0.0001||95.0|0.058|0.153||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.153|0.058|<0.0001
92161580|NCT02501811|184212229|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.926|TWO_SIDED|95.0|-0.053|0.039|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.039|-0.053|0.926
92220487|NCT00804570|184341363|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45||||0.452|TWO_SIDED|95.0|-1.63|0.73||P-value is for supine diastolic blood pressure.|Mixed Models Analysis|||||0.73|-1.63|0.452
92353984|NCT00728182|184613773|SUPERIORITY_OR_OTHER||Adjusted Incidence Rate Ratio|0.36||||0.046|TWO_SIDED|95.0|0.17|0.75|||Generalized linear model|||||0.75|0.17|0.046
92353985|NCT00728182|184613774|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANCOVA|||||||0.015
92353986|NCT00728182|184613775|SUPERIORITY_OR_OTHER||Relative Risk|1.5||||0.02|TWO_SIDED|95.0|1.1|2.0|||Chi-squared|||||2.0|1.1|0.02
92353987|NCT00728182|184613776|SUPERIORITY_OR_OTHER||Relative Risk|1.3||||0.18|TWO_SIDED|95.0|0.95|1.7|||Chi-squared|||||1.7|0.95|0.18
92353988|NCT03856177|184613777|OTHER|||||||0.071|||||||t-test, 2 sided|||||||.071
92353989|NCT01898091|184613778|SUPERIORITY_OR_OTHER|||||||0.84|||||||Wilcoxin rank sum test|||Simulations determined power to detect significant difference defined as a mean difference of 1 unit (MTS scale). Feasibility study provided proportion of patients in control and neem group with change scores of 0, 1, 2, 3, and 4 as (5%, 10%, 10%, 45% and 30%) and (15%, 20%, 30%, 25% and 10%), respectively. Simulated 10,000 trials using multinomial distributions by the percentages above, with 20 patients per group, provided 80% power to detect 0.9 unit difference using a one-sided alpha of 0.05.||||0.84
92353990|NCT00309244|184613779|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was set to meet regulatory requirement of 250 subjects per arm with 52-week data, resulting in \> 90% power for a non-inferiority test of the difference in 12-month change of HbA1c scores between treatment groups with non-inferiority margin of 0.4%, standard deviation of 1.2 and 1-sided alpha of 0.025. Allowing for a 25% drop-out rate, 677 subjects were randomized.|Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.085|||TWO_SIDED|95.0|-0.05|0.29|||ANCOVA|||||0.29|-0.05|
92353991|NCT00309244|184613780|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|0.41||0.0002|TWO_SIDED|95.0|-2.4|-0.7|||ANCOVA|||ANCOVA model with terms of pooled site and treatment as fixed effects and baseline weight as covariate||-0.7|-2.4|0.0002
92353992|NCT00309244|184613781|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.7|STANDARD_ERROR_OF_MEAN|5.9||0.0029|TWO_SIDED|95.0|-29.3|-6.1|||ANCOVA|||ANCOVA model with terms of pooled site and treatment as fixed effects and baseline fasting plasma glucose as covariate||-6.1|-29.3|0.0029
92353993|NCT00309244|184613782|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.774||||0.2793|TWO_SIDED|95.0|0.486|1.231|||Regression, Logistic|||logistic regression analysis with the terms of treatment and baseline HbA1c in the model||1.231|0.486|0.2793
92353994|NCT00309244|184613783|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.423|||<|0.001|TWO_SIDED|95.0|0.307|0.581|||Regression, Logistic||Model: Treatment + Site|||0.581|0.307|<0.001
92353995|NCT00309244|184613784|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.409||||0.0066|TWO_SIDED|95.0|0.215|0.78|||Regression, Logistic||Model: Treatment + Site|||0.780|0.215|0.0066
92353996|NCT00309244|184613785|SUPERIORITY_OR_OTHER|||||||0.0027|||||||Generalized Estimation Equation|Based on Poisson distribution||||||0.0027
92353997|NCT00309244|184613786|SUPERIORITY_OR_OTHER|||||||0.0591|||||||Generalized Estimating Equation|Based on Poission distribution||||||0.0591
92353998|NCT04223687|184613800|SUPERIORITY||||||<|0.01||||||a priori threshold for statistical significance, p\<0.05|Chi-squared|||||||<0.01
92353999|NCT04223687|184613801|SUPERIORITY||||||<|0.01||||||a priori threshold for statistical significance, p\<0.05|t-test, 2 sided|||||||<0.01
92354000|NCT04223687|184613802|SUPERIORITY|||||||0.03||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.03
92354001|NCT04223687|184613803|SUPERIORITY|||||||0.37||||||a priori threshold for statistical significance, p\<0.05|Chi-squared|||||||0.37
92354002|NCT04223687|184613804|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
92354003|NCT04223687|184613805|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
92400954|NCT00525512|184692876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.0005||95.0|0.04|0.141||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.141|0.040|0.0005
92220488|NCT00804570|184341364|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53||||0.456|TWO_SIDED|95.0|-1.93|0.87|||Mixed Models Analysis|||||0.87|-1.93|0.456
92354004|NCT04223687|184613806|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
92354005|NCT04223687|184613807|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance, p\<0.05|Chi-squared|||||||<0.001
92354006|NCT04223687|184613808|SUPERIORITY|||||||0.06||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.06
92354007|NCT04223687|184613809|SUPERIORITY|||||||0.37||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.37
92354008|NCT04223687|184613810|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
92354009|NCT04223687|184613811|SUPERIORITY|||||||0.42||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.42
92400955|NCT00525512|184692877|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.094||||0.0002||95.0|0.045|0.144||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.144|0.045|0.0002
92400956|NCT00525512|184692878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075||||0.0059||95.0|0.022|0.128||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.128|0.022|0.0059
92400957|NCT00525512|184692879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|||<|0.0001||95.0|0.11|0.198||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.198|0.110|<0.0001
92400958|NCT00525512|184692880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|||<|0.0001||95.0|0.117|0.208||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.208|0.117|<0.0001
92220489|NCT00804570|184341365|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.08||||0.081|TWO_SIDED|95.0|-4.41|0.26|||Mixed Models Analysis|||||0.26|-4.41|0.081
92220490|NCT00804570|184341366|SUPERIORITY_OR_OTHER_LEGACY|||||||0.122||95.0|||||Fisher Exact|||||||0.122
92220491|NCT00804570|184341367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||Fisher Exact|||||||0.002
92354010|NCT04223687|184613812|SUPERIORITY|||||||0.13||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.13
92354011|NCT04223687|184613813|SUPERIORITY||||||<|0.01||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.01
92354012|NCT02945046|184613820|OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.3||0.9093|TWO_SIDED|95.0|-2.72|2.42||Threshold for significance at 0.05 level.|ANCOVA|||||2.42|-2.72|0.9093
92354013|NCT02945046|184613820|OTHER||LS mean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.29||0.1345|TWO_SIDED|95.0|-4.49|0.61||Threshold for significance at 0.05 level.|ANCOVA|||||0.61|-4.49|0.1345
92354014|NCT03907579|184613840|SUPERIORITY|||||||0.0001|||||||Wilcoxon Signed Rank Test|z= -3.861||||||0.0001
92354015|NCT03319654|184613843|OTHER|A generalized estimating equation (GEE)-model with an exchangeable correlation structure and a logit link function was used to analyze the probability of live birth and clinical pregnancy respectively. All IUI cycles are used in this model with correction for the fact that cycles of the same couple are not independent.|Odds Ratio (OR)|0.94||||0.04|TWO_SIDED|95.0|0.9|0.9985|||GEE-model|||The null hypothesis is: there is no association between % total Sperm DNA Fragmentation and live birth.||0.9985|0.90|0.04
92354016|NCT03319654|184613843|OTHER||Area under the ROC curve|0.576|||>|0.05|TWO_SIDED||||||Receiver Operating Characteristics curve|||||||>0.05
92354017|NCT04679818|184613850|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.895|TWO_SIDED|99.0|-1.43|1.58|||Mixed Models Analysis|||||1.58|-1.43|0.895
92354018|NCT04679818|184613851|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.228|TWO_SIDED|99.0|-2.66|0.99|||Mixed Models Analysis|||||0.99|-2.66|0.228
92354019|NCT04679818|184613852|SUPERIORITY||Risk Ratio (RR)|0.81||||0.565|TWO_SIDED|95.0|0.4|1.65|||generalized linear mixed effects model|||||1.65|0.40|0.565
92354020|NCT04679818|184613853|SUPERIORITY||Risk Ratio (RR)|1.48||||0.379|TWO_SIDED|95.0|0.62|3.54|||Generalized linear mixed effects model|||||3.54|0.62|0.379
92354021|NCT04679818|184613854|SUPERIORITY||Median Difference (Final Values)|0.54||||0.039|TWO_SIDED|95.0|0.3|0.97|||Wilcoxon (Mann-Whitney)|||||0.97|0.30|0.039
92354022|NCT04679818|184613855|NON_INFERIORITY|We tested noninferiority of NOL to routine care on the Ramsey score using an a priori-defined noninferiority delta of 1.2 for the proportional odds ratio; NOL would be deemed noninferior if the upper confidence limit for the odds ratio was \<1.2.|Odds Ratio (OR)|0.8||||0.169|TWO_SIDED|95.0|0.35|1.82|||proportional odds model|||||1.82|0.35|0.169
92354023|NCT04679818|184613856|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.967|TWO_SIDED|95.0|0.63|1.63|||Cox proportional hazards regression|||||1.63|0.63|0.967
92354024|NCT02205359|184613861|SUPERIORITY||Hazard Ratio (HR)|0.888|STANDARD_ERROR_OF_MEAN|0.067||0.077|TWO_SIDED|95.0|0.779|1.013|||Regression, Cox|Stratified by NYHA class and with investigational site as a random effect|Stratified by NYHA class and with investigational site as a random effect, Standard Error reported on log hazard scale|||1.013|0.779|0.077
92354025|NCT02205359|184613862|SUPERIORITY||Hazard Ratio (HR)|0.881|STANDARD_ERROR_OF_MEAN|0.081||0.12|TWO_SIDED|95.0|0.752|1.032|||Regression, Cox|Stratified by NYHA class and with investigational site as a random effect|Stratified by NYHA class and with investigational site as a random effect, Standard Error reported on log hazard scale|||1.032|0.752|0.12
92354026|NCT02205359|184613863|SUPERIORITY||Hazard Ratio (HR)|0.906|STANDARD_ERROR_OF_MEAN|0.09||0.28|TWO_SIDED|95.0|0.759|1.082|||Regression, Cox|Stratified by NYHA class and with investigational site as a random effect|Stratified by NYHA class and with investigational site as a random effect, Standard Error reported on log hazard scale|||1.082|0.759|0.28
92400959|NCT00525512|184692881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|||<|0.0001||95.0|0.099|0.192||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.192|0.099|<0.0001
92400960|NCT00525512|184692882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|||<|0.0001||95.0|0.077|0.176||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.176|0.077|<0.0001
92400961|NCT00525512|184692883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|||<|0.0001||95.0|0.083|0.185||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.185|0.083|<0.0001
92400962|NCT00525512|184692884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.149|||<|0.0001||95.0|0.097|0.202||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.202|0.097|<0.0001
92161581|NCT02501811|184212229|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.904|TWO_SIDED|95.0|-0.041|0.047|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.047|-0.041|0.904
92354027|NCT02205359|184613864|SUPERIORITY|Endpoint for statistical analysis is the proportion Improved.|Odds Ratio (OR)|0.888|STANDARD_ERROR_OF_MEAN|0.074||0.11|TWO_SIDED|95.0|0.768|1.026|||Regression, Logistic|Stratified by NYHA class and with investigational site as a random effect|Standard Error is on log-odds ratio scale|||1.026|0.768|0.11
92354028|NCT02205359|184613865|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.89|TWO_SIDED|95.0|0.85|1.16|||Regression, Cox|Stratified by NYHA class and with investigational site as a random effect||||1.16|0.85|0.89
92354029|NCT02205359|184613866|SUPERIORITY||Difference in mean change from baseline|-0.07||||0.88|TWO_SIDED|95.0|-1.03|0.89|||ANCOVA|Stratified by NYHA class and with investigational site as a random effect||||0.89|-1.03|0.88
92354030|NCT02205359|184613867|SUPERIORITY||Difference in mean change from baseline|0.0013||||0.75|TWO_SIDED|95.0|-0.0068|0.0094|||ANCOVA|Stratified by NYHA class and with investigational site as a random effect||||0.0094|-0.0068|0.75
92354031|NCT02205359|184613868|SUPERIORITY||rate ratio|1.15||||0.52|TWO_SIDED|95.0|0.75|1.75|||negative binomial regression|Stratified by NYHA class||||1.75|0.75|0.52
92354032|NCT00480025|184613874|SUPERIORITY|RMF included: 1) Number of chemotherapy cycles received (1, 2 vs. 3, 4), if any; 2) Pathological stage of the disease (IB vs. II vs. IIIA); 3) Type of lymph-node sampling (minimal lymph-node sampling vs. systematic radical mediastinal lymphadenectomy); 4) ECOG performance status randomization (0, 1 vs. 2); 5) Smoking status ( 100 cigarettes a lifetime vs. \> 100 cigarettes and current smoker vs. \>100 cigarettes and past smoker).|Treatment Efficacy|1.024||||0.7379|TWO_SIDED|95.0|0.891|1.177||2-sided p-value of Likelihood Ratio test from RMF-adjusted Cox regression, Efron method used to handle ties.|Regression, Cox|Overall population objective reached if p-value \< 2.56%/4% in absence/presence of statistically significant effect in the No-CT population.||Analysis compared DFS PYAR between groups for period from 1st treatment dose to DLP. A Cox model was used to evaluate treatment efficacy (TE). TE was calculated as PYAR in GSK1572932 Group (PYAR1) divided by PYAR in Placebo Group (PYAR2), and weighed for adjustment factors. This comparison in all patients (overall population) also included taking into account stratification by previous CT vs. No-CT treatment and weighing using randomization-minimization factors (RMF) as regressors.||1.177|0.891|0.7379
92161582|NCT02501811|184212229|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.476|TWO_SIDED|95.0|-0.035|0.049|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.049|-0.035|0.476
92161583|NCT02501811|184212229|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.515|TWO_SIDED|95.0|-0.04|0.048|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.048|-0.040|0.515
92161584|NCT02501811|184212230|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.85||0.569|TWO_SIDED|95.0|-1.77|1.687|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.687|-1.770|0.569
92161585|NCT02501811|184212230|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.8||0.767|TWO_SIDED|95.0|-1.792|1.457|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.457|-1.792|0.767
92276344|NCT00408876|184454663|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.687||95.0|-0.3|0.2|||t-test, 2 sided|||||0.20|-0.30|0.687
92354033|NCT00480025|184613875|SUPERIORITY|RMF taken into account included: 1) Number of chemotherapy cycles received (1, 2 vs. 3, 4), if any; 2) Pathological stage of the disease (IB vs. II vs. IIIA); 3) Type of lymph-node sampling (minimal lymph-node sampling vs. systematic radical mediastinal lymphadenectomy); 4) ECOG performance status randomization (0, 1 vs. 2); 5) Smoking status ( 100 cigarettes a lifetime vs. \> 100 cigarettes and current smoker vs. \> 100 cigarettes and past smoker).|Treatment Efficacy|0.97||||0.7572|TWO_SIDED|95.0|0.797|1.179||2-sided p-value of Likelihood Ratio test from RMF-adjusted Cox regression, Efron method used to handle ties.|Regression, Cox|No-CT population objective reached if p-value \< 2.56%/4% in absence/presence of statistically significant effect in the No-CT population.||Analysis compared DFS PYAR between groups for the period from 1st treatment dose to DLP. A Cox model was used to evaluate treatment efficacy (TE). TE was calculated as PYAR in GSK1572932 No-CT Group (PYAR1) divided by PYAR in Placebo No-CT Group (PYAR2) and weighed for adjustment factors. This comparison in all patients (overall population) also included taking into account weighing using randomization-minimization factors (RMF) as regressors.||1.179|0.797|0.7572
92354034|NCT03389750|184613906|EQUIVALENCE|An F-test was used to assess for significant differences among the 13 dose conditions.||||||0.0001|||||||ANOVA|F = 7.06 (DF=12)||||||.0001
92354035|NCT06868667|184613914|OTHER||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.11|1.52|||||Hazard ratio was estimated using a Cox Proportional Hazards model stratified by the number of lines of prior therapy, prior bortezomib and revised international staging system (R-ISS) at screening, with a covariate of treatment.|||1.52|0.11|
92354036|NCT05058456|184613966|OTHER|The primary safety hypothesis is: H0: ΠS \> PGS vs. HA: ΠS ≤ PGS where ΠS is the proportion of patients who experience a MAE within 30 days of procedure and PGS is the Safety Performance Goal. All subjects in whom a Mini S IVL catheter was introduced into the vasculature will be included in the analysis (i.e., it is an intent-to-treat analysis). The hypothesis will be tested using a one-sided Exact Binomial Test at α=0.025.|||||<|0.025|||||||Fisher Exact|||||||<.025
92354037|NCT05058456|184613967|OTHER|The primary effectiveness hypothesis is: H0: ΠE ≤ PGE vs. HA: ΠE \> PGE, where ΠE is the proportion of target lesions with technical success and PG is the effectiveness Performance Goal. One-sided statistical significance level of 0.025 = α. The hypothesis will be tested using a one-sided Exact Binomial Test.|||||<|0.025|||||||Fisher Exact|||||||<.025
92354038|NCT03931785|184613975|SUPERIORITY||Least squares (LS) mean difference|0.08||||0.7467|TWO_SIDED|95.0|-0.42|0.58|||MMRM||MD-7246 minus placebo|||0.58|-0.42|0.7467
92354039|NCT03931785|184613975|SUPERIORITY||LS mean difference|0.43||||0.0941|TWO_SIDED|95.0|-0.07|0.93|||MMRM||MD-7246 minus placebo|||0.93|-0.07|0.0941
92354040|NCT03931785|184613975|SUPERIORITY||LS mean difference|0.06||||0.8098|TWO_SIDED|95.0|-0.44|0.56|||MMRM||MD-7246 minus placebo|||0.56|-0.44|0.8098
92161586|NCT02501811|184212230|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.71||0.261|TWO_SIDED|95.0|-1.965|0.921|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.921|-1.965|0.261
92354041|NCT03931785|184613976|SUPERIORITY||Difference in Responder Rate|1.0|||||TWO_SIDED|95.0|-12.9|15.0|||||Difference in responder rate (MD-7246 - placebo). 95% confidence intervals (CIs) for differences in responder rates were obtained using the normal approximation to the binomial distribution.|||15.0|-12.9|
92354042|NCT03931785|184613976|SUPERIORITY||Difference in Responder Rate|-11.3|||||TWO_SIDED|95.0|-25.3|2.6|||||Difference in responder rate (MD-7246 - placebo). 95% CIs for differences in responder rates were obtained using the normal approximation to the binomial distribution.|||2.6|-25.3|
92354043|NCT03931785|184613976|SUPERIORITY||Difference in Responder Rate|-7.2|||||TWO_SIDED|95.0|-21.2|6.8|||||Difference in responder rate (MD-7246 - placebo). 95% CIs for differences in responder rates were obtained using the normal approximation to the binomial distribution.|||6.8|-21.2|
92354044|NCT03931785|184613976|SUPERIORITY||Odds Ratio (OR)|1.043||||0.8852|TWO_SIDED|95.0|0.591|1.839|||Cochran-Mantel-Haenszel||Odds ratio for response (MD-7246 : placebo)|||1.839|0.591|0.8852
92354045|NCT03931785|184613976|SUPERIORITY||Odds Ratio (OR)|0.634||||0.1152|TWO_SIDED|95.0|0.36|1.117|||Cochran-Mantel-Haenszel||Odds ratio for response (MD-7246 : placebo)|||1.117|0.360|0.1152
92354046|NCT03931785|184613976|SUPERIORITY||Odds Ratio (OR)|0.749||||0.3157|TWO_SIDED|95.0|0.425|1.317|||Cochran-Mantel-Haenszel||Odds ratio for response (MD-7246 : placebo)|||1.317|0.425|0.3157
92400963|NCT00525512|184692885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|||<|0.0001||95.0|0.077|0.183||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.183|0.077|<0.0001
92161587|NCT02501811|184212230|SUPERIORITY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.86||0.587|TWO_SIDED|95.0|-1.261|2.222|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||2.222|-1.261|0.587
92161588|NCT02501811|184212230|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.93||0.994|TWO_SIDED|95.0|-1.763|2.014|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||2.014|-1.763|0.994
92161589|NCT02501811|184212230|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.81||0.639|TWO_SIDED|95.0|-1.993|1.283|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.283|-1.993|0.639
92276345|NCT00408876|184454664|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.972||95.0|-0.48|0.5|||t-test, 2 sided|||||0.50|-0.48|0.972
92161590|NCT02501811|184212231|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.42||0.992|TWO_SIDED|95.0|-2.437|3.319|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||3.319|-2.437|0.992
92276346|NCT00408876|184454664|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.99||95.0|-0.4|0.4|||t-test, 2 sided|||||0.40|-0.40|0.990
92276347|NCT00408876|184454664|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.793||95.0|-0.35|0.46|||t-test, 2 sided|||||0.46|-0.35|0.793
92354047|NCT03052257|184613977|SUPERIORITY||Median Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.15|0.3|||Regression, Linear|||||0.30|0.15|<0.0001
92354048|NCT00378560|184614108|SUPERIORITY_OR_OTHER||Percent Relative Risk Reduction|87.6|||||TWO_SIDED|95.0|59.2|97.6|||||Binomial probability conditional on the fixed number of events.|||97.6|59.2|
92354049|NCT00378560|184614109|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92354050|NCT00378560|184614110|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92354051|NCT00378560|184614111|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92354052|NCT00378560|184614112|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92354053|NCT02070380|184614115|SUPERIORITY_OR_OTHER||∆Percentage MH better minus DM better|47.6|||<|0.0001|TWO_SIDED|95.0|34.5|60.7||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed-rank test.||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus postdose paired global assessment."||60.7|34.5|<0.0001
92354054|NCT02070380|184614115|SUPERIORITY_OR_OTHER||∆Percentage MH better minus DM better|7.3||||0.1295|TWO_SIDED|95.0|-2.0|16.5||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed-rank test.||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus post-dose paired global assessment."||16.5|-2.0|0.1295
92354055|NCT02070380|184614115|SUPERIORITY_OR_OTHER||∆Percentage MH better minus DM better|79.0|||<|0.0001|TWO_SIDED|95.0|67.1|91.0||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus postdose paired global assessment"||91.0|67.1|<0.0001
92400964|NCT00525512|184692886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.217|||<|0.0001||95.0|0.127|0.307||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.307|0.127|<0.0001
92400965|NCT00525512|184692887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157||||0.0019||95.0|0.058|0.255||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.255|0.058|0.0019
92400966|NCT00525512|184692888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182||||0.0006||95.0|0.078|0.286||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.286|0.078|0.0006
92354056|NCT02070380|184614115|SUPERIORITY_OR_OTHER||Percentage MH better minus DM better|-2.1||||0.7503|TWO_SIDED|95.0|-15.0|10.7||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus post-dose paired global assessment."||10.7|-15.0|0.7503
92220492|NCT00804570|184341368|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69||||0.235|TWO_SIDED|95.0|-1.82|0.45||P-value is for orthostatic systolic blood pressure.|Mixed Models Analysis|||||0.45|-1.82|0.235
92354057|NCT02070380|184614115|SUPERIORITY_OR_OTHER||∆Percentage MH better minus DM better|66.1|||<|0.0001|TWO_SIDED|95.0|52.8|79.5||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus post-dose paired global assessment"||79.5|52.8|<0.0001
92354058|NCT02070380|184614115|SUPERIORITY_OR_OTHER||∆Percentage MH better minus DM better|-2.1||||0.7297|TWO_SIDED|95.0|-13.8|9.6||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus post-dose paired global assessment."||9.6|-13.8|0.7297
92354059|NCT02070380|184614116|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed-rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
92354060|NCT02070380|184614116|SUPERIORITY_OR_OTHER|||||||0.8238||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed-rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus post-dose paired global assessment."||||0.8238
92354061|NCT02070380|184614116|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
92354062|NCT02070380|184614116|SUPERIORITY_OR_OTHER|||||||0.4597||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus postdose paired global assessment."||||0.4597
92354063|NCT02070380|184614116|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
92354064|NCT02070380|184614116|SUPERIORITY_OR_OTHER|||||||0.8145||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus postdose paired global assessment."||||0.8145
92354065|NCT02070380|184614117|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus postdose paired global assessment."||||0.0020
92354066|NCT02070380|184614117|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus post-dose paired global assessment."||||1.0000
92354067|NCT02070380|184614117|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus postdose paired global assessment."||||0.0001
92354068|NCT02070380|184614117|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus postdose paired global assessment."||||1.0000
92220493|NCT00804570|184341368|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31||||0.4|TWO_SIDED|95.0|-1.05|0.42||P-value is for orthostatic diastolic blood pressure.|Mixed Models Analysis|||||0.42|-1.05|0.400
92220494|NCT00804570|184341369|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.74||||0.077|TWO_SIDED|95.0|-0.08|1.57|||Mixed Models Analysis|||||1.57|-0.08|0.077
92354069|NCT02070380|184614117|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
92354070|NCT02070380|184614117|SUPERIORITY_OR_OTHER|||||||0.5811|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus postdose paired global assessment."||||0.5811
92354071|NCT02070380|184614118|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
92354072|NCT02070380|184614118|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus post-dose paired global assessment."||||1.0000
92354073|NCT02070380|184614118|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
92161591|NCT02501811|184212231|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|1.22||0.862|TWO_SIDED|95.0|-2.278|2.643|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||2.643|-2.278|0.862
92161592|NCT02501811|184212231|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|1.31||0.217|TWO_SIDED|95.0|-3.846|1.443|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||1.443|-3.846|0.217
92354074|NCT02070380|184614118|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus postdose paired global assessment."||||1.0000
92354075|NCT02070380|184614118|SUPERIORITY_OR_OTHER|||||||0.0023|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus postdose paired global assessment."||||0.0023
92354076|NCT02070380|184614118|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus postdose paired global assessment."||||1.0000
92354077|NCT02070380|184614119|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
92354078|NCT02070380|184614119|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus post-dose paired global assessment."||||1.0000
92354079|NCT02070380|184614119|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
92354080|NCT02070380|184614119|SUPERIORITY_OR_OTHER|||||||0.7503|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus postdose paired global assessment."||||0.7503
92354081|NCT02070380|184614119|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
92354082|NCT02070380|184614119|SUPERIORITY_OR_OTHER|||||||0.5983|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.05 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus postdose paired global assessment."||||0.5983
92354083|NCT02070380|184614120|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||<0.0001
92354084|NCT02070380|184614120|SUPERIORITY_OR_OTHER|||||||0.6898|||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||0.6898
92354085|NCT02070380|184614120|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect.||||||<0.0001
92354086|NCT02070380|184614120|SUPERIORITY_OR_OTHER|||||||0.1156|||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||0.1156
92354087|NCT02070380|184614120|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92354088|NCT02070380|184614120|SUPERIORITY_OR_OTHER|||||||0.7726|||||||Mixed Models Analysis|||||||0.7726
92354089|NCT02070380|184614121|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||0.0002
92354090|NCT02070380|184614121|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||<0.0001
92354091|NCT02070380|184614121|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||<0.0001
92354092|NCT02070380|184614121|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||<0.0001
92354093|NCT02070380|184614121|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||<0.0001
92354094|NCT02070380|184614121|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||0.0003
92354095|NCT03850431|184614122|OTHER||Odds Ratio (OR)|1.139||||0.145|TWO_SIDED|95.0|0.956|1.357|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.357|0.956|0.145
92161593|NCT02501811|184212231|SUPERIORITY||Mean Difference (Final Values)|1.64|STANDARD_ERROR_OF_MEAN|1.47||0.327|TWO_SIDED|95.0|-1.325|4.611|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||4.611|-1.325|0.327
92400967|NCT00525512|184692889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.234|||<|0.0001||95.0|0.13|0.339||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.339|0.130|<0.0001
92400968|NCT00525512|184692890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161||||0.009||95.0|0.04|0.281||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.281|0.040|0.009
92400969|NCT00525512|184692891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212||||0.0002||95.0|0.102|0.322||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.322|0.102|0.0002
92400970|NCT00525512|184692892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.241|||<|0.0001||95.0|0.128|0.355||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.355|0.128|<0.0001
92400971|NCT00525512|184692893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.277|||<|0.0001||95.0|0.179|0.375||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.375|0.179|<0.0001
92161594|NCT02501811|184212231|SUPERIORITY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|1.39||0.859|TWO_SIDED|95.0|-2.551|3.068|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||3.068|-2.551|0.859
92354096|NCT03850431|184614122|OTHER||Odds Ratio (OR)|1.11||||0.298|TWO_SIDED|95.0|0.912|1.35|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.35|0.912|0.298
92354097|NCT03850431|184614122|OTHER||Odds Ratio (OR)|1.178||||0.127|TWO_SIDED|95.0|0.955|1.452|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.452|0.955|0.127
92354098|NCT03850431|184614122|OTHER||Odds Ratio (OR)|1.117||||0.286|TWO_SIDED|95.0|0.911|1.37|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.37|0.911|0.286
92161595|NCT02501811|184212231|SUPERIORITY||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|1.27||0.338|TWO_SIDED|95.0|-3.952|1.184|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||1.184|-3.952|0.338
92354099|NCT03850431|184614122|OTHER||Odds Ratio (OR)|1.179||||0.183|TWO_SIDED|95.0|0.925|1.504|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.504|0.925|0.183
92354100|NCT03850431|184614122|OTHER||Odds Ratio (OR)|1.2||||0.209|TWO_SIDED|95.0|0.903|1.595|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.595|0.903|0.209
92354101|NCT03850431|184614122|OTHER||Odds Ratio (OR)|1.144||||0.463|TWO_SIDED|95.0|0.799|1.638|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.638|0.799|0.463
92354102|NCT03850431|184614122|OTHER||Odds Ratio (OR)|1.331||||0.074|TWO_SIDED|95.0|0.972|1.822|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.822|0.972|0.074
92354103|NCT03850431|184614122|OTHER||Odds Ratio (OR)|1.169||||0.306|TWO_SIDED|95.0|0.867|1.577|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.577|0.867|0.306
92354104|NCT03850431|184614122|OTHER||Odds Ratio (OR)|1.15||||0.373|TWO_SIDED|95.0|0.845|1.565|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.565|0.845|0.373
92400972|NCT00525512|184692894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.325|||<|0.0001||95.0|0.226|0.425||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.425|0.226|<0.0001
92161596|NCT02501811|184212232|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.71||0.157|TWO_SIDED|95.0|-2.456|0.411|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.411|-2.456|0.157
92276348|NCT00408876|184454664|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.981||95.0|-0.5|0.49|||t-test, 2 sided|||||0.49|-0.50|0.981
92354105|NCT03850431|184614123|OTHER||Odds Ratio (OR)|0.923||||0.153|TWO_SIDED|95.0|0.826|1.03|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.03|0.826|0.153
92354106|NCT03850431|184614123|OTHER||Odds Ratio (OR)|0.911||||0.252|TWO_SIDED|95.0|0.777|1.068|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.068|0.777|0.252
92354107|NCT03850431|184614123|OTHER||Odds Ratio (OR)|0.941||||0.413|TWO_SIDED|95.0|0.815|1.088|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.088|0.815|0.413
92354108|NCT03850431|184614123|OTHER||Odds Ratio (OR)|0.946||||0.41|TWO_SIDED|95.0|0.83|1.079|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.079|0.83|0.41
92354109|NCT03850431|184614123|OTHER||Odds Ratio (OR)|0.887||||0.11|TWO_SIDED|95.0|0.766|1.027|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.027|0.766|0.11
92400973|NCT00525512|184692895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.353|||<|0.0001||95.0|0.245|0.461||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.461|0.245|<0.0001
92400974|NCT00525512|184692896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.259|||<|0.0001||95.0|0.154|0.365||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.365|0.154|<0.0001
92400975|NCT00525512|184692897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||<|0.0001||95.0|0.194|0.406||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.406|0.194|<0.0001
92400976|NCT00525512|184692898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.254|||<|0.0001||95.0|0.144|0.364||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.364|0.144|<0.0001
92400977|NCT00525512|184692899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.333|||<|0.0001||95.0|0.209|0.456||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.456|0.209|<0.0001
92400978|NCT00525512|184692900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.1131||95.0|-0.72|0.08||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.08|-0.72|0.1131
92354110|NCT03850431|184614123|OTHER||Odds Ratio (OR)|0.833||||0.14|TWO_SIDED|95.0|0.654|1.062|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.062|0.654|0.14
92354111|NCT03850431|184614123|OTHER||Odds Ratio (OR)|0.882||||0.404|TWO_SIDED|95.0|0.657|1.184|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.184|0.657|0.404
92354112|NCT03850431|184614123|OTHER||Odds Ratio (OR)|0.743||||0.072|TWO_SIDED|95.0|0.538|1.027|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.027|0.538|0.072
92354113|NCT03850431|184614123|OTHER||Odds Ratio (OR)|0.778||||0.057|TWO_SIDED|95.0|0.6|1.008|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.008|0.6|0.057
92354114|NCT03850431|184614123|OTHER||Odds Ratio (OR)|0.932||||0.637|TWO_SIDED|95.0|0.697|1.247|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.247|0.697|0.637
92354115|NCT00337194|184614128|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Chi-squared|||||||0.06
92354116|NCT00337194|184614129|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0
92354117|NCT00159874|184614152|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.02|STANDARD_ERROR_OF_MEAN|6.1||0.253|TWO_SIDED|95.0|-19.13|5.09|||ANCOVA||Least square mean difference of -7.02 was calculated as ' Sildenafil Medium Dose - Low Dose'|Analyses were performed using analysis of covariance with etiology, weight, day of assessment and baseline peak VO2 as the covariates.||5.09|-19.13|0.253
92161597|NCT02501811|184212232|SUPERIORITY||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.9||0.428|TWO_SIDED|95.0|-2.798|0.859|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.859|-2.798|0.428
92161598|NCT02501811|184212232|SUPERIORITY||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.73||0.382|TWO_SIDED|95.0|-0.83|2.093|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||2.093|-0.83|0.382
92354118|NCT00159874|184614152|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.84|STANDARD_ERROR_OF_MEAN|5.92||0.1|TWO_SIDED|95.0|-21.6|1.93|||ANCOVA||Least square mean difference of -9.84 was calculated as ' Sildenafil High Dose - Low Dose'|Analyses were performed using analysis of covariance with etiology, weight, day of assessment and baseline peak VO2 as the covariates.||1.93|-21.60|0.100
92354119|NCT00159874|184614152|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.82|STANDARD_ERROR_OF_MEAN|6.01||0.64|TWO_SIDED|95.0|-14.75|9.11|||ANCOVA||Least square mean difference of -2.82 was calculated as ' Sildenafil High Dose - Medium Dose'|Analyses were performed using analysis of covariance with etiology, weight, day of assessment and baseline peak VO2 as the covariates.||9.11|-14.75|0.640
92354120|NCT01104870|184614169|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED|||||Primary comparisons are between Dose Group 1 \& Dose Group 3 and Dose Group 1 \& Dose Group 2. The study is not powered to test for a difference between Dose Group 2 \& Dose Group 3.|Wilcoxon (Mann-Whitney)|||Peak total pulmonary resistance index (TPRI) is defined as the TPRI value observed during exercise at the highest matching wattage achieved at both Baseline and Week 12. Where peak wattage cannot be matched, the closest higher wattage will be chosen for comparison.||||0.95
92354121|NCT01104870|184614169|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED|||||Primary comparisons are between Dose Group 1 \& Dose Group 3 and Dose Group 1 \& Dose Group 2. The study is not powered to test for a difference between Dose Group 2 \& Dose Group 3.|Wilcoxon (Mann-Whitney)|||Peak total pulmonary resistance index (TPRI) is defined as the TPRI value observed during exercise at the highest matching wattage achieved at both Baseline and Week 12. Where peak wattage cannot be matched, the closest higher wattage will be chosen for comparison.||||0.27
92354122|NCT05463705|184614183|EQUIVALENCE|We estimated that 178 providers caring for 1,249 eligible patients would provide 80% power to observe an 11 percentage-point difference in prescribing rates between each intervention arm and control, assuming a control arm prescribing rate of 30%, an ICC of 0.07 (estimated based on prior studies in this system), an average of 7 patients per provider, and a type I error rate of 5%.|Odds Ratio (OR)|1.31|||||TWO_SIDED|95.0|0.88|1.96||||||||1.96|0.88|
92354123|NCT05463705|184614183|EQUIVALENCE|We estimated that 178 providers caring for 1,249 eligible patients would provide 80% power to observe an 11 percentage-point difference in prescribing rates between each intervention arm and control, assuming a control arm prescribing rate of 30%, an ICC of 0.07 (estimated based on prior studies in this system),72,73 an average of 7 patients per provider, and a type I error rate of 5%.|Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.66|1.52||||||||1.52|0.66|
92354124|NCT05463705|184614184|SUPERIORITY|We estimated that 178 providers caring for 1,249 eligible patients would provide 80% power to observe an 11 percentage-point difference in prescribing rates between each intervention arm and control, assuming a control arm prescribing rate of 30%, an ICC of 0.07 (estimated based on prior studies in this system), an average of 7 patients per provider, and a type I error rate of 5%.|Odds Ratio (OR)|1.17|||||TWO_SIDED|95.0|0.83|1.61||||||||1.61|0.83|
92354125|NCT05463705|184614184|EQUIVALENCE|We estimated that 178 providers caring for 1,249 eligible patients would provide 80% power to observe an 11 percentage-point difference in prescribing rates between each intervention arm and control, assuming a control arm prescribing rate of 30%, an ICC of 0.07 (estimated based on prior studies in this system), an average of 7 patients per provider, and a type I error rate of 5%.|Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.64|1.3||||||||1.30|0.64|
92354126|NCT05463705|184614185|SUPERIORITY||Difference in HbA1c %|0.18|||||TWO_SIDED|95.0|-0.07|0.43||||||||0.43|-0.07|
92354127|NCT05463705|184614185|SUPERIORITY||Difference in HbA1c %|0.06|||||TWO_SIDED|95.0|-0.22|0.34||||||||0.34|-0.22|
92354128|NCT00276380|184614199|OTHER||Odds Ratio (OR)|0.83||||0.52|TWO_SIDED|95.0|0.46|1.48|||Cochran-Mantel-Haenszel||The homogeneity of the Odds Ratio (OR) across centres was assessed by the Breslow Day test.|The association between treatment and response after adjustment for the pooled centres was analysed using a Cochran-Mantel-Haenszel test.||1.48|0.46|0.52
92354129|NCT00276380|184614200|OTHER|Comparison of treatment effect at Day 28|Odds Ratio (OR)|0.86||||0.623|TWO_SIDED|95.0|0.47|1.57|||Cochran-Mantel-Haenszel||The homogeneity of the Odds Ratio (OR) across centres was assessed by the Breslow Day test.|The association between treatment and response after adjustment for the pooled centres was analysed using a Cochran-Mantel-Haenszel test.||1.57|0.47|0.623
92161599|NCT02501811|184212232|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|0.8||0.056|TWO_SIDED|95.0|-3.255|-0.052|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||-0.052|-3.255|0.056
92354130|NCT00276380|184614200|OTHER|Comparison of treatment effect at Day 84|Odds Ratio (OR)|0.74||||0.3|TWO_SIDED|95.0|0.42|1.3|||Cochran-Mantel-Haenszel||The homogeneity of the Odds Ratio (OR) across centres was assessed by the Breslow Day test.|The association between treatment and response after adjustment for the pooled centres was analysed using a Cochran-Mantel-Haenszel test.||1.3|0.42|0.3
92354131|NCT00276380|184614202|OTHER|||||||0.207||||||Treatment effect was derived using a parametric analysis of covariance (ANCOVA) with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 28||||0.207
92354132|NCT00276380|184614202|OTHER|||||||0.59||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 84||||0.590
92354133|NCT00276380|184614202|OTHER|Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.||||||0.814|||||||ANCOVA|||Comparison of treatment effect at Day 168||||0.814
92354134|NCT00276380|184614203|OTHER|||||||0.24||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 28||||0.240
92354135|NCT00276380|184614203|OTHER|||||||0.441||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 84||||0.441
92354136|NCT00276380|184614203|OTHER|||||||0.645||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 168||||0.645
92354137|NCT00276380|184614204|OTHER|||||||0.623||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 28||||0.623
92354138|NCT00276380|184614204|OTHER|||||||0.338||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 84||||0.338
92354139|NCT00276380|184614204|OTHER|||||||0.828||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates|ANCOVA|||Comparison of treatment effect at Day 168||||0.828
92354140|NCT03071965|184614218|SUPERIORITY||Median Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.0881||0.5455|TWO_SIDED|95.0|-0.226|0.12|||Mixed Models Analysis|||||0.120|-0.226|0.5455
92354141|NCT03654326|184614237|SUPERIORITY||Difference in Least Squares Mean|-0.5||||0.066|TWO_SIDED|95.0|-1.01|0.03||Based on the longitudinal analysis of covariance (ANCOVA) model including factors for average pelvic pain scores at baseline cycle, stratum, treatment, cycle, interaction of stratum-by-cycle, and the interaction of treatment-by-cycle as covariates|ANCOVA|||||0.03|-1.01|0.066
92354142|NCT03654326|184614238|OTHER|Difference in percentage of participants who experienced one or more adverse events|Difference in % vs Placebo|17.7|||||TWO_SIDED|95.0|3.4|31.3|||||Based on Miettinen \& Nurminen method|||31.3|3.4|
92354143|NCT03654326|184614239|OTHER|Difference in percentage of participants who discontinued study drug due to an adverse event|Difference in % vs Placebo|3.2|||||TWO_SIDED|95.0|-0.9|9.0|||||Based on Miettinen \& Nurminen method|||9.0|-0.9|
92161600|NCT02501811|184212232|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.96||0.61|TWO_SIDED|95.0|-1.991|1.885|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.885|-1.991|0.610
92354144|NCT03654326|184614240|OTHER|The difference in least squares mean was based on the longitudinal analysis of covariance (ANCOVA) model including factors for average pelvic pain scores at baseline cycle, stratum, treatment, cycle, interaction of stratum-by-cycle, and the interaction of treatment-by-cycle as covariates|Difference in Least Squares Mean|-0.6|||||TWO_SIDED|95.0|-1.18|-0.06||||||||-0.06|-1.18|
92354145|NCT03654326|184614241|OTHER|The difference in least squares mean was based on the longitudinal analysis of covariance (ANCOVA) model including factors for average pelvic pain scores at baseline cycle, stratum, treatment, cycle, interaction of stratum-by-cycle, and the interaction of treatment-by-cycle as covariates|Difference in Least Squares Mean|-0.5|||||TWO_SIDED|95.0|-1.04|0.03||||||||0.03|-1.04|
92354146|NCT01691482|184614249|SUPERIORITY_OR_OTHER||Adjusted Mean|0.058|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.049|0.067|||||Treatment: A/S alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.067|0.049|
92354147|NCT01691482|184614249|SUPERIORITY_OR_OTHER||Adjusted Mean|0.071|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.062|0.08|||||Treatment: ipratropium alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.080|0.062|
92354148|NCT01691482|184614249|SUPERIORITY_OR_OTHER||Adjusted Mean|0.053|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.044|0.062|||||Treatment: A+I. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.062|0.044|
92354149|NCT01691482|184614249|SUPERIORITY_OR_OTHER||Slope|0.062|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.053|0.071|||||Treatment: I+A. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.071|0.053|
92354150|NCT01691482|184614253|SUPERIORITY_OR_OTHER||Adjusted Mean|0.058|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.049|0.067|||||Treatment: A/S alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.067|0.049|
92354151|NCT01691482|184614253|SUPERIORITY_OR_OTHER||Adjusted Mean|0.071|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.062|0.08|||||Treatment: ipratropium alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.080|0.062|
92354152|NCT01691482|184614253|SUPERIORITY_OR_OTHER||Adjusted Mean|0.053|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.044|0.062|||||Treatment: A+I. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.062|0.044|
92354153|NCT01691482|184614253|SUPERIORITY_OR_OTHER||Adjusted Mean|0.062||||||95.0|0.053|0.071|||||Treatment: I+A. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.071|0.053|
92354154|NCT01691482|184614254|SUPERIORITY_OR_OTHER||Adjusted Mean|0.067|STANDARD_ERROR_OF_MEAN|0.0045||||95.0|0.058|0.076|||||Treatment: A/S alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.076|0.058|
92354155|NCT01691482|184614254|SUPERIORITY_OR_OTHER||Adjusted Mean|0.07|STANDARD_ERROR_OF_MEAN|0.0045||||95.0|0.061|0.079|||||Treatment: ipratropium alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.079|0.061|
92354156|NCT01691482|184614254|SUPERIORITY_OR_OTHER||Adjusted Mean|0.069|STANDARD_ERROR_OF_MEAN|0.0045||||95.0|0.06|0.078|||||Treatment: A+I. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.078|0.060|
92354157|NCT01691482|184614254|SUPERIORITY_OR_OTHER||Adjusted Mean|0.064|STANDARD_ERROR_OF_MEAN|0.0045||||95.0|0.055|0.073|||||Treatment: I+A. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.073|0.055|
92354158|NCT01691482|184614255|SUPERIORITY_OR_OTHER||Adjusted Mean|0.228|STANDARD_ERROR_OF_MEAN|0.014||||95.0|0.2|0.255|||||Treatment: A/S alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.255|0.200|
92354159|NCT01691482|184614255|SUPERIORITY_OR_OTHER||Adjusted Mean|0.231|STANDARD_ERROR_OF_MEAN|0.014||||95.0|0.203|0.258|||||Treatment: ipratropium alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.258|0.203|
92354160|NCT01691482|184614255|SUPERIORITY_OR_OTHER||Adjusted Mean|0.232|STANDARD_ERROR_OF_MEAN|0.014||||95.0|0.204|0.259|||||Treatment: A+I. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.259|0.204|
92354161|NCT01691482|184614255|SUPERIORITY_OR_OTHER||Adjusted Mean|0.217|STANDARD_ERROR_OF_MEAN|0.014||||95.0|0.19|0.245|||||Treatment: I+A. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.245|0.190|
92354162|NCT01953354|184614256|SUPERIORITY_OR_OTHER|||||||1||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||1.000
92354163|NCT01953354|184614257|SUPERIORITY_OR_OTHER|||||||1||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||1.000
92354164|NCT01953354|184614258|SUPERIORITY_OR_OTHER|||||||0.242||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||0.242
92354165|NCT01953354|184614259|SUPERIORITY_OR_OTHER|||||||0.55||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||0.550
92354166|NCT01953354|184614262|SUPERIORITY_OR_OTHER|||||||0.55||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||0.550
92354167|NCT01953354|184614263|SUPERIORITY_OR_OTHER|||||||0.633||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||0.633
92354168|NCT00066170|184614275|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Dunnett's|||||||<0.001
92354169|NCT00066170|184614275|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Dunnett's|||||||<0.001
92220495|NCT00804570|184341371|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|||<|0.001|TWO_SIDED|95.0|0.24|0.9|||Mixed Models Analysis|||||0.90|0.24|<0.001
92354170|NCT01370642|184614290|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|29.0|||<|0.001|TWO_SIDED|95.0|17.2|40.5|||Miettinen and Nurminen method|||To compare the percentage of participants achieving SVR24 between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by Interleukin 28B (IL28B) and age utilizing Cochran-Mantel-Haenszel weights.||40.5|17.2|<0.001
92354171|NCT01370642|184614290|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|28.6|||<|0.001|TWO_SIDED|95.0|17.4|40.0|||Miettinen and Nurminen method|||To compare the percentage of participants achieving SVR24 between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||40.0|17.4|<0.001
92354172|NCT01370642|184614291|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|30.0|||<|0.001|TWO_SIDED|95.0|18.1|41.5|||Miettinen and Nurminen method|||To compare the percentage of participants achieving SVR12 between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||41.5|18.1|<0.001
92354173|NCT01370642|184614291|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|29.6|||<|0.001|TWO_SIDED|95.0|18.3|41.0|||Miettinen and Nurminen method|||To compare the percentage of participants achieving SVR12 between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||41.0|18.3|<0.001
92354174|NCT01370642|184614292|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|78.1|||<|0.001|TWO_SIDED|95.0|68.2|85.3|||Miettinen and Nurminen method|||To compare the percentage of participants achieving RVR between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||85.3|68.2|<0.001
92354175|NCT01370642|184614292|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|76.7|||<|0.001|TWO_SIDED|95.0|66.7|84.1|||Miettinen and Nurminen method|||To compare the percentage of participants achieving RVR between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||84.1|66.7|<0.001
92400979|NCT00525512|184692901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.9071||95.0|-0.38|0.33||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.33|-0.38|0.9071
92400980|NCT00525512|184692902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.6878||95.0|-0.35|0.53||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.53|-0.35|0.6878
92354176|NCT01370642|184614293|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|48.4|||<|0.001|TWO_SIDED|95.0|37.2|58.9|||Miettinen and Nurminen method|||To compare the percentage of participants achieving cEVR between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||58.9|37.2|<0.001
92354177|NCT01370642|184614293|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|49.6|||<|0.001|TWO_SIDED|95.0|38.5|60.0|||Miettinen and Nurminen method|||To compare the percentage of participants achieving cEVR between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||60.0|38.5|<0.001
92354178|NCT01370642|184614294|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|17.0|||<|0.001|TWO_SIDED|95.0|8.1|27.3|||Miettinen and Nurminen method|||To compare the percentage of participants achieving undetectable HCV RNA at EOT between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||27.3|8.1|<0.001
92354179|NCT01370642|184614294|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|17.8|||<|0.001|TWO_SIDED|95.0|9.3|27.8|||Miettinen and Nurminen method|||To compare the percentage of participants achieving undetectable HCV RNA at EOT between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||27.8|9.3|<0.001
92354180|NCT01370642|184614295|SUPERIORITY_OR_OTHER||Difference in percentages|4.1||||0.385|TWO_SIDED|95.0|-5.4|13.7|||Miettinen and Nurminen method|||Difference in percentage of participants with ≥1 Tier 1 AEs between vaniprevir and control.||13.7|-5.4|0.385
92354181|NCT01370642|184614295|SUPERIORITY_OR_OTHER||Difference in percentages|-2.2||||0.67|TWO_SIDED|95.0|-12.6|8.1|||Miettinen and Nurminen method|||Difference in percentage of participants with ≥1 Tier 1 AEs between vaniprevir and control.||8.1|-12.6|0.670
92354182|NCT01370642|184614295|SUPERIORITY_OR_OTHER||Difference in percentages|-4.1||||0.557|TWO_SIDED|95.0|-17.5|9.5|||Miettinen and Nurminen method|||Difference in percentage of participants with anemia Tier 1 AEs between vaniprevir and control.||9.5|-17.5|0.557
92354183|NCT01370642|184614295|SUPERIORITY_OR_OTHER||Difference in percentages|-12.7||||0.072|TWO_SIDED|95.0|-26.2|1.2|||Miettinen and Nurminen method|||Difference in percentage of participants with anemia Tier 1 AEs between vaniprevir and control.||1.2|-26.2|0.072
92354184|NCT01370642|184614295|SUPERIORITY_OR_OTHER||Difference in percentages|0.0|||>|0.999|TWO_SIDED|95.0|-7.9|7.9|||Miettinen and Nurminen method|||Difference in percentage of participants with bilirubin increased Tier 1 AEs between vaniprevir and control.||7.9|-7.9|>0.999
92400981|NCT00525512|184692903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36||||||95.0|-2.39|3.11||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.11|-2.39|
92354185|NCT01370642|184614295|SUPERIORITY_OR_OTHER||Difference in percentages|5.2||||0.22|TWO_SIDED|95.0|-3.3|14.2|||Miettinen and Nurminen method|||Difference in percentage of participants with bilirubin increased Tier 1 AEs between vaniprevir and control.||14.2|-3.3|0.220
92354186|NCT01370642|184614295|SUPERIORITY_OR_OTHER||Difference in percentages|15.3||||0.032|TWO_SIDED|95.0|1.3|28.7|||Miettinen and Nurminen method|||Difference in percentage of participants with GI Tier 1 AEs between vaniprevir and control.||28.7|1.3|0.032
92354187|NCT01370642|184614295|SUPERIORITY_OR_OTHER||Difference in percentages|5.6||||0.432|TWO_SIDED|95.0|-8.4|19.4|||Miettinen and Nurminen method|||Difference in percentage of participants with GI Tier 1 AEs between vaniprevir and control.||19.4|-8.4|0.432
92354188|NCT01370642|184614295|SUPERIORITY_OR_OTHER||Difference in percentages|8.2||||0.252|TWO_SIDED|95.0|-5.8|21.8|||Miettinen and Nurminen method|||Difference in percentage of participants with neutropenia Tier 1 AEs between vaniprevir and control.||21.8|-5.8|0.252
92400982|NCT00525512|184692904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||||95.0|-2.66|3.31||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.31|-2.66|
92276349|NCT00408876|184454664|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.857||95.0|-0.45|0.54|||t-test, 2 sided|||||0.54|-0.45|0.857
92354189|NCT01370642|184614295|SUPERIORITY_OR_OTHER||Difference in percentages|0.5||||0.942|TWO_SIDED|95.0|-13.4|14.4|||Miettinen and Nurminen method|||Difference in percentage of participants with neutropenia Tier 1 AEs between vaniprevir and control.||14.4|-13.4|0.942
92400983|NCT00525512|184692905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||||95.0|-2.91|3.58||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.58|-2.91|
92400984|NCT00525512|184692906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||||95.0|-2.97|3.43||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.43|-2.97|
92400985|NCT00525512|184692907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||||95.0|-3.02|3.46||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.46|-3.02|
92400986|NCT00525512|184692908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||||95.0|-3.1|3.41||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.41|-3.10|
92400987|NCT00525512|184692909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||||95.0|-3.22|3.55||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.55|-3.22|
92354190|NCT01370642|184614296|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 2|-3.2|||||TWO_SIDED|95.0|-3.5|-3.0|||Constrained LDA Model|||Change from BL in HCV RNA at Week 2 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-3.0|-3.5|
92354191|NCT01370642|184614296|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 2|-3.5|||||TWO_SIDED|95.0|-3.7|-3.2|||Constrained LDA Model|||Change from BL in HCV RNA at Week 2 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-3.2|-3.7|
92354192|NCT01370642|184614296|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 4|-3.0|||||TWO_SIDED|95.0|-3.3|-2.7|||Constrained LDA Model|||Change from BL in HCV RNA at Week 4 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-2.7|-3.3|
92354193|NCT01370642|184614296|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 4|-3.1|||||TWO_SIDED|95.0|-3.4|-2.8|||Constrained LDA Model|||Change from BL in HCV RNA at Week 4 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-2.8|-3.4|
92354194|NCT01370642|184614296|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 8|-1.9|||||TWO_SIDED|95.0|-2.2|-1.6|||Constrained LDA Model|||Change from BL in HCV RNA at Week 8 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-1.6|-2.2|
92354195|NCT01370642|184614296|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 8|-2.0|||||TWO_SIDED|95.0|-2.3|-1.7|||Constrained LDA Model|||Change from BL in HCV RNA at Week 8 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-1.7|-2.3|
92354196|NCT01370642|184614296|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 12|-1.4|||||TWO_SIDED|95.0|-1.7|-1.1|||Constrained LDA Model|||Change from BL in HCV RNA at Week 12 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-1.1|-1.7|
92354197|NCT01370642|184614296|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 12|-1.4|||||TWO_SIDED|95.0|-1.7|-1.1|||Constrained LDA Model|||Change from BL in HCV RNA at Week 12 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-1.1|-1.7|
92354198|NCT01370642|184614296|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 24|-0.8|||||TWO_SIDED|95.0|-1.1|-0.5|||Constrained LDA Model|||Change from BL in HCV RNA at Week 24 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-0.5|-1.1|
92354199|NCT01370642|184614296|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 24|-0.9|||||TWO_SIDED|95.0|-1.2|-0.6|||Constrained LDA Model|||Change from BL in HCV RNA at Week 24 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-0.6|-1.2|
92354200|NCT00147537|184614307|SUPERIORITY_OR_OTHER||||||=|0.027|TWO_SIDED||||||binomial test|||A one-sided p-value for H0: objective response rate \<=0.28 using exact binomial test at level 0.05.||||=0.027
92354201|NCT00147537|184614308|SUPERIORITY_OR_OTHER||||||=|0.121|TWO_SIDED||||||binomial test|||A One-sided p-value for H0: objective response rate \<=0.30 using exact binomial test at level 0.05.||||=0.121
92161601|NCT02501811|184212232|SUPERIORITY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|0.97||0.195|TWO_SIDED|95.0|-0.356|3.557|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||3.557|-0.356|0.195
92354202|NCT02191397|184614338|NON_INFERIORITY|A one-sided 97.5% confidence interval for the between-treatment difference (bupropion XL-escitalopram) was compared with the pre-defined non-inferiority margin of 2.2. If the upper limit of the one-sided 97.5% confidence interval was below 2.2, then it indicated that bupropion was not inferior in efficacy to escitalopram.|Mean Difference (Final Values)|0.8||||0.139|TWO_SIDED|95.0|-0.27|1.94||Analysis included Baseline HAMD-17 total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Observed Cases (OC) dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.94|-0.27|0.139
92354203|NCT02191397|184614339|OTHER||Odds Ratio (OR)|0.85||||0.479|TWO_SIDED|95.0|0.55|1.33||P-value was estimated from a Generalized Estimating Equation (GEE) model with Response based on HADM-17 as response variable and treatment, gender as explanatory variables.|GEE model|||||1.33|0.55|0.479
92354204|NCT02191397|184614340|OTHER||Odds Ratio (OR)|0.73||||0.129|TWO_SIDED|95.0|0.48|1.1||P-value was estimated from a Generalized Estimating Equation (GEE) model with Response based on HADM-17 as response variable and treatment, gender as explanatory variables|GEE model|||||1.10|0.48|0.129
92400988|NCT00525512|184692910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||||95.0|-2.78|3.52||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.52|-2.78|
92161602|NCT02501811|184212233|SUPERIORITY||Mean Difference (Final Values)|18.57|STANDARD_ERROR_OF_MEAN|19.01||0.348|TWO_SIDED|95.0|-19.537|56.687|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||56.687|-19.537|0.348
92400989|NCT00525512|184692911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||||95.0|-3.05|3.51||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.51|-3.05|
92400990|NCT00525512|184692912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||||95.0|-3.4|3.55||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.55|-3.40|
92354205|NCT02191397|184614341|OTHER||Odds Ratio (OR)|0.83||||0.354|TWO_SIDED|95.0|0.55|1.24||P-value was estimated from a GEE model with Response based on HADM-17 as response variable and treatment, gender as explanatory variables|GEE model|||||1.24|0.55|0.354
92354206|NCT02191397|184614342|OTHER||Odds Ratio (OR)|0.85||||0.489|TWO_SIDED|95.0|0.54|1.34||P-value was estimated from a GEE model with Response based on HADM-17 as response variable and treatment, gender as explanatory variables|GEE model|||||1.34|0.54|0.489
92354207|NCT02191397|184614343|OTHER||Mean Difference (Final Values)|0.2||||0.627|TWO_SIDED|95.0|-0.7|1.16||Analysis included Baseline MADRS total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.16|-0.70|0.627
92354208|NCT02191397|184614343|OTHER||Mean Difference (Final Values)|1.4||||0.037|TWO_SIDED|95.0|0.08|2.66||Analysis included Baseline MADRS total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||2.66|0.08|0.037
92354209|NCT02191397|184614343|OTHER||Mean Difference (Final Values)|1.2||||0.143|TWO_SIDED|95.0|-0.4|2.78||Analysis included Baseline MADRS total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||2.78|-0.40|0.143
92354210|NCT02191397|184614343|OTHER||Mean Difference (Final Values)|0.8||||0.33|TWO_SIDED|95.0|-0.81|2.4||Analysis included Baseline MADRS total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||2.40|-0.81|0.330
92354211|NCT02191397|184614343|OTHER||Mean Difference (Final Values)|0.9||||0.278|TWO_SIDED|95.0|-0.69|2.4||Analysis included Baseline MADRS total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||2.40|-0.69|0.278
92354212|NCT02191397|184614344|OTHER||Mean Difference (Final Values)|0.0||||0.579|TWO_SIDED|95.0|-0.09|0.16||Analysis included Baseline HAMD-17 depressed mood subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.16|-0.09|0.579
92354213|NCT02191397|184614344|OTHER||Mean Difference (Final Values)|0.1||||0.163|TWO_SIDED|95.0|-0.04|0.26||Analysis included Baseline HAMD-17 depressed mood subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.26|-0.04|0.163
92354214|NCT02191397|184614344|OTHER||Mean Difference (Final Values)|0.2||||0.05|TWO_SIDED|95.0|0.0|0.34||Analysis included Baseline HAMD-17 depressed mood subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.34|0.00|0.050
92400991|NCT00525512|184692913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||||95.0|-3.61|3.92||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.92|-3.61|
92400992|NCT00525512|184692914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||||95.0|-3.53|3.9||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.90|-3.53|
92400993|NCT00525512|184692915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||||95.0|-3.36|3.71||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.71|-3.36|
92161603|NCT02501811|184212233|SUPERIORITY||Mean Difference (Final Values)|23.19|STANDARD_ERROR_OF_MEAN|17.88||0.23|TWO_SIDED|95.0|-12.759|59.134|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||59.134|-12.759|0.230
92161604|NCT02501811|184212233|SUPERIORITY||Mean Difference (Final Values)|1.69|STANDARD_ERROR_OF_MEAN|16.21||0.905|TWO_SIDED|95.0|-30.974|34.361|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||34.361|-30.974|0.905
92400994|NCT00525512|184692916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||||95.0|-3.82|3.96||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.96|-3.82|
92400995|NCT00525512|184692917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.03||||0.0072||95.0|-6.97|-1.1||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||-1.10|-6.97|0.0072
92400996|NCT00525512|184692918|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33||||0.2029||95.0|-5.91|1.26||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.26|-5.91|0.2029
92400997|NCT00525512|184692919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.58||||0.0313||95.0|-6.84|-0.32||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||-0.32|-6.84|0.0313
92354215|NCT02191397|184614344|OTHER||Mean Difference (Final Values)|0.1||||0.337|TWO_SIDED|95.0|-0.09|0.26||Analysis included Baseline HAMD-17 depressed mood subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.26|-0.09|0.337
92354216|NCT02191397|184614344|OTHER||Mean Difference (Final Values)|0.0||||0.714|TWO_SIDED|95.0|-0.14|0.2||Analysis included Baseline HAMD-17 depressed mood subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.20|-0.14|0.714
92161605|NCT02501811|184212233|SUPERIORITY||Mean Difference (Final Values)|16.88|STANDARD_ERROR_OF_MEAN|15.98||0.335|TWO_SIDED|95.0|-15.267|49.03|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||49.030|-15.267|0.335
92161606|NCT02501811|184212233|SUPERIORITY||Mean Difference (Final Values)|-4.61|STANDARD_ERROR_OF_MEAN|17.68||0.827|TWO_SIDED|95.0|-40.106|30.88|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||30.880|-40.106|0.827
92161607|NCT02501811|184212233|SUPERIORITY||Mean Difference (Final Values)|-21.49|STANDARD_ERROR_OF_MEAN|14.63||0.163|TWO_SIDED|95.0|-50.989|8.001|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||8.001|-50.989|0.163
92161608|NCT02501811|184212234|SUPERIORITY||Mean Difference (Final Values)|-9.64|STANDARD_ERROR_OF_MEAN|4.63||0.023|TWO_SIDED|95.0|-18.915|-0.357|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||-0.357|-18.915|0.023
92161609|NCT02501811|184212234|SUPERIORITY||Mean Difference (Final Values)|-15.09|STANDARD_ERROR_OF_MEAN|5.84||0.05|TWO_SIDED|95.0|-26.871|-3.319|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||-3.319|-26.871|0.050
92161610|NCT02501811|184212234|SUPERIORITY||Mean Difference (Final Values)|-2.97|STANDARD_ERROR_OF_MEAN|5.86||0.119|TWO_SIDED|95.0|-14.784|8.836|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||8.836|-14.784|0.119
92161611|NCT02501811|184212234|SUPERIORITY||Mean Difference (Final Values)|-6.66|STANDARD_ERROR_OF_MEAN|5.66||0.845|TWO_SIDED|95.0|-18.087|4.762|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||4.762|-18.087|0.845
92161612|NCT02501811|184212234|SUPERIORITY||Mean Difference (Final Values)|5.46|STANDARD_ERROR_OF_MEAN|5.64||0.976|TWO_SIDED|95.0|-5.931|16.848|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||16.848|-5.931|0.976
92354217|NCT02191397|184614345|OTHER||Mean Difference (Final Values)|-0.2||||0.358|TWO_SIDED|95.0|-0.5|0.18||Analysis included Baseline HAMD-17 anxiety/somatization subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.18|-0.50|0.358
92354218|NCT02191397|184614345|OTHER||Mean Difference (Final Values)|0.4||||0.081|TWO_SIDED|95.0|-0.04|0.75||Analysis included Baseline HAMD-17 anxiety/somatization subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.75|-0.04|0.081
92161613|NCT02501811|184212234|SUPERIORITY||Mean Difference (Final Values)|12.12|STANDARD_ERROR_OF_MEAN|6.69||0.717|TWO_SIDED|95.0|-1.337|25.578|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||25.578|-1.337|0.717
92400998|NCT00525512|184692920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.94||||0.0001||95.0|-13.37|-4.52||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||-4.52|-13.37|0.0001
92161614|NCT02501811|184212235|SUPERIORITY||Mean Difference (Final Values)|-1411.7|STANDARD_ERROR_OF_MEAN|840.6||0.11|TWO_SIDED|95.0|-3108.3|284.9|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||284.9|-3108.3|0.110
92161615|NCT02501811|184212235|SUPERIORITY||Mean Difference (Final Values)|-634.6|STANDARD_ERROR_OF_MEAN|405.1||0.112|TWO_SIDED|95.0|-1460.7|191.4|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||191.4|-1460.7|0.112
92161616|NCT02501811|184212235|SUPERIORITY||Mean Difference (Final Values)|-483.2|STANDARD_ERROR_OF_MEAN|400.7||0.891|TWO_SIDED|95.0|-1301.5|335.2|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||335.2|-1301.5|0.891
92161617|NCT02501811|184212235|SUPERIORITY||Mean Difference (Final Values)|-928.6|STANDARD_ERROR_OF_MEAN|754.2||0.009|TWO_SIDED|95.0|-2470.7|613.6|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||613.6|-2470.7|0.009
92161618|NCT02501811|184212235|SUPERIORITY||Mean Difference (Final Values)|-777.1|STANDARD_ERROR_OF_MEAN|756.5||0.661|TWO_SIDED|95.0|-2323.2|769.1|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||769.1|-2323.2|0.661
92276350|NCT00408876|184454664|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.805||95.0|-0.36|0.46|||t-test, 2 sided|||||0.46|-0.36|0.805
92400999|NCT00525512|184692921|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.94||||0.6541||95.0|0.719|1.23||Based on a MMRM analysis with terms for treatment, centre and baseline.|Regression, Cox|||||1.230|0.719|0.6541
92401000|NCT00525512|184692922|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.06||||0.4443||95.0|0.91|1.25||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||1.25|0.91|0.4443
92401001|NCT00525512|184692923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.8644||95.0|-0.05|0.06||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||0.06|-0.05|0.8644
92401002|NCT00525512|184692924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.4277||95.0|-0.07|0.17||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||0.17|-0.07|0.4277
92401003|NCT00525512|184692925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.7071||95.0|-3.81|2.59||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||2.59|-3.81|0.7071
92401004|NCT00525512|184692926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.6556||95.0|-3.03|4.81||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||4.81|-3.03|0.6556
92401005|NCT00525512|184692927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.9896||95.0|-3.44|3.48||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||3.48|-3.44|0.9896
92401006|NCT00525512|184692928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.33||||0.0807||95.0|-9.19|0.53||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||0.53|-9.19|0.0807
92401007|NCT01601535|184692939|OTHER|||||||0.14||||||MYCN Amplified vs. MYCN not Amplified|Fisher Exact|||||||0.14
92401008|NCT01601535|184692939|OTHER|||||||0.21|||||||Fisher Exact|MYCN Amplified or Myc Positive vs. MYCN Non-amplified and Myc Negative||||||0.21
92401009|NCT01601535|184692939|OTHER|||||||1|||||||Fisher Exact|Aurora A protein Positive vs. Aurora A protein Negative||||||1.0
92401010|NCT01601535|184692940|OTHER|||||||0.094||||||UGT1A1 6\\6 vs. UGT1A1 6\\7 vs. UGT1A1 7\\7|Fisher Exact|||||||0.094
92401011|NCT01601535|184692940|OTHER|||||||0.63||||||UGT1A1 6\\6 vs. UGT1A1 6\\7 vs. UGT1A1 7\\7|Fisher Exact|||||||0.63
92401012|NCT01601535|184692941|OTHER|||||||0.9||||||AurkA Codon 31 Summary H vs. AurkA Codon 31 Summary V vs. AurkA Codon 31 Summary W|Fisher Exact|||||||0.90
92276351|NCT00408876|184454665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24||||0.34||95.0|-0.26|0.75|||t-test, 2 sided|||||0.75|-0.26|0.340
92401013|NCT01601535|184692941|OTHER|||||||1||||||AurkA Codon 57 Summary H vs. AurkA Codon 57 Summary W|Fisher Exact|||||||1.0
92401014|NCT00534365|184692943|NON_INFERIORITY_OR_EQUIVALENCE|We chose a non-inferiority margin of 12% based on previously published multicenter trial of mid-urethral slings. Assuming subjective cure rate for TVT of 82%, 127 individuals in each group will provide 80% to reject the null hypothesis that the true difference in cure rates between the two procedures is less than or equal to 2% using a two group large sample normal approximation test of proportions with a one sided 0.05 significance level.||||||0.43|||||||Regression, Logistic|||||||0.43
92401015|NCT00534365|184692946|SUPERIORITY_OR_OTHER|||||||0.64|||||||t-test, 2 sided|||||||0.64
92401016|NCT00534365|184692947|SUPERIORITY_OR_OTHER|||||||0.015|||||||t-test, 2 sided|||||||0.015
92401017|NCT04576988|184692949|OTHER||Treatment difference|40.8|||<|0.001|TWO_SIDED|95.0|27.53|54.14||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|Aligned Rank Stratified Wilcoxon (ARSW)|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% confidence interval (CI) was reported.|||54.14|27.53|<0.001
92401018|NCT04576988|184692952|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|A 2-sided p-value was calculated using Cochran-Mantel-Haenszel (CMH) method with WHO FC II/III and background PAH therapy as strata.||||||<0.001
92401019|NCT04576988|184692953|OTHER||Treatment difference|-234.6|||<|0.001|TWO_SIDED|95.0|-288.37|-180.75||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|ARSW test|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% CI was reported.|||-180.75|-288.37|<0.001
92161619|NCT02501811|184212235|SUPERIORITY||Mean Difference (Final Values)|151.5|STANDARD_ERROR_OF_MEAN|162.2||0.015|TWO_SIDED|95.0|-175.4|478.4|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||478.4|-175.4|0.015
92276352|NCT00408876|184454665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.848||95.0|-0.45|0.37|||t-test, 2 sided|||||0.37|-0.45|0.848
92276353|NCT00408876|184454665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.573||95.0|-0.54|0.3|||t-test, 2 sided|||||0.30|-0.54|0.573
92401020|NCT04576988|184692954|OTHER||Treatment difference|-441.6|||<|0.001|TWO_SIDED|95.0|-573.54|-309.61||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|ARSW test|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% CI was reported.|||-309.61|-573.54|<.001
92401021|NCT04576988|184692955|OTHER|A 2-sided p-value was calculated using CMH method with WHO FC II/III and background PAH therapy as strata.|||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92401022|NCT04576988|184692956|OTHER|A 2-sided p-value was calculated using Log rank test with WHO FC II/III and background PAH therapy as strata.|Hazard Ratio (HR)|0.163|||<|0.001|TWO_SIDED|95.0|0.076|0.347|||Log Rank||Cox proportional hazard model was used to generate hazard ratio (HR) and 95% CI was reported with treatment group as the covariate stratified by the WHO FC II/III and background PAH therapy.|||0.347|0.076|<0.001
92401023|NCT04576988|184692957|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|A 2-sided p-value was calculated using Cochran-Mantel-Haenszel (CMH) method with WHO FC II/III and background PAH therapy as strata.||||||<0.001
92401024|NCT04576988|184692958|OTHER||Treatment difference|-0.26||||0.01|TWO_SIDED|95.0|-0.49|-0.04||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|ARSW test|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% CI was reported.|||-0.040|-0.490|0.010
92161620|NCT02501811|184212236|OTHER||slope of time|0.267|STANDARD_ERROR_OF_MEAN|0.241||0.269|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported||||0.269
92354219|NCT02191397|184614345|OTHER||Mean Difference (Final Values)|0.5||||0.062|TWO_SIDED|95.0|-0.02|0.99||Analysis included Baseline HAMD-17 anxiety/somatization subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.99|-0.02|0.062
92161621|NCT02501811|184212237|OTHER||slope of time|0.141|STANDARD_ERROR_OF_MEAN|0.153||0.361|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.361
92161622|NCT02501811|184212238|OTHER||slope of time|-0.267|STANDARD_ERROR_OF_MEAN|0.164||0.107|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.107
92220496|NCT00290342|184341372|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to diphtheria, standardized asymptotic 95% CI for the groups'difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.85|1.79||||||Non-inferiority in terms of vaccine response to diphteria||1.79|-1.85|
92220497|NCT00290342|184341372|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to tetanus, standardized asymptotic 95% CI for the groups'difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.85|1.79||||||Non-inferiority in terms of vaccine response to tetanus||1.79|-1.85|
92220498|NCT00290342|184341373|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to poliovirus type 1, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.85|1.82||||||Immune response non-inferiority - Anti-Polio 1||1.82|-1.85|
92220499|NCT00290342|184341373|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to poliovirus type 2, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.49|||||TWO_SIDED|95.0|-1.36|2.71||||||Immune response non-inferiority - Anti-Polio 2||2.71|-1.36|
92276354|NCT00408876|184454665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29||||0.272||95.0|-0.79|0.22|||t-test, 2 sided|||||0.22|-0.79|0.272
92276355|NCT00408876|184454665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.161||95.0|-0.88|0.15|||t-test, 2 sided|||||0.15|-0.88|0.161
92276356|NCT00408876|184454665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.711||95.0|-0.5|0.34|||t-test, 2 sided|||||0.34|-0.50|0.711
92354220|NCT02191397|184614345|OTHER||Mean Difference (Final Values)|0.4||||0.118|TWO_SIDED|95.0|-0.1|0.85||Analysis included Baseline HAMD-17 anxiety/somatization subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.85|-0.10|0.118
92354221|NCT02191397|184614345|OTHER||Mean Difference (Final Values)|0.3||||0.252|TWO_SIDED|95.0|-0.19|0.71||Analysis included Baseline HAMD-17 anxiety/somatization subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.71|-0.19|0.252
92354222|NCT02191397|184614346|OTHER||Mean Difference (Final Values)|0.1||||0.573|TWO_SIDED|95.0|-0.2|0.35||Analysis included Baseline HAMD-17 Retardation subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.35|-0.20|0.573
92354223|NCT02191397|184614346|OTHER||Mean Difference (Final Values)|0.2||||0.209|TWO_SIDED|95.0|-0.13|0.58||Analysis included Baseline HAMD-17 Retardation subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.58|-0.13|0.209
92354224|NCT02191397|184614346|OTHER||Mean Difference (Final Values)|0.2||||0.427|TWO_SIDED|95.0|-0.25|0.58||Analysis included Baseline HAMD-17 Retardation subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.58|-0.25|0.427
92354225|NCT02191397|184614346|OTHER||Mean Difference (Final Values)|0.0||||0.851|TWO_SIDED|95.0|-0.4|0.48||Analysis included Baseline HAMD-17 Retardation subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.48|-0.40|0.851
92161623|NCT02501811|184212239|OTHER||slope of time|1.395|STANDARD_ERROR_OF_MEAN|0.829||0.095|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.095
92161624|NCT02501811|184212240|OTHER||slope of time|0.603|STANDARD_ERROR_OF_MEAN|0.683||0.379|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.379
92161625|NCT02501811|184212241|OTHER||slope of time|0.003|STANDARD_ERROR_OF_MEAN|0.004||0.401|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.401
92161626|NCT02501811|184212242|OTHER||slope of time|-0.244|STANDARD_ERROR_OF_MEAN|0.158||0.126|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.126
92161627|NCT02501811|184212243|OTHER||slope of time|-0.42|STANDARD_ERROR_OF_MEAN|0.281||0.139|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.139
92220500|NCT00290342|184341373|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to poliovirus type 3, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|-0.01|||||TWO_SIDED|95.0|-2.28|2.24||||||Immune response non-inferiority - Anti-Polio 3||2.24|-2.28|
92354226|NCT02191397|184614346|OTHER||Mean Difference (Final Values)|0.2||||0.37|TWO_SIDED|95.0|-0.25|0.66||Analysis included Baseline HAMD-17 Retardation subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.66|-0.25|0.370
92354227|NCT02191397|184614347|OTHER||Mean Difference (Final Values)|0.1||||0.438|TWO_SIDED|95.0|-0.16|0.37||Analysis included Baseline HAMD-17 Sleep Disorder subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.37|-0.16|0.438
92354228|NCT02191397|184614347|OTHER||Mean Difference (Final Values)|0.4||||0.014|TWO_SIDED|95.0|0.07|0.66||Analysis included Baseline HAMD-17 Sleep Disorder subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.66|0.07|0.014
92401025|NCT04576988|184692959|OTHER||Treatment difference|-0.13||||0.028|TWO_SIDED|95.0|-0.256|-0.014||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|ARSW test|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% CI was reported.|||-0.014|-0.256|0.028
92161628|NCT02501811|184212244|OTHER||slope of time|-0.133|STANDARD_ERROR_OF_MEAN|0.184||0.472|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.472
92161629|NCT02501811|184212245|OTHER||slope of time|6.544|STANDARD_ERROR_OF_MEAN|2.882||0.025|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.025
92276357|NCT00408876|184454666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.713||95.0|-1.39|0.95|||t-test, 2 sided|||||0.95|-1.39|0.713
92276358|NCT00408876|184454666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.52||||0.288||95.0|-0.44|1.49|||t-test, 2 sided|||||1.49|-0.44|0.288
92401026|NCT04576988|184692960|OTHER||Treatment difference|-0.16||||0.156|TWO_SIDED|95.0|-0.399|0.084||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|ARSW test|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% CI was reported.|||0.084|-0.399|0.156
92401027|NCT02919761|184692984|OTHER||||||=|0.242||||||At Week 4|One-sample binomial test|||||||=0.242
92401028|NCT02919761|184692984|OTHER||||||<|0.0001||||||At Week 8|One-sample binomial test|||||||<0.0001
92354229|NCT02191397|184614347|OTHER||Mean Difference (Final Values)|0.2||||0.207|TWO_SIDED|95.0|-0.11|0.5||Analysis included Baseline HAMD-17 Sleep Disorder subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.50|-0.11|0.207
92354230|NCT02191397|184614347|OTHER||Mean Difference (Final Values)|0.2||||0.137|TWO_SIDED|95.0|-0.07|0.54||Analysis included Baseline HAMD-17 Sleep Disorder subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.54|-0.07|0.137
92354231|NCT02191397|184614347|OTHER||Mean Difference (Final Values)|0.2||||0.299|TWO_SIDED|95.0|-0.14|0.46||Analysis included Baseline HAMD-17 Sleep Disorder subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.46|-0.14|0.299
92354232|NCT02191397|184614348|OTHER||Mean Difference (Final Values)|0.0||||0.804|TWO_SIDED|95.0|-0.1|0.13||Analysis included Baseline CGI-S score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.13|-0.10|0.804
92354233|NCT02191397|184614348|OTHER||Mean Difference (Final Values)|0.1||||0.079|TWO_SIDED|95.0|-0.02|0.28||Analysis included Baseline CGI-S score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.28|-0.02|0.079
92354234|NCT02191397|184614348|OTHER||Mean Difference (Final Values)|0.2||||0.036|TWO_SIDED|95.0|0.01|0.38||Analysis included Baseline CGI-S score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.38|0.01|0.036
92354235|NCT02191397|184614348|OTHER||Mean Difference (Final Values)|0.1||||0.248|TWO_SIDED|95.0|-0.08|0.31||Analysis included Baseline CGI-S score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.31|-0.08|0.248
92354236|NCT02191397|184614348|OTHER||Mean Difference (Final Values)|0.2||||0.11|TWO_SIDED|95.0|-0.04|0.35||Analysis included Baseline CGI-S score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.35|-0.04|0.110
92354237|NCT02191397|184614349|OTHER||Odds Ratio, log|0.78||||0.545|TWO_SIDED|95.0|0.35|1.75||P-value was estimated from a GEE model repeated measures with CGI-I score of 1 or 2 as response variable and treatment, gender as explanatory variables|GEE model repeated measures||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.75|0.35|0.545
92401029|NCT02919761|184692984|OTHER||||||<|0.0001|||||||One-sample binomial test|||||||<0.0001
92401030|NCT02919761|184692985|OTHER||||||=|0.313||||||Comparison at Week 12|Pearson's Chi-square test|||||||=0.313
92276359|NCT00408876|184454666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46||||0.351||95.0|-1.44|0.51|||t-test, 2 sided|||||0.51|-1.44|0.351
92401031|NCT02919761|184692985|OTHER||||||=|0.439||||||Comparison at Week 16|Pearson's Chi-square test|||||||=0.439
92401032|NCT02919761|184692985|OTHER||||||=|0.028||||||Comparison at Week 20|Pearson's Chi-square test|||||||=0.028
92276360|NCT00408876|184454666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74||||0.219||95.0|-0.44|1.93|||t-test, 2 sided|||||1.93|-0.44|0.219
92276361|NCT00408876|184454666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24||||0.686||95.0|-1.43|0.94|||t-test, 2 sided|||||0.94|-1.43|0.686
92354238|NCT02191397|184614349|OTHER||Odds Ratio (OR)|0.95||||0.822|TWO_SIDED|95.0|0.58|1.54||P-value was estimated from a GEE model repeated measures with CGI-I score of 1 or 2 as response variable and treatment, gender as explanatory variables|GEE model repeated measures||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.54|0.58|0.822
92354239|NCT02191397|184614349|OTHER||Odds Ratio (OR)|0.57||||0.007|TWO_SIDED|95.0|0.38|0.86||P-value was estimated from a GEE model repeated measures with CGI-I score of 1 or 2 as response variable and treatment, gender as explanatory variables|GEE model repeated measures||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.86|0.38|0.007
92354240|NCT02191397|184614349|OTHER||Odds Ratio (OR)|0.83||||0.417|TWO_SIDED|95.0|0.54|1.29||P-value was estimated from a GEE model repeated measures with CGI-I score of 1 or 2 as response variable and treatment, gender as explanatory variables|GEE model repeated measures||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.29|0.54|0.417
92354241|NCT02191397|184614349|OTHER||Odds Ratio (OR)|0.83||||0.485|TWO_SIDED|95.0|0.49|1.4||P-value was estimated from a GEE model repeated measures with CGI-I score of 1 or 2 as response variable and treatment, gender as explanatory variables|GEE model repeated measures||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.40|0.49|0.485
92354242|NCT01933425|184614366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||<|0.05|TWO_SIDED|95.0|0.07|0.59|||t-test, 2 sided|||||0.59|0.07|<0.05
92354243|NCT01933425|184614367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|||<|0.05|TWO_SIDED|95.0|0.06|0.54|||t-test, 2 sided|||||0.54|0.06|<0.05
92401033|NCT02919761|184692985|OTHER||||||=|0.019||||||Comparison at Week 24|Pearson's Chi-square test|||||||=0.019
92276362|NCT00408876|184454666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.98||||0.05||95.0|-1.97|0.0|||t-test, 2 sided|||||0.00|-1.97|0.050
92354244|NCT03888482|184614369|NON_INFERIORITY|Non-inferiority margin = 0.05|Least Squares Mean Difference|0.0|||||ONE_SIDED|95.0||0.01|||Mixed effects repeated measures model|Mixed effects repeated measures model with terms for lens, period and sequence as fixed effects and subject as a random effect.|Difference = DDT2 - Clariti|||0.01||
92354245|NCT04128228|184614412|OTHER|"Single group: All individuals with alcohol use disorder received the same treatment.~Brain responses were examined at baseline in individuals with alcohol use disorder (AUD) with and without early trauma (AUD/ET, AUD/NT), as well as in moderate drinkers (MD) with and without early trauma (MD/ET, MD/NT)."|F value for the 2 X 2 Group Interaction|5.5|||<|0.05|TWO_SIDED|||||A 2 × 2 × 3 Linear Mixed Model was conducted with Early Trauma Group (ET, NT) and Drinking Group (AUD, MD) as between-subjects factors, and Condition (stress, alcohol, neutral) as the within-subjects factor.|Linear Mixed Model|||A regions of interest (ROI) analysis was conducted to evaluate brain activity in the right ventromedial prefrontal cortex (VmPFC, BA10), a region identified a priori. The VmPFC ROI was defined using the Yale-Brodmann atlas in the BioImage Suite application, from which the beta value for the VmPFC ROI was obtained for a Linear Mixed Model analysis.||||<0.05
92161630|NCT02501811|184212246|OTHER||slope with interaction|-7.08|STANDARD_ERROR_OF_MEAN|3.3||0.037|TWO_SIDED||||||Regression, Linear|||Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. A time by treatment interaction was assessed.||||0.037
92276363|NCT00408876|184454667|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.663||95.0|-0.06|0.04|||t-test, 2 sided|||||0.04|-0.06|0.663
92276364|NCT00408876|184454667|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.33||95.0|-0.02|0.06|||t-test, 2 sided|||||0.06|-0.02|0.330
92276365|NCT00408876|184454667|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.143||95.0|-0.01|0.07|||t-test, 2 sided|||||0.07|-0.01|0.143
92276366|NCT00408876|184454667|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.218||95.0|-0.02|0.08|||t-test, 2 sided|||||0.08|-0.02|0.218
92276367|NCT00408876|184454667|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.1||95.0|-0.01|0.09|||t-test, 2 sided|||||0.09|-0.01|0.100
92401034|NCT00880698|184693007|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-3.1||||0.62|TWO_SIDED|95.0|-20.6|14.8||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference and 95% confidence interval (RotaTeq minus Placebo) in percentage of HIV-uninfected participants experiencing a new grade \>=3 adverse event|||14.8|-20.6|0.62
92401035|NCT00880698|184693007|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.7||||1|TWO_SIDED|95.0|-21.0|23.4||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference and 95% confidence interval (RotaTeq minus Placebo) in percentage of HIV-infected participants experiencing a new grade \>=3 adverse event|||23.4|-21.0|1.00
92161631|NCT02501811|184212246|OTHER||slope with interaction|-6.78|STANDARD_ERROR_OF_MEAN|3.18||0.035|TWO_SIDED||||||Regression, Linear|||Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. A time by treatment interaction was assessed.||||0.035
92161632|NCT02501811|184212247|OTHER||slope of time|84.557|STANDARD_ERROR_OF_MEAN|35.81||0.092|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.092
92161633|NCT03720990|184212274|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
92276368|NCT00408876|184454667|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.614||95.0|-0.03|0.05|||t-test, 2 sided|||||0.05|-0.03|0.614
92276369|NCT00408876|184454668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.786||95.0|-1.83|1.39|||t-test, 2 sided|||||1.39|-1.83|0.786
92276370|NCT00408876|184454668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52||||0.445||95.0|-1.85|0.81|||t-test, 2 sided|||||0.81|-1.85|0.445
92276371|NCT00408876|184454668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.39||||0.043||95.0|0.04|2.74|||t-test, 2 sided|||||2.74|0.04|0.043
92276372|NCT00408876|184454668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.721||95.0|-1.92|1.33|||t-test, 2 sided|||||1.33|-1.92|0.721
92276373|NCT00408876|184454668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.61||||0.053||95.0|-0.02|3.24|||t-test, 2 sided|||||3.24|-0.02|0.053
92276374|NCT00408876|184454668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.91||||0.006||95.0|0.54|3.27|||t-test, 2 sided|||||3.27|0.54|0.006
92276375|NCT00408876|184454669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.378||95.0|-0.48|1.25|||t-test, 2 sided|||||1.25|-0.48|0.378
92276376|NCT00408876|184454669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.723||95.0|-0.84|0.59|||t-test, 2 sided|||||0.59|-0.84|0.723
92276377|NCT00408876|184454669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.542||95.0|-0.95|0.5|||t-test, 2 sided|||||0.50|-0.95|0.542
92276378|NCT00408876|184454669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52||||0.245||95.0|-1.39|0.36|||t-test, 2 sided|||||0.36|-1.39|0.245
92276379|NCT00408876|184454669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.61||||0.169||95.0|-1.48|0.26|||t-test, 2 sided|||||0.26|-1.48|0.169
92276380|NCT00408876|184454669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.796||95.0|-0.82|0.63|||t-test, 2 sided|||||0.63|-0.82|0.796
92276381|NCT00408876|184454671|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92276382|NCT00408876|184454671|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|||||||0.015
92276383|NCT00408876|184454671|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|||||||0.015
92276384|NCT00408876|184454672|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||t-test, 2 sided|||||||0.039
92276385|NCT00408876|184454673|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||t-test, 2 sided|||||||0.048
92276386|NCT00408876|184454674|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|||||||0.015
92276387|NCT00408876|184454674|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||t-test, 2 sided|||||||0.046
92276388|NCT00408876|184454675|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||t-test, 2 sided|||||||0.039
92276389|NCT00408876|184454676|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||t-test, 2 sided|||||||0.042
92276390|NCT00408876|184454677|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92354246|NCT04128228|184614413|OTHER|Single group (all individuals with alcohol use disorder received the same treatment). Hormone responses were examined at baseline in individuals with alcohol use disorder (AUD) with and without early trauma (AUD/ET, AUD/NT), as well as in moderate drinkers (MD) with and without early trauma (MD/ET, MD/NT).|F value|4.79|||<|0.01|TWO_SIDED||||||ANOVA|||||||<0.01
92161634|NCT01249092|184212275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-57.3|STANDARD_DEVIATION|62.1||0.001|TWO_SIDED|95.0|-88.2|-26.4||This study tested the hypothesis that treatment with pentoxifylline would result in a statistically significant change from baseline in the level of alkaline phosphatase.|Paired t-test|||A p-value \< 0.05 was considered statistically significant and all analyses were carried out using SAS version 9.2 (The SAS Institute, Cary, NC). Matched pairs t-test was used to compare the change in alkaline phosphatase from baseline. The efficacy of therapy was measured based on improvement in AP levels after therapy with PTX. AP levels at end of the study were compared with values at baseline by matched pairs t-test.||-26.4|-88.2|0.001
92220501|NCT00290342|184341374|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to pertussis toxoid, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|1.44|||||TWO_SIDED|95.0|-0.46|4.13||||||Immune response non-inferiority - Anti-PT||4.13|-0.46|
92354247|NCT04128228|184614414|OTHER|Single Group|Hazard Ratio (HR)|0.71|||<|0.05|TWO_SIDED|95.0|0.53|0.95|||Regression, Cox|||||.95|.53|<0.05
92354248|NCT04128228|184614415|OTHER|Single Group. All individuals with alcohol use disorder received the same treatment.|t value|-3.35|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92354249|NCT04128228|184614416|OTHER|Single Group (All individuals with alcohol use disorder received the same treatment.)|t value|-2.6|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92354250|NCT01117350|184614420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.54||||0.439|TWO_SIDED|95.0|-3.88|8.93||"If superiority not demonstrated, switching from superiority to non-inferiority considered.~Conclusion of non-inferiority reached if lower limit of 2-sided 95% confidence interval of the difference (insulin glargine - liraglutide) \> or = to - 3.5%"|Chi-squared|||"Superiority testing~H0: Rate measured with insulin glargine = rate measured with liraglutide~H1: Rate measured with insulin glargine ≠ rate measured with liraglutide~Sample size calculation (465 randomized patients per arm) was based on the assumption of an expected success rate of 46% with insulin glargine and 35% with liraglutide, an alpha risk of 5% (2-sided) and a power of 90%, taking into account an estimated non evaluability rate of 10%."||8.93|-3.88|0.439
92354251|NCT02931539|184614437|SUPERIORITY||Difference in percentage of responders|32.8|||<|0.001|TWO_SIDED|95.0|22.8|42.74|||Cochran-Mantel-Haenszel|||||42.74|22.80|<0.001
92354252|NCT02931539|184614438|SUPERIORITY||Difference in percentage of responders|9.5||||0.013|TWO_SIDED|95.0|2.02|16.88|||Cochran-Mantel-Haenszel|||||16.88|2.02|0.013
92401036|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|29.9|||<|0.001|TWO_SIDED|95.0|11.5|46.1||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for SNA G1 in RotaTeq group minus Placebo group.|SNA G1||46.1|11.5|<0.001
92220502|NCT00290342|184341374|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to filamentous haemagglutinin, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.45|||||TWO_SIDED|95.0|-1.88|2.95||||||Immune response non-inferiority - Anti-FHA||2.95|-1.88|
92276391|NCT00408876|184454678|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||t-test, 2 sided|||||||0.031
92276392|NCT00408876|184454679|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 2 sided|||||||0.030
92354253|NCT02931539|184614453|OTHER||Hazard Ratio (HR)|1.14||||0.647|TWO_SIDED|95.0|0.549|2.357|||Log Rank|Two-sided p-value comparing treatment groups was calculated from the log rank test by Kaplan-Meier Method.|Stratified Cox regression model was used as transplant type and baseline plasma CMV DNA level as stratification factors.|||2.357|0.549|0.647
92354254|NCT02059642|184614463|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.1||||0.1358|TWO_SIDED|95.0|-4.87|0.66|||Mixed Models Analysis|MMRM: Model of Repeated Measures||||0.66|-4.87|0.1358
92354255|NCT06097273|184614465|NON_INFERIORITY|The noninferiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.155|||||TWO_SIDED|97.5|1.086|1.229||||||GMR (Cohort A1 vs Cohort A2) for Influenza A H1N1 Antibody||1.229|1.086|
92354256|NCT06097273|184614465|SUPERIORITY|The superiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% confidence interval (CI) of the geometric mean ratio (GMR) was \>1.|GMR|1.155|||||TWO_SIDED|95.0|1.094|1.22||||||GMR (Cohort A1 vs Cohort A2) for Influenza A H1N1 Antibody||1.220|1.094|
92354257|NCT06097273|184614465|NON_INFERIORITY|The noninferiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.063|||||TWO_SIDED|97.5|0.999|1.13||||||GMR (Cohort A1 vs Cohort A2) for Influenza A H3N2 Antibody||1.130|0.999|
92354258|NCT06097273|184614465|SUPERIORITY|The superiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.063|||||TWO_SIDED|95.0|1.007|1.122||||||GMR (Cohort A1 vs Cohort A2) for Influenza A H3N2 Antibody||1.122|1.007|
92354259|NCT06097273|184614465|NON_INFERIORITY|The noninferiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.414|||||TWO_SIDED|97.5|1.322|1.513||||||GMR (Cohort B1 vs Cohort B2) for Influenza A H1N1 Antibody||1.513|1.322|
92354260|NCT06097273|184614465|SUPERIORITY|The superiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.414|||||TWO_SIDED|95.0|1.333|1.5||||||GMR (Cohort B1 vs Cohort B2) for Influenza A H1N1 Antibody||1.500|1.333|
92354261|NCT06097273|184614465|NON_INFERIORITY|The noninferiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.38|||||TWO_SIDED|97.5|1.3|1.465||||||GMR (Cohort B1 vs Cohort B2) for Influenza A H3N2 Antibody||1.465|1.300|
92401037|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|49.8|||<|0.001|TWO_SIDED|95.0|27.1|68.6||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for SNA G1 in RotaTeq group minus Placebo group.|SNA G1||68.6|27.1|<0.001
92354262|NCT06097273|184614465|SUPERIORITY|The superiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.38|||||TWO_SIDED|95.0|1.31|1.454||||||GMR (Cohort B1 vs Cohort B2) for Influenza A H3N2 Antibody||1.454|1.310|
92354263|NCT06097273|184614465|NON_INFERIORITY|The noninferiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.118|||||TWO_SIDED|97.5|1.063|1.175||||||GMR (Cohort A1 vs Cohort A2) for Influenza B Victoria-lineage Antibody||1.175|1.063|
92354264|NCT06097273|184614465|SUPERIORITY|The superiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.118|||||TWO_SIDED|95.0|1.07|1.167||||||GMR (Cohort A1 vs Cohort A2) for Influenza B Victoria-lineage Antibody||1.167|1.070|
92354265|NCT06097273|184614465|NON_INFERIORITY|The noninferiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.007|||||TWO_SIDED|97.5|0.969|1.047||||||GMR (Cohort A1 vs Cohort A2) for Influenza B Yamagata-lineage Antibody||1.047|0.969|
92354266|NCT06097273|184614465|SUPERIORITY|The superiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.007|||||TWO_SIDED|95.0|0.973|1.042||||||GMR (Cohort A1 vs Cohort A2) for Influenza B Yamagata-lineage Antibody||1.042|0.973|
92354267|NCT06097273|184614465|NON_INFERIORITY|The noninferiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.216|||||TWO_SIDED|97.5|1.156|1.278||||||GMR (Cohort B1 vs Cohort B2) for Influenza B Victoria-lineage Antibody||1.278|1.156|
92354268|NCT06097273|184614465|SUPERIORITY|The superiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.216|||||TWO_SIDED|95.0|1.163|1.27||||||GMR (Cohort B1 vs Cohort B2) for Influenza B Victoria-lineage Antibody||1.270|1.163|
92354269|NCT06097273|184614465|NON_INFERIORITY|The noninferiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.154|||||TWO_SIDED|97.5|1.109|1.201||||||GMR (Cohort B1 vs Cohort B2) for Influenza B Yamagata-lineage Antibody||1.201|1.109|
92354270|NCT06097273|184614465|SUPERIORITY|The superiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.154|||||TWO_SIDED|95.0|1.115|1.195||||||GMR (Cohort B1 vs Cohort B2) for Influenza B Yamagata-lineage Antibody||1.195|1.115|
92354271|NCT06097273|184614466|SUPERIORITY|The superiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.641|||||TWO_SIDED|95.0|1.526|1.765||||||GMR (Cohort A1 vs Cohort A2) for SARS-CoV-2 Antibody||1.765|1.526|
92354272|NCT06097273|184614466|NON_INFERIORITY|The noninferiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.641|||||TWO_SIDED|97.5|1.51|1.783||||||GMR (Cohort A1 vs Cohort A2) for SARS-CoV-2 Antibody||1.783|1.510|
92354273|NCT06097273|184614466|SUPERIORITY|The superiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.308|||||TWO_SIDED|95.0|1.219|1.404||||||GMR (Cohort B1 vs Cohort B2) for SARS-CoV-2 Antibody||1.404|1.219|
92354274|NCT06097273|184614466|NON_INFERIORITY|The noninferiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.308|||||TWO_SIDED|97.5|1.207|1.418||||||GMR (Cohort B1 vs Cohort B2) for SARS-CoV-2 Antibody||1.418|1.207|
92401038|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|7.1||||0.2|TWO_SIDED|95.0|-11.3|24.8||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for SNA G2 in RotaTeq group minus Placebo group.|SNA G2||24.8|-11.3|0.20
92161635|NCT01249092|184212276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.69|STANDARD_ERROR_OF_MEAN|8.66||0.5|TWO_SIDED|95.0|-24.14|8.68||Hypothesis tested if TIMP-1 levels after therapy with pentoxifylline changed significantly from baseline from baseline.|Paired t-test.|||Change from baseline in TIMP-1 levels was assessed by paired-t test. Distribution the variable values was assessed using normal probability plots. Matched pairs t-test was used to compare the change from baseline.||8.68|-24.14|0.5
92354275|NCT06097273|184614467|SUPERIORITY|The superiority in seroconversion rate (SCR) in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|5.4|||||TWO_SIDED|95.0|2.4|8.4||||||Percentage Difference (Cohort A1 vs Cohort A2) for Influenza A H1N1 Antibody||8.4|2.4|
92354276|NCT06097273|184614467|NON_INFERIORITY|The noninferiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|5.4|||||TWO_SIDED|97.5|1.9|8.8||||||Percentage Difference (Cohort A1 vs Cohort A2) for Influenza A H1N1 Antibody||8.8|1.9|
92354277|NCT06097273|184614467|SUPERIORITY|The superiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|4.0|||||TWO_SIDED|95.0|1.0|7.1||||||Percentage Difference (Cohort A1 vs Cohort A2) for Influenza A H3N2 Antibody||7.1|1.0|
92354278|NCT06097273|184614467|NON_INFERIORITY|The noninferiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|4.0|||||TWO_SIDED|97.5|0.5|7.6||||||Percentage Difference (Cohort A1 vs Cohort A2) for Influenza A H3N2 Antibody||7.6|0.5|
92354279|NCT06097273|184614467|SUPERIORITY|The superiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|4.5|||||TWO_SIDED|95.0|1.9|7.2||||||Percentage Difference (Cohort A1 vs Cohort A2) for Victoria-lineage Antibody||7.2|1.9|
92401039|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|14.2||||0.19|TWO_SIDED|95.0|-10.6|36.7||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for SNA G2 in RotaTeq group minus Placebo group.|SNA G2||36.7|-10.6|0.19
92401040|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|19.3|||<|0.001|TWO_SIDED|95.0|0.9|36.4||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for SNA G3 in RotaTeq group minus Placebo group.|SNA G3||36.4|0.9|<0.001
92401041|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|29.4|||<|0.001|TWO_SIDED|95.0|4.7|50.6||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for SNA G3 in RotaTeq group minus Placebo group.|SNA G3||50.6|4.7|<0.001
92401042|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|26.4|||<|0.001|TWO_SIDED|95.0|8.0|42.9||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for SNA G4 in RotaTeq group minus Placebo group.|SNA G4||42.9|8.0|<0.001
92401043|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|58.6|||<|0.001|TWO_SIDED|95.0|37.2|75.9||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for SNA G4 in RotaTeq group minus Placebo group.|SNA G4||75.9|37.2|<0.001
92401044|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.4||||0.024|TWO_SIDED|95.0|-1.7|34.2||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for SNA P1 in RotaTeq group minus Placebo group.|SNA P1||34.2|-1.7|0.024
92401045|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.7||||0.34|TWO_SIDED|95.0|-12.0|35.5||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for SNA P1 in RotaTeq group minus Placebo group.|SNA P1||35.5|-12.0|0.34
92401046|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|51.4|||<|0.001|TWO_SIDED|95.0|34.3|66.3||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for IgA in RotaTeq group minus Placebo group.|IgA||66.3|34.3|<0.001
92401047|NCT00880698|184693008|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|65.1|||<|0.001|TWO_SIDED|95.0|42.7|81.7||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for IgA in RotaTeq group minus Placebo group.|IgA||81.7|42.7|<0.001
92354280|NCT06097273|184614467|NON_INFERIORITY|The noninferiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|4.5|||||TWO_SIDED|95.0|1.5|7.5||||||Percentage Difference (Cohort A1 vs Cohort A2) for Victoria-lineage Antibody||7.5|1.5|
92354281|NCT06097273|184614467|SUPERIORITY|The superiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|-1.4|||||TWO_SIDED|95.0|-3.3|0.4||||||Percentage Difference (Cohort A1 vs Cohort A2) for Yamagata-lineage Antibody||0.4|-3.3|
92354282|NCT06097273|184614467|NON_INFERIORITY|The noninferiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|-1.4|||||TWO_SIDED|97.5|-3.6|0.7||||||Percentage Difference (Cohort A1 vs Cohort A2) for Yamagata-lineage Antibody||0.7|-3.6|
92401048|NCT01295814|184693020|NON_INFERIORITY_OR_EQUIVALENCE|"The study had acceptable sensitivity with a statistical power of 0.99 (99%) for the improvement in the adalimumab group from baseline to week 12.~The study had acceptable sensitivity with a statistical power of 0.92 (92%) for the improvement in the placebo group from baseline to week 12."|Mean Difference (Final Values)|7.9||||0.75|TWO_SIDED|95.0|4.0|11.8||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.|t-test, 2 sided||Confidence interval was improvement in OSPI in the adalimumab group from baseline to week 12.|Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.||11.8|4.0|0.75
92401049|NCT01295814|184693021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.99|TWO_SIDED|95.0|1.7|6.3||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.|t-test, 2 sided||Confidence interval was improvement in ICSI in the adalimumab group from baseline to week 12.|Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.||6.3|1.7|0.99
92401050|NCT01295814|184693022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9||||0.76|TWO_SIDED|95.0|2.1|5.8||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.|t-test, 2 sided||Confidence interval was improvement in ICPI in the adalimumab group from baseline to week 12.|Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.||5.8|2.1|0.76
92161636|NCT04936035|184212293|SUPERIORITY||Difference in LS Mean|-16.7|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED|95.0|-21.2|-12.3||MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM as a covariate.|MMRM|||LS Mean Difference between zilebesiran 300 mg Q6M and placebo, 95% CI was calculated using Dunnett's procedure.||-12.3|-21.2|<0.0001
92276393|NCT00408876|184454680|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||||||0.005
92276394|NCT00408876|184454680|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92276395|NCT00408876|184454680|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||||||0.001
92220503|NCT00290342|184341374|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to pertactin, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.47|||||TWO_SIDED|95.0|-1.4|2.64||||||Immune response non-inferiority - Anti-PRN||2.64|-1.4|
92220504|NCT01056510|184341384|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Based on one-sided continuity corrected Chi-Square Test for participants achieving CR confirmed with biopsy versus those not achieving CR confirmed with biopsy|Chi-squared, Corrected|||The first-line subpopulation became the focus of the primary statistical analysis following the protocol amendment dated 21-May-2012.||||0.002
92354283|NCT06097273|184614467|SUPERIORITY|The superiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|17.9|||||TWO_SIDED|95.0|14.8|21.0||||||Percentage Difference (Cohort B1 vs Cohort B2) for Influenza A H1N1 Antibody||21.0|14.8|
92354284|NCT06097273|184614467|NON_INFERIORITY|The noninferiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|17.9|||||TWO_SIDED|97.5|14.3|21.4||||||Percentage Difference (Cohort B1 vs Cohort B2) for Influenza A H1N1 Antibody||21.4|14.3|
92354285|NCT06097273|184614467|SUPERIORITY|The superiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|14.6|||||TWO_SIDED|95.0|11.6|17.6||||||Percentage Difference (Cohort B1 vs Cohort B2) for Influenza A H3N2 Antibody||17.6|11.6|
92354286|NCT06097273|184614467|NON_INFERIORITY|The noninferiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|14.6|||||TWO_SIDED|97.5|11.1|18.0||||||Percentage Difference (Cohort B1 vs Cohort B2) for Influenza A H3N2 Antibody||18.0|11.1|
92354287|NCT06097273|184614467|SUPERIORITY|The superiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|8.6|||||TWO_SIDED|95.0|6.0|11.2||||||Percentage Difference (Cohort B1 vs Cohort B2) for Victoria-lineage Antibody||11.2|6.0|
92354288|NCT06097273|184614467|NON_INFERIORITY|The noninferiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|8.6|||||TWO_SIDED|97.5|5.6|11.6||||||Percentage Difference (Cohort B1 vs Cohort B2) for Victoria-lineage Antibody||11.6|5.6|
92354289|NCT06097273|184614467|SUPERIORITY|The superiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|2.7|||||TWO_SIDED|95.0|0.6|4.7||||||Percentage Difference (Cohort B1 vs Cohort B2) for Yamagata-lineage Antibody||4.7|0.6|
92354290|NCT06097273|184614467|NON_INFERIORITY|The noninferiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|2.7|||||TWO_SIDED|97.5|0.3|5.0||||||Percentage Difference (Cohort B1 vs Cohort B2) for Yamagata-lineage Antibody||5.0|0.3|
92354291|NCT06097273|184614468|SUPERIORITY|The superiority in seroresponse rate (SRR) in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the SRR difference was \>0%.|Percentage Difference|12.8|||||TWO_SIDED|95.0|10.0|15.5||||||Percentage Difference (Cohort A1 vs Cohort A2) for SARS-CoV-2 Antibody||15.5|10.0|
92354292|NCT06097273|184614468|NON_INFERIORITY|The noninferiority in SRR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the SRR difference was \>-10%.|Percentage Difference|12.8|||||TWO_SIDED|97.5|9.6|15.9||||||Percentage Difference (Cohort A1 vs Cohort A2) for SARS-CoV-2 Antibody||15.9|9.6|
92354293|NCT06097273|184614468|SUPERIORITY|The superiority in SRR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the SRR difference was \>0%.|Percentage Difference|8.1|||||TWO_SIDED|95.0|5.5|10.6||||||Percentage Difference (Cohort B1 vs Cohort B2) for SARS-CoV-2 Antibody||10.6|5.5|
92354294|NCT06097273|184614468|NON_INFERIORITY|The noninferiority in SRR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the SRR difference was \>-10%.|Percentage Difference|8.1|||||TWO_SIDED|97.5|5.2|11.0||||||Percentage Difference (Cohort B1 vs Cohort B2) for SARS-CoV-2 Antibody||11.0|5.2|
92354295|NCT03681093|184614480|SUPERIORITY||Least Squares (LS) Mean|0.05|STANDARD_ERROR_OF_MEAN|0.323||0.979|TWO_SIDED|95.0|-0.59|0.7||Adjusted p-value is reported. The adjusted p-value was obtained from the Dunnet Multiplicity Correction applied to control the Type I error for the primary analysis.|Mixed Model for Repeated Measures (MMRM)|||||0.70|-0.59|0.979
92354296|NCT03681093|184614480|SUPERIORITY||LS Mean|-0.25|STANDARD_ERROR_OF_MEAN|0.319||0.656|TWO_SIDED|95.0|-0.88|0.39||Adjusted p-value is reported. The adjusted p-value was obtained from the Dunnet Multiplicity Correction applied to control the Type I error for the primary analysis.|MMRM|||||0.39|-0.88|0.656
92220505|NCT01056510|184341385|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Based on one-sided continuity corrected Chi-Square Test for participants achieving CR confirmed with biopsy versus those not achieving CR confirmed with biopsy|Chi-squared, Corrected|||||||< 0.001
92354297|NCT03681093|184614481|SUPERIORITY||LS Mean|0.64|STANDARD_ERROR_OF_MEAN|0.249||0.012|TWO_SIDED|95.0|0.15|1.14||Unadjusted p-value|MMRM|||||1.14|0.15|0.012
92354298|NCT03681093|184614481|SUPERIORITY||LS Mean|0.45|STANDARD_ERROR_OF_MEAN|0.248||0.074|TWO_SIDED|95.0|-0.04|0.94||Unadjusted p-value|MMRM|||||0.94|-0.04|0.074
92354299|NCT03681093|184614482|SUPERIORITY||LS Mean|5.22|STANDARD_ERROR_OF_MEAN|4.881||0.288|TWO_SIDED|95.0|-4.49|14.93||Unadjusted p-value|MMRM|||||14.93|-4.49|0.288
92354300|NCT03681093|184614482|SUPERIORITY||LS Mean|-2.17|STANDARD_ERROR_OF_MEAN|4.936||0.661|TWO_SIDED|95.0|-11.99|7.65||Unadjusted p-value|MMRM|||||7.65|-11.99|0.661
92354301|NCT03681093|184614483|SUPERIORITY||LS Mean|0.61|STANDARD_ERROR_OF_MEAN|1.809||0.735|TWO_SIDED|95.0|-2.98|4.21||Unadjusted p-value|MMRM|||||4.21|-2.98|0.735
92354302|NCT03681093|184614483|SUPERIORITY||LS Mean|4.51|STANDARD_ERROR_OF_MEAN|1.821||0.015|TWO_SIDED|95.0|0.89|8.13||Unadjusted p-value|MMRM|||||8.13|0.89|0.015
92401051|NCT01295814|184693023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3||||0.76|TWO_SIDED|95.0|2.6|10.0||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.|t-test, 2 sided||Confidence interval was improvement in PUF in the adalimumab group from baseline to week 12.|Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.||10.0|2.6|0.76
92401052|NCT01295814|184693024|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.|t-test, 2 sided|||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.||||0.67
92401053|NCT03414983|184693025|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.3022|TWO_SIDED|80.0|0.61|1.07||Stratified regular log-rank test|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: NIV+mFOLFOX+BEV over Arm B: mFOLFOX+BEV||1.07|0.61|0.3022
92401054|NCT03414983|184693025|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.3022|TWO_SIDED|95.0|0.53|1.23||Stratified regular log-rank test|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: NIV+mFOLFOX+BEV over Arm B: mFOLFOX+BEV||1.23|0.53|0.3022
92401055|NCT03414983|184693026|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.54|1.19|||||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: NIV+mFOLFOX+BEV over Arm B: mFOLFOX+BEV||1.19|0.54|
92401056|NCT03414983|184693041|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.5041|TWO_SIDED|80.0|0.67|1.15||Stratified regular log-rank test|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: NIV+mFOLFOX+BEV over Arm B: mFOLFOX+BEV||1.15|0.67|0.5041
92401057|NCT03414983|184693041|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.5041|TWO_SIDED|95.0|0.58|1.32||Stratified regular log-rank test|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: NIV+mFOLFOX+BEV over Arm B: mFOLFOX+BEV||1.32|0.58|0.5041
92401058|NCT03085095|184693088|NON_INFERIORITY|The lower bound of the 95% CI for the difference in the cumulative probability of sustained profound castration rate between the 2 treatment groups was calculated with a noninferiority margin of -10%.|Treatment difference|7.9|||||TWO_SIDED|95.0|4.1|11.8|||||Treatment difference= Relugolix - Leuprolide acetate|Following statistical analysis of the lower bound of the 95% CI ≥ 90% for the relugolix group, secondary statistical analysis of non-inferiority was conducted.||11.8|4.1|
92401059|NCT03085095|184693088|SUPERIORITY|If non-inferiority was demonstrated, superiority could be claimed if the lower bound of the 95% CI for the difference in the cumulative probability of sustained profound castration rate between the 2 treatment groups also excluded 0%. The p value was calculated post hoc.|||||<|0.0001|||||||t-test, 2 sided|Two-sided type I error of 0.05.||Following statistical analysis of the lower bound of the 95% CI ≥ 90% for the relugolix group, secondary statistical analysis of superiority was conducted.||||< 0.0001
92401060|NCT03085095|184693089|SUPERIORITY||||||<|0.0001||||||Statistically significance was met if p-value \< 0.05.|t-test, 2 sided|Two-sided type I error rate of 0.05.||Alpha-protected statistical analysis.||||< 0.0001
92401061|NCT03085095|184693090|SUPERIORITY||||||<|0.0001||||||Statistically significance was met if p-value \< 0.05.|t-test, 2 sided|Two-sided type I error rate of 0.05.||Alpha-protected statistical analysis.||||< 0.0001
92401062|NCT03085095|184693091|SUPERIORITY||||||<|0.0001||||||Statistically significance was met if p-value \< 0.05.|Cochran-Mantel-Haenszel|||Alpha-protected statistical analysis.||||< 0.0001
92401063|NCT03085095|184693092|SUPERIORITY||Treatment difference|77.41|||<|0.0001|TWO_SIDED|95.0|73.98|80.83||Statistically significance was met if p-value \< 0.05.|t-test, 2 sided|Two-sided type I error rate of 0.05.|Treatment difference= Relugolix - Leuprolide acetate|Alpha-protected statistical analysis.||80.83|73.98|< 0.0001
92401064|NCT03085095|184693093|SUPERIORITY||||||<|0.0001||||||Statistically significance was met if p-value \< 0.05.|t-test, 2 sided|Two-sided type I error rate of 0.05.||Alpha-protected statistical analysis.||||< 0.0001
92401065|NCT03085095|184693097|OTHER||Treatment difference|13.0|||||TWO_SIDED|95.0|6.9|19.1|||||Treatment difference= Relugolix - Leuprolide acetate|||19.1|6.9|
92401066|NCT03085095|184693099|OTHER||Treatment difference|-2.9|||||TWO_SIDED|95.0|-7.8|2.0|||||Treatment difference= Relugolix - Leuprolide acetate|||2.0|-7.8|
92401067|NCT05543265|184693174|SUPERIORITY||Mean Difference (Final Values)|22.0|||<|0.001|TWO_SIDED|95.0|6.4|28.8|||Chi-squared|||||28.8|6.4|<0.001
92405655|NCT00538902|184701485|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.026||95.0|1.09|4.39||Each comparison was tested at the 2-sided alpha level of 0.05. Subjects with missing data were imputed to be non-responders. The overall type I error rate was preserved by a hierarchical stepwise closed testing procedure.|Cochran-Mantel-Haenszel|||A sample size of 42 subjects in the placebo group and 84 subjects in each of the adalimumab groups was needed to achieve 98% power to detect that the ACR20 response rate in the 80 mg adalimumab group was different from placebo and to achieve 84% power to detect that the 40 mg adalimumab group was different from placebo.||4.39|1.09|0.026
92161637|NCT04936035|184212293|SUPERIORITY||Difference in LS Mean|-15.7|STANDARD_ERROR_OF_MEAN|2.19|<|0.0001|TWO_SIDED|95.0|-20.8|-10.6||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM as a covariate.|MMRM|||The adjusted 95% CI and p-value are based on Dunnett's test. LS Mean Difference between zilebesiran 600 mg Q6M and placebo, 95% CI was calculated using Dunnett's procedure.||-10.6|-20.8|<0.0001
92161638|NCT04936035|184212294|SUPERIORITY||Difference in LS Mean|-12.0|STANDARD_ERROR_OF_MEAN|1.89|<|0.0001|TWO_SIDED|95.0|-15.7|-8.3||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with office SBP as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-8.3|-15.7|<0.0001
92161639|NCT04936035|184212294|SUPERIORITY||Difference in LS Mean|-9.1|STANDARD_ERROR_OF_MEAN|2.19|<|0.0001|TWO_SIDED|95.0|-13.4|-4.8||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with office SBP as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-4.8|-13.4|<0.0001
92161640|NCT04936035|184212295|SUPERIORITY||Difference in LS Mean|-14.1|STANDARD_ERROR_OF_MEAN|2.4|<|0.0001|TWO_SIDED|95.0|-18.9|-9.4||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-9.4|-18.9|<0.0001
92354303|NCT00368849|184614497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.63|||||||ANCOVA|||The primary measures were analyzed as pretreatment and posttreatment difference scores using a series of analyses of covariance controlling for age. The results were screened for model violations (e.g., outliers). Preliminary analyses assured no treatment order effects by examining block by treatment interactions.||||0.63
92354304|NCT00368849|184614498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.09|||||||ANCOVA|||The primary measures were analyzed as pretreatment and posttreatment difference scores using a series of analyses of covariance controlling for age. The results were screened for model violations (e.g., outliers). Preliminary analyses assured no treatment order effects by examining block by treatment interactions.||||0.09
92354305|NCT00368849|184614499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26||||0.46|||||||ANCOVA|||The primary measures were analyzed as pretreatment and posttreatment difference scores using a series of analyses of covariance controlling for age. The results were screened for model violations (e.g., outliers). Preliminary analyses assured no treatment order effects by examining block by treatment interactions.||||0.46
92354306|NCT00368849|184614500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.84|||||||ANCOVA|||The secondary measures were analyzed as pretreatment and posttreatment difference scores using a series of analyses of covariance controlling for age. The results were screened for model violations (e.g., outliers). Preliminary analyses assured no treatment order effects by examining block by treatment interactions.||||0.84
92354307|NCT00368849|184614501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.76|||||||ANCOVA|||The secondary measures were analyzed as pretreatment and posttreatment difference scores using a series of analyses of covariance controlling for age. The results were screened for model violations (e.g., outliers). Preliminary analyses assured no treatment order effects by examining block by treatment interactions.||||0.76
92354308|NCT01902303|184614502|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED||||||Chi-squared|||||||>.5000
92354309|NCT01902303|184614503|SUPERIORITY_OR_OTHER|||||||0.3835|TWO_SIDED||||||Chi-squared|||||||.3835
92354310|NCT04359680|184614505|SUPERIORITY||Odds Ratio (OR)|1.029||||0.9434|TWO_SIDED|95.0|0.4696|2.2546|||Cochran-Mantel-Haenszel|||||2.2546|0.4696|0.9434
92354311|NCT04359680|184614506|SUPERIORITY||Odds Ratio (OR)|1.1162||||0.6805|TWO_SIDED|95.0|0.6623|1.8813|||Cochran-Mantel-Haenszel|||||1.8813|0.6623|0.6805
92354312|NCT04359680|184614508|SUPERIORITY|||||||0.3459|||||||Cochran-Mantel-Haenszel|||||||0.3459
92354313|NCT02802865|184614517|SUPERIORITY||Rate ratio|1.8||||0.007|TWO_SIDED|95.0|1.18|2.75|||Chi-squared, Corrected|||||2.75|1.18|0.007
92354314|NCT02802865|184614518|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92354315|NCT02802865|184614519|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92354316|NCT02802865|184614520|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
92354317|NCT02802865|184614521|SUPERIORITY|||||||0.709|||||||Chi-squared|||This study was not powered to detect significant between-group differences for this conception.||||0.709
92354318|NCT02802865|184614522|SUPERIORITY|||||||0.356|||||||Chi-squared|||This study was not powered to detect significant between-group differences for clinical pregnancy.||||0.356
92354319|NCT02802865|184614524|SUPERIORITY|||||||0.356|||||||Chi-squared|||This study was not powered to detect significant between-group differences for live birth.||||0.356
92354320|NCT02802865|184614525|SUPERIORITY|||||||0.486|||||||Chi-squared, Corrected|||This study was not powered to detect significant between-group differences for pregnancy loss.||||0.486
92354321|NCT01755156|184614533|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.55|||<|0.001|TWO_SIDED|95.0|-0.75|-0.34|||cLDA|Based on a cLDA method with a restriction of the same baseline mean.||||-0.34|-0.75|<0.001
92354322|NCT01755156|184614534|SUPERIORITY_OR_OTHER||Difference in %|0.5|||||TWO_SIDED|95.0|-8.8|9.8|||||Based on Miettinen \& Nurminen method. The 95% CI was computed only for those endpoints with at least 4 participants having events in 1 or more treatment groups.|||9.8|-8.8|
92276396|NCT00408876|184454681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.38||||0.348||95.0|-4.28|1.51|||t-test, 2 sided|||||1.51|-4.28|0.348
92354323|NCT01755156|184614535|SUPERIORITY_OR_OTHER||Difference in %|-2.5|||||TWO_SIDED|95.0|-6.6|1.1|||||Based on Miettinen \& Nurminen method. The 95% CI was computed only for those endpoints with at least 4 participants having events in 1 or more treatment groups.|||1.1|-6.6|
92354324|NCT01755156|184614536|SUPERIORITY_OR_OTHER||Difference in %|4.5|||||TWO_SIDED|95.0|-3.3|12.3||||||||12.3|-3.3|
92354325|NCT01755156|184614537|SUPERIORITY_OR_OTHER||Difference in %|-14.5||||0.011|TWO_SIDED|95.0|-25.6|-3.4|||cLDA|Based on a cLDA method with a restriction of the same baseline mean.||||-3.4|-25.6|0.011
92354326|NCT01755156|184614538|SUPERIORITY_OR_OTHER||Difference in least squares means|-9.5||||0.01|TWO_SIDED|95.0|-16.7|-2.3|||cLDA|Based on a cLDA method with a restriction of the same baseline mean.||||-2.3|-16.7|0.010
92354327|NCT01755156|184614541|SUPERIORITY_OR_OTHER||Between-group rate difference (%)|19.2|||<|0.001|TWO_SIDED|95.0|10.1|28.0|||Miettinen & Nurminen method|||||28.0|10.1|<0.001
92354328|NCT01755156|184614542|SUPERIORITY_OR_OTHER||Between-group rate difference (%)|4.2||||0.164|TWO_SIDED|95.0|-1.8|10.5|||Miettinen & Nurminen method|||||10.5|-1.8|0.164
92354329|NCT01755156|184614545|SUPERIORITY_OR_OTHER||Difference in least squares means|-27.8||||0.001|TWO_SIDED|95.0|-44.8|-10.8|||cLDA|Based on a cLDA method with a restriction of the same baseline mean.||||-10.8|-44.8|0.001
92354330|NCT01755156|184614546|SUPERIORITY_OR_OTHER||Difference in least squares means|3.7||||0.025|TWO_SIDED|95.0|0.5|6.9|||cLDA|Based on a cLDA method with a restriction of the same baseline mean.||||6.9|0.5|0.025
92354331|NCT01755156|184614548|SUPERIORITY_OR_OTHER||Kaplan-Meier difference %|-1.2||||0.654|TWO_SIDED|95.0|-7.0|4.7|||Log Rank|||||4.7|-7.0|0.654
92354332|NCT00382863|184614567|SUPERIORITY_OR_OTHER|||||||0.502|||||||Fisher Exact|One-sided||Null hypothesis = proportion of subjects in treatment group who successfully achieved an improvement of at least 1.0 ml/kg/min at 6 months is less than or equal to the Control group. Subjects who withdrew for cardiac-related reasons were classified as non-responders.||||0.502
92354333|NCT00382863|184614568|SUPERIORITY_OR_OTHER|||||||0.044|||||||Fisher Exact|One-sided||The null hypothesis = the proportion of subjects in the treatment group who successfully achieved an improvement of at least 45 m at 6 months from baseline is less than or equal to that of the Control group. Withdrawals due to cardiac reasons are counted as non-responders.||||0.044
92354334|NCT00382863|184614569|SUPERIORITY_OR_OTHER|||||||0.184|||||||Fisher Exact|One-sided||The null hypothesis = the proportion of treatment subjects who successfully achieved an improvement of at least 7 points at 6 months is equal to or less than that of the control group. Withdrawals due to cardiac reasons are counted as non-responders.||||0.184
92354335|NCT00382863|184614570|NON_INFERIORITY_OR_EQUIVALENCE|Estimated survival for the treatment group was 93%. Estimated survival for the control group was 91.5%. A non-inferiority margin of 7.5%. Final test alpha level of 0.04825.||||||0.012|||||||Exact binomial test|One-sided||The null hypothesis = survival in the treatment group at 12 months is not equivalent to that of the Control group.||||0.012
92401068|NCT04090203|184693214|SUPERIORITY||Percentage|75.0||||0.001|ONE_SIDED|95.0|40.0|||The test was performed at a one-sided significance level of 0.05.|Exact binomial test|The null hypothesis of the exact binomial test was that the percentage of patients who were successfully desensitized was less than or equal to 20%.|The percentage of successfully desensitized participants is presented with a one-sided 95% CI, obtained from the lower bound of the two-sided 90% Clopper-Pearson exact confidence interval.|The null hypothesis was that the percentage of patients who were successfully desensitized was less than or equal to 20%, and the alternative hypothesis was that this percentage was greater than 20%. Assuming 80% of study participants would be successfully desensitized, a sample size of 10 patients would provide greater than 90% power to reject the null hypothesis using a one-sided exact binomial test with a significance level of 0.05.|||40.0|0.001
92220506|NCT01056510|184341386|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||Based on one-sided continuity corrected Chi-Square Test for participants achieving CR confirmed with biopsy versus those not achieving CR confirmed with biopsy|Chi-squared, Corrected|||||||0.009
92220507|NCT01056510|184341387|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED|||||Based on two-sided continuity corrected Chi-Square Test|Chi-squared, Corrected|||After 3 cycles||||0.900
92220508|NCT01056510|184341387|SUPERIORITY_OR_OTHER|||||||0.563|TWO_SIDED|||||Based on two-sided continuity corrected Chi-Square Test|Chi-squared, Corrected|||After 6 cycles||||0.563
92220509|NCT01056510|184341387|SUPERIORITY_OR_OTHER|||||||0.304|TWO_SIDED|||||Based on two-sided continuity corrected Chi-Square Test|Chi-squared, Corrected|||At the EOT visit||||0.304
92220510|NCT01056510|184341390|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.525||||0.003|TWO_SIDED|95.0|0.341|0.809|||Log Rank|||Unstratified analysis||0.809|0.341|0.003
92405656|NCT00538902|184701485|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.68||||0.004||95.0|1.35|5.3||Each comparison was tested at the 2-sided alpha level of 0.05. Subjects with missing data were imputed to be non-responders. The overall type I error rate was preserved by a hierarchical stepwise closed testing procedure.|Cochran-Mantel-Haenszel|||A sample size of 42 subjects in the placebo group and 84 subjects in each of the adalimumab groups was needed to achieve 98% power to detect that the ACR20 response rate in the 80 mg adalimumab group was different from placebo and to achieve 84% power to detect that the 40 mg adalimumab group was different from placebo.||5.30|1.35|0.004
92161641|NCT04936035|184212295|SUPERIORITY||Difference in LS Mean|-14.2|STANDARD_ERROR_OF_MEAN|2.38|<|0.0001|TWO_SIDED|95.0|-18.9|-9.5||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-9.5|-18.9|<0.0001
92405657|NCT00538902|184701486|SUPERIORITY_OR_OTHER|||||||0.009||||||The between-treatment comparison between each adalimumab group vs. placebo was performed at the 2-sided alpha = 0.05 significance level, without using a stepwise testing procedure or alpha adjustment.|Cochran-Mantel-Haenszel|Percentage ACR responders at Week 12 were compared between adalimumab and placebo groups, where missing ACR responses were imputed as non-responder.||||||0.009
92220511|NCT01056510|184341390|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.523||||0.003|TWO_SIDED|95.0|0.339|0.806|||Log Rank|||Stratified analysis: by baseline Binet stage||0.806|0.339|0.003
92161642|NCT04936035|184212296|SUPERIORITY||Difference in LS Mean|-12.1|STANDARD_ERROR_OF_MEAN|2.55|<|0.0001|TWO_SIDED|95.0|-17.2|-7.1||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with office SBP as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-7.1|-17.2|<0.0001
92161643|NCT04936035|184212296|SUPERIORITY||Difference in LS Mean|-10.2|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-15.1|-5.3||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with office SBP as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-5.3|-15.1|<0.0001
92161644|NCT04936035|184212297|SUPERIORITY||Odds Ratio (OR)|10.73|||<|0.0001|TWO_SIDED|95.0|3.76|30.64||Logistic regression model included treatment and race (black; all other races) as factors and baseline 24-hour mean SBP as a covariate|Regression, Logistic|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||30.64|3.76|<0.0001
92220512|NCT01056510|184341392|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Log Rank|||||||0.029
92220513|NCT01056510|184341394|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Log Rank|||||||0.006
92220514|NCT01056510|184341396|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Log Rank|||||||0.037
92220515|NCT01056510|184341398|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Log Rank|||||||0.007
92220516|NCT01056510|184341400|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.994||||0.986|TWO_SIDED|95.0|0.517|1.911||Unstratified analysis|Log Rank|||||1.911|0.517|0.986
92220517|NCT01056510|184341400|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.975||||0.939|TWO_SIDED|95.0|0.505|1.88|||Log Rank|||Stratified analysis: by baseline Binet stage||1.880|0.505|0.939
92220518|NCT01056510|184341401|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Based on two-sided continuity corrected Chi-Square Test|Chi-squared, Corrected|||||||< 0.001
92276397|NCT00408876|184454681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5||||0.04||95.0|0.11|4.89|||t-test, 2 sided|||||4.89|0.11|0.040
92276398|NCT00408876|184454681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.61||||0.191||95.0|-0.81|4.03|||t-test, 2 sided|||||4.03|-0.81|0.191
92276399|NCT00408876|184454681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.89||||0.009||95.0|0.97|6.8|||t-test, 2 sided|||||6.80|0.97|0.009
92354336|NCT00382863|184614571|SUPERIORITY_OR_OTHER|||||||0.052|||||||Wilcoxon (Mann-Whitney)|||Class change from baseline.||||0.052
92354337|NCT00382863|184614572|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92354338|NCT00382863|184614573|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.032
92354339|NCT00382863|184614574|SUPERIORITY_OR_OTHER|||||||0.54|||||||Fisher Exact|One-sided||Improvement of at least 1.0 ml/kg/min from baseline.||||0.540
92354340|NCT00382863|184614575|SUPERIORITY_OR_OTHER|||||||0.067|||||||Fisher Exact|One-sided||Improvement of at least 45 m from baseline.||||0.067
92354341|NCT00382863|184614576|SUPERIORITY_OR_OTHER|||||||0.031|||||||Fisher Exact|One-sided||Improvement of at least 7 points from baseline.||||0.031
92354342|NCT00382863|184614577|SUPERIORITY_OR_OTHER|||||||0.109|||||||Log Rank|||Kaplan-Meier actuarial time-to-first-event analysis||||0.109
92354343|NCT00382863|184614578|SUPERIORITY_OR_OTHER|||||||0.031|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.031
92354344|NCT00382863|184614579|SUPERIORITY_OR_OTHER|||||||0.179|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.179
92354345|NCT00382863|184614580|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.070
92354346|NCT00382863|184614581|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.015
92354347|NCT00382863|184614582|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.032
92354348|NCT00382863|184614584|SUPERIORITY_OR_OTHER|||||||0.627|||||||Fisher Exact|Two-sided||||||0.627
92354349|NCT00382863|184614585|SUPERIORITY_OR_OTHER|||||||0.386|||||||Log Rank|||||||0.386
92354350|NCT00382863|184614586|SUPERIORITY_OR_OTHER|||||||0.154|||||||Fisher Exact|Two-sided||||||0.154
92354351|NCT00382863|184614587|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|Two-sided||||||1.000
92354352|NCT00382863|184614588|SUPERIORITY_OR_OTHER|||||||0.939|||||||Log Rank|||||||0.939
92354353|NCT00382863|184614589|SUPERIORITY_OR_OTHER|||||||0.012|||||||Fisher Exact|Two-sided||||||0.012
92354354|NCT00382863|184614590|SUPERIORITY_OR_OTHER|||||||0.001|||||||Log Rank|||||||0.001
92354355|NCT00382863|184614591|SUPERIORITY_OR_OTHER|||||||0.772|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.772
92354356|NCT01292473|184614594|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.69||||0.4637|TWO_SIDED|95.0|-2.54|1.16||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||1.16|-2.54|0.4637
92354357|NCT01292473|184614594|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.04||||0.0011|TWO_SIDED|95.0|-4.85|-1.24||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||-1.24|-4.85|0.0011
92354358|NCT01292473|184614594|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.81|||<|0.0001|TWO_SIDED|95.0|-6.49|-3.13||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg groups.||-3.13|-6.49|<0.0001
92354359|NCT01292473|184614595|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.73||||0.1575|TWO_SIDED|95.0|-6.53|1.07||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||1.07|-6.53|0.1575
92405658|NCT00538902|184701486|SUPERIORITY_OR_OTHER|||||||0.121|||||||Cochran-Mantel-Haenszel|||||||0.121
92405659|NCT02148874|184701508|SUPERIORITY||Odds Ratio (OR)|1.05||||0.84|TWO_SIDED|95.0|0.64|1.73|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H1N1.||1.73|0.64|0.84
92354360|NCT01292473|184614595|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.69||||0.0001||95.0|-11.49|-3.88||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||-3.88|-11.49|0.0001
92354361|NCT01292473|184614595|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-12.4|||<|0.0001|TWO_SIDED|95.0|-16.13|-8.66||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg groups.||-8.66|-16.13|<0.0001
92354362|NCT01292473|184614596|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.01||||0.0603|TWO_SIDED|95.0|-4.11|0.09||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||0.09|-4.11|0.0603
92354363|NCT01292473|184614596|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.51|||<|0.0001|TWO_SIDED|95.0|-6.65|-2.36||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||-2.36|-6.65|<0.0001
92354364|NCT01292473|184614596|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.09|||<|0.0001|TWO_SIDED|95.0|-9.26|-4.93||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg groups.||-4.93|-9.26|<0.0001
92354365|NCT01292473|184614597|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.43||||0.0478|TWO_SIDED|95.0|1.0|2.05||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between Placebo and Omalizumab 75 mg.||2.05|1.00|0.0478
92220519|NCT02285998|184341404|NON_INFERIORITY_OR_EQUIVALENCE|The sample size required to achieve 80% power was calculated based on a one-sided alpha level of 0.025 and an attack rate of 2% in the IIV4 and 1.53% for the Flublok groups respectively.|Relative Vaccine Efficacy (rVE)|30.0|||||TWO_SIDED|95.0|10.0|47.0||||||The primary efficacy analysis was based on the numbers of protocol-defined influenza-like illnesses with rtPCR-positive nasopharyngeal swabs detecting influenza virus of any strain. The Relative Vaccine Efficacy was 30% (10, 47). Non-inferiority would be concluded if the lower bound of the 95% CI for rVE was \> -20%. Superiority of RIV4 in a pre-specified exploratory analysis required that the lower bound of the two-sided 95% CI of rVE be \> +9%.||47|10|
92354366|NCT01292473|184614597|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.59||||0.0101|TWO_SIDED|95.0|1.12|2.26||Refer to the Type-I error control plan.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||2.26|1.12|0.0101
92354367|NCT01292473|184614597|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.12|||<|0.0001|TWO_SIDED|95.0|1.48|3.03||Refer to the Type-I error control plan.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between placebo and omalizumab 300 mg groups.||3.03|1.48|<0.0001
92354368|NCT01292473|184614598|SUPERIORITY_OR_OTHER|||||||0.3419||||||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||||0.3419
92354369|NCT01292473|184614598|SUPERIORITY_OR_OTHER|||||||0.001||||||Refer to the Type-I error control plan.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||||0.0010
92354370|NCT01292473|184614598|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Refer to the Type-I error control plan.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between placebo and omalizumab 300 mg groups.||||<0.0001
92354371|NCT01292473|184614599|SUPERIORITY_OR_OTHER|||||||0.4366||||||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||||0.4366
92354372|NCT01292473|184614599|SUPERIORITY_OR_OTHER|||||||0.0045||||||Refer to the Type-I error control plan.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||||0.0045
92354373|NCT01292473|184614599|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Refer to the Type-I error control plan.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg groups.||||<0.0001
92354374|NCT01292473|184614600|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.48||||0.0082|TWO_SIDED|95.0|-4.32|-0.65||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||-0.65|-4.32|0.0082
92354375|NCT01292473|184614600|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.76|||<|0.0001|TWO_SIDED|95.0|-5.61|-1.9||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||-1.90|-5.61|<0.0001
92354376|NCT01292473|184614600|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.15|||<|0.0001|TWO_SIDED|95.0|-9.03|-5.27||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and the omalizumab 300 mg groups.||-5.27|-9.03|<0.0001
92354377|NCT01292473|184614601|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.68||||0.1207|TWO_SIDED|95.0|-3.82|0.45||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||0.45|-3.82|0.1207
92354378|NCT01292473|184614601|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.51||||0.0215|TWO_SIDED|95.0|-4.64|-0.38||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||-0.38|-4.64|0.0215
92354379|NCT01292473|184614601|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.79||||0.0004|TWO_SIDED|95.0|-5.85|-1.73||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg groups.||-1.73|-5.85|0.0004
92220520|NCT00619255|184341424|SUPERIORITY||Slope|1.38||||0.71|TWO_SIDED||||||Chi-squared|DF=3||||||0.71
92220521|NCT00619255|184341425|SUPERIORITY||Slope|1.02||||0.8|TWO_SIDED||||||Chi-squared|DF=3||||||0.80
92220522|NCT00619255|184341426|SUPERIORITY|||||||0.67|||||||Chi-squared|"DF = 1~Chi-Square Value = 0.18"||||||0.67
92354380|NCT01292473|184614602|SUPERIORITY_OR_OTHER|||||||0.1361||||||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||||0.1361
92401069|NCT01488045|184693221|EQUIVALENCE|We compared patient satisfaction for those receiving the 2 sedation regimens using the Schuirmann 2 one-sided t test procedure.15 The groups were declared to be equivalent in terms of patient satisfaction if the 90% CI for the difference in mean satisfaction had outer boundaries indicating \<5% difference on the 100-point VAS. Nonequivalence was declared if the lower 90% CI boundary for the difference was less than -5.0, or if the upper 90% CI boundary for the difference was \>5.0.|Mean Difference (Final Values)|-14.0741|STANDARD_DEVIATION|22.2|||TWO_SIDED|95.0|-18.5|-9.6||||||To calculate the required sample size for this study, the equivalence limit was set at 5 units difference on the VAS, with an expected mean difference of 0. The common SD of 16.2 was estimated based on the range of expected scores for the VAS from Ulmer et al. Using these inputs, a total sample size of 262 patients was estimated to have 80% power to reject the null hypothesis that the test and standard were not equivalent and conclude that they were equivalent.||-9.6|-18.5|
92354381|NCT01292473|184614602|SUPERIORITY_OR_OTHER|||||||0.0905||||||Refer to the Type-I error control plan.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||||0.0905
92354382|NCT01292473|184614602|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Refer to the Type-I error control plan.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg.||||<0.0001
92354383|NCT03777176|184614609|SUPERIORITY|The negative binomial regression used region and treatment group as fixed effects, and Baseline hypoglycemic rate as covariate and number of hypoglycemic events during Weeks 2-4 as dependent variable.|Event rate ratio|0.85||||0.5028|TWO_SIDED|95.0|0.54|1.36|||Negative binomial regression|||The primary analysis was performed as a negative binominal regression analysis on the difference of the SMPG-detected hypoglycemia episode rate between treatment groups over the Weeks 2-4.||1.36|0.54|0.5028
92354384|NCT03777176|184614610|SUPERIORITY||Mean Difference (Net)|0.84||||0.6433|TWO_SIDED|95.0|-2.71|4.39||The P value should be interpreted with caution given the procedural issues (hypoglycemia at the beginning of the test, test meals not being the same, and some children only having 1 test) which affected the preplanned statistical evaluation.|ANCOVA|||||4.39|-2.71|0.6433
92354385|NCT03777176|184614611|SUPERIORITY||Mean Difference (Net)|0.15||||0.9653|TWO_SIDED|95.0|-6.48|6.78||There was 1 missing value at Baseline for the dasiglucagon + standard of care group.|ANCOVA|||||6.78|-6.48|0.9653
92354386|NCT03777176|184614612|SUPERIORITY||Event rate ratio|0.93||||0.8114|TWO_SIDED|95.0|0.49|1.74|||Negative binominal regression|The negative binomial regression used region and treatment group as fixed effects, and Baseline hypoglycemic rate as covariate.||||1.74|0.49|0.8114
92354387|NCT02197065|184614690|OTHER||Proportion|0.2|||||ONE_SIDED|||||||||This was a pilot feasibility study and we were only powered to determine the frequency of troponin elevation in the entire study population, not to compare the frequency of a rise in troponin in the two study arms. Thus Aim 1 applies to the entire study cohort.||||
92354388|NCT02197065|184614691|SUPERIORITY||Median Difference (Final Values)|13.0||||0.58|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.58
92354389|NCT02197065|184614692|SUPERIORITY||Median Difference (Final Values)|0.3||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
92354390|NCT04829214|184614718|SUPERIORITY||Risk Difference (RD)|-10.2|STANDARD_ERROR_OF_MEAN|7.9|=|0.385|TWO_SIDED|95.0|-26.0|5.0|||Mantel Haenszel|||The percentage of responders will be compared between the two groups using the Mantel Haenszel test controlling for category of duration of tinnitus and category of baseline TFI overall score. The primary efficacy analysis will be conducted for the comparison of OTO-313 and placebo, using a 2-sided test and an alpha level of 5%. The 95% confidence intervals (CI) around the common risk difference will also be provided.||5|-26|=0.385
92354391|NCT05287685|184614723|OTHER|||||||0.29|||||||t-test, 2 sided|||Preliminary pre-post outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline (week 0) to posttest (week 8) scores.||||.29
92354392|NCT05287685|184614723|OTHER|||||||0.34|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline(week 0) to follow-up (week 16) scores.||||.34
92354393|NCT05287685|184614723|SUPERIORITY|||||||0.02|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at posttest (Week 8) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.02
92354394|NCT05287685|184614723|SUPERIORITY|||||||0.04|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at follow-up (Week 16) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.04
92354395|NCT05287685|184614724|OTHER|||||||0.88|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline (week 0) to posttest (week 8) scores.||||.88
92354396|NCT05287685|184614724|OTHER|||||||0.87|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline(week 0) to follow-up (week 16) scores.||||.87
92401070|NCT02587221|184693243|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of RT-PCR confirmed due to any strain.~An ILI was defined as presence of ≥1 respiratory symptom (e.g. sore throat, cough, sputum production, wheezing, or difficulty breathing) concurrently with ≥1 systemic symptom (temp \>37.2°C/99°F, chills, tiredness, headache, or myalgia) (protocol defined ILI definition)."|Vaccine efficacy (VE)|19.8|||||TWO_SIDED|97.45|-5.27|38.91|||Regression, Cox|Adjusted for covariates||The efficacy of aQIV would be demonstrated if the LL of the two-sided multiplicity adjusted 95%CI for the vaccine efficacy is \>40%||38.91|-5.27|
92354397|NCT05287685|184614724|SUPERIORITY|||||||0.1|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at posttest (Week 8) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.10
92401071|NCT02587221|184693248|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of RT-PCR confirmed due to any strain.~An ILI was defined as the presence of fever (temperature \>37.2°C) with cough or sore throat (modified CDC ILI definition)."|Vaccine efficacy (VE)|32.12|||||TWO_SIDED|95.0|10.23|48.67|||Regression, Cox|Adjusted for covariates||||48.67|10.23|
92401072|NCT02587221|184693249|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically matched to the vaccine strains.~An ILI was defined as the presence of ≥1 respiratory symptom (eg. sore throat, cough, sputum production, wheezing, or difficulty breathing) concurrently with ≥1 systemic symptom (temp \>37.2°C/99°F, chills, tiredness, headache, or myalgia) (protocol defined ILI definition)."|Vaccine efficacy (VE)|49.94|||||TWO_SIDED|95.0|-24.03|79.79|||Regression, Cox|Adjusted for covariates||The efficacy of aQIV would be demonstrated if the LL of the two-sided multiplicity adjusted 95%CI for the vaccine efficacy is \>40%||79.79|-24.03|
92401073|NCT02587221|184693250|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically matched to the strains selected for the seasonal vaccine.~An ILI was defined as presence of fever (temperature \>37.2°C) with cough or sore throat (modified CDC ILI definition)."|Vaccine efficacy (VE)|61.5|||||TWO_SIDED|95.0|-7.98|86.28|||Regression, Cox|Adjusted for covariates||||86.28|-7.98|
92401074|NCT02587221|184693251|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any vaccine strain regardless of antigenic match.~An ILI was defined as the presence of ≥1 respiratory symptom (e.g. sore throat, cough, sputum production, wheezing, or difficulty breathing) concurrently with ≥1 systemic symptom (temp \>37.2°C/99°F, chills, tiredness, headache, or myalgia) (protocol defined ILI definition)."|Vaccine efficacy (VE)|28.66|||||TWO_SIDED|95.0|0.05|49.08|||Regression, Cox|Adjusted for covariates||||49.08|0.05|
92401075|NCT02587221|184693252|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza regardless of antigenic match~An ILI was defined as presence of fever (temperature \>37.2°C) with cough or sore throat (modified CDC ILI definition)."|Vaccine efficacy (VE)|33.47|||||TWO_SIDED|95.0|2.56|54.57|||Regression, Cox|Adjusted for covariates||||54.57|2.56|
92401076|NCT02587221|184693253|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically unmatched to the vaccine strains.~An ILI is the presence of ≥1 respiratory symptom (e.g. sore throat, cough, sputum production, wheezing, or difficulty breathing) concurrently with ≥1 systemic symptom (temp \>37.2°C/99°F, chills, tiredness, headache, or myalgia) (protocol defined ILI definition)."|Vaccine efficacy (VE)|23.79|||||TWO_SIDED|95.0|-9.69|47.05|||Regression, Cox|Adjusted for covariates||||47.05|-9.69|
92401077|NCT02587221|184693254|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically unmatched to the strains selected for the seasonal vaccine.~An ILI was defined as presence of fever (temperature \>37.2°C) with cough or sore throat (modified CDC ILI definition)."|Vaccine efficacy (VE)|26.11|||||TWO_SIDED|95.0|-11.71|51.13|||Regression, Cox|Adjusted for covariates||||51.13|-11.71|
92161645|NCT04936035|184212297|SUPERIORITY||Odds Ratio (OR)|17.93|||<|0.0001|TWO_SIDED|95.0|6.24|51.52||Logistic regression model included treatment and race (black; all other races) as factors and baseline 24-hour mean SBP as a covariate|Regression, Logistic|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||51.52|6.24|<0.0001
92354398|NCT05287685|184614724|SUPERIORITY|||||||0.9|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at follow-up (Week 16) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.90
92401078|NCT02587221|184693259|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of RT-PCR confirmed due to any strain.~An ILI was defined as presence of fever (temperature ≥38°C) with cough (WHO ILI definition)."|Vaccine efficacy (VE)|51.08|||||TWO_SIDED|95.0|28.21|66.67|||Regression, Cox|Adjusted for covariates||||66.67|28.21|
92220523|NCT00619255|184341427|SUPERIORITY||Slope|9.0||||0.03|TWO_SIDED||||||Chi-squared|DF=3||||||0.03
92401079|NCT02587221|184693260|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically matched to the strains selected for the seasonal vaccine.~An ILI was defined as presence of fever (temperature ≥38°C) with cough (WHO ILI definition)"|Vaccine efficacy (VE)|74.96|||||TWO_SIDED|95.0|-17.93|94.68|||Regression, Cox|Adjusted for covariates||||94.68|-17.93|
92401080|NCT02587221|184693261|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza regardless of antigenic match.~An ILI was defined as presence of fever (temperature ≥38°C) with cough (WHO ILI definition)."|Vaccine efficacy (VE)|60.17|||||TWO_SIDED|95.0|31.19|76.94|||Regression, Cox|Adjusted for covariates||||76.94|31.19|
92161646|NCT00286741|184212307|SUPERIORITY_OR_OTHER|||||||0.15|||||||Mixed Models Analysis|||||||0.15
92161647|NCT00286741|184212308|SUPERIORITY_OR_OTHER|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92161648|NCT03745794|184212310|OTHER|||||||0.17|||||||Chi-squared|||||||0.17
92161649|NCT04131933|184212342|SUPERIORITY|It was hypothesized that there would be a 50% reduction in Oncotype DX assay requests following the intervention.||||||0.37|||||||Fisher Exact|Fisher's exact test to compare number of patients with Oncotype DX ordered at 0-6 months (pre-intervention) vs 7-12 months (post-intervention)||Pre-Intervention (Period 1 and Period 2) vs Post-Intervention (Period 3 and Period 4)||||0.37
92161650|NCT00667693|184212346|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35|||<|0.001|TWO_SIDED|95.0|0.23|0.55|||Regression, Cox|||||0.55|0.23|<0.001
92354399|NCT05287685|184614725|EQUIVALENCE|Analysis to test whether groups had equivalent levels of satisfaction with treatment (defined as the groups not being significantly different at the level of p\<.05).||||||0.8|||||||t-test, 2 sided|||T-test analysis for the pilot RCT, comparing the outcome variable at posttest (Week 8) between the two groups.||||.80
92354400|NCT05287685|184614726|OTHER|||||||0.35|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline (week 0) to posttest (week 8) scores.||||.35
92354401|NCT05287685|184614726|OTHER|||||||0.049|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline(week 0) to follow-up (week 16) scores.||||.049
92354402|NCT05287685|184614726|SUPERIORITY|||||||0.45|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at posttest (Week 8) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.45
92354403|NCT05287685|184614726|SUPERIORITY|||||||0.2|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at follow-up (Week 16) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.20
92354404|NCT05287685|184614727|OTHER|||||||0.006|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline (week 0) to posttest (week 8) scores.||||.006
92354405|NCT05287685|184614727|OTHER|||||||0.011|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline(week 0) to follow-up (week 16) scores.||||.011
92354406|NCT05287685|184614727|SUPERIORITY|||||||0.22|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at posttest (Week 8) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.22
92354407|NCT05287685|184614727|SUPERIORITY|||||||0.25|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at follow-up (Week 16) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.25
92354408|NCT06399471|184614728|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.126||||||One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.|ANOVA|||An ANOVA was used to compare the Power Knee and the C-Leg 4.0 when used during Ten Meter Walking Test.||||0.126
92354409|NCT06399471|184614728|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.015|||||||ANOVA|||An ANOVA was used to compare the Power Knee and the Rheo when used during Ten Meter Walking Test.||||0.015
92354410|NCT06399471|184614728|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.852|||||||ANOVA|||An ANOVA was used to compare the Rheo and the C-Leg 4.0 when used during Ten Meter Walking Test.||||0.852
92354411|NCT06399471|184614729|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary||||||0.003|||||||ANOVA|||An ANOVA was used to compare the Power Knee and the C-Leg 4.0 when used during Two Meter Walking Test.||||0.003
92354412|NCT06399471|184614729|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary||||||0.027|||||||ANOVA|||An ANOVA was used to compare the Power Knee and the Rheo when used during Two Meter Walking Test.||||0.027
92354413|NCT06399471|184614729|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary||||||0.425|||||||ANOVA|||An ANOVA was used to compare the Rheo and the C-Leg 4.0 when used during Two Meter Walking Test.||||0.425
92354414|NCT06399471|184614730|OTHER|Non-parametric Friedman's test with multiple comparison correction||||||0.006|||||||Non-parametric Friedman's test with mult|||The Non-parametric Friedman's test was used to compare the survey results between the participants using the Power Knee and the C-Leg 4.0.||||0.006
92354415|NCT06399471|184614730|OTHER|Non-parametric Friedman's test with multiple comparison correction||||||0.236|||||||Non-parametric Friedman's test with mult|||The Non-parametric Friedman's test was used to compare the survey results between the participants using the Power Knee and the Rheo.||||0.236
92354416|NCT06399471|184614730|OTHER|Non-parametric Friedman's test with multiple comparison correction||||||0.118|||||||Non-parametric Friedman's test with mult|||The Non-parametric Friedman's test was used to compare the survey results between the participants using the Rheo and the C-Leg 4.0.||||0.118
92354417|NCT06399471|184614731|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.687|||||||ANOVA|||An ANOVA was used to compare the Power Knee, the C-Leg 4.0, and the Rheo when used during Stance Time Asymmetry Index test.||||0.687
92354418|NCT06399471|184614732|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.082|||||||ANOVA|||An ANOVA was used to compare the Power Knee, the C-Leg 4.0, and Rheo when used during the Narrowing beam walking test.||||0.082
92354419|NCT06399471|184614733|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.943|||||||ANOVA|||An ANOVA was used to compare the reported falls when for when the Power Knee, C-Leg 4.0, and the Rheo were used.||||0.943
92354420|NCT06399471|184614734|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.535|||||||ANOVA|||An ANOVA was used to compare the Physiological cost index for when the Power Knee, the C-Leg 4.0, and the Rheo were used.||||0.535
92354421|NCT06399471|184614735|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.229|||||||ANOVA|||An ANOVA was used to compare the Stair Ascent Speed for the Power Knee, C-Leg 4.0, and the Rheo when used.||||0.229
92354422|NCT06399471|184614736|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.528|||||||ANOVA|||An ANOVA was used to compare the Stair Descent Speed for the Power Knee, C-Leg 4.0, and the Rheo when used.||||0.528
92220524|NCT00619255|184341428|SUPERIORITY||Slope|1.35||||0.72|TWO_SIDED||||||Chi-squared|DF=3||||||0.72
92354423|NCT06399471|184614737|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.144|||||||ANOVA|||An ANOVA was used to compare the Ramp Ascent Speed between the Power Knee and the C-Leg 4.0.||||0.144
92276400|NCT00408876|184454681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.0||||0.044||95.0|0.08|5.91|||t-test, 2 sided|||||5.91|0.08|0.044
92354424|NCT06399471|184614737|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.024|||||||ANOVA|||An ANOVA was used to compare the Ramp Ascent Speed between the Power Knee and the Rheo.||||0.024
92354425|NCT06399471|184614737|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.949|||||||ANOVA|||An ANOVA was used to compare the Ramp Ascent Speed between the Rheo and the C-Leg 4.0.||||0.949
92354426|NCT06399471|184614738|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary||||||0.051|||||||ANOVA|||An ANOVA was used to compare the Ramp Descent Speed for the Power Knee, C-Leg 4.0, and the Rheo when used.||||0.051
92354427|NCT06399471|184614739|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary||||||0.367|||||||ANOVA|||An ANOVA was used to compare the Steps per Day for the Power Knee, C-Leg 4.0, and the Rheo when used.||||0.367
92354428|NCT04543786|184614773|OTHER|No comparison was made to another intervention or therapy. Comparing values at baseline and Day 2.|Mean Difference (Final Values)|2.8||||0.0048|TWO_SIDED|||||Bonferroni post-hoc tests; p \< 0.05 was considered significant|ANOVA|One-way||||||0.0048
92354429|NCT04543786|184614774|OTHER|No comparison was made to another intervention or therapy. Comparing values at baseline and Day 3.|Mean Difference (Final Values)|3.72|||<|0.001|TWO_SIDED|||||Bonferroni post-hoc tests; p \< 0.05 was considered significant|ANOVA|||||||< 0.001
92354430|NCT04543786|184614775|OTHER|No comparison was made to another intervention or therapy. Comparing values at baseline and Day 4.|Mean Difference (Final Values)|3.24|||<|0.001|TWO_SIDED|||||Bonferroni post-hoc tests; p \< 0.05 was considered significant|ANOVA|||||||<0.001
92354431|NCT04543786|184614776|OTHER|No comparison was made to another intervention or therapy. Comparing values at baseline and Day 5.|Mean Difference (Final Values)|20.84|||<|0.001|TWO_SIDED|||||Bonferroni post-hoc tests; p \< 0.05 was considered significant|ANOVA|||||||<0.001
92354432|NCT04543786|184614778|OTHER|No comparison was made to another intervention or therapy. Comparing values at baseline and Day 5.|Mean Difference (Final Values)|26.78|||<|0.001|TWO_SIDED|||||p \< 0.05 was considered significant|t-test, 2 sided|paired||||||<0.001
92354433|NCT04543786|184614779|OTHER|No comparison was made to another intervention or therapy|Mean Difference (Final Values)|1.3||||0.56|TWO_SIDED|||||p \< 0.05 was considered significant|ANOVA|Repeated measures||||||0.56
92354434|NCT04543786|184614780|OTHER|No comparison was made to another intervention or therapy|Mean Difference (Final Values)|2.3||||0.56|TWO_SIDED|||||p \< 0.05 was considered significant|ANOVA|Repeated measures||||||0.56
92354435|NCT04543786|184614781|OTHER|No comparison was made to another intervention or therapy|Mean Difference (Final Values)|1.2||||0.56|TWO_SIDED|||||p \< 0.05 was considered significant|ANOVA|Repeated measures||||||0.56
92354436|NCT04543786|184614782|OTHER|No comparison was made to another intervention or therapy.|Mean Difference (Final Values)|1.5||||0.56|TWO_SIDED|||||p \< 0.05 was considered significant|ANOVA|Repeated measures||||||0.56
92354437|NCT02046200|184614783|SUPERIORITY_OR_OTHER|||||||0.0563|||||||ANOVA|||||||0.0563
92354438|NCT02046200|184614784|SUPERIORITY_OR_OTHER|||||||0.0342|||||||ANOVA|||||||0.0342
92354439|NCT02046200|184614785|SUPERIORITY_OR_OTHER|||||||0.1597|||||||ANOVA|||||||0.1597
92354440|NCT02046200|184614786|SUPERIORITY_OR_OTHER|||||||0.7617|||||||ANOVA|||||||0.7617
92161651|NCT00097253|184212354|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||Regression, Linear|||Cortisol. Analyses consisted of repeated-measures linear models fit to each dependent variable.IVs assessed in each model were odor, time, gender, expectancy group (primed vs. blind), their interactions;baseline level of the DV was included as a covariate. Post hoc tests were used as appropriate. A two-sided significance level of alpha = 0.05 was used. Model controlled for Time 1 baseline.||||0.83
92354441|NCT02046200|184614787|SUPERIORITY_OR_OTHER|||||||0.93|||||||ANOVA|||||||0.93
92161652|NCT00097253|184212354|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Mixed Models Analysis|||Epinephrine. Analyses consisted of repeated-measures linear models fit to each dependent variable.IVs assessed in each model were odor, time, gender, expectancy group (primed vs. blind), their interactions;baseline level of the DV was included as a covariate. Post hoc tests were used as appropriate. A two-sided significance level of alpha = 0.05 was used. Model controlled for Time 1 baseline.||||0.16
92354442|NCT02046200|184614788|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANOVA|||||||0.95
92276401|NCT00408876|184454681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.89||||0.473||95.0|-3.33|1.55|||t-test, 2 sided|||||1.55|-3.33|0.473
92276402|NCT00408876|184454682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.846||95.0|-3.61|4.4|||t-test, 2 sided|||||4.40|-3.61|0.846
92354443|NCT02046200|184614789|SUPERIORITY_OR_OTHER|||||||0.43|||||||ANOVA|||||||0.43
92354444|NCT02046200|184614790|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||||||0.06
92354445|NCT02046200|184614791|SUPERIORITY_OR_OTHER|||||||0.21|||||||ANOVA|||||||0.21
92354446|NCT02046200|184614792|SUPERIORITY_OR_OTHER|||||||0.09|||||||ANOVA|||||||0.09
92354447|NCT02046200|184614793|SUPERIORITY_OR_OTHER|||||||0.99|||||||ANOVA|||||||0.99
92354448|NCT01837550|184614800|NON_INFERIORITY_OR_EQUIVALENCE|To ensure a between-group effect of 80% at the 5% significance level it was estimated that 60 participants need to be included in the study. An effect size of Cohen's d=0.80 was expected. The expected standardized mean difference on the HHIE formed the basis for the obtained power.||||||0.685|||||||Mixed Models Analysis|||||||0.685
92354449|NCT02965976|184614813|SUPERIORITY|||||||0.773|||||||Cochran-Mantel-Haenszel|||||||0.773
92354450|NCT02965976|184614814|SUPERIORITY|||||||0.773|||||||Cochran-Mantel-Haenszel|||||||0.773
92354451|NCT02965976|184614815|SUPERIORITY|||||||0.368|||||||t-test, 2 sided|||||||0.368
92354452|NCT02965976|184614816|SUPERIORITY|||||||0.987|||||||t-test, 2 sided|||||||0.987
92354453|NCT02965976|184614817|SUPERIORITY|||||||0.423|||||||Cochran-Mantel-Haenszel|||||||0.423
92354454|NCT02965976|184614818|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1.000
92354455|NCT00407030|184614820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|||<|0.001|TWO_SIDED|95.0|-12.0|-5.9||Due to the hierarchical testing no adjustment of type I error was necessary.|ANCOVA|Independent variables in the model were treatment, baseline TWSTRS-Total score, gender, age, pre-treatment of cervical dystonia, and pooled center.||Hierarchical testing: Primary null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to placebo. Rejection of 1st hypothesis lead to test of 2nd null hypothesis: incobotulinumtoxinA (Xeomin) (120 Units) identical to placebo. Rejection of 2nd hypothesis lead to test of 3rd null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to incobotulinumtoxinA (Xeomin) (120 Units). 3 separate models were used to test these hypotheses which results in different LS means estimates.||-5.9|-12.0|<0.001
92354456|NCT00407030|184614826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5|||<|0.001|TWO_SIDED|95.0|-10.4|-4.6||Due to the hierarchical testing no adjustment of type I error was necessary.|ANCOVA|Independent variables in the model were treatment, baseline TWSTRS-Total score, gender, age, pre-treatment of cervical dystonia, and pooled center.||Hierarchical testing: Primary null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to placebo. Rejection of 1st hypothesis lead to test of 2nd null hypothesis: incobotulinumtoxinA (Xeomin) (120 Units) identical to placebo. Rejection of 2nd hypothesis lead to test of 3rd null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to incobotulinumtoxinA (Xeomin) (120 Units). 3 separate models were used to test these hypotheses which results in different LS means estimates.||-4.6|-10.4|<0.001
92354457|NCT00407030|184614827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.447|TWO_SIDED|95.0|-2.1|4.6||Due to the hierarchical testing no adjustment of type I error was necessary.|ANCOVA|Independent variables in the model were treatment, baseline TWSTRS-Total score, gender, age, pre-treatment of cervical dystonia, and pooled center.||Hierarchical testing: Primary null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to placebo. Rejection of 1st hypothesis lead to test of 2nd null hypothesis: incobotulinumtoxinA (Xeomin) (120 Units) identical to placebo. Rejection of 2nd hypothesis lead to test of 3rd null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to incobotulinumtoxinA (Xeomin) (120 Units). 3 separate models were used to test these hypotheses which results in different LS means estimates.||4.6|-2.1|0.447
92354458|NCT02633527|184614849|SUPERIORITY||Mean Difference (Final Values)|-6.2||||0.0899|TWO_SIDED|95.0|-13.4|1.0|||ANOVA|||||1.0|-13.4|0.0899
92354459|NCT02633527|184614849|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.031|TWO_SIDED|95.0|-15.1|-0.7|||ANOVA|||||-0.7|-15.1|0.0310
92354460|NCT02633527|184614849|SUPERIORITY||Mean Difference (Final Values)|-8.1||||0.0268|TWO_SIDED|95.0|-15.3|-0.9|||ANOVA|||||-0.9|-15.3|0.0268
92354461|NCT02633527|184614849|SUPERIORITY||Mean Difference (Final Values)|-8.5||||0.0209|TWO_SIDED|95.0|-15.8|-1.3|||ANOVA|||||-1.3|-15.8|0.0209
92354462|NCT02633527|184614850|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.1305|TWO_SIDED|95.0|-1.0|0.1|||ANOVA|||||0.1|-1.0|0.1305
92354463|NCT02633527|184614850|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.1376|TWO_SIDED|95.0|-1.0|0.1|||ANOVA|||||0.1|-1.0|0.1376
92354464|NCT02633527|184614850|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.009|TWO_SIDED|95.0|-1.3|-0.2|||ANOVA|||||-0.2|-1.3|0.0090
92354465|NCT02633527|184614850|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.0546|TWO_SIDED|95.0|-1.1|0.0|||ANOVA|||||0.0|-1.1|0.0546
92354466|NCT02633527|184614851|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.0708|TWO_SIDED|95.0|-1.3|0.1|||ANCOVA|||||0.1|-1.3|0.0708
92354467|NCT02633527|184614851|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.0309|TWO_SIDED|95.0|-1.4|-0.1|||ANCOVA|||||-0.1|-1.4|0.0309
92354468|NCT02633527|184614851|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.0148|TWO_SIDED|95.0|-1.5|-0.2|||ANCOVA|||||-0.2|-1.5|0.0148
92354469|NCT02633527|184614851|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.0136|TWO_SIDED|95.0|-1.6|-0.2|||ANCOVA|||||-0.2|-1.6|0.0136
92354470|NCT00452530|184614852|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5||||0.0003||||||1-sided P-value|Yanagawa, Tango, and Hiejima test||Apixaban-enoxaparin|Sequential testing was used to control for overall type-I error and to compare the effect of apixaban with that of enoxaparin. Noninferiority (NI) of apixaban compared with enoxaparin for primary endpoint was tested first at 1-sided α=0.025 level. If superiority was demonstrated on the primary endpoint, NI was then tested on the secondary endpoint at a 1-sided α=0.025 level. If NI of the secondary endpoint was demonstrated, superiority was then tested at the 1-sided α=0.025 level.||||0.0003
92354471|NCT00452530|184614852|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.04||||||95.0|-2.03|-0.05|||Inverse variance method|||Sequential testing was used to control for overall type-I error and to compare the effect of apixaban with that of enoxaparin. Noninferiority (NI) of apixaban compared with enoxaparin for primary endpoint was tested first at 1-sided α=0.025 level. If superiority was demonstrated on the primary endpoint, NI was then tested on the secondary endpoint at a 1-sided α=0.025 level. If NI of the secondary endpoint was demonstrated, superiority was then tested at the 1-sided α=0.025 level.||-0.05|-2.03|
92354472|NCT00452530|184614853|SUPERIORITY_OR_OTHER||Adjusted difference of event rates|-0.33||||0.3014|TWO_SIDED|95.0|-0.95|0.29|||Mantel Haenszel||Apixaban-enoxaparin|Major bleeding||0.29|-0.95|0.3014
92354473|NCT00452530|184614853|SUPERIORITY_OR_OTHER||Adjusted difference of event rates|-0.91||||0.1668|TWO_SIDED|95.0|-2.2|0.38|||Mantel Haenszel||Apixaban-enoxaparin|CRNM||0.38|-2.20|0.1668
92354474|NCT00452530|184614853|SUPERIORITY_OR_OTHER||Adjusted difference of event rates|-1.24||||0.0881|TWO_SIDED|95.0|-2.66|0.18|||Mantel Haenszel||Apixaban-enoxaparin|Major or CRNM||0.18|-2.66|0.0881
92354475|NCT00452530|184614853|SUPERIORITY_OR_OTHER||Adjusted difference of event rates|-1.39||||0.1412|TWO_SIDED|95.0|-3.29|0.51|||Mantel Haenszel||Apixaban-enoxaparin|Any bleeding||0.51|-3.29|0.1412
92276403|NCT00408876|184454682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.934||95.0|-3.45|3.17|||t-test, 2 sided|||||3.17|-3.45|0.934
92401081|NCT02587221|184693262|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically unmatched to the strains selected for the seasonal vaccine.~An ILI was defined as presence of fever (temperature ≥38°C) with cough (WHO ILI definition)."|Vaccine efficacy (VE)|57.02|||||TWO_SIDED|95.0|22.73|76.09|||Regression, Cox|Adjusted for covariates||||76.09|22.73|
92401082|NCT04739982|184693264|SUPERIORITY||Cohen's D|0.03|STANDARD_ERROR_OF_MEAN|1.36||0.41|TWO_SIDED|95.0|-0.21|0.27||An independent samples t-test was conducted to compare the change in baseline and follow-up scores of treatment and treatment as usual participants.|t-test, 1 sided|Degrees of freedom=274 Significance level=.05||||.27|-.21|.41
92161653|NCT00097253|184212354|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||Mixed Models Analysis|||Norepinephrine. Model controlled for Time 1 baseline. Comparing timepoints 4 and 5 for pre versus post stressor, e.g. lemon versus water control; Citrus(5-4)-Water(5-4).||||0.017
92354476|NCT00452530|184614854|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.74||P-value was statistically significant at the 1-sided 0.025 level|Yanagawa, Tango, and Hiejima test||Apixaban-enoxaparin|Sequential testing was used to control for overall type-I error and to compare the effect of apixaban with that of enoxaparin. Noninferiority (NI) of apixaban compared with enoxaparin for primary endpoint was tested first at 1-sided α=0.025 level. If NI on primary endpoint was demonstrated, superiority for the endpoint was then tested at 1-sided α=0.025 level. If superiority was demonstrated on the primary endpoint, NI was then tested on the key secondary endpoint at 1-sided α=0.025 level.||0.74|0.51|<0.0001
92354477|NCT00452530|184614854|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-9.27|||<|0.0001||95.0|-12.74|-5.79||P-value is statistically significant at the 1-sided 0.025 level|Yanagawa, Tango, and Hiejima test||Apixaban-enoxaparin|Sequential testing was used to control for overall type-I error and to compare the effect of apixaban with that of enoxaparin. Noninferiority (NI) of apixaban compared with enoxaparin for primary endpoint was tested first at 1-sided α=0.025 level. If NI on primary endpoint was demonstrated, superiority for the endpoint was then tested at 1-sided α=0.025 level. If superiority was demonstrated on the primary endpoint, NI was then tested on the key secondary endpoint at 1-sided α=0.025 level.||-5.79|-12.74|<0.0001
92354478|NCT06091956|184614860|SUPERIORITY|||||||0.008|||||||McNemar|||||||0.008
92354479|NCT06091956|184614861|SUPERIORITY|||||||0.629|||||||Wilcoxon (Mann-Whitney)|||||||0.629
92354480|NCT06091956|184614864|SUPERIORITY|||||||0.175|||||||Wilcoxon (Mann-Whitney)|||||||0.175
92354481|NCT06091956|184614865|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
92354482|NCT00318136|184614871|SUPERIORITY_OR_OTHER||Percentage of patients|3.2||||||90.0|0.3|13.5|||Blyth-Still-Casella|||||13.5|0.3|
92354483|NCT01378273|184614920|SUPERIORITY|We assumed no effect of treatment on death, but that Epo will lead to a decrease in the rate of NDI. If we assume a multiplicative reduction in the NDI rate of 0.45 then we expect a treated NDI rate of 12 percent and an overall rate of death+NDI of 30.4% as compared to the control rate of 40.4% corresponding to an overall treatment rate ratio of 0.75. This leads to a sample size of 376 evaluated subjects per arm or a total evaluated sample size of 752 subjects.|Risk Ratio (RR)|1.03||||0.05|TWO_SIDED|0.05|0.81|1.32||A two-sided type I error of 0.05 with no formal adjustment for multiple comparisons unless otherwise specified (such as with safety outcomes).|GEE Wald test based on logistic regressi|adjustments were made for gestational age at birth and recruitment site as a fixed effect.|The numerator is the Epo group, denominator is the control group|We evaluated the primary outcome of death or neurodevelopmental impairment using generalized estimating equations to account for potential correlation within siblings from the same pregnancy, with adjustment for gestational age at birth and recruitment site as a fixed effect. The primary analysis included infants with complete data and excluded data from infants known to be alive but in whom neurodevelopmental outcomes were not assessed.||1.32|0.81|0.05
92220525|NCT02121262|184341429|SUPERIORITY||Rate Difference|1.5||||0.7431|TWO_SIDED|95.0|-5.9|8.9|||Cochran-Mantel-Haenszel|Based on the Cochran-Mantel-Haenszel (CMH) general association test stratified by baseline BCVA categories.||||8.9|-5.9|0.7431
92354484|NCT01378273|184614921|OTHER|SAEs were defined prospectively. The rate of total SAEs observed through hospital discharge were compared after accounting for potential within-sibship correlation (with multiple gestations) using Generalized Estimating Equations (GEE) with robust standard errors. We used a GEE Wald test based on Poisson or logistic regression for total SAE count and individual events respectively. All other non-categorical data were assessed with GEE regression models appropriate for continuous outcomes.|Risk Ratio (RR)|1.01||||0.05|TWO_SIDED|95.0|0.83|1.22||Statistical significance was set at 0.05 for the efficacy analysis and for the final safety analysis comparing the rate of total SAEs between treatment groups, and 0.031 for death and 0.004 for the ten individual SAEs due to sequential monitoring.|Poisson regression|Adjusted for multiple gestation and gestational age|Epo is numerator and Control is denominator|We hypothesized that Epo would be safe, with no excess of SAEs compared to control infants. Sample size was based on the primary outcome, severe neurodevelopmental impairment or death.||1.22|0.83|0.05
92354485|NCT01378273|184614922|SUPERIORITY|||||||0.36||||||Statistical significance was evaluated using a Wald's test and declared significant if p \< 0.05.|Generalized estimating equation|Adjusted for gestational age at birth and treatment assignment.||For all statistical comparisons between groups, Generalized Estimating Equations (GEE) with robust standard errors and a working independence correlation structure for infants included from a multiple gestation were used. A GEE-based Wald test was used to examine differences in the global brain injury severity score between treatment groups, with adjustment for gestational age (GA) at birth used to stratify treatment randomization (24+0 to 25+6 vs. 26+0 to 27+6 in weeks+days of GA).||||0.36
92354486|NCT01378273|184614923|SUPERIORITY||||||<|0.001||||||Statistical significance was evaluated using a Wald's test and declared significant if p \< 0.007.|Generalized estimating equation|Adjusted for gestational age at birth and treatment assignment.||For statistical inference, we utilized generalized estimating equations (GEE) with robust standard errors to appropriately account for potential correlation of biomarkers for same-birth siblings. Each respective GEE model adjusted for gestational age at birth and treatment assignment as fixed factors associated with the original study design. Biomarker levels at each follow-up time point were analysed using separate GEE models. Epo levels were log-transformed in all statistical analyses.||||<0.001
92401083|NCT04739982|184693265|SUPERIORITY||Cohen's D|0.153|STANDARD_ERROR_OF_MEAN|1.45||0.095|TWO_SIDED|95.0|-0.08|0.39|||t-test, 1 sided|||||.39|-.08|.095
92161654|NCT00097253|184212355|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Mixed Models Analysis|||IL-6. Mixed effect linear models were used to test the hypothesis. These models included the post-odor and post-stress dependent variable measurements with a covariate for the baseline pre-odor measurement. Base 10 logarithms were used for each dependent variable and baseline covariate.||||0.10
92276404|NCT00408876|184454682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.03||||0.234||95.0|-1.32|5.39|||t-test, 2 sided|||||5.39|-1.32|0.234
92276405|NCT00408876|184454682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.54||||0.794||95.0|-4.58|3.5|||t-test, 2 sided|||||3.50|-4.58|0.794
92276406|NCT00408876|184454682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.64||||0.426||95.0|-2.4|5.67|||t-test, 2 sided|||||5.67|-2.40|0.426
92354487|NCT02844075|184614929|SUPERIORITY||||||||||||||||||For sample size calculation, Minimax design to evaluate the null hypothesis that the true pCR rate will be 10% and the alternative hypothesis that the pCR rate≥ 30%, with type I error (α) level of 10% and type II error (β) of 0.10. If 1 or more successes are observed in the first 16 patients, accrual for that stratum will be continued until a total of 25 patients. If, of these 25 patients, 5 or more pCR, an additional investigation is warranted. Allowing for a follow-up loss rate of 10 %, the total sample size is expected as 28. For biomarker evaluation, the categorical groups were investigated to evaluated possible association with response and/or survival. Associations were analyzed by χ2 test or Fisher's exact test for categorical variables. The Kaplan-Meier method was used to analyze survival outcomes (EFS, OS, and DFS). To compare PD-L1 expression between paired pre- and post-neoadjuvant treatment with associated of pCR, the Wilcoxon signed-rank test was used.|||
92354488|NCT03163264|184614935|SUPERIORITY||Mean Difference (Net)|0.05||||0.05|TWO_SIDED|95.0|0.0|3.45||"Statistical test was 2 sided with p\<0.05 indicating statistical significance. Note: Estimated p-value was calculated at 0.050"|Mixed Models Analysis|This analysis was in our grant and protocol paper but was added late to clinicaltrials.gov.||||3.45|0|0.050
92354489|NCT03163264|184614935|SUPERIORITY||Mean Difference (Net)|0.05||||0.05|TWO_SIDED|||||"Statistical test was 2 sided with p\<0.05 indicating statistical significance. Note: Estimated p-value was calculated at 0.05"|Wilcoxon (Mann-Whitney)|The investigators will also use repeated measures modeling based on mixed models using baseline and follow up data to adjust for characteristics||||||0.05
92354490|NCT03163264|184614936|SUPERIORITY||Mean Difference (Net)|0.069||||0.069|TWO_SIDED|95.0|-0.13|3.39||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis|This analysis was in our grant and protocol paper but was added late to clinicaltrials.gov.||||3.39|-0.13|0.069
92354491|NCT03163264|184614936|SUPERIORITY||Mean Difference (Final Values)|1.53||||0.028|TWO_SIDED|95.0|0.21|3.76||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Wilcoxon (Mann-Whitney)|The investigators will also use repeated measures modeling based on mixed models using baseline and follow up data to adjust for characteristics||||3.76|0.21|0.028
92354492|NCT03163264|184614937|SUPERIORITY||Percent Difference|11.18||||0.033|TWO_SIDED|95.0|0.92|21.45|||Mixed Models Analysis|||||21.45|0.92|0.033
92354493|NCT03163264|184614938|SUPERIORITY||Percent Difference|11.08||||0.073|TWO_SIDED|95.0|-1.05|23.2||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis||Adjusted|||23.2|-1.05|0.073
92354494|NCT03163264|184614940|SUPERIORITY||Mean Difference (Final Values)|0.72||||0.065|TWO_SIDED|95.0|-0.05|1.48||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis|||||1.48|-0.05|0.065
92401084|NCT04739982|184693267|SUPERIORITY||Cohen's D|0.19|STANDARD_ERROR_OF_MEAN|0.55||0.09|TWO_SIDED|95.0|-0.09|0.47|||t-test, 1 sided|||||.47|-.09|.09
92401085|NCT01168349|184693274|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.55|||||TWO_SIDED|95.0|0.42|0.71||||||||0.71|0.42|
92276407|NCT00408876|184454682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.17||||0.207||95.0|-1.21|5.55|||t-test, 2 sided|||||5.55|-1.21|0.207
92276408|NCT00408876|184454683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.901||95.0|-2.54|2.89|||t-test, 2 sided|||||2.89|-2.54|0.901
92401086|NCT01168349|184693277|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
92401087|NCT01446159|184693355|SUPERIORITY||Hazard Ratio (HR)|0.991||||0.86|TWO_SIDED|95.0|0.689|1.429|||Log Rank|||||1.429|0.689|0.86
92401088|NCT03174184|184693375|EQUIVALENCE|Equivalence tests will be conducted to examine whether the EBA0-14CFU of Arm A is different from the EBA0-14CFU of Arm B. A similar comparison will be done comparing Arm C to Arm D, Arm A to Arm C, Arm D to Arm E, Arm D to Arm F, and Arm E to Arm F.|||||<|0.001|||||||Regression, Linear|||||||<0.001
92161655|NCT00097253|184212355|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Mixed Models Analysis|||IL-10. Mixed effect linear models were used to test the hypothesis. These models included the post-odor and post-stress dependent variable measurements with a covariate for the baseline pre-odor measurement. Base 10 logarithms were used for each dependent variable and baseline covariate.||||0.50
92161656|NCT00097253|184212356|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Mixed Models Analysis|||Repeated-measures mixed effects models were used. Model was fit to the log-transformed data. Analysis applied to odor category, e.g. lavender / lemon / water.||||0.60
92276409|NCT00408876|184454683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.926||95.0|-2.35|2.14|||t-test, 2 sided|||||2.14|-2.35|0.926
92276410|NCT00408876|184454683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.62||||0.002||95.0|1.35|5.9|||t-test, 2 sided|||||5.90|1.35|0.002
92276411|NCT00408876|184454683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.841||95.0|-3.02|2.46|||t-test, 2 sided|||||2.46|-3.02|0.841
92276412|NCT00408876|184454683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.45||||0.014||95.0|0.71|6.19|||t-test, 2 sided|||||6.19|0.71|0.014
92354495|NCT03163264|184614941|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.378|TWO_SIDED|95.0|-0.52|1.37||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis|||||1.37|-0.52|0.378
92354496|NCT03163264|184614943|SUPERIORITY||Mean Difference (Final Values)|8.35||||0.911|TWO_SIDED|95.0|-138.25|154.95||Statistical test was 2 sided with p\<0.05 indicating statistical significance|Mixed Models Analysis|||||154.95|-138.25|0.911
92354497|NCT03163264|184614944|SUPERIORITY||Mean Difference (Final Values)|32.83||||0.648|TWO_SIDED|95.0|-108.15|173.81||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis|||||173.81|-108.15|0.648
92354498|NCT03163264|184614945|SUPERIORITY||Percent Difference|10.32||||0.736|TWO_SIDED|95.0|-49.73|70.37||Statistical test was 2 sided with p\<0.05 indicating statistical significance|Mixed Models Analysis|||||70.37|-49.73|0.736
92354499|NCT03163264|184614946|SUPERIORITY||Percent Difference|19.36||||0.53|TWO_SIDED|95.0|-41.09|79.8||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis|||||79.8|-41.09|0.53
92354500|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.81|||||TWO_SIDED|95.0|0.61|1.07||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.07|0.61|
92401089|NCT03980730|184693417|SUPERIORITY|||||||0.2057|||||||Mixed Models Analysis|||||||0.2057
92354501|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC Ratio|1.15|||||TWO_SIDED|95.0|0.87|1.52||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.52|0.87|
92354502|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC Ratio|1.42|||||TWO_SIDED|95.0|1.03|1.96||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.96|1.03|
92354503|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.62|||||TWO_SIDED|95.0|0.46|0.84||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.84|0.46|
92354504|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.89|||||TWO_SIDED|95.0|0.66|1.2||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.20|0.66|
92354505|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.44|||||TWO_SIDED|95.0|1.02|2.04||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.04|1.02|
92354506|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.04|||||TWO_SIDED|95.0|0.82|1.32||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.32|0.82|
92354507|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.09|||||TWO_SIDED|95.0|0.86|1.39||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.39|0.86|
92354508|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.05|||||TWO_SIDED|95.0|0.79|1.39||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.39|0.79|
92354509|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.02|||||TWO_SIDED|95.0|0.77|1.34||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.34|0.77|
92161657|NCT00097253|184212357|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Regression, Linear|||The maximum DTH wheal of days 1-3 (24, 48, or 72 h) was used as the dependent variable for each subject at each visit. Visits for subjects with a maximum DTH wheal of 5mm or less were excluded. A repeated measures linear model was used to evaluate odor and placebo effects.||||0.014
92354510|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.04|||||TWO_SIDED|95.0|0.79|1.37||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.37|0.79|
92161658|NCT04511650|184212368|SUPERIORITY|||||||0.4795|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by disease severity.||Pooled Razuprotafib comparison to Placebo. All results are summarized descriptively by treatment arm and expressed as proportions, along with corresponding 95% confidence intervals (CIs) of the difference between response rates, and p-values.||||0.4795
92161659|NCT03412747|184212432|NON_INFERIORITY|The evaluation of non-inferiority is tested at a 1-sided alpha level of 0.025 and based on a 1-sided 97.5% CI and a non-inferiority margin of 10%.|Risk Difference (RD)|39.3|||||TWO_SIDED|95.0|30.9|47.7||||||Risk Difference: BKZ-ADA calculated using stratified CMH.||47.7|30.9|
92161660|NCT03412747|184212432|SUPERIORITY||Odds Ratio (OR)|7.459|||<|0.001|TWO_SIDED|95.0|4.709|11.816||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||11.816|4.709|<0.001
92161661|NCT03412747|184212433|NON_INFERIORITY|The evaluation of non-inferiority is tested at a 1-sided alpha level of 0.025 and based on a 1-sided 97.5% CI and a non-inferiority margin of 10%.|Risk Difference (RD)|28.2|||||TWO_SIDED|95.0|19.7|36.7||||||Risk Difference: BKZ-ADA calculated using stratified CMH.||36.7|19.7|
92161662|NCT03412747|184212433|SUPERIORITY||Odds Ratio (OR)|4.341|||<|0.001|TWO_SIDED|95.0|2.785|6.765||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||6.765|2.785|<0.001
92161663|NCT03412747|184212434|SUPERIORITY||Odds Ratio (OR)|6.231|||<|0.001|TWO_SIDED|95.0|3.515|11.046||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||11.046|3.515|<0.001
92354511|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.02|||||TWO_SIDED|95.0|0.74|1.4||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.40|0.74|
92161664|NCT03412747|184212434|SUPERIORITY||Odds Ratio (OR)|5.75|||<|0.001|TWO_SIDED|95.0|3.657|9.041||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||9.041|3.657|<0.001
92161665|NCT03412747|184212435|SUPERIORITY||Odds Ratio (OR)|4.724|||<|0.001|TWO_SIDED|95.0|2.683|8.318||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||8.318|2.683|<0.001
92161666|NCT03412747|184212435|SUPERIORITY||Odds Ratio (OR)|4.762|||<|0.001|TWO_SIDED|95.0|3.014|7.523||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||7.523|3.014|<0.001
92354512|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.75|||||TWO_SIDED|95.0|0.57|0.97||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.97|0.57|
92354513|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.85|||||TWO_SIDED|95.0|0.65|1.11||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.11|0.65|
92354514|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMCratio|1.14|||||TWO_SIDED|95.0|0.84|1.56||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.56|0.84|
92354515|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.37|||||TWO_SIDED|95.0|0.97|1.94||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.94|0.97|
92354516|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.1|||||TWO_SIDED|95.0|0.78|1.55||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.55|0.78|
92354517|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.8|||||TWO_SIDED|95.0|0.54|1.19||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.19|0.54|
92354518|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.8|||||TWO_SIDED|95.0|0.61|1.05||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.05|0.61|
92354519|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.95|||||TWO_SIDED|95.0|0.73|1.25||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.25|0.73|
92354520|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.19|||||TWO_SIDED|95.0|0.87|1.64||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.64|0.87|
92401090|NCT01247324|184693423|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.536|||<|0.0001|TWO_SIDED|95.0|0.4|0.719|||Negative Binomial Model||Rate ratio was calculated as Ocrelizumab ARR/Interferon beta-1a 44 mcg SC ARR.|Adjusted by Geographical Region (US vs. Rest of World) and baseline EDSS (\<4.0 vs. \>=4.0).||0.719|0.4|<0.0001
92401091|NCT01247324|184693424|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57|||=|0.0139|TWO_SIDED|95.0|0.37|0.9|||Log Rank|||Time to onset CDP at week 12||0.90|0.37|= 0.0139
92401092|NCT01247324|184693425|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.058|||<|0.0001||95.0|0.032|0.104|||Negative Binomial Model||Adjusted by baseline T1 Gd lesion (present or not), baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.104|0.032|< 0.0001
92401093|NCT01247324|184693426|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.229|||<|0.0001||95.0|0.174|0.3|||Negative Binomial Model||Adjusted by baseline T2 lesion (present or not), baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.300|0.174|< 0.0001
92401094|NCT01247324|184693427|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (stratified)|1.61|||=|0.0106|TWO_SIDED|95.0|1.11|2.33|||CMH Chi-Squared test (stratified)|CMH (Cochran-Mantel-Haenszel) Chi-Squared test Stratified by Geographical Region (US vs. Rest of World) and Baseline EDSS (\<4.0 vs. \>=4.0)||||2.33|1.11|= 0.0106
92401095|NCT01247324|184693428|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57|||=|0.0278|TWO_SIDED|95.0|0.34|0.95|||Log Rank|||Time to onset CDP at week 24||0.95|0.34|= 0.0278
92354521|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|3.62|||||TWO_SIDED|95.0|2.76|4.74||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.74|2.76|
92354522|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.52|||||TWO_SIDED|95.0|0.4|0.68||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.68|0.40|
92354523|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.14|||||TWO_SIDED|95.0|0.1|0.2||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.20|0.10|
92354524|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.13|||||TWO_SIDED|95.0|0.8|1.59||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.59|0.80|
92354525|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.87|||||TWO_SIDED|95.0|0.62|1.23||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.23|0.62|
92354526|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.77|||||TWO_SIDED|95.0|0.52|1.15||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.15|0.52|
92354527|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|3.49|||||TWO_SIDED|95.0|2.68|4.54||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.54|2.68|
92401096|NCT01247324|184693429|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.428|||<|0.0001||95.0|0.328|0.557|||Negative Binomial Model||Adjusted by baseline T1-hypointense lesion count, baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.557|0.328|< 0.0001
92220526|NCT02121262|184341430|SUPERIORITY||Least Squares Mean (LSM) Difference|2.9|STANDARD_ERROR_OF_MEAN|0.89||0.0011|TWO_SIDED|95.0|1.17|4.66|||ANCOVA|The ANCOVA model included the treatment group as the main effect and baseline BCVA score as the covariate.|Null hypothesis-there was no difference in treatment groups of average BCVA CFB in 12-months. Hypothesis test-based on 2-sided test at 0.05 significance level,confidence interval(CI) was constructed between treatment groups in LSM using ANCOVA model.|||4.66|1.17|0.0011
92354528|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.52|||||TWO_SIDED|95.0|0.4|0.68||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.68|0.40|
92354529|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.15|||||TWO_SIDED|95.0|0.11|0.2||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.20|0.11|
92354530|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.61|||||TWO_SIDED|95.0|1.15|2.23||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.23|1.15|
92354531|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.24|||||TWO_SIDED|95.0|0.89|1.72||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.72|0.89|
92354532|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.77|||||TWO_SIDED|95.0|0.53|1.13||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.13|0.53|
92354533|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.63|||||TWO_SIDED|95.0|1.28|2.08||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.08|1.28|
92354534|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.03|||||TWO_SIDED|95.0|0.81|1.3||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.30|0.81|
92401097|NCT01247324|184693430|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.039|STANDARD_ERROR_OF_MEAN|0.039|=|0.3261|TWO_SIDED|95.0|-0.039|0.116|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix.|Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||0.116|-0.039|= 0.3261
92401098|NCT01247324|184693431|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.168|STANDARD_ERROR_OF_MEAN|0.058|=|0.0042|TWO_SIDED|95.0|0.053|0.283|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix.|Difference in the rate of brain volume loss: 22.8%. Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||0.283|0.053|= 0.0042
92220527|NCT02121262|184341431|SUPERIORITY||Least Squares Mean Difference|-89.3|STANDARD_ERROR_OF_MEAN|16.89|<|0.0001|TWO_SIDED|95.0|-122.53|-56.01|||ANCOVA|Based on ANCOVA model with treatment and baseline BCVA categories as main effects and baseline retinal thickness as the covariate.|Null hypothesis was there was no difference in treatment groups in average BCVA CFB in 12-months. Hypothesis test was based on 2-sided test at 0.05 significance level. 2-sided 95% CI was constructed between treatment groups in LSM using ANCOVA model.|||-56.01|-122.53|<0.0001
92220528|NCT02121262|184341432|SUPERIORITY||Least Squares Mean Difference|-7.729|STANDARD_ERROR_OF_MEAN|1.0443|<|0.0001|TWO_SIDED|95.0|-9.7855|-5.6733|||ANCOVA|Based on ANCOVA model with treatment and baseline BCVA categories as main effects and baseline total leakage area as the covariate.|Null hypothesis was there was no difference in treatment groups in average BCVA CFB in 12-months. Hypothesis test was based on 2-sided test at 0.05 significance level. 2-sided 95% CI was constructed between treatment groups in LSM using ANCOVA model.|||-5.6733|-9.7855|<0.0001
92354535|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.63|||||TWO_SIDED|95.0|0.47|0.83||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.83|0.47|
92354536|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.99|||||TWO_SIDED|95.0|1.51|2.63||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.63|1.51|
92354537|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|1.04|||||TWO_SIDED|95.0|0.79|1.37||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.37|0.79|
92354538|NCT01026038|184614948|SUPERIORITY_OR_OTHER||GMC ratio|0.52|||||TWO_SIDED|95.0|0.38|0.72||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.72|0.38|
92354539|NCT01026038|184614949|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Pain (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||>0.990
92354540|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.429||95.0|||||Fisher Exact|||Pain (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.429
92161667|NCT03412747|184212436|SUPERIORITY||Odds Ratio (OR)|7.103|||<|0.001|TWO_SIDED|95.0|4.637|10.88||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||10.880|4.637|<0.001
92354541|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.314||95.0|||||Fisher Exact|||Pain (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.314
92354542|NCT01026038|184614949|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Pain (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||>0.990
92354543|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.552||95.0|||||Fisher Exact|||Pain (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.552
92354544|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.499||95.0|||||Fisher Exact|||Pain (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.499
92354545|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.376||95.0|||||Fisher Exact|||Pain (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.376
92354546|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.633||95.0|||||Fisher Exact|||Pain (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.633
92354547|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.658||95.0|||||Fisher Exact|||Pain (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.658
92354548|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.544||95.0|||||Fisher Exact|||Pain (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.544
92354549|NCT01026038|184614949|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Pain (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92354550|NCT01026038|184614949|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Pain (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92161668|NCT03412747|184212437|SUPERIORITY||Odds Ratio (OR)|4.974|||<|0.001|TWO_SIDED|95.0|3.23|7.661||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||7.661|3.230|<0.001
92161669|NCT03412747|184212438|SUPERIORITY||Odds Ratio (OR)|5.249|||<|0.001|TWO_SIDED|95.0|3.207|8.593||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||8.593|3.207|<0.001
92354551|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.859||95.0|||||Fisher Exact|||Swelling (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.859
92161670|NCT03412747|184212438|SUPERIORITY||Odds Ratio (OR)|4.974|||<|0.001|TWO_SIDED|95.0|3.257|7.594||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||7.594|3.257|<0.001
92354552|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.197||95.0|||||Fisher Exact|||Swelling (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.197
92354553|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.198||95.0|||||Fisher Exact|||Swelling (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.198
92354554|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.443||95.0|||||Fisher Exact|||Swelling (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.443
92354555|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.261||95.0|||||Fisher Exact|||Swelling (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.261
92354556|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.687||95.0|||||Fisher Exact|||Swelling (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.687
92354557|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.671||95.0|||||Fisher Exact|||Swelling (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.671
92354558|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.253||95.0|||||Fisher Exact|||Swelling (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.253
92354559|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.074||95.0|||||Fisher Exact|||Swelling (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.074
92354560|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.323||95.0|||||Fisher Exact|||Swelling (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.323
92354561|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.489||95.0|||||Fisher Exact|||Swelling (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.489
92354562|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.607||95.0|||||Fisher Exact|||Redness (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.607
92354563|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.549||95.0|||||Fisher Exact|||Redness (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.549
92354564|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.864||95.0|||||Fisher Exact|||Redness (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.864
92401099|NCT01247324|184693432|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.693|STANDARD_ERROR_OF_MEAN|0.564|=|0.2193|TWO_SIDED|95.0|-0.414|1.8|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures using unstructured covariance matrix.|Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||1.800|-0.414|= 0.2193
92401100|NCT01247324|184693433|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (stratified)|1.74|||<|0.0001|TWO_SIDED|95.0|1.39|2.17|||CMH Chi-Squared test (stratified)|Analyzed using CMH test, stratified by Geographical Region (US vs. rest-of-world) and baseline EDSS (\<4.0 vs. \>=4.0).||||2.17|1.39|< 0.0001
92401101|NCT03125226|184693475|OTHER|Single group mean and standard deviation||||||||||||||||Coordinates in x/y/z planes were assigned to each hydrogel marker on the planning CT and daily CBCT to calculate interfraction motion.|Single group mean and standard deviation|||
92401102|NCT03125226|184693480|OTHER|The Van Herk (VH) margin equation for the planning target volume margin, as a function of systemic and random errors, was calculated such that the CTV receives at least 95%-prescription dose in 90% of patients.|||||||||||||||||The Van Herk (VH) margin equation for the planning target volume margin, as a function of systemic and random errors, was calculated such that the CTV receives at least 95%-prescription dose in 90% of patients.|||
92401103|NCT02787564|184693481|OTHER||||||<|0.001||||||Comparison of difference of fruit and vegetable variety between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||<0.001
92401104|NCT02787564|184693482|OTHER|||||||0.038||||||Comparison of difference of fruit and vegetable amount between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||0.038
92401105|NCT02787564|184693483|OTHER|||||||0.026||||||Comparison of difference of fruit and vegetable variety between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||0.026
92161671|NCT01726023|184212468|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority would be concluded if the lower limit of the 95% confidence interval (CI; corresponding to a 97.5% 1 sided lower bound) was greater than -12.5% for the primary outcome variable.|Risk Difference (RD)|-0.2|||<|0.001|TWO_SIDED|95.0|-5.53|4.97||P-value for 1-sided test at test of cure (TOC) with a -12.5% non-inferiority margin, i.e. H0: diff ≤ -12.5%.|% Risk Difference (RD)|RD is CAZ AVI clinical cure rate minus Meropenem clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|units for RD are %|The Primary objective of this study was to assess the non inferiority (based on a 12.5% margin) of CAZ AVI plus metronidazole compared to meropenem alone with respect to clinical cure at the TOC visit in patients who were CE.||4.97|-5.53|<0.001
92161672|NCT01726023|184212501|SUPERIORITY_OR_OTHER||Difference in median time (days)|0.5||||0.773|||||||Log Rank|||||||0.773
92401106|NCT02787564|184693484|OTHER|||||||0.443||||||Comparison of difference of fruit and vegetable amount between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||0.443
92161673|NCT01726023|184212502|SUPERIORITY_OR_OTHER||Difference in median time (days)|1.0||||0.598|||||||Log Rank|||||||0.598
92401107|NCT02787564|184693485|OTHER|||||||0.006||||||Comparison of difference of fruit and vegetable variety between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||0.006
92401108|NCT02787564|184693486|OTHER|||||||0.029||||||Comparison of difference of fruit and vegetable amount between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||0.029
92401109|NCT03474588|184693487|SUPERIORITY|||||||0.3||||||Presented is the p value for the interaction between time and treatment.|Regression, Linear|Random Effects Regression Models (RERM), time was log transformed to account for expectation of greater change closer to baseline||||||0.30
92161674|NCT00816829|184212509|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.048
92161675|NCT00816829|184212510|SUPERIORITY_OR_OTHER|||||||0.203||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.203
92161676|NCT00816829|184212511|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between groups was performed using Wilcoxon Test on data at one month after the start of the treatment.||||0.007
92220529|NCT01553188|184341446|SUPERIORITY|||||||0.44|||||||Log rank two-tailed p-value|||||||0.44
92220530|NCT01553188|184341448|SUPERIORITY|||||||0.26|||||||Log rank two-tailed p-value|||||||0.26
92220531|NCT03317795|184341517|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92220532|NCT03317795|184341519|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
92401110|NCT03474588|184693488|SUPERIORITY||Mean Difference (Net)|1.39|STANDARD_ERROR_OF_MEAN|0.94||0.14|TWO_SIDED|95.0|-0.46|3.24||presented is the p value for the interaction of treatment and time in the model.|Regression, Linear|||Random Effects Regression Model (RERM), included in the model were treatment, time and the interaction of time and treatment.||3.24|-0.46|0.14
92401111|NCT03474588|184693489|SUPERIORITY|||||||0.097|||||||ANOVA|||||||0.097
92401112|NCT03474588|184693490|SUPERIORITY|||||||0.802|||||||Chi-squared|||||||0.802
92401113|NCT01607957|184693497|SUPERIORITY||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.0|0.58|0.81|||Stratified log-rank test|||||0.81|0.58|<0.0001
92401114|NCT01607957|184693498|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|0.0001|TWO_SIDED|95.0|0.41|0.57|||Stratified log-rank test|||||0.57|0.41|<0.0001
92401115|NCT02016781|184693512|SUPERIORITY|||||||0.0001||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wald test|Wald test of difference in adjusted OS estimates.||The null hypothesis is that the rates of three-year OS are the same for both treatments. The results posted are from the interim analysis per protocol study design.||||0.0001
92401116|NCT02016781|184693512|SUPERIORITY|||||||0.3345||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|Overall Wald test of interaction terms between response to hypomethylating therapy and treatment assignment in regression model.||This subgroup analysis investigated the differential impact of response to hypomethylating therapy (No Response to Hypomethylation vs. Any Response or Hematologic Improvement to Hypomethylation vs. No Prior Hypomethylation) on the treatment effect for OS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.3345
92220533|NCT03317795|184341520|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Physical composite score||||0.32
92220534|NCT03317795|184341520|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||Mental composite score||||0.26
92220535|NCT03317795|184341521|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
92220536|NCT03317795|184341522|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
92354565|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.859||95.0|||||Fisher Exact|||Redness (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.859
92354566|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.836||95.0|||||Fisher Exact|||Redness (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.836
92354567|NCT01026038|184614949|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Redness (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92354568|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.297||95.0|||||Fisher Exact|||Redness (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.297
92354569|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Fisher Exact|||Redness (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.145
92354570|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.517||95.0|||||Fisher Exact|||Redness (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.517
92354571|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.323||95.0|||||Fisher Exact|||Redness (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.323
92220537|NCT02424253|184341543|SUPERIORITY||LS Difference|-0.35|||=|0.249|TWO_SIDED|90.0|-1.21|0.51||1-sided p-value.|ANCOVA|The ANCOVA model included baseline value and treatment.||Change from baseline||0.51|-1.21|= 0.249
92220538|NCT02424253|184341544|SUPERIORITY||LS Difference|-5.06|||=|0.01|TWO_SIDED|90.0|-8.66|-1.46||1-sided p-value.|ANCOVA|The ANCOVA model included baseline EASI, stratification variable (worst daily pruritus NRS ≤ 7.5 or \> 7.5) and treatment.||Change from baseline analysis||-1.46|-8.66|= 0.01
92220539|NCT00578136|184341551|SUPERIORITY_OR_OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|The Wilcoxon rank-sum test was used because the study did not have a normal distribution using the Kolmogorov-Smirnov test (p\<0.01).||Assuming the opioid requirement in the local infiltration group to be 0.2mg kg-1 and in the rectus sheath block group to be 0.1mg kg-1, a sample size of 44 patients (22 in each group) will have a power of 80% to detect a difference in means of 0.1mg kg-1 with a 0.005 two-sided significance level.||||0.008
92220540|NCT02958007|184341611|SUPERIORITY|||||||0.544|||||||t-test, 2 sided|||||||0.544
92220541|NCT05885737|184341648|EQUIVALENCE|Testing of primary efficacy endpoint was 2-sided and conducted at the 5% significance level. The efficacy of difelikefalin was to be declared for this study if null hypothesis of no treatment difference in the primary efficacy analysis was rejected in favor of the alternative that participants randomized to difelikefalin experience significantly different itching compared to participants randomized to placebo. The null hypothesis was to be rejected if the 2-sided p value was less than (\<) 0.05.|Least square mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.223||0.0003|TWO_SIDED|95.0|-1.25|-0.37|||MMRM|||The null hypothesis in this study was that there was no treatment difference in the primary efficacy analysis of the primary endpoint. The alternative hypothesis was that in participants randomized to difelikefalin there was a significant treatment difference in change in itching compared to participants randomized to placebo. The assessment was based on the mean change from baseline in the weekly mean of the daily 24-hour WI-NRS score at Week 4 of the DB period.||-0.37|-1.25|0.0003
92220542|NCT00609791|184341660|SUPERIORITY||Slope|0.011|STANDARD_ERROR_OF_MEAN|0.0057||0.055|TWO_SIDED||||||Regression, Linear|||Linear regression of ln AUC24 on age in years||||0.055
92220543|NCT00609791|184341660|SUPERIORITY||Slope|1.17|STANDARD_ERROR_OF_MEAN|0.45||0.013|TWO_SIDED||||||Regression, Linear|||Linear regression of ln AUC24 on chemotherapy toxicity risk score||||0.013
92220544|NCT00609791|184341661|SUPERIORITY||Slope|-0.0074|STANDARD_ERROR_OF_MEAN|0.0063||0.25|TWO_SIDED||||||Regression, Linear|||Linear regression of ln CL on age in years||||0.25
92354572|NCT01026038|184614949|SUPERIORITY_OR_OTHER|||||||0.489||95.0|||||Fisher Exact|||Redness (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.489
92354573|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||Fisher Exact|||Fever (\>=38 degree C to \<=39 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC||||0.075
92354574|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.345||95.0|||||Fisher Exact|||Fever (\>=38 degree C to \<=39 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC||||0.345
92354575|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.628||95.0|||||Fisher Exact|||Fever (\>=38 degree C to \<=39 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC||||0.628
92354576|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.592||95.0|||||Fisher Exact|||Fever (\>=39 degree C to \<=40 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.592
92354577|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.608||95.0|||||Fisher Exact|||Fever (\>=39 degree C to \<=40 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.608
92354578|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fever (\>=39 degree C to \<=40 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92354579|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fever (\>40 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92354580|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.333||95.0|||||Fisher Exact|||Fever (\>40 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.333
92354581|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.215||95.0|||||Fisher Exact|||Vomiting (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.215
92354582|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.714||95.0|||||Fisher Exact|||Vomiting (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.714
92354583|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.397||95.0|||||Fisher Exact|||Vomiting (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.397
92354584|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.215||95.0|||||Fisher Exact|||Vomiting (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.215
92354585|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.714||95.0|||||Fisher Exact|||Vomiting (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.714
92354586|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.397||95.0|||||Fisher Exact|||Vomiting (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.397
92354587|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.161||95.0|||||Fisher Exact|||Diarrhea (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.161
92354588|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.226||95.0|||||Fisher Exact|||Diarrhea (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.226
92354589|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Diarrhea (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92354590|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.161||95.0|||||Fisher Exact|||Diarrhea (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.161
92354591|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.226||95.0|||||Fisher Exact|||Diarrhea (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.226
92161677|NCT00816829|184212512|SUPERIORITY_OR_OTHER|||||||0.199||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.199
92161678|NCT00816829|184212513|SUPERIORITY_OR_OTHER|||||||0.114||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.114
92161679|NCT00816829|184212514|SUPERIORITY_OR_OTHER|||||||0.533||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.533
92161680|NCT00816829|184212515|SUPERIORITY_OR_OTHER|||||||0.521||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.521
92161681|NCT00816829|184212516|SUPERIORITY_OR_OTHER|||||||0.333||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.333
92161682|NCT00816829|184212517|SUPERIORITY_OR_OTHER|||||||0.264||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.264
92161683|NCT00816829|184212518|SUPERIORITY_OR_OTHER|||||||0.401||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.401
92354592|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Diarrhea (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92354593|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Diarrhea (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||>0.990
92354594|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Diarrhea (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92354595|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.237||95.0|||||Fisher Exact|||Fatigue (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.237
92354596|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||Fisher Exact|||Fatigue (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.045
92354597|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.285||95.0|||||Fisher Exact|||Fatigue (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.285
92354598|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fatigue (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||>0.990
92354599|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.174||95.0|||||Fisher Exact|||Fatigue (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.174
92354600|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.125||95.0|||||Fisher Exact|||Fatigue (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.125
92354601|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||Fisher Exact|||Fatigue (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.058
92354602|NCT01026038|184614950|SUPERIORITY_OR_OTHER|||||||0.092||95.0|||||Fisher Exact|||Fatigue (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.092
92354603|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fatigue (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92354604|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fatigue (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||>0.990
92354605|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fatigue (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92220545|NCT00609791|184341661|SUPERIORITY||Slope|-0.96|STANDARD_ERROR_OF_MEAN|0.44||0.04|TWO_SIDED||||||Regression, Linear|||Linear regression of ln CL versus chemotherapy toxicity risk score||||0.04
92220546|NCT00609791|184341662|OTHER|||||||0.041|||||||Fisher Exact|||||||0.041
92220547|NCT00609791|184341665|SUPERIORITY||Mean Difference (Final Values)|-4.89||||0.38|TWO_SIDED|95.0|-16.5|6.7|||t-test, 2 sided|||Difference in age based on whether there was need for a dose reduction.||6.7|-16.5|.38
92220548|NCT00609791|184341665|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.76|TWO_SIDED|95.0|-0.33|0.44|||t-test, 2 sided|||Difference in AUC24 based on the need of a dose reduction.||0.44|-0.33|0.76
92220549|NCT00609791|184341665|SUPERIORITY||Mean Difference (Final Values)|-0.063||||0.75|TWO_SIDED|95.0|-0.49|0.36|||t-test, 2 sided|||Difference in clearance based on whether there was a need for dose reduction.||0.36|-0.49|0.75
92220550|NCT00609791|184341666|SUPERIORITY||Mean Difference (Final Values)|5.81||||0.15|TWO_SIDED|95.0|-2.3|13.9|||t-test, 2 sided|||Difference in age based on whether there was need for a dose omission.||13.9|-2.3|0.15
92220551|NCT00609791|184341666|SUPERIORITY||Mean Difference (Final Values)|-0.079||||0.61|TWO_SIDED|95.0|-0.39|0.23|||t-test, 2 sided|||Difference in AUC24 based on whether there was need for a dose omission.||0.23|-0.39|0.61
92220552|NCT00609791|184341666|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.51|TWO_SIDED|95.0|-0.22|0.42|||t-test, 2 sided|||Difference in clearance based on whether there was a need for a dose omission.||0.42|-0.22|0.51
92220553|NCT00609791|184341667|SUPERIORITY||Mean Difference (Final Values)|1.68||||0.75|TWO_SIDED|95.0|-9.3|12.7|||t-test, 2 sided|||Difference in age based on whether a participant experienced grade 3 toxicity.||12.7|-9.3|0.75
92354606|NCT01026038|184614950|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fatigue (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
92354607|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.75|||||TWO_SIDED|95.0|0.56|1.0||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.00|0.56|
92220554|NCT00609791|184341667|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.13|TWO_SIDED|95.0|-0.12|0.81|||t-test, 2 sided|||Difference in AUC based on whether a participant experienced grade 3 toxicity.||0.81|-0.12|0.13
92220555|NCT00609791|184341667|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.34|TWO_SIDED|95.0|-0.67|0.25|||t-test, 2 sided|||Difference in clearance based on whether a participant experienced grade 3 toxicity.||0.25|-0.67|0.34
92220556|NCT04129528|184341707|SUPERIORITY||Ratio of geometric means CFZ533/placebo|1.173||||0.1817|TWO_SIDED|80.0|0.94|1.47||one-sided P-value|Mixed model repeated measure analysis|||||1.47|0.94|0.1817
92220557|NCT03118232|184341734|OTHER|The risk ratios reflect the risk of transfer to a hospital during the intervention period relative to the baseline period in each trial group.|Difference in Risk Ratio|16.6|||<|0.001|TWO_SIDED|95.0|11.0|21.8|||Mixed Models Analysis|||||21.8|11.0|<0.001
92220558|NCT03118232|184341735|OTHER|The risk ratios reflect the risk of transfer to a hospital during the intervention period relative to the baseline period in each trial group.|Difference in Risk Ratio|14.6|||<|0.001|TWO_SIDED|95.0|9.7|19.2|||Mixed Models Analysis|||||19.2|9.7|<0.001
92220559|NCT02933034|184341757|OTHER|||||||0.001|||||||t-test, 2 sided|||Comparison of infarct size using MEMRI versus DEMRI scan||||0.001
92220560|NCT02819635|184341769|SUPERIORITY||Adjusted risk difference (%)|8.4||||0.049|TWO_SIDED|95.0|0.0|16.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||16.8|0.0|0.049
92220561|NCT02819635|184341769|SUPERIORITY||Adjusted risk difference (%)|13.5||||0.01|TWO_SIDED|95.0|3.3|23.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||23.8|3.3|0.010
92220562|NCT02819635|184341769|SUPERIORITY||Adjusted risk difference (%)|13.8||||0.007|TWO_SIDED|95.0|3.8|23.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||23.9|3.8|0.007
92220563|NCT02819635|184341769|SUPERIORITY||Adjusted risk difference (%)|21.1|||<|0.001|TWO_SIDED|95.0|8.6|33.6||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||33.6|8.6|<0.001
92220564|NCT02819635|184341770|SUPERIORITY||Adjusted risk difference (%)|21.6|||<|0.001|TWO_SIDED|95.0|15.8|27.4||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes vs. no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||27.4|15.8|<0.001
92276413|NCT00408876|184454683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.73||||0.001||95.0|1.44|6.02|||t-test, 2 sided|||||6.02|1.44|0.001
92276414|NCT00408876|184454684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.057||95.0|-1.41|0.02|||t-test, 2 sided|||||0.02|-1.41|0.057
92354608|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.73|1.28||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.28|0.73|
92354609|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC Ratio|1.29|||||TWO_SIDED|95.0|0.92|1.79||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.79|0.92|
92354610|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.7|||||TWO_SIDED|95.0|0.49|1.0||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.00|0.49|
92354611|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.89|||||TWO_SIDED|95.0|0.62|1.27||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.27|0.62|
92354612|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.27|||||TWO_SIDED|95.0|0.84|1.94||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.94|0.84|
92354613|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.78|||||TWO_SIDED|95.0|0.58|1.03||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.03|0.58|
92354614|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.01|||||TWO_SIDED|95.0|0.76|1.33||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.33|0.76|
92354615|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.29|||||TWO_SIDED|95.0|0.93|1.8||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.80|0.93|
92354616|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.04|||||TWO_SIDED|95.0|0.69|1.58||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.58|0.69|
92354617|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.3|||||TWO_SIDED|95.0|0.86|1.97||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.97|0.86|
92354618|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.25|||||TWO_SIDED|95.0|0.77|2.03||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.03|0.77|
92354619|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.58|||||TWO_SIDED|95.0|0.42|0.78||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.78|0.42|
92405660|NCT02148874|184701508|SUPERIORITY||Odds Ratio (OR)|1.07||||0.79|TWO_SIDED|95.0|0.65|1.75|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H3N2||1.75|0.65|0.79
92276415|NCT00408876|184454684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46||||0.128||95.0|-1.05|0.13|||t-test, 2 sided|||||0.13|-1.05|0.128
92276416|NCT00408876|184454684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.82||||0.007||95.0|-1.42|-0.22|||t-test, 2 sided|||||-0.22|-1.42|0.007
92354620|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.91|||||TWO_SIDED|95.0|0.67|1.23||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.23|0.67|
92354621|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.58|||||TWO_SIDED|95.0|1.11|2.25||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.25|1.11|
92354622|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.05|||||TWO_SIDED|95.0|0.66|1.68||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.68|0.66|
92354623|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.54|||||TWO_SIDED|95.0|0.97|2.44||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.44|0.97|
92354624|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.46|||||TWO_SIDED|95.0|0.85|2.51||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.51|0.85|
92354625|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.8|||||TWO_SIDED|95.0|0.56|1.15||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.15|0.56|
92354626|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.06|||||TWO_SIDED|95.0|0.74|1.52||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.52|0.74|
92354627|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.32|||||TWO_SIDED|95.0|0.87|2.01||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.01|0.87|
92220565|NCT02819635|184341771|SUPERIORITY||Adjusted risk difference (%)|30.7|||<|0.001|TWO_SIDED|95.0|21.7|39.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Baseline of Induction Study; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||39.8|21.7|<0.001
92220566|NCT02819635|184341771|SUPERIORITY||Adjusted risk difference (%)|39.0|||<|0.001|TWO_SIDED|95.0|29.7|48.2||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Baseline of Induction Study; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||48.2|29.7|<0.001
92220567|NCT02819635|184341772|SUPERIORITY||Adjusted risk difference (%)|13.1||||0.03|TWO_SIDED|95.0|1.2|25.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||25.0|1.2|0.030
92220568|NCT02819635|184341772|SUPERIORITY||Adjusted risk difference (%)|27.6|||<|0.001|TWO_SIDED|95.0|13.1|42.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||42.1|13.1|<0.001
92354628|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|2.59|||||TWO_SIDED|95.0|1.8|3.73||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||3.73|1.80|
92354629|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.26|||||TWO_SIDED|95.0|0.88|1.79||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.79|0.88|
92354630|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.49|||||TWO_SIDED|95.0|0.32|0.74||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.74|0.32|
92354631|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.06|||||TWO_SIDED|95.0|0.61|1.87||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.87|0.61|
92354632|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.19|||||TWO_SIDED|95.0|0.68|2.09||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.09|0.68|
92354633|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.12|||||TWO_SIDED|95.0|0.59|2.15||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.15|0.59|
92354634|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.15|||||TWO_SIDED|95.0|0.87|1.52||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.52|0.87|
92354635|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.91|||||TWO_SIDED|95.0|0.69|1.2||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.20|0.69|
92354636|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.79|||||TWO_SIDED|95.0|0.57|1.1||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.10|0.57|
92276417|NCT00408876|184454684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24||||0.518||95.0|-0.48|0.96|||t-test, 2 sided|||||0.96|-0.48|0.518
92354637|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|2.14|||||TWO_SIDED|95.0|1.52|3.02||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||3.02|1.52|
92354638|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.64|||||TWO_SIDED|95.0|1.16|2.3||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.30|1.16|
92354639|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.76|||||TWO_SIDED|95.0|0.51|1.14||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.14|0.51|
92354640|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|3.11|||||TWO_SIDED|95.0|2.23|4.33||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.33|2.23|
92354641|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.84|||||TWO_SIDED|95.0|0.61|1.17||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.17|0.61|
92354642|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.27|||||TWO_SIDED|95.0|0.19|0.4||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.40|0.19|
92354643|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratrio|1.82|||||TWO_SIDED|95.0|1.25|2.66||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.66|1.25|
92354644|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|1.33|||||TWO_SIDED|95.0|0.91|1.94||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.94|0.91|
92354645|NCT01026038|184614951|SUPERIORITY_OR_OTHER||GMC ratio|0.73|||||TWO_SIDED|95.0|0.47|1.13||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.13|0.47|
92354646|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.63|||||TWO_SIDED|95.0|0.23|1.76||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.76|0.23|
92354647|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC Ratio|0.77|||||TWO_SIDED|95.0|0.3|1.99||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.99|0.30|
92354648|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC Ratio|1.21|||||TWO_SIDED|95.0|0.38|3.86||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.86|0.38|
92354649|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.93|||||TWO_SIDED|95.0|0.43|1.99||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.99|0.43|
92161684|NCT04982575|184212529|OTHER||Treatment difference|-0.3||||0.2284|TWO_SIDED|95.0|-0.79|0.19|||Mixed Models Analysis|||The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor as factors and baseline HbA1c as a covariate using retrieved participants multiple imputation of missing data regardless of treatment or stratification.||0.19|-0.79|0.2284
92161685|NCT03038022|184212550|SUPERIORITY||Mean Difference (Net)|-18.8|STANDARD_ERROR_OF_MEAN|4.52|<|0.0001|TWO_SIDED|95.0|-27.8|-9.8|||ANOVA|||LS mean difference in LDL-C between MGL-3196 and placebo.||-9.8|-27.8|<0.0001
92161686|NCT03038022|184212556|SUPERIORITY||Mean Difference (Net)|-19.5|STANDARD_ERROR_OF_MEAN|4.22|<|0.0001|TWO_SIDED|95.0|-27.9|-11.1|||ANOVA|||||-11.1|-27.9|<0.0001
92161687|NCT03038022|184212557|SUPERIORITY||Mean Difference (Net)|-25.4|STANDARD_ERROR_OF_MEAN|5.66|<|0.0001|TWO_SIDED|95.0|-36.7|-14.2|||ANOVA|||LS mean difference in triglycerides between MGL-3196 and placebo.||-14.2|-36.7|<0.0001
92354650|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.09|||||TWO_SIDED|95.0|0.54|2.22||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.22|0.54|
92276418|NCT00408876|184454684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.734||95.0|-0.85|0.6|||t-test, 2 sided|||||0.60|-0.85|0.734
92354651|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.18|||||TWO_SIDED|95.0|0.5|2.79||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.79|0.50|
92354652|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.11|||||TWO_SIDED|95.0|0.56|2.19||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.19|0.56|
92354653|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.09|||||TWO_SIDED|95.0|0.58|2.06||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.06|0.58|
92161688|NCT03038022|184212558|SUPERIORITY||Mean Difference (Net)|-26.3|STANDARD_ERROR_OF_MEAN|5.01|<|0.0001|TWO_SIDED|95.0|-36.2|-16.4|||ANOVA|||LS mean difference in Lp(a) between MGL-3196 and placebo.||-16.4|-36.2|<0.0001
92161689|NCT03038022|184212559|SUPERIORITY||Mean Difference (Net)|-22.7|||<|0.0001|TWO_SIDED|95.0|-32.6|-12.8|||ANOVA|||||-12.8|-32.6|<0.0001
92161690|NCT03038022|184212560|SUPERIORITY||Mean Difference (Net)|-18.0|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-23.7|-12.2|||ANOVA|||LS mean difference in ApoB between MGL-3196 and placebo.||-12.2|-23.7|<0.0001
92161691|NCT03038022|184212561|SUPERIORITY||Mean Difference (Net)|-9.1||||0.0037|TWO_SIDED|95.0|-15.3|-3.0|||ANOVA|||||-3.0|-15.3|0.0037
92276419|NCT00408876|184454684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.239||95.0|-0.97|0.24|||t-test, 2 sided|||||0.24|-0.97|0.239
92354654|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.98|||||TWO_SIDED|95.0|0.46|2.13||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.13|0.46|
92354655|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.98|||||TWO_SIDED|95.0|0.38|2.55||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.55|0.38|
92354656|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.23|||||TWO_SIDED|95.0|0.5|3.0||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.00|0.50|
92354657|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.25|||||TWO_SIDED|95.0|0.42|3.72||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.72|0.42|
92220569|NCT02819635|184341772|SUPERIORITY||Adjusted risk difference (%)|26.6|||<|0.001|TWO_SIDED|95.0|12.3|40.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||40.8|12.3|<0.001
92354658|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.69|||||TWO_SIDED|95.0|0.29|1.68||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.68|0.29|
92354659|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.92|||||TWO_SIDED|95.0|0.4|2.1||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.10|0.40|
92354660|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.33|||||TWO_SIDED|95.0|0.49|3.64||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.64|0.49|
92354661|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.7|||||TWO_SIDED|95.0|0.7|4.12||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.12|0.70|
92354662|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.37|||||TWO_SIDED|95.0|0.6|3.14||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.14|0.60|
92354663|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.81|||||TWO_SIDED|95.0|0.3|2.21||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.21|0.30|
92354664|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.9|||||TWO_SIDED|95.0|0.43|1.89||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.89|0.43|
92354665|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.83|||||TWO_SIDED|95.0|0.42|1.67||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.67|0.42|
92354666|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.93|||||TWO_SIDED|95.0|0.4|2.16||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.16|0.40|
92354667|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|7.53|||||TWO_SIDED|95.0|2.86|19.78||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||19.78|2.86|
92354668|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.53|||||TWO_SIDED|95.0|0.22|1.31||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.31|0.22|
92354669|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.07|||||TWO_SIDED|95.0|0.02|0.21||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.21|0.02|
92354670|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.11|||||TWO_SIDED|95.0|0.53|2.3||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.30|0.53|
92354671|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.0|||||TWO_SIDED|95.0|0.5|1.97||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.97|0.50|
92354672|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.9|||||TWO_SIDED|95.0|0.39|2.07||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.07|0.39|
92354673|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|4.2|||||TWO_SIDED|95.0|2.18|8.09||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||8.09|2.18|
92354674|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.61|||||TWO_SIDED|95.0|0.33|1.13||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.13|0.33|
92354675|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.15|||||TWO_SIDED|95.0|0.07|0.31||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.31|0.07|
92354676|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|3.11|||||TWO_SIDED|95.0|1.51|6.4||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||6.40|1.51|
92354677|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.88|||||TWO_SIDED|95.0|0.96|3.69||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.69|0.96|
92354678|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.6|||||TWO_SIDED|95.0|0.27|1.37||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.37|0.27|
92354679|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|2.88|||||TWO_SIDED|95.0|1.39|5.98||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||5.98|1.39|
92354680|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.15|||||TWO_SIDED|95.0|0.58|2.28||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.28|0.58|
92354681|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.4|||||TWO_SIDED|95.0|0.17|0.92||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.92|0.17|
92354682|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|2.57|||||TWO_SIDED|95.0|1.5|4.39||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.39|1.50|
92354683|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|1.24|||||TWO_SIDED|95.0|0.75|2.05||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.05|0.75|
92354684|NCT01026038|184614952|SUPERIORITY_OR_OTHER||GMC ratio|0.48|||||TWO_SIDED|95.0|0.26|0.89||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.89|0.26|
92354685|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT Ratio|0.2|||||TWO_SIDED|95.0|0.04|0.73||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.73|0.04|
92354686|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT Ratio|0.2|||||TWO_SIDED|95.0|0.04|0.64||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.64|0.04|
92354687|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.19|5.46||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||5.46|0.19|
92354688|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.17|5.85||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||5.85|0.17|
92354689|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.15|3.72||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.72|0.15|
92354690|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.1|5.37||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||5.37|0.10|
92161692|NCT03038022|184212562|SUPERIORITY||Mean Difference (Net)|-9.8||||0.017|TWO_SIDED|95.0|-17.8|-1.8|||ANOVA|||||-1.8|-17.8|0.017
92161693|NCT03038022|184212563|SUPERIORITY||Mean Difference (Net)|-27.0|STANDARD_ERROR_OF_MEAN|5.79|<|0.0001|TWO_SIDED|95.0|-38.4|-15.5|||ANOVA|||||-15.5|-38.4|<0.0001
92161694|NCT03038022|184212565|SUPERIORITY||Mean Difference (Net)|-16.3|STANDARD_ERROR_OF_MEAN|5.25||0.0025|TWO_SIDED|95.0|-26.7|-5.9|||ANOVA|||||-5.9|-26.7|0.0025
92161695|NCT03038022|184212565|SUPERIORITY||Mean Difference (Net)|-21.2|STANDARD_ERROR_OF_MEAN|5.18|<|0.0001|TWO_SIDED|95.0|-31.4|-10.9|||ANOVA|||||-10.9|-31.4|<0.0001
92161696|NCT03038022|184212566|SUPERIORITY||Mean Difference (Net)|-245.2|||<|0.0001|TWO_SIDED|95.0|-363.7|-126.7|||ANOVA|||||-126.7|-363.7|<0.0001
92354691|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|1.2|||||TWO_SIDED|95.0|0.23|6.25||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||6.25|0.23|
92354692|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.17|3.92||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.92|0.17|
92354693|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.11|4.43||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||4.43|0.11|
92354694|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|2.4|||||TWO_SIDED|95.0|0.48|12.35||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||12.35|0.48|
92354695|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|2.0|||||TWO_SIDED|95.0|0.45|9.05||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||9.05|0.45|
92354696|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.13|5.14||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||5.14|0.13|
92354697|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.2|||||TWO_SIDED|95.0|0.04|0.8||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.80|0.04|
92401117|NCT02016781|184693512|SUPERIORITY|||||||0.7328||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|Overall Wald test of interaction terms between patient age and treatment assignment in regression model.||This subgroup analysis investigated the differential impact of patient age (\< vs. \>= 65) on the treatment effect for OS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.7328
92354698|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.12|2.03||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.03|0.12|
92401118|NCT02016781|184693512|SUPERIORITY|||||||0.6261||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|Overall Wald test of interaction terms between disease duration and treatment assignment in regression model.||This subgroup analysis investigated the differential impact of disease duration (less than vs. 3 months or more) on the treatment effect for OS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.6261
92161697|NCT03038022|184212567|SUPERIORITY||Mean Difference (Net)|-99.4||||0.0067|TWO_SIDED|95.0|-170.6|-28.2|||ANOVA|||||-28.2|-170.6|0.0067
92161698|NCT03038022|184212568|SUPERIORITY||Mean Difference (Net)|-14.7||||0.5245|TWO_SIDED|95.0|-60.5|31.0|||ANOVA|||||31.0|-60.5|0.5245
92354699|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|2.7|||||TWO_SIDED|95.0|0.48|14.92||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||14.92|0.48|
92354700|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.23|4.36||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.36|0.23|
92354701|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|1.2|||||TWO_SIDED|95.0|0.31|4.84||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||4.84|0.31|
92354702|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|1.2|||||TWO_SIDED|95.0|0.23|6.65||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||6.65|0.23|
92161699|NCT03038022|184212569|SUPERIORITY||Mean Difference (Net)|-135.3||||0.0034|TWO_SIDED|95.0|-224.7|-45.8|||ANOVA|||||-45.8|-224.7|0.0034
92354703|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.17|4.17||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.17|0.17|
92354704|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.3|||||TWO_SIDED|95.0|0.07|1.24||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.24|0.07|
92354705|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.3|||||TWO_SIDED|95.0|0.06|2.08||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.08|0.06|
92161700|NCT03038022|184212570|SUPERIORITY||Mean Difference (Net)|-10.0||||0.0129|TWO_SIDED|95.0|-17.9|-2.2|||ANOVA|||||-2.2|-17.9|0.0129
92354706|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|1.3|||||TWO_SIDED|95.0|0.79|1.97||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.97|0.79|
92354707|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.6|||||TWO_SIDED|95.0|0.38|0.88||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.88|0.38|
92354708|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.27|0.77||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.77|0.27|
92354709|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|2.0|||||TWO_SIDED|95.0|0.85|4.9||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.90|0.85|
92354710|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|1.1|||||TWO_SIDED|95.0|0.49|2.48||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.48|0.49|
92161701|NCT03038022|184212571|SUPERIORITY||Mean Difference (Net)|-0.77||||0.3088|TWO_SIDED|95.0|-2.26|0.72|||ANOVA|||||0.72|-2.26|0.3088
92161702|NCT03038022|184212572|SUPERIORITY||Mean Difference (Net)|0.04||||0.6905|TWO_SIDED|95.0|-0.15|0.23|||ANOVA|||||0.23|-0.15|0.6905
92161703|NCT03038022|184212573|SUPERIORITY||Mean Difference (Net)|0.96||||0.5008|TWO_SIDED|95.0|-1.86|3.78|||ANOVA|||||3.78|-1.86|0.5008
92161704|NCT03038022|184212574|SUPERIORITY||Mean Difference (Net)|0.12||||0.1066|TWO_SIDED|95.0|-0.03|0.26|||ANOVA|||||0.26|-0.03|0.1066
92161705|NCT04925752|184212609|SUPERIORITY||Rate Ratio|0.043|||<|0.0001|TWO_SIDED|95.0|0.01|0.182||p-value for rate ratio vs bHIV is from Wald test.|Wald test||Confidence Interval (CI) for rate ratio vs bHIV is based on the delta method.|Null Hypothesis 01: LEN/bHIV\>= 1; Null hypothesis was to be rejected if HIV-1 incidence in LEN was significantly lower than bHIV.||0.182|0.010|<0.0001
92354711|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.2|1.45||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.45|0.20|
92401119|NCT02016781|184693512|SUPERIORITY|||||||0.4134||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|Overall Wald test of interaction terms between IPSS score and treatment assignment in regression model.||This subgroup analysis investigated the differential impact of IPSS score (Intermediate-2 vs. High) on the treatment effect for OS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.4134
92354712|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.87|1.15||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.15|0.87|
92354713|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.79|1.03||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.03|0.79|
92354714|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.76|1.06||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.06|0.76|
92354715|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|16.5|||||TWO_SIDED|95.0|3.56|76.14||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||76.14|3.56|
92354716|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|2.3|||||TWO_SIDED|95.0|0.56|9.06||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||9.06|0.56|
92354717|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.1|||||TWO_SIDED|95.0|0.02|0.78||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.78|0.02|
92401120|NCT02016781|184693512|SUPERIORITY|||||||0.3147||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|Overall Wald test of interaction terms between IPSS-R score and treatment assignment in regression model.||Statistical Analysis 6: This subgroup analysis investigated the differential impact of IPSS-R score (Very Low, Low, or Intermediate vs. High vs. Very High) on the treatment effect for OS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.3147
92401121|NCT02016781|184693513|SUPERIORITY|||||||0.003||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wald test|||The null hypothesis is that the rates of three-year LFS are the same for both treatments.||||0.0030
92401122|NCT02016781|184693513|SUPERIORITY|||||||0.9908||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|||This subgroup analysis investigated the differential impact of response to hypomethylating therapy on the treatment effect for LFS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.9908
92161706|NCT04925752|184212609|SUPERIORITY||Rate Ratio|0.043|||<|0.0001|TWO_SIDED|95.0|0.01|0.182||p-value for rate ratio vs bHIV is from Wald test.|Wald test||CI for rate ratio vs bHIV is based on the delta method.|Null Hypothesis 02: LEN/bHIV\>= 0.8; Null hypothesis was to be rejected if HIV-1 incidence in LEN was significantly and at least 20% lower than bHIV.||0.182|0.010|< 0.0001
92354718|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|1.3|||||TWO_SIDED|95.0|0.22|7.07||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||7.07|0.22|
92161707|NCT04925752|184212610|OTHER|Null Hypothesis 03: LEN - F/TDF\>= 0.8/100PY; Null hypothesis was to be rejected if HIV-1 incidence in LEN is not substantially greater than F/TDF (LEN is comparable to F/TDF).|Rate difference|-0.828|||<|0.0001|TWO_SIDED|95.0|-1.669|-0.255||p-value for rate difference (SC LEN minus F/TDF) is based on a hybrid approach.|Hybrid approach||Exact CI for rate difference versus F/TDF is based on a hybrid approach.|||-0.255|-1.669|<0.0001
92354719|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.2|||||TWO_SIDED|95.0|0.03|0.74||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.74|0.03|
92354720|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.1|||||TWO_SIDED|95.0|0.02|0.84||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.84|0.02|
92354721|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|4.8|||||TWO_SIDED|95.0|1.35|16.98||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||16.98|1.35|
92354722|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.28|3.23||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.23|0.28|
92401123|NCT02016781|184693513|SUPERIORITY|||||||0.8981||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|||This subgroup analysis investigated the differential impact of patient age (\< or \>= 65) on the treatment effect for LFS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.8981
92401124|NCT02016781|184693513|SUPERIORITY|||||||0.1465||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|||This subgroup analysis investigated the differential impact of disease duration (less than vs. 3 months or more) on the treatment effect for LFS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.1465
92401125|NCT02016781|184693513|SUPERIORITY|Statistical significance was determined using a pre-specified threshold of 0.05.||||||0.4991|||||||pseudo-value regression models|||This subgroup analysis investigated the differential impact of IPSS score (Intermediate-2 vs. High) on the treatment effect for LFS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.4991
92401126|NCT02016781|184693513|SUPERIORITY|||||||0.4953||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|||This subgroup analysis investigated the differential impact of IPSS-R score on the treatment effect for LFS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.4953
92401127|NCT02016781|184693514|SUPERIORITY|||||||0.2777||||||Statistical significance was determined using a pre-specified threshold of 0.05.|t-test, 2 sided|||The null hypothesis is that the FACT-G scores are the same at Enrollment for both treatments.||||0.2777
92401128|NCT02016781|184693514|SUPERIORITY|||||||0.225||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in FACT-G scores from enrollment are the same at 6 Months for both treatments.||||0.2250
92161708|NCT04925752|184212610|SUPERIORITY||Rate Ratio|0.111||||0.00245|TWO_SIDED|95.0|0.024|0.513||P-value for rate ratio versus F/TDF is from a Poisson model.|Poisson model||Confidence interval for rate ratio versus F/TDF is from a Poisson model.|Null Hypothesis 04: LEN vs F/TDF\>= 1; Null hypothesis was to be rejected if HIV-1 incidence in LEN was significantly lower than F/TDF.||0.513|0.024|0.00245
92161709|NCT04269200|184212614|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.003|TWO_SIDED|95.0|0.57|0.89||Determined using a log-rank test stratified by mismatch repair (MMR) status (proficient versus deficient) and disease status (recurrent versus newly diagnosed).|Regression, Cox|Model was stratified by MMR status (proficient versus deficient) and disease status (recurrent versus newly diagnosed).|A hazard ratio less than 1 favours SoC + Durvalumab.|||0.89|0.57|0.003
92354723|NCT01026038|184614953|SUPERIORITY_OR_OTHER||GMT ratio|0.2|||||TWO_SIDED|95.0|0.05|0.85||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.85|0.05|
92354724|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.8|1.38||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.38|0.80|
92161710|NCT04269200|184212614|SUPERIORITY||Hazard Ratio (HR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.43|0.69||Determined using a log-rank test stratified by MMR status (proficient versus deficient) and disease status (recurrent versus newly diagnosed).|Regression, Cox|Model was stratified by MMR status (proficient versus deficient) and disease status (recurrent versus newly diagnosed).|A hazard ratio less than 1 favours SoC + Durvalumab + Olaparib.|||0.69|0.43|<0.0001
92161711|NCT04269200|184212614|SUPERIORITY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.42|1.25||China cohort designed to provide descriptive analysis only.|Regression, Cox|Model was stratified by disease status (recurrent versus newly diagnosed).|A hazard ratio less than 1 favours SoC + Durvalumab.|||1.25|0.42|
92161712|NCT04269200|184212614|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.57|1.61||China cohort designed to provide descriptive analysis only.|Regression, Cox|Model was stratified by disease status (recurrent versus newly diagnosed).|A hazard ratio less than 1 favours SoC + Durvalumab + Olaparib.|||1.61|0.57|
92354725|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.76|1.3||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.30|0.76|
92401129|NCT02016781|184693514|SUPERIORITY|||||||0.1048||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in FACT-G scores from enrollment are the same at 12 Months for both treatments.||||0.1048
92401130|NCT02016781|184693514|SUPERIORITY|||||||0.0888||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in FACT-G scores from enrollment are the same at 18 Months for both treatments.||||0.0888
92401131|NCT02016781|184693514|SUPERIORITY|||||||0.5844||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in FACT-G scores from enrollment are the same at 24 Months for both treatments.||||0.5844
92161713|NCT04269200|184212616|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.59|1.07||Descriptive analysis only.|Regression, Cox|Model is unstratified.|A hazard ratio less than 1 favours SoC + Durvalumab.|||1.07|0.59|
92161714|NCT04269200|184212616|SUPERIORITY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.4|0.76||Descriptive analysis only.|Regression, Cox|Model is unstratified.|A hazard ratio less than 1 favours SoC + Durvalumab + Olaparib.|||0.76|0.40|
92161715|NCT04269200|184212616|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.48|2.21||China cohort designed to provide descriptive analysis only.|Regression, Cox|Model was stratified by disease status (recurrent versus newly diagnosed).|A hazard ratio less than 1 favours SoC + Durvalumab.|||2.21|0.48|
92354726|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.69|1.3||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.30|0.69|
92354727|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.49|0.9||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.90|0.49|
92354728|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.55|1.01||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.01|0.55|
92401132|NCT02016781|184693514|SUPERIORITY|||||||0.0344||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in FACT-G scores from enrollment are the same at 36 Months for both treatments.||||0.0344
92401133|NCT02016781|184693515|SUPERIORITY|||||||0.5583||||||Statistical significance was determined using a pre-specified threshold of 0.05.|t-test, 2 sided|||The null hypothesis is that the MOS SF-36 PCS scores are the same at Enrollment for both treatments.||||0.5583
92401134|NCT02016781|184693515|SUPERIORITY|||||||0.669||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 PCS scores from enrollment are the same at 6 Months for both treatments.||||0.6690
92401135|NCT02016781|184693515|SUPERIORITY|||||||0.2089||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 PCS scores from enrollment are the same at 12 Months for both treatments.||||0.2089
92354729|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.1|||||TWO_SIDED|95.0|0.79|1.59||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.59|0.79|
92401136|NCT02016781|184693515|SUPERIORITY|||||||0.4343||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 PCS scores from enrollment are the same at 18 Months for both treatments.||||0.4343
92401137|NCT02016781|184693515|SUPERIORITY|||||||0.5942||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 PCS scores from enrollment are the same at 24 Months for both treatments.||||0.5942
92161716|NCT04269200|184212616|SUPERIORITY||Hazard Ratio (HR)|1.38|||||TWO_SIDED|95.0|0.68|2.9||China cohort designed to provide descriptive analysis only.|Regression, Cox|Model was stratified by disease status (recurrent versus newly diagnosed).|A hazard ratio less than 1 favours SoC + Durvalumab.|||2.90|0.68|
92161717|NCT04269200|184212617|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.89|1.98||Descriptive analysis only.|Regression, Logistic|Model was stratified by disease status (recurrent versus newly diagnosed).|An odds ratio greater than 1 favours SoC + durvalumab.|||1.98|0.89|
92161718|NCT04269200|184212617|SUPERIORITY||Odds Ratio (OR)|1.44|||||TWO_SIDED|95.0|0.95|2.18||Descriptive analysis only.|Regression, Logistic|Model was stratified by disease status (recurrent versus newly diagnosed).|An odds ratio greater than 1 favours SoC + durvalumab + Olaparib.|||2.18|0.95|
92161719|NCT04269200|184212624|SUPERIORITY||Least-squares Mean Difference|1.7|||||TWO_SIDED|95.0|-1.2|4.5||Descriptive analysis only.|Mixed model for repeated measures|Fixed effects for treatment, visit, and baseline score with the treatment by visit and baseline score by visit interaction. Random patient effect.||||4.5|-1.2|
92401138|NCT02016781|184693515|SUPERIORITY|||||||0.1615||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 PCS scores from enrollment are the same at 36 Months for both treatments.||||0.1615
92401139|NCT02016781|184693515|SUPERIORITY|||||||0.5659||||||Statistical significance was determined using a pre-specified threshold of 0.05.|t-test, 2 sided|||The null hypothesis is that the MOS SF-36 MCS scores are the same at Enrollment for both treatments.||||0.5659
92161720|NCT04269200|184212624|SUPERIORITY||Least-squares Mean Difference|-0.6|||||TWO_SIDED|95.0|-3.4|2.2||Descriptive analysis only.|Mixed model for repeated measures|Fixed effects for treatment, visit, and baseline score with the treatment by visit and baseline score by visit interaction. Random patient effect.||||2.2|-3.4|
92161721|NCT04269200|184212625|SUPERIORITY||Least-squares Mean Difference|0.0|||||TWO_SIDED|95.0|-2.5|2.6||Descriptive analysis only.|Mixed model for repeated measures|Fixed effects for treatment, visit, and baseline score with the treatment by visit and baseline score by visit interaction. Random patient effect.||||2.6|-2.5|
92354730|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.3|||||TWO_SIDED|95.0|0.98|1.63||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.63|0.98|
92354731|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.76|1.27||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.27|0.76|
92161722|NCT04269200|184212625|SUPERIORITY||Least-squares Mean Difference|-0.9|||||TWO_SIDED|95.0|-3.4|1.6||Descriptive analysis only.|Mixed model for repeated measures|Fixed effects for treatment, visit, and baseline score with the treatment by visit and baseline score by visit interaction. Random patient effect.||||1.6|-3.4|
92276420|NCT00291330|184454685|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin was set up to 2.75 for the HR analysis|Hazard Ratio (HR)|1.05|||<|0.0001||95.0|0.65|1.7||Non-inferiority P-Value. Two Statistical analyses performed on primary endpoint. Both non inferiority for the risk difference and for the hazard ratio analyses to be reached in order to conclude positively on the primary endpoint.|Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the primary endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.70|0.65|<0.0001
92161723|NCT03887936|184212646|SUPERIORITY||Mean Difference (Final Values)|3.6|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||||||<0.05
92161724|NCT06269367|184212649|SUPERIORITY|||||||0.894|||||||ANOVA|Two way repeated measures ANOVA with time (Baseline, post-intervention) and condition (NewGait, Control) as within-subjects factors||||||0.894
92161725|NCT06269367|184212650|SUPERIORITY||||||>|0.299||||||A priori threshold for statistical significance was set to 0.05|ANOVA|Two way repeated measures ANOVA with time (Baseline, post-intervention) and condition (NewGait, Control) as within-subjects factors||||||>0.299
92161726|NCT06269367|184212651|SUPERIORITY|||||||0.469||||||A priori threshold for statistical significance set to 0.05|ANOVA|Two way repeated measures ANOVA with time (Baseline, post-intervention) and condition (NewGait, Control) as within-subjects factors||||||0.469
92161727|NCT02908620|184212665|SUPERIORITY||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|2.74||0.322|TWO_SIDED|95.0|-3.06|8.69|||ANOVA||Least squares mean (marginal mean)|||8.69|-3.06|0.322
92161728|NCT02908620|184212666|SUPERIORITY||Mean Difference (Final Values)|-8.7|STANDARD_ERROR_OF_MEAN|5.48||0.134|TWO_SIDED|95.0|-20.38|2.99|||ANOVA||Least squares mean (marginal mean)|||2.99|-20.38|0.134
92161729|NCT02908620|184212667|SUPERIORITY||Mean Difference (Final Values)|4.1|STANDARD_ERROR_OF_MEAN|4.92||0.442|TWO_SIDED|95.0|-6.48|14.62|||ANOVA||Least squares mean (marginal mean)|||14.62|-6.48|0.442
92161730|NCT02908620|184212668|SUPERIORITY||Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|4.78||0.172|TWO_SIDED|95.0|-3.27|16.9|||ANOVA||Least squares mean (marginal mean)|||16.90|-3.27|0.172
92161731|NCT04548622|184212675|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92161732|NCT04548622|184212676|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92161733|NCT04548622|184212677|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92161734|NCT05824351|184212684|EQUIVALENCE|Equivalence is defined as an average difference of \< or = 2|Mean of paired differences|-0.2571|STANDARD_DEVIATION|0.7|<|0.0001|TWO_SIDED||||||t-test, 1 sided|One-sided lower t-test||Draize scores for erythema/eschar and edema were summed for analysis (range of 0 to 8, where a higher score indicated greater irritation).||||<0.0001
92161735|NCT05824351|184212684|EQUIVALENCE|Equivalence is defined as an average difference of \< or = 2|Mean of paired differences|0.0294|STANDARD_DEVIATION|0.79||0.0003|TWO_SIDED||||||t-test, 1 sided|One-sided upper t-test||Draize scores for erythema/eschar and edema were summed for analysis (range of 0 to 8, where a higher score indicated greater irritation).||||0.0003
92161736|NCT02912260|184212709|SUPERIORITY||Mean Difference (Net)|-22.5|STANDARD_ERROR_OF_MEAN|5.22|<|0.0001|TWO_SIDED|95.0|-32.9|-12.2|||ANCOVA|||LS mean difference in hepatic fat fraction between MGL-3196 and placebo at Week 12.||-12.2|-32.9|<0.0001
92161737|NCT02912260|184212711|SUPERIORITY||Mean Difference (Net)|-28.4|STANDARD_ERROR_OF_MEAN|6.52|<|0.0001|TWO_SIDED|95.0|-41.3|-15.4|||ANCOVA|||LS mean difference in hepatic fat fraction between MGL-3196 and placebo at Week 36.||-15.4|-41.3|<0.0001
92161738|NCT02912260|184212712|SUPERIORITY||Mean Difference (Net)|-4.3|STANDARD_ERROR_OF_MEAN|0.991|<|0.0001|TWO_SIDED|95.0|-6.3|-2.4|||ANCOVA|||LS mean difference in absolute hepatic fat fraction between MGL-3196 and placebo at Week 12.||-2.4|-6.3|<0.0001
92161739|NCT02912260|184212713|SUPERIORITY||Mean Difference (Net)|-5.3|STANDARD_ERROR_OF_MEAN|1.26|<|0.0001|TWO_SIDED|95.0|-7.8|-2.8|||ANCOVA|||LS mean difference in absolute hepatic fat fraction between MGL-3196 and placebo at Week 36.||-2.8|-7.8|<0.0001
92161740|NCT02912260|184212724|SUPERIORITY||Mean Difference (Net)|16.0|STANDARD_ERROR_OF_MEAN|31.81||0.6155|TWO_SIDED|95.0|-47.0|79.0|||Linear model|||LS mean difference in hsCRP between MGL-3196 and placebo at Week 12.||79.0|-47.0|0.6155
92161741|NCT02912260|184212725|SUPERIORITY||Mean Difference (Net)|56.9|STANDARD_ERROR_OF_MEAN|118.09||0.6311|TWO_SIDED|95.0|-177.4|291.1|||Linear model|||LS mean difference in hsCRP between MGL-3196 and placebo at Week 36.||291.1|-177.4|0.6311
92161742|NCT02912260|184212726|SUPERIORITY||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|4.73||0.526|TWO_SIDED|95.0|-12.4|6.4|||Linear model|||LS mean difference in ALT between MGL-3196 and placebo at Week 12.||6.4|-12.4|0.5260
92161743|NCT02912260|184212727|SUPERIORITY||Mean Difference (Net)|-26.4|STANDARD_ERROR_OF_MEAN|8.29||0.0019|TWO_SIDED|95.0|-42.8|-9.9|||Linear model|||LS mean difference in ALT between MGL-3196 and placebo at Week 36.||-9.9|-42.8|0.0019
92161744|NCT02912260|184212728|SUPERIORITY||Mean Difference (Net)|-4.8|STANDARD_ERROR_OF_MEAN|3.1||0.1275|TWO_SIDED|95.0|-10.9|1.4|||Linear model|||LS mean difference in AST between MGL-3196 and placebo at Week 12.||1.4|-10.9|0.1275
92161745|NCT02912260|184212729|SUPERIORITY||Mean Difference (Net)|-11.1|STANDARD_ERROR_OF_MEAN|3.42||0.0016|TWO_SIDED|95.0|-17.8|-4.3|||Linear model|||LS mean difference in ALT between MGL-3196 and placebo at Week 36.||-4.3|-17.8|0.0016
92161746|NCT02912260|184212730|SUPERIORITY||Mean Difference (Net)|-12.9|STANDARD_ERROR_OF_MEAN|3.41||0.0002|TWO_SIDED|95.0|-19.6|-6.1|||Linear model|||LS mean difference in LDL-C between MGL-3196 and placebo at Week 12.||-6.1|-19.6|0.0002
92161747|NCT02912260|184212730|SUPERIORITY||Mean Difference (Net)|3.2|STANDARD_ERROR_OF_MEAN|3.33||0.3388|TWO_SIDED|95.0|-3.4|9.8|||Linear model|||LS mean difference in HDL-C between MGL-3196 and placebo at Week 12.||9.8|-3.4|0.3388
92161748|NCT02912260|184212730|SUPERIORITY||Mean Difference (Net)|-13.4|STANDARD_ERROR_OF_MEAN|3.02|<|0.0001|TWO_SIDED|95.0|-19.3|-7.4|||Linear model|||LS mean difference in non-HDL-C between MGL-3196 and placebo at Week 12.||-7.4|-19.3|<0.0001
92354732|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.58|1.05||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.05|0.58|
92354733|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.67|1.21||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.21|0.67|
92354734|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.7|1.25||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.25|0.70|
92354735|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.73|1.46||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.46|0.73|
92354736|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.1|||||TWO_SIDED|95.0|0.83|1.43||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.43|0.83|
92354737|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.7|1.2||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.20|0.70|
92354738|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.61|1.15||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.15|0.61|
92401140|NCT02016781|184693515|SUPERIORITY|||||||0.8555||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 MCS scores from enrollment are the same at 6 Months for both treatments.||||0.8555
92401141|NCT02016781|184693515|SUPERIORITY|||||||0.8995||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 MCS scores from enrollment are the same at 12 Months for both treatments.||||0.8995
92161749|NCT02912260|184212730|SUPERIORITY||Mean Difference (Net)|-9.6|STANDARD_ERROR_OF_MEAN|2.39||0.0001|TWO_SIDED|95.0|-14.3|-4.9|||Linear model|||LS mean difference in TC between MGL-3196 and placebo at Week 12.||-4.9|-14.3|0.0001
92161750|NCT02912260|184212730|SUPERIORITY||Mean Difference (Net)|-16.6|STANDARD_ERROR_OF_MEAN|7.35||0.0258|TWO_SIDED|95.0|-31.2|-2.0|||Linear model|||LS mean difference in TG between MGL-3196 and placebo at Week 12.||-2.0|-31.2|0.0258
92354739|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.51|1.15||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.15|0.51|
92354740|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.46|1.03||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.03|0.46|
92161751|NCT02912260|184212730|SUPERIORITY||Mean Difference (Net)|-15.3|STANDARD_ERROR_OF_MEAN|2.76|<|0.0001|TWO_SIDED|95.0|-20.8|-9.9|||Linear model|||LS mean difference in ApoB between MGL-3196 and placebo at Week 12.||-9.9|-20.8|<0.0001
92161752|NCT02912260|184212730|SUPERIORITY||Mean Difference (Net)|-17.8|STANDARD_ERROR_OF_MEAN|5.64||0.0021|TWO_SIDED|95.0|-28.9|-6.6|||Linear model|||LS mean difference in ApoCIII between MGL-3196 and placebo at Week 12.||-6.6|-28.9|0.0021
92161753|NCT02912260|184212730|SUPERIORITY||Mean Difference (Net)|-20.9|STANDARD_ERROR_OF_MEAN|13.06||0.1123|TWO_SIDED|95.0|-46.8|5.0|||ANOVA|||LS mean difference in Lp(a) between MGL-3196 and placebo at Week 12.||5.0|-46.8|0.1123
92354741|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.56|1.44||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.44|0.56|
92354742|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.74|1.37||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.37|0.74|
92401142|NCT02016781|184693515|SUPERIORITY|||||||0.0105||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 MCS scores from enrollment are the same at 18 Months for both treatments.||||0.0105
92161754|NCT02912260|184212731|SUPERIORITY||Mean Difference (Net)|-12.4|STANDARD_ERROR_OF_MEAN|3.77||0.0013|TWO_SIDED|95.0|-19.9|-5.0|||Linear model|||LS mean difference in LDL-C between MGL-3196 and placebo at Week 36.||-5.0|-19.9|0.0013
92161755|NCT02912260|184212731|SUPERIORITY||Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|6.56||0.8213|TWO_SIDED|95.0|-14.5|11.5|||Linear model|||LS mean difference in HDL-C between MGL-3196 and placebo at Week 36.||11.5|-14.5|0.8213
92161756|NCT02912260|184212731|SUPERIORITY||Mean Difference (Net)|-16.1|STANDARD_ERROR_OF_MEAN|3.35|<|0.0001|TWO_SIDED|95.0|-22.7|-9.4|||Linear model|||LS mean difference in nonHDL-C between MGL-3196 and placebo at Week 36.||-9.4|-22.7|<0.0001
92161757|NCT02912260|184212731|SUPERIORITY||Mean Difference (Net)|-12.5|STANDARD_ERROR_OF_MEAN|2.83|<|0.0001|TWO_SIDED|95.0|-18.1|-6.9|||Linear model|||LS mean difference in TC between MGL-3196 and placebo at Week 36.||-6.9|-18.1|<0.0001
92161758|NCT02912260|184212731|SUPERIORITY||Mean Difference (Net)|-37.3|STANDARD_ERROR_OF_MEAN|7.58|<|0.0001|TWO_SIDED|95.0|-52.3|-22.3|||Linear model|||LS mean difference in TG between MGL-3196 and placebo at Week 36.||-22.3|-52.3|<0.0001
92161759|NCT02912260|184212731|SUPERIORITY||Mean Difference (Net)|-17.4|STANDARD_ERROR_OF_MEAN|3.14|<|0.0001|TWO_SIDED|95.0|-23.6|-11.2|||Linear model|||LS mean difference in ApoB between MGL-3196 and placebo at Week 36.||-11.2|-23.6|<0.0001
92161760|NCT02912260|184212731|SUPERIORITY||Mean Difference (Net)|-36.5|STANDARD_ERROR_OF_MEAN|6.58|<|0.0001|TWO_SIDED|95.0|-49.6|-23.5|||Linear model|||LS mean difference in ApoCIII between MGL-3196 and placebo at Week 36.||-23.5|-49.6|<0.0001
92161761|NCT02912260|184212731|SUPERIORITY||Mean Difference (Net)|-20.0|STANDARD_ERROR_OF_MEAN|19.24||0.3008|TWO_SIDED|95.0|-58.2|18.2|||ANOVA|||LS mean difference in Lp(a) between MGL-3196 and placebo at Week 36.||18.2|-58.2|0.3008
92161762|NCT02912260|184212732|SUPERIORITY||Mean Difference (Net)|-20.9|STANDARD_ERROR_OF_MEAN|13.06||0.1123|TWO_SIDED|95.0|-46.8|5.0|||Linear model|||LS mean difference in Lp(a) between MGL-3196 and placebo at Week 12.||5.0|-46.8|0.1123
92161763|NCT02912260|184212733|SUPERIORITY||Mean Difference (Net)|-20.0|STANDARD_ERROR_OF_MEAN|19.24||0.3008|TWO_SIDED|95.0|-58.2|18.2|||Linear model|||LS mean difference in Lp(a) between MGL-3196 and placebo at Week 36.||18.2|-58.2|0.3008
92161764|NCT02912260|184212734|SUPERIORITY||Mean Difference (Net)|-58.75|STANDARD_ERROR_OF_MEAN|61.551||0.3419|TWO_SIDED|95.0|-180.7|63.21|||Linear model|||LS mean difference in CK-18 between MGL-3196 and placebo at Week 12.||63.21|-180.70|0.3419
92161765|NCT02912260|184212734|SUPERIORITY||Mean Difference (Net)|-171.24|STANDARD_ERROR_OF_MEAN|57.423||0.0035|TWO_SIDED|95.0|-285.06|-57.42|||Linear model|||LS mean difference in CK-18 between MGL-3196 and placebo at Week 36.||-57.42|-285.06|0.0035
92161766|NCT02912260|184212735|SUPERIORITY||Mean Difference (Net)|-0.395|STANDARD_ERROR_OF_MEAN|0.1458||0.0089|TWO_SIDED|95.0|-0.686|-0.103|||Linear model|||LS mean difference in ELF-test between MGL-3196 and placebo at Week 12.||-0.103|-0.686|0.0089
92161767|NCT02912260|184212735|SUPERIORITY||Mean Difference (Net)|-0.484|STANDARD_ERROR_OF_MEAN|0.1973||0.0174|TWO_SIDED|95.0|-0.879|-0.088|||Linear model|||LS mean difference in ELF test between MGL-3196 and placebo at Week 36.||-0.088|-0.879|0.0174
92161768|NCT03878446|184212758|SUPERIORITY||Treatment difference|-1.4|||||TWO_SIDED|95.0|-3.2|0.4||||||||0.4|-3.2|
92161769|NCT03878446|184212758|SUPERIORITY||Treatment difference|0.7|||||TWO_SIDED|95.0|-1.1|2.5||||||||2.5|-1.1|
92354743|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.67|1.23||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.23|0.67|
92161770|NCT03878446|184212758|SUPERIORITY||Treatment difference|-0.9|||||TWO_SIDED|95.0|-2.6|0.9||||||||0.9|-2.6|
92161771|NCT03878446|184212758|SUPERIORITY||Treatment difference|-0.6|||||TWO_SIDED|95.0|-2.4|1.2||||||||1.2|-2.4|
92161772|NCT03370133|184212771|SUPERIORITY||Odds Ratio (OR)|99.869|||<|0.001|TWO_SIDED|95.0|34.02|293.175||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH (Cochran-Mantel-Haenszel) test with region and prior biologic exposure as stratification variables.||293.175|34.020|<0.001
92161773|NCT03370133|184212771|SUPERIORITY||Odds Ratio (OR)|6.056|||<|0.001|TWO_SIDED|95.0|3.874|9.466||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH (Cochran-Mantel-Haenszel) test with region and prior biologic exposure as stratification variables.||9.466|3.874|<0.001
92354744|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.63|1.29||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.29|0.63|
92354745|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|3.1|||||TWO_SIDED|95.0|2.4|4.06||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.06|2.40|
92354746|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.39|0.66||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.66|0.39|
92354747|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.2|||||TWO_SIDED|95.0|0.12|0.22||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.22|0.12|
92354748|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.4|||||TWO_SIDED|95.0|1.11|1.78||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.78|1.11|
92354749|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.66|1.06||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.06|0.66|
92354750|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.6|||||TWO_SIDED|95.0|0.45|0.78||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.78|0.45|
92354751|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.2|||||TWO_SIDED|95.0|0.84|1.62||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.62|0.84|
92354752|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.6|||||TWO_SIDED|95.0|0.45|0.87||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.87|0.45|
92354753|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.36|0.79||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.79|0.36|
92354754|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.71|1.4||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.40|0.71|
92354755|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.66|1.31||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.31|0.66|
92354756|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.63|1.39||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.39|0.63|
92354757|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.41|0.7||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.70|0.41|
92354758|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.1|||||TWO_SIDED|95.0|0.82|1.38||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.38|0.82|
92354759|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|2.0|||||TWO_SIDED|95.0|1.46|2.69||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.69|1.46|
92354760|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.74|1.28||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.28|0.74|
92354761|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.59|1.02||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.02|0.59|
92354762|NCT01026038|184614954|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.58|1.1||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.10|0.58|
92354763|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.5|6.7||||||Serotype 4: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.7|-3.5|
92354764|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.5||||||Serotype 4: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-3.6|
92354765|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.8|6.6||||||Serotype 4: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-6.8|
92354766|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.7|6.3||||||Serotype 6B: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.3|-3.7|
92354767|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-3.6|6.4||||||Serotype 6B: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.4|-3.6|
92161774|NCT03370133|184212772|SUPERIORITY||Odds Ratio (OR)|118.762|||<|0.001|TWO_SIDED|95.0|36.701|384.307||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH (Cochran-Mantel-Haenszel) test with region and prior biologic exposure as stratification variables.||384.307|36.701|<0.001
92354768|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.4|6.5||||||Serotype 6B: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-6.4|
92354769|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.6||||||Serotype 9V: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-3.6|
92354770|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.5||||||Serotype 9V: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-3.6|
92354771|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.7|6.5||||||Serotype 9V: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-6.7|
92354772|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.7|6.6||||||Serotype 14: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-3.7|
92354773|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.7|6.5||||||Serotype 14: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-3.7|
92354774|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.7|6.5||||||Serotype 14: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-6.7|
92354775|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.6||||||Serotype 18C: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-3.6|
92354776|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.7|6.3||||||Serotype 18C: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.3|-3.7|
92354777|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.6|6.4||||||Serotype 18C: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.4|-6.6|
92354778|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|-1.7|||||TWO_SIDED|95.0|-6.2|4.5||||||Serotype 19F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||4.5|-6.2|
92354779|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.1|||||TWO_SIDED|95.0|-4.8|7.5||||||Serotype 19F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||7.5|-4.8|
92354780|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|1.8|||||TWO_SIDED|95.0|-4.8|9.5||||||Serotype 19F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||9.5|-4.8|
92401143|NCT02016781|184693515|SUPERIORITY|||||||0.2596||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 MCS scores from enrollment are the same at 24 Months for both treatments.||||0.2596
92401144|NCT02016781|184693515|SUPERIORITY|||||||0.5022||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 MCS scores from enrollment are the same at 36 Months for both treatments.||||0.5022
92401145|NCT02016781|184693516|SUPERIORITY|||||||0.1768||||||Statistical significance was determined using a pre-specified threshold of 0.05.|t-test, 2 sided|||The null hypothesis is that the EQ-5D scores are the same at Enrollment for both treatments.||||0.1768
92401146|NCT02016781|184693516|SUPERIORITY|||||||0.8318||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in EQ-5D scores from enrollment are the same at 6 Months for both treatments.||||0.8318
92401147|NCT02016781|184693516|SUPERIORITY|||||||0.4752||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in EQ-5D scores from enrollment are the same at 12 Months for both treatments.||||0.4752
92354781|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.5|6.7||||||Serotype 23F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.7|-3.5|
92401148|NCT02016781|184693516|SUPERIORITY|||||||0.5671||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in EQ-5D scores from enrollment are the same at 18 Months for both treatments.||||0.5671
92401149|NCT02016781|184693516|SUPERIORITY|||||||0.3009||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in EQ-5D scores from enrollment are the same at 24 Months for both treatments.||||0.3009
92401150|NCT02016781|184693516|SUPERIORITY|||||||0.3403||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in EQ-5D scores from enrollment are the same at 36 Months for both treatments.||||0.3403
92401151|NCT02016781|184693517|SUPERIORITY||||||<|0.0001||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wald test|||The null hypothesis is that the rates of three-year OS are the same for both treatments in treated population.||||< 0.0001
92354782|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.4||||||Serotype 23F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.4|-3.6|
92354783|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.7|6.5||||||Serotype 23F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-6.7|
92354784|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.5|6.4||||||Serotype 1: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.4|-3.5|
92354785|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.3||||||Serotype 1: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.3|-3.6|
92401152|NCT02016781|184693518|SUPERIORITY||||||<|0.0001||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wald test|||The null hypothesis is that the rates of three-year LFS are the same for both treatments in treated population.||||< 0.0001
92161775|NCT03370133|184212772|SUPERIORITY||Odds Ratio (OR)|4.809|||<|0.001|TWO_SIDED|95.0|3.096|7.47||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH (Cochran-Mantel-Haenszel) test with region and prior biologic exposure as stratification variables.||7.470|3.096|<0.001
92161776|NCT03370133|184212773|SUPERIORITY||Odds Ratio (OR)|25.59|||<|0.001|TWO_SIDED|95.0|9.063|72.253||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||72.253|9.063|<0.001
92161777|NCT03370133|184212774|SUPERIORITY||Odds Ratio (OR)|25.471|||<|0.001|TWO_SIDED|95.0|9.02|71.925||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||71.925|9.020|<0.001
92161778|NCT03370133|184212775|SUPERIORITY||Odds Ratio (OR)|123.02|||<|0.001|TWO_SIDED|95.0|29.394|514.862||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||514.862|29.394|<0.001
92161779|NCT03370133|184212775|SUPERIORITY||Odds Ratio (OR)|18.202|||<|0.001|TWO_SIDED|95.0|10.998|30.123||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||30.123|10.998|<0.001
92161780|NCT03370133|184212776|SUPERIORITY||Odds Ratio (OR)|16.258|||<|0.001|TWO_SIDED|95.0|7.356|35.931||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||35.931|7.356|<0.001
92161781|NCT03370133|184212777|SUPERIORITY||Odds Ratio (OR)|22.279|||<|0.001|TWO_SIDED|95.0|9.795|50.674||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||50.674|9.795|<0.001
92161782|NCT03370133|184212778|SUPERIORITY||Odds Ratio (OR)|23.049|||<|0.001|TWO_SIDED|95.0|10.201|52.077||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||52.077|10.201|<0.001
92161783|NCT03370133|184212779|SUPERIORITY||Odds Ratio (OR)|37.696|||<|0.001|TWO_SIDED|95.0|16.92|83.987||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||83.987|16.920|<0.001
92161784|NCT03370133|184212780|SUPERIORITY||Odds Ratio (OR)|8.047|||<|0.001|TWO_SIDED|95.0|5.107|12.679||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||12.679|5.107|<0.001
92161785|NCT03370133|184212781|SUPERIORITY||Odds Ratio (OR)|3.795|||<|0.001|TWO_SIDED|95.0|2.442|5.899||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||5.899|2.442|<0.001
92161786|NCT03370133|184212782|SUPERIORITY||Odds Ratio (OR)|4.379|||<|0.001|TWO_SIDED|95.0|2.85|6.73||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||6.730|2.850|<0.001
92161787|NCT03370133|184212783|SUPERIORITY||Odds Ratio (OR)|2.412|||<|0.001|TWO_SIDED|95.0|1.573|3.699||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||3.699|1.573|<0.001
92161788|NCT00151996|184212796|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Change from baseline in ADHD-RS-IV total score||||<0.0001
92354786|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.5|6.3||||||Serotype 1: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.3|-6.5|
92354787|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|1.8|||||TWO_SIDED|95.0|-1.7|9.6||||||Serotype 3: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||9.6|-1.7|
92161789|NCT00151996|184212796|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Change from baseline in ADHD-RS-IV total score||||<0.0001
92354788|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.7|6.2||||||Serotype 3: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.2|-3.7|
92354789|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|-1.8|||||TWO_SIDED|95.0|-9.6|4.5||||||Serotype 3: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||4.5|-9.6|
92354790|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|2.8|||||TWO_SIDED|95.0|-2.0|11.3||||||Serotype 5: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||11.3|-2.0|
92354791|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|-0.8|||||TWO_SIDED|95.0|-4.9|5.6||||||Serotype 5: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||5.6|-4.9|
92354792|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|-3.6|||||TWO_SIDED|95.0|-12.5|3.2||||||Serotype 5: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||3.2|-12.5|
92354793|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.5||||||Serotype 6A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-3.6|
92354794|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.5||||||Serotype 6A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-3.6|
92354795|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.6|6.6||||||Serotype 6A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-6.6|
92354796|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.4||||||Serotype 7F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.4|-3.6|
92354797|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.5|6.6||||||Serotype 7F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-3.5|
92354798|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.5|6.7||||||Serotype 7F:Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.7|-6.5|
92354799|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.7||||||Serotype 19A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.7|-3.6|
92405661|NCT02148874|184701508|SUPERIORITY||Odds Ratio (OR)|1.26||||0.43|TWO_SIDED|95.0|0.71|2.24|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/ N).|Statistical analysis for influenza strain B/Massachusetts||2.24|0.71|0.43
92161790|NCT00151996|184212798|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Change from baseline in CPRS-R total score||||<0.0001
92161791|NCT00151996|184212798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0|||||t-test, 2 sided|||Change from baseline in CPRS-R total score||||0.0002
92161792|NCT00151996|184212800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7004||95.0|||||t-test, 2 sided|||Change in physical summary score||||0.7004
92161793|NCT00151996|184212800|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Change in psychosocial summary score||||<0.0001
92161794|NCT00151996|184212800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9257||95.0|||||t-test, 2 sided|||Change in physical summary score||||0.9257
92161795|NCT00151996|184212800|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Change in psychosocial summary score||||<0.0001
92354800|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.6||||||Serotype 19A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-3.6|
92401153|NCT04886154|184693535|SUPERIORITY|Superiority was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of samples with bactericidal serum activity is above 5% between the ABCWY low dose\_06 group compared to the Control group at 1 month after the last vaccination.|Difference in percentage|4.67|||||TWO_SIDED|97.5|3.38|5.97|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the superiority of the effectiveness of the MenABCWY-2Gen vaccine (low dose) when administered at 0,6-months schedule, compared to the MenB vaccine administered at 0,6-months schedule.||5.97|3.38|
92401154|NCT04886154|184693535|SUPERIORITY|Superiority was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of samples with bactericidal serum activity is above 5% between the ABCWY low dose\_02 group compared to the Control group at 1 month after the last vaccination.|Difference in percentage|-0.17|||||TWO_SIDED|97.5|-1.65|1.3|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the superiority of the effectiveness of the MenABCWY-2Gen vaccine (low dose) when administered at 0,2- months schedule, compared to the MenB vaccine administered at 0,6-months schedule.||1.30|-1.65|
92354801|NCT01026038|184614957|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.8|6.6||||||Serotype 19A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-6.8|
92354802|NCT02792257|184614964|SUPERIORITY||Difference in slopes|-0.74|STANDARD_ERROR_OF_MEAN|0.3||0.015|TWO_SIDED|95.0|-1.328|-0.152|||Regression, Linear||standard error NOT standard error of the mean|Efficacy is assessed by fitting a longitudinal linear GEE model with the co primary outcomes and with time, treatment arm, and their interaction. Analyses are adjusted for site and for use of antidepressants and antipsychotics at baseline. The treatment by week interaction is the coefficient of interest and represents the difference in change in outcome per week between the two arms.||-0.152|-1.328|.015
92354803|NCT02792257|184614965|SUPERIORITY||Difference in slopes|-1.26|STANDARD_ERROR_OF_MEAN|0.75||0.094|TWO_SIDED|95.0|-2.73|0.21|||Regression, Linear||standard error not standard error of the mean|Efficacy is assessed by fitting a longitudinal linear GEE model with the co primary outcomes and with time, treatment arm, and their interaction. Analyses are adjusted for site and for use of antidepressants and antipsychotics at baseline. The treatment by week interaction is the coefficient of interest and represents the difference in change in outcome per week between the two arms.||0.21|-2.73|.094
92354804|NCT02792257|184614966|SUPERIORITY||Incident rate ratio|1.14|STANDARD_ERROR_OF_MEAN|0.26||0.57|TWO_SIDED|95.0|0.73|1.79|||Regression, Logistic|The original analytic plan called for a logistic regression of ever/never SAE as a function of treatment assignment.|not standard error of the mean just standard error.|||1.79|0.73|.57
92354805|NCT01064622|184614997|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.15|TWO_SIDED|95.0|0.55|1.22||Reported p-value is one-sided. p\<0.10 required for statistical significance.|Log Rank|Stratified by Karnofsky performance status (90-100 vs. 80) and disease status (newly diagnosed vs. recurrent after surgery)|Hazard ratio is for (gemcitabine hydrochloride plus vismodegib)/(gemcitabine hydrochloride plus placebo), adjusted for Karnofsky performance status (90-100 vs. 80) and disease status (newly diagnosed vs. recurrent after surgery)|||1.22|0.55|0.15
92354806|NCT01064622|184614998|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96||||0.37|TWO_SIDED|95.0|0.64|1.46|||Log Rank|Stratified by Karnofsky performance status (90-100 vs. 80) and disease status (newly diagnosed vs. recurrent after surgery)|Hazard ratio is for (gemcitabine hydrochloride plus vismodegib)/(gemcitabine hydrochloride plus placebo), adjusted for Karnofsky performance status (90-100 vs. 80) and disease status (newly diagnosed vs. recurrent after surgery)|||1.46|0.64|0.37
92354807|NCT01064622|184614999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42|TWO_SIDED|||||Two-sided p-value for Cochran-Mantel-Haenszel test stratified by Karnofsky performance status and disease status.|Cochran-Mantel-Haenszel|||||||0.42
92354808|NCT05330429|184615036|SUPERIORITY||Hazard Ratio (HR)|0.956||||0.9323|TWO_SIDED|95.0|0.339|2.691|||Unstratified Log-rank Test|2-Sided P-value was based on unstratified log-rank test.|Hazard ratio and its 95% CI were calculated using unstratified Cox proportional hazards regression model.|||2.691|0.339|0.9323
92354809|NCT05330429|184615039|SUPERIORITY||Hazard Ratio (HR)|0.299|||||TWO_SIDED|95.0|0.056|1.6|||||Hazard ratio and its 95% CI were calculated using unstratified Cox proportional hazards regression model.|||1.600|0.056|
92354810|NCT03142451|184615070|SUPERIORITY||Mean Difference (Final Values)|2.21|STANDARD_ERROR_OF_MEAN|0.749||0.0031|TWO_SIDED|95.0|0.75|3.68|||ANCOVA|Analysis of covariance (ANCOVA) model includes treatment, baseline inflammatory lesion count, and analysis center.||||3.68|0.75|0.0031
92405662|NCT02148874|184701508|SUPERIORITY||Odds Ratio (OR)|1.08||||0.77|TWO_SIDED|95.0|0.63|1.87|||Regression, Logistic||Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/ N).|Statistical analysis for influenza strain B/Brisbane||1.87|0.63|0.77
92161796|NCT02987543|184212818|SUPERIORITY||Odds Ratio (OR)|20.86|||<|0.0001|TWO_SIDED|95.0|4.18|379.18|||Regression, Logistic|||||379.18|4.18|<0.0001
92354811|NCT03142451|184615071|SUPERIORITY||Risk Ratio (RR)|1.21||||0.0273|TWO_SIDED|95.0|1.022|1.434||The p-value is for the null hypothesis that the combined risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Test Stratified by Analysis Center||||1.434|1.022|0.0273
92161797|NCT02987543|184212819|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|0.0001|TWO_SIDED|95.0|0.38|0.63|||Regression, Cox|||||0.63|0.38|<0.0001
92161798|NCT02987543|184212820|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.0192|TWO_SIDED|95.0|0.22|0.91|||Regression, Cox|||||0.91|0.22|0.0192
92161799|NCT02987543|184212821|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0175|TWO_SIDED|95.0|0.5|0.97||2-sided p-value|Regression, Cox|||||0.97|0.50|0.0175
92161800|NCT02987543|184212822|SUPERIORITY||Hazard Ratio (HR)|0.34|||<|0.0001|TWO_SIDED|95.0|0.25|0.47|||Regression, Cox|||||0.47|0.25|<0.0001
92161801|NCT01227278|184212833|SUPERIORITY_OR_OTHER||Rate ratio|1.03||||0.941|TWO_SIDED|95.0|0.67|1.58|||Van Elteren Test|Day 1 to 393: Van Elteren test was used to compare the two arms.|95 percent (%) confidence interval (CI) for rate ratio was based on normal approximation assuming rate with Poisson distribution.|||1.58|0.67|0.941
92220570|NCT02819635|184341772|SUPERIORITY||Adjusted risk difference (%)|35.4|||<|0.001|TWO_SIDED|95.0|19.2|51.7||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||51.7|19.2|<0.001
92220571|NCT02819635|184341773|SUPERIORITY||Adjusted risk difference (%)|11.0||||0.021|TWO_SIDED|95.0|1.7|20.4||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||20.4|1.7|0.021
92220572|NCT02819635|184341773|SUPERIORITY||Adjusted risk difference (%)|9.6||||0.024|TWO_SIDED|95.0|1.3|18.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||18.0|1.3|0.024
92276421|NCT00291330|184454685|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin was set up to 3.6% for the risk difference based on KM estimates|Risk Difference (Percentage)|0.4|||<|0.0001||95.0|-0.8|1.5||Non-inferiority P-Value. Two Statistical analyses performed on primary endpoint. Both non inferiority for the risk difference and for the hazard ratio analyses to be reached in order to conclude positively on the primary endpoint.|Kaplan Meier weighted estimates|||Risk difference vs. Warfarin for Proportion of patients with VTE or death related to VTE at 6 months. Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.50|-0.80|<0.0001
92354812|NCT03142451|184615072|SUPERIORITY||Risk Ratio (RR)|1.21||||0.0171|TWO_SIDED|95.0|1.028|1.425||The p-value is for the null hypothesis that the combined risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Test Stratified by Analysis Center||||1.425|1.028|0.0171
92354813|NCT03142451|184615073|SUPERIORITY||Mean Difference (Final Values)|7.62|STANDARD_ERROR_OF_MEAN|2.626||0.0039|TWO_SIDED|95.0|2.46|12.77|||ANCOVA|ANCOVA model includes treatment, Baseline inflammatory lesion count, and analysis center.||||12.77|2.46|0.0039
92354814|NCT03142451|184615074|SUPERIORITY||Mean Difference (Final Values)|2.63|STANDARD_ERROR_OF_MEAN|0.747||0.0004|TWO_SIDED|95.0|1.16|4.09|||ANCOVA|ANCOVA model included treatment, Baseline inflammatory lesion count, and analysis center.||Statistical analysis for Week 4||4.09|1.16|0.0004
92354815|NCT03142451|184615074|SUPERIORITY||Mean Difference (Final Values)|3.09|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED|95.0|1.62|4.56|||ANCOVA|ANCOVA model included treatment, Baseline inflammatory lesion count, and analysis center.||Statistical analysis for Week 8||4.56|1.62|<0.0001
92354816|NCT03142451|184615075|SUPERIORITY||Risk Ratio (RR)|1.685||||0.0201|TWO_SIDED|95.0|1.085|2.616||P-value is for the null hypothesis that the risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by analysis center.||Statistical analysis for Week 4||2.616|1.085|0.0201
92354817|NCT03142451|184615075|SUPERIORITY||Risk Ratio (RR)|1.191||||0.1278|TWO_SIDED|95.0|0.951|1.492||P-value is for the null hypothesis that the risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by analysis center.||Statistical analysis for Week 8||1.492|0.951|0.1278
92354818|NCT00871000|184615101|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: UL of the standardised asymptotic 95% CI on the group difference \[Tetravac Group minus Boostrix Polio Group\] in the percentage of subjects with anti-polio type 1 antibody titers ≥ 8 was ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.61|2.7||||||To demonstrate that GSK Biologicals' Boostrix Polio™ vaccine is non-inferior to Sanofi-Pasteur-MSD's Tetravac™ vaccine, in terms of seroprotection rates against poliovirus type 1, one month after vaccination.||2.7|-2.61|
92354819|NCT00871000|184615101|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: UL of the standardised asymptotic 95% CI on the group difference \[Tetravac Group minus Boostrix Polio Group\] in the percentage of subjects with anti-polio type 2 antibody titers ≥ 8 was ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.61|2.7||||||To demonstrate that GSK Biologicals' Boostrix Polio™ vaccine is non-inferior to Sanofi-Pasteur-MSD's Tetravac™ vaccine, in terms of seroprotection rates against polio type 2, one month after vaccination.||2.7|-2.61|
92354820|NCT00871000|184615101|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: UL of the standardised asymptotic 95% CI on the group difference \[Tetravac Group minus Boostrix Polio Group\] in the percentage of subjects with anti-polio type 3 antibody titers ≥ 8 was ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.61|2.72||||||To demonstrate that GSK Biologicals' Boostrix Polio™ vaccine is non-inferior to Sanofi-Pasteur-MSD's Tetravac™ vaccine, in terms of seroprotection rates against polio type 3, one month after vaccination.||2.72|-2.61|
92401155|NCT04886154|184693535|SUPERIORITY|Superiority was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of samples with bactericidal serum activity is above 5% between the ABCWY high dose\_06 group compared to the Control group at 1 month after the last vaccination.|Difference in percentage|4.6|||||TWO_SIDED|97.5|3.33|5.89|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the superiority of the effectiveness of the MenABCWY-2Gen vaccine (high dose) when administered at 0,6- months schedule, compared to the MenB vaccine administered at 0,6-months schedule.||5.89|3.33|
92354821|NCT00871000|184615102|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: Upper limit (UL) of the standardised asymptotic 95% confidence interval (CI) on the group difference \[Tetravac Group minus Boostrix Polio Group\] in the percentage of subjects with anti-D antibody concentrations ≥ 0.1 IU/mL was lower than or equal to (≤) 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.61|2.7||||||To demonstrate that GSK Biologicals' Boostrix Polio™ vaccine is non-inferior to Sanofi-Pasteur-MSD's Tetravac™ vaccine, in terms of seroprotection rates against diphtheria, one month after vaccination.||2.7|-2.61|
92354822|NCT00871000|184615102|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: UL of the standardised asymptotic 95% CI on the group difference \[Tetravac Group minus Boostrix Polio Group\] in the percentage of subjects with anti-T antibody concentrations ≥ 0.1 IU/mL was ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.61|2.7||||||To demonstrate that GSK Biologicals' Boostrix Polio™ vaccine is non-inferior to Sanofi-Pasteur-MSD's Tetravac™ vaccine, in terms of seroprotection rates against tetanus, one month after vaccination.||2.7|-2.61|
92354823|NCT01052428|184615118|SUPERIORITY_OR_OTHER|||||||0.4568||95.0|||||Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.4568
92354824|NCT01052428|184615119|SUPERIORITY_OR_OTHER|||||||0.1967||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.1967
92354825|NCT01052428|184615120|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.55
92354826|NCT01052428|184615121|SUPERIORITY_OR_OTHER|||||||0.21||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.21
92354827|NCT01052428|184615122|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.006
92354828|NCT01052428|184615123|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.16
92354829|NCT01052428|184615124|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.001
92405663|NCT02148874|184701509|SUPERIORITY||Odds Ratio (OR)|1.39||||0.2|TWO_SIDED|95.0|0.84|2.32|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H1N1||2.32|0.84|0.20
92161802|NCT00420316|184212851|SUPERIORITY_OR_OTHER||Percent reduction|34.3||||0.691|TWO_SIDED|95.0|-348.7|88.9|||Fisher Exact|||Vaccine efficacy with respect to any rotavirus gastroenteritis (RV GE) caused by the circulating wild-type rotavirus strain. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who received placebo.||88.9|-348.7|0.691
92161803|NCT00420316|184212852|SUPERIORITY_OR_OTHER||Percent reduction|50.7||||0.551|TWO_SIDED|95.0|-3769.6|99.4|||Fisher Exact|||Vaccine efficacy with respect to severe rotavirus gastroenteritis (RVGE) caused by the circulating wild-type rotavirus strain was assessed. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who have received placebo.||99.4|-3769.6|0.551
92161804|NCT00420316|184212854|SUPERIORITY_OR_OTHER||Percent reduction|100.0||||0.33|TWO_SIDED|95.0|-1822.5|100.0|||Fisher Exact|||Vaccine efficacy with respect to severe rotavirus gastroenteritis (RVGE) caused by the wild-type rotavirus strain of serotype G1. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who received placebo.||100|-1822.5|0.33
92161805|NCT00420316|184212855|SUPERIORITY_OR_OTHER||Percent reduction|-97.2||||1|TWO_SIDED|95.0|-9610.8|80.5|||Fisher Exact|||Vaccine efficacy with respect to any rotavirus gastroenteritis (RVGE) caused by the wild-type rotavirus strain of non-G1 serotype. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who received placebo.||80.5|-9610.8|1
92161806|NCT00420316|184212856|SUPERIORITY_OR_OTHER||Percent reduction|0.0||||1|TWO_SIDED|95.0|0.0|98.7|||Fisher Exact|||Vaccine efficacy with respect to severe rotavirus gastroenteritis (RVGE) caused by the wild-type rotavirus strain of non-G1 serotype was assessed. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who received placebo.||98.7|0|1
92161807|NCT00420316|184212857|SUPERIORITY_OR_OTHER||Percent reduction|-23.2||||0.817|TWO_SIDED|95.0|-287.7|54.8|||Fisher Exact|||Vaccine efficacy with respect to severe gastroenteritis (GE) was assessed. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who received placebo.||54.8|-287.7|0.817
92220573|NCT02819635|184341773|SUPERIORITY||Adjusted risk difference (%)|12.2||||0.015|TWO_SIDED|95.0|2.3|22.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||22.0|2.3|0.015
92276422|NCT00291330|184454685|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||||95.0|0.65|1.84|||Regression, Cox|Patients without events are censored at day 180||Hazard ratio vs. Warfarin (events occurring between randomisation and the day 180). The time to first occurrence of the primary endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.84|0.65|
92354830|NCT03400787|184615125|SUPERIORITY|||||||0.0001||||||p\<0.025 indicates statistical significance.|t-test, 1 sided|||Null hypothesis is that the responder rate for the Latera implant treatment was not superior to the sham treatment. A maximum sample size of 124 evaluable subjects is required for 90% power and preserving a 2.5% (one-sided) type I error rate.||||0.0001
92354831|NCT02837952|184615152|SUPERIORITY||Least Square Mean Difference|72.89|||<|0.001|TWO_SIDED|95.0|50.075|95.707|||ANCOVA|||Treatment difference and 95 percent (%) confidence interval (CI) were based on LS Mean from analysis of covariance (ANCOVA) with treatment, gender, baseline categorical pain severity rating (PSR) as classification variables and baseline numerical PSR used as a continuous covariate.||95.707|50.075|<0.001
92354832|NCT02837952|184615153|SUPERIORITY||Least Square Mean Difference|26.45|||<|0.001|TWO_SIDED|95.0|19.895|33.005|||ANCOVA|||0 to 8 hours: Treatment difference and 95% CI were based on least square (LS) mean from analysis of covariance (ANCOVA) with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||33.005|19.895|< 0.001
92161808|NCT03546907|184212861|SUPERIORITY||Risk Ratio (RR)|0.808||||0.1296|TWO_SIDED|95.0|0.613|1.065|||Negative binomial regression model|||Analysis was performed using negative binomial regression model with total number of events occurring during observation duration as response variable, treatment, baseline eosinophil strata, region, number of severe COPD exacerbations experienced in previous year(0 vs. 1+) at baseline, smoking history(current vs. former smoker), post-BD FEV1 percent(%) predicted (less than\[\<\] 50% vs greater than equal\[\>=\]50%) at baseline as covariates, and log-transformed observation duration as offset variable.||1.065|0.613|0.1296
92354833|NCT02837952|184615153|SUPERIORITY||LS Mean Difference|7.91|||<|0.001|TWO_SIDED|95.0|5.196|10.632|||ANCOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||10.632|5.196|< 0.001
92354834|NCT02837952|184615153|SUPERIORITY||LS Mean Difference|51.67|||<|0.001|TWO_SIDED|95.0|37.075|66.258|||ANCOVA|||0 to 16 hours: Treatment difference and 95% CI were based on LS mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||66.258|37.075|< 0.001
92354835|NCT02837952|184615153|SUPERIORITY||LS Mean Difference|27.32|||<|0.001|TWO_SIDED|95.0|18.139|36.508|||ANCOVA|||8 to 16 hours: Treatment difference and 95% CI were based on LS mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||36.508|18.139|< 0.001
92354836|NCT02837952|184615153|SUPERIORITY||LS Mean Difference|138.65|||<|0.001|TWO_SIDED|95.0|91.045|186.261|||ANCOVA|||0 to 48 hours: Treatment difference and 95% CI were based on LS mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||186.261|91.045|< 0.001
92354837|NCT02837952|184615154|SUPERIORITY||||||<|0.001||||||P-value Method was based on Gehan-Wilcoxon test, stratified by sex and baseline categorical PSR.|Gehan-Wilcoxon test|||||||<0.001
92354838|NCT02837952|184615155|SUPERIORITY||||||<|0.001||||||P-value Method was based on Gehan-Wilcoxon test, stratified by sex and baseline categorical PSR.|Gehan-Wilcoxon test|||||||<0.001
92354839|NCT01879826|184615156|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|With a power of 0.8 and an acceptable type I error size of 0.05, 38 patients per group was estimated to achieve significance||||||0.044|||||||t-test, 2 sided|||||||0.044
92354840|NCT01879826|184615157|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|With a power of 0.8 and an acceptable type I error size of 0.05, 38 patients per group was estimated to achieve significance.||||||0.04|||||||t-test, 2 sided|||||||0.04
92354841|NCT02003898|184615172|NON_INFERIORITY|non-inferiority test with an A1C margin of 0.4% and a significance level of 0.025 (one-sided).|Mean Difference (Net)|0.034|||||TWO_SIDED|95.0|-0.03|0.098||||||||0.098|-0.03|
92161809|NCT03110458|184212894|SUPERIORITY|||||||0.8466|||||||ANCOVA|||||||0.8466
92161810|NCT03110458|184212895|SUPERIORITY|||||||0.9538|||||||ANCOVA|||||||0.9538
92161811|NCT03110458|184212896|SUPERIORITY|||||||0.3166|||||||ANCOVA|||||||0.3166
92161812|NCT03110458|184212897|SUPERIORITY|||||||0.393|||||||ANCOVA|||||||0.393
92161813|NCT03110458|184212900|SUPERIORITY|||||||0.5324|||||||ANCOVA|||||||0.5324
92161814|NCT02982213|184212944|SUPERIORITY||Mean Difference (Net)|0.025||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.001
92354842|NCT01651208|184615176|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED|95.0|||||Chi-squared|||We hypothesized that in the MINT group, at least 70% of subjects will reach an MPR of 0.80 while in the DVD group, the proportion will remain at or below 55%. Our sample size estimates showed that, using a conservative 2-sided test at the 5% Alpha level and a 90% power, we will be able to detect a significant 15% difference (70% - 55%) with a sample of 217 in each study group.||||<0.01
92354843|NCT01651208|184615177|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis is that the mean MMAS-4 score is similar in both intervention arms||||<0.01
92354844|NCT00425854|184615241|SUPERIORITY_OR_OTHER||Maximum Likelihood|0.048|||||TWO_SIDED|95.0|0.001|0.238|||||Maximum Likelihood estimates. The clinical benefit rate for Cohort A was calculated by relating the number of patients with CB to all treated patients in Cohort B. The CI is an exact Clopper Pearson CI.|||0.238|0.001|
92161815|NCT02982213|184212948|EQUIVALENCE|Sample size of 5 per group to achieve 80% power to detect a change in the log odds ration of 1.0 at a .05 significance level using a two sided Mann Whitney U test.||||||0.001|TWO_SIDED|95.0|||||McNemar|||||||.001
92354845|NCT00425854|184615246|SUPERIORITY_OR_OTHER||Clinical benefit rate|0.1|||||TWO_SIDED|95.0|0.02|0.27|||Maxium Likelihood||Maximum Likelihood estimates. The clinical benefit rate for Cohort A was calculated by relating the number of patients with CB to all treated patients in Cohort A. The confidence interval (CI) is an exact Clopper Pearson CI.|||0.27|0.02|
92354846|NCT01725308|184615257|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.4||||0.034|TWO_SIDED|95.0|-4.7|-0.2|||ANCOVA|||An analysis of covariance (ANCOVA) using a model where the total MADRS score at baseline is a covariate and the treatment group and bipolar disorder diagnosis (Type I/ II) are fixed effects.||-0.2|-4.7|0.034
92354847|NCT01725308|184615264|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.7||||0.033|TWO_SIDED|95.0|-3.3|-0.1|||ANCOVA|||At End of Treatment Period I/Week 8: An analysis of covariance (ANCOVA) using a model where the total HAM-D17 score at baseline is a covariate and the treatment group and bipolar disorder diagnosis (Type I/II) are fixed effects.||-0.1|-3.3|0.033
92354848|NCT04565756|184615343|OTHER|||||||||||||||||Since the primary objective of the study was to evaluate ocular safety and tolerability, no formal hypothesis testing was performed for any continuous or categorical variables. All statistical analyses were descriptive in nature and any statistical inferences were carried out according to the analysis plan and interpreted in view of the exploratory nature of the study.|Since the primary objective of the study was to evaluate ocular safety and tolerability, no formal hypothesis testing was performed for any continuous or categorical variables.|||
92354849|NCT03782103|184615380|NON_INFERIORITY|Investigational product upper bounds must be less than 0.5.|Median Difference (Final Values)|-0.2845|||||TWO_SIDED|95.0|-0.6033|0.0334||||||Groin 30 seconds post product application, Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and the predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||0.0334|-0.6033|
92354850|NCT03782103|184615380|SUPERIORITY|Investigational product lower bounds must be greater than 1.2.|Mean Difference (Final Values)|2.8535|||||TWO_SIDED|95.0|2.5415|3.1655||||||Groin 30 seconds post product application, Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||3.1655|2.5415|
92354851|NCT03782103|184615381|NON_INFERIORITY|Investigational product average treatment effect upper bounds cannot be more than 0.5.|Mean Difference (Final Values)|0.0577|||||TWO_SIDED|95.0|-0.1457|0.2611||||||Abdomen 30 seconds post product application, Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||0.2611|-0.1457|
92354852|NCT03782103|184615381|SUPERIORITY|Investigational product lower bounds must be greater than 1.2.|Mean Difference (Final Values)|1.8208|||||TWO_SIDED|95.0|1.6153|2.0264||||||Abdomen 30 seconds post product application, Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||2.0264|1.6153|
92354853|NCT01712074|184615415|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.695|STANDARD_ERROR_OF_MEAN|0.8697||0.4256|TWO_SIDED|80.0|-0.424|1.814|||Mixed Models Analysis|||||1.814|-0.424|0.4256
92354854|NCT01712074|184615416|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.194|STANDARD_ERROR_OF_MEAN|1.7149||0.2027|TWO_SIDED|80.0|-0.013|4.401|||Mixed Models Analysis|||||4.401|-0.013|0.2027
92354855|NCT03478787|184615439|NON_INFERIORITY|Non-inferiority is met if the lower bound of the 96.25% confidence interval (CI) of adjusted treatment difference is above -12%.|Adjusted percentage difference|8.2|||||TWO_SIDED|96.25|-2.2|18.6|||||Across the strata, 96.25% confidence interval (CI) for adjusted difference was calculated according to the Cochran-Mantel-Haenszel test for the comparison of 2 treatment groups.|||18.6|-2.2|
92354856|NCT03478787|184615440|SUPERIORITY||Adjusted percentage difference|29.8|||<|0.001|TWO_SIDED|95.0|20.8|38.8||Across the strata, p-value was calculated from the from the Cochran-Mantel-Haenszel test adjusted for strata.|Cochran-Mantel-Haenszel||Across the strata, 95% CI for adjusted difference was calculated according to the Cochran-Mantel-Haenszel test for the comparison of 2 treatment groups.|||38.8|20.8|< 0.001
92354857|NCT03478787|184615441|SUPERIORITY||Adjusted percentage difference|26.2|||<|0.001|TWO_SIDED|95.0|15.9|36.5||Across the strata, p-value was calculated from the from the Cochran-Mantel-Haenszel test adjusted for strata.|Cochran-Mantel-Haenszel||Across the strata, 95% CI for adjusted difference was calculated according to the Cochran-Mantel-Haenszel test for the comparison of 2 treatment groups.|||36.5|15.9|< 0.001
92354858|NCT03478787|184615442|SUPERIORITY||Adjusted percentage difference|29.8|||<|0.001|TWO_SIDED|95.0|20.9|38.8||Across the strata, p-value was calculated from the from the Cochran-Mantel-Haenszel test adjusted for strata.|Cochran-Mantel-Haenszel||Across the strata, 95% CI for adjusted difference was calculated according to the Cochran-Mantel-Haenszel test for the comparison of 2 treatment groups.|||38.8|20.9|< 0.001
92354859|NCT03478787|184615443|SUPERIORITY||Adjusted percentage difference|20.0|||<|0.001|TWO_SIDED|95.0|11.7|28.3||Across the strata, p-value was calculated from the from the Cochran-Mantel-Haenszel test adjusted for strata.|Cochran-Mantel-Haenszel||Across the strata, 95% CI for adjusted difference was calculated according to the Cochran-Mantel-Haenszel test for the comparison of 2 treatment groups.|||28.3|11.7|< 0.001
92354860|NCT01245049|184615529|NON_INFERIORITY|To assess the Non-inferiority of the Boostrix Polio Group compared to the Repevax Group in terms of booster response to diphtheria, standardized asymptotic 95% CI for the groups'difference \[Repevax Group minus Boostrix Polio Group\] was computed. Non-inferiority criterion: Upper limit of the 95% CI of the groups' difference in booster response rate ≤10%.|Percentage difference|0.56|||||TWO_SIDED|95.0|-3.55|3.14|||Standardized asymptotic|||Non-inferiority in terms of booster response to D||3.14|-3.55|
92354861|NCT01245049|184615529|NON_INFERIORITY|To assess the Non-inferiority of the Boostrix Polio Group compared to the Repevax Group in terms of booster response to tetanus, standardized asymptotic 95% CI for the groups' difference \[Repevax Group minus Boostrix Polio Group\] was computed. Non-inferiority criterion: Upper limit of the 95% CI of the groups' difference in booster response rate ≤10%.|Percentage difference|1.7|||||TWO_SIDED|95.0|-2.43|4.9||||||Non-inferiority in terms of booster response to T||4.9|-2.43|
92354862|NCT01245049|184615531|NON_INFERIORITY|Criterion for evaluation of the corresponding objective: Upper limit (UL) of the 95% confidence interval (CI) on the GMT ratio for the groups' (Repevax Group divided by Boostrix-Polio Group) was lower than or equal to (≤) 2.|Difference in adjusted GMT ratio|0.91|||||TWO_SIDED|95.0|0.65|1.28|||ANCOVA|||Immune response difference to anti-Polio 1 antigen||1.28|0.65|
92354863|NCT01245049|184615531|NON_INFERIORITY|Criterion for evaluation of the corresponding objective: UL of the 95% CI on the GMT ratio for the groups' (Repevax Group divided by Boostrix-Polio Group) ≤ 2.|Difference in adjusted GMT ratio|0.78|||||TWO_SIDED|95.0|0.54|1.12|||ANCOVA|||Immune response difference to anti-Polio 2 antigen||1.12|0.54|
92354864|NCT01245049|184615531|NON_INFERIORITY|Criterion for evaluation of the corresponding objective: UL of the 95% CI on the GMT ratio for the groups' (Repevax Group divided by Boostrix-Polio Group) ≤ 2.|Difference in adjusted GMT ratio|1.3|||||TWO_SIDED|95.0|0.93|1.84|||ANCOVA|||Immune response difference to anti-Polio 3 antigen||1.84|0.93|
92354865|NCT02151604|184615563|OTHER||Pearson's coefficient|-0.57||||0.041|TWO_SIDED||||||Pearson's correlation analysis|||Correlation with field of irradiation||||0.041
92354866|NCT02151604|184615565|OTHER||Pearson's coefficient|0.6||||0.037|TWO_SIDED|||||Pearson's correlation coefficient: 0.60|Pearson's Correlation Analysis|0.60||Correlation of change in ventilation signal with that of alveolar volume (VA)||||0.037
92354867|NCT02151604|184615565|OTHER||Pearson's correlation coefficient|0.7||||0.012|TWO_SIDED||||||Pearson's correlation analysis|Pearson's correlation coefficient: 0.70||Correlation of change in ventilation signal with that of diffusing capacity for carbon monoxide(TLCO)||||0.012
92401156|NCT04886154|184693535|SUPERIORITY|Superiority was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of samples with bactericidal serum activity is above 5% between the ABCWY high dose\_02 group compared to the Control group at 1 month after the last vaccination.|Difference in percentage|2.01|||||TWO_SIDED|97.5|0.6|3.42|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the superiority of the effectiveness of the MenABCWY-2Gen vaccine (high dose) when administered at 0,2- months schedule, compared to the MenB vaccine administered at 0,6-months schedule.||3.42|0.60|
92161816|NCT03247543|184212954|SUPERIORITY||Least Square Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.05||0.0038|TWO_SIDED|95.0|-10.0|-1.9|||Mixed Models for Repeated Measures|||||-1.9|-10.0|0.0038
92354868|NCT02151604|184615565|OTHER||Pearson's correlation coefficient|-0.85||||0.032|TWO_SIDED||||||Pearson's correlation analysis|R = -0.85||Correlation of change in ventilation signal with that of residual volume (RV)||||0.032
92354869|NCT02151604|184615565|OTHER||Pearson's correlation coefficient|-0.95||||0.004|TWO_SIDED||||||Pearson's correlation analysis|R = -0.95||Correlation of change in ventilation signal with that of functional residual capacity (FRC)||||0.004
92161817|NCT03247543|184212954|SUPERIORITY||Least Square Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|2.11||0.0063|TWO_SIDED|95.0|-9.9|-1.7|||Mixed Models for Repeated Measures|||||-1.7|-9.9|0.0063
92354870|NCT02151604|184615565|OTHER||Pearson's correlation coefficient|-0.88||||0.012|TWO_SIDED||||||Pearson's correlation analysis|Pearson's correlation coefficient = -0.88||Correlation of change in ventilation signal with that of inspiratory capacity(IC)||||0.012
92354871|NCT00561821|184615583|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354872|NCT00561821|184615583|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354873|NCT00561821|184615583|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354874|NCT00561821|184615584|SUPERIORITY_OR_OTHER|||||||0.0146||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0146
92354875|NCT00561821|184615584|SUPERIORITY_OR_OTHER|||||||0.0234||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0234
92354876|NCT00561821|184615584|SUPERIORITY_OR_OTHER|||||||0.0102||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0102
92354877|NCT00561821|184615585|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354878|NCT00561821|184615585|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354879|NCT00561821|184615585|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92161818|NCT03247543|184212955|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0028|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.2|-0.8|0.0028
92354880|NCT00561821|184615586|SUPERIORITY_OR_OTHER|||||||0.001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.001
92354881|NCT00561821|184615586|SUPERIORITY_OR_OTHER|||||||0.0213||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0213
92354882|NCT00561821|184615586|SUPERIORITY_OR_OTHER|||||||0.0135||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0135
92354883|NCT00561821|184615587|SUPERIORITY_OR_OTHER|||||||0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0001
92354884|NCT00561821|184615587|SUPERIORITY_OR_OTHER|||||||0.0003||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0003
92354885|NCT00561821|184615587|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354886|NCT00561821|184615588|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354887|NCT00561821|184615588|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92161819|NCT03247543|184212955|SUPERIORITY||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0099|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.1|-0.8|0.0099
92354888|NCT00561821|184615588|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354889|NCT00561821|184615589|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92161820|NCT03247543|184212956|SUPERIORITY||Least Square Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|1.39||0.0064|TWO_SIDED|95.0|-6.5|-1.1|||ANCOVA|||||-1.1|-6.5|0.0064
92161821|NCT03247543|184212956|SUPERIORITY||Least Square Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.46||0.0917|TWO_SIDED|95.0|-5.3|0.4|||ANCOVA|||||0.4|-5.3|0.0917
92354890|NCT00561821|184615589|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354891|NCT00561821|184615589|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354892|NCT00561821|184615590|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354893|NCT00561821|184615590|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354894|NCT00561821|184615590|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354895|NCT00561821|184615591|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354896|NCT00561821|184615591|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354897|NCT00561821|184615591|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92161822|NCT03247543|184212957|SUPERIORITY||Least Square Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.059||0.0651|TWO_SIDED|95.0|-0.22|0.01|||ANCOVA|||||0.01|-0.22|0.0651
92354898|NCT00561821|184615592|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354899|NCT00561821|184615592|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354900|NCT00561821|184615592|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354901|NCT00561821|184615593|SUPERIORITY_OR_OTHER|||||||0.6317||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.6317
92354902|NCT00561821|184615593|SUPERIORITY_OR_OTHER|||||||0.6355||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.6355
92354903|NCT00561821|184615593|SUPERIORITY_OR_OTHER|||||||0.7865||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.7865
92354904|NCT00561821|184615594|SUPERIORITY_OR_OTHER|||||||0.4033||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.4033
92354905|NCT00561821|184615594|SUPERIORITY_OR_OTHER|||||||0.4153||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.4153
92354906|NCT00561821|184615594|SUPERIORITY_OR_OTHER|||||||0.6271||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.6271
92354907|NCT00561821|184615595|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354908|NCT00561821|184615595|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92276423|NCT00291330|184454686|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.3||||0.622||95.0|-1.0|1.7|||Kaplan Meier weighted estimates|||Risk difference vs. Warfarin for Proportion of patients with VTE or death at 6 months. Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.70|-1.00|0.6220
92276424|NCT00291330|184454686|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9844||95.0|0.69|1.46|||Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.46|0.69|0.9844
92161823|NCT03247543|184212957|SUPERIORITY||Least Square Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.061||0.168|TWO_SIDED|95.0|-0.2|0.04|||ANCOVA|||||0.04|-0.20|0.1680
92276425|NCT00291330|184454687|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.2||||0.6466||95.0|-1.1|0.7|||Kaplan Meier weighted estimates|||Risk difference vs. Warfarin for Proportion of patients with symptomatic DVT at 6 months. Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.70|-1.10|0.6466
92276426|NCT00291330|184454687|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.385||95.0|0.4|1.42|||Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.42|0.40|0.3850
92276427|NCT00291330|184454688|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.3||||0.2981||95.0|-0.3|1.0|||Kaplan Meier weighted estimates|||Risk difference vs. Warfarin for Proportion of patients with symptomatic non-fatal PE at 6 months. Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.00|-0.30|0.2981
92276428|NCT00291330|184454688|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.0||||0.1092||95.0|0.86|4.68|||Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||4.68|0.86|0.1092
92276429|NCT00291330|184454689|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.3||||0.5327||95.0|-1.2|0.6|||Kaplan Meier weighted estimates|||Risk difference at 6 months vs. Warfarin for Proportion of patients who died due to VTE . Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.60|-1.20|0.5327
92276430|NCT00291330|184454689|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.3332||95.0|0.03|3.15|||Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||3.15|0.03|0.3332
92276431|NCT00291330|184454690|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.1||||0.8018||95.0|-1.0|0.8|||Kaplan Meier weighted estimates|||Risk difference at 6 months vs. Warfarin for Proportion of patients who died from any cause. Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.80|-1.00|0.8018
92354909|NCT00561821|184615595|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
92354910|NCT00561821|184615596|SUPERIORITY_OR_OTHER|||||||0.0243||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0243
92354911|NCT00561821|184615596|SUPERIORITY_OR_OTHER|||||||0.0242||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0242
92161824|NCT03247543|184212958|SUPERIORITY||Risk Difference (RD)|10.1||||0.1316|TWO_SIDED|95.0|-2.9|23.1|||Regression, Logistic|||||23.1|-2.9|0.1316
92161825|NCT03247543|184212958|SUPERIORITY||Risk Difference (RD)|15.4||||0.0276|TWO_SIDED|95.0|2.0|28.9|||Regression, Logistic|||||28.9|2.0|0.0276
92161826|NCT03247543|184212959|SUPERIORITY||Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.7||0.2128|TWO_SIDED|95.0|-8.7|1.9|||ANCOVA|||||1.9|-8.7|0.2128
92161827|NCT03247543|184212959|SUPERIORITY||Least Square Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|2.83||0.0409|TWO_SIDED|95.0|-11.3|-0.2|||ANCOVA|||||-0.2|-11.3|0.0409
92161828|NCT03247543|184212960|SUPERIORITY||Least Square Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|1.07||0.002|TWO_SIDED|95.0|-5.4|-1.2|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-1.2|-5.4|0.0020
92161829|NCT03247543|184212960|SUPERIORITY||Least Square Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|1.09||0.0039|TWO_SIDED|95.0|-5.3|-1.0|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-1.0|-5.3|0.0039
92401157|NCT04886154|184693536|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|3.03|||||TWO_SIDED|97.5|-4.21|10.17|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men A).||10.17|-4.21|
92401158|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|4.66|||||TWO_SIDED|97.5|-2.71|11.64|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men A).||11.64|-2.71|
92401159|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|5.48|||||TWO_SIDED|97.5|-0.71|12.25|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men A).||12.25|-0.71|
92401160|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|3.87|||||TWO_SIDED|97.5|-3.7|10.97|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men A).||10.97|-3.70|
92401161|NCT04886154|184693536|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|35.03|||||TWO_SIDED|97.5|25.22|44.75|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men C).||44.75|25.22|
92401162|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|34.16|||||TWO_SIDED|97.5|23.76|44.1|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men C).||44.10|23.76|
92401163|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|29.88|||||TWO_SIDED|97.5|19.26|40.19|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men C).||40.19|19.26|
92401164|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|33.54|||||TWO_SIDED|97.5|23.09|43.54|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men C).||43.54|23.09|
92161830|NCT03247543|184212960|SUPERIORITY||Least Square Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|1.05||0.0087|TWO_SIDED|95.0|-4.8|-0.7|||ANCOVA|||This analysis pertains to the Inattention subscale score||-0.7|-4.8|0.0087
92161831|NCT03247543|184212960|SUPERIORITY||Least Square Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.09||0.0248|TWO_SIDED|95.0|-4.6|-0.3|||ANCOVA|||This analysis pertains to the Inattention subscale score||-0.3|-4.6|0.0248
92161832|NCT03247543|184212961|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.43||0.7003|TWO_SIDED|95.0|-3.3|2.2|||ANCOVA|||||2.2|-3.3|0.7003
92161833|NCT03247543|184212961|SUPERIORITY||Least Square Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.45||0.1602|TWO_SIDED|95.0|-4.9|0.8|||ANCOVA|||||0.8|-4.9|0.1602
92161834|NCT03247543|184212962|SUPERIORITY|||||||0.0236|||||||Chi-squared|||This analysis pertains to Week 1 of treatment.||||0.0236
92354912|NCT00561821|184615596|SUPERIORITY_OR_OTHER|||||||0.0007||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0007
92161835|NCT03247543|184212962|SUPERIORITY|||||||0.0505|||||||Chi-squared|||This analysis pertains to Week 2 of treatment.||||0.0505
92354913|NCT00561821|184615597|SUPERIORITY_OR_OTHER|||||||0.0199||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0199
92354914|NCT00561821|184615597|SUPERIORITY_OR_OTHER|||||||0.0316||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0316
92354915|NCT00561821|184615597|SUPERIORITY_OR_OTHER|||||||0.0014||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0014
92354916|NCT01197300|184615608|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|3.7||||0.8505|TWO_SIDED|95.0|-37.242|44.642||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Lumbar Spine BMD Z-score Change at Month 18||44.642|-37.242|0.8505
92354917|NCT01197300|184615608|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|21.752||||0.218|TWO_SIDED|95.0|-14.126|57.63||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Lumbar Spine BMD Z-score Change at Month 24||57.630|-14.126|0.2180
92354918|NCT01197300|184615609|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|2.36||||0.3544|TWO_SIDED|95.0|-2.886|7.606||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Lumbar Spine BMC Change at Month 18||7.606|-2.886|0.3544
92354919|NCT01197300|184615609|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|1.179||||0.705|TWO_SIDED|95.0|-5.281|7.639||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Lumbar Spine BMC Change at Month 24||7.639|-5.281|0.7050
92354920|NCT01197300|184615610|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|121.129||||0.531|TWO_SIDED|95.0|-291.0|533.258||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Total body BMC Change at Month 18||533.258|-291.000|0.5310
92354921|NCT01197300|184615610|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|65.674||||0.7347|TWO_SIDED|95.0|-344.067|475.415||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Total body BMC Change at Month 24||475.415|-344.067|0.7347
92354922|NCT01197300|184615611|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-147.68||||0.4143|TWO_SIDED|95.0|-394.41|99.049||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum P1NP Change at Month 18||99.049|-394.410|0.4143
92354923|NCT01197300|184615611|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-132.437||||0.1266|TWO_SIDED|95.0|-286.452|21.579||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum P1NP Change at Month 24||21.579|-286.452|0.1266
92354924|NCT01197300|184615612|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-17.691||||0.2123|TWO_SIDED|95.0|-41.925|6.543||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||BSAP Change at Month 18||6.543|-41.925|0.2123
92354925|NCT01197300|184615612|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-3.662||||0.4852|TWO_SIDED|95.0|-21.479|14.155||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||BSAP Change at Month 24||14.155|-21.479|0.4852
92161836|NCT03247543|184212962|SUPERIORITY|||||||0.1225|||||||Chi-squared|||This analysis pertains to Week 3 of treatment.||||0.1225
92161837|NCT03247543|184212962|SUPERIORITY|||||||0.0254|||||||Chi-squared|||This analysis pertains to Week 4 of treatment.||||0.0254
92161838|NCT03247543|184212962|SUPERIORITY|||||||0.0261|||||||Chi-squared|||This analysis pertains to Week 5 of treatment.||||0.0261
92220574|NCT02819635|184341773|SUPERIORITY||Adjusted risk difference (%)|20.1||||0.001|TWO_SIDED|95.0|8.0|32.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||32.1|8.0|0.001
92354926|NCT01197300|184615613|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-4.661||||0.9009|TWO_SIDED|95.0|-16.647|7.325||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum NTX Change at Month 18||7.325|-16.647|0.9009
92354927|NCT01197300|184615613|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-2.558||||0.9472|TWO_SIDED|95.0|-8.864|3.747||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum NTX Change at Month 24||3.747|-8.864|0.9472
92161839|NCT03247543|184212962|SUPERIORITY|||||||0.0037|||||||Chi-squared|||This analysis pertains to Week 6 of treatment.||||0.0037
92161840|NCT03247543|184212962|SUPERIORITY|||||||0.0385|||||||Chi-squared|||This analysis pertains to Week 7 of treatment.||||0.0385
92161841|NCT03247543|184212962|SUPERIORITY|||||||0.0956|||||||Chi-squared|||This analysis pertains to Week 8 of treatment.||||0.0956
92161842|NCT03247543|184212962|SUPERIORITY|||||||0.0962|||||||Chi-squared|||This analysis pertains to Week 1 of treatment.||||0.0962
92161843|NCT03247543|184212962|SUPERIORITY|||||||0.0744|||||||Chi-squared|||This analysis pertains to Week 2 of treatment.||||0.0744
92161844|NCT03247543|184212962|SUPERIORITY|||||||0.0218|||||||Chi-squared|||This analysis pertains to Week 3 of treatment.||||0.0218
92401165|NCT04886154|184693536|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|30.88|||||TWO_SIDED|97.5|21.61|40.32|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men W).||40.32|21.61|
92161845|NCT03247543|184212962|SUPERIORITY|||||||0.115|||||||Chi-squared|||This analysis pertains to Week 4 of treatment.||||0.1150
92161846|NCT03247543|184212962|SUPERIORITY|||||||0.1086|||||||Chi-squared|||This analysis pertains to Week 5 of treatment.||||0.1086
92161847|NCT03247543|184212962|SUPERIORITY|||||||0.0082|||||||Chi-squared|||This analysis pertains to Week 6 of treatment.||||0.0082
92161848|NCT03247543|184212962|SUPERIORITY|||||||0.2326|||||||Chi-squared|||This analysis pertains to Week 7 of treatment.||||0.2326
92161849|NCT03247543|184212962|SUPERIORITY|||||||0.0883|||||||Chi-squared|||This analysis pertains to Week 8 of treatment.||||0.0883
92161850|NCT01081145|184212963|SUPERIORITY_OR_OTHER_LEGACY||Difference in treatment failures|-15.6||||0.006|TWO_SIDED|95.0|-26.6|-4.5|||Cochran-Mantel-Haenszel|||||-4.5|-26.6|0.006
92161851|NCT01081145|184212964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||Log Rank|||||||0.003
92161852|NCT01081145|184212965|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-6.24|||<|0.001|TWO_SIDED|95.0|-9.01|-3.48||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-3.48|-9.01|<0.001
92161853|NCT01081145|184212966|SUPERIORITY_OR_OTHER_LEGACY||Difference in percent of subjects|17.5||||0.001|TWO_SIDED|95.0|6.6|28.5||Nominal p-value uncorrected for multiplicity.|Cochran-Mantel-Haenszel|||||28.5|6.6|0.001
92161854|NCT01081145|184212967|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.06||||0.118|TWO_SIDED|95.0|-0.14|0.02||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.02|-0.14|0.118
92161855|NCT01081145|184212970|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Nominal p-value uncorrected for multiplicity.|t-test, 2 sided|||||||<0.001
92161856|NCT01081145|184212974|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Nominal p-value uncorrected for multiplicity.|t-test, 2 sided|||||||<0.001
92161857|NCT03593070|184212987|OTHER|Analyses compared changes in total scores for the MM-CGI from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT).|Slope|0.646|STANDARD_DEVIATION|0.622||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
92161858|NCT03593070|184212988|OTHER||Slope|0.444|STANDARD_DEVIATION|0.105||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||Analyses compared changes in total scores for the CESD from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT).||||0.001
92161859|NCT03593070|184212989|OTHER|Analyses compared changes in total State Trait Anxiety Inventory (STAI) scores from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT).|Slope|0.514|STANDARD_DEVIATION|0.102||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
92161860|NCT03593070|184212990|OTHER|Analyses compared changes in total positive state of mind scale (PSOMS) scores from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT).|Slope|0.653|STANDARD_DEVIATION|0.093||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
92161861|NCT03593070|184212991|OTHER|Analyses compared changes in conflict scores (based on FPCR) from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT)|Slope|0.609|STANDARD_DEVIATION|0.07||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
92161862|NCT03593070|184212992|OTHER|Analyses compared changes in total scores for satisfaction with care measure (FPCT) from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT)|Slope|0.731|STANDARD_DEVIATION|0.074||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
92354928|NCT01197300|184615614|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-1.482||||0.46|TWO_SIDED|95.0|-3.805|0.841||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum TRAP-5b Change at Month 18||0.841|-3.805|0.4600
92354929|NCT01197300|184615614|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-0.41||||0.9236|TWO_SIDED|95.0|-2.423|1.603||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum TRAP-5b Change at Month 24||1.603|-2.423|0.9236
92354930|NCT01197300|184615615|OTHER|The number and percentage of patients with new vertebral fractures during the 12 month Extension period was presented by Core treatment group. Between-treatment differences were evaluated using Fisher's exact test.||||||1|||||||Fisher Exact|||New vertebral fractures at Month 12 Extension||||1.0000
92354931|NCT01197300|184615616|OTHER|The number and percentage of patients with new morphometric vertebral fractures during the 12 month extension period was presented by core treatment group. Between-treatment differences will be evaluated using Fisher's exact test.||||||1|||||||Fisher Exact|||New morphometric vertebral fractures at Month 12 Extension||||1.0000
92354932|NCT01197300|184615617|OTHER||Odds Ratio (OR)|4.73||||0.3971|TWO_SIDED|95.0|0.13|173.07||Presented by treatment group and evaluated using a logistic regression model with Core treatment, pooled centers, underlying condition treated with glucocorticoids and Core baseline pain score as explanatory variables.|Regression, Logistic|||Reduction in Pain at Month 15||173.07|0.13|0.3971
92354933|NCT01197300|184615617|OTHER||Odds Ratio (OR)|0.01||||0.6046|TWO_SIDED|95.0|0.01|999.99||Presented by treatment group and evaluated using a logistic regression model with Core treatment, pooled centers, underlying condition treated with glucocorticoids and Core baseline pain score as explanatory variables.|Regression, Logistic|||Reduction in Pain at Month 18||999.99|0.01|0.6046
92354934|NCT01197300|184615617|OTHER||Odds Ratio (OR)|0.01||||0.6046|TWO_SIDED|95.0|0.01|999.99||Presented by treatment group and evaluated using a logistic regression model with Core treatment, pooled centers, underlying condition treated with glucocorticoids and Core baseline pain score as explanatory variables.|Regression, Logistic|||Reduction in Pain at Month 21||999.99|0.01|0.6046
92354935|NCT01197300|184615617|OTHER||Odds Ratio (OR)|1.31||||0.875|TWO_SIDED|95.0|0.05|38.04||Presented by treatment group and evaluated using a logistic regression model with Core treatment, pooled centers, underlying condition treated with glucocorticoids and Core baseline pain score as explanatory variables.|Regression, Logistic|||Reduction in Pain at Month 24||38.04|0.05|0.8750
92401166|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the MenABCWY-2Gen MenACWY vaccination in the ABCWY low dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|29.35|||||TWO_SIDED|97.5|19.31|39.08|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men W).||39.08|19.31|
92354936|NCT01197300|184615618|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-0.01||||0.9231|TWO_SIDED|95.0|-0.18|0.17||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline bone age as explanatory variables and pooled centers as random effect.|ANCOVA|||2nd metacarpal cortical width chge from BL1 at Month 24||0.17|-0.18|0.9231
92401167|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|29.02|||||TWO_SIDED|97.5|19.42|38.67|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men W).||38.67|19.42|
92161863|NCT03593070|184212993|OTHER|Analyses compared changes in total Family Knowledge of Alzheimer's Test (FKAT) scores from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT)|Slope|0.687|STANDARD_DEVIATION|0.084||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
92354937|NCT01197300|184615618|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-0.11||||0.2694|TWO_SIDED|95.0|-0.32|0.1||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Extension baseline bone age as explanatory variables and pooled centers as random effect.|ANCOVA|||2nd metacarpal cortical width chge from BL2 at Month 24||0.10|-0.32|0.2694
92354938|NCT05170061|184615624|SUPERIORITY|||||||0.05||||||see above|t-test, 2 sided|paired analysis||Sequential analysis: if the first analysis (paired t-test to determine superiority of nebivolol/valsartan over valsartan ) reached p\< 0.05, the superiority of nebivolol over valsartan was tested (paired-t test); if the second comparison reached p \< 0.05, the superiority of nebivolol/valsartan over nebivolol was tested (paired-t test)||||0.05
92354939|NCT05170061|184615625|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||||||0.05
92354940|NCT05170061|184615626|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354941|NCT05170061|184615627|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92220575|NCT02819635|184341774|SUPERIORITY||Adjusted risk difference (%)|16.7||||0.038|TWO_SIDED|95.0|0.9|32.5||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||32.5|0.9|0.038
92220576|NCT02819635|184341774|SUPERIORITY||Adjusted risk difference (%)|35.2|||<|0.001|TWO_SIDED|95.0|17.5|52.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||52.8|17.5|<0.001
92354942|NCT05170061|184615628|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354943|NCT05170061|184615629|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92276432|NCT00291330|184454690|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.8203||95.0|0.54|1.63|||Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.63|0.54|0.8203
92276433|NCT00291330|184454691|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.5063||95.0|0.45|1.48|||Regression, Cox|||Hazard ratio vs. Warfarin for the category major bleeding events (events occurring between 1st intake of study drug and last intake of study drug + 6 days). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.48|0.45|0.5063
92276434|NCT00291330|184454691|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.0002|TWO_SIDED|95.0|0.59|0.85|||Regression, Cox|||Hazard ratio vs. Warfarin for the category of any bleeding events (events occurring between 1st intake of study drug and last intake of study drug + 6 days). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||0.85|0.59|0.0002
92276435|NCT00566709|184454694|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
92276436|NCT00566709|184454695|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Chi-squared, Corrected|||||||0.07
92276437|NCT00566709|184454696|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Chi-squared, Corrected|||||||0.56
92276438|NCT00566709|184454697|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||t-test, 2 sided|||||||0.79
92276439|NCT00566709|184454698|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Chi-squared, Corrected|||||||0.77
92276440|NCT00566709|184454699|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Chi-squared, Corrected|||||||0.22
92276441|NCT03443869|184454700|NON_INFERIORITY|LET was concluded non-inferior to VGCV if the upper bound of the two-sided 95% CI for difference in percentage of participants with adjudicated CMV disease (LET - VGCV) was no higher than 10%|Stratum-adjusted Treatment Difference|-1.4|||||TWO_SIDED|95.0|-6.5|3.8|||||Difference = LET minus VGCV|The Observed failure (OF) approach was used to handle missing values, that is participants who had discontinued prematurely from the study for any reason were not considered failures||3.8|-6.5|
92276442|NCT03443869|184454701|OTHER||Stratum-adjusted Treatment Difference|-1.7|||||TWO_SIDED|95.0|-3.4|0.1|||||Difference = LET minus VGCV|The Observed failure (OF) approach was used to handle missing values, that is participants who had discontinued prematurely from the study for any reason were not considered failures||0.1|-3.4|
92276443|NCT03443869|184454703|OTHER||Difference in Percentages|-0.1|||||TWO_SIDED|95.0|-4.4|4.2|||||Difference = LET minus VGCV|||4.2|-4.4|
92276444|NCT03443869|184454704|OTHER||Difference in Percentages|-3.7|||||TWO_SIDED|95.0|-7.0|-0.9|||||Difference = LET minus VGCV|||-0.9|-7.0|
92276445|NCT00931385|184454721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.113|0.183|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.183|0.113|<0.0001
92276446|NCT00931385|184454721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.113|0.183|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.183|0.113|<0.0001
92276447|NCT00931385|184454721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.106|0.177|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.177|0.106|<0.0001
92276448|NCT00931385|184454722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.109|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.073|0.146|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.146|0.073|<0.0001
92354944|NCT05170061|184615630|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354945|NCT05170061|184615631|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354946|NCT05170061|184615632|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354947|NCT05170061|184615633|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354948|NCT05170061|184615634|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354949|NCT05170061|184615635|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354950|NCT05170061|184615636|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92220577|NCT02819635|184341774|SUPERIORITY||Adjusted risk difference (%)|33.6|||<|0.001|TWO_SIDED|95.0|16.3|50.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||50.8|16.3|<0.001
92220578|NCT02819635|184341774|SUPERIORITY||Adjusted risk difference (%)|45.1|||<|0.001|TWO_SIDED|95.0|26.2|63.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||63.9|26.2|<0.001
92220579|NCT02819635|184341775|SUPERIORITY||Adjusted risk difference (%)|5.9||||0.495|TWO_SIDED|95.0|-11.1|22.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||22.9|-11.1|0.495
92220580|NCT02819635|184341775|SUPERIORITY||Adjusted risk difference (%)|15.9||||0.074|TWO_SIDED|95.0|-1.6|33.4||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||33.4|-1.6|0.074
92220581|NCT02819635|184341775|SUPERIORITY||Adjusted risk difference (%)|19.2||||0.033|TWO_SIDED|95.0|1.6|36.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||36.9|1.6|0.033
92220582|NCT02819635|184341775|SUPERIORITY||Adjusted risk difference (%)|40.1|||<|0.001|TWO_SIDED|95.0|20.5|59.7||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||59.7|20.5|<0.001
92220583|NCT02819635|184341776|SUPERIORITY||LS Mean Difference|-2.142|||<|0.001|TWO_SIDED|95.0|-3.2323|-1.052||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|ANCOVA|Stratified by previous biologic use, Baseline corticosteroid use, Baseline Adapted Mayo score (\<= 7 and \> 7)), and Baseline value as covariate.|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||-1.0520|-3.2323|<0.001
92354951|NCT05170061|184615637|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354952|NCT05170061|184615638|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354953|NCT05170061|184615639|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354954|NCT05170061|184615640|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354955|NCT05170061|184615641|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92220584|NCT02819635|184341776|SUPERIORITY||LS Mean Difference|-2.938|||<|0.001|TWO_SIDED|95.0|-4.0284|-1.8478||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|ANCOVA|Stratified by previous biologic use, Baseline corticosteroid use, Baseline Adapted Mayo score (\<= 7 and \> 7)), and Baseline value as covariate.|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||-1.8478|-4.0284|<0.001
92354956|NCT05170061|184615642|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354957|NCT05170061|184615643|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354958|NCT05170061|184615644|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354959|NCT05170061|184615645|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
92354960|NCT03443401|184615653|SUPERIORITY||Mean Difference (Net)|80.0||||0.004|TWO_SIDED|||||level of significance at \<0.05|Spearman's rho|||||||0.004
92354961|NCT03443401|184615654|SUPERIORITY||Mean Difference (Net)|80.0||||0.027|TWO_SIDED|||||Level of significance \<0.05|Spearman's rho|||||||0.027
92354962|NCT00530257|184615664|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||We used a Bonferroni correct to adjust for up to 5 measures across domains and use a p-value of \<=0.01. With a sample of 30 subjects the analytic model was able to detect a difference of large effect size (Cohen's d= \>0.655)|Wilcoxon (Mann-Whitney)|||We evaluated the data for cross over effects. No statistical significant sequence effect were seen for our endpoints and hence we combined the data from both periods of the crossover design There was evidence against the assumption of normality for performance on some of the measures of attention. Thus we used the non-parametric Wilcoxon Signed Ranks Test to compare performance on OROS-methylphenidate versus placebo.||||<0.01
92354963|NCT00530257|184615665|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch Walk, Don't Walk|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch Walk, Don't Walk||||<0.01
92354964|NCT00530257|184615666|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||This p value is not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||We evaluated the data for cross over effects. No statistical significant sequence effect were seen for our endpoints and hence we combined the data from both periods of the crossover design There was evidence against the assumption of normality for performance on some of the measures of attention. Thus we used the non-parametric Wilcoxon Signed Ranks Test to compare performance on OROS-methylphenidate versus placebo.||||<0.05
92354965|NCT00530257|184615668|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||We did not correct for multiple comparisons|t-test, 2 sided|We used a paired t-test||A paired t-test was used to compare the medication versus placebo.||||<0.05
92354966|NCT00530257|184615670|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch: Walk, Don't Walk.|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch: Walk, Don't Walk||||<0.01
92354967|NCT00530257|184615671|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||The p value adjusts for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||<0.01
92354968|NCT00530257|184615672|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch: Walk, Don't Walk|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch: Walk, Don't Walk||||<0.01
92354969|NCT00530257|184615673|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch: Walk, Don't Walk|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch: Walk, Don't Walk||||<0.01
92354970|NCT00530257|184615674|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch: Walk, Don't Walk|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch: Walk, Don't Walk||||<0.01
92354971|NCT00530257|184615675|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch: Walk, Don't Walk|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch: Walk, Don't Walk||||<0.01
92354972|NCT02255279|184615711|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis: Demonstrate non-inferiority (NI) of aTIV to TIV:~H0 : μAi - μBi ≤ -0.176 (Null) H1 : μAi - μBi \>-0.176 (alternative) (i= H1N1, H3N2, B) μA and μB are means of log10-transformed titers 21 days after last vaccination of the aTIV \& TIV vaccine groups respectively. NI is claimed if LL of 95% CI for GMT ratios is \>0.67.~Significance level is α = 2.5% (1-sided), which needs no further adjustment for multiplicity as to reach NI, above hypothesis needs to be rejected for all 3 strains."|Ratio of GMTs|4.06|||||TWO_SIDED|95.0|3.0|5.51|||ANCOVA|||Geometric mean titers (GMTs), in H1N1 strain of all the tree strains in Subjects 6 to \< 72 months of Age.||5.51|3.00|
92354973|NCT02255279|184615711|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis: Demonstrate non-inferiority (NI) of aTIV to TIV:~H0 : μAi - μBi ≤ -0.176 (Null) H1 : μAi - μBi \>-0.176 (alternative) (i= H1N1, H3N2, B) μA and μB are means of log10-transformed titers 21 days after last vaccination of the aTIV \& TIV vaccine groups respectively. NI is claimed if LL of 95% CI for GMT ratios is \>0.67.~Significance level is α = 2.5% (1-sided), which needs no further adjustment for multiplicity as to reach NI, above hypothesis needs to be rejected for all 3 strains."|Ratio of GMTs|2.58|||||TWO_SIDED|95.0|2.05|3.25|||ANCOVA|||Geometric mean titers (GMTs), in H3N2 strain of all three homologous virus strains in Subjects 6 to \< 72 months of Age.||3.25|2.05|
92354974|NCT02255279|184615711|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis: Demonstrate non-inferiority (NI) of aTIV to TIV:~H0 : μAi - μBi ≤ -0.176 (Null) H1 : μAi - μBi \>-0.176 (alternative) (i= H1N1, H3N2, B) μA and μB are means of log10-transformed titers 21 days after last vaccination of the aTIV \& TIV vaccine groups respectively. NI is claimed if LL of 95% CI for GMT ratios is \>0.67.~Significance level is α = 2.5% (1-sided), which needs no further adjustment for multiplicity as to reach NI, above hypothesis needs to be rejected for all 3 strains."|Ratio of GMTs|4.67|||||TWO_SIDED|95.0|3.52|6.2|||ANCOVA|||Geometric mean titers (GMTs), in B strain of all three homologous virus strains in Subjects 6 to \< 72 months of Age.||6.20|3.52|
92354975|NCT02255279|184615712|NON_INFERIORITY_OR_EQUIVALENCE|"The following hypotheses should be tested to demonstrate non-inferiority of aTIV to TIV:~H0i: πi1 \> πi2-0.1 vs. H1i: πi1 \> πi2- 0.1 where H0i and H1i represent the null and the alternative hypothesis (respectively) of the non- inferiority objective and πi1 and πi2 represent the seroresponse rates 21 days after last immunization of the aTIV and TIV vaccine groups respectively in the i-th strain (H1N1, H3N2, B). The non-inferiority criterion is -0.1 (i.e., -10%)."|Vaccine Group Differences|17.0|||||TWO_SIDED|95.0|8.1|26.3|||Loglinear model|Binary data were analyzed using loglinear models with a qualitative factor for vaccine group (αik, i = A, B) and center (δlk, k=1).||Percentage of subjects achieving seroconversion in H1N1 strain after last vaccination with aTIV or TIV in naïve and non-naive subjects.||26.3|8.1|
92354976|NCT02255279|184615712|NON_INFERIORITY_OR_EQUIVALENCE|"The following hypotheses should be tested to demonstrate non-inferiority of aTIV to TIV:~H0i: πi1 \> πi2-0.1 vs. H1i: πi1 \> πi2- 0.1 where H0i and H1i represent the null and the alternative hypothesis (respectively) of the non- inferiority objective and πi1 and πi2 represent the seroresponse rates 21 days after last immunization of the aTIV and TIV vaccine groups respectively in the i-th strain (H1N1, H3N2, B). The non-inferiority criterion is -0.1 (i.e., -10%)."|Vaccine Group Differences|10.0|||||TWO_SIDED|95.0|-1.8|21.0|||Loglinear model|Binary data were analyzed using loglinear models with a qualitative factor for vaccine group (αik, i = A, B) and center (δlk, k=1).||Percentage of subjects achieving seroconversion in H3N2 strain after last vaccination with aTIV or TIV in naive and non-naive subjects.||21|-1.8|
92354977|NCT02255279|184615712|NON_INFERIORITY_OR_EQUIVALENCE|"The following hypotheses should be tested to demonstrate non-inferiority of aTIV to TIV:~H0i: πi1 \> πi2-0.1 vs. H1i: πi1 \> πi2- 0.1 where H0i and H1i represent the null and the alternative hypothesis (respectively) of the non- inferiority objective and πi1 and πi2 represent the seroresponse rates 21 days after last immunization of the aTIV and TIV vaccine groups respectively in the i-th strain (H1N1, H3N2, B). The non-inferiority criterion is -0.1 (i.e., -10%)."|Vaccine Group Differences|58.0|||||TWO_SIDED|95.0|47.5|68.5|||Loglinear model|Binary data were analyzed using loglinear models with a qualitative factor for vaccine group (αik, i = A, B) and center (δlk, k=1).||Percentage of subjects achieving seroconversion in B strains after last vaccination with aTIV or TIV in naïve and non naive subjects.||68.5|47.5|
92354978|NCT02722330|184615718|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||||||<0.0001
92354979|NCT02722330|184615719|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Ease of communication||||<0.0001
92354980|NCT02722330|184615719|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed rank Test|||Reverberation||||<0.0001
92354981|NCT02722330|184615719|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed rank Test|||Background noise||||<0.0001
92354982|NCT02722330|184615719|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Wilcoxon Signed rank Test|||Aversiveness||||0.0004
92354983|NCT02722330|184615719|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed rank Test|||Global score||||<0.0001
92354984|NCT02722330|184615720|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech scale||||<0.0001
92354985|NCT02722330|184615720|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Spatial scale||||<0.0001
92354986|NCT02722330|184615720|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Qualities scale||||<0.0001
92354987|NCT02722330|184615721|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||||||<0.0001
92401168|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|25.13|||||TWO_SIDED|97.5|14.2|35.45|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men W).||35.45|14.20|
92354988|NCT02722330|184615722|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||250 Hz||||<0.0001
92354989|NCT02722330|184615722|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||500 Hz||||<0.0001
92354990|NCT02722330|184615722|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||750 Hz||||<0.0001
92354991|NCT02722330|184615722|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||1000 Hz||||<0.0001
92354992|NCT02722330|184615722|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||1500 Hz||||<0.0001
92405664|NCT02148874|184701509|SUPERIORITY||Odds Ratio (OR)|1.09||||0.74|TWO_SIDED|95.0|0.66|1.8|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H3N2||1.80|0.66|0.74
92161864|NCT03593070|184212994|OTHER||Slope|0.527|STANDARD_DEVIATION|0.088||0.001|TWO_SIDED|||||A prior alpha=0.05.|Regression, Linear|||Analyses compared changes in caregiver sense of loss, guilt, and role captivity scores from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT). This measure uses 51 items of the FPCR measure.||||0.001
92354993|NCT02722330|184615722|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||2000 Hz||||<0.0001
92161865|NCT04538664|184213130|SUPERIORITY||Hazard Ratio (HR)|0.395|||<|0.0001|TWO_SIDED|95.0|0.296|0.528|||Log Rank|||||0.528|0.296|<0.0001
92161866|NCT03536884|184213236|NON_INFERIORITY|The evaluation of noninferiority is tested at a 1-sided alpha level of 0.025 and based on a 1-sided 97.5% CI and a noninferiority margin of 10%.|Risk Difference (RD)|12.682|||||TWO_SIDED|95.0|5.771|19.592||||||Risk Difference: BKZ-Secukinumab calculated using stratified Cochran-Mantel-Haenszel (CMH).||19.592|5.771|
92354994|NCT02722330|184615722|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||3000 Hz||||<0.0001
92354995|NCT02722330|184615722|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||4000 Hz||||<0.0001
92354996|NCT02722330|184615722|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||6000 Hz||||<0.0001
92354997|NCT02722330|184615723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||250 Hz||||<0.0001
92354998|NCT02722330|184615723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||500 Hz||||<0.0001
92354999|NCT02722330|184615723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||750 Hz||||<0.0001
92355000|NCT02722330|184615723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||1000 Hz||||<0.0001
92355001|NCT02722330|184615723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||1500 Hz||||<0.0001
92355002|NCT02722330|184615723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||2000 Hz||||<0.0001
92355003|NCT02722330|184615723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||3000 Hz||||<0.0001
92355004|NCT02722330|184615723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||4000 Hz||||<0.0001
92355005|NCT02722330|184615723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||6000 Hz||||<0.0001
92355006|NCT02722330|184615724|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon Signed Rank test|||||||0.002
92355007|NCT02722330|184615725|SUPERIORITY_OR_OTHER|||||||0.0024|||||||Wilcoxon Signed Rank test|||||||0.0024
92355008|NCT02722330|184615726|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech Presentation Level 50 dB||||<0.0001
92355009|NCT02722330|184615726|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech Presentation Level 65 dB||||<0.0001
92355010|NCT02722330|184615726|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech Presentation Level 80 dB||||<0.0001
92355011|NCT02722330|184615727|SUPERIORITY_OR_OTHER||||||<|0.0001||||||All variable had the same p value (\<0.0001).|Wolcoxon Signed rank test|||Speech Presentation Level 50 dB||||<0.0001
92355012|NCT02722330|184615727|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech Presentation Level 65 dB||||<0.0001
92355013|NCT02722330|184615727|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech Presentation Level 80 dB||||<0.0001
92355014|NCT02722330|184615728|SUPERIORITY_OR_OTHER|||||||0.036|||||||Wilcoxon Signed Rank test|||||||0.036
92355015|NCT02722330|184615729|SUPERIORITY_OR_OTHER|||||||0.065|||||||Wilcoxon Signed Rank test|||||||0.065
92355016|NCT02722330|184615730|SUPERIORITY_OR_OTHER|||||||0.47|||||||Wilcoxon Signed Rank test|||250 Hz||||0.47
92355017|NCT02722330|184615730|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon Signed Rank test|||500 Hz||||0.16
92355018|NCT02722330|184615730|SUPERIORITY_OR_OTHER|||||||0.59|||||||Wilcoxon Signed Rank test|||750 Hz||||0.59
92401169|NCT04886154|184693536|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|33.38|||||TWO_SIDED|97.5|23.08|43.26|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men Y).||43.26|23.08|
92355019|NCT02722330|184615730|SUPERIORITY_OR_OTHER|||||||0.034|||||||Wilcoxon Signed Rank test|||1000 Hz||||0.034
92355020|NCT02722330|184615730|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon Signed Rank test|||1500 Hz||||0.25
92355021|NCT02722330|184615730|SUPERIORITY_OR_OTHER|||||||0.023|||||||Wilcoxon Signed Rank test|||2000 Hz||||0.023
92401170|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|28.18|||||TWO_SIDED|97.5|16.61|38.86|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men Y).||38.86|16.61|
92401171|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|29.37|||||TWO_SIDED|97.5|18.67|39.63|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men Y).||39.63|18.67|
92405665|NCT02148874|184701509|SUPERIORITY||Odds Ratio (OR)|1.89||||0.04|TWO_SIDED|95.0|1.04|3.44|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain B/Massachusetts||3.44|1.04|0.04
92355022|NCT02722330|184615730|SUPERIORITY_OR_OTHER|||||||0.028|||||||Wilcoxon Signed Rank test|||3000 Hz||||0.028
92355023|NCT02722330|184615730|SUPERIORITY_OR_OTHER|||||||0.0075|||||||Wilcoxon Signed Rank test|||4000 Hz||||0.0075
92355024|NCT02722330|184615730|SUPERIORITY_OR_OTHER|||||||0.0035|||||||Wilcoxon Signed Rank test|||6000 Hz||||0.0035
92355025|NCT02722330|184615731|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon Signed Rank test|||250 Hz||||0.12
92405666|NCT02148874|184701509|SUPERIORITY||Odds Ratio (OR)|1.63||||0.13|TWO_SIDED|95.0|0.87|3.04|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain B/Brisbane||3.04|0.87|0.13
92161867|NCT03536884|184213236|SUPERIORITY||Odds Ratio (OR)|1.714|||<|0.001|TWO_SIDED|95.0|1.271|2.31||P-values for the comparison of treatment groups are based on the CMH test for the general association.|Cochran-Mantel-Haenszel|||Odds ratio calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||2.310|1.271|<0.001
92161868|NCT03536884|184213237|SUPERIORITY||Odds Ratio (OR)|2.817|||<|0.001|TWO_SIDED|95.0|2.068|3.836||P-values for the comparison of treatment groups are based on the CMH test from the general association. P-values are not controlled for multiplicity and should only be considered descriptively.|Cochran-Mantel-Haenszel|||Odds ratio calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||3.836|2.068|<0.001
92161869|NCT03536884|184213239|SUPERIORITY||Odds Ratio (OR)|2.49|||<|0.001|TWO_SIDED|95.0|1.835|3.377||P-values for the comparison of treatment groups are based on the CMH test from the general association. P-values are not controlled for multiplicity and should only be considered descriptively.|Cochran-Mantel-Haenszel|||Odds ratio calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||3.377|1.835|<0.001
92161870|NCT03536884|184213239|SUPERIORITY||Odds Ratio (OR)|2.168|||<|0.001|TWO_SIDED|95.0|1.511|3.11||P-values for the comparison of treatment groups are based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||3.110|1.511|<0.001
92355026|NCT02722330|184615731|SUPERIORITY_OR_OTHER|||||||0.072|||||||Wilcoxon Signed Rank test|||500 Hz||||0.072
92355027|NCT02722330|184615731|SUPERIORITY_OR_OTHER|||||||0.56|||||||Wilcoxon Signed Rank test|||750 Hz||||0.56
92355028|NCT02722330|184615731|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon Signed Rank test|||1000 Hz||||0.16
92355029|NCT02722330|184615731|SUPERIORITY_OR_OTHER|||||||0.39|||||||Wilcoxon Signed Rank test|||1500 Hz||||0.39
92355030|NCT02722330|184615731|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon Signed Rank test|||2000 Hz||||0.11
92355031|NCT02722330|184615731|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon Signed Rank test|||3000 Hz||||0.38
92355032|NCT02722330|184615731|SUPERIORITY_OR_OTHER|||||||0.014|||||||Wilcoxon Signed Rank test|||4000 Hz||||0.014
92355033|NCT02722330|184615731|SUPERIORITY_OR_OTHER|||||||0.71|||||||Wilcoxon Signed Rank test|||6000 Hz||||0.71
92355034|NCT02722330|184615732|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon Signed Rank test|||||||0.48
92355035|NCT02722330|184615733|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon Signed Rank test|||||||0.11
92355036|NCT02722330|184615734|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon Signed Rank test|||SPL 50 dB||||0.017
92355037|NCT02722330|184615734|SUPERIORITY_OR_OTHER|||||||0.095|||||||Wilcoxon Signed Rank test|||SPL 65 dB||||0.095
92276449|NCT00931385|184454722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.091|0.164|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.164|0.091|<0.0001
92355038|NCT02722330|184615734|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon Signed Rank test|||SPL 80 dB||||0.57
92355039|NCT02722330|184615735|SUPERIORITY_OR_OTHER|||||||0.096|||||||Wilcoxon Signed Rank test|||SPL 50 dB||||0.096
92355040|NCT02722330|184615735|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon Signed Rank test|||SPL 65 dB||||1.00
92355041|NCT02722330|184615735|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon Signed Rank test|||SPL 80 dB||||0.41
92355042|NCT04392362|184615741|NON_INFERIORITY|The non-inferiority margin or delta was calculated as -0.12(-12%)|Risk Ratio (RR)|0.89||||0.8982|ONE_SIDED|95.0||||0.05 was the level of significance|Wilcoxon (Mann-Whitney)|||The null hypothesis is that the AHA method is inferior to the SIM method but not lower than a pre calculated noninferiority delta of -0.12 (-12 %) and a 95% one sided confidence interval. Only 33 (instead of 151 for a power of 95%) patients could be enrolled with 25 in the SIM and 8 in the AHA arms, which resulted in an estimated power test of 59.08%.||||0.8982
92355043|NCT03160573|184615755|SUPERIORITY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||Test Flavored Rinse, Placebo Flavored Rinse||||<0.00001
92355044|NCT03160573|184615755|SUPERIORITY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||Test Unflavored Rinse, Placebo Unflavored Rinse||||<0.00001
92355045|NCT01725282|184615898|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|-3.1|3.6|||||An analysis of covariance model with the baseline as a covariate and treatment group as a fixed effect.|||3.6|-3.1|
92355046|NCT01725282|184615898|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|-4.0|2.8|||||An analysis of covariance model with the baseline as a covariate and treatment group as a fixed effect.|||2.8|-4.0|
92355047|NCT01725282|184615898|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|1.3|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|-2.1|4.6|||||An analysis of covariance model with the baseline as a covariate and treatment group as a fixed effect.|||4.6|-2.1|
92161871|NCT03536884|184213239|SUPERIORITY||Odds Ratio (OR)|3.243|||<|0.001|TWO_SIDED|95.0|2.103|5.0||P-values for the comparison of treatment groups are based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||5.000|2.103|<0.001
92161872|NCT03722446|184213244|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92355048|NCT04576481|184615909|SUPERIORITY||F-Statistic|1.18||||0.32|TWO_SIDED||||||ANOVA|||Analysis of Variance statistical testing.||||0.32
92355049|NCT04576481|184615910|SUPERIORITY||F-Statistic|0.25||||0.78|TWO_SIDED||||||ANOVA|||||||0.78
92355050|NCT04576481|184615911|SUPERIORITY|||||||0.19|||||||ANOVA|||||||0.19
92355051|NCT04576481|184615912|SUPERIORITY|||||||0.46|||||||ANOVA|||||||0.46
92355052|NCT04576481|184615913|SUPERIORITY|||||||0.3|||||||ANOVA|||||||0.30
92161873|NCT03722446|184213245|SUPERIORITY|||||||0.0102|||||||t-test, 1 sided|||||||0.01020
92355053|NCT02739828|184615941|SUPERIORITY|||||||0.0001|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0001
92355054|NCT02739828|184615942|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||< 0.0001
92355055|NCT02739828|184615943|SUPERIORITY|||||||0.0004|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0004
92355056|NCT02739828|184615944|SUPERIORITY|||||||0.0005|||||||paired t-test|||Skin pain at its worst. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0005
92355057|NCT02739828|184615944|SUPERIORITY|||||||0.0006|||||||paired t-test|||Skin pain on average. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0006
92355058|NCT02739828|184615945|SUPERIORITY|||||||0.0004|||||||paired t-test|||Skin pain at its worst. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0004
92355059|NCT02739828|184615945|SUPERIORITY|||||||0.0016|||||||paired t-test|||Skin pain on average. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0016
92355060|NCT02739828|184615946|SUPERIORITY|||||||0.0003|||||||paired t-test|||Skin pain at its worst. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0003
92355061|NCT02739828|184615946|SUPERIORITY|||||||0.0094|||||||paired t-test|||Skin pain on average. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0094
92355062|NCT02739828|184615950|SUPERIORITY|||||||0.0278|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0278
92355063|NCT02739828|184615951|SUPERIORITY|||||||0.0215|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0215
92355064|NCT02739828|184615952|SUPERIORITY|||||||0.1652|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.1652
92355065|NCT02739828|184615956|SUPERIORITY|||||||1|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||1.0000
92355066|NCT02739828|184615957|SUPERIORITY|||||||1|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||1.0000
92355067|NCT02739828|184615958|SUPERIORITY|||||||0.5|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.5000
92355068|NCT02739828|184615959|SUPERIORITY|||||||0.1797|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.1797
92355069|NCT02739828|184615960|SUPERIORITY|||||||0.4531|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.4531
92161874|NCT03722446|184213246|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0000
92161875|NCT03722446|184213247|SUPERIORITY|||||||0.3753|||||||Chi-squared|||||||0.3753
92161876|NCT03722446|184213248|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0000
92161877|NCT03722446|184213249|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92401172|NCT04886154|184693536|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|27.21|||||TWO_SIDED|97.5|15.46|38.02|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men Y).||38.02|15.46|
92401173|NCT03919773|184693572|SUPERIORITY|||||||0.629|||||||Kruskal-Wallis|||Intention-to-treat analysis||||0.629
92401174|NCT03919773|184693573|SUPERIORITY|||||||0.718|||||||Fisher Exact|||comparison of proportion with positive treatment response (as defined) in IVIG group compared to albumin||||0.718
92401175|NCT03577275|184693588|OTHER|||||||||||||||||"The primary analysis was based on concentration-QTc modeling of the relationship between icosabutate and delta delta QTcF, with the intent to exclude an effect \> 10 msec at clinically relevant icosabutate plasma concentrations.~Assay sensitivity was evaluated by concentration-QTc analysis of the effect on delta delta QTcF of moxifloxacin using a similar model as for the primary analysis."|The primary analysis was based on concentration-QTc modeling of the relationship between icosabutate and delta delta QTcF, with the intent to exclude an effect \> 10 msec at clinically relevant icosabutate plasma concentrations.|||
92401176|NCT02958917|184693593|SUPERIORITY||Mean Difference (Final Values)|-0.76|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92401177|NCT02958917|184693594|SUPERIORITY||Cox Proportional Hazard|0.264|||<|0.05|TWO_SIDED|95.0|||||Regression, Cox|||||||<0.05
92220585|NCT02819635|184341776|SUPERIORITY||LS Mean Difference|-3.736|||<|0.001|TWO_SIDED|95.0|-4.8247|-2.647||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|ANCOVA|Stratified by previous biologic use, Baseline corticosteroid use, Baseline Adapted Mayo score (\<= 7 and \> 7)), and Baseline value as covariate.|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||-2.6470|-4.8247|<0.001
92276450|NCT00931385|184454722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.135|0.209|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.209|0.135|<0.0001
92355070|NCT02739828|184615961|SUPERIORITY|||||||0.0313|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0313
92355071|NCT02739828|184615962|SUPERIORITY|||||||0.3438|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.3438
92355072|NCT02739828|184615963|SUPERIORITY|||||||0.4531|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.4531
92355073|NCT02739828|184615964|SUPERIORITY|||||||0.0156|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0156
92355074|NCT02739828|184615965|SUPERIORITY|||||||0.0386|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0386
92355075|NCT02739828|184615966|SUPERIORITY|||||||0.3438|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.3438
92355076|NCT02739828|184615967|SUPERIORITY|||||||0.125|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.1250
92355077|NCT02739828|184615968|SUPERIORITY|||||||0.0625|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0625
92355078|NCT02739828|184615969|SUPERIORITY|||||||0.0625|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0625
92355079|NCT02739828|184615970|SUPERIORITY|||||||0.125|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.1250
92355080|NCT04191733|184616002|NON_INFERIORITY|The non-inferiority analysis was demonstrated when the 1-sided upper 95% confidence interval (CI) limit was less than 1.25.|||||<|0.0001||||||one-sided p-value|t-test, 1 sided|||||||<0.0001
92355081|NCT04191733|184616003|NON_INFERIORITY|1-sided test with 5% alpha was used to demonstrate non-inferiority with greater than 99% power. The non-inferiority margin was 3.75 minutes.||||||0.1004|||||||t-test, 1 sided|||A gatekeeping strategy was used to control family-wise type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The testing sequence continued only when previous endpoint was statistically significant with a 1-sided alpha of 0.05.||||0.1004
92401178|NCT02958917|184693595|SUPERIORITY||Slope|2.03|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92401179|NCT02958917|184693596|SUPERIORITY||Median Difference (Final Values)|-0.108|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92401180|NCT02958917|184693597|SUPERIORITY||Risk Difference (RD)|0.364|||<|0.05|TWO_SIDED||||||Log Rank|||||||<0.05
92401181|NCT02958917|184693598|SUPERIORITY||Risk Difference (RD)|0.128|||<|0.05|TWO_SIDED|95.0|||||Log Rank|||||||<0.05
92401182|NCT02958917|184693599|SUPERIORITY||Mean Difference (Final Values)|-2.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92401183|NCT02958917|184693600|SUPERIORITY||Mean Difference (Final Values)|-6.72|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92401184|NCT02958917|184693601|SUPERIORITY||Mean Difference (Final Values)|-4.92|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92401185|NCT02958917|184693602|SUPERIORITY||Mean Difference (Final Values)|-7.92|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92401186|NCT02958917|184693603|SUPERIORITY||Mean Difference (Final Values)|-2.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92401187|NCT02318706|184693655|SUPERIORITY|DS-5565 20 mg and 30 mg are tested against placebo at significance level of 0.025, respectively. If both arms are statistically significant, DS-5565 15 mg arm will be tested at level of 0.05. If neither of the arms is statistically significant, DS-5565 15 mg arm is no longer tested. If either DS-5565 20 mg or DS-5565 30 mg is statistically significant, DS-5565 15 mg arm is tested at level of 0.025.|Hazard Ratio (HR)|-0.03||||0.8773|TWO_SIDED|95.0|-0.35|0.3|||Mixed Models Analysis|||Week 14 change from baseline||0.30|-0.35|0.8773
92355082|NCT02349477|184616022|SUPERIORITY||Odds Ratio (OR)|3.9||||0.028|TWO_SIDED||||||Regression, Logistic|This is the p-value output from the logistic regression model where medication group predicted the discrete variable for no heavy drinking days.||This analysis compares between Gabapentin and Placebo, the number of individuals who reported no heavy drinking days throughout the entire trial, corrected for %dCDT.||||.028
92355083|NCT02349477|184616023|SUPERIORITY||Odds Ratio (OR)|4.9||||0.053|TWO_SIDED||||||Regression, Logistic|This is the p-value output from the logistic regression model where medication group predicted the discrete variable for abstinence.||This analysis compares between Gabapentin and Placebo, the number of individuals who reported no drinking days (abstinence) throughout the entire trial, corrected for %dCDT.||||.053
92355084|NCT02349477|184616024|SUPERIORITY|||||||0.001|||||||Chi-squared|||For the High AWS group, a chi squared analysis compares the number of individuals with no heavy drinking days between medication groups.||||.001
92355085|NCT02349477|184616024|SUPERIORITY|||||||0.67|||||||Chi-squared|||For the Low AWS group, a chi squared analysis compares the number of individuals with no heavy drinking days between medication groups.||||.67
92355086|NCT02202577|184616039|SUPERIORITY||Risk Ratio (RR)|0.9||||0.38|ONE_SIDED|95.0||1.35||This is the calculated p-value for the intention to treat analysis of primary outcome. A 1-tailed p value of \<0.05 was selected for statistical significance.|Fisher Exact|||"We estimated a cesarean related surgical site infection rate of 7.5% with povidone-iodine and hypothesized chlorhexidine-alcohol treatment to be superior based on existing literature. We considered a 50% reduction to be significant. We performed our power analysis assuming~1-directional effects in favor of chlorhexidine, which best fit our hypothesis. Using a 1-tailed alpha of 0.05 and an 80% power to detect a difference, we estimated that 466 subjects would be required in each group."||1.35||0.38
92355087|NCT02202577|184616039|SUPERIORITY||Risk Ratio (RR)|0.83||||0.26|ONE_SIDED|95.0||1.25||This is the calculated p-value for the per protocol analysis of primary outcome. A 1-tailed p value of \<0.05 was selected for statistical significance.|Fisher Exact|||Per Protocol Analysis||1.25||0.26
92355088|NCT01714063|184616041|OTHER|We used a paired T-test for statistical analysis to compare the filter dose. Using the 1% significance level and assuming a between-subject standard deviation of 60 lg (27%) for the difference between coordinated and doses, 32 subjects are sufficient to detect a 45 lg (20%) difference with 95% confidence.uncoordinated filter|||||<|0.001|||||||paired t-test|||||||<0.001
92355089|NCT03721107|184616049|SUPERIORITY||Difference in Percentage|7.9||||0.152|TWO_SIDED|95.0|-6.0|21.9||P-value is from a 1-sided Pearson chi-square test with Yates' correction with null hypothesis that the difference in proportions Blautix - placebo \<=0 versus the difference is \>0. The significance level for rejection of the null hypotheses is 0.10.|Chi-squared, Corrected|||||21.9|-6.0|0.152
92355090|NCT03721107|184616049|SUPERIORITY||Difference in Percentage|5.6||||0.216|TWO_SIDED|95.0|-6.8|18.0||P-value is from a 1-sided Pearson chi-square test with Yates' correction with null hypothesis that the difference in proportions Blautix - placebo \<=0 versus the difference is \>0. The significance level for rejection of the null hypotheses is 0.10.|Chi-squared, Corrected|||||18.0|-6.8|0.216
92355091|NCT00563316|184616072|NON_INFERIORITY_OR_EQUIVALENCE|It would be concluded that panitumumab did not have a clinically important effect on the pharmacokinetics of irinotecan if the 90% confidence intervals of the ratio of geometric means for the Cmax and AUC values for irinotecan with and without concomitant panitumumab administration fell within the interval of 70% to 143%.|Least Squares Geometric Mean Ratio|0.98|||||TWO_SIDED|90.0|0.894|1.074|||||Ratio of Cycle 2 : Cycle 1|||1.074|0.894|
92161878|NCT00635817|184213256|SUPERIORITY_OR_OTHER|||||||0.099||||||There were no adjustments for multiple comparisons.|t-test, 2 sided|||Summary statistics were calculated and tests of significance of the change versus no change were performed.||||0.099
92161879|NCT00635817|184213256|SUPERIORITY_OR_OTHER|||||||0.074||||||There were no adjustments for multiple comparisons.|t-test, 2 sided|||Summary statistics were calculated and tests of significance of the change versus no change were performed.||||0.074
92355092|NCT00563316|184616073|NON_INFERIORITY_OR_EQUIVALENCE|It would be concluded that panitumumab did not have a clinically important effect on the pharmacokinetics of irinotecan if the 90% confidence intervals of the ratio of geometric means for the Cmax and AUC values for irinotecan with and without concomitant panitumumab administration fell within the interval of 70% to 143%.|Least Squares Geometric Mean Ratio|0.898|||||TWO_SIDED|90.0|0.819|0.985|||||Ratio of Cycle 2 : Cycle 1|||0.985|0.819|
92355093|NCT00563316|184616074|NON_INFERIORITY_OR_EQUIVALENCE|It would be concluded that panitumumab did not have a clinically important effect on the pharmacokinetics of irinotecan if the 90% confidence intervals of the ratio of geometric means for the Cmax and AUC values for irinotecan with and without concomitant panitumumab administration fell within the interval of 70% to 143%.|Least Squares Geometric Mean Ratio|0.897|||||TWO_SIDED|90.0|0.818|0.983|||||Ratio of Cycle 2 : Cycle 1|||0.983|0.818|
92355094|NCT02991859|184616083|OTHER||3 parameter Emax model|13.5|||||TWO_SIDED|95.0|9.39|19.39|||||FF E0 (Response of Placebo participants)|||19.39|9.39|
92355095|NCT02991859|184616083|OTHER||3 parameter Emax model|14.44|||||TWO_SIDED|95.0|8.21|25.4|||||Emax-Maximum Dose response|||25.40|8.21|
92355096|NCT02991859|184616083|OTHER||3 parameter Emax model|48.52|||||TWO_SIDED|95.0|18.21|129.32|||||ED50-Dose at which 50% of the maximum dose response reached (mcg)|||129.32|18.21|
92355097|NCT02991859|184616083|OTHER||3 parameter Emax model|13.5|||||TWO_SIDED|95.0|9.39|19.39|||||FP E0-Response of Placebo participants|||19.39|9.39|
92355098|NCT02991859|184616083|OTHER||3 parameter Emax model|14.44|||||TWO_SIDED|95.0|8.21|25.4|||||FP Emax-Maximum Dose response|||25.40|8.21|
92355099|NCT02991859|184616083|OTHER||3 parameter Emax model|1081.27|||||TWO_SIDED|95.0|448.0|2609.66|||||FP ED50-Dose at which 50% of the maximum dose response reached (mcg)|||2609.66|448.00|
92355100|NCT02991859|184616083|OTHER||3 parameter Emax model|13.5|||||TWO_SIDED|95.0|9.39|19.39|||||BUD E0-Response of Placebo participants|||19.39|9.39|
92355101|NCT02991859|184616083|OTHER||3 parameter Emax model|14.44|||||TWO_SIDED|95.0|8.21|25.4|||||BUD Emax-Maximum Dose response|||25.40|8.21|
92355102|NCT02991859|184616083|OTHER||3 parameter Emax model|1467.36|||||TWO_SIDED|95.0|546.51|3939.84|||||BUD ED50-Dose at which 50% of the maximum dose response reached (mcg)|||3939.84|546.51|
92355103|NCT02991859|184616084|OTHER||Exponential power-law model|176.09|||||TWO_SIDED|95.0|162.87|190.38|||||FF E0-Response of Placebo participants|||190.38|162.87|
92355104|NCT02991859|184616084|OTHER||exponential power-law model|899.99|||||TWO_SIDED|95.0|698.36|1101.62|||||FF ED50 Dose at which 50% of the maximum dose response reached|||1101.62|698.36|
92401188|NCT02318706|184693655|SUPERIORITY|DS-5565 20 mg and 30 mg are tested against placebo at significance level of 0.025, respectively. If both arms are statistically significant, DS-5565 15 mg arm will be tested at level of 0.05. If neither of the arms is statistically significant, DS-5565 15 mg arm is no longer tested. If either DS-5565 20 mg or DS-5565 30 mg is statistically significant, DS-5565 15 mg arm is tested at level of 0.025.|Hazard Ratio (HR)|-0.15||||0.3494|TWO_SIDED|95.0|-0.48|0.17|||Mixed Models Analysis|||Week 14 change from baseline||0.17|-0.48|0.3494
92401189|NCT02318706|184693655|SUPERIORITY|DS-5565 20 mg and 30 mg are tested against placebo at significance level of 0.025, respectively. If both arms are statistically significant, DS-5565 15 mg arm will be tested at level of 0.05. If neither of the arms is statistically significant, DS-5565 15 mg arm is no longer tested. If either DS-5565 20 mg or DS-5565 30 mg is statistically significant, DS-5565 15 mg arm is tested at level of 0.025.|Hazard Ratio (HR)|-0.5||||0.0027|TWO_SIDED|95.0|-0.82|-0.17|||Mixed Models Analysis|||Week 14 change from baseline||-0.17|-0.82|0.0027
92401190|NCT04328077|184693658|SUPERIORITY||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|9.44||0.7755|TWO_SIDED|95.0|-16.1|21.5|||ANCOVA|||||21.5|-16.1|0.7755
92220586|NCT02819635|184341776|SUPERIORITY||LS Mean Difference|-4.061|||<|0.001|TWO_SIDED|95.0|-5.1252|-2.9974||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|ANCOVA|Stratified by previous biologic use, Baseline corticosteroid use, Baseline Adapted Mayo score (\<= 7 and \> 7)), and Baseline value as covariate.|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||-2.9974|-5.1252|<0.001
92220587|NCT02819635|184341777|SUPERIORITY||Adjusted risk difference (%)|6.6||||0.075|TWO_SIDED|95.0|-0.7|13.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||13.9|-0.7|0.075
92355105|NCT02991859|184616084|OTHER||exponential power-law model|176.09|||||TWO_SIDED|95.0|162.87|190.38|||||FP E0-Response of Placebo participants|||190.38|162.87|
92355106|NCT02991859|184616084|OTHER||exponential power-law model|1986.05|||||TWO_SIDED|95.0|1574.7|2397.39|||||FP ED50 - Dose at which 50% of the maximum dose response reached (mcg)|||2397.39|1574.70|
92355107|NCT02991859|184616084|OTHER||exponential power-law model|176.09|||||TWO_SIDED|95.0|162.87|190.38|||||BUD E0 - Response of Placebo participants|||190.38|162.87|
92355108|NCT02991859|184616084|OTHER||exponential power-law model|1927.42|||||TWO_SIDED|95.0|1698.47|2156.37|||||BUD ED50 - Dose at which 50% of the maximum dose response reached (mcg)|||2156.37|1698.47|
92355109|NCT02991859|184616085|OTHER||Emax Model|289.73|||||TWO_SIDED|95.0|224.82|354.64|||||ED20 Cortisol Suppression 0-24 Hours Weighted Mean|||354.64|224.82|
92401191|NCT04328077|184693658|SUPERIORITY||Mean Difference (Final Values)|-12.66|STANDARD_ERROR_OF_MEAN|9.369||0.1798|TWO_SIDED|95.0|-31.3|5.9|||ANCOVA|||||5.9|-31.3|0.1798
92276451|NCT00931385|184454723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.094|0.163|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.163|0.094|<0.0001
92355110|NCT02991859|184616085|OTHER||Emax Model|194.09|||||TWO_SIDED|95.0|72.82|517.28|||||ED80 for AMP PC20|||517.28|72.82|
92355111|NCT02991859|184616086|OTHER||Emax Model|639.36|||||TWO_SIDED|95.0|506.94|771.79|||||ED20 for Cortisol Suppression 0-24 Hours Weighted Mean|||771.79|506.94|
92355112|NCT02991859|184616086|OTHER||Emax Model|4325.07|||||TWO_SIDED|95.0|1792.02|10438.64|||||ED80 for AMP PC20|||10438.64|1792.02|
92355113|NCT02991859|184616087|OTHER||Emax Model|620.49|||||TWO_SIDED|95.0|546.79|694.2|||||ED20 for Cortisol Suppression 0-24 Hours Weighted Mean|||694.20|546.79|
92355114|NCT02991859|184616087|OTHER||Emax Model|5869.45|||||TWO_SIDED|95.0|2186.03|15759.35|||||ED80 for AMP PC20|||15759.35|2186.03|
92355115|NCT03511209|184616151|SUPERIORITY||Odds Ratio (OR)|2.13|STANDARD_ERROR_OF_MEAN|0.85||0.056|TWO_SIDED|95.0|0.98|4.64|||Regression, Logistic|||Compared CBTI plus Taper method A to CBTI plus Taper method B||4.64|0.98|0.056
92355116|NCT03511209|184616152|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|1.27||0.405|TWO_SIDED|95.0|-3.57|1.44|||Mixed Models Analysis|Interaction contrast of Treatment Group (CBTI plus Taper method A vs. CBTI plus Taper method B) by Time (6 Months vs. Baseline)||||1.44|-3.57|0.405
92355117|NCT00562861|184616153|SUPERIORITY_OR_OTHER||F value|1.88||||0.17|TWO_SIDED||||||Mixed Models Analysis|||||||0.17
92355118|NCT00655356|184616154|SUPERIORITY_OR_OTHER||||||<|1e-05|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by combined treatment site.||A 5% level of significance was used as the threshold for determination of statistical significance, and all tests were two-tailed. the effect size and associated 95% confidence interval (CI) are provided for all comparative efficacy outcomes. Primary analysis of the two co-primary efficacy endpoints and the secondary efficacy endpoints were performed on the ITT population.||||<.00001
92401192|NCT04328077|184693658|SUPERIORITY||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|9.807||0.4229|TWO_SIDED|95.0|-27.4|11.6|||ANCOVA|||||11.6|-27.4|0.4229
92355119|NCT00655356|184616155|SUPERIORITY_OR_OTHER|||||||0.0075|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by combined treatment site.||A 5% level of significance was used as the threshold for determination of statistical significance, and all tests were two-tailed. the effect size and associated 95% confidence interval (CI) are provided for all comparative efficacy outcomes. Primary analysis of the two co-primary efficacy endpoints and the secondary efficacy endpoints were performed on the ITT population.||||.0075
92401193|NCT01456039|184693664|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Based on one sample binomial test for dichotomized response proportion against the null hypothesis ( H0 p≤0.1)|Binomial test for dichotomized response|||||||<0.0001
92401194|NCT00313014|184693716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.163|<|0.001|TWO_SIDED|95.0|-0.99|-0.35||P value was 2-sided and performed at the 5% error level.|Mixed Models Analysis|Repeated measures mixed linear model with treatment, time, and time by treatment interaction as fixed effects.||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||-0.35|-0.99|<.001
92220588|NCT02819635|184341777|SUPERIORITY||Adjusted risk difference (%)|3.8||||0.199|TWO_SIDED|95.0|-2.0|9.6||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||9.6|-2.0|0.199
92220589|NCT02819635|184341777|SUPERIORITY||Adjusted risk difference (%)|11.1||||0.015|TWO_SIDED|95.0|2.2|20.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||20.0|2.2|0.015
92220590|NCT02819635|184341777|SUPERIORITY||Adjusted risk difference (%)|17.8||||0.004|TWO_SIDED|95.0|5.8|29.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||29.9|5.8|0.004
92220591|NCT02819635|184341778|SUPERIORITY||Adjusted risk difference (%)|25.6||||0.003|TWO_SIDED|95.0|8.9|42.3||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||42.3|8.9|0.003
92220592|NCT02819635|184341778|SUPERIORITY||Adjusted risk difference (%)|43.6|||<|0.001|TWO_SIDED|95.0|25.4|61.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||61.8|25.4|<0.001
92220593|NCT02819635|184341778|SUPERIORITY||Adjusted risk difference (%)|39.4|||<|0.001|TWO_SIDED|95.0|21.3|57.5||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||57.5|21.3|<0.001
92220594|NCT02819635|184341778|SUPERIORITY||Adjusted risk difference (%)|43.1|||<|0.001|TWO_SIDED|95.0|24.4|61.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||61.9|24.4|<0.001
92220595|NCT02819635|184341779|SUPERIORITY||Adjusted risk difference (%)|29.3|||<|0.001|TWO_SIDED|95.0|22.6|35.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||35.9|22.6|<0.001
92220596|NCT02819635|184341780|SUPERIORITY||Adjusted risk difference (%)|12.7|||<|0.001|TWO_SIDED|95.0|8.4|17.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||17.0|8.4|<0.001
92220597|NCT02819635|184341781|SUPERIORITY||Adjusted risk difference (%)|46.3|||<|0.001|TWO_SIDED|95.0|38.4|54.2||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||54.2|38.4|<0.001
92276452|NCT00931385|184454723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.103|0.172|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.172|0.103|<0.0001
92401195|NCT00313014|184693716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.161|<|0.001|TWO_SIDED|95.0|-1.07|-0.44||P value was 2-sided and performed at the 5% error level.|Mixed Models Analysis|Repeated measures mixed linear model with treatment, time, and time by treatment interaction as fixed effect.||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||-0.44|-1.07|<.001
92405667|NCT02148874|184701510|SUPERIORITY||Odds Ratio (OR)|0.89||||0.64|TWO_SIDED|95.0|0.53|1.48|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H1N1||1.48|0.53|0.64
92276453|NCT00931385|184454723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.122|0.191|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.191|0.122|<0.0001
92161880|NCT00635817|184213256|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||There were no adjustments for multiple comparisons.|t-test, 2 sided|||Summary statistics were calculated and tests of significance of the change versus no change were performed.||||0.026
92161881|NCT00635817|184213256|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||There were no adjustments for multiple comparisons.|t-test, 2 sided|||Summary statistics were calculated and tests of significance of the change versus no change were performed.||||0.102
92161882|NCT00635817|184213257|SUPERIORITY_OR_OTHER|||||||0.008||||||There were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Summary statistics were calculated and tests of significance of the ratio versus 1 were performed. All analyses and summaries were conducted separately for the 2 treatment groups (subjects who received leuprolide acetate depot 11.25 mg and 30 mg).||||0.008
92161883|NCT00635817|184213257|SUPERIORITY_OR_OTHER|||||||0.002||||||There were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Summary statistics were calculated and tests of significance of the ratio versus 1 were performed. All analyses and summaries were conducted separately for the 2 treatment groups (subjects who received leuprolide acetate depot 11.25 mg and 30 mg).||||0.002
92161884|NCT00635817|184213257|SUPERIORITY_OR_OTHER|||||||0.347||||||There were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Summary statistics were calculated and tests of significance of the ratio versus 1 were performed. All analyses and summaries were conducted separately for the 2 treatment groups (subjects who received leuprolide acetate depot 11.25 mg and 30 mg).||||0.347
92161885|NCT00635817|184213257|SUPERIORITY_OR_OTHER|||||||0.15||95.0||||There were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Summary statistics were calculated and tests of significance of the ratio versus 1 were performed. All analyses and summaries were conducted separately for the 2 treatment groups (subjects who received leuprolide acetate depot 11.25 mg and 30 mg).||||0.150
92161886|NCT03451851|184213293|SUPERIORITY||Difference in percentage|49.9|||<|0.001|TWO_SIDED|95.0|25.9|69.4|||Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||69.4|25.9|<0.001
92161887|NCT03451851|184213294|SUPERIORITY||Difference in percentage|55.6|||<|0.001|TWO_SIDED|95.0|32.1|74.0|||Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||74.0|32.1|<0.001
92161888|NCT03451851|184213295|SUPERIORITY||Difference in percentage|40.1|||=|0.003|TWO_SIDED|95.0|15.6|61.3|||Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||61.3|15.6|=0.003
92161889|NCT03451851|184213296|SUPERIORITY||Difference in percentage|35.0|||=|0.004|TWO_SIDED|95.0|10.5|56.8|||Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||56.8|10.5|=0.004
92161890|NCT03451851|184213297|SUPERIORITY||Difference in percentage|34.1|||=|0.002|TWO_SIDED|25.0|9.7|56.1|||Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||56.1|9.7|=0.002
92161891|NCT03451851|184213298|SUPERIORITY||LS Mean difference|-5.4|||<|0.001|TWO_SIDED|95.0|-7.33|-3.06|||Mixed model repeated measures (MMRM)|||Guselkumab Vs Placebo||-3.06|-7.33|<0.001
92161892|NCT03451851|184213304|SUPERIORITY||Difference in percentage|59.8|||<|0.001|TWO_SIDED|95.0|36.9|77.6||p-value is nominal|Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||77.6|36.9|<0.001
92161893|NCT03451851|184213312|SUPERIORITY||Difference in percentage|46.7|||=|0.002|TWO_SIDED|95.0|21.9|67.3||p-value is nominal|Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||||67.3|21.9|=0.002
92161894|NCT03451851|184213314|SUPERIORITY||Difference in Percentage|23.1|||=|0.139|TWO_SIDED|95.0|-3.4|47.0||p-value is nominal|Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||47.0|-3.4|=0.139
92161895|NCT03451851|184213316|SUPERIORITY||Difference in LS Mean|-5.44|||<|0.001|TWO_SIDED|95.0|-8.0|-2.87||p-value is nominal|MMRM model|||Guselkumab Vs Placebo||-2.87|-8.00|<0.001
92161896|NCT03451851|184213318|SUPERIORITY||LS Mean difference|-14.78|||<|0.001|TWO_SIDED|95.0|-20.28|-9.28||p-value is nominal|MMRM model|||Guselkumab Vs Placebo||-9.28|-20.28|<0.001
92161897|NCT03944512|184213334|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.37|1.19||||||||1.19|0.37|
92161898|NCT03944512|184213335|SUPERIORITY||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.07|2.67||||||||2.67|0.07|
92161899|NCT03944512|184213336|SUPERIORITY||Risk Ratio (RR)|3.0|||||TWO_SIDED|95.0|0.32|77.16||||||||77.16|0.32|
92161900|NCT03944512|184213337|SUPERIORITY||Risk Ratio (RR)|0.56|||||TWO_SIDED|95.0|0.22|1.43||||||||1.43|0.22|
92161901|NCT03944512|184213338|SUPERIORITY||||||||||||||||||RR not reported given zero events in the placebo group.|||
92161902|NCT03944512|184213339|SUPERIORITY||Risk Ratio (RR)|1.75|||||TWO_SIDED|95.0|0.58|5.24||||||||5.24|0.58|
92161903|NCT03944512|184213340|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
92161904|NCT03944512|184213341|SUPERIORITY||||||||||||||||||RR not reported given zero events in the pravastatin and placebo groups|||
92161905|NCT03944512|184213342|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
92161906|NCT03944512|184213343|SUPERIORITY||||||||||||||||||RR not reported given zero events in the placebo group|||
92161907|NCT03944512|184213344|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92161908|NCT03944512|184213345|SUPERIORITY||Risk Ratio (RR)|1.27|||||TWO_SIDED|95.0|0.73|2.23||||||||2.23|0.73|
92355120|NCT01623154|184616170|NON_INFERIORITY_OR_EQUIVALENCE|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.|Slope|0.99|||||TWO_SIDED|95.0|0.987|0.993||95% confidence interval is used instead of p-value.|Deming Regression|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|||0.993|0.987|
92401196|NCT00313014|184693717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.006|TWO_SIDED|95.0|-0.9|-0.13||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|ANCOVA||The analysis was based on the number of subjects who took \> 1 tablet of supplemental analgesia.|The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||-0.13|-0.90|.006
92401197|NCT00313014|184693717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.158|TWO_SIDED|95.0|-0.7|0.09||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|ANCOVA||The analysis was based on the number of subjects who took \> 1 tablet of supplemental analgesia.|The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||0.09|-0.70|.158
92401198|NCT00313014|184693718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72||||0.065|TWO_SIDED|95.0|-3.55|0.11||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|Mixed Models Analysis|||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||0.11|-3.55|.065
92401199|NCT00313014|184693718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99||||0.031||95.0|-3.79|-0.18||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|Mixed Models Analysis|||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||-0.18|-3.79|.031
92401200|NCT00313014|184693719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.23|STANDARD_ERROR_OF_MEAN|1.735|<|0.001|TWO_SIDED|95.0|-9.64|-2.82||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|Mixed Models Analysis|Mixed linear model: treatment, time as fixed effects, screening, prerandomization sleep disturbance subscale as covariates; subject as a random effect||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||-2.82|-9.64|<.001
92401201|NCT00313014|184693719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.65|STANDARD_ERROR_OF_MEAN|1.709||0.121||95.0|-6.01|0.7||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|Mixed Models Analysis|||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that BTDS 20 arm was different from the BTDS 5 arm.||0.70|-6.01|.121
92161909|NCT03944512|184213346|SUPERIORITY||Risk Ratio (RR)|1.29|||||TWO_SIDED|95.0|0.57|2.91||||||||2.91|0.57|
92161910|NCT03944512|184213347|SUPERIORITY||Risk Ratio (RR)|0.57|||||TWO_SIDED|95.0|0.19|1.71||||||||1.71|0.19|
92161911|NCT03944512|184213348|SUPERIORITY||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.02|5.35||||||||5.35|0.02|
92161912|NCT03944512|184213349|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||||||0.72
92161913|NCT03944512|184213350|SUPERIORITY||Risk Ratio (RR)|1.38|||||TWO_SIDED|95.0|0.24|13.59||||||||13.59|0.24|
92161914|NCT03944512|184213351|SUPERIORITY||Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.42|2.73||||||||2.73|0.42|
92161915|NCT03944512|184213352|SUPERIORITY||Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|0.58|2.18||||||||2.18|0.58|
92161916|NCT03944512|184213353|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92161917|NCT03944512|184213354|SUPERIORITY||Risk Ratio (RR)|1.53|||||TWO_SIDED|95.0|0.52|4.51||||||||4.51|0.52|
92161918|NCT03944512|184213355|SUPERIORITY||Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.42|5.0||||||||5.00|0.42|
92161919|NCT03944512|184213356|SUPERIORITY||Risk Ratio (RR)|0.69|||||TWO_SIDED|95.0|0.11|2.95||||||||2.95|0.11|
92161920|NCT03944512|184213357|SUPERIORITY||||||||||||||||||RR not reported given zero events in both groups.|||
92161921|NCT03944512|184213358|SUPERIORITY||||||||||||||||||RR not reported given zero events in the pravastatin group.|||
92161922|NCT03944512|184213359|SUPERIORITY||||||||||||||||||RR not reported given zero events in both groups.|||
92161923|NCT03944512|184213360|SUPERIORITY||||||||||||||||||RR not reported given zero events in both groups.|||
92161924|NCT03944512|184213361|SUPERIORITY||||||||||||||||||RR not reported given zero events in both groups.|||
92161925|NCT03944512|184213362|SUPERIORITY||||||||||||||||||RR not reported given zero events in pravastatin group.|||
92161926|NCT03944512|184213363|SUPERIORITY||||||||||||||||||RR not reported given zero events in both groups.|||
92161927|NCT03944512|184213364|SUPERIORITY||Risk Ratio (RR)|0.64|||||TWO_SIDED|95.0|0.17|2.04||||||||2.04|0.17|
92161928|NCT03944512|184213365|SUPERIORITY||||||||||||||||||RR not reported given zero events in both groups.|||
92161929|NCT03944512|184213366|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.03|31.79||||||||31.79|0.03|
92401202|NCT03714672|184693726|SUPERIORITY||Mean Difference (Final Values)|-4.1|||<|0.0001|TWO_SIDED|95.0|-4.8|-3.4|||ANCOVA|ANCOVA model with treatment, baseline pain intensity, and site as covariates.|LS means, 95% CIs, and pairwise CIs and p-values comparing the combination treatment arm to the monotherapy arm.|Bonferroni-Holm procedure used for determining the statistical significance of the results.||-3.4|-4.8|<0.0001
92401203|NCT03714672|184693726|SUPERIORITY||Mean Difference (Final Values)|-4.5|||<|0.0001|TWO_SIDED|95.0|-5.2|-3.8|||ANCOVA|ANCOVA model with treatment, baseline pain intensity, and site as covariates.|LS means, 95% CIs, and pairwise CIs and p-values comparing the combination treatment arm to the monotherapy arm.|Bonferroni-Holm procedure used for determining the statistical significance of the results.||-3.8|-5.2|<0.0001
92401204|NCT03714672|184693726|SUPERIORITY||Mean Difference (Final Values)|-3.2|||<|0.0001|TWO_SIDED|95.0|-3.9|-2.5|||ANCOVA|ANCOVA model with treatment, baseline pain intensity, and site as covariates.|LS means, 95% CIs, and pairwise CIs and p-values comparing the combination treatment arm to the monotherapy arm.|Bonferroni-Holm procedure used for determining the statistical significance of the results. The planned test was a test for non-inferiority.||-2.5|-3.9|<0.0001
92401205|NCT03714672|184693726|SUPERIORITY||Mean Difference (Final Values)|-2.8|||<|0.0001|TWO_SIDED|95.0|-3.5|-2.1|||ANCOVA|ANCOVA model with treatment, baseline pain intensity, and site as covariates.|LS means, 95% CIs, and pairwise CIs and p-values comparing the combination treatment arm to the monotherapy arm.|Bonferroni-Holm procedure used for determining the statistical significance of the results. The planned test was a test for non-inferiority.||-2.1|-3.5|<0.0001
92401206|NCT03081117|184693738|SUPERIORITY|||||||0.669|||||||Fisher Exact|||Analysis of Enrolled group.||||0.669
92401207|NCT03081117|184693739|SUPERIORITY||Mean Difference (Net)|-0.3914||||0.0366|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of freedom = 14||Analysis for Intent-to-Treat group.||||0.0366
92161930|NCT03944512|184213367|SUPERIORITY||||||||||||||||||RR not reported given zero events in both groups.|||
92161931|NCT03944512|184213368|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92401208|NCT03081117|184693739|SUPERIORITY||Mean Difference (Net)|-0.5146||||0.0103|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of freedom = 12||Analysis for Per Protocol group.||||0.0103
92401209|NCT03081117|184693742|SUPERIORITY||||||>|0.25||||||The threshold for statistical significance was p = 0.05.|Wald test, two-sided|||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||>0.25
92401210|NCT03081117|184693743|SUPERIORITY||||||>|0.25|||||||Wald test, two-sided|The threshold for statistical significance was p = 0.05.||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||>0.25
92401211|NCT03081117|184693744|SUPERIORITY||Unstandardized beta coefficient|-0.32|STANDARD_ERROR_OF_MEAN|0.27||0.244|TWO_SIDED||||||Wald test, two-sided|||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||0.244
92161932|NCT03944512|184213369|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||||||0.21
92161933|NCT03944512|184213370|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
92161934|NCT03944512|184213371|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||0.88
92161935|NCT03944512|184213372|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92161936|NCT03944512|184213373|SUPERIORITY|||||||0.22|||||||Fisher Exact||||RR not reported given zero events in the pravastatin group.|||0.22
92161937|NCT03944512|184213374|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.84
92161938|NCT03944512|184213375|SUPERIORITY|||||||0.47|||||||Fisher Exact||||RR not reported given zero events in the pravastatin group.|||0.47
92355121|NCT01623154|184616170|NON_INFERIORITY_OR_EQUIVALENCE|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.|Intercept|-0.04|||||TWO_SIDED|95.0|-0.25|0.17|||Deming Regression|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|||0.17|-0.25|
92355122|NCT01623154|184616170|NON_INFERIORITY_OR_EQUIVALENCE|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.|Slope|0.99|||||TWO_SIDED|95.0|0.987|0.993|||Regression, Linear|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|||0.993|0.987|
92355123|NCT01623154|184616170|NON_INFERIORITY_OR_EQUIVALENCE|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.|Intercept|-0.03|||||TWO_SIDED|95.0|-0.24|0.18|||Regression, Linear|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|||0.18|-0.24|
92355124|NCT01623154|184616170|NON_INFERIORITY_OR_EQUIVALENCE|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.|Slope|0.995|||||TWO_SIDED|95.0|0.99|1.0|||Passing-Bablock|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|||1.000|0.990|
92355125|NCT01623154|184616170|NON_INFERIORITY_OR_EQUIVALENCE|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|Intercept|-0.04|||||TWO_SIDED|95.0|-0.3|0.01|||Passing-Bablok|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.||0.01|-0.30|
92355126|NCT01623154|184616170|NON_INFERIORITY_OR_EQUIVALENCE|Described previously|Relative Sensitivity, %|100.0|||||TWO_SIDED|95.0|85.8|100.0|||||95% confidence interval is used instead of p-value.|Comparison of UHR Values obtained by UBit-IR300 and POCone were used to identify participants' H.pylori infection status. Participants with UHR value ≥ 10.0μg/min were considered positive for H.Pylori.||100|85.8|
92355127|NCT01623154|184616170|NON_INFERIORITY_OR_EQUIVALENCE|Provided previously|Relative Specificity, %|100.0|||||TWO_SIDED|95.0|94.9|100.0|||||95% confidence interval is used instead of p-value.|||100|94.9|
92355128|NCT04349098|184616174|SUPERIORITY||Odds Ratio (OR)|0.84||||0.675|TWO_SIDED|95.0|0.39|1.79|||Cochran-Mantel-Haenszel|||||1.79|0.39|0.6750
92161939|NCT01090024|184213402|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|0.083|STANDARD_ERROR_OF_MEAN|0.624||0.4473|TWO_SIDED|95.0|-1.147|1.313|||Mixed effect model||Adjusted means difference of BI 671800 200 mg BID (D) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A compound symmetry covariance structure was used.||1.313|-1.147|0.4473
92161940|NCT01090024|184213402|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|0.67|STANDARD_ERROR_OF_MEAN|0.625||0.1426|TWO_SIDED|95.0|-0.563|1.903|||Mixed effect model||Adjusted means difference of BI 671800 400 mg PM QD (C) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A compound symmetry covariance structure was used.||1.903|-0.563|0.1426
92161941|NCT01090024|184213402|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|0.281|STANDARD_ERROR_OF_MEAN|0.611||0.3231|TWO_SIDED|95.0|-0.924|1.486|||Mixed effect model||Adjusted means difference of BI 671800 400 mg AM QD (B) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A compound symmetry covariance structure was used.||1.486|-0.924|0.3231
92161942|NCT01090024|184213403|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|-0.056|STANDARD_ERROR_OF_MEAN|0.063||0.1879|TWO_SIDED|95.0|-0.18|0.068|||Mixed effect model||Adjusted means difference of BI 671800 200 mg BID (D) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A autoregressive covariance structure was used.||0.068|-0.180|0.1879
92276454|NCT00931385|184454724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.126|0.201|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.201|0.126|<0.0001
92220598|NCT02819635|184341782|SUPERIORITY||Adjusted risk difference (%)|33.3|||<|0.001|TWO_SIDED|95.0|24.8|41.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)||Substudy 2: Upadacitinib 45 mg vs Placebo|Difference = Upadacitinib 45 mg - Placebo|41.8|24.8|<0.001
92220599|NCT02819635|184341783|SUPERIORITY||Adjusted risk difference (%)|23.7|||<|0.001|TWO_SIDED|95.0|17.5|30.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||30.0|17.5|<0.001
92220600|NCT02819635|184341784|SUPERIORITY||Adjusted risk difference (%)|27.4|||<|0.001|TWO_SIDED|95.0|19.2|35.6||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||35.6|19.2|<0.001
92220601|NCT02819635|184341785|SUPERIORITY||Adjusted risk difference (%)|23.6|||<|0.001|TWO_SIDED|95.0|15.1|32.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||32.1|15.1|<0.001
92355129|NCT02254460|184616209|SUPERIORITY_OR_OTHER||[Treatment difference]|1.74||||0.0944|TWO_SIDED|95.0|0.9|3.34|||ANOVA||Treatment difference from ANOVA of log transformed data. Back transformed data are presented. This therefore represents the iron absorption ratio of the Micronutrient Fortified Drink (Test) to the Non-Fortified Drink (Control).|||3.34|0.90|0.0944
92355130|NCT02336555|184616211|SUPERIORITY||Mean Difference (Final Values)|-0.452||||0.075|TWO_SIDED|95.0|-1.076|0.172||Linear mixed model with a posterior probability evaluation for the treatment effect|Linear mixed model|One-sided p-value and a posterior probability greater than 90% that the treatment effect is less than 0.||||0.172|-1.076|0.075
92355131|NCT02336555|184616212|SUPERIORITY||Odds Ratio (OR)|1.073|||||TWO_SIDED|95.0|0.446|2.58|||||Logistic regression model with factors for treatment \& baseline pain intensity|||2.580|0.446|
92355132|NCT01959919|184616213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.907||||0|||||||Wilcoxon Signed Ranks Test|||Comparison between ease of using clotting factor treatment score at Final visit (Month 8) and baseline visit||||0.000
92355133|NCT01959919|184616214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.572|STANDARD_ERROR_OF_MEAN|0.584||0|TWO_SIDED|95.0|3.411|5.733|||t-test, 2 sided|||Comparison between time for reconstructing the drug at Final visit (Month 8) and baseline visit||5.733|3.411|0.000
92355134|NCT01959919|184616215|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.789||||0|||||||Wilcoxon Signed Ranks Test|||Comparison between burden of clotting factor treatment score at Final Visit Month 8 and baseline visit||||0.000
92355135|NCT01959919|184616216|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.98||||0|||||||Wilcoxon Signed Ranks Test|||Comparison between impact of clotting factor treatment score at Final Visit Month 8 and baseline visit||||0.000
92220602|NCT02819635|184341786|SUPERIORITY||Adjusted risk difference (%)|32.2|||<|0.001|TWO_SIDED|95.0|23.8|40.7||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||40.7|23.8|<0.001
92355136|NCT01959919|184616217|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.445||||0.001|||||||Wilcoxon Signed Ranks Test|||Comparison between risk associated with clotting factor treatment score at Final Visit Month 8 and baseline visit||||0.001
92355137|NCT01537432|184616228|SUPERIORITY_OR_OTHER||difference in proportions|0.565|||<|0.001|TWO_SIDED|95.0|0.363|0.768|||Fisher Exact|||||0.768|0.363|<0.001
92355138|NCT03704922|184616244|OTHER|||||||0.051|||||||Fisher Exact|||||||0.051
92355139|NCT04019704|184616249|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||0.002
92355140|NCT01550965|184616250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.4|||<|0.001|TWO_SIDED|95.0|16.08|18.73|||paired t-test, 2 sided|||Hypothesis testing for the first ranked primary outcome was performed in a hierarchical order using the two-sided paired t-test for mean change equal to zero.||18.73|16.08|<0.001
92355141|NCT01550965|184616251|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1383.81|||<|0.001|TWO_SIDED|95.0|-1586.36|-1181.26|||Paired t-test, 2 sided|||Hypothesis testing for the second ranked primary outcome was performed in a hierarchical order using the two-sided paired t-test for mean change equal to zero.||-1181.26|-1586.36|<0.001
92355142|NCT01550965|184616252|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1297.77|||<|0.001|TWO_SIDED|95.0|-1562.17|-1033.36|||Paired t-test, 2 sided|||||-1033.36|-1562.17|<0.001
92355143|NCT01550965|184616253|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4308.32|||<|0.001|TWO_SIDED|95.0|-4985.13|-3631.51|||Paired t-test, 2 sided|||||-3631.51|-4985.13|<0.001
92355144|NCT01550965|184616254|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.3|||<|0.001|TWO_SIDED|95.0|-9.83|-4.78|||Paired t-test, 2 sided|||||-4.78|-9.83|<0.001
92355145|NCT01550965|184616255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.37|||<|0.001|TWO_SIDED|95.0|21.5|27.25|||Paired t-test, 2 sided|||Statistical analysis for Treatment Satisfaction Questionnaire for Medication (TSQM) Effectiveness.||27.25|21.50|<0.001
92355146|NCT01550965|184616255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.95|||<|0.001|TWO_SIDED|95.0|15.42|22.48|||Paired t-test, 2 sided|||Statistical analysis for Treatment Satisfaction Questionnaire for Medication (TSQM) Side Effects.||22.48|15.42|<0.001
92220603|NCT02819635|184341787|SUPERIORITY||Least Squares (LS) Mean Difference|33.7|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|27.02|40.36||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Mixed-effect model repeated measurement|MMRM with Baseline, treatment, visit, treatment-by-visit interaction, and strata (Baseline Adapted Mayo score, corticosteroid use, and bio-IR status).|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||40.36|27.02|<0.001
92161943|NCT01090024|184213403|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|-0.026|STANDARD_ERROR_OF_MEAN|0.063||0.3384|TWO_SIDED|95.0|-0.151|0.098|||Mixed effect model||Adjusted means difference of BI 671800 400 mg PM QD (C) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A autoregressive covariance structure was used.||0.098|-0.151|0.3384
92161944|NCT01090024|184213403|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|-0.093|STANDARD_ERROR_OF_MEAN|0.062||0.067|TWO_SIDED|95.0|-0.214|0.029|||Mixed effect model||Adjusted means difference of BI 671800 400 mg AM QD (B) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A autoregressive covariance structure was used.||0.029|-0.214|0.0670
92161945|NCT00470626|184213436|SUPERIORITY_OR_OTHER||Probability of Successful Retrieval|0.9||||||95.0|||||||Probability of successful retrieval is from Kaplan-Meier analysis.|||||
92355147|NCT01550965|184616255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2|||<|0.001|TWO_SIDED|95.0|3.89|8.5|||Paired t-test, 2 sided)|||Statistical analysis for Treatment Satisfaction Questionnaire for Medication (TSQM) Convenience.||8.50|3.89|<0.001
92355148|NCT01550965|184616255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.6|||<|0.001|TWO_SIDED|95.0|19.55|25.64|||Paired t-test, 2 sided|||Statistical analysis for Treatment Satisfaction Questionnaire for Medication (TSQM) Global Satisfaction.||25.64|19.55|<0.001
92355149|NCT01550965|184616256|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.85|||<|0.001|TWO_SIDED|95.0|-5.42|-4.27|||Paired t-test, 2 sided|||Statistical analysis for overall UC-related outpatient utilization.||-4.27|-5.42|<0.001
92355150|NCT01550965|184616256|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.83|TWO_SIDED|95.0|-0.11|0.09|||Paired t-test, 2 sided|||Statistical analysis for overall UC-related outpatient utilization during emergency department visits.||0.09|-0.11|0.830
92355151|NCT01550965|184616256|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.92|||<|0.001|TWO_SIDED|95.0|-1.18|-0.66|||Paired t-test, 2 sided|||Statistical analysis for overall UC-related outpatient utilization during primary care doctor visits.||-0.66|-1.18|<0.001
92355152|NCT01550965|184616257|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||McNemar|||Statistical analysis for percentage of participants with absence of blood in stool from week 0 to week 26.||||<0.001
92355153|NCT01550965|184616258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.11|||<|0.001|TWO_SIDED|95.0|10.21|12.02|||Paired t-test, 2 sided|||Statistical analysis for mean change in SIBDQ: Total Score from week 0 to week 2.||12.02|10.21|<0.001
92355154|NCT01550965|184616258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.38|||<|0.001|TWO_SIDED|95.0|14.2|16.56|||Paired t-test, 2 sided|||Statistical analysis for mean change in SIBDQ: Total Score from week 0 to week 8.||16.56|14.20|<0.001
92355155|NCT01550965|184616258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.77|||<|0.001|TWO_SIDED|95.0|13.57|15.96|||Paired t-test, 2 sided|||Statistical analysis for mean change in SIBDQ: Total Score from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using last observation carried forward (LOCF).||15.96|13.57|<0.001
92355156|NCT01550965|184616258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.4|||<|0.001|TWO_SIDED|95.0|16.08|18.73|||Paired t-test, 2 sided|||Statistical analysis for mean change in SIBDQ: Total Score from week 0 to week 26.||18.73|16.08|<0.001
92355157|NCT01550965|184616259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63|||<|0.001|TWO_SIDED|95.0|-0.69|-0.57|||Paired t-test, 2 sided|||Statistical analysis for mean change in PGA from week 0 to week 2.||-0.57|-0.69|<0.001
92355158|NCT01550965|184616259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|||<|0.001|TWO_SIDED|95.0|-1.16|-1.0|||Paired t-test, 2 sided|||Statistical analysis for mean change in PGA from week 0 to week 8.||-1.00|-1.16|<0.001
92355159|NCT01550965|184616259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|||<|0.001|TWO_SIDED|95.0|-0.95|-0.77|||Paired t-test, 2 sided|||Statistical analysis for mean change in PGA from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using LOCF.||-0.77|-0.95|<0.001
92355160|NCT01550965|184616259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|||<|0.001|TWO_SIDED|95.0|-1.23|-1.06|||Paired t-test, 2 sided|||Statistical analysis for mean change in PGA from week 0 to week 26.||-1.06|-1.23|<0.001
92355161|NCT01550965|184616260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.22|||<|0.001|TWO_SIDED|95.0|-3.46|-2.99|||Paired t-test, 2 sided|||Statistical analysis for mean change in total SCCAI from week 0 to week 2.||-2.99|-3.46|<0.001
92355162|NCT01550965|184616260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.06|||<|0.001|TWO_SIDED|95.0|-4.37|-3.76|||Paired t-test, 2 sided|||Statistical analysis for mean change in total SCCAI from week 0 to week 8.||-3.76|-4.37|<0.001
92355163|NCT01550965|184616260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.01|||<|0.001|TWO_SIDED|95.0|-3.36|-2.66|||Paired t-test, 2 sided|||Statistical analysis for mean change in total SCCAI from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using LOCF.||-2.66|-3.36|<0.001
92355164|NCT01550965|184616260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.07|||<|0.001|TWO_SIDED|95.0|-4.43|-3.72|||Paired t-test, 2 sided|||Statistical analysis for mean change in total SCCAI from week 0 to week 26.||-3.72|-4.43|<0.001
92220604|NCT02819635|184341788|SUPERIORITY||Adjusted risk difference (%)|9.7|||<|0.001|TWO_SIDED|95.0|5.7|13.7||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||13.7|5.7|<0.001
92220605|NCT02819635|184341789|SUPERIORITY||Least Squares (LS) Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|0.97|<|0.001|TWO_SIDED|95.0|4.79|8.59||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Mixed-effect model repeated measurement|MMRM with Baseline, treatment, visit, treatment-by-visit interaction, and strata (Baseline Adapted Mayo score, corticosteroid use, and bio-IR status)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||8.59|4.79|<0.001
92220606|NCT02819635|184341790|SUPERIORITY||Adjusted risk difference (%)|34.4|||<|0.001|TWO_SIDED|95.0|25.1|43.7||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||43.7|25.1|<0.001
92220607|NCT02819635|184341790|SUPERIORITY||Adjusted risk difference (%)|46.3|||<|0.001|TWO_SIDED|95.0|36.7|55.8||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||55.8|36.7|<0.001
92355165|NCT01550965|184616261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||<|0.001|TWO_SIDED|95.0|0.08|0.11|||Paired t-test, 2 sided|||Statistical analysis for mean change in total EQ-5D-5L total score from week 0 to week 2.||0.11|0.08|<0.001
92220608|NCT02819635|184341791|SUPERIORITY||Adjusted risk difference (%)|37.4|||<|0.001|TWO_SIDED|95.0|20.3|54.6||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||54.6|20.3|<0.001
92355166|NCT01550965|184616261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|||<|0.001|TWO_SIDED|95.0|0.11|0.15|||Paired t-test, 2 sided|||Statistical analysis for mean change in total EQ-5D-5L total score from week 0 to week 8.||0.15|0.11|<0.001
92401212|NCT03081117|184693745|SUPERIORITY||||||>|0.25||||||The threshold for statistical significance was p = 0.05.|Wald test, two-sided|||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||>0.25
92220609|NCT02819635|184341791|SUPERIORITY||Adjusted risk difference (%)|47.0|||<|0.001|TWO_SIDED|95.0|30.7|63.3||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||63.3|30.7|<0.001
92220610|NCT02819635|184341792|SUPERIORITY||Adjusted risk difference (%)|35.4|||<|0.001|TWO_SIDED|95.0|18.2|52.7||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||52.7|18.2|<0.001
92220611|NCT02819635|184341792|SUPERIORITY||Adjusted risk difference (%)|45.1|||<|0.001|TWO_SIDED|95.0|28.7|61.6||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||61.6|28.7|<0.001
92276455|NCT00931385|184454724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.127|0.202|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.202|0.127|<0.0001
92355167|NCT01550965|184616261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||<|0.001|TWO_SIDED|95.0|0.1|0.14|||Paired t-test, 2 sided|||Statistical analysis for mean change in total EQ-5D-5L total score from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using LOCF.||0.14|0.10|<0.001
92355168|NCT01550965|184616261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001|TWO_SIDED|95.0|0.12|0.17|||Paired t-test, 2 sided|||Statistical analysis for mean change in total EQ-5D-5L total score from week 0 to week 26.||0.17|0.12|<0.001
92401213|NCT03081117|184693746|SUPERIORITY||||||>|0.25|||||||Wald test, two-sided|The threshold for statistical significance was p = 0.05.||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||>0.25
92401214|NCT03081117|184693747|SUPERIORITY||||||>|0.25|||||||Wald test, two-sided|The threshold for statistical significance was p = 0.05.||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||>0.25
92161946|NCT02380742|184213442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.87|STANDARD_ERROR_OF_MEAN|0.47||0.02|TWO_SIDED||||||ANCOVA|||The null hypothesis was that patients' pain scores at removal were the same between the lidocaine and placebo groups after controlling for baseline pain.||||.02
92161947|NCT02380742|184213443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.96|STANDARD_ERROR_OF_MEAN|0.87||0.03|TWO_SIDED||||||ANCOVA|||The null hypothesis was that patients' pain scores at removal were the same between the lidocaine and placebo groups after controlling for investigator training and pessary type.||||.03
92161948|NCT02380742|184213444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.811|STANDARD_ERROR_OF_MEAN|0.83||0.03|TWO_SIDED||||||ANCOVA|||The null hypothesis was that patients' pain scores at removal were the same between the lidocaine and placebo groups after controlling for baseline pain and patient age.||||.03
92161949|NCT02380742|184213445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|0.63||0.09|TWO_SIDED||||||ANCOVA|||The null hypothesis was that patients' pain scores at insertion were the same between the lidocaine and placebo groups after controlling for baseline pain.||||.09
92161950|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.235|TWO_SIDED|95.0|0.45|1.22|||Univariate logistic regression model|||Comparison between genders: women and men.||1.22|0.45|0.235
92161951|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.331|TWO_SIDED|95.0|0.55|1.22|||Univariate logistic regression model|||Comparison between Age: \<= 55 years and \> 55 years||1.22|0.55|0.331
92161952|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.05|TWO_SIDED|95.0|1.0|2.23|||Univariate logistic regression model|||Comparison between time since initial diagnosis: \>= 10 years and \< 10 years||2.23|1.00|0.050
92161953|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.144|TWO_SIDED|95.0|0.88|2.46|||Univariate logistic regression model|||Comparison between participants without erosive rheumatoid arthritis (RA) and participants with erosive RA||2.46|0.88|0.144
92161954|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74||||0.01|TWO_SIDED|95.0|1.14|2.65|||Univariate logistic regression model|||Comparison between DAS-28 score: \<= 5.1 and DAS-28 \>5.1||2.65|1.14|0.010
92161955|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.119|TWO_SIDED|95.0|0.92|2.1|||Univariate logistic regression model|||Comparison between ESR: \<= 28 mm/h and \> 28 mm/h||2.10|0.92|0.119
92161956|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.265|TWO_SIDED|95.0|0.81|2.13|||Univariate logistic regression model|||Comparison between number of participants without anemia and number of participants with anemia||2.13|0.81|0.265
92161957|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.511|TWO_SIDED|95.0|0.77|1.71|||Univariate logistic regression model|||Comparison between dose of corticosteroids: \<= 5 mg and \> 5 mg||1.71|0.77|0.511
92161958|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.153|TWO_SIDED|95.0|0.9|2.0|||Univariate logistic regression model|||Comparison between HAQ score: \<= 1.5 and \> 1.5||2.00|0.90|0.153
92161959|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19|||<|0.001|TWO_SIDED|95.0|1.45|3.31|||Univariate logistic regression model|||Comparison between VAS patient: fatigue \<= 66 and \> 66||3.31|1.45|<0.001
92161960|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04|||<|0.001|TWO_SIDED|95.0|1.35|3.08|||Univariate logistic regression model|||Comparison between VAS patient: pain \<= 66 and \> 66||3.08|1.35|<0.001
92161961|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.261|TWO_SIDED|95.0|0.86|2.75|||Univariate logistic regression model|||Comparison between VAS patient (quality of sleep) score: \<=30 score and 30 - 59 score||2.75|0.86|0.261
92161962|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.261|TWO_SIDED|95.0|0.67|2.05|||Univariate logistic regression model|||Comparison between VAS patient (quality of sleep) score: \<= 30 and 59 - 77||2.05|0.67|0.261
92220612|NCT02819635|184341793|SUPERIORITY||Adjusted risk difference (%)|42.0|||<|0.001|TWO_SIDED|95.0|27.8|56.2||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||56.2|27.8|<0.001
92220613|NCT02819635|184341793|SUPERIORITY||Adjusted risk difference (%)|48.6|||<|0.001|TWO_SIDED|95.0|35.5|61.7||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||61.7|35.5|<0.001
92161963|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.261|TWO_SIDED|95.0|0.95|2.89|||Univariate logistic regression model|||Comparison between VAS patient (quality of sleep) score: \<= 30 and \> 77||2.89|0.95|0.261
92161964|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.08|||<|0.001|TWO_SIDED|95.0|1.38|3.14|||Univariate logistic regression model|||Comparison between VAS patient: global assessment score: \<= 67 and \> 67||3.14|1.38|<0.001
92161965|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.28|||<|0.001|TWO_SIDED|95.0|1.5|3.47|||Univariate logistic regression model|||Comparison between SF36 vitality score: \> 33 and \<= 33||3.47|1.50|< 0.001
92161966|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.399|TWO_SIDED|95.0|0.6|1.93|||Univariate logistic regression model|||Comparison between HADS score: Anxiety (No case) and HADS score: Anxiety (Doubtful case)||1.93|0.60|0.399
92161967|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.399|TWO_SIDED|95.0|0.48|1.26|||Univariate logistic regression model|||Comparison between HADS score: Anxiety (No case) and HADS score: Anxiety (Certain case)||1.26|0.48|0.399
92355169|NCT01550965|184616262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.62|||<|0.001|TWO_SIDED|95.0|-12.07|-5.18|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of work time missed from week 0 to week 2.||-5.18|-12.07|<0.001
92355170|NCT01550965|184616262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.22|||<|0.001|TWO_SIDED|95.0|-16.27|-8.16|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of work time missed from week 0 to week 8.||-8.16|-16.27|<0.001
92355171|NCT01550965|184616262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.61|||<|0.001|TWO_SIDED|95.0|-15.82|-7.4|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of work time missed from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using last observation carried forward (LOCF).||-7.40|-15.82|<0.001
92161968|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.858|TWO_SIDED|95.0|0.65|1.81|||Univariate logistic regression model|||Comparison between HADS score: Depression (No Case) and HADS score: Depression (Doubtful case)||1.81|0.65|0.858
92161969|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.858|TWO_SIDED|95.0|0.57|1.52|||Univariate logistic regression model|||Comparison between HADS score: Depression (No Case) and HADS score: Depression (Certain case)||1.52|0.57|0.858
92161970|NCT01185522|184213467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63||||0.036|TWO_SIDED|95.0|1.03|2.58|||Multivariate logistic regression model|||Comparison between time since initial diagnosis: \>= 10 years and \< 10 years||2.58|1.03|0.036
92161971|NCT01185522|184213468|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.004|TWO_SIDED|95.0|1.05|1.28|||Univariate logistic regression model|||Predictive factor: C-Reactive Protein||1.28|1.05|0.004
92161972|NCT01185522|184213468|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.013|TWO_SIDED|95.0|1.03|1.27|||Multivariate logistic regression model|||Predictive factor: C-Reactive Protein||1.27|1.03|0.013
92161973|NCT01185522|184213469|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.253|TWO_SIDED|95.0|0.99|1.05|||Univariate logistic regression model|||Predictive factor: Tender joint||1.05|0.99|0.253
92161974|NCT01185522|184213469|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.021|TWO_SIDED|95.0|1.01|1.09|||Univariate logistic regression model|||Predictive factor : Swollen joint||1.09|1.01|0.021
92161975|NCT01729819|184213481|SUPERIORITY|The change in mean nocturnal voids from baseline as the dependent variable, baseline mean nocturnal voids as a covariate, and treatments and visit (Month 1, Month 2, and Month 3) as factors, was considered for the analysis. Longitudinal analysis based on repeated measures using analysis of covariance with subject as random effect. Missing values post-baseline were not imputed.|Mean Difference (Final Values)|-0.34||||0.112|TWO_SIDED|95.0|-0.77|0.08|||ANCOVA|Change in mean nocturnal voids as the dependent variable and baseline mean nocturnal voids as a covariate, treatment and visit as factors.|Longitudinal analysis based on repeated measures using analysis of covariance with subject as random effect. The estimated value represents the contrast of combination - tolterodine.|Combination versus tolterodine (i.e. effect in combination group minus effect in tolterodine group) is presented. The trial was to be declared positive if a statistically significant (two-sided, p \< 0.05) positive effect for combining tolterodine and desmopressin compared to tolterodine monotherapy on the primary endpoint had been demonstrated.||0.08|-0.77|0.112
92161976|NCT01729819|184213482|SUPERIORITY||Mean Difference (Final Values)|18.0||||0.385|TWO_SIDED|95.0|-22.96|58.96|||ANCOVA|Change in mean time to first void as dependent variable and baseline mean time to first void as a covariate, and treatment and visit as factors.|The estimated value represents the contrast of combination - tolterodine.|Combination versus tolterodine (i.e. effect in combination group minus effect in tolterodine group) is presented.||58.96|-22.96|0.385
92161977|NCT01729819|184213483|SUPERIORITY||Mean Difference (Final Values)|-64.16||||0.103|TWO_SIDED|95.0|-141.46|13.14|||ANCOVA|Change in mean nocturnal volume as the dependent variable and baseline mean nocturnal volume as a covariate, and treatment and visit as factors.|The estimated value represents the contrast of combination - tolterodine.|Combination versus tolterodine (i.e. effect in combination group minus effect in tolterodine group) is presented||13.14|-141.46|0.103
92161978|NCT01729819|184213484|SUPERIORITY||Odds Ratio (OR)|1.36||||0.352|TWO_SIDED|95.0|0.71|2.62||33% responder status as dependent variable, baseline mean nocturnal voids as covariate, treatment, and visit as factors.|Generalized Estimating Equation|||Combination versus tolterodine (i.e. odds of being responder in combination group versus odds of being responder in tolterodine group) is presented. The proportion of responders during three months of treatment was analysed (i.e. the odds ratio of the odds of being a responder) longitudinally using Generalised Estimating Equation (GEE) for a repeated logistic regression.||2.62|0.71|0.352
92161979|NCT01729819|184213485|SUPERIORITY|Estimated contrast (Combination - tolterodine) from longitudinal analysis including a treatment-by visit interaction term||||||0.443||||||Adjusted treatment difference (Combination-tolterodine) in mean number of nocturnal voids at Month 1|ANCOVA|||Treatment difference (Combination-tolterodine) at Month 1||||0.443
92161980|NCT01729819|184213485|SUPERIORITY|Estimated contrast (Combination - tolterodine) from longitudinal analysis including a treatment-by visit interaction term||||||0.086||||||Adjusted treatment difference in mean number of nocturnal voids (Combination-tolterodine) at Month 2|ANCOVA|||Treatment difference (Combination-tolterodine) at Month 2||||0.086
92355172|NCT01550965|184616262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.43|||<|0.001|TWO_SIDED|95.0|-15.5|-7.35|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of work time missed from week 0 to week 26.||-7.35|-15.50|<0.001
92355173|NCT01550965|184616263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.56|||<|0.001|TWO_SIDED|95.0|-20.0|-13.12|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of impairment while working from week 0 to week 2.||-13.12|-20.00|<0.001
92355174|NCT01550965|184616263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.95|||<|0.001|TWO_SIDED|95.0|-26.93|-18.97|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of impairment while working from week 0 to week 8.||-18.97|-26.93|<0.001
92220614|NCT02819635|184341794|SUPERIORITY||Adjusted risk difference (%)|18.7|||<|0.001|TWO_SIDED|95.0|11.0|26.4||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||26.4|11.0|<0.001
92220615|NCT02819635|184341794|SUPERIORITY||Adjusted risk difference (%)|19.4|||<|0.001|TWO_SIDED|95.0|11.7|27.2||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||27.2|11.7|<0.001
92220616|NCT02819635|184341795|SUPERIORITY||Adjusted risk difference (%)|44.6|||<|0.001|TWO_SIDED|95.0|34.5|54.7||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||54.7|34.5|<0.001
92220617|NCT02819635|184341795|SUPERIORITY||Adjusted risk difference (%)|56.6|||<|0.001|TWO_SIDED|95.0|47.2|66.0||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||66.0|47.2|<0.001
92220618|NCT02819635|184341796|SUPERIORITY||Adjusted risk difference (%)|23.8|||<|0.001|TWO_SIDED|95.0|14.8|32.8||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||32.8|14.8|<0.001
92220619|NCT02819635|184341796|SUPERIORITY||Adjusted risk difference (%)|37.3|||<|0.001|TWO_SIDED|95.0|27.8|46.8||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||46.8|27.8|<0.001
92220620|NCT02819635|184341797|SUPERIORITY||LS Mean Difference|31.3|STANDARD_ERROR_OF_MEAN|4.77|<|0.001|TWO_SIDED|95.0|21.98|40.7||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|ANCOVA|Stratified by corticosteroid use at Week 0 (yes/no); clinical remission status at Week 0 (yes/ no); Bio-IR status at Baseline (Bio-IR or Non-Bio-IR)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||40.70|21.98|<0.001
92220621|NCT02819635|184341797|SUPERIORITY||LS Mean Difference|41.0|STANDARD_ERROR_OF_MEAN|4.88|<|0.001|TWO_SIDED|95.0|31.39|50.55||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|ANCOVA|Stratified by corticosteroid use at Week 0 (yes/no); clinical remission status at Week 0 (yes/ no); Bio-IR status at Baseline (Bio-IR or Non-Bio-IR)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||50.55|31.39|<0.001
92276456|NCT00931385|184454724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.16|0.236|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.236|0.160|<0.0001
92276457|NCT00931385|184454725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.135|0.214|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.214|0.135|<0.0001
92276458|NCT00931385|184454725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.127|0.206|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.206|0.127|<0.0001
92276459|NCT00931385|184454725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.178|0.257|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.257|0.178|<0.0001
92276460|NCT00931385|184454726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.064|0.147|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.147|0.064|<0.0001
92276461|NCT00931385|184454726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.072|0.155|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.155|0.072|<0.0001
92276462|NCT00931385|184454726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.092|0.175|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.175|0.092|<0.0001
92276463|NCT00931385|184454727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.167|0.284|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.284|0.167|<0.0001
92355175|NCT01550965|184616263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.68|||<|0.001|TWO_SIDED|95.0|-25.69|-17.67|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of impairment while working from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using last observation carried forward (LOCF).||-17.67|-25.69|<0.001
92161981|NCT01729819|184213485|SUPERIORITY|Estimated contrast (Combination - tolterodine) from longitudinal analysis including a treatment-by visit interaction term||||||0.055||||||Adjusted treatment difference (Combination-tolterodine) in mean number of nocturnal voids at Month 3|ANCOVA|||Treatment difference (Combination-tolterodine) at Month 3||||0.055
92161982|NCT01729819|184213485|SUPERIORITY|Estimated contrast (Combination - tolterodine) from longitudinal analysis including a treatment-by visit interaction term||||||0.106||||||Adjusted treatment difference (Combination-tolterodine) in mean number of nocturnal voids for the duration of 3 months|ANCOVA|||Treatment difference (Combination-tolterodine) for the duration of 3 months||||0.106
92161983|NCT01729819|184213486|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.178|TWO_SIDED|95.0|-0.2|1.05|||ANCOVA|Quality of sleep rating score as dependent variable, baseline quality of sleep rating scale value as a covariate, and responder status as a factor.|Estimated contrast (Combination - tolterodine) from longitudinal analysis of covariance|"Combination versus tolterodine (i.e. score on scale in combination group versus score on scale in tolterodine group) is presented.Statistical analysis for from very tired to wide awake, how do you feel now"||1.05|-0.20|0.178
92161984|NCT01729819|184213486|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.257|TWO_SIDED|95.0|-0.26|0.94|||ANCOVA|Quality of sleep rating score as dependent variable, baseline quality of sleep rating scale value as a covariate, and responder status as a factor.|Estimated contrast (Combination - tolterodine) from longitudinal analysis of covariance|"Combination versus tolterodine (i.e. score on scale in combination group versus score on scale in tolterodine group) is presented. Statistical analysis for Rate how refreshed you feel now"||0.94|-0.26|0.257
92161985|NCT01729819|184213486|SUPERIORITY|Quality of sleep rating score as dependent variable, baseline quality of sleep rating scale value as a covariate, and responder status as a factor.|Mean Difference (Final Values)|0.28||||0.36|TWO_SIDED|95.0|-0.32|0.88|||ANCOVA|Longitudinal analysis of covariance on change from baseline with baseline as a covariate, and treatment and visit as factors.|Estimated contrast (Combination - tolterodine) from longitudinal analysis of covariance|"Combination versus tolterodine (i.e. score on scale in combination group versus score on scale in tolterodine group) is presented. Statistical analysis for Rate the quality of your sleep last night"||0.88|-0.32|0.360
92161986|NCT03224299|184213492|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.44|0.69||||||"Abdomen 10 minutes~Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||0.69|-0.44|
92161987|NCT03224299|184213492|SUPERIORITY||Mean Difference (Final Values)|1.93|||||TWO_SIDED|95.0|1.36|2.49||||||Abdomen 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.49|1.36|
92220622|NCT02819635|184341798|SUPERIORITY||Adjusted risk difference (%)|13.0|||<|0.001|TWO_SIDED|95.0|6.0|20.0||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||20.0|6.0|<0.001
92220623|NCT02819635|184341798|SUPERIORITY||Adjusted risk difference (%)|13.6|||<|0.001|TWO_SIDED|95.0|6.6|20.6||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||20.6|6.6|<0.001
92220624|NCT02819635|184341799|SUPERIORITY||Adjusted risk difference (%)|38.7|||<|0.001|TWO_SIDED|95.0|28.9|48.5||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||48.5|28.9|<0.001
92355176|NCT01550965|184616263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.45|||<|0.001|TWO_SIDED|95.0|-28.33|-20.58|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of impairment while working from week 0 to week 26.||-20.58|-28.33|<0.001
92161988|NCT03224299|184213492|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-0.73|0.36||||||Abdomen 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.36|-0.73|
92220625|NCT02819635|184341799|SUPERIORITY||Adjusted risk difference (%)|45.1|||<|0.001|TWO_SIDED|95.0|35.5|54.8||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||54.8|35.5|<0.001
92355177|NCT01550965|184616264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.34|||<|0.001|TWO_SIDED|95.0|-22.1|-14.57|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: overall work impairment percentage from week 0 to week 2.||-14.57|-22.10|<0.001
92220626|NCT02819635|184341800|SUPERIORITY||Adjusted risk difference (%)|24.3|||<|0.001|TWO_SIDED|95.0|14.2|34.5||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||34.5|14.2|<0.001
92276464|NCT00931385|184454727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.229|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.17|0.287|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.287|0.170|<0.0001
92355178|NCT01550965|184616264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.54|||<|0.001|TWO_SIDED|95.0|-31.08|-22.0|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: overall work impairment percentage from week 0 to week 8.||-22.00|-31.08|<0.001
92355179|NCT01550965|184616264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.33|||<|0.001|TWO_SIDED|95.0|-29.97|-20.7|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: overall work impairment percentage from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using LOCF.||-20.70|-29.97|<0.001
92355180|NCT01550965|184616264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.22|||<|0.001|TWO_SIDED|95.0|-33.5|-24.93|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: overall work impairment percentage from week 0 to week 26.||-24.93|-33.50|<0.001
92355181|NCT01550965|184616265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.16|||<|0.001|TWO_SIDED|95.0|-20.47|-15.85|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of activity impairment from week 0 to week 2.||-15.85|-20.47|<0.001
92355182|NCT01550965|184616265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.43|||<|0.001|TWO_SIDED|95.0|-28.3|-22.56|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of activity impairment from week 0 to week 8.||-22.56|-28.30|<0.001
92355183|NCT01550965|184616265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.42|||<|0.001|TWO_SIDED|95.0|-27.33|-21.5|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of activity impairment from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using last observation carried forward (LOCF).||-21.50|-27.33|<0.001
92355184|NCT01550965|184616265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.22|||<|0.001|TWO_SIDED|95.0|-30.28|-24.16|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of activity impairment from week 0 to week 26.||-24.16|-30.28|<0.001
92355185|NCT03093246|184616266|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Generalized Estimated Equations|||||||<0.05
92355186|NCT03093246|184616267|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Generalized Estimated Equations|||||||<0.05
92401215|NCT03081117|184693748|SUPERIORITY||Mean Difference (Net)|0.0031351||||0.366|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of freedom = 13||Analysis for All Available group (participants who had both Baseline and Week 24 scans).||||0.366
92355187|NCT03093246|184616268|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Generalized Estimated Equations|||||||<0.05
92355188|NCT00830336|184616334|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Geometric Test/Ref Ratio x 100|103.08||||||90.0|95.41|111.37|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111.37|95.41|
92355189|NCT00830336|184616335|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Geometric Test/Ref Ratio x 100|105.84||||||90.0|99.33|112.77|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112.77|99.33|
92355190|NCT00830336|184616336|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Geometric Test/Ref Ratio x 100|107.04||||||90.0|99.96|114.62|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||114.62|99.96|
92355191|NCT00835549|184616350|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.6||||||90.0|94.8|102.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102|94.8|
92355192|NCT00835549|184616351|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.0||||||90.0|98.5|105.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||105|98.5|
92355193|NCT00835549|184616352|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.0||||||90.0|98.7|105.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||105|98.7|
92401216|NCT03081117|184693748|SUPERIORITY||Mean Difference (Net)|0.0025586||||0.505|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees fo freedom = 10||Analysis for Per Protocol group.||||0.505
92401217|NCT03081117|184693749|SUPERIORITY||Mean Difference (Net)|0.00000061||||0.98|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of freedom = 13||Analysis for All Available group (participants who had both Baseline and Week 24 scans).||||0.98
92401218|NCT03081117|184693749|SUPERIORITY||Mean Difference (Net)|-0.0000054||||0.86|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of freedom = 10||Analysis for Per Protocol group.||||0.86
92220627|NCT02819635|184341800|SUPERIORITY||Adjusted risk difference (%)|33.7|||<|0.001|TWO_SIDED|95.0|23.6|43.9||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||43.9|23.6|<0.001
92220628|NCT02819635|184341801|SUPERIORITY||LS Mean Difference|5.1|||<|0.001|TWO_SIDED|95.0|2.67|7.52||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|ANCOVA|Stratified by corticosteroid use at Week 0 (yes/no); clinical remission status at Week 0 (yes/no); Bio-IR status at Baseline (Bio-IR or Non-Bio-IR)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||7.52|2.67|<0.001
92220629|NCT02819635|184341801|SUPERIORITY||LS Mean Difference|5.9|||<|0.001|TWO_SIDED|95.0|3.44|8.27||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|ANCOVA|Stratified by corticosteroid use at Week 0 (yes/no); clinical remission status at Week 0 (yes/no); Bio-IR status at Baseline (Bio-IR or Non-Bio-IR)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||8.27|3.44|<0.001
92220630|NCT00783094|184341818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.201|TWO_SIDED|95.0|-1.8|0.4|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no), and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo|||0.4|-1.8|0.201
92220631|NCT00783094|184341818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.6||0.062|TWO_SIDED|95.0|-2.2|0.1|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 5 mg - Placebo.|||0.1|-2.2|0.062
92220632|NCT00783094|184341819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.356|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo.|||0.2|-0.7|0.356
92220633|NCT00783094|184341819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.487|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 5 mg - Placebo.|||0.3|-0.6|0.487
92355194|NCT04526158|184616365|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.031|TWO_SIDED|95.0|0.0|0.6||significance threshold = 0.0167 due to multiple comparisons|Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.6|0.0|0.031
92220634|NCT00783094|184341820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.228|TWO_SIDED|95.0|-1.3|0.3|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo|||0.3|-1.3|0.228
92220635|NCT00783094|184341820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.4||0.033|TWO_SIDED|95.0|-1.7|-0.1|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 5 mg - Placebo.|||-0.1|-1.7|0.033
92220636|NCT00783094|184341821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.249|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|With effects for treatment,BPH severity (moderate/severe), prior alpha blocker use (yes/no), and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo.|||0.1|-0.4|0.249
92220637|NCT00783094|184341821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.022|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|With effects for treatment,BPH severity (moderate/severe), prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 5 mg - Placebo.|||-0.0|-0.6|0.022
92220638|NCT00783094|184341822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.904|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|with effects for treatment,BPH severity (moderate/severe), prior alpha blocker use (yes/no), and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo.|||0.3|-0.4|0.904
92220639|NCT00783094|184341822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.8|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|With effects for treatment, BPH severity(moderate/severe), prior alpha blocker use (yes/no), and baseline value.||||0.3|-0.4|0.800
92355195|NCT04526158|184616365|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.002|TWO_SIDED|95.0|-0.7|-0.2||significance threshold = 0.0167 due to multiple comparisons|Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-0.7|0.002
92355196|NCT04526158|184616365|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.0|-0.4||significance threshold = 0.0167 due to multiple comparisons|Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.4|-1.0|<0.001
92220640|NCT00783094|184341823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.4||0.147|TWO_SIDED|95.0|-1.5|0.2|||ANCOVA|With effects for treatment, BPH severity (moderate/severe), prior alpha blocker use (yes/no), and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo.|||0.2|-1.5|0.147
92220641|NCT00783094|184341823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.4||0.094|TWO_SIDED|95.0|-1.6|0.1|||ANCOVA|With effects for treatment, BPH severity (moderate/severe), prior alpha blocker use (yes/no), and baseline value.|Least Squares Mean Difference = Tadalafil 5 mg - Placebo.|||0.1|-1.6|0.094
92220642|NCT00783094|184341826|SUPERIORITY_OR_OTHER|||||||0.342||95.0||||P-Value for systolic blood pressure.|Wilcoxin rank-sum test|||||||0.342
92355197|NCT04526158|184616366|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.736|TWO_SIDED|95.0|-0.2|0.3|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI intensity, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.3|-0.2|0.736
92401219|NCT00248625|184693784|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Log Rank|||||||0.19
92401220|NCT00248625|184693785|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Log Rank|||||||0.03
92161989|NCT03224299|184213492|SUPERIORITY||Mean Difference (Final Values)|2.23|||||TWO_SIDED|95.0|1.69|2.78||||||Abdomen 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.78|1.69|
92220643|NCT00783094|184341826|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||P-Value for systolic blood pressure.|Wilcoxin rank sum test|||||||0.127
92220644|NCT00783094|184341826|SUPERIORITY_OR_OTHER|||||||0.705||95.0||||P-Value for diastolic blood pressure.|Wilcoxin rank-sum test|||||||0.705
92220645|NCT00783094|184341826|SUPERIORITY_OR_OTHER|||||||0.173||95.0||||P-Value for diastolic blood pressure.|Wilcoxin rank-sum test|||||||0.173
92220646|NCT00783094|184341827|SUPERIORITY_OR_OTHER|||||||0.606||95.0|||||Wilcoxin rank-sum test|||||||0.606
92220647|NCT00783094|184341827|SUPERIORITY_OR_OTHER|||||||0.149||95.0|||||Wilcoxin rank-sum test|||||||0.149
92355198|NCT04526158|184616366|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI intensity, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-0.6|<0.001
92355199|NCT04526158|184616366|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.7|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI intensity, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-0.7|<0.001
92220648|NCT00783094|184341828|SUPERIORITY_OR_OTHER|||||||0.428||95.0|||||Wilcoxin rank-sum test|||||||0.428
92220649|NCT00783094|184341828|SUPERIORITY_OR_OTHER|||||||0.426||95.0|||||Wilcoxin rank-sum test|||||||0.426
92220650|NCT00783094|184341829|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Wilcoxin rank-sum|||||||0.060
92220651|NCT00783094|184341829|SUPERIORITY_OR_OTHER|||||||0.212||95.0|||||Wilcoxin rank-sum|||||||0.212
92220652|NCT01324232|184341841|SUPERIORITY||Pearson correlation|0.0019|||=|0.9827|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis that the true correlation between the change from Baseline PRS scores and the DM plasma concentration was equal to zero and was tested using a 2-sided test at the 5% level of significance within active treatment groups. The regression line was fitted using change from baseline in average PRS during Day 57-84 as the dependent variable and the average of log-transformed DM Plasma Concentration at Day 22 and Day 50 as the independent variable.||||= 0.9827
92276465|NCT00931385|184454727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.144|0.262|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.262|0.144|<0.0001
92355200|NCT04526158|184616367|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.829|TWO_SIDED|95.0|-0.4|0.4|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Physical function, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.4|-0.4|0.829
92220653|NCT01324232|184341843|SUPERIORITY||||||=|0.8869|||||||ANCOVA|||Test of dose trend (overall P value)||||=0.8869
92220654|NCT01324232|184341843|SUPERIORITY||Adjusted mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.46|=|0.9381|TWO_SIDED|95.0|-0.94|0.87|||ANCOVA|||Pairwise treatment group vs placebo||0.87|-0.94|=0.9381
92220655|NCT01324232|184341843|SUPERIORITY||Adjusted mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.46|=|0.4128|TWO_SIDED|95.0|-1.28|0.53|||ANCOVA|||Pairwise treatment group vs placebo||0.53|-1.28|=0.4128
92220656|NCT01324232|184341843|SUPERIORITY||Adjusted mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.461|=|0.9427|TWO_SIDED|95.0|-0.88|0.94|||ANCOVA|||Pairwise treatment group vs placebo||0.94|-0.88|=0.9427
92220657|NCT01324232|184341843|SUPERIORITY||Adjusted mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.401|=|0.6075|TWO_SIDED|95.0|-1.0|0.58|||ANCOVA|||Pairwise treatment group vs placebo||0.58|-1.0|=0.6075
92220658|NCT01324232|184341843|SUPERIORITY||Adjusted mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.402|=|0.669|TWO_SIDED|95.0|-0.96|0.62|||ANCOVA|||Pairwise treatment group vs placebo||0.62|-0.96|=0.6690
92220659|NCT01324232|184341843|SUPERIORITY||Adjusted mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.38|=|0.7394|TWO_SIDED|95.0|-0.88|0.62|||ANCOVA|||Pairwise treatment group vs placebo||0.62|-0.88|=0.7394
92220660|NCT01324232|184341844|SUPERIORITY||||||=|0.9731|TWO_SIDED|||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||||||=0.9731
92220661|NCT01324232|184341844|SUPERIORITY||Mean difference (final values)|1.32|STANDARD_ERROR_OF_MEAN|2.42|||TWO_SIDED|95.0|-3.46|6.09||||||||6.09|-3.46|
92220662|NCT01324232|184341844|SUPERIORITY||Mean difference (final values)|-3.0|STANDARD_ERROR_OF_MEAN|2.394|||TWO_SIDED|95.0|-7.72|1.72||||||||1.72|-7.72|
92220663|NCT01324232|184341844|SUPERIORITY||Mean difference (final values)|1.2|STANDARD_ERROR_OF_MEAN|2.408|||TWO_SIDED|95.0|-3.54|5.95||||||||5.95|-3.54|
92220664|NCT01324232|184341846|SUPERIORITY||||||=|0.4778||||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.||||=0.4778
92220665|NCT01324232|184341846|SUPERIORITY||Adjusted mean difference|0.49|STANDARD_ERROR_OF_MEAN|3.676|||TWO_SIDED|95.0|-6.76|7.74||||||||7.74|-6.76|
92220666|NCT01324232|184341846|SUPERIORITY||Adjusted mean difference|-1.67|STANDARD_ERROR_OF_MEAN|3.663|||TWO_SIDED|95.0|-8.89|5.56||||||||5.56|-8.89|
92220667|NCT01324232|184341846|SUPERIORITY||Adjusted mean difference|3.43|STANDARD_ERROR_OF_MEAN|3.681|||TWO_SIDED|95.0|-3.83|10.68||||||||10.68|-3.83|
92220668|NCT01324232|184341847|SUPERIORITY||||||=|0.0685|TWO_SIDED|||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||||||=0.0685
92220669|NCT01324232|184341847|SUPERIORITY||Mean difference (final values)|-0.51|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|-1.85|0.83||||||||0.83|-1.85|
92355201|NCT04526158|184616367|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.005|TWO_SIDED|95.0|0.2|0.9|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Physical function, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.9|0.2|0.005
92401221|NCT00248625|184693786|SUPERIORITY_OR_OTHER|||||||0.21|||||||Pepe and Mori test of CIF difference|||||||0.21
92401222|NCT00248625|184693787|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||Kruskal-Wallis|||||||0.053
92401223|NCT00248625|184693788|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Cochran-Armitage trend|||||||0.29
92401224|NCT00248625|184693789|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Cochran-Armitage trend|||||||0.74
92401225|NCT00248625|184693790|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Cochran-Armitage tren|||||||0.54
92401226|NCT00248625|184693791|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Chi-squared|||||||0.86
92401227|NCT00904943|184693792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (test/ref x 100)|104.27|||||TWO_SIDED||||||||Bioequivalence is established when Ratio of the Mean falls within 80-125.|||||
92401228|NCT00904943|184693793|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (test/ref x 100)|102.35|||||TWO_SIDED||||||||Bioequivalence is established when Ratio of the Least Squares Mean falls within 80-125.|||||
92220670|NCT01324232|184341847|SUPERIORITY||Mean difference (final values)|-0.85|STANDARD_ERROR_OF_MEAN|0.677|||TWO_SIDED|95.0|-2.19|0.48||||||||0.48|-2.19|
92220671|NCT01324232|184341847|SUPERIORITY||Mean difference (final values)|-1.2|STANDARD_ERROR_OF_MEAN|0.681|||TWO_SIDED|95.0|-2.54|0.15||||||||0.15|-2.54|
92220672|NCT01324232|184341848|SUPERIORITY||||||=|0.4201|TWO_SIDED|||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||||||=0.4201
92401229|NCT00904943|184693794|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (test/ref x 100)|103.66|||||TWO_SIDED||||||||Bioequivalence is established when Ratio of the Least Squares Mean falls within 80-125.|||||
92401230|NCT03284710|184693795|OTHER|||||||0.358||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgGAb binding to 1086C\_D7gp120.avi/293F in Group 1 versus Group 2||||0.358
92401231|NCT03284710|184693795|OTHER|||||||1||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgGAb binding to 96ZM651.D11gp120.avi in Group 1 versus Group 2||||1.000
92401232|NCT03284710|184693795|OTHER|||||||0.361||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgGAb binding to TV1c8\_D11gp120.avi/293F in Group 1 versus Group 2||||0.361
92401233|NCT03284710|184693796|OTHER|||||||0.238||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgGAb binding to 1086C\_D7gp120.avi/293F in Group 1 versus Group 2||||0.238
92401234|NCT03284710|184693796|OTHER|||||||0.893||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgGAb binding to 96ZM651.D11gp120.avi in Group 1 versus Group 2||||0.893
92401235|NCT03284710|184693796|OTHER|||||||0.411||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgGAb binding to TV1c8\_D11gp120.avi/293F in Group 1 versus Group 2||||0.411
92401236|NCT03284710|184693797|OTHER|||||||1||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgAAb binding to 1086C\_D7gp120.avi/293F in Group 1 versus Group 3||||1.000
92401237|NCT03284710|184693797|OTHER|||||||0.044||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgAAb binding to 96ZM651.D11gp120.avi in Group 1 versus Group 3||||0.044
92401238|NCT03284710|184693797|OTHER|||||||0.045||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgAAb binding to TV1c8\_D11gp120.avi/293F in Group 1 versus Group 3||||0.045
92401239|NCT03284710|184693798|OTHER|||||||0.215||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgAAb binding to 1086C\_D7gp120.avi/293F in Group 1 versus Group 3||||0.215
92401240|NCT03284710|184693798|OTHER|||||||0.683||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgAAb binding to 96ZM651.D11gp120.avi in Group 1 versus Group 3||||0.683
92401241|NCT03284710|184693798|OTHER|||||||0.322||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgAAb binding to TV1c8\_D11gp120.avi/293F in Group 1 versus Group 3||||0.322
92401242|NCT01231984|184693858|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two one-sided 95% confidence limits for the difference in HbA1c between the 4mm PN and the 8mm PN was calculated. Equivalence limits for HbA1C were defined a-priori as +/- 0.4% units.|Effect of 4mm versus 8mm PN on HbA1c|-0.076|||||TWO_SIDED|95.0|-0.209|0.058|||Two one-sided 95% confidence limits|For equivalence testing, a 95% test is the same as two one-sided 95% confidence limits.||General linear models with baseline as a covariate, needle type, period, and randomization sequence as fixed effects, and subject as random effect were fit to the data.||0.058|-0.209|
92401243|NCT01231984|184693859|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two one-sided 95% confidence limits for the difference in HbA1c between the 4 mm PN and the longer PNs (pooled) was calculated. Equivalence limits for HbA1c were defined a-priori as +/- 0.4% units.|Effect of 4mm PN vs. longer PN on HbA1c|-0.09|||||TWO_SIDED|95.0|-0.23|0.051|||Two one-sided 95% confidence limits|For equivalence testing, a 95% test is the same as two one-sided 95% confidence limits.||General linear models with baseline as a covariate, needle type, period, and randomization sequence as fixed effects, and subject as random effect were fit to the data.||0.051|-0.23|
92401244|NCT01231984|184693860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.36|||<|0.05|ONE_SIDED|95.0|0.37|||p\< 0.05 was considered statistically significant in this study|t-test, 1 sided|||"Subjects rated the level of pain experienced when using the PN assigned for use during Study Period 2 compared to the PN assigned for use in Study Period 1. By placing a mark on a line, whose midpoint(anchor) was designated as 0, and represented equivalent pain with assigned PNs, ratings on the continuum represented the degree to which the PN used in the second Study Period was less than or greater than the PN used during the first Study Period."|||0.37|<0.05
92401245|NCT01231984|184693861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|30.83|||<|0.05|ONE_SIDED|95.0|18.54|||p\< 0.05 was considered statistically significant in this study.|t-test, 1 sided||||||18.54|<0.05
92405668|NCT02148874|184701510|SUPERIORITY||Odds Ratio (OR)|0.89||||0.67|TWO_SIDED|95.0|0.53|1.5|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H3N2||1.50|0.53|0.67
92161990|NCT03224299|184213492|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.9|0.31||||||Groin 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.31|-0.90|
92161991|NCT03224299|184213492|SUPERIORITY||Mean Difference (Final Values)|2.6|||||TWO_SIDED|95.0|1.98|3.22||||||Groin 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||3.22|1.98|
92161992|NCT03224299|184213492|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.61|0.57||||||Groin 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.57|-0.61|
92355202|NCT04526158|184616367|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.004|TWO_SIDED|95.0|0.2|1.0|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Physical function, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||1.0|0.2|0.004
92355203|NCT04526158|184616368|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.079|TWO_SIDED|95.0|0.0|0.8|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Anxiety, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.8|0.0|0.079
92355204|NCT04526158|184616368|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.296|TWO_SIDED|95.0|-0.6|0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Anxiety, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.2|-0.6|0.296
92355205|NCT04526158|184616368|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.005|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Anxiety, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-1.0|0.005
92355206|NCT04526158|184616369|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.464|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS fatigue, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.7|-0.3|0.464
92355207|NCT04526158|184616369|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.019|TWO_SIDED|95.0|-1.1|-0.1|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS fatigue, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.1|-1.1|0.019
92355208|NCT04526158|184616369|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.002|TWO_SIDED|95.0|-1.3|-0.3|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS fatigue, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.3|-1.3|0.002
92405669|NCT02148874|184701510|SUPERIORITY||Odds Ratio (OR)|1.47||||0.14|TWO_SIDED|95.0|0.88|2.46|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain B/Massachusetts||2.46|0.88|0.14
92161993|NCT03224299|184213492|SUPERIORITY||Mean Difference (Final Values)|2.33|||||TWO_SIDED|95.0|1.72|2.93||||||Groin 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.93|1.72|
92220673|NCT01324232|184341848|SUPERIORITY||Adjusted mean difference|-0.49|STANDARD_ERROR_OF_MEAN|1.473|||TWO_SIDED|95.0|-3.4|2.41||||||||2.41|-3.40|
92220674|NCT01324232|184341848|SUPERIORITY||Adjusted mean difference|-0.9|STANDARD_ERROR_OF_MEAN|1.454|||TWO_SIDED|95.0|-3.76|1.97||||||||1.97|-3.76|
92220675|NCT01324232|184341848|SUPERIORITY||Adjusted mean difference|1.46|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-1.42|4.34||||||||4.34|-1.42|
92355209|NCT04526158|184616370|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.889|TWO_SIDED|95.0|-0.5|0.4|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS sleep disturbance, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.4|-0.5|0.889
92355210|NCT04526158|184616370|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.004|TWO_SIDED|95.0|-1.1|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS sleep disturbance, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-1.1|0.004
92355211|NCT04526158|184616370|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.006|TWO_SIDED|95.0|-1.1|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS sleep disturbance, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-1.1|0.006
92355212|NCT04526158|184616371|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.76|TWO_SIDED|95.0|-0.4|0.5|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS social roles and activities, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.5|-0.4|0.76
92355213|NCT04526158|184616371|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|95.0|0.6|1.4|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS social roles and activities, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||1.4|0.6|<0.001
92355214|NCT04526158|184616371|SUPERIORITY||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.5|1.3|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS social roles and activities, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||1.3|0.5|<0.001
92355215|NCT04526158|184616372|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.89|TWO_SIDED|95.0|-0.7|0.6|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PHQ8, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.6|-0.7|0.89
92355216|NCT04526158|184616372|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.003|TWO_SIDED|95.0|-1.5|-0.3|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PHQ8, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.3|-1.5|0.003
92355217|NCT04526158|184616372|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.007|TWO_SIDED|95.0|-1.5|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PHQ8, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-1.5|0.007
92355218|NCT04526158|184616373|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.886|TWO_SIDED|95.0|-1.6|1.9|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PCL5, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||1.9|-1.6|0.886
92355219|NCT04526158|184616373|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.017|TWO_SIDED|95.0|-3.7|-0.4|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PCL5, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.4|-3.7|0.017
92355220|NCT04526158|184616373|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.013|TWO_SIDED|95.0|-3.9|-0.5|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PCL5, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.5|-3.9|0.013
92355221|NCT04526158|184616374|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.437|TWO_SIDED|95.0|-0.1|0.3|||Mixed Models Analysis|Linear mixed model adjusted for baseline Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.3|-0.1|0.437
92355222|NCT04526158|184616374|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-0.9|-0.5|||Mixed Models Analysis|Linear mixed model adjusted for baseline Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.5|-0.9|<0.001
92355223|NCT04526158|184616374|SUPERIORITY||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.0|-0.6|||Mixed Models Analysis|Linear mixed model adjusted for baseline Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.6|-1.0|<0.001
92355224|NCT04526158|184616375|SUPERIORITY||Mean Difference (Final Values)|-7.5|||||TWO_SIDED|95.0|-13.9|-1.2||Used confidence interval to determine significance.|Mixed Models Analysis|Logistic mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-1.2|-13.9|
92355225|NCT04526158|184616375|SUPERIORITY||Mean Difference (Final Values)|12.0|||||TWO_SIDED|95.0|6.4|17.6||Used confidence interval to determine significance.|Mixed Models Analysis|Logistic mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||17.6|6.4|
92161994|NCT03224299|184213492|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-0.91|0.22||||||Abdomen 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.22|-0.91|
92161995|NCT03224299|184213492|SUPERIORITY||Mean Difference (Final Values)|2.45|||||TWO_SIDED|95.0|1.88|3.01||||||Abdomen 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||3.01|1.88|
92355226|NCT04526158|184616375|SUPERIORITY||Mean Difference (Final Values)|19.5|||||TWO_SIDED|95.0|13.6|25.4||Used confidence interval to determine significance.|Mixed Models Analysis|Logistic mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||25.4|13.6|
92355227|NCT00677040|184616376|EQUIVALENCE|t-test to determine if tissue oxygen measurements are equivalent between treated and nontreated breast|t-test|0.35||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
92355228|NCT00677040|184616376|OTHER||t-test|0.35||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||.5
92355229|NCT03464461|184616386|OTHER|non-parametric||||||0.9844|||||||Kruskal-Wallis|||||||0.9844
92220676|NCT01324232|184341849|SUPERIORITY||||||=|0.8068||||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.||||=0.8068
92220677|NCT01324232|184341849|SUPERIORITY||Adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.205|||TWO_SIDED|95.0|-3.47|1.28||||||||1.28|-3.47|
92355230|NCT03464461|184616387|OTHER|non-parametric||||||0.158|||||||Kruskal-Wallis|||||||0.1580
92355231|NCT03464461|184616388|OTHER|non-parametric||||||0.873|||||||Kruskal-Wallis|||||||0.8730
92355232|NCT03464461|184616389|OTHER|non-parametric||||||0.074|||||||Kruskal-Wallis|||||||0.0740
92355233|NCT03464461|184616390|OTHER|non-parametric||||||0.0984|||||||Kruskal-Wallis|||||||0.0984
92355234|NCT05524948|184616391|OTHER||Adjusted Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.206|<|0.0001|TWO_SIDED|95.0|-1.71|-0.9|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and Baseline overall breath organoleptic score as a covariate.|Adjusted mean difference was calculated as experimental dentifrice minus reference dentifrice.|||-0.90|-1.71|<0.0001
92355235|NCT05524948|184616392|OTHER||Adjusted Mean Difference|-569.64|STANDARD_ERROR_OF_MEAN|97.479|<|0.0001|TWO_SIDED|95.0|-763.11|-376.17|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.||||-376.17|-763.11|<0.0001
92355236|NCT05524948|184616393|OTHER||Adjusted Mean Difference|-418.86|STANDARD_ERROR_OF_MEAN|64.848|<|0.0001|TWO_SIDED|95.0|-547.56|-290.15|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Hydrogen Sulfide|||-290.15|-547.56|<0.0001
92355237|NCT05524948|184616393|OTHER||Adjusted Mean Difference|-108.9|STANDARD_ERROR_OF_MEAN|32.626||0.0012|TWO_SIDED|95.0|-173.66|-44.15|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Methanethiol|||-44.15|-173.66|0.0012
92355238|NCT05524948|184616393|OTHER||Adjusted Mean Difference|-26.17|STANDARD_ERROR_OF_MEAN|22.909||0.2561|TWO_SIDED|95.0|-71.64|19.29|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Dimethyl Sulfide|||19.29|-71.64|0.2561
92161996|NCT03224299|184213492|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.31|||||TWO_SIDED|95.0|-0.85|0.24||||||Abdomen 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.24|-0.85|
92355239|NCT05524948|184616394|OTHER||Adjusted Mean Difference|-721.58|STANDARD_ERROR_OF_MEAN|94.584|<|0.0001|TWO_SIDED|95.0|-909.31|-533.86|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.||||-533.86|-909.31|<0.0001
92355240|NCT05524948|184616395|OTHER||Adjusted Mean Difference|-567.89|STANDARD_ERROR_OF_MEAN|68.09|<|0.0001|TWO_SIDED|95.0|-703.03|-432.75|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Hydrogen Sulfide|||-432.75|-703.03|<0.0001
92355241|NCT05524948|184616395|OTHER||Adjusted Mean Difference|-105.39|STANDARD_ERROR_OF_MEAN|24.57|<|0.0001|TWO_SIDED|95.0|-154.15|-56.62|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Methanethiol|||-56.62|-154.15|<0.0001
92355242|NCT05524948|184616395|OTHER||Adjusted Mean Difference|-38.04|STANDARD_ERROR_OF_MEAN|26.201||0.1498|TWO_SIDED|95.0|-90.04|13.97|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Dimethyl Sulfide|||13.97|-90.04|0.1498
92355243|NCT05524948|184616396|OTHER||Adjusted Mean Difference|-2.17|STANDARD_ERROR_OF_MEAN|0.204|<|0.0001|TWO_SIDED|95.0|-2.58|-1.77|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and Baseline overall breath organoleptic score as a covariate.|Adjusted mean difference was calculated as experimental dentifrice minus reference dentifrice.|||-1.77|-2.58|<0.0001
92355244|NCT05524948|184616397|OTHER||Adjusted Mean Difference|-396.96|STANDARD_ERROR_OF_MEAN|95.541|<|0.0001|TWO_SIDED|95.0|-586.51|-207.41|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.||||-207.41|-586.51|<0.0001
92355245|NCT05524948|184616398|OTHER||Adjusted Mean Difference|-341.37|STANDARD_ERROR_OF_MEAN|72.446|<|0.0001|TWO_SIDED|95.0|-485.1|-197.64|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Hydrogen Sulfide|||-197.64|-485.10|<0.0001
92355246|NCT05524948|184616398|OTHER||Adjusted Mean Difference|-74.15|STANDARD_ERROR_OF_MEAN|20.905||0.0006|TWO_SIDED|95.0|-115.62|-32.68|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Methanethiol|||-32.68|-115.62|0.0006
92355247|NCT05524948|184616398|OTHER||Adjusted Mean Difference|27.98|STANDARD_ERROR_OF_MEAN|25.942||0.2834|TWO_SIDED|95.0|-23.49|79.45|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Dimethyl Sulfide|||79.45|-23.49|0.2834
92355248|NCT05524948|184616399|OTHER||Adjusted Mean Difference|-1.55|STANDARD_ERROR_OF_MEAN|0.138|<|0.0001|TWO_SIDED|95.0|-1.83|-1.28|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and Baseline overall breath organoleptic score as a covariate.|Adjusted mean difference was calculated as the experimental dentifrice minus the reference dentifrice.|||-1.28|-1.83|<0.0001
92355249|NCT05524948|184616400|OTHER||Adjusted Mean Difference|-322.75|STANDARD_ERROR_OF_MEAN|67.778|<|0.0001|TWO_SIDED|95.0|-457.27|-188.23|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.||||-188.23|-457.27|<0.0001
92355250|NCT05524948|184616401|OTHER||Adjusted Mean Difference|-250.33|STANDARD_ERROR_OF_MEAN|42.838|<|0.0001|TWO_SIDED|95.0|-335.35|-165.3|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Hydrogen Sulfide|||-165.30|-335.35|<0.0001
92355251|NCT05524948|184616401|OTHER||Adjusted Mean Difference|-45.53|STANDARD_ERROR_OF_MEAN|23.439||0.055|TWO_SIDED|95.0|-92.05|0.99|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Methanethiol|||0.99|-92.05|0.0550
92161997|NCT03224299|184213492|SUPERIORITY||Mean Difference (Final Values)|2.41|||||TWO_SIDED|95.0|1.87|2.95||||||Abdomen 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.95|1.87|
92355252|NCT05524948|184616401|OTHER||Adjusted Mean Difference|-32.68|STANDARD_ERROR_OF_MEAN|26.036||0.2124|TWO_SIDED|95.0|-84.36|18.99|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Dimethyl Sulfide|||18.99|-84.36|0.2124
92355253|NCT05524948|184616402|OTHER||Adjusted Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.164|<|0.0001|TWO_SIDED|95.0|-1.52|-0.87|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and Baseline overall breath organoleptic score as a covariate.|Adjusted mean difference was calculated as experimental dentifrice minus reference dentifrice.|||-0.87|-1.52|<0.0001
92355254|NCT05155085|184616403|SUPERIORITY||Risk Difference (RD)|5.1||||0.4662|TWO_SIDED|95.0|-9.8|19.8|||Cochran-Mantel-Haenszel|||||19.8|-9.8|0.4662
92355255|NCT05155085|184616404|SUPERIORITY||LSM Difference from Placebo|-9.7|STANDARD_ERROR_OF_MEAN|11.4||0.3968|TWO_SIDED|95.0|-32.2|12.9|||Mixed Models Analysis|||||12.9|-32.2|0.3968
92355256|NCT05155085|184616405|SUPERIORITY||Risk Difference (RD)|3.3||||0.7625|TWO_SIDED|95.0|-15.2|21.6|||Fisher Exact|||||21.6|-15.2|0.7625
92161998|NCT03224299|184213492|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.14|||||TWO_SIDED|95.0|-0.67|0.4||||||Groin 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.40|-0.67|
92161999|NCT03224299|184213492|SUPERIORITY||Mean Difference (Final Values)|2.25|||||TWO_SIDED|95.0|1.7|2.8||||||Groin 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.80|1.70|
92401246|NCT01231984|184693863|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two one-sided 95% confidence limits for the difference in HbA1c between the 4mm PN and the 12.7mm PN was calculated. Equivalence limits for HbA1C were defined a-priori as +/- 0.4% units|Effect of 4 mm vs.12.7mm PN on HbA1c|-0.095|||||TWO_SIDED|95.0|-0.19|0.0|||Two one-sided 95% confidence limit|For equivalence testing, a 95% test is the same as two one-sided 95% confidence limits.||General linear models with baseline as a covariate, needle type, period, and randomization sequence as fixed effects, and subject as random effect were fit to the data.||-0.000|-0.190|
92401247|NCT00537394|184693870|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin defined as 15 percentage points. If the confidence interval for the difference in regimen failure between omitting versus adding NRTIs was fully below 15 percentage points, then omitting NRTIs would be concluded to be not inferior to adding NRTIs for this outcome.|Risk Difference (RD)|3.2|||||TWO_SIDED|95.0|-6.1|12.5|||||Endpoint rates with standard errors calculated from Kaplan-Meier curves for each treatment group and stratum. Differences in week 48 failure proportions by treatment calculated weighted by the inverse of the variance in each stratum.|Null Hypothesis was that omitting NRTIs is inferior to adding NRTIs for the outcome of regimen failure through 48 weeks.||12.5|-6.1|
92401248|NCT01283139|184693885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.057|TWO_SIDED|90.0|1.03|2.71|||Regression, Logistic|||||2.71|1.03|0.057
92401249|NCT01283139|184693885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.094|TWO_SIDED|90.0|1.01|2.54|||Regression, Logistic|||||2.54|1.01|0.094
92401250|NCT01283139|184693885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.031|TWO_SIDED|90.0|1.16|2.94|||Regression, Logistic|||||2.94|1.16|0.031
92401251|NCT01283139|184693886|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88||||0.042|TWO_SIDED|90.0|1.13|3.14|||Regression, Logistic|||||3.14|1.13|0.042
92162000|NCT03224299|184213492|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.56|0.48||||||Groin 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.48|-0.56|
92401252|NCT01283139|184693886|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.264|TWO_SIDED|90.0|0.85|2.35|||Regression, Logistic|||||2.35|0.85|0.264
92162001|NCT03224299|184213492|SUPERIORITY||Mean Difference (Final Values)|2.15|||||TWO_SIDED|95.0|1.62|2.68||||||Groin 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.68|1.62|
92162002|NCT00558363|184213503|SUPERIORITY_OR_OTHER||Relative Risk (Hazard Ratio)|0.34|||<|0.001|TWO_SIDED|95.0|0.23|0.5||Comparing 24-month survival curves (includes time to PSA doubling as well as time to censoring); stratified by site cluster and previous therapy|Log Rank||Relative risk of dutasteride compared to placebo, derived from Cox Proportional Hazard model stratified by site cluster and previous therapy|||0.50|0.23|<0.001
92162003|NCT00558363|184213513|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparing percentages of participants with PSA doubling: 57% versus 28%|Mantel-Haenszel Chi-Square|||||||<0.001
92162004|NCT00558363|184213514|SUPERIORITY_OR_OTHER||Relative Risk (Hazard Ratio)|0.25|||<|0.001||95.0|0.14|0.45||Comparing 12-month survival curves (includes time to PSA doubling as well as time to censoring); stratified by site cluster and previous therapy|Log Rank||Relative risk of dutasteride compared to placebo, derived from Cox proportional hazard model stratified by site cluster and previous therapy|||0.45|0.14|<0.001
92162005|NCT00558363|184213515|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparing percentages of participants with PSA doubling: 35% versus 10%|Mantel-Haenszel Chi-Square|||||||<0.001
92401253|NCT01283139|184693886|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.038|TWO_SIDED|90.0|1.14|3.19|||Regression, Logistic|||||3.19|1.14|0.038
92401254|NCT01283139|184693887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.808|TWO_SIDED|90.0|0.37|3.81|||Regression, Logistic|||||3.81|0.37|0.808
92401255|NCT01283139|184693887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.598|TWO_SIDED|90.0|0.45|4.66|||Regression, Logistic|||||4.66|0.45|0.598
92401256|NCT01283139|184693887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.884|TWO_SIDED|90.0|0.27|3.02|||Regression, Logistic|||||3.02|0.27|0.884
92401257|NCT01283139|184693888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92||||0.044|TWO_SIDED|90.0|1.22|7.01|||Regression, Logistic|||||7.01|1.22|0.044
92401258|NCT01283139|184693888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.498|TWO_SIDED|90.0|0.62|3.19|||Regression, Logistic|||||3.19|0.62|0.498
92401259|NCT01283139|184693888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03||||0.049|TWO_SIDED|90.0|1.2|7.68|||Regression, Logistic|||||7.68|1.20|0.049
92401260|NCT01283139|184693889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.27|TWO_SIDED|90.0|0.85|2.25|||Regression, Logistic|||||2.25|0.85|0.270
92401261|NCT01283139|184693889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.69||||0.077|TWO_SIDED|90.0|1.04|2.74|||Regression, Logistic|||||2.74|1.04|0.077
92401262|NCT01283139|184693889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.453|TWO_SIDED|90.0|0.76|2.05|||Regression, Logistic|||||2.05|0.76|0.453
92401263|NCT04267380|184693900|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||0.73
92162006|NCT02174562|184213538|SUPERIORITY||Risk Ratio (RR)|1.21||||0.31|TWO_SIDED|95.0|0.84|1.75||0.05 was the a priori level of significance.|Poisson regression with robust SEs||PC-OT is the numerator, Enhanced Usual care is the denominator|Null hypothesis is that the Relative Risk of reduction of HbA1C \>=0.5 for PCOT vs EUC is 1.||1.75|0.84|0.31
92220678|NCT01324232|184341849|SUPERIORITY||Adjusted mean difference|-0.63|STANDARD_ERROR_OF_MEAN|1.2|||TWO_SIDED|95.0|-2.99|1.74||||||||1.74|-2.99|
92401264|NCT04267380|184693901|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
92401265|NCT04267380|184693902|SUPERIORITY|||||||0.26|||||||Chi-squared|||||||0.26
92401266|NCT04267380|184693903|SUPERIORITY|||||||0.23|||||||Chi-squared|||||||0.23
92401267|NCT04267380|184693904|SUPERIORITY|||||||0.33|||||||Chi-squared|||||||0.33
92401268|NCT04267380|184693905|SUPERIORITY|||||||0.07|||||||Chi-squared|||||||0.07
92401269|NCT04267380|184693906|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||0.68
92401270|NCT04267380|184693907|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||0.68
92401271|NCT04267380|184693909|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||0.45
92162007|NCT02174562|184213539|SUPERIORITY|||||||0.87|||||||Mixed Models Analysis|P-value is for comparison of least squares means for period 2 (months 4-6).||Mixed effects linear regression was used to model the percentage of doses taken each month. Fixed effects were period (1-3 months, 4-6 months, 7-9 months, 10-12 months), randomization group, randomization by period interaction, stratification group, age, and run-in percentage doses taken. The outcome was transformed using the arcsin-square root transformation prior to analysis. A first-order autoregressive correlation structure was assumed.||||0.87
92162008|NCT01651949|184213563|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.11|||<|0.001|TWO_SIDED|95.0|1.02|1.21|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used.||Anti-HPV Type 6||1.21|1.02|<0.001
92162009|NCT01651949|184213563|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|1.0|1.19|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 11||1.19|1.00|<0.001
92162010|NCT01651949|184213563|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.2|||<|0.001|TWO_SIDED|95.0|1.1|1.3|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 16||1.30|1.10|<0.001
92220679|NCT01324232|184341849|SUPERIORITY||Adjusted mean difference|0.31|STANDARD_ERROR_OF_MEAN|1.207|||TWO_SIDED|95.0|-2.07|2.69||||||||2.69|-2.07|
92355257|NCT03460704|184616407|SUPERIORITY||LS Mean rate ratio|1.004||||0.97889|TWO_SIDED|95.0|0.747|1.349|||negative binomial model|||The number of NCFB pulmonary exacerbations was compared between treatment groups using a negative binomial model including treatment, country, and baseline use of stable concomitant therapy with oral macrolides as fixed effects and log-exposure time on treatment as an offset.||1.349|0.747|0.97889
92355258|NCT01767857|184616416|SUPERIORITY|||||||0.613|||||||Log Rank|||||||0.613
92355259|NCT01767857|184616417|SUPERIORITY|||||||0.011|||||||ANCOVA|||||||0.011
92355260|NCT01767857|184616418|SUPERIORITY|||||||0.541|||||||ANCOVA|||Statistical Analysis for Global Health Status/Qol||||0.541
92355261|NCT01767857|184616418|SUPERIORITY|||||||0.56|||||||ANCOVA|||Statistical Analysis for Pain||||0.560
92355262|NCT01767857|184616418|SUPERIORITY|||||||0.603|||||||ANCOVA|||Statistical Analysis for Fatigue||||0.603
92355263|NCT01767857|184616418|SUPERIORITY|||||||0.485|||||||ANCOVA|||Statistical Analysis for Appetite Loss||||0.485
92355264|NCT01767857|184616419|SUPERIORITY|||||||0.21|||||||ANCOVA|||||||0.210
92355265|NCT01767857|184616420|SUPERIORITY|||||||0.768|||||||Log Rank|||||||0.768
92355266|NCT01421459|184616423|NON_INFERIORITY_OR_EQUIVALENCE|The primary treatment comparison was to compare LY2963016 versus Lantus at the non-inferiority margin of +0.4%. If the upper limit of the 95% confidence interval on the change from baseline to 24-week endpoint HbA1c for LY2963016 versus Lantus was below +0.4%, then LY2963016 would be declared non-inferior to Lantus.|Mean Difference (Final Values)|0.052||||0.403|TWO_SIDED|95.0|-0.07|0.175|||ANCOVA|||||0.175|-0.070|0.403
92355267|NCT01421459|184616425|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||P-value is for 4 weeks.|ANCOVA|||||||0.382
92355268|NCT01421459|184616425|SUPERIORITY_OR_OTHER|||||||0.91||95.0||||P-value is for 8 weeks.|ANCOVA|||||||0.910
92355269|NCT01421459|184616425|SUPERIORITY_OR_OTHER|||||||0.869||95.0||||P-value is for 12 weeks.|ANCOVA|||||||0.869
92355270|NCT01421459|184616425|SUPERIORITY_OR_OTHER|||||||0.345||95.0||||P-value is for 16 weeks.|ANCOVA|||||||0.345
92355271|NCT01421459|184616425|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value is for 20 weeks.|ANCOVA|||||||0.161
92355272|NCT01421459|184616425|SUPERIORITY_OR_OTHER|||||||0.097||95.0||||P-value is for 24 weeks.|ANCOVA|||||||0.097
92355273|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||P-value is at Morning Pre-Meal at Baseline.|ANCOVA|||||||0.837
92355274|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||P-value is for Morning 2 hrs PP Meal at Baseline.|ANCOVA|||||||0.620
92355275|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||P-value is for Midday Pre-Meal at Baseline|ANCOVA|||||||0.107
92401272|NCT04267380|184693910|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
92355276|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||P-value is for Midday 2 hrs PP Meal at Baseline.|ANCOVA|||||||0.258
92355277|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value is for Evening Pre-Meal at Baseline.|ANCOVA|||||||0.161
92355278|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.725||95.0||||P-value is for Bed Time at Baseline.|ANCOVA|||||||0.725
92355279|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.543||95.0||||P-value is for 0300 hrs at Baseline.|ANCOVA|||||||0.543
92355280|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.265||95.0||||P-value is for Morning Pre-Meal at Endpoint, up to 24 wk.|ANCOVA|||||||0.265
92355281|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value is for Morning 2 hrs PP Meal at Endpoint, up to 24 weeks.|ANCOVA|||||||0.050
92355282|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||P-value is for Midday Pre-Meal at Endpoint, up to 24 weeks.|ANCOVA|||||||0.040
92355283|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.366||95.0||||P-value is for Midday 2 hrs PP Meal at Endpoint, up to 24 weeks.|ANCOVA|||||||0.366
92355284|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.485||95.0||||P-value is for Evening Pre-Meal at Endpoint, up to 24 weeks.|ANCOVA|||||||0.485
92355285|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.537||95.0||||P-value is for Bed Time at Endpoint, up to 24 weeks.|ANCOVA|||||||0.537
92355286|NCT01421459|184616426|SUPERIORITY_OR_OTHER|||||||0.878||95.0||||P-value is for 0300 hrs at Endpoint, up to 24 weeks.|ANCOVA|||||||0.878
92355287|NCT01421459|184616427|SUPERIORITY_OR_OTHER|||||||0.779||95.0||||P-value is for Baseline.|ANCOVA|||||||0.779
92355288|NCT01421459|184616427|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||P-value is for Endpoint, up to 24 weeks.|ANCOVA|||||||0.788
92355289|NCT01421459|184616428|SUPERIORITY_OR_OTHER|||||||0.687||95.0||||P-value is for Baseline.|ANCOVA|||||||0.687
92401273|NCT04267380|184693911|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|||||||0.86
92401274|NCT04267380|184693912|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||||||0.83
92162011|NCT01651949|184213563|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.19|||<|0.001|TWO_SIDED|95.0|1.08|1.31|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 18||1.31|1.08|<0.001
92162012|NCT01651949|184213563|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.24|||<|0.001|TWO_SIDED|95.0|1.13|1.37|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 31||1.37|1.13|<0.001
92162013|NCT01651949|184213563|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.19|||<|0.001|TWO_SIDED|95.0|1.1|1.3|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 33||1.30|1.10|<0.001
92162014|NCT01651949|184213563|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.27|||<|0.001|TWO_SIDED|95.0|1.14|1.41|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 45||1.41|1.14|<0.001
92162015|NCT01651949|184213563|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|1.05|1.26|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 52||1.26|1.05|<0.001
92355290|NCT01421459|184616428|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||P-value is for change at 4 wks.|ANCOVA|||||||0.036
92355291|NCT01421459|184616428|SUPERIORITY_OR_OTHER|||||||0.323||95.0||||P-value is for change at 8 wks.|ANCOVA|||||||0.323
92355292|NCT01421459|184616428|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||P-value is for change at 12 wks.|ANCOVA|||||||0.368
92355293|NCT01421459|184616428|SUPERIORITY_OR_OTHER|||||||0.089||95.0||||P-value is for change at 16 wks.|ANCOVA|||||||0.089
92355294|NCT01421459|184616428|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||P-value is for change at 20 wks.|ANCOVA|||||||0.041
92355295|NCT01421459|184616428|SUPERIORITY_OR_OTHER|||||||0.33||95.0||||P-value is for change at 24 wks.|ANCOVA|||||||0.330
92355296|NCT01421459|184616428|SUPERIORITY_OR_OTHER|||||||0.334||95.0||||P-value is for change at Endpoint, up to 24 wks.|ANCOVA|||||||0.334
92355297|NCT01421459|184616429|SUPERIORITY_OR_OTHER|||||||0.726||95.0||||P-value is for Behavior domain at 4 weeks.|ANCOVA|||||||0.726
92355298|NCT01421459|184616429|SUPERIORITY_OR_OTHER|||||||0.502||95.0||||P-value is for Behavior domain at 12 weeks.|ANCOVA|||||||0.502
92355299|NCT01421459|184616429|SUPERIORITY_OR_OTHER|||||||0.437||95.0||||P-value is for Behavior domain at Endpoint, up to 24 weeks.|ANCOVA|||||||0.437
92355300|NCT01421459|184616429|SUPERIORITY_OR_OTHER|||||||0.237||95.0||||P-value is for Worry domain at 4 weeks.|ANCOVA|||||||0.237
92355301|NCT01421459|184616429|SUPERIORITY_OR_OTHER|||||||0.86||95.0||||P-value is for Worry domain at 12 weeks.|ANCOVA|||||||0.860
92355302|NCT01421459|184616429|SUPERIORITY_OR_OTHER|||||||0.966||95.0||||P-value is for Worry domain at Endpoint, up to 24 weeks.|ANCOVA|||||||0.966
92355303|NCT01421459|184616429|SUPERIORITY_OR_OTHER|||||||0.313||95.0||||P-value is for ALBSS Total Score at 4 weeks.|ANCOVA|||||||0.313
92355304|NCT01421459|184616429|SUPERIORITY_OR_OTHER|||||||0.683||95.0||||P-value is for ALBSS Total Score at 12 weeks.|ANCOVA|||||||0.683
92355305|NCT01421459|184616429|SUPERIORITY_OR_OTHER|||||||0.765||95.0||||P-value is for ALBSS Total Score at Endpoint, up to 24 weeks.|ANCOVA|||||||0.765
92355306|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.983||95.0||||P-value is for Inconvenience of Regimen at 4 weeks.|ANCOVA|||||||0.983
92355307|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.371||95.0||||P-value is for Inconvenience of Regimen at 12 weeks.|ANCOVA|||||||0.371
92355308|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.757||95.0||||P-value is for Inconvenience of Regimen at Endpoint, up to 24 weeks.|ANCOVA|||||||0.757
92355309|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.89||95.0||||P-value is for Lifestyle Flexibility at 4 weeks.|ANCOVA|||||||0.890
92355310|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.326||95.0||||P-value is for Lifestyle Flexibility at 12 weeks.|ANCOVA|||||||0.326
92355311|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.831||95.0||||P-value is for Lifestyle Flexibility at Endpoint, up to 24 weeks.|ANCOVA|||||||0.831
92355312|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.507||95.0||||P-value is for Hypoglycemic Control at 4 weeks.|ANCOVA|||||||0.507
92355313|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||P-value is for Hypoglycemic Control at 12 weeks.|ANCOVA|||||||0.690
92355314|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.307||95.0||||P-value is for Hypoglycemic Control at Endpoint, up to 24 weeks.|ANCOVA|||||||0.307
92355315|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.902||95.0||||P-value is for Glycemic Control at 4 weeks.|ANCOVA|||||||0.902
92355316|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.109||95.0||||P-value is for Glycemic Control at 12 weeks.|ANCOVA|||||||0.109
92355317|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.754||95.0||||P-value is for Glycemic Control at Endpoint, up to 24 weeks.|ANCOVA|||||||0.754
92355318|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.088||95.0||||P-value is for Insulin Deliver Device at 4 weeks.|ANCOVA|||||||0.088
92355319|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.456||95.0||||P-value is for Insulin Delivery Device at 12 weeks.|ANCOVA|||||||0.456
92355320|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.531||95.0||||P-value is for Insulin Delivery Device at Endpoint, up to 24 weeks.|ANCOVA|||||||0.531
92355321|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value is for ITSQ Total Score at 4 weeks.|ANCOVA|||||||0.393
92355322|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.296||95.0||||P-value is for ITSQ Total Score at 12 weeks.|ANCOVA|||||||0.296
92355323|NCT01421459|184616430|SUPERIORITY_OR_OTHER|||||||0.662||95.0||||P-value is for ITSQ Total Score at Endpoint, up to 24 weeks.|ANCOVA|||||||0.662
92355324|NCT01421459|184616431|SUPERIORITY_OR_OTHER|||||||0.393||95.0|||||ANCOVA|||||||0.393
92162016|NCT01651949|184213563|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.25|||<|0.001|TWO_SIDED|95.0|1.14|1.36|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 58||1.36|1.14|<0.001
92162017|NCT01651949|184213564|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-11.5|||<|0.001|TWO_SIDED|95.0|-15.0|-8.0|||Miettinen & Nurminen||The incidence of AEs of injection-site erythema reported on the Vaccination Report Card was compared between heterosexual / MSM male participants and female participants|Injection-site Erythema||-8.0|-15.0|<0.001
92162018|NCT01651949|184213564|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-19.1|||<|0.001|TWO_SIDED|95.0|-22.5|-15.7|||Miettinen & Nurminen||The incidence of AEs of injection-site erythema reported on the Vaccination Report Card was compared between heterosexual / MSM male participants and female participants|Injection-site Pain||-15.7|-22.5|<0.001
92355325|NCT01421459|184616432|SUPERIORITY_OR_OTHER|||||||0.185||95.0||||P-value is for Insulin Dose at Endpoint, up to 24 weeks.|ANOVA|||||||0.185
92355326|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.661||95.0||||P-value is for HbA1c \<7% at Baseline.|Chi-squared|||||||0.661
92355327|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.394||95.0||||P-value is for HbA1c ≤ 6.5% at Baseline.|Chi-squared|||||||0.394
92355328|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.688||95.0||||P-value is for HbA1c \<7% at 4 weeks.|Chi-squared|||||||0.688
92355329|NCT01421459|184616433|SUPERIORITY_OR_OTHER||||||>|0.999||95.0||||P-value is for HbA1c ≤ 6.5% at 4 weeks.|Chi-squared|||||||>0.999
92401275|NCT04267380|184693913|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
92162019|NCT01651949|184213564|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-17.3|||<|0.001|TWO_SIDED|95.0|-20.8|-13.7|||Miettinen & Nurminen||The incidence of AEs of injection-site erythema reported on the Vaccination Report Card was compared between heterosexual / MSM male participants and female participants|Injection-site Swelling||-13.7|-20.8|<0.001
92162020|NCT01651949|184213565|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.5||||0.091|TWO_SIDED|95.0|-3.4|0.2|||Miettinen & Nurminen||The incidence of maximum body temperature \>=37.8° C reported on the Vaccination Report Card was compared between heterosexual / MSM male participants and female participants|Elevated Body Temperature||0.2|-3.4|0.091
92162021|NCT01651949|184213566|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|-0.7|0.9|||Miettinen & Nurminen|||Anti-HPV Type 6||0.9|-0.7|<0.001
92162022|NCT01651949|184213566|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|-0.3|0.8|||Miettinen & Nurminen|||Anti-HPV Type 11||0.8|-0.3|<0.001
92220680|NCT01324232|184341850|SUPERIORITY||||||=|0.6315||||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect. Oral responses.|ANCOVA|||||||=0.6315
92355330|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.409||95.0||||P-value is for HbA1c \<7% at 8 weeks.|Chi-squared|||||||0.409
92355331|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||P-value is for HbA1c ≤ 6.5% at 8 weeks.|Chi-squared|||||||0.090
92355332|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.319||95.0||||P-value is for HbA1c \<7% at 12 weeks.|Chi-squared|||||||0.319
92355333|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||P-value is for HbA1c ≤6.5% at 12 weeks.|Chi-squared|||||||0.463
92355334|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.128||95.0||||P-value is for HbA1c \<7% at 16 weeks.|Chi-squared|||||||0.128
92355335|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.261||95.0||||P-value is for HbA1c ≤6.5% at 16 weeks.|Chi-squared|||||||0.261
92355336|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.218||95.0||||P-value is for HbA1c \<7% at 20 weeks.|Chi-squared|||||||0.218
92355337|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value is for HbA1c ≤6.5% at 20 weeks.|Chi-squared|||||||0.092
92355338|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||P-value is for HbA1c \<7%% at 24 weeks.|Chi-squared|||||||0.186
92355339|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||P-value is for HbA1c ≤6.5% at 24 weeks.|Chi-squared|||||||0.174
92355340|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||P-value is for HbA1c \<7% at Endpoint, up to 24 weeks.|Chi-squared|||||||0.340
92355341|NCT01421459|184616433|SUPERIORITY_OR_OTHER|||||||0.293||95.0||||P-value is for HbA1c ≤6.5% at Endpoint, up to 24 weeks.|Chi-squared|||||||0.293
92355342|NCT01421459|184616434|SUPERIORITY_OR_OTHER|||||||0.594||95.0||||P-value is for Total Hypoglycemic with BG ≤70 mg/dL events.|Chi-squared|||||||0.594
92355343|NCT01421459|184616434|SUPERIORITY_OR_OTHER|||||||0.462||95.0||||P-value is for Nocturnal Hypoglycemic with BG ≤70 mg/dL events.|Chi-squared|||||||0.462
92355344|NCT01421459|184616435|SUPERIORITY_OR_OTHER|||||||0.995||95.0||||P-value is for Total Hypoglycemia with BG ≤70 mg/dL events.|Wilcoxon (Mann-Whitney)|||||||0.995
92355345|NCT01421459|184616435|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||P-value is for Nocturnal Hypoglycemia with BG ≤70 mg/dL events.|Wilcoxon (Mann-Whitney)|||||||0.686
92355346|NCT01421459|184616436|SUPERIORITY_OR_OTHER|||||||0.285||95.0||||P-value is for Baseline.|Chi-squared|||||||0.285
92355347|NCT01421459|184616436|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-value is for 4 weeks.|Chi-squared|||||||0.047
92401276|NCT04267380|184693914|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|||||||0.86
92355348|NCT01421459|184616436|SUPERIORITY_OR_OTHER|||||||0.882||95.0||||P-value is for 12 weeks.|Chi-squared|||||||0.882
92355349|NCT01421459|184616436|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||P-value is for 24 weeks.|Chi-squared|||||||0.179
92355350|NCT01421459|184616436|SUPERIORITY_OR_OTHER|||||||0.314||95.0||||P-value is for Endpoint, up to 24 weeks.|Chi-squared|||||||0.314
92355351|NCT01421459|184616436|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||P-value is for Baseline to 24 weeks (Overall).|Chi-squared|||||||0.100
92401277|NCT04267380|184693915|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||||||0.78
92401278|NCT04267380|184693916|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||||||0.99
92401279|NCT04267380|184693917|SUPERIORITY|||||||0.11|||||||Chi-squared|||||||0.11
92401280|NCT04267380|184693918|SUPERIORITY|||||||0.63|||||||Chi-squared|||||||0.63
92355352|NCT01421459|184616437|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||P-value is for 4 weeks.|Chi-squared|||||||0.176
92355353|NCT01421459|184616437|SUPERIORITY_OR_OTHER|||||||0.999||95.0||||P-value is for 12 weeks.|Chi-squared|||||||0.999
92355354|NCT01421459|184616437|SUPERIORITY_OR_OTHER|||||||0.618||95.0||||P-value is for 24 weeks.|Chi-squared|||||||0.618
92355355|NCT01421459|184616437|SUPERIORITY_OR_OTHER|||||||0.874||95.0||||P-value is for Endpoint (LOCF).|Chi-squared|||||||0.874
92355356|NCT01421459|184616437|SUPERIORITY_OR_OTHER||||||>|0.233||95.0||||P-value is for Overall (Baseline to 24 weeks).|Chi-squared|||||||>0.233
92401281|NCT04267380|184693919|SUPERIORITY|||||||0.25|||||||Chi-squared|||||||0.25
92162023|NCT01651949|184213566|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|-0.3|0.7|||Miettinen & Nurminen|||Anti-HPV Type 16||0.7|-0.3|<0.001
92162024|NCT01651949|184213566|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|-0.4|0.8|||Miettinen & Nurminen|||Anti-HPV Type 18||0.8|-0.4|<0.001
92162025|NCT01651949|184213566|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.0|||<|0.001|TWO_SIDED|95.0|-0.4|0.5|||Miettinen & Nurminen|||Anti-HPV Type 31||0.5|-0.4|<0.001
92162026|NCT01651949|184213566|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|-0.3|0.7|||Miettinen & Nurminen|||Anti-HPV Type 33||0.7|-0.3|<0.001
92162027|NCT01651949|184213566|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.2|||<|0.001|TWO_SIDED|95.0|-0.4|1.0|||Miettinen & Nurminen|||Anti-HPV Type 45||1.0|-0.4|<0.001
92162028|NCT01651949|184213566|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.2|||<|0.001|TWO_SIDED|95.0|-0.2|0.9|||Miettinen & Nurminen|||Anti-HPV Type 52||0.9|-0.2|<0.001
92162029|NCT01651949|184213566|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.2|||<|0.001|TWO_SIDED|95.0|-0.2|0.9|||Miettinen & Nurminen|||Anti-HPV Type 58||0.9|-0.2|<0.001
92162030|NCT02155829|184213573|SUPERIORITY|||||||0.442|||||||ANCOVA|ANCOVA covariate included site.||||||0.442
92355357|NCT02899754|184616438|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Primary outcome assessed at 1 month post-intervention||||0.18
92355358|NCT02899754|184616440|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92355359|NCT02899754|184616441|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92355360|NCT02899754|184616442|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92355361|NCT02899754|184616443|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|||||||0.22
92355362|NCT02899754|184616444|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||||||0.18
92355363|NCT02899754|184616445|SUPERIORITY|||||||0.01|||||||Chi-squared|||chi-square test||||0.01
92355364|NCT02899754|184616446|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||0.64
92355365|NCT02592655|184616490|SUPERIORITY_OR_OTHER|||||||0.002||||||Significance thresh hold: 0.05.|McNemar|||"Null hypothesis is that one windlass tourniquet is just as likely to occlude arterial flow as the 10 cm wide tourniquet tape.~Participant count of 18 to accommodate for missing windlass tourniquet ultrasound data."||||0.002
92355366|NCT02592655|184616490|SUPERIORITY_OR_OTHER|||||||0.008||||||Significance thresh hold: 0.05.|McNemar|||"Null hypothesis is that one windlass tourniquet is just as likely to occlude arterial flow as two windlass tourniquets.~Participant count of 18 to accommodate for missing windlass tourniquet ultrasound data."||||0.008
92355367|NCT02592655|184616490|SUPERIORITY_OR_OTHER|||||||0.5||||||Significance thresh hold: 0.05.|McNemar|||"Null hypothesis is that the 10 cm wide tourniquet tape is just as likely to occlude arterial flow as using two windlass tourniquets.~Participant count of 18 to accommodate for missing windlass tourniquet ultrasound data."||||0.5
92355368|NCT02592655|184616490|SUPERIORITY_OR_OTHER|||||||0.5||||||Significance thresh hold: 0.05.|McNemar|||"Null hypothesis is that using the pneumatic tourniquet is just as likely to occlude arterial flow as using two windlass tourniquets.~Participant count of 17 to accommodate for missing ultrasound data."||||0.5
92355369|NCT02628145|184616492|OTHER||Mean Difference (Final Values)|-0.01||||0.91|TWO_SIDED||||||Mixed Models Analysis|||||||0.91
92355370|NCT02628145|184616493|SUPERIORITY|||||||0.88|||||||Chi-squared|||||||0.88
92405670|NCT02148874|184701510|SUPERIORITY||Odds Ratio (OR)|0.74||||0.25|TWO_SIDED|95.0|0.44|1.24|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain B/Brisbane||1.24|0.44|0.25
92162031|NCT02155829|184213574|SUPERIORITY|||||||0.994|||||||ANCOVA|ANCOVA covariate included site.||||||0.994
92162032|NCT02155829|184213575|SUPERIORITY|||||||0.684|||||||ANCOVA|ANCOVA covariate included site.||||||0.684
92162033|NCT02155829|184213576|SUPERIORITY|||||||0.913|||||||ANCOVA|ANCOVA covariate included site.||||||0.913
92162034|NCT02155829|184213577|SUPERIORITY|||||||0.746|||||||ANCOVA|ANCOVA covariate included site.||||||0.746
92355371|NCT02628145|184616494|SUPERIORITY|||||||0.068|||||||Fisher Exact|||||||0.068
92355372|NCT02628145|184616495|SUPERIORITY|||||||0.48|||||||Mixed Models Analysis|||||||0.48
92355373|NCT02628145|184616496|SUPERIORITY|||||||0.52|||||||Mixed Models Analysis|||||||0.52
92355374|NCT02628145|184616497|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92355375|NCT02628145|184616498|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92355376|NCT02628145|184616499|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92355377|NCT02628145|184616500|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92220681|NCT01324232|184341850|SUPERIORITY||Adjusted mean difference|2.37|STANDARD_ERROR_OF_MEAN|2.772|||TWO_SIDED|95.0|-3.19|7.93||||||||7.93|-3.19|
92355378|NCT02628145|184616502|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||0.04
92355379|NCT03000166|184616510|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|||||||0.22
92355380|NCT03000166|184616511|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||0.40
92355381|NCT03000166|184616512|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||||||0.17
92355382|NCT03000166|184616513|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
92355383|NCT02757963|184616525|OTHER||Proportion|0.883|||||TWO_SIDED|95.0|0.849|0.912|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|||0.912|0.849|
92355384|NCT02757963|184616526|OTHER||Proportion|0.877|||||TWO_SIDED|95.0|0.846|0.904|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8||0.904|0.846|
92355385|NCT02757963|184616526|OTHER||Proportion|0.889|||||TWO_SIDED|95.0|0.854|0.917|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8 and BPE/BPO \>=3||0.917|0.854|
92355386|NCT02757963|184616526|OTHER||Proportion|0.873|||||TWO_SIDED|95.0|0.843|0.9|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8 or BPE/BPO \>=3||0.900|0.843|
92355387|NCT02757963|184616527|OTHER||Proportion|0.9|||||TWO_SIDED|95.0|0.87|0.926|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8||0.926|0.870|
92355388|NCT02757963|184616527|OTHER||Proportion|0.907|||||TWO_SIDED|95.0|0.873|0.934|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm BPE/BPO \>=3||0.934|0.873|
92355389|NCT02757963|184616527|OTHER||Proportion|0.907|||||TWO_SIDED|95.0|0.873|0.935|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8 and BPE/BPO \>=3||0.935|0.873|
92355390|NCT02757963|184616527|OTHER||Proportion|0.9|||||TWO_SIDED|95.0|0.87|0.925|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm PSS \>=8 or BPE/BPO \>=3||0.925|0.870|
92355391|NCT02757963|184616528|OTHER||Proportion|0.362|||||TWO_SIDED|95.0|0.337|0.386|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8||0.386|0.337|
92355392|NCT02757963|184616528|OTHER||Proportion|0.368|||||TWO_SIDED|95.0|0.341|0.395|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm BPE/BPO \>=3||0.395|0.341|
92355393|NCT02757963|184616528|OTHER||Proportion|0.377|||||TWO_SIDED|95.0|0.349|0.406|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8 and BPE/BPO \>=3||0.406|0.349|
92355394|NCT02757963|184616528|OTHER||Proportion|0.355|||||TWO_SIDED|95.0|0.332|0.379|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8 or BPE/BPO \>=3||0.379|0.332|
92355395|NCT02757963|184616529|OTHER||Kappa statistic|0.55|||||TWO_SIDED|95.0|0.51|0.58||||||||0.58|0.51|
92355396|NCT05259722|184616575|SUPERIORITY||Mean Difference (Net)|-16.1|||<|0.001|TWO_SIDED|95.0|-23.28|-8.86|||ANCOVA|||The change from baseline was analysed using an ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed with WOCF. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||-8.86|-23.28|<0.001
92355397|NCT05259722|184616576|SUPERIORITY||Risk Difference (RD)|12.6|||=|0.003|TWO_SIDED|95.0|4.34|20.78|||Cochran-Mantel-Haenszel|||The difference in response rates was analysed using the Cochran-Mantel-Haenszel test stratified by hyperkeratotic/non-hyperkeratotic subtype. Missing data was imputed as non-response. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||20.78|4.34|=0.003
92355398|NCT05259722|184616577|SUPERIORITY||Risk Difference (RD)|10.6|||=|0.004|TWO_SIDED|95.0|3.31|17.87|||Cochran-Mantel-Haenszel|||The difference in response rates was analysed using the Cochran-Mantel-Haenszel test stratified by hyperkeratotic/non-hyperkeratotic subtype. Missing data was imputed as non-response. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||17.87|3.31|=0.004
92220682|NCT01324232|184341850|SUPERIORITY||Adjusted mean difference|1.31|STANDARD_ERROR_OF_MEAN|2.562|||TWO_SIDED|95.0|-3.83|6.45||||||||6.45|-3.83|
92355399|NCT05259722|184616578|SUPERIORITY||Mean Difference (Net)|-0.7|||=|0.005|TWO_SIDED|95.0|-1.12|-0.2|||ANCOVA|||The change from baseline was analysed using an ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed with WOCF. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||-0.20|-1.12|=0.005
92355400|NCT05259722|184616579|SUPERIORITY||Mean Difference (Net)|-0.6|||=|0.018|TWO_SIDED|95.0|-1.08|-0.1|||ANCOVA|||The change from baseline was analysed using an ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed with WOCF. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||-0.10|-1.08|=0.018
92355401|NCT05259722|184616580|SUPERIORITY||Mean Difference (Net)|14.3|||<|0.001|TWO_SIDED|95.0|5.81|22.86|||ANCOVA|||The AUC was analysed using a robust ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed as non-response. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||22.86|5.81|<0.001
92355402|NCT05259722|184616581|SUPERIORITY||Mean Difference (Net)|334.0|||<|0.001|TWO_SIDED|95.0|195.69|472.26|||ANCOVA|||The AUC was analysed using a robust ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed with WOCF. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||472.26|195.69|<0.001
92162035|NCT02155829|184213578|SUPERIORITY|||||||0.057|||||||ANCOVA|ANCOVA covariate included site.||||||0.057
92162036|NCT02155829|184213579|SUPERIORITY|||||||0.0496|||||||ANCOVA|ANCOVA covariate included site.||||||0.0496
92355403|NCT05259722|184616582|SUPERIORITY||Mean Difference (Net)|-24.5|||<|0.001|TWO_SIDED|95.0|-32.55|-16.36|||ANCOVA|||The change from baseline was analysed using an ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed with WOCF. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||-16.36|-32.55|<0.001
92355404|NCT01887600|184616586|SUPERIORITY||Odds Ratio (OR)|34.74|||<|0.001|TWO_SIDED|95.0|20.48|58.93|||Cochran-Mantel-Haenszel||Please note Odds Ratio and CI are shown in percentages.|The Cochran-Mantel-Haenszel (CMH) test was adjusted by region, history of of cardiovascular, cerebrovascular or thromboembolic (CV) disease, baseline Hb and baseline estimated glomerular filtration rate (eGFR). Superiority of roxadustat versus placebo was to be declared if the lower bound of the two-sided 95% confidence interval of the CMH odds ratio was higher than 1.||58.93|20.48|<0.001
92355405|NCT01887600|184616587|SUPERIORITY||Least squares mean difference|1.692|||<|0.001||95.0|1.52|1.86|||ANCOVA|||The Analysis of Covariance (ANCOVA) with Multiple Imputations (MI) model, adjusting for covariates was used for the analysis. The model included treatment as fixed factor, region and history of CV disease as class factors and baseline Hb, baseline eGFR as continuous covariates. Superiority of roxadustat versus placebo was considered successful if the lower bound of the two-sided 95% confidence interval of the difference between treatment arms (roxadustat minus placebo) was higher than 0.||1.86|1.52|<0.001
92355406|NCT01887600|184616588|SUPERIORITY||Least squares mean difference|1.599|||<|0.001|TWO_SIDED|95.0|1.41|1.78||LSM Difference p-value is for test of differences. Tested using a fixed sequence testing procedure to maintain the overall two-sided type I error rate at 0.05.|Mixed Models Analysis|||The model includes treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit interaction as continuous covariates.||1.78|1.41|<0.001
92355407|NCT01887600|184616589|SUPERIORITY|Superiority of roxadustat versus placebo was considered successful if the upper bound of the two-sided 95% confidence interval of the difference between treatment arms (roxadustat minus placebo) is below 0.|Least squares mean difference|-0.701|||<|0.001||95.0|-0.83|-0.57||LSM Difference p-value is for test of differences. Tested using a fixed sequence testing procedure to maintain the overall two-sided type I error rate at 0.05.|Mixed Models Analysis|||A Mixed Model of Repeated Measures has been applied up to week 28. The results were based on the estimated difference between the two treatment arms and overall mean effects during the period (weeks 12 to 28). The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb, baseline eGFR and baseline LDL as continuous variables.||-0.57|-0.83|<0.001
92355408|NCT01887600|184616590|SUPERIORITY||Hazard Ratio (HR)|0.238|||<|0.001|TWO_SIDED|95.0|0.17|0.33||Tested using a fixed sequence testing procedure to maintain the overall two-sided type I error rate at 0.05.|Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority is declared if the upper bound of the 95% CI is below 1.0.||0.33|0.17|<0.001
92355409|NCT01887600|184616591|SUPERIORITY||Least squares mean difference|1.127|||=|0.093|TWO_SIDED|95.0|-0.19|2.44||LSM Difference p-value is for test of differences.Tested using a fixed sequence testing procedure to maintain the overall two-sided type I error rate at 0.05.|Mixed Models Analysis|||A Mixed Model of Repeated Measures has been applied using the visits up to week 28. The results were based on the estimated difference between the two treatment arms and overall mean effects throughout the evaluation period (weeks 12 to 28). The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline SF-36 VT, baseline Hb and baseline eGFR as continuous variables.||2.44|-0.19|=0.093
92355410|NCT01887600|184616592|SUPERIORITY||Least squares mean difference|0.713|||=|0.27|TWO_SIDED|95.0|-0.56|1.98||LSM Difference p-value is for test of differences. Tested using a fixed sequence testing procedure to maintain the overall two-sided type I error rate at 0.05.|Mixed Models Analysis|||A Mixed Model of Repeated Measures has been applied using the visits up to week 28. The results were based on the estimated difference between the two treatment arms and overall mean effects throughout the evaluation period (weeks 12 to 28). The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline SF-36 PF, baseline Hb and baseline eGFR as continuous variables.||1.98|-0.56|=0.27
92162037|NCT00678795|184213581|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.11||||0.569|TWO_SIDED|95.0|-0.47|0.26|||ANCOVA|||The primary endpoint, the change in the number of incontinence episodes per day, was compared between treatment groups using analysis of covariance (ANCOVA). The model included treatment and centre as factors and baseline number of incontinence episodes per day as a covariate.||0.26|-0.47|0.569
92276466|NCT00931385|184454728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.087|0.207|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.207|0.087|<0.0001
92162038|NCT00678795|184213582|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.76||||0.071|TWO_SIDED|95.0|-1.58|0.07|||ANCOVA|||The change in the number of urgency episodes per day was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline number of urgency episodes per day as a covariate.||0.07|-1.58|0.071
92162039|NCT00678795|184213583|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.28||||0.01|TWO_SIDED|95.0|-0.5|-0.07|||ANCOVA|||The change in the number of nocturia episodes per day was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline number of nocturia episodes per day as a covariate.||-0.07|-0.50|0.010
92162040|NCT00678795|184213584|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.08||||0.74|TWO_SIDED|95.0|-0.57|0.41|||ANCOVA|||The change in the number of incontinence pads used per day was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline number of number of incontinence pads used per day as a covariate.||0.41|-0.57|0.74
92355411|NCT01887600|184616593|NON_INFERIORITY|Non-inferiority can be concluded if the upper bound of the two-sided 95% CI of the difference between roxadustat and placebo (roxadustat minus placebo) is below 2 mmHg.|Least squares mean difference|0.842|||=|0.182|TWO_SIDED|95.0|-0.4|2.08||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Mixed Model of Repeated Measures was applied using the visits up to week 28. The results were based on the estimated difference between the two treatment arms with overall mean effects throughout the evaluation period (weeks 20 to 28). The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline MAP, baseline Hb, baseline eGFR as continuous covariates.||2.08|-0.40|=0.182
92355412|NCT01887600|184616594|NON_INFERIORITY|Non-inferiority is declared if the upper bound of the 95% CI is below 1.3 (hazard ratio).|Hazard Ratio (HR)|1.29|||=|0.334|TWO_SIDED|95.0|0.77|2.16|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||2.16|0.77|=0.334
92355413|NCT01887600|184616595|SUPERIORITY||Least squares mean difference|0.59|||=|0.316|TWO_SIDED|95.0|-0.57|1.75|||Mixed Models Analysis|||Annualized eGFR slope over time was estimated by a random slopes and intercepts model using all available eGFR values adjusted on baseline Hb, region, CV history at Baseline and the interaction terms.||1.75|-0.57|=0.316
92355414|NCT01887600|184616596|SUPERIORITY||Least squares mean difference|1.638|||<|0.001|TWO_SIDED|95.0|1.44|1.84||LSM Difference p-value is for test of differences|Mixed Models Analysis|||Average Level of Hb Over Weeks 28 to 36. A Mixed Model of Repeated Measures was applied using the visits over weeks 28 to 36. The results were based on the estimated difference between the two treatment arms by visit based on this MMRM model. The model included treatment arm, region, CV History, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.84|1.44|<0.001
92355415|NCT01887600|184616597|SUPERIORITY||Least squares mean difference|1.604|||<|0.001|TWO_SIDED|95.0|1.39|1.82||LSM difference p-value is for test of differences.|Mixed Models Analysis|||Average Level of Hb Over Weeks 44 to 52. A Mixed Model of Repeated Measures was applied using the visits over weeks 44 to 52. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.82|1.39|<0.001
92355416|NCT01887600|184616598|SUPERIORITY||Least squares mean difference|1.492|||<|0.001|TWO_SIDED|95.0|1.14|1.85||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Average Level of Hb Over Weeks 96 to 104. A Mixed Model of Repeated Measures was applied using the visits over weeks 96 to 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.85|1.14|<0.001
92355417|NCT01887600|184616599|SUPERIORITY||Hazard Ratio (HR)|19.001|||<|0.001|TWO_SIDED|95.0|11.98|30.15|||Regression, Cox|||Time to Achieve the First Hb Response. Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||30.15|11.98|<0.001
92355418|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|0.396|||<|0.001|TWO_SIDED|95.0|0.29|0.5||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 1. A Mixed Model of Repeated Measures was applied using the visits up to week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||0.50|0.29|<0.001
92355419|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|0.938|||<|0.001|TWO_SIDED|95.0|0.81|1.07||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 2. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.07|0.81|<0.001
92355420|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.471|||<|0.001|TWO_SIDED|95.0|1.3|1.64||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 4. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.64|1.30|<0.001
92355421|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.827|||<|0.001|TWO_SIDED|95.0|1.64|2.02||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 6. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.02|1.64|<0.001
92355422|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|2.058|||<|0.001|TWO_SIDED|95.0|1.87|2.25||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 8. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.25|1.87|<0.001
92401282|NCT00784563|184693947|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Because all treatment arms were designed to deliver a similar average aerobic intensity, we planned to pool a priori all completers from the Continuous and Interval Training Arms for analysis.|Regression, Linear|||Sample size was estimated using 80% power to detect an effect size of 0.66 SD in VO2max (estimated improvement=10% /estimated SD of change=15%) within each arm at alpha=0.05 and an attrition rate of 25%.||||<0.001
92401283|NCT00784563|184693948|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
92401284|NCT00784563|184693949|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Regression, Linear|||||||0.029
92401285|NCT00784563|184693950|SUPERIORITY_OR_OTHER|||||||0.271|TWO_SIDED||||||Regression, Linear|||||||0.271
92162041|NCT00678795|184213585|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|3.9||||0.166|TWO_SIDED|95.0|-1.65|9.46|||ANCOVA|||The change from baseline in the I-QOL score at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline I-QOL score as a covariate.||9.46|-1.65|0.166
92162042|NCT00678795|184213586|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.16||||0.001|TWO_SIDED|95.0|-1.82|-0.51|||ANCOVA|||The change from baseline in the overall bladder condition Numerical Rating Scale score at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline overall bladder condition Numerical Rating Scale score as a covariate.||-0.51|-1.82|0.001
92162043|NCT00678795|184213587|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|25.4||||0.002|TWO_SIDED|95.0|10.37|40.42|||Fisher Exact|||For Patient Global Impression of Change, the proportions of subjects who considered their condition 'Very Much Improved', 'Much Improved' or 'Minimally Improved' were compared between treatment groups using Fisher's Exact Test.||40.42|10.37|0.002
92355423|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.949|||<|0.001|TWO_SIDED|95.0|1.75|2.14||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 10. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.14|1.75|<0.001
92355424|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|2.09|||<|0.001|TWO_SIDED|95.0|1.9|2.28||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 12. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit.The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.28|1.90|<0.001
92355425|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|2.051|||<|0.001|TWO_SIDED|95.0|1.86|2.24||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 14. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.24|1.86|<0.001
92355426|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.987|||<|0.001|TWO_SIDED|95.0|1.79|2.19||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 16. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.19|1.79|<0.001
92355427|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.841|||<|0.001|TWO_SIDED|95.0|1.64|2.05||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 18. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.05|1.64|<0.001
92355428|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.824|||<|0.001|TWO_SIDED|95.0|1.61|2.04||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 20. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.04|1.61|<0.001
92355429|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.651|||<|0.001|TWO_SIDED|95.0|1.43|1.87||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 22. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit.The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.87|1.43|<0.001
92355430|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.447|||<|0.001|TWO_SIDED|95.0|1.23|1.67||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 24. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.67|1.23|<0.001
92401286|NCT00784563|184693951|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||unadjusted p-value=0.009|Regression, Linear|||||||0.070
92401287|NCT00784563|184693952|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
92401288|NCT00784563|184693953|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Regression, Linear|||||||0.006
92401289|NCT00784563|184693954|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Regression, Linear|||||||0.002
92401290|NCT00784563|184693955|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Regression, Linear|Adjusted for change in total daily equivalent levodopa dose||||||0.003
92401291|NCT00784563|184693956|SUPERIORITY_OR_OTHER||||||=|0.146|TWO_SIDED||||||t-test, 2 sided|||||||=0.146
92401292|NCT00784563|184693957|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Regression, Linear|||||||0.037
92401293|NCT00784563|184693958|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.057
92162044|NCT00678795|184213588|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.85||||0.007|TWO_SIDED|95.0|-1.47|-0.23|||ANCOVA|||The change in the number of voids per day was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline number of voids per day as a covariate.||-0.23|-1.47|0.007
92162045|NCT01585038|184213589|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.54||||0.3|TWO_SIDED|95.0|-1.56|2.64|||t-test, 1 sided|||||2.64|-1.56|0.30
92355431|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.561|||<|0.001|TWO_SIDED|95.0|1.34|1.78||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 28. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.78|1.34|<0.001
92355432|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.587|||<|0.001|TWO_SIDED|95.0|1.37|1.81||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change From BL to week 32. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.81|1.37|<0.001
92355433|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.69|||<|0.001|TWO_SIDED|95.0|1.46|1.92||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb Change from BL to week 36. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit.The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.92|1.46|<0.001
92355434|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.645|||<|0.001|TWO_SIDED|95.0|1.41|1.88||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 40. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.88|1.41|<0.001
92355435|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.699|||<|0.001|TWO_SIDED|95.0|1.45|1.94||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 44. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.94|1.45|<0.001
92355436|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.446|||<|0.001|TWO_SIDED|95.0|1.2|1.69||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change From BL to week 48. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.69|1.20|<0.001
92355437|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.641|||<|0.001|TWO_SIDED|95.0|1.39|1.89||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 52. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit.The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.89|1.39|<0.001
92355438|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.64|||<|0.001|TWO_SIDED|95.0|1.37|1.91||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 56. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit.The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.91|1.37|<0.001
92355439|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.634|||<|0.001|TWO_SIDED|95.0|1.33|1.94||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 60. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.94|1.33|<0.001
92355440|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.404|||<|0.001|TWO_SIDED|95.0|1.08|1.73||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 64. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.73|1.08|<0.001
92355441|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.499|||<|0.001|TWO_SIDED|95.0|1.18|1.82||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change From BL to week 68. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.82|1.18|<0.001
92355442|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.438|||<|0.001|TWO_SIDED|95.0|1.1|1.78||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 72. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.78|1.10|<0.001
92355443|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.185|||<|0.001|TWO_SIDED|95.0|0.83|1.54||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 76. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.54|0.83|<0.001
92355444|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.443|||<|0.001|TWO_SIDED|95.0|1.11|1.78||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 80. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.78|1.11|<0.001
92355445|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.374|||<|0.001|TWO_SIDED|95.0|0.99|1.75||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 84. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.75|0.99|<0.001
92355446|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.171|||<|0.001|TWO_SIDED|95.0|0.79|1.55||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 88. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.55|0.79|<0.001
92355447|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.382|||<|0.001|TWO_SIDED|95.0|0.98|1.78||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 92. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.78|0.98|<0.001
92355448|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.563|||<|0.001|TWO_SIDED|95.0|1.15|1.97||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 96. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.97|1.15|<0.001
92355449|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.448|||<|0.001|TWO_SIDED|95.0|1.06|1.83||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 100. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.83|1.06|<0.001
92355450|NCT01887600|184616600|SUPERIORITY||Least squares mean difference|1.347|||<|0.001|TWO_SIDED|95.0|0.9|1.79||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 104. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.79|0.90|<0.001
92162046|NCT01585038|184213590|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.21||||0.35|TWO_SIDED|95.0|-4.71|2.3|||t-test, 2 sided|||||2.30|-4.71|0.35
92162047|NCT01585038|184213591|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.7||||0.41|TWO_SIDED|95.0|-62.49|75.89|||t-test, 2 sided|||||75.89|-62.49|0.41
92162048|NCT01585038|184213592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-194.1||||0.02|TWO_SIDED|95.0|-353.7|-34.6|||t-test, 2 sided|||||-34.6|-353.7|0.02
92162049|NCT00843193|184213615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.1955|TWO_SIDED|95.0|-0.27|0.06|||ANCOVA|||Comparison between GSK679586 10 mg/kg and Placebo at Week 2||0.06|-0.27|0.1955
92162050|NCT00843193|184213615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0193|TWO_SIDED|95.0|-0.34|-0.03|||Mixed Model Repeated Measures analysis|||Comparison between GSK679586 10 mg/kg and Placebo at Week 4||-0.03|-0.34|0.0193
92162051|NCT00843193|184213615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.6156|TWO_SIDED|95.0|-0.23|0.14|||Mixed Model Repeated Measures analysis|||Comparison between GSK679586 10 mg/kg and Placebo at Week 8||0.14|-0.23|0.6156
92162052|NCT00843193|184213615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.4672|TWO_SIDED|95.0|-0.31|0.14|||ANCOVA|||Comparison between GSK679586 120 mg/kg and Placebo at Week 12||0.14|-0.31|0.4672
92162053|NCT00843193|184213618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.7693|TWO_SIDED|95.0|-0.08|0.06|||ANCOVA|||Comparison between GSK679586 10 mg/kg and Placebo at Week 2||0.06|-0.08|0.7693
92162054|NCT00843193|184213618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.8987|TWO_SIDED|95.0|-0.08|0.09|||Mixed Model Repeated Measures analysis|||Comparison between GSK679586 10 mg/kg and Placebo at Week 4||0.09|-0.08|0.8987
92162055|NCT00843193|184213618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.4231|TWO_SIDED|95.0|-0.12|0.05|||Mixed Model Repeated Measures analysis|||Comparison between GSK679586 10 mg/kg and Placebo at Week 8||0.05|-0.12|0.4231
92162056|NCT00843193|184213618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.0537|TWO_SIDED|95.0|-0.19|0.0|||Mixed Model Repeated Measures analysis|||Comparison between GSK679586 10 mg/kg and Placebo at Week 12||0.00|-0.19|0.0537
92162057|NCT00835380|184213667|SUPERIORITY_OR_OTHER||Seroconversion Rate|99.0||||||95.0|89.0|99.0||||||||99|89|
92162058|NCT03727854|184213669|SUPERIORITY|||||||0.933|||||||t-test, 2 sided|||||||0.933
92162059|NCT03727854|184213670|SUPERIORITY|||||||0.971|||||||t-test, 2 sided|||||||0.971
92162060|NCT03727854|184213671|SUPERIORITY|||||||0.608|||||||t-test, 2 sided|||||||0.608
92162061|NCT03727854|184213672|SUPERIORITY|||||||0.617|||||||t-test, 2 sided|||||||0.617
92162062|NCT03727854|184213673|SUPERIORITY|||||||0.823|||||||t-test, 2 sided|||||||0.823
92162063|NCT03727854|184213674|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||||||0.740
92162064|NCT03727854|184213675|SUPERIORITY|||||||0.551|||||||t-test, 2 sided|||||||0.551
92162065|NCT03727854|184213676|SUPERIORITY|||||||0.652|||||||t-test, 2 sided|||||||0.652
92162066|NCT03727854|184213677|SUPERIORITY|||||||0.639|||||||t-test, 2 sided|||||||0.639
92162067|NCT04341298|184213687|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
92162068|NCT04341298|184213688|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
92220683|NCT01324232|184341850|SUPERIORITY||Adjusted mean difference|1.46|STANDARD_ERROR_OF_MEAN|2.728|||TWO_SIDED|95.0|-4.01|6.94||||||||6.94|-4.01|
92355451|NCT01887600|184616601|SUPERIORITY||Least squares mean difference|1.614|||<|0.001|TWO_SIDED|95.0|1.42|1.81||LSM difference p-value is for test of differences.|Mixed Models Analysis|||Change from baseline to average Hb weeks 28-36. A Mixed Model of Repeated Measures was applied using the visits up to week 36. The results were based on the estimated difference between the two treatment arms overall mean effect during week 28 to 36 period based on this MMRM model. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.81|1.42|<0.001
92355452|NCT01887600|184616602|SUPERIORITY||Least squares mean difference|1.594|||<|0.001|TWO_SIDED|95.0|1.38|1.81||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Change from baseline to average Hb weeks 44-52. A Mixed Model of Repeated Measures was applied using the visits up to week 52. The results were based on the estimated difference between the two treatment arms overall mean effect during week 44 to 52 period based on this MMRM model. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.81|1.38|<0.001
92355453|NCT01887600|184616603|SUPERIORITY||Least squares mean difference|1.452|||<|0.001|TWO_SIDED|95.0|1.1|1.8||LSM difference p-value is for test of differences.|Mixed Models Analysis|||Change from BL to average Hb weeks 96-104. A Mixed Model of Repeated Measures was applied using the visits up to week 104. The results were based on the estimated difference between the two treatment arms overall mean effect during week 96 to 104 period based on this MMRM model. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.80|1.10|<0.001
92355454|NCT01887600|184616607|SUPERIORITY||Hazard Ratio (HR)|0.945|||=|0.643|TWO_SIDED|95.0|0.74|1.2|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.20|0.74|=0.643
92355455|NCT01887600|184616609|SUPERIORITY||Hazard Ratio (HR)|0.139|||<|0.001|TWO_SIDED|95.0|0.08|0.23|||Regression, Cox|||Time to start rescue therapy within first 24 weeks. Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||0.23|0.08|<0.001
92355456|NCT01887600|184616610|SUPERIORITY||Cox Proportional Hazard|0.343|||<|0.001|TWO_SIDED|95.0|0.21|0.55|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||0.55|0.21|<0.001
92355457|NCT01887600|184616611|SUPERIORITY||Least squares mean difference|-0.045|||=|0.128|TWO_SIDED|95.0|-0.1|0.01|||ANCOVA|||The Analysis of Covariance (ANCOVA) model was applied including treatment as fixed factor, region and history of CV disease as class factors and baseline Hb, baseline eGFR as continuous covariates.||0.01|-0.10|=0.128
92355458|NCT01887600|184616612|SUPERIORITY||Least squares mean difference|-10.429|||=|0.183|TWO_SIDED|95.0|-25.81|4.95|||ANCOVA|||The Analysis of Covariance (ANCOVA) model was applied included treatment arm, region, CV history as categorical variables and baseline Hb and baseline eGFR as continuous variables.||4.95|-25.81|=0.183
92355459|NCT01887600|184616613|SUPERIORITY||Hazard Ratio (HR)|0.101|||<|0.001|TWO_SIDED|95.0|0.06|0.17|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||0.17|0.06|<0.001
92355460|NCT01887600|184616614|SUPERIORITY||Hazard Ratio (HR)|0.538|||=|0.045|TWO_SIDED|95.0|0.29|0.99|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||0.99|0.29|=0.045
92355461|NCT01887600|184616623|SUPERIORITY||Least squares mean difference|0.374|||=|0.475|TWO_SIDED|95.0|-0.65|1.4||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||The Mixed Model of Repeated Measures included treatment, visit (week 8, week 12 and week 28), visit by treatment interaction, region and history of CV disease as fixed class factors and baseline SF-36 PCS, baseline Hb, baseline eGFR as continuous covariates.||1.40|-0.65|=0.475
92355462|NCT01887600|184616624|SUPERIORITY||Least squares mean difference|1.704|||=|0.047|TWO_SIDED|95.0|0.02|3.38||LSM difference p-value is for test of differences|Mixed Models Analysis|||A Mixed Model of Repeated Measures was applied using the visits up to week 28. The model includes treatment, visit (week 8, week 12 and week 28), visit by treatment interaction, region and history of CV disease as fixed class factors and baseline FACT-An Ans, baseline Hb, baseline eGFR as continuous covariates. Baseline FACT-An Ans is defined as the FACT-An Ans value on day 1.||3.38|0.02|=0.047
92355463|NCT01887600|184616625|SUPERIORITY||Least squares mean difference|2.086|||=|0.225|TWO_SIDED|95.0|-1.29|5.46|||Mixed Models Analysis|||A Mixed Model of Repeated Measures was applied using the visits up to week 28. The results were based on the estimated difference between the two treatment arms overall mean effect during week 12 to 28 period based on this MMRM model.The model includes treatment, visit (week8, week12 and week28), visit by treatment interaction, region and history of CV disease as fixed class factors and baseline FACT-An Total Score, baseline Hb, baseline eGFR as continuous covariates.||5.46|-1.29|=0.225
92355464|NCT01887600|184616636|SUPERIORITY||Hazard Ratio (HR)|0.995|||=|0.973|TWO_SIDED|95.0|0.75|1.32|||Regression, Cox|||Time to doubling of serum Creatinine. Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.32|0.75|=0.973
92355465|NCT01887600|184616637|SUPERIORITY||Hazard Ratio (HR)|0.995|||=|0.972|TWO_SIDED|95.0|0.76|1.3|||Regression, Cox|||Time to CKD progression. Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.30|0.76|=0.972
92355466|NCT01887600|184616638|SUPERIORITY||Hazard Ratio (HR)|0.905|||=|0.439|TWO_SIDED|95.0|0.7|1.16|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.16|0.70|=0.439
92355467|NCT03688139|184616640|SUPERIORITY||difference in slopes|0.23||||0.08|TWO_SIDED||||||Mixed Models Analysis|||||||.08
92162069|NCT04341298|184213689|SUPERIORITY|||||||0.66|||||||Mantel Haenszel|Subjects were stratified based on baseline pain score (6-7 vs. 8-10) prior to analysis using Cochran-Mantel-Haenszel test||Each subject was stratified by baseline pain score for the first severe headache that they experienced (score of 6-7 vs. 8-10). The total number of subjects, and the number of subjects with a pain score of 3 or less after 2 hours, were tabulated within each stratum. A Cochran-Mantel-Haenszel test was conducted to test the hypothesis of lack of association between the proportion of subjects reporting mild or no symptoms after 2 hours and the type of device, across all strata.||||0.66
92162070|NCT04341298|184213690|SUPERIORITY|||||||0.59|||||||Mantel Haenszel|Subjects were stratified based on baseline pain score (6-7 vs. 8-10) prior to analysis using Cochran-Mantel-Haenszel test||Each subject was stratified by baseline pain score for the first severe headache that they experienced (score of 6-7 vs. 8-10). The total number of subjects, and the number of subjects requiring abortive medication within 8 hours were tabulated within each stratum. A Cochran-Mantel-Haenszel test was conducted to test the hypothesis of lack of association between the proportion of subjects requiring abortive medication within 8 hours and the type of device, across all strata.||||0.59
92162071|NCT04341298|184213691|SUPERIORITY|||||||0.19|||||||Mantel Haenszel|Subjects were stratified based on baseline pain score (6-7 vs. 8-10) prior to analysis using Cochran-Mantel-Haenszel test||Each subject was stratified by baseline pain score for the first severe headache that they experienced (score of 6-7 vs. 8-10). The total number of subjects, and the number of subjects experiencing light sensitivity after 2 hours, were tabulated within each stratum. A Cochran-Mantel-Haenszel test was conducted to test the hypothesis of lack of association between the proportion of subjects reporting light sensitivity after 2 hours and the type of device, across all strata.||||0.19
92162072|NCT04341298|184213692|SUPERIORITY|||||||1|||||||Mantel Haenszel|Subjects were stratified based on baseline pain score (6-7 vs. 8-10) prior to analysis using Cochran-Mantel-Haenszel test||Each subject was stratified by baseline pain score for the first severe headache that they experienced (score of 6-7 vs. 8-10). The total number of subjects, and the number of subjects experiencing light sensitivity after 4 hours, were tabulated within each stratum. A Cochran-Mantel-Haenszel test was conducted to test the hypothesis of lack of association between the proportion of subjects reporting light sensitivity after 4 hours and the type of device, across all strata.||||1.0
92162073|NCT04341298|184213693|SUPERIORITY|||||||0.021|||||||Mixed Models Analysis|Pain score difference after 2 hours modeled as a function of study arm, baseline pain score and headache medication use.||Null hypothesis is that 2 hour difference in pain score is equivalent between study arms, after adjusting for baseline pain score and headache medication use.||||0.021
92355468|NCT03688139|184616640|OTHER|This analysis tested whether the course of LPP was associated with the course of BADS over the 9-week treatment period in the Engage group.|Slope|0.03||||0.14|TWO_SIDED||||||Mixed Models Analysis|||||||.14
92355469|NCT03688139|184616641|SUPERIORITY||difference in slopes|-0.06||||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||.69
92220684|NCT01324232|184341850|SUPERIORITY||||||=|0.1485|TWO_SIDED|||||P-value presented tests the hypothesis for overall treatment effect versus no treatment effect. Written responses.|ANCOVA|||||||=0.1485
92355470|NCT03688139|184616642|SUPERIORITY||difference in slopes|-0.03||||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||.69
92355471|NCT03688139|184616643|SUPERIORITY||difference in slopes|-0.45||||0.39|TWO_SIDED||||||Mixed Models Analysis|||||||.39
92355472|NCT03688139|184616644|OTHER|This analysis tested the hypothesis that change in LPP for each assessment interval would predict severity of anhedonia at the next assessment in Engage but not in Supportive Therapy.|difference in slopes|-0.1||||0.58|TWO_SIDED||||||Mixed Models Analysis|||||||.58
92355473|NCT03688139|184616644|OTHER|This analysis tested the hypothesis that change in SHAPS for each assessment interval would predict severity of anhedonia at the next assessment in Engage but not in Supportive Therapy.|difference in slopes|0.0||||0.96|TWO_SIDED||||||Mixed Models Analysis|||||||.96
92355474|NCT00498485|184616661|SUPERIORITY_OR_OTHER||||||<|0.04|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis = drug-treated would have a higher global impression of change than placebo treated.||||<0.04
92355475|NCT03072875|184616663|OTHER|Descriptive statistic.|||||||||||||||||Quantitative data (descriptive statistic) from the USAQ were used to determine feasibility. Specifically, we established an a priori mean score of 3.5 or greater on the USAQ to determine feasibility.|||
92355476|NCT00452400|184616674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.027||0.0233||95.0|0.008|0.113|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.113|0.008|0.0233
92355477|NCT00452400|184616674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.027||0.0003||95.0|0.044|0.149|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.149|0.044|0.0003
92355478|NCT00452400|184616674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.072|0.175|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.175|0.072|<0.0001
92355479|NCT00452400|184616674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.08|0.185|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.185|0.080|<0.0001
92355480|NCT00452400|184616675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.025||0.0004||95.0|0.039|0.137|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.137|0.039|0.0004
92355481|NCT00452400|184616675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.088|0.186|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.186|0.088|<0.0001
92355482|NCT00452400|184616675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.08|0.176|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.176|0.080|<0.0001
92355483|NCT00452400|184616675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.12|0.218|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.218|0.120|<0.0001
92355484|NCT00452400|184616676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.026||0.0011||95.0|0.034|0.136|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.136|0.034|0.0011
92355485|NCT00452400|184616676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.07|0.173|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.173|0.070|<0.0001
92355486|NCT00452400|184616676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.075|0.175|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.175|0.075|<0.0001
92355487|NCT00452400|184616676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.077|0.179|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.179|0.077|<0.0001
92355488|NCT00452400|184616677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.044||0.0127||95.0|0.024|0.197|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.197|0.024|0.0127
92355489|NCT00452400|184616677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001||95.0|0.087|0.261|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.261|0.087|<0.0001
92355490|NCT00452400|184616677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.043||0.0001||95.0|0.084|0.255|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.255|0.084|0.0001
92355491|NCT00452400|184616677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.044||0.0001||95.0|0.084|0.258|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.258|0.084|0.0001
92355492|NCT00452400|184616678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.052||0.0836||95.0|-0.012|0.192|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.192|-0.012|0.0836
92355493|NCT00452400|184616678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.052||0.0011||95.0|0.068|0.274|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.274|0.068|0.0011
92355494|NCT00452400|184616678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.051||0.0037||95.0|0.049|0.25|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.250|0.049|0.0037
92355495|NCT00452400|184616678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.052||0.0047||95.0|0.046|0.251|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.251|0.046|0.0047
92355496|NCT00452400|184616679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.051||0.0695||95.0|-0.008|0.195|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.195|-0.008|0.0695
92355497|NCT00452400|184616679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.052||0.0018||95.0|0.061|0.264|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.264|0.061|0.0018
92355498|NCT00452400|184616679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.051||0.0008||95.0|0.072|0.272|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.272|0.072|0.0008
92355499|NCT00452400|184616679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.052||0.0006||95.0|0.077|0.281|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.281|0.077|0.0006
92355500|NCT00452400|184616680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.078|0.204|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.204|0.078|<0.0001
92355501|NCT00452400|184616680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.099|0.225|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.225|0.099|<0.0001
92162074|NCT04341298|184213694|SUPERIORITY|||||||0.019|||||||Mixed Models Analysis|Pain score difference after 4 hours modeled as a function of study arm, baseline pain score and headache medication use.||Null hypothesis is that 4 hour difference in pain score is equivalent between study arms, after adjusting for baseline pain score and headache medication use.||||0.019
92162075|NCT04341298|184213695|SUPERIORITY|Null hypothesis is that proportion of headaches with light sensitivity experienced after 2 hours is equivalent between study arms, after adjusting for baseline pain score and headache medication use.||||||0.028|||||||Mixed Models Analysis|Proportion of headaches with light sensitivity after 2 hours modeled as a function of study arm, baseline pain score and headache medication use.||||||0.028
92220685|NCT01324232|184341850|SUPERIORITY||Mean difference (final values)|1.77|STANDARD_ERROR_OF_MEAN|1.558|||TWO_SIDED|95.0|-1.31|4.85||||||||4.85|-1.31|
92355502|NCT00452400|184616680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.151|0.275|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.275|0.151|<0.0001
92220686|NCT01324232|184341850|SUPERIORITY||Mean difference (final values)|-1.68|STANDARD_ERROR_OF_MEAN|1.605|||TWO_SIDED|95.0|-4.86|1.49||||||||1.49|-4.86|
92220687|NCT01324232|184341850|SUPERIORITY||Mean difference (final values)|-1.65|STANDARD_ERROR_OF_MEAN|1.549|||TWO_SIDED|95.0|-4.71|1.41||||||||1.41|-4.71|
92220688|NCT01324232|184341851|SUPERIORITY||||||=|0.1404|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis is that the true correlation between NRS scores and DM plasma concentration is equal to zero. Only 158 of the 209 participants in the mITT Population were analyzed at Day 22.||||=0.1404
92220689|NCT01324232|184341851|SUPERIORITY||||||=|0.0805|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis that the true correlation between NRS scores and DM plasma concentration is equal to zero. Only 152 of the 209 participants in the mITT Population were analyzed at Day 50.||||=0.0805
92220690|NCT01324232|184341851|SUPERIORITY||||||=|0.0551|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis that the true correlation between NRS scores and DM plasma concentration is equal to zero. Only 185 of the 209 participants in the mITT Population were analyzed at Day 85.||||=0.0551
92220691|NCT01324232|184341852|SUPERIORITY||||||=|0.9207|TWO_SIDED|||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||||||=0.9207
92220692|NCT01265615|184341862|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92355503|NCT00452400|184616680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.151|0.277|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.277|0.151|<0.0001
92355504|NCT00452400|184616681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.097|0.231|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.231|0.097|<0.0001
92355505|NCT00452400|184616681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.102|0.237|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.237|0.102|<0.0001
92355506|NCT00452400|184616681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.152|0.284|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.284|0.152|<0.0001
92355507|NCT00452400|184616681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.225|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.157|0.292|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.292|0.157|<0.0001
92220693|NCT01265615|184341863|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92220694|NCT01265615|184341864|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92355508|NCT00452400|184616682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.15|0.373|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.373|0.150|<0.0001
92355509|NCT00452400|184616682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.283|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.171|0.395|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.395|0.171|<0.0001
92355510|NCT00452400|184616682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.311|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|0.201|0.421|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.421|0.201|<0.0001
92220695|NCT01265615|184341865|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92355511|NCT00452400|184616682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.304|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.192|0.416|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.416|0.192|<0.0001
92355512|NCT00452400|184616683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.288|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.167|0.409|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.409|0.167|<0.0001
92220696|NCT01265615|184341866|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92355513|NCT00452400|184616683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001||95.0|0.159|0.401|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.401|0.159|<0.0001
92220697|NCT01265615|184341867|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92276467|NCT00931385|184454728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.112|0.231|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.231|0.112|<0.0001
92220698|NCT01265615|184341868|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92220699|NCT01265615|184341869|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92220700|NCT01265615|184341870|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92220701|NCT01265615|184341871|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92220702|NCT01471015|184341873|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.006
92220703|NCT01471015|184341874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.003
92220704|NCT01732796|184341875|SUPERIORITY_OR_OTHER||Adjusted response rate|81.4|||<|0.0001|TWO_SIDED|95.0|76.6|86.2|||Stratified one sample z-test||Adjusted response rate will tested against 71%. It is calculated as a weighted average (non-cirrhotic: 89% times response rate+ cirrhotic: 11% times response rate), 11% is the highest rate of cirrhotic from historical trials with approved DAA+PegIFN|The proportion of patients achieving SVR12 was compared to an acceptable minimum SVR rate achieved with an approved direct acting anti-viral (DAA) in combination with pegylated interferon-alfa (PegIFN) from historical data. The acceptable minimum SVR rate was 71% (reference for PegIFN-eligible).||86.2|76.6|<0.0001
92355514|NCT00452400|184616683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.297|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.178|0.416|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.416|0.178|<0.0001
92355515|NCT00452400|184616683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.286|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001||95.0|0.164|0.407|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.407|0.164|<0.0001
92355516|NCT00452400|184616684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.09|0.176|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.176|0.090|<0.0001
92355517|NCT00452400|184616684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.128|0.215|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.215|0.128|<0.0001
92355518|NCT00452400|184616684|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.162|0.247|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.247|0.162|<0.0001
92355519|NCT00452400|184616684|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.159|0.246|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.246|0.159|<0.0001
92355520|NCT00452400|184616685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.187|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.131|0.243|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.243|0.131|<0.0001
92355521|NCT00452400|184616685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.159|0.271|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.271|0.159|<0.0001
92355522|NCT00452400|184616685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.163|0.273|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.273|0.163|<0.0001
92355523|NCT00452400|184616685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.247|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.191|0.304|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.304|0.191|<0.0001
92355524|NCT00452400|184616686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.1|0.219|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.219|0.100|<0.0001
92162076|NCT04341298|184213696|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|Proportion of headaches with light sensitivity after 4 hours modeled as a function of study arm, baseline pain score and headache medication use.||Null hypothesis is that proportion of headaches with light sensitivity experienced after 4 hours is equivalent between study arms, after adjusting for baseline pain score and headache medication use.||||0.46
92162077|NCT04487080|184213697|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0002|TWO_SIDED|95.0|0.58|0.85|||Log Rank||HR and its 95% CI was estimated based on a stratified Cox's regression model with treatment as the sole explanatory variable.|||0.85|0.58|0.0002
92162078|NCT00309452|184213733|SUPERIORITY_OR_OTHER|||||||0.018|||||||Chi-squared, Corrected|||Between groups comparison for hospitalization rates, adjusted for pretreatment hospitalization||||0.018
92162079|NCT00309452|184213737|SUPERIORITY_OR_OTHER|||||||0.002|||||||Chi-squared, Corrected|||Between groups comparison for vocational engagement, adjusted for pretreatment vocational engagement||||0.002
92355525|NCT00452400|184616686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.194|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.134|0.253|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.253|0.134|<0.0001
92355526|NCT00452400|184616686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.144|0.262|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.262|0.144|<0.0001
92355527|NCT00452400|184616686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.145|0.264|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.264|0.145|<0.0001
92355528|NCT00452400|184616687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.101|0.209|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.209|0.101|<0.0001
92355529|NCT00452400|184616687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.131|0.239|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.239|0.131|<0.0001
92355530|NCT00452400|184616687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.231|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.178|0.284|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.284|0.178|<0.0001
92355531|NCT00452400|184616687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.231|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.177|0.286|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.286|0.177|<0.0001
92220705|NCT01732796|184341875|SUPERIORITY_OR_OTHER||Adjusted response rate|71.7||||0.3989|TWO_SIDED|95.0|66.1|77.4|||Stratified one sample z-test||Adjusted response rate will tested against 71%. It is calculated as a weighted average (non-cirrhotic: 89% times response rate+ cirrhotic: 11% times response rate), 11% is the highest rate of cirrhotic from historical trials with approved DAA+PegIFN|The proportion of patients achieving SVR12 was compared to an acceptable minimum SVR rate achieved with an approved direct acting anti-viral (DAA) in combination with pegylated interferon-alfa (PegIFN) from historical data. The acceptable minimum SVR rate was 71% (reference for PegIFN-eligible).||77.4|66.1|0.3989
92220706|NCT01732796|184341876|SUPERIORITY_OR_OTHER||Koch's method with continuity correction|10.8||||0.004|TWO_SIDED|95.0|2.8|18.8|||z-test|based on two sample z-test with continuity correction for variance.||||18.8|2.8|0.0040
92220707|NCT01732796|184341877|SUPERIORITY_OR_OTHER||Koch's method with continuity correction|6.0||||0.0575|TWO_SIDED|95.0|-1.5|13.5|||z-test|based on two sample z-test with continuity correction for variance.||Category: Percentage of patient with response||13.5|-1.5|0.0575
92220708|NCT01732796|184341878|SUPERIORITY_OR_OTHER||Koch's method with continuity correction|9.9||||0.0089|TWO_SIDED|95.0|1.7|18.1|||z-test|based on two sample z-test with continuity correction for variance.||Category: Percentage of patient with response||18.1|1.7|0.0089
92355532|NCT00452400|184616688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.202|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.14|0.264|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.264|0.140|<0.0001
92355533|NCT00452400|184616688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.231|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.169|0.294|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.294|0.169|<0.0001
92355534|NCT00452400|184616688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.233|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.172|0.295|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.295|0.172|<0.0001
92355535|NCT00452400|184616688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.259|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.197|0.322|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.322|0.197|<0.0001
92355536|NCT00452400|184616689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.101|0.228|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.228|0.101|<0.0001
92355537|NCT00452400|184616689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.189|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.125|0.252|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.252|0.125|<0.0001
92355538|NCT00452400|184616689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.14|0.266|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.266|0.140|<0.0001
92355539|NCT00452400|184616689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.137|0.265|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.265|0.137|<0.0001
92355540|NCT00452400|184616690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.039||0.2392||95.0|-0.03|0.121|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.121|-0.030|0.2392
92355541|NCT00452400|184616690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.038||0.0001||95.0|0.072|0.222|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.222|0.072|0.0001
92355542|NCT00452400|184616690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.099|0.253|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.253|0.099|<0.0001
92401294|NCT00395746|184694013|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.27|||<|0.0001||95.0|-1.51|1.02||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and HbA1C at baseline as a covariate. Two null hypotheses were statistically tested:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively. When the test of comparison between 0.9 mg+SU and SU mono was significant, the test of comparison between 0.6 mg+SU and SU mono was performed."||1.02|-1.51|<0.0001
92401295|NCT00395746|184694013|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.0|||<|0.0001||95.0|-1.24|-0.75|||ANOVA|A significance level of a two-sided 5% was used for statistical hypothesis testing.||"ANOVA model included treatment group and pre-trial SU as fixed effects and HbA1C at baseline as a covariate. Two null hypotheses were statistically tested:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively. When the test of comparison between 0.9 mg+SU and SU mono was significant, the test of comparison between 0.6 mg+SU and SU mono was performed."||-0.75|-1.24|<0.0001
92401296|NCT00395746|184694014|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.33||||||95.0|-1.62|-1.04|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-1.04|-1.62|
92401297|NCT00395746|184694014|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.96||||||95.0|-1.25|-0.67|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-0.67|-1.25|
92276468|NCT00931385|184454728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.191|0.311|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.311|0.191|<0.0001
92355543|NCT00452400|184616690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.039||0.0001||95.0|0.076|0.228|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.228|0.076|0.0001
92355544|NCT00452400|184616691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.039||0.0309||95.0|0.008|0.162|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.162|0.008|0.0309
92355545|NCT00452400|184616691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.098|0.25|||ANCOVA||Olo 2 mcg qd minus Placebo|||0.250|0.098|<0.0001
92355546|NCT00452400|184616691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.04||0.0002||95.0|0.072|0.228|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.228|0.072|0.0002
92355547|NCT00452400|184616691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.039||0.0006||95.0|0.059|0.214|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.214|0.059|0.0006
92355548|NCT00452400|184616692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.043||0.215||95.0|-0.031|0.137|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.137|-0.031|0.2150
92355549|NCT00452400|184616692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.042||0.0024||95.0|0.046|0.212|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.212|0.046|0.0024
92401298|NCT00395746|184694015|SUPERIORITY_OR_OTHER||Least Squares Mean|-32.4|||<|0.0001||95.0|-40.5|-24.2||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%: H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively.||-24.2|-40.5|<0.0001
92162080|NCT02962674|184213746|SUPERIORITY|||||||0.004|||||||t-test, 1 sided|||"The null and alternative hypotheses associated with this objective was written as:~H0: μ ΔIPSS ≤ 6.5 points HA: μ ΔIPSS \> 6.5 points where μ ΔIPSS was the true underlying value of mean ΔIPSS following a treatment at the 3-month follow-up visit and 6.5 points was an objective performance goal (OPG). The objective was met at a given time point by rejecting the null hypothesis in a one-sided t-test at the 5% significance level."||||0.004
92162081|NCT00771667|184213760|SUPERIORITY_OR_OTHER|||||||0.005||||||A fixed sequence testing procedure was employed to control the type I error rate at 0.05 level for the primary endpoint, beginning with the highest dose.|Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.005
92162082|NCT00771667|184213760|SUPERIORITY_OR_OTHER|||||||0.057||||||A fixed sequence testing procedure was employed to control the type I error rate at 0.05 level for the primary endpoint, beginning with the highest dose.|Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.057
92162083|NCT00771667|184213760|SUPERIORITY_OR_OTHER|||||||0.021||||||A fixed sequence testing procedure was employed to control the type I error rate at 0.05 level for the primary endpoint, beginning with the highest dose.|Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.021
92162084|NCT00771667|184213761|SUPERIORITY_OR_OTHER|||||||0.682|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.682
92162085|NCT00771667|184213761|SUPERIORITY_OR_OTHER|||||||0.206|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.206
92162086|NCT00771667|184213761|SUPERIORITY_OR_OTHER|||||||0.196|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.196
92162087|NCT00771667|184213762|SUPERIORITY_OR_OTHER|||||||0.008|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.008
92162088|NCT00771667|184213762|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||<0.001
92162089|NCT00771667|184213762|SUPERIORITY_OR_OTHER|||||||0.035|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.035
92162090|NCT00771667|184213763|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||<0.001
92355550|NCT00452400|184616692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.043||0.023||95.0|0.014|0.184|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.184|0.014|0.0230
92355551|NCT00452400|184616692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.043||0.0333||95.0|0.007|0.177|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.177|0.007|0.0333
92355552|NCT00452400|184616693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.043||0.2158||95.0|-0.031|0.137|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.137|-0.031|0.2158
92355553|NCT00452400|184616693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.042||0.0024||95.0|0.046|0.212|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.212|0.046|0.0024
92355554|NCT00452400|184616693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.043||0.0013||95.0|0.055|0.225|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.225|0.055|0.0013
92162091|NCT00771667|184213763|SUPERIORITY_OR_OTHER|||||||0.007|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.007
92355555|NCT00452400|184616693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.043||0.0376||95.0|0.005|0.174|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.174|0.005|0.0376
92355556|NCT00452400|184616694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.705|STANDARD_ERROR_OF_MEAN|5.916||0.0211|TWO_SIDED|95.0|2.07|25.34|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||25.340|2.070|0.0211
92355557|NCT00452400|184616694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.285|STANDARD_ERROR_OF_MEAN|5.951||0.0004|TWO_SIDED|95.0|9.581|32.99|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||32.990|9.581|0.0004
92355558|NCT00452400|184616694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.077|STANDARD_ERROR_OF_MEAN|5.832|<|0.0001|TWO_SIDED|95.0|26.607|49.546|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||49.546|26.607|<.0001
92355559|NCT00452400|184616694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.063|STANDARD_ERROR_OF_MEAN|5.99||0.0001|TWO_SIDED|95.0|11.282|34.845|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||34.845|11.282|0.0001
92355560|NCT00452400|184616695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.446|STANDARD_ERROR_OF_MEAN|6.283||0.0973|TWO_SIDED|95.0|-1.911|22.803|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||22.803|-1.911|0.0973
92355561|NCT00452400|184616695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.333|STANDARD_ERROR_OF_MEAN|6.36||0.0005|TWO_SIDED|95.0|9.824|34.842|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||34.842|9.824|0.0005
92355562|NCT00452400|184616695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.232|STANDARD_ERROR_OF_MEAN|6.192|<|0.0001|TWO_SIDED|95.0|26.054|50.409|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||50.409|26.054|<.0001
92355563|NCT00452400|184616695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.408|STANDARD_ERROR_OF_MEAN|6.403|<|0.0001|TWO_SIDED|95.0|12.814|38.002|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||38.002|12.814|<.0001
92355564|NCT00452400|184616696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.364||0.1541|TWO_SIDED|95.0|-1.237|0.196|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.196|-1.237|0.1541
92405671|NCT00705016|184701511|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.885|TWO_SIDED|95.0|0.67|1.59||The Type I error was not taken into account, since the sample size calculation is based on selection theory.|Cox proportional hazards model|Stratification factor: Karnofsky performance status (KPS) \<80/\>=80||Sample size of 177 subjects was estimated such that the treatment group with the best PFS result had a 90% probability of emerging as the one with the smaller observed log Hazard ratio (HR), if there was an underlying difference of 2.2 months between the arms in the median PFS (7.8 months in the best group and 5.6 months in the other 2 groups). It was assumed that the accrual and follow-up time would take 1 year each, and that the drop-out rate was 8%.||1.59|0.67|0.885
92162092|NCT00771667|184213763|SUPERIORITY_OR_OTHER|||||||0.006|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.006
92355565|NCT00452400|184616696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.367||0.7065|TWO_SIDED|95.0|-0.583|0.859|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.859|-0.583|0.7065
92355566|NCT00452400|184616696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.964|STANDARD_ERROR_OF_MEAN|0.359||0.0076|TWO_SIDED|95.0|-1.671|-0.258|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||-0.258|-1.671|0.0076
92355567|NCT00452400|184616696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.414|STANDARD_ERROR_OF_MEAN|0.369||0.2626|TWO_SIDED|95.0|-1.138|0.311|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.311|-1.138|0.2626
92355568|NCT00907088|184616707|SUPERIORITY_OR_OTHER|||||||0.42|||||||Chi-squared|||||||0.42
92162093|NCT00771667|184213764|SUPERIORITY_OR_OTHER|||||||0.074|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.074
92355569|NCT02474901|184616712|EQUIVALENCE|Looked for statistically-significant difference in numbers of adverse events between the two groups, used a p-value of 0.05 as the cutoff value for significance.|||||<|0.05|||||||Chi-squared, Corrected|Groups were compared with Yates-corrected chi-square test or Fisher exact test for binary or categorical variables.||||||<0.05
92162094|NCT00771667|184213764|SUPERIORITY_OR_OTHER|||||||0.081|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.081
92162095|NCT00771667|184213764|SUPERIORITY_OR_OTHER|||||||0.105|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.105
92162096|NCT00771667|184213765|SUPERIORITY_OR_OTHER|||||||0.029||||||Testing for Week-22 clinical remission was performed if the comparison of 6-mg/kg ustekinumab with placebo was positive for the primary endpoint.|Cochran-Mantel-Haenszel|The CMH test chi-square test, stratified by IV induction dose and clinical remission status at Week 6.||||||0.029
92162097|NCT00771667|184213766|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for induction dose and clinical remission status at Week 6.||||||<0.001
92162098|NCT02814643|184213811|OTHER||Geometric least-square mean ratio|0.87|||||TWO_SIDED|90.0|0.56|1.35|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza A H1N1||1.35|0.56|
92220709|NCT00330382|184341888|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.11|||>|0.45|TWO_SIDED||||||Spearman Rank Correlation|||Correlation of percent change in buccal-cell Neu with relative percent change in total lesion area||||>0.45
92401299|NCT00395746|184694015|SUPERIORITY_OR_OTHER||Least Squares Mean|-26.4|||<|0.0001||95.0|-34.5|-18.2||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%: H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively.||-18.2|-34.5|<0.0001
92401300|NCT00395746|184694016|SUPERIORITY_OR_OTHER||Least Squares Mean|-30.2||||||95.0|-39.6|-20.7|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-20.7|-39.6|
92401301|NCT00395746|184694016|SUPERIORITY_OR_OTHER||Least Squares Mean|-24.4||||||95.0|-33.8|-14.9|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-14.9|-33.8|
92401302|NCT00395746|184694017|SUPERIORITY_OR_OTHER||Least Squares Mean|-150.22|||<|0.0001||95.0|-186.32|-114.12||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||-114.12|-186.32|<0.0001
92401303|NCT00395746|184694017|SUPERIORITY_OR_OTHER||Least Squares Mean|-111.15|||<|0.0001||95.0|-147.61|-74.68||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||-74.68|-147.61|<0.0001
92401304|NCT00395746|184694018|SUPERIORITY_OR_OTHER||Least Squares Mean|-127.57||||||95.0|-166.91|-88.24|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-88.24|-166.91|
92401305|NCT00395746|184694018|SUPERIORITY_OR_OTHER||Least Squares Mean|-68.68||||||95.0|-108.91|-28.45|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-28.45|-108.91|
92401306|NCT00395746|184694019|SUPERIORITY_OR_OTHER||Least Squares Mean|-44.45|||<|0.0001||95.0|-55.02|-33.89||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||-33.89|-55.02|<0.0001
92401307|NCT00395746|184694019|SUPERIORITY_OR_OTHER||Least Squares Mean|-34.3|||<|0.0001||95.0|-45.06|-23.54||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||-23.54|-45.06|<0.0001
92220710|NCT00330382|184341888|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.92|||>|0.88|TWO_SIDED||||||Spearman Rank Correlation|||Correlation of percent change in protease activity with relative percent change in total lesion area||||> 0.88
92220711|NCT00330382|184341888|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.07|||>|0.66|TWO_SIDED||||||Spearman Rank Correlation|||Correlation of percent change in serum Neu with relative percent change in total lesion area||||> 0.66
92220712|NCT02684604|184341889|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92220713|NCT02285777|184341941|OTHER|Pre-specified.|Vaccine Effectiveness|71.0||||0.0001|TWO_SIDED|95.0|69.0|73.0|||Generalized Linear Model|To obtain the VE measure which is a measure based on RR, BINOMIAL DISTRIBUTION \& LOG LINK options were used to compute log10 RR \& corresponding CI.||The Vaccine Effectiveness (VE) at 1 month after the 3-dose vaccination series for each strain is defined as \[1 - (percentage of subjects without bactericidal activity at 1:4 dilution in MenABCWY group/percentage of subjects without bactericidal activity at 1:4 dilution in MenACWY group)\] x 100.The combined VE across all strains was computed by mean of a generalized linear model.||73|69|0.0001
92276469|NCT00931385|184454729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.132|0.241|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.241|0.132|<0.0001
92162099|NCT02814643|184213811|OTHER||Geometric least-square mean ratio|1.19|||||TWO_SIDED|90.0|0.82|1.71|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza A H3N2||1.71|0.82|
92162100|NCT02814643|184213811|OTHER||Geometric least-square mean ratio|0.93|||||TWO_SIDED|90.0|0.67|1.29|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza B Yamagata lineage||1.29|0.67|
92162101|NCT02814643|184213811|OTHER||Geometric least-square mean ratio|0.8|||||TWO_SIDED|90.0|0.54|1.19|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza B Victoria lineage||1.19|0.54|
92355570|NCT03378635|184616715|SUPERIORITY||||||<|0.001|||||||Log Rank|||The treatment group difference between dasiglucagon and placebo was evaluated inferentially using a pairwise two-sided log rank test. Kaplan-Meier estimate with 95% CI, p-value based on treatment group difference between dasiglucagon and placebo using a two-sided log-rank test stratified by injection site. Treatment groups without censoring utilized a distribution free method to compute the confidence interval for median time.||||<0.001
92355571|NCT03378635|184616716|SUPERIORITY||||||<|0.001||||||p-value was \<0.001 at all time points (10, 15, 20 and 30 minutes)|Fisher Exact|||Pairwise test of independent binomial proportions with Fisher's Exact test comparing dasiglucagon versus placebo. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.001
92355572|NCT03378635|184616717|SUPERIORITY||||||<|0.001||||||The p-value was \<0.001 at all time points (10, 15, 20 and 30 minutes)|ANCOVA|||Plasma glucose (PG) change from baseline at rescue was carried forward in patients who required rescue intravenous (IV) glucose before reaching PG recovery. Change from baseline was analyzed using an ANCOVA, with treatment group as fixed effect and baseline PG as covariate. Group difference was evaluated inferentially following an a priori defined hierarchical test order, proceeding until the first failure to reject the null hypothesis.||||<0.001
92355573|NCT03378635|184616718|SUPERIORITY||||||<|0.001|||||||Log Rank|||The treatment group difference between dasiglucagon and placebo was evaluated using a Kaplan-Meier estimate with 95% confidence interval, p-value based on a pairwise two-sided log-rank test versus placebo.||||<0.001
92355574|NCT03378635|184616719|SUPERIORITY||Mean Difference (Net)|0.131|||<|0.001|TWO_SIDED|95.0|0.1|0.171|||ANCOVA|||The log-transformed AUC endpoint was analyzed using an analysis of covariance model with treatment as fixed effect and baseline plasma glucose modeled as a covariate. The least squares means treatment group differences were back-transformed (anti-logged) for presentation as a ratio of the treatment group geometric means, with their corresponding 95% confidence interval.||0.171|0.1|<0.001
92355575|NCT03378635|184616720|SUPERIORITY||Mean Difference (Net)|0.91||||0.144|TWO_SIDED|95.0|0.801|1.033|||ANCOVA|||Least square mean ratio for GlucaGen: dasiglucagon||1.033|0.801|0.144
92355576|NCT03378635|184616721|SUPERIORITY||Mean Difference (Net)|0.844||||0.006|TWO_SIDED|95.0|0.749|0.951|||ANCOVA|||Least square mean ratio for GlucaGen: dasiglucagon||0.951|0.749|0.006
92162102|NCT02814643|184213812|OTHER||Geometric least-square mean ratio|1.0|||||TWO_SIDED|90.0|0.76|1.31|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza A H1N1||1.31|0.76|
92355577|NCT01044693|184616753|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED||||||Mixed Models Analysis|||The main comparisons were between the active treatment groups versus placebo. We hypothesized that if NO-mediated vasodilation contributes to the BP-lowering effect of nebivolol then BP will be lowered by nebivolol and sildenafil, but not by metoprolol in autonomic failure patients.||||0.036
92355578|NCT01044693|184616753|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||The main comparisons were between the active treatment groups versus placebo. We hypothesized that if NO-mediated vasodilation contributes to the BP-lowering effect of nebivolol then BP will be lowered by nebivolol and sildenafil, but not by metoprolol in autonomic failure patients.||||<0.001
92355579|NCT01044693|184616753|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||The main comparisons were between the active treatment groups versus placebo. We hypothesized that if NO-mediated vasodilation contributes to the BP-lowering effect of nebivolol then BP will be lowered by nebivolol and sildenafil, but not by metoprolol in autonomic failure patients.||||>0.05
92401308|NCT00395746|184694020|SUPERIORITY_OR_OTHER||Least Squares Mean|-34.49||||||95.0|-46.77|-22.22|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-22.22|-46.77|
92162103|NCT02814643|184213812|OTHER||Geometric least-square mean ratio|1.28|||||TWO_SIDED|90.0|0.93|1.77|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza A H3N2||1.77|0.93|
92355580|NCT01044693|184616754|SUPERIORITY_OR_OTHER|||||||0.607|TWO_SIDED||||||ANOVA|||The main comparisons were between the active treatment groups versus placebo.||||0.607
92355581|NCT01044693|184616755|SUPERIORITY_OR_OTHER|||||||0.597|TWO_SIDED||||||ANOVA|||The main comparisons were between the active treatment groups versus placebo.||||0.597
92355582|NCT01044693|184616756|SUPERIORITY_OR_OTHER|||||||0.996|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The main comparisons were between the negative chronotropic effect of nebivolol and metoprolol at the time when BP-lowering effects were maximal.||||0.996
92162104|NCT02814643|184213812|OTHER||Geometric least-square mean ratio|1.03||||||90.0|0.79|1.34|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza B Yamagata lineage||1.34|0.79|
92162105|NCT02814643|184213812|OTHER||Geometric least-square mean ratio|1.26||||||90.0|0.93|1.7|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza B Victoria lineage||1.70|0.93|
92162106|NCT00531518|184213823|SUPERIORITY_OR_OTHER|||||||0.0034|TWO_SIDED|||||The final analysis included adjstment for site and baseline sum psychotic symptom score.|Mixed Models Analysis|||The analysis used regression discontinuity methods, in which the baseline sum scores were adjusted and centered to an equalize control and experimental conditions.||||.0034
92162107|NCT00549848|184213856|SUPERIORITY|||||||0.778|||||||Cochran-Mantel-Haenszel|||||||0.778
92276470|NCT00931385|184454729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.145|0.254|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.254|0.145|<0.0001
92355583|NCT01316900|184616764|SUPERIORITY_OR_OTHER||Least squares mean difference|0.09|||<|0.001|TWO_SIDED|95.0|0.039|0.142|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus VI 25 µg.|||0.142|0.039|<0.001
92355584|NCT01316900|184616764|SUPERIORITY_OR_OTHER||Least squares mean difference|0.09|||<|0.001|TWO_SIDED|95.0|0.039|0.141||nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus Tio 18 µg.|||0.141|0.039|<0.001
92355585|NCT01316900|184616764|SUPERIORITY_OR_OTHER||Least squares mean difference|0.088|||<|0.001|TWO_SIDED|95.0|0.036|0.14|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 µg minus VI 25 µg.|||0.140|0.036|<0.001
92355586|NCT01316900|184616764|SUPERIORITY_OR_OTHER||Least squares mean difference|0.088|||<|0.001|TWO_SIDED|95.0|0.036|0.14|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 µg minus TIO 18 µg.|||0.140|0.036|<0.001
92401309|NCT00395746|184694020|SUPERIORITY_OR_OTHER||Least Squares Mean|-46.34||||||95.0|-58.49|-34.18|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-34.18|-58.49|
92162108|NCT00957658|184213871|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 6%|||||<|0.0001|||||||Asymptotic WALD test|||Literature control = 96% with no aseptic loosening, intraop femoral fracture or thigh pain at 2 years||||<.0001
92162109|NCT00957658|184213874|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Improvement from preop to 2 year and preop to 5 year||||<.0001
92276471|NCT00931385|184454729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.227|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.172|0.282|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.282|0.172|<0.0001
92276472|NCT00931385|184454730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.261|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.191|0.33|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.330|0.191|<0.0001
92276473|NCT00931385|184454730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.252|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.183|0.322|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.322|0.183|<0.0001
92276474|NCT00931385|184454730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.232|0.372|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.372|0.232|<0.0001
92276475|NCT00931385|184454731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.087|0.221|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.221|0.087|<0.0001
92355587|NCT03726879|184616773|SUPERIORITY||Odds Ratio (OR)|0.67||||0.1846|TWO_SIDED|95.0|0.37|1.21||The threshold for statistical significance was a p-value =0.048|Cochran-Mantel-Haenszel|||||1.21|0.37|0.1846
92355588|NCT03726879|184616774|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9551|TWO_SIDED|95.0|0.67|1.46||The threshold for statistical significance was a p-value =0.002|Cochran-Mantel-Haenszel|||||1.46|0.67|0.9551
92355589|NCT03726879|184616777|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.5|1.59|||Log Rank|||All Participants||1.59|0.50|
92355590|NCT03726879|184616777|SUPERIORITY||Hazard Ratio (HR)|1.67|||||TWO_SIDED|95.0|0.65|4.32|||Log Rank|||PD-L1 IC1/2/3||4.32|0.65|
92355591|NCT03726879|184616777|SUPERIORITY||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.27|1.22|||Log Rank|||PD-L1 IC0 Participants||1.22|0.27|
92162110|NCT00957658|184213875|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Compare Pre-op SF-12 Physical Score preop to 2 year and preop to 5 year||||<.0001
92162111|NCT00957658|184213875|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in SF-12 Mental Score preop to 2 years||||<.0001
92162112|NCT00957658|184213875|SUPERIORITY_OR_OTHER|||||||0.0004|||||||t-test, 2 sided|||Compare SF-12 Mental Score preop to 5 years||||.0004
92162113|NCT00957658|184213876|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Compare LEAS score preop to 2 years and preop to 5 years||||<.0001
92162114|NCT00957658|184213879|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Compare to historical control (n=94 hips): mean wear 5 years = 0.134 (0.078)||||<.0001
92162115|NCT00957658|184213880|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Sign test|||Compare Wrist DXA T-score preop to 5 years||||.0002
92162116|NCT03383887|184213881|SUPERIORITY||Median Difference (Final Values)|2.7||||0.56|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.56
92276476|NCT00931385|184454731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.086|0.221|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.221|0.086|<0.0001
92276477|NCT00931385|184454731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.115|0.25|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.250|0.115|<0.0001
92276478|NCT02033876|184454733|SUPERIORITY|||||||0.43|||||||ANCOVA|||||||0.43
92276479|NCT02033876|184454734|SUPERIORITY|||||||0.65|||||||ANCOVA|||||||0.65
92276480|NCT02033876|184454736|SUPERIORITY|||||||0.37|||||||ANCOVA|||||||0.37
92276481|NCT02033876|184454737|SUPERIORITY|||||||0.51|||||||ANCOVA|||||||0.51
92276482|NCT02033876|184454738|SUPERIORITY|||||||0.4|||||||ANCOVA|||||||0.4
92276483|NCT02033876|184454739|SUPERIORITY|||||||0.8|||||||ANCOVA|||||||0.8
92276484|NCT02033876|184454740|SUPERIORITY|||||||0.006|||||||ANCOVA|||||||0.006
92355592|NCT03726879|184616777|SUPERIORITY||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.58|2.82|||Log Rank|||ER/PgR Negative Participants||2.82|0.58|
92355593|NCT03726879|184616777|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.24|1.36|||Log Rank|||ER/PgR Positive Participants||1.36|0.24|
92162117|NCT03383887|184213882|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||||||0.027
92162118|NCT00300456|184213883|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect a 24% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
92162119|NCT00300456|184213883|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect 24% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
92355594|NCT03726879|184616778|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.38|1.32|||Log Rank|||All Participants||1.32|0.38|
92355595|NCT03726879|184616778|SUPERIORITY||Hazard Ratio (HR)|1.38|||||TWO_SIDED|95.0|0.51|3.69|||Log Rank|||PD-L1 IC1/2/3||3.69|0.51|
92355596|NCT03726879|184616778|SUPERIORITY||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.19|1.02|||Log Rank|||PD-L1 IC0||1.02|0.19|
92355597|NCT03726879|184616779|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.4|2.0|||Log Rank|||All Participants||2.00|0.40|
92355598|NCT03726879|184616779|SUPERIORITY||Hazard Ratio (HR)|1.75|||||TWO_SIDED|95.0|0.42|7.33|||Log Rank|||PD-L1 IC1/2/3||7.33|0.42|
92162120|NCT00300456|184213884|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide 98% power to detect a 9% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
92162121|NCT00300456|184213884|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide 98% power to detect a 9% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
92162122|NCT00300456|184213885|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect an 11% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
92355599|NCT03726879|184616779|SUPERIORITY||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.21|1.59|||Log Rank|||PD-L1 IC0||1.59|0.21|
92355600|NCT03726879|184616793|SUPERIORITY||Hazard Ratio (HR)|2.38|||||TWO_SIDED|95.0|0.22|26.42|||Regression, Cox|||PIK3CA-Missing||26.42|0.22|
92355601|NCT03726879|184616793|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.23|1.9|||Regression, Cox|||PIK3CA-Mutated||1.90|0.23|
92355602|NCT03726879|184616793|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.45|1.87|||Regression, Cox|||PIK3CA-Wildtype||1.87|0.45|
92355603|NCT03726879|184616794|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.07|18.91|||Regression, Cox|||PIK3CA-Missing||18.91|0.07|
92355604|NCT03726879|184616794|SUPERIORITY||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.19|1.92||||||PIK3CA-Mutated||1.92|0.19|
92355605|NCT03726879|184616794|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.33|1.55|||Regression, Cox|||PIK3CA-Wildtype||1.55|0.33|
92355606|NCT03726879|184616795|SUPERIORITY||Hazard Ratio (HR)|999.99|||||TWO_SIDED|95.0|0.0||Upper limit of the CI was not evaluable due to low number of events||Regression, Cox||The estimated value is \>999.99|PIK3CA-Missing|||0.00|
92355607|NCT03726879|184616795|SUPERIORITY||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.1|3.53|||Regression, Cox|||PIK3CA-Mutated||3.53|0.10|
92355608|NCT03726879|184616795|SUPERIORITY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.33|2.09|||Regression, Cox|||PIK3CA-Wildtype||2.09|0.33|
92355609|NCT02496156|184616796|SUPERIORITY||||||<|0.39||||||This is a computed p-value.|Mixed Models Analysis|||Missing data treatment was done using multiple imputation methods when data were determined to be Missing Completely at Random or Missing at Random. Assumptions underlying each statistical test were evaluated before proceeding with specific analyses.|For each outcome, a linear mixed effects model was fit; with the exception of the Knowledge test where a linear model was fit. Separate models were fit for Parents and adolescents except for HbA1C. The predictor variable is treatment group (SMDM vs. UCP). Covariates are gender, age, social economic status, and family structure as determined by (number of siblings and of caregivers in the home). A random intercept was fit for each subject across the longitudinal data. To accommodate missing values multiple imputation methodology was applied to the data, resulting in five imputed datasets. For each imputed dataset, a linear mixed effects model (or linear model for Knowledge Test) was fit; the resulting five models were pooled into a final model and summary statistics are presented. A two-sided Wald's t test determined significance of covariates. The significance level was 0.05. Appropriate model diagnostics were performed to assess model fit.|||<0.39
92355610|NCT02496156|184616797|SUPERIORITY||||||>|0.05||||||Computed p-value exceeded the .05 level of significance.|Mixed Models Analysis||||For each outcome, a linear mixed effects model was fit; with the exception of the Knowledge test where a linear model was fit. Separate models were fit for Parents and adolescents except for HbA1C. The predictor variable is treatment group (SMDM vs. UCP). Covariates are gender, age, social economic status, and family structure as determined by (number of siblings and of caregivers in the home). A random intercept was fit for each subject across the longitudinal data. To accommodate missing values multiple imputation methodology was applied to the data, resulting in five imputed datasets. For each imputed dataset, a linear mixed effects model (or linear model for Knowledge Test) was fit; the resulting five models were pooled into a final model and summary statistics are presented. A two-sided Wald's t test determined significance of covariates. The significance level was 0.05. Appropriate model diagnostics were performed to assess model fit.|||>0.05
92355611|NCT02496156|184616798|SUPERIORITY||||||>|0.05||||||This is a computed p-value.|Mixed Models Analysis|||See description of analysis below.|For each outcome, a linear mixed effects model was fit; with the exception of the Knowledge test where a linear model was fit. Separate models were fit for Parents and adolescents except for HbA1C. The predictor variable is treatment group (SMDM vs. UCP). Covariates are gender, age, social economic status, and family structure as determined by (number of siblings and of caregivers in the home). A random intercept was fit for each subject across the longitudinal data. To accommodate missing values multiple imputation methodology was applied to the data, resulting in five imputed datasets. For each imputed dataset, a linear mixed effects model (or linear model for Knowledge Test) was fit; the resulting five models were pooled into a final model and summary statistics are presented. A two-sided Wald's t test determined significance of covariates. The significance level was 0.05. Appropriate model diagnostics were performed to assess model fit.|||>0.05
92355612|NCT02496156|184616799|SUPERIORITY||||||>|0.05||||||Computed p-value|ANCOVA|Difference in post-test scores with baseline Knowledge test score as the covariate.||||||>0.05
92355613|NCT02496156|184616801|SUPERIORITY|See analysis description below.|||||>|0.05||||||Computed p-value|ANOVA||||For each outcome, a linear mixed effects model was fit; with the exception of the Knowledge test where a linear model was fit. Separate models were fit for Parents and adolescents except for HbA1C. The predictor variable is treatment group (SMDM vs. UCP). Covariates are gender, age, social economic status, and family structure as determined by (number of siblings and of caregivers in the home). A random intercept was fit for each subject across the longitudinal data. To accommodate missing values multiple imputation methodology was applied to the data, resulting in five imputed datasets. For each imputed dataset, a linear mixed effects model (or linear model for Knowledge Test) was fit; the resulting five models were pooled into a final model and summary statistics are presented. A two-sided Wald's t test determined significance of covariates. The significance level was 0.05. Appropriate model diagnostics were performed to assess model fit.|||>0.05
92355614|NCT00507507|184616802|SUPERIORITY_OR_OTHER|||||||0.016||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||The null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 400 copies/mL at Week 192 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference. The sample size provided at least 85% power to detect a difference of 30% between the groups, assuming response rates of 30% and 60% in the Tenofovir DF and FTC+Tenofovir DF groups, respectively.||||0.016
92162123|NCT00300456|184213885|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect an 11% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
92162124|NCT01806714|184213913|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.3|||<|0.04|TWO_SIDED|95.0|1.0|1.6|||clustered stratified Proportional Hazard||We determined hazard ratios using a clustered stratified Cox model with the Efron method to handle tied events and the Huber/White variance estimator that clustered on primary care provider and stratified on practice.|||1.6|1.0|<0.04
92162125|NCT01120275|184213928|SUPERIORITY_OR_OTHER||6-month PFS|0.09|||||TWO_SIDED|95.0|0.02|0.22||||||6-month progression free survival (PFS) was estimated using the method of Kaplan-Meier and confidence intervals were calculated using the log-log transformation.||0.22|0.02|
92162126|NCT01120275|184213929|SUPERIORITY_OR_OTHER||1-year OS|0.5|||||TWO_SIDED|95.0|0.32|0.66||||||1-year overall survival (OS) was estimated using the method of Kaplan-Meier and confidence intervals were calculated using the log-log transformation.||0.66|0.32|
92162127|NCT04567888|184213952|SUPERIORITY||Slope|-1.41|||<|0.001|TWO_SIDED|95.0|-1.88|-0.95||Threshold for statistical significance set to .050.|Repeated-measures Multilevel Models|||||-0.95|-1.88|<.001
92162128|NCT04567888|184213953|SUPERIORITY||Slope|-0.54|||<|0.001|TWO_SIDED|95.0|-0.78|-0.3||Threshold for statistical significance was set to .050.|Repeated-measures Multilevel Models|||||-0.30|-0.78|< .001
92162129|NCT03028363|184213960|OTHER|||||||0.343|||||||ANCOVA|Ranked ANCOVA, Markov Chain Monte Carlo (MCMC) Multiple Imputation||||||0.3430
92162130|NCT03028363|184213961|OTHER|||||||0.126|||||||ANCOVA|Ranked ANCOVA, Markov Chain Monte Carlo (MCMC) Multiple Imputation||||||0.1260
92162131|NCT03028363|184213962|OTHER|||||||0.5247|||||||Regression, Logistic|Logistic Regression (Firth's Penalized Likelihood), MCMC Multiple Imputation||||||0.5247
92162132|NCT04771273|184213963|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|3.47||||0.001|TWO_SIDED|95.0|1.66|7.25||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||7.25|1.66|0.0010
92162133|NCT04771273|184213963|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|9.52|||<|0.0001|TWO_SIDED|95.0|4.35|20.85||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||20.85|4.35|<0.0001
92162134|NCT04771273|184213963|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|7.07|||<|0.0001|TWO_SIDED|95.0|3.1|16.16||The p-value reported is considered nominal.|Regression, Logistic|||The logistic regression model included actual treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||16.16|3.10|<.0001
92162135|NCT04771273|184213963|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod linear model fit|Linear model fit assumption||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92220714|NCT02285777|184341942|OTHER|Pre-specified.|Vaccine Effectiveness|51.0||||0.0001|TWO_SIDED|95.0|48.0|55.0|||Generalized Linear Model|To obtain the VE measure which is a measure based on RR, BINOMIAL DISTRIBUTION \& LOG LINK options were used to compute log10 RR \& corresponding CI.||The Vaccine Effectiveness (VE) at 4 months after the 3-dose vaccination series for each strain is defined as \[1 - (percentage of subjects without bactericidal activity at 1:4 dilution in MenABCWY group/percentage of subjects without bactericidal activity at 1:4 dilution in MenACWY group)\] x 100. The combined VE across all strains was computed by mean of a generalized linear model.||55|48|0.0001
92355615|NCT00507507|184616803|SUPERIORITY_OR_OTHER|||||||0.05||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 48: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 400 copies/mL at Week 48 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.050
92162136|NCT04771273|184213963|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod exponential-1 model fit|Model assumption: 25% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92220715|NCT02285777|184341943|OTHER|Pre-specified.|Vaccine Effectiveness|51.0||||0.0001|TWO_SIDED|95.0|48.0|54.0|||Generalized Linear Model|To obtain the VE measure which is a measure based on RR, BINOMIAL DISTRIBUTION \& LOG LINK options were used to compute log10 RR \& corresponding CI.||The Vaccine Effectiveness (VE) at 1 month after the 3-dose vaccination series for each strain is defined as \[1 - (percentage of subjects without bactericidal activity at 1:8 dilution in MenABCWY group/percentage of subjects without bactericidal activity at 1:8 dilution in MenACWY group)\] x 100. The combined VE across all strains was computed by mean of a generalized linear model.||54|48|0.0001
92355616|NCT00507507|184616803|SUPERIORITY_OR_OTHER|||||||0.009||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 96: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 400 copies/mL at Week 96 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.009
92355617|NCT00507507|184616803|SUPERIORITY_OR_OTHER|||||||0.03||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 144: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 400 copies/mL at Week 144 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.030
92355618|NCT00507507|184616804|SUPERIORITY_OR_OTHER|||||||0.703||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 48: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 169 copies/mL at Week 48 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.703
92355619|NCT00507507|184616804|SUPERIORITY_OR_OTHER|||||||0.034||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 96: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 169 copies/mL at Week 96 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.034
92355620|NCT00507507|184616804|SUPERIORITY_OR_OTHER|||||||0.011||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 144: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 169 copies/mL at Week 144 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.011
92355621|NCT00507507|184616804|SUPERIORITY_OR_OTHER|||||||0.007||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 192: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 169 copies/mL at Week 192 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.007
92355622|NCT00507507|184616805|SUPERIORITY_OR_OTHER|||||||0.01||||||A Wilcoxon rank-sum (2-sided) test was used, with no adjustments for covariates.|Wilcoxon (Mann-Whitney)|||The null hypothesis was that there was no difference of change in HBV DNA from baseline between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.010
92220716|NCT02285777|184341943|OTHER|Pre-specified.|Vaccine Effectiveness|24.0||||0.0001||95.0|20.0|28.0|||Generalized Linear Model|To obtain the VE measure which is a measure based on RR, BINOMIAL DISTRIBUTION \& LOG LINK options were used to compute log10 RR \& corresponding CI.||The Vaccine Effectiveness (VE) at 4 months after the 3-dose vaccination series for each strain is defined as \[1 - (percentage of subjects without bactericidal activity at 1:8 dilution in MenABCWY group/percentage of subjects without bactericidal activity at 1:8 dilution in MenACWY group)\] x 100. The combined VE across all strains was computed by mean of a generalized linear model.||28|20|0.0001
92220717|NCT00552175|184341965|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.17|-0.56|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|The primary objective and primary efficacy analysis for the study was the analysis between the combined duloxetine arms and placebo.||-0.56|-1.17|<0.0001
92355623|NCT00507507|184616806|SUPERIORITY_OR_OTHER|||||||0.019||||||A Wilcoxon rank-sum (2-sided) test was used, with no adjustments for covariates.|Wilcoxon (Mann-Whitney)|||The null hypothesis was that there was no difference of change in HBV DNA from baseline between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.019
92355624|NCT00507507|184616807|SUPERIORITY_OR_OTHER|||||||0.186||||||A Wilcoxon rank-sum (2-sided) test was used, with no adjustments for covariates.|Wilcoxon (Mann-Whitney)|||The null hypothesis was that there was no difference of change in HBV DNA from baseline between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.186
92162137|NCT04771273|184213963|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.0008|||||||MCP-Mod exponential -2 model fit|Model assumption: 5% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.0008
92355625|NCT00507507|184616808|SUPERIORITY_OR_OTHER|||||||0.07||||||A Wilcoxon rank-sum (2-sided) test was used, with no adjustments for covariates.|Wilcoxon (Mann-Whitney)|||The null hypothesis was that there was no difference of change in HBV DNA from baseline between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.070
92355626|NCT00507507|184616809|SUPERIORITY_OR_OTHER|||||||0.467||||||A Fisher exact test with a 0.05 two-sided significance level was used, with no adjustments for covariates.|Fisher Exact|||Analysis at Week 48: the null hypothesis was that there was no difference in the proportion of subjects with normal ALT at Week 48 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.467
92355627|NCT00507507|184616809|SUPERIORITY_OR_OTHER|||||||1||||||A Fisher exact test with a 0.05 two-sided significance level was used, with no adjustments for covariates.|Fisher Exact|||Analysis at Week 96: the null hypothesis was that there was no difference in the proportion of subjects with normal ALT at Week 96 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||1.000
92355628|NCT00507507|184616809|SUPERIORITY_OR_OTHER|||||||0.529||||||A Fisher exact test with a 0.05 two-sided significance level was used, with no adjustments for covariates.|Fisher Exact|||Analysis at Week 144: the null hypothesis was that there was no difference in the proportion of subjects with normal ALT at Week 144 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.529
92355629|NCT00507507|184616809|SUPERIORITY_OR_OTHER|||||||0.451||||||A Fisher exact test with a 0.05 two-sided significance level was used, with no adjustments for covariates.|Fisher Exact|||Analysis at Week 192: the null hypothesis was that there was no difference in the proportion of subjects with normal ALT at Week 192 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.451
92355630|NCT00507507|184616810|SUPERIORITY_OR_OTHER|||||||0.496||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 96: the null hypothesis was that there was no difference in the proportion of subjects with HBeAg loss between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.496
92355631|NCT00507507|184616810|SUPERIORITY_OR_OTHER|||||||0.119||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 144: the null hypothesis was that there was no difference in the proportion of subjects with HBeAg loss between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.119
92355632|NCT00507507|184616810|SUPERIORITY_OR_OTHER|||||||0.365||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 192: the null hypothesis was that there was no difference in the proportion of subjects with HBeAg loss between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.365
92355633|NCT00507507|184616811|SUPERIORITY_OR_OTHER|||||||0.496||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 96: the null hypothesis was that there was no difference in the proportion of subjects with seroconversion to anti-HBe between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.496
92355634|NCT00507507|184616811|SUPERIORITY_OR_OTHER|||||||0.119||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 144: the null hypothesis was that there was no difference in the proportion of subjects with seroconversion to anti-HBe between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.119
92355635|NCT00507507|184616811|SUPERIORITY_OR_OTHER|||||||0.244||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 192: the null hypothesis was that there was no difference in the proportion of subjects with seroconversion to anti-HBe between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.244
92355636|NCT06844812|184616826|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|paired t-test||||||<0.001
92355637|NCT06844812|184616827|SUPERIORITY|||||||0.021|||||||t-test, 2 sided|paired t-test||||||0.021
92355638|NCT06844812|184616828|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|paired t-test||||||0.003
92355639|NCT06844812|184616829|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92355640|NCT06844812|184616830|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92355641|NCT02006836|184616832|SUPERIORITY_OR_OTHER|||||||0.005|||||||t-test, 1 sided|||H0: GI of pomelo for diabetic patients - GI of pomelo for healthy people = 0 H1: GI of pomelo for diabetic patients - GI of pomelo for healthy people \> 0 α=5%||||0.005
92355642|NCT02006836|184616833|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||"H0：∆g after breakfast- ∆g before breakfast = 0 H1：∆g after breakfast- ∆g before breakfast \> 0 α=5%~* g of breasfast without pomelo=mean of 3 days of postprandial blood glucose after breakfast - mean of 3 days of blood glucose before this breakfast.~* g of breasfast with pomelo=mean of 3 days of postprandial blood glucose after breakfast - mean of 3 days of blood glucose before this breakfast."||||>0.05
92355643|NCT02006836|184616834|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||"H0：∆g after lunch - ∆g before lunch = 0 H1：∆g after lunch - ∆g before lunch \> 0 α=5%~* g of lunch without pomelo=mean of 3 days of postprandial blood glucose after lunch - mean of 3 days of blood glucose before this lunch.~* g of lunch with pomelo=mean of 3 days of postprandial blood glucose after lunch - mean of 3 days of blood glucose before this lunch."||||>0.05
92355644|NCT02006836|184616835|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||"H0：∆g after dinner- ∆g before dinner = 0 H1：∆g after dinner- ∆g before dinner \> 0 α=5%~* g of dinner without pomelo=mean of 3 days of postprandial blood glucose after dinner - mean of 3 days of blood glucose before this dinner.~* g of dinner with pomelo=mean of 3 days of postprandial blood glucose after dinner - mean of 3 days of blood glucose before this dinner."||||>0.05
92355645|NCT02006836|184616836|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||H0: AUC||||>0.05
92355646|NCT02683954|184616838|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality of numerical data distribution was examined by the Shapiro-Wilk. Normally distributed numerical variables were presented as mean±SD and inter-group differences were compared using unpaired t test. Skewed numerical variables were presented as median and interquartile range and between-group differences were compared using Mann-Whitney U test. Ordinal data were compared using the chi-squared test for trend. Correlations among numerical variables were tested by Spearman rank correlation.||||0.05
92355647|NCT02410200|184616839|SUPERIORITY_OR_OTHER|||||||0.009|||||||Wilcoxon Signed Rank test|||||||0.0090
92355648|NCT01644331|184616881|SUPERIORITY_OR_OTHER|||||||0.315|||||||Chi-squared|||||||0.315
92355649|NCT01644331|184616882|SUPERIORITY_OR_OTHER||Slope|0.19||||0.021|TWO_SIDED|95.0|0.03|0.34|||Mixed Models Analysis|||This is a repeated measures analysis so all rows (visits) are taken into account.||0.34|0.03|0.021
92355650|NCT01644331|184616883|SUPERIORITY_OR_OTHER||Slope|0.99||||0.43|TWO_SIDED|95.0|-1.47|3.44|||Mixed Models Analysis|||This a repeated measure analysis so all rows (visits) are taken into account.||3.44|-1.47|0.430
92355651|NCT01644331|184616884|SUPERIORITY_OR_OTHER||Slope|-493.21||||0.157|TWO_SIDED|95.0|-1176.96|190.55|||Mixed Models Analysis|||This is a repeated measures analysis so all rows (visits) are taken into account.||190.55|-1176.96|0.157
92355652|NCT01644331|184616885|SUPERIORITY_OR_OTHER|||||||0.206|||||||Chi-squared|||This is a repeated measures analysis so all rows (visits) are taken into account.||||0.206
92355653|NCT01644331|184616886|SUPERIORITY_OR_OTHER||Kaplan Meier|0.98||||0.334|TWO_SIDED|95.0|0.96|0.99|||Log Rank|||||0.99|0.96|0.334
92355654|NCT01644331|184616887|SUPERIORITY_OR_OTHER|||||||0.148|||||||Chi-squared|||||||0.148
92355655|NCT01644331|184616888|SUPERIORITY_OR_OTHER|||||||0.334|||||||Chi-squared|||||||0.334
92355656|NCT01644331|184616889|SUPERIORITY_OR_OTHER||Slope|-0.67||||0.241|TWO_SIDED|95.0|-1.79|0.45|||Mixed Models Analysis|||This is a repeated measures analysis so all rows (visits) are taken into account.||0.45|-1.79|0.241
92355657|NCT01644331|184616890|SUPERIORITY_OR_OTHER||Slope|0.28||||0.303|TWO_SIDED|95.0|-0.26|0.82|||Mixed Models Analysis|||This is a repeated measures analysis so all rows (visits) are taken into account.||0.82|-0.26|0.303
92355658|NCT01644331|184616891|SUPERIORITY_OR_OTHER|||||||0.471||||||24 hours|Chi-squared|||||||0.471
92355659|NCT01644331|184616891|SUPERIORITY_OR_OTHER|||||||0.585||||||48 hrs|Chi-squared|||||||0.585
92355660|NCT01644331|184616891|SUPERIORITY_OR_OTHER|||||||0.12||||||72 hrs|Chi-squared|||||||0.120
92355661|NCT01644331|184616892|SUPERIORITY_OR_OTHER|||||||0.037|||||||Chi-squared|||||||0.037
92355662|NCT01644331|184616893|SUPERIORITY_OR_OTHER|||||||0.373|||||||Wilcoxon (Mann-Whitney)|||||||0.373
92355663|NCT01644331|184616894|SUPERIORITY_OR_OTHER||Kaplan Meier|0.26||||0.709|TWO_SIDED|95.0|0.21|0.32|||Log Rank|||||0.32|0.21|0.709
92355664|NCT03829514|184616895|OTHER|||||||0.05|||||||t-test, 2 sided|Signal intensity data were loess normalized and normalized data were used to perform a limma t-test with empirical Bayes smoothing to standard errors|||Proteins were identified and quantified using EncyclopeDIA and visualized with Scaffold DIA using 1% false discovery thresholds at both the protein and peptide level. Protein exclusive intensity values were assessed for quality using an in-house ProteiNorm app, a tool for systematic evaluation of normalization methods, imputation of missing values and comparisons of multiple differential abundance methods . Cyclic loess normalization. The normalized data were used to perform statistical analysis using linear models for microarray data (limma) with empirical Bayes (eBayes) smoothing to the standard errors. Proteins with p-value \< 0.05 were considered significant.|||0.05
92162138|NCT04771273|184213963|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax1 model fit|Model assumption: 50% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92355665|NCT01339091|184616896|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority hypothesis test is a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the 95% CI for the difference in response rates in the ITT population is greater than -10% the NI of dalbavancin to vancomycin/linezolid will be concluded.|Difference in Proportions|1.5|||||TWO_SIDED|95.0|-4.6|7.9|||||Confidence intervals were adjusted for fever at baseline|||7.9|-4.6|
92355666|NCT01500135|184616925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62|STANDARD_ERROR_OF_MEAN|0.72||0.276|TWO_SIDED|95.0|0.68|3.88||Logistic regression model with treatment, type of surgery (Peripheral Arterial Disease, Arterio Venous Graft) and current use of Clopidogrel or other similar anti-platelet drugs (yes/no) as covariates.|Regression, Logistic|||||3.88|0.68|0.276
92355667|NCT01500135|184616926|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85|STANDARD_ERROR_OF_MEAN|0.33||0.684|TWO_SIDED|95.0|0.4|1.82||Logistic regression model with treatment, type of surgery (Peripheral Arterial Disease, Arterio Venous Graft) and current use of Clopidogrel or other similar anti-platelet drugs (yes/no) as covariates.|Regression, Logistic|||||1.82|0.40|0.684
92355668|NCT01500135|184616927|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14|STANDARD_ERROR_OF_MEAN|0.24||0.684|TWO_SIDED|95.0|0.7|1.8||P-value was adjusted using Hochberg's adjustment for multiplicity.|Proportional Hazard Model|||||1.8|0.7|0.684
92355669|NCT01362530|184616940|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Cochran-Mantel-Haenszel|Stratified by age group, use of dexamethasone as an anti-emetic, and receipt of very high risk emetogenic chemotherapy.||||||<0.01
92355670|NCT01362530|184616941|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Cochran-Mantel-Haenszel|Stratified by age group, use of dexamethasone as an anti-emetic, and receipt of very high risk emetogenic chemotherapy.||||||<0.05
92162139|NCT04771273|184213963|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax2 model fit|Model assumption: 80% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162140|NCT04771273|184213963|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod quadratic model fit|Model assumption: Maximum effect is achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162141|NCT04771273|184213964|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|5.49|||<|0.0001|TWO_SIDED|95.0|2.46|12.28||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model includes planned treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||12.28|2.46|<.0001
92162142|NCT04771273|184213964|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|10.14|||<|0.0001|TWO_SIDED|95.0|4.49|22.87||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model includes planned treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||22.87|4.49|<.0001
92162143|NCT04771273|184213964|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|4.87||||0.0001|TWO_SIDED|95.0|2.18|10.91||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 6.0 mg vs. Placebo|The logistic regression model includes planned treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||10.91|2.18|0.0001
92162144|NCT04771273|184213964|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.0001|||||||MCPMod linear model fit|linear model fit assumption||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.0001
92162145|NCT04771273|184213964|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.0115|||||||MCPMod exponential-1 model fit|Model assumption: 25% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.0115
92162146|NCT04771273|184213964|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.2204|||||||MCP-Mod exponential-2 model fit|Model assumption: 5% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.2204
92162147|NCT04771273|184213964|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax1 model fit|Model assumption: 50% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162148|NCT04771273|184213964|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax2|Model assumption: 80% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162149|NCT04771273|184213964|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod quadratic model fit|Model assumption: Maximum effect is achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162150|NCT04771273|184213965|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|5.07|||<|0.0001|TWO_SIDED|95.0|2.47|10.4||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||10.40|2.47|<.0001
92220718|NCT00552175|184341967|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.96|||<|0.0001|TWO_SIDED|95.0|-1.27|-0.64||P-value for Worst Pain.|Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.64|-1.27|<0.0001
92220719|NCT00552175|184341967|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.15|-0.51||P-value for Night Pain.|Mixed Models Analysis|Covariates: Baseline value of night pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.51|-1.15|<0.0001
92220720|NCT00552175|184341968|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.87|||||TWO_SIDED|95.0|-1.26|-0.49|||Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Worst Pain analysis||-0.49|-1.26|
92220721|NCT00552175|184341968|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.05|||||TWO_SIDED|95.0|-1.43|-0.66|||Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Worst Pain analysis||-0.66|-1.43|
92220722|NCT00552175|184341968|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.78|||||TWO_SIDED|95.0|-1.17|-0.39|||Mixed Models Analysis|Covariates: Baseline value of night pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Night Pain analysis||-0.39|-1.17|
92220723|NCT00552175|184341968|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.89|||||TWO_SIDED|95.0|-1.28|-0.5|||Mixed Models Analysis|Covariates: Baseline value of night pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Night Pain analysis||-0.5|-1.28|
92220724|NCT00552175|184341969|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.65|||<|0.0001|TWO_SIDED|95.0|-0.85|-0.44|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.44|-0.85|<0.0001
92220725|NCT00552175|184341970|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.65|||||TWO_SIDED|95.0|-0.9|-0.39|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.39|-0.9|
92220726|NCT00552175|184341970|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.65|||||TWO_SIDED|95.0|-0.91|-0.4|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.4|-0.91|
92220727|NCT00552175|184341971|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.34|-0.61||P-value for Worst Pain.|Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.61|-1.34|<0.0001
92220728|NCT00552175|184341971|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.21|-0.48||P-value for Least Pain.|Mixed Models Analysis|Covariates: Baseline value of least pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.48|-1.21|<0.0001
92220729|NCT00552175|184341971|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.67||P-value for Average Pain.|Mixed Models Analysis|Covariates: Baseline value of average pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.67|-1.33|<0.0001
92220730|NCT00552175|184341971|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.29|-0.54||P-value for Pain Right Now.|Mixed Models Analysis|Covariates: Baseline value of pain right now score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.54|-1.29|<0.0001
92220731|NCT00552175|184341972|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.89|||||TWO_SIDED|95.0|-1.34|-0.44|||Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Worst Pain Score analysis||-0.44|-1.34|
92220732|NCT00552175|184341972|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.06|||||TWO_SIDED|95.0|-1.51|-0.62|||Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Worst Pain Score analysis||-0.62|-1.51|
92220733|NCT00552175|184341972|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.78|||||TWO_SIDED|95.0|-1.23|-0.33|||Mixed Models Analysis|Covariates: Baseline value of least pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Least Pain Score analysis||-0.33|-1.23|
92220734|NCT00552175|184341972|SUPERIORITY_OR_OTHER||Least Mean Squares Difference|-0.91|||||TWO_SIDED|95.0|-1.36|-0.46|||Mixed Models Analysis|Covariates: Baseline value of least pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Least Pain Score analysis||-0.46|-1.36|
92355671|NCT01362530|184616942|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Cochran-Mantel-Haenszel|Stratified by age group, use of dexamethasone as an anti-emetic, and receipt of very high risk emetogenic chemotherapy.||||||<0.01
92355672|NCT01362530|184616943|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Cochran-Mantel-Haenszel|Stratified by age group, use of dexamethasone as an anti-emetic, and receipt of very high risk emetogenic chemotherapy.||||||<0.01
92355673|NCT01557569|184616959|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.413|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||Due to skewed data, Kruskal Wallis Test was used.||||<0.05
92355674|NCT01633112|184616965|SUPERIORITY|For each of the 2 FTY720 doses, the null hypothesis was that there was no difference in the ARRs between subjects treated with FTY720 and those treated with GA versus the alternative hypothesis that there was a difference between the 2 treatment arms. In order to preserve the Type I experiment-wise error rate, the null hypothesis was rejected if the observed p-value for the between-treatment comparison was less than the significance level as specified in the multiplicity adjustment procedure.||||||0.0138|||||||negative binomial regression model|adjusted for treatment, geographical region, number of relapses in the previous year, baseline EDSS, and baseline Gd-enhancing T1 lesion count.||H01: µ FTY 0.5 mg = µ GA versus HA1: µ FTY 0.5 mg ≠µ GA H02: µ FTY 0.25 mg = µ GA versus HA2: µ FTY 0.25 mg ≠µ GA||||0.0138
92355675|NCT01633112|184616965|SUPERIORITY|For each of the 2 FTY720 doses, the null hypothesis was that there was no difference in the ARRs between subjects treated with FTY720 and those treated with GA versus the alternative hypothesis that there was a difference between the 2 treatment arms. In order to preserve the Type I experiment-wise error rate, the null hypothesis was rejected if the observed p-value for the between-treatment comparison was less than the significance level as specified in the multiplicity adjustment procedure.||||||0.4153|||||||negative binomial regression model|adjusted for treatment, geographical region, number of relapses in the previous year, baseline EDSS, and baseline Gd-enhancing T1 lesion count.||H01: µ FTY 0.5 mg = µ GA versus HA1: µ FTY 0.5 mg ≠µ GA H02: µ FTY 0.25 mg = µ GA versus HA2: µ FTY 0.25 mg ≠µ GA||||0.4153
92355676|NCT01633112|184616966|OTHER||||||<|0.0001|||||||negative binomial regression model|Adjusted for treatment, geog. region, age, baseline T2 lesion count, baseline Gd-enhancing T1 lesion count, and the number of previous year relapses.||||||<0.0001
92355677|NCT01633112|184616966|OTHER||||||<|0.0001|||||||negative binomial regression model|Adjusted for treatment, geog. region, age, baseline T2 lesion count, baseline Gd-enhancing T1 lesion count, and the number of previous year relapses.||||||<0.0001
92355678|NCT01633112|184616968|OTHER||||||<|0.0001|||||||ANCOVA|rank ANCOVA with covariates: adjusted for treatment, age, region, number of relapses experienced in the previous year, and baseline T2 lesion volume.||||||<0.0001
92355679|NCT01633112|184616968|OTHER|||||||0.006|||||||ANCOVA|rank ANCOVA with covariates: adjusted for treatment, age, region, number of relapses experienced in the previous year, and baseline T2 lesion volume.||||||0.0060
92355680|NCT01633112|184616969|OTHER|||||||0.0167|||||||negative binomial regression model|adjusted for treatment, age, geog. region, baseline T2 lesion count, baseline Gd-enhancing T1 lesion count, and the number of previous year relapses .||||||0.0167
92220735|NCT00552175|184341972|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.98|||||TWO_SIDED|95.0|-1.39|-0.58|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Average Pain Score analysis||-0.58|-1.39|
92355681|NCT01633112|184616969|OTHER|||||||0.0011|||||||negative binomial regression model|adjusted for treatment, age, geog. region, baseline T2 lesion count, baseline Gd-enhancing T1 lesion count, and the number of previous year relapses.||||||0.0011
92355682|NCT01633112|184616970|OTHER|||||||0.0052|||||||ANCOVA|ranked ANCOVA with covariates: treatment, region, age, baseline Gd-enhancing T1 lesion volume, and number ofrelapses experienced in the previous year.||||||0.0052
92355683|NCT01633112|184616970|OTHER|||||||0.0636|||||||ANCOVA|ranked ANCOVA with covariates: treatment, region, age, baseline Gd-enhancing T1 lesion volume, and number ofrelapses experienced in the previous year.||||||0.0636
92355684|NCT01633112|184616971|OTHER|||||||0.0011||||||adjusted for treatment, region, age, proper baseline T1 lesion variable, baseline Gd-enhancing T1 lesion count and number of previous year relapses.|Regression, Logistic|pair-wise comparisons between treatment groups using a logistic regression model.||||||0.0011
92355685|NCT01633112|184616971|OTHER|||||||0.0146||||||adjusted for treatment, region, age, proper baseline T1 lesion variable, baseline Gd-enhancing T1 lesion count and number of previous year relapses.|Regression, Logistic|pair-wise comparisons between treatment groups using a logistic regression model.||||||0.0146
92355686|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
92355687|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
92355688|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
92355689|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
92355690|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
92355691|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
92355692|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
92355693|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
92355694|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
92355695|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
92355696|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
92162151|NCT04771273|184213965|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|9.46|||<|0.0001|TWO_SIDED|95.0|4.36|20.51||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||20.51|4.36|<.0001
92162152|NCT04771273|184213965|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|16.09|||<|0.0001|TWO_SIDED|95.0|6.69|38.73||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 6.0 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||38.73|6.69|<.0001
92162153|NCT04771273|184213965|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod linear model fit|Linear model fit assumption||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162154|NCT04771273|184213965|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod exponential-1 model fit|Model assumption: 25% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162155|NCT04771273|184213965|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod exponential-2 model fit|Model assumption: 5% of maximum effect achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162156|NCT04771273|184213965|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax1 model fit|Model assumption: 50% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92220736|NCT00552175|184341972|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.01|||||TWO_SIDED|95.0|-1.41|-0.61|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Average Pain Score analysis||-0.61|-1.41|
92355697|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
92355698|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Side Effects (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
92355699|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Side Effects (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
92355700|NCT01633112|184616972|OTHER|||||||0.0005|||||||Wilcoxon signed-rank test|Side Effects (Month 6): p-values for within treatment comparison from baseline||||||0.0005
92355701|NCT01633112|184616972|OTHER||||||<|0.0051|||||||Wilcoxon signed-rank test|Side Effects (Month 12): p-values for within treatment comparison from baseline||||||<0.0051
92355702|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Side Effects (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
92355703|NCT01633112|184616972|OTHER|||||||0.0051|||||||Wilcoxon signed-rank test|Side Effects (Month 12): p-values for within treatment comparison from baseline||||||0.0051
92355704|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Convenience (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
92355705|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Convenience (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
92220737|NCT00552175|184341972|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.88|||||TWO_SIDED|95.0|-1.35|-0.41|||Mixed Models Analysis|Covariates: Baseline value of pain right now score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Pain Right Now Score analysis||-0.41|-1.35|
92220738|NCT00552175|184341972|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.95|||||TWO_SIDED|95.0|-1.41|-0.48|||Mixed Models Analysis|Covariates: Baseline value of pain right now score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Pain Right Now Score analysis||-0.48|-1.41|
92220739|NCT00552175|184341973|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.41||||0.0676|TWO_SIDED|95.0|-0.85|0.03||P-value for General Activity.|Mixed Models Analysis|Covariates: Baseline value of general activity score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||0.03|-0.85|0.0676
92355706|NCT01633112|184616972|OTHER|||||||0.0068|||||||Wilcoxon signed-rank test|Convenience (Month 6): p-values for within treatment comparison from baseline||||||0.0068
92355707|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Convenience (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
92355708|NCT01633112|184616972|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Convenience (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
92355709|NCT01633112|184616972|OTHER|||||||0.4595|||||||Wilcoxon signed-rank test|Convenience (Month 12): p-values for within treatment comparison from baseline||||||0.4595
92355710|NCT01633112|184616973|OTHER|||||||0.1045|||||||ANCOVA|rank ANCOVA model adjusted for treatment, region, age, the number of relapses experienced in the previous year, and baseline normalized brain volume||||||0.1045
92401310|NCT00395746|184694021|SUPERIORITY_OR_OTHER||Least Squares Mean|-11.37||||0.0433||95.0|-22.4|-0.34||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||-0.34|-22.40|0.0433
92401311|NCT00395746|184694021|SUPERIORITY_OR_OTHER||Least Squares Mean|6.67||||0.2359||95.0|-4.39|17.73||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||17.73|-4.39|0.2359
92401312|NCT00395746|184694022|SUPERIORITY_OR_OTHER||Least Squares Mean|-13.3||||||95.0|-24.69|-1.9|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-1.90|-24.69|
92220740|NCT00552175|184341973|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.37||||0.0933|TWO_SIDED|95.0|-0.8|0.06||P-value for Mood.|Mixed Models Analysis|Covariates: Baseline value of mood score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||0.06|-0.8|0.0933
92355711|NCT01633112|184616973|OTHER|||||||0.1358|||||||ANCOVA|rank ANCOVA model adjusted for treatment, region, age, the number of relapses experienced in the previous year, and baseline normalized brain volume||||||0.1358
92355712|NCT00062764|184616978|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||paired t-test|||||||0.004
92355713|NCT00889005|184617005|SUPERIORITY_OR_OTHER|||||||0.927|||||||ANOVA|||||||0.927
92355714|NCT05122143|184617028|SUPERIORITY|||||||0.0085||||||Treatment D (A+B) versus Treatment C|ANCOVA|||"Treatment A + B were pooled to Treatment D for the Primary endpoint. The primary objective was to compare the efficacy of the AM-301 nasal spray (treatment D= A+B) and no treatment (C) in reducing nasal symptoms induced from HDM allergen exposure.~The TNSS value from the baseline exposure (at screening exposure visit 2) was subtracted from the TNSS value of the treatment exposure to obtain change from baseline. A lower value resembles less symptoms."||||0.0085
92355715|NCT03766906|184617048|SUPERIORITY||Mean Difference (Final Values)|2.03||||0.003|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pretest to posttest change was significantly greater than 0 at P \< 0.05.|||||.003
92355716|NCT03766906|184617049|SUPERIORITY||Mean Difference (Final Values)|1.18||||0.022|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than zero at P\<0.05.|||||.022
92355717|NCT03766906|184617050|SUPERIORITY||Mean Difference (Final Values)|1.34||||0.016|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|||||.016
92355718|NCT03766906|184617051|SUPERIORITY||Mean Difference (Final Values)|0.95||||0.002|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|||||.002
92355719|NCT03766906|184617052|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.626|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|The statistical analyses for the Student Self-Efficacy, in terms of type of statistical test, method, and the comments which we state within-subjects paired t-tests, are the same for each of the three subscales that make up Student Self-Efficacy (i.e., Relevance to schoolwork, Future aspirations, and Family support).||||.626
92355720|NCT03766906|184617052|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.909|TWO_SIDED||||||t-test, 2 sided|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.||The statistical analyses for the Student Self-Efficacy, in terms of type of statistical test, method, and the comments which we state within-subjects paired t-tests, are the same for each of the three subscales that make up Student Self-Efficacy (i.e., Relevance to schoolwork, Future aspirations, and Family support).||||.909
92355721|NCT03766906|184617052|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.905|TWO_SIDED||||||t-test, 2 sided||Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|The statistical analyses for the Student Self-Efficacy, in terms of type of statistical test, method, and the comments which we state within-subjects paired t-tests, are the same for each of the three subscales that make up Student Self-Efficacy (i.e., Relevance to schoolwork, Future aspirations, and Family support).||||.905
92355722|NCT03766906|184617053|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.054|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|||||.054
92355723|NCT03766906|184617054|SUPERIORITY||Mean Difference (Final Values)|3.48|||<|0.001|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|||||<.001
92355724|NCT03766906|184617055|SUPERIORITY||Mean Difference (Final Values)|7.52|||<|0.001|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|||||<.001
92355725|NCT00836901|184617070|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|97.7||||||90.0|93.19|102.43|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.43|93.19|
92355726|NCT00836901|184617071|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|99.28||||||90.0|97.09|101.53|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.53|97.09|
92355727|NCT00836901|184617072|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|97.64||||||90.0|96.12|99.19|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||99.19|96.12|
92355728|NCT00836901|184617073|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|94.59||||||90.0|85.64|104.47|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.47|85.64|
92355729|NCT00836901|184617074|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|94.44||||||90.0|87.83|101.54|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.54|87.83|
92355730|NCT00836901|184617075|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|94.08||||||90.0|87.19|101.52|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.52|87.19|
92355731|NCT04250207|184617077|SUPERIORITY|||||||0.0065|||||||Other (Wilcoxon Rank Sum Test)|||||||0.0065
92355732|NCT04250207|184617077|SUPERIORITY|||||||0.0344|||||||Other (Wilcoxon Rank Sum Test)|||||||0.0344
92355733|NCT04250207|184617078|SUPERIORITY|||||||0.3587|||||||Wilcoxon Rank Sum Test|||Baseline||||0.3587
92401313|NCT00395746|184694022|SUPERIORITY_OR_OTHER||Least Squares Mean|-7.11||||||95.0|-18.42|4.21|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||4.21|-18.42|
92220741|NCT00552175|184341973|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.49||||0.0228|TWO_SIDED|95.0|-0.91|-0.07||P-value for Walking Ability.|Mixed Models Analysis|Covariates: Baseline value of walking ability score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.07|-0.91|0.0228
92355734|NCT04250207|184617078|SUPERIORITY|||||||0.5724|||||||Wilcoxon Rank Sum Test|||Baseline||||0.5724
92355735|NCT04250207|184617078|SUPERIORITY|||||||0.3703|||||||Wilcoxon Rank Sum Test|||Week 1||||0.3703
92355736|NCT04250207|184617078|SUPERIORITY||||||>|0.9999|||||||Wilcoxon Rank Sum Test|||Week 1||||> 0.9999
92355737|NCT04250207|184617078|SUPERIORITY|||||||0.3703|||||||Wilcoxon Rank Sum Test|||Week 2||||0.3703
92355738|NCT04250207|184617078|SUPERIORITY||||||>|0.9999|||||||Wilcoxon Rank Sum Test|||Week 2||||> 0.9999
92355739|NCT04250207|184617078|SUPERIORITY|||||||0.0257|||||||Wilcoxon Rank Sum Test|||Week 3||||0.0257
92355740|NCT04250207|184617078|SUPERIORITY|||||||0.7263|||||||Wilcoxon Rank Sum Test|||||||0.7263
92220742|NCT00552175|184341973|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.38||||0.0783|TWO_SIDED|95.0|-0.8|0.04||P-value for Normal Work.|Mixed Models Analysis|Covariates: Baseline value of normal work score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||0.04|-0.8|0.0783
92355741|NCT04250207|184617078|SUPERIORITY|||||||0.0607|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0607
92355742|NCT04250207|184617078|SUPERIORITY|||||||0.046|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0460
92355743|NCT04250207|184617078|SUPERIORITY|||||||0.0111|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0111
92355744|NCT04250207|184617078|SUPERIORITY|||||||0.0011|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0011
92355745|NCT04250207|184617078|SUPERIORITY|||||||0.02|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0200
92220743|NCT00552175|184341973|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.55||||0.0076|TWO_SIDED|95.0|-0.96|-0.15||P-value for Relation to People.|Mixed Models Analysis|Covariates: Baseline value of relation to people score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.15|-0.96|0.0076
92220744|NCT00552175|184341973|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.46||||0.0378|TWO_SIDED|95.0|-0.9|-0.03||P-value for Sleep.|Mixed Models Analysis|Covariates: Baseline value of sleep score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.03|-0.9|0.0378
92355746|NCT04250207|184617078|SUPERIORITY|||||||0.0476|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0476
92162157|NCT04771273|184213965|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax2 model fit|Model assumption: 80% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92220745|NCT00552175|184341973|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.56||||0.0089|TWO_SIDED|95.0|-0.98|-0.14||P-value for Enjoyment of Life.|Mixed Models Analysis|Covariates: Baseline value of enjoyment of life score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.14|-0.98|0.0089
92220746|NCT00552175|184341973|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.48||||0.0095|TWO_SIDED|95.0|-0.85|-0.12||P-value for Average of Interference Scores|Mixed Models Analysis|Covariates: Baseline value of average of interference scores, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.12|-0.85|0.0095
92220747|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.6|||||TWO_SIDED|95.0|-1.14|-0.06|||Mixed Models Analysis|Covariates: Baseline value of general activity, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|General Activity score analysis||-0.06|-1.14|
92220748|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.23|||||TWO_SIDED|95.0|-0.77|0.32|||Mixed Models Analysis|Covariates: Baseline value of general activity, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|General Activity score analysis||0.32|-0.77|
92220749|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.27|||||TWO_SIDED|95.0|-0.8|0.27|||Mixed Models Analysis|Covariates: Baseline value of mood score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Mood score analysis||0.27|-0.8|
92220750|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.48|||||TWO_SIDED|95.0|-1.01|0.05|||Mixed Models Analysis|Covariates: Baseline value of mood score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Mood score analysis||0.05|-1.01|
92355747|NCT04250207|184617078|SUPERIORITY|||||||0.0065|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0065
92220751|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.5|||||TWO_SIDED|95.0|-1.02|0.02|||Mixed Models Analysis|Covariates: Baseline value of walking ability, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Walking Ability score analysis||0.02|-1.02|
92401314|NCT00395746|184694023|SUPERIORITY_OR_OTHER||Least Squares Mean|0.75||||0.0071||95.0|0.21|1.3||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||1.30|0.21|0.0071
92220752|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.49|||||TWO_SIDED|95.0|-1.01|0.03|||Mixed Models Analysis|Covariates: Baseline value of walking ability, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Walking Ability score analysis||0.03|-1.01|
92276485|NCT01360632|184454744|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19||||0.0925|TWO_SIDED|95.0|-2.58|0.2|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||The primary analysis was performed on the Efficacy Sample by fitting a Mixed Model Repeated Measures (MMRM) analysis with an unstructured variance covariance structure in which the change from the end of Phase A (Week 8) in MADRS Total Score (at Weeks 9 to 14) was the dependent variable. The model included fixed class effect terms for treatment, trial site, visit week, and an interaction term of treatment by visit week.||0.2|-2.58|0.0925
92355748|NCT04250207|184617078|SUPERIORITY|||||||0.0344|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0344
92355749|NCT04250207|184617078|SUPERIORITY|||||||0.025|||||||Wilcoxon Rank Sum Test|||Week 16||||0.0250
92355750|NCT04250207|184617078|SUPERIORITY|||||||0.0733|||||||Wilcoxon Rank Sum Test|||Week 16||||0.0733
92355751|NCT04250207|184617078|SUPERIORITY|||||||0.0072|||||||Wilcoxon Rank Sum Test|||Week 20||||0.0072
92355752|NCT04250207|184617078|SUPERIORITY|||||||0.1124|||||||Wilcoxon Rank Sum Test|||Week 20||||0.1124
92355753|NCT04250207|184617078|SUPERIORITY|||||||0.0199|||||||Wilcoxon Rank Sum Test|||Week 24||||0.0199
92355754|NCT04250207|184617078|SUPERIORITY|||||||0.2331|||||||Wilcoxon Rank Sum Test|||Week 24||||0.2331
92162158|NCT04771273|184213965|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod quadratic model fit|Model assumption: Maximum effect is achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162159|NCT04771273|184213966|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|10.39|||<|0.0001|TWO_SIDED|95.0|4.6|23.45||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||23.45|4.60|<.0001
92162160|NCT04771273|184213966|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|12.06|||<|0.0001|TWO_SIDED|95.0|5.3|27.45||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||27.45|5.30|<.0001
92162161|NCT04771273|184213966|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|8.22|||<|0.0001|TWO_SIDED|95.0|3.66|18.5||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 6.0 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||18.50|3.66|<.0001
92162162|NCT04771273|184213966|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod linear model fit|Linear model fit assumption.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162163|NCT04771273|184213966|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.0031|||||||MCP-Mod exponential-1 model fit|Model assumption: 25% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.0031
92162164|NCT04771273|184213966|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.0925|||||||MCP-Mod exponential-2 model fit|Model assumption: 5% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.0925
92162165|NCT04771273|184213966|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax1 model fit|Model assumption: 50% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92162166|NCT04771273|184213966|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax2 model fit|Model assumption: 80% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92355755|NCT04250207|184617078|SUPERIORITY|||||||0.0024|||||||Wilcoxon Rank Sum Test|||Week 38||||0.0024
92355756|NCT04250207|184617078|SUPERIORITY|||||||0.1672|||||||Wilcoxon Rank Sum Test|||Week 38||||0.1672
92355757|NCT04250207|184617078|SUPERIORITY|||||||0.0047|||||||Wilcoxon Rank Sum Test|||Week 52||||0.0047
92355758|NCT04250207|184617078|SUPERIORITY|||||||0.0625|||||||Wilcoxon Rank Sum Test|||Week 52||||0.0625
92355759|NCT04250207|184617079|SUPERIORITY|||||||0.2434|||||||Wilcoxon Rank Sum Test|||Week 1||||0.2434
92355760|NCT04250207|184617079|SUPERIORITY|||||||0.2126|||||||Wilcoxon Rank Sum Test|||Week 1||||0.2126
92355761|NCT04250207|184617079|SUPERIORITY|||||||0.079|||||||Wilcoxon Rank Sum Test|||Week 2||||0.0790
92355762|NCT04250207|184617079|SUPERIORITY|||||||0.3043|||||||Wilcoxon Rank Sum Test|||Week 2||||0.3043
92355763|NCT04250207|184617079|SUPERIORITY|||||||0.0357|||||||Wilcoxon Rank Sum Test|||Week 3||||0.0357
92355764|NCT04250207|184617079|SUPERIORITY|||||||0.0803|||||||Wilcoxon Rank Sum Test|||Week 3||||0.0803
92355765|NCT04250207|184617079|SUPERIORITY|||||||0.015|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0150
92220753|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.35|||||TWO_SIDED|95.0|-0.86|0.16|||Mixed Models Analysis|Covariates: Baseline value of normal work score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Normal Work score analysis||0.16|-0.86|
92220754|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.41|||||TWO_SIDED|95.0|-0.92|0.11|||Mixed Models Analysis|Covariates: Baseline value of normal work score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Normal Work score analysis||0.11|-0.92|
92355766|NCT04250207|184617079|SUPERIORITY|||||||0.0012|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0012
92355767|NCT04250207|184617079|SUPERIORITY|||||||0.0314|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0314
92355768|NCT04250207|184617079|SUPERIORITY|||||||0.0019|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0019
92355769|NCT04250207|184617079|SUPERIORITY|||||||0.017|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0170
92355770|NCT04250207|184617079|SUPERIORITY|||||||0.0021|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0021
92355771|NCT04250207|184617079|SUPERIORITY|||||||0.0127|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0127
92355772|NCT04250207|184617079|SUPERIORITY|||||||0.0014|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0014
92355773|NCT04250207|184617079|SUPERIORITY|||||||0.0677|||||||Wilcoxon Rank Sum Test|||Week 16||||0.0677
92355774|NCT04250207|184617079|SUPERIORITY|||||||0.0243|||||||Wilcoxon Rank Sum Test|||Week 16||||0.0243
92355775|NCT04250207|184617079|SUPERIORITY|||||||0.1867|||||||Wilcoxon Rank Sum Test|||Week 20||||0.1867
92355776|NCT04250207|184617079|SUPERIORITY|||||||0.025|||||||Wilcoxon Rank Sum Test|||Week 20||||0.0250
92355777|NCT04250207|184617079|SUPERIORITY|||||||0.3213|||||||Wilcoxon Rank Sum Test|||Week 24||||0.3213
92355778|NCT04250207|184617079|SUPERIORITY|||||||0.0298|||||||Wilcoxon Rank Sum Test|||Week 24||||0.0298
92355779|NCT04250207|184617079|SUPERIORITY|||||||0.1449|||||||Wilcoxon Rank Sum Test|||Week 38||||0.1449
92355780|NCT04250207|184617079|SUPERIORITY|||||||0.0947|||||||Wilcoxon Rank Sum Test|||Week 38||||0.0947
92355781|NCT04250207|184617079|SUPERIORITY|||||||0.5181|||||||Wilcoxon Rank Sum Test|||Week 52||||0.5181
92355782|NCT04250207|184617079|SUPERIORITY|||||||0.1898|||||||Wilcoxon Rank Sum Test|||Week 52||||0.1898
92355783|NCT04250207|184617080|SUPERIORITY|||||||0.0021|||||||Log Rank|||||||0.0021
92355784|NCT04250207|184617080|SUPERIORITY|||||||0.1696|||||||Log Rank|||||||0.1696
92355785|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4872|||||||Chi-square or Fisher exact|||Week 5||||0.4872
92355786|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4634|||||||Chi-square or Fisher exact|||Week 5||||0.4634
92355787|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.605|||||||Chi-square or Fisher exact|||Week 7||||0.6050
92355788|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4762|||||||Chi-square or Fisher exact|||Week 7||||0.4762
92355789|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 9||||> 0.9999
92355790|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 9||||> 0.9999
92355791|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4227|||||||Chi-square or Fisher exact|||Week 12||||0.4227
92355792|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.6796|||||||Chi-square or Fisher exact|||Week 12||||0.6796
92355793|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4642|||||||Chi-square or Fisher exact|||Week 16||||0.4642
92162167|NCT04771273|184213966|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod quadratic model fit|Model assumption: Maximum effect is achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
92220755|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.39|||||TWO_SIDED|95.0|-0.89|0.11|||Mixed Models Analysis|Covariates: Baseline value of relation to people, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Relation to People score analysis||0.11|-0.89|
92355794|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4645|||||||Chi-square or Fisher exact|||Week 16||||0.4645
92355795|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.2744|||||||Chi-square or Fisher exact|||Week 20||||0.2744
92355796|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.7026|||||||Chi-square or Fisher exact|||Week 20||||0.7026
92355797|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.7817|||||||Chi-square or Fisher exact|||Week 24||||0.7817
92355798|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.9285|||||||Chi-square or Fisher exact|||Week 24||||0.9285
92355799|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0135|||||||Chi-square or Fisher exact|||Week 38||||0.0135
92355800|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.6992|||||||Chi-square or Fisher exact|||Week 38||||0.6992
92162168|NCT04771273|184213967|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-8.59|||<|0.0001|TWO_SIDED|95.0|-10.59|-6.6||The p-value reported is considered nominal.|MMRM||"Survodutide 2.4 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-6.60|-10.59|<.0001
92220756|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.71|||||TWO_SIDED|95.0|-1.21|-0.22|||Mixed Models Analysis|Covariates: Baseline value of relation to people, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Relation to People score analysis||-0.22|-1.21|
92355801|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0135|||||||Chi-square or Fisher exact|||Week 52||||0.0135
92355802|NCT04250207|184617081|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.5154|||||||Chi-square or Fisher exact|||Week 52||||0.5154
92355803|NCT04250207|184617082|SUPERIORITY|||||||0.1209|||||||Log Rank|||||||0.1209
92355804|NCT04250207|184617082|SUPERIORITY|||||||0.7116|||||||Log Rank|||||||0.7116
92355805|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0915|||||||Chi-square or Fisher exact|||Week 3||||0.0915
92355806|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.3282|||||||Chi-square or Fisher exact|||Week 3||||0.3282
92355807|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0648|||||||Chi-square or Fisher exact|||Week 5||||0.0648
92162169|NCT04771273|184213967|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-10.91|||<|0.0001|TWO_SIDED|95.0|-12.96|-8.86||The p-value reported is considered nominal.|MMRM||"Survodutide 4.8 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-8.86|-12.96|<.0001
92220757|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.57|||||TWO_SIDED|95.0|-1.11|-0.03|||Mixed Models Analysis|Covariates: Baseline value of sleep score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Sleep score analysis||-0.03|-1.11|
92220758|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.36|||||TWO_SIDED|95.0|-0.9|0.18|||Mixed Models Analysis|Covariates: Baseline value of sleep score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Sleep score analysis||0.18|-0.9|
92220759|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.37|||||TWO_SIDED|95.0|-0.88|0.15|||Mixed Models Analysis|Covariates: Baseline value of enjoyment of life, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Enjoyment of Life score analysis||0.15|-0.88|
92220760|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.76|||||TWO_SIDED|95.0|-1.27|-0.24|||Mixed Models Analysis|Covariates: Baseline value of enjoyment of life, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Enjoyment of Life score analysis||-0.24|-1.27|
92220761|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.45|||||TWO_SIDED|95.0|-0.9|0.0|||Mixed Models Analysis|Covariates: Baseline value of average of interference scores, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Average of Interference scores analysis||0|-0.9|
92220762|NCT00552175|184341974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.52|||||TWO_SIDED|95.0|-0.97|-0.07|||Mixed Models Analysis|Covariates: Baseline value of average of interference scores, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Average of Interference scores analysis||-0.07|-0.97|
92220763|NCT00552175|184341975|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.11||||0.8517|TWO_SIDED|95.0|-1.22|1.01|||Mixed Models Analysis|Covariates: Baseline value of BDI-II, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||1.01|-1.22|0.8517
92355808|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.031|||||||Chi-square or Fisher exact|||Week 5||||0.0310
92220764|NCT00552175|184341976|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.34|||||TWO_SIDED|95.0|-1.03|1.71|||Mixed Models Analysis|Covariates: Baseline value of BDI-II, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||1.71|-1.03|
92220765|NCT00552175|184341976|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.55|||||TWO_SIDED|95.0|-1.92|0.81|||Mixed Models Analysis|Covariates: Baseline value of BDI-II, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||0.81|-1.92|
92220766|NCT04677959|184341979|OTHER||Odds Ratio (OR)|1.35|||||TWO_SIDED|95.0||||||||The 95% credible intervals of the odds ratio from the posterior distributions were calculated and presented.||||
92220767|NCT01399788|184341998|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|103.81|||||TWO_SIDED|90.0|99.2|108.64||||||Rifampicin; 32 participants (16 per sequence) provided at least 99% power that 90% confidence interval (CI) for ratio of test to reference for AUClast lie within acceptance region of 80% - 125%. An intra-subject coefficient of variation (CV) estimate of approximately 14.5% for AUClast was used for this power calculation. Natural log transformed AUClast was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||108.64|99.20|
92220768|NCT01399788|184341998|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|107.28|||||TWO_SIDED|90.0|101.95|112.9||||||Isoniazid; 32 participants (16 per sequence) provided at least 99% power that 90% CI for ratio of test to reference for AUClast lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 12.0% for AUClast was used for this power calculation. Natural log transformed AUClast was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||112.90|101.95|
92220769|NCT01399788|184341998|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|99.48|||||TWO_SIDED|90.0|94.92|104.25||||||Ethambutol; 32 participants (16 per sequence) provided at least 99% power that 90% CI for ratio of test to reference for AUClast lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 12.9% for AUClast was used for this power calculation. Natural log transformed AUClast was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||104.25|94.92|
92220770|NCT01399788|184341999|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|102.75|||||TWO_SIDED|90.0|95.36|110.71||||||Rifampicin: 32 participants (16 per sequence) provided at least 98% power that 90% CI for ratio of test to reference for Cmax lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 18.2% for Cmax was used for this power calculation. Natural log transformed Cmax was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||110.71|95.36|
92355809|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0187|||||||Chi-square or Fisher exact|||Week 7||||0.0187
92355810|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0036|||||||Chi-square or Fisher exact|||Week 7||||0.0036
92355811|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0687|||||||Chi-square or Fisher exact|||Week 9||||0.0687
92355812|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0016|||||||Chi-square or Fisher exact|||Week 9||||0.0016
92355813|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0218|||||||Chi-square or Fisher exact|||Week 12||||0.0218
92355814|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0013|||||||Chi-square or Fisher exact|||Week 12||||0.0013
92355815|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0348|||||||Chi-square or Fisher exact|||Week 16||||0.0348
92162170|NCT04771273|184213967|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-11.07|||<|0.0001|TWO_SIDED|95.0|-13.23|-8.92||The p-value reported is considered nominal.|MMRM||"Survodutide 6.0 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-8.92|-13.23|<.0001
92162171|NCT04771273|184213968|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-9.12|||<|0.0001|TWO_SIDED|95.0|-11.21|-7.03||The p-value reported is considered nominal.|MMRM||"Survodutide 2.4 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-7.03|-11.21|<.0001
92355816|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.1028|||||||Chi-square or Fisher exact|||Week 16||||0.1028
92355817|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.8677|||||||Chi-square or Fisher exact|||Week 20||||0.8677
92355818|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4401|||||||Chi-square or Fisher exact|||Week 20||||0.4401
92355819|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.5926|||||||Chi-square or Fisher exact|||Week 24||||0.5926
92355820|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0732|||||||Chi-square or Fisher exact|||Week 24||||0.0732
92355821|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.2497|||||||Chi-square or Fisher exact|||Week 38||||0.2497
92355822|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.2453|||||||Chi-square or Fisher exact|||Week 38||||0.2453
92355823|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 52||||> 0.9999
92355824|NCT04250207|184617083|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 52||||> 0.9999
92355825|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0093|||||||Chi-square or Fisher exact|||Week 3||||0.0093
92355826|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 3||||> 0.9999
92355827|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0006|||||||Chi-square or Fisher exact|||Week 5||||0.0006
92355828|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.3449|||||||Chi-square or Fisher exact|||Week 5||||0.3449
92355829|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0028|||||||Chi-square or Fisher exact|||Week 7||||0.0028
92355830|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0028|||||||Chi-square or Fisher exact|||Week 7||||0.0028
92355831|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0001|||||||Chi-square or Fisher exact|||Week 9||||0.0001
92162172|NCT04771273|184213968|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-10.79|||<|0.0001|TWO_SIDED|95.0|-12.85|-8.73||The p-value reported is considered nominal.|MMRM||"Survodutide 4.8 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-8.73|-12.85|<.0001
92162173|NCT04771273|184213968|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-10.86|||<|0.0001|TWO_SIDED|95.0|-13.0|-8.73||The p-value reported is considered nominal.|MMRM||"Survodutide 6.0 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-8.73|-13.00|<.0001
92162174|NCT04771273|184213969|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-43.64|||<|0.0001|TWO_SIDED|95.0|-53.49|-33.79||The p-value reported is considered nominal.|MMRM||"Survodutide 2.4 mg - Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-33.79|-53.49|<.0001
92162175|NCT04771273|184213969|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-55.52|||<|0.0001|TWO_SIDED|95.0|-65.61|-45.42||The p-value reported is considered nominal.|MMRM||"Survodutide 4.8 mg - Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-45.42|-65.61|<.0001
92162176|NCT04771273|184213969|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-57.02|||<|0.0001|TWO_SIDED|95.0|-67.66|-46.39||The p-value reported is considered nominal.|MMRM||"Survodutide 6.0 mg-Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-46.39|-67.66|<.0001
92162177|NCT04771273|184213970|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-46.49|||<|0.0001|TWO_SIDED|95.0|-56.74|-36.25||The p-value reported is considered nominal.|MMRM||"Survodutide 2.4 mg - Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-36.25|-56.74|<.0001
92162178|NCT04771273|184213970|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-55.11|||<|0.0001|TWO_SIDED|95.0|-65.25|-44.98||The p-value reported is considered nominal.|MMRM||"Survodutide 4.8 mg - Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-44.98|-65.25|<.0001
92162179|NCT04771273|184213970|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-56.26|||<|0.0001|TWO_SIDED|95.0|-66.76|-45.77||The p-value reported is considered nominal.|MMRM||"Survodutide 6.0 mg-Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-45.77|-66.76|<.0001
92162180|NCT04771273|184213971|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|1.61||||0.1894|TWO_SIDED|95.0|0.79|3.26||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||3.26|0.79|0.1894
92162181|NCT04771273|184213971|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|2.0||||0.0685|TWO_SIDED|95.0|0.95|4.2||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||4.20|0.95|0.0685
92162182|NCT04771273|184213971|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|3.37||||0.0028|TWO_SIDED|95.0|1.52|7.45||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 6.0 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||7.45|1.52|0.0028
92162183|NCT04771273|184213972|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|2.02||||0.0663|TWO_SIDED|95.0|0.95|4.27||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||4.27|0.95|0.0663
92162184|NCT04771273|184213972|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|2.01||||0.0672|TWO_SIDED|95.0|0.95|4.23||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||4.23|0.95|0.0672
92162185|NCT04771273|184213972|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|2.11||||0.0512|TWO_SIDED|95.0|1.0|4.46||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 6.0 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||4.46|1.00|0.0512
92162186|NCT01144182|184214004|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED|||||For this pilot study, significance level was set at p\<0.05|Wilcoxon (Mann-Whitney)|||||||.56
92162187|NCT01144182|184214005|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.22
92162188|NCT01144182|184214006|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.05
92162189|NCT01144182|184214007|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.34
92162190|NCT01144182|184214008|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.008
92355832|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0028|||||||Chi-square or Fisher exact|||Week 9||||0.0028
92355833|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||<|0.0001|||||||Chi-square or Fisher exact|||Week 12||||< 0.0001
92355834|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0028|||||||Chi-square or Fisher exact|||Week 12||||0.0028
92355835|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||<|0.0001|||||||Chi-square or Fisher exact|||Week 16||||< 0.0001
92355836|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0011|||||||Chi-square or Fisher exact|||Week 16||||0.0011
92162191|NCT01144182|184214009|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.30
92355837|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0094|||||||Chi-square or Fisher exact|||Week 20||||0.0094
92162192|NCT01144182|184214010|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.15
92162193|NCT01144182|184214011|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.55
92162194|NCT01144182|184214012|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.56
92162195|NCT01144182|184214013|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.05
92162196|NCT01144182|184214014|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.15
92162197|NCT01144182|184214015|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.26
92162198|NCT01144182|184214016|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.36
92162199|NCT01670110|184214020|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
92162200|NCT01670110|184214021|SUPERIORITY|||||||0.003|||||||ANCOVA|||||||0.003
92162201|NCT01670110|184214022|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
92162202|NCT01670110|184214023|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
92162203|NCT01670110|184214024|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92162204|NCT01670110|184214025|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92162205|NCT01670110|184214026|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||0.73
92162206|NCT01670110|184214027|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||Physical functioning||||0.31
92355838|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.1281|||||||Chi-square or Fisher exact|||Week 20||||0.1281
92355839|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0051|||||||Chi-square or Fisher exact|||Week 24||||0.0051
92355840|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.1313|||||||Chi-square or Fisher exact|||Week 24||||0.1313
92355841|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0268|||||||Chi-square or Fisher exact|||Week 38||||0.0268
92162207|NCT01670110|184214027|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Physical role||||0.48
92162208|NCT01670110|184214027|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||Bodily pain||||0.89
92162209|NCT01670110|184214027|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||General health||||0.18
92162210|NCT01670110|184214027|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Vitality||||0.28
92162211|NCT01670110|184214027|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||Social functioning||||0.66
92355842|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.3652|||||||Chi-square or Fisher exact|||Week 38||||0.3652
92355843|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.1854|||||||Chi-square or Fisher exact|||Week 52||||0.1854
92355844|NCT04250207|184617084|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 52||||> 0.9999
92355845|NCT04250207|184617085|SUPERIORITY|||||||0.0259|||||||Wilcoxon Rank Sum Test|||||||0.0259
92355846|NCT04250207|184617085|SUPERIORITY|||||||0.0068|||||||Wilcoxon Rank Sum Test|||||||0.0068
92355847|NCT04250207|184617086|SUPERIORITY|||||||0.4435|||||||Wilcoxon Rank Sum Test|||Week 1||||0.4435
92355848|NCT04250207|184617086|SUPERIORITY|||||||0.3402|||||||Wilcoxon Rank Sum Test|||Week 1||||0.3402
92355849|NCT04250207|184617086|SUPERIORITY||||||>|0.9999|||||||Wilcoxon Rank Sum Test|||Week 2||||> 0.9999
92355850|NCT04250207|184617086|SUPERIORITY|||||||0.0655|||||||Wilcoxon Rank Sum Test|||Week 3||||0.0655
92355851|NCT04250207|184617086|SUPERIORITY|||||||0.0903|||||||Wilcoxon Rank Sum Test|||Week 3||||0.0903
92355852|NCT04250207|184617086|SUPERIORITY|||||||0.0216|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0216
92355853|NCT04250207|184617086|SUPERIORITY|||||||0.002|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0020
92355854|NCT04250207|184617086|SUPERIORITY|||||||0.0676|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0676
92355855|NCT04250207|184617086|SUPERIORITY|||||||0.0029|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0029
92355856|NCT04250207|184617086|SUPERIORITY|||||||0.0335|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0335
92162212|NCT01670110|184214027|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||Role emotional||||0.43
92162213|NCT01670110|184214027|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||Mental health||||0.51
92162214|NCT03301220|184214032|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|0.0001|TWO_SIDED|95.0|0.36|0.67|||Log Rank|||||0.67|0.36|<0.0001
92355857|NCT04250207|184617086|SUPERIORITY|||||||0.0053|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0053
92355858|NCT04250207|184617086|SUPERIORITY|||||||0.0608|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0608
92355859|NCT04250207|184617086|SUPERIORITY|||||||0.0071|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0071
92162215|NCT05012644|184214072|OTHER||Odds Ratio (OR)|1.266|||||TWO_SIDED|95.0|0.715|2.241||||||||2.241|0.715|
92162216|NCT05012644|184214073|OTHER||Odds Ratio (OR)|1.508|||||TWO_SIDED|95.0|0.819|2.774||||||||2.774|0.819|
92162217|NCT04845620|184214074|SUPERIORITY||Odds Ratio (OR)|2.89|||<|0.0001|TWO_SIDED|97.5|1.648|5.064|||Cochran-Mantel-Haenszel|Stratified by randomized baseline vIGA-AD with multiple imputation of missing observations|Stratified by randomized baseline vIGA-AD with multiple imputation of missing observations|vIGA Success at Week 4||5.064|1.648|<0.0001
92162218|NCT04845620|184214075|SUPERIORITY||Odds Ratio (OR)|3.1|||<|0.0001|TWO_SIDED|97.5|1.662|5.772|||Chi-squared|Multiple imputation of missing observations|Multiple imputation of missing observations|vIGA Success at Week 4 in Participants with Moderate Baseline vIGA||5.772|1.662|<0.0001
92162219|NCT04845620|184214076|SUPERIORITY||Odds Ratio (OR)|2.47|||<|0.0001|TWO_SIDED|97.5|1.578|3.87|||Cochran-Mantel-Haenszel|Stratified by randomized baseline vIGA-AD with multiple imputation of missing observations|Stratified by randomized baseline vIGA-AD with multiple imputation of missing observations|EASI-75 at Week 4||3.870|1.578|<0.0001
92162220|NCT04845620|184214077|SUPERIORITY||Odds Ratio (OR)|3.29|||<|0.0001|TWO_SIDED|97.5|1.98|5.475|||Cochran-Mantel-Haenszel|Stratified by randomized baseline vIGA-AD with multiple imputation of missing observations|Stratified by randomized baseline vIGA-AD with multiple imputation of missing observations|vIGA Score of 'Clear' or 'Almost Clear' at Week 4||5.475|1.980|<0.0001
92162221|NCT04845620|184214078|SUPERIORITY||Odds Ratio (OR)|3.74|||<|0.0001|TWO_SIDED|97.5|1.912|7.313|||Cochran-Mantel-Haenszel|Stratified by baseline vIGA-AD with multiple imputation of missing observations|Stratified by baseline vIGA-AD with multiple imputation of missing observations|||7.313|1.912|<0.0001
92162222|NCT04845620|184214079|SUPERIORITY||Odds Ratio (OR)|11.44|||<|0.0001|TWO_SIDED|97.5|2.216|59.101|||Cochran-Mantel-Haenszel|Stratified by randomized baseline vIGA-AD with multiple imputation of missing data|Stratified by randomized baseline vIGA-AD with multiple imputation of missing data|vIGA-AD Success at Week 1||59.101|2.216|<0.0001
92162223|NCT04845620|184214080|SUPERIORITY||Odds Ratio (OR)|3.8|||<|0.0001|TWO_SIDED|97.5|2.137|6.761|||Cochran-Mantel-Haenszel|Stratified by randomized baseline vIGA-AD with multiple imputation of missing data|Stratified by randomized baseline vIGA-AD with multiple imputation of missing data|vIGA-AD of Clear or Almost Clear at Week 2||6.761|2.137|<0.0001
92162224|NCT04845620|184214081|SUPERIORITY||Odds Ratio (OR)|5.75|||<|0.0001|TWO_SIDED|97.5|2.342|14.113|||Cochran-Mantel-Haenszel|Stratified by baseline vIGA-AD with multiple imputation of missing data|Stratified by baseline vIGA-AD with multiple imputation of missing data|vIGA-AD of Clear or Almost Clear at Week 2||14.113|2.342|<0.0001
92162225|NCT00708097|184214082|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.98||||0.5757|TWO_SIDED|95.0|-5.0|8.97||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||8.97|-5.00|0.5757
92355860|NCT04250207|184617086|SUPERIORITY|||||||0.4406|||||||Wilcoxon Rank Sum Test|||Week 16||||0.4406
92355861|NCT04250207|184617086|SUPERIORITY|||||||0.1716|||||||Wilcoxon Rank Sum Test|||Week 16||||0.1716
92355862|NCT04250207|184617086|SUPERIORITY|||||||0.9856|||||||Wilcoxon Rank Sum Test|||Week 20||||0.9856
92401315|NCT00395746|184694023|SUPERIORITY_OR_OTHER||Least Squares Mean|1.18|||<|0.0001||95.0|0.63|1.73||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||1.73|0.63|<0.0001
92401316|NCT00395746|184694024|SUPERIORITY_OR_OTHER||Least Squares Mean|1.04||||||95.0|0.42|1.66|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||1.66|0.42|
92162226|NCT00708097|184214083|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.17||||0.5387|TWO_SIDED|95.0|-4.79|9.14||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||9.14|-4.79|0.5387
92162227|NCT00708097|184214083|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.79||||0.4306|TWO_SIDED|95.0|-4.18|9.77||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||9.77|-4.18|0.4306
92162228|NCT00708097|184214083|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.07|||<|0.0001|TWO_SIDED|95.0|-32.09|-18.06||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||-18.06|-32.09|<0.0001
92220771|NCT01399788|184341999|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|103.85|||||TWO_SIDED|90.0|92.13|117.07||||||Isoniazid; 32 participants (16 per sequence) provided at least 98% power that 90% CI for ratio of test to reference for Cmax lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 18.2% for Cmax was used for this power calculation. Natural log transformed Cmax was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||117.07|92.13|
92355863|NCT04250207|184617086|SUPERIORITY|||||||0.2229|||||||Wilcoxon Rank Sum Test|||Week 20||||0.2229
92355864|NCT04250207|184617086|SUPERIORITY|||||||0.8817|||||||Wilcoxon Rank Sum Test|||Week 24||||0.8817
92355865|NCT04250207|184617086|SUPERIORITY|||||||0.2081|||||||Wilcoxon Rank Sum Test|||||||0.2081
92355866|NCT04250207|184617086|SUPERIORITY|||||||0.7335|||||||Wilcoxon Rank Sum Test|||Week 38||||0.7335
92355867|NCT04250207|184617086|SUPERIORITY|||||||0.5367|||||||Wilcoxon Rank Sum Test|||Week 38||||0.5367
92355868|NCT04250207|184617086|SUPERIORITY|||||||0.555|||||||Wilcoxon Rank Sum Test|||Week 52||||0.5550
92355869|NCT04250207|184617086|SUPERIORITY|||||||0.8718|||||||Wilcoxon Rank Sum Test|||Week 52||||0.8718
92355870|NCT05263791|184617128|NON_INFERIORITY|The primary objective to prove the non-inferiority in between the Airmod and reference device is determined by the difference between AirRR and ManCRR.|||||<|0.001|||||||Paired t Test|||Hypothesis: airRR-mancRR ≦ -3, In the target of p\<0.05 indicates significance.||||<0.001
92401317|NCT00395746|184694024|SUPERIORITY_OR_OTHER||Least Squares Mean|1.13||||||95.0|0.51|1.75|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed||1.75|0.51|
92162229|NCT00708097|184214083|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.19||||0.9567|TWO_SIDED|95.0|-6.71|7.09||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||7.09|-6.71|0.9567
92162230|NCT00708097|184214083|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.81||||0.8188|TWO_SIDED|95.0|-6.14|7.76||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||7.76|-6.14|0.8188
92162231|NCT00708097|184214083|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.06|||<|0.0001|TWO_SIDED|95.0|-34.03|-20.08||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||-20.08|-34.03|<0.0001
92162232|NCT00708097|184214083|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.62||||0.8599|TWO_SIDED|95.0|-6.28|7.51||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||7.51|-6.28|0.8599
92355871|NCT05263791|184617129|NON_INFERIORITY|The hypothesis tested is demonstrated airRR non-inferior to acoRR when the capnostream is less sensitive.|||||<|0.001|||||||Paired t Test|||"In this study, a non-inferiority test was conducted during periods of reduced sensitivity in capnography to compare respiratory rate measurements using the Airmod device (airRR) versus manually scored auscultation sounds (referred to as acoRR, implying manARR in the statistical analysis plan). The research physician identified periods of reduced sensitivity in capnography."||||<0.001
92355872|NCT05263791|184617131|SUPERIORITY|This analysis were examined to assess the responsiveness of Airmod and Capnography.|||||<|0.001|||||||Paired t Test|||The hypothesis tested whether the response times obtained with the Airmod device were equal to those recorded with Capnography.||||<0.001
92355873|NCT05263791|184617132|NON_INFERIORITY|The objective to prove the non-inferiority in between the Airmod and reference device is determined by the difference between AirRR and ManCRR by subjects.|||||<|0.05|||||||Paired t Test|||Hypothesis: airRR-mancRR ≦ -2, In the target of p\<0.05 indicates significance.||||<0.05
92355874|NCT04135443|184617184|SUPERIORITY||Odds Ratio (OR)|1.027||||0.94|TWO_SIDED|95.0|0.511|2.063|||Regression, Logistic|||||2.063|0.511|0.94
92355875|NCT04135443|184617186|SUPERIORITY||Slope|0.064||||0.455|TWO_SIDED|||||Threshold set to p\<0.05.|Regression, Linear|See analysis plan for covariates screened into model.||||||0.455
92355876|NCT04135443|184617187|SUPERIORITY||Slope|0.026||||0.702|TWO_SIDED|||||Threshold set to p\<0.05.|Regression, Linear|See analysis plan for covariates screened into model.||||||0.702
92355877|NCT04135443|184617188|SUPERIORITY||Slope|0.049||||0.375|TWO_SIDED|||||Threshold set to p\<0.05.|Regression, Linear|See analysis plan for covariates screened into model.||||||0.375
92220772|NCT01399788|184341999|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|99.48|||||TWO_SIDED|90.0|94.92|104.25||||||Ethambutol; 32 participants (16 per sequence) provided at least 99% power that 90% CI for ratio of test to reference for Cmax lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 16.0% for Cmax was used for this power calculation. Natural log transformed Cmax was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||104.25|94.92|
92355878|NCT04135443|184617189|SUPERIORITY||Slope|0.076||||0.313|TWO_SIDED|||||Threshold set to p\<0.05.|Regression, Linear|See analysis plan for covariates screened into model.||||||0.313
92355879|NCT04135443|184617190|SUPERIORITY||Slope|-0.01||||0.89|TWO_SIDED|||||Threshold set to p\<0.05.|Regression, Linear|See analysis plan for covariates screened into model.||||||0.890
92355880|NCT02554474|184617210|SUPERIORITY||Adjusted difference in mean change|9.4|||||TWO_SIDED|95.0|-0.5|19.3||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing time in MVPA at 9 weeks (primary end point) between groups, adjusting for baseline MVPA, diagnosis, and blocking.||19.3|-0.5|
92355881|NCT02554474|184617211|SUPERIORITY||Adjusted difference in mean change|-10.4|||||TWO_SIDED|95.0|-53.4|32.6||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing sedentary time at 9 weeks (primary end point) between groups, adjusting for baseline sedentary time, diagnosis, and blocking.||32.6|-53.4|
92355882|NCT02554474|184617212|SUPERIORITY||Adjusted difference in mean change|-0.31|||||TWO_SIDED|95.0|-0.63|0.01||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing time in the Fatigue Severity Scale at 9 weeks (primary end point) between groups, adjusting for baseline fatigue score, diagnosis, and blocking.||0.01|-0.63|
92355883|NCT02554474|184617213|SUPERIORITY||Adjusted difference in mean change|-2.45|||||TWO_SIDED|95.0|-4.78|-0.13||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing pain at 9 weeks (primary end point) between groups, adjusting for pain score, diagnosis, and blocking.||-0.13|-4.78|
92355884|NCT02554474|184617214|SUPERIORITY||Adjusted difference in mean change|-0.22|||||TWO_SIDED|95.0|-1.78|1.35||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing the PHQ-9 scores at 9 weeks (primary end point) between groups, adjusting for baseline score, diagnosis, and blocking.||1.35|-1.78|
92220773|NCT01399788|184342000|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|101.73|||||TWO_SIDED|90.0|99.12|104.4||||||Pyrazinamide; 32 participants (16 per sequence) provided at least 99% power that 90% CI for ratio of test to reference for AUClast lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 5.2% for AUClast was used for this power calculation. Natural log transformed AUClast(dn) was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||104.40|99.12|
92220774|NCT01399788|184342001|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|95.17|||||TWO_SIDED|90.0|88.6|102.22||||||Pyrazinamide; 32 participants (16 per sequence) provided at least 99% power that 90% CI for ratio of test to reference for Cmax lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 6.7% for Cmax was used for this power calculation. Natural log transformed Cmax(dn) was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||102.22|88.60|
92220775|NCT01399788|184342002|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|104.3|||||TWO_SIDED|90.0|99.7|109.1||||||Rifampicin; Natural log transformed AUC(0-∞) was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||109.10|99.70|
92220776|NCT01399788|184342002|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|105.74|||||TWO_SIDED|90.0|100.32|111.46||||||Isoniazid; Natural log transformed AUC(0-∞) was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||111.46|100.32|
92401318|NCT00395746|184694025|SUPERIORITY_OR_OTHER||Rate ratio|1.59||||||95.0|0.86|2.96|||Negative binomial regression|||The relative risk for 'All hypoglycaemic episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||2.96|0.86|
92162233|NCT00708097|184214083|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.25|||<|0.0001|TWO_SIDED|95.0|-34.2|-20.3||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||-20.30|-34.20|<0.0001
92162234|NCT00708097|184214083|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.87|||<|0.0001|TWO_SIDED|95.0|-34.84|-20.89||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||-20.89|-34.84|<0.0001
92162235|NCT00708097|184214084|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.45||||0.5451|TWO_SIDED|95.0|-6.15|3.26||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||3.26|-6.15|0.5451
92162236|NCT00708097|184214084|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.5||||0.1433|TWO_SIDED|95.0|-1.2|8.19||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||8.19|-1.20|0.1433
92162237|NCT00708097|184214084|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.47||||0.002|TWO_SIDED|95.0|2.78|12.16||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||12.16|2.78|0.0020
92162238|NCT00708097|184214084|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|23.52|||<|0.0001|TWO_SIDED|95.0|18.79|28.25||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||28.25|18.79|<0.0001
92162239|NCT00708097|184214084|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.94||||0.0373|TWO_SIDED|95.0|0.29|9.59||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||9.59|0.29|0.0373
92162240|NCT00708097|184214084|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.92||||0.0002|TWO_SIDED|95.0|4.24|13.59||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||13.59|4.24|0.0002
92401319|NCT00395746|184694025|SUPERIORITY_OR_OTHER||Rate ratio|1.18||||||95.0|0.56|2.47|||Negative binomial regression model|||The relative risk for 'Minor episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||2.47|0.56|
92162241|NCT00708097|184214084|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|24.97|||<|0.0001|TWO_SIDED|95.0|20.27|29.66||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||29.66|20.27|<0.0001
92162242|NCT00708097|184214084|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.98||||0.0925|TWO_SIDED|95.0|-0.66|8.61||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||8.61|-0.66|0.0925
92355885|NCT02554474|184617215|SUPERIORITY||Adjusted difference in mean change|1.58|||||TWO_SIDED|95.0|-1.02|4.18||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing the Partners In Health Scale scores at 9 weeks (primary end point) between groups, adjusting for baseline score, diagnosis, and blocking.||4.18|-1.02|
92355886|NCT02554474|184617216|SUPERIORITY||Adjusted difference in mean change|0.05|||||TWO_SIDED|95.0|-0.05|0.16||||||We performed an intent-to-treat analysis. For the main comparison, analysis of covariance (ANCOVA) was used to estimate an adjusted mean difference comparing the Sitting at Work index scores at 9 weeks (primary end point) between groups, adjusting for baseline score, diagnosis, and blocking.||0.16|-0.05|
92355887|NCT02554474|184617217|SUPERIORITY||Adjusted difference in mean change|0.0|||||TWO_SIDED|95.0|-0.37|0.37||||||We performed an intent-to-treat analysis. For the main comparison, analysis of covariance (ANCOVA) was used to estimate an adjusted mean difference comparing the Sitting at Leisure index scores at 9 weeks (primary end point) between groups, adjusting for baseline score, diagnosis, and blocking.||0.37|-0.37|
92355888|NCT02554474|184617218|SUPERIORITY||Adjusted difference in mean change|0.54|||||TWO_SIDED|95.0|0.08|0.99||||||We performed an intent-to-treat analysis. For the main comparison, analysis of covariance (ANCOVA) was used to estimate an adjusted mean difference comparing the Walking index scores at 9 weeks (primary end point) between groups, adjusting for baseline score, diagnosis, and blocking.||0.99|0.08|
92355889|NCT02770365|184617230|EQUIVALENCE|provides 85% power of success|Equivalence ratio|1.14|||||TWO_SIDED|90.0|-2.92|12.53|||Wald's method|||||12.53|-2.92|
92355890|NCT02770365|184617231|EQUIVALENCE|the proportion of subjects with treatment success based on the improvement of the Most Bothersome Symptom (MBS) of vulvo-vaginal atrophy at Day 8.|equivalence ratio|0.94||||0.05|TWO_SIDED|90.0|-12.35|4.31|||Wald's method|||||4.31|-12.35|0.05
92355891|NCT00967499|184617251|SUPERIORITY|||||||0.401|||||||Cochran-Mantel-Haenszel|||||||0.4010
92355892|NCT00967499|184617252|SUPERIORITY|||||||0.5672|||||||Cochran-Mantel-Haenszel|||||||0.5672
92355893|NCT00967499|184617253|SUPERIORITY|||||||0.057|||||||Cochran-Mantel-Haenszel|||||||0.0570
92355894|NCT00967499|184617254|SUPERIORITY|||||||0.515|||||||Cochran-Mantel-Haenszel|||||||0.5150
92162243|NCT00708097|184214084|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|20.03|||<|0.0001|TWO_SIDED|95.0|15.35|24.7||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||24.70|15.35|<0.0001
92401320|NCT00395746|184694025|SUPERIORITY_OR_OTHER||Rate ratio|1.8||||||95.0|0.92|3.54|||Negative binomial regression model|||The relative risk for 'Symptoms only' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||3.54|0.92|
92355895|NCT00967499|184617255|SUPERIORITY|||||||0.3601||||||P-values are based on Cochran-Mantel-Haenszel row mean score test with gender adjustment for the ranks of the change from baseline values.|Cochran-Mantel-Haenszel|||||||0.3601
92355896|NCT00967499|184617256|SUPERIORITY|||||||0.3453|||||||Mann-Whitney Test|||24 hours postdose||||0.3453
92355897|NCT00967499|184617256|SUPERIORITY|||||||0.7874|||||||Mann-Whitney Test|||48 hours postdose||||0.7874
92355898|NCT00967499|184617256|SUPERIORITY|||||||0.8485|||||||Mann-Whitney Test|||72 Hours Postdose||||0.8485
92355899|NCT00420056|184617267|SUPERIORITY_OR_OTHER|||||||0.4854|TWO_SIDED||||||Regression, Linear|||||||0.4854
92355900|NCT00420056|184617268|SUPERIORITY_OR_OTHER|||||||0.709|TWO_SIDED||||||Regression, Linear|||||||0.7090
92355901|NCT00420056|184617271|SUPERIORITY_OR_OTHER||Kappa|0.0638|||||TWO_SIDED|95.0|-0.0449|0.1726||||||FLT-PET response versus Objective response||0.1726|-0.0449|
92355902|NCT00420056|184617271|SUPERIORITY_OR_OTHER||Kappa|0.1864|||||TWO_SIDED|95.0|-0.2316|0.6045||||||FDG-PET response versus Objective response||0.6045|-0.2316|
92355903|NCT00420056|184617285|SUPERIORITY_OR_OTHER|||||||0.5954|TWO_SIDED||||||Regression, Linear|||Concentration versus Ki-67||||0.5954
92355904|NCT00420056|184617285|SUPERIORITY_OR_OTHER|||||||0.1286|TWO_SIDED||||||Regression, Linear|||Concentration versus Cyclin D1||||0.1286
92355905|NCT00420056|184617285|SUPERIORITY_OR_OTHER|||||||0.0956|TWO_SIDED||||||Regression, Linear|||Concentration versus phospho-Rb||||0.0956
92355906|NCT00420056|184617285|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Regression, Linear|||Concentration versus FLT-PET SUVmax||||0.2800
92355907|NCT00420056|184617285|SUPERIORITY_OR_OTHER|||||||0.4921|TWO_SIDED||||||Regression, Linear|||Concentration versus FDG-PET SUVmax||||0.4921
92355908|NCT02470377|184617286|SUPERIORITY|The hypothesis was that either Target 1 (Occipital) or Target 2 (Vermis) would be more effective than the control target (Cerebellar hemisphere) but that there may be baseline differences in participants who chose Target 1 vs Target 2.||||||0.0439||||||Only p-values \<0.05 were considered significant|ANOVA|One way ANOVA, immediate DHI changes used for calculation.||This was an N-of-1 pilot study in which all participants received one session of each of 3 targets and chose which of the 3 led to the most acute reduction in intensity of rocking. The participants were treated with the target that they chose and then completed post stimulation diaries.||||0.0439
92220777|NCT01399788|184342002|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|100.97|||||TWO_SIDED|90.0|96.28|105.88||||||Ethambutol; Natural log transformed AUC(0-∞) was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||105.88|96.28|
92220778|NCT01399788|184342003|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|101.8|||||TWO_SIDED|90.0|99.24|104.43||||||Pyrazinamide; Natural log transformed AUC (0 -∞)(dn) was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||104.43|99.24|
92220779|NCT02919436|184342006|SUPERIORITY|We found observed rate of postoperative urinary retention in male spine surgery patients to historically be 17%. We hypothesize that the use of tamsulosin can reduce this rate by 50%. A two group continuity corrected chi-square test with a .05 two-sided significance level will have 80% power to detect the difference between a control group proportion of .17 and a treatment group proportion of .085 (odds ratio of .454) when the sample size in each group is 264 and a total sample size of 528.||||||0.96|||||||Chi-squared, Corrected|||||||.96
92220780|NCT01389752|184342012|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.65|||||TWO_SIDED|90.0|0.61|0.68||The outcome was measured as a ratio of geometric means between the two treatments (LY2216684 in combination with activated charcoal/LY2216684 alone), and the 90% Confidence Interval for the ratio.|Mixed Models Analysis|||||0.68|0.61|
92220781|NCT01389752|184342013|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.9|||||TWO_SIDED|90.0|0.83|0.98||The outcome was measured as a ratio of geometric means between the two treatments (LY2216684 in combination with activated charcoal/LY2216684 alone), and the 90% Confidence Interval for the ratio.|Mixed Models Analysis|||||0.98|0.83|
92220782|NCT01389752|184342014|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.55||||0.001|TWO_SIDED|90.0|-1.04|-0.5||The outcome was measured using the median of paired differences between the 2 treatment groups: LY2216684 administered alone (reference) versus LY2216684 co-administered with charcoal (test).|Wilcoxon (Mann-Whitney)|||||-0.50|-1.04|0.0010
92220783|NCT02409290|184342018|SUPERIORITY||Cox Proportional Hazard|0.2||||0.0016|TWO_SIDED|95.0|0.07|0.61|||Log Rank|||||0.61|0.07|0.0016
92220784|NCT02409290|184342019|SUPERIORITY||Cox Proportional Hazard|0.11||||0.0005|TWO_SIDED|95.0|0.03|0.5|||Log Rank|||Control regimen (arm B) uses concurrent controls only||0.50|0.03|0.0005
92220785|NCT00841789|184342043|SUPERIORITY|||||||0.1|||||||Chi-squared|||||||.10
92220786|NCT00841789|184342044|SUPERIORITY|||||||0.86|||||||Regression, Cox|||We applied a Generalized Estimating Equation (GEE) model to determine z score change values (see Protocol page 36 in Supplement).||||0.86
92220787|NCT00841789|184342045|SUPERIORITY|||||||0.83|||||||GEE|||General Estimating Equation||||.83
92276486|NCT01360632|184454744|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52||||0.0327|TWO_SIDED|95.0|-2.92|-0.13|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||The primary analysis was performed on the Efficacy Sample by fitting a MMRM analysis with an unstructured variance covariance structure in which the change from the end of Phase A (Week 8) in MADRS Total Score (at Weeks 9 to 14) was the dependent variable. The model included fixed class effect terms for treatment, trial site, visit week, and an interaction term of treatment by visit week.||-0.13|-2.92|0.0327
92276487|NCT01360632|184454745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.0737|TWO_SIDED|95.0|-2.73|0.13|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.13|-2.73|0.0737
92220788|NCT00841789|184342045|OTHER|Generallzed Estimating Equation was used for z-score change within groups compared to baseline|General Estimating Equation|||||0.1279|||||||GEE|||We analyzed change from baseline for both etanercept and placebo. LS mean change J(standard error) reported||||0.1279
92220789|NCT00841789|184342046|OTHER|General Estimating Equation for 3 coronary arteries.||||||0.03|||||||GEE|||General Estimating Equation|Generalize estimating equation for 3 coronary arteries evaluated in each patient by echocardiography|||0.03
92220790|NCT00841789|184342046|OTHER|see above||||||0.619|||||||GEE|||GEE performed to compare with change in coronary z score from baseline||||0.619
92355909|NCT02470377|184617287|SUPERIORITY|The hypothesis was that either Target 1 (Occipital) or Target 2 (Vermis) would be more effective than the control target (Cerebellar hemisphere) but that there may be baseline differences in participants who chose Target 1 vs Target 2.||||||0.0316|||||||ANOVA|One way ANOVA, immediate MBRS changes used for calculation.||This was an N-of-1 pilot study in which all participants received one session of each of 3 targets and chose which of the 3 led to the most acute reduction in intensity of rocking. The participants were treated with the target that they chose and then completed post stimulation diaries.||||0.0316
92220791|NCT01664559|184342047|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.99
92220792|NCT01664559|184342048|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||1\) Anticipated pain||||0.31
92220793|NCT01664559|184342048|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2\) pain with injection||||0.33
92220794|NCT01664559|184342048|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||3\) speculum insertion||||0.72
92220795|NCT01664559|184342048|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||4\) tenaculum placement||||0.36
92220796|NCT01664559|184342048|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||5\) uterine sounding||||0.64
92220797|NCT01664559|184342048|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||6\) 5 min after placement||||<0.001
92220798|NCT01664559|184342048|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||7\) 15 min after placement||||<0.001
92220799|NCT01664559|184342049|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||1\) anticipated pain||||0.6
92220800|NCT01664559|184342049|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2\) pain with injection||||1.0
92220801|NCT01664559|184342049|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||3\) speculum insertion||||0.34
92220802|NCT01664559|184342049|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||4\) tenaculum placement||||0.32
92220803|NCT01664559|184342049|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||5\) uterine sounding||||0.04
92220804|NCT01664559|184342049|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||6\) IUD placement||||0.02
92220805|NCT01664559|184342049|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||7\) 5 min after placement||||0.32
92276488|NCT01360632|184454745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.95||||0.0079|TWO_SIDED|95.0|-3.39|-0.51|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.51|-3.39|0.0079
92276489|NCT01360632|184454746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.06||||0.0096|TWO_SIDED|95.0|-1.86|-0.26|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.26|-1.86|0.0096
92276490|NCT01360632|184454746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.4137|TWO_SIDED|95.0|-1.14|0.47|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.47|-1.14|0.4137
92276491|NCT01360632|184454746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44||||0.0065|TWO_SIDED|95.0|-2.47|-0.4|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate||Statistical analysis at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.4|-2.47|0.0065
92276492|NCT01360632|184454746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89||||0.0914|TWO_SIDED|95.0|-1.93|0.14|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.14|-1.93|0.0914
92276493|NCT01360632|184454746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39||||0.0139|TWO_SIDED|95.0|-2.5|-0.28|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.28|-2.5|0.0139
92276494|NCT01360632|184454746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.2097|TWO_SIDED|95.0|-1.82|0.4|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.4|-1.82|0.2097
92276495|NCT01360632|184454746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.56||||0.0099|TWO_SIDED|95.0|-2.75|-0.38|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.38|-2.75|0.0099
92276496|NCT01360632|184454746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29||||0.034|TWO_SIDED|95.0|-2.48|-0.1|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.1|-2.48|0.034
92276497|NCT01360632|184454746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53||||0.0177|TWO_SIDED|95.0|-2.8|-0.27|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.27|-2.8|0.0177
92276498|NCT01360632|184454746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71||||0.0085|TWO_SIDED|95.0|-2.98|-0.44|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.44|-2.98|0.0085
92220806|NCT01664559|184342049|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||8\) 15 min after placement||||0.02
92220807|NCT01664559|184342050|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||Reported side effects (nausea, vomiting, dyspepsia, headache, dizziness, drowsiness, injection site itchiness, swelling or pain)||||> 0.05
92220808|NCT01664559|184342050|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Chi-squared|||Injection site pain (just as bad or worse than IUD procedure)||||0.76
92220809|NCT01664559|184342050|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Chi-squared|||Satisfied or very satisfied with IUD placement procedure||||0.76
92220810|NCT01664559|184342050|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Chi-squared|||Would recommend IUD placement to a friend||||0.35
92401321|NCT00395746|184694025|SUPERIORITY_OR_OTHER||Rate ratio|1.62||||||95.0|0.85|3.07|||Negative binomial regression model|||The relative risk for 'All hypoglycaemic episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||3.07|0.85|
92401322|NCT00395746|184694025|SUPERIORITY_OR_OTHER||Rate ratio|1.48||||||95.0|0.69|3.17|||Negative binomial regression model|||The relative risk for 'Minor episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||3.17|0.69|
92401323|NCT00395746|184694025|SUPERIORITY_OR_OTHER||Rate ratio|1.45||||||95.0|0.72|2.91|||Negative binomial regression model|||The relative risk for 'Symptoms only episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||2.91|0.72|
92401324|NCT00310765|184694067|SUPERIORITY_OR_OTHER_LEGACY|The group-by-time interaction result from repeated-measure analysis of variance modeling was used to evaluate whether the two study groups differed regarding the pain score change that occurred across each of the two study phases (weeks 0-7 and weeks 7-10). To conform to the analysis of variance assumption of distributional normality, the pain scores were square root transformed before the analysis.|Mean Difference (Net)|2.0|STANDARD_DEVIATION|1.5|<|0.05|TWO_SIDED|95.0|0.0|4.0|||ANOVA|||The number of patients required per treatment group to achieve a \>80% power with an alpha=0.05 were based on exact rates from reference articles cited in the paper. Patients were randomly assigned to active drug (pregabalin) or look alike placebo.||4.0|0.0|<0.05
92401325|NCT00310765|184694068|SUPERIORITY_OR_OTHER_LEGACY|The group-by-time interaction result from repeated-measures analysis of variance modeling was used to evaluate whether the two study groups differed regarding the sleep score change that occurred during the two study phases (weeks 0-7 and weeks 7-11. to conform to the analysis of variance assumption of distributional normality the sleep scores were square root transformed before the analysis.|Mean Difference (Net)|2.0|STANDARD_DEVIATION|1.5|<|0.05|TWO_SIDED|95.0|0.0|4.0|||ANOVA|||The number of patients required per treatment group to achieve a \>80% power with an alpha=0.05 were based on the exact rates from the reference articles cited in the paper.||4.0|0.0|<0.05
92401326|NCT04972162|184694117|OTHER|The rm-ANOVA model fitted for the primary analysis was run to confirm if there is a significant interaction for treatment and order. This confirmation of the absence of an interaction effect is needed to validate the pooling of the two periods of Web-App treatment and the two periods of Standard-of-Care treatment, respectively.||||||0.38||||||p\<0.05 would show that there is an interaction effect i.e. results would differ depending on the order in which the participants wore the hearing aids|ANOVA|||"Check for interaction effect for Ease of Communication Subscale (EC)~The statistical analysis method was a repeated-measures ANOVA in which:~* order is a between-subjects effect - i.e., each subject has just one order~* treatment is a within-subjects effect - i.e., each subjects has both treatments because of the cross-over design~* the interaction term treatment x order is a within-subjects effect. The rm-ANOVAs generates a nuisance p-value: that of the interaction effect."||||0.38
92401327|NCT04972162|184694117|OTHER|The rm-ANOVA model fitted for the primary analysis was run to confirm if there is a significant interaction for treatment and order. This confirmation of the absence of an interaction effect is needed to validate the pooling of the two periods of Web-App treatment and the two periods of Standard-of-Care treatment, respectively.||||||0.79||||||p\<0.05 would show that there is an interaction effect i.e. results would differ depending on the order in which the participants wore the hearing aids|ANOVA|||"Check for interaction effect for Background Noise Subscale (BN)~The statistical analysis method was a repeated-measures ANOVA in which:~* order is a between-subjects effect - i.e., each subject has just one order~* treatment is a within-subjects effect - i.e., each subjects has both treatments because of the cross-over design~* the interaction term treatment x order is a within-subjects effect. The rm-ANOVAs generates a nuisance p-value: that of the interaction effect."||||0.79
92401328|NCT04972162|184694117|OTHER|The rm-ANOVA model fitted for the primary analysis was run to confirm if there is a significant interaction for treatment and order. This confirmation of the absence of an interaction effect is needed to validate the pooling of the two periods of Web-App treatment and the two periods of Standard-of-Care treatment, respectively.||||||0.51||||||p\<0.05 would show that there is an interaction effect i.e. results would differ depending on the order in which the participants wore the hearing aids|ANOVA|||"Check for interaction effect for Reverberant Room Subscale (RV)~The statistical analysis method was a repeated-measures ANOVA in which:~* order is a between-subjects effect - i.e., each subject has just one order~* treatment is a within-subjects effect - i.e., each subjects has both treatments because of the cross-over design~* the interaction term treatment x order is a within-subjects effect. The rm-ANOVAs generates a nuisance p-value: that of the interaction effect."||||0.51
92162244|NCT00708097|184214084|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|16.05|||<|0.0001|TWO_SIDED|95.0|11.36|20.74||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||20.74|11.36|<0.0001
92162245|NCT00708097|184214085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.01||||0.9697|TWO_SIDED|95.0|-106.34|102.32||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||102.32|-106.34|0.9697
92220811|NCT01664559|184342050|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||Desires additional pain medication||||0.02
92220812|NCT01664559|184342051|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Chi-squared|||Level of training, PGY 1, 2, 3, 4 and Attending||||0.2
92220813|NCT01664559|184342051|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Chi-squared|||IUD type (levonorgestrel or copper)||||0.09
92220814|NCT01664559|184342051|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Purpose of IUD (contraception or heavy menstrual bleeding)||||1.0
92355910|NCT02470377|184617288|SUPERIORITY|The hypothesis was that either Target 1 (Occipital) or Target 2 (Vermis) would be more effective than the control target (Cerebellar hemisphere) but that there may be baseline differences in participants who chose Target 1 vs Target 2.||||||0.1754|||||||ANOVA|One way ANOVA, immediate HADS changes used for calculation.||This was an N-of-1 pilot study in which all participants received one session of each of 3 targets and chose which of the 3 led to the most acute reduction in intensity of rocking. The participants were treated with the target that they chose and then completed post stimulation diaries.||||0.1754
92220815|NCT01664559|184342051|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED||||||Chi-squared|||Position of uterus (anteverted, retroverted, midpositioned)||||0.92
92220816|NCT01664559|184342051|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Need for cervical dilation||||1.0
92220817|NCT01664559|184342051|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared, Corrected|||Able to complete the IUD insertion||||1.0
92220818|NCT01664559|184342051|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||Chi-squared|||Significant bleeding||||0.24
92220819|NCT01664559|184342051|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Major complications||||1.0
92220820|NCT01664559|184342051|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||Took acetaminophen prior to leaving the office||||0.02
92220821|NCT03631732|184342052|NON_INFERIORITY|B/F/TAF is non-inferior to SBR if the upper bound of the 2-sided 95% confidence interval (CI) of the difference between treatment groups \[B/F/TAF - SBR\] in the percentage of participants with HIV-1 RNA ≥ 50 copies/mL is less than 6% (i.e., a margin of 6% is applied to non-inferiority assessment).|Difference in percentages|-1.2|||||TWO_SIDED|95.0|-4.8|0.9|||||Differences in percentages of participants with HIV-1 RNA \>= 50 copies/mL between treatment groups and 95% CI were calculated based on exact method.|||0.9|-4.8|
92220822|NCT03631732|184342052|SUPERIORITY|||||||0.3399|||||||Fisher Exact|||||||0.3399
92220823|NCT03631732|184342054|NON_INFERIORITY|B/F/TAF is non-inferior to SBR if the lower bound of the 2-sided 95% CI of the difference between treatment groups \[B/F/TAF - SBR\] in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10% (i.e., a margin of 10% is applied to non-inferiority assessment).|Difference in percentages|1.8|||||TWO_SIDED|95.0|-2.0|6.8|||||Differences in percentages of participants with HIV-1 RNA \< 50 copies/mL between treatment groups and 95% CI were calculated based on exact method.|||6.8|-2.0|
92220824|NCT03631732|184342054|SUPERIORITY|||||||0.3532|||||||Fisher Exact|||||||0.3532
92220825|NCT03631732|184342055|NON_INFERIORITY|B/F/TAF is non-inferior to SBR if the lower bound of the 2-sided 95% CI of the difference between treatment groups \[B/F/TAF - SBR\] in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10% (i.e., a margin of 10% is applied to non-inferiority assessment).|Difference in percentages|1.4|||||TWO_SIDED|95.0|-1.0|5.3|||||Differences in percentages of participants with HIV-1 RNA \< 50 copies/mL between treatment groups and 95% CI were calculated based on exact method.|||5.3|-1.0|
92220826|NCT03631732|184342055|SUPERIORITY|||||||0.3356|||||||Fisher Exact|||||||0.3356
92220827|NCT03631732|184342057|OTHER||Difference in LSM|11.0||||0.5618|TWO_SIDED|95.0|-27.0|49.0|||ANOVA|P-value was calculated from ANOVA model with treatment as a fixed effect.|Difference in LSM (Least square mean) and its 95% C.I. was calculated from ANOVA model with treatment as a fixed effect.|||49|-27|0.5618
92220828|NCT03631732|184342058|OTHER||Difference in LSM|9.0||||0.6632|TWO_SIDED|95.0|-31.0|48.0|||ANOVA|P-value was calculated from ANOVA model with treatment as a fixed effect.|Difference in LSM and its 95% C.I. was calculated from ANOVA model with treatment as a fixed effect.|||48|-31|0.6632
92220829|NCT02255409|184342109|OTHER||Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0|-6.7|9.7||||||Vaccine Group Difference (aQIV - QIV) for A/H1N1 at Day 22||9.7|-6.7|
92220830|NCT02255409|184342109|OTHER||Mean Difference (Final Values)|-6.0|||||TWO_SIDED|95.0|-14.2|2.3||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 22||2.3|-14.2|
92220831|NCT02255409|184342109|OTHER||Mean Difference (Final Values)|16.3|||||TWO_SIDED|95.0|8.4|24.1||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 22||24.1|8.4|
92220832|NCT02255409|184342109|OTHER||Mean Difference (Final Values)|14.2|||||TWO_SIDED|95.0|6.3|22.0||||||Vaccine Group Difference (aQIV - QIV) for B/Victoria at Day 22||22.0|6.3|
92220833|NCT02255409|184342110|OTHER||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.9|2.2||||||Vaccine Group Difference (aQIV - QIV) for A/H1N1 at Day 22||2.2|-0.9|
92355911|NCT00289900|184617313|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-13.2|||<|0.001|TWO_SIDED|95.0|-16.8|-9.6|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-9.6|-16.8|<0.001
92220834|NCT02255409|184342110|OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.9|1.2||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 22||1.2|-1.9|
92220835|NCT02255409|184342110|OTHER||Mean Difference (Final Values)|14.4|||||TWO_SIDED|95.0|9.3|20.0||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 22||20.0|9.3|
92220836|NCT02255409|184342110|OTHER||Mean Difference (Final Values)|26.0|||||TWO_SIDED|95.0|20.6|32.0||||||Vaccine Group Difference (aQIV - QIV) for B/Victoria at Day 22||32.0|20.6|
92220837|NCT02255409|184342114|OTHER||Mean Difference (Final Values)|5.8|||||TWO_SIDED|95.0|-1.6|13.0||||||Vaccine Group Difference (aQIV - QIV) for A/H1N1 at Day 181||13.0|-1.6|
92220838|NCT02255409|184342114|OTHER||Mean Difference (Final Values)|2.2|||||TWO_SIDED|95.0|-5.5|9.8||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 181||9.8|-5.5|
92220839|NCT02255409|184342114|OTHER||Mean Difference (Final Values)|11.8|||||TWO_SIDED|95.0|5.3|18.3||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 181||18.3|5.3|
92220840|NCT02255409|184342114|OTHER||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-8.4|5.7||||||Vaccine Group Difference (aQIV - QIV) for B/Victoria at Day 181||5.7|-8.4|
92220841|NCT02255409|184342115|OTHER||Mean Difference (Final Values)|4.8|||||TWO_SIDED|95.0|2.4|8.4||||||Vaccine Group Difference (aQIV - QIV) for A/H1N1 at Day 181||8.4|2.4|
92220842|NCT02255409|184342115|OTHER||Mean Difference (Final Values)|5.6|||||TWO_SIDED|95.0|3.1|9.3||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 181||9.3|3.1|
92220843|NCT02255409|184342115|OTHER||Mean Difference (Final Values)|33.2|||||TWO_SIDED|95.0|25.0|40.9||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 181||40.9|25.0|
92220844|NCT02255409|184342115|OTHER||Mean Difference (Final Values)|37.3|||||TWO_SIDED|95.0|29.6|44.7||||||Vaccine Group Difference (aQIV - QIV) for B/Victoria at Day 181||44.7|29.6|
92355912|NCT00289900|184617313|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.8|||<|0.001|TWO_SIDED|95.0|-13.8|-7.8|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-7.8|-13.8|<0.001
92355913|NCT00289900|184617313|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.1|||<|0.001|TWO_SIDED|95.0|-8.1|-2.1|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-2.1|-8.1|<0.001
92355914|NCT00289900|184617313|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-4.2||||0.007|TWO_SIDED|95.0|-7.2|-1.2|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-1.2|-7.2|0.007
92355915|NCT00289900|184617314|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|19.9|||<|0.001|TWO_SIDED|95.0|17.2|22.6|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||22.6|17.2|<0.001
92355916|NCT00289900|184617314|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|21.3|||<|0.001|TWO_SIDED|95.0|19.0|23.6|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||23.6|19.0|<0.001
92355917|NCT00289900|184617314|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|22.1|||<|0.001|TWO_SIDED|95.0|19.8|24.4|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||24.4|19.8|<0.001
92355918|NCT00289900|184617314|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|23.0|||<|0.001|TWO_SIDED|95.0|20.7|25.3|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||25.3|20.7|<0.001
92401329|NCT04972162|184694117|NON_INFERIORITY|Non-inferiority tests compared the subject´s perceived hearing aid benefit when the hearing aid was standard-of-care fitted compared to Web-App fitted by the subject. The non-inferiority margins are the minimum clinically important differences on each of the 3 communication benefit subscales as described by Cox \& Alexander (Ear and Hearing 1995;16;176-186). These literature values are as follows: Ease of Communication (EC): 26, Background Noise (BN): 27, Reverberant Room (RV): 28|Mean Difference (Final Values)|0.44|||<|0.0001|TWO_SIDED|95.0|-4.3|5.2||Threshold for statistical significance was p =0.05. p-value was calculated using the estimated difference of benefits, calculating a new t-statistic by subtracting the applicable non-inf. margin from the difference and dividing by standard error.|ANOVA|repeated measures ANOVA where factors are order and treatment is device with patient as a random effect. Added interaction term of treatment and order|Difference calculated as benefit(standard-of-care fit) - benefit(web-app-fit)|Results for Ease of Communication Subscale. Null hypothesis: benefit(standard-of-care fit) - benefit(web-app-fit) \< noninferiority margin for all subscales. Each subscale was analyzed using an rm-ANOVA in which the repeated factors are order \& treatment; no between-group factors. Interaction term was order x treatment. ITT population includes 2 subjects who withdrew. It was concluded that their primary endpoint data was missing for cause and their APHAB benefit scores were imputed as 0.||5.2|-4.3|<0.0001
92401330|NCT04972162|184694117|NON_INFERIORITY|Non-inferiority tests compared the subject´s perceived hearing aid benefit when the hearing aid was standard-of-care fitted compared to Web-App fitted by the subject. The non-inferiority margins are the minimum clinically important differences on each of the 3 communication benefit subscales as described by Cox \& Alexander (Ear and Hearing 1995;16;176-186). These literature values are as follows: Ease of Communication (EC): 26, Background Noise (BN): 27, Reverberant Room (RV): 28|Mean Difference (Final Values)|0.97|||<|0.0001|TWO_SIDED|95.0|-5.3|7.2||Threshold for statistical significance was p =0.05. p-value was calculated using the estimated difference of benefits, calculating a new t-statistic by subtracting the applicable non-inf. margin from the difference and dividing by standard error.|ANOVA|repeated measures ANOVA where factors are order and treatment is device with patient as a random effect. Added interaction term of treatment and order|Difference calculated as benefit(standard-of-care fit) - benefit(web-app-fit)|Results for Background Noise Subscale. Null hypothesis: benefit(standard-of-care fit) - benefit(web-app-fit) \< noninferiority margin for all subscales. Each subscale was analyzed using an rm-ANOVA in which the repeated factors are order \& treatment; no between-group factors. Interaction term was order x treatment. ITT population includes 2 subjects who withdrew. It was concluded that their primary endpoint data was missing for cause and their APHAB benefit scores were imputed as 0.||7.2|-5.3|<0.0001
92405672|NCT00705016|184701511|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.55||||0.054|TWO_SIDED|95.0|0.99|2.43||The Type I error was not taken into account, since the sample size calculation is based on selection theory.|Cox proportional hazards model|Stratification factor: Karnofsky performance status (KPS) \<80/\>=80||Sample size of 177 subjects was estimated such that the treatment group with the best PFS result had a 90% probability of emerging as the one with the smaller observed log HR, if there was an underlying difference of 2.2 months between the arms in the median PFS (7.8 months in the best group and 5.6 months in the other 2 groups). It was assumed that the accrual and follow-up time would take 1 year each, and that the drop-out rate was 8%.||2.43|0.99|0.054
92220845|NCT02255409|184342116|OTHER||GMT Ratio|1.94|||||TWO_SIDED|95.0|1.6|2.4||||||The ratio of GMT (GMTr) values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H1N1 at Day 1.||2.4|1.6|
92220846|NCT02255409|184342116|OTHER||GMT Ratio|1.48|||||TWO_SIDED|95.0|1.3|1.7||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H1N1 at Day 22.||1.7|1.3|
92220847|NCT02255409|184342116|OTHER||GMT Ratio|1.5|||||TWO_SIDED|95.0|1.3|1.7||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H1N1 at Day 181.||1.7|1.3|
92355919|NCT00289900|184617315|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-17.3|||<|0.001|TWO_SIDED|95.0|-21.2|-13.3|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free confidence interval (CI) based on Wilcoxon's rank sum test|||-13.3|-21.2|<0.001
92355920|NCT00289900|184617315|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-15.5|||<|0.001|TWO_SIDED|95.0|-19.1|-11.9|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-11.9|-19.1|<0.001
92355921|NCT00289900|184617315|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-13.7|-7.0|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-7.0|-13.7|<0.001
92355922|NCT00289900|184617315|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-6.8|||<|0.001|TWO_SIDED|95.0|-10.2|-3.4|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-3.4|-10.2|<0.001
92355923|NCT00289900|184617316|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.1|||<|0.001|TWO_SIDED|95.0|-12.1|-6.0|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-6.0|-12.1|<0.001
92355924|NCT00289900|184617316|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.4|||<|0.001|TWO_SIDED|95.0|-8.0|-2.9|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-2.9|-8.0|<0.001
92162246|NCT00708097|184214085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|106.9||||0.044|TWO_SIDED|95.0|2.92|210.87||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||210.87|2.92|0.0440
92162247|NCT00708097|184214085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|160.92||||0.0026|TWO_SIDED|95.0|56.96|264.88||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||264.88|56.96|0.0026
92162248|NCT00708097|184214085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|222.47|||<|0.0001|TWO_SIDED|95.0|117.58|327.36||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||327.36|117.58|<0.0001
92162249|NCT00708097|184214085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|108.91||||0.0382|TWO_SIDED|95.0|5.98|211.83||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||211.83|5.98|0.0382
92276499|NCT01360632|184454747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.0286|TWO_SIDED|95.0|-1.74|-0.1|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.1|-1.74|0.0286
92355925|NCT00289900|184617316|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|0.4||||0.771|TWO_SIDED|95.0|-2.2|2.9|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||2.9|-2.2|0.771
92355926|NCT00289900|184617316|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|2.4||||0.065|TWO_SIDED|95.0|-0.2|5.0|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||5.0|-0.2|0.065
92355927|NCT00289900|184617317|SUPERIORITY_OR_OTHER||Difference in least Squares Mean|-6.8|||<|0.001|TWO_SIDED|95.0|-10.2|-3.5|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-3.5|-10.2|<0.001
92355928|NCT00289900|184617317|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-3.0||||0.037|TWO_SIDED|95.0|-5.8|-0.2|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-0.2|-5.8|0.037
92355929|NCT00289900|184617317|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|2.8||||0.047|TWO_SIDED|95.0|0.0|5.6|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||5.6|0.0|0.047
92355930|NCT00289900|184617317|SUPERIORITY_OR_OTHER||Difference in Least Sqaures Mean|4.7|||<|0.001|TWO_SIDED|95.0|2.0|7.5|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||7.5|2.0|<0.001
92220848|NCT02255409|184342116|OTHER||GMT Ratio|2.16|||||TWO_SIDED|95.0|1.7|2.7||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 1.||2.7|1.7|
92220849|NCT02255409|184342116|OTHER||GMT Ratio|1.34|||||TWO_SIDED|95.0|1.2|1.5||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 22.||1.5|1.2|
92220850|NCT02255409|184342116|OTHER||GMT Ratio|1.34|||||TWO_SIDED|95.0|1.2|1.6||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 181.||1.6|1.2|
92220851|NCT02255409|184342116|OTHER||GMT Ratio|1.82|||||TWO_SIDED|95.0|1.5|2.2||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Yamagata at Day 1.||2.2|1.5|
92220852|NCT02255409|184342116|OTHER||GMT Ratio|1.75|||||TWO_SIDED|95.0|1.5|2.0||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Yamagata at Day 22.||2.0|1.5|
92355931|NCT00289900|184617318|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.2|||<|0.001|TWO_SIDED|95.0|-12.1|-6.3|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-6.3|-12.1|<0.001
92355932|NCT00289900|184617318|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.2|||<|0.001|TWO_SIDED|95.0|-7.7|-2.8|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-2.8|-7.7|<0.001
92355933|NCT00289900|184617318|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.9||||0.476|TWO_SIDED|95.0|-3.3|1.5|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||1.5|-3.3|0.476
92355934|NCT00289900|184617318|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|0.2||||0.845|TWO_SIDED|95.0|-2.2|2.7|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||2.7|-2.2|0.845
92355935|NCT00289900|184617319|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|9.0|||<|0.001|TWO_SIDED|95.0|6.6|11.4|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||11.4|6.6|<0.001
92355936|NCT00289900|184617319|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|7.7|||<|0.001|TWO_SIDED|95.0|5.8|9.7|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||9.7|5.8|<0.001
92405673|NCT00705016|184701512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.8|TWO_SIDED|95.0|0.61|1.47||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cox proportional hazards model|||||1.47|0.61|0.800
92355937|NCT00289900|184617319|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|9.0|||<|0.001|TWO_SIDED|95.0|7.0|10.9|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||10.9|7.0|<0.001
92355938|NCT00289900|184617319|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|10.7|||<|0.001|TWO_SIDED|95.0|8.7|12.7|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||12.7|8.7|<0.001
92355939|NCT00289900|184617320|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-3.6||||0.003|TWO_SIDED|95.0|-6.0|-1.2|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-1.2|-6.0|0.003
92355940|NCT00289900|184617320|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.5||||0.595|TWO_SIDED|95.0|-2.5|1.5|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||1.5|-2.5|0.595
92355941|NCT00289900|184617320|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|4.2|||<|0.001|TWO_SIDED|95.0|2.2|6.2|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||6.2|2.2|<0.001
92220853|NCT02255409|184342116|OTHER||GMT Ratio|1.85|||||TWO_SIDED|95.0|1.6|2.2||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Yamagata at Day 181.||2.2|1.6|
92220854|NCT02255409|184342116|OTHER||GMT Ratio|3.24|||||TWO_SIDED|95.0|2.7|4.0||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Victoria at Day 1.||4.0|2.7|
92220855|NCT02255409|184342116|OTHER||GMT Ratio|1.49|||||TWO_SIDED|95.0|1.2|1.8||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Victoria at Day 22.||1.8|1.2|
92220856|NCT02255409|184342116|OTHER||GMT Ratio|1.29|||||TWO_SIDED|95.0|1.1|1.5||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Victoria at Day 181.||1.5|1.1|
92220857|NCT02255409|184342118|OTHER||Mean Difference (Final Values)|5.7|||||TWO_SIDED|95.0|-5.2|16.3||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 181||16.3|-5.2|
92220858|NCT02255409|184342118|OTHER||Mean Difference (Final Values)|14.5|||||TWO_SIDED|95.0|5.3|23.6||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 181||23.6|5.3|
92220859|NCT02255409|184342119|OTHER||Mean Difference (Final Values)|16.3|||||TWO_SIDED|95.0|9.5|24.1||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 181||24.1|9.5|
92220860|NCT02255409|184342119|OTHER||Mean Difference (Final Values)|46.4|||||TWO_SIDED|95.0|35.9|55.8||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 181||55.8|35.9|
92220861|NCT02255409|184342120|OTHER||GMT Ratio|2.63|||||TWO_SIDED|95.0|1.8|3.8||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 1.||3.8|1.8|
92220862|NCT02255409|184342120|OTHER||GMT Ratio|1.57|||||TWO_SIDED|95.0|1.3|2.9||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 22.||2.9|1.3|
92355942|NCT00289900|184617320|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|6.1|||<|0.001|TWO_SIDED|95.0|4.1|8.1|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||8.1|4.1|<0.001
92355943|NCT00289900|184617321|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-18.8|||<|0.001|TWO_SIDED|95.0|-24.2|-14.2|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-14.2|-24.2|<0.001
92405674|NCT00705016|184701512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.878|TWO_SIDED|95.0|0.66|1.63|||Cox proportional hazards model|||||1.63|0.66|0.878
92220863|NCT02255409|184342120|OTHER||GMT Ratio|1.7|||||TWO_SIDED|95.0|1.3|2.2||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 181.||2.2|1.3|
92355944|NCT00289900|184617321|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-20.5|||<|0.001|TWO_SIDED|95.0|-25.0|-16.6|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-16.6|-25.0|<0.001
92355945|NCT00289900|184617321|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-23.9|||<|0.001|TWO_SIDED|95.0|-27.8|-19.4|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-19.4|-27.8|<0.001
92355946|NCT00289900|184617321|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-24.6|||<|0.001|TWO_SIDED|95.0|-28.6|-20.0|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-20.0|-28.6|<0.001
92355947|NCT00289900|184617322|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.8||||0.5|TWO_SIDED|95.0|-9.6|7.5|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||7.5|-9.6|0.500
92355948|NCT00289900|184617322|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.9||||0.083|TWO_SIDED|95.0|0.0|13.8|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||13.8|0.0|0.083
92355949|NCT00289900|184617322|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|11.9||||0.005|TWO_SIDED|95.0|5.2|18.8|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||18.8|5.2|0.005
92355950|NCT00289900|184617322|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|16.4|||<|0.001|TWO_SIDED|95.0|9.8|22.8|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||22.8|9.8|<0.001
92355951|NCT00289900|184617323|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-12.8|||<|0.001|TWO_SIDED|95.0|-15.6|-9.9|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-9.9|-15.6|<0.001
92162250|NCT00708097|184214085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|162.93||||0.0021|TWO_SIDED|95.0|59.68|266.18||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||266.18|59.68|0.0021
92355952|NCT00289900|184617323|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.8|||<|0.001|TWO_SIDED|95.0|-13.2|-8.4|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-8.4|-13.2|<0.001
92355953|NCT00289900|184617323|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-6.4||||0.001|TWO_SIDED|95.0|-8.8|-4.0|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-4.0|-8.8|0.001
92220864|NCT02255409|184342120|OTHER||GMT Ratio|1.99|||||TWO_SIDED|95.0|1.5|2.6||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Yamagata at Day 1.||2.6|1.5|
92220865|NCT02255409|184342120|OTHER||GMT Ratio|2.21|||||TWO_SIDED|95.0|1.8|2.7||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 22.||2.7|1.8|
92355954|NCT00289900|184617323|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.6|||<|0.001|TWO_SIDED|95.0|-8.0|-3.2|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-3.2|-8.0|<0.001
92355955|NCT00289900|184617324|SUPERIORITY_OR_OTHER||Difference in Proportion|-1.4||||0.008|TWO_SIDED|95.0|-2.3|-0.5|||Miettinen and Nurminen|||||-0.5|-2.3|0.008
92355956|NCT00289900|184617325|SUPERIORITY_OR_OTHER||Difference in Proportion|-0.7||||0.042|TWO_SIDED|95.0|-1.4|0.0|||Miettinen and Nurminen|||||-0.0|-1.4|0.042
92355957|NCT00289900|184617326|SUPERIORITY_OR_OTHER||Difference in Proportion|-0.1||||0.346|TWO_SIDED|95.0|-0.5|0.4|||Miettinen and Nurminen|||||0.4|-0.5|0.346
92355958|NCT00289900|184617327|SUPERIORITY_OR_OTHER||Difference in Proportion|0.1||||0.556|TWO_SIDED|95.0|-0.2|0.7|||Miettinen and Nurminen|||||0.7|-0.2|0.556
92355959|NCT00289900|184617328|SUPERIORITY_OR_OTHER||Difference in Proportion|0.1||||0.134|TWO_SIDED|95.0|-0.1|0.8|||Miettinen and Nurminen|||||0.8|-0.1|0.134
92355960|NCT00289900|184617329|SUPERIORITY_OR_OTHER||Difference in Proportion|0.1||||0.134||95.0|-0.1|0.8|||Miettinen and Nurminen|||||0.8|-0.1|0.134
92355961|NCT00289900|184617330|SUPERIORITY_OR_OTHER||Difference in Percentage|0.1||||0.5625|TWO_SIDED|95.0|-0.3|0.9|||Miettinen and Nurminen|||||0.9|-0.3|0.5625
92220866|NCT02255409|184342120|OTHER||GMT Ratio|2.55|||||TWO_SIDED|95.0|2.1|3.2||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 181.||3.2|2.1|
92220867|NCT00135668|184342127|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.2|STANDARD_DEVIATION|16.16|<|0.001|TWO_SIDED|95.0|-18.44|-13.97|||t-test, 2 sided|Paired t-test used.||Paired t-test used to test the null hypothesis of no change in MAP from baseline.||-13.97|-18.44|<0.001
92220868|NCT00135668|184342127|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.0|STANDARD_DEVIATION|15.68|<|0.001|TWO_SIDED|95.0|-15.45|-6.55|||t-test, 2 sided|Paired t-test.||||-6.55|-15.45|<0.001
92220869|NCT00135668|184342127|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.0|STANDARD_DEVIATION|12.88|<|0.001|TWO_SIDED|95.0|-20.7|-13.3|||t-test, 2 sided|Paired t-test.||||-13.30|-20.70|<0.001
92220870|NCT00135668|184342127|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.0|STANDARD_DEVIATION|15.95|<|0.001|TWO_SIDED|95.0|-24.38|-15.58|||t-test, 2 sided|Paired t-test.||||-15.58|-24.38|<0.001
92220871|NCT00135668|184342127|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.6|STANDARD_DEVIATION|18.63|<|0.001|TWO_SIDED|95.0|-21.87|-11.39|||t-test, 2 sided|Paired t-test||||-11.39|-21.87|<0.001
92220872|NCT02290873|184342144|SUPERIORITY||Difference in Rates|0.8961|||<|0.0001|TWO_SIDED|95.0|0.8505|0.9416||P-value calculated from a Cochran-Mantel-Haenszel test accounting for fentanyl strata.|Cochran-Mantel-Haenszel|||||0.9416|0.8505|<0.0001
92220873|NCT02290873|184342145|SUPERIORITY||Hazard Ratio (HR)|6.133|||<|0.0001|TWO_SIDED|95.0|4.416|8.517|||Log Rank|||||8.517|4.416|<0.0001
92220874|NCT02370615|184342148|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 10/Day 1)|2.012|||||TWO_SIDED|90.0|1.632|2.481||||||Analysis for TAK 272F||2.481|1.632|
92220875|NCT02370615|184342148|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 10/Day 1)|0.089|||||TWO_SIDED|90.0|0.064|0.123||||||Analysis for TAK 272-M-I||0.123|0.064|
92220876|NCT02370615|184342149|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 10/Day 1)|4.888|||||TWO_SIDED|90.0|4.137|5.777||||||Analysis for TAK 272F||5.777|4.137|
92220877|NCT02370615|184342150|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 10/Day 1)|4.702|||||TWO_SIDED|90.0|3.969|5.569||||||Analysis for TAK 272F||5.569|3.969|
92220878|NCT02370615|184342150|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 10/Day 1)|0.023|||||TWO_SIDED|90.0|0.012|0.045||||||Analysis for TAK 272-M-I||0.045|0.012|
92355962|NCT00289900|184617331|SUPERIORITY_OR_OTHER||Difference in Percentage|0.7||||0.0233|TWO_SIDED|95.0|0.1|1.7|||Miettinen and Nurminen|||||1.7|0.1|0.0233
92355963|NCT00289900|184617332|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.1||||0.7858|TWO_SIDED|95.0|-0.4|0.6|||Miettinen and Nurminen|||||0.6|-0.4|0.7858
92220879|NCT02370615|184342152|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.349|||||TWO_SIDED|90.0|1.117|1.628||||||||1.628|1.117|
92220880|NCT02370615|184342153|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.02|||||TWO_SIDED|90.0|0.919|1.131||||||||1.131|0.919|
92220881|NCT02370615|184342154|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.155|||||TWO_SIDED|90.0|1.035|1.289||||||||1.289|1.035|
92220882|NCT02370615|184342156|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.235|||||TWO_SIDED|90.0|1.1|1.387||||||Analysis for Midazolam||1.387|1.100|
92220883|NCT02370615|184342156|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|0.887|||||TWO_SIDED|90.0|0.781|1.008||||||Analysis for 1'Hydroxymidazolam||1.008|0.781|
92220884|NCT02370615|184342157|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.422|||||TWO_SIDED|90.0|1.29|1.568||||||Analysis for Midazolam||1.568|1.290|
92220885|NCT02370615|184342157|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.081|||||TWO_SIDED|90.0|1.008|1.16||||||Analysis for 1'Hydroxymidazolam||1.160|1.008|
92355964|NCT00289900|184617333|SUPERIORITY_OR_OTHER||Difference in Percentage|13.7|||||TWO_SIDED|95.0|9.4|18.0|||Miettinen and Nurminen|||||18.0|9.4|
92355965|NCT00289900|184617334|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.7|||||TWO_SIDED|95.0|-2.6|1.4|||Miettinen and Nurminen|||||1.4|-2.6|
92355966|NCT00289900|184617335|SUPERIORITY_OR_OTHER||Difference in Percentage|11.7|||||TWO_SIDED|95.0|8.9|14.7|||Miettinen and Nurminen|||||14.7|8.9|
92355967|NCT00289900|184617336|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.1|||||TWO_SIDED|95.0|-0.8|0.9|||Miettinen and Nurminen|||||0.9|-0.8|
92220886|NCT02370615|184342158|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.425|||||TWO_SIDED|90.0|1.291|1.574||||||Analysis for Midazolam||1.574|1.291|
92220887|NCT02370615|184342158|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.061|||||TWO_SIDED|90.0|0.986|1.143||||||Analysis for 1'Hydroxymidazolam||1.143|0.986|
92220888|NCT03715153|184342165|SUPERIORITY||Estimate of the adjusted difference|0.35|STANDARD_ERROR_OF_MEAN|0.71||0.617|TWO_SIDED|95.0|-1.04|1.75|||t-test, 2 sided|General Linear Model including the fixed, categorical effects of treatment, country, gender, as well as the continuous, fixed covariates of baseline.|Estimate of the adjusted difference was based on 211 patients (Missing data were imputed).|||1.75|-1.04|0.617
92220889|NCT03715153|184342166|SUPERIORITY||Estimate of the adjusted difference|0.48|STANDARD_ERROR_OF_MEAN|3.26|||TWO_SIDED|95.0|-5.91|6.88|||||General Linear Model including the fixed, categorical effects of treatment, country, gender, as well as the continuous, fixed covariates of baseline. Estimate of the adjusted difference was based on 211 patients (Missing data were imputed).|||6.88|-5.91|
92220890|NCT03715153|184342167|SUPERIORITY||Estimate of the adjusted difference|-0.04|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.24|0.16|||||Rank-based analysis (Wilcoxon scores) including terms for fixed categorical effects of treatment, country and gender. Estimate of the adjusted difference was based on 211 patients (Missing data were imputed).|||0.16|-0.24|
92220891|NCT03715153|184342168|SUPERIORITY||Estimate of the adjusted difference|0.16|STANDARD_ERROR_OF_MEAN|0.81|||TWO_SIDED|95.0|-1.42|1.75|||||General Linear Model including the fixed, categorical effects of treatment, country, gender, as well as the continuous, fixed covariates of baseline. Estimate of the adjusted difference was based on 211 patients (Missing data were imputed).|||1.75|-1.42|
92220892|NCT03715153|184342172|SUPERIORITY||Estimate of the adjusted difference|-0.26|STANDARD_ERROR_OF_MEAN|2.48|||TWO_SIDED|95.0|-5.12|4.59||||||||4.59|-5.12|
92355968|NCT00289900|184617337|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.1||||0.4997|TWO_SIDED|95.0|-0.4|0.5|||Miettinen and Nurminen|||||0.5|-0.4|0.4997
92355969|NCT01703221|184617338|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-0.8|||<|0.001|TWO_SIDED|95.0|-0.96|-0.63|||Constrained longitudinal analysis|Terms for treatment, prior oral antihyperglycemic agent (AHA), time, time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-0.63|-0.96|<0.001
92355970|NCT01703221|184617338|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-0.78|||<|0.001|TWO_SIDED|95.0|-0.94|-0.61|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-0.61|-0.94|<0.001
92405675|NCT00705016|184701513|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.595||||0.205|TWO_SIDED|95.0|0.776|3.276||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cochran-Mantel-Haenszel|||||3.276|0.776|0.205
92355971|NCT01703221|184617338|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Omarigliptin will be considered non-inferior to sitagliptin if the upper bound of the two-sided 95% confidence interval of the between-treatment difference in least squares means for change from baseline in HbA1c at Week 24 (omarigliptin minus sitagliptin) is not more than 0.3% (non-inferiority margin).|Difference in the least squares means|-0.02||||0.792|TWO_SIDED|95.0|-0.15|0.12|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||0.12|-0.15|0.792
92355972|NCT01703221|184617343|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-36.89|||<|0.001|TWO_SIDED|95.0|-48.46|-25.33|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-25.33|-48.46|<0.001
92355973|NCT01703221|184617343|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-39.76|||<|0.001|TWO_SIDED|95.0|-51.28|-28.23|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-28.23|-51.28|<0.001
92355974|NCT01703221|184617343|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|2.86||||0.555|TWO_SIDED|95.0|-6.67|12.39|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||12.39|-6.67|0.555
92355975|NCT01703221|184617344|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-12.28|||<|0.001|TWO_SIDED|95.0|-17.78|-6.78|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-6.78|-17.78|<0.001
92355976|NCT01703221|184617344|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-14.51|||<|0.001|TWO_SIDED|95.0|-20.04|-8.98|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-8.98|-20.04|<0.001
92220893|NCT02258451|184342185|SUPERIORITY||Hazard Ratio (HR)|0.891||||0.4843|TWO_SIDED|80.0|0.72|1.102||1-sided SSE-FS hypotheses were tested using a log-rank test with a 2-sided alpha of 0.2, stratified by the randomization stratification factors.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) for SSE-FS was calculated using Cox Proportional Hazards Model, stratified by the same stratification factors as randomization.|The 1-sided null hypothesis that treatment with radium-223 dichloride does not result in superior SSE-FS to treatment with placebo in participant population was tested against the 1-sided alternative hypothesis that the treatment with radium-223 dichloride results in superior SSE-FS time to treatment the placebo. H0: SSE-FS Radium-223+Exemestane/Everolimus \<= SSE-FS Placebo+Exemestane/Everolimus, versus HA: SSE-FSRadium-223+Exemestane/Everolimus \> SSE-FS Placebo+Exemestane/Everolimus||1.102|0.720|0.4843
92355977|NCT01703221|184617344|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|2.23||||0.33|TWO_SIDED|95.0|-2.27|6.73|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||6.73|-2.27|0.330
92355978|NCT02656173|184617355|SUPERIORITY||least square mean difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.82|-0.21|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis, including treatment group and region as fixed factors and baseline as a covariate.||-0.21|-0.82|<0.001
92355979|NCT02656173|184617356|SUPERIORITY||least square mean difference|-0.48|||<|0.001|TWO_SIDED|95.0|-0.78|-0.17|||mixed model repeated measure|||Mixed Model Repeated Measure (MMRM) was used for analysis, which included the baseline as a covariate, treatment group, analysis visits and region as a fixed effect, subject as random effect and including interaction of \[treatment group x visit\] for FAS.||-0.17|-0.78|<0.001
92355980|NCT02656173|184617357|SUPERIORITY||least square mean difference|-0.28||||0.112|TWO_SIDED|95.0|-0.63|0.07|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||0.07|-0.63|0.112
92355981|NCT02656173|184617358|SUPERIORITY||Cochran-Mantel-Haenszel Statistics|1.75||||0.186|||||||Stratified Rank Analysis of Covariance|||Stratified Rank Analysis of Covariance (RANCOVA), including the rank score for change from Baseline to End of Treatment stratified by region as the dependent variable, treatment group and region as fixed factors and the rank score for baseline stratified by region as a covariate for FAS.||||0.186
92355982|NCT02656173|184617359|SUPERIORITY||Cochran-Mantel-Haenszel Statistics|0.09||||0.76|||||||Stratified Rank Analysis of Covariance|||Stratified Rank Analysis of Covariance (RANCOVA), including the rank score for change from Baseline to End of Treatment stratified by region as the dependent variable, treatment group and region as fixed factors and the rank score for baseline stratified by region as a covariate for FAS.||||0.760
92355983|NCT02656173|184617360|SUPERIORITY||Least square mean difference|-0.03||||0.646|TWO_SIDED|95.0|-0.18|0.11|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||0.11|-0.18|0.646
92355984|NCT02656173|184617361|SUPERIORITY||Least square mean difference|12.08|||<|0.001|TWO_SIDED|95.0|6.33|17.84|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||17.84|6.33|<0.001
92355985|NCT02656173|184617362|SUPERIORITY||Least square mean difference|-0.65||||0.001|TWO_SIDED|95.0|-1.04|-0.26|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.26|-1.04|0.001
92355986|NCT02656173|184617363|SUPERIORITY||Least square mean difference|-0.11||||0.006|TWO_SIDED|95.0|-0.19|-0.03|||ANCOVA|||Subscale: Daytime Frequency. Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.03|-0.19|0.006
92355987|NCT02656173|184617363|SUPERIORITY||Least square mean difference|-0.08||||0.174|TWO_SIDED|95.0|-0.19|0.03|||ANCOVA|||Subscale: Nighttime Frequency. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||0.03|-0.19|0.174
92162251|NCT00708097|184214085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|224.48|||<|0.0001|TWO_SIDED|95.0|120.51|328.46||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||328.46|120.51|<0.0001
92220894|NCT02258451|184342186|SUPERIORITY||Hazard Ratio (HR)|0.968||||0.8438|TWO_SIDED|95.0|0.697|1.343||P-value was calculated using a 2-sided log-rank test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) was calculated using Cox Proportional Hazards Model , stratified by the same stratification factors as randomization.|||1.343|0.697|0.8438
92220895|NCT02258451|184342187|SUPERIORITY||Hazard Ratio (HR)|0.962||||0.8811|TWO_SIDED|95.0|0.577|1.604||P-value was calculated using a 2-sided log-rank test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) was calculated using Cox Proportional Hazards Model , stratified by the same stratification factors as randomization.|||1.604|0.577|0.8811
92355988|NCT02656173|184617363|SUPERIORITY||Least square mean difference|-0.26||||0.037|TWO_SIDED|95.0|-0.5|-0.02|||ANCOVA|||Subscale: Urgency. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.02|-0.50|0.037
92355989|NCT02656173|184617363|SUPERIORITY||Least square mean difference|-0.18||||0.014|TWO_SIDED|95.0|-0.32|-0.04|||ANCOVA|||Subscale: Urgency Incontinence. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.04|-0.32|0.014
92355990|NCT02656173|184617364|SUPERIORITY||Least square mean difference|-1.19||||0.002|TWO_SIDED|95.0|-1.94|-0.44|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.44|-1.94|0.002
92355991|NCT02656173|184617365|SUPERIORITY||Least square mean difference|-0.78|||<|0.001|TWO_SIDED|95.0|-1.13|-0.43|||ANCOVA|||Subscale: Storage Subscale. Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.43|-1.13|<0.001
92355992|NCT02656173|184617365|SUPERIORITY||Least square mean difference|-0.3||||0.167|TWO_SIDED|95.0|-0.72|0.13|||ANCOVA|||Subscale: Voiding Subscale-1. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||0.13|-0.72|0.167
92355993|NCT02656173|184617365|SUPERIORITY||Least square mean difference|-0.42||||0.103|TWO_SIDED|95.0|-0.93|0.09|||ANCOVA|||Subscale: Voiding Subscale-2. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||0.09|-0.93|0.103
92220896|NCT02258451|184342188|SUPERIORITY||Hazard Ratio (HR)|0.928||||0.6537|TWO_SIDED|95.0|0.667|1.289||P-value was calculated using a 2-sided log-rank test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) was calculated using Cox Proportional Hazards Model , stratified by the same stratification factors as randomization.|Participants with baseline WPS \> 8 were included in the analysis population but censored at Day 1.||1.289|0.667|0.6537
92355994|NCT02656173|184617365|SUPERIORITY||Least square mean difference|-0.29||||0.009|TWO_SIDED|95.0|-0.51|-0.07|||ANCOVA|||Subscale: Quality of Life (QoL) Item. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.07|-0.51|0.009
92355995|NCT02656173|184617366|SUPERIORITY||Least square mean difference|-4.52|||<|0.001|TWO_SIDED|95.0|-6.91|-2.13|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-2.13|-6.91|<0.001
92355996|NCT02656173|184617367|SUPERIORITY||Least square mean difference|2.79|||<|0.001|TWO_SIDED|95.0|1.13|4.44|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||4.44|1.13|<0.001
92355997|NCT03449147|184617411|SUPERIORITY||Estimated Relative Reduction (%)|-1.14||||0.875|TWO_SIDED|95.0|-14.27|14.02||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.||14.02|-14.27|0.875
92355998|NCT03449147|184617411|SUPERIORITY||Estimated Relative Reduction (%)|-14.64||||0.031|TWO_SIDED|95.0|-26.07|-1.43||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||ERR relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.||-1.43|-26.07|0.031
92355999|NCT03449147|184617414|SUPERIORITY||Estimated Relative Reduction (%)|-3.03||||0.677|TWO_SIDED|95.0|-16.14|12.12||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.||12.12|-16.14|0.677
92220897|NCT02258451|184342189|SUPERIORITY||Hazard Ratio (HR)|0.884||||0.4496|TWO_SIDED|95.0|0.641|1.219||P-value was calculated using a 2-sided log-rank test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) was calculated using Cox Proportional Hazards Model , stratified by the same stratification factors as randomization.|||1.219|0.641|0.4496
92405676|NCT00705016|184701513|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.671||||0.317|TWO_SIDED|95.0|0.307|1.465||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cochran-Mantel-Haenszel|||||1.465|0.307|0.317
92356000|NCT03449147|184617414|SUPERIORITY||Estimated Relative Reduction (%)|-15.79||||0.022|TWO_SIDED|95.0|-27.27|-2.5||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||ERR relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.||-2.50|-27.27|0.022
92356001|NCT03449147|184617415|SUPERIORITY||Odds Ratio (OR)|1.34||||0.077|TWO_SIDED|95.0|0.97|1.85||Comparison based on logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline LCQ total score, and the interaction of baseline LCQ total score by visit as covariates.|Regression, Logistic|||||1.85|0.97|0.077
92356002|NCT03449147|184617415|SUPERIORITY||Odds Ratio (OR)|1.41||||0.04|TWO_SIDED|95.0|1.02|1.96||Comparison based on logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline LCQ total score, and the interaction of baseline LCQ total score by visit as covariates.|Regression, Logistic|||||1.96|1.02|0.040
92356003|NCT03449147|184617416|SUPERIORITY||Odds Ratio (OR)|1.03||||0.872|TWO_SIDED|95.0|0.75|1.4||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline 24-hour coughs per hour and the interaction of baseline 24-hour coughs per hour as covariates.|Regression, Logistic|||||1.40|0.75|0.872
92356004|NCT03449147|184617416|SUPERIORITY||Odds Ratio (OR)|1.33||||0.082|TWO_SIDED|95.0|0.96|1.83||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline 24-hour coughs per hour and the interaction of baseline 24-hour coughs per hour as covariates.|Regression, Logistic|||||1.83|0.96|0.082
92356005|NCT03449147|184617417|OTHER||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.96|1.83||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly CSD total score, and the interaction of baseline mean weekly CSD total score by visit as covariates.||1.83|0.96|
92356006|NCT03449147|184617417|OTHER||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|1.08|2.09||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly CSD total score, and the interaction of baseline mean weekly CSD total score by visit as covariates.||2.09|1.08|
92356007|NCT03449147|184617418|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.93|1.69||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly CSD total score, and the interaction of baseline mean weekly CSD total score by visit as covariates.||1.69|0.93|
92356008|NCT03449147|184617418|OTHER||Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|1.31|2.39||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly CSD total score, and the interaction of baseline mean weekly CSD total score by visit as covariates.||2.39|1.31|
92356009|NCT03449147|184617419|OTHER||Odds Ratio (OR)|1.53|||||TWO_SIDED|95.0|1.14|2.05||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly VAS score, and the interaction of baseline mean weekly VAS score by visit as covariates.||2.05|1.14|
92356010|NCT03449147|184617419|OTHER||Odds Ratio (OR)|1.65||||||95.0|1.23|2.22||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly VAS score, and the interaction of baseline mean weekly VAS score by visit as covariates.||2.22|1.23|
92356011|NCT00954538|184617424|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92162252|NCT00708097|184214085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|54.03||||0.3003|TWO_SIDED|95.0|-48.56|156.61||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||156.61|-48.56|0.3003
92162253|NCT00708097|184214085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|61.55||||0.2432|TWO_SIDED|95.0|-42.14|165.24||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||165.24|-42.14|0.2432
92162254|NCT00708097|184214085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|115.58||||0.0289|TWO_SIDED|95.0|12.02|219.13||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||219.13|12.02|0.0289
92162255|NCT00708097|184214086|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-13.9||||0.9293|TWO_SIDED|95.0|-322.47|294.66||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||294.66|-322.47|0.9293
92356012|NCT00954538|184617425|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12|||||TWO_SIDED|90.0|-0.04|0.27|||Linear Fixed Effects Model||Difference = AD group value - HE group value|A 90% confidence interval was calculated for the group difference (AD - HE) using the model results. As prespecified by the analysis plan, if the lower bound of the 90% confidence interval is above 0, then the hypothesis that \[18F\]MK-3328 can discriminate between AD patients and cognitively normal elderly controls as measured by regional tracer uptake following single IV doses of \[18F\]MK-3328 is supported.||0.27|-0.04|
92356013|NCT03061214|184617452|NON_INFERIORITY|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated difference in HbA1c between semaglutide and sitagliptin was less than 0.3%.|Treatment difference|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.7|||Mixed Models Analysis|||The post-baseline responses are analysed using a mixed model for repeated measurements with treatment and region China/Other as fixed factors and baseline value as covariate, all nested within visit. Mean estimates are adjusted according to observed baseline distribution.||-0.70|-1.00|<.0001
92356014|NCT03061214|184617452|NON_INFERIORITY|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated difference in HbA1c between semaglutide and sitagliptin was less than 0.3%.|Treatment difference|-0.51|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.36|||Mixed Models Analysis|||The post-baseline responses are analysed using a mixed model for repeated measurements with treatment and region China/Other as fixed factors and baseline value as covariate, all nested within visit. Mean estimates are adjusted according to observed baseline distribution.||-0.36|-0.66|<.0001
92356015|NCT03061214|184617452|SUPERIORITY|Superiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated difference in HbA1c between semaglutide and sitagliptin was below 0%.|Treatment difference|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.7|||Mixed Models Analysis|||The post-baseline responses are analysed using a mixed model for repeated measurements with treatment and region China/Other as fixed factors and baseline value as covariate, all nested within visit. Mean estimates are adjusted according to observed baseline distribution.||-0.70|-1.00|<.0001
92356016|NCT03061214|184617452|SUPERIORITY|Superiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated difference in HbA1c between semaglutide and sitagliptin was below 0%.|Treatment difference|-0.51|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.36|||Mixed Models Analysis|||The post-baseline responses are analysed using a mixed model for repeated measurements with treatment and region China/Other as fixed factors and baseline value as covariate, all nested within visit. Mean estimates are adjusted according to observed baseline distribution.||-0.36|-0.66|<.0001
92356017|NCT01866150|184617536|SUPERIORITY_OR_OTHER||Treatment Difference|1.2||||0.8222|TWO_SIDED|95.0|-9.5|12.0|||Pearson's chi-squared|||A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved DAS28 remission.||12.0|-9.5|0.8222
92356018|NCT01866150|184617537|SUPERIORITY_OR_OTHER||Treatment Difference|3.7||||0.4727|TWO_SIDED|95.0|-6.2|13.6|||Pearson's chi-squared|||Comparison at Month 3. A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved DAS28 remission.||13.6|-6.2|0.4727
92356019|NCT01866150|184617537|SUPERIORITY_OR_OTHER||Treatment Difference|2.6||||0.6349|TWO_SIDED|95.0|-8.0|13.1|||Pearson's chi-squared|||Comparison at last visit. A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved DAS28 remission.||13.1|-8.0|0.6349
92356020|NCT01866150|184617538|SUPERIORITY_OR_OTHER||Slope|-0.9||||0.8769|TWO_SIDED|95.0|-12.1|10.4|||Pearson's chi-squared|||Comparison at Month 3. A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved LDA.||10.4|-12.1|0.8769
92162256|NCT00708097|184214086|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|575.71||||0.0003|TWO_SIDED|95.0|268.24|883.17||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||883.17|268.24|0.0003
92356021|NCT01866150|184617538|SUPERIORITY_OR_OTHER||Treatment Difference|3.4||||0.5649|TWO_SIDED|95.0|-8.2|15.0|||Pearson's chi-squared|||Comparison at Month 6. A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved LDA.||15.0|-8.2|0.5649
92356022|NCT01866150|184617538|SUPERIORITY_OR_OTHER||Treatment Difference|9.9||||0.0556|TWO_SIDED|95.0|-0.3|20.2|||Pearson's chi-squared|||Comparison at the last visit. A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved LDA.||20.2|-0.3|0.0556
92356023|NCT01866150|184617539|SUPERIORITY_OR_OTHER||Treatment Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.152||0.5195|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|||Comparison at Month 3. Analysis used a mixed model with month, cohort, baseline DAS28 score; cohort-by-month and cohort-by-baseline DAS28 score as fixed effects. Within-participant repeated measurements were incorporated with an unstructured variance-covariance structure.||0.20|-0.40|0.5195
92356024|NCT01866150|184617539|SUPERIORITY_OR_OTHER||Treatment difference|-0.17|STANDARD_ERROR_OF_MEAN|0.149||0.242|TWO_SIDED|95.0|-0.47|0.12|||Mixed Models Analysis|||Comparison at Month 6. Analysis used a mixed model with month, cohort, baseline DAS28 score; cohort-by-month and cohort-by-baseline DAS28 score as fixed effects. Within-participant repeated measurements were incorporated with an unstructured variance-covariance structure.||0.12|-0.47|0.2420
92356025|NCT01866150|184617539|SUPERIORITY_OR_OTHER||Treatment difference|-0.15|STANDARD_ERROR_OF_MEAN|0.154||0.3264|TWO_SIDED|95.0|-0.45|0.15|||Mixed Models Analysis|||Comparison at the last visit. Analysis used a mixed model with month, cohort, baseline DAS28 score; cohort-by-month and cohort-by-baseline DAS28 score as fixed effects. Within-participant repeated measurements were incorporated with an unstructured variance-covariance structure.||0.15|-0.45|0.3264
92356026|NCT01866150|184617541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.81||||0.0237|TWO_SIDED|95.0|-16.44|-1.18|||General Linear Model|||Analysis was performed using a general linear model with cohort as a factor.||-1.18|-16.44|0.0237
92356027|NCT00600704|184617546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.379|STANDARD_DEVIATION|0.096|<|0.05|TWO_SIDED|95.0|0.189|0.569|||t-test, 2 sided|||Sample size calculation was based on a two-sided alpha error of .05 and 80% power. After applying the protocol in two equal groups of 10 patients, the analysis showed that the study requires 60 patients per group. However, we decided to enroll up to 100 patients per group to allow for patient attrition or missing data, and also in order to look for differences with regards to transfusion between patient subgroups.||0.569|0.189|<0.05
92356028|NCT00600704|184617546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.797|STANDARD_ERROR_OF_MEAN|0.168|<|0.05|TWO_SIDED|95.0|0.465|1.129|||Regression, Linear||The mean difference between groups B and A is adjusted for age, gender, BMI and preoperative HCT, while BSA, weight, height, postoperative HCT were not included in the final model to avoid collinearity.|Null hypothesis :restrictive fluid protocol does not have any effect concerning the mean number of PRC units transfused.||1.129|0.465|<0.05
92220898|NCT02258451|184342190|SUPERIORITY||Hazard Ratio (HR)|0.874||||0.3467|TWO_SIDED|95.0|0.66|1.157||P-value was calculated using a 2-sided log-rank test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) was calculated using Cox Proportional Hazards Model , stratified by the same stratification factors as randomization.|||1.157|0.660|0.3467
92220899|NCT02258451|184342191|SUPERIORITY||Risk Difference (RD)|4.1||||0.556|TWO_SIDED|95.0|-10.2|18.4||P-value was calculated using a 2-sided Cochran-Mantel-Haenszel test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Cochran-Mantel-Haenszel|||||18.4|-10.2|0.556
92356029|NCT00993473|184617573|NON_INFERIORITY_OR_EQUIVALENCE|"Noninferiority would be demonstrated if the upper bound of the 95% confidence interval (CI) for the ratio of the rate of all hypoglycemia in the Lantus group to the rate in the NPH group was \<1.15. Superiority would be demonstrated if the upper bound of the 95% CI was \<1. The margin for noninferiority corresponded to one-half of the 30% difference in hypoglycemia event rate considered as a clinically significant difference by American Diabetes Association 2005 Working Group on Hypoglycemia."|Risk Ratio (RR)|1.18|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|0.97|1.44|||Generalized Linear Model|"A stepwise closed testing approach was used for the primary all hypoglycemia outcome analysis to assess noninferiority and superiority sequentially."|Risk ratio between treatment groups (Lantus/NPH) estimated by Generalized Linear Model with fixed effect terms for randomization strata and treatment.|"The sample size was calculated to ensure sufficient power so that the upper bound of the 2-sided 95% CI for the Lantus /NPH ratio would not exceed 1.15 based on an expected overall rate of all hypoglycemia of 80 events per patient-year of exposure to NPH insulin and to Lantus. It was planned to randomize at least 45 and up to approximately 60 patients in each of the 2 treatment groups so that at least 70 patients would complete the 24 weeks of treatment."||1.44|0.97|
92220900|NCT03021499|184342204|SUPERIORITY||Odds Ratio (OR)|2.65|||<|0.001|TWO_SIDED|95.0|1.64|4.27|||Regression, Logistic|The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and Region.||The primary endpoint was the proportion of subjects showing renal response at Week 52 as adjudicated by the Clinical Endpoints Committee.||4.27|1.64|<0.001
92356030|NCT03992872|184617599|SUPERIORITY|The significance of the difference between groups in seroconversion rates was assessed using a Fisher's exact test. The percentage who seroconverted in each group was presented along with its 95% CI calculated using the Wilson method. The Newcombe method was use to estimate the 95% confidence interval for the difference between groups in the percentage of subjects who seroconverted.|Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-11.4|11.4|||Fisher Exact|||||11.4|-11.4|1
92356031|NCT03992872|184617600|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|1.2|||||TWO_SIDED|95.0||||P- value = NE (Not estimable due to lack of response; all baseline values in this group were \<LOD and imputed as LOD/2, or 7.5)||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|"Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.~95% CI \[NE,NE\]~NE = Not estimable due to lack of response."|Day 1: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||||
92356032|NCT03992872|184617600|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|3.11||||0.0019|TWO_SIDED|95.0|1.55|6.23|||ANOVA|P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 8: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||6.23|1.55|0.0019
92356033|NCT03992872|184617600|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|0.88||||0.6223|TWO_SIDED|95.0|0.54|1.46|||ANOVA|P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 22: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||1.46|0.54|0.6223
92356034|NCT03992872|184617600|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|0.88||||0.6444|TWO_SIDED|95.0|0.5|1.55||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 29: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||1.55|0.50|0.6444
92356035|NCT03992872|184617600|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|0.89||||0.6198|TWO_SIDED|95.0|0.57|1.41||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 57: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||1.41|0.57|0.6198
92356036|NCT03992872|184617600|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|0.89||||0.6451|TWO_SIDED|95.0|0.55|1.45||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 182: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||1.45|0.55|0.6451
92220901|NCT03021499|184342205|SUPERIORITY||Hazard Ratio (HR)|2.02|||<|0.001|TWO_SIDED|95.0|1.51|2.7|||Log Rank|||||2.7|1.51|<0.001
92356037|NCT03992872|184617601|SUPERIORITY|||||||0.0211|||||||Fisher Exact|"Day 8~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||0.0211
92356038|NCT03992872|184617601|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 29.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.0000
92220902|NCT03021499|184342207|SUPERIORITY||Odds Ratio (OR)|2.23||||0.002|TWO_SIDED|95.0|1.34|3.72|||Regression, Cox||The hazard ratios are from a Cox's proportional hazards model with terms for treatment arm, baseline UPCR, biopsy class, MMF use at baseline and Region|||3.72|1.34|0.002
92220903|NCT03021499|184342208|SUPERIORITY||Odds Ratio (OR)|2.43|||<|0.001|TWO_SIDED|95.0|1.56|3.79||Week 24|Regression, Logistic||Week 24|Week 24||3.79|1.56|<0.001
92162257|NCT00708097|184214086|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|637.67|||<|0.0001|TWO_SIDED|95.0|330.3|945.03||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||945.03|330.30|<0.0001
92162258|NCT00708097|184214086|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1813.29|||<|0.0001|TWO_SIDED|95.0|1503.03|2123.54||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||2123.54|1503.03|<0.0001
92162259|NCT00708097|184214086|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|589.61||||0.0002|TWO_SIDED|95.0|285.31|893.92|||ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||893.92|285.31|0.0002
92162260|NCT00708097|184214086|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|651.57|||<|0.0001|TWO_SIDED|95.0|346.44|956.7||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||956.70|346.44|<0.0001
92162261|NCT00708097|184214086|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1827.19|||<|0.0001|TWO_SIDED|95.0|1519.78|2134.6||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||2134.60|1519.78|<0.0001
92220904|NCT03021499|184342208|SUPERIORITY||Odds Ratio (OR)|2.26|||<|0.001|TWO_SIDED|95.0|1.45|3.51||Week 52|Regression, Logistic||Week 52|Week 52||3.51|1.45|<0.001
92220905|NCT03021499|184342209|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.349|TWO_SIDED|95.0|0.53|1.25|||Regression, Cox|||||1.25|0.53|0.349
92220906|NCT03021499|184342209|SUPERIORITY|||||||0.646|||||||Log Rank|||||||0.646
92220907|NCT03021499|184342212|SUPERIORITY||Hazard Ratio (HR)|2.05|||<|0.001|TWO_SIDED|95.0|1.62|2.6|||Log Rank|||||2.6|1.62|<0.001
92220908|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-4.6|STANDARD_ERROR_OF_MEAN|1.39|<|0.001|TWO_SIDED|95.0|-7.3|-1.9|||Mixed Models Analysis|||Week 2||-1.9|-7.3|< 0.001
92220909|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-3.4|STANDARD_ERROR_OF_MEAN|1.39||0.014|TWO_SIDED|95.0|-6.1|-0.7|||Mixed Models Analysis|||Week 4||-0.7|-6.1|0.014
92220910|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-4.6|STANDARD_ERROR_OF_MEAN|1.39|<|0.001|TWO_SIDED|95.0|-7.3|-1.9|||Mixed Models Analysis|||Week 8||-1.9|-7.3|< 0.001
92220911|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-3.3|STANDARD_ERROR_OF_MEAN|1.39||0.017|TWO_SIDED|95.0|-6.0|-0.6|||Mixed Models Analysis|||Week 12||-0.6|-6|0.017
92220912|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-2.4|STANDARD_ERROR_OF_MEAN|1.4||0.085|TWO_SIDED|95.0|-5.1|0.3|||Mixed Models Analysis|||Week 16||0.3|-5.1|0.085
92220913|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-3.0|STANDARD_ERROR_OF_MEAN|1.4||0.035|TWO_SIDED|95.0|-5.7|-0.2|||Mixed Models Analysis|||Week 20||-0.2|-5.7|0.035
92220914|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-2.2|STANDARD_ERROR_OF_MEAN|1.41||0.121|TWO_SIDED|95.0|-5.0|0.6|||Mixed Models Analysis|||Week 24||0.6|-5|0.121
92220915|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-2.2|STANDARD_ERROR_OF_MEAN|1.42||0.12|TWO_SIDED|95.0|-5.0|0.6|||Mixed Models Analysis|||Week 30||0.6|-5|0.12
92220916|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-2.3|STANDARD_ERROR_OF_MEAN|1.43||0.102|TWO_SIDED|95.0|-5.1|0.5|||Mixed Models Analysis|||Week 36||0.5|-5.1|0.102
92220917|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-3.3|STANDARD_ERROR_OF_MEAN|1.44||0.022|TWO_SIDED|95.0|-6.1|0.5|||Mixed Models Analysis|||Week 42||0.5|-6.1|0.022
92220918|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-4.1|STANDARD_ERROR_OF_MEAN|1.45||0.004|TWO_SIDED|95.0|-7.0|-1.3|||Mixed Models Analysis|||Week 48||-1.3|-7|0.004
92220919|NCT03021499|184342213|SUPERIORITY||Mean Difference (Least Squares)|-2.8|STANDARD_ERROR_OF_MEAN|1.46||0.055|TWO_SIDED|95.0|-5.7|0.1|||Mixed Models Analysis|||Week 52||0.1|-5.7|0.055
92220920|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-0.56|STANDARD_ERROR_OF_MEAN|0.181||0.011|TWO_SIDED|95.0|-1.0|-0.13|||Mixed Models Analysis|||Week 2||-0.13|-1|0.011
92220921|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-0.76|STANDARD_ERROR_OF_MEAN|0.187|<|0.001|TWO_SIDED|95.0|-1.13|-0.4|||Mixed Models Analysis|||Week 4||-0.4|-1.13|<0.001
92220922|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-0.7|STANDARD_ERROR_OF_MEAN|0.181|<|0.001|TWO_SIDED|95.0|-1.05|-0.34|||Mixed Models Analysis|||Week 8||-0.34|-1.05|<0.001
92220923|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-0.94|STANDARD_ERROR_OF_MEAN|0.196|<|0.001|TWO_SIDED|95.0|-1.33|-0.55|||Mixed Models Analysis|||Week 12||-0.55|-1.33|<0.001
92220924|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-1.18|STANDARD_ERROR_OF_MEAN|0.214|<|0.001|TWO_SIDED|95.0|-1.6|-0.76|||Mixed Models Analysis|||Week 16||-0.76|-1.6|<0.001
92220925|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-1.16|STANDARD_ERROR_OF_MEAN|0.241|<|0.001|TWO_SIDED|95.0|-1.63|-0.68|||Mixed Models Analysis|||Week 20||-0.68|-1.63|<0.001
92276500|NCT01360632|184454747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.3173|TWO_SIDED|95.0|-1.24|0.4|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.4|-1.24|0.3173
92162262|NCT00708097|184214086|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|61.96||||0.6874|TWO_SIDED|95.0|-241.25|365.17||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||365.17|-241.25|0.6874
92276501|NCT01360632|184454747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17||||0.0313|TWO_SIDED|95.0|-2.23|-0.11|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.11|-2.23|0.0313
92276502|NCT01360632|184454747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97||||0.0732|TWO_SIDED|95.0|-2.04|0.09|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.09|-2.04|0.0732
92276503|NCT01360632|184454747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.0206|TWO_SIDED|95.0|-2.51|-0.21|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.21|-2.51|0.0206
92276504|NCT01360632|184454747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91||||0.1233|TWO_SIDED|95.0|-2.06|0.25|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.25|-2.06|0.1233
92276505|NCT01360632|184454747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.61||||0.0097|TWO_SIDED|95.0|-2.84|-0.39|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.39|-2.84|0.0097
92276506|NCT01360632|184454747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.0092|TWO_SIDED|95.0|-2.86|-0.41|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.41|-2.86|0.0092
92276507|NCT01360632|184454747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.0139|TWO_SIDED|95.0|-2.94|-0.33|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.33|-2.94|0.0139
92162263|NCT00708097|184214086|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1237.58|||<|0.0001|TWO_SIDED|95.0|931.46|1543.7|||ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||1543.70|931.46|<0.0001
92162264|NCT00708097|184214086|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1175.62|||<|0.0001|TWO_SIDED|95.0|869.15|1482.1||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||1482.10|869.15|<0.0001
92162265|NCT03425643|184214087|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|1e-05|TWO_SIDED|95.0|0.48|0.72||One-sided p-value based on log-rank test stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Log Rank||Stratified Cox model with Efron's tie handling method with treatment as a covariate stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|||0.72|0.48|<0.00001
92220926|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-1.15|STANDARD_ERROR_OF_MEAN|0.222|<|0.001|TWO_SIDED|95.0|-1.59|-0.72|||Mixed Models Analysis|||Week 24||-0.72|-1.59|<0.001
92220927|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-1.02|STANDARD_ERROR_OF_MEAN|0.284|<|0.001|TWO_SIDED|95.0|-1.58|-0.46|||Mixed Models Analysis|||Week 30||-0.46|-1.58|<0.001
92220928|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-1.21|STANDARD_ERROR_OF_MEAN|0.264|<|0.001|TWO_SIDED|95.0|-1.73|-0.69|||Mixed Models Analysis|||Week 36||-0.69|-1.73|<0.001
92220929|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-1.37|STANDARD_ERROR_OF_MEAN|0.256|<|0.001|TWO_SIDED|95.0|-1.87|-0.86|||Mixed Models Analysis|||Week 42||-0.86|-1.87|<0.001
92220930|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-1.06|STANDARD_ERROR_OF_MEAN|0.256|<|0.001|TWO_SIDED|95.0|-1.56|-0.55|||Mixed Models Analysis|||Week 48||-0.55|-1.56|<0.001
92356039|NCT03992872|184617601|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 57.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.0000
92356040|NCT03992872|184617601|SUPERIORITY|||||||0.1124|||||||Fisher Exact|"Day 182.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||0.1124
92356041|NCT03992872|184617602|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 1 : Subjects with Titer \>=40"||||>0.9999
92356042|NCT03992872|184617602|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point~Day 1: Subjects with Titer \>=160"||||>0.9999
92356043|NCT03992872|184617602|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 1: Subjects with Titer \>=640"||||1.0000
92356044|NCT03992872|184617602|SUPERIORITY|||||||0.0257|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 8 : Subjects with Titer \>=40"||||0.0257
92356045|NCT03992872|184617602|SUPERIORITY|||||||0.037|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point~Day 8: Subjects with Titer \>=160"||||0.0370
92401331|NCT04972162|184694117|NON_INFERIORITY|Non-inferiority tests compared the subject´s perceived hearing aid benefit when the hearing aid was standard-of-care fitted compared to Web-App fitted by the subject. The non-inferiority margins are the minimum clinically important differences on each of the 3 communication benefit subscales as described by Cox \& Alexander (Ear and Hearing 1995;16;176-186). These literature values are as follows: Ease of Communication (EC): 26, Background Noise (BN): 27, Reverberant Room (RV): 28|Mean Difference (Final Values)|0.98|||<|0.0001|TWO_SIDED|95.0|-4.6|6.5||Threshold for statistical significance was p =0.05. p-value was calculated using the estimated difference of benefits, calculating a new t-statistic by subtracting the applicable non-inf. margin from the difference and dividing by standard error.|ANOVA|repeated measures ANOVA where factors are order and treatment is device with patient as a random effect. Added interaction term of treatment and order|Difference calculated as benefit(standard-of-care fit) - benefit(web-app-fit)|Results for Reverberant Room Subscale. Null hypothesis: benefit(standard-of-care fit) - benefit(web-app-fit) \< noninferiority margin for all subscales. Each subscale was analyzed using an rm-ANOVA in which the repeated factors are order \& treatment; no between-group factors. Interaction term was order x treatment. ITT population includes 2 subjects who withdrew. It was concluded that their primary endpoint data was missing for cause and their APHAB benefit scores were imputed as 0.||6.5|-4.6|<0.0001
92162266|NCT03425643|184214088|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.00517|TWO_SIDED|95.0|0.56|0.93||One-sided p-value based on log-rank test stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Log Rank||Stratified Cox model with Efron's tie handling method with treatment as a covariate stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|||0.93|0.56|0.00517
92356046|NCT03992872|184617602|SUPERIORITY|||||||0.1806|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 8: Subjects with Titer \>=640"||||0.1806
92220931|NCT03021499|184342214|SUPERIORITY||Mean Difference (Least Squares)|-0.99|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.52|-0.46|||Mixed Models Analysis|||Week 52||-0.46|-1.52|<0.001
92356047|NCT03992872|184617602|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 22: Subjects with Titer \>=40"||||1.0000
92356048|NCT03992872|184617602|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point~Day 22: Subjects with Titer \>=160"||||1.0000
92356049|NCT03992872|184617602|SUPERIORITY|||||||0.0797|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point~Day 22: Subjects with Titer \>=640"||||0.0797
92356050|NCT03992872|184617602|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 29: Subject with Titer \>=40"||||1.0000
92356051|NCT03992872|184617602|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 29: Subject with Titer \>=160"||||1.0000
92356052|NCT03992872|184617602|SUPERIORITY|||||||0.1284|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 29: Subject with Titer \>= 640"||||0.1284
92356053|NCT03992872|184617602|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 57: Subject with Titer \>= 40"||||1.0000
92356054|NCT03992872|184617602|SUPERIORITY|||||||0.6411|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 57: Subject with Titer\>=160"||||0.6411
92356055|NCT03992872|184617602|SUPERIORITY|||||||0.5382|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 57: Subject with Titer\>=640"||||0.5382
92356056|NCT03992872|184617602|SUPERIORITY|||||||0.4915|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 182: Subject with Titer \>= 40"||||0.4915
92356057|NCT03992872|184617602|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 182: Subject with Titer \>= 160"||||>0.9999
92356058|NCT03992872|184617602|SUPERIORITY|||||||0.552|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 182: Subject with Titer \>= 640"||||0.5520
92356059|NCT03992872|184617603|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|1.51||||0.0277|TWO_SIDED|95.0|1.05|2.19||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 1: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||2.19|1.05|0.0277
92401332|NCT00781768|184694118|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED||||||Chi-squared|||The null hypothesis is that there will be a higher proportion of complete responders among those subjects receiving the combination therapy.||||<.001
92401333|NCT02458313|184694119|SUPERIORITY|DMXB-A vs. Placebo groups compared at baseline||||||0.647|||||||t-test, 2 sided|||||||0.647
92162267|NCT03425643|184214089|OTHER|Based on Miettinen \& Nurminen method stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Difference in Percentage|19.2|||<|1e-05|TWO_SIDED|95.0|13.9|24.7|||Stratified Miettinen and Nurminen|||||24.7|13.9|<0.00001
92162268|NCT03425643|184214090|OTHER|Based on Miettinen \& Nurminen method stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Difference in Pertentage|14.2|||<|1e-05|TWO_SIDED|95.0|10.1|18.7|||Stratified Miettinen and Nurminen|||||18.7|10.1|<0.00001
92162269|NCT03425643|184214091|OTHER|Based on a constrained longitudinal data analysis (cLDA) model with the scores as the response variable with covariates for treatment by visit interaction and stratification factors (Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Difference in Least Square Means|1.43||||0.3611|TWO_SIDED|95.0|-1.64|4.49|||t-test, 2 sided|||||4.49|-1.64|0.3611
92162270|NCT03425643|184214092|OTHER|Based on a constrained longitudinal data analysis (cLDA) model with the scores as the response variable with covariates for treatment by visit interaction and stratification factors (Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Difference in Least Square Means|2.22||||0.1197|TWO_SIDED|95.0|-0.58|5.02|||t-test, 2 sided|||||5.02|-0.58|0.1197
92162271|NCT00726596|184214118|SUPERIORITY|||||||0.6789|||||||t-test, 1 sided|||||||.6789
92162272|NCT00482729|184214123|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|||<|0.001||95.0|-0.78|-0.43|||ANCOVA|Model terms: treatment, baseline A1C||||-0.43|-0.78|<0.001
92162273|NCT00482729|184214124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.07|||<|0.001||95.0|1.6|2.69||Based on a test of the odds ratio = 1, comparing the odds of having A1C \<7.0% at Week 18 in the Sita/Met FDC group vs. the Metformin group.|ANCOVA|Model terms: treatment, baseline A1C|This parameter estimate and 95% confidence interval correspond to the odds of having A1C \<7.0% at Week 18 in the Sita/Met FDC group vs. the Metformin group.|||2.69|1.60|<0.001
92162274|NCT00482729|184214125|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.7|||<|0.001||95.0|-22.4|-9.0|||ANCOVA|Model terms: treatment, baseline A1C||||-9.0|-22.4|<0.001
92162275|NCT00482729|184214126|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||||95.0|-0.67|-0.3|||||This is a difference in least squares means, based on an ANCOVA model with terms for treatment and baseline (i.e., Week 0) A1C.|||-0.30|-0.67|
92162276|NCT00482729|184214127|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.11||||||95.0|1.63|2.73|||||This parameter estimate and 95% confidence interval correspond to the odds of having A1C \<7.0% at Week 44 in the Sita/Met FDC group vs. the Metformin group, based on a logistic regression model with terms for treatment and baseline (i.e., Week 0) A1C|||2.73|1.63|
92162277|NCT01549314|184214133|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||Change from baseline to 24 months in cortical volumentric bone mineral density was determined and compared between subjects with CF taking ivacaftor and subjects with CF not taking ivacaftor.||||0.77
92162278|NCT01549314|184214133|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Change from baseline to 24 months in cortical volumentric bone mineral density was determined and compared between subjects with CF not taking ivacaftor and healthy subjects.||||0.82
92162279|NCT01549314|184214134|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||Change from baseline to 24 months in DXA PA spine bone mineral density was determined and compared between subjects with CF taking ivacaftor and subjects with CF not taking ivacaftor.||||0.64
92162280|NCT01549314|184214134|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||Change from baseline to 24 months in DXA PA spine bone mineral density was determined and compared between subjects with CF not taking ivacaftor and healthy subjects.||||0.78
92162281|NCT01549314|184214135|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|||Change from baseline to 24 months in osteocalcin was determined and compared between subjects with CF taking ivacaftor and subjects with CF not taking ivacaftor.||||0.86
92162282|NCT01549314|184214135|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||Change from baseline to 24 months in osteocalcin was determined and compared between subjects with CF not taking ivacaftor and healthy subjects.||||0.99
92162283|NCT00954707|184214137|SUPERIORITY_OR_OTHER||Rate of TLF at 12-month (%)|6.4|||||TWO_SIDED|95.0|5.5|7.5||||||||7.5|5.5|
92162284|NCT00954707|184214138|SUPERIORITY_OR_OTHER||Rate of device success (%)|98.0|||||TWO_SIDED|95.0|97.4|98.4||||||||98.4|97.4|
92162285|NCT00954707|184214139|SUPERIORITY_OR_OTHER||Rate of lesion success (%)|99.8|||||TWO_SIDED|95.0|99.6|99.9||||||||99.9|99.6|
92162286|NCT00954707|184214140|SUPERIORITY_OR_OTHER||Rate of procedure success (%)|97.7|||||TWO_SIDED|95.0|97.0|98.2||||||||98.2|97.0|
92162287|NCT00954707|184214141|SUPERIORITY_OR_OTHER||Rate of Clinically-driven TLR (%)|4.2|||||TWO_SIDED|95.0|3.45|5.13||||||||5.13|3.45|
92162288|NCT00954707|184214142|SUPERIORITY_OR_OTHER||Rate of Clinically-driven TVR (%)|5.8|||||TWO_SIDED|95.0|4.87|6.81||||||||6.81|4.87|
92162289|NCT00954707|184214143|SUPERIORITY_OR_OTHER||Rate of Target vessel failure (%)|7.92|||||TWO_SIDED|95.0|6.85|9.09||||||||9.09|6.85|
92162290|NCT00954707|184214144|SUPERIORITY_OR_OTHER||Rate of MACE (%)|7.41|||||TWO_SIDED|95.0|6.37|8.55||||||||8.55|6.37|
92162291|NCT00954707|184214145|SUPERIORITY_OR_OTHER||Rate of protocol defined ST (%)|0.91|||||TWO_SIDED|95.0|0.56|1.38||||||||1.38|0.56|
92401334|NCT02458313|184694119|SUPERIORITY|||||||0.679|||||||t-test, 2 sided|||DMXB-A vs. Placebo groups compared post-intervention||||0.679
92401335|NCT02458313|184694120|SUPERIORITY|||||||0.951|||||||t-test, 2 sided|||DMXB-A vs. Placebo groups compared at baseline||||0.951
92356060|NCT03992872|184617603|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|1.83||||0.0088|TWO_SIDED|95.0|1.17|2.86||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 22: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||2.86|1.17|0.0088
92220932|NCT03021499|184342215|SUPERIORITY||Odds Ratio (OR)|2.44||||0.008|TWO_SIDED|95.0|1.26|4.71||Week 24|Regression, Logistic||Week 24|Week 24||4.71|1.26|0.008
92220933|NCT03021499|184342215|SUPERIORITY||Odds Ratio (OR)|2.44|||<|0.001|TWO_SIDED|95.0|1.48|4.0||Week 52|Regression, Logistic||Week 52|Week 52||4.00|1.48|<0.001
92220934|NCT03021499|184342216|SUPERIORITY||Least Squares Mean difference|-0.5||||0.373|TWO_SIDED|95.0|-1.6|0.6||Week 24|Mixed Models Analysis||Week 24|Week 24||0.6|-1.6|0.373
92220935|NCT03021499|184342216|SUPERIORITY||Least Squares Mean difference|-0.5||||0.277|TWO_SIDED|95.0|-1.4|0.4||Week 52|Mixed Models Analysis||Week 52|Week 52||0.4|-1.4|0.277
92356061|NCT03992872|184617603|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|1.68||||0.0475|TWO_SIDED|95.0|1.01|2.82||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 29: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||2.82|1.01|0.0475
92220936|NCT03021499|184342217|SUPERIORITY||Slope|-0.47|STANDARD_ERROR_OF_MEAN|1.389||0.733|TWO_SIDED|95.0|-3.21|2.26|||Mixed Models Analysis|||SF-36 Change from Baseline Week 24||2.26|-3.21|0.733
92356062|NCT03992872|184617604|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 22.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.00
92356063|NCT03992872|184617604|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 29.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.00
92356064|NCT03992872|184617605|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|45.17|||||TWO_SIDED|||||"P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.~P-value = NE~NE = Not estimable due to lack of response."|||"Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.~95% CI \[NE,NE\]~NE = Not estimable due to lack of response."|Day 1: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||||
92220937|NCT03021499|184342217|SUPERIORITY||Mean Difference (Least Squares)|-0.37|STANDARD_ERROR_OF_MEAN|1.481||0.801|TWO_SIDED|95.0|-3.29|2.54|||Mixed Models Analysis|||SF-36 Change from Baseline at Week 52||2.54|-3.29|0.801
92220938|NCT03021499|184342217|SUPERIORITY||Mean Difference (Least Squares)|1.7|STANDARD_ERROR_OF_MEAN|1.442||0.239|TWO_SIDED|95.0|-1.14|4.54|||Mixed Models Analysis|||LupusPRO HRQOL Change from Baseline at Week 24||4.54|-1.14|0.239
92356065|NCT03992872|184617605|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|47.34|||||TWO_SIDED|||||"P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.~P-value = NE NE = Not estimable due to lack of response."|||"Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.~95% CI \[NE,NE\] NE = Not estimable due to lack of response."|Day 22: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||||
92220939|NCT03021499|184342217|SUPERIORITY||Mean Difference (Least Squares)|-0.6|STANDARD_ERROR_OF_MEAN|1.535||0.695|TWO_SIDED|95.0|-3.62|2.42|||Mixed Models Analysis|||LupusPRO HRQOL Change from Baseline at Week 52||2.42|-3.62|0.695
92220940|NCT03021499|184342217|SUPERIORITY||Mean Difference (Least Squares)|-1.89|STANDARD_ERROR_OF_MEAN|1.439||0.19|TWO_SIDED|95.0|-4.72|0.94|||Mixed Models Analysis|||LupusPRO non-HRQOL Change from Baseline at Week 24||0.94|-4.72|0.19
92220941|NCT03021499|184342217|SUPERIORITY||Mean Difference (Least Squares)|0.826|STANDARD_ERROR_OF_MEAN|1.531||0.826|TWO_SIDED|95.0|-2.67|3.35|||Mixed Models Analysis|||LupusPRO non-HRQOL Change from Baseline at Week 52||3.35|-2.67|0.826
92220942|NCT00495820|184342218|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92220943|NCT00495820|184342219|SUPERIORITY_OR_OTHER||||||=|0.01|||||||Mixed Models Analysis|||||||=0.01
92220944|NCT01870401|184342234|NON_INFERIORITY|The protocol identified a non-inferiority bound equal to 0.12 (12%).|||||<|0.025|||||||Farrington and Manning|||The primary safety hypothesis is as follows: H0: pControl - pDCB ≥ and H1: pControl (alpha) pDCB \< where p is the success rate in each arm and (alpha) is the non-inferiority bound.||||<0.025
92220945|NCT01870401|184342235|SUPERIORITY|||||||0.0222|||||||Wald Test|One-sided Wald test based on model estimate of DCB treatment effect and subject as a random effect.||||||0.0222
92220946|NCT01192022|184342270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.87|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|2.55|9.29||Logistic regression model with treatment and pooled center as factors.|Regression, Logistic|||||9.29|2.55|<0.001
92356066|NCT03992872|184617605|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|55.74|||||TWO_SIDED|||||"P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.~P-value = NE NE = Not estimable due to lack of response."|||"Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.~95% CI \[NE,NE\] NE = Not estimable due to lack of response."|Day 29: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||||
92356067|NCT03992872|184617607|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 22.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.0000
92162292|NCT00954707|184214146|SUPERIORITY_OR_OTHER||Rate of ARC defined ST (%)|1.12|||||TWO_SIDED|95.0|0.74|1.64||||||||1.64|0.74|
92220947|NCT03045861|184342320|OTHER||Emax|-1.822|||||TWO_SIDED|95.0|-2.333|1.31||||||||1.310|-2.333|
92356068|NCT03992872|184617607|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 29.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.0000
92356069|NCT03992872|184617608|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 1: Subject with Titer \>= 40"||||<0.0001
92356070|NCT03992872|184617608|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 1: Subject with Titer \>= 160"||||<0.0001
92356071|NCT03992872|184617608|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 1: Subject with Titer \>= 640"||||<0.0001
92401336|NCT02458313|184694120|SUPERIORITY|||||||0.884|||||||t-test, 2 sided|||DMXB-A vs. Placebo groups compared post-intervention||||0.884
92401337|NCT00385671|184694163|NON_INFERIORITY_OR_EQUIVALENCE|Basis of non-inferiority margin (maximum disadvantage for duloxetine compared to pregabalin not considered meaningful): In 3 previous placebo-controlled trials of duloxetine in DPNP, in the subgroup of patients that had been treated with gabapentin prior to entry, the estimated mean change in pain at Week 12 was -2.74 for duloxetine and -1.09 for placebo, an advantage of about 1.65. The non-inferiority margin represents about half of this previous treatment effect in a similar population.|Mean Difference (Final Values)|0.49||||0.076|TWO_SIDED|95.0|-0.05|1.04||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week, Kenward-Roger approximation was used.||Null hypothesis: no difference in mean change from baseline to 12 weeks in weekly mean of daily 24 hour average pain score between pregabalin \& duloxetine treatments. Sample size: 125 participants/treatment, 6% increase for 400 planned enrollees. 92% power with 1-sided 97.5% confidence interval; mean change in duloxetine group, -2.7; in pregabalin group, -2.5; standard deviation, 2.3; margin of non-inferiority: -0.8.||1.04|-0.05|0.076
92405677|NCT00705016|184701514|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.396||||0.476|TWO_SIDED|95.0|0.551|3.539||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cochran-Mantel-Haenszel|||||3.539|0.551|0.476
92220948|NCT03045861|184342320|OTHER||ED50|1020.755|||||TWO_SIDED|95.0|100.786|1940.724||||||||1940.724|100.786|
92356072|NCT03992872|184617608|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 22: Subject with Titer \>= 40"||||<0.0001
92356073|NCT03992872|184617608|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 22: Subject with Titer \>= 160"||||<0.0001
92162293|NCT00954707|184214147|SUPERIORITY_OR_OTHER||Rate of major bleeding complications (%)|3.07|||||TWO_SIDED|95.0|2.4|3.85||||||||3.85|2.40|
92162294|NCT00954707|184214148|SUPERIORITY_OR_OTHER||Rate of cardiac death (%)|0.78|||||TWO_SIDED|95.0|0.46|1.23||||||||1.23|0.46|
92162295|NCT00954707|184214149|SUPERIORITY_OR_OTHER||Rate of non-cardiac death (%)|0.69|||||TWO_SIDED|95.0|0.4|1.12||||||||1.12|0.40|
92356074|NCT03992872|184617608|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 22: Subject with Titer \>=640"||||<0.0001
92162296|NCT03265210|184214150|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.39|TWO_SIDED|95.0|-4.95|1.95|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Baseline||1.95|-4.95|0.39
92162297|NCT03265210|184214150|SUPERIORITY||Mean Difference (Final Values)|-3.79||||0.03|TWO_SIDED|95.0|-7.19|-0.39|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|6 weeks||-0.39|-7.19|0.03
92220949|NCT03045861|184342320|OTHER||s2e|0.2|||||TWO_SIDED|95.0|0.095|0.306||||||||0.306|0.095|
92220950|NCT03045861|184342321|OTHER||Emax|-1.801|||||TWO_SIDED|95.0|-2.319|-1.283||||||||-1.283|-2.319|
92220951|NCT03045861|184342321|OTHER||ED50|55.572|||||TWO_SIDED|95.0|3.565|107.579||||||||107.579|3.565|
92220952|NCT03045861|184342321|OTHER||s2e|0.206|||||TWO_SIDED|95.0|0.097|0.314||||||||0.314|0.097|
92220953|NCT03045861|184342322|OTHER||Emax|-1.846|||||TWO_SIDED|95.0|-2.352|-1.34||||||||-1.340|-2.352|
92220954|NCT03045861|184342322|OTHER||ED50|32.415|||||TWO_SIDED|95.0|4.687|60.143||||||||60.143|4.687|
92220955|NCT03045861|184342322|OTHER||s2e|0.2|||||TWO_SIDED|95.0|0.094|0.305||||||||0.305|0.094|
92356075|NCT03992872|184617608|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 29: Subject with Titer \>= 40"||||<0.0001
92356076|NCT03992872|184617608|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 29: Subjects with Titer \>= 160"||||<0.0001
92356077|NCT03992872|184617608|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 29 : Subjects with Titer \>=640"||||<0.0001
92356078|NCT03992872|184617609|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|23.12|||<|0.0001|TWO_SIDED|95.0|11.54|46.35||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 1: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||46.35|11.54|<0.0001
92162298|NCT03265210|184214150|SUPERIORITY||Mean Difference (Final Values)|-1.56||||0.42|TWO_SIDED|95.0|-5.38|2.26|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|9 weeks||2.26|-5.38|0.42
92162299|NCT03265210|184214150|SUPERIORITY||Mean Difference (Final Values)|-3.37||||0.07|TWO_SIDED|95.0|-7.02|0.28|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|12 weeks||0.28|-7.02|0.07
92162300|NCT03265210|184214151|SUPERIORITY||Mean Difference (Final Values)|-0.74||||0.17|TWO_SIDED|95.0|-1.81|0.33|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 1, Baseline||0.33|-1.81|0.17
92162301|NCT03265210|184214151|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.25|TWO_SIDED|95.0|-1.68|0.44|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 1, 6 weeks||0.44|-1.68|0.25
92162302|NCT03265210|184214151|SUPERIORITY||Mean Difference (Final Values)|-1.06||||0.09|TWO_SIDED|95.0|-2.29|0.17|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 1, 9 weeks||0.17|-2.29|0.09
92162303|NCT03265210|184214151|SUPERIORITY||Mean Difference (Final Values)|-1.09||||0.05|TWO_SIDED|95.0|-2.19|0.01|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 1, 12 weeks||0.01|-2.19|0.05
92162304|NCT03265210|184214151|SUPERIORITY||Mean Difference (Final Values)|-3.19||||0.02|TWO_SIDED|95.0|-5.9|-0.48|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 2, Baseline||-0.48|-5.90|0.02
92162305|NCT03265210|184214151|SUPERIORITY||Mean Difference (Final Values)|-4.3||||0.003|TWO_SIDED|95.0|-7.06|-1.54|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 2, 6 weeks||-1.54|-7.06|0.003
92162306|NCT03265210|184214151|SUPERIORITY||Mean Difference (Final Values)|-5.95||||0.0001|TWO_SIDED|95.0|-8.85|-3.05|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 2, 9 weeks||-3.05|-8.85|0.0001
92162307|NCT03265210|184214151|SUPERIORITY||Mean Difference (Final Values)|-4.35||||0.007|TWO_SIDED|95.0|-7.46|-1.24|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 2, 12 weeks||-1.24|-7.46|0.007
92162308|NCT03265210|184214152|SUPERIORITY||Mean Difference (Final Values)|1.11||||0.0003|TWO_SIDED|95.0|0.53|1.69|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 1||1.69|0.53|0.0003
92162309|NCT03265210|184214152|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.001|TWO_SIDED|95.0|0.21|0.83|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 2||0.83|0.21|0.001
92162310|NCT03265210|184214152|SUPERIORITY||Mean Difference (Final Values)|0.96||||0.002|TWO_SIDED|95.0|0.36|1.56|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 3||1.56|0.36|0.002
92162311|NCT00738699|184214191|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.13||||0.836|TWO_SIDED|95.0|0.88|1.46||One-sided log rank test stratified by route of administration for primary chemotherapy (intraperitoneal vs intravenous) and geographic region (North America, Europe, and other participating countries).|Log Rank||Stratified as described above.|||1.46|0.88|0.8360
92162312|NCT00738699|184214192|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.11||||0.7568|TWO_SIDED|95.0|0.83|1.48||One-sided log rank test stratified by route of administration for primary chemotherapy and geographic region.|Log Rank||Stratified as described above|||1.48|0.83|0.7568
92162313|NCT00738699|184214193|SUPERIORITY_OR_OTHER||Difference|-7.4||||0.0399|TWO_SIDED|95.0|-14.1|-0.7||Compared the ratio of complete or partial responders in the two arms. Stratified by route of administration for first line therapy and geographic region as specified at baseline.|Cochran-Mantel-Haenszel||(FAR + Paclitaxel) minus (Placebo + Paclitaxel). Confidence interval based on a normal approximation to the binomial distribution.|||-0.7|-14.1|0.0399
92162314|NCT03670602|184214205|SUPERIORITY|||||||0.0035||||||This is for the treatment group x time effect, or if treatment influenced improvements in delay discounting across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Treatment group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate.||||0.0035
92162315|NCT03670602|184214205|SUPERIORITY||||||<|0.001||||||This is for the time effect, or if delay discounting improved across all three timepoints, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Treatment group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||<0.001
92162316|NCT03670602|184214206|SUPERIORITY|||||||0.85||||||This is for the treatment group x time effect, or if treatment differentially influenced weight across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.85
92162317|NCT03670602|184214206|SUPERIORITY||||||<|0.001||||||This is for the time effect, or if time influenced changes in weight, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||<0.001
92162318|NCT03670602|184214207|SUPERIORITY|||||||0.79||||||This is for the treatment group x time effect, or if treatment group influenced change in hBa1c across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.79
92162319|NCT03670602|184214207|SUPERIORITY||||||<|0.001||||||This is for the time effect, or if hBa1c changed across timepoints, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||<0.001
92356079|NCT03992872|184617609|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|172.51|||<|0.0001|TWO_SIDED|95.0|106.6|279.19||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 22: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||279.19|106.60|<0.0001
92220956|NCT01549275|184342381|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED||||||Chi-squared|degrees of freedom =1||Null hypothesis: There is no significant difference in the incidence of patients with rapidly proliferative cultured cells between two groups.||||< 0.005
92356080|NCT03992872|184617609|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|118.45|||<|0.0001|TWO_SIDED|95.0|61.76|227.16||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 29: Geometric mean ratio (prior alpha group over naive alpha group) and 95% confidence interval||227.16|61.76|<0.0001
92356081|NCT03992872|184617610|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|"Day 22.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||<0.0001
92356082|NCT03992872|184617610|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|"Day 29~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||<0.0001
92356083|NCT01220687|184617620|SUPERIORITY||Mean Difference (Final Values)|9.0||||0.0012|TWO_SIDED||||||t-test, 2 sided|||||||0.0012
92356084|NCT01220687|184617621|SUPERIORITY||Rate Ratio|1.91|||<|0.0001|TWO_SIDED|95.0|1.68|2.18|||Poisson|||||2.18|1.68|<0.0001
92356085|NCT03253627|184617654|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||baseline||||0.460
92356086|NCT03253627|184617654|SUPERIORITY|||||||0.896|||||||t-test, 2 sided|||3 months||||0.896
92356087|NCT03253627|184617655|SUPERIORITY|||||||0.374|||||||t-test, 2 sided|||baseline||||0.374
92220957|NCT01549275|184342381|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED||||||Chi-squared|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of patients with rapidly proliferative cultured HCC cells with or without concomitant cancer-associated fibroblasts between two groups.||||< 0.005
92356088|NCT03253627|184617655|SUPERIORITY|||||||0.236|||||||t-test, 2 sided|||6 months||||0.236
92356089|NCT03253627|184617656|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||baseline||||0.180
92356090|NCT03253627|184617656|SUPERIORITY|||||||0.822|||||||t-test, 2 sided|||6 months||||0.822
92356091|NCT03253627|184617657|SUPERIORITY|||||||0.715|||||||t-test, 2 sided|||baseline||||.715
92356092|NCT03253627|184617657|SUPERIORITY|||||||0.861|||||||t-test, 2 sided|||3 months||||0.861
92356093|NCT03253627|184617657|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||6 months||||.790
92220958|NCT01549275|184342381|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||Chi-squared|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of patients with rapidly proliferative cultured cancer-associated fibroblasts alone between two groups.||||> 0.1
92356094|NCT03253627|184617658|SUPERIORITY|||||||0.452|||||||t-test, 2 sided|||baseline||||0.452
92356095|NCT03253627|184617658|SUPERIORITY|||||||0.253|||||||t-test, 2 sided|||3 months||||0.253
92356096|NCT03253627|184617658|SUPERIORITY|||||||0.469|||||||t-test, 2 sided|||6 months||||0.469
92356097|NCT03253627|184617659|SUPERIORITY|||||||0.628|||||||t-test, 2 sided|||baseline||||0.628
92356098|NCT03253627|184617659|SUPERIORITY|||||||0.345|||||||t-test, 2 sided|||3 months||||0.345
92356099|NCT03253627|184617659|SUPERIORITY|||||||0.384|||||||t-test, 2 sided|||6 months||||0.384
92356100|NCT03253627|184617660|SUPERIORITY|||||||0.398|||||||t-test, 2 sided|||baseline||||.398
92356101|NCT03253627|184617660|SUPERIORITY|||||||0.811|||||||t-test, 2 sided|||3 months||||0.811
92356102|NCT03253627|184617660|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||6 months||||0.027
92356103|NCT00855166|184617691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08|STANDARD_ERROR_OF_MEAN|0.3885|<|0.0001|TWO_SIDED|95.0|-2.84|-1.31||Significant at alpha=0.05 (2-sided)|ANCOVA|with treatment group and stratum (gender) as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.31|-2.84|<0.0001
92356104|NCT00855166|184617692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52|STANDARD_ERROR_OF_MEAN|0.6162||0.0143|TWO_SIDED|95.0|-2.74|-0.31||Significant at alpha=0.05 (2-sided). Results of key secondary endpoints are interpreted using Hochberg's method|ANCOVA|with treatment group and stratum (gender) as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.31|-2.74|0.0143
92356105|NCT00855166|184617693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48|STANDARD_ERROR_OF_MEAN|0.3731||0.0001|TWO_SIDED|95.0|-2.22|-0.74||Significant at alpha=0.05 (2-sided). Results of key secondary endpoints are interpreted using Hochberg's method|ANCOVA|with treatment group and stratum (gender) as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.74|-2.22|0.0001
92356106|NCT00855166|184617694|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.3|STANDARD_ERROR_OF_MEAN|5.309|<|0.0001|TWO_SIDED|95.0|15.9|36.7||Significant at alpha=0.05 (2-sided). Results of key secondary endpoints are interpreted using Hochberg's method|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value and stratum (gender).||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||36.7|15.9|<0.0001
92356107|NCT00855166|184617695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.5652||0.7013|TWO_SIDED|95.0|-0.89|1.34||Exploratory. Model including fixed categorical effects of treatment, week, treatment-by-week interaction, gender and rescue medication as well as continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.|Mixed Models Analysis|Percent change in BMD from baseline to week 102 evaluated via longitudinal repeated measures analysis using direct likelihood.|Natural logarithms of baseline and week 102 values were used.|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||1.34|-0.89|0.7013
92162320|NCT03670602|184214208|SUPERIORITY|||||||0.201||||||This is for the treatment group x time effect, or if treatment differentially influenced medication adherence across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.201
92162321|NCT03670602|184214208|SUPERIORITY|||||||0.315||||||This is for the time effect, or if timepoint influenced medication adherence across all timepoints, independent of treatment group. The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.315
92220959|NCT01549275|184342382|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative cultured cells.||||1
92220960|NCT01549275|184342382|SUPERIORITY_OR_OTHER|||||||0.032|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative cultured cells.||||0.032
92356108|NCT00855166|184617696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|0.6473||0.1521|TWO_SIDED|95.0|-2.21|0.35||Exploratory. Model including fixed categorical effects of treatment, week, treatment-by-week interaction, gender and rescue medication as well as continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.|Mixed Models Analysis|Percent change in BMD from baseline to week 102 evaluated via longitudinal repeated measures analysis using direct likelihood.|Natural logarithms of baseline and week 102 values were used.|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||0.35|-2.21|0.1521
92220961|NCT01549275|184342382|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative cultured cells.||||0.048
92356109|NCT00855166|184617697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.4428||0.3105|TWO_SIDED|95.0|-1.32|0.43||Exploratory. Model including fixed categorical effects of treatment, week, treatment-by-week interaction, gender and rescue medication as well as continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.|Mixed Models Analysis|Percent change in BMD from baseline to week 102 evaluated via longitudinal repeated measures analysis using direct likelihood.|Natural logarithms of baseline and week 102 values were used.|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||0.43|-1.32|0.3105
92356110|NCT00489476|184617698|SUPERIORITY|||||||0.0212|||||||Fisher Exact|||||||0.0212
92401338|NCT00385671|184694164|NON_INFERIORITY_OR_EQUIVALENCE|Basis of non-inferiority margin (maximum disadvantage for duloxetine compared to pregabalin not considered meaningful): In 3 previous placebo-controlled trials of duloxetine in DPNP, in the subgroup of patients that had been treated with gabapentin prior to entry, the estimated mean change in pain at Week 12 was -2.74 for duloxetine and -1.09 for placebo, an advantage of about 1.65. The non-inferiority margin represents about half of this previous treatment effect in a similar population.|Mean Difference (Final Values)|0.23||||0.417|TWO_SIDED|95.0|-0.32|0.78||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week, Kenward-Roger approximation was used.||Null hypothesis: no difference in mean change from baseline to 12 weeks in weekly mean of daily 24 hour average pain score between duloxetine \& duloxetine+gabapentin treatments. Sample size: 125 participants/treatment, 6% increase for 400 planned enrollees. 92% power with 1-sided 97.5% confidence interval; mean change in duloxetine group, -2.7; in pregabalin group, -2.5; standard deviation, 2.3; margin of non-inferiority: -0.8.||0.78|-0.32|0.417
92401339|NCT00385671|184694165|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in Weekly mean of nighttime pain severity.||||0.463
92401340|NCT00385671|184694165|SUPERIORITY_OR_OTHER|||||||0.52||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly mean of nighttime pain severity.||||0.520
92401341|NCT00385671|184694165|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly mean of nighttime pain severity.||||0.463
92220962|NCT01549275|184342382|SUPERIORITY_OR_OTHER|||||||0.176|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative cultured cells.||||0.176
92356111|NCT00489476|184617698|SUPERIORITY|||||||0.0106|||||||Fisher Exact|||||||0.0106
92356112|NCT00489476|184617699|SUPERIORITY|||||||0.0123|||||||Fisher Exact|||||||0.0123
92356113|NCT00489476|184617699|SUPERIORITY|||||||0.0228|||||||Fisher Exact|||||||0.0228
92356114|NCT00489476|184617700|SUPERIORITY|||||||0.0409|||||||Fisher Exact|||||||0.0409
92356115|NCT04003389|184617707|SUPERIORITY||LSMean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.0604|TWO_SIDED|95.0|-0.36|0.21||LSM, SE, CI, \& p-values come from an analysis of covariance (ANCOVA) model with change from baseline at Week 52 timepoint as response, treatment \& smoking status (current vs former/never) as fixed effects with baseline weight \& baseline as covariate.|ANCOVA|||LSMeans (LSM), standard errors (SE), confidence intervals (CI)||0.21|-0.36|0.0604
92220963|NCT01549275|184342382|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative HCC cultured cells.||||0.021
92220964|NCT01549275|184342382|SUPERIORITY_OR_OTHER|||||||0.129|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative cultured cells.||||0.129
92220965|NCT00122681|184342383|SUPERIORITY_OR_OTHER||1-Rate Ratio|92.9|||||TWO_SIDED|95.0|79.9|98.3||||||Vaccine efficacy against CIN2+ associated with HPV-16 or HPV-18 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed.||98.3|79.9|
92220966|NCT00122681|184342383|SUPERIORITY_OR_OTHER||1-Rate Ratio|95.7|||||TWO_SIDED|95.0|82.9|99.6||||||Vaccine efficacy against CIN2+ associated with HPV-16 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed.||99.6|82.9|
92220967|NCT00122681|184342383|SUPERIORITY_OR_OTHER||1-Rate Ratio|86.7|||||TWO_SIDED|95.0|39.7|98.7||||||Vaccine efficacy against CIN2+ associated with HPV-18 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed.||98.7|39.7|
92220968|NCT00122681|184342383|SUPERIORITY_OR_OTHER||1-Rate Ratio|90.8|||||TWO_SIDED|95.0|78.1|96.9||||||Vaccine efficacy against CIN2+ for HPV-16 or HPV-18 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||96.9|78.1|
92220969|NCT00122681|184342383|SUPERIORITY_OR_OTHER||1-Rate Ratio|92.7|||||TWO_SIDED|95.0|79.3|98.2||||||Vaccine efficacy against CIN2+ for HPV-16 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||98.2|79.3|
92220970|NCT00122681|184342383|SUPERIORITY_OR_OTHER||1-Rate Ratio|87.6|||||TWO_SIDED|95.0|44.1|98.8||||||Vaccine efficacy against CIN2+ for HPV-18 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||98.8|44.1|
92220971|NCT00122681|184342384|SUPERIORITY_OR_OTHER||1-Rate Ratio|94.9|||||TWO_SIDED|95.0|87.7|98.4||||||Vaccine efficacy against CIN2+ associated with HPV-16 or HPV-18 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed||98.4|87.7|
92220972|NCT00122681|184342384|SUPERIORITY_OR_OTHER||1-Rate Ratio|97.6|||||TWO_SIDED|95.0|91.0|99.7||||||Vaccine efficacy against CIN2+ associated with HPV-16 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed||99.7|91.0|
92220973|NCT00122681|184342384|SUPERIORITY_OR_OTHER||1-Rate Ratio|87.1|||||TWO_SIDED|95.0|57.2|97.5||||||Vaccine efficacy against CIN2+ associated with HPV-18 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed.||97.5|57.2|
92276508|NCT01360632|184454747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.12||||0.0015|TWO_SIDED|95.0|-3.42|-0.81|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.81|-3.42|0.0015
92405678|NCT00705016|184701514|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.668||||0.347|TWO_SIDED|95.0|0.287|1.555||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cochran-Mantel-Haenszel|||||1.555|0.287|0.347
92401342|NCT00385671|184694166|SUPERIORITY_OR_OTHER|||||||0.389||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in weekly mean of the daily worst pain severity score.||||0.389
92401343|NCT00385671|184694166|SUPERIORITY_OR_OTHER|||||||0.126||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in weekly mean of the daily worst pain severity score.||||0.126
92401344|NCT00385671|184694166|SUPERIORITY_OR_OTHER|||||||0.489||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in weekly mean of the daily worst pain severity score.||||0.489
92401345|NCT00385671|184694167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.602|TWO_SIDED|95.0|-0.2|0.35||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Covariance model and t-tests: Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in CGI severity.||0.35|-0.20|0.602
92401346|NCT00385671|184694167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.469|TWO_SIDED|95.0|-0.17|0.37||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in CGI severity.||0.37|-0.17|0.469
92401347|NCT00385671|184694167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.841|TWO_SIDED|95.0|-0.24|0.3||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in CGI severity.||0.30|-0.24|0.841
92401348|NCT00385671|184694168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.276|TWO_SIDED|95.0|-0.16|0.55||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Variance model and t-tests:~Endpoint = InvestigatorGroup + Treatment. Last-observation-carried-forward imputation was implemented."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in PGI-Improvement at 12 weeks.||0.55|-0.16|0.276
92220974|NCT00122681|184342384|SUPERIORITY_OR_OTHER||1-Rate Ratio|93.6|||||TWO_SIDED|95.0|86.3|97.5||||||Vaccine efficacy against CIN2+ for HPV-16 or HPV-18 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||97.5|86.3|
92356116|NCT04003389|184617707|SUPERIORITY||LSMean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.239|TWO_SIDED|95.0|-0.45|0.11||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||||0.11|-0.45|0.239
92356117|NCT04003389|184617709|SUPERIORITY||LSMean difference|0.007|STANDARD_ERROR_OF_MEAN|0.003||0.029|TWO_SIDED|95.0|0.001|0.014||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femoral Neck)||0.014|0.001|0.029
92356118|NCT04003389|184617709|SUPERIORITY||LSMean difference|0.001|STANDARD_ERROR_OF_MEAN|0.003||0.867|TWO_SIDED|95.0|-0.006|0.007||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femoral Neck)||0.007|-0.006|0.867
92356119|NCT04003389|184617709|SUPERIORITY||LSMean difference|0.006|STANDARD_ERROR_OF_MEAN|0.003||0.027|TWO_SIDED|95.0|0.001|0.012||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femur)||0.012|0.001|0.027
92356120|NCT04003389|184617709|SUPERIORITY||LSMean difference|0.002|STANDARD_ERROR_OF_MEAN|0.003||0.41|TWO_SIDED|95.0|-0.003|0.008||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femur)||0.008|-0.003|0.410
92356121|NCT04003389|184617709|SUPERIORITY||LSMean difference|0.005|STANDARD_ERROR_OF_MEAN|0.003||0.087||95.0|-0.001|0.011||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Trochanter)||0.011|-0.001|0.087
92356122|NCT04003389|184617709|SUPERIORITY||LSMean difference|0.003|STANDARD_ERROR_OF_MEAN|0.003||0.259||95.0|-0.002|0.009||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Trochanter)||0.009|-0.002|0.259
92356123|NCT04003389|184617710|SUPERIORITY||LSMean difference|0.048|STANDARD_ERROR_OF_MEAN|0.027||0.079|TWO_SIDED|95.0|-0.006|0.102||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femoral Neck)||0.102|-0.006|0.079
92356124|NCT04003389|184617710|SUPERIORITY||LSMean difference|0.001|STANDARD_ERROR_OF_MEAN|0.027||0.98|TWO_SIDED|95.0|-0.052|0.053||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femoral Neck)||0.053|-0.052|0.980
92356125|NCT04003389|184617710|SUPERIORITY||LSMean difference|0.048|STANDARD_ERROR_OF_MEAN|0.023||0.042||95.0|0.002|0.094||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femur)||0.094|0.002|0.042
92356126|NCT04003389|184617710|SUPERIORITY||LSMean difference|0.02|STANDARD_ERROR_OF_MEAN|0.023||0.386||95.0|-0.025|0.065||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femur)||0.065|-0.025|0.386
92401349|NCT00385671|184694168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.929|TWO_SIDED|95.0|-0.33|0.37||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Variance model and t-tests:~Endpoint = InvestigatorGroup + Treatment. Last-observation-carried-forward imputation was implemented."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in PGI-Improvement at 12 weeks.||0.37|-0.33|0.929
92401350|NCT00385671|184694168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.313|TWO_SIDED|95.0|-0.53|0.17||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Variance model and t-tests:~Endpoint = InvestigatorGroup + Treatment. Last-observation-carried-forward imputation was implemented."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in PGI-Improvement at 12 weeks.||0.17|-0.53|0.313
92401351|NCT00385671|184694169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49||||0.078|TWO_SIDED|95.0|-0.06|1.04||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: 24-hour average pain.||1.04|-0.06|0.078
92401352|NCT00385671|184694169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64||||0.025|TWO_SIDED|95.0|0.08|1.2||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: 24-hour average pain.||1.20|0.08|0.025
92162322|NCT03670602|184214209|SUPERIORITY|A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||||0.345||||||This is for the treatment group x time effect, or if treatment group influenced change in percent of time engaged in moderate-to-vigorous physical activity (MVPA) across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||||||0.345
92356127|NCT04003389|184617710|SUPERIORITY||LSMean difference|0.041|STANDARD_ERROR_OF_MEAN|0.029||0.156||95.0|-0.016|0.099||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Trochanter)||0.099|-0.016|0.156
92401353|NCT00385671|184694169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.602|TWO_SIDED|95.0|-0.41|0.7||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: 24-hour average pain.||0.70|-0.41|0.602
92405679|NCT00705016|184701515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.294|TWO_SIDED|95.0|0.84|1.81||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cox proportional hazards model|||||1.81|0.84|0.294
92162323|NCT03670602|184214209|SUPERIORITY|||||||0.0003||||||This is for the time effect, or if percent of time engaged in moderate-to-vigorous physical activity (MVPA) changed across timepoints, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.0003
92162324|NCT03670602|184214210|SUPERIORITY|||||||0.007||||||This is for the treatment group x time effect, or if treatment differentially influenced changes in calorie intake across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.007
92356128|NCT04003389|184617710|SUPERIORITY||LSMean difference|0.028|STANDARD_ERROR_OF_MEAN|0.029||0.328|TWO_SIDED|95.0|-0.028|0.084||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Trochanter)||0.084|-0.028|0.328
92356129|NCT04003389|184617711|SUPERIORITY||LSMean difference|0.002|STANDARD_ERROR_OF_MEAN|0.004||0.497||95.0|-0.005|0.009||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||||0.009|-0.005|0.497
92356130|NCT04003389|184617711|SUPERIORITY||LSMean difference|-0.001|STANDARD_ERROR_OF_MEAN|0.004||0.878||95.0|-0.007|0.006||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||||0.006|-0.007|0.878
92356131|NCT04003389|184617712|SUPERIORITY||LSMean difference|0.02|STANDARD_ERROR_OF_MEAN|0.031||0.527|TWO_SIDED|95.0|-0.042|0.082||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||||0.082|-0.042|0.527
92356132|NCT04003389|184617712|SUPERIORITY||LSMean difference|-0.005|STANDARD_ERROR_OF_MEAN|0.031||0.872||95.0|-0.066|0.056||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||||0.056|-0.066|0.872
92356133|NCT02514746|184617726|OTHER||Difference (Group A - B)|-0.6|||||TWO_SIDED|95.0|-7.5|4.5||||||Difference at Year 3||4.5|-7.5|
92356134|NCT02514746|184617726|OTHER||Difference (Group A - B)|0.6|||||TWO_SIDED|95.0|-7.4|6.5||||||Difference at Year 4||6.5|-7.4|
92356135|NCT02514746|184617727|OTHER||GMT Ratio (Group A/B)|1.0|||||TWO_SIDED|95.0|0.9|1.1||||||Geometric mean titer ratio at Year 3||1.1|0.9|
92356136|NCT02514746|184617727|OTHER||GMT Ratio (Group A/B)|1.0|||||TWO_SIDED|95.0|0.9|1.1||||||Geometric mean titer ratio at Year 4||1.1|0.9|
92356137|NCT02514746|184617728|OTHER||Difference (Group A - B)|-3.7|||||TWO_SIDED|95.0|-8.1|2.8||||||Difference at 7 days post booster vaccination||2.8|-8.1|
92356138|NCT02514746|184617728|OTHER||Difference (Group A - B)|-1.3|||||TWO_SIDED|95.0|-3.3|3.0||||||Difference at 28 days post booster vaccination||3.0|-3.3|
92356139|NCT02514746|184617729|OTHER||GMT Ratio (Group A/B)|0.7|||||TWO_SIDED|95.0|0.5|1.0||||||Geometric mean titer ratio 7 days after booster dose||1.0|0.5|
92162325|NCT03670602|184214210|SUPERIORITY||||||<|0.0001||||||This is for the time effect, or if time influenced changes in calorie intake, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||<0.0001
92356140|NCT02514746|184617729|OTHER||GMT Ratio (Group A/B)|0.7|||||TWO_SIDED|95.0|0.6|0.9||||||Geometric mean titer ratio 28 days after booster dose||0.9|0.6|
92356141|NCT02514746|184617730|OTHER||Difference (Group A - B)|-2.9|||||TWO_SIDED|95.0|-8.0|4.5||||||Difference at 7 days post booster vaccination||4.5|-8.0|
92356142|NCT02514746|184617730|OTHER||Difference (Group A - B)|-1.8|||||TWO_SIDED|95.0|-4.4|3.0||||||Difference at 28 days post booster vaccination||3.0|-4.4|
92356143|NCT04003142|184617736|SUPERIORITY|Least squares Mean (LSM), Standard error (SE), Confidence interval (CI), Mixed model repeated measures (MMRM), Change from Baseline (CFB), Dependent variable (dv), Treatment (tr), Week (wk), Baseline (bl), Weight (wt)|Least squares (LS) Mean difference|-1.82|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|-2.73|-0.91||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.91|-2.73|<0.001
92356144|NCT04003142|184617736|SUPERIORITY||LSMean difference|-2.55|STANDARD_ERROR_OF_MEAN|0.46|<|0.001||95.0|-3.45|-1.64||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-1.64|-3.45|<0.001
92356145|NCT04003142|184617736|SUPERIORITY|||||||0.049|||||||Hochberg|||||||0.049
92356146|NCT04003142|184617736|SUPERIORITY||||||<|0.001|||||||Hochberg|||||||<0.001
92356147|NCT04003142|184617737|SUPERIORITY||LSMean Difference|-1.86|STANDARD_ERROR_OF_MEAN|0.55|<|0.001||95.0|-2.94|-0.78||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.78|-2.94|<0.001
92356148|NCT04003142|184617737|SUPERIORITY||LSMean difference|-2.53|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|-3.6|-1.46||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-1.46|-3.60|<0.001
92356149|NCT04003142|184617737|SUPERIORITY|||||||0.049|||||||Hochberg|||||||0.049
92356150|NCT04003142|184617737|SUPERIORITY||||||<|0.001|||||||Hochberg|||||||<0.001
92356151|NCT04003142|184617738|SUPERIORITY||LSMean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.06||0.021||95.0|-0.27|-0.02||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.02|-0.27|0.021
92356152|NCT04003142|184617738|SUPERIORITY||LSMean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.06|<|0.001||95.0|-0.41|-0.16||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.16|-0.41|<0.001
92356153|NCT04003142|184617738|SUPERIORITY|||||||0.049|||||||Hochberg|||||||0.049
92356154|NCT04003142|184617738|SUPERIORITY||||||<|0.001|||||||Hochberg|||||||<0.001
92356155|NCT04003142|184617739|SUPERIORITY||LSMean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.049||95.0|-0.33|0.0||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||0.00|-0.33|0.049
92356156|NCT04003142|184617739|SUPERIORITY||LSMean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.08|<|0.001||95.0|-0.45|-0.13||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.13|-0.45|<0.001
92356157|NCT04003142|184617739|SUPERIORITY|||||||0.049|||||||Hochberg|||||||0.049
92356158|NCT04003142|184617739|SUPERIORITY||||||<|0.001|||||||Hochberg|||||||<0.001
92356159|NCT04003142|184617740|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.7||0.381|TWO_SIDED|95.0|-2.1|0.8||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||0.8|-2.1|0.381
92356160|NCT04003142|184617740|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.7||0.007|TWO_SIDED|95.0|-3.5|-0.6||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.6|-3.5|0.007
92356161|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.09|-0.51||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.51|-2.09|0.001
92356162|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.71|STANDARD_ERROR_OF_MEAN|0.4|<|0.001||95.0|-2.51|-0.91||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.91|-2.51|<0.001
92356163|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.76|STANDARD_ERROR_OF_MEAN|0.45|<|0.001||95.0|-2.65|-0.87||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-0.87|-2.65|<0.001
92356164|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.97|STANDARD_ERROR_OF_MEAN|0.45|<|0.001||95.0|-2.86|-1.08||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-1.08|-2.86|<0.001
92356165|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.74|STANDARD_ERROR_OF_MEAN|0.46|<|0.001||95.0|-2.63|-0.84||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-0.84|-2.63|<0.001
92356166|NCT04003142|184617741|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.46|<|0.001||95.0|-3.29|-1.5||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-1.50|-3.29|<0.001
92356167|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.84|STANDARD_ERROR_OF_MEAN|0.48|<|0.001||95.0|-2.79|-0.9||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-0.90|-2.79|<0.001
92356168|NCT04003142|184617741|SUPERIORITY||LSMean difference|-2.66|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|-3.61|-1.72||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-1.72|-3.61|<0.001
92162326|NCT03670602|184214211|SUPERIORITY|||||||0.774||||||This is for the treatment group x time effect, or if treatment differentially influenced changes in working memory across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.774
92356169|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.78|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|-2.71|-0.85||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-0.85|-2.71|<0.001
92356170|NCT04003142|184617741|SUPERIORITY||LSMean difference|-2.66|STANDARD_ERROR_OF_MEAN|0.47|<|0.001||95.0|-3.59|-1.73||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-1.73|-3.59|<0.001
92356171|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.49|<|0.001||95.0|-2.77|-0.83||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-0.83|-2.77|<0.001
92220975|NCT00122681|184342384|SUPERIORITY_OR_OTHER||1-Rate Ratio|95.7|||||TWO_SIDED|95.0|88.5|98.9||||||Vaccine efficacy against CIN2+ for HPV-16 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||98.9|88.5|
92220976|NCT00122681|184342384|SUPERIORITY_OR_OTHER||1-Rate Ratio|87.6|||||TWO_SIDED|95.0|59.2|97.6||||||Vaccine efficacy against CIN2+ for HPV-18 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||97.6|59.2|
92356172|NCT04003142|184617741|SUPERIORITY||LSMean difference|-2.34|STANDARD_ERROR_OF_MEAN|0.49|<|0.001||95.0|-3.3|-1.37||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-1.37|-3.30|<0.001
92356173|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.76|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|-2.79|-0.74||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-0.74|-2.79|<0.001
92356174|NCT04003142|184617741|SUPERIORITY||LSMean difference|-2.38|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|-3.4|-1.35||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-1.35|-3.40|<0.001
92356175|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.65|STANDARD_ERROR_OF_MEAN|0.54||0.002||95.0|-2.71|-0.59||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-0.59|-2.71|0.002
92356176|NCT04003142|184617741|SUPERIORITY||LSMean difference|-2.51|STANDARD_ERROR_OF_MEAN|0.54|<|0.001||95.0|-3.57|-1.45||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-1.45|-3.57|<0.001
92356177|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.91|STANDARD_ERROR_OF_MEAN|0.54|<|0.001||95.0|-2.96|-0.86||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-0.86|-2.96|<0.001
92356178|NCT04003142|184617741|SUPERIORITY||LSMean difference|-2.65|STANDARD_ERROR_OF_MEAN|0.53|<|0.001||95.0|-3.69|-1.6||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-1.60|-3.69|<0.001
92356179|NCT04003142|184617741|SUPERIORITY||LSMean difference|-1.86|STANDARD_ERROR_OF_MEAN|0.53|<|0.001||95.0|-2.91|-0.81||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-0.81|-2.91|<0.001
92356180|NCT04003142|184617741|SUPERIORITY||LSMean difference|-2.56|STANDARD_ERROR_OF_MEAN|0.53|<|0.001|TWO_SIDED|95.0|-3.61|-1.52||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-1.52|-3.61|<0.001
92356181|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.04||0.001||95.0|-0.21|-0.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.05|-0.21|0.001
92356182|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|95.0|-0.24|-0.08||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.08|-0.24|<0.001
92220977|NCT00122681|184342409|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.798||||0.391|TWO_SIDED|95.0|0.476|1.337|||Chi-squared|||Hazard ratio of anti-HPV-16 GMTs at Month 7 (by ELISA) in subjects without 6-month persistent infection compared to subjects with 6-month persistent infection||1.337|0.476|0.3910
92356183|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.05||0.001||95.0|-0.28|-0.07||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-0.07|-0.28|0.001
92405680|NCT00705016|184701515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.73||||0.007|TWO_SIDED|95.0|1.16|2.57||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cox proportional hazards model|||||2.57|1.16|0.007
92220978|NCT00122681|184342411|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.778||||0.3796|TWO_SIDED|95.0|0.444|1.362|||Chi-squared|||Hazard ratio of anti-HPV-16 GMTs at Month 7 (by ELISA) in subjects without 12-month persistent infection compared to subjects with 12-month persistent infection.||1.362|0.444|0.3796
92276509|NCT01360632|184454748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0008|TWO_SIDED|95.0|-0.87|-0.23||MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.23|-0.87|0.0008
92356184|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.05||0.001|TWO_SIDED|95.0|-0.28|-0.07||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-0.07|-0.28|0.001
92356185|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.067||95.0|-0.23|0.01||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||0.01|-0.23|0.067
92356186|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.35|-0.11||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-0.11|-0.35|<0.001
92356187|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.02|TWO_SIDED|95.0|-0.3|-0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-0.03|-0.30|0.020
92356188|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.43|-0.16||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-0.16|-0.43|<0.001
92356189|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.012|TWO_SIDED|95.0|-0.32|-0.04||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-0.04|-0.32|0.012
92356190|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.001||95.0|-0.42|-0.14||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-0.14|-0.42|<0.001
92401354|NCT00385671|184694170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.353|TWO_SIDED|95.0|-0.34|0.94||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-severity: worst pain.||0.94|-0.34|0.353
92401355|NCT00385671|184694170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69||||0.039|TWO_SIDED|95.0|0.03|1.34||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-severity: worst pain.||1.34|0.03|0.039
92401356|NCT00385671|184694170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.244|TWO_SIDED|95.0|-0.27|1.04||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: Worst Pain.||1.04|-0.27|0.244
92401357|NCT00385671|184694171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.298|TWO_SIDED|95.0|-0.25|0.8||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: Least Pain.||0.80|-0.25|0.298
92401358|NCT00385671|184694171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.304|TWO_SIDED|95.0|-0.25|0.81||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: Least Pain.||0.81|-0.25|0.304
92405681|NCT00705016|184701516|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.391|TWO_SIDED|95.0|0.71|2.39||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cox proportional hazards model|||||2.39|0.71|0.391
92356191|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.03|TWO_SIDED|95.0|-0.31|-0.02||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-0.02|-0.31|0.030
92356192|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.43|-0.14||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-0.14|-0.43|<0.001
92356193|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.095|TWO_SIDED|95.0|-0.28|0.02||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||0.02|-0.28|0.095
92356194|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.41|-0.11||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-0.11|-0.41|<0.001
92356195|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.109|TWO_SIDED|95.0|-0.28|0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||0.03|-0.28|0.109
92356196|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.43|-0.12||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-0.12|-0.43|<0.001
92356197|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.08||0.02||95.0|-0.35|-0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-0.03|-0.35|0.020
92356198|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001||95.0|-0.47|-0.15||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-0.15|-0.47|<0.001
92356199|NCT04003142|184617742|SUPERIORITY||LSMean diferrence|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.012||95.0|-0.37|-0.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-0.05|-0.37|0.012
92356200|NCT04003142|184617742|SUPERIORITY||LSMean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001||95.0|-0.47|-0.15||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-0.15|-0.47|<0.001
92356201|NCT04003142|184617743|SUPERIORITY||LSMean difference|-12.16|STANDARD_ERROR_OF_MEAN|3.43|<|0.001||95.0|-18.9|-5.43||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-5.43|-18.90|<0.001
92356202|NCT04003142|184617743|SUPERIORITY||LSMean difference|-15.68|STANDARD_ERROR_OF_MEAN|3.44|<|0.001||95.0|-22.44|-8.91||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-8.91|-22.44|<0.001
92356203|NCT04003142|184617743|SUPERIORITY||LSMean difference|-14.61|STANDARD_ERROR_OF_MEAN|3.81|<|0.001|TWO_SIDED|95.0|-22.09|-7.13||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-7.13|-22.09|<0.001
92356204|NCT04003142|184617743|SUPERIORITY||LSMean difference|-15.95|STANDARD_ERROR_OF_MEAN|3.82|<|0.001|TWO_SIDED|95.0|-23.45|-8.45||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-8.45|-23.45|<0.001
92356205|NCT04003142|184617743|SUPERIORITY||LSMean difference|-15.51|STANDARD_ERROR_OF_MEAN|3.89|<|0.001||95.0|-23.16|-7.86||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-7.86|-23.16|<0.001
92162327|NCT03670602|184214211|SUPERIORITY|||||||0.019||||||This is for the time effect, or if time influenced changes in working memory, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.019
92356206|NCT04003142|184617743|SUPERIORITY||LSMean difference|-20.25|STANDARD_ERROR_OF_MEAN|3.9|<|0.001||95.0|-27.91|-12.59||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-12.59|-27.91|<0.001
92356207|NCT04003142|184617743|SUPERIORITY||LSMean difference|-16.34|STANDARD_ERROR_OF_MEAN|3.92|<|0.001||95.0|-24.04|-8.63||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 4||-8.63|-24.04|<0.001
92405682|NCT00705016|184701516|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.6||||0.007|TWO_SIDED|95.0|1.3|5.21||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cox proportional hazards model|||||5.21|1.30|0.007
92162328|NCT03670602|184214212|SUPERIORITY|||||||0.65||||||This is for the treatment group x time effect, or if treatment differentially influenced relative reinforcing efficacy of unhealthy food across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.650
92162329|NCT03670602|184214212|SUPERIORITY||||||<|0.0001||||||This is for the time effect, or if time influenced changes in relative reinforcing efficacy of unhealthy food, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||<0.0001
92162330|NCT02469064|184214276|OTHER||Hazard Ratio (HR)|0.82||||0.84|TWO_SIDED|95.0|0.55|1.2|||Mann Whitneey||Univariate analysis of the probability of extubation was performed using Kaplan-Meir survival analysis and the logrank test.The multivariate analysis was performed by cox regression, a simple model was performed and a final model.|||1.20|0.55|0.84
92162331|NCT02469064|184214277|OTHER||Slope|0.46||||0.48|TWO_SIDED|95.0|-3.75|4.78|||t-test, 2 sided||The slope shows the difference between the means of the change in the MIP of the group that received the experimental treatment and the group that received the conventional treatment|||4.78|-3.75|0.48
92162332|NCT00964366|184214294|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Dunn's Multiple Comparisons Test|||||||> 0.05
92162333|NCT00964366|184214296|SUPERIORITY_OR_OTHER||||||<|0.05||||||Dapsone versus Clindamycin/BPO gel.|Dunn's Multiple Comparisons Test|||||||< 0.05
92162334|NCT00964366|184214297|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92162335|NCT00964366|184214298|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92162336|NCT02957539|184214299|SUPERIORITY||Mean Difference (Net)|-4.5|||||TWO_SIDED|97.5|-10.7|1.6|||||Change in weight from baseline to week 32 in the financial rewards arm minus the change in weight from baseline to week 32 in the no rewards arm.|||1.6|-10.7|
92162337|NCT02957539|184214299|SUPERIORITY||Mean Difference (Net)|-5.0|||<|0.025|TWO_SIDED|97.5|-11.1|1.0|||t-test, 2 sided||Change in weight from baseline to week 32 in the non-financial arm minus the change in weight from baseline to week 32 in the no rewards arm|||1|-11.1|<0.025
92162338|NCT02957539|184214300|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|97.5|-0.5|1.8|||||Change in Self Efficacy score from baseline to week 16 in the financial rewards arm minus the change in Self Efficacy score from baseline to week 16 in the no rewards arm.|||1.8|-0.5|
92162339|NCT02957539|184214300|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|97.5|-0.8|1.5|||||Change in Self Efficacy score from baseline to week 16 in the nonfinancial rewards arm minus the change in Self Efficacy score from baseline to week 16 in the no rewards arm.|||1.5|-0.8|
92162340|NCT02957539|184214301|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|97.5|-1.2|1.4|||||The change in self efficacy from baseline to week 32 in the financial incentive arm minus the change in self efficacy from baseline to week 32 in the no rewards arm|||1.4|-1.2|
92162341|NCT02957539|184214301|SUPERIORITY||Mean Difference (Net)|0.5|||||TWO_SIDED|97.5|-0.9|1.8|||||The change in self efficacy from baseline to week 32 in the nonfinancial incentive arm minus the change in self efficacy from baseline to week 32 in the no rewards arm|||1.8|-.9|
92162342|NCT02957539|184214302|SUPERIORITY||Mean Difference (Net)|1.5|||||TWO_SIDED|97.5|0.2|2.8|||||The change in self efficacy from baseline to week 52 in the financial incentive arm minus the change in self efficacy from baseline to week 52 in the no rewards arm|||2.8|0.2|
92162343|NCT02957539|184214302|SUPERIORITY||Mean Difference (Net)|1.2|||||TWO_SIDED|97.5|0.0|2.3|||||The change in self efficacy from baseline to week 52 in the nonfinancial incentive arm minus the change in self efficacy from baseline to week 52 in the no rewards arm|||2.3|0.0|
92220979|NCT00122681|184342413|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.1035||95.0|0.337|1.106|||Chi-squared|||Hazard ratio of anti-HPV-18 GMTs at Month 7 (by ELISA) in subjects without 6-month persistent infection compared to subjects with 6-month persistent infection.||1.106|0.337|0.1035
92220980|NCT00122681|184342415|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.635||||0.2111|TWO_SIDED|95.0|0.312|1.293|||Chi-squared|||Hazard ratio of anti-HPV-18 GMTs at Month 7 (by ELISA) in subjects without 12-month persistent infection compared to subjects with 12-month persistent infection.||1.293|0.312|0.2111
92356208|NCT04003142|184617743|SUPERIORITY||LSMean difference|-21.65|STANDARD_ERROR_OF_MEAN|3.92|<|0.001||95.0|-29.36|-13.94||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 4||-13.94|-29.36|<0.001
92356209|NCT04003142|184617743|SUPERIORITY||LSMean difference|-15.62|STANDARD_ERROR_OF_MEAN|3.89|<|0.001|TWO_SIDED|95.0|-23.27|-7.98||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-7.98|-23.27|<0.001
92356210|NCT04003142|184617743|SUPERIORITY||LSMean difference|-22.88|STANDARD_ERROR_OF_MEAN|3.89|<|0.001||95.0|-30.52|-15.24||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-15.24|-30.52|<0.001
92356211|NCT04003142|184617743|SUPERIORITY||LSMean difference|-14.78|STANDARD_ERROR_OF_MEAN|3.87|<|0.001||95.0|-22.38|-7.19||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-7.19|-22.38|<0.001
92356212|NCT04003142|184617743|SUPERIORITY||LSMean difference|-22.66|STANDARD_ERROR_OF_MEAN|3.86|<|0.001|TWO_SIDED|95.0|-30.25|-15.07||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-15.07|-30.25|<0.001
92405683|NCT00942604|184701518|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92405684|NCT00942604|184701519|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92401359|NCT00385671|184694171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.989|TWO_SIDED|95.0|-0.53|0.54||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-severity: least pain.||0.54|-0.53|0.989
92401360|NCT00385671|184694172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.145|TWO_SIDED|95.0|-0.14|0.97||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-severity: pain right now.||0.97|-0.14|0.145
92401361|NCT00385671|184694172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46||||0.112|TWO_SIDED|95.0|-0.11|1.03||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-severity: pain right now.||1.03|-0.11|0.112
92401362|NCT00385671|184694172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.865|TWO_SIDED|95.0|-0.52|0.62||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly mean of nighttime pain severity.||0.62|-0.52|0.865
92401363|NCT00385671|184694173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.263|TWO_SIDED|95.0|-0.26|0.95||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with general activity.||0.95|-0.26|0.263
92401364|NCT00385671|184694173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86||||0.007|TWO_SIDED|95.0|0.24|1.49||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with general activity.||1.49|0.24|0.007
92401365|NCT00385671|184694173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.102|TWO_SIDED|95.0|-0.1|1.13||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with general activity.||1.13|-0.10|0.102
92162344|NCT02957539|184214303|SUPERIORITY||Mean Difference (Net)|0.2|||||TWO_SIDED|97.5|-0.4|0.9|||||Change in intrinsic motivation score from baseline to week 16 in the financial rewards arm minus the change in intrinsic motivation score from baseline to week 16 in the no rewards arm.|||0.9|-0.4|
92162345|NCT02957539|184214303|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|97.5|-0.6|0.7|||||Change in intrinsic motivation score from baseline to week 16 in the nonfinancial rewards arm minus the change in intrinsic motivation score from baseline to week 16 in the no rewards arm.|||0.7|-0.6|
92276510|NCT01360632|184454748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.5792|TWO_SIDED|95.0|-0.41|0.23||MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B||0.23|-0.41|0.5792
92162346|NCT02957539|184214304|SUPERIORITY||Mean Difference (Net)|0.5|||||TWO_SIDED|97.5|-0.2|1.3|||||The change in intrinsic motivation from baseline to week 32 in the financial incentive arm minus the change in intrinsic motivation from baseline to week 32 in the no rewards arm|||1.3|-0.2|
92162347|NCT02957539|184214304|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|97.5|-0.3|1.6|||||The change in intrinsic motivation from baseline to week 32 in the nonfinancial incentive arm minus the change in intrinsic motivation from baseline to week 32 in the no rewards arm|||1.6|-0.3|
92162348|NCT02957539|184214305|SUPERIORITY||Mean Difference (Final Values)|0.5|||||TWO_SIDED|97.5|-0.5|1.5|||||The change in intrinsic motivation from baseline to week 52 in the financial incentive arm minus the change in intrinsic motivation from baseline to week 52 in the no rewards arm|||1.5|-0.5|
92276511|NCT01360632|184454748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0091|TWO_SIDED|95.0|-0.87|-0.12|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.12|-0.87|0.0091
92162349|NCT02957539|184214305|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|97.5|-0.8|1.6|||||Incentive Group minus usual care|||1.6|-0.8|
92356213|NCT04003142|184617743|SUPERIORITY||LSMean difference|-14.97|STANDARD_ERROR_OF_MEAN|4.01|<|0.001|TWO_SIDED|95.0|-22.86|-7.09||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-7.09|-22.86|<0.001
92356214|NCT04003142|184617743|SUPERIORITY||LSMean difference|-21.47|STANDARD_ERROR_OF_MEAN|4.01|<|0.001||95.0|-29.34|-13.6||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-13.60|-29.34|<0.001
92356215|NCT04003142|184617743|SUPERIORITY||LSMean difference|-14.38|STANDARD_ERROR_OF_MEAN|4.05|<|0.001|TWO_SIDED|95.0|-22.33|-6.43||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-6.43|-22.33|<0.001
92356216|NCT04003142|184617743|SUPERIORITY||LSMean difference|-20.57|STANDARD_ERROR_OF_MEAN|4.03|<|0.001||95.0|-28.5|-12.65||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-12.65|-28.50|<0.001
92356217|NCT04003142|184617743|SUPERIORITY||LSMean difference|-12.14|STANDARD_ERROR_OF_MEAN|4.07||0.003||95.0|-20.14|-4.14||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-4.14|-20.14|0.003
92356218|NCT04003142|184617743|SUPERIORITY||LSMean difference|-19.73|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-27.71|-11.755||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-11.755|-27.71|<0.001
92356219|NCT04003142|184617743|SUPERIORITY||LSMean difference|-14.4|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-22.25|-6.54||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-6.54|-22.25|<0.001
92356220|NCT04003142|184617743|SUPERIORITY||LSMean difference|-20.1|STANDARD_ERROR_OF_MEAN|3.98|<|0.001||95.0|-27.93|-12.27||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-12.27|-27.93|<0.001
92356221|NCT04003142|184617743|SUPERIORITY||LSMean difference|-14.96|STANDARD_ERROR_OF_MEAN|4.07|<|0.001||95.0|-22.96|-6.96||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-6.96|-22.96|<0.001
92356222|NCT04003142|184617743|SUPERIORITY||LSMean difference|-20.15|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-28.13|-12.18||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-12.18|-28.13|<0.001
92356223|NCT04003142|184617743|SUPERIORITY||LSMean difference|-13.64|STANDARD_ERROR_OF_MEAN|4.07|<|0.001||95.0|-21.62|-5.65||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 12||-5.65|-21.62|<0.001
92356224|NCT04003142|184617743|SUPERIORITY||LSMean difference|-18.94|STANDARD_ERROR_OF_MEAN|4.05|<|0.001||95.0|-26.89|-10.98||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 12||-10.98|-26.89|<0.001
92162350|NCT02957539|184214306|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|97.5|-2.0|2.6|||||Change in PHQ-8 score from baseline to week 16 in the financial rewards arm minus the change in PHQ-8 score from baseline to week 16 in the no rewards arm.|||2.6|-2.0|
92162351|NCT02957539|184214306|SUPERIORITY||Mean Difference (Net)|0.7|||||TWO_SIDED|97.5|-1.5|2.9|||||Change in PHQ-9 from week baseline to week 16 in the non-financial incentive group minus the change from week baseline to week 16 in the no rewards group|||2.9|-1.5|
92162352|NCT02957539|184214307|SUPERIORITY||Mean Difference (Net)|1.4|||||TWO_SIDED|97.5|-1.7|4.5|||||The change in PHQ-8 from baseline to week 32 in the financial incentive arm minus the change in PHQ-8 from baseline to week 32 in the no rewards arm|||4.5|-1.7|
92162353|NCT02957539|184214307|SUPERIORITY||Mean Difference (Net)|2.2|||||TWO_SIDED|97.5|-0.7|5.0|||||The change in PHQ-8 from baseline to week 32 in the nonfinancial incentive arm minus the change in PHQ-8 from baseline to week 32 in the no rewards arm|||5.0|-0.7|
92356225|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|1.881||||0.02||95.0|1.11|3.233||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||3.233|1.110|0.020
92162354|NCT02957539|184214308|SUPERIORITY||Mean Difference (Net)|-1.1|||||TWO_SIDED|97.5|-4.9|2.8|||||Change in PHQ-8 score from baseline to week 52 in the financial rewards arm minus the change in PHQ-8 score from baseline to week 52 in the no rewards arm.|||2.8|-4.9|
92405685|NCT04109547|184701527|SUPERIORITY||Treatment difference|-1.5|||<|0.0001|TWO_SIDED|95.0|-1.8|-1.3||Unadjusted two-sided p-value for test of no difference from 0.|MMRM|||||-1.3|-1.8|<0.0001
92162355|NCT02957539|184214308|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|97.5|-2.9|3.6|||||The change in PHQ-8 from baseline to week 52 in the nonfinancial incentive arm minus the change in PHQ-8 from baseline to week 52 in the no rewards arm|||3.6|-2.9|
92162356|NCT02957539|184214309|SUPERIORITY||Mean Difference (Net)|-3.2|||||TWO_SIDED|97.5|-7.4|1.0|||||Change in weight from baseline to week 16 in the financial rewards arm minus the change in weight from baseline to week 16 in the no rewards arm.|||1|-7.4|
92356226|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.645|||<|0.001|TWO_SIDED|95.0|1.585|4.498||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||4.498|1.585|<0.001
92356227|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.464|||<|0.001||95.0|1.535|4.001||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||4.001|1.535|<0.001
92356228|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.464|||<|0.001|TWO_SIDED|95.0|1.534|4.004||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||4.004|1.534|<0.001
92356229|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.367|||<|0.001||95.0|1.502|3.762||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||3.762|1.502|<0.001
92356230|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.894|||<|0.001||95.0|1.835|4.609||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||4.609|1.835|<0.001
92356231|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.902|||<|0.001|TWO_SIDED|95.0|1.829|4.657||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||4.657|1.829|<0.001
92356232|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|3.218|||<|0.001||95.0|2.025|5.172||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||5.172|2.025|<0.001
92356233|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.153|||<|0.001||95.0|1.375|3.394||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||3.394|1.375|<0.001
92356234|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|3.074|||<|0.001||95.0|1.957|4.878||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||4.878|1.957|<0.001
92356235|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.05||||0.002||95.0|1.31|3.228||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||3.228|1.310|0.002
92356236|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.908|||<|0.001||95.0|1.856|4.599||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||4.599|1.856|<0.001
92401366|NCT00385671|184694174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.922|TWO_SIDED|95.0|-0.61|0.55||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with mood.||0.55|-0.61|0.922
92401367|NCT00385671|184694174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.195|TWO_SIDED|95.0|-0.2|0.99||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with mood.||0.99|-0.20|0.195
92401368|NCT00385671|184694174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.162|TWO_SIDED|95.0|-0.17|1.02||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with mood.||1.02|-0.17|0.162
92405686|NCT04109547|184701527|SUPERIORITY||Treatment difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.2||Unadjusted two-sided p-value for test of no difference from 0.|MMRM|||||-1.2|-1.6|<0.0001
92220981|NCT02324920|184342449|SUPERIORITY||Hazard Ratio (HR)|0.22|||<|0.001|TWO_SIDED|95.0|0.11|0.46|||Regression, Cox||||Additional models were implemented to control for country and investigational sites effect on primary endpoint.|0.46|0.11|<0.001
92356237|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.113||||0.001||95.0|1.349|3.332||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||3.332|1.349|0.001
92356238|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.594|||<|0.001||95.0|1.653|4.104||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||4.104|1.653|<0.001
92405687|NCT04109547|184701527|SUPERIORITY||Treatment difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||Unadjusted two-sided p-value for test of no difference from 0.|MMRM|||||-0.8|-1.2|<0.0001
92162357|NCT02957539|184214309|SUPERIORITY||Mean Difference (Net)|-4.6|||||TWO_SIDED|97.5|-8.7|-0.4|||||Change in weight from baseline to week 16 in the nonfinancial rewards arm minus the change in weight from baseline to week 32 in the no rewards arm.|||-0.4|-8.7|
92220982|NCT02324920|184342450|SUPERIORITY||Hazard Ratio (HR)|0.45||||0.002|TWO_SIDED|95.0|0.27|0.75|||Regression, Cox|||||0.75|0.27|0.002
92162358|NCT02957539|184214310|SUPERIORITY||Mean Difference (Net)|2.4|||||TWO_SIDED|97.5|-6.0|10.7|||||Change in weight from baseline to week 52 in the financial rewards arm minus the change in weight from baseline to week 52 in the no rewards arm.|||10.7|-6|
92162359|NCT02957539|184214310|SUPERIORITY||Mean Difference (Net)|-3.6|||||TWO_SIDED|97.5|-11.2|4.1|||||Change in weight from baseline to week 52 in the nonfinancial rewards arm minus the change in weight from baseline to week 52 in the no rewards arm.|||4.1|-11.2|
92162360|NCT01156116|184214317|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Mixed Models Analysis|Analyses were adjusted for age, body mass index, and ethnicity-based diabetes risk.||||||0.03
92356239|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|1.891||||0.005|TWO_SIDED|95.0|1.21|2.973||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||2.973|1.210|0.005
92356240|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|3.314|||<|0.001||95.0|2.108|5.265||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||5.265|2.108|<0.001
92356241|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|1.646||||0.027||95.0|1.06|2.566||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||2.566|1.060|0.027
92356242|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.347|||<|0.001||95.0|1.507|3.683||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||3.683|1.507|<0.001
92356243|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|1.792||||0.01|TWO_SIDED|95.0|1.153|2.799||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||2.799|1.153|0.010
92356244|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.819|||<|0.001||95.0|1.805|4.441||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||4.441|1.805|<0.001
92162361|NCT01156116|184214318|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Mixed Models Analysis|Analyses were adjusted for age, body mass index, and ethnicity-based diabetes risk.||||||0.04
92162362|NCT01156116|184214319|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Mixed Models Analysis|Analyses were adjusted for age, body mass index, and ethnicity-based diabetes risk.||||||0.009
92356245|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.357|||<|0.001||95.0|1.513|3.699||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||3.699|1.513|<0.001
92356246|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|3.131|||<|0.001||95.0|1.999|4.95||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||4.950|1.999|<0.001
92356247|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|1.373||||0.152||95.0|0.891|2.122||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||2.122|0.891|0.152
92356248|NCT04003142|184617744|SUPERIORITY||Odds Ratio (OR)|2.09|||<|0.001||95.0|1.351|3.252||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||3.252|1.351|<0.001
92356249|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|0.915||||0.951||95.0|0.036|23.464||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||23.464|0.036|0.951
92356250|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|2.889||||0.362|TWO_SIDED|95.0|0.364|58.864||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||58.864|0.364|0.362
92356251|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|2.775||||0.138||95.0|0.785|12.87||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||12.870|0.785|0.138
92356252|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|1.342||||0.704||95.0|0.291|6.914||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||6.914|0.291|0.704
92162363|NCT01156116|184214320|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Analyses were adjusted for age, body mass index, and ethnicity-based diabetes risk.||||||<0.001
92162364|NCT02057718|184214321|OTHER|Null hypothesis (H0): mean change from baseline to Week 13 is zero. The null hypothesis was tested for each of the 2 PFIC subgroups and overall; the change in the overall population is presented here.|Mean Difference (Net)|-23.304|STANDARD_DEVIATION|160.9748|||TWO_SIDED|95.0|-82.35|35.742||||||This analysis shows the change from baseline to Week 13 in sBA levels for the overall Modified Intent-to-treat Population. Even though a comparison of PFIC1 vs PFIC2 (overall) is noted, the results are the change from baseline for all participants and is not comparative.||35.742|-82.35|
92162365|NCT00434018|184214330|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||ANOVA|||||||0.001
92162366|NCT01972152|184214354|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||Mixed Models Analysis|Data were log transformed for analysis.||||||0.24
92220983|NCT01757678|184342451|OTHER||Difference in Probability|0.14|||||TWO_SIDED|95.0|0.09|0.19||||||||.19|.09|
92220984|NCT01757678|184342452|OTHER||Difference in Probability|0.09|||||TWO_SIDED|95.0|0.04|0.14||||||||.14|.04|
92220985|NCT01146873|184342460|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis is that efavirenz is inferior to ritonavir-boosted lopinavir.|Risk Difference (RD)|0.107|||<|0.001|TWO_SIDED||||||Kaplan-Meier methods|||||||<0.001
92356253|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|0.798||||0.741||95.0|0.194|3.079||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||3.079|0.194|0.741
92356254|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|2.292||||0.134||95.0|0.809|7.443||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||7.443|0.809|0.134
92356255|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|3.474||||0.062||95.0|1.039|15.712||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||15.712|1.039|0.062
92356256|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|6.184||||0.004||95.0|2.025|26.875||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||26.875|2.025|0.004
92356257|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|4.217||||0.028|TWO_SIDED|95.0|1.305|18.806||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||18.806|1.305|0.028
92220986|NCT01146873|184342461|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis is that efavirenz is inferior to ritonavir-boosted lopinavir.|Risk Difference (RD)|-0.007|||<|0.001|TWO_SIDED||||||Kaplan-Meier methods|||||||<0.001
92356258|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|3.802||||0.044||95.0|1.157|17.075||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||17.075|1.157|0.044
92356259|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|1.342||||0.519||95.0|0.551|3.382||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||3.382|0.551|0.519
92356260|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|1.961||||0.117||95.0|0.863|4.741||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||4.741|0.863|0.117
92356261|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|1.471||||0.393||95.0|0.612|3.687||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||3.687|0.612|0.393
92162367|NCT01972152|184214355|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED|||||Data were log transformed for analysis.|Mixed Models Analysis|||||||0.34
92220987|NCT01146873|184342462|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92162368|NCT01972152|184214355|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||Data were log transformed for analysis.|Mixed Models Analysis|||||||0.01
92162369|NCT01972152|184214356|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||Mixed Models Analysis|||||||0.95
92162370|NCT01972152|184214357|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Mixed Models Analysis|||||||0.76
92162371|NCT01972152|184214358|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Mixed Models Analysis|||||||0.68
92162372|NCT01972152|184214358|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||||||0.02
92162373|NCT01972152|184214359|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Mixed Models Analysis|Data were log transformed for analysis||||||0.16
92162374|NCT01972152|184214360|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Data were log transformed for analysis||||||<0.001
92162375|NCT01972152|184214360|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Data were log transformed for analysis||||||<0.001
92162376|NCT01972152|184214361|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Data were log transformed for analysis||||||<0.001
92162377|NCT01972152|184214361|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Data were log transformed for analysis.|Mixed Models Analysis|||||||<0.001
92162378|NCT01972152|184214362|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92162379|NCT01972152|184214362|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92162380|NCT03068611|184214363|SUPERIORITY|||||||0.9|||||||Chi-squared|||||||.90
92162381|NCT03068611|184214364|SUPERIORITY|||||||0.54|||||||Chi-squared|||||||.54
92162382|NCT03068611|184214365|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|Data were log-transformed transformed due to positive skewness||||||.36
92162383|NCT03068611|184214366|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|Data were log-transformed to correct positive skewness||||||.92
92162384|NCT01157182|184214367|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.94|||||TWO_SIDED|90.0|97.63|108.55|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.55|97.63|
92356262|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|2.087||||0.086||95.0|0.923|5.043||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||5.043|0.923|0.086
92162385|NCT01157182|184214368|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.4|||||TWO_SIDED|90.0|95.15|101.76|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.76|95.15|
92162386|NCT01157182|184214369|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.73|||||TWO_SIDED|90.0|95.33|102.26|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||102.26|95.33|
92162387|NCT01157182|184214370|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|92.51|||||TWO_SIDED|90.0|88.64|96.55|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||96.55|88.64|
92220988|NCT01146873|184342464|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Chi-squared|||||||0.003
92356263|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|1.774||||0.168||95.0|0.798|4.143||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||4.143|0.798|0.168
92356264|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|2.374||||0.03||95.0|1.112|5.41||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||5.410|1.112|0.030
92356265|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|1.605||||0.287|TWO_SIDED|95.0|0.681|3.971||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||3.971|0.681|0.287
92356266|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|2.108||||0.08||95.0|0.936|5.076||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||5.076|0.936|0.080
92356267|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|1.599||||0.247|TWO_SIDED|95.0|0.73|3.636||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||3.636|0.730|0.247
92401369|NCT00385671|184694175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.541|TWO_SIDED|95.0|-0.46|0.87||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with walking ability.||0.87|-0.46|0.541
92162388|NCT01157182|184214371|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.66|||||TWO_SIDED|90.0|92.6|98.81|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||98.81|92.60|
92220989|NCT03703102|184342465|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||< 0.001
92220990|NCT03703102|184342465|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||< 0.001
92220991|NCT03703102|184342465|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||< 0.001
92220992|NCT03703102|184342465|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||< 0.001
92220993|NCT00876187|184342489|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.21||0.113|TWO_SIDED|95.0|-0.74|0.08|||ANCOVA|||Treatment difference and 95 percent (%) confidence interval (CI) was based on least squares (LS) mean. Analysis of Covariance (ANCOVA) was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.08|-0.74|0.113
92220994|NCT00876187|184342489|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.19|-0.42|||ANCOVA|||Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.42|-1.19|<0.001
92356268|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|2.481||||0.017||95.0|1.201|5.441||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||5.441|1.201|0.017
92356269|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|1.728||||0.212||95.0|0.744|4.236||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||4.236|0.744|0.212
92356270|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|3.536||||0.002||95.0|1.666|8.207||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||8.207|1.666|0.002
92356271|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|1.701||||0.225||95.0|0.733|4.169||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||4.169|0.733|0.225
92356272|NCT04003142|184617745|SUPERIORITY||Odds Ratio (OR)|3.049||||0.006||95.0|1.42|7.125||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||7.125|1.420|0.006
92356273|NCT04806373|184617750|OTHER|||||||0.863|||||||Fisher Exact|||||||0.863
92356274|NCT04806373|184617751|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||Difference in pleural drainage volume day 1 post-TSP||||0.005
92356275|NCT04806373|184617752|OTHER|||||||0.891|||||||Wilcoxon (Mann-Whitney)|||Borg dyspnea scale day 3 post-TSP||||0.891
92356276|NCT04806373|184617753|OTHER|||||||0.899|||||||Wilcoxon (Mann-Whitney)|||Pain score at day 3 post-TSP||||0.899
92220995|NCT00876187|184342489|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.31|-0.54|||ANCOVA|||Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.54|-1.31|<0.001
92220996|NCT00876187|184342489|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.2||0.688|TWO_SIDED|95.0|-0.31|0.47|||ANCOVA|||Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.47|-0.31|0.688
92356277|NCT04806373|184617754|OTHER|||||||0.809|||||||Fisher Exact|||||||0.809
92356278|NCT04806373|184617755|OTHER|||||||0.946|||||||Wilcoxon (Mann-Whitney)|||||||0.946
92356279|NCT04806373|184617756|OTHER|||||||0.808|||||||Wilcoxon (Mann-Whitney)|||||||0.808
92356280|NCT04806373|184617757|OTHER|||||||0.662|||||||Fisher Exact|||||||0.662
92356281|NCT04806373|184617758|OTHER|||||||0.714|||||||t-test, 2 sided|||||||0.714
92356282|NCT04806373|184617759|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92356283|NCT03382873|184617760|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92356284|NCT03382873|184617761|SUPERIORITY|||||||0.0001|||||||ANOVA|Intervention sequence and sex were used as independent predictors in the model.||Compares the change for the GLB/GLB intervention sequence to the GLB+/GLB+ intervention sequence (the primary comparison of interest)||||0.0001
92356285|NCT03382873|184617762|SUPERIORITY|||||||0.9476|||||||ANOVA|Intervention sequence and sex used as independent predictors in the model.||Comparison of the GLB/GLB intervention sequence to the GLB+/GLB+ intervention sequence (the primary comparison of interest).||||0.9476
92356286|NCT03382873|184617763|SUPERIORITY|||||||0.0112|||||||ANOVA|Treatment group, time and their interaction were fixed effects and participants were random effects||||||0.0112
92356287|NCT03382873|184617764|SUPERIORITY|||||||0.9085|||||||ANOVA|Intervention sequence and sex used as independent predictors in the model.||Comparison of GLB/GLB intervention sequence to GLB+/GLB+ intervention sequence (the primary comparison of interest).||||0.9085
92356288|NCT03382873|184617765|SUPERIORITY|||||||0.2063|||||||ANOVA|Intervention sequence and sex used as independent predictors in the model.||Comparison between the GLB/GLB intervention sequence and the GLB+/GLB+ intervention sequence (the primary comparison of interest)||||0.2063
92356289|NCT02214212|184617779|SUPERIORITY||Slope|-0.16||||0.955|TWO_SIDED|95.0|-5.69|5.37|||Mixed Models Analysis|Mixed-effects model used an unstructured correlation matrix, adjusting for treatment, time (linear) and the interaction as fixed effects.|The reported effect size has been expressed as the modelled difference in sleep efficiency improvement from day 1 to day 10. A positive effect size indicates a higher score in the white-light arm.|||5.37|-5.69|.955
92356290|NCT02214212|184617780|SUPERIORITY||Mean Difference (Net)|0.69||||0.807|TWO_SIDED|95.0|-4.9|6.29|||Mixed Models Analysis|||||6.29|-4.90|.807
92356291|NCT02214212|184617781|SUPERIORITY||Mean Difference (Net)|-0.48||||0.847|TWO_SIDED|95.0|-5.38|4.43|||Mixed Models Analysis|Mixed-effects model adjusts for treatment, time (pre/post), site, FIM admit cognitive/motor, and the treatment/time as fixed effects.||||4.43|-5.38|.847
92356292|NCT02214212|184617782|SUPERIORITY||Mean Difference (Net)|3.14||||0.252|TWO_SIDED|95.0|-2.29|8.56|||Mixed Models Analysis|Statistical significance by mixed-effects regression adjusts for time (pre/post), site, FIM admit cognitive, FIM admit motor as fixed effects.||||8.56|-2.29|.252
92356293|NCT02214212|184617783|SUPERIORITY||Mean Difference (Net)|0.67||||0.722|TWO_SIDED|95.0|-3.08|4.4|||Mixed Models Analysis|||||4.4|-3.08|.722
92356294|NCT02214212|184617784|SUPERIORITY||Mean Difference (Net)|-2.25||||0.253|TWO_SIDED|95.0|-6.13|1.64|||Mixed Models Analysis|||||1.64|-6.13|.253
92356295|NCT02214212|184617785|SUPERIORITY||Mean Difference (Net)|-0.39||||0.351|TWO_SIDED|95.0|-1.21|0.44|||Mixed Models Analysis|Mixed-effects model adjusts for treatment, time (pre/post), site, FIM admit cognitive/motor, and the treatment/time as fixed effects.|A positive effect size indicates a higher score in the bright white light (BWL) intervention arm.|||0.44|-1.21|.351
92356296|NCT02214212|184617786|SUPERIORITY||Slope|0.0||||0.91|TWO_SIDED|95.0|-0.03|0.03|||Mixed Models Analysis|Mixed-effects model used an unstructured correlation matrix, adjusting for treatment, time (linear) and the interaction as fixed effects|The reported effect size has been expressed as the modelled difference in the Makley scale score improvement from day 1 to day 10. A positive effect size indicates a higher score in the white-light arm.|||0.03|-0.03|.910
92162389|NCT01157182|184214372|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.71|||||TWO_SIDED|90.0|92.62|98.91|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||98.91|92.62|
92220997|NCT00876187|184342489|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.19||0.035|TWO_SIDED|95.0|-0.76|-0.03|||ANCOVA|||Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.03|-0.76|0.035
92356297|NCT02214212|184617787|SUPERIORITY||Mean Difference (Net)|0.857||||0.19|TWO_SIDED|95.0|-1.93|2.32|||Mixed Models Analysis|Mixed-effects model adjusts for treatment time (pre/post)||||2.32|-1.93|0.19
92356298|NCT02214212|184617788|SUPERIORITY||Mean Difference (Net)|-4.8||||0.345|TWO_SIDED|95.0|-14.83|5.24|||Mixed Models Analysis|Mixed-effects model adjusts for treatment, time (pre/post), FIM admit cognitive, site, FIM admit motor as mixed effects.||||5.24|-14.83|.345
92356299|NCT03926247|184617790|OTHER|Within-group longitudinal analysis (no comparison groups)|LSM Final Difference|-0.044|STANDARD_ERROR_OF_MEAN|0.019|=|0.019|TWO_SIDED|95.0|-0.087|-0.008|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' depression/anxiety symptoms would decrease overtime.||-0.008|-0.087|=0.019
92356300|NCT03926247|184617791|OTHER|Within-group longitudinal analysis (no comparison groups)|Mean Difference (Final Values)|-0.892|STANDARD_ERROR_OF_MEAN|0.643|=|0.168|TWO_SIDED|95.0|-2.161|0.372|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' PTSD symptoms would decrease overtime.||0.372|-2.161|=0.168
92356301|NCT03926247|184617792|OTHER|Within-group longitudinal analysis (no comparison groups)|Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.035|=|0.051|TWO_SIDED|95.0|-0.14|0.0|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' stress would decrease overtime.||-0.000|-0.140|=0.051
92356302|NCT03926247|184617793|OTHER|Within-group longitudinal analysis (no comparison groups)|Mean Difference (Final Values)|-0.041|STANDARD_ERROR_OF_MEAN|0.029|=|0.211|TWO_SIDED|95.0|-0.106|0.023|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' social support would increase overtime.||0.023|-0.106|=0.211
92356303|NCT03926247|184617794|OTHER|Within-group longitudinal analysis (no comparison groups)|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.053|=|0.074|TWO_SIDED|95.0|-0.008|0.201|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' access to resources would increase overtime.||0.201|-0.008|=0.074
92356304|NCT03926247|184617795|OTHER|Within-group longitudinal analysis (no comparison groups)=|Mean Difference (Final Values)|-0.119|STANDARD_ERROR_OF_MEAN|0.061|=|0.089|TWO_SIDED|95.0|-0.257|0.017|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' difficulty accessing resources would decrease overtime.||0.017|-0.257|=0.089
92356305|NCT03926247|184617796|OTHER|Within-group longitudinal analysis (no comparison groups)|Mean Difference (Final Values)|-0.216|STANDARD_ERROR_OF_MEAN|0.124|=|0.086|TWO_SIDED|95.0|-0.461|0.03|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' quality of life would increase overtime.||0.030|-0.461|=0.086
92356306|NCT05226884|184617797|NON_INFERIORITY|Non-inferiority defined as within 0.1 LogMAR (1 line on Snellen Chart).|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Normality was assumed if skewness was ±2 and kurtosis was ±7. Non-inferiority was confirmed before further statistical testing.||||||<0.05
92356307|NCT05226884|184617798|NON_INFERIORITY|Non-inferiority defined as within 0.1 LogMAR (1 line on Snellen Chart).|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Normality was assumed if skewness was ±2 and kurtosis was ±7. Non-inferiority was confirmed before further statistical testing.||||||<0.05
92356308|NCT05226884|184617799|NON_INFERIORITY|Non-inferiority defined as within 0.1 LogMAR (1 line on Snellen Chart).|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Normality was assumed if skewness was ±2 and kurtosis was ±7. Non-inferiority was confirmed before further statistical testing.||||||<0.05
92356309|NCT05226884|184617800|NON_INFERIORITY|Non-inferiority defined as within 0.1 LogMAR (1 line on Snellen Chart).|||||||||||||||||The defocus curve is generated based on measurements over a dioptric range.|||
92356310|NCT05226884|184617801|NON_INFERIORITY|Non-inferiority defined as within 0.1 LogMAR (1 line on Snellen Chart).|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Normality was assumed if skewness was ±2 and kurtosis was ±7. Non-inferiority was confirmed before further statistical testing.||||||<0.05
92220998|NCT00876187|184342489|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.19||0.006|TWO_SIDED|95.0|-0.88|-0.15|||ANCOVA|||Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.15|-0.88|0.006
92162390|NCT01157182|184214373|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|92.41|||||TWO_SIDED|90.0|88.65|96.33|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||96.33|88.65|
92162391|NCT01157182|184214374|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.67|||||TWO_SIDED|90.0|92.68|98.77|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||98.77|92.68|
92356311|NCT02539394|184617854|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.394|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Burden is the same across the 2 arms||||0.394
92356312|NCT02539394|184617854|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.017|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Burden is the same across the 2 arms||||0.017
92356313|NCT02539394|184617854|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.015|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Burden is the same across the 2 arms||||0.015
92356314|NCT02539394|184617854|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.125|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Burden is the same across the 2 arms||||0.125
92356315|NCT02539394|184617855|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.043|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Eating desire is the same across the 2 arms||||0.043
92356316|NCT02539394|184617855|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.606|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Eating desire is the same across the 2 arms||||0.606
92356317|NCT02539394|184617855|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.155|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Eating desire is the same across the 2 arms||||0.155
92401370|NCT00385671|184694175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.051|TWO_SIDED|95.0|0.0|1.36||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with walking ability.||1.36|-0.00|0.051
92356318|NCT02539394|184617855|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.019|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Eating desire is the same across the 2 arms||||0.019
92356319|NCT02539394|184617856|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.25|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Eating duration is the same across the 2 arms||||0.250
92356320|NCT02539394|184617856|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.478|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Eating duration is the same across the 2 arms||||0.478
92356321|NCT02539394|184617856|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.019|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Eating duration is the same across the 2 arms||||0.019
92162392|NCT01157182|184214375|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.73|||||TWO_SIDED|90.0|92.68|98.88|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||98.88|92.68|
92356322|NCT02539394|184617856|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.049|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Eating duration is the same across the 2 arms||||0.049
92356323|NCT02539394|184617857|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.376|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Food selection is the same across the 2 arms||||0.376
92356324|NCT02539394|184617857|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.013|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Food selection is the same across the 2 arms||||0.013
92356325|NCT02539394|184617857|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.049|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Food selection is the same across the 2 arms||||0.049
92356326|NCT02539394|184617857|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.3|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Food selection is the same across the 2 arms||||0.300
92356327|NCT02539394|184617858|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.037|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Communication is the same across the 2 arms||||0.037
92162393|NCT01157182|184214376|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|91.21|||||TWO_SIDED|90.0|84.62|98.31|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||98.31|84.62|
92356328|NCT02539394|184617858|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.858|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Communication is the same across the 2 arms||||0.858
92356329|NCT02539394|184617858|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.042|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Communication is the same across the 2 arms||||0.042
92356330|NCT02539394|184617858|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.031|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Communication is the same across the 2 arms||||0.031
92356331|NCT02539394|184617859|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.343|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Fear swallow is the same across the 2 arms||||0.343
92356332|NCT02539394|184617859|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.022|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Fear swallow is the same across the 2 arms||||0.022
92356333|NCT02539394|184617859|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.018|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Fear swallow is the same across the 2 arms||||0.018
92356334|NCT02539394|184617859|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.008|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Fear swallow is the same across the 2 arms||||0.008
92356335|NCT02539394|184617860|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.28|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Social is the same across the 2 arms||||0.280
92220999|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.18||0.221|TWO_SIDED|95.0|-0.57|0.13|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.13|-0.57|0.221
92356336|NCT02539394|184617860|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.483|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Social is the same across the 2 arms||||0.483
92356337|NCT02539394|184617860|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.07|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Social is the same across the 2 arms||||0.070
92356338|NCT02539394|184617860|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.2|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Social is the same across the 2 arms||||0.200
92356339|NCT02539394|184617861|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.148|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Mental is the same across the 2 arms||||0.148
92356340|NCT02539394|184617861|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.04|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Mental is the same across the 2 arms||||0.040
92356341|NCT02539394|184617861|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.042|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Mental is the same across the 2 arms||||0.042
92356342|NCT02539394|184617861|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.319|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Mental is the same across the 2 arms||||0.319
92356343|NCT02539394|184617862|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.161|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Sleep is the same across the 2 arms||||0.161
92356344|NCT02539394|184617862|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.763|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Sleep is the same across the 2 arms||||0.763
92356345|NCT02539394|184617862|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.178|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Sleep is the same across the 2 arms||||0.178
92356346|NCT02539394|184617862|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.091|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Sleep is the same across the 2 arms||||0.091
92356347|NCT02539394|184617863|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.602|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Fatigue is the same across the 2 arms||||0.602
92162394|NCT01157182|184214377|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|94.11|||||TWO_SIDED|90.0|89.04|99.47|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||99.47|89.04|
92162395|NCT01157182|184214378|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.48|||||TWO_SIDED|90.0|90.7|104.76|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||104.76|90.70|
92356348|NCT02539394|184617863|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.302|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Fatigue is the same across the 2 arms||||0.302
92356349|NCT02539394|184617863|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.114|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Fatigue is the same across the 2 arms||||0.114
92356350|NCT02539394|184617863|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.005|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Fatigue is the same across the 2 arms||||0.005
92356351|NCT02539394|184617864|EQUIVALENCE|Two-sided 95% confidence interval||||||0.933|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative Eat-10 is the same across the 2 arms||||0.933
92356352|NCT02539394|184617864|EQUIVALENCE|Two-sided 95% confidence interval||||||0.95|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative modified Eat-10 is the same across the 2 arms||||0.950
92356353|NCT02539394|184617864|EQUIVALENCE|Two-sided 95% confidence interval||||||0.059|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 Eat-10 is the same across the 2 arms||||0.059
92356354|NCT02539394|184617864|EQUIVALENCE|Two-sided 95% confidence interval||||||0.042|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 modified Eat-10 is the same across the 2 arms||||0.042
92356355|NCT02539394|184617864|EQUIVALENCE|Two-sided 95% confidence interval||||||0.032|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 Eat-10 is the same across the 2 arms||||0.032
92356356|NCT02539394|184617864|EQUIVALENCE|Two-sided 95% confidence interval||||||0.014|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 modified Eat-10 is the same across the 2 arms||||0.014
92356357|NCT02539394|184617864|EQUIVALENCE|Two-sided 95% confidence interval||||||0.03|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks Eat-10 is the same across the 2 arms||||0.030
92356358|NCT02539394|184617864|EQUIVALENCE|Two-sided 95% confidence interval||||||0.039|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks modified Eat-10 is the same across the 2 arms||||0.039
92356359|NCT02539394|184617865|EQUIVALENCE|Two-sided||||||0.121|||||||Chi-squared|||Proportion of Pre-operative Bazaz Liquid is the same between the 2 arms||||0.121
92401371|NCT00385671|184694175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.173|TWO_SIDED|95.0|-0.21|1.15||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with walking ability.||1.15|-0.21|0.173
92221000|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-0.9|-0.24|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.24|-0.90|<0.001
92356360|NCT02539394|184617865|EQUIVALENCE|Two-sided||||||0.006|||||||Chi-squared|||Proportion of POD1 Bazaz Liquid is the same between the 2 arms||||0.006
92356361|NCT02539394|184617865|EQUIVALENCE|Two-sided||||||0.329|||||||Chi-squared|||Proportion of POD2 Bazaz Liquid is the same between the 2 arms||||0.329
92356362|NCT02539394|184617865|EQUIVALENCE|Two-sided||||||0.687|||||||Chi-squared|||Proportion of 4-6 weeks Bazaz Liquid is the same between the 2 arms||||0.687
92356363|NCT02539394|184617866|EQUIVALENCE|Two-sided||||||0.066|||||||Chi-squared|||Proportion of Pre-operative Bazaz Solid is the same between the 2 arms||||0.066
92356364|NCT02539394|184617866|EQUIVALENCE|Two-sided||||||0.252|||||||Chi-squared|||Proportion of POD1 Bazaz Solid is the same between the 2 arms||||0.252
92356365|NCT02539394|184617866|EQUIVALENCE|Two-sided||||||0.1|||||||Chi-squared|||Proportion of POD2 Bazaz Solid is the same between the 2 arms||||0.100
92356366|NCT02539394|184617866|EQUIVALENCE|Two-sided||||||0.279|||||||Chi-squared|||Proportion of 4-6 weeks Bazaz Solid is the same between the 2 arms||||0.279
92356367|NCT02539394|184617867|EQUIVALENCE|Two-sided 95% confidence interval||||||0.145|||||||t-test, 2 sided|||The means Pre-operative NDI for the two populations is equal||||0.145
92356368|NCT02539394|184617867|EQUIVALENCE|Two-sided 95% confidence interval||||||0.234|||||||t-test, 2 sided|||The means 4-6 weeks NDI for the two populations is equal||||0.234
92356369|NCT02539394|184617872|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
92401372|NCT00385671|184694176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.451|TWO_SIDED|95.0|-0.4|0.9||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly BPI-interference with normal work.||0.90|-0.40|0.451
92356370|NCT02301793|184617874|OTHER||Odds Ratio (OR)|1.0||||0.05|TWO_SIDED|95.0||||The reported p-values were calculated by reiterating the multiple outputation procedure 1000 times, we estimated the odds ratios (ORs) and their 95% confidence intervals conditional on the floor and nurse.|Regression, Logistic|||The hypothesis comparing the different educational arms was evaluated using an intention-to-treat approach (i.e. all nurses were included regardless of training completion) accounting for clustering in the data and comparing rates of VTE prophylaxis dose non-administration at baseline and during the Post-Education period. Two per-protocol sensitivity analyses were performed. They compared the Baseline vs. Post-Education periods for nurses who received training and nurses who completed training.||||0.05
92356371|NCT02301793|184617878|OTHER||Odds Ratio (OR)|1.0||||0.05|TWO_SIDED|95.0||||The reported p-values were calculated by reiterating the multiple outputation procedure 1000 times, we estimated the odds ratios (ORs) and their 95% confidence intervals conditional on the floor and nurse.|Regression, Logistic|||The hypothesis comparing the different educational arms was evaluated using an intention-to-treat approach (i.e. all nurses were included regardless of training completion) accounting for clustering in the data and comparing rates of VTE prophylaxis dose non-administration at baseline and during the Post-Education period. Two per-protocol sensitivity analyses were performed. They compared the Baseline vs. Post-Education periods for nurses who received training and nurses who completed training.||||0.05
92356372|NCT02691494|184617879|SUPERIORITY||Odds Ratio (OR)|28.73|||<|0.001|TWO_SIDED|95.0|12.248|67.387||The P value for test of difference is by pooling the results from a logistic regression model including treatment as the main effect and baseline MBL volume as a covariate in each data set from multiple imputation.|Regression, Logistic|||||67.387|12.248|< 0.001
92356373|NCT02691494|184617879|SUPERIORITY||Odds Ratio (OR)|28.31|||<|0.001|TWO_SIDED|95.0|13.042|61.431||The P value for test of difference is by pooling the results from a logistic regression model including treatment as the main effect and baseline MBL volume as a covariate in each data set from multiple imputation.|Regression, Logistic|||||61.431|13.042|< 0.001
92401373|NCT00385671|184694176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.485|TWO_SIDED|95.0|-0.43|0.9||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with normal work.||0.90|-0.43|0.485
92162396|NCT01157182|184214379|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|94.19|||||TWO_SIDED|90.0|89.78|98.81|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||98.81|89.78|
92162397|NCT01157182|184214380|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.99|||||TWO_SIDED|90.0|92.73|99.36|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||99.36|92.73|
92162398|NCT01157182|184214381|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.22|||||TWO_SIDED|90.0|93.62|100.96|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||100.96|93.62|
92162399|NCT01157182|184214382|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|91.73|||||TWO_SIDED|90.0|84.46|99.62|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||99.62|84.46|
92162400|NCT01157182|184214383|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.47|||||TWO_SIDED|90.0|88.37|103.14|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||103.14|88.37|
92356374|NCT02691494|184617880|SUPERIORITY||LS Mean of Difference|-194.5|STANDARD_ERROR_OF_MEAN|21.7|<|0.001|TWO_SIDED|||||The P value for test of difference between each elagolix treatment group and placebo is by pooling the results from an ANCOVA model with treatment as the main effect and baseline MBL volume as a covariate in each dataset from multiple imputation.|ANCOVA|||||||< 0.001
92162401|NCT01157182|184214384|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.63|||||TWO_SIDED|90.0|88.1|103.81|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||103.81|88.10|
92221001|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.17||0.027|TWO_SIDED|95.0|-0.7|-0.04|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.04|-0.70|0.027
92356375|NCT02691494|184617880|SUPERIORITY||LS Mean of Difference|-164.6|STANDARD_ERROR_OF_MEAN|18.87|<|0.001|TWO_SIDED|||||The P value for test of difference between each elagolix treatment group and placebo is by pooling the results from an ANCOVA model with treatment as the main effect and baseline MBL volume as a covariate in each dataset from multiple imputation.|ANCOVA|||||||< 0.001
92356376|NCT02691494|184617881|SUPERIORITY||Between-Group Difference (%)|84.2|||<|0.001|TWO_SIDED|95.0|75.99|92.37||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||92.37|75.99|< 0.001
92356377|NCT02691494|184617881|SUPERIORITY||Between-Group Difference (%)|56.3|||<|0.001|TWO_SIDED|95.0|47.77|64.91||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||64.91|47.77|< 0.001
92356378|NCT02691494|184617882|SUPERIORITY||LS Mean of Difference|-252.3|STANDARD_ERROR_OF_MEAN|24.53|<|0.001|TWO_SIDED|||||The P value is from mixed models repeated measures (MMRM) with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92356379|NCT02691494|184617882|SUPERIORITY||LS Mean of Difference|-226.6|STANDARD_ERROR_OF_MEAN|20.5|<|0.001|TWO_SIDED|||||The P value is from mixed models repeated measures (MMRM) with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92356380|NCT02691494|184617883|SUPERIORITY||LS Mean of Difference|-196.9|STANDARD_ERROR_OF_MEAN|16.66|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92356381|NCT02691494|184617883|SUPERIORITY||LS Mean of Difference|-186.1|STANDARD_ERROR_OF_MEAN|14.18|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92356382|NCT02691494|184617884|SUPERIORITY||Between-Group Difference (%)|19.2||||0.146|TWO_SIDED|95.0|-5.99|44.32||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||44.32|-5.99|0.146
92162402|NCT01157182|184214385|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|94.15|||||TWO_SIDED|90.0|89.56|98.98|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||98.98|89.56|
92356383|NCT02691494|184617884|SUPERIORITY||Between-Group Difference (%)|29.2||||0.017|TWO_SIDED|95.0|7.62|50.71||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||50.71|7.62|0.017
92401374|NCT00385671|184694176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.969|TWO_SIDED|95.0|-0.68|0.65||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with normal work.||0.65|-0.68|0.969
92356384|NCT02691494|184617885|SUPERIORITY||LS Mean of Difference|-194.5|STANDARD_ERROR_OF_MEAN|20.56|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92356385|NCT02691494|184617885|SUPERIORITY||LS Mean of Difference|-125.0|STANDARD_ERROR_OF_MEAN|17.55|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92356386|NCT00761137|184617896|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||ANOVA|||"Primary outcome was analyzed by a mixed-effects ANOVA model employing subject as a random factor as well as visit and treatment as fixed factors. Intention-to-treat (ITT) sample was analyzed. Unweighted means and their 95% Confidence Interval (CI) are reported, which represent treatment group means adjusted for the effect of visit and removing the intra-subject variability. For all analyses, significance level was set at 5%."||||0.6
92356387|NCT01694771|184617905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.09|0.144|||Mixed Model Repeated Measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (564), Tio+Olo 5ug (563).||0.144|0.090|<0.0001
92221002|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.17||0.082|TWO_SIDED|95.0|-0.04|0.62|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.62|-0.04|0.082
92356388|NCT01694771|184617906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.037|0.088|||Mixed Model Repeated Measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (551), Tio+Olo 5ug (548).||0.088|0.037|<0.0001
92356389|NCT01694771|184617907|SUPERIORITY_OR_OTHER||Mean change from baseline|0.119|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.09|0.147|||Mixed model repeated measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (564), Tio+Olo 5ug (563).||0.147|0.090|<0.0001
92162403|NCT01157182|184214386|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.01|||||TWO_SIDED|90.0|92.14|100.04|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||100.04|92.14|
92356390|NCT01694771|184617908|SUPERIORITY_OR_OTHER||Mean difference from Tio + Placebo|0.146|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.1|0.192|||Mixed model repeated measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (564), Tio+Olo 5ug (563).||0.192|0.100|<0.0001
92356391|NCT01694771|184617909|SUPERIORITY_OR_OTHER||Mean difference from Tio + Placebo|0.063|STANDARD_ERROR_OF_MEAN|0.022||0.0047|TWO_SIDED|95.0|0.019|0.106|||Mixed model repeated measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (551), Tio+Olo 5ug (548).||0.106|0.019|0.0047
92356392|NCT01694771|184617910|SUPERIORITY_OR_OTHER||Mean difference from Tio + Placebo|0.153|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.106|0.201|||Mixed model repeated measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (564), Tio+Olo 5ug (563).||0.201|0.106|<0.0001
92356393|NCT01694771|184617911|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|8.459|STANDARD_ERROR_OF_MEAN|2.192||0.0001|TWO_SIDED|95.0|4.159|12.759|||ANCOVA|||"Week 12: Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (561), Tio+Olo 5ug (557)."||12.759|4.159|0.0001
92401375|NCT00385671|184694177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.479|TWO_SIDED|95.0|-0.36|0.76||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly BPI-interference with relations with other people.||0.76|-0.36|0.479
92401376|NCT00385671|184694177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.301|TWO_SIDED|95.0|-0.27|0.87||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with relations with other people.||0.87|-0.27|0.301
92401377|NCT00385671|184694177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.731|TWO_SIDED|95.0|-0.47|0.67||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with relations with other people.||0.67|-0.47|0.731
92401378|NCT00385671|184694178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.528|TWO_SIDED|95.0|-0.45|0.87||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with sleep.||0.87|-0.45|0.528
92221003|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.16||0.703|TWO_SIDED|95.0|-0.37|0.25|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.25|-0.37|0.703
92356394|NCT01694771|184617912|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|-0.478|STANDARD_ERROR_OF_MEAN|0.116|<|0.0001|TWO_SIDED|95.0|-0.706|-0.25|||ANCOVA|||"Week 12: Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (561), Tio+Olo 5ug (557)."||-0.250|-0.706|<.0001
92356395|NCT01694771|184617913|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|-0.083|STANDARD_ERROR_OF_MEAN|0.041||0.0442|TWO_SIDED|95.0|-0.164|-0.002|||ANCOVA|||"Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (561), Tio+Olo 5ug (557)."||-0.002|-0.164|0.0442
92356396|NCT01694771|184617914|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|-0.393|STANDARD_ERROR_OF_MEAN|0.098|<|0.0001|TWO_SIDED|95.0|-0.586|-0.2|||ANCOVA|||"Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (561), Tio+Olo 5ug (557)."||-0.200|-0.586|<.0001
92356397|NCT00834587|184617933|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|99.1||||||90.0|92.4|106.2|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.2|92.4|
92356398|NCT00834587|184617934|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.7||||||90.0|98.8|102.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.6|98.8|
92356399|NCT00834587|184617935|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.6||||||90.0|98.8|102.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.5|98.8|
92356400|NCT00834587|184617936|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|101.7||||||90.0|97.3|106.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.3|97.3|
92356401|NCT00834587|184617937|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|99.2||||||90.0|96.5|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.0|96.5|
92162404|NCT01157182|184214387|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.75|||||TWO_SIDED|90.0|92.75|100.93|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||100.93|92.75|
92162405|NCT00383188|184214399|SUPERIORITY||Difference in percentage|8.05|STANDARD_ERROR_OF_MEAN|7.97||0.3131|TWO_SIDED|95.0|-7.565|23.664|||Chi-squared|||||23.664|-7.565|0.3131
92162406|NCT00383188|184214399|SUPERIORITY||Difference in percentage|10.81|STANDARD_ERROR_OF_MEAN|7.86||0.1719|TWO_SIDED|95.0|-4.602|26.224|||Chi-squared|||||26.224|-4.602|0.1719
92162407|NCT00383188|184214399|SUPERIORITY||Difference in percentage|9.83|STANDARD_ERROR_OF_MEAN|9.16||0.2783|TWO_SIDED|95.0|-8.123|27.799|||Chi-squared|||||27.799|-8.123|0.2783
92162408|NCT00383188|184214399|SUPERIORITY||Difference in percentage|8.92|STANDARD_ERROR_OF_MEAN|9.43||0.3381|TWO_SIDED|95.0|-9.566|27.404|||Chi-squared|||||27.404|-9.566|0.3381
92162409|NCT00383188|184214400|SUPERIORITY||Difference in percentage|1.04|STANDARD_ERROR_OF_MEAN|5.96||0.8619|TWO_SIDED|90.0|-8.733|10.845|||Chi-squared|||Week 1||10.845|-8.733|0.8619
92162410|NCT00383188|184214400|SUPERIORITY||Difference in percentage|7.24|STANDARD_ERROR_OF_MEAN|6.33||0.2546|TWO_SIDED|90.0|-3.176|17.651|||Chi-squared|||Week 1||17.651|-3.176|0.2546
92162411|NCT00383188|184214400|SUPERIORITY||Difference in percentage|14.02|STANDARD_ERROR_OF_MEAN|7.96||0.0644|TWO_SIDED|90.0|0.921|27.115|||Chi-squared|||Week 1||27.115|0.921|0.0644
92162412|NCT00383188|184214400|SUPERIORITY||Difference in percentage|1.5|STANDARD_ERROR_OF_MEAN|7.07||0.8304|TWO_SIDED|90.0|-10.13|13.125|||Chi-squared|||Week 1||13.125|-10.13|0.8304
92162413|NCT00383188|184214400|SUPERIORITY||Difference in percentage|6.11|STANDARD_ERROR_OF_MEAN|7.45||0.4123|TWO_SIDED|90.0|-6.15|18.371|||Chi-squared|||Week 2||18.371|-6.150|0.4123
92162414|NCT00383188|184214400|SUPERIORITY||Difference in percentage|5.41|STANDARD_ERROR_OF_MEAN|7.29||0.4591|TWO_SIDED|90.0|-6.581|17.392|||Chi-squared|||Week 2||17.392|-6.581|0.4591
92162415|NCT00383188|184214400|SUPERIORITY||Difference in percentage|16.58|STANDARD_ERROR_OF_MEAN|8.93||0.0585|TWO_SIDED|90.0|1.89|31.28|||Chi-squared|||Week 2||31.280|1.890|0.0585
92162416|NCT00383188|184214400|SUPERIORITY||Difference in percentage|15.68|STANDARD_ERROR_OF_MEAN|9.21||0.0808|TWO_SIDED|90.0|0.522|30.829|||Chi-squared|||Week 2||30.829|0.522|0.0808
92162417|NCT00383188|184214400|SUPERIORITY||Difference in percentage|4.86|STANDARD_ERROR_OF_MEAN|7.62||0.524|TWO_SIDED|90.0|-7.684|17.398|||Chi-squared|||Week 4||17.398|-7.684|0.5240
92356402|NCT00834587|184617938|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|99.1||||||90.0|96.5|101.8|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.8|96.5|
92356403|NCT03727022|184617973|SUPERIORITY||Mean Difference (Final Values)|-2.81|||||TWO_SIDED|95.0|-7.19|1.58||||||||1.58|-7.19|
92356404|NCT03727022|184617974|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-3.24|3.24||||||||3.24|-3.24|
92356405|NCT03727022|184617975|SUPERIORITY||Mean Difference (Final Values)|-2.09|||||TWO_SIDED|95.0|-5.84|1.65||||||||1.65|-5.84|
92356406|NCT03727022|184617976|SUPERIORITY||Median Difference (Final Values)|-0.25|||||TWO_SIDED|95.0|-4.05|3.54||||||||3.54|-4.05|
92356407|NCT03727022|184617977|SUPERIORITY||Mean Difference (Final Values)|0.8|||||TWO_SIDED|95.0|-4.64|6.23||||||||6.23|-4.64|
92356408|NCT03727022|184617978|SUPERIORITY||Mean Difference (Final Values)|-3.2|||||TWO_SIDED|95.0|-8.64|2.23||||||||2.23|-8.64|
92356409|NCT03727022|184617979|SUPERIORITY||Mean Difference (Final Values)|-2.36|||||TWO_SIDED|95.0|-8.75|4.03||||||||4.03|-8.75|
92356410|NCT03727022|184617980|SUPERIORITY||Median Difference (Final Values)|-4.05|||||TWO_SIDED|95.0|-11.21|3.11||||||||3.11|-11.21|
92356411|NCT00581100|184617991|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Models Analysis|Adjusted change calculated from mixed-model. Model for change = \[Group visit Group\*visit baseline baseline\*visit\].||||||<0.0001
92276512|NCT01360632|184454748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.0474|TWO_SIDED|95.0|-0.73|0.0|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0|-0.73|0.0474
92162418|NCT00383188|184214400|SUPERIORITY||Difference in percentage|14.86|STANDARD_ERROR_OF_MEAN|7.72||0.0571|TWO_SIDED|90.0|2.172|27.588|||Chi-squared|||Week 4||27.588|2.172|0.0571
92356412|NCT00581100|184617991|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change = \[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356413|NCT00581100|184617992|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Models Analysis|Adjusted change calculated from mixed-model. Model for change = \[Group visit Group\*visit baseline baseline\*visit\].||||||<0.0001
92162419|NCT00383188|184214400|SUPERIORITY||Difference in percentage|16.15|STANDARD_ERROR_OF_MEAN|9.08||0.0712|TWO_SIDED|90.0|1.222|31.087|||Chi-squared|||Week 4||31.087|1.222|0.0712
92162420|NCT00383188|184214400|SUPERIORITY||Difference in percentage|20.47|STANDARD_ERROR_OF_MEAN|9.43||0.0279|TWO_SIDED|90.0|4.956|35.99|||Chi-squared|||Week 4||35.990|4.956|0.0279
92162421|NCT00383188|184214400|SUPERIORITY||Difference in Percentage|-2.1|STANDARD_ERROR_OF_MEAN|7.67||0.7848|TWO_SIDED|90.0|-14.71|10.515|||Chi-squared|||Week 8||10.515|-14.71|0.7848
92162422|NCT00383188|184214400|SUPERIORITY||Difference in percentage|14.86|STANDARD_ERROR_OF_MEAN|7.91||0.0632|TWO_SIDED|90.0|1.86|27.869|||Chi-squared|||Week 8||27.869|1.860|0.0632
92162423|NCT00383188|184214400|SUPERIORITY||Difference in percentage|9.83|STANDARD_ERROR_OF_MEAN|9.16||0.2783|TWO_SIDED|90.0|-5.237|24.893|||Chi-squared|||Week 8||24.893|-5.237|0.2783
92162424|NCT00383188|184214400|SUPERIORITY||Difference in percentage|16.42|STANDARD_ERROR_OF_MEAN|9.55||0.0828|TWO_SIDED|90.0|0.703|32.135|||Chi-squared|||Week 8||32.135|0.703|0.0828
92162425|NCT00383188|184214400|SUPERIORITY||Difference in percentage|-2.72|STANDARD_ERROR_OF_MEAN|8.54||0.7505|TWO_SIDED|90.0|-16.77|11.328|||Chi-squared|||Week 16||11.328|-16.77|0.7505
92162426|NCT00383188|184214400|SUPERIORITY||Difference in percentage|1.43|STANDARD_ERROR_OF_MEAN|8.35||0.8641|TWO_SIDED|90.0|-12.3|15.156|||Chi-squared|||Week 16||15.156|-12.30|0.8641
92162427|NCT00383188|184214400|SUPERIORITY||Difference in percentage|3.31|STANDARD_ERROR_OF_MEAN|9.99||0.7399|TWO_SIDED|90.0|-13.12|19.734|||Chi-squared|||Week 16||19.734|-13.12|0.7399
92162428|NCT00383188|184214400|SUPERIORITY||Difference in percentage|-12.48|STANDARD_ERROR_OF_MEAN|9.42||0.1996|TWO_SIDED|90.0|-27.98|3.018|||Chi-squared|||Week 16||3.018|-27.98|0.1996
92162429|NCT00383188|184214401|SUPERIORITY||Difference in percentage|1.49|STANDARD_ERROR_OF_MEAN|1.48||0.2982|TWO_SIDED|90.0|-0.944|3.929|||Chi-squared|||Week 1||3.929|-0.944|0.2982
92162430|NCT00383188|184214401|SUPERIORITY||Difference in percentage|1.41|STANDARD_ERROR_OF_MEAN|1.4||0.3122|TWO_SIDED|90.0|-0.892|3.709|||Chi-squared|||Week 1||3.709|-0.892|0.3122
92162431|NCT00383188|184214401|SUPERIORITY||Difference in percentage|4.65|STANDARD_ERROR_OF_MEAN|3.21||0.0649|TWO_SIDED|90.0|-0.631|9.934|||Chi-squared|||Week 1||9.934|-0.631|0.0649
92162432|NCT00383188|184214401|SUPERIORITY||Difference in percentage|5.13|STANDARD_ERROR_OF_MEAN|3.53||0.0525|TWO_SIDED|90.0|-0.681|10.938|||Chi-squared|||Week 1||10.938|-0.681|0.0525
92162433|NCT00383188|184214401|SUPERIORITY||Difference in percentage|4.45|STANDARD_ERROR_OF_MEAN|3.12||0.1481|TWO_SIDED|90.0|-0.681|9.573|||Chi-squared|||Week 2||9.573|-0.681|0.1481
92162434|NCT00383188|184214401|SUPERIORITY||Difference in percentage|8.11|STANDARD_ERROR_OF_MEAN|3.66||0.0292|TWO_SIDED|90.0|2.093|14.124|||Chi-squared|||Week 2||14.124|2.093|0.0292
92162435|NCT00383188|184214401|SUPERIORITY||Difference in percentage|10.01|STANDARD_ERROR_OF_MEAN|4.97||0.0167|TWO_SIDED|90.0|1.839|18.186|||Chi-squared|||Week 2||18.186|1.839|0.0167
92162436|NCT00383188|184214401|SUPERIORITY||Difference in percentage|11.15|STANDARD_ERROR_OF_MEAN|5.4||0.011|TWO_SIDED|90.0|2.269|20.029|||Chi-squared|||Week 2||20.029|2.269|0.0110
92162437|NCT00383188|184214401|SUPERIORITY||Difference in percentage|-2.51|STANDARD_ERROR_OF_MEAN|3.31||0.455|TWO_SIDED|90.0|-7.959|2.946|||Chi-squared|||Week 4||2.946|-7.959|0.4550
92162438|NCT00383188|184214401|SUPERIORITY||Difference in percentage|8.11|STANDARD_ERROR_OF_MEAN|4.76||0.0919|TWO_SIDED|90.0|0.271|15.946|||Chi-squared|||Week 4||15.946|0.271|0.0919
92162439|NCT00383188|184214401|SUPERIORITY||Difference in percentage|12.78|STANDARD_ERROR_OF_MEAN|6.38||0.0264|TWO_SIDED|90.0|2.28|23.272|||Chi-squared|||Week 4||23.272|2.280|0.0264
92162440|NCT00383188|184214401|SUPERIORITY||Difference in percentage|12.09|STANDARD_ERROR_OF_MEAN|6.56||0.0369|TWO_SIDED|90.0|1.308|22.881|||Chi-squared|||Week 4||22.881|1.308|0.0369
92162441|NCT00383188|184214401|SUPERIORITY||Difference in percentage|-9.17|STANDARD_ERROR_OF_MEAN|4.67||0.0568|TWO_SIDED|90.0|-16.85|-1.482|||Chi-squared|||Week 8||-1.482|-16.85|0.0568
92162442|NCT00383188|184214401|SUPERIORITY||Difference in percentage|4.05|STANDARD_ERROR_OF_MEAN|5.95||0.4961|TWO_SIDED|90.0|-5.727|13.835|||Chi-squared|||Week 8||13.835|-5.727|0.4961
92162443|NCT00383188|184214401|SUPERIORITY||Difference in percentage|6.94|STANDARD_ERROR_OF_MEAN|7.26||0.3212|TWO_SIDED|90.0|-5.008|18.89|||Chi-squared|||Week 8||18.890|-5.008|0.3212
92162444|NCT00383188|184214401|SUPERIORITY||Difference in percentage|1.49|STANDARD_ERROR_OF_MEAN|6.9||0.8274|TWO_SIDED|90.0|-9.87|12.843|||Chi-squared|||Week 8||12.843|-9.870|0.8274
92162445|NCT00383188|184214401|SUPERIORITY||Difference in percentage|5.23|STANDARD_ERROR_OF_MEAN|5.94||0.3774|TWO_SIDED|90.0|-4.538|14.996|||Chi-squared|||Week 12||14.996|-4.538|0.3774
92356414|NCT00581100|184617992|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change = \[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356415|NCT00581100|184617993|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion = \[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
92356416|NCT00581100|184617993|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion = \[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
92356417|NCT00581100|184617993|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion = \[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92356418|NCT00581100|184617993|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion = \[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92356419|NCT00581100|184617994|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||0.007
92162446|NCT00383188|184214401|SUPERIORITY||Difference in percentage|9.46|STANDARD_ERROR_OF_MEAN|6.11||0.1246|TWO_SIDED|90.0|-0.591|19.51|||Chi-squared|||Week 12||19.510|-0.591|0.1246
92356420|NCT00581100|184617994|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||0.006
92356421|NCT00581100|184617994|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92356422|NCT00581100|184617994|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92356423|NCT00581100|184617995|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion =\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
92356424|NCT00581100|184617995|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion =\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
92162447|NCT00383188|184214401|SUPERIORITY||Difference in percentage|8.29|STANDARD_ERROR_OF_MEAN|7.17||0.2257|TWO_SIDED|90.0|-3.502|20.087|||Chi-squared|||Week 12||20.087|-3.502|0.2257
92356425|NCT00581100|184617995|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion =\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92162448|NCT00383188|184214401|SUPERIORITY||Difference in percentage|5.34|STANDARD_ERROR_OF_MEAN|7.11||0.4336|TWO_SIDED|90.0|-6.355|17.03|||Chi-squared|||Week 12||17.030|-6.355|0.4336
92356426|NCT00581100|184617995|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion =\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92356427|NCT00581100|184617996|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||0.069
92356428|NCT00581100|184617996|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||0.006
92356429|NCT00581100|184617996|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92356430|NCT00581100|184617996|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92162449|NCT00383188|184214401|SUPERIORITY||Difference in percentage|-2.07|STANDARD_ERROR_OF_MEAN|7.02||0.7682|TWO_SIDED|90.0|-13.61|9.467|||Chi-squared|||Week 16||9.467|-13.61|0.7682
92356431|NCT00581100|184617997|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change=\[Group visit group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356432|NCT00581100|184617997|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change=\[Group visit group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356433|NCT00581100|184617998|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
92356434|NCT00581100|184617998|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
92162450|NCT00383188|184214401|SUPERIORITY||Difference in percentage|-2.86|STANDARD_ERROR_OF_MEAN|6.76||0.6726|TWO_SIDED|90.0|-13.97|8.257|||Chi-squared|||Week 16||8.257|-13.97|0.6726
92162451|NCT00383188|184214401|SUPERIORITY||Difference in percentage|-5.64|STANDARD_ERROR_OF_MEAN|7.68||0.4795|TWO_SIDED|90.0|-18.28|7.0|||Chi-squared|||Week 16||7.000|-18.28|0.4795
92162452|NCT00383188|184214401|SUPERIORITY||Difference in percentage|-16.17|STANDARD_ERROR_OF_MEAN|6.1||0.0276|TWO_SIDED|90.0|-26.19|-6.137|||Chi-squared|||Week 16||-6.137|-26.19|0.0276
92162453|NCT00383188|184214402|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 1||0.00|0.00|0.000
92162454|NCT00383188|184214402|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 1||0.00|0.00|0.000
92162455|NCT00383188|184214402|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 1||0.00|0.00|0.000
92356435|NCT00581100|184617998|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92356436|NCT00581100|184617998|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92356437|NCT00581100|184617999|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
92356438|NCT00581100|184617999|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
92401379|NCT00385671|184694178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.626|TWO_SIDED|95.0|-0.84|0.51||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with sleep.||0.51|-0.84|0.626
92401380|NCT00385671|184694178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.27|TWO_SIDED|95.0|-1.06|0.3||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with sleep.||0.30|-1.06|0.270
92401381|NCT00385671|184694179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.098|TWO_SIDED|95.0|-0.1|1.13||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with enjoyment of life.||1.13|-0.10|0.098
92162456|NCT00383188|184214402|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 1||0.00|0.00|0.000
92162457|NCT00383188|184214402|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 2||0.00|0.00|0.000
92162458|NCT00383188|184214402|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 2||0.00|0.00|0.000
92356439|NCT00581100|184617999|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92356440|NCT00581100|184617999|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
92162459|NCT00383188|184214402|SUPERIORITY||Difference in percentage|2.27|STANDARD_ERROR_OF_MEAN|2.25||0.1928|TWO_SIDED|90.0|-1.423|5.968|||Chi-squared|||Week 2||5.968|-1.423|0.1928
92162460|NCT00383188|184214402|SUPERIORITY||Difference in percentage|2.5|STANDARD_ERROR_OF_MEAN|2.47||0.1719|TWO_SIDED|90.0|-1.56|6.56|||Chi-squared|||Week 2||6.560|-1.560|0.1719
92356441|NCT00581100|184618000|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change-\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356442|NCT00581100|184618000|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change-\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356443|NCT00581100|184618001|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||||||<0.001
92356444|NCT00581100|184618001|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||||||<0.001
92356445|NCT00581100|184618002|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||||||<0.001
92401382|NCT00385671|184694179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.383|TWO_SIDED|95.0|-0.35|0.9||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with enjoyment of life.||0.90|-0.35|0.383
92162461|NCT00383188|184214402|SUPERIORITY||Difference in percentage|0.1|STANDARD_ERROR_OF_MEAN|1.97||0.9603|TWO_SIDED|90.0|-3.138|3.334|||Chi-squared|||Week 4||3.334|-3.138|0.9603
92162462|NCT00383188|184214402|SUPERIORITY||Difference in percentage|-1.35|STANDARD_ERROR_OF_MEAN|1.34||0.3157|TWO_SIDED|90.0|-3.559|0.856|||Chi-squared|||Week 4||0.856|-3.559|0.3157
92162463|NCT00383188|184214402|SUPERIORITY||Difference in percentage|5.47|STANDARD_ERROR_OF_MEAN|4.03||0.1125|TWO_SIDED|90.0|-1.162|12.096|||Chi-squared|||Week 4||12.096|-1.162|0.1125
92162464|NCT00383188|184214402|SUPERIORITY||Difference in percentage|3.65|STANDARD_ERROR_OF_MEAN|3.7||0.2455|TWO_SIDED|90.0|-2.434|9.732|||Chi-squared|||Week 4||9.732|-2.434|0.2455
92356446|NCT00581100|184618002|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||||||<0.001
92356447|NCT00581100|184618003|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356448|NCT00581100|184618003|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356449|NCT00581100|184618004|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356450|NCT00581100|184618004|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356451|NCT00581100|184618005|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356452|NCT00581100|184618005|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||\<Table 8-14\> Change from baseline in Physician and Patient Assessment of Nail Psoriasis Activity Visual Analog Scale (VAS)|Mixed Models Analysis|||||||<0.0001
92356453|NCT00581100|184618006|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356454|NCT00581100|184618006|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
92356455|NCT03031912|184618014|SUPERIORITY||Fold difference|42.9|||<|0.001|TWO_SIDED|95.0|31.49|58.43|||ANOVA|||V920 vs. placebo in Cohorts 1 to 5 combined||58.43|31.49|<0.001
92356456|NCT03031912|184618015|SUPERIORITY||Fold difference|208.66|||<|0.001|TWO_SIDED|95.0|115.57|376.72|||ANOVA|||||376.72|115.57|<0.001
92356457|NCT04097743|184618052|SUPERIORITY||Mean Difference (Final Values)|3.59|STANDARD_ERROR_OF_MEAN|4.36||0.41|TWO_SIDED||||||ANOVA|||||||0.41
92356458|NCT04097743|184618053|SUPERIORITY||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|4.41||0.81|TWO_SIDED||||||ANOVA|||||||0.81
92356459|NCT04097743|184618054|SUPERIORITY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.47||0.39|TWO_SIDED||||||ANOVA|||||||0.39
92356460|NCT04097743|184618055|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.47||0.67|TWO_SIDED||||||ANOVA|||||||0.67
92356461|NCT04097743|184618056|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|1.47||0.99|TWO_SIDED||||||ANOVA|||||||0.99
92356462|NCT04097743|184618057|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|1.49||0.49|TWO_SIDED||||||ANOVA|||||||0.49
92401383|NCT00385671|184694179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.452|TWO_SIDED|95.0|-0.86|0.39||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with enjoyment of life.||0.39|-0.86|0.452
92162465|NCT00383188|184214402|SUPERIORITY||Difference in percentage|-2.6|STANDARD_ERROR_OF_MEAN|2.71||0.3452|TWO_SIDED|90.0|-7.057|1.847|||Chi-squared|||Week 8||1.847|-7.057|0.3452
92356463|NCT04097743|184618058|SUPERIORITY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|1.36||0.67|TWO_SIDED||||||ANOVA|||||||0.67
92356464|NCT04097743|184618059|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|1.37||0.89|TWO_SIDED||||||ANOVA|||||||0.89
92356465|NCT04097743|184618060|SUPERIORITY||Mean Difference (Final Values)|-1.61|STANDARD_ERROR_OF_MEAN|0.9||0.08|TWO_SIDED||||||ANOVA|||||||0.08
92356466|NCT00839930|184618074|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed on the log-transformed AUC0-t, AUC0-inf and Cmax parameters.|Geometric Test/Ref Ratio x 100|93.39||||||90.0|87.33|99.86|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.86|87.33|
92356467|NCT00839930|184618075|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed on the log-transformed AUC0-t, AUC0-inf and Cmax parameters.|Geometric Test/Ref Ratio x 100|96.14||||||90.0|91.04|101.52|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.52|91.04|
92356468|NCT00839930|184618076|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax parameters.|Geometric Test/Ref Ratio x 100|96.64||||||90.0|92.13|101.37|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.37|92.13|
92356469|NCT02500836|184618077|SUPERIORITY||||||<|0.0001||||||One-sided p-value|Fisher Exact|||The null hypothesis is that the proportions of treatment group successes are equal.||||<0.0001
92356470|NCT02500836|184618078|SUPERIORITY||||||<|0.0001||||||One-sided p-value|Fisher Exact|||The null hypothesis is that the proportions of treatment group successes are equal.||||<0.0001
92356471|NCT05562934|184618079|SUPERIORITY|||||||0.5651||||||Single best candidate model is the one with the lowest adjusted p-value of the 5 candidate models|Multiple Comparisons Procedure-MOD|||||||0.5651
92401384|NCT00385671|184694180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.309|TWO_SIDED|95.0|-0.26|0.82||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI mean interference score.||0.82|-0.26|0.309
92356472|NCT05562934|184618080|SUPERIORITY||Median Difference (Net)|1.37||||0.6955|TWO_SIDED|95.0|-5.48|8.21|||ANCOVA|||||8.21|-5.48|0.6955
92356473|NCT05562934|184618081|SUPERIORITY||Median Difference (Net)|1.14||||0.7108|TWO_SIDED|95.0|-4.9|7.18|||ANCOVA|||||7.18|-4.90|0.7108
92276513|NCT01360632|184454749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.0015|TWO_SIDED|95.0|-0.94|-0.22||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.22|-0.94|0.0015
92276514|NCT01360632|184454749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.2627|TWO_SIDED|95.0|-0.56|0.15||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate|Mixed Models Analysis|||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.15|-0.56|0.2627
92276515|NCT01360632|184454749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0158|TWO_SIDED|95.0|-0.89|-0.09|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3||-0.09|-0.89|0.0158
92276516|NCT01360632|184454749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.0191|TWO_SIDED|95.0|-0.88|-0.08|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.08|-0.88|0.0191
92276517|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.0377|TWO_SIDED|95.0|-0.88|-0.03|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Work/School: Week 11||-0.03|-0.88|0.0377
92276518|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.0741|TWO_SIDED|95.0|-0.91|0.04||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis||-0.43|For Item: Work/School: Week 14||0.04|-0.91|0.0741
92276519|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.0966|TWO_SIDED|95.0|-0.07|0.81||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||For Item: Work/School: Week 11||0.81|-0.07|0.0966
92276520|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.4774|TWO_SIDED|95.0|-0.66|0.31|||Mixed Models Analysis|||For Item: Work/School: Week 14||0.31|-0.66|0.4774
92276521|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0263|TWO_SIDED|95.0|-0.76|-0.05||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Social life: Week 11||-0.05|-0.76|0.0263
92276522|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.0214|TWO_SIDED|95.0|-0.89|-0.07|||Mixed Models Analysis|||Social life: Week 14||-0.07|-0.89|0.0214
92276523|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.8281|TWO_SIDED|95.0|-0.4|0.32||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Social life: Week 11||0.32|-0.40|0.8281
92276524|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.054|TWO_SIDED|95.0|-0.8|0.01|||Mixed Models Analysis|||Social life: Week 14||0.01|-0.80|0.0540
92276525|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.63||||0.0008|TWO_SIDED|95.0|-0.99|-0.26||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Family life: Week 11||-0.26|-0.99|0.0008
92276526|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0093|TWO_SIDED|95.0|-0.97|-0.14|||Mixed Models Analysis|||Family life: Week 14||-0.14|-0.97|0.0093
92276527|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.2182|TWO_SIDED|95.0|-0.59|0.14|||Mixed Models Analysis|||Family life: Week 11||0.14|-0.59|0.2182
92276528|NCT01360632|184454750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.0256|TWO_SIDED|95.0|-0.9|-0.06||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Family life: Week 14||-0.06|-0.90|0.0256
92276529|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.0341|TWO_SIDED|95.0|-1.01|-0.04||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Work/school: Week 11||-0.04|-1.01|0.0341
92276530|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0816|TWO_SIDED|95.0|-0.99|0.06||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||School/work: Week 14||0.06|-0.99|0.0816
92276531|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.2561|TWO_SIDED|95.0|-0.21|0.78||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Work/school: Week 11||0.78|-0.21|0.2561
92276532|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.2952|TWO_SIDED|95.0|-0.82|0.25||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Work/school: Week 14||0.25|-0.82|0.2952
92276533|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.0331|TWO_SIDED|95.0|-0.82|-0.03||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Social life: Week 11||-0.03|-0.82|0.0331
92276534|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.0352|TWO_SIDED|95.0|-0.9|-0.03|||Mixed Models Analysis|||Social life: Week 14||-0.03|-0.90|0.0352
92276535|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.486|TWO_SIDED|95.0|-0.54|0.25||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Social life: Week 11||0.25|-0.54|0.4860
92276536|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0282|TWO_SIDED|95.0|-0.93|-0.05||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Social life: Week 14||-0.05|-0.93|0.0282
92221004|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.16||0.379|TWO_SIDED|95.0|-0.17|0.45|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.45|-0.17|0.379
92221005|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.19||0.012|TWO_SIDED|95.0|-0.87|-0.11|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.11|-0.87|0.012
92356474|NCT03997383|184618095|SUPERIORITY||Median Difference (Net)|14.693||||0.0162|TWO_SIDED|95.0|0.693|28.692||P-value was determined by the Wilcoxon Rank Sum test,stratified by baseline tafamidis use.Analysis was performed on the 100 multiply-imputed datasets.|Wilcoxon Rank Sum Test||Median difference estimated by the Hodges-Lehmann method, stratified by baseline tafamidis use. Analysis was performed on the 100 multiply-imputed datasets.|||28.692|0.693|0.0162
92356475|NCT03997383|184618096|SUPERIORITY||Least squares (LS) mean difference|3.709|STANDARD_ERROR_OF_MEAN|1.796||0.0397|TWO_SIDED|95.0|0.176|7.242||P-value was analyzed using mixed model repeated measures (MMRM) as described in the Statistical analysis plan.|MMRM|||||7.242|0.176|0.0397
92356476|NCT03997383|184618097|SUPERIORITY||Stratified Win Ratio|1.27||||0.0574|TWO_SIDED|95.0|0.99|1.61|||Z-test|P-value was analyzed by a z-test using the mean and variance of the log-transformed win ratio estimate.||||1.61|0.99|0.0574
92356477|NCT03997383|184618098|SUPERIORITY||Hazard Ratio (HR)|0.997||||0.9888|TWO_SIDED|95.0|0.62|1.602|||Andersen-Gill||HR was derived using an Andersen-Gill model, including the treatment arm, type of ATTR amyloidosis, baseline New York Heart Association (NYHA) class, and age as covariates.|||1.602|0.620|0.9888
92356478|NCT03997383|184618099|SUPERIORITY||Hazard Ratio (HR)|0.883||||0.5609|TWO_SIDED|95.0|0.582|1.341|||Modified Andersen-Gill|P-value was derived using the modified Andersen-Gill model stratified by baseline tafamidis use.|HR was derived using the modified Andersen-Gill model stratified by baseline tafamidis use, including treatment arm, type of ATTR amyloidosis, baseline NYHA class, and age as covariates.|||1.341|0.582|0.5609
92356479|NCT05528510|184618111|SUPERIORITY||Adjusted Treatment Difference|21.1|||<|0.001|TWO_SIDED|95.0|14.5|27.6|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||27.6|14.5|<0.001
92356480|NCT05528510|184618112|SUPERIORITY||Adjusted Treatment Difference|30.4|||<|0.001|TWO_SIDED|95.0|21.6|39.2|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||39.2|21.6|<0.001
92356481|NCT05528510|184618113|SUPERIORITY||Adjusted Treatment Difference|24.3|||<|0.001|TWO_SIDED|95.0|16.6|31.9|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||31.9|16.6|<0.001
92356482|NCT05528510|184618114|SUPERIORITY||Adjusted Treatment Difference|31.0|||<|0.001|TWO_SIDED|95.0|21.6|40.5|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||40.5|21.6|<0.001
92356483|NCT05528510|184618115|SUPERIORITY||Adjusted Treatment Difference|19.6|||<|0.001|TWO_SIDED|95.0|12.4|26.9|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||26.9|12.4|<0.001
92356484|NCT05528510|184618116|SUPERIORITY||Adjusted Treatment Difference|25.9|||<|0.001|TWO_SIDED|95.0|16.7|35.1|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||35.1|16.7|<0.001
92356485|NCT05528510|184618116|SUPERIORITY||Adjusted Treatment Difference|27.0|||<|0.001|TWO_SIDED|95.0|17.9|36.2|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||36.2|17.9|<0.001
92356486|NCT05528510|184618117|SUPERIORITY||Adjusted Treatment Difference|29.5|||<|0.001|TWO_SIDED|95.0|18.5|40.5|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||40.5|18.5|<0.001
92276537|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.0016|TWO_SIDED|95.0|-1.01|-0.24||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Family life: Week 11||-0.24|-1.01|0.0016
92356487|NCT05528510|184618117|SUPERIORITY||Adjusted Treatment Difference|24.8|||<|0.001|TWO_SIDED|95.0|14.3|35.3|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||35.3|14.3|<0.001
92356488|NCT05528510|184618118|SUPERIORITY||Adjusted Treatment Difference|28.1|||<|0.001|TWO_SIDED|95.0|18.5|37.6|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||37.6|18.5|<0.001
92401385|NCT00385671|184694180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.174|TWO_SIDED|95.0|-0.17|0.93||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI mean interference score.||0.93|-0.17|0.174
92401386|NCT00385671|184694180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.717|TWO_SIDED|95.0|-0.45|0.65||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI mean interference score.||0.65|-0.45|0.717
92356489|NCT05528510|184618118|SUPERIORITY||Adjusted Treatment Difference|32.7|||<|0.001|TWO_SIDED|95.0|23.1|42.3|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||42.3|23.1|<0.001
92221006|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.39|-0.67|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.67|-1.39|<0.001
92401387|NCT00385671|184694181|SUPERIORITY_OR_OTHER|||||||0.975||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with ≥ 30% reduction in the weekly mean 24 hour average pain score at 12 weeks.||||0.975
92401388|NCT00385671|184694181|SUPERIORITY_OR_OTHER|||||||0.448||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with ≥ 30% reduction in the weekly mean 24 hour average pain score at 12 weeks.||||0.448
92401389|NCT00385671|184694181|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with ≥ 30% reduction in the weekly mean 24 hour average pain score at 12 weeks.||||0.280
92401390|NCT00385671|184694182|SUPERIORITY_OR_OTHER|||||||0.548||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of patients with a reduction of ≥ 50% in Weekly mean of 24 hour average pain score.||||0.548
92162466|NCT00383188|184214402|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|3.24||1|TWO_SIDED|90.0|-5.333|5.333|||Chi-squared|||Week 8||5.333|-5.333|1.0000
92221007|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.31|-0.58|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.58|-1.31|<0.001
92356490|NCT05528510|184618119|SUPERIORITY||Adjusted Treatment Difference|32.4|||<|0.001|TWO_SIDED|95.0|21.3|43.4|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||43.4|21.3|<0.001
92356491|NCT05528510|184618119|SUPERIORITY||Adjusted Treatment Difference|30.5|||<|0.001|TWO_SIDED|95.0|20.0|41.0|||Mantel Haenszel|Stratification was by Androgen Deprivation Therapy for Intermediate-Risk status (Yes/No) and Mayo endoscopy subscore at baseline(moderate or severe).||||41.0|20.0|<0.001
92356492|NCT01856478|184618121|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0016|TWO_SIDED|95.0|1.47|5.18||Null hypothesis: Afatinib and methotrexate have an equal response rate.|Cochran-Mantel-Haenszel||"Linear regression stratified by baseline ECOG performance score and use of prior EGFR-targeted antibody in the R/M setting was used to calculate the OR of response and its confidence interval.~Data presented as Afatinib versus Methotrexate."|Stratified Cochran-Mantel-Haenszel was used to test the effect of afatinib compared with methotrexate. The stratification was done on the baseline ECOG performance score (0 or 1) and use of prior EGFR-targeted antibody in the R/M setting (Yes or No).||5.18|1.47|0.0016
92356493|NCT01856478|184618122|SUPERIORITY|Stratified log-rank test was used to test the effect of afatinib on PFS compared with methotrexate. The stratification was done on the baseline ECOG performance score (0 or 1) and use of prior EGFR-targeted antibody in the R/M setting (Yes or No).|Hazard Ratio (HR)|0.627||||0.0005|TWO_SIDED|95.0|0.478|0.823||Null hypothesis: Afatinib and methotrexate are equally effective in terms of PFS.|Log Rank||"Cox proportional hazards model stratified by baseline ECOG performance score and use of prior EGFR-targeted antibody in the R/M setting was used to calculate HR and its confidence interval.~Data presented as Afatinib versus Methotrexate."|||0.823|0.478|0.0005
92162467|NCT00383188|184214402|SUPERIORITY||Difference in percentage|7.31|STANDARD_ERROR_OF_MEAN|5.31||0.1267|TWO_SIDED|90.0|-1.417|16.036|||Chi-squared|||Week 8||16.036|-1.417|0.1267
92162468|NCT00383188|184214402|SUPERIORITY||Difference in percentage|5.95|STANDARD_ERROR_OF_MEAN|5.27||0.2069|TWO_SIDED|90.0|-2.72|14.612|||Chi-squared|||Week 8||14.612|-2.720|0.2069
92162469|NCT00383188|184214402|SUPERIORITY||Difference in percentage|1.84|STANDARD_ERROR_OF_MEAN|4.08||0.6506|TWO_SIDED|90.0|-4.871|8.553|||Chi-squared|||Week 12||8.553|-4.871|0.6506
92162470|NCT00383188|184214402|SUPERIORITY||Difference in percentage|2.7|STANDARD_ERROR_OF_MEAN|4.12||0.5125|TWO_SIDED|90.0|-4.075|9.48|||Chi-squared|||Week 12||9.480|-4.075|0.5125
92162471|NCT00383188|184214402|SUPERIORITY||Difference in percentage|3.69|STANDARD_ERROR_OF_MEAN|5.07||0.4412|TWO_SIDED|90.0|-4.652|12.023|||Chi-squared|||Week 12||12.023|-4.652|0.4412
92162472|NCT00383188|184214402|SUPERIORITY||Difference in percentage|2.09|STANDARD_ERROR_OF_MEAN|4.92||0.6566|TWO_SIDED|90.0|-6.006|10.195|||Chi-squared|||Week 12||10.195|-6.006|0.6566
92276538|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.0186|TWO_SIDED|95.0|-0.94|-0.09|||Mixed Models Analysis|||Family life: Week 14||-0.09|-0.94|0.0186
92356494|NCT01856478|184618123|OTHER||Hazard Ratio (HR)|0.881||||0.3162|TWO_SIDED|95.0|0.687|1.129|||Log Rank||"Cox proportional hazards model stratified by baseline ECOG performance score and use of prior EGFR-targeted antibody in the R/M setting was used to calculate HR and its confidence interval.~Data presented as Afatinib versus Methotrexate."|Stratified log-rank test was used to test the effect of afatinib compared with methotrexate. The stratification was done on the baseline ECOG performance score (0 or 1) and use of prior EGFR-targeted antibody in the R/M setting (Yes or No).||1.129|0.687|0.3162
92356495|NCT01856478|184618124|OTHER||Hazard Ratio (HR)|0.79||||0.2121|TWO_SIDED|95.0|0.54|1.15|||Log Rank||"Cox proportional hazards model stratified by baseline ECOG performance score and use of prior EGFR-targeted antibody in the R/M setting was used to calculate HR and its confidence interval.~Data presented as Afatinib versus Methotrexate."|Stratified log-rank test was used to test the effect of afatinib compared with methotrexate. The stratification was done on the baseline ECOG performance score (0 or 1) and use of prior EGFR-targeted antibody in the R/M setting (Yes or No).||1.15|0.54|0.2121
92356496|NCT01856478|184618125|OTHER||Hazard Ratio (HR)|1.0||||0.9888|TWO_SIDED|95.0|0.67|1.49|||Log Rank||"Cox proportional hazards model stratified by baseline ECOG performance score and use of prior EGFR-targeted antibody in the R/M setting was used to calculate HR and its confidence interval.~Data presented as Afatinib versus Methotrexate."|Stratified log-rank test was used to test the effect of afatinib compared with methotrexate. The stratification was done on the baseline ECOG performance score (0 or 1) and use of prior EGFR-targeted antibody in the R/M setting (Yes or No).||1.49|0.67|0.9888
92356497|NCT01856478|184618126|OTHER||Hazard Ratio (HR)|0.91||||0.626|TWO_SIDED|95.0|0.62|1.34|||Log Rank||"Cox proportional hazards model stratified by baseline ECOG performance score and use of prior EGFR-targeted antibody in the R/M setting was used to calculate HR and its confidence interval.~Data presented as Afatinib versus Methotrexate."|Stratified log-rank test was used to test the effect of afatinib compared with methotrexate. The stratification was done on the baseline ECOG performance score (0 or 1) and use of prior EGFR-targeted antibody in the R/M setting (Yes or No).||1.34|0.62|0.6260
92356498|NCT01856478|184618127|OTHER||Adjusted mean difference|7.9||||0.0005|TWO_SIDED|95.0|3.45|12.36|||t-test, 2 sided||Calculated as \[Afatinib\]-\[Methotrexate\]|||12.36|3.45|0.0005
92356499|NCT01856478|184618128|OTHER||Adjusted mean difference|-3.8||||0.109|TWO_SIDED|95.0|-8.39|0.84|||t-test, 2 sided||Calculated as \[Afatinib\]-\[Methotrexate\]|||0.84|-8.39|0.1090
92356500|NCT01856478|184618129|OTHER||Adjusted mean difference|-3.9||||0.1819|TWO_SIDED|95.0|-9.73|1.85|||t-test, 2 sided||Calculated as \[Afatinib\]-\[Methotrexate\]|||1.85|-9.73|0.1819
92356501|NCT01856478|184618130|OTHER||Odds Ratio (OR)|1.46||||0.222|||||||Regression, Logistic||Afatinib versus Methotrexate|Stratified logistic regression model stratified by baseline ECOG performance score (0 or 1) and use of prior EGFR-targeted antibody in the R/M setting (Yes or No) was used to compare the number of patients that of improved vs. not improved (i.e. stable and worsened) between the two treatment groups.||||0.222
92356502|NCT01856478|184618131|OTHER||Odds Ratio (OR)|2.37||||0.012|||||||Regression, Logistic||Afatinib versus Methotrexate|Stratified logistic regression model stratified by baseline ECOG performance score (0 or 1) and use of prior EGFR-targeted antibody in the R/M setting (Yes or No) was used to compare the number of patients that of improved vs. not improved (i.e. stable and worsened) between the two treatment groups.||||0.012
92401391|NCT00385671|184694182|SUPERIORITY_OR_OTHER|||||||0.599||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of patients with a reduction of ≥ 50% in Weekly mean of 24 hour average pain score.||||0.599
92162473|NCT00383188|184214402|SUPERIORITY||Difference in percentage|-5.16|STANDARD_ERROR_OF_MEAN|4.5||0.2634|TWO_SIDED|90.0|-12.57|2.247|||Chi-squared|||Week 16||2.247|-12.57|0.2634
92162474|NCT00383188|184214402|SUPERIORITY||Difference in percentage|-2.86|STANDARD_ERROR_OF_MEAN|4.73||0.546|TWO_SIDED|90.0|-10.63|4.916|||Chi-squared|||Week 16||4.916|-10.63|0.5460
92356503|NCT01856478|184618132|OTHER|||||||0.008|||||||Regression, Logistic|||Stratified logistic regression model stratified by baseline ECOG performance score (0 or 1) and use of prior EGFR-targeted antibody in the R/M setting (Yes or No) was used to compare the number of patients that of improved vs. not improved (i.e. stable and worsened) between the two treatment groups.||||0.008
92162475|NCT00383188|184214402|SUPERIORITY||Difference in percentage|-7.37|STANDARD_ERROR_OF_MEAN|4.43||0.1626|TWO_SIDED|90.0|-14.65|-0.086|||Chi-squared|||Week 16||-0.086|-14.65|0.1626
92162476|NCT00383188|184214402|SUPERIORITY||Difference in percentage|-7.37|STANDARD_ERROR_OF_MEAN|4.43||0.1626|TWO_SIDED|90.0|-14.65|-0.086|||Chi-squared|||Week 16||-0.086|-14.65|0.1626
92162477|NCT00383188|184214403|SUPERIORITY||Least Square Mean (LSM) Difference|-0.388|STANDARD_ERROR_OF_MEAN|1.025||0.7053|TWO_SIDED|95.0|-2.4|1.624|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.624|-2.400|0.7053
92162478|NCT00383188|184214403|SUPERIORITY||LSM Difference|-1.312|STANDARD_ERROR_OF_MEAN|1.009||0.1938|TWO_SIDED|95.0|-3.291|0.668|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.668|-3.291|0.1938
92162479|NCT00383188|184214403|SUPERIORITY||LSM Difference|-2.187|STANDARD_ERROR_OF_MEAN|1.174||0.0627|TWO_SIDED|95.0|-4.491|0.116|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.116|-4.491|0.0627
92276539|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0824|TWO_SIDED|95.0|-0.73|0.04||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Family life: Week 11||0.04|-0.73|0.0824
92356504|NCT01856478|184618133|OTHER|||||||0.091|||||||Regression, Logistic|||Stratified logistic regression model stratified by baseline ECOG performance score (0 or 1) and use of prior EGFR-targeted antibody in the R/M setting (Yes or No) was used to compare the number of patients that of improved vs. not improved (i.e. stable and worsened) between the two treatment groups.||||0.091
92356505|NCT05032820|184618134|SUPERIORITY||Proportion of Patients Achieving CR/sCR|65.8|||<|0.0001|TWO_SIDED|90.0|51.2|78.4||p-value is calculated using Fisher's exact test and is a one-sided test with a 5% significance level that tests whether the proportion of successes is greater than 10%.|Fisher Exact|One-sided test with a 5% significance level that tests whether the proportion of successes is greater than 10%.||||78.4|51.2|<0.0001
92356506|NCT04108208|184618150|SUPERIORITY||Hazard Ratio (HR)|0.233|||=|0.0052|TWO_SIDED|95.0|0.077|0.705|||Log Rank|||||0.705|0.077|=0.0052
92356507|NCT04770272|184618176|SUPERIORITY|The primary analysis uses Bayesian statistics for proportions, and is based on non-informative uniform (beta) priors for the pCR rates pA and pB in arms A (experimental) and B (control) respectively. Similar to a proof-of-concept trial, a dual criterion to simultaneously test for significant and relevant superiority at different levels of certainty was used, by requiring posterior probabilities, conditional on observed response counts xA, xB respectively in the two arms.|Risk Difference (RD)|-0.0327|||||TWO_SIDED|95.0|-0.1307|0.0663||||||This was a randomized, open-label, adaptive, two arm, multicenter phase II trial that enrolled female and male patients with primary TNBC (defined as ER/PR \< 10% and HER2-negative) with tumor stages cT1c - cT4d (cN0 and cN+). Patients were randomized to Arm A and B, stratified by PD-L1 expression on immune cells (IC-status) and anatomic tumor stage (Anatomic Stage Groups I, II and III). PD-L1 status was determined by central pathology using the VENTANA PD-L1 (SP142) assay.||0.0663|-0.1307|
92356508|NCT04770272|184618178|SUPERIORITY||Risk Difference (RD)|-0.0411|||||TWO_SIDED|95.0|-0.1497|0.0689||||||||0.0689|-0.1497|
92356509|NCT04770272|184618179|SUPERIORITY||Risk Difference (RD)|0.0323|||||TWO_SIDED|95.0|-0.1957|0.2524||||||||0.2524|-0.1957|
92356510|NCT04770272|184618180|SUPERIORITY||Risk Difference (RD)|-0.051|||||TWO_SIDED|95.0|-0.153|0.051||||||||0.051|-0.153|
92356511|NCT04770272|184618181|SUPERIORITY||Risk Difference (RD)|-0.041|||||TWO_SIDED|95.0|-0.127|0.044||||||||0.044|-0.127|
92356512|NCT04770272|184618182|SUPERIORITY||Risk Difference (RD)|-0.064|||||TWO_SIDED|95.0|-0.166|0.034||||||||0.034|-0.166|
92356513|NCT04770272|184618183|SUPERIORITY||Risk Difference (RD)|-0.233|||||TWO_SIDED|95.0|-0.326|-0.14|||||CI given as High posterior density interval (Bayesian confidence interval based on posterior distribution of effect/parameter of interest).|||-0.14|-0.326|
92162480|NCT00383188|184214403|SUPERIORITY||LSM Difference|-0.851|STANDARD_ERROR_OF_MEAN|1.206||0.4809|TWO_SIDED|95.0|-3.218|1.517|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.517|-3.218|0.4809
92356514|NCT04770272|184618184|SUPERIORITY||Risk Difference (RD)|0.039|||||TWO_SIDED|95.0|-0.078|0.15|||||CI given as High posterior density interval (Bayesian confidence interval based on posterior distribution of effect/parameter of interest).|||0.15|-0.078|
92356515|NCT04770272|184618185|SUPERIORITY||Risk Difference (RD)|-0.15|||||TWO_SIDED|95.0|-0.245|-0.054|||||CI given as High posterior density interval (Bayesian confidence interval based on posterior distribution of effect/parameter of interest).|||-0.054|-0.245|
92356516|NCT04770272|184618186|SUPERIORITY||Risk Difference (RD)|-0.052|||||TWO_SIDED|95.0|-0.157|0.055|||||CI given as High posterior density interval (Bayesian confidence interval based on posterior distribution of effect/parameter of interest).|||0.055|-0.157|
92221008|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.18||0.862|TWO_SIDED|95.0|-0.33|0.39|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.39|-0.33|0.862
92356517|NCT04770272|184618187|SUPERIORITY||Risk Difference (RD)|-0.001|||||TWO_SIDED|95.0|-0.022|0.018|||||CI given as High posterior density interval (Bayesian confidence interval based on posterior distribution of effect/parameter of interest).|||0.018|-0.022|
92356518|NCT04770272|184618188|SUPERIORITY||Risk Difference (RD)|0.007|||||TWO_SIDED|95.0|-0.017|0.034|||||CI given as High posterior density interval (Bayesian confidence interval based on posterior distribution of effect/parameter of interest).|||0.034|-0.017|
92356519|NCT04770272|184618189|SUPERIORITY||Risk Difference (RD)|-0.229|||||TWO_SIDED|95.0|-0.31|-0.148|||||||CI given as High posterior density interval (Bayesian confidence interval based on posterior distribution of effect/parameter of interest).|-0.148|-0.31|
92356520|NCT04770272|184618190|SUPERIORITY||Risk Difference (RD)|0.056|||||TWO_SIDED|95.0|-0.052|0.163|||||CI given as High posterior density interval (Bayesian confidence interval based on posterior distribution of effect/parameter of interest).|||0.163|-0.052|
92356521|NCT04770272|184618191|SUPERIORITY||Risk Difference (RD)|-0.343|||||TWO_SIDED|95.0|-0.447|-0.238|||||||CI given as High posterior density interval (Bayesian confidence interval based on posterior distribution of effect/parameter of interest).|-0.238|-0.447|
92356522|NCT04770272|184618192|SUPERIORITY||Risk Difference (RD)|0.035|||||TWO_SIDED|95.0|-0.076|0.146|||||CI given as High posterior density interval (Bayesian confidence interval based on posterior distribution of effect/parameter of interest).|||0.146|-0.076|
92356523|NCT04770272|184618193|SUPERIORITY||Hazard Ratio (HR)|1.54||||0.29|TWO_SIDED|95.0|0.69|3.43|||Regression, Cox|||||3.43|0.69|0.290
92356524|NCT04770272|184618194|SUPERIORITY||Hazard Ratio (HR)|1.65||||0.495|TWO_SIDED|95.0|0.39|6.89|||Regression, Cox|||||6.89|0.39|0.495
92356525|NCT04770272|184618195|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.529|TWO_SIDED|95.0|0.64|2.38|||Regression, Cox|Univariable Cox Regression.||||2.38|0.64|0.529
92356526|NCT02363946|184618199|OTHER||alpha estimate|9.557|STANDARD_ERROR_OF_MEAN|0.037|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter Cmax for Analyte AD00370||||
92356527|NCT02363946|184618199|OTHER||beta estimate|1.173|STANDARD_ERROR_OF_MEAN|0.027|||TWO_SIDED|95.0|1.128|1.218|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter Cmax for Analyte AD00370|R-square (r\^2)=0.98|1.218|1.128|
92356528|NCT02363946|184618199|OTHER||alpha estimate|9.824|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter Cmax for Analyte ARC-MLP||||
92356529|NCT02363946|184618199|OTHER||beta estimate|1.103|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|1.054|1.153|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter Cmax for Analyte ARC-MLP|R-square (r\^2)=0.98|1.153|1.054|
92356530|NCT02363946|184618201|OTHER||alpha estimate|11.274|STANDARD_ERROR_OF_MEAN|0.057|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUC0-24 for Analyte AD00370||||
92162481|NCT00383188|184214403|SUPERIORITY||LSM Difference|-1.289|STANDARD_ERROR_OF_MEAN|1.017||0.2057|TWO_SIDED|95.0|-3.286|0.709|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.709|-3.286|0.2057
92162482|NCT00383188|184214403|SUPERIORITY||LSM Difference|-1.331|STANDARD_ERROR_OF_MEAN|0.999||0.1833|TWO_SIDED|95.0|-3.293|0.631|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.631|-3.293|0.1833
92162483|NCT00383188|184214403|SUPERIORITY||LSM Difference|-2.748|STANDARD_ERROR_OF_MEAN|1.166||0.0187|TWO_SIDED|95.0|-5.037|-0.459|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.459|-5.037|0.0187
92162484|NCT00383188|184214403|SUPERIORITY||LSM Difference|-1.345|STANDARD_ERROR_OF_MEAN|1.197||0.2615|TWO_SIDED|95.0|-3.695|1.005|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.005|-3.695|0.2615
92162485|NCT00383188|184214403|SUPERIORITY||LSM Difference|-1.764|STANDARD_ERROR_OF_MEAN|1.017||0.0832|TWO_SIDED|95.0|-3.761|0.233|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.233|-3.761|0.0832
92162486|NCT00383188|184214403|SUPERIORITY||LSM Difference|-1.615|STANDARD_ERROR_OF_MEAN|0.999||0.1066|TWO_SIDED|95.0|-3.576|0.347|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.347|-3.576|0.1066
92162487|NCT00383188|184214403|SUPERIORITY||LSM Difference|-2.406|STANDARD_ERROR_OF_MEAN|1.166||0.0394|TWO_SIDED|95.0|-4.695|-0.118|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.118|-4.695|0.0394
92162488|NCT00383188|184214403|SUPERIORITY||LSM Difference|-1.355|STANDARD_ERROR_OF_MEAN|1.197||0.258|TWO_SIDED|95.0|-3.705|0.995|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.995|-3.705|0.2580
92162489|NCT00383188|184214403|SUPERIORITY||LSM Difference|-0.758|STANDARD_ERROR_OF_MEAN|1.017||0.456|TWO_SIDED|95.0|-2.754|1.238|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.238|-2.754|0.4560
92162490|NCT00383188|184214403|SUPERIORITY||LSM Difference|-2.021|STANDARD_ERROR_OF_MEAN|0.999||0.0434|TWO_SIDED|95.0|-3.982|-0.06|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.060|-3.982|0.0434
92162491|NCT00383188|184214403|SUPERIORITY||LSM Difference|-1.728|STANDARD_ERROR_OF_MEAN|1.165||0.1386|TWO_SIDED|95.0|-4.016|0.56|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.560|-4.016|0.1386
92162492|NCT00383188|184214403|SUPERIORITY||LSM Difference|-1.154|STANDARD_ERROR_OF_MEAN|1.197||0.3353|TWO_SIDED|95.0|-3.503|1.196|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.196|-3.503|0.3353
92162493|NCT00383188|184214403|SUPERIORITY||LSM Difference|-2.08|STANDARD_ERROR_OF_MEAN|1.016||0.041|TWO_SIDED|95.0|-4.075|-0.085|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.085|-4.075|0.0410
92162494|NCT00383188|184214403|SUPERIORITY||LSM Difference|-2.234|STANDARD_ERROR_OF_MEAN|0.998||0.0255|TWO_SIDED|95.0|-4.194|-0.274|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.274|-4.194|0.0255
92276540|NCT01360632|184454751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59||||0.0077|TWO_SIDED|95.0|-1.02|-0.16||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Family life: Week 14||-0.16|-1.02|0.0077
92221009|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.17||0.003|TWO_SIDED|95.0|-0.85|-0.17|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.17|-0.85|0.003
92221010|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.17||0.014|TWO_SIDED|95.0|-0.76|-0.09|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.09|-0.76|0.014
92221011|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.2||0.019|TWO_SIDED|95.0|-0.86|-0.08|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.08|-0.86|0.019
92221012|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.25|-0.51|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.51|-1.25|<0.001
92221013|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.29|-0.56|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.56|-1.29|<0.001
92356531|NCT02363946|184618201|OTHER||beta estimate|1.181|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|1.112|1.249|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUC0-24 for Analyte AD00370|R-square (r\^2)=0.96|1.249|1.112|
92356532|NCT02363946|184618201|OTHER||alpha estimate|12.133|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUC0-24 for Analyte ARC-MLP||||
92356533|NCT02363946|184618201|OTHER||beta estimate|1.147|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|1.08|1.215|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUC0-24 for Analyte ARC-MLP|R-square (r\^2)=0.96|1.215|1.080|
92356534|NCT02363946|184618202|OTHER||alpha estimate|11.286|STANDARD_ERROR_OF_MEAN|0.058|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUCinf for Analyte AD00370||||
92356535|NCT02363946|184618202|OTHER||beta estimate|1.179|STANDARD_ERROR_OF_MEAN|0.041|||TWO_SIDED|95.0|1.11|1.249|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUCinf for Analyte AD00370|R-square (r\^2)=0.96|1.249|1.110|
92356536|NCT02363946|184618202|OTHER||alpha estimate|12.347|STANDARD_ERROR_OF_MEAN|0.049|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUCinf for Analyte ARC-MLP||||
92401392|NCT00385671|184694182|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference in the number of patients with a reduction of ≥ 50% in Weekly mean of 24 hour average pain score.||||1.00
92221014|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.19||0.668|TWO_SIDED|95.0|-0.45|0.29|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.29|-0.45|0.668
92221015|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.18||0.005|TWO_SIDED|95.0|-0.84|-0.15|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.15|-0.84|0.005
92221016|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.18||0.002|TWO_SIDED|95.0|-0.88|-0.19|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.19|-0.88|0.002
92221017|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.22||0.032|TWO_SIDED|95.0|-0.89|-0.04|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.04|-0.89|0.032
92356537|NCT02363946|184618202|OTHER||beta estimate|1.163|STANDARD_ERROR_OF_MEAN|0.049|||TWO_SIDED|95.0|1.081|1.245|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUCinf for Analyte ARC-MLP|R-square (r\^2)=0.95|1.245|1.081|
92356538|NCT03769116|184618213|OTHER||Hodges-Lehmann treatment diff|6.11|||<|0.0001|TWO_SIDED|95.0|2.08|12.58|||Wilcoxon rank sum test|||Analysis conducted on changes from baseline.||12.58|2.08|< 0.0001
92356539|NCT03769116|184618214|OTHER||LSM Change Difference|0.8|STANDARD_ERROR_OF_MEAN|0.9|=|0.373|TWO_SIDED|95.0|-1.0|2.7|||Mixed-model for Repeated Measures|||||2.7|-1.0|= 0.3730
92356540|NCT03769116|184618222|OTHER||LSM Change Difference|2.5|STANDARD_ERROR_OF_MEAN|0.9|=|0.0172|TWO_SIDED|95.0|0.5|4.4|||Mixed-model for Repeated Measures|||Change from baseline - Age Group: 4-5 years old||4.4|0.5|= 0.0172
92356541|NCT03769116|184618222|OTHER||LSM Change Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.1|=|0.5384|TWO_SIDED|95.0|-3.0|1.6|||Mixed-model for Repeated Measures|||Change from baseline - Age Group: 6-7 years old||1.6|-3.0|= 0.5384
92356542|NCT04903093|184618239|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of adjusted geometric means|96.96|||||TWO_SIDED|90.0|85.43|110.03||||||Test: Abrocitinib 200 mg oral suspension formulation 1; Reference: Abrocitinib 200 mg commercial tablet||110.03|85.43|
92356543|NCT04903093|184618239|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio (%) of adjusted geometric means|62.87|||||TWO_SIDED|90.0|54.85|72.07||||||Test: Famotidine 40 mg tablet + Abrocitinib 200 mg commecial tablet; Reference: Abrocitinib 200 mg commercial tablet||72.07|54.85|
92162495|NCT00383188|184214403|SUPERIORITY||LSM Difference|-2.384|STANDARD_ERROR_OF_MEAN|1.165||0.041|TWO_SIDED|95.0|-4.671|-0.097|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.097|-4.671|0.0410
92162496|NCT00383188|184214403|SUPERIORITY||LSM Difference|-1.911|STANDARD_ERROR_OF_MEAN|1.196||0.1106|TWO_SIDED|95.0|-4.259|0.438|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.438|-4.259|0.1106
92162497|NCT00383188|184214403|SUPERIORITY||LSM Difference|-0.251|STANDARD_ERROR_OF_MEAN|1.048||0.8107|TWO_SIDED|95.0|-2.307|1.805|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.805|-2.307|0.8107
92162498|NCT00383188|184214403|SUPERIORITY||LSM Difference|0.272|STANDARD_ERROR_OF_MEAN|1.017||0.7895|TWO_SIDED|95.0|-1.726|2.269|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||2.269|-1.726|0.7895
92162499|NCT00383188|184214403|SUPERIORITY||LSM Difference|-0.306|STANDARD_ERROR_OF_MEAN|1.206||0.7996|TWO_SIDED|95.0|-2.673|2.06|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||2.060|-2.673|0.7996
92356544|NCT04903093|184618240|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of adjusted geometric means|100.07|||||TWO_SIDED|90.0|80.28|124.74||||||Test: Abrocitinib 200 mg oral suspension formulation 1; Reference: Abrocitinib 200 mg commercial tablet||124.74|80.28|
92356545|NCT04903093|184618240|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of adjusted geometric means|15.53|||||TWO_SIDED|90.0|12.46|19.36||||||Test: Famotidine 40 mg tablet + Abrocitinib 200 mg commercial tablet; Reference: Abrocitinib 200 mg commercial tablet||19.36|12.46|
92356546|NCT03657407|184618260|SUPERIORITY||Mean Difference (Final Values)|-0.65||||0.17|TWO_SIDED|95.0|-0.71|2.0|||t-test, 1 sided|||Null hypothesis that Belladonna \& Opium not superior to Placebo||2.0|-0.71|0.17
92356547|NCT03657407|184618261|SUPERIORITY||Mean Difference (Final Values)|-2.02||||0.29|TWO_SIDED|95.0|-5.4|9.5|||t-test, 1 sided|||Null hypothesis that Belladonna \& Opium not superior to Placebo||9.5|-5.4|0.29
92356548|NCT03657407|184618262|SUPERIORITY||Median Difference (Final Values)|-19.31||||0.05|TWO_SIDED|95.0|-43.1|4.5|||t-test, 1 sided|||Null hypothesis that Belladonna \& Opium not superior to Placebo||4.5|-43.1|0.05
92356549|NCT03657407|184618263|SUPERIORITY||Mean Difference (Final Values)|0.85||||0.42|TWO_SIDED|95.0|0.42|1.7|||t-test, 1 sided|||Null hypothesis that Belladonna \& Opium not superior to Placebo||1.7|0.42|0.42
92162500|NCT00383188|184214403|SUPERIORITY||LSM Difference|0.185|STANDARD_ERROR_OF_MEAN|1.235||0.8811|TWO_SIDED|95.0|-2.24|2.61|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||2.610|-2.240|0.8811
92162501|NCT00383188|184214404|SUPERIORITY||LSM Difference|-0.687|STANDARD_ERROR_OF_MEAN|0.886||0.4385|TWO_SIDED|95.0|-2.427|1.053|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.053|-2.427|0.4385
92162502|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.085|STANDARD_ERROR_OF_MEAN|0.87||0.2131|TWO_SIDED|95.0|-2.794|0.624|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.624|-2.794|0.2131
92356550|NCT01539525|184618269|SUPERIORITY_OR_OTHER||Slope|-0.078|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|-0.118|-0.038|||Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Parameter estimated is the linear effect of time (in months)|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||-0.038|-0.118|<0.001
92356551|NCT01539525|184618269|SUPERIORITY_OR_OTHER||Slope|0.005|STANDARD_ERROR_OF_MEAN|0.003||0.066|TWO_SIDED|95.0|-0.0004|0.011|||Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Parameter estimated is the quadratic effect of time (in months)|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||0.011|-0.0004|0.066
92369481|NCT00281099|184643809|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.949||||||95.0|0.949|1.209|||Andersen-Gill model|This model was fit to account for multiple events (i.e. days in which true VT/VF occurred) within subject.|Because of the possible correlation within subject of days with episodes, a subsequent analysis was done using a bootstrap confidence interval for the annualized rate of episodes per patient month.|The pre-specified analysis called for a comparison of the hazard rates of true VT/VF between the two arms by way of a one-sided 95% confidence interval on the hazard ratio (values less than one favor MVP) after fitting a model. The unit of time was days, not episodes, so the analysis did not account for multiple episodes on the same day. If the upper bound was less than 1, the null hypothesis of equal hazard rates would be rejected.||1.209|0.949|
92356552|NCT01539525|184618269|SUPERIORITY_OR_OTHER||Slope|-0.078|STANDARD_ERROR_OF_MEAN|0.034||0.038|TWO_SIDED|95.0|-0.151|-0.004||P-value adjusted for multiple comparisons using Holm's step-down multiple testing procedure. The a priori threshold for statistical significance was p \< 0.05.|Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Estimated parameter is treatment x linear time interaction term coefficient- Motivational Interview- Nurse vs. Treatment as Usual|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||-0.004|-0.151|0.038
92162503|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.57|STANDARD_ERROR_OF_MEAN|1.013||0.1216|TWO_SIDED|95.0|-3.559|0.419|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.419|-3.559|0.1216
92356553|NCT01539525|184618269|SUPERIORITY_OR_OTHER||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.034||0.008|TWO_SIDED|95.0|-0.157|-0.023||P-value adjusted for multiple comparisons using Holm's step-down multiple testing procedure. The a priori threshold for statistical significance was p \< 0.025|Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Estimated parameter is treatment x linear time interaction term coefficient- Motivational Interview- Computer vs. Treatment as Usual|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||-0.023|-0.157|0.008
92356554|NCT01539525|184618269|SUPERIORITY_OR_OTHER||Slope|0.011|STANDARD_ERROR_OF_MEAN|0.005||0.031|TWO_SIDED|95.0|0.001|0.022||P-value adjusted for multiple comparisons using Holm's step-down multiple testing procedure. The a priori threshold for statistical significance was p \< 0.05.|Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Estimated parameter is treatment x quadratic time interaction term coefficient- Motivational Interview- Nurse vs. Treatment as Usual|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||0.022|0.001|0.031
92356555|NCT01539525|184618269|SUPERIORITY_OR_OTHER||Slope|0.012|STANDARD_ERROR_OF_MEAN|0.0005||0.01|TWO_SIDED|95.0|0.002|0.021||P-value adjusted for multiple comparisons using Holm's step-down multiple testing procedure. The a priori threshold for statistical significance was p \< 0.025.|Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Estimated parameter is treatment x quadratic time interaction term coefficient- Motivational Interview- Computer vs. Treatment as Usual|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||0.021|0.002|0.010
92356556|NCT01539525|184618270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.931||||0.81|TWO_SIDED|95.0|0.559|1.551|||Regression, Logistic|adjusted for stratifying variables- primary substance and pregnancy status|Estimated odds ratio is for Motivational Interview- Nurse vs. Treatment as Usual|||1.551|0.559|0.810
92356557|NCT01539525|184618270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.968||||0.99|TWO_SIDED|95.0|0.579|1.617|||Regression, Logistic|adjusted for stratifying variables- primary substance and pregnancy status|Estimated odds ratio is for Motivational Interview- Computer vs. Treatment as Usual|||1.617|0.579|0.990
92356558|NCT01539525|184618271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.258||||0.465|TWO_SIDED|95.0|0.409|3.871|||Regression, Logistic|adjusted for stratifying variables- primary drug and pregnancy status|odds ratio estimate is for Motivational Interview- Nurse vs. Treatment as Usual|||3.871|0.409|0.465
92356559|NCT01539525|184618271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.749||||0.49|TWO_SIDED|95.0|0.205|2.732|||Regression, Logistic||Odds ratio estimate is for Motivational Interview- Computer vs. Treatment as Usual|||2.732|0.205|0.490
92356560|NCT00787800|184618290|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Log Rank|||||||1.0
92162504|NCT00383188|184214404|SUPERIORITY||LSM Difference|-0.675|STANDARD_ERROR_OF_MEAN|1.046||0.519|TWO_SIDED|95.0|-2.728|1.378|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.378|-2.728|0.5190
92162505|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.464|STANDARD_ERROR_OF_MEAN|0.88||0.0967|TWO_SIDED|95.0|-3.193|0.264|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.264|-3.193|0.0967
92162506|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.027|STANDARD_ERROR_OF_MEAN|0.863||0.2346|TWO_SIDED|95.0|-2.721|0.668|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.668|-2.721|0.2346
92356561|NCT00787800|184618292|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.050
92356562|NCT00787800|184618294|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92356563|NCT02037984|184618329|OTHER|PT1 GMC Ratio (V114/Prevnar 13®)|PT1 GMC Ratio|0.81|||||TWO_SIDED|95.0|0.6|1.1||||||||1.10|0.60|
92356564|NCT02037984|184618329|OTHER|PT3 GMC Ratio (V114/Prevnar 13®)|PT3 GMC Ratio|2.22|||||TWO_SIDED|95.0|1.64|3.02||||||||3.02|1.64|
92356565|NCT02037984|184618329|OTHER|PT4 GMC Ratio (V114/Prevnar 13®)|PT4 GMG Ratio|1.37|||||TWO_SIDED|95.0|1.01|1.84||||||||1.84|1.01|
92356566|NCT02037984|184618329|OTHER|PT5 GMC Ratio (V114/Prevnar 13®)|PT5 GMC Ratio|0.71|||||TWO_SIDED|95.0|0.48|1.05||||||||1.05|0.48|
92356567|NCT02037984|184618329|OTHER|PT6A GMC Ratio (V114/Prevnar 13®)|PT6A GMC Ratio|0.6|||||TWO_SIDED|95.0|0.32|1.13||||||||1.13|0.32|
92356568|NCT02037984|184618329|OTHER|PT6B GMC Ratio (V114/Prevnar 13®)|PT6B GMG Ratio|0.34|||||TWO_SIDED|95.0|0.16|0.73||||||||0.73|0.16|
92356569|NCT02037984|184618329|OTHER|PT7F GMC Ratio (V114/Prevnar 13®)|PT7F GMC Ratio|0.72|||||TWO_SIDED|95.0|0.51|1.02||||||||1.02|0.51|
92356570|NCT02037984|184618329|OTHER|PT9V GMC Ratio (V114/Prevnar 13®)|PT9V GMC Ratio|0.74|||||TWO_SIDED|95.0|0.51|1.08||||||||1.08|0.51|
92356571|NCT02037984|184618329|OTHER|PT14 GMC Ratio (V114/Prevnar®)|PT9V GMC Ratio|0.59|||||TWO_SIDED|95.0|0.39|0.9||||||||0.90|0.39|
92356572|NCT02037984|184618329|OTHER|PT18C GMC Ratio (V114/Prevnar 13®)|PT18C GMC Ratio|0.92|||||TWO_SIDED|95.0|0.64|1.31||||||||1.31|0.64|
92356573|NCT02037984|184618329|OTHER|PT19A GMC Ratio (V114/Prevnar 13®)|PT19A GMC Ratio|0.88|||||TWO_SIDED|95.0|0.61|1.27||||||||1.27|0.61|
92356574|NCT02037984|184618329|OTHER|PT19F GMC Ratio (V114/Prevnar 13®)|PT19F GMC Ratio|1.22|||||TWO_SIDED|95.0|0.83|1.78||||||||1.78|0.83|
92162507|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.658|STANDARD_ERROR_OF_MEAN|1.007||0.1|TWO_SIDED|95.0|-3.635|0.318|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.318|-3.635|0.1000
92162508|NCT00383188|184214404|SUPERIORITY||LSM Difference|-0.805|STANDARD_ERROR_OF_MEAN|1.038||0.4385|TWO_SIDED|95.0|-2.844|1.234|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.234|-2.844|0.4385
92356575|NCT02037984|184618329|OTHER|PT23F GMC Ratio (V114/Prevnar 13®)|PT23F GMC Ratio|0.91|||||TWO_SIDED|95.0|0.57|1.45||||||||1.45|0.57|
92356576|NCT02037984|184618329|OTHER|non-PT22F GMC Ratio (V114/Prevnar 13®)|non-PT22F GMC Ratio|67.5|||||TWO_SIDED|95.0|45.58|99.97||||||||99.97|45.58|
92356577|NCT02037984|184618329|OTHER|non-PT33F GMC Ratio (V114/Prevnar 13®)|non-PT33F GMC Ratio|23.9|||||TWO_SIDED|95.0|13.21|43.24||||||||43.24|13.21|
92356578|NCT02037984|184618330|OTHER|PT1 GMC Ratio (V114/Prevnar 13®)|PT1 GMC Ratio|0.52|||||TWO_SIDED|95.0|0.39|0.7||||||||0.70|0.39|
92356579|NCT02037984|184618330|OTHER|PT3 GMC Ratio (V114/Prevnar 13®)|PT3 GMC Ratio|1.79|||||TWO_SIDED|95.0|1.33|2.41||||||||2.41|1.33|
92356580|NCT02037984|184618330|OTHER|PT4 GMC Ratio (V114/Prevnar 13®)|PT4 GMG Ratio|0.87|||||TWO_SIDED|95.0|0.65|1.16||||||||1.16|0.65|
92356581|NCT02037984|184618330|OTHER|PT5 GMC Ratio (V114/Prevnar 13®)|PT5 GMC Ratio|0.51|||||TWO_SIDED|95.0|0.35|0.74||||||||0.74|0.35|
92356582|NCT02037984|184618330|OTHER|PT6A GMC Ratio (V114/Prevnar 13®)|PT6A GMC Ratio|0.31|||||TWO_SIDED|95.0|0.17|0.58||||||||0.58|0.17|
92356583|NCT02037984|184618330|OTHER|PT6B GMC Ratio (V114/Prevnar 13®)|PT6B GMG Ratio|0.16|||||TWO_SIDED|95.0|0.08|0.34||||||||0.34|0.08|
92356584|NCT02037984|184618330|OTHER|PT7F GMC Ratio (V114/Prevnar 13®)|PT7F GMC Ratio|0.48|||||TWO_SIDED|95.0|0.34|0.67||||||||0.67|0.34|
92356585|NCT02037984|184618330|OTHER|PT9V GMC Ratio (V114/Prevnar 13®)|PT9V GMC Ratio|0.56|||||TWO_SIDED|95.0|0.39|0.82||||||||0.82|0.39|
92356586|NCT02037984|184618330|OTHER|PT14 GMC Ratio (V114/Prevnar®)|PT9V GMC Ratio|0.64|||||TWO_SIDED|95.0|0.42|0.97||||||||0.97|0.42|
92356587|NCT02037984|184618330|OTHER|PT18C GMC Ratio (V114/Prevnar 13®)|PT18C GMC Ratio|0.85|||||TWO_SIDED|95.0|0.6|1.21||||||||1.21|0.60|
92356588|NCT02037984|184618330|OTHER|PT19A GMC Ratio (V114/Prevnar 13®)|PT19A GMC Ratio|0.66|||||TWO_SIDED|95.0|0.46|0.95||||||||0.95|0.46|
92356589|NCT02037984|184618330|OTHER|PT19F GMC Ratio (V114/Prevnar 13®)|PT19F GMC Ratio|1.11|||||TWO_SIDED|95.0|0.77|1.6||||||||1.60|0.77|
92356590|NCT02037984|184618330|OTHER|PT23F GMC Ratio (V114/Prevnar 13®)|PT23F GMC Ratio|0.68|||||TWO_SIDED|95.0|0.43|1.07||||||||1.07|0.43|
92356591|NCT02037984|184618330|OTHER|non-PT22F GMC Ratio (V114/Prevnar 13®)|non-PT22F GMC Ratio|44.61|||||TWO_SIDED|95.0|30.42|65.43||||||||65.43|30.42|
92356592|NCT02037984|184618330|OTHER|non-PT33F GMC Ratio (V114/Prevnar 13®)|non-PT33F GMC Ratio|15.29|||||TWO_SIDED|95.0|8.58|27.26||||||||27.26|8.58|
92356593|NCT02037984|184618331|OTHER|PT1 GMC Ratio (V114/Prevnar 13®)|PT1 GMC Ratio|0.78|||||TWO_SIDED|95.0|0.57|1.07||||||||1.07|0.57|
92356594|NCT02037984|184618331|OTHER|PT3 GMC Ratio (V114/Prevnar 13®)|PT3 GMC Ratio|2.68|||||TWO_SIDED|95.0|1.95|3.68||||||||3.68|1.95|
92356595|NCT02037984|184618331|OTHER|PT4 GMC Ratio (V114/Prevnar 13®)|PT4 GMG Ratio|1.52|||||TWO_SIDED|95.0|1.11|2.07||||||||2.07|1.11|
92356596|NCT02037984|184618331|OTHER|PT5 GMC Ratio (V114/Prevnar 13®)|PT5 GMC Ratio|0.68|||||TWO_SIDED|95.0|0.46|1.02||||||||1.02|0.46|
92356597|NCT02037984|184618331|OTHER|PT6A GMC Ratio (V114/Prevnar 13®)|PT6A GMC Ratio|0.33|||||TWO_SIDED|95.0|0.17|0.64||||||||0.64|0.17|
92356598|NCT02037984|184618331|OTHER|PT6B GMC Ratio (V114/Prevnar 13®)|PT6B GMG Ratio|0.11|||||TWO_SIDED|95.0|0.05|0.23||||||||0.23|0.05|
92356599|NCT02037984|184618331|OTHER|PT7F GMC Ratio (V114/Prevnar 13®)|PT7F GMC Ratio|0.73|||||TWO_SIDED|95.0|0.51|1.04||||||||1.04|0.51|
92356600|NCT02037984|184618331|OTHER|PT9V GMC Ratio (V114/Prevnar 13®)|PT9V GMC Ratio|0.88|||||TWO_SIDED|95.0|0.59|1.3||||||||1.30|0.59|
92356601|NCT02037984|184618331|OTHER|PT14 GMC Ratio (V114/Prevnar®)|PT9V GMC Ratio|1.03|||||TWO_SIDED|95.0|0.66|1.6||||||||1.60|0.66|
92356602|NCT02037984|184618331|OTHER|PT18C GMC Ratio (V114/Prevnar 13®)|PT18C GMC Ratio|0.96|||||TWO_SIDED|95.0|0.66|1.39||||||||1.39|0.66|
92356603|NCT02037984|184618331|OTHER|PT19A GMC Ratio (V114/Prevnar 13®)|PT19A GMC Ratio|0.95|||||TWO_SIDED|95.0|0.64|1.39||||||||1.39|0.64|
92356604|NCT02037984|184618331|OTHER|PT19F GMC Ratio (V114/Prevnar 13®)|PT19F GMC Ratio|1.24|||||TWO_SIDED|95.0|0.84|1.84||||||||1.84|0.84|
92356605|NCT02037984|184618331|OTHER|PT23F GMC Ratio (V114/Prevnar 13®)|PT23F GMC Ratio|0.75|||||TWO_SIDED|95.0|0.46|1.23||||||||1.23|0.46|
92356606|NCT02037984|184618331|OTHER|non-PT22F GMC Ratio (V114/Prevnar 13®)|non-PT22F GMC Ratio|77.57|||||TWO_SIDED|95.0|51.6|116.6||||||||116.60|51.60|
92356607|NCT02037984|184618331|OTHER|non-PT33F GMC Ratio (V114/Prevnar 13®)|non-PT33F GMC Ratio|15.66|||||TWO_SIDED|95.0|8.46|28.98||||||||28.98|8.46|
92162509|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.599|STANDARD_ERROR_OF_MEAN|0.88||0.0696|TWO_SIDED|95.0|-3.327|0.128|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.128|-3.327|0.0696
92162510|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.863||0.0642|TWO_SIDED|95.0|-3.294|0.094|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.094|-3.294|0.0642
92356608|NCT02037984|184618332|OTHER|PT1 GMC Ratio (V114/Prevnar 13®)|PT1 GMC Ratio|0.68|||||TWO_SIDED|95.0|0.5|0.93||||||||0.93|0.50|
92356609|NCT02037984|184618332|OTHER|PT3 GMC Ratio (V114/Prevnar 13®)|PT3 GMC Ratio|2.21|||||TWO_SIDED|95.0|1.62|3.02||||||||3.02|1.62|
92356610|NCT02037984|184618332|OTHER|PT4 GMC Ratio (V114/Prevnar 13®)|PT4 GMG Ratio|0.97|||||TWO_SIDED|95.0|0.71|1.31||||||||1.31|0.71|
92356611|NCT02037984|184618332|OTHER|PT5 GMC Ratio (V114/Prevnar 13®)|PT5 GMC Ratio|0.53|||||TWO_SIDED|95.0|0.36|0.79||||||||0.79|0.36|
92356612|NCT02037984|184618332|OTHER|PT6A GMC Ratio (V114/Prevnar 13®)|PT6A GMC Ratio|0.49|||||TWO_SIDED|95.0|0.26|0.94||||||||0.94|0.26|
92356613|NCT02037984|184618332|OTHER|PT6B GMC Ratio (V114/Prevnar 13®)|PT6B GMG Ratio|0.36|||||TWO_SIDED|95.0|0.17|0.77||||||||0.77|0.17|
92356614|NCT02037984|184618332|OTHER|PT7F GMC Ratio (V114/Prevnar 13®)|PT7F GMC Ratio|0.6|||||TWO_SIDED|95.0|0.42|0.85||||||||0.85|0.42|
92356615|NCT02037984|184618332|OTHER|PT9V GMC Ratio (V114/Prevnar 13®)|PT9V GMC Ratio|0.79|||||TWO_SIDED|95.0|0.54|1.16||||||||1.16|0.54|
92356616|NCT02037984|184618332|OTHER|PT14 GMC Ratio (V114/Prevnar®)|PT9V GMC Ratio|0.74|||||TWO_SIDED|95.0|0.48|1.14||||||||1.14|0.48|
92356617|NCT02037984|184618332|OTHER|PT18C GMC Ratio (V114/Prevnar 13®)|PT18C GMC Ratio|0.66|||||TWO_SIDED|95.0|0.46|0.95||||||||0.95|0.46|
92356618|NCT02037984|184618332|OTHER|PT19A GMC Ratio (V114/Prevnar 13®)|PT19A GMC Ratio|0.7|||||TWO_SIDED|95.0|0.48|1.02||||||||1.02|0.48|
92356619|NCT02037984|184618332|OTHER|PT19F GMC Ratio (V114/Prevnar 13®)|PT19F GMC Ratio|0.88|||||TWO_SIDED|95.0|0.6|1.29||||||||1.29|0.60|
92356620|NCT02037984|184618332|OTHER|PT23F GMC Ratio (V114/Prevnar 13®)|PT23F GMC Ratio|0.69|||||TWO_SIDED|95.0|0.43|1.12||||||||1.12|0.43|
92356621|NCT02037984|184618332|OTHER|non-PT22F GMC Ratio (V114/Prevnar 13®)|non-PT22F GMC Ratio|56.08|||||TWO_SIDED|95.0|37.66|83.52||||||||83.52|37.66|
92356622|NCT02037984|184618332|OTHER|non-PT33F GMC Ratio (V114/Prevnar 13®)|non-PT33F GMC Ratio|25.75|||||TWO_SIDED|95.0|14.18|46.78||||||||46.78|14.18|
92356623|NCT02037984|184618333|OTHER|PT1 GMC Ratio (V114/Prevnar 13®)|PT1 GMC Ratio|0.8|||||TWO_SIDED|95.0|0.58|1.09||||||||1.09|0.58|
92356624|NCT02037984|184618333|OTHER|PT3 GMC Ratio (V114/Prevnar 13®)|PT3 GMC Ratio|2.55|||||TWO_SIDED|95.0|1.86|3.49||||||||3.49|1.86|
92162511|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.83|STANDARD_ERROR_OF_MEAN|1.007||0.0695|TWO_SIDED|95.0|-3.807|0.146|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.146|-3.807|0.0695
92356625|NCT02037984|184618333|OTHER|PT4 GMC Ratio (V114/Prevnar 13®)|PT4 GMG Ratio|1.07|||||TWO_SIDED|95.0|0.79|1.46||||||||1.46|0.79|
92356626|NCT02037984|184618333|OTHER|PT5 GMC Ratio (V114/Prevnar 13®)|PT5 GMC Ratio|0.51|||||TWO_SIDED|95.0|0.34|0.76||||||||0.76|0.34|
92356627|NCT02037984|184618333|OTHER|PT6A GMC Ratio (V114/Prevnar 13®)|PT6A GMC Ratio|0.34|||||TWO_SIDED|95.0|0.17|0.65||||||||0.65|0.17|
92356628|NCT02037984|184618333|OTHER|PT6B GMC Ratio (V114/Prevnar 13®)|PT6B GMG Ratio|0.18|||||TWO_SIDED|95.0|0.08|0.38||||||||0.38|0.08|
92356629|NCT02037984|184618333|OTHER|PT7F GMC Ratio (V114/Prevnar 13®)|PT7F GMC Ratio|0.59|||||TWO_SIDED|95.0|0.41|0.84||||||||0.84|0.41|
92356630|NCT02037984|184618333|OTHER|PT9V GMC Ratio (V114/Prevnar 13®)|PT9V GMC Ratio|0.68|||||TWO_SIDED|95.0|0.46|1.01||||||||1.01|0.46|
92356631|NCT02037984|184618333|OTHER|PT14 GMC Ratio (V114/Prevnar®)|PT9V GMC Ratio|0.79|||||TWO_SIDED|95.0|0.51|1.22||||||||1.22|0.51|
92356632|NCT02037984|184618333|OTHER|PT18C GMC Ratio (V114/Prevnar 13®)|PT18C GMC Ratio|0.72|||||TWO_SIDED|95.0|0.5|1.05||||||||1.05|0.50|
92356633|NCT02037984|184618333|OTHER|PT19A GMC Ratio (V114/Prevnar 13®)|PT19A GMC Ratio|0.55|||||TWO_SIDED|95.0|0.37|0.8||||||||0.80|0.37|
92356634|NCT02037984|184618333|OTHER|PT19F GMC Ratio (V114/Prevnar 13®)|PT19F GMC Ratio|0.97|||||TWO_SIDED|95.0|0.66|1.44||||||||1.44|0.66|
92356635|NCT02037984|184618333|OTHER|PT23F GMC Ratio (V114/Prevnar 13®)|PT23F GMC Ratio|0.79|||||TWO_SIDED|95.0|0.49|1.28||||||||1.28|0.49|
92356636|NCT02037984|184618333|OTHER|non-PT22F GMC Ratio (V114/Prevnar 13®)|non-PT22F GMC Ratio|68.64|||||TWO_SIDED|95.0|45.81|102.84||||||||102.84|45.81|
92356637|NCT02037984|184618333|OTHER|non-PT33F GMC Ratio (V114/Prevnar 13®)|non-PT33F GMC Ratio|20.03|||||TWO_SIDED|95.0|10.88|36.88||||||||36.88|10.88|
92356638|NCT02037984|184618337|OTHER|PT1 Percentage Point Difference (V114 - Prevnar 13®)|PT1 Percentage Point Difference|-3.2|||||TWO_SIDED|95.0|-16.3|6.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.5|-16.3|
92356639|NCT02037984|184618337|OTHER|PT3 Percentage Point Difference (V114 - Prevnar 13®)|PT3 Percentage Point Difference|14.6|||||TWO_SIDED|95.0|-4.1|32.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||32.5|-4.1|
92356640|NCT02037984|184618337|OTHER|PT4 Percentage Point Difference (V114 - Prevnar 13®)|PT4 Percentage Point Difference|-7.0|||||TWO_SIDED|95.0|-22.8|5.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||5.7|-22.8|
92356641|NCT02037984|184618337|OTHER|PT5 Percentage Point Difference (V114 - Prevnar 13®)|PT5 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
92356642|NCT02037984|184618337|OTHER|PT6A Percentage Point Difference (V114 - Prevnar 13®)|PT6A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
92356643|NCT02037984|184618337|OTHER|PT6B Percentage Point Difference (V114 - Prevnar 13®)|PT6B Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
92356644|NCT02037984|184618337|OTHER|PT7F Percentage Point Difference (V114 - Prevnar 13®)|PT7F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
92221018|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.21|-0.41|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.41|-1.21|<0.001
92221019|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.28|-0.48|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.48|-1.28|<0.001
92356645|NCT02037984|184618337|OTHER|PT9V Percentage Point Difference (V114 - Prevnar 13®)|PT9V Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
92162512|NCT00383188|184214404|SUPERIORITY||LSM Difference|-0.493|STANDARD_ERROR_OF_MEAN|1.038||0.6349|TWO_SIDED|95.0|-2.532|1.545|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.545|-2.532|0.6349
92356646|NCT02037984|184618337|OTHER|PT14 Percentage Point Difference (V114 - Prevnar 13®)|PT14 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
92356647|NCT02037984|184618337|OTHER|PT18C Percentage Point Difference (V114 - Prevnar 13®)|PT18C Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
92356648|NCT02037984|184618337|OTHER|PT19A Percentage Point Difference (V114 - Prevnar 13®)|PT19A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
92356649|NCT02037984|184618337|OTHER|PT19F Percentage Point Difference (V114 - Prevnar 13®)|PT19F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
92356650|NCT02037984|184618337|OTHER|PT23F Percentage Point Difference (V114 - Prevnar 13®)|PT23F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
92356651|NCT02037984|184618337|OTHER|non-PT22F Percentage Point Difference (V114 - Prevnar 13®)|non-PT22F Percentage Point Difference|89.2|||||TWO_SIDED|95.0|75.2|95.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||95.7|75.2|
92356652|NCT02037984|184618337|OTHER|non-PT33F Percentage Point Difference (V114 - Prevnar 13®)|non-PT33F Percentage Point Difference|97.3|||||TWO_SIDED|95.0|85.1|99.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||99.5|85.1|
92356653|NCT02037984|184618338|OTHER|PT1 Percentage Point Difference (V114 - Prevnar 13®)|PT1 Percentage Point Difference|-4.2|||||TWO_SIDED|95.0|-20.4|5.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||5.6|-20.4|
92162513|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.176|STANDARD_ERROR_OF_MEAN|0.88||0.1818|TWO_SIDED|95.0|-2.903|0.551|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.551|-2.903|0.1818
92356654|NCT02037984|184618338|OTHER|PT3 Percentage Point Difference (V114 - Prevnar 13®)|PT3 Percentage Point Difference|11.8|||||TWO_SIDED|95.0|-10.0|30.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||30.6|-10.0|
92356655|NCT02037984|184618338|OTHER|PT4 Percentage Point Difference (V114 - Prevnar 13®)|PT4 Percentage Point Difference|-1.6|||||TWO_SIDED|95.0|-18.8|10.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||10.3|-18.8|
92356656|NCT02037984|184618338|OTHER|PT5 Percentage Point Difference (V114 - Prevnar 13®)|PT5 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
92356657|NCT02037984|184618338|OTHER|PT6A Percentage Point Difference (V114 - Prevnar 13®)|PT6A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.5|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.5|
92221020|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.2||0.773|TWO_SIDED|95.0|-0.46|0.34|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.34|-0.46|0.773
92356658|NCT02037984|184618338|OTHER|PT6B Percentage Point Difference (V114 - Prevnar 13®)|PT6B Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.5|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.5|
92356659|NCT02037984|184618338|OTHER|PT7F Percentage Point Difference (V114 - Prevnar 13®)|PT7F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
92356660|NCT02037984|184618338|OTHER|PT9V Percentage Point Difference (V114 - Prevnar 13®)|PT9V Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
92356661|NCT02037984|184618338|OTHER|PT14 Percentage Point Difference (V114 - Prevnar 13®)|PT14 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
92356662|NCT02037984|184618338|OTHER|PT18C Percentage Point Difference (V114 - Prevnar 13®)|PT18C Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.5|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.5|
92356663|NCT02037984|184618338|OTHER|PT19A Percentage Point Difference (V114 - Prevnar 13®)|PT19A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
92356664|NCT02037984|184618338|OTHER|PT19F Percentage Point Difference (V114 - Prevnar 13®)|PT19F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
92356665|NCT02037984|184618338|OTHER|PT23F Percentage Point Difference (V114 - Prevnar 13®)|PT23F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
92356666|NCT02037984|184618338|OTHER|non-PT22F Percentage Point Difference (V114 - Prevnar 13®)|non-PT22F Percentage Point Difference|85.0|||||TWO_SIDED|95.0|65.8|93.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||93.6|65.8|
92162514|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.268|STANDARD_ERROR_OF_MEAN|0.862||0.1421|TWO_SIDED|95.0|-2.961|0.426|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.426|-2.961|0.1421
92356667|NCT02037984|184618338|OTHER|non-PT33F Percentage Point Difference (V114 - Prevnar 13®)|non-PT33F Percentage Point Difference|92.9|||||TWO_SIDED|95.0|75.1|98.1|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||98.1|75.1|
92356668|NCT02037984|184618339|OTHER|PT1 Percentage Point Difference (V114 - Prevnar 13®)|PT1 Percentage Point Difference|-3.0|||||TWO_SIDED|95.0|-15.5|6.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.7|-15.5|
92356669|NCT02037984|184618339|OTHER|PT3 Percentage Point Difference (V114 - Prevnar 13®)|PT3 Percentage Point Difference|24.3|||||TWO_SIDED|95.0|12.6|40.2|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||40.2|12.6|
92356670|NCT02037984|184618339|OTHER|PT4 Percentage Point Difference (V114 - Prevnar 13®)|PT4 Percentage Point Difference|2.7|||||TWO_SIDED|95.0|-8.0|14.0|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||14.0|-8.0|
92356671|NCT02037984|184618339|OTHER|PT5 Percentage Point Difference (V114 - Prevnar 13®)|PT5 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
92356672|NCT02037984|184618339|OTHER|PT6A Percentage Point Difference (V114 - Prevnar 13®)|PT6A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
92356673|NCT02037984|184618339|OTHER|PT6B Percentage Point Difference (V114 - Prevnar 13®)|PT6B Percentage Point Difference|-3.0|||||TWO_SIDED|95.0|-15.5|6.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.7|-15.5|
92356674|NCT02037984|184618339|OTHER|PT7F Percentage Point Difference (V114 - Prevnar 13®)|PT7F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
92356675|NCT02037984|184618339|OTHER|PT9V Percentage Point Difference (V114 - Prevnar 13®)|PT9V Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
92356676|NCT02037984|184618339|OTHER|PT14 Percentage Point Difference (V114 - Prevnar 13®)|PT14 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
92356677|NCT02037984|184618339|OTHER|PT18C Percentage Point Difference (V114 - Prevnar 13®)|PT18C Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
92356678|NCT02037984|184618339|OTHER|PT19A Percentage Point Difference (V114 - Prevnar 13®)|PT19A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
92356679|NCT02037984|184618339|OTHER|PT19F Percentage Point Difference (V114 - Prevnar 13®)|PT19F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
92356680|NCT02037984|184618339|OTHER|PT23F Percentage Point Difference (V114 - Prevnar 13®)|PT23F Percentage Point Difference|-3.0|||||TWO_SIDED|95.0|-15.5|6.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.7|-15.5|
92356681|NCT02037984|184618339|OTHER|non-PT22F Percentage Point Difference (V114 - Prevnar 13®)|non-PT22F Percentage Point Difference|89.2|||||TWO_SIDED|95.0|75.2|95.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||95.7|75.2|
92356682|NCT02037984|184618339|OTHER|non-PT33F Percentage Point Difference (V114 - Prevnar 13®)|non-PT33F Percentage Point Difference|97.3|||||TWO_SIDED|95.0|85.7|99.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||99.5|85.7|
92356683|NCT02037984|184618340|OTHER|PT1 Percentage Point Difference (V114 - Prevnar 13®)|PT1 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
92356684|NCT02037984|184618340|OTHER|PT3 Percentage Point Difference (V114 - Prevnar 13®)|PT3 Percentage Point Difference|18.4|||||TWO_SIDED|95.0|1.7|35.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||35.5|1.7|
92356685|NCT02037984|184618340|OTHER|PT4 Percentage Point Difference (V114 - Prevnar 13®)|PT4 Percentage Point Difference|-14.9|||||TWO_SIDED|95.0|-31.4|-1.2|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||-1.2|-31.4|
92356686|NCT02037984|184618340|OTHER|PT5 Percentage Point Difference (V114 - Prevnar 13®)|PT5 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
92356687|NCT02037984|184618340|OTHER|PT6A Percentage Point Difference (V114 - Prevnar 13®)|PT6A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
92356688|NCT02037984|184618340|OTHER|PT6B Percentage Point Difference (V114 - Prevnar 13®)|PT6B Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
92221021|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.035|TWO_SIDED|95.0|-0.78|-0.03|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.03|-0.78|0.035
92221022|NCT00876187|184342492|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.19||0.014|TWO_SIDED|95.0|-0.85|-0.1|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.10|-0.85|0.014
92162515|NCT00383188|184214404|SUPERIORITY||LSM Difference|-0.898|STANDARD_ERROR_OF_MEAN|1.006||0.3726|TWO_SIDED|95.0|-2.874|1.078|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.078|-2.874|0.3726
92162516|NCT00383188|184214404|SUPERIORITY||LSM Difference|-0.701|STANDARD_ERROR_OF_MEAN|1.038||0.4995|TWO_SIDED|95.0|-2.739|1.337|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.337|-2.739|0.4995
92162517|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.601|STANDARD_ERROR_OF_MEAN|0.879||0.0691|TWO_SIDED|95.0|-3.327|0.126|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.126|-3.327|0.0691
92356689|NCT02037984|184618340|OTHER|PT7F Percentage Point Difference (V114 - Prevnar 13®)|PT7F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
92356690|NCT02037984|184618340|OTHER|PT9V Percentage Point Difference (V114 - Prevnar 13®)|PT9V Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
92356691|NCT02037984|184618340|OTHER|PT14 Percentage Point Difference (V114 - Prevnar 13®)|PT14 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
92356692|NCT02037984|184618340|OTHER|PT18C Percentage Point Difference (V114 - Prevnar 13®)|PT18C Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
92356693|NCT02037984|184618340|OTHER|PT19A Percentage Point Difference (V114 - Prevnar 13®)|PT19A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
92356694|NCT02037984|184618340|OTHER|PT19F Percentage Point Difference (V114 - Prevnar 13®)|PT19F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
92162518|NCT00383188|184214404|SUPERIORITY||LSM Difference|-1.086|STANDARD_ERROR_OF_MEAN|0.862||0.2083|TWO_SIDED|95.0|-2.778|0.607|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.607|-2.778|0.2083
92356695|NCT02037984|184618340|OTHER|PT23F Percentage Point Difference (V114 - Prevnar 13®)|PT23F Percentage Point Difference|-5.9|||||TWO_SIDED|95.0|-19.2|3.9|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||3.9|-19.2|
92356696|NCT02037984|184618340|OTHER|non-PT22F Percentage Point Difference (V114 - Prevnar 13®)|non-PT22F Percentage Point Difference|89.2|||||TWO_SIDED|95.0|75.2|95.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||95.7|75.2|
92356697|NCT02037984|184618340|OTHER|non-PT33F Percentage Point Difference (V114 - Prevnar 13®)|non-PT33F Percentage Point Difference|97.3|||||TWO_SIDED|95.0|85.9|99.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||99.5|85.9|
92162519|NCT00383188|184214404|SUPERIORITY||LSM Difference|-0.836|STANDARD_ERROR_OF_MEAN|1.006||0.4063|TWO_SIDED|95.0|-2.811|1.139|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.139|-2.811|0.4063
92221023|NCT05074251|184342525|SUPERIORITY||Risk Ratio (RR)|1.41|||<|0.05|TWO_SIDED|95.0|1.14|1.75|||Regression, Logistic|||||1.75|1.14|<0.05
92221024|NCT05112536|184342562|OTHER|||||||0.101|||||||Wilcoxon signed-rank test|||||||0.101
92221025|NCT03972969|184342567|SUPERIORITY||Incidence Rate Ratio|0.13|||<|0.05|TWO_SIDED|95.0|0.05|0.32|||negative binomial regression|||||0.32|0.05|<0.05
92221026|NCT03972969|184342567|SUPERIORITY||Incidence Rate Ratio|0.25|||<|0.05|TWO_SIDED|95.0|0.1|0.61|||negative binomial regression|||||0.61|0.10|<0.05
92221027|NCT03972969|184342567|SUPERIORITY||Incidence Rate Ratio|0.52|||<|0.05|TWO_SIDED|95.0|0.19|1.38|||negative binomial regression|||||1.38|0.19|<0.05
92221028|NCT03972969|184342568|SUPERIORITY||Incidence Rate Ratio|0.15|||<|0.05|TWO_SIDED|95.0|0.07|0.33|||negative binomial regression|||||0.33|0.07|<0.05
92356698|NCT02037984|184618341|OTHER|PT1 Percentage Point Difference (V114 - Prevnar 13®)|PT1 Percentage Point Difference|-3.4|||||TWO_SIDED|95.0|-17.3|6.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.3|-17.3|
92356699|NCT02037984|184618341|OTHER|PT3 Percentage Point Difference (V114 - Prevnar 13®)|PT3 Percentage Point Difference|14.0|||||TWO_SIDED|95.0|-5.5|32.0|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||32.0|-5.5|
92356700|NCT02037984|184618341|OTHER|PT4 Percentage Point Difference (V114 - Prevnar 13®)|PT4 Percentage Point Difference|-7.6|||||TWO_SIDED|95.0|-24.2|5.2|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||5.2|-24.2|
92356701|NCT02037984|184618341|OTHER|PT5 Percentage Point Difference (V114 - Prevnar 13®)|PT5 Percentage Point Difference|-3.4|||||TWO_SIDED|95.0|-17.3|6.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.3|-17.3|
92356702|NCT02037984|184618341|OTHER|PT6A Percentage Point Difference (V114 - Prevnar 13®)|PT6A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.9|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.9|
92221029|NCT03972969|184342568|SUPERIORITY||Incidence Rate Ratio|0.26|||<|0.05|TWO_SIDED|95.0|0.11|0.58|||negative binomial regression|||||0.58|0.11|<0.05
92356703|NCT02037984|184618341|OTHER|PT6B Percentage Point Difference (V114 - Prevnar 13®)|PT6B Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.9|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.9|
92356704|NCT02037984|184618341|OTHER|PT7F Percentage Point Difference (V114 - Prevnar 13®)|PT7F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.9|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.9|
92401393|NCT00385671|184694183|SUPERIORITY_OR_OTHER|||||||0.905||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of Participants with a ≥ 2-points reduction on the weekly average of the daily 24-hour average pain scale at 12 Weeks.||||0.905
92401394|NCT00385671|184694183|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of Participants with a ≥ 2-points reduction on the weekly average of the daily 24-hour average pain scale at 12 Weeks.||||0.368
92401395|NCT00385671|184694183|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of Participants with a ≥ 2-points reduction on the weekly average of the daily 24-hour average pain scale at 12 Weeks.||||0.200
92401396|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.572||95.0||||P-value is for GTS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ GTS scores.||||0.572
92401397|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.345||95.0||||P-value is for GTS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 weeks in LSEQ GTS scores.||||0.345
92401398|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.699||95.0||||P-value is for GTS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ GTS scores.||||0.699
92162520|NCT00383188|184214404|SUPERIORITY||LSM Difference|-0.196|STANDARD_ERROR_OF_MEAN|1.038||0.8501|TWO_SIDED|95.0|-2.234|1.841|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.841|-2.234|0.8501
92162521|NCT00383188|184214404|SUPERIORITY||LSM Difference|0.376|STANDARD_ERROR_OF_MEAN|0.904||0.6778|TWO_SIDED|95.0|-1.399|2.15|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||2.150|-1.399|0.6778
92162522|NCT00383188|184214404|SUPERIORITY||LSM Difference|0.508|STANDARD_ERROR_OF_MEAN|0.877||0.5627|TWO_SIDED|95.0|-1.214|2.23|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||2.230|-1.214|0.5627
92162523|NCT00383188|184214404|SUPERIORITY||LSM Difference|0.537|STANDARD_ERROR_OF_MEAN|1.038||0.6049|TWO_SIDED|95.0|-1.501|2.576|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||2.576|-1.501|0.6049
92221030|NCT03972969|184342568|SUPERIORITY||Incidence Rate Ratio|0.58|||<|0.05|TWO_SIDED|95.0|0.25|1.38|||negative binomial regression|||||1.38|0.25|<0.05
92356705|NCT02037984|184618341|OTHER|PT9V Percentage Point Difference (V114 - Prevnar 13®)|PT9V Percentage Point Difference|-3.4|||||TWO_SIDED|95.0|-17.3|6.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.3|-17.3|
92221031|NCT02459795|184342571|EQUIVALENCE|provides 85% power of success|Equivalence ratio|1.0|||||TWO_SIDED|90.0|-7.0|12.92|||Yates correction|||||12.92|-7.00|
92221032|NCT03259074|184342574|SUPERIORITY||Marginal difference|1.51||||0.7164|TWO_SIDED|95.0|-6.63|9.64||Logistic regression model with treatment as a factor and baseline mSASSS score as a covariate using marginal standardization method.|Regression, Logistic|||||9.64|-6.63|0.7164
92356706|NCT02037984|184618341|OTHER|PT14 Percentage Point Difference (V114 - Prevnar 13®)|PT14 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.9|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.9|
92356707|NCT02037984|184618341|OTHER|PT18C Percentage Point Difference (V114 - Prevnar 13®)|PT18C Percentage Point Difference|-3.4|||||TWO_SIDED|95.0|-17.3|6.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.3|-17.3|
92356708|NCT02037984|184618341|OTHER|PT19A Percentage Point Difference (V114 - Prevnar 13®)|PT19A Percentage Point Difference|-6.9|||||TWO_SIDED|95.0|-22.1|3.0|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||3.0|-22.1|
92356709|NCT02037984|184618341|OTHER|PT19F Percentage Point Difference (V114 - Prevnar 13®)|PT19F Percentage Point Difference|-3.4|||||TWO_SIDED|95.0|-17.3|6.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.3|-17.3|
92356710|NCT02037984|184618341|OTHER|PT23F Percentage Point Difference (V114 - Prevnar 13®)|PT23F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.9|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.9|
92162524|NCT00383188|184214404|SUPERIORITY||LSM Difference|0.51|STANDARD_ERROR_OF_MEAN|1.068||0.6332|TWO_SIDED|95.0|-1.587|2.608|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||2.608|-1.587|0.6332
92162525|NCT00383188|184214405|SUPERIORITY||LSM Difference|-2.802|STANDARD_ERROR_OF_MEAN|4.098||0.4943|TWO_SIDED|95.0|-10.85|5.243|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||5.243|-10.85|0.4943
92356711|NCT02037984|184618341|OTHER|non-PT22F Percentage Point Difference (V114 - Prevnar 13®)|non-PT22F Percentage Point Difference|89.2|||||TWO_SIDED|95.0|75.2|95.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||95.7|75.2|
92356712|NCT02037984|184618341|OTHER|non-PT33F Percentage Point Difference (V114 - Prevnar 13®)|non-PT33F Percentage Point Difference|93.8|||||TWO_SIDED|95.0|78.5|98.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||98.3|78.5|
92356713|NCT04924608|184618361|SUPERIORITY|||||||0.0112|||||||Fisher Exact|The ORR will be compared at the end of Cycle 16 between selumetinib vs placebo with the 2-sided significance level 0.047.||||||0.0112
92356714|NCT04924608|184618362|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.41||0.07|TWO_SIDED|95.0|-1.6|0.1|||Mixed Models Analysis|Analysis is based on a MMRM model for repeated measures, Kenward-Roger method is used to estimate the degrees of freedom.||||0.1|-1.6|0.070
92356715|NCT04924608|184618363|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.024|TWO_SIDED|95.0|-1.3|-0.1||nominal|Mixed Models Analysis|Analysis is based on a MMRM model for repeated measures, Kenward-Roger method is used to estimate the degrees of freedom.||supplementary analysis is not controlled for multiplicity.||-0.1|-1.3|0.024
92356716|NCT04924608|184618364|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.59||0.918|TWO_SIDED|95.0|-1.2|1.1|||Mixed Models Analysis|Analysis is based on a MMRM model for repeated measures, Kenward-Roger method is used to estimate the degrees of freedom.||||1.1|-1.2|0.918
92356717|NCT04975230|184618443|OTHER||Cohen's D|0.17|STANDARD_ERROR_OF_MEAN|0.17||0.0227|TWO_SIDED|95.0|-0.37|0.78|||Mixed Models Analysis|||||0.78|-0.37|0.0227
92356718|NCT03163667|184618598|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.07905|TWO_SIDED|95.0|0.34|1.2||One-sided p-value comparing the treatment groups was based on a stratified log-rank test with alternative hypothesis of survival functions being not equal.|Log Rank||Hazard ratio comparing treatment groups (experimental over control) is based on a Cox proportional hazards model. A hazard ratio \< 1 favors CB-839+Everolimus (CBE), and a hazard ratio \> 1 favors Placebo+Everolimus (PboE).|Stratified analysis. Stratification factors were Memorial Sloan Kettering Cancer Center (MSKCC) Prognostic Risk (favorable versus intermediate/poor risk) and number of prior therapies with a tyrosine kinase inhibitor (TKI; 1 versus \> 1). Due to stratification cells having \< 10 events, TKI stratification factor was removed for analysis.||1.20|0.34|0.07905
92356719|NCT03163667|184618598|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.1184|TWO_SIDED|95.0|0.37|1.28||One-sided p-value comparing the treatment groups was based on an unstratified log-rank test with alternative hypothesis of survival functions being not equal.|Log Rank||Hazard ratio comparing treatment groups (experimental over control) is based on a Cox proportional hazards model. A hazard ratio \< 1 favors CBE, and a hazard ratio \> 1 favors PboE.|Unstratified analysis||1.28|0.37|0.1184
92356720|NCT03163667|184618599|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.4801|TWO_SIDED|95.0|0.42|1.5||P-value comparing the treatment groups is based on a stratified log-rank test with alternative hypothesis of survival functions being not equal.|Log Rank||Hazard ratio based on a Cox proportional hazards model. A hazard ratio \< 1 favors CBE, and a hazard ratio \> 1 favors PboE.|Stratified analysis: Stratification factors are MSKCC Prognostic Risk (favorable vs intermediate/poor risk) and number of prior therapies with a TKI (1 vs \> 1). Due to stratification cells having \< 10 events, TKI stratification factor was removed for analysis.||1.50|0.42|0.4801
92356721|NCT03163667|184618599|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.5603|TWO_SIDED|95.0|0.44|1.56||P-value comparing the treatment groups is based on an unstratified log-rank test with alternative hypothesis of survival functions being not equal.|Log Rank||Hazard ratio comparing treatment groups (experimental over control) is based on a Cox proportional hazards model. A hazard ratio \< 1 favors CBE, and a hazard ratio \> 1 favors PboE.|Unstratified analysis||1.56|0.44|0.5603
92356722|NCT01302834|184618639|NON_INFERIORITY|The non-inferiority margin was set at 1.45 (hazard ratio scale; IMRT + Cetuximab / IMRT + Cisplatin). If the upper limit of the 95% confidence interval was \<1.45, non-inferiority would be concluded. Design was based on a group sequential design with 3 interim analyses, one-sided 0.05, and 80% power.|Hazard Ratio (HR)|1.45|||||ONE_SIDED|95.0||1.94|||||Reference level = IMRT + Cisplatin|||1.94||
92356723|NCT01302834|184618640|SUPERIORITY||Hazard Ratio (HR)|1.72||||0.0002|TWO_SIDED|95.0|1.29|2.29|||Log Rank|Two-sided significance level = 0.05|Reference level = IMRT + Cisplatin|||2.29|1.29|0.0002
92356724|NCT01302834|184618641|SUPERIORITY||Hazard Ratio (HR)|2.05||||0.0005|TWO_SIDED|95.0|1.35|3.1|||Log Rank|Two-sided significance level = 0.05|Reference level = IMRT + Cisplatin|||3.10|1.35|0.0005
92356725|NCT01302834|184618642|SUPERIORITY||Hazard Ratio (HR)|1.49||||0.09|TWO_SIDED|95.0|0.94|2.36||Two-sided significance level = 0.05|Log Rank||Reference level = IMRT + Cisplatin|||2.36|0.94|0.09
92356726|NCT01302834|184618643|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.95|TWO_SIDED|95.0|0.61|1.58||Two-sided significance level = 0.05|Log Rank||Reference level = IMRT + Cisplatin|||1.58|0.61|0.95
92401399|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.954||95.0||||P-value is for QOS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ QOS scores.||||0.954
92401400|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.734||95.0||||P-value is for QOS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in LSEQ QOS scores.||||0.734
92401401|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.693||95.0||||P-value is for QOS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ QOS.||||0.693
92162526|NCT00383188|184214405|SUPERIORITY||LSM Difference|-10.19|STANDARD_ERROR_OF_MEAN|4.026||0.0116|TWO_SIDED|95.0|-18.09|-2.283|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-2.283|-18.09|0.0116
92356727|NCT01302834|184618645|SUPERIORITY|||||||1||||||Two-sided significance level = 0.05|Fisher Exact|||||||1.0
92356728|NCT01302834|184618653|SUPERIORITY|||||||0.79||||||Two-sided significance level = 0.05|Fisher Exact|||||||0.79
92356729|NCT01302834|184618656|SUPERIORITY|||||||0.5438||||||One-sided significance level = 0.05|t-test, 1 sided|||||||0.5438
92356730|NCT01302834|184618660|SUPERIORITY|||||||0.7108||||||One-sided significance level = 0.05|t-test, 1 sided|||||||0.7108
92356731|NCT01302834|184618675|SUPERIORITY||Cox Proportional Hazard|0.87||||0.2571|TWO_SIDED|95.0|0.56|1.34||One-sided significance level = 0.025.|Regression, Cox|Stratified by treatment arm.|Reference level = non-variant|||1.34|0.56|0.2571
92356732|NCT01302834|184618676|SUPERIORITY||Cox Proportional Hazard|0.94||||0.3704|TWO_SIDED|95.0|0.64|1.38||One-sided significance level = 0.05.|Regression, Cox|Stratified by treatment arm.|Reference level = non-variant|||1.38|0.64|0.3704
92356733|NCT01302834|184618677|SUPERIORITY||Cox Proportional Hazard|1.1|||||TWO_SIDED|95.0|0.49|2.46|||||Reference level = IMRT + Cisplatin|Variant||2.46|0.49|
92356734|NCT01302834|184618677|SUPERIORITY||Cox Proportional Hazard|1.1||||||95.0|0.79|1.53|||||Reference level = IMRT + Cisplatin|Non-variant||1.53|0.79|
92356735|NCT01302834|184618677|OTHER|||||||0.989||||||Two-sided significance level = 0.05|Regression, Cox|||Testing Cox proportional hazards model interaction term for KRAS variant status and treatment arm.||||0.9890
92356736|NCT01302834|184618678|SUPERIORITY||Cox Proportional Hazard|1.01||||||95.0|0.5|2.04|||||Reference level = IMRT + Cisplatin|Variant||2.04|0.50|
92162527|NCT00383188|184214405|SUPERIORITY||LSM Difference|-12.73|STANDARD_ERROR_OF_MEAN|4.71||0.007|TWO_SIDED|95.0|-21.98|-3.485|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-3.485|-21.98|0.0070
92162528|NCT00383188|184214405|SUPERIORITY||LSM Difference|-11.14|STANDARD_ERROR_OF_MEAN|4.812||0.0209|TWO_SIDED|95.0|-20.58|-1.688|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-1.688|-20.58|0.0209
92356737|NCT01302834|184618678|SUPERIORITY||Cox Proportional Hazard|1.27|||||TWO_SIDED|95.0|0.94|1.73|||||Reference level = IMRT + Cisplatin|Non-variant||1.73|0.94|
92356738|NCT01302834|184618678|OTHER|||||||0.5556||||||Two-sided significance level = 0.05|Regression, Cox|||Testing Cox proportional hazards model interaction term for KRAS variant status and treatment arm.||||0.5556
92356739|NCT05213624|184618685|OTHER||Odds Ratio (OR)|10.0|||||TWO_SIDED|95.0|1.59|118.14|||||BI 764198 (comparator) vs. Placebo (reference)|Logistic regression utilizing corticosteroid use at randomization and baseline 24-hr UPCR as covariates.||118.14|1.59|
92356740|NCT05213624|184618685|OTHER||Odds Ratio (OR)|1.53|||||TWO_SIDED|95.0|0.16|19.48|||||BI 764198 (comparator) vs. Placebo (reference)|Logistic regression utilizing corticosteroid use at randomization and baseline 24-hr UPCR as covariates.||19.48|0.16|
92356741|NCT05213624|184618685|OTHER||Odds Ratio (OR)|5.97|||||TWO_SIDED|95.0|0.86|73.57|||||BI 764198 (comparator) vs. Placebo (reference)|Logistic regression utilizing corticosteroid use at randomization and baseline 24-hr UPCR as covariates.||73.57|0.86|
92356742|NCT05213624|184618686|OTHER||Relative difference|-39.82||||0.0024|TWO_SIDED|95.0|-56.17|-17.36||Nominal and unadjusted|ANCOVA||"Comparison vs Placebo~Calculated as (exp(difference of least square means) - 1) \* 100."|An analysis of covariance (ANCOVA) model was used to estimate the change in UPCR from baseline to Week 12 with corticosteroid use at randomization and baseline 24-hr UPCR as covariates.||-17.36|-56.17|0.0024
92356743|NCT05213624|184618686|OTHER||Relative difference|-4.57||||0.7906|TWO_SIDED|95.0|-32.92|35.77||Nominal and unadjusted|ANCOVA||"Comparison vs Placebo~Calculated as (exp(difference of least square means) - 1) \* 100."|An analysis of covariance (ANCOVA) model was used to estimate the change in UPCR from baseline to Week 12 with corticosteroid use at randomization and baseline 24-hr UPCR as covariates.||35.77|-32.92|0.7906
92356744|NCT05213624|184618686|OTHER||Relative difference|-23.27||||0.1325|TWO_SIDED|95.0|-45.83|8.7||Nominal and unadjusted|ANCOVA||"Comparison vs Placebo~Calculated as (exp(difference of least square means) - 1) \* 100."|An analysis of covariance (ANCOVA) model was used to estimate the change in UPCR from baseline to Week 12 with corticosteroid use at randomization and baseline 24-hr UPCR as covariates.||8.70|-45.83|0.1325
92356745|NCT01602380|184618691|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.797||||0.0486|TWO_SIDED|95.0|0.637|0.999||2-sided p-value|Log Rank|Stratified log-rank test with factors for prior chemotherapy for locally advanced or metastatic disease and measurable disease at baseline.|A hazard ratio \< 1 favours fulvestrant.|If the true PFS HR for comparison of fulvestrant vs. anastrozole was 0.69 (likely to correspond to a 45% prolongation of PFS) the study had 90% power to demonstrate a statistically significant difference for PFS with a one-sided type 1 error of 2.5% (two-sided 5%).||0.999|0.637|0.0486
92221033|NCT03259074|184342574|SUPERIORITY||Marginal difference|1.67||||0.6925|TWO_SIDED|95.0|-6.61|9.95|||Regression, Logistic|Logistic regression model with treatment as a factor and baseline mSASSS score as a covariate using marginal standardization method.||||9.95|-6.61|0.6925
92221034|NCT03259074|184342575|SUPERIORITY|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|LS mean difference|-0.18|||||TWO_SIDED|95.0|-0.646|0.293|||||ANCOVA model with treatment as a factor and baseline mSASSS score as a covariate.|||0.293|-0.646|
92221035|NCT03259074|184342575|SUPERIORITY|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|LS mean difference|-0.16|||||TWO_SIDED|95.0|-0.639|0.315|||||ANCOVA model with treatment as a factor and baseline mSASSS score as a covariate.|||0.315|-0.639|
92221036|NCT03259074|184342576|SUPERIORITY|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|Marginal difference|4.32|||||TWO_SIDED|95.0|-5.62|14.27|||||Logistic regression model with treatment as a factor and baseline count of vertebral corners with syndesmophyte as a covariate using marginal standardization method.|||14.27|-5.62|
92221037|NCT03259074|184342576|SUPERIORITY|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|Marginal difference|1.09|||||TWO_SIDED|95.0|-9.13|11.31|||||Logistic regression model with treatment as a factor and baseline count of vertebral corners with syndesmophyte as a covariate using marginal standardization method.|||11.31|-9.13|
92221038|NCT03259074|184342577|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|LS Means|0.183|STANDARD_ERROR_OF_MEAN|0.1517|||TWO_SIDED|95.0|-0.12|0.48|||||LS Means and 95% CI are from an ANCOVA model with treatment as a factor, baseline Berlin SI joint edema score as a covariate.|Week 104 - 150 mg||0.48|-0.12|
92221039|NCT03259074|184342577|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented|LS Means|0.332|STANDARD_ERROR_OF_MEAN|0.1545|||TWO_SIDED|95.0|0.03|0.64|||||LS Means and 95% CI are from an ANCOVA model with treatment as a factor, baseline Berlin SI joint edema score as a covariate.|Week 104 - 300 mg||0.64|0.03|
92356746|NCT01602380|184618692|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.966||||0.7579|TWO_SIDED|95.0|0.773|1.206||2-sided p-value|Log Rank|Stratified log-rank test with factors for prior chemotherapy for locally advanced or metastatic disease and measurable disease at baseline.|A HR of \<1 favours fulvestrant.|65% OS maturity||1.206|0.773|0.7579
92356747|NCT01602380|184618693|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.074||||0.729|TWO_SIDED|95.0|0.716|1.614||2-sided p-value|Regression, Logistic|||||1.614|0.716|0.7290
92356748|NCT01602380|184618695|SUPERIORITY_OR_OTHER_LEGACY||Rato of EDoR|1.52||||0.0367|TWO_SIDED|95.0|1.03|2.26||2-sided p-value|Method of Ellis et al|||||2.26|1.03|0.0367
92356749|NCT01602380|184618696|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.253||||0.3045|TWO_SIDED|95.0|0.815|1.932||2-sided p-value|Regression, Logistic|||||1.932|0.815|0.3045
92356750|NCT01602380|184618698|SUPERIORITY_OR_OTHER_LEGACY||Ratio of EDoCB|1.26||||0.0561||95.0|0.99|1.59||2-sided p-value|Method of Ellis et al|||||1.59|0.99|0.0561
92221040|NCT03259074|184342578|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|LS Means|0.877|STANDARD_ERROR_OF_MEAN|0.3316|||TWO_SIDED|95.0|0.22|1.53|||||LS Means and 95% CI are from an ANCOVA model with treatment as a factor, baseline Berlin SI joint edema score as a covariate.|Week 104 - 150 mg||1.53|0.22|
92221041|NCT03259074|184342578|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented|LS Means|0.419|STANDARD_ERROR_OF_MEAN|0.3357|||TWO_SIDED|95.0|-0.24|1.08|||||LS Means and 95% CI are from an ANCOVA model with treatment as a factor, baseline Berlin SI joint edema score as a covariate.|Week 104 - 300 mg||1.08|-0.24|
92221042|NCT03259074|184342579|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|Marginal difference|1.54|||||TWO_SIDED|95.0|-5.1|8.18|||||Estimated mean, marginal difference and 95% confidence interval are from a logistic regression model with treatment as a factor using marginal standardization method|||8.18|-5.10|
92221043|NCT03259074|184342580|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|Marginal difference|-2.34|||||TWO_SIDED|95.0|-10.18|5.51|||||Estimated mean, marginal difference and 95% confidence interval are from a logistic regression model with treatment as a factor using marginal standardization method.|||5.51|-10.18|
92221044|NCT03259074|184342581|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented|Marginal difference|2.18|||||TWO_SIDED|95.0|-5.34|9.69|||Marginal difference||Estimated mean, marginal difference and 95% confidence interval are from a logistic regression model with treatment as a factor using marginal standardization method|||9.69|-5.34|
92221045|NCT03259074|184342582|OTHER||Marginal difference|0.33|||||TWO_SIDED|95.0|-7.08|7.74||Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|||Estimated mean, marginal difference and 95% confidence interval are from a logistic regression model with treatment as a factor using marginal standardization method|||7.74|-7.08|
92356751|NCT01602380|184618699|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.2846|TWO_SIDED|95.0|0.7|1.11||2-sided p-value|Log Rank|Stratified log-rank test with factors for prior chemotherapy for locally advanced/metastatic disease and measurable/non-measurable disease at baseline|A hazard ratio \< 1 favours fulvestrant.|Comparative statistical analysis for time to deterioration of TOI score is presented (fulvestrant versus anastrozole).||1.11|0.70|0.2846
92369482|NCT00281099|184643809|SUPERIORITY_OR_OTHER||Difference in Annualized Rates|-0.015||||||95.0|-0.015|0.033|||Bootstrap Confidence Interval|||A 95% one-sided bootstrap confidence interval was generated for the MVP - VVI 40 difference in annualized rates of true VT/VF per patient month. If the interval upper bound was less than 0, the null hypothesis of equal rates would be rejected.||0.033|-0.015|
92356752|NCT01602380|184618699|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.0844|TWO_SIDED|95.0|0.66|1.03||2-sided p-value|Log Rank|Stratified log-rank test with factors for prior chemotherapy for locally advanced/metastatic disease and measurable/non-measurable disease at baseline|A hazard ratio \< 1 favours fulvestrant.|Comparative statistical analysis for time to deterioration of FACT-B total score is presented (fulvestrant versus anastrozole).||1.03|0.66|0.0844
92356753|NCT03369704|184618726|OTHER||Least Square Mean|-1.03|STANDARD_ERROR_OF_MEAN|0.209|<|0.001|TWO_SIDED|95.0|-1.44|-0.62||"H0: Omalizumab is not different to placebo with respect to mean nasal symptom score over the severe symptom period.~H1: Omalizumab is different to placebo with respect to mean nasal symptom score over the severe symptom period."|ANCOVA||nasal symptom score|||-0.62|-1.44|<0.001
92356754|NCT03369704|184618727|OTHER||ANCOVA|-1.89|STANDARD_ERROR_OF_MEAN|0.331|||TWO_SIDED|95.0|-2.55|-1.24|||||Nasal Ocular Symptom|||-1.24|-2.55|
92356755|NCT03369704|184618727|OTHER||ANCOVA|-0.87|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|95.0|-1.18|-0.55|||||Ocular symptom|||-0.55|-1.18|
92356756|NCT03369704|184618728|OTHER||ANCOVA|-1.1|STANDARD_ERROR_OF_MEAN|0.229|||TWO_SIDED|95.0|-1.55|-0.64|||||nasal symptom medication score|||-0.64|-1.55|
92356757|NCT03369704|184618728|OTHER||ANCOVA|-0.95|STANDARD_ERROR_OF_MEAN|0.189|||TWO_SIDED|95.0|-1.32|-0.58|||||ocular symptom medication score|||-0.58|-1.32|
92356758|NCT03369704|184618728|OTHER||ANCOVA|-2.05|STANDARD_ERROR_OF_MEAN|0.375|||TWO_SIDED|95.0|-2.78|-1.31|||||nasal ocular symptom medication score|||-1.31|-2.78|
92356759|NCT03369704|184618729|OTHER||ANCOVA|-0.4|STANDARD_ERROR_OF_MEAN|0.073|||TWO_SIDED|95.0|-0.54|-0.26|||||sneezing score|||-0.26|-0.54|
92356760|NCT03369704|184618729|OTHER||ANCOVA|-0.34|STANDARD_ERROR_OF_MEAN|0.088|||TWO_SIDED|95.0|-0.51|-0.16|||||rhinorrhea score|||-0.16|-0.51|
92356761|NCT03369704|184618729|OTHER||ANCOVA|-0.29|STANDARD_ERROR_OF_MEAN|0.081|||TWO_SIDED|95.0|-0.45|-0.13|||||nasal congestion score|||-0.13|-0.45|
92356762|NCT03369704|184618730|OTHER||ANCOVA|-0.47|STANDARD_ERROR_OF_MEAN|0.084|||TWO_SIDED|95.0|-0.63|-0.3|||||itchy eye score|||-0.30|-0.63|
92356763|NCT03369704|184618730|OTHER||ANCOVA|-0.4|STANDARD_ERROR_OF_MEAN|0.087|||TWO_SIDED|95.0|-0.57|-0.23|||||watery eye score|||-0.23|-0.57|
92356764|NCT03369704|184618731|OTHER||ANCOVA|-0.34|STANDARD_ERROR_OF_MEAN|0.072|||TWO_SIDED|95.0|-0.48|-0.2|||||score for impairment of daily activities|||-0.20|-0.48|
92356765|NCT03369704|184618732|OTHER||Hodges-Lehmann Estimate|3.0|STANDARD_ERROR_OF_MEAN|1.02||0.005|TWO_SIDED|95.0|1.0|5.0|||van Elteren test||Nasal symptom free days|||5.0|1.0|0.005
92356766|NCT03369704|184618732|OTHER||Hodges-Lehmann Estimate|4.0|STANDARD_ERROR_OF_MEAN|1.15|<|0.001|TWO_SIDED|95.0|2.0|6.5|||van Elteren test||Ocular symptom free days|||6.5|2.0|<0.001
92401402|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||P-value is for AFS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ AFS scores.||||0.720
92356767|NCT03369704|184618733|OTHER||Odds Ratio (OR)|3.43||||0.005|TWO_SIDED|95.0|1.21|9.75|||logistic regression||Completely nasal symptom free patients|||9.75|1.21|0.005
92356768|NCT03369704|184618734|OTHER||ANCOVA|-0.08|STANDARD_ERROR_OF_MEAN|0.033|||TWO_SIDED|95.0|-0.14|-0.01|||||Nasal rescue mediation score|||-0.01|-0.14|
92356769|NCT03369704|184618734|OTHER||ANCOVA|-0.08|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-0.16|0.0|||||Ocular rescue medication score|||0.00|-0.16|
92356770|NCT03369704|184618734|OTHER||ANCOVA|-0.16|STANDARD_ERROR_OF_MEAN|0.063|||TWO_SIDED|95.0|-0.28|-0.04|||||Nasal ocular rescue medication score|||-0.04|-0.28|
92356771|NCT03369704|184618735|OTHER||Hodges-Lehmann Estimate|1.5|STANDARD_ERROR_OF_MEAN|0.89||0.011|TWO_SIDED|95.0|0.0|3.5|||van Elteren test||Nasal rescue mediation free days|||3.5|0.0|0.011
92356772|NCT03369704|184618735|OTHER||Hodges-Lehmann Estimate|2.0|STANDARD_ERROR_OF_MEAN|1.21||0.074|TWO_SIDED|95.0|0.0|4.8|||van Elteren test||Ocular rescue medication free days|||4.8|0.0|0.074
92356773|NCT03369704|184618735|OTHER||Hodges-Lehmann Estimate|1.8|STANDARD_ERROR_OF_MEAN|1.02||0.098|TWO_SIDED|95.0|0.0|4.0|||van Elteren test||Nasal ocular rescue medication free days|||4.0|0.0|0.098
92356774|NCT03369704|184618736|OTHER||Hodges-Lehmann Estimate|-2.0|STANDARD_ERROR_OF_MEAN|1.15||0.006|TWO_SIDED|95.0|-4.5|0.0|||van Elteren test||Nasal rescue mediation used|||0.0|-4.5|0.006
92356775|NCT03369704|184618736|OTHER||Hodges-Lehmann Estimate|-7.0|STANDARD_ERROR_OF_MEAN|2.81||0.012|TWO_SIDED|95.0|-12.0|-1.0|||van Elteren test||Ocular rescue medication used|||-1.0|-12.0|0.012
92356776|NCT03369704|184618737|OTHER||ANCOVA|-0.5|STANDARD_ERROR_OF_MEAN|0.086|||TWO_SIDED|95.0|-0.66|-0.33|||||JRQLQ I|||-0.33|-0.66|
92356777|NCT03369704|184618737|OTHER||ANCOVA|-0.51|STANDARD_ERROR_OF_MEAN|0.093|||TWO_SIDED|95.0|-0.69|-0.33|||||JRQLQ II|||-0.33|-0.69|
92356778|NCT03369704|184618737|OTHER||ANCOVA|-0.6|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.8|-0.4|||||JRQLQ III|||-0.4|-0.8|
92356779|NCT06401551|184618741|NON_INFERIORITY|Study success will be concluded if the upper bound of the one-sided 95.1% confidence interval does not exceed the noninferiority margin of 0.1 logMAR.|Difference in Means|-0.026|STANDARD_ERROR_OF_MEAN|0.0123|||ONE_SIDED|95.1||-0.0055||The upper boundary of the confidence interval is reported instead of a p-value.|t-test, 1 sided|The upper bound of the one-sided 95.1% confidence limit will be compared to the margin, 0.10 logMAR.|Difference in Means = CPO Pro IOL minus CPO|||-0.0055||
92356780|NCT04153149|184618742|SUPERIORITY||Hazard Ratio (HR)|0.718|||=|0.0118|TWO_SIDED|95.0|0.555|0.929|||Modified Andersen-Gill Model|||Analysis done using a modified Andersen-Gill model with a robust variance. The model included treatment group, ATTR amyloidosis disease type, New York Heart Association (NYHA) class, age group, and log-transformed baseline N-terminal pro-B-type natriuretic peptide (NT-proBNP) as covariates.||0.929|0.555|=0.0118
92356781|NCT04153149|184618743|SUPERIORITY||Hazard Ratio (HR)|0.672|||=|0.0162|TWO_SIDED|95.0|0.487|0.929|||Modified Andersen-Gill Model|||Analysis done using a modified Andersen-Gill model with a robust variance. The model included treatment group, ATTR amyloidosis disease type, NYHA class, age group, and log-transformed baseline NT-proBNP as covariates.||0.929|0.487|=0.0162
92162529|NCT00383188|184214405|SUPERIORITY||LSM Difference|-7.439|STANDARD_ERROR_OF_MEAN|4.056||0.0671|TWO_SIDED|95.0|-15.4|0.524|||ANCOVA|||Week 2:Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||0.524|-15.40|0.0671
92356782|NCT04153149|184618744|SUPERIORITY||Least Square (LS) Mean Difference|26.46|STANDARD_ERROR_OF_MEAN|6.66|=|7.97e-05|TWO_SIDED|95.0|13.38|39.55|||MMRM|||Analysis done using MMRM with baseline 6-MWT as a covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline tafamidis use, treatment-by-baseline tafamidis use interaction, type of ATTR amyloidosis, and age group. Missing change values due to amyloidosis disease progression and death were imputed using sampling with replacement from the worst 10% of observed values, as specified in the SAP.||39.55|13.38|=0.0000797
92356783|NCT04153149|184618745|SUPERIORITY||LS Mean Difference|32.09|STANDARD_ERROR_OF_MEAN|9.19|=|0.0005|TWO_SIDED|95.0|14.03|50.15|||MMRM|||Analysis done using MMRM with baseline 6-MWT as a covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, type of ATTR amyloidosis, and age group. Missing change values due to amyloidosis disease progression and death were imputed using sampling with replacement from the worst 10% of observed values, as specified in the SAP.||50.15|14.03|=0.0005
92356784|NCT04153149|184618746|SUPERIORITY||LS Mean Difference|5.8|STANDARD_ERROR_OF_MEAN|1.73|=|0.0008|TWO_SIDED|95.0|2.4|9.2|||MMRM|||Analysis done using MMRM with baseline KCCQ-OS as a covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline tafamidis use, treatment-by-baseline tafamidis use interaction, type of ATTR amyloidosis, and age group. Missing change values due to death were imputed using sampling with replacement from the worst 10% of observed values, as specified in the SAP.||9.20|2.40|=0.0008
92356785|NCT04153149|184618747|SUPERIORITY||LS Mean Difference|8.69|STANDARD_ERROR_OF_MEAN|2.4|=|0.0003|TWO_SIDED|95.0|3.98|13.4|||MMRM|||Analysis done using MMRM with baseline KCCQ-OS as a covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, type of ATTR amyloidosis, and age group. Missing change values due to death were imputed using sampling with replacement from the worst 10% of observed values, as specified in the SAP.||13.40|3.98|=0.0003
92356786|NCT04153149|184618749|SUPERIORITY||Mean Difference|8.7|||=|0.0217|TWO_SIDED|95.0|1.3|16.1|||Cochran-Mantel-Haenszel|Missing change value in NYHA Class due to death were imputed as worsened. All other missing were imputed using multiple imputation approach.|Adjusted difference in percentage of stable or improved (vutrisiran - placebo) participants was estimated. Adjusted difference, 95% CI, and p-value were derived from multiple imputation procedure by combining estimates per Rubin's rules.|||16.1|1.3|=0.0217
92356787|NCT04153149|184618750|SUPERIORITY||Mean Difference|12.5|||=|0.0121|TWO_SIDED|95.0|2.7|22.2|||Cochran-Mantel-Haenszel|Missing change value in NYHA Class due to death were imputed as worsened. All other missing were imputed using multiple imputation approach.|Adjusted difference in percentage of stable or improved (vutrisiran - placebo) participants was estimated. Adjusted difference, 95% CI, and p-value were derived from multiple imputation procedure by combining estimates per Rubin's rules.|||22.2|2.7|=0.0121
92356788|NCT03759379|184618751|EQUIVALENCE|H0: No difference between vutrisiran and external placebo comparator (APOLLO): difference (vutrisiran - placebo) = 0|LS Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|2.44|<|1e-07|TWO_SIDED|95.0|-21.78|-12.22||P=3.542E-12|ANCOVA with Multiple Imputation|||Multiple imputation estimates and p-value derived per combining least squares (LS) estimates per Rubin's rules based on 100 datasets where missing Month 9 values were imputed using a regression procedure including select baseline variables. LS estimates derived from analysis of covariance model, controlling for categorical factors (treatment, genotype, age of disease onset) and continuous covariate (baseline value).||-12.22|-21.78|<0.0000001
92356789|NCT03759379|184618752|EQUIVALENCE|H0: No difference between vutrisiran and external placebo comparator (APOLLO): difference (vutrisiran - placebo) = 0|LS Mean Difference|-16.2|STANDARD_ERROR_OF_MEAN|2.8|<|1e-07|TWO_SIDED|95.0|-21.7|-10.8||P=5.426E-09|ANCOVA with Multiple Imputation|||Multiple imputation estimates and p-value derived per combining least squares (LS) estimates per Rubin's rules based on 100 datasets where missing Month 9 values were imputed using a regression procedure including select baseline variables. LS estimates derived from analysis of covariance model, controlling for categorical factors (treatment, genotype, age of disease onset baseline NIS) and continuous covariate (baseline value).||-10.8|-21.7|<0.0000001
92401403|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||P-value is for AFS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in LSEQ AFS scores.||||0.722
92162530|NCT00383188|184214405|SUPERIORITY||LSM Difference|-10.46|STANDARD_ERROR_OF_MEAN|3.986||0.0089|TWO_SIDED|95.0|-18.28|-2.632|||ANCOVA|||Week 2:Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-2.632|-18.28|0.0089
92162531|NCT00383188|184214405|SUPERIORITY||LSM Difference|-14.1|STANDARD_ERROR_OF_MEAN|4.657||0.0025|TWO_SIDED|95.0|-23.24|-4.959|||ANCOVA|||Week 2:Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-4.959|-23.24|0.0025
92221046|NCT00705783|184342593|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.199|||<|0.0001|TWO_SIDED|95.0|0.125|0.317|||Log Rank||Aripiprazole depot/placebo depot|Based on 6-month IR rates of 55% for placebo and 35% for aripiprazole, sample sizes were estimated to achieve 90% power to detect a hazard ratio of 0.54 and to preserve an overall nominal alpha level of 0.05 (2-sided), allowing for 2 interim looks at 50% and 75% of events. Assuming that each subject was followed for 12 months after randomization and allowing for a 25% loss to follow-up, the projected total number of subjects to be randomly assigned to treatment in the trial was 225.||0.317|0.125|<0.0001
92356790|NCT03759379|184618753|EQUIVALENCE|H0: No difference between vutrisiran and external placebo comparator (APOLLO): difference (vutrisiran - placebo) = 0|LS Mean Difference|0.131|STANDARD_ERROR_OF_MEAN|0.031|<|1e-07|TWO_SIDED|95.0|0.07|0.193||P=3.103E-05|ANCOVA with Multiple Imputation|||Multiple imputation estimates and p-value derived per combining least squares (LS) estimates per Rubin's rules based on 100 datasets where missing Month 9 values were imputed using a regression procedure including select baseline variables. LS estimates derived from analysis of covariance model, controlling for categorical factors (treatment, genotype, age of disease onset, baseline NIS) and continuous covariate (baseline value).||0.193|0.070|<0.0000001
92356791|NCT00266032|184618766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.0|STANDARD_DEVIATION|29.0|<|0.0001||95.0|-29.0|-20.0|||t-test, 2 sided||Mean of Yaz flexible regimen minus mean of Yaz standard was tested|Primary variable was tested for the hypothesis, whether the means are equal against the alternative (means are different) at a level of significance of alpha = 0.05 (t-test). For power calculation, a normal distribution, a absolute difference of 10 days, a Standard Deviation of 28 days and a drop-out rate of 40% was assumed.||-20|-29|<0.0001
92356792|NCT00124657|184618793|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.75|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.48|1.0||||||1-year progression-free survival (n=8)||1.00|0.48|
92356793|NCT00124657|184618793|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.33|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|0.09|0.57||||||1-year progression-free survival (n=12)||0.57|0.09|
92356794|NCT00124657|184618793|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.45|STANDARD_DEVIATION|0.106|||TWO_SIDED|95.0|0.198|0.602||||||1-year progression free survival (n=20)||0.602|0.198|
92356795|NCT00124657|184618793|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.15|STANDARD_DEVIATION|0.069|||TWO_SIDED|95.0|0.015|0.285||||||2-year progression free survival (n=20)||0.285|0.015|
92356796|NCT00124657|184618793|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.19|STANDARD_DEVIATION|0.077|||TWO_SIDED|95.0|0.039|0.341||||||1-year progression free survival (n=21)||0.341|0.039|
92356797|NCT00124657|184618793|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.19|STANDARD_DEVIATION|0.077|||TWO_SIDED|95.0|0.039|0.341||||||2-year progression free survival (n=21)||0.341|0.039|
92356798|NCT04350866|184618799|SUPERIORITY||Odds Ratio (OR)|15.61|||<|0.0001|TWO_SIDED|95.0|8.99|21.11|||Regression, Logistic|||pre-training to implementation||21.11|8.99|<0.0001
92356799|NCT04350866|184618799|SUPERIORITY||Odds Ratio (OR)|1.56||||0.18|TWO_SIDED|95.0|0.81|3.0|||Regression, Logistic|||pre-implementation to implementation||3.00|0.81|0.18
92356800|NCT04350866|184618799|SUPERIORITY||Odds Ratio (OR)|1.61||||0.003|TWO_SIDED|95.0|1.17|2.22|||Regression, Logistic|||pre-implementation to implementation||2.22|1.17|0.003
92162532|NCT00383188|184214405|SUPERIORITY||LSM Difference|-7.876|STANDARD_ERROR_OF_MEAN|4.774||0.0994|TWO_SIDED|95.0|-17.25|1.496|||ANCOVA|||Week 2:Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||1.496|-17.25|0.0994
92162533|NCT00383188|184214405|SUPERIORITY||LSM Difference|-1.964|STANDARD_ERROR_OF_MEAN|4.056||0.6284|TWO_SIDED|95.0|-9.926|5.999|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||5.999|-9.926|0.6284
92162534|NCT00383188|184214405|SUPERIORITY||LSM Difference|-9.934|STANDARD_ERROR_OF_MEAN|3.986||0.0129|TWO_SIDED|95.0|-17.76|-2.109|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-2.109|-17.76|0.0129
92356801|NCT04350866|184618799|SUPERIORITY||Odds Ratio (OR)|1.16||||0.48|TWO_SIDED|95.0|0.77|1.76|||Regression, Logistic|||pre-implementation to implementation||1.76|0.77|0.48
92356802|NCT04350866|184618802|SUPERIORITY||effect size for mixed effects model|0.72|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92356803|NCT04350866|184618802|SUPERIORITY||effect size for mixed effects model|0.83|||<|0.0001|||||||Mixed Models Analysis|||Minneapolis VAMC||||<0.0001
92356804|NCT04350866|184618802|SUPERIORITY||effect size for mixed effects model|0.79|||<|0.0001|||||||Mixed Models Analysis|||Philadelphia VAMC||||<0.0001
92356805|NCT04350866|184618802|SUPERIORITY||effect size for mixed effects model|0.6|||<|0.0001|||||||Mixed Models Analysis|||Durham VAMC||||<0.0001
92356806|NCT04350866|184618802|SUPERIORITY||effect size for mixed effects model|1.01|||<|0.0001|||||||Mixed Models Analysis|||Baltimore VAMC||||<0.0001
92356807|NCT04350866|184618803|SUPERIORITY||effect size for mixed effects model|1.05|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||All Sites||||<0.0001
92356808|NCT04350866|184618803|SUPERIORITY||effect size for mixed effects model|1.72|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||Minneapolis VAMC||||<0.0001
92356809|NCT04350866|184618803|SUPERIORITY||effect size for mixed effects model|0.93|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||Philadelphia VAMC||||<0.0001
92356810|NCT04350866|184618803|SUPERIORITY||effect size for mixed effects model|0.82|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||Durham VAMC||||<0.0001
92356811|NCT04350866|184618803|SUPERIORITY||effect size for mixed effects model|1.38|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||Baltimore VAMC||||<0.0001
92356812|NCT03533491|184618859|EQUIVALENCE|A test of the null hypothesis that the proportion of participants from pretest to posttest change is equal to zero.|Proportion Difference|0.07|STANDARD_ERROR_OF_MEAN|0.044||0.044|TWO_SIDED||||||t-test, 2 sided||A paired t-test that evaluates whether significant pretest to posttest change in the proportion of users is different from zero.|||||.044
92356813|NCT03533491|184618860|EQUIVALENCE|A test of the null hypothesis that the proportion who use from pretest to posttest is equal to zero.|Proportion Difference|0.035|STANDARD_ERROR_OF_MEAN|0.056||0.532|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether the proportion who use from pretest to posttest change is different from zero.||||||.532
92162535|NCT00383188|184214405|SUPERIORITY||LSM Difference|-8.097|STANDARD_ERROR_OF_MEAN|4.656||0.0825|TWO_SIDED|95.0|-17.24|1.044|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||1.044|-17.24|0.0825
92356814|NCT03533491|184618861|EQUIVALENCE|A test of the null hypothesis that the proportion of participants who use from pretest to posttest is equal to zero.|Proportion Difference|-0.053|STANDARD_ERROR_OF_MEAN|0.058||0.37|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.370
92356815|NCT03533491|184618862|EQUIVALENCE|A test of the null hypothesis that the proportion of participants that use from pretest to posttest is equal to zero.|Proportion Difference|0.14|STANDARD_ERROR_OF_MEAN|0.06||0.02|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether proportion who use from pretest to posttest is different from zero.||||||.020
92356816|NCT03533491|184618863|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.108||0.773|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.773
92356817|NCT03533491|184618864|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.08||0.978|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.978
92356818|NCT03533491|184618865|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|0.029|STANDARD_ERROR_OF_MEAN|0.089||0.745|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.745
92356819|NCT03533491|184618866|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.154|STANDARD_ERROR_OF_MEAN|0.101||0.132|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.132
92356820|NCT03533491|184618867|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.111||0.551|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.551
92356821|NCT03533491|184618868|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.158|STANDARD_ERROR_OF_MEAN|0.255||0.255|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.255
92356822|NCT03533491|184618869|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.142|||TWO_SIDED|||||||A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||
92356823|NCT03533491|184618870|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.119|STANDARD_ERROR_OF_MEAN|0.091||0.198|TWO_SIDED||||||t-test, 2 sided|||||||.198
92356824|NCT03533491|184618871|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.035|STANDARD_ERROR_OF_MEAN|0.121||0.77|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.770
92356825|NCT03533491|184618872|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.029|STANDARD_ERROR_OF_MEAN|0.137||0.834|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.834
92356826|NCT03533491|184618873|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.096|STANDARD_ERROR_OF_MEAN|0.07||0.175|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.175
92356827|NCT06433908|184618928|OTHER||Ratio of Geometric Least Squares Mean|0.9649|||||TWO_SIDED|90.0|0.8695|1.0707||||||||1.0707|0.8695|
92401404|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||P-value is for AFS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ AFS scores.||||0.480
92162536|NCT00383188|184214405|SUPERIORITY||LSM Difference|-1.907|STANDARD_ERROR_OF_MEAN|4.774||0.6897|TWO_SIDED|95.0|-11.28|7.465|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||7.465|-11.28|0.6897
92356828|NCT06433908|184618929|OTHER||Ratio of Geometric Least Squares Mean|1.2941|||||TWO_SIDED|90.0|1.1795|1.4199||||||||1.4199|1.1795|
92356829|NCT06433908|184618930|OTHER||Ratio of Geometric Least Squares Mean|1.2329|||||TWO_SIDED|90.0|1.1171|1.3608||||||||1.3608|1.1171|
92356830|NCT06433908|184618931|OTHER||Ratio of Geometric Least Squares Mean|0.9475|||||TWO_SIDED|90.0|0.7746|1.159||||||||1.1590|0.7746|
92356831|NCT06433908|184618932|OTHER||Ratio of Geometric Least Squares Mean|1.2032|||||TWO_SIDED|90.0|1.162|1.2459||||||||1.2459|1.1620|
92356832|NCT06433908|184618933|OTHER||Ratio of Geometric Least Squares Mean|1.1273|||||TWO_SIDED|90.0|1.0229|1.2423||||||||1.2423|1.0229|
92356833|NCT03768414|184619021|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.41|TWO_SIDED|95.0|0.72|1.14|||Log Rank|||||1.14|0.72|0.41
92356834|NCT03109769|184619035|SUPERIORITY|||||||0.0444|||||||Wilcoxon (Mann-Whitney)|||"The sample size was calculated as 44 participants. Sample size calculation was carried out through a pilot study on 30 participants with the group I mean=1.31, SD=0.39 and group II mean=1.62, SD=0.30, with ⍺=0.05 and 80% power.~The null hypothesis was: there is no difference in plaque index and gingival index between verbal oral hygiene instructions and oral hygiene instructions using mobile applications in patients with orthodontic fixed appliances."||||0.0444
92162537|NCT00383188|184214405|SUPERIORITY||LSM Difference|1.861|STANDARD_ERROR_OF_MEAN|4.055||0.6465|TWO_SIDED|95.0|-6.1|9.821|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||9.821|-6.100|0.6465
92162538|NCT00383188|184214405|SUPERIORITY||LSM Difference|-10.65|STANDARD_ERROR_OF_MEAN|3.985||0.0077|TWO_SIDED|95.0|-18.47|-2.824|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-2.824|-18.47|0.0077
92162539|NCT00383188|184214405|SUPERIORITY||LSM Difference|-7.927|STANDARD_ERROR_OF_MEAN|4.655||0.089|TWO_SIDED|95.0|-17.07|1.213|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||1.213|-17.07|0.0890
92356835|NCT03109769|184619035|SUPERIORITY||Mean Difference (Net)|-0.1373||||0.0002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Difference in plaque index within the first group (mobile phone application) at 4 weeks compared to baseline.~The mean difference was calculated as follows:~plaque index at 4 weeks - plaque index at baseline"|||||0.0002
92356836|NCT03109769|184619035|SUPERIORITY||Median Difference (Final Values)|0.0932||||0.0283|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Difference in plaque index within the second group (verbal oral hygiene instructions) at 4 weeks compared to baseline.~The mean difference was calculated as follows:~plaque index at 4 weeks - plaque index at baseline"|||||0.0283
92356837|NCT03109769|184619036|SUPERIORITY|||||||0.0283|||||||Wilcoxon (Mann-Whitney)|||"The sample size was calculated as 44 participants. Sample size calculation was carried out through a pilot study on 30 participants with the group I mean=1.31, SD=0.39 and group II mean=1.62, SD=0.30, with ⍺=0.05 and 80% power.~The null hypothesis was: there is no difference in plaque index and gingival index between verbal oral hygiene instructions and oral hygiene instructions using mobile applications in patients with orthodontic fixed appliances."||||0.0283
92356838|NCT03109769|184619036|SUPERIORITY||Mean Difference (Net)|-0.1177||||0.0002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Difference in gingival index within the first group (mobile phone application) at 4 weeks compared to baseline.~The mean difference was calculated as follows:~gingival index at 4 weeks - gingival index at baseline"|||||0.0002
92356839|NCT03109769|184619036|SUPERIORITY||Mean Difference (Net)|0.1014||||0.4809|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Difference in gingival index within the second group (verbal oral hygiene instructions) at 4 weeks compared to baseline.~The mean difference was calculated as follows:~gingival index at 4 weeks - gingival index at baseline"|||||0.4809
92356840|NCT02528305|184619037|SUPERIORITY_OR_OTHER|||||||0.474|||||||ANOVA|||||||0.474
92356841|NCT02528305|184619038|SUPERIORITY_OR_OTHER|||||||0.174|||||||ANOVA|||||||0.174
92356842|NCT02528305|184619039|SUPERIORITY_OR_OTHER|||||||0.303|||||||ANOVA|||||||0.303
92356843|NCT02528305|184619040|SUPERIORITY|||||||0.023|||||||ANOVA|||||||0.023
92356844|NCT02528305|184619041|SUPERIORITY_OR_OTHER|||||||0.092|||||||ANOVA|For the analysis of Total body fat||||||0.092
92221047|NCT00705783|184342594|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The alpha levels for this key secondary Outcome Measure were the same as used for the primary Outcome Measure.|Chi-squared|||||||<0.0001
92356845|NCT02528305|184619041|SUPERIORITY_OR_OTHER|||||||0.101|||||||ANOVA|For the analysis of Trunk fat||||||0.101
92356846|NCT02528305|184619042|SUPERIORITY_OR_OTHER|||||||0.771|||||||ANOVA|For the analysis of systolic blood pressure||||||0.771
92356847|NCT02528305|184619042|SUPERIORITY_OR_OTHER|||||||0.028|||||||ANOVA|For the analysis of diastolic blood pressure||||||0.028
92356848|NCT02528305|184619043|SUPERIORITY_OR_OTHER|||||||0.099|||||||ANOVA|For the analysis of Physical Function||||||0.099
92356849|NCT02528305|184619043|SUPERIORITY_OR_OTHER|||||||0.566|||||||ANOVA|For the analysis of Social Function||||||0.566
92356850|NCT02528305|184619043|SUPERIORITY_OR_OTHER|||||||0.246|||||||ANOVA|For the analysis of Mental Health||||||0.246
92356851|NCT02528305|184619043|SUPERIORITY_OR_OTHER|||||||0.145|||||||ANOVA|For the analysis of Pain||||||0.145
92356852|NCT02528305|184619043|SUPERIORITY_OR_OTHER|||||||0.085|||||||ANOVA|For the analysis of Change in Health||||||0.085
92356853|NCT02528305|184619043|SUPERIORITY_OR_OTHER|||||||0.114|||||||ANOVA|For the analysis of Physical Role Limitation||||||0.114
92356854|NCT02528305|184619043|SUPERIORITY_OR_OTHER|||||||0.841|||||||ANOVA|For the analysis of Mental Role Limitation||||||0.841
92356855|NCT02528305|184619043|SUPERIORITY_OR_OTHER|||||||0.366|||||||ANOVA|For the analysis of Energy/Vitality||||||0.366
92356856|NCT02528305|184619043|SUPERIORITY_OR_OTHER|||||||0.745|||||||ANOVA|For the analysis of Health Perception||||||0.745
92356857|NCT02528305|184619044|SUPERIORITY_OR_OTHER|||||||0.31|||||||ANOVA|||||||0.310
92356858|NCT02528305|184619045|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92356859|NCT02528305|184619046|SUPERIORITY_OR_OTHER|||||||0.005|||||||ANOVA|||||||0.005
92356860|NCT02528305|184619047|SUPERIORITY_OR_OTHER|||||||0.793|||||||ANOVA|||||||0.793
92356861|NCT02528305|184619048|SUPERIORITY_OR_OTHER|||||||0.513|||||||ANOVA|||||||0.513
92356862|NCT02528305|184619049|SUPERIORITY_OR_OTHER|||||||0.009|||||||ANOVA|||||||0.009
92356863|NCT01308788|184619053|SUPERIORITY_OR_OTHER|||||||0.4414||95.0|||||ANCOVA|||||||.4414
92356864|NCT01308788|184619054|SUPERIORITY_OR_OTHER|||||||0.782||95.0|||||ANCOVA|||||||.7820
92356865|NCT01308788|184619055|SUPERIORITY_OR_OTHER|||||||0.5496||95.0|||||ANCOVA|||||||.5496
92356866|NCT01308788|184619056|SUPERIORITY_OR_OTHER|||||||0.293||95.0|||||ANCOVA|||||||.2930
92356867|NCT01308788|184619057|SUPERIORITY_OR_OTHER|||||||0.5058||95.0|||||ANCOVA|||||||.5058
92356868|NCT01308788|184619058|SUPERIORITY_OR_OTHER|||||||0.6156||95.0|||||ANCOVA|||||||.6156
92356869|NCT01308788|184619059|SUPERIORITY_OR_OTHER|||||||0.5443||95.0|||||ANCOVA|||||||.5443
92356870|NCT01308788|184619060|SUPERIORITY_OR_OTHER|||||||0.7847||95.0|||||ANCOVA|||||||.7847
92356871|NCT01308788|184619061|SUPERIORITY_OR_OTHER|||||||0.1331||95.0|||||ANCOVA|||||||.1331
92356872|NCT01308788|184619062|SUPERIORITY_OR_OTHER|||||||0.5431||95.0|||||ANCOVA|||||||.5431
92356873|NCT01308788|184619063|SUPERIORITY_OR_OTHER|||||||0.0684||95.0|||||ANCOVA|||||||.0684
92162540|NCT00383188|184214405|SUPERIORITY||LSM Difference|-5.964|STANDARD_ERROR_OF_MEAN|4.773||0.2119|TWO_SIDED|95.0|-15.33|3.406|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||3.406|-15.33|0.2119
92162541|NCT00383188|184214405|SUPERIORITY||LSM Difference|-4.766|STANDARD_ERROR_OF_MEAN|4.053||0.2401|TWO_SIDED|95.0|-12.72|3.191|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||3.191|-12.72|0.2401
92162542|NCT00383188|184214405|SUPERIORITY||LSM Difference|-11.07|STANDARD_ERROR_OF_MEAN|3.983||0.0056|TWO_SIDED|95.0|-18.89|-3.251|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-3.251|-18.89|0.0056
92221048|NCT00705783|184342595|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
92356874|NCT01308788|184619064|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANCOVA|||||||.2500
92356875|NCT01308788|184619065|SUPERIORITY_OR_OTHER|||||||0.6896||95.0|||||ANCOVA|||||||.6896
92221049|NCT00705783|184342596|SUPERIORITY_OR_OTHER|||||||0.1756||95.0|||||Chi-squared|||||||0.1756
92356876|NCT01308788|184619066|SUPERIORITY_OR_OTHER|||||||0.7965||95.0|||||ANCOVA|||||||.7965
92356877|NCT00322218|184619068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8578|||||||Stratified Log-Rank Test|||||||0.8578
92356878|NCT00124306|184619072|SUPERIORITY||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-2.5|-0.5||||||IC Symptom Index - change from baseline to 12 weeks||-0.5|-2.5|
92356879|NCT00124306|184619072|SUPERIORITY||Mean Difference (Net)|-1.2|||||TWO_SIDED|95.0|-2.3|-0.2||||||IC Problem Index - change from baseline to 12 weeks||-0.2|-2.3|
92356880|NCT00124306|184619072|SUPERIORITY||Mean Difference (Net)|-3.8|||||TWO_SIDED|95.0|-6.3|-1.3||||||Wisconsin Symptom Survey - change from baseline to 12 weeks||-1.3|-6.3|
92356881|NCT02943499|184619139|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||To examine between-group differences in pre- vs. post-treatment cue reactivity, the post-treatment PCC BOLD response for the smoking vs neutral contrast was subtracted from the baseline response. The groups were then compared directly on this measure using a t-test.||||0.92
92356882|NCT00666263|184619162|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squared means|35.13||||0.005|TWO_SIDED|95.0|8.81|61.46|||ANOVA|Fixed effects ANOVA with factors for sequence (1 or 2), nested within sequence, period (Cross-Over Period 1 or 2), \& treatment (IGIV, 10% or placebo)||||61.46|8.81|0.005
92356883|NCT00666263|184619163|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED|95.0|||||McNemar|||||||<0.001
92356884|NCT00666263|184619165|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squared means|32.54|||<|0.001|TWO_SIDED|95.0|14.01|51.06|||ANOVA|||||51.06|14.01|<0.001
92356885|NCT00666263|184619166|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED|95.0|||||McNemar|||||||<0.001
92356886|NCT00666263|184619170|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squared Means|6.03||||0.002|TWO_SIDED|95.0|2.14|9.92|||ANOVA|||||9.92|2.14|0.002
92356887|NCT00666263|184619172|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squared Means|-15.57|||<|0.001|TWO_SIDED|95.0|-24.37|-6.77|||ANOVA|||||-6.77|-24.37|<0.001
92356888|NCT00666263|184619174|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squared Means|-26.11|||<|0.001|TWO_SIDED|95.0|-38.96|-13.26|||ANOVA|||||-13.26|-38.96|<0.001
92356889|NCT00666263|184619176|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squared Means|-216.6||||0.059|TWO_SIDED|95.0|-490.41|57.22|||ANOVA|||||57.22|-490.41|0.059
92356890|NCT00666263|184619178|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED|95.0|||||McNemar|||||||<0.001
92356891|NCT00666263|184619179|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021||95.0|||||McNemar|||||||0.021
92356892|NCT00586157|184619190|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Z-test|||||||<.001
92356893|NCT00586157|184619191|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Z-test|||||||.001
92356894|NCT00586157|184619192|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Z-test|||||||.003
92356895|NCT02853136|184619210|OTHER||Adjusted geometric Mean ratio [%]|3107.8|||||TWO_SIDED|90.0|2332.9|4140.1|||||The estimated parameter was the adjusted geometric Mean (gMean) ratio \[%\] = adjusted gMean T2/ adjusted gMean R2. Intra-individual geometric coefficient of variation \[%\] =42.7.|The statistical model used for the analysis of the endpoint was an ANOVA (Analysis of Variance) model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||4140.10|2332.90|
92356896|NCT02853136|184619211|OTHER||Adjusted geometric Mean ratio [%]|659.0|||||TWO_SIDED|90.0|489.791|886.676|||||The estimated parameter was the adjusted geometric Mean (gMean) ratio \[%\] = adjusted gMean T2/ adjusted gMean R2. Intra-individual geometric coefficient of variation \[%\]=44.8.|The statistical model used for the analysis of the endpoint was an ANOVA (Analysis of Variance) model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||886.676|489.791|
92356897|NCT02853136|184619212|OTHER||Adjusted geometric Mean ratio [%]|3103.41|||||TWO_SIDED|90.0|2330.5|4132.65|||||"The estimated parameter was the adjusted geometric Mean (gMean) ratio \[%\] = adjusted gMean T2/ adjusted gMean R2.~Intra-individual geometric coefficient of variation \[%\] =42.7."|The statistical model used for the analysis of the endpoint was an ANOVA (Analysis of Variance) model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||4132.65|2330.50|
92356898|NCT00841815|184619213|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|96.43||||||90.0|91.4|101.74|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.74|91.40|
92162543|NCT00383188|184214405|SUPERIORITY||LSM Difference|-8.885|STANDARD_ERROR_OF_MEAN|4.654||0.0566|TWO_SIDED|95.0|-18.02|0.251|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||0.251|-18.02|0.0566
92162544|NCT00383188|184214405|SUPERIORITY||LSM Difference|-10.09|STANDARD_ERROR_OF_MEAN|4.772||0.0348|TWO_SIDED|95.0|-19.45|-0.72|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-0.720|-19.45|0.0348
92162545|NCT00383188|184214405|SUPERIORITY||LSM Difference|4.89|STANDARD_ERROR_OF_MEAN|4.191||0.2436|TWO_SIDED|95.0|-3.336|13.116|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||13.116|-3.336|0.2436
92162546|NCT00383188|184214405|SUPERIORITY||LSM Difference|-1.781|STANDARD_ERROR_OF_MEAN|4.066||0.6616|TWO_SIDED|95.0|-9.762|6.201|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||6.201|-9.762|0.6616
92162547|NCT00383188|184214405|SUPERIORITY||LSM Difference|3.907|STANDARD_ERROR_OF_MEAN|4.83||0.4189|TWO_SIDED|95.0|-5.574|13.388|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||13.388|-5.574|0.4189
92162548|NCT00383188|184214405|SUPERIORITY||LSM Difference|4.395|STANDARD_ERROR_OF_MEAN|4.942||0.3741|TWO_SIDED|95.0|-5.305|14.096|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||14.096|-5.305|0.3741
92162549|NCT00383188|184214406|SUPERIORITY||LSM Difference|-2.996|STANDARD_ERROR_OF_MEAN|3.958||0.4493|TWO_SIDED|95.0|-10.77|4.773|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||4.773|-10.77|0.4493
92162550|NCT00383188|184214406|SUPERIORITY||LSM Difference|-14.45|STANDARD_ERROR_OF_MEAN|3.891||0.0002|TWO_SIDED|95.0|-22.08|-6.807|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-6.807|-22.08|0.0002
92162551|NCT00383188|184214406|SUPERIORITY||LSM Difference|-11.54|STANDARD_ERROR_OF_MEAN|4.522||0.0109|TWO_SIDED|95.0|-20.42|-2.661|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.661|-20.42|0.0109
92162552|NCT00383188|184214406|SUPERIORITY||LSM Difference|-7.364|STANDARD_ERROR_OF_MEAN|4.651||0.1137|TWO_SIDED|95.0|-16.49|1.765|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||1.765|-16.49|0.1137
92162553|NCT00383188|184214406|SUPERIORITY||LSM Difference|-3.989|STANDARD_ERROR_OF_MEAN|3.915||0.3086|TWO_SIDED|95.0|-11.68|3.697|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||3.697|-11.68|0.3086
92162554|NCT00383188|184214406|SUPERIORITY||LSM Difference|-8.357|STANDARD_ERROR_OF_MEAN|3.85||0.0303|TWO_SIDED|95.0|-15.92|-0.799|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-0.799|-15.92|0.0303
92162555|NCT00383188|184214406|SUPERIORITY||LSM Difference|-10.66|STANDARD_ERROR_OF_MEAN|4.489||0.0178|TWO_SIDED|95.0|-19.47|-1.845|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-1.845|-19.47|0.0178
92356899|NCT00841815|184619214|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|100.94||||||90.0|95.6|106.58|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.58|95.60|
92356900|NCT00841815|184619215|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|100.11||||||90.0|95.08|105.4|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.40|95.08|
92356901|NCT02732145|184619224|OTHER|"Question: Determination of sensitivity of the Vulvoscopy Index as a measure of the sensitivity of Three Rings Vulvoscopy in comparison to the histopathological diagnosis of vulvar dermatosis."|Sensitivity (2x2 Table)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||"The Sensitivity of the Vulvoscopy Index for Detection of Vulvar Dermatosis was 1.000 (Range: 1.0000 - 1.0000)."|"Parameter: Sensitivity of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|1.0000|
92356902|NCT02732145|184619224|OTHER|"Question: Determination of specificity of the Vulvoscopy index as a measure of the specificity of Three Rings Vulvoscopy in comparison to the histopathological diagnosis of vulvar dermatosis."|Specificity (2x2 Table)|0.9609|||||TWO_SIDED|95.0|0.5794|1.0|||||"The Specificity of the Vulvoscopy Index for Detection of Vulvar Dermatosis was 0.9609 (Range: 0.5794 - 1.0000)"|"Parameter: Specificity of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.5794|
92356903|NCT02732145|184619224|OTHER|"Question: Determination of diagnostic accuracy of the Vulvoscopy index as a measure of the diagnostic value of Three Rings Vulvoscopy in comparison to the histopathological diagnosis of vulvar dermatosis."|Diagnostic Accuracy (2x2 Table)|0.9695|||||TWO_SIDED|95.0|0.6313|1.0|||||"The Diagnostic accuracy of the Vulvoscopy Index for Detection of Vulvar Dermatosis was 0.9695 (Range: 0.6313 - 1.0000)"|"Parameter: Diagnostic accuracy of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.6313|
92356904|NCT02732145|184619224|SUPERIORITY|"Question: Determination of positive predictive value of the Vulvoscopy index for detection of vulvar dermatosis in comparison to the histopathology results."|PPV (2x2 Table)|0.878|||||TWO_SIDED|95.0|0.227|1.0|||||"Positive predictive value of the Vulvoscopy Index for Detection of Vulvar Dermatosis was 0.8780 (Range: 0.2270 - 1.0000)."|"Parameter: Positive predictive value of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.2270|
92356905|NCT02732145|184619224|OTHER|"Question: Determination of negative predictive value of the Vulvoscopy index for detection of vulvar dermatosis in comparison to the histopathology results."|NPV (2x2 Table)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||"Negative predictive value of the Vulvoscopy Index for Detection of Vulvar Dermatosis was 1.0000 (Range: 1.0000 - 1.0000)."|"Parameter: Negative predictive value of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|1.0000|
92356906|NCT02732145|184619224|SUPERIORITY|"Question: Is there a difference in the diagnostic accuracy of the Vulvoscopy Index as an outcome measure of the diagnostic value of Three Rings Vulvoscopy, and histopathology?"||||||0.6108|||||||t-test proportion|||"Parameter: The difference in the diagnostic accuracy between TRIV using the Vulvoscopy Index and histopathology for detection of vulvar dermatosis."||||0.6108
92356907|NCT02732145|184619225|SUPERIORITY|Question: Is there a difference in the frequency of vulvar complaints among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||t-test proportion|||Parameter: The difference in the frequency of vulvar complaints in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
92356908|NCT02732145|184619225|SUPERIORITY|Question: Is there a difference in the frequency of positive Marinoff Index among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9628|||||||t-test proportion|||Parameter: The difference in the frequency of positive Marinoff Index in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9628
92356909|NCT02732145|184619225|SUPERIORITY|Question: Is there a difference in the frequency of the positive Cotton-Swab test among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9152|||||||t-test proportion|||Parameter: The difference in the frequency of the positive Cotton-Swab test in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9152
92356910|NCT02732145|184619225|SUPERIORITY|Question: Is there a difference in the frequency of any lesion in any vulvar ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||t-test proportion|||Parameter: The difference in the frequency of any lesion in any vulvar ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
92401405|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||P-value is for BFW. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ BFW scores.||||0.498
92162556|NCT00383188|184214406|SUPERIORITY||LSM Difference|-5.325|STANDARD_ERROR_OF_MEAN|4.612||0.2486|TWO_SIDED|95.0|-14.38|3.729|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||3.729|-14.38|0.2486
92221050|NCT00705783|184342597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.11|||<|0.0001|TWO_SIDED|95.0|-12.68|-7.54|||ANCOVA|The ANCOVA included treatment as a term and baseline as a covariate.||||-7.54|-12.68|<0.0001
92356911|NCT02732145|184619225|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Outer Vulvar Ring among the patients with vulvar dermatosis diagnosed with vulvoscopy and histopathology?||||||0.8862|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8862
92356912|NCT02732145|184619225|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Middle Vulvar Ring among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
92401406|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.865||95.0||||P-value is for BFW. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in LSEQ BFW scores.||||0.865
92221051|NCT00705783|184342598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.35|||ANCOVA|The ANCOVA included treatment as a term and baseline as a covariate.||||-0.35|-0.70|<0.0001
92221052|NCT00705783|184342599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.82|||<|0.0001|TWO_SIDED|95.0|-4.72|-2.91|||ANCOVA|The ANCOVA included treatment as a term and baseline as a covariate.||Positive Subscale Score||-2.91|-4.72|<0.0001
92221053|NCT00705783|184342600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.0001|TWO_SIDED|95.0|-2.04|-0.67|||ANCOVA|The ANCOVA included treatment as a term and baseline as a covariate.||||-0.67|-2.04|0.0001
92162557|NCT00383188|184214406|SUPERIORITY||LSM Difference|-2.965|STANDARD_ERROR_OF_MEAN|3.915||0.4491|TWO_SIDED|95.0|-10.65|4.72|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||4.720|-10.65|0.4491
92162558|NCT00383188|184214406|SUPERIORITY||LSM Difference|-10.23|STANDARD_ERROR_OF_MEAN|3.85||0.0081|TWO_SIDED|95.0|-17.79|-2.671|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.671|-17.79|0.0081
92356913|NCT02732145|184619225|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Inner Vulvar Ring among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.3319|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.3319
92356914|NCT02732145|184619225|SUPERIORITY|Question: Is there a difference in the frequency of non-specific vulvar lesions among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8662|||||||t-test proportion|||Parameter: The difference in the frequency of non-specific vulvar lesions in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8662
92356915|NCT02732145|184619225|SUPERIORITY|Question: Is there a difference in the frequency of specific vulvar lesions among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||t-test proportion|||Parameter: The difference in the frequency of vulvar lesions specific for dermatosis in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
92356916|NCT02732145|184619226|SUPERIORITY|Question: Is there a difference in the frequency of vulvar complaints among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.5399|||||||t-test proportion|||Parameter: The difference in the frequency of vulvar complaints in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.5399
92356917|NCT02732145|184619226|SUPERIORITY|Question: Is there a difference in the frequency of positive Marinoff Index among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9248|||||||t-test proportion|||Parameter: The difference in the frequency of positive Marinoff Index in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9248
92356918|NCT02732145|184619226|SUPERIORITY|Question: Is there a difference in the frequency of the positive Cotton-Swab test among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9839|||||||t-test proportion|||Parameter: The difference in the frequency of the positive Cotton-Swab test in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9839
92356919|NCT02732145|184619226|SUPERIORITY|Question: Is there a difference in the frequency of any lesion in any vulvar ring among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.7537|||||||t|||Parameter: The difference in the frequency of any lesion in any vulvar ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.7537
92356920|NCT02732145|184619226|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Outer Vulvar Ring among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.2054|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.2054
92356921|NCT02732145|184619226|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Middle Vulvar Ring among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.6409|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.6409
92221054|NCT00705783|184342601|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92221055|NCT00705783|184342602|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<0.0001
92221056|NCT04251910|184342614|SUPERIORITY|||||||0.0813|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (2 hours)||||0.0813
92221057|NCT04251910|184342614|SUPERIORITY|||||||0.0011|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (2 hours)||||0.0011
92221058|NCT04251910|184342614|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (2 hours)||||0.0002
92221059|NCT04251910|184342616|SUPERIORITY|||||||0.9616|||||||Mixed effects model|||Part A 30 mcg BXCL501 v/s Part A-Placebo (30 minutes)||||0.9616
92221060|NCT04251910|184342616|SUPERIORITY|||||||0.546|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (Day 1; 1 hour)||||0.5460
92221061|NCT04251910|184342616|SUPERIORITY|||||||0.0961|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/s Part A-Placebo (2 hours)||||0.0961
92221062|NCT04251910|184342616|SUPERIORITY|||||||0.1359|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (4 hours)||||0.1359
92221063|NCT04251910|184342616|SUPERIORITY|||||||0.1688|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (8 hours)||||0.1688
92221064|NCT04251910|184342616|SUPERIORITY|||||||0.667|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (24 hours)||||0.6670
92221065|NCT04251910|184342616|SUPERIORITY|||||||0.8695|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (Day 3)||||0.8695
92356922|NCT02732145|184619226|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Inner Vulvar Ring among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9753|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9753
92356923|NCT02732145|184619226|SUPERIORITY|Question: Is there a difference in the frequency of non-specific vulvar lesions among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8986|||||||t-test proportion|||Parameter: The difference in the frequency of non-specific vulvar lesions in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8986
92356924|NCT02732145|184619226|SUPERIORITY|Question: Is there a difference in the frequency of specific vulvar lesions among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology (first biopsy)?||||||0.0017|||||||t-test proportion|||Parameter: The difference in the frequency of vulvar lesions specific for dermatosis in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology (first biopsy).||||0.0017
92356925|NCT02732145|184619227|EQUIVALENCE|Question: Is there a difference in the score for vulvar complaints (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for vulvar complaints (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
92401407|NCT00385671|184694184|SUPERIORITY_OR_OTHER|||||||0.408||95.0||||P-value is for BFW. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ BFW scores.||||0.408
92401408|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.635|TWO_SIDED|95.0|-2.18|1.33||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS total score.||1.33|-2.18|0.635
92401409|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.092|TWO_SIDED|95.0|-3.24|0.24||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in SDS total score.||0.24|-3.24|0.092
92162559|NCT00383188|184214406|SUPERIORITY||LSM Difference|-9.291|STANDARD_ERROR_OF_MEAN|4.488||0.0388|TWO_SIDED|95.0|-18.1|-0.48|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-0.480|-18.10|0.0388
92221066|NCT04251910|184342616|SUPERIORITY|||||||0.5002|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (Day 7)||||0.5002
92221067|NCT04251910|184342616|SUPERIORITY|||||||0.5631|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (30 minutes)||||0.5631
92356926|NCT02732145|184619227|EQUIVALENCE|Question: Is there a difference in the score for Marinoff Index (mean) among patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9899|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for Marinoff Index (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9899
92356927|NCT02732145|184619227|EQUIVALENCE|Question: Is there a difference in the score for the Cotton-Swab test (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9686|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the Cotton-Swab test (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9686
92356928|NCT02732145|184619227|EQUIVALENCE|Question: Is there a difference in the score for any lesion in any vulvar ring (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.7055|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any lesion in any vulvar ring (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.7055
92356929|NCT02732145|184619227|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Outer Vulvar Ring (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8852|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Outer Vulvar Ring (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8852
92356930|NCT02732145|184619227|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Middle Vulvar Ring (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Middle Vulvar Ring (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
92356931|NCT02732145|184619227|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Inner Vulvar Ring (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.3351|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Inner Vulvar Ring (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.3351
92162560|NCT00383188|184214406|SUPERIORITY||LSM Difference|-2.5|STANDARD_ERROR_OF_MEAN|4.611||0.588|TWO_SIDED|95.0|-11.55|6.553|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||6.553|-11.55|0.5880
92162561|NCT00383188|184214406|SUPERIORITY||LSM Difference|3.78|STANDARD_ERROR_OF_MEAN|3.914||0.3345|TWO_SIDED|95.0|-3.904|11.464|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||11.464|-3.904|0.3345
92162562|NCT00383188|184214406|SUPERIORITY||LSM Difference|-9.019|STANDARD_ERROR_OF_MEAN|3.849||0.0194|TWO_SIDED|95.0|-16.58|-1.463|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-1.463|-16.58|0.0194
92162563|NCT00383188|184214406|SUPERIORITY||LSM Difference|-5.946|STANDARD_ERROR_OF_MEAN|4.488||0.1855|TWO_SIDED|95.0|-14.76|2.863|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||2.863|-14.76|0.1855
92356932|NCT02732145|184619227|EQUIVALENCE|Question: Is there a difference in the score for the specificity of vulvar lesions (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8673|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the specificity of vulvar lesions (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8673
92356933|NCT02732145|184619227|EQUIVALENCE|Question: Is there a difference in the score for non-specific vulvar lesions (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8673|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for non-specific vulvar lesions (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8673
92356934|NCT02732145|184619227|EQUIVALENCE|Question: Is there a difference in the score for specific vulvar lesions (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for specific vulvar lesions (mean) with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
92162564|NCT00383188|184214406|SUPERIORITY||LSM Difference|-5.249|STANDARD_ERROR_OF_MEAN|4.611||0.2553|TWO_SIDED|95.0|-14.3|3.803|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||3.803|-14.30|0.2553
92162565|NCT00383188|184214406|SUPERIORITY||LSM Difference|-4.041|STANDARD_ERROR_OF_MEAN|3.912||0.302|TWO_SIDED|95.0|-11.72|3.639|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||3.639|-11.72|0.3020
92162566|NCT00383188|184214406|SUPERIORITY||LSM Difference|-10.27|STANDARD_ERROR_OF_MEAN|3.847||0.0078|TWO_SIDED|95.0|-17.82|-2.715|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.715|-17.82|0.0078
92221068|NCT04251910|184342616|SUPERIORITY|||||||0.0089|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (1 hour)||||0.0089
92221069|NCT04251910|184342616|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (2 hours)||||<.0001
92356935|NCT02732145|184619227|EQUIVALENCE|"Question: Is there a difference in the overall sum of points for the Vulvoscopy Index (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8472|||||||Wilcoxon (Mann-Whitney)|||"Parameter: The difference in the overall sum of points for the Vulvoscopy Index (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8472
92356936|NCT02732145|184619229|EQUIVALENCE|Question: Is there a difference in the score for vulvar complaints (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for vulvar complaints (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
92356937|NCT02732145|184619229|EQUIVALENCE|Question: Is there a difference in the score for Marinoff Index (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9629|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for Marinoff Index (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9629
92356938|NCT02732145|184619229|EQUIVALENCE|Question: Is there a difference in the score for the Cotton-Swab test (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9155|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the Cotton-Swab test (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9155
92356939|NCT02732145|184619229|EQUIVALENCE|Question: Is there a difference in the score for any lesion in any vulvar ring (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.4913|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any lesion in any vulvar ring (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.4913
92356940|NCT02732145|184619229|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Outer Vulvar Ring (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8866|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Outer Vulvar Ring (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8866
92162567|NCT00383188|184214406|SUPERIORITY||LSM Difference|-8.522|STANDARD_ERROR_OF_MEAN|4.486||0.0578|TWO_SIDED|95.0|-17.33|0.284|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||0.284|-17.33|0.0578
92162568|NCT00383188|184214406|SUPERIORITY||LSM Difference|-7.042|STANDARD_ERROR_OF_MEAN|4.61||0.127|TWO_SIDED|95.0|-16.09|2.007|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||2.007|-16.09|0.1270
92162569|NCT00383188|184214406|SUPERIORITY||LSM Difference|5.927|STANDARD_ERROR_OF_MEAN|4.051||0.1438|TWO_SIDED|95.0|-2.023|13.877|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||13.877|-2.023|0.1438
92162570|NCT00383188|184214406|SUPERIORITY||LSM Difference|-1.979|STANDARD_ERROR_OF_MEAN|3.931||0.6149|TWO_SIDED|95.0|-9.696|5.738|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||5.738|-9.696|0.6149
92162571|NCT00383188|184214406|SUPERIORITY||LSM Difference|6.545|STANDARD_ERROR_OF_MEAN|4.664||0.1609|TWO_SIDED|95.0|-2.61|15.7|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||15.700|-2.610|0.1609
92162572|NCT00383188|184214406|SUPERIORITY||LSM Difference|6.579|STANDARD_ERROR_OF_MEAN|4.78||0.1691|TWO_SIDED|95.0|-2.804|15.961|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||15.961|-2.804|0.1691
92162573|NCT00383188|184214407|SUPERIORITY||LSM Difference|-1.409|STANDARD_ERROR_OF_MEAN|3.341||0.6733|TWO_SIDED|95.0|-7.967|5.149|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||5.149|-7.967|0.6733
92162574|NCT00383188|184214407|SUPERIORITY||LSM Difference|-5.629|STANDARD_ERROR_OF_MEAN|3.274||0.0859|TWO_SIDED|95.0|-12.05|0.797|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||0.797|-12.05|0.0859
92162575|NCT00383188|184214407|SUPERIORITY||LSM Difference|-9.718|STANDARD_ERROR_OF_MEAN|3.8||0.0107|TWO_SIDED|95.0|-17.18|-2.259|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.259|-17.18|0.0107
92162576|NCT00383188|184214407|SUPERIORITY||LSM Difference|-3.695|STANDARD_ERROR_OF_MEAN|3.921||0.3463|TWO_SIDED|95.0|-11.39|4.002|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||4.002|-11.39|0.3463
92162577|NCT00383188|184214407|SUPERIORITY||LSM Difference|-5.185|STANDARD_ERROR_OF_MEAN|3.312||0.1178|TWO_SIDED|95.0|-11.69|1.316|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||1.316|-11.69|0.1178
92162578|NCT00383188|184214407|SUPERIORITY||LSM Difference|-7.107|STANDARD_ERROR_OF_MEAN|3.245||0.0288|TWO_SIDED|95.0|-13.48|-0.737|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-0.737|-13.48|0.0288
92221070|NCT04251910|184342616|SUPERIORITY|||||||0.0011|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (4 hours)||||0.0011
92221071|NCT04251910|184342616|SUPERIORITY|||||||0.0008|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (8 hours)||||0.0008
92356941|NCT02732145|184619229|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Middle Vulvar Ring (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Middle Vulvar Ring (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
92356942|NCT02732145|184619229|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Inner Vulvar Ring (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.3335|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Inner Vulvar Ring (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.3335
92356943|NCT02732145|184619229|EQUIVALENCE|Question: Is there a difference in the score for the specificity of vulvar lesions (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8666|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the specificity of vulvar lesions (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8666
92356944|NCT02732145|184619229|EQUIVALENCE|Question: Is there a difference in the score for non-specific vulvar lesions (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8666|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for non-specific vulvar lesions (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8666
92356945|NCT02732145|184619229|EQUIVALENCE|Question: Is there a difference in the score for specific vulvar lesions (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for specific vulvar lesions (median) with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
92356946|NCT02732145|184619229|EQUIVALENCE|"Question: Is there a difference in the overall sum of points for the Vulvoscopy Index (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8144|||||||Wilcoxon (Mann-Whitney)|||"Parameter: The difference in the overall sum of points for the Vulvoscopy Index (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8144
92356947|NCT02732145|184619230|EQUIVALENCE|Question: Is there a difference in the score for vulvar complaints in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.5403|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for vulvar complaints (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.5403
92356948|NCT02732145|184619230|EQUIVALENCE|Question: Is there a difference in the score for Marinoff Index in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9248|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for Marinoff Index (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9248
92356949|NCT02732145|184619230|EQUIVALENCE|Question: Is there a difference in the score for the Cotton-Swab test in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9839|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the Cotton-Swab test (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9839
92356950|NCT02732145|184619230|EQUIVALENCE|Question: Is there a difference in the score for any lesion in any vulvar ring (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.5124|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any lesion in any vulvar ring (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.5124
92356951|NCT02732145|184619230|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.2058|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Outer Vulvar Ring (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.2058
92356952|NCT02732145|184619230|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.6412|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Middle Vulvar Ring (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.6412
92356953|NCT02732145|184619230|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9753|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Inner Vulvar Ring (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9753
92356954|NCT02732145|184619230|EQUIVALENCE|Question: Is there a difference in the score for the specificity of vulvar lesions in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.3621|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the specificity of vulvar lesions (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.3621
92356955|NCT02732145|184619230|EQUIVALENCE|Question: Is there a difference in the score for non-specific vulvar lesions in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8987|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for non-specific vulvar lesions (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8987
92356956|NCT02732145|184619230|EQUIVALENCE|Question: Is there a difference in the score for specific vulvar lesions in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology (first biopsy)?||||||0.0018|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for vulvar lesions specific for dermatosis (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology (first biopsy).||||0.0018
92356957|NCT02732145|184619230|EQUIVALENCE|"Question: Is there a difference in the overall sum of points for the Vulvoscopy Index in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.4409|||||||Wilcoxon (Mann-Whitney)|||"Parameter: The difference in the overall sum of points for the Vulvoscopy Index (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.4409
92356958|NCT02732145|184619231|OTHER|"Question: Determination of sensitivity of the N-S-P Scheme as a measure of the sensitivity of Three Rings Vulvoscopy, in comparison to the histopathological diagnosis of vulvar dermatosis."|Sensitivity (2x2 Table)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||"The Sensitivity of the N-S-P Scheme for Detection of Vulvar Dermatosis was 1.0000 (Range: 1.0000 - 1.0000)."|"Parameter: Sensitivity of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|1.0000|
92221072|NCT04251910|184342616|SUPERIORITY|||||||0.2847|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (24 hours)||||0.2847
92221073|NCT04251910|184342616|SUPERIORITY|||||||0.2616|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (Day 3)||||0.2616
92221074|NCT04251910|184342616|SUPERIORITY|||||||0.1989|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (Day 7)||||0.1989
92221075|NCT04251910|184342616|SUPERIORITY|||||||0.4585|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (30 minutes)||||0.4585
92221076|NCT04251910|184342616|SUPERIORITY|||||||0.0005|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (1 hour)||||0.0005
92221077|NCT04251910|184342616|SUPERIORITY|||||||0.0004|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (2 hours)||||0.0004
92221078|NCT04251910|184342616|SUPERIORITY|||||||0.0025|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (4 hours)||||0.0025
92221079|NCT04251910|184342616|SUPERIORITY|||||||0.1027|TWO_SIDED|95.0|||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (8 hours)||||0.1027
92221080|NCT04251910|184342616|SUPERIORITY|||||||0.7953|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (24 hours)||||0.7953
92221081|NCT04251910|184342616|SUPERIORITY|||||||0.1416|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 3)||||0.1416
92221082|NCT04251910|184342616|SUPERIORITY|||||||0.0658|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 7)||||0.0658
92221083|NCT04251910|184342617|SUPERIORITY|||||||0.876|||||||Mixed effects model|||Part A -30 mcg BXCL501 v/s Part A-Placebo (Day 1; 1 hour)||||0.8760
92221084|NCT04251910|184342617|SUPERIORITY|||||||0.9077|||||||Mixed effects model|||Part A 30 mcg BXCL501 v/s Part A-Placebo (Day 1; 2 hours)||||0.9077
92221085|NCT04251910|184342617|SUPERIORITY|||||||0.7208|||||||Mixed effects model|||Part A 30 mcg BXCL501 vs Part A-Placebo (Day1; 4 hours)||||0.7208
92221086|NCT04251910|184342617|SUPERIORITY|||||||0.3666|||||||Mixed effects model|||Part A BXCL501 30 mcg v/s Part A-Placebo(Day 1;8 hours)||||0.3666
92221087|NCT04251910|184342617|SUPERIORITY|||||||0.0191|||||||Mixed effects model|||Part A BXCL501 60 mcg v/s Placebo-Part A (Day1; 1 hour)||||0.0191
92221088|NCT04251910|184342617|SUPERIORITY|||||||0.0006|||||||Mixed effects model|||Part A BXCL501 60 mcg v/s Part A-Placebo (Day 1; 2 hours)||||0.0006
92221089|NCT04251910|184342617|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (Day 1; 4 hours)||||<.0001
92221090|NCT04251910|184342617|SUPERIORITY|||||||0.0003|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1;8 hours)||||0.0003
92221091|NCT04251910|184342617|SUPERIORITY|||||||0.0006|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 1 hour)||||0.0006
92221092|NCT04251910|184342617|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 2 hours)||||0.0002
92221093|NCT04251910|184342617|SUPERIORITY|||||||0.0029|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 4 hours)||||0.0029
92221094|NCT04251910|184342617|SUPERIORITY|||||||0.2446|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 8 hours)||||0.2446
92221095|NCT04251910|184342618|SUPERIORITY|||||||0.0926|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 30 minutes)||||0.0926
92221096|NCT04251910|184342618|SUPERIORITY|||||||0.3976|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 1 hour)||||0.3976
92221097|NCT04251910|184342618|SUPERIORITY|||||||0.1169|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 4 hours)||||0.1169
92221098|NCT04251910|184342618|SUPERIORITY|||||||0.3786|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 8 hours)||||0.3786
92221099|NCT04251910|184342618|SUPERIORITY|||||||0.564|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 2; 24hours)||||0.5640
92221100|NCT04251910|184342618|SUPERIORITY|||||||0.602|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 3)||||0.6020
92221101|NCT04251910|184342618|SUPERIORITY|||||||0.5875|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 7)||||0.5875
92221102|NCT04251910|184342618|SUPERIORITY|||||||0.1055|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 30 minutes)||||0.1055
92221103|NCT04251910|184342618|SUPERIORITY|||||||0.0024|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 1 hour)||||0.0024
92221104|NCT04251910|184342618|SUPERIORITY|||||||0.0016|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 4 hours)||||0.0016
92221105|NCT04251910|184342618|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 8 hours)||||0.0002
92221106|NCT04251910|184342618|SUPERIORITY|||||||0.2039|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 2; 24 hours)||||0.2039
92221107|NCT04251910|184342618|SUPERIORITY|||||||0.1948|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 3)||||0.1948
92221108|NCT04251910|184342618|SUPERIORITY|||||||0.5615|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 7)||||0.5615
92221109|NCT04251910|184342618|SUPERIORITY|||||||0.8266|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 30 minutes)||||0.8266
92221110|NCT04251910|184342618|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 1 hour)||||0.0002
92221111|NCT04251910|184342618|SUPERIORITY|||||||0.0004|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 4 hours)||||0.0004
92221112|NCT04251910|184342618|SUPERIORITY|||||||0.1037|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 8 hours)||||0.1037
92221113|NCT04251910|184342618|SUPERIORITY|||||||0.3267|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 2; 24 hours)||||0.3267
92221114|NCT04251910|184342618|SUPERIORITY|||||||0.0339|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 3)||||0.0339
92221115|NCT04251910|184342618|SUPERIORITY|||||||0.1892|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day7)||||0.1892
92221116|NCT04251910|184342619|SUPERIORITY|||||||0.3359|||||||Fisher Exact|||Part A-30 mcg BXCL501 V/S Part A-Placebo (2 hours post administration)||||0.3359
92221117|NCT04251910|184342619|SUPERIORITY|||||||0.0004|||||||Fisher Exact|||Part A-60 mcg BXCL501 V/S Part A-Placebo (2 hours post administration)||||0.0004
92221118|NCT04251910|184342619|SUPERIORITY|||||||0.0351|||||||Fisher Exact|||||||0.0351
92221119|NCT04251910|184342620|SUPERIORITY|||||||0.0952|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (2 hours)||||0.0952
92221120|NCT04251910|184342620|SUPERIORITY|||||||0.8977|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 2; 24 hours)||||0.8977
92221121|NCT04251910|184342620|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 2 hours)||||0.0002
92221122|NCT04251910|184342620|SUPERIORITY|||||||0.3147|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 2; 24 hours)||||0.3147
92221123|NCT04251910|184342620|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 2 hours)||||<.0001
92356959|NCT02732145|184619231|OTHER|"Question: Determination of specificity of the N-S-P Scheme as a measure of the specificity of Three Rings Vulvoscopy, in comparison to the histopathological diagnosis of vulvar dermatosis."|Specificity (2x2 Table)|0.9609|||||TWO_SIDED|95.0|0.5794|1.0|||||"The Specificity of the N-S-P Scheme for Detection of Vulvar Dermatosis was 0.9609 (Range: 0.5794 - 1.0000)."|"Parameter: Specificity of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.5794|
92356960|NCT02732145|184619231|OTHER|"Question: Determination of diagnostic accuracy of the N-S-P Scheme as a measure of the diagnostic value of the Three Rings Vulvoscopy, in relation to the histopathological diagnosis of vulvar dermatosis."|Diagnostic Accuracy (2x2 Table)|0.9695|||||TWO_SIDED|95.0|0.6313|1.0|||||"The Diagnostic accuracy of the N-S-P Scheme for Detection of Vulvar Dermatosis was 0.9695 (Range: 0.6313 - 1.0000)."|"Parameter: Diagnostic accuracy of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.6313|
92356961|NCT02732145|184619231|OTHER|"Question: Determination of positive predictive value of the N-S-P Scheme for detection of vulvar dermatosis in comparison to the histopathology results."|PPV (2x2 Table)|0.878|||||TWO_SIDED|95.0|0.227|1.0|||||"Positive predictive value of the N-S-P Scheme for Detection of Vulvar Dermatosis was 0.8780 (Range: 0.2270 - 1.0000)."|"Parameter: Positive predictive value of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.2270|
92356962|NCT02732145|184619231|OTHER|"Question: Determination of negative predictive value of the N-S-P Scheme for detection of vulvar dermatosis in comparison to the histopathology results."|NPV (2x2 Table)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||"Negative predictive value of the N-S-P Scheme for Detection of Vulvar Dermatosis was 1.0000 (Range: 1.0000 - 1.0000)."|"Parameter: Negative predictive value of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|1.0000|
92356963|NCT02732145|184619231|SUPERIORITY|"Question: Is there a difference in the diagnostic accuracy of the N-S-P Scheme as an outcome measure of the diagnostic value of Three Rings Vulvoscopy, and histopathology?"||||||0.6108|||||||t-test proportion|||"Parameter: The difference in the diagnostic accuracy between TRIV using the N-S-P Scheme and histopathology for detection of vulvar dermatosis."||||0.6108
92356964|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of N-#-# result (no lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.9286|||||||t-test proportion|||"Parameter: The difference in the frequency of N-#-# result (no lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.9286
92401410|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.221|TWO_SIDED|95.0|-2.8|0.65||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS total score.||0.65|-2.80|0.221
92221124|NCT04251910|184342620|SUPERIORITY|||||||0.1241|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 2; 24 hours)||||0.1241
92221125|NCT04251910|184342621|SUPERIORITY|||||||0.408|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 30 minutes)||||0.4080
92221126|NCT04251910|184342621|SUPERIORITY|||||||0.4198|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 1 hour)||||0.4198
92221127|NCT04251910|184342621|SUPERIORITY|||||||0.037|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day1; 2 hours)||||0.0370
92221128|NCT04251910|184342621|SUPERIORITY|||||||0.1324|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 4 hours)||||0.1324
92221129|NCT04251910|184342621|SUPERIORITY|||||||0.0624|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 8 hours)||||0.0624
92221130|NCT04251910|184342621|SUPERIORITY|||||||0.6334|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 30 minutes)||||0.6334
92356965|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of S-#-# result (non-specific lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8618|||||||t-test proportion|||"Parameter: The difference in the frequency of S-#-# result (non-specific lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8618
92221131|NCT04251910|184342621|SUPERIORITY|||||||0.0275|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 1 hour)||||0.0275
92221132|NCT04251910|184342621|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 2 hours)||||<.0001
92221133|NCT04251910|184342621|SUPERIORITY|||||||0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 4 hours)||||0.0001
92221134|NCT04251910|184342621|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day1; 8 hours)||||<.0001
92221135|NCT04251910|184342621|SUPERIORITY|||||||0.2806|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 30 minutes)||||0.2806
92221136|NCT04251910|184342621|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 1 hour)||||0.0002
92221137|NCT04251910|184342621|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 2 hour)||||<.0001
92221138|NCT04251910|184342621|SUPERIORITY|||||||0.0009|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 4 hours)||||0.0009
92356966|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of P-#-# result (specific lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.9786|||||||t-test proportion|||"Parameter: The difference in the frequency of P-#-# result (specific lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.9786
92162579|NCT00383188|184214407|SUPERIORITY||LSM Difference|-9.743|STANDARD_ERROR_OF_MEAN|3.772||0.01|TWO_SIDED|95.0|-17.15|-2.34|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.340|-17.15|0.0100
92162580|NCT00383188|184214407|SUPERIORITY||LSM Difference|-5.468|STANDARD_ERROR_OF_MEAN|3.888||0.16|TWO_SIDED|95.0|-13.1|2.164|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||2.164|-13.10|0.1600
92356967|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of #-N-# result (no lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||1|||||||t-test proportion|||"Parameter: The difference in the frequency of #-N-# result (no lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||1.0000
92356968|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of #-S-# result (non-specific lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8634|||||||t-test proportion|||"Parameter: The difference in the frequency of #-S-# result (non-specific lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8634
92356969|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of #-P-# result (specific lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.7992|||||||t-test proportion|||"Parameter: The difference in the frequency of #-P-# result (specific lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.7992
92356970|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-N result (no lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.3912|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-N result (no lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.3912
92356971|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-S result (non-specific lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.6152|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-S result (non-specific lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.6152
92356972|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-P result (specific lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.6108|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-P result (specific lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.6108
92356973|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of N-N-N result (no lesions) in any of the Three Vulvar Rings in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||1|||||||t-test proportion|||"Parameter: The difference in the frequency of N-N-N result (no lesions) in any of the Three Vulvar Rings in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||1.0000
92162581|NCT00383188|184214407|SUPERIORITY||LSM Difference|-0.4|STANDARD_ERROR_OF_MEAN|3.312||0.904|TWO_SIDED|95.0|-6.9|6.101|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||6.101|-6.900|0.9040
92221139|NCT04251910|184342621|SUPERIORITY|||||||0.0081|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 8 hours)||||0.0081
92221140|NCT04251910|184342622|SUPERIORITY|||||||0.0591|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 2 hours)||||0.0591
92221141|NCT04251910|184342622|SUPERIORITY|||||||0.0966|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 7)||||0.0966
92221142|NCT04251910|184342622|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 2 hours)||||<.0001
92221143|NCT04251910|184342622|SUPERIORITY|||||||0.029|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 7)||||0.0290
92221144|NCT04251910|184342622|SUPERIORITY|||||||0.0937|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 2 hours)||||0.0937
92221145|NCT04251910|184342622|SUPERIORITY|||||||0.2747|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 7)||||0.2747
92162582|NCT00383188|184214407|SUPERIORITY||LSM Difference|-6.895|STANDARD_ERROR_OF_MEAN|3.245||0.0339|TWO_SIDED|95.0|-13.26|-0.524|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-0.524|-13.26|0.0339
92221146|NCT04251910|184342625|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (2 hours post administration)||||0.0002
92221147|NCT01765920|184342668|SUPERIORITY|||||||0.0174||||||A priori threshold for statistical significance α=0.0221 (Pocock boundary for 3 interim analyses).|Kruskal-Wallis|||||||0.0174
92221148|NCT01765920|184342669|SUPERIORITY|||||||0.0719||||||A priori threshold for statistical significance α=0.0221 (Pocock boundary for 3 interim analyses).|Kruskal-Wallis|||||||0.0719
92221149|NCT01765920|184342670|SUPERIORITY|||||||0.02||||||Total score analysis. A priori threshold for statistical significance α=0.0221 (Pocock boundary for 3 interim analyses).|Kruskal-Wallis|||||||0.02
92221150|NCT01765920|184342670|SUPERIORITY|||||||0.0099||||||"Symptoms domain analysis. A priori threshold for statistical significance α=0.0221 (Pocock boundary for 3 interim analyses)."|Kruskal-Wallis|||||||0.0099
92221151|NCT01765920|184342670|SUPERIORITY|||||||0.037||||||"Ability domain analysis. A priori threshold for statistical significance α=0.0221 (Pocock boundary for 3 interim analyses)."|Kruskal-Wallis|||||||0.037
92221152|NCT01765920|184342671|SUPERIORITY|||||||0.22||||||Day 1 analysis.|Fisher Exact|||||||0.22
92221153|NCT01765920|184342671|SUPERIORITY|||||||0.32||||||Day 2 analysis.|Fisher Exact|||||||0.32
92221154|NCT01765920|184342671|SUPERIORITY|||||||0.47||||||Day 3 analysis.|Fisher Exact|||||||0.47
92356974|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of S result (non-specific lesions) in any of the Three Vulvar Rings (S-#-#; S-S-#; S-S-S; S-N-S etc.) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.7912|||||||t-test proportion|||"Parameter: The difference in the frequency of S result (non-specific lesions) in any of the Three Vulvar Rings (S-#-#; S-S-#; S-S-S; S-N-S etc.) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.7912
92221155|NCT01765920|184342671|SUPERIORITY|||||||0.72||||||Day 4 analysis.|Fisher Exact|||||||0.72
92356975|NCT02732145|184619232|SUPERIORITY|"Question: Is there a difference in the frequency of P result (specific lesions) in any of the Three Vulvar Rings (P-#-#; P-P-; P-P-P; P-N-S etc.) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||1|||||||t-test proportion|||"Parameter: The difference in the frequency of P result (specific lesions) in any of the Three Vulvar Rings (P-#-#; P-P-; P-P-P; P-N-S etc.) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||1.0000
92221156|NCT01765920|184342671|SUPERIORITY|||||||0.25||||||Day 5 analysis.|Fisher Exact|||||||0.25
92221157|NCT01765920|184342672|SUPERIORITY|||||||0.68|||||||Fisher Exact|||||||0.68
92221158|NCT00777101|184342687|NON_INFERIORITY|Non-inferiority of neratinib vs lapatinib + capecitabine was to be concluded if the upper limit of the 95% confidence interval (CI) for the hazard ratio was 1.15 or less.|Hazard Ratio (HR)|1.19||||0.231|TWO_SIDED|95.0|0.89|1.6|||Log Rank|The log-rank test comparing treatment groups is stratified by region.|The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by region.|||1.60|0.89|0.231
92221159|NCT02017327|184342694|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92221160|NCT02017327|184342694|SUPERIORITY|||||||0.0045|||||||Cochran-Mantel-Haenszel|||||||0.0045
92221161|NCT02411539|184342696|SUPERIORITY|Assuming that a common standard deviation of change (measured as difference of log10 transformed HIV-1 RNA/DNA ratios) in both arms was 0.30, with a sample size of 36 evaluable participants (18 in each arm), the study had 88% power to detect an effect size of 0.30 log10 (2-fold) in change of cell-associated HIV-1 RNA/DNA from baseline to week 6 using a two-sided Wilcoxon rank sum test at 10% type I error rate assuming a normal distribution||||||0.16||||||Two-sided Wilcoxon rank sum test at 10% significance level. Not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The primary efficacy analysis compared the change in cell-associated HIV-1 RNA/DNA ratio (log-transformed) from baseline to week 6 between the two randomized arms, testing the null hypothesis of no difference in changes in cell-associated HIV-1 RNA/DNA ratio between the two arms using a Wilcoxon rank sum test at 10% significance level.||||0.16
92221162|NCT01947816|184342745|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 24||||< 0.0001
92221163|NCT01947816|184342745|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 52||||< 0.0001
92221164|NCT01947816|184342745|SUPERIORITY|||||||0.5512|||||||paired t-test|||Change from Baseline When Discontinued||||0.5512
92221165|NCT01947816|184342745|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Final Assessment||||< 0.0001
92221166|NCT01947816|184342747|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 4||||< 0.0001
92221167|NCT01947816|184342747|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 8||||< 0.0001
92221168|NCT01947816|184342747|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 16||||< 0.0001
92221169|NCT01947816|184342747|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 24||||< 0.0001
92221170|NCT01947816|184342747|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 52||||< 0.0001
92221171|NCT01947816|184342747|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline when discontinued||||< 0.0001
92221172|NCT01947816|184342747|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Final Assessment||||< 0.0001
92356976|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of N-#-# result (no lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.253|||||||t-test proportion|||"Parameter: The difference in the frequency of N-#-# result (no lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.2530
92221173|NCT01265797|184342753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|The Mann-Whitney U test was used to compare outcome measures between two treatment groups in the run-in month minus blinded month||The a priori alpha level was set at p \< 0.05, and a power of 0.80 (80%) was used to compute the number of subjects needed to find a meaningful difference between the verum and sham groups. Assuming that 20% of persons with the sham device and 60% of persons with CES device will meet the primary end point of ≥50% decrease in the frequency of headache days over the course of the study, 27 subjects are enrolled per group.||||0.30
92221174|NCT01265797|184342754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.89|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|The Mann-Whitney U test was used to compare secondary outcome measures between two treatment groups in the run-in month minus open label month||||||0.89
92221175|NCT01265797|184342755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.30
92356977|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of S-#-# result (non-specific lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8338|||||||t-test proportion|||"Parameter: The difference in the frequency of S-#-# result (non-specific lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8338
92356978|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of P-#-# result (specific lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.0019|||||||t-test proportion|||"Parameter: The difference in the frequency of P-#-# result (specific lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.0019
92356979|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of #-N-# result (no lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.6541|||||||t-test proportion|||"Parameter: The difference in the frequency of #-N-# result (no lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.6541
92356980|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of #-S-# result (non-specific lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8224|||||||t-test proportion|||"Parameter: The difference in the frequency of #-S-# result (non-specific lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8224
92356981|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of #-P-# result (specific lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.0064|||||||t-test proportion|||"Parameter: The difference in the frequency of #-P-# result (specific lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.0064
92356982|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-N result (no lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.9723|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-N result (no lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.9723
92356983|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-S result (non-specific lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8161|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-S result (non-specific lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8161
92356984|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-P result (specific lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.1165|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-P result (specific lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.1165
92356985|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of N-N-N result (no lesions) in any of the Three Vulvar Rings in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.6339|||||||t-test proportion|||"Parameter: The difference in the frequency of N-N-N result (no lesions) in any of the Three Vulvar Rings in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.6339
92221176|NCT01265797|184342756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.98|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|The Mann-Whitney U test was used to compare the primary and secondary outcome measures between the two treatment groups.||The a priori alpha level was set at p \< 0.05, and beta 0.2. Assuming that 20% of persons with the sham device and 60% of persons with CES device will meet the primary end point of ≥50% decrease in the frequency of headache days over the course of the study, 27 subjects are enrolled per group. The null hypothesis: No difference in the depression score/14 day recall between the two groups.||||0.98
92356986|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of S result (non-specific lesions) in any of the Three Vulvar Rings (S-#-#; S-S-#; S-S-S; S-N-S etc.) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.9724|||||||t-test proportion|||"Parameter: The difference in the frequency of S result (non-specific lesions) in any of the Three Vulvar Rings (S-#-#; S-S-#; S-S-S; S-N-S etc.) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.9724
92356987|NCT02732145|184619233|SUPERIORITY|"Question: Is there a difference in the frequency of P result (specific lesions) in any of the Three Vulvar Rings (P-#-#; P-P-; P-P-P; P-N-S etc.) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.0016|||||||t-test proportion|||"Parameter: The difference in the frequency of P result (specific lesions) in any of the Three Vulvar Rings (P-#-#; P-P-; P-P-P; P-N-S etc.) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.0016
92356988|NCT02732145|184619234|EQUIVALENCE|Question: Is there a difference in the age of patients from different groups?||||||0|||||||ANOVA|||Parameter: The difference in the age of patients from different groups.||||0.0000
92221177|NCT01265797|184342757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91||||0.75|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.75
92221178|NCT01265797|184342758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.73|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.73
92356989|NCT02732145|184619235|EQUIVALENCE|Is there a difference in the weight of patients from different groups?||||||0|||||||ANOVA|||The difference in the weight of patients from different groups.||||0.0000
92356990|NCT02732145|184619236|EQUIVALENCE|Is there a difference in the height of patients from different groups.||||||0.0557|||||||ANOVA|||The difference in the height of patients from different groups.||||0.0557
92356991|NCT02732145|184619237|EQUIVALENCE|Is there a difference in the body mass index of patients from different groups.||||||0|||||||ANOVA|||The difference in the body mass index of patients from different groups.||||0.0000
92356992|NCT02732145|184619238|EQUIVALENCE|Question: Is there a difference in the incidence of patients older than 65 years in different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of patients older than 65 years between different groups.||||0.0000
92401411|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.974|TWO_SIDED|95.0|-0.88|0.85||P-value is for item 1. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS Item 1 score.||0.85|-0.88|0.974
92401412|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.093|TWO_SIDED|95.0|-1.63|0.13||P-value is for Item 1. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in SDS Item 1 score.||0.13|-1.63|0.093
92401413|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74||||0.091|TWO_SIDED|95.0|-1.59|0.12||P-value is for item 1. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS Item 1 score.||0.12|-1.59|0.091
92162583|NCT00383188|184214407|SUPERIORITY||LSM Difference|-8.891|STANDARD_ERROR_OF_MEAN|3.771||0.0186|TWO_SIDED|95.0|-16.29|-1.488|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-1.488|-16.29|0.0186
92401414|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.733|TWO_SIDED|95.0|-0.75|0.52||P-value is for item 2. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS Item 2 score.||0.52|-0.75|0.733
92162584|NCT00383188|184214407|SUPERIORITY||LSM Difference|-2.714|STANDARD_ERROR_OF_MEAN|3.888||0.4854|TWO_SIDED|95.0|-10.35|4.918|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||4.918|-10.35|0.4854
92221179|NCT01265797|184342759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74||||0.02|TWO_SIDED|||||Change in mean anxiety score/ 14 day recall from the blinded period to open label period|Wilcoxon (Mann-Whitney)|||||||0.02
92221180|NCT01265797|184342760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.98|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.98
92221181|NCT01265797|184342761|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.97|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.97
92221182|NCT01265797|184342762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.87|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.87
92221183|NCT01265797|184342763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.83
92221184|NCT01265797|184342764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.92|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.92
92221185|NCT03998046|184342795|SUPERIORITY|||||||0.85|||||||Chi-squared|||||||.85
92221186|NCT03998046|184342797|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||.20
92221187|NCT03998046|184342798|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||.38
92221188|NCT03998046|184342799|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||.02
92221189|NCT03998046|184342800|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
92221190|NCT03998046|184342801|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||.13
92221191|NCT03998046|184342802|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||||||.61
92221192|NCT03998046|184342803|SUPERIORITY|||||||0.56|||||||Chi-squared|||||||.56
92221193|NCT00078325|184342827|SUPERIORITY_OR_OTHER|||||||0.0001|||||||ANOVA|Treatment and country as factors.||||||0.0001
92221194|NCT00078325|184342827|SUPERIORITY_OR_OTHER|||||||0.0008|||||||ANOVA|Treatment and country as factors.||||||0.0008
92221195|NCT00078325|184342828|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Adjusted for country.||||||<0.0001
92221196|NCT00078325|184342828|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Adjusted for country.||||||<0.0001
92221197|NCT01519765|184342845|SUPERIORITY_OR_OTHER|||||||0.1611|||||||Fisher Exact|||A consecutive sample will be used as women are recruited. Based on an 80% power and an alpha of 0.05, a sample size of 103 subjects in each arm is required to detect a 20% difference between deliveries within 24hrs between the two treatment arms. An effect size of 20% was selected as this is thought to be a clinically significant difference. This is based on the Wing study showing 50% delivery within 24 hrs with vaginal misoprostol.||||0.1611
92221198|NCT01519765|184342846|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||t-test, 2 sided|||||||0.018
92221199|NCT01519765|184342847|SUPERIORITY_OR_OTHER|||||||0.0623|||||||Kruskal-Wallis|||||||0.0623
92221200|NCT01519765|184342848|SUPERIORITY_OR_OTHER|||||||0.1141|TWO_SIDED||||||Kruskal-Wallis|||||||0.1141
92221201|NCT01519765|184342849|SUPERIORITY_OR_OTHER|||||||0.4469|TWO_SIDED||||||Fisher Exact|||||||0.4469
92221202|NCT01519765|184342850|SUPERIORITY_OR_OTHER|||||||0.4469|TWO_SIDED||||||Fisher Exact|||||||0.4469
92221203|NCT01519765|184342851|SUPERIORITY_OR_OTHER|||||||0.093|TWO_SIDED||||||Kruskal-Wallis|||||||0.093
92221204|NCT01519765|184342852|SUPERIORITY_OR_OTHER|||||||0.2417|TWO_SIDED||||||Fisher Exact|||||||0.2417
92221205|NCT01519765|184342853|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1
92356993|NCT02732145|184619238|EQUIVALENCE|Question: Is there a difference in the incidence of menopausal patients among different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of menopausal patients among different groups.||||0.0000
92356994|NCT02732145|184619238|EQUIVALENCE|Question: Is there a difference in the incidence of domicile country (Croatia) as a country of birth among patients from different groups.||||||0.3708|||||||Chi-squared|||Parameter: The difference in the incidence of domicile country (Croatia) as a country of birth among patients from different groups.||||0.3708
92356995|NCT02732145|184619238|EQUIVALENCE|Question: Is there a difference in the incidence of patients educated equally or less than 12 years among different groups?||||||0.018|||||||Chi-squared|||Parameter: The difference in the incidence of patients educated equally or less than 12 years among different groups.||||0.0180
92356996|NCT02732145|184619238|EQUIVALENCE|Question: Is there a difference in marital status among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of marital status among patients from different groups.||||0.0000
92221206|NCT01519765|184342854|SUPERIORITY_OR_OTHER|||||||0.1054|TWO_SIDED||||||Fisher Exact|||||||0.1054
92221207|NCT01519765|184342855|SUPERIORITY_OR_OTHER|||||||0.8043|TWO_SIDED||||||Fisher Exact|||||||0.8043
92221208|NCT01519765|184342856|SUPERIORITY_OR_OTHER|||||||0.797|TWO_SIDED||||||Fisher Exact|||||||0.797
92221209|NCT01519765|184342857|SUPERIORITY_OR_OTHER|||||||0.751|||||||Fisher Exact|||||||0.751
92221210|NCT01519765|184342858|SUPERIORITY_OR_OTHER|||||||0.6244|TWO_SIDED||||||Fisher Exact|||||||0.6244
92221211|NCT01519765|184342859|SUPERIORITY_OR_OTHER|||||||0.7906|TWO_SIDED||||||Fisher Exact|||||||0.7906
92221212|NCT01519765|184342860|SUPERIORITY_OR_OTHER|||||||0.5118|TWO_SIDED||||||Fisher Exact|||||||0.5118
92221213|NCT01519765|184342861|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1
92221214|NCT01519765|184342862|SUPERIORITY_OR_OTHER|||||||0.741|TWO_SIDED||||||Fisher Exact|||||||0.741
92356997|NCT02732145|184619238|EQUIVALENCE|Question: Is there a difference in the nulliparity among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the nulliparity among patients from different groups.||||0.0000
92356998|NCT02732145|184619238|EQUIVALENCE|Question: Is there a difference in the multiparity among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the multiparity among patients from different groups.||||0.0000
92221215|NCT01519765|184342863|SUPERIORITY_OR_OTHER|||||||0.579|TWO_SIDED||||||Kruskal-Wallis|||||||0.579
92221216|NCT01519765|184342864|SUPERIORITY_OR_OTHER|||||||0.8062|||||||Kruskal-Wallis|||Score for Nausea and vomiting||||.8062
92221217|NCT01519765|184342864|SUPERIORITY_OR_OTHER|||||||0.1505|||||||Kruskal-Wallis|||Effectiveness||||0.1505
92221218|NCT01519765|184342864|SUPERIORITY_OR_OTHER|||||||0.1223|||||||Kruskal-Wallis|||Patient concern||||0.1223
92221219|NCT01519765|184342864|SUPERIORITY_OR_OTHER|||||||0.538||||||Patient satisfaction|Kruskal-Wallis|||Labor satisfaction||||0.5380
92221220|NCT01519765|184342865|SUPERIORITY_OR_OTHER|||||||0.2868||||||This is the overall p value of all rows.|Chi-squared|||||||0.2868
92221221|NCT01699542|184342886|SUPERIORITY|||||||0.159|||||||Generalized Linear Model|||||||0.159
92221222|NCT02943564|184342904|SUPERIORITY||Least Squares Mean Difference|0.1||||0.8862|TWO_SIDED|95.0|-1.5|1.73|||Mixed Model Repeated Measures (MMRM)|||||1.73|-1.50|0.8862
92221223|NCT02943564|184342904|SUPERIORITY||Least Squares Mean Difference|-0.5||||0.5772|TWO_SIDED|95.0|-2.07|1.16|||Mixed Model Repeated Measures (MMRM)|||||1.16|-2.07|0.5772
92221224|NCT02943564|184342905|SUPERIORITY||Least Squares Mean Difference|-0.1||||0.8967|TWO_SIDED|95.0|-1.48|1.29|||Mixed Model Repeated Measures (MMRM)|||||1.29|-1.48|0.8967
92221225|NCT02943564|184342905|SUPERIORITY||Least Squares Mean Difference|0.0||||0.9963|TWO_SIDED|95.0|-1.38|1.39|||Mixed Model Repeated Measures (MMRM)|||||1.39|-1.38|0.9963
92221226|NCT00874120|184342942|SUPERIORITY_OR_OTHER||residual error term from the ANOVA|-0.5||||0.548|TWO_SIDED|95.0|-2.0|1.1||P-value is based on an ANOVA model including sequence, subject within sequence, period and treatment as factors.|ANOVA|||||1.1|-2.0|0.5480
92221227|NCT03615183|184342943|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-1.36|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8527 and placebo ≤ -1.0 copies/mL was 99.72%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK- 8527 and placebo is at least 1.0 log10 copies/mL.||||
92221228|NCT03615183|184342943|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-1.63|||||||||||||PP of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8527 and placebo ≤ -1.0 copies/mL was 99.86%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK- 8527 and placebo is at least 1.0 log10 copies/mL.||||
92356999|NCT02732145|184619238|EQUIVALENCE|Question: Is there a difference in the number of abortions among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the number of abortions among patients from different groups.||||0.0000
92357000|NCT02732145|184619238|EQUIVALENCE|Question: Is there a difference in the using of contraception among patients from different groups?||||||0.1323|||||||Chi-squared|||Parameter: The difference in the using of contraception among patients from different groups.||||0.1323
92357001|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of symptoms of the dull pain of the vulva among patients with vulvar discomfort?||||||0.3158|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the dull pain of the vulva (burning, stinging, soreness, irritation, itching, inflammation, aching) among patients with vulvar discomfort.||||0.3158
92357002|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of symptoms of the sharp pain of the vulva among patients with vulvar discomfort?||||||0.0007|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the sharp pain in the vulva (stabbing, sticking, knife-like pain, paper-cuts pain) among patients with vulvar discomfort.||||0.0007
92357003|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of the dull pain versus the sharp pain of the vulva in the patients with vulvar dermatosis?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the dull pain versus the sharp pain of the vulva in patients with vulvar dermatosis.||||0.0000
92357004|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of the dull pain versus the sharp pain of the vulva in the patients with vulvodynia?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the dull pain versus the sharp pain of the vulva in patients with vulvodynia.||||0.0000
92357005|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of vulvar burning among patients with vulvar discomfort?||||||0.0147|||||||Chi-squared|||Parameter: The difference in the incidence of vulvar burning among patients with vulvar discomfort.||||0.0147
92357006|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of vulvar stinging among patients with vulvar discomfort?||||||0.8456|||||||Chi-squared|||Parameter: The difference in the incidence of vulvar stinging among patients with vulvar discomfort.||||0.8456
92357007|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of vulvar soreness among patients with vulvar discomfort?||||||0.0076|||||||Chi-squared|||Parameter: The difference in the incidence of vulvar soreness among patients with vulvar discomfort.||||0.0076
92162585|NCT00383188|184214407|SUPERIORITY||LSM Difference|-1.387|STANDARD_ERROR_OF_MEAN|3.311||0.6753|TWO_SIDED|95.0|-7.886|5.112|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||5.112|-7.886|0.6753
92162586|NCT00383188|184214407|SUPERIORITY||LSM Difference|-11.09|STANDARD_ERROR_OF_MEAN|3.244||0.0007|TWO_SIDED|95.0|-17.46|-4.724|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-4.724|-17.46|0.0007
92162587|NCT00383188|184214407|SUPERIORITY||LSM Difference|-9.535|STANDARD_ERROR_OF_MEAN|3.771||0.0116|TWO_SIDED|95.0|-16.94|-2.134|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.134|-16.94|0.0116
92162588|NCT00383188|184214407|SUPERIORITY||LSM Difference|-8.322|STANDARD_ERROR_OF_MEAN|3.888||0.0326|TWO_SIDED|95.0|-15.95|-0.691|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-0.691|-15.95|0.0326
92357008|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of irritation of the vulva among the patients with vulvar discomfort?||||||0.0423|||||||Chi-squared|||Parameter: The difference in the incidence of irritation of the vulva among patients with vulvar discomfort.||||0.0423
92357009|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of the knife-like pain in the vulva among the patients with vulvar discomfort?||||||0.0457|||||||Chi-squared|||Parameter: The difference in the incidence of the knife-like pain in the vulva among patients with vulvar discomfort.||||0.0457
92357010|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of the paper-cuts pain of the vulva among the patients with vulvar discomfort?||||||0.043|||||||Chi-squared|||Parameter: The difference in the incidence of the paper-cuts pain of the vulva among patients with vulvar discomfort.||||0.0430
92357011|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of the stabbing of the vulva among the patients with vulvar discomfort?||||||0.0134|||||||Chi-squared|||Parameter: The difference in the incidence of the stabbing of the vulva among patients with vulvar discomfort.||||0.0134
92357012|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of sticking of the vulva among the patients with vulvar discomfort?||||||0.0581|||||||Chi-squared|||Parameter: The difference in the incidence of sticking of the vulva among patients with vulvar discomfort.||||0.0581
92357013|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of itching of the vulva among the patients with vulvar discomfort?||||||0.0002|||||||Chi-squared|||Parameter: The difference in the incidence of itching of the vulva among patients with vulvar discomfort.||||0.0002
92357014|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of the feeling of inflammation of the vulva among the patients with vulvar discomfort?|t-test proportion|0.0||||0.0852|TWO_SIDED||||||Chi-squared|||Parameter: The difference in the incidence of the feeling of inflammation of the vulva among patients with vulvar discomfort.||||0.0852
92357015|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the incidence of aching of the vulva among the patients with vulvar discomfort?||||||0.0001|||||||Chi-squared|||Parameter: The difference in the incidence of aching of the vulva among patients with vulvar discomfort.||||0.0001
92357016|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the association of different symptoms of the vulva among the patients with vulvar discomfort?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of association of different vulvar symptoms among patients with vulvar discomfort.||||0.0000
92357017|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus burning in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus burning in patients with vulvar dermatosis.||||0.0000
92221229|NCT03615183|184342943|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-0.92|||||||||||||PP of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8527 and placebo ≤ -1.0 copies/mL was 9.42%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK- 8527 and placebo is at least 1.0 log10 copies/mL.||||
92276541|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.0436|TWO_SIDED|95.0|-0.18|0.0|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0|-0.18|0.0436
92357018|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus stinging in the patients with vulvar dermatosis?||||||0.0008|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus stinging in patients with vulvar dermatosis.||||0.0008
92401415|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.102|TWO_SIDED|95.0|-1.15|0.11||P-value is for item 2. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in SDS item 2 score.||0.11|-1.15|0.102
92162589|NCT00383188|184214407|SUPERIORITY||LSM Difference|-3.624|STANDARD_ERROR_OF_MEAN|3.309||0.2738|TWO_SIDED|95.0|-10.12|2.872|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||2.872|-10.12|0.2738
92162590|NCT00383188|184214407|SUPERIORITY||LSM Difference|-9.778|STANDARD_ERROR_OF_MEAN|3.243||0.0026|TWO_SIDED|95.0|-16.14|-3.412|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-3.412|-16.14|0.0026
92162591|NCT00383188|184214407|SUPERIORITY||LSM Difference|-9.339|STANDARD_ERROR_OF_MEAN|3.769||0.0134|TWO_SIDED|95.0|-16.74|-1.941|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-1.941|-16.74|0.0134
92162592|NCT00383188|184214407|SUPERIORITY||LSM Difference|-5.528|STANDARD_ERROR_OF_MEAN|3.886||0.1553|TWO_SIDED|95.0|-13.16|2.101|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||2.101|-13.16|0.1553
92162593|NCT00383188|184214407|SUPERIORITY||LSM Difference|-0.118|STANDARD_ERROR_OF_MEAN|3.444||0.9726|TWO_SIDED|95.0|-6.878|6.641|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||6.641|-6.878|0.9726
92162594|NCT00383188|184214407|SUPERIORITY||LSM Difference|1.409|STANDARD_ERROR_OF_MEAN|3.321||0.6714|TWO_SIDED|95.0|-5.109|7.928|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||7.928|-5.109|0.6714
92162595|NCT00383188|184214407|SUPERIORITY||LSM Difference|0.646|STANDARD_ERROR_OF_MEAN|3.925||0.8693|TWO_SIDED|95.0|-7.058|8.351|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||8.351|-7.058|0.8693
92162596|NCT00383188|184214407|SUPERIORITY||LSM Difference|1.289|STANDARD_ERROR_OF_MEAN|4.035||0.7495|TWO_SIDED|95.0|-6.631|9.208|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||9.208|-6.631|0.7495
92162597|NCT00383188|184214408|SUPERIORITY||LSM Difference|-8.983|STANDARD_ERROR_OF_MEAN|4.469||0.0447|TWO_SIDED|95.0|-17.75|-0.214|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-0.214|-17.75|0.0447
92162598|NCT00383188|184214408|SUPERIORITY||LSM Difference|-15.12|STANDARD_ERROR_OF_MEAN|4.345||0.0005|TWO_SIDED|95.0|-23.65|-6.596|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-6.596|-23.65|0.0005
92162599|NCT00383188|184214408|SUPERIORITY||LSM Difference|-17.07|STANDARD_ERROR_OF_MEAN|4.981||0.0006|TWO_SIDED|95.0|-26.84|-7.296|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-7.296|-26.84|0.0006
92357019|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus soreness in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus soreness in patients with vulvar dermatosis.||||0.0000
92162600|NCT00383188|184214408|SUPERIORITY||LSM Difference|-16.26|STANDARD_ERROR_OF_MEAN|5.218||0.0019|TWO_SIDED|95.0|-26.49|-6.018|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-6.018|-26.49|0.0019
92357020|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus irritation in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus irritation in patients with vulvar dermatosis.||||0.0000
92162601|NCT00383188|184214408|SUPERIORITY||LSM Difference|-3.841|STANDARD_ERROR_OF_MEAN|4.366||0.3792|TWO_SIDED|95.0|-12.41|4.726|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||4.726|-12.41|0.3792
92357021|NCT02732145|184619239|SUPERIORITY|||||||0||||||There was a statistically significant difference at p\<0.001. Patients with vulvar dermatosis had significantly more often itching than the feeling of inflammation of the vulva.|t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus the feeling of inflammation in patients with vulvar dermatosis.||||0.0000
92357022|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus aching in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus aching in patients with vulvar dermatosis.||||0.0000
92357023|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus burning in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus burning in patients with vulvar dermatosis.||||0.0000
92357024|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus soreness in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus soreness in patients with vulvar dermatosis.||||0.0000
92357025|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus irritation in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus irritation in patients with vulvar dermatosis.||||0.0000
92357026|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus the feeling of inflammation in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus the feeling of inflammation in patients with vulvar dermatosis.||||0.0000
92357027|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus aching in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus aching in patients with vulvar dermatosis.||||0.0000
92357028|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus burning in the patients with vulvar dermatosis?||||||0.8591|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus burning in patients with vulvar dermatosis.||||0.8591
92357029|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus soreness in the patients with vulvar dermatosis?||||||0.009|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus soreness in patients with vulvar dermatosis.||||0.0090
92401416|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.193|TWO_SIDED|95.0|-1.04|0.21||P-value is for item 2. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS item 2 score.||0.21|-1.04|0.193
92162602|NCT00383188|184214408|SUPERIORITY||LSM Difference|-9.345|STANDARD_ERROR_OF_MEAN|4.237||0.0276|TWO_SIDED|95.0|-17.66|-1.031|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-1.031|-17.66|0.0276
92162603|NCT00383188|184214408|SUPERIORITY||LSM Difference|-12.69|STANDARD_ERROR_OF_MEAN|4.873||0.0093|TWO_SIDED|95.0|-22.25|-3.128|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-3.128|-22.25|0.0093
92357030|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus irritation in the patients with vulvar dermatosis?||||||0.0212|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus irritation in patients with vulvar dermatosis.||||0.0212
92357031|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus the feeling of inflammation in the patients with vulvar dermatosis?||||||0.0057|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus the feeling of inflammation in patients with vulvar dermatosis.||||0.0057
92357032|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus knife-like pain in the patients with vulvar dermatosis who had sharp pain?||||||0.0977|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus knife-like pain in patients with vulvar dermatosis who had sharp vulvar pain.||||0.0977
92357033|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus paper-cuts pain in the patients with vulvar dermatosis who had sharp pain?||||||0.0143|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus paper-cuts pain in patients with vulvar dermatosis who had sharp vulvar pain.||||0.0143
92357034|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus stabbing in the patients with vulvar dermatosis who had sharp pain?||||||0.2059|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus stabbing in patients with vulvar dermatosis who had sharp vulvar pain.||||0.2059
92221230|NCT00105443|184342960|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6931||||0.00583||95.0|0.5549|0.8658||According to the pre-specified O'Brien-Fleming alpha spending function, the alpha value for this second interim analysis was 0.0073 (corresponding to a nominal value of 0.0077 after taking into account the first interim analysis).|Log Rank||This is the sorafenib to placebo hazard ratio.|"The 2 arms were compared using a 1-sided log-rank test with an overall alpha of 0.02 stratified by region, ECOG PS and tumor burden. In addition to the final analysis at the end of the study, 2 formal interim analyses of overall survival were planned. An alpha spending function was used to ensure that the false positive rate is less than or equal to 0.02 (1-sided). The study was stopped at the second interim analysis, the results of which are reported here."||0.8658|0.5549|0.00583
92162604|NCT00383188|184214408|SUPERIORITY||LSM Difference|-9.599|STANDARD_ERROR_OF_MEAN|5.03||0.0566|TWO_SIDED|95.0|-19.47|0.271|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||0.271|-19.47|0.0566
92357035|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stabbing versus knife-like pain in the patients with vulvar dermatosis who had sharp pain?||||||0.682|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stabbing versus knife-like pain in patients with vulvar dermatosis who had sharp vulvar pain.||||0.6820
92357036|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stabbing versus paper-cuts pain in the patients with vulvar dermatosis who had sharp pain?||||||0.2059|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stabbing versus paper-cuts pain in patients with vulvar dermatosis who had sharp vulvar pain.||||0.2059
92357037|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus burning in the patients with vulvodynia?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus burning in patients with vulvodynia.||||0.0000
92357038|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus soreness in the patients with vulvodynia?||||||0.0344|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus soreness in patients with vulvodynia.||||0.0344
92357039|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus irritation in the patients with vulvodynia?||||||0.0023|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus irritation in patients with vulvodynia.||||0.0023
92357040|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus itching in the patients with vulvodynia?||||||0.5675|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus itching in patients with vulvodynia.||||0.5675
92357041|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus the feeling of inflammation in the patients with vulvodynia?||||||0.0037|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus the feeling of inflammation in patients with vulvodynia.||||0.0037
92357042|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus aching in the patients with vulvodynia?||||||0.0005|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus aching in patients with vulvodynia.||||0.0005
92357043|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus burning in the patients with vulvodynia?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus burning in patients with vulvodynia.||||0.0000
92357044|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus soreness in the patients with vulvodynia?||||||0.1201|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus soreness in patients with vulvodynia.||||0.1201
92357045|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus irritation in the patients with vulvodynia?||||||0.0123|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus irritation in patients with vulvodynia.||||0.0123
92357046|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus the feeling of inflammation in the patients with vulvodynia?||||||0.0188|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus the feeling of inflammation in patients with vulvodynia.||||0.0188
92401417|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.584|TWO_SIDED|95.0|-0.76|0.43||P-value is for item 3. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS item 3 score.||0.43|-0.76|0.584
92357047|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus aching in the patients with vulvodynia?||||||0.003|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus aching in patients with vulvodynia.||||0.0030
92357048|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus burning in the patients with vulvodynia?||||||0.2155|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus burning in patients with vulvodynia.||||0.2155
92162605|NCT00383188|184214408|SUPERIORITY||LSM Difference|0.803|STANDARD_ERROR_OF_MEAN|4.366||0.854|TWO_SIDED|95.0|-7.764|9.37|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||9.370|-7.764|0.8540
92357049|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus soreness in the patients with vulvodynia?||||||0.1508|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus soreness in patients with vulvodynia.||||0.1508
92357050|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus irritation in the patients with vulvodynia?||||||0.6364|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus irritation in patients with vulvodynia.||||0.6364
92357051|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus the feeling of inflammation in the patients with vulvodynia?||||||0.5277|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus the feeling of inflammation in patients with vulvodynia.||||0.5277
92357052|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus knife-like pain in the patients with vulvodynia who had sharp vulvar pain?||||||0.2041|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus knife-like pain in patients with vulvodynia who had sharp vulvar pain.||||0.2041
92357053|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus paper-cuts pain in the patients with vulvodynia who had sharp vulvar pain?||||||0.0412|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus paper-cuts pain in patients with vulvodynia who had sharp vulvar pain.||||0.0412
92357054|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus stabbing in the patients with vulvodynia who had sharp vulvar pain?||||||0.7978|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus stabbing in patients with vulvodynia who had sharp vulvar pain.||||0.7978
92357055|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stabbing versus knife-like pain in the patients with vulvodynia who had sharp vulvar pain?||||||0.3094|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stabbing versus knife-like pain in patients with vulvodynia who had sharp vulvar pain.||||0.3094
92357056|NCT02732145|184619239|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stabbing versus paper-cuts pain in the patients with vulvodynia who had sharp vulvar pain?||||||0.073|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stabbing versus paper-cuts pain in patients with vulvodynia who had sharp vulvar pain.||||0.0730
92357057|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the duration of vulvar complaints for more than 24 months among patients with vulvar dermatosis and vulvodynia?||||||0.4038|||||||Chi-squared|||Parameter: The difference in the duration of vulvar complaints for more than 24 months among patients with vulvar dermatosis or vulvodynia.||||0.4038
92357058|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the duration of vulvar complaints for more than 12 months among patients with vulvar dermatosis and vulvodynia?||||||0.7299|||||||Chi-squared|||Parameter: The difference in the duration of vulvar complaints for more than 12 months among patients with vulvar dermatosis or vulvodynia.||||0.7299
92357059|NCT02732145|184619239|EQUIVALENCE|Question: Is there a difference in the duration of vulvar complaints for more than six months among patients with vulvar dermatosis and vulvodynia?||||||0.7241|||||||Chi-squared|||Parameter: The difference in the duration of vulvar complaints for more than six months among patients with vulvar dermatosis or vulvodynia.||||0.7241
92357060|NCT02732145|184619240|EQUIVALENCE|Question: Is there a difference in the sexual activity among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the sexual activity among patients from different groups.||||0.0000
92357061|NCT02732145|184619240|EQUIVALENCE|Question: Is there a difference in the frequency of dyspareunia as a cause of sexual inactivity among patients from different groups?||||||0.0006|||||||Chi-squared|||Parameter: The difference in the frequency of dyspareunia as a cause of sexual inactivity among patients from different groups.||||0.0006
92357062|NCT02732145|184619240|EQUIVALENCE|Question: Is there a difference in the frequency of sexual inactivity due to dyspareunia and lack of a sexual partner among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the frequency of sexual inactivity due to dyspareunia and lack of a sexual partner among patients from different groups.||||0.0000
92357063|NCT02732145|184619241|EQUIVALENCE|Question: Is there a difference in the frequency of dyspareunia among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the frequency of dyspareunia among patients from different groups.||||0.0000
92357064|NCT02732145|184619241|EQUIVALENCE|Parameter: The difference in the degree of dyspareunia (Marinoff Index) among sexually active patients with vulvodynia or vulvar dermatosis who had dyspareunia.||||||0.2999|||||||Chi-squared|||Parameter: The difference in the degree of dyspareunia (Marinoff Index) among sexually active patients with vulvodynia or vulvar dermatosis who had dyspareunia.||||0.2999
92357065|NCT02732145|184619242|EQUIVALENCE|Question: Is there a difference in the incidence of the frequency of vulvar discomfort provoked through the intercourse in patients with vulvodynia and vulvar dermatosis?||||||0|||||||Chi-squared|||Parameter: The difference in the frequency of vulvar discomfort provoked through the intercourse in patients with vulvodynia and vulvar dermatosis.||||0.0000
92357066|NCT02732145|184619242|EQUIVALENCE|Question: Is there a difference in the frequency of vulvar discomfort provoked through the penetration in patients with vulvodynia and vulvar dermatosis?||||||0.0347|||||||Chi-squared|||Parameter: The difference in the frequency of vulvar discomfort provoked through the penetration in patients with vulvodynia and vulvar dermatosis.||||0.0347
92357067|NCT02732145|184619242|EQUIVALENCE|Question: Is there a difference in the frequency of vulvar discomfort aggravated through sexual intercourse in patients with vulvodynia and vulvar dermatosis?||||||0.7068|||||||Chi-squared|||Parameter: The difference in the frequency of vulvar discomfort aggravated through sexual intercourse in patients with vulvodynia and vulvar dermatosis.||||0.7068
92357068|NCT02732145|184619242|EQUIVALENCE|Question: Is there a difference in the frequency of vulvar discomfort aggravated after sexual intercourse in patients with vulvodynia and vulvar dermatosis?||||||0.0025|||||||Chi-squared|||Parameter: The difference in the frequency of vulvar discomfort aggravated after sexual intercourse in patients with vulvodynia and vulvar dermatosis.||||0.0025
92357069|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of use of vaginal tampon among patients with vulvodynia and vulvar dermatosis?||||||0|||||||Chi-squared|||Parameter: The difference in the frequency of use of vaginal tampon among patients with vulvodynia and vulvar dermatosis.||||0.0000
92162606|NCT00383188|184214408|SUPERIORITY||LSM Difference|-2.364|STANDARD_ERROR_OF_MEAN|4.237||0.577|TWO_SIDED|95.0|-10.68|5.95|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||5.950|-10.68|0.5770
92162607|NCT00383188|184214408|SUPERIORITY||LSM Difference|-6.33|STANDARD_ERROR_OF_MEAN|4.873||0.1942|TWO_SIDED|95.0|-15.89|3.232|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||3.232|-15.89|0.1942
92162608|NCT00383188|184214408|SUPERIORITY||LSM Difference|1.494|STANDARD_ERROR_OF_MEAN|5.03||0.7665|TWO_SIDED|95.0|-8.376|11.364|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||11.364|-8.376|0.7665
92221231|NCT00105443|184342961|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0764||||0.7676||95.0|0.8837|1.311|||Log Rank||This is the sorafenib to placebo hazard ratio.|"The 2 arms were compared using a 1-sided log-rank test with an overall alpha of 0.005 stratified by region, ECOG PS and tumor burden. This was a co-primary endpoint with overall survival. No alpha-spending adjustments were necessary as it was only to be analyzed at the end of study."||1.3110|0.8837|0.7676
92221232|NCT00105443|184342962|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5764||||7e-06||95.0|0.4484|0.741|||Log Rank||This is the sorafenib to placebo hazard ratio.|"In the analysis of TTP, based on independent radiological review performed to review data up to 12 May 2006, the 2 treatment groups were compared using a 1-sided log rank test with an alpha of 0.025, stratified by region, ECOG PS, and tumor burden."||0.7410|0.4484|0.000007
92221233|NCT00105443|184342963|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-11.95||||0.001641||95.0|-19.56|-4.35|||Cochran-Mantel-Haenszel||Sorafenib minus placebo difference|"Disease control rates were compared between treatment groups using the Cochran Mantel Haenszel (CMH) test with a 1-sided alpha of 0.025, adjusting for region, ECOG PS, and tumor burden."||-4.35|-19.56|0.001641
92221234|NCT03187769|184342970|SUPERIORITY||Least Squares Mean Difference|-1.87||||0.012|TWO_SIDED|95.0|-3.33|-0.41|||ANCOVA|||||-.41|-3.33|.012
92221235|NCT01623271|184342976|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92221236|NCT00393887|184343008|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Fisher Exact|||Two-sided Fisher's exact test||||0.11
92221237|NCT01445951|184343017|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with 0.4 margin|Mean Difference (Net)|0.19|STANDARD_ERROR_OF_MEAN|0.086|||TWO_SIDED|95.0|0.02|0.36||||||MMRM (mixed model repeated measures) model with auto-regression (1): HbA1c = Baseline HbA1c + region + basal insulin stratum + visit + treatment + (visit\*treatment)||0.36|0.02|
92221238|NCT01445951|184343018|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.016|||TWO_SIDED|95.0|-0.02|0.04|||||Mixed Model Repeated Measure (MMRM): FEV1 = Baseline FEV1 + Age + Gender + Race + Baseline Height + Visit + Treatment + (Visit\*Treatment)|||0.04|-0.02|
92357070|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort due to the use of vaginal tampon in symptomatic patients, who use vaginal tampons?||||||0.6552|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort due to the use of vaginal tampon in symptomatic patients, who use vaginal tampons.||||0.6552
92357071|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of cycling among patients with vulvodynia and vulvar dermatosis?||||||0.0002|||||||Chi-squared|||Parameter: The difference in the frequency of cycling among patients with vulvodynia and vulvar dermatosis.||||0.0002
92162609|NCT00383188|184214408|SUPERIORITY||LSM Difference|3.291|STANDARD_ERROR_OF_MEAN|4.366||0.4512|TWO_SIDED|95.0|-5.276|11.858|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||11.858|-5.276|0.4512
92221239|NCT01445951|184343019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.42|STANDARD_ERROR_OF_MEAN|10.622|||TWO_SIDED|95.0|-56.25|-14.59|||||MMRM: FPG = Baseline FPG + Region + Basal insulin stratum + Visit + Treatment + (Visit\*Treatment)|||-14.59|-56.25|
92221240|NCT01445951|184343022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32|STANDARD_ERROR_OF_MEAN|0.512||0.0102|TWO_SIDED|95.0|-2.33|-0.31|||ANCOVA|ANCOVA: Weight change from baseline = Baseline weight + Change from baseline in HbA1c + Region + Basal insulin stratum + Treatment|ANCOVA: Weight change from baseline = Baseline weight + Change from baseline in HbA1c + Region + Basal insulin stratum + Treatment|||-0.31|-2.33|0.0102
92221241|NCT01445951|184343022|SUPERIORITY_OR_OTHER|||||||0.4955|||||||t-test, 2 sided|||Within treatment analysis of change from Baseline comparing if change was different from zero||||0.4955
92221242|NCT01445951|184343022|SUPERIORITY_OR_OTHER|||||||0.6807|||||||t-test, 2 sided|||Within treatment analysis of change from Baseline comparing if change was different from zero||||0.6807
92221243|NCT01445951|184343022|SUPERIORITY_OR_OTHER|||||||0.0079|||||||t-test, 2 sided|||Within treatment analysis of change from Baseline comparing if change was different from zero||||0.0079
92221244|NCT01445951|184343024|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5328||||0.0156|TWO_SIDED|95.0|0.3198|0.8877|||Regression, Logistic|Logistic model with affects for Region, Basal insulin stratum, and Treatment||||0.8877|0.3198|0.0156
92221245|NCT01445951|184343025|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Negative Binomial Regression|Model: Region + Basal Insulin Stratum + Treatment + Exposure Time||||||<0.0001
92221246|NCT01445951|184343026|SUPERIORITY_OR_OTHER|||||||0.1022|||||||Negative Binomial Regression|Model: Region + Basal Insulin Stratum + Treatment + Exposure Time||||||0.1022
92221247|NCT01445951|184343027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.449||||0.0158|TWO_SIDED|95.0|0.23|0.86|||Regression, Logistic|Model: Treatment + Basal insulin stratum + Region + Baseline HbA1c|Gen2 in the numerator, Aspart in the denominator|||0.86|0.23|0.0158
92221248|NCT01692275|184343116|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-1.4|-0.7||||||All sites combined (week 6) - Between-group differences of mean in LBP||-0.7|-1.4|
92221249|NCT01692275|184343116|SUPERIORITY||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-1.2|-0.5||||||All sites combined (week 12) - Between-group differences of mean in LBP||-0.5|-1.2|
92221250|NCT01692275|184343116|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.3|-0.1||||||Walter Reed site (week 6) - Between-group differences of mean in LBP||-0.1|-1.3|
92401418|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.077|TWO_SIDED|95.0|-1.12|0.06||P-value is for item 3. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in SDS item 3 score.||0.06|-1.12|0.077
92401419|NCT00385671|184694185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.221|TWO_SIDED|95.0|-0.95|0.22||P-value is for item 3. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS item 3 score.||0.22|-0.95|0.221
92401420|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.82||||0.096|TWO_SIDED|95.0|-3.96|0.32||P-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||0.32|-3.96|0.096
92401421|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.353|TWO_SIDED|95.0|-3.16|1.13||P-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||1.13|-3.16|0.353
92401422|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81||||0.444|TWO_SIDED|95.0|-1.27|2.88||P-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||2.88|-1.27|0.444
92401423|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.682|TWO_SIDED|95.0|-2.29|3.48||P-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||3.48|-2.29|0.682
92162610|NCT00383188|184214408|SUPERIORITY||LSM Difference|-0.095|STANDARD_ERROR_OF_MEAN|4.237||0.9822|TWO_SIDED|95.0|-8.409|8.22|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||8.220|-8.409|0.9822
92162611|NCT00383188|184214408|SUPERIORITY||LSM Difference|-5.148|STANDARD_ERROR_OF_MEAN|4.873||0.291|TWO_SIDED|95.0|-14.71|4.414|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||4.414|-14.71|0.2910
92162612|NCT00383188|184214408|SUPERIORITY||LSM Difference|2.828|STANDARD_ERROR_OF_MEAN|5.03||0.5741|TWO_SIDED|95.0|-7.042|12.698|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||12.698|-7.042|0.5741
92162613|NCT00383188|184214408|SUPERIORITY||LSM Difference|3.107|STANDARD_ERROR_OF_MEAN|4.366||0.4768|TWO_SIDED|95.0|-5.46|11.674|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||11.674|-5.460|0.4768
92162614|NCT00383188|184214408|SUPERIORITY||LSM Difference|-2.256|STANDARD_ERROR_OF_MEAN|4.237||0.5945|TWO_SIDED|95.0|-10.57|6.058|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||6.058|-10.57|0.5945
92162615|NCT00383188|184214408|SUPERIORITY||LSM Difference|0.609|STANDARD_ERROR_OF_MEAN|4.873||0.9006|TWO_SIDED|95.0|-8.953|10.171|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||10.171|-8.953|0.9006
92162616|NCT00383188|184214408|SUPERIORITY||LSM Difference|9.224|STANDARD_ERROR_OF_MEAN|5.03||0.067|TWO_SIDED|95.0|-0.646|19.094|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||19.094|-0.646|0.0670
92357072|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort due to the cycling in symptomatic patients, who ride a bicycle?||||||0.2877|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort due to the cycling in symptomatic patients, who ride a bicycle.||||0.2877
92357073|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of wearing tight clothes among patients with vulvar dermatosis and vulvodynia?||||||0.0001|||||||Chi-squared|||Parameter: The difference in the frequency of wearing tight clothes among patients with vulvar dermatosis and vulvodynia.||||0.0001
92357074|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort due to wearing of tight clothes in symptomatic patients, who wear tight clothes?||||||0.4754|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort due to wearing of tight clothes in symptomatic patients, who wear tight clothes.||||0.4754
92357075|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort depending on the menstrual cycle in symptomatic patients of reproductive age?||||||0.1082|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort depending on the menstrual cycle in symptomatic patients of reproductive age.||||0.1082
92357076|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort before starting menstrual bleeding in symptomatic patients of reproductive age?||||||0.0179|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort before starting menstrual bleeding in symptomatic patients of reproductive age.||||0.0179
92162617|NCT00383188|184214408|SUPERIORITY||LSM Difference|8.261|STANDARD_ERROR_OF_MEAN|4.647||0.0757|TWO_SIDED|95.0|-0.857|17.379|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||17.379|-0.857|0.0757
92162618|NCT00383188|184214408|SUPERIORITY||LSM Difference|5.357|STANDARD_ERROR_OF_MEAN|4.427||0.2265|TWO_SIDED|95.0|-3.329|14.043|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||14.043|-3.329|0.2265
92162619|NCT00383188|184214408|SUPERIORITY||LSM Difference|1.642|STANDARD_ERROR_OF_MEAN|5.178||0.7512|TWO_SIDED|95.0|-8.517|11.801|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||11.801|-8.517|0.7512
92162620|NCT00383188|184214408|SUPERIORITY||LSM Difference|2.888|STANDARD_ERROR_OF_MEAN|5.323||0.5876|TWO_SIDED|95.0|-7.557|13.332|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||13.332|-7.557|0.5876
92162621|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.269|STANDARD_ERROR_OF_MEAN|0.188||0.154|TWO_SIDED|95.0|-0.638|0.101|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.101|-0.638|0.1540
92162622|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.182||0.0011|TWO_SIDED|95.0|-0.958|-0.242|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.242|-0.958|0.0011
92162623|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.691|STANDARD_ERROR_OF_MEAN|0.211||0.0011|TWO_SIDED|95.0|-1.105|-0.277|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.277|-1.105|0.0011
92162624|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.554|STANDARD_ERROR_OF_MEAN|0.219||0.0115|TWO_SIDED|95.0|-0.983|-0.125|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.125|-0.983|0.0115
92162625|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.185||0.094|TWO_SIDED|95.0|-0.673|0.053|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.053|-0.673|0.0940
92162626|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.459|STANDARD_ERROR_OF_MEAN|0.18||0.0109|TWO_SIDED|95.0|-0.811|-0.106|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.106|-0.811|0.0109
92162627|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.667|STANDARD_ERROR_OF_MEAN|0.208||0.0014|TWO_SIDED|95.0|-1.075|-0.259|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.259|-1.075|0.0014
92162628|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.447|STANDARD_ERROR_OF_MEAN|0.213||0.0364|TWO_SIDED|95.0|-0.867|-0.028|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.028|-0.867|0.0364
92221251|NCT01692275|184343116|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-1.0|0.2||||||Walter Reed site (week 12) - Between-group differences of mean in LBP||0.2|-1.0|
92221252|NCT01692275|184343116|SUPERIORITY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-1.8|-0.6||||||Naval Hospital Pensacola site (week 6) - Between-group differences of mean in LBP||-0.6|-1.8|
92221253|NCT01692275|184343116|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-1.8|-0.5||||||Naval Hospital Pensacola site (week 12) - Between-group differences of mean in LBP||-0.5|-1.8|
92357077|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort during menstrual bleeding in symptomatic patients of reproductive age?||||||0.5722|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort during menstrual bleeding in symptomatic patients of reproductive age.||||0.5722
92357078|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort after menstrual bleeding in symptomatic patients of reproductive age?||||||0.6148|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort after menstrual bleeding in symptomatic patients of reproductive age.||||0.6148
92357079|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort between two menstrual bleeding in symptomatic patients of reproductive age?||||||0.5307|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort between two menstrual bleeding in symptomatic patients of reproductive age.||||0.5307
92357080|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort during urination?||||||0.1546|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort during urination.||||0.1546
92357081|NCT02732145|184619243|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar complaints during urination after sexual intercourse in symptomatic patients, who are sexually active?||||||0.1019|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar complaints during urination after sexual intercourse in symptomatic patients, who are sexually active.||||0.1019
92357082|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of problems associated with urination and defecation between patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of problems associated with urination and defecation between patients from different groups.||||0.0000
92357083|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of dysuria between patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of dysuria between patients from different groups.||||0.0000
92357084|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent dysuria between patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent dysuria between patients from different groups.||||0.0000
92357085|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of frequent dysuria between patients from different groups?||||||0.0003|||||||Chi-squared|||Parameter: The difference in the incidence of frequent dysuria between patients from different groups.||||0.0003
92357086|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of urinary incontinence between patients from different groups?||||||0.001|||||||Chi-squared|||Parameter: The difference in the incidence of urinary incontinence between patients from different groups.||||0.0010
92357087|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent urinary incontinence between patients from different groups?||||||0.1859|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent urinary incontinence between patients from different groups.||||0.1859
92221254|NCT01692275|184343116|SUPERIORITY||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-1.9|-0.8||||||Naval Medical Center San Diego site (week 6) - Between-group differences of mean in LBP||-0.8|-1.9|
92221255|NCT01692275|184343116|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-1.7|-0.5||||||Naval Medical Center San Diego (week 12) - Between-group differences of mean in LBP||-0.5|-1.7|
92221256|NCT01692275|184343117|SUPERIORITY||Mean Difference (Final Values)|-2.2|||||TWO_SIDED|95.0|-3.1|-1.2||||||All sites combined (week 6) - RMDQ Between-Group Differences in Disability||-1.2|-3.1|
92221257|NCT01692275|184343117|SUPERIORITY||Mean Difference (Final Values)|-2.0|||||TWO_SIDED|95.0|-3.0|-1.0||||||All sites combined (week 12) - RMDQ Between-Group Differences in Disability||-1.0|-3.0|
92357088|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of frequent urinary incontinence between patients from different groups?||||||0.0003|||||||Chi-squared|||Parameter: The difference in the incidence of frequent urinary incontinence between patients from different groups.||||0.0003
92357089|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of difficulties at starting urination between patients from different groups?||||||0.0015|||||||Chi-squared|||Parameter: The difference in the incidence of difficulties at starting urination between patients from different groups.||||0.0015
92357090|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent difficulties at starting urination between patients from different groups?||||||0.0013|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent difficulties at starting urination between patients from different groups.||||0.0013
92357091|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of frequent difficulties at starting urination between patients from different groups?||||||0.5673|||||||Chi-squared|||Parameter: The difference in the incidence of frequent difficulties at starting urination between patients from different groups.||||0.5673
92357092|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of urgency between patients from different groups?||||||0.0065|||||||Chi-squared|||Parameter: The difference in the incidence of urgency between patients from different groups.||||0.0065
92357093|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent urgency between patients from different groups?||||||0.083|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent urgency between patients from different groups.||||0.0830
92357094|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of frequent urgency between patients from different groups?||||||0.0001|||||||Chi-squared|||Parameter: The difference in the incidence of frequent urgency between patients from different groups.||||0.0001
92357095|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of nocturia between patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of nocturia between patients from different groups.||||0.0000
92357096|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent nocturia between patients from different groups?||||||0.2315|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent nocturia between patients from different groups.||||0.2315
92357097|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of frequent nocturia between patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of frequent nocturia between patients from different groups.||||0.0000
92357098|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of recurrent cystitis between patients from different groups?||||||0.0539|||||||Chi-squared|||Parameter: The difference in the incidence of recurrent cystitis between patients from different groups.||||0.0539
92357099|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of constipation between patients from different groups?||||||0.0379|||||||Chi-squared|||Parameter: The difference in the incidence of constipation between patients from different groups.||||0.0379
92357100|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent constipation between patients from different groups?||||||0.1485|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent constipation between patients from different groups.||||0.1485
92357101|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of frequent constipation between patients from different groups?||||||0.4155|||||||Chi-squared|||Parameter: The difference in the incidence of frequent constipation between patients from different groups.||||0.4155
92357102|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of diarrhea between patients from different groups?||||||0.0092|||||||Chi-squared|||Parameter: The difference in the incidence of diarrhea between patients from different groups.||||0.0092
92357103|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent diarrhea between patients from different groups?||||||0.0192|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent diarrhea between patients from different groups.||||0.0192
92357104|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of frequent diarrhea between patients from different groups?||||||0.5253|||||||Chi-squared|||Parameter: The difference in the incidence of frequent diarrhea between patients from different groups.||||0.5253
92357105|NCT02732145|184619244|EQUIVALENCE|Question: Is there a difference in the incidence of the irritable colon between patients from different groups?||||||0.006|||||||Chi-squared|||Parameter: The difference in the incidence of the irritable colon between patients from different groups.||||0.0060
92357106|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of any associated symptom or disease among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of any associated symptom or disease among patients from different groups.||||0.0000
92162629|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.271|STANDARD_ERROR_OF_MEAN|0.185||0.1436|TWO_SIDED|95.0|-0.634|0.092|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.092|-0.634|0.1436
92162630|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.404|STANDARD_ERROR_OF_MEAN|0.18||0.0246|TWO_SIDED|95.0|-0.757|-0.052|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.052|-0.757|0.0246
92162631|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.546|STANDARD_ERROR_OF_MEAN|0.208||0.0088|TWO_SIDED|95.0|-0.954|-0.138|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.138|-0.954|0.0088
92162632|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.267|STANDARD_ERROR_OF_MEAN|0.213||0.2121|TWO_SIDED|95.0|-0.686|0.152|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.152|-0.686|0.2121
92162633|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.098|STANDARD_ERROR_OF_MEAN|0.185||0.5975|TWO_SIDED|95.0|-0.461|0.265|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.265|-0.461|0.5975
92162634|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.464|STANDARD_ERROR_OF_MEAN|0.18||0.0099|TWO_SIDED|95.0|-0.817|-0.112|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.112|-0.817|0.0099
92162635|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.445|STANDARD_ERROR_OF_MEAN|0.208||0.0328|TWO_SIDED|95.0|-0.853|-0.037|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.037|-0.853|0.0328
92162636|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.214|STANDARD_ERROR_OF_MEAN|0.213||0.3162|TWO_SIDED|95.0|-0.633|0.205|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.205|-0.633|0.3162
92357107|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of a frequent headache among patients from different groups?||||||0.3957|||||||Chi-squared|||Parameter: The difference in the incidence of a frequent headache among patients from different groups.||||0.3957
92357108|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of chronic fatigue among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of chronic fatigue among patients from different groups.||||0.0000
92162637|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.353|STANDARD_ERROR_OF_MEAN|0.185||0.0569|TWO_SIDED|95.0|-0.716|0.01|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.010|-0.716|0.0569
92162638|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.449|STANDARD_ERROR_OF_MEAN|0.18||0.0126|TWO_SIDED|95.0|-0.801|-0.096|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.096|-0.801|0.0126
92162639|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.515|STANDARD_ERROR_OF_MEAN|0.208||0.0135|TWO_SIDED|95.0|-0.923|-0.107|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.107|-0.923|0.0135
92162640|NCT00383188|184214409|SUPERIORITY||LSM Difference|-0.145|STANDARD_ERROR_OF_MEAN|0.213||0.4979|TWO_SIDED|95.0|-0.564|0.274|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.274|-0.564|0.4979
92162641|NCT00383188|184214409|SUPERIORITY||LSM Difference|0.271|STANDARD_ERROR_OF_MEAN|0.195||0.1643|TWO_SIDED|95.0|-0.111|0.653|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.653|-0.111|0.1643
92162642|NCT00383188|184214409|SUPERIORITY||LSM Difference|0.081|STANDARD_ERROR_OF_MEAN|0.185||0.6611|TWO_SIDED|95.0|-0.282|0.445|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.445|-0.282|0.6611
92162643|NCT00383188|184214409|SUPERIORITY||LSM Difference|0.097|STANDARD_ERROR_OF_MEAN|0.219||0.6587|TWO_SIDED|95.0|-0.333|0.526|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.526|-0.333|0.6587
92357109|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of lumbar pain among patients from different groups?||||||0.0001|||||||Chi-squared|||Parameter: The difference in the incidence of lumbar pain among patients from different groups.||||0.0001
92357110|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of fibromyalgia among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of fibromyalgia among patients from different groups.||||0.0000
92357111|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of energy loss among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of energy loss among patients from different groups.||||0.0000
92357112|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of sleep disorders among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of sleep disorders among patients from different groups.||||0.0000
92357113|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of pelvic pain among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of pelvic pain among patients from different groups.||||0.0000
92162644|NCT00383188|184214409|SUPERIORITY||LSM Difference|0.154|STANDARD_ERROR_OF_MEAN|0.223||0.4903|TWO_SIDED|95.0|-0.284|0.592|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.592|-0.284|0.4903
92162645|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.119|STANDARD_ERROR_OF_MEAN|0.09||0.1857|TWO_SIDED|95.0|-0.296|0.057|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.057|-0.296|0.1857
92162646|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.277|STANDARD_ERROR_OF_MEAN|0.089||0.0019|TWO_SIDED|95.0|-0.451|-0.103|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.103|-0.451|0.0019
92162647|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.244|STANDARD_ERROR_OF_MEAN|0.103||0.0178|TWO_SIDED|95.0|-0.446|-0.042|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.042|-0.446|0.0178
92162648|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.098|STANDARD_ERROR_OF_MEAN|0.106||0.3547|TWO_SIDED|95.0|-0.305|0.11|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.110|-0.305|0.3547
92162649|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.135|STANDARD_ERROR_OF_MEAN|0.089||0.1301|TWO_SIDED|95.0|-0.31|0.04|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.040|-0.310|0.1301
92162650|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.088||0.0313|TWO_SIDED|95.0|-0.363|-0.017|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.017|-0.363|0.0313
92357114|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of unintended weight loss among patients from different groups?||||||0.1764|||||||Chi-squared|||Parameter: The difference in the incidence of unintended weight loss among patients from different groups.||||0.1764
92162651|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.219|STANDARD_ERROR_OF_MEAN|0.102||0.0323|TWO_SIDED|95.0|-0.42|-0.019|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.019|-0.420|0.0323
92162652|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.105||0.6318|TWO_SIDED|95.0|-0.256|0.156|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.156|-0.256|0.6318
92357115|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of endometriosis among patients from different groups?||||||0.3127|||||||Chi-squared|||Parameter: The difference in the incidence of endometriosis among patients from different groups.||||0.3127
92357116|NCT02732145|184619245|EQUIVALENCE|"Question: Is there a difference in the incidence of D-D-D Triad among patients from different groups?"||||||0.0028|||||||Chi-squared|||"Parameter: The difference in the difference in the incidence of D-D-D Triad (Dysmenorrhoea-Dyspareunia-Dysuria) among patients from different groups."||||0.0028
92357117|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of hypertension among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of hypertension among patients from different groups.||||0.0000
92357118|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of genital herpes among patients from different groups?||||||0.9323|||||||Chi-squared|||Parameter: The difference in the incidence of genital herpes among patients from different groups.||||0.9323
92357119|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of thyroid disease among patients from different groups?||||||0.0011|||||||Chi-squared|||Parameter: The difference in the incidence of thyroid disease among patients from different groups.||||0.0011
92357120|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of drug allergy among patients from different groups?||||||0.2756|||||||Chi-squared|||Parameter: The difference in the incidence of drug allergy among patients from different groups.||||0.2756
92357121|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of recurrent attacks of sinusitis among patients from different groups?||||||0.0105|||||||Chi-squared|||Parameter: The difference in the incidence of recurrent attacks of sinusitis among patients from different groups.||||0.0105
92357122|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of HPV infection among patients from different groups, who were tested for HPV?||||||0.2128|||||||Chi-squared|||Parameter: The difference in the incidence of HPV infection among patients from different groups, who were tested for HPV.||||0.2128
92357123|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of abnormal PAP smear among patients from different groups?||||||0.0018|||||||Chi-squared|||Parameter: The difference in the incidence of abnormal PAP smear among patients from different groups.||||0.0018
92357124|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of genital warts among patients from different groups?||||||0.2524|||||||Chi-squared|||Parameter: The difference in the incidence of genital warts among patients from different groups.||||0.2524
92357125|NCT02732145|184619245|EQUIVALENCE|Question: Is there a difference in the incidence of conization or LETZ among patients from different groups?||||||0.2452|||||||Chi-squared|||Parameter: The difference in the incidence of conization or LETZ among patients from different groups.||||0.2452
92357126|NCT02732145|184619246|SUPERIORITY|Question: Is there a difference in the frequency of any previous treatment between patients with vulvar dermatosis and vulvodynia?||||||0.1583|||||||Chi-squared|||Parameter: The difference in the frequency of any previous treatment between patients with vulvar dermatosis and vulvodynia.||||0.1583
92357127|NCT02732145|184619246|SUPERIORITY|Question: Is there a difference in the frequency of previous local treatment with antifungals between the patients with vulvar dermatosis and vulvodynia?||||||0.038|||||||Chi-squared|||Parameter: The difference in the frequency of previous local treatment with antifungals among patients with vulvar dermatosis and vulvodynia.||||0.0380
92357128|NCT02732145|184619246|SUPERIORITY|Question: Is there a difference in the frequency of previous systemic treatment with antifungals between the patients with vulvar dermatosis and vulvodynia?||||||0.6468|||||||Chi-squared|||Parameter: The difference in the frequency of previous systemic treatment with antifungals among patients with vulvar dermatosis and vulvodynia.||||0.6468
92357129|NCT02732145|184619246|SUPERIORITY|Question: Is there a difference in the frequency of previous local treatment with antibiotics between the patients with vulvar dermatosis and vulvodynia?||||||0.467|||||||Chi-squared|||Parameter: The difference in the frequency of previous local treatment with antibiotics among patients with vulvar dermatosis and vulvodynia.||||0.4670
92162653|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.055|STANDARD_ERROR_OF_MEAN|0.089||0.5388|TWO_SIDED|95.0|-0.23|0.12|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.120|-0.230|0.5388
92162654|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.157|STANDARD_ERROR_OF_MEAN|0.088||0.0755|TWO_SIDED|95.0|-0.329|0.016|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.016|-0.329|0.0755
92221258|NCT01692275|184343117|SUPERIORITY||Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-3.4|-0.2||||||Walter Reed site (week 6) - RMDQ Between-Group Differences in Disability||-0.2|-3.4|
92221259|NCT01692275|184343117|SUPERIORITY||Mean Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-3.2|0.2||||||Walter Reed site (week 12) - RMDQ Between-Group Differences in Disability||0.2|-3.2|
92221260|NCT01692275|184343117|SUPERIORITY||Mean Difference (Final Values)|-2.1|||||TWO_SIDED|95.0|-3.8|-0.4||||||Pensacola site (week 6) - RMDQ Between-Group Differences in Disability||-0.4|-3.8|
92357130|NCT02732145|184619246|SUPERIORITY|Question: Is there a difference in the frequency of previous systemic treatment with antibiotics between the patients with vulvar dermatosis and vulvodynia?||||||0.2131|||||||Chi-squared|||Parameter: The difference in the frequency of previous systemic treatment with antibiotics among patients with vulvar dermatosis and vulvodynia.||||0.2131
92357131|NCT02732145|184619246|SUPERIORITY|Question: Is there a difference in the frequency of previous local treatment with corticosteroids between the patients with vulvar dermatosis and vulvodynia?||||||0|||||||Chi-squared|||Parameter: The difference in the frequency of previous local treatment with corticoids among patients with vulvar dermatosis and vulvodynia.||||0.0000
92357132|NCT02732145|184619246|SUPERIORITY|Question: Is there a difference in the frequency of previous systemic treatment with antidepressant between the patients with vulvar dermatosis and vulvodynia?||||||0.0962|||||||Chi-squared|||Parameter: The difference in the frequency of previous systemic treatment with antidepressant among patients with vulvar dermatosis and vulvodynia.||||0.0962
92357133|NCT02732145|184619247|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test of the vulva among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test of the vulva among patients from different groups.||||0.0000
92357134|NCT02732145|184619247|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 2h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 2h among patients from different groups.||||0.0000
92162655|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.219|STANDARD_ERROR_OF_MEAN|0.102||0.0323|TWO_SIDED|95.0|-0.42|-0.019|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.019|-0.420|0.0323
92357135|NCT02732145|184619247|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 4h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 4h among patients from different groups.||||0.0000
92357136|NCT02732145|184619247|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 6h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 6h among patients from different groups.||||0.0000
92357137|NCT02732145|184619247|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 8h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 8h among patients from different groups.||||0.0000
92357138|NCT02732145|184619247|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 10h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 10h among patients from different groups.||||0.0000
92162656|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.072|STANDARD_ERROR_OF_MEAN|0.105||0.4948|TWO_SIDED|95.0|-0.277|0.134|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.134|-0.277|0.4948
92162657|NCT00383188|184214411|SUPERIORITY||LSM Difference|0.06|STANDARD_ERROR_OF_MEAN|0.089||0.5022|TWO_SIDED|95.0|-0.115|0.235|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.235|-0.115|0.5022
92162658|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.088||0.0307|TWO_SIDED|95.0|-0.363|-0.018|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.018|-0.363|0.0307
92357139|NCT02732145|184619247|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 12h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 12h among patients from different groups.||||0.0000
92357140|NCT02732145|184619247|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test of the vulva in patients with vulvar dermatosis versus normal vulva?||||||0.0009|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test of the vulva in patients with vulvar dermatosis versus normal vulva.||||0.0009
92357141|NCT02732145|184619247|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 2h in patients with vulvar dermatosis versus normal vulva?||||||0.0289|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 2h in patients with vulvar dermatosis versus normal vulva.||||0.0289
92357142|NCT02732145|184619247|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 4h in patients with vulvar dermatosis versus normal vulva?||||||0.0134|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 4h in patients with vulvar dermatosis and normal vulva.||||0.0134
92357143|NCT02732145|184619247|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 6h in patients with vulvar dermatosis versus normal vulva?||||||0.0037|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 6h in patients with vulvar dermatosis and normal vulva.||||0.0037
92357144|NCT02732145|184619247|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 8h in patients with vulvar dermatosis and normal vulva?||||||0.008|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 8h in patients with vulvar dermatosis and normal vulva.||||0.0080
92357145|NCT02732145|184619247|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 10h in patients with vulvar dermatosis versus normal vulva?||||||0.0579|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 10h in patients with vulvar dermatosis and normal vulva.||||0.0579
92357146|NCT02732145|184619247|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 12h in patients with vulvar dermatosis versus normal vulva?||||||0.072|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 12h in patients with vulvar dermatosis and normal vulva.||||0.0720
92221261|NCT01692275|184343117|SUPERIORITY||Mean Difference (Final Values)|-1.9|||||TWO_SIDED|95.0|-3.7|-0.2||||||Pensacola site (week 12) - RMDQ Between-Group Differences in Disability||-0.2|-3.7|
92221262|NCT01692275|184343117|SUPERIORITY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-4.3|-1.1||||||San Diego site (week 6) - RMDQ Between-Group Differences in Disability||-1.1|-4.3|
92221263|NCT01692275|184343117|SUPERIORITY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-4.4|-1.1||||||San Diego site (week 12) - RMDQ Between-Group Differences in Disability||-1.1|-4.4|
92221264|NCT01692275|184343118|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.6|-0.2||||||All sites combined (week 6) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.2|-0.6|
92221265|NCT01692275|184343118|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.6|-0.2||||||All sites combined (week 12) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.2|-0.6|
92221266|NCT01692275|184343118|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||Walter Reed site (week 6) - Between-Group Differences of Means in score of bothersomeness of LBP||0.1|-0.5|
92221267|NCT01692275|184343118|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||Walter Reed site (week 12) - Between-Group Differences of Means in score of bothersomeness of LBP||0.1|-0.5|
92221268|NCT01692275|184343118|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-0.8|-0.2||||||Pensacola site (week 6) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.2|-0.8|
92221269|NCT01692275|184343118|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-0.8|-0.2||||||Pensacola site (week 12) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.2|-0.8|
92221270|NCT01692275|184343118|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-0.7|-0.2||||||San Diego site (week 6) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.2|-0.7|
92221271|NCT01692275|184343118|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.7|-0.1||||||San Diego site (week 12) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.1|-0.7|
92221272|NCT01692275|184343119|SUPERIORITY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-1.6|-0.8||||||All sites combined (week 6) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.8|-1.6|
92221273|NCT01692275|184343119|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-1.6|-0.7||||||All sites combined (week 12) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.7|-1.6|
92221274|NCT01692275|184343119|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.3|-0.02||||||Walter Reed site (week 6) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.02|-1.3|
92221275|NCT01692275|184343119|SUPERIORITY||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-1.5|-0.1||||||Walter Reed site (week 12) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.1|-1.5|
92221276|NCT01692275|184343119|SUPERIORITY||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-2.0|-0.7||||||Pensacola site (week 6) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.7|-2.0|
92221277|NCT01692275|184343119|SUPERIORITY||Mean Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-2.3|-0.8||||||Pensacola site (week 12) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.8|-2.3|
92221278|NCT01692275|184343119|SUPERIORITY||Mean Difference (Final Values)|-1.6|||||TWO_SIDED|95.0|-2.3|-1.0||||||San Diego site (week 6) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-1.0|-2.3|
92221279|NCT01692275|184343119|SUPERIORITY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-1.9|-0.5||||||San Diego site (week 12) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.5|-1.9|
92221280|NCT01692275|184343120|SUPERIORITY||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.54|0.97||||||Week 6: All 3 sites combined||0.97|0.54|
92221281|NCT01692275|184343120|SUPERIORITY||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.58|1.0||||||Week 12: All 3 sites combined||1.0|0.58|
92221282|NCT01692275|184343121|SUPERIORITY||Odds Ratio (OR)|0.18|||||TWO_SIDED|95.0|0.13|0.25||||||All sites combined: 6 weeks||0.25|0.13|
92221283|NCT01692275|184343121|SUPERIORITY||Odds Ratio (OR)|0.26|||||TWO_SIDED|95.0|0.16|0.42||||||Walter Reed site: 6 weeks||0.42|0.16|
92221284|NCT01692275|184343121|SUPERIORITY||Odds Ratio (OR)|0.18|||||TWO_SIDED|95.0|0.1|0.33||||||Naval Hospital Pensacola site: 6 weeks||0.33|0.10|
92221285|NCT01692275|184343121|SUPERIORITY||Odds Ratio (OR)|0.13|||||TWO_SIDED|95.0|0.08|0.21||||||Naval Medical Center San Diego site: 6 weeks||0.21|0.08|
92221286|NCT01692275|184343122|SUPERIORITY||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|2.1|2.8||||||All sites combined: 6 weeks||2.8|2.1|
92221287|NCT01692275|184343122|SUPERIORITY||Mean Difference (Final Values)|2.0|||||TWO_SIDED|95.0|1.4|2.6||||||Walter Reed site: 6 weeks||2.6|1.4|
92221288|NCT01692275|184343122|SUPERIORITY||Mean Difference (Final Values)|2.3|||||TWO_SIDED|95.0|1.6|3.0||||||Naval Hospital Pensacola site: 6 weeks||3.0|1.6|
92221289|NCT01692275|184343122|SUPERIORITY||Mean Difference (Final Values)|3.1|||||TWO_SIDED|95.0|2.5|3.7||||||Naval Medical Center San Diego site: 6 weeks||3.7|2.5|
92221290|NCT03924752|184343125|OTHER|A two-way repeated-measures analysis of variance (ANOVA) was performed on different walking conditions (including the baseline of not wearing the exoskeleton) on the subject's overground self-selected walking speed across different locomotion modes by setting the significant value to 0.05. Two independent variables were assistance type (Exo vs No Exo) and different locomotion modes.||||||0.9547||||||This presents the effect of exoskeleton assistance on the user's preferred overground walking speed across different locomotion modes.|ANOVA|||||||0.9547
92221291|NCT02012621|184343126|OTHER||Odds Ratio (OR)|73.5|||<|0.0001|TWO_SIDED|95.0|25.7|210.5|||Regression, Logistic|||||210.5|25.7|<0.0001
92221292|NCT02012621|184343127|OTHER||Odds Ratio (OR)|8.5||||0.0012|TWO_SIDED|95.0|2.3|30.9|||Regression, Logistic|||||30.9|2.3|0.0012
92221293|NCT02012621|184343128|OTHER||Odds Ratio (OR)|4.7|||<|0.0001|TWO_SIDED|95.0|2.6|8.7|||Regression, Logistic|||||8.7|2.6|<0.0001
92221294|NCT00533442|184343160|SUPERIORITY|||||||0.01|||||||Log Rank|||Biopsy-Proven Acute Rejection of the Kidney (logrank test).||||0.01
92221295|NCT00533442|184343160|SUPERIORITY|||||||0.01|||||||Log Rank|||Biopsy-Proven Acute Rejection of the Pancreas (logrank test).||||0.01
92221296|NCT00533442|184343160|SUPERIORITY|||||||0.16|||||||Log Rank|||Death-Censored Kidney Graft Failure (logrank test).||||0.16
92221297|NCT00533442|184343160|SUPERIORITY|||||||0.12|||||||Log Rank|||Death-Censored Pancreas Graft Failure (logrank test).||||0.12
92221298|NCT00533442|184343160|SUPERIORITY|||||||0.96|||||||Log Rank|||Death-Uncensored (Kidney \& Pancreas) Graft Survival (logrank test).||||0.96
92221299|NCT00533442|184343160|SUPERIORITY||||||>|0.99||||||Patient Death (logrank test).|Log Rank|||||||>0.99
92276542|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||-0.06|TWO_SIDED|95.0|-0.15|0.03|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.03|-0.15|-0.06
92276543|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.0012|TWO_SIDED|95.0|-0.34|-0.08|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.08|-0.34|0.0012
92276544|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0266|TWO_SIDED|95.0|-0.27|-0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.02|-0.27|0.0266
92357147|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Outer Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Outer Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357148|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Middle Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92221300|NCT00533442|184343161|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||Comparison of Mean eGFR at 12 Months Post-Transplant (t-test).||||0.21
92221301|NCT00533442|184343161|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||Comparison of Mean eGFR at 36 Months Post-Transplant (t-test).||||0.71
92221302|NCT00533442|184343161|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||Comparison of Mean eGFR at 60 Months Post-Transplant (t-test).||||0.33
92221303|NCT00533442|184343162|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||Comparison of Mean Log {C-Peptide Level} at 12 Months Post-Transplant (t-test).||||.47
92221304|NCT00533442|184343162|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||Comparison of Mean Log {C-Peptide Level} at 36 Months Post-Transplant (t-test).||||0.97
92221305|NCT00533442|184343162|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Comparison of Mean Log {C-Peptide Level} at 60 Months Post-Transplant (t-test).||||0.75
92221306|NCT02813551|184343274|SUPERIORITY||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.53|1.1||||||||1.10|0.53|
92221307|NCT02813551|184343275|SUPERIORITY||Risk Ratio (RR)|1.2|||||TWO_SIDED|95.0|0.4|3.3||||||||3.3|0.4|
92221308|NCT02813551|184343276|SUPERIORITY||Risk Ratio (RR)|3.0|||||TWO_SIDED|95.0|0.3|28.0||||||||28|0.3|
92221309|NCT02813551|184343277|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|1.0|1.3||||||||1.3|1.0|
92221310|NCT02813551|184343280|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|1.0|1.2||||||||1.2|1.0|
92221311|NCT02813551|184343281|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.5|1.9||||||||1.9|0.5|
92221312|NCT02813551|184343282|SUPERIORITY||Risk Ratio (RR)|0.4|||||TWO_SIDED|95.0|0.1|2.9||||||||2.9|0.1|
92221313|NCT00102960|184343287|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59||||0.02|TWO_SIDED|95.0|0.38|0.93|||Regression, Cox|||Statistical analysis compares early therapy 40 weeks (ART-40W) relative to deferred therapy (ART-Def)||0.93|0.38|0.02
92221314|NCT00102960|184343287|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47||||0.002|TWO_SIDED|95.0|0.27|0.76|||Regression, Cox|||Statistical analysis compares early therapy 96 weeks (ART-96W) relative to deferred therapy (ART-Def)||0.76|0.27|0.002
92221315|NCT00102960|184343292|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Cummulative Probability|0.13||||0.03|TWO_SIDED|95.0|0.01|0.25|||Proportion test|||Relative to ART-Def, ART-40W had a 13% difference in the cumulative probability of clinical disease progression or death at 3·5 years||0.25|0.01|0.03
92221316|NCT00102960|184343292|SUPERIORITY||Kaplan-Meier Cummulative Probability|0.2||||0.0006|TWO_SIDED|95.0|0.09|0.31|||Proportion test|||Relative to ART-Def, ART-96W had a 13% difference in the cumulative probability of clinical disease progression or death at 3·5 years||0.31|0.09|0.0006
92276545|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0034|TWO_SIDED|95.0|-0.33|-0.07|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.07|-0.33|0.0034
92221317|NCT00102960|184343293|SUPERIORITY_OR_OTHER_LEGACY||Rate per 100 person years|0.0|||<|0.0001|TWO_SIDED|||||This p-value compares event rates per 100 person-years across the three arms|Poisson Regression|||The CHER study compared Grade 3 or 4 clinical event rates per 100 person-years between the three arms using Poisson regression modeling over the study duration of 4.8 years.|The rates per 100 person-years were 33.8 (Arm 1), 21.6 (Arm 2) and 16 (Arm 3)|||<0.0001
92221318|NCT00102960|184343294|SUPERIORITY||Rate per 100 person years|0.0||||0.46|TWO_SIDED||||||Poisson regression|||The event rates per 100 person years were compared across the three arms|The laboratory events per 100 person years across the three arms were: 7 (Deferred arm), 8.1 (early therapy for 40 weeks) and 6 (early therapy for 96 weeks).|||0.46
92221319|NCT00102960|184343297|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.48||||0.011|TWO_SIDED|95.0|0.27|0.84|||Regression, Cox||Hazard rate reported above compares early therapy 40 weeks relative to the deferred therapy arm.|The analysis compares ART-40W relative to the ART-Def arm.||0.84|0.27|0.011
92221320|NCT00102960|184343297|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.34||||0.0009|TWO_SIDED|95.0|0.18|0.64|||Regression, Cox||The hazard ratio compares ART-96W relative to the ART-Def arm.|The analysis compares ART-96 Weeks relative to ART-Deferred||0.64|0.18|0.0009
92221321|NCT00102960|184343299|SUPERIORITY||Count of days|0.0||||0.004|TWO_SIDED|||||The p-value here compares the days spent in hospital across the three arms|Poisson regression||||The total number of days/count of days: 1018 (Arm 1), 533 (Arm 2) and 414 (Arm 3) were compared across the three groups by Poisson regression analysis.|||0.004
92221322|NCT00102960|184343300|SUPERIORITY||Hazard Ratio (HR)|0.562||||0.0021|TWO_SIDED|95.0|0.389|0.811|||Regression, Cox|||||0.811|0.389|0.0021
92221323|NCT00102960|184343300|SUPERIORITY||Hazard Ratio (HR)|0.583||||0.0038|TWO_SIDED|95.0|0.405|0.84|||Regression, Cox|||||0.840|0.405|0.0038
92221324|NCT00150592|184343326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.844||95.0|||||ANCOVA|||||||0.844
92221325|NCT00150592|184343327|SUPERIORITY_OR_OTHER_LEGACY|||||||0.274||95.0|||||ANCOVA|Mean reaction time (adjusted) for each randomized treatment group at endpoint.||||||0.274
92221326|NCT00150592|184343329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.307||95.0|||||ANCOVA|||Between errors||||0.307
92221327|NCT00150592|184343329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.552||95.0|||||ANCOVA|||Within errors||||0.552
92221328|NCT00150592|184343329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.917||95.0|||||ANCOVA|||Double errors||||0.917
92221329|NCT00150592|184343329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068||95.0|||||ANCOVA|||Strategy||||0.068
92221330|NCT00150592|184343330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||ANCOVA|||||||0.001
92221331|NCT00150592|184343331|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0|||||Cochran-Mantel-Haenszel|||||||0.007
92221332|NCT00150592|184343332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||ANCOVA|||||||0.02
92221333|NCT00150592|184343333|SUPERIORITY_OR_OTHER_LEGACY|||||||0.231||95.0|||||ANCOVA|||||||0.231
92221334|NCT03787472|184343334|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least-Square Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|2.98|||TWO_SIDED|95.0|-5.5|6.6|||Linear Mixed Model|The Kenward and Roger method was used for the calculation of the denominator of degrees of freedom.|Mean difference was calculated as Test - Control|||6.6|-5.5|
92221335|NCT03787472|184343335|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the upper confidence limit of LSM difference is below the non-inferiority margin 0.05 logMAR.|Least-Square Mean Difference|0.008|STANDARD_ERROR_OF_MEAN|0.0166|||TWO_SIDED|95.0|-0.025|0.041|||Linear Mixed Model||Mean difference was calculated as Test - Control|Distance Standard High Contrast Bright||0.041|-0.025|
92357149|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Inner Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92221336|NCT03787472|184343335|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the upper confidence limit of LSM difference is below the non-inferiority margin 0.05 logMAR.|Least-Square Mean Difference|-0.012|STANDARD_ERROR_OF_MEAN|0.0155|||TWO_SIDED|95.0|-0.043|0.019|||Linear Mixed Model||Mean difference was calculated as Test - Control|Intermediate Standard High Contrast Bright||0.019|-0.043|
92221337|NCT03787472|184343335|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the upper confidence limit of LSM difference is below the non-inferiority margin 0.05 logMAR.|Least-Square Mean Difference|0.003|STANDARD_ERROR_OF_MEAN|0.0169|||TWO_SIDED|95.0|-0.03|0.037|||Linear Mixed Model||Mean difference was calculated as Test - Control|Near Standard High Contrast Bright||0.037|-0.030|
92221338|NCT02227693|184343343|OTHER||Difference of responder rate vs. placebo|19.5||||0.146|TWO_SIDED|95.0|-18.1|57.0|||Shirley-Williams test|P-value is based on Shirley-Williams test at a one-sided significance level of α = 0.025.|Difference of responder rate vs. placebo = responder rate for avatrombopag - responder rate for placebo; 95% CI is calculated based on normal approximation.|||57.0|-18.1|0.146
92221339|NCT02227693|184343343|OTHER||Difference of responder rate vs. placebo|54.5||||0.004|TWO_SIDED|95.0|21.4|87.7|||Shirley-Williams test|P-value is based on Shirley-Williams test at a one-sided significance level of α = 0.025.|Difference of responder rate vs. placebo = responder rate for avatrombopag - responder rate for placebo; 95% CI is calculated based on normal approximation.|||87.7|21.4|0.004
92221340|NCT02227693|184343343|OTHER||Difference of responder rate vs. placebo|30.9||||0.024|TWO_SIDED|95.0|-3.9|65.7|||Shirley-Williams test|P-value is based on Shirley-Williams test at a one-sided significance level of α = 0.025.|Difference of responder rate vs. placebo = responder rate for avatrombopag - responder rate for placebo; 95% CI is calculated based on normal approximation.|||65.7|-3.9|0.024
92221341|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|14.3||||0.388|TWO_SIDED|95.0|-11.6|40.2||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 3 (Day 4 or Day 5)||40.2|-11.6|0.388
92221342|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|27.3||||0.214|TWO_SIDED|95.0|1.0|53.6||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 3 (Day 4 or Day 5)||53.6|1.0|0.214
92357150|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Outer Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Outer Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357151|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Middle Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92401424|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13||||0.45|TWO_SIDED|95.0|-4.08|1.82||P-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||1.82|-4.08|0.450
92401425|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73||||0.218|TWO_SIDED|95.0|-4.49|1.04||P-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||1.04|-4.49|0.218
92401426|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.747|TWO_SIDED|95.0|-0.36|0.26||P-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||0.26|-0.36|0.747
92401427|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.39|TWO_SIDED|95.0|-0.18|0.45||P-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||0.45|-0.18|0.390
92401428|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.228|TWO_SIDED|95.0|-0.12|0.49||P-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||0.49|-0.12|0.228
92162659|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.172|STANDARD_ERROR_OF_MEAN|0.102||0.0933|TWO_SIDED|95.0|-0.372|0.029|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.029|-0.372|0.0933
92162660|NCT00383188|184214411|SUPERIORITY||LSM Difference|0.027|STANDARD_ERROR_OF_MEAN|0.105||0.7967|TWO_SIDED|95.0|-0.179|0.233|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.233|-0.179|0.7967
92162661|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.034|STANDARD_ERROR_OF_MEAN|0.089||0.7059|TWO_SIDED|95.0|-0.208|0.141|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.141|-0.208|0.7059
92221343|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|62.3||||0.012|TWO_SIDED|95.0|24.8|99.9||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 4 (Day 10)||99.9|24.8|0.012
92221344|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|72.7||||0.001|TWO_SIDED|95.0|44.3|100.0||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 4 (Day 10)||100.0|44.3|0.001
92162662|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.213|STANDARD_ERROR_OF_MEAN|0.088||0.0154|TWO_SIDED|95.0|-0.386|-0.041|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.041|-0.386|0.0154
92221345|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|40.9||||0.063|TWO_SIDED|95.0|5.6|76.2||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 4 (Day 10)||76.2|5.6|0.063
92221346|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|-27.3||||0.245|TWO_SIDED|95.0|-53.6|-1.0||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 5 (Day 17)||-1.0|-53.6|0.245
92221347|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|27.3||||0.386|TWO_SIDED|95.0|-12.2|66.8||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 5 (Day 17)||66.8|-12.2|0.386
92357152|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Inner Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357153|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of excoriations of the Outer Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of excoriations of the Outer Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357154|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of fissures the Middle Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of fissures of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357155|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of rhagades of the Outer Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of rhagades of the Outer Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357156|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the frequency of smoothness of the Middle Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357157|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of smoothness of the Inner Vulvar Ring between patients within different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357158|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of ischemia of the Middle Vulvar Ring between patients from different groups?||||||0.0632|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0632
92357159|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of ischemia of the Inner Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357160|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of punctuation of the Middle Vulvar Ring between patients within different groups?||||||0.0043|||||||Chi-squared|||"Parameter: The incidence of punctuation of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0043
92357161|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of punctuation of the Inner Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of punctuation of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Typ), evaluated with Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92401429|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.26|TWO_SIDED|95.0|-0.18|0.67||P-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||0.67|-0.18|0.260
92221348|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|-7.3||||1|TWO_SIDED|95.0|-43.4|28.9||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 5 (Day 17)||28.9|-43.4|1.000
92221349|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|-18.2||||0.496|TWO_SIDED|95.0|-41.0|4.6||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 6 (Day 35)||4.6|-41.0|0.496
92221350|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|-9.1||||1|TWO_SIDED|95.0|-37.5|19.3||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 6 (Day 35)||19.3|-37.5|1.000
92162663|NCT00383188|184214411|SUPERIORITY||LSM Difference|-0.136|STANDARD_ERROR_OF_MEAN|0.102||0.1836|TWO_SIDED|95.0|-0.336|0.065|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.065|-0.336|0.1836
92162664|NCT00383188|184214411|SUPERIORITY||LSM Difference|0.078|STANDARD_ERROR_OF_MEAN|0.105||0.4577|TWO_SIDED|95.0|-0.128|0.284|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.284|-0.128|0.4577
92162665|NCT00383188|184214411|SUPERIORITY||LSM Difference|0.082|STANDARD_ERROR_OF_MEAN|0.092||0.3692|TWO_SIDED|95.0|-0.098|0.262|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.262|-0.098|0.3692
92221351|NCT02227693|184343344|OTHER||Difference of proportion vs. placebo|-18.2||||0.476|TWO_SIDED|95.0|-41.0|4.6||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 6 (Day 35)||4.6|-41.0|0.476
92221352|NCT02227693|184343345|OTHER||Difference of proportion vs. placebo|63.6||||0.003|TWO_SIDED|95.0|35.2|92.1||P-value is based on Fisher's exact test at a two-sided significance level of α= 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 4 (Day 10)||92.1|35.2|0.003
92357162|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of papillae of the Inner Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of papillae of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357163|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with vulvar dermatosis?||||||0.0697|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with vulvar dermatosis.||||0.0697
92357164|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis?||||||0.0319|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis.||||0.0319
92357165|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Middle versus non-specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis?||||||0.7273|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Middle versus non-specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis.||||0.7273
92357166|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
92162666|NCT00383188|184214411|SUPERIORITY||LSM Difference|0.065|STANDARD_ERROR_OF_MEAN|0.09||0.4677|TWO_SIDED|95.0|-0.111|0.241|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.241|-0.111|0.4677
92162667|NCT00383188|184214411|SUPERIORITY||LSM Difference|0.1|STANDARD_ERROR_OF_MEAN|0.106||0.3427|TWO_SIDED|95.0|-0.107|0.307|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.307|-0.107|0.3427
92221353|NCT02227693|184343345|OTHER||Difference of proportion vs. placebo|30.0||||0.09|TWO_SIDED|95.0|1.6|58.4||P-value is based on Fisher's exact test at a two-sided significance level of α= 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 4 (Day 10)||58.4|1.6|0.090
92221354|NCT02227693|184343345|OTHER||Difference of proportion vs. placebo|10.0||||0.476|TWO_SIDED|95.0|-8.6|28.6||P-value is based on Fisher's exact test at a two-sided significance level of α= 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 5 (Day 17)||28.6|-8.6|0.476
92357167|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Inner Vulvar Ring in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
92357168|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Middle versus non-specific lesions of the Inner Vulvar Ring in patients with vulvodynia?||||||0.2203|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Middle versus non-specific lesions of the Inner Vulvar Ring in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.2203
92357169|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Outer versus non-specific lesions of the Middle Vulvar Ring in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with impaired vulvar skin.||||0.0000
92357170|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Outer versus non-specific lesions of the Inner Vulvar Ring in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Inner Vulvar Ring in patients with impaired vulvar skin.||||0.0000
92357171|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Middle versus non-specific lesions of the Inner Vulvar Ring in patients with impaired vulvar skin?||||||0.1456|||||||t-test proportion|||Parameter: The incidence of non-specific lesions of the Middle versus non-specific lesions of the Inner Vulvar Ring in patients with impaired vulvar skin.||||0.1456
92357172|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Outer versus specific lesions of the Middle Vulvar Ring in patients with vulvar dermatosis?||||||0.1133|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Outer versus specific lesions of the Middle Vulvar Ring in patients with vulvar dermatosis.||||0.1133
92357173|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Outer versus specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Outer versus specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis.||||0.0000
92401430|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.141|TWO_SIDED|95.0|-0.76|0.11||P-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||0.11|-0.76|0.141
92221355|NCT02227693|184343348|OTHER|||||||0.296||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 3 (Day 4 or Day 5)||||0.296
92357174|NCT02732145|184619248|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Middle versus specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis?||||||0.0058|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Middle versus specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis.||||0.0058
92357175|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Mons pubis in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92357176|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Majora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Labia Majora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92162668|NCT00383188|184214411|SUPERIORITY||LSM Difference|0.135|STANDARD_ERROR_OF_MEAN|0.108||0.212|TWO_SIDED|95.0|-0.077|0.347|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.347|-0.077|0.2120
92162669|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.587|STANDARD_ERROR_OF_MEAN|0.337||0.0815|TWO_SIDED|95.0|-1.248|0.074|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.074|-1.248|0.0815
92221356|NCT02227693|184343348|OTHER|||||||0.07||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 3 (Day 4 or Day 5)||||0.070
92221357|NCT02227693|184343348|OTHER|||||||0.138||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 3 (Day 4 or Day 5)||||0.138
92357177|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Perineum among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Perineum in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92357178|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of erythema of Mons Pubis among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Mons Pubis in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92401431|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.007|TWO_SIDED|95.0|-0.98|-0.16||P-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||-0.16|-0.98|0.007
92162670|NCT00383188|184214412|SUPERIORITY||LSM Difference|-1.057|STANDARD_ERROR_OF_MEAN|0.331||0.0015|TWO_SIDED|95.0|-1.707|-0.407|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.407|-1.707|0.0015
92162671|NCT00383188|184214412|SUPERIORITY||LSM Difference|-1.107|STANDARD_ERROR_OF_MEAN|0.385||0.0042|TWO_SIDED|95.0|-1.863|-0.351|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.351|-1.863|0.0042
92162672|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.842|STANDARD_ERROR_OF_MEAN|0.398||0.0348|TWO_SIDED|95.0|-1.624|-0.06|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.060|-1.624|0.0348
92162673|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.442|STANDARD_ERROR_OF_MEAN|0.332||0.1843|TWO_SIDED|95.0|-1.095|0.211|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.211|-1.095|0.1843
92162674|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.582|STANDARD_ERROR_OF_MEAN|0.327||0.076|TWO_SIDED|95.0|-1.225|0.061|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.061|-1.225|0.0760
92162675|NCT00383188|184214412|SUPERIORITY||LSM Difference|-1.019|STANDARD_ERROR_OF_MEAN|0.382||0.0078|TWO_SIDED|95.0|-1.769|-0.27|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.270|-1.769|0.0078
92162676|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.517|STANDARD_ERROR_OF_MEAN|0.395||0.1905|TWO_SIDED|95.0|-1.292|0.258|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.258|-1.292|0.1905
92162677|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.149|STANDARD_ERROR_OF_MEAN|0.332||0.6552|TWO_SIDED|95.0|-0.801|0.504|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.504|-0.801|0.6552
92162678|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.327||0.0281|TWO_SIDED|95.0|-1.363|-0.078|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.078|-1.363|0.0281
92221358|NCT02227693|184343348|OTHER|||||||0.012||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 4 (Day 10)||||0.012
92162679|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.382||0.0263|TWO_SIDED|95.0|-1.599|-0.1|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.100|-1.599|0.0263
92162680|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.429|STANDARD_ERROR_OF_MEAN|0.395||0.2772|TWO_SIDED|95.0|-1.204|0.346|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.346|-1.204|0.2772
92221359|NCT02227693|184343348|OTHER|||||||0.001||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 4 (Day 10)||||0.001
92162681|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.024|STANDARD_ERROR_OF_MEAN|0.332||0.9433|TWO_SIDED|95.0|-0.676|0.629|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.629|-0.676|0.9433
92162682|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.768|STANDARD_ERROR_OF_MEAN|0.327||0.193|TWO_SIDED|95.0|-1.41|-0.125|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.125|-1.410|0.193
92162683|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.763|STANDARD_ERROR_OF_MEAN|0.382||0.461|TWO_SIDED|95.0|-1.512|-0.013|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.013|-1.512|0.461
92162684|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.254|STANDARD_ERROR_OF_MEAN|0.395||0.52|TWO_SIDED|95.0|-1.029|0.521|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.521|-1.029|0.5200
92162685|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.476|STANDARD_ERROR_OF_MEAN|0.332||0.1526|TWO_SIDED|95.0|-1.129|0.177|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.177|-1.129|0.1526
92162686|NCT00383188|184214412|SUPERIORITY||LSM Difference|-1.095|STANDARD_ERROR_OF_MEAN|0.327||0.0009|TWO_SIDED|95.0|-1.738|-0.453|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.453|-1.738|0.0009
92162687|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.523|STANDARD_ERROR_OF_MEAN|0.382||0.1711|TWO_SIDED|95.0|-1.273|0.227|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.227|-1.273|0.1711
92162688|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.563|STANDARD_ERROR_OF_MEAN|0.395||0.1539|TWO_SIDED|95.0|-1.338|0.211|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.211|-1.338|0.1539
92162689|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.512|STANDARD_ERROR_OF_MEAN|0.36||0.1554|TWO_SIDED|95.0|-1.219|0.195|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.195|-1.219|0.1554
92162690|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.889|STANDARD_ERROR_OF_MEAN|0.354||0.0124|TWO_SIDED|95.0|-1.585|-0.193|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.193|-1.585|0.0124
92162691|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.914|STANDARD_ERROR_OF_MEAN|0.412||0.0268|TWO_SIDED|95.0|-1.723|-0.106|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.106|-1.723|0.0268
92162692|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.681|STANDARD_ERROR_OF_MEAN|0.427||0.1113|TWO_SIDED|95.0|-1.519|0.158|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.158|-1.519|0.1113
92162693|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.356||0.1305|TWO_SIDED|95.0|-1.24|0.16|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.160|-1.240|0.1305
92162694|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.571|STANDARD_ERROR_OF_MEAN|0.351||0.1043|TWO_SIDED|95.0|-1.261|0.118|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.118|-1.261|0.1043
92162695|NCT00383188|184214412|SUPERIORITY||LSM Difference|-1.017|STANDARD_ERROR_OF_MEAN|0.409||0.0131|TWO_SIDED|95.0|-1.82|-0.214|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.214|-1.820|0.0131
92162696|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.492|STANDARD_ERROR_OF_MEAN|0.424||0.2459|TWO_SIDED|95.0|-1.324|0.34|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.340|-1.324|0.2459
92162697|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.221|STANDARD_ERROR_OF_MEAN|0.356||0.536|TWO_SIDED|95.0|-0.921|0.479|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.479|-0.921|0.5360
92221360|NCT02227693|184343348|OTHER|||||||0.001||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 4 (Day 10)||||0.001
92357179|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of erythema of Labia Majora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Labia Majora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92162698|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.465|STANDARD_ERROR_OF_MEAN|0.351||0.1858|TWO_SIDED|95.0|-1.155|0.225|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.225|-1.155|0.1858
92162699|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.821|STANDARD_ERROR_OF_MEAN|0.409||0.0451|TWO_SIDED|95.0|-1.624|-0.018|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.018|-1.624|0.0451
92162700|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.189|STANDARD_ERROR_OF_MEAN|0.424||0.6551|TWO_SIDED|95.0|-1.021|0.643|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.643|-1.021|0.6551
92162701|NCT00383188|184214412|SUPERIORITY||LSM Difference|0.018|STANDARD_ERROR_OF_MEAN|0.356||0.9602|TWO_SIDED|95.0|-0.682|0.718|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.718|-0.682|0.9602
92162702|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.351||0.0198|TWO_SIDED|95.0|-1.51|-0.131|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.131|-1.510|0.0198
92162703|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.948|STANDARD_ERROR_OF_MEAN|0.409||0.0208|TWO_SIDED|95.0|-1.751|-0.145|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.145|-1.751|0.0208
92162704|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.433|STANDARD_ERROR_OF_MEAN|0.424||0.3077|TWO_SIDED|95.0|-1.265|0.4|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.400|-1.265|0.3077
92162705|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.211|STANDARD_ERROR_OF_MEAN|0.356||0.555|TWO_SIDED|95.0|-0.911|0.49|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.490|-0.911|0.5550
92162706|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.795|STANDARD_ERROR_OF_MEAN|0.351||0.0239|TWO_SIDED|95.0|-1.485|-0.106|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.106|-1.485|0.0239
92162707|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.613|STANDARD_ERROR_OF_MEAN|0.409||0.1342|TWO_SIDED|95.0|-1.416|0.19|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.190|-1.416|0.1342
92162708|NCT00383188|184214412|SUPERIORITY||LSM Difference|-0.367|STANDARD_ERROR_OF_MEAN|0.424||0.3868|TWO_SIDED|95.0|-1.199|0.465|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.465|-1.199|0.3868
92162709|NCT00383188|184214413|SUPERIORITY||LSM Difference|0.792|STANDARD_ERROR_OF_MEAN|1.093||0.4693|TWO_SIDED|95.0|-1.357|2.941|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||2.941|-1.357|0.4693
92221361|NCT02227693|184343348|OTHER|||||||0.624||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 5 (Day 17)||||0.624
92221362|NCT02227693|184343348|OTHER|||||||0.009||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 5 (Day 17)||||0.009
92221363|NCT02227693|184343348|OTHER|||||||0.01||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 5 (Day 17)||||0.010
92221364|NCT02227693|184343348|OTHER|||||||0.154||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 6 (Day 35)||||0.154
92221365|NCT02227693|184343348|OTHER|||||||0.216||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 6 (Day 35)||||0.216
92221366|NCT02227693|184343348|OTHER|||||||0.901||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 6 (Day 35)||||0.901
92221367|NCT01157078|184343360|SUPERIORITY_OR_OTHER||LS mean|-1.0|STANDARD_ERROR_OF_MEAN|1.08||0.349|TWO_SIDED|95.0|-3.14|1.11||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.11|-3.14|0.349
92357180|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Perineum among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Perineum in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92357181|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of excoriations of Mons Pubis among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of excoriations of Mons Pubis in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92357182|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of excoriations of Labia Majora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of excoriations of Labia Majora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92357183|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of excoriations of the Perineum among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of excoriations of the Perineum in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92357184|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of rhagades of Mons Pubis among patients from different groups?||||||0.0016|||||||Chi-squared|||"Parameter: The incidence of rhagades of Mons Pubis in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0016
92357185|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of rhagades of Labia Majora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of rhagades of Labia Majora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92357186|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of rhagades of the Perineum among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of rhagades of the Perineum in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92162710|NCT00383188|184214413|SUPERIORITY||LSM Difference|1.927|STANDARD_ERROR_OF_MEAN|1.077||0.0743|TWO_SIDED|95.0|-0.19|4.044|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||4.044|-0.190|0.0743
92162711|NCT00383188|184214413|SUPERIORITY||LSM Difference|4.196|STANDARD_ERROR_OF_MEAN|1.286||0.0012|TWO_SIDED|95.0|1.668|6.723|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||6.723|1.668|0.0012
92162712|NCT00383188|184214413|SUPERIORITY||LSM Difference|1.236|STANDARD_ERROR_OF_MEAN|1.308||0.3452|TWO_SIDED|95.0|-1.335|3.807|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||3.807|-1.335|0.3452
92221368|NCT01157078|184343361|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|STANDARD_ERROR_OF_MEAN|0.29||0.444|TWO_SIDED|95.0|0.75|1.92|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.92|0.75|0.444
92162713|NCT00383188|184214413|SUPERIORITY||LSM Difference|1.095|STANDARD_ERROR_OF_MEAN|1.091||0.3162|TWO_SIDED|95.0|-1.05|3.239|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||3.239|-1.050|0.3162
92162714|NCT00383188|184214413|SUPERIORITY||LSM Difference|2.514|STANDARD_ERROR_OF_MEAN|1.072||0.0195|TWO_SIDED|95.0|0.406|4.622|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||4.622|0.406|0.0195
92162715|NCT00383188|184214413|SUPERIORITY||LSM Difference|2.762|STANDARD_ERROR_OF_MEAN|1.283||0.032|TWO_SIDED|95.0|0.239|5.285|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||5.285|0.239|0.0320
92357187|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with vulvar dermatosis?||||||0.0014|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with vulvar dermatosis.||||0.0014
92357188|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with vulvar dermatosis.||||0.0000
92357189|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Majora versus non-specific lesions of the Perineum in patients with vulvar dermatosis?||||||0.0414|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesion of Labia Majora versus non-specific lesions of the Perineum in patients with vulvar dermatosis.||||0.0414
92162716|NCT00383188|184214413|SUPERIORITY||LSM Difference|0.268|STANDARD_ERROR_OF_MEAN|1.29||0.8356|TWO_SIDED|95.0|-2.268|2.804|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||2.804|-2.268|0.8356
92162717|NCT00383188|184214413|SUPERIORITY||LSM Difference|-0.904|STANDARD_ERROR_OF_MEAN|1.626||0.5787|TWO_SIDED|95.0|-4.101|2.293|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||2.293|-4.101|0.5787
92162718|NCT00383188|184214413|SUPERIORITY||LSM Difference|1.291|STANDARD_ERROR_OF_MEAN|1.6||0.4203|TWO_SIDED|95.0|-1.854|4.436|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||4.436|-1.854|0.4203
92162719|NCT00383188|184214413|SUPERIORITY||LSM Difference|2.318|STANDARD_ERROR_OF_MEAN|1.916||0.2272|TWO_SIDED|95.0|-1.449|6.084|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||6.084|-1.449|0.2272
92162720|NCT00383188|184214413|SUPERIORITY||LSM Difference|0.829|STANDARD_ERROR_OF_MEAN|1.947||0.6707|TWO_SIDED|95.0|-2.998|4.655|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||4.655|-2.998|0.6707
92162721|NCT00383188|184214413|SUPERIORITY||LSM Difference|0.425|STANDARD_ERROR_OF_MEAN|1.622||0.7935|TWO_SIDED|95.0|-2.764|3.613|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||3.613|-2.764|0.7935
92162722|NCT00383188|184214413|SUPERIORITY||LSM Difference|2.525|STANDARD_ERROR_OF_MEAN|1.592||0.1135|TWO_SIDED|95.0|-0.605|5.655|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||5.655|-0.605|0.1135
92162723|NCT00383188|184214413|SUPERIORITY||LSM Difference|2.63|STANDARD_ERROR_OF_MEAN|1.912||0.1697|TWO_SIDED|95.0|-1.128|6.388|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||6.388|-1.128|0.1697
92162724|NCT00383188|184214413|SUPERIORITY||LSM Difference|2.21|STANDARD_ERROR_OF_MEAN|1.918||0.25|TWO_SIDED|95.0|-1.561|5.981|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||5.981|-1.561|0.2500
92162725|NCT00972504|184214422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-1.2|-0.1||||||||-0.1|-1.2|
92162726|NCT00972504|184214422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-1.8|-0.8||||||||-0.8|-1.8|
92162727|NCT00972504|184214422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-1.9|-0.8||||||||-0.8|-1.9|
92162728|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|0.0|0.3|||||Comparison of Nasal Blockage between Placebo and GSK1004723 1000 µg once daily.|||0.3|-0.0|
92162729|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.4|-0.1|||||Comparison of Nasal Blockage between Placebo and GSK835726 10 mg once daily.|||-0.1|-0.4|
92162730|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.4|-0.1|||||Comparison of Nasal Blockage between Placebo and Cetirizine 10 mg once daily.|||-0.1|-0.4|
92162731|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.4|-0.1|||||Comparison of Rhinorrhoea between Placebo and GSK1004723 1000 µg once daily.|||-0.1|-0.4|
92357190|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with vulvodynia?||||||0.0898|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0898
92221369|NCT01157078|184343362|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52|STANDARD_ERROR_OF_MEAN|0.42||0.13|TWO_SIDED|95.0|0.88|2.61|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.61|0.88|0.130
92221370|NCT01157078|184343363|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75|STANDARD_ERROR_OF_MEAN|0.96||0.307|TWO_SIDED|95.0|0.6|5.14|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||5.14|0.60|0.307
92221371|NCT01157078|184343364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44|STANDARD_ERROR_OF_MEAN|0.52||0.313|TWO_SIDED|95.0|0.71|2.94|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.94|0.71|0.313
92221372|NCT01157078|184343365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77|STANDARD_ERROR_OF_MEAN|0.79||0.201|TWO_SIDED|95.0|0.74|4.24|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||4.24|0.74|0.201
92221373|NCT01157078|184343366|SUPERIORITY_OR_OTHER||LS mean|-0.5|STANDARD_ERROR_OF_MEAN|0.82||0.552|TWO_SIDED|95.0|-2.1|1.12|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.12|-2.10|0.552
92221374|NCT01157078|184343367|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.803||95.0|-0.31|0.24|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.24|-0.31|0.803
92221375|NCT01157078|184343368|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|STANDARD_ERROR_OF_MEAN|0.28||0.44|TWO_SIDED|95.0|0.75|1.91|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.91|0.75|0.440
92221376|NCT01157078|184343369|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.55||0.768|TWO_SIDED|95.0|-0.91|1.23||Analysis for change in MADRS total score from randomization to Week 9.|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.23|-0.91|0.768
92221377|NCT01157078|184343370|SUPERIORITY_OR_OTHER||LS mean|0.7|STANDARD_ERROR_OF_MEAN|0.78||0.373|TWO_SIDED|95.0|-0.84|2.24|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.24|-0.84|0.373
92221378|NCT01157078|184343371|SUPERIORITY_OR_OTHER||LS mean|-0.7|STANDARD_ERROR_OF_MEAN|0.9||0.435|TWO_SIDED|95.0|-2.47|1.07|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.07|-2.47|0.435
92221379|NCT01157078|184343372|SUPERIORITY_OR_OTHER||LS mean|-0.7|STANDARD_ERROR_OF_MEAN|0.97||0.501|TWO_SIDED|95.0|-2.56|1.25|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects the model; pooled center is a random effect.||1.25|-2.56|0.501
92221380|NCT01157078|184343373|SUPERIORITY_OR_OTHER||LS mean|-0.62|STANDARD_ERROR_OF_MEAN|0.771||0.424|TWO_SIDED|95.0|-2.134|0.901||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.901|-2.134|0.424
92221381|NCT01157078|184343374|SUPERIORITY_OR_OTHER||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.214|TWO_SIDED|95.0|-0.96|0.22||Analysis for change in SDS work/school domain score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.22|-0.96|0.214
92221382|NCT01157078|184343375|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.29||0.931|TWO_SIDED|95.0|-0.59|0.54|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.54|-0.59|0.931
92357191|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with vulvodynia?||||||0.0008|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0008
92405688|NCT00817843|184701584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.295||0.766||95.0|||||ANOVA|||"Between treatment difference in the change in FMD from the fasting to the post-fat load state.~Null hypothesis was that combination therapy (simvastatin/ezetimibe) would protect the FMD in the post-fat load phase and would therefore be associated with a smaller drop in FMD~Power calculation was based on the results from a pilot study. To detect a 1.0% difference between treatments with a SD of 2.7% and a power of 90% (alfa 0.05, two tailed) 80 evaluable patients were needed."||||0.766
92357192|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Majora versus non-specific lesions of the Perineum in patients with vulvodynia?||||||0.0587|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Labia Majora versus non-specific lesions of the Perineum in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0587
92357193|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with impaired vulvar skin?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with impaired vulvar skin.||||1.0000
92357194|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with impaired vulvar skin?||||||0.1352|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with impaired vulvar skin.||||0.1352
92357195|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Majora versus non-specific lesions of the Perineum in patients with impaired vulvar skin?||||||0.1352|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesion of Labia Majora versus non-specific lesions of the Perineum in patients with impaired vulvar skin.||||0.1352
92357196|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of Mons Pubis versus specific lesions of Labia Majora in patients with vulvar dermatosis?||||||0.0002|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Mons Pubis versus specific lesions of Labia Majora in patients with vulvar dermatosis.||||0.0002
92357197|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of Mons Pubis versus specific lesions of the Perineum in patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Mons Pubis versus specific lesions of the Perineum in patients with vulvar dermatosis.||||0.0000
92162732|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.6|-0.2|||||Comparison of Rhinorrhoea between Placebo and GSK835726 10 mg once daily.|||-0.2|-0.6|
92162733|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.6|-0.3|||||Comparison of Rhinorrhoea between Placebo and Cetirizine 10 mg once daily.|||-0.3|-0.6|
92162734|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.4|-0.1|||||Comparison of Nasal Itching between Placebo and GSK1004723 1000 µg once daily.|||-0.1|-0.4|
92162735|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.5|-0.2|||||Comparison of Nasal Itching between Placebo and GSK835726 10 mg once daily.|||-0.2|-0.5|
92162736|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.5|-0.2|||||Comparison of Nasal Itching between Placebo and Cetirizine 10 mg once daily.|||-0.2|-0.5|
92162737|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.5|-0.2|||||Comparison of Sneezing between Placebo and GSK1004723 1000 µg once daily.|||-0.2|-0.5|
92162738|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.4|-0.2|||||Comparison of Sneezing between Placebo and GSK835726 10mg once daily.|||-0.2|-0.4|
92162739|NCT00972504|184214423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.5|-0.2|||||Comparison of Sneezing between Placebo and Cetirizine 10mg once daily.|||-0.2|-0.5|
92162740|NCT00972504|184214424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.041|STANDARD_ERROR_OF_MEAN|0.4194|||TWO_SIDED|95.0|-1.87|-0.212||||||||-0.212|-1.870|
92162741|NCT00972504|184214424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.76|STANDARD_ERROR_OF_MEAN|0.4172|||TWO_SIDED|95.0|-2.584|-0.936||||||||-0.936|-2.584|
92162742|NCT00972504|184214424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.792|STANDARD_ERROR_OF_MEAN|0.4224|||TWO_SIDED|95.0|-3.626|-1.957||||||||-1.957|-3.626|
92162743|NCT00972504|184214425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.306|||TWO_SIDED|95.0|-0.28|0.93||||||||0.93|-0.28|
92162744|NCT00972504|184214425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.305|||TWO_SIDED|95.0|-1.65|-0.45||||||||-0.45|-1.65|
92162745|NCT00972504|184214425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|0.308||||95.0|-1.68|-0.46||||||||-0.46|-1.68|
92162746|NCT01544062|184214458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.7||||0.024|TWO_SIDED|95.0|2.3|31.1|||t-test, 2 sided|||||31.1|2.3|0.024
92162747|NCT01544062|184214458|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.013
92162748|NCT01544062|184214459|SUPERIORITY_OR_OTHER|||||||0.059|TWO_SIDED||||||t-test, 2 sided|||||||0.059
92162749|NCT01544062|184214459|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.020
92162750|NCT01544062|184214460|SUPERIORITY_OR_OTHER|||||||0.724|TWO_SIDED||||||t-test, 2 sided|||||||0.724
92162751|NCT01544062|184214460|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.510
92162752|NCT01544062|184214461|SUPERIORITY_OR_OTHER|||||||0.397|TWO_SIDED||||||t-test, 2 sided|||||||0.397
92162753|NCT01544062|184214461|SUPERIORITY_OR_OTHER|||||||0.458|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.458
92162754|NCT01544062|184214462|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.600
92162755|NCT01544062|184214462|SUPERIORITY_OR_OTHER|||||||0.509|TWO_SIDED||||||ANCOVA|controlling for age, sex and body mass index||||||0.509
92162756|NCT01544062|184214463|SUPERIORITY_OR_OTHER|||||||0.399|TWO_SIDED||||||t-test, 2 sided|||||||0.399
92162757|NCT01544062|184214463|SUPERIORITY_OR_OTHER|||||||0.395|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.395
92221383|NCT01157078|184343376|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.755|TWO_SIDED|95.0|-0.6|0.44|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.44|-0.60|0.755
92221384|NCT01157078|184343377|SUPERIORITY_OR_OTHER||LS mean|0.82|STANDARD_ERROR_OF_MEAN|1.789||0.646|TWO_SIDED|95.0|-2.699|4.346|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||4.346|-2.699|0.646
92221385|NCT01157078|184343378|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.446|TWO_SIDED|95.0|-0.31|0.14|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.14|-0.31|0.446
92221386|NCT01157078|184343379|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.178|TWO_SIDED|95.0|-0.06|0.33|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.33|-0.06|0.178
92221387|NCT01157078|184343380|SUPERIORITY_OR_OTHER||LS Mean|-1.1|STANDARD_ERROR_OF_MEAN|1.61||0.515|TWO_SIDED|95.0|-4.22|2.12|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SIS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.12|-4.22|0.515
92221388|NCT01157078|184343381|SUPERIORITY_OR_OTHER||LS mean|0.024|STANDARD_ERROR_OF_MEAN|0.0226||0.298|TWO_SIDED|95.0|-0.0209|0.068||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0680|-0.0209|0.298
92357198|NCT02732145|184619249|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of Labia Majora versus specific lesions of the Perineum in patients with vulvar dermatosis?||||||0.0854|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Labia Majora versus specific lesions of the Perineum in patients with vulvar dermatosis.||||0.0854
92357199|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Anterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357200|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Interlabial Sulci among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Interlabial Sulci in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357201|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Minora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Labia Minora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357202|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Posterior Commissure among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Posterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy.. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92221389|NCT01157078|184343381|SUPERIORITY_OR_OTHER||LS mean|1.6|STANDARD_ERROR_OF_MEAN|2.34||0.484|TWO_SIDED|95.0|-2.98|6.26||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||6.26|-2.98|0.484
92221390|NCT00132132|184343396|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 2 sided|This analysis is the per protocol unadjusted value||||||0.03
92221391|NCT00132132|184343396|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||t-test, 2 sided|Age adjusted per protocol||||||0.14
92221392|NCT00132132|184343396|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||t-test, 2 sided|Per protocol adjusted for age and paternal education. Given the small number of participants with complete data, this model may be overfit.||||||0.006
92221393|NCT00132132|184343397|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared|||||||0.02
92221394|NCT03776175|184343399|SUPERIORITY||Difference in LS mean|-44.52||||0|TWO_SIDED|90.0|-54.97|-31.65|||ANCOVA||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 90% CI was calculated on difference in least square (LS) mean between groups||-31.65|-54.97|0.0000
92221395|NCT03776175|184343399|SUPERIORITY||Difference in LS Mean|-35.4||||0.0007|TWO_SIDED|90.0|-47.4|-20.68|||ANCOVA||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 90% CI was calculated on difference LS mean between groups.||-20.68|-47.40|0.0007
92221396|NCT03776175|184343399|SUPERIORITY||Difference in LS Mean|-44.64||||0|TWO_SIDED|90.0|-54.8|-32.19|||ANCOVA||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 90% CI was calculated on difference in LS mean between groups.||-32.19|-54.80|0.0000
92221397|NCT03776175|184343399|SUPERIORITY||Difference in LS Mean|-0.21||||0.9836|TWO_SIDED|90.0|-15.66|18.08|||ANCOVA||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 90% CI was calculated on difference in LS mean between groups.||18.08|-15.66|0.9836
92221398|NCT03776175|184343399|SUPERIORITY||Difference in LS Mean|-14.3||||0.1233|TWO_SIDED|90.0|-27.32|1.06|||ANCOVA||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 90% CI was calculated on difference in LS mean between groups.||1.06|-27.32|0.1233
92221399|NCT03776175|184343399|SUPERIORITY||Difference in LS Mean|-0.21|||||TWO_SIDED|50.0|-6.82|6.87|||||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 50% CI was calculated on difference in LS mean between groups.||6.87|-6.82|
92221400|NCT03776175|184343399|SUPERIORITY||Difference in LS Mean|-14.3|||||TWO_SIDED|50.0|-19.86|-8.35|||||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 50% CI was calculated on difference in LS mean between groups.||-8.35|-19.86|
92357203|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Anterior Commissure among patients from different groups?||||||0.0199|||||||Chi-squared|||"Parameter: The incidence of erythema of the Anterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0199
92405689|NCT01499355|184701588|SUPERIORITY_OR_OTHER|||||||0.367||||||P-Value from Cox proportional hazard model, including the variable for treatment, adjusted for the covariates including region (Latin America, Asia, rest of world \[ROW\]) and renal response at Run-in Week 12 (partial and non-response).|Cox proportional hazard|||||||0.367
92162758|NCT01544062|184214464|SUPERIORITY_OR_OTHER|||||||0.771|TWO_SIDED||||||t-test, 2 sided|||||||0.771
92162759|NCT01544062|184214464|SUPERIORITY_OR_OTHER|||||||0.927|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.927
92162760|NCT01544062|184214465|SUPERIORITY_OR_OTHER|||||||0.644|TWO_SIDED||||||t-test, 2 sided|||||||0.644
92162761|NCT01544062|184214465|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.160
92162762|NCT01544062|184214466|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||t-test, 2 sided|||||||0.710
92162763|NCT01544062|184214466|SUPERIORITY_OR_OTHER|||||||0.475|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.475
92162764|NCT01544062|184214467|SUPERIORITY_OR_OTHER|||||||0.508|TWO_SIDED||||||t-test, 2 sided|||||||0.508
92162765|NCT01544062|184214467|SUPERIORITY_OR_OTHER|||||||0.905|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.905
92162766|NCT01544062|184214468|SUPERIORITY_OR_OTHER|||||||0.104|TWO_SIDED||||||t-test, 2 sided|||||||0.104
92162767|NCT01544062|184214469|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Fisher Exact|||||||0.580
92162768|NCT01544062|184214470|SUPERIORITY_OR_OTHER|||||||0.619|TWO_SIDED||||||Fisher Exact|||||||0.619
92162769|NCT01544062|184214471|SUPERIORITY_OR_OTHER|||||||0.511|TWO_SIDED||||||Fisher Exact|||||||0.511
92162770|NCT01544062|184214472|SUPERIORITY_OR_OTHER|||||||0.501|TWO_SIDED||||||Fisher Exact|||||||0.501
92162771|NCT01544062|184214473|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
92162772|NCT01544062|184214474|SUPERIORITY_OR_OTHER|||||||0.299|TWO_SIDED||||||Fisher Exact|||||||0.299
92162773|NCT01544062|184214475|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
92162774|NCT01544062|184214476|SUPERIORITY_OR_OTHER|||||||0.492|TWO_SIDED||||||Fisher Exact|||||||0.492
92162775|NCT01544062|184214477|SUPERIORITY_OR_OTHER|||||||0.455|TWO_SIDED||||||Fisher Exact|||||||0.455
92162776|NCT01544062|184214478|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
92162777|NCT00414206|184214514|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANCOVA|||||||>0.05
92162778|NCT03693742|184214532|SUPERIORITY||||||<|0.001||||||A P value of less than 0.05 was considered significant.|Mixed Models Analysis|||"Null hypothesis is that there was no difference in uptake of F18-DCFPyL between the MSG and placebo groups.~A sample size of 10 achieves 100% power to detect a mean of paired differences of 5.0 (33%) with an estimated standard deviation of differences of 1.0 and with a significance level (alpha) of 0.05 using a one-sided paired t-test. If the estimated standard deviation of differences is 5.0, a sample size of 10 achieves 90% power to detect a mean difference of 5.0 with an alpha of 0.05."||||<0.001
92162779|NCT00798265|184214558|OTHER|||||||0.002||||||The reported p-value is representative of the changes in HPV-16 at 7 months in Cohort 1.|Spearman correlation (non-parametric)|||||||0.0020
92162780|NCT00798265|184214558|OTHER||||||<|0.0001||||||The reported p-value is representative of the changes in HPV-18 at 7 months in Cohort 1.|Spearman correlation (non-parametric)|||||||<.0001
92162781|NCT00798265|184214558|OTHER|||||||0.0002||||||The reported p-value is representative of the changes in HPV-16 at 7 months in Cohort 2.|Spearman correlation (non-parametric)|||||||0.0002
92162782|NCT00798265|184214558|OTHER||||||<|0.0001||||||The reported p-value is representative of the changes in HPV-18 at 7 months in Cohort 2.|Spearman correlation (non-parametric)|||||||<.0001
92162783|NCT04411082|184214566|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92162784|NCT04411082|184214567|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92162785|NCT04411082|184214568|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92162786|NCT04411082|184214569|SUPERIORITY||||||>|0.4839|||||||Fisher Exact|||||||>0.4839
92162787|NCT04411082|184214570|SUPERIORITY|||||||0.2065|||||||Fisher Exact|||||||0.2065
92162788|NCT04411082|184214571|SUPERIORITY|||||||0.4839|||||||Fisher Exact|||||||0.4839
92162789|NCT04411082|184214572|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92162790|NCT04411082|184214573|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92405690|NCT01499355|184701588|SUPERIORITY_OR_OTHER|||||||0.283||||||P-Value from Cox proportional hazard model, including the variable for treatment, adjusted for the covariates including region (Latin America, Asia, ROW) and renal response at Run-in Week 12 (partial and non-response).|Cox proportional hazard|||||||0.283
92162791|NCT03538041|184214592|SUPERIORITY|||||||0.2815|||||||ANOVA|||Week 2||||0.2815
92162792|NCT03538041|184214593|SUPERIORITY|||||||0.2921|||||||Kruskal-Wallis|||Week 2||||0.2921
92162793|NCT03538041|184214594|SUPERIORITY|||||||0.1267|||||||ANOVA|||Week 2||||0.1267
92162794|NCT03538041|184214595|SUPERIORITY|||||||0.2676|||||||ANOVA|||Week 2||||0.2676
92162795|NCT00094809|184214606|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.19|||<|0.0001||95.0|0.1|0.37|||Mantel Haenszel|Adjusted for chemotherapy regimen|Common odds ratio of the pegfilgrastim group compared to the placebo group|||0.37|0.10|<0.0001
92162796|NCT00094809|184214607|SUPERIORITY_OR_OTHER||Treatment difference|-18.0|||<|0.0001||95.0|-26.2|-9.8|||Mantel Haenszel|Adjusted for chemotherapy regimen|Treatment difference in percentage of participants (pegfilgrastim group - placebo group)|||-9.8|-26.2|<0.0001
92162797|NCT00094809|184214608|SUPERIORITY_OR_OTHER||Treatment difference|-12.0||||0.0646||95.0|-23.7|0.5|||Mantel Haenszel|Adjusted for chemotherapy regimen|Treatment difference in percentage of participants (pegfilgrastim group - placebo group)|||0.5|-23.7|0.0646
92162798|NCT00094809|184214609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.0384||95.0|0.07|1.0|||Mantel Haenszel|Adjusted for chemotherapy regimen|Common odds ratio of pegfilgrastim group compared to placebo group|||1.00|0.07|0.0384
92162799|NCT00094809|184214610|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.5514||95.0|0.26|2.04|||Mantel Haenszel|Adjusted for chemotherapy regimen|Common odds ratio for pegfilgrastim group compared to placebo group|||2.04|0.26|0.5514
92162800|NCT00094809|184214612|SUPERIORITY_OR_OTHER||Treatment difference|-3.5||||0.5434||95.0|-14.8|7.8|||Mantel Haenszel|Adjusted for chemotherapy regimen|Treatment difference (pegfilgrastim group - placebo group) in the percentage of participants with a complete or partial response|||7.8|-14.8|0.5434
92162801|NCT00094809|184214613|SUPERIORITY_OR_OTHER||Treatment difference|-12.1||||||95.0|-28.1|4.0|||||Kaplan-Meier estimates of the difference in percent mortality for the pegfilgrastim group - placebo group. Median survival time was not reached for the pegfilgrastim group.|||4.0|-28.1|
92221401|NCT01560780|184343459|SUPERIORITY|||||||0.78|||||||Fisher Exact|||||||0.78
92162802|NCT00094809|184214614|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.23||||0.0457||95.0|0.05|1.09|||Mantel Haenszel|Adjusted for chemotherapy regimen|Common odds ratio for pegfilgrastim group compared to placebo group|||1.09|0.05|0.0457
92162803|NCT00094809|184214615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.3792||95.0|0.32|1.53|||Mantel Haenszel|Adjusted for chemotherapy regimen|Common odds ratio of the pegfilgrastim group compared to the placebo group|||1.53|0.32|0.3792
92162804|NCT05372094|184214625|OTHER|||||||0.007|||||||Mixed Models Analysis|||Fixed factor of program and random intercept of participant||||0.007
92162805|NCT05372094|184214625|OTHER||||||<|0.05|||||||Mixed Models Analysis|||Follow up comparison between noise reduction setting OFF and noise reduction setting STRONG||||< 0.05
92162806|NCT05372094|184214625|OTHER||||||<|0.01|||||||Mixed Models Analysis|||Follow up comparison between noise reduction setting STRONG and noise reduction setting WEAK||||<0.01
92162807|NCT05372094|184214625|OTHER||||||>|0.05|||||||Mixed Models Analysis|||"Follow up comparison between ratings of effort with OFF and WEAK"||||>.05
92162808|NCT05372094|184214626|OTHER|||||||0.283|||||||Mixed Models Analysis|||||||0.283
92162809|NCT05372094|184214627|OTHER|||||||0.145|||||||Mixed Models Analysis|||Analysis was done only between NR OFF and NR at a custom or preferred setting.||||0.145
92162810|NCT05372094|184214628|OTHER|||||||0.3018|||||||Exact Binomial test|||An exact binomial test was performed to evaluate if the majority of teens and pre-teens with mild to severe hearing loss preferred NR setting (i.e., either weak or strong) to the NR setting OFF.||||0.3018
92162811|NCT05372094|184214629|OTHER|||||||0.1796|||||||Exact Binomial test|||Exact binomial test was done to evaluate if the majority (\>50%) of teens and pre-teens prefer to use Tap Control to access Bluetooth streaming, compared to using the HA push button or phone controls.||||0.1796
92162812|NCT01678196|184214652|SUPERIORITY_OR_OTHER|||||||0.927|TWO_SIDED||||||Chi-squared|||||||0.927
92162813|NCT01678196|184214653|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||ANCOVA|ANCOVA reflects change from Time 1 scores (entered as covariate) to Time 2 Scores.||||||0.67
92162814|NCT01678196|184214654|SUPERIORITY_OR_OTHER|||||||0.743|TWO_SIDED||||||ANCOVA|ANCOVA results include Time 1 scores as a covariate, thus reflecting change over time||||||0.743
92162815|NCT01678196|184214655|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|ANCOVA reflects change for Time 1 values (entered as the covariate) to Time 2 values (entered as the DV)||||||<.001
92162816|NCT01689519|184214699|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51||||0.0001|TWO_SIDED|95.0|0.39|0.68||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Primary Analysis 9 May 2014||0.68|0.39|0.0001
92162817|NCT01689519|184214699|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.46|0.72||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Post hoc Efficacy Analysis: 16 January 2015||0.72|0.46|<0.0001
92162818|NCT01689519|184214699|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.53|0.79||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Extended 5-Year Analysis: 21 July 2019||0.79|0.53|<0.0001
92221402|NCT01560780|184343460|EQUIVALENCE|safety end-point with p-value of \<0.05|||||>|0.99|||||||Log Rank|||||||>0.99
92162819|NCT01689519|184214700|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.645||||0.0463|TWO_SIDED|95.0|0.42|1.0||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Primary Analysis 9 May 2014||1.00|0.42|0.0463
92221403|NCT01560780|184343461|SUPERIORITY|||||||0.19|||||||Fisher Exact|||||||0.19
92221404|NCT01560780|184343462|SUPERIORITY|||||||0.85|||||||t-test, 2 sided|||||||0.85
92221405|NCT01560780|184343463|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
92221406|NCT01560780|184343465|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
92221407|NCT00930761|184343466|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.22||||0.06||95.0|0.99|1.51|||Chi-squared|||Null hypothesis: Music therapy does not increase the rate of maternal breastfeeding. Sample size: considering 75% as the expected rate at the time of the infant hospital discharge and an absolute difference of 30% between groups, 95% confidence level (5% alpha error) and 80% power (20% beta error), 94 subjects would need to be enrolled (47 in each study arm). Expecting a 7.5% loss after randomization, 101 was the total number of subjects considered necessary to conduct the study.||1.51|0.99|0.06
92221408|NCT00930761|184343467|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.21||||0.13||95.0|0.73|5.66|||Chi-squared|||||5.66|0.73|0.13
92221409|NCT00930761|184343468|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.26||||0.03||95.0|1.01|1.57|||Chi-squared|||Null hypothesis: Music therapy does not increase the rate of maternal breastfeeding. Sample size: considering 75% as the expected rate at the time of the first follow-up visit and an absolute difference of 30% between groups, 95% confidence level (5% alpha error) and 80% power (20% beta error), 94 subjects would need to be enrolled (47 in each study arm). Expecting a 7.5% loss after randomization, 101 was the total number of subjects considered necessary to conduct the study.||1.57|1.01|0.03
92221410|NCT00930761|184343469|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.28||||0.09||95.0|0.95|1.71|||Chi-squared|||||1.71|0.95|0.09
92221411|NCT01970995|184343471|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|13.49|||<|0.001|TWO_SIDED|95.0|10.96|16.6||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the biomarker of exposure (BoExp) was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||16.60|10.96|<.001
92221412|NCT01970995|184343472|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|50.67|||<|0.001|TWO_SIDED|95.0|44.88|57.2||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on 3-HPMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||57.20|44.88|<.001
92162820|NCT01689519|184214700|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65||||0.0034|TWO_SIDED|95.0|0.49|0.87||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Post hoc Analysis 16 January 2015||0.87|0.49|0.0034
92162821|NCT01689519|184214700|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7||||0.005|TWO_SIDED|95.0|0.55|0.9||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Final Analysis 28 August 2015||0.90|0.55|0.0050
92221413|NCT01970995|184343473|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|10.97|||<|0.001|TWO_SIDED|95.0|9.26|12.99||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on S-PMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||12.99|9.26|<.001
92221414|NCT01970995|184343474|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|44.94|||<|0.001|TWO_SIDED|95.0|42.11|47.97||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on COHb levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||47.97|42.11|<.001
92227093|NCT01482910|184356425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.1|||<|0.0001|TWO_SIDED|95.0|6.8|13.4||Hierarchical testing procedure was used in the order of pre-defined fixed sequence (primary endpoint first, then confirmatory secondary efficacy point next). A two-sided significance level of 0.05 was used.|ANCOVA|ANCOVA with baseline BCVA as a covariate, and treatment group and baseline BCVA group (\<45 letters vs ≥45 letters) as fixed factors|Least square mean difference (EYLEA-PDT) was estimated from ANCOVA, where a positive value is in favor of EYLEA.|Null hypothesis: mean changes are identical in both groups. A sample size of 300 subjects with a 3:1 (EYLEA to PDT) randomization ratio is sufficient to detect the superiority of EYLEA to PDT assuming a two-sided alpha level of 0.05, a power of 90%, a treatment difference of 7.5 letters and a common standard deviation of 14 letters.||13.4|6.8|<0.0001
92357204|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of erythema of Interlabial Sulci among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Interlabial Sulci in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357205|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of erythema of Labia Minora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Labia Minora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92405691|NCT01499355|184701589|SUPERIORITY_OR_OTHER|||||||0.0486||||||Model includes the variable for treatment, adjusted for the covariates including region (Latin America, Asia, ROW) and renal response at Run-in Week 12 (partial and non-response).|Cochran-Mantel-Haenszel|||||||0.0486
92162822|NCT01689519|184214701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.85|||<|0.0001|TWO_SIDED|95.0|14.13|31.58|||Chi-squared|||Primary Analysis: 9 May 2014||31.58|14.13|<0.0001
92162823|NCT01689519|184214701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.6|||<|0.0001|TWO_SIDED|95.0|11.0|28.3|||Chi-squared|||Post hoc Efficacy Analysis: 16 January 2015||28.3|11.0|<0.0001
92162824|NCT01689519|184214701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|20.0|||<|0.0001|TWO_SIDED|95.0|11.4|28.7|||Chi-squared|||Extended 5-Year Analysis: 21 July 2019||28.70|11.40|<0.0001
92162825|NCT01245439|184214722|SUPERIORITY_OR_OTHER|||||||0.929|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 1 to Visit 2||||0.929
92162826|NCT01245439|184214722|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 2 to 3||||<0.001
92162827|NCT01245439|184214722|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 3 to Visit 4||||<0.001
92162828|NCT01245439|184214722|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 4 to Visit 5||||0.050
92162829|NCT01245439|184214722|SUPERIORITY_OR_OTHER|||||||0.165|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 5 to Visit 6||||0.165
92162830|NCT01245439|184214722|SUPERIORITY_OR_OTHER|||||||0.133|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 6 to Visit 7||||0.133
92162831|NCT01245439|184214722|SUPERIORITY_OR_OTHER|||||||0.217|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 7 to Visit 8||||0.217
92162832|NCT01245439|184214722|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 2 to Visit 8||||<0.001
92162833|NCT01245439|184214725|SUPERIORITY_OR_OTHER|||||||0.169|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 1 to Visit 2||||0.169
92162834|NCT01245439|184214725|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 2 to Visit 3||||<0.001
92162835|NCT01245439|184214725|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 3 to Visit 4||||0.053
92162836|NCT01245439|184214725|SUPERIORITY_OR_OTHER|||||||0.514|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 4 to Visit 5||||0.514
92162837|NCT01245439|184214725|SUPERIORITY_OR_OTHER|||||||0.064|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 5 to Visit 6||||0.064
92162838|NCT01245439|184214725|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 6 to Visit 7||||0.038
92162839|NCT01245439|184214725|SUPERIORITY_OR_OTHER|||||||0.064|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 7 to Visit 8||||0.064
92162840|NCT01245439|184214725|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 2 to Visit 8||||<0.001
92162841|NCT01245439|184214726|SUPERIORITY_OR_OTHER|||||||0.981|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 1 to Visit 2||||0.981
92162842|NCT01245439|184214726|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 2 to Visit 3||||<0.001
92162843|NCT01245439|184214726|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 3 to Visit 4||||0.005
92162844|NCT01245439|184214726|SUPERIORITY_OR_OTHER|||||||0.566|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 4 to Visit 5||||0.566
92162845|NCT01245439|184214726|SUPERIORITY_OR_OTHER|||||||0.264|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 5 to Visit 6||||0.264
92162846|NCT01245439|184214726|SUPERIORITY_OR_OTHER|||||||0.126|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 6 to Visit 7||||0.126
92162847|NCT01245439|184214726|SUPERIORITY_OR_OTHER|||||||0.779|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 7 to Visit 8||||0.779
92162848|NCT01245439|184214726|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||||||<0.001
92162849|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints Visit 1 to Visit 2||||0.410
92162850|NCT01245439|184214727|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 2 to Visit 3||||<0.001
92162851|NCT01245439|184214727|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 3 to Visit 4||||<0.001
92162852|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 4 to Visit 5||||0.021
92162853|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 5 to Visit 6||||0.003
92162854|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.827|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 6 to Visit7||||0.827
92162855|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.093|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 7 to Visit 8||||0.093
92162856|NCT01245439|184214727|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 2 to Visit 8||||<0.001
92162857|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.792|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 1 to Visit 2||||0.792
92162858|NCT01245439|184214727|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 2 to Visit 3||||<0.001
92162859|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 3 to Visit 4||||0.002
92162860|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.374|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 4 to Visit 5||||0.374
92162861|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.518|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 5 to Visit 6||||0.518
92162862|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.744|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 6 to Visit 7||||0.744
92162863|NCT01245439|184214727|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 7 to Visit 8||||0.048
92162864|NCT01245439|184214727|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 2 to Visit 8||||<0.001
92162865|NCT01245439|184214728|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 2 to Visit 3||||<0.001
92162866|NCT01245439|184214728|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 3 to Visit 4||||<0.001
92162867|NCT01245439|184214728|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 4 to Visit 5||||0.075
92162868|NCT01245439|184214728|SUPERIORITY_OR_OTHER|||||||0.119|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 5 to Visit 6||||0.119
92162869|NCT01245439|184214728|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 6 to Visit 7||||0.007
92162870|NCT01245439|184214728|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 7 to Visit 8||||0.047
92162871|NCT01245439|184214728|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 2 to Visit 8||||<0.001
92162872|NCT01245439|184214728|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 2 to Visit 3||||<0.001
92162873|NCT01245439|184214728|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 3 to Visit 4||||<0.001
92162874|NCT01245439|184214728|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 4 to Visit 5||||0.001
92162875|NCT01245439|184214728|SUPERIORITY_OR_OTHER|||||||0.084|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 5 to Visit 6||||0.084
92162876|NCT01245439|184214728|SUPERIORITY_OR_OTHER|||||||0.272|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 6 to Visit 7||||0.272
92162877|NCT01245439|184214728|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 7 to Visit 8||||0.020
92162878|NCT01245439|184214728|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 2 to Visit 8||||<0.001
92162879|NCT01245439|184214729|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 2 to Visit 3||||<0.001
92162880|NCT01245439|184214729|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 3 to Visit 4||||<0.001
92162881|NCT01245439|184214729|SUPERIORITY_OR_OTHER|||||||0.254|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 4 to Visit 5||||0.254
92162882|NCT01245439|184214729|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 5 to Visit 6||||0.138
92162883|NCT01245439|184214729|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 6 to Visit 7||||0.002
92162884|NCT01245439|184214729|SUPERIORITY_OR_OTHER|||||||0.104|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 7 to Visit 8||||0.104
92162885|NCT01245439|184214729|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 2 to Visit 8||||<0.001
92162886|NCT01245439|184214730|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 2 to Visit 3||||<0.001
92162887|NCT01245439|184214730|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 3 to Visit 4||||0.002
92162888|NCT01245439|184214730|SUPERIORITY_OR_OTHER|||||||0.078|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 4 to Visit 5||||0.078
92162889|NCT01245439|184214730|SUPERIORITY_OR_OTHER|||||||0.349|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 5 to Visit 6||||0.349
92162890|NCT01245439|184214730|SUPERIORITY_OR_OTHER|||||||0.722|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 6 to Visit 7||||0.722
92162891|NCT01245439|184214730|SUPERIORITY_OR_OTHER|||||||0.224|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 7 to Visit 8||||0.224
92162892|NCT03525119|184214735|NON_INFERIORITY|As per predefined criteria in protocol the non-inferiority was established only between group 1 and group 3. Non-inferiority of HAV+TDV to HAV was established if the upper bound of the 95% CI was less than 10%.|Seroprotection Rate Difference|-1.68|||||TWO_SIDED|95.0|-8.91|4.28||||||||4.28|-8.91|
92162893|NCT05046132|184214744|OTHER||Mean of Placebo-corrected CHFB|3.7|STANDARD_ERROR_OF_MEAN|1.48|||TWO_SIDED|90.0|1.23|6.17||||||"The C-QTc analysis was performed with a non-linear model.~The mean of placebo-corrected CHFB in QTcF at maximum concentration (Cmax) geometric mean of therapeutic dose (3 mg QD) was estimated with bias-corrected 90% CI by nonparametric bootstrap methods."||6.17|1.23|
92162894|NCT05046132|184214745|OTHER||Mean of Placebo-corrected CHFB|4.67|||||TWO_SIDED|90.0|1.7|7.64||||||The C-QTc analysis was performed with a non-linear model. The mean of placebo-corrected CHFB in QTcF at Cmax geometric mean of therapeutic dose (7 mg QD) was estimated with bias-corrected 90% CI by nonparametric bootstrap methods.||7.64|1.70|
92162895|NCT05046132|184214746|OTHER||LS Mean|2.5|||||TWO_SIDED|90.0|-0.6|5.6||||||Pre-dose||5.6|-0.6|
92162896|NCT05046132|184214746|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-3.0|3.1||||||0.5 hr Post dose||3.1|-3.0|
92162897|NCT05046132|184214746|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-2.8|3.0||||||1 hr Post dose||3.0|-2.8|
92162898|NCT05046132|184214746|OTHER||LS Mean|1.6|||||TWO_SIDED|90.0|-1.8|5.1||||||1.5 hr Post dose||5.1|-1.8|
92162899|NCT05046132|184214746|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-2.8|4.1||||||2 hr Post dose||4.1|-2.8|
92162900|NCT05046132|184214746|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-2.9|3.4||||||2.5 hr Post dose||3.4|-2.9|
92357206|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Posterior Commissure among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Posterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357207|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of fissures of Interlabial Sulci among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of fissures of Interlabial Sulci in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357208|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of fissures of the Posterior Commissure among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of fissures of the Posterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92405692|NCT01499355|184701589|SUPERIORITY_OR_OTHER|||||||0.0668||||||Model includes the variable for treatment, adjusted for the covariates including region (Latin America, Asia, ROW) and renal response at Run-in Week 12 (partial and non-response).|Cochran-Mantel-Haenszel|||||||0.0668
92162901|NCT05046132|184214746|OTHER||LS Mean|2.2|||||TWO_SIDED|90.0|-1.4|5.7||||||3 hr Post dose||5.7|-1.4|
92162902|NCT05046132|184214746|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-2.9|2.7||||||4 hr Post dose||2.7|-2.9|
92162903|NCT05046132|184214746|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-3.1|2.7||||||5 hr Post dose||2.7|-3.1|
92162904|NCT05046132|184214746|OTHER||LS Mean|-0.8|||||TWO_SIDED|90.0|-3.8|2.3||||||6 hr Post dose||2.3|-3.8|
92162905|NCT05046132|184214746|OTHER||LS Mean|-2.8|||||TWO_SIDED|90.0|-5.5|-0.1||||||7 hr Post dose||-0.1|-5.5|
92162906|NCT05046132|184214746|OTHER||LS Mean|-1.6|||||TWO_SIDED|90.0|-4.5|1.3||||||8 hr Post dose||1.3|-4.5|
92162907|NCT05046132|184214746|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-2.5|3.0||||||9 hr Post dose||3.0|-2.5|
92162908|NCT05046132|184214746|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-2.3|2.7||||||10 hr Post dose||2.7|-2.3|
92162909|NCT05046132|184214746|OTHER||LS Mean|-3.0|||||TWO_SIDED|90.0|-5.9|-0.1||||||12 hr Post dose||-0.1|-5.9|
92162910|NCT05046132|184214746|OTHER||LS Mean|-2.0|||||TWO_SIDED|90.0|-5.1|1.0||||||16 hr Post dose||1.0|-5.1|
92162911|NCT05046132|184214746|OTHER||LS Mean|1.1|||||TWO_SIDED|90.0|-1.6|3.8||||||24 hr Post dose||3.8|-1.6|
92162912|NCT05046132|184214746|OTHER||LS Mean|1.4|||||TWO_SIDED|90.0|-1.7|4.5||||||Pre-dose||4.5|-1.7|
92162913|NCT05046132|184214746|OTHER||LS Mean|1.7|||||TWO_SIDED|90.0|-1.4|4.7||||||0.5 hr Post dose||4.7|-1.4|
92162914|NCT05046132|184214746|OTHER||LS Mean|1.9|||||TWO_SIDED|90.0|-1.0|4.8||||||1 hr Post dose||4.8|-1.0|
92162915|NCT05046132|184214746|OTHER||LS Mean|2.6|||||TWO_SIDED|90.0|-0.9|6.0||||||1.5 hr Post dose||6.0|-0.9|
92162916|NCT05046132|184214746|OTHER||LS Mean|1.3|||||TWO_SIDED|90.0|-2.1|4.8||||||2 hr Post dose||4.8|-2.1|
92162917|NCT05046132|184214746|OTHER||LS Mean|1.7|||||TWO_SIDED|90.0|-1.4|4.9||||||2.5 hr Post dose||4.9|-1.4|
92162918|NCT05046132|184214746|OTHER||LS Mean|1.6|||||TWO_SIDED|90.0|-1.9|5.1||||||3 hr Post dose||5.1|-1.9|
92162919|NCT05046132|184214746|OTHER||LS Mean|1.4|||||TWO_SIDED|90.0|-1.4|4.2||||||4 hr Post dose||4.2|-1.4|
92162920|NCT05046132|184214746|OTHER||LS Mean|2.7|||||TWO_SIDED|90.0|-0.2|5.7||||||5 hr Post dose||5.7|-0.2|
92162921|NCT05046132|184214746|OTHER||LS Mean|4.4|||||TWO_SIDED|90.0|1.4|7.5||||||6 hr Post dose||7.5|1.4|
92162922|NCT05046132|184214746|OTHER||LS Mean|2.8|||||TWO_SIDED|90.0|0.1|5.5||||||7 hr Post dose||5.5|0.1|
92162923|NCT05046132|184214746|OTHER||LS Mean|4.1|||||TWO_SIDED|90.0|1.2|7.0||||||8 hr Post dose||7.0|1.2|
92162924|NCT05046132|184214746|OTHER||LS Mean|3.6|||||TWO_SIDED|90.0|0.8|6.3||||||9 hr Post dose||6.3|0.8|
92162925|NCT05046132|184214746|OTHER||LS Mean|3.3|||||TWO_SIDED|90.0|0.8|5.8||||||10 hr Post dose||5.8|0.8|
92162926|NCT05046132|184214746|OTHER||LS Mean|2.6|||||TWO_SIDED|90.0|-0.3|5.5||||||12 hr Post dose||5.5|-0.3|
92162927|NCT05046132|184214746|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-2.7|3.4||||||16 hr Post dose||3.4|-2.7|
92162928|NCT05046132|184214746|OTHER||LS Mean|1.7|||||TWO_SIDED|90.0|-1.0|4.4||||||24 hr Post dose||4.4|-1.0|
92162929|NCT05046132|184214747|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-2.8|3.4||||||Pre dose||3.4|-2.8|
92162930|NCT05046132|184214747|OTHER||LS Mean|-2.1|||||TWO_SIDED|90.0|-5.3|1.0||||||0.5 hr Post dose||1.0|-5.3|
92162931|NCT05046132|184214747|OTHER||LS Mean|-1.6|||||TWO_SIDED|90.0|-4.7|1.4||||||1 hr Post dose||1.4|-4.7|
92162932|NCT05046132|184214747|OTHER||LS Mean|-2.2|||||TWO_SIDED|90.0|-5.3|1.0||||||1.5 hr Post dose||1.0|-5.3|
92162933|NCT05046132|184214747|OTHER||LS Mean|-3.3|||||TWO_SIDED|90.0|-6.3|-0.3||||||2 hr Post dose||-0.3|-6.3|
92162934|NCT05046132|184214747|OTHER||LS Mean|-1.2|||||TWO_SIDED|90.0|-4.1|1.7||||||2.5 hr Post dose||1.7|-4.1|
92162935|NCT05046132|184214747|OTHER||LS Mean|-1.3|||||TWO_SIDED|90.0|-4.2|1.7||||||3 hr Post dose||1.7|-4.2|
92162936|NCT05046132|184214747|OTHER||LS Mean|-0.6|||||TWO_SIDED|90.0|-3.6|2.5||||||4 hr Post dose||2.5|-3.6|
92162937|NCT05046132|184214747|OTHER||LS Mean|-1.0|||||TWO_SIDED|95.0|-4.1|2.1||||||5 hr Post dose||2.1|-4.1|
92162938|NCT05046132|184214747|OTHER||LS Mean|0.4|||||TWO_SIDED|90.0|-2.7|3.5||||||6 hr Post dose||3.5|-2.7|
92162939|NCT05046132|184214747|OTHER||LS Mean|-2.5|||||TWO_SIDED|90.0|-5.5|0.5||||||7 hr Post dose||0.5|-5.5|
92162940|NCT05046132|184214747|OTHER||LS Mean|-2.2|||||TWO_SIDED|90.0|-5.2|0.8||||||8 hr Post dose||0.8|-5.2|
92162941|NCT05046132|184214747|OTHER||LS Mean|-0.9|||||TWO_SIDED|90.0|-4.3|2.6||||||9 hr Post dose||2.6|-4.3|
92162942|NCT05046132|184214747|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-3.6|3.2||||||10 hr Post dose||3.2|-3.6|
92162943|NCT05046132|184214747|OTHER||LS Mean|-2.2|||||TWO_SIDED|90.0|-5.5|1.0||||||12 hr Post dose||1.0|-5.5|
92162944|NCT05046132|184214747|OTHER||LS Mean|-1.9|||||TWO_SIDED|90.0|-5.4|1.7||||||16 hr Post dose||1.7|-5.4|
92162945|NCT05046132|184214747|OTHER||LS Mean|2.6|||||TWO_SIDED|90.0|-1.2|6.3||||||24 hr Post dose||6.3|-1.2|
92221415|NCT01970995|184343475|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|23.25|||<|0.001|TWO_SIDED|95.0|17.38|31.11||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on Total NNAL levels with product, sex, cigarette consumption, and baseline value as covariates|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 90 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 90 for mTHS 2.2 and mCC respectively."||31.11|17.38|<.001
92162946|NCT05046132|184214747|OTHER||LS Mean|-2.1|||||TWO_SIDED|90.0|-5.1|0.8||||||Pre-dose||0.8|-5.1|
92162947|NCT05046132|184214747|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-3.1|3.0||||||0.5 hr Post dose||3.0|-3.1|
92162948|NCT05046132|184214747|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-3.0|2.9||||||1 hr Post dose||2.9|-3.0|
92162949|NCT05046132|184214747|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-3.1|3.0||||||1.5 hr Post dose||3.0|-3.1|
92162950|NCT05046132|184214747|OTHER||LS Mean|-0.9|||||TWO_SIDED|90.0|-3.8|2.0||||||2 hr Post dose||2.0|-3.8|
92162951|NCT05046132|184214747|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-2.5|3.0||||||2.5 hr Post dose||3.0|-2.5|
92162952|NCT05046132|184214747|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-1.9|3.7||||||3 hr Post dose||3.7|-1.9|
92162953|NCT05046132|184214747|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-2.2|3.7||||||4 hr Post dose||3.7|-2.2|
92162954|NCT05046132|184214747|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-2.8|3.1||||||5 hr Post dose||3.1|-2.8|
92162955|NCT05046132|184214747|OTHER||LS Mean|-0.9|||||TWO_SIDED|90.0|-3.9|2.0||||||6 hr Post dose||2.0|-3.9|
92162956|NCT05046132|184214747|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-3.1|2.7||||||7 hr Post dose||2.7|-3.1|
92162957|NCT05046132|184214747|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-2.7|3.1||||||8 hr Post dose||3.1|-2.7|
92221416|NCT03699007|184343476|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92221417|NCT03699007|184343477|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92221418|NCT00595556|184343521|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Mixed Models Analysis|||||||.012
92221419|NCT00595556|184343522|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||Mixed Models Analysis|||||||.94
92221420|NCT00595556|184343523|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Mixed Models Analysis|||||||.004
92221421|NCT00595556|184343524|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Mixed Models Analysis|||||||.006
92221422|NCT00595556|184343525|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Mixed Models Analysis|||||||.3
92221423|NCT03882970|184343549|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.3% NI boundary, 0.35% greater mean reduction in tirzepatide doses compared to insulin degludec, 1:1:1:1 randomization, a common SD of 1.1%, 1 sided significance level of 0.0125, and a dropout rate of 28%.|LS Mean Difference|-0.86|||<|0.001|TWO_SIDED|95.0|-1.0|-0.72|||Mixed Models Analysis|||||-0.72|-1.00|<0.001
92221424|NCT03882970|184343549|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.3% NI boundary, 0.35% greater mean reduction in tirzepatide doses compared to insulin degludec, 1:1:1:1 randomization, a common SD of 1.1%, 1 sided significance level of 0.0125, and a dropout rate of 28%.|LS Mean Difference|-1.04|||<|0.001|TWO_SIDED|95.0|-1.17|-0.9|||Mixed Models Analysis|||||-0.90|-1.17|<0.001
92221425|NCT03882970|184343550|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.3% NI boundary, 0.35% greater mean reduction in tirzepatide doses compared to insulin degludec, 1:1:1:1 randomization, a common SD of 1.1%, 1 sided significance level of 0.0125, and a dropout rate of 28%.|LS Mean Difference|-0.59|||<|0.001|TWO_SIDED|95.0|-0.73|-0.45|||Mixed Models Analysis|||||-0.45|-0.73|<0.001
92221426|NCT03882970|184343551|SUPERIORITY||LS Mean Difference|-9.8|||<|0.001|TWO_SIDED|95.0|-10.8|-8.8|||Mixed Models Analysis|||||-8.8|-10.8|<0.001
92221427|NCT03882970|184343551|SUPERIORITY||LS Mean Difference|-13.0|||<|0.001|TWO_SIDED|95.0|-14.0|-11.9|||Mixed Models Analysis|||||-11.9|-14.0|<0.001
92221428|NCT03882970|184343551|SUPERIORITY||LS Mean Difference|-15.2|||<|0.001|TWO_SIDED|95.0|-16.2|-14.2|||Mixed Models Analysis|||||-14.2|-16.2|<0.001
92221429|NCT03882970|184343552|SUPERIORITY||LS Mean Difference|7.5||||0.004|TWO_SIDED|95.0|2.4|12.5|||Mixed Models Analysis|||||12.5|2.4|0.004
92221430|NCT03882970|184343552|SUPERIORITY||LS Mean Difference|0.8||||0.751|TWO_SIDED|95.0|-4.3|5.9|||Mixed Models Analysis|||||5.9|-4.3|0.751
92221431|NCT03882970|184343552|SUPERIORITY||LS Mean Difference|-3.6||||0.168|TWO_SIDED|95.0|-8.7|1.5|||Mixed Models Analysis|||||1.5|-8.7|0.168
92221432|NCT03882970|184343553|SUPERIORITY||Odds Ratio (OR)|3.45|||<|0.001|TWO_SIDED|95.0|2.38|5.01|||Regression, Logistic|||||5.01|2.38|<0.001
92221433|NCT03882970|184343553|SUPERIORITY||Odds Ratio (OR)|7.02|||<|0.001|TWO_SIDED|95.0|4.55|10.84|||Regression, Logistic|||||10.84|4.55|<0.001
92221434|NCT03882970|184343553|SUPERIORITY||Odds Ratio (OR)|10.79|||<|0.001|TWO_SIDED|95.0|6.65|17.48|||Regression, Logistic|||||17.48|6.65|<0.001
92221435|NCT03882970|184343555|SUPERIORITY||Odds Ratio (OR)|29.78|||<|0.001|TWO_SIDED|95.0|18.35|48.35|||Regression, Logistic|||||48.35|18.35|<0.001
92221436|NCT03882970|184343555|SUPERIORITY||Odds Ratio (OR)|79.88|||<|0.001|TWO_SIDED|95.0|47.56|134.17|||Regression, Logistic|||||134.17|47.56|<0.001
92221437|NCT03882970|184343555|SUPERIORITY||Odds Ratio (OR)|110.77|||<|0.001|TWO_SIDED|95.0|64.73|189.55|||Regression, Logistic|||||189.55|64.73|<0.001
92221438|NCT03882970|184343556|SUPERIORITY||LS Mean Difference|-0.26||||0.096|TWO_SIDED|95.0|-0.57|0.05|||ANCOVA|||Hyperglycemia||0.05|-0.57|0.096
92221439|NCT03882970|184343556|SUPERIORITY||LS Mean Difference|-0.25||||0.113|TWO_SIDED|95.0|-0.57|0.06|||ANCOVA|||Hyperglycemia||0.06|-0.57|0.113
92221440|NCT03882970|184343556|SUPERIORITY||LS Mean Difference|-0.47||||0.003|TWO_SIDED|95.0|-0.78|-0.16|||ANCOVA|||Hyperglycemia||-0.16|-0.78|0.003
92221441|NCT03882970|184343556|SUPERIORITY||LS Mean Difference|-0.41||||0.014|TWO_SIDED|95.0|-0.74|-0.08|||ANCOVA|||Hypoglycemia||-0.08|-0.74|0.014
92221442|NCT03882970|184343556|SUPERIORITY||LS Mean Difference|-0.18||||0.28|TWO_SIDED|95.0|-0.51|0.15|||ANCOVA|||Hypoglycemia||0.15|-0.51|0.280
92221443|NCT03882970|184343556|SUPERIORITY||LS Mean Difference|-0.26||||0.129|TWO_SIDED|95.0|-0.59|0.07|||ANCOVA|||Hypoglycemia||0.07|-0.59|0.129
92221444|NCT03882970|184343556|SUPERIORITY||LS Mean Difference|3.01|||<|0.001|TWO_SIDED|95.0|2.26|3.75|||ANCOVA|||Treatment Satisfaction Score||3.75|2.26|<0.001
92221445|NCT03882970|184343556|SUPERIORITY||LS Mean Difference|2.9|||<|0.001|TWO_SIDED|95.0|2.15|3.65|||ANCOVA|||Treatment Satisfaction Score||3.65|2.15|<0.001
92221446|NCT03882970|184343556|SUPERIORITY||LS Mean Difference|2.99|||<|0.001|TWO_SIDED|95.0|2.24|3.74|||ANCOVA|||Treatment Satisfaction Score||3.74|2.24|<0.001
92221447|NCT00689572|184343580|EQUIVALENCE|Mixed-effects linear regression model|Mean Difference (Final Values)|-0.09||||0.972|TWO_SIDED|95.0|-5.43|5.25|||Regression, Linear|Mixed-effects linear regression model included random intercept and slope (for temporal trend)||Difference between ondansetron and placebo groups regarding percentage of cocaine-free days (PCFD)||5.25|-5.43|0.972
92221448|NCT00689572|184343581|EQUIVALENCE|Mixed-effects linear regression model|Mean Difference (Final Values)|0.44||||0.909|TWO_SIDED|95.0|-7.08|7.95|||Regression, Linear|Mixed-effects linear regression model included random intercept and slope (for temporal trend)||Difference between ondansetron and placebo groups regarding percentage of cocaine free urines (PCFU)||7.95|-7.08|0.909
92221449|NCT02813694|184343585|NON_INFERIORITY|non-inferiority margin= 10%|Treatment difference|0.1|||||TWO_SIDED|95.0|-4.4|4.5|||||Difference in percentage of Responders for ECR (Lefamulin - Moxifloxacin). Confidence interval computed using continuity-corrected Z-statistic|||4.5|-4.4|
92221450|NCT02813694|184343586|NON_INFERIORITY|non-inferiority margin = 10%|Treatment difference|-1.6|||||TWO_SIDED|95.0|-6.3|3.1|||||Difference in Percentage of Success for IACR at test of cure visit (Lefamulin - Moxifloxacin). CI computed via Miettinen-Nurminen method, adjusted for prior antibiotic use \[Y vs. N\] and PORT risk class \[III vs. IV/V\], using CMH stratum weights.|||3.1|-6.3|
92221451|NCT02813694|184343586|NON_INFERIORITY|non-inferiority margain = 10%|Treatment difference|-1.6|||||TWO_SIDED|95.0|-6.5|3.3|||||Difference in percentage of Success for IACR at test of cure visit. Confidence interval computed using a continuity-corrected Z-test.|||3.3|-6.5|
92221452|NCT02813694|184343587|NON_INFERIORITY|non-inferiority margain = 10%|Treatment difference|-3.9|||||TWO_SIDED|95.0|-8.2|0.5|||||Difference in percentage of success for IACR at test of cure visit (Lefamulin - Moxifloxacin). CI computed via Miettinen-Nurminen method, adjusted for prior antibiotic use \[Y vs. N\]; PORT risk class \[III vs. IV/V\], using CMH stratum weights.|||0.5|-8.2|
92221453|NCT02813694|184343587|NON_INFERIORITY|non-inferiority margin = 10%|Treatment difference|-3.9|||||TWO_SIDED|95.0|-8.4|0.7|||||Difference in Percentage of Success for IACR at test of cure visit (Lefamulin - Moxifloxacin). Confidence interval computed using continuity-corrected Z-statistic.|||0.7|-8.4|
92221454|NCT04474795|184343588|SUPERIORITY||||||<|0.0001|||||||Wilcoxon paired signed rank test|||Compared pre and post training scores||||<0.0001
92221455|NCT04474795|184343589|SUPERIORITY||||||<|0.0001|||||||Wilcoxon paired signed rank test|||Comparison of scores pre and post training in individuals who completed training modules||||<0.0001
92221456|NCT04474795|184343590|SUPERIORITY|||||||0.606|||||||Wilcoxon paired signed rank test|||Patient autonomy||||0.606
92221457|NCT04474795|184343590|SUPERIORITY|||||||0.003|||||||Wilcoxon paired signed rank test|||Value of tight control||||0.003
92221458|NCT04474795|184343590|SUPERIORITY|||||||0.475|||||||Wilcoxon paired signed rank test|||Need for Special Training||||0.475
92221459|NCT04474795|184343591|SUPERIORITY|||||||0.009|||||||Wilcoxon paired signed rank test|||||||0.009
92221460|NCT00814775|184343594|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.72|TWO_SIDED|95.0|0.55|2.37|||Regression, Cox||CTrach vs. Fastrach|||2.37|0.55|0.72
92221461|NCT00814775|184343595|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.76||||0.45|TWO_SIDED|95.0|0.38|1.54|||Regression, Cox||CTrach vs. Fastrach|||1.54|0.38|0.45
92221462|NCT01923129|184343629|NON_INFERIORITY|The primary outcome of interest was the rate of AUR, defined as the number of patients with AUR within each study group. A 15% non-inferiority margin was chosen according to clinical relevance estimation. The expected difference between the two groups was 0%. Non-inferiority analysis was performed by calculation of risk difference and its 95% confidence interval according to Newcombe \& Altman.|||||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
92221463|NCT00749996|184343633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.61||||0.228|TWO_SIDED|95.0|-1.59|0.38|||t-test, 2 sided|||The null-hypothesis: Ho: Δ VAS DIAM = Δ VAS Control will be tested against the alternative hypothesis:HA: Δ VAS DIAM ≠ Δ VAS Control.Where Δ is the average decrease in VAS score (baseline - 6 months). A minimal sample size of 240 analyzable patients is required to demonstrate with 80% power a difference in back pain reduction that is significant at the 95% level, comparing DIAM and Control groups. 268 patients will be enroll to allow of up to 10% attrition.||0.38|-1.59|0.228
92221464|NCT00749996|184343634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.36||||0.719|TWO_SIDED|95.0|-8.8|6.08|||t-test, 2 sided|||The null-hypothesis(Ho: Δ ODI DIAM = Δ ODI Control) will be tested against the alternative hypothesis (HA: Δ ODI DIAM ≠ Δ ODI Control). Δ ODI DIAM = average change in the ODI (12 months - baseline) in the DIAM treated patient group and Δ VAS Control =average change in the ODI in the Control group.||6.08|-8.80|0.719
92221465|NCT02189213|184343654|OTHER|The parameters were the CGI-Improvement scale which comprises a one-item measures evaluating the following change from the initiation of treatment on a seven-point scale. The hypothesis is that \~50% of subjects receiving treatment will not respond.|||||=|0.0002|||||||t-test, 2 sided|||At least 50% of subjects will respond to Sertraline treatment (CGI greater than or equal to 2).||||=0.0002
92221466|NCT00768521|184343691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.18||||0.008||90.0|7.58|41.06||1-sided, alpha = 0.05|ANCOVA|Baseline used as covariate.|Primary Hypothesis: Tolterodine LA 4 mg is superior to placebo with respect to change from baseline in maximum cystometric capacity at 4 hours post Dose 7 (i.e., steady state). The expected treatment effect is targeted at 40 mL.|||41.06|7.58|0.008
92221467|NCT00768521|184343692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63||||0.422||90.0|-11.5|16.71||1-sided, alpha = 0.05|ANCOVA|Baseline used as covariate.||||16.71|-11.5|0.422
92357209|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of smoothness of the Anterior Commissure among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Anterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92162958|NCT05046132|184214747|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-2.7|4.0||||||9 hr Post dose||4.0|-2.7|
92162959|NCT05046132|184214747|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-2.3|4.1||||||10 hr Post dose||4.1|-2.3|
92221468|NCT04341441|184343731|SUPERIORITY|Sample size was determined with one planned interim analysis when 50% of participants had completed their 8 weeks of treatment using an O'Brien-Fleming alpha spending method to ensure an overall type 1 error of 0.05. With a sample size of 900 per group and alpha = 0.0492, the power to detect a 32% reduction in COVID-19 disease rate (10% vs 6.8%) between the placebo and HCQ treated groups, determined at 87%. Study required 1000 per group with a total of 3000 patients to complete the trial.|Risk Ratio (RR)|0.32||||0.75|TWO_SIDED|||||P-value for the comparison between groups, including the non-randomized active comparator, was 0.75.|Mantel Haenszel||Low number of primary events precluded estimated value of risk ratio.|||||0.75
92221469|NCT01290874|184343779|SUPERIORITY|||||||0.31|||||||Log Rank|||||||0.31
92221470|NCT03040999|184343787|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.1997|TWO_SIDED|95.0|0.71|1.15|||Log Rank|One-sided p-value based on log-rank test stratified by human papilloma virus (HPV) status and overall cancer stage.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by HPV status and overall cancer stage.|||1.15|0.71|0.1997
92221471|NCT03040999|184343790|OTHER||Difference in Least squares mean|-4.24||||0.0015|TWO_SIDED|95.0|-6.85|-1.63|||cLDA||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment, time, treatment by time interaction, and stratification factors of HPV status and overall cancer stage.|Difference in Least Squares Mean||-1.63|-6.85|0.0015
92221472|NCT03040999|184343791|OTHER||Difference in Least squares mean|-0.51||||0.7719|TWO_SIDED|95.0|-3.98|2.96|||cLDA||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment, time, treatment by time interaction, and stratification factors of HPV status and overall cancer stage.|Difference in Least Squares Mean||2.96|-3.98|0.7719
92221473|NCT03040999|184343792|OTHER||Difference in Least squares mean|-1.29||||0.45|TWO_SIDED|95.0|-4.64|2.06|||cLDA||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment, time, treatment by time interaction, and stratification factors of HPV status and overall cancer stage.|Difference in Least Squares Mean||2.06|-4.64|0.4500
92276546|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.3053|TWO_SIDED|95.0|-0.2|0.06|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.06|-0.2|0.3053
92162960|NCT05046132|184214747|OTHER||LS Mean|-0.4|||||TWO_SIDED|90.0|-3.5|2.8||||||12 hr Post dose||2.8|-3.5|
92162961|NCT05046132|184214747|OTHER||LS Mean|-0.4|||||TWO_SIDED|90.0|-3.8|3.0||||||16 hr Post dose||3.0|-3.8|
92357210|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of smoothness of Interlabial Sulci among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of smoothness of Interlabial Sulci in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
92357211|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the frequency of smoothness of Labia Minora among patients from different groups?||||||0.0024|||||||Chi-squared|||"Parameter: The frequency of smoothness of Labia Minora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0024
92221474|NCT03040999|184343793|OTHER||Difference in Least squares mean|1.29||||0.3524|TWO_SIDED|95.0|-1.43|4.02|||cLDA||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment, time, treatment by time interaction, and stratification factors of HPV status and overall cancer stage.|Difference in Least Squares Mean||4.02|-1.43|0.3524
92162962|NCT05046132|184214747|OTHER||LS Mean|-1.6|||||TWO_SIDED|90.0|-5.1|2.0||||||24 hr Post dose||2.0|-5.1|
92221475|NCT03040999|184343794|OTHER||Difference in Least squares mean|-2.05||||0.0963|TWO_SIDED|95.0|-4.47|0.37|||cLDA||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment, time, treatment by time interaction, and stratification factors of HPV status and overall cancer stage.|Difference in Least Squares Mean||0.37|-4.47|0.0963
92162963|NCT05046132|184214748|OTHER||LS Mean|3.5|||||TWO_SIDED|90.0|0.1|6.8||||||Pre dose||6.8|0.1|
92162964|NCT05046132|184214748|OTHER||LS Mean|0.8|||||TWO_SIDED|90.0|-3.0|4.6||||||0.5 hr Post dose||4.6|-3.0|
92162965|NCT05046132|184214748|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-4.1|3.9||||||1 hr Post dose||3.9|-4.1|
92221476|NCT03040999|184343795|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0429|TWO_SIDED|95.0|0.68|1.03||P-value crossing boundary of 0.0242 required for statistical significance.|Log Rank|One-sided p-value based on log-rank test stratified by human papilloma virus (HPV) status and overall cancer stage.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by HPV status and overall cancer stage.|||1.03|0.68|0.0429
92162966|NCT05046132|184214748|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-2.7|4.4||||||1.5 hr Post dose||4.4|-2.7|
92162967|NCT05046132|184214748|OTHER||LS Mean|3.0|||||TWO_SIDED|90.0|-0.6|6.6||||||2 hr Post dose||6.6|-0.6|
92162968|NCT05046132|184214748|OTHER||LS Mean|3.5|||||TWO_SIDED|90.0|-0.3|7.4||||||2.5 hr Post dose||7.4|-0.3|
92162969|NCT05046132|184214748|OTHER||LS Mean|4.6|||||TWO_SIDED|90.0|1.2|8.1||||||3 hr Post dose||8.1|1.2|
92162970|NCT05046132|184214748|OTHER||LS Mean|5.2|||||TWO_SIDED|90.0|1.5|8.9||||||4 hr Post dose||8.9|1.5|
92162971|NCT05046132|184214748|OTHER||LS Mean|2.0|||||TWO_SIDED|90.0|-1.7|5.8||||||5 hr Post dose||5.8|-1.7|
92221477|NCT01964352|184343850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.331|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.293|0.369|||Mixed Effects Model for Repeated Measure|||||0.369|0.293|<0.0001
92221478|NCT01964352|184343850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.075|0.148|||Mixed Effects Model for Repeated Measure|||||0.148|0.075|<0.0001
92162972|NCT05046132|184214748|OTHER||LS Mean|1.7|||||TWO_SIDED|90.0|-1.6|5.1||||||6 hr Post dose||5.1|-1.6|
92162973|NCT05046132|184214748|OTHER||LS Mean|2.3|||||TWO_SIDED|90.0|-1.1|5.7||||||7 hr Post dose||5.7|-1.1|
92221479|NCT01964352|184343850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.262|0.337|||Mixed Effects Model for Repeated Measure|||||0.337|0.262|<0.0001
92162974|NCT05046132|184214748|OTHER||LS Mean|2.4|||||TWO_SIDED|90.0|-1.4|6.2||||||8 hr Post dose||6.2|-1.4|
92221480|NCT01964352|184343850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.044|0.116|||Mixed Effects Model for Repeated Measure|||||0.116|0.044|<0.0001
92221481|NCT01964352|184343850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.219|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.181|0.258|||Mixed Effects Model for Repeated Measure|||||0.258|0.181|<0.0001
92221482|NCT01964352|184343850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.018||0.0872|TWO_SIDED|95.0|-0.005|0.067|||Mixed Effects Model for Repeated Measure|||||0.067|-0.005|0.0872
92221483|NCT01964352|184343851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.0124|0.2|||Mixed Effects Model for Repeated Measure|||||0.200|0.0124|<0.0001
92221484|NCT01964352|184343851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028|STANDARD_ERROR_OF_MEAN|0.019||0.1381|TWO_SIDED|95.0|-0.009|0.066|||Mixed Effects Model for Repeated Measure|||||0.066|-0.009|0.1381
92221485|NCT01964352|184343851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.113|0.188|||Mixed Effects Model for Repeated Measure|||||0.188|0.113|<0.0001
92221486|NCT01964352|184343851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.017|STANDARD_ERROR_OF_MEAN|0.019||0.3872|TWO_SIDED|95.0|-0.021|0.054|||Mixed Effects Model for Repeated Measure|||||0.054|-0.021|0.3872
92221487|NCT01964352|184343851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.096|0.172|||Mixed Effects Model for Repeated Measure|||||0.172|0.096|<0.0001
92221488|NCT01964352|184343851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.019||0.5333|TWO_SIDED|95.0|-0.025|0.049|||Mixed Effects Model for Repeated Measure|||||0.049|-0.025|0.5333
92221489|NCT01964352|184343852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.894|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|95.0|-6.904|-2.884|||Mixed Effects Model for Repeated Measure|||||-2.884|-6.904|<0.0001
92221490|NCT01964352|184343852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.493|STANDARD_ERROR_OF_MEAN|1.009||0.0136|TWO_SIDED|95.0|-4.473|-0.513|||Mixed Effects Model for Repeated Measure|||||-0.513|-4.473|0.0136
92221491|NCT01964352|184343852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.122|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|95.0|-6.129|-2.114|||Mixed Effects Model for Repeated Measure|||||-2.114|-6.129|<0.0001
92221492|NCT01964352|184343852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.721|STANDARD_ERROR_OF_MEAN|1.008||0.088|TWO_SIDED|95.0|-3.698|0.256|||Mixed Effects Model for Repeated Measure|||||0.256|-3.698|0.0880
92221493|NCT01964352|184343852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.401|STANDARD_ERROR_OF_MEAN|1.029||0.0198|TWO_SIDED|95.0|-4.419|-0.382|||Mixed Effects Model for Repeated Measure|||||-0.382|-4.419|0.0198
92221494|NCT01964352|184343852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.772|STANDARD_ERROR_OF_MEAN|1.003||0.4415|TWO_SIDED|95.0|-2.741|1.196|||Mixed Effects Model for Repeated Measure|||||1.196|-2.741|0.4415
92221495|NCT01964352|184343853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.157|0.282|||Mixed Effects Model for Repeated Measure|||||0.282|0.157|<0.0001
92162975|NCT05046132|184214748|OTHER||LS Mean|4.4|||||TWO_SIDED|90.0|0.9|7.8||||||9 hr Post dose||7.8|0.9|
92162976|NCT05046132|184214748|OTHER||LS Mean|3.8|||||TWO_SIDED|90.0|0.3|7.4||||||10 hr Post dose||7.4|0.3|
92162977|NCT05046132|184214748|OTHER||LS Mean|-0.8|||||TWO_SIDED|90.0|-4.2|2.7||||||12 hr Post dose||2.7|-4.2|
92162978|NCT05046132|184214748|OTHER||LS Mean|3.6|||||TWO_SIDED|90.0|0.1|7.0||||||16 hr Post dose||7.0|0.1|
92162979|NCT05046132|184214748|OTHER||LS Mean|-1.5|||||TWO_SIDED|90.0|-5.7|2.8||||||24 hr Post dose||2.8|-5.7|
92221496|NCT01964352|184343853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.032||0.5052|TWO_SIDED|95.0|-0.041|0.084|||Mixed Effects Model for Repeated Measure|||||0.084|-0.041|0.5052
92221497|NCT01964352|184343853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.208|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.146|0.271|||Mixed Effects Model for Repeated Measure|||||0.271|0.146|<0.0001
92221498|NCT01964352|184343853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.032||0.7566|TWO_SIDED|95.0|-0.052|0.072|||Mixed Effects Model for Repeated Measure|||||0.072|-0.052|0.7566
92221499|NCT01964352|184343853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.136|0.261|||Mixed Effects Model for Repeated Measure|||||0.261|0.136|<0.0001
92221500|NCT01964352|184343853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.032||0.7199|TWO_SIDED|95.0|-0.051|0.073|||Mixed Effects Model for Repeated Measure|||||0.073|-0.051|0.7199
92221501|NCT01964352|184343854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.052|STANDARD_ERROR_OF_MEAN|0.273|<|0.0001|TWO_SIDED|95.0|1.516|2.588|||Mixed Effects Model for Repeated Measure|||||2.588|1.516|<0.0001
92221502|NCT01964352|184343854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.607|STANDARD_ERROR_OF_MEAN|0.27||0.0246|TWO_SIDED|95.0|0.078|1.137|||Mixed Effects Model for Repeated Measure|||||1.137|0.078|0.0246
92221503|NCT01964352|184343854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.952|STANDARD_ERROR_OF_MEAN|0.272|<|0.0001|TWO_SIDED|95.0|1.417|2.487|||Mixed Effects Model for Repeated Measure|||||2.487|1.417|<0.0001
92221504|NCT01964352|184343854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.507|STANDARD_ERROR_OF_MEAN|0.269||0.0599|TWO_SIDED|95.0|-0.021|1.035|||Mixed Effects Model for Repeated Measure|||||1.035|-0.021|0.0599
92162980|NCT05046132|184214748|OTHER||LS Mean|2.3|||||TWO_SIDED|90.0|-1.0|5.6||||||Pre dose||5.6|-1.0|
92162981|NCT05046132|184214748|OTHER||LS Mean|-1.6|||||TWO_SIDED|90.0|-5.4|2.2||||||0.5 hr Post dose||2.2|-5.4|
92162982|NCT05046132|184214748|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-3.8|4.3||||||1 hr Post dose||4.3|-3.8|
92357212|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of smoothness of the Posterior Commissure among patients from different groups?||||||0.0205|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Posterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0205
92357213|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with vulvar dermatosis?||||||0.0158|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with vulvar dermatosis.||||0.0158
92357214|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with vulvar dermatosis?||||||0.0001|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with vulvar dermatosis.||||0.0001
92357215|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with vulvar dermatosis?||||||0.028|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with vulvar dermatosis.||||0.0280
92357216|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
92357217|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Labia Minora in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Labia Minora in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
92162983|NCT05046132|184214748|OTHER||LS Mean|4.0|||||TWO_SIDED|90.0|0.4|7.6||||||1.5 hr Post dose||7.6|0.4|
92162984|NCT05046132|184214748|OTHER||LS Mean|6.3|||||TWO_SIDED|90.0|2.7|10.0||||||2 hr Post dose||10.0|2.7|
92162985|NCT05046132|184214748|OTHER||LS Mean|6.4|||||TWO_SIDED|90.0|2.6|10.2||||||2.5 hr Post dose||10.2|2.6|
92162986|NCT05046132|184214748|OTHER||LS Mean|8.5|||||TWO_SIDED|90.0|5.0|12.0||||||3 hr Post dose||12.0|5.0|
92162987|NCT05046132|184214748|OTHER||LS Mean|10.1|||||TWO_SIDED|90.0|6.4|13.8||||||4 hr Post dose||13.8|6.4|
92162988|NCT05046132|184214748|OTHER||LS Mean|7.8|||||TWO_SIDED|90.0|4.1|11.6||||||5 hr Post dose||11.6|4.1|
92221505|NCT01964352|184343854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.445|STANDARD_ERROR_OF_MEAN|0.274|<|0.0001|TWO_SIDED|95.0|0.907|1.983|||Mixed Effects Model for Repeated Measure|||||1.983|0.907|<0.0001
92357218|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
92405693|NCT01499355|184701590|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0628||||0.0456|TWO_SIDED|90.0|0.0081|0.4843||Model includes the variable for treatment, adjusted for the covariates including region (Latin America, Asia, ROW) and renal response at Run-in Week 12 (partial and non-response).|Regression, Logistic|||||0.4843|0.0081|0.0456
92162989|NCT05046132|184214748|OTHER||LS Mean|7.8|||||TWO_SIDED|90.0|4.4|11.2||||||6 hr Post dose||11.2|4.4|
92162990|NCT05046132|184214748|OTHER||LS Mean|6.8|||||TWO_SIDED|90.0|3.4|10.2||||||7 hr Post dose||10.2|3.4|
92162991|NCT05046132|184214748|OTHER||LS Mean|4.5|||||TWO_SIDED|90.0|0.6|8.3||||||8 hr Post dose||8.3|0.6|
92162992|NCT05046132|184214748|OTHER||LS Mean|6.5|||||TWO_SIDED|90.0|3.1|10.0||||||9 hr Post dose||10.0|3.1|
92162993|NCT05046132|184214748|OTHER||LS Mean|6.6|||||TWO_SIDED|90.0|3.0|10.1||||||10 hr Post dose||10.1|3.0|
92162994|NCT05046132|184214748|OTHER||LS Mean|5.3|||||TWO_SIDED|90.0|1.8|8.8||||||12 hr Post dose||8.8|1.8|
92162995|NCT05046132|184214748|OTHER||LS Mean|7.2|||||TWO_SIDED|90.0|3.7|10.6||||||16 hr Post dose||10.6|3.7|
92162996|NCT05046132|184214748|OTHER||LS Mean|3.3|||||TWO_SIDED|90.0|-1.0|7.5||||||24 hr Post dose||7.5|-1.0|
92162997|NCT05046132|184214749|OTHER||LS Mean|7.8|||||TWO_SIDED|90.0|3.7|11.8||||||Pre dose||11.8|3.7|
92162998|NCT05046132|184214749|OTHER||LS Mean|6.5|||||TWO_SIDED|90.0|3.3|9.8||||||0.5 hr Post dose||9.8|3.3|
92162999|NCT05046132|184214749|OTHER||LS Mean|4.6|||||TWO_SIDED|90.0|0.6|8.6||||||1 hr Post dose||8.6|0.6|
92163000|NCT05046132|184214749|OTHER||LS Mean|4.6|||||TWO_SIDED|90.0|0.6|8.6||||||1.5 hr Post dose||8.6|0.6|
92163001|NCT05046132|184214749|OTHER||LS Mean|3.8|||||TWO_SIDED|90.0|-0.4|8.0||||||2 hr Post dose||8.0|-0.4|
92163002|NCT05046132|184214749|OTHER||LS Mean|6.1|||||TWO_SIDED|90.0|1.8|10.4||||||2.5 hr Post dose||10.4|1.8|
92357219|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Interlabial Sulci versus non-specific lesions of the Posterior Commissure in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Interlabial Sulci versus non-specific lesions of the Posterior Commissure in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
92357220|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
92163003|NCT05046132|184214749|OTHER||LS Mean|5.7|||||TWO_SIDED|90.0|1.7|9.8||||||3 hr Post dose||9.8|1.7|
92163004|NCT05046132|184214749|OTHER||LS Mean|6.2|||||TWO_SIDED|90.0|2.5|9.8||||||4 hr Post dose||9.8|2.5|
92163005|NCT05046132|184214749|OTHER||LS Mean|5.7|||||TWO_SIDED|90.0|1.6|9.8||||||5 hr Post dose||9.8|1.6|
92163006|NCT05046132|184214749|OTHER||LS Mean|4.8|||||TWO_SIDED|90.0|1.1|8.4||||||6 hr Post dose||8.4|1.1|
92163007|NCT05046132|184214749|OTHER||LS Mean|3.0|||||TWO_SIDED|90.0|-0.9|7.0||||||7 hr Post dose||7.0|-0.9|
92163008|NCT05046132|184214749|OTHER||LS Mean|5.0|||||TWO_SIDED|90.0|1.3|8.8||||||8 hr Post dose||8.8|1.3|
92163009|NCT05046132|184214749|OTHER||LS Mean|6.5|||||TWO_SIDED|90.0|2.5|10.6||||||9 hr Post dose||10.6|2.5|
92163010|NCT05046132|184214749|OTHER||LS Mean|8.6|||||TWO_SIDED|90.0|4.8|12.3||||||10 hr Post dose||12.3|4.8|
92163011|NCT05046132|184214749|OTHER||LS Mean|7.9|||||TWO_SIDED|90.0|4.4|11.4||||||12 hr Post dose||11.4|4.4|
92163012|NCT05046132|184214749|OTHER||LS Mean|4.9|||||TWO_SIDED|90.0|0.9|8.9||||||16 hr Post dose||8.9|0.9|
92163013|NCT05046132|184214749|OTHER||LS Mean|7.8|||||TWO_SIDED|90.0|3.6|12.0||||||24 hr Post dose||12.0|3.6|
92163014|NCT05046132|184214749|OTHER||LS Mean|2.1|||||TWO_SIDED|90.0|-1.8|6.0||||||Pre dose||6.0|-1.8|
92163015|NCT05046132|184214749|OTHER||LS Mean|3.1|||||TWO_SIDED|90.0|0.0|6.2||||||0.5 hr Post dose||6.2|-0.0|
92163016|NCT05046132|184214749|OTHER||LS Mean|1.9|||||TWO_SIDED|90.0|-1.9|5.7||||||1 hr Post dose||5.7|-1.9|
92163017|NCT05046132|184214749|OTHER||LS Mean|6.5|||||TWO_SIDED|90.0|2.6|10.4||||||1.5 hr Post dose||10.4|2.6|
92163018|NCT05046132|184214749|OTHER||LS Mean|5.3|||||TWO_SIDED|90.0|1.3|9.3||||||2 hr Post dose||9.3|1.3|
92163019|NCT05046132|184214749|OTHER||LS Mean|11.1|||||TWO_SIDED|90.0|7.0|15.1||||||2.5 hr Post dose||15.1|7.0|
92163020|NCT05046132|184214749|OTHER||LS Mean|9.8|||||TWO_SIDED|90.0|5.9|13.6||||||3 hr Post dose||13.6|5.9|
92163021|NCT05046132|184214749|OTHER||LS Mean|10.7|||||TWO_SIDED|90.0|7.2|14.2||||||4 hr Post dose||14.2|7.2|
92163022|NCT05046132|184214749|OTHER||LS Mean|8.8|||||TWO_SIDED|90.0|4.9|12.7||||||5 hr Post dose||12.7|4.9|
92163023|NCT05046132|184214749|OTHER||LS Mean|11.0|||||TWO_SIDED|90.0|7.5|14.5||||||6 hr Post dose||14.5|7.5|
92221506|NCT01964352|184343854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.268||0.7081|TWO_SIDED|95.0|-0.425|0.626|||Mixed Effects Model for Repeated Measure|||||0.626|-0.425|0.7081
92163024|NCT05046132|184214749|OTHER||LS Mean|10.8|||||TWO_SIDED|90.0|7.1|14.6||||||7 hr Post dose||14.6|7.1|
92163025|NCT05046132|184214749|OTHER||LS Mean|11.3|||||TWO_SIDED|90.0|7.6|14.9||||||8 hr Post dose||14.9|7.6|
92163026|NCT05046132|184214749|OTHER||LS Mean|9.8|||||TWO_SIDED|90.0|5.9|13.7||||||9 hr Post dose||13.7|5.9|
92163027|NCT05046132|184214749|OTHER||LS Mean|10.5|||||TWO_SIDED|90.0|6.9|14.1||||||10 hr Post dose||14.1|6.9|
92163028|NCT05046132|184214749|OTHER||LS Mean|11.8|||||TWO_SIDED|90.0|8.4|15.2||||||12 hr Post dose||15.2|8.4|
92163029|NCT05046132|184214749|OTHER||LS Mean|9.4|||||TWO_SIDED|90.0|5.6|13.3||||||16 hr Post dose||13.3|5.6|
92163030|NCT05046132|184214749|OTHER||LS Mean|10.8|||||TWO_SIDED|90.0|6.8|14.9||||||24 hr Post dose||14.9|6.8|
92163031|NCT05046132|184214750|OTHER||LS Mean|-5.3|||||TWO_SIDED|90.0|-8.4|-2.2||||||Pre dose||-2.2|-8.4|
92163032|NCT05046132|184214750|OTHER||LS Mean|-2.7|||||TWO_SIDED|90.0|-5.9|0.5||||||0.5 hr Post dose||0.5|-5.9|
92163033|NCT05046132|184214750|OTHER||LS Mean|-3.2|||||TWO_SIDED|90.0|-5.7|-0.7||||||1 hr Post dose||-0.7|-5.7|
92163034|NCT05046132|184214750|OTHER||LS Mean|-0.9|||||TWO_SIDED|90.0|-3.7|1.9||||||1.5 hr Post dose||1.9|-3.7|
92163035|NCT05046132|184214750|OTHER||LS Mean|-2.9|||||TWO_SIDED|90.0|-5.7|-0.2||||||2 hr Post dose||-0.2|-5.7|
92163036|NCT05046132|184214750|OTHER||LS Mean|-4.0|||||TWO_SIDED|90.0|-6.5|-1.5||||||2.5 hr Post dose||-1.5|-6.5|
92163037|NCT05046132|184214750|OTHER||LS Mean|-4.2|||||TWO_SIDED|90.0|-7.1|-1.3||||||3 hr Post dose||-1.3|-7.1|
92163038|NCT05046132|184214750|OTHER||LS Mean|-4.1|||||TWO_SIDED|90.0|-7.4|-0.8||||||4 hr Post dose||-0.8|-7.4|
92163039|NCT05046132|184214750|OTHER||LS Mean|-0.8|||||TWO_SIDED|90.0|-3.7|2.1||||||5 hr Post dose||2.1|-3.7|
92163040|NCT05046132|184214750|OTHER||LS Mean|-3.3|||||TWO_SIDED|90.0|-6.3|-0.4||||||6 hr Post dose||-0.4|-6.3|
92163041|NCT05046132|184214750|OTHER||LS Mean|-3.3|||||TWO_SIDED|90.0|-6.0|-0.5||||||7 hr Post dose||-0.5|-6.0|
92163042|NCT05046132|184214750|OTHER||LS Mean|-1.6|||||TWO_SIDED|90.0|-4.7|1.5||||||8 hr Post dose||1.5|-4.7|
92163043|NCT05046132|184214750|OTHER||LS Mean|-4.0|||||TWO_SIDED|90.0|-6.9|-1.2||||||9 hr Post dose||-1.2|-6.9|
92163044|NCT05046132|184214750|OTHER||LS Mean|-4.3|||||TWO_SIDED|90.0|-7.6|-1.0||||||10 hr Post dose||-1.0|-7.6|
92163045|NCT05046132|184214750|OTHER||LS Mean|-5.4|||||TWO_SIDED|90.0|-8.7|-2.1||||||12 hr Post dose||-2.1|-8.7|
92163046|NCT05046132|184214750|OTHER||LS Mean|-4.1|||||TWO_SIDED|90.0|-7.4|-0.8||||||16 hr Post dose||-0.8|-7.4|
92163047|NCT05046132|184214750|OTHER||LS Mean|-7.1|||||TWO_SIDED|90.0|-10.1|-4.2||||||24 hr Post dose||-4.2|-10.1|
92163048|NCT05046132|184214750|OTHER||LS Mean|1.1|||||TWO_SIDED|90.0|-2.0|4.2||||||Pre dose||4.2|-2.0|
92163049|NCT05046132|184214750|OTHER||LS Mean|3.1|||||TWO_SIDED|90.0|-0.1|6.3||||||0.5 hr Post dose||6.3|-0.1|
92163050|NCT05046132|184214750|OTHER||LS Mean|2.4|||||TWO_SIDED|90.0|-0.1|4.9||||||1 hr Post dose||4.9|-0.1|
92163051|NCT05046132|184214750|OTHER||LS Mean|3.0|||||TWO_SIDED|90.0|0.2|5.8||||||1.5 hr Post dose||5.8|0.2|
92221507|NCT01964352|184343855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.457|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.39|0.524|||Mixed Effects Model for Repeated Measure|||||0.524|0.390|<0.0001
92221508|NCT01964352|184343855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.095|0.225|||Mixed Effects Model for Repeated Measure|||||0.225|0.095|<0.0001
92221509|NCT01964352|184343855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.398|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.331|0.465|||Mixed Effects Model for Repeated Measure|||||0.465|0.331|<0.0001
92221510|NCT01964352|184343855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.033||0.0023|TWO_SIDED|95.0|0.036|0.165|||Mixed Effects Model for Repeated Measure|||||0.165|0.036|0.0023
92221511|NCT01964352|184343855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.297|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|0.229|0.365|||Mixed Effects Model for Repeated Measure|||||0.365|0.229|<0.0001
92221512|NCT01964352|184343855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.033||0.0701|TWO_SIDED|95.0|-0.005|0.123|||Mixed Effects Model for Repeated Measure|||||0.123|-0.005|0.0701
92221513|NCT02831673|184343856|NON_INFERIORITY|Treatment with DTG+ 3TC was to be declared non-inferior to treatment with DTG+TDF/FTC if the lower end of a two-sided 95% confidence interval for the difference between the two groups in response rates at Week 48 greater than -10%.|Adjusted difference in proportion|-2.6|||||TWO_SIDED|95.0|-6.7|1.5|||||Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<=versus \[vs.\]\>100,000 c/mL) and cluster of differentiation 4+ (CD4+) cell count (\<= vs. \>200 cells per cubic millimeter).|||1.5|-6.7|
92221514|NCT02831673|184343857|OTHER||Adjusted difference in proportion|-0.4|||||TWO_SIDED|95.0|-4.2|3.4|||||Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<=vs.\>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells per cubic millimeter).|||3.4|-4.2|
92221515|NCT02831673|184343858|OTHER||Adjusted difference in proportion|-4.9|||||TWO_SIDED|95.0|-9.8|0.0|||||Week 96. Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells/mm\^3).|||0.0|-9.8|
92276547|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.0541|TWO_SIDED|95.0|-0.29|0.0|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0|-0.29|0.0541
92357221|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with impaired vulvar skin.||||0.0000
92357222|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Labia Minora in patients with impaired vulvar skin?||||||0.0006|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Labia Minora in patients with impaired vulvar skin.||||0.0006
92357223|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin.||||0.0000
92221516|NCT02831673|184343859|OTHER||Adjusted difference in proportion|-3.6|||||TWO_SIDED|95.0|-9.4|2.1|||||Week 144. Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells/mm\^3).|||2.1|-9.4|
92221517|NCT02831673|184343860|OTHER||Hazard Ratio (HR)|1.0||||0.658|TWO_SIDED|95.0|0.86|1.16||The generalized Wilcoxon procedure was used to estimate a p-value for detecting a difference in cumulative incidence curves between treatment groups.|Generalized Wilcoxon procedure||Hazard ratios were estimated using the Cox proportional hazard regression model.|||1.16|0.86|0.658
92163052|NCT05046132|184214750|OTHER||LS Mean|1.8|||||TWO_SIDED|90.0|-1.0|4.6||||||2 hr Post dose||4.6|-1.0|
92163053|NCT05046132|184214750|OTHER||LS Mean|0.6|||||TWO_SIDED|90.0|-1.9|3.1||||||2.5 hr Post dose||3.1|-1.9|
92163054|NCT05046132|184214750|OTHER||LS Mean|1.9|||||TWO_SIDED|90.0|-1.0|4.8||||||3 hr Post dose||4.8|-1.0|
92163055|NCT05046132|184214750|OTHER||LS Mean|-0.3|||||TWO_SIDED|90.0|-3.5|3.0||||||4 hr Post dose||3.0|-3.5|
92163056|NCT05046132|184214750|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-2.6|3.2||||||5 hr Post dose||3.2|-2.6|
92163057|NCT05046132|184214750|OTHER||LS Mean|-1.9|||||TWO_SIDED|90.0|-4.8|1.1||||||6 hr Post dose||1.1|-4.8|
92163058|NCT05046132|184214750|OTHER||LS Mean|-1.1|||||TWO_SIDED|90.0|-3.8|1.7||||||7 hr Post dose||1.7|-3.8|
92163059|NCT05046132|184214750|OTHER||LS Mean|-0.5|||||TWO_SIDED|90.0|-3.6|2.6||||||8 hr Post dose||2.6|-3.6|
92163060|NCT05046132|184214750|OTHER||LS Mean|-2.7|||||TWO_SIDED|90.0|-5.6|0.2||||||9 hr Post dose||0.2|-5.6|
92163061|NCT05046132|184214750|OTHER||LS Mean|-3.5|||||TWO_SIDED|90.0|-6.8|-0.2||||||10 hr Post dose||-0.2|-6.8|
92163062|NCT05046132|184214750|OTHER||LS Mean|-3.3|||||TWO_SIDED|90.0|-6.6|0.1||||||12 hr Post dose||0.1|-6.6|
92163063|NCT05046132|184214750|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-3.0|3.6||||||16 hr Post dose||3.6|-3.0|
92163064|NCT05046132|184214750|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-3.0|2.9||||||24 hr Post dose||2.9|-3.0|
92163065|NCT05046132|184214751|OTHER||LS Mean|-6.6|||||TWO_SIDED|90.0|-10.3|-3.0||||||Pre dose||-3.0|-10.3|
92163066|NCT05046132|184214751|OTHER||LS Mean|-7.3|||||TWO_SIDED|90.0|-10.5|-4.0||||||0.5 hr Post dose||-4.0|-10.5|
92163067|NCT05046132|184214751|OTHER||LS Mean|-5.0|||||TWO_SIDED|90.0|-8.8|-1.2||||||1 hr Post dose||-1.2|-8.8|
92163068|NCT05046132|184214751|OTHER||LS Mean|-5.0|||||TWO_SIDED|90.0|-8.4|-1.6||||||1.5 hr Post dose||-1.6|-8.4|
92221518|NCT02831673|184343864|OTHER||Mean Difference (Net)|17.1||||0.206|TWO_SIDED|95.0|-9.4|43.6|||Mixed Model Repeated Measures (MMRM)||Week 24. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||43.6|-9.4|0.206
92221519|NCT02831673|184343864|OTHER||Mean Difference (Net)|4.6||||0.754|TWO_SIDED|95.0|-23.9|33.0|||Mixed Model Repeated Measures (MMRM)||Week 48. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||33.0|-23.9|0.754
92221520|NCT02831673|184343865|OTHER||Mean Difference (Net)|10.8||||0.5|TWO_SIDED|95.0|-20.7|42.4|||Mixed Model Repeated Measures (MMRM)||Week 96. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||42.4|-20.7|0.500
92221521|NCT02831673|184343866|OTHER||Mean Difference (Net)|-1.4||||0.934|TWO_SIDED|95.0|-34.2|31.5|||Mixed Model Repeated Measures (MMRM)||Week 144.Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||31.5|-34.2|0.934
92221522|NCT02831673|184343877|OTHER||Mean Difference (Net)|-0.02||||0.025|TWO_SIDED|95.0|-0.04|0.0|||Mixed Model Repeated Measures||Serum Cystatin C, Week 24|||0.00|-0.04|0.025
92221523|NCT02831673|184343877|OTHER||Mean Difference (Net)|-0.03||||0.001|TWO_SIDED|95.0|-0.05|-0.01|||Mixed Model Repeated Measures||Serum Cystatin C, Week 48|||-0.01|-0.05|0.001
92221524|NCT02831673|184343877|OTHER||Mean Difference (Net)|-0.3||||0.683|TWO_SIDED|95.0|-1.6|1.0|||Mixed Model Repeated Measures||Serum RBP, Week 24|||1.0|-1.6|0.683
92276548|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.0912|TWO_SIDED|95.0|-0.28|0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.02|-0.28|0.0912
92276549|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.1553|TWO_SIDED|95.0|-0.28|0.04|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.04|-0.28|0.1553
92276550|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.1855|TWO_SIDED|95.0|-0.27|0.05|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.05|-0.27|0.1855
92276551|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.2015|TWO_SIDED|95.0|-0.28|0.06|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.06|-0.28|0.2015
92357224|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Interlabial Sulci versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin?||||||0.0003|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Interlabial Sulci versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin.||||0.0003
92357225|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin.||||0.0000
92221525|NCT02831673|184343877|OTHER||Mean Difference (Net)|-0.1||||0.93|TWO_SIDED|95.0|-1.4|1.2|||Mixed Model Repeated Measures||Serum RBP, Week 48|||1.2|-1.4|0.930
92221526|NCT02831673|184343878|OTHER||Mean Difference (Net)|-0.02||||0.009|TWO_SIDED|95.0|-0.04|-0.01|||Mixed Model Repeated Measures||Week 96. Serum Cystatin C.|||-0.01|-0.04|0.009
92221527|NCT02831673|184343879|OTHER||Mean Difference (Net)|-0.01||||0.108|TWO_SIDED|95.0|-0.03|0.0|||Mixed Model Repeated Measures||Week 144. Serum Cystatin C.|||-0.00|-0.03|0.108
92221528|NCT02831673|184343882|OTHER||Mean Difference (Net)|2.2||||0.011|TWO_SIDED|95.0|0.5|4.0|||Mixed Model Repeated Measures||GFR-cystatin C adjusted, Week 24|||4.0|0.5|0.011
92221529|NCT02831673|184343882|OTHER||Mean Difference (Net)|2.8|||<|0.001|TWO_SIDED|95.0|1.2|4.5|||Mixed Model Repeated Measures||GFR-cystatin C adjusted, Week 48|||4.5|1.2|<0.001
92221530|NCT02831673|184343882|OTHER||Mean Difference (Net)|3.2|||<|0.001|TWO_SIDED|95.0|1.6|4.8|||Mixed Model Repeated Measures||GFR-creatinine adjusted, Week 24|||4.8|1.6|<0.001
92221531|NCT02831673|184343882|OTHER||Mean Difference (Net)|3.5|||<|0.001|TWO_SIDED|95.0|2.0|5.1|||Mixed Model Repeated Measures||GFR- creatinine adjusted, Week 48|||5.1|2.0|<0.001
92221532|NCT02831673|184343885|OTHER||Mean Difference (Net)|-3.19|||<|0.001|TWO_SIDED|95.0|-4.62|-1.75|||Mixed Model Repeated Measures||Week 24|||-1.75|-4.62|<0.001
92221533|NCT02831673|184343885|OTHER||Mean Difference (Net)|-3.22|||<|0.001|TWO_SIDED|95.0|-4.54|-1.91|||Mixed Model Repeated Measures||Week 48|||-1.91|-4.54|<0.001
92221534|NCT02831673|184343886|OTHER||Mean Difference (Net)|-3.34|||<|0.001|TWO_SIDED|95.0|-4.96|-1.72|||Mixed Model Repeated Measures||Week 96. Serum or Plasma creatinine|||-1.72|-4.96|<0.001
92357226|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of the Anterior Commissure versus specific lesions of Interlabial Sulci in patients with vulvar dermatosis?||||||0.3053|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Anterior Commissure versus specific lesions of Interlabial Sulci in patients with vulvar dermatosis.||||0.3053
92163069|NCT05046132|184214751|OTHER||LS Mean|-3.5|||||TWO_SIDED|90.0|-6.6|-0.3||||||2 hr Post dose||-0.3|-6.6|
92221535|NCT02831673|184343887|OTHER||Mean Difference (Net)|-2.98|||<|0.001|TWO_SIDED|95.0|-4.57|-1.4|||Mixed Model Repeated Measures||Week 144. Serum or Plasma creatinine|||-1.40|-4.57|<0.001
92221536|NCT02831673|184343888|OTHER||Ratio of geometric means|0.915|||<|0.001|TWO_SIDED|95.0|0.887|0.943|||Mixed Model Repeated Measures||Week 24. Serum B2M|||0.943|0.887|<0.001
92221537|NCT02831673|184343888|OTHER||Ratio of geometric means|0.904|||<|0.001|TWO_SIDED|95.0|0.88|0.929|||Mixed Model Repeated Measures||Week 48. Serum B2M|||0.929|0.880|<0.001
92221538|NCT02831673|184343888|OTHER||Ratio of geometric means|0.656||||0.005|TWO_SIDED|95.0|0.491|0.877|||Mixed Model Repeated Measures||Week 24. Urine B2M|||0.877|0.491|0.005
92221539|NCT02831673|184343888|OTHER||Ratio of geometric means|0.672|||<|0.001|TWO_SIDED|95.0|0.551|0.821|||Mixed Model Repeated Measures||Week 48. Urine B2M|||0.821|0.551|<0.001
92221540|NCT02831673|184343888|OTHER||Ratio of geometric means|0.965||||0.575|TWO_SIDED|95.0|0.853|1.092|||Mixed Model Repeated Measures||Week 24. Urine Albumin/Creatinine|||1.092|0.853|0.575
92221541|NCT02831673|184343888|OTHER||Ratio of geometric means|0.891||||0.051|TWO_SIDED|95.0|0.793|1.001|||Mixed Model Repeated Measures||Week 48. Urine Albumin/Creatinine|||1.001|0.793|0.051
92221542|NCT02831673|184343888|OTHER||Ratio of geometric means|0.64|||<|0.001|TWO_SIDED|95.0|0.493|0.831|||Mixed Model Repeated Measures||Week 24. Urine B2M/Urine Creatinine|||0.831|0.493|<0.001
92357227|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of the Anterior Commissure versus specific lesions of Labia Minora in patients with vulvar dermatosis?||||||0.7758|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Anterior Commissure versus specific lesions of Labia Minora in patients with vulvar dermatosis.||||0.7758
92357228|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of the Anterior Commissure versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis?||||||0.6676|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Anterior Commissure versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis.||||0.6676
92401432|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.409|TWO_SIDED|95.0|-0.61|0.25||P-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.25|-0.61|0.409
92163070|NCT05046132|184214751|OTHER||LS Mean|-2.9|||||TWO_SIDED|90.0|-6.1|0.3||||||2.5 hr Post dose||0.3|-6.1|
92221543|NCT02831673|184343888|OTHER||Ratio of geometric means|0.695|||<|0.001|TWO_SIDED|95.0|0.576|0.839|||Mixed Model Repeated Measures||Week 48. Urine B2M/Urine Creatinine|||0.839|0.576|<0.001
92221544|NCT02831673|184343888|OTHER||Ratio of geometric means|1.102||||0.099|TWO_SIDED|95.0|0.982|1.237|||Mixed Model Repeated Measures||Week 24. Urine Phosphate|||1.237|0.982|0.099
92221545|NCT02831673|184343888|OTHER||Ratio of geometric means|0.987||||0.816|TWO_SIDED|95.0|0.886|1.1|||Mixed Model Repeated Measures||Week 48. Urine Phosphate|||1.100|0.886|0.816
92221546|NCT02831673|184343888|OTHER||Ratio of geometric means|0.836|||<|0.001|TWO_SIDED|95.0|0.774|0.904|||Mixed Model Repeated Measures||Week 24. Urine Protein/Creatinine|||0.904|0.774|<0.001
92163071|NCT05046132|184214751|OTHER||LS Mean|-4.6|||||TWO_SIDED|90.0|-7.7|-1.5||||||3 hr Post dose||-1.5|-7.7|
92163072|NCT05046132|184214751|OTHER||LS Mean|-7.1|||||TWO_SIDED|90.0|-10.3|-3.8||||||4 hr Post dose||-3.8|-10.3|
92163073|NCT05046132|184214751|OTHER||LS Mean|-3.2|||||TWO_SIDED|90.0|-6.9|0.6||||||5 hr Post dose||0.6|-6.9|
92163074|NCT05046132|184214751|OTHER||LS Mean|-4.2|||||TWO_SIDED|90.0|-7.8|-0.6||||||6 hr Post dose||-0.6|-7.8|
92163075|NCT05046132|184214751|OTHER||LS Mean|-4.8|||||TWO_SIDED|90.0|-8.1|-1.6||||||7 hr Post dose||-1.6|-8.1|
92163076|NCT05046132|184214751|OTHER||LS Mean|-4.4|||||TWO_SIDED|90.0|-7.8|-1.1||||||8 hr Post dose||-1.1|-7.8|
92163077|NCT05046132|184214751|OTHER||LS Mean|-5.9|||||TWO_SIDED|90.0|-9.3|-2.6||||||9 hr Post dose||-2.6|-9.3|
92163078|NCT05046132|184214751|OTHER||LS Mean|-4.4|||||TWO_SIDED|90.0|-7.8|-1.1||||||10 hr Post dose||-1.1|-7.8|
92163079|NCT05046132|184214751|OTHER||LS Mean|-4.2|||||TWO_SIDED|90.0|-7.3|-1.1||||||12 hr Post dose||-1.1|-7.3|
92163080|NCT05046132|184214751|OTHER||LS Mean|-5.8|||||TWO_SIDED|90.0|-9.7|-2.0||||||16 hr Post dose||-2.0|-9.7|
92163081|NCT05046132|184214751|OTHER||LS Mean|-8.2|||||TWO_SIDED|90.0|-12.5|-3.8||||||24 hr Post dose||-3.8|-12.5|
92163082|NCT05046132|184214751|OTHER||LS Mean|2.4|||||TWO_SIDED|90.0|-1.2|5.9||||||Pre dose||5.9|-1.2|
92163083|NCT05046132|184214751|OTHER||LS Mean|-1.4|||||TWO_SIDED|90.0|-4.5|1.8||||||0.5 hr Post dose||1.8|-4.5|
92163084|NCT05046132|184214751|OTHER||LS Mean|-0.4|||||TWO_SIDED|90.0|-4.0|3.3||||||1 hr Post dose||3.3|-4.0|
92163085|NCT05046132|184214751|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-3.0|3.6||||||1.5 hr Post dose||3.6|-3.0|
92163086|NCT05046132|184214751|OTHER||LS Mean|-1.0|||||TWO_SIDED|90.0|-4.0|2.0||||||2 hr Post dose||2.0|-4.0|
92163087|NCT05046132|184214751|OTHER||LS Mean|0.5|||||TWO_SIDED|90.0|-2.6|3.6||||||2.5 hr Post dose||3.6|-2.6|
92163088|NCT05046132|184214751|OTHER||LS Mean|-0.7|||||TWO_SIDED|90.0|-3.7|2.3||||||3 hr Post dose||2.3|-3.7|
92163089|NCT05046132|184214751|OTHER||LS Mean|-2.3|||||TWO_SIDED|90.0|-5.4|0.9||||||4 hr Post dose||0.9|-5.4|
92163090|NCT05046132|184214751|OTHER||LS Mean|1.1|||||TWO_SIDED|90.0|-2.5|4.6||||||5 hr Post dose||4.6|-2.5|
92163091|NCT05046132|184214751|OTHER||LS Mean|-0.7|||||TWO_SIDED|90.0|-4.1|2.8||||||6 hr Post dose||2.8|-4.1|
92163092|NCT05046132|184214751|OTHER||LS Mean|-1.9|||||TWO_SIDED|90.0|-5.0|1.3||||||7 hr Post dose||1.3|-5.0|
92163093|NCT05046132|184214751|OTHER||LS Mean|-0.5|||||TWO_SIDED|90.0|-3.7|2.8||||||8 hr Post dose||2.8|-3.7|
92221547|NCT02831673|184343888|OTHER||Ratio of geometric means|0.829|||<|0.001|TWO_SIDED|95.0|0.773|0.888|||Mixed Model Repeated Measures||Week 48. Urine Protein/Creatinine|||0.888|0.773|<0.001
92221548|NCT02831673|184343888|OTHER||Ratio of geometric means|0.871||||0.087|TWO_SIDED|95.0|0.743|1.02|||Mixed Model Repeated Measures||Week 24. Urine RBP 4|||1.020|0.743|0.087
92221549|NCT02831673|184343888|OTHER||Ratio of geometric means|0.748|||<|0.001|TWO_SIDED|95.0|0.644|0.87|||Mixed Model Repeated Measures||Week 48. Urine RBP 4|||0.870|0.644|<0.001
92221550|NCT02831673|184343888|OTHER||Ratio of geometric means|0.828||||0.005|TWO_SIDED|95.0|0.727|0.944|||Mixed Model Repeated Measures||Week 24. Urine RBP 4/Urine Creatinine|||0.944|0.727|0.005
92221551|NCT02831673|184343888|OTHER||Ratio of geometric means|0.765|||<|0.001|TWO_SIDED|95.0|0.677|0.864|||Mixed Model Repeated Measures||Week 48. Urine RBP 4/Urine Creatinine|||0.864|0.677|<0.001
92221552|NCT02831673|184343889|OTHER||Ratio of geometric means|0.839||||0.006|TWO_SIDED|95.0|0.742|0.95|||Mixed Model Repeated Measures||Week 96. Urine Albumin/Creatinine.|||0.950|0.742|0.006
92221553|NCT02831673|184343889|OTHER||Ratio of geometric means|0.551|||<|0.001|TWO_SIDED|95.0|0.445|0.682|||Mixed Model Repeated Measures||Week 96. Urine B2M/Urine Creatinine.|||0.682|0.445|<0.001
92221554|NCT02831673|184343889|OTHER||Ratio of geometric means|1.045||||0.467|TWO_SIDED|95.0|0.928|1.175|||Mixed Model Repeated Measures||Week 96. Urine Phosphate.|||1.175|0.928|0.467
92221555|NCT02831673|184343889|OTHER||Ratio of geometric means|0.824|||<|0.001|TWO_SIDED|95.0|0.764|0.889|||Mixed Model Repeated Measures||Week 96. Urine Protein/Creatinine.|||0.889|0.764|<0.001
92221556|NCT02831673|184343889|OTHER||Ratio of geometric means|0.74|||<|0.001|TWO_SIDED|95.0|0.651|0.84|||Mixed Model Repeated Measures||Week 96. Urine RBP 4/Urine Creatinine|||0.840|0.651|<0.001
92221557|NCT02831673|184343890|OTHER||Ratio of geometric means|0.916||||0.205|TWO_SIDED|95.0|0.799|1.05|||Mixed Model Repeated Measures||Week 144. Urine Albumin/Creatinine.|||1.050|0.799|0.205
92221558|NCT02831673|184343890|OTHER||Ratio of geometric means|0.495|||<|0.001|TWO_SIDED|95.0|0.406|0.603|||Mixed Model Repeated Measures||Week 144. Urine B2M/Urine Creatinine.|||0.603|0.406|<0.001
92405694|NCT01499355|184701590|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4344||||0.5455|TWO_SIDED|90.0|0.0996|1.8941||Model includes the variable for treatment, adjusted for the covariates including region (Latin America, Asia, ROW) and renal response at Run-in Week 12 (partial and non-response).|Regression, Logistic|||||1.8941|0.0996|0.5455
92221559|NCT02831673|184343890|OTHER||Ratio of geometric means|1.089||||0.16|TWO_SIDED|95.0|0.967|1.226|||Mixed Model Repeated Measures||Week 144. Urine Phosphate.|||1.226|0.967|0.160
92221560|NCT02831673|184343890|OTHER||Ratio of geometric means|0.817|||<|0.001|TWO_SIDED|95.0|0.753|0.885|||Mixed Model Repeated Measures||Week 144. Urine Protein/Creatinine.|||0.885|0.753|<0.001
92221561|NCT02831673|184343890|OTHER||Ratio of geometric means|0.679|||<|0.001|TWO_SIDED|95.0|0.607|0.76|||Mixed Model Repeated Measures||Week 144. Urine RBP 4/Urine Creatinine|||0.760|0.607|<0.001
92221562|NCT02831673|184343891|OTHER||Mean Difference (Net)|-2.23|||<|0.001|TWO_SIDED|95.0|-2.75|-1.7|||Mixed Model Repeated Measures||Week 24. Bone ALP|||-1.70|-2.75|<0.001
92221563|NCT02831673|184343891|OTHER||Mean Difference (Net)|-2.58|||<|0.001|TWO_SIDED|95.0|-3.19|-1.98|||Mixed Model Repeated Measures||Week 48. Bone ALP|||-1.98|-3.19|<0.001
92221564|NCT02831673|184343891|OTHER||Mean Difference (Net)|-4.19|||<|0.001|TWO_SIDED|95.0|-5.15|-3.23|||Mixed Model Repeated Measures||Week 28. Serum Osteocalcin|||-3.23|-5.15|<0.001
92221565|NCT02831673|184343891|OTHER||Mean Difference (Net)|-5.23|||<|0.001|TWO_SIDED|95.0|-6.22|-4.23|||Mixed Model Repeated Measures||Week 48. Serum Osteocalcin|||-4.23|-6.22|<0.001
92221566|NCT02831673|184343891|OTHER||Mean Difference (Net)|-13.8|||<|0.001|TWO_SIDED|95.0|-16.5|-11.1|||Mixed Model Repeated Measures||Week 24. Serum PINP|||-11.1|-16.5|<0.001
92221567|NCT02831673|184343891|OTHER||Mean Difference (Net)|-12.6|||<|0.001|TWO_SIDED|95.0|-15.0|-10.3|||Mixed Model Repeated Measures||Week 48. Serum PINP|||-10.3|-15.0|<0.001
92221568|NCT02831673|184343891|OTHER||Mean Difference (Net)|-0.1628|||<|0.001|TWO_SIDED|95.0|-0.2015|-0.1241|||Mixed Model Repeated Measures||Week 24. CTX-1|||-0.1241|-0.2015|<0.001
92221569|NCT02831673|184343891|OTHER||Mean Difference (Net)|-0.2015|||<|0.001|TWO_SIDED|95.0|-0.246|-0.1569|||Mixed Model Repeated Measures||Week 48. CTX-1|||-0.1569|-0.2460|<0.001
92221570|NCT02831673|184343892|OTHER||Mean Difference (Net)|-2.06|||<|0.001|TWO_SIDED|95.0|-2.63|-1.5|||Mixed Model Repeated Measures||Week 96, Bone ALP|||-1.50|-2.63|<0.001
92221571|NCT02831673|184343892|OTHER||Mean Difference (Net)|-4.17|||<|0.001|TWO_SIDED|95.0|-5.2|-3.14|||Mixed Model Repeated Measures||Week 96, Serum Osteocalcin|||-3.14|-5.20|<0.001
92221572|NCT02831673|184343892|OTHER||Mean Difference (Net)|-13.3|||<|0.001|TWO_SIDED|95.0|-17.6|-8.9|||Mixed Model Repeated Measures||Week 96, Serum PINP|||-8.9|-17.6|<0.001
92221573|NCT02831673|184343892|OTHER||Mean Difference (Net)|-0.1592|||<|0.001|TWO_SIDED|95.0|-0.208|-0.1104|||Mixed Model Repeated Measures||Week 96, CTX-1|||-0.1104|-0.2080|<0.001
92221574|NCT02831673|184343893|OTHER||Mean Difference (Net)|-1.68|||<|0.001|TWO_SIDED|95.0|-2.23|-1.14|||Mixed Model Repeated Measures||Week 144, Bone ALP|||-1.14|-2.23|<0.001
92221575|NCT02831673|184343893|OTHER||Mean Difference (Net)|-2.91|||<|0.001|TWO_SIDED|95.0|-4.0|-1.83|||Mixed Model Repeated Measures||Week 144, Serum Osteocalcin|||-1.83|-4.00|<0.001
92221576|NCT02831673|184343893|OTHER||Mean Difference (Net)|-9.2|||<|0.001|TWO_SIDED|95.0|-12.3|-6.2|||Mixed Model Repeated Measures||Week 144, Serum PINP|||-6.2|-12.3|<0.001
92221577|NCT02831673|184343893|OTHER||Mean Difference (Net)|-0.1414|||<|0.001|TWO_SIDED|95.0|-0.1771|-0.1056|||Mixed Model Repeated Measures||Week 144, CTX-1|||-0.1056|-0.1771|<0.001
92221578|NCT02831673|184343894|OTHER||Mean Difference (Net)|-6.5|||<|0.001|TWO_SIDED|95.0|-9.9|-3.0|||Mixed Model Repeated Measures||Week 24|||-3.0|-9.9|<0.001
92221579|NCT02831673|184343894|OTHER||Mean Difference (Net)|-6.2|||<|0.001|TWO_SIDED|95.0|-9.0|-3.4|||Mixed Model Repeated Measures||Week 48|||-3.4|-9.0|<0.001
92221580|NCT02831673|184343895|OTHER||Mean Difference (Net)|-2.9||||0.048|TWO_SIDED|95.0|-5.8|0.0|||Mixed Model Repeated Measures||Week 96|||0.0|-5.8|0.048
92221581|NCT02831673|184343896|OTHER||Mean Difference (Net)|-4.9||||0.004|TWO_SIDED|95.0|-8.3|-1.6|||Mixed Model Repeated Measures||Week 144|||-1.6|-8.3|0.004
92221582|NCT02831673|184343903|OTHER||Difference in percentage|2.0||||0.157|TWO_SIDED|95.0|-0.6|4.6||Fisher's exact p-value.|Fisher Exact||Week 24|||4.6|-0.6|0.157
92405695|NCT01499355|184701590|SUPERIORITY_OR_OTHER|||||||0.0252|||||||Cochran-Mantel-Haenszel|||||||0.0252
92405696|NCT01499355|184701590|SUPERIORITY_OR_OTHER|||||||0.2876|||||||Cochran-Mantel-Haenszel|||||||0.2876
92221583|NCT02831673|184343903|OTHER||Difference in percentage|1.3||||0.414|TWO_SIDED|95.0|-1.7|4.2||Fisher's exact p-value.|Fisher Exact||Week 48|||4.2|-1.7|0.414
92221584|NCT02831673|184343904|OTHER||Difference in percentage|1.0||||0.562|TWO_SIDED|95.0|-2.1|4.1||Fisher's exact p-value.|Fisher Exact||Week 96|||4.1|-2.1|0.562
92221585|NCT02831673|184343905|OTHER||Difference in percentage|0.9||||0.587|TWO_SIDED|95.0|-2.4|4.3||Fisher's exact p-value.|Fisher Exact||Week 144|||4.3|-2.4|0.587
92221586|NCT02831673|184343910|OTHER||Mean Difference (Net)|19.8|||||TWO_SIDED|95.0|-10.23|49.83|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and HIV-1 RNA interaction.|||49.83|-10.23|
92221587|NCT02831673|184343910|OTHER||Mean Difference (Net)|0.67|||||TWO_SIDED|95.0|-57.07|58.4|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and HIV-1 RNA interaction.|||58.40|-57.07|
92163094|NCT05046132|184214751|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-3.4|3.1||||||9 hr Post dose||3.1|-3.4|
92221588|NCT02831673|184343910|OTHER||Mean Difference (Net)|36.84|||||TWO_SIDED|95.0|-55.94|129.63|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||129.63|-55.94|
92221589|NCT02831673|184343910|OTHER||Mean Difference (Net)|14.37|||||TWO_SIDED|95.0|-13.38|42.12|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||42.12|-13.38|
92163095|NCT05046132|184214751|OTHER||LS Mean|0.4|||||TWO_SIDED|90.0|-2.8|3.7||||||10 hr Post dose||3.7|-2.8|
92163096|NCT05046132|184214751|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-2.9|3.1||||||12 hr Post dose||3.1|-2.9|
92163097|NCT05046132|184214751|OTHER||LS Mean|0.6|||||TWO_SIDED|90.0|-3.1|4.3||||||16 hr Post dose||4.3|-3.1|
92163098|NCT05046132|184214751|OTHER||LS Mean|1.7|||||TWO_SIDED|90.0|-2.5|5.9||||||24 hr Post dose||5.9|-2.5|
92163099|NCT05046132|184214752|OTHER||LS Mean|-0.7|||||TWO_SIDED|90.0|-2.6|1.2||||||Pre dose||1.2|-2.6|
92163100|NCT05046132|184214752|OTHER||LS Mean|-0.9|||||TWO_SIDED|90.0|-2.6|0.7||||||0.5 hr post dose||0.7|-2.6|
92163101|NCT05046132|184214752|OTHER||LS Mean|0.6|||||TWO_SIDED|90.0|-1.1|2.3||||||1 hr post dose||2.3|-1.1|
92163102|NCT05046132|184214752|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-1.5|1.3||||||1.5 hr post dose||1.3|-1.5|
92163103|NCT05046132|184214752|OTHER||LS Mean|0.8|||||TWO_SIDED|90.0|-0.8|2.4||||||2 hr post dose||2.4|-0.8|
92163104|NCT05046132|184214752|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-1.0|2.4||||||2.5 hr post dose||2.4|-1.0|
92163105|NCT05046132|184214752|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-1.6|2.0||||||3 hr post dose||2.0|-1.6|
92163106|NCT05046132|184214752|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-0.9|2.3||||||4 hr post dose||2.3|-0.9|
92163107|NCT05046132|184214752|OTHER||LS Mean|0.5|||||TWO_SIDED|90.0|-1.2|2.1||||||5 hr post dose||2.1|-1.2|
92163108|NCT05046132|184214752|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-0.7|2.4||||||6 hr post dose||2.4|-0.7|
92163109|NCT05046132|184214752|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-0.6|2.4||||||7 hr post dose||2.4|-0.6|
92163110|NCT05046132|184214752|OTHER||LS Mean|0.6|||||TWO_SIDED|90.0|-1.0|2.2||||||8 hr post dose||2.2|-1.0|
92163111|NCT05046132|184214752|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-1.6|1.3||||||9 hr post dose||1.3|-1.6|
92163112|NCT05046132|184214752|OTHER||LS Mean|0.0|||||TWO_SIDED|90.0|-1.5|1.6||||||10 hr post dose||1.6|-1.5|
92221590|NCT02831673|184343910|OTHER||Mean Difference (Net)|25.14|||||TWO_SIDED|95.0|-9.56|59.85|||||Age\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||59.85|-9.56|
92221591|NCT02831673|184343910|OTHER||Mean Difference (Net)|-7.82|||||TWO_SIDED|95.0|-55.98|40.34|||||Age 35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||40.34|-55.98|
92221592|NCT02831673|184343910|OTHER||Mean Difference (Net)|29.45|||||TWO_SIDED|95.0|-55.47|114.38|||||Age\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||114.38|-55.47|
92163113|NCT05046132|184214752|OTHER||LS Mean|1.4|||||TWO_SIDED|90.0|-0.2|3.0||||||12 hr post dose||3.0|-0.2|
92163114|NCT05046132|184214752|OTHER||LS Mean|1.5|||||TWO_SIDED|90.0|-0.3|3.4||||||16 hr post dose||3.4|-0.3|
92163115|NCT05046132|184214752|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-2.1|1.6||||||24 hr post dose||1.6|-2.1|
92163116|NCT05046132|184214752|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-1.2|2.6||||||Pre dose||2.6|-1.2|
92163117|NCT05046132|184214752|OTHER||LS Mean|-0.3|||||TWO_SIDED|90.0|-1.9|1.4||||||0.5 hr post dose||1.4|-1.9|
92163118|NCT05046132|184214752|OTHER||LS Mean|0.5|||||TWO_SIDED|90.0|-1.2|2.2||||||1 hr post dose||2.2|-1.2|
92163119|NCT05046132|184214752|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-0.7|2.1||||||1.5 hr post dose||2.1|-0.7|
92163120|NCT05046132|184214752|OTHER||LS Mean|0.6|||||TWO_SIDED|90.0|-1.1|2.2||||||2 hr post dose||2.2|-1.1|
92163121|NCT05046132|184214752|OTHER||LS Mean|0.8|||||TWO_SIDED|90.0|-0.9|2.5||||||2.5 hr post dose||2.5|-0.9|
92163122|NCT05046132|184214752|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-1.5|2.1||||||3 hr post dose||2.1|-1.5|
92163123|NCT05046132|184214752|OTHER||LS Mean|-0.5|||||TWO_SIDED|90.0|-2.1|1.1||||||4 hr post dose||1.1|-2.1|
92163124|NCT05046132|184214752|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-1.5|1.9||||||5 hr post dose||1.9|-1.5|
92163125|NCT05046132|184214752|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-1.7|1.4||||||6 hr post dose||1.4|-1.7|
92163126|NCT05046132|184214752|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-1.6|1.4||||||7 hr post dose||1.4|-1.6|
92163127|NCT05046132|184214752|OTHER||LS Mean|0.8|||||TWO_SIDED|90.0|-0.7|2.4||||||8 hr post dose||2.4|-0.7|
92163128|NCT05046132|184214752|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-1.6|1.3||||||9 hr post dose||1.3|-1.6|
92163129|NCT05046132|184214752|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-1.4|1.6||||||10 hr post dose||1.6|-1.4|
92163130|NCT05046132|184214752|OTHER||LS Mean|1.5|||||TWO_SIDED|90.0|-0.1|3.1||||||12 hr post dose||3.1|-0.1|
92163131|NCT05046132|184214752|OTHER||LS Mean|1.2|||||TWO_SIDED|90.0|-0.7|3.0||||||16 hr post dose||3.0|-0.7|
92163132|NCT05046132|184214752|OTHER||LS Mean|1.5|||||TWO_SIDED|90.0|-0.3|3.4||||||24 hr post dose||3.4|-0.3|
92163133|NCT05046132|184214753|OTHER||LS Mean|0.8|||||TWO_SIDED|90.0|-1.3|2.9||||||Pre dose||2.9|-1.3|
92405697|NCT01499355|184701593|SUPERIORITY_OR_OTHER|||||||0.863|||||||Regression, Cox|||||||0.863
92405698|NCT01499355|184701593|SUPERIORITY_OR_OTHER|||||||0.769|||||||Regression, Cox|||||||0.769
92163134|NCT05046132|184214753|OTHER||LS Mean|-0.3|||||TWO_SIDED|90.0|-1.8|1.2||||||0.5 hr post dose||1.2|-1.8|
92163135|NCT05046132|184214753|OTHER||LS Mean|1.2|||||TWO_SIDED|90.0|-1.4|3.8||||||1 hr post dose||3.8|-1.4|
92163136|NCT05046132|184214753|OTHER||LS Mean|0.0|||||TWO_SIDED|90.0|-1.8|1.8||||||1.5 hr post dose||1.8|-1.8|
92163137|NCT05046132|184214753|OTHER||LS Mean|-1.4|||||TWO_SIDED|90.0|-3.0|0.3||||||2 hr post dose||0.3|-3.0|
92163138|NCT05046132|184214753|OTHER||LS Mean|1.6|||||TWO_SIDED|90.0|0.0|3.1||||||2.5 hr post dose||3.1|-0.0|
92163139|NCT05046132|184214753|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-1.7|1.5||||||3 hr post dose||1.5|-1.7|
92163140|NCT05046132|184214753|OTHER||LS Mean|1.3|||||TWO_SIDED|90.0|-0.3|2.9||||||4 hr post dose||2.9|-0.3|
92163141|NCT05046132|184214753|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-2.2|2.0||||||5 hr post dose||2.0|-2.2|
92163142|NCT05046132|184214753|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-0.8|2.3||||||6 hr post dose||2.3|-0.8|
92163143|NCT05046132|184214753|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-0.8|2.7||||||7 hr post dose||2.7|-0.8|
92163144|NCT05046132|184214753|OTHER||LS Mean|1.0|||||TWO_SIDED|90.0|-0.3|2.4||||||8 hr post dose||2.4|-0.3|
92163145|NCT05046132|184214753|OTHER||LS Mean|1.1|||||TWO_SIDED|90.0|-0.7|2.9||||||9 hr post dose||2.9|-0.7|
92163146|NCT05046132|184214753|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-1.4|1.9||||||10 hr post dose||1.9|-1.4|
92163147|NCT05046132|184214753|OTHER||LS Mean|1.3|||||TWO_SIDED|90.0|-0.6|3.2||||||12 hr post dose||3.2|-0.6|
92163148|NCT05046132|184214753|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-1.0|2.4||||||16 hr post dose||2.4|-1.0|
92163149|NCT05046132|184214753|OTHER||LS Mean|1.6|||||TWO_SIDED|90.0|-1.0|4.2||||||24 hr post dose||4.2|-1.0|
92163150|NCT05046132|184214753|OTHER||LS Mean|-0.3|||||TWO_SIDED|90.0|-2.3|1.7||||||Pre dose||1.7|-2.3|
92163151|NCT05046132|184214753|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-1.6|1.3||||||0.5 hr post dose||1.3|-1.6|
92163152|NCT05046132|184214753|OTHER||LS Mean|-1.3|||||TWO_SIDED|90.0|-3.8|1.2||||||1 hr post dose||1.2|-3.8|
92163153|NCT05046132|184214753|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-1.7|1.8||||||1.5 hr post dose||1.8|-1.7|
92163154|NCT05046132|184214753|OTHER||LS Mean|-1.1|||||TWO_SIDED|90.0|-2.7|0.5||||||2 hr post dose||0.5|-2.7|
92163155|NCT05046132|184214753|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-0.8|2.3||||||2.5 hr post dose||2.3|-0.8|
92163156|NCT05046132|184214753|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-1.3|1.8||||||3 hr post dose||1.8|-1.3|
92163157|NCT05046132|184214753|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-1.2|1.9||||||4 hr post dose||1.9|-1.2|
92163158|NCT05046132|184214753|OTHER||LS Mean|-1.5|||||TWO_SIDED|90.0|-3.5|0.5||||||5 hr post dose||0.5|-3.5|
92163159|NCT05046132|184214753|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-0.6|2.3||||||6 hr post dose||2.3|-0.6|
92163160|NCT05046132|184214753|OTHER||LS Mean|0.4|||||TWO_SIDED|90.0|-1.3|2.1||||||7 hr post dose||2.1|-1.3|
92163161|NCT05046132|184214753|OTHER||LS Mean|1.3|||||TWO_SIDED|90.0|0.0|2.6||||||8 hr post dose||2.6|-0.0|
92163162|NCT05046132|184214753|OTHER||LS Mean|0.4|||||TWO_SIDED|90.0|-1.3|2.2||||||9 hr post dose||2.2|-1.3|
92163163|NCT05046132|184214753|OTHER||LS Mean|-1.1|||||TWO_SIDED|90.0|-2.7|0.5||||||10 hr post dose||0.5|-2.7|
92163164|NCT05046132|184214753|OTHER||LS Mean|-0.3|||||TWO_SIDED|90.0|-2.1|1.5||||||12 hr post dose||1.5|-2.1|
92163165|NCT05046132|184214753|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-1.9|1.4||||||16 hr post dose||1.4|-1.9|
92163166|NCT05046132|184214753|OTHER||LS Mean|2.3|||||TWO_SIDED|90.0|-0.2|4.9||||||24 hr post dose||4.9|-0.2|
92163167|NCT00982033|184214793|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANCOVA|||||||0.90
92163168|NCT04673851|184214813|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|-0.86|STANDARD_DEVIATION|5.44|||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
92163169|NCT04673851|184214813|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.16|||||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
92163170|NCT04673851|184214813|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-2.65|STANDARD_DEVIATION|5.61|||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
92163171|NCT04673851|184214813|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.47|||||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
92163172|NCT04673851|184214813|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|-1.97|STANDARD_DEVIATION|7.19|||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
92163173|NCT04673851|184214813|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.27|||||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
92163174|NCT04673851|184214813|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-4.15|STANDARD_DEVIATION|7.93|||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
92163175|NCT04673851|184214813|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.52|||||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
92163176|NCT04673851|184214814|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|-1.52|STANDARD_DEVIATION|8.95|||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
92163177|NCT04673851|184214814|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.17|||||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
92163178|NCT04673851|184214814|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|1.15|STANDARD_DEVIATION|5.8|||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
92163179|NCT04673851|184214814|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.2|||||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
92163180|NCT04673851|184214814|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|0.67|STANDARD_DEVIATION|10.29|||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
92163181|NCT04673851|184214814|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.07|||||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
92163182|NCT04673851|184214814|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|2.07|STANDARD_DEVIATION|9.47|||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
92163183|NCT04673851|184214814|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.22|||||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
92163184|NCT04673851|184214815|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|-0.05|STANDARD_DEVIATION|7.08|||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
92163185|NCT04673851|184214815|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.01|||||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
92163186|NCT04673851|184214815|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-2.35|STANDARD_DEVIATION|7.53|||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
92405699|NCT01499355|184701593|SUPERIORITY_OR_OTHER|||||||0.907|||||||ANCOVA|||||||0.907
92163187|NCT04673851|184214815|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.31|||||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
92221593|NCT02831673|184343910|OTHER||Mean Difference (Net)|17.67|||||TWO_SIDED|95.0|-49.89|85.23|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||85.23|-49.89|
92163188|NCT04673851|184214815|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|0.9|STANDARD_DEVIATION|9.95|||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
92221594|NCT02831673|184343910|OTHER||Mean Difference (Net)|15.16|||||TWO_SIDED|95.0|-13.9|44.21|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||44.21|-13.90|
92221595|NCT02831673|184343910|OTHER||Mean Difference (Net)|22.51|||||TWO_SIDED|95.0|-9.52|54.54|||||Race group white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||54.54|-9.52|
92163189|NCT04673851|184214815|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.09|||||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
92163190|NCT04673851|184214815|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-2.56|STANDARD_DEVIATION|9.6|||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
92163191|NCT04673851|184214815|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.27|||||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
92163192|NCT04673851|184214816|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|-0.29|STANDARD_DEVIATION|8.27|||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
92163193|NCT04673851|184214816|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.04|||||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
92163194|NCT04673851|184214816|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|2.6|STANDARD_DEVIATION|7.86|||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
92163195|NCT04673851|184214816|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.33|||||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
92163196|NCT04673851|184214816|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|2.17|STANDARD_DEVIATION|7.84|||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
92163197|NCT04673851|184214816|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.28|||||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
92163198|NCT04673851|184214816|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|6.48|STANDARD_DEVIATION|8.5|||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
92163199|NCT04673851|184214816|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.76|||||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
92163200|NCT04673851|184214817|OTHER|Single group mean difference between mid-treatment and post-treatment assessments.|Mean Difference (Net)|4.11|STANDARD_DEVIATION|6.86|||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
92163201|NCT04673851|184214817|OTHER|Effect size of single group mean difference between mid-treatment and post-treatment assessments.|Cohen's d|0.6|||||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
92405700|NCT01499355|184701593|SUPERIORITY_OR_OTHER|||||||0.996|||||||ANCOVA|||||||0.996
92405701|NCT02668653|184701594|OTHER||Hazard Ratio (HR)|0.776||||0.0324|TWO_SIDED|95.0|0.615|0.979|||Log Rank|Stratification factors include region, age, and WBC count at the time of diagnosis of AML.||||0.979|0.615|0.0324
92405702|NCT00999102|184701650|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.67|TWO_SIDED|95.0|-1.86|2.86|||t-test, 2 sided|Paired t-test was performed since each participant received both interventions in a crossover design.|Direction of Comparison: Mean Global Fatigue Score for Nebivolol 5 mg minus Mean Global Fatigue Score for Metoprolol 50 mg.|The null hypothesis is that there is no difference in the Global Fatigue Score after 4 weeks of Nebivolol 5 mg (lower dose) vs. 4 weeks of Metoprolol 50 mg (lower dose).||2.86|-1.86|0.67
92221596|NCT02831673|184343910|OTHER||Mean Difference (Net)|-26.67|||||TWO_SIDED|95.0|-110.64|57.3|||||Race group African Am/African H.. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||57.30|-110.64|
92221597|NCT02831673|184343910|OTHER||Mean Difference (Net)|4.44||||||95.0|-76.18|85.06|||||Race group Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||85.06|-76.18|
92221598|NCT02831673|184343910|OTHER||Mean Difference (Net)|24.96|||||TWO_SIDED|95.0|-60.68|110.59|||||Race group Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||110.59|-60.68|
92221599|NCT02831673|184343911|OTHER||Mean Difference (Net)|7.6|||||TWO_SIDED|95.0|-24.6|39.8|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count and treatment and HIV-1 RNA interaction.|||39.8|-24.6|
92221600|NCT02831673|184343911|OTHER||Mean Difference (Net)|3.0|||||TWO_SIDED|95.0|-59.8|65.9|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count and treatment and HIV-1 RNA interaction.|||65.9|-59.8|
92221601|NCT02831673|184343911|OTHER||Mean Difference (Net)|22.6|||||TWO_SIDED|95.0|-78.3|123.5|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||123.5|-78.3|
92221602|NCT02831673|184343911|OTHER||Mean Difference (Net)|5.2|||||TWO_SIDED|95.0|-24.7|35.1|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||35.1|-24.7|
92221603|NCT02831673|184343911|OTHER||Mean Difference (Net)|8.4|||||TWO_SIDED|95.0|-29.1|45.9|||||Age\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||45.9|-29.1|
92221604|NCT02831673|184343911|OTHER||Mean Difference (Net)|-2.5|||||TWO_SIDED|95.0|-53.9|48.9|||||Age 35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||48.9|-53.9|
92221605|NCT02831673|184343911|OTHER||Mean Difference (Net)|17.7|||||TWO_SIDED|95.0|-74.6|110.1|||||Age\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||110.1|-74.6|
92221606|NCT02831673|184343911|OTHER||Mean Difference (Net)|10.4|||||TWO_SIDED|95.0|-62.3|83.1|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||83.1|-62.3|
92221607|NCT02831673|184343911|OTHER||Mean Difference (Net)|5.6|||||TWO_SIDED|95.0|-25.6|36.9|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||36.9|-25.6|
92221608|NCT02831673|184343911|OTHER||Mean Difference (Net)|6.3|||||TWO_SIDED|95.0|-28.2|40.9|||||Race group white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||40.9|-28.2|
92276552|NCT01360632|184454752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.0852|TWO_SIDED|95.0|-0.32|0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.02|-0.32|0.0852
92276553|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.08||||0.0817|TWO_SIDED|95.0|-0.17|0.01|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.01|-0.17|0.0817
92221609|NCT02831673|184343911|OTHER||Mean Difference (Net)|-30.2|||||TWO_SIDED|95.0|-122.7|62.4|||||Race group African Am/African H.. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||62.4|-122.7|
92276554|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.1406|TWO_SIDED|95.0|-0.16|0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.02|-0.16|0.1406
92221610|NCT02831673|184343911|OTHER||Mean Difference (Net)|49.2|||||TWO_SIDED|95.0|-36.3|134.7|||||Race group Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||134.7|-36.3|
92221611|NCT02831673|184343911|OTHER||Mean Difference (Net)|-2.5|||||TWO_SIDED|95.0|-94.7|89.7|||||Race group Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||89.7|-94.7|
92276555|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.011|TWO_SIDED|95.0|-0.29|-0.04|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.04|-0.29|0.011
92163202|NCT04673851|184214817|OTHER|Single group mean difference between 1.5 month and mid-treatment assessments.|Mean Difference (Net)|0.77|STANDARD_DEVIATION|6.88|||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
92163203|NCT04673851|184214817|OTHER|Effect size of single group mean difference between 1.5 month and mid-treatment assessments.|Cohen's d|0.11|||||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
92163204|NCT04673851|184214817|OTHER|Single group mean difference between 1.5 month and 4.5 month assessments.|Mean Difference (Net)|-0.15|STANDARD_DEVIATION|5.78|||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163205|NCT04673851|184214817|OTHER|Effect size of single group mean difference between 1.5 month and 4.5 month assessments.|Cohen's d|0.03|||||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163206|NCT04673851|184214817|OTHER|Single group mean difference between 1.5 month and post-treatment assessments.|Mean Difference (Net)|-2.63|STANDARD_DEVIATION|7.95|||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163207|NCT04673851|184214817|OTHER|Effect size of single group mean difference between 1.5 month and post-treatment assessments.|Cohen's d|0.33|||||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163208|NCT04673851|184214818|OTHER|Single group mean difference between mid-treatment and post-treatment assessments.|Mean Difference (Net)|1.68|STANDARD_DEVIATION|3.76|||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
92163209|NCT04673851|184214818|OTHER|Effect size of single group mean difference between mid-treatment and post-treatment assessments.|Cohen's d|0.45|||||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
92163210|NCT04673851|184214818|OTHER|Single group mean difference between 1.5 month and mid-treatment assessments.|Mean Difference (Net)|-0.07|STANDARD_DEVIATION|2.73|||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
92163211|NCT04673851|184214818|OTHER|Effect size of single group mean difference between 1.5 month and mid-treatment assessments.|Cohen's d|0.02|||||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
92163212|NCT04673851|184214818|OTHER|Single group mean difference between 1.5 month and 4.5 month assessments.|Mean Difference (Net)|-0.56|STANDARD_DEVIATION|2.44|||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163213|NCT04673851|184214818|OTHER|Effect size of single group mean difference between 1.5 month and 4.5 month assessments.|Cohen's d|0.23|||||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163214|NCT04673851|184214818|OTHER|Single group mean difference between 1.5 month and post-treatment assessments.|Mean Difference (Net)|-0.59|STANDARD_DEVIATION|3.15|||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163215|NCT04673851|184214818|OTHER|Effect size of single group mean difference between 1.5 month and post-treatment assessments.|Cohen's d|0.19|||||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163216|NCT04673851|184214819|OTHER|Single group mean difference between mid-treatment and post-treatment assessments.|Mean Difference (Net)|2.42|STANDARD_DEVIATION|4.48|||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
92163217|NCT04673851|184214819|OTHER|Effect size of single group mean difference between mid-treatment and post-treatment assessments.|Cohen's d|0.54|||||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
92163218|NCT04673851|184214819|OTHER|Single group mean difference between 1.5 month and mid-treatment assessments.|Mean Difference (Net)|0.83|STANDARD_DEVIATION|5.05|||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
92163219|NCT04673851|184214819|OTHER|Effect size of single group mean difference between 1.5 month and mid-treatment assessments.|Cohen's d|0.17|||||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
92163220|NCT04673851|184214819|OTHER|Single group mean difference between 1.5 month and 4.5 month assessments.|Mean Difference (Net)|0.41|STANDARD_DEVIATION|4.55|||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163221|NCT04673851|184214819|OTHER|Effect size of single group mean difference between 1.5 month and 4.5 month assessments.|Cohen's d|0.09|||||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163222|NCT04673851|184214819|OTHER|Single group mean difference between 1.5 month and post-treatment assessments.|Mean Difference (Net)|-2.04|STANDARD_DEVIATION|6.12|||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163223|NCT04673851|184214819|OTHER|Effect size of single group mean difference between 1.5 month and post-treatment assessments.|Cohen's d|0.33|||||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
92163224|NCT00880048|184214841|SUPERIORITY||Mean Difference (Net)|-1.6||||0.0133|TWO_SIDED|95.0|-2.87|-0.34|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 1||-0.34|-2.87|0.0133
92163225|NCT00880048|184214841|SUPERIORITY||Mean Difference (Net)|-2.26||||0.0006|TWO_SIDED|95.0|-3.54|-0.98|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 1||-0.98|-3.54|0.0006
92163226|NCT00880048|184214841|SUPERIORITY||Mean Difference (Net)|-1.57||||0.0394|TWO_SIDED|95.0|-3.06|-0.08|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2||-0.08|-3.06|0.0394
92163227|NCT00880048|184214841|SUPERIORITY||Mean Difference (Net)|-1.65||||0.0332|TWO_SIDED|95.0|-3.16|-0.13|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 2||-0.13|-3.16|0.0332
92163228|NCT00880048|184214841|SUPERIORITY||Mean Difference (Net)|-1.82||||0.0601|TWO_SIDED|95.0|-3.71|0.08|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 4||0.08|-3.71|0.0601
92163229|NCT00880048|184214841|SUPERIORITY||Mean Difference (Net)|-2.03||||0.0369|TWO_SIDED|95.0|-3.94|-0.12|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 4||-0.12|-3.94|0.0369
92405703|NCT00999102|184701650|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.72|TWO_SIDED|95.0|-3.17|4.55|||t-test, 2 sided|Paired t-test was performed since each participant received both interventions in a crossover design.|Direction of Comparison: Mean Global Fatigue Score for Nebivolol 10 mg minus Mean Global Fatigue Score for Metoprolol 100 mg.|The null hypothesis is that there is no difference in the Global Fatigue Score after 4 weeks of Nebivolol 10 mg (higher dose) vs. 4 weeks of Metoprolol 100 mg (higher dose).||4.55|-3.17|0.72
92163230|NCT00880048|184214841|SUPERIORITY||Mean Difference (Net)|-1.67||||0.1122|TWO_SIDED|95.0|-3.73|0.39|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 6||0.39|-3.73|0.1122
92163231|NCT00880048|184214841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.76||||0.4713|TWO_SIDED|95.0|-2.85|1.32|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 6||1.32|-2.85|0.4713
92163232|NCT00880048|184214842|SUPERIORITY||Odds Ratio (OR)|2.15||||0.2232|TWO_SIDED|95.0|0.63|7.39|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 1||7.39|0.63|0.2232
92163233|NCT00880048|184214842|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0559|TWO_SIDED|95.0|0.97|10.2|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 1||10.2|0.97|0.0559
92163234|NCT00880048|184214842|SUPERIORITY||Odds Ratio (OR)|1.52||||0.3395|TWO_SIDED|95.0|0.64|3.61|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 2||3.61|0.64|0.3395
92163235|NCT00880048|184214842|SUPERIORITY||Odds Ratio (OR)|1.44||||0.4256|TWO_SIDED|95.0|0.59|3.5|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 2||3.50|0.59|0.4256
92163236|NCT00880048|184214842|SUPERIORITY||Odds Ratio (OR)|1.35||||0.379|TWO_SIDED|95.0|0.69|2.64|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 4||2.64|0.69|0.3790
92163237|NCT00880048|184214842|SUPERIORITY||Odds Ratio (OR)|1.47||||0.2554|TWO_SIDED|95.0|0.76|2.86|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 4||2.86|0.76|0.2554
92163238|NCT00880048|184214842|SUPERIORITY||Odds Ratio (OR)|1.53||||0.1961|TWO_SIDED|95.0|0.8|2.91|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 6||2.91|0.80|0.1961
92163239|NCT00880048|184214842|SUPERIORITY||Odds Ratio (OR)|1.15||||0.6916|TWO_SIDED|95.0|0.58|2.25|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 6||2.25|0.58|0.6916
92163240|NCT00880048|184214843|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.61|TWO_SIDED|95.0|0.5|1.95|||Log Rank|||||1.95|0.50|0.61
92163241|NCT00880048|184214843|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.35|TWO_SIDED|95.0|0.36|1.54|||Log Rank|||||1.54|0.36|0.35
92163242|NCT00880048|184214844|SUPERIORITY||Mean Difference (Net)|-0.69||||0.0362|TWO_SIDED|95.0|-1.34|-0.04|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 1||-0.04|-1.34|0.0362
92163243|NCT00880048|184214844|SUPERIORITY||Mean Difference (Net)|-0.81||||0.0155|TWO_SIDED|95.0|-1.46|-0.16|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 1||-0.16|-1.46|0.0155
92163244|NCT00880048|184214844|SUPERIORITY||Mean Difference (Net)|-0.46||||0.2593|TWO_SIDED|95.0|-1.27|0.34|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 2||0.34|-1.27|0.2593
92163245|NCT00880048|184214844|SUPERIORITY||Mean Difference (Net)|-0.62||||0.1407|TWO_SIDED|95.0|-1.44|0.2|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 2||0.20|-1.44|0.1407
92163246|NCT00880048|184214844|SUPERIORITY||Mean Difference (Net)|-0.67||||0.1933|TWO_SIDED|95.0|-1.67|0.34|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 4||0.34|-1.67|0.1933
92163247|NCT00880048|184214844|SUPERIORITY||Mean Difference (Net)|-0.74||||0.15|TWO_SIDED|95.0|-1.76|0.27|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 4||0.27|-1.76|0.1500
92163248|NCT00880048|184214844|SUPERIORITY||Mean Difference (Net)|-1.09||||0.055|TWO_SIDED|95.0|-2.21|0.02|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 6||0.02|-2.21|0.0550
92163249|NCT00880048|184214844|SUPERIORITY||Mean Difference (Net)|-0.52||||0.3627|TWO_SIDED|95.0|-1.65|0.61|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 6||0.61|-1.65|0.3627
92163250|NCT00880048|184214845|SUPERIORITY||Mean Difference (Net)|-1.03||||0.0616|TWO_SIDED|95.0|-2.11|0.05|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 1||0.05|-2.11|0.0616
92163251|NCT00880048|184214845|SUPERIORITY||Mean Difference (Net)|-2.28|||<|0.0001|TWO_SIDED|95.0|-3.36|-1.19|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 1||-1.19|-3.36|<0.0001
92163252|NCT00880048|184214845|SUPERIORITY||Mean Difference (Net)|-1.44||||0.0239|TWO_SIDED|95.0|-2.68|-0.19|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 2||-0.19|-2.68|0.0239
92163253|NCT00880048|184214845|SUPERIORITY||Mean Difference (Net)|-1.84||||0.0048|TWO_SIDED|95.0|-3.12|-0.57|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 2||-0.57|-3.12|0.0048
92163254|NCT00880048|184214845|SUPERIORITY||Mean Difference (Net)|-1.58||||0.027|TWO_SIDED|95.0|-2.97|-0.18|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 4||-0.18|-2.97|0.0270
92163255|NCT00880048|184214845|SUPERIORITY||Mean Difference (Net)|-1.86||||0.0103|TWO_SIDED|95.0|-3.27|-0.44|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 4||-0.44|-3.27|0.0103
92163256|NCT00880048|184214845|SUPERIORITY||Mean Difference (Net)|-1.53||||0.0497|TWO_SIDED|95.0|-3.06|0.0|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 6||-0.00|-3.06|0.0497
92163257|NCT00880048|184214845|SUPERIORITY||Mean Difference (Net)|-1.41||||0.0794|TWO_SIDED|95.0|-2.98|0.17|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 6||0.17|-2.98|0.0794
92163258|NCT00880048|184214846|SUPERIORITY||Mean Difference (Net)|-0.28||||0.24|TWO_SIDED|95.0|-0.75|0.19|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 1||0.19|-0.75|0.2400
92163259|NCT00880048|184214846|SUPERIORITY||Mean Difference (Net)|-0.76||||0.002|TWO_SIDED|95.0|-1.23|-0.28|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 1||-0.28|-1.23|0.0020
92163260|NCT00880048|184214846|SUPERIORITY||Mean Difference (Net)|-0.15||||0.5605|TWO_SIDED|95.0|-0.67|0.36|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 2||0.36|-0.67|0.5605
92163261|NCT00880048|184214846|SUPERIORITY||Mean Difference (Net)|-0.33||||0.2215|TWO_SIDED|95.0|-0.86|0.2|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 2||0.20|-0.86|0.2215
92163262|NCT00880048|184214846|SUPERIORITY||Mean Difference (Net)|-0.35||||0.287|TWO_SIDED|95.0|-1.01|0.3|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 4||0.30|-1.01|0.2870
92163263|NCT00880048|184214846|SUPERIORITY||Mean Difference (Net)|-0.67||||0.0465|TWO_SIDED|95.0|-1.33|-0.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 4||-0.01|-1.33|0.0465
92163264|NCT00880048|184214846|SUPERIORITY||Mean Difference (Net)|-0.32||||0.3399|TWO_SIDED|95.0|-0.99|0.34|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 6||0.34|-0.99|0.3399
92357229|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of Interlabial Sulci versus specific lesions of Labia Minora in patients with vulvar dermatosis?||||||0.4577|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Interlabial Sulci versus specific lesions of Labia Minora in patients with vulvar dermatosis.||||0.4577
92163265|NCT00880048|184214846|SUPERIORITY||Mean Difference (Net)|-0.18||||0.5931|TWO_SIDED|95.0|-0.86|0.49|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 6||0.49|-0.86|0.5931
92163266|NCT00880048|184214847|SUPERIORITY||Odds Ratio (OR)|2.83||||0.0562|TWO_SIDED|95.0|0.97|8.22|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 1||8.22|0.97|0.0562
92163267|NCT00880048|184214847|SUPERIORITY||Odds Ratio (OR)|2.22||||0.1596|TWO_SIDED|95.0|0.73|6.73|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 1||6.73|0.73|0.1596
92163268|NCT00880048|184214847|SUPERIORITY||Odds Ratio (OR)|2.91||||0.0067|TWO_SIDED|95.0|1.34|6.3|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 2||6.30|1.34|0.0067
92163269|NCT00880048|184214847|SUPERIORITY||Odds Ratio (OR)|1.93||||0.1154|TWO_SIDED|95.0|0.85|4.36|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 2||4.36|0.85|0.1154
92163270|NCT00880048|184214847|SUPERIORITY||Odds Ratio (OR)|1.13||||0.6895|TWO_SIDED|95.0|0.62|2.07|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 4||2.07|0.62|0.6895
92163271|NCT00880048|184214847|SUPERIORITY||Odds Ratio (OR)|1.32||||0.3654|TWO_SIDED|95.0|0.72|2.41|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 4||2.41|0.72|0.3654
92163272|NCT00880048|184214847|SUPERIORITY||Odds Ratio (OR)|1.44||||0.2408|TWO_SIDED|95.0|0.78|2.65|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 6||2.65|0.78|0.2408
92163273|NCT00880048|184214847|SUPERIORITY||Odds Ratio (OR)|1.39||||0.3066|TWO_SIDED|95.0|0.74|2.6|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 6||2.60|0.74|0.3066
92163274|NCT00880048|184214848|SUPERIORITY||Mean Difference (Net)|-0.15||||0.1472|TWO_SIDED|95.0|-0.36|0.05|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 1||0.05|-0.36|0.1472
92163275|NCT00880048|184214848|SUPERIORITY||Mean Difference (Net)|-0.27||||0.0107|TWO_SIDED|95.0|-0.48|-0.06|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 1||-0.06|-0.48|0.0107
92163276|NCT00880048|184214848|SUPERIORITY||Mean Difference (Net)|-0.25||||0.0603|TWO_SIDED|95.0|-0.51|0.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 2||0.01|-0.51|0.0603
92163277|NCT00880048|184214848|SUPERIORITY||Mean Difference (Net)|-0.2||||0.1458|TWO_SIDED|95.0|-0.46|0.07|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 2||0.07|-0.46|0.1458
92163278|NCT00880048|184214848|SUPERIORITY||Mean Difference (Net)|-0.27||||0.0941|TWO_SIDED|95.0|-0.58|0.05|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 4||0.05|-0.58|0.0941
92163279|NCT00880048|184214848|SUPERIORITY||Mean Difference (Net)|-0.27||||0.088|TWO_SIDED|95.0|-0.59|0.04|||Mixed Models Repeated Measures||Placebo vs GW823296 60mg: Week 4|||0.04|-0.59|0.0880
92163280|NCT00880048|184214848|SUPERIORITY||Mean Difference (Net)|-0.38||||0.0313|TWO_SIDED|95.0|-0.73|-0.03|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 6||-0.03|-0.73|0.0313
92163281|NCT00880048|184214848|SUPERIORITY||Mean Difference (Net)|-0.2||||0.2639|TWO_SIDED|95.0|-0.55|0.15|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 6||0.15|-0.55|0.2639
92163282|NCT00880048|184214849|SUPERIORITY||Mean Difference (Net)|-1.57||||0.0421|TWO_SIDED|95.0|-3.08|-0.06|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1||-0.06|-3.08|0.0421
92163283|NCT00880048|184214849|SUPERIORITY||Mean Difference (Net)|-0.74||||0.3394|TWO_SIDED|95.0|-2.27|0.78|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1||0.78|-2.27|0.3394
92163284|NCT00880048|184214849|SUPERIORITY||Mean Difference (Net)|-1.4||||0.0963|TWO_SIDED|95.0|-3.05|0.25|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2||0.25|-3.05|0.0963
92163285|NCT00880048|184214849|SUPERIORITY||Mean Difference (Net)|-1.94||||0.0235|TWO_SIDED|95.0|-3.62|-0.26|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2||-0.26|-3.62|0.0235
92163286|NCT00880048|184214849|SUPERIORITY||Mean Difference (Net)|-0.77||||0.3956|TWO_SIDED|95.0|-2.54|1.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4||1.01|-2.54|0.3956
92163287|NCT00880048|184214849|SUPERIORITY||Mean Difference (Net)|-0.73||||0.4273|TWO_SIDED|95.0|-2.53|1.07|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4||1.07|-2.53|0.4273
92163288|NCT00880048|184214849|SUPERIORITY||Mean Difference (Net)|-0.94||||0.3429|TWO_SIDED|95.0|-2.89|1.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6||1.01|-2.89|0.3429
92163289|NCT00880048|184214849|SUPERIORITY||Mean Difference (Net)|-1.19||||0.2403|TWO_SIDED|95.0|-3.18|0.8|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6||0.80|-3.18|0.2403
92163290|NCT00880048|184214850|SUPERIORITY||Mixed effects repeated measures model|22.52||||0.103|TWO_SIDED|95.0|-4.58|49.61|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1, total sleep time||49.61|-4.58|0.1030
92163291|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|33.21||||0.0179|TWO_SIDED|95.0|5.76|60.65|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1, total sleep time||60.65|5.76|0.0179
92163292|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|7.62||||0.5773|TWO_SIDED|95.0|-19.25|34.49|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2, total sleep time||34.49|-19.25|0.5773
92163293|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|21.4||||0.125|TWO_SIDED|95.0|-5.97|48.76|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2, total sleep time||48.76|-5.97|0.1250
92163294|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|30.87||||0.0344|TWO_SIDED|95.0|2.29|59.45|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4, total sleep time||59.45|2.29|0.0344
92163295|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|36.52||||0.0131|TWO_SIDED|95.0|7.72|65.32|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4, total sleep time||65.32|7.72|0.0131
92163296|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|2.18||||0.8794|TWO_SIDED|95.0|-26.1|30.46|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6, total sleep time||30.46|-26.10|0.8794
92163297|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|28.4||||0.0556|TWO_SIDED|95.0|-0.69|57.5|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6, total sleep time||57.50|-0.69|0.0556
92221612|NCT02831673|184343912|OTHER||Mean Difference (Net)|1.9|||||TWO_SIDED|95.0|-34.5|38.2|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||38.2|-34.5|
92221613|NCT02831673|184343912|OTHER||Mean Difference (Net)|40.1|||||TWO_SIDED|95.0|-31.2|111.5|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and HIV-1 RNA interaction.|||111.5|-31.2|
92221614|NCT02831673|184343912|OTHER||Mean Difference (Net)|-3.9|||||TWO_SIDED|95.0|-122.3|114.5|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||114.5|-122.3|
92221615|NCT02831673|184343912|OTHER||Mean Difference (Net)|10.8|||||TWO_SIDED|95.0|-22.9|44.5|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||44.5|-22.9|
92221616|NCT02831673|184343912|OTHER||Mean Difference (Net)|7.3|||||TWO_SIDED|95.0|-35.0|49.6|||||Age Group,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||49.6|-35.0|
92221617|NCT02831673|184343912|OTHER||Mean Difference (Net)|-2.5|||||TWO_SIDED|95.0|-60.7|55.7|||||Age Group,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||55.7|-60.7|
92221618|NCT02831673|184343912|OTHER||Mean Difference (Net)|41.6|||||TWO_SIDED|95.0|-61.2|144.5|||||Age\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||144.5|-61.2|
92221619|NCT02831673|184343912|OTHER||Mean Difference (Net)|18.8|||||TWO_SIDED|95.0|-64.2|101.8|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||101.8|-64.2|
92221620|NCT02831673|184343912|OTHER||Mean Difference (Net)|7.8|||||TWO_SIDED|95.0|-27.4|43.1|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||43.1|-27.4|
92221621|NCT02831673|184343912|OTHER||Mean Difference (Net)|15.2|||||TWO_SIDED|95.0|-23.6|54.0|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||54.0|-23.6|
92221622|NCT02831673|184343912|OTHER||Mean Difference (Net)|-1.7|||||TWO_SIDED|95.0|-106.3|103.0|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||103.0|-106.3|
92221623|NCT02831673|184343912|OTHER||Median Difference (Net)|-32.6|||||TWO_SIDED|95.0|-132.2|66.9|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||66.9|-132.2|
92221624|NCT02831673|184343912|OTHER||Mean Difference (Net)|26.1|||||TWO_SIDED|95.0|-77.3|129.5|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||129.5|-77.3|
92221625|NCT02831673|184343913|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-39.2|38.3|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||38.3|-39.2|
92221626|NCT02831673|184343913|OTHER||Mean Difference (Net)|4.7|||||TWO_SIDED|95.0|-69.4|78.8|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and Baseline plasma HIV-1 RNA interaction.|||78.8|-69.4|
92221627|NCT02831673|184343913|OTHER||Mean Difference (Net)|17.4|||||TWO_SIDED|95.0|-111.1|145.8|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||145.8|-111.1|
92221628|NCT02831673|184343913|OTHER||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-37.2|34.1|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||34.1|-37.2|
92221629|NCT02831673|184343913|OTHER||Mean Difference (Net)|-18.0|||||TWO_SIDED|95.0|-63.2|27.1|||||Age Group,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||27.1|-63.2|
92221630|NCT02831673|184343913|OTHER||Mean Difference (Net)|3.5|||||TWO_SIDED|95.0|-57.0|64.0|||||Age Group,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||64.0|-57.0|
92221631|NCT02831673|184343913|OTHER||Mean Difference (Net)|95.2|||||TWO_SIDED|95.0|-14.8|205.2|||||Age Group,\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||205.2|-14.8|
92221632|NCT02831673|184343913|OTHER||Mean Difference (Net)|24.9|||||TWO_SIDED|95.0|-62.5|112.3|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||112.3|-62.5|
92221633|NCT02831673|184343913|OTHER||Mean Difference (Net)|-4.2|||||TWO_SIDED|95.0|-41.5|33.1|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||33.1|-41.5|
92221634|NCT02831673|184343913|OTHER||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-40.6|41.1|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||41.1|-40.6|
92357230|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of Interlabial Sulci versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis?||||||0.1681|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Interlabial Sulci versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis.||||0.1681
92357231|NCT02732145|184619250|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of Labia Minora versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis?||||||0.8848|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Labia Minora versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis.||||0.8848
92357232|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Clitoris in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92163298|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-23.9||||0.0078|TWO_SIDED|95.0|-41.46|-6.33|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1, sleep onset latency||-6.33|-41.46|0.0078
92163299|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-25.49||||0.0052|TWO_SIDED|95.0|-43.3|-7.68|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1, sleep onset latency||-7.68|-43.30|0.0052
92163300|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-12.45||||0.2373|TWO_SIDED|95.0|-33.14|8.24|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2, sleep onset latency||8.24|-33.14|0.2373
92163301|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|1.75||||0.8707|TWO_SIDED|95.0|-19.38|22.87|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2, sleep onset latency||22.87|-19.38|0.8707
92163302|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-12.92||||0.1933|TWO_SIDED|95.0|-32.43|6.59|||Mixed Models Repeated Measures|||Placebo va GW823296 30 mg: Week 4, sleep onset latency||6.59|-32.43|0.1933
92163303|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-10.55||||0.2933|TWO_SIDED|95.0|-30.26|9.17|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4, sleep onset latency||9.17|-30.26|0.2933
92163304|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-28.58||||0.0177|TWO_SIDED|95.0|-52.15|-5.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6, sleep onset latency||-5.01|-52.15|0.0177
92163305|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-30.07||||0.0152|TWO_SIDED|95.0|-54.29|-5.84|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6, sleep onset latency||-5.84|-54.29|0.0152
92163306|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-17.19||||0.0108|TWO_SIDED|95.0|-30.36|-4.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1, wake time after sleep onset||-4.01|-30.36|0.0108
92163307|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-16.15||||0.019|TWO_SIDED|95.0|-29.61|-2.68|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1, wake time after sleep onset||-2.68|-29.61|0.0190
92163308|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|1.89||||0.8195|TWO_SIDED|95.0|-14.43|18.21|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2, wake time after sleep onset||18.21|-14.43|0.8195
92163309|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|5.27||||0.5327|TWO_SIDED|95.0|-11.35|21.89|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2, wake time after sleep onset||21.89|-11.35|0.5327
92163310|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-2.5||||0.7387|TWO_SIDED|95.0|-17.24|12.25|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4, wake time after sleep onset||12.25|-17.24|0.7387
92163311|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-9.44||||0.2134|TWO_SIDED|95.0|-24.35|5.48|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4, wake time after sleep onset||5.48|-24.35|0.2134
92163312|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-14.51||||0.1561|TWO_SIDED|95.0|-34.61|5.6|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6, wake time after sleep onset||5.60|-34.61|0.1561
92163313|NCT00880048|184214850|SUPERIORITY||Mean Difference (Net)|-17.1||||0.1054|TWO_SIDED|95.0|-37.84|3.64|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6, wake time after sleep onset||3.64|-37.84|0.1054
92163314|NCT00880048|184214851|SUPERIORITY||Mean Difference (Net)|-0.57||||0.0024|TWO_SIDED|95.0|-0.94|-0.21|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1||-0.21|-0.94|0.0024
92163315|NCT00880048|184214851|SUPERIORITY||Mean Difference (Net)|-0.1||||0.6146|TWO_SIDED|95.0|-0.47|0.28|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1||0.28|-0.47|0.6146
92163316|NCT00880048|184214851|SUPERIORITY||Mean Difference (Net)|-0.25||||0.1442|TWO_SIDED|95.0|-0.59|0.09|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2||0.09|-0.59|0.1442
92163317|NCT00880048|184214851|SUPERIORITY||Mean Difference (Net)|0.04||||0.8001|TWO_SIDED|95.0|-0.3|0.39|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2||0.39|-0.30|0.8001
92163318|NCT00880048|184214851|SUPERIORITY||Mean Difference (Net)|-0.05||||0.8439|TWO_SIDED|95.0|-0.55|0.45|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4||0.45|-0.55|0.8439
92163319|NCT00880048|184214851|SUPERIORITY||Mean Difference (Net)|-0.4||||0.1259|TWO_SIDED|95.0|-0.91|0.11|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4||0.11|-0.91|0.1259
92163320|NCT00880048|184214851|SUPERIORITY||Mean Difference (Net)|0.2||||0.3709|TWO_SIDED|95.0|-0.24|0.64|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6||0.64|-0.24|0.3709
92163321|NCT00880048|184214851|SUPERIORITY||Mean Difference (Net)|-0.24||||0.2993|TWO_SIDED|95.0|-0.7|0.22|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6||0.22|-0.70|0.2993
92163322|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.59||||0.0344|TWO_SIDED|95.0|0.04|1.14|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1, sleep quality||1.14|0.04|0.0344
92163323|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.72||||0.0111|TWO_SIDED|95.0|0.17|1.27|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1, sleep quality||1.27|0.17|0.0111
92163324|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.42||||0.1443|TWO_SIDED|95.0|-0.15|0.99|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2, sleep quality||0.99|-0.15|0.1443
92221635|NCT02831673|184343913|OTHER||Mean Difference (Net)|-51.3|||||TWO_SIDED|95.0|-163.6|60.9|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||60.9|-163.6|
92221636|NCT02831673|184343913|OTHER||Median Difference (Net)|-20.1|||||TWO_SIDED|95.0|-125.3|85.0|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction|||85.0|-125.3|
92221637|NCT02831673|184343913|OTHER||Mean Difference (Net)|66.2|||||TWO_SIDED|95.0|-43.7|176.2|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||176.2|-43.7|
92221638|NCT02831673|184343914|OTHER||Mean Difference (Net)|0.0052||||0.302|TWO_SIDED|95.0|-0.0047|0.0152|||MMRM||Week 4. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count (factor), and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit with visit as the repeated factor|||0.0152|-0.0047|0.302
92357233|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Hart's Line in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
92357234|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Urethral Sulcus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92357235|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Meatus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Urethral meatus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92401433|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.715|TWO_SIDED|95.0|-0.51|0.35||P-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.35|-0.51|0.715
92221639|NCT02831673|184343914|OTHER||Mean Difference (Net)|-0.0038||||0.45|TWO_SIDED|95.0|-0.0136|0.006|||MMRM||Week24. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count (factor), and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit with visit as the repeated factor|||0.0060|-0.0136|0.450
92221640|NCT02831673|184343914|OTHER||Mean Difference (Net)|0.0004||||0.934|TWO_SIDED|95.0|-0.0098|0.0106|||MMRM||Week48. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count (factor), and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit with visit as the repeated factor|||0.0106|-0.0098|0.934
92221641|NCT02831673|184343915|OTHER||Mean Difference (Net)|-0.0012||||0.842|TWO_SIDED|95.0|-0.0132|0.0107|||MMRM||Week 96. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count, and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0107|-0.0132|0.842
92221642|NCT02831673|184343916|OTHER||Mean Difference (Net)|0.0008||||0.879|TWO_SIDED|95.0|-0.0097|0.0113|||MMRM||Week 144. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count, and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0113|-0.0097|0.879
92221643|NCT02831673|184343917|OTHER||Mean Difference (Net)|1.1||||0.137|TWO_SIDED|95.0|-0.3|2.4|||MMRM||Week 4. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA (factor),Baseline CD4+ cell count (factor), Baseline EQ-5D thermometer, treatment\*visit and Baseline EQ-5D thermometer\*visit with visit as the repeated factor|||2.4|-0.3|0.137
92221644|NCT02831673|184343917|OTHER||Mean Difference (Net)|0.6||||0.458|TWO_SIDED|95.0|-0.9|2.0|||MMRM||Week24. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA (factor),Baseline CD4+ cell count (factor), Baseline EQ-5D thermometer, treatment\*visit and Baseline EQ-5D thermometer\*visit with visit as the repeated factor|||2.0|-0.9|0.458
92221645|NCT02831673|184343917|OTHER||Mean Difference (Net)|1.5||||0.031|TWO_SIDED|95.0|0.1|2.8|||MMRM||Week48. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA (factor),Baseline CD4+ cell count (factor), Baseline EQ-5D thermometer, treatment\*visit and Baseline EQ-5D thermometer\*visit with visit as the repeated factor|||2.8|0.1|0.031
92221646|NCT02831673|184343918|OTHER||Mean Difference (Net)|1.7||||0.027|TWO_SIDED|95.0|0.2|3.2|||MMRM||Week 96. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||3.2|0.2|0.027
92221647|NCT02831673|184343919|OTHER||Mean Difference (Net)|2.3||||0.001|TWO_SIDED|95.0|0.9|3.6|||MMRM||Week 144. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||3.6|0.9|0.001
92221648|NCT01500278|184343930|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||=|0.467|TWO_SIDED|95.0|0.67|1.2||The odds ratio, CI, and p-value are from a logistic regression model with RTG, gender, Baseline duration of RA (\<2 years or \>=2 years), and geographic region as factors and age as a covariate.|Regression, Logistic|||||1.20|0.67|=0.467
92401434|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.641|TWO_SIDED|95.0|-0.32|0.52||P-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.52|-0.32|0.641
92401435|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.767|TWO_SIDED|95.0|-0.64|0.47||P-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.47|-0.64|0.767
92401436|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.881|TWO_SIDED|95.0|-0.61|0.52||P-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.52|-0.61|0.881
92401437|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.885|TWO_SIDED|95.0|-0.51|0.59||p-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.59|-0.51|0.885
92163325|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.5||||0.0873|TWO_SIDED|95.0|-0.07|1.08|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2, sleep quality||1.08|-0.07|0.0873
92163326|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.73||||0.017|TWO_SIDED|95.0|0.13|1.33|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4, sleep quality||1.33|0.13|0.0170
92163327|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.42||||0.1675|TWO_SIDED|95.0|-0.18|1.02|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4, sleep quality||1.02|-0.18|0.1675
92163328|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.56||||0.0956|TWO_SIDED|95.0|-0.1|1.23|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6, sleep quality||1.23|-0.10|0.0956
92163329|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.32||||0.3503|TWO_SIDED|95.0|-0.35|1.0|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6, sleep quality||1.00|-0.35|0.3503
92163330|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.34||||0.2147|TWO_SIDED|95.0|-0.2|0.88|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1, refreshing value of sleep||0.88|-0.20|0.2147
92163331|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.63||||0.0233|TWO_SIDED|95.0|0.09|1.17|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1, refreshing value of sleep||1.17|0.09|0.0233
92163332|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.33||||0.2404|TWO_SIDED|95.0|-0.22|0.89|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2, refreshing value of sleep||0.89|-0.22|0.2404
92163333|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.65||||0.0247|TWO_SIDED|95.0|0.08|1.22|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2, refreshing value of sleep||1.22|0.08|0.0247
92163334|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.69||||0.0271|TWO_SIDED|95.0|0.08|1.29|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4, refreshing value of sleep||1.29|0.08|0.0271
92163335|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.39||||0.2129|TWO_SIDED|95.0|-0.22|1.0|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4, refreshing value of sleep||1.00|-0.22|0.2129
92163336|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.37||||0.2874|TWO_SIDED|95.0|-0.31|1.06|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6, refreshing value of sleep||1.06|-0.31|0.2874
92163337|NCT00880048|184214852|SUPERIORITY||Mean Difference (Net)|0.71||||0.0472|TWO_SIDED|95.0|0.01|1.41|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6, refreshing value of sleep||1.41|0.01|0.0472
92163338|NCT00880048|184214853|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9824|TWO_SIDED|95.0|0.13|7.09|||Regression, Logistic|||Placebo vs GW823296 30 mg: Week 1||7.09|0.13|0.9824
92163339|NCT00880048|184214853|SUPERIORITY||Odds Ratio (OR)|0.54||||0.6227|TWO_SIDED|95.0|0.05|6.13|||Regression, Logistic|||Placebo vs GW823296 60 mg: Week 1||6.13|0.05|0.6227
92163340|NCT00880048|184214853|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9967|TWO_SIDED|95.0|0.2|5.07|||Regression, Logistic|||Placebo vs GW823296 30 mg: Week 2||5.07|0.20|0.9967
92163341|NCT00880048|184214853|SUPERIORITY||Odds Ratio (OR)|2.0||||0.355|TWO_SIDED|95.0|0.46|8.63|||Regression, Logistic|||Placebo vs GW823296 60 mg: Week 2||8.63|0.46|0.3550
92163342|NCT00880048|184214853|SUPERIORITY||Odds Ratio (OR)|2.35||||0.1009|TWO_SIDED|95.0|0.85|6.49|||Regression, Logistic|||Placebo vs GW823296 30 mg: Week 4||6.49|0.85|0.1009
92401438|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.325|TWO_SIDED|95.0|-0.96|0.32||P-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.32|-0.96|0.325
92163343|NCT00880048|184214853|SUPERIORITY||Odds Ratio (OR)|2.8||||0.0455|TWO_SIDED|95.0|1.02|7.68|||Regression, Logistic|||Placebo vs GW823296 60 mg: Week 4||7.68|1.02|0.0455
92221649|NCT01500278|184343931|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09|||=|0.532|TWO_SIDED|95.0|0.82|1.45||The odds ratio, CI and p-value are from a logistic regression model with RTG, gender, Baseline duration of RA (\<2 years or \>=2 years), and geographic region as factors and Baseline DAS28(ESR) and age as covariates.|Regression, Logistic|||||1.45|0.82|=0.532
92221650|NCT00143312|184343942|SUPERIORITY_OR_OTHER||Crude IFI Rate (percent) at 12 months|7.0||||||95.0|2.0|19.0||||||||19|2|
92221651|NCT00143312|184343942|SUPERIORITY_OR_OTHER||IFI Rate (percent) at 12 months|10.0||||||95.0|2.0|27.0||||||||27|2|
92221652|NCT00143312|184343943|SUPERIORITY_OR_OTHER||IFI Rate (percent) at 6 months|8.82||||||95.0|2.0|24.0|||||Exact 95% Confidence Interval For Proportion; Expressed as a percentage|||24|2|
92221653|NCT00143312|184343944|SUPERIORITY_OR_OTHER||IFI Rate (percent) at End of Prophylaxis|8.82||||||95.0|2.0|24.0|||||Exact 95% Confidence Interval For Proportion; Expressed as a percentage|||24|2|
92221654|NCT00143312|184343948|SUPERIORITY_OR_OTHER||survive free of IFI (percent): 6 months|79.0||||||95.0|64.0|91.0|||||Exact 95% Confidence Interval For Proportion; Expressed as a percentage|||91|64|
92221655|NCT00143312|184343948|SUPERIORITY_OR_OTHER||survive free of IFI (percent): 12 months|69.0||||||95.0|52.0|83.0|||||Exact 95% Confidence Interval For Proportion; Expressed as a percentage|||83|52|
92221656|NCT04770389|184343970|SUPERIORITY||Least Squares (LS) Mean|-44.92|STANDARD_ERROR_OF_MEAN|5.183|<|0.0001|TWO_SIDED|95.0|-55.2|-34.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-34.63|-55.20|<0.0001
92221657|NCT04770389|184343971|SUPERIORITY||Least Squares (LS) Mean|-44.92|STANDARD_ERROR_OF_MEAN|5.183|<|0.0001|TWO_SIDED|95.0|-55.2|-34.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-34.63|-55.20|<0.0001
92357236|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of Hymenal Remnants among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Hymenal Remnants in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92163344|NCT00880048|184214853|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0507|TWO_SIDED|95.0|1.0|5.32|||Regression, Logistic|||Placebo vs GW823296 30 mg: Week 6||5.32|1.00|0.0507
92163345|NCT00880048|184214853|SUPERIORITY||Odds Ratio (OR)|1.38||||0.4962|TWO_SIDED|95.0|0.55|3.45|||Regression, Logistic|||Placebo vs GW823296 60 mg: Week 6||3.45|0.55|0.4962
92221658|NCT04770389|184343972|SUPERIORITY||Least Squares (LS) Mean|-44.92|STANDARD_ERROR_OF_MEAN|5.183|<|0.0001|TWO_SIDED|95.0|-55.2|-34.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-34.63|-55.20|<0.0001
92221659|NCT04770389|184343973|SUPERIORITY||Least Squares (LS) Mean|-43.33|STANDARD_ERROR_OF_MEAN|5.517|<|0.0001|TWO_SIDED|95.0|-54.29|-32.36|||ANCOVA|||||-32.36|-54.29|<0.0001
92221660|NCT04770389|184343974|SUPERIORITY||Least Squares (LS) Mean|-43.33|STANDARD_ERROR_OF_MEAN|5.517|<|0.0001|TWO_SIDED|95.0|-54.29|-32.36|||ANCOVA|||||-32.36|-54.29|<0.0001
92221661|NCT04770389|184343975|SUPERIORITY||Least Squares (LS) Mean|-43.33|STANDARD_ERROR_OF_MEAN|5.517|<|0.0001|TWO_SIDED|95.0|-54.29|-32.36|||ANCOVA|||||-32.36|-54.29|<0.0001
92221662|NCT04770389|184343976|SUPERIORITY||Least Squares (LS) Means|-33.36|STANDARD_ERROR_OF_MEAN|5.176|<|0.0001|TWO_SIDED|95.0|-43.63|-23.09|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-23.09|-43.63|<0.0001
92357237|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of Bartholin's Gland Opening among the patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Bartholin's Gland Opening in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92357238|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of the Vestibule among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Vestibule in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92357239|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of the Clitoris among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Clitoris in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92357240|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of Hart's Line among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Hart's Line in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92163346|NCT00880048|184214856|SUPERIORITY||Mean Difference (Net)|1.03||||0.3241|TWO_SIDED|95.0|-1.03|3.1|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1||3.10|-1.03|0.3241
92163347|NCT00880048|184214856|SUPERIORITY||Mean Difference (Net)|-0.56||||0.602|TWO_SIDED|95.0|-2.66|1.55|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1||1.55|-2.66|0.6020
92163348|NCT00880048|184214856|SUPERIORITY||Mean Difference (Net)|2.44||||0.0594|TWO_SIDED|95.0|-0.1|4.99|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2||4.99|-0.10|0.0594
92221663|NCT04770389|184343977|SUPERIORITY||Least Squares (LS) Mean|-33.36|STANDARD_ERROR_OF_MEAN|5.176|<|0.0001|TWO_SIDED|95.0|-43.63|-23.09|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-23.09|-43.63|<0.0001
92221664|NCT04770389|184343978|SUPERIORITY||Least Squares (LS) Mean|-33.36|STANDARD_ERROR_OF_MEAN|5.176|<|0.0001|TWO_SIDED|95.0|-43.63|-23.09|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-23.09|-43.63|<0.0001
92357241|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of the Urethral Sulcus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Urethral Sulcus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92357242|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of the Urethral Meatus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Urethral Meatus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92357243|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of Hymenal Remnants among patients from different groups?||||||0.0001|||||||Chi-squared|||"Parameter: The incidence of erythema of Hymenal Remnants in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0001
92163349|NCT00880048|184214856|SUPERIORITY||Mean Difference (Net)|0.92||||0.4828|TWO_SIDED|95.0|-1.67|3.5|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2||3.50|-1.67|0.4828
92163350|NCT00880048|184214856|SUPERIORITY||Mean Difference (Net)|0.19||||0.9008|TWO_SIDED|95.0|-2.8|3.18|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4||3.18|-2.80|0.9008
92163351|NCT00880048|184214856|SUPERIORITY||Mean Difference (Net)|-0.71||||0.6428|TWO_SIDED|95.0|-3.74|2.32|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4||2.32|-3.74|0.6428
92163352|NCT00880048|184214856|SUPERIORITY||Mean Difference (Net)|-0.68||||0.6911|TWO_SIDED|95.0|-4.06|2.7|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6||2.70|-4.06|0.6911
92163353|NCT00880048|184214856|SUPERIORITY||Odds Ratio (OR)|-0.67||||0.7026|TWO_SIDED|95.0|-4.14|2.8|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6||2.80|-4.14|0.7026
92163354|NCT00880048|184214857|SUPERIORITY||Mean Difference (Net)|-0.97||||0.1301|TWO_SIDED|95.0|-2.24|0.29|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1||0.29|-2.24|0.1301
92163355|NCT00880048|184214857|SUPERIORITY||Mean Difference (Net)|0.47||||0.4644|TWO_SIDED|95.0|-0.79|1.73|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1||1.73|-0.79|0.4644
92163356|NCT00880048|184214857|SUPERIORITY||Mean Difference (Net)|-0.76||||0.3382|TWO_SIDED|95.0|-2.33|0.8|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2||0.80|-2.33|0.3382
92163357|NCT00880048|184214857|SUPERIORITY||Mean Difference (Net)|0.94||||0.241|TWO_SIDED|95.0|-0.63|2.51|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2||2.51|-0.63|0.2410
92221665|NCT04770389|184343979|SUPERIORITY||Least Squares (LS) Mean|-28.2|STANDARD_ERROR_OF_MEAN|5.596|<|0.0001|TWO_SIDED|95.0|-39.32|-17.08|||ANCOVA|||||-17.08|-39.32|<0.0001
92221666|NCT04770389|184343980|SUPERIORITY||Least Squares (LS) Mean|-28.2|STANDARD_ERROR_OF_MEAN|5.596|<|0.0001|TWO_SIDED|95.0|-39.32|-17.08|||ANCOVA|||||-17.08|-39.32|<0.0001
92221667|NCT04770389|184343981|SUPERIORITY||Least Squares (LS) Mean|-28.2|STANDARD_ERROR_OF_MEAN|5.596|<|0.0001|TWO_SIDED|95.0|-39.32|-17.08|||ANCOVA|||||-17.08|-39.32|<0.0001
92221668|NCT04770389|184343982|SUPERIORITY||Least Squares (LS) Means|-29.62|STANDARD_ERROR_OF_MEAN|3.78|<|0.0001|TWO_SIDED|95.0|-37.12|-22.12|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.12|-37.12|<0.0001
92163358|NCT00880048|184214857|SUPERIORITY||Mean Difference (Net)|-0.98||||0.2768|TWO_SIDED|95.0|-2.75|0.79|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4||0.79|-2.75|0.2768
92163359|NCT00880048|184214857|SUPERIORITY||Mean Difference (Net)|0.06||||0.9434|TWO_SIDED|95.0|-1.7|1.83|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4||1.83|-1.70|0.9434
92163360|NCT00880048|184214857|SUPERIORITY||Mean Difference (Net)|-0.55||||0.5796|TWO_SIDED|95.0|-2.49|1.4|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6||1.40|-2.49|0.5796
92163361|NCT00880048|184214857|SUPERIORITY||Mean Difference (Net)|0.71||||0.4753|TWO_SIDED|95.0|-1.24|2.66|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6||2.66|-1.24|0.4753
92163362|NCT02914522|184214858|SUPERIORITY||Difference in Percentages|10.8||||0.0157|TWO_SIDED|95.0|2.1|19.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH) test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and immunomodulators (Yes/No) at Day 1.||||19.5|2.1|0.0157
92163363|NCT02914522|184214858|SUPERIORITY||Difference in Percentages|3.8||||0.3379|TWO_SIDED|95.0|-4.3|12.0|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||12.0|-4.3|0.3379
92163364|NCT02914522|184214858|SUPERIORITY||Difference in Percentages|7.2||||0.0103|TWO_SIDED|95.0|1.6|12.8|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||12.8|1.6|0.0103
92163365|NCT02914522|184214858|SUPERIORITY||Difference in Percentages|5.2||||0.0645|TWO_SIDED|95.0|0.0|10.5|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||10.5|-0.0|0.0645
92163366|NCT02914522|184214859|SUPERIORITY||Difference in Percentages|26.0|||<|0.0001|TWO_SIDED|95.0|16.0|35.9|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||35.9|16.0|< 0.0001
92163367|NCT02914522|184214859|SUPERIORITY||Difference in Percentages|10.4||||0.042|TWO_SIDED|95.0|0.0|20.7|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||20.7|-0.0|0.0420
92163368|NCT02914522|184214860|SUPERIORITY||Difference in Percentages|12.1||||0.0053|TWO_SIDED|95.0|3.8|20.4|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||20.4|3.8|0.0053
92221669|NCT04770389|184343983|SUPERIORITY||Least Squares (LS) Mean|-29.62|STANDARD_ERROR_OF_MEAN|3.78|<|0.0001|TWO_SIDED|95.0|-37.12|-22.12|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.12|-37.12|<0.0001
92221670|NCT04770389|184343984|SUPERIORITY||Least Squares (LS) Means|-29.62|STANDARD_ERROR_OF_MEAN|3.78|<|0.0001|TWO_SIDED|95.0|-37.12|-22.12|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.12|-37.12|<0.0001
92221671|NCT04770389|184343985|SUPERIORITY||Least Squares (LS) Mean|-22.36|STANDARD_ERROR_OF_MEAN|3.768|<|0.0001|TWO_SIDED|95.0|-29.83|-14.88|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.88|-29.83|<0.0001
92221672|NCT04770389|184343986|SUPERIORITY||Least Squares (LS) Mean|-22.36|STANDARD_ERROR_OF_MEAN|3.768|<|0.0001|TWO_SIDED|95.0|-29.83|-14.88|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.88|-29.83|<0.0001
92221673|NCT04770389|184343987|SUPERIORITY||Least Squares (LS) Mean|-22.36|STANDARD_ERROR_OF_MEAN|3.768|<|0.0001|TWO_SIDED|95.0|-29.83|-14.88|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.88|-29.83|<0.0001
92221674|NCT04770389|184343988|SUPERIORITY||Least Squares (LS) Means|-30.13|STANDARD_ERROR_OF_MEAN|5.254|<|0.0001|TWO_SIDED|95.0|-40.55|-19.71|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.71|-40.55|<0.0001
92221675|NCT04770389|184343989|SUPERIORITY||Least Squares (LS) Mean|-30.13|STANDARD_ERROR_OF_MEAN|5.254|<|0.0001|TWO_SIDED|95.0|-40.55|-19.71|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.71|-40.55|<0.0001
92221676|NCT04770389|184343990|SUPERIORITY||Least Squares (LS) Mean|-30.13|STANDARD_ERROR_OF_MEAN|5.254|<|0.0001|TWO_SIDED|95.0|-40.55|-19.71|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.71|-40.55|<0.0001
92221677|NCT04770389|184343991|SUPERIORITY||Least Squares (LS) Means|-18.58|STANDARD_ERROR_OF_MEAN|5.196||0.0005|TWO_SIDED|95.0|-28.88|-8.27|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-8.27|-28.88|0.0005
92221678|NCT04770389|184343992|SUPERIORITY||Least Squares (LS) Mean|-18.58|STANDARD_ERROR_OF_MEAN|5.196||0.0005|TWO_SIDED|95.0|-28.88|-8.27|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-8.27|-28.88|0.0005
92221679|NCT04770389|184343993|SUPERIORITY||Least Squares (LS) Mean|-18.58|STANDARD_ERROR_OF_MEAN|5.196||0.0005|TWO_SIDED|95.0|-28.88|-8.27|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-8.27|-28.88|0.0005
92221680|NCT04770389|184343994|SUPERIORITY||Least Squares (LS) Means|-14.79|STANDARD_ERROR_OF_MEAN|5.165||0.0051|TWO_SIDED|95.0|-25.03|-4.54|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-4.54|-25.03|0.0051
92221681|NCT04770389|184343995|SUPERIORITY||Least Squares (LS) Mean|-14.79|STANDARD_ERROR_OF_MEAN|5.165||0.0051|TWO_SIDED|95.0|-25.03|-4.54|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-4.54|-25.03|0.0051
92221682|NCT04770389|184343996|SUPERIORITY||Least Squares (LS) Mean|-14.79|STANDARD_ERROR_OF_MEAN|5.165||0.0051|TWO_SIDED|95.0|-25.03|-4.54|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-4.54|-25.03|0.0051
92221683|NCT04770389|184343997|SUPERIORITY||Least Squares (LS) Mean|-12.77|STANDARD_ERROR_OF_MEAN|5.58||0.0245|TWO_SIDED|95.0|-23.86|-1.68|||ANCOVA|||||-1.68|-23.86|0.0245
92221684|NCT04770389|184343998|SUPERIORITY||Least Squares (LS) Mean|-12.77|STANDARD_ERROR_OF_MEAN|5.58||0.0245|TWO_SIDED|95.0|-23.86|-1.68|||ANCOVA|||||-1.68|-23.86|0.0245
92221685|NCT04770389|184343999|SUPERIORITY||Least Squares (LS) Mean|-12.77|STANDARD_ERROR_OF_MEAN|5.58||0.0245|TWO_SIDED|95.0|-23.86|-1.68|||ANCOVA|||||-1.68|-23.86|0.0245
92221686|NCT04770389|184344000|SUPERIORITY||Least Squares (LS) Mean|-20.81|STANDARD_ERROR_OF_MEAN|3.822|<|0.0001|TWO_SIDED|95.0|-28.39|-13.22|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-13.22|-28.39|<0.0001
92221687|NCT04770389|184344001|SUPERIORITY||Least Squares (LS) Mean|-20.81|STANDARD_ERROR_OF_MEAN|3.822|<|0.0001|TWO_SIDED|95.0|-28.39|-13.22|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-13.22|-28.39|<0.0001
92221688|NCT04770389|184344002|SUPERIORITY||Least Squares (LS) Mean|-20.81|STANDARD_ERROR_OF_MEAN|3.822|<|0.0001|TWO_SIDED|95.0|-28.39|-13.22|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-13.22|-28.39|<0.0001
92221689|NCT03817775|184344013|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92221690|NCT03817775|184344014|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92221691|NCT03817775|184344015|OTHER|||||||0.7215|||||||Wilcoxon (Mann-Whitney)|||||||0.7215
92221692|NCT03817775|184344016|OTHER|||||||0.5675|||||||Wilcoxon (Mann-Whitney)|||||||0.5675
92221693|NCT03817775|184344017|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92221694|NCT02970292|184344023|SUPERIORITY||Difference in MMRM LSMs|-2.1|STANDARD_ERROR_OF_MEAN|1.24||0.094|TWO_SIDED|95.0|-4.5|0.4|||mixed-effects model for repeated measure|||||0.4|-4.5|0.0940
92221695|NCT00531752|184344049|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.7947|STANDARD_ERROR_OF_MEAN|1.8848||0.6749|TWO_SIDED|80.0|-1.649|3.2383||P-values are not adjusted for multiple comparisons.|Mixed Models Analysis||Positive value for the LS mean difference indicates the estimate favors placebo.|Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.2383|-1.649|0.6749
92221696|NCT00531752|184344049|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4176|STANDARD_ERROR_OF_MEAN|2.0343||0.4886|TWO_SIDED|80.0|-1.218|4.0533||P-values are not adjusted for multiple comparisons.|Mixed Models Analysis||Positive value for the LS mean difference indicates the estimate favors placebo.|Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.0533|-1.218|0.4886
92221697|NCT00531752|184344050|SUPERIORITY_OR_OTHER||LS Mean Difference|1.025|STANDARD_ERROR_OF_MEAN|1.7713||0.5643|TWO_SIDED|80.0|-1.262|3.3121|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.3121|-1.262|0.5643
92221698|NCT00531752|184344050|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9146|STANDARD_ERROR_OF_MEAN|1.8777||0.3107|TWO_SIDED|80.0|-0.51|4.3392|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.3392|-0.5100|0.3107
92221699|NCT00531752|184344050|SUPERIORITY_OR_OTHER||LS Mean Difference|2.3154|STANDARD_ERROR_OF_MEAN|1.4638||0.1196|TWO_SIDED|80.0|0.41601|4.2148|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.2148|0.41601|0.1196
92221700|NCT00531752|184344050|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3288|STANDARD_ERROR_OF_MEAN|1.524||0.3872|TWO_SIDED|80.0|-0.649|3.3065|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.3065|-0.6490|0.3872
92221701|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1677|STANDARD_ERROR_OF_MEAN|1.0269||0.8708|TWO_SIDED|80.0|-1.162|1.4971|||Mixed Models Analysis|||Week 1 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.4971|-1.162|0.8708
92221702|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8607|STANDARD_ERROR_OF_MEAN|1.0912||0.0927|TWO_SIDED|80.0|0.44874|3.2726|||Mixed Models Analysis|||Week 1 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.2726|0.44874|0.0927
92221703|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|0.866|STANDARD_ERROR_OF_MEAN|0.9037||0.3405|TWO_SIDED|80.0|-0.3008|2.0329|||Mixed Models Analysis|||Week 1 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.0329|-0.3008|0.3405
92276556|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0287|TWO_SIDED|95.0|-0.27|-0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.02|-0.27|0.0287
92276557|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0071|TWO_SIDED|95.0|-0.32|-0.05|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.05|-0.32|0.0071
92276558|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.2503|TWO_SIDED|95.0|-0.22|-0.06|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.06|-0.22|0.2503
92276559|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.0539|TWO_SIDED|95.0|-0.3|0.0|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0|-0.3|0.0539
92276560|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.0398|TWO_SIDED|95.0|-0.31|-0.01|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.01|-0.31|0.0398
92276561|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.1168|TWO_SIDED|95.0|-0.3|0.03|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.03|-0.3|0.1168
92221704|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1623|STANDARD_ERROR_OF_MEAN|0.9622||0.8665|TWO_SIDED|80.0|-1.08|1.4047|||Mixed Models Analysis|||Week 1 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.4047|-1.080|0.8665
92221705|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3886|STANDARD_ERROR_OF_MEAN|0.9694||0.6901|TWO_SIDED|80.0|-0.8694|1.6466|||Mixed Models Analysis|||Week 2 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.6466|-0.8694|0.6901
92276562|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.0621|TWO_SIDED|95.0|-0.32|0.01|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.01|-0.32|0.0621
92276563|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.089|TWO_SIDED|95.0|-0.32|0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.02|-0.32|0.089
92276564|NCT01360632|184454753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0213|TWO_SIDED|95.0|-0.38|-0.03|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.03|-0.38|0.0213
92221706|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3779|STANDARD_ERROR_OF_MEAN|1.0114||0.179|TWO_SIDED|80.0|0.06498|2.6908|||Mixed Models Analysis|||Week 2 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.6908|0.06498|0.1790
92221707|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8759|STANDARD_ERROR_OF_MEAN|0.7508||0.0156|TWO_SIDED|80.0|0.90156|2.8502|||Mixed Models Analysis|||Week 2 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.8502|0.90156|0.0156
92221708|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04217|STANDARD_ERROR_OF_MEAN|0.7842||0.9573|TWO_SIDED|80.0|-1.06|0.97559|||Mixed Models Analysis|||Week 2 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.97559|-1.060|0.9573
92221709|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1602|STANDARD_ERROR_OF_MEAN|1.2517||0.8986|TWO_SIDED|80.0|-1.462|1.782|||Mixed Models Analysis|||Week 3 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.7820|-1.462|0.8986
92221710|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6688|STANDARD_ERROR_OF_MEAN|1.3437||0.6204|TWO_SIDED|80.0|-1.071|2.4086|||Mixed Models Analysis|||Week 3 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.4086|-1.071|0.6204
92221711|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|0.492|STANDARD_ERROR_OF_MEAN|0.8742||0.5759|TWO_SIDED|80.0|-0.6421|1.6261|||Mixed Models Analysis|||Week 3 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.6261|-0.6421|0.5759
92221712|NCT00531752|184344055|SUPERIORITY_OR_OTHER||LS Mean Difference|0.875|STANDARD_ERROR_OF_MEAN|0.9488||0.3603|TWO_SIDED|80.0|-0.3552|2.1051|||Mixed Models Analysis|||Week 3 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.1051|-0.3552|0.3603
92221713|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5306|STANDARD_ERROR_OF_MEAN|1.6664||0.0392|TWO_SIDED|80.0|1.3659|5.6952|||Mixed Models Analysis|||Day 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.6952|1.3659|0.0392
92221714|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9344|STANDARD_ERROR_OF_MEAN|1.7848||0.0003|TWO_SIDED|80.0|4.6177|9.2512|||Mixed Models Analysis|||Day 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||9.2512|4.6177|0.0003
92221715|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2888|STANDARD_ERROR_OF_MEAN|2.1861||0.0547|TWO_SIDED|80.0|1.4544|7.1232|||Mixed Models Analysis|||Day 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.1232|1.4544|0.0547
92221716|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|5.6799|STANDARD_ERROR_OF_MEAN|2.3261||0.0176|TWO_SIDED|80.0|2.6655|8.6943|||Mixed Models Analysis|||Day 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||8.6943|2.6655|0.0176
92221717|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7203|STANDARD_ERROR_OF_MEAN|2.5085||0.775|TWO_SIDED|80.0|-2.53|3.9704|||Mixed Models Analysis|||Day 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.9704|-2.530|0.7750
92221718|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04276|STANDARD_ERROR_OF_MEAN|2.6874||0.9874|TWO_SIDED|80.0|-3.521|3.4357|||Mixed Models Analysis|||Day 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.4357|-3.521|0.9874
92221719|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6252|STANDARD_ERROR_OF_MEAN|2.2268||0.7799|TWO_SIDED|80.0|-3.513|2.2629|||Mixed Models Analysis|||Day 4: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.2629|-3.513|0.7799
92357244|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of Bartholin's Gland Opening among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Bartholin's Gland Opening in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92163369|NCT02914522|184214860|SUPERIORITY||Difference in Percentages|4.6||||0.2295|TWO_SIDED|95.0|-3.1|12.2|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||12.2|-3.1|0.2295
92163370|NCT02914522|184214860|SUPERIORITY||Difference in Percentages|5.3||||0.0393|TWO_SIDED|95.0|-0.1|10.7|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||10.7|-0.1|0.0393
92163371|NCT02914522|184214860|SUPERIORITY||Difference in Percentages|1.7||||0.5308|TWO_SIDED|95.0|-3.1|6.6|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||6.6|-3.1|0.5308
92221720|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1136|STANDARD_ERROR_OF_MEAN|2.3365||0.1881|TWO_SIDED|80.0|0.08338|6.1438|||Mixed Models Analysis|||Day 4: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.1438|0.08338|0.1881
92357245|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of the Vestibule among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Vestibule in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92357246|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of smoothness of the Clitoris among patients from different groups?||||||0.0023|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Clitoris in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0023
92357247|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of smoothness of the Urethral Sulcus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Urethral Sulcus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92357248|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of smoothness of the Urethral Meatus among patients from different groups?||||||0.0235|||||||Chi-squared|||"Parameter: The incidence of smoothness of Urethral Meatus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0235
92163372|NCT02914522|184214861|SUPERIORITY||Difference in Percentages|8.6||||0.0047|TWO_SIDED|95.0|2.9|14.3|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||14.3|2.9|0.0047
92163373|NCT02914522|184214861|SUPERIORITY||Difference in Percentages|2.1||||0.3495|TWO_SIDED|95.0|-2.6|6.8|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||6.8|-2.6|0.3495
92163374|NCT02914522|184214861|SUPERIORITY||Difference in Percentages|1.3||||0.4269|TWO_SIDED|95.0|-2.5|5.1|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||5.1|-2.5|0.4269
92163375|NCT02914522|184214861|SUPERIORITY||Difference in Percentages|0.0||||0.9987|TWO_SIDED|95.0|-3.4|3.4|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||3.4|-3.4|0.9987
92163376|NCT02914522|184214862|SUPERIORITY||Difference in Percentages|19.0|||<|0.0001|TWO_SIDED|95.0|9.9|28.2|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||28.2|9.9|<0.0001
92163377|NCT02914522|184214862|SUPERIORITY||Difference in Percentages|7.8||||0.0672|TWO_SIDED|95.0|-0.7|16.2|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||16.2|-0.7|0.0672
92163378|NCT02914522|184214862|SUPERIORITY||Difference in Percentages|11.4||||0.0019|TWO_SIDED|95.0|4.2|18.6|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||18.6|4.2|0.0019
92163379|NCT02914522|184214862|SUPERIORITY||Difference in Percentages|5.2||||0.1286|TWO_SIDED|95.0|-1.4|11.8|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||11.8|-1.4|0.1286
92163380|NCT02914522|184214863|SUPERIORITY||Difference in Percentages|7.9||||0.0105|TWO_SIDED|95.0|1.9|13.8|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1||||13.8|1.9|0.0105
92163381|NCT02914522|184214863|SUPERIORITY||Difference in Percentages|4.3||||0.1062|TWO_SIDED|95.0|-1.0|9.6|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1||||9.6|-1.0|0.1062
92163382|NCT02914522|184214863|SUPERIORITY||Difference in Percentages|1.7||||0.3084|TWO_SIDED|95.0|-2.2|5.6|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||5.6|-2.2|0.3084
92163383|NCT02914522|184214863|SUPERIORITY||Difference in Percentages|0.0||||0.9109|TWO_SIDED|95.0|-3.4|3.4|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||3.4|-3.4|0.9109
92163384|NCT02914522|184214869|SUPERIORITY||Difference in Percentages|25.5|||<|0.0001|TWO_SIDED|95.0|16.0|35.0|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||35.0|16.0|<0.0001
92163385|NCT02914522|184214869|SUPERIORITY||Difference in Percentages|9.2||||0.0658|TWO_SIDED|95.0|-1.1|19.5|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||19.5|-1.1|0.0658
92163386|NCT02914522|184214870|SUPERIORITY||Difference in Percentages|13.0||||0.0024|TWO_SIDED|95.0|5.3|20.6|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||20.6|5.3|0.0024
92163387|NCT02914522|184214870|SUPERIORITY||Difference in Percentages|0.9||||0.7951|TWO_SIDED|95.0|-7.0|8.7|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||8.7|-7.0|0.7951
92163388|NCT02914522|184214871|SUPERIORITY||Difference in Percentages|20.8||||0.0055|TWO_SIDED|95.0|7.7|33.9|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||33.9|7.7|0.0055
92221721|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6575|STANDARD_ERROR_OF_MEAN|1.9677||0.4032|TWO_SIDED|80.0|-0.8944|4.2094|||Mixed Models Analysis|||Day 5: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.2094|-0.8944|0.4032
92221722|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9254|STANDARD_ERROR_OF_MEAN|2.0796||0.0059|TWO_SIDED|80.0|3.2314|8.6193|||Mixed Models Analysis|||Day 5: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||8.6193|3.2314|0.0059
92221723|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0921|STANDARD_ERROR_OF_MEAN|2.1098||0.6067|TWO_SIDED|80.0|-1.643|3.8273|||Mixed Models Analysis|||Day 6: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.8273|-1.643|0.6067
92221724|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2785|STANDARD_ERROR_OF_MEAN|2.2424||0.0614|TWO_SIDED|80.0|1.3709|7.186|||Mixed Models Analysis|||Day 6: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.1860|1.3709|0.0614
92221725|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7149|STANDARD_ERROR_OF_MEAN|2.2086||0.7476|TWO_SIDED|80.0|-3.584|2.1546|||Mixed Models Analysis|||Day 7: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.1546|-3.584|0.7476
92221726|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.3355|STANDARD_ERROR_OF_MEAN|2.4396||0.5863|TWO_SIDED|80.0|-4.499|1.8284|||Mixed Models Analysis|||Day 7: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.8284|-4.499|0.5863
92221727|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1058|STANDARD_ERROR_OF_MEAN|2.0529||0.9591|TWO_SIDED|80.0|-2.771|2.5593|||Mixed Models Analysis|||Day 8: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.5593|-2.771|0.9591
92221728|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4352|STANDARD_ERROR_OF_MEAN|2.2048||0.8442|TWO_SIDED|80.0|-3.294|2.4238|||Mixed Models Analysis|||Day 8: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.4238|-3.294|0.8442
92221729|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6876|STANDARD_ERROR_OF_MEAN|2.0533||0.1977|TWO_SIDED|80.0|0.01391|5.3613|||Mixed Models Analysis|||Day 9: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.3613|0.01391|0.1977
92221730|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8149|STANDARD_ERROR_OF_MEAN|2.2467||0.4235|TWO_SIDED|80.0|-1.108|4.7375|||Mixed Models Analysis|||Day 9: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.7375|-1.108|0.4235
92221731|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6424|STANDARD_ERROR_OF_MEAN|1.9753||0.1882|TWO_SIDED|80.0|0.07015|5.2147|||Mixed Models Analysis|||Day 10: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.2147|0.07015|0.1882
92221732|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2105|STANDARD_ERROR_OF_MEAN|2.0376||0.5555|TWO_SIDED|80.0|-1.44|3.8615|||Mixed Models Analysis|||Day 10: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.8615|-1.440|0.5555
92357249|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of ischemia of the Clitoris among patients from different groups?||||||0.0021|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Clitoris in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0021
92357250|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of ischemia of the Urethral Sulcus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Urethral Sulcus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92163389|NCT02914522|184214871|SUPERIORITY||Difference in Percentages|8.2||||0.1265|TWO_SIDED|95.0|-4.2|20.6|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||20.6|-4.2|0.1265
92221733|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1804|STANDARD_ERROR_OF_MEAN|2.1934||0.1533|TWO_SIDED|80.0|0.33169|6.0292|||Mixed Models Analysis|||Day 11: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.0292|0.33169|0.1533
92221734|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0511|STANDARD_ERROR_OF_MEAN|2.2662||0.3697|TWO_SIDED|80.0|-0.8912|4.9934|||Mixed Models Analysis|||Day 11: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.9934|-0.8912|0.3697
92221735|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|1.764|STANDARD_ERROR_OF_MEAN|2.3939||0.4652|TWO_SIDED|80.0|-1.352|4.8801|||Mixed Models Analysis|||Day 12: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.8801|-1.352|0.4652
92357251|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of ischemia of the Urethral Meatus among patients from different groups?||||||0.0038|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Urethral Meatus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0038
92357252|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of ischemia of the Vestibule among patients from different groups?||||||0.0019|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Vestibule in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0019
92357253|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of punctuation of Hart's Line among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of punctuation of Hart's Line in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
92357254|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of punctuation of the Vestibule among patients from different groups?||||||0.0198|||||||Chi-squared|||"Parameter: The incidence of punctuation of the Vestibule in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy.. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0198
92357255|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of papillae of Hart's Line among patients from different groups?||||||0.0004|||||||Chi-squared|||"Parameter: The incidence of papillae of Hart's Line in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0004
92163390|NCT02914522|184214872|SUPERIORITY||Difference in Percentages|9.5||||0.0157|TWO_SIDED|95.0|1.8|17.1|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||17.1|1.8|0.0157
92163391|NCT02914522|184214872|SUPERIORITY||Difference in Percentages|5.5||||0.1808|TWO_SIDED|95.0|-2.9|13.9|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||13.9|-2.9|0.1808
92163392|NCT02914522|184214873|SUPERIORITY||Difference in Percentages|24.9|||<|0.0001|TWO_SIDED|95.0|14.6|35.2|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||35.2|14.6|<0.0001
92163393|NCT02914522|184214873|SUPERIORITY||Difference in Percentages|9.9||||0.0521|TWO_SIDED|95.0|-1.3|21.2|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||21.2|-1.3|0.0521
92163394|NCT02914522|184214874|SUPERIORITY||Difference in Percentages|16.0||||0.0005|TWO_SIDED|95.0|7.8|24.2|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||24.2|7.8|0.0005
92163395|NCT02914522|184214874|SUPERIORITY||Difference in Percentages|4.3||||0.2946|TWO_SIDED|95.0|-3.9|12.6|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||12.6|-3.9|0.2946
92163396|NCT04495634|184214880|EQUIVALENCE|The equivalence margin was defined through power calculations based on sample size, power of 0.90 and alpha of 0.05 resulting in a margin of +/- 0.26.|||||<|0.0001|||||||ANOVA|||||||<0.0001
92163397|NCT04495634|184214881|EQUIVALENCE|The equivalence margin was defined through power calculations based on sample size, power of 0.90 and alpha of 0.05 resulting in a margin of +/- 0.26.||||||0.41|||||||ANOVA|||||||0.41
92163398|NCT04495634|184214882|EQUIVALENCE|The equivalence margin was defined through power calculations based on sample size, power of 0.90 and alpha of 0.05 resulting in a margin of +/- 0.26.||||||0.0001|||||||ANOVA|||||||0.0001
92163399|NCT04495634|184214883|EQUIVALENCE|The equivalence margin was defined through power calculations based on sample size, power of 0.90 and alpha of 0.05 resulting in a margin of +/- 0.26.||||||0.0001|||||||ANOVA|||||||0.0001
92163400|NCT03368001|184214885|OTHER|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses. We accounted for any non-independence of observations due to cohort membership by obtaining cluster-robust standard errors using robust maximum likelihood estimation (MLR in Mplus) in tandem with the Type = Complex option available in Mplus, treating cohorts as clusters. All models were structurally saturated, so model fit was necessarily perfect.||||||0.039||||||IFM Posttest.|Structural Equation Modeling|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses.||Population models were specified using parameter values derived from past research in tandem with minimal expected effect sizes for the effects of most interest. These models were used to generate 5000 samples for a given N, the models were fit to each sample, and the significance (or not) of key effects was noted. This process was repeated until the target power of at least .80 was reached indicating with 216 participants we would have .82 power.||||.039
92163401|NCT03368001|184214885|OTHER|The residuals associated with the mediator and outcome were allowed to covary with the lag and pretest scores associated with the outcome, and the residual associated with the outcome was allowed to covary with the lag and pretest scores associated with the mediator.|Structural Equation Model (SEM)|0.064|||<|0.05|TWO_SIDED|90.0|0.014|0.118||One-tailed significance test|Structural Equation Model (SEM)|Controlling for Verbal Expressiveness at Pretest and the interval between Pretest and the Followup assessments.|Estimation parameter represents indirect effect (axb)|The indirect effect of SENSE Theatre® vs. TTT through post-test IFM on follow-up Vocal Expressiveness. We adjusted standard errors for cohort, controlled the mediator for individual differences in lag between pretest and posttest for the a path and controlled the outcome for individual differences in lag between pretest to follow-up for the b and c' paths.||0.118|0.014|<0.05
92221736|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4377|STANDARD_ERROR_OF_MEAN|2.5148||0.8626|TWO_SIDED|80.0|-2.83|3.7058|||Mixed Models Analysis|||Day 12: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.7058|-2.830|0.8626
92221737|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|3.7114|STANDARD_ERROR_OF_MEAN|1.6168||0.0261|TWO_SIDED|80.0|1.6105|5.8122|||Mixed Models Analysis|||Day 13: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.8122|1.6105|0.0261
92221738|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2644|STANDARD_ERROR_OF_MEAN|1.7026||0.1895|TWO_SIDED|80.0|0.0533|4.4756|||Mixed Models Analysis|||Day 13: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.4756|0.05330|0.1895
92221739|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1151|STANDARD_ERROR_OF_MEAN|3.0732||0.4994|TWO_SIDED|80.0|-1.961|6.1913|||Mixed Models Analysis|||Day 14: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.1913|-1.961|0.4994
92357256|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of papillae of the Vestibule among patients from different groups?||||||0.0053|||||||Chi-squared|||"Parameter: The incidence of papillae of the Vestibule in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0053
92357257|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of Hart's Line in patients with vulvar dermatosis?||||||0.001|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of Hart's Line in patients with vulvar dermatosis.||||0.0010
92357258|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Urethral Sulcus in patients with vulvar dermatosis?||||||0.001|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Urethral Sulcus in patients with vulvar dermatosis.||||0.0010
92357259|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Vestibule in patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Vestibule in patients with vulvar dermatosis.||||0.0000
92357260|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with vulvar dermatosis?||||||0.0208|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with vulvar dermatosis.||||0.0208
92221740|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5616|STANDARD_ERROR_OF_MEAN|3.3113||0.2945|TWO_SIDED|80.0|-0.8226|7.9458|||Mixed Models Analysis|||Day 14: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.9458|-0.8226|0.2945
92221741|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7306|STANDARD_ERROR_OF_MEAN|2.9257||0.8056|TWO_SIDED|80.0|-4.622|3.1613|||Mixed Models Analysis|||Day 21: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.1613|-4.622|0.8056
92221742|NCT00531752|184344056|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3672|STANDARD_ERROR_OF_MEAN|3.8657||0.3922|TWO_SIDED|80.0|-1.725|8.4592|||Mixed Models Analysis|||Day 21: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||8.4592|-1.725|0.3922
92357261|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis?||||||0.0007|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis.||||0.0007
92357262|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with vulvar dermatosis?||||||0.0208|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with vulvar dermatosis.||||0.0208
92221743|NCT00531752|184344057|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5069|STANDARD_ERROR_OF_MEAN|0.8744||0.0913|TWO_SIDED|80.0|-2.643|-0.3705|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.3705|-2.643|0.0913
92221744|NCT00531752|184344057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2078|STANDARD_ERROR_OF_MEAN|0.9165||0.8216|TWO_SIDED|80.0|-1.399|0.98326|||Mixed Models Analysis|||Day 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.98326|-1.399|0.8216
92221745|NCT00531752|184344058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4181|STANDARD_ERROR_OF_MEAN|0.6887||0.5466|TWO_SIDED|80.0|-1.313|0.47668|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.47668|-1.313|0.5466
92221746|NCT00531752|184344058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02518|STANDARD_ERROR_OF_MEAN|0.6772||0.9705|TWO_SIDED|80.0|-0.9035|0.85312|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.85312|-0.9035|0.9705
92221747|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09953|STANDARD_ERROR_OF_MEAN|0.3001||0.7415|TWO_SIDED|80.0|-0.4892|0.29012|||Mixed Models Analysis|||Week 3 (CQoL): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.29012|-0.4892|0.7415
92163402|NCT03368001|184214885|OTHER|The residual associated with the mediator was allowed to covary with the lag and pretest scores associated with the outcome, and the residual associated with the outcome was allowed to covary with the lag and pretest scores associated with the mediator, yielding a saturated model.|Structural Equation Model (SEM)|0.032|||<|0.05|TWO_SIDED|90.0|0.002|0.087||One-sided hypothesis test.|Structural Equation Model (SEM)|Controlling for Rapport at Pretest and the interval between Pretest and the Followup assessments.|Estimation parameter represents indirect effect (axb)|The partially standardized indirect effect of treatment on follow-up Quality of Rapport through posttest Incidental Face Memory. We adjusted standard errors for cohort, controlled the mediator for individual differences in lag (pretest to posttest) and baseline mediator, and controlled the outcome for individual differences in lag (pretest to follow-up) and baseline outcome.||0.087|0.002|<0.05
92221748|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04804|STANDARD_ERROR_OF_MEAN|0.3227||0.8822|TWO_SIDED|80.0|-0.3703|0.4664|||Mixed Models Analysis|||Week 3 (CQoL): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.46640|-0.3703|0.8822
92221749|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|0.125|STANDARD_ERROR_OF_MEAN|0.1302||0.3414|TWO_SIDED|80.0|-0.0439|0.29385|||Mixed Models Analysis|||Week 3 (GLI): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.29385|-0.0439|0.3414
92221750|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1044|STANDARD_ERROR_OF_MEAN|0.1418||0.4642|TWO_SIDED|80.0|-0.0793|0.28814|||Mixed Models Analysis|||Week 3 (GLI): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.28814|-0.0793|0.4642
92221751|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06109|STANDARD_ERROR_OF_MEAN|0.09093||0.5049|TWO_SIDED|80.0|-0.0571|0.17926|||Mixed Models Analysis|||Week 3 (RTI): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.17926|-0.0571|0.5049
92276565|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.0228|TWO_SIDED|95.0|-2.37|-0.18|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.18|-2.37|0.0228
92276566|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.5081|TWO_SIDED|95.0|-1.47|0.73|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.73|-1.47|0.5081
92276567|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.86||||0.0064|TWO_SIDED|95.0|-3.2|-0.53|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.53|-3.2|0.0064
92276568|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89||||0.1898|TWO_SIDED|95.0|-2.23|0.44|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.44|-2.23|0.1898
92276569|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.09||||0.0074|TWO_SIDED|95.0|-3.62|-0.56|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.56|-3.62|0.0074
92276570|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.5935|TWO_SIDED|95.0|-1.95|1.11|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||1.11|-1.95|0.5935
92276571|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.0211|TWO_SIDED|95.0|-3.52|-0.29|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.29|-3.52|0.0211
92221752|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07917|STANDARD_ERROR_OF_MEAN|0.1002||0.4332|TWO_SIDED|80.0|-0.051|0.2093|||Mixed Models Analysis|||Week 3 (RTI): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.20930|-0.0510|0.4332
92276572|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.1031|TWO_SIDED|95.0|-2.96|0.27|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.27|-2.96|0.1031
92163403|NCT03368001|184214885|OTHER|The residuals associated with the mediator and outcome were allowed to covary with the lag and pretest scores associated with the outcome, and the residual associated with the outcome was allowed to covary with the lag and pretest scores associated with the mediator, yielding a saturated model.|Structural Equation Model (SEM)|0.005|||>|0.05|TWO_SIDED|90.0|-0.015|0.059||One-sided hypothesis test|Structural Equation Model (SEM)|Controlling for Social Anxiety at Pretest and the interval between Pretest and the Followup assessments.|Estimation parameter represents indirect effect (axb)|The partially standardized indirect effect of treatment on follow-up Social Anxiety through posttest IFM. Adjusted standard errors for cohort, controlled the mediator for individual differences in lag between pretest and posttest for the a path and controlled the outcome for individual differences in lag between pretest to follow-up for the b and c' paths.||0.059|-0.015|>0.05
92163404|NCT03368001|184214885|OTHER|The residuals associated with the mediator and outcome were allowed to covary with the lag and pretest scores associated with the outcome, and the residual associated with the outcome was allowed to covary with the lag and pretest scores associated with the mediator, yielding a saturated model.|Structural Equation Model (SEM)|-0.0002|||>|0.05|TWO_SIDED|90.0|-0.054|0.061||One-sided hypothesis test|Structural Equation Model (SEM)|Controlling for SRS-2 Social Communication at Pretest and the interval between Pretest and the Followup assessments.|Estimation parameter represents indirect effect (axb)|The partially standardized indirect effect of treatment on follow-up SRS Communication. We adjusted standard errors for cohort, controlled the mediator for individual differences in lag between pretest and posttest for the a path and controlled the outcome for individual differences in lag between pretest to follow-up for the b and c' paths.||0.061|-0.054|>0.05
92163405|NCT03368001|184214886|OTHER|||||||0.49||||||SRS Communication Posttest.|Structural Equation Modeling|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses.||||||.490
92221753|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2453|STANDARD_ERROR_OF_MEAN|0.1753||0.1678|TWO_SIDED|80.0|-0.473|-0.0177|||Mixed Models Analysis|||Week 3 (More GD than BD): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.0177|-0.4730|0.1678
92221754|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07717|STANDARD_ERROR_OF_MEAN|0.1925||0.6901|TWO_SIDED|80.0|-0.1726|0.32695|||Mixed Models Analysis|||Week 3 (More GD than BD): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.32695|-0.1726|0.6901
92221755|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1702|STANDARD_ERROR_OF_MEAN|1.354||0.9005|TWO_SIDED|80.0|-1.587|1.9274|||Mixed Models Analysis|||Week 3 (Living with ADHD): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.9274|-1.587|0.9005
92221756|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4317|STANDARD_ERROR_OF_MEAN|1.4667||0.333|TWO_SIDED|80.0|-3.333|0.46937|||Mixed Models Analysis|||Week 3 (Living with ADHD): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.46937|-3.333|0.3330
92221757|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6537|STANDARD_ERROR_OF_MEAN|2.0857||0.7551|TWO_SIDED|80.0|-2.051|3.3584|||Mixed Models Analysis|||Week 3 (General well-being): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.3584|-2.051|0.7551
92221758|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.8639|STANDARD_ERROR_OF_MEAN|2.2354||0.0334|TWO_SIDED|80.0|-7.759|-1.968|||Mixed Models Analysis|||Week 3 (General well-being): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.968|-7.759|0.0334
92221759|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6389|STANDARD_ERROR_OF_MEAN|3.6119||0.6519|TWO_SIDED|80.0|-3.05|6.3281|||Mixed Models Analysis|||Week 3 (PDF): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.3281|-3.050|0.6519
92221760|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2007|STANDARD_ERROR_OF_MEAN|3.9647||0.7631|TWO_SIDED|80.0|-3.941|6.3423|||Mixed Models Analysis|||Week 3 (PDF): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.3423|-3.941|0.7631
92221761|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9211|STANDARD_ERROR_OF_MEAN|2.8206||0.3034|TWO_SIDED|80.0|-0.7227|6.5648|||Mixed Models Analysis|||Week 3 (R/C): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.5648|-0.7227|0.3034
92221762|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.0968|STANDARD_ERROR_OF_MEAN|3.0022||0.0933|TWO_SIDED|80.0|-8.975|-1.218|||Mixed Models Analysis|||Week 3 (R/C): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.218|-8.975|0.0933
92221763|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.0675|STANDARD_ERROR_OF_MEAN|2.9778||0.0949|TWO_SIDED|80.0|-8.934|-1.201|||Mixed Models Analysis|||Week 3 (IS-B/C): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.201|-8.934|0.0949
92221764|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.3274|STANDARD_ERROR_OF_MEAN|3.2552||0.0283|TWO_SIDED|80.0|-11.55|-3.106|||Mixed Models Analysis|||Week 3 (IS-B/C): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-3.106|-11.55|0.0283
92221765|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1505|STANDARD_ERROR_OF_MEAN|1.5974||0.1852|TWO_SIDED|80.0|-4.229|-0.0719|||Mixed Models Analysis|||Week 3 (IS-I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.0719|-4.229|0.1852
92221766|NCT00531752|184344059|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5178|STANDARD_ERROR_OF_MEAN|1.7732||0.1623|TWO_SIDED|80.0|-4.823|-0.2127|||Mixed Models Analysis|||Week 3 (IS-I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.2127|-4.823|0.1623
92163406|NCT03368001|184214887|OTHER|Posttest ANCOVA controlling for pre-test scores||||||0.704|||||||ANCOVA|||||||0.704
92221767|NCT00531752|184344060|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.5791|STANDARD_ERROR_OF_MEAN|18.0449||0.5241|TWO_SIDED|80.0|-35.02|11.86|||Mixed Models Analysis|||Week 3 (Life productivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||11.860|-35.02|0.5241
92221768|NCT00531752|184344060|SUPERIORITY_OR_OTHER||LS Mean Difference|-20.3367|STANDARD_ERROR_OF_MEAN|19.6995||0.3065|TWO_SIDED|80.0|-45.89|5.2183|||Mixed Models Analysis|||Week 3 (Life productivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.2183|-45.89|0.3065
92221769|NCT00531752|184344060|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.7878|STANDARD_ERROR_OF_MEAN|13.4438||0.3831|TWO_SIDED|80.0|-29.15|5.5793|||Mixed Models Analysis|||Week 3 (Psychological health): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.5793|-29.15|0.3831
92221770|NCT00531752|184344060|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.1401|STANDARD_ERROR_OF_MEAN|14.4478||0.3657|TWO_SIDED|80.0|-31.8|5.5241|||Mixed Models Analysis|||Week 3 (Psychological health): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.5241|-31.80|0.3657
92221771|NCT00531752|184344060|SUPERIORITY_OR_OTHER||LS Mean Difference|2.666|STANDARD_ERROR_OF_MEAN|11.5818||0.8188|TWO_SIDED|80.0|-12.36|17.69|||Mixed Models Analysis|||Week 3 (Life outlook): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||17.690|-12.36|0.8188
92221772|NCT00531752|184344060|SUPERIORITY_OR_OTHER||LS Mean Difference|24.1011|STANDARD_ERROR_OF_MEAN|12.405||0.0566|TWO_SIDED|80.0|8.0305|40.172|||Mixed Models Analysis|||Week 3 (Life outlook): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||40.172|8.0305|0.0566
92357263|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis?||||||0.0007|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis.||||0.0007
92221773|NCT00531752|184344060|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7559|STANDARD_ERROR_OF_MEAN|8.7164||0.9312|TWO_SIDED|80.0|-10.55|12.057|||Mixed Models Analysis|||Week 3 (Relationships): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||12.057|-10.55|0.9312
92221774|NCT00531752|184344060|SUPERIORITY_OR_OTHER||LS Mean Difference|6.1138|STANDARD_ERROR_OF_MEAN|9.4361||0.5194|TWO_SIDED|80.0|-6.108|18.336|||Mixed Models Analysis|||Week 3 (Relationships): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||18.336|-6.108|0.5194
92221775|NCT00531752|184344061|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3255|STANDARD_ERROR_OF_MEAN|0.332||0.332|TWO_SIDED|80.0|-0.7573|0.10622|||Mixed Models Analysis|||Week 3 (Work/school): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.10622|-0.7573|0.3320
92221776|NCT00531752|184344061|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4255|STANDARD_ERROR_OF_MEAN|0.3871||0.2767|TWO_SIDED|80.0|-0.0769|0.92804|||Mixed Models Analysis|||Week 3 (Work/school): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.92804|-0.0769|0.2767
92221777|NCT00531752|184344061|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3661|STANDARD_ERROR_OF_MEAN|0.4028||0.3675|TWO_SIDED|80.0|-0.8887|0.1566|||Mixed Models Analysis|||Week 3 (Social life): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.15660|-0.8887|0.3675
92357264|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with vulvar dermatosis?||||||0.004|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with vulvar dermatosis.||||0.0040
92221778|NCT00531752|184344061|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1033|STANDARD_ERROR_OF_MEAN|0.4372||0.8141|TWO_SIDED|80.0|-0.67|0.46345|||Mixed Models Analysis|||Week 3 (Social life): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.46345|-0.6700|0.8141
92221779|NCT00531752|184344061|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1854|STANDARD_ERROR_OF_MEAN|0.3702||0.6186|TWO_SIDED|80.0|-0.6657|0.29495|||Mixed Models Analysis|||Week 3 (Family life/home): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.29495|-0.6657|0.6186
92221780|NCT00531752|184344061|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3623|STANDARD_ERROR_OF_MEAN|0.4028||0.372|TWO_SIDED|80.0|-0.1597|0.88432|||Mixed Models Analysis|||Week 3 (Family life/home): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.88432|-0.1597|0.3720
92221781|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|25.0781|STANDARD_ERROR_OF_MEAN|5.0238|<|0.0001|TWO_SIDED|80.0|18.565|31.591|||Mixed Models Analysis|||Week 1 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||31.591|18.565|<0.0001
92221782|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|15.6481|STANDARD_ERROR_OF_MEAN|5.3551||0.0049|TWO_SIDED|80.0|8.711|22.585|||Mixed Models Analysis|||Week 1 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||22.585|8.7110|0.0049
92221783|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.627|STANDARD_ERROR_OF_MEAN|3.5248||0.3078|TWO_SIDED|80.0|-8.196|0.94237|||Mixed Models Analysis|||Week 1 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.94237|-8.196|0.3078
92221784|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|7.1594|STANDARD_ERROR_OF_MEAN|3.8022||0.0644|TWO_SIDED|80.0|2.2344|12.084|||Mixed Models Analysis|||Week 1 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||12.084|2.2344|0.0644
92221785|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|4.5601|STANDARD_ERROR_OF_MEAN|3.1318||0.1517|TWO_SIDED|80.0|0.49198|8.6281|||Mixed Models Analysis|||Week 1 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||8.6281|0.49198|0.1517
92221786|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7384|STANDARD_ERROR_OF_MEAN|3.3281||0.8252|TWO_SIDED|80.0|-5.056|3.5789|||Mixed Models Analysis|||Week 1 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.5789|-5.056|0.8252
92221787|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6228|STANDARD_ERROR_OF_MEAN|0.2203||0.0063|TWO_SIDED|80.0|-0.9082|-0.3375|||Mixed Models Analysis|||Week 1 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.3375|-0.9082|0.0063
92221788|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2301|STANDARD_ERROR_OF_MEAN|0.2303||0.3217|TWO_SIDED|80.0|-0.5283|0.06822|||Mixed Models Analysis|||Week 1 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.06822|-0.5283|0.3217
92357265|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with vulvar dermatosis?||||||0.0012|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with vulvar dermatosis.||||0.0012
92357266|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Bartholin's Gland Opening versus non-specific lesions of the Vestibule in patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Bartholin's Gland Opening versus non-specific lesions of the Vestibule in patients with vulvar dermatosis.||||0.0000
92163407|NCT03368001|184214887|OTHER|Followup ANCOVA controlling for pretest values||||||0.406|||||||ANCOVA|||||||0.406
92163408|NCT03368001|184214888|OTHER|||||||0.217|||||||Structural Equation Modeling|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses.||Vocal Expressiveness Posttest.||||.217
92163409|NCT03368001|184214888|OTHER|||||||0.448|||||||Structural Equation Modeling|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses||Quality of Rapport Posttest.||||.448
92163410|NCT03368001|184214888|OTHER|||||||0.15|||||||Structural Equation Modeling|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses||Social Anxiety Posttest.||||.150
92163411|NCT03368001|184214889|OTHER|Posttest ANCOVA controlling for pre-test values||||||0.169|||||||ANCOVA|||||||0.169
92163412|NCT03368001|184214889|OTHER|Followup ANCOVA controlling for pretest values.||||||0.555|||||||ANCOVA|||||||0.555
92163413|NCT03612804|184214890|SUPERIORITY||Odds Ratio (OR)|1.05||||0.83|TWO_SIDED|95.0|0.67|1.64||P-value not adjusted for multiple comparisons. A priori threshold for statistical significance was 0.05.|Regression, Logistic|Logistic regression model with random intercept for provider and main effect term for study site.|Proactive care arm represents numerator of odds ratio, unstructured care arm represents denominator of odds ratio.|||1.64|0.67|0.83
92163414|NCT04391309|184214908|SUPERIORITY|||||||0.435|||||||Log Rank|||||||0.435
92163415|NCT04391309|184214909|SUPERIORITY|||||||1|||||||Fisher Exact|||All categories included in the analysis||||1
92163416|NCT04391309|184214910|SUPERIORITY|||||||0.391|||||||Wilcoxon (Mann-Whitney)|||||||0.391
92163417|NCT04391309|184214911|SUPERIORITY|||||||0.895|||||||Wilcoxon (Mann-Whitney)|||||||0.895
92163418|NCT04391309|184214912|SUPERIORITY|||||||0.702|||||||Wilcoxon (Mann-Whitney)|||||||0.702
92163419|NCT04391309|184214913|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis.||||1
92163420|NCT04391309|184214914|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis||||1
92163421|NCT04391309|184214915|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the anlysis.||||1
92163422|NCT04391309|184214916|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis.||||1
92163423|NCT04391309|184214917|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis.||||1
92163424|NCT04391309|184214918|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis.||||1
92163425|NCT04391309|184214919|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis.||||1
92163426|NCT00768651|184214937|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||The sample size of 8 was determined to provide a 95% confidence interval expected width of 0.62 for the proportion of subjects who become insulin independent with treatment. Four of eight subjects (50%) would have to achieve insulin independence in order to reject the null hypothesis with 85% power and one sided alpha of 0.025. Statistical significance was set at 5%. Mean values were computed using Student's t-test while medians were compared using Wilcoxon's test.||||< 0.05
92163427|NCT01543685|184214970|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|441.8|STANDARD_ERROR_OF_MEAN|129.6|<|0.001|TWO_SIDED|95.0|187.1|696.5|||ANCOVA|||||696.5|187.1|<0.001
92357267|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of the Urethral Meatus in patients with vulvodynia?||||||0.0048|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of the Urethral Meatus in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0048
92357268|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with vulvodynia?||||||0.0007|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0007
92163428|NCT01543685|184214970|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|260.2|STANDARD_ERROR_OF_MEAN|130.3||0.046|TWO_SIDED|95.0|4.1|516.3|||ANCOVA|||||516.3|4.1|0.046
92163429|NCT01543685|184214970|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|312.7|STANDARD_ERROR_OF_MEAN|130.4||0.017|TWO_SIDED|95.0|56.6|568.9|||ANCOVA|||||568.9|56.6|0.017
92163430|NCT01543685|184214970|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|211.6|STANDARD_ERROR_OF_MEAN|129.6||0.103|TWO_SIDED|95.0|-43.1|466.2|||ANCOVA|||||466.2|-43.1|0.103
92163431|NCT01543685|184214971|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||t-test, 2 sided|||||||0.013
92163432|NCT01543685|184214971|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||t-test, 2 sided|||||||0.014
92163433|NCT01543685|184214971|SUPERIORITY_OR_OTHER|||||||0.211||95.0|||||t-test, 2 sided|||||||0.211
92163434|NCT01543685|184214971|SUPERIORITY_OR_OTHER|||||||0.098||95.0|||||t-test, 2 sided|||||||0.098
92163435|NCT01543685|184214972|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||||||0.001
92163436|NCT01543685|184214972|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
92163437|NCT01543685|184214972|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||t-test, 2 sided|||||||0.017
92163438|NCT01543685|184214972|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||t-test, 2 sided|||||||0.028
92163439|NCT01543685|184214973|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92163440|NCT01543685|184214973|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
92163441|NCT01543685|184214973|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
92163442|NCT01543685|184214973|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|||||||0.015
92163443|NCT01543685|184214974|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
92163444|NCT01543685|184214974|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||t-test, 2 sided|||||||0.022
92163445|NCT01543685|184214974|SUPERIORITY_OR_OTHER|||||||0.146||95.0|||||t-test, 2 sided|||||||0.146
92163446|NCT01543685|184214974|SUPERIORITY_OR_OTHER|||||||0.071||95.0|||||t-test, 2 sided|||||||0.071
92163447|NCT01543685|184214975|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92163448|NCT01543685|184214975|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||t-test, 2 sided|||||||0.008
92163449|NCT01543685|184214975|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||||||0.010
92163450|NCT01543685|184214975|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|||||||0.016
92163451|NCT01543685|184214976|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92163452|NCT01543685|184214976|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||t-test, 2 sided|||||||0.008
92163453|NCT01543685|184214976|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||||||0.005
92163454|NCT01543685|184214976|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||t-test, 2 sided|||||||0.017
92163455|NCT01543685|184214977|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92163456|NCT01543685|184214977|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||||||0.020
92163457|NCT01543685|184214977|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||t-test, 2 sided|||||||0.012
92163458|NCT01543685|184214977|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||t-test, 2 sided|||||||0.029
92163459|NCT00556543|184214985|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation performed.||||||0.19||95.0|||||Fisher Exact|||Fisher's Exact Test with the null hypothesis that the proportion with adverse events was the same in both groups.||||0.190
92163460|NCT01838551|184214996|SUPERIORITY|Under the null hypothesis of at most 20% UFC responders, 90 subjects in the ITT population would provide 90% power, with two-sided type 1 error of 0.05, assuming an observed response of 35%.||||||0.0154||||||One-sided p-value is based on a null hypothesis that true response proportion is ≤ 0.20.|Mixed Models Analysis|The Generalized Linear Model described above was used to generate the p-value.||The least squares mean (LSMEAN) estimate of the UFC response after 6 months of treatment in the Maintenance Phase alongside its 95% Wald CI is presented. Supportive to the 95% CI, the p-value corresponding to the null hypothesis that the response rate is ≤ 20% is presented (1-sided test).||||0.0154
92401439|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.798|TWO_SIDED|95.0|-0.73|0.56||P-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.56|-0.73|0.798
92221789|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1291|STANDARD_ERROR_OF_MEAN|0.1065||0.2307|TWO_SIDED|80.0|-0.0091|0.26716|||Mixed Models Analysis|||Week 1 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.26716|-0.0091|0.2307
92221790|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08114|STANDARD_ERROR_OF_MEAN|0.1087||0.4585|TWO_SIDED|80.0|-0.0598|0.22209|||Mixed Models Analysis|||Week 1 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.22209|-0.0598|0.4585
92221791|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.6629|STANDARD_ERROR_OF_MEAN|3.8642||0.3477|TWO_SIDED|80.0|-8.681|1.3549|||Mixed Models Analysis|||Week 1 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.3549|-8.681|0.3477
92221792|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.8688|STANDARD_ERROR_OF_MEAN|4.0842||0.1565|TWO_SIDED|80.0|-11.17|-0.5693|||Mixed Models Analysis|||Week 1 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.5693|-11.17|0.1565
92221793|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.4319|STANDARD_ERROR_OF_MEAN|3.9541||0.1088|TWO_SIDED|80.0|-11.55|-1.311|||Mixed Models Analysis|||Week 1 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.311|-11.55|0.1088
92221794|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7208|STANDARD_ERROR_OF_MEAN|4.1517||0.8627|TWO_SIDED|80.0|-4.654|6.0952|||Mixed Models Analysis|||Week 1 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.0952|-4.654|0.8627
92221795|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|56.631|STANDARD_ERROR_OF_MEAN|17.8056||0.0024|TWO_SIDED|80.0|33.532|79.73|||Mixed Models Analysis|||Week 1 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||79.730|33.532|0.0024
92221796|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|49.1543|STANDARD_ERROR_OF_MEAN|18.7622||0.0112|TWO_SIDED|80.0|24.831|73.478|||Mixed Models Analysis|||Week 1 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||73.478|24.831|0.0112
92221797|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|10.9197|STANDARD_ERROR_OF_MEAN|3.0912||0.0008|TWO_SIDED|80.0|6.9105|14.929|||Mixed Models Analysis|||Week 1 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||14.929|6.9105|0.0008
92221798|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|8.4691|STANDARD_ERROR_OF_MEAN|3.3037||0.0129|TWO_SIDED|80.0|4.1876|12.751|||Mixed Models Analysis|||Week 1 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||12.751|4.1876|0.0129
92221799|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|14.1078|STANDARD_ERROR_OF_MEAN|4.3667||0.002|TWO_SIDED|80.0|8.4492|19.766|||Mixed Models Analysis|||Week 2 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||19.766|8.4492|0.0020
92221800|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|14.3485|STANDARD_ERROR_OF_MEAN|4.5692||0.0026|TWO_SIDED|80.0|8.4275|20.27|||Mixed Models Analysis|||Week 2 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||20.270|8.4275|0.0026
92163461|NCT00038103|184215002|SUPERIORITY_OR_OTHER||Clinical Benefit Rate|49.0||||||95.0|34.4|63.7|||||Number of subjects showing clinical benefits out of the number of subjects in the evaluable set.|||63.7|34.4|
92163462|NCT00038103|184215002|SUPERIORITY_OR_OTHER||Clinical Benefit Rate|47.1||||||95.0|32.9|61.5|||||Number of subjects showing clinical benefits out of the number of subjects in the evaluable set.|||61.5|32.9|
92163463|NCT00038103|184215003|SUPERIORITY_OR_OTHER||Objective Response Rate|22.4||||||95.0|11.8|36.6|||||Number of subjects showing objective response out of the number of subjects in the evaluable set.|||36.6|11.8|
92163464|NCT00038103|184215003|SUPERIORITY_OR_OTHER||Objective Response Rate|23.5||||||95.0|12.8|37.5|||||Number of subjects showing objective response out of the number of subjects in the evaluable set.|||37.5|12.8|
92221801|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2989|STANDARD_ERROR_OF_MEAN|3.4103||0.9305|TWO_SIDED|80.0|-4.729|4.1309|||Mixed Models Analysis|||Week 2 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.1309|-4.729|0.9305
92221802|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.7062|STANDARD_ERROR_OF_MEAN|3.5839||0.1178|TWO_SIDED|80.0|-10.36|-1.05|||Mixed Models Analysis|||Week 2 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.050|-10.36|0.1178
92221803|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4586|STANDARD_ERROR_OF_MEAN|2.5231||0.3339|TWO_SIDED|80.0|-0.8124|5.7295|||Mixed Models Analysis|||Week 2 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.7295|-0.8124|0.3339
92163465|NCT01391013|184215010|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.08
92221804|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|4.859|STANDARD_ERROR_OF_MEAN|2.63||0.0698|TWO_SIDED|80.0|1.4493|8.2686|||Mixed Models Analysis|||Week 2 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||8.2686|1.4493|0.0698
92221805|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3364|STANDARD_ERROR_OF_MEAN|0.1859||0.0762|TWO_SIDED|80.0|-0.5777|-0.095|||Mixed Models Analysis|||Week 2 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.0950|-0.5777|0.0762
92221806|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1591|STANDARD_ERROR_OF_MEAN|0.1913||0.4096|TWO_SIDED|80.0|-0.4075|0.08935|||Mixed Models Analysis|||Week 2 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.08935|-0.4075|0.4096
92221807|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2115|STANDARD_ERROR_OF_MEAN|0.1033||0.0455|TWO_SIDED|80.0|0.07751|0.3455|||Mixed Models Analysis|||Week 2 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.34550|0.07751|0.0455
92163466|NCT01391013|184215011|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.88
92221808|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08114|STANDARD_ERROR_OF_MEAN|0.1087||0.4585|TWO_SIDED|80.0|-0.0598|0.22209|||Mixed Models Analysis|||Week 2 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.22209|-0.0598|0.4585
92221809|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5433|STANDARD_ERROR_OF_MEAN|4.6662||0.9078|TWO_SIDED|80.0|-5.513|6.5995|||Mixed Models Analysis|||Week 2 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.5995|-5.513|0.9078
92357269|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of the Urethral Meatus in patients with vulvodynia?||||||0.0048|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of the Urethral Meatus in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0048
92401440|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.461|TWO_SIDED|95.0|-0.39|0.87||p-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.87|-0.39|0.461
92401441|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.67|TWO_SIDED|95.0|-1.02|0.66||p-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.66|-1.02|0.670
92163467|NCT01391013|184215012|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.31
92163468|NCT01391013|184215013|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.37
92163469|NCT01391013|184215014|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.66
92221810|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1848|STANDARD_ERROR_OF_MEAN|4.7892||0.6502|TWO_SIDED|80.0|-8.403|4.0338|||Mixed Models Analysis|||Week 2 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.0338|-8.403|0.6502
92221811|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9029|STANDARD_ERROR_OF_MEAN|3.7234||0.809|TWO_SIDED|80.0|-5.716|3.9101|||Mixed Models Analysis|||Week 2 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.9101|-5.716|0.8090
92221812|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4351|STANDARD_ERROR_OF_MEAN|3.8429||0.5282|TWO_SIDED|80.0|-2.532|7.4025|||Mixed Models Analysis|||Week 2 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.4025|-2.532|0.5282
92221813|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|25.3231|STANDARD_ERROR_OF_MEAN|18.8604||0.1848|TWO_SIDED|80.0|0.86393|49.782|||Mixed Models Analysis|||Week 2 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||49.782|0.86393|0.1848
92221814|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|50.4054|STANDARD_ERROR_OF_MEAN|19.481||0.0124|TWO_SIDED|80.0|25.134|75.677|||Mixed Models Analysis|||Week 2 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||75.677|25.134|0.0124
92221815|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|6.8658|STANDARD_ERROR_OF_MEAN|3.0205||0.0267|TWO_SIDED|80.0|2.9504|10.781|||Mixed Models Analysis|||Week 2 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||10.781|2.9504|0.0267
92221816|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|8.0855|STANDARD_ERROR_OF_MEAN|3.1677||0.0134|TWO_SIDED|80.0|3.9787|12.192|||Mixed Models Analysis|||Week 2 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||12.192|3.9787|0.0134
92221817|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|9.5242|STANDARD_ERROR_OF_MEAN|3.7993||0.0152|TWO_SIDED|80.0|4.5949|14.453|||Mixed Models Analysis|||Week 3 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||14.453|4.5949|0.0152
92221818|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|19.9806|STANDARD_ERROR_OF_MEAN|4.1501|<|0.0001|TWO_SIDED|80.0|14.602|25.359|||Mixed Models Analysis|||Week 3 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||25.359|14.602|<.0001
92221819|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7667|STANDARD_ERROR_OF_MEAN|2.9402||0.3516|TWO_SIDED|80.0|-6.59|1.0562|||Mixed Models Analysis|||Week 3 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.0562|-6.590|0.3516
92221820|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0838|STANDARD_ERROR_OF_MEAN|3.2323||0.3448|TWO_SIDED|80.0|-1.116|7.2838|||Mixed Models Analysis|||Week 3 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.2838|-1.116|0.3448
92221821|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5882|STANDARD_ERROR_OF_MEAN|4.3902||0.5583|TWO_SIDED|80.0|-8.294|3.1175|||Mixed Models Analysis|||Week 3 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.1175|-8.294|0.5583
92221822|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|7.6547|STANDARD_ERROR_OF_MEAN|4.7652||0.1141|TWO_SIDED|80.0|1.4717|13.838|||Mixed Models Analysis|||Week 3 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||13.838|1.4717|0.1141
92221823|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5882|STANDARD_ERROR_OF_MEAN|0.1903||0.0034|TWO_SIDED|80.0|-0.8356|-0.3408|||Mixed Models Analysis|||Week 3 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.3408|-0.8356|0.0034
92221824|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1722|STANDARD_ERROR_OF_MEAN|0.2064||0.4083|TWO_SIDED|80.0|-0.4403|0.09599|||Mixed Models Analysis|||Week 3 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.09599|-0.4403|0.4083
92221825|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2744|STANDARD_ERROR_OF_MEAN|0.1055||0.012|TWO_SIDED|80.0|0.13746|0.41127|||Mixed Models Analysis|||Week 3 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.41127|0.13746|0.0120
92221826|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1016|STANDARD_ERROR_OF_MEAN|0.1136||0.375|TWO_SIDED|80.0|-0.0457|0.24881|||Mixed Models Analysis|||Week 3 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.24881|-0.0457|0.3750
92221827|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4367|STANDARD_ERROR_OF_MEAN|3.9301||0.9119|TWO_SIDED|80.0|-4.665|5.5387|||Mixed Models Analysis|||Week 3 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.5387|-4.665|0.9119
92221828|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.3429|STANDARD_ERROR_OF_MEAN|4.1977||0.1367|TWO_SIDED|80.0|-11.79|-0.896|||Mixed Models Analysis|||Week 3 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.8960|-11.79|0.1367
92221829|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.0062|STANDARD_ERROR_OF_MEAN|3.1094||0.0595|TWO_SIDED|80.0|-10.05|-1.964|||Mixed Models Analysis|||Week 3 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.964|-10.05|0.0595
92221830|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|5.0362|STANDARD_ERROR_OF_MEAN|3.3182||0.1356|TWO_SIDED|80.0|0.72505|9.3473|||Mixed Models Analysis|||Week 3 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||9.3473|0.72505|0.1356
92221831|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|5.1569|STANDARD_ERROR_OF_MEAN|16.2884||0.7528|TWO_SIDED|80.0|-15.99|26.303|||Mixed Models Analysis|||Week 3 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||26.303|-15.99|0.7528
92221832|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|67.7022|STANDARD_ERROR_OF_MEAN|17.4066||0.0003|TWO_SIDED|80.0|45.114|90.29|||Mixed Models Analysis|||Week 3 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||90.290|45.114|0.0003
92221833|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8582|STANDARD_ERROR_OF_MEAN|2.6389||0.2837|TWO_SIDED|80.0|-0.567|6.2835|||Mixed Models Analysis|||Week 3 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.2835|-0.5670|0.2837
92221834|NCT00531752|184344062|SUPERIORITY_OR_OTHER||LS Mean Difference|12.9251|STANDARD_ERROR_OF_MEAN|2.8913|<|0.0001|TWO_SIDED|80.0|9.1761|16.674|||Mixed Models Analysis|||Week 3 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||16.674|9.1761|<0.0001
92221835|NCT00531752|184344063|SUPERIORITY_OR_OTHER||LS Mean Difference|26.8615|STANDARD_ERROR_OF_MEAN|3.9167|<|0.0001|TWO_SIDED|80.0|21.777|31.946|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||31.946|21.777|<0.0001
92221836|NCT00531752|184344063|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3455|STANDARD_ERROR_OF_MEAN|4.1817||0.3034|TWO_SIDED|80.0|-1.08|9.7713|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||9.7713|-1.080|0.3034
92401442|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.243|TWO_SIDED|95.0|-1.37|0.35||P-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.35|-1.37|0.243
92221837|NCT00531752|184344063|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9558|STANDARD_ERROR_OF_MEAN|2.9408||0.0223|TWO_SIDED|80.0|3.132|10.78|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||10.780|3.1320|0.0223
92221838|NCT00531752|184344063|SUPERIORITY_OR_OTHER||LS Mean Difference|3.7518|STANDARD_ERROR_OF_MEAN|3.0743||0.2284|TWO_SIDED|80.0|-0.2442|7.7479|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.7479|-0.2442|0.2284
92221839|NCT00531752|184344063|SUPERIORITY_OR_OTHER||LS Mean Difference|8.5752|STANDARD_ERROR_OF_MEAN|3.5848||0.0201|TWO_SIDED|80.0|3.9265|13.224|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||13.224|3.9265|0.0201
92221840|NCT00531752|184344063|SUPERIORITY_OR_OTHER||LS Mean Difference|5.0229|STANDARD_ERROR_OF_MEAN|3.8154||0.1931|TWO_SIDED|80.0|0.07753|9.9683|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||9.9683|0.07753|0.1931
92221841|NCT00531752|184344064|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6766|STANDARD_ERROR_OF_MEAN|0.1759||0.0003|TWO_SIDED|80.0|-0.9046|-0.4487|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.4487|-0.9046|0.0003
92221842|NCT00531752|184344064|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3075|STANDARD_ERROR_OF_MEAN|0.1871||0.1055|TWO_SIDED|80.0|-0.5499|-0.065|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.0650|-0.5499|0.1055
92221843|NCT00531752|184344064|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4684|STANDARD_ERROR_OF_MEAN|0.1791||0.0119|TWO_SIDED|80.0|-0.7012|-0.2356|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.2356|-0.7012|0.0119
92221844|NCT00531752|184344064|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1263|STANDARD_ERROR_OF_MEAN|0.1866||0.5016|TWO_SIDED|80.0|-0.3687|0.11608|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.11608|-0.3687|0.5016
92221845|NCT00531752|184344064|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3451|STANDARD_ERROR_OF_MEAN|0.1738||0.0531|TWO_SIDED|80.0|-0.5711|-0.1191|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.1191|-0.5711|0.0531
92221846|NCT00531752|184344064|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4137|STANDARD_ERROR_OF_MEAN|0.1856||0.0306|TWO_SIDED|80.0|-0.6549|-0.1725|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.1725|-0.6549|0.0306
92221847|NCT00531752|184344065|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7671|STANDARD_ERROR_OF_MEAN|0.1731|<|0.0001|TWO_SIDED|80.0|0.5426|0.99157|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.99157|0.54260|<0.0001
92221848|NCT00531752|184344065|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5285|STANDARD_ERROR_OF_MEAN|0.1847||0.0059|TWO_SIDED|80.0|0.28911|0.76798|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.76798|0.28911|0.0059
92163470|NCT01391013|184215015|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.02
92163471|NCT01391013|184215016|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.12
92163472|NCT01391013|184215017|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.71
92163473|NCT01391013|184215018|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.83
92163474|NCT01391013|184215019|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.66
92163475|NCT01391013|184215020|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.76
92163476|NCT01391013|184215021|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.56
92163477|NCT01391013|184215022|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.11
92163478|NCT01391013|184215023|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.18
92163479|NCT01391013|184215024|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.03
92163480|NCT01391013|184215025|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.04
92163481|NCT01304147|184215094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.6|||<|0.001|TWO_SIDED|95.0|3.9|11.3|||Paired t-test, 2 sided|||within-subject crossover design||11.3|3.9|<0.001
92163482|NCT01942707|184215108|SUPERIORITY||Mean Difference (Final Values)|179.0|STANDARD_DEVIATION|222.0||0.003|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.003
92163483|NCT01942707|184215109|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|1.9||0.012|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.012
92163484|NCT01942707|184215110|SUPERIORITY||Mean Difference (Final Values)|4.8|STANDARD_DEVIATION|40.7||0.809|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.809
92221849|NCT00531752|184344065|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1526|STANDARD_ERROR_OF_MEAN|0.1431||0.2921|TWO_SIDED|80.0|-0.0336|0.33878|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.33878|-0.0336|0.2921
92357270|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with vulvodynia?||||||0.0007|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0007
92163485|NCT02525796|184215129|SUPERIORITY||Median Difference (Net)|3.2||||0.84|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in PTH over 4 weeks between eplerenone monotherapy and placebo||||0.84
92163486|NCT02525796|184215129|SUPERIORITY||Median Difference (Net)|4.5||||0.54|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in PTH over 4 weeks between amiloride monotherapy and placebo||||0.54
92163487|NCT02525796|184215129|SUPERIORITY||Median Difference (Net)|7.6||||0.58|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in PTH over 4 weeks between eplerenone monotherapy and amiloride monotherapy||||0.58
92163488|NCT02525796|184215130|SUPERIORITY||Median Difference (Net)|0.0||||0.82|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in serum calcium over 4 weeks between eplerenone monotherapy and placebo||||0.82
92163489|NCT02525796|184215130|SUPERIORITY||Median Difference (Net)|0.1||||0.21|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in serum calcium over 4 weeks between amiloride monotherapy and placebo||||0.21
92163490|NCT02525796|184215130|SUPERIORITY||Median Difference (Net)|0.1||||0.12|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in serum calcium over 4 weeks between eplerenone monotherapy and amiloride monotherapy||||0.12
92163491|NCT01198275|184215132|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.441|||<|0.05|TWO_SIDED|95.0|0.292|0.666|||Kaplan Meyer analysis|The time to first AF recurrence was analyzed with the Kaplan-Meier method and compared with the log-rank test.|Hazard ratios between n-3 PUFA and Placebo together with confidence intervals were estimated using the Cox proportional regression model.|Give a relapse rate ranging from 40% to 60% on ACE-I/ARB and amiodarone therapy, considering the high risk of relapses in our study population we conservatively assumed a 50% relapse rate. We calculated that a total of 180 patients would yield 80% power to detect a clinically relevant difference of about 20% in AF recurrence with the addition of n-3 PUFAs at a log-rank test, with a significance level of 0.05.||0.666|0.292|< 0.05
92163492|NCT02477670|184215141|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.79||||0.073|TWO_SIDED|95.0|-3.75|0.17|||Mixed Models Analysis|||Sequential Parallel Comparison Design (SPCD) Weighted Ordinary Least Squares (OLS) z-statistic. Treatment differences in each stage were estimated by the Mixed Model Repeated Measures (MMRM).||0.17|-3.75|0.073
92163493|NCT02477670|184215142|SUPERIORITY||SPCD Weighted OLS z-statistic|-2.25||||0.025|TWO_SIDED|95.0|-4.21|-0.29|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||-0.29|-4.21|0.025
92163494|NCT02477670|184215143|SUPERIORITY||SPCD Weighted OLS z-statistic|-2.2||||0.027|TWO_SIDED|95.0|-4.16|-0.24|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||-0.24|-4.16|0.027
92163495|NCT02477670|184215144|SUPERIORITY||SPCD Weighted OLS z-statistic|-2.26||||0.024|TWO_SIDED|95.0|-4.22|-0.3|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||-0.3|-4.22|0.024
92163496|NCT02477670|184215145|SUPERIORITY||SPCD Weighted OLS z-statistic|-2.6||||0.009|TWO_SIDED|95.0|-4.56|-0.64|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||-0.64|-4.56|0.009
92163497|NCT02477670|184215146|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.39||||0.7|TWO_SIDED|95.0|-2.35|1.57|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.57|-2.35|0.700
92163498|NCT02477670|184215147|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.93||||0.054|TWO_SIDED|95.0|-3.89|0.03|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||0.03|-3.89|0.054
92163499|NCT02477670|184215148|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.35||||0.723|TWO_SIDED|95.0|-2.31|1.61|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.61|-2.31|0.723
92163500|NCT02477670|184215149|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.85||||0.064|TWO_SIDED|95.0|-3.81|0.11|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||0.11|-3.81|0.064
92163501|NCT02477670|184215150|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.64||||0.1|TWO_SIDED|95.0|-3.6|0.32|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||0.32|-3.6|0.100
92163502|NCT02477670|184215151|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.86||||0.388|TWO_SIDED|95.0|-2.82|1.1|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.1|-2.82|0.388
92163503|NCT02477670|184215152|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.9||||0.367|TWO_SIDED|95.0|-2.86|1.06|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.06|-2.86|0.367
92163504|NCT02477670|184215153|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.76||||0.447|TWO_SIDED|95.0|-2.72|1.2|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.2|-2.72|0.447
92163505|NCT02477670|184215154|SUPERIORITY||SPCD Weighted OLS z-statistic|-2.23||||0.026|TWO_SIDED|95.0|-4.19|-0.27|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||-0.27|-4.19|0.026
92163506|NCT02477670|184215155|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.62||||0.106|TWO_SIDED|95.0|-3.58|0.34|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||0.34|-3.58|0.106
92163507|NCT02477670|184215156|SUPERIORITY||SPCD Weighted OLS z-statistic|1.78||||0.074|TWO_SIDED|95.0|-0.18|3.74|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||3.74|-0.18|0.074
92163508|NCT02477670|184215157|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.79||||0.427|TWO_SIDED|95.0|-2.75|1.17|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.17|-2.75|0.427
92163509|NCT02477670|184215158|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.91||||0.0566|TWO_SIDED|95.0|-3.87|0.05|||McNemar|||Treatment differences in each stage were estimated by the MMRM.||0.05|-3.87|0.0566
92357271|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with vulvodynia?||||||0.0131|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0131
92357272|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of Bartholin's Gland Opening in patients with vulvodynia?||||||0.0423|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of Bartholin's Gland Opening in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0423
92221850|NCT00531752|184344065|SUPERIORITY_OR_OTHER||LS Mean Difference|0.198|STANDARD_ERROR_OF_MEAN|0.1498||0.1929|TWO_SIDED|80.0|0.00319|0.39272|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.39272|0.00319|0.1929
92221851|NCT00531752|184344065|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3433|STANDARD_ERROR_OF_MEAN|0.1565||0.0332|TWO_SIDED|80.0|0.13988|0.54663|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.54663|0.13988|0.0332
92221852|NCT00531752|184344065|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4184|STANDARD_ERROR_OF_MEAN|0.1681||0.0162|TWO_SIDED|80.0|0.20006|0.63674|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.63674|0.20006|0.0162
92221853|NCT00531752|184344066|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5103|STANDARD_ERROR_OF_MEAN|0.1103|<|0.0001|TWO_SIDED|80.0|0.36707|0.65345|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.65345|0.36707|<0.0001
92221854|NCT00531752|184344066|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3643|STANDARD_ERROR_OF_MEAN|0.1174||0.0031|TWO_SIDED|80.0|0.21189|0.51664|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.51664|0.21189|0.0031
92221855|NCT00531752|184344066|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1362|STANDARD_ERROR_OF_MEAN|0.09408||0.1553|TWO_SIDED|80.0|0.01366|0.25882|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.25882|0.01366|0.1553
92221856|NCT00531752|184344066|SUPERIORITY_OR_OTHER||LS Mean Difference|0.107|STANDARD_ERROR_OF_MEAN|0.09797||0.2809|TWO_SIDED|80.0|-0.0205|0.23458|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.23458|-0.0205|0.2809
92357273|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with vulvodynia?||||||0.0021|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0021
92221857|NCT00531752|184344066|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2195|STANDARD_ERROR_OF_MEAN|0.1146||0.0603|TWO_SIDED|80.0|0.07101|0.36803|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.36803|0.07101|0.0603
92221858|NCT00531752|184344066|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4278|STANDARD_ERROR_OF_MEAN|0.1212||0.0008|TWO_SIDED|80.0|0.27079|0.58479|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.58479|0.27079|0.0008
92221859|NCT00531752|184344067|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.3264|STANDARD_ERROR_OF_MEAN|2.6944|<|0.0001|TWO_SIDED|80.0|-16.83|-9.828|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-9.828|-16.83|<0.0001
92221860|NCT00531752|184344067|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.126|STANDARD_ERROR_OF_MEAN|2.8841||0.0068|TWO_SIDED|80.0|-11.87|-4.382|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-4.382|-11.87|0.0068
92221861|NCT00531752|184344067|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.5341|STANDARD_ERROR_OF_MEAN|2.3172||0.1346|TWO_SIDED|80.0|-6.551|-0.5175|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.5175|-6.551|0.1346
92221862|NCT00531752|184344067|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0911|STANDARD_ERROR_OF_MEAN|2.4268||0.6552|TWO_SIDED|80.0|-2.067|4.2494|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.2494|-2.067|0.6552
92221863|NCT00531752|184344067|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2001|STANDARD_ERROR_OF_MEAN|1.7614||0.0765|TWO_SIDED|80.0|-5.494|-0.9063|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.9063|-5.494|0.0765
92221864|NCT00531752|184344067|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8781|STANDARD_ERROR_OF_MEAN|1.8976||0.0473|TWO_SIDED|80.0|-6.349|-1.407|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.407|-6.349|0.0473
92357274|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of Hart's Line in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of Hart's Line in patients with impaired vulvar skin.||||0.0000
92357275|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Urethral Sulcus in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Urethral Sulcus in patients with impaired vulvar skin.||||0.0000
92357276|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Vestibule in patients with impaired vulvar skin?||||||0.0091|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Vestibule in patients with impaired vulvar skin.||||0.0091
92357277|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of the Urethral Meatus in patients with impaired vulvar skin?||||||0.0002|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of the Urethral Meatus in patients with impaired vulvar skin.||||0.0002
92163510|NCT02477670|184215159|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.37||||0.17|TWO_SIDED|95.0|-3.33|0.59|||ANCOVA|||||0.59|-3.33|0.1700
92163511|NCT02477670|184215160|SUPERIORITY||SPCD Weighted OLS z-statistic|0.53||||0.595|TWO_SIDED|95.0|-1.43|2.49|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||2.49|-1.43|0.595
92163512|NCT02477670|184215161|SUPERIORITY||SPCD Weighted OLS z-statistic|2.284||||0.022|TWO_SIDED|95.0|0.324|4.244|||ANCOVA|||||4.244|0.324|0.022
92163513|NCT02477670|184215162|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.17||||0.862|TWO_SIDED|95.0|-2.13|1.79|||ANCOVA|||||1.79|-2.13|0.862
92163514|NCT02477670|184215163|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.149||||0.251|TWO_SIDED|95.0|-3.109|0.811|||ANCOVA|||||0.811|-3.109|0.251
92221865|NCT02374099|184344125|SUPERIORITY||Hazard Ratio (HR)|0.87|||=|0.599|TWO_SIDED|95.0|0.54|1.42|||Log Rank||||Hazard ratio and associated two-sided 95% confidence intervals (CI) were estimated by the Cox proportional hazard models.|1.42|0.54|= 0.599
92221866|NCT02374099|184344126|SUPERIORITY||Difference in Response Rates|6.3|||=|0.1479|TWO_SIDED|95.0|-2.47|15.06|||Fisher Exact||||The two-sided 95% confidence interval for the difference in ORR was estimated by the Wilson method.|15.06|-2.47|= 0.1479
92163515|NCT02477670|184215164|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.159||||0.246|TWO_SIDED|95.0|-3.119|0.801|||ANCOVA|||||0.801|-3.119|0.246
92163516|NCT02477670|184215165|SUPERIORITY||SPCD Weighted OLS z-statistic|0.231||||0.818|TWO_SIDED|95.0|-1.729|2.191|||ANCOVA|||||2.191|-1.729|0.818
92163517|NCT02477670|184215166|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.04||||0.968|TWO_SIDED|95.0|-2.0|1.92|||ANCOVA|||||1.92|-2.00|0.968
92163518|NCT02477670|184215167|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.306||||0.76|TWO_SIDED|95.0|-2.266|1.654|||ANCOVA|||||1.654|-2.266|0.760
92163519|NCT02477670|184215168|SUPERIORITY||SPCD Weighted OLS z-statistic|1.243||||0.214|TWO_SIDED|95.0|-0.717|3.203|||ANCOVA|||||3.203|-0.717|0.214
92163520|NCT02477670|184215169|SUPERIORITY|||||||0.071|||||||SPCD 1 degree of freedom score test|||||||0.071
92163521|NCT02477670|184215170|SUPERIORITY||SPCD Weighted OLS z-statistic|0.951||||-0.06|TWO_SIDED|95.0|-1.009|2.911|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||2.911|-1.009|-0.06
92163522|NCT00970307|184215171|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: the upper limit of Standardised asymptotic 95% confidence interval lower or equal to 10% .|Difference in percentage|-0.76|||||TWO_SIDED|95.0|-4.21|2.22||||||||2.22|-4.21|
92163523|NCT00970307|184215172|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: the upper limit of Standardized asymptotic 95% confidence interval lower or equal to 10% .|Difference in percentage|-0.72|||||TWO_SIDED|95.0|-5.19|3.57||||||||3.57|-5.19|
92163524|NCT00831272|184215202|SUPERIORITY_OR_OTHER|||||||0.32|||||||Generalized Estimating Equation|||||||0.32
92163525|NCT01930045|184215214|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (GMR)|0.4||||0.507|TWO_SIDED|90.0|0.31|0.52|||Hochberg step-up procedure||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|The hypothesis is that the true Raltegravir C 12 hrs geometric mean ratio (GMR) is not less than 0.4||0.52|0.31|0.507
92163526|NCT01930045|184215214|SUPERIORITY_OR_OTHER||GMR|0.38||||0.624|TWO_SIDED|90.0|0.3|0.49|||Hochberg step-up procedure||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|The hypothesis is that the true Raltegravir C 12 hrs GMR is not less than 0.4||0.49|0.30|0.624
92163527|NCT01930045|184215215|SUPERIORITY_OR_OTHER||GMR|0.81|||||TWO_SIDED|90.0|0.63|1.05|||||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.05|0.63|
92163528|NCT01930045|184215215|SUPERIORITY_OR_OTHER||GMR|0.68|||||TWO_SIDED|90.0|0.5|0.92|||||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||0.92|0.50|
92163529|NCT01930045|184215216|SUPERIORITY_OR_OTHER||GMR|0.78|||||TWO_SIDED|90.0|0.55|1.1|||||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.10|0.55|
92163530|NCT01930045|184215216|SUPERIORITY_OR_OTHER||GMR|0.7|||||TWO_SIDED|90.0|0.48|1.04|||||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.04|0.48|
92221867|NCT02374099|184344127|SUPERIORITY||Difference in Clinical Benefit Rate|0.7|||=|0.1732|TWO_SIDED|95.0|-17.76|19.04|||Fisher Exact||||The two-sided 95% confidence interval for the difference in clinical benefit rate was estimated by the Wilson method.|19.04|-17.76|= 0.1732
92221868|NCT02374099|184344128|SUPERIORITY||Hazard Ratio (HR)|0.59|||=|0.2725|TWO_SIDED|95.0|0.23|1.53|||Log Rank||||Hazard Ratio and associated two-sided 95% CI were estimated by the Cox proportional hazard model.|1.53|0.23|= 0.2725
92357278|NCT02732145|184619251|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with impaired vulvar skin.||||0.0000
92357279|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Bartholin's Gland Opening in patients with impaired vulvar skin?||||||0.0013|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Bartholin's Gland Opening in patients with impaired vulvar skin.||||0.0013
92163531|NCT01930045|184215217|SUPERIORITY_OR_OTHER||GMR|0.5|||||TWO_SIDED|90.0|0.39|0.65|||||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|The hypothesis is that the true Raltegravir C 12 hrs GMR is not less than 0.4||0.65|0.39|
92163532|NCT01930045|184215217|SUPERIORITY_OR_OTHER||GMR|0.51|||||TWO_SIDED|90.0|0.4|0.64|||||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|The hypothesis is that the true Raltegravir C 12 hrs GMR is not less than 0.4||0.64|0.40|
92163533|NCT01930045|184215218|SUPERIORITY_OR_OTHER||GMR|0.87|||||TWO_SIDED|90.0|0.64|1.18|||||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.18|0.64|
92163534|NCT01930045|184215218|SUPERIORITY_OR_OTHER||GMR|0.89|||||TWO_SIDED|90.0|0.64|1.22|||||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.22|0.64|
92163535|NCT01930045|184215219|SUPERIORITY_OR_OTHER||GMR|0.9|||||TWO_SIDED|90.0|0.58|1.4|||||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.40|0.58|
92163536|NCT01930045|184215219|SUPERIORITY_OR_OTHER||GMR|0.9|||||TWO_SIDED|90.0|0.58|1.41|||||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.41|0.58|
92163537|NCT00864682|184215243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Kruskal-Wallis|||Hypothesis: Lidocaine / propofol admixture would be superior to lidocaine pretreatment for attenuating propofol-induced injection pain. Sample size calculated to detect a difference of at least 2 VPS points; beta 0.8.||||<0.0001
92163538|NCT00864682|184215244|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.008||95.0|||||Chi-squared|Fisher's exact test after chi-squared||||||<0.008
92401443|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.423|TWO_SIDED|95.0|-1.14|0.48||P-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.48|-1.14|0.423
92163539|NCT01193153|184215285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.49|||<|0.001|TWO_SIDED|95.0|1.55|3.99|||Log Rank|||All participants: p-value was calculated using log-rank test.||3.99|1.55|<0.001
92163540|NCT01193153|184215285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.38||||0.002|TWO_SIDED|95.0|1.57|7.28|||Regression, Cox|||Monotherapy subset: Hazard ratio and corresponding p-value, and 95% Confidence Interval (CI) were calculated from Cox proportional hazard regression model.||7.28|1.57|0.002
92163541|NCT01193153|184215285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.03||||0.021|TWO_SIDED|95.0|1.11|3.68|||Regression, Cox|||Adjunct therapy subset: Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||3.68|1.11|0.021
92163542|NCT01193153|184215285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.82|||<|0.001|TWO_SIDED|95.0|1.7|4.67|||Regression, Cox|||Psychotic Symptoms: Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||4.67|1.70|<0.001
92163543|NCT01193153|184215285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.93|||<|0.001|TWO_SIDED|95.0|1.7|5.04|||Regression, Cox|||Mood Symptoms (Any Mood Symptoms):Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||5.04|1.70|<0.001
92163544|NCT01193153|184215285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.62||||0.012|TWO_SIDED|95.0|1.32|9.89|||Regression, Cox|||Mood Symptoms (Manic): Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||9.89|1.32|0.012
92163545|NCT01193153|184215285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.12||||0.006|TWO_SIDED|95.0|1.39|6.98|||Regression, Cox|||Mood Symptoms (Depressive): Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||6.98|1.39|0.006
92163546|NCT01193153|184215285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.93||||0.238|TWO_SIDED|95.0|0.65|5.78|||Regression, Cox|||Mood Symptoms (Mixed): Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||5.78|0.65|0.238
92163547|NCT01193153|184215286|SUPERIORITY_OR_OTHER||Least Square Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|1.33||0.014|TWO_SIDED|95.0|0.68|5.95||P-value based on change from DB baseline in PSP score and was analyzed using mixed-model repeated measures analysis of covariance based on observed data; within-participant repeated measures were modeled using an unstructured covariance matrix.|MMRM ANCOVA|||The null hypothesis is that there is no difference in the mean of the PSP total score between the two treatment groups.||5.95|0.68|0.014
92163548|NCT01193153|184215288|SUPERIORITY_OR_OTHER||Least Square Mean Difference|4.5|||<|0.001|TWO_SIDED|95.0|1.94|7.15||Change at Endpoint (Week 64/LOCF)|ANCOVA|||||7.15|1.94|<0.001
92163549|NCT02503202|184215298|EQUIVALENCE|Lot consistency requires the 95% confidence interval of the GMT ratio of \>0.5 and ≤2.0 for the primary analysis and \>0.67 and ≤1.5 for the secondary analysis.|GMT ratio (Lot A / Lot B)|0.94|||<|0.001|TWO_SIDED|95.0|0.77|1.14||Primary analysis: a p-value \<0.025 supported the conclusion of equivalence. If equivalence was established for the 3 pairwise comparisons, the lots would be considered to be consistent.|ANOVA|||||1.14|0.77|<0.001
92221869|NCT01033825|184344159|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be demonstrated if the 95% CI upper bound for the difference between ciclesonide and placebo with placebo dexamethasone (placebo minus ciclesonide) is \<Margin. In order to have 90% power to demonstrate non-inferiority of ciclesonide 320 μg to HFA placebo, 46 evaluable subjects per group are needed using a 1-sided alpha level of 0.025, a standard deviation of 55 μg h/dL, a non-inferiority margin of 38 μh /dL, assuming no true difference exists.|Mean Difference (Final Values)|-0.5|||>|0.05|TWO_SIDED|95.0|-13.9|13.0|||ANCOVA||Null Hypothesis: the difference in serum cortisol levels between placebo and active (placebo-active)\>=38 Alternative Hypothesis: the difference in serum cortisol levels between placebo and active (placebo-active)\<38|Standard bioequivalence bounds of a 20% difference based on the clinical judgment was used to determine the delta.||13.0|-13.9|>0.05
92221870|NCT01033825|184344159|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be demonstrated if the 95% CI upper bound for the difference between ciclesonide and placebo with placebo dexamethasone (placebo minus ciclesonide) is \<Margin. In order to have 90% power to demonstrate non-inferiority of ciclesonide 320 μg to HFA placebo, 46 evaluable subjects per group are needed using a 1-sided alpha level of 0.025, a standard deviation of 55 μg h/dL, a non-inferiority margin of 38 μh /dL, assuming no true difference exists.|Mean Difference (Final Values)|-2.4||||0.025|TWO_SIDED|95.0|-15.1|10.2|||ANCOVA|||Standard bioequivalence bounds of a 20% difference based on the clinical judgment was used to determine the delta.||10.2|-15.1|0.025
92221871|NCT01033825|184344159|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be demonstrated if the 95% CI upper bound for the difference between ciclesonide and placebo with placebo dexamethasone (placebo minus ciclesonide) is \<Margin. In order to have 90% power to demonstrate non-inferiority of ciclesonide nasal spray 200 μg to placebo nasal spray 46 evaluable (per protocol) subjects per group are needed using a 1-sided alpha level of 0.025, a standard deviation of 55 μg h/dL, a non-inferiority margin of 38 μh /dL|Mean Difference (Final Values)|10.4|||>|0.05|TWO_SIDED|95.0|-4.7|25.5|||ANCOVA|||Standard bioequivalence bounds of a 20% difference based on the clinical judgment was used to determine the delta.||25.5|-4.7|>0.05
92221872|NCT01883635|184344195|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||t-test, 2 sided|degrees of freedom=40||||||0.14
92221873|NCT01883635|184344196|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||t-test, 2 sided|degrees of freedom=40||||||0.65
92221874|NCT01883635|184344197|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|degrees of freedom=40||||||0.51
92221875|NCT02572752|184344198|SUPERIORITY_OR_OTHER||gMean Ratio|97.478|STANDARD_ERROR_OF_MEAN|11.57|<|0.0001|TWO_SIDED|90.0|94.545|100.502|||ANOVA||Relative bioavailability was estimated by the ratios of the gMean of nin Test treatment (T) divided by nin Reference treatment (R1 \& R2). Standard Error of the mean is actually the intra individual geometric coefficient variation (gCV).|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment (without differentiation between R1 and R2). This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. For the two 1-sided t-test procedure, the effect 'subjects within sequences' was considered to be random, whereas the other effects were considered to be fixed||100.502|94.545|<0.0001
92221876|NCT02572752|184344199|SUPERIORITY_OR_OTHER||gMean Ratio|97.004|STANDARD_ERROR_OF_MEAN|20.77|<|0.0001|TWO_SIDED|90.0|90.948|103.463|||ANOVA||Relative bioavailability was estimated by the ratios of the gMean of nin Test treatment (T) divided by nin Reference treatment (R1 \& R2). Standard Error of the mean is actually the intra individual geometric coefficient variation (gCV).|An ANOVA model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment (without differentiation between R1 and R2). This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. For the two 1-sided t-test procedure, the effect 'subjects within sequences' was considered to be random, whereas the other effects were considered to be fixed.||103.463|90.948|<0.0001
92221877|NCT02572752|184344200|SUPERIORITY_OR_OTHER||gMean Ratio|97.149|STANDARD_DEVIATION|11.4|<|0.0001|TWO_SIDED|90.0|94.223|100.166|||ANOVA||Relative bioavailability was estimated by the ratios of the gMean of nin Test treatment (T) divided by nin Reference treatment (R1 \& R2). Standard Error of the mean is actually the intra individual geometric coefficient variation (gCV).|An ANOVA model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment (without differentiation between R1 and R2). This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. For the two 1-sided t-test procedure, the effect 'subjects within sequences' was considered to be random, whereas the other effects were considered to be fixed||100.166|94.223|<0.0001
92221878|NCT01464307|184344201|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.0||||0.777|TWO_SIDED|95.0|-0.1|0.2|||Mixed-Model Repeated Measures|||The number of subjects included in the MMRM analysis was only 286 because a covariate was missing for 3 subjects.||0.2|-0.1|0.777
92221879|NCT01464307|184344202|SUPERIORITY_OR_OTHER|||||||0.804||||||worst-case analysis.|Wilcoxon's Rank-Sum Test|||The statistical analysis provided was for all categories of this outcome measure.||||0.804
92221880|NCT01464307|184344203|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.845|TWO_SIDED|95.0|0.63|1.74||observed cases analysis.|Regression, Logistic|||Week 4. Number of subjects included in analysis was three less than the observed cases because of a missing covariate for the logistic regression analysis, that is, n=283 for week 4.||1.74|0.63|0.845
92221881|NCT01464307|184344203|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.437|TWO_SIDED|95.0|0.73|2.04||observed cases analysis.|Regression, Logistic|||Week 8. Number of subjects included in analysis was three less than the observed cases because of a missing covariate for the logistic regression analysis, that is, n=279 for week 8.||2.04|0.73|0.437
92221882|NCT01464307|184344203|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.698|TWO_SIDED|95.0|0.59|2.21||observed cases analysis.|Regression, Logistic|||Week 12. Number of subjects included in analysis was three less than the observed cases because of a missing covariate for the logistic regression analysis, that is, n=273 for week 12.||2.21|0.59|0.698
92221883|NCT03099187|184344217|SUPERIORITY||Difference in Group Means|-134.6||||0.6777|TWO_SIDED|95.0|-772.4|503.3||p-value was not adjusted for multiplicity and is provided for descriptive purpose only|t-test, 2 sided|||Primary Analysis in 2019. Mean FVC decline comparison between treatment groups using a Student's t-test with a two-sided significance level of 0.05||503.3|-772.4|0.6777
92357280|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of the Urethral Meatus in patients with impaired vulvar skin?||||||0.0001|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of the Urethral Meatus in patients with impaired vulvar skin.||||0.0001
92357281|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with impaired vulvar skin.||||0.0000
92357282|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Bartholin's Gland Opening in patients with impaired vulvar skin?||||||0.0008|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Bartholin's Gland Opening in patients with impaired vulvar skin.||||0.0008
92357283|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with impaired vulvar skin?||||||0.0251|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with impaired vulvar skin.||||0.0251
92221884|NCT03099187|184344217|SUPERIORITY||Difference in Group Means|-216.0||||0.4682|TWO_SIDED|95.0|-803.6|371.7||p-value was not adjusted for multiplicity and is provided for descriptive purpose only|Student's t-test|||Final Analysis in 2020. Mean FVC decline comparison between treatment groups using a Student's t-test with a two-sided significance level of 0.05||371.7|-803.6|0.4682
92221885|NCT03099187|184344218|SUPERIORITY|||||||0.0383|||||||rank ANCOVA|||Primary Analysis in 2019||||0.0383
92221886|NCT03099187|184344218|SUPERIORITY|||||||0.0239|||||||rank ANCOVA|||Final Analysis in 2020||||0.0239
92221887|NCT03099187|184344219|SUPERIORITY||Overall Mean Difference|95.3||||0.0018|TWO_SIDED|95.0|35.9|154.6||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Student's t-test|||Primary Analysis in 2019||154.6|35.9|0.0018
92221888|NCT03099187|184344219|SUPERIORITY||Overall Mean Difference|84.3||||0.0096|TWO_SIDED|95.0|20.7|147.8||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Student's t-test|||Final Analysis in 2020||147.8|20.7|0.0096
92221889|NCT03099187|184344220|SUPERIORITY||Odds Ratio (OR)|0.42||||0.0006|TWO_SIDED|95.0|0.25|0.69||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Cochran-Mantel-Haenszel|||Primary Analysis in 2019||0.69|0.25|0.0006
92221890|NCT03099187|184344220|SUPERIORITY||Odds Ratio (OR)|0.43||||0.0009|TWO_SIDED|95.0|0.26|0.71||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Cochran-Mantel-Haenszel|||Final Analysis in 2020||0.71|0.26|0.0009
92221891|NCT03099187|184344221|SUPERIORITY||Odds Ratio (OR)|0.44||||0.0114|TWO_SIDED|95.0|0.23|0.84||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Cochran-Mantel-Haenszel|||Primary Analysis in 2019||0.84|0.23|0.0114
92221892|NCT03099187|184344221|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0168|TWO_SIDED|95.0|0.24|0.88||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Cochran-Mantel-Haenszel|||Final Analysis in 2020||0.88|0.24|0.0168
92221893|NCT03099187|184344222|SUPERIORITY|||||||0.0874||||||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|rank ANCOVA|||Primary Analysis in 2019||||0.0874
92221894|NCT03099187|184344222|SUPERIORITY|||||||0.1191||||||p-values are not adjusted for multiplicity and are provided for descriptive purpose only.|rank ANCOVA|||Final Analysis in 2020||||0.1191
92221895|NCT03099187|184344223|SUPERIORITY|||||||0.0395||||||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|rank ANCOVA|||Primary Analysis in 2019||||0.0395
92357284|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with impaired vulvar skin?||||||0.0006|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with impaired vulvar skin.||||0.0006
92357285|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of Hart's Line in patients with vulvar dermatosis?||||||0.0211|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of Hart's Line in patients with vulvar dermatosis.||||0.0211
92357286|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Urethral Sulcus in patients with vulvar dermatosis?||||||0.3067|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Urethral Sulcus in patients with vulvar dermatosis.||||0.3067
92357287|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Urethral Meatus in patients with vulvar dermatosis?||||||0.0295|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Urethral Meatus in patients with vulvar dermatosis.||||0.0295
92221896|NCT03099187|184344223|SUPERIORITY|||||||0.0299||||||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|rank ANCOVA|||Final Analysis in 2020||||0.0299
92221897|NCT03099187|184344224|SUPERIORITY||Hodges-Lehmann Median Difference|0.0||||0.7788|TWO_SIDED|95.0|-5.0|5.0|||rank ANCOVA|Analysis of Covariance Changes from baseline to week 24 are compared between the treatment arms using a rank ANCOVA.||Primary Analysis in 2019||5.00|-5.00|0.7788
92221898|NCT03099187|184344224|SUPERIORITY||Hodges-Lehmann Median Difference|0.0||||0.8289|TWO_SIDED|95.0|-5.0|5.0||Analysis of Covariance Changes from baseline to week 24 or early discontinuation visit are compared between the treatment arms using a rank ANCOVA with change from baseline as outcome variable and standardized rank baseline value as covariate|rank ANCOVA|||Final Analysis in 2020||5.00|-5.00|0.8289
92221899|NCT03099187|184344225|SUPERIORITY||Hodges-Lehmann Median difference|0.29||||0.1872|TWO_SIDED|95.0|-0.45|1.04||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|rank ANCOVA|Analysis of Covariance Changes from baseline to week 24 are compared between the treatment arms using a rank ANCOVA.||Primary Analysis in 2019||1.04|-0.45|0.1872
92221900|NCT03099187|184344225|SUPERIORITY||Hodges-Lehmann Median Difference|0.27||||0.2019|TWO_SIDED|95.0|-0.48|1.02||Analysis of Covariance Changes from baseline to week 24 or early discontinuation visit are compared between the treatment arms using a rank ANCOVA with change from baseline as outcome variable and standardized rank baseline value as covariate.|rank ANCOVA|||Final Analysis in 2020||1.02|-0.48|0.2019
92221901|NCT03099187|184344226|SUPERIORITY||Hodges-Lehmann Median Difference|-2.0||||0.2995|TWO_SIDED|95.0|-10.0|4.0|||rank ANCOVA|Analysis of Covariance Changes from baseline to week 24 are compared between the treatment arms using a rank ANCOVA.||Primary Analysis in 2019||4.00|-10.00|0.2995
92221902|NCT03099187|184344226|SUPERIORITY||Hodges-Lehmann Median Difference|-2.0||||0.3372|TWO_SIDED|95.0|-10.0|4.0||Analysis of Covariance Changes from baseline to week 24 or early discontinuation visit are compared between the treatment arms using a rank ANCOVA with change from baseline as outcome variable and standardized rank baseline value as covariate.|rank ANCOVA|||Final Analysis in 2020||4.00|-10.00|0.3372
92221903|NCT03099187|184344227|SUPERIORITY||Hodges-Lehmann Median Difference|-1.86||||0.163|TWO_SIDED|95.0|-5.06|1.38|||rank ANCOVA|Analysis of Covariance Changes from baseline to week 24 are compared between the treatment arms using a rank ANCOVA.||Primary Analysis in 2019||1.38|-5.06|0.1630
92401444|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.333|TWO_SIDED|95.0|-1.04|0.35||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||0.35|-1.04|0.333
92163550|NCT02503202|184215298|EQUIVALENCE|Lot consistency requires the 95% confidence interval of the GMT ratio of \>0.5 and ≤2.0 for the primary analysis and \>0.67 and ≤1.5 for the secondary analysis.|GMT ratio (Lot A / Lot C)|0.88|||<|0.001|TWO_SIDED|95.0|0.71|1.09||Primary analysis: a p-value \<0.025 supported the conclusion of equivalence. If equivalence was established for the 3 pairwise comparisons, the lots would be considered to be consistent.|ANOVA|||||1.09|0.71|<0.001
92163551|NCT02503202|184215298|EQUIVALENCE|Lot consistency requires the 95% confidence interval of the GMT ratio of \>0.5 and ≤2.0 for the primary analysis and \>0.67 and ≤1.5 for the secondary analysis.|GMT ratio (Lot B / Lot C)|0.94|||<|0.001|TWO_SIDED|95.0|0.77|1.15||Primary analysis: a p-value \<0.025 supported the conclusion of equivalence. If equivalence was established for the 3 pairwise comparisons, the lots would be considered to be consistent.|ANOVA|||||1.15|0.77|<0.001
92163552|NCT02503202|184215299|OTHER||Risk Difference (RD)|1.1||||0.368|TWO_SIDED|95.0|-1.5|4.0|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|||4.0|-1.5|0.368
92163553|NCT02503202|184215299|OTHER||Risk Difference (RD)|0.0||||0.989|TWO_SIDED|95.0|-3.1|3.0|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|||3.0|-3.1|0.989
92163554|NCT02503202|184215299|OTHER||Risk Difference (RD)|-1.1||||0.361|TWO_SIDED|95.0|-4.1|1.5|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|||1.5|-4.1|0.361
92163555|NCT02503202|184215299|OTHER||Risk Difference (RD)|1.2||||0.214|TWO_SIDED|95.0|-1.7|3.3|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|||3.3|-1.7|0.214
92163556|NCT02503202|184215300|OTHER||Risk Difference (RD)|4.1||||0.16|TWO_SIDED|95.0|-1.6|9.9|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|Injection site erythema||9.9|-1.6|0.160
92163557|NCT02503202|184215300|OTHER||Risk Difference (RD)|-0.1||||0.971|TWO_SIDED|95.0|-6.2|6.0|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|Injection site erythema||6.0|-6.2|0.971
92163558|NCT02503202|184215300|OTHER||Risk Difference (RD)|-4.2||||0.151|TWO_SIDED|95.0|-10.0|1.5|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|Injection site erythema||1.5|-10.0|0.151
92163559|NCT02503202|184215300|OTHER||Risk Difference (RD)|5.8||||0.016|TWO_SIDED|95.0|1.4|9.9|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|Injection site erythema||9.9|1.4|0.016
92163560|NCT02503202|184215300|OTHER||Risk Difference (RD)|-6.2||||0.12|TWO_SIDED|95.0|-14.0|1.6|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|Injection site pain||1.6|-14.0|0.120
92163561|NCT02503202|184215300|OTHER||Risk Difference (RD)|-3.5||||0.38|TWO_SIDED|94.0|-11.4|4.4|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|Injection site pain||4.4|-11.4|0.380
92163562|NCT02503202|184215300|OTHER||Risk Difference (RD)|2.7||||0.499|TWO_SIDED|95.0|-5.1|10.4|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|Injection site pain||10.4|-5.1|0.499
92163563|NCT02503202|184215300|OTHER||Risk Difference (RD)|54.9|||<|0.001|TWO_SIDED|95.0|46.2|62.3|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|Injection site pain||62.3|46.2|<0.001
92163564|NCT02503202|184215300|OTHER||Risk Difference (RD)|4.0||||0.202|TWO_SIDED|95.0|-2.2|10.3|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|Injection site swelling||10.3|-2.2|0.202
92163565|NCT02503202|184215300|OTHER||Risk Difference (RD)|-0.5||||0.878|TWO_SIDED|95.0|-7.1|6.1|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|Injection site swelling||6.1|-7.1|0.878
92163566|NCT02503202|184215300|OTHER||Risk Difference (RD)|-4.6||||0.154|TWO_SIDED|95.0|-10.9|1.7|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|Injection site swelling||1.7|-10.9|0.154
92163567|NCT02503202|184215300|OTHER||Risk Difference (RD)|13.1|||<|0.001|TWO_SIDED|95.0|7.4|18.6|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|Injection site swelling||18.6|7.4|<0.001
92163568|NCT02503202|184215301|OTHER||Risk Difference (RD)|4.6||||0.176|TWO_SIDED|95.0|-2.1|11.4|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|||11.4|-2.1|0.176
92163569|NCT02503202|184215301|OTHER||Risk Difference (RD)|-1.1||||0.769|TWO_SIDED|95.0|-8.2|6.0|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|||6.0|-8.2|0.769
92163570|NCT02503202|184215301|OTHER||Risk Difference (RD)|-5.7||||0.1|TWO_SIDED|95.0|-12.5|1.1|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|||1.1|-12.5|0.100
92163571|NCT02503202|184215301|OTHER||Risk Difference (RD)|31.4|||<|0.001|TWO_SIDED|95.0|25.6|37.5|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|||37.5|25.6|<0.001
92163572|NCT02503202|184215302|OTHER||Risk Difference (RD)|0.0||||0.983|TWO_SIDED|95.0|-4.2|4.1|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|Arthralgia||4.1|-4.2|0.983
92163573|NCT02503202|184215302|OTHER||Risk Difference (RD)|-0.8||||0.699|TWO_SIDED|95.0|-5.1|3.4|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|Arthralgia||3.4|-5.1|0.699
92163574|NCT02503202|184215302|OTHER||Risk Difference (RD)|-0.8||||0.716|TWO_SIDED|95.0|-5.1|3.5|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|Arthralgia||3.5|-5.1|0.716
92163575|NCT02503202|184215302|OTHER||Risk Difference (RD)|6.2||||0.012|TWO_SIDED|95.0|1.8|10.4|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|Arthralgia||10.4|1.8|0.012
92163576|NCT02503202|184215302|OTHER||Risk Difference (RD)|0.7||||0.677|TWO_SIDED|95.0|-2.9|4.4|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|Arthritis||4.4|-2.9|0.677
92163577|NCT02503202|184215302|OTHER||Risk Difference (RD)|1.9||||0.25|TWO_SIDED|95.0|-1.4|5.4|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|Arthritis||5.4|-1.4|0.250
92163578|NCT02503202|184215302|OTHER||Risk Difference (RD)|1.1||||0.46|TWO_SIDED|95.0|-2.1|4.5|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|Arthritis||4.5|-2.1|0.460
92163579|NCT02503202|184215302|OTHER||Risk Difference (RD)|3.1||||0.041|TWO_SIDED|95.0|0.2|6.0|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|Arthritis||6.0|0.2|0.041
92163580|NCT02503202|184215303|OTHER||Risk Difference (RD)|-1.5||||0.353|TWO_SIDED|95.0|-5.1|1.9|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|||1.9|-5.1|0.353
92163581|NCT02503202|184215303|OTHER||Risk Difference (RD)|-0.8||||0.62|TWO_SIDED|95.0|-4.2|2.5|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|||2.5|-4.2|0.620
92163582|NCT02503202|184215303|OTHER||Risk Difference (RD)|0.8||||0.663|TWO_SIDED|95.0|-2.9|4.5|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|||4.5|-2.9|0.663
92163583|NCT02503202|184215303|OTHER||Risk Difference (RD)|2.3||||0.202|TWO_SIDED|95.0|-1.8|5.7|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|||5.7|-1.8|0.202
92163584|NCT02503202|184215304|OTHER||Risk Difference (RD)|0.7||||0.483|TWO_SIDED|95.0|-1.6|3.3|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|||3.3|-1.6|0.483
92163585|NCT02503202|184215304|OTHER||Risk Difference (RD)|0.4||||0.746|TWO_SIDED|95.0|-2.2|3.0|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|||3.0|-2.2|0.746
92163586|NCT02503202|184215304|OTHER||Risk Difference (RD)|-0.4||||0.704|TWO_SIDED|95.0|-2.8|2.0|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|||2.0|-2.8|0.704
92163587|NCT02503202|184215304|OTHER||Risk Difference (RD)|1.5||||0.151|TWO_SIDED|95.0|-1.3|3.9|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|||3.9|-1.3|0.151
92163588|NCT04897737|184215338|SUPERIORITY||Risk Ratio (RR)|1.83|||<|0.001|TWO_SIDED|95.0|1.19|2.82|||Mixed Models Analysis|||All analyses were by intention-to-treat. In the case of missing outcomes for participants who did not return for the follow-up visit, we assigned outcome values of the following: poor PrEP adherence (TFV undetected) and partner not tested for HIV. We constructed univariate Poisson regression models with robust standard errors to examine the predictors of outcomes of interests. Model results are presented as crude risk ratios (RRs) and risk differences (RDs) with 95% CIs.||2.82|1.19|<0.001
92163589|NCT04897737|184215339|SUPERIORITY||Risk Ratio (RR)|3.89|||<|0.001|TWO_SIDED|95.0|2.08|7.27|||Regression, Linear|||All analyses were by intention-to-treat. In the case of missing outcomes for participants who did not return for the follow-up visit, we assigned outcome values of the following: poor PrEP adherence (TFV undetected) and partner not tested for HIV. We constructed univariate Poisson regression models with robust standard errors to examine the predictors of outcomes of interests. Model results are presented as crude risk ratios (RRs) and 95% CIs.|RD=49.1% (95% CI=32.8, 65.3), p\<0.001|7.27|2.08|<0.001
92163590|NCT04059237|184215342|OTHER||||||<|0.001||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||<0.001
92163591|NCT04059237|184215343|OTHER||||||<|0.001||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||<.001
92163592|NCT04059237|184215344|OTHER||||||<|0.001||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||<0.001
92163593|NCT04059237|184215345|OTHER|||||||0.1||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||0.10
92163594|NCT04059237|184215346|OTHER|||||||0.01||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||.01
92163595|NCT04059237|184215347|OTHER|||||||0.59||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||0.59
92163596|NCT04059237|184215348|OTHER|||||||0.02||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||0.02
92163597|NCT04059237|184215349|OTHER|||||||0.52||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||0.52
92163598|NCT04059237|184215350|OTHER|||||||0.08||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||0.08
92163599|NCT03951649|184215358|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||0.30
92163600|NCT03951649|184215359|SUPERIORITY||||||>|0.99||||||The p-value was calculated using a 2 sided Wilcoxon rank sum test.|Wilcoxon (Mann-Whitney)|||||||>0.99
92163601|NCT03951649|184215360|SUPERIORITY|||||||0.19|||||||Chi-squared|||||||0.19
92163602|NCT03951649|184215361|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
92163603|NCT03951649|184215362|SUPERIORITY|||||||1||||||P-value was calculated|Fisher Exact|||||||1.00
92163604|NCT03951649|184215363|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.61
92163605|NCT03951649|184215364|SUPERIORITY|||||||0.43|||||||Fisher Exact|||||||0.43
92163606|NCT03951649|184215366|SUPERIORITY|||||||0.19|||||||Fisher Exact|||||||0.19
92163607|NCT03951649|184215367|SUPERIORITY|||||||0.18|||||||Fisher Exact|||||||0.18
92163608|NCT03951649|184215368|SUPERIORITY|||||||0.92|||||||Fisher Exact|||||||0.92
92163609|NCT03951649|184215369|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92163610|NCT03951649|184215370|SUPERIORITY|||||||0.14|||||||Fisher Exact|||||||0.14
92163611|NCT03951649|184215371|SUPERIORITY|||||||0.23|||||||Fisher Exact|||||||0.23
92163612|NCT00758602|184215383|SUPERIORITY_OR_OTHER||LS Mean difference|0.6581||||0.0813|TWO_SIDED|95.0|-0.08|1.4||p-value, least squares (LS) mean difference, and 95% confidence interval (CI) based on analysis of covariance (ANCOVA) model with treatment, center, and the treatment-by-center interaction as fixed effects, and the donor age as a covariate.|ANCOVA|||||1.40|-0.08|0.0813
92221904|NCT03099187|184344227|SUPERIORITY||Hodges-Lehmann Median Difference|-1.74||||0.1851|TWO_SIDED|95.0|-5.0|1.55||Analysis of Covariance Changes from baseline to week 24 or early discontinuation visit are compared between the treatment arms using a rank ANCOVA with change from baseline as outcome variable and standardized rank baseline value as covariate.|rank ANCOVA|||Final Analysis in 2020||1.55|-5.00|0.1851
92221905|NCT03099187|184344228|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.5922|TWO_SIDED|95.0|0.59|2.49|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.|Hazard ratios and corresponding 95% CI are calculated by applying Cox-proportional hazard models.|Primary Analysis in 2019. All-cause non-elective hospitalization.||2.49|0.59|0.5922
92221906|NCT03099187|184344228|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.8057|TWO_SIDED|95.0|0.26|2.83|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.|Hazard ratios and corresponding 95% CI are calculated by applying Cox-proportional hazard models.|Primary Analysis in 2019. Respiratory non-elective hospitalization.||2.83|0.26|0.8057
92221907|NCT03099187|184344228|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.4613|TWO_SIDED|95.0|0.63|2.73|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.|Hazard ratios and corresponding 95% CI are calculated by applying Cox-proportional hazard models|Final Analysis in 2020. All-cause non-elective hospitalization.||2.73|0.63|0.4613
92221908|NCT03099187|184344228|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9523|TWO_SIDED|95.0|0.3|3.59|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.|Hazard ratios and corresponding 95% CI are calculated by applying Cox-proportional hazard models.|Final Analysis in 2020. Respiratory non-elective hospitalization.||3.59|0.30|0.9523
92221909|NCT03099187|184344230|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.7871|TWO_SIDED|95.0|0.26|2.78|||Log Rank|||||2.78|0.26|0.7871
92221910|NCT03099187|184344231|SUPERIORITY||Cox Proportional Hazard|0.84||||0.366|TWO_SIDED|95.0|0.56|1.24|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||Primary Analysis in 2019||1.24|0.56|0.3660
92221911|NCT03099187|184344231|SUPERIORITY||Cox Proportional Hazard|0.85||||0.4173|TWO_SIDED|95.0|0.57|1.26|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||Final Analysis in 2020||1.26|0.57|0.4173
92221912|NCT03099187|184344232|SUPERIORITY||Cox Proportional Hazard|0.79||||0.2726|TWO_SIDED|95.0|0.52|1.2|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||Primary Analysis in 2019||1.20|0.52|0.2726
92221913|NCT03099187|184344232|SUPERIORITY||Cox Proportional Hazard|0.82||||0.3386|TWO_SIDED|95.0|0.54|1.24|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||Final Analysis in 2020||1.24|0.54|0.3386
92221914|NCT03099187|184344233|SUPERIORITY||Cox Proportional Hazard|1.01||||0.9969|TWO_SIDED|95.0|0.06|16.08|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||||16.08|0.06|0.9969
92357288|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of Hymenal Remnants in patients with vulvar dermatosis?||||||0.0149|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of Hymenal Remnants in patients with vulvar dermatosis.||||0.0149
92221915|NCT03099187|184344234|SUPERIORITY|||||||0.3231|||||||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||||||0.3231
92221916|NCT02701387|184344247|SUPERIORITY_OR_OTHER||||||<|0.01||||||"A 2-factor (implant type x time interval) nonparametric analysis for longitudinal data (Brunner et al. 2002) was used to compare test and control implants across time (baseline + four intervals). The R package nparLD was used (Noguchi et al. 2012)."|nonparametric for longitudinal|||Comparison of ISQ over time. Due to the high number of intervals (T0-T8) relative to the number of observations, data were combined for analysis purposes into 5 comparable intervals as follows: Baseline (T0, unchanged); Tr1=Average of follow-up weeks T1 and T2, Tr2=Average of follow-up weeks T3 and T4; Tr3=Average of follow-up weeks T5 and T6; Tr4=Average of follow-up weeks T7 and T8||||<0.01
92221917|NCT00894556|184344248|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Generalized Linear Mixed Model (GLIMMIX)|An unstructured covariance matrix was used to model the correlation among repeated measurements within patient.||||||<0.001
92221918|NCT00894556|184344249|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Generalized Linear Mixed Model (GLIMMIX)|An unstructured covariance matrix was used to model the correlation among repeated measurements within patient.||||||<0.001
92221919|NCT04869345|184344251|SUPERIORITY||Odds Ratio (OR)|0.67||||0.684|TWO_SIDED|95.0|0.13|3.05||A priori threshold for statistical significance = 0.05.|Boschloo Test||Maximum likelihood estimate of the Odds Ratio comparing retention rate in LARKSPUR group to Attention Control group|||3.05|0.13|.684
92221920|NCT04869345|184344254|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|1.28||0.835|TWO_SIDED|95.0|-2.8|2.27||The threshold for statistical significance was 0.05.|Mixed Models Analysis|P-value adjusted using the Kenward-Roger (1997) degrees of freedom method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Intensity scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||2.27|-2.80|0.835
92221921|NCT04869345|184344254|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.29||0.732|TWO_SIDED|95.0|-2.12|3.0||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Intensity scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||3.00|-2.12|0.732
92357289|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis?||||||0.0007|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis.||||0.0007
92221922|NCT04869345|184344254|SUPERIORITY||Mean Difference (Net)|0.71|STANDARD_ERROR_OF_MEAN|1.38||0.609|TWO_SIDED|95.0|-2.05|3.47||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Intensity scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||3.47|-2.05|0.609
92221923|NCT04869345|184344255|SUPERIORITY||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|1.08||0.445|TWO_SIDED|95.0|-2.97|1.31||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Interference scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||1.31|-2.97|0.445
92163613|NCT00758602|184215384|SUPERIORITY_OR_OTHER||LS Mean difference|-1.5977||||0.7949|TWO_SIDED|95.0|-13.77|10.58||p-value, LS mean difference, and 95% CI based on ANCOVA model with treatment, center, and the treatment-by-center interaction as fixed effects, and the donor age as a covariate.|ANCOVA|||||10.58|-13.77|0.7949
92163614|NCT00758602|184215385|SUPERIORITY_OR_OTHER|||||||0.6812|||||||Fisher Exact|||Acute rejection, 6 months post-transplant||||0.6812
92163615|NCT00758602|184215385|SUPERIORITY_OR_OTHER|||||||0.6812|||||||Fisher Exact|||Acute rejection, 12 months post-transplant||||0.6812
92163616|NCT00758602|184215385|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Death, 12 months post-transplant||||1.0000
92163617|NCT00758602|184215387|SUPERIORITY_OR_OTHER|||||||1|||||||Log Rank|||||||1.0000
92163618|NCT00758602|184215388|SUPERIORITY_OR_OTHER|||||||0.4586|||||||Fisher Exact|||||||0.4586
92163619|NCT00758602|184215389|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92163620|NCT02371746|184215403|SUPERIORITY||Change from baseline|30.4|STANDARD_DEVIATION|1.84|<|0.001|TWO_SIDED|95.0|-1.8|36.6|||ANCOVA|||estimatCohort 1 all Groups: Non-study eye: TRAVANTAN Z Cohort 1 - Group 1: Study Eye: 28.2 ug travoprost Cohort 1 - Group 2: Study Eye: 42.3 ug travoprost Cohort 1 - Group 3: Study Eye: 42 .5 ug travoprost Cohort 1 - Group 4: Study Eye: 85.0 ug travoprost||36.6|-1.8|<0.001
92163621|NCT00414648|184215404|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||The model included the time since enrollment, the treatment assignment, and the interaction between time and treatment.|Regression, Linear|Mixed model with the use of the Kenward-Roger correction without imputation of missing data.||FEV1 slope||||<0.001
92163622|NCT00414648|184215405|OTHER|||||||0.441|||||||Chi-squared|||||||.441
92163623|NCT00414648|184215406|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Regression, Linear|GLM adjusted for baseline||||||0.001
92163624|NCT00414648|184215407|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17|TWO_SIDED|95.0|||||Regression, Linear|GLM adjusted for baseline||||||0.17
92163625|NCT00414648|184215408|SUPERIORITY|||||||0.34|||||||Regression, Linear|GLM adjusted for baseline||||||0.34
92163626|NCT00414648|184215409|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88|||||||Regression, Linear|GLM adjusted for baseline||||||0.88
92163627|NCT00414648|184215410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Regression, Linear|GLM adjusted for baseline||||||0.001
92163628|NCT04173572|184215433|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-13.47|STANDARD_DEVIATION|48.09|||TWO_SIDED|||||||||Posttreatment - Baseline: 10 participants analyzed (had data at both time points)||||
92163629|NCT04173572|184215433|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|1.7|STANDARD_DEVIATION|52.743|||TWO_SIDED|||||||||Posttreatment - Baseline: 9 participants analyzed (had data at both time points)||||
92163630|NCT04173572|184215434|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|22.133|STANDARD_DEVIATION|79.938|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
92163631|NCT04173572|184215434|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|7.8|STANDARD_DEVIATION|99.645|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
92163632|NCT04173572|184215435|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|13.642|STANDARD_DEVIATION|4213.837|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
92163633|NCT04173572|184215435|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-483.4|STANDARD_DEVIATION|2497.312|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
92163634|NCT04173572|184215436|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-0.8|STANDARD_DEVIATION|4.229|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
92163635|NCT04173572|184215436|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|1.563|STANDARD_DEVIATION|8.695|||TWO_SIDED|||||||||Posttreatment - Baseline: 16 participants analyzed (had data at both time points)||||
92163636|NCT04173572|184215437|OTHER|Single group mean difference between baseline and post-treatment assessments.|Median Difference (Net)|-9.333|STANDARD_DEVIATION|14.166|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
92163637|NCT04173572|184215437|OTHER|Single group mean difference between baseline and post-treatment assessments.|Median Difference (Net)|0.625|STANDARD_DEVIATION|9.664|||TWO_SIDED|||||||||Posttreatment - Baseline: 16 participants analyzed (had data at both time points)||||
92163638|NCT04173572|184215438|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-0.392|STANDARD_DEVIATION|1.148|||TWO_SIDED|||||||||Posttreatment - Baseline: 13 participants analyzed (had data at both time points)||||
92276573|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1366||||0.1366|TWO_SIDED|95.0|-3.02|0.41|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.41|-3.02|0.1366
92163639|NCT04173572|184215438|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|0.113|STANDARD_DEVIATION|1.401|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
92357290|NCT02732145|184619251|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Vestibule in patients with vulvar dermatosis?||||||0.0295|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Vestibule in patients with vulvar dermatosis.||||0.0295
92163640|NCT04173572|184215439|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|2.2|STANDARD_DEVIATION|20.11|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
92163641|NCT04173572|184215439|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|0.49|STANDARD_DEVIATION|8.91|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
92163642|NCT04173572|184215440|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-0.39|STANDARD_DEVIATION|4.67|||TWO_SIDED|||||||||Posttreatment - Baseline: 11 participants analyzed (had data at both time points)||||
92163643|NCT04173572|184215440|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|3.43|STANDARD_DEVIATION|9.4|||TWO_SIDED|||||||||Posttreatment - Baseline: 11 participants analyzed (had data at both time points)||||
92163644|NCT04173572|184215441|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-3.667|STANDARD_DEVIATION|9.067|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
92163645|NCT04173572|184215441|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-2.071|STANDARD_DEVIATION|12.25|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
92163646|NCT04173572|184215442|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-0.8|STANDARD_DEVIATION|9.9|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
92163647|NCT04173572|184215442|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|0.714|STANDARD_DEVIATION|11.717|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
92163648|NCT04173572|184215443|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|3.071|STANDARD_DEVIATION|10.737|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
92163649|NCT04173572|184215443|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|5.571|STANDARD_DEVIATION|9.288|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
92163650|NCT01490580|184215450|SUPERIORITY||Risk Difference (RD)|-6.4||||0.38|TWO_SIDED|95.0|-21.0|8.1|||Mixed Models Analysis|||||8.1|-21.0|0.38
92163651|NCT02026258|184215469|OTHER||Mean Difference (Final Values)|0.52|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Based on previous findings, it takes approximately 117 ± 46 days for complete alignment of the mandibular anterior teeth in subjects with severe crowding treated without extractions. For a clinically significant 40% faster alignment in the piezotome-corticision group compared to the control group at an alpha-level (p = 0.05) and desired power of 80%, a sample size of 28 subjects (14 per group) was required. Twenty subjects per group assuming an overall attrition rate of 28%.||||<0.05
92163652|NCT02026258|184215470|OTHER||Mean Difference (Final Values)|0.3|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS T0||||<0.05
92163653|NCT02026258|184215470|OTHER||Mean Difference (Final Values)|0.19|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS T1||||<0.05
92163654|NCT02026258|184215470|OTHER||Mean Difference (Final Values)|0.19|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS T2||||<0.05
92163655|NCT02026258|184215470|OTHER||Mean Difference (Final Values)|0.76|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS T3||||<0.05
92163656|NCT02026258|184215471|OTHER||Mean Difference (Final Values)|0.87|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ease of Procedure||||<0.05
92163657|NCT02026258|184215471|OTHER||Mean Difference (Final Values)|0.69|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Satisfaction with procedure||||<0.05
92163658|NCT02026258|184215472|OTHER||Fisher chi square|0.71|||<|0.05|TWO_SIDED||||||Fisher Exact|Use of Medications||||||<0.05
92163659|NCT02026258|184215472|OTHER||Fisher chi square|0.99|||<|0.05|TWO_SIDED||||||Fisher Exact|||Undergo procedure again||||<0.05
92163660|NCT02026258|184215472|OTHER||Fisher chi square|0.49|||<|0.05|TWO_SIDED||||||Fisher Exact|||Recommend procedure to a friend||||<0.05
92163661|NCT00761930|184215473|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92163662|NCT00761930|184215474|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92163663|NCT00761930|184215475|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92163664|NCT03478696|184215476|NON_INFERIORITY|Non-inferiority was to be demonstrated, if the lower bound of the two-sided 95 percentage (%) confidence interval around the (FF/UMEC/VI versus BUD/FOR+TIO) treatment difference was above -50 milliliter.|Mean Difference (Net)|0.011|STANDARD_ERROR_OF_MEAN|0.0154|||TWO_SIDED|95.0|-0.02|0.041|||||The primary treatment effect estimated (hypothetical effect) excluded data following intercurrent events: discontinuation of treatment, taking wrong treatment, taking prohibited medication, unblinding, noncompliance, COPD exacerbation or pneumonia.|||0.041|-0.020|
92163665|NCT03478696|184215477|SUPERIORITY||Mean Difference (Net)|0.026|STANDARD_ERROR_OF_MEAN|0.0122||0.037|TWO_SIDED|95.0|0.002|0.049||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 2 using p-values.|Mixed model repeated measures||Day 2|||0.049|0.002|0.037
92163666|NCT03478696|184215477|SUPERIORITY||Mean Difference (Net)|0.063|STANDARD_ERROR_OF_MEAN|0.0134|<|0.001|TWO_SIDED|95.0|0.036|0.089||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 28 using p-values.|Mixed model repeated measures||Day 28|||0.089|0.036|<0.001
92221924|NCT04869345|184344255|SUPERIORITY||Mean Difference (Final Values)|1.38|STANDARD_ERROR_OF_MEAN|1.09||0.209|TWO_SIDED|95.0|-0.78|3.54||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Interference scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||3.54|-0.78|0.209
92221925|NCT04869345|184344255|SUPERIORITY||Mean Difference (Net)|2.21|STANDARD_ERROR_OF_MEAN|1.17||0.063|TWO_SIDED|95.0|-0.12|4.54||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Interference scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||4.54|-0.12|0.063
92221926|NCT04869345|184344256|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.95||0.792|TWO_SIDED|95.0|-1.63|2.13||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Physical Functioning scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||2.13|-1.63|0.792
92221927|NCT04869345|184344256|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.95||0.209|TWO_SIDED|95.0|-0.69|3.09||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Physical Functioning scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||3.09|-0.69|0.209
92221928|NCT04869345|184344256|SUPERIORITY||Mean Difference (Net)|0.95|STANDARD_ERROR_OF_MEAN|0.66||0.151|TWO_SIDED|95.0|-0.35|2.26||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Intensity scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||2.26|-0.35|0.151
92221929|NCT04869345|184344257|SUPERIORITY||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|1.47||0.601|TWO_SIDED|95.0|-2.14|3.69||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Fatigue scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||3.69|-2.14|0.601
92227094|NCT01482910|184356426|SUPERIORITY_OR_OTHER||Risk Difference (RD)|6.6||||0.0359|TWO_SIDED|95.0|0.4|12.9||Hierarchical testing procedure was used in the order of pre-defined fixed sequence (primary endpoint first, then confirmatory secondary efficacy point next). A two-sided significance level of 0.05 was used.|Cochran-Mantel-Haenszel|CMH adjusted for baseline BCVA group (\<45 letters vs ≥45 letters)|Proportion difference (EYLEA-PDT) was estimated from CMH, where a positive value is in favor of EYLEA.|Null hypothesis: proportions are identical in both groups||12.9|0.4|0.0359
92227095|NCT01235962|184356461|SUPERIORITY||Adjusted Hazard Ratio|0.862||||0.1649|TWO_SIDED|95.0|0.699|1.063|||Stratified Log-Rank|||||1.063|0.699|0.1649
92163667|NCT03478696|184215477|SUPERIORITY||Mean Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.0144|<|0.001|TWO_SIDED|95.0|0.026|0.083||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 84 using p-values.|Mixed model repeated measures||Day 84|||0.083|0.026|<0.001
92163668|NCT03478696|184215477|SUPERIORITY||Mean Difference (Net)|0.051|STANDARD_ERROR_OF_MEAN|0.0157||0.001|TWO_SIDED|95.0|0.021|0.082||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 85 using p-values.|Mixed model repeated measures||Day 85|||0.082|0.021|0.001
92163669|NCT03478696|184215478|SUPERIORITY||Mean Difference (Net)|0.004|STANDARD_ERROR_OF_MEAN|0.0098||0.702|TWO_SIDED|95.0|-0.016|0.023||Only if superiority is achieved on the primary study endpoint, then inferences can be made on weighted mean change from Baseline in FEV1 over 0-24 hours on Day 1 using p-values.|Mixed model repeated measures||The treatment effect to be estimated was hypothetical effect if all participants stayed on their randomized study treatment. Only on treatment data was included in analysis.|||0.023|-0.016|0.702
92163670|NCT03478696|184215479|SUPERIORITY||Mean Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.0141||0.244|TWO_SIDED|95.0|-0.011|0.044||The analysis was performed using mixed model repeated measures analysis, which included covariates of Baseline FEV1, geographical region, treatment, visit, visit by treatment and visit by Baseline interaction.|Mixed model repeated measures||The treatment effect to be estimated was hypothetical effect if all participants stayed on their randomized study treatment. Only on treatment data was included in analysis.|||0.044|-0.011|0.244
92221930|NCT04869345|184344257|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|1.49||0.269|TWO_SIDED|95.0|-4.6|1.29||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Fatigue scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||1.29|-4.60|0.269
92221931|NCT04869345|184344257|SUPERIORITY||Mean Difference (Net)|-2.43|STANDARD_ERROR_OF_MEAN|1.53||0.116|TWO_SIDED|95.0|-5.47|0.61||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Fatigue scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.61|-5.47|0.116
92221932|NCT04869345|184344258|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.08||0.479|TWO_SIDED|95.0|-0.1|0.22||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline CESD-R-10 scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.22|-0.10|0.479
92221933|NCT04869345|184344258|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.08||0.126|TWO_SIDED|95.0|-0.04|0.29||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline CESD-R-10 scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.29|-0.04|0.126
92221934|NCT04869345|184344258|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.09||0.457|TWO_SIDED|95.0|-0.12|0.25||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline CESD-R-10 scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.25|-0.12|0.457
92227096|NCT01235962|184356462|SUPERIORITY||Adjusted Hazard Ratio|0.998||||0.988|TWO_SIDED|95.0|0.759|1.311|||Stratified Log-Rank|||||1.311|0.759|0.9880
92227097|NCT01235962|184356464|SUPERIORITY||Adjusted Hazard Ratio|0.802||||0.0126|TWO_SIDED|95.0|0.675|0.954|||Stratified Log-Rank|||||0.954|0.675|0.0126
92227098|NCT01235962|184356465|SUPERIORITY||Adjusted Hazard Ratio|1.001||||0.9959|TWO_SIDED|95.0|0.796|1.257|||Stratified Log-Rank|||||1.257|0.796|0.9959
92227099|NCT01235962|184356467|SUPERIORITY||Adjusted Hazard Ratio|0.693||||0.0201|TWO_SIDED|95.0|0.51|0.943|||Stratified Log-Rank|||||0.943|0.510|0.0201
92163671|NCT03105128|184215497|SUPERIORITY||Adjusted Risk Difference|20.7|||<|0.001|TWO_SIDED|95.0|12.4|29.0|||Cochran-Mantel-Haenszel|||||29.0|12.4|<0.001
92163672|NCT03105128|184215497|SUPERIORITY||Adjusted Risk Difference|16.7|||<|0.001|TWO_SIDED|95.0|8.5|24.9|||Cochran-Mantel-Haenszel|||||24.9|8.5|<0.001
92163673|NCT03105128|184215498|SUPERIORITY||Adjusted Risk Difference|28.3|||<|0.001|TWO_SIDED|95.0|21.2|35.4|||Cochran-Mantel-Haenszel|||||35.4|21.2|<0.001
92163674|NCT03105128|184215498|SUPERIORITY||Adjusted Risk Difference|20.3|||<|0.001|TWO_SIDED|95.0|13.6|27.1|||Cochran-Mantel-Haenszel|||||27.1|13.6|<0.001
92163675|NCT03105128|184215499|SUPERIORITY||Adjusted Risk Difference|21.9|||<|0.001|TWO_SIDED|95.0|13.8|29.9|||Cochran-Mantel-Haenszel|||||29.9|13.8|<0.001
92163676|NCT03105128|184215499|SUPERIORITY||Adjusted Risk Difference|18.8|||<|0.001|TWO_SIDED|95.0|10.8|26.8|||Cochran-Mantel-Haenszel|||||26.8|10.8|<0.001
92163677|NCT03105128|184215500|SUPERIORITY||Adjusted Risk Difference|28.3|||<|0.001|TWO_SIDED|95.0|21.2|35.4|||Cochran-Mantel-Haenszel|||||35.4|21.2|<0.001
92227100|NCT01235962|184356468|SUPERIORITY||Adjusted Hazard Ratio|1.004||||0.9865|TWO_SIDED|95.0|0.662|1.521|||Stratified Log-Rank|||||1.521|0.662|0.9865
92227101|NCT01235962|184356469|SUPERIORITY||Mean Difference (Week 52)|-3.397|||<|0.001|TWO_SIDED|95.0|-4.486|-2.307|||analysis of covariance|adjusted for baseline score using mixed-model||||-2.307|-4.486|<.001
92227102|NCT01235962|184356469|SUPERIORITY||Mean Difference (24M DFS FU)|-0.043||||0.93|TWO_SIDED|95.0|-1.003|0.917|||analysis of covariance|adjusted for baseline score using mixed-model||||0.917|-1.003|0.930
92227103|NCT01235962|184356469|SUPERIORITY||Mean Difference (36M DFS FU)|0.119||||0.828|TWO_SIDED|95.0|-0.958|1.196|||analysis of covariance|adjusted for baseline score using mixed-model||||1.196|-0.958|0.828
92221935|NCT04869345|184344259|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.13||0.389|TWO_SIDED|95.0|-0.15|0.38||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline mDES scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.38|-0.15|0.389
92221936|NCT04869345|184344259|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.13||0.157|TWO_SIDED|95.0|-0.07|0.46||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline mDES scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.46|-0.07|0.157
92221937|NCT04869345|184344259|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.14||0.593|TWO_SIDED|95.0|-0.21|0.36||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline mDES scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.36|-0.21|0.593
92221938|NCT04869345|184344260|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.13||0.933|TWO_SIDED|95.0|-0.26|0.24||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PANAS-GEN scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.24|-0.26|0.933
92221939|NCT04869345|184344260|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.13||0.642|TWO_SIDED|95.0|-0.19|0.31||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PANAS-GEN scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.31|-0.19|0.642
92221940|NCT04869345|184344260|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.12||0.577|TWO_SIDED|95.0|-0.18|0.32||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PANAS-GEN scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.32|-0.18|0.577
92221941|NCT04869345|184344261|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.11||0.403|TWO_SIDED|95.0|-0.32|0.13||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PSS scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.13|-0.32|0.403
92227104|NCT01235962|184356469|SUPERIORITY||Mean Difference (48M DFS FU)|-0.347||||0.603|TWO_SIDED|95.0|-1.658|0.964|||analysis of covariance|adjusted for baseline score using mixed-model||||0.964|-1.658|0.603
92163678|NCT03105128|184215500|SUPERIORITY||Adjusted Risk Difference|20.3|||<|0.001|TWO_SIDED|95.0|13.6|27.1|||Cochran-Mantel-Haenszel|||||27.1|13.6|<0.001
92163679|NCT03105128|184215501|SUPERIORITY||Risk Difference (RD)|21.9|||<|0.001|TWO_SIDED|95.0|13.8|29.9|||Cochran-Mantel-Haenszel|||||29.9|13.8|<0.001
92163680|NCT03105128|184215501|SUPERIORITY||Adjusted Risk Difference|18.8|||<|0.001|TWO_SIDED|95.0|10.8|26.8|||Cochran-Mantel-Haenszel|||||26.8|10.8|<0.001
92163681|NCT03105128|184215502|SUPERIORITY||Adjusted Risk Difference|15.4|||<|0.001|TWO_SIDED|95.0|7.2|23.7|||Cochran-Mantel-Haenszel|||||23.7|7.2|<0.001
92163682|NCT03105128|184215502|SUPERIORITY||Adjusted Risk Difference|11.2||||0.007|TWO_SIDED|95.0|3.1|19.2|||Cochran-Mantel-Haenszel|||||19.2|3.1|0.007
92163683|NCT03105128|184215503|SUPERIORITY||Adjusted Risk Difference|23.1|||<|0.001|TWO_SIDED|95.0|14.2|31.9|||Cochran-Mantel-Haenszel|||||31.9|14.2|<0.001
92163684|NCT03105128|184215503|SUPERIORITY||Adjusted Risk Difference|27.7|||<|0.001|TWO_SIDED|95.0|19.0|36.4|||Cochran-Mantel-Haenszel|||||36.4|19.0|<0.001
92163685|NCT03105128|184215504|SUPERIORITY||Adjusted Risk Difference|5.2|||<|0.001|TWO_SIDED|95.0|3.2|7.2|||Cochran-Mantel-Haenszel|||||7.2|3.2|<0.001
92163686|NCT03105128|184215504|SUPERIORITY||Adjusted Risk Difference|4.1|||<|0.001|TWO_SIDED|95.0|2.1|6.1|||Cochran-Mantel-Haenszel|||||6.1|2.1|<0.001
92163687|NCT03105128|184215505|SUPERIORITY||Adjusted Risk Difference|7.6||||0.015|TWO_SIDED|95.0|1.5|13.7|||Cochran-Mantel-Haenszel|||||13.7|1.5|0.015
92163688|NCT03105128|184215505|SUPERIORITY||Adjusted Risk Difference|8.4||||0.007|TWO_SIDED|95.0|2.3|14.6|||Cochran-Mantel-Haenszel|||||14.6|2.3|0.007
92163689|NCT03105128|184215506|SUPERIORITY||Adjusted Risk Difference|24.5|||<|0.001|TWO_SIDED|95.0|18.5|30.5|||Cochran-Mantel-Haenszel|||||30.5|18.5|<0.001
92163690|NCT03105128|184215506|SUPERIORITY||Adjusted Risk Difference|17.3|||<|0.001|TWO_SIDED|95.0|11.8|22.9|||Cochran-Mantel-Haenszel|||||22.9|11.8|<0.001
92163691|NCT03105128|184215507|SUPERIORITY||Adjusted Risk Difference|24.2|||<|0.001|TWO_SIDED|95.0|15.7|32.7|||Cochran-Mantel-Haenszel|||||32.7|15.7|<0.001
92227105|NCT01235962|184356469|SUPERIORITY||Mean Difference (54M DFS FU)|-0.17||||0.841|TWO_SIDED|95.0|-1.843|1.503|||analysis of covariance|adjusted for baseline score using mixed-model||||1.503|-1.843|0.841
92163692|NCT03105128|184215507|SUPERIORITY||Adjusted Risk Difference|23.6|||<|0.001|TWO_SIDED|95.0|15.1|32.1|||Cochran-Mantel-Haenszel|||||32.1|15.1|<0.001
92163693|NCT03105128|184215508|SUPERIORITY||Adjusted Risk Difference|21.2|||<|0.001|TWO_SIDED|95.0|12.4|30.0|||Cochran-Mantel-Haenszel|||||30.0|12.4|<0.001
92163694|NCT03105128|184215508|SUPERIORITY||Adjusted Risk Difference|19.0|||<|0.001|TWO_SIDED|95.0|10.1|27.8|||Cochran-Mantel-Haenszel|||||27.8|10.1|<0.001
92163695|NCT03105128|184215509|SUPERIORITY||Adjusted Risk Difference|15.1|||<|0.001|TWO_SIDED|95.0|9.0|21.2|||Cochran-Mantel-Haenszel|||||21.2|9.0|<0.001
92163696|NCT03105128|184215509|SUPERIORITY||Adjusted Risk Difference|15.4|||<|0.001|TWO_SIDED|95.0|9.4|21.4|||Cochran-Mantel-Haenszel|||||21.4|9.4|<0.001
92163697|NCT03105128|184215510|SUPERIORITY||Adjusted Risk Difference|14.9||||0.001|TWO_SIDED|95.0|6.2|23.5|||Cochran-Mantel-Haenszel|||||23.5|6.2|0.001
92163698|NCT03105128|184215510|SUPERIORITY||Adjusted Risk Difference|11.8||||0.007|TWO_SIDED|95.0|3.2|20.3|||Cochran-Mantel-Haenszel|||||20.3|3.2|0.007
92163699|NCT03105128|184215511|SUPERIORITY||Adjusted Risk Difference|13.7|||<|0.001|TWO_SIDED|95.0|7.9|19.5|||Cochran-Mantel-Haenszel|||||19.5|7.9|<0.001
92163700|NCT03105128|184215511|SUPERIORITY||Adjusted Risk Difference|9.1||||0.001|TWO_SIDED|95.0|3.7|14.5|||Cochran-Mantel-Haenszel|||||14.5|3.7|0.001
92163701|NCT03105128|184215512|SUPERIORITY||Adjusted Risk Difference|21.0|||<|0.001|TWO_SIDED|95.0|12.2|29.9|||Cochran-Mantel-Haenszel|||||29.9|12.2|<0.001
92163702|NCT03105128|184215512|SUPERIORITY||Adjusted Risk Difference|21.6|||<|0.001|TWO_SIDED|95.0|12.8|30.4|||Cochran-Mantel-Haenszel|||||30.4|12.8|<0.001
92163703|NCT03105128|184215513|SUPERIORITY||Adjusted Risk Difference|14.6||||0.022|TWO_SIDED|95.0|2.1|27.0|||Cochran-Mantel-Haenszel|||||27.0|2.1|0.022
92163704|NCT03105128|184215513|SUPERIORITY||Adjusted Risk Difference|23.7|||<|0.001|TWO_SIDED|95.0|11.1|36.3|||Cochran-Mantel-Haenszel|||||36.3|11.1|<0.001
92163705|NCT03105128|184215514|SUPERIORITY||Risk Difference (RD)|-8.7|||<|0.001|TWO_SIDED|95.0|-13.9|-3.5|||Chi-squared|||||-3.5|-13.9|<0.001
92163706|NCT03105128|184215514|SUPERIORITY||Risk Difference (RD)|-10.2|||<|0.001|TWO_SIDED|95.0|-15.2|-5.2|||Chi-squared|||||-5.2|-15.2|<0.001
92163707|NCT03105128|184215515|SUPERIORITY||Risk Difference (RD)|5.6||||1|TWO_SIDED|95.0|-28.6|39.7|||Chi-squared|||||39.7|-28.6|1.00
92163708|NCT03105128|184215515|SUPERIORITY||Risk Difference (RD)|6.9||||1|TWO_SIDED|25.0|-25.7|39.6|||Chi-squared|||||39.6|-25.7|1.000
92163709|NCT03105128|184215516|SUPERIORITY||Adjusted Risk Difference|20.7|||<|0.001|TWO_SIDED|95.0|12.4|29.0|||Cochran-Mantel-Haenszel|||||29.0|12.4|<0.001
92163710|NCT03105128|184215516|SUPERIORITY||Adjusted Risk Difference|16.7|||<|0.001|TWO_SIDED|95.0|8.5|24.9|||Cochran-Mantel-Haenszel|||||24.9|8.5|<0.001
92163711|NCT03105128|184215517|SUPERIORITY||Adjusted Risk Difference|15.4|||<|0.001|TWO_SIDED|95.0|7.2|23.7|||Cochran-Mantel-Haenszel|||||23.7|7.2|<0.001
92163712|NCT03105128|184215517|SUPERIORITY||Adjusted Risk Difference|11.2||||0.007|TWO_SIDED|95.0|3.1|19.2|||Cochran-Mantel-Haenszel|||||19.2|3.1|0.007
92163713|NCT03105128|184215518|SUPERIORITY||Adjusted Risk Difference|11.5|||<|0.001|TWO_SIDED|95.0|5.4|17.5|||Cochran-Mantel-Haenszel|||||17.5|5.4|<0.001
92163714|NCT03105128|184215518|SUPERIORITY||Adjusted Risk Difference|11.7|||<|0.001|TWO_SIDED|95.0|5.7|17.8|||Cochran-Mantel-Haenszel|||||17.8|5.7|<0.001
92163715|NCT03105128|184215519|SUPERIORITY||Adjusted Risk Difference|23.1|||<|0.001|TWO_SIDED|95.0|14.2|31.9|||Cochran-Mantel-Haenszel|||||31.9|14.2|<0.001
92163716|NCT03105128|184215519|SUPERIORITY||Adjusted Risk Difference|27.7|||<|0.001|TWO_SIDED|95.0|19.0|36.4|||Cochran-Mantel-Haenszel|||||36.4|19.0|<0.001
92163717|NCT03105128|184215520|SUPERIORITY||LS Mean Difference|5.2|||<|0.001|TWO_SIDED|95.0|3.2|7.2|||Mixed-Effect Model Repeat Measurement|||||7.2|3.2|<0.001
92163718|NCT03105128|184215520|SUPERIORITY||LS Mean Difference|4.1|||<|0.001|TWO_SIDED|95.0|2.1|6.1|||Mixed-Effect Model Repeat Measurement|||||6.1|2.1|<0.001
92163719|NCT03105128|184215521|SUPERIORITY||LS Mean Difference|20.7|||<|0.001|TWO_SIDED|95.0|14.3|27.1|||Mixed-Effect Model Repeat Measurement|||||27.1|14.3|<0.001
92163720|NCT03105128|184215521|SUPERIORITY||LS Mean Difference|19.4|||<|0.001|TWO_SIDED|95.0|13.1|25.8|||Mixed-Effect Model Repeat Measurement|||||25.8|13.1|<0.001
92163721|NCT03105128|184215522|SUPERIORITY||Adjusted Risk Difference|23.2|||<|0.001|TWO_SIDED|95.0|16.8|29.6|||Cochran-Mantel-Haenszel|||||29.6|16.8|<0.001
92163722|NCT03105128|184215522|SUPERIORITY||Adjusted Risk Difference|15.2|||<|0.001|TWO_SIDED|95.0|9.3|21.2|||Cochran-Mantel-Haenszel|||||21.2|9.3|<0.001
92163723|NCT03105128|184215523|SUPERIORITY||Adjusted Risk Difference|15.1|||<|0.001|TWO_SIDED|95.0|9.0|21.2|||Cochran-Mantel-Haenszel|||||21.2|9.0|<0.001
92163724|NCT03105128|184215523|SUPERIORITY||Adjusted Risk Difference|15.4|||<|0.001|TWO_SIDED|95.0|9.4|21.4|||Cochran-Mantel-Haenszel|||||21.4|9.4|<0.001
92163725|NCT03105128|184215524|SUPERIORITY||Adjusted Risk Difference|14.9||||0.001|TWO_SIDED|95.0|6.2|23.5|||Cochran-Mantel-Haenszel|||||23.5|6.2|0.001
92163726|NCT03105128|184215524|SUPERIORITY||Adjusted Risk Difference|11.8||||0.007|TWO_SIDED|95.0|3.2|20.3|||Cochran-Mantel-Haenszel|||||20.3|3.2|0.007
92221942|NCT04869345|184344261|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.11||0.062|TWO_SIDED|95.0|-0.44|0.01||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS PSS scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.01|-0.44|0.062
92221943|NCT04869345|184344261|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.11||0.269|TWO_SIDED|95.0|-0.33|0.09||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PSS scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.09|-0.33|0.269
92221944|NCT04869345|184344262|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|95.0|0.07|0.33||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 11 minus Baseline) minus the change for the Attention Control (Week 11 minus Baseline).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Baseline to Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.33|0.07|0.003
92221945|NCT04869345|184344262|SUPERIORITY||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.07||0.006|TWO_SIDED|95.0|0.05|0.31||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Baseline) minus the change for the Attention Control (Week 16 minus Baseline).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Baseline to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.31|0.05|0.006
92221946|NCT04869345|184344262|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.796|TWO_SIDED|95.0|-0.15|0.12||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.12|-0.15|0.796
92227106|NCT01235962|184356470|SUPERIORITY||Mean Difference (Week 52)|-1.619|||<|0.001|TWO_SIDED|95.0|-2.283|-0.955|||analysis of covariance|adjusted for baseline score using mixed-model||||-0.955|-2.283|<.001
92227107|NCT01235962|184356470|SUPERIORITY||Mean Difference (24 M DFS FU)|-0.114||||0.726|TWO_SIDED|95.0|-0.75|0.522|||analysis of covariance|adjusted for baseline score using mixed-model||||0.522|-0.750|0.726
92227108|NCT01235962|184356470|SUPERIORITY||Mean Difference (36 M DFS FU)|-0.09||||0.801|TWO_SIDED|95.0|-0.789|0.609|||analysis of covariance|adjusted for baseline score using mixed-model||||0.609|-0.789|0.801
92276574|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.2709|TWO_SIDED|95.0|-2.68|0.75|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.75|-2.68|0.2709
92276575|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.0812|TWO_SIDED|95.0|-3.4|0.2|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.2|-3.4|0.0812
92357291|NCT02732145|184619252|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening between patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening between patients from different groups, with positive AWR.||||0.0000
92357292|NCT02732145|184619252|EQUIVALENCE|Question: Is there a difference in the incidence of coarse AWR between patients from different groups and positive AWR?||||||0.0071|||||||Chi-squared|||Parameter: The difference in the incidence of coarse AWR between patients from different groups and positive AWR.||||0.0071
92221947|NCT04869345|184344263|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.758|TWO_SIDED|95.0|-0.03|0.05||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 11 minus Baseline) minus the change for the Attention Control (Week 11 minus Baseline).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Baseline to Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.05|-0.03|0.758
92221948|NCT04869345|184344263|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.88|TWO_SIDED|95.0|-0.04|0.04||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Baseline) minus the change for the Attention Control (Week 16 minus Baseline).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Baseline to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.04|-0.04|0.880
92221949|NCT04869345|184344263|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.652|TWO_SIDED|95.0|-0.05|0.03||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.03|-0.05|0.652
92221950|NCT01500759|184344290|OTHER||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0||||||||||||
92221951|NCT01500759|184344291|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0||||||||||||
92221952|NCT01500759|184344292|OTHER||Odds Ratio (OR)|0.92|||||TWO_SIDED|||||||||||||
92221953|NCT01500759|184344293|OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0||||||||||||
92221954|NCT04294901|184344317|SUPERIORITY||Odds Ratio (OR)|1.21||||0.008|TWO_SIDED|95.0|1.05|1.38|||Mixed Models Analysis|Binary mixed effect model with patients nested in providers nested in facilities||It is pre-specified in the Study Protocol and Statistical Analysis Plan to assess all medication groups combined within the Intervention and Control Arms/Groups.||1.38|1.05|0.008
92221955|NCT02116777|184344325|OTHER|Maximum Tolerate Dose Level was determined by the rolling-6 design.|Maximum Tolerate Dose Level|4.0|||||TWO_SIDED||||||||Maximum Tolerate Dose Level is Dose Level 4 (600 mcg/m²/dose +30 mg/m2/dose (BMN 673) BID + 30 mg/m²/dose (TEM), Max 1000 mcg/day). MTD determined by using the Rolling-6 Design.|||||
92221956|NCT01733628|184344344|OTHER|Type of statistical Test: Inequality|Hazard Ratio (HR)|0.94||||0.8166|TWO_SIDED|95.0|0.56|1.59|||Wilcoxon (Mann-Whitney)|||||1.59|0.56|0.8166
92221957|NCT00166205|184344367|SUPERIORITY_OR_OTHER||Percent of ITT subjects|69.6||||||95.0|63.8|74.9||||||A sample size of 215, the adverse event (AE) rate at three years could be estimated with precision as determined by the interval half-width of approximately ± 7%.||74.9|63.8|
92221958|NCT00166205|184344368|SUPERIORITY_OR_OTHER||Mean|75.7|STANDARD_DEVIATION|39.8||||95.0|70.5|80.8||||||||80.8|70.5|
92221959|NCT00166205|184344369|SUPERIORITY_OR_OTHER||Mean|35.7|STANDARD_DEVIATION|6.2||||95.0|34.9|36.5||||||||36.5|34.9|
92221960|NCT00166205|184344370|SUPERIORITY_OR_OTHER||Mean|51.3|STANDARD_DEVIATION|45.8||||95.0|47.6|54.9||||||||54.9|47.6|
92221961|NCT00166205|184344371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.4|STANDARD_DEVIATION|10.3||||95.0|9.2|11.7|||||Value at 36 months minus value at baseline. Positive values indicate improved Quality of Life (QOL)|||11.7|9.2|
92221962|NCT00166205|184344372|SUPERIORITY_OR_OTHER||Mean|5.7|STANDARD_DEVIATION|0.7||||95.0|5.6|5.8||||||||5.8|5.6|
92221963|NCT00166205|184344374|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||A one-sided paired t-test would have 80% power to reject the null hypothesis in favor of the alternative (i.e., that the SAGB system is not inferior to the clinically meaningful result of 36.2 for 224 subjects) assuming: a standard deviation (SD) of (21.6), an equivalent limit difference of (3.6), and a significance level of 0.05.||||<0.001
92221964|NCT00166205|184344375|SUPERIORITY_OR_OTHER||Mean|56.4|STANDARD_DEVIATION|14.7||||95.0|54.5|58.4||||||||58.4|54.5|
92221965|NCT00166205|184344376|SUPERIORITY_OR_OTHER||Mean|114.5|STANDARD_DEVIATION|32.3||||95.0|110.1|118.8||||||||118.8|110.1|
92221966|NCT00166205|184344377|SUPERIORITY_OR_OTHER||Mean|193.5|STANDARD_DEVIATION|36.9||||95.0|188.6|198.4||||||||198.4|188.6|
92221967|NCT00477165|184344381|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.59|TWO_SIDED|95.0|0.687|1.196||p\<0.05 for statistical significance|t-test, 2 sided||Repeated-measures logistic regression model, assuming the citalopram effect builds linearly over time starting at week 3.|Null hypothesis: number of patients achieving adequate relief is the same in both Citalopram and Placebo groups||1.196|0.687|0.59
92221968|NCT01977781|184344385|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Wilcoxon (Mann-Whitney)|||Only the statistical analysis results for burning sensation at 10 weeks are reported below as they where the only tolerability results found to be significantly different between the two arms. All other tolerability measures were found to be the same between the two groups.||||0.0019
92221969|NCT01097746|184344412|SUPERIORITY||Hazard Ratio (HR)|1.71||||0.33|TWO_SIDED|95.0|0.58|4.98|||t-test, 2 sided|||Participants for optimal ≤ 1 cm||4.98|0.58|0.33
92221970|NCT01097746|184344412|SUPERIORITY||Hazard Ratio (HR)|3.75||||0.04|TWO_SIDED|95.0|1.05|13.34|||t-test, 2 sided|||suboptimal \> 1 cm||13.34|1.05|0.04
92227109|NCT01235962|184356470|SUPERIORITY||Meat Difference (48 M DFS FU)|-0.212||||0.617|TWO_SIDED|95.0|-1.044|0.32|||analysis of covariance|adjusted for baseline score using mixed-model||||0.320|-1.044|0.617
92357293|NCT02732145|184619252|EQUIVALENCE|Question: Is there a difference in the incidence of slow AWR between patients from different groups and positive AWR?||||||0.001|||||||Chi-squared|||Parameter: The difference in the incidence of slow AWR occurrence between patients from different groups and positive AWR.||||0.0010
92357294|NCT02732145|184619252|EQUIVALENCE|Question: Is there a difference in the incidence of provoked erythema among patients from different groups and positive AWR?||||||0.0036|||||||Chi-squared|||Parameter: The difference in the incidence of provoked erythema among patients from different groups and positive AWR.||||0.0036
92357295|NCT02732145|184619252|EQUIVALENCE|Question: Is there a difference in the incidence of sharply bordered AWR between patients from different groups and positive AWR?||||||0.0032|||||||Chi-squared|||Parameter: The difference in the incidence of sharply bordered AWR between patients from different groups and positive AWR.||||0.0032
92163727|NCT03105128|184215525|SUPERIORITY||Adjusted Risk Difference|13.7|||<|0.001|TWO_SIDED|95.0|7.9|19.5|||Cochran-Mantel-Haenszel|||||19.5|7.9|<0.001
92163728|NCT03105128|184215525|SUPERIORITY||Adjusted Risk Difference|9.1||||0.001|TWO_SIDED|95.0|3.7|14.5|||Cochran-Mantel-Haenszel|||||14.5|3.7|0.001
92163729|NCT03105128|184215526|SUPERIORITY||Adjusted Risk Difference|21.0|||<|0.001|TWO_SIDED|95.0|12.2|29.9|||Cochran-Mantel-Haenszel|||||29.9|12.2|<0.001
92163730|NCT03105128|184215526|SUPERIORITY||Adjusted Risk Difference|21.6|||<|0.001|TWO_SIDED|95.0|12.8|30.4|||Cochran-Mantel-Haenszel|||||30.4|12.8|<0.001
92163731|NCT03105128|184215527|SUPERIORITY||Adjusted Risk Difference|14.6||||0.022|TWO_SIDED|95.0|2.1|27.0|||Cochran-Mantel-Haenszel|||||27.0|2.1|0.022
92163732|NCT03105128|184215527|SUPERIORITY||Adjusted Risk Difference|23.7|||<|0.001|TWO_SIDED|95.0|11.1|36.3|||Cochran-Mantel-Haenszel|||||36.3|11.1|<0.001
92163733|NCT03105128|184215528|SUPERIORITY||LS Mean Difference|-8.7|||<|0.001|TWO_SIDED|95.0|-13.9|-3.5|||Mixed-Effect Model Repeat Measurement|||||-3.5|-13.9|<0.001
92163734|NCT03105128|184215528|SUPERIORITY||LS Mean Difference|-10.2|||<|0.001|TWO_SIDED|95.0|-15.2|-5.2|||Mixed-Effect Model Repeat Measurement|||||-5.2|-15.2|<0.001
92163735|NCT03105128|184215529|SUPERIORITY||LS Mean Difference|5.6||||1|TWO_SIDED|95.0|-28.6|39.7|||Mixed-Effect Model Repeat Measurement|||||39.7|-28.6|1.000
92163736|NCT03105128|184215529|SUPERIORITY||LS Mean Difference|6.9||||1|TWO_SIDED|95.0|-25.7|39.6|||Mixed-Effect Model Repeat Measurement|||||39.6|-25.7|1.000
92163737|NCT03105128|184215530|SUPERIORITY||LS Mean Difference|-9.586||||0.024|TWO_SIDED|95.0|-17.89|-1.282|||Mixed-Effect Model Repeat Measurement|||||-1.282|-17.890|0.024
92163738|NCT03105128|184215530|SUPERIORITY||LS Mean Difference|-12.141||||0.004|TWO_SIDED|95.0|-20.39|-3.892|||Mixed-Effect Model Repeat Measurement|||||-3.892|-20.390|0.004
92163739|NCT03105128|184215531|SUPERIORITY||LS Mean Difference|2.913|||<|0.001|TWO_SIDED|95.0|1.512|4.313|||Mixed-Effect Model Repeat Measurement|||||4.313|1.512|<0.001
92163740|NCT03105128|184215531|SUPERIORITY||LS Mean Difference|3.275|||<|0.001|TWO_SIDED|95.0|1.877|4.672|||Mixed-Effect Model Repeat Measurement|||||4.672|1.877|<0.001
92163741|NCT05826431|184215548|OTHER||Mean Difference (Final Values)|18.65||||0.153|TWO_SIDED||||||Paired samples t-test|||Study analyses were conducted using IBM SPSS Statistics Version 29. Frequencies and descriptive data were tabulated to describe the sample and quantify device use, satisfaction, and perceived impact. Qualitative responses regarding usability and feasibility were summarized based on the themes of the responses.||||0.153
92163742|NCT05826431|184215549|OTHER||Mean Difference (Final Values)|0.61||||0.103|TWO_SIDED||||||Paired samples t-test|||||||0.103
92163743|NCT05826431|184215551|OTHER|Single group, frequencies, and descriptive data|Mean Difference (Final Values)|4.22||||0.083|TWO_SIDED||||||Paired samples t-test|||||||.083
92163744|NCT05826431|184215552|OTHER||Mean Difference (Final Values)|-0.26||||441|TWO_SIDED||||||Paired samples t-test|||||||0441
92163745|NCT05826431|184215553|OTHER||Mean Difference (Final Values)|2.61||||0.095|TWO_SIDED||||||Paired samples t-test|||||||0.095
92163746|NCT05826431|184215554|OTHER||Mean Difference (Final Values)|0.03||||0.487|TWO_SIDED||||||Paired samples t-test|||||||0.487
92163747|NCT05826431|184215555|OTHER||Mean Difference (Final Values)|-0.06||||0.483|TWO_SIDED||||||Paired samples t-test|||||||0.483
92163748|NCT05826431|184215556|OTHER||Mean Difference (Final Values)|-2.82||||0.0483|TWO_SIDED||||||Paired samples t-test|||||||.0483
92163749|NCT05826431|184215557|OTHER||Mean Difference (Final Values)|-0.42||||0.123|TWO_SIDED||||||Paired samples t-test|||||||0.123
92163750|NCT01199237|184215558|SUPERIORITY_OR_OTHER|||||||0.11||||||Significant at p\<0.05|Chi-squared|||||||0.11
92163751|NCT03772964|184215573|SUPERIORITY|Comparisons between samples and sample groups (beta-diversity), were evaluated with ADONIS (aka PERMANOVA) comparisons of differences between sample groups.|R2|0.071435|||<|0.01|TWO_SIDED||||||ADONISBeta Diversity|Comparisons between samples and sample groups (beta-diversity) were evaluated with ADONIS (aka PERMANOVA)|R2 values estimate the amount of variation explained by each variable.|Beta Diversity - Differences between Samples and Sample groups||||<0.01
92163752|NCT03772964|184215574|SUPERIORITY|||||||0.6057|||||||ANOVA|||||||0.6057
92163753|NCT03772964|184215576|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92163754|NCT03772964|184215577|SUPERIORITY|||||||0.69|||||||ANOVA|||||||0.69
92163755|NCT03254394|184215581|SUPERIORITY||Mean Difference (Final Values)|6.88||||0.318|TWO_SIDED|95.0|-7.09|20.85||p-value was not adjusted for any parameter.|t-test, 2 sided|||Null hypothesis: Average AUC of cold pain score over 14 days of a chemotherapy cycle in the Control group is equal or lower than that of the experimental group. The comparison is for average AUC values over 7 cycles of chemotherapy per patient||20.85|-7.09|0.318
92163756|NCT03254394|184215581|SUPERIORITY||Mean Difference (Final Values)|7.67||||0.466|TWO_SIDED|95.0|-13.76|29.1||p-value was not adjusted for any parameter.|t-test, 2 sided|||Null hypothesis: Cold hypersensitivity counted as unpleasantness score for 14 days after cycle (AUC) in the Control group is less than that of the experimental group. The difference was calculated for the Cycle 6 visit.||29.10|-13.76|0.466
92227110|NCT01235962|184356470|SUPERIORITY||Mean Difference (54 M DFS FU)|0.341||||0.565|TWO_SIDED|95.0|-0.828|1.51|||adjusted for baseline score using mixedm|||||1.510|-0.828|0.565
92357296|NCT02732145|184619252|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Outer Vulvar Ring between the patients from different groups and positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Outer Vulvar Ring between the patients from different groups and positive AWR.||||0.0000
92221971|NCT00960661|184344420|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was concluded if the upper limit of the 95% confidence interval (CI) for the treatment contrast (BET minus BBT) at week 30 was less than the non inferiority margin.|Mean Difference (Final Values)|-0.04||||0.6273|TWO_SIDED|95.0|-0.18|0.11||The primary mixed-model repeated measures (MMRM) model included baseline HbA1c as covariate, treatment, country, prior use of SUs, week of visit, and treatment-by-week interaction as fixed effects and patient and error as random effects.|Mixed model repeated measures|||The primary objective is to test the hypothesis that BET is non inferior to BBT with respect to change in HbA1c from baseline to Week 30.||0.11|-0.18|0.6273
92221972|NCT02079987|184344447|SUPERIORITY|||||||0.49|||||||difference-in-difference analysis|A propensity weighted difference-in-difference approach was taken to account for imbalances in assignment and loss to follow-up.||||||0.49
92221973|NCT02079987|184344448|SUPERIORITY|||||||0.23|||||||difference-in-difference analysis|A propensity weighted difference-in-difference approach was taken to account for imbalances in assignment and loss to follow-up.||||||0.23
92221974|NCT02079987|184344449|SUPERIORITY|||||||0.25||||||A propensity weighted difference-in-difference approach was taken to account for imbalances in assignment and loss to follow-up.|difference-in-difference analysis|||||||0.25
92221975|NCT02079987|184344450|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.03
92221976|NCT02079987|184344451|SUPERIORITY|||||||0.57|||||||Chi-squared|||||||0.57
92221977|NCT02079987|184344452|SUPERIORITY|||||||0.87|||||||Chi-squared|||||||0.87
92221978|NCT02076997|184344454|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92221979|NCT02076997|184344460|OTHER|||||||||||||||||There was no statistical analysis performed for this aim as it was descriptive|There was no statistical analysis performed for this aim as it was descriptive|||
92221980|NCT02076997|184344461|OTHER||Odds Ratio (OR)|6.7|||||TWO_SIDED|95.0||||||||||||
92221981|NCT02533063|184344462|SUPERIORITY|||||||0.217|||||||ANOVA|||||||0.217
92221982|NCT02533063|184344463|SUPERIORITY|||||||0.501|||||||ANOVA|||||||0.501
92221983|NCT02533063|184344464|SUPERIORITY|||||||0.151|||||||ANOVA|||||||0.151
92221984|NCT02533063|184344465|SUPERIORITY|||||||0.45|||||||ANOVA|||||||0.450
92221985|NCT02533063|184344466|SUPERIORITY|||||||0.678|||||||ANOVA|||||||0.678
92221986|NCT02533063|184344467|SUPERIORITY|||||||0.06|||||||ANOVA|||||||0.060
92221987|NCT02533063|184344470|SUPERIORITY|||||||0.483|||||||ANOVA|||||||0.483
92221988|NCT00652366|184344472|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||0.2026|TWO_SIDED|95.0|0.88|1.8|||Log Rank|||||1.80|0.88|0.2026
92357297|NCT02732145|184619252|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Middle Vulvar Ring between the patients from different groups and positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Middle Vulvar Ring between the patients from different groups and positive AWR.||||0.0000
92221989|NCT00652366|184344474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.6298|TWO_SIDED|95.0|0.77|1.54|||Log Rank|||||1.54|0.77|0.6298
92221990|NCT00652366|184344475|SUPERIORITY_OR_OTHER||Difference in Response Rates|-6.1||||0.2543|TWO_SIDED|95.0|-17.2|5.0|||Chi-squared||Approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|||5.0|-17.2|0.2543
92221991|NCT00652366|184344475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.19|1.56||||||||1.56|0.19|
92221992|NCT00652366|184344477|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|-15.52||||0.0603|TWO_SIDED|95.0|-32.4|1.3|||Chi-squared||Approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|||1.3|-32.4|0.0603
92221993|NCT00652366|184344479|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.2678|TWO_SIDED|95.0|0.6|1.15|||Log Rank|||||1.15|0.60|0.2678
92221994|NCT00652366|184344479|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.8449|TWO_SIDED|95.0|0.74|1.43|||Log Rank|||||1.43|0.74|0.8449
92221995|NCT00652366|184344481|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.0217|TWO_SIDED|95.0|0.51|0.95|||Log Rank|||||0.95|0.51|0.0217
92221996|NCT00652366|184344481|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.1596|TWO_SIDED|95.0|0.57|1.1|||Log Rank|||||1.10|0.57|0.1596
92221997|NCT01970501|184344493|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.905|TWO_SIDED|95.0|0.72|1.45|||Log Rank|||||1.45|.72|0.905
92221998|NCT01970501|184344494|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.961|TWO_SIDED|95.0|0.71|1.42|||Log Rank|||||1.42|0.71|0.961
92221999|NCT00708123|184344497|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.97||||0.0265|TWO_SIDED|95.0|0.47|7.48||No adjustment was made for multiple comparisons as primary comparisons were pre-defined.|ANOVA|The analysis included factors treatment, period and subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||7.48|0.47|0.0265
92222000|NCT00708123|184344497|SUPERIORITY_OR_OTHER||Adjusted mean difference|5.66||||0.0017|TWO_SIDED|95.0|2.15|9.18||No adjustment was made for multiple comparisons as primary comparisons were pre-defined.|ANOVA|The analysis included factors as treatment, period and subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||9.18|2.15|0.0017
92222001|NCT00708123|184344498|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|-1.69||||0.3413|TWO_SIDED|95.0|-5.19|1.8||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||1.80|-5.19|0.3413
92227111|NCT01235962|184356471|SUPERIORITY||Mean Difference (Week 52)|-0.077||||0.238|TWO_SIDED|95.0|-0.205|0.051|||analysis of covariance|adjusted for baseline score using mixed-model||||0.051|-0.205|0.238
92227112|NCT01235962|184356471|SUPERIORITY||Mean Difference (24M DFS FU)|-0.052||||0.442|TWO_SIDED|95.0|-0.185|0.081|||analysis of covariance|adjusted for baseline score using mixed-model||||0.081|-0.185|0.442
92227113|NCT01235962|184356471|SUPERIORITY||Mean Difference (36M DFS FU)|0.016||||0.819|TWO_SIDED|95.0|-0.125|0.158|||analysis of covariance|adjusted for baseline score using mixed-model||||0.158|-0.125|0.819
92163757|NCT03254394|184215582|SUPERIORITY||Median Difference (Final Values)|20.0||||0.338|TWO_SIDED|||||p-value was not adjusted for any parameter.|Wilcoxon (Mann-Whitney)|||the null hypothesis is EORTC QLQ-CIPN20 sensory score change in the Control group is equal to or less than that of the experimental group for the last follow-up study visit.||||0.338
92163758|NCT03254394|184215582|SUPERIORITY||Median Difference (Final Values)|2.0||||0.759|TWO_SIDED|||||p-value was not adjusted for any parameter.|Wilcoxon (Mann-Whitney)|||The null hypothesis is EORTC QLQ-CIPN20 sensory score change in the Control group is equal to or less than that of the experimental group for the cycle 6 (12 weeks) follow-up study visit.||||0.759
92163759|NCT03254394|184215583|SUPERIORITY||Median Difference (Final Values)|0.0||||0.581|TWO_SIDED|||||p-value was not adjusted for any parameter.|Wilcoxon (Mann-Whitney)|||The null hypothesis is NPSI total score in the Control group is equal to or less than that of the experimental group for the C3 (6 weeks) study visit.||||0.581
92163760|NCT03254394|184215583|SUPERIORITY||Median Difference (Final Values)|0.0||||0.962|TWO_SIDED|||||p-value was not adjusted for any parameter.|Wilcoxon (Mann-Whitney)|||The null hypothesis is NPSI total score in the Control group is equal to or less than that of the experimental group for the C6 (12 weeks) study visit.||||0.962
92163761|NCT03254394|184215583|SUPERIORITY||Median Difference (Final Values)|10.5||||0.365|TWO_SIDED|||||p-value was not adjusted for any parameter.|Wilcoxon (Mann-Whitney)|||The null hypothesis is NPSI total score in the Control group is equal to or less than that of the experimental group for the last follow-up study visit.||||0.365
92163762|NCT03254394|184215584|SUPERIORITY||Mean Difference (Final Values)|57.68||||0.73|TWO_SIDED|95.0|-1771.0|1886.0|||t-test, 2 sided|||The null hypothesis is Oxaliplatin cumulative dose in the Control group is equal to or higher than that of the experimental group.||1886|-1771|0.730
92222002|NCT00708123|184344498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.26|||<|0.0001|TWO_SIDED|95.0|6.76|13.76||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||13.76|6.76|<0.0001
92163763|NCT01867580|184215609|SUPERIORITY|||||||0.677|||||||Regression, Logistic|||||||0.6770
92163764|NCT01867580|184215610|SUPERIORITY|||||||0.0202|||||||Wilcoxon (Mann-Whitney)|||||||0.0202
92163765|NCT01867580|184215611|SUPERIORITY|||||||0.0142|||||||Regression, Logistic|||||||0.0142
92163766|NCT01212757|184215612|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|13.4||||0.006|TWO_SIDED|95.0|4.0|22.7|||Cochran-Mantel-Haenszel|2-sided p-value is based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline disease modifying antirheumatic drug (DMARD) use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% confidence interval (CI) is based on a normal approximation to the weighted average.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||22.7|4.0|0.0060
92163767|NCT01212757|184215612|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|18.7||||0.0002|TWO_SIDED|95.0|9.1|28.2|||Cochran-Mantel-Haenszel|2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||28.2|9.1|0.0002
92163768|NCT01212757|184215613|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14||||0.0042|TWO_SIDED|95.0|-0.236|-0.045|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.045|-0.236|0.0042
92163769|NCT01212757|184215613|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.104||||0.032|TWO_SIDED|95.0|-0.199|-0.009|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.009|-0.199|0.0320
92163770|NCT01212757|184215614|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|9.2||||0.0394|TWO_SIDED|95.0|0.5|17.8||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||17.8|0.5|0.0394
92163771|NCT01212757|184215614|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|15.7||||0.0009|TWO_SIDED|95.0|6.7|24.7||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||24.7|6.7|0.0009
92163772|NCT01212757|184215615|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.121||||0.0191|TWO_SIDED|95.0|-0.222|-0.02|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||-0.020|-0.222|0.0191
92163773|NCT01212757|184215615|SUPERIORITY||LS Mean Difference|-0.08||||0.1179|TWO_SIDED|95.0|-0.18|0.02|||ANCOVA||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||0.020|-0.180|0.1179
92163774|NCT01212757|184215616|SUPERIORITY||LS Mean Difference|2.1||||0.0237|TWO_SIDED|95.0|0.28|3.92|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above||3.92|0.28|0.0237
92163775|NCT01212757|184215616|SUPERIORITY||LS Mean Difference|1.36||||0.1388|TWO_SIDED|95.0|-0.44|3.15|||ANCOVA||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above||3.15|-0.44|0.1388
92163776|NCT01212757|184215617|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|14.9||||0.0065|TWO_SIDED|95.0|4.3|25.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||25.5|4.3|0.0065
92163777|NCT01212757|184215617|SUPERIORITY||Adjusted Difference|14.7||||0.0071|TWO_SIDED|95.0|4.1|25.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||25.2|4.1|0.0071
92163778|NCT01212757|184215618|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.9||||0.0648|TWO_SIDED|95.0|-10.0|0.3|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.3|-10.0|0.0648
92163779|NCT01212757|184215618|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.5||||0.0347|TWO_SIDED|95.0|-10.6|-0.4|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.4|-10.6|0.0347
92163780|NCT01212757|184215619|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.3496|TWO_SIDED|95.0|-1.2|0.4|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.4|-1.2|0.3496
92163781|NCT01212757|184215619|SUPERIORITY||LS Mean Difference|0.1||||0.8874|TWO_SIDED|95.0|-0.7|0.8|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.8|-0.7|0.8874
92227114|NCT01235962|184356471|SUPERIORITY||Mean Difference (48M DFS FU)|-0.119||||0.223|TWO_SIDED|95.0|-0.311|0.073|||analysis of covariance|analysis of covariance adjusted for baseline score using mixed-model||||0.073|-0.311|0.223
92163782|NCT01212757|184215620|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.5438|TWO_SIDED|95.0|-1.0|0.5|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.5|-1.0|0.5438
92163783|NCT01212757|184215620|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.3759|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||1.0|-0.4|0.3759
92163784|NCT01212757|184215621|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.51||||0.0035|TWO_SIDED|95.0|-5.86|-1.16|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-1.16|-5.86|0.0035
92163785|NCT01212757|184215621|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.45||||0.0002|TWO_SIDED|95.0|-6.76|-2.14|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-2.14|-6.76|0.0002
92163786|NCT01212757|184215622|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.0004|TWO_SIDED|95.0|-0.61|-0.18|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.18|-0.61|0.0004
92163787|NCT01212757|184215622|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.68|-0.25|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.25|-0.68|<0.0001
92163788|NCT01212757|184215623|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.12||||0.0318|TWO_SIDED|95.0|0.19|4.06|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||4.06|0.19|0.0318
92163789|NCT01212757|184215623|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.27||||0.7803|TWO_SIDED|95.0|-1.65|2.2|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||2.20|-1.65|0.7803
92163790|NCT01212757|184215624|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.86||||0.0473|TWO_SIDED|95.0|0.02|3.7|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||3.70|0.02|0.0473
92227115|NCT01235962|184356471|SUPERIORITY||Mean Difference (54M DFS FU)|-0.203||||0.085|TWO_SIDED|95.0|-0.435|0.028|||analysis of covariance|adjusted for baseline score using mixed-model||||0.028|-0.435|0.085
92357298|NCT02732145|184619252|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Inner Vulvar Ring between the patients from different groups and positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Inner Vulvar Ring between the patients from different groups and positive AWR.||||0.0000
92357299|NCT02732145|184619252|EQUIVALENCE|"Question: Is there a difference in the incidence of Ring sign between the patients from different groups and positive AWR?"||||||0|||||||Chi-squared|||"Parameter: The difference in the incidence of Ring sign, aceto-whitening of all structures of the Inner Vulvar Ring, between the patients from different groups and positive AWR."||||0.0000
92357300|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with vulvar dermatosis and positive AWR?||||||0.0856|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with vulvar dermatosis and positive AWR.||||0.0856
92222003|NCT00708123|184344498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|13.19|||<|0.0001|TWO_SIDED|95.0|9.69|16.68||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||16.68|9.69|<0.0001
92222004|NCT00708123|184344498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.57|||<|0.0001|TWO_SIDED|95.0|5.09|12.05||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||12.05|5.09|<0.0001
92222005|NCT00708123|184344498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.5|||<|0.0001|TWO_SIDED|95.0|8.01|14.98||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||14.98|8.01|<0.0001
92222006|NCT00708123|184344498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.59||||0.0104|TWO_SIDED|95.0|-8.1|-1.09||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||-1.09|-8.10|0.0104
92222007|NCT00708123|184344498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.52|||<|0.0001|TWO_SIDED|95.0|4.04|11.01||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||11.01|4.04|<0.0001
92222008|NCT00708123|184344498|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|2.93||||0.0986|TWO_SIDED|95.0|-0.55|6.41||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||6.41|-0.55|0.0986
92357301|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with vulvar dermatosis and positive AWR?||||||0.429|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with vulvar dermatosis and positive AWR.||||0.4290
92357302|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with vulvar dermatosis and positive AWR?||||||0.0124|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with vulvar dermatosis and positive AWR.||||0.0124
92163791|NCT01212757|184215624|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.53||||0.0997|TWO_SIDED|95.0|-0.29|3.35|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||3.35|-0.29|0.0997
92222009|NCT00708123|184344499|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|196.74||||0.0148|TWO_SIDED|95.0|38.89|354.6||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided at 5% significance level.||354.60|38.89|0.0148
92222010|NCT00708123|184344499|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|246.7||||0.0024|TWO_SIDED|95.0|88.3|405.1||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||405.10|88.30|0.0024
92357303|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with vulvodynia and positive AWR.||||0.0000
92163792|NCT01212757|184215625|SUPERIORITY||Adjusted Difference|7.8||||0.1195|TWO_SIDED|95.0|-1.9|17.5||The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Cochran-Mantel-Haenszel||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||17.5|-1.9|0.1195
92163793|NCT01212757|184215625|SUPERIORITY||Adjusted Difference|15.5||||0.0026|TWO_SIDED|95.0|5.6|25.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||25.5|5.6|0.0026
92163794|NCT01212757|184215626|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.7||||0.5067|TWO_SIDED|95.0|-6.8|3.4|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||3.4|-6.8|0.5067
92227116|NCT01235962|184356472|SUPERIORITY||Mean Difference (Week 52)|-1.394|||<|0.001|TWO_SIDED|95.0|-1.66|-1.129|||analysis of covariance|adjusted for baseline score using mixed-model||||-1.129|-1.660|<.001
92357304|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with vulvodynia and positive AWR.||||0.0000
92357305|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with vulvodynia and positive AWR?||||||0.1918|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with vulvodynia and positive AWR.||||0.1918
92357306|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with impaired vulvar skin and positive AWR.||||0.0000
92357307|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with impaired vulvar skin and positive AWR.||||0.0000
92357308|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with impaired vulvar skin and positive AWR?||||||0.5822|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with impaired vulvar skin and positive AWR.||||0.5822
92163795|NCT01212757|184215626|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-3.5||||0.1762|TWO_SIDED|95.0|-8.5|1.6|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||1.6|-8.5|0.1762
92163796|NCT01212757|184215627|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.2719|TWO_SIDED|95.0|-1.2|0.3|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.3|-1.2|0.2719
92163797|NCT01212757|184215627|SUPERIORITY||LS Mean Difference|0.0||||0.9727|TWO_SIDED|95.0|-0.8|0.7|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.7|-0.8|0.9727
92357309|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with normal vulva and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with normal vulva and positive AWR.||||0.0000
92357310|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with normal vulva and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with normal vulva and positive AWR.||||0.0000
92163798|NCT01212757|184215628|SUPERIORITY||LS Mean Difference|-0.3||||0.3705|TWO_SIDED|95.0|-1.0|0.4|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.4|-1.0|0.3705
92163799|NCT01212757|184215628|SUPERIORITY||LS Mean Difference|0.1||||0.6777|TWO_SIDED|95.0|-0.6|0.8|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.8|-0.6|0.6777
92163800|NCT01212757|184215629|SUPERIORITY||LS Mean Difference|-3.14||||0.0097|TWO_SIDED|95.0|-5.52|-0.76|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.76|-5.52|0.0097
92163801|NCT01212757|184215629|SUPERIORITY||LS Mean Difference|-4.5||||0.0002|TWO_SIDED|95.0|-6.85|-2.16|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-2.16|-6.85|0.0002
92163802|NCT01212757|184215630|SUPERIORITY||LS Mean Difference|-0.38||||0.0011|TWO_SIDED|95.0|-0.6|-0.15|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.15|-0.60|0.0011
92163803|NCT01212757|184215630|SUPERIORITY||LS Mean Difference|-0.45||||0.0001|TWO_SIDED|95.0|-0.68|-0.23|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.23|-0.68|0.0001
92163804|NCT01212757|184215631|SUPERIORITY||LS Mean Difference|2.14||||0.0303|TWO_SIDED|95.0|0.2|4.07|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||4.07|0.20|0.0303
92163805|NCT01212757|184215631|SUPERIORITY||LS mean Difference|0.16||||0.8704|TWO_SIDED|95.0|-1.76|2.08|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||2.08|-1.76|0.8704
92357311|NCT02732145|184619252|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with normal vulva and positive AWR?||||||0.4975|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with normal vulva and positive AWR.||||0.4975
92163806|NCT01212757|184215632|SUPERIORITY||Adjusted Difference|3.6||||0.6022|TWO_SIDED|95.0|-9.9|17.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights.|||17.2|-9.9|0.6022
92163807|NCT01212757|184215632|SUPERIORITY||Adjusted Difference|1.3||||0.8462|TWO_SIDED|95.0|-12.1|14.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights.|||14.7|-12.1|0.8462
92163808|NCT01212757|184215633|SUPERIORITY||Adjusted Difference|2.8||||0.7337|TWO_SIDED|95.0|-13.3|18.9|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||18.9|-13.3|0.7337
92163809|NCT01212757|184215633|SUPERIORITY||Adjusted Difference|3.3||||0.6881|TWO_SIDED|95.0|-12.7|19.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||19.3|-12.7|0.6881
92163810|NCT01212757|184215634|SUPERIORITY||Adjusted Difference|17.5||||0.0014|TWO_SIDED|95.0|7.0|27.9|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||27.9|7.0|0.0014
92163811|NCT01212757|184215634|SUPERIORITY||Adjusted Difference|22.1||||0.0001|TWO_SIDED|95.0|11.7|32.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||32.5|11.7|0.0001
92163812|NCT01212757|184215635|SUPERIORITY||Adjusted Difference|6.6||||0.3376|TWO_SIDED|95.0|-6.8|20.0|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||20.0|-6.8|0.3376
92163813|NCT01212757|184215635|SUPERIORITY||Adjusted Difference|6.1||||0.3756|TWO_SIDED|95.0|-7.2|19.4|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||19.4|-7.2|0.3756
92163814|NCT01212757|184215636|SUPERIORITY||Adjusted Difference|6.8||||0.3959|TWO_SIDED|95.0|-8.7|22.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||22.2|-8.7|0.3959
92163815|NCT01212757|184215636|SUPERIORITY||Adjusted Difference|6.8||||0.3941|TWO_SIDED|95.0|-8.7|22.4|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||22.4|-8.7|0.3941
92163816|NCT01212757|184215637|SUPERIORITY||Adjusted Difference|12.1||||0.0142|TWO_SIDED|95.0|2.6|21.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||21.7|2.6|0.0142
92163817|NCT01212757|184215637|SUPERIORITY||Adjusted Difference|20.5||||0.0001|TWO_SIDED|95.0|10.8|30.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||30.3|10.8|0.0001
92222011|NCT00708123|184344499|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-49.96||||0.5328|TWO_SIDED|95.0|-207.62|107.71||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||107.71|-207.62|0.5328
92222012|NCT00708123|184344499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-406.19|||<|0.0001|TWO_SIDED|95.0|-564.0|-248.37||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||-248.37|-564.00|<0.0001
92222013|NCT00708123|184344499|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|602.93|||<|0.0001|TWO_SIDED|95.0|445.97|759.9||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||759.90|445.97|<0.0001
92222014|NCT00708123|184344499|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|652.89|||<|0.0001|TWO_SIDED|95.0|495.05|810.72||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||810.72|495.05|<0.0001
92357312|NCT02732145|184619253|EQUIVALENCE|Question: Is there a difference in the velocity of the aceto-whitening occurrence among patients from different groups, in which the AWR was positive?||||||0.0003|||||||ANOVA|||Parameter: The difference in the velocity of the aceto-whitening occurrence (positive AWR) among patients from different groups, in which the AWR was positive.||||0.0003
92163818|NCT01212757|184215638|SUPERIORITY||Adjusted Difference|5.6||||0.0589|TWO_SIDED|95.0|-0.2|11.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||11.3|-0.2|0.0589
92163819|NCT01212757|184215638|SUPERIORITY||Adjusted Difference|9.8||||0.0034|TWO_SIDED|95.0|3.4|16.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.1|3.4|0.0034
92163820|NCT01212757|184215639|SUPERIORITY||Adjusted Difference|0.6||||0.562|TWO_SIDED|95.0|-1.5|2.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||2.7|-1.5|0.5620
92163821|NCT01212757|184215639|SUPERIORITY||Adjusted Difference|3.1||||0.057|TWO_SIDED|95.0|0.0|6.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||6.2|-0.0|0.0570
92163822|NCT01212757|184215640|SUPERIORITY||Adjusted Difference|3.1||||0.3629|TWO_SIDED|95.0|-3.5|9.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||9.6|-3.5|0.3629
92163823|NCT01212757|184215640|SUPERIORITY||Adjusted Difference|5.4||||0.1323|TWO_SIDED|95.0|-1.5|12.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||12.3|-1.5|0.1323
92163824|NCT01212757|184215641|SUPERIORITY||Adjusted Difference|-0.6||||0.7273|TWO_SIDED|95.0|-4.3|3.0|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||3.0|-4.3|0.7273
92163825|NCT01212757|184215641|SUPERIORITY||Adjusted Difference|2.4||||0.2929|TWO_SIDED|95.0|-2.0|6.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||6.8|-2.0|0.2929
92163826|NCT01212757|184215642|SUPERIORITY||Adjusted Difference|-2.2||||0.7023|TWO_SIDED|95.0|-13.5|9.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||9.1|-13.5|0.7023
92163827|NCT01212757|184215642|SUPERIORITY||Adjusted Difference|5.9||||0.3305|TWO_SIDED|95.0|-5.9|17.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||17.7|-5.9|0.3305
92163828|NCT01212757|184215643|SUPERIORITY||Adjusted Difference|0.3||||0.9698|TWO_SIDED|95.0|-16.0|16.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.6|-16.0|0.9698
92163829|NCT01212757|184215643|SUPERIORITY||Adjusted Difference|1.9||||0.8205|TWO_SIDED|95.0|-14.3|18.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||18.1|-14.3|0.8205
92222015|NCT00708123|184344499|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|847.55|||<|0.0001|TWO_SIDED|95.0|690.54|1004.55||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||1004.55|690.54|<0.0001
92357313|NCT02732145|184619254|EQUIVALENCE|Question: Is there a difference in the velocity of the aceto-whitening occurrence among patients with positive AWR from different groups?||||||0.0004|||||||Kruskal-Wallis|||Parameter: The difference in the velocity of the aceto-whitening occurrence among patients with positive AWR from different groups.||||0.0004
92357314|NCT02732145|184619254|SUPERIORITY|Question: Is there a difference in the velocity of the aceto-whitening occurrence between patients with vulvar dermatosis and vulvodynia, with positive AWR?||||||0.0231|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the velocity of the aceto-whitening occurrence between patients with vulvar dermatosis and vulvodynia, with positive AWR.||||0.0231
92357315|NCT02732145|184619254|SUPERIORITY|Question: Is there a difference in the velocity of the aceto-whitening occurrence between the patients with normal vulva and impaired vulvar skin, with positive AWR?||||||0.0006|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the velocity of the aceto-whitening occurrence between the patients with normal vulva and impaired vulvar skin, with positive AWR.||||0.0006
92357316|NCT02732145|184619254|SUPERIORITY|Question: Is there a difference in the velocity of the aceto-whitening occurrence between patients with normal vulva and vulvodynia, with positive AWR?||||||0|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the velocity of the aceto-whitening occurrence between patients with normal vulva and vulvodynia, with positive AWR.||||0.0000
92357317|NCT02732145|184619255|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis among patients from different groups, with positive AWR.||||0.0000
92357318|NCT02732145|184619255|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Labia Majora among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Labia Majora among patients from different groups, with positive AWR.||||0.0000
92357319|NCT02732145|184619255|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Perineum among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Perineum among patients from different groups, with positive AWR.||||0.0000
92357320|NCT02732145|184619255|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with vulvar dermatosis and positive AWR?||||||0.0128|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with vulvar dermatosis and positive AWR.||||0.0128
92357321|NCT02732145|184619255|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with vulvar dermatosis and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with vulvar dermatosis and positive AWR.||||0.0000
92357322|NCT02732145|184619255|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with vulvar dermatosis and positive AWR?||||||0.0635|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with vulvar dermatosis and positive AWR.||||0.0635
92357323|NCT02732145|184619255|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with vulvodynia and positive AWR?||||||0.0429|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with vulvodynia and positive AWR.||||0.0429
92163830|NCT01212757|184215644|SUPERIORITY||Adjusted Difference|-1.2||||0.8424|TWO_SIDED|95.0|-12.7|10.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||10.3|-12.7|0.8424
92163831|NCT01212757|184215644|SUPERIORITY||Adjusted Difference|5.9||||0.3395|TWO_SIDED|95.0|-6.0|17.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||17.8|-6.0|0.3395
92222016|NCT00708123|184344499|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|897.5|||<|0.0001|TWO_SIDED|95.0|739.92|1055.08||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors treatment, period and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||1055.08|739.92|<0.0001
92222017|NCT00708123|184344499|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|650.8|||<|0.0001|TWO_SIDED|95.0|493.61|808.0||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||808.00|493.61|<0.0001
92357324|NCT02732145|184619255|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with vulvodynia and positive AWR?||||||0.0011|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with vulvodynia and positive AWR.||||0.0011
92357325|NCT02732145|184619255|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with vulvodynia and positive AWR?||||||0.0936|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with vulvodynia and positive AWR.||||0.0936
92163832|NCT01212757|184215645|SUPERIORITY||Adjusted Difference|5.9||||0.4811|TWO_SIDED|95.0|-10.3|22.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||22.1|-10.3|0.4811
92357326|NCT02732145|184619255|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with impaired vulvar skin and positive AWR?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with impaired vulvar skin and positive AWR.||||1.0000
92357327|NCT02732145|184619255|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with impaired vulvar skin and positive AWR?||||||0.0429|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with impaired vulvar skin and positive AWR.||||0.0429
92222018|NCT00708123|184344499|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|244.62||||0.0024|TWO_SIDED|95.0|87.62|401.61||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||401.61|87.62|0.0024
92222019|NCT00677014|184344522|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.66||95.0|||||ANOVA|As LVESV values were non normal by Q-Q analysis and Shapiro-Wilk test (p\<.05), a square root transform was used. model adjusted for baseline LVESV.||Gate keeping strategy utilized for Type 1 error control described in design paper - negative results observed for initial comparisons - (each at alpha = .05) between fixed and algorithm optimized AV delay and fixed and Echo optimzied AV. Results from both of these comparisons were non-significant.||||.66
92357328|NCT02732145|184619255|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with impaired vulvar skin and positive AWR?||||||0.0429|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with impaired vulvar skin and positive AWR.||||0.0429
92357329|NCT02732145|184619256|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure among patients from different groups, with positive AWR.||||0.0000
92163833|NCT01212757|184215645|SUPERIORITY||Adjusted Difference|3.3||||0.6965|TWO_SIDED|95.0|-13.3|19.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||19.5|-13.3|0.6965
92357330|NCT02732145|184619256|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci among patients from different groups, with positive AWR.||||0.0000
92357331|NCT02732145|184619256|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Labia Minora among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Labia Minora among patients from different groups, with positive AWR.||||0.0000
92401445|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.334|TWO_SIDED|95.0|-1.05|0.36||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||0.36|-1.05|0.334
92163834|NCT01049503|184215706|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov and Smirnov and Bartlett tests, respectively.~Data were analyzed by 2-way RM-ANOVA after logarithmic transformation and Bonferroni's test."||||<0.05
92163835|NCT01049503|184215707|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Kruskal-Wallis|||The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov; Smirnov and Bartlett tests, respectively. Data from the clinical exams were evaluated by Kruskal-Wallis' test.||||<0.05
92163836|NCT01049503|184215708|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Kruskal-Wallis|||The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov; Smirnov and Bartlett tests, respectively.Data from the clinical exams were evaluated by Kruskal-Wallis' test.||||<0.05
92163837|NCT01049503|184215709|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||"The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov and Smirnov and Bartlett tests, respectively.~Data were analyzed by One-way ANOVA after logarithmic transformation and Tukey's test."||||<0.05
92163838|NCT01049503|184215710|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Kruskal-Wallis|||The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov; Smirnov and Bartlett tests, respectively. Data from fluorescence loss were evaluated by Kruskal-Wallis and Dunn's tests.||||<0.05
92222020|NCT00350142|184344540|SUPERIORITY_OR_OTHER||proportion|0.75|||||TWO_SIDED|||||||||||||
92163839|NCT01049503|184215711|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov; Smirnov and Bartlett tests, respectively. Data from lesion area were evaluated by ANOVA after logarithmic transformation and Tukey's test.||||<0.05
92163840|NCT01049503|184215712|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Kruskal-Wallis|||GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov; Smirnov and Bartlett tests, respectively.Data from the clinical exams were evaluated by Kruskal-Wallis' test.||||<0.05
92163841|NCT00955825|184215734|SUPERIORITY_OR_OTHER||LS Mean difference vs. Placebo|-0.126||||0.0003||95.0|-0.194|-0.058|||ANCOVA||Relative LS Means difference (%) = - 28.24|||-0.058|-0.194|0.0003
92357332|NCT02732145|184619256|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Posterior Commissure among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Posterior Commissure among patients from different groups, with positive AWR.||||0.0000
92163842|NCT01904071|184215742|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||||||<.0001
92163843|NCT01904071|184215743|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<.05
92163844|NCT01904071|184215744|SUPERIORITY_OR_OTHER||||||<|0.005|||||||ANOVA|||||||<.005
92163845|NCT01904071|184215745|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<.001
92163846|NCT01904071|184215746|SUPERIORITY_OR_OTHER|||||||0.342|||||||ANOVA|||||||0.342
92163847|NCT02729701|184215758|OTHER|||||||0.017||||||a priori threshold for statistical significance \<0.05|Wilcoxon (Mann-Whitney)|||Test for within-group change by paired two-sample non-parametric test||||0.017
92163848|NCT02729701|184215759|OTHER|||||||0.043||||||a priori threshold for statistical significance \<0.05|Wilcoxon (Mann-Whitney)|2-sided||Test for within-group change via paired, two-sample non-parametric test||||0.043
92163849|NCT02729701|184215760|OTHER|||||||0.088||||||a priori threshold for statistical significance \< 0.05|Wilcoxon (Mann-Whitney)|||Test for within-group change using paired two-sample non-parametric etst||||0.088
92163850|NCT01811706|184215793|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis is that there was no difference in change of T25FW between Dalfampridine and Placebo. The test was performed with a significant level of 0.05 (two-sided).||||>0.05
92163851|NCT01811706|184215794|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis is that there was no difference in change of SARA score between Dalfampridine and Placebo. The test was performed with a significant level of 0.05 (two-sided).||||>0.05
92163852|NCT01811706|184215795|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis is that there was no difference in change of Stride Length on BAG between Dalfampridine and Placebo. The test was performed with a significant level of 0.05 (two-sided).||||>0.05
92163853|NCT00208507|184215854|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This was a non-inferiority test of the Harris Hip Score means at 24+ months with a 5 point non-inferiority margin.|Mean Difference (Final Values)|0.61||||0.001|ONE_SIDED|95.0|-1.56||||ANCOVA|Preoperative Harris Hip score was included in the ANCOVA model as the only covariate.|||||-1.56|0.001
92163854|NCT00855465|184215909|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Prespecified significance level for all significance tests was 5%. Primary analysis, due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|Test was stratified by region.||Missing values for participants who withdrew/died before 16 weeks were imputed with a worst value of 0m in case of death/clinical worsening without termination visit and with the last observed value otherwise. Comparison was done using analysis of covariance (ANCOVA), with baseline 6MWD as a covariate and treatment group and region as main effects. The primary statistical method was the stratified Wilcoxon test if the Shapiro-Wilk test for normality of residuals was statistically significant.||||<0.0001
92163855|NCT00855465|184215909|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|45.69|||<|0.0001|TWO_SIDED|95.0|24.74|66.63||Additional analysis, due to result of Shapiro-Wilk test.|ANCOVA|||||66.63|24.74|<0.0001
92163856|NCT00855465|184215909|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
92163857|NCT00855465|184215910|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|||Missing values at week 16 were imputed using the last available post-baseline observation. Same analysis method as for primary efficacy parameter.||||<0.0001
92163858|NCT00855465|184215910|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-246.43|||<|0.0001|TWO_SIDED|95.0|-303.33|-189.53||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-189.53|-303.33|<0.0001
92163859|NCT00855465|184215910|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
92163860|NCT00855465|184215911|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|||Missing values at week 16 were imputed using the last available post-baseline observation. Same analysis method as for primary efficacy parameter.||||<0.0001
92163861|NCT00855465|184215911|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-443.99||||0.0293|TWO_SIDED|95.0|-842.95|-45.03||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-45.03|-842.95|0.0293
92163862|NCT00855465|184215911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
92163863|NCT00855465|184215912|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0026||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.|Wilcoxon (Mann-Whitney)|Test was stratified by region.||Missing values for participants who withdrew or died before 16 weeks were imputed with a worst value of IV in case of clinical worsening without termination visit or measurement at that termination visit and with a worst value of V in case of death and with the last observed value otherwise.||||0.0026
92222021|NCT00159861|184344604|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier estimate|0.095|||||TWO_SIDED|95.0|0.059|0.132||||||1 Year: Proportion of participants who died.||0.132|0.059|
92222022|NCT00159861|184344604|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier estimate|0.194|||||TWO_SIDED|95.0|0.144|0.243||||||2 Years: Proportion of participants who died.||0.243|0.144|
92222023|NCT00159861|184344604|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier estimate|0.26|||||TWO_SIDED|95.0|0.205|0.315||||||3 Years: Proportion of participants who died.||0.315|0.205|
92222024|NCT00159861|184344604|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier estimate|0.291|||||TWO_SIDED|95.0|0.234|0.348||||||4 Years: Proportion of participants who died.||0.348|0.234|
92222025|NCT00159861|184344604|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier estimate|0.369|||||TWO_SIDED|95.0|0.302|0.437||||||5 Years: Proportion of participants who died.||0.437|0.302|
92222026|NCT02909985|184344675|SUPERIORITY||F|23.68|||<|0.0001|TWO_SIDED||||||ANOVA|(9, 129)||||||<0.0001
92222027|NCT02909985|184344675|SUPERIORITY||F|9.4394|||<|0.0001|TWO_SIDED||||||ANOVA|(11, 52)||||||<0.0001
92222028|NCT01908101|184344750|OTHER|comparison analysis|Median Difference (Final Values)|3.5|||||TWO_SIDED|95.0|2.6|4.6||comparison analysis; no P value|||The estimated value is 3.5 months, not years.|Progression free survival (PFS). We hypothesize that metronomic dosing of eribulin will result in a PFS of 4-6 months.||4.6|2.6|
92222029|NCT01979523|184344834|OTHER|||||||0.74|||||||Log Rank|||||||0.74
92222030|NCT02495844|184344862|SUPERIORITY||Odds Ratio (OR)|4.14|||=|0.0679|TWO_SIDED|95.0|0.9|19.06|||Regression, Logistic|||||19.06|0.90|=0.0679
92222031|NCT00493870|184344886|OTHER|||||||0.05|||||||Log Rank|||||||0.05
92222032|NCT00623480|184344920|SUPERIORITY_OR_OTHER||Ratio (On-Demand vs. Prophylaxis)|14.7|||<|0.0001|TWO_SIDED|95.0|8.1|26.5|||Negative Binomial Regression Model|Adjusted for time of follow-up||||26.5|8.1|<0.0001
92222033|NCT00623480|184344921|SUPERIORITY_OR_OTHER||estimated diff (prohylaxis vs. OD)|-0.17||||0.6614|TWO_SIDED|95.0|-0.92|0.59|||Based on cLDA model|Adjusted for presence/absence of target joint and prior 6 month bleeding frequency||||0.59|-0.92|0.6614
92222034|NCT00623480|184344922|SUPERIORITY_OR_OTHER||estimated diff (prohylaxis vs. OD)|-0.94||||0.0072|TWO_SIDED|95.0|-1.61|-0.26|||Based on cLDA model|Adjusted for presence/absence of target joint and prior 6 month bleeding frequency||||-0.26|-1.61|0.0072
92222035|NCT00623480|184344923|SUPERIORITY_OR_OTHER||estimated diff (prohylaxis vs. OD)|13.15|||||TWO_SIDED|95.0|5.23|21.08||no p-values computed|Based on cLDA model|Adjusted for presence/absence of target joint and prior 6 month bleeding frequency||||21.08|5.23|
92357333|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with vulvar dermatosis and positive AWR?||||||0.0318|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with vulvar dermatosis and positive AWR.||||0.0318
92357334|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with vulvar dermatosis and positive AWR?||||||0.0318|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with vulvar dermatosis and positive AWR.||||0.0318
92357335|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with vulvar dermatosis and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with vulvar dermatosis and positive AWR.||||0.0000
92357336|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with vulvar dermatosis and positive AWR?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with vulvar dermatosis and positive AWR.||||1.0000
92357337|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci versus Posterior Commissure in patients with vulvar dermatosis and positive AWR?||||||0.0389|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci versus Posterior Commissure in patients with vulvar dermatosis and positive AWR.||||0.0389
92357338|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with vulvar dermatosis and positive AWR?||||||0.0389|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with vulvar dermatosis and positive AWR.||||0.0389
92357339|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with vulvodynia and positive AWR?||||||1e-05|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with vulvodynia and positive AWR.||||0.00001
92222036|NCT00847912|184344940|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|||||||Log Rank|||||||0.93
92222037|NCT00847912|184344941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.93|TWO_SIDED|95.0|0.82|1.24|||Regression, Cox|||||1.24|0.82|0.93
92357340|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with vulvodynia and positive AWR.||||0.0000
92357341|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with vulvodynia and positive AWR.||||0.0000
92222038|NCT00517595|184344946|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Log Rank|||Within Group 1 (N=48), patients with an ECOG of 0 at baseline (N=18) were compared to patients with an ECOG of 1 at baseline (N=30).||||0.02
92222039|NCT00517595|184344947|SUPERIORITY_OR_OTHER|||||||0.0041||95.0|||||Log Rank|||Within Group 1 (N=48), patients with an ECOG of 0 at baseline (N=18) were compared to patients with an ECOG of 1 at baseline (N=30).||||0.0041
92222040|NCT05525533|184344980|SUPERIORITY||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-1.87|2.24|||Regression, Linear|||||2.24|-1.87|
92222041|NCT05525533|184344980|SUPERIORITY||Mean Difference (Final Values)|1.55|||||TWO_SIDED|95.0|-0.73|3.82|||Regression, Linear|||||3.82|-0.73|
92222042|NCT05525533|184344982|SUPERIORITY||Mean Difference (Final Values)|7.58|||||TWO_SIDED|95.0|-2.92|18.0|||Regression, Linear|||||18|-2.92|
92357342|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Interlabial Sulci versus Labia Minora in patients with vulvodynia and positive AWR?||||||0.0008|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Interlabial Sulci versus Labia Minora in patients with vulvodynia and positive AWR.||||0.0008
92222043|NCT05525533|184344982|SUPERIORITY||Mean Difference (Final Values)|16.0|||||TWO_SIDED|95.0|0.64|31.0|||Regression, Linear|||||31|0.64|
92222044|NCT05525533|184344984|SUPERIORITY||Mean Difference (Final Values)|47.0|||||TWO_SIDED|95.0|-18.0|113.0|||Regression, Linear|||||113|-18|
92222045|NCT05525533|184344984|SUPERIORITY||Mean Difference (Final Values)|113.0|||||TWO_SIDED|95.0|38.0|189.0|||Regression, Linear|||||189|38|
92222046|NCT05525533|184344985|SUPERIORITY||Mean Difference (Final Values)|3.63|||||TWO_SIDED|95.0|-1.37|8.63|||Regression, Linear|||||8.63|-1.37|
92222047|NCT05525533|184344985|SUPERIORITY||Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0|-1.5|4.5|||Regression, Linear|||||4.50|-1.50|
92222048|NCT05525533|184344986|SUPERIORITY||Mean Difference (Final Values)|1.32|||||TWO_SIDED|95.0|-0.36|7.3|||Regression, Linear|||||7.30|-0.36|
92222049|NCT05525533|184344986|SUPERIORITY||Mean Difference (Final Values)|3.38|||||TWO_SIDED|95.0|-0.54|7.3|||Regression, Linear|||||7.30|-0.54|
92163864|NCT00855465|184215913|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-3.37||||0.1724|TWO_SIDED|95.0|-8.72|1.99||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.|Log Rank|Test was stratified by region.|Based on Mantel-Haenszel estimate stratified by region.|"Test for difference of occurence of Any event."||1.99|-8.72|0.1724
92163865|NCT00855465|184215914|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0035||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH. Nominally significant only due to hierarchical testing.|Wilcoxon (Mann-Whitney)|Test was stratified by region.||Missing values for participants who withdrew or died before 16 weeks were imputed with a worst value of 10 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||0.0035
92163866|NCT00855465|184215915|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO FC, TTCW, Borg scale, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.Nominally significant only due to hierarchical testing.|Wilcoxon (Mann-Whitney)|||Missing values at baseline were imputed using last available observation prior to start of study treatment. Missing values for participants who withdrew or died before 16 weeks were imputed with a worst value of -0.594 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||<0.0001
92163867|NCT00855465|184215915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13||||0.0002|TWO_SIDED|95.0|0.06|0.21||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||0.21|0.06|0.0002
92163868|NCT00855465|184215915|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
92163869|NCT00855465|184215916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.122||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg Dyspnea Score, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|||Missing values at baseline were imputed using last available observation prior to start of study treatment. Missing values for participants who withdrew or died before 16 weeks were imputed with a worst value of 105 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||0.1220
92163870|NCT00855465|184215916|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.76||||0.0165|TWO_SIDED|95.0|-10.45|-1.06||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-1.06|-10.45|0.0165
92163871|NCT00855465|184215916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
92163872|NCT00855465|184215918|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Exploratory testing. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|||Missing values at week 16 were imputed using the last available post-baseline observation. Same analysis as for primary efficacy parameter.||||<0.0001
92163873|NCT00855465|184215918|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.96|||<|0.0001|TWO_SIDED|95.0|-6.75|-3.16||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-3.16|-6.75|<0.0001
92163874|NCT00855465|184215918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0231|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0231
92163875|NCT00855465|184215919|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47|||<|0.0001|TWO_SIDED|95.0|0.33|0.62||Exploratory testing. Primary analysis due to result of Shapiro-Wilk test.|ANCOVA|||Missing values at week 16 were imputed using the last available post-baseline observation. Same analysis as for primary efficacy parameter.||0.62|0.33|<0.0001
92163876|NCT00855465|184215919|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Additional analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92163877|NCT00855465|184215919|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.1160
92163878|NCT04365400|184215957|SUPERIORITY||Hodges Lehmann Median|8.24||||0.1148124|TWO_SIDED|95.0|-2.01|18.19|||Wilcoxon (Mann-Whitney)|||||18.19|-2.01|0.1148124
92163879|NCT04365400|184215957|SUPERIORITY||Hodges Lehmann Median|-0.82||||0.8668467|TWO_SIDED|95.0|-10.16|7.96|||Wilcoxon (Mann-Whitney)|||||7.96|-10.16|0.8668467
92163880|NCT04365400|184215958|SUPERIORITY||Difference in Change in HbA1c (%)|0.02516||||0.8658|TWO_SIDED|95.0|-0.26658|0.316897|||ANCOVA|||||0.316897|-0.26658|0.8658
92163881|NCT04365400|184215958|SUPERIORITY||Difference in Change in HbA1c (%)|-0.07333||||0.65|TWO_SIDED|95.0|-0.39012|0.243455|||ANCOVA|||||0.243455|-0.39012|0.6500
92163882|NCT00612586|184215961|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8956||||||One sided|Log Rank|||||||0.8956
92163883|NCT00612586|184215962|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9865||||||One-sided|Log Rank|||||||0.9865
92163884|NCT02613364|184215966|NON_INFERIORITY|Non-inferiority is established if the difference in mean change on the ISI between YOCAS©® and CBT-I is less than 1.15. Using ANCOVA to estimate differences in mean change between YOCAS©® and CBT-I, a correlation of 0.576 (from our prior study), and a sample of 168 subjects per group, we will have sufficient (80%) power to detect non-inferiority using a margin of 1.15 at p = 0.025.|Mean Difference (Final Values)|3.52|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|2.66|4.37||The p-value shown above is from the Least Squares Mean between YOCAS - CBT-I from the Mixed Model.|Mixed Models Analysis||The comparison is YOCAS - CBT-I|Constructed a 95% confidence interval on the mean change of ISI from baseline between the arms (YOCAS - CBT-I). If the lower bound of the interval is less than 1.5 then we conclude that YOCAS is non-inferior.||4.37|2.66|<.0001
92163885|NCT02613364|184215967|SUPERIORITY|Using ANCOVA to estimate differences in mean change between YOCAS and health education, a correlation of 0.576 (from our prior study), and a sample size of 168 evaluable subjects per group, we will have sufficient power to detect differences on the ISI of at least 1.3, 1.5 and 1.6 (all larger than our 1.15 non-inferiority margin) at 80%, 90%, and 95% power, respectively|Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.42||0.0009|TWO_SIDED|95.0|-2.23|-0.58||the comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the ISI Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||-0.58|-2.23|0.0009
92222050|NCT05525533|184344987|SUPERIORITY||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-3.38|3.72|||Regression, Linear|||||3.72|-3.38|
92222051|NCT05525533|184344987|SUPERIORITY||Mean Difference (Final Values)|7.57|||||TWO_SIDED|95.0|0.42|15.0|||Regression, Linear|||||15|0.42|
92222052|NCT05525533|184344988|SUPERIORITY||Mean Difference (Final Values)|2.46|||||TWO_SIDED|95.0|-0.11|5.02|||Regression, Linear|||||5.02|-0.11|
92222053|NCT05525533|184344988|SUPERIORITY||Mean Difference (Final Values)|3.29|||||TWO_SIDED|95.0|0.33|6.25|||Regression, Linear|||||6.25|0.33|
92222054|NCT02915523|184345000|OTHER||Hazard Ratio (HR)|0.899|||||TWO_SIDED|95.0|0.581|1.393|||||Stratified HR estimated from a stratified univeriate Cox proportional hazards model. Avelumab + placebo was the reference treatment group.|||1.393|0.581|
92222055|NCT02797808|184345015|SUPERIORITY||||||<|0.0083||||||Independent-sample t tests were used to compare the RSFC metrics between groups at baseline and 12 weeks. Bonferroni correction was applied to the alpha level (2-tailed, p\<.05/6= .0083) for multiple testing.|ANOVA|||||||<0.0083
92222056|NCT00535132|184345023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_DEVIATION|1.4|<|0.001||||||p-value based on a paired t-test for a within-group comparison.|t-test, 2 sided|||Sample size for this study was based on changes in the MSQ scores within subjects from baseline to endpoint using a one-sample paired t-test. A sample size of 97 subjects was shown to have 90% power at endpoint to detect a mean change from baseline of 0.5 units on the MSQ score, with a standard deviation of 1.5. Allowing for extra variability from subjects with prior generic risperidone (instead of branded risperidone) use, this number was increased to 150 subjects.||||<0.001
92222057|NCT00535132|184345024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|STANDARD_DEVIATION|1.4|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
92222058|NCT00535132|184345025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_DEVIATION|1.4|<|0.001|||||||t-test, 2 sided|||||||<0.001
92222059|NCT00535132|184345026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|STANDARD_DEVIATION|1.3|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
92276576|NCT01360632|184454754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52||||0.1001|TWO_SIDED|95.0|-3.33|0.29|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.29|-3.33|0.1001
92222060|NCT00535132|184345027|SUPERIORITY_OR_OTHER|||||||0.002|||||||Fisher Exact|P-values for the study group comparisons using dichotomized categories are based on Fisher's Exact Test.||||||0.002
92222061|NCT00535132|184345028|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Fisher Exact|P-values for the study group comparisons using dichotomized categories are based on Fisher's Exact Test.||||||0.033
92222062|NCT00535132|184345029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.9|STANDARD_DEVIATION|13.1|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
92222063|NCT00535132|184345030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_DEVIATION|0.9|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
92222064|NCT00535132|184345031|SUPERIORITY_OR_OTHER|||||||0.123||95.0||||P-values for the study group comparisons using dichotomized categories are based on Fisher's Exact Test.|Fisher Exact|||||||0.123
92222065|NCT00535132|184345032|SUPERIORITY_OR_OTHER|||||||0.125||95.0|||||Fisher Exact|P-values for the study group comparisons using dichotomized categories are based on Fisher's Exact Test.||||||0.125
92222066|NCT00535132|184345033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.3|STANDARD_DEVIATION|23.1|<|0.001||||||p-value for within-group comparison based on a paired t-test.|t-test, 2 sided|||||||<0.001
92276577|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12||||0.0496|TWO_SIDED|95.0|-2.24|0.0|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0|-2.24|0.0496
92357343|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Interlabial Sulci versus Posterior Commissure in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Interlabial Sulci versus Posterior Commissure in patients with vulvodynia and positive AWR.||||0.0000
92222067|NCT00535132|184345034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|7.5||0.009|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||0.009
92222068|NCT00535132|184345035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|STANDARD_DEVIATION|10.4|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
92357344|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Labia Minora versus Posterior Commissure in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Labia Minora versus Posterior Commissure in patients with vulvodynia and positive AWR.||||0.0000
92222069|NCT00535132|184345036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|STANDARD_DEVIATION|4.3|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
92222070|NCT00535132|184345037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_DEVIATION|3.0|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
92222071|NCT00708500|184345061|SUPERIORITY_OR_OTHER||Treatment Difference|37.4|||<|0.0001||95.0|25.7|49.1|||Cochran-Mantel-Haenszel||Difference in percentage of participants who achieved SVR: experimental minus control.|||49.1|25.7|<0.0001
92222072|NCT00708500|184345061|SUPERIORITY_OR_OTHER||Treatment Difference|45.2|||<|0.0001||95.0|33.7|56.8|||Cochran-Mantel-Haenszel||Difference in percentage of participants who achieved SVR: experimental minus control.|||56.8|33.7|<0.0001
92357345|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with impaired vulvar skin and positive AWR?||||||0.0005|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with impaired vulvar skin and positive AWR.||||0.0005
92357346|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with impaired vulvar skin and positive AWR.||||0.0000
92222073|NCT00708500|184345062|SUPERIORITY_OR_OTHER||Treatment Difference|39.1|||<|0.0001||95.0|27.2|51.0|||Cochran-Mantel-Haenszel||Difference in percentage of participants who achieved SVR: experimental minus control.|||51.0|27.2|<0.0001
92222074|NCT00708500|184345062|SUPERIORITY_OR_OTHER||Treatment Difference|45.1|||<|0.0001||95.0|33.4|56.8|||Cochran-Mantel-Haenszel||Difference in percentage of participants who achieved SVR: experimental minus control.|||56.8|33.4|<0.0001
92222075|NCT05051904|184345065|OTHER||Adjusted Hazard Ratio|0.5|||<|0.0001|TWO_SIDED|95.0|0.402|0.622|||Regression, Cox|Cox proportional hazard model with s-IPTW. 'Treatment' is the only Independent variable used to estimate the hazard ratios.|Hazard ratio \<1 favors Dabigatran.|||0.622|0.402|<0.0001
92357347|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with impaired vulvar skin and positive AWR.||||0.0000
92357348|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with impaired vulvar skin and positive AWR?||||||0.4505|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with impaired vulvar skin and positive AWR.||||0.4505
92357349|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Interlabial Sulci versus Posterior Commissure in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Interlabial Sulci versus Posterior Commissure in patients with impaired vulvar skin and positive AWR.||||0.0000
92357350|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with impaired vulvar skin and positive AWR.||||0.0000
92357351|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with normal vulva and positive AWR?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with normal vulva and positive AWR.||||1.0000
92357352|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with normal vulva and positive AWR?||||||0.0534|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with normal vulva and positive AWR.||||0.0534
92357353|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with normal vulva and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with normal vulva and positive AWR.||||0.0000
92357354|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with normal vulva and positive AWR?||||||0.0534|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with normal vulva and positive AWR.||||0.0534
92163886|NCT02613364|184215968|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.26||0.07|TWO_SIDED|95.0|-0.98|0.04||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the ISI Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||0.04|-0.98|0.0700
92222076|NCT05051904|184345065|OTHER||Adjusted Hazard Ratio|0.784||||0.0004|TWO_SIDED|95.0|0.686|0.896|||Regression, Cox|Cox proportional hazard model with s-IPTW. 'Treatment' is the only Independent variable used to estimate the hazard ratios.|Hazard ratio \<1 favors Rivaroxaban.|||0.896|0.686|0.0004
92163887|NCT02613364|184215969|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|2.23|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|1.7|2.75||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - CBT-I) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the ISI Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha.||2.75|1.70|<.0001
92222077|NCT05051904|184345065|OTHER||Adjusted Hazard Ratio|0.637|||<|0.0001|TWO_SIDED|95.0|0.514|0.791|||Regression, Cox|Cox proportional hazard model with s-IPTW. 'Treatment' is the only Independent variable used to estimate the hazard ratios.|Hazard ratio \<1 favors Dabigatran.|||0.791|0.514|<0.0001
92222078|NCT05051904|184345066|OTHER||Adjusted Hazard Ratio|0.78|||<|0.0001|TWO_SIDED|95.0|0.714|0.851|||Regression, Cox|Cox proportional hazard model with s-IPTW. 'Treatment' is the only Independent variable used to estimate the hazard ratios.|Hazard ratio \<1 favors Dabigatran.|||0.851|0.714|<0.0001
92222079|NCT05051904|184345066|OTHER||Adjusted Hazard Ratio|0.827|||<|0.0001|TWO_SIDED|95.0|0.777|0.88|||Regression, Cox|Cox proportional hazard model with s-IPTW. 'Treatment' is the only Independent variable used to estimate the hazard ratios.|Hazard ratio\<1 favors Rivaroxaban|||0.88|0.777|<0.0001
92222080|NCT00794677|184345086|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.252|STANDARD_ERROR_OF_MEAN|0.112||0.03||95.0|||||ANOVA|||Statistical significance was determined for a standard two-period crossover design using JMP software (Version 5.0, SAS Institute. Cary, NC).||||0.03
92222081|NCT00794677|184345087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.273|STANDARD_ERROR_OF_MEAN|0.102||0.01||95.0|||||ANOVA|||||||0.01
92222082|NCT00794677|184345088|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.048|STANDARD_ERROR_OF_MEAN|0.089||0.6||95.0|||||ANOVA|||||||0.60
92222083|NCT00794677|184345089|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.47||0.67||95.0|||||ANOVA|||||||0.67
92222084|NCT00794677|184345090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.14||0.3||95.0|||||ANOVA|||||||0.30
92222085|NCT00794677|184345091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-15.412|STANDARD_ERROR_OF_MEAN|1.569|<|0.0001|TWO_SIDED|95.0|||||ANOVA|||||||<0.0001
92222086|NCT00794677|184345092|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-21.846|STANDARD_ERROR_OF_MEAN|2.866|<|1e-07|TWO_SIDED|95.0|||||ANOVA|||||||<0.0000001
92222087|NCT00794677|184345093|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.397|STANDARD_ERROR_OF_MEAN|1.893||0.009|TWO_SIDED|95.0|||||ANOVA|||||||0.009
92222088|NCT00794677|184345094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-21.353|STANDARD_ERROR_OF_MEAN|2.22|<|1e-07|TWO_SIDED|95.0|||||ANOVA|||||||<0.0000001
92222089|NCT00563186|184345166|SUPERIORITY_OR_OTHER|This statistical analysis applies to the overall VRE, CDI and MRSA infection and colonization events expressed as incidence density (per 1000 patient-days at risk).|Incidence Rate ratio|1.6|STANDARD_ERROR_OF_MEAN|0.57||0.18|TWO_SIDED|95.0|0.8|3.22|||Poisson||Numerator is novel ward and denominator is traditional ward.|"It was calculated that this study will require 9750 patient days of observation in the traditional design wards and 19,500 patient days of observation in the novel design ward to ensure 80% statistical power to detect a 60% difference in the rates of incident cases of selected HAIs and ARO colonizations (the primary outcome measure) with an α level of 0.05 assuming that incident cases in each unit follow Poisson distribution based on well established historic trends on these units"||3.22|0.80|0.18
92222090|NCT00563186|184345168|SUPERIORITY_OR_OTHER||Rate Ratio|1.929|STANDARD_ERROR_OF_MEAN|0.493||0.175|TWO_SIDED|95.0|0.76|4.9|||Large test for person-time analysis|||||4.9|0.76|0.175
92222091|NCT02595723|184345169|OTHER|||||||0.003||||||Overall group difference adjusted for prior group, time, and baseline values.|Mixed Models Analysis|Model includes prior group, time, and baseline values to control for possible effects.||||||0.003
92222092|NCT01136655|184345170|SUPERIORITY_OR_OTHER||LS mean difference|0.114|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.087|0.142|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.142|0.087|<0.0001
92222093|NCT01136655|184345170|SUPERIORITY_OR_OTHER||LS mean difference|0.105|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.078|0.133|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.133|0.078|<0.0001
92276578|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.387|TWO_SIDED|95.0|-1.61|0.63|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.63|-1.61|0.387
92222094|NCT01136655|184345170|SUPERIORITY_OR_OTHER||LS mean difference|0.058|STANDARD_ERROR_OF_MEAN|0.0141||0.0001|TWO_SIDED|95.0|0.03|0.085|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.085|0.030|0.0001
92222095|NCT01136655|184345170|SUPERIORITY_OR_OTHER||LS mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.0139||0.5223|TWO_SIDED|95.0|-0.036|0.018|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.018|-0.036|0.5223
92222096|NCT01136655|184345170|SUPERIORITY_OR_OTHER||LS mean difference|-0.057|STANDARD_ERROR_OF_MEAN|0.0139||0.0001|TWO_SIDED|95.0|-0.084|-0.029|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.029|-0.084|0.0001
92222097|NCT01136655|184345170|SUPERIORITY_OR_OTHER||LS mean difference|-0.048|STANDARD_ERROR_OF_MEAN|0.0138||0.0007|TWO_SIDED|95.0|-0.075|-0.02|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.020|-0.075|0.0007
92222098|NCT01136655|184345170|SUPERIORITY_OR_OTHER||LS mean difference|-0.114|STANDARD_ERROR_OF_MEAN|0.0141|<|0.0001|TWO_SIDED|95.0|-0.142|-0.086|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.086|-0.142|<0.0001
92222099|NCT01136655|184345170|SUPERIORITY_OR_OTHER||LS mean difference|-0.056|STANDARD_ERROR_OF_MEAN|0.0141||0.0001|TWO_SIDED|95.0|-0.084|-0.028|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.028|-0.084|0.0001
92222100|NCT01136655|184345170|SUPERIORITY_OR_OTHER||LS mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.0141||0.5394|TWO_SIDED|95.0|-0.036|0.019|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.019|-0.036|0.5394
92222101|NCT01136655|184345170|SUPERIORITY_OR_OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.014||0.9863|TWO_SIDED|95.0|-0.027|0.028|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.028|-0.027|0.9863
92163888|NCT02613364|184215970|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|19.73|STANDARD_ERROR_OF_MEAN|7.03||0.0052|TWO_SIDED|95.0|5.91|33.54||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||33.54|5.91|0.0052
92163889|NCT02613364|184215971|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|15.94|STANDARD_ERROR_OF_MEAN|7.12||0.0258|TWO_SIDED|95.0|1.93|29.94||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - CBT-I) generated from the Mixed Model.|Mixed Models Analysis|||||29.94|1.93|0.0258
92163890|NCT02613364|184215972|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.025||0.92|TWO_SIDED|95.0|-0.053|0.048||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|||0.048|-0.053|0.92
92163891|NCT02613364|184215973|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.026||0.07|TWO_SIDED|95.0|-0.004|0.098||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to the CBT-I control is a traditional null hypothesis of no difference with a two-sided alpha.||0.098|-0.004|0.07
92163892|NCT02613364|184215974|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|2.27|STANDARD_ERROR_OF_MEAN|1.11||0.04|TWO_SIDED|95.0|0.09|4.44||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||4.44|0.09|0.04
92163893|NCT02613364|184215975|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|1.12||0.49|TWO_SIDED|95.0|-2.97|1.43||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha.||1.43|-2.97|0.49
92163894|NCT02613364|184215976|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.05||0.43|TWO_SIDED|95.0|-0.13|0.05||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||0.05|-0.13|0.43
92163895|NCT02613364|184215977|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.7|TWO_SIDED|95.0|-0.07|0.11||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha.||0.11|-0.07|0.70
92163896|NCT02613364|184215978|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-1.57|STANDARD_ERROR_OF_MEAN|0.55||0.0041|TWO_SIDED|95.0|-2.65|-0.5||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||-0.50|-2.65|0.0041
92222102|NCT01136655|184345171|SUPERIORITY_OR_OTHER||LS mean difference|0.105|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.056|0.155|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.155|0.056|<0.0001
92227117|NCT01235962|184356472|SUPERIORITY||Mean difference (24M DFS FU)|0.117||||0.083|TWO_SIDED|95.0|-0.015|0.249|||analysis of covariance|adjusted for baseline score using mixed-model||||0.249|-0.015|0.083
92357355|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci versus Posterior Commissure in patients with normal vulva and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci versus Posterior Commissure in patients with normal vulva and positive AWR.||||0.0000
92357356|NCT02732145|184619256|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with normal vulva and positive AWR?||||||0.0005|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with normal vulva and positive AWR.||||0.0005
92357357|NCT02732145|184619257|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris among patients from different groups, with positive AWR.||||0.0000
92357358|NCT02732145|184619257|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line among patients from different groups, with positive AWR.||||0.0000
92357359|NCT02732145|184619257|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Sulcus among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Sulcus among patients from different groups, with positive AWR.||||0.0000
92357360|NCT02732145|184619257|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Meatus among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Meatus among patients from different groups, with positive AWR.||||0.0000
92163897|NCT02613364|184215979|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|2.71|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|1.61|3.81||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha.||3.81|1.61|<.0001
92163898|NCT02613364|184215980|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-1.57|STANDARD_ERROR_OF_MEAN|0.62||0.0108|TWO_SIDED|95.0|-2.78|-0.36||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||-0.36|-2.78|0.0108
92163899|NCT02613364|184215981|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|2.78|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|1.54|4.02||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - CBT-I) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha.||4.02|1.54|<.0001
92163900|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.62|||||TWO_SIDED|98.25|-4.52|3.17||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 1.||3.17|-4.52|
92163901|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: the upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.06|||||TWO_SIDED|98.25|-3.94|4.38||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococcal serotype 4.||4.38|-3.94|
92163902|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.64|||||TWO_SIDED|98.25|-4.63|3.19||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 5.||3.19|-4.63|
92163903|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.69|||||TWO_SIDED|98.25|-9.4|10.99||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 6B.||10.99|-9.4|
92222103|NCT01136655|184345171|SUPERIORITY_OR_OTHER||LS mean difference|0.066|STANDARD_ERROR_OF_MEAN|0.0252||0.0092|TWO_SIDED|95.0|0.017|0.116|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.116|0.017|0.0092
92222104|NCT01136655|184345171|SUPERIORITY_OR_OTHER||LS mean difference|0.015|STANDARD_ERROR_OF_MEAN|0.0252||0.5509|TWO_SIDED|95.0|-0.035|0.065|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.065|-0.035|0.5509
92222105|NCT01136655|184345171|SUPERIORITY_OR_OTHER||LS mean difference|-0.039|STANDARD_ERROR_OF_MEAN|0.0249||0.1163|TWO_SIDED|95.0|-0.088|0.01|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.010|-0.088|0.1163
92222106|NCT01136655|184345171|SUPERIORITY_OR_OTHER||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.025||0.0004|TWO_SIDED|95.0|-0.14|-0.041|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.041|-0.140|0.0004
92222107|NCT01136655|184345171|SUPERIORITY_OR_OTHER||LS mean difference|-0.051|STANDARD_ERROR_OF_MEAN|0.0247||0.04|TWO_SIDED|95.0|-0.1|-0.002|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.002|-0.100|0.0400
92222108|NCT01136655|184345171|SUPERIORITY_OR_OTHER||LS mean difference|-0.083|STANDARD_ERROR_OF_MEAN|0.0252||0.0011|TWO_SIDED|95.0|-0.133|-0.034|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.034|-0.133|0.0011
92222109|NCT01136655|184345171|SUPERIORITY_OR_OTHER||LS mean difference|-0.068|STANDARD_ERROR_OF_MEAN|0.0254||0.0077|TWO_SIDED|95.0|-0.118|-0.018|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.018|-0.118|0.0077
92222110|NCT01136655|184345171|SUPERIORITY_OR_OTHER||LS mean difference|-0.017|STANDARD_ERROR_OF_MEAN|0.0252||0.4957|TWO_SIDED|95.0|-0.067|0.033|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.033|-0.067|0.4957
92222111|NCT01136655|184345171|SUPERIORITY_OR_OTHER||LS mean difference|0.022|STANDARD_ERROR_OF_MEAN|0.025||0.38|TWO_SIDED|95.0|-0.027|0.071|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.071|-0.027|0.3800
92222112|NCT01136655|184345172|SUPERIORITY_OR_OTHER||LS mean difference|0.107|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.073|0.14|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.140|0.073|<0.0001
92222113|NCT01136655|184345172|SUPERIORITY_OR_OTHER||LS mean difference|0.112|STANDARD_ERROR_OF_MEAN|0.0171|<|0.0001|TWO_SIDED|95.0|0.078|0.146|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.146|0.078|<0.0001
92222114|NCT01136655|184345172|SUPERIORITY_OR_OTHER||LS mean difference|0.057|STANDARD_ERROR_OF_MEAN|0.0172||0.0011|TWO_SIDED|95.0|0.023|0.09|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.090|0.023|0.0011
92222115|NCT01136655|184345172|SUPERIORITY_OR_OTHER||LS mean difference|0.005|STANDARD_ERROR_OF_MEAN|0.0169||0.7589|TWO_SIDED|95.0|-0.028|0.039|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.039|-0.028|0.7589
92357361|NCT02732145|184619257|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Hymenal Remnants among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Hymenal Remnants among patients from different groups, with positive AWR.||||0.0000
92357362|NCT02732145|184619257|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Bartholin's Gland Opening among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Bartholin's Gland Opening among patients from different groups, with positive AWR.||||0.0000
92357363|NCT02732145|184619257|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Vestibule among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Vestibule among patients from different groups, with positive AWR.||||0.0000
92357364|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hart's line in patients with vulvar dermatosis and positive AWR?||||||0.8545|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hart's line in patients with vulvar dermatosis and positive AWR.||||0.8545
92222116|NCT01136655|184345172|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.017||0.0035|TWO_SIDED|95.0|-0.084|-0.017|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.017|-0.084|0.0035
92222117|NCT01136655|184345172|SUPERIORITY_OR_OTHER||LS mean difference|-0.055|STANDARD_ERROR_OF_MEAN|0.0168||0.0011|TWO_SIDED|95.0|-0.089|-0.022|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.022|-0.089|0.0011
92222118|NCT01136655|184345172|SUPERIORITY_OR_OTHER||LS mean difference|-0.115|STANDARD_ERROR_OF_MEAN|0.0171|<|0.0001|TWO_SIDED|95.0|-0.149|-0.081|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.081|-0.149|<0.0001
92222119|NCT01136655|184345172|SUPERIORITY_OR_OTHER||LS mean difference|-0.058|STANDARD_ERROR_OF_MEAN|0.0172||0.0008|TWO_SIDED|95.0|-0.092|-0.024|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.024|-0.092|0.0008
92357365|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with vulvar dermatosis and positive AWR?||||||0.8569|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with vulvar dermatosis and positive AWR.||||0.8569
92222120|NCT01136655|184345172|SUPERIORITY_OR_OTHER||LS mean difference|-0.003|STANDARD_ERROR_OF_MEAN|0.0172||0.8582|TWO_SIDED|95.0|-0.037|0.031|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.031|-0.037|0.8582
92222121|NCT01136655|184345172|SUPERIORITY_OR_OTHER||LS mean difference|-0.008|STANDARD_ERROR_OF_MEAN|0.017||0.6276|TWO_SIDED|95.0|-0.042|0.025|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.025|-0.042|0.6276
92222122|NCT01136655|184345173|SUPERIORITY_OR_OTHER||LS mean difference|0.52|||<|0.0001|TWO_SIDED|95.0|0.393|0.7|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||0.700|0.393|<0.0001
92222123|NCT01136655|184345173|SUPERIORITY_OR_OTHER||LS mean difference|0.26|||<|0.0001|TWO_SIDED|95.0|0.194|0.347|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||0.347|0.194|<0.0001
92222124|NCT01136655|184345173|SUPERIORITY_OR_OTHER||LS mean difference|0.29|||<|0.0001|TWO_SIDED|95.0|0.214|0.396|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||0.396|0.214|<0.0001
92227118|NCT01235962|184356472|SUPERIORITY||Mean Difference (36M DFS FU)|0.081||||0.307|TWO_SIDED|95.0|-0.074|0.236|||analysis of covariance|adjusted for baseline score using mixed-model||||0.236|-0.074|0.307
92357366|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with vulvar dermatosis and positive AWR?||||||0.2478|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with vulvar dermatosis and positive AWR.||||0.2478
92357367|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR?||||||0.2478|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR.||||0.2478
92357368|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with vulvar dermatosis and positive AWR?||||||0.1627|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with vulvar dermatosis and positive AWR.||||0.1627
92163904|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.65|||||TWO_SIDED|98.25|-2.7|4.71||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 7F.||4.71|-2.7|
92357369|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with vulvar dermatosis and positive AWR?||||||0.5943|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with vulvar dermatosis and positive AWR.||||0.5943
92163905|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.58|||||TWO_SIDED|98.25|-5.05|3.82||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 9V.||3.82|-5.05|
92163906|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.65|||||TWO_SIDED|98.25|-4.68|3.15||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 14.||3.15|-4.68|
92163907|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.58|||||TWO_SIDED|98.25|-5.04|3.85||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 18C.||3.85|-5.04|
92163908|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.63|||||TWO_SIDED|98.25|-4.6|3.14||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 19F.||3.14|-4.6|
92222125|NCT01136655|184345173|SUPERIORITY_OR_OTHER||LS mean difference|0.49|||<|0.0001|TWO_SIDED|95.0|0.371|0.659|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||0.659|0.371|<0.0001
92222126|NCT01136655|184345173|SUPERIORITY_OR_OTHER||LS mean difference|0.56||||0.0002|TWO_SIDED|95.0|0.409|0.755|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||0.755|0.409|0.0002
92222127|NCT01136655|184345173|SUPERIORITY_OR_OTHER||LS mean difference|1.12||||0.4512|TWO_SIDED|95.0|0.827|1.528|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||1.528|0.827|0.4512
92222128|NCT02692495|184345229|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92222129|NCT00391222|184345232|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED|95.0||||As defined in the protocol, the olanzapine arm was not included in the primary outcome comparison. Data on the olanzapine arm are presented in outcome measure 7.|Log Rank|||Comparison between risperidone LAI and placebo was performed using a log-rank test controlling for patient type at screening (acute or non-acute) and for geographic region. As recurrence rates at 9 months were assumed to be 45% for risperidone LAI and 68% for placebo, the study would have approximately 90% power to detect a clinically meaningful difference of 23% in recurrence rates of a mood episode if in Period III 100 patients were randomized to each of the 2 relevant treatment arms.||||0.057
92222130|NCT00391222|184345233|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|95.0|||||Log Rank|||The time-to-event data were evaluated by the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||0.005
92222131|NCT00391222|184345233|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||The time-to-event data were evaluated by the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||<0.0001
92222132|NCT00391222|184345234|SUPERIORITY_OR_OTHER|||||||0.655|TWO_SIDED|95.0|||||Log Rank|||The time-to-event data were evaluated by means of the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||0.655
92222133|NCT00391222|184345234|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|95.0|||||Log Rank|||The time-to-event data were evaluated by means of the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||0.011
92222134|NCT00391222|184345235|SUPERIORITY_OR_OTHER|||||||0.2882|TWO_SIDED|95.0|||||Log Rank|||The time-to-event data were evaluated by means of the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||0.2882
92222135|NCT00391222|184345235|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Log Rank|||The time-to-event data were evaluated by means of the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||<0.0001
92222136|NCT00391222|184345236|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||ANCOVA|||An ANCOVA model was applied to the change from baseline of Period III at each time point in Period III, with treatment, patient type at screening, and geographic region as factors and baseline YMRS total score as covariate. The comparison between active treatment and placebo was performed based on the LS means obtained from the ANCOVA model. The difference in LS means between treatment arms was estimated, as was the 95% confidence interval for the difference.||||<0.001
92222137|NCT00391222|184345236|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||ANCOVA|||An ANCOVA model was applied to the change from baseline of Period III at each time point in Period III, with treatment, patient type at screening, and geographic region as factors and baseline YMRS total score as covariate. The comparison between active treatment and placebo was performed based on the LS means obtained from the ANCOVA model. The difference in LS means between treatment arms was estimated, as was the 95% confidence interval for the difference.||||<0.001
92222138|NCT00391222|184345237|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|95.0|||||ANCOVA|||An ANCOVA model was applied to the change from baseline of Period III at each time point in Period III, with treatment, patient type at screening, and geographic region as factors and baseline MADRS total score as covariate. The comparison between active treatment and placebo was performed based on the LS means obtained from the ANCOVA model. The difference in LS means between treatment arms was estimated, as was the 95% confidence interval for the difference.||||0.480
92222139|NCT00391222|184345237|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|95.0|||||ANCOVA|||An ANCOVA model was applied to the change from baseline of Period III at each time point in Period III, with treatment, patient type at screening, and geographic region as factors and baseline MADRS total score as covariate. The comparison between active treatment and placebo was performed based on the LS means obtained from the ANCOVA model. The difference in LS means between treatment arms was estimated, as was the 95% confidence interval for the difference.||||0.001
92222140|NCT01181011|184345240|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|109.22|STANDARD_ERROR_OF_MEAN|1.06||0.0107||90.0|99.45|119.95||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||119.95|99.45|0.0107
92222141|NCT01181011|184345241|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|109.84|STANDARD_ERROR_OF_MEAN|1.06||0.0139|TWO_SIDED|90.0|99.96|120.71||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||120.71|99.96|0.0139
92222142|NCT01181011|184345242|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|97.57|STANDARD_ERROR_OF_MEAN|1.09||0.0126|TWO_SIDED|90.0|84.643|112.472||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||112.472|84.643|0.0126
92222143|NCT01181011|184345243|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|109.7|STANDARD_ERROR_OF_MEAN|1.04||0.0011|TWO_SIDED|90.0|102.87|117.07||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||117.07|102.87|0.0011
92222144|NCT01181011|184345244|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|108.8|STANDARD_ERROR_OF_MEAN|1.04||0.0006|TWO_SIDED|95.0|102.1|116.0||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||116.0|102.1|0.0006
92222145|NCT01181011|184345245|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|106.7|STANDARD_ERROR_OF_MEAN|1.03||0|TWO_SIDED|90.0|100.9|112.9||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||112.9|100.9|0.000
92222146|NCT00401375|184345260|OTHER||Mean Difference (Final Values)|-0.23||||0.4259||||||Threshold for significance at 0.05 level.|Log Rank|||Treatment comparisons were made at the overall α=0.05 level (2-sided) using a closed sequential procedure. Placebo and MNTX 24 mg groups were compared first.||||0.4259
92222147|NCT00401375|184345260|OTHER||Mean Difference (Final Values)|0.13||||0.3575||||||Threshold for significance at 0.05 level.|Log Rank|||Treatment comparisons were made at the overall α=0.05 level (2-sided) using a closed sequential procedure. Placebo and MNTX 24 mg groups were compared first.||||0.3575
92222148|NCT00950664|184345264|NON_INFERIORITY_OR_EQUIVALENCE|81 participants required to detect 5 difference in Tsui score, with 80% power. 20% drop out rate assumed, 102 participants needed. Alpha level of 0.05.||||||0.05||95.0|||||Paired-t test|||||||0.05
92222149|NCT03152019|184345271|SUPERIORITY||percentages|0.77|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92222150|NCT04703075|184345281|SUPERIORITY||Risk Difference (RD)|5.5||||0.07|TWO_SIDED||||||Chi-squared, Corrected|||||||0.07
92222151|NCT01187953|184345283|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.|||||>|0.999|TWO_SIDED|||||Endpoint: Death|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||>0.999
92222152|NCT01187953|184345283|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.821|TWO_SIDED|||||Endpoint: Graft Failure|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.821
92222153|NCT01187953|184345283|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.9|TWO_SIDED|||||Endpoint: BPAR|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.900
92222154|NCT01187953|184345283|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.|||||>|0.999|TWO_SIDED|||||Endpoint: Lost to follow up|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||>0.999
92357370|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with vulvar dermatosis and positive AWR?||||||0.7161|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with vulvar dermatosis and positive AWR.||||0.7161
92222155|NCT01187953|184345284|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.835|TWO_SIDED|||||Endpoint: Death|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.835
92222156|NCT01187953|184345284|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.548|TWO_SIDED|||||Endpoint: Graft Failure|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.548
92222157|NCT01187953|184345284|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.822|TWO_SIDED|||||Endpoint: BPAR|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.822
92222158|NCT01187953|184345284|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.383|TWO_SIDED|||||Endpoint: Lost to follow up|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.383
92222159|NCT03449095|184345285|SUPERIORITY||||||<|0.001||||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|ANOVA|||||||<0.001
92222160|NCT03449095|184345286|SUPERIORITY|||||||0.001||||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|ANCOVA|||||||.001
92227119|NCT01235962|184356472|SUPERIORITY||Mean Difference (48M DFS FU)|-0.029||||0.796|TWO_SIDED|95.0|-0.249|0.191|||analysis of covariance|adjusted for baseline score using mixed-model||||0.191|-0.249|0.796
92163909|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.08||||||98.25|-7.66|8.1||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 23F.||8.1|-7.66|
92163910|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.62|||||TWO_SIDED|98.25|-4.52|2.91||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 1.||2.91|-4.52|
92163911|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.63|||||TWO_SIDED|98.25|-4.57|2.91||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 4.||2.91|-4.57|
92163912|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.64|||||TWO_SIDED|98.25|-4.63|2.92||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 5.||2.92|-4.63|
92163913|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-2.38|||||TWO_SIDED|98.25|-12.02|7.22||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 6B.||7.22|-12.02|
92163914|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.0|||||TWO_SIDED|98.25|-3.34|3.48||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 7F.||3.48|-3.34|
92163915|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-1.27|||||TWO_SIDED|98.25|-5.66|2.32||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 9V.||2.32|-5.66|
92163916|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.0|||||TWO_SIDED|98.25|-4.08|4.12||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 14.||4.12|-4.08|
92163917|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.62|||||TWO_SIDED|98.25|-5.08|3.54||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 18C.||3.54|-5.08|
92163918|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.67|||||TWO_SIDED|98.25|-3.4|5.2||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 19F.||5.2|-3.4|
92222161|NCT02404103|184345303|EQUIVALENCE|The primary goal of the current study is to determine the effects of Aerospan on lung function in children with small airway obstruction with two doses.||||||0.148|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||.148
92222162|NCT02404103|184345303|EQUIVALENCE|A goal was to evaluate whether flunisolide HFA 320 mcg when compared to flunisolide 160 mcg lead to significantly better improvement in the same outcome measures over time.||||||0.74|||||||Mixed Models Analysis|||||||.740
92222163|NCT02404103|184345303|EQUIVALENCE|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||0.921|||||||Mixed Models Analysis|||||||.921
92222164|NCT02404103|184345304|EQUIVALENCE|The primary goal of the current study is to determine the effects of Aerospan on lung function in children with small airway obstruction.||||||0.872|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||.872
92222165|NCT02404103|184345304|EQUIVALENCE|secondary goal was to evaluate whether flunisolide HFA 320 mcg when compared to flunisolide 160 mcg lead to significantly better improvement in the same outcome measures over time.||||||0.82|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||0.820
92163919|NCT01235949|184215985|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|2.73|||||TWO_SIDED|98.25|-5.3|11.04||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 23F.||11.04|-5.3|
92163920|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.96|||||TWO_SIDED|99.8|0.71|1.29||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 1.||1.29|0.71|
92163921|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.02|||||TWO_SIDED|99.8|0.77|1.35||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 4.||1.35|0.77|
92163922|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.06|||||TWO_SIDED|99.8|0.8|1.41||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 5.||1.41|0.8|
92163923|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.12|||||TWO_SIDED|99.8|0.72|1.74||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 6B.||1.74|0.72|
92163924|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.04|||||TWO_SIDED|99.8|0.79|1.35||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 7F.||1.35|0.79|
92163925|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.96|||||TWO_SIDED|99.8|0.7|1.31||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 9V.||1.31|0.7|
92163926|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.0|||||TWO_SIDED|99.8|0.71|1.4||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 14.||1.4|0.71|
92163927|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.89|||||TWO_SIDED|99.8|0.6|1.31||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 18C.||1.31|0.6|
92163928|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.23|||||TWO_SIDED|99.8|0.87|1.75||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 19F.||1.75|0.87|
92163929|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.97|||||TWO_SIDED|99.8|0.66|1.44||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 23F.||1.44|0.66|
92163930|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.9|||||TWO_SIDED|99.8|0.67|1.21||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 1.||1.21|0.67|
92222166|NCT02404103|184345304|EQUIVALENCE|A goal was to evaluate whether flunisolide HFA 320 mcg when compared to flunisolide 160 mcg lead to significantly better improvement in the same outcome measures over time.||||||0.582|||||||Mixed Models Analysis|||||||0.582
92222167|NCT02404103|184345305|EQUIVALENCE|The primary aim is to compare the average change in spirometric values (FEV1 and FEF25-75%) and AX from baseline to Week 6 from participants randomized flunisolide HFA 1 inhalation BID and to flunisolide HFA 2 inhalations BID.||||||0.782|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used.||||||.782
92222168|NCT02404103|184345305|EQUIVALENCE|The primary aim is to compare the average change in spirometric values (FEV1 and FEF25-75%) and AX from baseline to Week 6 from participants randomized flunisolide HFA 1 inhalation BID and to flunisolide HFA 2 inhalations BID.||||||0.906|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used.||||||.906
92163931|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.0|||||TWO_SIDED|99.8|0.76|1.32||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 4.||1.32|0.76|
92357371|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with vulvar dermatosis and positive AWR?||||||0.3301|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with vulvar dermatosis and positive AWR.||||0.3301
92357372|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR?||||||0.3301|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR.||||0.3301
92357373|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with vulvar dermatosis and positive AWR?||||||0.1627|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with vulvar dermatosis and positive AWR.||||0.1627
92357374|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with vulvar dermatosis and positive AWR?||||||0.4742|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with vulvar dermatosis and positive AWR.||||0.4742
92357375|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Urethral Sulcus versus Urethral Meatus in patients with vulvar dermatosis and positive AWR?||||||0.1822|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Urethral Sulcus versus Urethral Meatus in patients with vulvar dermatosis and positive AWR.||||0.1822
92163932|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.86|||||TWO_SIDED|99.8|0.66|1.14||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 5.||1.14|0.66|
92222169|NCT02404103|184345305|EQUIVALENCE|The primary aim is to compare the average change in spirometric values (FEV1 and FEF25-75%) and AX from baseline to Week 6 from participants randomized flunisolide HFA 1 inhalation BID and to flunisolide HFA 2 inhalations BID.||||||0.102|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used.||||||.102
92357376|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Urethral Sulcus versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR?||||||0.1822|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Urethral Sulcus versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR.||||0.1822
92222170|NCT02404103|184345306|EQUIVALENCE|To assess the impact of flunisolide on small airway parameters using spirometry and impulse oscillometry and determine whether there is a dose-related difference (320 mcg vs 160 mcg) with flunisolide HFA in pediatric patients who have evidence of small airway obstruction.||||||0.62|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used.||||||.620
92357377|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with vulvar dermatosis and positive AWR?||||||0.0927|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with vulvar dermatosis and positive AWR.||||0.0927
92222171|NCT02404103|184345306|EQUIVALENCE|To assess the impact of flunisolide on small airway parameters using spirometry and impulse oscillometry and determine whether there is a dose-related difference (320 mcg vs 160 mcg) with flunisolide HFA in pediatric patients who have evidence of small airway obstruction.||||||0.543|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||.543
92357378|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with vulvar dermatosis and positive AWR?||||||0.036|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with vulvar dermatosis and positive AWR.||||0.0360
92357379|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with vulvodynia and positive AWR?||||||0.072|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with vulvodynia and positive AWR.||||0.0720
92227120|NCT01235962|184356472|SUPERIORITY||Mean Difference (54M DFS FU)|-0.016||||0.885|TWO_SIDED|95.0|-0.237|0.205|||analysis of covariance|adjusted for baseline score using mixed-models||||0.205|-0.237|0.885
92163933|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.28|||||TWO_SIDED|99.8|0.83|1.97||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 6B.||1.97|0.83|
92163934|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.02|||||TWO_SIDED|99.8|0.8|1.31||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 7F.||1.31|0.8|
92163935|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.92|||||TWO_SIDED|99.8|0.69|1.22||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 9V.||1.22|0.69|
92163936|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.95|||||TWO_SIDED|99.8|0.68|1.32||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 14.||1.32|0.68|
92163937|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.88|||||TWO_SIDED|99.8|0.6|1.27||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 18C.||1.27|0.6|
92163938|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.02|||||TWO_SIDED|99.8|0.72|1.44||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 19F.||1.44|0.72|
92163939|NCT01235949|184215986|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.86|||||TWO_SIDED|99.8|0.58|1.27||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 23F.||1.27|0.58|
92163940|NCT01235949|184215987|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for protein D.|GMC ratio|0.94|||||TWO_SIDED|99.8|0.69|1.28||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-Protein D (anti-PD) antibody.||1.28|0.69|
92163941|NCT01235949|184215987|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for protein D.|GMC ratio|0.87|||||TWO_SIDED|99.8|0.64|1.17||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-Protein D (anti-PD) antibody.||1.17|0.64|
92163942|NCT02534350|184216049|SUPERIORITY||Treatment Difference|0.1||||0.72|TWO_SIDED|95.0|-0.43|0.63|||ANCOVA|||||0.63|-0.43|0.72
92163943|NCT02534350|184216050|SUPERIORITY||Treatment Difference|-0.12||||0.76|TWO_SIDED|95.0|-0.94|0.69|||ANCOVA|||||0.69|-0.94|0.76
92163944|NCT02534350|184216051|SUPERIORITY||Treatment Difference|0.01||||0.86|TWO_SIDED|95.0|-0.12|0.15|||ANCOVA|||||0.15|-0.12|0.86
92163945|NCT02534350|184216052|SUPERIORITY||Treatment Difference|-3.25||||0.6|TWO_SIDED|95.0|-15.58|9.08|||ANCOVA|||||9.08|-15.58|0.60
92163946|NCT00716144|184216097|SUPERIORITY_OR_OTHER|||||||0.884|||||||Cochran-Armitage Trend Test|||||||0.884
92163947|NCT00716144|184216098|SUPERIORITY_OR_OTHER|||||||1|||||||Cochran-Armitage Trend Test|||At Visit 3||||1.000
92163948|NCT00716144|184216098|SUPERIORITY_OR_OTHER|||||||0.604|||||||Cochran-Armitage Trend Test|||At Visit 4||||0.604
92163949|NCT00716144|184216098|SUPERIORITY_OR_OTHER|||||||0.463|||||||Cochran-Armitage Trend Test|||At Visit 5||||0.463
92163950|NCT00716144|184216098|SUPERIORITY_OR_OTHER|||||||0.042|||||||Cochran-Armitage Trend Test|||At Visit 6||||0.042
92163951|NCT00716144|184216098|SUPERIORITY_OR_OTHER|||||||0.034|||||||Cochran-Armitage Trend Test|||At Visit 7||||0.034
92163952|NCT00716144|184216098|SUPERIORITY_OR_OTHER|||||||0.019|||||||Cochran-Armitage Trend Test|||At Visit 8||||0.019
92163953|NCT00716144|184216100|SUPERIORITY_OR_OTHER|||||||1|||||||Cochran-Armitage Trend Test|||At Visit 3||||1.000
92163954|NCT00716144|184216100|SUPERIORITY_OR_OTHER|||||||0.673|||||||Cochran-Armitage Trend Test|||At Visit 4||||0.673
92163955|NCT00716144|184216100|SUPERIORITY_OR_OTHER|||||||0.55|||||||Cochran-Armitage Trend Test|||At Visit 5||||0.550
92357380|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with vulvodynia and positive AWR?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with vulvodynia and positive AWR.||||1.0000
92357381|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with vulvodynia and positive AWR?||||||0.4833|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with vulvodynia and positive AWR.||||0.4833
92163956|NCT00716144|184216100|SUPERIORITY_OR_OTHER|||||||0.721|||||||Cochran-Armitage Trend Test|||At Visit 7||||0.721
92163957|NCT00716144|184216100|SUPERIORITY_OR_OTHER|||||||0.03|||||||Cochran-Armitage Trend Test|||At Visit 8||||0.030
92163958|NCT01656304|184216139|SUPERIORITY_OR_OTHER||Rate|0.333|STANDARD_ERROR_OF_MEAN|0.1217|||TWO_SIDED|80.0|0.2|0.5||||||||.50|.20|
92163959|NCT01093534|184216177|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.169||||0.095|TWO_SIDED|95.0|-0.368|0.03||Hochberg Method for controlling the overall risk of type I error of 5% was used to adjust for using two co-primary endpoints.|ANCOVA|ANCOVA model with fixed effects for treatment and region and Baseline of least squares mean BWT as a covariate.||The null hypothesis was that the mean change from Baseline in BWT in the pooled solifenacin group and placebo was the same. Estimated as two-sided contrast with 95% confidence interval. Power was planned for 80% (assumption: mean difference = 0.5 mm, standard deviation=1.65, 314 and 157 participants, bonferroni adjustment for alpha =0.025)||0.030|-0.368|0.095
92163960|NCT01093534|184216178|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25||||||Hochberg Method for controlling the overall risk of type I error of 5% was used to adjust for using two co-primary endpoints.|Wilcoxon (Mann-Whitney)|Nonparametric Wilcoxon rank-sum test does not adjust for other factors.||The null hypothesis for the co-primary treatment comparison was that the mean free (neutralized) uNGF/Cr value in the pooled solifenacin group and placebo was the same. Wilcoxon rank-sum test was used instead of a contrast from analysis of covariance (ANCOVA), because data was not normally distributed. Power was planned for 80% (assumption: mean difference = 0.74 pg/μmol, standard deviation=2.0, 220 and 110 participants, bonferroni adjustment for alpha =0.025).||||0.250
92163961|NCT00281918|184216237|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<.0001
92163962|NCT00281918|184216238|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<.0001
92163963|NCT00281918|184216239|SUPERIORITY_OR_OTHER|||||||0.0427||95.0|||||Log Rank|||||||0.0427
92163964|NCT00281918|184216240|SUPERIORITY_OR_OTHER|||||||0.7882||95.0|||||Log Rank|||||||0.7882
92163965|NCT00281918|184216241|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.48|0.67|||Log Rank|||||0.67|0.48|<.0001
92163966|NCT00281918|184216242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.001|TWO_SIDED|95.0|0.54|0.86|||Log Rank|||||0.86|0.54|0.0010
92163967|NCT00281918|184216243|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57|||<|0.0001||95.0|0.48|0.67|||Log Rank|||||0.67|0.48|<.0001
92163968|NCT00281918|184216244|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0523|TWO_SIDED|95.0|0.52|1.02|||Log Rank|||||1.02|0.52|0.0523
92163969|NCT00281918|184216245|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.48|0.71|||Log Rank|||||0.71|0.48|<.0001
92163970|NCT00281918|184216246|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.62|3.28|||Chi-squared|||||3.28|1.62|<.0001
92163971|NCT00281918|184216247|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.49|0.72|||Log Rank|||||0.72|0.49|<.0001
92163972|NCT03538054|184216256|SUPERIORITY||Slope|-5.065||||0.146|TWO_SIDED|||||The clinical threshold was p \< 0.05, with no corrections for multiple comparisons.|GEE|Outcome scores were mean-centered by participant, allowing analyses to reflect within-person changes rather than between-person differences.||||||0.146
92163973|NCT03538054|184216257|SUPERIORITY||Slope|4.221||||0.052|TWO_SIDED|||||The clinical threshold was p \< 0.05, with no corrections for multiple comparisons.|GEE|Outcome scores were mean-centered by participant, allowing analyses to reflect within-person changes rather than between-person differences.||||||0.052
92163974|NCT01278862|184216270|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2423|||||||Fisher Exact|||null hypothesis no difference in color match||||0.2423
92163975|NCT01278862|184216270|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||null hypothesis no difference in margin discoloration||||>0.999
92163976|NCT01278862|184216270|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||null hypothesis no difference in crown fracture||||>0.999
92163977|NCT01278862|184216270|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999|||||||Fisher Exact|||Null hypothesis no difference in Proximal Contact - Mesial||||>0.999
92163978|NCT01278862|184216270|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999|||||||Fisher Exact|||Null hypothesis no difference in proximal contact - distal||||>0.999
92163979|NCT01278862|184216271|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||null hypothesis no difference in gingival index||||>0.999
92163980|NCT01278862|184216271|SUPERIORITY|||||||0.524|||||||Fisher Exact|||null hypothesis no difference in plaque index||||0.5240
92163981|NCT04520165|184216272|EQUIVALENCE|if p\<0.05 than the null hypothesis was considered as wrong and groups differed for the analysed parameter.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||The baseline parameters in each group were compared with Mann-Whitney U test was performed.||||<0.05
92163982|NCT04520165|184216274|EQUIVALENCE|if p\<0.05 than the null hypothesis was considered as wrong and groups differed for the analysed parameter.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||The baseline parameters in each group were compared with Mann-Whitney U test was performed.||||<0.05
92163983|NCT04520165|184216275|EQUIVALENCE|if p\<0.05 than the null hypothesis was considered as wrong and groups differed for the analysed parameter.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||The baseline parameters in each group were compared with Mann-Whitney U test was performed.||||<0.05
92163984|NCT05147233|184216317|SUPERIORITY||Difference in Percentages|33.2|||<|0.0001|TWO_SIDED|95.0|21.5|44.9|||Wald test|||||44.9|21.5|<0.0001
92163985|NCT05147233|184216318|SUPERIORITY||Difference in Percentages|23.5|||<|0.0001|TWO_SIDED|95.0|11.7|35.3|||Wald test|||||35.3|11.7|<0.0001
92227121|NCT01235962|184356473|SUPERIORITY||Mean Differencec (Week 52)|-0.27||||0.143|TWO_SIDED|95.0|-0.633|0.092|||analysis of covariance|adjusted for baseline score using mixed-model||||0.092|-0.633|0.143
92276579|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.0125|TWO_SIDED|95.0|-3.13|-0.38|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.38|-3.13|0.0125
92276580|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19||||0.0898|TWO_SIDED|95.0|-2.57|0.19|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.19|-2.57|0.0898
92276581|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.31||||0.004|TWO_SIDED|95.0|-3.88|-0.74|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.74|-3.88|0.004
92276582|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.301|TWO_SIDED|95.0|-2.4|0.74|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.74|-2.4|0.301
92276583|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15||||0.0118|TWO_SIDED|95.0|-3.82|-0.48|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.48|-3.82|0.0118
92357382|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with vulvodynia and positive AWR?||||||0.3594|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with vulvodynia and positive AWR.||||0.3594
92163986|NCT04517864|184216326|SUPERIORITY||Least Squares Mean Difference|0.021|STANDARD_ERROR_OF_MEAN|0.0382|||TWO_SIDED|95.0|-0.056|0.097||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear Mixed-effects Model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||||0.097|-0.056|
92163987|NCT04517864|184216327|SUPERIORITY||Least Squares Mean Difference|0.009|STANDARD_ERROR_OF_MEAN|0.0307|||TWO_SIDED|95.0|-0.052|0.07||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||||0.070|-0.052|
92163988|NCT04517864|184216328|SUPERIORITY||Least Squares Mean Difference|-0.006|STANDARD_ERROR_OF_MEAN|0.0297|||TWO_SIDED|95.0|-0.065|0.053||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear Mixed-effects Model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||||0.053|-0.065|
92163989|NCT04517864|184216330|SUPERIORITY||Least Squares Mean Difference|0.042|STANDARD_ERROR_OF_MEAN|0.0235|||TWO_SIDED|95.0|-0.005|0.088||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||||0.088|-0.005|
92163990|NCT04517864|184216336|SUPERIORITY||Least Squares Mean Difference|-0.015|STANDARD_ERROR_OF_MEAN|0.0224|||TWO_SIDED|95.0|-0.059|0.03||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||Month 6||0.030|-0.059|
92163991|NCT04517864|184216336|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.0236|||TWO_SIDED|95.0|-0.107|-0.012||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||Month 9||-0.012|-0.107|
92163992|NCT04517864|184216338|SUPERIORITY||Least Squares Mean Difference|-0.028|STANDARD_ERROR_OF_MEAN|0.0242|||TWO_SIDED|95.0|-0.076|0.02||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||Month 6||0.020|-0.076|
92163993|NCT04517864|184216338|SUPERIORITY||Least Squares Mean Difference|0.003|STANDARD_ERROR_OF_MEAN|0.0261|||TWO_SIDED|95.0|-0.049|0.056||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||Month 9||0.056|-0.049|
92163994|NCT04541303|184216362|SUPERIORITY|||||||0.028|||||||None specified|||||||.028
92163995|NCT03351075|184216372|SUPERIORITY||Mean Difference (Net)|-1.31||||0.5163|TWO_SIDED|95.0|-5.28|2.65||No corrections for multiple testing were performed.|Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||The sample size was based on comparing the changes for the primary outcome measure (PDI-DLV) at 12 months after surgery. The calculation was based on comparing the values at 12 months. Assuming a coefficient of variation (CV) equal to 0.5, 87 participants per group were needed based on a two-sample pooled t-test of a mean ratio with lognormal data and α=0.05 to detect with 80% power a difference of 20% in PDI. To anticipate a drop-out ratio of 5%, a total of 184 subjects were needed.||2.65|-5.28|0.5163
92163996|NCT03351075|184216373|SUPERIORITY||Mean Difference (Net)|-0.97||||0.5655|TWO_SIDED|95.0|-4.26|2.33||No corrections for multiple testing were performed.|multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain-related disability from baseline to 4 months||2.33|-4.26|0.5655
92222172|NCT02404103|184345306|EQUIVALENCE|To assess the impact of flunisolide on small airway parameters using spirometry and impulse oscillometry and determine whether there is a dose-related difference (320 mcg vs 160 mcg) with flunisolide HFA in pediatric patients who have evidence of small airway obstruction.||||||0.6|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||.6
92222173|NCT01408147|184345307|SUPERIORITY||Mean Difference (Final Values)|2.3|||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||To test the primary hypothesis, a generalized linear mixed effect model was used (intervention group as a fixed effect and clinic and subject as random effects). A group x time interaction term (fixed effect) tested if the change in weight over time differed significantly. The model included participant-level covariates (i.e., ethnicity, weeks postpartum at study entry, lactation, and age).||||<0.0001
92222174|NCT00621504|184345309|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% Confidence Interval (CI) for the observed difference in the primary outcome measure (clinical cure rate) between the ceftaroline group and the ceftriaxone group was calculated based on each of the CE and the MITTE Populations at the TOC visit. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10% for each of the CE and MITTE Populations.|Risk Difference (RD)|6.2|||||TWO_SIDED|95.0|-0.2|12.6|||||Risk difference corresponds to Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The confidence interval was calculated using the Miettinen and Nurminen method without adjustment.|The primary objective of this study was to determine the noninferiority in the clinical cure rate for ceftaroline compared to that for ceftriaxone at TOC in the CE and MITTE Populations in adult subjects with CABP.||12.6|-0.2|
92222175|NCT02229552|184345329|OTHER|Repeated measures analysis of variance with zbmi for each year as the repeated dependent measure.|Mean Difference (Final Values)|3.0||||0.051|TWO_SIDED||||||ANOVA|||||||0.051
92222176|NCT03657368|184345330|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.042|TWO_SIDED|97.5|-0.4|7.3|||Regression, Linear|||||7.3|-0.4|0.042
92222177|NCT03657368|184345330|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.966|TWO_SIDED|97.5|-3.9|3.7|||Regression, Linear|||||3.7|-3.9|0.966
92222178|NCT03657368|184345331|SUPERIORITY||Odds Ratio (OR)|0.93||||0.519|TWO_SIDED|99.2|0.68|1.27|||Regression, Logistic|||||1.27|0.68|0.519
92222179|NCT03657368|184345331|SUPERIORITY||Odds Ratio (OR)|0.87||||0.232|TWO_SIDED|99.2|0.63|1.19|||Regression, Logistic|||||1.19|0.63|0.232
92222180|NCT03657368|184345332|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.217|TWO_SIDED|99.2|-6.5|2.4|||Regression, Linear|||||2.4|-6.5|0.217
92222181|NCT03657368|184345332|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.66|TWO_SIDED|99.2|-3.7|5.2|||Regression, Linear|||||5.2|-3.7|0.660
92222182|NCT03657368|184345333|SUPERIORITY||mean ratio|1.03||||0.143|TWO_SIDED|99.2|0.97|1.1|||Mixed Models Analysis|||||1.10|0.97|0.143
92222183|NCT03657368|184345333|SUPERIORITY||mean ratio|0.99||||0.649|TWO_SIDED|99.2|0.93|1.05|||Regression, Logistic|||||1.05|0.93|0.649
92357383|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with vulvodynia and positive AWR?||||||0.5987|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with vulvodynia and positive AWR.||||0.5987
92357384|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with vulvodynia and positive AWR?||||||0.4164|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with vulvodynia and positive AWR.||||0.4164
92222184|NCT01661140|184345369|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority if the difference between treatments is statistically significant and the lower limit of the 95% confidence interval (CI) is greater than 0.9.|Odds Ratio (OR)|1.803||||0.036|TWO_SIDED|95.0|1.037|3.133|||Analysis by logistic regression|||Comparison was Tapering MTX : MTX maintenance. Last post-baseline EULAR response recorded used for participants with a missing result at Week 60.||3.133|1.037|0.036
92222185|NCT03860961|184345390|SUPERIORITY|||||||0.9238||||||Two-sided significance level = 0.05|Chi-squared, Corrected|||Cluster-randomized trial, cluster=practice, maximum 25 patients/practice. Assuming 14 pts/practice, cluster size coefficient of variation of 0.5, intra-cluster correlation (ρ) of 0.04, design effect 1.51, and 59.8% of Arm A patients meeting the criteria provides 80% power for a two-sided α=0.05 two-sample test of proportions to detect a 15% absolute improvement in percentage of patients meeting the criteria with 544 patients (after adjusted for withdrawal and loss to follow-up).||||0.9238
92222186|NCT03860961|184345391|SUPERIORITY|||||||0.5609||||||Two-sided significance level = 0.05|Mixed Models Analysis|Model included baseline CVD risk score, practice as random covariate (participants nested within practice) and treatment arm.||||||0.5609
92222187|NCT00590590|184345402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||||||||||Ha: Drug 1 \< Drug 2||||
92222188|NCT00590590|184345402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||||||||||||Ha: Drug 1 \< Placebo||||
92222189|NCT00590590|184345402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||||||||||||Ha: Drug 2 \< Placebo||||
92222190|NCT00590590|184345403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||||||||||||Ha: Drug 1 \< Drug 2||||
92222191|NCT00590590|184345403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||||||||||||Ha: Drug 1 \< Placebo||||
92222192|NCT00590590|184345403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||||||||||||Ha: Drug 2 \< Placebo||||
92222193|NCT00590590|184345404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||||||||||||Ha: Drug 1 \< Drug 2||||
92222194|NCT00590590|184345404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7||||||||||||||Ha: Drug 1 \< Placebo||||
92222195|NCT00590590|184345404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.8||||||||||||||Ha: Drug 2 \< Placebo||||
92222196|NCT00590590|184345405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.3||||||||||||||Ha: Drug 1 \< Drug 2||||
92222197|NCT00590590|184345405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.0||||||||||||||Ha: Drug 1 \< Placebo||||
92222198|NCT00590590|184345405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||||||||||||Ha: Drug 2 \< Placebo||||
92222199|NCT00590590|184345406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1||||||||||||||Ha: Drug 1 \< Drug 2||||
92222200|NCT00590590|184345406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9||||||||||||||Ha: Drug 1 \< Placebo||||
92222201|NCT00590590|184345406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0||||||||||||||Ha: Drug 2 \< Placebo||||
92222202|NCT00590590|184345407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||||||||||||Ha: Drug 1 \< Drug 2||||
92222203|NCT00590590|184345407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||||||||||||Ha: Drug 1 \< Placebo||||
92222204|NCT00590590|184345407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||||||||||||Ha: Drug 2 \< Placebo||||
92222205|NCT03605680|184345424|SUPERIORITY||Least Squares (LS ) Mean Difference|-3.15|||=|0.0193|TWO_SIDED|95.0|-5.79|-0.51|||MMRM||||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|-0.51|-5.79|=0.0193
92222206|NCT03605680|184345424|SUPERIORITY||LS Mean Difference|-2.74|||=|0.0392|TWO_SIDED|95.0|-5.35|-0.14|||MMRM|||||-0.14|-5.35|=0.0392
92222207|NCT03605680|184345425|SUPERIORITY||LS Mean Difference|-0.27|||=|0.0232|TWO_SIDED|95.0|-0.5|-0.04|||MMRM||||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|-0.04|-0.50|=0.0232
92222208|NCT03605680|184345425|SUPERIORITY||LS Mean Difference|-0.28|||=|0.0162|TWO_SIDED|95.0|-0.51|-0.05|||MMRM||||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|-0.05|-0.51|=0.0162
92222209|NCT00883337|184345439|SUPERIORITY_OR_OTHER|||||||0.5953||95.0||||"Hochberg testing procedure:~* a-priori threshold for statistical significance ≤0.05 for the largest p-value of the 2 pair-wise comparisons~* a-priori threshold for statistical significance ≤0.025 for the other p-value if the largest p-value \>0.05"|Log Rank|Two-sided Log Rank test with the region of enrollment and baseline EDSS stratum as stratification factors||"The study was sized to detect a difference between Teriflunomide and Rebif groups in the time to failure at a significance level of 0.025 with a power of 81%.~Null hypothesis:~* H1: No difference between Teriflunomide 14 mg and Rebif~* H2: No difference between Teriflunomide 7 mg and Rebif"||||0.5953
92222210|NCT00883337|184345439|SUPERIORITY_OR_OTHER|||||||0.519||95.0||||"Hochberg testing procedure:~* a-priori threshold for statistical significance ≤0.05 for the largest p-value of the 2 pair-wise comparisons~* a-priori threshold for statistical significance ≤0.025 for the other p-value if the largest p-value \>0.05"|Log Rank|Two-sided Log Rank test with the region of enrollment and baseline EDSS stratum as stratification factors||"Null hypothesis:~* H1: No difference between Teriflunomide 14 mg and Rebif~* H2: No difference between Teriflunomide 7 mg and Rebif"||||0.5190
92222211|NCT03468309|184345454|SUPERIORITY|T-test was used to compare means at baseline and 12-weeks|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92222212|NCT03468309|184345455|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92222213|NCT03468309|184345456|SUPERIORITY||||||<|0.05|||||||ANOVA|Assumption of sphericity had been violated X2(2)=13.61, p\<.01 so Huynh-Feldt correction was used||||||<0.05
92357385|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with vulvodynia and positive AWR?||||||0.072|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with vulvodynia and positive AWR.||||0.0720
92163997|NCT03351075|184216373|SUPERIORITY||Mean Difference (Net)|-1.07||||0.5592|TWO_SIDED|95.0|-4.64|2.51||P\<.05 was considered significant. No corrections for multiple testing were performed.|multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain-related disability from baseline to 1.5 years||2.51|-4.64|0.5592
92163998|NCT03351075|184216374|SUPERIORITY||Mean Difference (Net)|-2.23||||0.563|TWO_SIDED|95.0|-9.84|5.37||No corrections for multiple testing were performed.|Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain intensity from baseline to 4 months||5.37|-9.84|0.5630
92163999|NCT03351075|184216374|SUPERIORITY||Mean Difference (Net)|-4.3||||0.2524|TWO_SIDED|95.0|-11.68|3.09||No corrections for multiple testing were performed.|Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain intensity from baseline to 12 months||3.09|-11.68|0.2524
92164000|NCT03351075|184216374|SUPERIORITY||Mean Difference (Net)|-4.8||||0.2315|TWO_SIDED|95.0|-12.69|3.09|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain intensity from baseline to 1.5 years||3.09|-12.69|0.2315
92222214|NCT03468309|184345457|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92222215|NCT01515787|184345472|NON_INFERIORITY|Disease recurrence or death in order to have 85% power to reject the null hypothesis. Noninferiority of the intervention could be claimed if the upper limit of the two-sided 90.2% confidence interval of the hazard ratio for disease recurrence or death did not exceed the 1.29 noninferiority margin.|Hazard Ratio (HR)|0.92||||0.005|TWO_SIDED|90.2|0.74|1.14|||kaplan meier|||||1.14|0.74|0.005
92222216|NCT01515787|184345474|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.74|1.44||||||||1.44|0.74|
92222217|NCT01515787|184345476|SUPERIORITY||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.44|3.16||||||||3.16|0.44|
92222218|NCT01877187|184345485|OTHER|||||||0.06||||||Statistical significance defined as p \<= .05. Result is for Day 30 timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||.06
92222219|NCT01877187|184345485|OTHER|||||||0.09||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||.09
92222220|NCT01877187|184345485|OTHER|||||||0.034||||||Statistical significance defined as p \<= 0.05. Data for 180 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.034
92227122|NCT01235962|184356473|SUPERIORITY||Mean Difference (24M DFS FU)|0.069||||0.736|TWO_SIDED|95.0|-0.336|0.475|||analysis of covariance|adjusted for baseline score using mixed-model||||0.475|-0.336|0.736
92357386|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with vulvodynia and positive AWR?||||||0.0148|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with vulvodynia and positive AWR.||||0.0148
92164001|NCT03351075|184216375|SUPERIORITY||Mean Difference (Net)|0.47||||0.7494|TWO_SIDED|95.0|-2.39|3.32||No corrections for multiple testing were performed.|Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported central sensitisation symptoms from baseline to 4 months.||3.32|-2.39|0.7494
92164002|NCT03351075|184216375|SUPERIORITY||Mean Difference (Net)|-0.25||||0.8617|TWO_SIDED|95.0|-3.09|2.58|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||The difference in change in self-reported central sensitisation symptoms from baseline to 12 months.||2.58|-3.09|0.8617
92164003|NCT03351075|184216375|SUPERIORITY||Mean Difference (Net)|-0.29||||0.8454|TWO_SIDED|95.0|-3.16|2.59|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported central sensitisation symptoms from baseline to 1.5 years||2.59|-3.16|0.8454
92164004|NCT03351075|184216376|SUPERIORITY||Mean Difference (Net)|1.35||||0.3463|TWO_SIDED|95.0|0.72|2.51|||multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical detection sensitivity at the arm from baseline to 4 months||2.51|0.72|0.3463
92164005|NCT03351075|184216376|SUPERIORITY||Mean Difference (Net)|0.86||||0.6613|TWO_SIDED|95.0|0.451|1.66|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical detection sensitivity at the arm from baseline to 1 year||1.66|0.451|0.6613
92164006|NCT03351075|184216376|SUPERIORITY||Mean Difference (Net)|1.26||||0.4908|TWO_SIDED|95.0|0.65|2.42|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical detection sensitivity at the arm from baseline to 1.5 years||2.42|0.65|0.4908
92164007|NCT03351075|184216377|SUPERIORITY||Mean Difference (Net)|0.22||||0.7708|TWO_SIDED|95.0|-1.25|1.69|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in warmth detection sensitivity from baseline to 4 months||1.69|-1.25|0.7708
92164008|NCT03351075|184216377|SUPERIORITY||Mean Difference (Net)|0.29||||0.706|TWO_SIDED|95.0|-1.23|1.81|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in warmth detection sensitivity from baseline to 1 year||1.81|-1.23|0.7060
92164009|NCT03351075|184216377|SUPERIORITY||Mean Difference (Net)|0.02||||0.9806|TWO_SIDED|95.0|-1.38|1.42|||Multivariate linear model|||Difference in change in warmth detection sensitivity from baseline to 1.5 years||1.42|-1.38|0.9806
92164010|NCT03351075|184216378|SUPERIORITY||Mean Difference (Net)|0.74||||0.0284|TWO_SIDED|95.0|0.08|1.4|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome||Difference in change in wind-up from baseline to 4 months||1.40|0.08|0.0284
92164011|NCT03351075|184216378|SUPERIORITY||Mean Difference (Net)|0.09||||0.7776|TWO_SIDED|95.0|-0.55|0.73|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome||Difference in change in wind-up from baseline to 1 year||0.73|-0.55|0.7776
92164012|NCT03351075|184216378|SUPERIORITY||Mean Difference (Net)|0.31||||0.3829|TWO_SIDED|95.0|-0.39|1.01|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome||Difference in change in wind-up from baseline to 1.5 years||1.01|-0.39|0.3829
92164013|NCT03351075|184216379|SUPERIORITY||Mean Difference (Net)|0.31||||0.1948|TWO_SIDED|95.0|-0.16|0.77|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in conditioned pain modulation from baseline to 4 months||0.77|-0.16|0.1948
92164014|NCT03351075|184216379|SUPERIORITY||Mean Difference (Net)|0.17||||0.4937|TWO_SIDED|95.0|-0.31|0.65|||Multivariate linear model|||Difference in change in conditioned pain modulation from baseline to 1 year||0.65|-0.31|0.4937
92164015|NCT03351075|184216379|SUPERIORITY||Mean Difference (Net)|0.23||||0.369|TWO_SIDED|95.0|-0.27|0.73|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in conditioned pain modulation from baseline to 1.5 years||0.73|-0.27|0.3690
92164016|NCT03351075|184216380|SUPERIORITY||Mean Difference (Net)|2.24||||0.2915|TWO_SIDED|95.0|-1.94|6.43|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported upper limb function from baseline to 4 months||6.43|-1.94|0.2915
92164017|NCT03351075|184216380|SUPERIORITY||Mean Difference (Net)|-1.63||||0.4632|TWO_SIDED|95.0|-6.02|2.75|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported upper limb function from baseline to 1 year||2.75|-6.02|0.4632
92164018|NCT03351075|184216380|SUPERIORITY||Mean Difference (Net)|-3.16||||0.1944|TWO_SIDED|95.0|-7.94|1.63|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported upper limb function from baseline to 1,5 years||1.63|-7.94|0.1944
92164019|NCT03351075|184216381|SUPERIORITY||Mean Difference (Net)|-293.0||||0.5332|TWO_SIDED|95.0|-1218.0|632.0|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in step count from baseline to 4 months||632|-1218|0.5332
92164020|NCT03351075|184216381|SUPERIORITY||Mean Difference (Net)|839.0||||0.1201|TWO_SIDED|95.0|-221.0|1900.0|||Multivariate linear model|||Difference in change in step count from baseline to 1 year||1900|-221|0.1201
92357387|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with vulvodynia and positive AWR?||||||0.0085|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with vulvodynia and positive AWR.||||0.0085
92357388|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with vulvodynia and positive AWR?||||||0.1918|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with vulvodynia and positive AWR.||||0.1918
92222221|NCT01877187|184345487|OTHER|||||||0.19||||||Statistical significance defined as p \<= 0.05. Data for 30 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.19
92357389|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's line versus Vestibule in patients with vulvodynia and positive AWR?||||||0.3037|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's line versus Vestibule in patients with vulvodynia and positive AWR.||||0.3037
92357390|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Sulcus versus Urethral Meatus in patients with vulvodynia and positive AWR?||||||0.4833|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Sulcus versus Urethral Meatus in patients with vulvodynia and positive AWR.||||0.4833
92357391|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Sulcus versus Hymenal Remnants in patients with vulvodynia and positive AWR?||||||0.3594|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Sulcus versus Hymenal Remnants in patients with vulvodynia and positive AWR.||||0.3594
92222222|NCT01877187|184345487|OTHER|||||||0.011||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.011
92222223|NCT01877187|184345487|OTHER|||||||0.94||||||Statistical significance defined as p \<= 0.05. Data for 180 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.94
92222224|NCT01877187|184345489|OTHER|||||||0.06||||||Statistical significance defined as p \<= 0.05. Data for 30 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.06
92222225|NCT01877187|184345489|OTHER|||||||0.017||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.017
92222226|NCT01877187|184345489|OTHER|||||||0.08||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.08
92222227|NCT01877187|184345491|OTHER|||||||0.02||||||Statistical significance defined as p \<= 0.05. Data for 30 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.020
92357392|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Hymenal Remnants versus Vestibule in patients with vulvodynia and positive AWR?||||||0.0877|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Hymenal Remnants versus Vestibule in patients with vulvodynia and positive AWR.||||0.0877
92357393|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with vulvodynia and positive AWR?||||||0.7726|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with vulvodynia and positive AWR.||||0.7726
92357394|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with impaired vulvar skin and positive AWR?||||||0.0191|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with impaired vulvar skin and positive AWR.||||0.0191
92357395|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with impaired vulvar skin and positive AWR?||||||0.0287|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with impaired vulvar skin and positive AWR.||||0.0287
92222228|NCT01877187|184345491|OTHER|||||||0.029||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.029
92222229|NCT01877187|184345491|OTHER|||||||0.94||||||Statistical significance defined as p \<= 0.05. Data for 180 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.94
92222230|NCT01877187|184345493|OTHER|||||||0.06||||||Statistical significance defined as p \<= 0.05. Data for 30 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.06
92164021|NCT03351075|184216382|SUPERIORITY||Mean Difference (Net)|0.831||||0.359|TWO_SIDED|95.0|0.561|1.233|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain catastrophizing from baseline to 4 months||1.233|0.561|0.3590
92164022|NCT03351075|184216382|SUPERIORITY||Mean Difference (Net)|0.839||||0.3744|TWO_SIDED|95.0|0.57|1.236|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain catastrophizing from baseline to 1 year||1.236|0.570|0.3744
92222231|NCT01877187|184345493|OTHER|||||||0.013||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.013
92222232|NCT01877187|184345493|OTHER|||||||0.67||||||Statistical significance defined as p \<= 0.05. Data for 180 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.67
92222233|NCT04091087|184345516|SUPERIORITY||Least square (LS) mean difference|-14.36|STANDARD_ERROR_OF_MEAN|7.47||0.0299|TWO_SIDED|90.0|-26.87|-1.86||1-sided|ANOVA|||||-1.86|-26.87|0.0299
92222234|NCT04091087|184345517|SUPERIORITY||Difference in percentage of participants|3.33||||0.1546|TWO_SIDED|90.0|-2.06|8.72||1-sided|Normal approximation test|||||8.72|-2.06|0.1546
92357396|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with impaired vulvar skin and positive AWR?||||||0.6374|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with impaired vulvar skin and positive AWR.||||0.6374
92357397|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR?||||||0.7512|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR.||||0.7512
92357398|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with impaired vulvar skin and positive AWR?||||||0.2734|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with impaired vulvar skin and positive AWR.||||0.2734
92357399|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with impaired vulvar skin and positive AWR?||||||0.0287|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with impaired vulvar skin and positive AWR.||||0.0287
92401446|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|95.0|-0.69|0.68||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||0.68|-0.69|0.990
92401447|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.665|TWO_SIDED|95.0|-0.7|1.09||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||1.09|-0.70|0.665
92164023|NCT03351075|184216382|SUPERIORITY||Median Difference (Net)|0.848||||0.4533|TWO_SIDED|95.0|0.522|1.304|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain catastrophizing from baseline to 1.5 years||1.304|0.522|0.4533
92164024|NCT03351075|184216383|SUPERIORITY||Mean Difference (Net)|0.862||||0.5018|TWO_SIDED|95.0|0.558|1.33|||MUltivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported depression from baseline to 4 months||1.330|0.558|0.5018
92357400|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with impaired vulvar skin and positive AWR?||||||0.8732|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with impaired vulvar skin and positive AWR.||||0.8732
92357401|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with impaired vulvar skin and positive AWR?||||||0.0602|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with impaired vulvar skin and positive AWR.||||0.0602
92164025|NCT03351075|184216383|SUPERIORITY||Mean Difference (Net)|0.808||||0.3362|TWO_SIDED|95.0|0.522|1.248|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported depression from baseline to 1 year||1.248|0.522|0.3362
92222235|NCT04091087|184345518|SUPERIORITY||Difference in percentage of participants|9.0||||0.0819|TWO_SIDED|90.0|-1.63|19.62||1-sided|Normal approximation test|||Week 1||19.62|-1.63|0.0819
92222236|NCT04091087|184345518|SUPERIORITY||Difference in percentage of participants|-0.47||||0.4789|TWO_SIDED|90.0|-15.2|14.25||1-sided|Normal approximation test|||Week 2||14.25|-15.20|0.4789
92357402|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR?||||||0.0079|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR.||||0.0079
92357403|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with impaired vulvar skin and positive AWR?||||||0.2081|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with impaired vulvar skin and positive AWR.||||0.2081
92357404|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with impaired vulvar skin and positive AWR?||||||0.8732|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with impaired vulvar skin and positive AWR.||||0.8732
92357405|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Sulcus versus Urethral Meatus in patients with impaired vulvar skin and positive AWR?||||||0.0852|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Sulcus versus Urethral Meatus in patients with impaired vulvar skin and positive AWR.||||0.0852
92357406|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Sulcus versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR?||||||0.0125|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Sulcus versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR.||||0.0125
92357407|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with impaired vulvar skin and positive AWR?||||||0.0125|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with impaired vulvar skin and positive AWR.||||0.0125
92357408|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with impaired vulvar skin and positive AWR?||||||0.2714|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with impaired vulvar skin and positive AWR.||||0.2714
92357409|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with normal vulva and positive AWR?||||||0.1692|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with normal vulva and positive AWR.||||0.1692
92357410|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with normal vulva and positive AWR?||||||0.0772|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with normal vulva and positive AWR.||||0.0772
92357411|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with normal vulva and positive AWR?||||||0.5762|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with normal vulva and positive AWR.||||0.5762
92357412|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with normal vulva and positive AWR?||||||0.5762|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with normal vulva and positive AWR.||||0.5762
92357413|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with normal vulva and positive AWR?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with normal vulva and positive AWR.||||1.0000
92357414|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with normal vulva and positive AWR?||||||0.0078|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with normal vulva and positive AWR.||||0.0078
92357415|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with normal vulva and positive AWR?||||||0.6862|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with normal vulva and positive AWR.||||0.6862
92357416|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with normal vulva and positive AWR?||||||0.0563|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with normal vulva and positive AWR.||||0.0563
92357417|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with normal vulva and positive AWR?||||||0.0563|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with normal vulva and positive AWR.||||0.0563
92164026|NCT03351075|184216383|SUPERIORITY||Mean Difference (Net)|0.958||||0.8375|TWO_SIDED|95.0|0.633|1.449|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported depression from baseline to 1.5 years||1.449|0.633|0.8375
92357418|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with normal vulva and positive AWR?||||||0.1692|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with normal vulva and positive AWR.||||0.1692
92222237|NCT04091087|184345518|SUPERIORITY||Difference in percentage of participants|-0.38||||0.4815|TWO_SIDED|90.0|-13.79|13.03||1-sided|Normal approximation test|||Week 3||13.03|-13.79|0.4815
92357419|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with normal vulva and positive AWR?||||||0.1822|||||||t|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with normal vulva and positive AWR.||||0.1822
92357420|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Urethral Sulcus versus Urethral Meatus in patients with normal vulva and positive AWR?||||||0.022|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Urethral Sulcus versus Urethral Meatus in patients with normal vulva and positive AWR.||||0.0220
92357421|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Urethral Sulcus versus Hymenal Remnants in patients with normal vulva and positive AWR?||||||0.022|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Urethral Sulcus versus Hymenal Remnants in patients with normal vulva and positive AWR.||||0.0220
92357422|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with normal vulva and positive AWR?||||||0.022|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with normal vulva and positive AWR.||||0.0220
92164027|NCT03351075|184216384|SUPERIORITY||Mean Difference (Net)|-0.32||||0.1745|TWO_SIDED|95.0|-0.78|0.14|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported health-related quality of life from baseline to 4 months||0.14|-0.78|0.1745
92164028|NCT03351075|184216384|SUPERIORITY||Mean Difference (Net)|0.18||||0.5025|TWO_SIDED|95.0|-0.35|0.71|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported health-related quality of life from baseline to 1 year||0.71|-0.35|0.5025
92164029|NCT03351075|184216384|SUPERIORITY||Mean Difference (Net)|0.45||||0.1363|TWO_SIDED|95.0|-0.14|1.05|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported health-related quality of life from baseline to 1,5 years||1.05|-0.14|0.1363
92164030|NCT03351075|184216385|SUPERIORITY||Percentage|-0.184||||0.074|TWO_SIDED|95.0|-0.358|0.008|||Fisher Exact|||Difference in proportion of working participants at 1 year||0.008|-0.358|0.074
92164031|NCT03351075|184216385|SUPERIORITY||Percentage|-0.09||||0.352|TWO_SIDED|95.0|-0.26|0.078|||Fisher Exact|||Difference in proportion of working participants at 1,5 years||0.078|-0.26|0.352
92164032|NCT03351075|184216386|SUPERIORITY||Mean Difference (Net)|0.23||||0.8497|TWO_SIDED|95.0|-2.17|2.64|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in cold detection sensitivity from baseline to 4 months||2.64|-2.17|0.8497
92164033|NCT03351075|184216386|SUPERIORITY||Mean Difference (Net)|0.81||||0.4971|TWO_SIDED|95.0|-1.52|3.14|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in cold detection sensitivity from baseline to 1 year||3.14|-1.52|0.4971
92164034|NCT03351075|184216386|SUPERIORITY||Mean Difference (Net)|0.45||||0.6831|TWO_SIDED|95.0|-1.72|2.62|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in cold detection sensitivity from baseline to 1.5 years||2.62|-1.72|0.6831
92164035|NCT03351075|184216387|SUPERIORITY||Mean Difference (Net)|4.78||||0.8584|TWO_SIDED|95.0|-47.72|57.28|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical pain sensitivity at the arm from baseline to 4 months||57.28|-47.72|0.8584
92164036|NCT03351075|184216387|SUPERIORITY||Mean Difference (Net)|-57.25||||0.0353|TWO_SIDED|95.0|-110.57|-3.93|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical pain sensitivity at the arm from baseline to 1 year||-3.93|-110.57|0.0353
92164037|NCT03351075|184216387|SUPERIORITY||Mean Difference (Net)|-20.1||||0.4865|TWO_SIDED|95.0|-76.72|36.52|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical pain sensitivity at the arm from baseline to 1.5 years||36.52|-76.72|0.4865
92164038|NCT03351075|184216388|SUPERIORITY||Mean Difference (Net)|1.11||||0.1278|TWO_SIDED|95.0|0.97|1.27|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in pressure pain sensitivity at the pectoral region from baseline to 4 months||1.27|0.97|0.1278
92164039|NCT03351075|184216388|SUPERIORITY||Mean Difference (Net)|1.11||||0.1875|TWO_SIDED|95.0|0.95|1.3|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in pressure pain sensitivity at the pectoral region from baseline to 1 year||1.30|0.95|0.1875
92164040|NCT03351075|184216388|SUPERIORITY||Mean Difference (Net)|1.05||||0.5612|TWO_SIDED|95.0|0.89|1.23|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in pressure pain sensitivity at the pectoral region from baseline to 1.5 years||1.23|0.89|0.5612
92164041|NCT03351075|184216389|SUPERIORITY||Mean Difference (Net)|1.089||||0.7902|TWO_SIDED|95.0|0.693|1.62|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported anxiety from baseline to 4 months||1.620|0.693|0.7902
92164042|NCT03351075|184216389|SUPERIORITY||Mean Difference (Net)|0.934||||0.7578|TWO_SIDED|95.0|0.604|1.443|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported anxiety from baseline to 1 year||1.443|0.604|0.7578
92222238|NCT04091087|184345518|SUPERIORITY||Difference in percentage of participants|-0.38||||0.4815|TWO_SIDED|90.0|-13.79|13.03||1-sided|Normal approximation test|||Week 4||13.03|-13.79|0.4815
92164043|NCT03351075|184216389|SUPERIORITY||Mean Difference (Net)|1.01||||0.96|TWO_SIDED|95.0|0.679|1.504|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported anxiety from baseline to 1.5 years||1.504|0.679|0.9600
92222239|NCT04091087|184345518|SUPERIORITY||Difference in percentage of participants|8.9||||0.1197|TWO_SIDED|90.0|-3.55|21.35||1-sided|Normal approximation test|||Week 5||21.35|-3.55|0.1197
92222240|NCT04091087|184345518|SUPERIORITY||Difference in percentage of participants|18.18||||0.0034|TWO_SIDED|90.0|7.14|29.23||1-sided|Normal approximation test|||Week 6||29.23|7.14|0.0034
92222241|NCT04091087|184345519|SUPERIORITY||Difference in percentage of participants|5.13||||0.2896|TWO_SIDED|90.0|-10.09|20.34||1-sided|Normal approximation test|||||20.34|-10.09|0.2896
92222242|NCT04091087|184345520|SUPERIORITY||Difference in percentage of participants|7.77||||0.2648|TWO_SIDED|90.0|-12.55|28.08||1-sided|Normal approximation test|||Week 1||28.08|-12.55|0.2648
92222243|NCT04091087|184345520|SUPERIORITY||Difference in percentage of participants|17.05||||0.0809|TWO_SIDED|90.0|-2.99|37.08||1-sided|Normal approximation test|||Week 2||37.08|-2.99|0.0809
92222244|NCT04091087|184345520|SUPERIORITY||Difference in percentage of participants|1.7||||0.445|TWO_SIDED|90.0|-18.58|21.99||1-sided|Normal approximation test|||Week 3||21.99|-18.58|0.4450
92222245|NCT04091087|184345520|SUPERIORITY||Difference in percentage of participants|1.7||||0.445|TWO_SIDED|90.0|-18.58|21.99||1-sided|Normal approximation test|||Week 4||21.99|-18.58|0.4450
92222246|NCT04091087|184345520|SUPERIORITY||Difference in percentage of participants|20.45||||0.0385|TWO_SIDED|90.0|1.43|39.48||1-sided|Normal approximation test|||Week 5||39.48|1.43|0.0385
92222247|NCT04091087|184345520|SUPERIORITY||Difference in percentage of participants|29.64||||0.0045|TWO_SIDED|90.0|10.95|48.33||1 sided|Normal approximation test|||Week 6||48.33|10.95|0.0045
92164044|NCT03351075|184216390|SUPERIORITY||Mean Difference (Net)|1.068||||0.7619|TWO_SIDED|95.0|0.696|1.639|||Multivariate linear model|multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported stress from baseline to 4 months||1.639|0.696|0.7619
92222248|NCT04091087|184345521|SUPERIORITY||LS mean Difference|3.88|STANDARD_ERROR_OF_MEAN|13.49||0.3874|TWO_SIDED|90.0|-18.67|26.43||1-sided|Normal approximation test|||Week 1||26.43|-18.67|0.3874
92222249|NCT04091087|184345521|SUPERIORITY||LS mean Difference|-4.47|STANDARD_ERROR_OF_MEAN|11.59||0.3506|TWO_SIDED|90.0|-23.85|14.91||1-sided|Normal approximation test|||Week 2||14.91|-23.85|0.3506
92222250|NCT04091087|184345521|SUPERIORITY||LS mean Difference|9.81|STANDARD_ERROR_OF_MEAN|14.23||0.2466|TWO_SIDED|90.0|-13.97|33.6||1-sided|Normal approximation test|||Week 3||33.60|-13.97|0.2466
92222251|NCT04091087|184345521|SUPERIORITY||LS mean Difference|34.74|STANDARD_ERROR_OF_MEAN|15.74||0.0157|TWO_SIDED|90.0|8.43|61.05||1-sided|Normal approximation test|||Week 4||61.05|8.43|0.0157
92164045|NCT03351075|184216390|SUPERIORITY||Mean Difference (Net)|1.087||||0.7169|TWO_SIDED|95.0|0.702|1.673|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported stress from baseline to 1 year||1.673|0.702|0.7169
92222252|NCT04091087|184345521|SUPERIORITY||LS mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|14.55||0.4548|TWO_SIDED|90.0|-25.99|22.68||1-sided|Normal approximation test|||Week 5||22.68|-25.99|0.4548
92222253|NCT04091087|184345521|SUPERIORITY||LS mean Difference|-42.19|STANDARD_ERROR_OF_MEAN|11.99||0.0004|TWO_SIDED|90.0|-62.24|-22.15||1-sided|Normal approximation test|||Week 6||-22.15|-62.24|0.0004
92222254|NCT04091087|184345522|SUPERIORITY||LS mean difference|6.91|STANDARD_ERROR_OF_MEAN|9.65||0.2383|TWO_SIDED|90.0|-9.23|23.06||1 sided|ANOVA|||||23.06|-9.23|0.2383
92222255|NCT04091087|184345523|SUPERIORITY||LS mean Difference|-29.95|STANDARD_ERROR_OF_MEAN|21.01||0.0797|TWO_SIDED|90.0|-65.09|5.18||1-sided|Normal approximation test|||Week 1||5.18|-65.09|0.0797
92222256|NCT04091087|184345523|SUPERIORITY||LS mean Difference|-14.39|STANDARD_ERROR_OF_MEAN|18.79||0.2236|TWO_SIDED|90.0|-45.81|17.04||1-sided|Normal approximation test|||Week 2||17.04|-45.81|0.2236
92222257|NCT04091087|184345523|SUPERIORITY||LS mean Difference|-9.94|STANDARD_ERROR_OF_MEAN|15.05||0.2559|TWO_SIDED|90.0|-35.12|15.24||1-sided|Normal approximation test|||Week 3||15.24|-35.12|0.2559
92222258|NCT04091087|184345523|SUPERIORITY||LS mean Difference|-16.01|STANDARD_ERROR_OF_MEAN|22.44||0.2392|TWO_SIDED|90.0|-53.54|21.52||1-sided|Normal approximation test|||Week 4||21.52|-53.54|0.2392
92222259|NCT04091087|184345523|SUPERIORITY||LS mean Difference|-13.01|STANDARD_ERROR_OF_MEAN|19.65||0.2553|TWO_SIDED|90.0|-45.87|19.85||1-sided|Normal approximation test|||Week 5||19.85|-45.87|0.2553
92222260|NCT04091087|184345523|SUPERIORITY||LS mean Difference|-53.01|STANDARD_ERROR_OF_MEAN|30.05||0.0416|TWO_SIDED|90.0|-103.26|-2.75||1-sided|Normal approximation test|||Week 6||-2.75|-103.26|0.0416
92222261|NCT04152161|184345525|SUPERIORITY||Vaccine Efficacy|-0.049|||||TWO_SIDED|95.0|-0.431|0.23|||||Vaccine Efficacy (VE) = 1 - Hazard Ratio, with 95%CI equal to (VE lower limit, VE upper limit) = (1 - Hazard Ratio upper limit, 1 - Hazard Ratio lower limit)|||0.230|-0.431|
92222262|NCT04152161|184345525|SUPERIORITY||Hazard Ratio (HR)|1.049||||0.6193|TWO_SIDED|95.0|0.77|1.431|||Log Rank|The 1-sided p-value from the log-rank test was stratified by sex and age group.|Hazard ratio was calculated using a stratified Cox proportional hazards model, with sex and age group (10-11 years, 12-14 years, and \>14 years) as stratification variables.|||1.431|0.770|0.6193
92357423|NCT02732145|184619257|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with normal vulva and positive AWR?||||||0.0078|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with normal vulva and positive AWR.||||0.0078
92357424|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of hyperkeratosis in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of hyperkeratosis in vulvar specimens of patients from different groups.||||0.0000
92164046|NCT03351075|184216390|SUPERIORITY||Mean Difference (Net)|0.987||||0.9535|TWO_SIDED|95.0|0.639|1.525|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported stress from baseline to 1.5 years||1.525|0.639|0.9535
92164047|NCT05219253|184216394|SUPERIORITY|The superiority was to be concluded if the lower limit (LL) of the 95% confidence interval (CI) of the adjusted GMC ratio between the HZ/su Group and Placebo Group for anti-gE antibody concentrations was equal to or above (\>=) 3.|GMC Ratio|19.8|||||TWO_SIDED|95.0|14.09|27.82|||ANOVA|||To demonstrate the immunogenicity of HZ/su vaccine compared to Placebo, in terms of anti-gE GMCs, at 1 month post-Dose 2 of study intervention administration (Month 3).||27.82|14.09|
92164048|NCT03086369|184216406|SUPERIORITY||Hazard Ratio (HR)|1.054||||0.7902|TWO_SIDED|95.0|0.728|1.527|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|||1.527|0.728|0.7902
92164049|NCT03086369|184216410|SUPERIORITY||Hazard Ratio (HR)|1.192||||0.3771|TWO_SIDED|95.0|0.806|1.764|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|||1.764|0.806|0.3771
92164050|NCT03086369|184216413|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.017|TWO_SIDED|95.0|0.175|0.872|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).||||0.872|0.175|0.017
92164051|NCT03086369|184216414|SUPERIORITY||Hazard Ratio (HR)|0.718||||0.288|TWO_SIDED|95.0|0.392|1.317|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Appetite loss||1.317|0.392|0.288
92164052|NCT03086369|184216414|SUPERIORITY||Hazard Ratio (HR)|0.788||||0.442|TWO_SIDED|95.0|0.423|1.468|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Constipation||1.468|0.423|0.442
92164053|NCT03086369|184216414|SUPERIORITY||Hazard Ratio (HR)|1.037||||0.883|TWO_SIDED|95.0|0.612|1.755|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Diarrhoea||1.755|0.612|0.883
92164054|NCT03086369|184216414|SUPERIORITY||Hazard Ratio (HR)|0.933||||0.803|TWO_SIDED|95.0|0.532|1.636|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Dyspnoea||1.636|0.532|0.803
92164055|NCT03086369|184216414|SUPERIORITY||Hazard Ratio (HR)|1.053||||0.805|TWO_SIDED|95.0|0.675|1.645|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Fatigue||1.645|0.675|0.805
92164056|NCT03086369|184216414|SUPERIORITY||Hazard Ratio (HR)|0.784||||0.465|TWO_SIDED|95.0|0.42|1.464|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Financial difficulties||1.464|0.420|0.465
92164057|NCT03086369|184216414|SUPERIORITY||Hazard Ratio (HR)|1.457||||0.231|TWO_SIDED|95.0|0.787|2.698|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Insomnia||2.698|0.787|0.231
92164058|NCT03086369|184216414|SUPERIORITY||Hazard Ratio (HR)|0.914||||0.748|TWO_SIDED|95.0|0.532|1.57|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Nausea and vomiting||1.570|0.532|0.748
92164059|NCT03086369|184216414|SUPERIORITY||Hazard Ratio (HR)|0.947||||0.875|TWO_SIDED|95.0|0.491|1.827|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Pain||1.827|0.491|0.875
92164060|NCT03686813|184216433|OTHER|||||||0.317|||||||McNemar|||||||0.317
92164061|NCT03686813|184216434|OTHER|||||||0.317|||||||McNemar|||||||0.317
92164062|NCT03686813|184216435|OTHER||||||>|0.999|||||||McNemar|||||||>0.999
92164063|NCT03686813|184216436|OTHER|||||||0.18|||||||McNemar|||||||0.18
92164064|NCT03686813|184216437|OTHER|||||||0.29|||||||McNemar|||||||0.29
92222263|NCT04152161|184345526|SUPERIORITY||Vaccine Efficacy|-0.009|||||TWO_SIDED|95.0|-0.395|0.27|||||Vaccine Efficacy (VE) = 1 - Hazard Ratio, with 95%CI equal to (VE lower limit, VE upper limit) = (1 - Hazard Ratio upper limit, 1 - Hazard Ratio lower limit)|||0.270|-0.395|
92222264|NCT04152161|184345526|SUPERIORITY||Hazard Ratio (HR)|1.009||||0.5224|TWO_SIDED|95.0|0.73|1.395|||Log Rank|The 1-sided p-value from the log-rank test was stratified by sex and age group.|Hazard ratio was calculated using a stratified Cox proportional hazards model, with sex and age group (10-11 years, 12-14 years, and \>14 years) as stratification variables.|||1.395|0.730|0.5224
92222265|NCT04152161|184345527|SUPERIORITY||Vaccine Efficacy|-0.049|||||TWO_SIDED|95.0|-0.431|0.23|||||Vaccine Efficacy (VE) = 1 - Hazard Ratio, with 95%CI equal to (VE lower limit, VE upper limit) = (1 - Hazard Ratio upper limit, 1 - Hazard Ratio lower limit)|||0.230|-0.431|
92222266|NCT04152161|184345527|SUPERIORITY||Hazard Ratio (HR)|1.049||||0.6193|TWO_SIDED|95.0|0.77|1.431|||Log Rank|The 1-sided p-value from the log-rank test was stratified by sex and age group.|Calculated using a stratified Cox proportional hazards model, with sex and age group (10-11 years, 12-14 years, and \>14 years) as stratification variables.|||1.431|0.770|0.6193
92222267|NCT00382993|184345580|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.63|||<|0.001||95.0|2.76|11.49|||ANOVA|||||11.49|2.76|<0.001
92222268|NCT05284760|184345616|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Geometric Mean Ratio (GMR)|97.28|||||TWO_SIDED|90.0|87.66|107.96||||||||107.96|87.66|
92222269|NCT05284760|184345616|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|GMR|81.04|||||TWO_SIDED|90.0|73.06|89.89||||||||89.89|73.06|
92222270|NCT05284760|184345616|OTHER||GMR|37.48|||||TWO_SIDED|90.0|31.1|45.17||||||||45.17|31.10|
92401448|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.7|TWO_SIDED|95.0|-1.1|0.74||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||0.74|-1.10|0.700
92222271|NCT05284760|184345616|OTHER||GMR|89.45|||||TWO_SIDED|90.0|74.24|107.79||||||||107.79|74.24|
92222272|NCT05284760|184345617|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|GMR|97.52|||||TWO_SIDED|90.0|92.17|103.17||||||||103.17|92.17|
92222273|NCT05284760|184345617|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|GMR|86.88|||||TWO_SIDED|90.0|82.14|91.89||||||||91.89|82.14|
92222274|NCT05284760|184345617|OTHER||GMR|87.63|||||TWO_SIDED|90.0|75.92|101.15||||||||101.15|75.92|
92222275|NCT05284760|184345617|OTHER||GMR|95.49|||||TWO_SIDED|90.0|82.73|110.22||||||||110.22|82.73|
92222276|NCT05284760|184345618|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|GMR|99.25|||||TWO_SIDED|90.0|92.84|106.1||||||||106.10|92.84|
92222277|NCT05284760|184345618|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|GMR|86.98|||||TWO_SIDED|90.0|81.33|93.03||||||||93.03|81.33|
92222278|NCT05284760|184345618|OTHER||GMR|89.28|||||TWO_SIDED|90.0|78.92|100.99||||||||100.99|78.92|
92222279|NCT05284760|184345618|OTHER||GMR|92.77|||||TWO_SIDED|90.0|81.77|105.25||||||||105.25|81.77|
92222280|NCT03015259|184345620|EQUIVALENCE|To show the clinical equivalence, an analysis of covariance model was fit on the participants from the test budesonide/formoterol fumarate and Symbicort groups, with the endpoint as outcome and treatment, study site and treatment by site interaction as fixed effects and FEV1 baseline value as covariate.|Test/Referece LS Mean Ratio|1.04|||||TWO_SIDED|90.0|0.958|1.13|||||Fieller's formula was applied|Only Treatments 1 and 2 were compared for equivalence. Treatment 3 (placebo) was subtracted from both Treatments 1 and 2, as this primary endpoint was baseline adjusted.||1.130|0.958|
92222281|NCT03015259|184345621|EQUIVALENCE|To show the clinical equivalence, an ANCOVA model was fit with the endpoint as outcome and treatment, study site and treatment-by site interaction as fixed effects and FEV1 baseline value as covariate.|Test/Reference LS Mean Ratio|1.004|||||TWO_SIDED|90.0|0.889|1.14|||||Fieller's formula was applied|Treatments 1 and 2 were baseline adjusted by subtracting Treatment 3 (placebo) from each.||1.140|0.889|
92222282|NCT03015259|184345622|OTHER|||||||||||||||||Comparison of means, no formal statistical comparison|no statistical significance applied|||
92222283|NCT00440947|184345657|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be established between the two arms if the lower limit of the 2-sided 95% confidence interval (CI) on the difference in the percentage of participants with HIV-1 RNA \<50 c/mL at Week 84 was -12% or greater.|Risk Difference (RD)|5.4||||0.14|TWO_SIDED|95.0|-1.8|12.5|||Cochran-Mantel-Haenszel|p-value was obtained from Cochran-Mantel-Haenszel stratified by baseline HIV-1 RNA (\<100000/\>=100000)||||12.5|-1.8|0.140
92222284|NCT01827670|184345722|SUPERIORITY_OR_OTHER||Adjusted Mean|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.53|-1.06|||ANCOVA|From ANCOVA model: Treatment as fixed factor \& baseline Schiff score as covariate.|Difference was 0.454% stannous fluoride minus 0.76% sodium monofluorophosphate such that a negative difference favours first named treatment.|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments"||-1.06|-1.53|<0.0001
92222285|NCT01827670|184345723|SUPERIORITY_OR_OTHER||Adjusted Mean|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.62|||ANCOVA|From ANCOVA model: Treatment as fixed factor \& baseline Schiff score as covariate.|Difference was 0.454% Stannous Fluoride minus 0.76% Sodium MonoFluorophosphate such that a negative difference favored first named treatment|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments"||-0.62|-1.00|<0.0001
92227123|NCT01235962|184356473|SUPERIORITY||Mean Difference (36M DFS FU)|0.188||||0.397|TWO_SIDED|95.0|-0.247|0.623|||analysis of covariance|adjusted for baseline score using mixed-model||||0.623|-0.247|0.397
92227124|NCT01235962|184356473|SUPERIORITY||Mean Difference (48M DFS FU)|0.081||||0.781|TWO_SIDED|95.0|-0.488|0.649|||analysis of covariance|adjusted for baseline score using mixed-model||||0.649|-0.488|0.781
92357425|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of parakeratosis in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of parakeratosis in vulvar specimens of patients from different groups.||||0.0000
92357426|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of acanthosis in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of acanthosis in vulvar specimens of patients from different groups.||||0.0000
92357427|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of epidermal atrophy in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of epidermal atrophy in vulvar specimens of patients from different groups.||||0.0000
92357428|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of inflammatory infiltrates in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of inflammatory infiltrates in vulvar specimens of patients from different groups.||||0.0000
92357429|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of mononuclear inflammatory infiltrates in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of mononuclear inflammatory infiltrates in vulvar specimens of patients from different groups.||||0.0000
92357430|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of lymphocytes in vulvar specimens of patients from different groups?||||||0.0105|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of lymphocytes (infiltrates) in vulvar specimens of patients from different groups.||||0.0105
92357431|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of mastocytes in vulvar specimens of patients from different groups?||||||0.0064|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of mastocytes in vulvar specimens of patients from different groups.||||0.0064
92164065|NCT04035668|184216439|SUPERIORITY||Mean Difference (Final Values)|-2.86||||0.002|TWO_SIDED|95.0|-4.71|-1.01||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|||-1.01|-4.71|0.002
92222286|NCT01827670|184345724|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|27.2|||<|0.0001|TWO_SIDED|95.0|19.4|35.1|||ANCOVA|From ANCOVA model: Treatment and baseline Schiff stratification value as fixed factor and baseline tactile threshold as covariate|Difference was 0.454% Stannous Fluoride minus 0.76% Sodium MonoFluorophosphate such that a positive difference favours first named treatment.|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments"||35.1|19.4|<0.0001
92222287|NCT01827670|184345725|SUPERIORITY_OR_OTHER||Adjusted Mean|7.5||||0.0138|TWO_SIDED|95.0|1.6|13.4|||ANCOVA|From ANCOVA model: Treatment and baseline Schiff stratification value as fixed factor and baseline tactile threshold as covariate|Difference was 0.454% Stannous Fluoride minus 0.76% Sodium MonoFluorophosphate such that a positive difference favours first named treatment.|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments"||13.4|1.6|0.0138
92357432|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of collagen fibers in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of collagen fibers in vulvar specimens of patients from different groups.||||0.0000
92164066|NCT04035668|184216439|OTHER||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-3.24|1.25|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|||1.25|-3.24|
92164067|NCT04035668|184216440|SUPERIORITY||Mean Difference (Final Values)|-0.99||||0.065|TWO_SIDED|95.0|-2.29|0.3||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 2||0.30|-2.29|0.065
92164068|NCT04035668|184216440|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.01|TWO_SIDED|95.0|-3.24|-0.29||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 4||-0.29|-3.24|0.010
92164069|NCT04035668|184216440|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.289|TWO_SIDED|95.0|-2.17|1.22||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 8||1.22|-2.17|0.289
92164070|NCT04035668|184216440|SUPERIORITY||Mean Difference (Final Values)|-1.19||||0.093|TWO_SIDED|95.0|-2.97|0.59||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 12||0.59|-2.97|0.093
92164071|NCT04035668|184216440|SUPERIORITY||Mean Difference (Final Values)|-1.13||||0.094|TWO_SIDED|95.0|-2.84|0.57||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 16||0.57|-2.84|0.094
92164072|NCT04035668|184216440|SUPERIORITY||Mean Difference (Final Values)|-1.99||||0.012|TWO_SIDED|95.0|-3.71|-0.28||one-sided p-value|MMRM|||Week 20|Difference (Any remibrutinib - Placebo)|-0.28|-3.71|0.012
92357433|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of hyalinization in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of hyalinization in vulvar specimens of patients from different groups.||||0.0000
92357434|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of hyperpigmentation in vulvar specimens of patients from different groups?||||||0.0342|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of hyperpigmentation in vulvar specimens of patients from different groups.||||0.0342
92357435|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of elongated dermal papillae in vulvar specimens of patients from different groups?||||||0.0148|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of elongated dermal papillae in vulvar specimens of patients from different groups.||||0.0148
92357436|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of blood vessels in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of blood vessels in vulvar specimens of patients from different groups.||||0.0000
92357437|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of sebaceous glands in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of sebaceous glands in vulvar specimens of patients from different groups.||||0.0000
92357438|NCT02732145|184619258|EQUIVALENCE|Question: Is there a difference in the incidence of nerve fibers in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of nerve fibers in vulvar specimens of patients from different groups.||||0.0000
92357439|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar complaints depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of vulvar complaints depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.0000
92222288|NCT01827670|184345726|SUPERIORITY_OR_OTHER||Adjusted Mean|-12.14||||0.0003|TWO_SIDED|95.0|-18.51|-5.77|||ANCOVA|From ANCOVA model: Treatment and baseline Schiff stratification value as fixed factor and baseline VAS as covariate.|Difference was 0.454% Stannous Fluoride minus 0.76% Sodium MonoFluorophosphate such that a negative difference favored first named treatment|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments"||-5.77|-18.51|0.0003
92227125|NCT01235962|184356473|SUPERIORITY||Mean Difference (54M DFS FU)|-0.278||||0.503|TWO_SIDED|95.0|-1.094|0.539|||analysis of covariance|adjusted for baseline score using mixed-model||||0.539|-1.094|0.503
92227126|NCT01235962|184356474|SUPERIORITY||Mean Difference (Week 52 thermo)|-0.717||||0.49|TWO_SIDED|95.0|-2.751|1.318|||analysis of covariance|adjusted for baseline score using mixed-model||||1.318|-2.751|0.490
92357440|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of symptoms of the dull pain of the vulva on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||1|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the dull (slow) pain of the vulva (burning, stinging, soreness, irritation, itching, inflammation, aching) depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||1.0000
92357441|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar burning depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.3533|||||||Chi-squared|||Parameter: The incidence of vulvar burning depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.3533
92164073|NCT04035668|184216440|OTHER||Mean Difference (Final Values)|-0.63|||||TWO_SIDED|95.0|-2.1|0.84|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 2||0.84|-2.10|
92164074|NCT04035668|184216440|OTHER||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-1.75|1.69|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 4||1.69|-1.75|
92164075|NCT04035668|184216440|OTHER||Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-1.83|2.21|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 8||2.21|-1.83|
92164076|NCT04035668|184216440|OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-3.2|1.01|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 12||1.01|-3.20|
92164077|NCT04035668|184216440|OTHER||Mean Difference (Final Values)|-1.45|||||TWO_SIDED|95.0|-3.5|0.6|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 16||0.60|-3.50|
92164078|NCT04035668|184216440|OTHER||Mean Difference (Final Values)|-1.14|||||TWO_SIDED|95.0|-3.22|0.95|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 20||0.95|-3.22|
92164079|NCT04035668|184216441|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.46|TWO_SIDED|95.0|-0.69|0.62||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 2||0.62|-0.69|0.460
92164080|NCT04035668|184216441|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.418|TWO_SIDED|95.0|-0.82|0.66||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 4||0.66|-0.82|0.418
92164081|NCT04035668|184216441|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.466|TWO_SIDED|95.0|-0.76|0.7||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 8||0.70|-0.76|0.466
92164082|NCT04035668|184216441|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.56|TWO_SIDED|95.0|-0.67|0.79||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 12||0.79|-0.67|0.560
92164083|NCT04035668|184216441|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.616|TWO_SIDED|95.0|-0.73|0.99||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 16||0.99|-0.73|0.616
92164084|NCT04035668|184216441|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.581|TWO_SIDED|95.0|-0.81|0.99||one-sided p-value|MMRM|||Week 20|Difference (Any remibrutinib - Placebo)|0.99|-0.81|0.581
92164085|NCT04035668|184216441|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.663|TWO_SIDED|95.0|-0.62|0.96||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 24||0.96|-0.62|0.663
92164086|NCT04035668|184216441|OTHER||Mean Difference (Final Values)|-0.62|||||TWO_SIDED|95.0|-1.35|0.11|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 2||0.11|-1.35|
92164087|NCT04035668|184216441|OTHER||Mean Difference (Final Values)|-0.58|||||TWO_SIDED|95.0|-1.42|0.26|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 4||0.26|-1.42|
92164088|NCT04035668|184216441|OTHER||Mean Difference (Final Values)|-0.45|||||TWO_SIDED|95.0|-1.31|0.42|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 8||0.42|-1.31|
92164089|NCT04035668|184216441|OTHER||Mean Difference (Final Values)|-0.57|||||TWO_SIDED|95.0|-1.44|0.31|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 12||0.31|-1.44|
92164090|NCT04035668|184216441|OTHER||Mean Difference (Final Values)|-0.37|||||TWO_SIDED|95.0|-1.39|0.65|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 16||0.65|-1.39|
92164091|NCT04035668|184216441|OTHER||Mean Difference (Final Values)|-0.37|||||TWO_SIDED|95.0|-1.39|0.65|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 20||0.65|-1.39|
92164092|NCT04035668|184216441|OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-1.37|0.57|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 24||0.57|-1.37|
92164093|NCT04035668|184216442|SUPERIORITY||Mean Difference (Final Values)|-2.73||||0.94|TWO_SIDED|95.0|-6.18|0.73||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 2||0.73|-6.18|0.940
92164094|NCT04035668|184216442|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.322|TWO_SIDED|95.0|-2.95|4.74||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 4||4.74|-2.95|0.322
92357442|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.5641|||||||Chi-squared|||Parameter: The incidence of vulvar stinging depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.5641
92164095|NCT04035668|184216442|SUPERIORITY||Mean Difference (Final Values)|-1.36||||0.753|TWO_SIDED|95.0|-5.32|2.59||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 8||2.59|-5.32|0.753
92164096|NCT04035668|184216442|SUPERIORITY||Mean Difference (Final Values)|-2.74||||0.891|TWO_SIDED|95.0|-7.13|1.66||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 12||1.66|-7.13|0.891
92164097|NCT04035668|184216442|SUPERIORITY||Mean Difference (Final Values)|-3.88||||0.941|TWO_SIDED|95.0|-8.77|1.01||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 16||1.01|-8.77|0.941
92164098|NCT04035668|184216442|SUPERIORITY||Mean Difference (Final Values)|1.39||||0.304|TWO_SIDED|95.0|-4.01|6.79||one-sided p-value|MMRM|||Week 20|Difference (Any remibrutinib - Placebo)|6.79|-4.01|0.304
92222289|NCT01827670|184345727|SUPERIORITY_OR_OTHER||Adjusted Mean|-21.82|||<|0.0001|TWO_SIDED|95.0|-29.55|-14.09|||ANCOVA|From ANCOVA model: Treatment and baseline Schiff stratification value as fixed factor and baseline VAS as covariate.|Difference was 0.454% Stannous Fluoride minus 0.76% Sodium MonoFluorophosphate such that a negative difference favored first named treatment|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments."||-14.09|-29.55|<0.0001
92222290|NCT00385255|184345751|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% confidence interval (CI) for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentages of subjects with anti-D antibody concentrations ≥ 0.1 IU/mL, being ≥ - 10%.|Difference in percentage|1.06|||||TWO_SIDED|95.0|-1.36|3.56||||||Difference in seroprotection rates against diphteria toxoid: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of seroprotection rates for anti-D antibody, one month post-Boostrix® vaccination.||3.56|-1.36|
92227127|NCT01235962|184356474|SUPERIORITY||Mean Difference (24M DFS FU- thermo)|-0.285||||0.788|TWO_SIDED|95.0|-2.358|1.788|||analysis of covariance|adjusted for baseline score using mixed-model||||1.788|-2.358|0.788
92227128|NCT01235962|184356474|SUPERIORITY||Mean Difference (36M DFS FU- thermo)|1.18||||0.266|TWO_SIDED|95.0|-0.901|3.262|||analysis of covariance|adjusted for baseline score using mixed-model||||3.262|-0.901|0.266
92357443|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar soreness depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.9684|||||||Chi-squared|||Parameter: The incidence of vulvar soreness depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.9684
92357444|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar irritation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.8599|||||||Chi-squared|||Parameter: The incidence of vulvar irritation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.8599
92227129|NCT01235962|184356474|SUPERIORITY||Mean Difference (48M DFS FU - thermo)|0.725||||0.57|TWO_SIDED|95.0|-1.779|3.229|||analysis of covariance|adjusted for baseline score using mixed-model||||3.229|-1.779|0.570
92357445|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.9402|||||||Chi-squared|||Parameter: The incidence of vulvar itching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.9402
92357446|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of the feeling of vulvar inflammation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.8389|||||||Chi-squared|||Parameter: The incidence of the feeling of vulvar inflammation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.8389
92164099|NCT04035668|184216442|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.64|TWO_SIDED|95.0|-6.89|4.79||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 24||4.79|-6.89|0.640
92164100|NCT04035668|184216442|OTHER||Mean Difference (Final Values)|2.32|||||TWO_SIDED|95.0|-1.44|6.07|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 2||6.07|-1.44|
92164101|NCT04035668|184216442|OTHER||Mean Difference (Final Values)|0.86|||||TWO_SIDED|95.0|-3.46|5.18|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 4||5.18|-3.46|
92164102|NCT04035668|184216442|OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-4.43|4.83|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 8||4.83|-4.43|
92164103|NCT04035668|184216442|OTHER||Mean Difference (Final Values)|0.63|||||TWO_SIDED|95.0|-4.53|5.78|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 12||5.78|-4.53|
92164104|NCT04035668|184216442|OTHER||Mean Difference (Final Values)|1.11|||||TWO_SIDED|95.0|-4.6|6.82|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 16||6.82|-4.60|
92164105|NCT04035668|184216442|OTHER||Mean Difference (Final Values)|5.69|||||TWO_SIDED|95.0|-0.66|12.04|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 20||12.04|-0.66|
92164106|NCT04035668|184216442|OTHER||Mean Difference (Final Values)|3.53|||||TWO_SIDED|95.0|-3.53|10.59|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 24||10.59|-3.53|
92164107|NCT04035668|184216443|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.494|TWO_SIDED|95.0|-7.84|7.96||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 2||7.96|-7.84|0.494
92164108|NCT04035668|184216443|SUPERIORITY||Mean Difference (Final Values)|-3.87||||0.866|TWO_SIDED|95.0|-10.81|3.06||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 4||3.06|-10.81|0.866
92164109|NCT04035668|184216443|SUPERIORITY||Mean Difference (Final Values)|-1.82||||0.684|TWO_SIDED|95.0|-9.37|5.73||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 8||5.73|-9.37|0.684
92222291|NCT00385255|184345751|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+ Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-T antibody concentrations ≥ 0.1 IU/mL, being ≥ - 10%.|Difference in percentage|-1.67|||||TWO_SIDED|95.0|-2.96|-0.74||||||Difference in seroprotection rates against tetanus toxoid: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of seroprotection rates for anti-T antibody, one month post-Boostrix® vaccination.||-0.74|-2.96|
92222292|NCT00385255|184345752|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-T antibody concentrations ≥ 1.0 IU/mL, being ≥ - 10%.|Difference in percentage|1.4|||||TWO_SIDED|95.0|-0.77|3.68||||||Difference in seropositivity rates against tetanus toxoid: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of seropositivity rates for anti-T antibody, one month post-Boostrix® vaccination.||3.68|-0.77|
92222293|NCT00385255|184345753|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for GMC ratios of antibodies against the pertussis toxoid (PT) antigens between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group) being ≥ 0.67.|Adjusted GMC ratio|0.74|||||TWO_SIDED|95.0|0.67|0.82|||ANCOVA|||Difference in adjusted GMC ratios for anti-PT antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of geometric mean concentrations (GMCs) for anti-PT antibody, one month post-Boostrix® vaccination.||0.82|0.67|
92222294|NCT00385255|184345753|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for GMC ratios of antibodies against the filamentous hemagglutinin (FHA) antigens between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group) being ≥ 0.67.|Adjusted GMC ratio|0.71|||||TWO_SIDED|95.0|0.64|0.79|||ANCOVA|||Difference in adjusted GMC ratio for anti-FHA antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of geometric mean concentrations (GMCs) for anti-FHA antibody, one month post-Boostrix® vaccination.||0.79|0.64|
92222295|NCT00385255|184345753|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for GMC ratios of antibodies against the pertactin (PRN) antigens between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group) being ≥ 0.67.|Adjusted GMC ratio|0.7|||||TWO_SIDED|95.0|0.6|0.81|||ANCOVA|||Difference in adjusted GMC ratio for anti-PRN antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of geometric mean concentrations (GMCs) for anti-PRN antibody, one month post-Boostrix® vaccination.||0.81|0.60|
92222296|NCT00385255|184345754|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-H1N1 antibody titers ≥ 1:40 being ≥ -10%.|Difference in percentage|-1.17|||||TWO_SIDED|95.0|-3.58|1.23||||||Difference in percentage of subjects with anti-H1N1 antibody titers ≥ 1:40: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-H1N1 antibody titers ≥ 1:40, one month post-Fluarix® vaccination.||1.23|-3.58|
92222297|NCT00385255|184345754|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-H3N2 antibody titers ≥ 1:40 being ≥ -10%.|Difference in percentage|-0.61|||||TWO_SIDED|95.0|-2.22|0.96||||||Difference in percentage of subjects with anti-H3N2 antibody titers ≥ 1:40: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-H3N2 antibody titers ≥ 1:40, one month post-Fluarix® vaccination.||0.96|-2.22|
92222298|NCT00385255|184345754|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-B antibody titers ≥ 1:40 being ≥ -10%.|Difference in percentage|-0.55|||||TWO_SIDED|95.0|-2.52|1.42||||||Difference in percentage of subjects with anti-B antibody titers ≥ 1:40: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-B antibody titers ≥ 1:40, one month post-Fluarix® vaccination.||1.42|-2.52|
92227130|NCT01235962|184356474|SUPERIORITY||Mean Difference (54M DFS FU - thermo)|2.023||||0.346|TWO_SIDED|95.0|-2.205|6.251|||analysis of covariance|adjusted for baseline score using mixed-model||||6.251|-2.205|0.346
92227131|NCT01235962|184356474|SUPERIORITY||Mean Difference (Week 52 - UI)|-0.018||||0.111|TWO_SIDED|95.0|-0.04|0.004|||analysis of covariance|adjusted for baseline score using mixed-model||||0.004|-0.040|0.111
92405704|NCT00999102|184701651|SUPERIORITY||Mean Difference (Final Values)|-7.03||||0.89|TWO_SIDED|95.0|-108.99|94.92|||t-test, 2 sided|Paired t-test was performed since each participant received both interventions in a crossover design.|Direction of Comparison: Mean Treadmill Exercise Time for Nebivolol 5 mg minus Mean Treadmill Exercise Time for Metoprolol 50 mg.|The null hypothesis is that there is no difference in Treadmill Exercise Time after 4 weeks of Nebivolol 5 mg (lower dose) vs. 4 weeks of Metoprolol 50 mg (lower dose).||94.92|-108.99|0.89
92227132|NCT01235962|184356474|SUPERIORITY||Mean Difference (24M DFS FU - UI)|-0.02||||0.094|TWO_SIDED|95.0|-0.044|0.003|||analysis of covariance|adjusted for baseline score using mixed-model||||0.003|-0.044|0.094
92222299|NCT00385255|184345755|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with ≥ 4-fold increase in anti-H1N1 antibody titers (seroconversion) being ≥ -10%.|Difference in seroconversion rate|2.37|||||TWO_SIDED|95.0|-2.84|7.58||||||Difference in seroconversion rates for anti-H1N1 antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of seroconversion rates for anti-H1N1 antibody, one month post-Fluarix® vaccination.||7.58|-2.84|
92222300|NCT00385255|184345755|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with ≥ 4-fold increase in anti-H3N2 antibody titers (seroconversion) being ≥ -10%.|Difference in seroconversion rate|5.58|||||TWO_SIDED|95.0|1.1|10.07||||||Difference in seroconversion rates for anti-H3N2 antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of seroconversion rates for anti-H3N2 antibody, one month post-Fluarix® vaccination.||10.07|1.10|
92222301|NCT00385255|184345755|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with ≥ 4-fold increase anti-B antibody titers (seroconversion) being ≥ -10%.|Difference in seroconversion rate|2.15|||||TWO_SIDED|95.0|-2.9|7.2||||||Difference in seroconversion rates for anti-B antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of seroconversion rates for anti-B antibody, one month post-Fluarix® vaccination.||7.20|-2.90|
92222302|NCT00345176|184345766|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||<|0.013|TWO_SIDED|98.7|0.76|1.07||Adjusted for 3 treatment versus placebo comparisons and interim analyses|Regression, Cox|Adjusted for baseline AMD status|The reference group is placebo.|Each of the 3 active arms was compared to the placebo/control arm.||1.07|0.76|<0.013
92222303|NCT00345176|184345766|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97|||<|0.013|TWO_SIDED|98.7|0.82|1.16||Adjusted for multiple comparisons|Regression, Cox|||||1.16|0.82|<0.013
92222304|NCT00345176|184345766|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|||<|0.013|TWO_SIDED|98.7|0.75|1.06|||Regression, Cox|Adjusted for multiple comparisons||||1.06|0.75|<0.013
92222305|NCT00345176|184345767|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95|||<|0.05|TWO_SIDED|95.0|0.84|1.08|||Regression, Cox|||||1.08|0.84|<0.05
92222306|NCT00345176|184345767|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96|||<|0.05|TWO_SIDED|95.0|0.84|1.09|||Regression, Cox|||||1.09|0.84|<0.05
92222307|NCT00345176|184345767|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||<|0.05|TWO_SIDED|95.0|0.83|1.07|||Regression, Cox|||||1.07|0.83|<0.05
92222308|NCT00345176|184345768|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04|||<|0.05|TWO_SIDED|95.0|0.77|1.4|||Regression, Cox|||Comparison of Lutein/Zeaxantin versus Control for mortality||1.40|0.77|<0.05
92222309|NCT00345176|184345768|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13|||<|0.05|TWO_SIDED|95.0|0.84|1.52|||Regression, Cox|||Comparison of DHA/EPA versus Placebo for mortality||1.52|0.84|<0.05
92222310|NCT00345176|184345768|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23|||<|0.05|TWO_SIDED|95.0|0.92|1.65|||Regression, Cox|||Comparison of Lutein/Zeaxanthin + DHA/EPA versus Placebo for Mortality||1.65|0.92|<0.05
92222311|NCT00345176|184345769|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96|||<|0.05|TWO_SIDED|95.0|0.84|1.1|||Regression, Cox|||||1.10|0.84|<0.05
92222312|NCT00606086|184345788|SUPERIORITY_OR_OTHER|||||||1|||||||Cochran-Mantel-Haenszel test|||||||1.000
92357447|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.7617|||||||Chi-squared|||Parameter: The incidence of vulvar aching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.7617
92164110|NCT04035668|184216443|SUPERIORITY||Mean Difference (Final Values)|-4.39||||0.908|TWO_SIDED|95.0|-10.93|2.14||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 12||2.14|-10.93|0.908
92222313|NCT01556425|184345789|SUPERIORITY||Odds Ratio (OR)|2.26||||0.48|TWO_SIDED|95.0|0.2|21.6|||General Estimating Equation (GEE)|||||21.6|0.2|0.48
92222314|NCT01556425|184345789|SUPERIORITY||Odds Ratio (OR)|0.58||||0.61|TWO_SIDED|95.0|0.1|4.6|||General Estimating Equation (GEE)|||||4.6|0.1|0.61
92222315|NCT01556425|184345789|SUPERIORITY||Odds Ratio (OR)|6.0||||0.11|TWO_SIDED|95.0|0.7|54.9|||General Estimating Equation (GEE)|||||54.9|0.7|0.11
92164111|NCT04035668|184216443|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.487|TWO_SIDED|95.0|-8.0|8.26||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 16||8.26|-8.00|0.487
92164112|NCT04035668|184216443|SUPERIORITY||Mean Difference (Final Values)|-3.06||||0.79|TWO_SIDED|95.0|-10.61|4.49||one-sided p-value|MMRM|||Week 20|Difference (Any remibrutinib - Placebo)|4.49|-10.61|0.790
92164113|NCT04035668|184216443|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.34|TWO_SIDED|95.0|-6.48|9.88||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 24||9.88|-6.48|0.340
92164114|NCT04035668|184216443|OTHER||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-9.06|8.68|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 2||8.68|-9.06|
92164115|NCT04035668|184216443|OTHER||Mean Difference (Final Values)|-1.71|||||TWO_SIDED|95.0|-9.59|6.17|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 4||6.17|-9.59|
92164116|NCT04035668|184216443|OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-9.34|8.74|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 8||8.74|-9.34|
92164117|NCT04035668|184216443|OTHER||Mean Difference (Final Values)|-3.94|||||TWO_SIDED|95.0|-11.74|3.86|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 12||3.86|-11.74|
92164118|NCT04035668|184216443|OTHER||Mean Difference (Final Values)|-4.71|||||TWO_SIDED|95.0|-14.34|4.93|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 16||4.93|-14.34|
92164119|NCT04035668|184216443|OTHER||Mean Difference (Final Values)|-6.29|||||TWO_SIDED|95.0|-15.44|2.87|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 20||2.87|-15.44|
92164120|NCT04035668|184216443|OTHER||Mean Difference (Final Values)|-3.92|||||TWO_SIDED|95.0|-14.01|6.16|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 24||6.16|-14.01|
92164121|NCT04035668|184216444|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.575|TWO_SIDED|95.0|-6.75|8.16||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 2||8.16|-6.75|0.575
92222316|NCT01556425|184345789|SUPERIORITY||Odds Ratio (OR)|2.66||||0.39|TWO_SIDED|95.0|0.3|24.9|||General Estimating Equation (GEE)|||||24.9|0.3|0.39
92164122|NCT04035668|184216444|SUPERIORITY||Mean Difference (Final Values)|-1.98||||0.294|TWO_SIDED|95.0|-9.22|5.27||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 4||5.27|-9.22|0.294
92164123|NCT04035668|184216444|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.45|TWO_SIDED|95.0|-8.4|7.41||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 8||7.41|-8.40|0.450
92164124|NCT04035668|184216444|SUPERIORITY||Mean Difference (Final Values)|6.02||||0.913|TWO_SIDED|95.0|-2.74|14.78||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 12||14.78|-2.74|0.913
92164125|NCT04035668|184216444|SUPERIORITY||Mean Difference (Final Values)|2.59||||0.722|TWO_SIDED|95.0|-6.16|11.34||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 16||11.34|-6.16|0.722
92164126|NCT04035668|184216444|SUPERIORITY||Mean Difference (Final Values)|-2.86||||0.241|TWO_SIDED|95.0|-10.96|5.24||one-sided p-value|MMRM|||Week 20|Difference (Any remibrutinib - Placebo)|5.24|-10.96|0.241
92222317|NCT01556425|184345789|SUPERIORITY||Odds Ratio (OR)|10.4||||0.03|TWO_SIDED|95.0|1.3|85.5|||General Estimating Equation (GEE)|||||85.5|1.3|0.03
92222318|NCT01556425|184345790|SUPERIORITY||Odds Ratio (OR)|0.36||||0.3|TWO_SIDED|95.0|0.1|2.4|||General Estimating Equation (GEE)|||||2.4|0.1|0.30
92164127|NCT04035668|184216444|SUPERIORITY||Mean Difference (Final Values)|2.95||||0.742|TWO_SIDED|95.0|-6.09|11.99||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 24||11.99|-6.09|0.742
92164128|NCT04035668|184216444|OTHER||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-8.28|7.91|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 2||7.91|-8.28|
92222319|NCT01556425|184345790|SUPERIORITY||Odds Ratio (OR)|0.2||||0.08|TWO_SIDED|95.0|0.03|1.2|||General Estimating Equation (GEE)|||||1.2|0.03|0.08
92164129|NCT04035668|184216444|OTHER||Mean Difference (Final Values)|-0.65|||||TWO_SIDED|95.0|-8.87|7.58|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 4||7.58|-8.87|
92222320|NCT01556425|184345790|SUPERIORITY||Odds Ratio (OR)|0.91||||0.91|TWO_SIDED|95.0|0.1|5.8|||General Estimating Equation (GEE)|||||5.8|0.1|0.91
92222321|NCT01556425|184345790|SUPERIORITY||Odds Ratio (OR)|2.47||||0.34|TWO_SIDED|95.0|0.4|15.8|||General Estimating Equation (GEE)|||||15.8|0.4|0.34
92222322|NCT01556425|184345790|SUPERIORITY||Odds Ratio (OR)|4.46||||0.09|TWO_SIDED|95.0|0.8|26.1|||General Estimating Equation (GEE)|||||26.1|0.8|0.09
92222323|NCT01783080|184345791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.4||||0.005|TWO_SIDED||||||Regression, Linear|||||||0.005
92222324|NCT01783080|184345793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.11|TWO_SIDED||||||Regression, Linear|||||||0.11
92222325|NCT05032157|184345813|SUPERIORITY||Mean Difference (Final Values)|-7.68|STANDARD_ERROR_OF_MEAN|1.136|<|0.001|TWO_SIDED|95.0|-9.91|-5.46|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, week, baseline score and both interaction of treatment by week and interaction of baseline score by week.|UAS7 at Week 12 (Scenario 1 with UAS7 as primary efficacy endpoint)||-5.46|-9.91|< 0.001
92222326|NCT05032157|184345814|SUPERIORITY||Mean Difference (Final Values)|-3.23|STANDARD_ERROR_OF_MEAN|0.545|<|0.001|TWO_SIDED|95.0|-4.29|-2.16|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti- IgE, biologics, week, baseline score, and both interaction of treatment by week and interaction of baseline score by week.|ISS7 at Week 12 (Scenario 2 with ISS7 and HSS7 as co-primary efficacy endpoints)||-2.16|-4.29|<0.001
92164130|NCT04035668|184216444|OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-9.28|9.48|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 8||9.48|-9.28|
92164131|NCT04035668|184216444|OTHER||Mean Difference (Final Values)|-4.4|||||TWO_SIDED|95.0|-14.71|5.9|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 12||5.90|-14.71|
92164132|NCT04035668|184216444|OTHER||Mean Difference (Final Values)|-12.1|||||TWO_SIDED|95.0|-22.47|-1.77|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 16||-1.77|-22.47|
92164133|NCT04035668|184216444|OTHER||Mean Difference (Final Values)|-6.25|||||TWO_SIDED|95.0|-16.0|3.5|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 20||3.50|-16.00|
92164134|NCT04035668|184216444|OTHER||Mean Difference (Final Values)|-8.1|||||TWO_SIDED|95.0|-19.16|2.96|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 24||2.96|-19.16|
92164135|NCT00004124|184216459|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.7|TWO_SIDED|95.0|0.79|1.43|||Regression, Cox|||||1.43|0.79|0.70
92164136|NCT00004124|184216460|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.8|1.27|||Regression, Cox|||||1.27|0.80|0.94
92164137|NCT03262935|184216484|SUPERIORITY||Hazard Ratio (HR)|0.6401|||=|0.002|TWO_SIDED|95.0|0.4885|0.8389||P-value from stratified log-rank test for median estimate of PFS: stratified according to the randomization stratification factors.|Log Rank|||A stratified Cox regression analysis was used to estimate the hazard ratio of PFS, along with 95% CIs. Stratification factors assigned at randomization were world region (Europe, Singapore, and North America), number of prior treatment lines for locally advanced or metastatic breast cancer (excluding hormone therapy) (1 to 2, \>2), and prior treatment with pertuzumab (yes, no).||0.8389|0.4885|=0.002
92222327|NCT05032157|184345815|SUPERIORITY||Mean Difference (Final Values)|-4.47|STANDARD_ERROR_OF_MEAN|0.634|<|0.001|TWO_SIDED|95.0|-5.71|-3.23|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti- IgE biologics, week, baseline score and both interaction of treatment by week and interaction of baseline score by week.|HSS7 at Week 12 (Scenario 2 with ISS7 and HSS7 as co-primary efficacy endpoints)||-3.23|-5.71|< 0.001
92222328|NCT05032157|184345816|SUPERIORITY||Odds Ratio (OR)|3.84|||<|0.001|TWO_SIDED|95.0|2.39|6.18|||Regression, Logistic||Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.|Disease activity control (UAS7 =\< 6) at Week 12||6.18|2.39|< 0.001
92222329|NCT05032157|184345817|SUPERIORITY||Odds Ratio (OR)|5.78|||<|0.001|TWO_SIDED|95.0|2.83|11.78|||Regression, Logistic||Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.|Complete absence of hives and itch (UAS7 = 0) at Week 12||11.78|2.83|< 0.001
92222330|NCT05032157|184345818|SUPERIORITY||Odds Ratio (OR)|7.92|||<|0.001|TWO_SIDED|95.0|3.72|16.85|||Regression, Logistic||Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.|Early onset of disease activity control (UAS7 =\< 6) at Week 2||16.85|3.72|< 0.001
92222331|NCT05032157|184345819|SUPERIORITY||Odds Ratio (OR)|2.75|||<|0.001|TWO_SIDED|95.0|1.65|4.58|||Regression, Logistic||Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics and baseline DLQI score.|Dermatology Life Quality Index (DLQI) = 0-1 at Week 12||4.58|1.65|< 0.001
92222332|NCT05032157|184345820|SUPERIORITY||Rate ratio|3.26|||<|0.001|TWO_SIDED|95.0|2.26|4.71|||Regression, Linear||Negative binomial regression with log link includes treatment arm as fixed effect, geographical region, prior exposure to anti-IgE biologics as covariates. A rate ratio \>1 favors LOU064 25 mg b.i.d.|Disease activity control (UAS7 =\< 6) up to Week 12||4.71|2.26|< 0.001
92222333|NCT05032157|184345821|SUPERIORITY||Rate ratio|1.32|||<|0.001|TWO_SIDED|95.0|1.17|1.49|||Regression, Linear||Negative binomial regression with log link included treatment arm as fixed effect, geographical region, prior exposure to anti-IgE biologics, baseline AAS7 = 0 response as covariates. A rate ratio \> 1 favors LOU064 25 mg b.i.d.|Angioedema occurrence-free weeks (AAS7 = 0 response) up to Week 12||1.49|1.17|< 0.001
92222334|NCT03036293|184345824|SUPERIORITY||Mean Difference (Final Values)|1.56||||0.0055|TWO_SIDED|98.33|0.217|2.91|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||2.91|0.217|0.0055
92222335|NCT03036293|184345824|SUPERIORITY||Mean Difference (Final Values)|2.56|||<|0.0001|TWO_SIDED|98.33|1.1|3.96|||ANCOVA|Baseline score used as covariate. Yeo-Johnson transformation with λ=1,09 was applied. Statistical inference performed for transformed values.|estimate and CL are backtransformed|Mean score differences (begin-end) were compared||3.96|1.1|<0.0001
92222336|NCT03036293|184345824|EQUIVALENCE|equivalence limits were prespecified as \[-2.763; 2.763\]|Mean Difference (Net)|0.89||||0.0008|TWO_SIDED|98.33|-0.64|2.33|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||2.33|-0.64|0.0008
92222337|NCT03036293|184345825|SUPERIORITY||Mean Difference (Net)|0.6||||0.08|TWO_SIDED|95.0|-0.08|1.54|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||1.54|-0.08|0.08
92222338|NCT03036293|184345825|SUPERIORITY||Mean Difference (Net)|0.76||||0.044|TWO_SIDED|95.0|0.02|1.66|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||1.66|0.02|0.044
92222339|NCT03036293|184345826|SUPERIORITY||Mean Difference (Net)|0.69||||0.21|TWO_SIDED|95.0|-0.4|1.78|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||1.78|-0.4|0.21
92222340|NCT03036293|184345826|SUPERIORITY||Mean Difference (Net)|1.19||||0.027|TWO_SIDED|95.0|0.14|2.26|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||2.26|0.14|0.027
92222341|NCT03036293|184345827|SUPERIORITY||Odds Ratio (OR)|1.36||||0.065|TWO_SIDED|95.0|0.98|1.89|||Cochran-Mantel-Haenszel||Bigger OR is better|Common OR of event analysis||1.89|0.98|0.065
92222342|NCT03036293|184345827|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0015|TWO_SIDED|95.0|1.22|2.33|||Cochran-Mantel-Haenszel||Bigger OR is better|Common OR of event analysis||2.33|1.22|0.0015
92222343|NCT03036293|184345827|SUPERIORITY|||||||0.7|||||||Fisher Exact|||Week 4 frequencies comparison||||0.7
92222344|NCT03036293|184345827|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 8 frequencies comparison||||1
92222345|NCT03036293|184345827|SUPERIORITY|||||||0.01|||||||Fisher Exact|||Week 12 frequencies comparison||||0.01
92222346|NCT03036293|184345827|SUPERIORITY|||||||0.57|||||||Fisher Exact|||Week 4 frequencies comparison||||0.57
92222347|NCT03036293|184345827|SUPERIORITY|||||||0.25|||||||Fisher Exact|||Week 8 frequencies comparison||||0.25
92222348|NCT03036293|184345827|SUPERIORITY|||||||0.001|||||||Fisher Exact|||Week 12 frequencies comparison||||0.001
92222349|NCT03036293|184345828|SUPERIORITY||Odds Ratio (OR)|0.88||||0.46|TWO_SIDED|95.0|0.64|1.23|||Cochran-Mantel-Haenszel||Bigger OR is better|Common OR of event analysis||1.23|0.64|0.46
92222350|NCT03036293|184345828|SUPERIORITY||Odds Ratio (OR)|1.27||||0.17|TWO_SIDED|95.0|0.9|1.79|||Cochran-Mantel-Haenszel||Bigger OR is better|Common OR of event analysis||1.79|0.9|0.17
92222351|NCT03036293|184345828|SUPERIORITY|||||||0.38|||||||Fisher Exact|||Week 4 frequencies comparison||||0.38
92222352|NCT03036293|184345828|SUPERIORITY|||||||0.67|||||||Fisher Exact|||Week 8 frequencies comparison||||0.67
92222353|NCT03036293|184345828|SUPERIORITY|||||||0.85|||||||Fisher Exact|||Week 12 frequencies comparison||||0.85
92222354|NCT03036293|184345828|SUPERIORITY|||||||0.71|||||||Fisher Exact|||Week 4 frequencies comparison||||0.71
92222355|NCT03036293|184345828|SUPERIORITY|||||||0.29|||||||Fisher Exact|||Week 8 frequencies comparison||||0.29
92222356|NCT03036293|184345828|SUPERIORITY|||||||0.007|||||||Fisher Exact|||Week 12 frequencies comparison||||0.007
92222357|NCT03036293|184345829|SUPERIORITY||Median Difference (Net)|0.00002||||0.314|TWO_SIDED|95.0|-0.00002|0.33|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator for location difference provided|Median changes (begin-end) within groups are compared||0.33|-0.00002|0.314
92222358|NCT03036293|184345829|SUPERIORITY||Median Difference (Net)|0.0||||0.031|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator for location difference provided|Median changes (begin-end) within groups are compared||1|0|0.031
92222359|NCT03036293|184345830|SUPERIORITY||Median Difference (Net)|-0.00001||||0.0021|TWO_SIDED|95.0|-3.0|-0.00001|||Wilcoxon (Mann-Whitney)||Lower is better|||-0.00001|-3|0.0021
92222360|NCT03036293|184345830|SUPERIORITY||Median Difference (Net)|-0.00002||||0.0056|TWO_SIDED|95.0|-1.0|-0.00002|||Wilcoxon (Mann-Whitney)||Lower is better|||-0.00002|-1|0.0056
92222361|NCT02049944|184345834|OTHER|we used t-test on the regression coefficient for the group indicator to test for differences in means categorical variables were evaluated using fisher's exact test of association linear regression for log transformed start adipose concentrations were calculated by dose specific group|Median Difference (Final Values)|80.0|||||TWO_SIDED|95.0|||||Fisher Exact|||To detect the number of subjects who obtained a minimal inhibitory concentration (\>4mg/ml) following increased 3g dose of cefazolin. Compare this number to the historical cohort who had received 2g of cefazolin (standard dosing)||||
92164138|NCT03262935|184216485|SUPERIORITY||Hazard Ratio (HR)|0.868|||=|0.236|TWO_SIDED|95.0|0.676|1.1145||P-value from stratified log-rank test for Kaplan-Meier estimate of median OS: stratified according to the randomization stratification factors.|Log Rank|||A stratified Cox regression analysis was used to estimate the hazard ratio of OS, along with 95% CIs. Stratification factors assigned at randomization were world region (Europe, Singapore, and North America), number of prior treatment lines for locally advanced or metastatic breast cancer (excluding hormone therapy) (1 to 2, \>2), and prior treatment with pertuzumab (yes, no).||1.1145|0.676|=0.236
92222362|NCT00631371|184345853|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.8|TWO_SIDED|95.0|0.9|1.3|||Log Rank|||P value was based on 1-sided stratified log-rank test (stratification factors: prior nephrectomy \[yes/no\] and Memorial Sloan Kettering Cancer Center \[MSKCC\] risk factors \[good/intermediate/poor\] at time of randomization). The hazard ratio and corresponding 95 percent (%) confidence interval (CI) from the stratified cox proportional hazard model were also presented.||1.3|0.9|0.8
92164139|NCT03262935|184216486|SUPERIORITY||||||=|0.732||||||P-value from Cochran-Mantel-Haenszel test including the randomization stratification factors.|Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel test (strata based on the baseline stratification factors) was used to compare the two treatment groups with respect to the ORR at two-sided 5% level of significance.||||=0.732
92164140|NCT03262935|184216487|SUPERIORITY||Hazard Ratio (HR)|0.5995|||<|0.001|TWO_SIDED|95.0|0.4666|0.7703||P-value from stratified log-rank test for median estimate of PFS: stratified according to the randomization stratification factors.|Log Rank|||A stratified Cox regression analysis was used to estimate the HR of PFS, along with the 95% CI. The treatment groups were compared using the 2-sided stratified log-rank test.||0.7703|0.4666|<0.001
92164141|NCT03262935|184216488|SUPERIORITY|||||||0.473|||||||MMRM|||The change from baseline in the global health status/QoL scale transformed score was analyzed using a mixed model repeated measurement (MMRM) approach.||||0.473
92164142|NCT00186186|184216589|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||||||<0.00001
92164143|NCT00186186|184216590|SUPERIORITY_OR_OTHER||Percentage|54.0|||||TWO_SIDED|||||||||||||
92164144|NCT03622580|184216592|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in adjusted means for the faricimab 6 mg Q8W and the active comparator (aflibercept 2 mg Q8W) arms was greater than -4 letters, then faricimab 6 mg Q8W was considered non-inferior to aflibercept 2 mg Q8W. Non-inferiority was tested one-sided at a significance level of α = 0.0248.|Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.79|||TWO_SIDED|97.5|-2.0|1.6|||||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the non-inferiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||1.6|-2.0|
92164145|NCT03622580|184216592|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in adjusted means for the faricimab 6 mg PTI and the active comparator (aflibercept 2 mg Q8W) arms was greater than -4 letters, then faricimab 6 mg PTI was considered non-inferior to aflibercept 2 mg Q8W. Non-inferiority was tested one-sided at a significance level of α = 0.0248.|Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.79|||TWO_SIDED|97.5|-1.1|2.5|||||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the non-inferiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||2.5|-1.1|
92164146|NCT03622580|184216592|SUPERIORITY||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.95||0.4699|TWO_SIDED|97.5|-2.8|1.4||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||1.4|-2.8|0.4699
92222363|NCT00631371|184345854|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.9|TWO_SIDED|95.0|1.0|1.4|||Log Rank|||P-value was based on 1-sided stratified log-rank test (stratification factors: prior nephrectomy \[yes/no\] and MSKCC risk factors \[good/intermediate/poor\] at time of randomization). The hazard ratio and corresponding 95% CI from the stratified cox proportional hazard model were also presented.||1.4|1.0|0.9
92405705|NCT00999102|184701651|SUPERIORITY||Mean Difference (Final Values)|-25.9||||0.43|TWO_SIDED|95.0|-91.55|39.75|||t-test, 2 sided|Paired t-test was performed since each participant received both interventions in a crossover design.|Direction of Comparison: Mean Treadmill Exercise Time for Nebivolol 10 mg minus Mean Treadmill Exercise Time for Metoprolol 100 mg.|The null hypothesis is that there is no difference in Treadmill Exercise Time after 4 weeks of Nebivolol 10 mg (higher dose) vs. 4 weeks of Metoprolol 100 mg (higher dose).||39.75|-91.55|0.43
92164147|NCT03622580|184216592|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.94||0.965|TWO_SIDED|97.5|-2.1|2.2||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||2.2|-2.1|0.9650
92222364|NCT00631371|184345855|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.8|1.3|||Cochran-Mantel-Haenszel|||P-value (2-sided), risk ratio and associated 95% CI were based on Cochran-Mantel-Haenszel test stratified by prior nephrectomy and MSKCC risk group as randomized.||1.3|0.8|1.0
92222365|NCT00631371|184345856|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.6|TWO_SIDED|95.0|0.9|1.3|||Log Rank|||P value was based on 1-sided stratified log-rank test (stratification factors: prior nephrectomy \[yes/no\] and MSKCC risk factors \[good/intermediate/poor\] at time of randomization). The hazard ratio and corresponding 95% CI from the stratified cox proportional hazard model were also presented.||1.3|0.9|0.6
92222366|NCT03325673|184345858|SUPERIORITY|||||||0.116|||||||Independent t-test|||||||0.116
92222367|NCT03325673|184345859|SUPERIORITY|||||||0.468|||||||t-test, 2 sided|||Insertion||||0.468
92222368|NCT03325673|184345859|SUPERIORITY|||||||0.235|||||||t-test, 2 sided|||After 2 hours||||0.235
92222369|NCT03325673|184345859|SUPERIORITY|||||||0.152|||||||t-test, 2 sided|||End of Day||||0.152
92222370|NCT03325673|184345860|SUPERIORITY|||||||0.488|||||||t-test, 2 sided|||||||0.488
92222371|NCT03325673|184345861|SUPERIORITY|||||||0.072|||||||t-test, 2 sided|||||||0.072
92222372|NCT01602692|184345862|OTHER|||||||0.24|||||||ANOVA|||End of PACU Mean Pain Level p-value between arms||||0.24
92222373|NCT01602692|184345862|OTHER|||||||0.76|||||||ANOVA|||First 24 hrs Post-op Mean Current Pain p-value between arms||||0.76
92222374|NCT01602692|184345862|OTHER|||||||0.78|||||||ANOVA|||First 24 hrs Post-op Mean Worst Pain p-value between arms||||0.78
92222375|NCT01602692|184345862|OTHER|||||||0.41|||||||ANOVA|||First 24 hrs Post-op Mean Least Pain p-value between arms||||0.41
92357448|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of the sharp pain of the vulva depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.4613|||||||Chi-squared|||Parameter: The difference in the incidence of the sharp (fast) pain of the vulva (knife-like pain, paper-cuts pain, stabbing, sticking) depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.4613
92222376|NCT01602692|184345863|OTHER|||||||0.1|||||||ANOVA|||PACU IV hydromorphone p-value between arms||||0.10
92222377|NCT01602692|184345863|OTHER|||||||0.71|||||||ANOVA|||First 24 hr Post-op oxycodone p-value between arms||||0.71
92357449|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar knife-like pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.0331|||||||Chi-squared, Corrected|||Parameter: The incidence of the vulvar knife-like pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.0331
92222378|NCT01780831|184345879|OTHER|Point and 90% CI estimates of percentage Cohort 1 infants who died or had grade 3/4 AE through 6 weeks of life.|Clopper-Pearson Confidence Interval (CI)|25.0|||||TWO_SIDED|90.0|9.0|48.4||||||||48.4|9|
92222379|NCT01780831|184345879|OTHER|Point and 90% CI estimates of percentage Cohort 2 infants who died or had grade 3/4 AE through 6 weeks of life.|Clopper-Pearson Confidence Interval (CI)|31.0|||||TWO_SIDED|90.0|18.7|46.6||||||||46.6|18.7|
92222380|NCT01780831|184345886|OTHER|Point and 90% CI estimates of percentage Cohort 1 infants who died or had grade 3/4 AE through 24 weeks of life.|Clopper-Pearson Confidence Interval (CI)|25.0|||||TWO_SIDED|90.0|9.0|48.4||||||||48.4|9|
92222381|NCT01780831|184345886|OTHER|Point and 90% CI estimates of percentage Cohort 2 infants who died or had grade 3/4 AE through 24 weeks of life.|Clopper-Pearson Confidence Interval (CI)|43.0|||||TWO_SIDED|90.0|28.6|58.1||||||||58.1|28.6|
92222382|NCT01780831|184345887|OTHER|Point and 90% CI estimates of percentage Cohort 1 infants who died or had SADR of Grade 3 or 4 through 6 weeks of life.|Clopper-Pearson Confidence Interval (CI|6.0|||||TWO_SIDED|90.0|0.3|26.4||||||||26.4|0.3|
92222383|NCT01780831|184345887|OTHER|Point and 90% CI estimates of percentage Cohort 2 infants who died or had SADR of Grade 3 or 4 through 6 weeks of life.|Clopper-Pearson Confidence Interval (CI)|0.0|||||TWO_SIDED||||||||CI is not provided since the estimation parameter is 0.|||||
92222384|NCT01780831|184345888|OTHER|Point and 90% CI estimates of percentage Cohort 1 infants who died or had SADR of Grade 3 or 4 through 24 weeks of life.|Clopper-Pearson Confidence Interval (CI)|6.0|||||TWO_SIDED|90.0|0.3|26.4||||||||26.4|0.3|
92222385|NCT01780831|184345888|OTHER|Point and 90% CI estimates of percentage Cohort 2 infants who died or had SADR of Grade 3 or 4 through 24 weeks of life.|Clopper-Pearson Confidence Interval (CI)|0.0|||||TWO_SIDED||||||||CI is not provided since the estimation parameter is 0.|||||
92222386|NCT01780831|184345889|OTHER|||||||0.298|||||||Wilcoxon (Mann-Whitney)|||||||0.298
92222387|NCT01780831|184345890|OTHER|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
92222388|NCT01780831|184345891|OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||||||0.98
92222389|NCT00983983|184345903|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Mixed Models Analysis|||Change over time in the ALSFRS-R was analyzed using random-slopes models||||0.07
92222390|NCT00983983|184345905|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Fisher Exact|||||||0.06
92222391|NCT00983983|184345906|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Fisher Exact|||||||0.0005
92222392|NCT00983983|184345907|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Fisher Exact|||||||0.03
92222393|NCT02599961|184345917|SUPERIORITY||LS Mean|-82.73|STANDARD_ERROR_OF_MEAN|11.363|<|0.0001|TWO_SIDED|95.0|-105.0|-60.46||From the GEE model which includes the reduction from baseline for each visit period as the response variable, baseline as covariates, visit period as a factor, identity link function and exchangeable within subject working correlation matrix.|generalized estimating equation (GEE)|||Month 0-3||-60.46|-105.00|< 0.0001
92222394|NCT02599961|184345917|SUPERIORITY||LS mean|-54.91|STANDARD_ERROR_OF_MEAN|16.097||0.0006|TWO_SIDED|95.0|-86.46|-23.36||From the GEE model which includes the reduction from baseline for each visit period as the response variable, baseline as covariates, visit period as a factor, identity link function and exchangeable within subject working correlation matrix.|GEE model|||Month 4-6||-23.36|-86.46|0.0006
92222395|NCT02599961|184345917|SUPERIORITY||LS Mean|-52.53|STANDARD_ERROR_OF_MEAN|16.882||0.0019|TWO_SIDED|95.0|-85.62|-19.45||From the GEE model which includes the reduction from baseline for each visit period as the response variable, baseline as covariates, visit period as a factor, identity link function and exchangeable within subject working correlation matrix.|GEE model|||Month 7-9||-19.45|-85.62|0.0019
92222396|NCT02599961|184345917|SUPERIORITY||LS Mean|-82.65|STANDARD_ERROR_OF_MEAN|15.55|<|0.0001|TWO_SIDED|95.0|-113.13|-52.17||From the GEE model which includes the reduction from baseline for each visit period as the response variable, baseline as covariates, visit period as a factor, identity link function and exchangeable within subject working correlation matrix.|GEE model|||Month 10-12||-52.17|-113.13|< 0.0001
92222397|NCT01857869|184345923|OTHER||1-Relative Risk|86.7|||<|0.0001|TWO_SIDED|95.0|66.8|94.6||Two-sided Fisher Exact test was used for the comparison of malaria incidence after first/second CHMI between the compared groups.|Mantel Haenszel|||Vaccine efficacy (VE) was defined as 100\*(1-Relative Risk \[RR\]).||94.6|66.8|<0.0001
92222398|NCT01857869|184345923|OTHER||1-Relative Risk|62.5||||0.0009|TWO_SIDED|95.0|29.4|80.1||Two-sided Fisher Exact test was used for the comparison of malaria incidence after first/second CHMI between the compared groups.|Mantel Haenszel|||Vaccine efficacy (VE) was defined as 100\*(1-Relative Risk \[RR\]).||80.1|29.4|0.0009
92164148|NCT03622580|184216592|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.79||0.7967|TWO_SIDED|97.5|-2.0|1.6||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||1.6|-2.0|0.7967
92164149|NCT03622580|184216592|SUPERIORITY||Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.79||0.3772|TWO_SIDED|97.5|-1.1|2.5||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||2.5|-1.1|0.3772
92164150|NCT03622580|184216593|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in CMH weighted percentages of participants for the faricimab 6 mg Q8W and the active comparator (aflibercept 2 mg Q8W) arms was greater than -10%, then faricimab 6 mg Q8W was considered non-inferior to aflibercept 2 mg Q8W.|Difference in CMH Weighted Percentage|10.2|||||TWO_SIDED|97.5|0.3|20.0||||||The analysis presented here is for the non-inferiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||20.0|0.3|
92222399|NCT03341962|184345951|SUPERIORITY||Odds Ratio (OR)|1.0188||||0.5836|TWO_SIDED||||||Cochran-Mantel-Haenszel|1-sided exact test adjusted for stratification factors (prior use of any biologics and concurrent use of corticosteroids), α=0.097||||||0.5836
92222400|NCT03016325|184346003|SUPERIORITY|Part I, clinically relevant hypotension - relative risk|Relative risk from placebo|2.45|||||TWO_SIDED|95.0|0.83|14.53||||||||14.53|0.83|
92222401|NCT03016325|184346003|SUPERIORITY|Part I, clinically relevant hypotension - relative difference|Relative difference from placebo|0.12|||||TWO_SIDED|95.0|-0.02|0.28||||||||0.28|-0.02|
92222402|NCT03016325|184346003|SUPERIORITY|Part I, symptoms of hypotension - relative risk|Relative risk from placebo|2.94|||||TWO_SIDED|95.0|0.31|75.47||||||||75.47|0.31|
92222403|NCT03016325|184346003|SUPERIORITY|Part I, symptoms of hypotension - relative difference|Relative difference from placebo|0.04|||||TWO_SIDED|95.0|-0.06|0.15||||||||0.15|-0.06|
92222404|NCT03016325|184346003|SUPERIORITY|Part I, confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|3.27|||||TWO_SIDED|95.0|1.01|14.66||||||||14.66|1.01|
92405706|NCT01929317|184701662|SUPERIORITY_OR_OTHER||Mean change from Baseline|-4.8|||<|0.001|TWO_SIDED|95.0|-6.3|-3.2|||t-test, 1 sided|||||-3.2|-6.3|<0.001
92222405|NCT03016325|184346003|SUPERIORITY|Part I, confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.14|||||TWO_SIDED|95.0|0.0|0.29||||||||0.29|0.00|
92222406|NCT03016325|184346003|SUPERIORITY|Part II (low dose), clinically relevant hypotension - relative risk|Relative risk from placebo|1.15|||||TWO_SIDED|95.0|0.58|2.43||||||||2.43|0.58|
92222407|NCT03016325|184346003|SUPERIORITY|Part II (low dose), clinically relevant hypotension - relative difference|Relative difference from placebo|0.03|||||TWO_SIDED|95.0|-0.11|0.16||||||||0.16|-0.11|
92222408|NCT03016325|184346003|SUPERIORITY|Part II (low dose), symptoms of hypotension - relative risk|Relative risk from placebo|2.0|||||TWO_SIDED|95.0|0.18|54.35||||||||54.35|0.18|
92222409|NCT03016325|184346003|SUPERIORITY|Part II (low dose), symptoms of hypotension - relative difference|Relative difference from placebo|0.01|||||TWO_SIDED|95.0|-0.05|0.09||||||||0.09|-0.05|
92222410|NCT03016325|184346003|SUPERIORITY|Part II (low dose), confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|1.15|||||TWO_SIDED|95.0|0.58|2.43||||||||2.43|0.58|
92222411|NCT03016325|184346003|SUPERIORITY|Part II (low dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.03|||||TWO_SIDED|95.0|-0.11|0.16||||||||0.16|-0.11|
92222412|NCT03016325|184346003|SUPERIORITY|Part II (high dose), clinically relevant hypotension - relative risk|Relative risk from placebo|1.9|||||TWO_SIDED|95.0|1.04|3.59||||||||3.59|1.04|
92222413|NCT03016325|184346003|SUPERIORITY|Part II (high dose), clinically relevant hypotension - relative difference|Relative difference from placebo|0.16|||||TWO_SIDED|95.0|0.01|0.31||||||||0.31|0.01|
92222414|NCT03016325|184346003|SUPERIORITY|Part II (high dose), symptoms of hypotension - relative risk|Relative risk from placebo|5.92|||||TWO_SIDED|95.0|0.91|149.72||||||||149.72|0.91|
92222415|NCT03016325|184346003|SUPERIORITY|Part II (high dose), symptoms of hypotension - relative difference|Relative difference from placebo|0.07|||||TWO_SIDED|95.0|-0.01|0.16||||||||0.16|-0.01|
92222416|NCT03016325|184346003|SUPERIORITY|Part II (high dose), confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|1.59|||||TWO_SIDED|95.0|0.87|3.21||||||||3.21|0.87|
92222417|NCT03016325|184346003|SUPERIORITY|Part II (high dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.11|||||TWO_SIDED|95.0|-0.04|0.25||||||||0.25|-0.04|
92222418|NCT03016325|184346003|SUPERIORITY|Part II-Japan (low dose), clinically relevant hypotension - relative difference|Relative difference from placebo|0.33|||||TWO_SIDED|95.0|-0.17|0.78||||||||0.78|-0.17|
92222419|NCT03016325|184346003|SUPERIORITY|Part II-Japan (low dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.33|||||TWO_SIDED|95.0|-0.17|0.78||||||||0.78|-0.17|
92222420|NCT03016325|184346003|SUPERIORITY|Part II-Japan (high dose), clinically relevant hypotension - relative difference|Relative difference from placebo|0.5|||||TWO_SIDED|95.0|-0.04|0.88||||||||0.88|-0.04|
92222421|NCT03016325|184346003|SUPERIORITY|Part II-Japan (high dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.5|||||TWO_SIDED|95.0|-0.04|0.88||||||||0.88|-0.04|
92222422|NCT03016325|184346006|SUPERIORITY|Part I, symptoms of hypotension - relative risk|Relative risk from placebo|2.94|||||TWO_SIDED|95.0|0.31|75.47||||||||75.47|0.31|
92222423|NCT03016325|184346006|SUPERIORITY|Part I, symptoms of hypotension - relative difference|Relative difference from placebo|0.04|||||TWO_SIDED|95.0|-0.06|0.15||||||||0.15|-0.06|
92222424|NCT03016325|184346006|SUPERIORITY|Part II (low dose), symptoms of hypotension - relative risk|Relative risk from placebo|2.0|||||TWO_SIDED|95.0|0.18|54.35||||||||54.35|0.18|
92405707|NCT01929317|184701663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.4|2.0|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part III total score for Week 2.|||2.0|-2.4|
92222425|NCT03016325|184346006|SUPERIORITY|Part II (low dose), symptoms of hypotension - relative difference|Relative difference from placebo|0.01|||||TWO_SIDED|95.0|-0.05|0.09||||||||0.09|-0.05|
92222426|NCT03016325|184346006|SUPERIORITY|Part II (high dose), symptoms of hypotension - relative risk|Relative risk from placebo|5.92|||||TWO_SIDED|95.0|0.91|149.72||||||||149.72|0.91|
92357450|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar paper-cuts pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.9402|||||||Chi-squared|||Parameter: The incidence of the vulvar paper-cuts pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.9402
92357451|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar pain like stabbing depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.9139|||||||Chi-squared|||Parameter: The incidence of vulvar pain like stabbing depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.9139
92357452|NCT02732145|184619259|SUPERIORITY|Question: Is there a difference in the incidence of vulvar pain like sticking depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.8925|||||||Chi-squared|||Parameter: The incidence of the vulvar pain like sticking depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.8925
92357453|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar complaints depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of vulvar complaints depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0000
92357454|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of symptoms of the dull pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.6921|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the dull (slow) pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.6921
92357455|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar burning on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.1848|||||||Chi-squared|||Parameter: The incidence of vulvar burning depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.1848
92357456|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.9048|||||||Chi-squared|||Parameter: The incidence of vulvar stinging depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.9048
92357457|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar soreness depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.3953|||||||Chi-squared|||Parameter: The incidence of vulvar soreness depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.3953
92357458|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar irritation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.0921|||||||Chi-squared|||Parameter: The incidence of vulvar irritation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0921
92357459|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.6734|||||||Chi-squared|||Parameter: The incidence of vulvar itching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.6734
92357460|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of the feeling of vulvar inflammation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.3458|||||||Chi-squared|||Parameter: The incidence of the feeling of vulvar inflammation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.3458
92357461|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.5304|||||||Chi-squared|||Parameter: The incidence of vulvar aching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.5304
92405708|NCT01929317|184701663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-1.9|3.1|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part III total score for Week 4.|||3.1|-1.9|
92222427|NCT03016325|184346006|SUPERIORITY|Part II (high dose), symptoms of hypotension - relative difference|Relative difference from placebo|0.07|||||TWO_SIDED|95.0|-0.01|0.16||||||||0.16|-0.01|
92222428|NCT03016325|184346007|SUPERIORITY|Part I, confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|3.27|||||TWO_SIDED|95.0|1.01|14.66||||||||14.66|1.01|
92222429|NCT03016325|184346007|SUPERIORITY|Part I, confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.14|||||TWO_SIDED|95.0|0.0|0.29||||||||0.29|0.00|
92222430|NCT03016325|184346007|SUPERIORITY|Part II (low dose), confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|1.15|||||TWO_SIDED|95.0|0.58|2.43||||||||2.43|0.58|
92222431|NCT03016325|184346007|SUPERIORITY|Part II (low dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.03|||||TWO_SIDED|95.0|-0.11|0.16||||||||0.16|-0.11|
92222432|NCT03016325|184346007|SUPERIORITY|Part II (high dose), confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|1.59|||||TWO_SIDED|95.0|0.87|3.21||||||||3.21|0.87|
92357462|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of symptoms of the sharp pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.0012|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the sharp (fast) pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0012
92405709|NCT01929317|184701663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-2.3|3.0|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part III total score for Week 6.|||3.0|-2.3|
92222433|NCT03016325|184346007|SUPERIORITY|Part II (high dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.11|||||TWO_SIDED|95.0|-0.04|0.25||||||||0.25|-0.04|
92222434|NCT03016325|184346007|SUPERIORITY|Part II-Japan (low dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.33|||||TWO_SIDED|95.0|-0.17|0.78||||||||0.78|-0.17|
92222435|NCT03016325|184346007|SUPERIORITY|Part II-Japan (high dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.5|||||TWO_SIDED|95.0|-0.04|0.88||||||||0.88|-0.04|
92222436|NCT01087905|184346041|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.076|TWO_SIDED|95.0|0.98|1.61|||Regression, Logistic|||"Null hypothesis: No difference in abstinence rates for participants receiving Two Weeks of Nicotine Replacement Therapy (NRT) versus Six Weeks of Nicotine Replacement Therapy (NRT). We hypothesized that Six Weeks of NRT would result in statistically significantly higher abstinence rates compared to Two Weeks of NRT.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention (e.g., 6 wks NRT)."||1.61|0.98|.076
92357463|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar knife-like pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.0002|||||||Chi-squared|||Parameter: The incidence of vulvar knife-like pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0002
92357464|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar paper-cuts pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.0218|||||||Chi-squared, Corrected|||Parameter: The incidence of vulvar paper-cuts pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0218
92357465|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar pain like stabbing depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.0297|||||||Chi-squared|||Parameter: The incidence of vulvar pain like stabbing depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0297
92357466|NCT02732145|184619260|SUPERIORITY|Question: Is there a difference in the incidence of vulvar pain like sticking depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.6468|||||||Chi-squared|||Parameter: The incidence of vulvar pain like sticking depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.6468
92357467|NCT02732145|184619261|SUPERIORITY|Question: Is there a difference in the incidence of the finding of inflammatory infiltrates in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.2045|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of inflammatory infiltrates in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort.||||0.2045
92357468|NCT02732145|184619261|SUPERIORITY|Question: Is there a difference in the incidence of the finding of mononuclear inflammatory infiltrates in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.7469|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of mononuclear inflammatory infiltrates in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort.||||0.7469
92357469|NCT02732145|184619261|SUPERIORITY|Question: Is there a difference in the incidence of the finding of lymphocytes in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.4271|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of lymphocytes in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort.||||0.4271
92222437|NCT01087905|184346041|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.017|TWO_SIDED|95.0|1.06|1.75|||Regression, Logistic|||"Null hypothesis: No difference in abstinence rates for participants receiving NRT Monotherapy (Nicotine Patch Only) versus NRT Combination Therapy (Nicotine Patch plus Nicotine Gum). We hypothesized that Combination NRT would result in statistically significantly higher abstinence rates compared to NRT Monotherapy.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention (e.g., Combination NRT)."||1.75|1.06|.017
92222438|NCT01087905|184346041|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.343|TWO_SIDED|95.0|0.69|1.14|||Regression, Logistic|||"Null hypothesis: No difference in abstinence rates for participants receiving Standard Cessation Counseling (No CMAC) versus Standard Cessation Counseling plus CMAC. We hypothesized that Standard Counseling plus CMAC would result in statistically significantly higher abstinence rates compared to Standard Counseling Only.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention (e.g., Standard Counseling plus CMAC)."||1.14|0.69|.343
92222439|NCT01087905|184346042|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.029|TWO_SIDED|95.0|1.04|2.14|||Regression, Logistic||Inclusion of the Cognitive Medication Adherence Counseling (CMAC) factor (No CMAC versus CMAC) as a control variable did not change the results of this analysis.|"Null hypothesis: No difference in abstinence rates for participants receiving Two Weeks of Nicotine Replacement Therapy (NRT) Monotherapy (Nicotine Patch Only) versus Two Weeks of Combination NRT (Patch+Gum). We hypothesized that Two Weeks of Combination NRT would result in statistically significantly higher abstinence rates compared to Two Weeks of NRT Monotherapy.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention."||2.14|1.04|.029
92227133|NCT01235962|184356474|SUPERIORITY||Mean Difference (36M DFS FU - UI)|0.01||||0.49|TWO_SIDED|95.0|-0.018|0.037|||analysis of covariance|adjusted for baseline score using mixed-model||||0.037|-0.018|0.490
92227134|NCT01235962|184356474|SUPERIORITY||Mean Difference (48M DFS FU - UI)|-0.009||||0.58|TWO_SIDED|95.0|-0.043|0.024|||analysis of covariance|adjusted for baseline score using mixed-model||||0.024|-0.043|0.580
92227135|NCT01235962|184356474|SUPERIORITY||Mean Difference (54M DFS FU - UI)|0.017||||0.473|TWO_SIDED|95.0|-0.029|0.063|||analysis of covariance|adjusted for baseline score using mixed-model||||0.063|-0.029|0.473
92227136|NCT01235962|184356475|SUPERIORITY||Mean Difference (Week 52)|-3.536|||<|0.001|TWO_SIDED|95.0|-4.466|-2.606|||analysis of covariance|adjusted for baseline score using mixed-model||||-2.606|-4.466|<.001
92227137|NCT01235962|184356475|SUPERIORITY||Mean difference (24M DFS FU)|-0.102||||0.812|TWO_SIDED|95.0|-0.942|0.738|||analysis of covariance|adjusted for baseline score using mixed-model||||0.738|-0.942|0.812
92222440|NCT01087905|184346042|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.079|TWO_SIDED|95.0|0.96|1.97|||Regression, Logistic||Inclusion of the Cognitive Medication Adherence Counseling (CMAC) factor (No CMAC versus CMAC) as a control variable did not change the results of this analysis.|"Null hypothesis: No difference in abstinence rates for participants receiving Two Weeks of Nicotine Replacement Therapy (NRT) Monotherapy (Nicotine Patch Only) versus SIx Weeks of NRT Monotherapy. We hypothesized that Six Weeks of NRT Monotherapy would result in statistically significantly higher abstinence rates compared to Two Weeks of NRT Monotherapy.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention."||1.97|0.96|.079
92357470|NCT02732145|184619261|SUPERIORITY|Question: Is there a difference in the incidence of the finding of collagen fibers in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.3607|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of collagen fibers in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort.||||0.3607
92357471|NCT02732145|184619261|SUPERIORITY|Question: Is there a difference in the incidence of the finding of hyalinization in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.8672|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of hyalinization in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort.||||0.8672
92357472|NCT02732145|184619262|SUPERIORITY|Question: Is there a difference in the incidence of the finding of inflammatory infiltrates in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.0045|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of inflammatory infiltrates in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.0045
92357473|NCT02732145|184619262|SUPERIORITY|Question: Is there a difference in the incidence of the finding of mononuclear inflammatory infiltrates in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.0032|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of mononuclear inflammatory infiltrates in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.0032
92357474|NCT02732145|184619262|SUPERIORITY|Question: Is there a difference in the incidence of the finding of collagen fibers in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.1067|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of collagen fibers in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.1067
92357475|NCT02732145|184619262|SUPERIORITY|Question: Is there a difference in the incidence of inflammatory cells in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.8672|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of hyalinization in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.8672
92357476|NCT02732145|184619262|SUPERIORITY|Question: Is there a difference in the incidence of blood vessels in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.0219|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of blood vessels in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.0219
92357477|NCT02732145|184619262|SUPERIORITY|Question: Is there a difference in the incidence of sebaceous glands in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.8213|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of sebaceous glands in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.8213
92357478|NCT02732145|184619262|SUPERIORITY|Question: Is there a difference in the incidence of the finding of nerve fibers in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.0613|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of nerve fibers in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.0613
92357479|NCT04204902|184619271|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90 percentage Confidence Interval (CI) as 80.00 percentage - 125.00 percentage|Ratio of Geometric Least Square Mean|91.15|||||TWO_SIDED|90.0|83.21|99.84||||||||99.84|83.21|
92357480|NCT04204902|184619272|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90 percentage Confidence Interval (CI) as 80.00 percentage - 125.00 percentage|Ratio of Geometric Least square Mean|90.92|||||TWO_SIDED|90.0|82.99|99.61||||||||99.61|82.99|
92357481|NCT04204902|184619273|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90 percentage Confidence Interval (CI) as 80.00 percentage - 125.00 percentage|Ratio of Geometric Least Square Mean|104.62|||||TWO_SIDED|90.0|95.17|115.0||||||||115.00|95.17|
92369483|NCT00281099|184643809|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||||95.0|1.31|1.858|||Andersen-Gill model|This model was fit to account for multiple events (i.e. days in which non-VT/VF detected by device as VT/VF) within subject.|Because of the possible correlation within a subject for days with episodes, a subsequent analysis was done using a bootstrap confidence interval for the annualized rate of episodes per patient month.|The pre-specified analysis called for a comparison of the hazard rates of inappropriately detected non-VT/VF between the two arms by way of a one-sided 95% confidence interval on the hazard ratio (MVP in numerator) after fitting a model. The unit of time was days, not episodes, so the analysis did not account for multiple episodes on the same day. If the upper bound was less than 1, the null hypothesis of equal hazard rates would be rejected.||1.858|1.310|
92369484|NCT00281099|184643809|SUPERIORITY_OR_OTHER||Difference in Annualized Rates|0.017||||||95.0|0.017|0.036|||Bootstrap Confidence Interval|||A 95% one-sided bootstrap confidence interval was generated for the MVP - VVI 40 difference in annualized rates of inappropriately detected non-VT/VF per patient month. If the interval upper bound was less than 0, the null hypothesis of equal rates would be rejected.||0.036|0.017|
92405710|NCT01929317|184701663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-3.4|2.0|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part III total score for Week 8.|||2.0|-3.4|
92276584|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.87||||0.0287|TWO_SIDED|95.0|-3.54|-0.19|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.19|-3.54|0.0287
92357482|NCT05273437|184619280|OTHER|We conducted a Bayesian Regression for all available participants, then visualized the results. (N x 16 table, N: number of participants).|Credibility interval|80.0|||||TWO_SIDED||||||Bayesian Regression|We explicitly sought 80% credibility of at least 100 steps more within the 3-hour increment in comparison to the intervention.|We decided that 100 steps/3 hours is the minimum value of the MAP intervention effect estimate and that an INUS condition is valid only if there is at least an 80% chance of achieving an effect beyond 100 steps/3 hours.|We hypothesized that some individuals have their own time and decision-policy-specific response pattern regardless of day elapsed since the beginning of the intervention. We did not hypothesize the direction of the effect variation.|The decision point was the unit of analysis. For the Bayesian Regression, we used Markov Chain Monte Carlo (MCMC). Four sampling chains were used when performing Bayesian modeling. The number of estimation samples and target acceptance rate were gradually increased until numerical stability was achieved. The number of estimation samples was increased by multiplied by 2, as advised by previous literature, depending on the ratio of convergence diagnostics R̂ \> 1.1. We used 100 steps increase during 3 hours as the effect threshold value. We assumed that there is an effect only if the estimated effect is more than 80% probable (i.e., the credibility interval is over 100 steps/3 hours) and the Maximum A Posteriori Point (MAP) of the effect is more than 100 steps/3 hours. Otherwise, there is no effect. Among the models with effects, we clipped to 1000 steps/3hours as a maximum if the MAP was greater than 1000 steps/3 hours.|||
92357483|NCT03647137|184619281|OTHER||Standardized β Coefficient|-2.256||||0.00468|TWO_SIDED|||||The p-value is derived from model comparison between the FEOVB model and the FEOVB\*PIB interaction model.|ChiSq Goodness of Fit Test|||L-DOPA sensitivity outcome measure was modeled with 3-level hierarchical ordinal logistic regression. The null model contained only striatal DTBZ as predictor of group, the FEOVB model additionally had FEOVB tracer, and interaction model had in addition an interaction term between FEOVB and PIB tracer. Model comparisons were performed using Chi-Square goodness of fit test.||||0.00468
92357484|NCT03900650|184619286|OTHER||Mean Difference (Final Values)|7.32|||<|0.01|TWO_SIDED||||||ANOVA|||||||<.01
92405711|NCT01929317|184701663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-2.0|3.9|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part III total score for Week 12.|||3.9|-2.0|
92357485|NCT03900650|184619287|OTHER||Mean Difference (Final Values)|0.377||||0.77|TWO_SIDED|||||This p-value tests the effect of the study arms on number of sex events.|ANOVA|||||||.770
92164151|NCT03622580|184216593|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in CMH weighted percentages of participants for the faricimab 6 mg PTI and the active comparator (aflibercept 2 mg Q8W) arms was greater than -10%, then faricimab 6 mg PTI was considered non-inferior to aflibercept 2 mg Q8W.|Difference in CMH Weighted Percentage|6.1|||||TWO_SIDED|97.5|-3.6|15.8||||||The analysis presented here is for the non-inferiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||15.8|-3.6|
92357486|NCT00829868|184619288|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|109.0||||||90.0|99.3|120.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||120|99.3|
92405712|NCT01929317|184701665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.2|0.3|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 1 total score for Week 2.|||0.3|-0.2|
92164152|NCT03622580|184216593|SUPERIORITY||Difference in CMH Weighted Percentage|7.2||||0.1761|TWO_SIDED|97.5|-4.6|18.9||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||18.9|-4.6|0.1761
92164153|NCT03622580|184216593|SUPERIORITY||Difference in CMH Weighted Percentage|4.8||||0.3539|TWO_SIDED|97.5|-6.7|16.3||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||16.3|-6.7|0.3539
92164154|NCT03622580|184216593|SUPERIORITY||Difference in CMH Weighted Percentage|10.2||||0.0237|TWO_SIDED|97.5|0.3|20.0||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||20.0|0.3|0.0237
92164155|NCT03622580|184216593|SUPERIORITY||Difference in CMH Weighted Percentage|6.1||||0.1677|TWO_SIDED|97.5|-3.6|15.8||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||15.8|-3.6|0.1677
92164156|NCT03622580|184216596|OTHER||Difference in CMH Weighted Percentage|-2.6|||||TWO_SIDED|95.0|-10.0|4.9||||||This is the difference in percentage of participants gaining ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||4.9|-10.0|
92164157|NCT03622580|184216596|OTHER||Difference in CMH Weighted Percentage|3.5|||||TWO_SIDED|95.0|-4.0|11.1||||||This is the difference in percentage of participants gaining ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||11.1|-4.0|
92164158|NCT03622580|184216596|OTHER||Difference in CMH Weighted Percentage|-0.4|||||TWO_SIDED|95.0|-8.6|7.9||||||This is the difference in percentage of participants gaining ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||7.9|-8.6|
92164159|NCT03622580|184216596|OTHER||Difference in CMH Weighted Percentage|0.7|||||TWO_SIDED|95.0|-7.4|8.8||||||This is the difference in percentage of participants gaining ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||8.8|-7.4|
92164160|NCT03622580|184216596|OTHER||Difference in CMH Weighted Percentage|-2.5|||||TWO_SIDED|95.0|-9.1|4.1||||||This is the difference in percentage of participants gaining ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||4.1|-9.1|
92222441|NCT01087905|184346042|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.003|TWO_SIDED|95.0|1.2|2.45|||Regression, Logistic||Inclusion of the Cognitive Medication Adherence Counseling (CMAC) factor (No CMAC versus CMAC) as a control variable did not change the results of this analysis.|"Null hypothesis: No difference in abstinence rates for participants receiving Two Weeks of Nicotine Replacement Therapy (NRT) Monotherapy (Nicotine Patch Only) versus Six Weeks of Combination NRT (Patch+Gum). We hypothesized that Six Weeks of Combination NRT would result in statistically significantly higher abstinence rates compared to Two Weeks of NRT Monotherapy.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention."||2.45|1.20|.003
92222442|NCT01087905|184346043|SUPERIORITY_OR_OTHER||incremental cost-effectiveness ratio|357.0||||||95.0||||There is no p-value for the incremental cost-effectiveness ratio (ICER).|Incremental cost-effectiveness ratio|Unit of measurement for ICER is U.S. dollars.||In this analysis, the incremental cost-effectiveness ratio (ICER) is computed. ICER is a measure of the added cost per added quit for two treatments. ICER was computed as the cost difference between the least intensive treatment group (2 weeks of nicotine patch only) and a more intensive comparison group divided by the difference in the quit rates of the two groups being compared; ICER for the group that received 2 weeks of nicotine patch and nicotine gum = (213-178)/(.482-.384) = $357.||||
92222443|NCT01087905|184346043|SUPERIORITY_OR_OTHER||Incremental cost-effectiveness ratio|712.0||||||95.0||||There is no p-value for the incremental cost-effectiveness ratio (ICER).|Incremental cost-effectiveness ratio|Unit of measurement for ICER is U.S. dollars.||In this analysis, the incremental cost-effectiveness ratio (ICER) is computed. ICER is a measure of the added cost per added quit for two treatments. ICER was computed as the cost difference between the least intensive treatment group (2 weeks of nicotine patch only) and a more intensive comparison group divided by the difference in the quit rates of the two groups being compared; ICER for the group that received 6 weeks of nicotine patch only = (233-178)/(.462-.384) = $712.||||
92222444|NCT01087905|184346043|SUPERIORITY_OR_OTHER||Incremental cost-effectiveness ratio|1290.0||||||95.0||||There is no p-value for the incremental cost-effectiveness ratio (ICER).|Incremental cost-effectiveness ratio|Unit of measurement for ICER is U.S. dollars.||In this analysis, the Incremental cost-effectiveness ratio (ICER) is computed. ICER is a measure of the added cost per added quit for two treatments. ICER was computed as the cost difference between the least intensive treatment group (2 weeks of nicotine patch only) and a more intensive comparison group divided by the difference in the quit rates of the two groups being compared; ICER for the group that received 6 weeks of nicotine patch and nicotine gum = (348-178)/(.516-.384) = $1290.||||
92222445|NCT00513500|184346044|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|5.32||||||95.0|2.19|8.94||||||||8.94|2.19|
92222446|NCT00513500|184346045|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.23||||||95.0|0.14|0.38||||||||0.38|0.14|
92357487|NCT00829868|184619289|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|101.0||||||90.0|97.5|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106|97.5|
92357488|NCT00829868|184619290|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|100.0||||||90.0|96.2|104.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104|96.2|
92357489|NCT01603368|184619308|OTHER|Student's t-test|||||=|0.001|||||||t-test, 2 sided|||||||=0.001
92357490|NCT01554904|184619312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|162.24|STANDARD_ERROR_OF_MEAN|62.4||0.02|TWO_SIDED|95.0|27.32|297.16|||paired t test|||The null hypothesis is that the snore index would not be different after 6 weeks of treatment compared to baseline. The comparison group is the subjects completing the 6 weeks of training and the second sleep study.||297.16|27.32|0.02
92357491|NCT01554904|184619313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.66||0.22|TWO_SIDED|95.0|-2.28|0.584||paired t test|t-test, 2 sided|||Participants completing 6 weeks of training and the second sleep study. The null hypothesis was that the AHI would not be different after 6 weeks of training compared to baseline.||0.584|-2.28|0.22
92357492|NCT02412982|184619340|SUPERIORITY|||||||0.092|||||||Wilcoxon (Mann-Whitney)|||||||0.092
92357493|NCT00803049|184619356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.824||||0.2079|TWO_SIDED|95.0|0.602|1.128||Threshold for significance at 0.05 level.|Log Rank||Placebo/Teriflunomide 7 mg vs. Teriflunomide 7 mg/7 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.128|0.602|0.2079
92222447|NCT00513500|184346046|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.44||||||95.0|0.21|0.93||||||||0.93|0.21|
92222448|NCT00790907|184346066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.267|TWO_SIDED|95.0|0.54|1.19|||Regression, Logistic|||||1.19|0.54|0.267
92222449|NCT01902290|184346074|SUPERIORITY||Difference|-0.05||||0.5219|TWO_SIDED|95.0|-0.203|0.103|||Mixed-effect model|The model included fixed effects of treatment group, time, interaction of treatment group by time, stratification variables, and baseline ACQ score.|Difference = Brodalumab - Placebo|||0.103|-0.203|0.5219
92222450|NCT01902290|184346075|SUPERIORITY||Rate Ratio|1.41||||0.102|TWO_SIDED|95.0|0.93|2.12|||Generalized linear model|Generalized linear model under a negative binomial distribution assumption adjusting for stratification factors.|Rate ratio = Brodalumab : Placebo|||2.12|0.93|0.102
92222451|NCT01902290|184346076|SUPERIORITY||Difference|-0.038||||0.6632|TWO_SIDED|95.0|-0.21|0.134|||Mixed-effect model|The model included fixed effects of treatment group, time, interaction of treatment group by time, stratification factors, and baseline ACQ score.|Difference = Brodalumab - Placebo|||0.134|-0.210|0.6632
92222452|NCT01902290|184346077|SUPERIORITY||Rate Ratio|1.45||||0.096|TWO_SIDED|95.0|0.94|2.24|||Generalized linear model|Generalized linear model under a negative binomial distribution assumption adjusting for stratification factors.|Rate ratio = Brodalumab : Placebo|||2.24|0.94|0.096
92222453|NCT01902290|184346078|SUPERIORITY||Difference|-0.046||||0.329|TWO_SIDED|95.0|-0.137|0.046|||Mixed-effect model|The model included fixed effects of treatment group, time, interaction of treatment group by time, stratification variables, and baseline score.|Difference = Brodalumab - Placebo|||0.046|-0.137|0.3290
92405713|NCT01929317|184701665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 1 total score for Week 4.|||0.4|-0.2|
92222454|NCT01902290|184346079|SUPERIORITY||Difference|0.03||||0.4549||95.0|-0.049|0.109|||Mixed-effect model|Model includes treatment, time, stratification factors, treatment by time and baseline value of age, gender, pooled race group, height and FEV1.|Difference = Brodalumab - Placebo|||0.109|-0.049|0.4549
92222455|NCT01902290|184346080|SUPERIORITY||Difference|0.128||||0.6317||95.0|-0.396|0.653|||Mixed-effect model|The model included fixed effects of treatment group, time, interaction of treatment group by time, stratification variables, and baseline value.|Difference = Brodalumab - Placebo|||0.653|-0.396|0.6317
92222456|NCT01902290|184346081|SUPERIORITY||Hazard Ratio (HR)|1.277||||0.238|TWO_SIDED|95.0|0.843|1.936|||Log Rank|Log rank test stratified for baseline stratification factors.||||1.936|0.843|0.238
92357494|NCT00803049|184619356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.825||||0.3039|TWO_SIDED|95.0|0.591|1.152||Threshold for significance at 0.05 level.|Log Rank||Placebo/Teriflunomide 14 mg vs.Teriflunomide 14 mg/14 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.152|0.591|0.3039
92357495|NCT00803049|184619356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.963||||0.8271|TWO_SIDED|95.0|0.736|1.26||Threshold for significance at 0.05 level.|Log Rank||Teriflunomide 7 mg/7 mg vs. Teriflunomide 14 mg/14 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.260|0.736|0.8271
92357496|NCT00803049|184619357|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.961||||0.8017|TWO_SIDED|95.0|0.678|1.362||Threshold for significance at 0.05 level.|Log Rank||Placebo/Teriflunomide 7 mg vs. Teriflunomide 7 mg/7 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.362|0.678|0.8017
92357497|NCT00803049|184619357|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.1866|TWO_SIDED|95.0|0.559|1.117||Threshold for significance at 0.05 level.|Log Rank||Placebo/Teriflunomide 14 mg vs. Teriflunomide 14 mg/14 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.117|0.559|0.1866
92357498|NCT00803049|184619357|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.8763|TWO_SIDED|95.0|0.767|1.357||Threshold for significance at 0.05 level.|Log Rank||Teriflunomide 7 mg/7 mg vs. Teriflunomide 14 mg/14 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.357|0.767|0.8763
92357499|NCT01272219|184619361|SUPERIORITY_OR_OTHER||Estimated mean difference|-5.39|||<|0.0001|TWO_SIDED|95.0|-5.82|-4.95|||ANCOVA||ANCOVA model with treatment, country, sex, pre-diabetes status at screening, baseline BMI stratum and an interaction between pre-diabetes status at screening and BMI stratum as fixed factors, and the baseline value as covariate.|Null-hypothesis: no treatment difference between treatment arms, i.e. liraglutide 3.0 mg and liraglutide placebo. Liraglutide 3.0 mg was considered superior to placebo in inducing and maintaining weight loss, if the estimated treatment effect (liraglutide 3.0 mg - liraglutide placebo) was statistically significantly smaller than zero.||-4.95|-5.82|<0.0001
92401449|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.386|TWO_SIDED|95.0|-1.23|0.48||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||0.48|-1.23|0.386
92222457|NCT01902290|184346082|SUPERIORITY||Odds Ratio (OR)|1.25||||0.351||95.0|0.78|2.01|||Regression, Logistic|Logistic regression adjusted for stratification factors.||||2.01|0.78|0.351
92222458|NCT01902290|184346083|SUPERIORITY||Difference|-0.001||||0.987||95.0|-0.174|0.171|||Mixed-effects model|The model included fixed effects of treatment group, time, interaction of treatment group by time, stratification variables, and baseline AQLQ score.|Difference = Brodalumab - Placebo|||0.171|-0.174|0.9870
92405714|NCT01929317|184701665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.4|0.3|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 1 total score for Week 6.|||0.3|-0.4|
92222459|NCT01902290|184346084|SUPERIORITY||Difference|0.635||||0.9053|TWO_SIDED|95.0|-9.82|11.089|||Mixed-effect model|Model includes treatment, time, stratification factors, treatment by time and baseline value of age, gender, pooled race group, height and AM PEFR.|Difference = Brodalumab - Placebo|Analysis of morning peak flow||11.089|-9.820|0.9053
92222460|NCT01902290|184346084|SUPERIORITY||Difference|5.92||||0.2661|TWO_SIDED|95.0|-4.515|16.354|||Mixed-effects model|Model includes treatment, time, stratification factors, treatment by time and baseline value of age, gender, pooled race group, height and PM PEFR.|Difference = Brodalumab - Placebo|Analysis of evening peak flow||16.354|-4.515|0.2661
92222461|NCT01902290|184346085|SUPERIORITY||Difference|-4.021||||0.0871|TWO_SIDED|95.0|-8.627|0.586|||Mixed-effect model|Model includes treatment, time, stratification factors, treatment by time and baseline value of age, gender, race group, height and PEFR variation.|Difference = Brodalumab - Placebo|||0.586|-8.627|0.0871
92222462|NCT00774345|184346089|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.276|TWO_SIDED|95.0|0.61|1.15||The p-value is based on a stratified log-rank test.|Log Rank||Based on the stratified cox proportional hazards model comparing the hazard functions associated with the treatment groups.|||1.15|0.61|0.276
92222463|NCT02873936|184346095|SUPERIORITY||Difference in Response Rates|34.9|||<|0.001|TWO_SIDED|95.0|23.5|46.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||46.3|23.5|<0.001
92222464|NCT02873936|184346095|SUPERIORITY||Difference in Response Rates|26.4|||<|0.001|TWO_SIDED|95.0|15.0|37.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||37.9|15.0|<0.001
92222465|NCT02873936|184346096|SUPERIORITY||Least Squares Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.066|<|0.001|TWO_SIDED|95.0|-0.45|-0.19||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. Least squares (LS)-Mean, 95% confidence interval (CI), and P-value were provided from mixed effects model for repeated measure (MMRM). Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.19|-0.45|<0.001
92222466|NCT02873936|184346096|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.065|<|0.001|TWO_SIDED|95.0|-0.4|-0.14||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.14|-0.40|<0.001
92222467|NCT02873936|184346097|SUPERIORITY||Difference in Response Rates|25.3|||<|0.001|TWO_SIDED|95.0|14.7|35.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||35.8|14.7|<0.001
92222468|NCT02873936|184346097|SUPERIORITY||Difference in Response Rates|21.7|||<|0.001|TWO_SIDED|95.0|11.4|32.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||32.0|11.4|<0.001
92222469|NCT02873936|184346098|SUPERIORITY||Least Squares Mean Difference|4.3|STANDARD_ERROR_OF_MEAN|0.92|<|0.001|TWO_SIDED|95.0|2.5|6.1||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||6.1|2.5|<0.001
92222470|NCT02873936|184346098|SUPERIORITY||Least Squares Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|0.92|<|0.001|TWO_SIDED|95.0|1.6|5.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.2|1.6|<0.001
92222471|NCT02873936|184346099|SUPERIORITY||Difference in Response Rates|18.5|||<|0.001|TWO_SIDED|95.0|8.6|28.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||28.3|8.6|<0.001
92222472|NCT02873936|184346099|SUPERIORITY||Difference in Response Rates|14.0||||0.003|TWO_SIDED|95.0|4.6|23.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||23.4|4.6|0.003
92276585|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.0686|TWO_SIDED|95.0|-3.39|0.12|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.12|-3.39|0.0686
92357500|NCT01272219|184619362|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8|||<|0.0001|TWO_SIDED|95.0|4.12|5.6|||Regression, Logistic||The model included treatment, country, sex, pre-diabetes status at screening, BMI stratum and an interaction between pre-diabetes status at screening and BMI stratum as fixed factors, and the baseline value as covariate.|Null-hypothesis: no treatment difference between treatment arms, i.e. liraglutide 3.0 mg and liraglutide placebo. Liraglutide 3.0 mg was considered superior to placebo in inducing and maintaining weight loss as assessed by the proportion of subjects losing ≥5% of their fasting baseline weight, if the estimated odds ratio (liraglutide 3.0 mg/liraglutide placebo) was statistically significantly greater than one.||5.60|4.12|<0.0001
92357501|NCT01272219|184619363|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.34|||<|0.0001|TWO_SIDED|95.0|3.54|5.32|||Regression, Logistic||The model included treatment, country, sex, pre-diabetes status at screening, BMI stratum and an interaction between pre-diabetes status at screening and BMI stratum as fixed factors, and the baseline value as covariate.|Null-hypothesis: no treatment difference between treatment arms, i.e. liraglutide 3.0 mg and liraglutide placebo. Liraglutide 3.0 mg was considered superior to placebo in inducing and maintaining weight loss as assessed by the proportion of subjects losing \>10% of their fasting baseline weight, if the estimated odds ratio (liraglutide 3.0 mg/liraglutide placebo) was statistically significantly greater than one.||5.32|3.54|<0.0001
92222473|NCT02873936|184346100|SUPERIORITY||Least Squares Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|1.19|<|0.001|TWO_SIDED|95.0|2.6|7.3||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.3|2.6|<0.001
92222474|NCT02873936|184346100|SUPERIORITY||Least Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|1.18||0.007|TWO_SIDED|95.0|0.9|5.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.5|0.9|0.007
92222475|NCT02873936|184346101|SUPERIORITY||Difference in Response Rates|15.0|||<|0.001|TWO_SIDED|95.0|6.4|23.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||23.7|6.4|<0.001
92222476|NCT02873936|184346101|SUPERIORITY||Difference in Response Rates|14.1|||<|0.001|TWO_SIDED|95.0|5.7|22.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||22.6|5.7|<0.001
92222477|NCT02873936|184346101|SUPERIORITY||Difference in Response Rates|28.0|||<|0.001|TWO_SIDED|95.0|17.5|38.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||38.5|17.5|<0.001
92222478|NCT02873936|184346101|SUPERIORITY||Difference in Response Rates|17.2|||<|0.001|TWO_SIDED|95.0|7.1|27.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||27.2|7.1|<0.001
92222479|NCT02873936|184346101|SUPERIORITY||Difference in Response Rates|26.7|||<|0.001|TWO_SIDED|95.0|15.8|37.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||37.6|15.8|<0.001
92222480|NCT02873936|184346101|SUPERIORITY||Difference in Response Rates|16.4||||0.002|TWO_SIDED|95.0|5.9|26.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||26.9|5.9|0.002
92222481|NCT02873936|184346102|SUPERIORITY||Difference in Response Rates|3.4||||0.16|TWO_SIDED|95.0|-1.9|8.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||8.8|-1.9|0.16
92222482|NCT02873936|184346102|SUPERIORITY||Difference in Response Rates|5.8||||0.039|TWO_SIDED|95.0|0.0|11.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||11.6|-0.0|0.039
92222483|NCT02873936|184346102|SUPERIORITY||Difference in Response Rates|15.0|||<|0.001|TWO_SIDED|95.0|6.5|23.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||23.5|6.5|<0.001
92222484|NCT02873936|184346102|SUPERIORITY||Difference in Response Rates|7.6||||0.036|TWO_SIDED|95.0|0.1|15.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||15.2|0.1|0.036
92222485|NCT02873936|184346102|SUPERIORITY||Difference in Response Rates|23.9|||<|0.001|TWO_SIDED|95.0|14.5|33.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||33.3|14.5|<0.001
92222486|NCT02873936|184346102|SUPERIORITY||Difference in Response Rates|12.2||||0.004|TWO_SIDED|95.0|3.7|20.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||20.6|3.7|0.004
92357502|NCT01272219|184619364|SUPERIORITY_OR_OTHER||Treatment estimate|2.681|||<|0.0001|TWO_SIDED|95.0|1.856|3.872|||Weibull analysis||The treatment estimate was the factor that the time to event is multiplied with for liraglutide 3.0 mg compared to placebo.|If the estimated time-to-event ratio (liraglutide 3.0 mg/ placebo), as assessed by the survival endpoint describing the time until onset of T2DM ('diabetes-free time'), is statistically significantly \>1, then liraglutide 3.0 mg was to be considered superior to placebo in delaying the onset of T2DM in subjects with pre-diabetes at baseline. Weibull model was used; included treatment, sex and BMI stratification factor as fixed factors and baseline FPG as a covariate.||3.872|1.856|<.0001
92222487|NCT02873936|184346103|SUPERIORITY||Difference in Response Rates|26.0|||<|0.001|TWO_SIDED|95.0|14.6|37.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||37.4|14.6|<0.001
92357503|NCT03996395|184619464|OTHER||Descriptive statistic|71.0|STANDARD_DEVIATION|23.0|||TWO_SIDED|||||||||||||
92357504|NCT03555994|184619487|SUPERIORITY||Least square mean difference|-105.7||||0.023||90.0|-178.8|-32.6|||ANCOVA|||||-32.6|-178.8|0.023
92357505|NCT03555994|184619488|SUPERIORITY||Least square mean difference|-25.87||||0.008||90.0|-40.88|-10.86|||ANCOVA|||||-10.86|-40.88|0.008
92357506|NCT03555994|184619489|SUPERIORITY||Least Square Mean difference|-21.99||||0.008||90.0|-34.55|-9.43|||ANCOVA|||||-9.43|-34.55|0.008
92222488|NCT02873936|184346103|SUPERIORITY||Difference in Response Rates|18.8|||<|0.001|TWO_SIDED|95.0|7.5|30.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||30.0|7.5|<0.001
92222489|NCT02873936|184346103|SUPERIORITY||Difference in Response Rates|34.9|||<|0.001|TWO_SIDED|95.0|23.6|46.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||46.3|23.6|<0.001
92222490|NCT02873936|184346103|SUPERIORITY||Difference in Response Rates|20.4|||<|0.001|TWO_SIDED|95.0|8.8|32.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||32.1|8.8|<0.001
92222491|NCT02873936|184346104|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.4||0.003|TWO_SIDED|95.0|-7.0|-1.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-7.0|0.003
92222492|NCT02873936|184346104|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.4||0.027|TWO_SIDED|95.0|-6.0|0.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-6.0|0.027
92222493|NCT02873936|184346104|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-8.0|-3.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-8.0|<0.001
92357507|NCT03555994|184619490|SUPERIORITY||Least Square Mean difference|-35.06||||0.07||90.0|-66.54|-3.58|||ANCOVA|||||-3.58|-66.54|0.070
92357508|NCT03555994|184619490|SUPERIORITY||Least Square Mean difference|-11.72||||0.03||90.0|-20.13|-3.3|||ANCOVA|||||-3.30|-20.13|0.030
92222494|NCT02873936|184346104|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-7.0|-2.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-7.0|<0.001
92222495|NCT02873936|184346104|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-10.0|-4.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-10.0|<0.001
92222496|NCT02873936|184346104|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.5||0.006|TWO_SIDED|95.0|-7.0|-1.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-7.0|0.006
92222497|NCT02873936|184346105|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.0||0.008|TWO_SIDED|95.0|-5.0|-1.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-5.0|0.008
92222498|NCT02873936|184346105|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.0||0.65|TWO_SIDED|95.0|-2.0|1.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-2.0|0.65
92222499|NCT02873936|184346105|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
92357509|NCT00392288|184619520|SUPERIORITY_OR_OTHER|||||||0.2696||95.0||||Due to usage of a-priori ordered hypotheses, adjustment of p-values is not necessary. The pre-specified significance level was 0.05. The tests were carried out two-sided.|ANCOVA|ANCOVA model: Change in FEV1 = baseline FEV1 + age \[yrs\] + treatment + pooled center + previous corticosteroid therapy + holding chamber||This is an analysis of the change from baseline to week 12 or last visit. In this pairwise comparison Ciclesonide was compared with Placebo by testing the average effect of Ciclesonide 40 and Ciclesonide 80 versus Placebo. As statistical test a t-test was used to compare the corresponding least-square means of both treatment groups.||||0.2696
92357510|NCT00392288|184619520|SUPERIORITY_OR_OTHER|||||||0.0703||95.0||||Due to usage of a-priori ordered hypotheses, adjustment of p-values is not necessary. The pre-specified significance level was 0.05. The tests were carried out two-sided.|ANCOVA|ANCOVA model: Change in FEV1 = baseline FEV1 + age \[yrs\] + treatment + pooled center + previous corticosteroid therapy + holding chamber||This is an analysis of the change from baseline to week 12 or last visit. A t-test was used to compare the least-square means of Ciclesonide 80 versus Placebo.||||0.0703
92357511|NCT00392288|184619520|SUPERIORITY_OR_OTHER|||||||0.9146||95.0||||Due to usage of a-priori ordered hypotheses, adjustment of p-values is not necessary. The pre-specified significance level was 0.05. The tests were carried out two-sided.|ANCOVA|ANCOVA model: Change in FEV1 = baseline FEV1 + age \[yrs\] + treatment + pooled center + previous corticosteroid therapy + holding chamber||This is an analysis of the change from baseline to week 12 or last visit. As statistical test a t-test was used to compare the corresponding least-square means of Ciclesonide 40 versus Placebo.||||0.9146
92357512|NCT02544763|184619523|SUPERIORITY||Percentage reduction|48.6|||||TWO_SIDED|95.0|40.4|55.8||||||||55.8|40.4|
92357513|NCT02544763|184619523|SUPERIORITY||Percentage reduction|47.5|||||TWO_SIDED|95.0|39.0|54.8||||||||54.8|39.0|
92357514|NCT02544763|184619523|SUPERIORITY||Percentage reduction|26.5|||||TWO_SIDED|95.0|14.9|36.5||||||||36.5|14.9|
92357515|NCT02544763|184619523|SUPERIORITY||Treatment ratio|0.699|||=|0.0009|TWO_SIDED|95.0|0.567|0.861|||Mixed Models Analysis|||||0.861|0.567|=0.0009
92357516|NCT02544763|184619523|SUPERIORITY||Treatment ratio|0.715|||=|0.0018|TWO_SIDED|95.0|0.58|0.881|||Mixed Models Analysis|||||0.881|0.580|=0.0018
92227138|NCT01235962|184356475|SUPERIORITY||Mean Difference (36M DFS FU)|0.233||||0.621|TWO_SIDED|95.0|-0.69|1.155|||analysis of covariance|adjusted for baseline score using mixed-model||||1.155|-0.690|0.621
92357517|NCT02544763|184619524|SUPERIORITY||Odds Ratio (OR)|1.95|||=|0.0692|TWO_SIDED|95.0|0.95|4.0|||Cochran-Mantel-Haenszel|The p-value was calculated from a Cochran-Mantel-Haenszel test stratified by age group (1-6, 7-11, 12-17 and 18-65 years).||||4.00|0.95|=0.0692
92357518|NCT02544763|184619524|SUPERIORITY||Odds Ratio (OR)|2.29|||=|0.0245|TWO_SIDED|95.0|1.12|4.67|||Cochran-Mantel-Haenszel|The p-value was calculated from a Cochran-Mantel-Haenszel test stratified by age group (1-6, 7-11, 12-17 and 18-65 years).||||4.67|1.12|=0.0245
92357519|NCT02544763|184619525|SUPERIORITY||Odds Ratio (OR)|2.25|||=|0.0074|TWO_SIDED|95.0|1.24|4.07|||nominal|The global impression of change was analyzed using an ordinal logistic regression model with treatment group as a fixed factor.||||4.07|1.24|=0.0074
92222500|NCT02873936|184346105|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.9||0.008|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|0.008
92357520|NCT02544763|184619525|SUPERIORITY||Odds Ratio (OR)|1.77|||=|0.058|TWO_SIDED|95.0|0.98|3.2|||nominal|The global impression of change is analyzed using an ordinal logistic regression model with treatment group as a fixed factor.||||3.20|0.98|=0.0580
92222501|NCT02873936|184346105|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
92357521|NCT02544763|184619526|SUPERIORITY|Model includes the total number of seizures as a response variable and age group, time (Baseline and treatment period), treatment and treatment by time interaction as fixed effects and participant as a random effect. The log transformed number of days seizures were reported by period is included as an offset.|Percentage reduction|0.519|||||TWO_SIDED|95.0|0.447|0.602||||||||0.602|0.447|
92357522|NCT02544763|184619526|SUPERIORITY||Percentage reduction|0.524|||||TWO_SIDED|95.0|0.452|0.607||||||||0.607|0.452|
92357523|NCT02544763|184619526|SUPERIORITY||Percentage reduction|0.731|||||TWO_SIDED|95.0|0.632|0.846||||||||0.846|0.632|
92357524|NCT02544763|184619526|SUPERIORITY||Treatment ratio|0.709|||=|0.0013|TWO_SIDED|95.0|0.576|0.873|||Mixed Models Analysis|||||0.873|0.576|=0.0013
92357525|NCT02544763|184619526|SUPERIORITY||Treatment ratio|0.716|||=|0.0018|TWO_SIDED|95.0|0.582|0.882|||Mixed Models Analysis|||||0.882|0.582|=0.0018
92357526|NCT03379870|184619585|SUPERIORITY|Analyzed Consonant Nucleus Consonant (CNC) Word scores obtained 12-months post-activation to evaluate differences between groups. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis to control for potential floor or ceiling effects (e.g., scores \<20%).||||||0.768||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||||||.768
92357527|NCT03379870|184619586|SUPERIORITY|Analyzed BKB-SIN scores obtained 12-months post-activation to evaluate differences between groups. Scores range from -6 to +21 and lower scores are better.||||||0.529||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||||||.529
92357528|NCT03379870|184619587|SUPERIORITY|Analyzed SSQ scores obtained pre-operatively and at 12-months post-activation to evaluate benefit of cochlear implantation.||||||0.01||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||||||.010
92357529|NCT03379870|184619588|SUPERIORITY|Analyzed receptive language scores pre-operatively and 12-months post activation to test for change over time and differences between groups.|||||>|0.069||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||||||>.069
92357530|NCT03379870|184619589|SUPERIORITY|Analyzed articulation scores pre-operative and 12-months post activation to test for change over time and differences between groups.||||||0.02||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|Main effect of test point (pre-operative vs post-activation)||||||.02
92357531|NCT03379870|184619590|SUPERIORITY|Analyzed expressive language scores pre-operatively and 12-months post activation to test for change over time and differences between groups.||||||0.007||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|Main effect of test point (pre-operative vs post activation)||||||.007
92227139|NCT01235962|184356475|SUPERIORITY||Mean Difference (48M DFS FU)|0.082||||0.878|TWO_SIDED|95.0|-0.959|1.122|||analysis of covariance|adjusted for baseline score using mixed-model||||1.122|-0.959|0.878
92357532|NCT04101331|184619595|OTHER|||||||0.051||||||One-sided p-value.|Exact binomial test|Exact binomial test compares versus a proportion of 0.25.||||||0.051
92357533|NCT04101331|184619596|OTHER|||||||0.051||||||One-sided p-value.|Exact binomial test|Exact binomial test compares versus a proportion of 0.25.||||||0.051
92357534|NCT04101331|184619597|OTHER|||||||0.112||||||One-sided p-value.|Exact binomial test|Exact binomial test compares versus a proportion of 0.25.||||||0.112
92357535|NCT04101331|184619599|OTHER|||||||0.537||||||One-sided p-value.|Exact binomial test|Exact binomial test compares versus a proportion of 0.25.||||||0.537
92357536|NCT05796245|184619653|OTHER|Estimation|Cox Proportional Hazard|1.43|||||TWO_SIDED|95.0|0.39|5.2|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||5.20|0.39|
92357537|NCT05796245|184619653|OTHER|Estimation|Risk Ratio (RR)|1.43|||||TWO_SIDED|95.0|0.38|5.34|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||5.34|0.38|
92357538|NCT05796245|184619653|OTHER|Estimation|Risk Difference (RD)|0.04|||||TWO_SIDED|95.0|-0.2|0.11|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||0.11|-0.20|
92357539|NCT05796245|184619653|OTHER|Estimation|Cox Proportional Hazard|1.63|||||TWO_SIDED|95.0|0.54|4.9|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||4.90|0.54|
92357540|NCT05796245|184619653|OTHER|Estimation|Risk Ratio (RR)|1.71|||||TWO_SIDED|95.0|0.55|5.26|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||5.26|0.55|
92357541|NCT05796245|184619653|OTHER|Estimation|Risk Difference (RD)|0.09|||||TWO_SIDED|95.0|-0.1|0.39|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||0.39|-0.10|
92357542|NCT05796245|184619653|OTHER|Estimation|Cox Proportional Hazard|2.44|||||TWO_SIDED|95.0|1.05|5.67|||||Crude Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||5.67|1.05|
92164161|NCT03622580|184216596|OTHER||Difference in CMH Weighted Percentage|-2.0|||||TWO_SIDED|95.0|-8.5|4.5||||||This is the difference in percentage of participants gaining ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||4.5|-8.5|
92164162|NCT03622580|184216596|OTHER||Difference in CMH Weighted Percentage|0.1|||||TWO_SIDED|95.0|-4.6|4.8||||||This is the difference in percentage of participants gaining ≥0 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||4.8|-4.6|
92222502|NCT02873936|184346105|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.9||0.039|TWO_SIDED|95.0|-4.0|0.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-4.0|0.039
92222503|NCT02873936|184346106|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-17.0|-7.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-17.0|<0.001
92222504|NCT02873936|184346106|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-16.0|-5.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-16.0|<0.001
92357543|NCT05796245|184619653|OTHER|Estimation|Risk Ratio (RR)|2.47|||||TWO_SIDED|95.0|1.02|5.99|||||Crude Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||5.99|1.02|
92357544|NCT05796245|184619653|OTHER|Estimation|Risk Difference (RD)|0.13|||||TWO_SIDED|95.0|-0.06|0.32|||||Crude Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||0.32|-0.06|
92357545|NCT05796245|184619654|OTHER|Estimation|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-0.01|0.0|||||Crude Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set Note: Hazard ratio, risk ratio, and risk difference for the Comparative analysis set (IPTW weighted) and for the Comparative matched analysis set could not be calculated. Also, crude hazard ratio and crude risk ratio could not be calculated.||0.00|-0.01|
92405715|NCT01929317|184701665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.3|0.3|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 1 total score for Week 8.|||0.3|-0.3|
92164163|NCT03622580|184216596|OTHER||Difference in CMH Weighted Percentage|3.3|||||TWO_SIDED|95.0|-1.0|7.5||||||This is the difference in percentage of participants gaining ≥0 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||7.5|-1.0|
92222505|NCT02873936|184346106|SUPERIORITY||Least Squares Mean Difference|-18.0|STANDARD_ERROR_OF_MEAN|3.0|<|0.001|TWO_SIDED|95.0|-24.0|-12.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-12.0|-24.0|<0.001
92164164|NCT03622580|184216601|OTHER||Difference in CMH Weighted Percentage|-5.2|||||TWO_SIDED|95.0|-14.0|3.5||||||This is the difference in percentage of participants gaining ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||3.5|-14.0|
92222506|NCT02873936|184346106|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|3.0|<|0.001|TWO_SIDED|95.0|-19.0|-7.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-19.0|<0.001
92227140|NCT01235962|184356475|SUPERIORITY||Mean Difference (54M DFS FU)|0.412||||0.533|TWO_SIDED|95.0|-0.887|1.712|||analysis of covariance|adjusted for baseline score using mixed-model||||1.712|-0.887|0.533
92357546|NCT05796245|184619655|OTHER|Estimation|Cox Proportional Hazard|1.22|||||TWO_SIDED|95.0|0.12|12.49|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||12.49|0.12|
92357547|NCT05796245|184619655|OTHER|Estimation|Risk Ratio (RR)|1.41|||||TWO_SIDED|95.0|0.12|17.14|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||17.14|0.12|
92357548|NCT05796245|184619655|OTHER|Estimation|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-0.05|0.01|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||0.01|-0.05|
92357549|NCT05796245|184619655|OTHER|Estimation|Cox Proportional Hazard|6.12|||||TWO_SIDED|95.0|0.81|45.94|||||Crude Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set Note: Hazard ratio, risk ratio, and risk difference for the comparative matched analysis set could not be calculated.||45.94|0.81|
92357550|NCT05796245|184619655|OTHER|Estimation|Risk Ratio (RR)|7.07|||||TWO_SIDED|95.0|0.93|53.51|||||Crude Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||53.51|0.93|
92405716|NCT01929317|184701665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.2|0.6|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 1 total score for Week 12.|||0.6|-0.2|
92164165|NCT03622580|184216601|OTHER||Difference in CMH Weighted Percentage|1.7|||||TWO_SIDED|95.0|-7.0|10.3||||||This is the difference in percentage of participants gaining ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||10.3|-7.0|
92164166|NCT03622580|184216601|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-9.5|9.5||||||This is the difference in percentage of participants gaining ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||9.5|-9.5|
92164167|NCT03622580|184216601|OTHER||Difference in CMH Weighted Percentage|2.1|||||TWO_SIDED|95.0|-7.1|11.3||||||This is the difference in percentage of participants gaining ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||11.3|-7.1|
92222507|NCT02873936|184346106|SUPERIORITY||Least Squares Mean Difference|-18.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-25.0|-12.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-12.0|-25.0|<0.001
92401450|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.12|TWO_SIDED|95.0|-1.27|0.15||P-value is for male, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||0.15|-1.27|0.120
92401451|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.119|TWO_SIDED|95.0|-1.29|0.15||P-value is for male, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||0.15|-1.29|0.119
92401452|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.976|TWO_SIDED|95.0|-0.71|0.69||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||0.69|-0.71|0.976
92405717|NCT01929317|184701666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-1.8|0.1|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 2, On status.|||0.1|-1.8|
92405718|NCT01929317|184701666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-2.4|0.1|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 4, On status.|||0.1|-2.4|
92164168|NCT03622580|184216601|OTHER||Difference in CMH Weighted Percentage|-4.5|||||TWO_SIDED|95.0|-11.9|2.9||||||This is the difference in percentage of participants gaining ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.9|-11.9|
92164169|NCT03622580|184216601|OTHER||Difference in CMH Weighted Percentage|-7.2|||||TWO_SIDED|95.0|-14.6|0.2||||||This is the difference in percentage of participants gaining ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||0.2|-14.6|
92222508|NCT02873936|184346106|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-19.0|-6.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-19.0|<0.001
92222509|NCT02873936|184346107|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-17.0|-7.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|Mixed effects model for repeated measure|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-17.0|<0.001
92164170|NCT03622580|184216601|OTHER||Difference in CMH Weighted Percentage|-0.2|||||TWO_SIDED|95.0|-5.5|5.2||||||This is the difference in percentage of participants gaining ≥0 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||5.2|-5.5|
92164171|NCT03622580|184216601|OTHER||Difference in CMH Weighted Percentage|2.0|||||TWO_SIDED|95.0|-3.0|7.0||||||This is the difference in percentage of participants gaining ≥0 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||7.0|-3.0|
92164172|NCT03622580|184216606|OTHER||Difference in CMH Weighted Percentage|-0.8|||||TWO_SIDED|95.0|-2.8|1.3||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||1.3|-2.8|
92164173|NCT03622580|184216606|OTHER||Difference in CMH Weighted Percentage|-0.3|||||TWO_SIDED|95.0|-2.2|1.5||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||1.5|-2.2|
92164174|NCT03622580|184216606|OTHER||Difference in CMH Weighted Percentage|-1.8|||||TWO_SIDED|95.0|-4.6|0.9||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||0.9|-4.6|
92164175|NCT03622580|184216606|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-2.2|2.2||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||2.2|-2.2|
92164176|NCT03622580|184216606|OTHER||Difference in CMH Weighted Percentage|-1.1|||||TWO_SIDED|95.0|-4.5|2.2||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.2|-4.5|
92164177|NCT03622580|184216606|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-2.6|3.4||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||3.4|-2.6|
92164178|NCT03622580|184216610|OTHER||Difference in CMH Weighted Percentage|-1.1|||||TWO_SIDED|95.0|-3.5|1.3||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||1.3|-3.5|
92164179|NCT03622580|184216610|OTHER||Difference in CMH Weighted Percentage|-0.9|||||TWO_SIDED|95.0|-3.1|1.3||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||1.3|-3.1|
92164180|NCT03622580|184216610|OTHER||Difference in CMH Weighted Percentage|-2.1|||||TWO_SIDED|95.0|-5.1|0.9||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||0.9|-5.1|
92164181|NCT03622580|184216610|OTHER||Difference in CMH Weighted Percentage|-0.9|||||TWO_SIDED|95.0|-3.5|1.6||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||1.6|-3.5|
92164182|NCT03622580|184216610|OTHER||Difference in CMH Weighted Percentage|-1.2|||||TWO_SIDED|95.0|-5.2|2.8||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.8|-5.2|
92164183|NCT03622580|184216610|OTHER||Difference in CMH Weighted Percentage|-0.4|||||TWO_SIDED|95.0|-4.1|3.3||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||3.3|-4.1|
92164184|NCT03622580|184216614|OTHER||Difference in CMH Weighted Percentage|-4.9|||||TWO_SIDED|95.0|-12.6|2.9||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.9|-12.6|
92164185|NCT03622580|184216614|OTHER||Difference in CMH Weighted Percentage|2.0|||||TWO_SIDED|95.0|-5.9|9.8||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||9.8|-5.9|
92222510|NCT02873936|184346107|SUPERIORITY||Least Squares Mean Difference|-10.0|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-15.0|-5.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-15.0|<0.001
92222511|NCT02873936|184346107|SUPERIORITY||Least Squares Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-22.0|-11.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-11.0|-22.0|<0.001
92227141|NCT01235962|184356476|SUPERIORITY||Mean Difference (Week 52)|-1.515|||<|0.001|TWO_SIDED|95.0|-2.078|-0.952|||analysis of covariance|adjusted for baseline score using mixed-model||||-0.952|-2.078|<.001
92164186|NCT03622580|184216614|OTHER||Difference in CMH Weighted Percentage|-8.6|||||TWO_SIDED|95.0|-17.8|0.5||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.5|-17.8|
92164187|NCT03622580|184216614|OTHER||Difference in CMH Weighted Percentage|-0.9|||||TWO_SIDED|95.0|-9.9|8.2||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||8.2|-9.9|
92164188|NCT03622580|184216617|OTHER||Difference in CMH Weighted Percentage|-3.2|||||TWO_SIDED|95.0|-10.2|3.8||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||3.8|-10.2|
92164189|NCT03622580|184216617|OTHER||Difference in CMH Weighted Percentage|2.4|||||TWO_SIDED|95.0|-4.3|9.2||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||9.2|-4.3|
92164190|NCT03622580|184216617|OTHER||Difference in CMH Weighted Percentage|-4.7|||||TWO_SIDED|95.0|-12.6|3.1||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||3.1|-12.6|
92164191|NCT03622580|184216617|OTHER||Difference in CMH Weighted Percentage|-1.3|||||TWO_SIDED|95.0|-8.9|6.4||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||6.4|-8.9|
92164192|NCT03622580|184216620|OTHER||Difference in CMH Weighted Percentage|0.6|||||TWO_SIDED|95.0|-1.8|2.9||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.9|-1.8|
92164193|NCT03622580|184216620|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-2.2|2.3||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.3|-2.2|
92164194|NCT03622580|184216620|OTHER||Difference in CMH Weighted Percentage|0.8|||||TWO_SIDED|95.0|-2.0|3.6||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||3.6|-2.0|
92164195|NCT03622580|184216620|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-2.6|2.5||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||2.5|-2.6|
92164196|NCT03622580|184216629|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-1.1|2.0||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.0|-1.1|
92164197|NCT03622580|184216629|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-1.1|2.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.0|-1.1|
92401453|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17||||0.026|TWO_SIDED|95.0|0.14|2.2||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||2.20|0.14|0.026
92401454|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36||||0.497|TWO_SIDED|95.0|-0.69|1.42||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||1.42|-0.69|0.497
92401455|NCT00385671|184694187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.112|TWO_SIDED|95.0|-1.8|0.19||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||0.19|-1.80|0.112
92405719|NCT01929317|184701666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-2.6|0.3|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 6, On status.|||0.3|-2.6|
92164198|NCT03622580|184216629|OTHER||Difference in CMH Weighted Percentage|-0.6|||||TWO_SIDED|95.0|-1.9|0.6||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.6|-1.9|
92164199|NCT03622580|184216629|OTHER||Difference in CMH Weighted Percentage|0.5|||||TWO_SIDED|95.0|-1.5|2.5||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||2.5|-1.5|
92164200|NCT03622580|184216630|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-0.4|1.2||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||1.2|-0.4|
92164201|NCT03622580|184216630|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||0.0|0.0|
92164202|NCT03622580|184216630|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.0|0.0|
92164203|NCT03622580|184216630|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.0|0.0|
92227142|NCT01235962|184356476|SUPERIORITY||Mean Difference (24M DFS FU)|0.014||||0.961|TWO_SIDED|95.0|-0.534|0.561|||analysis of covariance|adjusted for baseline score using mixed-model||||0.561|-0.534|0.961
92405720|NCT01929317|184701666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-2.8|0.3|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 8, On status.|||0.3|-2.8|
92405721|NCT01929317|184701666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-2.7|0.7|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 12, On status.|||0.7|-2.7|
92405722|NCT01929317|184701666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-1.8|0.5|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 2, Off status.|||0.5|-1.8|
92405723|NCT01929317|184701666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-2.6|0.8|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 4, Off status.|||0.8|-2.6|
92405724|NCT01929317|184701666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-2.8|1.0|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 6, Off status.|||1.0|-2.8|
92405725|NCT01929317|184701666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.1|1.8|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 8, Off status.|||1.8|-2.1|
92405726|NCT01929317|184701666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-2.2|2.1|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 12, Off status.|||2.1|-2.2|
92405727|NCT01929317|184701667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.7|0.4|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 4 total score for Week 2.|||0.4|-0.7|
92405728|NCT01929317|184701667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.7|0.6|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 4 total score for Week 4.|||0.6|-0.7|
92405729|NCT01929317|184701667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.7|0.8|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 4 total score for Week 6.|||0.8|-0.7|
92405730|NCT01929317|184701667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 4 total score for Week 8.|||0.7|-0.7|
92405731|NCT01929317|184701667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.9|0.5|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 4 total score for Week 12.|||0.5|-0.9|
92405732|NCT01929317|184701680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.65|1.04|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent Off for Week 2."|||1.04|-1.65|
92357551|NCT05796245|184619655|OTHER|Estimation|Risk Difference (RD)|0.03|||||TWO_SIDED|95.0|-0.04|0.1|||||Crude Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||0.10|-0.04|
92357552|NCT05796245|184619656|OTHER|Estimation|Cox Proportional Hazard|1.7|||||TWO_SIDED|95.0|0.16|17.61|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||17.61|0.16|
92357553|NCT05796245|184619656|OTHER|Estimation|Risk Ratio (RR)|1.85|||||TWO_SIDED|95.0|0.17|19.79|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||19.79|0.17|
92357554|NCT05796245|184619656|OTHER|Estimation|Risk Difference (RD)|0.01|||||TWO_SIDED|95.0|-0.12|0.03|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||0.03|-0.12|
92357555|NCT05796245|184619656|OTHER|Estimation|Cox Proportional Hazard|2.61|||||TWO_SIDED|95.0|0.15|45.68|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||45.68|0.15|
92357556|NCT05796245|184619656|OTHER|Estimation|Risk Ratio (RR)|2.01|||||TWO_SIDED|95.0|0.12|34.94|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||34.94|0.12|
92357557|NCT05796245|184619656|OTHER|Estimation|Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.1|0.26|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||0.26|-0.10|
92357558|NCT05796245|184619656|OTHER|Estimation|Cox Proportional Hazard|2.7|||||TWO_SIDED|95.0|0.37|19.93|||||Crude Hazard Ratio Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||19.93|0.37|
92357559|NCT05796245|184619656|OTHER|Estimation|Risk Ratio (RR)|2.66|||||TWO_SIDED|95.0|0.37|19.31|||||Crude Risk Ratio Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||19.31|0.37|
92401456|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.486||95.0||||P-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.486
92401457|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.983||95.0||||P-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.983
92401458|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.411||95.0||||p-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.411
92405733|NCT01929317|184701680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|||||TWO_SIDED|95.0|-1.34|1.45|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent Off for Week 4."|||1.45|-1.34|
92164204|NCT03622580|184216637|OTHER||Adjusted mean difference|-36.2|STANDARD_ERROR_OF_MEAN|5.88|||TWO_SIDED|95.0|-47.8|-24.7||||||This is the adjusted mean difference for Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.||-24.7|-47.8|
92164205|NCT03622580|184216637|OTHER||Adjusted mean difference|-26.2|STANDARD_ERROR_OF_MEAN|5.86|||TWO_SIDED|95.0|-37.7|-14.7||||||This is the adjusted mean difference for Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.||-14.7|-37.7|
92164206|NCT03622580|184216637|OTHER||Adjusted mean difference|-31.1|STANDARD_ERROR_OF_MEAN|6.35|||TWO_SIDED|95.0|-43.6|-18.6||||||This is the adjusted mean difference for Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||-18.6|-43.6|
92164207|NCT03622580|184216637|OTHER||Adjusted mean difference|-23.9|STANDARD_ERROR_OF_MEAN|6.28|||TWO_SIDED|95.0|-36.2|-11.6||||||This is the adjusted mean difference for Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||-11.6|-36.2|
92357560|NCT05796245|184619656|OTHER|Estimation|Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.05|0.1|||||Crude Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||0.10|-0.05|
92357561|NCT05796245|184619657|OTHER|Estimation|Cox Proportional Hazard|0.18|||||TWO_SIDED|95.0|0.02|1.85|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||1.85|0.02|
92357562|NCT05796245|184619657|OTHER|Estimation|Risk Ratio (RR)|0.19|||||TWO_SIDED|95.0|0.02|1.99|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||1.99|0.02|
92357563|NCT05796245|184619657|OTHER|Estimation|Risk Difference (RD)|-0.01|||||TWO_SIDED|95.0|-0.17|0.0|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||0.00|-0.17|
92357564|NCT05796245|184619657|OTHER|Estimation|Cox Proportional Hazard|0.63|||||TWO_SIDED|95.0|0.07|6.0|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||6.00|0.07|
92357565|NCT05796245|184619657|OTHER|Estimation|Risk Ratio (RR)|0.71|||||TWO_SIDED|95.0|0.08|6.61|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||6.61|0.08|
92357566|NCT05796245|184619657|OTHER|Estimation|Risk Difference (RD)|-0.01|||||TWO_SIDED|95.0|-0.1|0.21|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||0.21|-0.10|
92164208|NCT03622580|184216640|OTHER||Difference in CMH Weighted Percentage|16.0|||||TWO_SIDED|95.0|8.9|23.1||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||23.1|8.9|
92164209|NCT03622580|184216640|OTHER||Difference in CMH Weighted Percentage|12.7|||||TWO_SIDED|95.0|5.4|20.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||20.0|5.4|
92164210|NCT03622580|184216640|OTHER||Difference in CMH Weighted Percentage|15.2|||||TWO_SIDED|95.0|7.3|23.2||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||23.2|7.3|
92164211|NCT03622580|184216640|OTHER||Difference in CMH Weighted Percentage|12.5|||||TWO_SIDED|95.0|4.4|20.6||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||20.6|4.4|
92164212|NCT03959241|184216698|SUPERIORITY||Hazard Ratio (HR)|0.641||||0.001|TWO_SIDED|95.0|0.492|0.835||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of GRFS hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies.||0.835|0.492|0.001
92357567|NCT05796245|184619657|OTHER|Estimation|Cox Proportional Hazard|2.07|||||TWO_SIDED|95.0|0.28|15.22|||||Crude Hazard Ratio Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||15.22|0.28|
92357568|NCT05796245|184619657|OTHER|Estimation|Risk Ratio (RR)|2.1|||||TWO_SIDED|95.0|0.29|15.08|||||Crude Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||15.08|0.29|
92357569|NCT05796245|184619657|OTHER|Estimation|Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.05|0.09|||||Crude Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||0.09|-0.05|
92357570|NCT02579759|184619658|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.14||0.008|TWO_SIDED|97.5|-0.68|-0.06|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||-0.06|-0.68|0.008
92357571|NCT02579759|184619658|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.12||0.287|TWO_SIDED|97.5|-0.39|0.14|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.14|-0.39|0.287
92369485|NCT00281099|184643810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.7166||95.0|1.22|3.0||The threshold for significance was the one-sided upper confidence bound being less than 1.|Andersen-Gill model|||This analysis compared the hazard rates for clinically important AF (defined as a calendar day with \>20 hour of AT/AF as measured by the device). The null hypothesis was that this hazard rate for patients with MVP was equal to or greater than that of patients with VVI 40. The pre-specified model had Arm as a covariate, and accounted for time to first event and time between successive events per subject.||3.0|1.22|0.7166
92164213|NCT03959241|184216699|SUPERIORITY|||||||0.995||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||This is the unadjusted analysis. The null hypothesis is that there is no difference of grade II-IV acute GVHD post-transplantation between the treatment groups.||||0.995
92164214|NCT03959241|184216699|SUPERIORITY|||||||0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||This is the unadjusted analysis. The null hypothesis is that there is no difference of grade III-IV acute GVHD post-transplantation between the treatment groups||||0.001
92164215|NCT03959241|184216699|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.879|TWO_SIDED|95.0|0.758|1.267||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of grade II-IV acute GVHD post-transplantation between the treatment groups using a Cox regression model for the cause-specific hazard of aGVHD||1.267|0.758|0.879
92164216|NCT03959241|184216699|SUPERIORITY||Hazard Ratio (HR)|0.386||||0.001|TWO_SIDED|95.0|0.215|0.691||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of grade III-IV aGVHD hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies.||0.691|0.215|0.001
92164217|NCT03959241|184216703|SUPERIORITY|||||||0.005||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||This is the unadjusted analysis. The null hypothesis is that there is no difference of chronic GVHD post-transplantation between the treatment groups||||0.005
92164218|NCT03959241|184216703|SUPERIORITY||Hazard Ratio (HR)|0.556||||0.002|TWO_SIDED|95.0|0.381|0.813||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of the chronic GVHD hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies||0.813|0.381|0.002
92164219|NCT03959241|184216706|SUPERIORITY|||||||0.038||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||The null hypothesis is that there is no difference of Immunosuppression-Free Survival between the treatment groups||||0.038
92164220|NCT03959241|184216707|SUPERIORITY|||||||0.032||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Neutrophil Recovery between the treatment groups||||0.032
92227143|NCT01235962|184356476|SUPERIORITY||Mean Difference (36M DFS FU)|0.043||||0.888|TWO_SIDED|95.0|-0.555|0.641|||analysis of covariance|adjusted for baseline score using mixed-model||||0.641|-0.555|0.888
92222512|NCT02873936|184346107|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-18.0|-7.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-18.0|<0.001
92222513|NCT02873936|184346107|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-18.0|-8.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.0|-18.0|<0.001
92222514|NCT02873936|184346107|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|2.7||0.052|TWO_SIDED|95.0|-11.0|0.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.0|-11.0|0.052
92357572|NCT02579759|184619658|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.13||0.013|TWO_SIDED|97.5|-0.59|-0.03|||Longitudinal mixed model|||"This analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: Longitudinal model where the effect of each treatment over time (baseline, 6, 12 and 15 months) was estimated through a mixed model with repeated measures (MMRM) assuming time from baseline (Time) and Time-by-Treatment full interaction as fixed effects and patient as random effect and considering Time as continuous linear effect~3. Missing value imputation: No imputation"||-0.03|-0.59|0.013
92357573|NCT02579759|184619658|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.05|TWO_SIDED|97.5|-0.42|0.03|||Longitudinal mixed model|||"This analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: Longitudinal model where the effect of each treatment over time (baseline, 6, 12 and 15 months) was estimated through a mixed model with repeated measures (MMRM) assuming time from baseline (Time) and Time-by-Treatment full interaction as fixed effects and patient as random effect and considering Time as continuous linear effect~3. Missing value imputation: No imputation"||0.03|-0.42|0.05
92357574|NCT02579759|184619658|SUPERIORITY||Slope|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.013|TWO_SIDED|95.0|-0.31|-0.04|||Regression, Linear|||"Dose effect:~Dose is defined as a numerical variable proportional to quantity of PXT3003 administered (0 for Placebo, 1 for Dose 1, 2 for Dose 2).~The analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA assessing the dose-effect at the mean of 12 and 15 months, adjusting for baseline value and assuming centre as random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||-0.04|-0.31|0.013
92357575|NCT02579759|184619659|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.19||0.016|TWO_SIDED|97.5|-0.91|-0.03|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||-0.03|-0.91|0.016
92405734|NCT01929317|184701680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-1.95|1.24|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent Off for Week 6."|||1.24|-1.95|
92405735|NCT01929317|184701680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|||||TWO_SIDED|95.0|-2.44|0.75|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent Off for Week 8."|||0.75|-2.44|
92405736|NCT01929317|184701680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07|||||TWO_SIDED|95.0|-2.73|0.58|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent Off for Week 12."|||0.58|-2.73|
92164221|NCT03959241|184216708|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Platelet Recovery greater than or equal to 20,000/mm\^3 between the treatment groups||||<0.001
92222515|NCT02873936|184346108|SUPERIORITY||Least Squares Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-21.0|-10.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-10.0|-21.0|<0.001
92222516|NCT02873936|184346108|SUPERIORITY||Least Squares Mean Difference|-14.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-19.0|-8.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.0|-19.0|<0.001
92227144|NCT01235962|184356476|SUPERIORITY||Mean Difference (48M DFS FU)|-0.061||||0.858|TWO_SIDED|95.0|-0.736|0.614|||analysis of covariance|adjusted for baseline score using mixed-model||||0.614|-0.736|0.858
92227145|NCT01235962|184356476|SUPERIORITY||Mean Difference (54M DFS FU)|0.452||||0.3|TWO_SIDED|95.0|-0.404|1.309|||analysis of covariance|adjusted for baseline score using mixed-model||||1.309|-0.404|0.300
92164222|NCT03959241|184216708|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Platelet Recovery greater than or equal to 50,000/mm\^3 between the treatment groups||||<0.001
92164223|NCT03959241|184216709|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Lymphocyte Recovery between the treatment groups||||<0.001
92222517|NCT02873936|184346108|SUPERIORITY||Least Squares Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|3.1|<|0.001|TWO_SIDED|95.0|-23.0|-11.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-11.0|-23.0|<0.001
92357576|NCT02579759|184619659|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.16||0.084|TWO_SIDED|97.5|-0.65|0.08|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.08|-0.65|0.084
92357577|NCT02579759|184619659|SUPERIORITY||Slope|-0.22|STANDARD_ERROR_OF_MEAN|0.09||0.015|TWO_SIDED|95.0|-0.41|-0.04|||Regression, Linear|||"Dose effect:~Dose is defined as a numerical variable proportional to quantity of PXT3003 administered (0 for Placebo, 1 for Dose 1, 2 for Dose 2).~The analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA assessing the dose-effect at the mean of 12 and 15 months, adjusting for baseline value and assuming centre as random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||-0.04|-0.41|0.015
92357578|NCT02579759|184619660|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.28||0.162|TWO_SIDED|97.5|-1.01|0.23|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.23|-1.01|0.162
92357579|NCT02579759|184619660|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.23||0.556|TWO_SIDED|97.5|-0.66|0.39|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.39|-0.66|0.556
92357580|NCT02579759|184619660|SUPERIORITY||Slope|-0.17|STANDARD_ERROR_OF_MEAN|0.13||0.204|TWO_SIDED|95.0|-0.43|0.09|||Regression, Linear|||"Dose is defined as a numerical variable proportional to quantity of PXT3003 administered (0 for Placebo, 1 for Dose 1, 2 for Dose 2).~The analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA assessing the dose-effect at the mean of 12 and 15 months, adjusting for baseline value and assuming centre as random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.09|-0.43|0.204
92357581|NCT02579759|184619661|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.36||0.232|TWO_SIDED|97.5|-1.25|0.38|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.38|-1.25|0.232
92357582|NCT02579759|184619661|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.31||0.868|TWO_SIDED|97.5|-0.74|0.64|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.64|-0.74|0.868
92357583|NCT02579759|184619661|SUPERIORITY||Slope|-0.18|STANDARD_ERROR_OF_MEAN|0.18||0.322|TWO_SIDED|95.0|-0.53|0.17|||Regression, Linear|||"Dose is defined as a numerical variable proportional to quantity of PXT3003 administered (0 for Placebo, 1 for Dose 1, 2 for Dose 2).~The analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA assessing the dose-effect at the mean of 12 and 15 months, adjusting for baseline value and assuming centre as random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.17|-0.53|0.322
92357584|NCT02579759|184619662|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.46||0.377|TWO_SIDED|97.5|-1.43|0.62|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.62|-1.43|0.377
92227146|NCT01235962|184356477|SUPERIORITY||Mean Difference (Week 52)|-0.103||||0.059|TWO_SIDED|95.0|-0.211|0.004|||analysis of covariance|adjusted for baseline score using mixed-model||||0.004|-0.211|0.059
92164224|NCT03959241|184216710|SUPERIORITY|||||||0.919||||||Statistical significance was determined using a pre-specified threshold of 0.05|Fisher Exact|||The null hypothesis is that there is no difference of Donor Cell Engraftment at Day 28 after transplantation between the treatment groups||||0.919
92164225|NCT03959241|184216710|SUPERIORITY|||||||0.198||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Fisher Exact|||The null hypothesis is that there is no difference of Donor Cell Engraftment at Day 100 after transplantation between the treatment groups||||0.198
92164226|NCT03959241|184216711|SUPERIORITY|||||||0.67||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference of quantitative donor chimerism at Day 28 after transplantation between the treatment groups||||0.670
92164227|NCT03959241|184216711|SUPERIORITY|||||||0.607||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference of quantitative donor chimerism at Day 100 after transplantation between the treatment groups||||0.607
92164228|NCT03959241|184216712|SUPERIORITY|||||||0.906||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||This is the unadjusted analysis. The null hypothesis is that there is no difference of Disease Relapse between the treatment groups||||0.906
92357585|NCT02579759|184619662|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.38||0.334|TWO_SIDED|97.5|-1.21|0.48|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.48|-1.21|0.334
92357586|NCT02579759|184619662|SUPERIORITY||Slope|-0.19|STANDARD_ERROR_OF_MEAN|0.22||0.373|TWO_SIDED|95.0|-0.62|0.23|||Regression, Linear|||"Dose is defined as a numerical variable proportional to quantity of PXT3003 administered (0 for Placebo, 1 for Dose 1, 2 for Dose 2).~The analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA assessing the dose-effect at the mean of 12 and 15 months, adjusting for baseline value and assuming centre as random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.23|-0.62|0.373
92357587|NCT02579759|184619666|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.13||0.023|TWO_SIDED|97.5|-0.58|0.0|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0|-0.58|0.023
92357588|NCT02579759|184619666|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.162|TWO_SIDED|97.5|-0.4|0.09|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.09|-0.4|0.162
92357589|NCT02579759|184619670|SUPERIORITY||Odds Ratio (OR)|2.09||||0.097|TWO_SIDED|97.5|0.77|5.68|||General Linear Mixed Model|||The proportion of responders (on Completers selection only) at the end of treatment was assessed through a Generalized Linear Mixed Model (GLMM) featuring logistic regression including treatment as a fixed effect, adjusting for the baseline value and center as a random effect.||5.68|0.77|0.097
92357590|NCT02579759|184619670|SUPERIORITY||Odds Ratio (OR)|1.07||||0.865|TWO_SIDED|97.5|0.42|2.7|||General Linear Mixed Model|||The proportion of responders (on Completers selection only) at the end of treatment was assessed through a Generalized Linear Mixed Model (GLMM) featuring logistic regression including treatment as a fixed effect, adjusting for the baseline value and center as a random effect.||2.7|0.42|0.865
92164229|NCT03959241|184216712|SUPERIORITY||Hazard Ratio (HR)|0.985||||0.947|TWO_SIDED|95.0|0.641|1.515||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of Disease Relapse hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies||1.515|0.641|0.947
92164230|NCT03959241|184216713|SUPERIORITY|||||||0.167||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||This is the unadjusted analysis. The null hypothesis is that there is no difference of Treatment-related Mortality between the treatment groups||||0.167
92164231|NCT03959241|184216713|SUPERIORITY||Hazard Ratio (HR)|0.675||||0.133|TWO_SIDED|95.0|0.404|1.127||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of Treatment-related Mortality hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies||1.127|0.404|0.133
92164232|NCT03959241|184216717|SUPERIORITY|||||||0.018||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Grade 2 and 3 infections between the treatment groups||||0.018
92164233|NCT03959241|184216718|SUPERIORITY|||||||0.825||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of CMV between the treatment groups||||0. 825
92164234|NCT03959241|184216719|SUPERIORITY|||||||0.351||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||This is the unadjusted analysis. The null hypothesis is that there is no difference of Disease-Free Survival between the treatment groups||||0.351
92164235|NCT03959241|184216719|SUPERIORITY||Hazard Ratio (HR)|0.847||||0.32|TWO_SIDED|95.0|0.61|1.176||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of Disease-Free Survival hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies||1.176|0.610|0.320
92164236|NCT03959241|184216720|SUPERIORITY|||||||0.335||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||This is the unadjusted analysis. The null hypothesis is that there is no difference of Overall Survival between the treatment groups||||0.335
92227147|NCT01235962|184356477|SUPERIORITY||Mean Difference (24M DFS FU)|-0.041||||0.487|TWO_SIDED|95.0|-0.155|0.074|||analysis of covariance|adjusted for baseline score using mixed-model||||0.074|-0.155|0.487
92227148|NCT01235962|184356477|SUPERIORITY||Mean Difference (36M DFS FU)|0.037||||0.885|TWO_SIDED|95.0|-0.085|0.16|||analysis of covariance|adjusted for baseline score using mixed-model||||0.160|-0.085|0.885
92164237|NCT03959241|184216720|SUPERIORITY||Hazard Ratio (HR)|0.797||||0.252|TWO_SIDED|95.0|0.541|1.175||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of the Overall Survival hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies||1.175|0.541|0.252
92164238|NCT00545844|184216723|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92357591|NCT02579759|184619671|SUPERIORITY||Odds Ratio (OR)|3.39||||0.026|TWO_SIDED|97.5|0.99|11.62|||General Linear Mixed Model|||The proportion of responders (on Completers selection only) at the end of treatment was assessed through a Generalized Linear Mixed Model (GLMM) featuring logistic regression including treatment as a fixed effect, adjusting for the baseline value and center as a random effect.||11.62|0.99|0.026
92357592|NCT02579759|184619671|SUPERIORITY||Odds Ratio (OR)|1.26||||0.569|TWO_SIDED|97.5|0.5|3.16|||General Linear Mixed Model|||The proportion of responders (on Completers selection only) at the end of treatment was assessed through a Generalized Linear Mixed Model (GLMM) featuring logistic regression including treatment as a fixed effect, adjusting for the baseline value and center as a random effect.||3.16|0.5|0.569
92357593|NCT02014467|184619682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.42|||<|0.0001|TWO_SIDED|95.0|3.67|5.18|||ANCOVA|||||5.18|3.67|<0.0001
92357594|NCT02014467|184619682|SUPERIORITY_OR_OTHER|||||||0.7495||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.7495
92357595|NCT02014467|184619683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.21|||<|0.0001|TWO_SIDED|95.0|2.45|3.96|||ANCOVA|||||3.96|2.45|<0.0001
92357596|NCT02014467|184619683|SUPERIORITY_OR_OTHER|||||||0.9029||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.9029
92357597|NCT02014467|184619684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.26|||<|0.0001|TWO_SIDED|95.0|1.72|2.8|||ANCOVA|||||2.80|1.72|<0.0001
92164239|NCT00545844|184216724|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92164240|NCT00545844|184216725|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||McNemar-Bowker|||McNemar-Bowker test is McNemar chi-squared statistic for binary matched pairs, with Bowker chi-squared fit test of symmetry model (tests all rows of data) (cf. Agresti, 2007)||||<0.001
92164241|NCT00545844|184216726|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||McNemar-Bowker|||McNemar-Bowker test is McNemar chi-squared statistic for binary matched pairs, with Bowker chi-squared fit test of symmetry model (tests all rows of data) (cf. Agresti, 2007)||||<0.001
92164242|NCT00545844|184216727|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||McNemar-Bowker|||McNemar-Bowker test is McNemar chi-squared statistic for binary matched pairs, with Bowker chi-squared fit test of symmetry model (tests all rows of data) (cf. Agresti, 2007)||||<0.001
92164243|NCT00371566|184216740|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|1.93||0.394||95.0|-5.5|2.19|||ANCOVA|Null hypothesis or reject it in favor of the two sided alternative hypothesis||The study was designed to provide evidence to support the null hypothesis: Delta equals 0% or reject it in favor of the two sided alternative hypothesis: Delta does not equal 0%, where Delta was the difference in the true response rate for the two treatment groups.||2.19|-5.50|.394
92164244|NCT05565391|184216773|OTHER||Risk Ratio (RR)|1.95|||<|0.0001|TWO_SIDED|95.0|1.54|2.47|||Log-binomial regression model||Unweighted RRs were estimated using a log-binomial regression model with Wald confidence intervals.|||2.47|1.54|<.0001
92164245|NCT05565391|184216773|OTHER||Risk Ratio (RR)|2.01|||<|0.0001|TWO_SIDED|95.0|1.52|2.67|||Log-binomial regression model||Unweighted RRs were estimated using a log-binomial regression model with Wald confidence intervals.|||2.67|1.52|<.0001
92357598|NCT02014467|184619684|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.1070
92357599|NCT02014467|184619685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.59|||<|0.0001|TWO_SIDED|95.0|0.98|2.2|||ANCOVA|||||2.20|0.98|<0.0001
92357600|NCT02014467|184619685|SUPERIORITY_OR_OTHER|||||||0.4369||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.4369
92357601|NCT02014467|184619686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.36|||<|0.0001||95.0|2.39|4.32|||ANCOVA|||||4.32|2.39|<0.0001
92357602|NCT02014467|184619686|SUPERIORITY_OR_OTHER|||||||0.6082||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.6082
92357603|NCT02014467|184619687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.31|||<|0.0001|TWO_SIDED|95.0|2.74|3.88|||ANCOVA|||||3.88|2.74|<0.0001
92357604|NCT02014467|184619687|SUPERIORITY_OR_OTHER|||||||0.3513||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.3513
92357605|NCT02014467|184619688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.62|||<|0.0001|TWO_SIDED|95.0|1.96|3.27|||ANCOVA|||||3.27|1.96|<0.0001
92357606|NCT02014467|184619688|SUPERIORITY_OR_OTHER|||||||0.541||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.5410
92357607|NCT02014467|184619689|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.72|||<|0.0001|TWO_SIDED|95.0|3.71|5.72|||ANCOVA|||||5.72|3.71|<0.0001
92357608|NCT02014467|184619689|SUPERIORITY_OR_OTHER|||||||0.3957||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.3957
92357609|NCT02014467|184619690|SUPERIORITY_OR_OTHER||Hodges Lehmann Estimate of Difference|-56.92|||<|0.0001|TWO_SIDED|95.0|-61.38|-52.65||Two-Sided, Wilcoxon t Approximation|Wilcoxon Rank Sum test||s-CTX at Month 6|||-52.65|-61.38|<0.0001
92357610|NCT02014467|184619690|SUPERIORITY_OR_OTHER||Hodges Lehmann Estimate of Difference|-52.56|||<|0.0001||95.0|-59.38|-46.17||Two-Sided, Wilcoxon t Approximation|Wilcoxon Rank Sum test||s-CTX at Month 12|||-46.17|-59.38|<0.0001
92357611|NCT02014467|184619691|SUPERIORITY_OR_OTHER||Hodges Lehmann Estimate of Difference|-56.94|||<|0.0001|TWO_SIDED|95.0|-61.6|-52.7||Two-Sided, Wilcoxon t Approximation|Wilcoxon Rank Sum test||s-PINP at Month 6|||-52.70|-61.60|<0.0001
92164246|NCT05565391|184216774|OTHER||Risk Ratio (RR)|2.22|||<|0.0001|TWO_SIDED|95.0|1.69|2.9|||Log-binomial regression model||Risk ratio was estimated using a log-binomial regression model and confidence interval was estimated using robust error variance.|||2.90|1.69|<.0001
92227149|NCT01235962|184356477|SUPERIORITY||Mean Difference (48M DFS FU)|-0.032||||0.676|TWO_SIDED|95.0|-0.183|0.119|||analysis of covariance|adjusted for baseline score using mixed-model||||0.119|-0.183|0.676
92357612|NCT02014467|184619691|SUPERIORITY_OR_OTHER||Hodges Lehmann Estimate of Difference|-51.21|||<|0.0001|TWO_SIDED|95.0|-56.26|-45.91||Two-Sided, Wilcoxon t Approximation|Wilcoxon Rank Sum test||s-PINP at Month 12|||-45.91|-56.26|<0.0001
92357613|NCT01217892|184619716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.084||0.0106|TWO_SIDED|95.0|-0.38|-0.05||significant at alpha=0.05 (2-sided) applying Hochberg's method across the two Dapagliflozin BID groups.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05 using Hochberg's method to control the overall Type I error across hypotheses in the two Dapagliflozin BID groups, two-sided)||-0.05|-0.38|0.0106
92357614|NCT01217892|184619716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.0843|<|0.0001|TWO_SIDED|95.0|-0.52|-0.18||significant at alpha=0.05 (2-sided) applying Hochberg's method across the two Dapagliflozin BID groups.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05 using Hochberg's method to control the overall Type I error across hypotheses in the two Dapagliflozin BID groups, two-sided)||-0.18|-0.52|<0.0001
92357615|NCT01217892|184619717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.82|STANDARD_ERROR_OF_MEAN|0.363|<|0.0001|TWO_SIDED|95.0|-2.53|-1.1||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-1.10|-2.53|<0.0001
92357616|NCT01217892|184619717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.18|STANDARD_ERROR_OF_MEAN|0.3636|<|0.0001|TWO_SIDED|95.0|-2.89|-1.46||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-1.46|-2.89|<0.0001
92357617|NCT01217892|184619718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.7|STANDARD_ERROR_OF_MEAN|3.04|<|0.0001|TWO_SIDED|95.0|-21.7|-9.7||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-9.7|-21.7|<0.0001
92357618|NCT01217892|184619718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.7|STANDARD_ERROR_OF_MEAN|3.039|<|0.0001|TWO_SIDED|95.0|-22.7|-10.7||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-10.7|-22.7|<0.0001
92357619|NCT01217892|184619719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|3.132||0.001|TWO_SIDED|95.0|-16.5|-4.2||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-4.2|-16.5|0.0010
92357620|NCT01217892|184619719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|STANDARD_ERROR_OF_MEAN|3.139|<|0.0001|TWO_SIDED|95.0|-21.4|-9.1||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-9.1|-21.4|<0.0001
92164247|NCT05565391|184216775|OTHER||Risk Ratio (RR)|1.79||||0.0447|TWO_SIDED|95.0|1.01|3.15|||Log-binomial regression model||Risk ratio was estimated using a log-binomial regression model and confidence interval was estimated using robust error variance.|||3.15|1.01|0.0447
92164248|NCT05565391|184216776|OTHER|||||||0.4241|||||||Quantile regression|||||||0.4241
92164249|NCT05565391|184216776|OTHER|||||||0.0281|||||||Quantile regression|||||||0.0281
92164250|NCT05565391|184216777|OTHER|||||||0.7682|||||||Quantile regression|||||||0.7682
92164251|NCT05565391|184216778|OTHER|||||||0.0326|||||||Quantile regression|||||||0.0326
92227150|NCT01235962|184356477|SUPERIORITY||Mean Difference (54M DFS FU)|-0.015||||0.859|TWO_SIDED|95.0|-0.183|0.153|||analysis of covariance|adjusted for baseline score using mixed-model||||0.153|-0.183|0.859
92164252|NCT05565391|184216779|OTHER||Hazard Ratio (HR)|0.17|||<|0.0001|TWO_SIDED|95.0|0.09|0.31|||Cox proportional hazard model||Hazard ratio was estimated using unadjusted Cox proportional hazard model.|||0.31|0.09|<.0001
92222518|NCT02873936|184346108|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|3.1|<|0.001|TWO_SIDED|95.0|-19.0|-7.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-19.0|<0.001
92222519|NCT02873936|184346108|SUPERIORITY||Least Squares Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-23.0|-10.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-10.0|-23.0|<0.001
92222520|NCT02873936|184346108|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-19.0|-5.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-19.0|<0.001
92222521|NCT02873936|184346109|SUPERIORITY||Least Squares Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.055|<|0.001|TWO_SIDED|95.0|-0.33|-0.11||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.11|-0.33|<0.001
92357621|NCT01217892|184619720|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.2|STANDARD_ERROR_OF_MEAN|6.097||0.0455|TWO_SIDED|95.0|0.2|24.1||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|Regression, Logistic|Methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||24.1|0.2|0.0455
92357622|NCT01217892|184619720|SUPERIORITY_OR_OTHER||Risk Difference (RD)|16.8|STANDARD_ERROR_OF_MEAN|6.153||0.0062|TWO_SIDED|95.0|4.8|28.9||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|Regression, Logistic|Methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||28.9|4.8|0.0062
92357623|NCT00831389|184619722|SUPERIORITY_OR_OTHER|||||||0.791||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median change in PG concentration due to exercise for the OL and CL study phases do not differ.||||0.791
92357624|NCT00831389|184619723|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median tally of hypoglycemic events immediately following exercise for the OL and CL study phases do not differ.||||0.5
92357625|NCT00831389|184619724|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median tally of nocturnal hypoglycemic events following exercise for the OL and CL study phases do not differ.||||0.25
92357626|NCT00831389|184619725|SUPERIORITY_OR_OTHER|||||||0.0669||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median peak post-prandial PG for the OL and CL study phases do not differ.||||0.0669
92357627|NCT00831389|184619726|SUPERIORITY_OR_OTHER|||||||0.2256||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median nadir PG immediately following exercise for the OL and CL study phases do not differ.||||0.2256
92222522|NCT02873936|184346109|SUPERIORITY||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.055||0.006|TWO_SIDED|95.0|-0.26|-0.04||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.04|-0.26|0.006
92276586|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72||||0.056|TWO_SIDED|95.0|-3.47|0.04|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.04|-3.47|0.056
92357628|NCT00831389|184619727|SUPERIORITY_OR_OTHER|||||||0.791||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median overnight nadir PG for the OL and CL arms do not differ.||||0.791
92357629|NCT00831389|184619728|SUPERIORITY_OR_OTHER|||||||0.2036||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median percentage of time PG is within euglycemic range for the OL and CL phases do not differ.||||0.2036
92357630|NCT00831389|184619729|SUPERIORITY_OR_OTHER|||||||0.6221||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median percentage of time PG is above euglycemic range for the OL and CL phases do not differ.||||0.6221
92357631|NCT00831389|184619730|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median percentage of time PG is below euglycemic range for the OL and CL phases do not differ.||||0.021
92357632|NCT00831389|184619731|SUPERIORITY_OR_OTHER|||||||0.0176||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median tally of hypoglycemic events over 48 hour in-patient period for the OL and CL phases do not differ.||||0.0176
92357633|NCT01592747|184619772|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.659|TWO_SIDED|95.0|0.7|1.8|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel test was performed controlling for Autism Spectrum Disorder (ASD) subtype. Odds ratio was calculated for placebo vs. memantine full dose.||1.8|0.7|0.6590
92357634|NCT01592747|184619772|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.7839|TWO_SIDED|95.0|0.7|1.7|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel test was performed controlling for Autism Spectrum Disorder (ASD) subtype. Odds ratio was calculated for placebo vs. Memantine reduced dose||1.7|0.7|0.7839
92357635|NCT01592747|184619774|SUPERIORITY_OR_OTHER||Least squares mean difference|0.1||||0.8136|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||||0.7|-0.5|0.8136
92357636|NCT01592747|184619774|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0||||0.9244|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||||0.5|-0.6|0.9244
92357637|NCT01592747|184619775|SUPERIORITY_OR_OTHER||Least squares mean difference|0.1||||0.7611|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||||0.7|-0.5|0.7611
92357638|NCT01592747|184619775|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.3176|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||||0.9|-0.3|0.3176
92357639|NCT01592747|184619776|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0||||0.902|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||||0.6|-0.5|0.9020
92357640|NCT01592747|184619776|SUPERIORITY_OR_OTHER||Least squares mean difference|0.4||||0.1279|TWO_SIDED|95.0|-0.1|1.0|||ANCOVA|||||1.0|-0.1|0.1279
92357641|NCT01592747|184619777|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4144|TWO_SIDED|95.0|-0.4|1.1|||ANCOVA|||||1.1|-0.4|0.4144
92357642|NCT01592747|184619777|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4212|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||||1.0|-0.4|0.4212
92357643|NCT01592747|184619778|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.2||||0.6238|TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|||||0.5|-0.9|0.6238
92164253|NCT05565391|184216779|OTHER||Hazard Ratio (HR)|0.22|||<|0.0001|TWO_SIDED|95.0|0.11|0.43|||Cox proportional hazard model||Hazard ratio was estimated using unadjusted Cox proportional hazard model.|||0.43|0.11|<.0001
92164254|NCT05565391|184216780|OTHER||Hazard Ratio (HR)|0.11|||<|0.0001|TWO_SIDED|95.0|0.06|0.22|||Cox proportional hazard model||Hazard ratio was estimated using weighted Cox proportional hazard model and confidence interval was estimated using robust error variance.|||0.22|0.06|<.0001
92357644|NCT01592747|184619778|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2||||0.5957|TWO_SIDED|95.0|-0.5|0.9|||ANCOVA|||||0.9|-0.5|0.5957
92357645|NCT01592747|184619779|SUPERIORITY_OR_OTHER||Least squares mean difference|0.1||||0.864|TWO_SIDED|95.0|-0.6|0.7|||ANCOVA|||||0.7|-0.6|0.8640
92357646|NCT01592747|184619779|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4362|TWO_SIDED|95.0|-0.4|0.9|||ANCOVA|||||0.9|-0.4|0.4362
92357647|NCT01592747|184619780|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.1||||0.7182|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|||||0.6|-0.8|0.7182
92357648|NCT01592747|184619780|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.1||||0.839|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|||||0.6|-0.8|0.8390
92357649|NCT01592747|184619781|SUPERIORITY_OR_OTHER||Least squares mean difference|0.7||||0.0813|TWO_SIDED|95.0|-0.1|1.4|||ANCOVA|||||1.4|-0.1|0.0813
92357650|NCT01592747|184619781|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4365|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||||1.0|-0.4|0.4365
92357651|NCT01592747|184619782|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4213|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||||1.0|-0.4|0.4213
92357652|NCT01592747|184619782|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4267|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||||1.0|-0.4|0.4267
92357653|NCT01592747|184619783|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.3713||95.0|-0.4|1.0|||ANCOVA|||||1.0|-0.4|0.3713
92357654|NCT01592747|184619783|SUPERIORITY_OR_OTHER||Least squares mean difference|0.4||||0.2855|TWO_SIDED|95.0|-0.3|1.1|||ANCOVA|||||1.1|-0.3|0.2855
92357655|NCT00456365|184619844|SUPERIORITY_OR_OTHER|||||||0.03|||||||Chi-squared|||||||0.03
92357656|NCT00456365|184619845|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANCOVA|||||||0.02
92357657|NCT00456365|184619846|SUPERIORITY_OR_OTHER|||||||0.69|||||||ANOVA|||||||0.69
92357658|NCT00456365|184619847|SUPERIORITY_OR_OTHER|||||||0.21|||||||ANCOVA|||||||0.21
92357659|NCT00928720|184619848|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.045|TWO_SIDED||||||Mixed Models Analysis|||||||0.045
92357660|NCT03715829|184619859|SUPERIORITY||Least Squares Mean Difference (Net)|-23.2|STANDARD_ERROR_OF_MEAN|5.62|<|0.0001|TWO_SIDED|90.0|-32.53|-13.96||Hochberg's step-up procedure was conducted to compare ritlecitinib 200mg - 50mg QD dose group vs placebo using observed p-values. The familywise Type 1 error rate was controlled at one-sided 0.05. Hochberg adjusted p-value is presented here.|ANCOVA|||||-13.96|-32.53|<0.0001
92357661|NCT03715829|184619859|SUPERIORITY||Least Squares Mean Difference (Net)|-23.2|STANDARD_ERROR_OF_MEAN|5.63|<|0.0001|TWO_SIDED|90.0|-32.53|-13.93||Hochberg's step-up procedure was conducted to compare ritlecitinib 100mg - 50mg QD dose group vs placebo using observed p-values. The familywise Type 1 error rate was controlled at one-sided 0.05. Hochberg adjusted p-value is presented here.|ANCOVA|||||-13.93|-32.53|<0.0001
92357662|NCT03715829|184619859|SUPERIORITY||Least Squares Mean Difference (Net)|-20.6|STANDARD_ERROR_OF_MEAN|5.84||0.0003|TWO_SIDED|90.0|-30.23|-10.93||Hochberg's step-up procedure was conducted to compare the ritlecitinib 50 mg QD dose group vs placebo using observed p-values. The familywise Type 1 error rate was controlled at one-sided 0.05. Hochberg adjusted p-value is presented here.|ANCOVA|||||-10.93|-30.23|0.0003
92357663|NCT03715829|184619859|SUPERIORITY||Least Squares Mean Difference (Net)|-16.7|STANDARD_ERROR_OF_MEAN|6.71||0.0068|TWO_SIDED|90.0|-27.77|-5.61||Hochberg's step-up procedure was conducted to compare the ritlecitinib 30 mg QD dose group vs placebo using observed p-values. The familywise Type 1 error rate was controlled at one-sided 0.05. One-sided unadjusted p-value is presented here.|ANCOVA|||||-5.61|-27.77|0.0068
92357664|NCT03715829|184619859|SUPERIORITY||Least Squares Mean Difference (Net)|-5.1|STANDARD_ERROR_OF_MEAN|6.03||0.2015|TWO_SIDED|90.0|-15.02|4.91||Hochberg's step-up procedure was conducted to compare the ritlecitinib 10 mg QD dose group vs placebo using observed p-values. The familywise Type 1 error rate was controlled at one-sided 0.05. One-sided unadjusted p-value is presented here.|ANCOVA|||||4.91|-15.02|0.2015
92357665|NCT02951481|184619921|SUPERIORITY|||||||0.56|||||||Chi-squared|||||||0.56
92357666|NCT02951481|184619922|SUPERIORITY|||||||0.55|TWO_SIDED|95.0|||||Fisher Exact|||||||0.55
92357667|NCT02951481|184619923|SUPERIORITY|||||||0.023|||||||Chi-squared|||||||0.023
92357668|NCT02951481|184619924|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92222523|NCT02873936|184346109|SUPERIORITY||Least Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.075|<|0.001|TWO_SIDED|95.0|-0.51|-0.21||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.21|-0.51|<0.001
92357669|NCT02951481|184619925|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
92357670|NCT02951481|184619926|SUPERIORITY|||||||0.07|||||||Chi-squared|||||||0.07
92357671|NCT02951481|184619927|SUPERIORITY|||||||0.47|||||||Chi-squared|||||||0.47
92357672|NCT02951481|184619928|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||0.29
92357673|NCT01051661|184619929|SUPERIORITY|The non-inferiority objective was met if the lower limit (LL) of the 95% CI for the Vaccine Efficacy Improvement (VEI) was \> -33%. Furthermore, the superiority objective was met if the LL of the 95% CI for the VEI was \>0.|Vaccine efficacy increase|76.7|||||TWO_SIDED|95.0|18.53|93.39||||||Evaluation of the relative protective efficacy of 2 doses of Arepanrix™ vaccine (Arepanrix 2D Group) compared to two doses of GSK2340273A vaccine (GSK2340273A Group) beginning 14 days after Dose 1 vaccination (for each subject enrolled) and continuing until study conclusion on Day 385.||93.39|18.53|
92357674|NCT01051661|184619957|OTHER||Adjusted GMT ratios|5.61|||||TWO_SIDED|95.0|4.92|6.41||||||Adjusted Geometric mean titer (GMT) ratios of Hemagglutination Inhibition (HI) antibody post vaccination between Arepanrix 2D Group and GSK2340273A Group for A/California influenza strain (Arepanrix 2D Group/GSK2340273A Group).||6.41|4.92|
92357675|NCT01051661|184619957|OTHER||Adjusted GMT ratios|1.05|||||TWO_SIDED|95.0|0.93|1.19||||||Adjusted Geometric mean titer (GMT) ratios of Hemagglutination Inhibition (HI) antibody post vaccination between Arepanrix 1D Group and GSK2340273A Group for A/California influenza strain (Arepanrix 1D Group/GSK2340273A Group).||1.19|0.93|
92357676|NCT00967486|184620041|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
92357677|NCT01469156|184620042|OTHER|Visually significant ocular or systemic AEs were predominantly mild or moderate. No significant safety signals were observed in either group.High- and standard-dose ranibizumab were generally well tolerated without evidence of ocular or systemic severe adverse events, including arterial thromboembolic events.|data survey|28.0||||0.05|TWO_SIDED|95.0|0.0|28.0||28 ocular and non-ocular adverse events collected, in mild to moderate nature|t-test, 2 sided|||Purpose was to determine safety and efficacy of intravitreal high-dose ranibizumab in the treatment of active PCV.|Visually significant ocular or systemic AEs that were either reported by subjects or identified by imaging and/or ocular exam|28|0|0.05
92401459|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.554||95.0||||p-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.554
92401460|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.128||95.0||||p-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.128
92357678|NCT03773562|184620065|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Responders vs Non-responders||||0.04
92357679|NCT03773562|184620067|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Responders vs Non-Responders||||0.002
92357680|NCT03773562|184620068|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Responders vs Non-responders||||0.01
92357681|NCT03773562|184620070|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||Responder vs non-responder||||0.0003
92357682|NCT03773562|184620071|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||Responder vs non-responder||||0.0003
92357683|NCT03773562|184620072|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||Responder vs non-responder||||0.0003
92357684|NCT03773562|184620073|SUPERIORITY|||||||0.0033|||||||t-test, 2 sided|||Responder vs non-responder||||0.0033
92357685|NCT03773562|184620074|SUPERIORITY|||||||0.0041|||||||t-test, 2 sided|||Responder vs non-responder||||0.0041
92357686|NCT03773562|184620075|SUPERIORITY|||||||0.0046|||||||t-test, 2 sided|||Responder vs non-responder||||0.0046
92357687|NCT01854762|184620090|OTHER||Odds Ratio (OR)|3.1|||<|0.01|TWO_SIDED|95.0|1.3|7.4|||Fisher Exact||||Kaplan-Meier estimates for the proportion of patients without virological failure by weeks 2, 4 and 6, and at delivery, using treatment-related discontinuation equal failure analysis|7.4|1.3|<0.01
92357688|NCT05078112|184620104|OTHER|||||||0.000393|||||||t-test, 2 sided|||||||0.000393
92357689|NCT01852214|184620141|SUPERIORITY_OR_OTHER|||||||0.022|||||||Mixed Models Analysis|||||||0.022
92357690|NCT01852214|184620142|SUPERIORITY_OR_OTHER|||||||0.086|||||||Mixed Models Analysis|||||||0.086
92357691|NCT04105725|184620159|SUPERIORITY||||||<|0.05|||||||negative binomial regression|||||||<0.05
92357692|NCT00107575|184620178|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Chi-squared|||||||>.05
92357693|NCT00107575|184620179|SUPERIORITY_OR_OTHER||expected count ratio|0.81||||0.027|TWO_SIDED|95.0|0.67|0.98||a priori p-value was p \< .05|generalized estimating equations|Negative binomial model controlling for sex, motivation to change drinking, and baseline drinking||||0.98|0.67|.027
92357694|NCT00107575|184620180|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Chi-squared|||||||.18
92357695|NCT00107575|184620181|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||Chi-squared|||||||.95
92357696|NCT00107575|184620182|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Chi-squared|||||||.76
92357697|NCT01373281|184620183|SUPERIORITY_OR_OTHER_LEGACY||Vaccine efficacy|56.5|||||TWO_SIDED|95.0|43.8|66.4||||||The statistical methodology was based on the use of the two-sided 95% confidence interval (CI) of the vaccine efficacy (expressed in %). The CI was calculated using the exact method conditional on the total number of cases in both groups (exact method by Breslow \& Day). The vaccine efficacy of the CYD dengue vaccine was considered significant if the lower bound of its 95% CI was greater than 25%.||66.4|43.8|
92222524|NCT02873936|184346109|SUPERIORITY||Least Squares Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.075||0.003|TWO_SIDED|95.0|-0.37|-0.08||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.08|-0.37|0.003
92357698|NCT01373281|184620186|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|55.4|||||TWO_SIDED|95.0|47.3|62.3||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||62.3|47.3|
92357699|NCT01373281|184620187|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|57.9|||||TWO_SIDED|95.0|49.0|65.2||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||65.2|49.0|
92357700|NCT01373281|184620188|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|54.8|||||TWO_SIDED|95.0|46.8|61.7||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||61.7|46.8|
92357701|NCT02947984|184620217|OTHER|||||||0.234|||||||Log Rank|||Null hypothesis: Progression free survival is not significantly different by dose level in the overall cohort.||||0.234
92357702|NCT02947984|184620217|OTHER|||||||0.82|||||||Log Rank|||Null hypothesis: Progression free survival is not significantly different by dose level in the subgroup receiving treatment due to a sub-total resection||||.820
92357703|NCT02947984|184620217|OTHER|||||||0.061|||||||Log Rank|||Null hypothesis: Progression free survival is not significantly different by dose level in the sub-group receiving treatment due to recurrent disease||||.061
92357704|NCT04378153|184620221|SUPERIORITY||Difference in % Participants|2.17||||0.1215|TWO_SIDED|95.0|-0.7|5.7|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants changing assigned regimen is the same in Discontinue and Continue arms.||5.7|-0.7|0.1215
92357705|NCT03345550|184620222|SUPERIORITY|||||||0.24|||||||Kruskal-Wallis|||Baseline||||.24
92357706|NCT03345550|184620222|SUPERIORITY|||||||0.43|||||||Kruskal-Wallis|||1 month analysis||||.43
92357707|NCT03345550|184620222|SUPERIORITY|||||||0.54|||||||Kruskal-Wallis|||3 month||||.54
92357708|NCT03345550|184620225|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||.31
92357709|NCT01149460|184620238|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means (T/R)|111.34|||||TWO_SIDED|90.0|100.54|123.29|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||123.29|100.54|
92357710|NCT01149460|184620239|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means (T/R)|100.01|||||TWO_SIDED|90.0|96.34|103.82|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||103.82|96.34|
92357711|NCT01149460|184620240|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means (T/R)|100.01|||||TWO_SIDED|90.0|96.38|103.78|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||103.78|96.38|
92357712|NCT01149460|184620241|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means (T/R)|103.48|||||TWO_SIDED|90.0|97.87|109.41|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||109.41|97.87|
92357713|NCT01149460|184620242|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means (T/R)|99.2|||||TWO_SIDED|90.0|97.14|101.31|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||101.31|97.14|
92357714|NCT01149460|184620243|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means|99.1|||||TWO_SIDED|90.0|97.04|101.19|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||101.19|97.04|
92357715|NCT03257657|184620249|OTHER|||||||0.1|||||||t-test, 2 sided|||||||0.1
92357716|NCT03257657|184620251|OTHER|||||||0.13|||||||t-test, 2 sided|||||||0.13
92276587|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.0448|TWO_SIDED|95.0|-3.75|-0.04|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.04|-3.75|0.0448
92276588|NCT01360632|184454755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13||||0.0251|TWO_SIDED|95.0|-3.98|-0.27|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.27|-3.98|0.0251
92276589|NCT01360632|184454756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.1732|TWO_SIDED|95.0|-1.63|0.29|||ANCOVA|||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The last observation carried forward (LOCF) method was used to impute missing data.||0.29|-1.63|0.1732
92276590|NCT01360632|184454756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.0066|TWO_SIDED|95.0|-2.31|-0.37|||ANCOVA|||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The last observation carried forward (LOCF) method was used to impute missing data.||-0.37|-2.31|0.0066
92276591|NCT01360632|184454757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.1226|TWO_SIDED|95.0|-1.78|0.21|||ANCOVA|||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||0.21|-1.78|0.1226
92276592|NCT01360632|184454757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69||||0.001|TWO_SIDED|95.0|-2.69|-0.68|||ANCOVA|||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.68|-2.69|0.001
92276593|NCT01360632|184454758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.8164|TWO_SIDED|95.0|-0.93|0.73|||ANCOVA|||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.73|-0.93|0.8164
92276594|NCT01360632|184454758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.1939|TWO_SIDED|95.0|-1.39|0.28|||ANCOVA|||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.28|-1.39|0.1939
92276595|NCT01360632|184454759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.5192|TWO_SIDED|95.0|-1.14|0.57|||ANCOVA|||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||0.57|-1.14|0.5192
92276596|NCT01360632|184454759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88||||0.0443|TWO_SIDED|95.0|-1.75|-0.02|||ANCOVA|||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.02|-1.75|0.0443
92357717|NCT03257657|184620253|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
92357718|NCT02272985|184620263|OTHER||||||=|0.03||||||the p value was calculated|Mixed Models Analysis|||||||=0.03
92357719|NCT02272985|184620264|OTHER|||||||0.001|||||||Mixed Models Analysis|||Left frontal gray matter:||||0.001
92357720|NCT02272985|184620264|OTHER|||||||0.08|||||||Mixed Models Analysis|||Right frontal gray matter:||||0.08
92357721|NCT02489279|184620267|SUPERIORITY|||||||0.026|||||||GLM with repeated measures ANOVA|||We used a General Linear Model (GLM) with time (Baseline and 10 Weeks) as the within subjects factor, experimental group (Active and Control) as the between subjects factor, and a group by time interaction to test for differential treatment effects. We report the Group x Time interaction.||||0.026
92357722|NCT02489279|184620267|SUPERIORITY|||||||0.0075|||||||t-test, 1 sided|||We then examined the within-subjects factor of Time (Post-Treatment (10 week measure) - Baseline), for each Group, using a 1-tailed t test.||||0.0075
92357723|NCT02489279|184620267|SUPERIORITY|||||||0.25|||||||t-test, 1 sided|||We then examined the within-subjects factor of Time (Post-Treatment (10 week measure) - Baseline), for each Group, using a 1-tailed t test.||||0.25
92357724|NCT02489279|184620268|SUPERIORITY|||||||0.014|||||||GLM with repeated measures ANOVA|||We used a GLM with time (Baseline and 10 Weeks) as the within subjects factor, experimental group (Active and Control) as the between subjects factor, and a group by time interaction to test for differential treatment effects. We report the Group x Time interaction.||||0.014
92357725|NCT02489279|184620268|SUPERIORITY|||||||0.0005|||||||t-test, 1 sided|||We then examined the within-subjects factor of Time (Post-Treatment (10 week measure) - Baseline), for each Group, using a 1-tailed t test.||||0.0005
92164255|NCT05565391|184216781|OTHER||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.1|0.45|||Weighted Cox proportional hazard model||Hazard ratio was estimated using weighted Cox proportional hazard model and confidence interval was estimated using robust error variance.|||0.45|0.10|<.0001
92357726|NCT02489279|184620268|SUPERIORITY|||||||0.21|||||||t-test, 1 sided|||We then examined the within-subjects factor of Time (Post-Treatment (10 week measure) - Baseline), for each Group, using a 1-tailed t test.||||0.21
92357727|NCT02489279|184620269|SUPERIORITY|||||||1e-06|||||||GLM with repeated measures ANOVA|||We used a GLM with time (Baseline and 10 Weeks) as the within subjects factor, experimental group (Active and Control) as the between subjects factor, and a group by time interaction to test for differential treatment effects. We report only a main effect of Time.||||0.000001
92405737|NCT01929317|184701681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03|||||TWO_SIDED|95.0|-8.77|6.71|||||"Estimated value and CI are presented for the change from Baseline in the proportion of awake time spent Off for Week 2."|||6.71|-8.77|
92164256|NCT00530842|184216782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.087|STANDARD_ERROR_OF_MEAN|0.044||0.0482|TWO_SIDED|95.0|-0.174|-0.001|||ANOVA|ANOVA with fixed terms for sequence, treatment, and period and random term for subject within sequence.||||-0.001|-0.174|0.0482
92164257|NCT00530842|184216783|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.0||||0.3407|TWO_SIDED|95.0|-9.5|27.5|||Wilcoxon signed-rank test||The confidence interval was determined by Hodges-Lehmann method.|||27.5|-9.5|0.3407
92164258|NCT03399370|184216849|SUPERIORITY|LS Mean Difference (95% CI) from Placebo|Mean Difference (Final Values)|-57.64|||<|0.0001|TWO_SIDED|95.0|-60.86|-54.43||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-54.43|-60.86|<.0001
92222525|NCT02873936|184346110|SUPERIORITY||Least Squares Mean Difference|-10.51|STANDARD_ERROR_OF_MEAN|1.578|<|0.001|TWO_SIDED|95.0|-13.61|-7.41||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.41|-13.61|<0.001
92222526|NCT02873936|184346110|SUPERIORITY||Least Squares Mean Difference|-8.92|STANDARD_ERROR_OF_MEAN|1.577|<|0.001|TWO_SIDED|95.0|-12.02|-5.82||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.82|-12.02|<0.001
92222527|NCT02873936|184346110|SUPERIORITY||Least Squares Mean Difference|-10.94|STANDARD_ERROR_OF_MEAN|1.652|<|0.001|TWO_SIDED|95.0|-14.19|-7.69||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.69|-14.19|<0.001
92222528|NCT02873936|184346110|SUPERIORITY||Least Squares Mean Difference|-8.98|STANDARD_ERROR_OF_MEAN|1.651|<|0.001|TWO_SIDED|95.0|-12.22|-5.73||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.73|-12.22|<0.001
92222529|NCT02873936|184346110|SUPERIORITY||Least Squares Mean Difference|-9.87|STANDARD_ERROR_OF_MEAN|1.964|<|0.001|TWO_SIDED|95.0|-13.73|-6.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.00|-13.73|<0.001
92222530|NCT02873936|184346110|SUPERIORITY||Least Squares Mean Difference|-6.89|STANDARD_ERROR_OF_MEAN|1.987|<|0.001|TWO_SIDED|95.0|-10.8|-2.98||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.98|-10.80|<0.001
92222531|NCT02873936|184346111|SUPERIORITY||Difference in Response Rates|20.1|||<|0.001|TWO_SIDED|95.0|8.1|32.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4.||32.1|8.1|<0.001
92222532|NCT02873936|184346111|SUPERIORITY||Difference in Response Rates|14.5||||0.013|TWO_SIDED|95.0|2.4|26.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4.||26.5|2.4|0.013
92222533|NCT02873936|184346111|SUPERIORITY||Difference in Response Rates|22.2|||<|0.001|TWO_SIDED|95.0|10.3|34.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12.||34.1|10.3|<0.001
92222534|NCT02873936|184346111|SUPERIORITY||Difference in Response Rates|21.8|||<|0.001|TWO_SIDED|95.0|10.0|33.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12.||33.6|10.0|<0.001
92222535|NCT02873936|184346111|SUPERIORITY||Difference in Response Rates|33.3|||<|0.001|TWO_SIDED|95.0|21.8|44.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24.||44.9|21.8|<0.001
92222536|NCT02873936|184346111|SUPERIORITY||Difference in Response Rates|18.6||||0.001|TWO_SIDED|95.0|6.8|30.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24.||30.5|6.8|0.001
92227151|NCT01235962|184356478|SUPERIORITY||Mean Diffeence (Week 52)|-1.535|||<|0.001|TWO_SIDED|95.0|-1.769|-1.3|||analysis of covariance|adjusted for baseline score using mixed-model||||-1.300|-1.769|<.001
92164259|NCT03399370|184216850|SUPERIORITY|LS Mean Difference (95% CI) from Placebo|Mean Difference (Final Values)|-53.78|||<|0.0001|TWO_SIDED|95.0|-56.23|-51.33||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-51.33|-56.23|<0.0001
92164260|NCT03399370|184216851|SUPERIORITY|LS Mean Difference (95% CI) from Placebo|Mean Difference (Final Values)|-54.12|||<|0.0001|TWO_SIDED|95.0|-57.37|-50.88||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-50.88|-57.37|<0.0001
92164261|NCT03399370|184216852|SUPERIORITY||Mean Difference (Final Values)|-53.28|||<|0.0001|TWO_SIDED|95.0|-55.75|-50.8||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-50.80|-55.75|<0.0001
92222537|NCT02873936|184346112|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.1|-0.6||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-1.1|<0.001
92357728|NCT02489279|184620270|SUPERIORITY|||||||0.00018|||||||GLM with repeated measures ANOVA|||We used a GLM with time (Baseline and 10 Weeks) as the within subjects factor, experimental group (Active and Control) as the between subjects factor, and a group by time interaction to test for differential treatment effects. We report only a main effect of Time.||||0.00018
92357729|NCT03707821|184620285|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores. Non-inferiority was declared in the lower limit of the 95% credible interval was above 5.|Mean Difference (Net)|3.3|STANDARD_DEVIATION|2.65|||TWO_SIDED|95.0|-2.0|8.5|||Bayesian normal random-effects|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test minus Control.|It was calculated that 224 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect a 5 points difference in mean overall comfort at he 2-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05).||8.5|-2.0|
92357730|NCT03707821|184620286|NON_INFERIORITY|A cumulative odds ratio non-inferiority margin of 2 was used. This margin is based on a 10% difference if the proportion of subjects that report a higher rating/experience.|Mean Difference (Final Values)|0.08|STANDARD_DEVIATION|0.034|||TWO_SIDED|95.0|0.02|0.15|||Bayesian random -effects model|A 95% Credible Interval for the Posterior proportion mean difference between the Test and Control was used to test for non-inferiority.|mean difference was calculated as Test minus Control.|It was calculated that 40 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect a 10% difference in proportion of subjects that reported at higher rating (Strongly Agree and Agree) with the Test compared to the Control lens at the 2-week follow-up. Sample size was determined using simulation-based methods (alpha=0.05).||0.15|0.02|
92357731|NCT03707821|184620287|NON_INFERIORITY|A non-inferiority margin of 0.05 points was used. This margin corresponds to a half line difference.|Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.008|||TWO_SIDED|95.0|-0.04|-0.01|||Bayesian Normal Random effects model|A 95% Credible Interval for the Posterior mean difference between the Test and control was used to test for non-inferiority.|Mean difference was calculated as Test minus Control.|It was calculated that 30 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect a 0.05 difference in LogMAR visual acuity at the 2-week follow-up. Sample size was determined using simulations methods for repeated measures.||-0.01|-0.04|
92357732|NCT03707821|184620288|SUPERIORITY|A superiority margin of 90% was used. Lower limit of 95% credible interval was compared to 90%|Mean Percentage of Acceptable Fitting|99.5|STANDARD_DEVIATION|0.38|||TWO_SIDED|95.0|98.5|100.0|||Bayesian Beta-Binomial Model|model for correlated data||It was calculated that 100 participants were required to show that the acceptable lens fitting for the Test lens would be superior to 90% with at least 80% power. Sample size was determined using simulations methods for repeated measures.||100|98.5|
92357733|NCT03707821|184620289|NON_INFERIORITY|A non-inferiority margin of 5% was used. Upper limit of the 95% credible interval was compared to 5%|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0036|||TWO_SIDED|95.0|-0.007|0.008|||Bayesian beta-binomial model|model for correlated data|mean difference was calculated as Test minus Control.|It was calculated that 224 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect 5% difference between the Test and Control lens with respect to the proportion of eyes with Grade 3 or higher slit lamp findings across all study visits. Sample size was determined using simulations methods. Sample size for this study was primarily driven by the slit lamp findings.||0.008|-0.007|
92357734|NCT03707821|184620290|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores. Non-inferiority was declared in the lower limit of the 95% credible interval was above 5.|Mean Difference (Net)|2.5|STANDARD_DEVIATION|1.94|||TWO_SIDED|95.0|-1.3|6.3|||Bayesian normal random-effects|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test minus Control.|Sample Size was based on primary endpoints only.||6.3|-1.3|
92357735|NCT03707821|184620291|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores. Non-inferiority was declared in the lower limit of the 95% credible interval was above 5.|Mean Difference (Net)|8.03|STANDARD_DEVIATION|2.295|||TWO_SIDED|95.0|3.48|12.54|||Bayesian normal random-effects|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test minus Control.|Sample Size was based on primary endpoints only.||12.54|3.48|
92357736|NCT01432444|184620292|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value was derived from Exact McNemar test.|McNemar|||Inpatient hospitalization for retrospective period (Months 4-6) and prospective period (Months 4-6) for closed or open unit.||||<.0001
92227152|NCT01235962|184356478|SUPERIORITY||Mean Diffeence (24M DFS FU)|0.089||||0.127|TWO_SIDED|95.0|-0.025|0.202|||analysis of covariance|adjusted for baseline score using mixed-model||||0.202|-0.025|0.127
92227153|NCT01235962|184356478|SUPERIORITY||Mean Diffeence (36M DFS FU)|0.123||||0.069|TWO_SIDED|95.0|-0.009|0.255|||analysis of covariance|adjusted for baseline score using mixed-model||||0.255|-0.009|0.069
92357737|NCT01432444|184620293|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Derived from T-test of Mean=0.|t-test|Mean duration was derived as the cumulative duration divided by the number of inpatient non-psychiatric hospitalization.||Statistical analyses for Week 4, 12 and 24.||||<.0001
92357738|NCT01432444|184620294|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Derived from T-test of Mean=0.|t-test, 2 sided|Mean duration was derived as the cumulative duration divided by the number of inpatient non-psychiatric hospitalization.||Statistical analyses for Week 4, Week 12 and Week 24.||||<.0001
92357739|NCT01432444|184620295|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Derived from T-test of Mean=0.|t-test, 2 sided|Mean duration was derived as the cumulative duration divided by the number of inpatient non-psychiatric hospitalization.||Statistical analysis for Week 4, 12 and 24.||||<.0001
92357740|NCT01432444|184620296|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Derived from t-test of mean=0.|t-test|||Statistical analysEs for Week 4, 12 and 24.||||<.0001
92357741|NCT02378480|184620307|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-0.7|||||TWO_SIDED|95.0|-6.3|4.9|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||4.9|-6.3|
92357742|NCT02378480|184620308|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|2.5|||||TWO_SIDED|95.0|-3.2|8.2|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||8.2|-3.2|
92357743|NCT02378480|184620309|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|2.8|||||TWO_SIDED|95.0|-1.0|6.9|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||6.9|-1.0|
92357744|NCT03802916|184620323|SUPERIORITY|||||||0.0074||||||A p-value was calculated for the one-sample proportion test.|One-sample proportion test|||One-sample proportion test to determine if the overall preference for deferiprone DR was greater than chance (i.e., a 50% preference for each formulation)||||0.0074
92357745|NCT03802916|184620323|SUPERIORITY|||||||0.0002||||||A p-value was calculated for the one-sample proportion test.|One-sample proportion test|||One-sample proportion test to determine if the overall preference for deferiprone DR was greater than chance (i.e., a 50% preference for each formulation)||||0.0002
92357746|NCT01946880|184620359|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.07|||||TWO_SIDED|95.0|-0.068|0.214||||||||0.214|-0.068|
92357747|NCT01946880|184620361|OTHER||Risk Difference (RD)|0.08|||||TWO_SIDED|95.0|-0.116|0.279||||||||0.279|-0.116|
92357748|NCT01946880|184620362|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.13|||||TWO_SIDED|95.0|-0.091|0.36||||||||0.360|-0.091|
92357749|NCT01946880|184620363|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|-0.07|||||TWO_SIDED|95.0|-0.475|0.333||||||||0.333|-0.475|
92357750|NCT01946880|184620364|OTHER||Risk Difference (RD)|-0.02|||||TWO_SIDED|95.0|-0.286|0.249||||||The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.||0.249|-0.286|
92164262|NCT03399370|184216853|SUPERIORITY||Mean Difference (Final Values)|-83.8|||<|0.0001|TWO_SIDED|95.0|-89.25|-77.34||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-77.34|-89.25|<0.0001
92164263|NCT03399370|184216854|SUPERIORITY||Mean Difference (Final Values)|-33.13|||<|0.0001|TWO_SIDED|95.0|-35.3|-30.97||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-30.97|-35.30|<0.0001
92164264|NCT03399370|184216855|SUPERIORITY||Mean Difference (Final Values)|-43.09|||<|0.0001|TWO_SIDED|95.0|-45.5|-40.67||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-40.67|-45.50|<.0001
92164265|NCT03399370|184216856|SUPERIORITY||Mean Difference (Final Values)|-47.36|||<|0.0001|TWO_SIDED|95.0|-50.25|-44.47||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-44.47|-50.25|<0.0001
92164266|NCT05819190|184216857|SUPERIORITY|||||||0.0192|||||||Wilcoxon (Mann-Whitney)|||Comparison of the mean AUC of WURSS-21 scores assessed during the first 8 days of the study between both groups - FAS set||||0.0192
92164267|NCT05819190|184216858|SUPERIORITY|||||||0.0296|||||||Wilcoxon (Mann-Whitney)|||Comparison of the mean AUC of WURSS-21 scores assessed during the first 8 days of the study between both groups - PP set||||0.0296
92164268|NCT05819190|184216859|SUPERIORITY|||||||0.0085|||||||Wilcoxon (Mann-Whitney)|||||||0.0085
92164269|NCT05819190|184216860|SUPERIORITY|||||||0.0081|||||||Wilcoxon (Mann-Whitney)|||||||0.0081
92164270|NCT05819190|184216861|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.0050
92164271|NCT05819190|184216862|SUPERIORITY|||||||0.0107|||||||Wilcoxon (Mann-Whitney)|||||||0.0107
92164272|NCT05819190|184216863|SUPERIORITY|||||||0.0424|||||||Wilcoxon (Mann-Whitney)|||||||0.0424
92164273|NCT05819190|184216864|SUPERIORITY|||||||0.43||||||one sided test|Wilcoxon (Mann-Whitney)|||0.05 global significance level (type I error rate)||||0.430
92164274|NCT05819190|184216865|SUPERIORITY|||||||0.339|||||||Wilcoxon (Mann-Whitney)|one sided test||0.05 global significance level (type I error rate)||||0.339
92357751|NCT01946880|184620365|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.2|||||TWO_SIDED|95.0|-0.09|0.497||||||||0.497|-0.090|
92357752|NCT01946880|184620366|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.08|||||TWO_SIDED|95.0|-0.056|0.211||||||||0.211|-0.056|
92357753|NCT01946880|184620367|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.12|||||TWO_SIDED|95.0|-0.041|0.284||||||||0.284|-0.041|
92164275|NCT05819190|184216866|SUPERIORITY|||||||0.704|||||||Wilcoxon (Mann-Whitney)|one sided test||0.05 global significance level (type I error rate)||||0.704
92276597|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0248|TWO_SIDED|95.0|-0.26|-0.02|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from Cochran-Mantel-Haenszel (CMH) row mean score differ test controlling for study center.||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.02|-0.26|0.0248
92357754|NCT01946880|184620368|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|-0.04|||||TWO_SIDED|95.0|-0.285|0.206||||||||0.206|-0.285|
92357755|NCT01946880|184620369|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.09|||||TWO_SIDED|95.0|-0.118|0.289||||||||0.289|-0.118|
92357756|NCT01946880|184620370|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.05|||||TWO_SIDED|95.0|-0.103|0.212||||||||0.212|-0.103|
92357757|NCT01946880|184620373|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.06|||||TWO_SIDED|95.0|-0.028|0.149||||||||0.149|-0.028|
92357758|NCT01946880|184620374|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.06|||||TWO_SIDED|95.0|-0.02|0.134||||||||0.134|-0.020|
92357759|NCT01946880|184620375|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.1|0.1|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 24.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the SLICC/DI score between the treatment groups at Week 24.||0.1|-0.1|
92405738|NCT01929317|184701681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-7.94|8.22|||||"Estimated value and CI are presented for the change from Baseline in the proportion of awake time spent Off for Week 4."|||8.22|-7.94|
92164276|NCT05819190|184216867|SUPERIORITY|||||||0.298|||||||Wilcoxon (Mann-Whitney)|One sided test||0.05 global significance level (type I error rate)||||0.298
92164277|NCT05819190|184216868|SUPERIORITY|||||||0.906|||||||Wilcoxon (Mann-Whitney)|one sided test||0.05 global significance level (type I error rate)||||0.906
92357760|NCT01946880|184620375|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.1|0.1|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 48.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the SLICC/DI score between the treatment groups at Week 48.||0.1|-0.1|
92357761|NCT01946880|184620375|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.2|0.1|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 60.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the SLICC/DI score between the treatment groups at Week 60.||0.1|-0.2|
92357762|NCT01946880|184620376|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.019|0.059||||||||0.059|-0.019|
92405739|NCT01929317|184701681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.78|||||TWO_SIDED|95.0|-12.06|6.49|||||"Estimated value and CI are presented for the change from Baseline in the proportion of awake time spent Off for Week 6."|||6.49|-12.06|
92405740|NCT01929317|184701681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.46|||||TWO_SIDED|95.0|-14.06|5.14|||||"Estimated value and CI are presented for the change from Baseline in the proportion of awake time spent Off for Week 8."|||5.14|-14.06|
92164278|NCT05819190|184216869|SUPERIORITY|||||||0.582|||||||Wilcoxon (Mann-Whitney)|one sided test||0.05 global significance level (type I error rate)||||0.582
92164279|NCT05819190|184216870|SUPERIORITY|||||||0.743|||||||Wilcoxon (Mann-Whitney)|one sided test||0.05 global significance level (type I error rate)||||0.743
92164280|NCT05819190|184216871|SUPERIORITY|||||||0.605|||||||Fisher Exact|One sided test||0.05 global significance level (type I error rate)||||0.605
92164281|NCT05819190|184216872|SUPERIORITY|||||||1|||||||Fisher Exact|one sided test||0.05 global significance level (type I error rate)||||1.000
92164282|NCT05819190|184216873|SUPERIORITY|||||||0.988|||||||Fisher Exact|One sided test||0.05 global significance level (type I error rate)||||0.988
92164283|NCT05819190|184216874|SUPERIORITY|||||||0.483|||||||Fisher Exact|one sided test||0.05 global significance level (type I error rate)||||0.483
92164284|NCT00667745|184216901|SUPERIORITY||F value, main effect|0.94||||0.33|TWO_SIDED||||||Mixed Models Analysis|||||||0.33
92164285|NCT00667745|184216902|SUPERIORITY||Chi-squared|0.0||||0.967|TWO_SIDED||||||Chi-squared|||||||0.967
92164286|NCT00667745|184216903|SUPERIORITY||Mean Difference (Net)|0.45||||0.5|TWO_SIDED||||||Mixed Models Analysis|||||||0.50
92164287|NCT00667745|184216904|SUPERIORITY||Mean Difference (Net)|0.02||||0.88|TWO_SIDED||||||Mixed Models Analysis|||||||0.88
92164288|NCT00667745|184216905|SUPERIORITY||Mean Difference (Net)|0.92||||0.49|TWO_SIDED|||||Value shown above describes emergent suicidal ideation for participants with baseline MSSI = 0. P=.36 describes exacerbation of baseline suicidal ideation for those with baseline MSSI \> 0.|Mixed Models Analysis|||||||.49
92405741|NCT01929317|184701681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.98|||||TWO_SIDED|95.0|-15.92|3.96|||||"Estimated value and CI are presented for the change from Baseline in the proportion of awake time spent Off for Week 12."|||3.96|-15.92|
92405742|NCT01929317|184701682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-1.07|1.21|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On for Week 2."|||1.21|-1.07|
92227154|NCT01235962|184356478|SUPERIORITY||Mean Diffeence (48M DFS FU)|0.049||||0.544|TWO_SIDED|95.0|-0.11|0.208|||analysis of covariance|adjusted for baseline score using mixed-model||||0.208|-0.110|0.544
92357763|NCT01946880|184620378|OTHER||Mean Difference (Final Values)|1.61|||||TWO_SIDED|95.0|-2.24|5.45|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 24.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the FACIT fatigue score between the treatment groups at Week 24.||5.45|-2.24|
92357764|NCT01946880|184620378|OTHER||Mean Difference (Final Values)|2.54|||||TWO_SIDED|95.0|-1.13|6.21|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 48.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the FACIT fatigue score between the treatment groups at Week 48.||6.21|-1.13|
92357765|NCT01946880|184620378|OTHER||Mean Difference (Final Values)|3.55|||||TWO_SIDED|95.0|-0.17|7.28|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 60.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the FACIT fatigue score between the treatment groups at Week 60.||7.28|-0.17|
92405743|NCT01929317|184701682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47|||||TWO_SIDED|95.0|-0.75|1.7|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On for Week 4."|||1.70|-0.75|
92164289|NCT02317016|184216913|NON_INFERIORITY_OR_EQUIVALENCE|No effect on the PK of rosuvastatin after co-administration of AZD9291 was concluded if the 2-sided 90% confidence intervals (CIs) for the ratios of rosuvastatin AUC and Cmax were within the range of 70% to 143%.|Geometric least-squares (LS) mean ratio|171.92|||||TWO_SIDED|90.0|145.94|202.53|||||AZD9291+ rosuvastatin / rosuvastatin alone (Day 32 versus Day 1).|Natural log-transformed Cmax values were compared between treatments using a mixed effects analysis of variance (ANOVA) with treatment as a fixed effect and patient as a random effect. It was assumed the within-patient coefficient of variation for rosuvastatin in both area under the plasma concentration-time curve (AUC) and Cmax was 41%. No change in the exposure for rosuvastatin when given with AZD9291 was also assumed.||202.53|145.94|
92164290|NCT02317016|184216914|NON_INFERIORITY_OR_EQUIVALENCE|No effect on the PK of rosuvastatin after co-administration of AZD9291 was concluded if the 2-sided 90% CIs for the ratios of rosuvastatin AUC and Cmax were within the range of 70% to 143%.|Geometric LS Mean Ratio|134.63|||||TWO_SIDED|90.0|115.41|157.07|||||AZD9291+ rosuvastatin / rosuvastatin alone (Day 32 versus Day 1).|Natural log-transformed AUC values were compared between treatments using a mixed effects ANOVA with treatment as a fixed effect and patient as a random effect. It was assumed the within-patient coefficient of variation for rosuvastatin in both AUC and Cmax was 41%. No change in the exposure for rosuvastatin when given with AZD9291 was also assumed.||157.07|115.41|
92164291|NCT03418324|184216928|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm|Binomial proportion|50.0|||||TWO_SIDED|95.0|1.3|98.7|||||Estimated values reflects the percentage of participants with overall clinical benefit.|For this study, we are not comparing outcome measures between the two arms||98.7|1.3|
92164292|NCT03418324|184216928|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm|Binomial proportion|66.7|||||TWO_SIDED|95.0|22.3|95.7|||||Estimated values reflects the percentage of participants with overall clinical benefit|For this study, we are not comparing outcome measures between the two groups.||95.7|22.3|
92164293|NCT03418324|184216931|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm.|Binomial proportion|50.0|||||TWO_SIDED|95.0|1.3|98.7||||||For this study, we are not comparing outcome measures between the two arms||98.7|1.3|
92164294|NCT03418324|184216931|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm.|Binomial proportion|66.7|||||TWO_SIDED|95.0|22.3|95.7||||||For this study, we are not comparing outcome measures between the two arms.||95.7|22.3|
92164295|NCT03418324|184216932|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm.|Binomial proportion|50.0|||||TWO_SIDED|95.0|1.3|98.7||||||For this study, we are not comparing outcome measures between the two arms.||98.7|1.3|
92164296|NCT03418324|184216932|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm.|Binomial proportion|50.0|||||TWO_SIDED|95.0|11.8|88.2||||||For this study, we are not comparing outcome measures between the two arms.||88.2|11.8|
92164297|NCT01768676|184216935|NON_INFERIORITY_OR_EQUIVALENCE|The difference in percentage of subjects with a \>/= 50% reduction from baseline to Week 26 in sperm concentration between treatment arms was analyzed using Cochran-Mantel-Haenszel method to account for the randomization stratification by baseline sperm concentration. If upper limit of 95% CI \< 20% then avanafil is considered non-inferior to placebo.|Risk Difference (RD)|-12.93|STANDARD_ERROR_OF_MEAN|4.41|||TWO_SIDED|95.0|-21.56|-4.29|||||Confidence interval was only calculated for primary endpoint of the difference between avanafil and placebo, not for each individual arm.|||-4.29|-21.56|
92164298|NCT01768676|184216936|NON_INFERIORITY_OR_EQUIVALENCE|If upper limit of 95% CI \< 20% then avanafil is considered non-inferior to placebo.|Risk Difference (RD)|-11.4|STANDARD_ERROR_OF_MEAN|6.2|||TWO_SIDED|95.0|-23.5|0.7|||||Confidence interval was only calculated for primary endpoint of the difference between avanafil and placebo, not for each individual arm.|||0.7|-23.5|
92164299|NCT01768676|184216937|NON_INFERIORITY_OR_EQUIVALENCE|If upper limit of 95% CI \< 20% then avanafil is considered non-inferior to placebo.|Risk Difference (RD)|-1.4|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|-4.2|1.3|||||Confidence interval was only calculated for primary endpoint of the difference between avanafil and placebo, not for each individual arm.|||1.3|-4.2|
92164300|NCT01768676|184216938|NON_INFERIORITY_OR_EQUIVALENCE|If upper limit of 95% CI \< 20% then avanafil is considered non-inferior to placebo.|Risk Difference (RD)|-2.9|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-6.8|1.1|||||Confidence interval was only calculated for primary endpoint of the difference between avanafil and placebo, not for each individual arm.|||1.1|-6.8|
92164301|NCT01768676|184216939|NON_INFERIORITY_OR_EQUIVALENCE|If upper limit of 95% CI \< 20% then avanafil is considered non-inferior to placebo.|Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.0|||TWO_SIDED|95.0|0.0|0.0|||||Confidence interval was only calculated for primary endpoint of the difference between avanafil and placebo, not for each individual arm.|||0|0|
92164302|NCT00605033|184216940|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was defined as a lower bound of the two-sided 95% confidence interval of the proportion difference greater than -0.15.|Proportion difference|-0.054|||||TWO_SIDED|95.0|-0.142|0.034|||Binomial approximation|||||0.034|-0.142|
92357766|NCT01946880|184620379|OTHER||Mean Difference (Final Values)|0.55|||||TWO_SIDED|95.0|-1.82|2.92|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 24.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PF score between the treatment groups at Week 24.||2.92|-1.82|
92357767|NCT01946880|184620379|OTHER||Mean Difference (Final Values)|1.44|||||TWO_SIDED|95.0|-1.14|4.03|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 48.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PF score between the treatment groups at Week 48.||4.03|-1.14|
92357768|NCT01946880|184620379|OTHER||Mean Difference (Final Values)|1.98|||||TWO_SIDED|95.0|-0.71|4.67|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 60.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PF score between the treatment groups at Week 60.||4.67|-0.71|
92357769|NCT01946880|184620380|OTHER||Mean Difference (Final Values)|1.65|||||TWO_SIDED|95.0|-1.03|4.32|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 24.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PCS score between the treatment groups at Week 24.||4.32|-1.03|
92357770|NCT01946880|184620380|OTHER||Mean Difference (Final Values)|2.17|||||TWO_SIDED|95.0|-0.69|5.02|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 48.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PCS score between the treatment groups at Week 48.||5.02|-0.69|
92357771|NCT01946880|184620380|OTHER||Mean Difference (Final Values)|3.02|||||TWO_SIDED|95.0|0.22|5.82|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 60.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PCS score between the treatment groups at Week 60.||5.82|0.22|
92357772|NCT00721110|184620397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93||||0.96|TWO_SIDED|97.5|-52.0|54.0||Significant if P \< 0.003 for efficacy and P \> 0.5311 for futility; 97.5% confidence intervals adjusted for group sequential design to maintain the overall alpha of 0.025 for each primary intervention.|ANCOVA|Adjusted for baseline 6-minute walk distance||The effect of lidocaine on 6-minute walk distance on the 2nd postoperative morning was assessed using analysis of covariance. We expected the control group's mean 6-minute walk distance to be 300 meters with a standard deviation (SD) of about 20% of the mean for each group. Assuming a correlation of 0.5 between baseline and 2nd postoperative day, a maximum 128 total patients (32 for each group) was needed to have 80% power at the 0.025 significance level to detect effects of 36 meters or more.||54|-52|0.96
92357773|NCT00721110|184620397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0||||0.54|TWO_SIDED|97.5|-65.0|44.0||97.5% confidence interval adjusted for group sequential design (using confidence coefficient of 2.97) to maintain theoverall α of 0.025 for each primary intervention and 0.05 for the trial.|ANCOVA|Adjusted for baseline 6-minute walk distance||The effect of ketamine on 6-minute walk distance on the 2nd postoperative morning was assessed using analysis of covariance. We expected the control group's mean 6-minute walk distance to be 300 meters with a standard deviation (SD) of about 20% of the mean for each group. Assuming a correlation of 0.5 between baseline and 2nd postoperative day, a maximum 128 total patients (32 for each group) was needed to have 80% power at the 0.025 significance level to detect effects of 36 meters or more.||44|-65|0.54
92357774|NCT00721110|184620398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.2|TWO_SIDED|97.5|-3.3|1.3||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Groups compared on VRS scores at PACU admit using a t test.||1.3|-3.3|0.20
92357775|NCT00721110|184620398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.54|TWO_SIDED|97.5|-2.8|1.9||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Ketamine compared to placebo at PACU admit using a t test||1.9|-2.8|0.54
92405744|NCT01929317|184701682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.65|1.86|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On for Week 6."|||1.86|-0.65|
92164303|NCT02023125|184216944|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|270.0|||||TWO_SIDED|90.0|228.0|320.0|||||The reported values are percentages of geometric least square mean ratio.|Analysis of variance (ANOVA) was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and confidence intervals (CIs).||320|228|
92164304|NCT02023125|184216945|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|116.0|||||TWO_SIDED|90.0|103.0|132.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||132|103|
92164305|NCT02023125|184216946|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|292.0|||||TWO_SIDED|90.0|258.0|329.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and CIs.||329|258|
92164306|NCT02023125|184216947|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|122.0|||||TWO_SIDED|90.0|109.0|136.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||136|109|
92164307|NCT02023125|184216948|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|377.0|||||TWO_SIDED|90.0|303.0|468.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and CIs.||468|303|
92164308|NCT02023125|184216949|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|102.0|||||TWO_SIDED|90.0|87.0|119.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||119|87.0|
92357776|NCT00721110|184620398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.11|TWO_SIDED|97.5|-2.5|0.8||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Lidocaine versus nonlidocaine on pain severity at postoperative care unit discharge was assessed using a t test.||0.8|-2.5|0.11
92357777|NCT00721110|184620398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.56|TWO_SIDED|97.5|-1.4|2.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Ketamine versus nonketamine on postoperative care unit discharge pain severity was assessed using a t test.||2.0|-1.4|0.56
92357778|NCT00721110|184620398|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.6||||0.2|TWO_SIDED|97.5|-0.9|2.2||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Lidocaine versus nonlidocaine on postoperative day 1 pain severity assessed using a t test.||2.2|-0.9|0.20
92357779|NCT00721110|184620398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.79|TWO_SIDED|97.5|-1.4|1.7||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Ketamine versus nonketamine on postoperative day 1 pain severity was assessed using a t test.||1.7|-1.4|0.79
92357780|NCT00721110|184620398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.55|TWO_SIDED|97.5|-1.1|1.7||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Lidocaine versus nonlidocaine on postoperative day 2 pain severity was assessed using a t test.||1.7|-1.1|0.55
92357781|NCT00721110|184620398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.47|TWO_SIDED|97.5|-1.1|1.8||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Ketamine versus nonketamine on postoperative day 2 pain severity was assessed using a t test.||1.8|-1.1|0.47
92357782|NCT00721110|184620399|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.63|TWO_SIDED|97.5|-7.0|7.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Lidocaine versus nonlidocaine on intraoperative opioid consumption was assessed using the Wilcoxon rank sum test.||7|-7|0.63
92357783|NCT00721110|184620399|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.0||||0.27|TWO_SIDED|97.5|-10.0|5.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Ketamine versus nonketamine on intraoperative opioid consumption was assessed using a Wilcoxon rank sum test.||5|-10|0.27
92357784|NCT00721110|184620399|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.0||||0.28|TWO_SIDED|97.5|-15.0|5.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Lidocaine versus nonlidocaine on postoperative care unit opioid consumption was assessed using a Wilcoxon rank sum test.||5|-15|0.28
92357785|NCT00721110|184620399|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.0||||0.22|TWO_SIDED|97.5|-15.0|4.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Ketamine versus nonketamine on postoperative care unit opioid consumption was assessed using a Wilcoxon rank sum test.||4|-15|0.22
92357786|NCT00721110|184620399|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.5||||0.76|TWO_SIDED|97.5|-13.0|21.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Lidocaine versus nonlidocaine on postoperative day 1 opioid consumption was assessed using a Wilcoxon rank sum test.||21|-13|0.76
92401461|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.488||95.0||||p-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.488
92164309|NCT02023125|184216950|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|328.0|||||TWO_SIDED|90.0|276.0|389.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and CIs.||389|276|
92164310|NCT02023125|184216951|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|110.0|||||TWO_SIDED|90.0|96.3|126.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||126|96.3|
92164311|NCT02023125|184216954|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|306.0|||||TWO_SIDED|90.0|269.0|348.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and CIs.||348|269|
92164312|NCT02023125|184216955|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|122.0|||||TWO_SIDED|90.0|110.0|136.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||136|110|
92227155|NCT01235962|184356478|SUPERIORITY||Mean Difference (54M DFS FU)|0.061||||0.518|TWO_SIDED|95.0|-0.124|0.246|||analysis of covariance|adjusted for baseline score using mixed-model||||0.246|-0.124|0.518
92401462|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.226||95.0||||p-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.226
92401463|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.71||95.0||||p-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.710
92401464|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||p-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.133
92401465|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.257||95.0||||p-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.257
92401466|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.412||95.0||||p-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.412
92401467|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||p-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.030
92401468|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||p-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.024
92401469|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||p-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.250
92164313|NCT02023125|184216956|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|349.0|||||TWO_SIDED|90.0|288.0|422.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and CIs.||422|288|
92164314|NCT02023125|184216957|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|109.0|||||TWO_SIDED|90.0|95.3|126.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||126|95.3|
92164315|NCT01124188|184216975|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.63|1.8||||||||1.80|0.63|
92164316|NCT01124188|184216976|SUPERIORITY_OR_OTHER|||||||0.49|||||||Mixed Models Analysis|||||||.49
92164317|NCT01124188|184216977|SUPERIORITY_OR_OTHER|||||||0.88|||||||Mixed Models Analysis|||||||0.88
92164318|NCT00516386|184217014|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|543.0|STANDARD_ERROR_OF_MEAN|41.0|<|0.05|||||||Paired t-test|||We used paired t-tests to assess changes in levels of IGF-1 from baseline levels in girls with AN receiving rhIGF-1. Our hypothesis was that rhIGF-1 administration would be associated with a significant increase in IGF-1 levels.||||<0.05
92164319|NCT00516386|184217015|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|39.3|STANDARD_ERROR_OF_MEAN|9.3|<|0.05||95.0|||||Paired t-test|||We used a paired t-test to determine the change in P1NP from baseline to 7-10 days following administration of rhIGF-1||||<0.05
92164320|NCT02694978|184217025|NON_INFERIORITY|The non-inferiority margin of 2.64% was used for the primary endpoint statistical analysis.|Treatment difference|-0.1||||0.0001|TWO_SIDED|95.0|-0.8|0.61|||Wald|The p-value was calculated using the Wald large sample assumption.||"Statistical analysis was only performed on composite reaction data (that is, the Any TE moderate to severe hypersensitivity rxn row in the data table)."||0.61|-0.80|0.0001
92357787|NCT00721110|184620399|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.0||||0.66|TWO_SIDED|97.5|-19.0|14.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Ketamine versus nonketamine on postoperative day 1 opioid consumption was assessed using a Wilcoxon rank sum test.||14|-19|0.66
92357788|NCT00721110|184620399|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.5||||0.3|TWO_SIDED|97.5|-5.0|10.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Lidocaine versus nonlidocaine on postoperative day 2 opioid consumption was assessed using a Wilcoxon rank sum test.||10|-5|0.30
92357789|NCT00721110|184620399|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.79|TWO_SIDED|97.5|-5.0|8.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Ketamine versus nonketamine on postoperative day 2 opioid consumption was assessed using a Wilcoxon rank sum test.||8|-5|0.79
92357790|NCT00721110|184620400|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.06||||0.58|TWO_SIDED|97.5|-0.28|0.41||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared||numerator: lidocaine; denominator: control|Lidocaine versus nonlidocaine on PACU (postoperative care unit) nausea assessed using Pearson chi square test.||0.41|-0.28|0.58
92357791|NCT00721110|184620400|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.02||||0.87|TWO_SIDED|97.5|-0.32|0.36||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared||Numinator: ketamine; denominator: nonketamine|Ketamine versus nonketamine on PACU (postoperative care unit) nausea assessed using Pearson chi square test.||0.36|-0.32|0.87
92357792|NCT00721110|184620400|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.06||||0.61|TWO_SIDED|97.5|-0.31|0.44||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared|||Lidocaine versus nonlidocaine on POD 1 (first postoperative day) nausea assessed using Pearson chi square test.||0.44|-0.31|0.61
92357793|NCT00721110|184620400|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.03||||0.79|TWO_SIDED|97.5|-0.34|0.41||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared|||Ketamine versus nonketamine on POD 1(first postoperative day) nausea assessed using Pearson chi square test.||0.41|-0.34|0.79
92357794|NCT00721110|184620400|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|-0.13||||0.26|TWO_SIDED|97.5|-0.38|0.12||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared|||Lidocaine versus nonlidocaine on PACU (postoperative care unit) vomiting assessed using Pearson chi square test.||0.12|-0.38|0.26
92357795|NCT00721110|184620400|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|-0.06||||0.71|TWO_SIDED|97.5|-0.31|0.19||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared|||Ketamine versus nonketamine on PACU (postoperative care unit) vomiting assessed using a Pearson chi square test.||0.19|-0.31|0.71
92357796|NCT00721110|184620400|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.06||||0.52|TWO_SIDED|97.5|-0.23|0.36||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared|||Lidocaine versus nonlidocaine on postoperative day 1 vomiting assessed using a Pearson chi square test.||0.36|-0.23|0.52
92401470|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.489||95.0||||p-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.489
92401471|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.682||95.0||||p-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.682
92401472|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.953||95.0||||p-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.953
92164321|NCT03675581|184217043|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|101.36|STANDARD_DEVIATION|13.7|||TWO_SIDED|90.0|92.83|110.67|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||110.67|92.83|
92164322|NCT03675581|184217044|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|96.4|STANDARD_DEVIATION|8.2|||TWO_SIDED|90.0|91.48|101.58|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T = Test, R = Reference|||101.58|91.48|
92357797|NCT00721110|184620400|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.07||||0.44|TWO_SIDED|97.5|-0.22|0.38|||Chi-squared|||Ketamine versus nonketamine on postoperative day 1 vomiting assessed using Pearson chi square test.||0.38|-0.22|0.44
92164323|NCT03675581|184217045|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|116.69|STANDARD_DEVIATION|12.6|||TWO_SIDED|90.0|107.63|126.51|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||126.51|107.63|
92357798|NCT00721110|184620401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.96|TWO_SIDED|97.5|-2.14|2.2||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Lidocaine was compared to nonlidocaine on mean VRS fatigue score using a t test.||2.2|-2.14|0.96
92357799|NCT00721110|184620401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.59|TWO_SIDED|97.5|-1.8|2.57||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Ketamine was compared to nonketamine on mean VRS fatigue score using a t test.||2.57|-1.80|0.59
92357800|NCT01916226|184620413|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|-0.3||0.278|TWO_SIDED|95.0|-0.7|0.2||Estimating the standard deviation of CFB in rTNSS over 2 weeks to be approximately 2.6, a two-sample t-test with α=0.05 suggests that a sample size of 144 participants per arm would provide 90% power to show a difference of 1.0 between treatments.|ANCOVA|||||0.2|-0.7|0.278
92357801|NCT05430919|184620449|SUPERIORITY||Least Squares (LS) Mean Difference|-2.31|||<|0.0001|TWO_SIDED|95.0|-3.229|-1.385|||ANCOVA||REGN5713-5714-5715 900 mg vs. Placebo, Day 29|||-1.385|-3.229|<0.0001
92357802|NCT05430919|184620450|SUPERIORITY||LS Mean Difference|-2.65|||<|0.0001|TWO_SIDED|95.0|-3.634|-1.658|||ANCOVA||REGN5713-5715 600 mg vs. Placebo, Day 29|||-1.658|-3.634|<0.0001
92357803|NCT05430919|184620450|SUPERIORITY||LS Mean Difference|-1.51||||0.0023|TWO_SIDED|95.0|-2.478|-0.539|||ANCOVA||REGN5715 300 mg vs. Placebo, Day 29|||-0.539|-2.478|0.0023
92357804|NCT05430919|184620466|SUPERIORITY||LS Mean Difference|-63.18|||<|0.0001|TWO_SIDED|95.0|-73.411|-52.95|||ANCOVA||REGN5713-5714-5715 900 mg vs. Placebo, Day 29|||-52.950|-73.411|<0.0001
92357805|NCT05430919|184620466|SUPERIORITY||LS Mean Difference|-56.01|||<|0.0001|TWO_SIDED|95.0|-66.806|-45.204|||ANCOVA||REGN5713-5715 600 mg vs. Placebo, Day 29|||-45.204|-66.806|<0.0001
92357806|NCT05430919|184620466|SUPERIORITY||LS Mean Difference|-34.82|||<|0.0001|TWO_SIDED|95.0|-45.304|-24.343|||ANCOVA||REGN5715 300 mg vs. Placebo, Day 29|||-24.343|-45.304|<0.0001
92357807|NCT00553475|184620538|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63||||0.0075||95.0|-1.09|-0.17|||ANCOVA|Treatment groups and the CLcr strata as factors and baseline values as covariates.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.17|-1.09|0.0075
92357808|NCT00553475|184620538|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74||||0.0254||95.0|-1.39|-0.09|||ANCOVA|Treatment groups and the CLcr strata as factors and baseline values as covariates.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.09|-1.39|0.0254
92357809|NCT00553475|184620539|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28||||0.8731||95.0|-3.67|3.12|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.12|-3.67|0.8731
92357810|NCT00553475|184620539|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.16||||0.6337||95.0|-3.62|5.94|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.94|-3.62|0.6337
92401473|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.803||95.0||||p-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.803
92357811|NCT00553475|184620540|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.1||||0.4398||95.0|-7.44|3.24|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.24|-7.44|0.4398
92357812|NCT00553475|184620540|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41||||0.9153||95.0|-7.96|7.14|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.14|-7.96|0.9153
92164324|NCT03675581|184217046|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|100.89|STANDARD_DEVIATION|18.1|||TWO_SIDED|90.0|89.9|113.23|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||113.23|89.90|
92164325|NCT03675581|184217047|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|101.24|STANDARD_DEVIATION|11.7|||TWO_SIDED|90.0|93.95|109.1|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||109.10|93.95|
92164326|NCT03675581|184217048|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|88.09|STANDARD_DEVIATION|15.0|||TWO_SIDED|90.0|80.03|96.96|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||96.96|80.03|
92164327|NCT00807144|184217051|SUPERIORITY|||||||0.26|||||||Log Rank|||||||0.26
92164328|NCT00807144|184217052|SUPERIORITY|||||||0.48|||||||Log Rank|||Year 1||||0.48
92164329|NCT00807144|184217052|SUPERIORITY|||||||0.75|||||||Log Rank|||Year 2||||0.75
92164330|NCT03987451|184217077|SUPERIORITY||Odds Ratio (OR)|0.28||||0.0867|TWO_SIDED|95.0|0.06|1.24|||Cochran-Mantel-Haenszel|||The common odds ratio between semaglutide and placebo adjusting for baseline diabetes was estimated along with exact 95% confidence interval based on conditioning on the marginal 2×2 tables.||1.24|0.06|0.0867
92222538|NCT02873936|184346112|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.9|-0.4||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.4|-0.9|<0.001
92222539|NCT02873936|184346112|SUPERIORITY||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.5|-0.9||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.9|-1.5|<0.001
92222540|NCT02873936|184346112|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.3|-0.7||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.7|-1.3|<0.001
92222541|NCT02873936|184346112|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.5|-0.8||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.8|-1.5|<0.001
92222542|NCT02873936|184346112|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.1|-0.4||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.4|-1.1|<0.001
92222543|NCT02873936|184346113|SUPERIORITY||Difference in Response Rates|12.3||||0.004|TWO_SIDED|95.0|3.5|21.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4.||21.2|3.5|0.004
92164331|NCT04347954|184217153|OTHER||Mean Difference (Net)|-0.349|||||TWO_SIDED|95.0|-1.584|0.886||||||Analysis of change in mean Ct values incorporating baseline, hour 1, and day 3 values.||0.886|-1.584|
92164332|NCT04347954|184217153|OTHER||Mean Difference (Net)|-1.059|||||TWO_SIDED|95.0|-2.318|0.201||||||Analysis of change in mean Ct values incorporating baseline, hour 1, and day 3 values.||0.201|-2.318|
92164333|NCT03257813|184217164|NON_INFERIORITY|it will be considered not inferior if they keep the IOP goal with differences of no more than 1.5 mmHg||||||0.013||||||Baseline|t-test, 2 sided|||||||0.013
92164334|NCT03257813|184217164|NON_INFERIORITY|it will be considered not inferior if they keep the IOP goal with differences of no more than 1.5 mmHg||||||0.001||||||CrossOver|t-test, 2 sided|||||||0.001
92164335|NCT03257813|184217164|NON_INFERIORITY|it will be considered not inferior if they keep the IOP goal with differences of no more than 1.5 mmHg||||||0.05||||||Final Visit|t-test, 2 sided|||||||0.050
92164336|NCT03257813|184217165|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 2 points on the snellen scale||||||0.823||||||Baseline|t-test, 2 sided|||||||0.823
92164337|NCT03257813|184217165|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 2 points on the snellen scale||||||0.507||||||CrossOver|t-test, 2 sided|||||||0.507
92222544|NCT02873936|184346113|SUPERIORITY||Difference in Response Rates|12.8||||0.003|TWO_SIDED|95.0|4.0|21.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4.||21.5|4.0|0.003
92222545|NCT02873936|184346113|SUPERIORITY||Difference in Response Rates|27.4|||<|0.001|TWO_SIDED|95.0|16.3|38.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24.||38.4|16.3|<0.001
92222546|NCT02873936|184346113|SUPERIORITY||Difference in Response Rates|17.0||||0.001|TWO_SIDED|95.0|6.2|27.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24.||27.7|6.2|0.001
92222547|NCT02873936|184346114|SUPERIORITY||Difference in Response Rates|7.5||||0.012|TWO_SIDED|95.0|1.3|13.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4.||13.7|1.3|0.012
92222548|NCT02873936|184346114|SUPERIORITY||Difference in Response Rates|9.1||||0.006|TWO_SIDED|95.0|2.7|15.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4.||15.5|2.7|0.006
92222549|NCT02873936|184346114|SUPERIORITY||Difference in Response Rates|14.3|||<|0.001|TWO_SIDED|95.0|5.6|23.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12.||23.1|5.6|<0.001
92227156|NCT01235962|184356479|SUPERIORITY||Mean Diffeence (Week 52)|-0.374||||0.022|TWO_SIDED|95.0|-0.695|-0.053|||analysis of covariance|adjusted for baseline score using mixed-model||||-0.053|-0.695|0.022
92164338|NCT03257813|184217165|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 2 points on the snellen scale||||||0.495||||||Final Visit|t-test, 2 sided|||||||0.495
92164339|NCT03257813|184217166|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.085|||||||Chi-squared|||||||0.085
92164340|NCT03257813|184217167|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.001||||||Baseline|Fisher Exact|||||||0.001
92222550|NCT02873936|184346114|SUPERIORITY||Difference in Response Rates|17.4|||<|0.001|TWO_SIDED|95.0|8.5|26.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12.||26.2|8.5|<0.001
92357813|NCT00553475|184620541|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.5||||0.4873||95.0|-2.75|5.76|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.76|-2.75|0.4873
92357814|NCT00553475|184620541|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.56||||0.4008||95.0|-3.42|8.53|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||8.53|-3.42|0.4008
92357815|NCT00553475|184620542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.98||||0.5372||95.0|-2.13|4.09|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||4.09|-2.13|0.5372
92164341|NCT03257813|184217167|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.148||||||CrossOver|Fisher Exact|||||||0.148
92164342|NCT03257813|184217167|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.212||||||Final Visit|Fisher Exact|||||||0.212
92164343|NCT03257813|184217168|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.497||||||Baseline|Chi-squared, Corrected|||||||0.497
92164344|NCT03257813|184217168|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.497||||||CrossOver|Chi-squared, Corrected|||||||0.497
92164345|NCT03257813|184217168|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0||||||"Final Visit~No statistic will be calculated because Final Chemosis is a constant"|Chi-squared, Corrected|||||||0
92164346|NCT03257813|184217169|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||1||||||baseline|Chi-squared|||||||1.000
92164347|NCT03257813|184217169|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.391||||||Cross Over|Chi-squared|||||||0.391
92164348|NCT03257813|184217169|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.534||||||Final Visit|Chi-squared|||||||0.534
92164349|NCT03257813|184217170|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.023||||||Baseline|Chi-squared, Corrected|||||||0.023
92164350|NCT03257813|184217170|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||1||||||CrossOver|Chi-squared|||||||1.000
92164351|NCT03257813|184217170|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.793||||||Final Visit|Chi-squared|||||||0.793
92164352|NCT03257813|184217171|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.825||||||Baseline|Chi-squared|||||||0.825
92164353|NCT03257813|184217171|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||1||||||CrossOver|Chi-squared|||||||1.000
92164354|NCT03257813|184217171|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.765|||||||Chi-squared|||||||0.765
92164355|NCT04246762|184217172|OTHER||geometric LS mean ratio of AUC (0-inf))|70.46|||||TWO_SIDED|90.0|60.62|81.91|||||Results based on a linear mixed model for the log-transformed values of PK parameters of midazolam with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (midazolam (as part of a 4-drug oral cocktail) after OKZ administration compared to midazolam (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||81.91|60.62|
92164356|NCT04246762|184217172|OTHER||geometric LS mean ratio of AUC (0-inf))|67.87|||||TWO_SIDED|90.0|56.73|81.21|||||Results based on a linear mixed model for the log-transformed values of PK parameters of omeprazole with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (omeprazole (as part of a 4-drug oral cocktail) after OKZ administration compared to omeprazole (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||81.21|56.73|
92164357|NCT04246762|184217172|OTHER||geometric LS mean ratio of AUC (0-inf))|122.92|||||TWO_SIDED|90.0|107.98|139.93|||||Results based on a linear mixed model for the log-transformed values of baseline-adjusted PK parameters of caffeine with a with fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (caffeine (as part of a 4-drug oral cocktail) after OKZ administration compared to caffeine (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||139.93|107.98|
92164358|NCT04246762|184217173|OTHER||geometric LS mean ratio of AUC (0-last))|90.83|||||TWO_SIDED|90.0|86.72|95.13|||||Results based on a linear mixed model for the log-transformed values of PK parameters of S-warfarin with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (S-warfarin (as part of a 4-drug oral cocktail) after OKZ administration compared to initial S-warfarin administrated alone (as part of a 4-drug oral cocktail)) and its corresponding 90% confidence interval (CI) was calculated. The mean difference and the CI were back transformed to the original scale to obtain estimate of the geometric mean ratio and the associated 90% CI.||95.13|86.72|
92164359|NCT04246762|184217174|OTHER||geometric LS mean ratio of Cmax|68.5|||||TWO_SIDED|90.0|59.46|78.92|||||Results based on a linear mixed model for the log-transformed values of PK parameters of midazolam with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (midazolam (as part of a 4-drug oral cocktail) after OKZ administration compared to midazolam (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||78.92|59.46|
92164360|NCT04246762|184217174|OTHER||geometric LS mean ratio of Cmax|73.54|||||TWO_SIDED|90.0|64.18|84.27|||||Results based on a linear mixed model for the log-transformed values of PK parameters of omeprazole with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (omeprazole (as part of a 4-drug oral cocktail) after OKZ administration compared to omeprazole (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||84.27|64.18|
92164361|NCT04246762|184217174|OTHER||geometric LS mean ratio of Cmax|97.99|||||TWO_SIDED|90.0|91.36|105.09|||||Results based on a linear mixed model for the log-transformed values of baseline-adjusted PK parameters of caffeine with a with fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (caffeine (as part of a 4-drug oral cocktail) after OKZ administration compared to caffeine (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||105.09|91.36|
92164362|NCT04246762|184217174|OTHER||geometric LS mean ratio of Cmax|102.3|||||TWO_SIDED|90.0|94.8|110.39|||||Results based on a linear mixed model for the log-transformed values of PK parameters of S-warfarin with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (S-warfarin (as part of a 4-drug oral cocktail) after OKZ administration compared to initial S-warfarin administrated alone (as part of a 4-drug oral cocktail)) and its corresponding 90% confidence interval (CI) was calculated. The mean difference and the CI were back transformed to the original scale to obtain estimate of the geometric mean ratio and the associated 90% CI. The sample size computation was based on results reported for sirukumab.||110.39|94.80|
92164363|NCT02878330|184217185|SUPERIORITY||Relative Risk Reduction|70.1|||<|0.0001|TWO_SIDED|95.0|52.3|81.2|||Poisson regression|||||81.2|52.3|<0.0001
92222551|NCT02873936|184346117|SUPERIORITY||Least Squares Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|1.47|<|0.001|TWO_SIDED|95.0|-10.0|-4.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.2|-10.0|<0.001
92164364|NCT02878330|184217186|SUPERIORITY||Relative Risk Reduction|78.4||||0.0002|TWO_SIDED|95.0|51.9|90.3|||Poisson regression|||||90.3|51.9|0.0002
92222552|NCT02873936|184346117|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.46|<|0.001|TWO_SIDED|95.0|-7.9|-2.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.2|-7.9|<0.001
92222553|NCT02873936|184346117|SUPERIORITY||Least Squares Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|1.56|<|0.001|TWO_SIDED|95.0|-12.6|-6.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.5|-12.6|<0.001
92222554|NCT02873936|184346117|SUPERIORITY||Least Squares Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|1.55|<|0.001|TWO_SIDED|95.0|-10.6|-4.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.5|-10.6|<0.001
92222555|NCT02873936|184346117|SUPERIORITY||Least Squares Mean Difference|-8.7|STANDARD_ERROR_OF_MEAN|1.64|<|0.001|TWO_SIDED|95.0|-11.9|-5.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.5|-11.9|<0.001
92222556|NCT02873936|184346117|SUPERIORITY||Least Squares Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|1.66||0.003|TWO_SIDED|95.0|-8.2|-1.6||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.6|-8.2|0.003
92164365|NCT03615924|184217192|SUPERIORITY||Incidence rate ratio|1.06||||0.7597|TWO_SIDED|95.0|0.75|1.5|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||1.50|0.75|0.7597
92164366|NCT03615924|184217193|SUPERIORITY||Incidence rate ratio|1.02||||0.9037|TWO_SIDED|95.0|0.72|1.45|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||1.45|0.72|0.9037
92357816|NCT00553475|184620542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.09||||0.348||95.0|-2.29|6.47|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||6.47|-2.29|0.3480
92357817|NCT00553475|184620543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.06||||0.0544||95.0|-0.1|10.21|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||10.21|-0.10|0.0544
92357818|NCT00553475|184620543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.15||||0.0278||95.0|0.89|15.42|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||15.42|0.89|0.0278
92357819|NCT00553475|184620544|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.92||||0.7394||95.0|-4.52|6.37|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||6.37|-4.52|0.7394
92357820|NCT00553475|184620544|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.22||||0.5712||95.0|-5.49|9.93|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.93|-5.49|0.5712
92357821|NCT00553475|184620545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.67||||0.0058||95.0|-1.14|-0.19|||ANCOVA|Treatment groups as factors and baseline values as covariates||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.19|-1.14|0.0058
92357822|NCT00553475|184620545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64||||0.0333||95.0|-1.23|-0.05|||ANCOVA|Treatment groups as factors and baseline values as covariates||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.05|-1.23|0.0333
92357823|NCT00553475|184620546|SUPERIORITY_OR_OTHER_LEGACY|||||||0.153||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Significance level of 0.05 was used.||||0.153
92357824|NCT00553475|184620546|SUPERIORITY_OR_OTHER_LEGACY|||||||0.059||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Significance level of 0.05 was used.||||0.059
92357825|NCT00553475|184620547|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43||||0.0287||95.0|-0.82|-0.05|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.05|-0.82|0.0287
92222557|NCT02873936|184346118|SUPERIORITY||Least Squares Mean Difference|-8.1|STANDARD_ERROR_OF_MEAN|1.52|<|0.001|TWO_SIDED|95.0|-11.1|-5.1||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.1|-11.1|<0.001
92357826|NCT00553475|184620547|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.75||||0.0073||95.0|-1.29|-0.2|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.20|-1.29|0.0073
92357827|NCT00553475|184620548|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61||||0.0021||95.0|-1.0|-0.22|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.22|-1.00|0.0021
92357828|NCT00553475|184620548|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.23|||<|0.0001||95.0|-1.78|-0.69|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.69|-1.78|<0.0001
92357829|NCT00553475|184620549|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.0026||95.0|-0.99|-0.21|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.21|-0.99|0.0026
92357830|NCT00553475|184620549|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.13|||<|0.0001||95.0|-1.69|-0.58|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.58|-1.69|<0.0001
92357831|NCT00553475|184620550|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64||||0.0012||95.0|-1.03|-0.25|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.25|-1.03|0.0012
92357832|NCT00553475|184620550|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.11|||<|0.0001||95.0|-1.67|-0.56|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.56|-1.67|<0.0001
92357833|NCT00553475|184620551|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.65||||0.0011||95.0|-1.04|-0.26|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.26|-1.04|0.0011
92357834|NCT00553475|184620551|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.16|||<|0.0001||95.0|-1.72|-0.6|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.60|-1.72|<0.0001
92222558|NCT02873936|184346118|SUPERIORITY||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|1.52|<|0.001|TWO_SIDED|95.0|-8.9|-2.9||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.9|-8.9|<0.001
92222559|NCT02873936|184346118|SUPERIORITY||Least Squares Mean Difference|-10.7|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-13.8|-7.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.5|-13.8|<0.001
92222560|NCT02873936|184346118|SUPERIORITY||Least Squares Mean Difference|-8.7|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|-11.8|-5.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.5|-11.8|<0.001
92357835|NCT00553475|184620552|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.79|||<|0.0001||95.0|-1.18|-0.4|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.40|-1.18|<0.0001
92357836|NCT00553475|184620552|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.12|||<|0.0001||95.0|-1.68|-0.56|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.56|-1.68|<0.0001
92357837|NCT00553475|184620553|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.72||||0.0003||95.0|-1.12|-0.33|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.33|-1.12|0.0003
92357838|NCT00553475|184620553|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.09||||0.0002||95.0|-1.66|-0.52|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.52|-1.66|0.0002
92357839|NCT00553475|184620554|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.67||||0.0008||95.0|-1.07|-0.28|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.28|-1.07|0.0008
92357840|NCT00553475|184620554|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94||||0.0014||95.0|-1.51|-0.36|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.36|-1.51|0.0014
92357841|NCT00553475|184620555|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.73||||0.0003||95.0|-1.12|-0.33|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.33|-1.12|0.0003
92357842|NCT00553475|184620555|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.86||||0.0036||95.0|-1.44|-0.28|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.28|-1.44|0.0036
92222561|NCT02873936|184346118|SUPERIORITY||Least Squares Mean Difference|-10.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-13.5|-6.8||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.8|-13.5|<0.001
92222562|NCT02873936|184346118|SUPERIORITY||Least Squares Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|1.71|<|0.001|TWO_SIDED|95.0|-9.4|-2.7||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.7|-9.4|<0.001
92227157|NCT01235962|184356479|SUPERIORITY||Mean Diffeence (24M DFS FU)|-0.104||||0.567|TWO_SIDED|95.0|-0.462|0.253|||analysis of covariance|adjusted for baseline score using mixed-model||||0.253|-0.462|0.567
92357843|NCT00553475|184620556|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.0005||95.0|-1.1|-0.31|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.31|-1.10|0.0005
92357844|NCT00553475|184620556|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87||||0.0034||95.0|-1.46|-0.29|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.29|-1.46|0.0034
92222563|NCT02873936|184346120|SUPERIORITY||Least Squares Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.1|3.9||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.9|1.1|<0.001
92357845|NCT00553475|184620557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62||||0.0023||95.0|-1.02|-0.22|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.22|-1.02|0.0023
92357846|NCT00553475|184620557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.77||||0.0105||95.0|-1.36|-0.18|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.18|-1.36|0.0105
92357847|NCT00553475|184620558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.65||||0.0016||95.0|-1.05|-0.25|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.25|-1.05|0.0016
92357848|NCT00553475|184620558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.77||||0.0111||95.0|-1.37|-0.18|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.18|-1.37|0.0111
92357849|NCT00553475|184620559|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.07||||0.6118||95.0|-5.23|3.08|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.08|-5.23|0.6118
92357850|NCT00553475|184620559|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.59||||0.0109||95.0|1.76|13.42|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||13.42|1.76|0.0109
92357851|NCT00553475|184620560|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.49||||0.4602||95.0|-2.47|5.45|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.45|-2.47|0.4602
92357852|NCT00553475|184620560|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.97||||0.1625||95.0|-1.61|9.54|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.54|-1.61|0.1625
92357853|NCT00553475|184620561|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|||<|0.0001||95.0|-1.25|-0.46|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.46|-1.25|<0.0001
92357854|NCT00553475|184620561|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63||||0.0273||95.0|-1.19|-0.07|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.07|-1.19|0.0273
92357855|NCT00553475|184620562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.79||||0.0013||95.0|-2.87|-0.71|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.71|-2.87|0.0013
92357856|NCT00553475|184620562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.13||||0.0062||95.0|-3.65|-0.61|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.61|-3.65|0.0062
92357857|NCT00553475|184620563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.0068||95.0|-1.03|-0.17|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.17|-1.03|0.0068
92222564|NCT02873936|184346120|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|0.7||0.005|TWO_SIDED|95.0|0.6|3.4||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.4|0.6|0.005
92227158|NCT01235962|184356479|SUPERIORITY||Mean Difference (36M DFS FU)|0.072||||0.706|TWO_SIDED|95.0|-0.302|0.446|||analysis of covariance|adjusted for baseline score using mixed-model||||0.446|-0.302|0.706
92357858|NCT00553475|184620563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56||||0.0707||95.0|-1.17|0.05|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.05|-1.17|0.0707
92357859|NCT00553475|184620564|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.35||||0.0013||95.0|-3.76|-0.93|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.93|-3.76|0.0013
92357860|NCT00553475|184620564|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.67||||0.0087||95.0|-4.67|-0.68|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.68|-4.67|0.0087
92357861|NCT00553475|184620565|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.27||||0.0056||95.0|-12.4|-2.14|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-2.14|-12.40|0.0056
92164367|NCT03615924|184217194|SUPERIORITY||Incidence rate ratio|0.76||||0.7136|TWO_SIDED|95.0|0.17|3.3|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||3.30|0.17|0.7136
92222565|NCT02873936|184346120|SUPERIORITY||Least Squares Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|1.02|<|0.001|TWO_SIDED|95.0|1.9|5.9||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.9|1.9|<0.001
92227159|NCT01235962|184356479|SUPERIORITY||Mean Difference (48M DFS FU)|0.12||||0.612|TWO_SIDED|95.0|-0.343|0.583|||analysis of covariance|adjusted for baseline score using mixed-model||||0.583|-0.343|0.612
92357862|NCT00553475|184620565|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.49||||0.0427||95.0|-14.74|-0.25|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.25|-14.74|0.0427
92357863|NCT00553475|184620566|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21||||0.0365||95.0|-0.4|-0.01|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.01|-0.40|0.0365
92357864|NCT00553475|184620566|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37||||0.0073||95.0|-0.65|-0.1|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.10|-0.65|0.0073
92357865|NCT00553475|184620567|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.37||||0.0019||95.0|-10.38|-2.36|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-2.36|-10.38|0.0019
92357866|NCT00553475|184620567|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.78||||0.1907||95.0|-9.45|1.89|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||1.89|-9.45|0.1907
92164368|NCT03615924|184217195|SUPERIORITY||Incidence rate ratio|0.84||||0.497|TWO_SIDED|95.0|0.5|1.4|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||1.40|0.50|0.4970
92164369|NCT03615924|184217196|SUPERIORITY||Incidence rate ratio|1.43||||0.1636|TWO_SIDED|95.0|0.87|2.36|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||2.36|0.87|0.1636
92164370|NCT03615924|184217197|SUPERIORITY||Incidence rate ratio|1.68||||0.2011|TWO_SIDED|95.0|0.76|3.75|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||3.75|0.76|0.2011
92164371|NCT03615924|184217199|SUPERIORITY||Incidence rate ratio|0.0||||0.994|TWO_SIDED|95.0|0.0||Upper limit of confidence interval was not calculable due to 0 events in Ticagrelor 15/30/45 mg bd reporting group.||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.|||0.00|0.9940
92164372|NCT03615924|184217200|SUPERIORITY||Incidence rate ratio|0.77||||0.4822|TWO_SIDED|95.0|0.38|1.58|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||1.58|0.38|0.4822
92164373|NCT02954848|184217214|SUPERIORITY||Median Difference (Final Values)|3.8||||0.0643|TWO_SIDED|95.0|0.0|10.6|||Wilcoxon Rank-Sum Test||The point estimate of the median difference between the treatment groups was calculated using the Hodges-Lehmann estimation.|||10.600|0.000|0.0643
92164374|NCT02954848|184217215|SUPERIORITY|||||||0.0003|||||||Log Rank|||||||0.0003
92164375|NCT02954848|184217216|SUPERIORITY||Median Difference (Final Values)|-0.11||||0.0826|TWO_SIDED|95.0|-0.24|0.01|||Wilcoxon Rank-Sum Test|||||0.0100|-0.2400|0.0826
92164376|NCT02954848|184217217|SUPERIORITY||Median Difference (Final Values)|3.3||||0.0478|TWO_SIDED|95.0|0.0|5.3|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 1, improved response||5.300|0.000|0.0478
92164377|NCT02954848|184217217|SUPERIORITY||Median Difference (Final Values)|0.0||||0.8963|TWO_SIDED|95.0|-6.1|6.0|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 1, not improved response||6.000|-6.100|0.8963
92164378|NCT02954848|184217217|SUPERIORITY||Median Difference (Final Values)|5.2||||0.012|TWO_SIDED|95.0|0.0|10.7|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 2, improved response||10.700|0.000|0.0120
92164379|NCT02954848|184217217|SUPERIORITY||Median Difference (Final Values)|-4.7||||0.0871|TWO_SIDED|95.0|-17.4|0.0|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 2, not improved response||0.000|-17.400|0.0871
92164380|NCT02954848|184217218|SUPERIORITY|||||||0.0025|||||||Log Rank|||||||0.0025
92164381|NCT02954848|184217219|SUPERIORITY|||||||0.1059|||||||Log Rank|||||||0.1059
92164382|NCT02954848|184217220|SUPERIORITY|||||||0.0004|||||||Log Rank|||||||0.0004
92164383|NCT02954848|184217221|SUPERIORITY|||||||0.5393|||||||Log Rank|||||||0.5393
92164384|NCT02954848|184217222|SUPERIORITY||Median Difference (Final Values)|-0.1||||0.0505|TWO_SIDED|95.0|-0.21|0.0|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 1, improved response||0.0000|-0.2100|0.0505
92164385|NCT02954848|184217222|SUPERIORITY||Median Difference (Final Values)|0.02||||0.8138|TWO_SIDED|95.0|-0.12|0.15|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 1, not improved response||0.1500|-0.1200|0.8138
92164386|NCT02954848|184217222|SUPERIORITY||Median Difference (Final Values)|-0.15||||0.0129|TWO_SIDED|95.0|-0.28|-0.03|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 2, improved response||-0.0300|-0.2800|0.0129
92164387|NCT02954848|184217222|SUPERIORITY||Median Difference (Final Values)|0.17||||0.0765|TWO_SIDED|95.0|-0.01|0.36|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 2, not improved response||0.3600|-0.0100|0.0765
92401474|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.694||95.0||||p-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.694
92401475|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.835||95.0||||p-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.835
92401476|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||p-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.435
92401477|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.379||95.0||||p-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.379
92164388|NCT02954848|184217223|SUPERIORITY||Median Difference (Final Values)|6.5||||0.149|TWO_SIDED|95.0|-1.9|15.3|||Wilcoxon Rank-Sum Test|||Statistical analysis for Grade N of endoscopic findings||15.300|-1.900|0.1490
92164389|NCT02954848|184217223|SUPERIORITY||Median Difference (Final Values)|3.6||||0.2146|TWO_SIDED|95.0|-1.4|10.7|||Wilcoxon Rank-Sum Test|||Statistical analysis for Grade M of endoscopic findings||10.700|-1.400|0.2146
92164390|NCT02954848|184217224|SUPERIORITY|||||||0.0059|||||||Log Rank|||||||0.0059
92222566|NCT02873936|184346120|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|1.03||0.002|TWO_SIDED|95.0|1.1|5.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.2|1.1|0.002
92357867|NCT00553475|184620568|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03||||0.9905||95.0|-5.37|5.43|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.43|-5.37|0.9905
92357868|NCT00553475|184620568|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.44||||0.2532||95.0|-3.19|12.08|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.08|-3.19|0.2532
92164391|NCT02954848|184217225|SUPERIORITY|||||||0.0153|||||||Log Rank|||||||0.0153
92227160|NCT01235962|184356479|SUPERIORITY||Mean Difference (54M DFS FU)|-0.045||||0.87|TWO_SIDED|95.0|-0.587|0.496|||analysis of covariance|adjusted for baseline score using mixed-model||||0.496|-0.587|0.870
92357869|NCT00553475|184620569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.39||||0.4538||95.0|-5.05|2.26|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||2.26|-5.05|0.4538
92357870|NCT00553475|184620569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.84||||0.2782||95.0|-7.97|2.3|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||2.30|-7.97|0.2782
92357871|NCT00553475|184620570|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32||||0.0177||95.0|0.06|0.59|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.59|0.06|0.0177
92357872|NCT00553475|184620570|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17||||0.3661||95.0|-0.2|0.55|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.55|-0.20|0.3661
92164392|NCT02954848|184217226|SUPERIORITY||Median Difference (Final Values)|-0.18||||0.0757|TWO_SIDED|95.0|-0.43|0.02|||Wilcoxon Rank-Sum Test|||Statistical analysis for Grade N of endoscopic findings||0.0200|-0.4300|0.0757
92164393|NCT02954848|184217226|SUPERIORITY||Median Difference (Final Values)|-0.07||||0.3837|TWO_SIDED|95.0|-0.22|0.09|||Wilcoxon Rank-Sum Test|||Statistical analysis for Grade M of endoscopic findings||0.0900|-0.2200|0.3837
92164394|NCT02954848|184217227|SUPERIORITY||Median Difference (Final Values)|0.0||||0.6631|TWO_SIDED|95.0|-5.0|3.5|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade N and improved response||3.500|-5.000|0.6631
92164395|NCT02954848|184217227|SUPERIORITY||Median Difference (Final Values)|3.2||||0.5627|TWO_SIDED|95.0|-7.1|13.9|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade N and not improved response||13.900|-7.100|0.5627
92164396|NCT02954848|184217227|SUPERIORITY||Median Difference (Final Values)|3.7||||0.0042|TWO_SIDED|95.0|0.0|8.0|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade M and improved response||8.000|0.000|0.0042
92164397|NCT02954848|184217227|SUPERIORITY||Median Difference (Final Values)|-0.7||||0.6452|TWO_SIDED|95.0|-9.4|6.4|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade M and not improved response||6.400|-9.400|0.6452
92401478|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.247||95.0||||p-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.247
92401479|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.784||95.0||||p-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.784
92401480|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.696||95.0||||p-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.696
92164398|NCT02954848|184217227|SUPERIORITY||Median Difference (Final Values)|7.4||||0.0376|TWO_SIDED|95.0|0.0|17.8|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade N and improved response||17.800|0.000|0.0376
92357873|NCT00553475|184620571|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.62||||0.0511||95.0|-0.03|11.26|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||11.26|-0.03|0.0511
92357874|NCT00553475|184620571|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.65||||0.0173||95.0|1.72|17.59|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||17.59|1.72|0.0173
92357875|NCT00553475|184620572|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.79||||0.1123||95.0|-0.89|8.47|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||8.47|-0.89|0.1123
92357876|NCT00553475|184620572|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.79||||0.0206||95.0|1.2|14.38|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||14.38|1.20|0.0206
92357877|NCT00553475|184620573|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.54||||0.0269||95.0|-6.67|-0.41|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.41|-6.67|0.0269
92357878|NCT00553475|184620573|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.82||||0.4183||95.0|-6.24|2.6|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||2.60|-6.24|0.4183
92357879|NCT00553475|184620574|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0148||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi-squared with a modified ridit transformation, stratified by stratum based on the CLcr||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0148
92357880|NCT00553475|184620574|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0063||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi-squared with a modified ridit transformation, stratified by stratum based on the CLcr||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0063
92401481|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.725||95.0||||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.725
92164399|NCT02954848|184217227|SUPERIORITY||Median Difference (Final Values)|-13.0||||0.16|TWO_SIDED|95.0|-35.7|3.6|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade N and not improved response||3.600|-35.700|0.1600
92164400|NCT02954848|184217227|SUPERIORITY||Median Difference (Final Values)|3.6||||0.1032|TWO_SIDED|95.0|0.0|10.7|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade M and improved response||10.700|0.000|0.1032
92164401|NCT02954848|184217227|SUPERIORITY||Median Difference (Final Values)|-3.3||||0.2613|TWO_SIDED|95.0|-14.3|0.2|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade M and not improved response||0.200|-14.300|0.2613
92164402|NCT02954848|184217228|SUPERIORITY|||||||0.997|||||||Log Rank|||||||0.9970
92164403|NCT02954848|184217229|SUPERIORITY|||||||0.0125|||||||Log Rank|||||||0.0125
92164404|NCT02954848|184217230|SUPERIORITY|||||||0.0004|||||||Log Rank|||||||0.0004
92164405|NCT02954848|184217231|SUPERIORITY|||||||0.7999|||||||Log Rank|||||||0.7999
92164406|NCT02954848|184217232|SUPERIORITY|||||||0.0059|||||||Log Rank|||||||0.0059
92164407|NCT02954848|184217233|SUPERIORITY|||||||0.552|||||||Log Rank|||||||0.5520
92164408|NCT02954848|184217234|SUPERIORITY|||||||0.0175|||||||Log Rank|||||||0.0175
92164409|NCT02954848|184217235|SUPERIORITY|||||||0.7505|||||||Log Rank|||||||0.7505
92164410|NCT02954848|184217236|SUPERIORITY||Median Difference (Final Values)|-0.03||||0.7845|TWO_SIDED|95.0|-0.23|0.16|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade N and improved response||0.1600|-0.2300|0.7845
92357881|NCT00553475|184620575|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0818||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi-squared with a modified ridit transformation, stratified by stratum based on the CLcr||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0818
92357882|NCT00553475|184620575|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0075||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi-squared with a modified ridit transformation, stratified by stratum based on the CLcr||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0075
92357883|NCT00553475|184620576|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66||||0.0013||95.0|-1.07|-0.26|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.26|-1.07|0.0013
92357884|NCT00553475|184620576|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74||||0.0152||95.0|-1.34|-0.14|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.14|-1.34|0.0152
92357885|NCT00913835|184620577|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.054||||0.8049|TWO_SIDED|90.0|0.751|1.478|||Log Rank|Stratified by prior platinum treatment, platinum-refractory versus platinum-resistance reaction.||||1.478|0.751|0.8049
92357886|NCT00913835|184620578|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.115||||0.6346|TWO_SIDED|90.0|0.768|1.618|||Log Rank|Stratified by prior platinum treatment, platinum-refractory versus platinum-resistance reaction.||||1.618|0.768|0.6346
92357887|NCT00913835|184620579|SUPERIORITY_OR_OTHER_LEGACY|||||||0.619|TWO_SIDED||||||Fisher Exact|||||||0.6190
92401482|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.899||95.0||||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.899
92164411|NCT02954848|184217236|SUPERIORITY||Wilcoxon Rank-Sum Test|-0.11||||0.4456|TWO_SIDED|95.0|-0.33|0.17|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade N and not improved response||0.1700|-0.3300|0.4456
92222567|NCT02873936|184346122|SUPERIORITY||Least Squares Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|0.97||0.019|TWO_SIDED|95.0|0.4|4.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.2|0.4|0.019
92357888|NCT00773461|184620590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92357889|NCT00773461|184620590|SUPERIORITY_OR_OTHER||||||<|0.0001||||||ITT Population (Sensitivity)|Cochran-Mantel-Haenszel|||||||<0.0001
92357890|NCT00773461|184620591|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Comparison of ACR 50 responders in placebo and Tocilizumab groups|Cochran-Mantel-Haenszel|||||||<0.0001
92357891|NCT00773461|184620591|SUPERIORITY_OR_OTHER|||||||0.0345||||||Comparison of ACR 70 responders in placebo and Tocilizumab groups|Cochran-Mantel-Haenszel|||||||0.0345
92405745|NCT01929317|184701682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|||||TWO_SIDED|95.0|-0.52|2.22|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On for Week 8."|||2.22|-0.52|
92164412|NCT02954848|184217236|SUPERIORITY||Median Difference (Final Values)|-0.15||||0.02|TWO_SIDED|95.0|-0.29|-0.02|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade M and improved response||-0.0200|-0.2900|0.0200
92357892|NCT00773461|184620593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|||<|0.0001|TWO_SIDED|95.0|-6.6|-2.8||p value was calculated using the difference between core set values of the two arms.|ANCOVA|||Placebo + DMARDs Vs Tocilizumab + DMARDs analysis for Swollen Joint Count||-2.8|-6.6|<0.0001
92357893|NCT00773461|184620593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.7|||<|0.0001|TWO_SIDED|95.0|-11.3|-6.1||p value was calculated using the difference between core set values of the two arms.|ANCOVA|||Placebo + DMARDs Vs Tocilizumab + DMARDs analysis for Tender Joint Count||-6.1|-11.3|<0.0001
92357894|NCT00773461|184620594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1|||<|0.0001|TWO_SIDED|95.0|-25.3|-12.9|||ANCOVA|||||-12.9|-25.3|<0.0001
92357895|NCT00773461|184620595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3|||<|0.0001|TWO_SIDED|95.0|-24.5|-14.0|||ANCOVA|||||-14.0|-24.5|<0.0001
92357896|NCT00773461|184620596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.0|||<|0.0001|TWO_SIDED|95.0|-25.2|-12.7|||ANCOVA|||||-12.7|-25.2|<0.0001
92357897|NCT00773461|184620597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7384|||<|0.0001|TWO_SIDED|95.0|-2.1464|-1.3303|||ANCOVA|||||-1.3303|-2.1464|<0.0001
92405746|NCT01929317|184701682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|||||TWO_SIDED|95.0|-0.55|2.26|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On for Week 12."|||2.26|-0.55|
92164413|NCT02954848|184217236|SUPERIORITY||Median Difference (Final Values)|0.06||||0.4673|TWO_SIDED|95.0|-0.1|0.22|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade M and not improved response||0.2200|-0.1000|0.4673
92227161|NCT01235962|184356480|SUPERIORITY||Mean Difference (Week 52 - thermo.)|-2.116||||0.018|TWO_SIDED|95.0|-3.872|-0.359|||analysis of covariance|adjusted for baseline score using mixed-model||||-0.359|-3.872|0.018
92164414|NCT02954848|184217236|SUPERIORITY||Median Difference (Final Values)|-0.29||||0.0095|TWO_SIDED|95.0|-0.53|-0.07|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade N and improved response||-0.0700|-0.5300|0.0095
92357898|NCT00773461|184620598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.2|||<|0.0001|TWO_SIDED|95.0|-44.7|-33.7|||ANCOVA|||||-33.7|-44.7|<.0001
92405747|NCT01929317|184701683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-0.98|1.36|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On without troublesome dyskinesias for Week 2."|||1.36|-0.98|
92357899|NCT00773461|184620600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8||||0.0003|TWO_SIDED|95.0|1.8|5.9|||ANCOVA|||||5.9|1.8|0.0003
92164415|NCT02954848|184217236|SUPERIORITY||Median Difference (Final Values)|0.31||||0.165|TWO_SIDED|95.0|-0.16|0.71|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade N and not improved response||0.7100|-0.1600|0.1650
92164416|NCT02954848|184217236|SUPERIORITY||Median Difference (Final Values)|-0.08||||0.2475|TWO_SIDED|95.0|-0.24|0.07|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade M and improved response||0.0700|-0.2400|0.2475
92222568|NCT02873936|184346122|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.97||0.073|TWO_SIDED|95.0|-0.2|3.6||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.6|-0.2|0.073
92357900|NCT00773461|184620601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-68.3||||0.0599|TWO_SIDED|95.0|-139.5|2.9|||ANCOVA|||||2.9|-139.5|0.0599
92357901|NCT00773461|184620602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.956|||<|0.0001|TWO_SIDED|95.0|9.125|16.786|||ANCOVA|||||16.786|9.125|<0.0001
92357902|NCT00773461|184620603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.28|||ANCOVA|||||-0.28|-0.56|<0.0001
92357903|NCT00637156|184620607|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.1.|Risk Difference (RD)|0.113||||1|TWO_SIDED|95.0|0.022|0.201||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P(p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.201|0.022|1.000
92357904|NCT00637156|184620607|SUPERIORITY_OR_OTHER|||||||0.993||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of overall success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated. If the posterior probability is at least 0.95, a claim of superiority can be made.||||0.993
92164417|NCT02954848|184217236|SUPERIORITY||Median Difference (Final Values)|0.13||||0.2367|TWO_SIDED|95.0|-0.09|0.32|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade M and not improved||0.3200|-0.0900|0.2367
92164418|NCT02954848|184217237|SUPERIORITY||Median Difference (Final Values)|5.5||||0.1885|TWO_SIDED|95.0|-2.7|14.3|||Wilcoxon Rank-Sum Test|||Statistical analysis for improved response||14.300|-2.700|0.1885
92357905|NCT00637156|184620608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.088||||1|TWO_SIDED|95.0|0.012|0.167||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the NDI success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.167|0.012|1.000
92357906|NCT00637156|184620608|SUPERIORITY_OR_OTHER|||||||0.99||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of NDI success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.990
92401483|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.782||95.0||||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.782
92164419|NCT02954848|184217237|SUPERIORITY||Wilcoxon Rank-Sum Test|25.6||||0.2337|TWO_SIDED|95.0|-19.2|75.0|||Wilcoxon Rank-Sum Test|||Statistical analysis for not improved response||75.000|-19.200|0.2337
92164420|NCT02954848|184217238|SUPERIORITY|||||||0.0811|||||||Log Rank|||||||0.0811
92164421|NCT02954848|184217239|SUPERIORITY|||||||0.0288|||||||Log Rank|||||||0.0288
92222569|NCT02873936|184346122|SUPERIORITY||Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.03||0.045|TWO_SIDED|95.0|0.0|4.1||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.1|0.0|0.045
92405748|NCT01929317|184701683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57|||||TWO_SIDED|95.0|-0.64|1.78|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On without troublesome dyskinesias for Week 4."|||1.78|-0.64|
92405749|NCT01929317|184701683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|||||TWO_SIDED|95.0|-0.71|1.84|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On without troublesome dyskinesias for Week 6."|||1.84|-0.71|
92405750|NCT01929317|184701683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|||||TWO_SIDED|95.0|-0.47|2.39|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On without troublesome dyskinesias for Week 8."|||2.39|-0.47|
92164422|NCT02954848|184217240|SUPERIORITY||Median Difference (Final Values)|-0.17||||0.1488|TWO_SIDED|95.0|-0.42|0.04|||Wilcoxon Rank-Sum Test|||Statistical analysis for improved response||0.0400|-0.4200|0.1488
92401484|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.307||95.0||||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.307
92357907|NCT00637156|184620609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.05||||1|TWO_SIDED|95.0|-0.014|0.119||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the neurological success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.119|-0.014|1.000
92357908|NCT00637156|184620609|SUPERIORITY_OR_OTHER|||||||0.931||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of neurological success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.931
92357909|NCT00637156|184620610|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.021||||1|TWO_SIDED|95.0|-0.019|0.062||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the neck pain success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.062|-0.019|1.000
92357910|NCT00637156|184620610|SUPERIORITY_OR_OTHER|||||||0.852||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of neck pain success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.852
92357911|NCT00637156|184620611|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.008||||0.997|TWO_SIDED|95.0|-0.073|0.056||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the arm pain success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.056|-0.073|0.997
92357912|NCT00637156|184620611|SUPERIORITY_OR_OTHER|||||||0.395||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of arm pain success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.395
92401485|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.457
92401486|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.712||95.0||||P-value is for male, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.712
92401487|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.403||95.0||||P-value is for male, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.403
92405751|NCT01929317|184701683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|||||TWO_SIDED|95.0|-0.63|2.33|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On without troublesome dyskinesias for Week 12."|||2.33|-0.63|
92222570|NCT02873936|184346122|SUPERIORITY||Least Squares Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.02||0.32|TWO_SIDED|95.0|-1.0|3.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.0|-1.0|0.32
92222571|NCT02873936|184346122|SUPERIORITY||Least Squares Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|1.19||0.12|TWO_SIDED|95.0|-0.5|4.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.2|-0.5|0.12
92357913|NCT00637156|184620612|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.024||||1|TWO_SIDED|95.0|-0.042|0.088||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the SF-36 PCS success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.088|-0.042|1.000
92357914|NCT00637156|184620612|SUPERIORITY_OR_OTHER|||||||0.767||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of SF-36 PCS success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.767
92357915|NCT00637156|184620613|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.024||||0.945|TWO_SIDED|95.0|-0.12|0.067||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the SF-36 MCS success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.067|-0.120|0.945
92357916|NCT00637156|184620614|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.017||||0.997|TWO_SIDED|95.0|-0.072|0.04||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the FSU success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.040|-0.072|0.997
92357917|NCT00637156|184620614|SUPERIORITY_OR_OTHER|||||||0.271||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of FSU success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.271
92357918|NCT00637156|184620615|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.013||||1|TWO_SIDED|95.0|-0.013|0.04||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the gait success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.040|-0.013|1.000
92357919|NCT00637156|184620615|SUPERIORITY_OR_OTHER|||||||0.859||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of gait success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.859
92357920|NCT00637156|184620616|SUPERIORITY_OR_OTHER||Posterior Mean Difference|0.4||||0|TWO_SIDED|95.0|0.252|0.548||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean difference (µ1- µ0) and the corresponding 95% highest posterior density (HPD) interval were presented instead of the usual 95% CI.|"Superiority comparison of the operative time in two treatment groups was assessed. The null hypothesis is H0: μ1 = μ0 and the alternative hypothesis is Ha: μ1 ≠ μ0, where μ0 and μ1 denote the mean in control group the investigational group, respectively. Should the posterior probability of superiority P(μ1- μ0 \< 0\|data) be at least 97.5%, the superiority would be claimed."||0.548|0.252|0.0
92357921|NCT00637156|184620617|SUPERIORITY_OR_OTHER||Posterior Mean Difference|11.5||||0.02|TWO_SIDED|95.0|0.56|22.44|||Bayesian model||The posterior mean difference (µ1- µ0) and the corresponding 95% highest posterior density (HPD) interval were presented instead of the usual 95% CI.|"Superiority comparison of the blood loss in two treatment groups was assessed.The null hypothesis is H0: μ1 = μ0 and the alternative hypothesis is Ha: μ1 ≠ μ0, where μ0 and μ1 denote the mean in control group the investigational group, respectively. Should the posterior probability of superiority P(μ1- μ0 \< 0\|data) be at least 97.5%, the superiority would be claimed."||22.440|0.560|0.02
92369486|NCT00281099|184643810|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-100.0|0.8||The threshold for significance was defined as the upper one-sided confidence bound being less than 0.|Bootstrap Confidence Interval|||This analysis compared the percentage of days with \>20 hours of AT/AF as measured by the device(definition of clinically important AF) between arms. The null hypothesis was that this percentage of days for patients with MVP was equal or greater to that of patients with VVI 40.||0.8|-100|
92369487|NCT00281099|184643810|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||The a priori threshold for statistical significance was 0.05.|Log Rank|A one-sided test was used.||This analysis tested the null hypothesis that the hazard rate for development of persistent AF(defined as 2 consecutive visits presenting with AT/AF, 7 consecutive days of 22 or more hours per day of AT/AF, or \< 7 such days due to a cardioversion) in patients with MVP and no pacing indication was equal to or greater than that of similar patients with VVI 40.||||0.325
92405752|NCT02855125|184701750|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.2744|TWO_SIDED|95.0|0.71|1.88|||Log Rank|1-sided stratified log-rank test.|Based on stratified Cox regression model .|||1.88|0.71|0.2744
92405753|NCT02855125|184701751|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.1431|TWO_SIDED|95.0|0.8|2.14|||Log Rank|1-sided stratified log-rank test.|Based on stratified Cox regression model.|||2.14|0.80|0.1431
92405754|NCT00664443|184701756|OTHER||Sensitivity|65.9|||||TWO_SIDED|95.0|63.5|68.2||||||||68.2|63.5|
92357922|NCT00637156|184620618|SUPERIORITY_OR_OTHER||Posterior Mean Difference|-0.1||||0.892|TWO_SIDED|95.0|-0.258|0.058||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean difference (µ1- µ0) and the corresponding 95% highest posterior density (HPD) interval were presented instead of the usual 95% CI.|"Superiority comparison of the hospital stay in two treatment groups was assessed.The null hypothesis is H0: μ1 = μ0 and the alternative hypothesis is Ha: μ1 ≠ μ0, where μ0 and μ1 denote the mean in control group the investigational group, respectively. Should the posterior probability of superiority P(μ1- μ0 \< 0\|data) be at least 97.5%, the superiority would be claimed."||0.058|-0.258|0.892
92357923|NCT02657356|184620676|SUPERIORITY||LS Mean difference (Net)|-12.86|STANDARD_ERROR_OF_MEAN|7.012||0.0683|TWO_SIDED|95.0|-26.69|0.98|||Mixed Models Analysis|Covariates: screening 6MWT, day 1 hemoglobin, treatment grp, # of PAH medications, time, interactions btwn treatment \& time, and screening 6MWT \& time|Difference is bardoxolone methyl - placebo|||0.98|-26.69|0.0683
92357924|NCT02657356|184620677|SUPERIORITY||Hazard Ratio (HR)|1.984||||0.0004|TWO_SIDED|95.0|1.36|2.895|||Chi-squared||Estimated from Cox Regression adjusted by baseline PAH medication status (0-1 vs 2) as the covariate. Hazard ratio \>1 indicates a beneficial effect that favors bardoxolone methyl.|||2.895|1.360|0.0004
92357925|NCT00500331|184620707|OTHER|Tukey's trend test for dose response: Change= Baseline+Treatment|||||<|0.001||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|Change= Baseline+Treatment||Placebo, GSK189075 50 mg, GSK189075 100 mg, GSK189075 250 mg, GSK189075 500 mg, GSK189075 1000 mg||||<0.001
92357926|NCT00500331|184620707|OTHER|Tukey's trend test for dose response|||||<|0.001||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|||Placebo, GSK189075 50 mg, GSK189075 100 mg, GSK189075 250 mg, GSK189075 500 mg||||<0.001
92357927|NCT00500331|184620707|OTHER|Tukey's trend test for dose response|||||<|0.001||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|Change=Baseline+Treatment||Placebo, GSK189075 50 mg, GSK189075 100 mg, GSK189075 250 mg||||<0.001
92357928|NCT00500331|184620707|OTHER|Tukey's trend test for dose response|||||<|0.001||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|Change=Baseline+Treatment||Placebo, GSK189075 50 mg, GSK189075 100 mg||||<0.001
92357929|NCT00500331|184620707|OTHER|Tukey's trend test for dose response|||||<|0.001||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|Change=Baseline+Treatment||Placebo, GSK189075 50 mg||||<0.001
92357930|NCT00500331|184620707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.73|||<|0.001|TWO_SIDED|95.0|-1.02|-0.44||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. GSK189075 50 mg||-0.44|-1.02|<0.001
92357931|NCT00500331|184620707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64|||<|0.001|TWO_SIDED|95.0|-0.94|-0.35||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. GSK189075 100 mg||-0.35|-0.94|<0.001
92357932|NCT00500331|184620707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|||<|0.001|TWO_SIDED|95.0|-1.03|-0.44||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. GSK189075 250 mg||-0.44|-1.03|<0.001
92357933|NCT00500331|184620707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|||<|0.001|TWO_SIDED|95.0|-1.19|-0.61||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. GSK189075 500 mg||-0.61|-1.19|<0.001
92357934|NCT00500331|184620707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.07|||<|0.001|TWO_SIDED|95.0|-1.36|-0.77||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. GSK189075 1000 mg||-0.77|-1.36|<0.001
92357935|NCT00500331|184620707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.76|||<|0.001|TWO_SIDED|95.0|-1.05|-0.47||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. Pioglitazone 30 mg||-0.47|-1.05|<0.001
92357936|NCT00734032|184620746|SUPERIORITY||Ratio|0.514|||<|0.001|TWO_SIDED|95.0|0.449|0.59|||ANCOVA||The point estimate was calculated as adjusted geometric mean ratio of placebo and SB-480848 40 mg. Dunnett adjustment was used for comparison of each dose group to placebo.|||0.590|0.449|<.001
92357937|NCT00734032|184620746|SUPERIORITY||Ratio|0.421|||<|0.001|TWO_SIDED|95.0|0.367|0.483|||ANCOVA||The point estimate was calculated as adjusted geometric mean ratio of placebo and SB-480848 80 mg. Dunnett adjustment was used for comparison of each dose group to placebo.|||0.483|0.367|<.001
92357938|NCT00734032|184620746|SUPERIORITY||Ratio|0.326|||<|0.001|TWO_SIDED|95.0|0.284|0.375|||ANCOVA||The point estimate was calculated as adjusted geometric mean ratio of placebo and SB-480848 160 mg. Dunnett adjustment was used for comparison of each dose group to placebo.|||0.375|0.284|<.001
92405755|NCT00664443|184701757|OTHER||Specificity|32.3|||||TWO_SIDED|95.0|29.0|35.9||||||||35.9|29.0|
92164423|NCT02954848|184217240|SUPERIORITY||Wilcoxon Rank-Sum Test|-0.44||||0.3778|TWO_SIDED|95.0|-1.57|0.69|||Wilcoxon Rank-Sum Test|||Statistical analysis for not improved response||0.6900|-1.5700|0.3778
92164424|NCT03299816|184217255|SUPERIORITY|||||||0.17||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|Urinary albumin-to-creatinine ratio (ACR) was not normally distributed and was natural log transformed for analyses||||||0.17
92164425|NCT03299816|184217256|SUPERIORITY|||||||0.36||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|||||||0.36
92164426|NCT03299816|184217257|SUPERIORITY|||||||0.33||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|||||||0.33
92357939|NCT00137449|184620752|SUPERIORITY_OR_OTHER||CBR Rate (percentage)|50.0||||||95.0|31.3|68.7|||F distribution|||||68.7|31.3|
92357940|NCT00137449|184620752|SUPERIORITY_OR_OTHER||CBR Rate (percentage)|56.7||||||95.0|37.4|74.5|||F distribution|||||74.5|37.4|
92357941|NCT00137449|184620752|SUPERIORITY_OR_OTHER||CBR Rate (percentage)|53.3||||||95.0|40.0|66.3|||F distribution|||Null hypothesis that the true CBR \<=20% vs the alternative hypothesis that the true clinical benefit rate is at least 35%. The sample size is determined using a single-stage design with an alpha level of 10% \& 90% power. If \>=17 CR, PR or SD for at least 24 weeks are observed, null hypothesis can be rejected with a 20% target false positive error rate. If \<= 16 CR, PR,or SD for at least 24 weeks are observed, null hypothesis can not be rejected with a target false negative error rate of 10%.||66.3|40.0|
92357942|NCT00137449|184620754|SUPERIORITY_OR_OTHER||ORR rate (percentage)|10.0||||||95.0|2.1|26.5|||F distribution||PR or CR responding tumor measurements confirmed by repeat studies performed at \> 4 weeks after the criteria for response first met.|||26.5|2.1|
92401488|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.713||95.0||||P-value is for male, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.713
92164427|NCT03299816|184217258|SUPERIORITY|||||||0.61||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|Urinary albumin-to-creatinine ratio (ACR) was not normally distributed and was natural log transformed for analyses||||||0.61
92164428|NCT03299816|184217259|SUPERIORITY|||||||0.73||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|Urinary albumin-to-creatinine ratio (ACR) was not normally distributed and was natural log transformed for analyses||||||0.73
92357943|NCT00137449|184620754|SUPERIORITY_OR_OTHER||ORR rate (percentage)|16.7||||||95.0|5.6|34.7|||F distribution||PR or CR responding tumor measurements confirmed by repeat studies performed at \> 4 weeks after the criteria for response first met.|||34.7|5.6|
92357944|NCT00137449|184620754|SUPERIORITY_OR_OTHER||ORR rate (percentage)|13.3||||||95.0|5.9|24.6|||F distribution||PR or CR responding tumor measurements confirmed by repeat studies performed at \> 4 weeks after the criteria for response first met.|||24.6|5.9|
92357945|NCT00137449|184620756|SUPERIORITY_OR_OTHER||median|27.0||||||95.0|22.0|73.1|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley. Median reported is progression free survival weeks.||73.1|22.0|
92401489|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.498
92401490|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.963||95.0||||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.963
92401491|NCT00385671|184694188|SUPERIORITY_OR_OTHER|||||||0.338||95.0||||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.338
92164429|NCT03299816|184217260|SUPERIORITY|||||||0.75||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|||||||0.75
92164430|NCT01184508|184217262|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference (Net)|-1.03||||0.085|TWO_SIDED|90.0|-2.02|-0.05||The comparison between LY2300559 and placebo for the LS mean change from baseline to Month 3 in the number of migraine attacks was conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed-effects model repeated-measures|Fixed effects: pooled investigator, treatment (tx) group, month, tx group\*month, baseline, baseline\*month; Random effect: pts; Repeated effect: month.||||-0.05|-2.02|0.085
92164431|NCT01184508|184217264|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|1.75||||0.77|TWO_SIDED|90.0|-8.27|11.76||The p-value is for the change from baseline to Month 3 in average duration of photophobia.|Mixed-effects model repeated-measures|Fixed effects: pooled investigator, treatment (tx) group, month, tx group\*month, baseline, baseline\*month; Random effect: pts; Repeated effect: month.||||11.76|-8.27|0.770
92164432|NCT01184508|184217264|SUPERIORITY_OR_OTHER||LS mean difference|7.3||||0.276|TWO_SIDED|90.0|-3.91|18.52||The p-value is for the change from baseline to Month 3 in average duration of phonophobia.|Mixed-effects model repeated-measures|Fixed effects: pooled investigator, tx group, month, tx group\*month, baseline, baseline\*month; Random effect: pts; Repeated effect: month.||||18.52|-3.91|0.276
92357946|NCT00137449|184620756|SUPERIORITY_OR_OTHER||median|35.1||||||95.0|24.4|51.6|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley.Median reported is progression free survival weeks.||51.6|24.4|
92357947|NCT00137449|184620756|SUPERIORITY_OR_OTHER||median|33.6||||||95.0|24.1|49.0|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley.Median reported is progression free survival weeks.||49.0|24.1|
92357948|NCT00137449|184620757|SUPERIORITY_OR_OTHER||median|57.0||||||95.0|24.1|73.1|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley.Time to progression in weeks reported as median.||73.1|24.1|
92357949|NCT00137449|184620757|SUPERIORITY_OR_OTHER||median|42.1||||||95.0|26.1|65.9|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley.Time to progression in weeks reported as median.||65.9|26.1|
92357950|NCT00137449|184620757|SUPERIORITY_OR_OTHER||median|42.1||||||95.0|26.1|65.9|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley.Time to progression in weeks reported as median.||65.9|26.1|
92357951|NCT00137449|184620759|SUPERIORITY_OR_OTHER||1 year survival rate|60.0||||||95.0|40.5|75.0|||Kaplan-Meier method|||||75.0|40.5|
92357952|NCT00137449|184620759|SUPERIORITY_OR_OTHER||1 year survival rate|79.7||||||95.0|60.3|90.3|||Kaplan-Meier method|||||90.3|60.3|
92357953|NCT00137449|184620759|SUPERIORITY_OR_OTHER||1 year survival rate|69.7||||||95.0|56.3|79.7|||Kaplan-Meier method|||||79.7|56.3|
92357954|NCT02296099|184620763|EQUIVALENCE|The Mann-Whitney U test was utilized.||||||0.014||||||The p-value was not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|There were no adjustments.||The null hypothesis is that there is no difference in the pain scores between the two groups.||||0.014
92357955|NCT01356940|184620773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.586||||0.586|TWO_SIDED||||||Mixed Models Analysis||P values above 0.05 are considered statistically not significant in this study|||||0.586
92357956|NCT03322566|184620787|SUPERIORITY||Difference in Percentages|-18.5||||0.9948|TWO_SIDED|95.0|-32.0|-4.3||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen method||Stratified by PD-L1 TPS ( \<50% vs. \>=50% ) and predominant tumor histology (squamous vs non-squamous);because of small sample size, the strata 'TPS \>= 50 percent Non-squamous' and 'TPS \>= 50% Squamous' were combined into one stratum.|||-4.3|-32.0|0.9948
92357957|NCT03322566|184620788|OTHER||Hazard Ratio (HR)|1.47||||0.94305|TWO_SIDED|95.0|0.91|2.36||One-sided p-value based on log-rank test stratified by TPS (\<50% vs \>=50%) and predominant histology (squamous vs non-squamous), because of small sample size, the strata 'TPS \>= 50% Non-squamous' and 'TPS \>= 50% Squamous' were combined into one.|Regression, Cox|Efron's method of tie handling||||2.36|0.91|0.94305
92357958|NCT03322566|184620789|OTHER||Hazard Ratio (HR)|1.9||||0.96272|TWO_SIDED|95.0|0.93|3.9||One-sided p-value based on log-rank test stratified by PD-L1 TPS (\<50% vs \>=50%) and predominant tumor histology (squamous vs non-squamous), because of small sample size, the strata (\<50% vs \>=50%) were combined into one stratum.|Regression, Cox|||||3.90|0.93|0.96272
92357959|NCT06045273|184620844|SUPERIORITY||Slope|0.224|STANDARD_ERROR_OF_MEAN|0.064||0.0006|TWO_SIDED||||||Satterthwaite approximations|Also used a mixed models analysis||||||0.0006
92357960|NCT06045273|184620845|SUPERIORITY||Slope|0.084|STANDARD_ERROR_OF_MEAN|0.043||0.0504|TWO_SIDED||||||Satterthwaite approximations|Also used a mixed models analysis||||||0.0504
92357961|NCT06045273|184620846|SUPERIORITY||Slope|0.131|STANDARD_ERROR_OF_MEAN|0.04||0.00134|TWO_SIDED||||||Satterthwaite approximations|Also used a mixed models analysis||||||0.00134
92405756|NCT02153632|184701787|SUPERIORITY||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|1.75||0.031|TWO_SIDED|95.0|-10.5|-0.5|||ANCOVA|||||-0.5|-10.5|0.031
92222572|NCT02873936|184346122|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.2||0.96|TWO_SIDED|95.0|-2.3|2.4||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.4|-2.3|0.96
92227162|NCT01235962|184356480|SUPERIORITY||Mean Difference (24M DFS FU - thermo)|-0.253||||0.778|TWO_SIDED|95.0|-2.014|1.508|||analysis of covariance|adjusted for baseline score using mixed-model||||1.508|-2.014|0.778
92357962|NCT02743221|184620850|OTHER|This was a non-comparative study.|Hazard Ratio (HR)|0.71||||0.09|TWO_SIDED|95.0|0.48|1.06|||Cox proportional hazard model|Cox proportional hazard model with adjustment for the stratification factors (RAS status, performance status ECOG)||||1.06|0.48|0.09
92227163|NCT01235962|184356480|SUPERIORITY||Mean Difference (36M DFS FU - thermo)|0.847||||0.376|TWO_SIDED|95.0|-1.03|2.724|||analysis of covariance|adjusted for baseline score using mixed-model||||2.724|-1.030|0.376
92227164|NCT01235962|184356480|SUPERIORITY||Mean Difference (48M DFS FU - thermo)|0.131||||0.905|TWO_SIDED|95.0|-2.032|2.294|||analysis of covariance|adjusted for baseline score using mixed-model||||2.294|-2.032|0.905
92227165|NCT01235962|184356480|SUPERIORITY||Mean Difference (54M DFS FU - thermo)|0.401||||0.768|TWO_SIDED|95.0|-2.269|3.071|||analysis of covariance|adjusted for baseline score using mixed-model||||3.071|-2.269|0.768
92227166|NCT01235962|184356480|SUPERIORITY||Mean Difference (Week 52 - UI)|-0.026||||0.007|TWO_SIDED|95.0|-0.044|-0.007|||analysis of covariance|adjusted for baseline score using mixed-model||||-0.007|-0.044|0.007
92227167|NCT01235962|184356480|SUPERIORITY||Mean Difference (24M DFS FU - UI)|-0.016||||0.13|TWO_SIDED|95.0|-0.036|0.005|||analysis of covariance|adjusted for baseline score using mixed-model||||0.005|-0.036|0.130
92357963|NCT02743221|184620851|OTHER|||||||0.73|||||||Fisher Exact|||||||0.73
92357964|NCT02743221|184620852|OTHER||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.49|2.74||||||||2.74|0.49|
92357965|NCT02743221|184620853|OTHER|||||||0.22|||||||Fisher Exact|||||||0.22
92357966|NCT02743221|184620854|OTHER||Hazard Ratio (HR)|0.56||||0.04|TWO_SIDED|95.0|0.32|0.98|||Cox proportional hazard model|||||0.98|0.32|0.04
92357967|NCT02947048|184620865|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.42||0.61|TWO_SIDED||||||ANCOVA|||Clinical Global Impression - Severity||||0.61
92357968|NCT02947048|184620865|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.52||0.33|TWO_SIDED||||||ANCOVA|||Clinical Global Impression - Severity||||0.33
92357969|NCT02947048|184620865|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.47||0.61|TWO_SIDED||||||ANCOVA|||Clinical Global Impression - Improvement||||0.61
92357970|NCT02947048|184620865|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.43||0.91|TWO_SIDED||||||ANCOVA|||Clinical Global Impression - Improvement||||0.91
92357971|NCT04011241|184620913|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|173.71|||||TWO_SIDED|90.0|154.58|195.21|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|Intra-individual geometric coefficient of variation (gCV%) = 17.6.|||195.21|154.58|
92357972|NCT04011241|184620914|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|137.4|||||TWO_SIDED|90.0|120.84|156.24|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|Intra-individual geometric coefficient of variation (gCV%) = 19.4.|||156.24|120.84|
92357973|NCT04011241|184620915|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|168.64|||||TWO_SIDED|90.0|145.59|195.34|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|Intra-individual geometric coefficient of variation (gCV%) = 18.1.|||195.34|145.59|
92357974|NCT00086515|184620921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|||<|0.001|TWO_SIDED|95.0|-0.77|-0.53|||ANCOVA|Model terms: treatment, prior AHA status (not on AHA, on monotherapy oral AHA, or on metformin-based oral combination AHA), and baseline A1C||||-0.53|-0.77|<0.001
92357975|NCT00086515|184620922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.4|||<|0.001|TWO_SIDED|95.0|-31.0|-19.8|||ANCOVA|Model terms: treatment, prior AHA status (not on AHA, on monotherapy oral AHA, or on metformin-based oral combination AHA), and baseline FPG||||-19.8|-31.0|<0.001
92357976|NCT00086515|184620923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.6|||<|0.001|TWO_SIDED|95.0|-60.5|-40.8|||ANCOVA|Model terms: treatment, prior AHA status (not on AHA, on monotherapy oral AHA, or on metformin-based oral combination AHA), and baseline 2-hour PMG||||-40.8|-60.5|<0.001
92357977|NCT01618708|184620943|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean difference|0.07|||=|0.7462|TWO_SIDED|95.0|-0.38|0.52||Threshold for significance at 0.05 level|Mixed Models Analysis||Placebo vs Synvisc-One|Synvisc-One group was compared to placebo group using mixed model for repeated measures (MMRM) approach assuming missing data at random (MAR).||0.52|-0.38|= 0.7462
92401492|NCT00385671|184694189|SUPERIORITY_OR_OTHER|||||||0.645||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Total Score.||||0.645
92401493|NCT00385671|184694189|SUPERIORITY_OR_OTHER|||||||0.248||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Total Score.||||0.248
92401494|NCT00385671|184694189|SUPERIORITY_OR_OTHER|||||||0.47||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Total Score.||||0.470
92401495|NCT00385671|184694189|SUPERIORITY_OR_OTHER|||||||0.914||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Cognitive Toxicity Score.||||0.914
92164433|NCT01184508|184217264|SUPERIORITY_OR_OTHER||LS mean difference|-2.7||||0.606|TWO_SIDED|90.0|-11.51|6.1||The p-value is for the change from baseline to Month 3 in average duration of nausea.|Mixed-effects model repeated-measures|Fixed effects: pooled investigator, tx group, month, tx group\*month, baseline, baseline\*month; Random effect: pts; Repeated effect: month.||||6.10|-11.51|0.606
92357978|NCT03131479|184620972|EQUIVALENCE|Change from baseline was analyzed using a repeated measures model which included diabetic status, renal function, day and renal function\*day and diabetic status\*day as fixed factors and age, baseline body weight and baseline fasting plasma glucose as covariates.|adjusted arithmetic mean difference|-9.21||||0.154|TWO_SIDED|90.0|-19.88|1.45|||Regression, Logistic|An unstructured variance-covariance structure was used. Baseline is defined to be the measurement collected on Day -1.||||1.45|-19.88|0.154
92357979|NCT03131479|184620972|EQUIVALENCE|Change from baseline was analyzed using a repeated measures model which included diabetic status, renal function, day and renal function\*day and diabetic status\*day as fixed factors and age, baseline body weight and baseline fasting plasma glucose as covariates.|adjusted arithmetic mean difference|-6.05||||0.343|TWO_SIDED|90.0|-16.65|4.55|||Regression, Logistic|||||4.55|-16.65|0.343
92222573|NCT02873936|184346124|SUPERIORITY||Least Squares Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED|95.0|1.6|5.7||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.7|1.6|<0.001
92357980|NCT03131479|184620972|EQUIVALENCE|Change from baseline was analyzed using a repeated measures model which included diabetic status, renal function, day and renal function\*day and diabetic status\*day as fixed factors and age, baseline body weight and baseline fasting plasma glucose as covariates.|adjusted arithmetic mean difference|-21.5||||0.001|TWO_SIDED|90.0|-31.79|4.55|||Regression, Logistic|||||4.55|-31.79|0.001
92401496|NCT00385671|184694189|SUPERIORITY_OR_OTHER|||||||0.505||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Cognitive Toxicity Score.||||0.505
92405757|NCT02153632|184701787|SUPERIORITY||Mean Difference (Final Values)|-6.5|STANDARD_ERROR_OF_MEAN|1.71||0.011|TWO_SIDED|95.0|-11.5|-1.5|||ANCOVA|||||-1.5|-11.5|0.011
92405758|NCT01646125|184701826|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.76|||||TWO_SIDED|90.0|0.35|1.63||||||||1.63|0.35|
92164434|NCT01184508|184217265|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-1.57||||0.174|TWO_SIDED|90.0|-3.48|0.34||The p-value is for the mean change from baseline to Month 3 in the number of migraine days.|Mixed-effects model repeated-measures|Fixed effects: pooled investigator, treatment (tx) group, month, tx group\*month, baseline, baseline\*month; Random effect: pts; Repeated effect: month.||||0.34|-3.48|0.174
92164435|NCT01184508|184217268|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.27||||0.963|TWO_SIDED|90.0|-9.76|9.23||The p-value is for the change from baseline to Week 12 in MSQ restrictive function score.|ANCOVA|Fixed effects: investigator (pooled site), treatment group, visit, treatment group\*visit, baseline and baseline\*visit.||||9.23|-9.76|0.963
92227168|NCT01235962|184356480|SUPERIORITY||Mean Difference (36M DFS FU - UI)|0.007||||0.52|TWO_SIDED|95.0|-0.015|0.03|||analysis of covariance|adjusted for baseline score using mixed-model||||0.030|-0.015|0.520
92401497|NCT00385671|184694189|SUPERIORITY_OR_OTHER|||||||0.57||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Cognitive Toxicity Score.||||0.570
92401498|NCT00385671|184694189|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Somatomotor Toxicity Score.||||0.430
92401499|NCT00385671|184694189|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Somatomotor Toxicity Score.||||0.090
92401500|NCT00385671|184694189|SUPERIORITY_OR_OTHER|||||||0.341||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Somatomotor Toxicity Score.||||0.341
92401501|NCT00385671|184694190|SUPERIORITY_OR_OTHER|||||||0.13||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale total score.||||0.130
92357981|NCT03131479|184620972|EQUIVALENCE|Change from baseline was analyzed using a repeated measures model which included diabetic status, renal function, day and renal function\*day and diabetic status\*day as fixed factors and age, baseline body weight and baseline fasting plasma glucose as covariates.|adjusted arithmetic mean difference|-35.6||||0|TWO_SIDED|90.0|-46.0|-25.11|||Regression, Logistic|||||-25.11|-46.00|0.000
92401502|NCT00385671|184694190|SUPERIORITY_OR_OTHER|||||||0.192||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale total score.||||0.192
92401503|NCT00385671|184694190|SUPERIORITY_OR_OTHER|||||||0.936||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale total score.||||0.936
92401504|NCT00385671|184694190|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale cognitive toxicity score.||||0.480
92357982|NCT04439903|184620985|OTHER||Intercept|1.9726|STANDARD_ERROR_OF_MEAN|3.8238||0.61532|TWO_SIDED||||||Regression, Linear|||||||0.61532
92401505|NCT00385671|184694190|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale cognitive toxicity score.||||0.690
92222574|NCT02873936|184346124|SUPERIORITY||Least Squares Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|1.05||0.002|TWO_SIDED|95.0|1.2|5.4||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.4|1.2|0.002
92357983|NCT04439903|184620985|OTHER||Slope|-0.68016|STANDARD_ERROR_OF_MEAN|1.0084||0.5128|TWO_SIDED||||||Regression, Linear||Predictor variable 1: Number of simulations per participant per week.|||||0.5128
92357984|NCT04439903|184620985|OTHER||Slope|0.15238|STANDARD_ERROR_OF_MEAN|0.3629||0.68197|TWO_SIDED||||||Regression, Linear||Predictor variable 2: Minutes of interaction with the Web-Based Simulation Tool per participant per week.|||||0.68197
92357985|NCT04439903|184620986|OTHER||Intercept|-0.49527|STANDARD_ERROR_OF_MEAN|0.44535||0.28789|TWO_SIDED||||||Regression, Linear|||||||0.28789
92164436|NCT01184508|184217268|SUPERIORITY_OR_OTHER||LS mean difference|-2.17||||0.591|TWO_SIDED|90.0|-8.85|4.5||The p-value is for the change from baseline to Week 12 in MSQ preventive function score.|ANCOVA|Fixed effects: investigator (pooled site), treatment group, visit, treatment group\*visit, baseline and baseline\*visit.||||4.50|-8.85|0.591
92164437|NCT01184508|184217268|SUPERIORITY_OR_OTHER||LS mean difference|1.89||||0.72|TWO_SIDED|90.0|-6.81|10.58||The p-value is for the change from baseline to Week 12 in MSQ emotional function score.|ANCOVA|Fixed effects: investigator (pooled site), treatment group, visit, treatment group\*visit, baseline and baseline\*visit.||||10.58|-6.81|0.720
92164438|NCT01184508|184217269|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.25||||0.688|TWO_SIDED|90.0|-1.3|0.8||The p-value is for the change from baseline to Week 12 in MIBS-4 overall weighted score.|ANCOVA|Fixed effects: pooled investigator, treatment group, and baseline.||||0.80|-1.30|0.688
92164439|NCT01184508|184217271|SUPERIORITY_OR_OTHER|||||||0.607||95.0||||The p-value is for the percentage of participants using breakthrough medication at Month 3.|Fisher Exact|||||||0.607
92164440|NCT02194933|184217303|SUPERIORITY_OR_OTHER|||||||0.3992||||||Test for Baseline vs. Week 6|Mixed Models Analysis|||||||0.3992
92164441|NCT02194933|184217304|SUPERIORITY_OR_OTHER|||||||0.0053||||||Test for Baseline vs. Week 6|Mixed Models Analysis|||||||0.0053
92164442|NCT02194933|184217306|SUPERIORITY_OR_OTHER|||||||0.1559|||||||Mixed Models Analysis|||||||0.1559
92357986|NCT04439903|184620986|OTHER||Slope|0.16785|STANDARD_ERROR_OF_MEAN|0.11745||0.17848|TWO_SIDED||||||Regression, Linear||Predictor variable 1: Number of simulations per participant per week.|||||0.17848
92357987|NCT04439903|184620986|OTHER||Slope|-0.06091|STANDARD_ERROR_OF_MEAN|0.042266||0.17514|TWO_SIDED||||||Regression, Linear||Predictor variable 2: Minutes of interaction with the Web-Based Simulation Tool per participant per week.|||||0.17514
92401506|NCT00385671|184694190|SUPERIORITY_OR_OTHER|||||||0.923||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale cognitive toxicity score.||||0.923
92401507|NCT00385671|184694190|SUPERIORITY_OR_OTHER|||||||0.202||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale somatomotor toxicity score.||||0.202
92401508|NCT00385671|184694190|SUPERIORITY_OR_OTHER|||||||0.114||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale somatomotor toxicity score.||||0.114
92164443|NCT02194933|184217306|SUPERIORITY_OR_OTHER|||||||0.6201|||||||Mixed Models Analysis|||||||0.6201
92164444|NCT02194933|184217307|SUPERIORITY_OR_OTHER|||||||0.1642|||||||Mixed Models Analysis|||||||0.1642
92164445|NCT02194933|184217307|SUPERIORITY_OR_OTHER|||||||0.1873|||||||Mixed Models Analysis|||||||0.1873
92164446|NCT02194933|184217310|SUPERIORITY_OR_OTHER|||||||0.2061|||||||Mixed Models Analysis|||||||0.2061
92164447|NCT02194933|184217310|SUPERIORITY_OR_OTHER|||||||0.1778|||||||Mixed Models Analysis|||||||0.1778
92164448|NCT02194933|184217311|SUPERIORITY_OR_OTHER|||||||0.4138|||||||Mixed Models Analysis|||||||0.4138
92357988|NCT04439903|184620987|OTHER||Intercept|-0.28825|STANDARD_ERROR_OF_MEAN|0.59949||0.63929|TWO_SIDED||||||Regression, Linear|||||||0.63929
92164449|NCT02194933|184217311|SUPERIORITY_OR_OTHER|||||||0.3375|||||||Mixed Models Analysis|||||||0.3375
92164450|NCT02194933|184217314|SUPERIORITY_OR_OTHER|||||||0.8437|||||||Mixed Models Analysis|||||||0.8437
92164451|NCT02194933|184217314|SUPERIORITY_OR_OTHER|||||||0.8318|||||||Mixed Models Analysis|||||||0.8318
92164452|NCT02194933|184217315|SUPERIORITY_OR_OTHER|||||||0.6697|||||||Mixed Models Analysis|||||||0.6697
92164453|NCT02194933|184217315|SUPERIORITY_OR_OTHER|||||||0.8829|||||||Mixed Models Analysis|||||||0.8829
92164454|NCT02194933|184217316|SUPERIORITY_OR_OTHER|||||||0.2301|||||||Mixed Models Analysis|||||||0.2301
92164455|NCT02194933|184217316|SUPERIORITY_OR_OTHER|||||||0.0599|||||||Mixed Models Analysis|||||||0.0599
92164456|NCT02194933|184217317|SUPERIORITY_OR_OTHER|||||||0.1595|||||||Mixed Models Analysis|||||||0.1595
92164457|NCT02194933|184217317|SUPERIORITY_OR_OTHER|||||||0.1211|||||||Mixed Models Analysis|||||||0.1211
92164458|NCT02194933|184217318|SUPERIORITY_OR_OTHER|||||||0.1322|||||||Mixed Models Analysis|||||||0.1322
92164459|NCT02194933|184217318|SUPERIORITY_OR_OTHER|||||||0.2113|||||||Mixed Models Analysis|||||||0.2113
92164460|NCT02194933|184217319|SUPERIORITY_OR_OTHER|||||||0.0578|||||||Mixed Models Analysis|||||||0.0578
92164461|NCT02194933|184217319|SUPERIORITY_OR_OTHER|||||||0.0588|||||||Mixed Models Analysis|||||||0.0588
92164462|NCT02194933|184217320|SUPERIORITY_OR_OTHER|||||||0.1666|||||||Mixed Models Analysis|||||||0.1666
92164463|NCT02194933|184217320|SUPERIORITY_OR_OTHER|||||||0.767|||||||Mixed Models Analysis|||||||0.7670
92164464|NCT02194933|184217321|SUPERIORITY_OR_OTHER|||||||0.7178|||||||Mixed Models Analysis|||||||0.7178
92164465|NCT02194933|184217321|SUPERIORITY_OR_OTHER|||||||0.2336|||||||Mixed Models Analysis|||||||0.2336
92164466|NCT02194933|184217322|SUPERIORITY_OR_OTHER|||||||0.6558|||||||Mixed Models Analysis|||||||0.6558
92164467|NCT02194933|184217322|SUPERIORITY_OR_OTHER|||||||0.9058|||||||Mixed Models Analysis|||||||0.9058
92357989|NCT04439903|184620987|OTHER||Slope|-0.14422|STANDARD_ERROR_OF_MEAN|0.1581||0.37964|TWO_SIDED||||||Regression, Linear||Predictor variable 1: Number of simulations per participant per week.|||||0.37964
92357990|NCT04439903|184620987|OTHER||Slope|0.06718|STANDARD_ERROR_OF_MEAN|0.056895||0.26057|TWO_SIDED||||||Regression, Linear||Predictor variable 2: Minutes of interaction with the Web-Based Simulation Tool per participant per week.|||||0.26057
92164468|NCT02194933|184217323|SUPERIORITY_OR_OTHER|||||||0.0078|||||||Mixed Models Analysis|||||||0.0078
92164469|NCT02194933|184217323|SUPERIORITY_OR_OTHER|||||||0.4272|||||||Mixed Models Analysis|||||||0.4272
92222575|NCT02873936|184346124|SUPERIORITY||Least Squares Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|1.28|<|0.001|TWO_SIDED|95.0|2.1|7.1||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.1|2.1|<0.001
92357991|NCT02181413|184621007|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.002|TWO_SIDED|95.0|0.582|0.89|||Log Rank|P-value was based on log-rank test stratified by pre-induction regimen, International Staging System (ISS) stage and response after transplantation.|HR was based on Cox's proportional hazard regression model stratified by pre-induction regimen, pre-induction ISS stage and response after transplantation. \<1 HR indicates better prevention of progression in Ixazomib arm compared to Placebo.|||0.890|0.582|0.002
92357992|NCT02181413|184621008|SUPERIORITY||Hazard Ratio (HR)|1.025||||0.85|TWO_SIDED|95.0|0.789|1.332||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.332|0.789|0.850
92357993|NCT02181413|184621009|SUPERIORITY||Odds Ratio (OR)|0.732||||0.37|TWO_SIDED|95.0|0.365|1.466||P-value is based on Cochran-Mantel-Haenszel (CMH) test stratified by pre-induction regimen, pre-induction international staging system (ISS), and response after transplantation at screening.|Cochran-Mantel-Haenszel||Odds ratio and CI are based on a logistic regression model with treatment group as a categorical predictor variable and pre-induction regimen, pre-induction ISS, and response after transplantation at screening as covariates.|CR||1.466|0.365|0.370
92357994|NCT02181413|184621010|SUPERIORITY||Hazard Ratio (HR)|0.716||||0.002|TWO_SIDED|95.0|0.579|0.886||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||0.886|0.579|0.002
92357995|NCT02181413|184621011|SUPERIORITY||Hazard Ratio (HR)|1.015||||0.902|TWO_SIDED|95.0|0.795|1.298||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.298|0.795|0.902
92357996|NCT02181413|184621012|SUPERIORITY||Hazard Ratio (HR)|0.833||||0.056|TWO_SIDED|95.0|0.69|1.005|||Log Rank|P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.005|0.690|0.056
92222576|NCT02873936|184346124|SUPERIORITY||Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.3||0.11|TWO_SIDED|95.0|-0.5|4.7||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.7|-0.5|0.11
92357997|NCT02181413|184621013|SUPERIORITY||Hazard Ratio (HR)|0.922||||0.431|TWO_SIDED|95.0|0.753|1.129||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage, and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.129|0.753|0.431
92227169|NCT01235962|184356480|SUPERIORITY||Mean Difference (48M DFS FU - UI)|-0.014||||0.276|TWO_SIDED|95.0|-0.04|0.011|||analysis of covariance|adjusted for baseline score using mixed-model||||0.011|-0.040|0.276
92164470|NCT05382104|184217349|EQUIVALENCE|A linear mixed-effects model was applied to natural log (ln)-transformed Cmax with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90 percent (%) confidence intervals (CIs) was constructed for the differences between Treatment B versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (%)|76.62|||||TWO_SIDED|90.0|71.78|81.78|||||Geometric mean ratio (%) was calculated as 100\*(Treatment B / Treatment A).|||81.78|71.78|
92164471|NCT05382104|184217349|EQUIVALENCE|A linear mixed-effects model was applied to ln-transformed Cmax with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs was constructed for differences between Treatment C versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment A.|Geometric Mean Ratio (%)|71.61|||||TWO_SIDED|90.0|67.14|76.37|||||Geometric mean ratio (%) was calculated as 100\*(Treatment C / Treatment A).|||76.37|67.14|
92357998|NCT02181413|184621014|SUPERIORITY||Hazard Ratio (HR)|1.179|||||TWO_SIDED|95.0|0.959|1.45|||||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.450|0.959|
92357999|NCT02181413|184621016|SUPERIORITY|||||||0.814||||||P-value was based on Fisher's exact test comparing conversion to MRD- at any time post study entry between treatment groups.|Fisher Exact|||||||0.814
92222577|NCT02873936|184346127|SUPERIORITY||Least Squares Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|2.5||0.009|TWO_SIDED|95.0|2.0|11.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||11.0|2.0|0.009
92358000|NCT02181413|184621017|SUPERIORITY|||||||0.805||||||P-value was based on fisher's exact test comparing conversion to MRD- at any time post study entry between treatment groups.|Fisher Exact|||||||0.805
92358001|NCT02181413|184621018|SUPERIORITY||Hazard Ratio (HR)|0.612||||0.034|TWO_SIDED|95.0|0.386|0.969||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|MRD- at Study Entry||0.969|0.386|0.034
92358002|NCT02181413|184621018|SUPERIORITY||Hazard Ratio (HR)|0.704||||0.01|TWO_SIDED|95.0|0.539|0.92||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|MRD+ at Study Entry||0.920|0.539|0.010
92358003|NCT02181413|184621019|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.182|TWO_SIDED|95.0|0.414|1.184||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|MRD- at Study Entry||1.184|0.414|0.182
92358004|NCT02181413|184621019|SUPERIORITY||Hazard Ratio (HR)|0.966||||0.847|TWO_SIDED|95.0|0.682|1.368||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|MRD+ at Study Entry||1.368|0.682|0.847
92358005|NCT02181413|184621020|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.905|TWO_SIDED|95.0|0.583|1.613||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.613|0.583|0.905
92358006|NCT02181413|184621025|SUPERIORITY||Least Squares (LS) Mean Difference|-2.3||||0.074|TWO_SIDED|95.0|-4.9|0.2|||t-test, 2 sided|P-value was from the significance test for the coefficient of the interaction between treatment and visit.||||0.2|-4.9|0.074
92358007|NCT01111552|184621077|SUPERIORITY||Treatment Difference|-1.3|||=|0.595|TWO_SIDED|95.0|-5.9|3.4|||ANCOVA|||||3.4|-5.9|=0.595
92358008|NCT01111552|184621077|SUPERIORITY||Treatment Difference|0.4|||=|0.869|TWO_SIDED|95.0|-4.4|5.1|||ANCOVA|||||5.1|-4.4|=0.869
92227170|NCT01235962|184356480|SUPERIORITY||Mean Difference (54M DFS FU - UI)|-0.007||||0.665|TWO_SIDED|95.0|-0.037|0.024|||analysis of covariance|adjusted for baseline score using mixed-model||||0.024|-0.037|0.665
92358009|NCT01111552|184621078|SUPERIORITY||Treatment Difference|-0.1|||=|0.856|TWO_SIDED|95.0|-0.7|0.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Row Mean Scores Test was used to determine the p-value.||||0.6|-0.7|=0.856
92358010|NCT01111552|184621078|SUPERIORITY||Treatment Difference|0.1|||=|0.838|TWO_SIDED|95.0|-0.6|0.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Row Mean Scores Test was used to determine the p-value.||||0.7|-0.6|=0.838
92358011|NCT01111552|184621079|SUPERIORITY||Treatment Difference|-0.2|||=|0.765|TWO_SIDED|95.0|-1.6|1.2|||ANCOVA|||||1.2|-1.6|=0.765
92358012|NCT01111552|184621079|SUPERIORITY||Treatment Difference|0.2|||=|0.76|TWO_SIDED|95.0|-1.2|1.6|||ANCOVA|||||1.6|-1.2|=0.760
92358013|NCT05135754|184621080|SUPERIORITY||Risk Ratio (RR)|0.59||||0.046|TWO_SIDED|95.0|0.35|0.99|||Mixed Models Analysis|||||0.99|0.35|0.046
92358014|NCT05135754|184621081|SUPERIORITY||Mean Difference (Final Values)|6.61|||<|0.001|TWO_SIDED|95.0|3.45|9.78|||Mixed Models Analysis|||||9.78|3.45|<0.001
92358015|NCT05135754|184621082|SUPERIORITY||Mean Difference (Final Values)|20.01|||<|0.001|TWO_SIDED|95.0|15.02|25.0|||Mixed Models Analysis|||||25.00|15.02|<0.001
92358016|NCT05135754|184621083|SUPERIORITY||Mean Difference (Final Values)|6.32|||<|0.001|TWO_SIDED|95.0|2.71|9.94|||Mixed Models Analysis|||||9.94|2.71|<0.001
92227171|NCT03543410|184356482|SUPERIORITY||Mean Difference (Final Values)|-3.29|STANDARD_ERROR_OF_MEAN|1.625||0.044|TWO_SIDED|95.0|-6.489|-0.09||nominal p-value|Mixed Models Analysis|||||-0.090|-6.489|0.044
92358017|NCT05135754|184621084|SUPERIORITY||Mean Difference (Final Values)|14.3|||<|0.001|TWO_SIDED|95.0|8.26|20.35|||Mixed Models Analysis|||||20.35|8.26|<0.001
92358018|NCT05135754|184621085|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.075|TWO_SIDED||||||Mixed Models Analysis|||||||0.075
92358019|NCT05135754|184621086|SUPERIORITY||Mean Difference (Final Values)|4.68||||0.004|TWO_SIDED|95.0|1.55|7.81|||Mixed Models Analysis|||||7.81|1.55|0.004
92358020|NCT00373360|184621090|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||1.000
92358021|NCT00373360|184621091|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.008
92358022|NCT00373360|184621092|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||1.000
92358023|NCT00373360|184621093|SUPERIORITY_OR_OTHER|||||||0.531||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.531
92401509|NCT00385671|184694190|SUPERIORITY_OR_OTHER|||||||0.954||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale somatomotor toxicity score.||||0.954
92164472|NCT05382104|184217350|EQUIVALENCE|A linear mixed-effects model was applied to ln-transformed AUClast with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs was constructed for the differences between Treatment B versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (%)|84.13|||||TWO_SIDED|90.0|80.74|87.66|||||Geometric mean ratio (%) was calculated as 100\*(Treatment B / Treatment A).|||87.66|80.74|
92358024|NCT00373360|184621094|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||1.000
92358025|NCT00373360|184621095|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.500
92358026|NCT00373360|184621096|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||1.000
92358027|NCT00373360|184621097|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||1.000
92358028|NCT00373360|184621098|SUPERIORITY_OR_OTHER|||||||0||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0
92358029|NCT00373360|184621099|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||1.000
92358030|NCT00373360|184621100|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.031
92358031|NCT00373360|184621101|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.031
92358032|NCT00373360|184621102|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.004
92358033|NCT00373360|184621103|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.063
92358034|NCT00373360|184621104|SUPERIORITY_OR_OTHER|||||||0.203||95.0|||||Wilcoxon signed rank test|||Change Between Baseline and Week 8||||0.203
92358035|NCT00373360|184621108|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||0.250
92358036|NCT00373360|184621109|SUPERIORITY_OR_OTHER|||||||0.207||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.207
92358037|NCT00373360|184621110|SUPERIORITY_OR_OTHER|||||||0.297||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.297
92358038|NCT00373360|184621111|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.004
92164473|NCT05382104|184217350|EQUIVALENCE|A linear mixed-effects model was applied to ln-transformed AUClast with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs was constructed for differences between Treatment C versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment A.|Geometric Mean Ratio (%)|87.35|||||TWO_SIDED|90.0|83.87|90.96|||||Geometric mean ratio (%) was calculated as 100\*(Treatment C / Treatment A).|||90.96|83.87|
92227172|NCT03543410|184356482|SUPERIORITY||Mean Difference (Final Values)|-3.128|STANDARD_ERROR_OF_MEAN|1.597||0.051|TWO_SIDED|95.0|-6.273|0.017||nominal p-value|Mixed Models Analysis|||||0.017|-6.273|0.051
92358039|NCT04548219|184621128|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability.|Ratio of Geometric least squares mean|0.907|||||TWO_SIDED|90.0|0.775|1.06||||||||1.06|0.775|
92358040|NCT04548219|184621129|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability.|Ratio of Geometric least squares mean|0.915|||||TWO_SIDED|90.0|0.761|1.1||||||||1.10|0.761|
92358041|NCT04548219|184621130|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability.|Ratio of Geometric least squares mean|0.915|||||TWO_SIDED|90.0|0.76|1.1||||||||1.10|0.760|
92358042|NCT03514134|184621131|SUPERIORITY||||||<|0.001|||||||ANCOVA|Repeated measures ANCOVA||||||<0.001
92358043|NCT03514134|184621132|SUPERIORITY|||||||0.358|||||||ANCOVA|Repeated measures ANCOVA||||||0.358
92358044|NCT03514134|184621133|SUPERIORITY|||||||0.029|||||||ANCOVA|Repeated measures ANCOVA||||||0.029
92358045|NCT03514134|184621134|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
92358046|NCT03514134|184621134|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||||||<0.05
92358047|NCT03514134|184621135|SUPERIORITY|||||||0.7||||||Group by time interaction|ANOVA|Repeated measures ANOVA||||||0.70
92358048|NCT00834574|184621136|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.0||||||90.0|97.2|110.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||110|97.2|
92358049|NCT00834574|184621137|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|107.0||||||90.0|101.0|114.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||114|101|
92358050|NCT00834574|184621138|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|107.0||||||90.0|101.0|114.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||114|101|
92358051|NCT00775658|184621159|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Before the study, we determined that a sample size of 18 would be adequate to detect a 20% difference in wheal and flare areas with 80% power and a significance level of 0.05.||||0.57
92358052|NCT00775658|184621160|SUPERIORITY|Sample size determined that 18 participants would provide 80% power to detect a 20% difference with a significance level of 0.05.||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
92358053|NCT04033640|184621207|OTHER||||||<|0.001|||||||K-sample test|The p-value was calculated using a nonparametric k-sample test on the equality of medians.||Comparison of SD Biosensor POC G6PD test results for capillary and venous samples||||<0.001
92358054|NCT01892189|184621210|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-0.2348|STANDARD_ERROR_OF_MEAN|0.20458||0.259|TWO_SIDED|95.0|-0.6506|0.1809|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Anterior Cingulate Cortex: Values were obtained using analysis of variance (ANOVA) model with sequence, period, regimen and participant nested within sequence as factors by regions of interest.||0.1809|-0.6506|0.259
92358055|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0367|STANDARD_ERROR_OF_MEAN|0.22075||0.869|TWO_SIDED|95.0|-0.4853|0.4119|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Anterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4119|-0.4853|0.869
92358056|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.218|STANDARD_ERROR_OF_MEAN|0.20968||0.306|TWO_SIDED|95.0|-0.6441|0.2081|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Anterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2081|-0.6441|0.306
92358057|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2525|STANDARD_ERROR_OF_MEAN|0.17956||0.169|TWO_SIDED|95.0|-0.6174|0.1124|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Anterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1124|-0.6174|0.169
92358058|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0417|STANDARD_ERROR_OF_MEAN|0.19375||0.831|TWO_SIDED|95.0|-0.4354|0.3521|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Anterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3521|-0.4354|0.831
92358059|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2421|STANDARD_ERROR_OF_MEAN|0.18403||0.197|TWO_SIDED|95.0|-0.6161|0.1319|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Anterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1319|-0.6161|0.197
92358060|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1155|STANDARD_ERROR_OF_MEAN|0.1618||0.48|TWO_SIDED|95.0|-0.4443|0.2133|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2133|-0.4443|0.480
92358061|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1673|STANDARD_ERROR_OF_MEAN|0.17458||0.345|TWO_SIDED|95.0|-0.1875|0.5221|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.5221|-0.1875|0.345
92358062|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1504|STANDARD_ERROR_OF_MEAN|0.16583||0.371|TWO_SIDED|95.0|-0.4874|0.1866|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1866|-0.4874|0.371
92222578|NCT02873936|184346127|SUPERIORITY||Least Squares Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|2.5||0.003|TWO_SIDED|95.0|3.0|12.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||12.0|3.0|0.003
92358063|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1731|STANDARD_ERROR_OF_MEAN|0.18808||0.364|TWO_SIDED|95.0|-0.5553|0.2092|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2092|-0.5553|0.364
92358064|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1362|STANDARD_ERROR_OF_MEAN|0.20294||0.507|TWO_SIDED|95.0|-0.2762|0.5486|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.5486|-0.2762|0.507
92358065|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2464|STANDARD_ERROR_OF_MEAN|0.19276||0.21|TWO_SIDED|95.0|-0.6381|0.1453|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1453|-0.6381|0.210
92222579|NCT02873936|184346127|SUPERIORITY||Least Squares Mean Difference|8.0|STANDARD_ERROR_OF_MEAN|2.6||0.003|TWO_SIDED|95.0|3.0|13.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||13.0|3.0|0.003
92222580|NCT02873936|184346127|SUPERIORITY||Least Squares Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|2.6||0.006|TWO_SIDED|95.0|2.0|12.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||12.0|2.0|0.006
92227173|NCT03543410|184356483|SUPERIORITY||Mean Difference (Final Values)|-0.281|STANDARD_ERROR_OF_MEAN|0.191||0.143|TWO_SIDED|95.0|-0.658|0.095||nominal p-value|Mixed Models Analysis|||||0.095|-0.658|0.143
92358066|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3059|STANDARD_ERROR_OF_MEAN|0.14253||0.039|TWO_SIDED|95.0|-0.5955|-0.0162|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||-0.0162|-0.5955|0.039
92358067|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0134|STANDARD_ERROR_OF_MEAN|0.1538||0.931|TWO_SIDED|95.0|-0.2991|0.326|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3260|-0.2991|0.931
92358068|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1164|STANDARD_ERROR_OF_MEAN|0.14608||0.431|TWO_SIDED|95.0|-0.4133|0.1804|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1804|-0.4133|0.431
92358069|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3269|STANDARD_ERROR_OF_MEAN|0.13362||0.02|TWO_SIDED|95.0|-0.5985|-0.0554|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||-0.0554|-0.5985|0.020
92358070|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0845|STANDARD_ERROR_OF_MEAN|0.14418||0.562|TWO_SIDED|95.0|-0.3775|0.2085|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2085|-0.3775|0.562
92358071|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1727|STANDARD_ERROR_OF_MEAN|0.13695||0.216|TWO_SIDED|95.0|-0.451|0.1056|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1056|-0.4510|0.216
92358072|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0084|STANDARD_ERROR_OF_MEAN|0.17609||0.962|TWO_SIDED|95.0|-0.3663|0.3495|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3495|-0.3663|0.962
92358073|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0357|STANDARD_ERROR_OF_MEAN|0.19001||0.852|TWO_SIDED|95.0|-0.4218|0.3505|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3505|-0.4218|0.852
92401510|NCT00385671|184694191|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||P-value for Direct Treatment Effect. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for tests of direct and indirect effects.|Regression, Linear|||||||0.107
92227174|NCT03543410|184356483|SUPERIORITY||Mean Difference (Final Values)|-0.219|STANDARD_ERROR_OF_MEAN|0.187||0.243|TWO_SIDED|95.0|-0.588|0.15||nominal p-value|Mixed Models Analysis|||||0.150|-0.588|0.243
92227175|NCT01727258|184356484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.85|STANDARD_ERROR_OF_MEAN|1.72|<|0.001|TWO_SIDED|95.0|7.45|14.25||If Potassium Oxalate Mouthrinse is better than Colgate Regular (p\<0.05), testing would proceed to comparison of Wk 2 Mean Tactile Sensitivity Scores between Potassium Oxalate Mouthrinse and Colgate Regular. Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||14.25|7.45|<0.001
92227176|NCT01727258|184356484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.74|STANDARD_ERROR_OF_MEAN|1.729||0.314|TWO_SIDED|95.0|-5.16|1.67||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.67|-5.16|0.314
92227177|NCT01727258|184356484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.6|STANDARD_ERROR_OF_MEAN|1.735|<|0.001|TWO_SIDED|95.0|9.17|16.03||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||16.03|9.17|<0.001
92222581|NCT02873936|184346127|SUPERIORITY||Least Squares Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|2.9||0.002|TWO_SIDED|95.0|3.0|15.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||15.0|3.0|0.002
92276598|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.1334|TWO_SIDED|95.0|-0.22|0.03|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean scores statistics controlling for study center.||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.03|-0.22|0.1334
92358074|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2154|STANDARD_ERROR_OF_MEAN|0.18048||0.241|TWO_SIDED|95.0|-0.5822|0.1514|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1514|-0.5822|0.241
92358075|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.138|STANDARD_ERROR_OF_MEAN|0.17766||0.443|TWO_SIDED|95.0|-0.4991|0.223|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2230|-0.4991|0.443
92358076|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2037|STANDARD_ERROR_OF_MEAN|0.1917||0.295|TWO_SIDED|95.0|-0.5933|0.1859|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1859|-0.5933|0.295
92401511|NCT00385671|184694192|SUPERIORITY_OR_OTHER|||||||0.968||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BDI-II total score.||||0.968
92401512|NCT00385671|184694192|SUPERIORITY_OR_OTHER|||||||0.492||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BDI-II total score.||||0.492
92222582|NCT02873936|184346127|SUPERIORITY||Least Squares Mean Difference|8.0|STANDARD_ERROR_OF_MEAN|2.9||0.007|TWO_SIDED|95.0|2.0|14.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||14.0|2.0|0.007
92222583|NCT01627860|184346139|SUPERIORITY_OR_OTHER||Difference in Seizure free rate|23.57||||0.0759|TWO_SIDED|95.0|-4.21|49.0|||ANOVA||Difference in Seizure free rate (Monotherapy minus Add on therapy)|||49.00|-4.21|0.0759
92276599|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.0009|TWO_SIDED|95.0|-0.42|-0.11|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.11|-0.42|0.0009
92358077|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0602|STANDARD_ERROR_OF_MEAN|0.18209||0.743|TWO_SIDED|95.0|-0.4303|0.3098|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3098|-0.4303|0.743
92401513|NCT00385671|184694192|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BDI-II total score.||||0.463
92222584|NCT01627860|184346140|SUPERIORITY_OR_OTHER||Difference in mean percent change|18.3||||0.7102|TWO_SIDED|95.0|-81.0|117.7|||ANCOVA||Difference in mean percent change of seizure frequency (Monotherapy minus Add on therapy)|||117.7|-81.0|0.7102
92222585|NCT01225731|184346142|SUPERIORITY_OR_OTHER||% Difference in Response Rate|28.89||||0.001|TWO_SIDED|95.0|13.41|44.36|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||44.36|13.41|0.001
92222586|NCT01225731|184346142|SUPERIORITY_OR_OTHER||% Difference in Response Rate|60.0|||<|0.001|TWO_SIDED|95.0|48.42|71.58|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||71.58|48.42|<0.001
92222587|NCT01225731|184346142|SUPERIORITY_OR_OTHER||% Difference in Response Rate|61.85|||<|0.001|TWO_SIDED|95.0|50.33|73.37|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||73.37|50.33|<0.001
92222588|NCT01225731|184346142|SUPERIORITY_OR_OTHER||% Difference in Response Rate|69.97|||<|0.001|TWO_SIDED|95.0|58.96|80.99|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||80.99|58.96|<0.001
92222589|NCT01225731|184346143|SUPERIORITY_OR_OTHER||% Difference in Response Rate|19.37||||0.009|TWO_SIDED|95.0|5.15|33.58|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||33.58|5.15|0.009
92222590|NCT01225731|184346143|SUPERIORITY_OR_OTHER||% Difference in Response Rate|54.44|||<|0.001|TWO_SIDED|95.0|42.63|66.26|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||66.26|42.63|<0.001
92222591|NCT01225731|184346143|SUPERIORITY_OR_OTHER||% Difference in Response Rate|56.23|||<|0.001|TWO_SIDED|95.0|44.43|68.03|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||68.03|44.43|<0.001
92222592|NCT01225731|184346143|SUPERIORITY_OR_OTHER||% Difference in Response Rate|67.65|||<|0.001|TWO_SIDED|95.0|56.42|78.88|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||78.88|56.42|<0.001
92222593|NCT01225731|184346144|SUPERIORITY_OR_OTHER||% Difference in Response Rate|31.11|||<|0.001|TWO_SIDED|95.0|16.22|46.0|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||46.0|16.22|<0.001
92222594|NCT01225731|184346144|SUPERIORITY_OR_OTHER||% Difference in Response Rate|55.56|||<|0.001|TWO_SIDED|95.0|44.48|66.63|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||66.63|44.48|<0.001
92222595|NCT01225731|184346144|SUPERIORITY_OR_OTHER||% Difference in Response Rate|59.58|||<|0.001|TWO_SIDED|95.0|48.6|70.55|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||70.55|48.60|<0.001
92222596|NCT01225731|184346144|SUPERIORITY_OR_OTHER||% Difference in Response Rate|72.2|||<|0.001|TWO_SIDED|95.0|62.02|82.37|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||82.37|62.02|<0.001
92222597|NCT00577642|184346155|OTHER|single group|||||<|0.05|||||||t-test, 1 sided|||Paired t-tests were used to compare differences of NTX cytokine levels at study entry versus end-of-study.||||<0.05
92222598|NCT02054897|184346156|SUPERIORITY|Superiority for change in HbA1c was claimed if the upper limit of the 2-sided 95% confidence interval (CI) for the estimated difference was below 0%.|Treatment difference|-1.53|||<|0.0001|TWO_SIDED|95.0|-1.81|-1.25|||Mixed Models Analysis||Semaglutide 1.0 mg minus Placebo|For the primary HbA1c endpoint, superiority was planned to be tested for semaglutide 1.0 mg versus placebo. The post-baseline responses were analysed using a mixed model for repeated measurements with treatment and country as fixed factors and baseline value as covariate, all nested within visit.||-1.25|-1.81|< 0.0001
92222599|NCT02054897|184346156|SUPERIORITY|Superiority for change in HbA1c was claimed if the upper limit of the 2-sided 95% CI for the estimated difference was below 0%.|Treatment difference|-1.43|||<|0.0001|TWO_SIDED|95.0|-1.71|-1.15|||Mixed Models Analysis||Semaglutide 0.5 mg minus Placebo|For the primary HbA1c endpoint, superiority was planned to be tested for semaglutide 0.5 mg versus placebo, if superiority for semaglutide 1.0 mg was concluded. The post-baseline responses were analysed using a mixed model for repeated measurements with treatment and country as fixed factors and baseline value as covariate, all nested within visit.||-1.15|-1.71|< 0.0001
92222600|NCT01119248|184346195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|0.62|<|0.001|TWO_SIDED|95.0|-0.48|-0.25|||t-test, 2 sided|||||-0.25|-0.48|<.001
92222601|NCT01119248|184346196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.0001|TWO_SIDED|95.0|-0.95|-0.43|||t-test, 2 sided|||pre- MRI body temperature was associated with change in body temperature after MRI by bivariate analysis. The values presented are adjusted for body surface area, type of MRI, room temperature and duration of MRI||-0.43|-0.95|0.0001
92358078|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1774|STANDARD_ERROR_OF_MEAN|0.16068||0.277||95.0|-0.504|0.1491|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1491|-0.5040|0.277
92222602|NCT01119248|184346197|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
92222603|NCT00853671|184346206|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Pearson Correlation|||||||<0.0001
92222604|NCT00853671|184346208|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Pearson Correlation|||Pearson Correlation||||<0.0001
92222605|NCT01332357|184346246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.96|||<|0.0001|TWO_SIDED|95.0|1.56|2.46||The unadjusted risk of experiencing a recurrent event associated with not initiating a controller medication at index event discharge|Regression, Cox|||||2.46|1.56|<0.0001
92222606|NCT01332357|184346246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.79|||<|0.0001|TWO_SIDED|95.0|1.42|2.25||The adjusted risk of experiencing a recurrent event associated with not initiating a controller medication at index event discharge|Regression, Cox|Covariates included demographics, IP or ED index event, primary asthma diagnosis, Charlson score, and pre-index medication||||2.25|1.42|<0.0001
92222607|NCT01332357|184346246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.008|||<|0.0001|TWO_SIDED|95.0|1.005|1.011||The risk of experiencing a recurrent event associated with not initiating a controller medication at index event discharge by time interaction|Regression, Cox|Evaluates the impact of each day treatment with a controller was delayed||||1.011|1.005|<0.0001
92222608|NCT04099251|184346247|SUPERIORITY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.3|0.59|||Regression, Cox|||||0.59|0.30|< 0.0001
92222609|NCT04311502|184346259|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.21|TWO_SIDED|90.0|0.82|1.79|||Regression, Cox|Adjusted for HIV-1 status (positive/negative) and TB Disease at Screening (Advanced/Not Advanced).|Arm 1 vs Arm 2|This comparison is adjusting for HIV-1 status (positive/negative) and TB Disease at Screening (Advanced/Not Advanced).||1.79|0.82|0.21
92222610|NCT04311502|184346260|SUPERIORITY||Risk Difference (RD)|0.3|||<|0.01|TWO_SIDED|90.0|0.14|0.45|||Wald chi-square test||Difference in cumulative proportions (Arm 1 - Arm 2)|"The point estimate and 90% two-sided confidence intervals for the difference in cumulative proportions of participants experiencing a Grade 3 or higher AE that is at least one-grade increase from baseline at any time during the 65-week study period was compared between Arm 1 and Arm 2.~This outcome measure is limited to data obtained up to September 25, 2023."||0.45|0.14|<0.01
92358079|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0539|STANDARD_ERROR_OF_MEAN|0.17338||0.758|TWO_SIDED|95.0|-0.4062|0.2985|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2985|-0.4062|0.758
92358080|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4377|STANDARD_ERROR_OF_MEAN|0.16468||0.012|TWO_SIDED|95.0|-0.7724|-0.1031|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||-0.1031|-0.7724|0.012
92358081|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1037|STANDARD_ERROR_OF_MEAN|0.14849||0.49|TWO_SIDED|95.0|-0.4055|0.1981|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1981|-0.4055|0.490
92358082|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1007|STANDARD_ERROR_OF_MEAN|0.16023||0.534|TWO_SIDED|95.0|-0.4263|0.2249|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2249|-0.4263|0.534
92358083|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.214|STANDARD_ERROR_OF_MEAN|0.15219||0.169|TWO_SIDED|95.0|-0.5233|0.0953|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0953|-0.5233|0.169
92358084|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2641|STANDARD_ERROR_OF_MEAN|0.14118||0.07|TWO_SIDED|95.0|-0.551|0.0228|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0228|-0.5510|0.070
92358085|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0854|STANDARD_ERROR_OF_MEAN|0.15234||0.579|TWO_SIDED|95.0|-0.395|0.2242|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2242|-0.3950|0.579
92358086|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2446|STANDARD_ERROR_OF_MEAN|0.1447||0.1|TWO_SIDED|95.0|-0.5387|0.0494|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0494|-0.5387|0.100
92358087|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.13533||0.113|TWO_SIDED|95.0|-0.495|0.055|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0550|-0.4950|0.113
92358088|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0527|STANDARD_ERROR_OF_MEAN|0.14603||0.72|TWO_SIDED|95.0|-0.3495|0.244|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2440|-0.3495|0.720
92401514|NCT00385671|184694195|SUPERIORITY_OR_OTHER|||||||0.103||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in time to first ≥ 30% reduction in weekly mean 24 hour average pain score.||||0.103
92401515|NCT00385671|184694195|SUPERIORITY_OR_OTHER|||||||0.167||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in time to first ≥ 30% reduction in weekly mean 24 hour average pain score.||||0.167
92401516|NCT00385671|184694195|SUPERIORITY_OR_OTHER|||||||0.919||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in time to first ≥ 30% reduction in weekly mean 24 hour average pain score.||||0.919
92222611|NCT04311502|184346260|SUPERIORITY||Risk Difference (RD)|0.28|||<|0.01|TWO_SIDED|90.0|0.11|0.44|||Wald chi-square test||Difference in cumulative proportions (Arm 1 - Arm 2)|"The point estimate and 90% two-sided confidence intervals for the difference in cumulative proportions of participants experiencing a Grade 3 or higher AE that is at least one-grade increase from baseline at any time during the 65-week study period was compared between Arm 1 and Arm 2.~All data through week 65."||0.44|0.11|<0.01
92222612|NCT04311502|184346261|SUPERIORITY||Risk Difference (RD)|-0.26||||0.01|TWO_SIDED|95.0|-0.47|-0.06|||Wald chi-square test||Difference in cumulative proportions (Arm 1 - Arm 2)|The point estimate and 95% two-sided confidence interval for the difference in cumulative proportions of participants experiencing a favorable outcome through week 65 was compared between Arm 1 and Arm 2.||-0.06|-0.47|0.01
92222613|NCT04311502|184346262|SUPERIORITY||Risk Difference (RD)|-0.25||||0.02|TWO_SIDED|95.0|-0.46|-0.04|||Wald chi-square||Difference in cumulative proportions (Arm 1 - Arm 2)|The point estimate and 95% two-sided confidence interval for the difference in cumulative proportions of participants experiencing a favorable outcome through week 65 was compared between Arm 1 and Arm 2.||-0.04|-0.46|0.02
92222614|NCT04311502|184346263|SUPERIORITY|Fisher's exact test was used to test for a difference in proportions|Risk Difference (RD)|-0.06||||0.35|TWO_SIDED|95.0|-0.22|0.05|||Fisher Exact||Difference in proportions (Arm 1 - Arm 2); exact confidence interval|||0.05|-0.22|0.35
92222615|NCT04311502|184346265|SUPERIORITY||GEE|24.04|||<|0.01|TWO_SIDED|95.0|15.13|32.94|||Regression, Linear|||||32.94|15.13|<0.01
92222616|NCT04311502|184346267|SUPERIORITY||Odds Ratio (OR)|7.15|||<|0.01|TWO_SIDED|95.0|2.4|21.3|||Regression, Logistic|||Compares the odds of participants having maximum occurrence of QTcF change from baseline of ≥30 ms and \<60 ms, or ≥60 ms between Arm 1 and Arm 2 in the safety set using the proportional odds model.||21.30|2.40|<0.01
92222617|NCT04311502|184346267|SUPERIORITY||Risk Difference (RD)|0.41|||<|0.01|TWO_SIDED|95.0|0.17|0.58|||exact unconditional||Arm 1 - Arm 2|Proportion of Participants with Worst Changes in QTcF from Screening \>= 30 ms over visits at Weeks 2, 8, 13||0.58|0.17|<0.01
92222618|NCT04311502|184346268|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.18|TWO_SIDED|90.0|0.84|1.8||One-sided p-value|Regression, Cox|Adjusted for HIV status (positive/negative) and TB disease according to chest X-ray (advanced/not advanced)|Arm 1 vs. Arm 2|||1.80|0.84|0.18
92222619|NCT04311502|184346269|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.25|TWO_SIDED|90.0|0.8|1.71||One-sided p-value|Regression, Cox|||This comparison is adjusting for HIV-1 status (positive/negative) and TB Disease at Screening (Advanced/Not Advanced).||1.71|0.80|0.25
92222620|NCT04311502|184346270|SUPERIORITY||Risk Difference (RD)|0.13||||0.23|TWO_SIDED|95.0|-0.07|0.35|||Fisher Exact|||||0.35|-0.07|0.23
92222621|NCT04311502|184346271|SUPERIORITY||Risk Difference (RD)|0.05||||0.56|TWO_SIDED|95.0|-0.11|0.24|||Fisher Exact|||||0.24|-0.11|0.56
92222622|NCT04311502|184346272|SUPERIORITY||Risk Difference (RD)|0.07||||0.27|TWO_SIDED|90.0|-0.04|0.18|||Wald chi-square test||Difference in cumulative proportions (Arm 1 - Arm 2)|The point estimate and 90% two-sided confidence intervals for the difference in cumulative proportions of participants experiencing an SAE through week 65 was compared between Arm 1 and Arm 2.||0.18|-0.04|0.27
92222623|NCT04311502|184346273|SUPERIORITY|Fisher's exact test was used to test for a difference in proportions|Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-0.1|0.13|||Fisher Exact||Difference in proportions (Arm 1 - Arm 2); exact confidence interval|||0.13|-0.10|1
92222624|NCT04311502|184346274|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.597|TWO_SIDED|95.0|0.57|1.39|||Regression, Cox|||Time point: Screening||1.39|0.57|0.597
92222625|NCT04311502|184346274|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.7|TWO_SIDED|95.0|0.58|1.44|||Regression, Cox|||Time point: Entry||1.44|0.58|0.70
92222626|NCT04311502|184346274|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.07|TWO_SIDED|95.0|0.4|1.03|||Regression, Cox|||Time point: Week 2||1.03|0.40|0.07
92222627|NCT04311502|184346274|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.04|TWO_SIDED|95.0|0.34|0.98|||Regression, Cox|||Time point: Week 4||0.98|0.34|0.04
92222628|NCT04311502|184346274|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.6|TWO_SIDED|95.0|0.41|1.67|||Regression, Cox|||Time point: Week 6||1.67|0.41|0.60
92222629|NCT04311502|184346274|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.595|TWO_SIDED|95.0|0.33|1.88|||Regression, Cox|||Time point: Week 8||1.88|0.33|0.595
92222630|NCT04311502|184346274|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.66|TWO_SIDED|95.0|0.25|2.44|||Regression, Cox|||Time point: Week 10||2.44|0.25|0.66
92222631|NCT04311502|184346274|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.86|TWO_SIDED|95.0|0.21|6.39|||Regression, Cox|||Time point: Week 12||6.39|0.21|0.86
92222632|NCT04311502|184346275|SUPERIORITY||Slope|20.43|||<|0.01|TWO_SIDED|95.0|5.71|35.16|||Regression, Linear|||This comparison is adjusting for HIV-1 status (positive/negative) and TB Disease at Screening (Advanced/Not Advanced).||35.16|5.71|<0.01
92222633|NCT03354663|184346309|OTHER|Single arm trial|Proportion|0.047|||<|0.0001|ONE_SIDED|95.0||0.0864|||Binomial Exact Test|||"The hypothesis is formally expressed as:~H0: P ≥ 16.2% Ha: P \< 16.2%, where P is the percentage of subjects with a primary safety endpoint event. The hypothesis will be tested based on a one-sided exact test of binomial proportions at the one-sided 0.05 alpha level."||0.0864||<0.0001
92222634|NCT03354663|184346310|OTHER|"The hypothesis is formally expressed as:~H0: P \< 90% Ha: P ≥ 90%, where P is the percentage of subjects with acute success. The hypothesis will be tested based on a one-sided exact test of binomial proportions at the one-sided 0.05 alpha level. Rejection of the null hypothesis will indicate study success."|Proportion|0.98||||0.0001|ONE_SIDED|95.0|0.9495||||Binomial Exact Test||||||0.9495|0.0001
92222635|NCT03354663|184346315|OTHER||Kaplan-Meier Survival Estimate|82.2|||||TWO_SIDED|95.0|74.7|87.6|||||Kaplan-Meier estimate of freedom from recurrence at 1-year|Kaplan Meier Estimate of freedom from recurrence.||87.6|74.7|
92222636|NCT03354663|184346316|OTHER||Kaplan-Meier survival estimate|68.2|||||TWO_SIDED|95.0|59.9|75.1||||||Kaplan-Meier estimate of freedom from recurrence or need for anti-arrhythmic medication||75.1|59.9|
92222637|NCT03691974|184346330|SUPERIORITY||Least Square (LS) Mean Difference|0.4||||0.4192|TWO_SIDED|95.0|-0.55|1.32||Analyses are based on Mixed Model for Repeated Measures (MMRM) model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|Mixed Model for Repeated Measures (MMRM)|||||1.32|-0.55|0.4192
92222638|NCT03691974|184346331|SUPERIORITY||LS Mean Difference|0.4||||0.0521|TWO_SIDED|95.0|0.0|0.8||Analyses are based on MMRM model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||0.80|-0.00|0.0521
92222639|NCT03691974|184346332|SUPERIORITY||LS Mean Difference|1.3||||0.1593|TWO_SIDED|95.0|-0.52|3.15||Analyses are based on MMRM model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||3.15|-0.52|0.1593
92222640|NCT03691974|184346333|SUPERIORITY||LS Mean Difference|-0.2||||0.7757|TWO_SIDED|95.0|-1.59|1.19||Analyses are based on MMRM model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||1.19|-1.59|0.7757
92222641|NCT03691974|184346334|SUPERIORITY||LS Mean Difference|-0.4||||0.6063|TWO_SIDED|95.0|-1.87|1.09||Analyses are based on MMRM model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||1.09|-1.87|0.6063
92222642|NCT03691974|184346335|SUPERIORITY||LS Mean Difference|-1.0||||0.4203|TWO_SIDED|95.0|-3.3|1.39||Analyses are based on MMRM model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||1.39|-3.30|0.4203
92222643|NCT03691974|184346336|SUPERIORITY||LS Mean Difference|-1.33||||0.001|TWO_SIDED|95.0|-2.123|-0.538||Analyses are based on multiple imputation with MMRM model with terms for baseline WOMAC subscale score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||-0.538|-2.123|0.0010
92222644|NCT03691974|184346337|SUPERIORITY||LS Mean Difference|-1.42||||0.0005|TWO_SIDED|95.0|-2.212|-0.625||Analyses were based on multiple imputation with MMRM model with terms for baseline WOMAC subscale score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||-0.625|-2.212|0.0005
92222645|NCT03962439|184346347|OTHER|Null-hypothesis significance testing|F-value|1.61||||0.211|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|ANCOVA|Adjusted for baseline age, sex, and education.||Repeated measures ANCOVA testing whether change in episodic memory from baseline to 16 weeks interacted with condition (Time x Condition).||||.211
92222646|NCT03962439|184346349|OTHER|Null hypothesis significance testing|F-value|1.66||||0.203|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|ANCOVA|Adjusted for baseline age, sex, and education.||Repeated measures ANCOVA testing whether change in speed of processing from baseline to 16 weeks interacted with condition (Time x Condition).||||.203
92222647|NCT03962439|184346351|OTHER|Null hypothesis significance testing|F-value|0.28||||0.76|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|ANCOVA|Adjusted for baseline age, sex, and education.||Repeated measures ANCOVA testing whether change in reasoning from baseline to week 16 interacted with condition (Time x Condition).||||.760
92222648|NCT00746252|184346408|OTHER|||||||0.495||||||Threshold of significance is p\<.05|t-test, 2 sided|||Comparison of mean weight gain between groups.||||.495
92276600|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.0019|TWO_SIDED|95.0|-0.38|-0.09|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean scores statistics controlling for study center||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.09|-0.38|0.0019
92276601|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.0009|TWO_SIDED|95.0|-0.42|-0.11|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.11|-0.42|0.0009
92276602|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.0254|TWO_SIDED|95.0|-0.34|-0.02|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.02|-0.34|0.0254
92276603|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0035|TWO_SIDED|95.0|-0.41|-0.08|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.08|-0.41|0.0035
92222649|NCT01137773|184346409|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
92222650|NCT01137773|184346410|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||.70
92222651|NCT00439946|184346411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.84||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.84
92222652|NCT00439946|184346412|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
92222653|NCT00439946|184346413|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
92222654|NCT00439946|184346414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||0.50
92222655|NCT00439946|184346415|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||1.00
92222656|NCT00439946|184346416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||0.50
92222657|NCT00439946|184346417|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||1.0
92222658|NCT00439946|184346418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||0.75
92222659|NCT00439946|184346419|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||1.0
92222660|NCT00439946|184346420|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||1.00
92222661|NCT00439946|184346421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.95||95.0||||p-value for: Gather/set-up|Wilcoxon signed rank|||Changes in mean times between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.95
92222662|NCT00439946|184346421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0||||p-value for: Prepare drug|Wilcoxon signed rank|||Changes in mean times between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.02
92222663|NCT00439946|184346421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||95.0||||p-value for: Connect drug|Wilcoxon signed rank|||Changes in mean times between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.20
92358089|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.183|STANDARD_ERROR_OF_MEAN|0.1387||0.196|TWO_SIDED|95.0|-0.4649|0.0989|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0989|-0.4649|0.196
92222664|NCT00439946|184346421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48||95.0||||p-value for: Change dressing|Wilcoxon signed rank|||Changes in mean times between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.48
92222665|NCT00439946|184346421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||95.0||||p-value for: Total time|Wilcoxon signed rank|||Changes in mean times between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.11
92222666|NCT00439946|184346422|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||95.0||||p-value for: CAMPHOR Symptom Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.31
92358090|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2051|STANDARD_ERROR_OF_MEAN|0.20032||0.313|TWO_SIDED|95.0|-0.6122|0.202|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2020|-0.6122|0.313
92222667|NCT00439946|184346422|SUPERIORITY_OR_OTHER_LEGACY|||||||0.84||95.0||||p-value for CAMPHOR Activity Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.84
92222668|NCT00439946|184346422|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0||||p-value for CAMPHOR Quality of Life Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.03
92222669|NCT00439946|184346422|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||95.0||||p-value for CAMPHOR Total Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.22
92222670|NCT00439946|184346423|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0||||p-value for TSQM Effectiveness Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.55
92222671|NCT00439946|184346423|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0||||p-value for TSQM Side-Effects Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.50
92222672|NCT00439946|184346423|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0||||p-value for TSQM Convenience Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.01
92222673|NCT00439946|184346423|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52||95.0||||p-value for TSQM Global Satisfaction Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.52
92222674|NCT03548051|184346429|SUPERIORITY||Difference in Proportions|0.05|||>|0.999|TWO_SIDED|95.0|-0.58|0.65||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Fisher Exact|||The null hypothesis is that there is no difference in proportions between study arms, with a two-sided alternative.||0.65|-0.58|>0.999
92222675|NCT03548051|184346432|SUPERIORITY||Difference in Proportions|0.05|||>|0.999|TWO_SIDED|95.0|-0.58|0.65||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Fisher Exact|||The null hypothesis is that there is no difference in proportions between study arms, with a two-sided alternative.||0.65|-0.58|>0.999
92222676|NCT03548051|184346433|SUPERIORITY||||||>|0.999||||||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Log Rank|||A Log-Rank permutation test for small samples was used to test the null hypothesis that there is no difference in the time to first CDAD recurrence between treatment arms.||||>0.999
92222677|NCT00812214|184346448|SUPERIORITY|For the purpose of the power calculation, it was assumed that the difference in total sleep time between the treatment groups is 40 minutes, with a standard deviation of 60. The pilot nature of the study allowed the use of alpha = 0.05 and beta = 0.2, with two-sided comparison, generating a required sample size of 37 subjects per arm.||||||0.33|||||||t-test, 2 sided|two-tailed student's t-test for independent samples||The null hypothesis is that there is no difference in the 6 week average total sleep time||||0.33
92222678|NCT00812214|184346449|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||The null hypothesis is that there is no difference between the eszopiclone and placebo groups in the number of awakenings/night at 6 weeks.||||0.03
92222679|NCT00812214|184346451|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between Eszopiclone and placebo groups in sleep quality averaged over 6 weeks of treatment.||||0.1
92222680|NCT00812214|184346451|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between Eszopiclone and placebo groups in daytime alertness averaged over 6 weeks of treatment.||||0.29
92222681|NCT00812214|184346451|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between Eszopiclone and placebo groups in daytime fatigue averaged over 6 weeks of treatment.||||0.05
92222682|NCT00812214|184346451|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between Eszopiclone and placebo groups in daytime functioning averaged over 6 weeks of treatment.||||0.76
92358091|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0253|STANDARD_ERROR_OF_MEAN|0.21616||0.908|TWO_SIDED|95.0|-0.414|0.4646|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4646|-0.4140|0.908
92222683|NCT00812214|184346453|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||The null hypothesis is that there is no difference in average days/week between eszopiclone and placebo groups at 6 weeks.||||0.89
92222684|NCT00812214|184346454|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||The null hypothesis is that there is no difference in headache duration between eszopiclone and placebo groups at 6 weeks.||||0.98
92222685|NCT00812214|184346455|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||The null hypothesis is that there is no difference in headache intensity between eszopiclone and placebo groups at 6 weeks.||||0.82
92222686|NCT02684981|184346466|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis||Statistical analysis for median change in PACT-Q2 scores from V1 to V2||||< 0.0001
92222687|NCT02684981|184346466|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis||Statistical analysis for median change in convenience PACT-Q2 scores from V1 to V3||||< 0.0001
92222688|NCT02684981|184346467|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis||Statistical analysis for median change in satisfaction PACT-Q2 scores from V1 to V2||||< 0.0001
92222689|NCT02684981|184346467|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis||Statistical analysis for median change in satisfaction PACT-Q2 scores from V1 to V3||||< 0.0001
92222690|NCT02684981|184346468|OTHER||Mean Difference (Net)|18.377|STANDARD_ERROR_OF_MEAN|0.514|<|0.001|||||||Mixed Models Analysis||The primary analysis of PACT-Q2 scores was based on the random intercept model, where the matched group is considered as a random effect, the treatment as a fixed effect and the score as the response variable.|Mean change in convenience PACT-Q2 scores between VKA and Pradaxa therapy at initiation stage (V2)||||< 0.001
92222691|NCT02684981|184346468|OTHER||Mean Difference (Net)|23.341|STANDARD_ERROR_OF_MEAN|0.509|<|0.001|||||||Mixed Models Analysis||The primary analysis of PACT-Q2 scores was based on the random intercept model, where the matched group is considered as a random effect, the treatment as a fixed effect and the score as the response variable.|Mean change in convenience PACT-Q2 scores between VKA and Pradaxa therapy at continuation stage (V3)||||< 0.001
92222692|NCT02684981|184346469|OTHER||Mean Difference (Net)|15.884|STANDARD_ERROR_OF_MEAN|0.388|<|0.001|||||||Mixed Models Analysis||The primary analysis of PACT-Q2 scores was based on the random intercept model, where the matched group is considered as a random effect, the treatment as a fixed effect and the score as the response variable.|Mean change in satisfaction PACT-Q2 scores between VKA and Pradaxa therapy at initiation stage (V2)||||< 0.001
92222693|NCT02684981|184346469|OTHER||Mean Difference (Net)|19.011|STANDARD_ERROR_OF_MEAN|0.408|<|0.001|||||||Mixed Models Analysis||The primary analysis of PACT-Q2 scores was based on the random intercept model, where the matched group is considered as a random effect, the treatment as a fixed effect and the score as the response variable.|Mean change in satisfaction PACT-Q2 scores between VKA and Pradaxa therapy at continuation stage (V3)||||< 0.001
92222694|NCT02684981|184346477|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis||Median convenience and satisfaction PACT-Q2 scores at last assessment compared to second assessment||||< 0.001
92222695|NCT00452699|184346501|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.11|||<|0.001||95.0|0.07|0.15|||ANCOVA|||||0.15|0.07|<0.001
92222696|NCT02921971|184346505|SUPERIORITY||Least square (LS) Mean difference|-2.31|STANDARD_ERROR_OF_MEAN|1.21||0.0291|TWO_SIDED|95.0|-4.71|0.08||Above p-value is one-sided p-value. Threshold for significance is at 0.05 level.|Mixed-effect model with repeated measure|||Analysis was performed using mixed model repeated measures (MMRM) model. The model included fixed categorical effects of treatment group, randomization strata as per IVRS, timepoint, treatment-by-timepoint and strata-by-timepoint interactions, as well as the continuous fixed covariate of baseline and baseline-by-timepoint interactions.||0.08|-4.71|0.0291
92222697|NCT00326898|184346509|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.02||||0.8|TWO_SIDED|97.5|0.85|1.23|||Stratified logrank test|Stratified logrank test was performed. Stratification factors include basis of risk group, histologic subtype, performance status and type of surgery.||||1.23|0.85|0.80
92164474|NCT05382104|184217351|EQUIVALENCE|A linear mixed-effects model was applied to ln-transformed AUC0-infinity with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs was constructed for the differences between Treatment B versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (%)|84.74|||||TWO_SIDED|90.0|81.28|88.34|||||Geometric mean ratio (%) was calculated as 100\*(Treatment B / Treatment A).|||88.34|81.28|
92164475|NCT05382104|184217351|EQUIVALENCE|A linear mixed-effects model was applied to ln-transformed AUC0-infinity with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs was constructed for differences between Treatment C versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment A.|Geometric Mean Ratio (%)|87.84|||||TWO_SIDED|90.0|84.3|91.53|||||Geometric mean ratio (%) was calculated as 100\*(Treatment C / Treatment A).|||91.53|84.30|
92164476|NCT02336438|184217368|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.99
92164477|NCT02336438|184217369|SUPERIORITY_OR_OTHER|||||||0.4922|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.4922
92164478|NCT02336438|184217370|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.77
92164479|NCT02336438|184217371|SUPERIORITY_OR_OTHER|||||||0.0156|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.0156
92164480|NCT02336438|184217372|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.020
92164481|NCT02336438|184217373|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.13
92222698|NCT00326898|184346509|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.72|TWO_SIDED|97.5|0.8|1.17|||Stratified logrank test|Stratified logrank test was performed. Stratification factors include basis of risk group, histologic subtype, performance status and type of surgery.||||1.17|0.80|0.72
92164482|NCT05190419|184217391|SUPERIORITY||Mean Difference (Net)|-35.4|STANDARD_ERROR_OF_MEAN|9.83|<|0.001|TWO_SIDED|95.0|-54.7|-16.0||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo.|ANCOVA|p-value is calculated by analysis of covariance with treatment group as factor and baseline PASI as covariate.||||-16.0|-54.7|<0.001
92222699|NCT00326898|184346510|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|97.5|0.9|1.52|||||Hazard ratio was estimated using stratified proportional hazards model with Arm C (placebo arm) as the reference group.|||1.52|0.90|
92222700|NCT00326898|184346510|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|97.5|0.75|1.28|||||Hazard ratio was estimated using stratified proportional hazards model with Arm C (placebo arm) as the reference group.|||1.28|0.75|
92222701|NCT01166230|184346546|SUPERIORITY_OR_OTHER|||||||0.141|||||||Fisher Exact|||||||0.141
92164483|NCT05190419|184217391|SUPERIORITY||Mean Difference (Net)|-43.9|STANDARD_ERROR_OF_MEAN|9.75|<|0.001|TWO_SIDED|95.0|-63.1|-24.8||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo.|ANCOVA|p-value is calculated by analysis of covariance with treatment group as factor and baseline PASI as covariate.||||-24.8|-63.1|<0.001
92222702|NCT01166230|184346547|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.041
92222703|NCT01166230|184346548|SUPERIORITY_OR_OTHER|||||||0.056|TWO_SIDED|99.0|||||Wilcoxon (Mann-Whitney)|||||||0.056
92222704|NCT01968460|184346552|SUPERIORITY||Mean Difference (Net)|-4.67|STANDARD_ERROR_OF_MEAN|1.28||0.0004|TWO_SIDED|95.0|-7.2|-2.13||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||-2.13|-7.20|0.0004
92222705|NCT01968460|184346552|SUPERIORITY||Mean Difference (Net)|-3.84|STANDARD_ERROR_OF_MEAN|1.25||0.0027|TWO_SIDED|95.0|-6.32|-1.36||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||-1.36|-6.32|0.0027
92222706|NCT01968460|184346553|SUPERIORITY||Mean Difference (Net)|-1.85|STANDARD_ERROR_OF_MEAN|0.51||0.0004|TWO_SIDED|95.0|-2.86|-0.84||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||-0.84|-2.86|0.0004
92222707|NCT01968460|184346553|SUPERIORITY||Mean Difference (Net)|-1.42|STANDARD_ERROR_OF_MEAN|0.01||0.005|TWO_SIDED|95.0|-2.41|0.44||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||0.44|-2.41|0.005
92222708|NCT01968460|184346554|SUPERIORITY||Odds Ratio (OR)|8.1||||0.0165|TWO_SIDED|95.0|1.47|44.77||The overall significance level for this study was 5% using two-tailed tests.|Regression, Logistic|||A subject will be defined as a treatment responder in case that the improvement from baseline to the Week12 / Last Observed Value (LOV) in the CGI-S will be of 1 point or more. Baseline adjusted logistic regression (SAS® LOGISTIC procedure) stratified by GeoSite using the STRATA sub-command with the following effects: treatment group and baseline CGI-S measurement was used to test the between the active groups and placebo contrasts.||44.77|1.47|0.0165
92222709|NCT01968460|184346554|SUPERIORITY||Odds Ratio (OR)|4.23|STANDARD_ERROR_OF_MEAN|0.9||0.111|TWO_SIDED|95.0|0.72|24.9||The overall significance level for this study will be 5% using two-tailed tests.|Regression, Logistic|||||24.90|0.72|0.111
92222710|NCT01968460|184346555|SUPERIORITY||Mean Difference (Net)|-2.81|STANDARD_ERROR_OF_MEAN|1.0||0.0058|TWO_SIDED|95.0|-4.8|-0.83||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||-0.83|-4.80|0.0058
92222711|NCT01968460|184346555|SUPERIORITY||Mean Difference (Net)|-2.32|STANDARD_ERROR_OF_MEAN|0.98||0.0191|TWO_SIDED|95.0|-4.26|-0.39||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||-0.39|-4.26|0.0191
92222712|NCT01968460|184346556|SUPERIORITY||Mean Difference (Net)|-3.27|STANDARD_ERROR_OF_MEAN|1.24||0.0097|TWO_SIDED|95.0|-5.72|-0.8||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|Mixed Models Analysis|||||-0.80|-5.72|0.0097
92222713|NCT01968460|184346556|SUPERIORITY||Mean Difference (Net)|-2.45|STANDARD_ERROR_OF_MEAN|1.24||0.0509|TWO_SIDED|95.0|-4.91|-0.012||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|Mixed Models Analysis|||||-0.012|-4.91|0.0509
92222714|NCT02597855|184346559|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||The difference of polyp regression rate between two groups were compared.||||<0.05
92222715|NCT02597855|184346560|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|The Mann-Whitney test was used for a comparison of best corrected visual acuity assessed at baseline, 3 months, and 6 months between type1 and type2.||best corrected visual acuity was compared between two groups||||<0.05
92222716|NCT00781456|184346576|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.02|STANDARD_ERROR_OF_MEAN|0.43||0.954|TWO_SIDED|95.0|-0.82|0.87|||Regression, Logistic|Logistic regression model with terms of treatment, weekly baseline migraine frequency, and center included in the model.|91-day Levonogestrel Oral Contraceptive versus placebo. Treatment Difference was estimated using logistic regression for the proportion of participants with \>=50% reduction in migraine frequency during the treatment period.|||0.87|-0.82|0.954
92222717|NCT00781456|184346577|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.31|STANDARD_ERROR_OF_MEAN|0.44||0.479|TWO_SIDED|95.0|-0.55|1.17||No adjustment for multiple comparisons was performed.|Regression, Logistic|Logistic regression model with terms of treatment, baseline weekly migraine frequency and center included in the model.|91-day Levonogestrel Oral Contraceptive versus placebo. Treatment Difference was estimated using logistic regression for the proportion of participants with \>=50% reduction in migraine frequency during the treatment period.|Comparison of percentage of participants with a reduction of 50% or more in migraine frequency during the first month of treatment.||1.17|-0.55|0.479
92222718|NCT00781456|184346577|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.5|STANDARD_ERROR_OF_MEAN|0.44||0.256|TWO_SIDED|95.0|-0.36|1.37||No adjustment for multiple comparisons was performed.|Regression, Logistic|Logistic regression model with terms of treatment, baseline weekly migraine frequency and center included in the model.|91-day Levonogestrel Oral Contraceptive versus placebo. Treatment Difference was estimated using logistic regression for the proportion of participants with \>=50% reduction in migraine frequency during the treatment period.|Comparison of percentage of participants with a reduction of 50% or more in migraine frequency during the second month of treatment||1.37|-0.36|0.256
92222719|NCT00781456|184346577|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.14|STANDARD_ERROR_OF_MEAN|0.52||0.788|TWO_SIDED|95.0|-1.16|0.88||No adjustment for multiple comparisons was performed.|Regression, Logistic|Logistic regression model with terms of treatment, baseline weekly migraine frequency and center included in the model.|91-day Levonogestrel Oral Contraceptive versus placebo. Treatment Difference was estimated using logistic regression for the proportion of participants with \>=50% reduction in migraine frequency during the treatment period.|Comparison of percentage of participants with a reduction of 50% or more in migraine frequency during the third month of treatment.||0.88|-1.16|0.788
92222720|NCT00781456|184346578|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.19||||0.182|TWO_SIDED|95.0|-0.47|0.09|||ANCOVA|Treatment comparison was performed using an analysis of covariance model with baseline average migraine severity and center as covariates.|91-day Levonogestrel Oral Contraceptive versus placebo.|Comparison of change from Baseline in migraine severity during the 91-day treatment period.||0.09|-0.47|0.182
92222721|NCT00781456|184346578|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.04||||0.853|TWO_SIDED|95.0|-0.71|0.19|||ANCOVA|Treatment comparison was performed using an analysis of covariance model with baseline average migraine severity and center as covariates.|91-day Levonogestrel Oral Contraceptive versus placebo.|Comparison of change from Baseline in migraine severity during the first month of treatment||0.19|-0.71|0.853
92222722|NCT00781456|184346578|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.26||||0.249|TWO_SIDED|95.0|-0.71|0.19|||ANCOVA|Treatment comparison was performed using an analysis of covariance model with baseline average migraine severity and center as covariates.|91-day Levonogestrel Oral Contraceptive versus placebo.|Comparison of change from Baseline in migraine severity during the second month of treatment||0.19|-0.71|0.249
92358092|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3042|STANDARD_ERROR_OF_MEAN|0.20531||0.148|TWO_SIDED|95.0|-0.7214|0.1131|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1131|-0.7214|0.148
92358093|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3409|STANDARD_ERROR_OF_MEAN|0.17997||0.067|TWO_SIDED|95.0|-0.7066|0.0249|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0249|-0.7066|0.067
92358094|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0652|STANDARD_ERROR_OF_MEAN|0.19419||0.739|TWO_SIDED|95.0|-0.4599|0.3294|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3294|-0.4599|0.739
92222723|NCT00781456|184346578|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.4||||0.119|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|Treatment comparison was performed using an analysis of covariance model with baseline average migraine severity and center as covariates.|91-day Levonogestrel Oral Contraceptive versus placebo.|Comparison of change from Baseline in migraine severity during the third month of treatment||0.10|-0.90|0.119
92222724|NCT00781456|184346579|SUPERIORITY_OR_OTHER|||||||0.457|||||||Cochran-Mantel-Haenszel|||Comparison of percentage of participants requiring rescue medication during the first month of treatment.||||0.457
92222725|NCT00781456|184346579|SUPERIORITY_OR_OTHER|||||||0.361|||||||Cochran-Mantel-Haenszel|||Comparison of percentage of participants requiring rescue medication during the second month of treatment.||||0.361
92222726|NCT00781456|184346579|SUPERIORITY_OR_OTHER|||||||0.018|||||||Cochran-Mantel-Haenszel|||Comparison of percentage of participants requiring rescue medication during the third month of treatment.||||0.018
92222727|NCT00781456|184346579|SUPERIORITY_OR_OTHER|||||||0.709|||||||Cochran-Mantel-Haenszel|||Comparison of percentage of participants requiring rescue medication during the 91-day treatment period.||||0.709
92222728|NCT04852848|184346605|EQUIVALENCE|In our original power calculation, we expected to randomly assign 200 individuals to the Connect2Test (n = 100) and control conditions (n = 100). Power calculations were conducted using G\*Power assuming a two-tailed test with alpha = .05, power = .80, and an estimated COVID-19 testing rate in the Connect2Test condition of 20%. With these assumptions, the minimum detectable effect size (odds ratio) is 2.46, which corresponds to a moderate Cohen's d (0.49).|Odds Ratio (OR)|1.18||||0.6298|TWO_SIDED|95.0|0.61|2.27|||Chi-squared||The control condition was the reference category (Connect2Test intervention = 1, Control = 0).|||2.27|0.61|.6298
92222729|NCT04283123|184346615|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.41|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|||||
92222730|NCT04283123|184346615|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.45|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|||||
92222731|NCT04283123|184346616|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.48|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|||||
92222732|NCT04283123|184346616|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.32|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|||||
92222733|NCT04283123|184346617|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.6|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|||||
92222734|NCT04283123|184346617|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.12|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|||||
92222735|NCT04175626|184346622|SUPERIORITY||||||<|0.0001|||||||Exact, binomial|||The primary endpoint was evaluated by performing an exact, binomial test comparing the rate of TLF for the Orsiro stent at 1 year to a performance goal of 6.9%, with Type I error (alpha) of 0.025 and power of 80%. The null hypothesis (Ho) was stated as: The TLF rate of the Orsiro stent at 1 year is greater than or equal to 6.9%. The alternative hypothesis (Ha) was stated as: The TLF rate of the Orsiro stent at 1 year is less than 6.9%.||||<0.0001
92222736|NCT01709149|184346639|SUPERIORITY||Least squares mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.366||0.114|TWO_SIDED|95.0|-1.3|0.14|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||0.14|-1.30|0.1140
92164484|NCT05190419|184217391|SUPERIORITY||Mean Difference (Net)|-46.4|STANDARD_ERROR_OF_MEAN|9.75|<|0.001|TWO_SIDED|95.0|-65.6|-27.3||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo.|ANCOVA|p-value is calculated by analysis of covariance with treatment group as factor and baseline PASI as covariate.||||-27.3|-65.6|<0.001
92358095|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4163|STANDARD_ERROR_OF_MEAN|0.18445||0.031|TWO_SIDED|95.0|-0.7912|-0.0415|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||-0.0415|-0.7912|0.031
92358096|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2032|STANDARD_ERROR_OF_MEAN|0.14369||0.166|TWO_SIDED|95.0|-0.4952|0.0888|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0888|-0.4952|0.166
92358097|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0932|STANDARD_ERROR_OF_MEAN|0.15504||0.552|TWO_SIDED|95.0|-0.2219|0.4083|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4083|-0.2219|0.552
92358098|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1648|STANDARD_ERROR_OF_MEAN|0.14727||0.271|TWO_SIDED|95.0|-0.4641|0.1345|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1345|-0.4641|0.271
92358099|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2516|STANDARD_ERROR_OF_MEAN|0.16169||0.129|TWO_SIDED|95.0|-0.5802|0.077|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0770|-0.5802|0.129
92358100|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1279|STANDARD_ERROR_OF_MEAN|0.17447||0.468|TWO_SIDED|95.0|-0.2266|0.4825|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4825|-0.2266|0.468
92358101|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2033|STANDARD_ERROR_OF_MEAN|0.16572||0.228|TWO_SIDED|95.0|-0.5401|0.1334|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1334|-0.5401|0.228
92358102|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13268||0.141|TWO_SIDED|95.0|-0.4696|0.0696|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0696|-0.4696|0.141
92358103|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0065|STANDARD_ERROR_OF_MEAN|0.14317||0.964|TWO_SIDED|95.0|-0.2975|0.2844|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2844|-0.2975|0.964
92164485|NCT02124460|184217415|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.3928|TWO_SIDED|95.0|-0.08|0.03|||Linear repeated measures|Multiple imputation was used for missing follow-up data.|Health Coaching group compared to Enhanced Primary Care|||0.03|-0.08|0.3928
92164486|NCT02124460|184217416|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.89||||0.2306|TWO_SIDED|95.0|-0.56|2.33|||Linear repeated measures|Multiple imputation used for missing data at follow-up|Health Coaching group compared to Enhanced Primary Care|||2.33|-0.56|0.2306
92164487|NCT02124460|184217417|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.14|TWO_SIDED|95.0|-0.02|0.16|||Linear repeated measures|Multiple imputation used for missing data at follow-up|Health Coaching group compared to Enhanced Primary Care.|||0.16|-0.02|.14
92164488|NCT02124460|184217418|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.0016|TWO_SIDED|95.0|-0.81|-0.19|||Linear repeated measures|Multiple imputation used for missing data at follow-up.||||-0.19|-0.81|0.0016
92164489|NCT02124460|184217419|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.42|||<|0.0001|TWO_SIDED|95.0|0.22|0.62||Multiple imputation used for missing data at follow-up.|Linear repeated measures|||||0.62|0.22|<.0001
92164490|NCT02124460|184217420|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18||||0.3043|TWO_SIDED|95.0|-0.16|0.53|||Linear repeated measures|Multiple imputation used for missing data at follow-up.||||0.53|-0.16|0.3043
92164491|NCT02124460|184217421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32||||0.0113|TWO_SIDED|95.0|0.07|0.56|||Linear repeated measures|Multiple imputation used for missing data at follow-up.||||0.56|0.07|0.0113
92164492|NCT02124460|184217422|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21||||0.0792|TWO_SIDED|95.0|-0.45|0.03|||Linear repeated measures|Multiple imputation used for missing data at follow-up.||||0.03|-0.45|0.0792
92164493|NCT00392678|184217443|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92164494|NCT03008915|184217450|OTHER|Paired t-test for participants with measures on both aspirin and placebo.||||||0.692|||||||t-test, 2 sided|||The null hypothesis is that there is no difference between measures on aspirin and placebo.||||0.692
92222737|NCT01709149|184346640|SUPERIORITY||Least squares mean difference|0.48|STANDARD_ERROR_OF_MEAN|1.963||0.8083|TWO_SIDED|95.0|-3.38|4.34|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||4.34|-3.38|0.8083
92222738|NCT01709149|184346641|SUPERIORITY||Least squares mean difference|-3.4|STANDARD_ERROR_OF_MEAN|1.627||0.0372|TWO_SIDED|95.0|-6.6|-0.2|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||-0.20|-6.60|0.0372
92222739|NCT01709149|184346642|SUPERIORITY||Least squares mean difference|4.25|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|95.0|2.23|6.28|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||6.28|2.23|<0.0001
92222740|NCT01709149|184346643|SUPERIORITY||Least squares mean difference|0.75|STANDARD_ERROR_OF_MEAN|0.956||0.4328|TWO_SIDED|95.0|-1.13|2.63|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||2.63|-1.13|0.4328
92222741|NCT01709149|184346644|SUPERIORITY||Least squares mean difference|0.25|STANDARD_ERROR_OF_MEAN|4.399||0.9546|TWO_SIDED|95.0|-8.4|8.9|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||8.90|-8.40|0.9546
92222742|NCT01709149|184346645|SUPERIORITY||Least squares mean difference|1.61|STANDARD_ERROR_OF_MEAN|3.207||0.6166|TWO_SIDED|95.0|-4.7|7.91|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||7.91|-4.70|0.6166
92276604|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.0152|TWO_SIDED|95.0|-0.39|-0.04|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.04|-0.39|0.0152
92276605|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.004|TWO_SIDED|95.0|-0.42|-0.08|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.08|-0.42|0.004
92276606|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.013|TWO_SIDED|95.0|-0.42|-0.05|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.05|-0.42|0.013
92276607|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.0755|TWO_SIDED|95.0|-0.33|0.02|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.02|-0.33|0.0755
92358104|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1935|STANDARD_ERROR_OF_MEAN|0.13599||0.164|TWO_SIDED|95.0|-0.4699|0.0828|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0828|-0.4699|0.164
92358105|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1446|STANDARD_ERROR_OF_MEAN|0.13315||0.285|TWO_SIDED|95.0|-0.4152|0.126|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1260|-0.4152|0.285
92276608|NCT01360632|184454760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0527|TWO_SIDED|95.0|-0.39|0.0|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0|-0.39|0.0527
92358106|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0176|STANDARD_ERROR_OF_MEAN|0.14368||0.903|TWO_SIDED|95.0|-0.3096|0.2744|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2744|-0.3096|0.903
92222743|NCT00763815|184346665|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.731|-0.386||Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms; randomization strata of screening HbA1c (\<8.0, \>=8.0%), metformin use (yes, no); country as fixed effects; baseline HbA1c as covariate.|ANCOVA|||To detect a difference of 0.5% (or 0.4%) in change from baseline to Week 24 in HbA1c between lixisenatide and placebo, 300 patients in lixisenatide arm and 150 patients in placebo arm would provide a power of 96% (or 86%) assuming common standard deviation of 1.3% with a 2-sided test at 5% significance level.||-0.386|-0.731|<0.0001
92222744|NCT02429414|184346719|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92222745|NCT02429414|184346720|SUPERIORITY|||||||0.0209|||||||t-test, 2 sided|||||||0.0209
92222746|NCT02429414|184346721|SUPERIORITY|||||||0.078|||||||t-test, 2 sided|||||||0.078
92222747|NCT01849172|184346723|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92358107|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1615|STANDARD_ERROR_OF_MEAN|0.13647||0.245|TWO_SIDED|95.0|-0.4388|0.1159|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1159|-0.4388|0.245
92358108|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3659|STANDARD_ERROR_OF_MEAN|0.45708||0.429|TWO_SIDED|95.0|-0.563|1.2948|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||1.2948|-0.5630|0.429
92358109|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0395|STANDARD_ERROR_OF_MEAN|0.49321||0.937|TWO_SIDED|95.0|-0.9628|1.0419|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||1.0419|-0.9628|0.937
92358110|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7902|STANDARD_ERROR_OF_MEAN|0.46847||0.101|TWO_SIDED|95.0|-0.1618|1.7423|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||1.7423|-0.1618|0.101
92358111|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4404|STANDARD_ERROR_OF_MEAN|0.43756||0.321|TWO_SIDED|95.0|-1.3296|0.4488|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4488|-1.3296|0.321
92358112|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4685|STANDARD_ERROR_OF_MEAN|0.47214||0.328|TWO_SIDED|95.0|-1.428|0.491|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4910|-1.4280|0.328
92358113|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.44846||0.356|TWO_SIDED|95.0|-0.4914|1.3314|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||1.3314|-0.4914|0.356
92358114|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2254|STANDARD_ERROR_OF_MEAN|0.1679||0.188|TWO_SIDED|95.0|-0.5666|0.1158|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Paracingulte gyrus/BA32. Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1158|-0.5666|0.188
92358115|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0232|STANDARD_ERROR_OF_MEAN|0.18117||0.899|TWO_SIDED|95.0|-0.3914|0.3449|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Paracingulte gyrus/BA32: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3449|-0.3914|0.899
92358116|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2534|STANDARD_ERROR_OF_MEAN|0.17208||0.15|TWO_SIDED|95.0|-0.6032|0.0963|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Paracingulte gyrus/BA32: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0963|-0.6032|0.150
92358117|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2821|STANDARD_ERROR_OF_MEAN|0.19038||0.148|TWO_SIDED|95.0|-0.669|0.1048|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Paracingulte gyrus/BA3: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1048|-0.6690|0.148
92358118|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.048|STANDARD_ERROR_OF_MEAN|0.20543||0.817|TWO_SIDED|95.0|-0.4655|0.3695|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Paracingulte gyrus/BA32: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3695|-0.4655|0.817
92358119|NCT01892189|184621210|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3395|STANDARD_ERROR_OF_MEAN|0.19513||0.091|TWO_SIDED|95.0|-0.7361|0.057|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Paracingulte gyrus/BA32: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0570|-0.7361|0.091
92358120|NCT00856557|184621221|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is equal distribution of proportion of successful encounters among groups||||0.33
92164495|NCT00712166|184217455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.433|TWO_SIDED|95.0|-2.83|6.44||"The primary endpoint analysis was based on a two-sided test with an 0.05 a priori threshold for statistical significance.~A gate-keeper approach was established a priori to control the type 1 error rate, however, the primary endpoint was not met."|ANCOVA|ANCOVA included: treatment, baseline CFQ-R RSS, age group (\<18, \>=18 years). Denominator degrees of freedom computed with Satterthwaite approximation.||"Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in CFQ-R RSS score at Day 28.~At the 5% significance level (i.e., α = 0.05) using a two-sided significance test, a sample size of 70 participants per treatment group provided at least 90% power to detect a 10 point difference between groups in the mean change from baseline at Day 28 in the CFQ-R RSS score, assuming a common standard deviation (SD) of 17.5."||6.44|-2.83|0.433
92358121|NCT00856557|184621221|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.724|STANDARD_ERROR_OF_MEAN|0.346||0.036|TWO_SIDED||||||Mixed Models Analysis|||Considering all encounters (n=179) of all physicians for who outcomes were measured (n=111) together, are encounters in which physicians contextualized the plan of care more likely to be associated with target health outcome achievement than encounters in which physicians did not, controlling for clustering of encounters within physicians. (Generalized logistic mixed model, with random intercept for physician)||||.036
92358122|NCT00856557|184621222|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.99
92358123|NCT00856557|184621223|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.39
92358124|NCT02301897|184621224|SUPERIORITY|||||||0.0008|||||||Chi-Square Test|||||||0.0008
92358125|NCT02301897|184621224|SUPERIORITY||||||<|0.001|||||||Chi-Square Test|||||||<0.001
92358126|NCT02301897|184621225|SUPERIORITY|||||||0.0719|||||||Chi-Square Test|||||||0.0719
92358127|NCT02301897|184621225|SUPERIORITY|||||||0.0004|||||||Chi-Square Test|||||||0.0004
92358128|NCT02301897|184621226|SUPERIORITY|||||||0.0167|||||||Wilcoxon Rank-Sum Test|||CFB to Week 18 Course 1||||0.0167
92358129|NCT02301897|184621226|SUPERIORITY|||||||0.1257|||||||Wilcoxon Rank-Sum Test|||CFB to Week 18 Course 1||||0.1257
92358130|NCT02301897|184621226|SUPERIORITY|||||||0.9754|||||||Wilcoxon Rank-Sum Test|||CFB to ODI Course 1||||0.9754
92358131|NCT02301897|184621226|SUPERIORITY|||||||0.7672|||||||Wilcoxon Rank-Sum Test|||CFB to ODI Course 1||||0.7672
92358132|NCT02301897|184621226|SUPERIORITY|||||||0.2232|||||||Wilcoxon Rank-Sum Test|||CFB to Week 18 Course 2||||0.2232
92358133|NCT02301897|184621226|SUPERIORITY|||||||0.4512|||||||Wilcoxon Rank-Sum Test|||CFB to Week 18 Course 2||||0.4512
92358134|NCT02301897|184621226|SUPERIORITY|||||||0.3545|||||||Wilcoxon Rank-Sum Test|||CFB to Course 2 Week 28 FU||||0.3545
92358135|NCT02301897|184621226|SUPERIORITY|||||||0.2482|||||||Wilcoxon Rank-Sum Test|||CFB to Course 2 Week 28 FU||||0.2482
92358136|NCT02301897|184621227|SUPERIORITY|||||||0.0016|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0016
92358137|NCT02301897|184621227|SUPERIORITY|||||||0.0003|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0003
92358138|NCT02301897|184621227|SUPERIORITY|||||||0.6666|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to ODI Course 1||||0.6666
92358139|NCT02301897|184621227|SUPERIORITY|||||||0.3612|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to ODI Course 1||||0.3612
92358140|NCT02301897|184621227|SUPERIORITY|||||||0.0309|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0309
92358141|NCT02301897|184621227|SUPERIORITY|||||||0.0007|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0007
92358142|NCT02301897|184621227|SUPERIORITY|||||||0.0641|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 28 FU||||0.0641
92358143|NCT02301897|184621227|SUPERIORITY|||||||0.3743|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 28 FU||||0.3743
92358144|NCT02301897|184621228|SUPERIORITY|||||||0.0049|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0049
92358145|NCT02301897|184621228|SUPERIORITY|||||||0.0064|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0064
92358146|NCT02301897|184621228|SUPERIORITY|||||||0.5637|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.5637
92358147|NCT02301897|184621228|SUPERIORITY|||||||0.0505|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0505
92358148|NCT02301897|184621228|SUPERIORITY|||||||0.4262|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.4262
92358149|NCT02301897|184621228|SUPERIORITY|||||||0.1419|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.1419
92358150|NCT02301897|184621228|SUPERIORITY|||||||0.4497|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.4497
92358151|NCT02301897|184621228|SUPERIORITY|||||||0.5371|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.5371
92358152|NCT02301897|184621229|SUPERIORITY|||||||0.0069|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0069
92358153|NCT02301897|184621229|SUPERIORITY|||||||0.0059|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0059
92358154|NCT02301897|184621229|SUPERIORITY|||||||0.2117|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.2117
92358155|NCT02301897|184621229|SUPERIORITY|||||||0.0006|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0006
92358156|NCT02301897|184621229|SUPERIORITY|||||||0.0788|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0788
92358157|NCT02301897|184621229|SUPERIORITY|||||||0.008|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0080
92358158|NCT02301897|184621229|SUPERIORITY|||||||0.1516|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.1516
92358159|NCT02301897|184621229|SUPERIORITY|||||||0.0565|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.0565
92358160|NCT02301897|184621230|SUPERIORITY|||||||0.011|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0110
92358161|NCT02301897|184621230|SUPERIORITY|||||||0.0601|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0601
92358162|NCT02301897|184621230|SUPERIORITY|||||||0.2168|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.2168
92358163|NCT02301897|184621230|SUPERIORITY|||||||0.0101|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0101
92358164|NCT02301897|184621230|SUPERIORITY|||||||0.243|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.2430
92358165|NCT02301897|184621230|SUPERIORITY|||||||0.0843|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0843
92358166|NCT02301897|184621230|SUPERIORITY|||||||0.557|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.5570
92358167|NCT02301897|184621230|SUPERIORITY|||||||0.5302|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.5302
92358168|NCT02301897|184621231|SUPERIORITY|||||||0.0504|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0504
92358169|NCT02301897|184621231|SUPERIORITY|||||||0.0151|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0151
92358170|NCT02301897|184621231|SUPERIORITY|||||||0.5932|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.5932
92358171|NCT02301897|184621231|SUPERIORITY|||||||0.0831|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0831
92358172|NCT02301897|184621231|SUPERIORITY|||||||0.1416|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.1416
92358173|NCT02301897|184621231|SUPERIORITY|||||||0.0392|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0392
92358174|NCT02301897|184621231|SUPERIORITY|||||||0.8275|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.8275
92358175|NCT02301897|184621231|SUPERIORITY|||||||0.8733|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.8733
92358176|NCT02301897|184621232|SUPERIORITY|||||||0.0651|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0651
92358177|NCT02301897|184621232|SUPERIORITY|||||||0.0298|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0298
92358178|NCT02301897|184621232|SUPERIORITY|||||||0.4005|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.4005
92358179|NCT02301897|184621232|SUPERIORITY|||||||0.1114|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.1114
92164496|NCT00712166|184217456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.37||||0.133|TWO_SIDED|95.0|-1.04|7.78||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA included terms: treatment, baseline CFQ-R RSS, age group (\<18, \>=18 years). Treatment differences were calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in the CFQ-R RSS score at Day 14.||7.78|-1.04|0.133
92358180|NCT02301897|184621232|SUPERIORITY|||||||0.1318|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.1318
92222748|NCT04442230|184346739|SUPERIORITY|||||||0.6602|||||||Fisher Exact|||The p-values from significance tests were obtained at a one-sided significance level of 0.025.||||0.6602
92358181|NCT02301897|184621232|SUPERIORITY|||||||0.0807|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0807
92358182|NCT02301897|184621232|SUPERIORITY|||||||0.4506|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.4506
92358183|NCT02301897|184621232|SUPERIORITY|||||||0.4614|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.4614
92358184|NCT02301897|184621233|SUPERIORITY|||||||0.0653|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0653
92358185|NCT02301897|184621233|SUPERIORITY|||||||0.048|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0480
92358186|NCT02301897|184621233|SUPERIORITY|||||||0.401|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.4010
92358187|NCT02301897|184621233|SUPERIORITY|||||||0.0772|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0772
92358188|NCT02301897|184621233|SUPERIORITY|||||||0.3206|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.3206
92358189|NCT02301897|184621233|SUPERIORITY|||||||0.1605|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.1605
92358190|NCT02301897|184621233|SUPERIORITY|||||||0.557|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.5570
92358191|NCT02301897|184621233|SUPERIORITY|||||||0.3437|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.3437
92358192|NCT02301897|184621234|SUPERIORITY|||||||0.2624|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.2624
92358193|NCT02301897|184621234|SUPERIORITY|||||||0.0688|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0688
92358194|NCT02301897|184621234|SUPERIORITY|||||||0.279|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.2790
92358195|NCT02301897|184621234|SUPERIORITY|||||||0.6541|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.6541
92358196|NCT02301897|184621234|SUPERIORITY|||||||0.8559|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.8559
92358197|NCT02301897|184621234|SUPERIORITY|||||||0.4326|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.4326
92358198|NCT02301897|184621234|SUPERIORITY|||||||0.1052|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.1052
92358199|NCT02301897|184621234|SUPERIORITY|||||||0.9206|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.9206
92358200|NCT02301897|184621235|SUPERIORITY|||||||0.1439|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.1439
92358201|NCT02301897|184621235|SUPERIORITY|||||||0.067|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0670
92358202|NCT02301897|184621235|SUPERIORITY|||||||0.6761|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.6761
92358203|NCT02301897|184621235|SUPERIORITY|||||||0.0639|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0639
92358204|NCT02301897|184621235|SUPERIORITY|||||||0.2218|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.2218
92358205|NCT02301897|184621235|SUPERIORITY|||||||0.4468|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.4468
92358206|NCT02301897|184621235|SUPERIORITY|||||||0.7678|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.7678
92358207|NCT02301897|184621235|SUPERIORITY|||||||0.8922|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.8922
92358208|NCT02301897|184621236|SUPERIORITY|||||||0.1262|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.1262
92358209|NCT02301897|184621236|SUPERIORITY|||||||0.2075|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.2075
92358210|NCT02301897|184621236|SUPERIORITY|||||||0.5904|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.5904
92358211|NCT02301897|184621236|SUPERIORITY|||||||0.243|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.2430
92358212|NCT02301897|184621236|SUPERIORITY|||||||0.7067|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.7067
92358213|NCT02301897|184621236|SUPERIORITY|||||||0.2725|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.2725
92358214|NCT02301897|184621236|SUPERIORITY|||||||0.7016|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.7016
92358215|NCT02301897|184621236|SUPERIORITY|||||||0.8751|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.8751
92358216|NCT02301897|184621237|SUPERIORITY|||||||0.0338|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0338
92358217|NCT02301897|184621237|SUPERIORITY|||||||0.0004|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0004
92358218|NCT02301897|184621237|SUPERIORITY|||||||0.0807|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0807
92358219|NCT02301897|184621237|SUPERIORITY|||||||0.0142|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0142
92358220|NCT02301897|184621237|SUPERIORITY|||||||0.0807|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0807
92358221|NCT02301897|184621237|SUPERIORITY|||||||0.0142|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0142
92358222|NCT02301897|184621237|SUPERIORITY|||||||0.1859|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Off-drug||||0.1859
92358223|NCT02301897|184621237|SUPERIORITY|||||||0.0896|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Off-drug||||0.0896
92358224|NCT02069847|184621281|SUPERIORITY|||||||0.992|||||||ANOVA|||||||0.992
92401517|NCT00385671|184694198|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in time to first ≥ 2 points reduction in weekly mean 24 hour average pain score.||||0.008
92164497|NCT00712166|184217457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.965|TWO_SIDED|95.0|-4.56|4.76||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included terms for treatment, baseline CFQ-R RSS and age group (\<18 years, \>=18 years). Treatment differences calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in the CFQ-R RSS score at Day 42.||4.76|-4.56|0.965
92164498|NCT00712166|184217458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.47||||0.256||95.0|-1.81|6.76||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA included: treatment, baseline CFQ-R Physical Function Domain score and age (\<18, \>=18 years). Treatment differences calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in the CFQ-R physical functioning domain score at Day 28.||6.76|-1.81|0.256
92164499|NCT00712166|184217459|SUPERIORITY_OR_OTHER||||||>|0.999||0.0||||No adjustments were made for multiple comparisons.|Fisher Exact|A participant with multiple usage was counted only once.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in number of participants using additional (nonprotocol-specified) antipseudomonal antibiotics during study.||||>0.999
92358225|NCT02069847|184621282|SUPERIORITY|||||||0.531|||||||t-test, 2 sided|||Total number of budesonide subjects with 50% or greater esophageal stricture (N=4) vs total number of control subjects with 50% or greater esophageal structure (N=15)||||0.531
92358226|NCT00557440|184621292|SUPERIORITY_OR_OTHER||LS Mean Difference|0.165|STANDARD_ERROR_OF_MEAN|0.0492||0.001|TWO_SIDED|95.0|0.066|0.263||Statistical significance (two-sided) at 5% level. p-values were not corrected for multiplicity.|ANCOVA|Treatment, period, sequence and center as fixed effects, period baseline FEV1 as a covariate, and patient nested within sequence as a random effect.||||0.263|0.066|0.001
92358227|NCT04507763|184621300|OTHER|||||||0.001|||||||Regression, Logistic|||Change from Baseline at Month 12: For Early Referral||||0.001
92358228|NCT04507763|184621301|OTHER|||||||0.001|||||||Regression, Logistic|||Change from Baseline at Month 12: For Early Referral||||0.001
92358229|NCT04330859|184621329|SUPERIORITY||Agresti-Caffo|95.0||||0.0543|TWO_SIDED|||||58.8 ± 7.2 (intervention) and 57.2 ± 11.2 (control; p = 0.0543)|t-test, 1 sided|||||||0.0543
92358230|NCT03895372|184621375|SUPERIORITY||Risk Difference (RD)|8.87||||0.2621|TWO_SIDED|90.0|-4.5|26.26||One-sided Hochberg p-value, significant level is 0.05.|Chan and Zhang method|||The analysis was based on the data at Week 16.||26.26|-4.50|0.2621
92358231|NCT03895372|184621375|SUPERIORITY||Risk Difference (RD)|4.76||||0.2621|TWO_SIDED|90.0|-7.07|21.48||One-sided Hochberg p-value, significant level is 0.05.|Chan and Zhang method|||The analysis was based on the data at Week 16.||21.48|-7.07|0.2621
92358232|NCT03895372|184621375|SUPERIORITY||Risk Difference (RD)|33.02||||0.0004|TWO_SIDED|90.0|18.01|47.11||One-sided Hochberg p-value, significant level is 0.05.|Chan and Zhang method|||The analysis was based on the data at Week 16.||47.11|18.01|0.0004
92358233|NCT03895372|184621375|SUPERIORITY||Risk Difference (RD)|46.46|||<|0.0001|TWO_SIDED|90.0|30.62|60.56||One-sided Hochberg p-value, significant level is 0.05.|Chan and Zhang method|||The analysis was based on the data at Week 16.||60.56|30.62|<0.0001
92358234|NCT03895372|184621383|SUPERIORITY||Risk Difference (RD)|3.9|||||TWO_SIDED|90.0|-11.82|23.42||||||The analysis was based on the data at Week 16.||23.42|-11.82|
92358235|NCT03895372|184621383|SUPERIORITY||Risk Difference (RD)|-4.76|||||TWO_SIDED|90.0|-18.61|13.29||||||The analysis was based on the data at Week 16.||13.29|-18.61|
92358236|NCT03895372|184621383|SUPERIORITY||Risk Difference (RD)|32.38|||||TWO_SIDED|90.0|14.32|47.52||||||The analysis was based on the data at Week 16.||47.52|14.32|
92358237|NCT03895372|184621383|SUPERIORITY||Risk Difference (RD)|58.89|||||TWO_SIDED|90.0|41.01|72.41||||||The analysis was based on the data at Week 16.||72.41|41.01|
92358238|NCT03895372|184621384|SUPERIORITY||Risk Difference (RD)|1.52|||||TWO_SIDED|90.0|-14.52|20.77||||||The analysis was based on the data at Week 16.||20.77|-14.52|
92358239|NCT03895372|184621384|SUPERIORITY||Risk Difference (RD)|-2.38|||||TWO_SIDED|90.0|-17.67|17.01||||||The analysis was based on the data at Week 16.||17.01|-17.67|
92358240|NCT03895372|184621384|SUPERIORITY||Risk Difference (RD)|27.78|||||TWO_SIDED|90.0|8.86|43.26||||||The analysis was based on the data at Week 16.||43.26|8.86|
92222749|NCT01604265|184346742|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.25||||0.005|TWO_SIDED|95.0|-2.11|-0.39|||ANCOVA|||The change was compared between treatment groups using a one way analysis of covariance (ANCOVA). The significance of the treatment effect, after adjusting for baseline pain score, was assessed using the F-test from the ANCOVA. The model was as follows: Change in 0-10 Numerical Rating Scale Pain Score = Baseline Pain Score + Treatment||-0.39|-2.11|0.005
92222750|NCT01604265|184346743|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.39||||0.003|TWO_SIDED|95.0|-2.27|-0.5|||ANCOVA|||"The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline sleep score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in 0-10 Numerical Rating Scale sleep Score = Baseline Sleep Score + Treatment"||-0.50|-2.27|0.003
92222751|NCT01604265|184346744|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.896||||0.005|TWO_SIDED|95.0|1.51|10.055|||Regression, Logistic|||"The proportion of patients who considered their condition Very Much Improved or Much Improved was compared between treatment groups using a Fisher's Exact Test. Results were presented in terms of difference in percentages, and 95% CI based on the normal approximation to the binomial, and p-value."||10.055|1.510|0.005
92222752|NCT01604265|184346745|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-6.82||||0.039|TWO_SIDED|95.0|-13.28|-0.37|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||-0.37|-13.28|0.039
92222753|NCT01604265|184346746|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-6.95||||0.009|TWO_SIDED|95.0|-12.12|-1.77|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||-1.77|-12.12|0.009
92222754|NCT01604265|184346747|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|2.54||||0.23|TWO_SIDED|95.0|-1.64|6.71|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||6.71|-1.64|0.230
92222755|NCT01604265|184346748|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.53||||0.064|TWO_SIDED|95.0|-5.22|0.15|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||0.15|-5.22|0.064
92222756|NCT01604265|184346749|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|2.44||0.905|TWO_SIDED|95.0|-4.6|5.18|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||5.18|-4.60|0.905
92222757|NCT01604265|184346750|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|2.68||||0.257|TWO_SIDED|95.0|-2.01|7.37|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||7.37|-2.01|0.257
92222758|NCT01604265|184346751|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.5||||0.164|TWO_SIDED|95.0|-3.64|0.63|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||0.63|-3.64|0.164
92222759|NCT01604265|184346753|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.09||||0.88|TWO_SIDED|95.0|-1.06|1.23|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||1.23|-1.06|0.880
92358241|NCT03895372|184621384|SUPERIORITY||Risk Difference (RD)|54.07|||||TWO_SIDED|90.0|36.46|68.27||||||The analysis was based on the data at Week 16.||68.27|36.46|
92222760|NCT01604265|184346754|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.64||||0.249|TWO_SIDED|95.0|-1.75|0.46|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||0.46|-1.75|0.249
92358242|NCT03895372|184621385|SUPERIORITY||Risk Difference (RD)|1.52|||||TWO_SIDED|90.0|-14.52|20.77||||||The analysis was based on the data at Week 16.||20.77|-14.52|
92358243|NCT03895372|184621385|SUPERIORITY||Risk Difference (RD)|-2.38|||||TWO_SIDED|90.0|-17.67|17.01||||||The analysis was based on the data at Week 16.||17.01|-17.67|
92222761|NCT01604265|184346755|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.06||||0.535|TWO_SIDED|95.0|-0.13|0.24|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||0.24|-0.13|0.535
92358244|NCT03895372|184621385|SUPERIORITY||Risk Difference (RD)|27.78|||||TWO_SIDED|90.0|8.86|43.26||||||The analysis was based on the data at Week 16.||43.26|8.86|
92222762|NCT01903837|184346757|EQUIVALENCE|Equivalence margin of 10 points|Least Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.17||0.3|TWO_SIDED|95.0|-2.0|2.6|||Least Square Mean Difference|||||2.6|-2.0|0.3
92222763|NCT01903837|184346758|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|||||||0.006
92222764|NCT01903837|184346758|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92358245|NCT03895372|184621385|SUPERIORITY||Risk Difference (RD)|54.07|||||TWO_SIDED|90.0|36.46|68.27||||||The analysis was based on the data at Week 16.||68.27|36.46|
92358246|NCT03895372|184621388|SUPERIORITY||Least Squares Mean Difference|-1.46|||||TWO_SIDED|90.0|-5.42|2.51||||||The analysis was based on the data at Week 16.||2.51|-5.42|
92358247|NCT03895372|184621388|SUPERIORITY||Least Squares Mean Difference|-3.54|||||TWO_SIDED|90.0|-7.5|0.42||||||The analysis was based on the data at Week 16.||0.42|-7.50|
92358248|NCT03895372|184621388|SUPERIORITY||Least Squares Mean Difference|-9.8|||||TWO_SIDED|90.0|-13.05|-6.56||||||The analysis was based on the data at Week 16.||-6.56|-13.05|
92358249|NCT03895372|184621388|SUPERIORITY||Least Squares Mean Difference|-12.33|||||TWO_SIDED|90.0|-15.61|-9.04||||||The analysis was based on the data at Week 16.||-9.04|-15.61|
92358250|NCT03895372|184621389|SUPERIORITY||Least Squares Mean Difference|-8.63|||||TWO_SIDED|90.0|-23.61|6.35||||||The analysis was based on the data at Week 16.||6.35|-23.61|
92358251|NCT03895372|184621389|SUPERIORITY||Least Squares Mean Difference|-13.02|||||TWO_SIDED|90.0|-27.98|1.94||||||The analysis was based on the data at Week 16.||1.94|-27.98|
92358252|NCT03895372|184621389|SUPERIORITY||Least Squares Mean Difference|-40.74|||||TWO_SIDED|90.0|-53.02|-28.46||||||The analysis was based on the data at Week 16.||-28.46|-53.02|
92358253|NCT03895372|184621389|SUPERIORITY||Least Squares Mean Difference|-53.04|||||TWO_SIDED|90.0|-65.44|-40.63||||||The analysis was based on the data at Week 16.||-40.63|-65.44|
92358254|NCT03895372|184621390|SUPERIORITY||Least Squares Mean Difference|-1.22|||||TWO_SIDED|90.0|-2.52|0.09||||||The analysis was based on the data at Week 16.||0.09|-2.52|
92358255|NCT03895372|184621390|SUPERIORITY||Least Squares Mean Difference|-1.21|||||TWO_SIDED|90.0|-2.46|0.05||||||The analysis was based on the data at Week 16.||0.05|-2.46|
92358256|NCT03895372|184621390|SUPERIORITY||Least Squares Mean Difference|-3.47|||||TWO_SIDED|90.0|-4.51|-2.43||||||The analysis was based on the data at Week 16.||-2.43|-4.51|
92358257|NCT03895372|184621390|SUPERIORITY||Least Squares Mean Difference|-3.66|||||TWO_SIDED|90.0|-4.71|-2.61||||||The analysis was based on the data at Week 16.||-2.61|-4.71|
92358258|NCT03895372|184621391|SUPERIORITY||Risk Difference (RD)|12.99|||||TWO_SIDED|90.0|-4.52|32.87||||||The analysis was based on the data at Week 16.||32.87|-4.52|
92358259|NCT03895372|184621391|SUPERIORITY||Risk Difference (RD)|23.81|||||TWO_SIDED|90.0|2.62|44.64||||||The analysis was based on the data at Week 16.||44.64|2.62|
92401518|NCT00385671|184694198|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in time to first ≥ 2 points reduction in weekly mean 24 hour average pain score.||||0.033
92401519|NCT00385671|184694198|SUPERIORITY_OR_OTHER|||||||0.688||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in time to first ≥ 2 points reduction in weekly mean 24 hour average pain score.||||0.688
92401520|NCT00385671|184694200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.365|TWO_SIDED|95.0|-0.33|0.9||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week with participant is as a random effect, Kenward-Roger approximation.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly mean change from baseline to 12 weeks in 24 hour average pain severity score when analyzing only treatment-compliant participants.||0.90|-0.33|0.365
92401521|NCT00385671|184694200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46||||0.172|TWO_SIDED|95.0|-0.2|1.13||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week with participant is as a random effect, Kenward-Roger approximation.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in Weekly mean change from baseline to 12 weeks in 24 hour average pain severity score when analyzing only treatment-compliant participants.||1.13|-0.20|0.172
92222765|NCT01903837|184346759|SUPERIORITY|||||||0.018|||||||Mixed Models Analysis|||||||0.018
92222766|NCT01903837|184346759|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92358260|NCT03895372|184621391|SUPERIORITY||Risk Difference (RD)|41.27|||||TWO_SIDED|90.0|23.47|56.18||||||The analysis was based on the data at Week 16.||56.18|23.47|
92358261|NCT03895372|184621391|SUPERIORITY||Risk Difference (RD)|49.13|||||TWO_SIDED|90.0|30.62|63.69||||||The analysis was based on the data at Week 16.||63.69|30.62|
92227178|NCT01727258|184356485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.08|STANDARD_ERROR_OF_MEAN|1.177|<|0.001|TWO_SIDED|95.0|3.76|8.41||If Potassium Oxalate Mouthrinse is better than Colgate Regular (p\<0.05), testing would proceed to comparison of Wk 2 Mean Tactile Sensitivity Scores between Potassium Oxalate Mouthrinse and Sensodyne. Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.41|3.76|<0.001
92358262|NCT03895372|184621392|SUPERIORITY||Least Squares Mean Difference|-4.21|||||TWO_SIDED|90.0|-7.82|-0.59||||||The analysis was based on the data at Week 16.||-0.59|-7.82|
92358263|NCT03895372|184621392|SUPERIORITY||Least Squares Mean Difference|-6.44|||||TWO_SIDED|90.0|-9.89|-2.99||||||The analysis was based on the data at Week 16.||-2.99|-9.89|
92358264|NCT03895372|184621392|SUPERIORITY||Least Squares Mean Difference|-10.51|||||TWO_SIDED|90.0|-13.4|-7.62||||||The analysis was based on the data at Week 16.||-7.62|-13.40|
92358265|NCT03895372|184621392|SUPERIORITY||Least Squares Mean Difference|-10.81|||||TWO_SIDED|90.0|-13.68|-7.94||||||The analysis was based on the data at Week 16.||-7.94|-13.68|
92358266|NCT03685149|184621400|SUPERIORITY||percent reduction|72.0|||<|0.0001|TWO_SIDED|95.0|56.0|82.0|||Mixed Models Analysis|||||82|56|<0.0001
92358267|NCT03685149|184621401|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
92358268|NCT03685149|184621402|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
92358269|NCT03685149|184621403|SUPERIORITY|||||||0.207|||||||Wilcoxon (Mann-Whitney)|||||||0.207
92358270|NCT02034565|184621420|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.977|||||TWO_SIDED|90.0|0.756|1.261||||||||1.261|0.756|
92358271|NCT02034565|184621421|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|1.05|||||TWO_SIDED|90.0|0.938|1.176||||||||1.176|0.938|
92358272|NCT02034565|184621422|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|1.043|||||TWO_SIDED|90.0|0.933|1.167||||||||1.167|0.933|
92358273|NCT03232567|184621433|SUPERIORITY|||||||0.2451|||||||Fisher Exact|||||||0.2451
92358274|NCT03232567|184621433|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||||||0.0063
92222767|NCT02706873|184346762|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|23.7|||<|0.001|TWO_SIDED|95.0|16.3|31.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||31.1|16.3|<0.001
92222768|NCT02706873|184346762|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|28.0|||<|0.001|TWO_SIDED|95.0|20.6|35.4||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||35.4|20.6|<0.001
92222769|NCT02706873|184346763|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|29.8|||<|0.001|TWO_SIDED|95.0|22.8|36.8||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||36.8|22.8|<0.001
92222770|NCT02706873|184346763|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|31.5|||<|0.001|TWO_SIDED|95.0|24.5|38.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||38.5|24.5|<0.001
92222771|NCT02706873|184346764|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|21.6|||<|0.001|TWO_SIDED|95.0|14.3|28.8||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||28.8|14.3|<0.001
92222772|NCT02706873|184346764|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|22.9|||<|0.001|TWO_SIDED|95.0|15.7|30.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||30.1|15.7|<0.001
92222773|NCT02706873|184346765|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Least Squares (LS) Mean Difference|-0.53||||0.001|TWO_SIDED|95.0|-0.85|-0.2||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|Analysis of covariance (ANCOVA) model with treatment, geographic region as fixed factors and baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||-0.20|-0.85|0.001
92358275|NCT03232567|184621433|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||||||0.0063
92358276|NCT03232567|184621434|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||||||0.4828
92358277|NCT03232567|184621434|SUPERIORITY|||||||0.0996|||||||Fisher Exact|||||||0.0996
92358278|NCT03232567|184621434|SUPERIORITY|||||||0.0421|||||||Fisher Exact|||||||0.0421
92358279|NCT03232567|184621436|SUPERIORITY|||||||0.0169|||||||Fisher Exact|||NasoVAX low dose vs placebo||||0.0169
92358280|NCT03232567|184621436|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||NasoVAX medium dose vs placebo||||0.0063
92358281|NCT03232567|184621436|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||NasoVAX high dose vs placebo||||<0.0001
92222774|NCT02706873|184346765|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|LS Mean Difference|-0.59|||<|0.001|TWO_SIDED|95.0|-0.91|-0.27||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||-0.27|-0.91|<0.001
92222775|NCT02706873|184346766|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|-0.88|||<|0.001|TWO_SIDED|95.0|-1.09|-0.67||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.||||-0.67|-1.09|<0.001
92222776|NCT02706873|184346766|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|-1.01|||<|0.001|TWO_SIDED|95.0|-1.21|-0.8||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.80|-1.21|<0.001
92222777|NCT02706873|184346767|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|-0.34|||<|0.001|TWO_SIDED|95.0|-0.44|-0.25||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.25|-0.44|<0.001
92358282|NCT02655601|184621438|SUPERIORITY||Hazard Ratio (HR)|0.791||||0.135|ONE_SIDED|95.0||95.0||Study was originally designed with 1 IA after approximately 42 deaths. An unplanned, 2nd IA was conducted to support a BTDR. The study was not terminated early as a result of either IAs. No further IA were conducted until the primary analysis.|Log Rank|89 study participants had passed away at the time of this analysis (41 in the RT/TMZ + BMX-001 arm and 48 in the Radiation Therapy/TMZ arm).||A 1-tailed logrank test was conducted at the 0.2 level. This test had 90% power to detect a hazard ratio of 0.63 after 84 deaths were observed among the 160 randomized patients.||95||0.135
92358283|NCT02655601|184621450|SUPERIORITY||Odds Ratio (OR)|0.45||||0.465|ONE_SIDED||||||Fisher Exact|||With 78 and 71 patients in Arms A and B, respectively, there was 80% power with a one-tailed chi-square test (α=0.05) to detect a reduction in grade 3 or 4 thrombocytopenia from 15% in Arm B (without BMX-001) to 3.7% in Arm A (with BMX-001). Given the small number of patients that experienced low platelet counts or thrombocytopenia, a one-tailed Fisher's exact test was performed instead.||||0.465
92358284|NCT02655601|184621451|SUPERIORITY||Hazard Ratio (HR)|0.978||||0.911|ONE_SIDED||||||Log Rank|||A 1-tailed logrank test was conducted at the 0.2 level.||||0.911
92358285|NCT02655601|184621452|SUPERIORITY|||||||0.401|||||||Chi-squared, Corrected|A continuity adjusted Chi-Squared test was performed.||||||0.401
92358286|NCT02014376|184621458|SUPERIORITY||||||=|0.3699|||||||Fisher Exact|||||||=0.3699
92358287|NCT03312543|184621483|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.18|STANDARD_DEVIATION|0.328|<|0.001|TWO_SIDED|95.0|0.09|0.26|||t-test, 2 sided|||||0.26|0.09|<0.001
92358288|NCT03312543|184621483|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.3|STANDARD_DEVIATION|0.341|<|0.001|TWO_SIDED|95.0|0.21|0.39|||t-test, 2 sided|||||0.39|0.21|<0.001
92358289|NCT03312543|184621483|OTHER|The null hypothesis was that the change from baseline to Week 12 was equal for the active cell and the sham cell. The alternative hypothesis was that the mean change from Baseline was not equal between the two cells.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.06||0.025|TWO_SIDED|95.0|0.02|0.25|||ANCOVA|With treatment and skin type group as factors and the corresponding averaged baseline score as a covariate.||||0.25|0.02|0.025
92222778|NCT02706873|184346767|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|-0.37|||<|0.001|TWO_SIDED|95.0|-0.47|-0.28||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.28|-0.47|<0.001
92358290|NCT03312543|184621484|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.2|STANDARD_DEVIATION|0.349|<|0.001|TWO_SIDED|95.0|0.11|0.29|||t-test, 2 sided|||||0.29|0.11|<0.001
92358291|NCT03312543|184621484|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.22|STANDARD_DEVIATION|0.328|<|0.001|TWO_SIDED|95.0|0.13|0.31|||t-test, 2 sided|||||0.31|0.13|<0.001
92358292|NCT03312543|184621484|EQUIVALENCE|The null hypothesis was that the change from baseline to Week 12 was equal for the active cell and the sham cell. The alternative hypothesis was that the mean change from Baseline was not equal between the two cells.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.062||0.54|TWO_SIDED|95.0|-0.09|0.16|||ANCOVA|With treatment and skin type group as factors and the corresponding averaged baseline score as a covariate.||||0.16|-0.09|0.540
92401522|NCT00385671|184694200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.594|TWO_SIDED|95.0|-0.49|0.85||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week with participant is as a random effect, Kenward-Roger approximation.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly mean change from baseline to 12 weeks in 24 hour average pain severity score when analyzing only treatment-compliant participants.||0.85|-0.49|0.594
92222779|NCT02706873|184346768|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|Response Rate Difference|25.0|||<|0.001|TWO_SIDED|95.0|17.6|32.4||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||32.4|17.6|<0.001
92222780|NCT02706873|184346768|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|Response Rate Difference|26.4|||<|0.001|TWO_SIDED|95.0|19.0|33.9||The nominal p-value is reported|Chi-squared, Corrected|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|||Response Rate Difference = Upadacitinib - Methotrexate|33.9|19.0|<0.001
92222781|NCT02706873|184346769|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|4.25|||<|0.001|TWO_SIDED|95.0|3.0|5.5||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||5.50|3.00|<0.001
92222782|NCT02706873|184346769|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|4.34|||<|0.001|TWO_SIDED|95.0|3.09|5.59||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||5.59|3.09|<0.001
92358293|NCT03312543|184621485|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|-0.03|STANDARD_DEVIATION|0.532||0.627|TWO_SIDED|95.0|-0.17|0.1|||t-test, 2 sided|||||0.10|-0.17|0.627
92358294|NCT03312543|184621485|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.21|STANDARD_DEVIATION|0.5||0.002|TWO_SIDED|95.0|0.08|0.34|||t-test, 2 sided|||||0.34|0.08|0.002
92358295|NCT03312543|184621485|EQUIVALENCE|The null hypothesis was that the change from baseline to Week 12 was equal for the active cell and the sham cell. The alternative hypothesis was that the mean change from Baseline was not equal between the two cells.|Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.092||0.009|TWO_SIDED|95.0|0.06|0.42|||ANCOVA|With treatment and skin type group as factors and the corresponding averaged baseline score as a covariate.||||0.42|0.06|0.009
92358296|NCT03312543|184621486|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.36|STANDARD_DEVIATION|0.465|<|0.001|TWO_SIDED|95.0|0.23|0.48|||t-test, 2 sided|||||0.48|0.23|<0.001
92358297|NCT03312543|184621486|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.47|STANDARD_DEVIATION|0.578|<|0.001|TWO_SIDED|95.0|0.32|0.63|||t-test, 2 sided|||||0.63|0.32|<0.001
92358298|NCT03312543|184621486|EQUIVALENCE|The null hypothesis was that the change from baseline to Week 12 was equal for the active cell and the sham cell. The alternative hypothesis was that the mean change from Baseline was not equal between the two cells.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.094||0.224|TWO_SIDED|95.0|-0.07|0.3|||ANCOVA|With treatment and skin type group as factors and the corresponding averaged baseline score as a covariate.||||0.30|-0.07|0.224
92358299|NCT05852340|184621533|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|102.36|||||TWO_SIDED|90.0|95.81|109.35||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Strawberry Jam (Fasted)||109.35|95.81|
92358300|NCT05852340|184621533|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|97.15|||||TWO_SIDED|90.0|90.94|103.79||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Yoghurt (Fasted)||103.79|90.94|
92358301|NCT05852340|184621533|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|99.65|||||TWO_SIDED|90.0|93.28|106.46||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Applesauce (Fasted)||106.46|93.28|
92358302|NCT05852340|184621533|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|104.84|||||TWO_SIDED|90.0|97.3|112.96||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Given with High Fat Meal||112.96|97.30|
92358303|NCT05852340|184621534|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|96.63|||||TWO_SIDED|90.0|83.66|111.62||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Strawberry Jam (Fasted)||111.62|83.66|
92401523|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.622|TWO_SIDED|95.0|-0.48|0.8||P-value is for de novo, week 1. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 1.||0.80|-0.48|0.622
92358304|NCT05852340|184621534|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|84.58|||||TWO_SIDED|90.0|73.23|97.7||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Yoghurt (Fasted)||97.70|73.23|
92358305|NCT05852340|184621534|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|93.91|||||TWO_SIDED|90.0|81.3|108.48||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Applesauce (Fasted)||108.48|81.30|
92358306|NCT05852340|184621534|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|43.83|||||TWO_SIDED|90.0|37.5|51.23||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Given with High Fat Meal||51.23|37.50|
92358307|NCT00071032|184621541|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.84|1.22|||||Liberal Arm (numerator) compared to Restrictive Arm (denominator)|||1.22|0.84|
92358308|NCT00071032|184621542|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.9|||||TWO_SIDED|99.0|-3.3|1.6|||||Liberal Arm (numerator) compared to Restrictive Arm (denominator)|||1.6|-3.3|
92358309|NCT04197583|184621557|OTHER||Proportion by group|0.984|||||TWO_SIDED|95.0|0.948|0.995|||||For Tria subjects with stone management indication only|||0.995|0.948|
92358310|NCT00375713|184621561|NON_INFERIORITY_OR_EQUIVALENCE|The pre-set threshold for non inferiority is -10%.|Difference in proportion of responders|0.00069213||||||95.0|-0.0875|0.0888||||||The lower bound of the 95% two sided confidence interval for the difference (Levocetirizine - Cetirizine) in percentage of responders is compared to the pre-set threshold for non inferiority (-10% which is equal to -0.1 for the proportion of responders). Standard method for estimation of the difference in proportions incl. confidence interval using normal approximation is used.||0.0888|-0.0875|
92358311|NCT00375713|184621562|SUPERIORITY_OR_OTHER|||||||0.4369||95.0|||||ANCOVA|Pruritus score is adjusted on pruritus Baseline score.||The mean daily pruritus score at Day 14 visit or at study completion was analyzed using an analysis of covariance (ANCOVA) model, including pruritus severity score of the day before the randomization as a covariate and treatment group as a factor||||0.4369
92358312|NCT00375713|184621563|SUPERIORITY_OR_OTHER|||||||0.3549||95.0|||||ANCOVA|pruritus severity score at baseline has been used as a covariate.||The categorized duration of Pruritus at endpoint during the 14 day treatment period was analyzed using an analysis of covariance (ANCOVA) model, including pruritus severity score of the day before the randomization as a covariate and treatment group as a factor.||||0.3549
92164500|NCT00712166|184217460|SUPERIORITY_OR_OTHER|||||||0.122||||||No adjustments were made for multiple comparisons.|Fisher Exact|A participant with multiple hospitalizations was counted only once.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in proportion of participants hospitalized.||||0.122
92358313|NCT00375713|184621564|SUPERIORITY_OR_OTHER|||||||0.7518||95.0|||||Cochran-Mantel-Haenszel|stratified on the prurity severity score at the previous day of randomization.||||||0.7518
92358314|NCT00323622|184621613|SUPERIORITY_OR_OTHER||1 - (HR1/HR2)|16.8||||0.08|TWO_SIDED|95.0|-2.5|32.4||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 21-33 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - GSK RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||32.40|-2.50|0.08
92369488|NCT00281099|184643810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|0.0|0.145||The a priori threshold for significance was defined as the one-sided upper 95% confidence bound for the MVP - VVI 40 difference in average AT/AF through 6 months being less than 0.|Bootstrap Confidence Interval|||This analysis tested the hypothesis that the average AT/AF burden (hours per day of AT/AF) through 6 months post-implant in patients with no Class I pacing indication and MVP is equal to or greater than that of similar patients with VVI 40. Only subjects with complete AT/AF data for this time interval were included in the analysis.||0.145|0|
92164501|NCT00712166|184217463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.016|TWO_SIDED|95.0|-2.2|-0.23||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, baseline log10 CFU, and age group (\<18, \>=18 years). Treatment differences were calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in the log10 CFU at Day 28.||-0.23|-2.20|0.016
92164502|NCT00712166|184217464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.73||||0.021|TWO_SIDED|95.0|0.42|5.04||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model includes treatment, baseline FEV1 % predicted, and age group (\<18, \>=18 years). Treatment differences were calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in % change from baseline in FEV1 % predicted at Day 28.||5.04|0.42|0.021
92164503|NCT01264718|184217502|OTHER|The Intervention Cost-Effectiveness Ratio (ICER) is the difference in total costs between the intervention group and controls was divided by the intergroup difference in the proportion of insured children.|ICER|6.0|||||TWO_SIDED||||||||The estimated value is the savings per child per year insured.|||||
92164504|NCT01264718|184217502|OTHER|The Intervention Cost-Effectiveness Ratio (ICER) is the difference in total costs between the intervention group and controls was divided by the intergroup difference in the proportion of insured children.|ICER|4.0|||||TWO_SIDED||||||||The estimated value is the savings for each percent increase in children obtaining insurance per year.|||||
92164505|NCT00536380|184217515|SUPERIORITY_OR_OTHER_LEGACY|||||||0.721||95.0|||||ANCOVA|||||||0.721
92276609|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0275|TWO_SIDED|95.0|-0.26|-0.01|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.01|-0.26|0.0275
92358315|NCT00323622|184621613|SUPERIORITY_OR_OTHER||1 - (HR1/HR2)|11.8||||0.43|TWO_SIDED|95.0|-20.11|35.18||The p-value presented is the Wald Chi-square p-value from the Cox regression model|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 33-45 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||35.18|-20.11|0.43
92358316|NCT00323622|184621614|SUPERIORITY_OR_OTHER||1 - (R1/R2)|14.9||||0.11|TWO_SIDED|95.0|-3.88|30.28||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 21-33 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||30.28|-3.88|0.11
92358317|NCT00323622|184621614|SUPERIORITY_OR_OTHER||1 - (R1/R2)|12.79||||0.35|TWO_SIDED|95.0|-16.27|34.59||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 33-45 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||34.59|-16.27|0.35
92358318|NCT00323622|184621615|SUPERIORITY_OR_OTHER||1 - (R1/R2)|19.42||||0.01|TWO_SIDED|95.0|4.62|31.93||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 21-33 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||31.93|4.62|0.01
92358319|NCT00323622|184621615|SUPERIORITY_OR_OTHER||1 - (R1/R2)|7.08||||0.54|TWO_SIDED|95.0|-17.37|26.44||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 33-45 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||26.44|-17.37|0.54
92358320|NCT00323622|184621616|SUPERIORITY_OR_OTHER||1 - (R1/R2)|16.79||||0.1|TWO_SIDED|95.0|-3.75|33.25||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 21-33 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||33.25|-3.75|0.10
92358321|NCT00323622|184621616|SUPERIORITY_OR_OTHER||1 - (R1/R2)|6.31||||0.7|TWO_SIDED|95.0|-31.0|32.99||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 33-45 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||32.99|-31.00|0.70
92164506|NCT00387465|184217516|OTHER|The maximum tolerated dose (MTD) was derived from the number of participants experiencing dose-limiting toxicities in the Phase I arms. The MTD was the dose at which ≤30% of patients experienced DLTs during cycle 1 up to a pre-specified maximal dose of 40 mg/m2 of azacitidine.|Maximum Tolerated Dose|40.0|||||TWO_SIDED||||||||MTD of Azacitidine measured in mg/m\^2|||||
92164507|NCT04493242|184217580|OTHER|log-rank test||||||0.1343|||||||Chi-squared|||||||0.1343
92164508|NCT03215927|184217598|SUPERIORITY||Median Difference (Net)|-2.55|STANDARD_ERROR_OF_MEAN|3.34|<|0.05|TWO_SIDED|95.0|-9.36|4.26|||Mixed Models Analysis|Adjustments are for baseline FVC, age, and gender, with a repeated measures effect of participant.|The comparison difference value is µABT - µPlacebo.|The null hypothesis for the change outcomes is µABT - µPlacebo = 0.||4.26|-9.36|<0.05
92164509|NCT03215927|184217599|SUPERIORITY||Hazard Ratio (HR)|0.66|STANDARD_ERROR_OF_MEAN|0.73|<|0.05|TWO_SIDED|95.0|0.16|2.77|||Regression, Cox||ABT is the numerator and Placebo is the denominator for the hazard ratios. The dispersion value given is the SE of the estimate on the natural log scale.|The null hypothesis for the time to event outcomes is exp(bABT) / exp(bPlacebo) = 1.||2.77|0.16|<0.05
92164510|NCT03215927|184217600|SUPERIORITY||Mean Difference (Net)|7.51|STANDARD_ERROR_OF_MEAN|8.12|<|0.05|TWO_SIDED|95.0|-8.8|23.83|||Mixed Models Analysis|Adjustments are for baseline FVC, age, and gender, with a repeated measures effect of participant.|The comparison difference value is µABT - µPlacebo.|The null hypothesis for the change outcomes is µABT - µPlacebo = 0.||23.83|-8.80|<0.05
92358322|NCT04603560|184621620|SUPERIORITY||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.54|1.66|||||The odds ratio represents Social Norming vs Control.|Generalized estimating equation adjusting for clustering of patients within providers as well as provider panel size||1.66|0.54|
92164511|NCT03215927|184217601|SUPERIORITY||Hazard Ratio (HR)|0.42|STANDARD_ERROR_OF_MEAN|1.16|<|0.05|TWO_SIDED|95.0|0.04|4.02|||Regression, Cox||ABT is the numerator and Placebo is the denominator for the hazard ratios. The dispersion value given is the SE of the estimate on the natural log scale.|The null hypothesis for the time to event outcomes is exp(bABT) / exp(bPlacebo) = 1.||4.02|0.04|<0.05
92164512|NCT03779048|184217604|OTHER|Regression using baseline scores to predict 4-week weight loss during the behavioral treatment run-in. Primary prediction analysis presented below was pre-specified to evaluate together postprandial satiety, postprandial increases in GLP-1 and gastric emptying (acetaminophen tests) and includes only the 125 participants from whom baseline blood samples could be obtained.|Standardized Beta coefficient|0.11||||0.24|TWO_SIDED||||||Regression, Linear|Controls for postprandial increases in GLP-1 and gastric emptying (acetaminophen tests)||||||.24
92222783|NCT02706873|184346770|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|-0.92|||<|0.001|TWO_SIDED|95.0|-1.12|-0.71||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.71|-1.12|<0.001
92358323|NCT04603560|184621620|SUPERIORITY||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.72|2.29|||||The odds ratio represents Pharmacist E-Detailing vs Control.|Generalized estimating equation adjusting for clustering of patients within providers as well as provider panel size||2.29|0.72|
92358324|NCT04603560|184621620|SUPERIORITY||Odds Ratio (OR)|1.38|||||TWO_SIDED|95.0|0.74|2.56|||||The odds ratio represents Pharmacist e-detailing vs Social Norming.|Generalized estimating equation adjusting for clustering of patients within providers as well as provider panel size.||2.56|0.74|
92358325|NCT00934180|184621621|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|103.0||||||90.0|95.1|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|95.1|
92358326|NCT00934180|184621622|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|101.0||||||90.0|95.3|107.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107|95.3|
92222784|NCT02706873|184346770|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|-1.19|||<|0.001|TWO_SIDED|95.0|-1.4|-0.99||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.99|-1.40|<0.001
92222785|NCT02706873|184346771|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|-0.27|||<|0.001|TWO_SIDED|95.0|-0.37|-0.17||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.17|-0.37|<0.001
92276610|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.1583|TWO_SIDED|95.0|-0.22|0.04|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||0.04|-0.22|0.1583
92358327|NCT00934180|184621623|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|101.0||||||90.0|95.2|108.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108|95.2|
92164513|NCT03779048|184217605|OTHER|Regression using baseline scores to predict 4-week weight loss during the behavioral treatment run-in. Primary prediction analysis presented below was pre-specified to evaluate together postprandial satiety, postprandial increases in GLP-1 and gastric emptying (acetaminophen tests) and includes only the 125 participants from whom baseline blood samples could be obtained.|Standardized Beta coefficient|-0.09||||0.34|TWO_SIDED||||||Regression, Linear|Controls for baseline postprandial satiety and gastric emptying (acetaminophen test)||||||.34
92358328|NCT02613507|184621624|SUPERIORITY|||||||0.0006|TWO_SIDED|||||The boundary for statistical significance requires the p-value to be less than 0.0231|Stratified weighted Log-Rank|Stratified weighted using G \[rho=0, gamma=1\] Fleming and Harrington.||||||0.0006
92358329|NCT02613507|184621624|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|97.7|0.52|0.9|||Stratified Cox Proportional Hazard Model|||||0.90|0.52|
92358330|NCT02613507|184621624|SUPERIORITY|||||||0.0017|||||||Log Rank|regular stratified log-rank test p-value||||||0.0017
92358331|NCT02471144|184621642|SUPERIORITY||Odds Ratio (OR)|25.78|||<|0.0001|TWO_SIDED|95.0|7.08|114.66|||Regression, Logistic|||vs Placebo||114.66|7.08|<.0001
92358332|NCT02471144|184621642|SUPERIORITY||Odds Ratio (OR)|22.65|||<|0.0001|TWO_SIDED|95.0|6.31|98.93|||Regression, Logistic|||vs Placebo||98.93|6.31|<.0001
92358333|NCT02471144|184621643|SUPERIORITY||Odds Ratio (OR)|51.77|||<|0.0001|TWO_SIDED|95.0|10.02|538.64|||Regression, Logistic|||vs Placebo||538.64|10.02|<.0001
92358334|NCT02471144|184621643|SUPERIORITY||Odds Ratio (OR)|32.52|||<|0.0001||95.0|6.48|329.52|||Regression, Logistic|||vs Placebo||329.52|6.48|<.0001
92358335|NCT02471144|184621644|SUPERIORITY||Odds Ratio (OR)|72.5|||<|0.0001|TWO_SIDED|95.0|55.9|84.9|||Regression, Logistic|||vs Placebo||84.9|55.9|<.0001
92358336|NCT02471144|184621644|SUPERIORITY||Odds Ratio (OR)|67.5|||<|0.0001|TWO_SIDED|95.0|50.8|80.9|||Regression, Logistic|||vs Placebo||80.9|50.8|<.0001
92358337|NCT03977155|184621660|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.35||0.3776|TWO_SIDED|95.0|-1.0|0.38|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||0.38|-1.00|0.3776
92164514|NCT03779048|184217606|OTHER|Regression using baseline scores to predict 4-week weight loss during the behavioral treatment run-in. Primary prediction analysis presented below was pre-specified to evaluate together postprandial satiety, postprandial increases in GLP-1 and gastric emptying (acetaminophen tests) and includes only the 125 participants from whom baseline blood samples could be obtained.|Standardized Beta coefficient|0.03||||0.78|TWO_SIDED||||||Regression, Linear|Controls for baseline postprandial satiety and postprandial change in GLP-1||||||.78
92276611|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0021|TWO_SIDED|95.0|-0.41|-0.09|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.09|-0.41|0.0021
92276612|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.0018|TWO_SIDED|95.0|-0.4|-0.09|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.09|-0.4|0.0018
92276613|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.0011|TWO_SIDED|95.0|-0.43|-0.11|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.11|-0.43|0.0011
92276614|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0235|TWO_SIDED|95.0|-0.36|-0.03|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.03|-0.36|0.0235
92358338|NCT03977155|184621660|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-0.73|0.82||||||Statistical Analysis 2||0.82|-0.73|
92164515|NCT03779048|184217607|SUPERIORITY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|1.0||0.003|TWO_SIDED|95.0|1.1|5.1|||Mixed Models Analysis|||||5.1|1.1|.003
92358339|NCT03977155|184621660|SUPERIORITY||Mean Difference (Net)|-0.61|STANDARD_ERROR_OF_MEAN|0.403|||TWO_SIDED|95.0|-1.41|0.19||||||Statistical Analysis 3||0.19|-1.41|
92358340|NCT03977155|184621660|SUPERIORITY||Mean Difference (Net)|0.65|STANDARD_ERROR_OF_MEAN|0.397|||TWO_SIDED|95.0|-0.13|1.44||||||Statistical Analysis 4||1.44|-0.13|
92358341|NCT03977155|184621662|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.211||0.884|TWO_SIDED|95.0|-0.45|0.39|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||0.39|-0.45|0.8840
92358342|NCT03977155|184621662|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.249|||TWO_SIDED|95.0|-0.6|0.39||||||Statistical Analysis 2||0.39|-0.60|
92358343|NCT03977155|184621662|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.231|||TWO_SIDED|95.0|-0.43|0.49||||||Statistical Analysis 3||0.49|-0.43|
92358344|NCT03977155|184621662|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.247|||TWO_SIDED|95.0|-0.63|0.36||||||Statistical Analysis 4||0.36|-0.63|
92401524|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49||||0.153|TWO_SIDED|95.0|-0.18|1.16||P-value is for de novo, week 1. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 1.||1.16|-0.18|0.153
92164516|NCT03779048|184217608|OTHER|Correlation between baseline postprandial hunger AUC and 4-week percent weight loss.|r|-0.1||||0.23|TWO_SIDED||||||Regression, Linear|||||||.23
92164517|NCT03779048|184217609|OTHER|Correlation between baseline high energy density food reinforcer points earned and 4-week percent weight loss.|r|-0.1||||0.23|TWO_SIDED||||||Regression, Linear|||||||.23
92164518|NCT03779048|184217610|OTHER|Regression results using baseline AUC for delay discounting to predict 4-week percent weight loss, controlling for participant age.|r2 change|0.033||||0.033|TWO_SIDED||||||Regression, Linear|||||||.033
92164519|NCT03779048|184217611|OTHER|Correlation between baseline implicit wanting and 4-week percent weight loss. Because categories are scored relative to each other they cannot be included together in the same analysis, so separate correlations were conducted.|r|0.17||||0.04|TWO_SIDED|||||Correlation to Implicit wanting of High Fat Savory.|Regression, Linear|||||||.04
92164520|NCT03779048|184217611|OTHER|Correlation to Implicit wanting of Low Fat Savory.|r|-0.03||||0.72|TWO_SIDED||||||Regression, Linear|||Correlation between baseline implicit wanting and 4-week percent weight loss. Because categories are scored relative to each other they cannot be included taughter in the same analysis, so separate correlations were conducted.||||.72
92164521|NCT03779048|184217611|OTHER|Correlation to Implicit wanting of High Fat Sweet.|r|0.01||||0.94|TWO_SIDED||||||Regression, Linear|||Correlation between baseline implicit wanting and 4-week percent weight loss. Because categories are scored relative to each other they cannot be included together in the same analysis, so separate correlations were conducted.||||.94
92164522|NCT03779048|184217611|OTHER|Correlation to Implicit wanting of Low Fat Sweet.|r|-0.15||||0.09|TWO_SIDED||||||Regression, Linear|||Correlation between baseline implicit wanting and 4-week percent weight loss. Because categories are scored relative to each other they cannot be included together in the same analysis, so separate correlations were conducted.||||.09
92164523|NCT03779048|184217612|OTHER|Correlation between baseline fasting active ghrelin and 4-week percent weight loss.|r|0.03||||0.73|TWO_SIDED||||||Regression, Linear|||||||.73
92164524|NCT03779048|184217613|OTHER||r|-0.1||||0.25|TWO_SIDED||||||Regression, Linear|||Correlation between baseline fasting leptin and 4-week percent weight loss.||||.25
92222786|NCT02706873|184346771|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.41|-0.21||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.21|-0.41|<0.001
92222787|NCT02706873|184346772|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|26.8|||<|0.001|TWO_SIDED|95.0|19.3|34.3||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||34.3|19.3|<0.001
92222788|NCT02706873|184346772|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|32.2|||<|0.001|TWO_SIDED|95.0|24.8|39.6||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||39.6|24.8|<0.001
92358345|NCT03977155|184621663|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.228||0.4725|TWO_SIDED|95.0|-0.62|0.29|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||0.29|-0.62|0.4725
92222789|NCT02706873|184346773|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|27.8|||<|0.001|TWO_SIDED|95.0|20.3|35.2||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||35.2|20.3|<0.001
92222790|NCT02706873|184346773|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|32.8|||<|0.001|TWO_SIDED|95.0|25.4|40.2||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||40.2|25.4|<0.001
92222791|NCT02706873|184346774|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|3.72|||<|0.001|TWO_SIDED|95.0|2.42|5.03||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||5.03|2.42|<0.001
92222792|NCT02706873|184346774|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|4.42|||<|0.001|TWO_SIDED|95.0|3.12|5.72||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||5.72|3.12|<0.001
92222793|NCT02706873|184346775|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|9.8||||0.002|TWO_SIDED|95.0|3.5|16.2||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||16.2|3.5|0.002
92222794|NCT02706873|184346775|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|11.6|||<|0.001|TWO_SIDED|95.0|5.4|17.8||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||17.8|5.4|<0.001
92222795|NCT02706873|184346776|SUPERIORITY||Response Rate Difference|18.5|||<|0.001|TWO_SIDED|95.0|12.1|24.9||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||24.9|12.1|<0.001
92222796|NCT02706873|184346776|OTHER||Response Rate Difference|22.9|||<|0.001|TWO_SIDED|95.0|16.4|29.5||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||29.5|16.4|<0.001
92222797|NCT02706873|184346777|SUPERIORITY||Response Rate Difference|20.3|||<|0.001|TWO_SIDED|95.0|13.2|27.3||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||27.3|13.2|<0.001
92222798|NCT02706873|184346777|SUPERIORITY||Response Rate Difference|19.4|||<|0.001|TWO_SIDED|95.0|12.3|26.5||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||26.5|12.3|<0.001
92358346|NCT03977155|184621663|SUPERIORITY||Median Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.256|||TWO_SIDED|95.0|-0.71|0.31||||||Statistical Analysis 2||0.31|-0.71|
92358347|NCT03977155|184621663|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.248|||TWO_SIDED|95.0|-0.62|0.37||||||Statistical Analysis 3||0.37|-0.62|
92358348|NCT03977155|184621663|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.262|||TWO_SIDED|95.0|-0.6|0.45||||||Statistical Analysis 4||0.45|-0.60|
92358349|NCT03977155|184621664|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.2||0.5693|TWO_SIDED|95.0|-0.28|0.51|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||0.51|-0.28|0.5693
92358350|NCT03977155|184621664|SUPERIORITY||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.248|||TWO_SIDED|95.0|-0.35|0.63||||||Statistical Analysis 2||0.63|-0.35|
92358351|NCT03977155|184621664|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-0.33|0.51||||||Statistical Analysis 3||0.51|-0.33|
92358352|NCT03977155|184621664|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.231|||TWO_SIDED|95.0|-0.41|0.51||||||Statistical Analysis 4||0.51|-0.41|
92358353|NCT03977155|184621665|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|-7.71|STANDARD_ERROR_OF_MEAN|25.208||0.7603|TWO_SIDED|95.0|-57.76|42.33|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||42.33|-57.76|0.7603
92358354|NCT03977155|184621665|SUPERIORITY||Mean Difference (Net)|24.0|STANDARD_ERROR_OF_MEAN|29.087|||TWO_SIDED|95.0|-34.22|82.22||||||Statistical Analysis 2||82.22|-34.22|
92358355|NCT03977155|184621665|SUPERIORITY||Mean Difference (Net)|-33.42|STANDARD_ERROR_OF_MEAN|27.285|||TWO_SIDED|95.0|-87.91|21.07||||||Statistical Analysis 3||21.07|-87.91|
92358356|NCT03977155|184621665|SUPERIORITY||Mean Difference (Net)|57.42|STANDARD_ERROR_OF_MEAN|28.174|||TWO_SIDED|95.0|1.16|113.69||||||Statistical Analysis 4||113.69|1.16|
92358357|NCT03977155|184621666|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.137||0.2149|TWO_SIDED|95.0|-0.44|0.1|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||0.10|-0.44|0.2149
92401525|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.344|TWO_SIDED|95.0|-0.35|1.0||P-value is for de novo, week 1. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 1.||1.00|-0.35|0.344
92358358|NCT03977155|184621666|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|95.0|-0.27|0.29||||||Statistical Analysis 2||0.29|-0.27|
92358359|NCT03977155|184621666|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|95.0|-0.64|-0.01||||||Statistical Analysis 3||-0.01|-0.64|
92358360|NCT03977155|184621666|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|0.02|0.65||||||Statistical Analysis 4||0.65|0.02|
92358361|NCT03440385|184621705|SUPERIORITY||Odds Ratio (OR)|0.96||||0.8125|TWO_SIDED|95.0|0.66|1.39|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.39|0.66|0.8125
92358362|NCT03440385|184621706|SUPERIORITY||Odds Ratio (OR)|1.13||||0.54|TWO_SIDED|95.0|0.77|1.66|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.66|0.77|0.5400
92358363|NCT03440385|184621707|SUPERIORITY||Odds Ratio (OR)|1.28||||0.2411|TWO_SIDED|95.0|0.85|1.95|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.95|0.85|0.2411
92358364|NCT03440385|184621708|SUPERIORITY||Odds Ratio (OR)|0.94||||0.7469|TWO_SIDED|95.0|0.67|1.34|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.34|0.67|0.7469
92358365|NCT03440385|184621709|SUPERIORITY||Odds Ratio (OR)|1.22||||0.4255|TWO_SIDED|95.0|0.75|1.97|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.97|0.75|0.4255
92358366|NCT03440385|184621710|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9313|TWO_SIDED|95.0|0.6|1.76|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.76|0.60|0.9313
92358367|NCT03440385|184621711|SUPERIORITY||Odds Ratio (OR)|1.27||||0.4339|TWO_SIDED|95.0|0.7|2.31|||Cochran-Mantel-Haenszel|Odds ratio and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||2.31|0.70|0.4339
92358368|NCT03440385|184621712|SUPERIORITY||Odds Ratio (OR)|1.3||||0.333|TWO_SIDED|95.0|0.77|2.2|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||2.20|0.77|0.3330
92358369|NCT03440385|184621713|SUPERIORITY||Odds Ratio (OR)|1.04||||0.82|TWO_SIDED|95.0|0.74|1.47|||Cochran-Mantel-Haenszel|Odds ratio and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.47|0.74|0.8200
92358370|NCT03440385|184621714|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7776|TWO_SIDED|95.0|0.71|1.59|||Cochran-Mantel-Haenszel|Odds ratio and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.59|0.71|0.7776
92358371|NCT03440385|184621715|SUPERIORITY||Odds Ratio (OR)|1.39||||0.1187|TWO_SIDED|95.0|0.92|2.11|||Cochran-Mantel-Haenszel|Odds ratio and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no)||||2.11|0.92|0.1187
92222799|NCT02706873|184346778|SUPERIORITY||Response Rate Difference|26.0|||<|0.001|TWO_SIDED|95.0|19.1|33.0||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||33.0|19.1|<0.001
92222800|NCT02706873|184346778|SUPERIORITY||Response Rate Difference|31.2|||<|0.001|TWO_SIDED|95.0|24.2|38.2||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||38.2|24.2|<0.001
92358372|NCT03440385|184621716|SUPERIORITY||Odds Ratio (OR)|1.28||||0.403|TWO_SIDED|95.0|0.72|2.26|||Cochran-Mantel-Haenszel|Odds ratio and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no)||||2.26|0.72|0.4030
92222801|NCT02706873|184346779|SUPERIORITY|For the Japan sub-study, no multiplicity adjustments were applied and only nominal p-values were provided for all efficacy analyses.|Response Rate Difference|28.3||||0.004|TWO_SIDED|95.0|7.7|48.9|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||48.9|7.7|0.004
92358373|NCT03440385|184621717|SUPERIORITY||Odds Ratio (OR)|0.79||||0.563|TWO_SIDED|95.0|0.35|1.78|||Mantel Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.78|0.35|0.5630
92358374|NCT00488293|184621718|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||t-test, 2 sided|||||||0.66
92358375|NCT00488293|184621719|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Chi-squared|||||||0.88
92222802|NCT02706873|184346779|SUPERIORITY||Response Rate Difference|28.0||||0.022|TWO_SIDED|95.0|5.3|50.7|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||50.7|5.3|0.022
92222803|NCT02706873|184346779|SUPERIORITY||Response Rate Difference|21.4||||0.086|TWO_SIDED|95.0|-2.4|45.2|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||45.2|-2.4|0.086
92222804|NCT02706873|184346780|SUPERIORITY||Response Rate Difference|38.6|||<|0.001|TWO_SIDED|95.0|18.6|58.5|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||58.5|18.6|<0.001
92222805|NCT02706873|184346780|SUPERIORITY||Response Rate Difference|45.2|||<|0.001|TWO_SIDED|95.0|21.8|68.6|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||68.6|21.8|<0.001
92222806|NCT02706873|184346780|SUPERIORITY||Response Rate Difference|50.0|||<|0.001|TWO_SIDED|95.0|27.4|72.6|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||72.6|27.4|<0.001
92276615|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.0021|TWO_SIDED|95.0|-0.44|-0.1|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.10|-0.44|0.0021
92276616|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.0111|TWO_SIDED|95.0|-0.42|-0.05|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.05|-0.42|0.0111
92222807|NCT02706873|184346781|SUPERIORITY||Response Rate Difference|34.5|||<|0.001|TWO_SIDED|95.0|22.0|47.1|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||47.1|22.0|<0.001
92222808|NCT02706873|184346781|SUPERIORITY||Response Rate Difference|51.9|||<|0.001|TWO_SIDED|95.0|33.0|70.7|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||70.7|33.0|<0.001
92222809|NCT02706873|184346781|SUPERIORITY||Response Rate Difference|64.3|||<|0.001|TWO_SIDED|95.0|46.5|82.0|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||82.0|46.5|<0.001
92222810|NCT02706873|184346782|SUPERIORITY||LS Mean Difference|-1.43|||<|0.001|TWO_SIDED|95.0|-1.92|-0.95|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.95|-1.92|<0.001
92222811|NCT02706873|184346782|SUPERIORITY||LS Mean Difference|-1.86|||<|0.001|TWO_SIDED|95.0|-2.42|-1.3|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-1.30|-2.42|<0.001
92222812|NCT02706873|184346782|SUPERIORITY||LS Mean Difference|-1.92|||<|0.001|TWO_SIDED|95.0|-2.48|-1.36|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-1.36|-2.48|<0.001
92222813|NCT02706873|184346783|SUPERIORITY||LS Mean Difference|-0.54|||<|0.001|TWO_SIDED|95.0|-0.75|-0.34|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.34|-0.75|<0.001
92358376|NCT00488293|184621720|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||t-test, 2 sided|||||||0.39
92358377|NCT00488293|184621721|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||t-test, 2 sided|||||||0.22
92358378|NCT00488293|184621722|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||t-test, 2 sided|||||||0.81
92358379|NCT00488293|184621723|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||t-test, 2 sided|||||||0.61
92358380|NCT00488293|184621724|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||t-test, 2 sided|||||||0.36
92358381|NCT00488293|184621725|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||t-test, 2 sided|||||||0.73
92358382|NCT00488293|184621726|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||t-test, 2 sided|||||||0.22
92358383|NCT00488293|184621727|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||Chi-squared|||||||0.65
92358384|NCT01425814|184621775|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.259|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.219|0.298|||ANCOVA|||||0.298|0.219|<0.0001
92358385|NCT01425814|184621775|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.233|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.194|0.273|||ANCOVA|||||0.273|0.194|<0.0001
92358386|NCT01425814|184621775|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.203|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.164|0.242|||ANCOVA|||||0.242|0.164|<0.0001
92358387|NCT01425814|184621775|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.102|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.062|0.141|||ANCOVA|||||0.141|0.062|<0.0001
92222814|NCT02706873|184346783|SUPERIORITY||LS Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-0.99|-0.51|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.51|-0.99|<0.001
92222815|NCT02706873|184346783|SUPERIORITY||LS Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-0.99|-0.51|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.51|-0.99|<0.001
92222816|NCT02706873|184346784|SUPERIORITY||LS Mean Difference|5.97|||<|0.001|TWO_SIDED|95.0|3.15|8.8|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||8.80|3.15|<0.001
92222817|NCT02706873|184346784|SUPERIORITY||LS Mean Difference|7.92|||<|0.001|TWO_SIDED|95.0|4.66|11.19|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||11.19|4.66|<0.001
92222818|NCT02706873|184346784|SUPERIORITY||LS Mean Difference|6.76|||<|0.001|TWO_SIDED|95.0|3.33|10.2|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||10.20|3.33|<0.001
92222819|NCT02706873|184346785|SUPERIORITY||Response Rate Difference|51.2|||<|0.001|TWO_SIDED|95.0|32.5|70.0|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||70.0|32.5|<0.001
92222820|NCT02706873|184346785|SUPERIORITY||Response Rate Difference|59.9|||<|0.001|TWO_SIDED|95.0|38.8|81.1|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||81.1|38.8|<0.001
92358388|NCT01052779|184621789|NON_INFERIORITY|Non-inferiority was concluded if the lower bound of the 95% CI was ≥-0.5 g/dL and superiority if the lower bound was ≥0 g/dL.|Treatment Difference|0.1||||0.515|TWO_SIDED|95.0|-0.21|0.41||The p-value for hemoglobin change from Baseline (Day 1) was adjusted for baseline hemoglobin level and hemodialysis status.|ANOVA||The 95% CI for hemoglobin change from Baseline (Day 1) was from an ANOVA model and adjusted for baseline hemoglobin level and hemodialysis status.|With LOCF Imputation: The p-value and two-sided 95% confidence interval (CI) for the treatment difference in mean change in hemoglobin from Baseline (Day 1) to Week 5 were generated based on an analysis of variance (ANOVA) model adjusted for baseline hemoglobin level and hemodialysis status.||0.41|-0.21|0.515
92358389|NCT01052779|184621789|NON_INFERIORITY|Non-inferiority was concluded if the lower bound of the 95% CI was ≥-0.5 g/dL and superiority if the lower bound was ≥0 g/dL.|Treatment Difference|0.09||||0.587|TWO_SIDED|95.0|-0.23|0.41||The p-value for hemoglobin change from Baseline (Day 1) was adjusted for baseline hemoglobin level and hemodialysis status.|ANOVA||The 95% CI for hemoglobin change from Baseline (Day 1) was from an ANOVA model and adjusted for baseline hemoglobin level and hemodialysis status.|Without Imputation (Sensitivity Analysis): The p-value and two-sided 95% CI for the treatment difference in mean change in hemoglobin from Baseline (Day 1) to Week 5 were generated based on an ANOVA model adjusted for baseline hemoglobin level and hemodialysis status.||0.41|-0.23|0.587
92358390|NCT03524157|184621811|NON_INFERIORITY|it will be considered non-inferior if there are no differences greater than 20%.||||||0.273|||||||Kruskal-Wallis|||||||0.273
92358391|NCT03524157|184621812|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%||||||0.788|||||||Kruskal-Wallis|||||||0.788
92358392|NCT03524157|184621814|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%|||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
92401526|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.058|TWO_SIDED|95.0|-0.02|1.45||P-value is for de novo, week 2. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 2.||1.45|-0.02|0.058
92222821|NCT02706873|184346785|SUPERIORITY||Response Rate Difference|60.7|||<|0.001|TWO_SIDED|95.0|39.9|81.5|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||81.5|39.9|<0.001
92222822|NCT02706873|184346786|SUPERIORITY||Response Rate Difference|49.4|||<|0.001|TWO_SIDED|95.0|30.6|68.3|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||68.3|30.6|<0.001
92222823|NCT02706873|184346786|SUPERIORITY||Response Rate Difference|52.5|||<|0.001|TWO_SIDED|95.0|30.2|74.8|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||74.8|30.2|<0.001
92222824|NCT02706873|184346786|SUPERIORITY||Response Rate Difference|64.3|||<|0.001|TWO_SIDED|95.0|44.2|84.3|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||84.3|44.2|<0.001
92222825|NCT02706873|184346787|SUPERIORITY||LS Mean Difference|-1.69||||0.063|TWO_SIDED|95.0|-3.47|0.09|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||0.09|-3.47|0.063
92222826|NCT02706873|184346787|SUPERIORITY||LS Mean Difference|-2.4||||0.022|TWO_SIDED|95.0|-4.45|-0.35|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.35|-4.45|0.022
92222827|NCT02706873|184346787|SUPERIORITY||LS Mean Difference|-2.45||||0.022|TWO_SIDED|95.0|-4.54|-0.35|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.35|-4.54|0.022
92358393|NCT03524157|184621815|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%||||||0.008|||||||Kruskal-Wallis|||||||0.008
92358394|NCT03524157|184621816|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%|||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
92358395|NCT03524157|184621818|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%|||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
92358396|NCT03524157|184621819|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%|||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
92358397|NCT03524157|184621820|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%|||||>|0.05|||||||Chi-squared|||||||>0.05
92164525|NCT03779048|184217614|OTHER|Correlation between baseline postprandial AUC for change in insulin and 4-week percent weight loss.|r|-0.03||||0.72|TWO_SIDED||||||Regression, Linear|||||||.72
92358398|NCT01358734|184621821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.789||||0.119|TWO_SIDED|95.0|0.861|3.718|||Log Rank|||||3.718|0.861|0.119
92358399|NCT01358734|184621821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.659||||0.014|TWO_SIDED|95.0|1.214|5.822|||Log Rank|||||5.822|1.214|0.014
92358400|NCT01358734|184621821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.367||||0.356|TWO_SIDED|95.0|0.704|2.653|||Log Rank|||||2.653|0.704|0.356
92358401|NCT00127439|184621857|NON_INFERIORITY_OR_EQUIVALENCE|The power analysis indicated that when the mean difference equals to 1.2 times of standard deviation, a two-sided t-test at 0.05 level will have 80% power; and for a mean difference of 1.4 times of standard deviation the power increases to 91%. To test the null hypothesis that correlation will be 0 at 0.5 level, a two-sided test based on Fisher's Z transformation will yield a power of 89% in detecting correlations of 0.6 or above with n=24 or above.||||||0.05|||||||t-test, 2 sided|||||||0.05
92358402|NCT00127439|184621857|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon rank sum test|||Pearson correlation of gait speed changes with directional difference of standardized kinematic scores (i.e. foot trajectory toe-off - degrees, foot trajectory toe-off - % cycle, foot trajectory initial contact - degrees, foot trajectory range - degrees, propulsive impulse N-s, minimum thigh angle - flexion degrees, minimum hip angle - extension degrees, trunk angle mid-stance)||||0.05
92358403|NCT00127439|184621858|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
92358404|NCT00127439|184621859|NON_INFERIORITY_OR_EQUIVALENCE|Provided previously||||||0.05|||||||t-test, 2 sided|||||||0.05
92358405|NCT00127439|184621860|NON_INFERIORITY_OR_EQUIVALENCE|Provided previously||||||0.05|||||||t-test, 2 sided|||||||0.05
92401527|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83||||0.032|TWO_SIDED|95.0|0.07|1.59||P-value is for de novo, week 2. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 2.||1.59|0.07|0.032
92164526|NCT03779048|184217615|OTHER|Correlation between baseline postprandial incremental AUC for PYY and 4-week percent weight loss.|r|-0.02||||0.82|TWO_SIDED||||||Regression, Linear|||||||.82
92358406|NCT00127439|184621861|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
92401528|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.762|TWO_SIDED|95.0|-0.66|0.9||P-value is for de novo, week 2. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 2.||0.90|-0.66|0.762
92164527|NCT03779048|184217616|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.002|TWO_SIDED|95.0|1.1|5.0|||Mixed Models Analysis|||||5.0|1.1|.002
92358407|NCT00127439|184621862|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
92358408|NCT00127439|184621863|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
92358409|NCT00127439|184621864|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
92358410|NCT00127439|184621865|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
92358411|NCT00376558|184621866|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA|||||||0.003
92358412|NCT00376558|184621867|SUPERIORITY_OR_OTHER||delta bpnd|-12.0|STANDARD_DEVIATION|7.0||0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||The limbic striatum was our primary region of interest using an unpaired t test to compare BPND and deltaBPND between the treatment responders and non-responders.||||0.001
92358413|NCT02743962|184621868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75|STANDARD_DEVIATION|2.12|||TWO_SIDED|||||||||The control group reported a mean reduction in O'Leary-Sant Insterstitial Cystitis Symptom Score from baseline to 6 weeks that met the MCID (4 points), whereas the TW group reported a reduction of 1.5 times the MCID (ISCI score change: control group 4.25, + 0.95, TW group 6.2, + 0.83). From 6 to 12 weeks the control group reported no change in ISCI score (0 + 0.95) whereas the Therapeutic Wand group ISCI socre reduced by 1.8 +1.73.||||
92358414|NCT02743962|184621868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.25|STANDARD_DEVIATION|2.67|||TWO_SIDED|||||||||There was a small mean baseline ICPI score difference of 1.2 points between the groups (control group 10.5, +, TW group 11.2, + 2.68). Both groups reported a reduction in their ICPI scores from baseline to twelve weeks; the control group nearly met the minimal clinically important difference of 4 points and the TW group reported nearly twice the control group's score change (mean change control group 3.75, + 2.44, TW group 7, + 1.87).||||
92358415|NCT04805593|184621876|SUPERIORITY|Superiority testing was conducted to confirm the proportion is higher than the targeted value of 50%.|||||<|0.0001|||||||Exact Test of Binomial Proportion|||||||<0.0001
92358416|NCT04805593|184621877|SUPERIORITY|Superiority testing was conducted to confirm the proportion is higher than the targeted value of 75%.|||||<|0.0001|||||||Exact Test of Binomial Proportion|||||||<0.0001
92358417|NCT04620668|184621918|SUPERIORITY||||||<|0.001|||||||Mixed ANOVA|Assessing interaction between experimental group and time point.||||||<0.001
92358418|NCT04620668|184621918|SUPERIORITY||||||<|0.001|||||||Repeated Measures ANOVA|Assessing change within treatment group (follow-up to Mixed ANOVA).||||||<0.001
92358419|NCT04620668|184621918|SUPERIORITY|||||||0.044|||||||Dependent t-test (2-sided)|"Assessing change within treatment group from baseline to week 2 (follow-up to Repeated Measures ANOVA).~Bonferroni-adjusted p value."||||||0.044
92358420|NCT04620668|184621918|SUPERIORITY|||||||0.001|||||||Dependent t-test (2-sided)|"Assessing change within treatment group from week 2 to week 4 (follow-up to Repeated Measures ANOVA).~Bonferroni-adjusted p value."||||||0.001
92358421|NCT04620668|184621918|SUPERIORITY|||||||0.731|||||||Repeated Measures ANOVA|Assessing change within control group (follow-up to Mixed ANOVA).||||||0.731
92164528|NCT03779048|184217621|SUPERIORITY|Difference between placebo- and phentermine-treated participants in change in delay discounting area under the curve from randomization to week 24 was calculated using repeated measures ANCOVA, controlling for age.|F|0.17||||0.68|TWO_SIDED||||||ANCOVA|||||||.68
92164529|NCT03779048|184217622|OTHER|Regression using the three Eating Inventory subscales (Cognitive restraint, disinhibition, hunger) to predict 4-week weight loss|r2|0.01||||0.75|TWO_SIDED|||||For full model including all 3 predictors|Regression, Linear|||||||.75
92164530|NCT03779048|184217623|OTHER|Correlation between baseline past-week appetite and 4-week percent weight loss.|r|-0.09||||0.31|TWO_SIDED||||||Regression, Linear|||||||.31
92164531|NCT03779048|184217625|OTHER|Regression using baseline scores for Behavioral Inhibition (BIS) and Behavioral Activation fro Reward to predict 4-week weight loss during the behavioral treatment run-in.|r2|0.05||||0.03|TWO_SIDED||||||Regression, Linear|||||||.03
92164532|NCT03779048|184217626|OTHER|Correlation between baseline BIS-15 total score and 4-week percent weight loss.|r|0.03||||0.76|TWO_SIDED||||||Regression, Linear|||||||.76
92164533|NCT02027558|184217657|SUPERIORITY||Mean Difference (Net)|-3.21|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-4.58|-1.83|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 3-months for the treatment group versus the same improvement in respect to the control group.|||-1.83|-4.58|<.001
92164534|NCT02027558|184217658|SUPERIORITY||Mean Difference (Net)|-16.23|STANDARD_ERROR_OF_MEAN|6.52||0.013|TWO_SIDED|95.0|-29.02|-2.49|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 3-months for the treatment group versus the same improvement in respect to the control group.|||-2.49|-29.02|0.013
92401529|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91||||0.029|TWO_SIDED|95.0|0.09|1.73||P-value is for de novo, week 3. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 3.||1.73|0.09|0.029
92401530|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12||||0.01|TWO_SIDED|95.0|0.27|1.97||P-value is for de nove, 3 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 3.||1.97|0.27|0.010
92401531|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.619|TWO_SIDED|95.0|-0.63|1.06||P-value is for de nove, 3 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 3.||1.06|-0.63|0.619
92164535|NCT02027558|184217659|SUPERIORITY||Mean Difference (Net)|-20.46|STANDARD_ERROR_OF_MEAN|8.75||0.019|TWO_SIDED|95.0|-37.63|-3.29|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 3-months for the treatment group versus the same improvement in respect to the control group.|||-3.29|-37.63|0.019
92164536|NCT02027558|184217660|SUPERIORITY||Mean Difference (Net)|10.49|STANDARD_ERROR_OF_MEAN|3.04||0.001|TWO_SIDED|95.0|4.53|16.44|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 3-months for the treatment group versus the same improvement in respect to the control group.|||16.44|4.53|0.001
92164537|NCT02027558|184217661|SUPERIORITY||Mean Difference (Net)|4.35|STANDARD_ERROR_OF_MEAN|1.26||0.001|TWO_SIDED|95.0|1.87|6.83|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 3-months for the treatment group versus the same improvement in respect to the control group.|||6.83|1.87|0.001
92164538|NCT02027558|184217662|SUPERIORITY||Mean Difference (Final Values)|-17.42|STANDARD_ERROR_OF_MEAN|4.99||0.0007|TWO_SIDED|95.0|-27.29|-7.55|||t-test, 2 sided|||||-7.55|-27.29|0.0007
92164539|NCT01616654|184217671|SUPERIORITY||Percentage difference|13.115||||0.096|TWO_SIDED|95.0|-3.266|29.495|||Cochran-Mantel-Haenszel|||The 95% confidence interval on the difference between Vehicle and the specified treatment group success rates was based on normal approximation with continuity correction.||29.495|-3.266|0.096
92164540|NCT01616654|184217671|SUPERIORITY||Percentage difference|16.393||||0.04|TWO_SIDED|95.0|-0.249|33.036|||Cochran-Mantel-Haenszel|||The 95% confidence interval on the difference between Vehicle and the specified treatment group success rates was based on normal approximation with continuity correction||33.036|-0.249|0.040
92164541|NCT01616654|184217671|SUPERIORITY||Percentage difference|10.273||||0.184|TWO_SIDED|95.0|-5.923|26.47|||Cochran-Mantel-Haenszel|||The 95% confidence interval on the difference between Vehicle and the specified treatment group success rates was based on normal approximation with continuity correction.||26.470|-5.923|0.184
92164542|NCT01616654|184217671|SUPERIORITY||Percentage difference|16.393||||0.041|TWO_SIDED|95.0|-0.249|33.036|||Cochran-Mantel-Haenszel|||The 95% confidence interval on the difference between Vehicle and the specified treatment group success rates was based on normal approximation with continuity correction.||33.036|-0.249|0.041
92164543|NCT01616654|184217672|SUPERIORITY||Percentage difference|-6.74||||0.108|TWO_SIDED|95.0|-14.96|1.48|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with terms for treatment, stratum, and Baseline lesion count as covariate.||1.48|-14.96|0.108
92358422|NCT04620668|184621919|SUPERIORITY||||||<|0.001|||||||Mixed ANOVA|Assessing interaction between experimental group and time point.||||||<0.001
92358423|NCT04620668|184621919|SUPERIORITY||||||<|0.001|||||||Repeated Measures ANOVA|Assessing change within treatment group (follow-up to Mixed ANOVA).||||||<0.001
92358424|NCT04620668|184621919|SUPERIORITY|||||||0.05|||||||Dependent t-test (2-sided)|"Assessing change within treatment group from baseline to week 2 (follow-up to Repeated Measures ANOVA).~Bonferroni-adjusted p value."||||||0.05
92358425|NCT04620668|184621919|SUPERIORITY|||||||0.024|||||||Dependent t-test (2-sided)|"Assessing change within treatment group from week 2 to week 4 (follow-up to Repeated Measures ANOVA).~Bonferroni-adjusted p value."||||||0.024
92358426|NCT04620668|184621919|SUPERIORITY|||||||0.674|||||||Repeated Measures ANOVA|Assessing change within control group (follow-up to Mixed ANOVA).||||||0.674
92358427|NCT04620668|184621920|SUPERIORITY|||||||0.159|||||||Mixed ANOVA|Assessing interaction between experimental group and time point.||||||0.159
92358428|NCT04620668|184621921|SUPERIORITY|||||||0.326|||||||Mixed ANOVA|Assessing interaction between experimental group and time point.||||||0.326
92358429|NCT04047355|184621924|SUPERIORITY||Median Difference (Final Values)|3.0||||0.12|TWO_SIDED|||||The a-priori threshold for statistical significance was set at α = 0.05.|Wilcoxon (Mann-Whitney)||The placebo phase serves as the control condition and the propranolol phase serves as the treatment condition.|A post-hoc power analysis was conducted using G\*Power, v. 3.1, to determine the achieved power for the Wilcoxon signed-rank test for matched pairs.||||0.12
92401532|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83||||0.058|TWO_SIDED|95.0|-0.03|1.69||P-value is for de novo, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 4.||1.69|-0.03|0.058
92401533|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51||||0.001|TWO_SIDED|95.0|0.61|2.41||P-value is for de novo, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 4.||2.41|0.61|0.001
92358430|NCT04047355|184621924|SUPERIORITY||Effect size (r)|-0.64|||||TWO_SIDED|||||||||||||
92358431|NCT04047355|184621924|SUPERIORITY||Post-hoc power analysis|0.39|||||TWO_SIDED||||||||The alpha error probability was set at α = 0.05 (two-tailed).|||||
92164544|NCT01616654|184217672|SUPERIORITY||Percentage difference|-7.88||||0.06|TWO_SIDED|95.0|-16.11|0.34|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with terms for treatment, stratum, and Baseline lesion count as covariate.||0.34|-16.11|0.060
92164545|NCT01616654|184217672|SUPERIORITY||Percentage difference|-8.11||||0.054|TWO_SIDED|95.0|-16.35|0.13|||ANCOVA|||Analysis was performed using ANCOVA with terms for treatment, stratum, treatment stratum, and with Baseline lesion count as covariate.||0.13|-16.35|0.054
92164546|NCT01616654|184217672|SUPERIORITY||Percentage difference|-12.97||||0.002|TWO_SIDED|95.0|-21.18|-4.76|||ANCOVA|||Analysis was performed using ANCOVA with terms for treatment, stratum, treatment stratum, and with Baseline lesion count as covariate.||-4.76|-21.18|0.002
92164547|NCT01616654|184217673|SUPERIORITY|||||||0.067|||||||Cochran-Mantel-Haenszel|||||||0.067
92164548|NCT01616654|184217673|SUPERIORITY|||||||0.054|||||||Cochran-Mantel-Haenszel|||||||0.054
92358432|NCT04047355|184621925|SUPERIORITY||Median Difference (Final Values)|2.0||||0.07|TWO_SIDED|||||The a-priori threshold for statistical significance was set at α = 0.05.|Wilcoxon (Mann-Whitney)||The placebo phase serves as the control condition and the propranolol phase serves as the treatment condition.|A post-hoc power analysis was conducted using G\*Power, v. 3.1, to determine the achieved power for the Wilcoxon signed-rank test for matched pairs.||||0.07
92358433|NCT04047355|184621925|SUPERIORITY||Effect size (r)|-0.74|||||TWO_SIDED|||||||||||||
92358434|NCT04047355|184621925|SUPERIORITY||Post-hoc power analysis|0.59|||||TWO_SIDED||||||||The alpha error probability was set at α = 0.05 (two-tailed).|||||
92358435|NCT00427700|184621928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.0||||0.3|TWO_SIDED|95.0|-9.0|33.0|||Fisher Exact|||The null hypothesis is that there is no significant difference between two drugs for ovulation induction.A sample size of 40 women per arm was calculated for this superiority trial, considering an alpha and beta error of 0.05 and 0.2, respectively, to find an absolute difference of 30% in the ovulation rate between groups, based on a previous study published by Mitwally and Casper (18) where the ovulation rate with CC was approximately 45%.||33|-9|0.3
92358436|NCT00427700|184621929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.0||||0.2|TWO_SIDED|95.0|-6.0|34.0|||t-test, 2 sided|||Null hypothesis: There is no difference between the mean values of progesterone between both groups.||34|-6|0.2
92358437|NCT02085720|184621957|NON_INFERIORITY_OR_EQUIVALENCE|Data were given as means and standard deviations, unless otherwise stated. AHI was categorized as ≥ 5, ≥ 10, ≥ 15 and ≥ 20. The frequency distribution of responses on the SHQ and their relationship to AHI was assessed with the chi-squared analysis. The association of variables such as age, BMI, neck circumference, ESS and sleep health questionnaire responses versus AHI was evaluated using one-way analysis of variance and Pearson Correlation Analysis.|||||<|0.05|||||||ANOVA|||||||<0.05
92358438|NCT05293314|184622005|OTHER|Evaluate the ability of the breath test model to distinguish bronchiectasis from healthy individuals by measuring the area under the receiver operating characteristic (ROC) curves. The maximum value in the area below the receiver is 1. The closer the value is to 1, the higher the prediction accuracy of the model.|receiver operating characteristic|0.964|||<|0.05|TWO_SIDED|95.0|0.932|0.996|||Wilcoxon (Mann-Whitney)|||Evaluate the ability of the breath test model to distinguish bronchiectasis from healthy individuals by measuring the area under the receiver operating characteristic (ROC) curves. The maximum value in the area below the receiver is 1. The closer the value is to 1, the higher the prediction accuracy of the model.||0.996|0.932|<0.05
92164549|NCT01616654|184217673|SUPERIORITY|||||||0.038|||||||Cochran-Mantel-Haenszel|||||||0.038
92222828|NCT02706873|184346788|SUPERIORITY||Response Rate Difference|36.2||||0.001|TWO_SIDED|95.0|14.4|58.0|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||58.0|14.4|0.001
92222829|NCT02706873|184346788|SUPERIORITY||Response Rate Difference|34.6||||0.01|TWO_SIDED|95.0|10.2|59.0|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||59.0|10.2|0.010
92222830|NCT02706873|184346788|SUPERIORITY||Response Rate Difference|33.0||||0.016|TWO_SIDED|95.0|7.9|58.1|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||58.1|7.9|0.016
92222831|NCT01857713|184346789|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that the study would be successful if the mean % reduction is significantly greater than 25%. Assuming a 35% reduction in RSI, a power of 80%, one-sided significance level of 0.05, 85 subjects are required for the study. It was decided to recruit up to 100 subjects for this study.|||||<|0.05|||||||t-test, 1 sided|||The sample size was based on the primary effectiveness variable (% reduction in RSI from Baseline to Week 4). It was assumed that the study would be successful if the mean % reduction is significantly greater than 25%. Assuming a 35% reduction in RSI, a power of 80%, one-sided significance level of 0.05, 85 subjects are required for the study. It was decided to recruit up to 100 subjects for this study.||||<0.05
92222832|NCT03759665|184346795|SUPERIORITY||Hodges-Lehmann Estimator|0.75||||0.044|TWO_SIDED|90.0|0.0|1.5|||1-sided Wilcoxon signed-rank test|||||1.50|0.00|0.044
92222833|NCT03759665|184346797|SUPERIORITY||Hodges-Lehmann Estimator|0.13||||0.206|TWO_SIDED|90.0|-0.13|0.25|||1-sided Wilcoxon signed-rank test|||||0.25|-0.13|0.206
92222834|NCT03759665|184346800|SUPERIORITY||Hodges-Lehmann Estimator|0.0327||||0.21|TWO_SIDED|90.0|-0.0327|0.104|||1-sided Wilcoxon signed-rank test|||Treatment With IB1001||0.1040|-0.0327|0.210
92222835|NCT03759665|184346800|SUPERIORITY||Hodges-Lehmann Estimator|-0.0291||||0.212|TWO_SIDED|90.0|-0.0863|0.0262|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||0.0262|-0.0863|0.212
92222836|NCT03759665|184346801|SUPERIORITY||Hodges-Lehmann Estimator|-1.25|||<|0.001|TWO_SIDED|90.0|-1.75|-0.75|||1-sided Wilcoxon signed-rank test|||Treatment With IB1001||-0.75|-1.75|<0.001
92222837|NCT03759665|184346801|SUPERIORITY||Hodges-Lehmann Estimator|1.25||||0.001|TWO_SIDED|90.0|0.5|2.0|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||2.00|0.50|0.001
92222838|NCT03759665|184346803|SUPERIORITY||Hodges-Lehmann Estimator|-0.031||||0.02|TWO_SIDED|90.0|-0.063|0.0|||1-sided Wilcoxon signed-rank test|||Treatment with IB1001||0.000|-0.063|0.020
92222839|NCT03759665|184346803|SUPERIORITY||Hodges-Lehmann Estimator|0.042|||<|0.001|TWO_SIDED|90.0|0.021|0.063|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||0.063|0.021|<0.001
92222840|NCT03759665|184346804|SUPERIORITY||Hodges-Lehmann Estimator|3.0|||<|0.001|TWO_SIDED|90.0|3.0|3.5|||1-sided Wilcoxon signed-rank test|||Treatment With IB1001||3.5|3.0|<0.001
92164550|NCT01616654|184217673|SUPERIORITY|||||||0.003|||||||Cochran-Mantel-Haenszel|||||||0.003
92222841|NCT03759665|184346804|SUPERIORITY||Hodges-Lehmann Estimator|5.0|||<|0.001|TWO_SIDED|90.0|4.5|5.0|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||5.0|4.5|<0.001
92222842|NCT05098041|184346807|OTHER|Linear mixed-effects model was used for analysis. The model included treatment as a fixed effect and participant as a random effect. The point estimates and 90 percent (%) confidence intervals (CIs) for the Geometric Mean Ratio (GMR) of Cmax for Soticlestat and Rifampin versus Soticlestat alone were calculated using the exponentiation of the point estimates of the difference between treatment regimen and the corresponding 90% CIs from the analyses on the natural-log (ln)-transformed Cmax.|Geometric Mean Ratio (%)|13.15|||||TWO_SIDED|90.0|9.73|17.79|||||GMR (%) was calculated as 100\*(Soticlestat + Rifampin/Soticlestat Alone).|||17.79|9.73|
92222843|NCT05098041|184346808|OTHER|Linear mixed-effects model was used for analysis. The model included treatment as a fixed effect and participant as a random effect. The point estimates and 90% CIs for the GMR of AUC∞ for Soticlestat and Rifampin versus Soticlestat alone were calculated using the exponentiation of the point estimates of the difference between treatment regimen and the corresponding 90% CIs from the analyses on the ln-transformed AUC∞.|Geometric Mean Ratio (%)|16.42|||||TWO_SIDED|90.0|12.53|21.5|||||GMR (%) was calculated as 100\*(Soticlestat + Rifampin/Soticlestat Alone).|||21.50|12.53|
92222844|NCT05098041|184346809|OTHER|Linear mixed-effects model was used for analysis. The model included treatment as a fixed effect and participant as a random effect. The point estimates and 90% CIs for the GMR of AUClast for Soticlestat and Rifampin versus Soticlestat alone were calculated using the exponentiation of the point estimates of the difference between treatment regimen and the corresponding 90% CIs from the analyses on the ln-transformed AUClast.|Geometric Mean Ratio (%)|14.92|||||TWO_SIDED|90.0|11.94|18.64|||||GMR (%) was calculated as 100\*(Soticlestat + Rifampin/Soticlestat Alone).|||18.64|11.94|
92222845|NCT05098041|184346810|OTHER||Median Difference (Final Values)|-0.117|||=|0.0791|TWO_SIDED|90.0|-0.202|0.0|||Wilcoxon Signed-Rank Test||Difference was calculated as (Soticlestat + Rifampin) - Soticlestat Alone. The difference of medians (treatment effect) and the corresponding 90% CI was estimated using the Hodges-Lehmann method and Walsh Averages.|||0.000|-0.202|=0.07910
92222846|NCT00797732|184346831|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||.17
92164551|NCT02057692|184217677|SUPERIORITY||LS mean difference|-0.889|STANDARD_ERROR_OF_MEAN|0.3969||0.0321|TWO_SIDED|95.0|-1.698|0.081|||ANCOVA|||The primary analysis of change from baseline to endpoint (Week 13/ET) average daily ItchRO(Obs) was evaluated by analysis of covariance (ANCOVA) using a PROC MIXED procedure. Least-squares (LS) mean change from baseline to Endpoint (Week 13/ET), along with associated 95% confidence interval (CI) for the LS mean, and pair-wise treatment P-values were calculated for each treatment group.||0.081|-1.698|0.0321
92164552|NCT02057692|184217677|SUPERIORITY||LS mean difference|-0.906|STANDARD_ERROR_OF_MEAN|0.3503||0.0145|TWO_SIDED|95.0|-1.62|-0.192|||ANCOVA|||The primary analysis of change from baseline to endpoint (Week 13/ET) average daily ItchRO(Obs) was evaluated by ANCOVA using a PROC MIXED procedure. LS mean change from baseline to Endpoint (Week 13/ET), along with associated 95% CI for the LS mean, and pair-wise treatment P-values were calculated for each treatment group.||-0.192|-1.620|0.0145
92358439|NCT05293314|184622005|OTHER|Evaluate the ability of the breath test model to distinguish bronchiectasis from healthy individuals by measuring the area under the receiver operating characteristic (ROC) curves. The maximum value in the area below the receiver is 1. The closer the value is to 1, the higher the prediction accuracy of the model.|receiver operating characteristic|0.932|||<|0.05|TWO_SIDED|95.0|0.879|0.982|||Wilcoxon (Mann-Whitney)|||Evaluate the ability of the breath test model to distinguish bronchiectasis from healthy individuals by measuring the area under the receiver operating characteristic (ROC) curves. The maximum value in the area below the receiver is 1. The closer the value is to 1, the higher the prediction accuracy of the model.||0.982|0.879|<0.05
92401534|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.142|TWO_SIDED|95.0|-0.23|1.58||P-value is for de nove, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 1.||1.58|-0.23|0.142
92401535|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.065|TWO_SIDED|95.0|-0.05|1.76||P-value is for de novo, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 5.||1.76|-0.05|0.065
92401536|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|||<|0.001|TWO_SIDED|95.0|0.75|2.65||P-value is for de novo, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 5.||2.65|0.75|<0.001
92401537|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.079|TWO_SIDED|95.0|-0.1|1.79||P-value is for de novo, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 5.||1.79|-0.10|0.079
92164553|NCT02057692|184217677|SUPERIORITY||LS mean difference|-0.039|STANDARD_ERROR_OF_MEAN|0.4431||0.9298|TWO_SIDED|95.0|-0.942|0.863|||ANCOVA|||The primary analysis of change from baseline to endpoint (Week 13/ET) average daily ItchRO(Obs) was evaluated by ANCOVA using a PROC MIXED procedure. LS mean change from baseline to Endpoint (Week 13/ET), along with associated 95% confidence interval (CI) for the LS mean, and pair-wise treatment P-values were calculated for each treatment group.||0.863|-0.942|0.9298
92164554|NCT03923491|184217682|SUPERIORITY||Slope|-0.55|STANDARD_ERROR_OF_MEAN|4.69||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 total score controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
92164555|NCT03923491|184217682|SUPERIORITY||Slope|-0.35|STANDARD_ERROR_OF_MEAN|0.49||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 total vegetable component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
92164556|NCT03923491|184217682|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.88||0.2|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 greens and beans component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||0.20
92164557|NCT03923491|184217682|SUPERIORITY||Slope|1.71|STANDARD_ERROR_OF_MEAN|0.67||0.2|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 total fruit component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||0.20
92164558|NCT03923491|184217682|SUPERIORITY||Slope|2.14|STANDARD_ERROR_OF_MEAN|0.83||0.19|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 whole fruit component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||0.19
92222847|NCT01297270|184346846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.7|||<|0.0001|TWO_SIDED|95.0|10.7|30.6|||Cochran-Mantel-Haenszel||Estimate adjusted for genotype and race using Koch's method, with continuity correction|||30.6|10.7|<0.0001
92358440|NCT05293314|184622006|OTHER|Sensitivity=number of true positives/(number of true positives+number of false negatives) \* 100% Sensitivity is the rate of correctly judging patients.We calculated the sensitivity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the sensitivity is 100%. The higher the percentage is , the more sensitive of the model.|Sensitivity|86.2|||||TWO_SIDED|95.0|77.1|95.2||||||Sensitivity=number of true positives/(number of true positives+number of false negatives) \* 100% Sensitivity is the rate of correctly judging patients.We calculated the sensitivity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the sensitivity is 100%. The higher the percentage is , the more sensitive of the model.||95.2|77.1|
92358441|NCT05293314|184622006|OTHER|Sensitivity=number of true positives/(number of true positives+number of false negatives) \* 100% Sensitivity is the rate of correctly judging patients.We calculated the sensitivity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the sensitivity is 100%. The higher the percentage is , the more sensitive of the model.|Sensitivity|86.2|||||TWO_SIDED|95.0|77.1|95.2||||||Sensitivity=number of true positives/(number of true positives+number of false negatives) \* 100% Sensitivity is the rate of correctly judging patients.We calculated the sensitivity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the sensitivity is 100%. The higher the percentage is , the more sensitive of the model.||95.2|77.1|
92358442|NCT05293314|184622007|OTHER|Specificity=number of true negative cases/(number of true negative cases+number of false positive cases) \* 100% The specificity is the rate of correctly judging non patients.We calculated the specificity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the specificity is 100%. The higher the percentage is , the more specificity of the model.|Specificity|92.5|||||TWO_SIDED|95.0|86.2|98.8||||||Specificity=number of true negative cases/(number of true negative cases+number of false positive cases) \* 100% The specificity is the rate of correctly judging non patients.We calculated the specificity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the specificity is 100%. The higher the percentage is , the more specificity of the model.||98.8|86.2|
92358443|NCT05293314|184622007|OTHER|Specificity=number of true negative cases/(number of true negative cases+number of false positive cases) \* 100% The specificity is the rate of correctly judging non patients.We calculated the specificity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the specificity is 100%. The higher the percentage is , the more specificity of the model.|Specificity|73.9|||||TWO_SIDED|95.0|56.0|91.9||||||Specificity=number of true negative cases/(number of true negative cases+number of false positive cases) \* 100% The specificity is the rate of correctly judging non patients.We calculated the specificity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the specificity is 100%. The higher the percentage is , the more specificity of the model.||91.9|56|
92358444|NCT00895921|184622054|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.242|STANDARD_ERROR_OF_MEAN|0.1139||0.042|TWO_SIDED|95.0|0.00943|0.47605||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||.47605|.00943|0.042
92358445|NCT00895921|184622055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.253|STANDARD_ERROR_OF_MEAN|0.224||0.269|TWO_SIDED|95.0|-0.208|0.714||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||0.714|-0.208|0.269
92358446|NCT00895921|184622056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.149||0.012|TWO_SIDED|95.0|0.095|0.705|||Chi-squared, Corrected|||Comparison of akathisia rates between the two arms.||.705|.095|0.012
92358447|NCT01905540|184622057|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The statistical comparison of log-transformed pharmacokinetic parameters between the single-dose treatment groups (Treatments AQ and SS) was based on the 90% CI for the ratio of the geometric means. If the 90% CI was entirely contained within the acceptance range of 0.8-1.25 then it was concluded that there was no statistically significant difference between treatments for the relevant parameter. Doses were normalized to the SSP-004184AQ (40mg/kg) dose prior to statistical analysis.|Ratio of geometric LS means|1.244|||||TWO_SIDED|90.0|1.081|1.43||||||||1.430|1.081|
92358448|NCT01905540|184622058|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The statistical comparison of log-transformed pharmacokinetic parameters between the single-dose treatment groups (Treatments AQ and SS) was based on the 90% CI for the ratio of the geometric means. If the 90% CI was entirely contained within the acceptance range of 0.8-1.25 then it was concluded that there was no statistically significant difference between treatments for the relevant parameter. Doses were normalized to the SSP-004184AQ (40mg/kg) dose prior to statistical analysis.|Geometric LS Means|1.233|||||TWO_SIDED|90.0|1.07|1.422||||||||1.422|1.070|
92358449|NCT01905540|184622059|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The statistical comparison of log-transformed pharmacokinetic parameters between the single-dose treatment groups (Treatments AQ and SS) was based on the 90% CI for the ratio of the geometric means. If the 90% CI was entirely contained within the acceptance range of 0.8-1.25 then it was concluded that there was no statistically significant difference between treatments for the relevant parameter. Doses were normalized to the SSP-004184AQ (40mg/kg) dose prior to statistical analysis.|Ratio of geometric LS means|1.344|||||TWO_SIDED|90.0|1.135|1.592||||||||1.592|1.135|
92358450|NCT04770285|184622077|SUPERIORITY||Treatment Difference|-1.78||||0.0568|TWO_SIDED|95.0|-3.6|0.05|||MMRM|p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.||||0.05|-3.60|0.0568
92358451|NCT04770285|184622078|SUPERIORITY||Treatment Difference|-0.77||||0.0705|TWO_SIDED|95.0|-1.61|0.07|||MMRM|p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.||||0.07|-1.61|0.0705
92358452|NCT04770285|184622079|SUPERIORITY||Treatment Difference|-0.62||||0.3687|TWO_SIDED|95.0|-1.99|0.74||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 2||0.74|-1.99|0.3687
92222848|NCT01297270|184346846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.4||||0.0007|TWO_SIDED|95.0|7.3|27.4|||Cochran-Mantel-Haenszel||Estimate adjusted for genotype and race using Koch's method, with continuity correction|||27.4|7.3|0.0007
92222849|NCT01297270|184346847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.7|||<|0.0001|TWO_SIDED|95.0|10.7|30.6|||Cochran-Mantel-Haenszel||Estimate adjusted for genotype and race using Koch's method, with continuity correction|||30.6|10.7|<0.0001
92222850|NCT01297270|184346847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.6||||0.0014|TWO_SIDED|95.0|6.5|26.7|||Cochran-Mantel-Haenszel||Estimate adjusted for genotype and race using Koch's method, with continuity correction|||26.7|6.5|0.0014
92222851|NCT02112370|184346857|SUPERIORITY_OR_OTHER|||||||0.008||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Swallowing difficulty||||0.008
92222852|NCT02112370|184346857|SUPERIORITY_OR_OTHER|||||||0.016||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Anterior neck pain||||0.016
92222853|NCT02112370|184346857|SUPERIORITY_OR_OTHER|||||||0.019||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Right chest pain||||0.019
92222854|NCT02112370|184346857|SUPERIORITY_OR_OTHER|||||||0.035||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Left chest pain||||0.035
92222855|NCT02112370|184346857|SUPERIORITY_OR_OTHER|||||||0.089||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Back pain||||0.089
92222856|NCT02112370|184346857|SUPERIORITY_OR_OTHER|||||||0.634||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Posterior neck pain||||0.634
92358453|NCT04770285|184622079|SUPERIORITY||Treatment Difference|-1.45||||0.0828|TWO_SIDED|95.0|-3.1|0.19||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 4||0.19|-3.10|0.0828
92222857|NCT02500628|184346905|OTHER|||||||0.77|||||||t-test, 2 sided|||comparison between fibromyalgia and non-fibromyalgia group||||0.77
92222858|NCT02500628|184346906|OTHER|||||||0.27|||||||t-test, 2 sided|||||||0.27
92222859|NCT02500628|184346907|OTHER|||||||0.92|||||||t-test, 2 sided|||difference between fibromyalgia and non-fibromyalgia patients.||||0.92
92222860|NCT01295216|184346929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37|||||TWO_SIDED|95.0|-2.15|1.4|||||Systolic blood pressure at 12 months|||1.40|-2.15|
92222861|NCT01295216|184346929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|||||TWO_SIDED|95.0|-1.29|1.32|||||Diastolic blood pressure for 12 months|||1.32|-1.29|
92222862|NCT01534533|184346946|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was 0.05 (two sides)|Chi-squared|||"The null hypothesis was no group difference"||||>0.05
92222863|NCT01534533|184346947|SUPERIORITY_OR_OTHER|||||||0.992||95.0||||The a priori threshold for statistical significance was 0.05 (two sides)|ANOVA|||"The null hypothesis was no group difference"||||0.992
92222864|NCT01534533|184346948|SUPERIORITY_OR_OTHER|||||||0.672||95.0||||The a priori threshold for statistical significance was 0.05 (two sides)|ANOVA|||"The null hypothesis was no group difference"||||0.672
92222865|NCT01534533|184346949|SUPERIORITY_OR_OTHER|||||||0.402||95.0||||The a priori threshold for statistical significance was 0.05 (two sides)|ANOVA|||"The null hypothesis was no group difference"||||0.402
92222866|NCT01534533|184346950|SUPERIORITY_OR_OTHER|||||||0.636||95.0||||The a priori threshold for statistical significance was 0.05 (two sides)|ANOVA|||"The null hypothesis was no group difference"||||0.636
92222867|NCT00328627|184346959|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54|||<|0.001|TWO_SIDED|95.0|-0.67|-0.41||For the primary analysis, the overall average HbA1c response of the Alogliptin/pioglitazone combination groups was compared with that of the pioglitazone alone groups at the 2-sided 0.05 significance level with no adjustment for multiple comparisons.|ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||The null hypothesis was that the doses of alogliptin do not have any additive effect on glycemic control (HbA1c) in addition to the effect produced by pioglitazone alone. The alternative hypothesis was that at least the higher dose of alogliptin would have an additive effect on glycemic control (HbA1c) in addition to the effect produced by pioglitazone alone.||-0.41|-0.67|<0.001
92222868|NCT00328627|184346959|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.53|||<|0.001|TWO_SIDED|95.0|-0.66|-0.41|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.41|-0.66|<0.001
92222869|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|||<|0.001|TWO_SIDED|95.0|-0.93|-0.48||As a supportive analysis, each of the individual combination treatment groups was compared with the component treatment groups receiving aloliptin alone and pioglitazone alone at the 2-sided 0.05 significance level with no multiplicity adjustment.|ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.48|-0.93|<0.001
92222870|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.59|||<|0.001|TWO_SIDED|95.0|-0.81|-0.38|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.38|-0.81|<0.001
92222871|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.37||||0.001|TWO_SIDED|95.0|-0.59|-0.15|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.15|-0.59|0.001
92222872|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.74|-0.3|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.30|-0.74|<0.001
92222873|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.76|||<|0.001|TWO_SIDED|95.0|-0.98|-0.53|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.53|-0.98|<0.001
92222874|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.7|-0.25|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.25|-0.70|<0.001
92358454|NCT04770285|184622080|SUPERIORITY||Treatment Difference|-0.34||||0.3549|TWO_SIDED|95.0|-1.06|0.38||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 2||0.38|-1.06|0.3549
92358455|NCT04770285|184622080|SUPERIORITY||Treatment Difference|-0.28||||0.4948|TWO_SIDED|95.0|-1.09|0.53||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 4||0.53|-1.09|0.4948
92164559|NCT03923491|184217682|SUPERIORITY||Slope|0.83|STANDARD_ERROR_OF_MEAN|1.1||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 whole grain component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.0
92358456|NCT04770285|184622081|SUPERIORITY||Ratio of Response Rate|1.68||||0.142|TWO_SIDED|95.0|0.84|3.34||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 2||3.34|0.84|0.1420
92164560|NCT03923491|184217682|SUPERIORITY||Slope|-0.9|STANDARD_ERROR_OF_MEAN|0.85||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 total dairy component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.0
92164561|NCT03923491|184217682|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.42||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 total protein foods component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
92164562|NCT03923491|184217682|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.85||-0.12|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 seafood and plant protein component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||-0.12
92164563|NCT03923491|184217682|SUPERIORITY||Slope|-0.31|STANDARD_ERROR_OF_MEAN|1.12||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 fatty acid component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
92164564|NCT03923491|184217682|SUPERIORITY||Slope|-2.09|STANDARD_ERROR_OF_MEAN|0.97||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 sodium component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
92164565|NCT03923491|184217682|SUPERIORITY||Slope|-0.8|STANDARD_ERROR_OF_MEAN|1.16||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 refined grains component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
92164566|NCT03923491|184217682|SUPERIORITY||Slope|-0.28|STANDARD_ERROR_OF_MEAN|1.13||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 added sugar component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
92164567|NCT03923491|184217682|SUPERIORITY||Slope|-0.52|STANDARD_ERROR_OF_MEAN|0.86||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||||||1.00
92164568|NCT00355914|184217685|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0||||Results were considered statistically significant if the P value was less than 0.05.|t-test, 2 sided|||compared baseline, 3, 6, 12, 18, and 24 months between groups||||>0.05
92164569|NCT00355914|184217686|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Results were considered statistically significant if the P value was less than 0.05.|t-test, 2 sided|||baseline, 3, 6, 12, 18, and 24 months between groups||||>0.05
92164570|NCT02633358|184217687|SUPERIORITY|Therapeutic hypothermia need to have superiority in the survival rate after 90 days|Risk Ratio (RR)|0.58|||<|0.001|TWO_SIDED|95.0|0.41|0.82||P-value less than 0.05 means significant data|Chi-squared|Test method for proportional data||Therapeutic hypothermia group compare with control group||0.82|0.41|<0.001
92164571|NCT02633358|184217688|SUPERIORITY|Therapeutic hypothermia nee to have superiority in neurological outcome in the 90 days after enrollment.|Risk Ratio (RR)|0.8||||0.04|TWO_SIDED|95.0|0.66|0.98||P value less than 0.05 means significant date|Chi-squared|Test method for proportional data||Therapeutic hypothermia group compare with control group||0.98|0.66|0.04
92164572|NCT02633358|184217689|SUPERIORITY||||||<|0.05||||||P-value less than 0.05 is statistical significance.|t-test, 2 sided|||||||<0.05
92164573|NCT02633358|184217690|SUPERIORITY||||||<|0.05||||||P-value less than 0.05 is statistical significance.|t-test, 2 sided|||||||<0.05
92164574|NCT02633358|184217691|SUPERIORITY||||||<|0.05||||||P-value less then 0.05 is statistical significance.|t-test, 2 sided|||||||<0.05
92358457|NCT04770285|184622081|SUPERIORITY||Ratio of Response Rate|1.31||||0.2939|TWO_SIDED|95.0|0.79|2.16||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 4||2.16|0.79|0.2939
92358458|NCT04770285|184622081|SUPERIORITY||Ratio of Response Rate|1.38||||0.0884|TWO_SIDED|95.0|0.96|1.99||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 6||1.99|0.96|0.0884
92164575|NCT03823300|184217692|NON_INFERIORITY|If the lower bound of a two-sided 95.03% confidence interval (CI) for the difference in adjusted means of the two treatments (faricimab minus aflibercept) is greater than -4 letters (the non-inferiority margin), then faricimab is considered non-inferior to aflibercept.|Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-1.7|1.8|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The null hypothesis, H0: μ(faricimab) - μ(aflibercept) ≤-4 letters; the alternative hypothesis, Ha: μ(faricimab) - μ(aflibercept) \>-4 letters. A sample size of approximately 320 participants in each arm provided greater than 90% power to show non-inferiority of faricimab to aflibercept in the change from baseline BCVA averaged over Weeks 40, 44, and 48 in the ITT population, using a non-inferiority margin of 4 letters at the one-sided 0.02485 significance level.||1.8|-1.7|
92276617|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.003|TWO_SIDED|95.0|-0.44|-0.09|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.09|-0.44|0.0030
92276618|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.0046|TWO_SIDED|95.0|-0.47|-0.09|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.09|-0.47|0.0046
92276619|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.0237|TWO_SIDED|95.0|-0.39|-0.03|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.03|-0.39|0.0237
92276620|NCT01360632|184454761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0171|TWO_SIDED|95.0|-0.45|-0.04|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.04|-0.45|0.0171
92276621|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.37||||0.5279|TWO_SIDED|95.0|0.51|3.68|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||3.68|0.51|0.5279
92276622|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|0.13||||0.0141|TWO_SIDED|95.0|0.02|0.94|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.94|0.02|0.0141
92276623|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.92||||0.0484|TWO_SIDED|95.0|0.99|3.72|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||3.72|0.99|0.0484
92358459|NCT04770285|184622082|SUPERIORITY||Treatment Difference|-0.19||||0.0039|TWO_SIDED|95.0|-0.32|-0.06||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 2||-0.06|-0.32|0.0039
92358460|NCT04770285|184622082|SUPERIORITY||Treatment Difference|-0.32||||0.0003|TWO_SIDED|95.0|-0.5|-0.15||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 4||-0.15|-0.50|0.0003
92164576|NCT03823300|184217693|OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.93|||TWO_SIDED|95.0|-2.4|1.3|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 52-60||1.3|-2.4|
92164577|NCT03823300|184217695|OTHER||Difference in CMH Weighted Percentage|-2.0|||||TWO_SIDED|95.0|-8.3|4.3|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥15 Letters: Treatment Difference at Weeks 40-48||4.3|-8.3|
92276624|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.23||||0.5813|TWO_SIDED|95.0|0.6|2.5|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.50|0.60|0.5813
92358461|NCT04770285|184622082|SUPERIORITY||Treatment Difference|-0.26||||0.0098|TWO_SIDED|95.0|-0.46|-0.06||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 6||-0.06|-0.46|0.0098
92358462|NCT04770285|184622083|SUPERIORITY||Treatment Difference|-1.02||||0.4463|TWO_SIDED|95.0|-3.66|1.61||p-value was calculated by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|ANCOVA|||||1.61|-3.66|0.4463
92358463|NCT04770285|184622084|SUPERIORITY||Treatment Difference|-1.29||||0.0102|TWO_SIDED|95.0|-2.28|-0.31||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 4||-0.31|-2.28|0.0102
92358464|NCT04770285|184622084|SUPERIORITY||Treatment Difference|-1.58||||0.0029|TWO_SIDED|95.0|-2.62|-0.54||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 6||-0.54|-2.62|0.0029
92358465|NCT04770285|184622085|SUPERIORITY||Ratio of Response Rate|1.18||||0.5757|TWO_SIDED|95.0|0.65|2.16||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 2||2.16|0.65|0.5757
92358466|NCT04770285|184622085|SUPERIORITY||Ratio of Response Rate|1.16||||0.5102|TWO_SIDED|95.0|0.75|1.78||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 4||1.78|0.75|0.5102
92358467|NCT04770285|184622085|SUPERIORITY||Ratio of Response Rate|1.15||||0.5342|TWO_SIDED|95.0|0.74|1.79||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 6||1.79|0.74|0.5342
92358468|NCT04770285|184622086|SUPERIORITY||Ratio of Response Rate|1.0|||||TWO_SIDED|95.0|0.82|1.22||||||Week 8||1.22|0.82|
92401538|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79||||0.093|TWO_SIDED|95.0|-0.13|1.71||P-value is for de novo, 6 week. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 6.||1.71|-0.13|0.093
92401539|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.56||||0.002|TWO_SIDED|95.0|0.59|2.53||P-value is for de novo, 6 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 6.||2.53|0.59|0.002
92405759|NCT02085161|184701878|SUPERIORITY_OR_OTHER||Treatment ratio|1.458|STANDARD_ERROR_OF_MEAN|0.147||0.0002|TWO_SIDED|95.0|1.196|1.777||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM).|This treatment comparison is the first one in the alpha-protected hierarchical testing chain.||1.777|1.196|0.0002
92164578|NCT03823300|184217695|OTHER||Difference in CMH Weighted Percentage|3.4|||||TWO_SIDED|95.0|-3.9|10.7|||||The treatment difference in CMH weighted percentage of participants gaining ≥10 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥10 Letters: Treatment Difference at Weeks 40-48||10.7|-3.9|
92164579|NCT03823300|184217695|OTHER||Difference in CMH Weighted Percentage|1.0|||||TWO_SIDED|95.0|-6.6|8.6|||||The treatment difference in CMH weighted percentage of participants gaining ≥5 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥5 Letters: Treatment Difference at Weeks 40-48||8.6|-6.6|
92358469|NCT04770285|184622086|SUPERIORITY||Ratio of Response Rate|1.05|||||TWO_SIDED|95.0|0.88|1.25||||||Week 10||1.25|0.88|
92358470|NCT02796651|184622172|SUPERIORITY||LSMean difference|0.108|||<|0.001|TWO_SIDED|95.0|0.055|0.161|||Mixed Models Analysis|||||0.161|0.055|<0.001
92358471|NCT02796651|184622172|SUPERIORITY||LSMean difference|0.117|||<|0.001|TWO_SIDED|95.0|0.064|0.171|||Mixed Models Analysis|||||0.171|0.064|<0.001
92358472|NCT02796651|184622172|SUPERIORITY||LSMean difference|0.162|||<|0.001|TWO_SIDED|95.0|0.107|0.216|||Mixed Models Analysis|||||0.216|0.107|<0.001
92358473|NCT02796651|184622172|SUPERIORITY||LSMean difference|0.122|||<|0.001|TWO_SIDED|95.0|0.069|0.175|||Mixed Models Analysis|||||0.175|0.069|<0.001
92358474|NCT02796651|184622172|SUPERIORITY||LSMean difference|0.009||||0.556|TWO_SIDED|95.0|-0.021|0.039|||Mixed Models Analysis|||||0.039|-0.021|0.556
92358475|NCT02796651|184622172|SUPERIORITY||LSMean difference|0.053||||0.001|TWO_SIDED|95.0|0.021|0.085|||Mixed Models Analysis|||||0.085|0.021|0.001
92358476|NCT02796651|184622172|SUPERIORITY||LSMean difference|0.014||||0.365|TWO_SIDED|95.0|-0.016|0.044|||Mixed Models Analysis|||||0.044|-0.016|0.365
92358477|NCT02796651|184622172|SUPERIORITY||LSMean difference|0.044||||0.006|TWO_SIDED|95.0|0.013|0.076|||Mixed Models Analysis|||||0.076|0.013|0.006
92358478|NCT02796651|184622172|SUPERIORITY||LSMean difference|0.005||||0.756|TWO_SIDED|95.0|-0.026|0.036|||Mixed Models Analysis|||||0.036|-0.026|0.756
92358479|NCT02796651|184622172|SUPERIORITY||LSMean difference|-0.039||||0.014|TWO_SIDED|95.0|-0.071|-0.008|||Mixed Models Analysis|||||-0.008|-0.071|0.014
92358480|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.13|||<|0.001|TWO_SIDED|95.0|0.091|0.169|||Mixed Models Analysis|||||0.169|0.091|<0.001
92358481|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.167|||<|0.001|TWO_SIDED|95.0|0.128|0.206|||Mixed Models Analysis|||||0.206|0.128|<0.001
92358482|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.224|||<|0.001|TWO_SIDED|95.0|0.184|0.263|||Mixed Models Analysis|||||0.263|0.184|<0.001
92358483|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.214|||<|0.001|TWO_SIDED|95.0|0.176|0.253|||Mixed Models Analysis|||||0.253|0.176|<0.001
92358484|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.265|||<|0.001|TWO_SIDED|95.0|0.226|0.304|||Mixed Models Analysis|||||0.304|0.226|<0.001
92358485|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.037||||0.004|TWO_SIDED|95.0|0.012|0.062|||Mixed Models Analysis|||||0.062|0.012|0.004
92358486|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.094|||<|0.001|TWO_SIDED|95.0|0.068|0.119|||Mixed Models Analysis|||||0.119|0.068|<0.001
92358487|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.084|||<|0.001|TWO_SIDED|95.0|0.059|0.11|||Mixed Models Analysis|||||0.110|0.059|<0.001
92358488|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.135|||<|0.001|TWO_SIDED|95.0|0.109|0.161|||Mixed Models Analysis|||||0.161|0.109|<0.001
92358489|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.057|||<|0.001|TWO_SIDED|95.0|0.031|0.082|||Mixed Models Analysis|||||0.082|0.031|<0.001
92358490|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.047|||<|0.001|TWO_SIDED|95.0|0.023|0.071|||Mixed Models Analysis|||||0.071|0.023|<0.001
92358491|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.098|||<|0.001|TWO_SIDED|95.0|0.073|0.123|||Mixed Models Analysis|||||0.123|0.073|<0.001
92222875|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.49|||<|0.001|TWO_SIDED|95.0|-0.71|-0.27|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.27|-0.71|<0.001
92222876|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.7|-0.25|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.25|-0.70|<0.001
92222877|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.91|||<|0.001|TWO_SIDED|95.0|-1.13|-0.68|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.68|-1.13|<0.001
92358492|NCT02796651|184622173|SUPERIORITY||LSMean difference|-0.009||||0.469|TWO_SIDED|95.0|-0.035|0.016|||Mixed Models Analysis|||||0.016|-0.035|0.469
92358493|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.041||||0.002|TWO_SIDED|95.0|0.015|0.068|||Mixed Models Analysis|||||0.068|0.015|0.002
92358494|NCT02796651|184622173|SUPERIORITY||LSMean difference|0.051|||<|0.001|TWO_SIDED|95.0|0.025|0.076|||Mixed Models Analysis|||||0.076|0.025|<0.001
92358495|NCT02796651|184622174|SUPERIORITY||LSMean difference|0.159|||<|0.001|TWO_SIDED|95.0|0.105|0.213|||Mixed Models Analysis|||||0.213|0.105|<0.001
92222878|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.55|||<|0.001|TWO_SIDED|95.0|-0.77|-0.33|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.33|-0.77|<0.001
92222879|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|||<|0.001|TWO_SIDED|95.0|-0.92|-0.48|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.48|-0.92|<0.001
92222880|NCT00328627|184346991|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.61|||<|0.001|TWO_SIDED|95.0|-0.83|-0.39|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.39|-0.83|<0.001
92222881|NCT00691483|184347120|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.03|||<|0.0001|TWO_SIDED|95.0|3.8|9.56||To preserve the type I family-wise error rate of 0.05, a step-down procedure to be used for the analysis of CA for Week 9 through Week 12 and the CA for Week 9 through Week 24.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Sample size to be based on a continuity-corrected Chi-square 2-sided test with a 0.05 significance level and a 3:1 randomization ratio of Varenicline to placebo. 652 subjects to provide \>=90% power to detect Varenicline versus placebo differences in primary and key secondary efficacy endpoints (assuming placebo CA rates of 0.24 \[Weeks 9-12\] and 0.18 \[Weeks 9-24\] and Varenicline CA rates of 0.46 \[Weeks 9-12\] and 0.31 \[Weeks 9-24\]) (odds ratio of \>=2.67 \[Weeks 9-12\] and \>=2.10 \[Weeks 9-24\]).||9.56|3.80|<0.0001
92227179|NCT01727258|184356485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|1.183||0.881|TWO_SIDED|95.0|-2.16|2.52||The significance threshold level was 0.05 (two-sided). Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.52|-2.16|0.881
92358496|NCT02796651|184622174|SUPERIORITY||LSMean difference|0.17|||<|0.001|TWO_SIDED|95.0|0.116|0.224|||Mixed Models Analysis|||||0.224|0.116|<0.001
92358497|NCT02796651|184622174|SUPERIORITY||LSMean difference|0.219|||<|0.001|TWO_SIDED|95.0|0.163|0.274|||Mixed Models Analysis|||||0.274|0.163|<0.001
92358498|NCT02796651|184622174|SUPERIORITY||LSMean difference|0.179|||<|0.001|TWO_SIDED|95.0|0.125|0.233|||Mixed Models Analysis|||||0.233|0.125|<0.001
92358499|NCT02796651|184622174|SUPERIORITY||LSMean difference|0.011||||0.488|TWO_SIDED|95.0|-0.02|0.042|||Mixed Models Analysis|||||0.042|-0.020|0.488
92358500|NCT02796651|184622174|SUPERIORITY||LSMean difference|0.06|||<|0.001|TWO_SIDED|95.0|0.027|0.092|||Mixed Models Analysis|||||0.092|0.027|<0.001
92358501|NCT02796651|184622174|SUPERIORITY||LSMean difference|0.02||||0.206|TWO_SIDED|95.0|-0.011|0.051|||Mixed Models Analysis|||||0.051|-0.011|0.206
92358502|NCT02796651|184622174|SUPERIORITY||LSMean difference|0.049||||0.004|TWO_SIDED|95.0|0.016|0.081|||Mixed Models Analysis|||||0.081|0.016|0.004
92358503|NCT02796651|184622174|SUPERIORITY||LSMean difference|0.009||||0.567|TWO_SIDED|95.0|-0.022|0.041|||Mixed Models Analysis|||||0.041|-0.022|0.567
92358504|NCT02796651|184622174|SUPERIORITY||LSMean difference|-0.039||||0.017|TWO_SIDED|95.0|-0.072|-0.007|||Mixed Models Analysis|||||-0.007|-0.072|0.017
92358505|NCT02796651|184622175|SUPERIORITY||LSMean difference|0.075||||0.027|TWO_SIDED|95.0|0.008|0.141|||Mixed Models Analysis|||||0.141|0.008|0.027
92358506|NCT02796651|184622175|SUPERIORITY||LSMean difference|0.065||||0.054|TWO_SIDED|95.0|-0.001|0.131|||Mixed Models Analysis|||||0.131|-0.001|0.054
92358507|NCT02796651|184622175|SUPERIORITY||LSMean difference|0.1||||0.004|TWO_SIDED|95.0|0.032|0.168|||Mixed Models Analysis|||||0.168|0.032|0.004
92358508|NCT02796651|184622175|SUPERIORITY||LSMean difference|0.059||||0.075|TWO_SIDED|95.0|-0.006|0.123|||Mixed Models Analysis|||||0.123|-0.006|0.075
92358509|NCT02796651|184622175|SUPERIORITY||LSMean difference|-0.01||||0.615|TWO_SIDED|95.0|-0.048|0.028|||Mixed Models Analysis|||||0.028|-0.048|0.615
92358510|NCT02796651|184622175|SUPERIORITY||LSMean difference|0.025||||0.209|TWO_SIDED|95.0|-0.014|0.065|||Mixed Models Analysis|||||0.065|-0.014|0.209
92358511|NCT02796651|184622175|SUPERIORITY||LSMean difference|-0.016||||0.403|TWO_SIDED|95.0|-0.053|0.022|||Mixed Models Analysis|||||0.022|-0.053|0.403
92358512|NCT02796651|184622175|SUPERIORITY||LSMean difference|0.035||||0.074|TWO_SIDED|95.0|-0.003|0.074|||Mixed Models Analysis|||||0.074|-0.003|0.074
92358513|NCT02796651|184622175|SUPERIORITY||LSMean difference|-0.006||||0.75|TWO_SIDED|95.0|-0.045|0.032|||Mixed Models Analysis|||||0.032|-0.045|0.750
92358514|NCT02796651|184622175|SUPERIORITY||LSMean difference|-0.041||||0.035|TWO_SIDED|95.0|-0.08|-0.003|||Mixed Models Analysis|||||-0.003|-0.080|0.035
92358515|NCT00437073|184622176|SUPERIORITY_OR_OTHER||percentage of participants|38.0|||||TWO_SIDED|95.0|13.9|68.4|||||The estimated value indicates the percentage of participants with CNS OR in the Lapatinib plus Capecitabine treatment arm.|||68.4|13.9|
92358516|NCT04918771|184622200|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.0003|TWO_SIDED|95.0|0.51|1.67|||t-test, 2 sided|||Mean time to resolution of ARVI symptoms||1.67|0.51|0.0003
92358517|NCT04918771|184622201|SUPERIORITY||Mean Difference (Final Values)|2.35||||0.3274|TWO_SIDED|95.0|-2.36|7.06|||t-test, 2 sided|||Mean AUC score for severity of ARVI (Clinically Diagnosed and/or PCR-confirmed).||7.06|-2.36|0.3274
92358518|NCT04918771|184622201|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.1171|TWO_SIDED|95.0|-1.34|11.93|||t-test, 2 sided|||Mean AUC score for severity of ARVI (PCR-confirmed).||11.93|-1.34|0.1171
92358519|NCT04918771|184622202|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92164580|NCT03823300|184217695|OTHER||Difference in CMH Weighted Percentage|3.1|||||TWO_SIDED|95.0|-3.1|9.3|||||The treatment difference in CMH weighted percentage of participants gaining ≥0 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥0 Letters: Treatment Difference at Weeks 40-48||9.3|-3.1|
92164581|NCT03823300|184217696|OTHER||Difference in CMH Weighted Percentage|-1.2|||||TWO_SIDED|95.0|-7.7|5.3|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 52-60||5.3|-7.7|
92358520|NCT04918771|184622203|SUPERIORITY||Mean Difference (Final Values)|0.58||||0.0073|TWO_SIDED|95.0|0.16|1.0|||t-test, 2 sided|||The mean time to Resolution of ARVI Symptoms was analysed.||1.00|0.16|0.0073
92358521|NCT04918771|184622204|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92358522|NCT04918771|184622205|SUPERIORITY|||||||0.3627|||||||Wilcoxon (Mann-Whitney)|||Dosing Frequency of Antipyretics. Comparison for Day 1.||||0.3627
92358523|NCT04918771|184622205|SUPERIORITY|||||||0.5578|||||||Wilcoxon (Mann-Whitney)|||Dosing Frequency of Antipyretics. Comparison for Day 2.||||0.5578
92164582|NCT03823300|184217701|OTHER||Difference in CMH Weighted Percentage|-1.5|||||TWO_SIDED|95.0|-4.4|1.3|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥15 Letters: Treatment Difference at Weeks 40-48||1.3|-4.4|
92164583|NCT03823300|184217701|OTHER||Difference in CMH Weighted Percentage|-0.9|||||TWO_SIDED|95.0|-4.5|2.8|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥10 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥10 Letters: Treatment Difference at Weeks 40-48||2.8|-4.5|
92164584|NCT03823300|184217701|OTHER||Difference in CMH Weighted Percentage|2.6|||||TWO_SIDED|95.0|-2.1|7.3|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥5 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥5 Letters: Treatment Difference at Weeks 40-48||7.3|-2.1|
92164585|NCT03823300|184217702|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-2.6|3.3|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 52-60||3.3|-2.6|
92164586|NCT03823300|184217706|OTHER||Difference in CMH Weighted Percentage|-1.7|||||TWO_SIDED|95.0|-8.5|5.1|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters or achieving BCVA ≥84 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||5.1|-8.5|
92164587|NCT03823300|184217708|OTHER||Difference in CMH Weighted Percentage|5.7|||||TWO_SIDED|95.0|-1.4|12.9|||||The treatment difference in CMH weighted percentage of participants achieving BCVA ≥69 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||12.9|-1.4|
92164588|NCT03823300|184217710|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-3.6|4.4|||||The treatment difference in CMH weighted percentage of participants with BCVA ≤38 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||4.4|-3.6|
92164589|NCT03823300|184217718|OTHER||Adjusted mean difference|-6.4|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-14.8|2.1|||||The treatment difference in adjusted means of change from baseline CST is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 40-48||2.1|-14.8|
92164590|NCT03823300|184217719|OTHER||Adjusted mean difference|1.4|STANDARD_ERROR_OF_MEAN|4.05|||TWO_SIDED|95.0|-6.6|9.3|||||The treatment difference in adjusted means of change from baseline CST is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 52-60||9.3|-6.6|
92164591|NCT01290224|184217740|NON_INFERIORITY_OR_EQUIVALENCE|A one-sided McNemar's test of the primary endpoint with 10 patients will have 86% power at 5% Type I error rate to detect a 60% difference in the percentage of at least 50% reduction in the scrambler and sham procedure, based on the assumption that the proportion of discordant pairs is at 70%.||||||0.763||95.0|||||McNemar|||McNemar's test was used to test for a difference between Scrambler and Sham procedure in their success rate.||||0.7630
92164592|NCT05694065|184217754|OTHER||||||||||||||||||The diagnostic discrimination ability of UFR was analyzed by ROC curve analysis using the DeLong method. Cutoff value of ≤0.80 was used for FFR and UFR to define the physiological significance of a coronary stenosis, with two-sided P\<0.05 considered statistically significant.|||
92164593|NCT05694065|184217758|OTHER||||||||||||||||||The diagnostic discrimination abilities of UFR and MLA were compared by ROC curves analysis using the DeLong method. A prespecified MLA cutoff value was applied based on the prior study. Cutoff value of ≤0.80 was used for FFR and UFR to define the physiological significance of a coronary stenosis, with two-sided P\<0.05 considered statistically significant.|||
92358524|NCT04918771|184622205|SUPERIORITY|||||||0.7688|||||||Wilcoxon (Mann-Whitney)|||Dosing Frequency of Antipyretics. Comparison for Day 3.||||0.7688
92358525|NCT04918771|184622206|SUPERIORITY|||||||0.4926|||||||Fisher Exact|||||||0.4926
92358526|NCT04918771|184622207|SUPERIORITY|||||||0.021|||||||Fisher Exact|||Comparison of severity distributions.||||0.021
92358527|NCT04918771|184622207|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison for outcome distribution.||||1.00
92358528|NCT04918771|184622208|SUPERIORITY|||||||0.7848|||||||Median test|||Comparison for Visit 1.||||0.7848
92358529|NCT04918771|184622208|SUPERIORITY|||||||0.9596|||||||Median test|||Comparison for Visit 2.||||0.9596
92358530|NCT04918771|184622208|SUPERIORITY|||||||0.6902|||||||Median test|||Comparison for Visit 3.||||0.6902
92358531|NCT04918771|184622209|SUPERIORITY|||||||0.3266|||||||Median test|||Comparison for Visit 1.||||0.3266
92358532|NCT04918771|184622209|SUPERIORITY|||||||0.093|||||||Median test|||Comparison for Visit 2.||||0.0930
92358533|NCT04918771|184622209|SUPERIORITY|||||||0.2308|||||||Median test|||Comparison for Visit 3.||||0.2308
92358534|NCT04918771|184622210|SUPERIORITY|||||||0.661|||||||Median test|||Comparison for Visit 1/Systolic blood pressure.||||0.6610
92358535|NCT04918771|184622210|SUPERIORITY|||||||0.4884|||||||Median test|||Comparison for Visit 2/Systolic blood pressure.||||0.4884
92401540|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.119|TWO_SIDED|95.0|-0.2|1.74||P-value is for de novo, 6 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 6.||1.74|-0.20|0.119
92401541|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.98||||0.036|TWO_SIDED|95.0|0.06|1.91||P-value is for de novo, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 7.||1.91|0.06|0.036
92358536|NCT04918771|184622210|SUPERIORITY|||||||0.3494|||||||Median test|||Comparison for Visit 3/Systolic blood pressure.||||0.3494
92358537|NCT04918771|184622210|SUPERIORITY|||||||0.9531|||||||Median test|||Comparison for Visit 1/Diastolic blood pressure.||||0.9531
92358538|NCT04918771|184622210|SUPERIORITY|||||||0.5506|||||||Median test|||Comparison for Visit 2/Diastolic blood pressure.||||0.5506
92358539|NCT04918771|184622210|SUPERIORITY|||||||0.8259|||||||Median test|||Comparison for Visit 3/Diastolic blood pressure.||||0.8259
92164594|NCT01087762|184217762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.3|||=|0.004|TWO_SIDED|95.0|6.3|32.4||Difference of Certolizumab Pegol 200 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|Wald test and Confidence Interval (CI) calculation were performed without continuity correction.||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||32.4|6.3|=0.004
92358540|NCT04918771|184622211|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
92358541|NCT01287208|184622241|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
92358542|NCT01287208|184622244|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
92358543|NCT04910165|184622246|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Wilcoxon (Mann-Whitney)|||||||<0.05
92358544|NCT04910165|184622247|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Wilcoxon (Mann-Whitney)|||||||<0.05
92358545|NCT04910165|184622248|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Wilcoxon (Mann-Whitney)|||||||<0.05
92358546|NCT04910165|184622249|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Wilcoxon (Mann-Whitney)|||||||<0.05
92358547|NCT04910165|184622250|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Wilcoxon (Mann-Whitney)|||||||<0.05
92358548|NCT04910165|184622251|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Fisher Exact|||||||<0.05
92358549|NCT04910165|184622252|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Fisher Exact|||||||<0.05
92358550|NCT01813357|184622257|SUPERIORITY||Mean Difference (Final Values)|0.002||||0.684|TWO_SIDED||||||Mixed Models Analysis|||||||0.684
92358551|NCT03863574|184622266|OTHER|Proof of Concept||||||0.7689|||||||t-test, 2 sided|||||||0.7689
92358552|NCT03863574|184622266|OTHER|Proof-of-concept||||||0.6007|||||||t-test, 2 sided|||||||0.6007
92358553|NCT03863574|184622267|OTHER|||||||0.5238|||||||Fisher Exact|||||||0.5238
92358554|NCT03863574|184622267|OTHER||||||>|0.9999|||||||Fisher Exact|||||||>0.9999
92358555|NCT03863574|184622268|OTHER|Proof-of-concept||||||0.0476|||||||Fisher Exact|||||||0.0476
92358556|NCT03863574|184622268|OTHER|Proof-of-concept||||||0.0333|||||||Fisher Exact|||||||0.0333
92358557|NCT03863574|184622269|OTHER|Proof-of-concept||||||0.6845|||||||t-test, 2 sided|||Outcome Variable: Steatosis||||0.6845
92358558|NCT03863574|184622269|OTHER|Proof-of-concept||||||0.4625|||||||t-test, 2 sided|||Outcome Variable: Steatosis||||0.4625
92358559|NCT03863574|184622269|OTHER|Proof-of-concept||||||0.1705|||||||t-test, 2 sided|||Outcome Variable: Lobular Inflammation||||0.1705
92358560|NCT03863574|184622269|OTHER|Proof-of-concept||||||0.3122|||||||t-test, 2 sided|||Outcome variable: Lobular Inflammation||||0.3122
92358561|NCT03863574|184622269|OTHER|Proof-of-concept||||||0.1705|||||||t-test, 2 sided|||Outcome Variable: Hepatocyte Ballooning||||0.1705
92358562|NCT03863574|184622269|OTHER|Proof-of-concept||||||0.3877|||||||t-test, 2 sided|||Outcome Variable: Hepatocyte Ballooning||||0.3877
92358563|NCT03863574|184622270|OTHER|Proof-of-concept||||||0.1705|||||||t-test, 2 sided|||||||0.1705
92358564|NCT03863574|184622270|OTHER|Proof-of-concept||||||0.174|||||||t-test, 2 sided|||||||0.1740
92358565|NCT03863574|184622271|OTHER|Proof-of-concept||||||0.8019|||||||t-test, 2 sided|||Outcome variable: Alanine Aminotransferase||||0.8019
92358566|NCT03863574|184622271|OTHER|Proof-of-concept||||||0.5396|||||||t-test, 2 sided|||Outcome Variable: Alanine Aminotransferase||||0.5396
92222882|NCT00691483|184347121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.45|||<|0.0001|TWO_SIDED|95.0|2.62|7.55||To preserve the type I family-wise error rate of 0.05, a step-down procedure to be used for the analysis of CA for Week 9 through Week 12 and the CA for Week 9 through Week 24.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Sample size to be based on a continuity-corrected Chi-square 2-sided test with a 0.05 significance level and a 3:1 randomization ratio of Varenicline to placebo. 652 subjects to provide \>=90% power to detect Varenicline versus placebo differences in primary and key secondary efficacy endpoints (assuming placebo CA rates of 0.24 \[Weeks 9-12\] and 0.18 \[Weeks 9-24\] and Varenicline CA rates of 0.46 \[Weeks 9-12\] and 0.31 \[Weeks 9-24\]) (odds ratio of \>=2.67 \[Weeks 9-12\] and \>=2.10 \[Weeks 9-24\]).||7.55|2.62|<0.0001
92358567|NCT03863574|184622271|OTHER|Proof-of-concept||||||0.774|||||||t-test, 2 sided|||Outcome Variable: Aspartate Aminotransferase||||0.7740
92358568|NCT03863574|184622271|OTHER|Proof-of-concept||||||0.9221|||||||t-test, 2 sided|||Outcome Variable: Aspartate Aminotransferase||||0.9221
92358569|NCT03863574|184622271|OTHER|Proof-of-concept||||||0.003|||||||t-test, 2 sided|||Outcome Variable: Alkaline Phosphatase||||0.0030
92358570|NCT03863574|184622271|OTHER|Proof-of-concept||||||0.0177|||||||t-test, 2 sided|||Outcome Variable: Alkaline Phosphatase||||0.0177
92358571|NCT03863574|184622271|OTHER|Proof-of-concept||||||0.1399|||||||t-test, 2 sided|||Outcome Variable: Gamma Glutamyl Transferase||||0.1399
92358572|NCT03863574|184622271|OTHER|Proof-of-concept||||||0.2384|||||||t-test, 2 sided|||Outcome Variable: Gamma Glutamyl Transferase||||0.2384
92358573|NCT03863574|184622272|OTHER|Proof-of-concept||||||0.2218|||||||t-test, 2 sided|||Outcome Variable: Albumin||||0.2218
92358574|NCT03863574|184622272|OTHER|Proof-of-Concept||||||0.1483|||||||t-test, 2 sided|||Outcome Variable: Albumin||||0.1483
92358575|NCT03863574|184622272|OTHER|Proof-of-concept||||||0.0839|||||||t-test, 2 sided|||Outcome Variable: Total Protein||||0.0839
92358576|NCT03863574|184622272|OTHER|Proof-of-concept||||||0.2895|||||||t-test, 2 sided|||Outcome Variable: Total Protein||||0.2895
92358577|NCT03863574|184622273|OTHER|Proof-of-concept||||||0.6808|||||||t-test, 2 sided|||Outcome Variable: Direct Bilirubin||||0.6808
92358578|NCT03863574|184622273|OTHER|Proof-of-concept||||||0.5351|||||||t-test, 2 sided|||Outcome Variable: Direct Bilirubin||||0.5351
92358579|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.2329|||||||t-test, 2 sided|||Outcome Variable: Triglyceride||||0.2329
92358580|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.7211|||||||t-test, 2 sided|||Outcome Variable: Triglyceride||||0.7211
92358581|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.652|||||||t-test, 2 sided|||Outcome Variables: Total Cholesterol||||0.6520
92358582|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.4302|||||||t-test, 2 sided|||Outcome Variable: Total Cholesterol||||0.4302
92358583|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.9432|||||||t-test, 2 sided|||Outcome Variable: High-density Lipoprotein||||0.9432
92358584|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.2133|||||||t-test, 2 sided|||Outcome Variable: High-density Lipoprotein||||0.2133
92358585|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.2446|||||||t-test, 2 sided|||Outcome Variable: Low-density lipoprotein||||0.2446
92358586|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.7075|||||||t-test, 2 sided|||Outcome Variable: Low-density lipoprotein||||0.7075
92358587|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.2195|||||||t-test, 2 sided|||Outcome Variable: Very low-density lipoprotein||||0.2195
92358588|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.7435|||||||t-test, 2 sided|||Outcome Variable: Very low-density lipoprotein||||0.7435
92358589|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.5702|||||||t-test, 2 sided|||Outcome Variable: non-HDL Cholesterol||||0.5702
92358590|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.6441|||||||t-test, 2 sided|||Outcome Variable: non-HDL Cholesterol||||0.6441
92358591|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.8415|||||||t-test, 2 sided|||Outcome Variable: Apo lipoprotein A1||||0.8415
92358592|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.0786|||||||t-test, 2 sided|||Outcome Variable: Apo lipoprotein A1||||0.0786
92358593|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.8878|||||||t-test, 2 sided|||Outcome Variable: Apo lipoprotein B||||0.8878
92358594|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.3219|||||||t-test, 2 sided|||Outcome variable: Apo lipoprotein B||||0.3219
92358595|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.6557|||||||t-test, 2 sided|||Outcome Variable: Small dense LDL||||0.6557
92358596|NCT03863574|184622274|OTHER|Proof-of-concept||||||0.0763|||||||t-test, 2 sided|||Outcome Variable: Small dense LDL||||0.0763
92358597|NCT03863574|184622276|OTHER|Proof-of-concept||||||0.6988|||||||t-test, 2 sided|||||||0.6988
92358598|NCT03863574|184622276|OTHER|Proof-of-concept||||||0.7413|||||||t-test, 2 sided|||||||0.7413
92358599|NCT03863574|184622277|OTHER|Proof-of-concept||||||0.22|||||||t-test, 2 sided|||||||0.2200
92358600|NCT03863574|184622277|OTHER|Proof-of-concept||||||0.5798|||||||t-test, 2 sided|||||||0.5798
92358601|NCT03863574|184622278|OTHER|Proof-of-concept||||||0.4981|||||||t-test, 2 sided|||||||0.4981
92358602|NCT03863574|184622278|OTHER|Proof-of-concept||||||0.8939|||||||t-test, 2 sided|||||||0.8939
92358603|NCT03863574|184622279|OTHER|Proof-of-concept||||||0.3605|||||||t-test, 2 sided|||||||0.3605
92358604|NCT03863574|184622279|OTHER|Proof-of-concept||||||0.8394|||||||t-test, 2 sided|||||||0.8394
92358605|NCT03863574|184622280|OTHER|Proof-of-concept||||||0.2665|||||||t-test, 2 sided|||||||0.2665
92358606|NCT03863574|184622280|OTHER|Proof-of-concept||||||0.9133|||||||t-test, 2 sided|||||||0.9133
92358607|NCT03863574|184622281|OTHER|Proof-of-concept||||||0.7267|||||||t-test, 2 sided|||||||0.7267
92358608|NCT03863574|184622281|OTHER|Proof-of-concept||||||0.9211|||||||t-test, 2 sided|||||||0.9211
92358609|NCT03863574|184622282|OTHER|Proof-of-concept||||||0.8683|||||||t-test, 2 sided|||||||0.8683
92358610|NCT03863574|184622282|OTHER|Proof-of-concept||||||0.7436|||||||t-test, 2 sided|||||||0.7436
92358611|NCT05081843|184622323|SUPERIORITY||Mean Difference (Final Values)|0.233||||0.05|TWO_SIDED|95.0|-0.056|0.522|||t-test, 2 sided|||||0.522|-0.056|0.05
92358612|NCT05081843|184622324|SUPERIORITY||Median Difference (Final Values)|0.534||||0.05|TWO_SIDED|95.0|0.078|0.99|||t-test, 2 sided|||||0.990|0.078|0.05
92222883|NCT00691483|184347122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.91|||<|0.0001|TWO_SIDED|95.0|2.96|8.13||A 0.05 level of significance without adjustment for multiplicity.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Statistical testing to be 2-sided and use a 0.05 level of significance. Confidence intervals to have a 95% confidence level. Statistical significance to be declared unless a p-value \>0.05 was obtained.||8.13|2.96|<0.0001
92358613|NCT05081843|184622325|SUPERIORITY||Mean Difference (Final Values)|0.326||||0.05|TWO_SIDED|95.0|-0.177|0.829|||t-test, 2 sided|||||0.829|-0.177|0.05
92222884|NCT00691483|184347123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.66|||<|0.0001|TWO_SIDED|95.0|3.66|8.75||A 0.05 level of significance without adjustment for multiplicity.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Week 12. Statistical testing to be 2-sided and use a 0.05 level of significance. Confidence intervals to have a 95% confidence level. Statistical significance to be declared unless a p-value \>0.05 was obtained.||8.75|3.66|<0.0001
92222885|NCT00691483|184347123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12|||<|0.0001|TWO_SIDED|95.0|2.58|6.58||A 0.05 level of significance without adjustment for multiplicity.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Week 24. Statistical testing to be 2-sided and use a 0.05 level of significance. Confidence intervals to have a 95% confidence level. Statistical significance to be declared unless a p-value \>0.05 was obtained.||6.58|2.58|<0.0001
92358614|NCT05081843|184622326|SUPERIORITY||Mean Difference (Final Values)|0.756||||0.05|TWO_SIDED|95.0|0.208|1.31|||t-test, 2 sided|||||1.31|0.208|0.05
92358615|NCT04938427|184622327|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-1.17|||=|0.785|TWO_SIDED|95.0|-13.02|9.99||The p-value was calculated using Rank Analysis of Covariance (ANCOVA) model using treatment group, age stratum (≤6 years, \>6 years), and rank of Baseline seizure frequency per 28 days as predictors.|ANCOVA||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% confidence interval (CI) are based on the Hodges-Lehmann estimation.|||9.99|-13.02|=0.785
92358616|NCT04938427|184622328|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|2.43|||=|0.778|TWO_SIDED|95.0|-10.86|15.14||The p-value was calculated using the Rank ANCOVA model using the treatment group, age stratum (≤6 years, \>6 years), and rank of Baseline seizure frequency per 28 days as predictors.|ANCOVA||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI are based on the Hodges-Lehmann estimation.|||15.14|-10.86|=0.778
92358617|NCT04938427|184622329|SUPERIORITY||Odds Ratio (OR)|1.91|||||TWO_SIDED|95.0|0.94|3.87||||||||3.87|0.94|
92358618|NCT04938427|184622330|SUPERIORITY||Odds Ratio (OR)|1.93|||||TWO_SIDED|95.0|0.92|4.05||||||||4.05|0.92|
92358619|NCT04938427|184622332|SUPERIORITY||Odds Ratio (OR)|1.35|||||TWO_SIDED|95.0|0.86|2.13||||||||2.13|0.86|
92358620|NCT04938427|184622333|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.89|2.21||||||||2.21|0.89|
92358621|NCT04938427|184622334|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.85|2.3||||||Alertness Domain||2.30|0.85|
92222886|NCT00691483|184347124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.14|||<|0.0001|TWO_SIDED|95.0|2.58|6.67||A 0.05 level of significance without adjustment for multiplicity.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Statistical testing to be 2-sided and use a 0.05 level of significance. Confidence intervals to have a 95% confidence level. Statistical significance to be declared unless a p-value \>0.05 was obtained.||6.67|2.58|<0.0001
92222887|NCT04999267|184347126|OTHER|Pre-intervention vs. Post-intervention analysis|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92222888|NCT04999267|184347127|OTHER|Pre-intervention vs. Post-intervention analysis|||||<|0.0001|||||||Chi-squared|||||||<.0001
92222889|NCT04623242|184347129|SUPERIORITY||Ratio|1.063|STANDARD_DEVIATION|0.059|||TWO_SIDED|||||A priori threshold for statistical significance||||||||
92358622|NCT04938427|184622334|SUPERIORITY||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|0.91|2.48||||||Communication Domain||2.48|0.91|
92358623|NCT04938427|184622334|SUPERIORITY||Odds Ratio (OR)|1.91|||||TWO_SIDED|95.0|1.06|3.43||||||Disruptive Behaviors Domain||3.43|1.06|
92358624|NCT04938427|184622335|SUPERIORITY||Least Square Mean Difference|0.52|||||TWO_SIDED|95.0|-2.2|3.24||||||||3.24|-2.20|
92358625|NCT04938427|184622336|SUPERIORITY||Odds Ratio (OR)|1.67|||||TWO_SIDED|95.0|1.06|2.65||||||||2.65|1.06|
92358626|NCT04938427|184622337|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-6.37|||||TWO_SIDED|95.0|-16.83|4.16|||||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI are based on the Hodges-Lehmann estimation.|||4.16|-16.83|
92358627|NCT04938427|184622338|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-6.65|||||TWO_SIDED|95.0|-16.67|3.12|||||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI are based on the Hodges-Lehmann estimation.|||3.12|-16.67|
92358628|NCT04938427|184622339|SUPERIORITY||LS Mean Difference|2.47|||||TWO_SIDED|95.0|-1.74|6.67|||||A linear model with treatment group and age stratum as factors and baseline percentage as a covariate was used for analysis.|||6.67|-1.74|
92358629|NCT04938427|184622340|SUPERIORITY||LS Mean Difference|5.4|||||TWO_SIDED|95.0|1.9|8.9||||||||8.9|1.9|
92358630|NCT04938427|184622341|SUPERIORITY||LS Mean Difference|-0.9|||||TWO_SIDED|95.0|-3.7|2.0||||||||2.0|-3.7|
92358631|NCT00835354|184622355|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|89.2||||||90.0|86.2|92.2|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||92.2|86.2|
92358632|NCT00835354|184622356|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|90.5||||||90.0|88.9|92.1|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||92.1|88.9|
92358633|NCT00835354|184622357|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|90.7||||||90.0|89.1|92.3|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||92.3|89.1|
92358634|NCT05472870|184622365|SUPERIORITY|One-way ANOVA with repeated measures was used to examine differences in the effects of cTMS on the SRS. A P value \<0.05 was considered statistically significant for all analyses.|||||<|0.001||||||Bonferroni correction was used to adjust P values in post hoc analyses.|ANOVA|||All clinical behavioral data analysis was performed using Statistical Product and Service Solutions (SPSS) software (version 25.0). A P value \<0.05 was considered statistically significant for all analyses. One-way ANOVA with repeated measures was used to examine differences in the effects of cTMS on the SRS.||||<0.001
92358635|NCT01385995|184622375|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.57|TWO_SIDED|95.0|0.52|3.24|||Generalized Estimating Equation|Controlled for period and baseline 2 hour OGTT glucose level.||Based on an intent to treat approach a Generalized Estimating Equation (GEE) was used to estimate the effect of therapy (CPAP or Sham) on the odds of normalization of Impaired Glucose Tolerance (IGT). This model provides an estimate of the odds ratio of normalizing the 2-hour oral glucose tolerance test (OGTT) with CPAP compared with Sham-CPAP.||3.24|0.52|0.57
92358636|NCT01385995|184622376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.38|TWO_SIDED|95.0|-1.2|3.0|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, Apnea-Hypopnea Index (AHI), gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of glucose indices, in this case fasting glucose, between CPAP and sham-CPAP.||3.0|-1.2|0.38
92358637|NCT01385995|184622376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.3||||0.11|TWO_SIDED|95.0|-16.3|1.7|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between measures of glucose indices, in this case, 2 hour OGTT, and therapeutic CPAP vs. Sham.||1.7|-16.3|0.11
92358638|NCT01385995|184622376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.86|TWO_SIDED|95.0|-3.3|2.7|||Regression, Linear|||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of glucose indices, in this case fasting glucose, between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N=25.||2.7|-3.3|0.86
92358639|NCT01385995|184622376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6||||0.08|TWO_SIDED|95.0|-24.6|1.3|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of glucose indices, in this case 2-hour oral glucose tolerance test (OGTT) glucose, between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N= 25.||1.3|-24.6|0.08
92358640|NCT01385995|184622377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.14|TWO_SIDED|95.0|-3.4|0.5|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, Apnea-Hypopnea Index (AHI), gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of insulin indices, in this case, fasting insulin, between CPAP and sham-CPAP.||0.5|-3.4|0.14
92358641|NCT01385995|184622377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.7||||0.12|TWO_SIDED|95.0|-23.3|2.8|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, Apnea-Hypopnea Index (AHI), gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of insulin indices, in this case, 2-hour oral glucose tolerance test (OGTT) insulin, between CPAP and sham-CPAP.||2.8|-23.3|0.12
92358642|NCT01385995|184622377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.1|TWO_SIDED|95.0|-5.2|0.5|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of insulin indices, in this case fasting insulin, between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N=23.||0.5|-5.2|0.10
92164595|NCT01087762|184217762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.2|||<|0.001|TWO_SIDED|95.0|12.3|38.2||Difference of Certolizumab Pegol 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|Wald test and Confidence Interval (CI) calculation were performed without continuity correction.||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||38.2|12.3|<0.001
92222890|NCT04623242|184347129|SUPERIORITY||Ratio|1.255|STANDARD_DEVIATION|0.061|||TWO_SIDED|||||A priori threshold for statistical significance||||||||
92222891|NCT04623242|184347130|OTHER||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|1.094||0.805|TWO_SIDED|95.0|-2.46|1.92|||t-test, 2 sided|||||1.92|-2.46|0.805
92222892|NCT04623242|184347131|OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|1.823||0.512|TWO_SIDED|95.0|-4.83|2.43|||t-test, 2 sided|||Test of equality (any treatment difference)||2.43|-4.83|0.512
92222893|NCT04623242|184347132|OTHER|Test of equality (any treatment difference)|Median Difference (Final Values)|-0.641|STANDARD_ERROR_OF_MEAN|0.1115|<|0.001|TWO_SIDED|95.0|-0.864|-0.417|||t-test, 2 sided|||||-0.417|-0.864|<0.001
92222894|NCT04623242|184347133|OTHER|Test of equality (any difference in the proportion of increase in the endpoint)|Ratio|0.3443||||0.5573|TWO_SIDED||||||Chi-squared|||||||0.5573
92164596|NCT01087762|184217763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.7|||<|0.001|TWO_SIDED|95.0|25.4|50.0||Difference of Certolizumab Pegol 200 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|Wald test and Confidence Interval (CI) calculation were performed without continuity correction.||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||50.0|25.4|<0.001
92358643|NCT01385995|184622377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.7||||0.002|TWO_SIDED|95.0|-46.5|-10.9|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of insulin indices, in this case oral glucose tolerance test (OGTT) insulin, between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N=23.||-10.9|-46.5|0.002
92358644|NCT01385995|184622378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5||||0.18|TWO_SIDED|95.0|-17.6|3.8|||Regression, Linear|||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and Homeostasis Model Assessment-Insulin Resistance (HOMA-IR), between CPAP and sham-CPAP.||3.8|-17.6|0.18
92358645|NCT01385995|184622378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.1||||0.08|TWO_SIDED|95.0|-27.5|1.8|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of insulin resistance, in this case Homeostasis Model Assessment-Insulin Resistance (HOMA-IR), between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N=23.||1.8|-27.5|0.08
92358646|NCT01385995|184622379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.2|TWO_SIDED|95.0|-2.0|9.8|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, Apnea-Hypopnea Index (AHI), gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and the Insulin Sensivity Index, between CPAP and sham-CPAP.||9.8|-2.0|0.20
92358647|NCT01385995|184622379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.3||||0.002|TWO_SIDED|95.0|5.2|22.1|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and the Insulin Sensitivity Index (ISI(0,120)), between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N=23.||22.1|5.2|0.002
92358648|NCT02414841|184622380|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.932|TWO_SIDED|95.0|0.67|1.39|||Log Rank|Weighted|Performed as sensitivity analysis|||1.39|0.67|0.932
92358649|NCT02414841|184622381|SUPERIORITY|||||||0.328|||||||Chi-squared|||||||0.328
92358650|NCT05339659|184622395|OTHER|The point null hypothesis of the significance test was a difference in expected number of log ins of 0.|Mean Difference (Final Values)|3.55||||0.219|TWO_SIDED|95.0|-2.33|9.44|||Regression, Linear||mean difference=experimental-control|A priori power calculations estimated detectable differences with 80% power with type 1 error rate=0.05, assuming a two-sided unequal variance t-test (standard deviations of 2.0 and 7.0 in the control and experimental arms, respectively) and a total sample of n=50 equally split between arms. Given a final sample size of 19 (7 control, 12 experimental), we re-calculated the detectable mean difference with these sample sizes (maintaining all other original assumptions), which is 6.51 sessions.||9.44|-2.33|0.219
92164597|NCT01087762|184217763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.1|||<|0.001|TWO_SIDED|95.0|28.9|53.3||Difference of Certolizumab Pegol 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|Wald test and Confidence Interval (CI) calculation were performed without continuity correction.||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||53.3|28.9|<0.001
92164598|NCT01087762|184217764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.49|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.96|-1.01||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASFI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-1.01|-1.96|<0.001
92222895|NCT04623242|184347134|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|1.092||0.707|TWO_SIDED|95.0|-1.77|2.6|||t-test, 2 sided|||||2.60|-1.77|0.707
92222896|NCT04623242|184347135|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.44||0.283|TWO_SIDED|95.0|-1.35|0.4|||t-test, 2 sided|||||0.40|-1.35|0.283
92222897|NCT04623242|184347136|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.859||0.674|TWO_SIDED|95.0|-1.34|2.07|||t-test, 2 sided|||||2.07|-1.34|0.674
92222898|NCT04623242|184347137|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1.22|STANDARD_ERROR_OF_MEAN|1.828||0.507|TWO_SIDED|95.0|-4.86|2.42|||t-test, 2 sided|||||2.42|-4.86|0.507
92358651|NCT05339659|184622397|OTHER|The null hypothesis for the significance test is 0 difference in average number of days of use between arms.|Mean Difference (Final Values)|-22.12||||0.153|TWO_SIDED|95.0|-53.44|9.19|||Regression, Linear||mean difference=experimental-control|||9.19|-53.44|0.153
92358652|NCT05339659|184622398|OTHER|The null hypothesis for the significance test is a relative difference=0.|Risk Difference (RD)|0.095||||0.727|TWO_SIDED|95.0|-0.352|0.558|||Barnard's exact test||risk difference=experimental-control|||0.558|-0.352|0.727
92358653|NCT05339659|184622399|OTHER|The null hypothesis for the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|0.5||||0.325|TWO_SIDED|95.0|-0.6|1.61|||Regression, Linear||mean difference=experimental-control|||1.61|-0.60|0.325
92358654|NCT05339659|184622400|OTHER|The null hypothesis of the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|0.22||||0.745|TWO_SIDED|95.0|-1.28|1.72|||Regression, Linear||mean difference=experimental-control|||1.72|-1.28|0.745
92358655|NCT05339659|184622401|OTHER|The null hypothesis of the significance test is a risk difference=0.|Risk Difference (RD)|0.58||||0.009|TWO_SIDED|95.0|0.16|0.85|||Barnard's exact test||risk difference=experimental-control|||0.85|0.16|0.009
92358656|NCT05339659|184622404|OTHER|The null hypothesis for the significance test is a mean difference of 0 cigarettes/day between arms.|Mean Difference (Final Values)|1.39||||0.469|TWO_SIDED|95.0|-2.66|5.44|||Regression, Linear|Adjusted for baseline cigarettes/day.|mean difference=experimental-control|||5.44|-2.66|0.469
92358657|NCT05339659|184622405|OTHER|The null hypothesis for the significance test is a mean difference of 0 cigarettes/day between arms.|Mean Difference (Final Values)|-0.66||||0.614|TWO_SIDED|95.0|-3.48|2.16|||Regression, Linear|Adjusted for baseline cigarettes/day.|mean difference=experimental-control|||2.16|-3.48|0.614
92358658|NCT05339659|184622406|OTHER|The null hypothesis for the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|-0.14||||0.9|TWO_SIDED|95.0|-2.67|2.38|||Regression, Linear||mean difference=experimental-control|||2.38|-2.67|0.90
92358659|NCT05339659|184622407|OTHER|The null hypothesis for the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|-0.55||||0.632|TWO_SIDED|95.0|-3.03|1.93|||Regression, Linear||mean difference=experimental-control|||1.93|-3.03|0.632
92358660|NCT05339659|184622408|OTHER|The null hypothesis for the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|-1.31||||0.227|TWO_SIDED|95.0|-3.55|-0.94|||Regression, Linear||mean difference=experimental-control|||-0.94|-3.55|0.227
92358661|NCT05339659|184622409|OTHER|The null hypothesis for the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|-1.22||||0.274|TWO_SIDED|95.0|-3.58|1.15|||Regression, Linear||mean difference=experimental-control|||1.15|-3.58|0.274
92401542|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.65|||<|0.001|TWO_SIDED|95.0|0.68|2.61||P-value is for de novo, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 7.||2.61|0.68|<0.001
92358662|NCT05339659|184622413|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|0.04||||0.981|TWO_SIDED|95.0|-0.39|0.39|||Barnard's exact test||risk difference=experimental-control|||0.39|-0.39|0.981
92358663|NCT05339659|184622414|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|-0.01||||0.845|TWO_SIDED|95.0|-0.49|0.43|||Barnard's exact test||risk difference=experimental-control|||0.43|-0.49|0.845
92164599|NCT01087762|184217765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-2.38|-1.38||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASFI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-1.38|-2.38|<0.001
92164600|NCT01087762|184217766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.07|-1.12||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASDAI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-1.12|-2.07|<0.001
92358664|NCT05339659|184622415|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|-0.05||||0.56|TWO_SIDED|95.0|-0.47|0.28|||Barnard's exact test||||risk difference=experimental-control|0.28|-0.47|0.560
92164601|NCT01087762|184217767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-2.49|-1.5||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASDAI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-1.50|-2.49|<0.001
92222899|NCT04623242|184347138|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|1.706||0.553|TWO_SIDED|95.0|-4.41|2.38|||t-test, 2 sided|||||2.38|-4.41|0.553
92358665|NCT05339659|184622416|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|0.04||||0.981|TWO_SIDED|95.0|-0.39|0.39|||Barnard's exact test||risk difference=experimental-control|||0.39|-0.39|0.981
92358666|NCT05339659|184622417|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|-0.13||||0.632|TWO_SIDED|95.0|-0.49|0.34|||Barnard's exact test||risk difference=experimental-control|||0.34|-0.49|0.632
92358667|NCT05339659|184622418|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|-0.03|||>|0.999|TWO_SIDED|95.0|-0.48|0.45|||Barnard's exact test||risk difference=experimental-control|||0.45|-0.48|>0.999
92358668|NCT03396445|184622477|OTHER||Difference in Percent|6.2|||||TWO_SIDED|95.0|-21.2|32.8|||||Comparison based on Miettinen \& Nurminen method|Difference in percentage of participants who experienced a CR or PR (Arm 2b Boserolimab 30 mg Q3W + Pembrolizumab 200 mg Q3W \[Endometrial\] - Arm 1a Boserolimab 30 mg Q3W \[Endometrial\])||32.8|-21.2|
92358669|NCT03396445|184622477|OTHER||Difference in Percentage|-7.1|||||TWO_SIDED|95.0|-32.1|17.2|||||Comparison based on Miettinen \& Nurminen method|Difference in percentage of participants who experienced a CR or PR (Arm 2c Boserolimab 30 mg Q6W + Pembrolizumab 400 mg Q6W \[Endometrial\] - Arm 1a Boserolimab 30 mg \[Endometrial\])||17.2|-32.1|
92358670|NCT03396445|184622477|OTHER||Difference in Percentage|13.3|||||TWO_SIDED|95.0|-11.7|38.4|||||Comparison based on Miettinen \& Nurminen method|Difference in percentage of participants who experienced a CR or PR (Arm 2b Boserolimab 30 mg Q3W + Pembrolizumab 200 mg Q3W \[Endometrial\] - Arm 2c Boserolimab 30 mg Q6W + Pembrolizumab 400 mg Q6W \[Endometrial\])||38.4|-11.7|
92358671|NCT02964377|184622501|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0482|||||||t-test, 2 sided|||||||0.0482
92358672|NCT02964377|184622501|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0075|||||||t-test, 2 sided|||||||0.0075
92358673|NCT02964377|184622501|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0083|||||||t-test, 2 sided|||||||0.0083
92358674|NCT02964377|184622502|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0127|||||||t-test, 2 sided|||||||0.0127
92358675|NCT02964377|184622502|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0202|||||||t-test, 2 sided|||||||0.0202
92358676|NCT02964377|184622502|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0007|||||||t-test, 2 sided|||||||0.0007
92401543|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.178|TWO_SIDED|95.0|-0.3|1.63||P-value is for de novo, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 7.||1.63|-0.30|0.178
92164602|NCT01087762|184217768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASMI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-0.20|-0.60|<0.001
92164603|NCT01087762|184217769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.66|-0.23||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASMI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-0.23|-0.66|<0.001
92164604|NCT02311972|184217772|SUPERIORITY|Mean axillary admission temperature||||||0.7294|||||||t-test, 2 sided|||||||0.7294
92164605|NCT02311972|184217773|SUPERIORITY|||||||0.236|||||||t-test, 2 sided|||||||0.2360
92164606|NCT02311972|184217774|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92164607|NCT02311972|184217775|SUPERIORITY|||||||0.1089|||||||t-test, 2 sided|||||||0.1089
92164608|NCT02311972|184217776|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92164609|NCT02311972|184217777|SUPERIORITY|||||||0.4947|||||||t-test, 2 sided|||||||0.4947
92164610|NCT02311972|184217778|SUPERIORITY|Infant 007|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92358677|NCT02964377|184622503|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4 (Cohort 1)||||<0.0001
92358678|NCT02964377|184622503|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4 (Cohort 2)||||<0.0001
92358679|NCT02964377|184622503|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4 (Cohort 3)||||<0.0001
92358680|NCT02964377|184622503|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8 (Cohort 1)||||<0.0001
92358681|NCT02964377|184622503|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8 (Cohort 2)||||<0.0001
92358682|NCT02964377|184622503|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8 (Cohort 3)||||<0.0001
92222900|NCT04623242|184347139|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.596||0.098|TWO_SIDED|95.0|-2.18|0.19|||t-test, 2 sided|||||0.19|-2.18|0.098
92222901|NCT04623242|184347140|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|2.73|STANDARD_ERROR_OF_MEAN|1.98||0.173|TWO_SIDED|95.0|-1.22|6.68|||t-test, 2 sided|||||6.68|-1.22|0.173
92222902|NCT04623242|184347141|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|3.998||0.94|TWO_SIDED|95.0|-8.1|8.71|||t-test, 2 sided|||||8.71|-8.10|0.940
92222903|NCT04623242|184347142|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|3.07|STANDARD_ERROR_OF_MEAN|16.524||0.854|TWO_SIDED|95.0|-30.49|36.62|||t-test, 2 sided|||||36.62|-30.49|0.854
92222904|NCT04623242|184347143|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|4.88|STANDARD_ERROR_OF_MEAN|17.448||0.781|TWO_SIDED|95.0|-30.0|39.75|||t-test, 2 sided|||||39.75|-30.00|0.781
92222905|NCT04623242|184347144|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1.69|STANDARD_ERROR_OF_MEAN|4.21||0.689|TWO_SIDED|95.0|-10.05|6.67|||t-test, 2 sided|||||6.67|-10.05|0.689
92222906|NCT04623242|184347145|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.689||0.474|TWO_SIDED|95.0|-1.86|0.87|||t-test, 2 sided|||||0.87|-1.86|0.474
92222907|NCT04623242|184347146|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.637||0.886|TWO_SIDED|95.0|-1.36|1.17|||t-test, 2 sided|||||1.17|-1.36|0.886
92222908|NCT04623242|184347147|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.556||0.873|TWO_SIDED|95.0|-1.03|1.2|||t-test, 2 sided|||||1.20|-1.03|0.873
92358683|NCT02964377|184622506|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.002|||||||Regression, Linear|||Baseline vs. Week 4||||0.002
92358684|NCT02964377|184622506|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.001
92358685|NCT02964377|184622506|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
92358686|NCT02964377|184622506|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92164611|NCT02311972|184217778|SUPERIORITY|Infant 010|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92164612|NCT02311972|184217778|SUPERIORITY|Infant 015|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92164613|NCT02311972|184217778|SUPERIORITY|Infant 039|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92164614|NCT02311972|184217778|SUPERIORITY|Infant 040||||||0.3947|||||||t-test, 2 sided|||||||0.3947
92164615|NCT02393716|184217786|OTHER|Single arm study with a hypothesis test comparing to performance goal|Percentage|2.9|||<|0.001|ONE_SIDED|97.5||7.2|||Based on exact binomial distribution|||"The primary safety endpoint was tested against a predetermined safety Performance Goal (PG) using the following statistical hypotheses:~H0: p ≥ 20% vs. H1: p \< 20% where p is the proportion of subjects experiencing a MAE within 30 days of the index procedure in the target population of subjects treated with the Endurant Evo AAA Stent graft system and 20% is the safety PG."||7.2||<0.001
92164616|NCT02393716|184217787|OTHER|Single-arm study with a hypothesis test comparing to performance goal|Percentage|95.8|||<|0.001|ONE_SIDED|97.5|90.4||||Based on exact binomial distribution|||"The primary effectiveness endpoint was tested against a predetermined effectiveness PG using following statistical hypotheses:~H0: q ≤ 80% vs. H1: q \> 80% where q is the proportion of subjects who have a successful aneurysm treatment in the target population of subjects treated with the Endurant Evo AAA Stent graft system and 80% is the effectiveness PG."|||90.4|<0.001
92164617|NCT01924767|184217805|SUPERIORITY_OR_OTHER||Geometric Mean of ratio|43.661|||||TWO_SIDED|95.0|27.52|69.269|||Regression, Linear|||This was non-confirmatory testing, dose proportionality of dose from 2.5mg to 100mg for Cmax (single dose) was analysed.||69.269|27.520|
92164618|NCT01924767|184217805|SUPERIORITY_OR_OTHER||Geometric Mean of ratio|31.234|||||TWO_SIDED|95.0|12.193|80.011|||Regression, Linear|||This was non-confirmatory testing, dose proportionality of dose from 2.5mg to 100mg for Cmax,ss (Multiple dose) was analysed.||80.011|12.193|
92164619|NCT01924767|184217806|SUPERIORITY_OR_OTHER||Geometric mean of ratio|49.707|||||TWO_SIDED|95.0|33.49|73.776|||Regression, Linear|||This was non-confirmatory testing, dose proportionality of dose from 2.5mg to 100mg for AUC (0-infinity, single dose) was analysed.||73.776|33.490|
92164620|NCT01924767|184217806|SUPERIORITY_OR_OTHER||Geometric mean of ratio|37.632|||||TWO_SIDED|95.0|15.429|91.789|||Regression, Linear|||This was non confirmatory testing, dose proportionality of dose from 2.5mg to 100mg for AUC (0-infinity, at steady state, day 9) was analysed.||91.789|15.429|
92164621|NCT01924767|184217817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37645.43||||0.0067|TWO_SIDED|95.0|11021.57|64269.3||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.||The mean change from baseline (day -2) to day 8 and comparisons to placebo for Urine Glucose Excretion (AE(0-24)).||64269.30|11021.57|0.0067
92164622|NCT01924767|184217817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|82898.2|||<|0.0001|TWO_SIDED|95.0|55344.83|110451.6||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo is calculated.|The mean change from baseline (day -2) to day 8 and comparisons to placebo for Urine Glucose Excretion (AE(0-24)).||110451.6|55344.83|<0.0001
92164623|NCT01924767|184217817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|79982.89|||<|0.0001|TWO_SIDED|95.0|53087.22|106878.6||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean Difference to placebo is calculated.|The mean change from baseline (day -2) to day 8 and comparisons to placebo for Urine Glucose Excretion (AE(0-24)).||106878.6|53087.22|<0.0001
92164624|NCT01924767|184217817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|91306.96|||<|0.0001|TWO_SIDED|95.0|64685.41|117928.5||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean Difference to placebo was calculated|The mean change from baseline (day -2) to day 8 and comparisons to placebo for Urine Glucose Excretion (AE(0-24)).||117928.5|64685.41|<0.0001
92164625|NCT01924767|184217818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.456||||0.0449|TWO_SIDED|95.0|-30.543|-0.369||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent decrease in Mean daily glucose from baseline with treatment compared with placebo from baseline -2 to day 8||-0.369|-30.543|0.0449
92358687|NCT02964377|184622506|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92164626|NCT01924767|184217818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.467||||0.0042|TWO_SIDED|95.0|-39.085|-7.848||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent decrease in Mean daily glucose from baseline with treatment compared with placebo from baseline -2 to day 8||-7.848|-39.085|0.0042
92358688|NCT02964377|184622506|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92358689|NCT02964377|184622507|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
92358690|NCT02964377|184622507|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
92164627|NCT01924767|184217818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.956||||0.0521|TWO_SIDED|95.0|-30.057|0.145||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent decrease in Mean daily glucose from baseline with treatment compared with placebo from baseline -2 to day 8||0.145|-30.057|0.0521
92358691|NCT02964377|184622507|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
92358692|NCT02964377|184622507|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92358693|NCT02964377|184622507|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92358694|NCT02964377|184622507|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92164628|NCT01924767|184217818|SUPERIORITY_OR_OTHER||Difference to placebo|-10.602||||0.1676|TWO_SIDED|95.0|-25.848|4.644||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated|The mean percent decrease in Mean daily glucose from baseline with treatment compared with placebo from baseline -2 to day 8||4.644|-25.848|0.1676
92358695|NCT02964377|184622508|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
92358696|NCT02964377|184622508|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
92164629|NCT01924767|184217819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.269||||0.2239|TWO_SIDED|95.0|-19.162|4.624||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent change in Fasting Plasma Glucose from baseline with treatment compared with placebo from baseline -2 to day 8||4.624|-19.162|0.2239
92164630|NCT01924767|184217819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.844||||0.0421||95.0|-25.205|-0.484||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated|The mean percent change in Fasting Plasma Glucose from baseline with treatment compared with placebo from baseline -2 to day 8||-0.484|-25.205|0.0421
92164631|NCT01924767|184217819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.719||||0.6527|TWO_SIDED|95.0|-14.842|9.403||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent change in Fasting Plasma Glucose from baseline with treatment compared with placebo from baseline -2 to day 8||9.403|-14.842|0.6527
92222909|NCT04623242|184347148|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1.42|STANDARD_ERROR_OF_MEAN|1.66||0.394|TWO_SIDED|95.0|-4.71|1.87|||t-test, 2 sided|||||1.87|-4.71|0.394
92222910|NCT04623242|184347149|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.063||0.776|TWO_SIDED|95.0|-2.41|1.81|||t-test, 2 sided|||||1.81|-2.41|0.776
92222911|NCT04623242|184347150|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.909||0.283|TWO_SIDED|95.0|-2.78|0.82|||t-test, 2 sided|||||0.82|-2.78|0.283
92222912|NCT04623242|184347151|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.947||0.634|TWO_SIDED|95.0|-2.33|1.42|||t-test, 2 sided|||||1.42|-2.33|0.634
92222913|NCT04623242|184347152|SUPERIORITY||Ratio|1.155|STANDARD_DEVIATION|0.074|||TWO_SIDED|||||A priori threshold for statistical significance||||||||
92222914|NCT04623242|184347153|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.0562||0.726|TWO_SIDED|95.0|-0.093|0.132|||t-test, 2 sided|||||0.132|-0.093|0.726
92222915|NCT04623242|184347154|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.1056||0.439|TWO_SIDED|95.0|-0.13|0.295|||t-test, 2 sided|||||0.295|-0.130|0.439
92222916|NCT04623242|184347155|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.0168||0.967|TWO_SIDED|95.0|-0.034|0.033|||t-test, 2 sided|||||0.033|-0.034|0.967
92222917|NCT04623242|184347156|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.0377||0.669|TWO_SIDED|95.0|-0.059|0.092|||t-test, 2 sided|||||0.092|-0.059|0.669
92222918|NCT04623242|184347157|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-34.46|STANDARD_ERROR_OF_MEAN|116.419||0.768|TWO_SIDED|95.0|-264.14|195.22|||t-test, 2 sided|||||195.22|-264.14|0.768
92222919|NCT04623242|184347159|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-2737.62|STANDARD_ERROR_OF_MEAN|6558.467||0.677|TWO_SIDED|95.0|-15678.06|10202.81|||t-test, 2 sided|||||10202.81|-15678.06|0.677
92222920|NCT04623242|184347160|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1078.32|STANDARD_ERROR_OF_MEAN|1788.474||0.547|TWO_SIDED|95.0|-4603.28|2446.64|||t-test, 2 sided|||||2446.64|-4603.28|0.547
92222921|NCT04623242|184347161|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1935.91|STANDARD_ERROR_OF_MEAN|385.538|<|0.001|TWO_SIDED|95.0|-2717.64|-1154.18|||t-test, 2 sided|||||-1154.18|-2717.64|<0.001
92222922|NCT04623242|184347162|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-77.12|STANDARD_ERROR_OF_MEAN|23.014||0.003|TWO_SIDED|95.0|-124.56|-29.68|||t-test, 2 sided|||||-29.68|-124.56|0.003
92222923|NCT04623242|184347163|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|30.89|STANDARD_ERROR_OF_MEAN|35.54||0.388|TWO_SIDED|95.0|-40.04|101.83|||t-test, 2 sided|||||101.83|-40.04|0.388
92401544|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81||||0.093|TWO_SIDED|95.0|-0.14|1.75||P-value is for de novo, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 8.||1.75|-0.14|0.093
92164632|NCT01924767|184217819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.998||||0.1318|TWO_SIDED|95.0|-20.818|2.822||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent change in Fasting Plasma Glucose from baseline with treatment compared with placebo from baseline -2 to day 8||2.822|-20.818|0.1318
92164633|NCT03621761|184217882|SUPERIORITY||Slope|1.774||||0.3451|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of CBT monotherapy vs. combination therapy (reference) on total MFIS score, in linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline MFIS score. Output reflects models that were imputed for missing data.||||0.3451
92164634|NCT03621761|184217882|SUPERIORITY||Slope|1.3094||||0.4834|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of modafinil monotherapy vs. combination therapy (reference) on total MFIS score, in linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline MFIS score. Output reflects models that were imputed for missing data.||||0.4834
92164635|NCT03621761|184217883|SUPERIORITY||Slope|0.4077||||0.257|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of CBT monotherapy vs. combination therapy (reference) on change in EMA fatigue intensity NRS score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline EMA fatigue intensity score.||||0.2570
92164636|NCT03621761|184217883|SUPERIORITY||Slope|-0.2452||||0.5017|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of modafinil monotherapy vs. combination therapy (reference) on change in EMA fatigue intensity NRS score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline EMA fatigue intensity score.||||0.5017
92164637|NCT03621761|184217884|SUPERIORITY||Slope|0.095||||0.154|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of CBT monotherapy vs. combination therapy (reference) on change in EMA fatigue interference NRS score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline EMA fatigue interference score.||||0.154
92164638|NCT03621761|184217884|SUPERIORITY||Slope|0.034||||0.61|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of modafinil monotherapy vs. combination therapy (reference) on change in EMA fatigue interference NRS score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline EMA fatigue interference score.||||0.610
92164639|NCT03621761|184217885|SUPERIORITY||Slope|0.00427||||0.4955|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of CBT monotherapy vs. combination therapy (reference) on change in fatigability score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline fatigability score.||||0.4955
92164640|NCT03621761|184217885|SUPERIORITY||Slope|-0.00948||||0.1333|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of modafinil monotherapy vs. combination therapy (reference) on change in fatigability score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline fatigability score.||||0.1333
92164641|NCT00470106|184217886|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Not corrected for multiple comparisons because it is primary.|mixed model|same analysis as for secondary outcome variable.||||||<.001
92164642|NCT00470106|184217887|SUPERIORITY_OR_OTHER||||||<|0.1||||||A priori threshold for significance was P \< .05|mixed model|Same as for the primary variable.||||||<.10
92164643|NCT01256034|184217894|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||||||<0.05
92164644|NCT01183780|184217900|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.844||||0.0219|TWO_SIDED|95.0|0.73|0.976|||Log Rank|The analysis was performed on stratified data.|The estimation was performed on stratified data.|||0.976|0.730|0.0219
92164645|NCT01183780|184217901|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.793||||0.0005|TWO_SIDED|95.0|0.697|0.903|||Log Rank|Analysis was performed on stratified data.|Analysis was performed on stratified data.|||0.903|0.697|0.0005
92164646|NCT01183780|184217902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6336|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.6336
92164647|NCT01596504|184217944|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-6.01|STANDARD_ERROR_OF_MEAN|1.06|<|0.0001|ONE_SIDED|95.0|-7.77|||p-values ordered(p1≤p2) as per rules:if p2≤0.05: lixisenatide superior to liraglutide (both doses);if p2\>0.05 \& p1≤0.025:lixisenatide superior to dose of liraglutide associated with p1;if p2\>0.05 \& p1\>0.025:no comparison as statistically significant.|Linear fixed effects model|The threshold for significance at 0.05 level.|Lixisenatide vs Liraglutide 1.2 mg|Analysis was performed using linear fixed effects model with treatment groups and stratification factors (HbA1c levels on Day -7 \[\<8% and \>=8%\], use of metformin at screening \[yes or no\]) and the study site) as fixed effects and baseline plasma glucose AUC from 0.5 to 4.5 hours as covariate. To address multiplicity issue and ensure overall 1-sided level of 5%, Hochberg method was used for testing procedure of comparison between lixisenatide vs liraglutide 1.2 mg or 1.8 mg.|||-7.77|<0.0001
92164648|NCT01596504|184217944|SUPERIORITY_OR_OTHER||LS mean difference|-4.61|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|ONE_SIDED|95.0|-6.34|||p-values ordered(p1≤p2) as per rules:if p2≤0.05:lixisenatide superior to liraglutide (both doses);if p2\>0.05 \& p1≤0.025:lixisenatide superior to dose of liraglutide associated with p1;if p2\>0.05 \& p1\>0.025: no comparison as statistically significant.|Linear fixed effects model|The threshold for significance at 0.05 level.|Lixisenatide vs Liraglutide 1. 8 mg|Analysis was performed using linear mixed effects model with treatment groups and stratification factors (HbA1c levels on Day -7 \[\<8% and \>=8%\], use of metformin at screening \[yes or no\]), and the study site) as fixed effects and baseline plasma glucose AUC from 0.5 to 4.5 hours as covariate. To address multiplicity issue and ensure overall 1-sided level of 5%, Hochberg method was used for testing procedure of comparison between lixisenatide vs liraglutide 1.2 mg or 1.8 mg.|||-6.34|<0.0001
92164649|NCT02314117|184217961|SUPERIORITY||Hazard Ratio (HR)|0.753|||||TWO_SIDED|95.0|0.607|0.935||||||||0.935|0.607|
92222924|NCT04623242|184347164|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|6.624||0.909|TWO_SIDED|95.0|-13.97|12.45|||t-test, 2 sided|||||12.45|-13.97|0.909
92276625|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.51||||0.1236|TWO_SIDED|95.0|0.9|2.54|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.54|0.90|0.1236
92276626|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.21||||0.4998|TWO_SIDED|95.0|0.7|2.1|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.10|0.70|0.4998
92276627|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.64||||0.0365|TWO_SIDED|95.0|1.03|2.61|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.61|1.03|0.0365
92358697|NCT02964377|184622508|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
92276628|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.52||||0.0822|TWO_SIDED|95.0|0.95|2.43|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.43|0.95|0.0822
92276629|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.19||||0.4049|TWO_SIDED|95.0|0.79|1.78|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.78|0.79|0.4049
92276630|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.23||||0.2951|TWO_SIDED|95.0|0.84|1.8|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.80|0.84|0.2951
92276631|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.53||||0.0248|TWO_SIDED|95.0|1.06|2.2|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.20|1.06|0.0248
92276632|NCT01360632|184454762|SUPERIORITY_OR_OTHER||Ratio of response rate|1.51||||0.0326|TWO_SIDED|95.0|1.03|2.21|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.21|1.03|0.0326
92358698|NCT02964377|184622508|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92358699|NCT02964377|184622508|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92276633|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|0.87||||0.7993|TWO_SIDED|95.0|0.3|2.55|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.55|0.30|0.7993
92276634|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|0.11||||0.0118|TWO_SIDED|95.0|0.01|0.93|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||0.93|0.01|0.0118
92358700|NCT02964377|184622508|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92358701|NCT02964377|184622509|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.012|||||||Regression, Linear|||Baseline vs. Week 4||||0.012
92222925|NCT04623242|184347165|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.0593||0.004|TWO_SIDED|95.0|0.059|0.296|||t-test, 2 sided|||||0.296|0.059|0.004
92358702|NCT02964377|184622509|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
92358703|NCT02964377|184622509|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
92222926|NCT04623242|184347166|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|1.355||0.754|TWO_SIDED|95.0|-3.21|2.35|||t-test, 2 sided|||||2.35|-3.21|0.754
92358704|NCT02964377|184622509|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.01|||||||Regression, Linear|||Baseline vs. Week 8||||0.01
92358705|NCT02964377|184622509|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92164650|NCT02314117|184217962|SUPERIORITY||Hazard Ratio (HR)|0.962|||||TWO_SIDED|95.0|0.801|1.156||||||||1.156|0.801|
92358706|NCT02964377|184622509|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
92358707|NCT02964377|184622511|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.01|||||||Regression, Linear|||Baseline vs. Week 4||||0.01
92358708|NCT02964377|184622511|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.019|||||||Regression, Linear|||Baseline vs. Week 4||||0.019
92358709|NCT02964377|184622511|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.001
92358710|NCT02964377|184622511|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.05|||||||Regression, Linear|||Baseline vs. Week 8||||0.05
92358711|NCT02964377|184622512|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.054||||||p-value for difference at Week 4|Regression, Linear|||Baseline vs. Week 8||||0.054
92358712|NCT02964377|184622512|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.009|||||||Regression, Linear|||Baseline vs. Week 4||||0.009
92358713|NCT02964377|184622513|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.025|||||||Regression, Linear|||Baseline vs. Week 8||||0.025
92358714|NCT02964377|184622513|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.026|||||||Regression, Linear|||Baseline vs. Week 4||||0.026
92358715|NCT02964377|184622514|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.006|||||||Regression, Linear|||Baseline vs. Week 4||||0.006
92358716|NCT02964377|184622514|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.002|||||||Regression, Linear|||Baseline vs. Week 8||||0.002
92358717|NCT03360344|184622533|OTHER|non-parametric tests were used as data was not normally distributed.||||||0.48|||||||Wilcoxan signed Rank|||statistical analysis for wrist||||0.48
92358718|NCT03360344|184622533|OTHER|nonparametric test were used as the distribution was not normal.||||||0.99|||||||Wilcoxan Signed Rank|||statistical analysis for forearm||||.99
92358719|NCT03360344|184622534|OTHER|||||||0.001|||||||ANOVA|||statistical analysis for forearm||||.001
92164651|NCT02314117|184217963|SUPERIORITY||Hazard Ratio (HR)|0.926|||||TWO_SIDED|95.0|0.774|1.108||||||||1.108|0.774|
92164652|NCT02314117|184217966|SUPERIORITY||Hazard Ratio (HR)|0.699|||||TWO_SIDED|95.0|0.569|0.859||||||||0.859|0.569|
92164653|NCT02314117|184217967|SUPERIORITY||Hazard Ratio (HR)|0.657|||||TWO_SIDED|95.0|0.499|0.866||||||||0.866|0.499|
92164654|NCT02314117|184217968|SUPERIORITY||Hazard Ratio (HR)|1.013|||||TWO_SIDED|95.0|0.77|1.332||||||||1.332|0.770|
92164655|NCT02314117|184217970|SUPERIORITY||Hazard Ratio (HR)|1.117|||||TWO_SIDED|95.0|0.79|1.58||||||||1.580|0.790|
92164656|NCT02716324|184217974|SUPERIORITY||Beta Coefficient|0.001||||0.871|TWO_SIDED|95.0|-0.01|0.012|||GLS random-effects model|||Random effects models regressed VPRS scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. We examined intervention X time interaction term for statistical significance.||0.012|-0.010|.871
92164657|NCT02716324|184217975|SUPERIORITY||Beta coefficient|0.001||||0.499|TWO_SIDED|95.0|-0.002|0.004|||Random effects model|||Random effects models regressed GAS scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. We examined intervention X time interaction term for statistical significance.||0.004|-0.002|0.499
92164658|NCT02716324|184217976|SUPERIORITY|||||||0.718|||||||Chi-squared|||Differences in proportions between the two groups in use of any services were assessed using the Chi-square Test.||||0.718
92164659|NCT02716324|184217976|SUPERIORITY|||||||0.903|||||||Chi-squared|||Differences in proportions between the two groups in use of ambulatory mental health services were assessed using the Chi-square Test.||||0.903
92164660|NCT02716324|184217976|SUPERIORITY|||||||0.915|||||||Chi-squared|||Differences in proportions between the two groups in use of any inpatient mental health services were assessed using the Chi-square Test.||||0.915
92164661|NCT02716324|184217977|SUPERIORITY|||||||0.31|||||||Chi-squared|||Differences in proportions between the two groups in use of any mental health services during the study period were assessed using the Chi-square Test.||||0.310
92358720|NCT03360344|184622534|OTHER|||||||0.001|||||||ANOVA|||statistical analysis for wrist||||.001
92358721|NCT03360344|184622535|OTHER|||||||0.06|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.06
92358722|NCT03360344|184622536|OTHER|||||||0.01|||||||ANCOVA|||||||.01
92358723|NCT03360344|184622537|OTHER|||||||0.001|||||||Kruskal-Wallis|||||||.001
92358724|NCT01765400|184622545|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92358725|NCT01342666|184622549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1154|STANDARD_ERROR_OF_MEAN|0.9057|<|0.0001|TWO_SIDED|95.0|3.2925|6.9383||We did only one comparison. The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided||We compare de mean difference of the delta (final-basal levels) between groups. The values posted are the difference found in the tomato group in comparison of the control group. The mean represent the increment of HDL-c in the tomato group.|We test the effect of two daily roma tomatoes during one month in HDL-c levels. We estimate the sample size to have a 80% study power.||6.9383|3.2925|<0.0001
92358726|NCT01342666|184622549|SUPERIORITY_OR_OTHER||Slope|5.656|STANDARD_ERROR_OF_MEAN|0.789|<|0.0001|TWO_SIDED|95.0|4.027|7.232||A priori p value of \<0.05|Regression, Linear|Adjusted for adherence, smoking, age, gender, waist to hip ratio, triglycerides, body mass index, exercise, omega 3, alcohol, fish, simple sugars.|Parameters of the model: F= 4.06; r = 0.798; r2 = 0.638; p=0.001|||7.232|4.027|<0.0001
92358727|NCT00688740|184622562|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.795||||0.0043|TWO_SIDED|95.0|0.679|0.932||Pairwise stratified log-rank test on the number of positive axillary nodes as per randomization|Log Rank|||||0.932|0.679|0.0043
92358728|NCT00688740|184622563|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.742||||0.002|TWO_SIDED|95.0|0.613|0.898||Pairwise stratified log-rank test on the number of positive axillary nodes as per randomization|Log Rank|||||0.898|0.613|0.0020
92222927|NCT04623242|184347168|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|229362.3|STANDARD_ERROR_OF_MEAN|14863.08|<|0.001|TWO_SIDED|95.0|199264.32|259460.27|||t-test, 2 sided|||||259460.27|199264.32|<0.001
92222928|NCT04623242|184347169|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|32906.6|STANDARD_ERROR_OF_MEAN|1697.541|<|0.001|TWO_SIDED|95.0|29406.49|36406.72|||t-test, 2 sided|||||36406.72|29406.49|<0.001
92222929|NCT04623242|184347170|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|1286.35|STANDARD_ERROR_OF_MEAN|140.692|<|0.001|TWO_SIDED|95.0|1002.79|1569.9|||t-test, 2 sided|||||1569.90|1002.79|<0.001
92222930|NCT04623242|184347171|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|9867.26|STANDARD_ERROR_OF_MEAN|1212.232|<|0.001|TWO_SIDED|95.0|7419.38|12315.15|||t-test, 2 sided|||||12315.15|7419.38|<0.001
92222931|NCT02469090|184347215|SUPERIORITY||LS mean differnce|-7.6|STANDARD_ERROR_OF_MEAN|1.96||0.0002|TWO_SIDED|95.0|-11.5|-3.7||The null-hypothesis to be tested was: H0: APL-130277 is the same as placebo in its effect on the motor function against the 2-sided alternative: H1: Either of the treatment groups is superior to the other in its effect on the motor function.|LS mean difference|To control the family-wise type I error rate, the primary and secondary end points were tested in hierarchical order in the order presented||Mixed effects model for repeated measures (MMRM) was used to estimate the treatment difference(APL-130277-placebo) Observed change from pre-dose MDS-UPDRS Part III score values after 30 minutes were response values. Treatment group, visit and the interaction between the treatment group and visit were fixed factors. Change from pre-dose in MDS-UPDRS Part III score after 30 minutes at the last TV at which the randomized dose was given up through TV6 was used as a covariate||-3.7|-11.5|0.0002
92222932|NCT02469090|184347216|SUPERIORITY||Adjusted odds ratio|2.81||||0.0426|TWO_SIDED|95.0|1.036|7.644|||Adjusted Odds Ratio|||"This was analyzed using a generalized linear mixed model (with logit link function) for binomial data. The model included the observed outcomes as the response values, with treatment group, visit, and the interaction between treatment group and visit as fixed factors and the ON/OFF assessment at the last open-label titration visit at which the randomized dose was given as a covariate."||7.644|1.036|0.0426
92222933|NCT02469090|184347217|SUPERIORITY||Adjusted odds ratio|2.8||||0.0501|TWO_SIDED|95.0|1.0|7.84||The hierarchical testing stopped at this endpoint due to non-significant result. P-values for endpoints after this endpoint have not been presented and the confidence interval presented are unadjusted for multiplicity.|Adjusted odds ratio|||"This was analyzed using a generalized linear mixed model (with logit link function) for binomial data. The model included the observed outcomes as the response values, with treatment group, visit, and the interaction between treatment group and visit as fixed factors and the ON/OFF assessment at the last open-label titration visit at which the randomized dose was given as a covariate."||7.84|1.00|0.0501
92222934|NCT02469090|184347220|SUPERIORITY||LS mean difference|-1.1|||||TWO_SIDED|95.0|-3.159|0.959||||||||0.959|-3.159|
92222935|NCT02469090|184347221|SUPERIORITY||LS mean difference|47.6|||||TWO_SIDED|95.0|28.84|66.36||||||||66.36|28.84|
92222936|NCT02469090|184347222|SUPERIORITY||LS mean difference|1.979|||||TWO_SIDED|95.0|-2.162|6.12||||||||6.120|-2.162|
92222937|NCT02469090|184347223|SUPERIORITY||LS mean difference|-3.4|||||TWO_SIDED|95.0|-6.7|-0.2||||||||-0.2|-6.7|
92222938|NCT02469090|184347224|SUPERIORITY||Hazard ratio|3.4|||||TWO_SIDED|95.0|1.99|5.69||||||Median Time to effect for APL-130277 versus placebo patients||5.69|1.99|
92222939|NCT01485627|184347225|SUPERIORITY||Adjusted mean difference in difference|0.34||||0.05|TWO_SIDED|95.0|0.06|0.62|||Mixed Models Analysis||Models included fixed-effects terms for phase (pre- vs postrandomization), study arm, and the Phase\*Arm interaction. Estimated effect is the between-arm difference in adjusted mean difference from prerandomization to postrandomization samples.|The primary outcome was a composite of 4 prespecified communication measures matched to the goals of communication training, as follows: Active Patient Participation Coding \[APPC\], Verona VR-CoDES, Prognostic and Treatment Choices \[PTCC\] Informing subscale, and PTCC Balanced Framing subscale. The 4 measures were z-score transformed and averaged to produce the composite measure.||0.62|0.06|0.05
92222940|NCT01485627|184347226|SUPERIORITY|||||||0.214|||||||Mixed Models Analysis|||||||0.214
92222941|NCT01485627|184347227|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.05|TWO_SIDED|95.0|-0.56|0.37|||Mixed Models Analysis|||||0.37|-0.56|0.05
92222942|NCT01485627|184347229|SUPERIORITY|||||||0.677|||||||Mixed Models Analysis|||||||0.677
92222943|NCT01485627|184347230|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||0.19
92222944|NCT01425203|184347231|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Percentages|29.2|||<|0.0001|TWO_SIDED|95.0|16.4|41.5||Multiplicity adjustment for controlling type 1 error for the primary comparison was based on the step-down approach.|Miettinen and Nurminen Method||The difference, 95% CI and p-value are adjusted by stratification factors of IL-28B genotype and previous treatment, based on the Miettinen \& Nurminen method.|The primary statistical comparison was conducted on the FAS using the stratified Miettinen and Nurminen method at alpha level of 0.050 adjusted for stratification factors, including IL28B genotype and previous treatment as specified at the time of randomization.||41.5|16.4|<0.0001
92222945|NCT01425203|184347232|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Percentages|30.2|||<|0.0001|TWO_SIDED|95.0|17.3|42.5||Multiplicity adjustment for controlling type 1 error for key secondary comparison based on a step-down approach. Key-secondary comparison was tested only if statistical significance of primary comparison was met at alpha level of 0.050.|Miettinen and Nurminen Method||The difference, 95% CI and p-value are adjusted by stratification factors of IL-28B genotype and previous treatment, based on the Miettinen \& Nurminen method.|The key secondary statistical comparison was conducted on the mITT using the stratified Miettinen and Nurminen method at alpha level of 0.050 adjusted for stratification factors.||42.5|17.3|<0.0001
92222946|NCT01425203|184347233|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Percentages|45.6|||<|0.0001|TWO_SIDED|95.0|33.2|57.0|||Miettinen and Nurminen Method||The difference, 95% CI and p-value are adjusted by stratification factors of IL-28B genotype and previous treatment, based on the Miettinen \& Nurminen method.|The percentage of participants achieving EVR at TW8 was compared using the stratified Miettinen and Nurminen method at alpha level of 0.050 adjusted for stratification factors in the FAS population.||57.0|33.2|<0.0001
92358729|NCT01098747|184622573|SUPERIORITY_OR_OTHER||Least-square (LS) mean difference|24.21|||<|0.001|TWO_SIDED|95.0|19.32|29.09||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms.|ANOVA|||Treatment difference (Ibuprofen sodium - placebo) and 95 percent (%) confidence interval (CI):based on LS means from analysis of variance(ANOVA). Type I error controlled at 5% significance level (2-sided) by testing primary endpoints sequentially: Ibuprofen sodium (IBU Na) versus(vs.) Placebo for SPRID 0-8 then time to meaningful relief(TMR), IBU Na vs. IBU (Advil and Motrin IB) for TMR. If comparison at preceding step was significant only then subsequent comparisons were significant.||29.09|19.32|<0.001
92358730|NCT01098747|184622574|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|12.8|||<|0.001|TWO_SIDED|95.0|6.78|24.15||p-value was calculated using the PH model with treatment, baseline PSR and gender terms.|Proportional hazards model|||Hazard Ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model. Type I error controlled at 5% significance level (2-sided) by testing primary endpoints sequentially: IBU Na vs. Placebo for SPRID 0-8 then TMR, IBU Na vs. IBU (Advil and Motrin IB) for TMR. If comparison at preceding step was significant only then subsequent comparisons were significant.||24.15|6.78|<0.001
92358731|NCT01098747|184622574|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.59|||<|0.001|TWO_SIDED|95.0|1.22|2.06||p-value was calculated using the PH model with treatment, baseline PSR and gender terms.|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model. Type I error controlled at 5% significance level (2-sided) by testing primary endpoints sequentially: IBU Na vs. Placebo for SPRID 0-8 then TMR, IBU Na vs. IBU (Advil and Motrin IB) for TMR. If comparison at preceding step was significant only then subsequent comparisons were significant.||2.06|1.22|<0.001
92358732|NCT01098747|184622575|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|12.36|||<|0.001|TWO_SIDED|95.0|6.51|23.46||p-value was calculated using the PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||23.46|6.51|<0.001
92358733|NCT01098747|184622575|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8|||<|0.001|TWO_SIDED|95.0|1.38|2.34||p-value was calculated using the PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||2.34|1.38|<0.001
92358734|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|0.35||||0.007|TWO_SIDED|95.0|0.1|0.6||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.60|0.10|0.007
92358735|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|0.24||||0.01|TWO_SIDED|95.0|0.06|0.42||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.42|0.06|0.010
92358736|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|1.47|||<|0.001|TWO_SIDED|95.0|1.1|1.84||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95 % CI were calculated based on LS mean from the ANOVA model.||1.84|1.10|<0.001
92358737|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|0.53|||<|0.001|TWO_SIDED|95.0|0.27|0.8||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.80|0.27|<0.001
92358738|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|2.22|||<|0.001|TWO_SIDED|95.0|1.84|2.6||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.60|1.84|<0.001
92358739|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|0.39||||0.006|TWO_SIDED|95.0|0.12|0.66||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.66|0.12|0.006
92358740|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|2.39|||<|0.001|TWO_SIDED|95.0|2.0|2.77||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.77|2.00|<0.001
92401545|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.52||||0.003|TWO_SIDED|95.0|0.53|2.51||P-value is for de novo, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 7.||2.51|0.53|0.003
92276635|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|1.5||||0.2825|TWO_SIDED|95.0|0.71|3.16|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||3.16|0.71|0.2825
92164662|NCT02716324|184217977|SUPERIORITY|||||||0.251|||||||Chi-squared|||Differences in proportions between the two groups in use of ambulatory mental health services during the study period were assessed using the Chi-square Test.||||0.251
92164663|NCT02716324|184217977|SUPERIORITY|||||||1|||||||Chi-squared|||Differences in proportions between the two groups in use of inpatient mental health services during the study period were assessed using the Chi-square Test.||||1.00
92358741|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|0.33||||0.022|TWO_SIDED|95.0|0.05|0.6||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.60|0.05|0.022
92358742|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|2.39|||<|0.001|TWO_SIDED|95.0|2.0|2.79||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.79|2.00|<0.001
92358743|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|0.13||||0.369|TWO_SIDED|95.0|-0.15|0.41||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.41|-0.15|0.369
92358744|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|2.19|||<|0.001|TWO_SIDED|95.0|1.78|2.6||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.60|1.78|<0.001
92358745|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|-0.12||||0.42|TWO_SIDED|95.0|-0.42|0.17||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.17|-0.42|0.420
92358746|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|2.02|||<|0.001|TWO_SIDED|95.0|1.58|2.45||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.45|1.58|<0.001
92358747|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|-0.23||||0.151|TWO_SIDED|95.0|-0.54|0.08||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.08|-0.54|0.151
92358748|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|1.88|||<|0.001|TWO_SIDED|95.0|1.43|2.33||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.33|1.43|<0.001
92358749|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|-0.23||||0.16|TWO_SIDED|95.0|-0.56|0.09||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.09|-0.56|0.160
92358750|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|1.63|||<|0.001|TWO_SIDED|95.0|1.16|2.1||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.10|1.16|<0.001
92358751|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|-0.33||||0.055|TWO_SIDED|95.0|-0.67|0.01||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.01|-0.67|0.055
92358752|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|1.39|||<|0.001|TWO_SIDED|95.0|0.91|1.88||p-value was calculated using ANOVA model with treatment, baseline PSR and gender PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||1.88|0.91|<0.001
92358753|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|-0.37||||0.04|TWO_SIDED|95.0|-0.71|-0.02||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||-0.02|-0.71|0.040
92358754|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|1.2|||<|0.001|TWO_SIDED|95.0|0.71|1.69||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||1.69|0.71|<0.001
92164664|NCT02716324|184217978|SUPERIORITY||Beta coefficient|0.0||||0.662|TWO_SIDED|95.0|-0.001|0.001|||Random effects model|||Random effects models regressed Parent-reported PRO School Performance Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.662
92164665|NCT02716324|184217978|SUPERIORITY||Beta coefficient|0.001||||0.075|TWO_SIDED|95.0|0.0|0.002|||Random effects model|||Random effects models regressed Child PRO School Performance Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.002|0.000|0.075
92401546|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72||||0.157|TWO_SIDED|95.0|-0.28|1.71||P-value is for de novo, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 1.||1.71|-0.28|0.157
92222947|NCT02275338|184347254|OTHER|||||||0.0055||||||The expected proportion of responders using Lanreotide was 50%, 1 sided test, 2.5% significance level alpha and power of 80% using Z-test for binomial proportion.|Binomial test|||One sided binomial test to compare percentage of responding subjects to theoretical proportion of 30%.||||0.0055
92222948|NCT03603496|184347267|SUPERIORITY||Risk Ratio (RR)|1.18||||0.19|TWO_SIDED|95.0|0.92|1.5|||Chi-squared||Comparing TTCM as numerator, QL as denominator (reference group)|Two-stage multiple imputation techniques were used to estimate the missing smoking outcomes. 1st stage: we imputed missing data from surveys. 2nd stage: we imputed missing data from biochemical sample collection. Null hypothesis was no difference between arms in biochemically-validated past 7-day abstinence from cigarettes and other conventional tobacco products at 6-months. Sample of 1350 (675/group) was planned to detect a 6.5% difference (23.0% vs. 16.5%) with 84% power and 2-sided p\<0.05.||1.50|0.92|.19
92401547|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.063|TWO_SIDED|95.0|-0.05|1.82||P-value is for de novo, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 9.||1.82|-0.05|0.063
92222949|NCT03603496|184347268|SUPERIORITY||Risk Ratio (RR)|1.22||||0.002|TWO_SIDED|95.0|1.08|1.35|||Chi-squared||Numerator is TTCM, denominator (reference group) is QL|Multiple imputation techniques were used to estimate the missing smoking outcomes. The null hypothesis was no difference between study arms.||1.35|1.08|.002
92358755|NCT01098747|184622576|SUPERIORITY_OR_OTHER||LS mean difference|-0.44||||0.015|TWO_SIDED|95.0|-0.79|-0.08||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||-0.08|-0.79|0.015
92358756|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||<|0.001|TWO_SIDED|95.0|0.13|0.46||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.46|0.13|<0.001
92358757|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|0.22|||<|0.001|TWO_SIDED|95.0|0.11|0.34||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.34|0.11|<0.001
92358758|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|0.94|||<|0.001|TWO_SIDED|95.0|0.7|1.19||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.19|0.70|<0.001
92358759|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|0.38|||<|0.001|TWO_SIDED|95.0|0.2|0.55||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.55|0.20|<0.001
92401548|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|||<|0.001|TWO_SIDED|95.0|0.7|2.66||P-value is for de novo, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 9.||2.66|0.70|<0.001
92222950|NCT03603496|184347269|SUPERIORITY||Risk Ratio (RR)|1.23||||0.001|TWO_SIDED|95.0|1.09|1.37|||Chi-squared||Numerator is TTCM, denominator (reference group) is QL|Multiple imputation techniques were used to estimate the missing smoking outcomes. The null hypothesis was no difference between study arms.||1.37|1.09|.001
92222951|NCT03603496|184347270|SUPERIORITY||Risk Ratio (RR)|1.13||||0.079|TWO_SIDED|95.0|0.98|1.29|||Chi-squared||Numerator is TTCM, denominator (reference group) is QL|Multiple imputation techniques were used to estimate the missing smoking outcomes. The null hypothesis was no difference between study arms.||1.29|0.98|.079
92222952|NCT03603496|184347271|SUPERIORITY||Risk Ratio (RR)|1.32|||<|0.0001|TWO_SIDED|95.0|1.21|1.44|||Chi-squared|||Participants lost to follow-up or with missing data are counted as having received no treatment. The null hypothesis was no difference between study arms.||1.44|1.21|<.0001
92222953|NCT03603496|184347272|SUPERIORITY||Risk Ratio (RR)|1.35|||<|0.0001|TWO_SIDED|95.0|1.23|1.5|||Chi-squared|||Participants lost to follow-up or with missing data are counted as having received no treatment. The null hypothesis was no difference between study arms.||1.50|1.23|<.0001
92222954|NCT03603496|184347273|SUPERIORITY||Risk Ratio (RR)|1.31||||0.033|TWO_SIDED|95.0|1.02|1.66|||Chi-squared||Numerator is TTCM, denominator (reference group) is QL|Multiple imputation techniques were used to estimate the missing smoking outcomes. The null hypothesis was no difference between study arms.||1.66|1.02|.033
92222955|NCT00004259|184347278|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.36|TWO_SIDED|95.0|0.67|1.32|||Log Rank|||The hypothesized median survival time was 36 months for the RT+BCNU/CCNU arm and 54 months for the RT+TMZ arm, corresponding to a hazard ratio (HR) of 0.67. A sample size of 216 evaluable patients per arm would provide 90% power with a one-sided significance level of 0.05. The final analysis was planned after 155 deaths were observed. Interim efficacy analyses were planned after 52 and 104 deaths, with an interim futility analysis planned at 128 deaths.||1.32|0.67|0.36
92222956|NCT00004259|184347280|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.46|TWO_SIDED|95.0|0.55|1.16||2-sided|Gray's test||Reference level = RT + BCNU/CCNU|||1.16|0.55|0.46
92222957|NCT00004259|184347281|SUPERIORITY||||||<|0.001||||||2-sided|Chi-squared|||Overall toxicity||||<0.001
92222958|NCT00004259|184347281|SUPERIORITY|||||||0.76||||||2-sided|Chi-squared|||Non-hematologic toxicity||||0.76
92222959|NCT00004259|184347282|SUPERIORITY||Hazard Ratio (HR)|1.78||||0.08|TWO_SIDED|95.0|0.93|3.4|||Log Rank|Two-side significance level = 0.05|Reference level = Methylated MGMT|||3.40|0.93|0.08
92222960|NCT00004259|184347283|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.41|TWO_SIDED|95.0|0.7|2.35|||Log Rank|Two-sided confidence interval = 0.5|Reference level = Methylated|||2.35|0.70|0.41
92222961|NCT03594227|184347284|SUPERIORITY||Mean Difference (Net)|-19.26|STANDARD_ERROR_OF_MEAN|5.02||0.011|TWO_SIDED|95.0|-33.98|-4.54||All statistical testing was two-sided and performed using a significance (alpha) level of 0.05.|Mixed Models Analysis|||The planned sample size is approximately 95 enrolled subjects with approximately 45 subjects enrolled with AT or AU. Because the primary efficacy analysis of mean percent reduction in hair loss using SALT scores is expected to be more sensitive than the SALT50 responder analysis, the power for the primary analysis is also expected to be no less than 80%.||-4.54|-33.98|0.011
92222962|NCT03594227|184347284|SUPERIORITY||Mean Difference (Final Values)|-24.08|STANDARD_ERROR_OF_MEAN|5.02||0.001|TWO_SIDED|95.0|-38.8|-9.36||All statistical testing was two-sided and performed using a significance (alpha) level of 0.05.|Mixed Models Analysis|||The planned sample size is approximately 95 enrolled subjects with approximately 45 subjects enrolled with AT or AU. Because the primary efficacy analysis of mean percent reduction in hair loss using SALT scores is expected to be more sensitive than the SALT50 responder analysis, the power for the primary analysis is also expected to be no less than 80%.||-9.36|-38.80|0.001
92358760|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|1.46|||<|0.001|TWO_SIDED|95.0|1.18|1.75||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.75|1.18|<0.001
92222963|NCT03594227|184347284|SUPERIORITY||Mean Difference (Final Values)|-19.54|STANDARD_ERROR_OF_MEAN|5.133||0.01|TWO_SIDED|95.0|-34.41|-4.67||All statistical testing was two-sided and performed using a significance (alpha) level of 0.05.|Mixed Models Analysis|||The planned sample size is approximately 95 enrolled subjects with approximately 45 subjects enrolled with AT or AU. Because the primary efficacy analysis of mean percent reduction in hair loss using SALT scores is expected to be more sensitive than the SALT50 responder analysis, the power for the primary analysis is also expected to be no less than 80%.||-4.67|-34.41|0.010
92222964|NCT03594227|184347285|SUPERIORITY||Mean Difference (Final Values)|-19.17|STANDARD_ERROR_OF_MEAN|5.165||0.013|TWO_SIDED|95.0|-34.33|-4.02|||Mixed Models Analysis|||||-4.02|-34.33|0.013
92222965|NCT03594227|184347285|SUPERIORITY||Mean Difference (Net)|-24.53|STANDARD_ERROR_OF_MEAN|5.165||0.002|TWO_SIDED|95.0|-39.69|-9.38|||Mixed Models Analysis|||||-9.38|-39.69|0.002
92222966|NCT03594227|184347285|SUPERIORITY||Mean Difference (Net)|-19.17|STANDARD_ERROR_OF_MEAN|5.281||0.014|TWO_SIDED|95.0|-34.48|-3.86|||Mixed Models Analysis|||||-3.86|-34.48|0.014
92222967|NCT03594227|184347286|SUPERIORITY||Mean Difference (Net)|-11.29|STANDARD_ERROR_OF_MEAN|3.359||0.025|TWO_SIDED|95.0|-21.14|-1.45|||Mixed Models Analysis|||||-1.45|-21.14|0.025
92222968|NCT03594227|184347286|SUPERIORITY||Mean Difference (Net)|-15.25|STANDARD_ERROR_OF_MEAN|3.359||0.003|TWO_SIDED|95.0|-25.1|-5.4|||Mixed Models Analysis|||||-5.40|-25.10|0.003
92222969|NCT03594227|184347286|SUPERIORITY||Mean Difference (Net)|-17.55|STANDARD_ERROR_OF_MEAN|3.434|<|0.001|TWO_SIDED|95.0|-27.49|-7.6|||Mixed Models Analysis|||||-7.60|-27.49|<0.001
92222970|NCT03594227|184347287|SUPERIORITY||Mean Difference (Net)|-14.4|STANDARD_ERROR_OF_MEAN|3.599||0.008|TWO_SIDED|95.0|-24.95|-3.84|||Mixed Models Analysis|||||-3.84|-24.95|0.008
92222971|NCT03594227|184347287|SUPERIORITY||Mean Difference (Net)|-19.01|STANDARD_ERROR_OF_MEAN|3.599|<|0.001|TWO_SIDED|95.0|-29.56|-8.45|||Mixed Models Analysis|||||-8.45|-29.56|<0.001
92222972|NCT03594227|184347287|SUPERIORITY||Mean Difference (Net)|-17.52|STANDARD_ERROR_OF_MEAN|3.679||0.001|TWO_SIDED|95.0|-28.18|-6.86|||Mixed Models Analysis|||||-6.86|-28.18|0.001
92222973|NCT03594227|184347288|SUPERIORITY||Odds Ratio (OR)|4.6||||0.124|TWO_SIDED|95.0|0.7|31.8|||Mixed Models Analysis|||||31.8|0.7|0.124
92222974|NCT03594227|184347288|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.079|TWO_SIDED|95.0|0.8|38.3|||Mixed Models Analysis|||||38.3|0.8|0.079
92222975|NCT03594227|184347288|SUPERIORITY||Mean Difference (Final Values)|3.9||||0.177|TWO_SIDED|95.0|0.5|27.7|||Mixed Models Analysis|||||27.7|0.5|0.177
92222976|NCT03594227|184347289|SUPERIORITY||Odds Ratio (OR)|4.6||||0.124|TWO_SIDED|95.0|0.7|31.8|||Mixed Models Analysis|||||31.8|0.7|0.124
92222977|NCT03594227|184347289|SUPERIORITY||Odds Ratio (OR)|5.6||||0.079|TWO_SIDED|95.0|0.8|38.3|||Mixed Models Analysis|||||38.3|0.8|0.079
92222978|NCT03594227|184347289|SUPERIORITY||Odds Ratio (OR)|3.9||||0.177|TWO_SIDED|95.0|0.5|27.7|||Mixed Models Analysis|||||27.7|0.5|0.177
92222979|NCT03594227|184347290|SUPERIORITY|||||||0.471|||||||Wilcoxon (Mann-Whitney)|||||||0.471
92222980|NCT03594227|184347290|SUPERIORITY|||||||0.457|||||||Wilcoxon (Mann-Whitney)|||||||0.457
92222981|NCT03594227|184347290|SUPERIORITY|||||||0.367|||||||Wilcoxon (Mann-Whitney)|||||||0.367
92222982|NCT03594227|184347291|SUPERIORITY|||||||0.187|||||||Wilcoxon (Mann-Whitney)|||||||0.187
92222983|NCT03594227|184347291|SUPERIORITY|||||||0.375|||||||Wilcoxon (Mann-Whitney)|||||||0.375
92222984|NCT03594227|184347291|SUPERIORITY|||||||0.581|||||||Wilcoxon (Mann-Whitney)|||||||0.581
92222985|NCT03594227|184347292|SUPERIORITY|||||||0.444|||||||Wilcoxon (Mann-Whitney)|||||||0.444
92222986|NCT03594227|184347292|SUPERIORITY|||||||0.861|||||||Wilcoxon (Mann-Whitney)|||||||0.861
92222987|NCT03594227|184347292|SUPERIORITY|||||||0.182|||||||Wilcoxon (Mann-Whitney)|||||||0.182
92222988|NCT03594227|184347293|SUPERIORITY|||||||0.258|||||||Wilcoxon (Mann-Whitney)|||||||0.258
92222989|NCT03594227|184347293|SUPERIORITY|||||||0.263|||||||Wilcoxon (Mann-Whitney)|||||||0.263
92222990|NCT03594227|184347293|SUPERIORITY|||||||0.101|||||||Wilcoxon (Mann-Whitney)|||||||0.101
92222991|NCT03594227|184347294|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||||||>0.999
92222992|NCT03594227|184347294|SUPERIORITY|||||||0.277|||||||Wilcoxon (Mann-Whitney)|||||||0.277
92222993|NCT03594227|184347294|SUPERIORITY|||||||0.159|||||||Wilcoxon (Mann-Whitney)|||||||0.159
92358761|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|0.25||||0.017|TWO_SIDED|95.0|0.04|0.45||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.45|0.04|0.017
92358762|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|1.67|||<|0.001|TWO_SIDED|95.0|1.39|1.96||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.96|1.39|<0.001
92222994|NCT03594227|184347295|SUPERIORITY|||||||0.407|||||||Wilcoxon (Mann-Whitney)|||||||0.407
92222995|NCT03594227|184347295|SUPERIORITY|||||||0.894|||||||Wilcoxon (Mann-Whitney)|||||||0.894
92222996|NCT03594227|184347295|SUPERIORITY|||||||0.179|||||||Wilcoxon (Mann-Whitney)|||||||0.179
92222997|NCT03594227|184347296|SUPERIORITY|||||||0.691|||||||Wilcoxon (Mann-Whitney)|||||||0.691
92222998|NCT03594227|184347296|SUPERIORITY|||||||0.521|||||||Wilcoxon (Mann-Whitney)|||||||0.521
92222999|NCT03594227|184347296|SUPERIORITY|||||||0.262|||||||Wilcoxon (Mann-Whitney)|||||||0.262
92223000|NCT03594227|184347297|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
92223001|NCT03594227|184347297|SUPERIORITY|||||||0.154|||||||Wilcoxon (Mann-Whitney)|||||||0.154
92223002|NCT03594227|184347297|SUPERIORITY|||||||0.289|||||||Wilcoxon (Mann-Whitney)|||||||0.289
92223003|NCT03594227|184347298|SUPERIORITY|||||||0.073|||||||Wilcoxon (Mann-Whitney)|||||||0.073
92223004|NCT03594227|184347298|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.660
92223005|NCT03594227|184347298|SUPERIORITY|||||||0.704|||||||Wilcoxon (Mann-Whitney)|||||||0.704
92223006|NCT03594227|184347299|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||||||>0.999
92223007|NCT03594227|184347299|SUPERIORITY|||||||0.911|||||||Wilcoxon (Mann-Whitney)|||||||0.911
92223008|NCT03594227|184347299|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.110
92223009|NCT03594227|184347300|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.430
92223010|NCT03594227|184347300|SUPERIORITY|||||||0.288|||||||Wilcoxon (Mann-Whitney)|||||||0.288
92223011|NCT03594227|184347300|SUPERIORITY|||||||0.582|||||||Wilcoxon (Mann-Whitney)|||||||0.582
92223012|NCT03594227|184347301|SUPERIORITY|||||||0.194|||||||Wilcoxon (Mann-Whitney)|||||||0.194
92223013|NCT03594227|184347301|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||||||>0.999
92223014|NCT03594227|184347301|SUPERIORITY|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
92223015|NCT03594227|184347302|SUPERIORITY|||||||0.248|||||||Wilcoxon (Mann-Whitney)|||||||0.248
92223016|NCT03594227|184347302|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.150
92223017|NCT03594227|184347302|SUPERIORITY|||||||0.546|||||||Wilcoxon (Mann-Whitney)|||||||0.546
92223018|NCT03594227|184347303|SUPERIORITY|||||||0.341|||||||Wilcoxon (Mann-Whitney)|||||||0.341
92223019|NCT03594227|184347303|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||||||>0.999
92223020|NCT03594227|184347303|SUPERIORITY|||||||0.068|||||||Wilcoxon (Mann-Whitney)|||||||0.068
92223021|NCT03594227|184347305|SUPERIORITY|||||||0.098|||||||Wilcoxon (Mann-Whitney)|||||||0.098
92223022|NCT03594227|184347305|SUPERIORITY|||||||0.082|||||||Wilcoxon (Mann-Whitney)|||||||0.082
92223023|NCT03594227|184347305|SUPERIORITY|||||||0.313|||||||Wilcoxon (Mann-Whitney)|||||||0.313
92223024|NCT03594227|184347306|SUPERIORITY|||||||0.883|||||||Wilcoxon (Mann-Whitney)|||||||0.883
92223025|NCT03594227|184347306|SUPERIORITY|||||||0.954|||||||Wilcoxon (Mann-Whitney)|||||||0.954
92223026|NCT03594227|184347306|SUPERIORITY|||||||0.295|||||||Wilcoxon (Mann-Whitney)|||||||0.295
92223027|NCT03594227|184347307|SUPERIORITY|||||||0.361|||||||Wilcoxon (Mann-Whitney)|||||||0.361
92223028|NCT03594227|184347307|SUPERIORITY|||||||0.182|||||||Wilcoxon (Mann-Whitney)|||||||0.182
92223029|NCT03594227|184347307|SUPERIORITY|||||||0.815|||||||Wilcoxon (Mann-Whitney)|||||||0.815
92223030|NCT03594227|184347308|SUPERIORITY|||||||0.522|||||||Wilcoxon (Mann-Whitney)|||||||0.522
92223031|NCT03594227|184347308|SUPERIORITY|||||||0.104|||||||Wilcoxon (Mann-Whitney)|||||||0.104
92223032|NCT03594227|184347308|SUPERIORITY|||||||0.414|||||||Wilcoxon (Mann-Whitney)|||||||0.414
92223033|NCT03594227|184347309|SUPERIORITY||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.93||0.882|TWO_SIDED|95.0|-2.53|2.94|||Mixed Models Analysis|||||2.94|-2.53|0.882
92223034|NCT03594227|184347309|SUPERIORITY||Mean Difference (Net)|-3.58|STANDARD_ERROR_OF_MEAN|0.93||0.011|TWO_SIDED|95.0|-6.31|-0.84|||Mixed Models Analysis|||||-0.84|-6.31|0.011
92223035|NCT03594227|184347309|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.951||0.999|TWO_SIDED|95.0|-2.76|2.76|||Mixed Models Analysis|||||2.76|-2.76|0.999
92223036|NCT03594227|184347310|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.270
92223037|NCT03594227|184347310|SUPERIORITY|||||||0.319|||||||Wilcoxon (Mann-Whitney)|||||||0.319
92223038|NCT03594227|184347310|SUPERIORITY|||||||0.094|||||||Wilcoxon (Mann-Whitney)|||||||0.094
92223039|NCT03594227|184347311|SUPERIORITY|||||||0.584|||||||Wilcoxon (Mann-Whitney)|||||||0.584
92223040|NCT03594227|184347311|SUPERIORITY|||||||0.287|||||||Wilcoxon (Mann-Whitney)|||||||0.287
92223041|NCT03594227|184347311|SUPERIORITY|||||||0.144|||||||Wilcoxon (Mann-Whitney)|||||||0.144
92223042|NCT03594227|184347312|SUPERIORITY|||||||0.341|||||||Wilcoxon (Mann-Whitney)|||||||0.341
92358763|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|0.25||||0.015|TWO_SIDED|95.0|0.05|0.46||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.46|0.05|0.015
92401549|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79||||0.114|TWO_SIDED|95.0|-0.19|1.77||P-value is for de novo, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 9.||1.77|-0.19|0.114
92358764|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|1.69|||<|0.001|TWO_SIDED|95.0|1.41|1.98||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.98|1.41|<0.001
92358765|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|0.09||||0.362|TWO_SIDED|95.0|-0.11|0.3||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.30|-0.11|0.362
92358766|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|1.56|||<|0.001|TWO_SIDED|95.0|1.27|1.86||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.86|1.27|<0.001
92358767|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|-0.08||||0.472|TWO_SIDED|95.0|-0.29|0.14||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.14|-0.29|0.472
92358768|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|1.39|||<|0.001|TWO_SIDED|95.0|1.07|1.7||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.70|1.07|<0.001
92358769|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|-0.17||||0.134|TWO_SIDED|95.0|-0.4|0.05||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.05|-0.40|0.134
92358770|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|1.31|||<|0.001|TWO_SIDED|95.0|1.0|1.63||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.63|1.00|<0.001
92358771|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|-0.17||||0.135|TWO_SIDED|95.0|-0.4|0.05||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.05|-0.40|0.135
92358772|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|1.17|||<|0.001|TWO_SIDED|95.0|0.84|1.5||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.50|0.84|<0.001
92358773|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|-0.25||||0.036|TWO_SIDED|95.0|-0.49|-0.02||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||-0.02|-0.49|0.036
92358774|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|0.93|||<|0.001|TWO_SIDED|95.0|0.61|1.26||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.26|0.61|<0.001
92358775|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|-0.22||||0.064|TWO_SIDED|95.0|-0.46|0.01||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.01|-0.46|0.064
92358776|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|0.85|||<|0.001|TWO_SIDED|95.0|0.52|1.18||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.18|0.52|<0.001
92223043|NCT03594227|184347312|SUPERIORITY|||||||0.203|||||||Wilcoxon (Mann-Whitney)|||||||0.203
92223044|NCT03594227|184347312|SUPERIORITY|||||||0.327|||||||Wilcoxon (Mann-Whitney)|||||||0.327
92223045|NCT03594227|184347313|SUPERIORITY|||||||0.827|||||||Wilcoxon (Mann-Whitney)|||||||0.827
92223046|NCT03594227|184347313|SUPERIORITY|||||||0.742|||||||Wilcoxon (Mann-Whitney)|||||||0.742
92223047|NCT03594227|184347313|SUPERIORITY|||||||0.462|||||||Wilcoxon (Mann-Whitney)|||||||0.462
92223048|NCT03594227|184347314|SUPERIORITY|||||||0.836|||||||Wilcoxon (Mann-Whitney)|||||||0.836
92223049|NCT03594227|184347314|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.540
92358777|NCT01098747|184622577|SUPERIORITY_OR_OTHER||LS mean difference|-0.22||||0.074|TWO_SIDED|95.0|-0.46|0.02||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.02|-0.46|0.074
92358778|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|0.65||||0.001|TWO_SIDED|95.0|0.26|1.04||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.04|0.26|0.001
92223050|NCT03594227|184347314|SUPERIORITY|||||||0.672|||||||Wilcoxon (Mann-Whitney)|||||||0.672
92223051|NCT03594227|184347315|SUPERIORITY|||||||0.469|||||||Wilcoxon (Mann-Whitney)|||||||0.469
92223052|NCT03594227|184347315|SUPERIORITY|||||||0.219|||||||Wilcoxon (Mann-Whitney)|||||||0.219
92223053|NCT03594227|184347315|SUPERIORITY|||||||0.196|||||||Wilcoxon (Mann-Whitney)|||||||0.196
92223054|NCT03389854|184347320|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 3 months||||0.001
92223055|NCT03389854|184347320|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 6 months||||0.90
92223056|NCT03389854|184347321|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 3 months||||0.001
92223057|NCT03389854|184347321|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Control group vs. Penile Traction Therapy Group at 6 months||||0.40
92223058|NCT03389854|184347322|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 3 months||||0.01
92223059|NCT03389854|184347322|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Control group vs. Penile Traction Therapy Group at 6 months||||0.64
92223060|NCT03389854|184347323|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 3 months||||0.06
92223061|NCT03389854|184347323|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 6 months||||0.66
92223062|NCT03389854|184347324|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
92223063|NCT03389854|184347325|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
92223064|NCT03389854|184347326|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
92223065|NCT02111993|184347359|SUPERIORITY_OR_OTHER|||||||0.02||||||This p-value correlates to Δ4 hr cTnT|t-test, 2 sided|||||||0.02
92223066|NCT02111993|184347359|SUPERIORITY_OR_OTHER|||||||0.03||||||This p-value correlates to Δ8 hr cTnT.|t-test, 2 sided|||||||0.03
92223067|NCT02111993|184347359|SUPERIORITY_OR_OTHER|||||||0.16||||||This p-value correlates to Δ20 hr cTnT|t-test, 2 sided|||||||0.16
92223068|NCT02111993|184347360|SUPERIORITY_OR_OTHER|||||||0.04||||||This p-value correlates to Δ4 hr cTnT|t-test, 2 sided|||||||0.04
92223069|NCT02111993|184347360|SUPERIORITY_OR_OTHER|||||||0.06||||||This p-value correlates to Δ8 hr cTnT|t-test, 2 sided|||||||0.06
92223070|NCT02111993|184347360|SUPERIORITY_OR_OTHER|||||||0.16||||||This p-value correlates to Δ20 hr cTnT|t-test, 2 sided|||||||0.16
92223071|NCT02111993|184347361|SUPERIORITY_OR_OTHER|||||||0.17||||||This p-value correlates to Δ4 hr cTnT|t-test, 2 sided|||||||0.17
92223072|NCT02111993|184347361|SUPERIORITY_OR_OTHER|||||||0.19||||||This p-value correlates to Δ8 hr cTnT|t-test, 2 sided|||||||0.19
92223073|NCT02111993|184347361|SUPERIORITY_OR_OTHER|||||||0.38||||||This p-value correlates to Δ20 hr cTnT|t-test, 2 sided|||||||0.38
92223074|NCT04074928|184347366|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 1.5 for the Day 29/57 GMT ratio (adjusted analysis).|GMT ratio|0.73|||||TWO_SIDED|95.0|0.645|0.836||||||"Non-inferiority, A/H1N1, GMT ratio, Day 29/57~Non-inferiority of the Day 29/57 immune response to the A/H1N1 vaccine strain calculated by GMT ratio (Comparator QIV GMT divided by QIVc GMT)"||0.836|0.645|
92223075|NCT04074928|184347366|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 1.5 for the Day 29/57 GMT ratio (adjusted analysis).|GMT ratio|0.73|||||TWO_SIDED|95.0|0.656|0.809||||||"Non-inferiority, B/Yamagata, GMT ratio, Day 29/57~Non-inferiority of the Day 29/57 immune response to the B/Yamagata vaccine strain calculated by GMT ratio (Comparator QIV GMT divided by QIVc GMT)"||0.809|0.656|
92223076|NCT04074928|184347366|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 1.5 for the Day 29/57 GMT ratio (adjusted analysis).|GMT ratio|0.88|||||TWO_SIDED|95.0|0.791|0.972||||||"Non-inferiority, B/Victoria, GMT ratio, Day 29/57~Non-inferiority of the Day 29/57 immune response to the B/Victoria vaccine strain calculated by GMT ratio (Comparator QIV GMT divided by QIVc GMT)"||0.972|0.791|
92358779|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|0.46||||0.001|TWO_SIDED|95.0|0.18|0.75||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.75|0.18|0.001
92223077|NCT04074928|184347367|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 10% for the Day 29/57 SCR difference.|SCR difference|-11.46|||||TWO_SIDED|95.0|-16.447|-6.423||||||"Non-inferiority, A/H1N1, SCR difference, Day 29/57~Non-inferiority of the immune response to the A/H1N1 vaccine strain by SCR difference (Comparator QIV SCR minus QIVc SCR)"||-6.423|-16.447|
92223078|NCT04074928|184347367|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 10% for the Day 29/57 SCR difference.|SCR difference|-14.87|||||TWO_SIDED|95.0|-19.61|-9.983||||||"Non-inferiority, B/Yamagata, SCR difference, Day 29/57~Non-inferiority of the immune response to the B/Yamagata vaccine strain by SCR difference (Comparator QIV SCR minus QIVc SCR)"||-9.983|-19.610|
92223079|NCT04074928|184347367|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 10% for the Day 29/57 SCR difference.|SCR difference|-5.96|||||TWO_SIDED|95.0|-10.327|-1.44||||||"Non-inferiority, B/Victoria, SCR difference, Day 29/57~Non-inferiority of the immune response to the B/Victoria vaccine strain by SCR difference (Comparator QIV SCR minus QIVc SCR)"||-1.440|-10.327|
92223080|NCT04074928|184347368|NON_INFERIORITY|The noninferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified noninferiority margin of 1.5 for the Day 29/57 GMT ratio (adjusted analysis).|GMT ratio|1.04|||||TWO_SIDED|95.0|0.927|1.16||||||"Non-inferiority, A/H3N2, GMT ratio, Day 29/57~Non-inferiority of the Day 29/57 immune response to the A/H3N2 vaccine strain calculated by GMT ratio (Comparator QIV GMT divided by QIVc GMT)"||1.160|0.927|
92223081|NCT04074928|184347369|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 10% for the Day 29/57 SCR difference.|SCR difference|3.13|||||TWO_SIDED|95.0|-1.443|7.812||||||"Non-inferiority, A/H3N2, SCR difference, Day 29/57~Non-inferiority of the immune response to the A/H3N2 vaccine strain by SCR difference (Comparator QIV SCR minus QIVc SCR)"||7.812|-1.443|
92223082|NCT04074928|184347370|OTHER|No formal statistical testing was planned for this secondary outcome measure.|GMT ratio|0.9|||||TWO_SIDED|95.0|0.79|1.024||||||A/H1N1, GMT ratio, Day 29/57||1.024|0.790|
92223083|NCT04074928|184347370|OTHER|No formal statistical testing was planned for this secondary outcome measure.|GMT ratio|1.08|||||TWO_SIDED|95.0|0.968|1.195||||||B/Yamagata, GMT ratio, Day 29/57||1.195|0.968|
92223084|NCT04074928|184347370|OTHER|No formal statistical testing was planned for this secondary outcome measure.|GMT ratio|1.09|||||TWO_SIDED|95.0|0.986|1.202||||||B/Victoria, GMT ratio, Day 29/57||1.202|0.986|
92223085|NCT04074928|184347371|OTHER|No formal statistical testing was planned for this secondary outcome measure.|SCR difference|-2.52|||||TWO_SIDED|95.0|-7.526|2.461||||||A/H1N1, SCR difference, Day 29/57||2.461|-7.526|
92223086|NCT04074928|184347371|OTHER|No formal statistical testing was planned for this secondary outcome measure.|SCR difference|-0.04|||||TWO_SIDED|95.0|-4.912|4.911||||||B/Yamagata, SCR difference, Day 29/57||4.911|-4.912|
92223087|NCT04074928|184347371|OTHER|No formal statistical testing was planned for this secondary outcome measure.|SCR difference|1.18|||||TWO_SIDED|95.0|-2.805|5.353||||||B/Victoria, SCR difference, Day 29/57||5.353|-2.805|
92223088|NCT04074928|184347372|OTHER|No formal statistical testing was planned for this secondary outcome measure.|GMT ratio|1.03|||||TWO_SIDED|95.0|0.914|1.165||||||A/H3N2, GMT ratio, Day 29/57||1.165|0.914|
92223089|NCT04074928|184347373|OTHER|No formal statistical testing was planned for this secondary outcome measure.|SCR difference|1.89|||||TWO_SIDED|95.0|-3.006|6.856||||||A/H3N2, SCR difference, Day 29/57||6.856|-3.006|
92223090|NCT01505634|184347386|NON_INFERIORITY|Non-inferiority for the relebactam 250 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group was demonstrated if the lower bound of the 95% CI was not lower than the pre-specified non-inferiority margin of -15%.|Percent Difference|-3.1||||0.005|TWO_SIDED|95.0|-11.2|3.2|||Miettinen and Nurminen||Relebactam minus Placebo|Percent Difference (Diff) in Favorable MR||3.2|-11.2|0.005
92223091|NCT01505634|184347386|NON_INFERIORITY|Non-inferiority for the relebactam 125 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group was demonstrated if the lower bound of the 95% CI was not lower than the pre-specified non-inferiority margin of -15%.|Percent Difference|-0.1|||<|0.001|TWO_SIDED|95.0|-6.4|5.9|||Miettinen and Nurminen||Relebactam minus Placebo|Percent Diff in Favorable MR||5.9|-6.4|< 0.001
92223092|NCT01505634|184347387|OTHER|ECI #1 is a confirmed elevated AST or ALT ≥5X ULN. Inferential testing for statistical significance with p-values and 95% confidence intervals was performed to provide a comparison between the relebactam 250 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group.|Percent Difference|1.0||||0.315|TWO_SIDED|95.0|-2.7|5.5|||Miettinen and Nurminen||Relebactam minus Placebo|Percent Diff in Participants with Event of Clinical Interest (ECI) #1||5.5|-2.7|0.315
92223093|NCT01505634|184347387|OTHER|ECI #1 is a confirmed elevated AST or ALT ≥5X ULN. Inferential testing for statistical significance with p-values and 95% confidence intervals was performed to provide a comparison between the relebactam 125 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group.|Percent Difference|1.0||||0.315|TWO_SIDED|95.0|-2.7|5.5|||Miettinen and Nurminen||Relebactam minus Placebo|Percent Diff in Participants with ECI #1||5.5|-2.7|0.315
92223094|NCT01505634|184347388|OTHER|Event of Clinical Interest (ECI) #2 is elevated AST or ALT ≥3X ULN, elevated total bilirubin ≥2X ULN, and with an ALP \<2X ULN. Inferential testing for statistical significance with p-values and 95% confidence intervals was performed to provide a comparison between the relebactam 250 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group.|Percent Difference|0.0|||>|0.999|TWO_SIDED|95.0|-3.7|3.8||No participants met the criteria for ECI #2.|Miettinen and Nurminen||Relebactam minus Placebo|Percent Diff Participants with ECI #2||3.8|-3.7|> 0.999
92227180|NCT01727258|184356485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.91|STANDARD_ERROR_OF_MEAN|1.182|<|0.001|TWO_SIDED|95.0|3.57|8.24||Significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.24|3.57|<0.001
92164666|NCT02716324|184217979|SUPERIORITY||Beta coefficient|0.0||||0.707|TWO_SIDED|95.0|-0.001|0.001|||Random effects model|||Random effects models regressed Parent-reported PRO Student Engagement Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.707
92358780|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|2.41|||<|0.001|TWO_SIDED|95.0|1.82|3.01||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.01|1.82|<0.001
92358781|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|0.91|||<|0.001|TWO_SIDED|95.0|0.48|1.34||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.34|0.48|<0.001
92358782|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|3.68|||<|0.001|TWO_SIDED|95.0|3.03|4.33||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.33|3.03|<0.001
92358783|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|0.64||||0.008|TWO_SIDED|95.0|0.17|1.11||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.11|0.17|0.008
92358784|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|4.06|||<|0.001|TWO_SIDED|95.0|3.4|4.72||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.72|3.40|<0.001
92358785|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|0.58||||0.017|TWO_SIDED|95.0|0.1|1.06||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.06|0.10|0.017
92358786|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|4.09|||<|0.001|TWO_SIDED|95.0|3.42|4.75||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.75|3.42|<0.001
92358787|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|0.22||||0.359|TWO_SIDED|95.0|-0.26|0.7||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.70|-0.26|0.359
92401550|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51||||0.295|TWO_SIDED|95.0|-0.44|1.46||P-value is for de novo, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 10.||1.46|-0.44|0.295
92164667|NCT02716324|184217979|SUPERIORITY||Beta coefficient|0.0||||0.735|TWO_SIDED|95.0|-0.001|0.001|||Random effects model|||Random effects models regressed Child PRO Student Engagement Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.735
92164668|NCT02716324|184217980|SUPERIORITY||Beta coefficient|0.0||||0.735|TWO_SIDED|95.0|-0.001|0.001||Random effects models regressed Child Patient Reported Outcomes Teacher Connectedness Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. The threshold for statistical significance was p\<0.05.|Random effects model|||Random effects models regressed Child PRO Teacher Connectedness Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.735
92276636|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|1.2||||0.6375|TWO_SIDED|95.0|0.58|2.5|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.50|0.58|0.6375
92358788|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|3.75|||<|0.001|TWO_SIDED|95.0|3.06|4.45||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.45|3.06|<0.001
92358789|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.436|TWO_SIDED|95.0|-0.7|0.3||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.30|-0.70|0.436
92358790|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|3.4|||<|0.001|TWO_SIDED|95.0|2.66|4.14||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.14|2.66|<0.001
92223095|NCT01505634|184347388|OTHER|Event of Clinical Interest (ECI) #2 is elevated AST or ALT ≥3X ULN, elevated total bilirubin ≥2X ULN, and with an ALP \<2X ULN. Inferential testing for statistical significance with p-values and 95% confidence intervals was performed to provide a comparison between the relebactam 125 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group.|Percent Difference|0.0|||>|0.999|TWO_SIDED|95.0|-3.7|3.8||No participants met the criteria for ECI #2.|Miettinen and Nurminen||Relebactam minus Placebo|Percent Diff in Participants with ECI #2||3.8|-3.7|> 0.999
92358791|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.139|TWO_SIDED|95.0|-0.93|0.13||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.13|-0.93|0.139
92223096|NCT01505634|184347389|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-1.7||||||95.0|-14.3|10.9|||||Relebactam minus Placebo|Percent Diff in Participants with AEs||10.9|-14.3|
92223097|NCT01505634|184347389|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-0.7|||||TWO_SIDED|95.0|-13.4|12.0|||||Relebactam minus Placebo|Percent Diff in Participants with AEs||12.0|-13.4|
92223098|NCT01505634|184347390|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|0.0|||||TWO_SIDED|95.0|-5.8|5.9|||||Relebactam minus Placebo|Percent Diff in Participants with SAEs||5.9|-5.8|
92223099|NCT01505634|184347390|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-2.0|||||TWO_SIDED|95.0|-7.6|2.8|||||Relebactam minus Placebo|Percent Diff in Participants with SAEs||2.8|-7.6|
92223100|NCT01505634|184347391|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|1.1|||||TWO_SIDED|95.0|-7.5|9.8|||||Relebactam minus Placebo|Percent Diff in Participants with DR AEs||9.8|-7.5|
92358792|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|3.2|||<|0.001|TWO_SIDED|95.0|2.44|3.95||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.95|2.44|<0.001
92358793|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|-0.41||||0.144|TWO_SIDED|95.0|-0.95|0.14||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.14|-0.95|0.144
92358794|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|2.8|||<|0.001|TWO_SIDED|95.0|2.01|3.58||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.58|2.01|<0.001
92358795|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|-0.58||||0.043|TWO_SIDED|95.0|-1.15|-0.02||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||-0.02|-1.15|0.043
92358796|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|2.33|||<|0.001|TWO_SIDED|95.0|1.53|3.12||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.12|1.53|<0.001
92223101|NCT01505634|184347391|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|0.1|||||TWO_SIDED|95.0|-8.4|8.6|||||Relebactam minus Placebo|Percent Diff in Participants with DR AEs||8.6|-8.4|
92223102|NCT01505634|184347392|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|0.0|||||TWO_SIDED|95.0|-4.5|4.6|||||Relebactam minus Placebo|Percent Diff in Participants with DR SAEs||4.6|-4.5|
92223103|NCT01505634|184347392|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-1.0|||||TWO_SIDED|95.0|-5.5|2.8|||||Relebactam minus Placebo|Percent Diff in Participants with DR SAEs||2.8|-5.5|
92223104|NCT01505634|184347393|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|1.0|||||TWO_SIDED|95.0|-4.4|6.8|||||Relebactam minus Placebo|Percent Diff in Participants with Discons Due to AEs||6.8|-4.4|
92358797|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|-0.59||||0.044|TWO_SIDED|95.0|-1.16|-0.02||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||-0.02|-1.16|0.044
92358798|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|2.05|||<|0.001|TWO_SIDED|95.0|1.25|2.85||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.85|1.25|<0.001
92358799|NCT01098747|184622578|SUPERIORITY_OR_OTHER||LS mean difference|-0.65||||0.027|TWO_SIDED|95.0|-1.23|-0.08||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||-0.08|-1.23|0.027
92276637|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|1.62||||0.0923|TWO_SIDED|95.0|0.92|2.82|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.82|0.92|0.0923
92358800|NCT01098747|184622579|SUPERIORITY_OR_OTHER||LS mean difference|2.73|||<|0.001|TWO_SIDED|95.0|2.27|3.18||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.18|2.27|<0.001
92358801|NCT01098747|184622579|SUPERIORITY_OR_OTHER||LS mean difference|0.45||||0.007|TWO_SIDED|95.0|0.12|0.78||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.78|0.12|0.007
92358802|NCT01098747|184622579|SUPERIORITY_OR_OTHER||LS mean difference|4.29|||<|0.001|TWO_SIDED|95.0|3.6|4.98||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.98|3.60|<0.001
92358803|NCT01098747|184622579|SUPERIORITY_OR_OTHER||LS mean difference|0.37||||0.144|TWO_SIDED|95.0|-0.13|0.87||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.87|-0.13|0.144
92358804|NCT01098747|184622579|SUPERIORITY_OR_OTHER||LS mean difference|8.16|||<|0.001|TWO_SIDED|95.0|6.66|9.66||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-6: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||9.66|6.66|<0.001
92358805|NCT01098747|184622579|SUPERIORITY_OR_OTHER||LS mean difference|-0.23||||0.679|TWO_SIDED|95.0|-1.31|0.85||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-6: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.85|-1.31|0.679
92358806|NCT01098747|184622579|SUPERIORITY_OR_OTHER||LS mean difference|9.94|||<|0.001|TWO_SIDED|95.0|7.92|11.96||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-8: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||11.96|7.92|<0.001
92358807|NCT01098747|184622579|SUPERIORITY_OR_OTHER||LS mean difference|-0.67||||0.367|TWO_SIDED|95.0|-2.12|0.79||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-8: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.79|-2.12|0.367
92401551|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44||||0.005|TWO_SIDED|95.0|0.45|2.44||P-value is for de novo, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 10.||2.44|0.45|0.005
92401552|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94||||0.066|TWO_SIDED|95.0|-0.06|1.94||P-value is for de novo, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 10.||1.94|-0.06|0.066
92276638|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|1.29||||0.3812|TWO_SIDED|95.0|0.73|2.3|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.30|0.73|0.3812
92358808|NCT01098747|184622580|SUPERIORITY_OR_OTHER||LS mean difference|3.95|||<|0.001|TWO_SIDED|95.0|3.32|4.59||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.59|3.32|< 0.001
92358809|NCT01098747|184622580|SUPERIORITY_OR_OTHER||LS mean difference|0.62||||0.009|TWO_SIDED|95.0|0.16|1.07||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.07|0.16|0.009
92358810|NCT01098747|184622580|SUPERIORITY_OR_OTHER||LS mean difference|6.15|||<|0.001|TWO_SIDED|95.0|5.18|7.12||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||7.12|5.18|<0.001
92223105|NCT01505634|184347393|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-1.0|||||TWO_SIDED|95.0|-6.1|3.7|||||Relebactam minus Placebo|Percent Diff in Participants with Discons Due to AEs||3.7|-6.1|
92223106|NCT01505634|184347394|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|1.0|||||TWO_SIDED|95.0|-3.6|6.2|||||Relebactam minus Placebo|Percent Diff in Participants with Discons Due to DR AEs||6.2|-3.6|
92223107|NCT01505634|184347394|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|0.0|||||TWO_SIDED|95.0|-4.5|4.6|||||Relebactam minus Placebo|Percent Diff in Participants with Discons Due to DR AEs||4.6|-4.5|
92223108|NCT01505634|184347395|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|1.1|||||TWO_SIDED|95.0|-5.5|7.8|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Diarrhoea||7.8|-5.5|
92223109|NCT01505634|184347395|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-2.0|||||TWO_SIDED|95.0|-8.1|3.6|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Diarrhoea||3.6|-8.1|
92223110|NCT01505634|184347395|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|0.0|||||TWO_SIDED|95.0|-6.4|6.5|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Nausea||6.5|-6.4|
92223111|NCT01505634|184347395|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|2.1|||||TWO_SIDED|95.0|-4.6|9.2|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Nausea||9.2|-4.6|
92223112|NCT01505634|184347395|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-3.0|||||TWO_SIDED|95.0|-9.0|1.9|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Bacteriuria||1.9|-9.0|
92223113|NCT01505634|184347395|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-2.0|||||TWO_SIDED|95.0|-8.1|3.6|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Bacteriuria||3.6|-8.1|
92223114|NCT01505634|184347395|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-3.0|||||TWO_SIDED|95.0|-9.0|1.9|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: White blood cells urine positive||1.9|-9.0|
92223115|NCT01505634|184347395|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-3.0|||||TWO_SIDED|95.0|-9.0|1.9|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: White blood cells urine positive||1.9|-9.0|
92223116|NCT01505634|184347395|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|3.1|||||TWO_SIDED|95.0|-3.7|10.4|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Headache||10.4|-3.7|
92223117|NCT01505634|184347395|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-1.0|||||TWO_SIDED|95.0|-7.2|5.1|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Headache||5.1|-7.2|
92223118|NCT00960843|184347402|SUPERIORITY_OR_OTHER|||||||0.052||95.0|||||t-test, 2 sided|||Null hypothesis was no difference between arms. Original power calculation specified 24 per group and this was achieved under initial randomization. However, due to failure to follow protocol specified adjustment criteria, pressure and weight data from one site had to be excluded.||||0.0520
92223119|NCT00960843|184347403|SUPERIORITY_OR_OTHER|||||||0.0225||95.0|||||t-test, 2 sided|||||||0.0225
92223120|NCT00960843|184347404|SUPERIORITY_OR_OTHER|||||||0.0193||95.0|||||t-test, 2 sided|||||||0.0193
92276639|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|1.63||||0.0464|TWO_SIDED|95.0|1.0|2.65|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.65|1.00|0.0464
92405760|NCT02085161|184701878|SUPERIORITY_OR_OTHER||Treatment ratio|1.292|STANDARD_ERROR_OF_MEAN|0.129||0.0109|TWO_SIDED|95.0|1.061|1.573||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM).|This treatment comparison is the second one in the alpha-protected hierarchical testing chain.||1.573|1.061|0.0109
92223121|NCT01967537|184347408|SUPERIORITY|||||||0.23|||||||Mann-Whitney|||||||0.23
92223122|NCT00610987|184347411|SUPERIORITY_OR_OTHER||||||=|0.12|TWO_SIDED||||||t-test, 1 sided|||||||=0.12
92223123|NCT00254501|184347412|SUPERIORITY_OR_OTHER|||||||0.0757||||||Adjusted for baseline Hemoglobin A-1C.|ANCOVA|||"Null hypothesis is mean change in usual care group equals mean change in Empower group.~Power calculation required 150 per group assuming 25% would withdraw prior to 12 months."||||0.0757
92223124|NCT00254501|184347413|SUPERIORITY_OR_OTHER|||||||0.44|||||||ANCOVA|||Comparison of change in LDL from baseline to 12 months between groups.||||0.44
92223125|NCT00254501|184347413|SUPERIORITY_OR_OTHER|||||||0.16|||||||ANCOVA|||Comparison of change in HDL from baseline to 12 months between groups.||||0.16
92223126|NCT00254501|184347413|SUPERIORITY_OR_OTHER|||||||0.14|||||||ANCOVA|||Comparison of change in total cholesterol from baseline to 12 months between groups.||||0.14
92223127|NCT00254501|184347413|SUPERIORITY_OR_OTHER|||||||0.92|||||||ANCOVA|||Comparison of change in triglycerides from baseline to 12 months between groups.||||0.92
92223128|NCT00254501|184347414|SUPERIORITY_OR_OTHER|||||||0.3856|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in cost of total health care from baseline to 12 months between groups. Analyses not adjusted for other variables.||||.3856
92223129|NCT00254501|184347414|SUPERIORITY_OR_OTHER|||||||0.6413|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in cost of diabetes medications from baseline to 12 months between groups. Analyses not adjusted for other variables.||||.6413
92223130|NCT00254501|184347414|SUPERIORITY_OR_OTHER|||||||0.4303|||||||Wilcoxon (Mann-Whitney)|||Analyses not adjusted for other variables.||||.4303
92401553|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62||||0.208|TWO_SIDED|95.0|-0.35|1.58||P-value is for de novo, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 11.||1.58|-0.35|0.208
92401554|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.004|TWO_SIDED|95.0|0.49|2.51||P-value is for de novo, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 11.||2.51|0.49|0.004
92401555|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88||||0.086|TWO_SIDED|95.0|-0.13|1.89||P-value is for de novo, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 11.||1.89|-0.13|0.086
92401556|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.328|TWO_SIDED|95.0|-0.49|1.45||P-value is for de novo, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 12.||1.45|-0.49|0.328
92401557|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46||||0.005|TWO_SIDED|95.0|0.44|2.47||P-value is for de novo, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 12.||2.47|0.44|0.005
92401558|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.98||||0.059|TWO_SIDED|95.0|-0.04|1.99||P-value is for de novo, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 12.||1.99|-0.04|0.059
92164669|NCT02716324|184217981|SUPERIORITY||Beta coefficient|0.0||||0.873|TWO_SIDED|95.0|-0.001|0.001||Random effects models regressed Parent Patient Reported Outcomes Peer Relationships Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. The threshold for statistical significance was p\<0.05.|Random effects model|||Random effects models regressed Parent-reported PRO Peer Relationship Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.873
92164670|NCT02716324|184217981|SUPERIORITY||Beta coefficient|0.0||||0.888|TWO_SIDED|95.0|-0.001|0.001||Random effects models regressed Child Patient Reported Outcomes Peer Relationships Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. The threshold for statistical significance was p\<0.05.|Random effects model|||Random effects models regressed Child-reported PRO Peer Relationship Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.888
92164671|NCT02716324|184217982|SUPERIORITY||Beta coefficient|0.0||||0.679|TWO_SIDED|95.0|-0.001|0.001||Random effects models regressed Child Patient Reported Outcomes Family Relationships Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. The threshold for statistical significance was p\<0.05.|Random effects model|||Random effects models regressed Child-reported PRO Family Relationship Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.679
92164672|NCT02716324|184217983|SUPERIORITY||Beta coefficient|0.074||||0.495|TWO_SIDED|95.0|-0.164|0.311|||Random effects model|||Random effects models regressed Access Engagement Scores Scores on intervention status adjusted for season and clustered by doctor's office.||0.311|-0.164|0.495
92164673|NCT02716324|184217983|SUPERIORITY||Beta coefficient|-0.013||||0.885|TWO_SIDED|95.0|-0.217|0.191|||Random effects model|||Random effects models regressed Patient Family Centered Care Engagement Scores Scores on intervention status adjusted for season and clustered by doctor's office.||0.191|-0.217|0.885
92164674|NCT02716324|184217983|SUPERIORITY||Beta coefficient|0.073||||0.527|TWO_SIDED|95.0|-0.182|0.328|||Random effects model|||Random effects models regressed Communication Engagement Scores Scores on intervention status adjusted for season and clustered by doctor's office.||0.328|-0.182|0.527
92223131|NCT00254501|184347415|SUPERIORITY_OR_OTHER|||||||0.785|||||||ANCOVA|||Comparison of change in Diabetes Empowerment Scale from baseline to 12 months between groups.||||0.785
92358811|NCT01098747|184622580|SUPERIORITY_OR_OTHER||LS mean difference|0.49||||0.166|TWO_SIDED|95.0|-0.21|1.2||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.20|-0.21|0.166
92358812|NCT01098747|184622580|SUPERIORITY_OR_OTHER||LS mean difference|11.67|||<|0.001|TWO_SIDED|95.0|9.54|13.81||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-6: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||13.81|9.54|<0.001
92358813|NCT01098747|184622580|SUPERIORITY_OR_OTHER||LS mean difference|-0.3||||0.703|TWO_SIDED|95.0|-1.84|1.24||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-6: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.24|-1.84|0.703
92358814|NCT01098747|184622580|SUPERIORITY_OR_OTHER||LS mean difference|14.27|||<|0.001|TWO_SIDED|95.0|11.36|17.18||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-8: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||17.18|11.36|<0.001
92358815|NCT01098747|184622580|SUPERIORITY_OR_OTHER||LS mean difference|-1.1||||0.303|TWO_SIDED|95.0|-3.2|1.0||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-8: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.00|-3.20|0.303
92358816|NCT01098747|184622581|SUPERIORITY_OR_OTHER||LS mean difference|6.68|||<|0.001|TWO_SIDED|95.0|5.6|7.76||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||7.76|5.60|<0.001
92358817|NCT01098747|184622581|SUPERIORITY_OR_OTHER||LS mean difference|1.06||||0.007|TWO_SIDED|95.0|0.29|1.84||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||1.84|0.29|0.007
92358818|NCT01098747|184622581|SUPERIORITY_OR_OTHER||LS mean difference|10.43|||<|0.001|TWO_SIDED|95.0|8.79|12.08||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||12.08|8.79|<0.001
92358819|NCT01098747|184622581|SUPERIORITY_OR_OTHER||LS mean difference|0.87||||0.152|TWO_SIDED|95.0|-0.32|2.05||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.05|-0.32|0.152
92358820|NCT01098747|184622581|SUPERIORITY_OR_OTHER||LS mean difference|19.83|||<|0.001|TWO_SIDED|95.0|16.23|23.43||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-6: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||23.43|16.23|<0.001
92358821|NCT01098747|184622581|SUPERIORITY_OR_OTHER||LS mean difference|-0.53||||0.69|TWO_SIDED|95.0|-3.12|2.07||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-6: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.07|-3.12|0.690
92358822|NCT01098747|184622581|SUPERIORITY_OR_OTHER||LS mean difference|-1.77||||0.323|TWO_SIDED|95.0|-5.29|1.75||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-8 Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||1.75|-5.29|0.323
92358823|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|1.01||||0.49|TWO_SIDED|95.0|-0.97|3.0||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours-Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportions and the corresponding standard error.||3.00|-0.97|0.490
92358824|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|0.54||||0.623|TWO_SIDED|95.0|-1.88|2.95||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.95|-1.88|0.623
92358825|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|24.36|||<|0.001|TWO_SIDED|95.0|13.51|35.22||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||35.22|13.51|<0.001
92223132|NCT00254501|184347415|SUPERIORITY_OR_OTHER|||||||0.302|||||||ANCOVA|||Comparison of change in Adherence Starts with Knowledge (ASK-20) from baseline to 12 months between groups.||||0.302
92358826|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|11.82||||0.023|TWO_SIDED|95.0|1.15|22.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||22.48|1.15|0.023
92358827|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|61.35|||<|0.001|TWO_SIDED|95.0|48.99|73.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||73.70|48.99|<0.001
92358828|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|21.25|||<|0.001|TWO_SIDED|95.0|9.58|32.92||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||32.92|9.58|<0.001
92358829|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|72.65|||<|0.001|TWO_SIDED|95.0|61.59|83.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.71|61.59|<0.001
92358830|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|17.44||||0.001|TWO_SIDED|95.0|7.83|27.06||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||27.06|7.83|0.001
92358831|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|72.63|||<|0.001|TWO_SIDED|95.0|61.14|84.11||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.11|61.14|<0.001
92401559|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.117|TWO_SIDED|95.0|-0.09|0.79||P-value is for prior use, 1 week. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 1.||0.79|-0.09|0.117
92223133|NCT00254501|184347415|SUPERIORITY_OR_OTHER|||||||0.0024|||||||ANCOVA|||Comparison of change in Understanding of Diabetes from baseline to 12 months between groups.||||0.0024
92358832|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|11.7||||0.013|TWO_SIDED|95.0|3.47|19.93||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||19.93|3.47|0.013
92401560|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.412|TWO_SIDED|95.0|-0.25|0.62||P-value is for prior use, 1 week. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 1.||0.62|-0.25|0.412
92223134|NCT04249687|184347432|SUPERIORITY|||||||0.05|||||||Cochran-Mantel-Haenszel|||||||0.05
92223135|NCT04249687|184347433|SUPERIORITY|||||||0.05|||||||Cochran-Mantel-Haenszel|||||||0.05
92223136|NCT01508702|184347434|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.19|0.37|||Cochran-Mantel-Haenszel|||||0.37|0.19|<0.0001
92223137|NCT04472429|184347435|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0006|TWO_SIDED|95.0|0.47|0.84||tested at the 1-sided 2.5% level|stratified log-rank test||A stratified Cox regression with Efron's method for tie handling was used to estimate the hazard ratio.|||0.84|0.47|0.0006
92358833|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|73.58|||<|0.001|TWO_SIDED|95.0|61.83|85.33||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.33|61.83|<0.001
92358834|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|8.01||||0.041|TWO_SIDED|95.0|1.27|14.75||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.75|1.27|0.041
92401561|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.445|TWO_SIDED|95.0|-0.6|0.26||P-value is for prior use, 1 week. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 1.||0.26|-0.60|0.445
92164675|NCT02716324|184217983|SUPERIORITY||Beta coefficient|0.136||||0.285|TWO_SIDED|95.0|-0.138|0.41|||Random effects model|||Random effects models regressed Understanding Engagement Scores Scores on intervention status adjusted for season and clustered by doctor's office.||0.410|-0.138|0.285
92164676|NCT00922207|184217995|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.6853|TWO_SIDED|95.0|0.46|1.75|||Cochran-Mantel-Haenszel|||||1.75|0.46|0.6853
92164677|NCT00922207|184217995|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.1977|TWO_SIDED|95.0|0.35|1.26|||Cochran-Mantel-Haenszel|||||1.26|0.35|0.1977
92164678|NCT00922207|184217995|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.2916|TWO_SIDED|95.0|0.39|1.38|||Cochran-Mantel-Haenszel|||||1.38|0.39|0.2916
92276640|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|1.62||||0.049|TWO_SIDED|95.0|1.0|2.64|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.64|1.00|0.0490
92276641|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|1.32||||0.2124|TWO_SIDED|95.0|0.85|2.06|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.06|0.85|0.2124
92358835|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|73.58|||<|0.001|TWO_SIDED|95.0|61.83|85.33||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.33|61.83|<0.001
92164679|NCT00922207|184217996|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.34||||0.0353|TWO_SIDED|95.0|0.02|0.66|||ANCOVA|||Baseline||0.66|0.02|0.0353
92164680|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.1114|TWO_SIDED|95.0|-0.05|0.52|||ANCOVA|||Baseline||0.52|-0.05|0.1114
92358836|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|6.79||||0.073|TWO_SIDED|95.0|0.23|13.36||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.36|0.23|0.073
92358837|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|73.58|||<|0.001|TWO_SIDED|95.0|61.83|85.33||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.33|61.83|<0.001
92358838|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|6.79||||0.073|TWO_SIDED|95.0|0.23|13.36||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.36|0.23|0.073
92358839|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|73.58|||<|0.001|TWO_SIDED|95.0|61.83|85.33||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.33|61.83|<0.001
92358840|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|6.79||||0.073|TWO_SIDED|95.0|0.23|13.36||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.36|0.23|0.073
92358841|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|74.71|||<|0.001|TWO_SIDED|95.0|63.14|86.27||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.27|63.14|<0.001
92358842|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|7.84||||0.035|TWO_SIDED|95.0|1.57|14.1||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.10|1.57|0.035
92164681|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.515|TWO_SIDED|95.0|-0.42|0.21|||ANCOVA|||Baseline||0.21|-0.42|0.5150
92164682|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.62|||<|0.001|TWO_SIDED|95.0|0.34|0.89|||ANCOVA|||Change at Week 4||0.89|0.34|<0.001
92164683|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.92|||<|0.001|TWO_SIDED|95.0|-2.19|-1.65|||ANCOVA|||Change at Week 4||-1.65|-2.19|<0.001
92164684|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.54|||<|0.001|TWO_SIDED|95.0|-2.81|-2.27|||ANCOVA|||Change at Week 4||-2.27|-2.81|<0.001
92164685|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|||<|0.001|TWO_SIDED|95.0|1.34|2.06|||ANCOVA|||Change at Week 8||2.06|1.34|<0.001
92164686|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.55||||0.0071|TWO_SIDED|95.0|-0.95|-0.15|||ANCOVA|||Change at Week 8||-0.15|-0.95|0.0071
92164687|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.26|||<|0.001|TWO_SIDED|95.0|-2.61|-1.9|||ANCOVA|||Change at Week 8||-1.90|-2.61|<0.001
92164688|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|1.62|||<|0.001|TWO_SIDED|95.0|1.16|2.08|||ANCOVA|||Change at Week 16||2.08|1.16|<0.001
92164689|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.9557|TWO_SIDED|95.0|-0.56|0.53|||ANCOVA|||Change at Week 16||0.53|-0.56|0.9557
92164690|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.65|||<|0.001|TWO_SIDED|95.0|-2.15|-1.14|||ANCOVA|||Change at Week 16||-1.14|-2.15|<0.001
92276642|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|1.41||||0.1078|TWO_SIDED|95.0|0.93|2.14|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.14|0.93|0.1078
92276643|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|1.69||||0.0094|TWO_SIDED|95.0|1.14|2.5|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.50|1.14|0.0094
92164691|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73||||0.0094|TWO_SIDED|95.0|0.18|1.27|||ANCOVA|||Change at Week 28||1.27|0.18|0.0094
92164692|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51||||0.0943|TWO_SIDED|95.0|-0.09|1.11|||ANCOVA|||Change at Week 28||1.11|-0.09|0.0943
92164693|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.23||||0.4354|TWO_SIDED|95.0|-0.82|0.35|||ANCOVA|||Change at Week 28||0.35|-0.82|0.4354
92276644|NCT01360632|184454763|SUPERIORITY_OR_OTHER||Ratio of response rate|1.65||||0.0162|TWO_SIDED|95.0|1.09|2.5|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.50|1.09|0.0162
92164694|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36||||0.2509|TWO_SIDED|95.0|-0.26|0.98|||ANCOVA|||Change at Week 40||0.98|-0.26|0.2509
92276645|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of remission rate|1.03||||0.9498|TWO_SIDED|95.0|0.37|2.9|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.90|0.37|0.9498
92276646|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|0.13||||0.0141|TWO_SIDED|95.0|0.02|0.94|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.94|0.02|0.0141
92164695|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.67||||0.0429|TWO_SIDED|95.0|0.02|1.31|||ANCOVA|||Change at Week 40||1.31|0.02|0.0429
92164696|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.3585|TWO_SIDED|95.0|-0.34|0.93|||ANCOVA|||Change at Week 40||0.93|-0.34|0.3585
92164697|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04||||0.9014|TWO_SIDED|95.0|-0.65|0.74|||ANCOVA|||Change at Week 52||0.74|-0.65|0.9014
92164698|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.1122|TWO_SIDED|95.0|-0.13|1.28|||ANCOVA|||Change at Week 52||1.28|-0.13|0.1122
92164699|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51||||0.1602|TWO_SIDED|95.0|-0.2|1.23|||ANCOVA|||Change at Week 52||1.23|-0.20|0.1602
92164700|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.49||||0.1599|TWO_SIDED|95.0|-1.17|0.19|||ANCOVA|||Change at Week 64||0.19|-1.17|0.1599
92164701|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.5045|TWO_SIDED|95.0|-0.45|0.92|||ANCOVA|||Change at Week 64||0.92|-0.45|0.5045
92164702|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72||||0.0412|TWO_SIDED|95.0|0.03|1.41|||ANCOVA|||Change at Week 64||1.41|0.03|0.0412
92164703|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54||||0.1347|TWO_SIDED|95.0|-1.24|0.17|||ANCOVA|||Change at Week 76||0.17|-1.24|0.1347
92164704|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.4027|TWO_SIDED|95.0|-0.41|1.01|||ANCOVA|||Change at Week 76||1.01|-0.41|0.4027
92164705|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.0311|TWO_SIDED|95.0|0.07|1.55|||ANCOVA|||Change at Week 76||1.55|0.07|0.0311
92164706|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.36||||0.3183|TWO_SIDED|95.0|-1.07|0.35|||ANCOVA|||Change at Week 88||0.35|-1.07|0.3183
92164707|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52||||0.1371|TWO_SIDED|95.0|-0.17|1.22|||ANCOVA|||Change at Week 88||1.22|-0.17|0.1371
92164708|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9||||0.0113|TWO_SIDED|95.0|0.21|1.6|||ANCOVA|||Change at Week 88||1.60|0.21|0.0113
92164709|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21||||0.5608|TWO_SIDED|95.0|-0.92|0.5|||ANCOVA|||Change at Week 100||0.50|-0.92|0.5608
92164710|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17||||0.6323|TWO_SIDED|95.0|-0.53|0.88|||ANCOVA|||Change at Week 100||0.88|-0.53|0.6323
92164711|NCT00922207|184217996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.2752|TWO_SIDED|95.0|-0.32|1.11|||ANCOVA|||Change at Week 100||1.11|-0.32|0.2752
92276647|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|0.93||||0.8609|TWO_SIDED|95.0|0.4|2.17|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.17|0.40|0.8609
92401562|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.025|TWO_SIDED|95.0|0.07|1.09||P-value is for prior use, 2 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 2.||1.09|0.07|0.025
92401563|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.257|TWO_SIDED|95.0|-0.21|0.79||P-value is for prior use, 2 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 2.||0.79|-0.21|0.257
92401564|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.257|TWO_SIDED|95.0|-0.79|0.21||P-value is for prior use, 2 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 2.||0.21|-0.79|0.257
92401565|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.075|TWO_SIDED|95.0|-0.05|1.04||P-value is for prior use, 3 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 3.||1.04|-0.05|0.075
92401566|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.634|TWO_SIDED|95.0|-0.42|0.68||P-value is for prior use, 3 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 3.||0.68|-0.42|0.634
92401567|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.193|TWO_SIDED|95.0|-0.91|0.19||P-value is for prior use, 3 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 3.||0.19|-0.91|0.193
92401568|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.688|TWO_SIDED|95.0|-0.46|0.7||P-value is for prior use, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 4.||0.70|-0.46|0.688
92164712|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.6107|TWO_SIDED|95.0|0.26|9.71|||Cochran-Mantel-Haenszel|||Baseline||9.71|0.26|0.6107
92164713|NCT00922207|184217997|SUPERIORITY_OR_OTHER|||||||0.0788|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Baseline||||0.0788
92164714|NCT00922207|184217997|SUPERIORITY_OR_OTHER|||||||0.1761|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Baseline||||0.1761
92164715|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.7044|TWO_SIDED|95.0|0.34|5.09|||Cochran-Mantel-Haenszel|||Week 4||5.09|0.34|0.7044
92164716|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.35||||0.0927|TWO_SIDED|95.0|0.61|46.76|||Cochran-Mantel-Haenszel|||Week 4||46.76|0.61|0.0927
92164717|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.04||||0.1858|TWO_SIDED|95.0|0.44|36.89|||Cochran-Mantel-Haenszel|||Week 4||36.89|0.44|0.1858
92164718|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.9385|TWO_SIDED|95.0|0.33|3.38|||Cochran-Mantel-Haenszel|||Week 8||3.38|0.33|0.9385
92164719|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.5068|TWO_SIDED|95.0|0.43|5.77|||Cochran-Mantel-Haenszel|||Week 8||5.77|0.43|0.5068
92164720|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.5544|TWO_SIDED|95.0|0.41|5.5|||Cochran-Mantel-Haenszel|||Week 8||5.50|0.41|0.5544
92164721|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.651|TWO_SIDED|95.0|0.26|2.31|||Cochran-Mantel-Haenszel|||Week 16||2.31|0.26|0.6510
92164722|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.3192|TWO_SIDED|95.0|0.2|1.69|||Cochran-Mantel-Haenszel|||Week 16||1.69|0.20|0.3192
92401569|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.944|TWO_SIDED|95.0|-0.6|0.56||P-value is for prior use, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 4.||0.56|-0.60|0.944
92401570|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.64|TWO_SIDED|95.0|-0.73|0.45||P-value is for prior use, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 4.||0.45|-0.73|0.640
92401571|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.439|TWO_SIDED|95.0|-0.37|0.84||P-value is for prior use, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 5.||0.84|-0.37|0.439
92401572|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.461|TWO_SIDED|95.0|-0.38|0.84||P-value is for prior use, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 5.||0.84|-0.38|0.461
92401573|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.976|TWO_SIDED|95.0|-0.62|0.6||P-value is for prior use, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 5.||0.60|-0.62|0.976
92401574|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.829|TWO_SIDED|95.0|-0.55|0.68||P-value is for prior use, 6 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 6.||0.68|-0.55|0.829
92164723|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.5818|TWO_SIDED|95.0|0.29|2.03|||Cochran-Mantel-Haenszel|||Week 16||2.03|0.29|0.5818
92164724|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8796|TWO_SIDED|95.0|0.41|2.66|||Cochran-Mantel-Haenszel|||Week 28||2.66|0.41|0.8796
92164725|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.305|TWO_SIDED|95.0|0.27|1.52|||Cochran-Mantel-Haenszel|||Week 28||1.52|0.27|0.3050
92164726|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.2414|TWO_SIDED|95.0|0.26|1.44|||Cochran-Mantel-Haenszel|||Week 28||1.44|0.26|0.2414
92164727|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8502|TWO_SIDED|95.0|0.5|2.22|||Cochran-Mantel-Haenszel|||Week 40||2.22|0.50|0.8502
92164728|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.5|TWO_SIDED|95.0|0.38|1.61|||Cochran-Mantel-Haenszel|||Week 40||1.61|0.38|0.5000
92164729|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.3882|TWO_SIDED|95.0|0.36|1.53|||Cochran-Mantel-Haenszel|||Week 40||1.53|0.36|0.3882
92164730|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.9584|TWO_SIDED|95.0|0.5|1.99|||Cochran-Mantel-Haenszel|||Week 52||1.99|0.50|0.9584
92164731|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.2576|TWO_SIDED|95.0|0.35|1.34|||Cochran-Mantel-Haenszel|||Week 52||1.34|0.35|0.2576
92164732|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.2362|TWO_SIDED|95.0|0.36|1.34|||Cochran-Mantel-Haenszel|||Week 52||1.34|0.36|0.2362
92164733|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.9861|TWO_SIDED|95.0|0.49|1.9|||Cochran-Mantel-Haenszel|||Week 64||1.90|0.49|0.9861
92164734|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.2919|TWO_SIDED|95.0|0.37|1.35|||Cochran-Mantel-Haenszel|||Week 64||1.35|0.37|0.2919
92164735|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.2674|TWO_SIDED|95.0|0.38|1.38|||Cochran-Mantel-Haenszel|||Week 64||1.38|0.38|0.2674
92164736|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.6148|TWO_SIDED|95.0|0.43|1.64|||Cochran-Mantel-Haenszel|||Week 76||1.64|0.43|0.6148
92358843|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
92358844|NCT01098747|184622582|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
92358845|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|20.01||||0.004|TWO_SIDED|95.0|8.79|31.24||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||31.24|8.79|0.004
92358846|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|14.35||||0.003|TWO_SIDED|95.0|4.26|24.43||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||24.43|4.26|0.003
92358847|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|69.53|||<|0.001|TWO_SIDED|95.0|57.67|81.4||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.40|57.67|<0.001
92401575|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.713|TWO_SIDED|95.0|-0.5|0.74||P-value is for prior use, 6 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 6.||0.74|-0.50|0.713
92401576|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.878|TWO_SIDED|95.0|-0.58|0.67||P-value is for prior use, 6 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 6.||0.67|-0.58|0.878
92401577|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.447|TWO_SIDED|95.0|-0.38|0.85||P-value is for prior use, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 7.||0.85|-0.38|0.447
92223138|NCT01180660|184347448|SUPERIORITY_OR_OTHER||Median Difference (Net)|19.0||||0.01|TWO_SIDED|95.0|3.0|27.0|||Regression, Linear|||A sample size of 22 subjects per group was estimated to achieve 90% power to detect a 16 point difference in the aggregated Qor-40 score for the two study groups to be compared assuming an overall standard deviation of 16 points similar to what was observed in a previous investigation.||27|3|.01
92223139|NCT03461757|184347456|SUPERIORITY||Risk Difference (RD)|10.4|||<|0.0001|TWO_SIDED|95.0|6.5|14.2|||Cochran-Mantel-Haenszel|||||14.2|6.5|< 0.0001
92276648|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|0.59||||0.2846|TWO_SIDED|95.0|0.22|1.54|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.54|0.22|0.2846
92276649|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|1.5||||0.248|TWO_SIDED|95.0|0.75|2.99|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.99|0.75|0.2480
92358848|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|23.45|||<|0.001|TWO_SIDED|95.0|13.16|33.75||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||33.75|13.16|<0.001
92223140|NCT03461757|184347457|SUPERIORITY||Risk Difference (RD)|8.3||||0.0009|TWO_SIDED|95.0|3.4|13.2|||Cochran-Mantel-Haenszel|||||13.2|3.4|0.0009
92358849|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|73.72|||<|0.001|TWO_SIDED|95.0|62.77|84.67||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.67|62.77|<0.001
92358850|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|10.14||||0.014|TWO_SIDED|95.0|3.21|17.08||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.08|3.21|0.014
92358851|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
92358852|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|8.35||||0.028|TWO_SIDED|95.0|2.02|14.68||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.68|2.02|0.028
92401578|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.511|TWO_SIDED|95.0|-0.41|0.83||P-value is for prior use, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 7.||0.83|-0.41|0.511
92401579|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.924|TWO_SIDED|95.0|-0.65|0.59||P-value is for prior use, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 7.||0.59|-0.65|0.924
92401580|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43||||0.185|TWO_SIDED|95.0|-0.2|1.06||P-value is for prior use, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 8.||1.06|-0.20|0.185
92401581|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.403|TWO_SIDED|95.0|-0.37|0.91||P-value is for prior use, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 8.||0.91|-0.37|0.403
92358853|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
92358854|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|7.81||||0.036|TWO_SIDED|95.0|1.54|14.08||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.08|1.54|0.036
92164737|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.57||||0.0904|TWO_SIDED|95.0|0.3|1.08|||Cochran-Mantel-Haenszel|||Week 76||1.08|0.30|0.0904
92164738|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.2073|TWO_SIDED|95.0|0.36|1.27|||Cochran-Mantel-Haenszel|||Week 76||1.27|0.36|0.2073
92164739|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.998|TWO_SIDED|95.0|0.52|1.98|||Cochran-Mantel-Haenszel|||Week 88||1.98|0.52|0.9980
92164740|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.3489|TWO_SIDED|95.0|0.39|1.4|||Cochran-Mantel-Haenszel|||Week 88||1.40|0.39|0.3489
92164741|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.2847|TWO_SIDED|95.0|0.38|1.38|||Cochran-Mantel-Haenszel|||Week 88||1.38|0.38|0.2847
92164742|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.5596|TWO_SIDED|95.0|0.44|1.62|||Cochran-Mantel-Haenszel|||Week 100||1.62|0.44|0.5596
92276650|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|1.13||||0.7513|TWO_SIDED|95.0|0.54|2.37|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.37|0.54|0.7513
92401582|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.636|TWO_SIDED|95.0|-0.79|0.49||P-value is for prior use, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 8.||0.49|-0.79|0.636
92164743|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.2112|TWO_SIDED|95.0|0.36|1.27|||Cochran-Mantel-Haenszel|||Week 100||1.27|0.36|0.2112
92164744|NCT00922207|184217997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.4066|TWO_SIDED|95.0|0.43|1.48|||Cochran-Mantel-Haenszel|||Week 100||1.48|0.43|0.4066
92164745|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.6921|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Baseline||||0.6921
92164746|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.11||||0.3939|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Baseline||||0.3939
92164747|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.6818|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Baseline||||0.6818
92164748|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.7582|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 6||||0.7582
92164749|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.5381|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 6||||0.5381
92164750|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.7747|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 6||||0.7747
92164751|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.8034|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||0.8034
92164752|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.6306|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||0.6306
92164753|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.4574|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||0.4574
92164754|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.5824|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16||||0.5824
92164755|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9321|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16||||0.9321
92164756|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.5263|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16||||0.5263
92164757|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.2025|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 22||||0.2025
92164758|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.6702|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 22||||0.6702
92164759|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77||||0.0818|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 22||||0.0818
92164760|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.6214|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||0.6214
92164761|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.6774|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||0.6774
92164762|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.3154|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||0.3154
92164763|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.2709|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 34||||0.2709
92164764|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.3804|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 34||||0.3804
92164765|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.7645|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 34||||0.7645
92164766|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.182|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 40||||0.1820
92164767|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.7167|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 40||||0.7167
92164768|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.3104|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 40||||0.3104
92164769|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.091|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 46||||0.0910
92164770|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.6094|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 46||||0.6094
92164771|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.2166|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 46||||0.2166
92164772|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.901|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 52||||0.9010
92164773|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.906|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 52||||0.9060
92164774|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.7268|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 52||||0.7268
92164775|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.5372|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 64||||0.5372
92164776|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.1588|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 64||||0.1588
92164777|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.4268|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 64||||0.4268
92164778|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.4389|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 76||||0.4389
92164779|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.6708|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 76||||0.6708
92164780|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.2145|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 76||||0.2145
92164781|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.8608|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 88||||0.8608
92164782|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.0283|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 88||||0.0283
92223141|NCT03461757|184347458|SUPERIORITY||Risk Difference (RD)|16.1|||<|0.0001|TWO_SIDED|95.0|10.8|21.3|||Cochran-Mantel-Haenszel|||||21.3|10.8|< 0.0001
92223142|NCT03461757|184347459|SUPERIORITY||Risk Difference (RD)|20.1|||<|0.0001|TWO_SIDED|95.0|15.1|25.2|||Cochran-Mantel-Haenszel|||||25.2|15.1|< 0.0001
92223143|NCT03461757|184347460|SUPERIORITY||Risk Difference (RD)|20.1|||<|0.0001|TWO_SIDED|95.0|15.1|25.2|||Cochran-Mantel-Haenszel|||||25.2|15.1|< 0.0001
92223144|NCT03461757|184347461|SUPERIORITY||Risk Difference (RD)|9.3|||<|0.0001|TWO_SIDED|95.0|4.9|13.7|||Cochran-Mantel-Haenszel|||||13.7|4.9|< 0.0001
92223145|NCT03461757|184347462|SUPERIORITY||Risk Difference (RD)|-15.0|||<|0.0001|TWO_SIDED|95.0|-19.3|-10.7|||Cochran-Mantel-Haenszel|||||-10.7|-19.3|< 0.0001
92358855|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
92164783|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.0369|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 88||||0.0369
92358856|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
92358857|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
92358858|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
92164784|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.4606|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 100||||0.4606
92164785|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.0832|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 100||||0.0832
92164786|NCT00922207|184217999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.2655|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 100||||0.2655
92223146|NCT03461757|184347463|SUPERIORITY||Risk Difference (RD)|12.7|||<|0.0001|TWO_SIDED|95.0|8.3|17.2|||Cochran-Mantel-Haenszel|||||17.2|8.3|< 0.0001
92223147|NCT03461757|184347464|SUPERIORITY||Risk Difference (RD)|16.9|||<|0.0001|TWO_SIDED|95.0|12.0|21.9|||Cochran-Mantel-Haenszel|||||21.9|12.0|< 0.0001
92223148|NCT03461757|184347465|SUPERIORITY||Risk Difference (RD)|6.8||||0.0018|TWO_SIDED|95.0|2.5|11.0|||Cochran-Mantel-Haenszel|||||11.0|2.5|0.0018
92223149|NCT03461757|184347466|SUPERIORITY||Risk Difference (RD)|10.6|||<|0.0001|TWO_SIDED|95.0|6.3|14.9|||Cochran-Mantel-Haenszel|||||14.9|6.3|< 0.0001
92223150|NCT03461757|184347467|SUPERIORITY||Risk Difference (RD)|8.8||||0.0007|TWO_SIDED|95.0|3.7|13.9|||Cochran-Mantel-Haenszel|||||13.9|3.7|0.0007
92164787|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21||||0.0649|TWO_SIDED|95.0|-0.01|0.43|||ANCOVA|||Baseline||0.43|-0.01|0.0649
92164788|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.1867|TWO_SIDED|95.0|-0.06|0.33|||ANCOVA|||Baseline||0.33|-0.06|0.1867
92164789|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.5003|TWO_SIDED|95.0|-0.3|0.15|||ANCOVA|||Baseline||0.15|-0.30|0.5003
92223151|NCT03461757|184347468|SUPERIORITY||Risk Difference (RD)|8.9||||0.0002|TWO_SIDED|95.0|4.3|13.6|||Cochran-Mantel-Haenszel|||||13.6|4.3|0.0002
92223152|NCT03461757|184347469|SUPERIORITY||Risk Difference (RD)|12.4|||<|0.0001|TWO_SIDED|95.0|7.1|17.6|||Cochran-Mantel-Haenszel|||||17.6|7.1|< 0.0001
92223153|NCT03461757|184347470|SUPERIORITY||Risk Difference (RD)|10.1|||<|0.0001|TWO_SIDED|95.0|6.9|13.4|||Cochran-Mantel-Haenszel|||||13.4|6.9|< 0.0001
92223154|NCT03461757|184347471|SUPERIORITY||Risk Difference (RD)|5.8||||0.0128|TWO_SIDED|95.0|1.2|10.4|||Cochran-Mantel-Haenszel|||||10.4|1.2|0.0128
92223155|NCT03461757|184347472|SUPERIORITY||Risk Difference (RD)|7.8|||<|0.0001|TWO_SIDED|95.0|4.4|11.1|||Cochran-Mantel-Haenszel|||||11.1|4.4|< 0.0001
92223156|NCT03461757|184347473|SUPERIORITY||Risk Difference (RD)|11.5||||0.0003|TWO_SIDED|95.0|5.3|17.7|||Cochran-Mantel-Haenszel|||||17.7|5.3|0.0003
92223157|NCT03461757|184347474|SUPERIORITY||Risk Difference (RD)|8.0|||<|0.0001|TWO_SIDED|95.0|4.9|11.1|||Cochran-Mantel-Haenszel|||||11.1|4.9|< 0.0001
92223158|NCT03461757|184347475|SUPERIORITY||Risk Difference (RD)|5.5||||0.0314|TWO_SIDED|95.0|0.5|10.6|||Cochran-Mantel-Haenszel|||||10.6|0.5|0.0314
92223159|NCT03461757|184347476|SUPERIORITY||Risk Difference (RD)|6.4||||0.0025|TWO_SIDED|95.0|2.3|10.6|||Cochran-Mantel-Haenszel|||||10.6|2.3|0.0025
92223160|NCT03461757|184347477|SUPERIORITY||Risk Difference (RD)|5.9||||0.0898|TWO_SIDED|95.0|-0.9|12.7||P-Value ≥ 0.05; therefore, all secondary endpoints listed after this endpoint in the hierarchy were not tested.|Cochran-Mantel-Haenszel|||||12.7|-0.9|0.0898
92223161|NCT02425826|184347479|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-39.84|||<|0.0001|TWO_SIDED|95.0|-54.39|-25.3|||ANCOVA|Based on 2-way ANCOVA with treatment and site as factors and baseline value as covariate.||||-25.30|-54.39|<0.0001
92223162|NCT02425826|184347480|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.5||||0.0008|TWO_SIDED|95.0|-3.9|-1.0|||ANCOVA|Based on 2-way ANCOVA with treatment and site as factors and baseline value as covariate.||||-1.0|-3.9|0.0008
92223163|NCT02425826|184347481|SUPERIORITY_OR_OTHER_LEGACY||Difference|21.0|||<|0.0001|TWO_SIDED|95.0|11.0|31.1||Two-sided p-value is based on the Cochran-Mantel-Haenszel test stratified by sites.|Cochran-Mantel-Haenszel||Two-sided 95% confidence intervals (CI) is based on normal approximation|||31.1|11.0|<0.0001
92358859|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
92358860|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
92276651|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|1.82||||0.0554|TWO_SIDED|95.0|0.99|3.35|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||3.35|0.99|0.0554
92358861|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
92358862|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
92401583|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.304|TWO_SIDED|95.0|-0.3|0.95||P-value is for prior use, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 9.||0.95|-0.30|0.304
92164790|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.2259|TWO_SIDED|95.0|-0.22|0.05|||ANCOVA|||Change at Week 4||0.05|-0.22|0.2259
92164791|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|||<|0.001|TWO_SIDED|95.0|-0.36|-0.11|||ANCOVA|||Change at Week 4||-0.11|-0.36|<0.001
92358863|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
92358864|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
92164792|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.15||||0.0085|TWO_SIDED|95.0|-0.27|-0.04|||ANCOVA|||Change at Week 4||-0.04|-0.27|0.0085
92164793|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.816|TWO_SIDED|95.0|-0.22|0.18|||ANCOVA|||Change at Week 8||0.18|-0.22|0.8160
92164794|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.4393|TWO_SIDED|95.0|-0.27|0.12|||ANCOVA|||Change at Week 8||0.12|-0.27|0.4393
92223164|NCT02425826|184347482|SUPERIORITY_OR_OTHER_LEGACY||Difference|13.7||||0.0365|TWO_SIDED|95.0|1.7|25.7|||Cochran-Mantel-Haenszel|2-sided p-value is calculated based on Cochran-Mantel-Haenszel test stratified by sites.|Two-sided 95% CI is based on normal approximation|||25.7|1.7|0.0365
92358865|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
92223165|NCT02425826|184347483|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-11.6||||0.0016|TWO_SIDED|95.0|-18.8|-4.5|||ANCOVA|Based on 2-way ANCOVA with treatment and site as factors and baseline value as covariate.||The treatment comparison was only done for Week 16; End of Phase||-4.5|-18.8|0.0016
92401584|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.295|TWO_SIDED|95.0|-0.29|0.97||P-value is for prior use, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 9.||0.97|-0.29|0.295
92401585|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.975|TWO_SIDED|95.0|-0.62|0.64||P-value is for prior use, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 9.||0.64|-0.62|0.975
92164795|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.489|TWO_SIDED|95.0|-0.22|0.11|||ANCOVA|||Change at Week 8||0.11|-0.22|0.4890
92164796|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08||||0.4656|TWO_SIDED|95.0|-0.14|0.3|||ANCOVA|||Change at Week 16||0.30|-0.14|0.4656
92164797|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08||||0.5016|TWO_SIDED|95.0|-0.15|0.31|||ANCOVA|||Change at Week 16||0.31|-0.15|0.5016
92164798|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01||||0.9582|TWO_SIDED|95.0|-0.23|0.22|||ANCOVA|||Change at Week 16||0.22|-0.23|0.9582
92164799|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07||||0.6214|TWO_SIDED|95.0|-0.21|0.36|||ANCOVA|||Change at Week 28||0.36|-0.21|0.6214
92164800|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.5493|TWO_SIDED|95.0|-0.21|0.39|||ANCOVA|||Change at Week 28||0.39|-0.21|0.5493
92164801|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.8881|TWO_SIDED|95.0|-0.28|0.32|||ANCOVA|||Change at Week 28||0.32|-0.28|0.8881
92164802|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.7912|TWO_SIDED|95.0|-0.36|0.27|||ANCOVA|||Change at Week 40||0.27|-0.36|0.7912
92164803|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.5427|TWO_SIDED|95.0|-0.24|0.46|||ANCOVA|||Change at Week 40||0.46|-0.24|0.5427
92164804|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15||||0.3788|TWO_SIDED|95.0|-0.19|0.49|||ANCOVA|||Change at Week 40||0.49|-0.19|0.3788
92164805|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.6172|TWO_SIDED|95.0|-0.44|0.26|||ANCOVA|||Change at Week 52||0.26|-0.44|0.6172
92164806|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.6002|TWO_SIDED|95.0|-0.29|0.5|||ANCOVA|||Change at Week 52||0.50|-0.29|0.6002
92164807|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19||||0.3101|TWO_SIDED|95.0|-0.18|0.56|||ANCOVA|||Change at Week 52||0.56|-0.18|0.3101
92164808|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14||||0.4256|TWO_SIDED|95.0|-0.47|0.2|||ANCOVA|||Change at Week 64||0.20|-0.47|0.4256
92164809|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01||||0.9762|TWO_SIDED|95.0|-0.35|0.36|||ANCOVA|||Change at Week 64||0.36|-0.35|0.9762
92164810|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.4504|TWO_SIDED|95.0|-0.21|0.47|||ANCOVA|||Change at Week 64||0.47|-0.21|0.4504
92164811|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12||||0.4076|TWO_SIDED|95.0|-0.42|0.17|||ANCOVA|||Change at Week 76||0.17|-0.42|0.4076
92164812|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05||||0.7591|TWO_SIDED|95.0|-0.37|0.27|||ANCOVA|||Change at Week 76||0.27|-0.37|0.7591
92164813|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08||||0.6449|TWO_SIDED|95.0|-0.25|0.4|||ANCOVA|||Change at Week 76||0.40|-0.25|0.6449
92164814|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.7108|TWO_SIDED|95.0|-0.36|0.25|||ANCOVA|||Change at Week 88||0.25|-0.36|0.7108
92164815|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12||||0.4725|TWO_SIDED|95.0|-0.22|0.47|||ANCOVA|||Change at Week 88||0.47|-0.22|0.4725
92164816|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19||||0.2439|TWO_SIDED|95.0|-0.13|0.5|||ANCOVA|||Change at Week 88||0.50|-0.13|0.2439
92164817|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.1862|TWO_SIDED|95.0|-0.1|0.5|||ANCOVA|||Change at Week 100||0.50|-0.10|0.1862
92164818|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15||||0.3057|TWO_SIDED|95.0|-0.14|0.43|||ANCOVA|||Change at Week 100||0.43|-0.14|0.3057
92164819|NCT00922207|184218000|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.8002|TWO_SIDED|95.0|-0.38|0.29|||ANCOVA|||Change at Week 100||0.29|-0.38|0.8002
92164820|NCT02476890|184218002|OTHER||Mean Difference (Final Values)|0.01||||0.9666|TWO_SIDED|95.0|-0.6|0.7|||Mixed Models Analysis|||C2 Response/Healthy||0.7|-0.6|0.9666
92164821|NCT02476890|184218002|OTHER||Mean Difference (Final Values)|-0.22||||0.5993|TWO_SIDED|95.0|-1.1|0.6|||Mixed Models Analysis|||C5 Response/Healthy||0.6|-1.1|0.5993
92164822|NCT02476890|184218002|OTHER||Mean Difference (Final Values)|0.32||||0.2823|TWO_SIDED|95.0|-0.3|0.9|||Mixed Models Analysis|||C2 Response/Chronic Cough||0.9|-0.3|0.2823
92164823|NCT02476890|184218002|OTHER||Mean Difference (Final Values)|0.25||||0.4287|TWO_SIDED|95.0|-0.4|0.9|||Mixed Models Analysis|||C5 Response/Chronic Cough||0.9|-0.4|0.4287
92164824|NCT02476890|184218003|OTHER||Mean Difference (Final Values)|0.56||||0.1771|TWO_SIDED|95.0|-0.3|1.4|||Mixed Models Analysis|||C2 Response/Healthy||1.4|-0.3|0.1771
92164825|NCT02476890|184218003|OTHER||Mean Difference (Final Values)|0.3||||0.5473|TWO_SIDED|95.0|-0.7|1.3|||Mixed Models Analysis|||C5 Response/Healthy||1.3|-0.7|0.5473
92164826|NCT02476890|184218003|OTHER||Mean Difference (Final Values)|0.23||||0.5169|TWO_SIDED|95.0|-0.5|1.0|||Mixed Models Analysis|||C2 Response/Chronic Cough||1.0|-0.5|0.5169
92164827|NCT02476890|184218003|OTHER||Mean Difference (Final Values)|0.28||||0.4243|TWO_SIDED|95.0|-0.4|1.0|||Mixed Models Analysis|||C5 Response/Chronic Cough||1.0|-0.4|0.4243
92164828|NCT02476890|184218004|OTHER||Mean Difference (Final Values)|0.89||||0.1125|TWO_SIDED|95.0|-0.2|2.0|||Mixed Models Analysis|||C2 Response/Healthy||2.0|-0.2|0.1125
92164829|NCT02476890|184218004|OTHER||Mean Difference (Final Values)|0.88||||0.0029|TWO_SIDED|95.0|0.4|1.4|||Mixed Models Analysis|||C5 Response/Healthy||1.4|0.4|0.0029
92164830|NCT02476890|184218004|OTHER||Mean Difference (Final Values)|1.54||||0.0006|TWO_SIDED|95.0|0.7|2.4|||Mixed Models Analysis|||C2 Response/Chronic Cough||2.4|0.7|0.0006
92164831|NCT02476890|184218004|OTHER||Mean Difference (Final Values)|1.3||||0.0067|TWO_SIDED|95.0|0.4|2.2|||Mixed Models Analysis|||C5 Response/Chronic Cough||2.2|0.4|0.0067
92164832|NCT02476890|184218005|OTHER||Mean Difference (Final Values)|0.38|||<|0.0001|TWO_SIDED|95.0|0.2|0.5|||Mixed Models Analysis|||C2 Response/Healthy||0.5|0.2|< 0.0001
92164833|NCT02476890|184218005|OTHER||Mean Difference (Final Values)|0.23||||0.1798|TWO_SIDED|95.0|-0.1|0.6|||Mixed Models Analysis|||C5 Response/Healthy||0.6|-0.1|0.1798
92164834|NCT02476890|184218005|OTHER||Mean Difference (Final Values)|0.3||||0.0011|TWO_SIDED|95.0|0.1|0.5|||Mixed Models Analysis|||C2 Response/Chronic Cough||0.5|0.1|0.0011
92358866|NCT01098747|184622583|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
92358867|NCT01098747|184622584|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.22||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||0.22|0.08|<0.001
92164835|NCT02476890|184218005|OTHER||Mean Difference (Final Values)|0.28||||0.0023|TWO_SIDED|95.0|0.1|0.4|||Mixed Models Analysis|||C5 Response/Chronic Cough||0.4|0.1|0.0023
92164836|NCT02476890|184218006|OTHER||Mean Difference (Final Values)|-18.0||||0.0037|TWO_SIDED|95.0|-29.8|-6.2|||Mixed Models Analysis|||Cough Severity VAS Analysis||-6.2|-29.8|0.0037
92164837|NCT02476890|184218007|OTHER||Mean Difference (Final Values)|-18.0||||0.002|TWO_SIDED|95.0|-29.1|-7.0|||Mixed Models Analysis|||Urge to Cough VAS Analysis||-7.0|-29.1|0.0020
92164838|NCT02476890|184218008|OTHER||Mean Difference (Final Values)|-3.6||||0.0075|TWO_SIDED|95.0|-6.2|-1.0|||Mixed Models Analysis|||Cough Frequency Analysis||-1.0|-6.2|0.0075
92164839|NCT03684265|184218025|EQUIVALENCE|Bioequivalence acceptance range for the ratio of geometric means was 80- 125%|Geometric mean ratio T/R, %|92.74|STANDARD_ERROR_OF_MEAN|8.66|||TWO_SIDED|95.0|89.02|96.62|||||Standard error of the mean is actually intra individual coefficient of variation.|Relative bioavailability comparison of Movalis® capsules (T) with Movalis® tablets (R) for AUC0-t. The analysis of variance (ANOVA) model in the log scale was used. This model included the sequence, period and type of therapy as fixed effects and the effect study subjects grouped within the sequence was considered random||96.62|89.02|
92164840|NCT03684265|184218026|EQUIVALENCE|Bioequivalence acceptance range for the ratio of geometric means was 80- 125%|Geometric mean ratio T/R, %|78.94|STANDARD_ERROR_OF_MEAN|14.57|||TWO_SIDED|90.0|73.7|84.56|||||Standard error of the mean is actually intra individual coefficient of variation.|Relative bioavailability comparison of Movalis® capsules (T) with Movalis® tablets (R) for Cmax. The analysis of variance (ANOVA) model in the log scale was used. This model included the sequence, period and type of therapy as fixed effects and the effect study subjects grouped within the sequence was considered random||84.56|73.70|
92164841|NCT03684265|184218027|EQUIVALENCE|Bioequivalence acceptance range for the ratio of geometric means was 80- 125%|Geometric mean ratio T/R, %|97.04|STANDARD_ERROR_OF_MEAN|9.96|||TWO_SIDED|90.0|92.57|101.72|||||Standard error of the mean is actually intra individual coefficient of variation.|Relative bioavailability comparison of Movalis® capsules (T) with Movalis® tablets (R) for AUC0-∞. The analysis of variance (ANOVA) model in the log scale was used. This model included the sequence, period and type of therapy as fixed effects and the effect study subjects grouped within the sequence was considered random||101.72|92.57|
92164842|NCT01227707|184218037|SUPERIORITY_OR_OTHER|||||||1|||||||one sample binomial test|||||||1.00
92223166|NCT02425826|184347484|SUPERIORITY_OR_OTHER_LEGACY||Difference|11.8||||0.0463|TWO_SIDED|95.0|-4.0|27.6|||Cochran-Mantel-Haenszel|p-value was based on 2-sided CMH tests stratified by sites.|Two-sided 95% CI is based on normal approximation.|||27.6|-4.0|0.0463
92223167|NCT02425826|184347485|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|17.8|||<|0.0001|TWO_SIDED|95.0|10.36|25.24|||ANOVA|Based on 2-way ANOVA with treatment and site as factors.||TSQM-Effectiveness||25.24|10.36|<0.0001
92223168|NCT02425826|184347485|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.0||||0.3433|TWO_SIDED|95.0|-5.4|15.4|||ANOVA|Based on 2-way ANOVA with treatment and site as factors.||TSQM - Side Effects||15.40|-5.40|0.3433
92223169|NCT02425826|184347485|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.4||||0.625|TWO_SIDED|95.0|-4.25|7.06|||ANOVA|Based on 2-way ANOVA with treatment and site as factors.||TSMQ-Convenience||7.06|-4.25|0.6250
92223170|NCT02425826|184347485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.07|||<|0.0001|TWO_SIDED|95.0|7.16|20.97|||ANOVA|||TSQM-Global Satisfaction||20.97|7.16|<0.0001
92223171|NCT02425826|184347487|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-37.0|||<|0.0001|TWO_SIDED|95.0|-54.08|-19.91|||ANCOVA|Based on 2-way ANCOVA with treatment and site as factors and baseline value as covariate||||-19.91|-54.08|<0.0001
92223172|NCT02425826|184347488|SUPERIORITY_OR_OTHER_LEGACY||Difference|29.1|||<|0.0001|TWO_SIDED|95.0|16.3|41.8|||Cochran-Mantel-Haenszel|2-sided p-value is calculated based on Cochran-Mantel-Haenszel test stratified by sites.|Two-sided 95% CI is based on normal approximation|||41.8|16.3|<0.0001
92223173|NCT02425826|184347489|SUPERIORITY_OR_OTHER_LEGACY||Difference|13.5||||0.0136|TWO_SIDED|95.0|4.4|22.7|||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel test stratified by sites.|2-sided 95% CI is based on normal approximation.|||22.7|4.4|0.0136
92223174|NCT03861559|184347494|OTHER||||||<|0.01|||||||Log Rank|||||||<0.01
92223175|NCT03861559|184347495|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223176|NCT03861559|184347497|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223177|NCT03861559|184347498|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92358868|NCT01098747|184622584|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.33||||0.281|TWO_SIDED|95.0|0.79|2.22||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||2.22|0.79|0.281
92164843|NCT00430300|184218056|SUPERIORITY_OR_OTHER||NDLM estimate difference|-0.0087||||0.0284|TWO_SIDED|95.0|-0.0943|0.0774|||Bayesian NDLM model|||The Bayesian normal dynamic linear model (NDLM) was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of 0.075 liter from placebo.||0.0774|-0.0943|0.0284
92164844|NCT00430300|184218056|SUPERIORITY_OR_OTHER||NDLM estimate difference|-0.0389||||0.0056|TWO_SIDED|95.0|-0.1299|0.0471|||Bayesian NDLM model|||The Bayesian normal dynamic linear model (NDLM) was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of 0.075 liter from placebo.||0.0471|-0.1299|0.0056
92164845|NCT00430300|184218056|SUPERIORITY_OR_OTHER||NDLM estimate difference|-0.051||||0.0009|TWO_SIDED|95.0|-0.1298|0.029|||Bayesian NDLM model|||The Bayesian normal dynamic linear model (NDLM) was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of 0.075 liter from placebo.||0.0290|-0.1298|0.0009
92164846|NCT00430300|184218057|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.5849|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.5849
92164847|NCT00430300|184218057|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.9737|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.9737
92164848|NCT00430300|184218057|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.387|ONE_SIDED|95.0|-0.06||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.06|0.3870
92164849|NCT00430300|184218057|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.8612|ONE_SIDED|95.0|-0.15||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.15|0.8612
92164850|NCT00430300|184218057|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.05||0.7499|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.7499
92164851|NCT00430300|184218057|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.5134|ONE_SIDED|95.0|-0.08||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.08|0.5134
92164852|NCT00430300|184218057|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.07||0.1244|ONE_SIDED|95.0|-0.04||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.04|0.1244
92164853|NCT00430300|184218057|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.53|ONE_SIDED|95.0|-0.12||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.12|0.5300
92164854|NCT00430300|184218057|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.06||0.055|ONE_SIDED|95.0|0.0||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.00|0.0550
92164855|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.7444|ONE_SIDED|95.0|-0.16||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.16|0.7444
92164856|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.9134|ONE_SIDED|95.0|-0.21||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.21|0.9134
92164857|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.6841|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.6841
92164858|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.9283|ONE_SIDED|95.0|-0.23||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.23|0.9283
92164859|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.07||0.2991|ONE_SIDED|95.0|-0.08||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.08|0.2991
92223178|NCT03861559|184347499|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223179|NCT03861559|184347501|OTHER|||||||0.14|||||||ANOVA|||||||0.14
92223180|NCT03861559|184347502|OTHER|||||||0.02|||||||ANOVA|||||||0.02
92223181|NCT03861559|184347503|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223182|NCT03861559|184347505|OTHER|||||||0.15|||||||ANOVA|||||||0.15
92223183|NCT03861559|184347506|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223184|NCT03861559|184347507|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223185|NCT03861559|184347509|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223186|NCT03861559|184347510|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223187|NCT03861559|184347511|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223188|NCT03861559|184347512|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223189|NCT03861559|184347513|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92276652|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|1.48||||0.2409|TWO_SIDED|95.0|0.76|2.87|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.87|0.76|0.2409
92223190|NCT03861559|184347514|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92223191|NCT02997904|184347515|SUPERIORITY||Least Squares Mean Difference|1.0058|STANDARD_ERROR_OF_MEAN|0.2131|<|0.0001|TWO_SIDED|95.0|0.5829|1.4288|||ANOVA|||Ho: Total Number of lice and eggs removed with Resultz® ≤ Total number of lice and eggs removed with sham control Ha: Total Number of lice and eggs removed with Resultz® \> Total Number of lice and eggs removed with sham control||1.4288|0.5829|<0.0001
92223192|NCT02997904|184347516|SUPERIORITY||Least Squares Mean Difference|1.2084|STANDARD_ERROR_OF_MEAN|0.0467|<|0.0001|TWO_SIDED|95.0|1.1157|1.3011||The P-Values were \<0.0001 in both comparison groups; total number lice removed and total number of eggs removed|GLIMMX|||Comparison of total number of lice removed and total number of eggs removed were analyzed separately||1.3011|1.1157|<0.0001
92223193|NCT02997904|184347516|SUPERIORITY||Least Squares Mean Difference|0.7899|STANDARD_ERROR_OF_MEAN|0.04565|<|0.0001|TWO_SIDED|95.0|0.6993|0.8805|||GLIMMX|||||0.8805|0.6993|<0.0001
92223194|NCT00879697|184347517|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||The effect of training in both groups were assessed by a 2-way ANOVA (Time x Group) for repeated measures. When significance was obtained, the Newman-Keuls post hoc test was used to identify the differences.||||<0.05
92223195|NCT03649061|184347532|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||To compare the two randomization groups, a linear mixed model with DAS28-CRP as outcome (Bell et al. 2014), including random intercepts per patient, adjusted for baseline DAS28-CRP, randomization timepoint, and RF and/or ACPA seropositivity was used.||||<0.05
92223196|NCT03649061|184347533|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||A binomial generalized linear mixed effect model for repeated measures of remission from randomization up until 28 weeks after was carried out, with adjustment for baseline DAS28-CRP, moment of randomization, and RF and/or ACPA seropositivity.||||<0.05
92223197|NCT00631748|184347576|SUPERIORITY_OR_OTHER||||||<|0.25|TWO_SIDED|95.0|||||ANCOVA|We compared TLFB at baseline and at end of study.||We used a repeated-measures ANCOVA to compare cocaine usage between the two groups. This incorporated the multiple administrations of the Timeline Followback measure.||||<0.25
92276653|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|1.18||||0.5538|TWO_SIDED|95.0|0.69|2.02|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.02|0.69|0.5538
92223198|NCT00631748|184347577|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Regression, Cox|||End-of-trial abstinence was defined as a negative urine drug screen (for cocaine) for three consecutive weeks at the end of the study.||||.65
92223199|NCT03829657|184347582|SUPERIORITY||Odds Ratio (OR)|0.6||||0.196|TWO_SIDED|95.0|0.27|1.29|||Regression, Logistic|||||1.29|0.27|0.196
92223200|NCT02762513|184347634|OTHER||Median overall survival time (months)|9.8|||||TWO_SIDED|95.0|||||||Median calculated by Kaplan-Meier method.|||||
92223201|NCT02762513|184347635|OTHER||Median PFS time (months)|3.5|||||TWO_SIDED|95.0|||||||Median calculated by Kaplan-Meier method.|||||
92223202|NCT02111564|184347640|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.136|TWO_SIDED|95.0|0.52|1.09|||Cox proportional hazards model|||||1.09|0.52|0.136
92223203|NCT02111564|184347641|SUPERIORITY||Hazard Ratio (HR)|1.88||||0.124|TWO_SIDED|95.0|0.84|4.23|||Cox proportional hazards model|||||4.23|0.84|0.124
92223204|NCT02111564|184347642|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.751|TWO_SIDED|95.0|0.62|1.42|||Cox proportional hazards model|||||1.42|0.62|0.751
92223205|NCT02111564|184347643|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.023|TWO_SIDED|95.0|0.22|0.89|||Cox proportional hazards model|||||0.89|0.22|0.023
92223206|NCT02111564|184347644|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.033|TWO_SIDED|95.0|0.54|0.97|||Cox proportional hazards model|||||0.97|0.54|0.033
92223207|NCT02111564|184347645|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.073|TWO_SIDED|95.0|0.6|1.02|||Cox proportional hazards model|||||1.02|0.60|0.073
92223208|NCT02111564|184347646|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.156|TWO_SIDED|95.0|0.58|1.09|||Cox proportional hazards model|||||1.09|0.58|0.156
92223209|NCT04986202|184347715|SUPERIORITY||Mean Difference (Final Values)|-0.92||||0.537|TWO_SIDED|95.0|-3.86|2.02||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|||2.02|-3.86|0.537
92223210|NCT04986202|184347715|SUPERIORITY||Mean Difference (Final Values)|-1.81||||0.221|TWO_SIDED|95.0|-4.71|1.09||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|||1.09|-4.71|0.221
92223211|NCT04986202|184347716|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.559|TWO_SIDED|95.0|-5.7|10.5||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|||10.5|-5.7|0.559
92223212|NCT04986202|184347716|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.195|TWO_SIDED|95.0|-2.7|13.3||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|||13.3|-2.7|0.195
92164860|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.06||0.7403|ONE_SIDED|95.0|-0.15||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.15|0.7403
92164861|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.3499|ONE_SIDED|95.0|-0.11||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.11|0.3499
92164862|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.08||0.2734|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.2734
92164863|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.5806|ONE_SIDED|95.0|-0.14||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.14|0.5806
92164864|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.11||0.054|ONE_SIDED|95.0|0.0||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.00|0.0540
92164865|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.1||0.2616|ONE_SIDED|95.0|-0.11||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.11|0.2616
92164866|NCT00430300|184218058|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.09||0.0724|ONE_SIDED|95.0|-0.02||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.02|0.0724
92164867|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.1||0.9362|ONE_SIDED|95.0|-0.32||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.32|0.9362
92164868|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.9469|ONE_SIDED|95.0|-0.33||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.33|0.9469
92164869|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.09||0.9153|ONE_SIDED|95.0|-0.27||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.27|0.9153
92164870|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.9686|ONE_SIDED|95.0|-0.36||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.36|0.9686
92164871|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1548|ONE_SIDED|95.0|-0.06||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.06|0.1548
92164872|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.09||0.7973|ONE_SIDED|95.0|-0.22||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.22|0.7973
92164873|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.11||0.6348|ONE_SIDED|95.0|-0.22||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.22|0.6348
92164874|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.1||0.5742|ONE_SIDED|95.0|-0.19||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.19|0.5742
92164875|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.6719|ONE_SIDED|95.0|-0.19||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.19|0.6719
92164876|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.13||0.0881|ONE_SIDED|95.0|-0.04||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.04|0.0881
92164877|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.12||0.2772|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.2772
92164878|NCT00430300|184218059|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.11||0.1363|ONE_SIDED|95.0|-0.06||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.06|0.1363
92401586|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.349|TWO_SIDED|95.0|-0.33|0.93||P-value is for prior use, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 10.||0.93|-0.33|0.349
92401587|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.351|TWO_SIDED|95.0|-0.34|0.94||P-value is for prior use, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 10.||0.94|-0.34|0.351
92223213|NCT04986202|184347717|SUPERIORITY||Mean Difference (Final Values)|-1.65||||0.289|TWO_SIDED|95.0|-4.71|1.41||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.41|-4.71|0.289
92223214|NCT04986202|184347717|SUPERIORITY||Mean Difference (Final Values)|-0.87||||0.571|TWO_SIDED|95.0|-3.86|2.13||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||2.13|-3.86|0.571
92223215|NCT04986202|184347717|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.89|TWO_SIDED|95.0|-3.8|3.3||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||3.30|-3.80|0.890
92223216|NCT04986202|184347717|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.558|TWO_SIDED|95.0|-4.55|2.46||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||2.46|-4.55|0.558
92223217|NCT04986202|184347718|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.619|TWO_SIDED|95.0|-11.1|6.6||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||6.6|-11.1|0.619
92223218|NCT04986202|184347718|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.522|TWO_SIDED|95.0|-5.8|11.4||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||11.4|-5.8|0.522
92223219|NCT04986202|184347718|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.267|TWO_SIDED|95.0|-4.4|15.8||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||15.8|-4.4|0.267
92223220|NCT04986202|184347718|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.657|TWO_SIDED|95.0|-7.6|12.1||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||12.1|-7.6|0.657
92223221|NCT04986202|184347719|SUPERIORITY||Geometric mean ratio|0.95||||0.312|TWO_SIDED|95.0|0.86|1.05||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 16 weeks||1.05|0.86|0.312
92223222|NCT04986202|184347719|SUPERIORITY||Geometric mean ratio|0.91||||0.07|TWO_SIDED|95.0|0.83|1.01||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 16 weeks||1.01|0.83|0.070
92223223|NCT04986202|184347719|SUPERIORITY||Geometric mean ratio|1.01||||0.911|TWO_SIDED|95.0|0.91|1.12||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 24 weeks||1.12|0.91|0.911
92223224|NCT04986202|184347719|SUPERIORITY||Geometric mean ratio|1.01||||0.837|TWO_SIDED|95.0|0.91|1.12||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 24 weeks||1.12|0.91|0.837
92223225|NCT04986202|184347719|SUPERIORITY||Geometric mean ratio|0.95||||0.37|TWO_SIDED|95.0|0.84|1.07||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 48 weeks||1.07|0.84|0.370
92276654|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|1.44||||0.1743|TWO_SIDED|95.0|0.85|2.41|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.41|0.85|0.1743
92358869|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-23.93|||<|0.001|TWO_SIDED|95.0|-36.67|-11.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-11.20|-36.67|<0.001
92223226|NCT04986202|184347719|SUPERIORITY||Geometric mean ratio|0.93||||0.205|TWO_SIDED|95.0|0.83|1.04||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 48 weeks||1.04|0.83|0.205
92223227|NCT04986202|184347720|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.183|TWO_SIDED|95.0|-0.2|1.2||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.2|-0.2|0.183
92223228|NCT04986202|184347720|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.898|TWO_SIDED|95.0|-0.8|0.7||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||0.7|-0.8|0.898
92223229|NCT04986202|184347720|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.316|TWO_SIDED|95.0|-0.4|1.1||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.1|-0.4|0.316
92223230|NCT04986202|184347720|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.934|TWO_SIDED|95.0|-0.7|0.8||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||0.8|-0.7|0.934
92223231|NCT04986202|184347721|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.725|TWO_SIDED|95.0|-1.647|2.366||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||2.366|-1.647|0.725
92358870|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-1.21||||0.483|TWO_SIDED|95.0|-4.12|1.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.70|-4.12|0.483
92401588|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.992|TWO_SIDED|95.0|-0.64|0.65||P-value is for prior use, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 10.||0.65|-0.64|0.992
92276655|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|1.3||||0.2843|TWO_SIDED|95.0|0.81|2.07|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.07|0.81|0.2843
92223232|NCT04986202|184347721|SUPERIORITY||Mean Difference (Final Values)|-0.594||||0.555|TWO_SIDED|95.0|-2.571|1.382||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.382|-2.571|0.555
92223233|NCT04986202|184347721|SUPERIORITY||Mean Difference (Final Values)|0.657||||0.586|TWO_SIDED|95.0|-1.71|3.025||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||3.025|-1.710|0.586
92223234|NCT04986202|184347721|SUPERIORITY||Mean Difference (Final Values)|-0.815||||0.486|TWO_SIDED|95.0|-3.108|1.478||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.478|-3.108|0.486
92223235|NCT04986202|184347722|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.968|TWO_SIDED|95.0|-4.1|3.9||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||3.9|-4.1|0.968
92223236|NCT04986202|184347722|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.251|TWO_SIDED|95.0|-6.3|1.6||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.6|-6.3|0.251
92223237|NCT04986202|184347722|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.872|TWO_SIDED|95.0|-4.8|5.7||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||5.7|-4.8|0.872
92223238|NCT04986202|184347722|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.682|TWO_SIDED|95.0|-6.2|4.1||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|No formal hypothesis testing and p-value is not adjusted for multiple comparisons.|Change from baseline at 24 weeks||4.1|-6.2|0.682
92223239|NCT04986202|184347724|SUPERIORITY||Geometric mean ratio|1.029||||0.76|TWO_SIDED|95.0|0.857|1.236||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.236|0.857|0.760
92223240|NCT04986202|184347724|SUPERIORITY||Geometric mean ratio|1.209||||0.039|TWO_SIDED|95.0|1.01|1.448||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Change from baseline at 16 weeks||1.448|1.010|0.039
92223241|NCT04986202|184347724|SUPERIORITY||Geometric mean ratio|1.111||||0.241|TWO_SIDED|95.0|0.931|1.326||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.326|0.931|0.241
92223242|NCT04986202|184347724|SUPERIORITY||Geometric mean ratio|1.19||||0.049|TWO_SIDED|95.0|1.001|1.414||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.414|1.001|0.049
92223243|NCT04986202|184347724|SUPERIORITY||Geometric mean ratio|1.151||||0.158|TWO_SIDED|95.0|0.946|1.401||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||1.401|0.946|0.158
92223244|NCT04986202|184347724|SUPERIORITY||Geometric mean ratio|1.159||||0.131|TWO_SIDED|95.0|0.957|1.404||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||1.404|0.957|0.131
92223245|NCT04986202|184347725|SUPERIORITY||Geometric mean ratio|1.0111||||0.874|TWO_SIDED|95.0|0.8819|1.1592||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.1592|0.8819|0.874
92223246|NCT04986202|184347725|SUPERIORITY||Geometric mean ratio|0.9157||||0.2|TWO_SIDED|95.0|0.8002|1.0479||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.0479|0.8002|0.200
92223247|NCT04986202|184347725|SUPERIORITY||Geometric mean ratio|1.1063||||0.135|TWO_SIDED|95.0|0.969|1.2631||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.2631|0.9690|0.135
92223248|NCT04986202|184347725|SUPERIORITY||Geometric mean ratio|1.0842||||0.22|TWO_SIDED|95.0|0.9527|1.2339||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.2339|0.9527|0.220
92223249|NCT04986202|184347725|SUPERIORITY||Geometric mean ratio|1.0496||||0.467|TWO_SIDED|95.0|0.9211|1.196||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||1.1960|0.9211|0.467
92223250|NCT04986202|184347725|SUPERIORITY||Geometric mean ratio|1.0312||||0.636|TWO_SIDED|95.0|0.908|1.1711||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||1.1711|0.9080|0.636
92223251|NCT03806127|184347743|OTHER||Cochran-Mantel-Haenszel (CMH) Difference|-1.9|||||TWO_SIDED|90.0|-16.1|12.3|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus ≥ 6) strata, with weights proposed by Greenland and Robins.|||12.3|-16.1|
92223252|NCT03806127|184347744|OTHER||CMH Difference|9.1|||||TWO_SIDED|90.0|-4.8|22.9|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus \>= 6) strata, with weights proposed by Greenland and Robins.|IBS-D Participants||22.9|-4.8|
92223253|NCT03806127|184347744|OTHER||CMH Difference|-0.1|||||TWO_SIDED|90.0|-16.7|16.4|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus \>= 6) strata, with weights proposed by Greenland and Robins.|IBS-M Participants||16.4|-16.7|
92223254|NCT03806127|184347744|OTHER||CMH Difference|5.3|||||TWO_SIDED|90.0|-5.4|15.9|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus \>= 6) strata, with weights proposed by Greenland and Robins.|All Participants||15.9|-5.4|
92223255|NCT03806127|184347745|OTHER||CMH Difference|1.6|||||TWO_SIDED|90.0|-11.7|14.9|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus \>= 6) strata, with weights proposed by Greenland and Robins.|||14.9|-11.7|
92223256|NCT03806127|184347746|OTHER||CMH Difference|6.7|||||TWO_SIDED|90.0|-5.5|18.8|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus ≥ 6) strata, with weights proposed by Greenland and Robins.|||18.8|-5.5|
92276656|NCT01360632|184454764|SUPERIORITY_OR_OTHER||Ratio of response rate|1.19||||0.464|TWO_SIDED|95.0|0.74|1.92|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.92|0.74|0.4640
92358871|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-51.93|||<|0.001|TWO_SIDED|95.0|-65.63|-38.22||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-38.22|-65.63|<0.001
92358872|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-3.61||||0.174|TWO_SIDED|95.0|-7.97|0.75||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||0.75|-7.97|0.174
92358873|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-66.58|||<|0.001|TWO_SIDED|95.0|-79.8|-53.35||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-53.35|-79.80|<0.001
92358874|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-3.75||||0.24|TWO_SIDED|95.0|-9.38|1.89||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.89|-9.38|0.240
92358875|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-61.36|||<|0.001|TWO_SIDED|95.0|-75.21|-47.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-47.50|-75.21|<0.001
92358876|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|1.52||||0.668|TWO_SIDED|95.0|-5.47|8.52||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.52|-5.47|0.668
92401589|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.681|TWO_SIDED|95.0|-0.5|0.77||P-value is for prior use, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 11.||0.77|-0.50|0.681
92223257|NCT02163434|184347750|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92223258|NCT02163434|184347751|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||||||0.005
92276657|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|0.6||||0.3867|TWO_SIDED|95.0|0.18|1.97|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.97|0.18|0.3867
92276658|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|0.11||||0.0118|TWO_SIDED|95.0|0.01|0.93|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||0.93|0.01|0.0118
92358877|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-60.31|||<|0.001|TWO_SIDED|95.0|-74.28|-46.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-46.34|-74.28|<0.001
92358878|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|1.1||||0.98|TWO_SIDED|95.0|-7.44|7.63||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||7.63|-7.44|0.980
92223259|NCT02163434|184347752|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92223260|NCT02163434|184347754|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92223261|NCT02163434|184347755|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||||||0.06
92223262|NCT03823391|184347763|SUPERIORITY||Least Squares (LS) Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.215||0.022|TWO_SIDED|90.0|-0.89|-0.15|||Mixed-effect model repeated measurement|Analysis includes treatment, visit, stratification factors, and treatment-by-visit interaction as fixed factors and Baseline value as covariate.|Between groups difference was a single-arm comparison of LS mean of ABBV-3373 estimated from the MMRM model above minus the historical mean of adalimumab (-2.13).|Two primary comparisons were performed between ABBV-3373 and adalimumab. The first was the comparison of ABBV-3373 to historical adalimumab reference value -2.13 based on a meta-analysis consisting of 242 subjects from 3 historical adalimumab studies in which the success criterion was 2-sided P value ≤ 0.1.||-0.15|-0.89|0.022
92223263|NCT03823391|184347763|SUPERIORITY|||||||0.899||||||Posterior probability|Historical data borrowing|Based on posterior distribution of means for each group, the probability of Treatment mean - Control mean \< 0 given the observed data was calculated.||The second comparison was ABBV-3373 to adalimumab with combined in-trial and borrowed historical adalimumab data using a Bayesian historical borrowing approach in which the success criterion was posterior probability of ABBV-3373 being better than adalimumab \> 95%. When borrowing 30 historical adalimumab subjects, the combined least squares mean change from Baseline was -2.29.||||0.899
92223264|NCT03823391|184347763|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.353||0.683|TWO_SIDED|90.0|-0.74|0.45|||Mixed Effect Model Repeated Measurement|Analysis includes treatment, visit, stratification factors, and treatment-by-visit interaction as fixed factors and Baseline value as covariate.|Treatment difference = ABBV-3373 - Adalimumab|The mean difference in change from Baseline in DAS28 (CRP) at Week 12 between ABBV-3373 and adalimumab was also estimated only based on in-study data.||0.45|-0.74|0.683
92223265|NCT03823391|184347764|SUPERIORITY||LS Mean Difference|-1.69|STANDARD_ERROR_OF_MEAN|3.207||0.601|TWO_SIDED|90.0|-7.08|3.7|||Mixed Effect Model Repeated Measurement|Analysis includes treatment, visit, stratification factors, and treatment-by-visit interaction as fixed factors and Baseline value as covariate.|Treatment difference = ABBV-3373 - Adalimumab|||3.70|-7.08|0.601
92223266|NCT03823391|184347765|SUPERIORITY||LS Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|3.205||0.737|TWO_SIDED|90.0|-6.47|4.3|||Mixed Effect Model Repeated Measurement|Analysis includes treatment, visit, stratification factors, and treatment-by-visit interaction as fixed factors and Baseline value as covariate.|Treatment difference = ABBV-3373 - Adalimumab|||4.30|-6.47|0.737
92223267|NCT03823391|184347766|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.418||0.612|TWO_SIDED|90.0|-0.92|0.49|||Mixed Effect Model Repeated Measurement|Analysis included treatment, visit, stratification factors, and treatment-by-visit interaction as fixed factors and Baseline value as covariate.|Treatment difference = ABBV-3373 - Adalimumab|||0.49|-0.92|0.612
92223268|NCT03823391|184347767|SUPERIORITY||Response Rate Difference|-4.0||||0.877|TWO_SIDED|90.0|-28.5|20.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factors.|Response rate difference = ABBV-3373 - Adalimumab|||20.5|-28.5|0.877
92223269|NCT03823391|184347768|SUPERIORITY||Response Rate Difference|-13.1||||0.426|TWO_SIDED|90.0|-37.2|11.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factors.|Response rate difference = ABBV-3373 - Adalimumab|||11.0|-37.2|0.426
92358879|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-59.28|||<|0.001|TWO_SIDED|95.0|-73.05|-45.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-45.50|-73.05|<0.001
92401590|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.569|TWO_SIDED|95.0|-0.46|0.83||P-value is for prior use, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 11.||0.83|-0.46|0.569
92223270|NCT05726318|184347790|SUPERIORITY|||||||0.78|||||||Chi-squared|||||||.78
92223271|NCT05726318|184347792|SUPERIORITY|||||||0.78|||||||Chi-squared|||||||.78
92276659|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|0.59||||0.32|TWO_SIDED|95.0|0.21|1.66|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.66|0.21|0.3200
92223272|NCT05726318|184347793|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||.68
92223273|NCT05726318|184347795|SUPERIORITY|||||||0.78|||||||Chi-squared|||||||.78
92223274|NCT05726318|184347796|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.13
92223275|NCT05030311|184347802|SUPERIORITY||Mean Difference (Final Values)|-6.22|STANDARD_ERROR_OF_MEAN|1.136|<|0.001|TWO_SIDED|95.0|-8.45|-4.0|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, visit week, baseline score and both interaction of treatment by visit week and interaction of baseline score by visit week.|||-4.00|-8.45|<0.001
92223276|NCT05030311|184347803|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|0.544|<|0.001|TWO_SIDED|95.0|-3.7|-1.56|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, visit week, baseline score and both interaction of treatment by visit week and interaction of baseline score by visit week.|ISS7 at Week 12 (Scenario 2 with ISS7 and HSS7 as co-primary efficacy endpoints)||-1.56|-3.70|<0.001
92223277|NCT05030311|184347804|SUPERIORITY||Mean Difference (Final Values)|-3.61|STANDARD_ERROR_OF_MEAN|0.635|<|0.001|TWO_SIDED|95.0|-4.85|-2.36|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, visit week, baseline score and both interaction of treatment by visit week and interaction of baseline score by visit week.|HSS7 at Week 12 (Scenario 2 with ISS7 and HSS7 as co-primary efficacy endpoints)||-2.36|-4.85|<0.001
92223278|NCT05030311|184347805|SUPERIORITY||Odds Ratio (OR)|3.11|||<|0.001|TWO_SIDED|95.0|2.0|4.84|||Regression, Logistic|Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.||Disease activity control (UAS7 =\< 6) at Week 12||4.84|2.00|<0.001
92401591|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.871|TWO_SIDED|95.0|-0.6|0.7||P-value is for prior use, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 11.||0.70|-0.60|0.871
92223279|NCT05030311|184347806|SUPERIORITY||Odds Ratio (OR)|3.83|||<|0.001|TWO_SIDED|95.0|2.16|6.82|||Regression, Logistic|Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.||Complete absence of hives and itch (UAS7 = 0) at Week 12||6.82|2.16|<0.001
92223280|NCT05030311|184347807|SUPERIORITY||Odds Ratio (OR)|15.67|||<|0.001|TWO_SIDED|95.0|6.18|39.77|||Regression, Logistic||Statistical model used logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.|||39.77|6.18|<0.001
92223281|NCT05030311|184347808|SUPERIORITY||Rate ratio|2.69|||<|0.001|TWO_SIDED|95.0|2.01|3.61|||Negative binomial regression model|Negative binomial regression model with log link, using treatment arm, geographical region, and prior exposure to anti-IgE biologics as covariates.||||3.61|2.01|<0.001
92223282|NCT05030311|184347809|SUPERIORITY||Odds Ratio (OR)|2.44|||<|0.001|TWO_SIDED|95.0|1.53|3.9|||Regression, Logistic||Statistical model used logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics and baseline DLQI score.|||3.90|1.53|<0.001
92223283|NCT05030311|184347810|SUPERIORITY||Rate ratio|1.25|||<|0.001|TWO_SIDED|95.0|1.12|1.41|||Regression, Linear||Statistical model used a negative binomial regression with log link included treatment arm as fixed effect, geographical region, prior exposure to anti-IgE biologics, baseline AAS7 = 0 response as covariates.|Angioedema occurrence-free weeks (AAS7 = 0 response) up to Week 12||1.41|1.12|<0.001
92223284|NCT02264990|184347821|SUPERIORITY|A fixed sequence testing procedure was used for analyses of the primary and secondary efficacy endpoints to control for the familywise error rate. If veliparib plus C/P treatment was not statistically significantly better compared to the investigators' choice of standard therapy for the primary efficacy endpoint of OS in LSP+ participants, then statistical significance would not be declared for any of the secondary efficacy endpoints.|Hazard Ratio (HR)|0.644||||0.113|TWO_SIDED|95.0|0.396|1.048||Statistical significance was determined by a two-sided P value ≤ 0.05.|Log Rank|Log rank test stratified by ECOG performance status, investigators' preferred platinum therapy, and gender.|Hazard ratio obtained using the covariate adjusted Cox Proportional Hazard Model with covariates being ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.048|0.396|0.113
92223285|NCT02264990|184347822|OTHER||Hazard Ratio (HR)|0.647||||0.26|TWO_SIDED|95.0|0.388|1.08|||Log Rank|Log-rank test stratified by investigator's preferred platinum therapy, gender, and ECOG performance status.|The hazard ratio was obtained using the covariate adjusted Cox Proportional Hazard Model with covariates of ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.080|0.388|0.260
92401592|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.675|TWO_SIDED|95.0|-0.5|0.78||P-value is for prior use, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 12.||0.78|-0.50|0.675
92401593|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.823|TWO_SIDED|95.0|-0.57|0.72||P-value is for prior use, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 12.||0.72|-0.57|0.823
92223286|NCT02264990|184347823|OTHER||Odds Ratio (OR)|0.66||||0.455|TWO_SIDED|95.0|0.23|1.9|||Regression, Logistic|Logistic regression adjusted for the covariates of ECOG performance status, investigators' preferred platinum therapy, and gender.|Odds ratio is from covariate adjusted logistic regression with the covariates being ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.90|0.23|0.455
92223287|NCT02264990|184347824|OTHER||Hazard Ratio (HR)|0.986||||0.846|TWO_SIDED|95.0|0.827|1.176|||Log Rank|Log rank test stratified by LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|The hazard ratio was obtained using the covariate adjusted Cox Proportional Hazard Model with covariates of LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.176|0.827|0.846
92223288|NCT02264990|184347825|OTHER||Hazard Ratio (HR)|1.035||||0.473|TWO_SIDED|95.0|0.867|1.235|||Log Rank|Log rank test stratified by LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|The hazard ratio was obtained using the covariate adjusted Cox Proportional Hazard Model with covariates of LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.235|0.867|0.473
92223289|NCT02264990|184347826|OTHER||Odds Ratio (OR)|0.86||||0.409|TWO_SIDED|95.0|0.59|1.24|||Regression, Logistic|Logistic regression adjusted for the covariates of LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|Odds ratio is from covariate adjusted logistic regression with the covariates being LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.24|0.59|0.409
92223290|NCT04749459|184347827|OTHER|A minimum of 10 valid results was defined as the number required to produce mean study product (or control standard) SPF with 95% confidence interval (CI) within +/- 17% of the measured mean SPF of the study product (or control standard).|||||||||||||||||CSM Classic: CIs +/- 13.7% P2 Control Standard (vs. CSM Classic) CIs +/- 16.4%|||
92223291|NCT04749459|184347827|OTHER|A minimum of 10 valid results was defined as the number required to produce mean study product (or control standard) SPF with 95% confidence interval (CI) within +/- 17% of the measured mean SPF of the study product (or control standard).|||||||||||||||||CSM Strawberry Flavor: CIs +/- 16.6% P2 Control Standard (vs CSM Strawberry Flavour): CIs +/- 16.0%|||
92164879|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.1||0.0938|ONE_SIDED|95.0|-0.03||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.03|0.0938
92164880|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.1||0.2149|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.2149
92164881|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.09||0.1682|ONE_SIDED|95.0|-0.06||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.06|0.1682
92164882|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.1||0.4492|ONE_SIDED|95.0|-0.16||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.16|0.4492
92164883|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.1||0.2539|ONE_SIDED|95.0|-0.1||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.10|0.2539
92164884|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.09||0.8168|ONE_SIDED|95.0|-0.22||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.22|0.8168
92164885|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.3248|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.3248
92164886|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.3148|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.3148
92164887|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.6563|ONE_SIDED|95.0|-0.2||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.20|0.6563
92164888|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.12||0.1735|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.1735
92223292|NCT00267748|184347830|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.089||||0.86|TWO_SIDED|95.0|0.423|2.803|||Log Rank|||For High risk factor, the hazard ratio of TTP was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median TTP was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||2.803|0.423|0.860
92405798|NCT02085161|184701885|SUPERIORITY_OR_OTHER||LSMean Difference|0.128|STANDARD_ERROR_OF_MEAN|0.069||0.0642|TWO_SIDED|95.0|-0.008|0.263||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||0.263|-0.008|0.0642
92164889|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.12||0.1237|ONE_SIDED|95.0|-0.06||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.06|0.1237
92164890|NCT00430300|184218060|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.11||0.6113|ONE_SIDED|95.0|-0.21||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.21|0.6113
92164891|NCT00430300|184218061|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.5549|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.5549
92164892|NCT00430300|184218061|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.988|ONE_SIDED|95.0|-0.2||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.20|0.9880
92223293|NCT00267748|184347830|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.902||||0.583|TWO_SIDED|95.0|0.623|1.306|||Log Rank|||For intermediate risk factor, the hazard ratio of TTP was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median TTP was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||1.306|0.623|0.583
92358880|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|1.56||||0.711|TWO_SIDED|95.0|-6.68|9.81||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.81|-6.68|0.711
92358881|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-56.84|||<|0.001|TWO_SIDED|95.0|-70.84|-42.85||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-42.85|-70.84|<0.001
92358882|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|3.72||||0.445|TWO_SIDED|95.0|-5.94|13.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.38|-5.94|0.445
92358883|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|-52.79|||<|0.001|TWO_SIDED|95.0|-66.77|-38.81||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-38.81|-66.77|<0.001
92358884|NCT01098747|184622585|SUPERIORITY_OR_OTHER||Difference in proportion|6.05||||0.256|TWO_SIDED|95.0|-4.75|16.84||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.84|-4.75|0.256
92358885|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|6.34||||0.078|TWO_SIDED|95.0|1.34|11.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.34|1.34|0.078
92358886|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|2.74||||0.303|TWO_SIDED|95.0|-3.01|8.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.49|-3.01|0.303
92358887|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|27.24|||<|0.001|TWO_SIDED|95.0|18.14|36.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||36.34|18.14|<0.001
92164893|NCT00430300|184218061|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.8572|ONE_SIDED|95.0|-0.12||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.12|0.8572
92164894|NCT00430300|184218061|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.8402|ONE_SIDED|95.0|-0.14||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.14|0.8402
92223294|NCT00267748|184347830|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.556||||0.075|TWO_SIDED|95.0|0.288|1.074|||Log Rank|||For low risk factor, the hazard ratio of TTP was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median TTP was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||1.074|0.288|0.075
92358888|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|6.66||||0.217|TWO_SIDED|95.0|-4.31|17.63||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.63|-4.31|0.217
92358889|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|41.16|||<|0.001|TWO_SIDED|95.0|31.2|51.12||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||51.12|31.20|<0.001
92164895|NCT00430300|184218061|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.6562|ONE_SIDED|95.0|-0.1||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.10|0.6562
92223295|NCT00267748|184347830|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.827||||0.22|TWO_SIDED|95.0|0.609|1.124|||Log Rank|||For overall stratified analysis, the hazard ratio of TTP was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median TTP was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||1.124|0.609|0.220
92223296|NCT00267748|184347830|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.773||||0.09|TWO_SIDED|95.0|0.572|1.044|||Log Rank|||For overall unstratified analysis, the hazard ratio of TTP was estimated using stratified Cox Proportional Hazard model. Two-sided unstratified Log rank method was used to calculate p value.||1.044|0.572|0.090
92223297|NCT00267748|184347831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.11||||0.444|TWO_SIDED|95.0|-6.4|14.6|||Chi-squared|||Response rate was estimated for each treatment group, 95% Confidence Interval (CI) on the difference in response rate between the 2 treatments was computed. P-value was calculated from a Pearson chi-square test.||14.6|-6.4|0.444
92223298|NCT00267748|184347833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.071||||0.866|TWO_SIDED|95.0|0.481|2.387|||Log Rank|||For high risk factor, the hazard ratio of OS was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median OS was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||2.387|0.481|0.866
92223299|NCT00267748|184347833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.169||||0.439|TWO_SIDED|95.0|0.785|1.741|||Log Rank|||For intermediate risk factor,the hazard ratio of OS was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median OS was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||1.741|0.785|0.439
92223300|NCT00267748|184347833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.238||||0.614|TWO_SIDED|95.0|0.538|2.851|||Log Rank|||For low risk factor, the hazard ratio of OS was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median OS was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||2.851|0.538|0.614
92223301|NCT00267748|184347833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.162||||0.365|TWO_SIDED|95.0|0.838|1.612|||Log Rank|||For overall stratified analysis, the hazard ratio of OS was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median OS was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||1.612|0.838|0.365
92223302|NCT00267748|184347834|SUPERIORITY_OR_OTHER|||||||0.6737|TWO_SIDED||||||t-test, 2 sided|||P value was calculated using sample t-test.||||0.6737
92223303|NCT00267748|184347835|SUPERIORITY_OR_OTHER|||||||0.1967|TWO_SIDED||||||t-test, 2 sided|||P value was calculated using sample t-test.||||0.1967
92223304|NCT01294800|184347836|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.7||||0.0564|TWO_SIDED|95.0|-1.37|0.02|||Constrained longitudinal data analysis|||||0.02|-1.37|0.0564
92276660|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|0.6||||0.3266|TWO_SIDED|95.0|0.23|1.62|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.62|0.23|0.3266
92401594|NCT00385671|184694201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.85|TWO_SIDED|95.0|-0.72|0.59||P-value is for prior use, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 12.||0.59|-0.72|0.850
92223305|NCT01294800|184347836|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.5||||0.1844|TWO_SIDED|95.0|-1.16|0.22|||Constrained longitudinal data analysis|||||0.22|-1.16|0.1844
92223306|NCT01294800|184347836|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.3||||0.3386|TWO_SIDED|95.0|-1.04|0.36|||Constrained longitudinal data analysis|||||0.36|-1.04|0.3386
92223307|NCT01294800|184347837|SUPERIORITY_OR_OTHER||Difference in proportions of responders|5.7||||0.404|TWO_SIDED|95.0|-7.75|19.0|||A generalized linear mixed model|||||19.00|-7.75|0.404
92223308|NCT01294800|184347837|SUPERIORITY_OR_OTHER||Difference in proportions of responders|5.7||||0.39|TWO_SIDED|95.0|-7.73|18.81|||A generalized linear mixed model|||||18.81|-7.73|0.390
92223309|NCT01294800|184347837|SUPERIORITY_OR_OTHER||Difference in proportions of responders|-4.9||||0.508|TWO_SIDED|95.0|-17.78|7.97|||A generalized linear mixed model|||||7.97|-17.78|0.508
92223310|NCT01294800|184347838|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|0.7||||0.0509|TWO_SIDED|95.0|0.0|1.43|||Constrained longitudinal data analysis|||||1.43|-0.00|0.0509
92223311|NCT01294800|184347838|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|0.5||||0.1847|TWO_SIDED|95.0|-0.23|1.19|||Constrained longitudinal data analysis|||||1.19|-0.23|0.1847
92223312|NCT01294800|184347838|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|0.5||||0.2021|TWO_SIDED|95.0|-0.25|1.19|||Constrained longitudinal data analysis|||||1.19|-0.25|0.2021
92223313|NCT00493038|184347851|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was set to 15% in the protocol. Sample size was estimated using the method as described in Farrington-Manning (STATISTICS IN MEDICINE, Vol. 9; Farrington CP, Manning G: Test statistics and sample size formulae for comparative binomial trials with null hypothesis of non-zero risk difference..., pg.1447-1454 \[1990\]). Estimation was performed to achieve 90% power, based on the equivalence delta of 15%, and a clinical success rate of 80% in the per protocol population."|Mean Difference (Final Values)|2.1||||||95.0|-1.9|6.2|||||Mean difference denotes the difference of clinical cure rates between the two treatment groups (moxifloxacin minus amoxicillin/clavulanate).|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||6.2|-1.9|
92223314|NCT00493038|184347852|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was set to 15% in the protocol. Sample size was estimated using the method as described in Farrington-Manning (STATISTICS IN MEDICINE, Vol. 9; Farrington CP, Manning G: Test statistics and sample size formulae for comparative binomial trials with null hypothesis of non-zero risk difference..., pg.1447-1454 \[1990\]). Estimation was performed to achieve 90% power, based on the equivalence delta of 15%, and a clinical success rate of 80% in the per protocol population."|Mean Difference (Final Values)|-0.5||||||95.0|-7.9|6.8||||||Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||6.8|-7.9|
92405799|NCT03537404|184701891|OTHER||Geometric Mean Ratio|0.02|||||TWO_SIDED|90.0|-0.103|0.142|||||Cmax parameters were logarithmically transformed|||0.142|-0.103|
92405800|NCT03537404|184701891|OTHER||Geometric Mean Ratio|-0.022|||||TWO_SIDED|90.0|-0.22|0.175|||||Cmax parameters were logarithmically transformed|||0.175|-0.220|
92164896|NCT00430300|184218061|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.5632|ONE_SIDED|95.0|-0.08||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.08|0.5632
92164897|NCT00430300|184218061|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.637|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.6370
92164898|NCT00430300|184218061|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.4686|ONE_SIDED|95.0|-0.1||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.10|0.4686
92164899|NCT00430300|184218061|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.06||0.6164|ONE_SIDED|95.0|-0.11||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.11|0.6164
92164900|NCT00430300|184218069|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.6||0.9885|ONE_SIDED|95.0|-2.4||||Mixed Models Analysis|||TDI at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-2.4|0.9885
92164901|NCT00430300|184218069|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.6||0.8055|ONE_SIDED|95.0|-1.5||||Mixed Models Analysis|||TDI at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.5|0.8055
92164902|NCT00430300|184218069|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.5||0.9759|ONE_SIDED|95.0|-2.0||||Mixed Models Analysis|||TDI at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-2.0|0.9759
92164903|NCT00430300|184218069|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.7||0.4401|ONE_SIDED|95.0|-1.1||||Mixed Models Analysis|||TDI at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.1|0.4401
92164904|NCT00430300|184218069|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.5957|ONE_SIDED|95.0|-1.4||||Mixed Models Analysis|||TDI at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.4|0.5957
92164905|NCT00430300|184218069|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.6||0.8302|ONE_SIDED|95.0|-1.7||||Mixed Models Analysis|||TDI at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.7|0.8302
92164906|NCT00430300|184218069|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.9||0.9657|ONE_SIDED|95.0|-3.1||||Mixed Models Analysis|||TDI at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-3.1|0.9657
92164907|NCT00430300|184218069|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.9||0.6378|ONE_SIDED|95.0|-1.7||||Mixed Models Analysis|||TDI at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.7|0.6378
92164908|NCT00430300|184218069|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.8||0.899|ONE_SIDED|95.0|-2.2||||Mixed Models Analysis|||TDI at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-2.2|0.8990
92164909|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.15||0.8757|ONE_SIDED|95.0|-0.42||||Mixed Models Analysis|||Cough, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.42|0.8757
92164910|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.15||0.6334|ONE_SIDED|95.0|-0.3||||Mixed Models Analysis|||Cough, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.30|0.6334
92164911|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.13||0.5448|ONE_SIDED|95.0|-0.23||||Mixed Models Analysis|||Cough, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.23|0.5448
92164912|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.16||0.6986|ONE_SIDED|95.0|-0.34||||Mixed Models Analysis|||Cough, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.34|0.6986
92164913|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.16||0.3151|ONE_SIDED|95.0|-0.18||||Mixed Models Analysis|||Cough, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.18|0.3151
92164914|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.14||0.1802|ONE_SIDED|95.0|-0.1||||Mixed Models Analysis|||Cough, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.10|0.1802
92276661|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|1.47||||0.3027|TWO_SIDED|95.0|0.7|3.1|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11 All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||3.10|0.70|0.3027
92276662|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|1.17||||0.696|TWO_SIDED|95.0|0.54|2.52|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11 All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.52|0.54|0.6960
92358890|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|8.86||||0.149|TWO_SIDED|95.0|-3.33|21.04||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||21.04|-3.33|0.149
92358891|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|48.61|||<|0.001|TWO_SIDED|95.0|38.49|58.73||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||58.73|38.49|<0.001
92401595|NCT00385671|184694203|SUPERIORITY_OR_OTHER|||||||0.448||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in diastolic blood pressure.||||0.448
92405801|NCT03537404|184701892|OTHER||Geometric Mean Ratio|0.041|||||TWO_SIDED|90.0|-0.075|0.157|||||AUCtau parameters were logarithmically transformed.|||0.157|-0.075|
92164915|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.9102|ONE_SIDED|95.0|-0.49||||Mixed Models Analysis|||Cough, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.49|0.9102
92164916|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.16||0.6391|ONE_SIDED|95.0|-0.32||||Mixed Models Analysis|||Cough, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.32|0.6391
92405802|NCT03537404|184701892|OTHER||Geometric Mean Ratio|-0.069|||||TWO_SIDED|90.0|-0.201|0.064|||||AUCtau parameters were logarithmically transformed|||0.064|-0.201|
92164917|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.6838|ONE_SIDED|95.0|-0.3||||Mixed Models Analysis|||Cough, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.30|0.6838
92164918|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.14||0.9648|ONE_SIDED|95.0|-0.49||||Mixed Models Analysis|||Cough, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.49|0.9648
92164919|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.8961|ONE_SIDED|95.0|-0.4||||Mixed Models Analysis|||Cough, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.40|0.8961
92164920|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.12||0.9534|ONE_SIDED|95.0|-0.41||||Mixed Models Analysis|||Cough, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.41|0.9534
92164921|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.18||0.7726|ONE_SIDED|95.0|-0.45||||Mixed Models Analysis|||Cough, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.45|0.7726
92164922|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.18||0.5665|ONE_SIDED|95.0|-0.33||||Mixed Models Analysis|||Cough, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.33|0.5665
92164923|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.16||0.2684|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Cough, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.2684
92164924|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.19||0.6485|ONE_SIDED|95.0|-0.39||||Mixed Models Analysis|||Cough, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.39|0.6485
92164925|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.19||0.4821|ONE_SIDED|95.0|-0.3||||Mixed Models Analysis|||Cough, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.30|0.4821
92164926|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.16||0.2557|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Cough, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.2557
92358892|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|4.55||||0.477|TWO_SIDED|95.0|-8.03|17.13||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.13|-8.03|0.477
92358893|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|52.81|||<|0.001|TWO_SIDED|95.0|42.63|62.99||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||62.99|42.63|<0.001
92358894|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|-2.14||||0.739|TWO_SIDED|95.0|-14.77|10.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.50|-14.77|0.739
92358895|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|48.53|||<|0.001|TWO_SIDED|95.0|36.29|60.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||60.77|36.29|<0.001
92358896|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|-6.8||||0.28|TWO_SIDED|95.0|-19.24|5.65||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||5.65|-19.24|0.280
92358897|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|48.53|||<|0.001|TWO_SIDED|95.0|36.29|60.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||60.77|36.29|<0.001
92358898|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|-8.01||||0.202|TWO_SIDED|95.0|-20.44|4.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.41|-20.44|0.202
92358899|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|48.53|||<|0.001|TWO_SIDED|95.0|36.29|60.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||60.77|36.29|<0.001
92358900|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|-8.61||||0.17|TWO_SIDED|95.0|-21.02|3.8||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.80|-21.02|0.170
92358901|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|48.53|||<|0.001|TWO_SIDED|95.0|36.29|60.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||60.77|36.29|<0.001
92358902|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|-9.23||||0.14|TWO_SIDED|95.0|-21.62|3.16||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.16|-21.62|0.140
92401596|NCT00385671|184694203|SUPERIORITY_OR_OTHER|||||||0.118||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in diastolic blood pressure.||||0.118
92227181|NCT01727258|184356486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.72|STANDARD_ERROR_OF_MEAN|2.866||0.02|TWO_SIDED|95.0|-12.38|-1.05||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-1.05|-12.38|0.020
92401597|NCT00385671|184694203|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in diastolic blood pressure.||||0.021
92405803|NCT03537404|184701893|OTHER||Geometric Mean Ratio|0.271|||||TWO_SIDED|90.0|0.159|0.383|||||Cmax parameters were logarithmically transformed|||0.383|0.159|
92358903|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|48.53|||<|0.001|TWO_SIDED|95.0|36.29|60.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||60.77|36.29|<0.001
92358904|NCT01098747|184622586|SUPERIORITY_OR_OTHER||Difference in proportion|-9.23||||0.14|TWO_SIDED|95.0|-21.62|3.16||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.16|-21.62|0.140
92358905|NCT01098747|184622587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.83|0.98||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Ibuprofen sodium - placebo) and the associated CI were calculated based on the weighted Gamma statistic.||0.98|0.83|<0.001
92358906|NCT01098747|184622587|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.04||||0.667|TWO_SIDED|95.0|-0.15|0.24||p-value was calculated using the PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||0.24|-0.15|0.667
92358907|NCT00725985|184622607|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.381|||<|0.0001|TWO_SIDED|95.0|0.248|0.584||The treatment effect was also assessed by hazard ratios using the Cox's proportional hazards model.|two-sided Wald test|||||0.584|0.248|<0.0001
92358908|NCT00725985|184622607|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.327|||<|0.0001|TWO_SIDED|95.0|0.21|0.509||The treatment effect was also assessed by hazard ratios using the Cox's proportional hazards model.|two-sided Wald test|||||0.509|0.210|< 0.0001
92358909|NCT00725985|184622608|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.425|||<|0.0001|TWO_SIDED|95.0|0.331|0.547||The treatment effect was also assessed by hazard ratios using the Cox's proportional hazards model.|two-sided Wald test|||||0.547|0.331|< 0.0001
92223315|NCT00493038|184347853|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was set to 15% in the protocol. Sample size was estimated using the method as described in Farrington-Manning (STATISTICS IN MEDICINE, Vol. 9; Farrington CP, Manning G: Test statistics and sample size formulae for comparative binomial trials with null hypothesis of non-zero risk difference..., pg.1447-1454 \[1990\]). Estimation was performed to achieve 90% power, based on the equivalence delta of 15%, and a clinical success rate of 80% in the per protocol population."|Mean Difference (Final Values)|1.7||||||95.0|-3.8|7.1||||||Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||7.1|-3.8|
92223316|NCT01100944|184347865|SUPERIORITY_OR_OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
92223317|NCT01100944|184347874|SUPERIORITY_OR_OTHER|||||||0.3||||||Fold change at Cycle 2 Day 1 vs. pre was assessed. Only differences with p\<0.005 could be potentially considered statistically significant while those with 0.005\<p\<0.05 would represent trends towards a difference.|Wilcoxon signed rank test|||||||0.30
92223318|NCT01100944|184347874|SUPERIORITY_OR_OTHER|||||||0.0001||||||Fold change at Cycle 1 Day 2 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0001
92358910|NCT00725985|184622608|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.497|||<|0.0001|TWO_SIDED|95.0|0.39|0.633||The treatment effect was also assessed by hazard ratios using the Cox's proportional hazards model.|two-sided Wald test|||||0.633|0.390|< 0.0001
92223319|NCT01100944|184347874|SUPERIORITY_OR_OTHER|||||||0.0001||||||Fold change at Cycle 1 Day 3 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0001
92358911|NCT00725985|184622609|SUPERIORITY||Median Difference (Final Values)|-0.667|||<|0.0001|TWO_SIDED|95.0|-0.971|-0.5|||ANCOVA|||CUA lesions||-0.500|-0.971|<0.0001
92358912|NCT00725985|184622609|SUPERIORITY||Median Difference (Final Values)|-0.625|||<|0.0001|TWO_SIDED|95.0|-0.857|-0.429|||ANCOVA|||CUA lesions||-0.429|-0.857|<0.0001
92358913|NCT00725985|184622609|SUPERIORITY||Median Difference (Final Values)|-0.286|||<|0.0001|TWO_SIDED|95.0|-0.333|-0.167|||ANCOVA|||T1 Gd-Enhancing Lesions||-0.167|-0.333|<0.0001
92223320|NCT01100944|184347875|SUPERIORITY_OR_OTHER|||||||0.76||||||Fold change at Cycle 2 Day 1 vs. pre was assessed.Only differences with p\<0.005 could be potentially considered statistically significant while those with 0.005\<p\<0.05 would represent trends towards a difference.|Wilcoxon signed rank test|||||||0.76
92223321|NCT01100944|184347875|SUPERIORITY_OR_OTHER|||||||0.0009||||||Fold change at Cycle 1 Day 2 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0009
92223322|NCT01100944|184347875|SUPERIORITY_OR_OTHER|||||||0.0001||||||Fold change at Cycle 1 Day 3 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0001
92223323|NCT01100944|184347876|SUPERIORITY_OR_OTHER|||||||0.95||||||Fold change at Cycle 2 Day 1 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.95
92223324|NCT01100944|184347876|SUPERIORITY_OR_OTHER|||||||0.0001||||||Fold change at Cycle 1 Day 2 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0001
92223325|NCT01100944|184347876|SUPERIORITY_OR_OTHER|||||||0.0001||||||Fold change at Cycle 1 Day 3 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0001
92223326|NCT01618214|184347882|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.4%.|Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.08||||95.0|-0.19|0.14|||Regression, Linear|||FAS||0.14|-0.19|
92223327|NCT01179009|184347887|SUPERIORITY|||||||0.53||||||The p-value above represents the interaction between the treatment group and time.|ANOVA|||||||0.53
92223328|NCT01179009|184347888|SUPERIORITY|||||||0.06||||||The p-value above comes from a model where the treatment group is used to predict the CGI improvement score.|Ordinal regression|||||||0.06
92223329|NCT00623428|184347889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.4557|TWO_SIDED|95.0|0.45|1.43|||Cochran-Mantel-Haenszel|Stratified by HCV genotype (2 vs 3), region (US vs non-US) and initial Ribavirin dose (800mg vs 1000-1200mg).|"The odds ratio is the ratio of the odds of a response in the 24-week treatment group to the odds of a response in the 48-week treatment group.~(second column)."|In order to detect an improvement in SVR rate across all strata equivalent to an odds ratio of 2 (i.e. an increase in SVR by 15 to 16 percentage points at a power of 80% and a two-sided significance level of 0.05, 160 patients per treatment group (320 patients in total) were required.||1.43|0.45|0.4557
92223330|NCT00623428|184347890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.0788|TWO_SIDED|95.0|0.33|1.06|||Cochran-Mantel-Haenszel|Stratified by HCV genotype (2 vs 3), region (US vs non-US) and initial Ribavirin dose (800mg vs 1000-1200mg).|The odds ratio is the ratio of the odds of a response in the 24-week treatment group to the odds of a response in the 48-week treatment group.|||1.06|0.33|0.0788
92223331|NCT00623428|184347891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.5654|TWO_SIDED|95.0|0.48|3.87|||Cochran-Mantel-Haenszel|Stratified by HCV genotype (2 vs 3), region (US vs non-US) and initial Ribavirin dose (800mg vs 1000-1200mg).|The odds ratio is the ratio of the odds of a response in the 24-week treatment group to the odds of a response in the 48-week treatment group.|||3.87|0.48|0.5654
92223332|NCT00623428|184347893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.1934|TWO_SIDED|95.0|0.38|1.21|||Cochran-Mantel-Haenszel|Stratified by HCV genotype (2 vs 3), region (US vs non-US) and initial Ribavirin dose (800mg vs 1000-1200mg).|The odds ratio is the ratio of the odds of a response in the 24-week treatment group to the odds of a response in the 48-week treatment group.|||1.21|0.38|0.1934
92223333|NCT00623428|184347894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.1934|TWO_SIDED|95.0|0.38|1.21|||Cochran-Mantel-Haenszel|Stratified by HCV genotype (2 vs 3), region (US vs non-US) and initial Ribavirin dose (800mg vs 1000-1200mg).|The odds ratio is the ratio of the odds of a response in the 24-week treatment group to the odds of a response in the 48-week treatment group.|||1.21|0.38|0.1934
92223334|NCT01692301|184347914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.66|STANDARD_ERROR_OF_MEAN|1.42||0.01|TWO_SIDED|95.0|-6.45|-0.87|||ANCOVA|||||-0.87|-6.45|0.010
92223335|NCT01142726|184347925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01|STANDARD_ERROR_OF_MEAN|0.55||0.01|TWO_SIDED|95.0|1.18|3.43|||Regression, Logistic|Statistical testing of the 2 coprimary efficacy endpoints was conducted in a hierarchical fashion to maintain the overall Type I error rate at 5%.|At Month 12|Power estimate assumed 2-sided alpha level of 5% and that 60% of abatacept (ABA)+methotrexate (MX) patients (pts) would be in DAS28-CRP remission at Month 12 compared with 38% of MX monotherapy pts. Also assumed that 48% of ABA monotherapy pts would be in DAS28-CRP remission at Month 12, yielding an expected treatment difference from MX of 10% in favor of ABA monotherapy; 116 pts randomized to ABA monotherapy would yield a half-length of the 95% CI around that 10% treatment difference of 13.5%.||3.43|1.18|0.010
92223336|NCT01142726|184347925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51|STANDARD_ERROR_OF_MEAN|1.15||0.045|TWO_SIDED|95.0|1.02|6.18|||Regression, Logistic|Statistical testing of the 2 coprimary efficacy endpoints was conducted in a hierarchical fashion to maintain the overall Type I error rate at 5%.|At Months 12 and 18|Conditional on statistical significance of the 1st coprimary efficacy analysis (CEA), a sample of 116 patients per arm would provide 98% power for the 2nd CEA comparison of the percentage of patients in DAS28-CRP remission at Months 12 and 18 between the abatacept (ABA)+methotrexate (MTX) arm and the MTX monotherapy arm for intent-to treat population. This sample size calculation assumed 30% remission in the ABA+MTX arm and 8% in the monotherapy arm at Month 18 and a 2-sided alpha level of 5%.||6.18|1.02|0.045
92223337|NCT01142726|184347926|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|95.0|0.55|1.57|||||At Month 12|||1.57|0.55|
92223338|NCT01142726|184347926|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|0.81|5.14|||||At Months 12 and 18|||5.14|0.81|
92223339|NCT02109484|184347949|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.||||||0.0165|||||||Wilcoxon (Mann-Whitney)|||||||0.0165
92223340|NCT02109484|184347949|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.||||<0.0001
92223341|NCT02109484|184347949|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92223342|NCT02109484|184347950|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Pair-wise comparisons between Cohort B Placebo group and the active vaccination groups were peformed||||<0.0001
92223343|NCT02109484|184347950|EQUIVALENCE|Pair-wise comparisons between Cohort B Placebo group and the active vaccination groups were performed|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92223344|NCT02109484|184347950|EQUIVALENCE|Pair-wise comparisons between Cohort B Placebo group and the active vaccination groups were performed||||||0.0006|||||||Wilcoxon (Mann-Whitney)|||||||0.0006
92276663|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|1.62||||0.1368|TWO_SIDED|95.0|0.86|3.07||CMH general association test controlling for trial site|Cochran-Mantel-Haenszel|||Statistical analysis 1 at Week 12 All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||3.07|0.86|0.1368
92358914|NCT00725985|184622609|SUPERIORITY||Median Difference (Final Values)|-0.286|||<|0.0001|TWO_SIDED|95.0|-0.375|-0.167|||ANCOVA|||T1 Gd-Enhancing Lesions||-0.167|-0.375|<0.0001
92358915|NCT00725985|184622609|SUPERIORITY||Median Difference (Final Values)|-0.333|||<|0.0001|TWO_SIDED|95.0|-0.5|-0.167|||ANCOVA|||T2 Lesions||-0.167|-0.500|<0.0001
92358916|NCT00725985|184622609|SUPERIORITY||Median Difference (Final Values)|-0.286|||<|0.0001|TWO_SIDED|95.0|-0.429|-0.143|||ANCOVA|||T2 Lesions||-0.143|-0.429|<0.0001
92358917|NCT00725985|184622628|SUPERIORITY||Point Estimate|-1.7|||<|0.0001|TWO_SIDED|95.0|-37.2|0.0|||ANCOVA|||||0.000|-37.200|<0.0001
92401598|NCT00385671|184694203|SUPERIORITY_OR_OTHER|||||||0.537||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in systolic blood pressure.||||0.537
92401599|NCT00385671|184694203|SUPERIORITY_OR_OTHER|||||||0.911||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in systolic blood pressure.||||0.911
92401600|NCT00385671|184694203|SUPERIORITY_OR_OTHER|||||||0.627||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in systolic blood pressure.||||0.627
92401601|NCT00385671|184694204|SUPERIORITY_OR_OTHER|||||||0.078||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in heart rate.||||0.078
92401602|NCT00385671|184694204|SUPERIORITY_OR_OTHER|||||||0.13||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in heart rate.||||0.130
92164927|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.17||0.9031|ONE_SIDED|95.0|-0.52||||Mixed Models Analysis|||Cough, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.52|0.9031
92358918|NCT00725985|184622628|SUPERIORITY||Point Estimate|-28.6|||<|0.0001|TWO_SIDED|95.0|-117.3|0.0|||ANCOVA|||||0.000|-117.300|<0.0001
92358919|NCT02546323|184622656|OTHER||Estimated mean difference|-0.0103|STANDARD_ERROR_OF_MEAN|0.00445||0.02|TWO_SIDED|95.0|-0.0191|-0.0016||Statistical significance of the MeanMax CIMT annualized rate of change between rosuvastatin 20 mg and placebo was evaluated using time-by-treatment interaction term in the model.|Multi-level mixed effects model||Randomized treatment group, time, time-by-treatment interaction, ICVD risk stratification, carotid artery site, center, age, sex, and scan reader were fixed effects. Random effects were the intercept and slope for individual patients.|Comparison of annualized rate of change in MeanMax CIMT measurement difference between rosuvastatin 20 mg and placebo.||-0.0016|-0.0191|0.020
92405804|NCT03537404|184701894|OTHER||Geometric Mean Ratio|0.074|||||TWO_SIDED|90.0|0.016|0.132|||||AUCtau parameters were logarithmically transformed|||0.132|0.016|
92405805|NCT03537404|184701895|OTHER||Geometric Mean Ratio|-0.148|||||TWO_SIDED|90.0|-0.45|0.153|||||Cmax parameters were logarithmically transformed|||0.153|-0.450|
92164928|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.17||0.8634|ONE_SIDED|95.0|-0.47||||Mixed Models Analysis|||Cough, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.47|0.8634
92164929|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.15||0.6375|ONE_SIDED|95.0|-0.3||||Mixed Models Analysis|||Cough, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.30|0.6375
92164930|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.18||0.8775|ONE_SIDED|95.0|-0.51||||Mixed Models Analysis|||Cough, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.51|0.8775
92164931|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.7191|ONE_SIDED|95.0|-0.4||||Mixed Models Analysis|||Cough, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.40|0.7191
92164932|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.16||0.8677|ONE_SIDED|95.0|-0.44||||Mixed Models Analysis|||Cough, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.44|0.8677
92223345|NCT02109484|184347951|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||A pair wise comparison between the Adjusted Seroresponses in the placebo group and the Group B 10 mcg P2-VP8 was performed.||||0.0004
92223346|NCT02109484|184347951|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||A pair wise comparison between the Adjusted Seroresponses in the placebo group and the Cohort B 30 mcg P2-VP8 vaccine group was performed.||||<0.0001
92223347|NCT02109484|184347951|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||A pair-wise comparison between the Adjusted Seroresponses in Cohort B Placebo group and the Cohort B P2-VP8 group was performed.||||<0.0001
92223348|NCT02249143|184347961|SUPERIORITY||Mean Difference (Net)|6.62|||<|0.05|TWO_SIDED|95.0|0.02|13.22|||Regression, Linear|||FRC values over time were modeled using linear mixed effects regression with treatment group vs. time interaction and repeated measures for the randomization, 2 week, and discharge time points. Compound symmetric covariance structures were used to account for the correlation of FRC values within each patient. We compared outcomes between the two treatment groups and included adjustments for gender, twin gestation, and weight at randomization.||13.22|0.02|<0.05
92358920|NCT02546323|184622657|OTHER||Estimated mean difference|-0.011|STANDARD_ERROR_OF_MEAN|0.00442||0.013|TWO_SIDED|95.0|-0.0197|-0.0024||Statistical significance of the MeanMax CIMT annualized rate of change between rosuvastatin 20 mg and placebo was evaluated using time-by-treatment interaction term in the model.|Multi-level mixed effects model||Randomized treatment group, time, time-by-treatment interaction, ICVD risk stratification, carotid artery site, center, age, sex, and scan reader were fixed effects. Random effects were the intercept and slope for individual patients.|Comparison of annualized rate of change in MeanMax CIMT measurement difference between rosuvastatin 20 mg and placebo.||-0.0024|-0.0197|0.013
92358921|NCT02546323|184622658|OTHER||Estimated mean difference|-0.0162|STANDARD_ERROR_OF_MEAN|0.00903||0.073|TWO_SIDED|95.0|-0.0339|0.0015||Statistical significance of the MeanMax CIMT annualized rate of change between rosuvastatin 20 mg and placebo was evaluated using time-by-treatment interaction term in the model.|Multi-level mixed effects model||Randomized treatment group, time, time-by-treatment interaction, ICVD risk stratification, carotid artery site, center, age, sex, and scan reader were fixed effects. Random effects were the intercept and slope for individual patients.|Comparison of annualized rate of change in MeanMax CIMT measurement difference between rosuvastatin 20 mg and placebo.||0.0015|-0.0339|0.073
92358922|NCT02546323|184622659|OTHER||Estimated mean difference|-0.0043|STANDARD_ERROR_OF_MEAN|0.00716||0.547|TWO_SIDED|95.0|-0.0183|0.0097||Statistical significance of the MeanMax CIMT annualized rate of change between rosuvastatin 20 mg and placebo was evaluated using time-by-treatment interaction term in the model.|Multi-level mixed effects model||Randomized treatment group, time, time-by-treatment interaction, ICVD risk stratification, carotid artery site, center, age, sex, and scan reader were fixed effects. Random effects were the intercept and slope for individual patients.|Comparison of annualized rate of change in MeanMax CIMT measurement difference between rosuvastatin 20 mg and placebo.||0.0097|-0.0183|0.547
92358923|NCT02546323|184622660|OTHER||Estimated mean difference|-0.0086|STANDARD_ERROR_OF_MEAN|0.00272||0.002|TWO_SIDED|95.0|-0.0139|-0.0032||Statistical significance of the MeanMean CIMT annualized rate of change between rosuvastatin 20 mg and placebo was evaluated using time-by-treatment interaction term in the model.|Multi-level mixed effects model||Randomized treatment group, time, time-by-treatment interaction, ICVD risk stratification, carotid artery site, center, age, sex, and scan reader were fixed effects. Random effects were the intercept and slope for individual patients|Comparison of annualized rate of change in MeanMean CIMT measurement difference between rosuvastatin 20 mg and placebo||-0.0032|-0.0139|0.002
92401603|NCT00385671|184694204|SUPERIORITY_OR_OTHER|||||||0.85||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in heart rate.||||0.850
92405806|NCT03537404|184701896|OTHER||Geometric Mean Ratio|-0.093|||||TWO_SIDED|90.0|-0.354|0.168|||||AUCtau parameters were logarithmically transformed|||0.168|-0.354|
92276664|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|1.48||||0.2387|TWO_SIDED|95.0|0.76|2.89|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.89|0.76|0.2387
92223349|NCT02249143|184347962|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92223350|NCT02249143|184347962|SUPERIORITY|||||||||||||||||Group differences in the secondary outcomes were tested at randomization, two weeks, and discharge using independent samples t-tests.||||
92223351|NCT01223703|184348028|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|The analysis was done following an intention-to-treat approach by means of the unpaired student t test or Wilcoxon rank sum test as appropriated.||"null hypothesis is no difference n3 PUFA administration and placebo. To demonstrate an effect size of 0.5 in LVEF, a sample of 65 patients in each group was calculated to have 80% power to detect such 0.5 effect size with alpha=0.05 (2-tailed) at the Student t test.~for unpaired data."||||< 0.05
92223352|NCT01223703|184348029|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|The analysis was done following an intention-to-treat approach by means of the unpaired student t test or Wilcoxon rank sum test as appropriated.||||||< 0.05
92223353|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.6|||||TWO_SIDED|95.0|0.39|0.84|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 1: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.84|0.39|
92223354|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.54|1.01|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 3: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.01|0.54|
92223355|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.5|1.11|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 4: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.11|0.50|
92223356|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.6|||||TWO_SIDED|95.0|0.38|0.9|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 5: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.90|0.38|
92223357|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.5|||||TWO_SIDED|95.0|0.37|0.74|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 6A: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.74|0.37|
92223358|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.52|1.02|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 6B: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.02|0.52|
92223359|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.46|0.95|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 7F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.95|0.46|
92276665|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|1.26||||0.4498|TWO_SIDED|95.0|0.69|2.28|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.28|0.69|0.4498
92358924|NCT02546323|184622661|OTHER||Least squares mean difference|-35.46|STANDARD_ERROR_OF_MEAN|2.426|<|0.001|TWO_SIDED|95.0|-40.23|-30.7|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): LDL-C||-30.70|-40.23|<0.001
92358925|NCT02546323|184622661|OTHER||Least squares mean difference|-21.85|STANDARD_ERROR_OF_MEAN|1.441|<|0.001|TWO_SIDED|95.0|-24.68|-19.02|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): total cholesterol||-19.02|-24.68|<0.001
92405807|NCT00068692|184701901|SUPERIORITY|||||||0.35||||||One-sided p value was reported|Log Rank|stratified on ECOG performance status, clinical stage, timing of chemoradiotherapy, and regimen administration||||||0.35
92223360|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.45|1.25|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 9V: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.25|0.45|
92223361|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.54|1.02|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 14: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.02|0.54|
92223362|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.5|||||TWO_SIDED|95.0|0.35|0.79|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 18C: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.79|0.35|
92223363|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.5|||||TWO_SIDED|95.0|0.34|0.67|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 19A: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.67|0.34|
92223364|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.6|||||TWO_SIDED|95.0|0.37|0.88|||||Confidence intervals for the ratio are back transformation of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 19F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.88|0.37|
92223365|NCT00562354|184348036|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.5|||||TWO_SIDED|95.0|0.3|0.79|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 23F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.79|0.30|
92223366|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-4.9|||||TWO_SIDED|95.0|-12.1|2.0||||||Serotype 1: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.0|-12.1|
92223367|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-3.9|||||TWO_SIDED|95.0|-11.6|3.5||||||Serotype 3: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||3.5|-11.6|
92223368|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-3.4|||||TWO_SIDED|95.0|-9.6|2.2||||||Serotype 4: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.2|-9.6|
92223369|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-5.5|||||TWO_SIDED|95.0|-13.7|2.5||||||Serotype 5: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.5|-13.7|
92223370|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-1.5|||||TWO_SIDED|95.0|-5.7|2.1||||||Serotype 6A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.1|-5.7|
92223371|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-1.6|||||TWO_SIDED|95.0|-5.9|2.1||||||Serotype 6B: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.1|-5.9|
92223372|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-5.3|||||TWO_SIDED|95.0|-10.8|-0.9||||||Serotype 7F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-0.9|-10.8|
92223373|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-0.8|||||TWO_SIDED|95.0|-8.7|6.9||||||Serotype 9V: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||6.9|-8.7|
92223374|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-4.0|4.1||||||Serotype 14: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||4.1|-4.0|
92223375|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-2.3|||||TWO_SIDED|95.0|-7.6|2.5||||||Serotype 18C: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.5|-7.6|
92223376|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|0.8|||||TWO_SIDED|95.0|-2.8|4.7||||||Serotype 19A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||4.7|-2.8|
92223377|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.8|3.7||||||Serotype 19F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||3.7|-8.8|
92223378|NCT00562354|184348039|SUPERIORITY_OR_OTHER||difference in proportions|-6.2|||||TWO_SIDED|95.0|-14.1|1.5||||||Serotype 23F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||1.5|-14.1|
92223379|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-7.2|||||TWO_SIDED|95.0|-15.1|0.3||||||Serotype 1: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||0.3|-15.1|
92223380|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-5.4|||||TWO_SIDED|95.0|-14.5|3.5||||||Serotype 3: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||3.5|-14.5|
92223381|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-11.2|||||TWO_SIDED|95.0|-21.4|-1.0||||||Serotype 4: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-1.0|-21.4|
92223382|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-4.7|||||TWO_SIDED|95.0|-13.5|3.9||||||Serotype 5: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||3.9|-13.5|
92223383|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-5.1|||||TWO_SIDED|95.0|-14.3|4.0||||||Serotype 6A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||4.0|-14.3|
92223384|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-12.9|||||TWO_SIDED|95.0|-24.6|-0.8||||||Serotype 6B: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-0.8|-24.6|
92223385|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-7.3|||||TWO_SIDED|95.0|-16.3|1.5||||||Serotype 7F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||1.5|-16.3|
92223386|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-17.5|||||TWO_SIDED|95.0|-29.5|-5.0||||||Serotype 9V: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-5.0|-29.5|
92223387|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-9.6|||||TWO_SIDED|95.0|-21.4|2.4||||||Serotype 14: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.4|-21.4|
92223388|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-10.5|||||TWO_SIDED|95.0|-19.3|-1.3||||||Serotype 18C: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-1.3|-19.3|
92223389|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|0.8|||||TWO_SIDED|95.0|-6.2|7.9||||||Serotype 19A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||7.9|-6.2|
92223390|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-3.8|||||TWO_SIDED|95.0|-12.2|4.5||||||Serotype 19F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||4.5|-12.2|
92223391|NCT00562354|184348042|SUPERIORITY_OR_OTHER||difference in proportions|-2.5|||||TWO_SIDED|95.0|-12.5|7.3||||||Serotype 23F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||7.3|-12.5|
92223392|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-5.7|||||TWO_SIDED|95.0|-13.8|2.1||||||Serotype 1: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.1|-13.8|
92223393|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-5.5|||||TWO_SIDED|95.0|-15.9|5.0||||||Serotype 3: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||5.0|-15.9|
92223394|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-18.3|||||TWO_SIDED|95.0|-30.1|-5.9||||||Serotype 4: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-5.9|-30.1|
92223395|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-2.3|||||TWO_SIDED|95.0|-11.6|6.9||||||Serotype 5: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||6.9|-11.6|
92223396|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-11.9|||||TWO_SIDED|95.0|-22.6|-1.2||||||Serotype 6A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-1.2|-22.6|
92223397|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-11.0|||||TWO_SIDED|95.0|-23.8|1.9||||||Serotype 6B: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||1.9|-23.8|
92223398|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-9.5|||||TWO_SIDED|95.0|-19.3|0.4||||||Serotype 7F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||0.4|-19.3|
92223399|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-26.9|||||TWO_SIDED|95.0|-39.0|-14.1||||||Serotype 9V: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-14.1|-39.0|
92358926|NCT02546323|184622661|OTHER||Least squares mean difference|5.0|STANDARD_ERROR_OF_MEAN|1.347|<|0.001|TWO_SIDED|95.0|2.35|7.64|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): HDL-C||7.64|2.35|<0.001
92223400|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-6.4|||||TWO_SIDED|95.0|-18.7|6.1||||||Serotype 14: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||6.1|-18.7|
92223401|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-12.2|||||TWO_SIDED|95.0|-22.6|-1.7||||||Serotype 18C: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-1.7|-22.6|
92223402|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-0.8|||||TWO_SIDED|95.0|-9.8|8.1||||||Serotype 19A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||8.1|-9.8|
92223403|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-11.4|||||TWO_SIDED|95.0|-21.7|-1.2||||||Serotype 19F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-1.2|-21.7|
92223404|NCT00562354|184348045|SUPERIORITY_OR_OTHER||difference in proportions|-7.7|||||TWO_SIDED|95.0|-18.5|3.4||||||Serotype 23F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||3.4|-18.5|
92223405|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.6|||||TWO_SIDED|95.0|0.43|0.86|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 1: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.86|0.43|
92223406|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.8|||||TWO_SIDED|95.0|0.63|1.0|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 3: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.00|0.63|
92358927|NCT02546323|184622661|OTHER||Least squares mean difference|-19.65|STANDARD_ERROR_OF_MEAN|3.671|<|0.001|TWO_SIDED|95.0|-26.86|-12.44|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Triglycerides||-12.44|-26.86|<0.001
92358928|NCT02546323|184622661|OTHER||Least squares mean difference|-29.49|STANDARD_ERROR_OF_MEAN|1.917|<|0.001|TWO_SIDED|95.0|-33.25|-25.72|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Non-HDL-C||-25.72|-33.25|<0.001
92358929|NCT02546323|184622661|OTHER||Least squares mean difference|-31.75|STANDARD_ERROR_OF_MEAN|2.334|<|0.001|TWO_SIDED|95.0|-36.33|-27.16|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Non-HDL-C/HDL-C ratio||-27.16|-36.33|<0.001
92358930|NCT02546323|184622661|OTHER||Least squares mean difference|-26.12|STANDARD_ERROR_OF_MEAN|1.84|<|0.001|TWO_SIDED|95.0|-29.73|-22.5|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): ApoB||-22.50|-29.73|<0.001
92358931|NCT02546323|184622661|OTHER||Least squares mean difference|2.19|STANDARD_ERROR_OF_MEAN|1.104||0.047|TWO_SIDED|95.0|0.02|4.36|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate|Treatment difference (rosuvastatin 20 mg - placebo): ApoA-I||4.36|0.02|0.047
92223407|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.66|||||TWO_SIDED|95.0|0.48|0.91|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 4: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.91|0.48|
92223408|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.65|||||TWO_SIDED|95.0|0.5|0.85|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 5: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.85|0.50|
92276666|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|1.6||||0.1009|TWO_SIDED|95.0|0.91|2.82|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.82|0.91|0.1009
92276667|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|1.45||||0.1499|TWO_SIDED|95.0|0.87|2.41|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.41|0.87|0.1499
92276668|NCT01360632|184454765|SUPERIORITY_OR_OTHER||Ratio of response rate|1.31||||0.3012|TWO_SIDED|95.0|0.78|2.18|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.18|0.78|0.3012
92276669|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.41||||0.2873|TWO_SIDED|95.0|0.75|2.65|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.65|0.75|0.2873
92276670|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.37||||0.2677|TWO_SIDED|95.0|0.79|2.36|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.36|0.79|0.2677
92276671|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.8||||0.0031|TWO_SIDED|95.0|1.21|2.68|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.68|1.21|0.0031
92358932|NCT02546323|184622661|OTHER||Least squares mean difference|-26.77|STANDARD_ERROR_OF_MEAN|2.041|<|0.001|TWO_SIDED|95.0|-30.78|-22.76|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): ApoB/ApoA-I ratio||-22.76|-30.78|<0.001
92358933|NCT02546323|184622662|OTHER||Least squares mean difference|-39.51|STANDARD_ERROR_OF_MEAN|1.819|<|0.001|TWO_SIDED|95.0|-43.08|-35.94|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): LDL-C||-35.94|-43.08|<0.001
92358934|NCT02546323|184622662|OTHER||Least squares mean difference|-25.46|STANDARD_ERROR_OF_MEAN|1.139|<|0.001|TWO_SIDED|95.0|-27.7|-23.23|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): total cholesterol||-23.23|-27.70|<0.001
92358935|NCT02546323|184622662|OTHER||Least squares mean difference|3.67|STANDARD_ERROR_OF_MEAN|1.051|<|0.001|TWO_SIDED|95.0|1.6|5.73|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): HDL-C||5.73|1.60|<0.001
92358936|NCT02546323|184622662|OTHER||Least squares mean difference|-18.41|STANDARD_ERROR_OF_MEAN|2.981|<|0.001|TWO_SIDED|95.0|-24.26|-12.55|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Triglycerides||-12.55|-24.26|<0.001
92223409|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.71|||||TWO_SIDED|95.0|0.52|0.97|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 6A: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.97|0.52|
92223410|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.65|||||TWO_SIDED|95.0|0.48|0.9|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 6B: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.90|0.48|
92223411|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.74|||||TWO_SIDED|95.0|0.56|0.97|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 7F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.97|0.56|
92223412|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.46|||||TWO_SIDED|95.0|0.35|0.61|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 9V: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.61|0.35|
92223413|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.76|||||TWO_SIDED|95.0|0.56|1.03|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 14: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.03|0.56|
92223414|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.57|||||TWO_SIDED|95.0|0.43|0.74|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 18C: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.74|0.43|
92223415|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.5|||||TWO_SIDED|95.0|0.38|0.66|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 19A: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.66|0.38|
92223416|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.42|||||TWO_SIDED|95.0|0.29|0.6|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 19F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.60|0.29|
92223417|NCT00562354|184348048|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.59|||||TWO_SIDED|95.0|0.42|0.82|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 23F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.82|0.42|
92223418|NCT00784654|184348055|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||< 0.001
92223419|NCT00784654|184348056|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92223420|NCT00784654|184348057|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.6|||<|0.001|TWO_SIDED|95.0|-15.4|-9.8|||ANCOVA|||||-9.8|-15.4|<0.001
92223421|NCT00784654|184348060|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92223422|NCT00784654|184348064|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 1 sided|||||||<0.001
92401604|NCT00385671|184694205|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in body weight.||||<0.001
92223423|NCT00784654|184348065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.5|||<|0.001|TWO_SIDED|95.0|3.5|9.5|||ANCOVA|||||9.5|3.5|<0.001
92223424|NCT00784654|184348066|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 1 sided|||||||<0.001
92223425|NCT00784654|184348067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|||<|0.001|TWO_SIDED|95.0|-0.26|-0.11|||ANCOVA|||||-0.11|-0.26|<0.001
92223426|NCT00784654|184348070|SUPERIORITY_OR_OTHER_LEGACY|||||||0.726||95.0|||||Cochran-Mantel-Haenszel|||||||0.726
92223427|NCT00802204|184348077|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|describe.....||Baseline outcome measurements are compared between lean and obese. Baseline and post outcome measurements are compared for the obese who completed VLCD||||<0.05
92401605|NCT00385671|184694205|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in body weight.||||<0.001
92223428|NCT00802204|184348077|OTHER||||||<|0.05|||||||t-test, 2 sided|||Paired t-test to compare baseline and post-diet outcome measures||||<0.05
92405808|NCT00068692|184701901|SUPERIORITY|||||||0.69||||||one-sided p value was reported|Log Rank|stratified on ECOG performance status, clinical stage, timing of chemoradiaotherapy, regimen administration||||||0.69
92405809|NCT02540629|184701935|EQUIVALENCE|Chi-squared test||||||0.01|||||||Chi-squared|||||||0.01
92164933|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.11||0.9838|ONE_SIDED|95.0|-0.42||||Mixed Models Analysis|||Breathlessness, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.42|0.9838
92164934|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.8106|ONE_SIDED|95.0|-0.28||||Mixed Models Analysis|||Breathlessness, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.28|0.8106
92164935|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.1||0.775|ONE_SIDED|95.0|-0.23||||Mixed Models Analysis|||Breathlessness, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.23|0.7750
92164936|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.8082|ONE_SIDED|95.0|-0.33||||Mixed Models Analysis|||Breathlessness, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.33|0.8082
92164937|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.13||0.7678|ONE_SIDED|95.0|-0.31||||Mixed Models Analysis|||Breathlessness, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.31|0.7678
92164938|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.11||0.5373|ONE_SIDED|95.0|-0.2||||Mixed Models Analysis|||Breathlessness, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.20|0.5373
92164939|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.14||0.9548|ONE_SIDED|95.0|-0.47||||Mixed Models Analysis|||Breathlessness, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.47|0.9548
92164940|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.14||0.9743|ONE_SIDED|95.0|-0.49||||Mixed Models Analysis|||Breathlessness, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.49|0.9743
92164941|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.12||0.8408|ONE_SIDED|95.0|-0.32||||Mixed Models Analysis|||Breathlessness, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.32|0.8408
92164942|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.14||0.9887|ONE_SIDED|95.0|-0.55||||Mixed Models Analysis|||Breathlessness, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.55|0.9887
92164943|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.13||0.9918|ONE_SIDED|95.0|-0.55||||Mixed Models Analysis|||Breathlessness, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.55|0.9918
92164944|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.12||0.9833|ONE_SIDED|95.0|-0.46||||Mixed Models Analysis|||Breathlessness, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.46|0.9833
92164945|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.14||0.9619|ONE_SIDED|95.0|-0.5||||Mixed Models Analysis|||Breathlessness, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.50|0.9619
92164946|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.14||0.9917|ONE_SIDED|95.0|-0.58||||Mixed Models Analysis|||Breathlessness, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.58|0.9917
92164947|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.12||0.9376|ONE_SIDED|95.0|-0.4||||Mixed Models Analysis|||Breathlessness, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.40|0.9376
92164948|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.16||0.9084|ONE_SIDED|95.0|-0.47||||Mixed Models Analysis|||Breathlessness, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.47|0.9084
92223429|NCT00562588|184348134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.067||||0.683||95.0|0.78|1.461|||Regression, Logistic|||The primary endpoint tele-mRS on day 90 was available in 527 of 543 treated patients (97.1%).||1.461|0.78|0.683
92223430|NCT00562588|184348135|SUPERIORITY_OR_OTHER|||||||0.607||95.0|||||ANCOVA|ANCOVA with factors for treatment, age, weight, baseline SBP, diabetes, previous stroke and baseline NIHSS||Early treatment initiation (immediately after the index event) with Aggrenox was compared to late initiation of Aggrenox after 7 days of treatment with ASA mono||||0.607
92405810|NCT00123422|184701944|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED|||||Statistical tests were 2-sided and a p value of \< 0.05 was the criterion for statistical significance.|ANCOVA|The baseline value was the co-variate in this analysis.||||||0.015
92223431|NCT00562588|184348136|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.725||||0.202||95.0|0.442|1.189|||Cox proportional hazards model|||Early treatment initiation (immediately after the index event) with Aggrenox was compared to late initiation of Aggrenox after 7 days of treatment with ASA mono||1.189|0.442|0.202
92223432|NCT02164981|184348154|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.57|TWO_SIDED|||||No adjustment for multiple comparisons, as there was only one primary outcome variable.|ANCOVA|||Given the sequential parallel comparison design (SPCD), we used a two-stage test (weighted z-test, Tamura approach: CHANGE\_score = BASELINE\_value + GROUP (i.e., SNP vs. placebo)) to combine the data on treatment effects from phases 1 and 2 (weighted equally). Assessments were on Day -1 (phase 1 baseline), Day 13 (phase 1 outcome, phase 2 baseline) and Day 28 (phase 2 outcome). Only participants who at least started the infusion were included in analysis (i.e., modified intent to treat).||||0.57
92223433|NCT02164981|184348154|SUPERIORITY||Mean Difference (Final Values)|-1.09||||0.54|TWO_SIDED|||||No adjustment for multiple comparisons, as there was only one primary outcome variable.|ANCOVA|||The same analysis as in Analysis 1 was conducted, except that CLOZAPINE (i.e., patient used clozapine vs. other antipsychotic) was added as a covariate.||||0.54
92223434|NCT02164981|184348155|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.35|TWO_SIDED|||||Exploratory efficacy outcome, hence no adjustment for multiple comparison.|ANCOVA|||||||0.35
92223435|NCT02164981|184348155|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.37|TWO_SIDED|||||Exploratory efficacy outcome, hence no adjustment for multiple comparisons|ANCOVA|||||||0.37
92223436|NCT02164981|184348156|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.85|TWO_SIDED||||||ANCOVA|||||||0.85
92223437|NCT02164981|184348156|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.88|TWO_SIDED||||||ANCOVA|||||||0.88
92223438|NCT02164981|184348157|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.86|TWO_SIDED||||||ANCOVA|||||||0.86
92223439|NCT02164981|184348157|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.83|TWO_SIDED||||||ANCOVA|||||||0.83
92276672|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.7||||0.0066|TWO_SIDED|95.0|1.15|2.5|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.50|1.15|0.0066
92276673|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.34||||0.0665|TWO_SIDED|95.0|0.98|1.83|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.83|0.98|0.0665
92276674|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.41||||0.025|TWO_SIDED|95.0|1.05|1.91|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.91|1.05|0.0250
92223440|NCT02164981|184348163|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.33|TWO_SIDED||||||ANCOVA|||||||0.33
92223441|NCT02164981|184348163|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.34|TWO_SIDED||||||ANCOVA|||||||0.34
92276675|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.18||||0.2224|TWO_SIDED|95.0|0.9|1.54|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.54|0.90|0.2224
92276676|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.31||||0.0369|TWO_SIDED|95.0|1.01|1.68|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.68|1.01|0.0369
92223442|NCT02164981|184348166|SUPERIORITY||Mean Difference (Final Values)|1.11||||0.34|TWO_SIDED||||||ANCOVA|||||||0.34
92223443|NCT02164981|184348166|SUPERIORITY||Mean Difference (Final Values)|2.05||||0.36|TWO_SIDED||||||ANCOVA|||||||0.36
92223444|NCT01662440|184348191|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of accelerated schedule of the Rabies vaccine considered non-inferior to the conventional schedule if the lower bound of the two-sided 97.5% Confidence Intervals (CI) of the difference in the percentages of subjects with RVNA titer ≥0.5 IU/mL measured 7 days after last active vaccination is greater than -5.|Difference in percentages of subjects|0.0|||||TWO_SIDED|97.5|-2.8|2.8||||||To establish non-inferiority of the immune response of Rabies vaccine (administered concomitantly with JE vaccine) accelerated schedule as compared to conventional schedule at 7 days after last active vaccination.||2.8|-2.8|
92223445|NCT01662440|184348192|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of accelerated schedule of the JE vaccine is considered non-inferior to the conventional schedule if the lower bound of the two-sided 97.5% CI of the difference in the percentages of subjects with PRNT50 titer ≥1:10 measured 28 days after last active vaccination is greater than -10.|Difference in percentages of subjects|-1.0|||||TWO_SIDED|97.5|-4.8|7.9||||||Non-inferiority of the immune response of JE vaccine (administered concomitantly with Rabies vaccine) accelerated schedule as compared to conventional schedule at 28 day after last active vaccination||7.9|-4.8|
92223446|NCT01662440|184348193|NON_INFERIORITY_OR_EQUIVALENCE|The conventional schedule of Rabies vaccine co-administered with JE vaccine considered non inferior to the conventional schedule of Rabies vaccine administered alone if the lower bound of the two-sided 95% CI of the ratio of GMCs measured 28 days after last active vaccination is greater than 0.667.|Between groups ratio of GMCs|1.07|||||TWO_SIDED|95.0|0.86|1.32||||||Non-inferiority of the immune response of Rabies vaccine (administered concomitantly with JE vaccine) as compared to Rabies vaccines (administered alone) as given according to conventional schedule at 28day after last active vaccination||1.32|0.86|
92223447|NCT01662440|184348194|NON_INFERIORITY_OR_EQUIVALENCE|The conventional schedule of JE vaccine co-administered with Rabies vaccine considered non inferior to the conventional schedule of JE vaccine administered alone if the lower bound of the two-sided 95% CI of the ratio of GMTs measured 28 days after last active vaccination is greater than 0.5.|Ratio of GMTs|0.88|||||TWO_SIDED|95.0|0.68|1.13||||||Non-inferiority of the immune response of JE vaccine (administered concomitantly with Rabies vaccine) as compared to JE vaccine (administered alone) as given according to conventional schedule at day 28 after last active vaccination.||1.13|0.68|
92358937|NCT02546323|184622662|OTHER||Least squares mean difference|-33.78|STANDARD_ERROR_OF_MEAN|1.529|<|0.001|TWO_SIDED|95.0|-36.78|-30.78|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Non-HDL-C||-30.78|-36.78|<0.001
92223448|NCT01662440|184348195|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of accelerated schedule of the Rabies vaccine is considered non-inferior to the Rabies vaccine conventional schedule if the lower bound of the two-sided 95% CI of the difference in the percentages of subjects with RVNA titer ≥0.5 IU/mL measured 28 days after last active vaccine administration is greater than -5.|Difference in percentages of subjects|-1.0|||||TWO_SIDED|95.0|-3.8|1.4||||||Non-inferiority of the Rabies immune response (administered concomitantly with JE vaccine) as given according to an accelerated schedule as compared Rabies vaccine (administered alone) as given to a conventional schedule at day 28 after last active vaccination||1.4|-3.8|
92223449|NCT01662440|184348196|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of accelerated schedule of the JE vaccine considered non-inferior to the conventional schedule if the lower bound of the two-sided 95% CI of the difference in the percentages of subjects with PRNT50 titer ≥1:10 measured 7 days after last active vaccine administration is greater than -10.|Difference in percentages of subjects|-1.0|||||TWO_SIDED|95.0|-4.1|6.2||||||Non-inferiority of the immune response of JE vaccine (administered concomitantly with Rabies vaccine) as given according to an accelerated schedule as compared to JE vaccine (administered alone) as given according to a conventional schedule at 7day after last active vaccine administration.||6.2|-4.1|
92223450|NCT01765673|184348210|OTHER|||||||0.218|||||||paired t test|||||||0.218
92223451|NCT01765673|184348211|OTHER|||||||0.017|||||||paired t test|||||||0.017
92223452|NCT01765673|184348212|OTHER|||||||0.022|||||||paired t test|||||||0.022
92223453|NCT01765673|184348213|OTHER|||||||0.719|||||||paired t test|||||||0.719
92223454|NCT01765673|184348214|OTHER|||||||0.418|||||||paired t test|||||||0.418
92223455|NCT01765673|184348215|OTHER|||||||0.038|||||||paired t test|||||||0.038
92223456|NCT01765673|184348216|OTHER|||||||0.086|||||||paired t test|||||||0.086
92223457|NCT01765673|184348217|OTHER|||||||0.16|||||||paired t test|||||||0.16
92223458|NCT01765673|184348218|OTHER|||||||0.052|||||||paired t test|||||||0.052
92223459|NCT01765673|184348219|OTHER|||||||0.827|||||||paired t test|||||||0.827
92223460|NCT01765673|184348220|OTHER|||||||0.088|||||||paired t test|||||||0.088
92223461|NCT01765673|184348221|OTHER|||||||0.152|||||||paired t test|||||||0.152
92223462|NCT01765673|184348222|OTHER|||||||0.229|||||||paired t test|||||||0.229
92223463|NCT01765673|184348223|OTHER|||||||0.121|||||||paired t test|||||||0.121
92223464|NCT01765673|184348224|OTHER|||||||0.239|||||||paired t test|||||||0.239
92223465|NCT01765673|184348225|OTHER|||||||0.03|||||||paired t test|||||||0.03
92223466|NCT01765673|184348226|OTHER|||||||0.067|||||||paired t test|||||||0.067
92223467|NCT01765673|184348227|OTHER|||||||0.396|||||||paired t test|||||||0.396
92223468|NCT01765673|184348228|OTHER|||||||0.373|||||||paired t test|||||||0.373
92223469|NCT01765673|184348229|OTHER|||||||0.744|||||||paired t test|||||||0.744
92223470|NCT02600507|184348230|SUPERIORITY||Least Squares Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.03||0.021|TWO_SIDED|95.0|-4.42|-0.37|||Mixed Effects Model for Repeated Measure|||||-0.37|-4.42|0.021
92223471|NCT02600507|184348230|SUPERIORITY||Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|1.01||0.099|TWO_SIDED|95.0|-3.65|0.32|||Mixed Effects Model for Repeated Measure|||||0.32|-3.65|0.099
92223472|NCT02600507|184348231|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.008|TWO_SIDED|95.0|-0.59|-0.09|||Mixed Effects Model for Repeated Measure|||||-0.09|-0.59|0.008
92223473|NCT02600507|184348231|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.04|TWO_SIDED|95.0|-0.5|-0.01|||Mixed Effects Model for Repeated Measure|||||-0.01|-0.50|0.040
92223474|NCT05048719|184348246|SUPERIORITY||LS Mean Difference|-0.77|||<|0.001|TWO_SIDED|95.0|-1.13|-0.4|||Mixed Models Analysis|||||-0.40|-1.13|<0.001
92223475|NCT05048719|184348246|SUPERIORITY||LS Mean Difference|-1.49|||<|0.001|TWO_SIDED|95.0|-1.85|-1.12|||Mixed Models Analysis|||||-1.12|-1.85|<0.001
92223476|NCT05048719|184348246|SUPERIORITY||LS Mean Difference|-1.36|||<|0.001|TWO_SIDED|95.0|-1.75|-0.98|||Mixed Models Analysis|||||-0.98|-1.75|<0.001
92223477|NCT05048719|184348246|SUPERIORITY||LS Mean Difference|-1.6|||<|0.001|TWO_SIDED|95.0|-1.96|-1.25|||Mixed Models Analysis|||||-1.25|-1.96|<0.001
92223478|NCT05048719|184348246|SUPERIORITY||LS Mean Difference|-1.67|||<|0.001|TWO_SIDED|95.0|-2.02|-1.32|||Mixed Models Analysis|||||-1.32|-2.02|<0.001
92223479|NCT05048719|184348247|SUPERIORITY||LS Mean Difference|-0.09||||0.626|TWO_SIDED|95.0|-0.47|0.28|||Mixed Models Analysis|||||0.28|-0.47|0.626
92223480|NCT05048719|184348247|SUPERIORITY||LS Mean Difference|-0.81|||<|0.001|TWO_SIDED|95.0|-1.18|-0.44|||Mixed Models Analysis|||||-0.44|-1.18|<0.001
92223481|NCT05048719|184348247|SUPERIORITY||LS Mean Difference|-0.69|||<|0.001|TWO_SIDED|95.0|-1.08|-0.3|||Mixed Models Analysis|||||-0.30|-1.08|<0.001
92358938|NCT02546323|184622662|OTHER||Least squares mean difference|-33.93|STANDARD_ERROR_OF_MEAN|1.836|<|0.001|TWO_SIDED|95.0|-37.54|-30.32|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Non-HDL-C/HDL-C ratio||-30.32|-37.54|<0.001
92358939|NCT00863304|184622673|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.65|-0.62||P-value was based on pairwise comparisons.|ANCOVA|||Analysis of Covariance (ANCOVA) was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.62|-1.65|<0.001
92358940|NCT00863304|184622673|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.26||0.002|TWO_SIDED|95.0|-1.32|-0.29||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.29|-1.32|0.002
92358941|NCT00863304|184622673|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.26||0.09|TWO_SIDED|95.0|-0.96|0.07||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.07|-0.96|0.090
92358942|NCT00863304|184622673|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.26||0.009|TWO_SIDED|95.0|-1.21|-0.17||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.17|-1.21|0.009
92358943|NCT00863304|184622673|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.26||0.175|TWO_SIDED|95.0|-0.87|0.16||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.16|-0.87|0.175
92358944|NCT00863304|184622674|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.71|-0.75||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.75|-1.71|<0.001
92358945|NCT00863304|184622674|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.48|-0.51||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.51|-1.48|<0.001
92358946|NCT00863304|184622674|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.25||0.067|TWO_SIDED|95.0|-0.94|0.03||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.94|0.067
92358947|NCT00863304|184622674|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.25||0.002|TWO_SIDED|95.0|-1.26|-0.29||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.29|-1.26|0.002
92358948|NCT00863304|184622674|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.25||0.031|TWO_SIDED|95.0|-1.03|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-1.03|0.031
92401606|NCT00385671|184694205|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in body weight.||||0.011
92401607|NCT00385671|184694206|SUPERIORITY_OR_OTHER|||||||0.83||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated diastolic blood pressure.||||0.830
92223482|NCT05048719|184348247|SUPERIORITY||LS Mean Difference|-0.93|||<|0.001|TWO_SIDED|95.0|-1.29|-0.57|||Mixed Models Analysis|||||-0.57|-1.29|<0.001
92358949|NCT00863304|184622675|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.5|-0.18||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.18|-0.50|<0.001
92358950|NCT00863304|184622675|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.48|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-0.48|<0.001
92401608|NCT00385671|184694206|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated diastolic blood pressure.||||1.00
92358951|NCT00863304|184622675|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.08||0.078|TWO_SIDED|95.0|-0.3|0.02||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.02|-0.30|0.078
92358952|NCT00863304|184622675|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.08||0.019|TWO_SIDED|95.0|-0.35|-0.03||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.03|-0.35|0.019
92358953|NCT00863304|184622675|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.029|TWO_SIDED|95.0|-0.34|-0.02||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.02|-0.34|0.029
92358954|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.23||0.029|TWO_SIDED|95.0|-0.94|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-0.94|0.029
92223483|NCT05048719|184348247|SUPERIORITY||LS Mean Difference|-1.0|||<|0.001|TWO_SIDED|95.0|-1.36|-0.64|||Mixed Models Analysis|||||-0.64|-1.36|<0.001
92223484|NCT05048719|184348248|OTHER||Odds Ratio (OR)|6.77|||<|0.001|TWO_SIDED|95.0|2.21|20.75|||Regression, Logistic|||||20.75|2.21|<0.001
92223485|NCT05048719|184348248|OTHER||Odds Ratio (OR)|34.09|||<|0.001|TWO_SIDED|95.0|9.92|117.16|||Regression, Logistic|||||117.16|9.92|<0.001
92223486|NCT05048719|184348248|OTHER||Odds Ratio (OR)|48.33|||<|0.001|TWO_SIDED|95.0|11.9|196.24|||Regression, Logistic|||||196.24|11.90|<0.001
92223487|NCT05048719|184348248|OTHER||Odds Ratio (OR)|45.72|||<|0.001|TWO_SIDED|95.0|13.61|153.64|||Regression, Logistic|||||153.64|13.61|<0.001
92358955|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.23||0.214|TWO_SIDED|95.0|-0.73|0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.16|-0.73|0.214
92358956|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.21|-0.32||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.32|-1.21|<0.001
92401609|NCT00385671|184694206|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated diastolic blood pressure.||||1.00
92223488|NCT05048719|184348248|OTHER||Odds Ratio (OR)|77.23|||<|0.001|TWO_SIDED|95.0|20.26|294.48|||Regression, Logistic|||||294.48|20.26|<0.001
92223489|NCT05048719|184348248|OTHER||Odds Ratio (OR)|1.22||||0.678|TWO_SIDED|95.0|0.48|3.13|||Regression, Logistic|||||3.13|0.48|0.678
92223490|NCT05048719|184348248|OTHER||Odds Ratio (OR)|6.15|||<|0.001|TWO_SIDED|95.0|2.19|17.24|||Regression, Logistic|||||17.24|2.19|<0.001
92223491|NCT05048719|184348248|OTHER||Odds Ratio (OR)|8.71|||<|0.001|TWO_SIDED|95.0|2.55|29.79|||Regression, Logistic|||||29.79|2.55|<0.001
92223492|NCT05048719|184348248|OTHER||Odds Ratio (OR)|8.24|||<|0.001|TWO_SIDED|95.0|3.05|22.3|||Regression, Logistic|||||22.30|3.05|<0.001
92223493|NCT05048719|184348248|OTHER||Odds Ratio (OR)|13.93|||<|0.001|TWO_SIDED|95.0|4.51|43.01|||Regression, Logistic|||||43.01|4.51|<0.001
92223494|NCT05048719|184348249|OTHER||Odds Ratio (OR)|8.19|||<|0.001|TWO_SIDED|95.0|2.93|22.9|||Regression, Logistic|||||22.90|2.93|<0.001
92276677|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.36||||0.0179|TWO_SIDED|95.0|1.05|1.75|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.75|1.05|0.0179
92276678|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.49||||0.0011|TWO_SIDED|95.0|1.17|1.89|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.89|1.17|0.0011
92401610|NCT00385671|184694206|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated systolic blood pressure.||||0.060
92223495|NCT05048719|184348249|OTHER||Odds Ratio (OR)|25.02|||<|0.001|TWO_SIDED|95.0|7.57|82.69|||Regression, Logistic|||||82.69|7.57|<0.001
92223496|NCT05048719|184348249|OTHER||Odds Ratio (OR)|62.31|||<|0.001|TWO_SIDED|95.0|12.26|316.63|||Regression, Logistic|||||316.63|12.26|<0.001
92223497|NCT05048719|184348249|OTHER||Odds Ratio (OR)|67.57|||<|0.001|TWO_SIDED|95.0|17.56|259.97|||Regression, Logistic|||||259.97|17.56|<0.001
92223498|NCT05048719|184348249|OTHER||Odds Ratio (OR)|129.55|||<|0.001|TWO_SIDED|95.0|26.72|628.09|||Regression, Logistic|||||628.09|26.72|<0.001
92223499|NCT05048719|184348249|OTHER||Odds Ratio (OR)|1.13||||0.802|TWO_SIDED|95.0|0.43|2.96|||Regression, Logistic|||||2.96|0.43|0.802
92223500|NCT05048719|184348249|OTHER||Odds Ratio (OR)|3.46||||0.026|TWO_SIDED|95.0|1.16|10.31|||Regression, Logistic|||||10.31|1.16|0.026
92223501|NCT05048719|184348249|OTHER||Odds Ratio (OR)|8.61||||0.006|TWO_SIDED|95.0|1.83|40.51|||Regression, Logistic|||||40.51|1.83|0.006
92223502|NCT05048719|184348249|OTHER||Odds Ratio (OR)|9.34|||<|0.001|TWO_SIDED|95.0|2.67|32.71|||Regression, Logistic|||||32.71|2.67|<0.001
92223503|NCT05048719|184348249|OTHER||Odds Ratio (OR)|17.9|||<|0.001|TWO_SIDED|95.0|4.02|79.7|||Regression, Logistic|||||79.70|4.02|<0.001
92223504|NCT05048719|184348250|OTHER||LS Mean Difference|-21.5|||<|0.001|TWO_SIDED|95.0|-32.7|-10.3|||Mixed Models Analysis|||||-10.3|-32.7|<0.001
92223505|NCT05048719|184348250|OTHER||LS Mean Difference|-42.5|||<|0.001|TWO_SIDED|95.0|-53.4|-31.7|||Mixed Models Analysis|||||-31.7|-53.4|<0.001
92223506|NCT05048719|184348250|OTHER||LS Mean Difference|-41.0|||<|0.001|TWO_SIDED|95.0|-52.7|-29.3|||Mixed Models Analysis|||||-29.3|-52.7|<0.001
92223507|NCT05048719|184348250|OTHER||LS Mean Difference|-42.7|||<|0.001|TWO_SIDED|95.0|-53.5|-32.0|||Mixed Models Analysis|||||-32.0|-53.5|<0.001
92223508|NCT05048719|184348250|OTHER||LS Mean Difference|-44.7|||<|0.001|TWO_SIDED|95.0|-55.3|-34.2|||Mixed Models Analysis|||||-34.2|-55.3|<0.001
92223509|NCT05048719|184348250|OTHER||LS Mean Difference|0.6|||<|0.001|TWO_SIDED|95.0|-10.6|11.8|||Mixed Models Analysis|||||11.8|-10.6|<0.001
92223510|NCT05048719|184348250|OTHER||LS Mean Difference|-20.5|||<|0.001|TWO_SIDED|95.0|-31.4|-9.5|||Mixed Models Analysis|||||-9.5|-31.4|<0.001
92223511|NCT05048719|184348250|OTHER||LS Mean Difference|-19.0||||0.002|TWO_SIDED|95.0|-30.7|-7.2|||Mixed Models Analysis|||||-7.2|-30.7|0.002
92223512|NCT05048719|184348250|OTHER||LS Mean Difference|-20.7|||<|0.001|TWO_SIDED|95.0|-31.4|-9.9|||Mixed Models Analysis|||||-9.9|-31.4|<0.001
92223513|NCT05048719|184348250|OTHER||LS Mean Difference|-22.7|||<|0.001|TWO_SIDED|95.0|-33.2|-12.1|||Mixed Models Analysis|||||-12.1|-33.2|<0.001
92223514|NCT05048719|184348251|OTHER||LS Mean Difference|-1.6||||0.153|TWO_SIDED|95.0|-3.7|0.6|||Mixed Models Analysis|||||0.6|-3.7|0.153
92223515|NCT05048719|184348251|OTHER||LS Mean Difference|-4.3|||<|0.001|TWO_SIDED|95.0|-6.4|-2.2|||Mixed Models Analysis|||||-2.2|-6.4|<0.001
92223516|NCT05048719|184348251|OTHER||LS Mean Difference|-7.6|||<|0.001|TWO_SIDED|95.0|-9.8|-5.3|||Mixed Models Analysis|||||-5.3|-9.8|<0.001
92223517|NCT05048719|184348251|OTHER||LS Mean Difference|-7.4|||<|0.001|TWO_SIDED|95.0|-9.4|-5.3|||Mixed Models Analysis|||||-5.3|-9.4|<0.001
92164949|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.15||0.7906|ONE_SIDED|95.0|-0.38||||Mixed Models Analysis|||Breathlessness, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.38|0.7906
92223518|NCT05048719|184348251|OTHER||LS Mean Difference|-7.9|||<|0.001|TWO_SIDED|95.0|-9.9|-5.9|||Mixed Models Analysis|||||-5.9|-9.9|<0.001
92223519|NCT05048719|184348251|OTHER||LS Mean Difference|0.1||||0.914|TWO_SIDED|95.0|-2.0|2.3|||Mixed Models Analysis|||||2.3|-2.0|0.914
92223520|NCT05048719|184348251|OTHER||LS Mean Difference|-2.6||||0.015|TWO_SIDED|95.0|-4.7|-0.5|||Mixed Models Analysis|||||-0.5|-4.7|0.015
92223521|NCT05048719|184348251|OTHER||LS Mean Difference|-5.9|||<|0.001|TWO_SIDED|95.0|-8.1|-3.6|||Mixed Models Analysis|||||-3.6|-8.1|<0.001
92358957|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.23||0.234|TWO_SIDED|95.0|-0.18|0.72||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.72|-0.18|0.234
92358958|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.23||0.034|TWO_SIDED|95.0|0.04|0.93||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.93|0.04|0.034
92358959|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.63|-0.7||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.70|-1.63|<0.001
92358960|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.42|-0.49||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.49|-1.42|<0.001
92358961|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.24||0.007|TWO_SIDED|95.0|-1.11|-0.18||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.18|-1.11|0.007
92358962|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.24||0.029|TWO_SIDED|95.0|-0.99|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-0.99|0.029
92358963|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.24||0.193|TWO_SIDED|95.0|-0.78|0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.16|-0.78|0.193
92358964|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.68|-0.73||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.73|-1.68|<0.001
92358965|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.24||0.001|TWO_SIDED|95.0|-1.28|-0.32||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.32|-1.28|0.001
92405811|NCT00123422|184701945|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|The baseline value was the co-variate in this analysis.||||||<0.05
92164950|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.14||0.8765|ONE_SIDED|95.0|-0.38||||Mixed Models Analysis|||Breathlessness, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.38|0.8765
92164951|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.14||0.8469|ONE_SIDED|95.0|-0.38||||Mixed Models Analysis|||Breathlessness, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.38|0.8469
92164952|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.14||0.9717|ONE_SIDED|95.0|-0.5||||Mixed Models Analysis|||Breathlessness, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.50|0.9717
92164953|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.12||0.7591|ONE_SIDED|95.0|-0.29||||Mixed Models Analysis|||Breathlessness, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.29|0.7591
92164954|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.7141|ONE_SIDED|95.0|-0.38||||Mixed Models Analysis|||Breathlessness, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.38|0.7141
92164955|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.17||0.8104|ONE_SIDED|95.0|-0.42||||Mixed Models Analysis|||Breathlessness, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.42|0.8104
92223522|NCT05048719|184348251|OTHER||LS Mean Difference|-5.7|||<|0.001|TWO_SIDED|95.0|-7.8|-3.6|||Mixed Models Analysis|||||-3.6|-7.8|<0.001
92223523|NCT05048719|184348251|OTHER||LS Mean Difference|-6.2|||<|0.001|TWO_SIDED|95.0|-8.3|-4.2|||Mixed Models Analysis|||||-4.2|-8.3|<0.001
92223524|NCT03257267|184348257|SUPERIORITY||Hazard Ratio (HR)|0.665|||<|1e-05|TWO_SIDED|95.0|0.555|0.796||One-sided p-value|Stratified Log-rank Test|||||0.796|0.555|<0.00001
92223525|NCT03257267|184348258|SUPERIORITY||Hazard Ratio (HR)|0.741||||0.00031|TWO_SIDED|95.0|0.623|0.882|||Stratified Log-rank Test|||||0.882|0.623|0.00031
92358966|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.24||0.011|TWO_SIDED|95.0|-1.1|-0.14||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.14|-1.10|0.011
92358967|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.24||0.017|TWO_SIDED|95.0|-1.06|-0.1||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.10|-1.06|0.017
92358968|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.24||0.464|TWO_SIDED|95.0|-0.66|0.3||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.30|-0.66|0.464
92358969|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.72|-0.72||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.72|-1.72|<0.001
92358970|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.55|-0.54||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.54|-1.55|<0.001
92358971|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.26||0.014|TWO_SIDED|95.0|-1.14|-0.13||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.13|-1.14|0.014
92358972|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.26||0.023|TWO_SIDED|95.0|-1.09|-0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.08|-1.09|0.023
92358973|NCT00863304|184622676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.26||0.114|TWO_SIDED|95.0|-0.92|0.1||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.10|-0.92|0.114
92401611|NCT00385671|184694206|SUPERIORITY_OR_OTHER|||||||0.502||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated systolic blood pressure.||||0.502
92358974|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.23||0.029|TWO_SIDED|95.0|-0.94|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-0.94|0.029
92358975|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.23||0.214|TWO_SIDED|95.0|-0.73|0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.16|-0.73|0.214
92358976|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.21|-0.32||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.32|-1.21|<0.001
92401612|NCT00385671|184694206|SUPERIORITY_OR_OTHER|||||||0.376||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated systolic blood pressure.||||0.376
92401613|NCT00385671|184694207|SUPERIORITY_OR_OTHER|||||||0.281||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated heart rate.||||0.281
92405812|NCT00602472|184701966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|-0.73|-0.5|||ANCOVA|||Linagliptin vs. Placebo||-0.50|-0.73|<0.0001
92164956|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.15||0.7664|ONE_SIDED|95.0|-0.35||||Mixed Models Analysis|||Breathlessness, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.35|0.7664
92164957|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.7888|ONE_SIDED|95.0|-0.31||||Mixed Models Analysis|||Sputum, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.31|0.7888
92164958|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.12||0.393|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Sputum, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.3930
92164959|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.11||0.4785|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Sputum, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.4785
92164960|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.16||0.6756|ONE_SIDED|95.0|-0.34||||Mixed Models Analysis|||Sputum, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.34|0.6756
92223526|NCT03257267|184348259|SUPERIORITY||Odds Ratio (OR)|3.136||||2e-05|TWO_SIDED|95.0|1.798|5.468|||Stratified Cochran-Mantel-Haenszel test|||||5.468|1.798|0.00002
92223527|NCT03257267|184348264|SUPERIORITY||Hazard Ratio (HR)|0.698||||0.00024|TWO_SIDED|95.0|0.57|0.855||One-sided p-value|Stratified Log-rank Test|||||0.855|0.570|0.00024
92358977|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.23||0.234|TWO_SIDED|95.0|-0.18|0.72||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.72|-0.18|0.234
92358978|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.23||0.034|TWO_SIDED|95.0|0.04|0.93||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.93|0.04|0.034
92358979|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.59|-0.67||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.67|-1.59|<0.001
92401614|NCT00385671|184694207|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated heart rate.||||0.060
92405813|NCT00602472|184701967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|-0.56|-0.41|||ANCOVA|||Linagliptin vs. Placebo||-0.41|-0.56|<0.0001
92223528|NCT01982292|184348265|SUPERIORITY_OR_OTHER||Difference in percentage|0.5|||>|0.9999|TWO_SIDED|90.0|-9.38|10.38|||Fisher Exact|||Difference in percentage of patients with positive antibody status||10.38|-9.38|>0.9999
92223529|NCT01982292|184348265|SUPERIORITY_OR_OTHER||Difference in percentage|-0.5|||||TWO_SIDED|90.0|-10.38|9.38||||||Difference in percentage of patients with negative antibody status||9.38|-10.38|
92223530|NCT04872101|184348285|SUPERIORITY||Risk Difference (RD)|22.2|||<|0.001|TWO_SIDED|95.0|15.8|28.5||5% significance level (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||28.5|15.8|<0.001
92223531|NCT04872101|184348286|SUPERIORITY||Risk Difference (RD)|22.9|||<|0.001|TWO_SIDED|95.0|16.0|29.8||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||29.8|16.0|<0.001
92223532|NCT04872101|184348287|SUPERIORITY||Risk Difference (RD)|6.5||||0.043|TWO_SIDED|95.0|0.8|12.3||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||12.3|0.8|0.043
92223533|NCT04872101|184348288|SUPERIORITY||Risk Difference (RD)|27.4|||<|0.001|TWO_SIDED|95.0|19.0|35.8||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||35.8|19.0|<0.001
92223534|NCT04872101|184348289|SUPERIORITY||Risk Difference (RD)|23.7|||<|0.001|TWO_SIDED|95.0|15.1|32.2||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||32.2|15.1|<0.001
92223535|NCT04872101|184348290|SUPERIORITY||Risk Difference (RD)|29.0|||<|0.001|TWO_SIDED|95.0|21.3|36.7||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||36.7|21.3|<0.001
92223536|NCT04872101|184348291|SUPERIORITY||Risk Difference (RD)|18.3|||<|0.001|TWO_SIDED|95.0|11.0|25.6||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||25.6|11.0|<0.001
92223537|NCT04872101|184348292|SUPERIORITY||Risk Difference (RD)|6.6||||0.031|TWO_SIDED|95.0|1.1|12.0||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||12.0|1.1|0.031
92164961|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.16||0.2627|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Sputum, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.2627
92164962|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.14||0.2281|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Sputum, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.2281
92358980|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.37|-0.45||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.45|-1.37|<0.001
92164963|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.16||0.7656|ONE_SIDED|95.0|-0.38||||Mixed Models Analysis|||Sputum, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.38|0.7656
92164964|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.16||0.2105|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Sputum, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.2105
92223538|NCT04872101|184348293|SUPERIORITY||Risk Difference (RD)|25.0|||<|0.001|TWO_SIDED|95.0|17.5|32.5||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||32.5|17.5|<0.001
92223539|NCT04872101|184348294|SUPERIORITY||Risk Difference (RD)|16.9|||<|0.001|TWO_SIDED|95.0|10.2|23.7||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||23.7|10.2|<0.001
92223540|NCT04872101|184348295|SUPERIORITY||Risk Difference (RD)|26.0|||<|0.001|TWO_SIDED|95.0|17.0|35.1||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||35.1|17.0|<0.001
92358981|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.24||0.012|TWO_SIDED|95.0|-1.05|-0.13||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.13|-1.05|0.012
92358982|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.24||0.023|TWO_SIDED|95.0|-1.0|-0.07||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.07|-1.00|0.023
92401615|NCT00385671|184694207|SUPERIORITY_OR_OTHER|||||||0.596||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated heart rate.||||0.596
92401616|NCT00385671|184694208|SUPERIORITY_OR_OTHER|||||||0.332||95.0||||P-value is for high. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of patients with treatment-emergent high body weight.||||0.332
92164965|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.14||0.2221|ONE_SIDED|95.0|-0.12||||Mixed Models Analysis|||Sputum, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.12|0.2221
92164966|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.16||0.4396|ONE_SIDED|95.0|-0.23||||Mixed Models Analysis|||Sputum, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.23|0.4396
92358983|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.24||0.175|TWO_SIDED|95.0|-0.78|0.14||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.14|-0.78|0.175
92405814|NCT00602472|184701968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.78|-0.58|||ANCOVA|||Linagliptin vs. Placebo||-0.58|-0.78|<0.0001
92164967|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.15||0.2243|ONE_SIDED|95.0|-0.14||||Mixed Models Analysis|||Sputum, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.14|0.2243
92164968|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.13||0.3597|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Sputum, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.3597
92223541|NCT04872101|184348296|SUPERIORITY||Risk Difference (RD)|29.6|||<|0.001|TWO_SIDED|95.0|21.7|37.4||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||37.4|21.7|<0.001
92223542|NCT04872101|184348297|SUPERIORITY||Risk Difference (RD)|20.5|||<|0.001|TWO_SIDED|95.0|13.1|27.8||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||27.8|13.1|<0.001
92223543|NCT04872101|184348298|SUPERIORITY||Risk Difference (RD)|22.2|||<|0.001|TWO_SIDED|95.0|15.4|29.0||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||29.0|15.4|<0.001
92223544|NCT04872101|184348299|SUPERIORITY||Risk Difference (RD)|31.3|||<|0.001|TWO_SIDED|95.0|23.1|39.5||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||39.5|23.1|<0.001
92223545|NCT04872101|184348300|SUPERIORITY||Risk Difference (RD)|31.0|||<|0.001|TWO_SIDED|95.0|22.7|39.3||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||39.3|22.7|<0.001
92223546|NCT04872101|184348301|SUPERIORITY||Mean Difference (Net)|-45.5|||<|0.001|TWO_SIDED|95.0|-56.4|-34.6||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HECSI score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-34.6|-56.4|<0.001
92223547|NCT04872101|184348302|SUPERIORITY||Mean Difference (Net)|-3.9|||<|0.001|TWO_SIDED|95.0|-5.0|-2.8||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline DLQI score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-2.8|-5.0|<0.001
92358984|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.09|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.55|-0.63||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.63|-1.55|<0.001
92358985|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.34|-0.41||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.41|-1.34|<0.001
92405815|NCT00602472|184701969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.8|-0.59|||ANCOVA|||Linagliptin vs. Placebo||-0.59|-0.80|<0.0001
92164969|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.14||0.203|ONE_SIDED|95.0|-0.12||||Mixed Models Analysis|||Sputum, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.12|0.2030
92164970|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.14||0.1207|ONE_SIDED|95.0|-0.07||||Mixed Models Analysis|||Sputum, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.07|0.1207
92164971|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.12||0.1836|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Sputum, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.1836
92164972|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.17||0.2359|ONE_SIDED|95.0|-0.16||||Mixed Models Analysis|||Sputum, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.16|0.2359
92164973|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.17||0.2861|ONE_SIDED|95.0|-0.18||||Mixed Models Analysis|||Sputum, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.18|0.2861
92276679|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.12||||0.3249|TWO_SIDED|95.0|0.89|1.41|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.41|0.89|0.3249
92401617|NCT00385671|184694208|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||P-value is for high. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of patients with treatment-emergent high body weight.||||0.065
92401618|NCT00385671|184694208|SUPERIORITY_OR_OTHER|||||||0.622||95.0||||P-value is for high. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of patients with treatment-emergent high body weight.||||0.622
92401619|NCT00385671|184694208|SUPERIORITY_OR_OTHER|||||||0.103||95.0||||P-value is for low. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of patients with treatment-emergent low body weight.||||0.103
92401620|NCT00385671|184694208|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-value is for low. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of patients with treatment-emergent low body weight.||||0.034
92405816|NCT00602472|184701970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.7|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001||95.0|-18.1|-7.3|||ANCOVA|||Linagliptin vs. Placebo||-7.3|-18.1|<0.0001
92164974|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.15||0.2151|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Sputum, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.2151
92164975|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.3545|ONE_SIDED|95.0|-0.21||||Mixed Models Analysis|||Sputum, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.21|0.3545
92164976|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.16||0.7102|ONE_SIDED|95.0|-0.35||||Mixed Models Analysis|||Sputum, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.35|0.7102
92164977|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.14||0.3883|ONE_SIDED|95.0|-0.19||||Mixed Models Analysis|||Sputum, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.19|0.3883
92164978|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.16||0.2228|ONE_SIDED|95.0|-0.14||||Mixed Models Analysis|||Sputum, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.14|0.2228
92164979|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.16||0.6342|ONE_SIDED|95.0|-0.32||||Mixed Models Analysis|||Sputum, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.32|0.6342
92164980|NCT00430300|184218070|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.14||0.3141|ONE_SIDED|95.0|-0.16||||Mixed Models Analysis|||Sputum, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.16|0.3141
92164981|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.27||0.27|ONE_SIDED|95.0|-0.28||||Mixed Models Analysis|||Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.28|0.2700
92164982|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.26||0.1831|ONE_SIDED|95.0|-0.2||||Mixed Models Analysis|||Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.20|0.1831
92164983|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.23||0.1796|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.1796
92164984|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.31||0.8136|ONE_SIDED|95.0|-0.79||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.79|0.8136
92164985|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.3||0.6877|ONE_SIDED|95.0|-0.66||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.66|0.6877
92164986|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.27||0.6382|ONE_SIDED|95.0|-0.54||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.54|0.6382
92223548|NCT04872101|184348303|SUPERIORITY||Mean Difference (Net)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.4|-1.4||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.4|-2.4|<0.001
92223549|NCT04872101|184348304|SUPERIORITY||Median Difference (Net)|-2.0|||<|0.001|TWO_SIDED|95.0|-2.5|-1.4||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD itch score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.4|-2.5|<0.001
92223550|NCT04872101|184348305|SUPERIORITY||Mean Difference (Net)|-2.0|||<|0.001|TWO_SIDED|95.0|-2.6|-1.5||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD pain score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.5|-2.6|<0.001
92223551|NCT04872101|184348306|SUPERIORITY||Median Difference (Net)|-0.81|||<|0.001|TWO_SIDED|95.0|-0.99|-0.62||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HEIS score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-0.62|-0.99|<0.001
92223552|NCT04872101|184348307|SUPERIORITY||Mean Difference (Net)|-0.82|||<|0.001|TWO_SIDED|95.0|-1.01|-0.62||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HEIS PDAL score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-0.62|-1.01|<0.001
92223553|NCT04872101|184348308|SUPERIORITY||Risk Difference (RD)|26.4|||<|0.001|TWO_SIDED|95.0|17.0|35.9||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||35.9|17.0|<0.001
92223554|NCT00879229|184348320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.0|STANDARD_ERROR_OF_MEAN|67.0||0.696|TWO_SIDED|95.0|-54.0|17.0||This is an exact Wilcoxon rank sum test p-value for testing equality of ambrisentan and placebo distributions.|Wilcoxon (Mann-Whitney)|||||17|-54|0.696
92223555|NCT02475681|184348335|SUPERIORITY||Hazard Ratio (HR)|0.1|||<|0.0001|TWO_SIDED|95.0|0.06|0.17|||Log Rank|Stratified by randomization stratification factors as recorded in IXRS||The primary test to compare PFS between treatment arms was the two-sided log-rank test, stratified by randomization stratification factors. The estimate of the HR (Arm B/Arm A) and the corresponding 95% CI was computed using a Cox proportional hazards model stratified by randomization stratification factors. Randomization stratification factors were based on the data recorded in IXRS.||0.17|0.06|<0.0001
92358986|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.24||0.017|TWO_SIDED|95.0|-1.03|-0.1||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.10|-1.03|0.017
92358987|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.24||0.027|TWO_SIDED|95.0|-0.99|-0.06||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.06|-0.99|0.027
92358988|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.24||0.19|TWO_SIDED|95.0|-0.78|0.15||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.15|-0.78|0.190
92358989|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.63|-0.68||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.68|-1.63|<0.001
92401621|NCT00385671|184694208|SUPERIORITY_OR_OTHER|||||||0.808||95.0||||P-value is for low. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of patients with treatment-emergent low body weight.||||0.808
92401622|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in AST.||||0.055
92223556|NCT02475681|184348336|SUPERIORITY||Hazard Ratio (HR)|0.2|||<|0.0001|TWO_SIDED|95.0|0.13|0.3|||Log Rank|Stratified by randomization stratification factors as recorded in IXRS||The test to compare PFS between treatment Arms A and C was the two-sided log-rank test, stratified by randomization stratification factors. The estimate of the HR and the corresponding 95% CI was computed using a Cox proportional hazards model stratified by randomization stratification factors. Randomization stratification factors were based on the data recorded in IXRS.||0.30|0.13|<0.0001
92223557|NCT02475681|184348337|SUPERIORITY||Risk Difference (RD)|15.3|||<|0.0001|TWO_SIDED|95.0|8.3|22.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenzel test with adjustment for randomization stratification factors as recorded in IXRS||||22.3|8.3|<0.0001
92223558|NCT02475681|184348337|SUPERIORITY||Risk Difference (RD)|6.9||||0.0763|TWO_SIDED|95.0|-1.0|14.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenzel test with adjustment for randomization stratification factors as recorded in IXRS.||||14.9|-1.0|0.0763
92223559|NCT02475681|184348338|SUPERIORITY||Hazard Ratio (HR)|0.14|||<|0.0001|TWO_SIDED|95.0|0.08|0.26|||Log Rank|Stratified by randomization stratification factors as recorded in IXRS||The test to compare TTNT between treatment Arms A versus B and Arms A versus C was the two-sided log-rank test, stratified by randomization stratification factors. The estimate of the HR and the corresponding 95% CI was computed using a Cox proportional hazards model stratified by randomization stratification factors. Randomization stratification factors were based on the data recorded in IXRS.||0.26|0.08|<0.0001
92223560|NCT02475681|184348338|SUPERIORITY||Hazard Ratio (HR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.15|0.4||P-value based on stratified by randomization stratification factors as recorded in IXRS|Log Rank|Stratified by randomization stratification factors as recorded in IXRS||||0.40|0.15|<0.0001
92223561|NCT02475681|184348339|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.0577|TWO_SIDED|95.0|0.21|1.06|||Log Rank|Stratified by randomization stratification factors as recorded in IXRS||The test to compare overall survival between treatment Arms A versus B and Arms A versus C was the two-sided log-rank test, stratified by randomization stratification factors. The estimate of the HR and the corresponding 95% CI was computed using a Cox proportional hazards model stratified by randomization stratification factors. Randomization stratification factors were based on the data recorded in IXRS.||1.06|0.21|0.0577
92223562|NCT02475681|184348339|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.1556|TWO_SIDED|95.0|0.28|1.27|||Log Rank|Stratified by randomization stratification factors as recorded in IXRS||||1.27|0.28|0.1556
92223563|NCT01262365|184348342|SUPERIORITY||Odds Ratio (OR)|1.307|||=|0.175|TWO_SIDED|95.0|0.888|1.923|||Regression, Logistic|p-values have been calculated using logistic regression with factors for treatment, region, and baseline disease status.||Odds Ratio: Epratuzumab/Placebo calculated using logistic regression with factors for treatment, region, and baseline disease status.||1.923|0.888|=0.175
92164987|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.36||0.766|ONE_SIDED|95.0|-0.87||||Mixed Models Analysis|||Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.87|0.7660
92164988|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.35||0.7226|ONE_SIDED|95.0|-0.8||||Mixed Models Analysis|||Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.80|0.7226
92164989|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.31||0.6634|ONE_SIDED|95.0|-0.65||||Mixed Models Analysis|||Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.65|0.6634
92164990|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.35||0.7598|ONE_SIDED|95.0|-0.83||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.83|0.7598
92223564|NCT01262365|184348342|SUPERIORITY||Odds Ratio (OR)|1.164|||=|0.442|TWO_SIDED|95.0|0.79|1.714|||Regression, Logistic|p-values have been calculated using logistic regression with factors for treatment, region, and baseline disease status.||Odds Ratio: Epratuzumab/Placebo calculated using logistic regression with factors for treatment, region, and baseline disease status.||1.714|0.790|=0.442
92223565|NCT00527605|184348365|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-14.23|||<|0.0001||95.0|-20.23|-8.22|||t-test, 2 sided||Dutasteride arm minus placebo arm.|||-8.22|-20.23|<0.0001
92223566|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|849.0|||<|0.0001|TWO_SIDED|95.0|786.0|921.0||Adjusted Cost Differences in Prescription Drug Costs, AEDs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||921|786|<0.0001
92164991|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.34||0.53|ONE_SIDED|95.0|-0.59||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.59|0.5300
92223567|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1879.0|||<|0.0001|TWO_SIDED|95.0|1636.0|2112.0||Adjusted Cost Differences in Prescription Drug Costs, nonAEDs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||2112|1636|<0.0001
92223568|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5681.0|||<|0.0001|TWO_SIDED|95.0|5257.0|6077.0||Adjusted Cost Differences in Hospitalizations, All Medical Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||6077|5257|<0.0001
92164992|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.3||0.7054|ONE_SIDED|95.0|-0.66||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.66|0.7054
92358990|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.55|-0.6||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.60|-1.55|<0.001
92358991|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.24||0.034|TWO_SIDED|95.0|-0.99|-0.04||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.04|-0.99|0.034
92405817|NCT00602472|184701971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001||95.0|-22.4|-13.2|||ANCOVA|||Linagliptin vs. Placebo||-13.2|-22.4|<0.0001
92164993|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.45||0.8851|ONE_SIDED|95.0|-1.3||||Mixed Models Analysis|||Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.30|0.8851
92164994|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.44||0.7575|ONE_SIDED|95.0|-1.05||||Mixed Models Analysis|||Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.05|0.7575
92164995|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.39||0.4325|ONE_SIDED|95.0|-0.58||||Mixed Models Analysis|||Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.58|0.4325
92164996|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.48||0.8934|ONE_SIDED|95.0|-1.41||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.41|0.8934
92164997|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.47||0.5283|ONE_SIDED|95.0|-0.82||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.82|0.5283
92164998|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.41||0.49|ONE_SIDED|95.0|-0.68||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.68|0.4900
92164999|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.51||0.7465|ONE_SIDED|95.0|-1.2||||Mixed Models Analysis|||Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.20|0.7465
92165000|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.51||0.5848|ONE_SIDED|95.0|-0.95||||Mixed Models Analysis|||Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.95|0.5848
92165001|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.44||0.3178|ONE_SIDED|95.0|-0.53||||Mixed Models Analysis|||Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.53|0.3178
92165002|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.52||0.8169|ONE_SIDED|95.0|-1.34||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.34|0.8169
92165003|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.51||0.6727|ONE_SIDED|95.0|-1.08||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.08|0.6727
92165004|NCT00430300|184218071|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.45||0.5014|ONE_SIDED|95.0|-0.75||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.75|0.5014
92165005|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|6.3||0.7292|ONE_SIDED|95.0|-14.3||||Mixed Models Analysis|||Morning PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-14.3|0.7292
92165006|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|6.2||0.2768|ONE_SIDED|95.0|-6.6||||Mixed Models Analysis|||Morning PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-6.6|0.2768
92165007|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|5.4||0.3795|ONE_SIDED|95.0|-7.4||||Mixed Models Analysis|||Morning PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-7.4|0.3795
92358992|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.24||0.009|TWO_SIDED|9.0|-1.12|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.12|0.009
92358993|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.24||0.023|TWO_SIDED|95.0|-1.04|-0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.08|-1.04|0.023
92405818|NCT00602472|184701972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.7|STANDARD_ERROR_OF_MEAN|2.4|<|0.0001||95.0|-20.3|-11.1|||ANCOVA|||Linagliptin vs. Placebo||-11.1|-20.3|<0.0001
92276680|NCT01360632|184454766|SUPERIORITY_OR_OTHER||Ratio of response rate|1.33||||0.0122|TWO_SIDED|95.0|1.06|1.66|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.66|1.06|0.0122
92358994|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.12|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.6|-0.64||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.64|-1.60|<0.001
92358995|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.35|-0.39||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.39|-1.35|<0.001
92358996|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.25||0.092|TWO_SIDED|95.0|-0.9|0.07||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.07|-0.90|0.092
92165008|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|7.7||0.7374|ONE_SIDED|95.0|-17.7||||Mixed Models Analysis|||Morning PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-17.7|0.7374
92165009|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|7.6||0.7615|ONE_SIDED|95.0|-18.1||||Mixed Models Analysis|||Morning PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-18.1|0.7615
92165010|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|6.6||0.5811|ONE_SIDED|95.0|-12.4||||Mixed Models Analysis|||Morning PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-12.4|0.5811
92165011|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-10.9|STANDARD_ERROR_OF_MEAN|8.6||0.8939|ONE_SIDED|95.0|-25.3||||Mixed Models Analysis|||Morning PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-25.3|0.8939
92165012|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|8.4||0.8117|ONE_SIDED|95.0|-21.6||||Mixed Models Analysis|||Morning PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-21.6|0.8117
92165013|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|7.4||0.4393|ONE_SIDED|95.0|-11.2||||Mixed Models Analysis|||Morning PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-11.2|0.4393
92165014|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.5|STANDARD_ERROR_OF_MEAN|9.8||0.8055|ONE_SIDED|95.0|-24.7||||Mixed Models Analysis|||Morning PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-24.7|0.8055
92165015|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|9.5||0.6767|ONE_SIDED|95.0|-20.2||||Mixed Models Analysis|||Morning PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-20.2|0.6767
92165016|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|8.4||0.407|ONE_SIDED|95.0|-12.0||||Mixed Models Analysis|||Morning PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-12.0|0.4070
92165017|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-18.6|STANDARD_ERROR_OF_MEAN|9.7||0.9705|ONE_SIDED|95.0|-34.7||||Mixed Models Analysis|||Morning PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-34.7|0.9705
92165018|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.9|STANDARD_ERROR_OF_MEAN|9.4||0.8249|ONE_SIDED|95.0|-24.6||||Mixed Models Analysis|||Morning PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-24.6|0.8249
92165019|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-12.7|STANDARD_ERROR_OF_MEAN|8.3||0.9345|ONE_SIDED|95.0|-26.6||||Mixed Models Analysis|||Morning PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-26.6|0.9345
92165020|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|11.0||0.7384|ONE_SIDED|95.0|-25.3||||Mixed Models Analysis|||Morning PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-25.3|0.7384
92165021|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|10.7||0.5239|ONE_SIDED|95.0|-18.4||||Mixed Models Analysis|||Morning PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-18.4|0.5239
92358997|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.25||0.004|TWO_SIDED|95.0|-1.19|-0.23||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.23|-1.19|0.004
92223569|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|273.0|||<|0.0001|TWO_SIDED|95.0|251.0|295.0||Adjusted Cost Differences in Emergency Department Visits, All Medical Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||295|251|<0.0001
92223570|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1021.0|||<|0.0001|TWO_SIDED|95.0|819.0|1211.0||Adjusted Cost Differences in Outpatient Services, All Medical Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||1211|819|<0.0001
92223571|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|60.0|||<|0.0001|TWO_SIDED|95.0|48.0|72.0||Adjusted Cost Differences in Neurologist Visits, All Medical Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||72|48|<0.0001
92223572|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2555.0||||0.008|TWO_SIDED|95.0|834.0|4281.0||Adjusted Cost Differences in Other Healthcare Services, All Medical Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||4281|834|0.0080
92223573|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4041.0|||<|0.0001|TWO_SIDED|95.0|3776.0|4305.0||Adjusted Cost Differences in Epilepsy-Related Hospitalizations|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||4305|3776|<0.0001
92223574|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|105.0|||<|0.0001|TWO_SIDED|95.0|97.0|114.0||Adjusted Cost Differences in Epilepsy-Related Emergency Department Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||114|97|<0.0001
92223575|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|384.0|||<|0.0001|TWO_SIDED|95.0|358.0|413.0||Adjusted Cost Differences in Epilepsy-Related Outpatient Services|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||413|358|<0.0001
92223576|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.0|||<|0.0001|TWO_SIDED|95.0|40.0|56.0||Adjusted Cost Differences in Epilepsy-Related Neurologist Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||56|40|<0.0001
92223577|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|892.0|||<|0.0001|TWO_SIDED|95.0|584.0|1192.0||Adjusted Cost Differences in Other Epilepsy-Related Healthcare Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||1192|584|<0.0001
92276681|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.22||||0.5836|TWO_SIDED|95.0|0.6|2.49|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.49|0.60|0.5836
92276682|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.31||||0.3792|TWO_SIDED|95.0|0.73|2.37|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.37|0.73|0.3792
92358998|NCT00863304|184622677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.25||0.064|TWO_SIDED|95.0|-0.94|0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.94|0.064
92358999|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.22||0.001|TWO_SIDED|95.0|-1.12|-0.27||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.27|-1.12|0.001
92276683|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.77||||0.0101|TWO_SIDED|95.0|1.14|2.74|||Ratio of response rate|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.74|1.14|0.0101
92276684|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.75||||0.0065|TWO_SIDED|95.0|1.17|2.63|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.63|1.17|0.0065
92359000|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.22||0.003|TWO_SIDED|95.0|-1.09|-0.23||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.23|-1.09|0.003
92405819|NCT00602472|184701973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.1|STANDARD_ERROR_OF_MEAN|2.6|<|0.0001||95.0|-17.2|-7.1|||ANCOVA|||Linagliptin vs. Placebo||-7.1|-17.2|<0.0001
92223578|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|12258.0|||<|0.0001|TWO_SIDED|95.0|10482.0|14083.0||Adjusted Cost Differences in Total Healthcare Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||14083|10482|<0.0001
92223579|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|322.0|||<|0.0001|TWO_SIDED|95.0|245.0|398.0||Adjusted Cost Differences in Prescription Drug Costs, AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||398|245|<0.0001
92223580|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|841.0|||<|0.0001|TWO_SIDED|95.0|556.0|1078.0||Adjusted Cost Differences in Prescription Drug Costs, non-AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||1078|556|<0.0001
92223581|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3248.0|||<|0.0001|TWO_SIDED|95.0|2790.0|3714.0||Adjusted Cost Differences in Hospitalizations, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||3714|2790|<0.0001
92223582|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|164.0|||<|0.0001|TWO_SIDED|95.0|138.0|190.0||Adjusted Cost Differences in Emergency Department Visits, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||190|138|<0.0001
92223583|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|628.0|||<|0.0001|TWO_SIDED|95.0|409.0|819.0||Adjusted Cost Differences in Outpatient Services, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||819|409|<0.0001
92223584|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.0|||<|0.0001|TWO_SIDED|95.0|18.0|42.0||Adjusted Cost Differences in Neurologist Visits, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||42|18|<0.0001
92223585|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|235.0||||0.7628|TWO_SIDED|95.0|-1367.0|1798.0||Adjusted Cost Differences in Other Healthcare Services, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||1798|-1367|0.7628
92223586|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2306.0|||<|0.0001|TWO_SIDED|95.0|2016.0|2603.0||Adjusted Cost Differences in Epilepsy-Related Hospitalizations|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||2603|2016|<0.0001
92223587|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|63.0|||<|0.0001|TWO_SIDED|95.0|52.0|74.0||Adjusted Cost Differences in Epilepsy-Related Emergency Department Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||74|52|<0.0001
92359001|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|-1.25|-0.39||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.39|-1.25|<0.001
92359002|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.22||0.572|TWO_SIDED|95.0|-0.31|0.55||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.55|-0.31|0.572
92359003|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.22||0.467|TWO_SIDED|95.0|-0.27|0.59||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.59|-0.27|0.467
92405820|NCT00602472|184701974|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.51|||<|0.0001||95.0|3.332|9.111|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||9.111|3.332|<0.0001
92223588|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|211.0|||<|0.0001|TWO_SIDED|95.0|179.0|245.0||Adjusted Cost Differences in Epilepsy-Related Outpatient Services|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||245|179|<0.0001
92223589|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.0|||<|0.0001|TWO_SIDED|95.0|15.0|33.0||Adjusted Cost Differences in Epilepsy-Related Neurologist Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||33|15|<0.0001
92359004|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.74|-0.83||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.83|-1.74|<0.001
92359005|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.12|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.58|-0.66||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.66|-1.58|<0.001
92359006|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.23||0.002|TWO_SIDED|95.0|-1.19|-0.27||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.27|-1.19|0.002
92165022|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|9.4||0.417|ONE_SIDED|95.0|-13.7||||Mixed Models Analysis|||Morning PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-13.7|0.4170
92223590|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|277.0||||0.0581|TWO_SIDED|95.0|-19.0|581.0||Adjusted Cost Differences in Other Epilepsy-Related Healthcare Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||581|-19|0.0581
92223591|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5437.0|||<|0.0001|TWO_SIDED|95.0|3672.0|7142.0||Adjusted Cost Differences in Total Healthcare Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||7142|3672|<0.0001
92223592|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1019.0|||<|0.0001|TWO_SIDED|95.0|836.0|1191.0||Adjusted Cost Differences in Prescription Drug Costs, AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||1191|836|<0.0001
92223593|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1047.0|||<|0.0001|TWO_SIDED|95.0|564.0|1486.0||Adjusted Cost Differences in Prescription Drug Costs, Non-AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||1486|564|<0.0001
92359007|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.23||0.019|TWO_SIDED|95.0|-1.01|-0.09||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.09|-1.01|0.019
92359008|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.24||0.101|TWO_SIDED|95.0|-0.85|0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.08|-0.85|0.101
92359009|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.7|-0.78||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.78|-1.70|<0.001
92359010|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.47|-0.54||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.54|-1.47|<0.001
92359011|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.24||0.009|TWO_SIDED|95.0|-1.08|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.08|0.009
92359012|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.24||0.008|TWO_SIDED|95.0|-1.08|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.08|0.008
92401623|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 in AST.||||0.051
92165023|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|10.3||0.7695|ONE_SIDED|95.0|-24.8||||Mixed Models Analysis|||Morning PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-24.8|0.7695
92165024|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|10.1||0.4566|ONE_SIDED|95.0|-15.6||||Mixed Models Analysis|||Morning PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-15.6|0.4566
92165025|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|8.9||0.3535|ONE_SIDED|95.0|-11.4||||Mixed Models Analysis|||Morning PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-11.4|0.3535
92165026|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-12.1|STANDARD_ERROR_OF_MEAN|11.1||0.8598|ONE_SIDED|95.0|-30.7||||Mixed Models Analysis|||Morning PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-30.7|0.8598
92165027|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.2|STANDARD_ERROR_OF_MEAN|10.9||0.8005|ONE_SIDED|95.0|-27.4||||Mixed Models Analysis|||Morning PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-27.4|0.8005
92165028|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|9.6||0.3441|ONE_SIDED|95.0|-12.2||||Mixed Models Analysis|||Morning PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-12.2|0.3441
92165029|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|6.9||0.4436|ONE_SIDED|95.0|-10.5||||Mixed Models Analysis|||Evening PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-10.5|0.4436
92223594|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|9128.0|||<|0.0001|TWO_SIDED|95.0|7346.0|11125.0||Adjusted Cost Differences in Hospitalizations|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||11125|7346|<0.0001
92223595|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|459.0|||<|0.0001|TWO_SIDED|95.0|326.0|622.0||Adjusted Cost Differences in Emergency Department Visits|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||622|326|<0.0001
92223596|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2427.0|||<|0.0001|TWO_SIDED|95.0|1587.0|3290.0||Adjusted Cost Differences in Outpatient Services|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||3290|1587|<0.0001
92223597|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|357.0|||<|0.0001|TWO_SIDED|95.0|225.0|525.0||Adjusted Cost Differences in Neurologists Visits|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||525|225|<0.0001
92405821|NCT00602472|184701976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.818|||<|0.0001||95.0|1.989|7.327|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||7.327|1.989|<0.0001
92165030|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|6.8||0.7238|ONE_SIDED|95.0|-15.5||||Mixed Models Analysis|||Evening PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-15.5|0.7238
92165031|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|6.0||0.5743|ONE_SIDED|95.0|-11.1||||Mixed Models Analysis|||Evening PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-11.1|0.5743
92165032|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|9.8||0.619|ONE_SIDED|95.0|-19.3||||Mixed Models Analysis|||Evening PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-19.3|0.6190
92165033|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-15.9|STANDARD_ERROR_OF_MEAN|9.7||0.9473|ONE_SIDED|95.0|-32.1||||Mixed Models Analysis|||Evening PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-32.1|0.9473
92165034|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|8.5||0.8014|ONE_SIDED|95.0|-21.4||||Mixed Models Analysis|||Evening PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-21.4|0.8014
92165035|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|8.6||0.7929|ONE_SIDED|95.0|-21.5||||Mixed Models Analysis|||Evening PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-21.5|0.7929
92165036|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-23.2|STANDARD_ERROR_OF_MEAN|8.4||0.9963|ONE_SIDED|95.0|-37.3||||Mixed Models Analysis|||Evening PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-37.3|0.9963
92165037|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|7.4||0.7387|ONE_SIDED|95.0|-17.1||||Mixed Models Analysis|||Evening PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-17.1|0.7387
92165038|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|8.4||0.6286|ONE_SIDED|95.0|-16.8||||Mixed Models Analysis|||Evening PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-16.8|0.6286
92165039|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.1|STANDARD_ERROR_OF_MEAN|8.3||0.9538|ONE_SIDED|95.0|-27.8||||Mixed Models Analysis|||Evening PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-27.8|0.9538
92165040|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|7.3||0.5701|ONE_SIDED|95.0|-13.4||||Mixed Models Analysis|||Evening PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-13.4|0.5701
92165041|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.5|STANDARD_ERROR_OF_MEAN|10.0||0.9242|ONE_SIDED|95.0|-31.3||||Mixed Models Analysis|||Evening PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-31.3|0.9242
92165042|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-22.4|STANDARD_ERROR_OF_MEAN|9.8||0.9876|ONE_SIDED|95.0|-38.8||||Mixed Models Analysis|||Evening PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-38.8|0.9876
92165043|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-18.1|STANDARD_ERROR_OF_MEAN|8.7||0.9802|ONE_SIDED|95.0|-32.5||||Mixed Models Analysis|||Evening PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-32.5|0.9802
92165044|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|10.6||0.5705|ONE_SIDED|95.0|-19.5||||Mixed Models Analysis|||Evening PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-19.5|0.5705
92359013|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.24||0.101|TWO_SIDED|95.0|-0.85|0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.08|-0.85|0.101
92165045|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|10.3||0.8063|ONE_SIDED|95.0|-26.1||||Mixed Models Analysis|||Evening PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-26.1|0.8063
92223598|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|502.0|||<|0.0001|TWO_SIDED|95.0|234.0|768.0||Adjusted Cost Differences in Other Healthcare Services|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||768|234|<0.0001
92223599|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6483.0|||<|0.0001|TWO_SIDED|95.0|5329.0|7927.0||Adjusted Cost Differences in Epilepsy-Related Hospitalizations|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||7927|5329|<0.0001
92223600|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|150.0|||<|0.0001|TWO_SIDED|95.0|112.0|199.0||Adjusted Cost Differences in Epilepsy-Related Emergency Department Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||199|112|<0.0001
92223601|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|516.0|||<|0.0001|TWO_SIDED|95.0|401.0|645.0||Adjusted Cost Differences in Epilepsy-Related Outpatient Services|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||645|401|<0.0001
92223602|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|158.0|||<|0.0001|TWO_SIDED|95.0|97.0|231.0||Adjusted Cost Differences in Epilepsy-Related Neurologist Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||231|97|<0.0001
92223603|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|83.0|||<|0.0001|TWO_SIDED|95.0|58.0|113.0||Adjusted Cost Differences in Other Epilepsy-Related Healthcare Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||113|58|<0.0001
92223604|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14582.0|||<|0.0001|TWO_SIDED|95.0|12019.0|17097.0||Adjusted Cost Differences in Total Healthcare Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||17097|12019|<0.0001
92223605|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|420.0|||<|0.0001|TWO_SIDED|95.0|210.0|630.0||Adjusted Cost Differences in Prescription Drug Costs, AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||630|210|<0.0001
92223606|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|658.0|||<|0.0001|TWO_SIDED|95.0|217.0|1131.0||Adjusted Cost Differences in Prescription Drug Costs, Non-AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||1131|217|<0.0001
92223607|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6040.0|||<|0.0001|TWO_SIDED|95.0|3442.0|8795.0||Adjusted Cost Differences in Hospitalizations, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||8795|3442|<0.0001
92223608|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|268.0||||0.002|TWO_SIDED|95.0|81.0|425.0||Adjusted Cost Differences in Emergency Department Visits, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||425|81|0.0020
92223609|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.0||||0.967|TWO_SIDED|95.0|-991.0|944.0||Adjusted Cost Differences in Outpatient Services, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||944|-991|0.9670
92223610|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|97.0||||0.2563|TWO_SIDED|95.0|-77.0|302.0||Adjusted Cost Differences in Neurologist Visits, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||302|-77|0.2563
92223611|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|328.0||||0.01|TWO_SIDED|95.0|90.0|588.0||Adjusted Cost Differences in Other Healthcare Services, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||588|90|0.0100
92223612|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4984.0|||<|0.0001|TWO_SIDED|95.0|3168.0|7335.0||Adjusted Cost Differences in Hospitalizations, Epilepsy-Related|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||7335|3168|<0.0001
92223613|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|112.0|||<|0.0001|TWO_SIDED|95.0|70.0|166.0||Adjusted Cost Differences in Emergency Department Visits, Epilepsy-Related|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||166|70|<0.0001
92359014|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.79|-0.83||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.83|-1.79|<0.001
92401624|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.993||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in AST.||||0.993
92401625|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.928||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in ALT.||||0.928
92401626|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 in ALT.||||0.609
92401627|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.675||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 in ALT.||||0.675
92401628|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.985||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in GGT.||||0.985
92401629|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.847||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 in GGT.||||0.847
92401630|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.832||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 in GGT.||||0.832
92401631|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.169||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in AlkPhos.||||0.169
92401632|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.91||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 in AlkPhos.||||0.910
92165046|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|9.1||0.6667|ONE_SIDED|95.0|-19.1||||Mixed Models Analysis|||Evening PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-19.1|0.6667
92165047|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|10.4||0.464|ONE_SIDED|95.0|-16.4||||Mixed Models Analysis|||Evening PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-16.4|0.4640
92165048|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|10.2||0.8821|ONE_SIDED|95.0|-29.3||||Mixed Models Analysis|||Evening PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-29.3|0.8821
92165049|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|9.0||0.7591|ONE_SIDED|95.0|-21.4||||Mixed Models Analysis|||Evening PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-21.4|0.7591
92165050|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|11.0||0.4001|ONE_SIDED|95.0|-15.6||||Mixed Models Analysis|||Evening PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-15.6|0.4001
92165051|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-12.3|STANDARD_ERROR_OF_MEAN|10.8||0.8707|ONE_SIDED|95.0|-30.3||||Mixed Models Analysis|||Evening PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-30.3|0.8707
92276685|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.41||||0.0526|TWO_SIDED|95.0|1.0|1.99|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.99|1.00|0.0526
92359015|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.63|-0.67||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.67|-1.63|<0.001
92359016|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.25||0.003|TWO_SIDED|95.0|-1.21|-0.24||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.24|-1.21|0.003
92359017|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.25||0.016|TWO_SIDED|95.0|-1.08|-0.11||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.11|-1.08|0.016
92359018|NCT00863304|184622678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.25||0.082|TWO_SIDED|95.0|-0.91|0.06||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.06|-0.91|0.082
92359019|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.22||0.001|TWO_SIDED|95.0|-1.12|-0.27||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.27|-1.12|0.001
92359020|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.22||0.003|TWO_SIDED|95.0|-1.09|-0.23||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.23|-1.09|0.003
92359021|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|-1.25|-0.39||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.39|-1.25|<0.001
92359022|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.22||0.572|TWO_SIDED|95.0|-0.31|0.55||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.55|-0.31|0.572
92359023|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.22||0.467|TWO_SIDED|95.0|-0.27|0.59||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.59|-0.27|0.467
92359024|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.73|-0.82||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.82|-1.73|<0.001
92405822|NCT00602472|184701978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.36|||<|0.0001||95.0|2.474|4.562|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||4.562|2.474|<0.0001
92359025|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.61|-0.7||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.70|-1.61|<0.001
92359026|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.23||0.003|TWO_SIDED|95.0|-1.16|-0.24||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.24|-1.16|0.003
92359027|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.23||0.015|TWO_SIDED|95.0|-1.03|-0.11||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.11|-1.03|0.015
92359028|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.23||0.053|TWO_SIDED|95.0|-0.91|0.01||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.01|-0.91|0.053
92359029|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.21|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.66|-0.75||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.75|-1.66|<0.001
92359030|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.56|-0.65||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.65|-1.56|<0.001
92359031|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.23||0.009|TWO_SIDED|95.0|-1.07|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.07|0.009
92359032|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.23||0.011|TWO_SIDED|95.0|-1.05|-0.14||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.14|-1.05|0.011
92223614|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|236.0||||0.01|TWO_SIDED|95.0|70.0|403.0||Adjusted Cost Differences in Outpatient Services, Epilepsy-Related|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||403|70|0.01
92223615|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.0||||0.1061|TWO_SIDED|95.0|-22.0|145.0||Adjusted Cost Differences in Neurologist Visits, Epilepsy-Related|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||145|-22|0.1061
92223616|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|58.0|||<|0.0001|TWO_SIDED|95.0|28.0|93.0||Adjusted Cost Differences in Other Healthcare Services, Epilepsy-Related|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||93|28|<0.0001
92223617|NCT01390909|184348406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7673.0|||<|0.0001|TWO_SIDED|95.0|4571.0|10989.0||Adjusted Cost Differences in Total Healthcare Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||10989|4571|<0.0001
92223618|NCT02354703|184348407|SUPERIORITY|||||||0.94||||||a priori significance P\<0.05|Kruskal-Wallis|adjusted for baseline value||||||0.94
92223619|NCT02354703|184348408|SUPERIORITY|||||||1||||||a priori significance is P\<0.05|Chi-squared|adjusted for baseline value||||||1.00
92223620|NCT02354703|184348409|SUPERIORITY|||||||0.73||||||a priori threshold is P\<0.05|Kruskal-Wallis|adjusted for baseline value||||||0.73
92223621|NCT00122135|184348419|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||t-test, 2 sided|||||||.77
92359033|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.23||0.035|TWO_SIDED|95.0|-0.95|-0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.03|-0.95|0.035
92223622|NCT03269344|184348420|SUPERIORITY|||||||0.11|||||||ANOVA|||||||0.11
92359034|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.79|-0.85||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.85|-1.79|<0.001
92223623|NCT03269344|184348421|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92359035|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.71|-0.76||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.76|-1.71|<0.001
92359036|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.24||0.008|TWO_SIDED|95.0|-1.11|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.11|0.008
92223624|NCT03269344|184348422|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92223625|NCT03269344|184348423|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92223626|NCT03269344|184348424|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||0.81
92223627|NCT03269344|184348425|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
92223628|NCT00179309|184348440|SUPERIORITY_OR_OTHER|||||||0.12|ONE_SIDED|95.0||||Multiple comparisons were not done.|Log Rank|||48 evaluable pts will be randomized in a 1:1 ratio between two arms (24 evaluable pts per arm). Using standard formulae (e.g. nQuery Advisor v5), this number was selected to provide 80% power to detect a difference between 4.2 month median progression free survival (PFS) on the docetaxel alone arm and 8 month median PFS on the arm receiving PANVAC plus docetaxel, with a one-tailed alpha=0.10,assuming 36 months accrual and an additional 12 months of follow-up after the last pt has been enrolled.||||0.12
92223629|NCT01289015|184348444|SUPERIORITY_OR_OTHER||p-value|0.001|||<|0.025||95.0|||||Cochran-Mantel-Haenszel|The CMH test statistic after stratification was used to compare subjects with complete cure between NAFT-600 and placebo.||"In order to compare complete cure rate in the NAFT-600 group with that of the placebo group, the following one-sided hypothesis test was carried out:~H0 (null): p1\<=p0 versus Ha (alternate): p1\>p0, where p0 and p1 are the proportions of subjects with complete cure in the proportions of subjects with complete cure in the placebo and NAFT-600 treatment groups respectively."||||<0.025
92223630|NCT04302727|184348446|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
92223631|NCT04302727|184348446|SUPERIORITY||Median Difference (Net)|0.37||||0.64|TWO_SIDED|95.0|-1.19|1.93|||Mixed Models Analysis|||Fully adjusted model||1.93|-1.19|0.64
92223632|NCT04302727|184348447|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Month 4||||<0.0001
92223633|NCT04302727|184348447|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Month 12||||0.67
92223634|NCT04302727|184348448|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Participants with diabetes-Month 4||||0.02
92223635|NCT04302727|184348448|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Participants without diabetes-Month 4||||<0.0001
92223636|NCT04302727|184348448|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Participants with diabetes-Month 12||||0.82
92223637|NCT04302727|184348448|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Participants without diabetes-Month 12||||0.75
92223638|NCT04302727|184348448|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Participants with diabetes-Month 24||||0.87
92223639|NCT04302727|184348448|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||Participants without diabetes-Month 24||||0.27
92223640|NCT04302727|184348448|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Females-Month 4||||<0.0001
92223641|NCT04302727|184348448|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||Females-Month 12||||0.66
92223642|NCT04302727|184348448|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Females-Month 24||||0.96
92223643|NCT04302727|184348448|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||Males-Month 4||||0.0003
92223644|NCT04302727|184348448|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||Males-Month 12||||0.34
92223645|NCT04302727|184348448|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Males-Month 24||||0.20
92359037|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.24||0.005|TWO_SIDED|95.0|-1.16|-0.21||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.21|-1.16|0.005
92359038|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.24||0.013|TWO_SIDED|95.0|-1.07|-0.12||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.12|-1.07|0.013
92359039|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.76|-0.81||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.81|-1.76|<0.001
92359040|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.58|-0.63||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.63|-1.58|<0.001
92359041|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.24||0.05|TWO_SIDED|95.0|-0.95|0.0||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.00|-0.95|0.050
92359042|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.29|-0.34||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.34|-1.29|<0.001
92359043|NCT00863304|184622679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.24||0.009|TWO_SIDED|95.0|-1.11|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.11|0.009
92359044|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.012|TWO_SIDED|95.0|-0.35|-0.04||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.04|-0.35|0.012
92401633|NCT00385671|184694209|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 in AlkPhos.||||0.134
92223646|NCT04302727|184348448|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Whites-Month 4||||<0.0001
92359045|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.113|TWO_SIDED|95.0|-0.28|0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.28|0.113
92359046|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.49|-0.18||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.18|-0.49|<0.001
92223647|NCT04302727|184348448|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||Whites-Month 12||||0.83
92359047|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.08||0.076|TWO_SIDED|95.0|-0.01|0.29||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.29|-0.01|0.076
92359048|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.08||0.007|TWO_SIDED|95.0|0.06|0.37||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.37|0.06|0.007
92359049|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.56|-0.24||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.24|-0.56|<0.001
92359050|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.58|-0.26||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.26|-0.58|<0.001
92223648|NCT04302727|184348448|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||Whites-Month 24||||0.54
92223649|NCT04302727|184348448|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||African Americans-Month 4||||0.008
92223650|NCT04302727|184348448|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||African Americans-Month 12||||0.58
92223651|NCT04302727|184348448|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||African Americans-Month 24||||0.79
92223652|NCT04302727|184348449|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Month 4||||<0.001
92223653|NCT04302727|184348449|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||Month 12||||0.57
92359051|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.43|-0.11||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.11|-0.43|<0.001
92359052|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.102|TWO_SIDED|95.0|-0.29|0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.29|0.102
92223654|NCT04302727|184348449|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||Month 24||||0.32
92359053|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.08||0.066|TWO_SIDED|95.0|-0.31|0.01||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.01|-0.31|0.066
92359054|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.6|-0.28||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.28|-0.60|<0.001
92359055|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.53|-0.21||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.21|-0.53|<0.001
92401634|NCT00385671|184694210|SUPERIORITY_OR_OTHER|||||||0.285||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 total bilirubin.||||0.285
92401635|NCT00385671|184694210|SUPERIORITY_OR_OTHER|||||||0.505||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 in total bilirubin.||||0.505
92405823|NCT04730271|184701996|NON_INFERIORITY|Test of non-inferiority: Absolute value deviation from plan with ROBOTIC is less than it is with manual instruments (not using ROBOTIC) under a non-inferiority margin of 1.5 degrees|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92165052|NCT00430300|184218072|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|9.6||0.4629|ONE_SIDED|95.0|-15.0||||Mixed Models Analysis|||Evening PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-15.0|0.4629
92359056|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.027|TWO_SIDED|95.0|-0.34|-0.02||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.02|-0.34|0.027
92165053|NCT00430300|184218073|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6428|||||TWO_SIDED|95.0|0.2023|2.0419||||||A proportional odds model was fitted using Proc Logistic in Statistical Analysis System (SAS), using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||2.0419|0.2023|
92405824|NCT04730271|184701997|SUPERIORITY|||||||0.0058|||||||t-test, 2 sided|||||||0.0058
92359057|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.08||0.001|TWO_SIDED|95.0|-0.42|-0.1||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.10|-0.42|0.001
92359058|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.08||0.02|TWO_SIDED|95.0|-0.35|-0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.03|-0.35|0.020
92405825|NCT04730271|184701998|SUPERIORITY|||||||0.0282|||||||t-test, 2 sided|||||||0.0282
92165054|NCT00430300|184218073|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5574|||||TWO_SIDED|95.0|0.1505|2.0647||||||A proportional odds model was fitted using Proc Logistic in SAS, using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||2.0647|0.1505|
92165055|NCT00430300|184218073|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.327|||||TWO_SIDED|95.0|0.083|1.2879||||||A proportional odds model was fitted using Proc Logistic in SAS, using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||1.2879|0.0830|
92165056|NCT00430300|184218074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5709|||||TWO_SIDED|95.0|0.179|1.8204||||||A proportional odds model was fitted using Proc Logistic in SAS, using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||1.8204|0.1790|
92165057|NCT00430300|184218074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6416|||||TWO_SIDED|95.0|0.1736|2.3715||||||A proportional odds model was fitted using Proc Logistic in SAS, using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||2.3715|0.1736|
92165058|NCT00430300|184218074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5877|||||TWO_SIDED|95.0|0.1516|2.2777||||||A proportional odds model was fitted using Proc Logistic in SAS, using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||2.2777|0.1516|
92165059|NCT05328297|184218100|SUPERIORITY||Least Square Mean difference|-0.3|STANDARD_ERROR_OF_MEAN|1.96|=|0.438|TWO_SIDED|80.0|-2.84|2.23|||Mixed Model for Repeated Measures (MMRM)|||||2.23|-2.84|=0.438
92165060|NCT01286272|184218127|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.8457|TWO_SIDED|95.0|0.51|1.74|||Log Rank|||||1.74|0.51|0.8457
92165061|NCT02945332|184218132|SUPERIORITY||Mean Difference (Net)|4.35|STANDARD_ERROR_OF_MEAN|4.85||0.32|TWO_SIDED||||||Mixed Models Analysis|||||||0.32
92165062|NCT02945332|184218133|SUPERIORITY|||||||0.93|||||||Mixed Models Analysis|||||||0.93
92165063|NCT02945332|184218134|SUPERIORITY||Mean Difference (Net)|4.79|STANDARD_ERROR_OF_MEAN|3.68||0.16|TWO_SIDED||||||Mixed Models Analysis|||||||0.16
92165064|NCT02945332|184218135|SUPERIORITY||Mean Difference (Net)|11.36|STANDARD_ERROR_OF_MEAN|15.32||0.4|TWO_SIDED||||||Mixed Models Analysis|||||||0.40
92165065|NCT02945332|184218136|SUPERIORITY||Mean Difference (Net)|-8.03|STANDARD_ERROR_OF_MEAN|31.36||0.77|TWO_SIDED||||||Mixed Models Analysis|||||||0.77
92223655|NCT04302727|184348450|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||Month 4||||0.77
92223656|NCT04302727|184348450|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Month 12||||0.48
92223657|NCT04302727|184348450|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||Month 24||||0.68
92223658|NCT04302727|184348451|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|||Month 4||||0.91
92223659|NCT04302727|184348451|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||Month 12||||0.52
92359059|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.49|-0.17||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.17|-0.49|<0.001
92359060|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.08||0.001|TWO_SIDED|95.0|-0.43|-0.11||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.11|-0.43|0.001
92359061|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.328|TWO_SIDED|95.0|-0.24|0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.08|-0.24|0.328
92359062|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.08||0.002|TWO_SIDED|95.0|-0.41|-0.09||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.09|-0.41|0.002
92359063|NCT00863304|184622680|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.08||0.022|TWO_SIDED|95.0|-0.35|-0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.03|-0.35|0.022
92359064|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.012|TWO_SIDED|95.0|-0.35|-0.04||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.04|-0.35|0.012
92359065|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.113|TWO_SIDED|95.0|-0.28|0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.28|0.113
92359066|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.49|-0.18||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.18|-0.49|<0.001
92405826|NCT04730271|184701999|SUPERIORITY|||||||0.0004|||||||t-test, 2 sided|||||||0.0004
92165066|NCT02945332|184218137|SUPERIORITY||Mean Difference (Net)|2.98|STANDARD_ERROR_OF_MEAN|4.16||0.42|TWO_SIDED||||||Mixed Models Analysis|||||||0.42
92165067|NCT03979365|184218139|SUPERIORITY|||||||0.944|||||||t-test, 2 sided|||||||0.944
92165068|NCT03979365|184218140|SUPERIORITY|||||||0.345|||||||Kruskal-Wallis|||Trembling Hands||||0.345
92165069|NCT03979365|184218140|SUPERIORITY|||||||0.451|||||||Kruskal-Wallis|||Muscle Cramps||||0.451
92165070|NCT03979365|184218140|SUPERIORITY|||||||0.953|||||||Kruskal-Wallis|||Muscle Weakness||||0.953
92165071|NCT03979365|184218140|SUPERIORITY|||||||0.579|||||||Kruskal-Wallis|||Swollen Gums||||0.579
92405827|NCT04730271|184702000|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92165072|NCT03979365|184218140|SUPERIORITY|||||||0.513|||||||Kruskal-Wallis|||Increased Hair Growth||||0.513
92165073|NCT03979365|184218141|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.010
92165074|NCT03979365|184218144|SUPERIORITY|||||||0.836|||||||t-test, 2 sided|||||||0.836
92165075|NCT03979365|184218145|SUPERIORITY|||||||0.008|||||||Kruskal-Wallis|||||||0.008
92165076|NCT03979365|184218146|SUPERIORITY|||||||0.314|||||||Kruskal-Wallis|||Taste Change||||0.314
92165077|NCT03979365|184218146|SUPERIORITY|||||||0.486|||||||Kruskal-Wallis|||Appetite||||0.486
92165078|NCT03979365|184218146|SUPERIORITY|||||||0.452|||||||Kruskal-Wallis|||Constipation||||0.452
92165079|NCT03979365|184218146|SUPERIORITY|||||||0.75|||||||Kruskal-Wallis|||Diarrhea||||0.750
92165080|NCT03979365|184218146|SUPERIORITY|||||||0.764|||||||Kruskal-Wallis|||Swelling||||0.764
92165081|NCT03979365|184218146|SUPERIORITY|||||||0.726|||||||Kruskal-Wallis|||Palpitations||||0.726
92165082|NCT03979365|184218146|SUPERIORITY|||||||0.421|||||||Kruskal-Wallis|||Dry Skin||||0.421
92165083|NCT03979365|184218146|SUPERIORITY|||||||0.679|||||||Kruskal-Wallis|||Darker Skin||||0.679
92165084|NCT03979365|184218146|SUPERIORITY|||||||0.779|||||||Kruskal-Wallis|||Blurry Vision||||0.779
92165085|NCT03979365|184218146|SUPERIORITY|||||||0.533|||||||Kruskal-Wallis|||Headache||||0.533
92165086|NCT03979365|184218146|SUPERIORITY|||||||0.668|||||||Kruskal-Wallis|||Insomnia||||0.668
92165087|NCT03979365|184218146|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||Fatigue||||1.00
92165088|NCT03979365|184218146|SUPERIORITY|||||||0.232|||||||Kruskal-Wallis|||Anxiety||||0.232
92165089|NCT03979365|184218146|SUPERIORITY|||||||0.566|||||||Kruskal-Wallis|||Depression||||0.566
92165090|NCT03979365|184218146|SUPERIORITY|||||||0.038|||||||Kruskal-Wallis|||Sadness||||0.038
92165091|NCT03979365|184218147|SUPERIORITY|||||||0.754|||||||Kruskal-Wallis|||||||0.754
92165092|NCT03979365|184218149|SUPERIORITY|||||||0.371|||||||Kruskal-Wallis|||||||0.371
92165093|NCT03622593|184218210|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in adjusted means for the faricimab 6 mg Q8W and the active comparator (aflibercept 2 mg Q8W) arms was greater than -4 letters, then faricimab 6 mg Q8W was considered non-inferior to aflibercept 2 mg Q8W. Non-inferiority was tested one-sided at a significance level of α = 0.0248.|Adjusted mean difference|1.5|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|97.5|-0.1|3.2|||||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the non-inferiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||3.2|-0.1|
92401636|NCT00385671|184694210|SUPERIORITY_OR_OTHER|||||||0.679||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in total bilirubin.||||0.679
92165094|NCT03622593|184218210|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in adjusted means for the faricimab 6 mg PTI and the active comparator (aflibercept 2 mg Q8W) arms was greater than -4 letters, then faricimab 6 mg PTI was considered non-inferior to aflibercept 2 mg Q8W. Non-inferiority was tested one-sided at a significance level of α = 0.0248.|Adjusted mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|97.5|-1.1|2.1|||||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the non-inferiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||2.1|-1.1|
92165095|NCT03622593|184218210|SUPERIORITY||Adjusted mean difference|1.1|STANDARD_ERROR_OF_MEAN|0.83||0.1718|TWO_SIDED|97.5|-0.7|3.0||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||3.0|-0.7|0.1718
92223660|NCT04302727|184348451|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||Month 24||||0.97
92223661|NCT04302727|184348452|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Month 4||||0.29
92223662|NCT04302727|184348452|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
92223663|NCT04302727|184348452|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Month 12||||0.09
92223664|NCT04302727|184348453|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Month 4||||0.96
92223665|NCT04302727|184348453|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||Month 12||||0.77
92359067|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.08||0.076|TWO_SIDED|95.0|-0.01|0.29||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.29|-0.01|0.076
92359068|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.08||0.007|TWO_SIDED|95.0|0.06|0.37||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.37|0.06|0.007
92359069|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.26||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.26|-0.57|<0.001
92359070|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.25||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.25|-0.57|<0.001
92359071|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.45|-0.13||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.13|-0.45|<0.001
92359072|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.12|TWO_SIDED|95.0|-0.29|0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.29|0.120
92359073|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.126|TWO_SIDED|95.0|-0.29|0.04||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.04|-0.29|0.126
92359074|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.62|-0.3||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.30|-0.62|<0.001
92359075|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.25||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.25|-0.57|<0.001
92359076|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.08||0.003|TWO_SIDED|95.0|-0.41|-0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.08|-0.41|0.003
92223666|NCT04302727|184348453|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||Month 24||||0.94
92223667|NCT04302727|184348454|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Month 4||||0.55
92223668|NCT04302727|184348454|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||Month 12||||0.83
92223669|NCT04302727|184348454|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Month 24||||0.44
92223670|NCT04302727|184348455|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||Month 4||||0.99
92223671|NCT04302727|184348455|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||Month 12||||0.71
92359077|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.009|TWO_SIDED|95.0|-0.38|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-0.38|0.009
92359078|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.052|TWO_SIDED|95.0|-0.32|0.0||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.00|-0.32|0.052
92359079|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.25||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.25|-0.57|<0.001
92359080|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.48|-0.15||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.15|-0.48|<0.001
92359081|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.051|TWO_SIDED|95.0|-0.33|0.0||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.00|-0.33|0.051
92359082|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.08||0.003|TWO_SIDED|95.0|-0.41|-0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.08|-0.41|0.003
92359083|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.08||0.069|TWO_SIDED|95.0|-0.32|0.01||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.01|-0.32|0.069
92359084|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.24||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.24|-0.57|<0.001
92401637|NCT00385671|184694211|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in fasting blood glucose.||||0.047
92401638|NCT00385671|184694211|SUPERIORITY_OR_OTHER|||||||0.232||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in fasting blood glucose.||||0.232
92359085|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.53|-0.2||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.20|-0.53|<0.001
92359086|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.012|TWO_SIDED|95.0|-0.37|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-0.37|0.012
92401639|NCT00385671|184694211|SUPERIORITY_OR_OTHER|||||||0.424||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in fasting blood glucose.||||0.424
92401640|NCT00385671|184694212|SUPERIORITY_OR_OTHER|||||||0.298||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in hemoglobin A1C.||||0.298
92359087|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.02|TWO_SIDED|95.0|-0.36|-0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.03|-0.36|0.020
92359088|NCT00863304|184622681|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.064|TWO_SIDED|95.0|-0.32|0.01||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.01|-0.32|0.064
92359089|NCT03898180|184622735|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.4107|TWO_SIDED|95.0|0.72|1.14||Two-sided p-value based on log rank test stratified on chemotherapy ineligibility, programmed cell death ligand 1 (PD-L1) CPS, and ECOG performance status (PS).|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|||1.14|0.72|0.4107
92359090|NCT03898180|184622736|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.3505|TWO_SIDED|95.0|0.87|1.48||Two-sided p-value based on log rank test stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|||1.48|0.87|0.3505
92359091|NCT03898180|184622737|SUPERIORITY||Difference in Percentage|4.1|||||TWO_SIDED|95.0|-4.0|12.2|||||Based on Miettinen \& Nurminen method stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|||12.2|-4.0|
92405828|NCT04730271|184702001|SUPERIORITY|||||||0.633|||||||Chi-squared|||Comparison between the proportion of Robotic and Manual subjects who had a local adverse event within 1 year of the procedure.||||0.6330
92359092|NCT03898180|184622740|OTHER||Difference in least squares means|-3.07||||0.182|TWO_SIDED|95.0|-7.57|1.44||Two-sided p-value based on log rank test stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|cLDA model||Based on a constrained longitudinal data analysis (cLDA) model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|||1.44|-7.57|0.182
92359093|NCT03898180|184622741|OTHER||Hazard Ratio (HR)|1.64||||0.0005|TWO_SIDED|95.0|1.24|2.16||Two-sided p-value based on log rank test stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|||2.16|1.24|0.0005
92359094|NCT01472185|184622764|SUPERIORITY_OR_OTHER||difference in least squares mean (LSM)|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.36||P-value is from a mixed effects model including terms for baseline HbA1c value, treatment group, visit week, and treatment by visit week interaction. Unstructured covariance matrix was used.|Mixed Effects Model Analysis||The estimation (LSM) is of the placebo-corrected change from baseline.|Assuming a common standard deviation of 1.2%, an effective sample size of 400 would provide at least 90% power to detect a statistically significant treatment difference of -0.5% (ranolazine vs. placebo) for the reduction of HbA1c from baseline at Week 24 based on a 2-sided alpha of 0.05 and 1:1 randomization.||-0.36|-0.76|< 0.0001
92359095|NCT02958865|184622769|SUPERIORITY||Mean Difference (Final Values)|-2.03|STANDARD_ERROR_OF_MEAN|0.69||0.0017|TWO_SIDED|90.0|-3.17|-0.89|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there was no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm was declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect was below zero.||-0.89|-3.17|0.0017
92359096|NCT02958865|184622769|SUPERIORITY||Mean Difference (Final Values)|-3.88|STANDARD_ERROR_OF_MEAN|0.69|<|0.0001|TWO_SIDED|90.0|-5.01|-2.74|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there was no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm was declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect was below zero.||-2.74|-5.01|< 0.0001
92359097|NCT02958865|184622769|SUPERIORITY||Mean Difference (Final Values)|-4.61|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|90.0|-5.76|-3.46|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there was no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm was declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect was below zero.||-3.46|-5.76|< 0.0001
92359098|NCT02958865|184622769|SUPERIORITY||Mean Difference (Final Values)|-1.79|STANDARD_ERROR_OF_MEAN|0.68||0.0045|TWO_SIDED|90.0|-2.92|-0.67|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there is no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm is declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect is below zero.||-0.67|-2.92|0.0045
92359099|NCT02958865|184622769|SUPERIORITY||Mean Difference (Final Values)|-2.28|STANDARD_ERROR_OF_MEAN|0.69||0.0005|TWO_SIDED|90.0|-3.41|-1.14|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there was no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm was declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect was below zero.||-1.14|-3.41|0.0005
92359100|NCT02958865|184622769|SUPERIORITY||Mean Difference (Final Values)|-3.21|STANDARD_ERROR_OF_MEAN|0.69|<|0.0001|TWO_SIDED|90.0|-4.34|-2.08|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there was no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm was declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect was below zero.||-2.08|-4.34|< 0.0001
92359101|NCT02958865|184622786|SUPERIORITY||Mean Difference (Final Values)|9.8||||0.0626|TWO_SIDED|90.0|-1.0|19.5|||Chan and Zhang method|||||19.5|-1.0|0.0626
92359102|NCT02958865|184622786|SUPERIORITY||Mean Difference (Final Values)|28.6||||0.0027|TWO_SIDED|90.0|13.9|41.0|||Chan and Zhang method|||||41.0|13.9|0.0027
92401641|NCT00385671|184694212|SUPERIORITY_OR_OTHER|||||||0.987||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in hemoglobin A1C.||||0.987
92359103|NCT02958865|184622786|SUPERIORITY||Mean Difference (Final Values)|34.0||||0.001|TWO_SIDED|90.0|20.2|46.5|||Chan and Zhang Method|||||46.5|20.2|0.0010
92359104|NCT02958865|184622786|SUPERIORITY||Mean Difference (Final Values)|8.3||||0.0774|TWO_SIDED|90.0|-4.0|18.1|||Chan and Zhang method|||||18.1|-4.0|0.0774
92359105|NCT02958865|184622786|SUPERIORITY||Mean Difference (Final Values)|23.4||||0.0055|TWO_SIDED|90.0|8.2|35.8|||Chan and Zhang method|||||35.8|8.2|0.0055
92359106|NCT02958865|184622786|SUPERIORITY||Mean Difference (Final Values)|23.4||||0.0055|TWO_SIDED|90.0|8.2|35.8|||Chan and Zhang method|||||35.8|8.2|0.0055
92359107|NCT02958865|184622787|SUPERIORITY||Mean Difference (Final Values)|21.6||||0.0111|TWO_SIDED|90.0|5.6|33.2|||Chan and Zhang method|||||33.2|5.6|0.0111
92359108|NCT02958865|184622787|SUPERIORITY||Mean Difference (Final Values)|34.7||||0.0006|TWO_SIDED|90.0|20.2|47.4|||Chan and Zhang method|||||47.4|20.2|0.0006
92359109|NCT02958865|184622787|SUPERIORITY||Mean Difference (Final Values)|42.0||||0.0001|TWO_SIDED|90.0|29.5|54.6|||Chan and Zhang Method|||||54.6|29.5|0.0001
92359110|NCT02958865|184622787|SUPERIORITY||Mean Difference (Final Values)|20.8||||0.0101|TWO_SIDED|90.0|5.6|33.0|||Chan and Zhang method|||||33.0|5.6|0.0101
92359111|NCT02958865|184622787|SUPERIORITY||Mean Difference (Final Values)|31.9||||0.0014|TWO_SIDED|90.0|17.0|44.8|||Chan and Zhang method|||||44.8|17.0|0.0014
92359112|NCT02958865|184622787|SUPERIORITY||Mean Difference (Final Values)|29.8||||0.0015|TWO_SIDED|90.0|17.0|42.6|||Chan and Zhang method|||||42.6|17.0|0.0015
92359113|NCT02958865|184622788|SUPERIORITY||Mean Difference (Final Values)|17.2||||0.0788|TWO_SIDED|90.0|-3.4|34.4|||Chan and Zhang method|||||34.4|-3.4|0.0788
92223672|NCT04302727|184348455|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Month 24||||0.44
92223673|NCT04302727|184348456|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||Month 4||||0.05
92359114|NCT02958865|184622788|SUPERIORITY||Mean Difference (Final Values)|45.4||||0.0002|TWO_SIDED|90.0|23.6|62.1|||Chan and Zhang method|||||62.1|23.6|0.0002
92359115|NCT02958865|184622788|SUPERIORITY||Mean Difference (Final Values)|44.0||||0.0003|TWO_SIDED|90.0|23.5|60.5|||Chan and Zhang Method|||||60.5|23.5|0.0003
92359116|NCT02958865|184622788|SUPERIORITY||Mean Difference (Final Values)|17.7||||0.0773|TWO_SIDED|90.0|-4.0|35.1|||Chan and Zhang method|||||35.1|-4.0|0.0773
92359117|NCT02958865|184622788|SUPERIORITY||Mean Difference (Final Values)|29.2||||0.0136|TWO_SIDED|90.0|5.6|47.0|||Chan and Zhang method|||||47.0|5.6|0.0136
92359118|NCT02958865|184622788|SUPERIORITY||Mean Difference (Final Values)|37.7||||0.0015|TWO_SIDED|90.0|13.9|54.7|||Chan and Zhang method|||||54.7|13.9|0.0015
92359119|NCT02958865|184622789|SUPERIORITY||Mean Difference (Final Values)|3.9||||0.2259|TWO_SIDED|90.0|-6.5|11.8|||Chan and Zhang method|||||11.8|-6.5|0.2259
92359120|NCT02958865|184622789|SUPERIORITY||Mean Difference (Final Values)|8.2||||0.082|TWO_SIDED|90.0|-3.8|17.7|||Chan and Zhang method|||||17.7|-3.8|0.0820
92359121|NCT02958865|184622789|SUPERIORITY||Mean Difference (Final Values)|12.0||||0.0649|TWO_SIDED|90.0|-0.7|22.3|||Chan and Zhang Method|||||22.3|-0.7|0.0649
92223674|NCT04302727|184348456|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||Month 12||||0.42
92223675|NCT04302727|184348456|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Month 24||||0.02
92276686|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.51||||0.0156|TWO_SIDED|95.0|1.08|2.11|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.11|1.08|0.0156
92223676|NCT04302727|184348457|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Month 4||||0.10
92359122|NCT02958865|184622789|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.3777|TWO_SIDED|90.0|-8.6|9.7|||Chan and Zhang method|||||9.7|-8.6|0.3777
92359123|NCT02958865|184622789|SUPERIORITY||Mean Difference (Final Values)|17.0||||0.0212|TWO_SIDED|90.0|2.9|28.6|||Chan and Zhang method|||||28.6|2.9|0.0212
92359124|NCT02958865|184622789|SUPERIORITY||Mean Difference (Final Values)|8.5||||0.0742|TWO_SIDED|90.0|-4.2|18.4|||Chan and Zhang method|||||18.4|-4.2|0.0742
92359125|NCT02958865|184622790|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.0872|TWO_SIDED|90.0|-3.4|17.1|||Chan and Zhang method|||||17.1|-3.4|0.0872
92359126|NCT02958865|184622790|SUPERIORITY||Mean Difference (Final Values)|16.3||||0.0254|TWO_SIDED|90.0|3.0|27.5|||Chan and Zhang method|||||27.5|3.0|0.0254
92223677|NCT04302727|184348457|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||Month 12||||0.56
92223678|NCT04302727|184348457|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
92223679|NCT04302727|184348458|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Month 4, comparison performed on log base 2 transformation of fluorescence data.||||0.96
92223680|NCT04302727|184348458|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||Month 12, comparison performed on log base 2 transformation of fluorescence data.||||0.88
92223681|NCT04302727|184348458|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Month 24, comparison performed on log base 2 transformation of fluorescence data.||||0.29
92223682|NCT04302727|184348459|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Month 4, comparison performed on log base 2 transformation of fluorescence data.||||0.82
92223683|NCT04302727|184348459|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||Month 12, comparison performed on log base 2 transformation of fluorescence data.||||0.25
92223684|NCT04302727|184348459|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Month 24, comparison performed on log base 2 transformation of fluorescence data.||||0.48
92223685|NCT04302727|184348460|SUPERIORITY|||||||0.0007|||||||t-test, 2 sided|||Month 4||||0.0007
92359127|NCT02958865|184622790|SUPERIORITY||Mean Difference (Final Values)|26.0||||0.0034|TWO_SIDED|90.0|11.0|38.1|||Chan and Zhang Method|||||38.1|11.0|0.0034
92359128|NCT02958865|184622790|SUPERIORITY||Mean Difference (Final Values)|6.3||||0.1565|TWO_SIDED|90.0|-4.5|15.4|||Chan and Zhang method|||||15.4|-4.5|0.1565
92359129|NCT02958865|184622790|SUPERIORITY||Mean Difference (Final Values)|14.9||||0.0288|TWO_SIDED|90.0|1.7|26.2|||Chan and Zhang method|||||26.2|1.7|0.0288
92359130|NCT02958865|184622790|SUPERIORITY||Mean Difference (Final Values)|14.9||||0.0288|TWO_SIDED|90.0|1.7|26.2|||Chan and Zhang method|||||26.2|1.7|0.0288
92359131|NCT02958865|184622791|SUPERIORITY||Mean Difference (Final Values)|3.9||||0.2259|TWO_SIDED|90.0|-6.5|11.8|||Chan and Zhang method|||||11.8|-6.5|0.2259
92359132|NCT02958865|184622791|SUPERIORITY||Mean Difference (Final Values)|8.2||||0.082|TWO_SIDED|90.0|-3.8|17.7|||Chan and Zhang method|||||17.7|-3.8|0.0820
92359133|NCT02958865|184622791|SUPERIORITY||Mean Difference (Final Values)|12.0||||0.0649|TWO_SIDED|90.0|-0.7|22.3|||Chan and Zhang Method|||||22.3|-0.7|0.0649
92359134|NCT02958865|184622791|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|90.0|-11.3|6.1|||Chan and Zhang method|||||6.1|-11.3|1.0000
92359135|NCT02958865|184622791|SUPERIORITY||Mean Difference (Final Values)|14.9||||0.0288|TWO_SIDED|90.0|1.7|26.2|||Chan and Zhang method|||||26.2|1.7|0.0288
92359136|NCT02958865|184622791|SUPERIORITY||Mean Difference (Final Values)|6.4||||0.1593|TWO_SIDED|90.0|-4.4|15.7|||Chan and Zhang method|||||15.7|-4.4|0.1593
92359137|NCT00209131|184622814|NON_INFERIORITY_OR_EQUIVALENCE||||||<|0.05||95.0|||||Other|||No analysis was conducted.||||<0.05
92359138|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.78|||||TWO_SIDED|95.0|0.66|0.92||||||Serotype 1: the ratio of GMT (GMR) (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.92|0.66|
92359139|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.89|||||TWO_SIDED|95.0|0.79|0.99||||||Serotype 3: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.99|0.79|
92405829|NCT04730271|184702001|SUPERIORITY|||||||0.04|||||||Fisher Exact|||Comparison between the proportion of Robotic and Manual subjects who had a serious local adverse event within 1 year of the procedure.||||0.0400
92223686|NCT04302727|184348460|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||Month 12||||0.51
92223687|NCT04302727|184348460|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|||Month 24||||0.91
92223688|NCT04302727|184348461|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||Month 4||||0.83
92276687|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.22||||0.1689|TWO_SIDED|95.0|0.92|1.63|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.63|0.92|0.1689
92276688|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.37||||0.0231|TWO_SIDED|95.0|1.04|1.8|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.80|1.04|0.0231
92359140|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.79|||||TWO_SIDED|95.0|0.67|0.94||||||Serotype 4: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.94|0.67|
92359141|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.77|||||TWO_SIDED|95.0|0.65|0.91||||||Serotype 5: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.91|0.65|
92359142|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.87|||||TWO_SIDED|95.0|0.73|1.05||||||Serotype 6A: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.05|0.73|
92359143|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.91|||||TWO_SIDED|95.0|0.77|1.08||||||Serotype 6B: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.08|0.77|
92401642|NCT00385671|184694212|SUPERIORITY_OR_OTHER|||||||0.297||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in hemoglobin A1C.||||0.297
92401643|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated AST values.||||1.00
92223689|NCT04302727|184348461|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||Month 12||||0.68
92223690|NCT04302727|184348461|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||Month 24||||0.64
92223691|NCT04302727|184348462|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Month 4||||<0.0001
92223692|NCT04302727|184348462|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Month 12||||<0.0001
92223693|NCT04302727|184348462|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||Month 24||||0.005
92223694|NCT04302727|184348463|SUPERIORITY|||||||0.92||||||Month 4|Wilcoxon (Mann-Whitney)|||||||0.92
92223695|NCT04302727|184348463|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Month 12||||0.40
92359144|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.84|||||TWO_SIDED|95.0|0.75|0.93||||||Serotype 7F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.93|0.75|
92359145|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.88|||||TWO_SIDED|95.0|0.76|1.02||||||Serotype 9V: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.02|0.76|
92405830|NCT04730271|184702001|SUPERIORITY|||||||0.4079|||||||Chi-squared|||Comparison between the proportion of Robotic and Manual subjects who had a local adverse event within 90 days of the procedure.||||0.4079
92223696|NCT04302727|184348463|SUPERIORITY|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Month 24||||0.82
92223697|NCT04302727|184348464|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Month 4||||0.44
92223698|NCT04302727|184348464|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Month 12||||0.03
92223699|NCT04302727|184348464|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Month 24||||0.28
92223700|NCT04302727|184348465|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||Month 4||||0.32
92223701|NCT04302727|184348465|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Month 12||||0.03
92223702|NCT04302727|184348465|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||Month 24||||0.005
92223703|NCT04302727|184348466|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Month 4||||0.10
92223704|NCT04302727|184348466|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Month 12||||0.16
92223705|NCT04302727|184348466|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||Month 24||||0.27
92223706|NCT04302727|184348467|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Month 4||||0.10
92223707|NCT04302727|184348467|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Month 12||||0.01
92223708|NCT04302727|184348467|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||Month 24||||0.06
92223709|NCT04302727|184348468|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||Month 4||||0.41
92223710|NCT04302727|184348468|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||Month 12||||0.24
92223711|NCT04302727|184348468|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||Month 24||||0.74
92223712|NCT04302727|184348469|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||Month 4||||0.13
92223713|NCT04302727|184348469|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Month 12||||0.10
92359146|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|1.09|||||TWO_SIDED|95.0|0.92|1.29||||||Serotype 14: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.29|0.92|
92359147|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.73|||||TWO_SIDED|95.0|0.62|0.85||||||Serotype 18C: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.85|0.62|
92359148|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.74|||||TWO_SIDED|95.0|0.63|0.86||||||Serotype 19A: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.86|0.63|
92359149|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.64|||||TWO_SIDED|95.0|0.53|0.76||||||Serotype 19F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.76|0.53|
92359150|NCT04875533|184622821|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.8|||||TWO_SIDED|95.0|0.65|0.99||||||Serotype 23F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.99|0.65|
92359151|NCT04875533|184622822|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|0.58|||||TWO_SIDED|95.0|0.5|0.67||||||Serotype 8: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.67|0.50|
92401644|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.749||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated AST values.||||0.749
92401645|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.75||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated AST values.||||0.750
92401646|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated ALT values.||||0.050
92223714|NCT04302727|184348469|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||Month 24||||0.12
92223715|NCT04302727|184348470|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Month 4||||0.002
92223716|NCT04302727|184348470|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Month 12||||<0.001
92223717|NCT04302727|184348470|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Month 24||||<0.001
92227182|NCT01727258|184356486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|2.86||0.964|TWO_SIDED|95.0|-5.52|5.78||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||5.78|-5.52|0.964
92227183|NCT01727258|184356486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.85|STANDARD_ERROR_OF_MEAN|2.845||0.017|TWO_SIDED|95.0|-12.47|-1.23||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-1.23|-12.47|0.017
92359152|NCT04875533|184622822|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|2.14|||||TWO_SIDED|95.0|1.8|2.53||||||Serotype 10A: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||2.53|1.80|
92359153|NCT04875533|184622822|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|1.72|||||TWO_SIDED|95.0|1.44|2.06||||||Serotype 11A: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||2.06|1.44|
92401647|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated ALT values.||||0.320
92405831|NCT04730271|184702001|SUPERIORITY|||||||0.1262|||||||Chi-squared|||Comparison between the proportion of Robotic and Manual subjects who had a local serious adverse event within 90 days of the procedure.||||0.1262
92405832|NCT04730271|184702003|SUPERIORITY|||||||0.6662|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.6662
92405833|NCT04730271|184702003|SUPERIORITY|||||||0.8154|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.8154
92405834|NCT04730271|184702004|SUPERIORITY|||||||0.0165|||||||t-test, 2 sided|||Comparison of FJS at 12 weeks||||0.0165
92223718|NCT04418765|184348511|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-3.9|-2.5||Testing continued only, if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 1 of testing order.|Mixed Models Analysis|||Analysis was performed using a restricted maximum likelihood (REML)-based mixed model for repeated measurements (MMRM) with month (Weeks 1-4, 5-8, 9-12, 13-16, 17-20, 21-24), country, stratification factor (monthly MHDs at baseline: ≤14/\>14) and treatment as factors, baseline score as a continuous covariate, treatment-by-month interaction, baseline score-by-month interaction, and stratum-by-month interaction. A testing strategy was applied to ensure protection of the type 1 error.||-2.5|-3.9|<0.0001
92223719|NCT04418765|184348511|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-3.4|-2.0||Testing continued only, if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 3 of testing order.|Mixed Models Analysis|||"Analysis was performed using an REML-based MMRM with month (Weeks 1-4, Weeks 5-8, Weeks 9-12, Weeks 13-16, Weeks 17-20, Weeks 21-24), country, stratification factor (monthly MHDs at baseline: ≤14/\>14) and treatment as factors, baseline score as a continuous covariate, treatment-by-month interaction, baseline score-by-month interaction, and stratum-by-month interaction.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error."||-2.0|-3.4|<0.0001
92227184|NCT01727258|184356487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.92|STANDARD_ERROR_OF_MEAN|3.327||0.039|TWO_SIDED|95.0|-13.5|-0.35||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.35|-13.50|0.039
92165096|NCT03622593|184218210|SUPERIORITY||Adjusted mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.82||0.4602|TWO_SIDED|97.5|-1.2|2.4||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||2.4|-1.2|0.4602
92276689|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.4||||0.0175|TWO_SIDED|95.0|1.06|1.84|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.84|1.06|0.0175
92359154|NCT04875533|184622822|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|1.68|||||TWO_SIDED|95.0|1.39|2.04||||||Serotype 12F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||2.04|1.39|
92359155|NCT04875533|184622822|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|2.13|||||TWO_SIDED|95.0|1.72|2.64||||||Serotype 15B: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||2.64|1.72|
92359156|NCT04875533|184622822|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|1.62|||||TWO_SIDED|95.0|1.33|1.98||||||Serotype 22F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.98|1.33|
92359157|NCT04875533|184622822|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|1.14|||||TWO_SIDED|95.0|0.97|1.34||||||Serotype 33F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.34|0.97|
92359158|NCT02702999|184622839|SUPERIORITY||Risk Ratio (RR)|3.9|||||TWO_SIDED|95.0|0.9|18.0|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||18.0|0.9|
92359159|NCT02702999|184622840|SUPERIORITY||Risk Ratio (RR)|3.9|||||TWO_SIDED|95.0|0.9|18.0|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||18.0|0.9|
92359160|NCT02702999|184622841|SUPERIORITY||Risk Ratio (RR)|1.9|||||TWO_SIDED|95.0|0.4|10.5|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||10.5|0.4|
92359161|NCT02702999|184622842|SUPERIORITY||Risk Ratio (RR)|5.4|||||TWO_SIDED|95.0|1.2|23.7|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||23.7|1.2|
92359162|NCT02702999|184622843|SUPERIORITY||Risk Ratio (RR)|0.2|||||TWO_SIDED|95.0|0.03|2.1|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||2.1|0.03|
92223720|NCT04418765|184348512|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Odds Ratio (OR)|6.58|||<|0.0001|TWO_SIDED|95.0|4.41|10.01||Testing continued only, if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 2 of testing order.|Regression, Logistic|||"Analysis was performed using logistic regression model including baseline MMDs as a continuous covariate, and treatment and stratification factor (MHD at baseline: ≤14/\>14) as factors.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error."||10.01|4.41|<0.0001
92401648|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.44||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated ALT values.||||0.440
92401649|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||P-value is for TBili. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated TBili values.||||0.498
92401650|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.245||95.0||||P-value is for TBili. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated TBili values.||||0.245
92359163|NCT02702999|184622844|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.4|2.3|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||2.3|0.4|
92359164|NCT01299961|184622845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.4|STANDARD_DEVIATION|13.1|<|0.01|TWO_SIDED||||||t-test, 2 sided|||Most involved side: Synovitis (S), tenosynovitis (T), and power Doppler (PD) of wrist (dorsal (D), palmar (P), and ulnar (U)); S and T of MCP 2,3 (P, plus D for T); PD of the MCP joints (P and D); S and PD of PIP 2, 3 (P, plus D for PD); S and PD for MTP 2, 4 (D). S and PD graded from 0 to 3, and max individual scores are 27 and 39, respectively. T graded on 0-1 scale; max T score is 5. High score is worse. The 7-joint US score is sum of T, S, and PD scores. Change calculated baseline- month 12.||||<0.01
92359165|NCT01299961|184622846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|3.7|<|0.01|TWO_SIDED||||||t-test, 2 sided|||7 joints were scanned by power doppler ultra sound of the most affected side: wrist, MCP 2/3, PIP 2/3, and MTP 2/5. PDUS was scored semi-quantitatively on a scale of 0-3 (higher score is worse). The mean score of the 2-3 views obtained for each joint was added across all 7 joints, and the total PDUS (range 0-21) scores were calculated. The change from baseline to 12 months is calculated as the baseline PDUS minus 12 month PDUS.||||<0.01
92359166|NCT01299961|184622847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|3.7||0.19|TWO_SIDED||||||t-test, 2 sided|||7 joints were scanned by grey-scale ultra sound of the most affected side: wrist, MCP 2/3, PIP 2/3, and MTP 2/5. GSUS was scored semi-quantitatively on a scale of 0-3 (higher score is worse). The mean score of the 2-3 views obtained for each joint was added across all 7 joints, and the total GSUS (range 0-21) scores were calculated. The change from baseline to 12 months is calculated as the baseline GSUS minus 12 month GSUS.||||0.19
92359167|NCT02904096|184622848|NON_INFERIORITY|Estimates for PA, PB, and PA-PB were reported together with one-sided 95% confidence interval (CI) for PA-PB constructed via the Farrington-Manning likelihood method. Here PA and PB are the percentage of subjects in Group A and B (Non-inferiority margin = 12%).|Difference in percentage|1.5|||||ONE_SIDED|95.0||3.35||||||||3.35||
92359168|NCT02904096|184622849|OTHER||Difference in Percentage|1.5|||||ONE_SIDED|95.0||3.35||||||||3.35||
92359169|NCT02904096|184622850|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Flexion (Left Hand)-baseline and Group A: Flexion (Left Hand)-change from baseline at Month 24.||||<.001
92359170|NCT02904096|184622850|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Flexion (Right Hand)-baseline and Group A: Flexion (Right Hand)-change from baseline at Month 24.||||<.001
92359171|NCT02904096|184622850|OTHER|||||||0.054|||||||t-test, 1 sided|||Comparison between Group B: Flexion (Left Hand)-baseline and Group B: Flexion (Left Hand)-change from baseline at Month 24.||||.054
92359172|NCT02904096|184622850|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Flexion (Right Hand)-baseline and Group B: Flexion (Right Hand)-change from baseline at Month 24.||||<.001
92359173|NCT02904096|184622850|OTHER|||||||0.049|||||||t-test, 1 sided|||Comparison between Group A: Extension (Left Hand)-baseline and Group A: Extension (Left Hand)-change from baseline at Month 24.||||.049
92359174|NCT02904096|184622850|OTHER|||||||0.003|||||||t-test, 1 sided|||Comparison between Group A: Extension (Right Hand)-baseline and Group A: Extension (Right Hand)-change from baseline at Month 24.||||.003
92359175|NCT02904096|184622850|OTHER|||||||0.781|||||||t-test, 1 sided|||Comparison between Group B: Extension (Left Hand)-baseline and Group B: Extension (Left Hand)-change from baseline at Month 24.||||.781
92359176|NCT02904096|184622850|OTHER|||||||0.573|||||||t-test, 1 sided|||Comparison between Group B: Extension (Right Hand)-baseline and Group B: Extension (Right Hand)-change from baseline at Month 24.||||.573
92359177|NCT02904096|184622851|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: (Left Hand)-baseline and Group A: (Left Hand)-change from baseline at Month 24.||||<.001
92401651|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated GGT values.||||0.160
92405835|NCT04730271|184702004|SUPERIORITY|||||||0.1331|||||||t-test, 2 sided|||Comparison of FJS at 1 year||||0.1331
92359178|NCT02904096|184622851|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: (Right Hand)-baseline and Group A: (Right Hand)-change from baseline at Month 24.||||<.001
92359179|NCT02904096|184622851|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: (Left Hand)-baseline and Group B: (Left Hand)-change from baseline at Month 24.||||<.001
92359180|NCT02904096|184622851|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: (Right Hand)-baseline and Group B: (Right Hand)-change from baseline at Month 24.||||<.001
92359181|NCT02904096|184622852|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: (Left Hand)-baseline and Group A: (Left Hand)-change from baseline at Month 24.||||<.001
92359182|NCT02904096|184622852|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: (Right Hand)-baseline and Group A: (Right Hand)-change from baseline at Month 24.||||<.001
92359183|NCT02904096|184622852|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: (Left Hand)-baseline and Group B: (Left Hand)-change from baseline at Month 24.||||<.001
92359184|NCT02904096|184622852|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: (Right Hand)-baseline and Group B: (Right Hand)-change from baseline at Month 24.||||<.001
92359185|NCT02904096|184622853|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand grip strength (Left Hand)-baseline and Group A: Hand grip strength (Left Hand)-change from baseline at Month 24.||||<.001
92359186|NCT02904096|184622853|OTHER|||||||0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand grip strength (Right Hand)-baseline and Group A: Hand grip strength (Right Hand)-change from baseline at Month 24.||||.001
92359187|NCT02904096|184622853|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Hand grip strength (Left Hand)-baseline and Group B: Hand grip strength (Left Hand)-change from baseline at Month 24.||||<.001
92401652|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated GGT values.||||0.280
92401653|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated GGT values.||||1.00
92401654|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value is for FPG. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated FPG values.||||0.023
92359188|NCT02904096|184622853|OTHER|||||||0.002|||||||t-test, 1 sided|||Comparison between Group B: Hand grip strength (Right Hand)-baseline and Group B: Hand grip strength (Right Hand)-change from baseline at Month 24.||||.002
92359189|NCT02904096|184622853|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand tip pinch strength (Left Hand)-baseline and Group A: Hand tip pinch strength (Left Hand)-change from baseline at Month 24.||||<.001
92359190|NCT02904096|184622853|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand tip pinch strength (Right Hand)-baseline and Group A: Hand tip pinch strength (Right Hand)-change from baseline at Month 24.||||<.001
92359191|NCT02904096|184622853|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Hand tip pinch strength (Left Hand)-baseline and Group B: Hand tip pinch strength (Left Hand)-change from baseline at Month 24.||||<.001
92359192|NCT02904096|184622853|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Hand tip pinch strength (Right Hand)-baseline and Group B: Hand tip pinch strength (Right Hand)-change from baseline at Month 24.||||<.001
92359193|NCT02904096|184622853|OTHER|||||||0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand key pinch strength (Left Hand)-baseline and Group A: Hand key pinch strength (Left Hand)-change from baseline at Month 24.||||.001
92359194|NCT02904096|184622853|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand key pinch strength (Right Hand)-baseline and Group A: Hand key pinch strength (Right Hand)-change from baseline at Month 24.||||<.001
92359195|NCT02904096|184622853|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Hand key pinch strength (Left Hand)-baseline and Group B: Hand key pinch strength (Left Hand)-change from baseline at Month 24.||||<.001
92359196|NCT02904096|184622853|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Hand key pinch strength (Right Hand)-baseline and Group B: Hand key pinch strength (Right Hand)-change from baseline at Month 24.||||<.001
92359197|NCT02904096|184622853|OTHER|||||||0.01|||||||t-test, 1 sided|||Comparison between Group A: Hand palmar pinch strength (Left Hand)-baseline and Group A: Hand palmar pinch strength (Left Hand)-change from baseline at Month 24.||||.010
92359198|NCT02904096|184622853|OTHER|||||||0.06|||||||t-test, 1 sided|||Comparison between Group A: Hand palmar pinch strength (Right Hand)-baseline and Group A: Hand palmar pinch strength (Right Hand)-change from baseline at Month 24.||||.060
92359199|NCT02904096|184622853|OTHER|||||||0.177|||||||t-test, 1 sided|||Comparison between Group B: Hand palmar pinch strength (Left Hand)-baseline and Group B: Hand palmar pinch strength (Left Hand)-change from baseline at Month 24.||||.177
92359200|NCT02904096|184622853|OTHER|||||||0.177|||||||t-test, 1 sided|||Comparison between Group B: Hand palmar pinch strength (Right Hand)-baseline and Group B: Hand palmar pinch strength (Right Hand)-change from baseline at Month 24.||||.177
92359201|NCT01441492|184622866|OTHER|||||||0.804|||||||Chi-squared|||the study is powered to be able to detect a 15% difference in the ≥ Grade II complication rate between the drain and no drain groups. A total of 342 evaluable patients will be needed for the two study groups (n=171 per group) in order to achieve 80% power to detect a 15% increase or decrease in the complication rate with a significance level of 0.05.||||0.804
92401655|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.264||95.0||||P-value is for FPG. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated FPG values.||||0.264
92223721|NCT04418765|184348512|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Odds Ratio (OR)|4.91|||<|0.0001|TWO_SIDED|95.0|3.29|7.47||Testing continued only, if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 4 of testing order.|Regression, Logistic|||"Analysis was performed using logistic regression model including baseline MMDs as a continuous covariate, and treatment and stratification factor (MHD at baseline: ≤14/\>14) as factors.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error."||7.47|3.29|<0.0001
92223722|NCT04418765|184348513|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-4.5|-3.0||Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 5a of testing order.|Mixed Models Analysis|Testing continued only, if the previous comparison was statistically significant.||"Analysis was performed using an REML-based MMRM with month (Weeks 1-4, Weeks 5-8, Weeks 9-12, Weeks 13-16, Weeks 17-20, Weeks 21-24), country, stratification factor (monthly MHDs at baseline: ≤14/\>14) and treatment as factors, baseline score as a continuous covariate, treatment-by-month interaction, baseline score-by-month interaction, and stratum-by-month interaction.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error."||-3.0|-4.5|<0.0001
92227185|NCT01727258|184356487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.06|STANDARD_ERROR_OF_MEAN|3.317||0.13|TWO_SIDED|95.0|-1.5|11.61||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||11.61|-1.50|0.130
92359202|NCT01107496|184622892|SUPERIORITY||Median Difference (Net)|6.0||||0.0414|TWO_SIDED|95.0|1.0|12.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 6 data.||12.00|1.00|0.0414
92359203|NCT01107496|184622893|SUPERIORITY||Median Difference (Net)|3.0||||0.0803|TWO_SIDED|95.0|0.0|7.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 1 data.||7.00|0.00|0.0803
92359204|NCT01107496|184622894|SUPERIORITY||Median Difference (Net)|0.0||||0.5308|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||This analysis pertains to Week 1 data.||1.00|-1.00|0.5308
92359205|NCT01107496|184622894|SUPERIORITY||Median Difference (Net)|-1.0||||0.2032|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis pertains to Week 2 data.||0.00|-2.00|0.2032
92359206|NCT01107496|184622894|SUPERIORITY||Median Difference (Net)|-1.0||||0.0677|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis pertains to Week 3 data.||0.00|-2.00|0.0677
92359207|NCT01107496|184622894|SUPERIORITY||Median Difference (Net)|-1.0||||0.0743|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis pertains to Week 4 data.||0.00|-2.00|0.0743
92401656|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||P-value is for FPG. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated FPG values.||||0.325
92401657|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for HbA1C. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated HbA1C values.||||1.00
92359208|NCT01107496|184622894|SUPERIORITY||Median Difference (Net)|-1.0||||0.0437|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis pertains to Week 5 data.||0.00|-2.00|0.0437
92359209|NCT01107496|184622894|SUPERIORITY||Median Difference (Net)|-1.0||||0.1209|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 6 data.||0.00|-2.00|0.1209
92359210|NCT01107496|184622895|SUPERIORITY||Median Difference (Net)|1.0||||0.6022|TWO_SIDED|95.0|-4.0|6.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 2 data.||6.00|-4.00|0.6022
92359211|NCT01107496|184622895|SUPERIORITY||Median Difference (Net)|-4.0||||0.0794|TWO_SIDED|95.0|-10.0|1.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 3 data.||1.00|-10.0|0.0794
92359212|NCT01107496|184622895|SUPERIORITY||Median Difference (Net)|-6.0||||0.0747|TWO_SIDED|95.0|-10.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 4 data.||0.00|-10.0|0.0747
92359213|NCT01107496|184622895|SUPERIORITY||Median Difference (Net)|-6.5||||0.0545|TWO_SIDED|95.0|-12.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 5 data.||0.00|-12.0|0.0545
92359214|NCT01107496|184622896|SUPERIORITY||Median Difference (Net)|7.0||||0.0349|TWO_SIDED|95.0|1.0|13.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 6 data.||13.00|1.00|0.0349
92359215|NCT01107496|184622897|SUPERIORITY||Median Difference (Net)|-0.5||||0.4038|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Analysis pertains to Week 1 data||0.00|-1.00|0.4038
92359216|NCT01107496|184622897|SUPERIORITY||Median Difference (Net)|-0.5||||0.446|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Analysis pertains to Week 2 data||0.00|-1.00|0.4460
92359217|NCT01107496|184622897|SUPERIORITY||Median Difference (Net)|-0.5||||0.0549|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Analysis pertains to Week 3 data||0.00|-1.00|0.0549
92359218|NCT01107496|184622897|SUPERIORITY||Median Difference (Net)|-0.5||||0.0759|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Analysis pertains to Week 4 data||0.00|-1.00|0.0759
92401658|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.121||95.0||||P-value is for HbA1C. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated HbA1C values.||||0.121
92359219|NCT01107496|184622897|SUPERIORITY||Median Difference (Net)|-0.5||||0.0342|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Analysis pertains to Week 5 data||0.00|-1.00|0.0342
92223723|NCT04418765|184348513|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-3.8|-2.2||Threshold for significance: The consecutive order of the smallest (p1), the second smallest (p2), and the largest p-value (p3) had to be \<α/3, \<α/2, and \<α, where α = 0.05. Here it is test no. 6a of testing order.|Mixed Models Analysis|Testing continued only, if the previous comparison was statistically significant.||"Analysis was performed using an REML-based MMRM with month (Weeks 1-4, Weeks 5-8, Weeks 9-12, Weeks 13-16, Weeks 17-20, Weeks 21-24), country, stratification factor (monthly MHDs at baseline: ≤14/\>14) and treatment as factors, baseline score as a continuous covariate, treatment-by-month interaction, baseline score-by-month interaction, and stratum-by-month interaction.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error."||-2.2|-3.8|<0.0001
92359220|NCT01107496|184622897|SUPERIORITY||Median Difference (Net)|-1.0||||0.0474|TWO_SIDED||||||Wilcoxon rank-sum test|||Analysis pertains to Week 6 data||||0.0474
92359221|NCT02496000|184622900|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0117|||||||Kruskal-Wallis|ANOVA model on the ranks||This outcome measure requires that the the mean differences of ORMD-0801 in each of the two arms be pooled.||||0.0117
92359222|NCT01877278|184622905|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92359223|NCT01877278|184622905|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>0.05
92359224|NCT01877278|184622906|SUPERIORITY_OR_OTHER||||||=|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||=0.0001
92359225|NCT01877278|184622906|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>0.05
92359226|NCT01969058|184622907|SUPERIORITY|||||||0.03||||||Not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two arms in the change in T-cell activation from baseline to week 14/16.||||0.030
92359227|NCT04262479|184622949|OTHER||||||||||||||||||Counting number of events.|||
92359228|NCT04262479|184622950|OTHER||||||||||||||||||Counting number of events|||
92359229|NCT04262479|184622951|OTHER||||||<|0.001||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.001
92359230|NCT04262479|184622952|OTHER||||||<|0.05||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.05
92359231|NCT04262479|184622953|OTHER||||||<|0.61||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.61
92359232|NCT04262479|184622954|OTHER||||||<|0.3||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.30
92359233|NCT04262479|184622955|OTHER||||||<|0.002||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.002
92359234|NCT04262479|184622956|OTHER||||||<|0.72||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.72
92359235|NCT04262479|184622957|OTHER||||||<|0.03||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.03
92359236|NCT04262479|184622958|OTHER||||||<|0.044||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.044
92359237|NCT00791648|184622997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|||||||Pearson x2|||||||.75
92359238|NCT00791648|184622998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||||||.56
92359239|NCT00791648|184622999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||.71
92359240|NCT00791648|184623000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||.11
92359241|NCT00791648|184623001|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||.06
92359242|NCT00791648|184623002|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||.39
92359243|NCT00836706|184623013|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Means x 100|101.0||||||90.0|85.2|120.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||120|85.2|
92359244|NCT00836706|184623014|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Means x 100|101.0||||||90.0|88.7|114.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||114|88.7|
92359245|NCT00836706|184623015|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Means x 100|101.0||||||90.0|88.4|114.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||114|88.4|
92359246|NCT02989857|184623016|SUPERIORITY||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.25|0.54||P-value was calculated from the one-sided stratified log-rank test.|Log Rank||Hazard ratio was calculated from stratified Cox regression model with placebo as the denominator, with two-sided 95% confidence interval.|||0.54|0.25|<0.0001
92359247|NCT02989857|184623023|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.093|TWO_SIDED|95.0|0.56|1.12||P-value was calculated from the one-sided stratified log-rank test. Stratification factor was the number of prior line of therapies at randomization.|Log Rank||Hazard ratio was calculated from the stratified Cox regression model with placebo as the comparator, with two-sided 95% CI. Stratification factor was the number of prior line of therapies at randomization.|||1.12|0.56|0.093
92359248|NCT02989857|184623024|SUPERIORITY|||||||0.466||||||P-value was calculated from 1-sided Fisher exact test.|Fisher Exact|||||||0.466
92359249|NCT02989857|184623025|SUPERIORITY|||||||0.299||||||P-value was calculated from 1-sided Fisher exact test.|Fisher Exact|||||||0.299
92359250|NCT02989857|184623030|SUPERIORITY||Hazard Ratio (HR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.33|0.68||P-value was calculated from one-sided stratified log-rank test. Stratification factor was the number of prior line of therapies at randomization.|Log Rank||Hazard ratio was calculated from the stratified Cox regression model with placebo as the denominator, with two-sided 95% CI. Stratification factor was the number of prior line of therapies at randomization.|||0.68|0.33|<0.0001
92223724|NCT04418765|184348514|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Odds Ratio (OR)|11.43|||<|0.0001|TWO_SIDED|95.0|5.22|30.15||Threshold for significance: The consecutive order of the smallest (p1), the second smallest (p2), and the largest p-value (p3) had to be \<α/3, \<α/2, and \<α, where α = 0.05. Here it is test no. 5b of testing order.|Regression, Logistic|||"Analysis was performed using logistic regression model including baseline MMDs as a continuous covariate, and treatment and stratification factor (MHD at baseline: ≤14/\>14) as factors.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error.~Testing continued only, if the previous comparison was statistically significant."||30.15|5.22|<0.0001
92223725|NCT04418765|184348514|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Odds Ratio (OR)|9.19|||<|0.0001|TWO_SIDED|95.0|4.16|24.35||Threshold for significance: The consecutive order of the smallest (p1), the second smallest (p2), and the largest p-value (p3) had to be \<α/3, \<α/2, and \<α, where α = 0.05. Here it is test no. 6b of testing order.|Regression, Logistic|||"Analysis was performed using logistic regression model including baseline MMDs as a continuous covariate, and treatment and stratification factor (MHD at baseline: ≤14/\>14) as factors.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error.~Testing continued only, if the previous comparison was statistically significant."||24.35|4.16|<0.0001
92276690|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.59||||0.0004|TWO_SIDED|95.0|1.22|2.07|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.07|1.22|0.0004
92359251|NCT02989857|184623031|OTHER||Least-squares mean difference|11.0|||||TWO_SIDED|95.0|4.23|17.73||||||Cycle 2 Day 1: Physical Functioning||17.73|4.23|
92359252|NCT02989857|184623031|OTHER||Least-squares mean difference|-10.4|||||TWO_SIDED|95.0|-20.18|-0.52||||||Cycle 2 Day 1: Pain||-0.52|-20.18|
92359253|NCT02989857|184623031|OTHER||Least-squares mean difference|3.6|||||TWO_SIDED|95.0|-6.65|13.91||||||Cycle 2 Day 1: Appetite Loss||13.91|-6.65|
92359254|NCT02989857|184623031|OTHER||Least-squares mean difference|12.3|||||TWO_SIDED|95.0|3.85|20.78||||||Cycle 3 Day 1: Physical Functioning||20.78|3.85|
92359255|NCT02989857|184623031|OTHER||Least-squares mean difference|4.1|||||TWO_SIDED|95.0|-8.74|17.04||||||Cycle 3 Day 1: Pain||17.04|-8.74|
92359256|NCT02989857|184623031|OTHER||Least-squares mean difference|-3.7|||||TWO_SIDED|95.0|-17.46|10.11||||||Cycle 3 Day 1: Appetite Loss||10.11|-17.46|
92359257|NCT02989857|184623032|OTHER||Least-squares mean difference|-5.1|||||TWO_SIDED|95.0|-12.93|2.8||||||Cycle 2 Day 1: Pain||2.80|-12.93|
92359258|NCT02989857|184623032|OTHER||Least-squares mean difference|0.7|||||TWO_SIDED|95.0|-6.56|7.88||||||Cycle 2 Day 1: Appetite Loss||7.88|-6.56|
92359259|NCT02989857|184623032|OTHER||Least-squares mean difference|4.4|||||TWO_SIDED|95.0|-5.82|14.55||||||Cycle 3 Day 1: Pain||14.55|-5.82|
92359260|NCT02989857|184623032|OTHER||Least-squares mean difference|-6.1|||||TWO_SIDED|95.0|-15.34|3.12||||||Cycle 3 Day 1: Appetite Loss||3.12|-15.34|
92359261|NCT02541591|184623053|SUPERIORITY||Median ratio of final values|1.37||||0.0881|TWO_SIDED|95.0|0.95|1.98|||ANOVA|due to non normality of the residuals the data were log-transformed prior to the anova|the estimated mean difference obtained using the anova on the log-transformed data was back transformed thus yielding a ratio of median values|missing data were accounted for by multiple imputation||1.98|0.95|0.0881
92359262|NCT00123630|184623067|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
92359263|NCT00600340|184623070|NON_INFERIORITY|"Null hypothesis: Hazard Ratio (HR) \>= 1.33~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"|Hazard Ratio (HR)|1.042||||0.1983|ONE_SIDED|97.5||1.689||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals|Regression, Cox||HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (interim, stratified).||1.689||0.1983
92359264|NCT00600340|184623070|NON_INFERIORITY|"Null hypothesis: Hazard Ratio (HR) \>= 1.33~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"|Hazard Ratio (HR)|1.018||||0.007|ONE_SIDED|97.5||1.261||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals. Non-inferiority margin was a HR of 1.33.|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (final, stratified).||1.261||0.0070
92359265|NCT00600340|184623070|NON_INFERIORITY|Null hypothesis: Hazard Ratio (HR) \>= 1.33 Based on Cox proportional hazards model.|Hazard Ratio (HR)|1.058||||0.2024|ONE_SIDED|97.5||1.674||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals. Non-inferiority margin was a HR of 1.33.|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (interim, unstratified).||1.674||0.2024
92359266|NCT00600340|184623070|NON_INFERIORITY|Null hypothesis: Hazard Ratio (HR) \>= 1.33 Based on Cox proportional hazards model.|Hazard Ratio (HR)|1.134||||0.0612|ONE_SIDED|97.5||1.386||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals. Non-inferiority margin was a HR of 1.33.|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (final, unstratified).||1.386||0.0612
92223726|NCT04418765|184348515|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-5.4|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|-6.7|-4.2||Threshold for significance: The consecutive order of the smallest (p1), the second smallest (p2), and the largest p-value (p3) had to be \<α/3, \<α/2, and \<α, where α = 0.05. Here it is test no. 5c of testing order.|Mixed Models Analysis|||"Analysis was performed using MMRM with the following fixed effects: visit, country, stratification factor (MHDs at baseline: ≤14/\>14) and treatment as factors, baseline HIT-6 Total Score as a continuous covariate, baseline score-by-visit interaction, treatment-by-visit interaction, and stratum-by-visit interaction.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error.~Testing continued only, if the previous comparison was statistically significant."||-4.2|-6.7|<0.0001
92223727|NCT04418765|184348515|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|-5.0|-2.5||Threshold for significance: The consecutive order of the smallest (p1), the second smallest (p2), and the largest p-value (p3) had to be \<α/3, \<α/2, and \<α, where α = 0.05. Here it is test no. 6c of testing order.|Mixed Models Analysis|||"Analysis was performed using MMRM with the following fixed effects: visit, country, stratification factor (MHDs at baseline: ≤14/\>14) and treatment as factors, baseline HIT-6 Total Score as a continuous covariate, baseline score-by-visit interaction, treatment-by-visit interaction, and stratum-by-visit interaction.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error.~Testing continued only, if the previous comparison was statistically significant."||-2.5|-5.0|<0.0001
92223728|NCT01926782|184348561|SUPERIORITY_OR_OTHER|Alirocumab 300 mg group was compared to placebo group using an appropriate contrast statement.|LS Mean Difference|-52.4|||<|0.0001|TWO_SIDED|97.5|-59.8|-45.0||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||At Week 24||-45.0|-59.8|<0.0001
92223729|NCT01926782|184348561|SUPERIORITY_OR_OTHER|Alirocumab 300 mg group was compared to placebo group using an appropriate contrast statement.|LS Mean Difference|-55.2|||<|0.0001|TWO_SIDED|97.5|-62.3|-48.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Week 21-24||-48.1|-62.3|<0.0001
92223730|NCT01926782|184348562|SUPERIORITY_OR_OTHER|Alirocumab 300 mg group was compared to placebo group using an appropriate contrast statement.|LS Mean Difference|-58.7|||<|0.0001|TWO_SIDED|97.5|-65.0|-52.4||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||At Week 24||-52.4|-65.0|<0.0001
92223731|NCT01926782|184348562|SUPERIORITY_OR_OTHER|Alirocumab 300 mg group was compared to placebo group using an appropriate contrast statement.|LS Mean Difference|-65.0|||<|0.0001|TWO_SIDED|97.5|-70.4|-59.5||Threshold for significance ≤ 0.025|Mixed Models Analysis|||Week 21-24||-59.5|-70.4|< 0.0001
92223732|NCT01926782|184348563|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.0|||<|0.0001|TWO_SIDED|97.5|-64.6|-53.4||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level.||-53.4|-64.6|<0.0001
92223733|NCT01926782|184348564|SUPERIORITY_OR_OTHER||LS Mean Difference|-62.0|||<|0.0001|TWO_SIDED|97.5|-67.7|-56.2||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-56.2|-67.7|<0.0001
92223734|NCT01926782|184348565|SUPERIORITY_OR_OTHER||LS Mean Difference|-58.7|||<|0.0001|TWO_SIDED|97.5|-64.5|-53.0||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-53.0|-64.5|<0.0001
92359267|NCT00600340|184623071|NON_INFERIORITY|"Null hypothesis: Hazard ratio (HR) \>= 1.33~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"|Hazard Ratio (HR)|1.027||||0.1534|ONE_SIDED|97.5||1.606||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (interim, stratified).||1.606||0.1534
92223735|NCT01926782|184348566|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.3|||<|0.0001|TWO_SIDED|97.5|-62.3|-50.3||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-50.3|-62.3|<0.0001
92223736|NCT01926782|184348567|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.5|||<|0.0001|TWO_SIDED|97.5|-65.0|-54.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-54.1|-65.0|<0.0001
92223737|NCT01926782|184348568|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.4|||<|0.0001|TWO_SIDED|97.5|-64.8|-54.0||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-54.0|-64.8|<0.0001
92369489|NCT00281099|184643810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|0.0|0.227||The a priori threshold for significance was defined as the one-sided upper 95% confidence bound for the MVP - VVI 40 difference in average AT/AF burden from 6 to 12 months being less than 0.|Bootstrap Confidence Interval|||This analysis tested the hypothesis that the average AT/AF burden (hours per day of AT/AF) from 6 to 12 months post-implant in patients with no Class I pacing indication and MVP is equal to or greater than that of similar patients with VVI 40. Only subjects with complete AT/AF data for this time interval were included in the analysis.||0.227|0|
92223738|NCT01926782|184348569|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.5|||<|0.0001|TWO_SIDED|97.5|-45.8|-33.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-33.1|-45.8|<0.0001
92223739|NCT01926782|184348570|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.2|||<|0.0001|TWO_SIDED|97.5|-53.2|-43.2||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-43.2|-53.2|<0.0001
92223740|NCT01926782|184348571|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.5|||<|0.0001|TWO_SIDED|97.5|-49.9|-39.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-39.1|-49.9|<0.0001
92359268|NCT00600340|184623071|NON_INFERIORITY|"Null hypothesis: Hazard ratio (HR) \>= 1.33~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"|Hazard Ratio (HR)|1.035||||0.0085|ONE_SIDED|97.5||1.273||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (final, stratified).||1.273||0.0085
92359269|NCT00600340|184623071|NON_INFERIORITY|Null hypothesis: Hazard Ratio (HR) \>= 1.33 Based on Cox proportional hazards model.|Hazard Ratio (HR)|1.058||||0.1778|ONE_SIDED|97.5||1.623||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (interim, unstratified).||1.623||0.1778
92359270|NCT00600340|184623071|NON_INFERIORITY|Null hypothesis: Hazard Ratio (HR) \>= 1.33 Based on Cox proportional hazards model.|Hazard Ratio (HR)|1.126||||0.049|ONE_SIDED|97.5||1.37||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (final, unstratified).||1.37||0.049
92359271|NCT00600340|184623077|SUPERIORITY|OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.33|0.67||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|Odds Ratio (OR) of objective response and Cochran-Mantel-Haenszel (CMH) test (stratified)||0.67|0.33|< 0.0001
92359272|NCT00600340|184623077|SUPERIORITY||Risk Difference (RD)|-17.0|||||TWO_SIDED|95.0|-24.0|-9.0|||||Difference calculated as ORR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, units in percent.|Difference in ORR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-9|-24|
92359273|NCT00600340|184623077|SUPERIORITY|OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.43||||0.0006|TWO_SIDED|95.0|0.27|0.7||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|OR of disease control and CMH test (stratified)||0.70|0.27|0.0006
92359274|NCT00600340|184623077|SUPERIORITY||Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-18.0|-6.0|||||Difference calculated as the DCR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, units in percent.|Difference in DCR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-6|-18|
92359275|NCT00600340|184623078|SUPERIORITY|OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.31|0.65||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|OR of objective response and CMH test (stratified)||0.65|0.31|< 0.0001
92359276|NCT00600340|184623078|SUPERIORITY||Risk Difference (RD)|-18.0|||||TWO_SIDED|95.0|-26.0|-10.0|||||Difference calculated as ORR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, units in percent.|Difference in ORR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-10|-26|
92223741|NCT01926782|184348572|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.3|||<|0.0001|TWO_SIDED|97.5|-55.0|-45.6||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-45.6|-55.0|<0.0001
92223742|NCT01926782|184348573|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.0|||<|0.0001|TWO_SIDED|97.5|-49.9|-36.2||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-36.2|-49.9|<0.0001
92359277|NCT00600340|184623078|SUPERIORITY|OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.39||||0.0003|TWO_SIDED|95.0|0.24|0.65||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|OR of disease control and CMH test (stratified)||0.65|0.24|0.0003
92405836|NCT04730271|184702005|SUPERIORITY|||||||0.1596|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.1596
92359278|NCT00600340|184623078|SUPERIORITY||Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-19.0|-6.0|||||Difference calculated as the DCR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, units in percent.|Difference in DCR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-6|-19|
92359279|NCT00600340|184623079|SUPERIORITY|OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.31|0.63||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|OR of objective response and CMH test (stratified)||0.63|0.31|< 0.0001
92359280|NCT00600340|184623079|SUPERIORITY||Risk Difference (RD)|-20.0|||||TWO_SIDED|95.0|-28.0|-11.0|||||Difference calculated as ORR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, units in percent.|Difference in ORR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-11|-28|
92359281|NCT00600340|184623079|SUPERIORITY||Odds Ratio (OR)|0.43||||0.0006|TWO_SIDED|95.0|0.27|0.7||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|OR of disease control and CMH test (stratified)||0.70|0.27|0.0006
92359282|NCT00600340|184623079|SUPERIORITY||Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-18.0|-6.0|||||Difference calculated as DCR in Bevacizumab Plus Capecitabine minus DCR in Bevacizumab plus Paclitaxel, units in percent.|Difference in DCR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-6|-18|
92359283|NCT00600340|184623080|SUPERIORITY||Odds Ratio (OR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.29|0.6||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|OR of objective response and CMH test (stratified)||0.60|0.29|< 0.0001
92359284|NCT00600340|184623080|SUPERIORITY||Risk Difference (RD)|-21.0|||||TWO_SIDED|95.0|-30.0|-13.0|||||Difference calculated as ORR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, unit in percent.|Difference in ORR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-13|-30|
92359285|NCT00600340|184623080|SUPERIORITY|OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.39||||0.0003|TWO_SIDED|95.0|0.24|0.65||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|OR of disease control and CMH test (stratified)||0.65|0.24|0.0003
92359286|NCT00600340|184623080|SUPERIORITY||Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-19.0|-6.0|||||Difference calculated as DCR in Bevacizumab Plus Capecitabine minus DCR in Bevacizumab plus Paclitaxel, unit in percent.|Difference in DCR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-6|-19|
92359287|NCT00600340|184623081|SUPERIORITY|HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|1.32||||0.0066|TWO_SIDED|95.0|1.08|1.61|||Log Rank|Two-sided log-rank test adjusted by stratification factors at randomization|HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for PFS (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||1.61|1.08|0.0066
92359288|NCT00600340|184623082|SUPERIORITY|HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|1.31||||0.0094|TWO_SIDED|95.0|1.07|1.61|||Log Rank|Two-sided log-rank test adjusted by stratification factors at randomization|HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab plus Capecitabine vs. Bevacizumab plus Paclitaxel for PFS (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||1.61|1.07|0.0094
92359289|NCT00600340|184623083|SUPERIORITY|HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|1.13||||0.1957|TWO_SIDED|95.0|0.94|1.35||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab plus Capecitabine vs. Bevacizumab plus Paclitaxel for TTF (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||1.35|0.94|0.1957
92223743|NCT01926782|184348574|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.0|||<|0.0001|TWO_SIDED|97.5|-55.3|-44.8||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-44.8|-55.3|<0.0001
92223744|NCT01926782|184348575|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.0|||<|0.0001|TWO_SIDED|97.5|-54.8|-43.3||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-43.3|-54.8|<0.0001
92359290|NCT00600340|184623084|SUPERIORITY|HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|1.11||||0.2583|TWO_SIDED|95.0|0.92|1.34||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab plus Capecitabine vs. Bevacizumab plus Paclitaxel for TTF (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||1.34|0.92|0.2583
92401659|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.095||95.0||||P-value is for HbA1C. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated HbA1C values.||||0.095
92223745|NCT01926782|184348576|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.8|||<|0.0001|TWO_SIDED|97.5|-57.6|-47.9||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-47.9|-57.6|<0.0001
92359291|NCT00600340|184623085|SUPERIORITY|HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|0.57||||0.0001|TWO_SIDED|95.0|0.43|0.77||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for TR (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||0.77|0.43|0.0001
92359292|NCT00600340|184623086|SUPERIORITY|HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|0.56||||0.0001|TWO_SIDED|95.0|0.41|0.75||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for TR (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||0.75|0.41|0.0001
92359293|NCT00600340|184623087|SUPERIORITY|HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|1.41||||0.0582|TWO_SIDED|95.0|0.99|2.02||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for DR (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||2.02|0.99|0.0582
92359294|NCT00600340|184623088|SUPERIORITY|HR is the hazard rate of Arm B divided by hazard rate of Arm A.|Hazard Ratio (HR)|1.45||||0.0429|TWO_SIDED|95.0|1.01|2.1||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Arm B divided by hazard rate of Arm A.|"HR of Arm B vs. Arm A for DR (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||2.10|1.01|0.0429
92359295|NCT00635050|184623111|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.28|||||TWO_SIDED|||||||||||||
92359296|NCT04380142|184623159|SUPERIORITY||Least Squares (LS) Mean of Difference|1.75|STANDARD_ERROR_OF_MEAN|0.65||0.0083|TWO_SIDED|95.0|0.46|3.05||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|mixed model repeated measures|||||3.05|0.46|0.0083
92359297|NCT04380142|184623160|SUPERIORITY||LS Mean of Difference|-1.79|STANDARD_ERROR_OF_MEAN|0.63||0.0054|TWO_SIDED|95.0|-3.03|-0.54||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|mixed model repeated measures|||||-0.54|-3.03|0.0054
92359298|NCT04380142|184623161|SUPERIORITY||LS Mean of Difference|-1.58|STANDARD_ERROR_OF_MEAN|1.05||0.1318|TWO_SIDED|95.0|-3.65|0.48||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|mixed model repeated measures|||||0.48|-3.65|0.1318
92359299|NCT04380142|184623162|SUPERIORITY||Odds Ratio (OR)|0.12|STANDARD_ERROR_OF_MEAN|0.49|<=|0.001|TWO_SIDED|95.0|0.04|0.31||The generalized linear mixed model: status = treatment country visit baseline treatment\*visit. The unstructured variance-covariance structure is used.|generalized linear mixed model|||||0.31|0.04|<=0.001
92223746|NCT01926782|184348577|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.4|||<|0.0001|TWO_SIDED|97.5|-36.6|-26.3||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-26.3|-36.6|<0.0001
92223747|NCT01926782|184348578|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.0|||<|0.0001|TWO_SIDED|97.5|-38.9|-31.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-31.1|-38.9|<0.0001
92359300|NCT04380142|184623163|SUPERIORITY||Odds Ratio (OR)|1.81|STANDARD_ERROR_OF_MEAN|0.68||0.0091|TWO_SIDED|95.0|0.46|3.16|||generalized linear mixed model|||||3.16|0.46|0.0091
92359301|NCT04380142|184623164|SUPERIORITY||LS Mean of Difference|-5.4|STANDARD_ERROR_OF_MEAN|1.32|<=|0.001|TWO_SIDED|95.0|-8.03|-2.78||ANCOVA model including effects for treatment, country, and baseline.|ANCOVA|||||-2.78|-8.03|<=0.001
92405837|NCT04730271|184702005|SUPERIORITY|||||||0.6834|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.6834
92223748|NCT01926782|184348579|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.1|||<|0.0001|TWO_SIDED|97.5|-49.0|-39.2||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-39.2|-49.0|<0.0001
92223749|NCT01926782|184348580|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.8|||<|0.0001|TWO_SIDED|97.5|-49.7|-39.9||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-39.9|-49.7|<0.0001
92223750|NCT01926782|184348581|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.5|||<|0.0001|TWO_SIDED|97.5|-54.5|-44.6||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-44.6|-54.5|<0.0001
92223751|NCT01926782|184348582|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.1|||<|0.0001|TWO_SIDED|97.5|-52.2|-42.0||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-42.0|-52.2|<0.0001
92223752|NCT01926782|184348583|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.4|||<|0.0001|TWO_SIDED|97.5|-40.4|-32.4||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-32.4|-40.4|<0.0001
92359302|NCT04380142|184623165|SUPERIORITY||Least Squares (LS) Mean of Difference|-4.1|STANDARD_ERROR_OF_MEAN|2.04||0.047|TWO_SIDED|95.0|-8.14|-0.05||ANCOVA model including effects for treatment, country, and baseline.|ANCOVA|||||-0.05|-8.14|0.0470
92359303|NCT04380142|184623166|SUPERIORITY||LS Mean of Difference|0.049|STANDARD_ERROR_OF_MEAN|0.025||0.0566|TWO_SIDED|95.0|-0.001|0.1||ANCOVA model including effects for treatment, country, and baseline.|ANCOVA|||||0.100|-0.001|0.0566
92359304|NCT04380142|184623167|SUPERIORITY||LS Mean of Difference|1.72|STANDARD_ERROR_OF_MEAN|0.72||0.0184|TWO_SIDED|95.0|0.3|3.15||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|Repeated measures model|||||3.15|0.30|0.0184
92359305|NCT04380142|184623168|SUPERIORITY||LS Mean of Difference|0.18|STANDARD_ERROR_OF_MEAN|0.69||0.7989|TWO_SIDED|95.0|-1.2|1.55||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|Repeated measures model|||||1.55|-1.20|0.7989
92359306|NCT04380142|184623169|SUPERIORITY||LS Mean of Difference|-2.73|STANDARD_ERROR_OF_MEAN|1.96||0.1656|TWO_SIDED|95.0|-6.61|1.15||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|Repeated measures model|||||1.15|-6.61|0.1656
92359307|NCT04380142|184623170|SUPERIORITY||LS Mean of Difference|-5.49|STANDARD_ERROR_OF_MEAN|3.65||0.1347|TWO_SIDED|95.0|-12.71|1.73||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|Repeated measures model|||||1.73|-12.71|0.1347
92401660|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated AlkPhos values.||||1.00
92223753|NCT01926782|184348584|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.8|||<|0.0001|TWO_SIDED|97.5|-36.5|-29.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-29.1|-36.5|<0.0001
92223754|NCT01926782|184348585|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|68.0|||<|0.0001|TWO_SIDED|97.5|20.9|221.0||Threshold for significance ≤ 0.025.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by logistic regression model.||221.0|20.9|<0.0001
92223755|NCT01926782|184348586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|25.6|||<|0.0001|TWO_SIDED|97.5|13.7|47.8||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used multiple imputation approach followed by logistic regression model.||47.8|13.7|<0.0001
92359308|NCT04992065|184623177|SUPERIORITY||Treatment difference|-31.95|||<|0.0001|TWO_SIDED|95.0|-43.02|-20.87|||ANCOVA|||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||-20.87|-43.02|<.0001
92359309|NCT04992065|184623177|SUPERIORITY||Treatment difference|-44.91|||<|0.0001|TWO_SIDED|95.0|-56.04|-33.79|||ANCOVA|||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||-33.79|-56.04|<.0001
92359310|NCT04992065|184623177|SUPERIORITY||Treatment difference|-61.83|||<|0.0001|TWO_SIDED|95.0|-72.94|-50.72|||ANCOVA|||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||-50.72|-72.94|<.0001
92359311|NCT04992065|184623177|SUPERIORITY||Treatment difference|33.32|||||TWO_SIDED|95.0|22.16|44.47||||||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||44.47|22.16|
92359312|NCT04992065|184623177|SUPERIORITY||Treatment difference|20.35|||||TWO_SIDED|95.0|9.21|31.48||||||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||31.48|9.21|
92405838|NCT04730271|184702006|SUPERIORITY|||||||0.5675|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.5675
92405839|NCT04730271|184702006|SUPERIORITY|||||||0.924|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.9240
92401661|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated AlkPhos values.||||0.720
92401662|NCT00385671|184694213|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated AlkPhos values.||||0.722
92401663|NCT01972217|184694226|SUPERIORITY||Hazard Ratio (HR)|0.651||||0.017|TWO_SIDED|95.0|0.438|0.969|||Log Rank|||The 1-sided p-value provides a test for rejecting the null hypothesis of no treatment effect versus the superiority alternative that patients on olaparib have a lower risk of progression compared with placebo.||0.969|0.438|0.017
92401664|NCT01972217|184694239|OTHER||Odds Ratio (OR)|0.813||||0.309|TWO_SIDED|95.0|0.285|2.261||The p value was calculated with a 1-sided significance level of 2.5%.|Regression, Logistic|||||2.261|0.285|0.309
92401665|NCT01972217|184694240|OTHER||Hazard Ratio (HR)|0.781||||0.095|TWO_SIDED|95.0|0.54|1.13||The p value was calculated with a 1-sided significance level of 2.5%.|Log Rank|||Olapatib + abiraterone versus placebo + abiraterone: TFST||1.130|0.540|0.095
92401666|NCT01972217|184694240|OTHER||Hazard Ratio (HR)|0.809||||0.147|TWO_SIDED|95.0|0.545|1.201||The p value was calculated with a 1-sided significance level of 2.5%.|Log Rank|||Olaparib + abiraterone versus placebo + abiraterone: TSST||1.201|0.545|0.147
92223756|NCT01926782|184348587|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|280.2|||<|0.0001|TWO_SIDED|97.5|56.7|1385.7||Threshold for significance ≤ 0.025.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1385.7|56.7|<0.0001
92223757|NCT01926782|184348588|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|41.3|||<|0.0001|TWO_SIDED|97.5|20.3|83.8||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by logistic regression model||83.8|20.3|<0.0001
92223758|NCT01926782|184348589|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|90.6|||<|0.0001|TWO_SIDED|97.5|16.5|498.3||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by logistic regression model.||498.3|16.5|<0.0001
92223759|NCT01926782|184348590|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|49.5|||<|0.0001|TWO_SIDED|97.5|23.4|104.4||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by logistic regression model.||104.4|23.4|<0.0001
92223760|NCT01926782|184348591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|297.1|||<|0.0001|TWO_SIDED|97.5|27.9|3160.6||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used multiple imputation approach followed by logistic regression model.||3160.6|27.9|<0.0001
92401667|NCT01972217|184694241|OTHER||Hazard Ratio (HR)|0.911||||0.331|TWO_SIDED|95.0|0.6|1.384||The p value was calculated with a 1-sided significance level of 2.5%.|Log Rank|||||1.384|0.600|0.331
92223761|NCT01926782|184348592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|77.7|||<|0.0001|TWO_SIDED|97.5|34.1|176.8||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used multiple imputation approach followed by logistic regression model.||176.8|34.1|<0.0001
92223762|NCT01926782|184348593|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.7|||<|0.0001|TWO_SIDED|97.5|-37.0|-18.3||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-18.3|-37.0|<0.0001
92223763|NCT01926782|184348594|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-29.1|||<|0.0001|TWO_SIDED|97.5|-35.5|-22.7||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-22.7|-35.5|<0.0001
92401668|NCT01972217|184694242|OTHER||Hazard Ratio (HR)|0.788||||0.14|TWO_SIDED|95.0|0.511|1.215||The p value was calculated with a 1-sided significance level of 2.5%.|Log Rank|||||1.215|0.511|0.140
92401669|NCT01428258|184694249|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-147.0|STANDARD_ERROR_OF_MEAN|39.0||0.0008|TWO_SIDED||||||ANCOVA|||||||0.0008
92401670|NCT01428258|184694249|OTHER|||||||0.136|||||||ANCOVA|||||||0.136
92401671|NCT01428258|184694249|OTHER|||||||0.044|||||||ANCOVA|||||||0.044
92401672|NCT01428258|184694250|OTHER|||||||0.576|||||||ANOVA|||||||0.576
92401673|NCT01428258|184694251|OTHER|||||||0.902|||||||t-test, 2 sided|||||||0.902
92401674|NCT01428258|184694252|OTHER|||||||0.797|||||||t-test, 2 sided|||||||0.797
92401675|NCT01428258|184694253|OTHER|||||||0.0001|||||||ANOVA|||||||0.0001
92401676|NCT04026113|184694262|SUPERIORITY||Difference|1.17|STANDARD_ERROR_OF_MEAN|0.264|<|0.0001|TWO_SIDED|95.0|0.651|1.689||ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA|||||1.689|0.651|< 0.0001
92401677|NCT04026113|184694262|SUPERIORITY|||||||0.4323||||||Treatment-by-Age Group Interaction P-value: Interaction P-value base on ANCOVA model with treatment, age group, treatment-by-age group interaction as factors and baseline value as a covariate.|ANCOVA|||||||0.4323
92401678|NCT04026113|184694264|SUPERIORITY||Difference|0.423|STANDARD_ERROR_OF_MEAN|0.109||0.0001|TWO_SIDED|95.0|0.208|0.638||ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA|||||0.638|0.208|0.0001
92405840|NCT04730271|184702007|SUPERIORITY|||||||0.4586|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.4586
92223764|NCT01926782|184348595|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-23.5|||<|0.0001|TWO_SIDED|97.5|-32.4|-14.5||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-14.5|-32.4|<0.0001
92359313|NCT04992065|184623177|SUPERIORITY||Treatment difference|3.43|||||TWO_SIDED|95.0|-7.81|14.68||||||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||14.68|-7.81|
92359314|NCT00663260|184623203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.1448||0.561|TWO_SIDED|95.0|-0.37|0.2||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||0.20|-0.37|0.561
92359315|NCT00663260|184623203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.1457||0.435|TWO_SIDED|95.0|-0.4|0.17||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||0.17|-0.40|0.435
92359316|NCT00663260|184623204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|8.142|||TWO_SIDED|95.0|-29.7|2.4||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05; secondary efficacy analyses were not tested since the primary endpoint was not significant.|ANCOVA|||||2.4|-29.7|
92359317|NCT00663260|184623204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|STANDARD_ERROR_OF_MEAN|8.136|||TWO_SIDED|95.0|-25.0|7.0||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05; secondary efficacy analyses were not tested since the primary endpoint was not significant.|ANCOVA|||||7.0|-25.0|
92359318|NCT00663260|184623205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.4435|||TWO_SIDED|95.0|-2.68|-0.94||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05; secondary efficacy analyses were not tested since the primary endpoint was not significant.|ANCOVA|||||-0.94|-2.68|
92359319|NCT00663260|184623205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16|STANDARD_ERROR_OF_MEAN|0.4395|||TWO_SIDED|95.0|-3.03|-1.29||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05; secondary efficacy analyses were not tested since the primary endpoint was not significant.|ANCOVA|||||-1.29|-3.03|
92359320|NCT00980798|184623206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2365||||0.1212|TWO_SIDED|95.0|-0.5357|0.0627||No adjustment for multiple comparisons necessary, as only 1 primary hypothesis was tested. Threshold for statistical significance was 0.05.|Mixed-model regression analysis|The difference above is presented as the difference OROS hydromorphone HCl minus placebo, so negative scores favour OROS hydromorphone HCl.|The analysis was adjusted for baseline BPI item 5 score, time on study, and whether the primary affected joint was the hip or knee.|The F test for treatment tested the null hypothesis of no treatment difference. Assuming that 3 baseline measures and 7 post baseline measures were collected 81 patients were required per group to detect a difference of 1 point in the BPI measure with 90% power at a significance level of 5%. To allow for a drop-out rate of approximately 40%, the study planned to recruit 135 patients per group (i.e. 270 in total).||0.0627|-0.5357|0.1212
92359321|NCT04562090|184623231|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.73|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-4.3|-3.16||Repeated Measures Analysis (RMA): CFB as response, treatment group (TG), visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of micturitions per 24 hours at baseline as covariate.|MMRM|||Week 12||-3.16|-4.30|<0.001
92359322|NCT04562090|184623234|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.62|STANDARD_ERROR_OF_MEAN|0.32|<|0.001|TWO_SIDED|95.0|-3.25|-1.99||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-1.99|-3.25|<0.001
92401679|NCT04026113|184694264|SUPERIORITY|||||||0.4381||||||Treatment-by-Age Group Interaction P-value: Interaction P-value base on ANCOVA model with treatment, age group, treatment-by-age group interaction as factors and baseline value as a covariate.|ANCOVA|||||||0.4381
92359323|NCT04562090|184623234|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.47|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-2.93|-2.02||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-2.02|-2.93|<0.001
92359324|NCT04562090|184623234|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.13|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-3.96|-2.3||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-2.30|-3.96|<0.001
92359325|NCT04562090|184623234|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.93|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-3.39|-2.47||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-2.47|-3.39|<0.001
92359326|NCT04562090|184623234|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.47|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|-4.37|-2.56||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-2.56|-4.37|<0.001
92359327|NCT04562090|184623234|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.59|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-4.06|-3.12||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-3.12|-4.06|<0.001
92401680|NCT01709721|184694270|SUPERIORITY|||||||0.147|||||||Chi-squared|Pearson's chi-square test||Superiority of intrathecal hydromorphone hydrochloride as compared to a control arm.||||0.147
92223765|NCT01926782|184348596|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-26.6|||<|0.0001|TWO_SIDED|97.5|-32.8|-20.4||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-20.4|-32.8|<0.0001
92359328|NCT04562090|184623235|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.66|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.88|-0.44||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.44|-0.88|<0.001
92359329|NCT04562090|184623235|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.81|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.97|-0.65||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.65|-0.97|<0.001
92359330|NCT04562090|184623235|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.88|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.17|-0.58||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-0.58|-1.17|<0.001
92359331|NCT04562090|184623235|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.94|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-1.1|-0.78||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-0.78|-1.10|<0.001
92359332|NCT04562090|184623235|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.03|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.35|-0.71||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-0.71|-1.35|<0.001
92359333|NCT04562090|184623235|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.98|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-1.14|-0.81||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-0.81|-1.14|<0.001
92359334|NCT04562090|184623236|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.48|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.58|-0.37||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.37|-0.58|<0.001
92359335|NCT04562090|184623236|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.46|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|95.0|-0.53|-0.38||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.38|-0.53|<0.001
92359336|NCT04562090|184623236|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.53|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.67|-0.39||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-0.39|-0.67|<0.001
92359337|NCT04562090|184623236|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.45|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|95.0|-0.52|-0.37||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-0.37|-0.52|<0.001
92359338|NCT04562090|184623236|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.53|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.68|-0.38||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-0.38|-0.68|<0.001
92359339|NCT04562090|184623236|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.52|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|95.0|-0.6|-0.45||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-0.45|-0.60|<0.001
92223766|NCT01926782|184348597|SUPERIORITY_OR_OTHER||LS Mean Difference|7.8||||0.0003|TWO_SIDED|97.5|3.1|12.6||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||12.6|3.1|0.0003
92223767|NCT01926782|184348598|SUPERIORITY_OR_OTHER||LS Mean Difference|5.1||||0.0004|TWO_SIDED|97.5|1.9|8.4||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||8.4|1.9|0.0004
92223768|NCT01926782|184348599|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9||||0.0004|TWO_SIDED|97.5|2.6|11.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant)||11.1|2.6|0.0004
92405841|NCT04730271|184702007|SUPERIORITY|||||||0.6951|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.6951
92405842|NCT04730271|184702008|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.8000
92405843|NCT04730271|184702008|SUPERIORITY|||||||0.973|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.9730
92405844|NCT04730271|184702009|SUPERIORITY|||||||0.4636|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.4636
92165097|NCT03622593|184218210|SUPERIORITY||Adjusted mean difference|1.5|STANDARD_ERROR_OF_MEAN|0.73||0.0361|TWO_SIDED|97.5|-0.1|3.2||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||3.2|-0.1|0.0361
92223769|NCT01926782|184348600|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2||||0.0007|TWO_SIDED|97.5|1.8|8.7||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||8.7|1.8|0.0007
92223770|NCT01926782|184348601|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-11.9||||0.0042|TWO_SIDED|97.5|-21.3|-2.6||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-2.6|-21.3|0.0042
92223771|NCT01926782|184348602|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-15.1|||<|0.0001|TWO_SIDED|97.5|-21.5|-8.6||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-8.6|-21.5|<0.0001
92223772|NCT01926782|184348603|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.1||||0.0004|TWO_SIDED|97.5|-22.9|-5.2||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-5.2|-22.9|0.0004
92223773|NCT01926782|184348604|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-13.6|||<|0.0001|TWO_SIDED|97.5|-20.3|-6.9||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-6.9|-20.3|<0.0001
92223774|NCT01926782|184348605|SUPERIORITY_OR_OTHER||LS Mean Difference|6.6|||<|0.0001|TWO_SIDED|97.5|3.0|10.2||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||10.2|3.0|<0.0001
92223775|NCT01926782|184348606|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7||||0.0306|TWO_SIDED|97.5|-0.1|5.4||Threshold for significance ≤ 0.025.|Mixed Models Analysis||Alirocumab 300 mg vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.4|-0.1|0.0306
92223776|NCT03504397|184348631|SUPERIORITY||Hazard Ratio (HR)|0.734||||0.0024|TWO_SIDED|95.0|0.591|0.91||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|Log Rank|||||0.910|0.591|0.0024
92223777|NCT03504397|184348632|SUPERIORITY||Hazard Ratio (HR)|0.784||||0.0075|TWO_SIDED|95.0|0.644|0.954||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|Log Rank|||||0.954|0.644|0.0075
92223778|NCT03504397|184348633|SUPERIORITY||Hazard Ratio (HR)|1.295||||0.028|TWO_SIDED|95.0|0.994|1.687||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|Log Rank|||||1.687|0.994|0.0280
92223779|NCT03504397|184348634|SUPERIORITY||Hazard Ratio (HR)|0.713||||0.0508|TWO_SIDED|95.0|0.475|1.071||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|Log Rank|||||1.071|0.475|0.0508
92359340|NCT04562090|184623237|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.1|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-1.31|-0.9||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.90|-1.31|<0.001
92223780|NCT03504397|184348635|SUPERIORITY||Hazard Ratio (HR)|1.142||||0.1685|TWO_SIDED|95.0|0.874|1.492|||Log Rank||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|||1.492|0.874|0.1685
92223781|NCT03504397|184348636|SUPERIORITY|||||||0.4536|||||||Cochran-Mantel-Haenszel|Based on 1-sided Cochran-Mantel-Haenszel (CMH) test. Stratification factors were Region, Number of Metastatic Sites and Prior Gastrectomy.||||||0.4536
92223782|NCT03504397|184348637|SUPERIORITY||Hazard Ratio (HR)|0.789||||0.0721|TWO_SIDED|95.0|0.573|1.087|||Log Rank||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|||1.087|0.573|0.0721
92223783|NCT01888640|184348647|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.008|TWO_SIDED|95.0|-1.8|-0.2||To account for multiple tests involving pairwise treatment group comparisons, p-values were adjusted using Bonferroni's method|Linear mixed models for repeated measure|||Visit 2-Visit 3||-0.2|-1.8|0.008
92223784|NCT01888640|184348647|SUPERIORITY||Mean Difference (Final Values)|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-1.0|-2.6|<0.0001
92223785|NCT01888640|184348648|SUPERIORITY||Mean Difference (Net)|-1.3||||0.002|TWO_SIDED|95.0|-2.2|-0.4|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.4|-2.2|0.002
92223786|NCT01888640|184348648|SUPERIORITY||Mean Difference (Final Values)|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.8|-1.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-1.0|-2.8|<0.0001
92223787|NCT01888640|184348649|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.0006|TWO_SIDED|95.0|-2.1|-0.4|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.4|-2.1|0.0006
92223788|NCT01888640|184348649|SUPERIORITY||Mean Difference (Final Values)|-1.4|||<|0.0001|TWO_SIDED|95.0|-2.2|-0.6|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.6|-2.2|<0.0001
92223789|NCT01888640|184348650|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0.001|TWO_SIDED|95.0|-2.4|-0.4|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.4|-2.4|0.001
92223790|NCT01888640|184348650|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.9|-0.9|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.9|-2.9|<0.0001
92223791|NCT01888640|184348651|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.011|TWO_SIDED|95.0|-2.2|-0.2|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.2|-2.2|0.011
92223792|NCT01888640|184348651|SUPERIORITY||Mean Difference (Final Values)|-2.0|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-1.0|-3.0|<0.0001
92223793|NCT01888640|184348652|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.016|TWO_SIDED|95.0|-2.2|-0.1|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.1|-2.2|0.016
92359341|NCT04562090|184623237|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.11|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-1.25|-0.96||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.96|-1.25|<0.001
92359342|NCT04562090|184623237|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.26|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.53|-0.99||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-0.99|-1.53|<0.001
92359343|NCT04562090|184623237|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.2|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-1.34|-1.05||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-1.05|-1.34|<0.001
92359344|NCT04562090|184623237|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.25|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.54|-0.96||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-0.96|-1.54|<0.001
92359345|NCT04562090|184623237|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.27|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-1.42|-1.12||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-1.12|-1.42|<0.001
92359346|NCT04562090|184623238|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.97|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-3.5|-2.43||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 4||-2.43|-3.50|<0.001
92359347|NCT04562090|184623238|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.05|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-3.44|-2.65||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 4||-2.65|-3.44|<0.001
92359348|NCT04562090|184623238|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-5.09|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-5.8|-4.39||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 8||-4.39|-5.80|<0.001
92223794|NCT01888640|184348652|SUPERIORITY||Mean Difference (Final Values)|-1.57||||0.0002|TWO_SIDED|95.0|-2.6|-0.6|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.6|-2.6|0.0002
92223795|NCT01888640|184348653|SUPERIORITY||Mean Difference (Final Values)|-5.0||||0.074|TWO_SIDED|95.0|-10.4|0.3|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||0.3|-10.4|0.074
92359349|NCT04562090|184623238|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-4.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-4.7|-3.9||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 8||-3.90|-4.70|<0.001
92401681|NCT01709721|184694271|SUPERIORITY|||||||0.0342|||||||ANCOVA|||"P-value by ANCOVA, with randomization group as the factor and initial parameter value as covariate.~Note: For subjects with missing endpoint on Day 119, value is imputed using the Last Observation Carried Forward (LOCF).~Note: Baseline for this analysis is the Day 84 visit."||||0.0342
92223796|NCT01888640|184348653|SUPERIORITY||Mean Difference (Final Values)|-7.1||||0.005|TWO_SIDED|95.0|-12.4|-1.8|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-1.8|-12.4|0.005
92223797|NCT01888640|184348654|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.018|TWO_SIDED|95.0|-1.7|-0.1|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.1|-1.7|0.018
92223798|NCT01888640|184348654|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.0006|TWO_SIDED|95.0|-1.9|-0.4|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.4|-1.9|0.0006
92223799|NCT01888640|184348655|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.043|TWO_SIDED|95.0|-1.3|-0.01|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.01|-1.3|0.043
92223800|NCT01888640|184348655|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.048|TWO_SIDED|95.0|-1.3|0.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.0|-1.3|0.048
92223801|NCT01888640|184348656|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.036|TWO_SIDED|95.0|-1.0|0.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.0|-1.0|0.036
92223802|NCT01888640|184348656|SUPERIORITY||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.4|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.4|-1.4|<0.0001
92401682|NCT01709721|184694272|SUPERIORITY|||||||0.1642|||||||ANCOVA|||"P-value by ANCOVA, with randomization group as the factor and initial parameter value as covariate.~Note: For subjects with missing endpoint on Day 119, value is imputed using the Last Observation Carried Forward (LOCF).~Note: Baseline for this analysis is the Day 84 visit."||||0.1642
92401683|NCT01709721|184694273|SUPERIORITY|||||||0.016|||||||ANCOVA|ANCOVA, with randomization group as the factor and initial parameter value as covariate.||"P-value by ANCOVA, with randomization group as the factor and initial parameter value as covariate.~Note: For subjects with missing endpoint on Day 119, value is imputed using the Last Observation Carried Forward (LOCF).~Note: Baseline for this analysis is the Day 84 visit."||||0.0160
92401684|NCT01709721|184694274|SUPERIORITY|||||||0.0007|||||||ANCOVA|ANCOVA, with randomization group as the factor and initial parameter value as covariate.||"P-value by ANCOVA, with randomization group as the factor and initial parameter value as covariate.~Note: For subjects with missing endpoint on Day 119, value is imputed using the Last Observation Carried Forward (LOCF).~Note: Baseline for this analysis is the Day 84 visit."||||0.0007
92401685|NCT01709721|184694275|SUPERIORITY|||||||0.0088||||||ANCOVA, with randomization group as the factor and initial parameter value as covariate.|ANCOVA|||"P-value by ANCOVA, with randomization group as the factor and initial parameter value as covariate.~Note: For subjects with missing endpoint on Day 119, value is imputed using the Last Observation Carried Forward (LOCF).~Note: Baseline for this analysis is the Day 84 visit."||||0.0088
92401686|NCT01709721|184694276|SUPERIORITY|||||||0.011||||||Log-rank test for Kaplan-Meier Estimate of Time to Rescue (days).|Log Rank|||||||0.011
92401687|NCT01709721|184694277|SUPERIORITY|||||||0.0335|||||||Cochran-Mantel-Haenszel|||P-value by the Cochran-Mantel-Haenszel mean score test (using equally spaced scores).||||0.0335
92165098|NCT03622593|184218210|SUPERIORITY||Adjusted mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.73||0.493|TWO_SIDED|97.5|-1.1|2.1||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||2.1|-1.1|0.4930
92223803|NCT01888640|184348657|SUPERIORITY||Mean Difference (Final Values)|-0.4|||>|0.99|TWO_SIDED|95.0|-2.3|1.5|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||1.5|-2.3|>0.99
92223804|NCT01888640|184348657|SUPERIORITY||Mean Difference (Final Values)|-0.6|||>|0.99|TWO_SIDED|95.0|-2.4|1.3|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||1.3|-2.4|>0.99
92223805|NCT01888640|184348658|SUPERIORITY||Mean Difference (Final Values)|1.1|||>|0.99|TWO_SIDED|95.0|-1.9|4.1|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||4.1|-1.9|>0.99
92165099|NCT03622593|184218211|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in CMH weighted percentages of participants for the faricimab Q8W and the active comparator (aflibercept Q8W) arms was greater than -10%, then faricimab Q8W was considered non-inferior to aflibercept.|Difference in CMH Weighted Percentage|-2.6|||||TWO_SIDED|97.5|-12.6|7.4||||||This analysis is for the non-inferiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||7.4|-12.6|
92165100|NCT03622593|184218211|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in CMH weighted percentages of participants for the faricimab PTI and the active comparator (aflibercept Q8W) arms was greater than -10%, then faricimab PTI was considered non-inferior to aflibercept.|Difference in CMH Weighted Percentage|-3.5|||||TWO_SIDED|97.5|-13.4|6.3||||||This analysis is for the non-inferiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||6.3|-13.4|
92165101|NCT03622593|184218211|SUPERIORITY||Difference in CMH Weighted Percentage|-5.4||||0.3009|TWO_SIDED|97.5|-16.9|6.1||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||This analysis is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||6.1|-16.9|0.3009
92165102|NCT03622593|184218211|SUPERIORITY||Difference in CMH Weighted Percentage|-6.9||||0.1735|TWO_SIDED|97.5|-18.3|4.4||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||This analysis is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||4.4|-18.3|0.1735
92401688|NCT01709721|184694279|SUPERIORITY|Pearson's chi-square test||||||0.01||||||Pearson's chi-square test|Chi-squared|||||||0.010
92165103|NCT03622593|184218211|SUPERIORITY||Difference in CMH Weighted Percentage|-2.6||||0.5757|TWO_SIDED|97.5|-12.6|7.4||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||This analysis is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||7.4|-12.6|0.5757
92165104|NCT03622593|184218211|SUPERIORITY||Difference in CMH Weighted Percentage|-3.5||||0.4293|TWO_SIDED|97.5|-13.4|6.3||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||This analysis is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||6.3|-13.4|0.4293
92165105|NCT03622593|184218214|OTHER||Difference in CMH Weighted Percentage|3.5|||||TWO_SIDED|95.0|-4.0|11.1||||||This is the difference in percentage of participants gaining ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||11.1|-4.0|
92165106|NCT03622593|184218214|OTHER||Difference in CMH Weighted Percentage|-2.0|||||TWO_SIDED|95.0|-9.1|5.2||||||This is the difference in percentage of participants gaining ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||5.2|-9.1|
92401689|NCT03486912|184694331|SUPERIORITY||Odds Ratio (OR)|0.88||||0.773|TWO_SIDED|95.0|0.3|2.62|||Cochran-Mantel-Haenszel|||||2.62|0.30|0.773
92401690|NCT03486912|184694331|SUPERIORITY||Odds Ratio (OR)|0.72||||0.544|TWO_SIDED|95.0|0.23|2.23|||Cochran-Mantel-Haenszel|||||2.23|0.23|0.544
92401691|NCT03486912|184694331|SUPERIORITY||Odds Ratio (OR)|0.88||||0.811|TWO_SIDED|95.0|0.3|2.62|||Cochran-Mantel-Haenszel|||||2.62|0.30|0.811
92401692|NCT03486912|184694332|SUPERIORITY||Odds Ratio (OR)|1.12||||0.836|TWO_SIDED|95.0|0.4|3.09|||Cochran-Mantel-Haenszel|||||3.09|0.40|0.836
92401693|NCT03486912|184694332|SUPERIORITY||Odds Ratio (OR)|0.86||||0.763|TWO_SIDED|95.0|0.3|2.46|||Cochran-Mantel-Haenszel|||||2.46|0.30|0.763
92401694|NCT03486912|184694332|SUPERIORITY||Odds Ratio (OR)|0.89||||0.821|TWO_SIDED|95.0|0.32|2.51|||Cochran-Mantel-Haenszel|||||2.51|0.32|0.821
92401695|NCT03486912|184694333|SUPERIORITY||Odds Ratio (OR)|1.13||||0.837|TWO_SIDED|95.0|0.39|3.25|||Cochran-Mantel-Haenszel|||||3.25|0.39|0.837
92401696|NCT03486912|184694333|SUPERIORITY||Odds Ratio (OR)|1.53||||0.359|TWO_SIDED|95.0|0.54|4.4|||Cochran-Mantel-Haenszel|||||4.40|0.54|0.359
92223806|NCT01888640|184348658|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.17|TWO_SIDED|95.0|-0.6|5.3|||Linear mixed models for repeated measure|||||5.3|-0.6|0.17
92401697|NCT03486912|184694333|SUPERIORITY||Odds Ratio (OR)|1.26||||0.627|TWO_SIDED|95.0|0.44|3.61|||Cochran-Mantel-Haenszel|||||3.61|0.44|0.627
92223807|NCT01888640|184348659|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.36|TWO_SIDED|95.0|-0.7|3.1|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||3.1|-0.7|0.36
92223808|NCT01888640|184348659|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.58|TWO_SIDED|95.0|-0.8|2.8|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||2.8|-0.8|0.58
92223809|NCT01888640|184348660|SUPERIORITY||Mean Difference (Final Values)|19.0|||>|0.99|TWO_SIDED|95.0|-58.0|96.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||96|-58|>0.99
92359350|NCT04562090|184623238|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-6.01|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-6.78|-5.24||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 12||-5.24|-6.78|<0.001
92359351|NCT04562090|184623238|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-5.4|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-5.82|-4.98||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 12||-4.98|-5.82|<0.001
92359352|NCT04562090|184623239|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.97|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-2.73|-1.21||RMA: CFB as response, TG, visit (week 4, 8), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of micturitions per 24 hours at baseline as covariate.|MMRM|||Week 4||-1.21|-2.73|<0.001
92359353|NCT04562090|184623239|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.36|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.9|-1.81||RMA: CFB as response, TG, visit (week 4, 8), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of micturitions per 24 hours at baseline as covariate.|MMRM|||Week 4||-1.81|-2.90|<0.001
92359354|NCT04562090|184623239|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.2|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|-4.2|-2.2||RMA: CFB as response, TG, visit (week 4, 8), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of micturitions per 24 hours at baseline as covariate.|MMRM|||Week 8||-2.20|-4.20|<0.001
92359355|NCT04562090|184623239|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.92|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-3.47|-2.37||RMA: CFB as response, TG, visit (week 4, 8), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of micturitions per 24 hours at baseline as covariate.|MMRM|||Week 8||-2.37|-3.47|<0.001
92359356|NCT00432965|184623241|SUPERIORITY||Odds Ratio (OR)|1.89||||0.007|TWO_SIDED|95.0|1.19|3.02|||Fisher Exact|||Time Frame: Days 0-114||3.02|1.19|0.007
92401698|NCT03486912|184694334|SUPERIORITY||Odds Ratio (OR)|1.12||||0.864|TWO_SIDED|95.0|0.4|3.16|||Cochran-Mantel-Haenszel|||||3.16|0.40|0.864
92223810|NCT01888640|184348660|SUPERIORITY||Mean Difference (Final Values)|42.0|||>|0.99|TWO_SIDED|95.0|-34.0|117.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||117|-34|>0.99
92223811|NCT01888640|184348661|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.96|TWO_SIDED|95.0|-0.2|0.7|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||0.7|-0.2|0.96
92223812|NCT01888640|184348661|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.008|TWO_SIDED|95.0|0.1|1.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||1.0|0.1|0.008
92223813|NCT01888640|184348662|SUPERIORITY||||||>|0.99|||||||Linear mixed models for repeated measure|||Visit 2 to Visit 3||||>0.99
92223814|NCT01888640|184348662|SUPERIORITY||||||>|0.99|||||||Linear mixed models for repeated measure|||Visit 2 to Visit 3||||>0.99
92223815|NCT00684788|184348679|SUPERIORITY||Odds Ratio (OR)|5.68|||=|0.008|TWO_SIDED|95.0|1.61|20.02|||General Estimating Equation (GEE)|||||20.02|1.61|=0.008
92223816|NCT00684788|184348680|SUPERIORITY|||||||0.0033|||||||t-test, 2 sided|||||||0.0033
92223817|NCT00684788|184348683|SUPERIORITY||Odds Ratio (OR)|1.05||||0.939|TWO_SIDED|95.0|0.32|3.42|||General Estimating Equation (GEE)|||||3.42|0.32|0.939
92223818|NCT00684788|184348685|SUPERIORITY||Odds Ratio (OR)|1.074||||0.959|TWO_SIDED|95.0|0.071|16.245|||General Estimating Equation (GEE)|||||16.245|0.071|0.959
92359357|NCT01903863|184623243|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
92359358|NCT01903863|184623244|SUPERIORITY|||||||0.07||||||Intracranial hemorrhage|Fisher Exact|||||||0.07
92359359|NCT01903863|184623244|SUPERIORITY|||||||0.7||||||Surgical bleed|Fisher Exact|||||||0.7
92359360|NCT01903863|184623244|SUPERIORITY|||||||0.5||||||Gastrointestinal hemorrhage|Fisher Exact|||||||0.5
92359361|NCT01903863|184623245|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92359362|NCT01903863|184623246|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
92359363|NCT01903863|184623247|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
92359364|NCT01903863|184623248|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
92359365|NCT01903863|184623249|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92359366|NCT01903863|184623250|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92359367|NCT03909971|184623275|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92401699|NCT03486912|184694334|SUPERIORITY||Odds Ratio (OR)|0.85||||0.743|TWO_SIDED|95.0|0.29|2.49|||Cochran-Mantel-Haenszel|||||2.49|0.29|0.743
92401700|NCT03486912|184694334|SUPERIORITY||Odds Ratio (OR)|0.79||||0.63|TWO_SIDED|95.0|0.27|2.29|||Cochran-Mantel-Haenszel|||||2.29|0.27|0.630
92401701|NCT03486912|184694335|SUPERIORITY||Odds Ratio (OR)|1.43||||0.477|TWO_SIDED|95.0|0.48|4.25|||Cochran-Mantel-Haenszel|||||4.25|0.48|0.477
92401702|NCT03486912|184694335|SUPERIORITY||Odds Ratio (OR)|1.04||||0.814|TWO_SIDED|95.0|0.32|3.44|||Cochran-Mantel-Haenszel|||||3.44|0.32|0.814
92401703|NCT03486912|184694335|SUPERIORITY||Odds Ratio (OR)|0.64||||0.367|TWO_SIDED|95.0|0.21|1.93|||Cochran-Mantel-Haenszel|||||1.93|0.21|0.367
92401704|NCT03486912|184694336|SUPERIORITY|||||||0.309|||||||Cochran-Mantel-Haenszel|||||||0.309
92359368|NCT05318287|184623334|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.03||0.083|TWO_SIDED||||||t-test, 2 sided|||||||.083
92359369|NCT05318287|184623335|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.02||0.01|TWO_SIDED||||||t-test, 2 sided|||||||.010
92359370|NCT05318287|184623336|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.16|TWO_SIDED||||||t-test, 2 sided|||||||.160
92359371|NCT05318287|184623337|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|0.01|STANDARD_ERROR_OF_MEAN|0.01||0.167|TWO_SIDED||||||t-test, 2 sided|||||||.167
92359372|NCT05318287|184623338|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.012|TWO_SIDED||||||t-test, 2 sided|||||||.012
92359373|NCT05318287|184623339|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.347|TWO_SIDED||||||t-test, 2 sided|||||||.347
92359374|NCT05318287|184623340|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.007|TWO_SIDED||||||t-test, 2 sided|||||||.007
92359375|NCT05318287|184623341|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.02||0.001|TWO_SIDED||||||t-test, 2 sided|||||||.001
92359376|NCT05318287|184623342|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.403|TWO_SIDED||||||t-test, 2 sided|||||||.403
92359377|NCT05318287|184623343|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.194|TWO_SIDED||||||t-test, 2 sided|||||||.194
92359378|NCT03537508|184623357|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|1.86|||||TWO_SIDED|95.0|-4.38|8.64||||||Statistical analysis for Serogroup A||8.64|-4.38|
92359379|NCT03537508|184623357|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|8.75|||||TWO_SIDED|95.0|4.8|13.6||||||Statistical analysis for Serogroup C||13.60|4.80|
92359380|NCT03537508|184623357|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|4.09|||||TWO_SIDED|95.0|0.68|8.44||||||Statistical analysis for Serogroup Y||8.44|0.68|
92359381|NCT03537508|184623357|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|1.19|||||TWO_SIDED|95.0|-1.18|4.45||||||Statistical analysis for Serogroup W||4.45|-1.18|
92359382|NCT03537508|184623358|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|10.21|||||TWO_SIDED|95.0|4.98|15.59||||||Statistical analysis for Serogroup A||15.59|4.98|
92359383|NCT03537508|184623358|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|7.83|||||TWO_SIDED|95.0|5.31|10.96||||||Statistical analysis for Serogroup C||10.96|5.31|
92359384|NCT03537508|184623358|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|6.53|||||TWO_SIDED|95.0|4.01|9.62||||||Statistical analysis for Serogroup Y||9.62|4.01|
92359385|NCT03537508|184623358|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|5.72|||||TWO_SIDED|95.0|3.44|8.57||||||Statistical analysis for Serogroup W||8.57|3.44|
92359386|NCT00391716|184623419|SUPERIORITY_OR_OTHER||||||<|0.04|TWO_SIDED|||||The numerator is the number of subjects completely abstinent and the denominator is the number of subjects randomized, within each treatment group.|Mantel Haenszel|Extended Mantel-Haenszel Chi-square test for linear-by-linear association.||The extended Mantel-Haenszel Chi-square test for linear trend assesses the relationship between ROW and COLUMN of a single contingency table, where both row (dose: 0mg, 900mg, 1800mg) and column (response (0= non-abstinent, 1=abstinent), and at least 1 variable has more than 2 levels. It specifically tests linear dose-response without need for multiple comparisons.||||<0.04
92359387|NCT00391716|184623419|SUPERIORITY_OR_OTHER||||||<|0.02|TWO_SIDED|||||linear dose effects for rates of abstinence were assessed using the extended Mantel-Haenszel chi-square test for linear association.|Mantel Haenszel|The numerator is the number of subjects completely abstinent and the denominator is the number of subjects randomized, within each treatment group.||The extended Mantel-Haenszel Chi-square test for linear trend assesses the relationship between ROW and COLUMN of a single contingency table, where both row (dose: 0mg, 900mg, 1800mg) and column (response (0= heavy drinking, 1=no heavy drinking), and at least 1 variable has more than 2 levels. It specifically tests linear dose-response without need for multiple comparisons.||||<0.02
92359388|NCT00391716|184623420|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Cumulative means over 12 weeks|ANOVA|||||||<0.001
92359389|NCT00391716|184623421|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Cumulative means over 12 weeks|ANOVA|||||||<0.001
92359390|NCT00391716|184623422|SUPERIORITY_OR_OTHER||||||<|0.003||||||Cumulative means over 12 weeks|ANOVA|||||||<0.003
92401705|NCT03486912|184694336|SUPERIORITY|||||||0.146|||||||Cochran-Mantel-Haenszel|||||||0.146
92223819|NCT00419380|184348687|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Chi-squared|||Two by two contingency table was used to compare our outcome, tube patency yes/no, by our two independent variables, dornase alfa (Pulmozyme®) and Ofloxin.||||.36
92359391|NCT02757768|184623430|SUPERIORITY||Least Squares (LS) Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.19||0.039|TWO_SIDED|95.0|-0.76|-0.02|||ANCOVA|||Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.02|-0.76|0.039
92223820|NCT00419380|184348688|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED|||||Two by two contingency table was used to compare our outcome, presence/absence of ear drainage, by our two independent variables, dornase alfa (Pulmozyme®) and Ofloxin.|Chi-squared|||||||.26
92223821|NCT03099707|184348689|SUPERIORITY||Risk Ratio (RR)|5.2||||0.105|TWO_SIDED|95.0|0.6|43.0|||Fisher Exact|||||43|0.6|0.105
92359392|NCT02757768|184623431|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.18||0.558|TWO_SIDED|95.0|-0.46|0.25|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.25|-0.46|0.558
92359393|NCT02757768|184623431|SUPERIORITY||LS Mean of Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.19||0.007|TWO_SIDED|95.0|-0.89|-0.14|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.14|-0.89|0.007
92359394|NCT02757768|184623431|SUPERIORITY||LS Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.19||0.041|TWO_SIDED|95.0|-0.76|-0.02|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.02|-0.76|0.041
92359395|NCT02757768|184623432|SUPERIORITY||LS Mean of Difference|3.87|STANDARD_ERROR_OF_MEAN|2.8||0.167|TWO_SIDED|95.0|-1.63|9.37|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||9.37|-1.63|0.167
92359396|NCT02757768|184623432|SUPERIORITY||LS Mean of Difference|6.29|STANDARD_ERROR_OF_MEAN|3.28||0.056|TWO_SIDED|95.0|-0.15|12.73|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||12.73|-0.15|0.056
92223822|NCT01890642|184348719|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Kruskal-Wallis|||||||0.01
92223823|NCT01890642|184348720|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Kruskal-Wallis|||||||0.80
92359397|NCT02757768|184623432|SUPERIORITY||LS Mean of Difference|8.99|STANDARD_ERROR_OF_MEAN|3.58||0.012|TWO_SIDED|95.0|1.97|16.01|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||16.01|1.97|0.012
92359398|NCT02757768|184623432|SUPERIORITY||LS Mean of Difference|9.25|STANDARD_ERROR_OF_MEAN|3.43||0.007|TWO_SIDED|95.0|2.53|15.98|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||15.98|2.53|0.007
92359399|NCT02757768|184623433|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.26||0.747|TWO_SIDED|95.0|-0.63|0.38|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.38|-0.63|0.747
92359400|NCT02757768|184623433|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.32||0.393|TWO_SIDED|95.0|-0.72|0.54|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.54|-0.72|0.393
92359401|NCT02757768|184623433|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.32||0.672|TWO_SIDED|95.0|-0.87|0.38|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.38|-0.87|0.672
92359402|NCT02757768|184623433|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.64|TWO_SIDED|95.0|-0.9|0.3|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.30|-0.90|0.640
92223824|NCT01890642|184348721|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Kruskal-Wallis|||||||0.004
92223825|NCT01890642|184348722|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Kruskal-Wallis|||||||0.0001
92223826|NCT01890642|184348723|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Kruskal-Wallis|||||||0.37
92223827|NCT02025426|184348758|OTHER|||||||0.547|||||||Kruskal-Wallis|||||||0.547
92223828|NCT02025426|184348760|OTHER|||||||0.925|||||||Kruskal-Wallis|||||||0.925
92223829|NCT02025426|184348761|OTHER|||||||0.498|||||||Kruskal-Wallis|||||||0.498
92223830|NCT02025426|184348762|OTHER|||||||0.201|||||||Kruskal-Wallis|||||||0.201
92223831|NCT02025426|184348763|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92223832|NCT02025426|184348764|OTHER|||||||0.962|||||||Fisher Exact|||||||0.962
92223833|NCT02025426|184348765|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92223834|NCT01008280|184348782|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||Wald Chi-squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed time effects for the number of drinking days.||||<0.01
92223835|NCT01008280|184348782|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed group effects for the number of drinking days.||||>0.01
92359403|NCT02757768|184623434|SUPERIORITY||LS Mean of Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.21||0.222|TWO_SIDED|95.0|-0.68|0.16|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.16|-0.68|0.222
92359404|NCT02757768|184623434|SUPERIORITY||LS Mean of Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.24||0.003|TWO_SIDED|95.0|-1.18|-0.24|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.24|-1.18|0.003
92359405|NCT02757768|184623434|SUPERIORITY||LS Mean of Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.24||0.008|TWO_SIDED|95.0|-1.13|-0.17|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.17|-1.13|0.008
92359406|NCT02757768|184623434|SUPERIORITY||LS Mean of Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.23||0.004|TWO_SIDED|95.0|-1.13|-0.21|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.21|-1.13|0.004
92359407|NCT02757768|184623435|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.4||0.723|TWO_SIDED|95.0|-0.6|0.9|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.9|-0.6|0.723
92359408|NCT02757768|184623435|SUPERIORITY||LS Mean of Difference|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.7|TWO_SIDED|95.0|-0.7|1.0|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||1.0|-0.7|0.700
92359409|NCT02757768|184623435|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.5||0.4|TWO_SIDED|95.0|-1.3|0.5|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.5|-1.3|0.400
92359410|NCT02757768|184623435|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.4||0.812|TWO_SIDED|95.0|-1.0|0.8|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.8|-1.0|0.812
92359411|NCT02757768|184623436|SUPERIORITY||LS Mean of Difference|0.4|STANDARD_ERROR_OF_MEAN|0.3||0.121|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.9|-0.1|0.121
92359412|NCT02757768|184623436|SUPERIORITY||LS Mean of Difference|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.241|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.8|-0.2|0.241
92359413|NCT02757768|184623436|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.3||0.843|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.5|-0.6|0.843
92359414|NCT02757768|184623436|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.679|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.7|-0.4|0.679
92359415|NCT02757768|184623437|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.175|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.7|0.175
92359416|NCT02757768|184623437|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.43|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.2|-0.6|0.430
92359417|NCT02757768|184623437|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.141|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.8|0.141
92359418|NCT02757768|184623437|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.288|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.2|-0.7|0.288
92401706|NCT03486912|184694336|SUPERIORITY|||||||0.317|||||||Cochran-Mantel-Haenszel|||||||0.317
92401707|NCT03486912|184694337|SUPERIORITY||Odds Ratio (OR)|6.91||||0.054|TWO_SIDED|95.0|0.76|325.97|||Cochran-Mantel-Haenszel|||||325.97|0.76|0.054
92223836|NCT01008280|184348782|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed time by group effects for the number of drinking days.||||>0.01
92223837|NCT01008280|184348783|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed time effects for the number of drinks.||||<0.01
92223838|NCT01008280|184348783|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed group effects for the number of drinks.||||>0.01
92223839|NCT01008280|184348783|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed group by time effects for the number of drinks.||||>0.01
92223840|NCT01008280|184348784|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed time effects for the number of heavy drinking days.||||<0.01
92359419|NCT02757768|184623438|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.128|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.0|-0.3|0.128
92359420|NCT02757768|184623438|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.054|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.0|-0.4|0.054
92359421|NCT02757768|184623438|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.079|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.0|-0.4|0.079
92359422|NCT02757768|184623438|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.148|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.4|0.148
92359423|NCT02757768|184623439|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.25||0.66|TWO_SIDED|95.0|-0.61|0.39|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.39|-0.61|0.660
92359424|NCT02757768|184623439|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.32||0.767|TWO_SIDED|95.0|-0.72|0.53|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.53|-0.72|0.767
92359425|NCT02757768|184623439|SUPERIORITY||LS Mean of Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.31||0.372|TWO_SIDED|95.0|-0.89|0.34|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.34|-0.89|0.372
92359426|NCT02757768|184623439|SUPERIORITY||LS Mean of Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.3||0.272|TWO_SIDED|95.0|-0.92|0.26|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.26|-0.92|0.272
92359427|NCT02757768|184623440|SUPERIORITY||LS Mean of Difference|-1.75|STANDARD_ERROR_OF_MEAN|1.3||0.179|TWO_SIDED|95.0|-4.29|0.8|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.80|-4.29|0.179
92359428|NCT02757768|184623440|SUPERIORITY||LS Mean of Difference|-3.84|STANDARD_ERROR_OF_MEAN|1.41||0.006|TWO_SIDED|95.0|-6.6|-1.08|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-1.08|-6.60|0.006
92359429|NCT02757768|184623440|SUPERIORITY||LS Mean of Difference|-2.9|STANDARD_ERROR_OF_MEAN|1.51||0.055|TWO_SIDED|95.0|-5.86|0.06|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.06|-5.86|0.055
92223841|NCT01008280|184348784|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed group effects for the number of heavy drinking days.||||>0.01
92223842|NCT01008280|184348784|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed group by time effects for the number of heavy drinking days.||||>0.01
92227186|NCT01727258|184356487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.98|STANDARD_ERROR_OF_MEAN|3.313|<|0.001|TWO_SIDED|95.0|-18.53|-5.43||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-5.43|-18.53|<0.001
92359430|NCT02757768|184623440|SUPERIORITY||LS Mean of Difference|-2.11|STANDARD_ERROR_OF_MEAN|1.48||0.154|TWO_SIDED|95.0|-5.02|0.8|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.80|-5.02|0.154
92359431|NCT02757768|184623441|SUPERIORITY||LS Mean of Difference|-1.35|STANDARD_ERROR_OF_MEAN|1.13||0.233|TWO_SIDED|95.0|-3.57|0.87|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.87|-3.57|0.233
92359432|NCT02757768|184623441|SUPERIORITY||LS Mean of Difference|0.46|STANDARD_ERROR_OF_MEAN|1.2||0.698|TWO_SIDED|95.0|-1.89|2.82|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||2.82|-1.89|0.698
92359433|NCT02757768|184623441|SUPERIORITY||LS Mean of Difference|0.89|STANDARD_ERROR_OF_MEAN|1.28||0.486|TWO_SIDED|95.0|-1.62|3.4|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.40|-1.62|0.486
92165107|NCT03622593|184218214|OTHER||Difference in CMH Weighted Percentage|5.4|||||TWO_SIDED|95.0|-2.5|13.4||||||This is the difference in percentage of participants gaining ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||13.4|-2.5|
92165108|NCT03622593|184218214|OTHER||Difference in CMH Weighted Percentage|-1.1|||||TWO_SIDED|95.0|-8.9|6.8||||||This is the difference in percentage of participants gaining ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||6.8|-8.9|
92165109|NCT03622593|184218214|OTHER||Difference in CMH Weighted Percentage|3.8|||||TWO_SIDED|95.0|-2.7|10.3||||||This is the difference in percentage of participants gaining ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||10.3|-2.7|
92165110|NCT03622593|184218214|OTHER||Difference in CMH Weighted Percentage|-0.7|||||TWO_SIDED|95.0|-7.3|5.9||||||This is the difference in percentage of participants gaining ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||5.9|-7.3|
92165111|NCT03622593|184218214|OTHER||Difference in CMH Weighted Percentage|0.7|||||TWO_SIDED|95.0|-3.8|5.2||||||This is the difference in percentage of participants gaining ≥0 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||5.2|-3.8|
92165112|NCT03622593|184218214|OTHER||Difference in CMH Weighted Percentage|-0.3|||||TWO_SIDED|95.0|-4.9|4.2||||||This is the difference in percentage of participants gaining ≥0 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||4.2|-4.9|
92165113|NCT03622593|184218219|OTHER||Difference in CMH Weighted Percentage|0.2|||||TWO_SIDED|95.0|-8.5|8.9||||||This is the difference in percentage of participants gaining ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||8.9|-8.5|
92165114|NCT03622593|184218219|OTHER||Difference in CMH Weighted Percentage|-3.5|||||TWO_SIDED|95.0|-11.8|4.8||||||This is the difference in percentage of participants gaining ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||4.8|-11.8|
92165115|NCT03622593|184218219|OTHER||Difference in CMH Weighted Percentage|2.2|||||TWO_SIDED|95.0|-6.9|11.4||||||This is the difference in percentage of participants gaining ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||11.4|-6.9|
92165116|NCT03622593|184218219|OTHER||Difference in CMH Weighted Percentage|-0.8|||||TWO_SIDED|95.0|-9.8|8.1||||||This is the difference in percentage of participants gaining ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||8.1|-9.8|
92165117|NCT03622593|184218219|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-6.2|8.5||||||This is the difference in percentage of participants gaining ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||8.5|-6.2|
92165118|NCT03622593|184218219|OTHER||Difference in CMH Weighted Percentage|-1.1|||||TWO_SIDED|95.0|-8.3|6.2||||||This is the difference in percentage of participants gaining ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||6.2|-8.3|
92165119|NCT03622593|184218219|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-3.8|6.2||||||This is the difference in percentage of participants gaining ≥0 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||6.2|-3.8|
92165120|NCT03622593|184218219|OTHER||Difference in CMH Weighted Percentage|0.2|||||TWO_SIDED|95.0|-4.8|5.2||||||This is the difference in percentage of participants gaining ≥0 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||5.2|-4.8|
92165121|NCT03622593|184218224|OTHER||Difference in CMH Weighted Percentage|0.3|||||TWO_SIDED|95.0|-1.6|2.1||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.1|-1.6|
92165122|NCT03622593|184218224|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-1.8|1.9||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||1.9|-1.8|
92165123|NCT03622593|184218224|OTHER||Difference in CMH Weighted Percentage|-0.1|||||TWO_SIDED|95.0|-2.3|2.1||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.1|-2.3|
92165124|NCT03622593|184218224|OTHER||Difference in CMH Weighted Percentage|-0.3|||||TWO_SIDED|95.0|-2.4|1.9||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||1.9|-2.4|
92165125|NCT03622593|184218224|OTHER||Difference in CMH Weighted Percentage|1.3|||||TWO_SIDED|95.0|-1.9|4.5||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||4.5|-1.9|
92223843|NCT04681170|184348794|OTHER||Mean Difference (Net)|-53.91|||<|0.0001|TWO_SIDED|95.0|-61.859|-45.9612|||t-test, 1 sided|||This was a single-arm study, no comparative group can be assigned; the comparison made for the primary efficacy endpoint is done only between baseline and Week 24 in paediatric subjects (5 to ≤17 years of age). Analysis was made using the one-sample t-test to test the null hypothesis that the percentage change from Baseline was equal to zero against the alternative hypothesis that the percentage change from Baseline was not equal to zero.||-45.9612|-61.8590|<0.0001
92223844|NCT01394081|184348816|SUPERIORITY||||||<|0.0001|||||||Chi-squared, Corrected|||||||<.0001
92359434|NCT02757768|184623441|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|1.26||0.968|TWO_SIDED|95.0|-2.52|2.42|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||2.42|-2.52|0.968
92359435|NCT02757768|184623442|SUPERIORITY||LS Mean of Difference|-1.89|STANDARD_ERROR_OF_MEAN|1.36||0.165|TWO_SIDED|95.0|-4.56|0.78|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.78|-4.56|0.165
92359436|NCT02757768|184623442|SUPERIORITY||LS Mean of Difference|0.76|STANDARD_ERROR_OF_MEAN|1.41||0.592|TWO_SIDED|95.0|-2.02|3.54|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.54|-2.02|0.592
92359437|NCT02757768|184623442|SUPERIORITY||LS Mean of Difference|0.9|STANDARD_ERROR_OF_MEAN|1.54||0.559|TWO_SIDED|95.0|-2.12|3.92|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.92|-2.12|0.559
92223845|NCT01394081|184348817|SUPERIORITY||||||<|0.0001|||||||Log Rank|log rank Mantel Cox χ2 = 25.4||||||<.0001
92223846|NCT02118792|184348834|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92223847|NCT01046825|184348939|SUPERIORITY|||||||0.555|||||||Log Rank|||||||0.5550
92223848|NCT01046825|184348940|SUPERIORITY|||||||0.3605|||||||Log Rank|||||||0.3605
92223849|NCT01046825|184348941|SUPERIORITY|||||||0.6181|||||||Chi-squared|||||||0.6181
92223850|NCT05215600|184348943|OTHER|P-values account for preoperative versus postoperative mean values at 1 and 2 years|||||<|0.001|||||||t-test, 2 sided|T-Test (Pooled)||||||<0.001
92223851|NCT05215600|184348944|OTHER|P-values account for preoperative versus postoperative mean values at 1 and 2 years|||||<|0.001|||||||t-test, 2 sided|T-Test (Pooled)||||||<0.001
92276691|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.21||||0.1396|TWO_SIDED|95.0|0.94|1.55|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.55|0.94|0.1396
92359438|NCT02757768|184623442|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|1.51||0.985|TWO_SIDED|95.0|-2.94|3.0|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.00|-2.94|0.985
92359439|NCT02757768|184623443|SUPERIORITY||LS Mean of Difference|-1.82|STANDARD_ERROR_OF_MEAN|1.29||0.161|TWO_SIDED|95.0|-4.35|0.72|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.72|-4.35|0.161
92359440|NCT02757768|184623443|SUPERIORITY||LS Mean of Difference|0.35|STANDARD_ERROR_OF_MEAN|1.38||0.798|TWO_SIDED|95.0|-2.36|3.07|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.07|-2.36|0.798
92359441|NCT02757768|184623443|SUPERIORITY||LS Mean of Difference|1.17|STANDARD_ERROR_OF_MEAN|1.42||0.408|TWO_SIDED|95.0|-1.61|3.95|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.95|-1.61|0.408
92359442|NCT02757768|184623443|SUPERIORITY||LS Mean of Difference|0.14|STANDARD_ERROR_OF_MEAN|1.39||0.919|TWO_SIDED|95.0|-2.6|2.88|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||2.88|-2.60|0.919
92227187|NCT01727258|184356488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.26|STANDARD_ERROR_OF_MEAN|3.163||0.01|TWO_SIDED|95.0|-14.51|-2.0||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-2.00|-14.51|0.010
92227188|NCT01727258|184356488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26|STANDARD_ERROR_OF_MEAN|3.16||0.179|TWO_SIDED|95.0|-1.98|10.51||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||10.51|-1.98|0.179
92359443|NCT02757768|184623444|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|1.49||0.99|TWO_SIDED|95.0|-2.94|2.91|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||2.91|-2.94|0.990
92223852|NCT04868903|184349009|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.1|TWO_SIDED|95.0|0.51|1.06|||Regression, Cox|Prespecified primary analysis using multivariable Cox proportional hazards regression to examine the effect of pooled moderate or high versus low dose||Pooled moderate or high versus low dose|Prespecified covariates were male sex, non-White race or Hispanic ethnicity, \>30 minutes sun exposure daily, moderate or severe insomnia, COVID-19 exposure outside work, employment, randomization date, and study site. Most covariates were binary after combining infrequent, ordinal variables. Baseline 25(OH)D level, age, and randomization date were continuous. An indicator was added for randomization after February 28, 2021 because only participants randomized after then could be active in the study when infection risk increased after Omicron arrived in Chicago about December 1, 2021. Due to differences in enrollment timing by study branch and site could affect baseline COVID-19 risk, we stratified Cox regression by study branch and site. This model satisfied proportional hazards.|1.06|0.51|0.10
92223853|NCT04868903|184349009|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.042|TWO_SIDED|95.0|0.39|0.98|||Regression, Cox|Secondary analysis using multivariable Cox proportional hazards regression to examine the effects of moderate versus low dose and high versus low dose||Moderate versus low dose|Covariates were male sex, non-White race or Hispanic ethnicity, \>30 minutes sun exposure daily, moderate or severe insomnia, COVID-19 exposure outside work, employment, randomization date, and study site. Most covariates were binary after combining infrequent, ordinal variables. Baseline 25(OH)D level, age, and randomization date were continuous. An indicator was added for randomization after February 28, 2021 because only participants randomized after then could be active in the study when infection risk increased after Omicron arrived in Chicago about December 1, 2021. Due to differences in enrollment timing by study branch and site could affect baseline COVID-19 risk, we stratified Cox regression by study branch and site. This model satisfied proportional hazards.|0.98|0.39|0.042
92276692|NCT01360632|184454767|SUPERIORITY_OR_OTHER||Ratio of response rate|1.46||||0.0016|TWO_SIDED|95.0|1.15|1.86|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.86|1.15|0.0016
92359444|NCT02757768|184623444|SUPERIORITY||LS Mean of Difference|0.92|STANDARD_ERROR_OF_MEAN|1.55||0.554|TWO_SIDED|95.0|-2.12|3.96|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.96|-2.12|0.554
92359445|NCT02757768|184623444|SUPERIORITY||LS Mean of Difference|1.53|STANDARD_ERROR_OF_MEAN|1.63||0.348|TWO_SIDED|95.0|-1.67|4.73|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||4.73|-1.67|0.348
92359446|NCT02757768|184623444|SUPERIORITY||LS Mean of Difference|0.25|STANDARD_ERROR_OF_MEAN|1.6||0.876|TWO_SIDED|95.0|-2.89|3.38|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.38|-2.89|0.876
92359447|NCT02757768|184623445|SUPERIORITY||LS Mean of Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.05||0.293|TWO_SIDED|95.0|-3.16|0.95|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.95|-3.16|0.293
92359448|NCT02757768|184623445|SUPERIORITY||LS Mean of Difference|-0.32|STANDARD_ERROR_OF_MEAN|1.12||0.773|TWO_SIDED|95.0|-2.52|1.87|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||1.87|-2.52|0.773
92359449|NCT02757768|184623445|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|1.12||0.94|TWO_SIDED|95.0|-2.28|2.11|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||2.11|-2.28|0.940
92359450|NCT02757768|184623445|SUPERIORITY||LS Mean of Difference|-0.71|STANDARD_ERROR_OF_MEAN|1.1||0.516|TWO_SIDED|95.0|-2.86|1.44|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||1.44|-2.86|0.516
92359451|NCT02757768|184623446|SUPERIORITY|||||||0.4591|||||||t-test, 2 sided|Statistical comparisons were be made using 2-sided tests at α = 0.05 significance level.||Week 4 Placebo vs. Mirabegron.||||0.4591
92359452|NCT02757768|184623446|SUPERIORITY|||||||0.4073|||||||t-test, 2 sided|Statistical comparisons were be made using 2-sided tests at α = 0.05 significance level.||Week 8 Placebo vs. Mirabegron.||||0.4073
92359453|NCT02757768|184623446|SUPERIORITY|||||||0.774|||||||t-test, 2 sided|Statistical comparisons were be made using 2-sided tests at α = 0.05 significance level.||Week 12 Placebo vs. Mirabegron.||||0.7740
92359454|NCT02757768|184623446|SUPERIORITY|||||||0.5121|||||||t-test, 2 sided|Statistical comparisons were be made using 2-sided tests at α = 0.05 significance level.||EoT Placebo vs. Mirabegron.||||0.5121
92359455|NCT02757768|184623447|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.223|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.2|0.223
92401708|NCT03486912|184694337|SUPERIORITY||Odds Ratio (OR)|12.21||||0.004|TWO_SIDED|95.0|1.5|549.08|||Cochran-Mantel-Haenszel|||||549.08|1.50|0.004
92165126|NCT03622593|184218224|OTHER||Difference in CMH Weighted Percentage|1.6|||||TWO_SIDED|95.0|-1.5|4.6||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||4.6|-1.5|
92359456|NCT02757768|184623447|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.598|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.2|0.598
92359457|NCT02757768|184623447|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.312|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.3|0.312
92359458|NCT02757768|184623447|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.525|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.2|0.525
92359459|NCT02757768|184623449|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.11||0.226|TWO_SIDED|95.0|-0.08|0.34|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.34|-0.08|0.226
92359460|NCT02757768|184623449|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.11||0.501|TWO_SIDED|95.0|-0.14|0.28|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.28|-0.14|0.501
92359461|NCT02757768|184623449|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.984|TWO_SIDED|95.0|-0.22|0.23|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.23|-0.22|0.984
92359462|NCT02757768|184623449|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.11||0.78|TWO_SIDED|95.0|-0.18|0.24|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.24|-0.18|0.780
92359463|NCT02757768|184623450|SUPERIORITY||LS Mean of Difference|3.1|STANDARD_ERROR_OF_MEAN|1.9||0.107|TWO_SIDED|95.0|-0.7|6.8|||ANCOVA|||Week 4 Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||6.8|-0.7|0.107
92359464|NCT02757768|184623450|SUPERIORITY||LS Mean of Difference|2.5|STANDARD_ERROR_OF_MEAN|1.9||0.19|TWO_SIDED|95.0|-1.3|6.3|||ANCOVA|||Week 8 Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||6.3|-1.3|0.190
92401709|NCT03486912|184694337|SUPERIORITY||Odds Ratio (OR)|5.59||||0.087|TWO_SIDED|95.0|0.57|271.11|||Cochran-Mantel-Haenszel|||||271.11|0.57|0.087
92165127|NCT03622593|184218228|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-2.3|2.2||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.2|-2.3|
92165128|NCT03622593|184218228|OTHER||Difference in CMH Weighted Percentage|0.1|||||TWO_SIDED|95.0|-2.0|2.2||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||2.2|-2.0|
92165129|NCT03622593|184218228|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-2.7|2.6||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.6|-2.7|
92165130|NCT03622593|184218228|OTHER||Difference in CMH Weighted Percentage|-0.3|||||TWO_SIDED|95.0|-2.9|2.3||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||2.3|-2.9|
92165131|NCT03622593|184218228|OTHER||Difference in CMH Weighted Percentage|1.3|||||TWO_SIDED|95.0|-2.0|4.7||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||4.7|-2.0|
92165132|NCT03622593|184218228|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-2.1|4.4||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||4.4|-2.1|
92165133|NCT03622593|184218232|OTHER||Difference in CMH Weighted Percentage|4.8|||||TWO_SIDED|95.0|-3.1|12.7||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||12.7|-3.1|
92165134|NCT03622593|184218232|OTHER||Difference in CMH Weighted Percentage|-1.3|||||TWO_SIDED|95.0|-8.8|6.2||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||6.2|-8.8|
92165135|NCT03622593|184218232|OTHER||Difference in CMH Weighted Percentage|2.6|||||TWO_SIDED|95.0|-6.5|11.6||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||11.6|-6.5|
92165136|NCT03622593|184218232|OTHER||Difference in CMH Weighted Percentage|-1.3|||||TWO_SIDED|95.0|-10.0|7.4||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||7.4|-10.0|
92165137|NCT03622593|184218235|OTHER||Difference in CMH Weighted Percentage|4.7|||||TWO_SIDED|95.0|-2.4|11.8||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||11.8|-2.4|
92405845|NCT04730271|184702009|SUPERIORITY|||||||0.8088|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.8088
92223854|NCT04868903|184349009|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.99|TWO_SIDED|95.0|0.53|1.86|||Regression, Cox|Secondary analysis using multivariable Cox proportional hazards regression to examine the effects of moderate versus low dose and high versus low dose||High versus low dose|Covariates were male sex, non-White race or Hispanic ethnicity, \>30 minutes sun exposure daily, moderate or severe insomnia, COVID-19 exposure outside work, employment, randomization date, and study site. Most covariates were binary after combining infrequent, ordinal variables. Baseline 25(OH)D level, age, and randomization date were continuous. An indicator was added for randomization after February 28, 2021 because only participants randomized after then could be active in the study when infection risk increased after Omicron arrived in Chicago about December 1, 2021. Due to differences in enrollment timing by study branch and site could affect baseline COVID-19 risk, we stratified Cox regression by study branch and site. This model satisfied proportional hazards.|1.86|0.53|0.99
92223855|NCT04868903|184349009|SUPERIORITY||Odds Ratio (OR)|0.62||||0.26|TWO_SIDED|95.0|0.27|1.43|||Regression, Logistic||Multivariable logistic regression with the prespecified covariates and study branch to examine the effect of pooled moderate or high versus low dose|Secondary analysis, pooled moderate versus low dose||1.43|0.27|0.26
92359465|NCT02757768|184623450|SUPERIORITY||LS Mean of Difference|2.2|STANDARD_ERROR_OF_MEAN|2.1||0.297|TWO_SIDED|95.0|-1.9|6.3|||ANCOVA|||Week 12 Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||6.3|-1.9|0.297
92401710|NCT02491684|184694338|SUPERIORITY_OR_OTHER||Ratio of proportions|1.29||||0.645|TWO_SIDED|95.0|0.43|3.85|||log-binomial regression model|The ratio of proportions was calculated by back-transforming the estimated treatment effect.|AZD9412 versus Placebo|Proportions of patients with exacerbations are compared using a log-binomial regression model with treatment group and region as factors.||3.85|0.43|0.645
92401711|NCT02491684|184694339|SUPERIORITY_OR_OTHER||Ratio of proportions|1.97||||0.411|TWO_SIDED|95.0|0.39|9.89|||log-binomial regression model|The ratio of proportions was calculated by back-transforming the estimated treatment effect.|AZD9412 versus Placebo for Days 1 - 7|Proportions of patients with exacerbations are compared using a log-binomial regression model with treatment group and region as factors.||9.89|0.39|0.411
92401712|NCT02491684|184694339|SUPERIORITY_OR_OTHER||Ratio of proportions|1.25||||0.659|TWO_SIDED|95.0|0.46|3.41|||log-binomial regression model|The ratio of proportions was calculated by back-transforming the estimated treatment effect.|AZD9412 versus Placebo for Days 1 - 30|Proportions of patients with exacerbations are compared using a log-binomial regression model with treatment group and region as factors.||3.41|0.46|0.659
92401713|NCT02491684|184694340|SUPERIORITY_OR_OTHER||Ratio of proportions|1.1||||0.944|TWO_SIDED|95.0|0.08|15.79|||log-binomial regression model|The ratio of proportions was calculated by back-transforming the estimated treatment effect.|AZD9412 versus Placebo for Days 1 - 14|Proportions of patients with exacerbations are compared using a log-binomial regression model with treatment group and region as factors.||15.79|0.08|0.944
92401714|NCT02491684|184694340|SUPERIORITY_OR_OTHER||Ratio of proportions|1.1||||0.944|TWO_SIDED|95.0|0.08|15.79|||log-binomial regression model|The ratio of proportions was calculated by back-transforming the estimated treatment effect.|AZD9412 versus Placebo for Days 1 - 30|Proportions of patients with exacerbations are compared using a log-binomial regression model with treatment group and region as factors.||15.79|0.08|0.944
92401715|NCT02491684|184694341|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.634|TWO_SIDED|95.0|0.45|3.77|||Regression, Cox|Hazard ratio was calculated adjusting for treatment group and region.|AZD9412 versus Placebo|Analysis of time to first severe exacerbation within 30 days of treatment start.||3.77|0.45|0.634
92401716|NCT02491684|184694342|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.973|TWO_SIDED|95.0|0.07|16.78|||Regression, Cox|Hazard ratio was calculated adjusting for treatment group and region.|AZD9412 versus Placebo|Analysis of time to first moderate exacerbation within 30 days of treatment start.||16.78|0.07|0.973
92401717|NCT02491684|184694344|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean difference|0.09||||0.495|TWO_SIDED|95.0|-0.17|0.35|||ANCOVA|Change from baseline is analysed using an Analysis of Covariance (ANCOVA) model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo for change from baseline in total score at Visit 4.|Analysis of change from baseline in total score at Visit 4.||0.35|-0.17|0.495
92223856|NCT04868903|184349009|SUPERIORITY||Odds Ratio (OR)|0.38||||0.06|TWO_SIDED|95.0|0.13|1.04|||Regression, Logistic||Multivariable logistic regression with the prespecified covariates and study branch to examine the effects of moderate versus low dose and high versus low dose|Secondary analysis, moderate versus low dose||1.04|0.13|0.06
92359466|NCT02757768|184623450|SUPERIORITY||LS Mean of Difference|1.4|STANDARD_ERROR_OF_MEAN|2.1||0.493|TWO_SIDED|95.0|-2.7|5.5|||ANCOVA|||EoT Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||5.5|-2.7|0.493
92401718|NCT02491684|184694344|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.715|TWO_SIDED|95.0|-0.26|0.38|||ANCOVA|Change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of change from baseline in total score at Visit 6.||0.38|-0.26|0.715
92401719|NCT02491684|184694344|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.687|TWO_SIDED|95.0|-0.42|0.28|||ANCOVA|Change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of change from baseline in total score at Visit 8.||0.28|-0.42|0.687
92401720|NCT02491684|184694345|SUPERIORITY_OR_OTHER||LS Mean difference|0.11||||0.516|TWO_SIDED|95.0|-0.23|0.45|||ANCOVA|AUC for change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of AUC for change from baseline in total score over Days 1-14.||0.45|-0.23|0.516
92401721|NCT02491684|184694345|SUPERIORITY_OR_OTHER||LS mean difference|0.11||||0.417|TWO_SIDED|95.0|-0.16|0.37|||ANCOVA|AUC for change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of AUC for change from baseline in total score over Days 1-7.||0.37|-0.16|0.417
92405846|NCT04730271|184702010|SUPERIORITY|||||||0.4851|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL at 12 weeks||||0.4851
92223857|NCT04868903|184349009|SUPERIORITY||Odds Ratio (OR)|1.67||||0.47|TWO_SIDED|95.0|0.41|6.71|||Regression, Logistic||Multivariable logistic regression with the prespecified covariates and study branch to examine the effects of moderate versus low dose and high versus low dose|Secondary analysis, high versus low dose||6.71|0.41|0.47
92223858|NCT03975647|184349014|OTHER||Hazard Ratio (HR)|0.759||||0.0163|TWO_SIDED|95.0|0.607|0.95|||Log Rank||HR was calculated from Cox proportional hazards model. (line of treatment for metastatic: first versus \[vs\] other; hormone receptor status: negative vs positive; presence or history of brain metastases: yes vs no; ECOG status: 0,1 at randomization.|||0.950|0.607|0.0163
92223859|NCT03975647|184349016|OTHER||Hazard Ratio (HR)|0.639||||0.0078|TWO_SIDED|95.0|0.459|0.891|||Log Rank||HR was calculated from Cox proportional hazards model. (line of treatment for metastatic: first versus \[vs\] other; hormone receptor status: negative vs positive; presence or history of brain metastases: yes vs no; ECOG status: 0,1 at randomization.|||0.891|0.459|0.0078
92223860|NCT03975647|184349017|OTHER|||||||0.2055|||||||Cochran-Mantel-Haenszel|||||||0.2055
92223861|NCT03735667|184349027|NON_INFERIORITY|A Bayesian analysis based on 10,000 samples from the posterior distribution, using a piecewise exponential survival model. The criteria for non-inferiority is met if the posterior probability of non-inferiority is greater than the non-inferiority test threshold.|||||||||||||||||A Bayesian analysis was used to test the non-inferiority hypothesis for the primary endpoint using a non-inferiority margin of 8%. The pre-specified success criteria (the non-inferiority test threshold) was a posterior probability of non-inferiority greater than 97.5%. The observed posterior probability of non-inferiority was 77.9%. The posterior median percentage difference in the rate of the primary outcome was 6.63% (95% Bayesian credible interval: 3.04% to 10.20%).|||
92223862|NCT03092726|184349056|SUPERIORITY||LS Mean (LSM) Difference|0.06|STANDARD_ERROR_OF_MEAN|0.26||0.59|TWO_SIDED|90.0|-0.38|0.5||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Differences of least squares (LS) means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a mixed-effect, repeated measures (MMRM) model with change from baseline to each week from weeks 1 to 8 as response, treatment, center (pooled where necessary), time (study weeks 1 to 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||0.50|-0.38|0.590
92223863|NCT03092726|184349060|SUPERIORITY||Difference of percentages|-6.6||||0.874|TWO_SIDED|90.0|-18.7|5.7||1-sided p-value is for comparison of ASP8062 30 mg with placebo using Fisher's Exact method.|Fisher Exact|||Week 8: Differences of the percentages were calculated by subtracting the percentage of placebo group from the percentage of ASP8062 30 mg group. Confidence Interval (CI) for each treatment group and the difference of the percentages was an exact unconditional confidence interval based on Santner-Snell approach.||5.7|-18.7|0.874
92223864|NCT03092726|184349060|SUPERIORITY||Differences of percentages|-5.6||||0.838|TWO_SIDED|90.0|-17.7|6.7||1-sided p-value is for comparison of ASP8062 30 mg with placebo using Fisher's Exact method.|Fisher Exact|||EOT: Differences of the percentages were calculated by subtracting the percentage of placebo group from the percentage of ASP8062 30 mg group. Confidence Interval (CI) for each treatment group and the difference of the percentages was an exact unconditional confidence interval based on Santner-Snell approach.||6.7|-17.7|0.838
92223865|NCT03092726|184349061|SUPERIORITY||Differences of percentages|2.2||||0.412|TWO_SIDED|90.0|-10.0|14.4||1-sided p-value is for comparison of ASP8062 30 mg with placebo using Fisher's Exact method.|Fisher Exact|||Week 8: Differences of the percentages were calculated by subtracting the percentage of placebo group from the percentage of ASP8062 30 mg group. Confidence Interval (CI) for each treatment group and the difference of the percentages was an exact unconditional confidence interval based on Santner-Snell approach.||14.4|-10.0|0.412
92223866|NCT03092726|184349061|SUPERIORITY||Differences of percentages|4.3||||0.269|TWO_SIDED|90.0|-7.9|16.4||1-sided p-value is for comparison of ASP8062 30 mg with placebo using Fisher's Exact method.|Fisher Exact|||EOT: Differences of the percentages were calculated by subtracting the percentage of placebo group from the percentage of ASP8062 30 mg group. Confidence Interval (CI) for each treatment group and the difference of the percentages was an exact unconditional confidence interval based on Santner-Snell approach.||16.4|-7.9|0.269
92401722|NCT02491684|184694345|SUPERIORITY_OR_OTHER||LS mean difference|0.01||||0.954|TWO_SIDED|95.0|-0.34|0.36|||ANCOVA|AUC for change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of AUC for change from baseline in total score over Days 8-14.||0.36|-0.34|0.954
92359467|NCT00835367|184623455|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|101.84||||||90.0|98.22|105.59|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.59|98.22|
92359468|NCT00835367|184623456|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Slope|102.53||||||90.0|99.71|105.44|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.44|99.71|
92359469|NCT00835367|184623457|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|102.49||||||90.0|99.75|105.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.30|99.75|
92401723|NCT02491684|184694345|SUPERIORITY_OR_OTHER||LS Mean difference|0.0||||0.985|TWO_SIDED|95.0|-0.35|0.35|||ANCOVA|AUC for change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of AUC for change from baseline in total score over Days 15-30.||0.35|-0.35|0.985
92165138|NCT03622593|184218235|OTHER||Difference in CMH Weighted Percentage|2.8|||||TWO_SIDED|95.0|-4.1|9.8||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||9.8|-4.1|
92165139|NCT03622593|184218235|OTHER||Difference in CMH Weighted Percentage|1.5|||||TWO_SIDED|95.0|-6.5|9.4||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||9.4|-6.5|
92165140|NCT03622593|184218235|OTHER||Difference in CMH Weighted Percentage|1.7|||||TWO_SIDED|95.0|-6.0|9.3||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||9.3|-6.0|
92401724|NCT02491684|184694347|SUPERIORITY_OR_OTHER||LS Mean difference|-0.07||||0.66|TWO_SIDED|95.0|-0.38|0.24|||ANCOVA|Change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of change from baseline in overall score at Visit 6.||0.24|-0.38|0.660
92401725|NCT02491684|184694347|SUPERIORITY_OR_OTHER||LS Mean difference|-0.09||||0.624|TWO_SIDED|95.0|-0.48|0.29|||ANCOVA|Change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of change from baseline in overall score at Visit 8.||0.29|-0.48|0.624
92401726|NCT02491684|184694348|SUPERIORITY_OR_OTHER||LS Mean difference|0.54||||0.309|TWO_SIDED|95.0|-0.51|1.59|||ANCOVA|AUC for change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-14.||1.59|-0.51|0.309
92401727|NCT02491684|184694349|SUPERIORITY_OR_OTHER||LS Mean difference|16.98||||0.059|TWO_SIDED|95.0|-0.63|34.6|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-14.||34.60|-0.63|0.059
92401728|NCT02491684|184694349|SUPERIORITY_OR_OTHER||LS Mean difference|19.35||||0.01|TWO_SIDED|95.0|4.66|34.05|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-7.||34.05|4.66|0.010
92401729|NCT02491684|184694349|SUPERIORITY_OR_OTHER||LS Mean difference|14.38||||0.153|TWO_SIDED|95.0|-5.44|34.2|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 8-14.||34.20|-5.44|0.153
92401730|NCT02491684|184694349|SUPERIORITY_OR_OTHER||LS Mean difference|19.26||||0.096|TWO_SIDED|95.0|-3.44|41.97|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 15-30.||41.97|-3.44|0.096
92165141|NCT03622593|184218238|OTHER||Difference in CMH Weighted Percentage|0.1|||||TWO_SIDED|95.0|-1.4|1.5||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||1.5|-1.4|
92165142|NCT03622593|184218238|OTHER||Difference in CMH Weighted Percentage|-0.7|||||TWO_SIDED|95.0|-1.6|0.2||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||0.2|-1.6|
92401731|NCT02491684|184694350|SUPERIORITY_OR_OTHER||LS Mean difference|0.07||||0.161|TWO_SIDED|95.0|-0.03|0.17|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-14.||0.17|-0.03|0.161
92401732|NCT02491684|184694350|SUPERIORITY_OR_OTHER||LS Mean difference|0.08||||0.087|TWO_SIDED|95.0|-0.01|0.17|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-7.||0.17|-0.01|0.087
92401733|NCT02491684|184694350|SUPERIORITY_OR_OTHER||LS Mean difference|0.06||||0.28|TWO_SIDED|95.0|-0.05|0.16|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 8-14.||0.16|-0.05|0.280
92401734|NCT02491684|184694350|SUPERIORITY_OR_OTHER||LS Mean difference|0.11||||0.086|TWO_SIDED|95.0|-0.02|0.24|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 15-30.||0.24|-0.02|0.086
92401735|NCT02491684|184694351|SUPERIORITY_OR_OTHER||LS Mean difference|11.69||||0.211|TWO_SIDED|95.0|-6.76|30.14|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-14.||30.14|-6.76|0.211
92401736|NCT02491684|184694351|SUPERIORITY_OR_OTHER||LS Mean difference|11.19||||0.125|TWO_SIDED|95.0|-3.18|25.56|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-7.||25.56|-3.18|0.125
92401737|NCT02491684|184694351|SUPERIORITY_OR_OTHER||LS Mean difference|11.14||||0.277|TWO_SIDED|95.0|-9.08|31.36|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 8-14.||31.36|-9.08|0.277
92401738|NCT02491684|184694351|SUPERIORITY_OR_OTHER||LS Mean difference|17.13||||0.161|TWO_SIDED|95.0|-6.92|41.18|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 15-30.||41.18|-6.92|0.161
92401739|NCT02491684|184694352|SUPERIORITY_OR_OTHER||LS Mean difference|0.06||||0.287|TWO_SIDED|95.0|-0.05|0.16|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-14.||0.16|-0.05|0.287
92165143|NCT03622593|184218238|OTHER||Difference in CMH Weighted Percentage|0.5|||||TWO_SIDED|95.0|-1.1|2.1||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||2.1|-1.1|
92165144|NCT03622593|184218238|OTHER||Difference in CMH Weighted Percentage|-0.5|||||TWO_SIDED|95.0|-1.4|0.4||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.4|-1.4|
92165145|NCT03622593|184218247|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-1.0|1.8||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||1.8|-1.0|
92165146|NCT03622593|184218247|OTHER||Difference in CMH Weighted Percentage|0.5|||||TWO_SIDED|95.0|-1.0|2.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.0|-1.0|
92223867|NCT03092726|184349062|SUPERIORITY||LSM Difference|-0.68|STANDARD_ERROR_OF_MEAN|2.03||0.369|TWO_SIDED|90.0|-4.05|2.68||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 2: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||2.68|-4.05|0.369
92223868|NCT03092726|184349062|SUPERIORITY||LSM Difference|-0.64|STANDARD_ERROR_OF_MEAN|2.34||0.393|TWO_SIDED|90.0|-4.51|3.24||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 4: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||3.24|-4.51|0.393
92223869|NCT03092726|184349062|SUPERIORITY||LSM Difference|0.86|STANDARD_ERROR_OF_MEAN|2.68||0.626|TWO_SIDED|90.0|-3.57|5.3|||MMRM|||Week 8: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||5.30|-3.57|0.626
92223870|NCT03092726|184349062|SUPERIORITY||LSM Difference|1.09|STANDARD_ERROR_OF_MEAN|2.57||0.664|TWO_SIDED|90.0|-3.16|5.34||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described ANCOVA model.|ANCOVA|||EOT: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using an ANCOVA model that was performed with change from baseline at the EOT timepoint as response, treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.||5.34|-3.16|0.664
92223871|NCT03092726|184349063|SUPERIORITY||LSM Difference|0.16|STANDARD_ERROR_OF_MEAN|1.85||0.534|TWO_SIDED|90.0|-2.9|3.22||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 2: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||3.22|-2.90|0.534
92223872|NCT03092726|184349063|SUPERIORITY||LSM Difference|1.46|STANDARD_ERROR_OF_MEAN|2.08||0.758|TWO_SIDED|90.0|-1.98|4.91||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 4: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||4.91|-1.98|0.758
92223873|NCT03092726|184349063|SUPERIORITY||LSM Difference|1.7|STANDARD_ERROR_OF_MEAN|2.57||0.745|TWO_SIDED|90.0|-2.56|5.96||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 8: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||5.96|-2.56|0.745
92223874|NCT03092726|184349063|SUPERIORITY||LSM Difference|1.68|STANDARD_ERROR_OF_MEAN|2.43||0.755|TWO_SIDED|90.0|-2.34|5.69||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described ANCOVA model.|ANCOVA|||EOT: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using an ANCOVA model that was performed with change from baseline at the EOT timepoint as response, treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.||5.69|-2.34|0.755
92223875|NCT03092726|184349064|SUPERIORITY||LSM Difference|0.19|STANDARD_ERROR_OF_MEAN|0.59||0.629|TWO_SIDED|90.0|-0.78|1.17||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 2: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||1.17|-0.78|0.629
92223876|NCT03092726|184349064|SUPERIORITY||LSM Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.73||0.41|TWO_SIDED|90.0|-1.37|1.04||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 4: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||1.04|-1.37|0.410
92223877|NCT03092726|184349064|SUPERIORITY||LSM Difference|0.06|STANDARD_ERROR_OF_MEAN|0.71||0.531|TWO_SIDED|90.0|-1.11|1.22||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 8: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||1.22|-1.11|0.531
92227189|NCT01727258|184356488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.52|STANDARD_ERROR_OF_MEAN|3.172|<|0.001|TWO_SIDED|95.0|-18.79|-6.25||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-6.25|-18.79|<0.001
92405847|NCT04730271|184702010|SUPERIORITY|||||||0.6486|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL at 1 year||||0.6486
92223878|NCT03092726|184349064|SUPERIORITY||LSM Difference|0.17|STANDARD_ERROR_OF_MEAN|0.67||0.603|TWO_SIDED|90.0|-0.93|1.28||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described ANCOVA model.|ANCOVA|||EOT: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using an ANCOVA model that was performed with change from baseline at the EOT timepoint as response, treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.||1.28|-0.93|0.603
92165147|NCT03622593|184218247|OTHER||Difference in CMH Weighted Percentage|0.6|||||TWO_SIDED|95.0|-0.6|1.8||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||1.8|-0.6|
92165148|NCT03622593|184218247|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-0.4|2.8||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||2.8|-0.4|
92223879|NCT03092726|184349065|SUPERIORITY||Odds Ratio (OR)|1.07||||0.811|TWO_SIDED|90.0|0.68|1.67||2-sided p-value is for the comparison of ASP8062 30 mg with placebo from the above described proportional odds model.|Proportional Odds model|||Week 2: Odds ratio of ASP8062 30 mg versus placebo, associated 90% 2-sided CI and p-value was estimated using a proportional odds model including treatment group as a factor.||1.67|0.68|0.811
92223880|NCT03092726|184349065|SUPERIORITY||Odds Ratio (OR)|0.79||||0.368|TWO_SIDED|90.0|0.5|1.22||2-sided p-value is for the comparison of ASP8062 30 mg with placebo from the above described proportional odds model.|Proportional Odds model|||Week 4: Odds ratio of ASP8062 30 mg versus placebo, associated 90% 2-sided CI and p-value was estimated using a proportional odds model including treatment group as a factor.||1.22|0.50|0.368
92223881|NCT03092726|184349065|SUPERIORITY||Odds Ratio (OR)|0.78||||0.357|TWO_SIDED|90.0|0.5|1.21||2-sided p-value is for the comparison of ASP8062 30 mg with placebo from the above described proportional odds model.|Proportional Odds model|||Week 8: Odds ratio of ASP8062 30 mg versus placebo, associated 90% 2-sided CI and p-value was estimated using a proportional odds model including treatment group as a factor.||1.21|0.50|0.357
92223882|NCT03092726|184349065|SUPERIORITY||Odds Ratio (OR)|0.8||||0.407|TWO_SIDED|90.0|0.52|1.24||2-sided p-value is for the comparison of ASP8062 30 mg with placebo from the above described proportional odds model.|Proportional Odds model|||EOT: Odds ratio of ASP8062 30 mg versus placebo, associated 90% 2-sided CI and p-value was estimated using a proportional odds model including treatment group as a factor.||1.24|0.52|0.407
92223883|NCT00428974|184349073|SUPERIORITY|||||||0.031|||||||t-test, 1 sided|||12 weeks, 2mg CF101 vs. Placebo||||0.031
92223884|NCT00428974|184349074|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||||||<0.05
92223885|NCT02296242|184349085|OTHER||Highest dose (mg) with no DLTs.|600.0|||||TWO_SIDED|||||||||In Part 1, 2 patients experienced DLTs in the 750 mg b.i.d. treatment group (2/7; 29%). There were no dose-limiting toxicities in the 600 mg b.i.d. group or 300 mg b.i.d. group. Therefore, based on these results, 600 mg b.i.d. was selected as the MTD dose (and RP2D dose) which was used as the treatment dose in Part 2 of the study.||||
92223886|NCT02780648|184349110|OTHER|||||||0.824||||||This p-value represents the type III p-value for overall treatment phase variable significance. An a priori alpha level of 0.05 was used to determine statistical significance.|Mixed Models Analysis|||For Cohort B, pain scores were compared across treatment phase (before, during, and after) using ordinal logistic regression models with repeated measures.||||0.824
92223887|NCT02780648|184349111|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite global health status / quality of life score as the outcome.||||||0.27||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite global health status / quality of life scores across treatment phase.||||0.270
92223888|NCT02780648|184349112|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite physicial functioning composite score as the outcome.||||||0.179||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite physical functioning composite scores across treatment phase.||||0.179
92223889|NCT02780648|184349112|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite role functioning composite score as the outcome.||||||0.789||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite role functioning composite scores across treatment phase.||||0.789
92223890|NCT02780648|184349112|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite emotional functioning composite score as the outcome.||||||0.303||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite emotional functioning composite scores across treatment phase.||||0.303
92405848|NCT04730271|184702011|SUPERIORITY|||||||0.8887|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline for Pain at rest between ROBOTIC and MANUAL at 1 year||||0.8887
92165149|NCT03622593|184218248|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||0.0|0.0|
92165150|NCT03622593|184218248|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||0.0|0.0|
92165151|NCT03622593|184218248|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.0|0.0|
92359470|NCT00835367|184623458|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|91.79||||||90.0|84.83|99.32|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||99.32|84.83|
92359471|NCT00835367|184623459|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|95.85||||||90.0|92.54|99.27|||||Metabolite presented for informational purposes only.|||99.27|92.54|
92359472|NCT00835367|184623460|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|100.28||||||90.0|98.3|102.3|||||Metabolite presented for informational purposes only|||102.30|98.30|
92359473|NCT00835367|184623461|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|102.74||||||90.0|100.35|105.19|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.19|100.35|
92359474|NCT00835367|184623462|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|102.72||||||90.0|100.3|105.2|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.20|100.30|
92359475|NCT00835367|184623463|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|100.28||||||90.0|98.25|102.35|||||Metabolite presented for informational purposes only.|||102.35|98.25|
92359476|NCT00835172|184623464|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|102.0||||||90.0|92.1|112.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112|92.1|
92359477|NCT00835172|184623465|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|96.8|105.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105|96.8|
92359478|NCT00835172|184623466|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|103.0||||||90.0|99.3|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106|99.3|
92359479|NCT04632030|184623468|OTHER||Odds Ratio (OR)|1.58|||||TWO_SIDED|95.0|0.69|3.6|||||Adjusted for age, education, and lifetime tobacco use|||3.6|.69|
92359480|NCT04632030|184623468|OTHER||Odds Ratio (OR)|2.89|||||TWO_SIDED|95.0|1.28|6.55|||||Adjusted for age, education, and lifetime tobacco use|||6.55|1.28|
92359481|NCT04632030|184623469|OTHER||Odds Ratio (OR)|2.88|||||TWO_SIDED|95.0|1.28|6.47|||||Adjusted for age, education, and lifetime tobacco use|||6.47|1.28|
92359482|NCT04632030|184623469|OTHER||Odds Ratio (OR)|2.87|||||TWO_SIDED|95.0|1.26|6.5|||||Adjusted for age, education, and lifetime tobacco use|||6.50|1.26|
92359483|NCT04632030|184623470|OTHER||Odds Ratio (OR)|1.51|||||TWO_SIDED|95.0|0.59|3.86|||||Adjusted for age, education, and lifetime tobacco use|||3.86|.59|
92359484|NCT04632030|184623470|OTHER||Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|0.73|4.67|||||Adjusted for age, education, and lifetime tobacco use|||4.67|.73|
92359485|NCT04632030|184623471|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.53|2.99|||||Adjusted for age, education, and lifetime tobacco use|||2.99|.53|
92405849|NCT04730271|184702011|SUPERIORITY|||||||0.4007|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline for pain at rest between ROBOTIC and MANUAL at 12 weeks||||0.4007
92165152|NCT03622593|184218248|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.0|0.0|
92165153|NCT03622593|184218255|OTHER||Adjusted mean difference|-25.7|STANDARD_ERROR_OF_MEAN|5.95|||TWO_SIDED|95.0|-37.4|-14.0||||||This is the adjusted mean difference for Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.||-14.0|-37.4|
92359486|NCT04632030|184623471|OTHER||Odds Ratio (OR)|2.19|||||TWO_SIDED|95.0|0.94|5.13|||||Adjusted for age, education, and lifetime tobacco use|||5.13|.94|
92359487|NCT00964678|184623472|SUPERIORITY|||||||0.028|TWO_SIDED|20.0||||The threshold for statistical significance was p=0.05.|ANOVA|||||||0.028
92359488|NCT00964678|184623473|SUPERIORITY|||||||0.028||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||0.028
92359489|NCT00964678|184623474|SUPERIORITY||||||>|0.05|TWO_SIDED|20.0||||The threshold for statistical significance was p=0.05.|ANOVA|||||||>0.05
92359490|NCT00964678|184623475|SUPERIORITY||||||>|0.05|TWO_SIDED|20.0|||||ANOVA|||||||>0.05
92359491|NCT03801525|184623507|SUPERIORITY||Hazard Ratio (HR)|0.778||||0.696|TWO_SIDED|95.0|0.219|2.755|||Log Rank|||||2.755|0.219|0.6960
92359492|NCT03801525|184623514|SUPERIORITY||Hazard Ratio (HR)|0.201||||0.1038|TWO_SIDED|95.0|0.023|1.721|||Log Rank|||||1.721|0.023|0.1038
92359493|NCT03309202|184623515|OTHER||Mean Difference (Final Values)|130.47|||||TWO_SIDED|90.0|101.57|167.6|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 2 (Mild Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||167.60|101.57|
92359494|NCT03309202|184623515|OTHER||Mean Difference (Final Values)|117.49|||||TWO_SIDED|90.0|91.46|150.93|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 3 (Moderate Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||150.93|91.46|
92359495|NCT03309202|184623515|OTHER||Mean Difference (Final Values)|130.55|||||TWO_SIDED|90.0|101.63|167.7|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 4 (Severe Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||167.70|101.63|
92359496|NCT03309202|184623516|OTHER||Mean Difference (Final Values)|136.37|||||TWO_SIDED|90.0|94.63|196.53|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 2 (Mild Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||196.53|94.63|
92223891|NCT02780648|184349112|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite cognitive functioning composite score as the outcome.||||||0.989||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite cognitive functioning composite scores across treatment phase.||||0.989
92223892|NCT02780648|184349112|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite social functioning composite score as the outcome.||||||0.436||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite social functioning composite scores across treatment phase.||||0.436
92223893|NCT02780648|184349113|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite fatigue symptom score as the outcome.||||||0.659||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite fatigue symptom scores across treatment phase.||||0.659
92223894|NCT02780648|184349113|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite nausea and vomiting symptom score as the outcome.||||||0.295||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite nausea and vomiting symptom scores across treatment phase.||||0.295
92359497|NCT03309202|184623516|OTHER||Mean Difference (Final Values)|124.23|||||TWO_SIDED|90.0|86.2|179.03|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 3 (Moderate Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||179.03|86.20|
92359498|NCT03309202|184623516|OTHER||Mean Difference (Final Values)|118.65|||||TWO_SIDED|90.0|82.33|170.99|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 4 (Severe Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||170.99|82.33|
92359499|NCT03309202|184623517|OTHER||Mean Difference (Final Values)|124.7309|||||TWO_SIDED|90.0|82.5275|188.5165|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 2 (Mild Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||188.5165|82.5275|
92359500|NCT03309202|184623517|OTHER||Mean Difference (Final Values)|147.0778|||||TWO_SIDED|90.0|97.3132|222.2911|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 3 (Moderate Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||222.2911|97.3132|
92359501|NCT03309202|184623517|OTHER||Mean Difference (Final Values)|224.7373|||||TWO_SIDED|90.0|148.6962|339.6647|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 4 (Severe Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||339.6647|148.6962|
92359502|NCT03309202|184623518|OTHER||Mean Difference (Final Values)|162.58|||||TWO_SIDED|90.0|103.12|256.32|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 2 (Mild Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||256.32|103.12|
92359503|NCT03309202|184623518|OTHER||Mean Difference (Final Values)|172.74|||||TWO_SIDED|90.0|109.56|272.35|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 3 (Moderate Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||272.35|109.56|
92359504|NCT03309202|184623518|OTHER||Mean Difference (Final Values)|293.31|||||TWO_SIDED|90.0|186.04|462.44|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 4 (Severe Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||462.44|186.04|
92223895|NCT02780648|184349113|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite pain symptom score as the outcome.||||||0.299||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite pain symptom scores across treatment phase.||||0.299
92359505|NCT03309202|184623519|OTHER||Mean Difference (Final Values)|169.84|||||TWO_SIDED|90.0|104.02|277.32|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 2 (Mild Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||277.32|104.02|
92359506|NCT03309202|184623519|OTHER||Mean Difference (Final Values)|182.51|||||TWO_SIDED|90.0|111.78|298.02|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 3 (Moderate Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||298.02|111.78|
92165154|NCT03622593|184218255|OTHER||Adjusted mean difference|-17.6|STANDARD_ERROR_OF_MEAN|5.88|||TWO_SIDED|95.0|-29.2|-6.0||||||This is the adjusted mean difference for Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.||-6.0|-29.2|
92165155|NCT03622593|184218255|OTHER||Adjusted mean difference|-20.0|STANDARD_ERROR_OF_MEAN|6.59|||TWO_SIDED|95.0|-32.9|-7.0||||||This is the adjusted mean difference for Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||-7.0|-32.9|
92223896|NCT02780648|184349113|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite dyspnea symptom score as the outcome.||||||0.794||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite dyspnea symptom scores across treatment phase.||||0.794
92223897|NCT02780648|184349113|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite insomnia symptom score as the outcome.||||||0.45||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite insomnia symptom scores across treatment phase.||||0.450
92359507|NCT03309202|184623519|OTHER||Mean Difference (Final Values)|266.29|||||TWO_SIDED|90.0|163.08|434.8|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 4 (Severe Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||434.80|163.08|
92401740|NCT02491684|184694352|SUPERIORITY_OR_OTHER||LS Mean difference|0.04||||0.457|TWO_SIDED|95.0|-0.06|0.14|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-7.||0.14|-0.06|0.457
92401741|NCT02491684|184694352|SUPERIORITY_OR_OTHER||LS Mean difference|0.05||||0.315|TWO_SIDED|95.0|-0.05|0.16|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 8-14.||0.16|-0.05|0.315
92401742|NCT02491684|184694352|SUPERIORITY_OR_OTHER||LS Mean difference|0.09||||0.134|TWO_SIDED|95.0|-0.03|0.22|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 15-30.||0.22|-0.03|0.134
92165156|NCT03622593|184218255|OTHER||Adjusted mean difference|-14.3|STANDARD_ERROR_OF_MEAN|6.51|||TWO_SIDED|95.0|-27.1|-1.5||||||This is the adjusted mean difference for Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||-1.5|-27.1|
92165157|NCT03622593|184218258|OTHER||Difference in CMH Weighted Percentage|12.3|||||TWO_SIDED|95.0|5.7|18.9||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||18.9|5.7|
92165158|NCT03622593|184218258|OTHER||Difference in CMH Weighted Percentage|8.2|||||TWO_SIDED|95.0|1.5|14.9||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||14.9|1.5|
92165159|NCT03622593|184218258|OTHER||Difference in CMH Weighted Percentage|9.0|||||TWO_SIDED|95.0|1.6|16.3||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||16.3|1.6|
92165160|NCT03622593|184218258|OTHER||Difference in CMH Weighted Percentage|6.2|||||TWO_SIDED|95.0|-1.2|13.6||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||13.6|-1.2|
92165161|NCT01324453|184218333|SUPERIORITY|||||||0.9|||||||Kruskal-Wallis|||||||0.90
92165162|NCT01324453|184218334|SUPERIORITY|||||||0.81|||||||Kruskal-Wallis|||||||0.81
92165163|NCT01324453|184218335|SUPERIORITY|||||||0.45|||||||Chi-squared|||||||0.45
92165164|NCT01324453|184218336|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
92165165|NCT01324453|184218337|SUPERIORITY|||||||0.86|||||||Kruskal-Wallis|||||||0.86
92165166|NCT01324453|184218338|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||||||1.00
92165167|NCT01324453|184218339|SUPERIORITY|||||||0.58|||||||Kruskal-Wallis|||||||0.58
92165168|NCT01324453|184218340|SUPERIORITY|||||||0.77|||||||Kruskal-Wallis|||||||0.77
92165169|NCT01499134|184218341|SUPERIORITY_OR_OTHER|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
92165170|NCT01499134|184218342|SUPERIORITY_OR_OTHER|||||||0.585|||||||Wilcoxon (Mann-Whitney)|||||||0.585
92165171|NCT01499134|184218343|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||This p-value is correct, confirmed with report from statistician.|Wilcoxon (Mann-Whitney)|||||||1.000
92165172|NCT01499134|184218344|SUPERIORITY_OR_OTHER|||||||0.363|||||||Wilcoxon (Mann-Whitney)|||||||0.363
92165173|NCT01499134|184218345|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||||||0.017
92165174|NCT01499134|184218346|SUPERIORITY_OR_OTHER|||||||0.476|||||||Wilcoxon (Mann-Whitney)|||||||0.476
92165175|NCT01499134|184218347|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.170
92165176|NCT01499134|184218348|SUPERIORITY_OR_OTHER|||||||0.595|||||||Wilcoxon (Mann-Whitney)|||||||0.595
92165177|NCT02296424|184218400|EQUIVALENCE|nominal 2.5% two-sided significance level was expected to have 90% powe to detect a difference between the Null Hypothesis proportion of patients who remain at their dose level.||||||0.0001|||||||exact binomial test|||||||0.0001
92165178|NCT02680457|184218406|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.630
92165179|NCT02680457|184218407|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92165180|NCT01112670|184218408|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||ANOVA|||||||0.83
92165181|NCT01112670|184218409|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||ANOVA|||||||0.67
92165182|NCT01112670|184218410|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||ANOVA|||||||0.90
92165183|NCT01112670|184218411|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||ANOVA|||||||0.56
92165184|NCT01112670|184218412|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||ANOVA|||||||0.97
92165185|NCT01112670|184218413|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||ANOVA|||||||0.86
92165186|NCT01112670|184218414|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||ANOVA|||||||0.21
92165187|NCT01112670|184218415|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|||||||0.22
92165188|NCT01112670|184218416|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||||||0.14
92165189|NCT01112670|184218417|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||ANOVA|||||||0.29
92165190|NCT01112670|184218418|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||ANOVA|||||||0.43
92223898|NCT02780648|184349113|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite appetite loss symptom score as the outcome.||||||0.389||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite appetite loss symptom scores across treatment phase.||||0.389
92223899|NCT02780648|184349113|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite constipation symptom score as the outcome.||||||0.011||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|The odds of having a higher constipation symptom composite score after treatment were less than during or before treatment.||The null hypothesis was that there was no difference in composite constipation symptom scores across treatment phase.||||0.011
92359508|NCT04734210|184623534|OTHER|Exploratory, descriptive analysis||||||0.2933||||||The difference in response rates between each of the SURF-200 formulations and vehicle was compared by Fisher's exact method.|Fisher Exact|The threshold for statistical significance is p=0.05.||Exploratory Phase 2 Study; approximately 120 subjects (approximately 40 subjects per each of the 3 treatment groups) were planned to be enrolled in the study. The sample size was based on medical judgment. No formal sample size calculation was performed, and the sample size was empirical. However, the sample size selected was considered sufficient to adequately characterize the general safety and efficacy profile of the study treatments.||||0.2933
92401743|NCT01451606|184694379|SUPERIORITY|||||||0.52||||||Note that sample size was well below our target, making this test very low power.|Wilcoxon (Mann-Whitney)|||||||0.52
92359509|NCT04734210|184623535|OTHER|Exploratory, descriptive analysis||||||0.1966||||||The difference in response rates between each of the SURF-200 formulations and vehicle was compared by Fisher's exact method.|Fisher Exact|The threshold for statistical significance is p=0.05.||Exploratory Phase 2 Study; approximately 120 subjects (approximately 40 subjects per each of the 3 treatment groups) were planned to be enrolled in the study. The sample size was based on medical judgment. No formal sample size calculation was performed, and the sample size was empirical. However, the sample size selected was considered sufficient to adequately characterize the general safety and efficacy profile of the study treatments.||||0.1966
92359510|NCT04734210|184623536|OTHER|Exploratory, descriptive analysis||||||0.0213||||||The difference in response rates between each of the SURF-200 formulations and vehicle was compared by Fisher's exact method.|Fisher Exact|The threshold for statistical significance is p=0.05.||Exploratory Phase 2 Study; approximately 120 subjects (approximately 40 subjects per each of the 3 treatment groups) were planned to be enrolled in the study. The sample size was based on medical judgment. No formal sample size calculation was performed, and the sample size was empirical. However, the sample size selected was considered sufficient to adequately characterize the general safety and efficacy profile of the study treatments.||||0.0213
92359511|NCT04023045|184623538|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
92359512|NCT04023045|184623539|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
92359513|NCT04023045|184623540|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
92359514|NCT04023045|184623541|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
92359515|NCT04023045|184623542|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
92359516|NCT04023045|184623543|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
92223900|NCT02780648|184349113|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite diarrhea symptom score as the outcome.||||||0.101||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite diarrhea symptom scores across treatment phase.||||0.101
92223901|NCT02780648|184349113|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite financial difficulty symptom score as the outcome.||||||0.306||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite financial difficulty symptom scores across treatment phase.||||0.306
92223902|NCT01097304|184349119|OTHER|||||||0.54|||||||t-test, 2 sided|||||||0.54
92223903|NCT01097304|184349120|OTHER||||||<|0.0001|||||||signed rank test|||||||<0.0001
92359517|NCT04023045|184623544|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
92359518|NCT04023045|184623545|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
92359519|NCT02314923|184623575|OTHER|||||||0.951|||||||ANOVA|||||||0.951
92359520|NCT02314923|184623575|OTHER|||||||0.458|||||||ANOVA|||||||0.458
92359521|NCT02314923|184623575|OTHER|||||||0.071|||||||ANOVA|||||||0.071
92359522|NCT02314923|184623575|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92359523|NCT02314923|184623575|OTHER|||||||0.029|||||||ANOVA|||||||0.029
92359524|NCT02314923|184623575|OTHER|||||||0.325|||||||ANOVA|||||||0.325
92359525|NCT02314923|184623575|OTHER|||||||0.003|||||||ANOVA|||||||0.003
92359526|NCT02314923|184623575|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92401744|NCT01451606|184694380|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
92401745|NCT00468169|184694381|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1225||||||Log-rank test comparing PFS between two treatment arms|Log Rank|||||||0.1225
92359527|NCT02314923|184623575|OTHER|||||||0.427|||||||ANOVA|||||||0.427
92401746|NCT03668873|184694396|SUPERIORITY||Difference of Least Squares Means|-1.85|||<|0.001|TWO_SIDED|95.0|-2.88|-0.81||Threshold for significance was p=0.05.|Mixed Models Analysis|Mixed models with repeated measures with fixed effects for baseline CSI, treatment, week as a categorical variable, and treatment-week interaction.|Treatment difference = SPT minus SPE.|The null hypothesis was that the SPE and SPT groups did not differ on change in CSI score at 10 weeks. Assuming a standard deviation of 2.5 units and an attrition rate of 10%, an enrollment target of 90 participants would provide 90% power to detect a difference of 1.85 points or greater with a type I error rate of 0.05 using a two-tailed two-sample t-test.||-0.81|-2.88|<0.001
92359528|NCT02314923|184623575|OTHER|||||||0.065|||||||ANOVA|||||||0.065
92359529|NCT02314923|184623575|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92359530|NCT02314923|184623575|OTHER|||||||0.027|||||||ANOVA|||||||0.027
92359531|NCT02314923|184623575|OTHER|||||||0.303|||||||ANOVA|||||||0.303
92359532|NCT02314923|184623575|OTHER|||||||0.003|||||||ANOVA|||||||0.003
92359533|NCT02314923|184623575|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92359534|NCT02314923|184623575|OTHER|||||||0.286|||||||ANOVA|||||||0.286
92359535|NCT02314923|184623575|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92359536|NCT02314923|184623575|OTHER|||||||0.094|||||||ANOVA|||||||0.094
92359537|NCT02314923|184623575|OTHER|||||||0.757|||||||ANOVA|||||||0.757
92359538|NCT02314923|184623575|OTHER|||||||0.022|||||||ANOVA|||||||0.022
92359539|NCT02314923|184623575|OTHER|||||||0.001|||||||ANOVA|||||||0.001
92359540|NCT02314923|184623575|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92359541|NCT02314923|184623575|OTHER|||||||0.348|||||||ANOVA|||||||0.348
92401747|NCT03668873|184694397|SUPERIORITY||Absolute percent difference|24.0||||0.037|TWO_SIDED|95.0|2.0|46.0||Threshold for significance was 0.05|Chi-squared||Difference = SPT minus SPE.|The null hypothesis was that the SPE and SPT groups did not differ on the rate of positive response to CGI-I at 10 weeks. Assuming a 25%-40% positive response rate at 10 weeks in the SPE group and 45 patients per group, power was 90% to detect a 32% or greater difference in positive response rate (57%-72% in SPT group, respectively), with a type I error rate of 0.05 using a Chi-square test.||46|2|0.037
92359542|NCT02314923|184623575|OTHER|||||||0.508|||||||ANOVA|||||||0.508
92359543|NCT02314923|184623575|OTHER|||||||0.191|||||||ANOVA|||||||0.191
92359544|NCT02314923|184623575|OTHER|||||||0.024|||||||ANOVA|||||||0.024
92359545|NCT02314923|184623575|OTHER|||||||0.169|||||||ANOVA|||||||0.169
92359546|NCT02314923|184623575|OTHER|||||||0.961|||||||ANOVA|||||||0.961
92359547|NCT02314923|184623575|OTHER|||||||0.454|||||||ANOVA|||||||0.454
92359548|NCT02314923|184623575|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92359549|NCT02314923|184623575|OTHER|||||||0.068|||||||ANOVA|||||||0.068
92359550|NCT02314923|184623575|OTHER|||||||0.007|||||||ANOVA|||||||0.007
92359551|NCT02314923|184623575|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92359552|NCT02314923|184623575|OTHER|||||||0.37|||||||ANOVA|||||||0.370
92359553|NCT02314923|184623575|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92359554|NCT02008617|184623580|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92359555|NCT02008617|184623581|SUPERIORITY_OR_OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||At Rest||||0.86
92359556|NCT02008617|184623581|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||Plantar Flexion||||0.89
92359557|NCT02008617|184623582|SUPERIORITY_OR_OTHER|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
92359558|NCT02008617|184623583|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.82
92359559|NCT00976456|184623584|NON_INFERIORITY_OR_EQUIVALENCE|The estimation was that in the pemetrexed-carboplatin plus bevacizumab Arm the median PFS will be 5.5 months. A median PFS of 4 months (5.5 - 27%) had been regarded non-inferior. Assuming the accrual period of 24 months and the whole study duration of 42 months, 246 patients had to be recruited. According to the fact, that the required statistical power of 80% will be reached by occurrence of altogether 227 events, the final analysis was done at this time point.|Hazard Ratio (HR)|1.29||||0.0583|TWO_SIDED|95.0|0.989|1.682|||Wilcoxon (Mann-Whitney)|||||1.682|0.989|0.0583
92359560|NCT00976456|184623585|NON_INFERIORITY_OR_EQUIVALENCE|The estimation was that in the pemetrexed-carboplatin plus bevacizumab Arm the median PFS will be 5.5 months. A median PFS of 4 months (5.5 - 27%) had been regarded non-inferior. Assuming the accrual period of 24 months and the whole study duration of 42 months, 246 patients had to be recruited. According to the fact, that the required statistical power of 80% will be reached by occurrence of altogether 227 events, the final analysis was done at this time Point.|Hazard Ratio (HR)|1.091||||0.3869|TWO_SIDED|95.0|0.794|1.499|||Wilcoxon (Mann-Whitney)|||||1.499|0.794|0.3869
92359561|NCT00806585|184623587|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.1||||0.253|TWO_SIDED|95.0|-3.1|0.8|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||0.8|-3.1|0.253
92359562|NCT00806585|184623587|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.1||||0.919|TWO_SIDED|95.0|-2.1|1.9|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||1.9|-2.1|0.919
92359563|NCT00806585|184623587|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.2||||0.829|TWO_SIDED|95.0|-2.2|1.8|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||1.8|-2.2|0.829
92359564|NCT00806585|184623587|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.1||||0.074|TWO_SIDED|95.0|-4.5|0.2|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||0.2|-4.5|0.074
92359565|NCT00806585|184623587|SUPERIORITY_OR_OTHER||Difference in least squares means|1.0||||0.393|TWO_SIDED|95.0|-1.3|3.3|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||3.3|-1.3|0.393
92359566|NCT00806585|184623587|SUPERIORITY_OR_OTHER||Difference in least squares means|2.0||||0.088|TWO_SIDED|95.0|-0.3|4.4|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||4.4|-0.3|0.088
92223904|NCT01097304|184349121|OTHER||||||<|0.01|||||||signed rank test|||||||<0.01
92359567|NCT00806585|184623587|SUPERIORITY_OR_OTHER||Difference in least squares means|1.9||||0.108|TWO_SIDED|95.0|-0.4|4.3|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||4.3|-0.4|0.108
92359568|NCT00806585|184623588|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.9||||0.543|TWO_SIDED|95.0|-4.0|2.1|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||2.1|-4.0|0.543
92359569|NCT00806585|184623588|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.8||||0.246|TWO_SIDED|95.0|-4.9|1.3|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||1.3|-4.9|0.246
92359570|NCT00806585|184623588|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.4||||0.821|TWO_SIDED|95.0|-3.5|2.7|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||2.7|-3.5|0.821
92359571|NCT00806585|184623588|SUPERIORITY_OR_OTHER||Difference in least squares means|-7.0|||<|0.001|TWO_SIDED|95.0|-10.7|-3.3|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-3.3|-10.7|<0.001
92359572|NCT00806585|184623588|SUPERIORITY_OR_OTHER||Difference in least squares means|6.1||||0.001|TWO_SIDED|95.0|2.4|9.8|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||9.8|2.4|0.001
92359573|NCT00806585|184623588|SUPERIORITY_OR_OTHER||Difference in least squares means|5.2||||0.006|TWO_SIDED|95.0|1.5|8.9|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||8.9|1.5|0.006
92359574|NCT00806585|184623588|SUPERIORITY_OR_OTHER||Difference in least squares means|6.7|||<|0.001|TWO_SIDED|95.0|3.0|10.4|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||10.4|3.0|<0.001
92359575|NCT00806585|184623589|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.4||||0.684|TWO_SIDED|95.0|-8.3|5.5|||ANCOVA|Fixed effects for treatment baseline, stratification, time, interaction of time by stratification and treatments factors and a random subject effect||||5.5|-8.3|0.684
92359576|NCT00806585|184623589|SUPERIORITY_OR_OTHER||Difference in least squares means|1.8||||0.597|TWO_SIDED|95.0|-5.0|8.7|||ANCOVA|Fixed effects for treatment baseline, stratification, time, interaction of time by stratification and treatments factors and a random subject effect||||8.7|-5.0|0.597
92359577|NCT00806585|184623589|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.9||||0.793|TWO_SIDED|95.0|-7.6|5.8|||ANCOVA|Fixed effects for treatment baseline, stratification, time, interaction of time by stratification and treatments factors and a random subject effect||||5.8|-7.6|0.793
92359578|NCT00806585|184623589|SUPERIORITY_OR_OTHER||Difference in least squares means|0.8||||0.854|TWO_SIDED|95.0|-7.6|9.2|||ANCOVA|Fixed effects for treatment baseline, stratification, time, interaction of time by stratification and treatments factors and a random subject effect||||9.2|-7.6|0.854
92359579|NCT00806585|184623590|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.9||||0.006|TWO_SIDED|95.0|-3.2|-0.5|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-0.5|-3.2|0.006
92359580|NCT00806585|184623590|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.0||||0.004|TWO_SIDED|95.0|-3.3|-0.6|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-0.6|-3.3|0.004
92359581|NCT00806585|184623590|SUPERIORITY_OR_OTHER||Diffference in least squares means|-1.3||||0.066|TWO_SIDED|95.0|-2.6|0.1|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||0.1|-2.6|0.066
92359582|NCT00806585|184623590|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.2||||0.008|TWO_SIDED|95.0|-3.7|-0.6|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-0.6|-3.7|0.008
92359583|NCT00806585|184623591|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.18||||0.152|TWO_SIDED|95.0|-0.44|0.07|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||0.07|-0.44|0.152
92359584|NCT00806585|184623591|SUPERIORITY_OR_OTHER||Difference in least sqaures means|-0.28||||0.035|TWO_SIDED|95.0|-0.54|-0.02|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-0.02|-0.54|0.035
92401748|NCT03668873|184694398|SUPERIORITY|||||||0.81||||||threshold for significant 0.05|Mixed Models Analysis|||||||0.81
92401749|NCT03668873|184694399|SUPERIORITY|||||||0.77||||||Threshold for significance was 0.05|Mixed Models Analysis|||||||0.77
92359585|NCT00806585|184623591|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.22||||0.095|TWO_SIDED|95.0|-0.48|0.04|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||0.04|-0.48|0.095
92401750|NCT03668873|184694400|SUPERIORITY|||||||0.003||||||Threshold for significance was 0.05|Mixed Models Analysis|||||||0.003
92223905|NCT01097304|184349122|OTHER|||||||0.48|||||||t-test, 2 sided|||||||0.48
92223906|NCT04036968|184349123|SUPERIORITY|Comparison of three drug conditions with cannabidiol to control groups placebo+placebo and hydromorphone+placebo||||||0.195|||||||ANOVA|||||||0.195
92223907|NCT04036968|184349124|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
92223908|NCT04036968|184349125|SUPERIORITY|||||||0.074|||||||ANOVA|||||||0.074
92223909|NCT01110200|184349128|SUPERIORITY_OR_OTHER||Treatment comparison ratio|0.917||||0.71|TWO_SIDED|95.0|0.581|1.447|||Negative bionomial regression model||Annualized rate estimates, the treatment comparison ratio, the confidence interval, and the p-value are from a negative binomial regression model with terms for treatment, country, randomization stratum, baseline severity, and time on treatment.|||1.447|0.581|0.710
92223910|NCT00903175|184349131|NON_INFERIORITY_OR_EQUIVALENCE|Primary objective was to assess the non-inferiority of everolimus as compared to Sunitinib in terms of PFS-1L \& was based on Bayesian methodology. If the estimated HR for PFS-1L had a value ≤ 1.1, non-inferiority of everolimus to Sunitinib would be declared. Non-inferiority of everolimus compared with Sunitinib as a first-line therapy was not achieved. The estimated HR for PFS-1L was 1.43 which did not satisfy the protocol-defined non-inferiority margin of a HR ≤ 1.1.|Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|1.15|1.77||||||||1.77|1.15|
92359586|NCT00806585|184623591|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.32||||0.045|TWO_SIDED|95.0|-0.63|-0.01|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-0.01|-0.63|0.045
92401751|NCT02183675|184694402|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|108.39|STANDARD_ERROR_OF_MEAN|1.094|||TWO_SIDED|90.0|93.081|126.225|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-H12.5|||126.225|93.081|
92223911|NCT02189850|184349154|SUPERIORITY|||||||0.923|||||||Cochran-Mantel-Haenszel|||||||0.923
92359587|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|8.56||||0.0129|TWO_SIDED|95.0|2.41|14.72||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Foreign body sensation - Left eye||14.72|2.41|0.0129
92359588|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|7.58||||0.0077|TWO_SIDED|95.0|1.7|13.45||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Foreign body sensation - Right eye||13.45|1.70|0.0077
92359589|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|3.99||||0.1589|TWO_SIDED|95.0|-1.64|9.62||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Burning/ Stinging - Left eye||9.62|-1.64|0.1589
92359590|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|2.78||||0.3167|TWO_SIDED|95.0|-2.78|8.35||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Burning/ Stinging - Right eye||8.35|-2.78|0.3167
92359591|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|-1.84||||0.5243|TWO_SIDED|95.0|-7.64|3.96||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Itching - Left eye||3.96|-7.64|0.5243
92359592|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.6714|TWO_SIDED|95.0|-4.45|6.82||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Itching - Right eye||6.82|-4.45|0.6714
92401752|NCT02183675|184694402|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|114.86|STANDARD_ERROR_OF_MEAN|1.097|||TWO_SIDED|90.0|98.216|134.326|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-A5|||134.326|98.216|
92359593|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|-3.89||||0.0828|TWO_SIDED|95.0|-8.31|0.53||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Pain - Left eye||0.53|-8.31|0.0828
92401753|NCT02183675|184694403|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|97.53|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|90.0|90.43|105.19|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-H12.5|||105.19|90.43|
92401754|NCT02183675|184694403|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|102.04|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|96.94|107.4|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-A5|||107.40|96.94|
92223912|NCT00371865|184349155|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Mixed Models Analysis|||||||.27
92223913|NCT00371865|184349156|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Mixed Models Analysis|||||||.90
92223914|NCT00371865|184349157|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||.13
92223915|NCT00371865|184349158|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Mixed Models Analysis|||||||.26
92223916|NCT00371865|184349159|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Mixed Models Analysis|||||||.90
92223917|NCT04817111|184349165|OTHER|Wilcoxon signed-rank test was used to test if the change from pre- vs. post-test outcome is different from zero.||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92223918|NCT04817111|184349167|OTHER|Wilcoxon signed-rank test was used to test if the change from pre- vs. post-test outcome is different from zero.||||||0.21|||||||Wilcoxon (Mann-Whitney)|||||||0.21
92223919|NCT04817111|184349168|OTHER|Wilcoxon signed-rank test was used to test if the change from pre- vs. post-test outcome is different from zero.||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92223920|NCT05103332|184349190|SUPERIORITY||Difference in LS Mean|-12.1|STANDARD_ERROR_OF_MEAN|2.24|<|0.0001|TWO_SIDED|95.0|-16.5|-7.6||MMRM: Fixed factors: treatment, visit, treatment-by-visit interaction, race (black/all other races); Covariates: Baseline (BA) 24-hour mean SBP using ABPM \& BA estimated glomerular filtration rate (eGFR). Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to indapamide) and placebo (add on to indapamide), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort \& handle primary \& key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for SBP, assessed using ABPM, while participants were on \& within 2 weeks after stopping any escape medication were censored for this endpoint.||-7.6|-16.5|<0.0001
92223921|NCT05103332|184349191|SUPERIORITY||Difference in LS Mean|-9.7|STANDARD_ERROR_OF_MEAN|1.61|<|0.0001|TWO_SIDED|95.0|-12.9|-6.6||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to amlodipine) and placebo (add on to amlodipine), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort \& handle primary \& key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for SBP, assessed using ABPM, while participants were on \& within 2 weeks after stopping any escape medication were censored for this endpoint.||-6.6|-12.9|<0.0001
92223922|NCT05103332|184349192|SUPERIORITY||Difference in LS Mean|-4.5|STANDARD_ERROR_OF_MEAN|1.89|=|0.0183|TWO_SIDED|95.0|-8.2|-0.8||MMRM: Fixed factors: treatment, visit, treatment-by-visit interaction, race (black/all other races); Covariates: Baseline (BA) 24-hour mean SBP using ABPM \& BA eGFR. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to olmesartan) and placebo (add on to olmesartan), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort \& handle primary \& key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for SBP, assessed using ABPM, while subjects were on \& within 2 weeks after stopping any escape medication were censored for this endpoint.||-0.8|-8.2|=0.0183
92227190|NCT01727258|184356489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.93|STANDARD_ERROR_OF_MEAN|3.543|<|0.001|TWO_SIDED|95.0|-18.93|-4.93||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-4.93|-18.93|<0.001
92359594|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.7823|TWO_SIDED|95.0|-4.77|3.62||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Pain - Right eye||3.62|-4.77|0.7823
92276693|NCT02046369|184454827|SUPERIORITY|The primary efficacy endpoint (the change from baseline in CDRS-R total score at Week 6)will be analyzed using a likelihood-based mixed model for repeated measures (MMRM).The response (dependent) variable is the change from baseline in CDRS-R total score assessed weekly (Weeks 1 to 6).The MMRM model includes fixed effects terms for treatment, visit (as a categorical variable), pooled country, age stratum (stratification factor, CDRS-R total score at baseline, and treatment-by-visit interaction.|LS mean differnce (SE)|-5.7|STANDARD_ERROR_OF_MEAN|1.39|<|0.0001|TWO_SIDED|95.0|-8.4|-3.0|||LS mean differnece (SE)|||A mean difference in change from Baseline in CDRS-R total score of 5.0 units was assumed for the lurasidone 20-80 mg/day arm over the placebo arm, and a common standard deviation of 14.2 units (effect size=0.35), a sample size of 145 subjects per treatment arm was calculated to yield a power of 85%. With an expected attrition rate of 15%, approximately 170 subjects per treatment arm (340 in total) were to be randomized in a 1:1 ratio .||-3.0|-8.4|<0.0001
92359595|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|4.93||||0.0432|TWO_SIDED|95.0|0.16|9.7||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Sticky feeling - Left eye||9.70|0.16|0.0432
92359596|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|6.35||||0.0088|TWO_SIDED|95.0|1.7|11.0||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Sticky feeling - Right eye||11.00|1.70|0.0088
92359597|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|9.28||||0.0013|TWO_SIDED|95.0|3.9|14.66||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Blurred vision - Left eye||14.66|3.90|0.0013
92401755|NCT02183675|184694404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|104.8|STANDARD_ERROR_OF_MEAN|1.016|||TWO_SIDED|90.0|101.949|107.734|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-H12.5|||107.734|101.949|
92401756|NCT02183675|184694405|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|103.95|STANDARD_ERROR_OF_MEAN|1.017|||TWO_SIDED|90.0|101.023|106.964|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-A5|||106.964|101.023|
92223923|NCT05103332|184349193|SUPERIORITY||Difference in LS Mean|-18.5|STANDARD_ERROR_OF_MEAN|2.17|<|0.0001|TWO_SIDED|95.0|-22.8|-14.2||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to indapamide) and placebo (add on to indapamide), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for office SBP assessed while participants were on and within 2 weeks after stopping any escape medication were censored for this endpoint.||-14.2|-22.8|<0.0001
92223924|NCT05103332|184349194|SUPERIORITY||Difference in LS Mean|-11.0|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-14.7|-7.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to indapamide) and placebo (add on to indapamide), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for SBP assessed by ABPM, were included in the analysis for this endpoint.||-7.3|-14.7|<0.0001
92223925|NCT05103332|184349195|SUPERIORITY||Difference in LS Mean|-13.6|STANDARD_ERROR_OF_MEAN|1.66|<|0.0001|TWO_SIDED|95.0|-16.9|-10.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to indapamide) and placebo (add on to indapamide), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for office SBP were included in the analysis for this endpoint.||-10.3|-16.9|<0.0001
92359598|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|5.31||||0.00629|TWO_SIDED|95.0|-0.3|10.92||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Blurred vision - Right eye||10.92|-0.30|0.00629
92359599|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|9.92||||0.002|TWO_SIDED|95.0|3.89|15.95||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Photophobia - Left eye||15.95|3.89|0.0020
92359600|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|7.95||||0.0111|TWO_SIDED|95.0|1.93|13.97||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Photophobia - Right eye||13.97|1.93|0.0111
92359601|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|31.67||||0.0448|TWO_SIDED|95.0|0.78|62.56||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Total score ocular tolerability - Left eye||62.56|0.78|0.0448
92401757|NCT02183675|184694406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|102.49|STANDARD_ERROR_OF_MEAN|1.014|||TWO_SIDED|90.0|100.167|104.867|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-A5|||104.867|100.167|
92401758|NCT02183675|184694407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|105.35|STANDARD_ERROR_OF_MEAN|1.036|||TWO_SIDED|90.0|99.23|111.847|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-H12.5|||111.847|99.230|
92401759|NCT02183675|184694408|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|103.39|STANDARD_ERROR_OF_MEAN|1.028|||TWO_SIDED|90.0|98.73|108.28|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-H12.5|||108.280|98.730|
92401760|NCT01377584|184694491|OTHER||Effect size|-0.51|||||TWO_SIDED|||||||||||||
92401761|NCT01377584|184694491|OTHER||Effect size|-0.42|||||TWO_SIDED|||||||||||||
92401762|NCT01377584|184694491|OTHER||Effect size|-0.82|||||TWO_SIDED|||||||||||||
92401763|NCT01377584|184694491|OTHER||Effect size|-1.31|||||TWO_SIDED|||||||||||||
92401764|NCT01377584|184694491|OTHER||Effect size|-0.08|||||TWO_SIDED|||||||||||||
92401765|NCT01377584|184694491|OTHER||Effect size|-0.77|||||TWO_SIDED|||||||||||||
92401766|NCT01377584|184694492|OTHER||Effect size|0.51|||||TWO_SIDED|||||||||||||
92401767|NCT01377584|184694492|OTHER||Effect size|0.41|||||TWO_SIDED|||||||||||||
92401768|NCT01377584|184694492|OTHER||Effect size|0.57|||||TWO_SIDED|||||||||||||
92401769|NCT01377584|184694492|OTHER||Effect size|1.54|||||TWO_SIDED|||||||||||||
92401770|NCT01377584|184694492|OTHER||Effect size|0.0|||||TWO_SIDED|||||||||||||
92401771|NCT01377584|184694492|OTHER||Effect size|0.65|||||TWO_SIDED|||||||||||||
92401772|NCT01377584|184694493|OTHER||Effect size|-1.01|||||TWO_SIDED|||||||||||||
92401773|NCT01377584|184694493|OTHER||Effect size|-0.94|||||TWO_SIDED|||||||||||||
92401774|NCT01377584|184694493|OTHER||Effect size|-0.4|||||TWO_SIDED|||||||||||||
92401775|NCT01377584|184694493|OTHER||Effect size|-0.31|||||TWO_SIDED|||||||||||||
92401776|NCT01377584|184694493|OTHER||Effect size|-0.65|||||TWO_SIDED|||||||||||||
92401777|NCT01377584|184694493|OTHER||Effect size|-0.77|||||TWO_SIDED|||||||||||||
92223926|NCT05103332|184349196|SUPERIORITY||Odds Ratio (OR)|12.39|||<|0.0001|TWO_SIDED|95.0|4.61|33.29||Logistic regression model included treatment and race (black or all other races) as factors and baseline 24-hour mean SBP and baseline eGFR as covariates.|Regression, Logistic|||A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05.||33.29|4.61|<0.0001
92359602|NCT02507934|184623592|SUPERIORITY||Mean Difference (Final Values)|26.36||||0.0834|TWO_SIDED|95.0|-3.66|56.37||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Total score ocular tolerability - Right eye||56.37|-3.66|0.0834
92359603|NCT02507934|184623594|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.2317|TWO_SIDED|95.0|-0.14|0.57|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - Left eye - Day 7 ±1||0.57|-0.14|0.2317
92359604|NCT02507934|184623594|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.6017|TWO_SIDED|95.0|-0.7|0.41|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - Right eye - Day 7 ±1||0.41|-0.70|0.6017
92359605|NCT02507934|184623594|SUPERIORITY||Mean Difference (Final Values)|0.74||||0.0232|TWO_SIDED|95.0|0.11|1.36|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - Left eye - Day 14 ±1||1.36|0.11|0.0232
92359606|NCT02507934|184623594|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.0398|TWO_SIDED|95.0|0.03|1.17|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - Right eye - Day 14 ±1||1.17|0.03|0.0398
92359607|NCT02507934|184623594|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.0038|TWO_SIDED|95.0|0.36|1.74|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - Left eye - Day 21 ±1||1.74|0.36|0.0038
92359608|NCT02507934|184623594|SUPERIORITY||Mean Difference (Final Values)|0.75||||0.0135|TWO_SIDED|95.0|0.17|1.33|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - right eye||1.33|0.17|0.0135
92359609|NCT02507934|184623595|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.3442|TWO_SIDED|95.0|-0.66|1.83|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Left eye - Day 7±1||1.83|-0.66|0.3442
92359610|NCT02507934|184623595|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.772|TWO_SIDED|95.0|-1.99|1.49|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Right eye - Day 7±1||1.49|-1.99|0.7720
92359611|NCT02507934|184623595|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.9725|TWO_SIDED|95.0|-1.49|1.44|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Left eye - Day 14±1||1.44|-1.49|0.9725
92401778|NCT01377584|184694494|OTHER||Effect size|0.52|||||TWO_SIDED||||||||Comparing 1 week to 1 month|||||
92227191|NCT01727258|184356489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.54|STANDARD_ERROR_OF_MEAN|3.534||0.119|TWO_SIDED|95.0|-1.44|12.53||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||12.53|-1.44|0.119
92276694|NCT02046369|184454828|SUPERIORITY||LS mean differnce (SE)|-1.1|STANDARD_ERROR_OF_MEAN|0.54||0.0385|TWO_SIDED|95.0|-2.2|-0.1|||LS mean differnece (SE)|||LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||-0.1|-2.2|0.0385
92359612|NCT02507934|184623595|SUPERIORITY||Mean Difference (Final Values)|-1.36||||0.2111|TWO_SIDED|95.0|-3.54|0.81|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Right eye - Day 14±1||0.81|-3.54|0.2111
92359613|NCT02507934|184623595|SUPERIORITY||Median Difference (Final Values)|-1.1||||0.2629|TWO_SIDED|90.0|-3.06|0.86|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Left eye - Day 21±1||0.86|-3.06|0.2629
92359614|NCT02507934|184623595|SUPERIORITY||Mean Difference (Final Values)|-1.25||||0.2862|TWO_SIDED|95.0|-3.6|1.1|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Right eye - 21±1||1.10|-3.60|0.2862
92359615|NCT02507934|184623596|SUPERIORITY||Mean Difference (Final Values)|11.24||||0.2075|TWO_SIDED|95.0|-6.66|29.14|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Frequency - Day 7±1||29.14|-6.66|0.2075
92359616|NCT02507934|184623596|SUPERIORITY||Mean Difference (Final Values)|18.16||||0.0435|TWO_SIDED|95.0|0.57|35.76|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Frequency - Day 14±1||35.76|0.57|0.0435
92359617|NCT02507934|184623596|SUPERIORITY||Mean Difference (Final Values)|23.58||||0.0133|TWO_SIDED|95.0|5.24|41.93|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Frequency - Day 21±1||41.93|5.24|0.0133
92359618|NCT02507934|184623597|SUPERIORITY||Mean Difference (Final Values)|4.36||||0.613|TWO_SIDED|95.0|-12.98|21.69|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Severity - Day 7±1||21.69|-12.98|0.6130
92359619|NCT02507934|184623597|SUPERIORITY||Mean Difference (Final Values)|12.7||||0.1047|TWO_SIDED|95.0|-2.78|28.18|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Severity - Day 14±1||28.18|-2.78|0.1047
92359620|NCT02507934|184623597|SUPERIORITY||Mean Difference (Final Values)|13.4||||0.1108|TWO_SIDED|95.0|-3.24|30.04|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Severity - Day 21±1||30.04|-3.24|0.1108
92359621|NCT02507934|184623598|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.498|TWO_SIDED|95.0|-0.4|0.81|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Left eye - Day 7±1||0.81|-0.40|0.4980
92401779|NCT01377584|184694494|OTHER||Effect size|-0.63|||||TWO_SIDED||||||||Comparing 1 month and 3 months|||||
92401780|NCT01377584|184694494|OTHER||Effect size|0.5|||||TWO_SIDED||||||||Comparing 1 week to 1 month|||||
92401781|NCT01377584|184694494|OTHER||Effect size|-0.63|||||TWO_SIDED||||||||Comparing 1 month to 3 months|||||
92401782|NCT01377584|184694494|OTHER||Effect size|-0.92|||||TWO_SIDED||||||||Comparing 1 week to 1 month|||||
92401783|NCT01377584|184694494|OTHER||Effect size|-0.26|||||TWO_SIDED||||||||Comparing 1 month to 3 months|||||
92401784|NCT01576341|184694503|OTHER||Incidence rate|0.019|||||TWO_SIDED||||||||Incidence rate is based on duration of treatment period (years)|||||
92401785|NCT03413891|184694538|SUPERIORITY||Risk Ratio (RR)|0.93|||=|0.72|TWO_SIDED|95.0|0.6|1.42|||Chi-squared|||||1.42|0.60|=0.72
92401786|NCT03413891|184694540|SUPERIORITY||Rate Ratio|0.76|||=|0.36|TWO_SIDED|95.0|0.42|1.37|||negative-binomial regression|||||1.37|0.42|=0.36
92401787|NCT03413891|184694541|SUPERIORITY||Rate Ratio|0.32|||=|0.03|TWO_SIDED|95.0|0.12|0.89|||negative-binomial regression|||||0.89|0.12|=0.03
92401788|NCT03413891|184694542|SUPERIORITY||Rate Ratio|0.6|||=|0.11|TWO_SIDED|95.0|0.32|1.12|||negative-binomial regression|||||1.12|0.32|=0.11
92227192|NCT01727258|184356489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.47|STANDARD_ERROR_OF_MEAN|3.566|<|0.001|TWO_SIDED|95.0|-24.52|-10.42||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-10.42|-24.52|<0.001
92359622|NCT02507934|184623598|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.1986|TWO_SIDED|95.0|-0.18|0.83|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Right eye - Day 7±1||0.83|-0.18|0.1986
92359623|NCT02507934|184623598|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.4067|TWO_SIDED|95.0|-0.9|0.37|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Left eye - Day 14±1||0.37|-0.90|0.4067
92359624|NCT02507934|184623598|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.5256|TWO_SIDED|95.0|-0.81|0.42|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Right eye - Day 14±1||0.42|-0.81|0.5256
92359625|NCT02507934|184623598|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.1471|TWO_SIDED|95.0|-1.12|0.17|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Left eye - Day 21±1||0.17|-1.12|0.1471
92359626|NCT02507934|184623598|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.2455|TWO_SIDED|95.0|-0.96|0.25|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Right eye - Day 21±1||0.25|-0.96|0.2455
92359627|NCT02507934|184623599|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.4233|TWO_SIDED|95.0|-1.98|0.85|||Student t-test for unpaired data|||T test p-value - Left eye - Day 7±1||0.85|-1.98|0.4233
92359628|NCT02507934|184623599|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.6335|TWO_SIDED|95.0|-1.04|1.69|||Student t-test for unpaired data|||T test p-value - Right eye - Day 7±1||1.69|-1.04|0.6335
92359629|NCT02507934|184623599|SUPERIORITY||Mean Difference (Final Values)|-2.04||||0.0103|TWO_SIDED|95.0|-3.56|-0.51|||Student t-test for unpaired data|||T test p-value - Left eye - Day 14±1||-0.51|-3.56|0.0103
92359630|NCT02507934|184623599|SUPERIORITY||Mean Difference (Final Values)|-1.34||||0.1006|TWO_SIDED|95.0|-2.95|0.27|||Student t-test for unpaired data|||T test p-value - Right eye - Day 14±1||0.27|-2.95|0.1006
92359631|NCT02507934|184623599|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.0041|TWO_SIDED|95.0|-4.15|-0.85|||Student t-test for unpaired data|||T test p-value - Left eye - Day 21±1||-0.85|-4.15|0.0041
92359632|NCT02507934|184623599|SUPERIORITY||Mean Difference (Final Values)|-1.87||||0.0429|TWO_SIDED|95.0|-3.67|-0.06|||Student t-test for unpaired data|||T test p-value - Right eye - Day 21±1||-0.06|-3.67|0.0429
92359633|NCT02507934|184623600|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.2338|TWO_SIDED|95.0|-0.75|0.19|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Left eye - Day 7±1||0.19|-0.75|0.2338
92359634|NCT02507934|184623600|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.3081|TWO_SIDED|95.0|-0.58|0.19|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Right eye - Day 7±1||0.19|-0.58|0.3081
92359635|NCT02507934|184623600|SUPERIORITY||Mean Difference (Final Values)|1.59||||0.4287|TWO_SIDED|95.0|-2.57|5.74|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Left eye - Day 14±1||5.74|-2.57|0.4287
92359636|NCT02507934|184623600|SUPERIORITY||Mean Difference (Final Values)|1.15||||0.5765|TWO_SIDED|95.0|-3.14|5.44|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Right eye - Day 14±1||5.44|-3.14|0.5765
92359637|NCT02507934|184623600|SUPERIORITY||Mean Difference (Final Values)|-1.17||||0.0259|TWO_SIDED|95.0|-2.18|-0.15|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Left eye - Day 21±1||-0.15|-2.18|0.0259
92359638|NCT02507934|184623600|SUPERIORITY||Mean Difference (Final Values)|-0.93||||0.1496|TWO_SIDED|95.0|-2.23|0.37|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Right eye - Day 21±1||0.37|-2.23|0.1496
92359639|NCT02507934|184623601|SUPERIORITY|||||||0.2342|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Right - Day 7±1||||0.2342
92359640|NCT02507934|184623601|SUPERIORITY|||||||0.8874|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Left - Day 7±1||||0.8874
92359641|NCT02507934|184623601|SUPERIORITY|||||||0.0504|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Right - Day 7±1||||0.0504
92359642|NCT02507934|184623601|SUPERIORITY|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Left - Day 7±1||||0.0814
92359643|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Right - Day 7±1||||1.0000
92359644|NCT02507934|184623601|SUPERIORITY|||||||0.3855|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Left - Day 7±1||||0.3855
92359645|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Right - Day 7±1||||1.0000
92359646|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Left - Day 7±1||||1.0000
92401789|NCT03413891|184694543|SUPERIORITY||Rate Ratio|0.42|||=|0.15|TWO_SIDED|95.0|0.13|1.38|||negative-binomial regression|||||1.38|0.13|=0.15
92401790|NCT03413891|184694545|SUPERIORITY||Rate Ratio|0.57|||=|0.37|TWO_SIDED|95.0|0.17|1.91|||negative-binomial regression|||||1.91|0.17|=0.37
92401791|NCT03413891|184694546|SUPERIORITY||Risk Ratio (RR)|0.7|||=|0.66|TWO_SIDED|95.0|0.26|1.91|||Chi-squared|||||1.91|0.26|=0.66
92401792|NCT03413891|184694547|SUPERIORITY||Rate Ratio|0.4|||=|0.04|TWO_SIDED|95.0|0.16|0.98|||negative-binomial regression|||||0.98|0.16|=0.04
92401793|NCT03413891|184694548|SUPERIORITY||Rate Ratio|0.37|||<|0.01|TWO_SIDED|95.0|0.18|0.78|||negative-binomial regression|||||0.78|0.18|<0.01
92401794|NCT00795704|184694585|SUPERIORITY_OR_OTHER|||||||0.079|||||||t-test, 2 sided|||||||0.079
92401795|NCT00795704|184694587|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92401796|NCT00301808|184694588|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier product limit|0.66|STANDARD_ERROR_OF_MEAN|0.1423|||TWO_SIDED|95.0|0.48|0.84||||||||0.84|0.48|
92401797|NCT00844844|184694592|SUPERIORITY_OR_OTHER||LS mean change from baseline|65.18|||<|0.0001|TWO_SIDED|95.0|37.01|93.36|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||With at least 12 patients enrolled and assuming a null hypothesis of no post-dose change from baseline in mean platelet count, the study had approximately 88% power to detect as statistically significant an effect size (mean change from baseline/standard deviation) of at least 1 when using a one sample t-test with a two-sided α=0.05. All analyses were based on the pooled data from the two protocols:C08-002A (adult) and C08-002B (Adolescent), a similar protocol, for patients \<18 years with aHUS.||93.36|37.01|<0.0001
92401798|NCT00844844|184694593|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|82.0|||||TWO_SIDED|95.0|57.0|96.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||96|57|
92401799|NCT00844844|184694594|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|76.0|||||TWO_SIDED|95.0|50.0|93.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||93|50|
92401800|NCT00844844|184694595|SUPERIORITY_OR_OTHER||Percent of complete TMA response|65.0|||||TWO_SIDED|95.0|38.0|86.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||86|38|
92401801|NCT00844844|184694596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||||<0.0001
92401802|NCT00844844|184694597|SUPERIORITY_OR_OTHER||LS mean change from baseline|111.62|||<|0.0001|TWO_SIDED|95.0|98.12|125.13|||ANOVA|Change from baseline was analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||125.13|98.12|<0.0001
92401803|NCT00844844|184694598|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|88.0|||||TWO_SIDED|95.0|64.0|99.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||99|64|
92223927|NCT05103332|184349207|SUPERIORITY||Difference in LS Mean|-10.2|STANDARD_ERROR_OF_MEAN|1.67|<|0.0001|TWO_SIDED|95.0|-13.4|-6.9||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to amlodipine) and placebo (add on to amlodipine), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for office SBP assessed while participants were on and within 2 weeks after stopping any escape medication were censored for this endpoint.||-6.9|-13.4|<0.0001
92276695|NCT02046369|184454829|SUPERIORITY||LS mean differnce (SE)|3.9|STANDARD_ERROR_OF_MEAN|1.35||0.0044|TWO_SIDED|95.0|1.2|6.5|||LS mean differnece (SE)|||LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||6.5|1.2|0.0044
92401804|NCT00844844|184694599|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|88.0|||||TWO_SIDED|95.0|64.0|99.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||99|64|
92401805|NCT00844844|184694600|SUPERIORITY_OR_OTHER||Percent of complete TMA response|76.0|||||TWO_SIDED|95.0|50.0|93.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||93|50|
92401806|NCT00844844|184694601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||||<0.0001
92401807|NCT03905096|184694603|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|92.63|STANDARD_DEVIATION|12.4|||TWO_SIDED|90.0|85.34|100.53|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||100.53|85.34|
92401808|NCT03905096|184694604|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|98.64|STANDARD_DEVIATION|6.9|||TWO_SIDED|90.0|93.21|104.39|||ANOVA|"The statistical model was ANOVA on the logarithmic scale considering the effect subjects as random and the effect treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||104.39|93.21|
92223928|NCT05103332|184349208|SUPERIORITY||Difference in LS Mean|-7.9|STANDARD_ERROR_OF_MEAN|1.36|<|0.0001|TWO_SIDED|95.0|-10.6|-5.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to amlodipine) and placebo (add on to amlodipine), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for SBP assessed by ABPM, were included in the analysis for this endpoint.||-5.3|-10.6|<0.0001
92223929|NCT05103332|184349209|SUPERIORITY||Difference in LS Mean|-8.6|STANDARD_ERROR_OF_MEAN|1.16|<|0.0001|TWO_SIDED|95.0|-10.9|-6.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to amlodipine) and placebo (add on to amlodipine), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for office SBP were included in the analysis for this endpoint.||-6.3|-10.9|<0.0001
92223930|NCT05103332|184349210|SUPERIORITY||Odds Ratio (OR)|5.08|||<|0.0001|TWO_SIDED|95.0|2.43|10.61||Logistic regression model included treatment and race (black or all other races) as factors and baseline 24-hour mean SBP and baseline eGFR as covariates.|Regression, Logistic|||A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05.||10.61|2.43|<0.0001
92223931|NCT05103332|184349221|SUPERIORITY||Difference in LS Mean|-6.7|STANDARD_ERROR_OF_MEAN|1.76|=|0.0002|TWO_SIDED|95.0|-10.2|-3.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to olmesartan) and placebo (add on to olmesartan), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for office SBP assessed while participants were on and within 2 weeks after stopping any escape medication were censored for this endpoint.||-3.3|-10.2|=0.0002
92227193|NCT01738971|184356531|SUPERIORITY_OR_OTHER||relative probability|3.13|||<|0.001||95.0|1.9|5.13|||t-test, 2 sided|see above description of analysis taking into account cluster randomisation||"Cluster randomised study design - statisitical analysis takes this into account. Analaysis was conducted at a cluster level and the proportions in each cluster using effective contraception were compared between groups by 2-sample t tests, weighted by the different number of patients in each cluster.~Comparison of number of women using effective contraception at 6-8 weeks in progestogen only pill group compared to control."||5.13|1.90|<0.001
92359647|NCT02507934|184623601|SUPERIORITY|||||||0.4754|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Right - Day 7±1||||0.4754
92359648|NCT02507934|184623601|SUPERIORITY|||||||0.2914|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Left - Day 7±1||||0.2914
92359649|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Right - Day 7±1||||1.0000
92359650|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Left - Day 7±1||||1.0000
92359651|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Right - Day 7±1||||1.0000
92359652|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Left - Day 7±1||||1.0000
92359653|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Right - Day 7±1||||1.0000
92359654|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Left - Day 7±1||||1.0000
92359655|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Right - Day 7±1||||1.0000
92359656|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Left - Day 7±1||||1.0000
92359657|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Right - Day 7±1||||1.0000
92359658|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Left - Day 7±1||||1.0000
92359659|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Right - Day 7±1||||1.0000
92359660|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Left - Day 7±1||||1.0000
92359661|NCT02507934|184623601|SUPERIORITY|||||||0.2429|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Right - Day 14±1||||0.2429
92165191|NCT01192542|184218441|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin of 0.05 (1/2 LogMAR line) was used.|Least-square mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.0064|||TWO_SIDED|95.0|-0.022|0.003|||Mixed Models Analysis|Comparisons between two lenses were carried out using 95% confidence intervals (CI) constructed for least-square mean differences.|The mean difference is calculated as: Test lens - Control lens.|The alternative hypothesis is the monocular visual acuity of the galyfilcon A prototype lens is non-inferior to that of the enfilcon A lens.||0.003|-0.022|
92359662|NCT02507934|184623601|SUPERIORITY|||||||0.5707|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Left - Day 14±1||||0.5707
92359663|NCT02507934|184623601|SUPERIORITY|||||||0.0092|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Right - Day 14±1||||0.0092
92359664|NCT02507934|184623601|SUPERIORITY|||||||0.0039|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Left - Day 14±1||||0.0039
92359665|NCT02507934|184623601|SUPERIORITY|||||||0.2882|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Right - Day 14±1||||0.2882
92359666|NCT02507934|184623601|SUPERIORITY|||||||0.4017|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Left - Day 14±1||||0.4017
92359667|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Right - Day 14±1||||1.0000
92359668|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Left - Day 14±1||||1.0000
92359669|NCT02507934|184623601|SUPERIORITY|||||||0.0731|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Right - Day 14±1||||0.0731
92359670|NCT02507934|184623601|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Left - Day 14±1||||0.0020
92359671|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Right - Day 14±1||||1.0000
92359672|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Left - Day 14±1||||1.0000
92359673|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Right - Day 14±1||||1.0000
92359674|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Left - Day 14±1||||1.0000
92359675|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Right - Day 14±1||||1.0000
92359676|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Left - Day 14±1||||1.0000
92359677|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Right - Day 14±1||||1.0000
92359678|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Left - Day 14±1||||1.0000
92359679|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Right - Day 14±1||||1.0000
92359680|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Left - Day 14±1||||1.0000
92359681|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Right - Day 14±1||||1.0000
92359682|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Left - Day 14±1||||1.0000
92359683|NCT02507934|184623601|SUPERIORITY|||||||0.1376|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Right - Day 21±1||||0.1376
92359684|NCT02507934|184623601|SUPERIORITY|||||||0.3252|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Left - Day 21±1||||0.3252
92359685|NCT02507934|184623601|SUPERIORITY|||||||0.0111|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Right - Day 21±1||||0.0111
92359686|NCT02507934|184623601|SUPERIORITY|||||||0.0049|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Right - Day 21±1||||0.0049
92359687|NCT02507934|184623601|SUPERIORITY|||||||0.1178|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Right - Day 21±1||||0.1178
92359688|NCT02507934|184623601|SUPERIORITY|||||||0.9042|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Left - Day 21±1||||0.9042
92401809|NCT03905096|184694605|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|98.48|STANDARD_DEVIATION|12.4|||TWO_SIDED|90.0|90.74|106.88|||ANOVA|"The statistical model was ANOVA on the logarithmic scale considering the effect subjects as random and the effect treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||106.88|90.74|
92359689|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Right - Day 21±1||||1.0000
92359690|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Left - Day 21±1||||1.0000
92165192|NCT01192542|184218444|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin of 0.05 (1/2 LogMAR line) was used.|Least-square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.0091|||TWO_SIDED|95.0|-0.018|0.018|||Mixed Models Analysis|Comparisons between two lenses were carried out using 95% confidence intervals (CI) constructed for least-square mean differences.||The alternative hypothesis is the binocular visual acuity of the galyfilcon A prototype lens is non-inferior to that of the enfilcon A lens.||0.018|-0.018|
92359691|NCT02507934|184623601|SUPERIORITY|||||||0.0253|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Right - Day 21±1||||0.0253
92359692|NCT02507934|184623601|SUPERIORITY|||||||0.0016|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Left - Day 21±1||||0.0016
92359693|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Right - Day 21±1||||1.0000
92359694|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Left - Day 21±1||||1.0000
92359695|NCT02507934|184623601|SUPERIORITY|||||||0.3165|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Right - Day 21±1||||0.3165
92359696|NCT02507934|184623601|SUPERIORITY|||||||0.3165|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Left - Day 21±1||||0.3165
92359697|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Right - Day 21±1||||1.0000
92359698|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Left - Day 21±1||||1.0000
92359699|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Right - Day 21±1||||1.0000
92276696|NCT02046369|184454830|SUPERIORITY||LS mean differnce (SE)|4.7|STANDARD_ERROR_OF_MEAN|1.19|<|0.0001|TWO_SIDED|95.0|2.4|7.0|||LS mean differnece (SE)|||LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||7.0|2.4|<0.0001
92359700|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Left - Day 21±1||||1.0000
92359701|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Right - Day 21±1||||1.0000
92359702|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Left - Day 21±1||||1.0000
92359703|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Right - Day 21±1||||1.0000
92359704|NCT02507934|184623601|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Left - Day 21±1||||1.0000
92359705|NCT02507934|184623602|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.0599|TWO_SIDED|95.0|-0.05|2.29|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Left eye - Day 7±1||2.29|-0.05|0.0599
92359706|NCT02507934|184623602|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.3969|TWO_SIDED|95.0|-0.68|1.66|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Right eye - Day 7±1||1.66|-0.68|0.3969
92359707|NCT02507934|184623602|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.7225|TWO_SIDED|95.0|-1.29|1.84|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Left eye - Day 14±1||1.84|-1.29|0.7225
92359708|NCT02507934|184623602|SUPERIORITY||Mean Difference (Final Values)|-0.76||||0.269|TWO_SIDED|95.0|-2.14|0.62|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Right eye - Day 14±1||0.62|-2.14|0.2690
92359709|NCT02507934|184623602|SUPERIORITY||Mean Difference (Final Values)|0.78||||0.2344|TWO_SIDED|95.0|-0.53|2.1|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Left eye - Day 21±1||2.10|-0.53|0.2344
92359710|NCT02507934|184623602|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.5953|TWO_SIDED|95.0|-1.3|2.24|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Right eye||2.24|-1.30|0.5953
92359711|NCT02507934|184623603|SUPERIORITY||Mean Difference (Final Values)|0.79||||0.2193|TWO_SIDED|95.0|-0.54|2.11|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 7||2.11|-0.54|0.2193
92359712|NCT02507934|184623603|SUPERIORITY||Mean Difference (Final Values)|1.34||||0.0024|TWO_SIDED|95.0|0.51|2.18|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 8||2.18|0.51|0.0024
92359713|NCT02507934|184623603|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.425|TWO_SIDED|95.0|-0.49|1.14|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 9||1.14|-0.49|0.4250
92359714|NCT02507934|184623603|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.1275|TWO_SIDED|95.0|-0.17|1.29|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 10||1.29|-0.17|0.1275
92359715|NCT02507934|184623603|SUPERIORITY||Mean Difference (Final Values)|0.66||||0.0844|TWO_SIDED|95.0|-0.09|1.42|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 11||1.42|-0.09|0.0844
92401810|NCT03905096|184694606|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|100.15|STANDARD_DEVIATION|14.4|||TWO_SIDED|90.0|89.01|112.68|||ANOVA|"The statistical model was ANOVA on the logarithmic scale considering the effect subjects as random and the effect treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||112.68|89.01|
92401811|NCT03905096|184694607|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|94.77|STANDARD_DEVIATION|10.6|||TWO_SIDED|90.0|88.36|101.64|||ANOVA|"The statistical model was ANOVA on the logarithmic scale considering the effect subjects as random and the effect treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||101.64|88.36|
92401812|NCT03905096|184694608|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|100.06|STANDARD_DEVIATION|6.9|||TWO_SIDED|90.0|94.56|105.87|||ANOVA|"The statistical model was ANOVA on the logarithmic scale considering the effect subjects as random and the effect treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||105.87|94.56|
92401813|NCT02977403|184694618|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for AB reaction time measures. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. AB reaction times were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-1.948|||||TWO_SIDED|95.0|-20.79|16.894||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in AB, change scores were computed (post-pre = delta). Positive scores represent an increase in AB from pre- to post- intervention. Negative ∆reaction time scores represent a decrease in AB from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in AB following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||16.894|-20.790|
92401814|NCT02977403|184694618|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.952|||||TWO_SIDED|95.0|-35.28|33.377||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||33.377|-35.280|
92401815|NCT02977403|184694619|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficent|0.047|||||TWO_SIDED|95.0|-0.025|0.119||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.119|-0.025|
92401816|NCT02977403|184694619|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.134|||||TWO_SIDED|95.0|-0.288|0.019||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.019|-0.288|
92405850|NCT04730271|184702011|SUPERIORITY|||||||0.0074|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL for pain at rest at 12 weeks||||0.0074
92405851|NCT04730271|184702011|SUPERIORITY|||||||0.0663|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL for Pain at rest at 1 year||||0.0663
92405852|NCT04730271|184702011|SUPERIORITY|||||||0.7096|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL for Pain with Activity at 1 year||||0.7096
92405853|NCT04730271|184702011|SUPERIORITY|||||||0.5321|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL for pain with activity at 12 weeks||||0.5321
92405854|NCT04730271|184702011|SUPERIORITY|||||||0.0709|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL for Pain with activity at 12 weeks||||0.0709
92405855|NCT04730271|184702011|SUPERIORITY|||||||0.1274|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL for Pain with activity at 1 year||||0.1274
92405856|NCT04730271|184702012|SUPERIORITY|||||||0.6745|||||||t-test, 2 sided|||Comparison between the accuracy achieved in the first 10 cases compared to the subsequent cases||||0.6745
92405857|NCT02350296|184702023|EQUIVALENCE|Acceptance criterion for bioequivalence was a 94.12% confidence interval for the test/reference ratio of the geometric means within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies.|geometric means ratio|108.12||||0.1455|TWO_SIDED|94.12|97.57|119.81||"treatment P value reported"|ANOVA||Estimated value and limits are expressed in %|||119.81|97.57|0.1455
92405858|NCT02350296|184702024|EQUIVALENCE|Acceptance criterion for bioequivalence was a 94.12% confidence interval for the test/reference ratio of the geometric means within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies.|geometric means ratio|110.62||||0.0023|TWO_SIDED|94.12|104.26|117.38||"Treatment P value is reported"|ANOVA||Estimated value and limits are expressed in %|||117.38|104.26|0.0023
92405859|NCT02350296|184702025|EQUIVALENCE|Acceptance criterion for bioequivalence was a 94.12% confidence interval for the test/reference ratio of the geometric means within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies.|geometric means ratio|110.69||||0.0021|TWO_SIDED|94.12|104.35|117.41||"treatment P value is reported"|ANOVA||Estimated value and limits are expressed in %|||117.41|104.35|0.0021
92405860|NCT02350296|184702026|EQUIVALENCE|Acceptance criterion for bioequivalence was a 94.12% confidence interval for the test/reference ratio of the geometric means within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies.||||||0.0201|||||||Friedman|||||||0.0201
92359716|NCT02507934|184623603|SUPERIORITY||Mean Difference (Final Values)|0.86||||0.0238|TWO_SIDED|95.0|0.12|1.6|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 12||1.60|0.12|0.0238
92165193|NCT03557658|184218457|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate|106.22|||||TWO_SIDED|90.0|78.34|144.02|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with hepatic function group as a fixed effect, and the subject as a random effect.|Geometric LS Mean was used as PK parameters for total bexagliflozin by hepatic function group.||144.02|78.34|
92359717|NCT02507934|184623603|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.0369|TWO_SIDED|95.0|0.05|1.61|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 13||1.61|0.05|0.0369
92359718|NCT02507934|184623603|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.3496|TWO_SIDED|95.0|-0.61|1.64|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 14||1.64|-0.61|0.3496
92359719|NCT03766399|184623628|OTHER||LS means difference|-0.44||||0.9511|TWO_SIDED|90.0|-12.9|12.0|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 1 Vs Part 2a (MAD) Cohort 2||12.0|-12.9|0.9511
92359720|NCT03766399|184623628|OTHER||LS means difference|-7.87||||0.2849|TWO_SIDED|90.0|-20.3|4.59|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 2 Vs Part 2a (MAD) Placebo||4.59|-20.3|0.2849
92359721|NCT03766399|184623628|OTHER||LS means difference|-8.31||||0.2595|TWO_SIDED|90.0|-20.8|4.14|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 1 Vs Part 2a (MAD) Placebo||4.14|-20.8|0.2595
92401817|NCT02977403|184694620|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass and height, race and ethnicity.|beta coefficent|-0.002|||||TWO_SIDED|95.0|-0.085|0.082||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post-intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.082|-0.085|
92401818|NCT02977403|184694620|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.053|||||TWO_SIDED|95.0|-0.177|0.071||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.071|-0.177|
92359722|NCT03766399|184623628|OTHER||LS means difference|-3.04||||0.3604|TWO_SIDED|90.0|-8.6|2.51|||Linear Mixed Model|||Comparison of Part 3a (DPI/PoM) Vs Part 3a (DPI/PoM) Placebo||2.51|-8.60|0.3604
92359723|NCT03766399|184623629|OTHER||LS means difference|-25.4||||0.7544|TWO_SIDED|90.0|-166.0|115.0|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 1 Vs Part 2a (MAD) Cohort 2||115|-166|0.7544
92359724|NCT03766399|184623629|OTHER||LS means difference|-73.3||||0.375|TWO_SIDED|90.0|-214.0|67.6|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 2 Vs Part 2a (MAD) Placebo||67.6|-214|0.3750
92359725|NCT03766399|184623629|OTHER||LS means difference|-98.7||||0.2377|TWO_SIDED|90.0|-240.0|42.3|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 1 Vs Part 2a (MAD) Placebo||42.3|-240|0.2377
92359726|NCT03766399|184623629|OTHER||LS means difference|-50.4||||0.1105|TWO_SIDED|90.0|-102.0|1.61|||Linear Mixed Model|||Comparison of Part 3a (DPI/PoM) Vs Part 3a (DPI/PoM) Placebo||1.61|-102|0.1105
92359727|NCT03331354|184623630|SUPERIORITY||Cox Proportional Hazard|1.87|||=|0.016|TWO_SIDED||||||Chi-squared|||||||=.016
92359728|NCT03331354|184623631|SUPERIORITY|||||||0.008|||||||ANCOVA|Initial interview scores were used as control in the ANCOVA||||||.008
92359729|NCT03331354|184623632|SUPERIORITY|||||||0.99|||||||ANCOVA|Change in confidence was evaluated using time one as a covariate.||||||.99
92359730|NCT03331354|184623632|SUPERIORITY|||||||0.99|||||||ANCOVA|Interview scores at enrollment were used as a covariate||||||.99
92359731|NCT03331354|184623633|OTHER||||||<|0.001|||||||Pearson Correlation|||This post-hoc analysis was performed on only the COMPASS group to determine the association between percent of the online system completed and change in interview scores||||<.001
92359732|NCT05889468|184623641|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test, a non-parametric test, was used since the empirical distribution of data did not follow the normality assumption.||This was an intention-to-treat analysis.||||0.49
92359733|NCT05889468|184623642|SUPERIORITY|||||||0.32|||||||Fisher Exact|||Intention-to-treat analysis||||0.32
92359734|NCT05889468|184623644|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Intention-to-treat analysis||||>0.99
92359735|NCT05889468|184623645|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Intention-to-treat analysis||||>0.99
92359736|NCT05468918|184623648|OTHER|||||||0.002|||||||ANOVA|||||||0.002
92359737|NCT05468918|184623649|OTHER|||||||0.023|||||||ANOVA|||||||0.023
92359738|NCT01251757|184623707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|||<|0.001|TWO_SIDED|95.0|0.011|0.034|||Regression, Linear|adjusted for site, gender, age, total number of prescription medications patient is taking, comorbid diabetes/CVD, and baseline statin adherence.|Adjusted difference in adherence for IVR group versus UC group, calculated as IVR - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||0.034|0.011|<.001
92359739|NCT01251757|184623707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|||<|0.001|TWO_SIDED|95.0|0.019|0.042|||Regression, Linear|adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline statin adherence.|Adjusted difference in adherence for IVR+ group versus UC group, calculated as IVR+ - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||0.042|0.019|<.001
92359740|NCT01251757|184623708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016||||0.022|TWO_SIDED|95.0|0.002|0.029|||Regression, Linear|Adjusted for site, gender, age, total number of prescription medications participant was taking, comorbid diabetes/CVD, baseline ACEI/ARB adherence.|Adjusted difference in adherence for IVR+ group versus UC group, calculated as IVR+ - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||0.029|0.002|0.022
92359741|NCT01251757|184623708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|||<|0.001|TWO_SIDED|95.0|0.023|0.05|||Regression, Linear|Adjusted for site, gender, age, total number of prescription medications participant was taking, comorbid diabetes/CVD, baseline ACEI/ARB adherence.|Adjusted difference in adherence for IVR+ group versus UC group, calculated as IVR+ - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||0.050|0.023|<.001
92359742|NCT01251757|184623709|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.002|TWO_SIDED|95.0|1.05|1.24||Adjusted for site, gender, age, total number of prescription medications patient is taking, comorbid diabetes/CVD, and baseline statin adherence.|Regression, Logistic||Adjusted odds ratio for good adherence in IVR group versus UC group, calculated as IVR - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||1.24|1.05|0.002
92359743|NCT01251757|184623709|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16|||<|0.001|TWO_SIDED|95.0|1.06|1.26||Adjusted for site, gender, age, total number of prescription medications patient is taking, comorbid diabetes/CVD, and baseline statin adherence.|Regression, Logistic||Adjusted odds ratio for good adherence in IVR+ group versus UC group, calculated as IVR+ - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||1.26|1.06|<0.001
92359744|NCT01251757|184623710|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.014|TWO_SIDED|95.0|1.02|1.23||adjusted for site, gender, age, total number of prescription medications participant was taking, comorbid diabetes/CVD, baseline ACEI/ARB adherence|Regression, Logistic||Adjusted odds ratio for good adherence in IVR group versus UC group, calculated as IVR - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||1.23|1.02|0.014
92359745|NCT01251757|184623710|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21|||<|0.001|TWO_SIDED|95.0|1.1|1.32||Adjusted for site, gender, age, total number of prescription medications patient is taking, comorbid diabetes/CVD, and baseline statin adherence.|Regression, Logistic||Adjusted odds ratio for good adherence in IVR group versus UC group, calculated as IVR - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||1.32|1.10|<0.001
92359746|NCT01251757|184623711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.041|TWO_SIDED|95.0|-1.0|0.0||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Linear|Adjusted for site, gender, age, total number of prescription medications patient is taking, comorbid diabetes/CVD, and baseline SBP group.||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline SBP level groups.||0.0|-1.0|.041
92359747|NCT01251757|184623711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.93|TWO_SIDED|95.0|-0.5|0.5||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Linear|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline SBP group.||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline SBP level groups.||.5|-.5|.93
92359748|NCT01251757|184623712|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.404|TWO_SIDED|95.0|0.93|1.19||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Logistic|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline SBP group||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline SBP level groups.||1.19|0.93|.404
92276697|NCT02046369|184454831|SUPERIORITY||LS mean differnce (SE)|-0.7|STANDARD_ERROR_OF_MEAN|0.77||0.3715|TWO_SIDED|95.0|-2.2|0.8|||ANCOVA|||LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||0.8|-2.2|0.3715
92276698|NCT02046369|184454832|SUPERIORITY||LS mean differnce (SE)|-0.44|STANDARD_ERROR_OF_MEAN|0.112|<|0.0001|TWO_SIDED|95.0|-0.66|-0.22||LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).|LS mean differnece (SE)|||||-0.22|-0.66|<0.0001
92276699|NCT04345471|184454846|SUPERIORITY|To adjust for the multiplicity, only when the superiority of MD-120 50 mg to Placebo was verified, the superiority of MD-120 100 mg to Placebo was tested.|LS mean difference|-0.6||||0.509|TWO_SIDED|95.0|-2.5|1.2||A priori threshold for statistical significance is p\<0.05, 2-sided.|MMRM|||||1.2|-2.5|0.509
92359749|NCT01251757|184623712|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.54|TWO_SIDED|95.0|0.85|1.09||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Logistic|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline SBP group||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline SBP level groups.||1.09|.85|.54
92401819|NCT02977403|184694621|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.08|||||TWO_SIDED|95.0|-0.022|0.182||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.182|-0.022|
92401820|NCT02977403|184694621|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.018|||||TWO_SIDED|95.0|-0.139|0.103||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.103|-0.139|
92401821|NCT02977403|184694622|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.013|||||TWO_SIDED|95.0|-0.086|0.113||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.113|-0.086|
92401822|NCT02977403|184694622|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.035|||||TWO_SIDED|95.0|-0.179|0.109||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.109|-0.179|
92401823|NCT02977403|184694623|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.083|||||TWO_SIDED|95.0|-0.001|0.167||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.167|-0.001|
92401824|NCT02977403|184694623|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.069|||||TWO_SIDED|95.0|-0.201|0.063||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.063|-0.201|
92223932|NCT05103332|184349222|SUPERIORITY||Difference in LS Mean|-1.8|STANDARD_ERROR_OF_MEAN|1.42|=|0.2103|TWO_SIDED|95.0|-4.6|1.0||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to olmesartan) and placebo (add on to olmesartan), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for SBP assessed by ABPM, were included in the analysis for this endpoint.||1.0|-4.6|=0.2103
92359750|NCT01251757|184623713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.38|TWO_SIDED|95.0|-1.8|0.7||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Linear|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline LDL group.||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline LDL subgroups.||0.7|-1.8|.38
92359751|NCT01251757|184623713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.019|TWO_SIDED|95.0|-2.7|-0.2||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Linear|adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline LDL group.|MeanLDL levels were sig lower for IVR+ participants than for UC participants. In subgroup analyses this difference was most pronounced in those individuals with baseline LDL levels above 100 mg/dL (adj diff=-3.6 mg/dL, 95%CI= (-5.9, -1.3), p=.002).|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline LDL level subgroups.||-0.2|-2.7|.019
92359752|NCT01251757|184623714|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.59|TWO_SIDED|95.0|0.93|1.13||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Logistic|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline LDL group.||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline LDL level subgroups.||1.13|0.93|.59
92359753|NCT01251757|184623714|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.058|TWO_SIDED|95.0|1.0|1.22||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Logistic|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline LDL group.|Though higher for the IVR+ group, LDL control did not differ significantly between the IVR+ and UC arms. Among those with poor initial control, however, control was sig better for the IVR+ arm (OR = 1.21, 95%CI = (1.04, 1.42), p=.015).|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline LDL level subgroups.||1.22|1.00|.058
92401825|NCT02977403|184694624|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity|beta coefficient|0.031|||||TWO_SIDED|95.0|-0.059|0.121||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.121|-0.059|
92276700|NCT04345471|184454846|SUPERIORITY|To adjust for the multiplicity, only when the superiority of MD-120 50 mg to Placebo was verified, the superiority of MD-120 100 mg to Placebo was tested.|LS mean difference|-1.4||||0.131|TWO_SIDED|95.0|-3.3|0.4||A priori threshold for statistical significance is p\<0.05, 2-sided. The value was based on the post-hoc analysis by not taking into account the multiplicity.|MMRM|||||0.4|-3.3|0.131
92165194|NCT03557658|184218457|EQUIVALENCE|The acceptance range for bioequivalence is 80.00 - 125.00%.|Point Estimate|110.84|||||TWO_SIDED|90.0|75.34|163.06|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with hepatic function group as a fixed effect, and the subject as a random effect.|Geometric LS Mean was used as PK parameters for unbound bexagliflozin by hepatic function group||163.06|75.34|
92165195|NCT03557658|184218460|EQUIVALENCE|The acceptance range for bioequivalence is 80.00 - 125.00%.|Point Estimate|128.34|||||TWO_SIDED|90.0|99.98|164.73|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with hepatic function group as a fixed effect, and the subject as a random effect.|Geometric LS Mean was used as PK parameters for total bexagliflozin by hepatic function group||164.73|99.98|
92359754|NCT02284893|184623715|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.1001||0.0008|||||||Mixed Models Analysis|||||||0.0008
92359755|NCT02284893|184623716|SUPERIORITY||Risk Difference (RD)|12.2|STANDARD_ERROR_OF_MEAN|4.175||0.0034|||||||Regression, Logistic|the analysis was by Zhang et.al. method with adjustment for baseline A1c.The measure of interest is NOT odds ratio but Risk Difference.||||||0.0034
92359756|NCT02284893|184623717|SUPERIORITY||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|0.2891||0.0001|||||||Mixed Models Analysis|||||||0.0001
92359757|NCT02284893|184623718|SUPERIORITY||Mean Difference (Final Values)|-20.9|STANDARD_ERROR_OF_MEAN|3.682||0.0001|||||||Mixed Models Analysis|||||||0.0001
92359758|NCT02231580|184623734|SUPERIORITY_OR_OTHER||GLS mean ratio|1.104|||=|0.5743|TWO_SIDED|90.0|0.823|1.482|||MMRM|||Left hand position-index statistical analysis is presented (BN82451B versus Placebo). The Mixed Effect Model Repeat Measurement (MMRM) analysis was performed on log-transformed data using the restricted maximum likelihood (REML) model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.482|0.823|=0.5743
92359759|NCT02231580|184623734|SUPERIORITY_OR_OTHER||GLS mean ratio|1.141|||=|0.4349|TWO_SIDED|90.0|0.862|1.51|||MMRM|||Right hand position-index statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.510|0.862|=0.4349
92359760|NCT02231580|184623735|SUPERIORITY_OR_OTHER||GLS mean ratio|1.035|||=|0.8937|TWO_SIDED|90.0|0.675|1.587|||MMRM|||Left hand orientation-index statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.587|0.675|=0.8937
92359761|NCT02231580|184623735|SUPERIORITY_OR_OTHER||GLS mean ratio|1.093|||=|0.636|TWO_SIDED|90.0|0.8|1.493|||MMRM|||Right hand orientation-index statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.493|0.800|=0.6360
92359762|NCT02231580|184623736|SUPERIORITY_OR_OTHER||GLS mean ratio|1.247|||=|0.2865|TWO_SIDED|90.0|0.886|1.756|||MMRM|||Left hand grip force variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.756|0.886|=0.2865
92401826|NCT02977403|184694624|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.002|||||TWO_SIDED|95.0|-0.157|0.152||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.152|-0.157|
92165196|NCT03557658|184218460|EQUIVALENCE|The acceptance range for bioequivalence is 80.00 - 125.00%.|Point Estimate|132.16|||||TWO_SIDED|90.0|96.46|181.08|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with hepatic function group as a fixed effect, and the subject as a random effect.|Geometric LS Mean was used as PK parameters for unbound bexagliflozin by hepatic function group||181.08|96.46|
92165197|NCT01194154|184218462|SUPERIORITY_OR_OTHER||treatment effect|2.21||||0.657|TWO_SIDED|95.0|-0.35|4.78|||Wilcoxon (Mann-Whitney)||An analysis of covariance (ANCOVA) model with adjustment for baseline eGFR was used to obtain an estimate of the treatment difference.|||4.78|-0.35|0.657
92276701|NCT04345471|184454848|SUPERIORITY||LS mean difference|-0.2||||0.811|TWO_SIDED|95.0|-1.5|1.2||A priori threshold for statistical significance is p\<0.05, 2-sided.|MMRM|||||1.2|-1.5|0.811
92359763|NCT02231580|184623736|SUPERIORITY_OR_OTHER||GLS mean ratio|1.16|||=|0.5338|TWO_SIDED|90.0|0.781|1.724|||MMRM|||Right hand grip force variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.724|0.781|=0.5338
92359764|NCT02231580|184623737|SUPERIORITY_OR_OTHER||GLS mean ratio|0.693|||=|0.0864|TWO_SIDED|90.0|0.487|0.985|||MMRM|||Left hand isometric grip forces statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||0.985|0.487|=0.0864
92359765|NCT02231580|184623737|SUPERIORITY_OR_OTHER||GLS mean ratio|0.686|||=|0.0399|TWO_SIDED|90.0|0.508|0.925|||MMRM|||Right hand isometric grip forces statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||0.925|0.508|=0.0399
92223933|NCT05103332|184349223|SUPERIORITY||Difference in LS Mean|-4.5|STANDARD_ERROR_OF_MEAN|1.14|<|0.0001|TWO_SIDED|95.0|-6.8|-2.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to olmesartan) and placebo (add on to olmesartan), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for office SBP were included in the analysis for this endpoint.||-2.3|-6.8|<0.0001
92223934|NCT05103332|184349224|SUPERIORITY||Odds Ratio (OR)|1.67|||=|0.123|TWO_SIDED|95.0|0.87|3.23||Logistic regression model included treatment and race (black or all other races) as factors and baseline 24-hour mean SBP and baseline eGFR as covariates.|Regression, Logistic|||A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05.||3.23|0.87|=0.1230
92401827|NCT02977403|184694625|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.042|||||TWO_SIDED|95.0|-0.149|0.065||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.065|-0.149|
92401828|NCT02977403|184694625|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.068|||||TWO_SIDED|95.0|-0.266|0.131||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.131|-0.266|
92165198|NCT01194154|184218463|SUPERIORITY_OR_OTHER||treatment effect|2.24||||0.709|TWO_SIDED|95.0|-0.54|5.01|||Wilcoxon (Mann-Whitney)||ANCOVA model with adjustment for baseline eGFR was used to obtain an estimate of the treatment difference.|||5.01|-0.54|0.709
92165199|NCT01901276|184218473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71|||||||t-test, 2 sided|||Within-individual differences in Shannon indices were tested using paired t tests (normally distributed data).||||0.71
92165200|NCT04141917|184218474|SUPERIORITY||Risk Ratio, log|1.33|||||TWO_SIDED|95.0|0.35|5.02||||||The number of influenza-positive tests was analyzed using a generalized linear mixed model following a Poisson distribution with a log link and robust variance. The model is adjusted for calendar time and an exposure time variable based on shelter capacity. This model includes symptomatic individuals who tested throughout Year 1 of the study (November 15, 2019 - March 31, 2020).||5.02|0.35|
92165201|NCT03515304|184218488|SUPERIORITY|||||||0.2497|||||||t-test, 2 sided|||||||0.2497
92165202|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|1.03|||||TWO_SIDED|95.0|0.81|1.31|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-1.||1.31|0.81|
92359766|NCT02231580|184623738|SUPERIORITY_OR_OTHER||GLS mean ratio|1.509|||=|0.0574|TWO_SIDED|90.0|1.06|2.15|||MMRM|||Left finger IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.150|1.060|=0.0574
92359767|NCT02231580|184623738|SUPERIORITY_OR_OTHER||GLS mean ratio|0.953|||=|0.8277|TWO_SIDED|90.0|0.662|1.372|||MMRM|||Right finger IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.372|0.662|=0.8277
92359768|NCT02231580|184623738|SUPERIORITY_OR_OTHER||GLS mean ratio|1.238|||=|0.0162|TWO_SIDED|90.0|1.074|1.426|||MMRM|||Left finger IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.426|1.074|=0.0162
92359769|NCT02231580|184623738|SUPERIORITY_OR_OTHER||GLS mean ratio|1.038|||=|0.632|TWO_SIDED|90.0|0.912|1.182|||MMRM|||Right finger IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.182|0.912|=0.6320
92359770|NCT02231580|184623739|SUPERIORITY_OR_OTHER||GLS mean ratio|1.308|||=|0.3005|TWO_SIDED|90.0|0.85|2.014|||MMRM|||Left finger variability of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.014|0.85|=0.3005
92359771|NCT02231580|184623739|SUPERIORITY_OR_OTHER||GLS mean ratio|1.177|||=|0.4793|TWO_SIDED|90.0|0.804|1.722|||MMRM|||Right finger variability of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.722|0.804|=0.4793
92359772|NCT02231580|184623739|SUPERIORITY_OR_OTHER||GLS mean ratio|1.15|||=|0.2653|TWO_SIDED|90.0|0.934|1.416|||MMRM|||Left finger duration of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.416|0.934|=0.2653
92359773|NCT02231580|184623739|SUPERIORITY_OR_OTHER||GLS mean ratio|1.045|||=|0.6777|TWO_SIDED|90.0|0.875|1.248|||MMRM|||Right finger duration of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.248|0.875|=0.6777
92359774|NCT02231580|184623740|SUPERIORITY_OR_OTHER||GLS mean ratio|1.618|||=|0.0326|TWO_SIDED|90.0|1.124|2.331|||MMRM|||Left finger IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.331|1.124|=0.0326
92359775|NCT02231580|184623740|SUPERIORITY_OR_OTHER||GLS mean ratio|0.886|||=|0.6016|TWO_SIDED|90.0|0.605|1.299|||MMRM|||Right finger IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.299|0.605|=0.6016
92359776|NCT02231580|184623740|SUPERIORITY_OR_OTHER||GLS mean ratio|1.242|||=|0.0152|TWO_SIDED|90.0|1.077|1.433|||MMRM|||Left finger IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.433|1.077|=0.0152
92405761|NCT02085161|184701878|SUPERIORITY_OR_OTHER||Treatment ratio|1.041|STANDARD_ERROR_OF_MEAN|0.106||0.6895|TWO_SIDED|95.0|0.853|1.272||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM).|This treatment comparison is the third one in the alpha-protected hierarchical testing chain. Since the p-value for this treatment comparison is \>0.05, the hierarchical testing chain is broken and all of the following hypothesis tests in this hierarchical chain are considered as descriptive only.||1.272|0.853|0.6895
92223935|NCT02043548|184349250|SUPERIORITY|||||||0.86|||||||GEE|||||||0.86
92223936|NCT02043548|184349251|SUPERIORITY|||||||0.77|||||||Log Rank|||||||0.77
92223937|NCT02043548|184349252|SUPERIORITY|||||||0.4|||||||binomial test|||||||0.40
92223938|NCT02043548|184349253|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
92223939|NCT02043548|184349254|SUPERIORITY|||||||0.78|||||||GEE|||||||0.78
92223940|NCT02043548|184349254|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
92223941|NCT04179175|184349275|OTHER||Hazard Ratio (HR)|0.87||||0.25|TWO_SIDED|95.0|0.59|1.29|||Log Rank|one-sided stratified log-rank test, with region and body weight (\<90 kg, ≥ 90 kg) as strata||||1.29|0.59|0.250
92223942|NCT04179175|184349275|OTHER||Hazard Ratio (HR)|0.7||||0.044|TWO_SIDED|95.0|0.47|1.05|||Log Rank|one-sided stratified log-rank test, with region and body weight (\<90 kg, ≥ 90 kg) as strata||||1.05|0.47|0.044
92223943|NCT01696435|184349278|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.62|TWO_SIDED|95.0|0.87|1.09||P-value was not adjusted for multiple comparisons. A priori, two-sided tests with an alpha level of 0.025 were used to account for the 2 co-primary outcomes (depression event and mood scores).|Regression, Cox||Active treatment vs. Placebo comparison|||1.09|.87|0.62
92223944|NCT01696435|184349278|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.03|TWO_SIDED|95.0|1.01|1.26||P-value was not adjusted for multiple comparisons. A priori, two-sided tests with an alpha level of 0.025 were used to account for the 2 co-primary outcomes (depression event and mood scores).|Regression, Cox||Active treatment vs. Placebo comparison|||1.26|1.01|0.03
92223945|NCT01696435|184349279|SUPERIORITY||Mean Difference (Net)|0.01|||||TWO_SIDED|95.0|-0.04|0.05|||Mixed Models Analysis|||Test of whether the mean difference in change comparing the treatment groups is different than zero. See full SAP for all details.||0.05|-0.04|
92223946|NCT01696435|184349279|SUPERIORITY||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.01|0.07|||Mixed Models Analysis|||Test of whether the mean difference in change comparing the treatment groups is different than zero. See full SAP for all details.||0.07|-0.01|
92223947|NCT01696435|184349280|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.88|TWO_SIDED|95.0|0.87|1.13||P-value not adjusted for multiple comparisons. This outcome was not a pre-specified primary outcome and results are to be interpreted with caution.|Regression, Cox||Active treatment vs. Placebo comparison|||1.13|0.87|0.88
92223948|NCT01696435|184349280|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.02|TWO_SIDED|95.0|1.03|1.33||P-value not adjusted for multiple comparisons. This outcome was not a pre-specified primary outcome and results are to be interpreted with caution.|Regression, Cox||Active treatment vs. Placebo comparison|||1.33|1.03|0.02
92223949|NCT01696435|184349281|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.67|TWO_SIDED|95.0|0.76|1.19|||Regression, Cox||Active treatment vs. Placebo comparison|P-value not adjusted for multiple comparisons. This outcome was not a pre-specified primary outcome and results are to be interpreted with caution.||1.19|0.76|0.67
92223950|NCT01696435|184349281|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.88|TWO_SIDED|95.0|0.82|1.27|||Regression, Cox||Active treatment vs. Placebo comparison|P-value not adjusted for multiple comparisons. This outcome was not a pre-specified primary outcome and results are to be interpreted with caution.||1.27|0.82|0.88
92359777|NCT02231580|184623740|SUPERIORITY_OR_OTHER||GLS mean ratio|1.042|||=|0.6033|TWO_SIDED|90.0|0.915|1.186|||MMRM|||Right finger IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.186|0.915|=0.6033
92223951|NCT01745146|184349335|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.047||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for STAXI-2 Trait Anger. Missing outcomes reported at non-responders.||||0.047
92223952|NCT01745146|184349335|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.549||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for STAXI-2 Anger Expression-Out. Missing outcomes reported at non-responders.||||0.549
92223953|NCT01745146|184349335|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.511||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for BAAQ. Missing outcomes reported at non-responders.||||0.511
92223954|NCT01745146|184349335|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.031||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for STAXI-2 Trait Anger. Missing outcomes excluded for this analysis.||||0.031
92223955|NCT01745146|184349335|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.483||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for STAXI-2 Anger Expression-Out. Missing outcomes excluded for this analysis.||||0.483
92276702|NCT04345471|184454848|SUPERIORITY||LS mean difference|-0.5||||0.424|TWO_SIDED|95.0|-1.9|0.8||A priori threshold for statistical significance is p\<0.05, 2-sided.|MMRM|||||0.8|-1.9|0.424
92276703|NCT01710306|184454868|SUPERIORITY|||||||0.1996|||||||Chi-squared|||||||0.1996
92359778|NCT02231580|184623741|SUPERIORITY_OR_OTHER||GLS mean ratio|1.657|||=|0.052|TWO_SIDED|90.0|1.086|2.529|||MMRM|||Left finger ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.529|1.086|=0.0520
92359779|NCT02231580|184623741|SUPERIORITY_OR_OTHER||GLS mean ratio|0.916|||=|0.6978|TWO_SIDED|90.0|0.63|1.333|||MMRM|||Right finger ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.333|0.630|=0.6978
92359780|NCT02231580|184623741|SUPERIORITY_OR_OTHER||GLS mean ratio|1.298|||=|0.0522|TWO_SIDED|90.0|1.043|1.614|||MMRM|||Left finger ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.614|1.043|=0.0522
92359781|NCT02231580|184623741|SUPERIORITY_OR_OTHER||GLS mean ratio|1.014|||=|0.9012|TWO_SIDED|90.0|0.837|1.229|||MMRM|||Right finger ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.229|0.837|=0.9012
92359782|NCT02231580|184623742|SUPERIORITY_OR_OTHER||GLS mean ratio|1.198|||=|0.1779|TWO_SIDED|90.0|0.96|1.494|||MMRM|||Left finger TF statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.494|0.96|=0.1779
92359783|NCT02231580|184623742|SUPERIORITY_OR_OTHER||GLS mean ratio|0.966|||=|0.8036|TWO_SIDED|90.0|0.765|1.22|||MMRM|||Right finger TF statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.220|0.765|=0.8036
92359784|NCT02231580|184623743|SUPERIORITY_OR_OTHER||GLS mean ratio|0.812|||=|0.0177|TWO_SIDED|90.0|0.706|0.935|||MMRM|||Left finger freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||0.935|0.706|=0.0177
92359785|NCT02231580|184623743|SUPERIORITY_OR_OTHER||GLS mean ratio|0.967|||=|0.6491|TWO_SIDED|90.0|0.856|1.093|||MMRM|||Right finger freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.093|0.856|=0.6491
92359786|NCT02231580|184623744|SUPERIORITY_OR_OTHER||GLS mean ratio|1.168|||=|0.6176|TWO_SIDED|90.0|0.697|1.955|||MMRM|||Left hand IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.955|0.697|=0.6176
92401829|NCT02977403|184694626|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.034|||||TWO_SIDED|95.0|-0.122|0.053||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.053|-0.122|
92359787|NCT02231580|184623744|SUPERIORITY_OR_OTHER||GLS mean ratio|0.759|||=|0.4541|TWO_SIDED|90.0|0.411|1.399|||MMRM|||Right hand IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.399|0.411|=0.4541
92359788|NCT02231580|184623744|SUPERIORITY_OR_OTHER||GLS mean ratio|1.119|||=|0.2018|TWO_SIDED|90.0|0.967|1.294|||MMRM|||Left hand IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.294|0.967|=0.2018
92359789|NCT02231580|184623744|SUPERIORITY_OR_OTHER||GLS mean ratio|1.046|||=|0.6527|TWO_SIDED|90.0|0.886|1.234|||MMRM|||Right hand IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.234|0.886|=0.6527
92359790|NCT02231580|184623745|SUPERIORITY_OR_OTHER||GLS mean ratio|0.929|||=|0.8279|TWO_SIDED|90.0|0.529|1.63|||MMRM|||Left hand variability of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.630|0.529|=0.8279
92359791|NCT02231580|184623745|SUPERIORITY_OR_OTHER||GLS mean ratio|0.612|||=|0.2738|TWO_SIDED|90.0|0.292|1.283|||MMRM|||Right hand variability of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.283|0.292|=0.2738
92359792|NCT02231580|184623745|SUPERIORITY_OR_OTHER||GLS mean ratio|1.018|||=|0.9218|TWO_SIDED|90.0|0.752|1.378|||MMRM|||Left hand duration of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.378|0.752|=0.9218
92359793|NCT02231580|184623745|SUPERIORITY_OR_OTHER||GLS mean ratio|0.847|||=|0.5032|TWO_SIDED|90.0|0.561|1.277|||MMRM|||Right hand duration of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.277|0.561|=0.5032
92359794|NCT02231580|184623746|SUPERIORITY_OR_OTHER||GLS mean ratio|1.14|||=|0.6759|TWO_SIDED|90.0|0.677|1.917|||MMRM|||Left hand IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.917|0.677|=0.6759
92359795|NCT02231580|184623746|SUPERIORITY_OR_OTHER||GLS mean ratio|0.815|||=|0.5764|TWO_SIDED|90.0|0.444|1.496|||MMRM|||Right hand IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.496|0.444|=0.5764
92359796|NCT02231580|184623746|SUPERIORITY_OR_OTHER||GLS mean ratio|1.115|||=|0.2127|TWO_SIDED|90.0|0.965|1.289|||MMRM|||Left hand IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.289|0.965|=0.2127
92359797|NCT02231580|184623746|SUPERIORITY_OR_OTHER||GLS mean ratio|1.059|||=|0.5661|TWO_SIDED|90.0|0.897|1.25|||MMRM|||Right hand IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.25|0.897|=0.5661
92359798|NCT02231580|184623747|SUPERIORITY_OR_OTHER||GLS mean ratio|1.571|||=|0.0874|TWO_SIDED|90.0|1.018|2.424|||MMRM|||Left hand ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.424|1.018|=0.0874
92359799|NCT02231580|184623747|SUPERIORITY_OR_OTHER||GLS mean ratio|1.18|||=|0.6431|TWO_SIDED|90.0|0.644|2.162|||MMRM|||Right hand ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.162|0.644|=0.6431
92359800|NCT02231580|184623747|SUPERIORITY_OR_OTHER||GLS mean ratio|1.193|||=|0.0389|TWO_SIDED|90.0|1.038|1.371|||MMRM|||Left hand ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.371|1.038|=0.0389
92359801|NCT02231580|184623747|SUPERIORITY_OR_OTHER||GLS mean ratio|1.138|||=|0.1641|TWO_SIDED|90.0|0.976|1.327|||MMRM|||Right hand ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.327|0.976|=0.1641
92359802|NCT02231580|184623748|SUPERIORITY_OR_OTHER||GLS mean ratio|0.93|||=|0.5668|TWO_SIDED|90.0|0.755|1.147|||MMRM|||Left hand TF variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.147|0.755|=0.5668
92359803|NCT02231580|184623748|SUPERIORITY_OR_OTHER||GLS mean ratio|0.978|||=|0.8686|TWO_SIDED|90.0|0.778|1.229|||MMRM|||Right hand TF variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.229|0.778|=0.8686
92359804|NCT02231580|184623749|SUPERIORITY_OR_OTHER||GLS mean ratio|0.879|||=|0.1244|TWO_SIDED|90.0|0.765|1.009|||MMRM|||Left hand freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.009|0.765|=0.1244
92359805|NCT02231580|184623749|SUPERIORITY_OR_OTHER||GLS mean ratio|0.919|||=|0.3535|TWO_SIDED|90.0|0.789|1.069|||MMRM|||Right hand freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.069|0.789|=0.3535
92359806|NCT02231580|184623750|SUPERIORITY_OR_OTHER||GLS mean ratio|2.163|||=|0.015|TWO_SIDED|90.0|1.295|3.614|||MMRM|||Left foot IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||3.614|1.295|=0.015
92359807|NCT02231580|184623750|SUPERIORITY_OR_OTHER||GLS mean ratio|1.274|||=|0.5136|TWO_SIDED|90.0|0.688|2.361|||MMRM|||Right foot IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.361|0.688|=0.5136
92359808|NCT02231580|184623750|SUPERIORITY_OR_OTHER||GLS mean ratio|1.56|||=|0.0218|TWO_SIDED|90.0|1.139|2.137|||MMRM|||Left foot IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.137|1.139|=0.0218
92359809|NCT02231580|184623750|SUPERIORITY_OR_OTHER||GLS mean ratio|1.251|||=|0.372|TWO_SIDED|90.0|0.825|1.899|||MMRM|||Right foot IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.899|0.825|=0.3720
92359810|NCT02231580|184623751|SUPERIORITY_OR_OTHER||GLS mean ratio|1.911|||=|0.915|TWO_SIDED|90.0|1.017|3.592|||MMRM|||Left foot TD variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||3.592|1.017|=0.915
92401830|NCT02977403|184694626|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.07|||||TWO_SIDED|95.0|-0.233|0.092||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.092|-0.233|
92401831|NCT02977403|184694627|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.042|||||TWO_SIDED|95.0|-0.041|0.126||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.126|-0.041|
92401832|NCT02977403|184694627|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.085|||||TWO_SIDED|95.0|-0.252|0.082||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.082|-0.252|
92165203|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.96|||||TWO_SIDED|95.0|0.8|1.16|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-3||1.16|0.8|
92165204|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|1.13|||||TWO_SIDED|95.0|0.92|1.4|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-4||1.4|0.92|
92359811|NCT02231580|184623751|SUPERIORITY_OR_OTHER||GLS mean ratio|1.687|||=|0.2745|TWO_SIDED|90.0|0.762|3.737|||MMRM|||Right foot TD variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||3.737|0.762|=0.2745
92359812|NCT02231580|184623751|SUPERIORITY_OR_OTHER||GLS mean ratio|1.598|||=|0.1148|TWO_SIDED|90.0|0.98|2.608|||MMRM|||Left foot TD duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.608|0.980|=0.1148
92165205|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.96|||||TWO_SIDED|95.0|0.75|1.21|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-5||1.21|0.75|
92165206|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.92|||||TWO_SIDED|95.0|0.73|1.16|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-6B||1.16|0.73|
92165207|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|1.07|||||TWO_SIDED|95.0|0.89|1.29|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-7F||1.29|0.89|
92165208|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.97|||||TWO_SIDED|95.0|0.79|1.19|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-9V||1.19|0.79|
92165209|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.97|||||TWO_SIDED|95.0|0.81|1.18|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-14||1.18|0.81|
92165210|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.95|||||TWO_SIDED|95.0|0.77|1.16|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-18C||1.16|0.77|
92359813|NCT02231580|184623751|SUPERIORITY_OR_OTHER||GLS mean ratio|1.454|||=|0.308|TWO_SIDED|90.0|0.789|2.679|||MMRM|||Right foot TD duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.679|0.789|=0.3080
92359814|NCT02231580|184623752|SUPERIORITY_OR_OTHER||GLS mean ratio|2.272|||=|0.0079|TWO_SIDED|90.0|1.381|3.737|||MMRM|||Left foot IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||3.737|1.381|=0.0079
92165211|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|1.15|||||TWO_SIDED|95.0|0.95|1.4|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-19A||1.4|0.95|
92405762|NCT02085161|184701878|SUPERIORITY_OR_OTHER||Treatment ratio|1.128|STANDARD_ERROR_OF_MEAN|0.11||0.2188|TWO_SIDED|95.0|0.931|1.368||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM.|||1.368|0.931|0.2188
92165212|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|1.03|||||TWO_SIDED|95.0|0.84|1.25|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-19F||1.25|0.84|
92165213|NCT02045836|184218509|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.89|||||TWO_SIDED|95.0|0.7|1.12|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-23F||1.12|0.7|
92165214|NCT02045836|184218510|NON_INFERIORITY|Non Inferiority criterion used: UL of the 95% CI for the anti-gE antibodies GMC ratio between the Control group and the Co-Ad group had to be below 1.5|Adjusted GMC|1.02|||||TWO_SIDED|95.0|0.93|1.11|||ANCOVA|Ancova model: adjustment for baseline concentration and age - pooled variance|Adjusted ratios of GMCs between groups (Control group and Co-Ad group)|Adjusted ratios of GMCs between groups (Control group and Co-Ad group) for anti-gE antibody ELISA concentrations||1.11|0.93|
92165215|NCT00367055|184218573|SUPERIORITY_OR_OTHER|||||||0.376||95.0||||p value is for Total AUC(0-10 min)|Van Elteren|||||||0.376
92165216|NCT00367055|184218573|SUPERIORITY_OR_OTHER|||||||0.99||95.0||||p value is for Incremental AUC(0-10 min)|Van Elteren|||||||0.990
92359815|NCT02231580|184623752|SUPERIORITY_OR_OTHER||GLS mean ratio|1.21|||=|0.0204|TWO_SIDED|90.0|0.686|2.133|||MMRM|||Right foot IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.133|0.686|=0.0204
92165217|NCT04707313|184218583|SUPERIORITY||Difference to placebo|-5.6|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|90.0|-7.41|-3.74|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-3.74|-7.41|<.0001
92165218|NCT04707313|184218583|SUPERIORITY||Difference to placebo|-5.0|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|90.0|-6.8|-3.16|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-3.16|-6.80|<.0001
92359816|NCT02231580|184623752|SUPERIORITY_OR_OTHER||GLS mean ratio|1.564|||=|0.0204|TWO_SIDED|90.0|1.144|2.138|||MMRM|||Left foot IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.138|1.144|=0.0204
92165219|NCT04707313|184218583|SUPERIORITY||Difference to Placebo|-9.1|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|90.0|-10.89|-7.28|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-7.28|-10.89|<.0001
92359817|NCT02231580|184623752|SUPERIORITY_OR_OTHER||GLS mean ratio|1.269|||=|0.3144|TWO_SIDED|90.0|0.856|1.884|||MMRM|||Right foot IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.884|0.856|=0.3144
92359818|NCT02231580|184623753|SUPERIORITY_OR_OTHER||GLS mean ratio|1.914|||=|0.0324|TWO_SIDED|90.0|1.167|3.141|||MMRM|||Left foot ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||3.141|1.167|=0.0324
92359819|NCT02231580|184623753|SUPERIORITY_OR_OTHER||GLS mean ratio|1.462|||=|0.246|TWO_SIDED|90.0|0.85|2.515|||MMRM|||Right foot ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.515|0.85|=0.246
92359820|NCT02231580|184623753|SUPERIORITY_OR_OTHER||GLS mean ratio|1.387|||=|0.1057|TWO_SIDED|90.0|0.994|1.935|||MMRM|||Left foot ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.935|0.994|=0.1057
92401833|NCT02977403|184694628|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.021|||||TWO_SIDED|95.0|-0.06|0.102||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.102|-0.060|
92401834|NCT02977403|184694628|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.071|||||TWO_SIDED|95.0|-0.26|0.119||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.119|-0.260|
92165220|NCT04707313|184218583|SUPERIORITY||Difference to Placebo|-6.6|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|90.0|-8.75|-4.39|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-4.39|-8.75|<.0001
92165221|NCT04707313|184218583|SUPERIORITY||Difference to Placebo|-9.52|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|90.0|-11.43|-7.56|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-7.56|-11.43|<.0001
92165222|NCT04707313|184218583|SUPERIORITY||Difference to Placebo|-7.12|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|90.0|-9.41|-4.78|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-4.78|-9.41|<.0001
92359821|NCT02231580|184623753|SUPERIORITY_OR_OTHER||GLS mean ratio|1.074|||=|0.7342|TWO_SIDED|90.0|0.758|1.523|||MMRM|||Right foot ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.523|0.758|=0.7342
92165223|NCT04707313|184218583|SUPERIORITY||Difference to Placebo|-9.12|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|90.0|-11.11|-7.08|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-7.08|-11.11|<.0001
92405763|NCT02085161|184701878|SUPERIORITY_OR_OTHER||Treatment ratio|1.241|STANDARD_ERROR_OF_MEAN|0.123||0.0303|TWO_SIDED|95.0|1.021|1.507||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM.|||1.507|1.021|0.0303
92165224|NCT04707313|184218583|SUPERIORITY||Difference to Placebo|-7.18|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|90.0|-9.32|-4.99|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-4.99|-9.32|<.0001
92359822|NCT02231580|184623754|SUPERIORITY_OR_OTHER||GLS mean ratio|1.392|||=|0.1027|TWO_SIDED|90.0|0.997|1.943|||MMRM|||Left foot TF variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.943|0.997|=0.1027
92359823|NCT02231580|184623754|SUPERIORITY_OR_OTHER||GLS mean ratio|1.158|||=|0.4494|TWO_SIDED|90.0|0.84|1.595|||MMRM|||Right foot TF variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.595|0.840|=0.4494
92359824|NCT02231580|184623755|SUPERIORITY_OR_OTHER||GLS mean ratio|0.699|||=|0.035|TWO_SIDED|90.0|0.53|0.922|||MMRM|||Left foot freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||0.922|0.530|=0.0350
92359825|NCT02231580|184623755|SUPERIORITY_OR_OTHER||GLS mean ratio|0.853|||=|0.3556|TWO_SIDED|90.0|0.64|1.136|||MMRM|||Right foot freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.136|0.640|=0.3556
92359826|NCT00937105|184623856|SUPERIORITY_OR_OTHER||Cumulative Probability of no-CIE|92.8|||||TWO_SIDED|95.0|88.6|96.9|||Kaplan-Meier|Cumulative Unadjusted Probability of remaining CIE-free presented for entire cohort (both solution groups) to remain consistent with the primary aim||Cumulative Unadjusted Probability of Remaining Infiltrate Free in entire Cohort||96.9|88.6|
92359827|NCT00937105|184623857|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.737||||0.3923|TWO_SIDED|95.0|0.49|6.156|||Regression, Cox|Univariate hazard ratio provided because non-significant finding did not enter into multivariate analyses|referent is no substantial lens bioburden|To determine if microbial contamination of lenses is a risk factor for CIE||6.156|0.49|0.3923
92359828|NCT00937105|184623858|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.316||||0.7943|TWO_SIDED|95.0|0.167|10.393|||Regression, Cox|Univariate hazard ratio provided because non-significant finding did not enter into multivariate analyses|referent is no corneal staining|||10.393|0.167|0.7943
92359829|NCT00937105|184623859|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.674||||0.5894|TWO_SIDED|95.0|0.161|2.822|||Regression, Cox|Univariate hazard ratio provided because non-significant finding did not enter into multivariate analyses|referent is no substantial case bioburden|||2.822|0.161|0.5894
92405764|NCT02085161|184701879|SUPERIORITY_OR_OTHER||LSMean Difference|-331.975|STANDARD_ERROR_OF_MEAN|296.375||0.2639|TWO_SIDED|95.0|-916.015|252.064||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||252.064|-916.015|0.2639
92359830|NCT00937105|184623860|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.406||||0.1742|TWO_SIDED|95.0|0.678|8.537||Univariate hazard ratio provided because non-significant finding did not enter into multivariate analyses|Regression, Cox||referent is no substantial overall lid bioburden|||8.537|0.678|0.1742
92359831|NCT00937105|184623861|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.22||||0.04|TWO_SIDED|95.0|1.1|24.7|||Regression, Cox|Multivariate model adjusted for solution, gender and age|referent is no substantial CNS lid bioburden|||24.70|1.10|0.04
92359832|NCT04983979|184623862|OTHER||Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.752|0.552||||||Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||0.552|-0.752|
92359833|NCT04983979|184623863|OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-1.97|0.65|||||Only the mean difference for the study end (week 12) is presented here|Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||0.65|-1.97|
92359834|NCT04983979|184623864|OTHER||Mean Difference (Final Values)|25.15|||||TWO_SIDED|95.0|-48.83|99.13|||||Difference in change in systolic blood pressure between study arms.|Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||99.13|-48.83|
92359835|NCT04983979|184623864|OTHER||Mean Difference (Final Values)|8.78|||||TWO_SIDED|95.0|-22.92|40.47|||||Difference in change in diastolic blood pressure between study arms.|Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||40.47|-22.92|
92359836|NCT04983979|184623865|OTHER||Risk Difference (RD)|0.25|||||TWO_SIDED|95.0|-0.174|0.674||||||Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||0.674|-0.174|
92359837|NCT04983979|184623866|OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||0.00|0.00|
92401835|NCT02977403|184694629|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.107|||||TWO_SIDED|95.0|0.03|0.185||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.185|0.030|
92401836|NCT02977403|184694629|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.197|||||TWO_SIDED|95.0|-0.346|-0.047||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.047|-0.346|
92165225|NCT04707313|184218584|SUPERIORITY||Difference to Placebo|-8.21|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|90.0|-11.66|-4.63|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-4.63|-11.66|<.0001
92359838|NCT04983979|184623867|OTHER||Risk Difference (RD)|0.25|||||TWO_SIDED|95.0|-0.174|0.674||||||Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||0.674|-0.174|
92359839|NCT04983979|184623868|OTHER||Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-19.5|11.4||||||Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||11.4|-19.5|
92359840|NCT03176173|184623882|SUPERIORITY|||||||0.0007|||||||Exact binomial test|||||||0.0007
92359841|NCT03941093|184623951|OTHER||Hazard Ratio (HR)|1.08||||0.5487|TWO_SIDED|95.0|0.83|1.41|||Stratified Log Rank Test|||||1.41|0.83|0.5487
92359842|NCT05395936|184623988|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92359843|NCT04795531|184623989|NON_INFERIORITY|Non-inferiority of insulin icodec was considered confirmed if the upper limit of the two-sided 95% confidence interval (CI) for mean treatment difference (insulin icodec minus insulin degludec) was strictly below 0.3%.|Treatment difference|-0.21|||<|0.0001|TWO_SIDED|95.0|-0.34|-0.08|||ANCOVA|||The response and change from baseline in response after 26 weeks are analysed using an analysis of covariance (ANCOVA) model with treatment, region and sulfonylureas (SU)/glinides use as fixed factors, and baseline response as covariate.||-0.08|-0.34|<0.0001
92359844|NCT01323192|184623999|SUPERIORITY_OR_OTHER||Difference in least square means|-4.5|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-6.7|-2.4|||ANCOVA||LS mean of JNS001 minus LS mean of Placebo|||-2.4|-6.7|<0.0001
92359845|NCT01323192|184624000|SUPERIORITY_OR_OTHER||Difference in least square means|-6.9|STANDARD_ERROR_OF_MEAN|1.83||0.0002|||||||ANCOVA||LS mean of JNS001 minus LS mean of Placebo|||||0.0002
92359846|NCT01323192|184624001|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92359847|NCT01323192|184624002|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
92359848|NCT01323192|184624003|SUPERIORITY_OR_OTHER||Difference in least square means|-6.9|STANDARD_ERROR_OF_MEAN|1.83||0.0003|||||||ANCOVA||LS mean of JNS001 minus LS mean of Placebo|||||0.0003
92359849|NCT01323192|184624004|SUPERIORITY_OR_OTHER|||||||0.4041|||||||ANCOVA|||||||0.4041
92359850|NCT01276704|184624008|SUPERIORITY|||||||0.72||||||a priori threshold for statistical significance: \< 0.05|Wilcoxon (Mann-Whitney)|||83% power to detect an absolute 2.5% reduction in Ki-67 for the treatment group compared with no reduction in the control group.||||0.72
92165226|NCT04707313|184218584|SUPERIORITY||Difference to placebo|-8.44|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|90.0|-11.83|-4.92|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-4.92|-11.83|<.0001
92359851|NCT01276704|184624009|SUPERIORITY|||||||0.018||||||No adjustment for multiple comparisons. Standard threshold of P\<0.05|Wilcoxon (Mann-Whitney)|||||||0.018
92359852|NCT01276704|184624010|SUPERIORITY|||||||0.036||||||No adjustment for multiple comparisons. Standard threshold of P \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.036
92359853|NCT01168596|184624011|SUPERIORITY_OR_OTHER||Slope|1.3|STANDARD_ERROR_OF_MEAN|5.26||0.81|TWO_SIDED|95.0|-9.13|11.73|||Regression, Linear|||||11.73|-9.13|0.81
92359854|NCT01168596|184624012|SUPERIORITY_OR_OTHER||Slope|4.38|STANDARD_ERROR_OF_MEAN|3.6||0.23|TWO_SIDED|95.0|-2.75|11.51|||Regression, Linear|||||11.51|-2.75|0.23
92359855|NCT01168596|184624013|SUPERIORITY_OR_OTHER||Slope|1.61|STANDARD_ERROR_OF_MEAN|5.03||0.75|TWO_SIDED|95.0|-8.37|11.59|||Regression, Linear|||||11.59|-8.37|0.75
92359856|NCT01168596|184624014|SUPERIORITY_OR_OTHER||Slope|1.88|STANDARD_ERROR_OF_MEAN|3.06||0.54|TWO_SIDED|95.0|-4.18|7.94|||Regression, Linear|||||7.94|-4.18|0.54
92359857|NCT01168596|184624015|SUPERIORITY_OR_OTHER||Slope|-5.17|STANDARD_ERROR_OF_MEAN|6.36||0.42|TWO_SIDED|95.0|-17.76|7.43|||Regression, Linear|||||7.43|-17.76|0.42
92359858|NCT01168596|184624016|SUPERIORITY_OR_OTHER||Slope|0.36|STANDARD_ERROR_OF_MEAN|0.47||0.44|TWO_SIDED|95.0|-0.56|1.29|||Regression, Linear|||||1.29|-0.56|0.44
92359859|NCT01168596|184624017|SUPERIORITY_OR_OTHER||Slope|2.27|STANDARD_ERROR_OF_MEAN|10.02||0.82|TWO_SIDED|95.0|-17.59|22.13|||Regression, Linear|||||22.13|-17.59|0.82
92359860|NCT01168596|184624018|SUPERIORITY_OR_OTHER||Slope|-4.73|STANDARD_ERROR_OF_MEAN|7.36||0.52|TWO_SIDED|95.0|-19.31|9.85|||Regression, Linear|||||9.85|-19.31|0.52
92359861|NCT01168596|184624019|SUPERIORITY_OR_OTHER||Slope|0.11|STANDARD_ERROR_OF_MEAN|1.14||0.93|TWO_SIDED|95.0|-2.15|2.36|||Regression, Linear|||||2.36|-2.15|0.93
92165227|NCT04707313|184218584|SUPERIORITY||Difference to Placebo|-12.87|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|90.0|-16.15|-9.47|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-9.47|-16.15|<.0001
92165228|NCT04707313|184218597|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|7.37|||||TWO_SIDED|90.0|2.81|19.3||||||||19.30|2.81|
92165229|NCT04707313|184218597|SUPERIORITY||Odds Ratio (OR)|6.58|||||TWO_SIDED|90.0|2.62|16.53||||||Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.||16.53|2.62|
92165230|NCT04707313|184218597|SUPERIORITY||Odds Ratio (OR)|16.33|||||TWO_SIDED|90.0|6.47|41.24||||||Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.||41.24|6.47|
92165231|NCT04707313|184218597|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|14.24|||||TWO_SIDED|90.0|5.39|37.66||||||||37.66|5.39|
92165232|NCT04707313|184218597|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|30.17|||||TWO_SIDED|90.0|11.35|80.2||||||||80.20|11.35|
92359862|NCT01168596|184624020|SUPERIORITY_OR_OTHER||Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.47||0.82|TWO_SIDED|95.0|-1.05|0.83|||Regression, Linear|||||0.83|-1.05|0.82
92359863|NCT01168596|184624021|SUPERIORITY_OR_OTHER||Slope|-4.53|STANDARD_ERROR_OF_MEAN|7.68||0.56|TWO_SIDED|95.0|-19.74|10.69|||Regression, Linear|||||10.69|-19.74|0.56
92165233|NCT04707313|184218597|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|9.88|||||TWO_SIDED|90.0|2.91|33.53||||||||33.53|2.91|
92359864|NCT01168596|184624022|SUPERIORITY_OR_OTHER||Slope|-2.21|STANDARD_ERROR_OF_MEAN|2.93||0.45|TWO_SIDED|95.0|-8.02|3.59|||Regression, Linear|||||3.59|-8.02|0.45
92359865|NCT01168596|184624023|SUPERIORITY_OR_OTHER||Slope|2.76|STANDARD_ERROR_OF_MEAN|4.94||0.58|TWO_SIDED|95.0|-7.02|12.55|||Regression, Linear|||||12.55|-7.02|0.58
92165234|NCT04707313|184218597|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|24.41|||||TWO_SIDED|90.0|8.28|71.95||||||||71.95|8.28|
92359866|NCT01168596|184624024|SUPERIORITY_OR_OTHER||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.54||0.95|TWO_SIDED|95.0|-1.04|1.11|||Regression, Linear|||||1.11|-1.04|0.95
92359867|NCT01168596|184624025|SUPERIORITY_OR_OTHER||Slope|-0.38|STANDARD_ERROR_OF_MEAN|0.54||0.48|TWO_SIDED|95.0|-1.45|0.69|||Regression, Linear|||||0.69|-1.45|0.48
92359868|NCT01168596|184624026|SUPERIORITY_OR_OTHER||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.33||0.84|TWO_SIDED|95.0|-0.71|0.58|||Regression, Linear|||||0.58|-0.71|0.84
92165235|NCT04707313|184218597|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|12.65|||||TWO_SIDED|90.0|4.56|35.08||||||||35.08|4.56|
92165236|NCT04707313|184218598|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|33.43|||||TWO_SIDED|90.0|3.05|366.64||||||||366.64|3.05|
92165237|NCT04707313|184218598|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|34.04|||||TWO_SIDED|90.0|3.1|373.85||||||||373.85|3.10|
92165238|NCT04707313|184218598|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|127.21|||||TWO_SIDED|90.0|10.55|1533.46||||||||1533.46|10.55|
92359869|NCT01168596|184624027|SUPERIORITY_OR_OTHER||Slope|0.49|STANDARD_ERROR_OF_MEAN|0.64||0.44|TWO_SIDED|95.0|-0.77|1.76|||Regression, Linear|||||1.76|-0.77|0.44
92359870|NCT01168596|184624028|SUPERIORITY_OR_OTHER||Slope|-0.33|STANDARD_ERROR_OF_MEAN|0.88||0.71|TWO_SIDED|95.0|-2.06|1.41|||Regression, Linear|||||1.41|-2.06|0.71
92359871|NCT01168596|184624029|SUPERIORITY_OR_OTHER||Slope|0.64|STANDARD_ERROR_OF_MEAN|0.64||0.31|TWO_SIDED|95.0|-0.62|1.9|||Regression, Linear|||||1.90|-0.62|0.31
92359872|NCT01168596|184624030|SUPERIORITY_OR_OTHER||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.82||0.94|TWO_SIDED|95.0|-1.68|1.56|||Regression, Linear|||||1.56|-1.68|0.94
92359873|NCT00710593|184624032|SUPERIORITY_OR_OTHER||% of participants who were responders|97.5||||0.1613|TWO_SIDED|95.0|86.8|99.9|||Fisher Exact|||Historical comparison group can be referenced in: Villa et al. Immunologic responses following administration of a vaccine targeting human papillomavirus Types 6, 11, 16, and 18; Vaccine 24 (2006):5571-5583. PMID 16753240.||99.9|86.8|0.1613
92359874|NCT00710593|184624033|SUPERIORITY_OR_OTHER||% of participants who were responders|96.8||||0.0534|TWO_SIDED|95.0|89.0|99.9|||Fisher Exact|||Historical comparison group can be referenced in: Villa et al. Immunologic responses following administration of a vaccine targeting human papillomavirus Types 6, 11, 16, and 18; Vaccine 24 (2006):5571-5583. PMID 16753240.||99.9|89.0|0.0534
92359875|NCT00710593|184624034|SUPERIORITY_OR_OTHER||% of participants who were responders|96.1||||0.0427|TWO_SIDED|95.0|86.5|99.5|||Fisher Exact|||Historical comparison group can be referenced in: Villa et al. Immunologic responses following administration of a vaccine targeting human papillomavirus Types 6, 11, 16, and 18; Vaccine 24 (2006):5571-5583. PMID 16753240.||99.5|86.5|0.0427
92359876|NCT00710593|184624035|SUPERIORITY_OR_OTHER||% of participants who were responders|92.5||||0.0006|TWO_SIDED|95.0|83.4|97.5|||Fisher Exact|||Historical comparison group can be referenced in: Villa et al. Immunologic responses following administration of a vaccine targeting human papillomavirus Types 6, 11, 16, and 18; Vaccine 24 (2006):5571-5583. PMID 16753240.||97.5|83.4|0.0006
92359877|NCT00710593|184624036|SUPERIORITY_OR_OTHER||% of participants with at least 1 event|49.3||||0.8305|TWO_SIDED|95.0||||The p-value is to test the proportions of subjects with at least one event among Group A during the study at Entry, Week 8 and Week 24 after vaccine was administered.|Chi-squared, Corrected|||||||0.8305
92359878|NCT00710593|184624036|SUPERIORITY_OR_OTHER||% of participants with at least 1 event|46.7||||0.8305|TWO_SIDED|||||The p-value is to test the proportions of subjects with at least one event among Group B during the study at Entry, Week 8 and Week 24 after vaccine was administered.|Chi-squared, Corrected|||||||0.8305
92359879|NCT00710593|184624044|SUPERIORITY_OR_OTHER||Overall aquisition rate|7.9||||1||95.0|||||Fisher Exact|P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.||||||1.000
92359880|NCT00710593|184624045|SUPERIORITY_OR_OTHER||Overall aquisition rate|1.6||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
92401837|NCT02977403|184694630|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.092|||||TWO_SIDED|95.0|0.01|0.175||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.175|0.010|
92401838|NCT02977403|184694630|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.049|||||TWO_SIDED|95.0|-0.204|0.107||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.107|-0.204|
92401839|NCT02977403|184694631|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.046|||||TWO_SIDED|95.0|-0.032|0.123||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.123|-0.032|
92401840|NCT02977403|184694631|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.007|||||TWO_SIDED|95.0|-0.163|0.177||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.177|-0.163|
92405765|NCT02085161|184701879|SUPERIORITY_OR_OTHER||LSMean Difference|161.072|STANDARD_ERROR_OF_MEAN|293.506||0.5837|TWO_SIDED|95.0|-417.314|739.459||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||739.459|-417.314|0.5837
92276704|NCT00433381|184454884|OTHER|||||||||||||||||Null hypothesis: 20% of patients progression-free at six months. Alternative hypothesis: 35%. Type I and II error rates = 0.10. Required sample size = 57.|The determination of treatment efficacy was to be made made based on the following rules: If 16 or more of the cases (16/57=28.1%) are progression free and alive at 6 months, then reject the null hypothesis that the rate is no better than 20%. If 15 or fewer of the cases (15/57=26.3%) are progression free and alive at 6 months, then reject the alternative hypothesis that the rate is at least 35%.|||
92359881|NCT00710593|184624046|SUPERIORITY_OR_OTHER||Overall aquisition rate|2.0||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
92405766|NCT02085161|184701879|SUPERIORITY_OR_OTHER||LSMean Difference|-524.926|STANDARD_ERROR_OF_MEAN|296.802||0.0783|TWO_SIDED|95.0|-1109.806|59.954||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||59.954|-1109.806|0.0783
92405767|NCT02085161|184701879|SUPERIORITY_OR_OTHER||LSMean Difference|-493.048|STANDARD_ERROR_OF_MEAN|289.566||0.09|TWO_SIDED|95.0|-1063.67|77.575||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||77.575|-1063.670|0.0900
92359882|NCT00710593|184624047|SUPERIORITY_OR_OTHER||Overall aquisition rate|4.5||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
92359883|NCT00710593|184624048|SUPERIORITY_OR_OTHER||Overall aquisition rate|8.3||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
92359884|NCT00710593|184624049|SUPERIORITY_OR_OTHER||Overall aquistion rate|3.6||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
92359885|NCT00710593|184624050|SUPERIORITY_OR_OTHER||Overall aquisition rate|6.3||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
92359886|NCT00710593|184624051|SUPERIORITY_OR_OTHER||Overall aquisition rate|8.1||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
92359887|NCT00710593|184624052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.0004|TWO_SIDED|95.0|1.02|1.1|||Regression, Logistic|||||1.1|1.02|0.0004
92359888|NCT00710593|184624053|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.0012|TWO_SIDED|95.0|1.0|1.1|||Regression, Logistic|||||1.1|1.0|0.0012
92405768|NCT02085161|184701879|SUPERIORITY_OR_OTHER||LSMean Difference|685.998|STANDARD_ERROR_OF_MEAN|289.435||0.0186|TWO_SIDED|95.0|115.635|1256.362||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||1256.362|115.635|0.0186
92165239|NCT02459899|184218609|SUPERIORITY||Least squares mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.139||0.07|TWO_SIDED|95.0|-0.53|0.02||Threshold for significance \< 0.05|MMRM|||Analysis was performed using MMRM model with treatment, randomization strata of insulin delivery method (CSII, MDI), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline A1C-by-time interaction as a covariate.||0.02|-0.53|0.07
92165240|NCT02459899|184218609|SUPERIORITY||Least squares mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.135|<|0.001|TWO_SIDED|95.0|-0.75|-0.22||Threshold for significance \< 0.05|MMRM|||Analysis was performed using MMRM model with treatment, randomization strata of insulin delivery method (CSII, MDI), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline A1C-by-time interaction as a covariate.||-0.22|-0.75|<0.001
92359889|NCT00710593|184624054|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92359890|NCT03243084|184624077|SUPERIORITY|||||||0.319||||||Threshold for significance is \<.05.|ANOVA|||A 2x2 ANOVA was used to measure change in HF-HRV by condition (10 Hz vs sham) and session (first vs second) as within subjects variables||||.319
92359891|NCT03243084|184624079|SUPERIORITY|||||||0.0488||||||Threshold for significance is \<.05.|Wilcoxon (Mann-Whitney)|||Investigators hypothesized that active stimulation would have a greater normalized pain change using a modulation index \[(Pre-Post)/(Pre+Post)\]||||.0488
92359892|NCT05870345|184624087|OTHER|Sample size too small to perform additional statistical tests.|||||||||||||||||Sample size too small to perform additional statistical tests.|||
92359893|NCT05870345|184624088|OTHER|Sample size too small to perform additional statistical tests.|||||||||||||||||Sample size too small to perform additional statistical tests.|||
92359894|NCT02090764|184624114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Chi-squared|||The treatment comparison was done using only the outcomes of Clinical success and Clinical failure. The p value of the chi square test (without continuity correction) was provided. The analysis was performed to test the superiority of ozenoxacin versus placebo.||||0.001
92359895|NCT00744861|184624115|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9905|||||||Cochran-Mantel-Haenszel|site stratified||||||0.9905
92359896|NCT04562116|184624148|OTHER||Ratio|94.59||||0.5789|TWO_SIDED|90.0|79.57|112.45||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Caffeine||112.45|79.57|0.5789
92359897|NCT04562116|184624148|OTHER||Ratio|99.34||||0.9468|TWO_SIDED|90.0|83.66|117.96||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Metoprolol Tartrate||117.96|83.66|0.9468
92359898|NCT04562116|184624148|OTHER||Ratio|107.81||||0.1364|TWO_SIDED|90.0|99.14|117.24||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Midazolam||117.24|99.14|0.1364
92359899|NCT04562116|184624148|OTHER||Ratio|92.13||||0.1915|TWO_SIDED|90.0|82.85|102.44||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Omeprazole||102.44|82.85|0.1915
92359900|NCT04562116|184624148|OTHER||Ratio|101.67||||0.5059|TWO_SIDED|90.0|97.41|106.12||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Warfarin Sodium||106.12|97.41|0.5059
92165241|NCT02459899|184218609|SUPERIORITY||Least squares mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.136||0.006|TWO_SIDED|95.0|-0.65|-0.11||Threshold for significance \< 0.05|MMRM|||Analysis was performed using MMRM model with treatment, randomization strata of insulin delivery method (CSII, MDI), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline A1C-by-time interaction as a covariate.||-0.11|-0.65|0.006
92165242|NCT01063517|184218643|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|80.0|0.62|1.03|||||The numerator of the hazard ratio is hazards of progression in olaparib+paclitaxel group and denominator is hazards of progression in placebo+paclitaxel group. Confidence intervals are calculated using the profile-likelihood method.|The analysis was performed using a Cox proportional hazards model with factors for treatment group, ATM status and gastrectomy (full, partial, none).||1.03|0.62|
92165243|NCT01063517|184218644|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|80.0|0.51|1.08|||||The numerator of the hazard ratio is hazards of progression in olaparib+paclitaxel group and denominator is hazards of progression in placebo+paclitaxel group. Confidence intervals are calculated using the profile-likelihood method.|The analysis was performed using a Cox proportional hazards model with factors for treatment group and gastrectomy (full, partial, none).||1.08|0.51|
92223956|NCT01745146|184349335|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.53||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for BAAQ. Missing outcomes excluded for this analysis.||||0.530
92223957|NCT01745146|184349335|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.421||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's Chi-squared||Significance of difference in overall post-treatment response rate. Missing outcomes included as non-responders.||||0.421
92223958|NCT01745146|184349335|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.332||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's Chi-squared||Significance of difference in overall post-treatment response rate. Missing outcomes excluded for this analysis.||||0.332
92223959|NCT00130832|184349336|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (concomitant group minus staggered group) for subjects who achieve neutralizing antibody titers \[NA\] ≥1:8 greater than -10%.|Seroprotection Rate Difference|-0.5|||<|0.001||95.0|-2.2|1.4|||Miettinen and Nurminen's|Comparing seroprotection rate difference with the non-inferiority margin of 0.10 with Miettinen and Nurminen's method.||Seroprotection rate (proportion of subjects who achieve the seroprotection criteria: neutralizing antibody titers \[NA\] ≥1:8) for poliovirus type 1||1.4|-2.2|<0.001
92223960|NCT00130832|184349336|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (concomitant group minus staggered group) for subjects who achieve neutralizing antibody titers \[NA\] ≥1:8 greater than -10%.|Seroprotection Rate Difference|0.0|||<|0.001||95.0|-1.4|1.6|||Miettinen and Nurminen's|Comparing seroprotection rate difference with the non-inferiority margin of 0.10 with Miettinen and Nurminen's method.||Seroprotection rate (proportion of subjects who achieve the seroprotection criteria: neutralizing antibody titers \[NA\] ≥1:8) for poliovirus type 2||1.6|-1.4|<0.001
92223961|NCT00130832|184349336|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (concomitant group minus staggered group) for subjects who achieve neutralizing antibody titers \[NA\] ≥1:8 greater than -10%.|Seroprotection Rate Difference|-0.1|||<|0.001||95.0|-2.3|2.3|||Miettinen and Nurminen's|Comparing seroprotection rate difference with the non-inferiority margin of 0.10 with Miettinen and Nurminen's method.||Seroprotection rate (proportion of subjects who achieve the seroprotection criteria: neutralizing antibody titers \[NA\] ≥1:8) for poliovirus type 3||2.3|-2.3|<0.001
92223962|NCT00130832|184349337|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the GMT ratio (concomitant group over staggered group) greater than 0.50.|GMT Ratio|0.54||||0.277||95.0|0.42|0.69|||ANOVA|ANOVA model on log titer of serum anti-rotavirus IgA||||0.69|0.42|0.277
92359901|NCT04562116|184624149|OTHER||Ratio|95.82||||0.6665|TWO_SIDED|90.0|80.72|113.75||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Caffeine||113.75|80.72|0.6665
92223963|NCT00130832|184349337|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (concomitant group minus staggered group) for subjects who achieve 3-fold rise in serum anti-rotavirus IgA greater than -10%.|Percentage Point Difference|-4.4||||0.002||95.0|-8.0|-1.4|||Miettinen and Nurminen's|Comparing percentage difference with the non-inferiority margin of 10 percentage point with Miettinen and Nurminen's method.|Percentage point difference (concomitant - staggered)|||-1.4|-8.0|0.002
92359902|NCT04562116|184624149|OTHER||Ratio|99.15||||0.9316|TWO_SIDED|90.0|83.43|117.83||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Metoprolol Tartrate||117.83|83.43|0.9316
92359903|NCT04562116|184624149|OTHER||Ratio|107.75||||0.1371|TWO_SIDED|90.0|99.12|117.13||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Midazolam||117.13|99.12|0.1371
92359904|NCT04562116|184624149|OTHER||Ratio|88.66||||0.0962|TWO_SIDED|90.0|78.72|99.85||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Omeprazole||99.85|78.72|0.0962
92223964|NCT03195517|184349339|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92223965|NCT03195517|184349340|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92223966|NCT03195517|184349341|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92223967|NCT03195517|184349342|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92223968|NCT03195517|184349343|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92223969|NCT03195517|184349344|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92223970|NCT03195517|184349345|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92223971|NCT03195517|184349346|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92359905|NCT04562116|184624149|OTHER||Ratio|100.81||||0.6807|TWO_SIDED|90.0|97.45|104.29||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Warfarin Sodium||104.29|97.45|0.6807
92359906|NCT04562116|184624150|OTHER||Ratio|91.22||||0.3431|TWO_SIDED|90.0|77.3|107.63||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Caffeine||107.63|77.30|0.3431
92359907|NCT04562116|184624150|OTHER||Ratio|91.05||||0.4277|TWO_SIDED|90.0|74.33|111.53||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Metoprolol Tartrate||111.53|74.33|0.4277
92359908|NCT04562116|184624150|OTHER||Ratio|94.79||||0.4963|TWO_SIDED|90.0|82.8|108.52||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Midazolam||108.52|82.80|0.4963
92359909|NCT04562116|184624150|OTHER||Ratio|88.24||||0.1931|TWO_SIDED|90.0|75.08|103.7||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Omeprazole||103.70|75.08|0.1931
92359910|NCT04562116|184624150|OTHER||Ratio|92.94||||0.296|TWO_SIDED|90.0|82.51|104.69||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Warfarin Sodium||104.69|82.51|0.2960
92359911|NCT02038647|184624158|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.113|TWO_SIDED|95.0|0.557|1.067||P-value tests the hypothesis of equal event times in both treatment arms obtained using the Log-rank test stratified by disease subtype as sensitive versus resistant/refractory and the presence of brain metastases.|Log Rank||The stratification factors were: disease subtype as sensitive versus resistant/refractory and the presence of brain metastases (yes or no) with treatment (Alisertib + Paclitaxel vs Placebo + Paclitaxel) as a factor in the model.|||1.067|0.557|0.113
92359912|NCT02038647|184624160|SUPERIORITY||Cox Proportional Hazard|0.93||||0.714|TWO_SIDED|95.0|0.652|1.341||P-value tests the hypothesis of equal event times in both treatment arms obtained using the Log-rank test stratified by disease subtype as sensitive versus resistant/refractory and the presence of brain metastases.|Log Rank||The stratification factors were: disease subtype as sensitive versus resistant/refractory and the presence of brain metastases (yes or no) with treatment (Alisertib + Paclitaxel vs Placebo + Paclitaxel) as a factor in the model.|||1.341|0.652|0.714
92359913|NCT02038647|184624161|SUPERIORITY||Odds Ratio (OR)|0.74||||0.406|TWO_SIDED|95.0|0.35|1.55||Stratification factors were disease subtypes (sensitive versus resistant/refractory), the presence of brain metastases and region.|Weighted Cochran-Mantel-Haenszel test||Logistic regression using ORR as dependent variable, treatment arm as independent variable and disease subtype (sensitive vs resistant/refractory) and presence of brain metastases as stratification factors.|||1.55|0.35|0.406
92359914|NCT02038647|184624162|SUPERIORITY||Odds Ratio (OR)|0.01||||0.283|TWO_SIDED|95.0|0.01|9999.99||Stratification factors were disease subtypes (sensitive versus resistant/refractory), the presence of brain metastases and region.|Weighted Cochran-Mantel-Haenszel test||Logistic regression using CRR as dependent variable, treatment arm as independent variable and disease subtype (sensitive vs resistant/refractory) and presence of brain metastases as stratification factors.|||9999.99|0.01|0.283
92359915|NCT02038647|184624163|SUPERIORITY||Odds Ratio (OR)|0.59||||0.077|TWO_SIDED|95.0|0.32|1.08||Stratification factors were disease subtypes (sensitive versus resistant/refractory), the presence of brain metastases and region.|Weighted Cochran-Mantel-Haenszel test||Logistic regression using DCR as dependent variable, treatment arm as independent variable and disease subtype (sensitive vs resistant/refractory) and presence of brain metastases as stratification factors.|||1.08|0.32|0.077
92359916|NCT01983111|184624194|NON_INFERIORITY_OR_EQUIVALENCE|In the PP set, for a non-inferiority test of the reduction in the pain intensity score from Visit 1 (Baseline) to Week 6 of treatment, the lower limit of the 97.5% onesided confidence interval was compared to a clinical non-inferiority margin, -1.5.|Mean Difference (Final Values)|-0.43|STANDARD_DEVIATION|1.79||0.2658|TWO_SIDED|97.5|-6.0|3.0|||t-test, 2 sided|||In the Per protocol set||3|-6|0.2658
92359917|NCT03097289|184624234|NON_INFERIORITY|"The acceptance criterion for the recovery (%) of platelets is the demonstration of non-inferiority by the rejection of the Null Hypothesis (H0) defined by the following hypotheses: Null Hypothesis H0: μd ≤ 0 where μd=μT-0.66\*μC Alternate Hypothesis H1: μd \>~Let Xi = (XTi-0.66\*XCi) be a difference if recovery for patient i. The sample mean and standard deviations of these observed differences will be used to construct the lower limit of a 1-sided 97.5% confidence interval."|Mean Difference (Final Values)|8.18|||||ONE_SIDED|97.5|4.03||||||||||4.03|
92359918|NCT03097289|184624235|NON_INFERIORITY|"The acceptance criterion for the survival (days) of platelets is the demonstration of non inferiority by the rejection of the null hypothesis (H0) defined by the following hypotheses:~Null Hypothesis H0: μd ≤ 0 where μd = μT-0.58 × μC Alternate Hypothesis H1: μd \> 0"|Mean Difference (Final Values)|0.8|||||ONE_SIDED|97.5|0.39||||||||||0.39|
92223972|NCT03195517|184349347|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92223973|NCT03195517|184349348|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92223974|NCT01885000|184349350|SUPERIORITY||||||=|0.0065|||||||Cochran-Mantel-Haenszel|||||||= 0.0065
92223975|NCT01885000|184349351|SUPERIORITY||||||=|0.0328|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who satisfied with appearance.||||= 0.0328
92223976|NCT01885000|184349351|SUPERIORITY||||||=|0.5312|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who appearance acceptable.||||= 0.5312
92223977|NCT01885000|184349351|SUPERIORITY||||||=|0.0756|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who appearance concerned.||||= 0.0756
92223978|NCT01885000|184349351|SUPERIORITY||||||=|0.0083|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who embarrassed with facial redness.||||= 0.0083
92223979|NCT01885000|184349351|SUPERIORITY||||||=|0.0076|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who self-conscious.||||= 0.0076
92223980|NCT01885000|184349351|SUPERIORITY||||||=|0.2186|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who's frequency control last 24 hours||||= 0.2186
92359919|NCT00049543|184624312|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.14|TWO_SIDED|95.0|0.94|1.64|||Log Rank|||The Kaplan-Meier estimates of survival distribution for overall survival by treatment arm are reported, and the log rank test stratified by the stratification factors at randomization (exclude center) was used to compare the difference in the overall survival between two treatment arms. Hazard ratio of comparison of study treatment arm to placebo and it 95% C.I. were reported.||1.64|0.94|0.14
92359920|NCT00049543|184624313|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.15|TWO_SIDED|95.0|0.93|1.61||Stratified by stratification factors at randomization (except center)|Log Rank|Stratified by stratification factors at randomization (except center)||||1.61|0.93|0.15
92359921|NCT02908178|184624315|OTHER||Odds Ratio (OR)|1.39|||<|0.001|TWO_SIDED|99.0|1.18|1.63||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Odds ratio accounts for matching and adjusted for subsequent mastectomy within 180 days after initial BCS, prior MRI, and radiation therapy status.|Testing the association between use of sentinel lymph node biopsy (SLNB) and any complication in the Aim 1 matched cohort.||1.63|1.18|<.001
92359922|NCT02908178|184624315|OTHER||Odds Ratio (OR)|4.45|||<|0.001|TWO_SIDED|99.0|2.27|8.75||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Odds ratio accounts for matching and adjusted for subsequent mastectomy within 180 days after initial BCS, prior MRI, and radiation therapy status|Testing the association between use of sentinel lymph node biopsy (SLNB) and lymphedema in the Aim 1 matched cohort.||8.75|2.27|<.001
92359923|NCT02908178|184624315|OTHER||Odds Ratio (OR)|1.24|||<|0.001|TWO_SIDED|99.0|1.0|1.54||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Odds ratio accounts for matching and adjusted for subsequent mastectomy within 180 days after initial BCS, prior MRI, and radiation therapy status|Testing the association between use of sentinel lymph node biopsy (SLNB) and wound infection in the Aim 1 matched cohort.||1.54|1.00|<.001
92359924|NCT02908178|184624315|OTHER||Odds Ratio (OR)|1.4|||<|0.001|TWO_SIDED|99.0|1.03|1.91||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Odds ratio accounts for matching and adjusted for subsequent mastectomy within 180 days after initial BCS, prior MRI, and radiation therapy status|Testing the association between use of sentinel lymph node biopsy (SLNB) and seroma in the Aim 1 matched cohort.||1.91|1.03|<.001
92359925|NCT02908178|184624315|OTHER||Odds Ratio (OR)|1.31||||0.003|TWO_SIDED|99.0|1.04|1.65||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Odds ratio accounts for matching and adjusted for subsequent mastectomy within 180 days after initial BCS, prior MRI, and radiation therapy status|Testing the association between use of sentinel lymph node biopsy (SLNB) and pain in the Aim 1 matched cohort.||1.65|1.04|.003
92359926|NCT02908178|184624316|OTHER||||||<|0.001||||||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared|||Testing the association between receipt of SLNB and receipt of mastectomy within 6 months of DCIS diagnosis.||||<.001
92359927|NCT02908178|184624317|OTHER|||||||0.48||||||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared|||Testing the association between receipt of SLNB and receipt of radiation therapy within 9 months of DCIS diagnosis.||||.48
92359928|NCT02908178|184624318|OTHER||Hazard Ratio (HR)|0.88|||<|0.001|TWO_SIDED|99.0|0.73|1.05||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and overall mortality in the Aim 2 matched cohort.||1.05|0.73|<.001
92359929|NCT02908178|184624319|OTHER||Hazard Ratio (HR)|1.09||||0.207|TWO_SIDED|99.0|1.0|1.2||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and any side effects in the matched Aim 2 cohort.||1.20|1.00|0.207
92359930|NCT02908178|184624319|OTHER||Hazard Ratio (HR)|1.53|||<|0.001|TWO_SIDED|99.0|1.12|2.11||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and lymphedema related complications in the Aim 2 matched cohort.||2.11|1.12|<.001
92223981|NCT01885000|184349351|SUPERIORITY||||||=|0.2373|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who are frustrated.||||= 0.2373
92223982|NCT01885000|184349351|SUPERIORITY||||||=|0.7769|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who cover up or camouflage.||||= 0.7769
92223983|NCT01885000|184349351|SUPERIORITY||||||=|0.8764|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who pay attention to the known triggers.||||= 0.8764
92223984|NCT01885000|184349351|SUPERIORITY||||||=|0.6149|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who avoid the known triggers.||||= 0.6149
92223985|NCT01885000|184349351|SUPERIORITY||||||=|0.8361|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who interfering with social life.||||= 0.8361
92223986|NCT01885000|184349351|SUPERIORITY||||||=|0.6259|||||||Cochran-Mantel-Haenszel|||Interfering with work life||||= 0.6259
92223987|NCT01885000|184349352|SUPERIORITY||||||=|0.5821|||||||Cochran-Mantel-Haenszel|||This analysis was performed for Mobility.||||= 0.5821
92223988|NCT01885000|184349352|SUPERIORITY||||||=|0.8864|||||||Cochran-Mantel-Haenszel|||This analysis was performed for Self-Care.||||= 0.8864
92165244|NCT01063517|184218645|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56|||||TWO_SIDED|80.0|0.41|0.75|||||The numerator of the hazard ratio is hazards of death in olaparib+paclitaxel group and denominator is hazards of death in placebo+paclitaxel group. Confidence intervals are calculated using the profile-likelihood method.|The analysis was performed using a Cox proportional hazards model with factors for treatment group, ATM status and gastrectomy (full, partial, none).||0.75|0.41|
92359931|NCT02908178|184624319|OTHER||Hazard Ratio (HR)|0.98||||0.113|TWO_SIDED|99.0|0.87|1.1||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and any infection in the Aim 2 matched cohort.||1.10|0.87|0.113
92359932|NCT02908178|184624319|OTHER||Hazard Ratio (HR)|1.21||||0.01|TWO_SIDED|99.0|0.93|1.58||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and seroma in the Aim 2 matched cohort.||1.58|0.93|0.010
92165245|NCT01063517|184218646|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.35|||||TWO_SIDED|80.0|0.22|0.56|||||The numerator of the hazard ratio is hazards of death in olaparib+paclitaxel group and denominator is hazards of death in placebo+paclitaxel group. Confidence intervals are calculated using the profile-likelihood method.|The analysis was performed using a Cox proportional hazards model with factors for treatment group and gastrectomy (full, partial, none).||0.56|0.22|
92165246|NCT02974634|184218663|SUPERIORITY||Slope|1.04|STANDARD_ERROR_OF_MEAN|2.32||0.06|TWO_SIDED|95.0|-3.5|5.6||Comparison of intervention and usual care at 6 month follow up|t-test, 2 sided||Interaction coefficient (slope) of arm by time period (6 months follow up vs baseline) from mixed linear model|||5.6|-3.5|0.06
92359933|NCT02908178|184624319|OTHER||Hazard Ratio (HR)|1.1||||0.029|TWO_SIDED|99.0|0.98|1.25||P-value is unadjusted. Threshold for statistical significance is 0.01|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and pain in the Aim 2 matched cohort.||1.25|0.98|0.029
92359934|NCT02908178|184624320|OTHER||Hazard Ratio (HR)|1.13||||0.861|TWO_SIDED|99.0|0.54|2.35||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between between use of sentinel lymph node biopsy (SLNB) and breast cancer specific mortality.||2.35|0.54|0.861
92401841|NCT02977403|184694632|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.041|||||TWO_SIDED|95.0|-0.03|0.112||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.112|-0.03|
92401842|NCT02977403|184694632|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.014|||||TWO_SIDED|95.0|-0.168|0.14||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.140|-0.168|
92401843|NCT02977403|184694633|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.037|||||TWO_SIDED|95.0|-0.125|0.052||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.052|-0.125|
92401844|NCT02977403|184694633|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.034|||||TWO_SIDED|95.0|-0.196|0.129||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.129|-0.196|
92401845|NCT02977403|184694634|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.001|||||TWO_SIDED|95.0|-0.091|0.093||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.093|-0.091|
92401846|NCT02977403|184694634|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.143|||||TWO_SIDED|95.0|-0.286|0.001||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.001|-0.286|
92401847|NCT02977403|184694635|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.065|||||TWO_SIDED|95.0|-0.001|0.132||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.132|-0.001|
92165247|NCT02974634|184218664|SUPERIORITY||Slope|0.34|STANDARD_ERROR_OF_MEAN|0.29||0.68|TWO_SIDED|95.0|-0.24|0.91||Comparison of intervention and usual care at 6 month follow up|t-test, 2 sided||Interaction coefficient (slope) of arm by time period (6 months follow up vs baseline) from mixed linear model|||0.91|-0.24|0.68
92223989|NCT01885000|184349352|SUPERIORITY||||||=|0.9579|||||||Cochran-Mantel-Haenszel|||This analysis was performed for usual activities.||||= 0.9579
92359935|NCT02908178|184624321|OTHER||Hazard Ratio (HR)|1.03||||0.603|TWO_SIDED|99.0|0.71|1.51||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and ipsilateral invasive breast cancer occurrence for the Aim 2 matched cohort.||1.51|0.71|0.603
92359936|NCT02908178|184624322|OTHER||Hazard Ratio (HR)|1.17||||0.62|TWO_SIDED|99.0|0.81|1.69||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and treated recurrence in the Aim 2 matched cohort.||1.69|0.81|0.620
92359937|NCT06203717|184624333|SUPERIORITY||Mean Difference (Net)|9.15|STANDARD_DEVIATION|10.06||0.007|TWO_SIDED|95.0|3.08|15.23||a priori threshold for statistical significance: p\<0.05|Paired-sample t-test|||||15.23|3.08|0.007
92359938|NCT06203717|184624334|SUPERIORITY||Mean Difference (Net)|7.77|STANDARD_DEVIATION|6.35||0.0009|TWO_SIDED|95.0|3.93|11.61|||Paired-sample t-test|||||11.61|3.93|0.0009
92359939|NCT01506726|184624339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.23|TWO_SIDED|95.0|-2.08|0.2|||Wilcoxon (Mann-Whitney)|Wilcoxon two sample test||||0.20|-2.08|0.230
92359940|NCT01506726|184624340|SUPERIORITY_OR_OTHER|||||||0.347|TWO_SIDED||||||t-test, 2 sided|||||||0.347
92359941|NCT01506726|184624341|SUPERIORITY_OR_OTHER|||||||0.857|TWO_SIDED|||||Correlation between change in IL-6 and change in hemoglobin in the salsalate group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.857
92359942|NCT01506726|184624341|SUPERIORITY_OR_OTHER|||||||0.706|TWO_SIDED|||||Correlation between change in IL-6 and change in hemoglobin in the placebo group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.706
92359943|NCT01506726|184624341|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|||||Correlation between change in TNF and change in hemoglobin in the salsalate group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.014
92359944|NCT01506726|184624341|SUPERIORITY_OR_OTHER|||||||0.136|TWO_SIDED|||||Correlation between change in TNF and change in hemoglobin in the placebo group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.136
92359945|NCT01506726|184624341|SUPERIORITY_OR_OTHER|||||||0.803|TWO_SIDED|||||Correlation between change in CRP and change in hemoglobin in the salsalate group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.803
92359946|NCT01506726|184624341|SUPERIORITY_OR_OTHER|||||||0.894|TWO_SIDED|||||Correlation between change in CRP and change in hemoglobin in the placebo group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.894
92359947|NCT01506726|184624342|SUPERIORITY_OR_OTHER|||||||0.143|TWO_SIDED|||||P value comparing change in IL6 between treatment groups.|t-test, 2 sided|||||||0.143
92359948|NCT01506726|184624342|SUPERIORITY_OR_OTHER|||||||0.257|TWO_SIDED|||||P value comparing the change in TNF between treatment groups.|t-test, 2 sided|||||||0.257
92359949|NCT01506726|184624343|SUPERIORITY_OR_OTHER|||||||0.535|TWO_SIDED|||||P-value comparing the change in EPO between treatment groups.|t-test, 2 sided|||||||0.535
92359950|NCT01506726|184624344|SUPERIORITY_OR_OTHER|||||||0.232|TWO_SIDED||||||t-test, 2 sided|||||||0.232
92359951|NCT01506726|184624345|SUPERIORITY_OR_OTHER|||||||0.076|TWO_SIDED||||||t-test, 2 sided|||||||0.076
92359952|NCT01506726|184624346|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Chi-squared|||||||>0.999
92359953|NCT01506726|184624347|SUPERIORITY_OR_OTHER|||||||0.187|TWO_SIDED||||||t-test, 2 sided|||||||0.187
92359954|NCT01506726|184624348|SUPERIORITY_OR_OTHER|||||||0.193|TWO_SIDED||||||t-test, 2 sided|||||||0.193
92359955|NCT01506726|184624349|SUPERIORITY_OR_OTHER|||||||0.619|TWO_SIDED||||||t-test, 2 sided|||||||0.619
92359956|NCT01506726|184624350|SUPERIORITY_OR_OTHER|||||||0.642|TWO_SIDED||||||t-test, 2 sided|||||||0.642
92359957|NCT01506726|184624351|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||t-test, 2 sided|||||||0.42
92359958|NCT01506726|184624352|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Chi-squared|||||||>0.999
92359959|NCT01506726|184624353|SUPERIORITY_OR_OTHER|||||||0.375|TWO_SIDED||||||Chi-squared|||||||0.375
92359960|NCT01506726|184624355|SUPERIORITY_OR_OTHER|||||||0.398|||||||t-test, 2 sided|||||||0.398
92359961|NCT01506726|184624356|SUPERIORITY_OR_OTHER|||||||0.412|||||||t-test, 2 sided|||||||0.412
92359962|NCT01380080|184624374|SUPERIORITY_OR_OTHER_LEGACY||Cumulative probability difference|-0.06||||0.97|TWO_SIDED|95.0|-3.05|2.94|||z-test|||Treatment comparison was made using the difference (arm B- arm A) in the Kaplan-Meier estimate for 24 week cumulative probability of death or unknown vital status with 95% confidence interval||2.94|-3.05|0.97
92359963|NCT02303821|184624401|OTHER||||||||||||||||||The objective of this endpoint was to compare the rate of CRi or better status against an external control arm selected from an observational study (Amgen 20180065). The rate of CRi or better status in the external control arm was 26.3% (95% CI: 15.1, 37.5) for B-Cell participants with treatment difference odds ratio of 2.082 (95% CI: 0.968, 4.477). For T-Cell participants the rate of CRi or better status was 18.6% (95% CI: 7.1, 30.0) with treatment difference odds ratio of 1.646 (95% CI: 0.639. 4.245).|||
92359964|NCT02303821|184624402|OTHER||||||||||||||||||The objective of this endpoint was to compare EFS in study 20140106 with EFS in an external control arm selected from an observational study (Amgen 20180065). The median duration in months in the external control arm was 3.62 (95% CI: 1.55, 5.36) for B-cell participants, with a treatment difference hazard ration of 1.435 (95% CI: 0.976, 2.111). For T-Cell participants the median in months was 2.93 (95% CI: 0.95, 5.10) with a treatment difference hazard ratio of 1.404 (95% CI: 0.869, 2.270).|||
92401848|NCT02977403|184694635|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.095|||||TWO_SIDED|95.0|-0.246|0.055||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.055|-0.246|
92223990|NCT01885000|184349352|SUPERIORITY||||||=|0.1344|||||||Cochran-Mantel-Haenszel|||This analysis was performed for Pain/Discomfort.||||= 0.1344
92223991|NCT01885000|184349352|SUPERIORITY||||||=|0.1881|||||||Cochran-Mantel-Haenszel|||Anxiety/Depression||||= 0.1881
92401849|NCT02977403|184694636|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.023|||||TWO_SIDED|95.0|-0.055|0.101||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.101|-0.055|
92401850|NCT02977403|184694636|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.02|||||TWO_SIDED|95.0|-0.178|0.137||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.137|-0.178|
92401851|NCT02977403|184694637|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.032|||||TWO_SIDED|95.0|-0.116|0.051||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.051|-0.116|
92401852|NCT02977403|184694637|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.06|||||TWO_SIDED|95.0|-0.104|0.223||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.223|-0.104|
92401853|NCT02977403|184694638|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.012|||||TWO_SIDED|95.0|-0.078|0.053||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.053|-0.078|
92165248|NCT05011396|184218665|SUPERIORITY||Mean Difference (Net)|-5.8|STANDARD_ERROR_OF_MEAN|2.36||0.0153|TWO_SIDED|95.0|-10.5|-1.1|||ANCOVA|||||-1.1|-10.5|0.0153
92223992|NCT01885000|184349353|SUPERIORITY||||||=|0.3935|||||||Cochran-Mantel-Haenszel|||||||= 0.3935
92223993|NCT01885000|184349354|SUPERIORITY||||||=|0.4162|||||||Cochran-Mantel-Haenszel|||||||= 0.4162
92165249|NCT05011396|184218666|SUPERIORITY||Other|0.1625||||0.033|TWO_SIDED|95.0|0.0132|0.3119|||Wald Normal Approximation (Z)|||||0.3119|0.0132|0.0330
92165250|NCT01113931|184218747|SUPERIORITY_OR_OTHER||Difference in Percent Cure Rates|0.3|||||TWO_SIDED|95.0|-4.6|5.1||||||The planned sample size of 480 randomized subjects ensured that approximately 200 subjects per group were included in the primary efficacy analyses. The 20% rate of exclusion was to account for subjects who had a negative test for urogenital C. trachomatis at the Baseline visit.||5.1|-4.6|
92165251|NCT01113931|184218750|SUPERIORITY_OR_OTHER||Difference in Percent Cure Rates|0.2|||||TWO_SIDED|95.0|-4.6|5.1||||||The planned sample size of 480 randomized subjects ensured that approximately 200 subjects per group were included in the primary efficacy analyses. The 20% rate of exclusion was to account for subjects who had a negative test for urogenital C. trachomatis at the Baseline visit.||5.1|-4.6|
92223994|NCT03716869|184349362|SUPERIORITY||Odds Ratio (OR)|2.07|||<|0.001|TWO_SIDED|95.0|1.39|3.1|||Regression, Logistic|||Statistical analysis was conducted using the intent-to-treat principle. Analysis for primary and secondary outcomes that compared universal to targeted screening was conducted using mixed effects logistic regression.||3.10|1.39|<0.001
92223995|NCT03716869|184349363|SUPERIORITY||Odds Ratio (OR)|5.92|||<|0.001|TWO_SIDED|95.0|5.07|6.93|||Regression, Logistic|||||6.93|5.07|<0.001
92223996|NCT03716869|184349365|SUPERIORITY||Odds Ratio (OR)|3.3|||<|0.001|TWO_SIDED|95.0|2.49|4.38|||Regression, Logistic|||||4.38|2.49|<0.001
92359965|NCT02303821|184624403|OTHER||||||||||||||||||The objective of this endpoint was to compare the OS in study 20140106 with OS in an external control arm selected from an observational study (Amgen 20180065). The median OS in months for the B-Cell participants in the external control arm was 8.59 (95% CI: 5.26, 10.59) with a treatment difference hazard ratio of 1.245 (95% CI: 0.805, 1.927). For the T-Cell participants the median OS in months was 7.04 (95% CI: 7.04, NE) with a treatment difference hazard ratio of 1.040 (95% CI: 0.641, 1.688).|||
92401854|NCT02977403|184694638|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.064|||||TWO_SIDED|95.0|-0.248|0.12||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.120|-0.248|
92401855|NCT02977403|184694639|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.089|||||TWO_SIDED|95.0|0.004|0.174||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.174|0.004|
92401856|NCT02977403|184694639|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.021|||||TWO_SIDED|95.0|-0.159|0.201||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.201|-0.159|
92401857|NCT02977403|184694640|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.016|||||TWO_SIDED|95.0|-0.113|0.081||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.081|-0.113|
92401858|NCT02977403|184694640|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.072|||||TWO_SIDED|95.0|-0.206|0.062||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.062|-0.206|
92405769|NCT02085161|184701880|SUPERIORITY_OR_OTHER||LSMean Difference|-0.002|STANDARD_ERROR_OF_MEAN|0.004||0.5186|TWO_SIDED|95.0|-0.01|0.005||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||0.005|-0.010|0.5186
92165252|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.82|||||TWO_SIDED|95.0|1.27|2.61|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||2.61|1.27|
92165253|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|2.57|||||TWO_SIDED|95.0|1.79|3.7|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||3.70|1.79|
92165254|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|2.7|||||TWO_SIDED|95.0|1.88|3.88|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||3.88|1.88|
92165255|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.79|||||TWO_SIDED|95.0|1.29|2.5|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||2.50|1.29|
92165256|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|2.19|||||TWO_SIDED|95.0|1.57|3.05|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||3.05|1.57|
92165257|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|2.52|||||TWO_SIDED|95.0|1.81|3.5|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||3.50|1.81|
92359966|NCT02303821|184624404|OTHER||||||||||||||||||The DOR in study 20140106 was estimated relative to the DOR in an external control arm selected from an observational study (Amgen 20180065). The median DOR in months in the external control arm was 8.72 (95% CI: 5.07, 32.24) in B-Cell participants. For T-Cell participants the median DOR in months was 5.82 (95% CI: 1.22, 19.80).|||
92401859|NCT02977403|184694641|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.129|||||TWO_SIDED|95.0|0.049|0.209||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.209|0.049|
92401860|NCT02977403|184694641|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.181|||||TWO_SIDED|95.0|-0.33|-0.033||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.033|-0.330|
92401861|NCT02977403|184694642|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.126|||||TWO_SIDED|95.0|0.045|0.207||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.207|0.045|
92401862|NCT02977403|184694642|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.056|||||TWO_SIDED|95.0|-0.223|0.112||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.112|-0.223|
92401863|NCT02977403|184694643|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.115|||||TWO_SIDED|95.0|0.027|0.203||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.203|0.027|
92401864|NCT02977403|184694643|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.058|||||TWO_SIDED|95.0|-0.203|0.087||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.087|-0.203|
92405770|NCT02085161|184701880|SUPERIORITY_OR_OTHER||LSMean Difference|0.002|STANDARD_ERROR_OF_MEAN|0.004||0.6436|TWO_SIDED|95.0|-0.006|0.009||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||0.009|-0.006|0.6436
92405771|NCT02085161|184701880|SUPERIORITY_OR_OTHER||LSMean Difference|-0.006|STANDARD_ERROR_OF_MEAN|0.004||0.1081|TWO_SIDED|95.0|-0.014|0.001||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||0.001|-0.014|0.1081
92165258|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.68|||||TWO_SIDED|95.0|0.54|0.87|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||0.87|0.54|
92165259|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.88|||||TWO_SIDED|95.0|0.69|1.12|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||1.12|0.69|
92165260|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.84|||||TWO_SIDED|95.0|0.66|1.06|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||1.06|0.66|
92165261|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.11|||||TWO_SIDED|95.0|0.86|1.44|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||1.44|0.86|
92165262|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.19|||||TWO_SIDED|95.0|0.93|1.54|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||1.54|0.93|
92165263|NCT04956575|184218805|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.2|||||TWO_SIDED|95.0|0.93|1.55|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||1.55|0.93|
92359967|NCT02303821|184624416|OTHER||||||||||||||||||The primary objective of this endpoint was to compare the percentage of participants achieving CR after the end of induction therapy in study 20140106 with the percentage of participants achieving CR in an external control arm selected from an observational study (Amgen 20180065). In the external control arm, 7.8% of B-Cell participants (95% confidence interval \[CI\]: 1.0%, 14.7%) achieved CR, with a treatment difference odds ratio of 2.04 (95% CI: 0.54, 7.66). For T-Cell participants, 9.1% (95% CI: 0.7%, 17.5%) achieved CR, with an odds ratio of 1.58 (95% CI: 0.47, 5.31).|||
92359968|NCT00210132|184624417|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Comparison of proportions.||||0.99
92359969|NCT00210132|184624418|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
92359970|NCT00057577|184624431|SUPERIORITY_OR_OTHER||||||=|0.038|TWO_SIDED||||||Subdistribution hazard model|||||||=.038
92359971|NCT00057577|184624432|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Subdistribution hazard model|||||||<0.01
92359972|NCT05847686|184624477|OTHER||||||<|0.0001|||||||t-test, 1 sided|||||||<.0001
92359973|NCT04887831|184624484|OTHER||Adjusted percentage difference|-0.101|STANDARD_ERROR_OF_MEAN|0.1052||0.34|TWO_SIDED|95.0|-0.308|0.105||The 2-sided p-value was calculated using stratified CMH method to account for the presence of visceral metastasis (yes/no) and initial chemotherapy type (cisplatin/carboplatin) as the stratification factors.|Cochran-Mantel-Haenszel|||||0.105|-0.308|0.340
92359974|NCT04887831|184624485|OTHER||Adjusted percentage difference|-0.008|STANDARD_ERROR_OF_MEAN|0.1078||0.938|TWO_SIDED|95.0|-0.22|0.203||The 2-sided p-value was calculated using stratified CMH method to account for the presence of visceral metastasis (yes/no) and initial chemotherapy type (cisplatin/carboplatin) as the stratification factors.|Cochran-Mantel-Haenszel|||||0.203|-0.220|0.938
92359975|NCT02180828|184624539|NON_INFERIORITY_OR_EQUIVALENCE|Yes||||||0.925|||||||Chi-squared|||||||0.925
92359976|NCT02180828|184624540|NON_INFERIORITY_OR_EQUIVALENCE|Yes||||||0.298|||||||Chi-squared|||||||0.298
92405772|NCT02085161|184701880|SUPERIORITY_OR_OTHER||LSMean Difference|-0.004|STANDARD_ERROR_OF_MEAN|0.004||0.2612|TWO_SIDED|95.0|-0.011|0.003||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||0.003|-0.011|0.2612
92165264|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.9|||||TWO_SIDED|95.0|0.57|1.44|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||1.44|0.57|
92165265|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.25|||||TWO_SIDED|95.0|0.78|2.0|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||2.00|0.78|
92359977|NCT02180828|184624541|NON_INFERIORITY_OR_EQUIVALENCE|90% power and a two-sided alpha level of 0.05||||||0.147|||||||Chi-squared|||||||0.147
92359978|NCT02180828|184624542|NON_INFERIORITY_OR_EQUIVALENCE|Yes||||||0.147|||||||Chi-squared|||||||0.147
92359979|NCT02180828|184624543|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||||||0.010
92359980|NCT02180828|184624544|SUPERIORITY_OR_OTHER|||||||0.002|||||||Chi-squared|||||||0.002
92359981|NCT02180828|184624545|SUPERIORITY_OR_OTHER|||||||0.658|||||||Chi-squared|||||||0.658
92359982|NCT02180828|184624546|SUPERIORITY_OR_OTHER|||||||0.123|||||||Chi-squared|||||||0.123
92359983|NCT02180828|184624547|SUPERIORITY_OR_OTHER|||||||0.274|||||||Chi-squared|||||||0.274
92359984|NCT03674281|184624598|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.002
92359985|NCT03674281|184624598|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92359986|NCT00582907|184624603|SUPERIORITY_OR_OTHER||Risk Ratio, log|-1.7|STANDARD_DEVIATION|0.78||0.027|TWO_SIDED|95.0|-3.4|-0.1|||Signed rank|||Based upon FMF colchicine controlled studies showing an \~80% decrease in attacks, we estimated, based on baseline attacks every 4 weeks, there would be a difference of 0.5 attacks per month between rilonacept and placebo. With a two-sided 5% significance level and power of 80% we aimed for 14 evaluable participants who completed at least 2 treatment courses. The null hypothesis is that there would be no significant differences in the number of attacks between use of rilonacept and placebo.||-0.1|-3.4|0.027
92359987|NCT00582907|184624603|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59|STANDARD_DEVIATION|0.12||||95.0|0.39|0.85|||Bayesian modeling||Attacks while receiving rilonacept is the numerator and attacks while receiving placebo is the denominator. In Bayesian statistics credible interval equals confidence interval.|This analysis was done by Bayesian Statistics using a non-informative (neutral) prior (log normal distribution mean 9 \[SD 10\]). The null hypothesis was that the rilonacept/placebo FMF odds ratio of attacks was 1.||0.85|0.39|
92359988|NCT00582907|184624604|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0|STANDARD_DEVIATION|1.26||0.047|TWO_SIDED|95.0|-4.0|0.0|||Signed rank|||Null hypothesis: There were no significant differences between rilonacept and placebo in the occurence of injection site reactions. No power calculations for this outcome.||0|-4|0.047
92359989|NCT00582907|184624604|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.13|TWO_SIDED|95.0|-0.56|0.17|||Signed rank|||Null hypothesis: There were no significant differences between rilonacept and placebo in the occurence of infections. No power calculations for this outcome.||0.17|-0.56|0.13
92405773|NCT02085161|184701880|SUPERIORITY_OR_OTHER||LSMean Difference|0.008|STANDARD_ERROR_OF_MEAN|0.004||0.0361|TWO_SIDED|95.0|0.001|0.015||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||0.015|0.001|0.0361
92359990|NCT00582907|184624605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2|STANDARD_DEVIATION|0.5||0.32||95.0|-2.4|0.5|||Signed rank|||Null hypothesis: There were no significant differences in the length of attacks during rilonacept vs. placebo treatment courses. Since this was a secondary outcome there were no power calculations performed.||0.5|-2.4|0.32
92165266|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.86|||||TWO_SIDED|95.0|1.16|2.99|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent. against H1N1 at Day 29.||2.99|1.16|
92165267|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.41|||||TWO_SIDED|95.0|0.91|2.21|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||2.21|0.91|
92165268|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.89|||||TWO_SIDED|95.0|1.21|2.97|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||2.97|1.21|
92165269|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|2.64|||||TWO_SIDED|95.0|1.68|4.14|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||4.14|1.68|
92165270|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.36|||||TWO_SIDED|95.0|0.26|0.5|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||0.50|0.26|
92165271|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.46|||||TWO_SIDED|95.0|0.33|0.64|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||0.64|0.33|
92359991|NCT00582907|184624606|SUPERIORITY_OR_OTHER||Differences in percent of courses|29.0||||0.004||95.0|||||McNemar|||Null hypothesis: There are no significant differences in the number of treatment courses without attacks between rilonacept and placebo. As a secondary measure there were no power calculations.||||0.004
92165272|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.54|||||TWO_SIDED|95.0|0.38|0.76|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||0.76|0.38|
92165273|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.62|||||TWO_SIDED|95.0|0.43|0.9|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||0.90|0.43|
92165274|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.92|||||TWO_SIDED|95.0|0.63|1.35|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||1.35|0.63|
92359992|NCT00582907|184624607|SUPERIORITY_OR_OTHER||Difference in percent of courses|40.0||||0.006||95.0|||||McNemar|||Null hypothesis: There are no significant differences in the number of treatment courses attaining at least a 50% decrease in attacks when compared to baseline between rilonacept and placebo courses.Since this was a secondary measure there were no power calculations.||||0.006
92359993|NCT00582907|184624608|SUPERIORITY_OR_OTHER||Log Rank|0.009||||0.009||95.0|||||Kaplan-Meier survival analysis|||Null hypothesis: There were no significant differences between rilonacept and placebo in the number of days from the start of the treatment course until the development of the a second attack.||||0.009
92165275|NCT04956575|184218806|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.75|||||TWO_SIDED|95.0|0.51|1.09|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||1.09|0.51|
92165276|NCT04956575|184218809|OTHER||Percent difference|12.61|||||TWO_SIDED|95.0|-2.0|27.93|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||27.93|-2.00|
92165277|NCT04956575|184218809|OTHER||Percent difference|25.17|||||TWO_SIDED|95.0|11.18|39.89|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||39.89|11.18|
92165278|NCT04956575|184218809|OTHER||Percent Difference|26.2|||||TWO_SIDED|95.0|12.33|40.84|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||40.84|12.33|
92165279|NCT04956575|184218809|OTHER||Percent Difference|25.59|||||TWO_SIDED|95.0|9.82|40.13|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||40.13|9.82|
92359994|NCT00582907|184624609|SUPERIORITY_OR_OTHER||Median Difference (Net)|6.5||||0.156|TWO_SIDED|95.0|-0.5|12.5|||Signed Rank|||Null hypothesis: There are no significant differences in the erythrocyte sedimentation rate between rilonacept and placebo. As a secondary measure there were no power calculations.||12.5|-0.5|0.156
92359995|NCT00582907|184624610|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.04||||0.22|TWO_SIDED|95.0|-0.03|0.29|||Signed Rank|||Null hypothesis: There are no differences in the C-reactive protein levels between the treatment courses. Since this was a secondary outcome measure no power calculations were performed.||0.29|-0.03|0.22
92165280|NCT04956575|184218809|OTHER||Percent Difference|31.35|||||TWO_SIDED|95.0|15.66|45.73|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||45.73|15.66|
92359996|NCT00582907|184624611|SUPERIORITY_OR_OTHER||Median Difference (Net)|29.4||||0.078|TWO_SIDED|95.0|0.4|78.1|||Signed Rank|||Null hypothesis: There were no differences between the platelet count between the rilonacept and placebo courses. Since this was a secondary outcome no power calculations were performed.||78.1|0.4|0.078
92401865|NCT02977403|184694644|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.037|||||TWO_SIDED|95.0|-0.053|0.127||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.127|-0.053|
92401866|NCT02977403|184694644|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.085|||||TWO_SIDED|95.0|-0.24|0.069||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.069|-0.240|
92401867|NCT02977403|184694645|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.021|||||TWO_SIDED|95.0|-0.092|0.05||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.050|-0.092|
92401868|NCT02977403|184694645|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.096|||||TWO_SIDED|95.0|-0.249|0.056||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.056|-0.249|
92405774|NCT02085161|184701881|SUPERIORITY_OR_OTHER||LSMean Difference|0.076|STANDARD_ERROR_OF_MEAN|0.056||0.1727|TWO_SIDED|95.0|-0.034|0.187||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||0.187|-0.034|0.1727
92165281|NCT04956575|184218809|OTHER||Percent Difference|38.34|||||TWO_SIDED|95.0|22.98|52.3|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||52.30|22.98|
92165282|NCT04956575|184218809|OTHER||Percent Difference|-9.78|||||TWO_SIDED|95.0|-24.83|3.79|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||3.79|-24.83|
92405775|NCT02085161|184701881|SUPERIORITY_OR_OTHER||LSMean Difference|0.143|STANDARD_ERROR_OF_MEAN|0.055||0.0097|TWO_SIDED|95.0|0.035|0.252||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||0.252|0.035|0.0097
92165283|NCT04956575|184218809|OTHER||Percent Difference|0.64|||||TWO_SIDED|95.0|-14.91|14.73|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||14.73|-14.91|
92359997|NCT00582907|184624612|SUPERIORITY_OR_OTHER||Median Difference (Net)|108.0||||0.063|TWO_SIDED|95.0|6.5|139.5|||Signed Rank|||Null hypothesis: There are no differences between the treatment arms in the fibrinogen level. Since this was a secondary outcome no power calculations were performed.||139.5|6.5|0.063
92165284|NCT04956575|184218809|OTHER||Percent Difference|4.45|||||TWO_SIDED|95.0|-11.19|18.59|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||18.59|-11.19|
92165285|NCT04956575|184218809|OTHER||Percent Difference|8.97|||||TWO_SIDED|95.0|-6.72|23.09|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||23.09|-6.72|
92165286|NCT04956575|184218809|OTHER||Percent Difference|15.13|||||TWO_SIDED|95.0|-0.74|29.37|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||29.37|-0.74|
92359998|NCT00582907|184624613|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.5|TWO_SIDED|95.0|-4.0|0.0|||Signed Rank|||Null hypothesis: There are no differences between the treatment arms in the serum amyloid A levels. Since this was a secondary outcome no power calculations were performed.||0|-4|0.50
92359999|NCT00582907|184624614|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.5||||0.021|TWO_SIDED|95.0|-11.1|-2.3|||Signed rank|||Null hypothesis: There are no significant differences in the physical health-related quality of life between rilonacept and placebo. As a secondary measure there were no power calculations.||-2.3|-11.1|0.021
92360000|NCT00582907|184624614|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.2||||0.42|TWO_SIDED|95.0|-6.8|3.9|||Signed Rank|||||3.9|-6.8|0.42
92360001|NCT00582907|184624615|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.5||||0.136|TWO_SIDED|95.0|-2.3|9.8|||Signed rank|||Null hypothesis: There are no significant differences in the FMF Armenian Evaluation (severity) Score between rilonacept and placebo. As a secondary measure there were no power calculations.||9.8|-2.3|0.136
92360002|NCT00582907|184624616|SUPERIORITY_OR_OTHER||Median Difference (Net)|-5.0||||0.089|TWO_SIDED|95.0|-15.0|-1.0|||Signed rank|||Null hypothesis: There are no significant differences in the proportion of time participants were treated with rilonacept and placebo. As a secondary measure there were no power calculations.||-1|-15|0.089
92401869|NCT02977403|184694646|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.013|||||TWO_SIDED|95.0|-0.095|0.069||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.069|-0.095|
92401870|NCT02977403|184694646|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.078|||||TWO_SIDED|95.0|-0.227|0.071||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.071|-0.227|
92405776|NCT02085161|184701881|SUPERIORITY_OR_OTHER||LSMean Difference|0.016|STANDARD_ERROR_OF_MEAN|0.056||0.7815|TWO_SIDED|95.0|-0.095|0.126||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||0.126|-0.095|0.7815
92360003|NCT00189423|184624662|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.019|TWO_SIDED|95.0|1.07|2.36|||Fisher Exact|||||2.36|1.07|0.019
92360004|NCT00189423|184624663|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin of 5%||||||0.0001|TWO_SIDED|95.0||||p value is for non-inferiority with a margin of 5% (exact binomial test)|Fisher Exact test, for non-inferiority|||||||0.0001
92360005|NCT00189423|184624663|SUPERIORITY_OR_OTHER|||||||0.681|TWO_SIDED|95.0|||||Fisher Exact|||||||0.681
92360006|NCT00189423|184624669|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED|95.0|||||Fisher Exact|||||||0.024
92360007|NCT01263119|184624748|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.07|||||TWO_SIDED|90.0|1.0|1.13|||Mixed Models Analysis|||||1.13|1.00|
92360008|NCT01263119|184624749|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.12|||||TWO_SIDED|90.0|1.07|1.16|||Mixed Models Analysis|||||1.16|1.07|
92360009|NCT01263119|184624750|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.9551|TWO_SIDED|90.0|-0.5|0.5|||Wilcoxon (Mann-Whitney)|||||0.50|-0.50|0.9551
92360010|NCT01263119|184624751|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.15|||||TWO_SIDED|90.0|1.1|1.2|||Mixed Models Analysis|||||1.20|1.10|
92360011|NCT01263119|184624752|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.13|||||TWO_SIDED|90.0|1.09|1.17|||Mixed Models Analysis|||||1.17|1.09|
92360012|NCT01263119|184624753|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.6094|TWO_SIDED|90.0|-0.5|0.02|||Wilcoxon (Mann-Whitney)|||||0.02|-0.50|0.6094
92165287|NCT04956575|184218809|OTHER||Percent Difference|19.08|||||TWO_SIDED|95.0|3.22|33.22|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent. against Yamagata-lineage at Day 29.||33.22|3.22|
92165288|NCT04956575|184218810|OTHER||Percent Difference|9.18|||||TWO_SIDED|95.0|-10.62|28.31|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||28.31|-10.62|
92360013|NCT01263119|184624754|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|1.02|1.05|||Mixed Models Analysis|||Least Squares (LS) geometric mean was based on pharmacodynamic AUCINR of warfarin.||1.05|1.02|
92360014|NCT01263119|184624755|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|1.01|1.08|||Mixed Models Analysis|||Least Squares (LS) geometric mean was based on pharmacodynamic INRmax of warfarin.||1.08|1.01|
92360015|NCT02138825|184624756|SUPERIORITY_OR_OTHER||LS mean difference|21.48||||0.2074|TWO_SIDED|95.0|-8.75|51.71|||ANCOVA|||The evaluation of primary efficacy endpoint will be based on change from baseline in 6MWD using analysis of covariance (ANCOVA) with baseline 6MWD, treatment arm and region as factors.||51.71|-8.75|0.2074
92360016|NCT02138825|184624757|SUPERIORITY_OR_OTHER|||||||0.3437|||||||Mantel Haenszel|||The difference in incidences in clinical worsening and mortality will be analyzed using Mantel-Haenszel weights, stratified by region.||||0.3437
92360017|NCT01690273|184624764|SUPERIORITY_OR_OTHER|||||||0.13|||||||Mixed Models Analysis|||||||0.13
92360018|NCT01690273|184624764|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
92360019|NCT01690273|184624764|SUPERIORITY_OR_OTHER|||||||0.11|||||||Mixed Models Analysis|||||||0.11
92360020|NCT01690273|184624764|SUPERIORITY_OR_OTHER|||||||0.9913|||||||Mixed Models Analysis|||||||0.9913
92360021|NCT01690273|184624764|SUPERIORITY_OR_OTHER|||||||0.0427|||||||Mixed Models Analysis|||||||0.0427
92360022|NCT01690273|184624764|SUPERIORITY_OR_OTHER|||||||0.1856|||||||Mixed Models Analysis|||||||0.1856
92360023|NCT01690273|184624765|SUPERIORITY_OR_OTHER|||||||0.04|||||||Mixed Models Analysis|||||||0.04
92360024|NCT01690273|184624765|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Mixed Models Analysis|||||||0.0002
92360025|NCT01690273|184624765|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Mixed Models Analysis|||||||0.0002
92360026|NCT01690273|184624765|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
92360027|NCT01690273|184624765|SUPERIORITY_OR_OTHER|||||||0.935|||||||Mixed Models Analysis|||||||0.935
92360028|NCT01690273|184624765|SUPERIORITY_OR_OTHER|||||||0.876|||||||Mixed Models Analysis|||||||0.876
92360029|NCT01690273|184624766|SUPERIORITY_OR_OTHER|||||||0.004|||||||Mixed Models Analysis|||||||0.004
92405777|NCT02085161|184701881|SUPERIORITY_OR_OTHER||LSMean Difference|-0.067|STANDARD_ERROR_OF_MEAN|0.054||0.2183|TWO_SIDED|95.0|-0.174|0.04||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||0.040|-0.174|0.2183
92405778|NCT02085161|184701881|SUPERIORITY_OR_OTHER||LSMean Difference|0.128|STANDARD_ERROR_OF_MEAN|0.055||0.0203|TWO_SIDED|95.0|0.02|0.236||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||0.236|0.020|0.0203
92165289|NCT04956575|184218810|OTHER||Percent Difference|18.09|||||TWO_SIDED|95.0|-1.81|36.61|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||36.61|-1.81|
92165290|NCT04956575|184218810|OTHER||Percent Difference|23.91|||||TWO_SIDED|95.0|4.2|41.86|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||41.86|4.20|
92165291|NCT04956575|184218810|OTHER||Percent Difference|1.15|||||TWO_SIDED|95.0|-18.41|20.6|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||20.60|-18.41|
92360030|NCT01690273|184624766|SUPERIORITY_OR_OTHER|||||||0.87|||||||Mixed Models Analysis|||||||0.87
92360031|NCT01690273|184624766|SUPERIORITY_OR_OTHER|||||||0.83|||||||Mixed Models Analysis|||||||0.83
92360032|NCT01690273|184624766|SUPERIORITY_OR_OTHER|||||||0.989|||||||Mixed Models Analysis|||||||0.989
92360033|NCT01690273|184624766|SUPERIORITY_OR_OTHER|||||||0.022|||||||Mixed Models Analysis|||||||0.022
92360034|NCT01690273|184624766|SUPERIORITY_OR_OTHER|||||||0.119|||||||Mixed Models Analysis|||||||0.119
92360035|NCT01690273|184624767|SUPERIORITY_OR_OTHER|||||||0.09|||||||Mixed Models Analysis|||||||0.09
92360036|NCT01690273|184624767|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
92360037|NCT01690273|184624767|SUPERIORITY_OR_OTHER|||||||0.94|||||||Mixed Models Analysis|||||||0.94
92360038|NCT01690273|184624767|SUPERIORITY_OR_OTHER|||||||0.213|||||||Mixed Models Analysis|||||||0.213
92360039|NCT01690273|184624767|SUPERIORITY_OR_OTHER|||||||0.007|||||||Mixed Models Analysis|||||||0.007
92360040|NCT01690273|184624767|SUPERIORITY_OR_OTHER|||||||0.9|||||||Mixed Models Analysis|||||||0.900
92360041|NCT01690273|184624768|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|||||||0.003
92360042|NCT01690273|184624768|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
92360043|NCT01690273|184624768|SUPERIORITY_OR_OTHER|||||||0.69|||||||Mixed Models Analysis|||||||0.69
92360044|NCT01690273|184624768|SUPERIORITY_OR_OTHER|||||||0.874|||||||Mixed Models Analysis|||||||0.874
92360045|NCT01690273|184624768|SUPERIORITY_OR_OTHER|||||||0.057|||||||Mixed Models Analysis|||||||0.057
92360046|NCT01690273|184624768|SUPERIORITY_OR_OTHER|||||||0.526|||||||Mixed Models Analysis|||||||0.526
92360047|NCT01690273|184624769|SUPERIORITY_OR_OTHER|||||||0.853|||||||Mixed Models Analysis|||||||0.853
92360048|NCT01690273|184624769|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mixed Models Analysis|||||||0.016
92360049|NCT01690273|184624769|SUPERIORITY_OR_OTHER|||||||0|||||||Mixed Models Analysis|||||||0.000
92360050|NCT01690273|184624769|SUPERIORITY_OR_OTHER|||||||0.889|||||||Mixed Models Analysis|||||||0.889
92360051|NCT01690273|184624769|SUPERIORITY_OR_OTHER|||||||0.098|||||||Mixed Models Analysis|||||||0.098
92360052|NCT01690273|184624769|SUPERIORITY_OR_OTHER|||||||0.645|||||||Mixed Models Analysis|||||||0.645
92360053|NCT01690273|184624770|SUPERIORITY_OR_OTHER|||||||0.07|||||||Mixed Models Analysis|||||||0.07
92360054|NCT01690273|184624770|SUPERIORITY_OR_OTHER|||||||0.13|||||||Mixed Models Analysis|||||||0.13
92360055|NCT01690273|184624770|SUPERIORITY_OR_OTHER|||||||0.97|||||||Mixed Models Analysis|||||||0.97
92360056|NCT01690273|184624770|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
92360057|NCT01690273|184624770|SUPERIORITY_OR_OTHER|||||||0.338|||||||Mixed Models Analysis|||||||0.338
92360058|NCT01690273|184624770|SUPERIORITY_OR_OTHER|||||||0.476|||||||Mixed Models Analysis|||||||0.476
92360059|NCT01690273|184624771|SUPERIORITY_OR_OTHER|||||||0.88|||||||Mixed Models Analysis|||||||0.88
92360060|NCT01690273|184624771|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
92360061|NCT01690273|184624771|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
92360062|NCT01690273|184624771|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
92360063|NCT01690273|184624771|SUPERIORITY_OR_OTHER|||||||0.995|||||||Mixed Models Analysis|||||||0.995
92360064|NCT01690273|184624771|SUPERIORITY_OR_OTHER|||||||0.985|||||||Mixed Models Analysis|||||||0.985
92360065|NCT01690273|184624772|SUPERIORITY_OR_OTHER|||||||0.9|||||||Mixed Models Analysis|||||||0.9
92360066|NCT01690273|184624772|SUPERIORITY_OR_OTHER|||||||0.7|||||||Mixed Models Analysis|||||||0.7
92360067|NCT01690273|184624772|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
92360068|NCT01690273|184624772|SUPERIORITY_OR_OTHER|||||||0.999|||||||Mixed Models Analysis|||||||0.999
92360069|NCT01690273|184624772|SUPERIORITY_OR_OTHER|||||||0.9|||||||Mixed Models Analysis|||||||0.900
92360070|NCT01690273|184624772|SUPERIORITY_OR_OTHER|||||||0.739|||||||Mixed Models Analysis|||||||0.739
92360071|NCT01690273|184624773|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
92360072|NCT01690273|184624773|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
92360073|NCT01690273|184624773|SUPERIORITY_OR_OTHER|||||||0.37|||||||Mixed Models Analysis|||||||0.37
92360074|NCT01690273|184624773|SUPERIORITY_OR_OTHER|||||||0.618|||||||Mixed Models Analysis|||||||0.618
92401871|NCT02977403|184694647|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.005|||||TWO_SIDED|95.0|-0.103|0.092||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.092|-0.103|
92401872|NCT02977403|184694647|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.032|||||TWO_SIDED|95.0|-0.173|0.11||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.110|-0.173|
92165292|NCT04956575|184218810|OTHER||Percent Difference|22.21|||||TWO_SIDED|95.0|2.09|40.6|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||40.60|2.09|
92165293|NCT04956575|184218810|OTHER||Percent Difference|36.68|||||TWO_SIDED|95.0|17.38|53.36|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||53.36|17.38|
92360075|NCT01690273|184624773|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
92360076|NCT01690273|184624773|SUPERIORITY_OR_OTHER|||||||0.689|||||||Mixed Models Analysis|||||||0.689
92360077|NCT01690273|184624774|SUPERIORITY_OR_OTHER|||||||0.8|||||||Mixed Models Analysis|||||||0.8
92360078|NCT01690273|184624774|SUPERIORITY_OR_OTHER|||||||0.97|||||||Mixed Models Analysis|||||||0.97
92360079|NCT01690273|184624774|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
92360080|NCT01690273|184624774|SUPERIORITY_OR_OTHER|||||||0.999|||||||Mixed Models Analysis|||||||0.999
92360081|NCT01690273|184624774|SUPERIORITY_OR_OTHER|||||||0.929|||||||Mixed Models Analysis|||||||0.929
92165294|NCT04956575|184218810|OTHER||Percent Difference|-37.71|||||TWO_SIDED|95.0|-53.36|-20.45|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||-20.45|-53.36|
92165295|NCT04956575|184218810|OTHER||Treatment Difference|-26.18|||||TWO_SIDED|95.0|-43.66|-6.9|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||-6.90|-43.66|
92360082|NCT01690273|184624774|SUPERIORITY_OR_OTHER|||||||0.98|||||||Mixed Models Analysis|||||||0.980
92360083|NCT01690273|184624775|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
92360084|NCT01690273|184624775|SUPERIORITY_OR_OTHER|||||||0|||||||Mixed Models Analysis|||||||0.000
92360085|NCT01690273|184624775|SUPERIORITY_OR_OTHER|||||||0.35|||||||Mixed Models Analysis|||||||0.350
92360086|NCT01690273|184624775|SUPERIORITY_OR_OTHER|||||||0.997|||||||Mixed Models Analysis|||||||0.997
92360087|NCT01690273|184624775|SUPERIORITY_OR_OTHER|||||||0.97|||||||Mixed Models Analysis|||||||0.970
92360088|NCT01690273|184624775|SUPERIORITY_OR_OTHER|||||||0.999|||||||Mixed Models Analysis|||||||0.999
92360089|NCT01690273|184624776|SUPERIORITY_OR_OTHER|||||||0.997|||||||Mixed Models Analysis|||||||0.997
92360090|NCT01690273|184624776|SUPERIORITY_OR_OTHER|||||||0|||||||Mixed Models Analysis|||||||0.000
92360091|NCT01690273|184624776|SUPERIORITY_OR_OTHER|||||||0.503|||||||Mixed Models Analysis|||||||0.503
92360092|NCT01690273|184624776|SUPERIORITY_OR_OTHER|||||||0.814|||||||Mixed Models Analysis|||||||0.814
92360093|NCT01690273|184624776|SUPERIORITY_OR_OTHER|||||||0.643|||||||Mixed Models Analysis|||||||0.643
92360094|NCT01690273|184624776|SUPERIORITY_OR_OTHER|||||||0.999|||||||Mixed Models Analysis|||||||0.999
92360095|NCT01690273|184624777|SUPERIORITY_OR_OTHER|||||||0.787|||||||Mixed Models Analysis|||||||0.787
92360096|NCT01690273|184624777|SUPERIORITY_OR_OTHER|||||||0.408|||||||Mixed Models Analysis|||||||0.408
92360097|NCT01690273|184624777|SUPERIORITY_OR_OTHER|||||||0.157|||||||Mixed Models Analysis|||||||0.157
92360098|NCT01690273|184624777|SUPERIORITY_OR_OTHER|||||||0.835|||||||Mixed Models Analysis|||||||0.835
92360099|NCT01690273|184624777|SUPERIORITY_OR_OTHER|||||||0.256|||||||Mixed Models Analysis|||||||0.256
92360100|NCT01690273|184624777|SUPERIORITY_OR_OTHER|||||||0.935|||||||Mixed Models Analysis|||||||0.935
92360101|NCT01690273|184624778|SUPERIORITY_OR_OTHER|||||||0.978|||||||Mixed Models Analysis|||||||0.978
92360102|NCT01690273|184624778|SUPERIORITY_OR_OTHER|||||||0.169|||||||Mixed Models Analysis|||||||0.169
92360103|NCT01690273|184624778|SUPERIORITY_OR_OTHER|||||||0.002|||||||Mixed Models Analysis|||||||0.002
92360104|NCT01690273|184624778|SUPERIORITY_OR_OTHER|||||||0.993|||||||Mixed Models Analysis|||||||0.993
92360105|NCT01690273|184624778|SUPERIORITY_OR_OTHER|||||||0.105|||||||Mixed Models Analysis|||||||0.105
92360106|NCT01690273|184624778|SUPERIORITY_OR_OTHER|||||||0.335|||||||Mixed Models Analysis|||||||0.335
92165296|NCT04956575|184218810|OTHER||Percent Difference|-19.66|||||TWO_SIDED|95.0|-37.95|0.11|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||0.11|-37.95|
92360107|NCT01383005|184624836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.16||||0.001|TWO_SIDED|95.0|0.052|0.494|||Regression, Logistic|Degree of freedom is 1 for the independent variable 'viral load change from detectable to undetectable.'|Stepwise procedures forward and backward were used to select variables in the model using entry and exit probabilities of 0.05 and 0.1 respectively. Identical models were obtained by forward and backward selection procedures.|Statistical Analysis 1 presents the risk of a 'mean score \<5' on the HIVTSQ overall satisfaction dimension (see Outcome Measure 8) when correlated with a viral load change from 'detectable to undetectable' in the last model of the Wald test.||0.494|0.052|0.001
92360108|NCT01383005|184624836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.279||||0.072|TWO_SIDED|95.0|0.07|1.118|||Regression, Logistic|Degree of freedom is 1 for the independent variable 'viral load change from undetectable to undetectable.'|Stepwise procedures forward and backward were used to select variables in the model using entry and exit probabilities of 0.05 and 0.1 respectively. Identical models were obtained by forward and backward selection procedures.|Statistical Analysis 2 presents the risk of a 'mean score \<5' on the HIVTSQ overall satisfaction dimension (see Outcome Measure 8) when correlated with a viral load change from 'undetectable to undetectable' in the last model of the Wald test.||1.118|0.070|0.072
92360109|NCT01383005|184624837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.996||||0.025|TWO_SIDED|95.0|0.992|0.999|||Regression, Logistic|Degree of freedom is 1 for the independent variable 'time on LPV/r.'|Stepwise procedures forward and backward were used to select variables in the model using entry and exit probabilities of 0.05 and 0.1 respectively. Identical models were obtained by forward and backward selection procedures.|Statistical Analysis 1 presents the risk of a 'mean score \<5' on the HIVTSQ overall satisfaction dimension (see Outcome Measure 8) when correlated with time on treatment with LPV/r QD in the last model of the Wald test.||0.999|0.992|0.025
92360110|NCT02300233|184624860|SUPERIORITY||Difference in Least Squares Mean (LSM)|-70.3|||<|0.0001|TWO_SIDED|95.0|-85.4|-55.3|||ANCOVA|||||-55.3|-85.4|<0.0001
92401873|NCT02977403|184694648|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.02|||||TWO_SIDED|95.0|-0.069|0.109||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.109|-0.069|
92401874|NCT02977403|184694648|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.088|||||TWO_SIDED|95.0|-0.252|0.077||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.077|-0.252|
92405779|NCT02085161|184701882|SUPERIORITY_OR_OTHER||Treatment ratio|1.333|STANDARD_ERROR_OF_MEAN|0.142||0.0077|TWO_SIDED|95.0|1.08|1.645||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM).|||1.645|1.080|0.0077
92405780|NCT02085161|184701882|SUPERIORITY_OR_OTHER||Treatment ratio|1.244|STANDARD_ERROR_OF_MEAN|0.131||0.039|TWO_SIDED|95.0|1.011|1.53||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM).|||1.530|1.011|0.0390
92165297|NCT04956575|184218810|OTHER||Percent Difference|-23.43|||||TWO_SIDED|95.0|-41.09|-4.26|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||-4.26|-41.09|
92360111|NCT02300233|184624861|SUPERIORITY||Difference in LSM|-943.0|||<|0.0001|TWO_SIDED|95.0|-1197.0|-689.0|||ANCOVA|||||-689|-1197|<0.0001
92165298|NCT04956575|184218810|OTHER||Percent Difference|-4.44|||||TWO_SIDED|95.0|-24.09|15.59|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of against Afluria Quadrivalent Yamagata-lineage at Day 29.||15.59|-24.09|
92165299|NCT04956575|184218810|OTHER||Percent Difference|-8.79|||||TWO_SIDED|95.0|-28.13|11.27|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||11.27|-28.13|
92165300|NCT00432458|184218816|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Log Rank|Model was stratified by beta-2 microglobulin (high vs low), lytic bone lesions (present vs not) and bone marrow labeling index (high vs low)||||||0.02
92165301|NCT00432458|184218817|SUPERIORITY_OR_OTHER|||||||0.0048||95.0|||||Chi-squared|||||||0.0048
92165302|NCT00432458|184218818|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92360112|NCT02300233|184624862|SUPERIORITY||Odds Ratio (OR)|96.02|||<|0.0001|TWO_SIDED|95.0|19.71|467.79|||Regression, Logistic|||||467.79|19.71|<0.0001
92360113|NCT02300233|184624863|SUPERIORITY||Difference in LSM|56.8|||<|0.0001|TWO_SIDED|95.0|45.1|68.6|||ANCOVA|||||68.6|45.1|<0.0001
92360114|NCT02300233|184624864|SUPERIORITY||Odds Ratio (OR)|14.93||||0.0474|TWO_SIDED|95.0|1.03|215.88|||Regression, Logistic|||||215.88|1.03|0.0474
92165303|NCT00854906|184218823|NON_INFERIORITY_OR_EQUIVALENCE|This was a pilot study. Therefore, no formal power analyses were performed.|Mean Difference (Final Values)|0.666|STANDARD_DEVIATION|3.6||0.074|TWO_SIDED|95.0|-0.069|1.401|||t-test, 2 sided|||The paired T-test was used to compare mean KTBUT and mean FTBUT.||1.401|-0.069|0.074
92165304|NCT00854906|184218824|NON_INFERIORITY_OR_EQUIVALENCE|The analysis will evaluate the association between OSDI with KTBUT.|Pearson's Correlation, r|-0.34||||0.093|ONE_SIDED||||||Pearson's correlation|||A correlation was performed between ODSI questionnaire results and each participant's KTBUT.||||0.093
92165305|NCT00854906|184218824|SUPERIORITY_OR_OTHER||Pearson's Correlation, r|-0.26||||0.216|||||||Pearson's Correlation|||A correlation was performed between ODSI questionnaire results and each participant's FTBUT.||||0.216
92360115|NCT04752566|184624924|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.8938|TWO_SIDED|95.0|0.45|1.97||Log Rank Test stratified by randomization strata.|Log Rank||Cox proportional hazard model stratified by randomization strata, with treatment group as the fixed effect. Firth's adjustment was applied if no event was observed in a treatment group.|||1.97|0.45|0.8938
92360116|NCT04752566|184624925|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8987|TWO_SIDED|95.0|0.27|3.17|||Regression, Logistic|||Week 8||3.17|0.27|0.8987
92360117|NCT04752566|184624925|SUPERIORITY||Odds Ratio (OR)|0.6||||0.4083|TWO_SIDED|95.0|0.18|2.02|||Regression, Logistic|||Week 24||2.02|0.18|0.4083
92360118|NCT04752566|184624926|SUPERIORITY||Odds Ratio (OR)|0.8||||0.6739|TWO_SIDED|95.0|0.24|2.54|||Regression, Logistic|||||2.54|0.24|0.6739
92360119|NCT01838226|184624942|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.5|TWO_SIDED|95.0|-1.3|2.8|||Mixed Models Analysis|||||2.8|-1.3|0.50
92360120|NCT01838226|184624943|SUPERIORITY||Mean Difference (Net)|0.9|||||TWO_SIDED|95.0|-1.3|3.1|||Mixed Models Analysis|||||3.1|-1.3|
92360121|NCT01838226|184624944|SUPERIORITY||Mean Difference (Net)|-2.6|||||TWO_SIDED|95.0|-4.9|-0.2||||||||-0.2|-4.9|
92360122|NCT00023595|184624945|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.12|TWO_SIDED|95.0|0.72|1.04|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||1.04|0.72|0.12
92360123|NCT00023595|184624946|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.02|TWO_SIDED|95.0|0.73|0.97|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.97|0.73|0.02
92360124|NCT00023595|184624947|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.9|TWO_SIDED|95.0|0.84|1.17|||Log Rank||Hazard Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||1.17|0.84|0.90
92360125|NCT00023595|184624948|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio, log|0.79||||0.006|TWO_SIDED|95.0|0.66|0.93|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.93|0.66|0.006
92360126|NCT00023595|184624949|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81||||0.05|TWO_SIDED|95.0|0.66|1.0|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||1.00|0.66|0.05
92360127|NCT00023595|184624950|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74|||<|0.001|TWO_SIDED|95.0|0.64|0.85|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.85|0.64|<0.001
92360128|NCT00023595|184624951|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72|||<|0.001|TWO_SIDED|95.0|0.64|0.82|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.82|0.64|<0.001
92360129|NCT00023595|184624952|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.79|1.26|||Log Rank||Hazard Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||1.26|0.79|0.98
92360130|NCT00023595|184624953|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.19||||0.008|TWO_SIDED|95.0|1.35|7.52|||Regression, Logistic||Odds Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||7.52|1.35|0.008
92360131|NCT00023595|184624954|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.275|TWO_SIDED|95.0|0.78|2.41|||Regression, Logistic||Odds Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||2.41|0.78|0.275
92360132|NCT00023595|184624955|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.03|TWO_SIDED|95.0|0.71|0.98|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.98|0.71|0.030
92360133|NCT00023595|184624956|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.401|TWO_SIDED|95.0|0.89|1.31|||Log Rank||Hazard Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||1.31|0.89|0.401
92360134|NCT00023595|184624957|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81||||0.002|TWO_SIDED|95.0|0.71|0.93|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.93|0.71|0.002
92360135|NCT00023595|184624973|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||<|0.001|TWO_SIDED|95.0|0.51|0.71|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.71|0.51|<0.001
92360136|NCT00023595|184624974|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.414|TWO_SIDED|95.0|0.73|1.13|||Log Rank||Hazard Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||1.13|0.73|0.414
92360137|NCT00023595|184624975|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.55|0.73|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.73|0.55|<0.001
92360138|NCT00023595|184624976|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.108|TWO_SIDED|95.0|0.72|1.03|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||1.03|0.72|0.108
92360139|NCT00023595|184624977|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.05||||0.717|TWO_SIDED|95.0|0.83|1.32|||Log Rank||Hazard Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||1.32|0.83|0.717
92360140|NCT00023595|184624978|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.018|TWO_SIDED|95.0|0.73|0.97|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.97|0.73|0.018
92360141|NCT00023595|184624994|SUPERIORITY|||||||0.015||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.015
92360142|NCT00023595|184624994|SUPERIORITY|||||||0.002||||||12 months|Chi-squared|||||||0.002
92360143|NCT00023595|184624994|SUPERIORITY|||||||0.011||||||24 months|Chi-squared|||||||0.011
92360144|NCT00023595|184624994|SUPERIORITY|||||||0.44||||||36 months|Chi-squared|||||||0.44
92360145|NCT00023595|184624995|SUPERIORITY|||||||0.91||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.91
92165306|NCT03482011|184218861|SUPERIORITY||Risk Difference (RD)|63.0|||<|0.001|TWO_SIDED|95.0|56.5|69.4|||Cochran-Mantel-Haenszel|||||69.4|56.5|<0.001
92165307|NCT03482011|184218862|SUPERIORITY||Risk Difference (RD)|57.8|||<|0.001|TWO_SIDED|95.0|51.3|64.4|||Cochran-Mantel-Haenszel|||||64.4|51.3|<0.001
92165308|NCT03482011|184218863|SUPERIORITY||Risk Difference (RD)|15.6|||<|0.001|TWO_SIDED|95.0|11.6|19.7|||Cochran-Mantel-Haenszel|||||19.7|11.6|<0.001
92165309|NCT03482011|184218864|SUPERIORITY||Risk Difference (RD)|73.6|||<|0.001|TWO_SIDED|95.0|67.1|80.1|||Cochran-Mantel-Haenszel|||||80.1|67.1|<0.001
92165310|NCT03482011|184218865|SUPERIORITY||Risk Difference (RD)|30.8|||<|0.001|TWO_SIDED|95.0|26.0|35.7|||Cochran-Mantel-Haenszel|||||35.7|26.0|<0.001
92165311|NCT03482011|184218866|SUPERIORITY||Risk Difference (RD)|48.1|||<|0.001|TWO_SIDED|95.0|42.9|53.2|||Cochran-Mantel-Haenszel|||||53.2|42.9|<0.001
92360146|NCT00023595|184624995|SUPERIORITY|||||||0.62||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.62
92165312|NCT03482011|184218867|SUPERIORITY||Risk Difference (RD)|18.3|||<|0.001|TWO_SIDED|95.0|14.5|22.1|||Cochran-Mantel-Haenszel|||||22.1|14.5|<0.001
92165313|NCT03482011|184218868|SUPERIORITY||Risk Difference (RD)|49.6|||<|0.001|TWO_SIDED|95.0|42.8|56.4|||Cochran-Mantel-Haenszel|||||56.4|42.8|<0.001
92165314|NCT03482011|184218869|SUPERIORITY||Risk Difference (RD)|66.7|||<|0.001|TWO_SIDED|95.0|56.0|77.5|||Cochran-Mantel-Haenszel|||||77.5|56.0|<0.001
92165315|NCT03482011|184218869|SUPERIORITY||Risk Difference (RD)|65.9|||<|0.001|TWO_SIDED|95.0|54.9|77.0|||Cochran-Mantel-Haenszel|||||77.0|54.9|<0.001
92165316|NCT03482011|184218870|SUPERIORITY||Mean Difference (Net)|-4.7|STANDARD_ERROR_OF_MEAN|1.32|<|0.001|TWO_SIDED|95.0|-7.31|-2.1|||Mixed Models Analysis|||||-2.10|-7.31|<0.001
92165317|NCT03482011|184218871|SUPERIORITY||Mean Difference (Net)|-17.33|STANDARD_ERROR_OF_MEAN|0.99|<|0.001|TWO_SIDED|95.0|-19.28|-15.39|||Mixed Models Analysis|||||-15.39|-19.28|<0.001
92165318|NCT03482011|184218872|SUPERIORITY||Mean Difference (Net)|-6.98|STANDARD_ERROR_OF_MEAN|1.73|<|0.001|TWO_SIDED|95.0|-10.37|-3.58|||Mixed Models Analysis|||||-3.58|-10.37|<0.001
92165319|NCT03482011|184218873|SUPERIORITY||Mean Difference (Net)|4.86|STANDARD_ERROR_OF_MEAN|0.69|<|0.001|TWO_SIDED|95.0|3.5|6.22|||ANCOVA|||||6.22|3.50|<0.001
92165320|NCT03482011|184218874|SUPERIORITY||Mean Difference (Net)|4.78|STANDARD_ERROR_OF_MEAN|0.74|<|0.001|TWO_SIDED|95.0|3.33|6.23|||ANCOVA|||||6.23|3.33|<0.001
92165321|NCT03482011|184218875|SUPERIORITY||Risk Difference (RD)|68.1|||<|0.001|TWO_SIDED|95.0|63.2|72.9|||Cochran-Mantel-Haenszel|||||72.9|63.2|<0.001
92165322|NCT03482011|184218876|SUPERIORITY||Mean Difference (Net)|-3.68|STANDARD_ERROR_OF_MEAN|1.84||0.002|TWO_SIDED|95.0|-7.3|-0.06|||ANOVA|||Absenteeism||-0.06|-7.30|0.002
92165323|NCT03482011|184218876|SUPERIORITY||Mean Difference (Net)|-20.24|STANDARD_ERROR_OF_MEAN|2.37|<|0.001|TWO_SIDED|95.0|-24.89|-15.6|||ANCOVA|||Presenteeism||-15.60|-24.89|<0.001
92165324|NCT03482011|184218876|SUPERIORITY||Mean Difference (Net)|-21.09|STANDARD_ERROR_OF_MEAN|2.78|<|0.001|TWO_SIDED|95.0|-26.56|-15.62|||ANCOVA|||Overall Absenteeism and Presenteeism||-15.62|-26.56|<0.001
92165325|NCT03482011|184218876|SUPERIORITY||Mean Difference (Net)|-22.91|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-27.39|-18.43|||ANCOVA|||Impairment in Activities Performed Outside of Work||-18.43|-27.39|<0.001
92165326|NCT03482011|184218877|SUPERIORITY||Mean Difference (Net)|0.53|STANDARD_ERROR_OF_MEAN|1.79||0.004|TWO_SIDED|95.0|-3.08|4.14|||ANCOVA|||||4.14|-3.08|0.004
92165327|NCT03482011|184218878|SUPERIORITY||Risk Difference (RD)|48.8|||<|0.001|TWO_SIDED|95.0|41.6|55.9|||Cochran-Mantel-Haenszel|||||55.9|41.6|<0.001
92165328|NCT00468052|184218880|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Null hypothesis is not significantly different from group D and F.|Wilcoxon (Mann-Whitney)|||Sixty subjects were required per group to determine that with Dex would decrease the incidence of severe EA after surgery by 50% with 80% power (0.05)in comparison with the control group.60 subjects were required by group to show the that intraoperative rescue fentanyl and rescue morphine in the PACU would be 50% lower in subjects receiving dex.||||.001
92165329|NCT00468052|184218880|NON_INFERIORITY_OR_EQUIVALENCE|Treatment with Dex would reduce the incidence of severe agitation be 50% with an 80% power (alpha 0.05)||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Null hypothesis dexmedetomidine would be a safe and effective substitute to opiates in reducing pain and the incidence of severe EA||||.001
92165330|NCT00468052|184218881|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.004
92165331|NCT00468052|184218883|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Fisher Exact|||||||0.03
92165332|NCT00468052|184218884|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Fisher Exact|||||||0.02
92360147|NCT00023595|184624995|SUPERIORITY|||||||0.04||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.04
92360148|NCT00023595|184624995|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
92360149|NCT00023595|184624995|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
92360150|NCT00023595|184624996|SUPERIORITY|||||||0.31||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.31
92360151|NCT00023595|184624996|SUPERIORITY|||||||0.002||||||12 months|Chi-squared|||||||0.002
92360152|NCT00023595|184624996|SUPERIORITY|24 months||||||0.028|||||||Chi-squared|||||||0.028
92360153|NCT00023595|184624996|SUPERIORITY|||||||0.079||||||36 months|Chi-squared|||||||0.079
92360154|NCT00023595|184624997|SUPERIORITY|||||||0.74||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.74
92360155|NCT00023595|184624997|SUPERIORITY|||||||0.61||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.61
92360156|NCT00023595|184624997|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
92360157|NCT00023595|184624997|SUPERIORITY|||||||0.94||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.94
92360158|NCT00023595|184624997|SUPERIORITY|||||||0.29||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.29
92360159|NCT00023595|184624998|SUPERIORITY|||||||0.063||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.063
92360160|NCT00023595|184624998|SUPERIORITY|||||||0.187||||||12 months|Chi-squared|||||||0.187
92360161|NCT00023595|184624998|SUPERIORITY|||||||0.168||||||24 months|Chi-squared|||||||0.168
92360162|NCT00023595|184624998|SUPERIORITY|||||||0.05||||||36 months|Chi-squared|||||||0.050
92360163|NCT00023595|184624999|SUPERIORITY|||||||0.82||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.82
92360164|NCT00023595|184624999|SUPERIORITY|||||||0.48||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.48
92360165|NCT00023595|184624999|SUPERIORITY|||||||0.69||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.69
92401875|NCT02977403|184694649|OTHER|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.01|||||TWO_SIDED|95.0|-0.099|0.08||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.080|-0.099|
92165333|NCT04446117|184218893|SUPERIORITY||Cox Proportional Hazard|0.65||||0.0007|TWO_SIDED|95.0|0.5|0.84||Stratification factors used: Liver metastasis, prior docetaxel use for locally advanced or metastatic castration-sensitive prostate cancer (mCSPC) and disease state at first NHT.|Log Rank||Stratification factors used: Liver metastasis, prior docetaxel use for locally advanced or mCSPC and disease state at first NHT.|||0.84|0.50|0.0007
92360166|NCT00023595|184624999|SUPERIORITY|||||||0.63||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.63
92401876|NCT02977403|184694649|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.155|||||TWO_SIDED|95.0|-0.294|-0.017||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.017|-0.294|
92165334|NCT04446117|184218894|SUPERIORITY||Cox Proportional Hazard|0.89||||0.2956|TWO_SIDED|95.0|0.72|1.1||Stratification factors used: Liver metastasis, prior docetaxel use for locally advanced or mCSPC and disease state at first NHT.|Log Rank|||||1.10|0.72|0.2956
92165335|NCT01215695|184218907|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92165336|NCT01215695|184218908|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92165337|NCT01215695|184218909|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92165338|NCT01215695|184218910|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92165339|NCT01215695|184218911|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92165340|NCT01378065|184218934|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
92165341|NCT01378065|184218935|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
92165342|NCT01378065|184218936|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
92165343|NCT01378065|184218937|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
92165344|NCT01378065|184218938|SUPERIORITY_OR_OTHER_LEGACY|||||||0.202|TWO_SIDED||||||t-test, 2 sided|||||||0.202
92165345|NCT01378065|184218939|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
92165346|NCT01378065|184218940|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||||||0.004
92165347|NCT01378065|184218941|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034|TWO_SIDED||||||t-test, 2 sided|||||||0.034
92165348|NCT01378065|184218942|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||Analysis baseline to 6 weeks.||||0.001
92165349|NCT01378065|184218943|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||Analysis baseline to 3 months.||||0.004
92165350|NCT01378065|184218944|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Analysis baseline to 6 months.||||<.001
92165351|NCT01378065|184218945|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Analysis baseline to 12 months.||||<.001
92165352|NCT00361283|184218946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-111.0|STANDARD_ERROR_OF_MEAN|76.7||0.15|TWO_SIDED|95.0|-264.0|42.0||No confounders were controlled for as each person is his/her own control.|t-test, 2 sided|||The study in healthy volunteers was to compare levels at baseline to 16 weeks in ENA-78, a cytokine. The one sample t-test was used to obtain the result.||42|-264|0.15
92165353|NCT01123083|184219044|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.051|TWO_SIDED|95.0|-0.17|0.0|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline C-peptide AUC. Confidence Interval, not adjusted for multiple comparisons.|||0.00|-0.17|0.051
92165354|NCT01123083|184219045|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.022|TWO_SIDED|95.0|-0.18|-0.02|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline C-peptide AUC. Confidence Interval, not adjusted for multiple comparisons.|Week 12||-0.02|-0.18|0.022
92165355|NCT01123083|184219045|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.191|TWO_SIDED|95.0|-0.15|0.03|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline C-peptide AUC. Confidence Interval, not adjusted for multiple comparisons.|Month 6||0.03|-0.15|0.191
92165356|NCT01123083|184219047|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.912|TWO_SIDED|95.0|0.5|3.37|||GEE Model||Estimated treatment group difference, adjusted for age, region and Baseline HbA1c/Insulin Use Response. Confidence Interval, not adjusted for multiple comparisons.|Week 12||3.37|0.50|0.912
92165357|NCT01123083|184219047|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.912|TWO_SIDED|95.0|0.37|2.42|||GEE Model||Estimated treatment group difference, adjusted for age, region and Baseline HbA1c/Insulin Use Response. Confidence Interval, not adjusted for multiple comparisons.|Month 6||2.42|0.37|0.912
92360167|NCT00023595|184624999|SUPERIORITY|||||||0.9||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.90
92360168|NCT00023595|184625000|SUPERIORITY|||||||0.039||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.039
92360169|NCT00023595|184625000|SUPERIORITY|||||||0.002||||||12 months|Chi-squared|||||||0.002
92360170|NCT00023595|184625000|SUPERIORITY|||||||0.008||||||24 months|Chi-squared|||||||0.008
92360171|NCT00023595|184625000|SUPERIORITY|||||||0.31||||||36 months|Chi-squared|||||||0.31
92360172|NCT00023595|184625001|SUPERIORITY|||||||0.36||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.36
92165358|NCT01123083|184219047|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.412|TWO_SIDED|95.0|0.54|4.52|||GEE Model||Estimated treatment group difference, adjusted for age, region and Baseline HbA1c/Insulin Use Response. Confidence Interval, not adjusted for multiple comparisons.|Month 12||4.52|0.54|0.412
92165359|NCT01123083|184219048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.21|TWO_SIDED|95.0|-0.08|0.02|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline Mean Daily Insulin Use. Confidence Interval, not adjusted for multiple comparisons.|Week 12||0.02|-0.08|0.210
92165360|NCT01123083|184219048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.21|TWO_SIDED|95.0|-0.11|0.02|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline Mean Daily Insulin Use. Confidence Interval, not adjusted for multiple comparisons.|Month 6||0.02|-0.11|0.210
92165361|NCT01123083|184219048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.402|TWO_SIDED|95.0|-0.05|0.13|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline Mean Daily Insulin Use. Confidence Interval, not adjusted for multiple comparisons.|Month 12||0.13|-0.05|0.402
92165362|NCT01123083|184219049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.582|TWO_SIDED|95.0|-0.52|0.16|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and baseline HbA1c. Confidence Interval, not adjusted for multiple comparisons.|Week 12||0.16|-0.52|0.582
92165363|NCT01123083|184219049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.987|TWO_SIDED|95.0|-0.46|0.45|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and baseline HbA1c. Confidence Interval, not adjusted for multiple comparisons.|Month 6||0.45|-0.46|0.987
92165364|NCT01123083|184219049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13||||0.572|TWO_SIDED|95.0|-0.33|0.59|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and baseline HbA1c. Confidence Interval, not adjusted for multiple comparisons.|Month 12||0.59|-0.33|0.572
92165365|NCT01123083|184219052|SUPERIORITY_OR_OTHER|||||||0.452|||||||Hochberg-adjusted p-value|||Month 6||||0.452
92165366|NCT01123083|184219052|SUPERIORITY_OR_OTHER|||||||0.452|||||||Hochberg-adjusted p-value|||Month 12||||0.452
92165367|NCT01123083|184219053|SUPERIORITY_OR_OTHER|||||||0.123|||||||Hochberg-adjusted p-value|||Month 6||||0.123
92165368|NCT01123083|184219053|SUPERIORITY_OR_OTHER|||||||0.373|||||||Hochberg-adjusted p-value|||Month 12||||0.373
92165369|NCT00961636|184219054|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The closed ordered testing procedure was applied to the efficacy hypotheses. If statistical significance was achieved for the primary hypothesis, then the secondary hypothesis was tested. All tests were performed at significance level 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test was stratified by country||||||<0.001
92165370|NCT00961636|184219055|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The closed ordered testing procedure was applied to the efficacy hypotheses. If statistical significance was achieved for the primary hypothesis, then the secondary hypothesis was tested. All tests were performed at significance level 0.05.|Unconditional Miettinen and Nurminen|||||||<0.001
92165371|NCT00688519|184219071|SUPERIORITY_OR_OTHER|||||||0.058|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.058
92165372|NCT00688519|184219071|SUPERIORITY_OR_OTHER|||||||0.313|||||||Breslow-Day Test|Breslow-Day test of the homogeneity of the odds ratio using a 0.1 significance level.||Consistency of results across investigative centers was verified using the Breslow-Day test of homogeneity the odds ration using a significance level of 0.1||||0.313
92165373|NCT00688519|184219072|SUPERIORITY_OR_OTHER|||||||0.029|||||||Cochran-Mantel-Haenszel|||These P-values are provided for information purposes only; they are considered non-significant (per the statistical analysis plan) because the analysis of the primary end point did not reach statistical significance.||||0.029
92360173|NCT00023595|184625001|SUPERIORITY|||||||0.87||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.87
92360174|NCT00023595|184625001|SUPERIORITY|||||||0.17||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.17
92360175|NCT00023595|184625001|SUPERIORITY|||||||0.12||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.12
92360176|NCT00023595|184625001|SUPERIORITY|||||||0.79||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.79
92360177|NCT00023595|184625002|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|||||||<0.001
92360178|NCT00023595|184625002|SUPERIORITY||||||<|0.001||||||12 months|Chi-squared|||||||<0.001
92360179|NCT00023595|184625002|SUPERIORITY||||||<|0.001||||||24 months|Chi-squared|||||||<0.001
92360180|NCT00023595|184625002|SUPERIORITY||||||<|0.024||||||36 months|Chi-squared|||||||<0.024
92360181|NCT00023595|184625003|SUPERIORITY|||||||0.31||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.31
92360182|NCT00023595|184625003|SUPERIORITY|||||||0.42||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.42
92360183|NCT00023595|184625003|SUPERIORITY|||||||0.66||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.66
92360184|NCT00023595|184625003|SUPERIORITY|||||||0.32||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.32
92360185|NCT00023595|184625003|SUPERIORITY|||||||0.43||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.43
92360186|NCT00023595|184625004|SUPERIORITY|||||||0.051||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.051
92360187|NCT00023595|184625004|SUPERIORITY|||||||0.003||||||12 months|Chi-squared|||||||0.003
92360188|NCT00023595|184625004|SUPERIORITY|||||||0.065||||||24 months|Chi-squared|||||||0.065
92360189|NCT00023595|184625004|SUPERIORITY|||||||0.83||||||36 months|Chi-squared|||||||0.83
92360190|NCT00023595|184625005|SUPERIORITY|||||||0.71||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.71
92360191|NCT00023595|184625005|SUPERIORITY|||||||0.57||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.57
92360192|NCT00023595|184625005|SUPERIORITY|||||||0.15||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.15
92360193|NCT00023595|184625005|SUPERIORITY|||||||0.64||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.64
92360194|NCT00023595|184625005|SUPERIORITY|||||||0.07||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.07
92360195|NCT00023595|184625006|SUPERIORITY|||||||0.004||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.004
92360196|NCT00023595|184625006|SUPERIORITY|||||||0.011||||||12 months|Chi-squared|||||||0.011
92360197|NCT00023595|184625006|SUPERIORITY|||||||0.007||||||24 months|Chi-squared|||||||0.007
92360198|NCT00023595|184625006|SUPERIORITY|||||||0.044||||||36 months|Chi-squared|||||||0.044
92360199|NCT00023595|184625007|SUPERIORITY|||||||0.74||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.74
92360200|NCT00023595|184625007|SUPERIORITY|||||||0.87||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.87
92360201|NCT00023595|184625007|SUPERIORITY|||||||0.03||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.03
92360202|NCT00023595|184625007|SUPERIORITY|||||||0.6||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.60
92360203|NCT00023595|184625007|SUPERIORITY|||||||0.87||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.87
92360204|NCT00023595|184625008|SUPERIORITY|||||||0.05||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.050
92360205|NCT00023595|184625008|SUPERIORITY|||||||0.003||||||12 months|Chi-squared|||||||0.003
92360206|NCT00023595|184625008|SUPERIORITY|24 months||||||0.049|||||||Chi-squared|||||||0.049
92165374|NCT00688519|184219073|SUPERIORITY_OR_OTHER|||||||0.013|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||These P-values are provided for information purposes only; they are considered non-significant (per the statistical analysis plan) because the analysis of the primary end point did not reach statistical significance.||||0.013
92360207|NCT00023595|184625008|SUPERIORITY|||||||0.097||||||36 months|Chi-squared|||||||0.097
92360208|NCT00023595|184625009|SUPERIORITY|||||||0.4||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.40
92360209|NCT00023595|184625009|SUPERIORITY|||||||0.13||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.13
92360210|NCT00023595|184625009|SUPERIORITY|||||||0.86||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.86
92360211|NCT00023595|184625009|SUPERIORITY|||||||0.89||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.89
92360212|NCT00023595|184625009|SUPERIORITY|||||||0.87||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.87
92165375|NCT00688519|184219074|SUPERIORITY_OR_OTHER|||||||0.008|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||These P-values are provided for information purposes only; they are considered non-significant (per the statistical analysis plan) because the analysis of the primary end point did not reach statistical significance.||||0.008
92165376|NCT00688519|184219075|SUPERIORITY_OR_OTHER|||||||0.018|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||These P-values are provided for information purposes only; they are considered non-significant (per the statistical analysis plan) because the analysis of the primary end point did not reach statistical significance.||||0.018
92165377|NCT00688519|184219076|SUPERIORITY_OR_OTHER|||||||0.167|||||||Cochran-Mantel-Haenszel|stratified by pooled center||Comparison of calcipotriene foam and vehicle foam for patients who had mild disease at baseline||||0.167
92165378|NCT00688519|184219076|SUPERIORITY_OR_OTHER|||||||0.009|||||||Cochran-Mantel-Haenszel|stratified by pooled center||Comparison of calcipotriene foam and vehicle foam for patients who had moderate disease at baseline||||0.009
92165379|NCT02666742|184219098|SUPERIORITY|Continuous variables were compared by two-sample t-tests and categorical variables by chi-square test. All tests were two-tailed, and a P value less than 0.05 was considered to indicate statistical significance. Bonferroni correction was not performed due to prespecified outcomes in the trial. Analyses were performed using GraphPad 6||||||0.001|||||||Chi-squared|||Due to lack of precedent robust clinical data, we performed exploratory study to evaluate safety and efficacy of DOAC vs. Aspirin (ASA) in patients undergoing left ventricular arrhythmia (LVA) ablation; therefore, sample size calculation was not undertaken.||||0.001
92165380|NCT01359371|184219110|SUPERIORITY||||||<|0.01|||||||Fisher Exact|||Bivariate relationships between a patient's participation in the program and smoking status were calculated.||||<.01
92165381|NCT01359371|184219111|OTHER|T-tests, chi squares and Fishers exact tests were used to compare groups.|||||<|0.05||||||This was just a sample description, so there was not adjustment for multiple comparisons.|Chi-squared||||T-tests, chi squares and Fishers exact tests were used to compare groups.|||<.05
92165382|NCT01359371|184219111|OTHER||||||<|0.05|||||||Chi-squared|||T-tests, chi squares and Fishers exact tests were used to compare groups.||||<.05
92165383|NCT00114101|184219193|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This study was designed to have 80% power, with the use of the log-rank test at a one-sided significance level of 0.05, to detect a hazard ratio of 1.4, assuming proportional hazards and an exponential time to event distribution. Under the assumed framework, 309 events were expected. The expected drop out rate before randomization was 15%.|Hazard Ratio (HR)|0.36|||<|0.001|TWO_SIDED|95.0|0.26|0.53||Participants were randomized with the use of a permuted-block design stratified by beta 2 microglobulin, prior use of thalidomide and prior use of lenalidomide. TTP was monitored with the use of a group sequential design for superiority and futility.|Log Rank|||||0.53|0.26|<0.001
92165384|NCT00114101|184219195|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.52||||0.7|TWO_SIDED|95.0|0.26|1.02|||Log Rank|||||1.02|0.26|0.70
92165385|NCT00114101|184219196|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.41|0.69|||Fisher Exact|||||0.69|0.41|<0.001
92165386|NCT01786564|184219201|OTHER|This is cross-sectional analysis in a single group.|Regression Coefficient|-0.075||||0.13|TWO_SIDED|95.0|-0.173|0.023||Unadjusted association. A priori p value of .05 was selected for statistical significance.|Regression, Linear|||The cross-sectional association between habitual sleep duration and oral disposition index was analyzed.||.023|-.173|.13
92165387|NCT01786564|184219201|OTHER|This is cross-sectional analysis|Regression Coefficient|0.12||||0.83|TWO_SIDED|95.0|-0.95|1.19||Unadjusted association. P value of .05 was selected a priori as statistical significance|Regression, Linear|Unadjusted.||The cross-sectional association between habitual sleep quality (sleep percentage) and oral disposition index was analyzed.||1.19|-0.95|.83
92360213|NCT00023595|184625010|SUPERIORITY|||||||0.005||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.005
92360214|NCT00023595|184625010|SUPERIORITY|||||||0.023||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.023
92360215|NCT00023595|184625010|SUPERIORITY|||||||0.009||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.009
92360216|NCT00023595|184625010|SUPERIORITY|||||||0.26||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.26
92360217|NCT00023595|184625011|SUPERIORITY|||||||0.38||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.38
92360218|NCT00023595|184625011|SUPERIORITY|||||||0.45||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.45
92360219|NCT00023595|184625011|SUPERIORITY|||||||0.62||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.62
92360220|NCT00023595|184625011|SUPERIORITY|||||||0.82||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.82
92360221|NCT00023595|184625011|SUPERIORITY|||||||0.94||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.94
92165388|NCT01786564|184219201|OTHER|This is cross-sectional analysis in a single group.|Regression Coefficient|-0.05||||0.39|TWO_SIDED|95.0|-0.166|0.66||Unadjusted association. A priori p value of .05 was selected for statistical significance.|Regression, Linear|Unadjusted||The cross-sectional association between amount of Stage 3 sleep and oral disposition index was analyzed.||0.66|-.166|.39
92165389|NCT01786564|184219201|OTHER|Unadjusted association. P value of .05 was selected a priori as statistical significance|Regression Coefficient|-0.058||||0.11|TWO_SIDED|95.0|-0.129|0.014||Unadjusted association. P value of .05 was selected a priori as statistical significance|Regression, Linear|Unadjusted association.||The cross-sectional association between amount of REM sleep and oral disposition index was analyzed.||.014|-.129|.11
92360222|NCT00023595|184625012|SUPERIORITY|||||||0.205||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.205
92360223|NCT00023595|184625012|SUPERIORITY|||||||0.017||||||12 months|Chi-squared|||||||0.017
92401877|NCT02977403|184694650|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.013|||||TWO_SIDED|95.0|-0.069|0.095||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.095|-0.069|
92401878|NCT02977403|184694650|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.085|||||TWO_SIDED|95.0|-0.216|0.047||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.047|-0.216|
92401879|NCT02977403|184694651|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.041|||||TWO_SIDED|95.0|-0.123|0.041||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.041|-0.123|
92401880|NCT02977403|184694651|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.096|||||TWO_SIDED|95.0|-0.213|0.021||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.021|-0.213|
92405781|NCT02085161|184701882|SUPERIORITY_OR_OTHER||Treatment ratio|1.051|STANDARD_ERROR_OF_MEAN|0.113||0.6452|TWO_SIDED|95.0|0.85|1.299||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM).|||1.299|0.850|0.6452
92165390|NCT03034915|184219202|OTHER||Mean Difference (Net)|0.066|STANDARD_ERROR_OF_MEAN|0.0118|<|0.001|TWO_SIDED|95.0|0.043|0.089|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 24.|||0.089|0.043|<0.001
92165391|NCT03034915|184219202|OTHER||Mean Difference (Net)|0.141|STANDARD_ERROR_OF_MEAN|0.0117|<|0.001|TWO_SIDED|95.0|0.118|0.164|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 24.|||0.164|0.118|<0.001
92360224|NCT00023595|184625012|SUPERIORITY|||||||0.028||||||24 months|Chi-squared|||||||0.028
92360225|NCT00023595|184625012|SUPERIORITY|||||||0.123||||||36 months|Chi-squared|||||||0.123
92360226|NCT00023595|184625013|SUPERIORITY|||||||0.19||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.19
92360227|NCT00023595|184625013|SUPERIORITY|||||||0.07||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.07
92360228|NCT00023595|184625013|SUPERIORITY|||||||0.94||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.94
92360229|NCT00023595|184625013|SUPERIORITY|||||||0.67||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.67
92360230|NCT00023595|184625013|SUPERIORITY|||||||0.44||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.44
92360231|NCT00023595|184625014|SUPERIORITY|||||||0.05||||||4 months|Chi-squared|P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.050
92360232|NCT00023595|184625014|SUPERIORITY|||||||0.006||||||12 months|Chi-squared|||||||0.006
92360233|NCT00023595|184625014|SUPERIORITY|||||||0.039||||||24 months|Chi-squared|||||||0.039
92360234|NCT00023595|184625014|SUPERIORITY|||||||0.074||||||36 months|Chi-squared|||||||0.074
92360235|NCT00023595|184625015|SUPERIORITY|||||||0.23||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.23
92360236|NCT00023595|184625015|SUPERIORITY|||||||0.43||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.43
92360237|NCT00023595|184625015|SUPERIORITY|||||||0.35||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.35
92360238|NCT00023595|184625015|SUPERIORITY|||||||0.9||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.90
92165392|NCT03034915|184219202|OTHER||Mean Difference (Net)|0.075|STANDARD_ERROR_OF_MEAN|0.0119|<|0.001|TWO_SIDED|95.0|0.051|0.098|||Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 24.|||0.098|0.051|<0.001
92223997|NCT03716869|184349371|SUPERIORITY||Odds Ratio (OR)|8.42|||<|0.001|TWO_SIDED|95.0|6.71|10.58|||Regression, Logistic||Test of interaction terms from mixed-effects logistic regression for subgroup analyses. Information above is sex x rand group interaction for identification of MDD symptoms among females. For males, OR 4.05 (95% CI 3.26-5.03).||"Sex x rand group interaction p=0.005 for SAP confirmation of need for follow-up.~Females 4.73 (3.19-7.02) Males 2.09 (1.38-3.16)~Sex x rand group interaction p=0.37 for treatment initiation. OR is not reported due to p\>0.05."|10.58|6.71|<0.001
92360239|NCT00023595|184625015|SUPERIORITY|||||||0.48||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.48
92360240|NCT00023595|184625016|SUPERIORITY|||||||0.085||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.085
92405782|NCT02085161|184701882|SUPERIORITY_OR_OTHER||Treatment ratio|1.071|STANDARD_ERROR_OF_MEAN|0.111||0.5048|TWO_SIDED|95.0|0.874|1.313||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM.|||1.313|0.874|0.5048
92360241|NCT00023595|184625016|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||0.007
92360242|NCT00023595|184625016|SUPERIORITY|||||||0.026||||||24 months|Chi-squared|||||||0.026
92165393|NCT03034915|184219203|OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.157||0.018|TWO_SIDED|95.0|0.06|0.68|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 24.|||0.68|0.06|0.018
92165394|NCT03034915|184219203|OTHER||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|0.155||0.004|TWO_SIDED|95.0|0.15|0.76|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 24.|||0.76|0.15|0.004
92165395|NCT03034915|184219203|OTHER||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.159||0.61|TWO_SIDED|95.0|-0.23|0.39|||Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 24|||0.39|-0.23|0.610
92360243|NCT00023595|184625016|SUPERIORITY|||||||0.085||||||36 months|Chi-squared|||||||0.085
92360244|NCT00023595|184625017|SUPERIORITY|||||||0.18||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.18
92360245|NCT00023595|184625017|SUPERIORITY|||||||0.17||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.17
92360246|NCT00023595|184625017|SUPERIORITY|||||||0.59||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.59
92360247|NCT00023595|184625017|SUPERIORITY|||||||0.78||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.78
92360248|NCT00023595|184625017|SUPERIORITY|||||||0.48||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.48
92360249|NCT00023595|184625018|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||<0.001
92360250|NCT00023595|184625018|SUPERIORITY||||||<|0.001||||||12 month|Chi-squared|||||||<0.001
92165396|NCT03034915|184219204|OTHER||Odds Ratio (OR)|1.43|||<|0.001|TWO_SIDED|95.0|1.17|1.75|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI vs UMEC at Week 24|||1.75|1.17|<0.001
92360251|NCT00023595|184625018|SUPERIORITY||||||<|0.001||||||24 months|Chi-squared|||||||<0.001
92360252|NCT00023595|184625018|SUPERIORITY|||||||0.018||||||36 months|Chi-squared|||||||0.018
92360253|NCT00023595|184625019|SUPERIORITY|||||||0.7||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.70
92360254|NCT00023595|184625019|SUPERIORITY|||||||0.47||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.47
92360255|NCT00023595|184625019|SUPERIORITY|||||||0.87||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.87
92360256|NCT00023595|184625019|SUPERIORITY|||||||0.84||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.84
92360257|NCT00023595|184625019|SUPERIORITY|||||||0.82||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.82
92360258|NCT00023595|184625020|SUPERIORITY|||||||0.023||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.023
92360259|NCT00023595|184625020|SUPERIORITY|||||||0.001||||||12 months|Chi-squared|||||||0.001
92360260|NCT00023595|184625020|SUPERIORITY|||||||0.077||||||24 months|Chi-squared|||||||0.077
92360261|NCT00023595|184625020|SUPERIORITY|||||||0.17||||||36 months|Chi-squared|||||||0.170
92360262|NCT00023595|184625021|SUPERIORITY|||||||0.63||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.63
92360263|NCT00023595|184625021|SUPERIORITY|||||||0.29||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.29
92360264|NCT00023595|184625021|SUPERIORITY|||||||0.68||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.68
92360265|NCT00023595|184625021|SUPERIORITY|||||||0.25||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.25
92360266|NCT00023595|184625021|SUPERIORITY|||||||0.68||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.68
92360267|NCT00023595|184625022|SUPERIORITY|||||||0.033||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.033
92360268|NCT00023595|184625022|SUPERIORITY|||||||0.002||||||12 months|Chi-squared|||||||0.002
92360269|NCT00023595|184625022|SUPERIORITY|||||||0.015||||||24 months|Chi-squared|||||||0.015
92360270|NCT00023595|184625022|SUPERIORITY|||||||0.051||||||36 months|Chi-squared|||||||0.051
92360271|NCT00023595|184625023|SUPERIORITY|||||||0.26||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.26
92360272|NCT00023595|184625023|SUPERIORITY|||||||0.23||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.23
92360273|NCT00023595|184625023|SUPERIORITY|||||||0.66||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.66
92360274|NCT00023595|184625023|SUPERIORITY|||||||0.98||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.98
92360275|NCT00023595|184625023|SUPERIORITY|||||||0.86||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.86
92360276|NCT00023595|184625024|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||<0.001
92360277|NCT00023595|184625024|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92360278|NCT00023595|184625024|SUPERIORITY|||||||0.006||||||24 months|Chi-squared|||||||0.006
92360279|NCT00023595|184625024|SUPERIORITY|||||||0.037||||||36 months|Chi-squared|||||||0.037
92360280|NCT00023595|184625025|SUPERIORITY|||||||0.53||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.53
92360281|NCT00023595|184625025|SUPERIORITY|||||||0.26||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.26
92360282|NCT00023595|184625025|SUPERIORITY|||||||0.76||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.76
92360283|NCT00023595|184625025|SUPERIORITY|||||||0.89||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.89
92360284|NCT00023595|184625025|SUPERIORITY|||||||0.89||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.89
92360285|NCT00023595|184625026|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||<0.001
92360286|NCT00023595|184625026|SUPERIORITY||||||<|0.001||||||12 months|Chi-squared|||||||<0.001
92360287|NCT00023595|184625026|SUPERIORITY||||||<|0.001||||||24 months|Chi-squared|||||||<0.001
92360288|NCT00023595|184625026|SUPERIORITY|||||||0.01||||||36 months|Chi-squared|||||||0.010
92360289|NCT00023595|184625027|SUPERIORITY|||||||0.01||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.01
92360290|NCT00023595|184625027|SUPERIORITY|||||||0.74||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.74
92360291|NCT00023595|184625027|SUPERIORITY|||||||0.77||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.77
92405783|NCT02085161|184701882|SUPERIORITY_OR_OTHER||Treatment ratio|1.184|STANDARD_ERROR_OF_MEAN|0.123||0.1066|TWO_SIDED|95.0|0.964|1.453||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM.|||1.453|0.964|0.1066
92165397|NCT03034915|184219204|OTHER||Odds Ratio (OR)|1.48|||<|0.001|TWO_SIDED|95.0|1.21|1.81|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus salmeterol at Week 24|||1.81|1.21|<0.001
92165398|NCT03034915|184219204|OTHER||Odds Ratio (OR)|1.03||||0.755|TWO_SIDED|95.0|0.84|1.27|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC versus salmeterol at Week 24.|||1.27|0.84|0.755
92165399|NCT03034915|184219205|OTHER||Mean Difference (Net)|-0.53|STANDARD_ERROR_OF_MEAN|0.213||0.013|TWO_SIDED|95.0|-0.95|-0.11|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 21 to Week 24|||-0.11|-0.95|0.013
92165400|NCT03034915|184219205|OTHER||Mean Difference (Net)|-0.83|STANDARD_ERROR_OF_MEAN|0.211|<|0.001|TWO_SIDED|95.0|-1.25|-0.42|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 21 to Week 24..|||-0.42|-1.25|<0.001
92165401|NCT03034915|184219205|OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.214||0.159|TWO_SIDED|95.0|-0.72|0.12|||Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 21 to Week 24|||0.12|-0.72|0.159
92165402|NCT03034915|184219206|OTHER||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.114||0.016|TWO_SIDED|95.0|-0.5|-0.05||E-RS Breathlessness Score|Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 21 to Week 24.|||-0.05|-0.50|0.016
92360292|NCT00023595|184625027|SUPERIORITY|||||||0.46||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.46
92360293|NCT00023595|184625027|SUPERIORITY|||||||0.27||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.27
92360294|NCT00023595|184625028|SUPERIORITY|||||||0.029||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.029
92360295|NCT00023595|184625028|SUPERIORITY|||||||0.042||||||12 months|Chi-squared|||||||0.042
92360296|NCT00023595|184625028|SUPERIORITY|||||||0.3||||||24 months|Chi-squared|||||||0.30
92360297|NCT00023595|184625028|SUPERIORITY|||||||0.2||||||36 months|Chi-squared|||||||0.20
92360298|NCT00023595|184625029|SUPERIORITY|||||||0.98||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.98
92360299|NCT00023595|184625029|SUPERIORITY|||||||0.16||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.16
92360300|NCT00023595|184625029|SUPERIORITY|||||||0.88||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.88
92360301|NCT00023595|184625029|SUPERIORITY|||||||0.95||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.95
92360302|NCT00023595|184625029|SUPERIORITY|||||||0.48||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.48
92360303|NCT00023595|184625030|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||<0.001
92360304|NCT00023595|184625030|SUPERIORITY||||||<|0.001||||||12 months|Chi-squared|||||||<0.001
92360305|NCT00023595|184625030|SUPERIORITY||||||<|0.001||||||24 months|Chi-squared|||||||<0.001
92360306|NCT00023595|184625030|SUPERIORITY|||||||0.001||||||36 months|Chi-squared|||||||0.001
92360307|NCT00023595|184625031|SUPERIORITY|||||||0.86||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.86
92360308|NCT00023595|184625031|SUPERIORITY|||||||0.39||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.39
92360309|NCT00023595|184625031|SUPERIORITY|||||||0.65||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.65
92360310|NCT00023595|184625031|SUPERIORITY|||||||0.15||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.15
92360311|NCT00023595|184625031|SUPERIORITY|||||||0.68||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.68
92360312|NCT00023595|184625032|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||<0.001
92360313|NCT00023595|184625032|SUPERIORITY||||||<|0.001||||||12 months|Chi-squared|||||||<0.001
92360314|NCT00023595|184625032|SUPERIORITY|||||||0.001||||||24 months|Chi-squared|||||||0.001
92360315|NCT00023595|184625032|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
92360316|NCT00023595|184625033|SUPERIORITY|||||||0.96||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.96
92360317|NCT00023595|184625033|SUPERIORITY|||||||0.53||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.53
92223998|NCT03716869|184349371|SUPERIORITY||Odds Ratio (OR)|8.65|||<|0.001|TWO_SIDED|95.0|6.58|11.35|||Regression, Logistic||Information above is for race/ethnicity x rand group interaction for identification of MDD symptoms for non-Hispanic white students. For non-Hispanic Black students OR 2.55 (95% CI 1.97-3.31), Hispanic 7.45 (4.98-11.17), other 12.41 (7.34-21.00).||"Race/ethnicity x rand group p=0.007 for SAP confirmation of need for follow-up. non-Hispanic white 2.24 (1.59-3.15) non-Hispanic Black 4.19 (2.03-8.65) Hispanic 10.15 (4.06-25.36) Other 12.22 (1.59-94.12)~Race/ethnicity x rand group interaction p=0.15 for treatment initiation. OR is not reported due to p\>0.05."|11.35|6.58|<0.001
92360318|NCT00023595|184625033|SUPERIORITY|||||||0.37||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.37
92360319|NCT00023595|184625033|SUPERIORITY|||||||0.78||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.78
92360320|NCT00023595|184625033|SUPERIORITY|||||||0.21||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.21
92360321|NCT00023595|184625034|SUPERIORITY|||||||0.007||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.007
92360322|NCT00023595|184625034|SUPERIORITY|||||||0.003||||||12 months|Chi-squared|||||||0.003
92360323|NCT00023595|184625034|SUPERIORITY|||||||0.023||||||24 months|Chi-squared|||||||0.023
92360324|NCT00023595|184625034|SUPERIORITY|||||||0.06||||||36 months|Chi-squared|||||||0.060
92360325|NCT00023595|184625035|SUPERIORITY|||||||0.31||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.31
92360326|NCT00023595|184625035|SUPERIORITY|||||||0.43||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.43
92360327|NCT00023595|184625035|SUPERIORITY|||||||0.57||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.57
92360328|NCT00023595|184625035|SUPERIORITY|||||||0.95||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.95
92360329|NCT00023595|184625035|SUPERIORITY|||||||0.38||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.38
92360330|NCT00023595|184625036|SUPERIORITY|||||||0.86||||||Baseline|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.86
92360331|NCT00023595|184625036|SUPERIORITY|||||||0.78||||||4 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.78
92360332|NCT00023595|184625036|SUPERIORITY|||||||0.55||||||12 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.55
92360333|NCT00023595|184625036|SUPERIORITY|||||||0.027||||||24 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.027
92360334|NCT00023595|184625036|SUPERIORITY|||||||0.031||||||36 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.031
92360335|NCT00023595|184625037|SUPERIORITY|||||||0.4||||||Baseline|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.40
92360336|NCT00023595|184625037|SUPERIORITY|||||||0.42||||||4 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.42
92360337|NCT00023595|184625037|SUPERIORITY|||||||0.41||||||12 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.41
92360338|NCT00023595|184625037|SUPERIORITY|||||||0.25||||||24 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.25
92360339|NCT00023595|184625037|SUPERIORITY|||||||0.25||||||36 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.25
92360340|NCT00023595|184625038|SUPERIORITY|||||||0.002||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.002
92360341|NCT00023595|184625038|SUPERIORITY|||||||0.007||||||12 months|Chi-squared|||||||0.007
92360342|NCT00023595|184625038|SUPERIORITY|||||||0.049||||||24 months|Chi-squared|||||||0.049
92360343|NCT00023595|184625038|SUPERIORITY|||||||0.038||||||36 months|Chi-squared|||||||0.038
92360344|NCT00023595|184625039|SUPERIORITY|||||||0.4||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.40
92360345|NCT00023595|184625039|SUPERIORITY|||||||0.37||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.37
92360346|NCT00023595|184625039|SUPERIORITY|||||||0.98||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.98
92360347|NCT00023595|184625039|SUPERIORITY|||||||0.15||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.15
92360348|NCT00023595|184625039|SUPERIORITY|||||||0.04||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.04
92360349|NCT00023595|184625040|SUPERIORITY|||||||0.036||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.036
92360350|NCT00023595|184625040|SUPERIORITY|||||||0.043||||||12 months|Chi-squared|||||||0.043
92360351|NCT00023595|184625040|SUPERIORITY|||||||0.018||||||24 months|Chi-squared|||||||0.018
92360352|NCT00023595|184625040|SUPERIORITY|||||||0.037||||||36 months|Chi-squared|||||||0.037
92360353|NCT00023595|184625041|SUPERIORITY|||||||0.75||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.75
92360354|NCT00023595|184625041|SUPERIORITY|||||||0.72||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.72
92360355|NCT00023595|184625041|SUPERIORITY|||||||0.77||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.77
92360356|NCT00023595|184625041|SUPERIORITY|||||||0.52||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.52
92360357|NCT00023595|184625041|SUPERIORITY|||||||0.12||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.12
92360358|NCT00023595|184625042|SUPERIORITY|||||||0.0002||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.0002
92360359|NCT00023595|184625042|SUPERIORITY||||||<|0.0001||||||12 months|Chi-squared|||||||<0.0001
92360360|NCT00023595|184625042|SUPERIORITY|||||||0.009||||||24 months|Chi-squared|||||||0.009
92360361|NCT00023595|184625042|SUPERIORITY|||||||0.32||||||36 months|Chi-squared|||||||0.32
92360362|NCT00023595|184625043|SUPERIORITY|||||||0.6||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.60
92360363|NCT00023595|184625043|SUPERIORITY|||||||0.14||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.14
92360364|NCT00023595|184625043|SUPERIORITY|||||||0.57||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.57
92360365|NCT00023595|184625043|SUPERIORITY|||||||0.15||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.15
92360366|NCT00023595|184625043|SUPERIORITY|||||||0.84||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.84
92223999|NCT03716869|184349371|SUPERIORITY||Odds Ratio (OR)|5.47||||0.006|TWO_SIDED|95.0|4.65|6.44|||Regression, Logistic||Information above is location x rand group interaction for identification of MDD symptoms among urban students. For rural students and identification of depressive symptoms OR 13.60 (95% CI 7.28-25.42).||"Location x rand group interaction p=0.27 for SAP confirmation of need for follow-up. OR is not reported due to p\>0.05.~Location x rand group interaction p=0.36 for treatment initiation. OR is not reported due to p\>0.05."|6.44|4.65|0.006
92360367|NCT00023595|184625044|SUPERIORITY||||||<|0.0001||||||Hospital costs|Wilcoxon (Mann-Whitney)|||||||<0.0001
92360368|NCT00023595|184625044|SUPERIORITY||||||<|0.0001||||||Physician fees|Wilcoxon (Mann-Whitney)|||||||<0.0001
92360369|NCT00023595|184625044|SUPERIORITY||||||<|0.0001||||||Total index cost|Wilcoxon (Mann-Whitney)|||||||<0.0001
92360370|NCT00023595|184625045|SUPERIORITY|||||||0.006||||||Hospital costs|Wilcoxon (Mann-Whitney)|||||||0.006
92360371|NCT00023595|184625045|SUPERIORITY||||||<|0.0001||||||Physician fees|Wilcoxon (Mann-Whitney)|||||||<0.0001
92360372|NCT00023595|184625045|SUPERIORITY|||||||0.004||||||Total index cost|Wilcoxon (Mann-Whitney)|||||||0.004
92360373|NCT02106832|184625054|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7062||||0.0511|TWO_SIDED|99.9|0.3928|1.2698|||Wald-type test|||The hazard ratio for time to first exacerbation event within 48 weeks and 99.9% Confidence Interval (CI) was calculated by using Cox proportional hazards model by comparison of Cipro 28/Pooled Placebo reporting groups. P-value was analysed using Wald-type test.||1.2698|0.3928|0.0511
92360374|NCT02106832|184625062|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8662||||0.3965|TWO_SIDED|95.1|0.6206|1.209|||Wald-type test|||The hazard ratio for time to first exacerbation event within 48 weeks and 95.1% Confidence Interval (CI) was calculated by using Cox proportional hazards model by comparison of Cipro 28/Pooled Placebo reporting groups. P-value was analysed using Wald-type test.||1.2090|0.6206|0.3965
92360375|NCT00608062|184625066|OTHER|Repeated measurements of FMD were modeled using a general linear mixed model with maximum likelihood estimation. An unstructured covariance structure allowing for heterogeneity in the parameter estimate for each level of menopause stage was chosen for the model based on using AIC to compare various covariance structures.||||||0.05|||||||Mixed Models Analysis|||||||0.05
92360376|NCT00608062|184625068|OTHER|Similar analyses as primary outcome||||||0.05|||||||Mixed Models Analysis|||||||0.05
92360377|NCT00608062|184625069|OTHER|same analysis as primary outcome||||||0.05|||||||Mixed Models Analysis|||||||0.05
92405784|NCT02085161|184701883|SUPERIORITY_OR_OTHER||LSMean Difference|0.329|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.255|0.403||Mixed effect Model Repeat Measurement (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||0.403|0.255|<0.0001
92360378|NCT01467466|184625082|SUPERIORITY||Odds Ratio (OR)|0.95||||0.7|TWO_SIDED|95.0|0.73|1.24|||Wald's Chi-Square|||||1.24|0.73|0.70
92360379|NCT01467466|184625083|SUPERIORITY||Odds Ratio (OR)|1.02||||0.86|TWO_SIDED|95.0|0.78|1.34|||Wald's Chi-Square|||||1.34|0.78|0.86
92360380|NCT00330733|184625100|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||t-test, 2 sided|||Paired comparisons (follow-up vs baseline) and unpaired group comparisons were performed by Student's t tests or Wilcoxon signed rank tests.||||<0.05
92360381|NCT01979185|184625143|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios fell within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|0.632|||||TWO_SIDED|90.0|0.538|0.744|||Mixed-effects Model|||The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects, and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in pharmacokinetic parameters, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||0.744|0.538|
92360382|NCT01979185|184625144|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios fell within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|0.63|||||TWO_SIDED|90.0|0.543|0.73|||Mixed-effects Model|||The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects, and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in pharmacokinetic parameters, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||0.730|0.543|
92360383|NCT01979185|184625145|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios fell within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|0.594|||||TWO_SIDED|90.0|0.526|0.672|||Mixed-effects Model|||The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects, and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in pharmacokinetic parameters, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||0.672|0.526|
92360384|NCT06028464|184625165|OTHER||Adjusted geometric mean ratio (%)|36.48|||||TWO_SIDED|90.0|31.96|41.64|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 21.9|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||41.64|31.96|
92401881|NCT02977403|184694652|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.038|||||TWO_SIDED|95.0|-0.142|0.066||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.066|-0.142|
92401882|NCT02977403|184694652|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.096|||||TWO_SIDED|95.0|-0.29|0.097||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.097|-0.290|
92401883|NCT02977403|184694653|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.023|||||TWO_SIDED|95.0|-0.105|0.059||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.059|-0.105|
92401884|NCT02977403|184694653|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.124|||||TWO_SIDED|95.0|-0.277|0.029||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.029|-0.277|
92401885|NCT02977403|184694654|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.057|||||TWO_SIDED|95.0|-0.14|0.027||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.027|-0.140|
92401886|NCT02977403|184694654|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.161|||||TWO_SIDED|95.0|-0.302|-0.02||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.020|-0.302|
92401887|NCT02977403|184694655|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.0002|||||TWO_SIDED|95.0|-0.091|0.091||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.091|-0.091|
92165403|NCT03034915|184219206|OTHER||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|0.113|<|0.001|TWO_SIDED|95.0|-0.68|-0.23||E-RS Breathlessness Score|Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 21 to Week 24.|||-0.23|-0.68|<0.001
92165404|NCT03034915|184219206|OTHER||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.115||0.115|TWO_SIDED|95.0|-0.41|0.04||E-RS Breathlessness Score|Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 21 to Week 24.|||0.04|-0.41|0.115
92165405|NCT03034915|184219206|OTHER||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.063||0.247|TWO_SIDED|95.0|-0.2|0.05||E-RS Cough and Sputum Score|Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 21 to Week 24.|||0.05|-0.20|0.247
92165406|NCT03034915|184219206|OTHER||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.063||0.042|TWO_SIDED|95.0|-0.25|0.0||E-RS Cough and Sputum Score|Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 21 to Week 24.|||0.00|-0.25|0.042
92165407|NCT03034915|184219206|OTHER||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.063||0.391|TWO_SIDED|95.0|-0.18|0.07||E-RS Cough and Sputum Score|Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 21 to Week 24.|||0.07|-0.18|0.391
92401888|NCT02977403|184694655|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.004|||||TWO_SIDED|95.0|-0.157|0.149||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.149|-0.157|
92401889|NCT02977403|184694656|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.01|||||TWO_SIDED|95.0|-0.092|0.071||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.071|-0.092|
92401890|NCT02977403|184694656|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.029|||||TWO_SIDED|95.0|-0.126|0.183||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.183|-0.126|
92401891|NCT02977403|184694657|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.013|||||TWO_SIDED|95.0|-0.101|0.076||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.076|-0.101|
92401892|NCT02977403|184694657|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.106|||||TWO_SIDED|95.0|-0.273|0.06||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.060|-0.273|
92401893|NCT02977403|184694658|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.033|||||TWO_SIDED|95.0|-0.11|0.043||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.043|-0.110|
92401894|NCT02977403|184694658|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.166|||||TWO_SIDED|95.0|-0.335|0.003||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.003|-0.335|
92405785|NCT02085161|184701883|SUPERIORITY_OR_OTHER||LSMean Difference|0.356|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.282|0.429||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||0.429|0.282|<0.0001
92165408|NCT03034915|184219206|OTHER||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.014|TWO_SIDED|95.0|-0.31|-0.04||E-RS Chest Symptoms Score|Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 21 to Week 24|||-0.04|-0.31|0.014
92165409|NCT03034915|184219206|OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.069|<|0.001|TWO_SIDED|95.0|-0.37|-0.1||E-RS Chest Symptoms Score|Mixed model repeated measures||LS Mean difference comapring UMEC/VI versus salmeterol at Week 21 to Week 24.|||-0.10|-0.37|<0.001
92165410|NCT03034915|184219206|OTHER||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.07||0.34|TWO_SIDED|95.0|-0.2|0.07||E-RS Chest Symptoms Score|Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 21 to Week 24.|||0.07|-0.20|0.340
92165411|NCT03034915|184219207|OTHER||Odds Ratio (OR)|1.52|||<|0.001|TWO_SIDED|95.0|1.22|1.89|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI vs UMEC at Week 21 to Week 24|||1.89|1.22|<0.001
92165412|NCT03034915|184219207|OTHER||Odds Ratio (OR)|1.53|||<|0.001|TWO_SIDED|95.0|1.23|1.9|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus salmeterol at Week 21 to Week 24.|||1.90|1.23|<0.001
92165413|NCT03034915|184219207|OTHER||Odds Ratio (OR)|1.0||||0.969|TWO_SIDED|95.0|0.8|1.26|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC versus salmeterol at Week 21 to Week 24.|||1.26|0.80|0.969
92401895|NCT02977403|184694659|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.011|||||TWO_SIDED|95.0|-0.069|0.091||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.091|-0.069|
92401896|NCT02977403|184694659|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.167|||||TWO_SIDED|95.0|-0.332|-0.002||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.002|-0.332|
92401897|NCT02977403|184694660|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.054|||||TWO_SIDED|95.0|-0.037|0.146||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.146|-0.037|
92401898|NCT02977403|184694660|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.019|||||TWO_SIDED|95.0|-0.127|0.09||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.090|-0.127|
92401899|NCT02977403|184694661|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.002|||||TWO_SIDED|95.0|-0.061|0.065||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.065|-0.061|
92401900|NCT02977403|184694661|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.086|||||TWO_SIDED|95.0|-0.215|0.042||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.042|-0.215|
92405786|NCT02085161|184701883|SUPERIORITY_OR_OTHER||LSMean Difference|0.174|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.099|0.249||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||0.249|0.099|<0.0001
92165414|NCT03034915|184219208|OTHER||Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.672||0.709|TWO_SIDED|95.0|-1.07|1.57|||mixed model repeated measure||LS Mean difference comparing UMEC/VI versus UMEC at Week 24.|||1.57|-1.07|0.709
92165415|NCT03034915|184219208|OTHER||Mean Difference (Net)|-1.69|STANDARD_ERROR_OF_MEAN|0.665||0.011|TWO_SIDED|95.0|-2.99|-0.39|||mixed model repeated measure||LS Mean difference comparing UMEC/VI versus salmeterol at Week 24.|||-0.39|-2.99|0.011
92165416|NCT03034915|184219208|OTHER||Mean Difference (Net)|-1.94|STANDARD_ERROR_OF_MEAN|0.678||0.004|TWO_SIDED|95.0|-3.27|-0.61|||mixed model repeated measure||LS Mean difference comparing UMEC versus salmeterol at Week 24.|||-0.61|-3.27|0.004
92165417|NCT03034915|184219209|OTHER||Odds Ratio (OR)|1.21||||0.063|TWO_SIDED|95.0|0.99|1.48|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus UMEC at Week 24.|||1.48|0.99|0.063
92165418|NCT03034915|184219209|OTHER||Odds Ratio (OR)|1.49|||<|0.001|TWO_SIDED|95.0|1.22|1.83|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus salmeterol at Week 24.|||1.83|1.22|<0.001
92165419|NCT03034915|184219209|OTHER||Odds Ratio (OR)|1.23||||0.045|TWO_SIDED|95.0|1.0|1.51|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC versus salmeterol at Week 24.|||1.51|1.00|0.045
92360385|NCT06028464|184625166|OTHER||Adjusted geometric mean ratio (%)|56.44|||||TWO_SIDED|90.0|45.11|70.6|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 37.9.|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||70.60|45.11|
92165420|NCT03034915|184219210|OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.891|TWO_SIDED|95.0|-0.6|0.6|||mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 24.|||0.6|-0.6|0.891
92360386|NCT06028464|184625167|OTHER||Adjusted geometric mean ratio (%)|36.5|||||TWO_SIDED|90.0|31.91|41.74|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 22.3.|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||41.74|31.91|
92360387|NCT03330847|184625171|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.9403|TWO_SIDED|90.0|0.63|1.66|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib monotherapy.|Patient Population BRCAm||1.66|0.63|0.9403
92360388|NCT03330847|184625171|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9282|TWO_SIDED|90.0|0.52|1.88|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib monotherapy.|Patient Population BRCAm||1.88|0.52|0.9282
92360389|NCT03330847|184625171|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.1274|TWO_SIDED|90.0|0.28|1.03|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + ceralasertib.|Patient Population Non BRCAm HRRm||1.03|0.28|0.1274
92360390|NCT03330847|184625171|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.2956|TWO_SIDED|90.0|0.23|1.26|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + adavosertib.|Patient Population Non BRCAm HRRm||1.26|0.23|0.2956
92360391|NCT03330847|184625171|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.2959|TWO_SIDED|90.0|0.5|1.14|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + ceralasertib.|Patient Population Non HRRm||1.14|0.50|0.2959
92360392|NCT03330847|184625171|SUPERIORITY||Hazard Ratio (HR)|0.48||||0.0193|TWO_SIDED|90.0|0.28|0.8|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + adavosertib.|Patient Population Non HRRm||0.80|0.28|0.0193
92360393|NCT03330847|184625172|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.6147|TWO_SIDED|90.0|0.53|1.39|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + ceralasertib.|Patient Population BRCAm||1.39|0.53|0.6147
92360394|NCT03330847|184625172|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.7879|TWO_SIDED|90.0|0.48|1.68|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + adavosertib.|Patient Population BRCAm||1.68|0.48|0.7879
92165421|NCT03034915|184219210|OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.074|TWO_SIDED|95.0|-1.1|0.1|||mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 24.|||0.1|-1.1|0.074
92276705|NCT00433381|184454885|OTHER|||||||||||||||||Null hypothesis: 35% discontinuation rate of bevacizumab and temozolomide. Alternative hypothesis: 5%. Type I and II error rates = 0.10. Sample size = 29.|The determination of treatment tolerability was to be made based on the following rules: If 6 or fewer of the cases (6/29=20.6%) stop treatment due to medical conditions, then reject the null hypothesis that the discontinuation rate is at least 35% and conclude tolerability. If 7 or more of the cases (7/29=24.1%) stop treatment due to medical conditions, then reject the alternative hypothesis that the discontinuation rate no more than 15%.|||
92360395|NCT03330847|184625172|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.3695|TWO_SIDED|90.0|0.38|1.31|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + ceralasertib.|Patient Population Non BRCAm HRRm||1.31|0.38|0.3695
92360396|NCT03330847|184625172|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.4586|TWO_SIDED|90.0|0.29|1.58|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + adavosertib.|Patient Population Non BRCAm HRRm||1.58|0.29|0.4586
92360397|NCT03330847|184625172|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.7452|TWO_SIDED|90.0|0.61|1.31|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + ceralasertib.|Patient Population Non HRRm||1.31|0.61|0.7452
92401901|NCT02977403|184694662|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.032|||||TWO_SIDED|95.0|-0.05|0.115||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.115|-0.05|
92165422|NCT03034915|184219210|OTHER||Odds Ratio (OR)|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.107|TWO_SIDED|95.0|-1.1|0.1|||mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 24.|||0.1|-1.1|0.107
92401902|NCT02977403|184694662|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.095|||||TWO_SIDED|95.0|-0.248|0.058||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.058|-0.248|
92401903|NCT02977403|184694663|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.016|||||TWO_SIDED|95.0|-0.075|0.042||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.042|-0.075|
92401904|NCT02977403|184694663|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.025|||||TWO_SIDED|95.0|-0.13|0.18||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.180|-0.130|
92401905|NCT02977403|184694664|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.03|||||TWO_SIDED|95.0|-0.039|0.099||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).||||Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.099|-0.039|
92401906|NCT02977403|184694664|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.143|||||TWO_SIDED|95.0|-0.335|0.049||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.049|-0.335|
92401907|NCT02977403|184694665|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.016|||||TWO_SIDED|95.0|-0.097|0.066||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.066|-0.097|
92165423|NCT03034915|184219211|OTHER||Odds Ratio (OR)|1.35||||0.003|TWO_SIDED|95.0|1.11|1.65|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus UMEC at Week 24.|||1.65|1.11|0.003
92165424|NCT03034915|184219211|OTHER||Odds Ratio (OR)|1.23||||0.037|TWO_SIDED|95.0|1.01|1.5|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus salmeterol at Week 24.|||1.50|1.01|0.037
92165425|NCT03034915|184219211|OTHER||Odds Ratio (OR)|0.91||||0.363|TWO_SIDED|95.0|0.75|1.11|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC versus salmeterol at Week 24.|||1.11|0.75|0.363
92165426|NCT02138006|184219213|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Log Rank|||||||0.30
92165427|NCT01188499|184219215|SUPERIORITY_OR_OTHER||Percent|100.0|||||TWO_SIDED||||||||Primary objective of safety and tolerability measured by percent participants experiencing at least one adverse event. No formal statistics performed.|||||
92165428|NCT01188499|184219216|SUPERIORITY_OR_OTHER||Percent|10.0|||||TWO_SIDED||||||||Percent patients overall across all five arms demonstrating complete or partial response by RECIST. No formal statistics performed.|||||
92165429|NCT00424762|184219218|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||powered to detect at least 33% difference between groups||||>0.05
92360398|NCT03330847|184625172|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.1185|TWO_SIDED|90.0|0.37|1.0|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + adavosertib.|Patient Population Non HRRm||1.00|0.37|0.1185
92360399|NCT01346592|184625188|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (H1N1 strain)|2.44|||||TWO_SIDED|97.6|2.06|2.9||||||||2.9|2.06|
92360400|NCT01346592|184625188|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (H3N2 strain)|1.89|||||TWO_SIDED|97.6|1.69|2.1||||||||2.1|1.69|
92360401|NCT01346592|184625188|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (B strain)|3.07|||||TWO_SIDED|97.6|2.66|3.54||||||||3.54|2.66|
92401908|NCT02977403|184694665|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.162|||||TWO_SIDED|95.0|-0.314|-0.01||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.01|-0.314|
92401909|NCT02977403|184694666|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.053|||||TWO_SIDED|95.0|-0.051|0.156||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.156|-0.051|
92401910|NCT02977403|184694666|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.07|||||TWO_SIDED|95.0|-0.251|0.111||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.111|-0.251|
92401911|NCT02977403|184694667|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.015|||||TWO_SIDED|95.0|-0.061|0.091||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.091|-0.061|
92401912|NCT02977403|184694667|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.108|||||TWO_SIDED|95.0|-0.26|0.044||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.044|-0.260|
92405787|NCT02085161|184701883|SUPERIORITY_OR_OTHER||LSMean Difference|-0.027|STANDARD_ERROR_OF_MEAN|0.037||0.4677|TWO_SIDED|95.0|-0.099|0.045||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||0.045|-0.099|0.4677
92360402|NCT01346592|184625188|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (H1N1 strain)|3.2|||||TWO_SIDED|97.6|2.7|3.8||||||||3.8|2.7|
92165430|NCT00424762|184219219|SUPERIORITY_OR_OTHER|||||||0.26|||||||t-test, 2 sided|||powered to detect difference of at least 10% between groups||||0.26
92165431|NCT00424762|184219220|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Chi-squared|||comparative incidence||||0.03
92165432|NCT03506880|184219345|SUPERIORITY||Mean Difference (Final Values)|0.17|||>|0.05|TWO_SIDED||||||Tukey's Post-Hoc||Estimation parameter used to determine significance between mean values in MADD, SG, and AC group.|It was hypothesized that drinking would increase from baseline to 12-month follow-up for those in the AC, but not for those in the SG and MADD conditions.||||>0.05
92276706|NCT00433381|184454886|OTHER|Receiver Operating Characteristic (ROC) analysis|Area Under the Curve (AUC)|0.5|||||TWO_SIDED|95.0|0.09|0.91||||||Accuracy estimate, as measured by the Area under the Curve (AUC), for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cho at 2 weeks||0.91|0.09|
92360403|NCT01346592|184625188|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (H3N2 strain)|2.38|||||TWO_SIDED|97.6|2.14|2.65||||||||2.65|2.14|
92360404|NCT01346592|184625188|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (B strain)|3.14|||||TWO_SIDED|97.6|2.72|3.62||||||||3.62|2.72|
92360405|NCT01346592|184625189|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \>-10%.|Group difference (H1N1 strain)|9.09|||||TWO_SIDED|97.6|5.48|12.69||||||||12.69|5.48|
92360406|NCT01346592|184625189|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \>-10%|Group difference (H3N2 strain)|4.07|||||TWO_SIDED|97.6|1.58|6.55||||||||6.55|1.58|
92360407|NCT01346592|184625189|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \> -10%|Group difference (B strain)|11.82|||||TWO_SIDED|97.6|8.72|14.92||||||||14.92|8.72|
92360408|NCT01346592|184625189|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \> -10%|Group difference (H1N1 strain)|14.21|||||TWO_SIDED|97.6|10.3|18.13||||||||18.13|10.3|
92360409|NCT01346592|184625189|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \> -10%|Group difference (H3N2 strain)|7.31|||||TWO_SIDED|97.6|4.47|10.14||||||||10.14|4.47|
92360410|NCT01346592|184625189|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \> -10%|Group difference (B strain)|11.1|||||TWO_SIDED|97.6|8.11|14.1||||||||14.1|8.11|
92360411|NCT01346592|184625190|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 GMT group ratios was \>0.667|Group ratio (H1N1 strain)|0.76|||||TWO_SIDED|97.4|0.62|0.93||||||||0.93|0.62|
92360412|NCT01346592|184625190|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 GMT group ratios was \>0.667|GMT ratio (H3N2 strain)|0.77|||||TWO_SIDED|97.4|0.68|0.86||||||||0.86|0.68|
92401913|NCT02977403|184694668|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.036|||||TWO_SIDED|95.0|-0.047|0.119||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.119|-0.047|
92165433|NCT03506880|184219346|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.01|TWO_SIDED||||||Tukey's Post-Hoc||Estimation parameter used to determine significance between mean values in MADD, SG, and AC group.|It was also hypothesized that teens in the SG and MADD conditions would report significantly more declining rides with impaired drivers than those in the AC group.||||<0.01
92165434|NCT03506880|184219347|SUPERIORITY||Mean Difference (Final Values)|0.06|||>|0.01|TWO_SIDED||||||Tukey's Post-Hoc||Estimation parameter used to determine significance between mean values in MADD, SG, and AC group.|It was hypothesized that participants in the MADD and SG groups would be significantly less willing to ride in a car with an impaired driver than those in the AC group.||||>0.01
92165435|NCT02547922|184219348|SUPERIORITY||Geometric Mean Ratio|1.031||||0.9052|TWO_SIDED|95.0|0.621|1.713||The p-values presented are unadjusted and was compared with the respective adjusted significance level (α). If α is not displayed, no formal testing can be performed and the corresponding p-value was nominal.|Mixed Models Analysis||Geometric mean ratio \>1 favours placebo.|The model includes fixed effects for treatment group, visit, stratification factors, log-transformed 24-hour UPCR at baseline, and treatment-by-visit interaction. All data up to and including the date of discontinuation of study treatment were included in the analysis.||1.713|0.621|0.9052
92276707|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|0.54|||||TWO_SIDED|95.0|0.14|0.95||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor Cho/Cr at 2 weeks||0.95|0.14|
92360413|NCT01346592|184625190|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 GMT group ratios was \>0.667|GMT ratio (B strain)|0.94|||||TWO_SIDED|97.4|0.8|1.11||||||||1.11|0.8|
92360414|NCT01346592|184625191|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group differences was \> -10%|Group difference (H1N1 strain)|-5.3|||||TWO_SIDED|97.4|-10.13|-0.47||||||||-0.47|-10.13|
92360415|NCT01346592|184625191|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group differences was \> -10%|Group difference (H3N2 strain)|-2.84|||||TWO_SIDED|97.4|-6.16|0.5||||||||0.5|-6.16|
92360416|NCT01346592|184625191|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group differences was \> -10%|Group difference (B strain)|-2.49|||||TWO_SIDED|97.4|-7.01|2.0||||||||2|-7.01|
92360417|NCT01346592|184625192|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|3.63|||||TWO_SIDED|95.0|2.86|4.6||||||Superiority was concluded if the lower limit of the confidence interval for the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||4.6|2.86|
92360418|NCT01346592|184625192|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|2.25|||||TWO_SIDED|95.0|1.96|2.59||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||2.59|1.96|
92224000|NCT01789814|184349375|SUPERIORITY_OR_OTHER|||||||0.001||||||Prasugrel treatment when compared to Clopidogrel was associated with significant reduction in platelets aggregation for all plateles agonist (ADD, SFFFLRN, AYPGKF) at all measured time points.|t-test, 2 sided|||Each patient will have paired samples representing their baseline as well as an on-drug sample. The magnitude of platelet inhibition for each studied agonist will be performed utilizing mean maximal change from baseline in light transmission aggregometry. The paired samples will be analyzed using a two-tailed student's t-test. Statistical significance will be assumed to occur when p\<0.05.||||0.001
92360419|NCT01346592|184625192|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|4.64|||||TWO_SIDED|95.0|3.86|5.59||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||5.59|3.86|
92360420|NCT01346592|184625192|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|5.28|||||TWO_SIDED|95.0|4.16|6.7||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||6.7|4.16|
92360421|NCT01346592|184625192|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|3.1|||||TWO_SIDED|95.0|2.69|3.56||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||3.56|2.69|
92360422|NCT01346592|184625192|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|4.64|||||TWO_SIDED|95.0|3.86|5.59||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||5.59|3.86|
92360423|NCT01346592|184625193|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|10.4|||||TWO_SIDED|95.0|6.1|14.7||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||14.7|6.1|
92360424|NCT01346592|184625193|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|2.5|||||TWO_SIDED|95.0|-0.12|5.1||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||5.1|-0.12|
92360425|NCT01346592|184625193|SUPERIORITY_OR_OTHER||Group difference (B strain)|12.8|||||TWO_SIDED|95.0|8.9|16.7||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||16.7|8.9|
92360426|NCT01346592|184625193|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|17.7|||||TWO_SIDED|95.0|12.9|22.6||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||22.6|12.9|
92360427|NCT01346592|184625193|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|5.6|||||TWO_SIDED|95.0|2.5|8.7||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||8.7|2.5|
92360428|NCT01346592|184625193|SUPERIORITY_OR_OTHER||Group difference (B strain)|18.8|||||TWO_SIDED|95.0|14.4|23.1||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||23.1|14.4|
92360429|NCT01346592|184625194|SUPERIORITY_OR_OTHER||GMT Ratio (H1N1 strain)|2.38|||||TWO_SIDED|95.0|2.07|2.75||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||2.75|2.07|
92360430|NCT01346592|184625194|SUPERIORITY_OR_OTHER||GMT Ratio (H3N2 strain)|1.88|||||TWO_SIDED|95.0|1.72|2.06||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||2.06|1.72|
92360431|NCT01346592|184625194|SUPERIORITY_OR_OTHER||GMT Ratio (B strain)|2.93|||||TWO_SIDED|95.0|2.6|3.3||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||3.3|2.6|
92224001|NCT01077973|184349385|SUPERIORITY_OR_OTHER||Least-square (LS) mean difference|-1.12||||0.299|TWO_SIDED|95.0|-3.23|1.0||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR), gender and treatment-by-baseline PSR terms.|ANOVA|||Treatment difference (Ibuprofen sodium-placebo) and 95 percent (%) confidence interval (CI): based on LS means from analysis of variance (ANOVA). Type I error was controlled at 0.05 significance level (2-sided) by stating pair wise comparisons significant only if overall treatment effect among 3 treatment groups was significant and testing in a sequential order Ibuprofen sodium versus (vs.) placebo for SPRID 0-3 then Ibuprofen sodium vs. Ibuprofen (Motrin IB) for time to meaningful relief.||1.00|-3.23|0.299
92360432|NCT01346592|184625194|SUPERIORITY_OR_OTHER||GMT Ratio (H1N1 strain)|3.21|||||TWO_SIDED|95.0|2.79|3.71||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||3.71|2.79|
92360433|NCT01346592|184625194|SUPERIORITY_OR_OTHER||GMT Ratio (H3N2 strain)|2.4|||||TWO_SIDED|95.0|2.19|2.62||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||2.62|2.19|
92360434|NCT01346592|184625194|SUPERIORITY_OR_OTHER||GMT Ratio (B strain)|3.08|||||TWO_SIDED|95.0|2.73|3.47||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||3.47|2.73|
92360435|NCT01346592|184625195|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|9.3|||||TWO_SIDED|95.0|6.3|12.4||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||12.4|6.3|
92360436|NCT01346592|184625195|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|3.9|||||TWO_SIDED|95.0|1.8|5.9||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||5.9|1.8|
92360437|NCT01346592|184625195|SUPERIORITY_OR_OTHER||Group difference (B strain)|10.7|||||TWO_SIDED|95.0|8.1|13.3||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||13.3|8.1|
92360438|NCT01346592|184625195|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|14.4|||||TWO_SIDED|95.0|11.1|17.7||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||17.7|11.1|
92224002|NCT01077973|184349386|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.193|TWO_SIDED|95.0|0.52|1.14||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Hazard Ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model. Type I error was controlled at 0.05 significance level (2-sided) by stating pair wise comparisons significant only if overall treatment effect among 3 treatment groups was significant and testing in a sequential order Ibuprofen sodium vs. placebo for SPRID 0-3 then Ibuprofen sodium vs. Ibuprofen (Motrin IB) for time to meaningful relief.||1.14|0.52|0.193
92224003|NCT01077973|184349387|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.304|TWO_SIDED|95.0|0.5|1.24||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.24|0.50|0.304
92224004|NCT01077973|184349387|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.936|TWO_SIDED|95.0|0.65|1.59||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.59|0.65|0.936
92224005|NCT01077973|184349388|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.072|TWO_SIDED|95.0|0.41|1.04||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.04|0.41|0.072
92360439|NCT01346592|184625195|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|6.8|||||TWO_SIDED|95.0|4.5|9.1||||||superiority was concluded if the lower bound of 95% CI of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||9.1|4.5|
92224006|NCT01077973|184349388|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.652|TWO_SIDED|95.0|0.58|1.41||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.41|0.58|0.652
92360440|NCT01346592|184625195|SUPERIORITY_OR_OTHER||Group difference (B strain)|10.9|||||TWO_SIDED|95.0|8.3|13.4||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||13.4|8.3|
92360441|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT Ratio (H1N1 strain)|2.68|||||TWO_SIDED|95.0|2.3|3.12||||||No risk subjects.||3.12|2.3|
92360442|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT Ratio (H3N2 strain)|1.87|||||TWO_SIDED|95.0|1.7|2.05||||||No risk subjects.||2.05|1.7|
92360443|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.04|||||TWO_SIDED|95.0|2.68|3.44||||||No risk subjects.||3.44|2.68|
92360444|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.21|||||TWO_SIDED|95.0|1.11|4.42||||||At risk subjects.||4.42|1.11|
92224007|NCT01077973|184349388|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.108|TWO_SIDED|95.0|0.49|1.07||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.07|0.49|0.108
92224008|NCT01077973|184349389|SUPERIORITY_OR_OTHER||LS mean difference|-0.19||||0.402|TWO_SIDED|95.0|-0.65|0.26||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.26|-0.65|0.402
92360445|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.45|||||TWO_SIDED|95.0|1.61|3.72||||||At risk subjects.||3.72|1.61|
92360446|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.46|||||TWO_SIDED|95.0|1.88|6.34||||||At risk subjects||6.34|1.88|
92360447|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratios (H1N1 strain)|3.52|||||TWO_SIDED|95.0|3.03|4.1||||||No risk subjects.||4.1|3.03|
92360448|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.36|||||TWO_SIDED|95.0|2.15|2.59||||||No risk subjects.||2.59|2.15|
92224009|NCT01077973|184349389|SUPERIORITY_OR_OTHER||LS mean difference|-0.19||||0.407|TWO_SIDED|95.0|-0.64|0.26||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.26|-0.64|0.407
92276708|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|0.46|||||TWO_SIDED|95.0|0.0|0.99||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cr at 2 weeks||0.99|0|
92276709|NCT00433381|184454886|OTHER||Area Under the Curve (AUC)|0.85|||||TWO_SIDED|95.0|0.53|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cho at 8 weeks||1|0.53|
92165436|NCT02547922|184219349|SUPERIORITY||Difference in estimates|-0.08||||0.9929|TWO_SIDED|95.0|-16.92|16.76||At Week 52, the p-values presented are unadjusted and will be compared to the respective adjusted significance level (α). If α is not displayed no formal testing can be performed and the corresponding p-value is nominal.|Cochran-Mantel-Haenszel|||The statistical analysis represents the estimated percentage of responders. The responder/non-responder rates (percentages), the difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach.||16.76|-16.92|0.9929
92276710|NCT00433381|184454886|OTHER||Area Under the Curve (AUC)|0.83|||||TWO_SIDED|95.0|0.47|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor Cho/Cr at 8 weeks||1|0.47|
92360449|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.14|||||TWO_SIDED|95.0|2.78|3.56||||||No risk subjects.||3.56|2.78|
92360450|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.7|||||TWO_SIDED|95.0|1.28|5.68||||||At risk subjects.||5.68|1.28|
92360451|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|3.25|||||TWO_SIDED|95.0|2.09|5.06||||||At risk subjects.||5.06|2.09|
92360452|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|2.76|||||TWO_SIDED|95.0|1.44|5.3||||||At risk subjects.||5.3|1.44|
92360453|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.81|||||TWO_SIDED|95.0|2.34|3.37||||||No risk subjects.||3.37|2.34|
92360454|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.04|||||TWO_SIDED|95.0|1.83|2.28||||||No risk subjects.||2.28|1.83|
92360455|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.74|||||TWO_SIDED|95.0|3.22|4.34||||||No risk subjects||4.34|3.22|
92360456|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.34|||||TWO_SIDED|95.0|0.92|6.0||||||At risk subjects.||6|0.92|
92360457|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.93|||||TWO_SIDED|95.0|1.57|5.45||||||At risk subjects.||5.45|1.57|
92360458|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|5.55|||||TWO_SIDED|95.0|2.52|12.0||||||At risk subjects||12|2.52|
92360459|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|3.66|||||TWO_SIDED|95.0|3.05|4.39||||||No risk subjects.||4.39|3.05|
92360460|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.68|||||TWO_SIDED|95.0|2.4|2.99||||||No risk subjects||2.99|2.4|
92360461|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.97|||||TWO_SIDED|95.0|3.42|4.61||||||No risk subjects.||4.61|3.42|
92360462|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.72|||||TWO_SIDED|95.0|1.02|7.31||||||At risk subjects.||7.31|1.02|
92360463|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|3.5|||||TWO_SIDED|95.0|1.85|6.62||||||At risk subjects.||6.62|1.85|
92165437|NCT02709655|184219354|OTHER||Mean Difference (Final Values)|-2.09|STANDARD_ERROR_OF_MEAN|1.24||0.0937|TWO_SIDED|95.0|-4.54|0.36|||Mixed Models Analysis|||Analysis was performed using an REML-based MMRM approach with freely varying mean and covariance structure and with country, treatment (vortioxetine 10 mg/day, vortioxetine 20 mg/day, fluoxetine, and placebo), and Week as fixed factors and Baseline CDRS-R total score as a continuous covariate, the treatment-by-week interaction, and Baseline CDRS-R-by-Week interaction.||0.36|-4.54|0.0937
92165438|NCT02709655|184219354|OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|1.44||0.2336|TWO_SIDED|95.0|-4.56|1.11|||Mixed Models Analysis|||Analysis was performed using an REML-based MMRM approach with freely varying mean and covariance structure and with country, treatment (vortioxetine 10 mg/day, vortioxetine 20 mg/day, fluoxetine, and placebo), and Week as fixed factors and Baseline CDRS-R total score as a continuous covariate, the treatment-by-week interaction, and Baseline CDRS-R-by-Week interaction.||1.11|-4.56|0.2336
92360464|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|5.26|||||TWO_SIDED|95.0|2.32|12.0||||||At risk subjects.||12|2.32|
92360465|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.55|||||TWO_SIDED|95.0|1.21|1.97||||||No risk subjects.||1.97|1.21|
92360466|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.51|||||TWO_SIDED|95.0|1.26|1.82||||||No risk subjects||1.82|1.26|
92360467|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.9|||||TWO_SIDED|95.0|1.52|2.38||||||No risk subjects||2.38|1.52|
92360468|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.76|||||TWO_SIDED|95.0|0.57|5.4||||||At risk subjects||5.4|0.57|
92360469|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.78|||||TWO_SIDED|95.0|1.09|2.89||||||At risk subjects||2.89|1.09|
92360470|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.82|||||TWO_SIDED|95.0|0.73|4.54||||||At risk subjects||4.54|0.73|
92360471|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.4|||||TWO_SIDED|95.0|1.89|3.05||||||No risk subjects||3.05|1.89|
92360472|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.54|||||TWO_SIDED|95.0|1.29|1.85||||||No risk subjects.||1.85|1.29|
92401914|NCT02977403|184694668|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.106|||||TWO_SIDED|95.0|-0.276|0.064||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.064|-0.276|
92401915|NCT02977403|184694669|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.017|||||TWO_SIDED|95.0|-0.092|0.057||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.057|-0.092|
92401916|NCT02977403|184694669|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.002|||||TWO_SIDED|95.0|-0.15|0.153||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.153|-0.150|
92401917|NCT02977403|184694670|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.07|||||TWO_SIDED|95.0|-0.019|0.159||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.159|-0.019|
92401918|NCT02977403|184694670|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.095|||||TWO_SIDED|95.0|-0.26|0.07||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.070|-0.260|
92276711|NCT00433381|184454886|OTHER||Area Under the Curve (AUC)|0.6|||||TWO_SIDED|95.0|0.11|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cr at 8 weeks||1|0.11|
92360473|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.7|||||TWO_SIDED|95.0|1.36|2.11||||||No risk subjects||2.11|1.36|
92360474|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.12|||||TWO_SIDED|95.0|0.58|7.71||||||At risk subjects.||7.71|0.58|
92360475|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.81|||||TWO_SIDED|95.0|1.61|4.89||||||At risk subjects||4.89|1.61|
92360476|NCT01346592|184625200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.17|||||TWO_SIDED|95.0|0.37|3.67||||||At risk subjects||3.67|0.37|
92360477|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%|Group difference (H1N1 strain)|9.0|||||TWO_SIDED|95.0|5.4|12.0||||||No risk subjects.||12|5.4|
92360478|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|4.0|||||TWO_SIDED|95.0|1.8|6.6||||||No risk subjects.||6.6|1.8|
92360479|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|12.0|||||TWO_SIDED|95.0|9.2|14.8||||||No risk subjects.||14.8|9.2|
92401919|NCT02977403|184694671|SUPERIORITY||beta coefficient|-0.8707|STANDARD_ERROR_OF_MEAN|0.766||0.256|TWO_SIDED||||||Generalized estimation equations||Reported variable is a condition by time (pre or post-intervention) interaction term. The model included a Poisson distribution, log link function, exchangeable covariance matrix and was adjusted for age, fat mass, height, and race and ethnicity.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||||0.256
92401920|NCT04966013|184694684|SUPERIORITY||Hazard Ratio (HR)|1.005||||0.9784|TWO_SIDED|95.0|0.717|1.408|||Regression, Cox|||Log Rank Test and Cox PH Regression analyses were performed unstratified||1.408|0.717|0.9784
92165439|NCT02709655|184219354|OTHER||Mean Difference (Final Values)|-2.46|STANDARD_ERROR_OF_MEAN|1.44||0.0879|TWO_SIDED|95.0|-5.29|0.37|||Mixed Models Analysis|||Analysis was performed using an REML-based MMRM approach with freely varying mean and covariance structure and with country, treatment (vortioxetine 10 mg/day, vortioxetine 20 mg/day, fluoxetine, and placebo), and Week as fixed factors and Baseline CDRS-R total score as a continuous covariate, the treatment-by-week interaction, and Baseline CDRS-R-by-Week interaction.||0.37|-5.29|0.0879
92360480|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-1.0|||||TWO_SIDED|95.0|-24.0|18.7||||||At risk subjects.||18.7|-24|
92360481|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|1.0|||||TWO_SIDED|95.0|-21.2|18.9||||||At risk subjects.||18.9|-21.2|
92401921|NCT04966013|184694685|SUPERIORITY||Hazard Ratio (HR)|1.388||||0.1512|TWO_SIDED|95.0|0.887|2.172||Log Rank Test and Cox PH Regression analyses were performed unstratified|Regression, Cox|||||2.172|0.887|0.1512
92401922|NCT04944992|184694751|SUPERIORITY||Difference in least squared means|30.4|||<|0.0001|TWO_SIDED|90.0|22.1|38.7|||Mixed Models Analysis|||||38.7|22.1|<0.0001
92401923|NCT04944992|184694752|OTHER|Difference (Efinopegdutide - Semaglutide) in %|difference in percentage|16.3||||||95.0|3.5|29.1||||||||29.1|3.5|
92401924|NCT04944992|184694753|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in percentage|5.6||||||95.0|0.4|13.5||||||||13.5|0.4|
92401925|NCT04944992|184694754|SUPERIORITY||Difference in least squared means|6.1|||<|0.001|TWO_SIDED|90.0|4.6|7.7|||Mixed Models Analysis|||||7.7|4.6|<0.001
92401926|NCT04944992|184694755|SUPERIORITY||Difference in Least Squared Means|-1.4||||0.085|TWO_SIDED|90.0|-2.7|-0.1|||Mixed Models Analysis|||||-0.1|-2.7|0.085
92401927|NCT04944992|184694756|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in Least Squared Means|-7.2|||||TWO_SIDED|90.0|-11.2|-3.1||||||||-3.1|-11.2|
92360482|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|14.0|||||TWO_SIDED|95.0|-1.6|29.5||||||At risk subjects.||29.5|-1.6|
92165440|NCT02709655|184219354|OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|1.7||0.0531|TWO_SIDED|95.0|-6.65|0.04|||Mixed Models Analysis|||Analysis was performed using an REML-based MMRM approach with freely varying mean and covariance structure and with country, treatment (vortioxetine 10 mg/day, vortioxetine 20 mg/day, fluoxetine, and placebo), and Week as fixed factors and Baseline CDRS-R total score as a continuous covariate, the treatment-by-week interaction, and Baseline CDRS-R-by-Week interaction.||0.04|-6.65|0.0531
92401928|NCT04944992|184694757|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in least squared means|-5.7||||||90.0|-10.9|-0.6||||||||-0.6|-10.9|
92165441|NCT00102063|184219375|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||||||0.05
92401929|NCT04944992|184694758|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in least squared means|-11.7||||||90.0|-15.8|-7.7||||||||-7.7|-15.8|
92401930|NCT04944992|184694759|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in least squared means|-6.1||||||90.0|-12.0|-0.1||||||||-0.1|-12.0|
92401931|NCT04944992|184694760|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in least squared means|-7.6|||||TWO_SIDED|90.0|-14.3|-0.9||||||||-0.9|-14.3|
92401932|NCT04944992|184694761|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in least squared means|-5.4|||||TWO_SIDED|90.0|-10.4|-0.4||||||||-0.4|-10.4|
92401933|NCT02798627|184694763|SUPERIORITY||||||=|0.97|||||||Chi-squared|||||||=0.97
92401934|NCT05024032|184694765|SUPERIORITY||LS Mean Difference|-12.0|||<|0.001|TWO_SIDED|95.0|-14.8|-9.3|||Mixed Models Analysis|||||-9.3|-14.8|<0.001
92401935|NCT05024032|184694765|SUPERIORITY||LS Mean Difference|-17.5|||<|0.001|TWO_SIDED|95.0|-20.3|-14.8|||Mixed Models Analysis|||||-14.8|-20.3|<0.001
92401936|NCT05024032|184694766|SUPERIORITY||Odds Ratio (OR)|23.11|||<|0.001|TWO_SIDED|95.0|8.8|60.69|||Regression, Logistic|||||60.69|8.80|<0.001
92401937|NCT05024032|184694766|SUPERIORITY||Odds Ratio (OR)|26.53|||<|0.001|TWO_SIDED|95.0|9.61|73.24|||Regression, Logistic|||||73.24|9.61|<0.001
92401938|NCT05024032|184694767|SUPERIORITY||LS Mean Difference|-7.2|||<|0.001|TWO_SIDED|95.0|-8.8|-5.5|||Mixed Models Analysis|||||-5.5|-8.8|<0.001
92401939|NCT05024032|184694767|SUPERIORITY||LS Mean Difference|-9.2|||<|0.001|TWO_SIDED|95.0|-10.9|-7.5|||Mixed Models Analysis|||||-7.5|-10.9|<0.001
92401940|NCT05024032|184694768|SUPERIORITY||Odds Ratio (OR)|13.19|||<|0.001|TWO_SIDED|95.0|5.63|30.89|||Regression, Logistic|||||30.89|5.63|<0.001
92401941|NCT05024032|184694768|SUPERIORITY||Odds Ratio (OR)|28.58|||<|0.001|TWO_SIDED|95.0|11.23|72.71|||Regression, Logistic|||||72.71|11.23|<0.001
92401942|NCT05024032|184694769|SUPERIORITY||Odds Ratio (OR)|25.64|||<|0.001|TWO_SIDED|95.0|6.68|98.49|||Regression, Logistic|||||98.49|6.68|<0.001
92401943|NCT05024032|184694769|SUPERIORITY||Odds Ratio (OR)|69.79|||<|0.001|TWO_SIDED|95.0|17.69|275.37|||Regression, Logistic|||||275.37|17.69|<0.001
92360483|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|14.0|||||TWO_SIDED|95.0|10.7|17.7||||||No risk subjects.||17.7|10.7|
92360484|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|7.0|||||TWO_SIDED|95.0|4.6|9.8||||||No risk subjects.||9.8|4.6|
92360485|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|13.0|||||TWO_SIDED|95.0|10.7|16.4||||||No risk subjects||16.4|10.7|
92360486|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-3.0|||||TWO_SIDED|95.0|-26.1|19.2||||||At risk subjects.||19.2|-26.1|
92360487|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|6.0|||||TWO_SIDED|95.0|-17.5|27.3||||||At risk subjects.||27.3|-17.5|
92360488|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|12.0|||||TWO_SIDED|95.0|-4.4|29.2||||||At risk subjects.||29.2|-4.4|
92360489|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|11.0|||||TWO_SIDED|95.0|7.2|14.5||||||No risk subjects.||14.5|7.2|
92360490|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|5.0|||||TWO_SIDED|95.0|2.6|7.5||||||No risk subjects.||7.5|2.6|
92360491|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|13.0|||||TWO_SIDED|95.0|9.5|15.8||||||No risk subjects.||15.8|9.5|
92360492|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|5.0|||||TWO_SIDED|95.0|-24.7|26.3||||||At risk subjects.||26.3|-24.7|
92360493|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|5.0|||||TWO_SIDED|95.0|-26.9|30.3||||||At risk subjects.||30.3|-26.9|
92401944|NCT05024032|184694770|SUPERIORITY||LS Mean Difference|-9.2|||<|0.001|TWO_SIDED|95.0|-11.5|-6.9|||Mixed Models Analysis|||||-6.9|-11.5|<0.001
92401945|NCT05024032|184694770|SUPERIORITY||LS Mean Difference|-13.7|||<|0.001|TWO_SIDED|95.0|-16.0|-11.3|||Mixed Models Analysis|||||-11.3|-16.0|<0.001
92401946|NCT05024032|184694771|SUPERIORITY||LS Mean Difference|-10.9|||<|0.001|TWO_SIDED|95.0|-13.5|-8.3|||Mixed Models Analysis|||||-8.3|-13.5|<0.001
92360494|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|9.0|||||TWO_SIDED|95.0|-16.9|27.1||||||At risk subjects.||27.1|-16.9|
92360495|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|16.0|||||TWO_SIDED|95.0|12.4|20.2||||||No risk subjects.||20.2|12.4|
92360496|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|8.0|||||TWO_SIDED|95.0|5.1|10.5||||||No risk subjects||10.5|5.1|
92360497|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|15.0|||||TWO_SIDED|95.0|12.0|18.6||||||No risk subjects||18.6|12|
92360498|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|2.0|||||TWO_SIDED|95.0|-27.1|25.5||||||At risk subjects||25.5|-27.1|
92360499|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|10.0|||||TWO_SIDED|95.0|-23.5|37.2||||||At risk subjects||37.2|-23.5|
92360500|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|16.0|||||TWO_SIDED|95.0|-10.7|38.0||||||At risk subjects.||38|-10.7|
92360501|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|2.0|||||TWO_SIDED|95.0|-4.2|10.4||||||No risk subjects.||10.4|-4.2|
92360502|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 subjects)|4.0|||||TWO_SIDED|95.0|-1.2|11.9||||||No risk subjects.||11.9|-1.2|
92360503|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|8.0|||||TWO_SIDED|95.0|2.9|15.1||||||No risk subjects.||15.1|2.9|
92360504|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-5.0|||||TWO_SIDED|95.0|-42.4|32.0||||||At risk subjects.||32|-42.4|
92401947|NCT05024032|184694771|SUPERIORITY||LS Mean Difference|-16.0|||<|0.001|TWO_SIDED|95.0|-18.6|-13.4|||Mixed Models Analysis|||||-13.4|-18.6|<0.001
92401948|NCT05024032|184694772|SUPERIORITY||LS Mean Difference|-3.9|||<|0.001|TWO_SIDED|95.0|-4.8|-3.1|||Mixed Models Analysis|||||-3.1|-4.8|<0.001
92401949|NCT05024032|184694772|SUPERIORITY||LS Mean Difference|-5.6|||<|0.001|TWO_SIDED|95.0|-6.4|-4.8|||Mixed Models Analysis|||||-4.8|-6.4|<0.001
92401950|NCT05024032|184694773|SUPERIORITY||LS Mean Difference|-0.37|||<|0.001|TWO_SIDED|95.0|-0.46|-0.28|||Mixed Models Analysis|||||-0.28|-0.46|<0.001
92401951|NCT05024032|184694773|OTHER||LS Mean Difference|-0.39|||<|0.001|TWO_SIDED|95.0|-0.48|-0.29|||Mixed Models Analysis|||||-0.29|-0.48|<0.001
92360505|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|-10.0|||||TWO_SIDED|95.0|-41.2|16.6||||||At risk subjects.||16.6|-41.2|
92360506|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|25.0|||||TWO_SIDED|95.0|-7.1|53.9||||||At risk subjects.||53.9|-7.1|
92360507|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|8.0|||||TWO_SIDED|95.0|1.0|16.4||||||No risk subjects.||16.4|1|
92360508|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|8.0|||||TWO_SIDED|95.0|2.0|16.1||||||No risk subjects.||16.1|2|
92360509|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|4.0|||||TWO_SIDED|95.0|0.0|10.0||||||No risk subjects.||10|0|
92401952|NCT05024032|184694774|SUPERIORITY||LS Mean Difference|-0.46|||<|0.001|TWO_SIDED|95.0|-0.61|-0.32|||Mixed Models Analysis|||||-0.32|-0.61|<0.001
92401953|NCT05024032|184694774|SUPERIORITY||LS Mean Difference|-0.54|||<|0.001|TWO_SIDED|95.0|-0.69|-0.4|||Mixed Models Analysis|||||-0.40|-0.69|<0.001
92401954|NCT05024032|184694775|SUPERIORITY||LS Mean Difference|1.2||||0.044|TWO_SIDED|95.0|0.0|2.3|||ANCOVA|||||2.3|0.0|0.044
92360510|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-1.0|||||TWO_SIDED|95.0|-42.1|43.0||||||At risk subjects.||43|-42.1|
92360511|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|-10.0|||||TWO_SIDED|95.0|-41.5|28.7||||||At risk subjects||28.7|-41.5|
92360512|NCT01346592|184625201|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|0.0|||||TWO_SIDED|95.0|-29.0|36.8||||||At risk subjects.||36.8|-29|
92360513|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|10.0|||||TWO_SIDED|95.0|6.4|12.8||||||No risk subjects.||12.8|6.4|
92360514|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|4.0|||||TWO_SIDED|95.0|1.8|6.4||||||No risk subjects.||6.4|1.8|
92360515|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|11.0|||||TWO_SIDED|95.0|8.6|13.9||||||No risk subjects.||13.9|8.6|
92360516|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-4.0|||||TWO_SIDED|95.0|-24.7|14.9||||||At risk subjects.||14.9|-24.7|
92360517|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|4.0|||||TWO_SIDED|95.0|-14.4|20.7||||||At risk subjects.||20.7|-14.4|
92360518|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|9.0|||||TWO_SIDED|95.0|-6.8|23.4||||||At risk subjects.||23.4|-6.8|
92360519|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|15.0|||||TWO_SIDED|95.0|11.3|18.1||||||No risk subjects.||18.1|11.3|
92165442|NCT00102063|184219375|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||||||0.007
92165443|NCT00857649|184219383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|1.52||0.418|TWO_SIDED|95.0|-1.75|4.21|||ANCOVA|Centre and treatment as factors and baseline score as covariate. Estimate based on Least Squares.||||4.21|-1.75|0.418
92165444|NCT00857649|184219384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.92||0.603|TWO_SIDED|95.0|-2.3|1.34|||ANCOVA|Centre and treatment as factors and baseline score as covariate. Estimate based on Least Squares.||||1.34|-2.30|0.603
92165445|NCT00857649|184219385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.13||0.734|TWO_SIDED|95.0|-0.22|0.31|||ANCOVA|Centre and treatment as factors and baseline score as covariate. Estimate based on Least Squares.||||0.31|-0.22|0.734
92165446|NCT00857649|184219386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.75||0.017|TWO_SIDED|95.0|-3.29|-0.32|||ANCOVA|Centre and treatment as factors and baseline score as covariate. Estimate based on Least Squares.||||-0.32|-3.29|0.017
92360520|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|7.0|||||TWO_SIDED|95.0|4.2|9.1||||||No risk subjects.||9.1|4.2|
92360521|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|13.0|||||TWO_SIDED|95.0|10.5|16.1||||||No risk subjects.||16.1|10.5|
92401955|NCT05024032|184694775|SUPERIORITY||LS Mean Difference|1.2||||0.05|TWO_SIDED|95.0|0.0|2.3|||ANCOVA|||||2.3|0.0|0.050
92401956|NCT05024032|184694776|SUPERIORITY||LS Mean Difference|7.8|||<|0.001|TWO_SIDED|95.0|3.7|11.8|||ANCOVA|||||11.8|3.7|<0.001
92401957|NCT05024032|184694776|SUPERIORITY||LS Mean Difference|8.5|||<|0.001|TWO_SIDED|95.0|4.4|12.7|||ANCOVA|||||12.7|4.4|<0.001
92401958|NCT05024032|184694777|SUPERIORITY||LS Mean Difference|-4.8|||<|0.001|TWO_SIDED|95.0|-6.9|-2.7|||Mixed Models Analysis|||||-2.7|-6.9|<0.001
92401959|NCT05024032|184694778|SUPERIORITY||LS Mean Difference|-6.1|||<|0.001|TWO_SIDED|95.0|-9.1|-3.1|||Mixed Models Analysis|||||-3.1|-9.1|<0.001
92401960|NCT05024032|184694779|SUPERIORITY||LS Mean Difference|-0.31|||||TWO_SIDED|95.0|-0.51|-0.11||||||||-0.11|-0.51|
92401961|NCT05024032|184694780|SUPERIORITY||LS Mean Difference|0.09|||||TWO_SIDED|95.0|0.03|0.14||||||||0.14|0.03|
92360522|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-4.0|||||TWO_SIDED|95.0|-25.3|15.4||||||At risk subjects||15.4|-25.3|
92360523|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|6.0|||||TWO_SIDED|95.0|-12.7|24.2||||||At risk subjects.||24.2|-12.7|
92360524|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group differences (B strain)|8.0|||||TWO_SIDED|95.0|-7.8|23.2||||||At risk subjects.||23.2|-7.8|
92360525|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|12.0|||||TWO_SIDED|95.0|8.2|15.3||||||No risk subjects.||15.3|8.2|
92401962|NCT05024032|184694781|SUPERIORITY||LS Mean Difference|-0.06|||||TWO_SIDED|95.0|-0.25|0.13||||||||0.13|-0.25|
92401963|NCT05024032|184694782|SUPERIORITY||LS Mean Difference|-0.25|||||TWO_SIDED|95.0|-0.34|-0.16||||||||-0.16|-0.34|
92401964|NCT05024032|184694783|SUPERIORITY||LS Mean Difference|-0.58|||||TWO_SIDED|95.0|-0.79|-0.37||||||||-0.37|-0.79|
92401965|NCT05024032|184694784|SUPERIORITY||LS Mean Difference|-0.07|||||TWO_SIDED|95.0|-0.12|-0.01||||||||-0.01|-0.12|
92401966|NCT05024032|184694785|SUPERIORITY||LS Mean Difference|-6.3|||||TWO_SIDED|95.0|-8.6|-4.0||||||||-4.0|-8.6|
92165447|NCT00857649|184219387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.98||0.36|TWO_SIDED|95.0|-1.03|2.83|||ANCOVA|Centre and treatment as factors and baseline score as covariate. Estimate based on Least Squares.||||2.83|-1.03|0.360
92360526|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|5.0|||||TWO_SIDED|95.0|2.5|7.4||||||No risk subjects.||7.4|2.5|
92360527|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|12.0|||||TWO_SIDED|95.0|9.2|15.3||||||No risk subjects.||15.3|9.2|
92360528|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-2.0|||||TWO_SIDED|95.0|-28.5|20.2||||||At risk subjects.||20.2|-28.5|
92401967|NCT02364700|184694796|EQUIVALENCE|Group means from baseline to discharge were compared to determine if 6-week and training on the Hand of Hope device elicited changes in outcome measures.|||||<|0.05|||||||Friedman Test|||||||<.05
92401968|NCT02844569|184694807|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
92224010|NCT01077973|184349389|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.991|TWO_SIDED|95.0|-0.38|0.37||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.37|-0.38|0.991
92360529|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|11.0|||||TWO_SIDED|95.0|-14.9|33.5||||||At risk subjects.||33.5|-14.9|
92360530|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|2.0|||||TWO_SIDED|95.0|-20.7|19.7||||||At risk subjects.||19.7|-20.7|
92360531|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|16.0|||||TWO_SIDED|95.0|12.6|20.1||||||No risk subjects.||20.1|12.6|
92360532|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|7.0|||||TWO_SIDED|95.0|4.6|9.8||||||No risk subjects||9.8|4.6|
92360533|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|15.0|||||TWO_SIDED|95.0|11.9|18.3||||||No risk subjects.||18.3|11.9|
92401969|NCT02844569|184694808|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
92401970|NCT02844569|184694809|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
92401971|NCT00744497|184694810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.9009|TWO_SIDED|95.53|0.87|1.13||An interim analysis on survival was performed and the final test was corrected for multiplicity.|Log Rank|||Confidence intervals for median overall survival calculated using Brookmeyer and Crowley method. Compared survival in arms by 2-sided, alpha=0.0447 level, log-rank test, stratified by bisphosphonate intake (yes/no) and urinary N-telopeptide category (\<60 vs ≥60 nmol/mmol creatinine) defined at randomization. Null hypothesis was survival equal in both arms. Power calculations were that ≥858 deaths would lead to ≥90% power at 5% level for rejecting null hypothesis, given true hazard ratio of 0.8.||1.13|0.87|0.9009
92401972|NCT00744497|184694811|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.935|||||TWO_SIDED|95.0|0.688|1.271||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The odds ratio is presented for experimental to control group.||1.271|0.688|
92401973|NCT00744497|184694812|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.64|1.02||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The hazard ratio is presented for experimental to control group.||1.02|0.64|
92401974|NCT00744497|184694813|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.93|1.763||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The odds ratio is presented for experimental to control group.||1.763|0.930|
92401975|NCT00744497|184694814|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.82|1.05||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The hazard ratio is presented for experimental to control group.||1.05|0.82|
92360534|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-2.0|||||TWO_SIDED|95.0|-28.5|20.2||||||At risk subjects.||20.2|-28.5|
92360535|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|11.0|||||TWO_SIDED|95.0|-14.9|33.5||||||At risk subjects.||33.5|-14.9|
92360536|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|10.0|||||TWO_SIDED|95.0|-14.0|29.3||||||At risk subjects.||29.3|-14|
92360537|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|2.0|||||TWO_SIDED|95.0|-3.8|9.5||||||No risk subjects.||9.5|-3.8|
92360538|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|3.0|||||TWO_SIDED|95.0|-1.8|10.0||||||No risk subjects.||10|-1.8|
92360539|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|6.0|||||TWO_SIDED|95.0|1.5|12.5||||||No risk subjects.||12.5|1.5|
92401976|NCT00744497|184694815|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.79|1.01||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The hazard ratio is presented for experimental to control group.||1.01|0.79|
92401977|NCT00744497|184694816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.791|||||TWO_SIDED|95.0|0.594|1.052||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The odds ratio is presented for of experimental to control group.||1.052|0.594|
92360540|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-6.0|||||TWO_SIDED|95.0|-40.7|27.9||||||At risk subjects.||27.9|-40.7|
92360541|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|-9.0|||||TWO_SIDED|95.0|-38.4|14.3||||||At risk subjects.||14.3|-38.4|
92360542|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|21.0|||||TWO_SIDED|95.0|-7.9|48.1||||||At risk subjects.||48.1|-7.9|
92360543|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|10.0|||||TWO_SIDED|95.0|3.0|18.5||||||No risk subjects.||18.5|3|
92360544|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|8.0|||||TWO_SIDED|95.0|2.2|15.6||||||No risk subjects.||15.6|2.2|
92360545|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|4.0|||||TWO_SIDED|95.0|0.0|9.6||||||No risk subjects.||9.6|0|
92360546|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-5.0|||||TWO_SIDED|95.0|-41.7|35.0||||||At risk subjects.||35|-41.7|
92360547|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|-9.0|||||TWO_SIDED|95.0|-38.6|23.4||||||At risk subjects.||23.4|-38.6|
92360548|NCT01346592|184625202|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|0.0|||||TWO_SIDED|95.0|-26.9|31.0||||||At risk subjects.||31|-26.9|
92360549|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT Ratio (H1N1 strain)|2.29|||||TWO_SIDED|95.0|1.91|2.76||||||No risk subjects.||2.76|1.91|
92360550|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT Ratio (H3N2 strain)|1.6|||||TWO_SIDED|95.0|1.35|1.89||||||No risk subjects.||1.89|1.35|
92360551|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|2.92|||||TWO_SIDED|95.0|2.57|3.31||||||No risk subjects.||3.31|2.57|
92360552|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.53|||||TWO_SIDED|95.0|0.6|3.93||||||At risk subjects.||3.93|0.6|
92401978|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.039|STANDARD_ERROR_OF_MEAN|0.0187|=|0.02|TWO_SIDED|90.0|0.008|0.069|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo' at 1 hour||0.069|0.008|=0.020
92276712|NCT00433381|184454886|OTHER||Area Under the Curve (AUC)|0.75|||||TWO_SIDED|95.0|0.21|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cho at 16 weeks||1|0.21|
92360553|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.02|||||TWO_SIDED|95.0|0.89|4.61||||||At risk subjects.||4.61|0.89|
92401979|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.0227|<|0.001|TWO_SIDED|90.0|0.101|0.176|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo at 12 hour||0.176|0.101|<0.001
92401980|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.0217|<|0.001|TWO_SIDED|90.0|0.087|0.158|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo at 24 hour||0.158|0.087|<0.001
92401981|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.0185|=|0.22|TWO_SIDED|90.0|-0.016|0.045|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 1 hour||0.045|-0.016|=0.220
92401982|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.124|STANDARD_ERROR_OF_MEAN|0.0225|<|0.001|TWO_SIDED|90.0|0.087|0.161|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 12 hour||0.161|0.087|<0.001
92401983|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.0214|<|0.001|TWO_SIDED|90.0|0.105|0.176|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 24 hour||0.176|0.105|<0.001
92401984|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.019|STANDARD_ERROR_OF_MEAN|0.0188||0.155|TWO_SIDED|90.0|-0.012|0.05|||Mix model|||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo at 1 hour||0.050|-0.012|0.155
92401985|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.0229|<|0.001|TWO_SIDED|90.0|0.053|0.129|||Mix model|||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo at 12 hour||0.129|0.053|<0.001
92401986|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.022|<|0.001|TWO_SIDED|90.0|0.09|0.162|||Mix model|||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo at 24 hour||0.162|0.090|<0.001
92165448|NCT02739035|184219392|SUPERIORITY|A difference of 10 degrees in total mean range of motion between the control and the treatment group was considered a clinically significant improvement.||||||0.23||||||Using a standard alpha value of 0.05, p values below 0.05 were considered statistically significant.|t-test, 2 sided|||"Outcomes were compared between the two study groups using two-sample t-tests. T-tests were two-sided and the standard alpha value of 0.05 was the threshold for statistical significance.~The null hypothesis was that there were no significant differences between control group of MUA alone and the treatment group of MUA with dexamethasone and celecoxib."||||0.23
92360554|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|2.5|||||TWO_SIDED|95.0|1.34|4.67||||||At risk subjects.||4.67|1.34|
92360555|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|3.33|||||TWO_SIDED|95.0|2.77|4.01||||||No risk subjects.||4.01|2.77|
92360556|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.07|||||TWO_SIDED|95.0|1.75|2.45||||||No risk subjects||2.45|1.75|
92360557|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.08|||||TWO_SIDED|95.0|2.72|3.49||||||No risk subjects||3.49|2.72|
92360558|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.71|||||TWO_SIDED|95.0|0.65|4.5||||||At risk subjects.||4.5|0.65|
92360559|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|3.22|||||TWO_SIDED|95.0|1.38|7.51||||||At risk subjects.||7.51|1.38|
92360560|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|2.1|||||TWO_SIDED|95.0|1.1|3.98||||||At risk subjects.||3.98|1.1|
92360561|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H1N1 strain)|2.59|||||TWO_SIDED|95.0|2.1|3.21||||||No risk subjects.||3.21|2.1|
92401987|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.017|STANDARD_ERROR_OF_MEAN|0.019||0.188|TWO_SIDED|90.0|-0.015|0.048|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 1 hour||0.048|-0.015|0.188
92360562|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H3N2 strain)|2.08|||||TWO_SIDED|95.0|1.71|2.52||||||No risk subjects.||2.52|1.71|
92276713|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor Cho/Cr at 16 weeks||1|1|
92360563|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (B strain)|3.73|||||TWO_SIDED|95.0|3.22|4.33||||||No risk subjects.||4.33|3.22|
92360564|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H1N1 strain)|1.4|||||TWO_SIDED|95.0|0.45|4.4||||||At risk subjects.||4.4|0.45|
92401988|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.055|STANDARD_ERROR_OF_MEAN|0.023|=|0.009|TWO_SIDED|90.0|0.017|0.093|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 12 hour||0.093|0.017|=0.009
92401989|NCT00674817|184694852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.0222|<|0.001|TWO_SIDED|90.0|0.086|0.159|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 24 hour||0.159|0.086|<0.001
92401990|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.0616|=|0.856|TWO_SIDED|90.0|-0.168|0.036|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo at 1 hour||0.036|-0.168|=0.856
92401991|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.0496|=|0.033|TWO_SIDED|90.0|0.01|0.174|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo at 12 hour||0.174|0.010|=0.033
92401992|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.0523|=|0.099|TWO_SIDED|90.0|-0.019|0.154|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo at 24 hour||0.154|-0.019|=0.099
92360565|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H3N2 strain)|2.86|||||TWO_SIDED|95.0|0.94|8.66||||||At risk subjects.||8.66|0.94|
92360566|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (B strain)|1.4|||||TWO_SIDED|95.0|0.45|4.4||||||At risk subjects.||4.4|0.45|
92360567|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H1N1 strain)|3.67|||||TWO_SIDED|95.0|2.97|4.54||||||No risk subjects.||4.54|2.97|
92360568|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H3N2 strain)|2.78|||||TWO_SIDED|95.0|2.29|3.37||||||No risk subjects.||3.37|2.29|
92360569|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (B strain)|4.01|||||TWO_SIDED|95.0|3.46|4.65||||||No risk subjects.||4.65|3.46|
92360570|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H1N1 strain)|1.4|||||TWO_SIDED|95.0|0.45|4.4||||||At risk subjects.||4.4|0.45|
92360571|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|4.32|||||TWO_SIDED|95.0|1.43|13.0||||||At risk subjects.||13|1.43|
92360572|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.69|||||TWO_SIDED|95.0|1.67|8.15||||||At risk subjects.||8.15|1.67|
92360573|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.35|||||TWO_SIDED|95.0|0.89|2.04||||||No risk subjects.||2.04|0.89|
92360574|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.59|||||TWO_SIDED|95.0|1.14|2.22||||||No risk subjects.||2.22|1.14|
92360575|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.68|||||TWO_SIDED|95.0|1.3|2.15||||||No risk subjects.||2.15|1.3|
92360576|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.73|||||TWO_SIDED|95.0|0.29|10.0||||||At risk subjects.||10|0.29|
92360577|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.16|||||TWO_SIDED|95.0|0.33|4.01||||||At risk subjects.||4.01|0.33|
92360578|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.45|||||TWO_SIDED|95.0|0.53|3.94||||||At risk subjects.||3.94|0.53|
92360579|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.24|||||TWO_SIDED|95.0|1.48|3.39||||||No risk subjects||3.39|1.48|
92360580|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.76|||||TWO_SIDED|95.0|1.26|2.46||||||No risk subjects.||2.46|1.26|
92360581|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.59|||||TWO_SIDED|95.0|1.24|2.04||||||No risk subjects||2.04|1.24|
92360582|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.48|||||TWO_SIDED|95.0|0.34|18.0||||||At risk subjects.||18|0.34|
92360583|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.98|||||TWO_SIDED|95.0|0.49|7.92||||||At risk subjects.||7.92|0.49|
92224011|NCT01077973|184349389|SUPERIORITY_OR_OTHER||LS mean difference|-0.25||||0.313|TWO_SIDED|95.0|-0.75|0.24||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.24|-0.75|0.313
92276714|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|0.46|||||TWO_SIDED|95.0|0.0|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cr at 16 weeks||1|0|
92360584|NCT01346592|184625203|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|0.71|||||TWO_SIDED|95.0|0.23|2.16||||||At risk subjects.||2.16|0.23|
92360585|NCT01346592|184625206|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|4.07|||||TWO_SIDED|95.0|3.34|4.95||||||GMTs were considered to be statistically significantly higher if the lower bound of the 95% confidence interval around the vaccine group ratio was \>1.0||4.95|3.34|
92360586|NCT01346592|184625206|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|1.95|||||TWO_SIDED|95.0|1.74|2.18||||||statistically significantly greater response was concluded if the lower bound of the 95% confidence interval around the vaccine group ratio is \>1.0||2.18|1.74|
92360587|NCT01346592|184625206|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|2.03|||||TWO_SIDED|95.0|1.73|2.39||||||statistically significantly greater response was concluded if the lower bound of the 95% CI around the vaccine group ratio was \>1.0||2.39|1.73|
92360588|NCT01346592|184625206|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|3.82||||||95.0|3.14|4.64||||||statistically significantly greater response was concluded if the lower bound of the 95% CI around the vaccine group ratio was \>1.0||4.64|3.14|
92360589|NCT01346592|184625206|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|2.4|||||TWO_SIDED|95.0|2.15|2.68||||||statistically significantly greater response was concluded if the lower bound of the 95% CI around the vaccine group ratio was \>1.0||2.68|2.15|
92360590|NCT01346592|184625206|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|1.95|||||TWO_SIDED|95.0|1.65|2.29||||||statistically significantly greater response was concluded if the lower bound of the 95% CI around the vaccine group ratio was \>1.0||2.29|1.65|
92360591|NCT05819398|184625211|OTHER||Difference of least square means|-20.4|STANDARD_ERROR_OF_MEAN|10.9|||TWO_SIDED|95.0|-41.9|1.1|||||Difference = (least square mean Spesolimab low dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, Tumor Necrosis Factor inhibitor (TNFi) status at baseline, and categorical baseline dT count at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-trial participant measurements.||1.1|-41.9|
92360592|NCT05819398|184625211|OTHER||Difference of least square means|-17.8|STANDARD_ERROR_OF_MEAN|11.0|||TWO_SIDED|95.0|-39.5|3.9|||||Difference = (least square mean Spesolimab medium dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, Tumor Necrosis Factor inhibitor (TNFi) status at baseline, and categorical baseline dT count at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-trial participant measurements.||3.9|-39.5|
92360593|NCT05819398|184625211|OTHER||Difference of least square means|-4.3|STANDARD_ERROR_OF_MEAN|11.0|||TWO_SIDED|95.0|-26.0|17.5|||||Difference = (least square mean Spesolimab high dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, Tumor Necrosis Factor inhibitor (TNFi) status at baseline, and categorical baseline dT count at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-trial participant measurements.||17.5|-26.0|
92360594|NCT05819398|184625211|OTHER|||||||0.697||||||Adjusted p-value from multiple contrast test.|MCPMod Linear model|No assumptions.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.697
92276715|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|0.39|||||TWO_SIDED|95.0|0.0|0.88||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cho at 2 weeks||0.88|0|
92360595|NCT05819398|184625211|OTHER|||||||0.844||||||Adjusted p-value from multiple contrast test.|MCPMod Exponential: model|Assumption: 30% of the maximum effect is achieved at the medium dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.844
92360596|NCT05819398|184625211|OTHER|||||||0.256||||||Adjusted p-value from multiple contrast test.|MCPMod Emax model|Assumption: 70% of the maximum effect is achieved at the medium dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.256
92360597|NCT05819398|184625211|OTHER|||||||0.571||||||Adjusted p-value from multiple contrast test.|MCPMod SigEmax model|Assumption: 70% of the maximum effect is achieved at the medium dose and 25% of the maximum effect is achieved at the low dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.571
92360598|NCT05819398|184625211|OTHER|||||||0.232||||||Adjusted p-value from multiple contrast test.|MCPMod BetaMod model|Assumption: 80% of the maximum effect is achieved at the medium dose and the maximum effect is achieved at the 70% of the high dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.232
92276716|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|0.52|||||TWO_SIDED|95.0|0.13|0.91||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery Cho/Cr at 2 weeks||0.91|0.13|
92360599|NCT05819398|184625212|OTHER||Difference of least square means|-9.6|STANDARD_ERROR_OF_MEAN|15.0|||TWO_SIDED|95.0|-39.2|20.1|||||Difference = (least square mean Spesolimab low dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||20.1|-39.2|
92360600|NCT05819398|184625212|OTHER||Difference of least square means|-22.2|STANDARD_ERROR_OF_MEAN|15.1|||TWO_SIDED|95.0|-52.0|7.6|||||Difference = (least square mean Spesolimab medium dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||7.6|-52.0|
92360601|NCT05819398|184625212|OTHER||Difference of least square means|-8.8|STANDARD_ERROR_OF_MEAN|15.4|||TWO_SIDED|95.0|-39.1|21.6|||||Difference = (least square mean Spesolimab high dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||21.6|-39.1|
92401993|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.067|STANDARD_ERROR_OF_MEAN|0.0612|=|0.862|TWO_SIDED|90.0|-0.168|0.034|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 1 hour||0.034|-0.168|=0.862
92360602|NCT05819398|184625213|OTHER||Difference of least square means|2.4|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-4.5|9.4|||||Difference = (least square mean Spesolimab low dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||9.4|-4.5|
92360603|NCT05819398|184625213|OTHER||Difference of least square means|-0.6|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-7.5|6.3|||||Difference = (least square mean Spesolimab medium dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||6.3|-7.5|
92360604|NCT05819398|184625213|OTHER||Difference of least square means|3.0|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-3.9|10.0|||||Difference = (least square mean Spesolimab high dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||10.0|-3.9|
92360605|NCT05819398|184625213|OTHER|||||||0.887||||||Adjusted p-value from multiple contrast test.|MCPMod Linear model|No assumptions.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.887
92401994|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.0493|=|0.008|TWO_SIDED|90.0|0.039|0.201|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 12 hour||0.201|0.039|=0.008
92401995|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.0516||0.027|TWO_SIDED|90.0|0.015|0.185|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 24 hour||0.185|0.015|0.027
92401996|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.0621|=|0.2|TWO_SIDED|90.0|-0.05|0.155|||Mix model|||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo at 1 hour||0.155|-0.050|=0.200
92401997|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.05|=|0.031|TWO_SIDED|90.0|0.011|0.177|||Mix model|||GSK961081 1200 mcg Plus SAL versus that due to GSK961081 1200 mcg plus Placebo at 12 hour||0.177|0.011|=0.031
92224012|NCT01077973|184349389|SUPERIORITY_OR_OTHER||LS mean difference|-0.12||||0.621|TWO_SIDED|95.0|-0.62|0.37||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.37|-0.62|0.621
92360606|NCT05819398|184625213|OTHER|||||||0.902||||||Adjusted p-value from multiple contrast test.|MCPMod Exponential: model|Assumption: 30% of the maximum effect is achieved at the medium dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.902
92360607|NCT05819398|184625213|OTHER|||||||0.866||||||Adjusted p-value from multiple contrast test.|MCPMod Emax model|Assumption: 70% of the maximum effect is achieved at the medium dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.866
92360608|NCT05819398|184625213|OTHER|||||||0.825||||||Adjusted p-value from multiple contrast test.|MCPMod SigEmax model|Assumption: 70% of the maximum effect is achieved at the medium dose and 25% of the maximum effect is achieved at the low dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.825
92401998|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.053|=|0.043|TWO_SIDED|90.0|0.004|0.179|||Mix model|||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo at 24 hour||0.179|0.004|=0.043
92401999|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.022|STANDARD_ERROR_OF_MEAN|0.0625|=|0.637|TWO_SIDED|90.0|-0.125|0.081|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 1 hour||0.081|-0.125|=0.637
92402000|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.05|=|0.004|TWO_SIDED|90.0|0.053|0.218|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 12 hour||0.218|0.053|=0.004
92402001|NCT00674817|184694853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.0534|=|0.031|TWO_SIDED|90.0|0.012|0.189|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 24 hour||0.189|0.012|=0.031
92402002|NCT00674817|184694859|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.747|STANDARD_ERROR_OF_MEAN|2.1768|||TWO_SIDED|95.0|-0.547|8.041||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo over 0-4 hours||8.041|-0.547|
92402003|NCT00674817|184694859|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.712|STANDARD_ERROR_OF_MEAN|2.1453|||TWO_SIDED|95.0|-2.521|5.944||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo over 0-4 hours||5.944|-2.521|
92402004|NCT00674817|184694859|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.755|STANDARD_ERROR_OF_MEAN|2.1869|||TWO_SIDED|95.0|-2.559|6.069||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo over 0-4 hours||6.069|-2.559|
92402005|NCT00674817|184694859|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.231|STANDARD_ERROR_OF_MEAN|2.197|||TWO_SIDED|95.0|-5.565|3.103||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo over 0-4 hours||3.103|-5.565|
92224013|NCT01077973|184349389|SUPERIORITY_OR_OTHER||LS mean difference|-0.13||||0.533|TWO_SIDED|95.0|-0.54|0.28||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.28|-0.54|0.533
92224014|NCT01077973|184349389|SUPERIORITY_OR_OTHER||LS mean difference|-0.25||||0.352|TWO_SIDED|95.0|-0.79|0.28||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.28|-0.79|0.352
92360609|NCT05819398|184625213|OTHER|||||||0.634||||||Adjusted p-value from multiple contrast test.|MCPMod BetaMod model|Assumption: 80% of the maximum effect is achieved at the medium dose and the maximum effect is achieved at the 70% of the high dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.634
92360610|NCT05819398|184625214|OTHER||Difference of least square means|4.6|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-6.1|15.3|||||Difference = (least square mean Spesolimab low dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||15.3|-6.1|
92360611|NCT05819398|184625214|OTHER||Difference of least square means|-5.2|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-15.9|5.5|||||Difference = (least square mean Spesolimab medium dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||5.5|-15.9|
92360612|NCT05819398|184625214|OTHER||Difference of least square means|7.6|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|-3.3|18.5|||||Difference = (least square mean Spesolimab high dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||18.5|-3.3|
92360613|NCT02448381|184625325|SUPERIORITY|||||||0.04|||||||Regression, Logistic|||||||0.04
92360614|NCT02448381|184625326|SUPERIORITY||||||<|0.0001|||||||Regression, Logistic|||||||<0.0001
92360615|NCT02448381|184625327|SUPERIORITY|||||||0.046|||||||McNemar|||||||0.046
92360616|NCT02448381|184625328|SUPERIORITY||||||=|0.0009|||||||Fisher Exact|||||||=0.0009
92360617|NCT02448381|184625329|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92360618|NCT01137890|184625330|SUPERIORITY||F-value for main effect of Coc dose|24.9|||<|0.01|TWO_SIDED|||||p-value was calculated as less than 0.01. Note: this is not an attempt to indicate a threshold|ANOVA||F-value for main effect of Cocaine dose on VAQ score|||||<0.01
92360619|NCT01137890|184625330|SUPERIORITY||F-value for main effect of Zon dose|0.34||||0.72|TWO_SIDED||||||ANOVA||F-value for main effect of Zonisamide dose on VAQ score|||||0.72
92360620|NCT01137890|184625330|SUPERIORITY||F-value for main effect of Coc x Zon|0.66||||0.63|TWO_SIDED||||||ANOVA||F-value for main effect of Cocaine x Zonisamide interaction on VAQ scores|||||0.63
92360621|NCT01137890|184625331|SUPERIORITY||F-value for main effect of Coc dose|9.91|||<|0.01|TWO_SIDED|||||p-value was calculated as less than 0.01. Note: this is not an attempt to indicate a threshold|ANOVA||F-value for main effect of Cocaine dose on Behavioral Choice measure|||||<0.01
92360622|NCT01137890|184625331|SUPERIORITY||F-value for main effect of Zon dose|0.07||||0.93|TWO_SIDED||||||ANOVA||F-value for main effect of Zonisamide dose on Behavioral Choice measure|||||0.93
92360623|NCT01137890|184625331|SUPERIORITY||F-value for main effect of Coc x Zon|0.24||||0.92|TWO_SIDED||||||ANOVA||F-value for main effect of Cocaine dose x Zonisamide dose interaction on Behavioral Choice measure|||||0.92
92360624|NCT01137890|184625332|SUPERIORITY||t-value for main effect of Group|1.51||||0.16|TWO_SIDED|||||Group (Zonisamide vs Placebo)|t-test, 2 sided|||||||0.16
92360625|NCT01137890|184625332|SUPERIORITY|Day (Day 1-39)|t-value for main effect of Day|-3.2||||0.0015|TWO_SIDED||||||t-test, 2 sided|||||||0.0015
92224015|NCT01077973|184349389|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.573|TWO_SIDED|95.0|-0.69|0.38||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.38|-0.69|0.573
92360626|NCT01137890|184625332|SUPERIORITY|Group\*Day interaction|t value for Group x Day interaction|-1.63||||0.1|TWO_SIDED||||||t-test, 2 sided|||||||0.10
92360627|NCT01137890|184625333|SUPERIORITY||F-value for main effect of Coc dose|21.1|||<|0.01|TWO_SIDED|||||p-value was calculated as less than 0.01. Note: this is not an attempt to indicate a threshold|ANOVA||F-value for main effect of Cocaine dose|||||<0.01
92360628|NCT01137890|184625333|SUPERIORITY||F-value for main effect of Zon dose|0.77||||0.48|TWO_SIDED||||||ANOVA||F-value for main effect of Zonisamide dose|||||0.48
92360629|NCT01137890|184625333|SUPERIORITY||F-value for the main effect of Zon x Coc|0.93||||0.46|TWO_SIDED||||||ANOVA||F-value for main effect of Zonisamide x Cocaine interaction on drug value (i.e., street value) measurement|||||0.46
92360630|NCT02621892|184625341|SUPERIORITY||Risk Difference (RD)|8.31|||<|0.02|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.02
92276717|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|0.54|||||TWO_SIDED|95.0|0.06|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cr at 2 weeks||1|0.06|
92360631|NCT02621892|184625343|SUPERIORITY||Risk Difference (RD)|10.86|||<|0.008|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.008
92165449|NCT02739035|184219393|SUPERIORITY|A difference of 10 degrees in total mean range of motion (ROM) between the control and the treatment group was considered a clinically significant improvement. To detect this difference, a previous study's mean and standard deviation were referenced in order to predict the variation of results. 54 patients per arm were required to have 90% power with a two-sided t-test and a type I error rate of 5%. 130 patients were targeted for recruitment to account for up to a 20% dropout rate.||||||0.81||||||Using a standard alpha value of 0.05, p values below 0.05 were considered statistically significant.|t-test, 2 sided|||"Outcomes were compared between the two study groups using two-sample t-tests. T-tests were two-sided and the standard alpha value of 0.05 was the threshold for statistical significance.~The null hypothesis was that there were no significant differences between control group of MUA alone and the treatment group of MUA with dexamethasone and celecoxib."||||0.81
92224016|NCT01077973|184349389|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.657|TWO_SIDED|95.0|-0.54|0.34||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.34|-0.54|0.657
92224017|NCT01077973|184349390|SUPERIORITY_OR_OTHER||LS mean difference|-0.11||||0.382|TWO_SIDED|95.0|-0.36|0.14||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.14|-0.36|0.382
92224018|NCT01077973|184349390|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.242|TWO_SIDED|95.0|-0.39|0.1||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.10|-0.39|0.242
92360632|NCT02621892|184625344|SUPERIORITY||Risk Difference (RD)|10.34|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92360633|NCT02621892|184625345|SUPERIORITY||Risk Difference (RD)|11.92|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92360634|NCT02621892|184625346|SUPERIORITY||Risk Difference (RD)|10.9|||<|0.003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.003
92360635|NCT02735200|184625347|SUPERIORITY||Mean Difference (Final Values)|1.67||||0.9|TWO_SIDED|||||the p value correspond to the pretreatment time frame.|t-test, 2 sided|||||||0.9
92360636|NCT02735200|184625347|SUPERIORITY||Mean Difference (Final Values)|26.66|||<|0.001|TWO_SIDED|||||p value corresponds to the post treatment time frame.|t-test, 2 sided|||||||<0.001
92360637|NCT02421094|184625362|SUPERIORITY|||||||0.1621|||||||ANCOVA|||||||0.1621
92360638|NCT02421094|184625363|SUPERIORITY|||||||0.9835|||||||ANCOVA|||||||0.9835
92360639|NCT02421094|184625364|SUPERIORITY|||||||0.266|||||||ANCOVA|||||||0.2660
92360640|NCT00619866|184625373|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.25||0.2311|TWO_SIDED|95.0|-0.81|0.2|||Repeated Measures Analysis of Covariance||Difference = Elagolix - Placebo|Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.20|-0.81|0.2311
92360641|NCT00619866|184625373|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.25||0.1521|TWO_SIDED|95.0|-0.86|0.14|||Repeated Measures Analysis of Covariance||Difference = Elagolix - Placebo|Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.14|-0.86|0.1521
92360642|NCT00619866|184625374|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.24||0.2041|TWO_SIDED|95.0|-0.77|0.17|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.17|-0.77|0.2041
92360643|NCT00619866|184625374|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.24||0.3375|TWO_SIDED|95.0|-0.69|0.24|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.24|-0.69|0.3375
92360644|NCT00619866|184625374|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.25||0.0354|TWO_SIDED|95.0|-1.01|-0.04|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.04|-1.01|0.0354
92165450|NCT03165175|184219424|SUPERIORITY|||||||0.72||||||This p-value is the for the group by time (group: intervention/control, by time: baseline/1 month) interaction.|ANOVA|||||||.72
92276718|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|0.47|||||TWO_SIDED|95.0|0.02|0.92||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cho at 8 weeks||0.92|0.02|
92360645|NCT00619866|184625374|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.25||0.3618|TWO_SIDED|95.0|-0.71|0.26|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.26|-0.71|0.3618
92360646|NCT00619866|184625375|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.46||0.799|TWO_SIDED|95.0|-1.01|0.78|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.78|-1.01|0.7990
92165451|NCT03165175|184219425|SUPERIORITY|||||||0.598||||||This p-value is the for the group by time (group: intervention/control, by time: baseline/1 month) interaction.|ANOVA|||||||.598
92360647|NCT00619866|184625375|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.46||0.5042|TWO_SIDED|95.0|-1.21|0.59|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.59|-1.21|0.5042
92360648|NCT00619866|184625375|SUPERIORITY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.48||0.1459|TWO_SIDED|95.0|-1.63|0.24|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.24|-1.63|0.1459
92360649|NCT00619866|184625375|SUPERIORITY||LS Mean Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.48||0.0163|TWO_SIDED|95.0|-2.1|-0.21|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.21|-2.10|0.0163
92402006|NCT00674817|184694860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.558|STANDARD_ERROR_OF_MEAN|2.7064|||TWO_SIDED|95.0|-0.781|9.897||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo over 0-27 hours||9.897|-0.781|
92360650|NCT00619866|184625375|SUPERIORITY||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.5||0.0207|TWO_SIDED|95.0|-2.13|-0.18|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.18|-2.13|0.0207
92360651|NCT00619866|184625375|SUPERIORITY||LS Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.5||0.0038|TWO_SIDED|95.0|-2.42|-0.47|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.47|-2.42|0.0038
92360652|NCT00619866|184625376|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.5744|TWO_SIDED|95.0|-0.18|0.1|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.10|-0.18|0.5744
92402007|NCT00674817|184694860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.266|STANDARD_ERROR_OF_MEAN|2.6691|||TWO_SIDED|95.0|-2.999|7.532||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo over 0-27 hours||7.532|-2.999|
92402008|NCT00674817|184694860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|2.717|||TWO_SIDED|95.0|-4.429|6.29||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo over 0-27 hours||6.290|-4.429|
92402009|NCT00674817|184694860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.152|STANDARD_ERROR_OF_MEAN|2.731|||TWO_SIDED|95.0|-6.539|4.236||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo over 0-27 hours||4.236|-6.539|
92402010|NCT00674817|184694861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.249|STANDARD_ERROR_OF_MEAN|1.6816|||TWO_SIDED|95.0|-2.069|4.566||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo over 0-4 hours||4.566|-2.069|
92402011|NCT00674817|184694861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.418|STANDARD_ERROR_OF_MEAN|1.6565|||TWO_SIDED|95.0|-2.85|3.687||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo over 0-4 hours||3.687|-2.850|
92402012|NCT00674817|184694861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|1.705|||TWO_SIDED|95.0|-4.013|2.714||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo over 0-4 hours||2.714|-4.013|
92165452|NCT03165175|184219426|SUPERIORITY|||||||0.954||||||This p-value is the for the group by time (group: intervention/control, by time: baseline/1 month) interaction.|ANOVA|||||||.954
92165453|NCT03165175|184219427|SUPERIORITY|||||||0.167||||||This p-value is the for the group by time (group: intervention/control, by time: baseline/1 month) interaction.|ANOVA|||||||.167
92165454|NCT03165175|184219428|SUPERIORITY|||||||0.022||||||This p-value is the for the group by time (group: intervention/control, by time: baseline/1 month) interaction.|ANOVA|||||||.022
92402013|NCT00674817|184694861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.949|STANDARD_ERROR_OF_MEAN|1.7112|||TWO_SIDED|95.0|-5.325|1.427||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo over 0-4 hours||1.427|-5.325|
92360653|NCT00619866|184625376|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.728|TWO_SIDED|95.0|-0.17|0.12|||Repeated measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.12|-0.17|0.7280
92360654|NCT00619866|184625376|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.0195|TWO_SIDED|95.0|-0.32|-0.03|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.03|-0.32|0.0195
92360655|NCT00619866|184625376|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.5589|TWO_SIDED|95.0|-0.19|0.1|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.10|-0.19|0.5589
92360656|NCT00619866|184625376|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.08||0.5558|TWO_SIDED|95.0|-0.2|0.11|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.11|-0.20|0.5558
92360657|NCT00619866|184625376|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.08||0.7121|TWO_SIDED|95.0|-0.18|0.12|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.12|-0.18|0.7121
92360658|NCT00619866|184625377|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.13||0.0286|TWO_SIDED|95.0|-0.54|-0.03|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.03|-0.54|0.0286
92360659|NCT00619866|184625377|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.121|TWO_SIDED|95.0|-0.45|0.05|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.05|-0.45|0.1210
92165455|NCT04470193|184219429|SUPERIORITY|We approached 62 subjects to get a sample size of 50 participants, allowing up to 16% attrition, to estimate the proportions of patients satisfying dropout of 0.13 to within margins of error (half-widths of 90% Cis). The 50 evaluable subjects were used to estimate the SD of QoL, with a margin of error of ∼20%. The sample size also allowed us to provide provisional estimates of the effect size for the QoL outcome to within a margin of error of ±7.1 points, assuming a true SD of 15 points.|||||>|0.05|||||||generalized estimating equation model|||We used a generalized estimating equation model for repeated assessments, with a common unstructured residual covariance matrix to account for correlation in repeated measurements in the same patient, to compare QoL total score at baseline, 1 month, and 3 months between the groups. We hypothesized that MyChildCMC users would have better outcomes for the child (higher QoL, fewer ED and/or hospital use and hospital days) and parent (higher satisfaction with child's care).||||>0.05
92360660|NCT00619866|184625377|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.14||0.0024|TWO_SIDED|95.0|-0.68|-0.15|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.15|-0.68|0.0024
92360661|NCT00619866|184625377|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.14||0.0003|TWO_SIDED|95.0|-0.76|-0.22|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.22|-0.76|0.0003
92360662|NCT00619866|184625377|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.14||0.0021|TWO_SIDED|95.0|-0.72|-0.16|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.16|-0.72|0.0021
92360663|NCT00619866|184625377|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.14||0.0003|TWO_SIDED|95.0|-0.8|-0.24|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.24|-0.80|0.0003
92402014|NCT00674817|184694862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.198|STANDARD_ERROR_OF_MEAN|2.5039|||TWO_SIDED|95.0|5.258|15.139||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||15.139|5.258|
92165456|NCT04470193|184219430|SUPERIORITY||Risk Ratio (RR)|1.05||||0.882|TWO_SIDED|95.0|0.58|1.88|||Mixed Models Analysis|||||1.88|0.58|0.882
92402015|NCT00674817|184694862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.686|STANDARD_ERROR_OF_MEAN|2.4738|||TWO_SIDED|95.0|-2.195|7.567||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||7.567|-2.195|
92165457|NCT04470193|184219431|SUPERIORITY||Risk Ratio (RR)|0.49|||<|0.001|TWO_SIDED|95.0|0.39|0.62|||Mixed Models Analysis|||||0.62|0.39|<0.001
92402016|NCT00674817|184694862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.854|STANDARD_ERROR_OF_MEAN|2.5196|||TWO_SIDED|95.0|2.883|12.825||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||12.825|2.883|
92402017|NCT00674817|184694862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.884|STANDARD_ERROR_OF_MEAN|2.5244|||TWO_SIDED|95.0|-5.864|4.097||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||4.097|-5.864|
92402018|NCT00674817|184694862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.227|STANDARD_ERROR_OF_MEAN|2.9782|||TWO_SIDED|95.0|5.352|17.103||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-27 hours||17.103|5.352|
92402019|NCT00674817|184694862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.39|STANDARD_ERROR_OF_MEAN|2.9434|||TWO_SIDED|95.0|-1.418|10.197||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||10.197|-1.418|
92402020|NCT00674817|184694862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.975|STANDARD_ERROR_OF_MEAN|2.9958|||TWO_SIDED|95.0|0.065|11.886||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||11.886|0.065|
92402021|NCT00674817|184694862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.083|STANDARD_ERROR_OF_MEAN|3.0023|||TWO_SIDED|95.0|-8.006|3.84||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||3.840|-8.006|
92402022|NCT00674817|184694863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|1.6941|||TWO_SIDED|95.0|1.857|8.542||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||8.542|1.857|
92402023|NCT00674817|184694863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|1.6727|||TWO_SIDED|95.0|-3.294|3.307||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||3.307|-3.294|
92165458|NCT04470193|184219432|SUPERIORITY||Risk Ratio (RR)|1.11||||0.035|TWO_SIDED|95.0|1.01|1.22|||Mixed Models Analysis|||||1.22|1.01|0.035
92165459|NCT02517307|184219433|OTHER|||||||0.136|||||||Mixed Models Analysis|||We compared the effects of intralipid on Rd in controls subjects versus subjects with a FAOD by mixed-effect models. Factors were group (control or FAOD) treatment (glycerol or intralipid) and the interaction of those factors. The hypothesis was intralipid would decrease Rd in controls but not in subjects with an FAOD.||||0.136
92165460|NCT02517307|184219434|OTHER|We analyzed the data with a mixed model looking at the effect of group (control vs FAOD) and treatment (glycerol vs intralipid) and their interaction.||||||0.011|||||||Mixed Models Analysis|||We tested if intralipid did not suppress endogenous glucose production or Ra as much as glycerol in controls compared to subjects with an FAOD.||||0.011
92165461|NCT00843882|184219435|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
92224019|NCT01077973|184349390|SUPERIORITY_OR_OTHER||LS mean difference|0.04||||0.72|TWO_SIDED|95.0|-0.17|0.24||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.24|-0.17|0.720
92402024|NCT00674817|184694863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.956|STANDARD_ERROR_OF_MEAN|1.7178|||TWO_SIDED|95.0|-0.433|6.345||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||6.345|-0.433|
92402025|NCT00674817|184694863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.683|STANDARD_ERROR_OF_MEAN|1.7199|||TWO_SIDED|95.0|-5.076|1.711||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||1.711|-5.076|
92402026|NCT00674817|184694864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.588|STANDARD_ERROR_OF_MEAN|1.3932|||TWO_SIDED|95.0|3.839|9.336||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||9.336|3.839|
92402027|NCT00674817|184694864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.255|STANDARD_ERROR_OF_MEAN|1.3725|||TWO_SIDED|95.0|-1.453|3.962||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||3.962|-1.453|
92402028|NCT00674817|184694864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.985|STANDARD_ERROR_OF_MEAN|1.396|||TWO_SIDED|95.0|4.231|9.738||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||9.738|4.231|
92165462|NCT00843882|184219444|SUPERIORITY|||||||0.0002|||||||Wilcoxon (Mann-Whitney)|||||||0.0002
92165463|NCT02248480|184219448|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
92402029|NCT00674817|184694864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.255|STANDARD_ERROR_OF_MEAN|1.4077|||TWO_SIDED|95.0|-0.522|5.031||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||5.031|-0.522|
92402030|NCT00674817|184694864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.121|STANDARD_ERROR_OF_MEAN|1.2464|||TWO_SIDED|95.0|1.662|6.58||||||GSK961081 400 mcg Plus SAL versus maximal GSK961081 400 mcg plus Placebo during 0-27 hours||6.580|1.662|
92402031|NCT00674817|184694864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|1.2278|||TWO_SIDED|95.0|-2.142|2.703||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||2.703|-2.142|
92402032|NCT00674817|184694864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.266|STANDARD_ERROR_OF_MEAN|1.249|||TWO_SIDED|95.0|1.802|6.729||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||6.729|1.802|
92402033|NCT00674817|184694864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.621|STANDARD_ERROR_OF_MEAN|1.2593|||TWO_SIDED|95.0|-0.863|4.106||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||4.106|-0.863|
92402034|NCT00674817|184694865|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.094|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|2.456|5.732||||||GSK961081 400 mcg plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||5.732|2.456|
92402035|NCT00674817|184694865|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.646|STANDARD_ERROR_OF_MEAN|0.8172|||TWO_SIDED|95.0|-0.967|2.258||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||2.258|-0.967|
92402036|NCT00674817|184694865|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.98|STANDARD_ERROR_OF_MEAN|0.8395|||TWO_SIDED|95.0|2.324|5.636||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||5.636|2.324|
92360664|NCT00619866|184625378|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.09||0.0603|TWO_SIDED|95.0|-0.34|0.01|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.01|-0.34|0.0603
92360665|NCT00619866|184625378|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.09||0.1855|TWO_SIDED|95.0|-0.29|0.06|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.06|-0.29|0.1855
92360666|NCT00619866|184625378|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.09||0.0012|TWO_SIDED|95.0|-0.48|-0.12|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.12|-0.48|0.0012
92360667|NCT00619866|184625378|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.1002|TWO_SIDED|95.0|-0.33|0.03|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.03|-0.33|0.1002
92360668|NCT00619866|184625378|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.09||0.0568|TWO_SIDED|95.0|-0.36|0.01|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.01|-0.36|0.0568
92360669|NCT00619866|184625378|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.119|TWO_SIDED|95.0|-0.33|0.04|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.04|-0.33|0.1190
92360670|NCT03510273|184625434|OTHER|"Type of statistical test: Independence~Description: Adequacy of baseline image"||||||0.396|||||||Fisher Exact|||||||0.396
92360671|NCT03510273|184625434|OTHER|"Type of statistical test: Independence~Description: Squamous columnar junction visibility"||||||0.351|||||||Fisher Exact|||||||0.351
92360672|NCT03510273|184625434|OTHER|"Type of statistical test: Independence~Description: Visible abnormal areas"||||||0.774|||||||Fisher Exact|||||||0.774
92360673|NCT03510273|184625434|OTHER|"Type of statistical test: Independence~Description: Location of the lesion"||||||1|||||||Fisher Exact|||||||1
92360674|NCT03510273|184625434|OTHER|"Type of statistical test: Independence~Description: Mosaic of the worst lesion"||||||0.36|||||||Fisher Exact|||||||0.36
92360675|NCT03510273|184625434|OTHER|"Type of Statistical Test: Independence~Description: Acetowhite changes"||||||0.881|||||||Fisher Exact|||||||0.881
92360676|NCT03510273|184625434|OTHER|"Type of Statistical Test: Independence~Description: Border of the worst lesion"||||||0.829|||||||Fisher Exact|||||||0.829
92360677|NCT03510273|184625434|OTHER|"Type of Statistical Test: Independence~Description: Possible diagnosis"||||||1|||||||Fisher Exact|||||||1
92360678|NCT03510273|184625434|OTHER|"Type of Statistical Test: Independence~Description: Baseline histology"||||||1|||||||Fisher Exact|||||||1
92224020|NCT01077973|184349390|SUPERIORITY_OR_OTHER||LS mean difference|-0.16||||0.235|TWO_SIDED|95.0|-0.43|0.11||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.11|-0.43|0.235
92360679|NCT03510273|184625434|OTHER|"Type of Statistical Test: Independence~Description: Size of the worst lesion (% coverage)"||||||0.493|||||||Fisher Exact|||||||0.493
92360680|NCT01474109|184625435|SUPERIORITY_OR_OTHER||NB-2 estimate of new DUs per patient|1.103||||0.706|TWO_SIDED|95.0|0.663|1.834|||negative binomial-2 regression (NB-2)||The estimated value corresponds to the treatment effect i.e. the ratio between the estimated number of new DUs in Macitentan 3 mg and in Placebo|||1.834|0.663|0.706
92360681|NCT01474109|184625435|SUPERIORITY_OR_OTHER||NB-2 estimate of new DUs per patient|1.268||||0.36|TWO_SIDED|95.0|0.763|2.106|||negative binomial-2 regression (NB-2)||The estimated value corresponds to the treatment effect i.e. the ratio between the estimated number of new DUs in Macitentan 10 mg and in Placebo|||2.106|0.763|0.360
92360682|NCT01474109|184625436|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.875||||0.667|TWO_SIDED|95.0|0.477|1.606|||Chi-squared|||||1.606|0.477|0.6670
92360683|NCT01474109|184625436|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.832||||0.5518|TWO_SIDED|95.0|0.454|1.524|||Chi-squared|||||1.524|0.454|0.5518
92360684|NCT01474109|184625437|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.696||||0.3625|TWO_SIDED|95.0|0.319|1.518|||Chi-squared|||||1.518|0.319|0.3625
92360685|NCT01474109|184625437|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9362|TWO_SIDED|95.0|0.498|2.133|||Chi-squared|||||2.133|0.498|0.9362
92360686|NCT01474109|184625438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.863|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|||||0.2|-0.1|0.863
92360687|NCT01474109|184625438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.649|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.649
92360688|NCT01474109|184625439|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.456|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.456
92360689|NCT01474109|184625439|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.44|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.440
92360690|NCT01474109|184625440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.464|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.464
92402037|NCT00674817|184694865|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.934|STANDARD_ERROR_OF_MEAN|0.846|||TWO_SIDED|95.0|-0.735|2.603||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||2.603|-0.735|
92402038|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.836|STANDARD_ERROR_OF_MEAN|1.8168|||TWO_SIDED|95.0|-5.42|1.748||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||1.748|-5.420|
92402039|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.599|STANDARD_ERROR_OF_MEAN|1.7809|||TWO_SIDED|95.0|-2.914|4.113||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||4.113|-2.914|
92402040|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.324|STANDARD_ERROR_OF_MEAN|1.8174|||TWO_SIDED|95.0|-3.261|3.909||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||3.909|-3.261|
92402041|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.182|STANDARD_ERROR_OF_MEAN|1.8242|||TWO_SIDED|95.0|-5.781|1.416||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||1.416|-5.781|
92402042|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.266|STANDARD_ERROR_OF_MEAN|1.7723|||TWO_SIDED|95.0|-6.762|0.23||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-27 hours||0.230|-6.762|
92402043|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|1.7361|||TWO_SIDED|95.0|-3.502|3.348||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||3.348|-3.502|
92402044|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.827|STANDARD_ERROR_OF_MEAN|1.7743|||TWO_SIDED|95.0|-1.673|5.327||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||5.327|-1.673|
92165464|NCT01579916|184219479|NON_INFERIORITY_OR_EQUIVALENCE|H0 (null): Rate difference greater than or equal to 5 percentage points. This corresponds to a null hypothesis of: HA (alternative): rate difference \< 5 percentage points.|Rate difference|-1.7|||||TWO_SIDED|95.0|-8.9|0.6|||Score statistic|||Comparison of the rate of fever between the 2 treatment groups was based on the upper limit of the two-sided 95% exact confidence intervals (CIs) for the rate increase (trivalent influenza virus vaccine minus placebo) evaluated against the prespecified equivalence criterion of 5 percentage points||0.6|-8.9|
92165465|NCT06001177|184219504|SUPERIORITY||Least Squares Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.185||0.1668|TWO_SIDED|95.0|-0.63|0.11||P-value was based on an ANCOVA model with treatment as a factor and baseline as a covariate.|ANCOVA|||||0.11|-0.63|0.1668
92165466|NCT03593876|184219514|OTHER||||||||||||||||||The a priori analysis plan was to defer statistical or hypothesis testing due to the focus on feasibility, and rather to assess mean participant-therapist communication scores across intervention sessions. The mean and standard deviation of these scores was 3.00 (1.00). The a priori criterion for feasibility was a mean score of 2.0 or greater.|||
92165467|NCT03593876|184219515|OTHER||Mean Difference (Net)|51.71|STANDARD_DEVIATION|21.04|||TWO_SIDED|||||||||The a priori analysis plan was to defer statistical or hypothesis testing due to the focus on feasibility, and rather to assess change scores and effect size of the change scores to compare with previously published clinical trials.|The repeated measures effect size of change was Cohen's d(rm)=3.08.|||
92165468|NCT03593876|184219516|OTHER||Mean Difference (Net)|11.02|STANDARD_DEVIATION|7.24|||TWO_SIDED|||||||||The a priori analysis plan was to defer statistical or hypothesis testing due to the focus on feasibility, and rather to assess change scores and effect size of the change scores to compare with previously published clinical trials.|The repeated measures effect size of change, Cohen's d(rm)=1.70|||
92165469|NCT02696707|184219545|NON_INFERIORITY|The non-inferiority margin between groups was set as 4%|Difference|-0.6|||||TWO_SIDED|95.0|-2.5|1.2||||||||1.2|-2.5|
92360691|NCT01474109|184625440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.342|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.342
92369490|NCT00281099|184643810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|0.0|0.261||The a priori threshold for significance was defined as the one-sided upper 95% confidence bound for the MVP - VVI 40 difference in average AT/AF burden from 12 to 24 months being less than 0.|Bootstrap Confidence Interval|||This analysis tested the hypothesis that the average AT/AF burden (hours per day of AT/AF) from 12 to 24 months post-implant in patients with no Class I pacing indication and MVP is equal to or greater than that of similar patients with VVI 40. Only subjects with complete AT/AF data for this time interval were included in the analysis.||0.261|0|
92402045|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.232|STANDARD_ERROR_OF_MEAN|1.78|||TWO_SIDED|95.0|-4.743|2.279||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||2.279|-4.743|
92402046|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.394|STANDARD_ERROR_OF_MEAN|1.3084|||TWO_SIDED|95.0|-3.976|1.187||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||1.187|-3.976|
92402047|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.181|STANDARD_ERROR_OF_MEAN|1.2819|||TWO_SIDED|95.0|-1.348|3.71||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||3.710|-1.348|
92402048|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|1.3201|||TWO_SIDED|95.0|-2.498|2.71||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||2.710|-2.498|
92402049|NCT00674817|184694866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.713|STANDARD_ERROR_OF_MEAN|1.3241|||TWO_SIDED|95.0|-3.325|1.899||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||1.899|-3.325|
92165470|NCT00071799|184219549|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED|95.0|||||Log Rank|The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification.||"A 95% CI range value of 'does not exist' is not accommodated in the results table, so all the 95% CI range values are offered here.~Azacitidine: low range of 17.9 months and high range of 'does not exist'.~Conventional Care: low range of 9.8 and high range of 17.0 months."||||0.0001
92165471|NCT00071799|184219549|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58||||0.0002|TWO_SIDED|95.0|0.43|0.77|||Regression, Cox||Cox proportional hazards model stratified on the randomization factors of FAB and IPSS with model term of treatment.|||0.77|0.43|0.0002
92165472|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3973||||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"Age \< 65 years The Kaplan-Meier median time to death was not reached due to a small number of events, so the KM 25th percentile survival time is presented.~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 7.1 months and high range of 15.6 months.~Conventional Care: low range of 4.4 and high range of 12.4 months."||||0.3973
92360692|NCT02589938|184625441|SUPERIORITY|Repeated measures analysis of covariance (RMANCOVA) models were constructed to assess differences in each outcome adjusting for baseline outcome value, group, time, and group by time interaction assuming an unstructured covariance. The primary objective was assessed using a linear contrast of group effect at 4 weeks||||||0.0167|||||||ANCOVA|||The primary endpoint was to determine whether true acupuncture (TA) was more effective than sham acupuncture (SA) or standard oral hygiene (SOH) at treating xerostomia as assessed by the xerostomia questionnaire (XQ) at Week 4. The study was powered to detect a difference of 10 points with an assumed standard deviation (SD)=16 between each pair of groups on XQ.This assumed a t-test with a two-sided significance level of 0·0133 and 84% power with 20% dropout.||||0.0167
92360693|NCT04716894|184625444|OTHER||adjusted geometric mean (gMean) ratio(%)|197.77|||||TWO_SIDED|90.0|187.9|208.15|||||Ratio (%) = T/R\*100. Intra-individual geometric coefficient of variation (gCV) = 7.0.|Relative bioavailability. Model used was an analysis of variance (ANOVA) model on the logarithmic scale. Data were log-transformed (natural logarithm) prior to fitting the ANOVA model. The effect 'subjects' was considered as random effect, whereas 'treatment' was considered as fixed effect.||208.15|187.90|
92360694|NCT04716894|184625445|OTHER||adjusted geometric mean (gMean) ratio(%)|143.38|||||TWO_SIDED|90.0|121.92|168.6|||||Ratio (%) = T/R\*100. Intra-individual geometric coefficient of variation (gCV) = 22.1.|Relative bioavailability. Model used was an analysis of variance (ANOVA) model on the logarithmic scale. Data were log-transformed (natural logarithm) prior to fitting the ANOVA model. The effect 'subjects' was considered as random effect, whereas 'treatment' was considered as fixed effect.||168.60|121.92|
92360695|NCT04716894|184625446|OTHER||adjusted geometric mean (gMean) ratio(%)|201.64|||||TWO_SIDED|90.0|192.23|211.52|||||Ratio (%) = T/R\*100. Intra-individual geometric coefficient of variation (gCV) = 6.5.|Relative bioavailability. Model used was an analysis of variance (ANOVA) model on the logarithmic scale. Data were log-transformed (natural logarithm) prior to fitting the ANOVA model. The effect 'subjects' was considered as random effect, whereas 'treatment' was considered as fixed effect.||211.52|192.23|
92360696|NCT03773484|184625451|OTHER||Slope|-0.008|STANDARD_ERROR_OF_MEAN|0.011||0.43|TWO_SIDED|95.0|-0.03|0.01|||Mixed Models Analysis|||Pre post comparison for Opioid Naïve patients||0.01|-0.03|0.43
92360697|NCT03773484|184625451|OTHER||Slope|-0.019|STANDARD_ERROR_OF_MEAN|0.016||0.24|TWO_SIDED|95.0|-0.051|0.013|||Mixed Models Analysis|||Pre-post comparison for at-risk for long term use patients||0.013|-0.051|0.24
92360698|NCT04724837|184625452|SUPERIORITY|Two-sided p-value is presented. A p-value \<0.10 indicates statistical significance, which is consistent with a one-sided test at the 5% level.|Adjusted % mean change from baseline|-33.7|||<|0.001|TWO_SIDED|90.0|-42.5|-23.5|||Mixed Models Analysis||If adjusted percentage mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for UACR.|Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + Placebo (PBO)||-23.5|-42.5|<0.001
92360699|NCT04724837|184625453|SUPERIORITY|Two-sided p-value is presented. A p-value \<0.10 indicates statistical significance, which is consistent with a one-sided test at the 5% level.|Adjusted % mean change from baseline|-27.0||||0.002|TWO_SIDED|90.0|-38.4|-13.6|||Mixed Models Analysis||If adjusted percentage mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for UACR.|Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-13.6|-38.4|0.002
92360700|NCT04724837|184625454|SUPERIORITY||Least Square (LS) mean CFB|-3.6|||||TWO_SIDED|90.0|-6.8|-0.5|||Mixed Models Analysis||If mean change from baseline (CFB) \>0 then the result favours Dapa 10 mg + PBO for office systolic blood pressure.|Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-0.5|-6.8|
92224021|NCT01077973|184349390|SUPERIORITY_OR_OTHER||LS mean difference|-0.07||||0.63|TWO_SIDED|95.0|-0.34|0.2||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.20|-0.34|0.630
92276719|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|0.41|||||TWO_SIDED|95.0|0.01|0.8||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery Cho/Cr at 8 weeks||0.80|0.01|
92360701|NCT04724837|184625454|SUPERIORITY||LS mean CFB|-7.6|||||TWO_SIDED|90.0|-10.3|-4.9|||Mixed Models Analysis||If mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for office systolic blood pressure.|Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-4.9|-10.3|
92360702|NCT04724837|184625455|SUPERIORITY||LS Mean CFB|-3.0|||||TWO_SIDED|90.0|-5.0|-1.0|||Mixed Models Analysis||If mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for office diastolic blood pressure.|Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-1.0|-5.0|
92360703|NCT04724837|184625455|SUPERIORITY||LS Mean CFB|-5.4|||||TWO_SIDED|90.0|-7.1|-3.7|||Mixed Models Analysis||If mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for office diastolic blood pressure.|Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-3.7|-7.1|
92402050|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.561|STANDARD_ERROR_OF_MEAN|1.2351|||TWO_SIDED|95.0|-2.997|1.876||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||1.876|-2.997|
92165473|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"Age \>= 65 years~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 17.1 months and high range of 34.7 months.~Conventional Care: low range of 8.8 and high range of 16.4 months."||||<0.0001
92360704|NCT04724837|184625456|SUPERIORITY||Adjusted % mean change from baseline|-27.0|||||TWO_SIDED|90.0|-38.4|-13.6|||Mixed Models Analysis||If adjusted percentage mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for UACR.|Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-13.6|-38.4|
92360705|NCT04724837|184625456|SUPERIORITY||Adjusted % mean change from baseline|-33.7|||||TWO_SIDED|90.0|-42.5|-23.5|||Mixed Models Analysis||If adjusted percentage mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for UACR.|Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-23.5|-42.5|
92360706|NCT04724837|184625457|SUPERIORITY||LS mean CFB|1.1|||||TWO_SIDED|90.0|-0.5|2.6|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 1 - Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||2.6|-0.5|
92360707|NCT04724837|184625457|SUPERIORITY||LS mean CFB|-0.8|||||TWO_SIDED|90.0|-2.1|0.5|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 1 - Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||0.5|-2.1|
92360708|NCT04724837|184625457|SUPERIORITY||LS mean CFB|-1.2|||||TWO_SIDED|90.0|-2.8|0.5|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 12 - Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||0.5|-2.8|
92402051|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.705|STANDARD_ERROR_OF_MEAN|1.2125|||TWO_SIDED|95.0|-0.687|4.097||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||4.097|-0.687|
92165474|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0707||||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"Age \>= 75 years. The Kaplan-Meier median time to death was not reached due to a small number of events, so the KM 25th percentile survival time is presented.~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 1.7 months and high range of 15.0 months.~Conventional Care: low range of 4.1 and high range of 7.6 months."||||0.0707
92165475|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0042||||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"Gender: Male~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 17.9 months and high range of 'does not exist'.~Conventional Care: low range of 10.8 and high range of 17.2 months."||||0.0042
92165476|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0469||||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"Gender: Female~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 13.0 months and high range of 'does not exist'.~Conventional Care: low range of 8.2 and high range of 17.6 months."||||0.0469
92224022|NCT01077973|184349390|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.393|TWO_SIDED|95.0|-0.32|0.13||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.13|-0.32|0.393
92360709|NCT04724837|184625457|SUPERIORITY||LS mean CFB|-1.1|||||TWO_SIDED|90.0|-2.5|0.3|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 12 - Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||0.3|-2.5|
92360710|NCT04724837|184625457|SUPERIORITY||LS mean CFB|0.1|||||TWO_SIDED|90.0|-1.6|1.8|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 14 - Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||1.8|-1.6|
92360711|NCT04724837|184625457|SUPERIORITY||LS mean CFB|-2.1|||||TWO_SIDED|90.0|-3.5|-0.7|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 14 - Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-0.7|-3.5|
92360712|NCT04724837|184625459|SUPERIORITY||LS mean change|-2.2|||||TWO_SIDED|90.0|-4.0|-0.4|||Mixed Models Analysis||If mean change \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 1 and Week 12 - Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-0.4|-4.0|
92360713|NCT04724837|184625459|SUPERIORITY||LS mean change|-0.3|||||TWO_SIDED|90.0|-1.8|1.3|||Mixed Models Analysis||If mean change \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 1 and 12 - Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||1.3|-1.8|
92360714|NCT04222673|184625460|SUPERIORITY|Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||||0.05|||||||the Reliable Change Index|||||||.05
92402052|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.337|STANDARD_ERROR_OF_MEAN|1.2341|||TWO_SIDED|95.0|-3.771|1.098||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||1.098|-3.771|
92402053|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.067|STANDARD_ERROR_OF_MEAN|1.2416|||TWO_SIDED|95.0|-3.516|1.382||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||1.382|-3.516|
92402054|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.376|STANDARD_ERROR_OF_MEAN|1.0997|||TWO_SIDED|95.0|-2.545|1.794||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-27 hours||1.794|-2.545|
92165477|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||95.0||||"95% CI ranges are added here.~Azacitidine: low range of 21.1 months and high range of 'does not exist'.~Conventional Care: low range of 9.3 and high range of 21.9 months."|Log Rank|The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification.||FAB: Refractory anemia with excess blasts (RAEB). All patients were stratified at randomization by FAB classification and IPSS score as determined by the investigator using centrally read bone marrow and cytogenetic data. Subsequently, the FAB classifications and IPSS scores were reviewed by an Independent Review Committee (IRC). The subgroup analyses presented by FAB and IPSS represent the FAB classification and IPSS scores as determined by the IRC.||||0.0056
92224023|NCT01077973|184349390|SUPERIORITY_OR_OTHER||LS mean difference|-0.14||||0.382|TWO_SIDED|95.0|-0.46|0.18||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.18|-0.46|0.382
92360715|NCT04222673|184625461|SUPERIORITY|Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||||0.05|||||||the Reliable Change Index|||||||.05
92360716|NCT04222673|184625462|OTHER|||||||0.05|||||||the Reliable Change Index|||Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||.05
92360717|NCT04222673|184625463|SUPERIORITY|||||||0.05|||||||the Reliable Change Index|||Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||.05
92360718|NCT04222673|184625464|SUPERIORITY|||||||0.05|||||||the Reliable Change Index|||Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||.05
92360719|NCT04222673|184625465|SUPERIORITY|Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||||0.05|||||||the Reliable Change Index|||||||.05
92360720|NCT04222673|184625466|SUPERIORITY|||||||0.05|||||||the Reliable Change Index|||Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||.05
92360721|NCT04222673|184625467|SUPERIORITY|||||||0.05|||||||the Reliable Change Index|||Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||.05
92360722|NCT03620981|184625481|SUPERIORITY||LS Mean Difference (Final Values)|-7.2|||<|0.0001|TWO_SIDED|95.0|-10.0|-4.3|||Mixed Models Analysis|||Statistical analysis to compare brexpiprazole 2 mg/day and placebo was performed at Week 10.||-4.3|-10.0|< 0.0001
92276720|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|0.63|||||TWO_SIDED|95.0|0.22|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cr at 8 weeks||1|0.22|
92276721|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cho at 16 weeks||1|1|
92360723|NCT03620981|184625481|SUPERIORITY||LS Mean Difference (Final Values)|-3.7||||0.0175|TWO_SIDED|95.0|-6.8|-0.7|||Mixed Models Analysis|||Statistical analysis to compare brexpiprazole 1 mg/day and placebo was performed at Week 10.||-0.7|-6.8|0.0175
92360724|NCT03620981|184625482|SUPERIORITY||LS Mean Difference (Final Values)|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.5|||Mixed Models Analysis|||Statistical analysis to compare brexpiprazole 2 mg/day and placebo was performed at Week 10.||-0.5|-1.0|< 0.0001
92360725|NCT03620981|184625482|SUPERIORITY||LS Mean Difference (Final Values)|-0.3||||0.0083|TWO_SIDED|95.0|-0.6|-0.1|||Mixed Models Analysis|||Statistical analysis to compare brexpiprazole 1 mg/day and placebo was performed at Week 10.||-0.1|-0.6|0.0083
92360726|NCT03620981|184625483|SUPERIORITY||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.6|||Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH), Last observation carried forward (LOCF)||Statistical analysis to compare brexpiprazole 2 mg/day and placebo was performed at Week 10.||-0.6|-1.2|< 0.0001
92276722|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery Cho/Cr at 16 weeks||1|1|
92224024|NCT01077973|184349390|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.995|TWO_SIDED|95.0|-0.32|0.32||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.32|-0.32|0.995
92360727|NCT03620981|184625483|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.0052|TWO_SIDED|95.0|-0.8|-0.1|||Cochran-Mantel-Haenszel|CMH, LOCF||Statistical analysis to compare brexpiprazole 1 mg/day and placebo was performed at Week 10.||-0.1|-0.8|0.0052
92360728|NCT05852470|184625498|NON_INFERIORITY|Non-inferiority margin = 0.1 logMAR|Difference in Means|0.034|STANDARD_ERROR_OF_MEAN|0.0167|||TWO_SIDED|95.0|0.001|0.067||Since a non-inferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the non-inferiority margin.|||Parameter Dispersion Type is Standard Error of the Difference in Means. Difference = Vivity/Vivity Toric Extended Vision IOL minus Clareon/Clareon Toric Monofocal IOL|||0.067|0.001|
92360729|NCT05852470|184625499|SUPERIORITY||Difference in Means|-0.091|STANDARD_ERROR_OF_MEAN|0.0151|<|0.001|TWO_SIDED|95.0|-0.12|-0.061|||t-test, 1 sided||||Parameter Dispersion Type is Standard Error of the Difference in Means. Difference = Vivity/Vivity Toric Extended Vision IOL minus Clareon/Clareon Toric Monofocal IOL|-0.061|-0.120|<.001
92360730|NCT05852470|184625500|SUPERIORITY||Difference in Means|-0.129|STANDARD_ERROR_OF_MEAN|0.0202|<|0.001|TWO_SIDED|95.0|-0.169|-0.089|||t-test, 1 sided||Parameter Dispersion Type is Standard Error of the Difference in Means. Difference = Vivity/Vivity Toric Extended Vision IOL minus Clareon/Clareon Toric Monofocal IOL|||-0.089|-0.169|<.001
92360731|NCT05852470|184625501|SUPERIORITY||Difference in Percentages|17.32|||||TWO_SIDED|90.0|8.66||Upper limit is not applicable for testing.|The lower boundary of the confidence interval is reported instead of a p-value.|Miettinen-Nurminen||Difference = Vivity/Vivity Toric Extended Vision IOL minus Clareon/Clareon Toric Monofocal IOL||||8.66|
92360732|NCT04116489|184625537|SUPERIORITY|||||||0.5272|||||||Regression, Linear|||||||.5272
92360733|NCT04116489|184625538|SUPERIORITY|||||||0.1657|||||||Regression, Linear|||||||.1657
92360734|NCT04116489|184625539|SUPERIORITY|||||||0.2437|||||||Regression, Linear|||||||.2437
92360735|NCT04116489|184625540|OTHER|||||||0.0373|||||||Regression, Linear|||||||.0373
92360736|NCT03781570|184625542|SUPERIORITY||Mean Difference (Final Values)|-0.0544|STANDARD_ERROR_OF_MEAN|0.00517|<|0.001|TWO_SIDED|95.0|-0.0648|-0.0441|||Mixed Models Analysis|Satterthwaite's method was used to estimate degrees of freedom for the mixed effects model.||Comparing placebo vs. control for thermal pain ratings with mixed effects models controlling for the stimulus intensity and the familial structure of the data.||-0.0441|-0.0648|<0.001
92360737|NCT05177354|184625569|SUPERIORITY||Proportion|89.3|||<|0.001|ONE_SIDED|97.5|71.8|||"It is hypothesized that the proportion of low-back and leg pain subjects with a reduction in overstimulation sensation during Closed Loop On compared to Closed Loop Off period exceeds a performance goal of 50%.~H0: p ≤ 50% HA: p \> 50%"|Binomial Exact Test||||||71.8|<0.001
92165478|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0322||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"FAB: RAEB in transformation~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 11.7 months and high range of 'does not exist'.~Conventional Care: low range of 9.4 and high range of 17.0 months."||||0.0322
92360738|NCT05715827|184625591|OTHER|The study used descriptive statistics and 95% confidence intervals to summarize data. The sample size of 40 patients (20 per surgery type) was based on prior studies with 3% device malfunction and 0.9% failure-related conversion rates. The primary endpoint was the completion rate, defined as ≥95% without conversion due to system issues or major complications within 24 hours. The Full Analysis Set included all subjects who started the procedure. No interim analyses were planned.|Completion rate|97.5|||||TWO_SIDED|95.0|86.8|99.9||The study used descriptive statistics and confidence intervals, not hypothesis testing with p-values. The main goal was to confirm the completion rate met or exceeded 95% and present a 95% confidence interval||The main goal was to confirm the completion rate met or exceeded 95% with a 95% confidence interval.|Estimated Value of 97.5% is an overall completion rate|The study aimed to confirm the Medtronic Hugo™ RAS System's performance for prostatectomy or cholecystectomy, targeting a 95% completion rate (no conversion due to system issues or major complications within 24 hours). The Full Analysis Set (FAS) included all subjects starting the procedure. Descriptive statistics and 95% confidence intervals were used to assess primary and secondary endpoints, confirming safety and effectiveness.|Descriptive Analysis was used|99.9|86.8|
92402055|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|1.0786|||TWO_SIDED|95.0|-1.588|2.668||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||2.668|-1.588|
92165479|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1679||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"WHO: RAEB 1. The Kaplan-Meier median time to death was not reached due to a small number of events, so the KM 25th percentile survival time is presented.~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 6.6 months and high range of 'does not exist'.~Conventional Care: low range of 1.8 and high range of 9.8 months."||||0.1679
92165480|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0692||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"WHO: RAEB-2~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 15.9 months and high range of 'does not exist'.~Conventional Care: low range of 8.8 and high range of 19.4 months."||||0.0692
92224025|NCT01077973|184349390|SUPERIORITY_OR_OTHER||LS mean difference|-0.14||||0.287|TWO_SIDED|95.0|-0.41|0.12||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.12|-0.41|0.287
92224026|NCT01077973|184349391|SUPERIORITY_OR_OTHER||LS mean difference|-0.3||||0.377|TWO_SIDED|95.0|-0.98|0.37||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.37|-0.98|0.377
92360739|NCT05715827|184625592|OTHER|Descriptive statistics will be used, presenting frequency, percentage, and 95% confidence intervals for each secondary endpoint: overall complication rate, major complication rate, readmission rate, reoperation rate, and Device Deficiencies (DD) rate through 30 days post-surgery. Secondary endpoints will be assessed overall and by surgery type (prostatectomy and cholecystectomy).|Overall Complication Rate|20.0|||||TWO_SIDED|95.0|9.1|35.6||Descriptive statistics and estimated rates were used. P-values were not calculated for secondary endpoints.||||The secondary objective is to assess the short-term safety outcome of the Medtronic Hugo™ RAS System when used for prostatectomy or cholecystectomy. Overall complication rate through 30-day post-surgery: A proportion of subjects with any postoperative complication within 30-days post-surgery using the investigational device||35.6|9.1|
92360740|NCT05715827|184625593|OTHER|Descriptive statistics will be used, presenting frequency, percentage, and 95% confidence intervals for each secondary endpoint: overall complication rate, major complication rate, readmission rate, reoperation rate, and Device Deficiencies (DD) rate through 30 days post-surgery. Secondary endpoints will be assessed overall and by surgery type (prostatectomy and cholecystectomy).|Major complication rate|5.0|||||TWO_SIDED|95.0|0.6|16.9||Descriptive statistics and estimated rates were used. P-values were not calculated for secondary endpoints.||||The secondary objective is to assess the short-term safety outcome of the Medtronic Hugo™ RAS System when used for prostatectomy or cholecystectomy. Overall complication rate through 30-day post-surgery: A proportion of subjects with any postoperative complication within 30-days post-surgery using the investigational device||16.9|0.6|
92360741|NCT05715827|184625594|OTHER|Descriptive statistics will be used, presenting frequency, percentage, and 95% confidence intervals for each secondary endpoint: overall complication rate, major complication rate, readmission rate, reoperation rate, and Device Deficiencies (DD) rate through 30 days post-surgery. Secondary endpoints will be assessed overall and by surgery type (prostatectomy and cholecystectomy).|Readmission rate|10.0|||||TWO_SIDED|95.0|2.8|23.7||Descriptive statistics and estimated rates were used. P-values were not calculated for secondary endpoints.||||The secondary objective is to assess the short-term safety outcome of the Medtronic Hugo™ RAS System when used for prostatectomy or cholecystectomy. Overall complication rate through 30-day post-surgery: A proportion of subjects with any postoperative complication within 30-days post-surgery using the investigational device||23.7|2.8|
92360742|NCT05715827|184625595|OTHER|Descriptive statistics will be used, presenting frequency, percentage, and 95% confidence intervals for each secondary endpoint: overall complication rate, major complication rate, readmission rate, reoperation rate, and Device Deficiencies (DD) rate through 30 days post-surgery. Secondary endpoints will be assessed overall and by surgery type (prostatectomy and cholecystectomy).|Reoperation rate|0.0|||||TWO_SIDED|||||Descriptive statistics and estimated rates were used. P-values were not calculated for secondary endpoints.||||The secondary objective is to assess the short-term safety outcome of the Medtronic Hugo™ RAS System when used for prostatectomy or cholecystectomy. Overall complication rate through 30-day post-surgery: A proportion of subjects with any postoperative complication within 30-days post-surgery using the investigational device||||
92360743|NCT05715827|184625596|OTHER|Descriptive statistics will be used, presenting frequency, percentage, and 95% confidence intervals for each secondary endpoint: overall complication rate, major complication rate, readmission rate, reoperation rate, and Device Deficiencies (DD) rate through 30 days post-surgery. Secondary endpoints will be assessed overall and by surgery type (prostatectomy and cholecystectomy).|Device deficiency rate|32.5|||||TWO_SIDED|95.0|18.6|49.1||Descriptive statistics and estimated rates were used. P-values were not calculated for secondary endpoints.||||The secondary objective is to assess the short-term safety outcome of the Medtronic Hugo™ RAS System when used for prostatectomy or cholecystectomy. Overall complication rate through 30-day post-surgery: A proportion of subjects with any postoperative complication within 30-days post-surgery using the investigational device||49.1|18.6|
92360744|NCT04846868|184625597|SUPERIORITY|The estimated treatment effect included the effect of any concomitant therapies for all randomized patients on on-treatment periods.|Mean Difference (Net)|0.063|STANDARD_ERROR_OF_MEAN|0.4355||0.8854|TWO_SIDED|95.0|-0.793|0.918||"Null hypothesis: The adjusted mean change from baseline to Week 26 in MCCB overall composite T-score in iclepertin 10mg is worse than or equal to that in placebo.~one-sided p\< 0.025 required for testing subsequent key secondary endpoint hypotheses"|Mixed Models Analysis||Iclepertin 10 mg versus Placebo|MMRM, including the fixed effects: treatment at each visit, stratification factor using the screening MCCB overall composite T-score, and baseline MCCB overall composite T-score at each visit. Visit was the repeated measure with an unstructured covariance structure to model the within-patient measurements.||0.918|-0.793|0.8854
92224027|NCT01077973|184349391|SUPERIORITY_OR_OTHER||LS mean difference|-0.34||||0.324|TWO_SIDED|95.0|-1.01|0.34||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.34|-1.01|0.324
92276723|NCT00433381|184454886|OTHER|ROC analysis|Area Under the Curve (AUC)|0.93|||||TWO_SIDED|95.0|0.73|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cr at 16 weeks||1|0.73|
92402056|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.016|STANDARD_ERROR_OF_MEAN|1.0999|||TWO_SIDED|95.0|-2.185|2.154||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||2.154|-2.185|
92276724|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.42|||||TWO_SIDED|95.0|0.0|0.92||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cho at 2 weeks||0.92|0|
92360745|NCT04846868|184625598|OTHER|The estimated treatment effect included the effect of any concomitant therapies and partner change in SCoR assessment for all randomized patients on-treatment.|Mean Difference (Net)|0.234|STANDARD_ERROR_OF_MEAN|0.5867||0.6902|TWO_SIDED|95.0|-0.918|1.386|||Mixed Models Analysis||Iclepertin 10 mg versus Placebo|MMRM including the fixed effects: treatment at each visit, stratification factor using the screening MCCB overall composite T-score, and baseline MCCB overall composite T-score at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements.||1.386|-0.918|0.6902
92360746|NCT04846868|184625599|OTHER|The estimated treatment effect included the effect of any concomitant therapies for all randomized patients on-treatment.|Mean Difference (Net)|-0.543|STANDARD_ERROR_OF_MEAN|1.1388||0.6334|TWO_SIDED|95.0|-2.78|1.694|||Mixed Models Analysis||Iclepertin 10 mg vs. placebo|MMRM including the fixed effects: treatment at each visit, stratification factor using the screening MCCB overall composite T-score, and baseline MCCB overall composite T-score at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements.||1.694|-2.780|0.6334
92360747|NCT04846868|184625600|OTHER|The estimated treatment effect included the effect of any concomitant therapies for all randomized patients on-treatment.|Mean Difference (Net)|0.047|STANDARD_ERROR_OF_MEAN|0.0448||0.2902||95.0|-0.041|0.135|||Mixed Models Analysis||Iclepertin 10 mg vs Placebo|MMRM including the fixed effects: treatment at each visit, stratification factor using the screening MCCB overall composite T-score, and baseline MCCB overall composite T-score at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements.||0.135|-0.041|0.2902
92360748|NCT04846868|184625601|OTHER|The estimated treatment effect included the effect of any concomitant therapies for all randomized patients on-treatment.|Mean Difference (Net)|0.628||||0.4956|TWO_SIDED|95.0|-1.181|2.437|||ANCOVA||Iclepertin 10 mg vs. Placebo|ANCOVA model including treatment, stratification factor of screening MCCB overall composite T-score, and baseline number of correct responses on Tower of London T-score.||2.437|-1.181|0.4956
92360749|NCT02581930|184625649|OTHER|Exact binomial test|Probability of response|0.0||||1|ONE_SIDED|||||Significant if p-value is less than 0.1|Exact binomial test, 1-sided||Estimated as proportion of subjects with response|The primary comparison was between the response rate of an ineffective drug, such as investigators' choice chemotherapy (5%), and the response rate of ibrutinib.||||1.00
92360750|NCT01139515|184625688|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|98.7|||||TWO_SIDED|90.0|92.17|105.7||||||Natural log transformed, dose-normalized AUC\[0- ∞\] of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||105.70|92.17|
92360751|NCT01139515|184625688|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|109.48|||||TWO_SIDED|90.0|102.23|117.24||||||Natural log transformed, dose-normalized AUC\[0- ∞\] of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||117.24|102.23|
92360752|NCT01139515|184625688|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|109.93|||||TWO_SIDED|90.0|102.65|117.72||||||Natural log transformed, dose-normalized AUC\[0- ∞\] of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||117.72|102.65|
92360753|NCT01139515|184625689|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric means ratio|99.41|||||TWO_SIDED|90.0|92.97|106.31||||||Natural log transformed, dose-normalized AUClast of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||106.31|92.97|
92402057|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.466|STANDARD_ERROR_OF_MEAN|1.1058|||TWO_SIDED|95.0|-1.715|2.648||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||2.648|-1.715|
92402058|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.18|STANDARD_ERROR_OF_MEAN|0.881|||TWO_SIDED|95.0|-2.918|0.559||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||0.559|-2.918|
92165481|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"WHO: Other~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 15.6 months and high range of 'does not exist'.~Conventional Care: low range of 11.1 and high range of 17.5 months."||||0.0017
92165482|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.103||95.0||||"95% CI ranges are added here.~Azacitidine: low range of 17.1 months and high range of 'does not exist'.~Conventional Care: low range of 8.7 and high range of 24.1 months."|Log Rank|The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification.||IPSS: Intermediate 2 All patients were stratified at randomization by FAB classification and IPSS score as determined by the investigator using centrally read bone marrow and cytogenetic data. Subsequently, the FAB classifications and IPSS scores were reviewed by an Independent Review Committee (IRC). The subgroup analyses presented by FAB and IPSS represent the FAB classification and IPSS scores as determined by the IRC.||||0.1030
92224028|NCT01077973|184349391|SUPERIORITY_OR_OTHER||LS mean difference|0.03||||0.902|TWO_SIDED|95.0|-0.52|0.59||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.59|-0.52|0.902
92224029|NCT01077973|184349391|SUPERIORITY_OR_OTHER||LS mean difference|-0.42||||0.273|TWO_SIDED|95.0|-1.17|0.33||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.33|-1.17|0.273
92360754|NCT01139515|184625689|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|110.52|||||TWO_SIDED|90.0|103.36|118.18||||||Natural log transformed, dose-normalized AUClast of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||118.18|103.36|
92360755|NCT01139515|184625689|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|110.44|||||TWO_SIDED|90.0|103.28|118.09||||||Natural log transformed, dose-normalized AUClast of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||118.09|103.28|
92360756|NCT01139515|184625690|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric means ratio|101.81|||||TWO_SIDED|90.0|85.97|120.58||||||"Natural log transformed, dose-normalized Cmax of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios."||120.58|85.97|
92360757|NCT01139515|184625690|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|98.57|||||TWO_SIDED|90.0|83.23|116.73||||||"Natural log transformed, dose-normalized Cmax of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios."||116.73|83.23|
92360758|NCT01139515|184625690|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|107.44|||||TWO_SIDED|90.0|90.72|127.25||||||"Natural log transformed, dose-normalized Cmax of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios."||127.25|90.72|
92360759|NCT03186638|184625693|SUPERIORITY|||||||0.7917|||||||ANCOVA|Adjusted for Baseline values||||||0.7917
92360760|NCT00402987|184625744|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.7||||0.0003||95.0|5.5|17.9|||generalized linear model|p-value was calculated using Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||Null hypothesis: No difference in SPID2 (PI-VAS) at two hours between celecoxib 100 mg and placebo. Sample size was based on an expected effect size of 0.42 (from earlier studies), 80% power and an alpha of 0.05.||17.9|5.5|0.0003
92360761|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.212||95.0||||"Analysis at 15 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.212
92360762|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.056||95.0||||"Analysis at 30 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.056
92360763|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 45 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
92276725|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.42|||||TWO_SIDED|95.0|0.0|0.88||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor Cho/Cr at 2 weeks||0.88|0|
92360764|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 60 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.002
92360765|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 75 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360766|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 90 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360767|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360768|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92224030|NCT01077973|184349391|SUPERIORITY_OR_OTHER||LS mean difference|-0.19||||0.616|TWO_SIDED|95.0|-0.94|0.56||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.56|-0.94|0.616
92360769|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360770|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360771|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360772|NCT00402987|184625745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360773|NCT00402987|184625746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 7 hours~Overall P-value"|Generalized Linear Model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92360774|NCT00402987|184625746|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360775|NCT00402987|184625746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0||||"Analysis at 9 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.006
92360776|NCT00402987|184625746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0||||"Analysis at 10 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.007
92360777|NCT00402987|184625746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||95.0||||"Analysis at 11 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.014
92360778|NCT00402987|184625746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||"Analysis at 12 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.012
92402059|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.876|STANDARD_ERROR_OF_MEAN|0.8644|||TWO_SIDED|95.0|-0.829|2.582||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||2.582|-0.829|
92165483|NCT00071799|184219550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"95% CI ranges are added here.~Azacitidine: low range of 15.0 months and high range of 'does not exist'.~Conventional Care: low range of 9.0 and high range of 17.0 months."|Log Rank|The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification||IPSS: High All patients were stratified at randomization by FAB classification and IPSS score as determined by the investigator using centrally read bone marrow and cytogenetic data. Subsequently, the FAB classifications and IPSS scores were reviewed by an Independent Review Committee (IRC). The subgroup analyses presented by FAB and IPSS represent the FAB classification and IPSS scores as determined by the IRC.||||0.0020
92165484|NCT00071799|184219551|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0025||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification.|Log Rank|||||||0.0025
92165485|NCT00071799|184219551|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.68||||0.0027|TWO_SIDED|95.0|0.53|0.87|||Regression, Cox||Cox proportional hazards model stratified on the randomization factors of FAB and IPSS with model term of treatment.|||0.87|0.53|0.0027
92360779|NCT00402987|184625746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.365||95.0||||"Analysis at 24 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.365
92165486|NCT00071799|184219552|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2555||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||||||0.2555
92360780|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized Linear Model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.180
92360781|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.069
92360782|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.010
92360783|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.002
92360784|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360785|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92402060|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.809|STANDARD_ERROR_OF_MEAN|0.8882|||TWO_SIDED|95.0|-2.561|0.944||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||0.944|-2.561|
92402061|NCT00674817|184694867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.8929|||TWO_SIDED|95.0|-2.122|1.401||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||1.401|-2.122|
92402062|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.2352|||TWO_SIDED|95.0|0.066|0.994||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||0.994|0.066|
92360786|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360787|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360788|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360789|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360790|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360791|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360792|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.096||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.096
92360793|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.034
92360794|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.022
92360795|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.010
92360796|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
92360797|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.002
92360798|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92360799|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360800|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360801|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360802|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360803|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360804|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.741
92360805|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.759||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.759
92165487|NCT00071799|184219552|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.83||||0.2562|TWO_SIDED|95.0|0.6|1.15|||Regression, Cox||Cox proportional hazards model stratified on the randomization factors of FAB and IPSS with model term of treatment.|||1.15|0.60|0.2562
92165488|NCT00071799|184219553|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Fisher Exact|||The p value is from Fisher's exact test comparing the difference in the azacitidine group and the combined group of CCR regimens among patients who were transfusion dependent at baseline and transfusion independent during the on-treatment period.||||<0.0001
92165489|NCT00071799|184219554|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||95.0|||||Fisher Exact|||The p value is from Fisher's exact test comparing the difference in the azacitidine group and the combined group of CCR regimens among patients who were transfusion independent at baseline and remained transfusion independent during the on-treatment period.||||0.0005
92224031|NCT01077973|184349391|SUPERIORITY_OR_OTHER||LS mean difference|-0.23||||0.471|TWO_SIDED|95.0|-0.85|0.39||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.39|-0.85|0.471
92360806|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.775||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.775
92360807|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.561||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.561
92360808|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.419||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.419
92360809|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.237||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.237
92360810|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.146||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.146
92360811|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.113
92360812|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.086||95.0||||"Analyaia at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.086
92360813|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.111
92360814|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.183||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.183
92360815|NCT00402987|184625747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.259||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.259
92360816|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92224032|NCT01077973|184349391|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.356|TWO_SIDED|95.0|-1.24|0.45||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.45|-1.24|0.356
92360817|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360818|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360819|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360820|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360821|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360822|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360823|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360824|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360825|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92224033|NCT01077973|184349391|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.722|TWO_SIDED|95.0|-1.0|0.69||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.69|-1.00|0.722
92360826|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360827|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360828|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.017
92360829|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.011
92360830|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.009
92360831|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.008
92360832|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.008
92360833|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.008
92360834|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.008
92360835|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.012
92360836|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.904||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.904
92360837|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.891||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.891
92360838|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.929||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.929
92360839|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.994||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.994
92165490|NCT00071799|184219555|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Fisher Exact|||The p value is from Fisher's exact test comparing the difference in the azacitidine group and the combined group of CCR regimens among patients who were transfusion dependent at baseline and transfusion independent during the on-treatment period||||1.000
92165491|NCT00071799|184219556|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Fisher Exact|||The p value is from Fisher's exact test comparing the difference in the azacitidine group and the combined group of CCR regimens among patients who were transfusion independent at baseline and remained transfusion independent during the on-treatment period.||||<0.0001
92360840|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.933||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.933
92360841|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.876||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.876
92360842|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.622||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.622
92360843|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.081||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.081
92360844|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.117||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.117
92360845|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.152||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.152
92360846|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.171||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.171
92360847|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.197||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.197
92360848|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.244||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.244
92360849|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.708||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.708
92360850|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.106||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.106
92360851|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.140
92360852|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.188||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.188
92360853|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.239||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.239
92360854|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.297||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.297
92360855|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.383||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.383
92360856|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.919||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.919
92360857|NCT00402987|184625748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360858|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.537||95.0||||"Analysis at 15 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.537
92360859|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.697||95.0||||"Analysis at 30 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.697
92276726|NCT00433381|184454887|OTHER|ROC analysis|Accuracy: Area Under the ROC|0.67|||||TWO_SIDED|95.0|0.25|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cr at 2 weeks||1|0.25|
92360860|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.203||95.0||||"Analysis at 45 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.203
92360861|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||"Analysis at 60 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.003
92360862|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 75 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360863|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 90 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360864|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360865|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360866|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360867|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360868|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360869|NCT00402987|184625749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92165492|NCT00071799|184219557|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Fisher Exact|||Overall (Complete + Partial Remission)||||0.0001
92165493|NCT00071799|184219557|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||95.0|||||Fisher Exact|||Complete remission||||0.0150
92165494|NCT00071799|184219557|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0094||95.0|||||Fisher Exact|||Partial Remission||||0.0094
92165495|NCT00071799|184219557|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3297||95.0|||||Fisher Exact|||Stable Disease||||0.3297
92165496|NCT00071799|184219558|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Fisher Exact|||Any Improvement||||<0.0001
92224034|NCT01077973|184349391|SUPERIORITY_OR_OTHER||LS mean difference|-0.24||||0.493|TWO_SIDED|95.0|-0.94|0.46||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.46|-0.94|0.493
92360870|NCT00402987|184625750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 7 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92360871|NCT00402987|184625750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 8 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
92360872|NCT00402987|184625750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||95.0||||"Analysis at 9 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.046
92360873|NCT00402987|184625750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||95.0||||"Analysis at 10 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.046
92360874|NCT00402987|184625750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111||95.0||||"Analysis at 11 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.111
92360875|NCT00402987|184625750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.226||95.0||||"Analysis at 12 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.226
92360876|NCT00402987|184625750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.537||95.0||||"Analysis at 24 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.537
92360877|NCT00402987|184625751|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.64||||0.01||95.0|1.3|5.5||Treatment as a factor|Regression, Logistic|||||5.5|1.3|0.010
92402063|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.388|STANDARD_ERROR_OF_MEAN|0.2318|||TWO_SIDED|95.0|-0.069|0.846||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||0.846|-0.069|
92402064|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.309|STANDARD_ERROR_OF_MEAN|0.2363|||TWO_SIDED|95.0|-0.157|0.775||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||0.775|-0.157|
92165497|NCT00071799|184219558|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Fisher Exact|||Erythroid Response - Major||||<0.0001
92165498|NCT00071799|184219558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6203||95.0|||||Fisher Exact|||Erythroid Response - Minor||||0.6203
92165499|NCT00071799|184219558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||Fisher Exact|||Platelet Response - Major||||0.0003
92360878|NCT00402987|184625751|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.07||||0.003||95.0|1.5|6.4||Treatment as a factor|Regression, Logistic|||||6.4|1.5|0.003
92360879|NCT00402987|184625751|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.634||95.0|0.6|2.2||Treatment as a factor|Regression, Logistic|||||2.2|0.6|0.634
92360880|NCT00402987|184625752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.63||||0.202||95.0|0.8|3.5||Treatment as a factor|Regression, Logistic|||||3.5|0.8|0.202
92360881|NCT00402987|184625752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.18||||0.077||95.0|0.9|5.1||Treatment as a factor|Regression, Logistic|||||5.1|0.9|0.077
92360882|NCT00402987|184625752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.95||||0.134||95.0|0.8|4.7||Treatment as a factor|Regression, Logistic|||||4.7|0.8|0.134
92360883|NCT00402987|184625752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.84||||0.671||95.0|0.4|1.9||Treatment as a factor|Regression, Logistic|||||1.9|0.4|0.671
92360884|NCT00402987|184625752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.75||||0.484||95.0|0.3|1.7||Treatment as a factor|Regression, Logistic|||||1.7|0.3|0.484
92360885|NCT00402987|184625752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.814||95.0|0.4|2.8||Treatment as a factor|Regression, Logistic|||||2.8|0.4|0.814
92402065|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.309|STANDARD_ERROR_OF_MEAN|0.2392|||TWO_SIDED|95.0|-0.163|0.78||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||0.780|-0.163|
92402066|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.874|STANDARD_ERROR_OF_MEAN|0.3099|||TWO_SIDED|95.0|0.262|1.485||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-27 hours||1.485|0.262|
92402067|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.3056|||TWO_SIDED|95.0|-0.656|0.55||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||0.550|-0.656|
92402068|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.829|STANDARD_ERROR_OF_MEAN|0.3112|||TWO_SIDED|95.0|0.215|1.443||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||1.443|0.215|
92402069|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.567|STANDARD_ERROR_OF_MEAN|0.3151|||TWO_SIDED|95.0|-0.054|1.189||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||1.189|-0.054|
92402070|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.312|STANDARD_ERROR_OF_MEAN|0.1021|||TWO_SIDED|95.0|0.11|0.513||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||0.513|0.110|
92165500|NCT00071799|184219558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7514||95.0|||||Fisher Exact|||Platelet Response - Minor||||0.7514
92165501|NCT00071799|184219558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8695||95.0|||||Fisher Exact|||Neutrophil Response - Major||||0.8695
92276727|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.8|||||TWO_SIDED|95.0|0.47|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cho at 8 weeks||1|0.47|
92402071|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.1006|||TWO_SIDED|95.0|-0.025|0.372||||||GSK961081 400 mcg Plus IPR versus maximum GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||0.372|-0.025|
92402072|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.1035|||TWO_SIDED|95.0|0.006|0.414||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||0.414|0.006|
92402073|NCT00674817|184694868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.1047|||TWO_SIDED|95.0|-0.103|0.311||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||0.311|-0.103|
92165502|NCT00071799|184219558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.176||95.0|||||Fisher Exact|||Neutrophil Response - Minor||||0.1760
92165503|NCT00071799|184219559|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0466||95.0||||The p value is two-sided from the log rank test which compares whether the azacitidine and control group follow the same duration curve.|Log Rank|||||||0.0466
92165504|NCT00071799|184219559|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.0474|TWO_SIDED|95.0|0.53|1.0|||Regression, Cox|||||1.00|0.53|0.0474
92360886|NCT00402987|184625753|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to perceptible pain relief|Log Rank|||For subjects who did not experience perceptible pain relief within 2 hours post-first dose, the time to perceptible pain relief was censored at 2 hours||||<0.05
92360887|NCT00402987|184625753|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to perceptible pain relief|Log Rank|||For subjects who did not experience perceptible pain relief within 2 hours post-first dose, the time to perceptible pain relief was censored at 2 hours||||<0.05
92360888|NCT00402987|184625753|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to perceptible pain relief|Log Rank|||For subjects who did not experience perceptible pain relief within 2 hours post-first dose, the time to perceptible pain relief was censored at 2 hours||||<0.05
92360889|NCT00402987|184625754|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to meaningful pain relief|Log Rank|||For subjects who did not experience meaningful pain relief within 2 hours post-first dose, the time to meaningful pain relief was censored at 2 hours.||||<0.05
92165505|NCT00071799|184219560|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0||||The p value is two-sided from the log rank test which compares whether the azacitidine and control group follow the same duration curve.|Log Rank|||||||0.0002
92165506|NCT00071799|184219561|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.67||||0.1327|TWO_SIDED|95.0|0.35|1.2|||exact binomial|||||1.20|0.35|0.1327
92165507|NCT00071799|184219563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||||||<0.0001
92165508|NCT00071799|184219563|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.35|0.7|||Regression, Cox||Cox proportional hazards model stratified on the randomization factors of FAB and IPSS with model term of treatment.|||0.70|0.35|<0.0001
92276728|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.78|||||TWO_SIDED|95.0|0.44|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor Cho/Cr at 8 weeks||1|0.44|
92360890|NCT00402987|184625754|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to meaningful pain relief|Log Rank|||For subjects who did not experience meaningful pain relief within 2 hours post-first dose, the time to meaningful pain relief was censored at 2 hours||||<0.05
92360891|NCT00402987|184625755|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to onset of analgesia|Log Rank|||For subjects who did not experience onset of analgesia within 2 hours post-first dose, the time to onset of analgesia was censored at 2 hours||||<0.05
92360892|NCT00402987|184625755|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to onset of analgesia|Log Rank|||For subjects who did not experience onset of analgesia within 2 hours post-first dose, the time to onset of analgesia was censored at 2 hours||||<0.05
92360893|NCT00402987|184625756|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall test of Celecoxib 50mg/50mg versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor).|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||<0.001
92402074|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.177|STANDARD_ERROR_OF_MEAN|0.0503|||TWO_SIDED|95.0|-0.276|-0.078||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||-0.078|-0.276|
92402075|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.049|||TWO_SIDED|95.0|-0.096|0.097||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||0.097|-0.096|
92402076|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.076|STANDARD_ERROR_OF_MEAN|0.0498|||TWO_SIDED|95.0|-0.174|0.022||||||SK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||0.022|-0.174|
92402077|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.0507|||TWO_SIDED|95.0|-0.128|0.072||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||0.072|-0.128|
92402078|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.166|STANDARD_ERROR_OF_MEAN|0.0493|||TWO_SIDED|95.0|-0.263|-0.069||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-27 hours||-0.069|-0.263|
92402079|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.057|STANDARD_ERROR_OF_MEAN|0.0481|||TWO_SIDED|95.0|-0.152|0.038||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||0.038|-0.152|
92402080|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.171|STANDARD_ERROR_OF_MEAN|0.0489|||TWO_SIDED|95.0|-0.267|-0.075||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||-0.075|-0.267|
92360894|NCT00402987|184625756|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall test of Celecoxib 100mg (pooled) versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor).|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||<0.001
92360895|NCT00402987|184625756|SUPERIORITY_OR_OTHER_LEGACY|||||||0.889||95.0||||Overall test of Celecoxib 50mg/50mg versus Celecoxib 100mg (pooled) that takes into account the ordered data (categories: excellent, good, fair, poor).|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.889
92360896|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Overall test of Celecoxib 50mg/50mg versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||<0.001
92360897|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 12 hours~Overall test of Celecoxib 100mg/Placebo versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.002
92360898|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||95.0||||Analysis at 12 hours Overall test of Celecoxib 100mg/50mg versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor).|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.015
92360899|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.411||95.0||||"Analysis at 12 hours~Overall test of Celecoxib 50mg/50mg versus Celecoxib 100mg/50mg that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.411
92360900|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93||95.0||||"Analysis at 12 hours~Overall test of Celecoxib 50mg/50mg versus Celecoxib 100mg/Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.930
92360901|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.438||95.0||||"Analysis at 12 hours~Overall test of Celecoxib 100mg/Placebo versus Celecoxib 100mg/50mg that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.438
92360902|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 50mg/50mg versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.002
92360903|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 100mg/Placebo versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.013
92360904|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 100mg/50mg versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.015
92402081|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.009|STANDARD_ERROR_OF_MEAN|0.0498|||TWO_SIDED|95.0|-0.108|0.089||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||0.089|-0.108|
92165509|NCT05764161|184219595|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5859|TWO_SIDED|95.0|0.651|2.143|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||2.143|0.651|0.5859
92360905|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.748||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 50mg/50mg versus Celecoxib 100mg/50mg that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.748
92360906|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.958||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 50mg/50mg versus Celecoxib 100mg/Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.958
92360907|NCT00402987|184625757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.747||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 100mg/Placebo versus Celecoxib 100mg/50mg that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.747
92360908|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY|||||||0.999||95.0||||"Analysis at 15 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.999
92165510|NCT05764161|184219595|SUPERIORITY||Response Rate Difference|3.81|STANDARD_ERROR_OF_MEAN|6.966|||TWO_SIDED|95.0|-9.84|17.46||||||||17.46|-9.84|
92360909|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY|||||||0.609||95.0||||"Analysis at 30 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.609
92402082|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.108|STANDARD_ERROR_OF_MEAN|0.0522|||TWO_SIDED|95.0|-0.211|-0.005||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||-0.005|-0.211|
92402083|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.0509|||TWO_SIDED|95.0|-0.087|0.114||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||0.114|-0.087|
92402084|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|0.052|||TWO_SIDED|95.0|-0.18|0.026||||||GSK961081 1200 mcg Plus SAL GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||0.026|-0.180|
92402085|NCT00674817|184694869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.0529|||TWO_SIDED|95.0|-0.129|0.08||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||0.080|-0.129|
92360910|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY|||||||0.076||95.0||||"Analysis at 45 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.076
92360911|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||"Analysis at 60 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.008
92360912|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 75 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360913|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 90 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360914|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360915|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Overall P-value"|Generalized linear model|Continuous data were analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360916|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360917|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360918|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360919|NCT00402987|184625758|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 6 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92360920|NCT00402987|184625759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||"Analysis at 7 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.003
92360921|NCT00402987|184625759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0||||"Analysis at 8 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.009
92360922|NCT00402987|184625759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043||95.0||||"Analysis at 9 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.043
92360923|NCT00402987|184625759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.032||95.0||||"Analysis at 10 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.032
92276729|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.6|||||TWO_SIDED|95.0|0.17|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cr at 8 weeks||1|0.17|
92360924|NCT00402987|184625759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.029||95.0||||"Analysis at 11 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.029
92360925|NCT00402987|184625759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.066||95.0||||"Analysis at 12 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.066
92360926|NCT00402987|184625759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.482||95.0||||"Analysis at 24 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.482
92360927|NCT00402987|184625760|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|||<|0.001||95.0|0.8|1.9||Pairwise comparison. No adjustment made for multiplicity.|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.9|0.8|<0.001
92360928|NCT00402987|184625760|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.002||95.0|0.4|1.5||Pairwise comparison. No adjustment made for multiplicity.|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.5|0.4|0.002
92360929|NCT00402987|184625760|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.186||95.0|-1.0|0.2||Pairwise comparison. No adjustment made for multiplicity.|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||0.2|-1.0|0.186
92360930|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.961||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.961
92360931|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.985||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.985
92360932|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.975||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.975
92360933|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.532||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.532
92360934|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.690
92360935|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.82||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.820
92360936|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.180
92360937|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.344||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.344
92402086|NCT00834977|184694877|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|101.08||||||90.0|97.23|105.09|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.09|97.23|
92402087|NCT00834977|184694878|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|99.38||||||90.0|96.63|102.22|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.22|96.63|
92402088|NCT00834977|184694879|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|98.48||||||90.0|95.8|101.23|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.23|95.80|
92402089|NCT00834977|184694880|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|98.72||||||90.0|86.95|112.09|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||112.09|86.95|
92165511|NCT05764161|184219596|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0741|TWO_SIDED|95.0|0.938|3.683|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||3.683|0.938|0.0741
92360938|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.693||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.693
92360939|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.039
92360940|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.154||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.154
92360941|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.521||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.521
92165512|NCT05764161|184219596|SUPERIORITY||Response Rate Difference|11.15|STANDARD_ERROR_OF_MEAN|6.162|||TWO_SIDED|95.0|-0.93|23.23||||||||23.23|-0.93|
92165513|NCT05764161|184219597|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1493|TWO_SIDED|95.0|0.75|5.74|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||5.740|0.750|0.1493
92360942|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.006
92360943|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.070
92360944|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.344||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.344
92402090|NCT00834977|184694881|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|95.69||||||90.0|90.54|101.14|||||Metabolite presented for informational purposes only.|||101.14|90.54|
92402091|NCT00834977|184694882|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Slope|99.43||||||90.0|96.48|102.46|||||Metabolite presented for informational purposes only.|||102.46|96.48|
92402092|NCT00834977|184694883|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|97.2||||||90.0|92.82|101.78|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.78|92.82|
92402093|NCT00834977|184694884|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|96.99||||||90.0|92.52|101.68|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.68|92.52|
92402094|NCT00834977|184694885|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|99.24||||||90.0|96.21|102.35|||||Metabolite presented for informational purposes only.|||102.35|96.21|
92402095|NCT04723056|184694905|OTHER|||||||0.282||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 8||||0.282
92402096|NCT04723056|184694906|OTHER|||||||0.217||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||0.217
92402097|NCT04723056|184694907|OTHER|||||||0.462||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 8||||0.462
92402098|NCT04723056|184694907|OTHER|||||||0.179||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||0.179
92402099|NCT04723056|184694908|OTHER|||||||0.573||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 8||||.573
92360945|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92360946|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.022
92360947|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.249||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.249
92360948|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360949|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.006
92360950|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.205||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.205
92360951|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360952|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.002
92360953|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.186||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.186
92360954|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360955|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360956|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.179||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.179
92402100|NCT04723056|184694908|OTHER|||||||0.606||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||.606
92165514|NCT05764161|184219597|SUPERIORITY||Response Rate Difference|6.17|STANDARD_ERROR_OF_MEAN|4.257|||TWO_SIDED|95.0|-2.18|14.51||||||||14.51|-2.18|
92165515|NCT05764161|184219598|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0142|TWO_SIDED|95.0|1.193|6.033|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||6.033|1.193|0.0142
92360957|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360958|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360959|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.259||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.259
92360960|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360961|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360962|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.393||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.393
92360963|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92402101|NCT04723056|184694909|OTHER|||||||0.181||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||.181
92402102|NCT04723056|184694910|OTHER|||||||0.407||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||.407
92402103|NCT04723056|184694911|OTHER|||||||0.643||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||.643
92402104|NCT04723056|184694912|OTHER|||||||0.625||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 8||||.625
92402105|NCT04723056|184694912|OTHER|||||||0.707||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||.707
92402106|NCT05106894|184694914|EQUIVALENCE|Adjusted difference between groups in composite scores calculated using an ordinary least squares linear regression model (with adjustments for sex of child, caregiver educational level, poverty score, birth weight and change in length for age Z score from 0 to 6 months).|Median Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-7.4|5.5||||||||5.5|-7.4|
92402107|NCT05106894|184694915|EQUIVALENCE|Adjusted difference between groups in composite scores calculated using an ordinary least squares linear regression model (with adjustments for sex of child, caregiver educational level, poverty score, birth weight and change in length for age Z score from 0 to 6 months).|Median Difference (Final Values)|-2.3|||||TWO_SIDED|95.0|-8.3|3.6||||||||3.6|-8.3|
92402108|NCT05106894|184694916|EQUIVALENCE|Adjusted difference between groups in composite scores calculated using an ordinary least squares linear regression model (with adjustments for sex of child, caregiver educational level, poverty score, birth weight and change in length for age Z score from 0 to 6 months).|Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-5.6|2.1||||||||2.1|-5.6|
92402109|NCT01968447|184694922|SUPERIORITY_OR_OTHER_LEGACY|||||||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||0.59
92165516|NCT05764161|184219598|SUPERIORITY||Response Rate Difference|13.46|STANDARD_ERROR_OF_MEAN|5.384|||TWO_SIDED|95.0|2.9|24.01||||||||24.01|2.90|
92165517|NCT05764161|184219599|SUPERIORITY||Odds Ratio (OR)|3.07||||0.0387|TWO_SIDED|95.0|1.06|8.897|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||8.897|1.060|0.0387
92402110|NCT04196777|184694955|OTHER|We performed a logistic regression analysis that measured the effect of the intervention at site 3. The below results show the interaction term between time and the intervention from this model. Time was measured in days divided by 365, giving an annualized figure for the time coefficient estimate and interaction coefficient.|Odds Ratio (OR)|0.089||||0.004|TWO_SIDED|95.0|0.016|0.445|||Regression, Logistic|||To model the primary outcome for site 3, we used a logistic regression model and a set of three explanatory variables: time, a binary indicator for an observation occurring within the intervention phase, and an interaction term between these two main effects (time and intervention).||0.445|0.016|0.004
92402111|NCT04196777|184694955|OTHER|We performed a logistic regression analysis that measured the effect of the intervention at site 1. The below results show the interaction term between time and the intervention from this model. Time was measured in days divided by 365, giving an annualized figure for the time coefficient estimate and interaction coefficient.|Odds Ratio (OR)|1.593||||0.259|TWO_SIDED|95.0|0.71|3.585|||Regression, Logistic|||To model the primary outcome for site 1, we used a logistic regression model and a set of three explanatory variables: time, a binary indicator for an observation occurring within the intervention phase, and an interaction term between these two main effects (time and intervention).||3.585|0.710|0.259
92402112|NCT04196777|184694955|OTHER|We performed a logistic regression analysis that measured the effect of the intervention at site 2. The below results show the interaction term between time and the intervention from this model. Time was measured in days divided by 365, giving an annualized figure for the time coefficient estimate and interaction coefficient.|Odds Ratio (OR)|0.748||||0.738|TWO_SIDED|95.0|0.135|4.147|||Regression, Logistic|||To model the primary outcome for site 2, we used a logistic regression model and a set of three explanatory variables: time, a binary indicator for an observation occurring within the intervention phase, and an interaction term between these two main effects (time and intervention).||4.147|0.135|0.738
92402113|NCT04196777|184694956|OTHER|The Wilcoxon rank-sum test assessed whether the post-procedural antimicrobial duration significantly differed at site 3 between the baseline and intervention periods.|Rank sum test statistic|1280.5||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The median duration of post-procedural antimicrobial prescriptions at site 3 were compared using the Wilcoxon rank-sum test.||||0.001
92224035|NCT01077973|184349392|SUPERIORITY_OR_OTHER||LS mean difference|-0.27||||0.259|TWO_SIDED|95.0|-0.75|0.2||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.20|-0.75|0.259
92360964|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360965|NCT00402987|184625761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.512||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.512
92165518|NCT05764161|184219599|SUPERIORITY||Response Rate Difference|9.49|STANDARD_ERROR_OF_MEAN|4.343|||TWO_SIDED|95.0|0.98|18.0||||||||18.00|0.98|
92165519|NCT05764161|184219601|SUPERIORITY||Least squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.244||0.0005|TWO_SIDED|95.0|-1.35|-0.39|||Mixed Model for Repeated Measures (MMRM)|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||-0.39|-1.35|0.0005
92224036|NCT01077973|184349392|SUPERIORITY_OR_OTHER||LS mean difference|-0.21||||0.378|TWO_SIDED|95.0|-0.69|0.26||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.26|-0.69|0.378
92360966|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360967|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360968|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.026
92360969|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.463||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.463
92360970|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.131
92360971|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.053||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.053
92360972|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360973|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360974|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.020
92360975|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.484||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.484
92165520|NCT05764161|184219601|SUPERIORITY||Least squares Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.303||0.0007|TWO_SIDED|95.0|-1.64|-0.45|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||-0.45|-1.64|0.0007
92276730|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.8|||||TWO_SIDED|95.0|0.45|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cho at 16 weeks||1|0.45|
92360976|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.197||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.197
92360977|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.086||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.086
92360978|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92165521|NCT05764161|184219601|SUPERIORITY||Least squares Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.367||0.0036|TWO_SIDED|95.0|-1.81|-0.36|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||-0.36|-1.81|0.0036
92402114|NCT04196777|184694956|OTHER|The Wilcoxon rank-sum test assessed whether the post-procedural antimicrobial duration significantly differed at site 1 between the baseline and intervention periods.|Rank sum test statistic|28662.0||||0.013|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The median duration of post-procedural antimicrobial prescriptions at site 1 were compared using the Wilcoxon rank-sum test.Type of statistical test||||0.013
92402115|NCT04196777|184694956|OTHER|The Wilcoxon rank-sum test assessed whether the post-procedural antimicrobial duration significantly differed at site 2 between the baseline and intervention periods.|Rank sum test statistic|784.0||||0.14|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The median duration of post-procedural antimicrobial prescriptions at site 2 were compared using the Wilcoxon rank-sum test.||||0.14
92402116|NCT04196777|184694957|OTHER|We performed a logistic regression model that included patients across all 3 sites.|Odds Ratio (OR)|0.76||||0.04|TWO_SIDED|95.0|0.58|0.99|||Regression, Logistic|||To model this secondary outcome, we used a logistic regression model and a set of four explanatory variables: time, a binary indicator for an observation occurring within the intervention phase, an interaction term between these two main effects (time and intervention), and a binary indicator for the primary outcome. This last variable was included to assess the risk of these secondary outcomes in patients who were not exposed to post-procedural antimicrobials compared to those who were exposed.||0.99|0.58|0.04
92402117|NCT04196777|184694958|OTHER|We performed a logistic regression model that included patients across all 3 sites.|Odds Ratio (OR)|0.68|||<|0.01|TWO_SIDED|95.0|0.53|0.87|||Regression, Logistic|||To model this secondary outcome across all sites, we used a logistic regression model and a set of four explanatory variables: time, a binary indicator for an observation occurring within the intervention phase, an interaction term between these two main effects (time and intervention), and a binary indicator for the primary outcome.||0.87|0.53|<0.01
92402118|NCT00981656|184694962|OTHER|No testing is done, conclusions are made based on the confidence interval.||||||||||||||||Null hypothesis = this treatment will result in 75% of participants free from radical cystectomy at 3 years. A lower confidence bound of 60% will be promising enough to pursue this regimen further. A sample size of 33 analyzable patients provides a one-sided 97.5% lower bound of 60% relative to the hypothesized 75%. In terms of type I error, this design provides a 2.5% chance of observing a 3-year percentage less than 60% if the true rate is 75%.|If the lower confidence interval (CI) limit was above 60% then the regimen would be considered promising enough to warrant further study for this treatment regimen. If the lower limit was below 25% then the treatment would not be considered worthy of further study. If the lower limit fell between 25% and 60%, the investigators would consider the possibility of further investigation.|||
92402119|NCT03402217|184695006|SUPERIORITY|||||||0.383|||||||Wilcoxon (Mann-Whitney)|||Pre and post-score paired comparison.||||.383
92165522|NCT05764161|184219601|SUPERIORITY||Least squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.396||0.0287|TWO_SIDED|95.0|-1.65|-0.09|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||-0.09|-1.65|0.0287
92165523|NCT05764161|184219603|SUPERIORITY||Hazard Ratio (HR)|1.783||||0.0005|TWO_SIDED|95.0|1.288|2.468|||Log Rank|Log-rank test stratified by randomization stratification factors between treatment and vehicle.|Cox regression model stratified by stratification factors (Baseline IGA 2/3, Region North America/ Outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||2.468|1.288|0.0005
92165524|NCT05764161|184219604|SUPERIORITY||Hazard Ratio (HR)|1.477||||0.0399|TWO_SIDED|95.0|1.015|2.15|||Log Rank|Log-rank test stratified by randomization stratification factors between treatment and vehicle.|Cox regression model stratified by stratification factors (Baseline IGA 2/3, Region North America/ Outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||2.150|1.015|0.0399
92402120|NCT03402217|184695007|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Information pre-post paired comparison||||.001
92402121|NCT03402217|184695007|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Motivation pre- and post-paired comparison.||||.07
92402122|NCT03402217|184695007|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Behavior pre and post paired comparison||||.230
92402123|NCT02135861|184695016|OTHER||Mean Difference (Final Values)|0.16||||0.0029|TWO_SIDED|95.0|0.06|0.26||estimates of total lung|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2600|0.0600|0.0029
92402124|NCT02135861|184695016|OTHER||Mean Difference (Final Values)|0.1825||||0.0007|TWO_SIDED|95.0|0.0855|0.2795||estimates of left lung|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2795|0.0855|0.0007
92402125|NCT02135861|184695016|OTHER||Mean Difference (Final Values)|0.1565||||0.0093|TWO_SIDED|95.0|0.0419|0.2711||estimates of right lung|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2711|0.0419|0.0093
92402126|NCT02135861|184695016|OTHER||Mean Difference (Final Values)|0.1764||||0.0007|TWO_SIDED|95.0|0.0823|0.2704||estimates of left lung apical|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2704|0.0823|0.0007
92402127|NCT02135861|184695016|OTHER||Mean Difference (Final Values)|0.1999||||0.001|TWO_SIDED|95.0|0.0894|0.3103||estimates of left lung basal|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.3103|0.0894|0.0010
92402128|NCT02135861|184695016|OTHER||Mean Difference (Final Values)|0.136||||0.0159|TWO_SIDED|95.0|0.0276|0.2443||estimates of right lung apical|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2443|0.0276|0.0159
92402129|NCT02135861|184695016|OTHER||Mean Difference (Final Values)|0.1748||||0.0064|TWO_SIDED|95.0|0.0535|0.2961||estimates of right lung basal|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2961|0.0535|0.0064
92402130|NCT02135861|184695017|OTHER||Mean Difference (Final Values)|-0.0137||||0.7381|TWO_SIDED|95.0|-0.0968|0.0695||estimates of total lung|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0695|-0.0968|0.7381
92402131|NCT02135861|184695017|OTHER||Mean Difference (Final Values)|0.0136||||0.6992|TWO_SIDED|95.0|-0.058|0.0852||estimates of left lung|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0852|-0.0580|0.6992
92402132|NCT02135861|184695017|OTHER||Mean Difference (Final Values)|-0.0258||||0.5778|TWO_SIDED|95.0|-0.1201|0.0684||estimates of right lung|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0684|-0.1201|0.5778
92402133|NCT02135861|184695017|OTHER||Mean Difference (Final Values)|0.0005||||0.9899|TWO_SIDED|95.0|-0.0738|0.0747||estimates of left lung apical|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0747|-0.0738|0.9899
92402134|NCT02135861|184695017|OTHER||Mean Difference (Final Values)|0.0396||||0.2912|TWO_SIDED|95.0|-0.036|0.1153||estimates of left lung basal|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.1153|-0.0360|0.2912
92402135|NCT02135861|184695017|OTHER||Mean Difference (Final Values)|-0.0362||||0.4592|TWO_SIDED|95.0|-0.1355|0.0631||estimates of right lung apical|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0631|-0.1355|0.4592
92402136|NCT02135861|184695017|OTHER||Mean Difference (Final Values)|-0.0118||||0.7936|TWO_SIDED|95.0|-0.1036|0.08||estimates of right lung basal|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0800|-0.1036|0.7936
92402137|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1148||||0.0156|TWO_SIDED|95.0|0.0236|0.2061||estimates of total lung- Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2061|0.0236|0.0156
92402138|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1366||||0.0026|TWO_SIDED|95.0|0.0523|0.2209||estimates of left lung- Pre-exercise|ANOVA|estimates of left lung- Pre-exercise|||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2209|0.0523|0.0026
92402139|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1067||||0.0328|TWO_SIDED|95.0|0.0094|0.204||estimates of right lung- Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2040|0.0094|0.0328
92402140|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1145||||0.0158|TWO_SIDED|95.0|0.0235|0.2056||estimates of left lung apical-Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2056|0.0235|0.0158
92402141|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1776||||0.0002|TWO_SIDED|95.0|0.0917|0.2635||estimates of left lung basal-Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2635|0.0917|0.0002
92402142|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.0956||||0.0658|TWO_SIDED|95.0|-0.0067|0.1979||estimates of right lung apical-Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.1979|-0.0067|0.0658
92276731|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.73|||||TWO_SIDED|95.0|0.19|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor Cho/Cr at 16 weeks||1|0.19|
92165525|NCT05764161|184219607|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.249||0.0016|TWO_SIDED|95.0|-1.29|-0.31|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||-0.31|-1.29|0.0016
92224037|NCT01077973|184349392|SUPERIORITY_OR_OTHER||LS mean difference|-0.06||||0.762|TWO_SIDED|95.0|-0.45|0.33||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.33|-0.45|0.762
92402143|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1194||||0.015|TWO_SIDED|95.0|0.0251|0.2137||estimates of right lung basal-Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2137|0.0251|0.0150
92402144|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1428||||0.0015|TWO_SIDED|95.0|0.0598|0.2259||estimates of total lung-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2259|0.0598|0.0015
92402145|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1776|||<|0.0001|TWO_SIDED|95.0|0.1057|0.2496||estimates of left lung-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2496|0.1057|<.0001
92402146|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.126||||0.0114|TWO_SIDED|95.0|0.0308|0.2212||estimates of right lung-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2212|0.0308|0.0114
92402147|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1464||||0.0002|TWO_SIDED|95.0|0.0774|0.2153||estimates of left lung apical-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2153|0.0774|0.0002
92402148|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.2137|||<|0.0001|TWO_SIDED|95.0|0.1266|0.3008||estimates of left lung basal-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.3008|0.1266|<.0001
92402149|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1111||||0.025|TWO_SIDED|95.0|0.0151|0.2071||estimates of right lung apical-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2071|0.0151|0.0250
92165526|NCT05764161|184219607|SUPERIORITY||Least Squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.32||0.0071|TWO_SIDED|95.0|-1.51|-0.24|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||-0.24|-1.51|0.0071
92165527|NCT05764161|184219607|SUPERIORITY||Least Squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.369||0.0198|TWO_SIDED|95.0|-1.6|-0.14|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||-0.14|-1.60|0.0198
92165528|NCT05764161|184219607|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.403||0.1384|TWO_SIDED|95.0|-1.4|0.2|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||0.20|-1.40|0.1384
92276732|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.57|||||TWO_SIDED|95.0|0.03|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cr at 16 weeks||1|0.03|
92402150|NCT02135861|184695018|OTHER||Mean Difference (Final Values)|0.1458||||0.0052||95.0|0.0475|0.2442||estimates of right lung basal-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2442|0.0475|0.0052
92402151|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0524||||0.173|TWO_SIDED|95.0|-0.1292|0.0244||estimates of total lung-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0244|-0.1292|0.1730
92402152|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0423||||0.2704|TWO_SIDED|95.0|-0.1196|0.0349||estimates of left lung-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0349|-0.1196|0.2704
92402153|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0515||||0.2072|TWO_SIDED|95.0|-0.1334|0.0303||estimates of right lung-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0303|-0.1334|0.2072
92402154|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0603||||0.1307|TWO_SIDED|95.0|-0.1398|0.0191||estimates of left lung apical-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0191|-0.1398|0.1307
92402155|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0078||||0.8427|TWO_SIDED|95.0|-0.0879|0.0722||estimates of left lung basal-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0722|-0.0879|0.8427
92276733|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.6|||||TWO_SIDED|95.0|0.2|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cho at 2 weeks||1|0.20|
92360979|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360980|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.018
92360981|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.561||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.561
92360982|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.252||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.252
92360983|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.136||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.136
92360984|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92402156|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0506||||0.1848|TWO_SIDED|95.0|-0.1269|0.0257||estimates of right lung apical-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0257|-0.1269|0.1848
92402157|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0413||||0.3408|TWO_SIDED|95.0|-0.1286|0.0461||estimates of right lung basal-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0461|-0.1286|0.3408
92402158|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0267||||0.3682|TWO_SIDED|95.0|-0.0866|0.0332||estimates of total lung-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0332|-0.0866|0.3682
92402159|NCT02135861|184695019|OTHER||Mean Difference (Net)|-0.0201||||0.4531|TWO_SIDED|95.0|-0.0744|0.0342||estimates of left lung-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0342|-0.0744|0.4531
92165529|NCT05764161|184219613|SUPERIORITY||Least Squares Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.744||0.0759|TWO_SIDED|95.0|-2.8|0.14|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||0.14|-2.80|0.0759
92165530|NCT05764161|184219613|SUPERIORITY||Least Squares Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.809||0.1447|TWO_SIDED|95.0|-2.78|0.41|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||0.41|-2.78|0.1447
92165531|NCT05764161|184219613|SUPERIORITY||Least Squares Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.9||0.3395|TWO_SIDED|95.0|-2.64|0.91|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||0.91|-2.64|0.3395
92276734|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.72|||||TWO_SIDED|95.0|0.36|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery Cho/Cr at 2 weeks||1|0.36|
92360985|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360986|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.018
92360987|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.653||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.653
92360988|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.287||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.287
92402160|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0188||||0.597|TWO_SIDED|95.0|-0.0909|0.0533||estimates of right lung-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0533|-0.0909|0.5970
92402161|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0159||||0.5472|TWO_SIDED|95.0|-0.0693|0.0375||estimates of left lung apical-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0375|-0.0693|0.5472
92360989|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.191||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.191
92402162|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0125||||0.6793|TWO_SIDED|95.0|-0.0742|0.0491||estimates of left lung basal-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0491|-0.0742|0.6793
92402163|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0249||||0.4806|TWO_SIDED|95.0|-0.0964|0.0466||estimates of right lung apical-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0466|-0.0964|0.4806
92402164|NCT02135861|184695019|OTHER||Mean Difference (Final Values)|-0.0029||||0.9379|TWO_SIDED|95.0|-0.0789|0.0731||estimates of right lung basal-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0731|-0.0789|0.9379
92360990|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360991|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360992|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.018
92402165|NCT02992288|184695024|SUPERIORITY|||||||0.2297||||||Linear dose-response shape: The multiple comparison procedures (MCP) approach was applied to calculate the adjusted one-sided one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.2297
92402166|NCT02992288|184695024|SUPERIORITY|||||||0.4409||||||Sigmoidal Emax 1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.4409
92402167|NCT02992288|184695024|SUPERIORITY|||||||0.2842||||||Sigmoidal Emax 2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.2842
92402168|NCT02992288|184695024|SUPERIORITY|||||||0.2534||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.2534
92360993|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.741
92360994|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.326||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.326
92360995|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.256||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.256
92402169|NCT02992288|184695024|SUPERIORITY|||||||0.3842||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.3842
92402170|NCT02992288|184695025|SUPERIORITY|||||||0.8966||||||Linear dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.8966
92402171|NCT02992288|184695025|SUPERIORITY|||||||0.9233||||||Sigmoidal Emax 1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9233
92402172|NCT02992288|184695025|SUPERIORITY|||||||0.9296||||||Sigmoidal Emax 2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9296
92402173|NCT02992288|184695025|SUPERIORITY|||||||0.7357||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.7357
92360996|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92360997|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92360998|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.016
92360999|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.808||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.808
92361000|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.394||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.394
92402174|NCT02992288|184695025|SUPERIORITY|||||||0.9083||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9083
92402175|NCT02992288|184695026|SUPERIORITY|||||||0.4596||||||Linear dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.4596
92402176|NCT02992288|184695026|SUPERIORITY|||||||0.7859||||||Sigmoidal Emax1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.7859
92402177|NCT02992288|184695026|SUPERIORITY|||||||0.5562||||||Sigmoidal Emax2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.5562
92402178|NCT02992288|184695026|SUPERIORITY|||||||0.5338||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.5338
92402179|NCT02992288|184695026|SUPERIORITY|||||||0.7303||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.7303
92276735|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.5|||||TWO_SIDED|95.0|0.06|0.94||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cr at 2 weeks||0.94|0.06|
92361001|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.343||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.343
92361002|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
92361003|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.029||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.029
92361004|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.023
92402180|NCT02992288|184695027|SUPERIORITY|||||||0.5703||||||Linear dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.5703
92402181|NCT02992288|184695027|SUPERIORITY|||||||0.8253||||||Sigmoidal Emax1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.8253
92402182|NCT02992288|184695027|SUPERIORITY|||||||0.6506||||||Sigmoidal Emax2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.6506
92402183|NCT02992288|184695027|SUPERIORITY|||||||0.6923||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.6923
92402184|NCT02992288|184695027|SUPERIORITY|||||||0.8036||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.8036
92276736|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.58|||||TWO_SIDED|95.0|0.22|0.95||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cho at 8 weeks||0.95|0.22|
92361005|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.892||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.892
92361006|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.952||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.952
92361007|NCT00402987|184625762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.948||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.948
92361008|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY|||||||0.775||95.0||||"Analysis at 15 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.775
92361009|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY|||||||0.094||95.0||||"Analysis at 30 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.094
92361010|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY|||||||0.114||95.0||||"Analysis at 45 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.114
92361011|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 60 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
92361012|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 75 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361013|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 90 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361014|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361015|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361016|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361017|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361018|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361019|NCT00402987|184625763|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 6 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92361020|NCT00402987|184625764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 7 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92361021|NCT00402987|184625764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 8 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.002
92361022|NCT00402987|184625764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0||||"Analysis at 9 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.007
92361023|NCT00402987|184625764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||95.0||||"Analysis at 10 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.015
92361024|NCT00402987|184625764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033||95.0||||"Analysis at 11 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.033
92361025|NCT00402987|184625764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036||95.0||||"Analysis at 12 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.036
92361026|NCT00402987|184625764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0||||"Analysis at 24 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.500
92361027|NCT00402987|184625765|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.2|||<|0.001||95.0|8.5|23.8||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||23.8|8.5|<0.001
92361028|NCT00402987|184625765|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.2||||0.009||95.0|2.6|17.9||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||17.9|2.6|0.009
92361029|NCT00402987|184625765|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.9||||0.127||95.0|-13.5|1.7||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.7|-13.5|0.127
92361030|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.480
92361031|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.780
92361032|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.667||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.667
92361033|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.153||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.153
92361034|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.479||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.479
92361035|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.469||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.469
92361036|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.062
92361037|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.284||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.284
92361038|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.421||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.421
92402185|NCT02992288|184695028|SUPERIORITY|||||||0.9955||||||Linear dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9955
92165532|NCT05764161|184219613|SUPERIORITY||Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.943||0.4794|TWO_SIDED|95.0|-2.53|1.19|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||1.19|-2.53|0.4794
92361039|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.022
92361040|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.171||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.171
92361041|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.354||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.354
92361042|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
92361043|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.090
92361044|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.262
92361045|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92361046|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.044
92361047|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.194||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.194
92361048|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361049|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.020
92402186|NCT02992288|184695028|SUPERIORITY|||||||0.9946||||||Sigmoidal Emax1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9946
92361050|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.148||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.148
92361051|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361052|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.009
92361053|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.127||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.127
92361054|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361055|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92361056|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.122||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.122
92361057|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361058|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361059|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.164||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.164
92361060|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis at 5 hours Pairwise comparison. No adjustment made for multiplicity.|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361061|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92402187|NCT02992288|184695028|SUPERIORITY|||||||0.9913||||||Sigmoidal Emax2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9913
92402188|NCT02992288|184695028|SUPERIORITY|||||||0.9982||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9982
92361062|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.244||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.244
92361063|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361064|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361065|NCT00402987|184625766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.336||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.336
92361066|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361067|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361068|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.090
92361069|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.518||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.518
92402189|NCT02992288|184695028|SUPERIORITY|||||||0.9959||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9959
92402190|NCT00656513|184695036|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||An effect size of 0.50 was chosen for sample size calculation. On the basis of a 2-sided t test with alpha= 0.05 and 1 interim analysis, 130 patients were required for 80% statistical power. Adjustment by 10% for loss to follow-up and retrospective ineligibility of recruited study participants yielded a sample size of 144 patients. Actual power given only 96 patients was 68.6%||||0.45
92361070|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.038
92361071|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.019
92361072|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361073|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361074|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.081||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.081
92361075|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.552||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.552
92361076|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.050
92361077|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.027
92361078|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92402191|NCT00656513|184695038|SUPERIORITY|||||||0.11||||||Two-sided test of values at 4 months.|Wilcoxon (Mann-Whitney)|||||||0.11
92402192|NCT00656513|184695038|SUPERIORITY|||||||0.31||||||Two-sided test of values at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.31
92402193|NCT00656513|184695038|SUPERIORITY|||||||0.21||||||Two-sided test of values at 15 months.|Wilcoxon (Mann-Whitney)|||||||0.21
92402194|NCT00656513|184695039|SUPERIORITY|||||||0.35||||||4-month Physical Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.35
92361079|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361080|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.071||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.071
92361081|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.609||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.609
92361082|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.065||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.065
92361083|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.042||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.042
92361084|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361085|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92402195|NCT00656513|184695039|SUPERIORITY|||||||0.78||||||4 months Pain/Discomfort score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.78
92402196|NCT00656513|184695039|SUPERIORITY|||||||0.12||||||4 months Personal/Psychological Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.12
92402197|NCT00656513|184695039|SUPERIORITY|||||||0.28||||||4-month Social Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.28
92402198|NCT00656513|184695039|SUPERIORITY|||||||0.98||||||6-month Physical Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.98
92402199|NCT00656513|184695039|SUPERIORITY|||||||0.28||||||6-month Pain/Discomfort score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.28
92402200|NCT00656513|184695039|SUPERIORITY|||||||0.13||||||6-month Personal/Psychological Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.13
92402201|NCT00656513|184695039|SUPERIORITY|||||||0.58||||||6-month Social Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.58
92402202|NCT00656513|184695039|SUPERIORITY|||||||0.88||||||9-month Physical Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.88
92402203|NCT00656513|184695039|SUPERIORITY|||||||0.09||||||9-month Pain/Discomfort score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.09
92402204|NCT00656513|184695039|SUPERIORITY|||||||0.49||||||9-month Personal/Psychological Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.49
92402205|NCT00656513|184695039|SUPERIORITY|||||||0.45||||||9-month Social Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.45
92402206|NCT00656513|184695039|SUPERIORITY|||||||0.45||||||15-month Physical Functioning; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.45
92361086|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.070
92361087|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.689||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.689
92361088|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.075||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Continuous data were analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.075
92361089|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.059||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.059
92361090|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361091|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361092|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.069
92361093|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.762||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.762
92361094|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.089||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.089
92361095|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.083||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.083
92402207|NCT00656513|184695039|SUPERIORITY|||||||0.3||||||15-month Pain/Discomfort; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.30
92361096|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361097|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
92361098|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.064
92361099|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.841||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.841
92361100|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.110
92361101|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.119||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.119
92361102|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
92361103|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.015
92361104|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.087||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.087
92361105|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.826||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.826
92361106|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.345||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.345
92361107|NCT00402987|184625767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.530
92361108|NCT00402987|184625768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.73||||0.149||95.0|0.8|3.7|||Regression, Logistic|Treatment as a factor||||3.7|0.8|0.149
92402208|NCT00656513|184695039|SUPERIORITY|||||||0.48||||||15-month Personal/Psychological Functioning; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.48
92402209|NCT00656513|184695039|SUPERIORITY|||||||0.68||||||15-month Social Functioning; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.68
92402210|NCT00656513|184695040|SUPERIORITY|||||||0.97||||||4-month score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.97
92165533|NCT05764161|184219615|SUPERIORITY||Least Squares Mean Difference|2.59|STANDARD_ERROR_OF_MEAN|2.522||0.3053|TWO_SIDED|95.0|-2.38|7.57|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||7.57|-2.38|0.3053
92165534|NCT05764161|184219615|SUPERIORITY||Least Squares Mean Difference|2.11|STANDARD_ERROR_OF_MEAN|2.45||0.3893|TWO_SIDED|95.0|-2.72|6.95|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||6.95|-2.72|0.3893
92165535|NCT05764161|184219615|SUPERIORITY||Least Squares Mean Difference|2.82|STANDARD_ERROR_OF_MEAN|2.371||0.2357|TWO_SIDED|95.0|-1.86|7.5|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||7.50|-1.86|0.2357
92276737|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.5|||||TWO_SIDED|95.0|0.13|0.87||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery Cho/Cr at 8 weeks||0.87|0.13|
92361109|NCT00402987|184625768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.95||||0.076||95.0|0.9|4.1|||Regression, Logistic|Treatment as a factor||||4.1|0.9|0.076
92361110|NCT00402987|184625768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.733||95.0|0.6|2.2|||Regression, Logistic|Treatment as a factor||||2.2|0.6|0.733
92361111|NCT00402987|184625769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.33||||0.03||95.0|1.1|5.0|||Regression, Logistic|Treatment as a factor||||5.0|1.1|0.030
92361112|NCT00402987|184625769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.33||||0.064||95.0|1.0|5.7|||Regression, Logistic|Treatment as a factor||||5.7|1.0|0.064
92361113|NCT00402987|184625769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.83||||0.201||95.0|0.7|4.6|||Regression, Logistic|Treatment as a factor||||4.6|0.7|0.201
92361114|NCT00402987|184625769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.575||95.0|0.5|3.0|||Regression, Logistic|Treatment as a factor||||3.0|0.5|0.575
92402211|NCT00656513|184695040|SUPERIORITY|||||||0.83||||||6-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.83
92402212|NCT00656513|184695040|SUPERIORITY|||||||0.28||||||9-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.28
92402213|NCT00656513|184695040|SUPERIORITY|||||||0.89||||||15-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.89
92165536|NCT05764161|184219615|SUPERIORITY||Least Squares Mean Difference|1.41|STANDARD_ERROR_OF_MEAN|2.567||0.5839|TWO_SIDED|95.0|-3.66|6.47|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||6.47|-3.66|0.5839
92165537|NCT03861767|184219647|SUPERIORITY||Odds Ratio (OR)|1.14|||||TWO_SIDED|95.0|0.67|1.97||||||Low dose groups collapsed and compared to placebo||1.97|0.67|
92165538|NCT03861767|184219647|SUPERIORITY||Odds Ratio (OR)|0.72|||||TWO_SIDED|95.0|0.42|1.25||||||Intermediate dose groups were collapsed and compared to placebo||1.25|0.42|
92361115|NCT00402987|184625769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0||||1||95.0|0.4|2.2|||Regression, Logistic|Treatment as a factor||||2.2|0.4|1.000
92361116|NCT00402987|184625769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.624||95.0|0.5|3.3|||Regression, Logistic|Treatment as a factor||||3.3|0.5|0.624
92361117|NCT00402987|184625770|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.28|||<|0.001||95.0|0.7|1.9||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.9|0.7|<0.001
92361118|NCT00402987|184625770|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.88||||0.003||95.0|0.3|1.5||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.5|0.3|0.003
92361119|NCT00402987|184625770|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.177||95.0|-1.0|0.2||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||0.2|-1.0|0.177
92361120|NCT00402987|184625770|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.25|||<|0.001||95.0|3.0|7.5||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||7.5|3.0|<0.001
92361121|NCT00402987|184625770|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.54|||<|0.001||95.0|2.3|6.8||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||6.8|2.3|<0.001
92361122|NCT00402987|184625770|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.72||||0.531||95.0|-3.0|1.5||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.5|-3.0|0.531
92402214|NCT00656513|184695041|SUPERIORITY|||||||0.54||||||4-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.54
92402215|NCT00656513|184695041|SUPERIORITY|||||||0.99||||||6-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.99
92402216|NCT00656513|184695041|SUPERIORITY|||||||0.56||||||6-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.56
92402217|NCT00656513|184695041|SUPERIORITY|||||||0.58||||||6-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.58
92402218|NCT00656513|184695042|SUPERIORITY|||||||0.14||||||Two-sided test, significance level 0.05|t-test, 2 sided|||||||0.14
92402219|NCT00333775|184695059|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0318|TWO_SIDED|95.0|0.63|0.98|||Log Rank|||||0.98|0.63|0.0318
92402220|NCT00333775|184695059|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.72||||0.0036|TWO_SIDED|95.0|0.57|0.9|||Log Rank|||||0.90|0.57|0.0036
92402221|NCT00333775|184695062|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.1105|TWO_SIDED|95.0|0.69|1.04|||Log Rank|||||1.04|0.69|0.1105
92402222|NCT00333775|184695062|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0241|TWO_SIDED|95.0|0.65|0.97|||Log Rank|||||0.97|0.65|0.0241
92402223|NCT00333775|184695063|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.6962|TWO_SIDED|95.0|0.62|1.37|||Log Rank|||||1.37|0.62|0.6962
92402224|NCT00333775|184695063|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0765|TWO_SIDED|95.0|0.45|1.04|||Log Rank|||||1.04|0.45|0.0765
92402225|NCT03165617|184695064|SUPERIORITY|Success criterion were met as the LL of the 2-sided 95% CI was above 20%.|Absolute Efficacy|54.63|||||TWO_SIDED|95.0|45.67|62.12||||||Statistical Analysis title - Absolute Vaccine Efficacy Any Strain. Adjusted aVE for QIVc vs. comparator. Success criteria for the primary efficacy endpoint was met if the LL of the 2-sided 95% CI of the aVE estimate was greater than 20% (primary endpoint) using the protocol definition of ILI for the entire age range (2 to \<18 years of age).||62.12|45.67|
92224038|NCT01077973|184349392|SUPERIORITY_OR_OTHER||LS mean difference|-0.42||||0.281|TWO_SIDED|95.0|-1.17|0.34||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.34|-1.17|0.281
92361123|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.07|||<|0.001||95.0|4.4|13.7||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||13.7|4.4|<0.001
92361124|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.46|||<|0.001||95.0|4.7|16.2||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||16.2|4.7|<0.001
92361125|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.96||||0.041||95.0|0.2|11.7||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||11.7|0.2|0.041
92361126|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.39||||0.633||95.0|-7.1|4.3||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||4.3|-7.1|0.633
92361127|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.11||||0.284||95.0|-2.6|8.8||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||8.8|-2.6|0.284
92361128|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.5||||0.18||95.0|-2.1|11.1||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||11.1|-2.1|0.180
92402226|NCT03165617|184695065|SUPERIORITY|Success criteria was met as the LL of the 2-sided 95% CI of the VE estimate was greater than 30% (co-primary endpoint)|Absolute Vaccine Efficacy|54.03|||||TWO_SIDED|95.0|44.8|61.71||||||Statistical analysis title - Absolute Vaccine Efficacy, Any Strain Adjusted aVE for QIVc vs. comparator. Success criteria for the primary efficacy endpoint was met if the LL of the 2-sided 95% CI of the aVE estimate was greater than 30% (co-primary endpoint) using the protocol definition of ILI for the entire age range (≥ 3 to \<18 years of age).||61.71|44.8|
92402227|NCT03165617|184695066|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<18 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|54.63|||||TWO_SIDED|95.0|45.67|62.12||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<18yrs||62.12|45.67|
92402228|NCT03165617|184695066|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<9 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|50.51|||||TWO_SIDED|95.0|38.43|60.22||||||Statistical analysis title: Absolute Vaccine Efficacy, Any Strain, 2 to \<9yrs||60.22|38.43|
92276738|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.78|||||TWO_SIDED|95.0|0.47|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cr at 8 weeks||1|0.47|
92361129|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.57||||0.009||95.0|3.4|23.7||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||23.7|3.4|0.009
92361130|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.15||||0.026||95.0|1.7|26.6||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||26.6|1.7|0.026
92361131|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.39||||0.138||95.0|-3.0|21.8||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||21.8|-3.0|0.138
92361132|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59||||0.926||95.0|-13.0|11.8||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||11.8|-13.0|0.926
92361133|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.18||||0.507||95.0|-8.2|16.6||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||16.6|-8.2|0.507
92361134|NCT00402987|184625771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.77||||0.513||95.0|-9.6|19.1||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||19.1|-9.6|0.513
92361135|NCT00402987|184625772|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.93||||0.023||95.0|1.2|7.4|||Regression, Logistic|Treatment as a factor||||7.4|1.2|0.023
92361136|NCT00402987|184625772|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.13||||0.015||95.0|1.2|7.9|||Regression, Logistic|Treatment as a factor||||7.9|1.2|0.015
92361137|NCT00402987|184625772|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.07||||0.854||95.0|0.5|2.2|||Regression, Logistic|Treatment as a factor||||2.2|0.5|0.854
92165539|NCT03861767|184219647|SUPERIORITY||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.61|1.84||||||High dose groups were collapsed and compared to placebo||1.84|0.61|
92165540|NCT03861767|184219648|SUPERIORITY||Odds Ratio (OR)|1.03||||0.92|TWO_SIDED|95.0|0.52|2.03|||Regression, Logistic|||All intervention groups were grouped together and compared to placebo||2.03|0.52|0.92
92361138|NCT00402987|184625773|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.46||||0.013||95.0|1.3|9.2|||Regression, Logistic|Treatment as a factor||||9.2|1.3|0.013
92361139|NCT00402987|184625773|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.03||||0.003||95.0|1.7|14.5|||Regression, Logistic|Treatment as a factor||||14.5|1.7|0.003
92361140|NCT00402987|184625773|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.99||||0.057||95.0|1.0|9.2|||Regression, Logistic|Treatment as a factor||||9.2|1.0|0.057
92361141|NCT00402987|184625773|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.758||95.0|0.5|2.9|||Regression, Logistic|Treatment as a factor||||2.9|0.5|0.758
92361142|NCT00402987|184625773|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.69||||0.381||95.0|0.3|1.6|||Regression, Logistic|Treatment as a factor||||1.6|0.3|0.381
92361143|NCT00402987|184625773|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.68||||0.313||95.0|0.6|4.6|||Regression, Logistic|Treatment as a factor||||4.6|0.6|0.313
92361144|NCT00402987|184625774|SUPERIORITY_OR_OTHER_LEGACY||NNT at 6 hours|8.2||||||95.0|4.5|46.4||||||NNT is the inverse of the absolute risk reduction at 6 hours||46.4|4.5|
92402229|NCT03165617|184695066|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 4 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|53.33|||||TWO_SIDED|95.0|43.38|61.54||||||Statistical analysis title: Absolute Vaccine Efficacy, Any Strain, 4 to \<18yrs||61.54|43.38|
92402230|NCT03165617|184695066|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 9 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|61.85|||||TWO_SIDED|95.0|47.37|72.34||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 9 to \<18yrs||72.34|47.37|
92402231|NCT03165617|184695067|SUPERIORITY|Absolute Vaccine Efficacy (aVE) for 2 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints|Absolute Vaccine Efficacy|54.63|||||TWO_SIDED|95.0|45.67|62.12||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<18yrs||62.12|45.67|
92402232|NCT03165617|184695067|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<9 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|60.78|||||TWO_SIDED|95.0|49.01|69.83||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<9yrs||69.83|49.01|
92402233|NCT03165617|184695067|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 4 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|59.66|||||TWO_SIDED|95.0|49.08|68.05||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 4 to \<18yrs||68.05|49.08|
92402234|NCT03165617|184695067|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 9 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|60.72|||||TWO_SIDED|95.0|42.14|73.33||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 9 to \<18yrs||73.33|42.14|
92361145|NCT00402987|184625774|SUPERIORITY_OR_OTHER_LEGACY||NNT at 6 hours|7.5||||||95.0|4.3|32.0||||||NNT is the inverse of the absolute risk reduction at 6 hours||32.0|4.3|
92361146|NCT00402987|184625775|SUPERIORITY_OR_OTHER_LEGACY||NNT at 12 hours|7.5||||||95.0|4.3|28.7||||||NNT is the inverse of the absolute risk reduction at 12 hours||28.7|4.3|
92361147|NCT00402987|184625775|SUPERIORITY_OR_OTHER_LEGACY||NNT at 12 hours|5.0||||||95.0|3.0|16.7||||||NNT is the inverse of the absolute risk reduction at 12 hours||16.7|3.0|
92361148|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.77|||<|0.001||95.0|1.9|7.6||Analysis for 2 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||7.6|1.9|<0.001
92361149|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.72||||0.005||95.0|1.3|5.5||Analysis for 2 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||5.5|1.3|0.005
92361150|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.72||||0.286||95.0|0.4|1.3||Analysis for 2 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||1.3|0.4|0.286
92361151|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.37||||0.001||95.0|1.6|7.1||Analysis for 6 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||7.1|1.6|0.001
92361152|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.05||||0.004||95.0|1.4|6.5||Analysis for 6 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||6.5|1.4|0.004
92361153|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.9||||0.752||95.0|0.5|1.7||Analysis for 6 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||1.7|0.5|0.752
92361154|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.57|||<|0.001||95.0|1.9|10.7||Analysis for 2 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||10.7|1.9|<0.001
92361155|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.68||||0.003||95.0|1.6|8.7||Analysis for 2 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||8.7|1.6|0.003
92361156|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.81||||0.511||95.0|0.4|1.5||Analysis for 2 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||1.5|0.4|0.511
92361157|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.05||||0.009||95.0|1.3|7.0||Analysis for 6 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||7.0|1.3|0.009
92361158|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.88||||0.014||95.0|1.2|6.7||Analysis for 6 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||6.7|1.2|0.014
92361159|NCT00402987|184625776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.94||||0.863||95.0|0.5|1.9||Analysis for 6 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||1.9|0.5|0.863
92361160|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.92||||0.004||95.0|1.4|6.1||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||6.1|1.4|0.004
92361161|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.37||||0.052||95.0|1.0|5.7||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||5.7|1.0|0.052
92276739|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cho at 16 weeks||1|1|
92165541|NCT03861767|184219649|SUPERIORITY||Odds Ratio (OR)|1.08||||0.8|TWO_SIDED|95.0|0.52|2.0|||Regression, Logistic|||All intervention groups were grouped together and compared to placebo||2.00|0.52|0.80
92276740|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|0.89|||||TWO_SIDED|95.0|0.63|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery Cho/Cr at 16 weeks||1|0.63|
92276741|NCT00433381|184454887|OTHER|ROC analysis|Area Under the Curve (AUC)|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cr at 16 weeks||1|1|
92276742|NCT00433381|184454888|OTHER||||||||||||||||||The determination of treatment efficacy was to be made made based on the following rules: If 16 or more of the cases (16/57=28.1%) are progression free and alive at 6 months, then reject the null hypothesis that the rate is no better than 20%. If 15 or fewer of the cases (15/57=26.3%) are progression free and alive at 6 months, then reject the alternative hypothesis that the rate is at least 35%.|||
92276743|NCT00433381|184454890|OTHER|Agreement was assessed using a Kappa statistic|Kappa Statistic|0.39|||||TWO_SIDED|95.0|0.21|0.57||||||Agreement between Local and Central determinations 6-month PFS, based on imaging, was evaluated using Kappa statistics||0.57|0.21|
92276744|NCT00433381|184454891|OTHER|Sensitivity|Sensitivity|0.6|||||TWO_SIDED|95.0|0.46|0.73||||||Sensitivity||0.73|0.46|
92276745|NCT00433381|184454891|OTHER|Specificity|Specificity|0.78|||||TWO_SIDED|95.0|0.66|0.87||||||Specificity||0.87|0.66|
92276746|NCT01387282|184454898|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon rank sum test|||Superiority analysis||||< 0.0001
92276747|NCT01387282|184454899|SUPERIORITY_OR_OTHER|||||||0.648|||||||Wilcoxon rank sum test|||Superiority analysis||||0.6480
92276748|NCT01387282|184454900|SUPERIORITY_OR_OTHER|||||||0.0016|||||||Mixed Models Analysis|||Superiority analysis||||0.0016
92276749|NCT01387282|184454901|SUPERIORITY_OR_OTHER|||||||0.8637|||||||Mixed Models Analysis|||Superiority analysis||||0.8637
92276750|NCT01387282|184454902|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||Superiority analysis||||< 0.0001
92276751|NCT01034137|184454942|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.996|||<|0.001|TWO_SIDED|95.0|1.589|2.506|||Cochran-Mantel-Haenszel|||The SRR was compared between the treatment groups by means of the Cochran-Mantel-Haenszel (CMH) test taking into account the stratification factors used for randomization.||2.506|1.589|< 0.001
92276752|NCT01034137|184454942|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.855|||<|0.001|TWO_SIDED|95.0|1.481|2.323|||Cochran-Mantel-Haenszel|||The SRR was compared between the treatment groups by means of the CMH test taking into account the stratification factors used for randomization.||2.323|1.481|< 0.001
92276753|NCT01034137|184454942|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||0.616|TWO_SIDED|95.0|0.915|1.16|||Cochran-Mantel-Haenszel|||The SRR was compared between the treatment groups by means of the CMH test taking into account the stratification factors used for randomization.||1.160|0.915|0.616
92165542|NCT03861767|184219650|SUPERIORITY||Odds Ratio (OR)|1.23||||0.65|TWO_SIDED|95.0|0.49|3.11|||Regression, Logistic|||All intervention groups were grouped together and compared to placebo||3.11|0.49|0.65
92276754|NCT02410252|184455005|OTHER||%|100.0|||||TWO_SIDED|||||There was no statistical analysis conducted on demographic characteristics or baseline surveys|descriptive analysis|||Descriptive statistics were used to characterize the study sample, and survey responses.||||
92276755|NCT02410252|184455005|OTHER|Only percents were calculated, no formal statistical analysis was completed.||||||||||||Statistical analysis was not completed. This was a feasibility study with small n and was not powered to determine statistical significance.||||Only percent will be calculated. No statistical analysis will be conducted.|No statistical analysis was conducted as part of this study.|||
92276756|NCT02410252|184455006|OTHER||%|0.29||||0.13|TWO_SIDED|||||Significance was set at p\<0.05|Cochran-Mantel-Haenszel|||"GAD-7 scores were coded as a categorical variable as follows: mild anxiety (total score 0 to 5) and moderate/ severe anxiety (total score 6-15).~Proportion of participants with mild and moderate/ severe anxiety at enrollment and closeout was compared using Cochran's Q test."||||0.13
92276757|NCT02410252|184455007|OTHER||%|84.0||||0.05|TWO_SIDED||||||descriptive analysis|||Descriptive statistics were used to characterize the study sample, and survey responses. All analysis was conducted using STATA version 14.2 with an alpha of 0.05 set a priori. Since this was an exploratory study with descriptive statistics, a complete case analysis approach was adopted for this study||||0.05
92276758|NCT00387712|184455014|OTHER|Analysis of variance between groups across time is the primary analyses.||||||0.001||||||Group (high velocity training vs. low velocity duration training) by time (baseline to post-6 months) for the primary outcome category (peak fitness) using repeated measures analysis of variance. No adjustment for multiple comparisons is needed.|ANOVA|No other adjustments such as degrees of freedom was necessary.||"Power Calculation: It was calculated that 29 subjects should be randomized to 2 groups to achieve a significant time by group interaction for peak fitness for high-velocity or low velocity duration training groups, assuming a power of 90 percent power and alpha = 0.01, two-tailed analyses.~Primary analyses is a group by time analysis of variance in peak fitness levels between the higher-intensity and lower intensity training groups across baseline to 6 months post-exercise time points."||||0.001
92361162|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.13||||0.095||95.0|0.9|5.1||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||5.1|0.9|0.095
92165543|NCT03861767|184219651|SUPERIORITY||Odds Ratio (OR)|1.62||||0.23|TWO_SIDED|95.0|0.73|3.62|||Regression, Logistic|||All intervention groups were grouped together and compared to placebo||3.62|0.73|0.23
92361163|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.38||||0.431||95.0|0.6|3.0||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||3.0|0.6|0.431
92361164|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.23||||0.602||95.0|0.6|2.7||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||2.7|0.6|0.602
92361165|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.814||95.0|0.4|2.8||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||2.8|0.4|0.814
92361166|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.88||||0.014||95.0|1.2|6.7||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||6.7|1.2|0.014
92361167|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.23||||0.016||95.0|1.2|8.4||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||8.4|1.2|0.016
92361168|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.54||||0.063||95.0|0.9|6.8||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||6.8|0.9|0.063
92402235|NCT03165617|184695068|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<18 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|60.81|||||TWO_SIDED|95.0|51.3|68.46||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<18yrs||68.46|51.3|
92402236|NCT03165617|184695068|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<9 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|60.78|||||TWO_SIDED|95.0|49.01|69.83||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<9yrs||69.83|49.01|
92402237|NCT03165617|184695068|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 9 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|59.66|||||TWO_SIDED|95.0|49.08|68.05||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 9 to \<18yrs||68.05|49.08|
92361169|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.13||||0.775||95.0|0.5|2.7||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||2.7|0.5|0.775
92361170|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.89||||0.779||95.0|0.4|2.0||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||2.0|0.4|0.779
92402238|NCT03165617|184695068|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 9 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|60.72|||||TWO_SIDED|95.0|42.14|73.33||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 9 to \<18yrs||73.33|42.14|
92361171|NCT00402987|184625777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.624||95.0|0.5|3.3||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||3.3|0.5|0.624
92402239|NCT03165617|184695069|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<18 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|63.64|||||TWO_SIDED|95.0|53.64|71.48||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<18yrs||71.48|53.64|
92402240|NCT03165617|184695069|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<9 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|63.04|||||TWO_SIDED|95.0|50.66|72.32||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<9yrs||72.32|50.66|
92402241|NCT03165617|184695069|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 4 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|61.58|||||TWO_SIDED|95.0|50.25|70.53||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 4 to \<18yrs||70.53|50.25|
92165544|NCT03861767|184219652|SUPERIORITY||Odds Ratio (OR)|1.42||||0.31|TWO_SIDED|95.0|0.71|2.86|||Regression, Logistic|||All intervention groups were grouped together and compared to placebo||2.86|0.71|0.31
92165545|NCT03861767|184219653|SUPERIORITY||Beta-coefficient|0.0011|STANDARD_ERROR_OF_MEAN|0.042||0.97|TWO_SIDED||||||Regression, Linear|||All intervention groups were grouped together and compared to placebo||||0.97
92165546|NCT03861767|184219654|SUPERIORITY||Beta-coefficient|-0.76|STANDARD_ERROR_OF_MEAN|0.74||0.3|TWO_SIDED||||||Regression, Linear|||All intervention groups were grouped together and compared to placebo||||0.30
92165547|NCT03861767|184219655|SUPERIORITY||Beta-coefficient|0.27|STANDARD_ERROR_OF_MEAN|0.59||0.65|TWO_SIDED||||||Regression, Linear|||All intervention groups were grouped together and compared to placebo||||0.65
92165548|NCT03861767|184219657|SUPERIORITY||Odds Ratio (OR)|1.45||||0.27|TWO_SIDED|95.0|0.74|2.86|||Regression, Logistic|||||2.86|0.74|0.27
92361172|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Analysis for meaningful Relief at 2 hours|Regression, Logistic|Treatment as a factor||||||0.001
92361173|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||Analysis for meaningful Relief at 2 hours|Regression, Logistic|Treatment as a factor||||||0.012
92361174|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.453||95.0||||Analysis for meaningful Relief at 2 hours|Regression, Logistic|Treatment as a factor||||||0.453
92361175|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis for meaningful Relief at 6 hours|Regression, Logistic|Treatment as a factor||||||<0.001
92361176|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Analysis for meaningful Relief at 6 hours|Regression, Logistic|Treatment as a factor||||||0.001
92361177|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.814||95.0||||Analysis for meaningful Relief at 6 hours|Regression, Logistic|Treatment as a factor||||||0.814
92361178|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024||95.0||||Analysis for Much Improvement at 2 hours|Regression, Logistic|Treatment as a factor||||||0.024
92361179|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0||||Analysis for Much Improvement at 2 hours|Regression, Logistic|Treatment as a factor||||||0.022
92361180|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.966||95.0||||Analysis for Much Improvement at 2 hours|Regression, Logistic|Treatment as a factor||||||0.966
92361181|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Analysis for Much Improvement at 6 hours|Regression, Logistic|Treatment as a factor||||||0.001
92361182|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Analysis for Much Improvement at 6 hours|Regression, Logistic|Treatment as a factor||||||0.001
92361183|NCT00402987|184625778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.798||95.0||||Analysis for Much Improvement at 6 hours|Regression, Logistic|Treatment as a factor||||||0.798
92361184|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||<0.001
92361185|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||<0.001
92276759|NCT00387712|184455015|OTHER|Primary analyses is a group by time analysis of variance in myosin heavy chain levels levels between the higher-intensity and lower intensity training groups across baseline to 6 months post-exercise time points.||||||0.11|||||||ANOVA|||Power Calculation: It was calculated that 22 participants should be randomized to 2 groups to achieve a significant time by group interaction for myosin heavy chain isoforms for high-velocity or low velocity duration training groups, assuming a power of 90 percent power and alpha = 0.01, two-tailed analyses.||||0.11
92361186|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||0.008
92361187|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.709||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||0.709
92402242|NCT03165617|184695069|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 9 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|64.78|||||TWO_SIDED|95.0|44.84|77.51||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 9 to \<18yrs||77.51|44.84|
92402243|NCT00412984|184695079|SUPERIORITY|With an average 2.1 years follow-up and assuming a stroke rate of 1.20 per hundred patient-years, \~18,000 randomized subjects allocated in a 1:1 ratio to apixaban or warfarin group would be needed to achieve the desired power. These calculations assumed an incidence of 1% loss to follow-up. Non-inferiority for the primary efficacy endpoint will be assessed first. If non-inferiority (using a NI margin of 1.38) is demonstrated then, superiority for the primary efficacy endpoint will be tested|Hazard Ratio (HR)|0.79||||0.0114|TWO_SIDED|95.0|0.66|0.95||2-sided P-value for superiority test|Cox Proportional Hazards Model|Model included treatment group as a covariate; stratified by investigative site and prior warfarin/vitamin K antagonist status. (experienced, naïve).|apixaban / warfarin|With 448 subjects with confirmed strokes or systemic emboli, study would have at least 90% power to meet both regulatory definitions of non-inferiority described in the following: (1) the non-inferiority (NI) of apixaban relative to warfarin was demonstrated if the upper bound of the two-sided 95% confidence interval (CI) for relative risk (RR) was less than 1.38; (2) the NI of apixaban relative to warfarin was demonstrated if the upper bound of the two-sided 99% CI for RR was less than 1.44.||.95|.66|0.0114
92402244|NCT00412984|184695081|SUPERIORITY|"4 key objectives were tested using a closed testing procedure. NI for the primary efficacy will be tested 1st. If NI is demonstrated then~1. superiority for the primary efficacy will be tested~2. if superiority for the primary efficacy is~   1. not demonstrated, stop~  2. demonstrated, then superiority for MB will be tested~3. if superiority for MB is~   1. not demonstrated, stop~  2. demonstrated, then superiority for all cause death will be tested All tests will be done at 1-sided α = 0.025"|Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.6|0.8|||Cox Proportional Hazards Model|Model included treatment group as a covariate; stratified by investigative site and prior warfarin/vitamin K antagonist status.|apixaban / warfarin|||0.80|0.60|<.0001
92402245|NCT00412984|184695083|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.0465|TWO_SIDED|95.0|0.8|1.0|||Cox Proportional Hazards Model|Model included treatment group as a covariate; stratified by investigative site and prior warfarin/vitamin K antagonist status.|apixaban / warfarin|"4 key objectives were tested using a closed testing procedure. NI for the primary efficacy will be tested 1st. If NI is demonstrated then~1. superiority for the primary efficacy will be tested~2. if superiority for the primary efficacy is~   1. not demonstrated, stop~  2. demonstrated, then superiority for MB will be tested~3. if superiority for MB is~   1. not demonstrated, stop~  2. demonstrated, then superiority for all cause death will be tested All tests will be done at 1-sided α = 0.025"||1.00|0.80|0.0465
92402246|NCT00412984|184695084|OTHER||Hazard Ratio (HR)|0.92||||0.422|TWO_SIDED|95.0|0.74|1.13||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Ischemic or Unspecified Stroke||1.13|0.74|0.4220
92165549|NCT03861767|184219658|SUPERIORITY||Odds Ratio (OR)|2.98||||0.01|TWO_SIDED|95.0|1.19|7.44|||Regression, Logistic|||All intervention groups were collapsed and compared to placebo||7.44|1.19|0.01
92361188|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.331||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||0.331
92361189|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.246||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||0.246
92361190|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||0.001
92361191|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||<0.001
92361192|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.219||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||0.219
92361193|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.095||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||0.095
92361194|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.463||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||0.463
92361195|NCT00402987|184625779|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||0.038
92361196|NCT00402987|184625780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||Regression, Logistic|Treatment as a factor||||||0.001
92361197|NCT00402987|184625780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0|||||Regression, Logistic|Treatment as a factor||||||0.008
92361198|NCT00402987|184625780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.557||95.0|||||Regression, Logistic|Treatment as a factor||||||0.557
92361199|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||<0.001
92361200|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||0.002
92361201|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||0.036
92361202|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.339||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||0.339
92361203|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||1.000
92224039|NCT01077973|184349392|SUPERIORITY_OR_OTHER||LS mean difference|-0.21||||0.582|TWO_SIDED|95.0|-0.97|0.55||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.55|-0.97|0.582
92224040|NCT01077973|184349392|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.523|TWO_SIDED|95.0|-0.83|0.42||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.42|-0.83|0.523
92361204|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.401||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||0.401
92361205|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.003
92361206|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.002
92361207|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.223||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.223
92361208|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.198||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.198
92361209|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.604||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.604
92361210|NCT00402987|184625781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.117||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.117
92361211|NCT00402987|184625784|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||Regression, Logistic|Treatment as a factor||||||0.001
92224041|NCT01077973|184349393|SUPERIORITY_OR_OTHER||LS mean difference|-0.45||||0.327|TWO_SIDED|95.0|-1.35|0.45||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.45|-1.35|0.327
92361212|NCT00402987|184625784|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Regression, Logistic|Treatment as a factor||||||<0.001
92361213|NCT00402987|184625784|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||95.0|||||Regression, Logistic|Treatment as a factor||||||0.025
92361214|NCT00402987|184625784|SUPERIORITY_OR_OTHER_LEGACY|||||||0.539||95.0|||||Regression, Logistic|Treatment as a factor||||||0.539
92361215|NCT00402987|184625784|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329||95.0|||||Regression, Logistic|Treatment as a factor||||||0.329
92361216|NCT00402987|184625784|SUPERIORITY_OR_OTHER_LEGACY|||||||0.171||95.0|||||Regression, Logistic|Treatment as a factor||||||0.171
92361217|NCT00402987|184625785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0|||||Regression, Logistic|Treatment as a factor||||||0.007
92361218|NCT00402987|184625785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.244||95.0|||||Regression, Logistic|Treatment as a factor||||||0.244
92361219|NCT00402987|184625785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.096||95.0|||||Regression, Logistic|Treatment as a factor||||||0.096
92361220|NCT00402987|184625785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.579||95.0|||||Regression, Logistic|Treatment as a factor||||||0.579
92361221|NCT00402987|184625785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.277||95.0|||||Regression, Logistic|Treatment as a factor||||||0.277
92361222|NCT00402987|184625785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.649||95.0|||||Regression, Logistic|Treatment as a factor||||||0.649
92361223|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.4|||<|0.001||95.0|7.5|23.2||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||23.2|7.5|<0.001
92361224|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.4||||0.003||95.0|4.9|24.0||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||24.0|4.9|0.003
92361225|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.2||||0.096||95.0|-1.5|17.8||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||17.8|-1.5|0.096
92361226|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.2||||0.141||95.0|-2.4|16.8||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||16.8|-2.4|0.141
92361227|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.849||95.0|-8.6|10.5||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||10.5|-8.6|0.849
92361228|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.3||||0.266||95.0|-4.8|17.4||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||17.4|-4.8|0.266
92361229|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.3||||0.141||95.0|-5.4|0.8||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||0.8|-5.4|0.141
92361230|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.312||95.0|-5.7|1.8||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||1.8|-5.7|0.312
92361231|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.724||95.0|-4.5|3.1||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||3.1|-4.5|0.724
92361232|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.398||95.0|-5.4|2.1||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||2.1|-5.4|0.398
92361233|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.846||95.0|-4.1|3.4||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||3.4|-4.1|0.846
92361234|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||0.572||95.0|-5.6|3.1||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||3.1|-5.6|0.572
92361235|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.8||||0.014||95.0|1.2|10.4||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||10.4|1.2|0.014
92361236|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6||||0.573||95.0|-4.0|7.2||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||7.2|-4.0|0.573
92361237|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.482||95.0|-7.7|3.6||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||3.6|-7.7|0.482
92361238|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.8||||0.007||95.0|2.2|13.5||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||13.5|2.2|0.007
92361239|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.2||||0.143||95.0|-1.4|9.8||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||9.8|-1.4|0.143
92361240|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.6||||0.273||95.0|-2.9|10.2||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||10.2|-2.9|0.273
92361241|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.0||||0.003||95.0|4.4|21.6||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||21.6|4.4|0.003
92361242|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.7||||0.029||95.0|1.2|22.2||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||22.2|1.2|0.029
92361243|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.2||||0.251||95.0|-4.4|16.8||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||16.8|-4.4|0.251
92361244|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.8||||0.204||95.0|-3.7|17.4||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||17.4|-3.7|0.204
92361245|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3||||0.808||95.0|-9.2|11.8||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||11.8|-9.2|0.808
92361246|NCT00402987|184625786|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.5||||0.371||95.0|-6.6|17.7||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||17.7|-6.6|0.371
92361247|NCT00402987|184625787|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||<0.001
92361248|NCT00402987|184625787|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.002
92361249|NCT00402987|184625787|SUPERIORITY_OR_OTHER_LEGACY|||||||0.235||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.235
92361250|NCT00402987|184625787|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.012
92361251|NCT00402987|184625787|SUPERIORITY_OR_OTHER_LEGACY|||||||0.438||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.438
92361252|NCT00402987|184625787|SUPERIORITY_OR_OTHER_LEGACY|||||||0.067||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.067
92361253|NCT00402987|184625788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.128||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.128
92361254|NCT00402987|184625788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.123||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.123
92361255|NCT00402987|184625788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.266||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.266
92361256|NCT00402987|184625788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.849||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.849
92361257|NCT00402987|184625788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.828||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.828
92361258|NCT00402987|184625788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.741
92361259|NCT01668004|184625789|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|||Treatment comparison of uveitis occurrence rate assessed 1 year before initial anti-TNF/GLM treatment and 1 year after start of GLM treatment. Number of subjects included in analysis: N=93.||||1.0000
92361260|NCT01668004|184625790|SUPERIORITY_OR_OTHER||Treatment Ratio|4.5|||<|0.0001|TWO_SIDED|95.0|3.86|5.25|||Generalized estimating equation|||Treatment difference (expressed as ratio) in uveitis incidence rate assessed 1 year before initial anti-TNF/GLM treatment and 1 year after start of GLM treatment. Number of subjects included in analysis: N=92.||5.25|3.86|<0.0001
92361261|NCT05528770|184625794|SUPERIORITY||Mean Difference (Final Values)|2.23|STANDARD_DEVIATION|8.98||0.4291|TWO_SIDED|95.0|-3.8|8.3|||t-test, 2 sided|||||8.3|-3.8|0.4291
92361262|NCT01605669|184625862|SUPERIORITY_OR_OTHER||Percentage Sensitivity|85.7||||||95.0||||||||||||
92361263|NCT01605669|184625862|SUPERIORITY_OR_OTHER||Percent Specificity|72.4||||||95.0||||||||||||
92361264|NCT01605669|184625862|SUPERIORITY_OR_OTHER||Percent Error Rate|25.0||||||95.0|||||||Error rate of 9/36 is equal to total of false positives plus false negatives over the total of participants analyzed.|||||
92361265|NCT04846231|184625863|SUPERIORITY||Mean Difference (Net)|35.22|||<|0.001|TWO_SIDED|95.0|29.13|41.32|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05. This belongs to the primary endpoint.||41.32|29.13|<0.001
92361266|NCT04846231|184625863|SUPERIORITY||Mean Difference (Net)|34.43|||<|0.001|TWO_SIDED|95.0|28.28|40.58|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||40.58|28.28|<0.001
92361267|NCT04846231|184625863|SUPERIORITY||Mean Difference (Net)|38.27|||<|0.001|TWO_SIDED|95.0|32.2|44.34|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||44.34|32.20|<0.001
92361268|NCT04846231|184625863|SUPERIORITY||Mean Difference (Net)|42.98|||<|0.001|TWO_SIDED|95.0|37.02|48.95|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||48.95|37.02|<0.001
92361269|NCT04846231|184625863|SUPERIORITY||Mean Difference (Final Values)|36.57|||<|0.001|TWO_SIDED|95.0|30.61|42.54|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||42.54|30.61|<0.001
92361270|NCT04846231|184625863|SUPERIORITY||Mean Difference (Net)|33.49|||<|0.001|TWO_SIDED|95.0|27.42|39.55|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||39.55|27.42|<0.001
92361271|NCT04846231|184625863|SUPERIORITY||Mean Difference (Net)|31.31|||<|0.001|TWO_SIDED|95.0|25.16|37.47|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||37.47|25.16|<0.001
92402247|NCT00412984|184695084|OTHER||Hazard Ratio (HR)|0.51||||0.0006|TWO_SIDED|95.0|0.35|0.75||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Hemorrhagic Stroke||0.75|0.35|0.0006
92402248|NCT00412984|184695084|OTHER||Hazard Ratio (HR)|0.87||||0.702|TWO_SIDED|95.0|0.44|1.75||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Systemic Embolism||1.75|0.44|0.7020
92402249|NCT00412984|184695084|OTHER||Hazard Ratio (HR)|0.88||||0.372|TWO_SIDED|95.0|0.66|1.17||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Myocardial Infarction||1.17|0.66|0.3720
92402250|NCT00412984|184695085|OTHER||Hazard Ratio (HR)|0.77|||<|0.0001|TWO_SIDED|95.0|0.69|0.86||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Stroke / Systemic Embolism / Major Bleeding||0.86|0.69|<.0001
92402251|NCT00412984|184695085|OTHER||Hazard Ratio (HR)|0.89||||0.0192|TWO_SIDED|95.0|0.81|0.98||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Stroke / Systemic Embolism / All-Cause Death||0.98|0.81|0.0192
92402252|NCT00412984|184695085|OTHER||Hazard Ratio (HR)|0.85||||0.0002|TWO_SIDED|95.0|0.78|0.92||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Stroke / Systemic Embolism / Major Bleeding / All-Cause Death||0.92|0.78|0.0002
92402253|NCT00412984|184695085|OTHER||Hazard Ratio (HR)|0.88||||0.0107|TWO_SIDED|95.0|0.8|0.97||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Stroke / Systemic Embolism / MI / All-Cause Death||0.97|0.80|0.0107
92402254|NCT00412984|184695085|OTHER||Hazard Ratio (HR)|0.9||||0.0432|TWO_SIDED|95.0|0.82|1.0||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Ischemic or Unspecified Stroke / All-Cause Death||1.00|0.82|0.0432
92402255|NCT00412984|184695085|OTHER||Hazard Ratio (HR)|0.88||||0.0167|TWO_SIDED|95.0|0.79|0.98||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Hemorrhagic Stroke / All-Cause Death||0.98|0.79|0.0167
92402256|NCT00412984|184695085|OTHER||Hazard Ratio (HR)|0.89||||0.0464|TWO_SIDED|95.0|0.8|1.0||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Systemic Embolism / All-Cause Death||1.00|0.80|0.0464
92402257|NCT00412984|184695085|OTHER||Hazard Ratio (HR)|0.89||||0.0253|TWO_SIDED|95.0|0.8|0.99||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Myocardial Infarction / All-Cause Death||0.99|0.80|0.0253
92361272|NCT04846231|184625865|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
92402258|NCT00412984|184695087|OTHER||Hazard Ratio (HR)|0.8||||0.0098|TWO_SIDED|95.0|0.67|0.95||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite Stroke/Systemic Embolism/Major Bleeding in Warfarin/Vitamin K Antagonist (VKA) Naive Participants||0.95|0.67|0.0098
92402259|NCT00412984|184695090|OTHER||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.0|0.61|0.75||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|||0.75|0.61|<.0001
92402260|NCT00412984|184695092|OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.68|0.75||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|||0.75|0.68|<.0001
92165550|NCT03861767|184219659|SUPERIORITY||Odds Ratio (OR)|2.67|||<|0.01|TWO_SIDED|95.0|1.34|5.3|||Regression, Logistic|||All intervention groups were collapsed and compared to placebo||5.30|1.34|<0.01
92165551|NCT03861767|184219660|SUPERIORITY||Odds Ratio (OR)|0.9||||0.72|TWO_SIDED|95.0|0.52|1.56|||Regression, Logistic|||All intervention groups were collapsed into one group and compared with placebo. Patients were compared whether they were discharged home or other.||1.56|0.52|0.72
92165552|NCT00723450|184219717|SUPERIORITY_OR_OTHER|||||||0.0717||95.0|||||Log Rank|A stratified log rank test was performed where the stratification factor was the index mood state at Screen visit.||||||0.0717
92361273|NCT02329587|184625873|OTHER||Between-group effect size (Hedge's g)|0.138|||||TWO_SIDED|||||||||||||
92361274|NCT02329587|184625874|OTHER||Between-group effect size (Hedge's g)|-0.214|||||TWO_SIDED|||||||||||||
92361275|NCT02329587|184625875|OTHER||Between-groups effect size (Hedge's g)|-0.007|||||TWO_SIDED|||||||||||||
92402261|NCT00412984|184695093|OTHER||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.35|0.6||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|Severe GUSTO bleeding events||0.60|0.35|<.0001
92165553|NCT00189202|184219741|EQUIVALENCE|Equivalence margin 8% plus or minus 4.||||||0.28|||||||Mantel Haenszel|||||||0.28
92165554|NCT00189202|184219742|OTHER|||||||0.7|||||||Kaplan-Meier|||||||0.70
92165555|NCT02326649|184219747|OTHER|||||||0.47|||||||paired t-test|||||||0.47
92361276|NCT02329587|184625876|OTHER||Between-group effect size (Hedge's g)|-0.151|||||TWO_SIDED|||||||||||||
92361277|NCT02329587|184625877|OTHER||Between-groups effect size (Hedge's g)|0.704|||||TWO_SIDED|||||||||||||
92224042|NCT01077973|184349393|SUPERIORITY_OR_OTHER||LS mean difference|-0.32||||0.489|TWO_SIDED|95.0|-1.21|0.58||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.58|-1.21|0.489
92361278|NCT02329587|184625878|OTHER||Odds Ratio (OR)|1.125|||||TWO_SIDED|||||||||||||
92361279|NCT00265122|184625905|SUPERIORITY_OR_OTHER|||||||0.337||95.0||||The P-Value is from a Cochran-Mantel-Haenszel (CMH) test stratified by the route of administration.|Cochran-Mantel-Haenszel|||Null hypothesis: No difference between ustekinumab and placebo at a significant level of 0.05.||||0.337
92361280|NCT00265122|184625907|SUPERIORITY_OR_OTHER|||||||0.292||95.0||||The P-Value is from a CMH test stratified by the route of administration.|Cochran-Mantel-Haenszel|||||||0.292
92361281|NCT01276106|184625908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.175||0.044|TWO_SIDED|95.0|-0.7|-0.01||No adjustments for multiple comparisons were made and a value of p\<0.05 was considered statistically significant.|ANCOVA|||Change from baseline in HbA1c was analyzed using an analysis of covariance model with change in HbA1c as the dependent variable, treatment as a fixed effect, and baseline HbA1c as a covariate.||-0.01|-0.70|0.044
92361282|NCT01276106|184625908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.176||0.0979|TWO_SIDED|95.0|-0.64|0.05||No adjustments for multiple comparisons were made and a value of p\<0.05 was considered statistically significant.|ANCOVA|||Change from baseline in HbA1c was analyzed using an analysis of covariance model with change in HbA1c as the dependent variable, treatment as a fixed effect, and baseline HbA1c as a covariate.||0.05|-0.64|0.0979
92361283|NCT01276106|184625908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.174||0.2643|TWO_SIDED|95.0|-0.54|0.15||No adjustments for multiple comparisons were made and a value of p\<0.05 was considered statistically significant.|ANCOVA|||Change from baseline in HbA1c was analyzed using an analysis of covariance model with change in HbA1c as the dependent variable, treatment as a fixed effect, and baseline HbA1c as a covariate.||0.15|-0.54|0.2643
92361284|NCT00862940|184625913|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.04|STANDARD_ERROR_OF_MEAN|1.3||0.9754|TWO_SIDED|95.0|-2.6|2.52|||Mixed Models Analysis|||Linear mixed model relating direct change in brain volume (BBSI) to time and its interaction with treatment group. This model additionally includes a time-by-AChEI group interaction as a fixed effect.||2.52|-2.60|0.9754
92361285|NCT00862940|184625914|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.5|STANDARD_ERROR_OF_MEAN|17.52||0.842|TWO_SIDED|95.0|-38.04|31.04|||MMRM|||Mixed model repeated measurements (MMRM) with unstructured covariance including time, time-by-treatment, visit, pre-treatment HCV, and AChEI group.||31.04|-38.04|0.842
92361286|NCT00862940|184625915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|STANDARD_ERROR_OF_MEAN|0.79||0.034|TWO_SIDED|95.0|0.13|3.23||The p-value represents the difference from placebo for COWAT at Week 52 (MMRM).|MMRM|||||3.23|0.13|0.034
92361287|NCT00862940|184625916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.46||0.602|TWO_SIDED|95.0|-0.67|1.15||The p-value represents the difference from placebo for MMSE at Week 52 (MMRM).|MMRM|||||1.15|-0.67|0.602
92361288|NCT00485173|184625917|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||<0.001
92402262|NCT00412984|184695093|OTHER||Hazard Ratio (HR)|0.6|||<|0.0001|TWO_SIDED|95.0|0.5|0.71||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|Severe or Moderate GUSTO bleeding events||0.71|0.50|<.0001
92361289|NCT00485173|184625917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||<0.001
92361290|NCT00485173|184625918|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||<0.001
92361291|NCT00485173|184625918|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.002
92361292|NCT00485173|184625919|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value was one-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.002
92361293|NCT00485173|184625920|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random sampling, based on covariance matrix produced by logistic regression using propensity score as a covariate.|Regression, Logistic|||||||<0.001
92361294|NCT00485173|184625920|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.011
92361295|NCT00485173|184625921|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||P-value was one-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.063
92361296|NCT00485173|184625922|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||<0.001
92361297|NCT00485173|184625922|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||<0.001
92361298|NCT00485173|184625923|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||P-value was one-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.031
92402263|NCT00412984|184695094|OTHER||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.46|0.7||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|Major TIMI bleeding event||0.70|0.46|<.0001
92402264|NCT00412984|184695094|OTHER||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.54|0.75|||Cox Proportional Hazard Model||apixaban / warfarin|Major or Minor TIMI bleeding criteria||0.75|0.54|<.0001
92402265|NCT00412984|184695096|OTHER||Hazard Ratio (HR)|0.74|||<|0.0001|TWO_SIDED|95.0|0.65|0.83||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|||0.83|0.65|<.0001
92402266|NCT04218240|184695102|SUPERIORITY|||||||0.05|||||||Chi-squared|1 degree of freedom||A nonparametric (Kruskal-Wallis) comparison of the two groups (p=0.049)||||.05
92361299|NCT00485173|184625924|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.||||||0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||0.001
92276760|NCT00387712|184455016|OTHER|Analysis of variance between groups across time is the primary analyses.||||||0.81||||||Group (high velocity training vs. low velocity duration training) by time (baseline to post-6 months) for the secondary outcome category (30 ft walk time - fastest comfortable gait) using repeated measures analysis of variance.|ANOVA|No other adjustments such as degrees of freedom was necessary.||Primary analyses is a group by time analysis of variance in 30 foot walk time (sec) between the higher-intensity and lower intensity training groups across baseline to 6 months post-exercise time points.||||0.81
92361300|NCT00485173|184625924|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.414
92361301|NCT00485173|184625925|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value was one-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.030
92361302|NCT00485173|184625926|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||<0.001
92361303|NCT00485173|184625926|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.017
92361304|NCT00485173|184625927|SUPERIORITY_OR_OTHER|||||||0.189||95.0||||P-value was one-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.189
92361305|NCT00485173|184625928|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.||||||0.003||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||0.003
92361306|NCT00485173|184625928|SUPERIORITY_OR_OTHER|||||||0.466||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.466
92361307|NCT00485173|184625929|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||<0.001
92361308|NCT00485173|184625929|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.133
92361309|NCT00485173|184625930|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was two-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||<0.001
92361310|NCT00485173|184625931|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was two-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||<0.001
92361311|NCT00485173|184625932|SUPERIORITY_OR_OTHER|||||||0.341||95.0||||P-value was two-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.341
92361312|NCT00485173|184625933|SUPERIORITY_OR_OTHER|||||||0.479||95.0||||P-value was two-sided, obtained from Cox regression and adjusted with propensity scores.|Regression, Cox|||||||0.479
92402267|NCT04218240|184695103|OTHER|Chi-square analysis||||||0.27|||||||Chi-squared|||hypothesis: more people in active PGB/LFX will complete withdrawal CI = 95% P = 0.5||||0.27
92402268|NCT02435212|184695127|SUPERIORITY||Least squares mean|2.58|STANDARD_ERROR_OF_MEAN|2.803||0.3598|TWO_SIDED|95.0|-2.99|8.15|||ANCOVA|||||8.15|-2.99|0.3598
92402269|NCT02435212|184695128|SUPERIORITY||Least squares mean|176.36|STANDARD_ERROR_OF_MEAN|153.933||0.2546|TWO_SIDED|95.0|-129.0|481.72|||ANCOVA|||||481.72|-129.00|0.2546
92402270|NCT00135226|184695169|OTHER||Rate Ratio|0.88||||0.01|TWO_SIDED|95.0|0.79|0.97|||Log Rank|||||0.97|0.79|0.01
92402271|NCT00135226|184695169|OTHER||Rate Ratio|0.97||||0.55|TWO_SIDED|95.0|0.87|1.08|||Log Rank|||||1.08|0.87|0.55
92402272|NCT00135226|184695170|OTHER||Rate Ratio|1.29||||0.003|TWO_SIDED|95.0|1.09|1.52|||Log Rank|||||1.52|1.09|0.003
92361313|NCT00485173|184625934|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was from logistic regression model by using propensity score and any ossification 'Yes/No' at preop as the covariates.|Regression, Logistic|||Statistical analysis at 24 months postoperation.||||<0.001
92361314|NCT04537650|184625935|SUPERIORITY||Odds Ratio (OR)|21.0|||<|0.001|TWO_SIDED|95.0|1.8|243.24|||Chi-squared|||||243.24|1.8|<0.001
92361315|NCT04537650|184625936|SUPERIORITY||Odds Ratio (OR)|45.0|||<|0.001|TWO_SIDED|95.0|4.15|487.5|||Chi-squared|||||487.5|4.15|<0.001
92402273|NCT00135226|184695171|OTHER||Rate Ratio|0.88|||||TWO_SIDED|95.0|0.8|0.97||||||||0.97|0.80|
92402274|NCT00135226|184695171|OTHER||Rate Ratio|1.0|||||TWO_SIDED|95.0|0.91|1.09||||||||1.09|0.91|
92402275|NCT00135226|184695172|OTHER||Rate Ratio|0.99|||||TWO_SIDED|95.0|0.8|1.24||||||||1.24|0.80|
92165556|NCT02326649|184219747|OTHER||Mean Difference (Final Values)|6.561|STANDARD_ERROR_OF_MEAN|5.528||0.255|TWO_SIDED|95.0|-5.295|18.417|||Regression, Linear|||Intercept for multilinear regression for difference in stroke volume controlling for difference in heart rate and blood pressure||18.417|-5.295|0.255
92361316|NCT00879398|184625943|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|t-test, 2 sided|||||||<0.0001
92361317|NCT00879398|184625944|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|t-test, 2 sided|||||||<0.0001
92361318|NCT00879398|184625945|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|t-test, 2 sided|||||||<0.0001
92361319|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||0.1319||95.0||||Statistical significant level: 0.05|Chi-squared|||Geriatric Status: \<65 years versus (vs) Geriatric Status: ≥65 years||||0.1319
92361320|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||0.601||95.0||||Statistical significant level: 0.05|Chi-squared|||Comparison among Age Categories: \<50 years, 50 to 59 years, 60 to 69 years, 70 to 79 years, and ≥80 years.||||0.6010
92361321|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||0.0289||95.0||||Statistical significant level: 0.05|Chi-squared|||Male vs Female||||0.0289
92402276|NCT00135226|184695173|OTHER||Rate Ratio|0.94|||||TWO_SIDED|95.0|0.85|1.04||||||||1.04|0.85|
92402277|NCT00135226|184695173|OTHER||Risk Ratio|0.95|||||TWO_SIDED|95.0|0.86|1.05||||||||1.05|0.86|
92402278|NCT00135226|184695174|OTHER||Rate Ratio|0.86|||||TWO_SIDED|95.0|0.66|1.12||||||||1.12|0.66|
92402279|NCT00135226|184695174|OTHER||Rate ratio|0.79|||||TWO_SIDED|95.0|0.61|1.02||||||||1.02|0.61|
92402280|NCT00135226|184695175|OTHER||Rate Ratio|1.12|||||TWO_SIDED|95.0|0.7|1.77||||||||1.77|0.7|
92402281|NCT00135226|184695175|OTHER||Rate Ratio|0.94|||||TWO_SIDED|95.0|0.59|1.5||||||||1.50|0.59|
92402282|NCT00135226|184695176|OTHER||Rate Ratio|0.96|||||TWO_SIDED|95.0|0.68|1.34||||||||1.34|0.68|
92402283|NCT00135226|184695176|OTHER||Rate Ratio|0.8|||||TWO_SIDED|95.0|0.57|1.12||||||||1.12|0.57|
92402284|NCT00135226|184695177|OTHER||Rate Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.15||||||||1.15|0.84|
92402285|NCT00135226|184695177|OTHER||Rate ratio|0.95|||||TWO_SIDED|95.0|0.82|1.12||||||||1.12|0.82|
92402286|NCT00135226|184695178|OTHER||Rate ratio|1.19|||||TWO_SIDED|95.0|0.86|1.63||||||||1.63|0.86|
92402287|NCT00135226|184695178|OTHER||Rate Ratio|0.93|||||TWO_SIDED|95.0|0.68|1.28||||||||1.28|0.68|
92361322|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||0.3078||95.0||||Statistical significant level: 0.05|Chi-squared|||Comparison among Weight Categories: \<50 kg, 50 to 60 kg, 60 to 70 kg, and ≥70 kg.||||0.3078
92361323|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||0.9614||95.0||||Statistical significant level: 0.05|Chi-squared|||Comparison among Height Categories: \<160 cm, 160 to 170 cm, and ≥170 cm.||||0.9614
92361324|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||0.0788||95.0||||Statistical significant level: 0.05|Fisher Exact|||Allergic History: Yes vs Allergic History: No||||0.0788
92224043|NCT01077973|184349393|SUPERIORITY_OR_OTHER||LS mean difference|-0.13||||0.726|TWO_SIDED|95.0|-0.88|0.61||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.61|-0.88|0.726
92276761|NCT00006170|184455017|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.001|TWO_SIDED|95.0|||||Regression, Logistic|||||||0.001
92402288|NCT00135226|184695179|OTHER||Rate Ratio|0.8|||||TWO_SIDED|95.0|0.64|1.01||||||||1.01|0.64|
92402289|NCT00135226|184695179|OTHER||Rate Ratio|1.26|||||TWO_SIDED|95.0|1.0|1.59||||||||1.59|1.00|
92402290|NCT00135226|184695180|OTHER||Rate Ratio|0.86|||||TWO_SIDED|95.0|0.46|1.6||||||||1.60|0.46|
92402291|NCT00135226|184695180|OTHER||Rate ratio|0.77|||||TWO_SIDED|95.0|0.41|1.45||||||||1.45|0.41|
92224044|NCT01077973|184349393|SUPERIORITY_OR_OTHER||LS mean difference|-0.7||||0.32|TWO_SIDED|95.0|-2.09|0.69||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.69|-2.09|0.320
92224045|NCT01077973|184349393|SUPERIORITY_OR_OTHER||LS mean difference|-0.47||||0.506|TWO_SIDED|95.0|-1.86|0.92||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.92|-1.86|0.506
92361325|NCT00879398|184625947|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|Chi-squared|||Comparison among Duration of Disease: \<1 week, 1 to 8 weeks, 8 to 16 weeks, and ≥16 weeks.||||<0.0001
92361326|NCT00879398|184625947|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|Chi-squared|||Past OAB Treatment History: Yes vs Past OAB Treatment History: No||||<0.0001
92361327|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||0.1147||95.0||||Statistical significant level: 0.05|Chi-squared|||Medical History of Past Disease: Yes vs Medical History of Past Disease: No||||0.1147
92361328|NCT00879398|184625947|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|Chi-squared|||Medical History of Present Disease: Yes vs Medical History of Present Disease: No||||<0.0001
92361329|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||1||95.0||||Statistical significant level: 0.05|Fisher Exact|||Kidney Disorder: Yes vs Kidney Disorder: No||||1.0000
92361330|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||1||95.0||||Statistical significant level: 0.05|Fisher Exact|||Liver Disorder: Yes vs Liver Disorder: No||||1.0000
92402292|NCT00135226|184695181|OTHER||Rate Ratio|0.75|||||TWO_SIDED|95.0|0.17|3.3||||||||3.30|0.17|
92402293|NCT00135226|184695181|OTHER||Rate Ratio|0.75|||||TWO_SIDED|95.0|0.17|3.31||||||||3.31|0.17|
92402294|NCT00135226|184695182|OTHER||Rate Ratio|1.01|||||TWO_SIDED|95.0|0.92|1.11||||||||1.11|0.92|
92402295|NCT00135226|184695182|OTHER||Risk Ratio|1.0|||||TWO_SIDED|95.0|0.91|1.1||||||||1.10|0.91|
92402296|NCT00135226|184695183|OTHER||Rate Ratio|1.06|||||TWO_SIDED|95.0|0.78|1.43||||||||1.43|0.78|
92402297|NCT00135226|184695184|OTHER||Rate ratio|0.98|||||TWO_SIDED|95.0|0.74|1.29||||||||1.29|0.74|
92402298|NCT00135226|184695184|OTHER||Rate Ratio|1.04|||||TWO_SIDED|95.0|0.79|1.37||||||||1.37|0.79|
92402299|NCT00135226|184695185|OTHER||Rate Ratio|1.13|||||TWO_SIDED|95.0|0.97|1.32||||||||1.32|0.97|
92402300|NCT00135226|184695185|OTHER||Rate Ratio|1.07|||||TWO_SIDED|95.0|0.91|1.25||||||||1.25|0.91|
92402301|NCT00135226|184695186|OTHER||Rate Ratio|1.02|||||TWO_SIDED|95.0|0.76|1.38||||||||1.38|0.76|
92402302|NCT00135226|184695186|OTHER||Rate Ratio|1.17|||||TWO_SIDED|95.0|0.87|1.58||||||||1.58|0.87|
92402303|NCT00135226|184695187|OTHER||Rate Ratio|1.01|||||TWO_SIDED|95.0|0.76|1.34||||||||1.34|0.76|
92402304|NCT00135226|184695187|OTHER||Rate Ratio|1.14|||||TWO_SIDED|95.0|0.86|1.52||||||||1.52|0.86|
92402305|NCT00135226|184695188|OTHER||Rate Ratio|0.85|||||TWO_SIDED|95.0|0.58|1.23||||||||1.23|0.58|
92402306|NCT00135226|184695188|OTHER||Rate ratio|1.02|||||TWO_SIDED|95.0|0.7|1.48||||||||1.48|0.70|
92402307|NCT00135226|184695189|OTHER||Rate Ratio|0.83|||||TWO_SIDED|95.0|0.49|1.41||||||||1.41|0.49|
92402308|NCT00135226|184695189|OTHER||Rate Ratio|0.72|||||TWO_SIDED|95.0|0.42|1.22||||||||1.22|0.42|
92402309|NCT00135226|184695190|OTHER||Rate Ratio|0.84|||||TWO_SIDED|95.0|0.5|1.41||||||||1.41|0.50|
92402310|NCT00135226|184695190|OTHER||Rate Ratio|0.78|||||TWO_SIDED|95.0|0.46|1.31||||||||1.31|0.46|
92402311|NCT00135226|184695191|OTHER||Rate Ratio|1.23|||||TWO_SIDED|95.0|0.98|1.54||||||||1.54|0.98|
92402312|NCT00135226|184695192|OTHER||Rate Ratio|0.84|||||TWO_SIDED|95.0|0.63|1.12||||||||1.12|0.63|
92402313|NCT04531176|184695214|NON_INFERIORITY|The results of non-inferiority test results are between pairwise groups. Non-inferiority was tested at the 0.05 level at 1 year and performed pairwise with Bonferroni adjusted significance levels for each paired comparison.||||||0.004||||||The non-inferiority regions were set to be 1% for weight loss change. When both primary endpoints are non-inferior, superiority testing at the 0.025 overall error level with Bonferroni adjustment for each endpoint at 1 year was then performed.|t-test, 1 sided|||||||0.004
92402314|NCT04531176|184695215|NON_INFERIORITY|Non-inferiority was tested at the 0.05 level at 1 year and performed pairwise with Bonferroni adjusted significance levels for each paired comparison||||||0.05||||||The non-inferiority regions were set to be 0.5% for A1C. When both primary endpoints are non-inferior, superiority testing at the 0.025 overall error level with Bonferroni adjustment for each endpoint at 1 year was then performed.|t-test, 1 sided|||||||0.05
92224046|NCT01077973|184349393|SUPERIORITY_OR_OTHER||LS mean difference|-0.23||||0.691|TWO_SIDED|95.0|-1.38|0.92||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.92|-1.38|0.691
92224047|NCT01077973|184349394|SUPERIORITY_OR_OTHER||LS mean difference|-0.72||||0.292|TWO_SIDED|95.0|-2.07|0.62||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.62|-2.07|0.292
92402315|NCT00214045|184695225|SUPERIORITY_OR_OTHER|Results were analyzed using Wilcoxon rank sums and Fisher exact tests with Statistical Analysis System (SAS) statistical software version 9.||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||.39
92276762|NCT00006170|184455017|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.25||95.0|||||Regression, Logistic|||||||0.25
92402316|NCT00214045|184695225|NON_INFERIORITY_OR_EQUIVALENCE|Results were analyzed using Wilcoxon rank sums and Fisher exact tests with Statistical Analysis System (SAS) statistical software version 9.||||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.37
92402317|NCT03155724|184695239|SUPERIORITY||||||<|0.0001|||||||Exact, binomial, one-sided|||The primary endpoint 1 hypothesis was evaluated by performing an exact, binomial test comparing the binomial proportion of 'improved' patients to 3.0% with power of 80% and type 1 error (alpha) of 0.0224. A pre-planned interim analysis at 45 patients required a type 1 error (alpha) of 0.0026 to demonstrate significance.||||<0.0001
92402318|NCT02485691|184695254|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.|Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.4|0.73||P-value from 2-sided stratified log-rank test, stratified for ECOG performance status, time from AR- targeted agent initiation progression, timing of AR targeted agent as specified at the time of randomization. Significance threshold was at 0.05.|Log Rank||Cabazitaxel vs Abiraterone Acetate or Enzalutamide|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was stratified by ECOG performance status, time from AR- targeted agent initiation progression, timing of AR targeted agent as specified at the time of randomization.||0.73|0.40|<0.0001
92402319|NCT02485691|184695255|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.|Hazard Ratio (HR)|0.64||||0.0078|TWO_SIDED|95.0|0.46|0.89||P-value from two-sided stratified log-rank test, stratified for ECOG performance status, time from AR-targeted agent initiation to progression, timing of AR-targeted agent as specified at the time of randomization. Significance threshold = 0.05.|Log Rank||Cabazitaxel vs Abiraterone Acetate or Enzalutamide|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was stratified by ECOG performance status, time from AR- targeted agent initiation progression, timing of AR targeted agent as specified at the time of randomization.||0.89|0.46|0.0078
92224048|NCT01077973|184349394|SUPERIORITY_OR_OTHER||LS mean difference|-0.53||||0.439|TWO_SIDED|95.0|-1.87|0.82||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.82|-1.87|0.439
92361331|NCT00879398|184625947|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|Chi-squared|||Comparison among Total Administration Period of Toviaz Subgroups: \<2 months, 2 to 4 months, and ≥4 months.||||<0.0001
92361332|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||0.0239||95.0||||Statistical significant level: 0.05|Fisher Exact|||Comparison among Daily Dose of Toviaz: 3 mg, 4 mg, \>4 mg to \<8 mg, and 8 mg.||||0.0239
92402320|NCT02485691|184695256|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.|Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.68||P-value from two-sided stratified log-rank test, stratified for ECOG performance status, time from AR-targeted agent initiation to progression, timing of AR-targeted agent as specified at the time of randomization. Significance threshold = 0.05.|Log Rank||Cabazitaxel vs Abiraterone Acetate or Enzalutamide|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was stratified by ECOG performance status, time from AR- targeted agent initiation progression, timing of AR targeted agent as specified at the time of randomization.||0.68|0.40|<0.0001
92402321|NCT02485691|184695257|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.||||||0.0003||||||Cochran-Mantel-Haenszel test stratified by ECOG performance status, time from AR-targeted agent initiation to progression, timing of AR-targeted agent as specified at the time of randomization. Significance threshold = 0.05.|Cochran-Mantel-Haenszel|||||||0.0003
92402322|NCT02485691|184695258|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.||||||0.0004||||||Cochran-Mantel-Haenszel test stratified by ECOG performance status, time from AR-targeted agent initiation to progression, timing of AR-targeted agent as specified at the time of randomization. Significance threshold = 0.05.|Cochran-Mantel-Haenszel|||||||0.0004
92402323|NCT02392806|184695268|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92402324|NCT03518086|184695270|SUPERIORITY||Risk Difference (RD)|11.1||||6e-05|TWO_SIDED|99.875|3.2|19.1|||Cochran-Mantel-Haenszel|||||19.1|3.2|0.00006
92402325|NCT03518086|184695271|SUPERIORITY||Risk Difference (RD)|21.4|||<|1e-05|TWO_SIDED|99.875|10.8|32.0|||Cochran-Mantel-Haenszel|||||32.0|10.8|<0.00001
92402326|NCT03518086|184695272|SUPERIORITY||Risk Difference (RD)|15.4|||<|1e-05|TWO_SIDED|99.875|6.3|24.5|||Cochran-Mantel-Haenszel|||||24.5|6.3|<0.00001
92224049|NCT01077973|184349394|SUPERIORITY_OR_OTHER||LS mean difference|-0.19||||0.733|TWO_SIDED|95.0|-1.31|0.92||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.92|-1.31|0.733
92361333|NCT00879398|184625947|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|Chi-squared|||Completion vs Discontinuation||||<0.0001
92361334|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||0.5889||95.0||||Statistical significant level: 0.05|Fisher Exact|||Total Administration Period \<274 days vs Total Administration Period ≥ 274 days||||0.5889
92361335|NCT00879398|184625947|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Statistical significant level: 0.05|Chi-squared|||Concurrent Medication: Yes vs Concurrent Medication: No||||0.0010
92402327|NCT03518086|184695273|SUPERIORITY||Risk Difference (RD)|17.5|||<|0.001|TWO_SIDED|99.875|11.4|23.6|||Cochran-Mantel-Haenszel|||||23.6|11.4|<0.001
92402328|NCT03518086|184695274|SUPERIORITY||Risk Difference (RD)|20.2|||<|0.001|TWO_SIDED|95.0|13.8|26.6|||Cochran-Mantel-Haenszel|||||26.6|13.8|<0.001
92402329|NCT03518086|184695275|SUPERIORITY||Risk Difference (RD)|13.7|||<|0.001|TWO_SIDED|95.0|8.6|18.7|||Cochran-Mantel-Haenszel|||||18.7|8.6|<0.001
92402330|NCT03518086|184695276|SUPERIORITY||Risk Difference (RD)|19.5|||<|1e-05|TWO_SIDED|95.0|13.2|25.8|||Cochran-Mantel-Haenszel|||||25.8|13.2|<0.00001
92402331|NCT03518086|184695277|SUPERIORITY||Mean Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|0.159|<|1e-05|TWO_SIDED|99.875|-1.47|-0.44|||Mixed Models Analysis||The confidence interval of 99.875 % was chosen to match the significance level.|||-0.44|-1.47|<0.00001
92402332|NCT03518086|184695278|SUPERIORITY||Mean Difference (Net)|13.21|STANDARD_ERROR_OF_MEAN|2.005|<|0.001|TWO_SIDED|95.0|9.28|17.15|||ANCOVA|||||17.15|9.28|<0.001
92402333|NCT03518086|184695279|SUPERIORITY||Mean Difference (Net)|-935.6|STANDARD_ERROR_OF_MEAN|218.09|<|0.001|TWO_SIDED|95.0|-1363.64|-507.55|||Mixed Models Analysis|||||-507.55|-1363.64|<0.001
92402334|NCT04567628|184695302|OTHER||||||=|0.003|||||||Spearman's Rank Correlation|||||||=0.003
92402335|NCT04567628|184695303|OTHER||||||=|0.25||||||A two-sided p-value of \<0.05 was considered statistically significant.|Log Rank|||||||=0.25
92402336|NCT04567628|184695306|OTHER||||||<|0.001||||||A two-sided p-value of \<0.05 was considered statistically significant.|Log Rank|||||||<0.001
92402337|NCT04567628|184695308|OTHER||||||<|0.0001||||||A two-sided p-value of \<0.05 was considered statistically significant.|Log Rank|||||||<0.0001
92402338|NCT02121535|184695367|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% confidence interval (CI) for the intra-subject ratio of the AUC0-tz were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|101.97|||||TWO_SIDED|90.0|98.94|105.08|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0-tz was a mixed effect model on the logarithmic scale.||105.08|98.94|
92361336|NCT00829244|184625948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.8||0.037|TWO_SIDED|95.0|-3.3|-0.1|||ANOVA|||The null hypothesis was that the difference between the mean number of oocytes \[CONSORT calculator dosing - Standard dosing\] was less than or equal to \[=\<\] (-3). The alternate hypothesis was that the difference was greater than \[\>\] (-3).||-0.1|-3.3|0.037
92361337|NCT00829244|184625949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-511.37|STANDARD_ERROR_OF_MEAN|64.52|<|0.001|TWO_SIDED|95.0|-638.78|-383.96|||ANOVA|||||-383.96|-638.78|<0.001
92361338|NCT00829244|184625950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-45.6|STANDARD_ERROR_OF_MEAN|4.12|<|0.001|TWO_SIDED|95.0|-53.75|-37.46|||ANOVA|||||-37.46|-53.75|<0.001
92361339|NCT00829244|184625951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.933|TWO_SIDED|95.0|-0.4|0.5|||ANOVA|||||0.5|-0.4|0.933
92361340|NCT00829244|184625953|SUPERIORITY_OR_OTHER||Percent difference|3.6|||||TWO_SIDED|95.0|-11.0|18.2||||||||18.2|-11.0|
92361341|NCT00829244|184625955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|6.6||0.926|TWO_SIDED|95.0|-12.3|13.6|||ANOVA|||||13.6|-12.3|0.926
92402339|NCT02121535|184695368|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the Cmax were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|103.77|||||TWO_SIDED|90.0|97.03|110.99|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of Cmax was a mixed effect model on the logarithmic scale.||110.99|97.03|
92402340|NCT02121535|184695369|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the AUC0-∞ were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|100.24|||||TWO_SIDED|90.0|96.8|103.8|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0--∞ was a mixed effect model on the logarithmic scale.||103.80|96.80|
92402341|NCT02121535|184695370|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the AUC0-∞ were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|99.42|||||TWO_SIDED|90.0|97.94|100.93|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0--∞ was a mixed effect model on the logarithmic scale.||100.93|97.94|
92402342|NCT02121535|184695371|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the AUC0-tz were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|99.5|||||TWO_SIDED|90.0|98.08|100.94|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0-tz was a mixed effect model on the logarithmic scale.||100.94|98.08|
92361342|NCT00829244|184625957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.78||0.235|TWO_SIDED|95.0|-0.61|2.47|||ANOVA|||||2.47|-0.61|0.235
92361343|NCT00829244|184625958|SUPERIORITY_OR_OTHER||Percent difference|0.6|||||TWO_SIDED|95.0|-13.5|14.6||||||||14.6|-13.5|
92361344|NCT05047627|184625961|OTHER||Differences in slopes|0.76||||0.755|TWO_SIDED|95.0|-4.14|5.66|||Robust linear mixed models|||||5.66|-4.14|.755
92361345|NCT05047627|184625962|OTHER||Differences in slopes|1.38||||0.713|TWO_SIDED|95.0|-6.15|8.91|||Robust linear mixed models|||||8.91|-6.15|0.713
92361346|NCT05047627|184625963|OTHER||Differences in slopes|1.03||||0.323|TWO_SIDED|95.0|-1.02|3.09|||Robust linear mixed models|||||3.09|-1.02|0.323
92361347|NCT05047627|184625964|OTHER||Differences in slopes|-0.33||||0.692|TWO_SIDED|95.0|-1.95|1.3|||Robust linear mixed models|||||1.30|-1.95|.692
92361348|NCT05047627|184625965|OTHER||Differences in slopes|-2.92||||0.1|TWO_SIDED|95.0|-6.41|0.58|||Robust linear mixed models|||||0.58|-6.41|0.1
92361349|NCT04251533|184625968|SUPERIORITY||Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.92|2.41|||Regression, Cox|||||2.41|0.92|
92361350|NCT06378008|184625982|SUPERIORITY||Adjusted Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.092|<|0.0001|TWO_SIDED|95.0|-1.98|-1.62|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 56||-1.62|-1.98|<0.0001
92361351|NCT06378008|184625983|SUPERIORITY||Adjusted Mean Difference|52.87|STANDARD_ERROR_OF_MEAN|2.428|<|0.0001|TWO_SIDED|95.0|48.08|57.65|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 56||57.65|48.08|<0.0001
92402343|NCT02121535|184695372|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the Cmax were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|100.07|||||TWO_SIDED|90.0|98.45|101.72|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of Cmax was a mixed effect model on the logarithmic scale.||101.72|98.45|
92402344|NCT02121535|184695373|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the Cmax were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|110.16|||||TWO_SIDED|90.0|106.87|113.54|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of Cmax was a mixed effect model on the logarithmic scale.||113.54|106.87|
92361352|NCT06378008|184625984|SUPERIORITY||Adjusted Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.053||0.0005|TWO_SIDED|95.0|-0.29|-0.08|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 3||-0.08|-0.29|0.0005
92361353|NCT06378008|184625984|SUPERIORITY||Adjusted Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001|TWO_SIDED|95.0|-0.73|-0.49|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 7||-0.49|-0.73|<0.0001
92361354|NCT06378008|184625984|SUPERIORITY||Adjusted Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.092|<|0.0001|TWO_SIDED|95.0|-1.41|-1.04|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 14||-1.04|-1.41|<0.0001
92361355|NCT06378008|184625984|SUPERIORITY||Adjusted Mean Difference|-1.56|STANDARD_ERROR_OF_MEAN|0.093|<|0.0001|TWO_SIDED|95.0|-1.74|-1.38|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 28||-1.38|-1.74|<0.0001
92361356|NCT06378008|184625985|SUPERIORITY||Adjusted Mean Difference|7.14|STANDARD_ERROR_OF_MEAN|0.706|<|0.0001|TWO_SIDED|95.0|5.75|8.53|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 3||8.53|5.75|<0.0001
92361357|NCT06378008|184625985|SUPERIORITY||Adjusted Mean Difference|14.4|STANDARD_ERROR_OF_MEAN|1.112|<|0.0001|TWO_SIDED|95.0|12.2|16.59|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 7||16.59|12.20|<0.0001
92402345|NCT02121535|184695374|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the AUC0-tz were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|104.3|||||TWO_SIDED|90.0|102.53|106.1|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0-tz was a mixed effect model on the logarithmic scale.||106.10|102.53|
92402346|NCT02121535|184695375|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the AUC0-∞ were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|104.37|||||TWO_SIDED|90.0|102.68|106.1|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0--∞ was a mixed effect model on the logarithmic scale.||106.10|102.68|
92402347|NCT05366738|184695376|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|103.36|||||TWO_SIDED|90.0|97.64|109.41||||||||109.41|97.64|
92402348|NCT05366738|184695376|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|97.83|||||TWO_SIDED|90.0|92.42|103.56||||||||103.56|92.42|
92361358|NCT06378008|184625985|SUPERIORITY||Adjusted Mean Difference|25.8|STANDARD_ERROR_OF_MEAN|1.59|<|0.0001|TWO_SIDED|95.0|22.67|28.93|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 14||28.93|22.67|<0.0001
92402349|NCT05366738|184695377|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|102.56|||||TWO_SIDED|90.0|97.25|108.15||||||||108.15|97.25|
92402350|NCT05366738|184695377|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|97.61|||||TWO_SIDED|90.0|92.55|102.93||||||||102.93|92.55|
92165557|NCT02326649|184219747|OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.417||0.25|TWO_SIDED|95.0|-0.395|1.395|||Regression, Linear|||Heart rate delta for multilinear regression for difference in stroke volume controlling for difference in heart rate and blood pressure||1.395|-0.395|0.250
92165558|NCT02326649|184219747|OTHER||Mean Difference (Final Values)|-0.427|STANDARD_ERROR_OF_MEAN|0.305||0.183|TWO_SIDED|95.0|-1.081|0.227|||Regression, Linear|||Diastolic BP delta for multilinear regression for difference in stroke volume controlling for difference in heart rate and blood pressure||0.227|-1.081|0.183
92361359|NCT06378008|184625985|SUPERIORITY||Adjusted Mean Difference|40.99|STANDARD_ERROR_OF_MEAN|2.254|<|0.0001|TWO_SIDED|95.0|36.55|45.43|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 28||45.43|36.55|<0.0001
92361360|NCT06378008|184625986|SUPERIORITY||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.219||0.3489|TWO_SIDED|95.0|-0.64|0.23|||Mixed Model with Repeated Measures||Adjusted Mean Difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q7 (How intense are the sensations?): Change from Baseline at Day 28||0.23|-0.64|0.3489
92402351|NCT05366738|184695378|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|103.96|||||TWO_SIDED|90.0|96.49|112.0||||||||112.00|96.49|
92165559|NCT02326649|184219747|OTHER||Mean Difference (Final Values)|0.557|STANDARD_ERROR_OF_MEAN|0.452||0.238|TWO_SIDED|95.0|-0.411|1.526|||Regression, Linear|||Systolic BP delta for multilinear regression for difference in stroke volume controlling for difference in heart rate and blood pressure||1.526|-0.411|0.238
92276763|NCT00006170|184455017|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.07||95.0|||||Regression, Logistic|||||||0.07
92361361|NCT06378008|184625986|SUPERIORITY||Adjusted Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.267||0.0876|TWO_SIDED|95.0|-0.98|0.07|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q7 (How intense are the sensations?): Change from Baseline at Day 56||0.07|-0.98|0.0876
92361362|NCT06378008|184625986|SUPERIORITY||Adjusted Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.252||0.9108|TWO_SIDED|95.0|-0.47|0.52|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q8 (How bothered are you by any sensations?): Change from Baseline at Day 28||0.52|-0.47|0.9108
92361363|NCT06378008|184625986|SUPERIORITY||Adjusted Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.281||0.4854|TWO_SIDED|95.0|-0.75|0.36|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q8 (How bothered are you by any sensations?): Change from Baseline at Day 56||0.36|-0.75|0.4854
92361364|NCT06378008|184625986|SUPERIORITY||Adjusted Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.261||0.8309|TWO_SIDED|95.0|-0.46|0.57|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q9 (How well can you tolerate sensations?): Change from Baseline at Day 28||0.57|-0.46|0.8309
92361365|NCT06378008|184625986|SUPERIORITY||Adjusted Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.297||0.05|TWO_SIDED|95.0|-1.17|0.0|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q9 (How well can you tolerate sensations?): Change from Baseline at Day 56||-0.00|-1.17|0.0500
92402352|NCT05366738|184695378|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|100.6|||||TWO_SIDED|90.0|93.38|108.39||||||||108.39|93.38|
92402353|NCT03821402|184695384|SUPERIORITY|||||||0.7645|||||||ANCOVA|||||||0.7645
92402354|NCT03821402|184695384|SUPERIORITY|||||||0.5509|||||||ANCOVA|||||||0.5509
92402355|NCT03821402|184695384|SUPERIORITY|||||||0.0488|||||||ANCOVA|||||||0.0488
92402356|NCT03821402|184695385|SUPERIORITY|||||||0.3698|||||||ANCOVA|||||||0.3698
92402357|NCT03821402|184695385|SUPERIORITY|||||||0.1972|||||||ANCOVA|||||||0.1972
92402358|NCT03821402|184695385|SUPERIORITY|||||||0.2037|||||||ANCOVA|||||||0.2037
92402359|NCT03821402|184695390|SUPERIORITY|||||||0.4324|||||||ANCOVA|||||||0.4324
92402360|NCT03821402|184695390|SUPERIORITY|||||||0.3893|||||||ANCOVA|||||||0.3893
92165560|NCT02311907|184219748|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANOVA|||Generalized linear models (repeated measures analysis of variance \[ANOVA\]) will be used to compare the CIPN between GSH and placebo arms.||||0.21
92402361|NCT03821402|184695390|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
92402362|NCT03821402|184695391|SUPERIORITY|||||||0.0562|||||||ANCOVA|||||||0.0562
92402363|NCT03821402|184695391|SUPERIORITY|||||||0.015|||||||ANCOVA|||||||0.0150
92402364|NCT03821402|184695391|SUPERIORITY|||||||0.0092|||||||ANCOVA|||||||0.0092
92402365|NCT01054885|184695405|SUPERIORITY_OR_OTHER||Least squares mean difference|0.046||||0.085|TWO_SIDED|95.0|-0.006|0.098|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.098|-0.006|0.085
92165561|NCT02311907|184219749|SUPERIORITY_OR_OTHER|||||||0.63|||||||Log Rank|||||||0.63
92165562|NCT02950558|184219757|OTHER|||||||0.1269|||||||Wilcoxon (Mann-Whitney)|||||||0.1269
92165563|NCT02950558|184219758|OTHER|||||||0.8808|||||||Wilcoxon (Mann-Whitney)|||||||0.8808
92165564|NCT02950558|184219759|OTHER|||||||0.0382|||||||Wilcoxon (Mann-Whitney)|||||||0.0382
92361366|NCT06378008|184625987|SUPERIORITY||Adjusted Mean Difference|-2.27|STANDARD_ERROR_OF_MEAN|3.859||0.5565|TWO_SIDED|95.0|-9.88|5.33|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||5.33|-9.88|0.5565
92361367|NCT06378008|184625987|SUPERIORITY||Adjusted Mean Difference|-5.96|STANDARD_ERROR_OF_MEAN|4.715||0.2078|TWO_SIDED|95.0|-15.25|3.34|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||3.34|-15.25|0.2078
92361368|NCT06378008|184625988|SUPERIORITY||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.588||0.5597|TWO_SIDED|95.0|-1.5|0.82|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||0.82|-1.50|0.5597
92361369|NCT06378008|184625988|SUPERIORITY||Adjusted Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.705||0.4627|TWO_SIDED|95.0|-1.91|0.87|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||0.87|-1.91|0.4627
92402366|NCT01054885|184695405|SUPERIORITY_OR_OTHER||Least squares mean difference|0.041||||0.123|TWO_SIDED|95.0|-0.011|0.093|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.093|-0.011|0.123
92402367|NCT01054885|184695405|SUPERIORITY_OR_OTHER||Least squares mean difference|0.185|||<|0.001|TWO_SIDED|95.0|0.133|0.237|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.237|0.133|<0.001
92402368|NCT01054885|184695405|SUPERIORITY_OR_OTHER||Least squares mean difference|0.214|||<|0.001|TWO_SIDED|95.0|0.161|0.266||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.266|0.161|<0.001
92402369|NCT01054885|184695405|SUPERIORITY_OR_OTHER||Least squares mean difference|0.209|||<|0.001|TWO_SIDED|95.0|0.157|0.261|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.261|0.157|<0.001
92402370|NCT01054885|184695405|SUPERIORITY_OR_OTHER||Least squares mean difference|0.168|||<|0.001|TWO_SIDED|95.0|0.116|0.22||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.220|0.116|<0.001
92402371|NCT01054885|184695405|SUPERIORITY_OR_OTHER||Least squares mean difference|0.168|||<|0.001|TWO_SIDED|95.0|0.117|0.219|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.219|0.117|<0.001
92402372|NCT01054885|184695405|SUPERIORITY_OR_OTHER||Least squares mean difference|0.029||||0.274|TWO_SIDED|95.0|-0.023|0.081|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.081|-0.023|0.274
92361370|NCT06378008|184625989|SUPERIORITY||Adjusted Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|1.583||0.3|TWO_SIDED|95.0|-4.77|1.48|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||1.48|-4.77|0.3000
92361371|NCT06378008|184625989|SUPERIORITY||Adjusted Mean Difference|-2.53|STANDARD_ERROR_OF_MEAN|1.958||0.1974|TWO_SIDED|95.0|-6.39|1.33|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||1.33|-6.39|0.1974
92361372|NCT06378008|184625990|SUPERIORITY||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.679||0.9203|TWO_SIDED|95.0|-1.27|1.41|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||1.41|-1.27|0.9203
92361373|NCT06378008|184625990|SUPERIORITY||Adjusted Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.717||0.2489|TWO_SIDED|95.0|-2.24|0.58|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||0.58|-2.24|0.2489
92361374|NCT06378008|184625991|SUPERIORITY||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|1.09||0.8496|TWO_SIDED|95.0|-2.36|1.94|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||1.94|-2.36|0.8496
92361375|NCT06378008|184625991|SUPERIORITY||Adjusted Mean Difference|-1.73|STANDARD_ERROR_OF_MEAN|1.226||0.1596|TWO_SIDED|95.0|-4.15|0.69|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||0.69|-4.15|0.1596
92361376|NCT06378008|184625992|SUPERIORITY||Adjusted Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.697||0.9577|TWO_SIDED|95.0|-1.34|1.41|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||1.41|-1.34|0.9577
92402373|NCT01054885|184695405|SUPERIORITY_OR_OTHER||Least squares mean difference|0.024||||0.357|TWO_SIDED|95.0|-0.027|0.075|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.075|-0.027|0.357
92402374|NCT01054885|184695406|SUPERIORITY_OR_OTHER||Least squares mean difference|0.044||||0.095|TWO_SIDED|95.0|-0.008|0.097|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.097|-0.008|0.095
92402375|NCT01054885|184695406|SUPERIORITY_OR_OTHER||Least squares mean difference|0.008||||0.756|TWO_SIDED|95.0|-0.044|0.06|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.060|-0.044|0.756
92402376|NCT01054885|184695406|SUPERIORITY_OR_OTHER||Least squares mean difference|0.1|||<|0.001|TWO_SIDED|95.0|0.048|0.151|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.151|0.048|<0.001
92402377|NCT01054885|184695406|SUPERIORITY_OR_OTHER||Least squares mean difference|0.144|||<|0.001|TWO_SIDED|95.0|0.091|0.197||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.197|0.091|<0.001
92402378|NCT01054885|184695406|SUPERIORITY_OR_OTHER||Least squares mean difference|0.131|||<|0.001|TWO_SIDED|95.0|0.08|0.183|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.183|0.080|<0.001
92402379|NCT01054885|184695406|SUPERIORITY_OR_OTHER||Least squares mean difference|0.1|||<|0.001|TWO_SIDED|95.0|0.047|0.152||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.152|0.047|<0.001
92165565|NCT02950558|184219760|OTHER|||||||0.4696|||||||Wilcoxon (Mann-Whitney)|||||||0.4696
92165566|NCT02950558|184219761|OTHER|||||||0.1818|||||||Fisher Exact|||||||0.1818
92276764|NCT00006170|184455018|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.|||||<|0.001||95.0|||||Regression, Logistic|||||||<0.001
92361377|NCT06378008|184625992|SUPERIORITY||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.748||0.8261|TWO_SIDED|95.0|-1.64|1.31|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||1.31|-1.64|0.8261
92361378|NCT06378008|184625993|SUPERIORITY||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.089||0.8895|TWO_SIDED|95.0|-0.19|0.16|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||0.16|-0.19|0.8895
92361379|NCT06378008|184625993|SUPERIORITY||Adjusted Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.101||0.8083|TWO_SIDED|95.0|-0.17|0.22|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||0.22|-0.17|0.8083
92361380|NCT06378008|184625994|SUPERIORITY||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.351||0.7362|TWO_SIDED|95.0|-0.57|0.81|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||0.81|-0.57|0.7362
92361381|NCT06378008|184625994|SUPERIORITY||Adjusted Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.39||0.5568|TWO_SIDED|95.0|-1.0|0.54|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||0.54|-1.00|0.5568
92361382|NCT02302222|184626015|SUPERIORITY||Risk Difference (RD)|0.113||||0.1981|TWO_SIDED|95.0|-0.016|0.243|||Fisher Exact|||||0.243|-0.016|0.1981
92402380|NCT01054885|184695406|SUPERIORITY_OR_OTHER||Least squares mean difference|0.123|||<|0.001|TWO_SIDED|95.0|0.072|0.174||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.174|0.072|<0.001
92402381|NCT01054885|184695406|SUPERIORITY_OR_OTHER||Least squares mean difference|0.045||||0.093|TWO_SIDED|95.0|-0.008|0.097|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.097|-0.008|0.093
92402382|NCT01054885|184695406|SUPERIORITY_OR_OTHER||Least squares mean difference|0.032||||0.224|TWO_SIDED|95.0|-0.019|0.083|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.083|-0.019|0.224
92224050|NCT01077973|184349394|SUPERIORITY_OR_OTHER||LS mean difference|-0.68||||0.526|TWO_SIDED|95.0|-2.8|1.43||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.43|-2.80|0.526
92361383|NCT02769481|184626040|NON_INFERIORITY|A 95% CI was to be calculated to estimate the range of values in which the treatment difference was likely to lie. If the 95% CI fell below the specified non inferiority margin of 0.35%, the non inferiority of bexagliflozin treatment to glimepiride treatment would be demonstrated and the null hypothesis would be rejected.|Mean Difference (Final Values)|0.05|||||TWO_SIDED|95.0|-0.21|0.11|||||A lower value represents a better treatment effect.|The null hypothesis for the primary endpoint was that the change in HbA1c from baseline to week 60 in the bexagliflozin arm would be greater than change in the glimepiride arm by greater than 0.35%.||0.11|-0.21|
92361384|NCT02769481|184626041|SUPERIORITY||Difference of LS Means|-4.31|||<|0.0001|TWO_SIDED|95.0|-5.1|-3.52||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, background treatment, baseline HbA1c, baseline eGFR, treatment, visit, treatment-by-visit and baseline weight as a fixed effect covariate.||||-3.52|-5.10|< 0.0001
92361385|NCT02769481|184626042|SUPERIORITY||Difference of LS Means|-6.53||||0.0008|TWO_SIDED|95.0|-10.56|-2.51||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, background treatment, baseline HbA1c, baseline eGFR, treatment, visit, treatment-by-visit and baseline weight as a fixed effect covariate.||||-2.51|-10.56|0.0008
92361386|NCT02769481|184626043|SUPERIORITY||Odds Ratio (OR)|0.12|||<|0.0001|TWO_SIDED|95.0|0.05|0.28||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Logistic|Region, baseline HbA1c, background treatment, eGFR at baseline, treatment as a fixed effect covariate.|Odds ratio is calculated as the odds ratio of bexagliflozin over glimepiride.|||0.28|0.05|< 0.0001
92361387|NCT02769481|184626044|SUPERIORITY|Superiority of bexagliflozin over glimepiride in HbA1c reduction from baseline to week 60 will be declared if the upper bound of 95% confidence interval is less than 0|Difference of LS Means|-0.05|||||TWO_SIDED|95.0|-0.21|0.11||||||||0.11|-0.21|
92361388|NCT04604431|184626061|SUPERIORITY||Odds Ratio (OR)|14.1|||<|0.001|TWO_SIDED|95.0|6.9|29.1|||Mixed Models Analysis|||Odds ratios will be computed to describe the odds of adherence for the iREACH intervention compared to the control intervention for low-risk infants.||29.1|6.9|<0.001
92276765|NCT00006170|184455018|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.053||95.0|||||Regression, Logistic|||||||0.053
92361389|NCT04604431|184626061|SUPERIORITY||Odds Ratio (OR)|3.1||||0.034|TWO_SIDED|95.0|1.1|8.8|||Mixed Models Analysis|||Odds ratios will be computed to describe the odds of adherence for the iREACH intervention compared to the control intervention for high-risk infants.||8.8|1.1|0.034
92361390|NCT00643279|184626066|SUPERIORITY|Survival estimate at 6-months|6-month survival rate|91.5|||||ONE_SIDED|95.0|88.7||||||||||88.7|
92361391|NCT00643279|184626067|SUPERIORITY|Survival estimate at 6-months|6-month survival rate|100.0|||||ONE_SIDED|95.0|98.9||||||||||98.9|
92361392|NCT03274466|184626075|SUPERIORITY|Modified Intent-To-Treat|Odds Ratio (OR)|0.22||||0.0013|TWO_SIDED|95.0|0.08|0.59||Threshold for statistical significance: alpha = 0.048|Cochran-Mantel-Haenszel|||||0.59|0.08|0.0013
92224051|NCT01077973|184349394|SUPERIORITY_OR_OTHER||LS mean difference|-0.44||||0.624|TWO_SIDED|95.0|-2.19|1.31||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.31|-2.19|0.624
92361393|NCT03274466|184626076|SUPERIORITY|Modified Intent-To-Treat|Odds Ratio (OR)|0.33||||0.168|TWO_SIDED|95.0|0.07|1.7||Threshold for Statistical Significance: alpha = 0.048|Cochran-Mantel-Haenszel|||||1.70|0.07|0.1680
92361394|NCT03274466|184626077|SUPERIORITY|Modified Intent-To-Treat|Odds Ratio (OR)|0.34||||0.3386|TWO_SIDED|95.0|0.04|3.39||Threshold for Statistical Significance: alpha = 0.048|Cochran-Mantel-Haenszel|||||3.39|0.04|0.3386
92361395|NCT03274466|184626078|SUPERIORITY||Odds Ratio (OR)|0.22||||0.0013|TWO_SIDED|95.0|0.08|0.59||Threshold for statistical significance: alpha = 0.048|Cochran-Mantel-Haenszel|||Sensitivity analysis of the Primary Endpoint using the Intent-To-Treat population.||0.59|0.08|0.0013
92361396|NCT02445911|184626100|OTHER||Least-squares Mean Difference|-6.78|||||TWO_SIDED|95.0|-23.75|10.18|||||Least-squares means have baseline and site as covariates. Placebo was the reference group.|||10.18|-23.75|
92361397|NCT02445911|184626100|OTHER||Least-squares Mean Difference|-2.97|||||TWO_SIDED|95.0|-19.65|13.72|||||Least-squares means have baseline and site as covariates. Placebo was the reference group.|||13.72|-19.65|
92361398|NCT02445911|184626100|OTHER||Least-squares Mean Difference|-5.05|||||TWO_SIDED|95.0|-21.97|11.88|||||Least-squares means have baseline and site as covariates. Placebo was the reference group.|||11.88|-21.97|
92361399|NCT01334918|184626118|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Predefined noninferiority criterion: If the lower boundary of the 95% CI was within 0.15 of 0.78, MDCT would be determined to be noninferior to SPECT.|Agreement rate|0.87|STANDARD_ERROR_OF_MEAN|0.051|||TWO_SIDED|95.0|0.77|0.97||||||Analysis of agreement rate based on participants with 0 -1 and ≥ 2 reversible defects according to SPECT. Agreement is defined as the proportion of participants who had the same status from SPECT and MDCT, averaged across those with 2 or more reversible defects and those without, where SPECT is the reference standard.||0.97|0.77|
92361400|NCT01334918|184626123|SUPERIORITY_OR_OTHER_LEGACY||Specificity|0.95|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|95.0|0.9|0.99||||||Analysis of specificity based on participants with no fixed defects according to SPECT. Specificity is defined as a proportion of true negatives that are correctly identified, using SPECT as the reference standard.||0.99|0.90|
92361401|NCT01334918|184626123|SUPERIORITY_OR_OTHER_LEGACY||Sensitivity|0.77|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|95.0|0.54|1.0||||||Analysis of sensitivity based on participants with ≥ 1 fixed defect according to SPECT. Sensitivity is the proportion of true positives that are correctly identified using SPECT as the reference standard.||1.00|0.54|
92361402|NCT01576783|184626126|OTHER|The reported p-value is for the comparison of the change in Linoleic acid (18:2n-6) mol% between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|-2.2|||<|0.001|TWO_SIDED|95.0|-3.4|0.9||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||0.9|-3.4|<0.001
92361403|NCT01576783|184626126|OTHER|The reported p-value is for the comparison of the change in Arachidonic acid (20:4n-6) mol% between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|2.2|||<|0.001|TWO_SIDED|95.0|1.7|2.8||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||2.8|1.7|<0.001
92361404|NCT01576783|184626126|OTHER|The reported p-value is for the comparison of the change in Total n-6 mol% between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|0.4||||0.61|TWO_SIDED|95.0|-1.0|1.7||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||1.7|-1.0|0.61
92402383|NCT00804908|184695410|SUPERIORITY_OR_OTHER||||||=|0.071|||||||Stratified log-rank|||Comparisons between treatment groups were performed using a Comparisons between treatment groups were performed using a log-rank test stratified by baseline lactate dehydrogenase (LDH) status (0 to 1 ULN; \>1 to ≤ 2 ULN) and history of previously treated brain metastases (with, without). Hochberg testing procedure for multiplicity adjustment.||||=0.071
92402384|NCT00804908|184695410|SUPERIORITY_OR_OTHER||||||=|0.233|||||||Stratified log-rank|||Comparisons between treatment groups were performed using a Comparisons between treatment groups were performed using a log-rank test stratified by baseline lactate dehydrogenase (LDH) status (0 to 1 ULN; \>1 to ≤ 2 ULN) and history of previously treated brain metastases (with, without). Hochberg testing procedure for multiplicity adjustment.||||=0.233
92402385|NCT01280903|184695418|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
92361405|NCT01576783|184626126|OTHER|The reported p-value is for the comparison of the change in α-linolenic acid (18:3n-3) between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|0.0||||0.4|TWO_SIDED|95.0|-0.1|0.1||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||0.1|-0.1|0.40
92402386|NCT01280903|184695419|SUPERIORITY|||||||0.13||||||p=0.130 for None to very low|Mixed Models Analysis|||||||0.130
92402387|NCT01280903|184695419|SUPERIORITY|||||||0.573||||||p=0.573 for Light|Mixed Models Analysis|||||||0.573
92402388|NCT01280903|184695419|SUPERIORITY|||||||0.197||||||p=0.197 for Moderate-to-vigorous|Mixed Models Analysis|||||||0.197
92402389|NCT01280903|184695420|SUPERIORITY|||||||0.461|||||||Mixed Models Analysis|||||||0.461
92276766|NCT00006170|184455018|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.08||95.0|||||Regression, Logistic|||||||0.08
92402390|NCT01280903|184695421|SUPERIORITY|||||||0.18|||||||Mixed Models Analysis|||||||0.180
92402391|NCT01280903|184695422|SUPERIORITY|||||||0.258|||||||Mixed Models Analysis|||||||0.258
92402392|NCT01280903|184695423|SUPERIORITY|||||||0.416|||||||Mixed Models Analysis|||||||0.416
92402393|NCT01280903|184695424|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
92402394|NCT01280903|184695425|SUPERIORITY|||||||0.272||||||p=0.272 for None to very low|Mixed Models Analysis|||||||0.272
92402395|NCT01280903|184695425|SUPERIORITY|||||||0.823||||||p=0.823 for Light|Mixed Models Analysis|||||||0.823
92402396|NCT01280903|184695425|SUPERIORITY|||||||0.076||||||p=0.076 for Moderate-to-vigorous|Mixed Models Analysis|||||||0.076
92402397|NCT01280903|184695426|SUPERIORITY|||||||0.561|||||||Mixed Models Analysis|||||||0.561
92402398|NCT01280903|184695427|SUPERIORITY|||||||0.856|||||||Mixed Models Analysis|||||||0.856
92402399|NCT01280903|184695428|SUPERIORITY|||||||0.292|||||||Mixed Models Analysis|||||||0.292
92402400|NCT01280903|184695429|SUPERIORITY|||||||0.396|||||||Mixed Models Analysis|||||||0.396
92402401|NCT01280903|184695430|SUPERIORITY|||||||0.424|||||||Mixed Models Analysis|||||||0.424
92402402|NCT01280903|184695431|SUPERIORITY|||||||0.586|||||||Mixed Models Analysis|||||||0.586
92402403|NCT01280903|184695432|SUPERIORITY|||||||0.596|||||||Mixed Models Analysis|||||||0.596
92402404|NCT01280903|184695433|SUPERIORITY|||||||0.639|||||||Mixed Models Analysis|||||||0.639
92402405|NCT01280903|184695434|SUPERIORITY|||||||0.466|||||||Mixed Models Analysis|||||||0.466
92402406|NCT01280903|184695435|SUPERIORITY|||||||0.322||||||p=0.322 for Short Form-36v2 Mental Component|Mixed Models Analysis|||||||0.322
92402407|NCT01280903|184695435|SUPERIORITY|||||||0.979||||||p=0.979 for Short Form-36v2 Physical Component|Mixed Models Analysis|||||||0.979
92402408|NCT01280903|184695436|SUPERIORITY|||||||0.71||||||p=0.710 for Exercise Barriers Self-Efficacy|Mixed Models Analysis|||||||0.710
92402409|NCT01280903|184695436|SUPERIORITY|||||||0.133||||||p=0.133 for Exercise Self-Efficacy|Mixed Models Analysis|||||||0.133
92402410|NCT01280903|184695437|SUPERIORITY|||||||0.005||||||p=0.005 for Arthritis Self Efficacy Pain|Mixed Models Analysis|||||||0.005
92276767|NCT00006170|184455019|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.006||95.0|||||Regression, Logistic|||||||0.006
92402411|NCT01280903|184695437|SUPERIORITY|||||||0.948||||||p=0.948 for Arthritis Self Efficacy Function|Mixed Models Analysis|||||||0.948
92402412|NCT01280903|184695437|SUPERIORITY|||||||0.663||||||p=0.663 for Arthritis Self Efficacy Other Symptoms|Mixed Models Analysis|||||||0.663
92402413|NCT01280903|184695438|SUPERIORITY|||||||0.001||||||p=0.001 for Perceived Therapeutic Efficacy of Exercise and Arthritis|Mixed Models Analysis|||||||0.001
92402414|NCT01280903|184695438|SUPERIORITY|||||||0.031||||||p=0.031 for Perceived Therapeutic Efficacy of Exercise and Hypertension|Mixed Models Analysis|||||||0.031
92402415|NCT01280903|184695439|SUPERIORITY|||||||0.816|||||||Mixed Models Analysis|||||||0.816
92402416|NCT01280903|184695440|SUPERIORITY|||||||0.895|||||||Mixed Models Analysis|||||||0.895
92402417|NCT01280903|184695441|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|||||||0.260
92402418|NCT01280903|184695442|SUPERIORITY|||||||0.993|||||||Mixed Models Analysis|||||||0.993
92402419|NCT01280903|184695443|SUPERIORITY|||||||0.947|||||||Mixed Models Analysis|||||||0.947
92402420|NCT01280903|184695444|SUPERIORITY|||||||0.406||||||p=0.406 for Short Form-36v2 Mental Component|Mixed Models Analysis|||||||0.406
92402421|NCT01280903|184695444|SUPERIORITY|||||||0.826||||||p=0.826 for Short Form-36v2 Physical Component|Mixed Models Analysis|||||||0.826
92402422|NCT01280903|184695445|SUPERIORITY|||||||0.95||||||p=0.950 for Exercise Barriers Self-Efficacy|Mixed Models Analysis|||||||0.950
92402423|NCT01280903|184695445|SUPERIORITY|||||||0.365||||||p=0.365 for Exercise Self-Efficacy|Mixed Models Analysis|||||||0.365
92402424|NCT01280903|184695446|SUPERIORITY|||||||0.219||||||p=0.219 for Arthritis Self Efficacy Pain|Mixed Models Analysis|||||||0.219
92402425|NCT01280903|184695446|SUPERIORITY|||||||0.34||||||p=0.340 for Arthritis Self Efficacy Function|Mixed Models Analysis|||||||0.340
92402426|NCT01280903|184695446|SUPERIORITY|||||||0.806||||||p=0.806 for Arthritis Self Efficacy Other Symptoms|Mixed Models Analysis|||||||0.806
92402427|NCT01280903|184695447|SUPERIORITY|||||||0.008||||||p=0.008 for Perceived Therapeutic Efficacy of Exercise and Arthritis|Mixed Models Analysis|||||||0.008
92402428|NCT01280903|184695447|SUPERIORITY|||||||0.12||||||p=0.120 for Perceived Therapeutic Efficacy of Exercise and Hypertension|t-test, 1 sided|||||||0.120
92402429|NCT03829228|184695452|SUPERIORITY||Mean Difference (Net)|1.31|||<|0.0001|TWO_SIDED|95.0|0.62|2.01||The threshold for statistical significance was p=0.01|ANOVA||Treatment Difference= Visit5-Baseline|||2.01|0.62|<0.0001
92402430|NCT03829228|184695453|SUPERIORITY||||||<|0.0001||||||The threshold for statistical significance was p=0.01|Regression, Logistic|||||||<0.0001
92402431|NCT03829228|184695454|SUPERIORITY||Mean Difference (Net)|1.31|||<|0.0001|TWO_SIDED|95.0|0.64|1.98||The threshold for statistical significance was p=0.01|ANOVA||Treatment difference=Visit5-Baseline|||1.98|0.64|<0.0001
92402432|NCT03829228|184695455|SUPERIORITY||||||<|0.0001||||||The threshold for statistical significant was p=0.01.|Regression, Logistic|||||||<0.0001
92402433|NCT02177695|184695456|SUPERIORITY||Odds Ratio (OR)|2.63||||0.1|TWO_SIDED|95.0|0.82|8.36|||Regression, Logistic|||To determine the relationship of GC COXEN scores to pT0, GC COXEN score (dichotomous, favorable vs. unfavorable) was tested in a logistic regression model predicting the outcome of pT0 within the GC treatment group.||8.36|0.82|0.1
92402434|NCT02177695|184695456|SUPERIORITY||Odds Ratio (OR)|1.12||||0.82|TWO_SIDED|95.0|0.42|2.95|||Regression, Logistic|||To determine the relationship of ddMVAC COXEN scores to pT0, ddMVAC COXEN score (dichotomous, favorable vs. unfavorable) was tested in a logistic regression model predicting the outcome of pT0 within the ddMVAC treatment group.||2.95|0.42|0.82
92402435|NCT02177695|184695457|SUPERIORITY||Odds Ratio (OR)|2.33||||0.02|TWO_SIDED|95.0|1.11|4.89|||Regression, Logistic|||To determine the relationship of GC COXEN scores to \<= pT1, GC COXEN score (dichotomous, favorable vs. unfavorable) was tested in a logistic regression model predicting the outcome of pT1 or better within the GC treatment group.||4.89|1.11|0.02
92402436|NCT02177695|184695457|SUPERIORITY||Odds Ratio (OR)|0.9||||0.76|TWO_SIDED|95.0|0.46|1.75|||Regression, Logistic|||To determine the relationship of ddMVAC COXEN scores to \<=pT1, ddMVAC COXEN score (dichotomous, favorable vs. unfavorable) was tested in a logistic regression model predicting the outcome of pT1 or better within the ddMVAC treatment group.||1.75|0.46|0.76
92402437|NCT03027609|184695464|SUPERIORITY|comparison between the treatment and placebo|Risk Difference (RD)|-5.54||||0.6154|TWO_SIDED|95.0|-21.9|10.8||P-value was obtained with the stratified CMH test adjusted for baseline randomization strata|Cochran-Mantel-Haenszel|||||10.8|-21.9|0.6154
92402438|NCT03027609|184695465|SUPERIORITY||Risk Difference (RD)|4.01||||0.8426|TWO_SIDED|95.0|-18.5|10.5||P-value was obtained with the stratified CMH test adjusted for baseline randomization strata|Cochran-Mantel-Haenszel|||Comparison between the treatment and placebo||10.5|-18.5|0.8426
92402439|NCT03027609|184695466|SUPERIORITY|comparison between the treatment and placebo|P value CMH|3.6||||0.3562|TWO_SIDED|95.0|-13.1|20.3||P-value was obtained with the stratified CMH test adjusted for baseline randomization strata|Cochran-Mantel-Haenszel|||Comparison between the treatment and placebo||20.3|-13.1|0.3562
92402440|NCT03027609|184695467|SUPERIORITY|Comparison between the treatment and placebo|P value CMH|-2.81||||0.8472|TWO_SIDED|95.0|-18.9|13.2||P-value was obtained with the stratified CMH test adjusted for baseline randomization strata|Cochran-Mantel-Haenszel|||||13.2|-18.9|0.8472
92402441|NCT03027609|184695468|SUPERIORITY||Mean Difference (Final Values)|22.3||||0.4616|TWO_SIDED|95.0|-16.2|60.6||Marginally statistically significant only if p\<0.1|Chi-squared|||Data for Day 14||60.6|-16.2|0.4616
92402442|NCT03027609|184695468|SUPERIORITY||Mean Difference (Final Values)|22.3||||0.4053|TWO_SIDED|95.0|-13.3|57.8||Data for Day 21|Chi-squared|||Data for Day 21||57.8|-13.3|0.4053
92165567|NCT04001517|184219772|SUPERIORITY||Mean Difference (Net)|0.175||||0.049|TWO_SIDED|95.0|0.001|0.345||The comparison is of neflamapimod 40mg TID to placebo. The p-value was not adjusted for multiple comparisons.|Mixed Models Analysis||The comparison is of neflamapimod 40mg TID to placebo. The positive value represents a better outcome with neflamapimod 40mg treatment vs. placebo.|This was an exploratory trial and no explicit a priori hypothesis was established and contained in the protocol. As such, no formal power calculations were conducted. The primary objective of the study was to evaluate the effects of neflamapimod on cognition, and accordingly the primary endpoint was change in combined z-score of the six tests in the NTB, analyzed by Linear Mixed Effects (LME) model for repeated measures.||0.345|0.001|0.049
92165568|NCT04001517|184219772|SUPERIORITY|Comparison of combined neflamapimod groups vs. placebo.|||||>|0.2|||||||Mixed Models Analysis|||||||>0.2
92165569|NCT04001517|184219773|SUPERIORITY|Comparison of combined neflamapimod 40mg TID vs. placebo. The p-value is not adjusted for multiple comparisons.|Mean Difference (Net)|-0.56||||0.007|TWO_SIDED|95.0|-0.96|-0.16||Comparison of combined neflamapimod dose groups vs. placebo utilizing mixed model for repeated measures with baseline as a covariate. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis||The comparison is of neflamapimod 40mg TID to placebo. A negative value indicates improvement compared to placebo.|||-0.16|-0.96|0.007
92361406|NCT01576783|184626126|OTHER|The reported p-value is for the comparison of the change in Eicosapentaenoic acid (20:5n-3) between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|0.0||||0.12|TWO_SIDED|95.0|0.0|0.1||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||0.1|0.0|0.12
92361407|NCT01576783|184626126|OTHER|The reported p-value is for the comparison of the change in Docosapentaenoic acid (22:5n-3) between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.1|0.0||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||0.0|-0.1|<0.001
92361408|NCT01576783|184626126|OTHER|The reported p-value is for the comparison of the change in Docosahexaenoic acid (22:6n-3) between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|1.2|||<|0.001|TWO_SIDED|95.0|1.0|1.5||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||1.5|1.0|<0.001
92361409|NCT01576783|184626126|OTHER|The reported p-value is for the comparison of the change in Total n-3 between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|1.2|||<|0.001|TWO_SIDED|95.0|0.9|1.4||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||1.4|0.9|<0.001
92361410|NCT01576783|184626127|OTHER|The reported p-value is for the comparison of the change in n-6:n-3 ratio between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|-4.6|||<|0.001|TWO_SIDED|95.0|-5.5|-3.7||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||-3.7|-5.5|<0.001
92361411|NCT01576783|184626130|OTHER|The reported p-value is for the comparison of the change in Effortful Control Composite scores between groups (DHA+AA vs. Placebo).||||||0.13||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||||||.13
92361412|NCT01576783|184626130|OTHER|The reported p-value is for the comparison of the change in Activity Level Composite scores between groups (DHA+AA vs. Placebo).||||||0.76||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||||||.76
92402443|NCT03027609|184695469|SUPERIORITY||Mean Difference (Final Values)|38.1||||0.0833|TWO_SIDED|90.0|-14.8|90.9||Marginally statistically significant only if p\<0.1|Chi-squared|||Data for Day 14||90.9|-14.8|0.0833
92402444|NCT03027609|184695469|SUPERIORITY||Mean Difference (Net)|23.8||||0.5151|TWO_SIDED|90.0|-30.5|78.1||Data for Day 21|Chi-squared|Marginally statistically significant only if p\<0.1 Day 21||Data for Day 21||78.1|-30.5|0.5151
92402445|NCT02443688|184695470|OTHER|Single Group Difference from Placebo Mean Change from Baseline with 95% confidence interval (CI)|Mean Difference (Final Values)|1.39|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|95.0|-1.34|4.12|||ANOVA|||||4.12|-1.34|
92402446|NCT02443688|184695470|OTHER|Single Group Difference from Placebo Mean Change from Baseline with 95% CI|Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|95.0|-3.78|1.64|||ANOVA|||||1.64|-3.78|
92276768|NCT00006170|184455019|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.45||95.0|||||Regression, Logistic|||||||0.45
92361413|NCT01576783|184626131|OTHER|The reported p-value is for the comparison of the change in Cognitive Composite scores between groups (DHA+AA vs. Placebo).||||||0.66||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||A sample of 448 was planned to achieve \>80% power to detect a 4.2-point difference (0.27-standard deviation (SD)) in Bayley-III cognitive composite scores with 10% loss to follow-up.The investigational product manufacturer discontinued production once 377 were enrolled, thereby capping enrollment. That sample provided 80% power to detect a 0.29-SD difference in Bayley-III scores.||||.66
92361414|NCT01576783|184626131|OTHER|The reported p-value is for the comparison of the change in Language Composite scores between groups (DHA+AA vs. Placebo).||||||0.55||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||A sample of 448 was planned to achieve \>80% power to detect a 4.2-point difference (0.27-standard deviation (SD)) in Bayley-III cognitive composite scores with 10% loss to follow-up.The investigational product manufacturer discontinued production once 377 were enrolled, thereby capping enrollment. That sample provided 80% power to detect a 0.29-SD difference in Bayley-III scores.||||.55
92361415|NCT01576783|184626131|OTHER|The reported p-value is for the comparison of the change in Motor Composite scores between groups (DHA+AA vs. Placebo).||||||0.88||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||A sample of 448 was planned to achieve \>80% power to detect a 4.2-point difference (0.27-standard deviation (SD)) in Bayley-III cognitive composite scores with 10% loss to follow-up.The investigational product manufacturer discontinued production once 377 were enrolled, thereby capping enrollment. That sample provided 80% power to detect a 0.29-SD difference in Bayley-III scores.||||.88
92361416|NCT01576783|184626132|OTHER|The reported p-value is for the comparison of the change in Nocturnal Sleep Duration between groups (DHA+AA vs. Placebo).||||||0.11||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||||||.11
92361417|NCT01576783|184626132|OTHER|The reported p-value is for the comparison of the change in daytime sleep duration between groups (DHA+AA vs. Placebo).||||||0.47||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||||||0.47
92402447|NCT02443688|184695470|SUPERIORITY|Difference from placebo of pooled arms (100mg CTX-4430 and 50mg CTX-4430) in change from baseline in ppFEV1 at Week 48.|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|1.2||0.45|TWO_SIDED|95.0|-2.2|2.5||0.1 alpha level (2-sided) prespecified|ANOVA|||||2.50|-2.20|0.45
92402448|NCT02443688|184695471|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|1.57|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|1.22|2.02|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||2.02|1.22|
92165570|NCT04001517|184219773|SUPERIORITY||Mean Difference (Net)|-0.45||||0.023|TWO_SIDED|95.0|-0.83|-0.06||Mixed model for repeated measures with baseline as a covariate. The p-value was not adjusted for multiple comparisons|Mixed Models Analysis||Comparison of combined neflamapimod dose groups vs. placebo. Negative values represents a better outcome with neflamapimod relative to placebo.|A secondary analysis was conducted comparing the combined neflamapimod dose groups vs. placebo.||-0.06|-0.83|0.023
92361418|NCT01576783|184626132|OTHER|The reported p-value is for the comparison of the change in total sleep duration between groups (DHA+AA vs. Placebo).||||||0.32||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||||||0.32
92361419|NCT01576783|184626133|OTHER|The reported p-value is for the comparison of the change in weight-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.99||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.99
92361420|NCT01576783|184626133|OTHER|The reported p-value is for the comparison of the change in length-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.27||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.27
92361421|NCT01576783|184626133|OTHER|The reported p-value is for the comparison of the change in head circumference-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.39||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.39
92402449|NCT02443688|184695471|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|1.46|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|1.13|1.89|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||1.89|1.13|
92165571|NCT04001517|184219774|SUPERIORITY||||||>|0.2|||||||Mixed Models Analysis|||||||>0.2
92361422|NCT01576783|184626133|OTHER|The reported p-value is for the comparison of the change in mid upper arm circumference-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.25||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.25
92402450|NCT02443688|184695471|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|1.56|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|1.21|2.01|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||2.01|1.21|
92402451|NCT02443688|184695471|OTHER|Pooled Group Rate with 95% CI|see Estimation Comment below|1.51|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|1.26|1.81|||||Estimated using negative binomial distribution unadjusted for multiple comparisons.|||1.81|1.26|
92402452|NCT02443688|184695472|OTHER|95% 2-sided confidence interval for the Hazard Ratio relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.88|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|0.58|1.34|||Regression, Cox|||||1.34|0.58|
92165572|NCT04001517|184219775|OTHER||Mean Difference (Net)|-1.53||||0.15|TWO_SIDED|95.0|-3.61|0.55|||Mixed Models Analysis|||||.55|-3.61|0.15
92224052|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|3.02||||0.672|TWO_SIDED|95.0|-11.03|17.07||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportions and the corresponding standard error.||17.07|-11.03|0.672
92361423|NCT01576783|184626133|OTHER|The reported p-value is for the comparison of the change in triceps skinfold-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.85||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.85
92361424|NCT01576783|184626133|OTHER|The reported p-value is for the comparison of the change in subscapular skinfold-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.82||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.82
92361425|NCT01576783|184626134|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.42||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.42
92361426|NCT01576783|184626134|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.68||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.68
92361427|NCT01576783|184626134|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.78||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.78
92361428|NCT01576783|184626134|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.32||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.32
92361429|NCT01576783|184626134|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.97||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.97
92402453|NCT02443688|184695472|OTHER|95% 2-sided confidence interval for the Hazard Ratio relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.86|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|0.56|1.31|||Regression, Cox|||||1.31|0.56|
92402454|NCT02443688|184695472|OTHER|95% 2-sided confidence interval for the Hazard Ratio Relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.87|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|0.61|1.25|||Regression, Cox|||||1.25|0.61|
92402455|NCT02443688|184695478|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|0.84|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|0.49|1.44|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||1.44|0.49|
92402456|NCT02443688|184695478|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|1.28|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|95.0|0.84|1.96|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||1.96|0.84|
92402457|NCT02443688|184695478|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|1.61|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|1.07|2.42|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||2.42|1.07|
92361430|NCT01576783|184626134|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.62||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.62
92361431|NCT01576783|184626134|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.69||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.69
92361432|NCT01576783|184626135|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.22||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.22
92361433|NCT01576783|184626136|OTHER|The reported p-value is for the comparison of the change in Nocturnal Sleep Duration between groups (DHA+AA vs. Placebo).||||||0.23||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|||||||0.23
92361434|NCT01576783|184626136|OTHER|The reported p-value is for the comparison of the change in Daytime Sleep Duration between groups (DHA+AA vs. Placebo).||||||0.07||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|||||||0.07
92361435|NCT01576783|184626136|OTHER|The reported p-value is for the comparison of the change in Total Sleep Duration between groups (DHA+AA vs. Placebo).||||||0.06||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|||||||0.06
92402458|NCT02443688|184695478|OTHER|Group Rate with 95% CI|see Estimation Comment below|1.04|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|0.74|1.46|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||1.46|0.74|
92402459|NCT02443688|184695479|OTHER|95% 2-sided confidence interval for the Hazard Ratio Relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.52|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|0.25|1.1|||Regression, Cox|||||1.10|0.25|
92402460|NCT02443688|184695479|OTHER|95% 2-sided confidence interval for the Hazard Ratio Relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.62|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|0.3|1.27|||Regression, Cox|||||1.27|0.30|
92402461|NCT02443688|184695479|OTHER|95% 2-sided confidence interval for the Hazard Ratio Relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.57|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|0.31|1.05|||Regression, Cox|||||1.05|0.31|
92402462|NCT03182374|184695485|SUPERIORITY||||||<|0.0001||||||ITT Population|t-test, 2 sided|||||||<0.0001
92402463|NCT03182374|184695486|SUPERIORITY||||||<|0.0001||||||PP Population|t-test, 2 sided|||||||<0.0001
92402464|NCT03182374|184695487|SUPERIORITY|||||||0.6655||||||PP Population|t-test, 2 sided|||||||0.6655
92361436|NCT01576783|184626137|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.51||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.51
92361437|NCT01576783|184626138|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.09||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups. Model controlled for baseline scores.||||||0.09
92361438|NCT01576783|184626139|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.29||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups. Model controlled for baseline scores.||||||0.29
92361439|NCT01576783|184626139|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.11||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups. Model controlled for baseline scores.||||||0.11
92361440|NCT01576783|184626139|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.23||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.23
92361441|NCT01576783|184626139|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.29||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.29
92361442|NCT01576783|184626139|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.06||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.06
92361443|NCT01576783|184626139|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.14||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.14
92361444|NCT01576783|184626139|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.13||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.13
92361445|NCT01576783|184626139|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.16||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.16
92402465|NCT03182374|184695488|SUPERIORITY||||||<|0.0001||||||PP Population|t-test, 2 sided|||||||<0.0001
92361446|NCT01576783|184626140|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.98|||||||Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.98
92402466|NCT03182374|184695489|SUPERIORITY||||||<|0.05||||||PP population|t-test, 2 sided|||||||<0.05
92402467|NCT03182374|184695490|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92402468|NCT01462370|184695491|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority margin is -3.7 units.|Difference in LS Means|0.89||||0.043|TWO_SIDED|95.0|0.03|1.76||A priori threshold for statistical significance = \<0.025 (one-sided).|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||With at least 128 participants, the study had a 92% power to establish that etoricoxib is noninferior to ibuprofen (null hypothesis). The power and sample size were based on the following assumptions: 1) an approximately 15% protocol violation rate, 2) a noninferiority margin of -3.7 units (etoricoxib minus ibuprofen), and 3) an intrapatient standard deviation of 8 units.||1.76|0.03|0.043
92361447|NCT01576783|184626140|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.67||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.67
92361448|NCT01576783|184626141|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.047||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.047
92361449|NCT01576783|184626142|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.2||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups. Model controlled for baseline scores.||||||0.20
92361450|NCT01576783|184626143|OTHER|Results are the comparison of proportion of those with a developmental condition between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).|Odds Ratio (OR)|1.63|||||TWO_SIDED|95.0|0.8|3.32||||||||3.32|0.80|
92165573|NCT04001517|184219775|SUPERIORITY||Mean Difference (Net)|-1.31||||0.077|TWO_SIDED|95.0|-5.03|2.34|||Mixed Models Analysis|||Comparison of combined neflamapimod groups (i.e., all neflamapimod) vs. placebo||2.34|-5.03|0.077
92165574|NCT04001517|184219776|SUPERIORITY||Mean Difference (Net)|0.32|||>|0.2|TWO_SIDED|95.0|-1.27|1.91|||Mixed Models Analysis||Comparison of change from baseline over course of study for NFMD 40mg TID vs. placebo.|||1.91|-1.27|>0.2
92361451|NCT01576783|184626144|OTHER|Results are the comparison of proportion of those with a behavioral condition between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).|Odds Ratio (OR)|4.5|||||TWO_SIDED|95.0|0.52|39.15||||||||39.15|0.52|
92361452|NCT02777086|184626219|SUPERIORITY||||||<|0.001|||||||ANCOVA|||3-month outcome measures were compared between the StaySafe and Comparison groups controlling for the baseline measure using generalized linear models.||||<.001
92361453|NCT01819272|184626261|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-9.0||||0.067|TWO_SIDED|95.0|-21.0|1.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||1.0|-21.0|0.0670
92361454|NCT01819272|184626261|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-14.0||||0.0057|TWO_SIDED|95.0|-22.0|-4.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-4.0|-22.0|0.0057
92402469|NCT01462370|184695492|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.2||||0.768|TWO_SIDED|95.0|-1.16|1.57||A nominal threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||1.57|-1.16|0.768
92402470|NCT01462370|184695493|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.26||||0.007|TWO_SIDED|95.0|0.07|0.45||A nominal threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.45|0.07|0.007
92402471|NCT01462370|184695494|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.36|||<|0.001|TWO_SIDED|95.0|0.17|0.54||A nominal threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.54|0.17|<0.001
92402472|NCT01462370|184695495|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.89||||0.371|TWO_SIDED|95.0|0.7|1.14||A priori threshold for statistical significance = \<0.05.|Regression, Cox|Adjusted for treatment, period, and baseline pain intensity.||||1.14|0.70|0.371
92402473|NCT01462370|184695496|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.1||||0.051|TWO_SIDED|95.0|0.0|0.2||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.20|-0.00|0.051
92165575|NCT04001517|184219777|OTHER||Mean Difference (Net)|-1.4||||0.024|TWO_SIDED|95.0|-2.6|-0.2|||Mixed Models Analysis||Mean difference for the comparison of 40 mg TID vs. placebo is reported.|||-0.2|-2.6|0.024
92402474|NCT01462370|184695497|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference in LS Means|0.17||||0.019|TWO_SIDED|95.0|0.03|0.32||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.32|0.03|0.019
92402475|NCT01462370|184695499|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.21|||<|0.001|TWO_SIDED|95.0|0.1|0.31||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.31|0.10|<0.001
92165576|NCT04001517|184219777|SUPERIORITY|Comparison of combined neflamapimod dose groups vs. placebo.|Mean Difference (Net)|-1.36||||0.044|TWO_SIDED|95.0|-2.69|-0.04|||Mixed Models Analysis|||||-0.04|-2.69|0.044
92165577|NCT02498769|184219790|OTHER||Hazard Ratio (HR)|0.69||||0.18|TWO_SIDED|95.0|0.41|1.19|||Regression, Cox|||||1.19|0.41|0.18
92361455|NCT01819272|184626261|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-12.0||||0.1095|TWO_SIDED|95.0|-25.0|3.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||3.0|-25.0|0.1095
92402476|NCT01462370|184695500|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.28||||0.002|TWO_SIDED|95.0|0.1|0.45||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.45|0.10|0.002
92402477|NCT01462370|184695501|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.11||||0.011|TWO_SIDED|95.0|0.03|0.2||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.20|0.03|0.011
92165578|NCT02498769|184219791|OTHER||Odds Ratio (OR)|0.63||||0.19|TWO_SIDED|95.0|0.31|1.27|||Regression, Logistic|||||1.27|0.31|0.19
92165579|NCT02498769|184219792|OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||ICU length of stay hours||||.16
92165580|NCT02498769|184219792|OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Hospital LOS||||.51
92165581|NCT02498769|184219793|OTHER|||||||0.97|||||||Chi-squared|||||||.97
92165582|NCT01582269|184219794|SUPERIORITY||Hazard Ratio (HR)|0.9336|||||TWO_SIDED|95.0|0.58|1.49|||Bayesian exponential-likelihood model|||The Bayesian analyses below include credible intervals rather than confidence intervals for the hazard ratios.|The posterior probability treatment difference is 0.6158|1.49|0.58|
92361456|NCT01819272|184626261|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-12.0||||0.0097|TWO_SIDED|95.0|-23.0|-3.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-3.0|-23.0|0.0097
92361457|NCT01819272|184626261|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-28.0|||<|0.0001|TWO_SIDED|95.0|-42.0|-17.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-17.0|-42.0|<0.0001
92361458|NCT01819272|184626262|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-106.0||||0.0226|TWO_SIDED|95.0|-208.0|-16.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-16.00|-208.0|0.0226
92361459|NCT01819272|184626262|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-106.0||||0.0068|TWO_SIDED|95.0|-180.0|-32.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-32.00|-180.0|0.0068
92361460|NCT01819272|184626262|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-152.0||||0.0071|TWO_SIDED|95.0|-252.0|-42.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-42.00|-252.0|0.0071
92361461|NCT01819272|184626262|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-101.0||||0.0405|TWO_SIDED|95.0|-208.0|-4.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-4.00|-208.0|0.0405
92361462|NCT01819272|184626262|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-224.0|||<|0.0001|TWO_SIDED|95.0|-334.0|-118.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-118.0|-334.0|<.0001
92361463|NCT01819272|184626263|SUPERIORITY_OR_OTHER||LS Mean|-0.48||||0.01|TWO_SIDED|95.0|-0.85|-0.12|||ANCOVA|Factor for treatment and baseline HbA1c as a covariate||||-0.12|-0.85|0.0100
92361464|NCT01819272|184626263|SUPERIORITY_OR_OTHER||LS Mean|-0.45||||0.0153|TWO_SIDED|95.0|-0.81|-0.09|||ANCOVA|Factor for treatment and baseline HbA1c as a covariate||||-0.09|-0.81|0.0153
92361465|NCT01819272|184626263|SUPERIORITY_OR_OTHER||LS Mean|-0.35||||0.0611|TWO_SIDED|95.0|-0.71|0.02|||ANCOVA|Factor for treatment and baseline HbA1c as a covariate||||0.02|-0.71|0.0611
92361466|NCT01819272|184626263|SUPERIORITY_OR_OTHER||LS Mean|-0.45||||0.0188|TWO_SIDED|95.0|-0.83|-0.08|||ANCOVA|Factor for treatment and baseline HbA1c as acovariate||||-0.08|-0.83|0.0188
92402478|NCT01462370|184695502|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.26||||0.004|TWO_SIDED|95.0|0.08|0.44||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.44|0.08|0.004
92402479|NCT01462370|184695503|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6||||0.112|TWO_SIDED|95.0|0.9|2.87||A priori threshold for statistical significance = \<0.05.|Regression, Logistic|Adjusted for treatment, period, and baseline pain intensity.||||2.87|0.90|0.112
92402480|NCT01462370|184695504|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.97||||0.019|TWO_SIDED|95.0|1.12|3.45||A priori threshold for statistical significance = \<0.05.|Regression, Logistic|Adjusted for treatment, period, and baseline pain intensity.||||3.45|1.12|0.019
92402481|NCT03651479|184695505|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92402482|NCT01391546|184695526|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was achieved if the lower bound of the 2-sided 95% confidence interval (CI) for the GMT ratio was greater than 2/3|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.93|1.18|||longitudinal regression model|Model adjusted for pre-vaccination titres and age at vaccination in years|GMT ratio = GMT IM route divided by GMT SC route|||1.18|0.93|<0.001
92402483|NCT01391546|184695527|SUPERIORITY_OR_OTHER||GMFR|2.7|||||TWO_SIDED|95.0|2.4|3.0|||||GMFR = GMT Post-vaccination/GMT Pre-vaccination|Acceptability was demonstrated if the lower bound of the two-sided 95% CI was \>1.4||3.0|2.4|
92402484|NCT00989911|184695547|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
92402485|NCT00837434|184695548|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|TWO_SIDED||||||ANCOVA|P-value for testing treatment effect uses week 12 CD27+ switched memory as the outcome variable and adjusts for baseline CD27+ switched memory||Null Hypothesis: Mean percentage of CD27+ switched memory cells in the peripheral blood at Week 12 does not differ between individuals treated with etanercept and those treated with adalimumab after adjusting for baseline CD27+ switched memory cells. Alt. hypothesis: Mean percentage of CD27+ switched memory cells in the peripheral blood at Week 12 in individuals treated with etanercept is lower than in those treated with adalimumab after adjusting for baseline CD27+ switched memory cells.||||0.3
92276769|NCT00006170|184455019|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.046||95.0|||||Regression, Logistic|||||||0.046
92361467|NCT01819272|184626263|SUPERIORITY_OR_OTHER||LS Mean|-0.67||||0.0006|TWO_SIDED|95.0|-1.04|-0.29|||ANCOVA|Factor for treatment and baseline HbA1c as a covariate||||-0.29|-1.04|0.0006
92402486|NCT03044106|184695561|SUPERIORITY||Mean Difference (Final Values)|3.825|STANDARD_DEVIATION|3.308759||0.0068|TWO_SIDED|95.0|1.058809|6.591192|||t-test, 2 sided|||This is the difference between pre and post KEA in those receiving the active treatment with a history of hamstring strain.||6.591192|1.058809|0.0068
92402487|NCT03044106|184695561|SUPERIORITY||Median Difference (Final Values)|1.0|STANDARD_DEVIATION|3.431784||0.2185|TWO_SIDED|95.0|-1.869044|3.869044|||t-test, 2 sided|||This is the difference in pre /post KEA means after receiving the sham treatment in those with a history of hamstring strains.||3.869044|-1.869044|0.2185
92402488|NCT03044106|184695561|SUPERIORITY||Mean Difference (Final Values)|0.6638904|STANDARD_DEVIATION|3.450892||0.1281|TWO_SIDED|95.0|-0.5037233|1.831504|||t-test, 2 sided|||This is the difference in pre/post KEA means in those receiving the active treatment with no history of hamstring strain.||1.831504|-.5037233|0.1281
92361468|NCT03021486|184626264|OTHER|||||||0.71|||||||Wilcoxon Rank Sum Test|||||||0.71
92361469|NCT03021486|184626266|OTHER|||||||0.86|||||||Wilcoxon Rank Sum Test|||||||0.86
92361470|NCT03021486|184626267|OTHER|||||||0.12|||||||Two-tailed Fisher's exact test|||||||0.12
92361471|NCT03021486|184626268|OTHER|||||||0.007|||||||Two-tailed Fisher's exact test|||||||0.007
92361472|NCT03021486|184626269|OTHER|||||||0.83|||||||Two-tailed Fisher's exact test|||Perceived Comfort level as assessed by caregiver||||0.83
92361473|NCT03021486|184626269|OTHER|||||||0.82|||||||Two-tailed Fisher's exact test|||Perceived agitation level as assessed by caregiver||||0.82
92361474|NCT03021486|184626270|OTHER|||||||0.82|||||||Two-tailed Fisher's exact test|||Perceived Comfort level as assessed by nurse||||0.82
92361475|NCT03021486|184626270|OTHER|||||||0.91|||||||Two-tailed Fisher's exact test|||Perceived agitation level as assessed by nurse||||0.91
92361476|NCT03021486|184626271|OTHER|||||||0.12|||||||Wilcoxon Rank Sum Test|||Nursing assessment, disorientation to time - frequency||||0.12
92361477|NCT03021486|184626271|OTHER|||||||0.07|||||||Wilcoxon Rank Sum Test|||Nursing assessment, disorientation to place - frequency||||0.07
92361478|NCT03021486|184626271|OTHER|||||||0.051|||||||Wilcoxon Rank Sum Test|||Nursing assessment, visual hallucination - frequency||||0.051
92361479|NCT03021486|184626271|OTHER|||||||0.048|||||||Wilcoxon Rank Sum Test|||Nursing assessment, tactile hallucination - frequency||||0.048
92361480|NCT03021486|184626271|OTHER|||||||0.15|||||||Wilcoxon Rank Sum Test|||Nursing assessment, auditory hallucination - frequency||||0.15
92361481|NCT03021486|184626271|OTHER|||||||0.1|||||||Wilcoxon Rank Sum Test|||Nursing assessment, delusional thoughts - frequency||||0.10
92361482|NCT03021486|184626271|OTHER|||||||0.15|||||||Wilcoxon Rank Sum Test|||Nursing assessment, psychomotor agitation- frequency||||0.15
92402489|NCT03044106|184695561|SUPERIORITY||Mean Difference (Final Values)|2.688237|STANDARD_DEVIATION|3.241751||0|TWO_SIDED|95.0|1.557137|3.819337|||t-test, 2 sided|||This is the difference in pre/post KEA means in those receiving the sham treatment who have no history of hamstring strain.||3.819337|1.557137|0.00
92224053|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|-4.47||||0.467|TWO_SIDED|95.0|-17.61|8.68||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.68|-17.61|0.467
92402490|NCT03044106|184695561|SUPERIORITY||Mean Difference (Final Values)|2.825||||0.09|TWO_SIDED|95.0|-0.4543|6.0581|||Mixed Models Analysis|||This is the mean difference in effect between active and sham in those with a history of hamstring strain||6.0581|-0.4543|0.090
92402491|NCT03044106|184695561|SUPERIORITY||Mean Difference (Final Values)|-2.024||||0.018|TWO_SIDED|95.0|-3.4474|-0.3406|||Mixed Models Analysis|||This is the mean difference of effect between active and sham in those without a history of hamstring strain.||-0.3406|-3.4474|0.018
92402492|NCT03199976|184695581|SUPERIORITY||||||<|0.01||||||Bonferroni correction was applied in pairwise analyses.|Wilcoxon (Mann-Whitney)|||||||<0.01
92402493|NCT03199976|184695582|SUPERIORITY|||||||0.595|||||||Chi-squared|||||||0.595
92224054|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|7.55||||0.164|TWO_SIDED|95.0|-2.96|18.05||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.05|-2.96|0.164
92224055|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|-7.52||||0.427|TWO_SIDED|95.0|-25.96|10.92||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.92|-25.96|0.427
92224056|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|-5.66||||0.537|TWO_SIDED|95.0|-23.57|12.25||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.25|-23.57|0.537
92402494|NCT03199976|184695583|SUPERIORITY||||||<|0.01||||||Bonferroni correction was applied in pairwise analyses.|Wilcoxon (Mann-Whitney)|||||||<0.01
92402495|NCT03199976|184695584|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92402496|NCT03367793|184695585|OTHER||f statistic|1.1||||0.341|TWO_SIDED|||||The threshold for statistical significance was 0.05.|Mixed Models Analysis|||It was calculated that 29 participants randomized in a 3x3 within-subject crossover design (repeated measures) achieves at least 89% power to detect an effect size of 0.25. Sample size was determined by a 2-sided f-test (alpha = 0.05) of the overall treatment effect based on a statistical simulation, simulating the repeated measures design. Assumptions included ICC of 0.3.||||0.341
92276770|NCT00268346|184455052|SUPERIORITY_OR_OTHER||percentage response|6.9|||<|0.05|TWO_SIDED|95.0|||||binomial test for a single proportion|||In patients with prior chemotherapy, \>25% response indicates efficacy and \<10% indicates lack of efficacy. In patients with no prior chemotherapy, \>45% response indicates efficacy and \<25% indicates lack of efficacy. Using a 5% significance level, the study was designed to have 80% power to test each hypothesis.||||<0.05
92224057|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|-1.83||||0.813|TWO_SIDED|95.0|-16.88|13.22||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.22|-16.88|0.813
92276771|NCT00723554|184455098|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.1|||<|0.001|TWO_SIDED|95.0|-6.9|-5.4|||t-test, 2 sided|||Comparison of the change in average inhalation times from Period I (PD-6) to Period II (PD-15)||-5.4|-6.9|<0.001
92402497|NCT03367793|184695585|OTHER||least square means|0.31|||||TWO_SIDED|95.0|0.26|0.36|||||Additional model based estimates for 2-month estimated least square means in binocular visual acuity (logMAR) for PFST.|||0.36|0.26|
92402498|NCT03367793|184695585|OTHER||least square means|0.33|||||TWO_SIDED|95.0|0.27|0.38|||||Additional model based estimates for 2-month estimated least square means in binocular visual acuity (logMAR) for VSX.|||0.38|0.27|
92402499|NCT03367793|184695585|OTHER||least square means|0.34|||||TWO_SIDED|95.0|0.28|0.39|||||Additional model based estimates for 2-month estimated least square means in binocular visual acuity (logMAR) for Clinical Refraction.|||0.39|0.28|
92402500|NCT03367793|184695586|OTHER||f statistic|0.93||||0.41|TWO_SIDED|||||The threshold for statistical significance was 0.05.|f test|||It was calculated that 29 participants randomized in a 3x3 within-subject crossover design (repeated measures) achieves at least 89% power to detect an effect size of 0.25. Sample size was determined by a 2-sided f-test (alpha = 0.05) of the overall treatment effect based on a statistical simulation, simulating the repeated measures design. Assumptions included ICC of 0.3.||||0.410
92402501|NCT03367793|184695586|OTHER||least square means|0.35|||||TWO_SIDED|95.0|0.28|0.41|||||Additional model based estimates for initial visit estimated least square means in binocular visual acuity (logMAR) for PFST.|||0.41|0.28|
92402502|NCT03367793|184695586|OTHER||least square means|0.33|||||TWO_SIDED|95.0|0.26|0.39|||||Additional model based estimates for initial visit estimated least square means in binocular visual acuity (logMAR) for VSX.|||0.39|0.26|
92402503|NCT03367793|184695586|OTHER||least square means|0.34|||||TWO_SIDED|95.0|0.28|0.41|||||Additional model based estimates for initial visit estimated least square means in binocular visual acuity (logMAR) for Clinical Refraction.|||0.41|0.28|
92224058|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|-5.5||||0.455|TWO_SIDED|95.0|-19.24|8.24||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.24|-19.24|0.455
92361483|NCT03021486|184626271|OTHER|||||||0.98|||||||Wilcoxon Rank Sum Test|||Nursing assessment, disorientation to time - distress||||0.98
92361484|NCT03021486|184626271|OTHER|||||||0.93|||||||Wilcoxon Rank Sum Test|||Nursing assessment, disorientation to place - distress||||0.93
92402504|NCT03367793|184695587|OTHER||f statistic|1.09||||0.351|TWO_SIDED|||||The threshold for statistical significance was alpha=0.05.|f test|||It was calculated that 29 participants randomized in a 3x3 within-subject crossover design (repeated measures) achieves at least 89% power to detect an effect size of 0.25. Sample size was determined by a 2-sided f-test (alpha = 0.05) of the overall treatment effect based on a statistical simulation, simulating the repeated measures design. Assumptions included ICC of 0.3.||||0.351
92402505|NCT03367793|184695587|OTHER||least square means|11.0|||||TWO_SIDED|95.0|9.3|12.7|||||Additional model based estimates for two-month wear time estimated least square means in spectacle wear-time (Hours) for PFST.|||12.7|9.3|
92402506|NCT03367793|184695587|OTHER||least square means|10.9|||||TWO_SIDED|95.0|9.2|12.6|||||Additional model based estimates for two-month wear time estimated least square means in spectacle wear-time (Hours) for VSX.|||12.6|9.2|
92402507|NCT03367793|184695587|OTHER||least square means|11.2|||||TWO_SIDED|95.0|9.5|12.9|||||Additional model based estimates for two-month wear time estimated least square means in spectacle wear-time (Hours) for Clinical Refraction.|||12.9|9.5|
92402508|NCT03367793|184695588|OTHER||f statistic|0.58||||0.562|TWO_SIDED||||||Mixed Models Analysis|||It was calculated that a sample size of n=28 yields 82% power to detect a difference of 0.4 in proportion of satisfaction (binary outcome of scores of '4' or '5' versus '1 to 3') in comparing two metrics using a two sided McNemar's test (alpha = 0.025 to account for pairwise testing).||||0.562
92402509|NCT03367793|184695588|OTHER||proportion|0.967|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 1 for PFST.|||||
92224059|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|-4.02||||0.57|TWO_SIDED|95.0|-17.63|9.59||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.59|-17.63|0.570
92402510|NCT03367793|184695588|OTHER||proportion|0.933|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 1 for VSX.|||||
92224060|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|-1.65||||0.792|TWO_SIDED|95.0|-13.8|10.5||p-value was calculated using CMH test which was adjusted which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.50|-13.80|0.792
92402511|NCT03367793|184695588|OTHER||proportion|0.897|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 1 for Clinical Refraction.|||||
92224061|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|-4.25||||0.556|TWO_SIDED|95.0|-17.82|9.33||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.33|-17.82|0.556
92361485|NCT03021486|184626271|OTHER|||||||0.08|||||||Wilcoxon Rank Sum Test|||Nursing assessment, visual hallucination - distress||||0.08
92361486|NCT03021486|184626271|OTHER|||||||0.28|||||||Wilcoxon Rank Sum Test|||Nursing assessment, tactile hallucination - distress||||0.28
92361487|NCT03021486|184626271|OTHER|||||||0.83|||||||Wilcoxon Rank Sum Test|||Nursing assessment, auditory hallucination - distress||||0.83
92361488|NCT03021486|184626271|OTHER|||||||0.22|||||||Wilcoxon Rank Sum Test|||Nursing assessment, delusional thoughts - distress||||0.22
92361489|NCT03021486|184626271|OTHER|||||||0.75|||||||Wilcoxon Rank Sum Test|||Nursing assessment, psychomotor agitation - distress||||0.75
92361490|NCT03021486|184626272|OTHER|||||||0.09|||||||Wilcoxon Rank Sum Test|||||||0.09
92402512|NCT03367793|184695589|OTHER||||||>|0.99|||||||Mixed Models Analysis|||It was calculated that a sample size of n=28 yields 82% power to detect a difference of 0.4 in proportion of satisfaction (binary outcome of scores of '4' or '5' versus '1 to 3') in comparing two metrics using a two sided McNemar's test (alpha = 0.025 to account for pairwise testing).||||>0.99
92402513|NCT03367793|184695589|OTHER||proportion|0.967|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 2 for PFST.|||||
92402514|NCT03367793|184695589|OTHER||proportion|0.967|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 2 for VSX.|||||
92402515|NCT03367793|184695589|OTHER||proportion|0.966|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 2 for Clinical Refraction.|||||
92224062|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|-2.77||||0.689|TWO_SIDED|95.0|-16.24|10.69||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.69|-16.24|0.689
92224063|NCT01077973|184349395|SUPERIORITY_OR_OTHER||Difference in proportion|-1.65||||0.786|TWO_SIDED|95.0|-13.45|10.14||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.14|-13.45|0.786
92361491|NCT03021486|184626273|OTHER|||||||0.02|||||||Wilcoxon Rank Sum Test|||Mean change in pain.||||0.02
92361492|NCT03021486|184626273|OTHER|||||||0.1|||||||Wilcoxon Rank Sum Test|||Mean change in Fatigue.||||0.10
92361493|NCT03021486|184626273|OTHER|||||||0.02|||||||Wilcoxon Rank Sum Test|||Mean change in Nausea.||||0.02
92361494|NCT03021486|184626273|OTHER|||||||0.97|||||||Wilcoxon Rank Sum Test|||Mean change in Depression.||||0.97
92361495|NCT03021486|184626273|OTHER|||||||0.03|||||||Wilcoxon Rank Sum Test|||Mean change in Anxiety.||||0.03
92361496|NCT03021486|184626273|OTHER|||||||0.68|||||||Wilcoxon Rank Sum Test|||Mean change in Drowsiness.||||0.68
92361497|NCT03021486|184626273|OTHER|||||||0.8|||||||Wilcoxon Rank Sum Test|||Mean change in Appetite.||||0.80
92361498|NCT03021486|184626273|OTHER|||||||0.45|||||||Wilcoxon Rank Sum Test|||Mean change in Feeling of well being.||||0.45
92361499|NCT03021486|184626273|OTHER|||||||0.16|||||||Wilcoxon Rank Sum Test|||Mean change in Shortness of breath.||||0.16
92224064|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|6.06||||0.48|TWO_SIDED|95.0|-10.86|22.99||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||22.99|-10.86|0.480
92361500|NCT03021486|184626273|OTHER|||||||0.12|||||||Wilcoxon Rank Sum Test|||Mean change in Sleep.||||0.12
92361501|NCT04043286|184626275|SUPERIORITY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.18||0.009|TWO_SIDED|95.0|0.1|0.85|||Wilcoxon (Mann-Whitney)|The Shapiro-Wilk test assessed data normality, and paired t-tests or Wilcoxon tests were applied based on normality results.||The null hypothesis was that there would be no significant difference in peri-implant bone levels between implants with definitive abutments delivered at the time of surgery, and those subjected to multiple abutment disconnections and reconnections. Power analysis was performed and showed that a sample size of 38 implants was needed to achieve 80% power to detect a difference between the null proportion of 0.500 at a significance level of 0.05.||0.85|0.10|0.009
92361502|NCT04043286|184626276|SUPERIORITY||Mean Difference (Final Values)|0.75|STANDARD_ERROR_OF_MEAN|0.23||0.049|TWO_SIDED|95.0|-0.0000168|1.25|||Wilcoxon (Mann-Whitney)|||"The null hypothesis was that there would be no significant difference in peri-implant bone levels between implants with definitive abutments delivered at the time of surgery, and those subjected to multiple abutment disconnections and reconnections. Power analysis was performed and showed that a sample size of 38 implants was needed to achieve 80% power to detect a difference between the null proportion of 0.500 at a significance level of 0.05.~Type of Statistical Test"||1.25|-0.0000168|0.049
92361503|NCT04043286|184626277|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.15||0.053|TWO_SIDED|95.0|-0.0000522|0.75|||Wilcoxon (Mann-Whitney)|||"The null hypothesis was that there would be no significant difference in peri-implant bone levels between implants with definitive abutments delivered at the time of surgery, and those subjected to multiple abutment disconnections and reconnections. Power analysis was performed and showed that a sample size of 38 implants was needed to achieve 80% power to detect a difference between the null proportion of 0.500 at a significance level of 0.05.~Type of Statistical Test"||0.75|-0.0000522|0.053
92224065|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|4.34||||0.612|TWO_SIDED|95.0|-12.55|21.23||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||21.23|-12.55|0.612
92361504|NCT01732536|184626279|SUPERIORITY|||||||0.1365|||||||ANCOVA|Based on between group comparison using ANCOVA model with baseline as a covariate and site and treatment as fixed effects||||||0.1365
92361505|NCT01732536|184626279|SUPERIORITY|||||||0.0505||||||Based on between group comparison using ANCOVA model with baseline as a covariate and site and treatment as fixed effects|ANCOVA|||The change from baseline to Day 90 in Nasal Obstruction/Congestion score in the subset of participants with higher polyp burden at baseline (grade 2 or higher polyps on each side; N=67).||||0.0505
92361506|NCT01732536|184626280|SUPERIORITY|||||||0.0985|||||||ANCOVA|Based on ANCOVA model with baseline as a covariate, site and treatment as fixed effect||||||0.0985
92361507|NCT01732536|184626280|SUPERIORITY|||||||0.049|||||||ANOVA|Based on ANCOVA model with baseline as a covariate, site and treatment as fixed effect||Bilateral polyp grade change in a subset of 67 patients with higher polyp burden at baseline (grade 2 or higher on each side confirmed by the independent panel)||||0.0490
92361508|NCT01732536|184626281|SUPERIORITY|||||||0.0099|||||||ANCOVA|||||||0.0099
92361509|NCT01732536|184626282|SUPERIORITY|||||||0.0162||||||P-value for change from baseline to 90 days not adjusted for multiplicity|ANCOVA|ANCOVA model with baseline as a covariate and site and treatment as fixed effects||||||0.0162
92361510|NCT01732536|184626282|SUPERIORITY|||||||0.0175||||||P-value for change from baseline to 6 months not adjusted for multiplicity|ANCOVA|ANCOVA model with baseline as a covariate and site and treatment as fixed effects||||||0.0175
92224066|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|1.47||||0.839|TWO_SIDED|95.0|-12.6|15.55||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.55|-12.60|0.839
92361511|NCT01732536|184626283|SUPERIORITY|||||||0.0209||||||P-value not adjusted for multiplicity.|ANCOVA|Based on between arm comparison using ANCOVA model with baseline as a covariate and site and treatment as fixed effects||||||0.0209
92402516|NCT03367793|184695590|OTHER||||||>|0.99|||||||Mixed Models Analysis|||It was calculated that a sample size of n=28 yields 82% power to detect a difference of 0.4 in proportion of satisfaction (binary outcome of scores of '4' or '5' versus '1 to 3') in comparing two metrics using a two sided McNemar's test (alpha = 0.025 to account for pairwise testing).||||>0.99
92402517|NCT03367793|184695590|OTHER||proportion|0.967|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 3 for PFST.|||||
92402518|NCT03367793|184695590|OTHER||proportion|0.967|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 3 for VSX.|||||
92361512|NCT01246960|184626333|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.886|TWO_SIDED|95.0|0.69|1.37|||Stratified Log Rank|||||1.37|0.69|0.886
92361513|NCT01246960|184626334|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.712|TWO_SIDED|95.0|0.73|1.58|||Stratified Log Rank|||||1.58|0.73|0.712
92361514|NCT01246960|184626337|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.516|TWO_SIDED|95.0|0.59|1.3|||Stratified Log Rank|||||1.30|0.59|0.516
92361515|NCT01409096|184626340|SUPERIORITY_OR_OTHER|||||||0.9084|TWO_SIDED||||||ANCOVA|||Baseline HRSD scores used as covariate.||||0.9084
92402519|NCT03367793|184695590|OTHER||proportion|0.966|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 3 for Clinical Refraction.|||||
92402520|NCT02893293|184695643|OTHER|||||||0.002||||||A p-value less than the a priori threshold of 0.05 was considered statistically significant.|Mixed Models Analysis|Mixed effects model including a random effect term accounting for correlation among the measures with a same patient.||||||0.002
92224067|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|-13.2||||0.13|TWO_SIDED|95.0|-29.4|2.99||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.99|-29.40|0.130
92361516|NCT01409096|184626341|SUPERIORITY_OR_OTHER|||||||0.5187|TWO_SIDED||||||ANCOVA|||Baseline IDS-SR used as a covariate.||||0.5187
92361517|NCT01409096|184626342|SUPERIORITY_OR_OTHER|||||||0.606|TWO_SIDED||||||ANOVA|||Baseline YMRS used as a covariate.||||0.6060
92361518|NCT01409096|184626343|SUPERIORITY_OR_OTHER|||||||0.511|TWO_SIDED||||||ANCOVA|||Baseline HRSA used as a covariate.||||0.5110
92361519|NCT03376516|184626376|OTHER|||||||0.9593||||||P-Value for patients aged 1-\<6 years (N=5)|ANOVA|||||||0.9593
92402521|NCT02893293|184695644|OTHER|||||||0.02||||||A p-value less than the a priori threshold of 0.05 was considered statistically significant.|Mixed Models Analysis|Mixed effects model including a random effect term accounting for correlation among the measures with a same patient.||||||0.02
92402522|NCT03279081|184695653|SUPERIORITY||Difference in Combined Remission Rate|2.37|||=|0.571|TWO_SIDED|95.0|-5.82|10.55||P-value was based on stratified Cochran-Mantel-Haenszel (CMH) test adjusting for interactive web response system (IWRS) randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals (CI) are displayed.|||10.55|-5.82|=0.571
92402523|NCT03279081|184695654|SUPERIORITY||Difference in Clinical Remission Rate|2.72|||=|0.515|TWO_SIDED|95.0|-5.47|10.9||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||10.90|-5.47|=0.515
92276772|NCT00723554|184455102|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.59|TWO_SIDED|95.0|-1.0|0.6|||t-test, 2 sided|||Comparison of the change in average number of days of dosing from Period I (PD-6) to Period II (PD-15)||0.6|-1.0|0.59
92361520|NCT03376516|184626376|OTHER|||||||0.3752||||||P-Value for patients aged 6-\<12 years (N=5)|ANOVA|||||||0.3752
92361521|NCT03376516|184626376|OTHER|||||||0.8273||||||P-Value for total PK population (N=10)|ANOVA|||||||0.8273
92361522|NCT03376516|184626377|OTHER|P-Value for patients aged 1-\<6 years (N=5)||||||0.8536|||||||ANOVA|||||||0.8536
92361523|NCT03376516|184626377|OTHER|||||||0.9791||||||P-Value for patients aged 6-\<12 years (N=5)|ANOVA|||||||0.9791
92361524|NCT03376516|184626377|OTHER|||||||0.9791||||||P-Value for total PK population (N=10)|ANOVA|||||||0.9791
92361525|NCT03376516|184626379|OTHER||Pearson-Copper|0.0|||||TWO_SIDED|95.0|0.0|30.85||||||||30.85|0|
92361526|NCT01444911|184626402|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89|||||||ANOVA|||||||0.89
92361527|NCT01766102|184626408|OTHER|||||||0.716|||||||t-test, 2 sided|||H0: Procedure time is not significantly different based on mammography type used||||0.716
92361528|NCT01766102|184626408|OTHER|||||||0.676|||||||t-test, 2 sided|||H0: Operating room time is not significantly different based on mammography type used||||0.676
92361529|NCT00508521|184626416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.75|STANDARD_ERROR_OF_MEAN|0.47871||0.0001|TWO_SIDED|95.0|-22.27348|-19.22652|||t-test, 2 sided|||This was a feasibility study. Pre and post treatment analysis was performed for the study participants.||-19.22652|-22.27348|.0001
92402524|NCT03279081|184695655|SUPERIORITY||Hazard Ratio (HR)|1.09|||=|0.374|TWO_SIDED|95.0|0.9|1.32||P-value was based on a stratified log-rank test adjusting for IWRS randomization stratification factors.|Log Rank||Cox Proportional Hazard Regression model was used to estimate the hazard ratio and 95% CI, adjusting for IWRS randomization stratification factors.|||1.32|0.90|=0.374
92402525|NCT03279081|184695656|SUPERIORITY||Difference in Combined Remission Rate|1.27|||=|0.757|TWO_SIDED|95.0|-6.77|9.31||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||9.31|-6.77|=0.757
92402526|NCT03279081|184695657|SUPERIORITY||Difference in Clinical Remission Rate|1.6|||=|0.697|TWO_SIDED|95.0|-6.46|9.66||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||9.66|-6.46|=0.697
92165583|NCT01582269|184219794|SUPERIORITY||Hazard Ratio (HR)|1.129|||||TWO_SIDED|95.0|0.78|1.65|||Bayesian exponential-likelihood model|||The Bayesian analyses below include credible intervals rather than confidence intervals for the hazard ratios.|The posterior probability treatment difference is 0.2628|1.65|0.78|
92165584|NCT03360396|184219802|OTHER|Study was closed early in all regions except for France. Statistical Analysis plan was updated to include descriptive statistics only. Sites in France remain open and all subjects in France will be followed through 36 months.||||||||||||Study was closed early in all regions except for France. Statistical Analysis plan was updated to include descriptive statistics only. Sites in France remain open and all subjects in France will be followed through 36 months.||Study was closed early in all regions except for France. SAP was updated to include descriptive statistics only. French sites remain open.||Study was closed early in all regions except for France. Statistical Analysis plan was updated to include descriptive statistics only. Sites in France remain open and all subjects in France will be followed through 36 months.|Study was closed early in all regions except for France. Statistical Analysis plan was updated to include descriptive statistics only. Sites in France remain open and all subjects in France will be followed through 36 months.|||
92165585|NCT03360396|184219803|OTHER|Study was terminated early, and Statistical Analysis plan was updated to include descriptive statistics only.||||||||||||Study was terminated early, and Statistical Analysis plan was updated to include descriptive statistics only.||Study was terminated early, and Statistical Analysis plan was updated to include descriptive statistics only.||Study was terminated early, and Statistical Analysis plan was updated to include descriptive statistics only.|Study was terminated early, and Statistical Analysis plan was updated to include descriptive statistics only.|||
92165586|NCT00546871|184219836|SUPERIORITY_OR_OTHER_LEGACY||Poisson|0.067|||||ONE_SIDED|99.0||0.134||||||||0.134||
92224068|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|-7.83||||0.331|TWO_SIDED|95.0|-23.39|7.73||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||7.73|-23.39|0.331
92165587|NCT01713946|184219857|SUPERIORITY||Odds Ratio (OR)|2.21||||0.008|TWO_SIDED|95.0|1.16|4.2|||Bonferroni-Holm|||||4.20|1.16|0.008
92361530|NCT01622296|184626417|SUPERIORITY_OR_OTHER|||||||0.23||||||Significant at p\<0.05|t-test, 2 sided|||Inferior Alveolar nerve injection - H(0): Lidocaine VAS score = Buffered Lidocaine VAS score. Based on data from medial trials of buffered anesthetic, a power calculation for sample size indicated that 20 subjects would provide a 90% change of detecting an effect size of 0.83 (a change of 0.83 standard deviations)||||0.23
92361531|NCT01622296|184626417|SUPERIORITY_OR_OTHER|||||||0.57||||||Significant at p\<0.05|t-test, 2 sided|||Long buccal nerve injection - H(0): Lidocaine VAS score = Buffered Lidocaine VAS score. Based on data from medial trials of buffered anesthetic, a power calculation for sample size indicated that 20 subjects would provide a 90% change of detecting an effect size of 0.83 (a change of 0.83 standard deviations)||||0.57
92361532|NCT05093621|184626420|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Mortality at 1 year||||1.000
92361533|NCT05093621|184626421|SUPERIORITY|||||||0.729|||||||t-test, 2 sided|||||||0.729
92361534|NCT05093621|184626422|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||||||0.650
92165588|NCT01713946|184219857|SUPERIORITY||Odds Ratio (OR)|3.93|||<|0.001|TWO_SIDED|95.0|2.1|7.32|||Bonferroni-Holm|||||7.32|2.10|<0.001
92165589|NCT01713946|184219858|SUPERIORITY||Median Difference (Final Values)|15.96||||0.003|TWO_SIDED|95.0|1.98|31.68|||Bonferroni-Holm|||||31.68|1.98|0.003
92361535|NCT05093621|184626423|SUPERIORITY|||||||0.873|||||||t-test, 2 sided|||||||0.873
92165590|NCT01713946|184219858|SUPERIORITY||Odds Ratio (OR)|27.46|||<|0.001|TWO_SIDED|95.0|16.36|43.36|||Bonferroni-Holm|||||43.36|16.36|<0.001
92165591|NCT01713946|184219859|SUPERIORITY||Odds Ratio (OR)|6.55|||||TWO_SIDED|95.0|0.77|55.73||||||||55.73|0.77|
92361536|NCT01664624|184626424|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|5.82||0.388|TWO_SIDED|95.0|-16.9|6.7||The comparison was evaluated at the 5% level of significance.|ANCOVA|ANCOVA model with treatment as fixed effect, and baseline Postprandial AUC (0-8) of active GLP-1 as a continuous covariate.||ANCOVA was used to test the null hypothesis that the change from Baseline in the postprandial AUC(0-8) of active GLP-1 is no difference between the roflumilast + alogliptin and alogliptin alone.||6.7|-16.9|0.388
92361537|NCT01664624|184626424|SUPERIORITY_OR_OTHER||LS Mean Difference|22.7|STANDARD_ERROR_OF_MEAN|5.7|<|0.001|TWO_SIDED|95.0|11.1|34.3||The comparison was evaluated at the 5% level of significance.|ANCOVA|ANCOVA model with treatment as fixed effect, and Baseline Postprandial AUC (0-8) of active GLP-1 as a continuous covariate.||ANCOVA was used to test the null hypothesis that the change from Baseline in the postprandial AUC(0-8) of active GLP-1 is no difference between the roflumilast + alogliptin and roflumilast alone.||34.3|11.1|<0.001
92402527|NCT03279081|184695658|SUPERIORITY||Difference in Clinical Response Rate|3.23|||=|0.428|TWO_SIDED|95.0|-4.76|11.21||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||11.21|-4.76|=0.428
92165592|NCT01713946|184219859|SUPERIORITY||Odds Ratio (OR)|4.99|||||TWO_SIDED|95.0|0.57|44.03||||||||44.03|0.57|
92165593|NCT01713946|184219860|SUPERIORITY||Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|1.05|2.97||||||||2.97|1.05|
92165594|NCT01713946|184219860|SUPERIORITY||Odds Ratio (OR)|3.82|||||TWO_SIDED|95.0|2.25|6.48||||||||6.48|2.25|
92165595|NCT01713946|184219862|SUPERIORITY||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-0.4|3.1||||||||3.1|-0.4|
92165596|NCT01713946|184219862|SUPERIORITY||Mean Difference (Final Values)|4.2|||||TWO_SIDED|95.0|2.5|5.9||||||||5.9|2.5|
92165597|NCT01713946|184219863|SUPERIORITY||Hazard Ratio (HR)|1.27|||||TWO_SIDED|95.0|0.77|2.07||||||||2.07|0.77|
92165598|NCT01713946|184219863|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.74|1.96||||||||1.96|0.74|
92224069|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|-5.5||||0.45|TWO_SIDED|95.0|-19.59|8.59||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.59|-19.59|0.450
92361538|NCT01664624|184626424|SUPERIORITY_OR_OTHER||LS Mean Difference|28.8|STANDARD_ERROR_OF_MEAN|5.76|<|0.001|TWO_SIDED|95.0|17.1|40.5||The comparison was evaluated at the 5% level of significance.|ANCOVA|ANCOVA model with treatment as fixed effect, and Baseline Postprandial AUC (0-8) of active GLP-1 as a continuous covariate.||ANCOVA was used to test the null hypothesis that the change from Baseline in the postprandial AUC(0-8) of active GLP-1 is no difference between the roflumilast + alogliptin and roflumilast alone.||40.5|17.1|<0.001
92361539|NCT01152307|184626455|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.42|STANDARD_DEVIATION|1.6||0.01|TWO_SIDED|95.0|0.76|6.09|||t-test, 2 sided|||We tested for a difference in the mean total knowledge score between the decision aid and control groups using independent t-test (2 sided). With 100 patients in each arm, the study had more than 90% power to detect a 10% difference in knowledge assuming a common standard deviation of 18%.||6.09|0.76|0.01
92402528|NCT03279081|184695659|SUPERIORITY||Difference in Clinical Response Rate|2.84|||=|0.497|TWO_SIDED|95.0|-5.35|11.03||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||11.03|-5.35|=0.497
92402529|NCT03279081|184695660|SUPERIORITY||Hazard Ratio (HR)|1.09|||=|0.363|TWO_SIDED|95.0|0.9|1.32||P-value was based on a stratified log-rank test adjusting for IWRS randomization stratification factors.|Log Rank||Cox Proportional Hazard Regression model was used to estimate hazard ratio and 95% CI, adjusting for IWRS randomization stratification factors.|||1.32|0.90|=0.363
92402530|NCT03279081|184695661|SUPERIORITY||Hazard Ratio (HR)|0.98|||=|0.833|TWO_SIDED|95.0|0.82|1.18||P-value was based on a stratified log-rank test adjusting for IWRS randomization stratification factors.|Log Rank||Cox Proportional Hazard Regression model was used to estimate hazard ratio and 95% CI, adjusting for IWRS randomization stratification factors.|||1.18|0.82|=0.833
92402531|NCT03279081|184695662|SUPERIORITY||Hazard Ratio (HR)|0.97|||=|0.717|TWO_SIDED|95.0|0.81|1.16||P-value was based on a stratified log-rank test adjusting for IWRS randomization stratification factors.|Log Rank||Cox Proportional Hazard Regression model was used to estimate hazard ratio and 95% CI, adjusting for IWRS randomization stratification factors.|||1.16|0.81|=0.717
92165599|NCT01713946|184219864|SUPERIORITY||Difference in least square means|-1.1|||||TWO_SIDED|95.0|-4.4|2.1||||||||2.1|-4.4|
92402532|NCT03279081|184695663|SUPERIORITY||Difference in Relapse Rate|3.03|||=|0.599|TWO_SIDED|95.0|-8.28|14.34||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||14.34|-8.28|=0.599
92402533|NCT00771914|184695667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0|TWO_SIDED|95.0||||The analyses were not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The Wilcoxon Signed-Rank Test was used to determine significant differences between the closure time effect (clotting)in seconds from baseline compared to four hours after placebo.||||0.00
92276773|NCT00723554|184455106|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|||<|0.001|TWO_SIDED|95.0|0.2|0.7|||t-test, 2 sided|||Comparison of the change in average number of daily doses from Period I (PD-6) to Period II (PD-15)||0.7|0.2|<0.001
92402534|NCT00771914|184695667|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|12.0||||0.31|TWO_SIDED|95.0||||The analyses were not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The Wilcoxon Signed-Rank Test was used to determine significant differences between the closure time effect (clotting)in seconds from Aspirin compared to Placebo.||||0.31
92165600|NCT01713946|184219864|SUPERIORITY||Difference in least square means|1.0|||||TWO_SIDED|95.0|-2.2|4.3||||||||4.3|-2.2|
92165601|NCT01713946|184219865|SUPERIORITY||Difference in least square means|-2.1|||||TWO_SIDED|95.0|-10.5|6.2||||||||6.2|-10.5|
92276774|NCT00723554|184455110|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.0|||<|0.0001|TWO_SIDED|95.0|6.5|15.6|||t-test, 2 sided|||Comparison of the change in percentage of complete doses delivered from Period I (PD-6) to Period II (PD-15)||15.6|6.5|<0.0001
92402535|NCT00771914|184695667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.0||||0.49|TWO_SIDED|95.0||||The analyses were not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The Wilcoxon Signed-Rank Test was used to determine significant differences between the closure time effect (clotting)in seconds from Lovaza compared to Placebo.||||0.49
92165602|NCT01713946|184219865|SUPERIORITY||Difference in least square means|0.4|||||TWO_SIDED|95.0|-7.8|8.6||||||||8.6|-7.8|
92165603|NCT01713946|184219866|SUPERIORITY||Difference in least square means|-2.8|||||TWO_SIDED|95.0|-17.9|12.3||||||||12.3|-17.9|
92165604|NCT01713946|184219866|SUPERIORITY||Difference in least square means|-7.7|||||TWO_SIDED|95.0|-22.0|6.6||||||||6.6|-22.0|
92361540|NCT00524121|184626460|SUPERIORITY_OR_OTHER|||||||0.011|||||||Wilcoxon signed rank test|||||||0.011
92361541|NCT00524121|184626461|SUPERIORITY_OR_OTHER|||||||0.115||95.0|||||Log Rank|||||||0.115
92361542|NCT00524121|184626462|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
92361543|NCT00524121|184626463|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
92361544|NCT00524121|184626464|SUPERIORITY_OR_OTHER|||||||0.5467|||||||Fisher Exact|||||||0.5467
92361545|NCT02410772|184626475|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than , then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|1.0||||0.05|TWO_SIDED|95.0|-2.6|4.5||For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a.|Cochran-Mantel-Haenszel|||For primary efficacy endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||4.5|-2.6|0.05
92361546|NCT02410772|184626475|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than , then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|3.0||||0.05|TWO_SIDED|95.0|-0.6|6.6|||Cochran-Mantel-Haenszel|For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a.||For primary efficacy endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||6.6|-0.6|0.05
92361547|NCT02410772|184626476|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than , then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|2.0||||0.05|TWO_SIDED|95.0|-1.1|5.1||For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a|Cochran-Mantel-Haenszel|||For primary efficacy endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||5.1|-1.1|0.05
92361548|NCT02410772|184626476|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than , then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|4.4||||0.05|TWO_SIDED|95.0|1.2|7.7||For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a|Cochran-Mantel-Haenszel|||For primary efficacy endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||7.7|1.2|0.05
92369491|NCT00281099|184643810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||||95.0|-0.1|0.11||The a priori threshold for significance was defined as the one-sided upper 95% confidence bound for the MVP - VVI 40 difference in average AT/AF burden from 24 to 36 months being less than 0.|Bootstrap Confidence Interval|||This analysis tested the hypothesis that the average AT/AF burden (hours per day of AT/AF) from 24 to 36 months post-implant in patients with no Class I pacing indication and MVP is equal to or greater than that of similar patients with VVI 40. Only subjects with complete AT/AF data for this time interval were included in the analysis.||0.110|-0.1|
92402536|NCT00771914|184695667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.0||||0.03|TWO_SIDED|95.0||||The analyses were not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The Wilcoxon Signed-Rank Test was used to determine significant differences between the closure time effect (clotting)in seconds from both Aspirin and Lovaza compared to Placebo.||||0.03
92402537|NCT00573508|184695668|SUPERIORITY_OR_OTHER||Least Square Mean Difference|9.4|||<|0.0001||95.0|6.6|12.2|||ANCOVA|||Statistical Analysis applies to 'Change at End of Treatment'.||12.2|6.6|<0.0001
92165605|NCT04036058|184219883|SUPERIORITY|||||||0.611|||||||t-test, 2 sided|||||||0.611
92165606|NCT04036058|184219884|SUPERIORITY|||||||0.0435|||||||t-test, 2 sided|||||||0.0435
92165607|NCT04036058|184219885|SUPERIORITY|||||||0.1158|||||||t-test, 2 sided|||||||0.1158
92165608|NCT04036058|184219886|SUPERIORITY|||||||0.0898|||||||t-test, 2 sided|||||||0.0898
92165609|NCT04036058|184219887|SUPERIORITY|||||||0.114|||||||t-test, 2 sided|||||||0.114
92361549|NCT02410772|184626477|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than, then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|-0.6||||0.05|TWO_SIDED|95.0|-4.3|3.2||For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a.|Cochran-Mantel-Haenszel|||For primary Safety endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||3.2|-4.3|0.05
92402538|NCT00573508|184695669|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Statistical Analysis applies to 'Change at Week 4', 'Change at Week 8' and 'Change at Week 12'.||||<.0001
92402539|NCT00573508|184695670|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-Value represents change from Baseline to Week 12.|ANCOVA|||Statistical Analysis applies to 'Change at Week 12'.||||<.0001
92402540|NCT00573508|184695671|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|||||||0.0006
92402541|NCT00573508|184695679|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-16.8|||<|0.0001||95.0|-22.1|-11.6|||ANCOVA|||Statistical Analysis applies to 'Change at EOT'.||-11.6|-22.1|<.0001
92402542|NCT01283555|184695872|SUPERIORITY_OR_OTHER|||||||0.487||95.0||||The p-value presented here represents a comparison of the total number of non-iatrogenic findings at baseline and after one week of product use.|Fisher Exact|||Fishers exact test was used to compare the frequency of non-iatrogenic colposcopic findings at baseline and follow-up visits (after one week of twice-daily product use).||||0.4870
92224070|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|-4.25||||0.556|TWO_SIDED|95.0|-17.82|9.33||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.33|-17.82|0.556
92402543|NCT01614249|184695892|SUPERIORITY_OR_OTHER||Slope|1.01|STANDARD_ERROR_OF_MEAN|0.8||0.21|TWO_SIDED|95.0|-0.58|2.6||The p-value was adjusted for baseline variations in the analysis of covariance (ANCOVA) regression model. The significance level was set at p-value less than 0.05.|ANCOVA|In ANCOVA, fish oil group was main effect, participant baseline variables were covariates and presence of interaction between covariates was tested.||Null hypothesis: There is no difference in the magnitude of change in BDI-II scores between HIV-seropositive pregnant women on fish oil omega-3 EPA-rich supplements and the control group on soybean oil soft gels. A sample size of 91 women per arm gave an 85% power to detect as statistically significant at 5% level, a true difference of 4 scores in the mean depressive symptom scores between the two arms assuming a within group standard deviation of nine in depressive symptom scores.||2.60|-0.58|0.21
92402544|NCT03094416|184695907|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|-0.783797|STANDARD_ERROR_OF_MEAN|0.158271|<|0.0001|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||<0.0001
92276775|NCT01614509|184455154|NON_INFERIORITY_OR_EQUIVALENCE|Central retinal thickness was measured using an optical coherence tomography by every visit intended for all participants.||||||0.6||95.0|||||Wilcoxon (Mann-Whitney)|||Central retinal thickness was measured using an optical coherence tomography by every visit. And we compare the difference of central retinal thickness between two groups||||0.60
92361550|NCT02410772|184626477|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than, then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|-5.1||||0.05|TWO_SIDED|95.0|-8.7|-1.5||For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a.|Cochran-Mantel-Haenszel|||For primary Safety endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||-1.5|-8.7|0.05
92224071|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|-2.77||||0.689|TWO_SIDED|95.0|-16.24|10.69||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.69|-16.24|0.689
92361551|NCT02410772|184626482|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|1.09|||||TWO_SIDED|95.0|-2.45|4.63||||||||4.63|-2.45|
92361552|NCT02410772|184626482|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|4.12|||||TWO_SIDED|95.0|0.45|7.79||||||||7.79|0.45|
92276776|NCT02345486|184455169|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.001|TWO_SIDED|95.0|0.66|0.74|||Wilcoxon (Mann-Whitney)||"reported mean difference is a difference in proportions."|||0.74|0.66|0.001
92276777|NCT00415532|184455191|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.172|||<|0.0001||95.0|0.084|0.352||Significant level is set at 0.05|Cochran-Mantel-Haenszel|||||0.352|0.084|<0.0001
92361553|NCT02410772|184626483|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|1.05|||||TWO_SIDED|95.0|-2.01|4.11||||||||4.11|-2.01|
92361554|NCT02410772|184626483|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066)|Risk Difference (RD)|3.66|||||TWO_SIDED|95.0|0.42|6.9||||||||6.90|0.42|
92224072|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|-1.65||||0.786|TWO_SIDED|95.0|-13.45|10.14||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.14|-13.45|0.786
92224073|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|-4.25||||0.556|TWO_SIDED|95.0|-17.82|9.33||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.33|-17.82|0.556
92361555|NCT02410772|184626485|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|3.0|||||TWO_SIDED|95.0|-0.6|6.6||||||||6.6|-0.6|
92361556|NCT02410772|184626485|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|2.29|||||TWO_SIDED|95.0|-1.12|5.7||||||||5.70|-1.12|
92361557|NCT02410772|184626486|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|5.9|||||TWO_SIDED|95.0|2.8|8.9||||||||8.9|2.8|
92361558|NCT02410772|184626486|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|3.4|||||TWO_SIDED|95.0|0.5|6.3||||||||6.3|0.5|
92361559|NCT02369536|184626487|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||ANOVA|||Intention-to-treat-analysis. Differences between basal values in active and control groups and between T1 vsT0 changes in the two groups assessed by ANOVA and Fisher's exact test.||||<0.05
92402545|NCT03094416|184695908|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.037312|STANDARD_ERROR_OF_MEAN|0.026128||0.1607|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.1607
92402546|NCT03094416|184695909|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|3.397559|STANDARD_ERROR_OF_MEAN|4.174962||0.4204|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.4204
92402547|NCT03094416|184695910|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.055199|STANDARD_ERROR_OF_MEAN|0.019171||0.0062|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0062
92224074|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|-2.77||||0.689|TWO_SIDED|95.0|-16.24|10.69||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.69|-16.24|0.689
92224075|NCT01077973|184349396|SUPERIORITY_OR_OTHER||Difference in proportion|-1.65||||0.786|TWO_SIDED|95.0|-13.45|10.14||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.14|-13.45|0.786
92361560|NCT02369536|184626490|SUPERIORITY||||||<|0.05|||||||ANOVA|||Intention-to-treat-analysis. Differences between basal values in active and control groups and between T1 vsT0 changes in the two groups assessed by ANOVA and Fisher's exact test.||||<0.05
92361561|NCT02164864|184626500|NON_INFERIORITY|All non-inferiority tests were based on a margin of 1.38.|Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.42|0.63||P values for noninferiority were calculated at a one-sided alpha level of 0.025|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|A pre-defined hierarchical testing approach was used. This was the first step in hierarchy. The upper bound of the Wald confidence interval (CI) of the HR of Dabigatran Etexilate 110mg vs Warfarin (one-sided 97.5%) was compared with this noninferiority margin for the testing of non-inferiority.||0.63|0.42|<0.0001
92361562|NCT02164864|184626500|NON_INFERIORITY|All non-inferiority tests were based on a margin of 1.38.|Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|95.0|0.58|0.88||P-values for non-inferiority were calculated at a one-sided alpha level of 0.025|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|A pre-defined hierarchical testing approach was used. This was the second step in hierarchy. The upper bound of the Wald confidence interval (CI) of the HR of Dabigatran Etexilate 150mg vs Warfarin (one-sided 97.5%) was compared with this noninferiority margin for the testing of non-inferiority||0.88|0.58|<.0001
92361563|NCT02164864|184626500|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.42|0.63||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|A pre-defined hierarchical testing approach was used. This was the fourth step in hierarchy.||0.63|0.42|<0.001
92361564|NCT02164864|184626500|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.002|TWO_SIDED|95.0|0.58|0.88||unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded|Regression, Cox|Wald 2-sided p-value from (unstratified) Cox proportional hazards model||A pre-defined hierarchical testing approach was used. This was the sixth step in hierarchy.|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|0.88|0.58|0.0020
92361565|NCT02164864|184626501|OTHER||Hazard Ratio (HR)|0.99||||0.9862|TWO_SIDED|95.0|0.25|3.95||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||3.95|0.25|0.9862
92361566|NCT02164864|184626501|OTHER|Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Hazard Ratio (HR)|1.59||||0.5277|TWO_SIDED|95.0|0.38|6.64|||Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||6.64|0.38|0.5277
92361567|NCT02164864|184626502|OTHER||Hazard Ratio (HR)|1.06||||0.8853|TWO_SIDED|95.0|0.5|2.25||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.25|0.50|0.8853
92361568|NCT02164864|184626502|OTHER||Hazard Ratio (HR)|0.49||||0.238|TWO_SIDED|95.0|0.15|1.61||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.61|0.15|0.2380
92402548|NCT03094416|184695911|OTHER|"A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).~Normal distribution of data was tested with Shapiro Wilks. No data transformation was done."|Mean Difference (Final Values)|0.100127|STANDARD_ERROR_OF_MEAN|0.048171||0.0438|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0438
92402549|NCT03094416|184695912|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|-0.216479|STANDARD_ERROR_OF_MEAN|0.093366||0.0254|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0254
92165610|NCT00346333|184219926|SUPERIORITY_OR_OTHER|||||||0.66||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Longitudinal regression analysis|||"Primary Analysis:Proc mixed of the Statistical Analysis System (SAS) was used to compare annual rates of change by treatment group over 4 years.~Power Calculation:240 patients were estimated to be needed to provide sufficient power (i.e. alpha=0.05;beta=0.10)to observe a statistically significant difference between mean change in the 2 groups on the HFA 30-2 total point score over a 4-year interval."||||0.66
92361569|NCT02164864|184626503|OTHER||Hazard Ratio (HR)|1.17||||0.5252|TWO_SIDED|95.0|0.72|1.88||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.88|0.72|0.5252
92361570|NCT02164864|184626503|OTHER||Hazard Ratio (HR)|0.84||||0.567|TWO_SIDED|95.0|0.47|1.51||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.51|0.47|0.5670
92361571|NCT02164864|184626504|OTHER||Hazard Ratio (HR)|1.12||||0.5579|TWO_SIDED|95.0|0.76|1.65||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.65|0.76|0.5579
92402550|NCT03094416|184695913|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.011187|STANDARD_ERROR_OF_MEAN|0.036679||0.7619|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.7619
92402551|NCT03094416|184695914|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|-0.121537|STANDARD_ERROR_OF_MEAN|0.064264||0.0655|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0655
92165611|NCT00346333|184219926|SUPERIORITY_OR_OTHER|||||||0.52||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Clustered Wilcoxon|||Secondary Analysis: As change distribution was non-normal, slope for each eye was calculated with least squares regression and converted to ranks. The Clustered Wilcoxon test was used to compare slope distributions between groups accounting for correlation between slopes for eyes within individuals.||||0.52
92165612|NCT00346333|184219927|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Longitudinal regression analysis|||Primary Analysis: Proc Mixed of SAS was used to compare annual rates of change by treatment group over four years.The unit of analysis was the eye. Each patient contributed 2, 1, or 0 eyes with non-missing data.||||0.05
92361572|NCT02164864|184626504|OTHER||Hazard Ratio (HR)|0.83||||0.4414|TWO_SIDED|95.0|0.51|1.34||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.34|0.51|0.4414
92224076|NCT01077973|184349399|SUPERIORITY_OR_OTHER||Difference in proportion|3.89||||0.355|TWO_SIDED|95.0|-3.33|11.1||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.10|-3.33|0.355
92361573|NCT02164864|184626505|OTHER|Wald 2-sided p-value from (stratified) Cox proportional hazards model|Hazard Ratio (HR)|1.51||||0.0861|TWO_SIDED|95.0|0.94|2.41|||Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.41|0.94|0.0861
92361574|NCT02164864|184626505|OTHER||Hazard Ratio (HR)|1.16||||0.6144|TWO_SIDED|95.0|0.66|2.04||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.04|0.66|0.6144
92361575|NCT02164864|184626506|OTHER||Hazard Ratio (HR)|1.3||||0.4803|TWO_SIDED|95.0|0.63|2.67||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.67|0.63|0.4803
92361576|NCT02164864|184626506|OTHER||Hazard Ratio (HR)|1.09||||0.8537|TWO_SIDED|95.0|0.42|2.83||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.83|0.42|0.8537
92361577|NCT02164864|184626507|OTHER||Hazard Ratio (HR)|0.94||||0.9388|TWO_SIDED|95.0|0.19|4.66||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||4.66|0.19|0.9388
92361578|NCT02164864|184626507|OTHER||Hazard Ratio (HR)|0.3||||0.303|TWO_SIDED|95.0|0.03|2.93||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.93|0.03|0.3030
92361579|NCT02164864|184626508|OTHER||Hazard Ratio (HR)|1.86||||0.1546|TWO_SIDED|95.0|0.79|4.4||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||4.40|0.79|0.1546
92361580|NCT02164864|184626508|OTHER||Hazard Ratio (HR)|0.99||||0.9789|TWO_SIDED|95.0|0.35|2.81||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.81|0.35|0.9789
92402552|NCT03094416|184695915|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.031636|STANDARD_ERROR_OF_MEAN|0.053033||0.5542|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.5542
92402553|NCT03094416|184695916|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.019322|STANDARD_ERROR_OF_MEAN|0.046827||0.682|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.6820
92402554|NCT03094416|184695917|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|-0.049243|STANDARD_ERROR_OF_MEAN|0.024025||0.0468|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0468
92402555|NCT03094416|184695918|OTHER|"A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).~Normal distribution of data was tested with Shapiro Wilks. No data transformation was done."|Mean Difference (Final Values)|-0.213171|STANDARD_ERROR_OF_MEAN|0.088103||0.0203|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0203
92402556|NCT03094416|184695919|OTHER|"A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).~Normal distribution of data was tested with Shapiro Wilks. No data transformation was done."|Mean Difference (Final Values)|-0.030904|STANDARD_ERROR_OF_MEAN|0.038699||0.4291|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.4291
92224077|NCT01077973|184349399|SUPERIORITY_OR_OTHER||Difference in proportion|-1.21||||0.623|TWO_SIDED|95.0|-6.62|4.2||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.20|-6.62|0.623
92361581|NCT02164864|184626509|OTHER||Hazard Ratio (HR)|1.34||||0.0484|TWO_SIDED|95.0|1.0|1.79||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.79|1.00|0.0484
92361582|NCT02164864|184626509|OTHER||Hazard Ratio (HR)|1.03||||0.8903|TWO_SIDED|95.0|0.71|1.47||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.47|0.71|0.8903
92361583|NCT02164864|184626510|NON_INFERIORITY|All non-inferiority tests were based on a margin of 1.38.|Hazard Ratio (HR)|1.17||||0.1128|TWO_SIDED|95.0|0.9|1.53||P values for noninferiority were calculated at a one-sided alpha level of 0.025|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|The upper bound of the Wald confidence interval (CI) of the HR of All Dabigatran Etexilate (110mg and 150 mg) vs Warfarin (one-sided 97.5%) was compared with this noninferiority margin for the testing of non-inferiority|A pre-defined hierarchical testing approach was used. This was the fifth step in hierarchy.||1.53|0.90|0.1128
92361584|NCT02164864|184626510|OTHER||Hazard Ratio (HR)|1.3||||0.072|TWO_SIDED|95.0|0.98|1.73||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.73|0.98|0.0720
92402557|NCT03094416|184695920|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.025502|STANDARD_ERROR_OF_MEAN|0.047802||0.5967|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.5967
92402558|NCT00321789|184695925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3||||0.44|TWO_SIDED|95.0|-3.6|8.3|||Mixed Models Analysis|Model was adjusted for a priori race and cardiovascular disease risk level strata.||||8.3|-3.6|0.44
92224078|NCT01077973|184349399|SUPERIORITY_OR_OTHER||Difference in proportion|5.1||||0.094|TWO_SIDED|95.0|-0.9|11.11||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.11|-0.90|0.094
92402559|NCT00321789|184695926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.03|TWO_SIDED|95.0|-0.23|-0.01|||Mixed Models Analysis|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||-0.01|-0.23|0.03
92402560|NCT00321789|184695927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16||||0.02|TWO_SIDED|95.0|-0.29|-0.02|||Mixed Models Analysis|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||-0.02|-0.29|0.02
92402561|NCT00321789|184695928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16||||0.02|TWO_SIDED|95.0|-0.29|-0.03|||Mixed Models Analysis|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||-0.03|-0.29|0.02
92402562|NCT00321789|184695929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.11|TWO_SIDED|95.0|-0.3|0.03|||Mixed Models Analysis|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||0.03|-0.30|0.11
92361585|NCT02164864|184626510|OTHER||Hazard Ratio (HR)|0.97||||0.875|TWO_SIDED|95.0|0.68|1.39||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.39|0.68|0.8750
92361586|NCT02164864|184626511|OTHER||Hazard Ratio (HR)|1.09||||0.608|TWO_SIDED|95.0|0.79|1.51||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.51|0.79|0.6080
92361587|NCT02164864|184626511|OTHER||Hazard Ratio (HR)|0.96||||0.8348|TWO_SIDED|95.0|0.65|1.41||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.41|0.65|0.8348
92361588|NCT02164864|184626512|NON_INFERIORITY|All non-inferiority tests were based on a margin of 1.38.|Hazard Ratio (HR)|1.04||||0.0047|TWO_SIDED|95.0|0.84|1.29||P values for noninferiority were calculated at a one-sided alpha level of 0.025|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|The upper bound of the Wald confidence interval (CI) of the HR of All Dabigatran Etexilate (110mg and 150 mg) vs Warfarin (one-sided 97.5%) was compared with this noninferiority margin for the testing of non-inferiority|A pre-defined hierarchical testing approach was used. This was the third step in hierarchy.||1.29|0.84|0.0047
92361589|NCT02164864|184626512|OTHER||Hazard Ratio (HR)|1.13||||0.3002|TWO_SIDED|95.0|0.9|1.43||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.43|0.90|0.3002
92361590|NCT02164864|184626512|OTHER||Hazard Ratio (HR)|0.89||||0.4432|TWO_SIDED|95.0|0.67|1.19||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.19|0.67|0.4432
92361591|NCT02493764|184626529|NON_INFERIORITY|Non-inferiority was declared when the upper bound of the 2-sided 95% confidence interval (CI) for the difference in mortality (IMI/REL minus PIP/TAZ) was \< 10 percentage points.|Adjusted difference in ACM|-5.3|||<|0.001|TWO_SIDED|95.0|-11.9|1.2|||t-test, 1 sided|A one-sided alpha level of 0.025 was used to declare significance.|Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in all-cause mortality||1.2|-11.9|<0.001
92361592|NCT02493764|184626530|NON_INFERIORITY|Non-inferiority was declared when the lower bound of the 2-sided 95% CI for the difference in FCR (IMI/REL minus PIP/TAZ) was \> 12.5 percentage points.|Adjusted difference in FCR|5.0|||<|0.001|TWO_SIDED|95.0|-3.2|13.2|||t-test, 1 sided|A one-sided alpha level of 0.025 was used to declare significance.|Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in FCR||13.2|-3.2|<0.001
92402563|NCT00321789|184695930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.26|TWO_SIDED|95.0|-0.06|0.2|||Mixed Models Analysis|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||0.20|-0.06|0.26
92402564|NCT00321789|184695931|SUPERIORITY_OR_OTHER||incident rate ratio|1.2||||0.06|TWO_SIDED|95.0|1.0|1.5|||generalized estimating equations|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||1.5|1.0|0.06
92165613|NCT00346333|184219927|SUPERIORITY_OR_OTHER|||||||0.03||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Clustered Wilcoxon|||Secondary Analysis: As change distribution was non-normal, slope for each eye was calculated with least squares regression and converted to ranks. The Clustered Wilcoxon test was used to compare slope distributions between groups accounting for correlation between slopes for eyes within individuals.||||0.03
92361593|NCT02493764|184626531|OTHER|Difference in % with AE vs PIP/TAZ|Difference in % with AE|-1.7|||||TWO_SIDED|95.0|-7.7|4.3||||||||4.3|-7.7|
92402565|NCT00321789|184695932|SUPERIORITY_OR_OTHER||incident rate ratio|1.1||||0.37|TWO_SIDED|95.0|0.9|1.4|||generalized estimating equations|Model adjusted for a priori race and cardiovascular disease risk category.||||1.4|0.9|0.37
92402566|NCT00321789|184695933|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.11||||0.04|TWO_SIDED|95.0|-4.13|-0.09|||Mixed Models Analysis|Model adjusted for a priori race and cardiovascular disease risk category.||||-0.09|-4.13|0.04
92276778|NCT00415532|184455192|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.307||||0.0005||95.0|0.154|0.611||Significant level is set at 0.05|Cochran-Mantel-Haenszel|||||0.611|0.154|0.0005
92361594|NCT02493764|184626532|OTHER|Difference in % discontinuing vs PIP/TAZ|Difference in % discontinuing|-2.5|||||TWO_SIDED|95.0|-7.1|1.8||||||||1.8|-7.1|
92361595|NCT02493764|184626533|OTHER||Adjusted difference in ACM|-3.5|||||TWO_SIDED|95.0|-10.9|3.6|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in all-cause mortality||3.6|-10.9|
92402567|NCT00321789|184695934|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64||||0.09|TWO_SIDED|95.0|-1.38|0.1|||Mixed Models Analysis|Model adjusted for a priori race and cardiovascular disease risk category.||||0.10|-1.38|0.09
92402568|NCT00321789|184695935|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.87|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|Model adjusted for a priori race and cardiovascular disease risk category.||||1.7|0.6|0.87
92402569|NCT05712460|184695980|OTHER||Ratio|126.65|||||TWO_SIDED|90.0|106.87|150.1|||||Analysis was performed using mixed effect model with sequence, and treatment as fixed effects and participant within sequence as a random effect.|||150.10|106.87|
92402570|NCT05712460|184695981|OTHER||Ratio|142.94|||||TWO_SIDED|90.0|117.2|174.32|||||Analysis was performed using mixed effect model with sequence, and treatment as fixed effects and participant within sequence as a random effect.|||174.32|117.20|
92361596|NCT02493764|184626534|NON_INFERIORITY|Non-inferiority was declared when the upper bound of the 2-sided 95% CI for the difference in mortality (IMI/REL minus PIP/TAZ) was ≥ 10 percentage points.|Adjusted difference in ACM|-4.6|||||TWO_SIDED|95.0|-11.0|1.7|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in all-cause mortality||1.7|-11.0|
92361597|NCT02493764|184626535|OTHER|Adjusted difference in ACM|Adjusted difference in ACM|-3.1|||||TWO_SIDED|95.0|-10.2|3.8|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in all-cause mortality||3.8|-10.2|
92361598|NCT02493764|184626536|OTHER|Difference in FCR|Adjusted difference in FCR|-1.7|||||TWO_SIDED|95.0|-11.3|7.8|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||7.8|-11.3|
92361599|NCT02493764|184626537|OTHER|Difference in FCR|Adjusted difference in FCR|-2.2|||||TWO_SIDED|95.0|-9.8|5.5|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||5.5|-9.8|
92361600|NCT02493764|184626538|OTHER|Difference in favorable clinical response|Adjusted difference in FCR|6.6|||||TWO_SIDED|95.0|-4.6|18.4|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||18.4|-4.6|
92361601|NCT02493764|184626539|OTHER|Difference in FCR|Adjusted difference in FCR|-0.4|||||TWO_SIDED|95.0|-8.1|7.4|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||7.4|-8.1|
92402571|NCT03563209|184696020|OTHER||||||<|0.001||||||p-value was adjusted for multiple comparisons. A priori threshold for statistical significance was set to 0.05/3 (0.0167)|Friedman|||Null hypothesis: no difference between dynamic components of elbow flexor spasticity (spasticity angle) in three different forearm positions. (Comparison groups were Spasticity angle in pronation, Spasticity angle in neutral position and Spasticity angle in supination)||||<0.001
92402572|NCT00303069|184696023|SUPERIORITY_OR_OTHER||Risk Difference (RD)|84.5|||<|0.001|TWO_SIDED|95.0|65.2|93.6||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 90 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||93.6|65.2|<0.001
92402573|NCT00303069|184696023|SUPERIORITY_OR_OTHER||Risk Difference (RD)|81.6|||<|0.01|TWO_SIDED|95.0|61.6|92.0||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 30 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||92.0|61.6|<0.01
92402574|NCT00303069|184696023|SUPERIORITY_OR_OTHER||Risk Difference (RD)|25.0|||<|0.001|TWO_SIDED|95.0|6.7|43.8||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 5 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||43.8|6.7|<0.001
92402575|NCT00303069|184696024|SUPERIORITY_OR_OTHER||Risk Difference (RD)|30.9|||<|0.001|TWO_SIDED|95.0|17.2|48.3||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 90 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||48.3|17.2|<0.001
92361602|NCT02493764|184626540|OTHER|Difference in FCR|Adjusted difference in FCR|-3.4|||||TWO_SIDED|95.0|-14.3|7.5|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||7.5|-14.3|
92361603|NCT02493764|184626541|OTHER|Difference in FCR|Adjusted difference in FCR|-3.7|||||TWO_SIDED|95.0|-13.6|6.4|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||6.4|-13.6|
92361604|NCT02493764|184626542|OTHER|Difference in FCR|Adjusted difference in FCR|3.5|||||TWO_SIDED|95.0|-4.6|11.6|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||11.6|-4.6|
92361605|NCT02493764|184626543|OTHER|Difference in FCR|Adjusted difference in FCR|0.5|||||TWO_SIDED|95.0|-6.3|7.4|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||7.4|-6.3|
92361606|NCT02493764|184626544|OTHER|Difference in FCR|Adjusted difference in FCR|3.4|||||TWO_SIDED|95.0|-7.1|14.2|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||14.2|-7.1|
92361607|NCT02493764|184626545|OTHER|Difference in FCR|Adjusted difference in FCR|4.4|||||TWO_SIDED|95.0|-3.1|12.0|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||12.0|-3.1|
92361608|NCT02493764|184626546|OTHER|Difference in FCR|Adjusted difference in FCR|1.1|||||TWO_SIDED|95.0|-7.2|9.4|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||9.4|-7.2|
92361609|NCT02493764|184626547|OTHER|Difference in FMR|Adjusted difference in FMR|9.7|||||TWO_SIDED|95.0|1.6|17.9|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable microbiological response||17.9|1.6|
92361610|NCT02493764|184626548|OTHER|Difference in FMR|Adjusted difference in FMR|6.2|||||TWO_SIDED|95.0|-2.7|15.0|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable microbiological response||15.0|-2.7|
92361611|NCT02493764|184626549|OTHER|Difference in FMR|Adjusted difference in FMR|2.5|||||TWO_SIDED|95.0|-5.5|11.0|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable microbiological response||11.0|-5.5|
92361612|NCT02493764|184626550|OTHER|Difference in FMR|Adjusted difference in FMR|4.7|||||TWO_SIDED|95.0|-4.0|14.1|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable microbiological response||14.1|-4.0|
92361613|NCT03648385|184626551|SUPERIORITY|||||||0.83|||||||generalized estimating equations (GEE) w|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.83
92361614|NCT03648385|184626551|SUPERIORITY|||||||0.56|||||||generalized estimating equations (GEE) w|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.56
92361615|NCT03648385|184626552|SUPERIORITY|||||||0.08|||||||generalized estimating equations (GEE) w|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.08
92361616|NCT03648385|184626552|SUPERIORITY|||||||0.03|||||||generalized estimating equations (GEE)|with sandwich estimation to correct for model misspecification.||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.03
92361617|NCT03648385|184626553|SUPERIORITY|||||||0.047|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.047
92361618|NCT03648385|184626553|SUPERIORITY|||||||0.052|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.052
92361619|NCT03648385|184626554|SUPERIORITY|||||||0.044|||||||generalized estimating equations (GEE) w|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.044
92361620|NCT03648385|184626554|SUPERIORITY|||||||0.96|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.96
92276779|NCT00415532|184455195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0133||||||Significant level is set at 0.05|Mixed Models Analysis|||||||0.0133
92361621|NCT03648385|184626555|SUPERIORITY|||||||0.91|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.91
92361622|NCT03648385|184626555|SUPERIORITY|||||||0.61|||||||generalized estimating equations (GEE) w|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.61
92361623|NCT03648385|184626556|SUPERIORITY|||||||0.14|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.14
92361624|NCT03648385|184626556|SUPERIORITY|||||||0.84|||||||generalized estimating equations|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.84
92361625|NCT03648385|184626557|SUPERIORITY|||||||0.36|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.36
92361626|NCT03648385|184626557|SUPERIORITY|||||||0.71|||||||generalized estimating equations|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.71
92276780|NCT00415532|184455196|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3434||||||Significant level is set at 0.05|Mixed Models Analysis|||||||0.3434
92276781|NCT00415532|184455197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0076||||||Significant level is set at 0.05|Mixed Models Analysis|||||||0.0076
92361627|NCT03648385|184626558|SUPERIORITY|||||||0.55|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.55
92361628|NCT03648385|184626558|SUPERIORITY|||||||0.44|||||||generalized estimating equations|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.44
92361629|NCT03648385|184626559|SUPERIORITY|||||||0.79|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.79
92361630|NCT03648385|184626559|SUPERIORITY|||||||0.34|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.34
92361631|NCT03648385|184626560|SUPERIORITY|||||||0.33|||||||generalized estimating equations (GEE) w|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.33
92361632|NCT03648385|184626560|SUPERIORITY|||||||0.99|||||||generalized estimating equations (GEE) w|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.99
92361633|NCT03648385|184626561|SUPERIORITY|Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||||0.13|||||||generalized estimating equations (GEE)|||SF-36 PCS||||0.13
92361634|NCT03648385|184626561|SUPERIORITY|Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||||0.044|||||||generalized estimating equations (GEE)|||SF-36 PCS||||0.044
92361635|NCT03648385|184626561|SUPERIORITY|Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||||0.77|||||||generalized estimating equations (GEE)|||SF-36 MCS||||0.77
92361636|NCT03648385|184626561|SUPERIORITY|Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||||0.98|||||||generalized estimating equations (GEE)|||SF-MCS||||0.98
92361637|NCT03648385|184626562|SUPERIORITY|||||||0.7|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.70
92361638|NCT03648385|184626562|SUPERIORITY|||||||0.037|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.037
92361639|NCT03648385|184626563|SUPERIORITY|||||||0.005|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.005
92361640|NCT03648385|184626563|SUPERIORITY|||||||0.9|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.9
92361641|NCT03648385|184626564|SUPERIORITY||||||<|0.0001|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||<0.0001
92361642|NCT03648385|184626564|SUPERIORITY|||||||0.034|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.034
92361643|NCT03648385|184626565|SUPERIORITY|||||||0.36|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, at 18 Weeks||||0.36
92276782|NCT00415532|184455198|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0246||||||Significant level is set at 0.05|Mixed Models Analysis|||||||0.0246
92361644|NCT03648385|184626565|SUPERIORITY|||||||0.23|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.23
92361645|NCT03648385|184626566|SUPERIORITY|||||||0.002|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.002
92361646|NCT03648385|184626566|SUPERIORITY||||||<|0.0001|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||<0.0001
92361647|NCT03648385|184626567|SUPERIORITY|||||||0.42|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.42
92361648|NCT03648385|184626567|SUPERIORITY|||||||0.28|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.28
92361649|NCT03648385|184626568|SUPERIORITY|||||||0.08|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.08
92361650|NCT03648385|184626568|SUPERIORITY|||||||0.65|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.65
92361651|NCT03648385|184626569|SUPERIORITY|||||||0.07|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.07
92361652|NCT03648385|184626569|SUPERIORITY||||||<|0.01|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||<0.01
92361653|NCT03648385|184626570|SUPERIORITY|||||||0.27|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, measurement of change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.27
92361654|NCT03648385|184626570|SUPERIORITY|||||||0.26|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.26
92361655|NCT03648385|184626571|SUPERIORITY|||||||0.81|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.81
92361656|NCT03648385|184626571|SUPERIORITY|||||||0.94|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.94
92361657|NCT03648385|184626572|SUPERIORITY|||||||0.93|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.93
92361658|NCT03648385|184626572|SUPERIORITY|||||||0.83|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.83
92361659|NCT03648385|184626573|SUPERIORITY|||||||0.85|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.85
92361660|NCT03648385|184626573|SUPERIORITY|||||||0.74|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.74
92276783|NCT01271933|184455223|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0186|TWO_SIDED|||||The p-value was calculated using log-rank test for comparing pregabalin CR with placebo|Log Rank|||||||0.0186
92276784|NCT01271933|184455227|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.41||0.331|TWO_SIDED|95.0|-1.2|0.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model|ANCOVA|||||0.4|-1.2|0.3310
92165614|NCT00346333|184219928|SUPERIORITY_OR_OTHER|||||||0.24||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Longitudinal regression analysis|||Primary analysis:Proc Mixed of SAS was used to compare annual rates of change by treatment group over four years.The unit of analysis was the eye.Each patient contributed 2,1,or 0 eyes with non-missing data.||||0.24
92361661|NCT03648385|184626574|SUPERIORITY|||||||0.004|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.004
92361662|NCT03648385|184626574|SUPERIORITY|||||||0.05|||||||generalized estimating equations (GEE)|||||||0.05
92361663|NCT03648385|184626575|SUPERIORITY|||||||0.33|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.33
92361664|NCT03648385|184626575|SUPERIORITY|||||||0.23|||||||generalized estimating equations|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.23
92361665|NCT03648385|184626576|SUPERIORITY|||||||0.19|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.19
92361666|NCT03648385|184626576|SUPERIORITY|||||||0.94|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.94
92361667|NCT03648385|184626577|SUPERIORITY|||||||0.62|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.62
92361668|NCT03648385|184626577|SUPERIORITY|||||||0.39|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.39
92361669|NCT03648385|184626578|SUPERIORITY|||||||0.33|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.33
92361670|NCT03648385|184626578|SUPERIORITY|||||||0.88|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.88
92361671|NCT03648385|184626579|SUPERIORITY|||||||0.55|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.55
92361672|NCT03648385|184626579|SUPERIORITY|||||||1|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||1.00
92361673|NCT00934921|184626601|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|97.1||||||90.0|91.2|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|91.2|
92361674|NCT00934921|184626602|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|95.2||||||90.0|88.8|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102|88.8|
92361675|NCT00934921|184626603|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|95.9||||||90.0|89.5|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|89.5|
92361676|NCT03110562|184626658|SUPERIORITY||Hazard Ratio (HR)|0.702||||0.0075|TWO_SIDED|95.0|0.5279|0.9335||One Sided P-value|Stratified Log-rank Test|Stratified for prior PI therapies, number of prior of anti-MM regimens and R-ISS Stage at screening.|Based on stratified Cox Proportional Hazard model with Efron's Method of handling ties.|||0.9335|0.5279|0.0075
92361677|NCT03110562|184626659|SUPERIORITY||Odds Ratio (OR)|1.9626||||0.0012|TWO_SIDED|95.0|1.2641|3.0471||One Sided P-value|Cochran-Mantel-Haenszel|Analysis using Cochran-Mantel-Haenszel test stratified by region, prior PI therapies, number of prior anti-MM regimens, and R-ISS stage at screening.||||3.0471|1.2641|0.0012
92361678|NCT03110562|184626660|SUPERIORITY||Odds Ratio (OR)|1.6594||||0.0082|TWO_SIDED|95.0|1.0993|2.5049||One Sided P-value|Cochran-Mantel-Haenszel|Analysis using Cochran-Mantel-Haenszel test stratified by region, prior PI therapies, number of prior anti-MM regimens, and R-ISS stage at screening.||||2.5049|1.0993|0.0082
92361679|NCT03110562|184626661|SUPERIORITY||Odds Ratio (OR)|0.5042||||0.0013|TWO_SIDED|95.0|0.3216|0.7906||One Sided P-value|Cochran-Mantel-Haenszel||Stratified by Prior PI therapies (Yes or No), Number of prior anti-MM regimens (1 or \>1), and R-ISS stage at study entry (R-ISS Stage III versus R-ISS Stage I or II).|||0.7906|0.3216|0.0013
92361680|NCT03110562|184626662|SUPERIORITY||Hazard Ratio (HR)|0.8764||||0.2152|TWO_SIDED|95.0|0.6313|1.2168||One Sided P-value|Stratified log-rank test|Stratified for prior PI therapies, number of prior anti-MM regimens and R-ISS Stage at screening.|Based on stratified Cox Proportional Hazard model with Efron's Method of handling ties.|||1.2168|0.6313|0.2152
92361681|NCT01561469|184626670|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Regression, Logistic|||||||0.009
92361682|NCT01561469|184626671|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Analysis for superinfections category reported.||||1.00
92361683|NCT01561469|184626671|SUPERIORITY_OR_OTHER|||||||0.759|TWO_SIDED||||||Chi-squared|||Analysis for colonization category reported.||||0.759
92361684|NCT01561469|184626672|SUPERIORITY_OR_OTHER|||||||0.773|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.773
92361685|NCT01561469|184626673|SUPERIORITY_OR_OTHER|||||||0.823|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.823
92361686|NCT01561469|184626674|SUPERIORITY_OR_OTHER|||||||0.276|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.276
92361687|NCT01561469|184626675|SUPERIORITY_OR_OTHER|||||||0.512|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.512
92361688|NCT00285779|184626702|SUPERIORITY_OR_OTHER|||||||0.0978|TWO_SIDED||||||Fisher Exact|||||||0.0978
92361689|NCT00285779|184626703|OTHER||||||>|0.9999|||||||Fisher Exact|||||||>0.9999
92361690|NCT00285779|184626704|OTHER|||||||0.031|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.031
92361691|NCT00285779|184626704|OTHER|||||||0.34|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.34
92361692|NCT00285779|184626704|OTHER|||||||0.13|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.13
92224079|NCT01077973|184349399|SUPERIORITY_OR_OTHER||Difference in proportion|4.43||||0.565|TWO_SIDED|95.0|-10.43|19.29||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||19.29|-10.43|0.565
92361693|NCT00285779|184626704|OTHER|||||||0.22|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.22
92361694|NCT00285779|184626705|OTHER||||||>|0.9999|||||||Wilcoxon Paired|||Week 12 versus baseline||||>0.9999
92361695|NCT00285779|184626705|OTHER||||||>|0.9999|||||||Wilcoxon Paired|||Week 24 versus baseline||||>0.9999
92361696|NCT00285779|184626706|OTHER|||||||0.25|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.25
92361697|NCT00285779|184626706|OTHER||||||>|0.9999|||||||Wilcoxon Paired|||Week 12 versus baseline||||>0.9999
92361698|NCT00285779|184626706|OTHER|||||||0.063|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.063
92361699|NCT00285779|184626706|OTHER||||||>|0.9999|||||||Wilcoxon Paired|||Week 24 versus baseline||||>0.9999
92361700|NCT00285779|184626707|OTHER|||||||0.063|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.063
92361701|NCT00285779|184626707|OTHER|||||||0.25|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.25
92361702|NCT00285779|184626707|OTHER|||||||0.031|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.031
92361703|NCT00285779|184626707|OTHER|||||||0.32|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.32
92361704|NCT00285779|184626708|OTHER|||||||0.094|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.094
92276785|NCT01271933|184455230|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.9247|TWO_SIDED|95.0|-0.8|0.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.8|-0.8|0.9247
92361705|NCT00285779|184626708|OTHER|||||||0.25|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.25
92361706|NCT00285779|184626708|OTHER|||||||0.13|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.13
92361707|NCT00285779|184626708|OTHER|||||||0.13|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.13
92361708|NCT00285779|184626709|OTHER|||||||0.63|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.63
92361709|NCT00285779|184626709|OTHER|||||||0.38|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.38
92361710|NCT00285779|184626709|OTHER|||||||0.38|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.38
92361711|NCT00285779|184626709|OTHER|||||||0.5|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.50
92361712|NCT00285779|184626710|OTHER|||||||0.031|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.031
92361713|NCT00285779|184626710|OTHER|||||||0.094|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.094
92361714|NCT00285779|184626710|OTHER|||||||0.039|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.039
92361715|NCT00285779|184626710|OTHER|||||||0.19|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.19
92361716|NCT00285779|184626711|OTHER|||||||0.26|||||||Paired t test|||Week 12 versus baseline||||0.26
92361717|NCT00285779|184626711|OTHER|||||||0.55|||||||Paired t test|||Week 12 versus baseline||||0.55
92361718|NCT00285779|184626711|OTHER|||||||0.18|||||||Paired t test|||Week 24 versus baseline||||0.18
92361719|NCT00285779|184626711|OTHER|||||||0.13|||||||Paired t test|||Week 24 versus baseline||||0.13
92361720|NCT00285779|184626712|OTHER|||||||0.51|||||||Paired t test|||Week 12 versus baseline||||0.51
92361721|NCT00285779|184626712|OTHER|||||||0.47|||||||Paired t test|||Week 24 versus baseline||||0.47
92361722|NCT00285779|184626712|OTHER|||||||0.087|||||||Paired t test|||Week 24 versus baseline||||0.087
92361723|NCT00285779|184626712|OTHER|||||||0.86|||||||Paired t test|||Week 24 versus baseline||||0.86
92361724|NCT00285779|184626713|OTHER|||||||0.033|||||||Paired t test|||Week 12 versus baseline||||0.033
92361725|NCT00285779|184626713|OTHER|||||||0.069|||||||Paired t test|||Week 12 versus baseline||||0.069
92361726|NCT00285779|184626713|OTHER|||||||0.015|||||||Paired t test|||Week 24 versus baseline||||0.015
92361727|NCT00285779|184626713|OTHER|||||||0.026|||||||Paired t test|||Week 24 versus baseline||||0.026
92361728|NCT02415556|184626762|OTHER|"A spatial power variance-covariance structure was used to model within-subject correlated measurements where the number of days from the baseline visit was used as the power of the autoregressive correlation coefficient. Each efficacy and safety outcome variable was modeled separately.~The independent variables included: 4 treatment groups, TIMEG (baseline, on-treatment and post-treatment period), TIMEG \* treatment group.; an average number of treatment days; subjects as random effects."|Mean Difference (Final Values)|6.52||||0.025|TWO_SIDED|95.0|0.81|12.23||Mixed model p-value represents on-treatment difference between between Type 2 Diabetes Mellitus - Insulin vs. Type 2 Diabetes Mellitus - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||12.23|0.81|0.025
92361729|NCT02415556|184626762|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|5.28||||0.051|TWO_SIDED|95.0|-0.03|10.6||Mixed model p-value represents on-treatment difference between between Control - Insulin vs. Control - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||10.60|-0.03|0.051
92165615|NCT00346333|184219928|SUPERIORITY_OR_OTHER|||||||0.2||||||Apriori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Clustered Wilcoxon|||Secondary Analysis: As change distribution was non-normal, slope for each eye was calculated with least squares regression and converted to ranks. The Clustered Wilcoxon test was used to compare slope distributions between groups accounting for correlation between slopes for eyes within individuals.||||0.20
92361730|NCT02415556|184626763|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|8.31||||0.007|TWO_SIDED|95.0|2.33|14.29||Mixed model p-value represents on-treatment difference between between Type 2 Diabetes Mellitus - Insulin vs. Type 2 Diabetes Mellitus - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||14.29|2.33|0.007
92361731|NCT02415556|184626763|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|2.71||||0.342|TWO_SIDED|95.0|-2.9|8.32||Mixed model p-value represents on-treatment difference between between Control - Insulin vs. Control - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||8.32|-2.90|0.342
92361732|NCT02415556|184626764|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|-0.37||||0.144|TWO_SIDED|95.0|-0.87|0.13||Mixed model p-value represents on-treatment difference between between Type 2 Diabetes Mellitus - Insulin vs. Type 2 Diabetes Mellitus - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||0.13|-0.87|0.144
92361733|NCT02415556|184626764|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|-0.64||||0.008|TWO_SIDED|95.0|-1.11|-0.16||Mixed model p-value represents on-treatment difference between between Control - Insulin vs. Control - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||-0.16|-1.11|0.008
92361734|NCT02415556|184626765|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|0.35||||0.149|TWO_SIDED|95.0|-0.13|0.83||Mixed model p-value represents on-treatment difference between between Type 2 Diabetes Mellitus - Insulin vs. Type 2 Diabetes Mellitus - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||0.83|-0.13|0.149
92402576|NCT00303069|184696024|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.4|||<|0.001|TWO_SIDED|95.0|1.6|32.1||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 30 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||32.1|1.6|<0.001
92165616|NCT00346333|184219929|SUPERIORITY_OR_OTHER|||||||0.59||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Longitudinal regression analysis|||Proc MIXED of SAS was used to compare annual rates of change over four years between the treatment groups.||||0.59
92361735|NCT02415556|184626765|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|0.35||||0.134|TWO_SIDED|95.0|-0.11|0.8||Mixed model p-value represents on-treatment difference between between Control - Insulin vs. Control - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||0.80|-0.11|0.134
92361736|NCT02415556|184626766|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|10.29||||0.03|TWO_SIDED|95.0|1.0|19.58|||Mixed Models Analysis|||||19.58|1.00|0.030
92361737|NCT02415556|184626766|OTHER|See primary aims.|Mean Difference (Final Values)|2.21||||0.607|TWO_SIDED|95.0|-6.22|10.63||See primary aims.|Mixed Models Analysis|||See primary aims.||10.63|-6.22|0.607
92402577|NCT00303069|184696024|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.5|||<|0.001|TWO_SIDED|95.0|-8.2|16.9||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 5 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||16.9|-8.2|<0.001
92402578|NCT01084655|184696072|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Square(LS)Means|1.204|||||TWO_SIDED|90.0|0.87|1.666||||||ANOVA with dose level as a fixed effect and participant as a random effect.||1.666|0.870|
92402579|NCT01084655|184696073|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.074|||||TWO_SIDED|90.0|0.793|1.455||||||ANOVA with dose level as a fixed effect and participant as a random effect.||1.455|0.793|
92402580|NCT01084655|184696076|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.066|||||TWO_SIDED|90.0|0.802|1.417||||||ANOVA with dose level as a fixed effect and participant as a random effect.||1.417|0.802|
92402581|NCT01084655|184696077|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.068|||||TWO_SIDED|90.0|0.955|1.195||||||ANOVA with dose level as a fixed effect and participant as a random effect.||1.195|0.955|
92402582|NCT00335777|184696084|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|2 sided McNemar test||||||0.289|TWO_SIDED|95.0|||||McNemar|2 sided McNemar||Null hypothesis: there is no difference in the proportion of subjects who were pain free when treating early, as compared to treating late.||||0.289
92165617|NCT00346333|184219930|SUPERIORITY_OR_OTHER|||||||0.8||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Longitudinal regression analysis|||Proc MIXED of SAS was used to compare annual rates of change over 4 years between the 2 groups.||||0.80
92361738|NCT02415556|184626767|OTHER|See primary aims.|Mean Difference (Final Values)|-2.1||||0.576|TWO_SIDED|95.0|-9.5|5.29||See primary aims.|Mixed Models Analysis|||See primary aims.||5.29|-9.50|0.576
92165618|NCT00588770|184219998|SUPERIORITY|||||||0.22||||||The P value was based on stratified log rank test, stratified by choice of chemotherapy combination, performance status, weight loss in the last 6 months, and prior radiation of the head and neck.|Log Rank|||The study hypothesis is that the addition of bevacizumab will improve the median survival by 35% from 8.5 months (based on E1395 and E5397) to 11.5 months.||||0.22
92361739|NCT02415556|184626767|OTHER|See primary aims.|Mean Difference (Final Values)|-0.86||||0.802|TWO_SIDED|95.0|-7.58|5.87||See primary aims.|Mixed Models Analysis|||See primary aims.||5.87|-7.58|0.802
92402583|NCT00335777|184696085|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|2 sided McNemar test||||||1|||||||McNemar|2 sided McNemar test||Null hypothesis: there is no difference in the proportion of subjects who had pain relief when treating early, as compared to treating late.||||1.000
92402584|NCT02399163|184696127|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.76|||<|0.0001|TWO_SIDED|95.0|11.061|22.454||From ANOVA: participant (random), treatment (fixed), period (fixed)|ANCOVA||Difference is Placebo dentifrice/Fluoride rinse minus Placebo dentifrice/No rinse such that a positive difference implies a larger response value for the Placebo dentifrice/Fluoride rinse.|||22.454|11.061|<0.0001
92402585|NCT04613362|184696153|SUPERIORITY||Odds Ratio (OR)|0.82||||0.61|TWO_SIDED|95.0|0.34|1.97||adjusted for gender which is included as a covariate|Mixed Models Analysis|||||1.97|0.34|0.61
92402586|NCT04613362|184696155|SUPERIORITY||Mean Difference (Net)|-8.8028|STANDARD_ERROR_OF_MEAN|6.3895||0.1724|TWO_SIDED|95.0|-21.5314|3.9257|||Mixed Models Analysis|||3 month||3.9257|-21.5314|0.1724
92361740|NCT02415556|184626768|EQUIVALENCE|CBF and vasoreactivity maps were analyzed on a voxel-by-voxel basis using Statistical non-Parametric Mapping (SnPM, http://www.sph.umich.edu/ni-stat/SnPM/), voxel-level threshold p \< 0.005.||||||0.03|||||||Voxel-Based Morphometry|||||||0.03
92361741|NCT01621178|184626770|NON_INFERIORITY|Non-Inferiority to Glargine with a 0.4% margin|Mean Difference (Final Values)|-0.05|||<|0.001|TWO_SIDED|95.0|-0.26|0.15|||Mixed Models Analysis|||Week 26||0.15|-0.26|<0.001
92361742|NCT01621178|184626770|NON_INFERIORITY|Non-Inferiority to Glargine with a 0.4% margin|Mean Difference (Final Values)|0.02|||<|0.001|TWO_SIDED|95.0|-0.18|0.22|||Mixed Models Analysis|||Week 26||0.22|-0.18|<0.001
92361743|NCT02465931|184626801|OTHER|||||||0.89|||||||t-test, 1 sided|||||||0.89
92361744|NCT00730756|184626804|SUPERIORITY_OR_OTHER|||||||0.845||95.0|||||ANCOVA|Center, baseline eosinophils, baseline symptom score, age, and gender were included as covariates in all efficacy analyses.||||||0.845
92361745|NCT05067335|184626868|SUPERIORITY||Difference in LSM(Romosozumab - Placebo)|9.37|STANDARD_ERROR_OF_MEAN|0.524|<|0.001|TWO_SIDED|95.0|8.34|10.39|||ANCOVA|||The ANCOVA model was used and included treatment group, Baseline DXA BMD value, machine type (hologic or lunar) at Baseline, age strata group (stratification factor), region, and interaction of Baseline DXA BMD value and machine type at Baseline as independent variables.||10.39|8.34|<0.001
92361746|NCT05067335|184626871|SUPERIORITY||Difference in LSM(Romosozumab - Placebo)|2.86|STANDARD_ERROR_OF_MEAN|0.348|<|0.001|TWO_SIDED|95.0|2.18|3.54|||ANCOVA|||The ANCOVA model was used and included treatment group, Baseline DXA BMD value, machine type (hologic or lunar) at Baseline, age strata group (stratification factor), region, and interaction of Baseline DXA BMD value and machine type at Baseline as independent variables.||3.54|2.18|<0.001
92361747|NCT05067335|184626872|SUPERIORITY||Difference in LSM(Romosozumab - Placebo)|3.48|STANDARD_ERROR_OF_MEAN|0.458|<|0.001|TWO_SIDED|95.0|2.58|4.38|||ANCOVA|||The ANCOVA model was used and included treatment group, Baseline DXA BMD value, machine type (hologic or lunar) at Baseline, age strata group (stratification factor), region, and interaction of Baseline DXA BMD value and machine type at Baseline as independent variables.||4.38|2.58|<0.001
92402587|NCT04613362|184696155|SUPERIORITY||Mean Difference (Net)|-4.6533|STANDARD_ERROR_OF_MEAN|5.9929||0.4399|TWO_SIDED|95.0|-16.5917|7.2851|||Mixed Models Analysis|||6 months||7.2851|-16.5917|0.4399
92402588|NCT04613362|184696156|SUPERIORITY||Mean Difference (Net)|18.7886|STANDARD_ERROR_OF_MEAN|18.0826||0.3021|TWO_SIDED|95.0|-17.2261|54.8032|||Mixed Models Analysis|||3 months||54.8032|-17.2261|0.3021
92402589|NCT04613362|184696156|SUPERIORITY||Mean Difference (Net)|-5.1996|STANDARD_ERROR_OF_MEAN|17.1338||0.7624|TWO_SIDED|95.0|-39.3245|28.9254|||Mixed Models Analysis|||6 months||28.9254|-39.3245|0.7624
92402590|NCT04613362|184696157|SUPERIORITY||Mean Difference (Net)|5.9613|STANDARD_ERROR_OF_MEAN|4.3867||0.1783|TWO_SIDED|95.0|-2.7794|14.7019|||Mixed Models Analysis|||3 months||14.7019|-2.7794|0.1783
92165619|NCT04697628|184220003|SUPERIORITY||Cox Proportional Hazard|0.7||||0.0038|TWO_SIDED|95.0|0.54|0.89||Two-sided p-value calculated from stratified log-rank test.|Stratified log-rank test||Hazard Ratio (HR) was calculated from Cox proportional hazards model and Efron method was used in handling ties and computed using stratification factors at randomization.|||0.89|0.54|0.0038
92361748|NCT02136914|184626878|SUPERIORITY||Least Squares Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|2.3||0.0009|TWO_SIDED|95.0|-12.5|-3.3|||Linear Mixed Model w/ Repeated Measures|Change from baseline is a dependent variable, treatment group is a factor, and the baseline value is a covariate.||46 subjects per treatment arm provided 90% power using a 2-sided test at 5% significance.||-3.3|-12.5|0.0009
92361749|NCT02136914|184626879|SUPERIORITY||Least Squares Mean Difference|-9.3|STANDARD_ERROR_OF_MEAN|2.7||0.0008|TWO_SIDED|95.0|-14.7|-4.0|||Linear Mixed Model w/ Repeated Measures|||||-4.0|-14.7|0.0008
92361750|NCT02136914|184626880|SUPERIORITY||Least Squares Mean Difference|2.74|STANDARD_ERROR_OF_MEAN|0.612|<|0.0001|TWO_SIDED|95.0|1.53|3.96||Change from Baseline in ON time without troublesome dyskinesia at Week 12.|Linear Mixed Model w/ Repeated Measures|||||3.96|1.53|<0.0001
92361751|NCT02136914|184626880|SUPERIORITY||Least Squares Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|0.634||0.0007|TWO_SIDED|95.0|0.96|3.47||Change from Baseline in ON time without troublesome dyskinesia at Week 24.|Linear Mixed Model w/ Repeated Measures|||||3.47|0.96|0.0007
92361752|NCT02136914|184626880|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.373||0.0171|TWO_SIDED|95.0|-1.64|-0.16||Change from Baseline in OFF time at Week 12.|Linear Mixed Model w/ Repeated Measures|||||-0.16|-1.64|0.0171
92361753|NCT02136914|184626880|SUPERIORITY||Least Squares Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.389||0.0406|TWO_SIDED|95.0|-1.58|-0.04||Change from Baseline in OFF time at Week 24.|Linear Mixed Model w/ Repeated Measures|||||-0.04|-1.58|0.0406
92361754|NCT02136914|184626880|SUPERIORITY||Least Squares Mean Difference|-1.54|STANDARD_ERROR_OF_MEAN|0.508||0.0031|TWO_SIDED|95.0|-2.55|-0.53||Change from Baseline in ON time with troublesome dyskinesia at Week 12.|Linear Mixed Model w/ Repeated Measures|||||-0.53|-2.55|0.0031
92361755|NCT02136914|184626880|SUPERIORITY||Least Squares Mean Difference|-1.45|STANDARD_ERROR_OF_MEAN|0.526||0.0072|TWO_SIDED|95.0|-2.49|-0.4||Change from Baseline in ON time with troublesome dyskinesia at Week 24.|Linear Mixed Model w/ Repeated Measures|||||-0.40|-2.49|0.0072
92361756|NCT02136914|184626881|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.74||0.6833|TWO_SIDED|95.0|-6.6|4.3||Change from Baseline in MDS-UPDRS at Week 12.|Linear Mixed Model w/ Repeated Measures|||||4.3|-6.6|0.6833
92402591|NCT04613362|184696157|SUPERIORITY||Mean Difference (Net)|-0.2145|STANDARD_ERROR_OF_MEAN|4.1565||0.959|TWO_SIDED|95.0|-8.4965|8.0675|||Mixed Models Analysis|||6 months||8.0675|-8.4965|0.959
92402592|NCT04613362|184696158|SUPERIORITY||Mean Difference (Net)|-12.6627|STANDARD_ERROR_OF_MEAN|7.3097||0.0873|TWO_SIDED|95.0|-27.2243|1.8989|||Mixed Models Analysis|||3 months||1.8989|-27.2243|0.0873
92361757|NCT02136914|184626881|SUPERIORITY||Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|3.58||0.5557|TWO_SIDED|95.0|-5.0|9.2||Change from Baseline in MDS-UPDRS at Week 24.|Linear Mixed Model w/ Repeated Measures|||||9.2|-5.0|0.5557
92361758|NCT02136914|184626882|SUPERIORITY||||||<|0.0001||||||Baseline to Week 12|Cochran-Mantel-Haenszel|||||||<0.0001
92361759|NCT02136914|184626882|SUPERIORITY|||||||0.1071||||||Baseline to Week 24|Cochran-Mantel-Haenszel|||||||0.1071
92361760|NCT00949533|184626886|SUPERIORITY_OR_OTHER|||||||0.825|||||||Pearson Chi-Square|||||||0.825
92402593|NCT04613362|184696158|SUPERIORITY||Mean Difference (Net)|-7.3578|STANDARD_ERROR_OF_MEAN|6.8559||0.2866|TWO_SIDED|95.0|-21.0154|6.2999|||Mixed Models Analysis|||6 months||6.2999|-21.0154|0.2866
92165620|NCT04697628|184220004|SUPERIORITY||Cox Proportional Hazard|0.67|||<|0.0001|TWO_SIDED|95.0|0.54|0.82||Two-sided p-value calculated from stratified log-rank test.|Stratified log-rank test||HR was calculated from Cox proportional hazards model and Efron method was used in handling ties and computed using stratification factors at randomization.|||0.82|0.54|<0.0001
92165621|NCT04697628|184220005|SUPERIORITY||Odds Ratio (OR)|4.0|||<|0.0001|TWO_SIDED|95.0|2.1|7.6|||Cochran-Mantel-Haenszel||OR calculated using Cochran-Mantel-Haenszel (CMH) method controlling for stratification factors at randomization.|||7.6|2.1|<0.0001
92224080|NCT01077973|184349399|SUPERIORITY_OR_OTHER||Difference in proportion|-2.09||||0.765|TWO_SIDED|95.0|-16.15|11.97||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.97|-16.15|0.765
92224081|NCT01077973|184349399|SUPERIORITY_OR_OTHER||Difference in proportion|6.47||||0.288|TWO_SIDED|95.0|-5.43|18.37||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.37|-5.43|0.288
92361761|NCT00949533|184626887|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||> 0.05
92361762|NCT00949533|184626888|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||Cough: statistical difference between 2 groups was based on chi-squared test.||||1.000
92361763|NCT00949533|184626888|SUPERIORITY_OR_OTHER|||||||0.284|||||||Chi-squared|||Rhinorrhea: statistical difference between 2 groups was based on chi-squared test.||||0.284
92361764|NCT00949533|184626888|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Sore throat: statistical difference between 2 groups was based on fisher-exact test.||||1.000
92361765|NCT00949533|184626888|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Shortness of breath: statistical difference between 2 groups was based on fisher-exact test.||||1.000
92361766|NCT00949533|184626888|SUPERIORITY_OR_OTHER|||||||0.487|||||||Fisher Exact|||Diarrhea: statistical difference between 2 groups was based on fisher-exact test.||||0.487
92361767|NCT00949533|184626888|SUPERIORITY_OR_OTHER|||||||0.593|||||||Fisher Exact|||Headache: statistical difference between 2 groups was based on fisher-exact test.||||0.593
92361768|NCT00949533|184626888|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Conjunctivitis: statistical difference between 2 groups was based on fisher-exact test.||||1.000
92361769|NCT00949533|184626888|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Vomiting: statistical difference between 2 groups was based on fisher-exact test.||||1.000
92361770|NCT00949533|184626888|SUPERIORITY_OR_OTHER|||||||0.106|||||||Fisher Exact|||Other: statistical difference between 2 groups was based on fisher-exact test.||||0.106
92402594|NCT04613362|184696160|SUPERIORITY||Mean Difference (Net)|-1.5655|STANDARD_ERROR_OF_MEAN|1.4313||0.2776|TWO_SIDED|95.0|-4.4168|1.2859|||Mixed Models Analysis|||3 months||1.2859|-4.4168|0.2776
92402595|NCT04613362|184696160|SUPERIORITY||Mean Difference (Net)|0.7202|STANDARD_ERROR_OF_MEAN|1.6492||0.6636|TWO_SIDED|95.0|-2.5651|4.0055|||Mixed Models Analysis|||6 months||4.0055|-2.5651|0.6636
92361771|NCT01493089|184626890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.097||||0.563||95.0|||||Regression, Cox|||||||0.563
92165622|NCT02115282|184220031|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.3|TWO_SIDED|95.0|0.67|1.13||The p value was based on stratified log rank test, the threshold for significance was two-sided p value of 0.2%.|Log Rank|||||1.13|0.67|0.30
92165623|NCT02115282|184220032|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.94|TWO_SIDED|95.0|0.82|1.21||The p value was based on stratified log rank test, stratified on the four randomization factors. The threshold for statistical significance was two-sided p value of 3.7% after taking into account the five interim analyses of OS into account.|Log Rank|||||1.21|0.82|0.94
92165624|NCT03617263|184220061|SUPERIORITY|||||||0.0613|||||||ANCOVA|||||||0.0613
92165625|NCT03617263|184220062|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Week 12||||<.0001
92361772|NCT01493089|184626891|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.903||||0.712||95.0|||||Regression, Cox|||||||0.712
92361773|NCT01493089|184626892|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.457|TWO_SIDED|95.0|||||Regression, Cox|||||||0.457
92361774|NCT01493089|184626893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8||||0.625||95.0|-9.7|15.3|||Regression, Cox|||Sustained partial response||15.3|-9.7|0.625
92361775|NCT01493089|184626893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.755|TWO_SIDED|95.0|-15.0|10.6|||Regression, Cox|||Sustained response||10.6|-15.0|0.755
92361776|NCT01493089|184626893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8||||0.194|TWO_SIDED|95.0|-3.6|17.2|||Regression, Cox|||Sustained total relief||17.2|-3.6|0.194
92361777|NCT01493089|184626894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.501|TWO_SIDED|95.0|-15.0|7.0|||Regression, Cox|||Sustained partial response||7.0|-15.0|0.501
92361778|NCT01493089|184626894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.518|TWO_SIDED|95.0|-17.6|8.2|||Regression, Cox|||Sustained response||8.2|-17.6|0.518
92361779|NCT01493089|184626894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.794|TWO_SIDED|95.0|-11.2|13.1|||Regression, Cox|||Sustained total relief||13.1|-11.2|0.794
92361780|NCT01493089|184626895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4||||0.494|TWO_SIDED|95.0|-6.3|11.2|||Regression, Cox|||Sustained partial response||11.2|-6.3|0.494
92361781|NCT01493089|184626895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.751|TWO_SIDED|95.0|-14.7|9.1|||Regression, Cox|||Sustained response||9.1|-14.7|0.751
92361782|NCT01493089|184626895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.69|TWO_SIDED|95.0|-16.4|9.6|||Regression, Cox|||Sustained total relief||9.6|-16.4|0.690
92402596|NCT04613362|184696161|SUPERIORITY||Mean Difference (Net)|2.3254|STANDARD_ERROR_OF_MEAN|1.6911||0.1733|TWO_SIDED|95.0|-1.0443|5.695|||Mixed Models Analysis|||3 months||5.695|-1.0443|0.1733
92402597|NCT04613362|184696161|SUPERIORITY||Mean Difference (Net)|-0.5408|STANDARD_ERROR_OF_MEAN|1.622||0.7398|TWO_SIDED|95.0|-3.7726|2.6911|||Mixed Models Analysis|||6 months||2.6911|-3.7726|0.7398
92402598|NCT04613362|184696162|SUPERIORITY||Mean Difference (Net)|-0.1491|STANDARD_ERROR_OF_MEAN|1.5551||0.9239|TWO_SIDED|95.0|-3.2476|2.9494|||Mixed Models Analysis|||Physical Component Scale - 3 months||2.9494|-3.2476|0.9239
92224082|NCT01077973|184349399|SUPERIORITY_OR_OTHER||Difference in proportion|-0.87||||0.928|TWO_SIDED|95.0|-20.0|18.27||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.27|-20.00|0.928
92224083|NCT01077973|184349399|SUPERIORITY_OR_OTHER||Difference in proportion|-6.4||||0.495|TWO_SIDED|95.0|-25.14|12.33||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.33|-25.14|0.495
92224084|NCT01077973|184349399|SUPERIORITY_OR_OTHER||Difference in proportion|5.46||||0.477|TWO_SIDED|95.0|-9.66|20.59||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.59|-9.66|0.477
92224085|NCT02685709|184349494|NON_INFERIORITY|An assessment of NI was made by comparing the lower bound of the two-sided 95% confidence interval (CI) for the difference in biochemical control (octreotide capsules - SRLs) to a NI margin of -20%.|95% CI Stratified Miettinen & Nurminen|-19.9|||||TWO_SIDED|95.0|-19.9|0.5|||Stratified Miettinen & Nurminen (M&N)|||||0.5|-19.9|
92224086|NCT02685709|184349495|OTHER|||||||||||||||||"Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.~This endpoint is descriptive with no formal statistical hypothesis testing."|The statistical analysis was based on the stratified Miettinen \& Nurminen (M\&N) method.|||
92224087|NCT02685709|184349496|OTHER||||||||||||||Clopper-Pearson method|||"Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.~This endpoint is descriptive with no formal statistical hypothesis testing."|The statistical analysis was based on the stratified Miettinen \& Nurminen (M\&N) method.|||
92224088|NCT02685709|184349497|OTHER|||||||||||||Confidence interval was applied||||"Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.~This endpoint is descriptive with no formal statistical hypothesis testing."|The statistical analysis was based on the stratified Miettinen \& Nurminen (M\&N) method.|||
92224089|NCT02685709|184349498|OTHER||||||||||||||Clopper-Pearson method|||Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.|Based on this analysis 63.0% of patients in the octreotide capsule group and 51.4% of patients in the SRL injection group entered the Study Extension phase.|||
92224090|NCT02685709|184349499|OTHER|||||||||||||||||"Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.~This endpoint is descriptive with no formal statistical hypothesis testing."|The mean change in IGF-1 from RCT Baseline to the end of the RCT phase was calculated using the Last Observation Carried Forward (LOCF) approach.|||
92224091|NCT02685709|184349500|OTHER|||||||||||||||||"Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.~This endpoint is descriptive with no formal statistical hypothesis testing."|Estimates were obtained from an analysis of covariance (ANCOVA) for the mean integrated growth hormone (GH) change from baseline with explanatory factors of treatment group and baseline value.|||
92224092|NCT02685709|184349501|OTHER|||||||||||||||||This endpoint is descriptive with no formal statistical hypothesis testing|The week 26 value was used as the baseline value for the RCT phase. The denominator for the percentage was the number of subjects at each visit.|||
92224093|NCT02685709|184349502|OTHER|||||||||||||||||This endpoint is descriptive with no formal statistical hypothesis testing.|The week 26 value is used as the baseline value for the RCT phase. The denominator for the percentage was the number of subjects at each visit.|||
92224094|NCT02685709|184349503|OTHER|||||||||||||||||This endpoints is descriptive with no formal statistical hypothesis testing.|This sensitivity analysis was using the Full analysis set (FAS), where any patient who discontinued treatment early was imputed as non-responder.|||
92224095|NCT02685709|184349504|OTHER|||||||||||||||||This endpoints is descriptive with no formal statistical hypothesis testing|This sensitivity analysis was using the Full analysis set (FAS), where patient who were biochemically controlled at the RCT Baseline (week 26), and who discontinued treatment early was imputed as non-responder.|||
92369492|NCT00281099|184643811|SUPERIORITY_OR_OTHER|||||||0.0053||95.0||||The a priori threshold for statistical significance was 0.05. The threshold was met, and the null hypothesis rejected.|Log Rank|||Physicians recorded at each scheduled and unscheduled follow-up whether the subject had developed a Class I indication since their last visit. The time from randomization to Class I indication development or last visit if censored was determined for each subject. The null hypothesis was that the hazard rate for time to development of a Class I pacing indication among patients with MVP programming was equal to or greater than that of patients with VVI 40 programming.||||0.0053
92224096|NCT02685709|184349505|OTHER||Proportion of patients|64.4|||||TWO_SIDED|95.0|56.0|72.1|||||Confidence Interval estimated using the Clopper-Pearson (Exact) method.||The proportion of patients biochemically controlled at the end of the Run-in phase was defined as IGF-1 \< 1.3 times ULN \[based on the average of week 24 and week 26\])|72.1|56|
92224097|NCT02685709|184349506|OTHER||Proportion of patients|66.4|||||TWO_SIDED|95.0|58.5|74.1||||||||74.1|58.5|
92224098|NCT02685709|184349507|OTHER||Proportion of patients|48.9|||||TWO_SIDED|95.0|38.7|59.1||||||||59.1|38.7|
92224099|NCT02685709|184349511|OTHER||||||||||||||||||The LSM change from baseline estimates are from a mixed model for repeated measures.|||
92224100|NCT02171611|184349516|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|175.14|STANDARD_ERROR_OF_MEAN|50.7|||TWO_SIDED|90.0|141.904|216.149|||||Relative bioavailability was estimated by the ratio of the gMeans of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual coefficient variation (gCV).|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||216.149|141.904|
92165626|NCT03617263|184220062|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Week 24||||<.0001
92361783|NCT00261833|184626910|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.618||||0.029|TWO_SIDED|95.0|-0.024|1.261||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira minus placebo (ie, the lower bound of the 95% confidence interval \[CI\] being greater than zero) will indicate superiority of Zemaira compared with Placebo.|95% confidence interval||A mixed model was used to estimate the 95% CI for the difference (Zemaira® - placebo) in annual lung density decline.|Analysis of the annual rate of change in lung density (TLC+FRC combined) was a linear mixed model with country, inspiration state, time since baseline treatment, and treatment-by-time interaction as fixed effects and participant and participant-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||1.261|-0.024|0.029
92361784|NCT00261833|184626910|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.74||||0.017|TWO_SIDED|95.0|0.059|1.42||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira® minus placebo (ie, the lower bound of the 95% CI being greater than zero) will indicate superiority of Zemaira® compared with Placebo.|95% confidence interval||A mixed model was used to estimate the 95% CI for the difference (Zemaira® - placebo) in annual lung density decline.|Analysis of the annual rate of change in lung density (TLC) was a linear mixed model with country, time since baseline treatment, and treatment-by-time interaction as fixed effects and participant and participant-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||1.420|0.059|0.017
92361785|NCT00261833|184626910|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.478||||0.09|TWO_SIDED|95.0|-0.223|1.18||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira® minus placebo (ie, the lower bound of the 95% CI being greater than zero) will indicate superiority of Zemaira® compared with Placebo.|95% confidence interval||A mixed model was used to estimate the 95% CI for the difference (Zemaira® - placebo) in annual lung density decline.|Analysis of the annual rate of change in lung density (FRC) was a linear mixed model with country, time since baseline treatment, and treatment-by-time interaction as fixed effects and participant and participant-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||1.180|-0.223|0.090
92361786|NCT00261833|184626914|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|1.04||||0.058|TWO_SIDED|95.0|-0.26|2.34||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira® minus placebo (ie, the lower bound of the 95% CI being greater than zero) will indicate superiority of Zemaira® compared with Placebo.|95% confidence interval||A mixed model ANCOVA was used to estimate the 95% CI for the difference (Zemaira® - placebo) in the change in lung density.|Analysis of the change in lung density (TLC+FRC combined) from baseline to Month 24 was a mixed effects analysis of covariance (ANCOVA) model with country, treatment, and baseline lung density as fixed effects and inspiration state as a repeated random effect at a 1-sided significance level of 0.025.||2.34|-0.26|0.058
92361787|NCT00261833|184626914|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|1.32||||0.028|TWO_SIDED|95.0|-0.03|2.67||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira® minus placebo (i.e., the lower bound of the 95% CI being greater than zero) will indicate superiority of Zemaira® compared with Placebo.|95% confidence interval||A mixed model ANCOVA was used to estimate the 95% CI for the difference (Zemaira® - placebo) in the change in lung density.|Analysis of the change in lung density (TLC) from baseline to Month 24 was a mixed effects ANCOVA model with country, treatment, and baseline lung density as fixed effects at a 1-sided significance level of 0.025.||2.67|-0.03|0.028
92361788|NCT00261833|184626914|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.89||||0.115|TWO_SIDED|95.0|-0.57|2.34||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira® minus placebo (ie, the lower bound of the 95% CI being greater than zero) will indicate superiority of Zemaira® compared with Placebo.|95% confidence interval||A mixed model ANCOVA was used to estimate the 95% CI for the difference (Zemaira® - placebo) in the change in lung density.|Analysis of the change in lung density (FRC) from baseline to Month 24 was a mixed effects ANCOVA model with country, treatment, and baseline lung density as fixed effects as a repeated random effect at a 1-sided significance level of 0.025.||2.34|-0.57|0.115
92361789|NCT00583219|184626933|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline at one month||||0.004
92361790|NCT00583219|184626933|SUPERIORITY_OR_OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||0.81
92361791|NCT00583219|184626934|SUPERIORITY_OR_OTHER|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 1 month||||0.21
92361792|NCT00583219|184626934|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||0.43
92165627|NCT03617263|184220063|SUPERIORITY|||||||0.0142|||||||ANCOVA|||Week 12||||0.0142
92165628|NCT03617263|184220063|SUPERIORITY|||||||0.0077|||||||ANCOVA|||Week 24||||0.0077
92165629|NCT03617263|184220064|SUPERIORITY|||||||0.2893|||||||ANCOVA|||Week 12||||0.2893
92165630|NCT03617263|184220064|SUPERIORITY|||||||0.1989|||||||ANCOVA|||Week 24||||0.1989
92165631|NCT03617263|184220065|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Week 12||||<.0001
92165632|NCT03617263|184220065|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Week 24||||<.0001
92165633|NCT03617263|184220066|SUPERIORITY|||||||0.8664|||||||ANCOVA|||Week 12||||0.8664
92165634|NCT03617263|184220066|SUPERIORITY|||||||0.1137|||||||ANCOVA|||Week 24||||0.1137
92165635|NCT03617263|184220067|SUPERIORITY|||||||0.0487|||||||ANCOVA|||Week 12||||0.0487
92165636|NCT03617263|184220067|SUPERIORITY|||||||0.7743|||||||ANCOVA|||Week 24||||0.7743
92165637|NCT03617263|184220068|SUPERIORITY|||||||0.1174|||||||ANCOVA|||Week 12||||0.1174
92165638|NCT03617263|184220068|SUPERIORITY|||||||0.1483|||||||ANCOVA|||Week 24||||0.1483
92276786|NCT01271933|184455239|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|7.12||0.4314|TWO_SIDED|95.0|-19.7|8.5||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model|ANCOVA|||This analysis is for the domain: Subjective Wake after Sleep Onset||8.5|-19.7|0.4314
92361793|NCT00583219|184626936|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline||||0.005
92361794|NCT00583219|184626937|SUPERIORITY_OR_OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline||||0.22
92361795|NCT00583219|184626938|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 1 month||||0.24
92361796|NCT00583219|184626938|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||0.14
92361797|NCT00583219|184626939|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 1 month||||0.24
92361798|NCT00583219|184626939|SUPERIORITY_OR_OTHER|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||0.033
92361799|NCT00583219|184626940|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Exact binomial sign test|||P value change from baseline to 1 month||||>0.99
92402599|NCT04613362|184696162|SUPERIORITY||Mean Difference (Net)|-0.2879|STANDARD_ERROR_OF_MEAN|1.4735||0.8456|TWO_SIDED|95.0|-3.2238|2.6481|||Mixed Models Analysis|||Physical Component Scale - 6 months||2.6481|-3.2238|0.8456
92402600|NCT04613362|184696162|SUPERIORITY||Mean Difference (Net)|-0.1757|STANDARD_ERROR_OF_MEAN|2.3798||0.9413|TWO_SIDED|95.0|-4.9175|4.5661|||Mixed Models Analysis|||Mental Component Scale - 3 months||4.5661|-4.9175|0.9413
92402601|NCT04613362|184696162|SUPERIORITY||Mean Difference (Net)|-2.9597|STANDARD_ERROR_OF_MEAN|2.2549||0.1934|TWO_SIDED|95.0|-7.4526|1.5333|||Mixed Models Analysis|||Mental Component Scale - 6 months||1.5333|-7.4526|0.1934
92402602|NCT04613362|184696163|SUPERIORITY||Mean Difference (Net)|3.0999|STANDARD_ERROR_OF_MEAN|2.1004||0.1442|TWO_SIDED|95.0|-1.0852|7.2849|||Mixed Models Analysis|||3 months||7.2849|-1.0852|0.1442
92402603|NCT04613362|184696163|SUPERIORITY||Mean Difference (Net)|2.0675|STANDARD_ERROR_OF_MEAN|2.036||0.3132|TWO_SIDED|95.0|-1.9892|6.1243|||Mixed Models Analysis|||6 months||6.1243|-1.9892|0.3132
92402604|NCT01684917|184696174|SUPERIORITY||||||<|0.05||||||calculated. The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||Baseline vs 12 weeks||||<0.05
92402605|NCT01684917|184696174|SUPERIORITY||||||<|0.05||||||calculated. The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|t-test, 2 sided|||Baseline vs 12 weeks||||<0.05
92402606|NCT01684917|184696175|SUPERIORITY|"Statistical Analysis was performed only for the Diet Arm/Group"|||||<|0.05||||||calculated. The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||"Baseline vs 12 weeks. Statistical Analysis was performed only for the Diet Arm/Group."||||<0.05
92165639|NCT03617263|184220069|SUPERIORITY|||||||0.0941|||||||ANCOVA|||Week 12||||0.0941
92402607|NCT01684917|184696176|SUPERIORITY|"Statistical Analysis was performed only for the Diet Arm/Group"|||||<|0.05||||||calculated. The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|t-test, 2 sided|||"Baseline vs 12 weeks. Statistical Analysis was performed only for the Diet Arm/Group."||||<0.05
92402608|NCT01684917|184696177|SUPERIORITY||||||<|0.05||||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||Baseline vs 12 weeks||||<0.05
92402609|NCT01684917|184696177|SUPERIORITY||||||<|0.05||||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||Baseline vs 12 weeks||||<0.05
92165640|NCT03617263|184220069|SUPERIORITY|||||||0.2378|||||||ANCOVA|||Week 24||||0.2378
92165641|NCT03617263|184220070|SUPERIORITY|||||||0.1542|||||||ANCOVA|||CK-18 Fragment - M30||||0.1542
92165642|NCT03617263|184220070|SUPERIORITY|||||||0.2037|||||||ANCOVA|||CK-18 Fragment - M65||||0.2037
92165643|NCT03617263|184220071|SUPERIORITY|||||||0.4431|||||||ANCOVA|||||||0.4431
92165644|NCT03617263|184220072|SUPERIORITY|||||||0.2289|||||||ANCOVA|||||||0.2289
92165645|NCT03617263|184220073|SUPERIORITY|||||||0.0853|||||||ANCOVA|||||||0.0853
92165646|NCT03617263|184220074|SUPERIORITY|||||||0.2559|||||||ANCOVA|||||||0.2559
92165647|NCT03617263|184220075|SUPERIORITY|||||||0.68|||||||ANCOVA|||Week 12||||0.6800
92165648|NCT03617263|184220075|SUPERIORITY|||||||0.4587|||||||ANCOVA|||Week 24||||0.4587
92165649|NCT03617263|184220076|SUPERIORITY|||||||0.923|||||||ANCOVA|||Week 12||||0.9230
92165650|NCT03617263|184220076|SUPERIORITY|||||||0.7115|||||||ANCOVA|||Week 24||||0.7115
92165651|NCT03617263|184220077|SUPERIORITY|||||||0.1983|||||||ANCOVA|||||||0.1983
92165652|NCT03617263|184220078|SUPERIORITY|||||||0.7576|||||||ANCOVA|||||||0.7576
92165653|NCT03617263|184220079|SUPERIORITY|||||||0.2784|||||||ANCOVA|||Week 12||||0.2784
92165654|NCT03617263|184220079|SUPERIORITY|||||||0.0091|||||||ANCOVA|||Week 24||||0.0091
92165655|NCT03617263|184220080|SUPERIORITY|||||||0.0941|||||||ANCOVA|||Week 12||||0.0941
92165656|NCT03617263|184220080|SUPERIORITY|||||||0.0009|||||||ANCOVA|||||||0.0009
92165657|NCT03617263|184220081|SUPERIORITY|||||||0.1363|||||||ANCOVA|||Week 12||||0.1363
92165658|NCT03617263|184220081|SUPERIORITY|||||||0.3057|||||||ANCOVA|||Week 24||||0.3057
92165659|NCT03617263|184220082|SUPERIORITY|||||||0.3323|||||||ANCOVA|||Week 12||||0.3323
92165660|NCT03617263|184220082|SUPERIORITY|||||||0.0624|||||||ANCOVA|||Week 24||||0.0624
92165661|NCT03617263|184220083|SUPERIORITY|||||||0.505|||||||ANCOVA|||Week 12||||0.5050
92165662|NCT03617263|184220083|SUPERIORITY|||||||0.0279|||||||ANCOVA|||Week 24||||0.0279
92165663|NCT03617263|184220084|SUPERIORITY|||||||0.3508|||||||ANCOVA|||Week 12||||0.3508
92165664|NCT03617263|184220084|SUPERIORITY|||||||0.0059|||||||ANCOVA|||Week 24||||0.0059
92165665|NCT03617263|184220085|SUPERIORITY|||||||0.68|||||||ANCOVA|||Week 12||||0.6800
92165666|NCT03617263|184220085|SUPERIORITY|||||||0.731|||||||ANCOVA|||Week 24||||0.7310
92165667|NCT03617263|184220086|SUPERIORITY|||||||0.0896|||||||ANCOVA|||Week 12||||0.0896
92165668|NCT03617263|184220086|SUPERIORITY|||||||0.0053|||||||ANCOVA|||Week 24||||0.0053
92165669|NCT03617263|184220087|SUPERIORITY|||||||0.5962|||||||ANCOVA|||Week 12||||0.5962
92165670|NCT03617263|184220087|SUPERIORITY|||||||0.3035|||||||ANCOVA|||Week 24||||0.3035
92165671|NCT03617263|184220088|SUPERIORITY|||||||0.3482|||||||ANCOVA|||Week 12||||0.3482
92361800|NCT00583219|184626940|SUPERIORITY_OR_OTHER|||||||0.25|||||||exact binomial sign test|||P value change from baseline to 3 months||||0.25
92361801|NCT00583219|184626942|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to one month||||<0.001
92361802|NCT00583219|184626943|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline||||0.004
92361803|NCT00583219|184626944|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 1 month||||0.003
92361804|NCT00583219|184626944|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months.||||0.001
92361805|NCT00583219|184626945|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to one month||||0.001
92361806|NCT00583219|184626945|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||<0.001
92361807|NCT00583219|184626946|SUPERIORITY_OR_OTHER|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 1 month.||||0.007
92361808|NCT00583219|184626946|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||0.002
92361809|NCT00474903|184626973|SUPERIORITY_OR_OTHER|||||||0.0955|||||||Wilcoxon (Mann-Whitney)|||||||0.0955
92361810|NCT00474903|184626973|SUPERIORITY_OR_OTHER|||||||0.0204|||||||Wilcoxon (Mann-Whitney)|||||||0.0204
92361811|NCT02519842|184626999|OTHER||Mean Difference (Final Values)|9.8|||||TWO_SIDED|95.0|-7.6|27.9|||||Mean difference in percentage of participants who experienced at least 1 tier 2 AE and received fosaprepitant regimen compared with participants who received control regimen.|||27.9|-7.6|
92361812|NCT02519842|184627000|OTHER||Mean Difference (Final Values)|5.4|||||TWO_SIDED|95.0|-5.1|17.8|||||Mean difference in percentage of participants who discontinued due to an AE and received fosaprepitant regimen compared with participants who received control regimen.|||17.8|-5.1|
92165672|NCT03617263|184220088|SUPERIORITY|||||||0.4176|||||||ANCOVA|||Week 24||||0.4176
92165673|NCT03617263|184220089|SUPERIORITY|||||||0.993|||||||ANCOVA|||||||0.9930
92165674|NCT03617263|184220089|SUPERIORITY|||||||0.3612|||||||ANCOVA|||Week 24||||0.3612
92165675|NCT03617263|184220090|SUPERIORITY|||||||0.4373|||||||ANCOVA|||Week 12||||0.4373
92165676|NCT03617263|184220090|SUPERIORITY|||||||0.6248|||||||ANCOVA|||Week 24||||0.6248
92165677|NCT03617263|184220091|SUPERIORITY|||||||0.0994|||||||ANCOVA|||Week 12||||0.0994
92165678|NCT03617263|184220091|SUPERIORITY|||||||0.3527|||||||ANCOVA|||Week 24||||0.3527
92165679|NCT03617263|184220092|SUPERIORITY|||||||0.7065|||||||ANCOVA|||Week 12||||0.7065
92165680|NCT03617263|184220092|SUPERIORITY|||||||0.4096|||||||ANCOVA|||Week 24||||0.4096
92165681|NCT03617263|184220093|SUPERIORITY|||||||0.2475|||||||ANCOVA|||Week 12||||0.2475
92165682|NCT03617263|184220093|SUPERIORITY|||||||0.1621|||||||ANCOVA|||Week 24||||0.1621
92165683|NCT03617263|184220094|SUPERIORITY|||||||0.5862|||||||ANCOVA|||Week 12||||0.5862
92165684|NCT03617263|184220094|SUPERIORITY|||||||0.2026|||||||ANCOVA|||Week 24||||0.2026
92165685|NCT03617263|184220095|SUPERIORITY|||||||0.6434|||||||ANCOVA|||Week 12||||0.6434
92165686|NCT03617263|184220095|SUPERIORITY|||||||0.9895|||||||ANCOVA|||Week 24||||0.9895
92165687|NCT00762619|184220119|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165688|NCT00762619|184220120|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165689|NCT00762619|184220121|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165690|NCT00762619|184220122|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165691|NCT00762619|184220123|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165692|NCT00762619|184220124|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165693|NCT00762619|184220125|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165694|NCT00762619|184220126|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165695|NCT00762619|184220127|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92361813|NCT02319486|184627004|SUPERIORITY_OR_OTHER||Probability of Event-Free Survival ，pEFS|0.32||||0.034|TWO_SIDED|||||stage 2 vs stage 3|pEFS||over all pEFS|||||0.034
92361814|NCT00859833|184627033|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for equivalence: SD for adenosine = 0.59, SD for regadenoson = 0.92, true difference between groups = 0.19. With n=28, DOF = 46. Power for equivalence (with alpha = 0.05) = 0.98585.|Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.7||0.3617|TWO_SIDED|95.0|-0.6041|0.2241|||t-test, 2 sided|||Null hypothesis is that myocardial perfusion reserve (MPR) is not different when measured with adenosine or regadenoson in patients across a broad range of body sizes.||0.2241|-0.6041|0.3617
92361815|NCT01561976|184627034|OTHER||Ratio|108.94||||0.1413|TWO_SIDED|95.0|101.01|117.5|||ANOVA||Ratio= METLEAD ForteSR-Fed/METLEAD ForteSR-Fasting|||117.50|101.01|0.1413
92361816|NCT01561976|184627034|OTHER||Ratio|107.24||||0.1413|TWO_SIDED|95.0|99.37|115.73|||ANOVA||Ratio= METLEAD G2 Forte/METLEAD ForteSR-Fasting|||115.73|99.37|0.1413
92361817|NCT01561976|184627035|OTHER||Ratio|116.5||||0.0171|TWO_SIDED|95.0|106.91|126.95|||ANOVA||Ratio= METLEAD ForteSR-Fed/METLEAD ForteSR-Fasting|||126.95|106.91|0.0171
92361818|NCT01561976|184627035|OTHER||Ratio|107.24||||0.0171|TWO_SIDED|95.0|98.35|116.94|||ANOVA||Ratio= METLEAD G2 Forte/METLEAD ForteSR-Fasting|||116.94|98.35|0.0171
92361819|NCT01561976|184627036|OTHER||Ratio|116.87||||0.0169|TWO_SIDED|95.0|107.07|127.57|||ANOVA||Ratio= METLEAD ForteSR-Fed/METLEAD ForteSR-Fasting|||127.57|107.07|0.0169
92361820|NCT01561976|184627036|OTHER||Ratio|107.38||||0.0169|TWO_SIDED|95.0|98.3|117.29|||ANOVA||Ratio= METLEAD G2 Forte/METLEAD ForteSR-Fasting|||117.29|98.30|0.0169
92361821|NCT01463527|184627048|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.31|||||TWO_SIDED|95.0|0.17|0.57||||||Odds of intervention in capnography open group as compared to capnography blind group after adjusting of age and length of sedation.||0.57|0.17|
92361822|NCT01463527|184627049|SUPERIORITY|||||||0.3|||||||GEE (Generalized Estimating Equation)|||||||0.30
92361823|NCT01977222|184627057|OTHER|||||||0.1673|||||||t-test, 2 sided|||||||0.1673
92361824|NCT01977222|184627058|OTHER|||||||0.5745|||||||t-test, 2 sided|||||||0.5745
92361825|NCT01977222|184627059|OTHER|||||||0.511|||||||t-test, 2 sided|||||||.511
92361826|NCT01977222|184627060|OTHER|||||||0.776|||||||t-test, 2 sided|||||||0.776
92361827|NCT01977222|184627061|OTHER|||||||0.5374|||||||t-test, 2 sided|||||||0.5374
92402610|NCT01684917|184696177|SUPERIORITY||||||<|0.05||||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||Baseline vs 12 weeks||||<0.05
92402611|NCT01684917|184696179|SUPERIORITY|"Statistical Analysis was performed only for the Diet Arm/Group"|||||<|0.05||||||calculated. The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||"Baseline vs 12 weeks. Statistical Analysis was performed only for the Diet Arm/Group."||||<0.05
92402612|NCT02392637|184696212|SUPERIORITY|||||||0.62|||||||Log Rank|||||||0.62
92402613|NCT02392637|184696213|SUPERIORITY|||||||0.39|||||||Log Rank|||||||0.39
92402614|NCT01761877|184696216|OTHER|Mixed Models Analysis|||||<|0.05||||||A p value was calculated for change in breast density from baseline to 12 months separately for each study arm.|Mixed Models Analysis|||The study was designed to assess change in breast density using fat/water MRI after 12 months of sulindac intervention in postmenopausal breast cancer patients taking aromatase inhibitors for the treatment of estrogen receptor positive breast cancer. A non-randomized observation arm was included with the same eligibility criteria to assess change in breast density over 12 months using the fat/water MRI method of quantifying breast density. Change was examined separately for each arm.||||<0.05
92361828|NCT01977222|184627062|OTHER|||||||0.3385|||||||t-test, 2 sided|||||||0.3385
92361829|NCT01977222|184627063|OTHER|||||||0.0189|||||||t-test, 2 sided|||||||0.0189
92361830|NCT01977222|184627064|OTHER|||||||0.1183|||||||t-test, 2 sided|||||||0.1183
92361831|NCT00928668|184627110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.157|STANDARD_ERROR_OF_MEAN|0.252|<|0.0001|TWO_SIDED|95.0|0.657|1.657|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 2 mcg minus Placebo|||1.657|0.657|<0.0001
92361832|NCT00928668|184627110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.711|STANDARD_ERROR_OF_MEAN|0.255|<|0.0001|TWO_SIDED|95.0|1.205|2.217|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 5 mcg minus Placebo|||2.217|1.205|<0.0001
92402615|NCT01761877|184696217|OTHER||||||<|0.05||||||A p value of \<0.05 was selected for change in each arm. The study did not include a direct comparison between the two arms.|Mixed Models Analysis|||||||<0.05
92402616|NCT01761877|184696218|OTHER||||||<|0.05|TWO_SIDED|95.0||||A p value of \<0.05 was selected for change in each arm. The study did not include a direct comparison between the two arms.|Mixed Models Analysis|||||||<0.05
92402617|NCT01780506|184696230|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: the E/C/F/TAF group was ≥ 12% worse than the E/C/F/TDF group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL at Week 48; alternative hypothesis: the E/C/F/TAF group was \< 12% worse than the E/C/F/TDF group.|Difference in percentages|0.5||||0.78|TWO_SIDED|95.002|-3.0|4.0||P-value was from the Cochran-Mantel-Haenszel (CMH) test stratified by baseline HIV-1 RNA (≤ 100,000 or \> 100,000 copies/mL) and region (US vs ex-US).|Cochran-Mantel-Haenszel||The difference in percentages and its 95.002% confidence interval (CI) were calculated based on the Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA and region stratum.|||4.0|-3.0|0.78
92402618|NCT01867671|184696258|SUPERIORITY||Odds Ratio (OR)|205.45|||<|0.0001|TWO_SIDED|95.0|24.0|1758.51|||Regression, Logistic|||||1758.51|24.00|<0.0001
92361833|NCT00928668|184627110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.443|STANDARD_ERROR_OF_MEAN|0.248|<|0.0001|TWO_SIDED|95.0|1.952|2.935|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 10 mcg minus Placebo|||2.935|1.952|<0.0001
92361834|NCT00928668|184627110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.984|STANDARD_ERROR_OF_MEAN|0.251|<|0.0001|TWO_SIDED|95.0|2.486|3.483|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Form 20 mcg minus Placebo|||3.483|2.486|<0.0001
92361835|NCT00928668|184627111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.139|STANDARD_ERROR_OF_MEAN|0.249|<|0.0001|TWO_SIDED|95.0|1.645|2.633|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 2 mcg minus Placebo|||2.633|1.645|<0.0001
92361836|NCT00928668|184627111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.636|STANDARD_ERROR_OF_MEAN|0.252|<|0.0001|TWO_SIDED|95.0|2.135|3.136|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 5 mcg minus Placebo|||3.136|2.135|<0.0001
92402619|NCT01867671|184696259|SUPERIORITY||Odds Ratio (OR)|27.82|||<|0.0031|TWO_SIDED|95.0|3.07|252.33|||Regression, Logistic|||||252.33|3.07|<0.0031
92402620|NCT01867671|184696260|OTHER|McNemar's Test|Simple Kappa Coefficient|0.162|||<|0.0001|TWO_SIDED|95.0|0.0628|0.2612|||McNemar|||||0.2612|0.0628|<0.0001
92402621|NCT01867671|184696261|SUPERIORITY||Mean Difference (Final Values)|1464.0|||<|0.0001|TWO_SIDED|95.0|944.0|1985.0|||Chi-squared|||||1985|944|<0.0001
92165696|NCT00762619|184220128|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92402622|NCT04852302|184696263|EQUIVALENCE|We evaluated the same group to determine whether their reported depression was the same, worse, or better at 6-months compared to baseline.|Mean Difference (Net)|-1.81|STANDARD_DEVIATION|4.81||0.168|TWO_SIDED|95.0|-4.47|0.86||The a priori threshold for statistical significance was \< 0.05. We did not adjust for multiple comparisons as this was exploratory.|paired sample t-Test, 2-sided|||Null hypothesis was that the mean difference between the paired observations is zero.||0.86|-4.47|0.168
92224101|NCT02171611|184349516|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|154.84|STANDARD_ERROR_OF_MEAN|46.6|||TWO_SIDED|90.0|127.425|188.161|||||Relative bioavailability was estimated by the ratio of the geometric means (gMeans) of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment (T2) vs. the Reference treatment (R). This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||188.161|127.425|
92224102|NCT02171611|184349517|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|175.4|STANDARD_ERROR_OF_MEAN|51.1|||TWO_SIDED|90.0|141.924|216.772|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||216.772|141.924|
92361837|NCT00928668|184627111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.56|STANDARD_ERROR_OF_MEAN|0.245|<|0.0001|TWO_SIDED|95.0|3.074|4.046|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 10 mcg minus Placebo|||4.046|3.074|<0.0001
92361838|NCT00928668|184627111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.224|STANDARD_ERROR_OF_MEAN|0.249|<|0.0001|TWO_SIDED|95.0|3.731|4.717|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Form 20 mcg minus Placebo|||4.717|3.731|<0.0001
92361839|NCT00928668|184627112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.025|STANDARD_ERROR_OF_MEAN|0.296|<|0.0001|TWO_SIDED|95.0|1.437|2.613|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 2 mcg minus Placebo|||2.613|1.437|<0.0001
92361840|NCT00928668|184627112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.38|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|1.785|2.975|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 5 mcg minus Placebo|||2.975|1.785|<0.0001
92361841|NCT00928668|184627112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.549|STANDARD_ERROR_OF_MEAN|0.292|<|0.0001|TWO_SIDED|95.0|2.971|4.127|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 10 mcg minus Placebo|||4.127|2.971|<0.0001
92361842|NCT00928668|184627112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.208|STANDARD_ERROR_OF_MEAN|0.296|<|0.0001|TWO_SIDED|95.0|3.622|4.794|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Form 20 mcg minus Placebo|||4.794|3.622|<0.0001
92361843|NCT00928668|184627113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.907|STANDARD_ERROR_OF_MEAN|0.295|<|0.0001|TWO_SIDED|95.0|1.322|2.492|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 2 mcg minus Placebo|||2.492|1.322|<0.0001
92361844|NCT00928668|184627113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.474|STANDARD_ERROR_OF_MEAN|0.299|<|0.0001|TWO_SIDED|95.0|1.822|3.066|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 5 mcg minus Placebo|||3.066|1.822|<0.0001
92361845|NCT00928668|184627113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.327|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|2.752|3.902|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 10 mcg minus Placebo|||3.902|2.752|<0.0001
92361846|NCT00928668|184627113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.22|STANDARD_ERROR_OF_MEAN|0.294|<|0.0001|TWO_SIDED|95.0|3.637|4.803|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Form 20 mcg minus Placebo|||4.803|3.637|<0.0001
92361847|NCT00928668|184627114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.229|STANDARD_ERROR_OF_MEAN|0.271|<|0.0001|TWO_SIDED|95.0|0.692|1.766|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 2 mcg minus Placebo|||1.766|0.692|<0.0001
92361848|NCT00928668|184627114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.825|STANDARD_ERROR_OF_MEAN|0.274|<|0.0001|TWO_SIDED|95.0|1.281|2.369|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 5 mcg minus Placebo|||2.369|1.281|<0.0001
92361849|NCT00928668|184627114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.114|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|1.578|2.65|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 10 mcg minus Placebo|||2.650|1.578|<0.0001
92361850|NCT00928668|184627114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.645|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|2.11|3.181|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Form 20 mcg minus Placebo|||3.181|2.110|<0.0001
92361851|NCT03781479|184627124|OTHER||Mean Difference (Net)|0.792||||0.0083|TWO_SIDED|95.0|0.22|1.37|||Mixed Models Analysis||Results show the LSMeans for the estimated difference between treatments along with a 95% confidence interval for this difference.|A mixed effects liner model was fit with the HFMSE change from baseline (CFB) scores at Day 28 as a response and treatment, sequence, and treatment by sequence as fixed effect terms and patient as a random effect.||1.37|0.22|0.0083
92361852|NCT01728246|184627136|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92361853|NCT01728246|184627137|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92361854|NCT01728246|184627139|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92165697|NCT00762619|184220129|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92361855|NCT01968980|184627220|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-54.5|STANDARD_ERROR_OF_MEAN|2.54|<|0.001|TWO_SIDED|95.0|-59.5|-49.5|||Mixed Model Repeated Measures (MMRM)|||LS-mean difference,associated 95 percent (%) confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-49.5|-59.5|<0.001
92361856|NCT01968980|184627221|SUPERIORITY_OR_OTHER||LS mean difference|-37.6|STANDARD_ERROR_OF_MEAN|1.77|<|0.001|TWO_SIDED|95.0|-41.1|-34.1|||MMRM|||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-34.1|-41.1|<0.001
92361857|NCT01968980|184627222|SUPERIORITY_OR_OTHER||LS mean difference|-51.0|STANDARD_ERROR_OF_MEAN|2.36|<|0.001|TWO_SIDED|95.0|-55.7|-46.4|||MMRM|||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-46.4|-55.7|<0.001
92361858|NCT01968980|184627223|SUPERIORITY_OR_OTHER||LS mean difference|-48.0|STANDARD_ERROR_OF_MEAN|2.44|<|0.001|TWO_SIDED|95.0|-52.8|-43.2|||MMRM|||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-43.2|-52.8|<0.001
92361859|NCT01968980|184627224|SUPERIORITY_OR_OTHER||LS mean difference|-28.6|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-33.9|-23.2|||MMRM|||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-23.2|-33.9|<0.001
92361860|NCT01968980|184627225|SUPERIORITY_OR_OTHER||LS mean difference|7.0|STANDARD_ERROR_OF_MEAN|1.47|<|0.001|TWO_SIDED|95.0|4.1|9.9|||MMRM|||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||9.9|4.1|<0.001
92361861|NCT01968980|184627226|SUPERIORITY_OR_OTHER||LS mean difference|-52.1|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-58.2|-46.0||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-46.0|-58.2|
92361862|NCT01968980|184627226|SUPERIORITY_OR_OTHER||LS mean difference|-48.0|STANDARD_ERROR_OF_MEAN|2.87|||TWO_SIDED|95.0|-53.6|-42.3||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-42.3|-53.6|
92165698|NCT00762619|184220130|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165699|NCT00762619|184220131|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165700|NCT00762619|184220132|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92361863|NCT01968980|184627227|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.8|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|95.0|-40.0|-31.6||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-31.6|-40.0|
92361864|NCT01968980|184627227|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.8|STANDARD_ERROR_OF_MEAN|2.02|||TWO_SIDED|95.0|-35.8|-27.8||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-27.8|-35.8|
92361865|NCT01968980|184627228|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.5|STANDARD_ERROR_OF_MEAN|2.86|||TWO_SIDED|95.0|-54.1|-42.8||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-42.8|-54.1|
92361866|NCT01968980|184627228|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.2|STANDARD_ERROR_OF_MEAN|2.71|||TWO_SIDED|95.0|-47.5|-36.9||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-36.9|-47.5|
92361867|NCT01968980|184627229|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.8|STANDARD_ERROR_OF_MEAN|2.67|||TWO_SIDED|95.0|-52.1|-41.6||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-41.6|-52.1|
92361868|NCT01968980|184627229|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.5|STANDARD_ERROR_OF_MEAN|2.53|||TWO_SIDED|95.0|-45.5|-35.5||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-35.5|-45.5|
92361869|NCT01968980|184627230|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.1|STANDARD_ERROR_OF_MEAN|12.58|||TWO_SIDED|95.0|-59.8|-10.3||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-10.3|-59.8|
92361870|NCT01968980|184627230|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.3|STANDARD_ERROR_OF_MEAN|5.58|||TWO_SIDED|95.0|-26.3|-4.4||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-4.4|-26.3|
92361871|NCT01968980|184627231|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|1.42|||TWO_SIDED|95.0|3.1|8.7||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||8.7|3.1|
92361872|NCT01968980|184627231|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|1.53|||TWO_SIDED|95.0|-0.1|5.9||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||5.9|-0.1|
92361873|NCT01968980|184627232|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|4.22|||TWO_SIDED|95.0|-25.3|-8.7||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-8.7|-25.3|
92361874|NCT01968980|184627232|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|4.9|||TWO_SIDED|95.0|-27.0|-7.8||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-7.8|-27.0|
92402623|NCT04852302|184696264|EQUIVALENCE|We evaluated the same group to determine whether their reported depression was the same, worse, or better at 3-months compared to baseline.|Mean Difference (Net)|-0.3|STANDARD_DEVIATION|3.59||0.752|TWO_SIDED|95.0|-2.29|1.69||The a priori threshold for statistical significance was \< 0.05. We did not adjust for multiple comparisons as this was exploratory.|paired sample t-Test, 2-sided|||||1.69|-2.29|0.752
92276787|NCT01271933|184455239|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|9.26||0.8915|TWO_SIDED|95.0|-17.1|19.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Subjective Latency to Sleep Onset||19.6|-17.1|0.8915
92361875|NCT01968980|184627232|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|5.04|||TWO_SIDED|95.0|-19.4|0.4||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||0.4|-19.4|
92361876|NCT01968980|184627233|SUPERIORITY_OR_OTHER||LS Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|95.0|2.9|7.8||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||7.8|2.9|
92361877|NCT01968980|184627233|SUPERIORITY_OR_OTHER||LS Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|2.5|6.8||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||6.8|2.5|
92361878|NCT01968980|184627233|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|1.22|||TWO_SIDED|95.0|0.5|5.4||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||5.4|0.5|
92361879|NCT01968980|184627234|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|95.0|-2.3|3.6||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||3.6|-2.3|
92361880|NCT01968980|184627234|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|95.0|-1.9|3.2||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||3.2|-1.9|
92361881|NCT01968980|184627234|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|1.39|||TWO_SIDED|95.0|-1.9|3.6||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||3.6|-1.9|
92361882|NCT01968980|184627235|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|4.22|||TWO_SIDED|95.0|-25.3|-8.7||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-8.7|-25.3|
92361883|NCT01968980|184627235|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|4.9|||TWO_SIDED|95.0|-27.0|-7.8||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-7.8|-27.0|
92361884|NCT01968980|184627235|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|5.04|||TWO_SIDED|95.0|-19.4|0.4||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||0.4|-19.4|
92402624|NCT04852302|184696265|EQUIVALENCE|We evaluated the same group to determine whether their reported anxiety via the Death and Dying Distress Scale was the same, worse, or better at 3-months compared to baseline.|Mean Difference (Net)|-4.67|STANDARD_DEVIATION|16.26||0.285|TWO_SIDED|95.0|-13.67|4.34||The a priori threshold for statistical significance was \< 0.05. We did not adjust for multiple comparisons as this was exploratory.|paired sample t-Test, 2-sided|||||4.34|-13.67|0.285
92402625|NCT04852302|184696265|EQUIVALENCE|We evaluated the same group to determine whether their reported anxiety via the Death and Dying Distress Scale was the same, worse, or better at 6-months compared to baseline.|Mean Difference (Net)|-2.2|STANDARD_DEVIATION|17.22||0.628|TWO_SIDED|95.0|-11.74|7.34||The a priori threshold for statistical significance was \< 0.05. We did not adjust for multiple comparisons as this was exploratory.|paired sample t-Test, 2-sided|||||7.34|-11.74|0.628
92402626|NCT01743469|184696282|SUPERIORITY_OR_OTHER|||||||0.142||||||One-sided alpha of 0.1.|Exact binomial test|||The PFS rate was compared with the prespecified threshold (\>20%).||||0.142
92402627|NCT01743469|184696282|SUPERIORITY_OR_OTHER|||||||1||||||One-sided alpha of 0.1.|Exact binomial test|||The PFS rate was compared with the prespecified threshold (\>35%).||||1.000
92402628|NCT01743469|184696282|SUPERIORITY_OR_OTHER|||||||0.8||||||One-sided alpha of 0.1|Exact binomial test|||The PFS rate was compared with the prespecified threshold (\>20%).||||0.800
92402629|NCT01743469|184696282|SUPERIORITY_OR_OTHER|||||||0.63||||||One-sided alpha of 0.1|Exact binomial test|||The PFS rate was compared with the prespecified threshold (\>15%).||||0.630
92402630|NCT01743469|184696283|SUPERIORITY_OR_OTHER|||||||0.5||||||One-sided alpha of 0.1.|Exact binomial test|||The PFS rate was compared with a prespecified threshold (\>20%).||||0.500
92402631|NCT03253796|184696298|SUPERIORITY||Difference in percentage|50.2|||<|0.001|TWO_SIDED|95.0|34.1|63.6|||Miettinen and Nurminen|Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor||||63.6|34.1|<0.001
92402632|NCT03253796|184696298|SUPERIORITY||Difference in percentage|34.4|||<|0.001|TWO_SIDED|95.0|17.0|49.7|||Meittinen and Nurminen|Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor||||49.7|17.0|<0.001
92402633|NCT03253796|184696301|SUPERIORITY||Difference in percentage|9.5|||||TWO_SIDED|95.0|3.3|19.4|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||19.4|3.3|
92402634|NCT03253796|184696301|SUPERIORITY||Difference in percentage|3.2|||||TWO_SIDED|95.0|-2.8|10.9|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||10.9|-2.8|
92402635|NCT03253796|184696303|SUPERIORITY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-5.9|5.8|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||5.8|-5.9|
92402636|NCT03253796|184696303|SUPERIORITY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-5.9|5.8|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||5.8|-5.9|
92402637|NCT03253796|184696305|SUPERIORITY||Difference in percentage|14.7|||||TWO_SIDED|95.0|0.2|29.0|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||29.0|0.2|
92165701|NCT00762619|184220133|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165702|NCT00762619|184220134|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165703|NCT00762619|184220135|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165704|NCT00762619|184220136|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165705|NCT00762619|184220137|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165706|NCT00762619|184220138|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165707|NCT00762619|184220139|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92361885|NCT01968980|184627236|SUPERIORITY_OR_OTHER||LS Mean Difference|-78.8|STANDARD_ERROR_OF_MEAN|3.75|||TWO_SIDED|95.0|-86.2|-71.4||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-71.4|-86.2|
92361886|NCT01968980|184627237|SUPERIORITY_OR_OTHER||LS Mean Difference|-83.2|STANDARD_ERROR_OF_MEAN|4.15|||TWO_SIDED|95.0|-91.3|-75.0||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-75.0|-91.3|
92224103|NCT02171611|184349517|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|158.12|STANDARD_ERROR_OF_MEAN|46.7|||TWO_SIDED|90.0|130.052|192.255|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||192.255|130.052|
92224104|NCT02171611|184349518|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|186.94|STANDARD_ERROR_OF_MEAN|57.7|||TWO_SIDED|90.0|147.659|236.665|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||236.665|147.659|
92224105|NCT02171611|184349518|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|166.59|STANDARD_ERROR_OF_MEAN|54.3|||TWO_SIDED|90.0|133.221|208.326|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||208.326|133.221|
92224106|NCT02171611|184349519|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|181.6|STANDARD_ERROR_OF_MEAN|53.9|||TWO_SIDED|90.0|145.428|226.776|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||226.776|145.428|
92224107|NCT02171611|184349519|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|166.83|STANDARD_ERROR_OF_MEAN|52.6|||TWO_SIDED|90.0|134.25|207.328|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual geometric coefficient variation (gCV).|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||207.328|134.25|
92361887|NCT01968980|184627238|SUPERIORITY_OR_OTHER||LS Mean Difference|-87.0|STANDARD_ERROR_OF_MEAN|4.25|||TWO_SIDED|95.0|-95.4|-78.7||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-78.7|-95.4|
92227194|NCT01738971|184356531|SUPERIORITY_OR_OTHER||relative probability|2.57||||0.006||95.0|1.55|4.27||see above comments regarding analysis taking cluster randomised account into consideration|t-test, 2 sided|||"Cluster randomised study design - statisitical analysis takes this into account. Analaysis was conducted at a cluster level and the proportions in each cluster using effective contraception were compared between groups by 2-sample t tests, weighted by the different number of patients in each cluster.~Comparison of number of women using effective contraception at 6-8 weeks in rapid access group compared to control."||4.27|1.55|0.006
92361888|NCT01968980|184627239|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.8|STANDARD_ERROR_OF_MEAN|2.71|||TWO_SIDED|95.0|-59.2|-48.5||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-48.5|-59.2|
92361889|NCT01968980|184627240|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.8|STANDARD_ERROR_OF_MEAN|1.47|||TWO_SIDED|95.0|-14.7|-8.9||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-8.9|-14.7|
92402638|NCT03253796|184696305|SUPERIORITY||Difference in percentage|14.7|||||TWO_SIDED|95.0|0.2|29.1|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||29.1|0.2|
92402639|NCT03253796|184696307|SUPERIORITY||Difference in percentage|24.9|||||TWO_SIDED|95.0|8.5|40.3|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||40.3|8.5|
92402640|NCT03253796|184696307|SUPERIORITY||Difference in percentage|5.9|||||TWO_SIDED|95.0|-9.9|21.3|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||21.3|-9.9|
92402641|NCT03253796|184696309|SUPERIORITY||Difference in percentage|24.4|||||TWO_SIDED|95.0|9.1|39.0|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||39.0|9.1|
92361890|NCT01968980|184627241|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|2.0|4.9||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||4.9|2.0|
92361891|NCT01968980|184627242|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-2.2|-1.8||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-1.8|-2.2|
92361892|NCT01968980|184627242|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-2.1|-1.6||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-1.6|-2.1|
92361893|NCT01968980|184627242|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-1.8|-1.3||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-1.3|-1.8|
92361894|NCT01968980|184627243|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.5|-0.4||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-0.4|-0.5|
92402642|NCT03253796|184696309|SUPERIORITY||Difference in percentage|22.8|||||TWO_SIDED|95.0|7.3|37.7|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||37.7|7.3|
92402643|NCT03253796|184696313|SUPERIORITY||Difference in percentage|32.9|||<|0.001|TWO_SIDED|95.0|19.2|44.5|||Miettinen and Nurminen|Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor||||44.5|19.2|<0.001
92402644|NCT03253796|184696314|SUPERIORITY||Difference in percentage|15.9||||0.037|TWO_SIDED|95.0|0.9|30.5|||Miettinen and Nurminen|Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor||||30.5|0.9|0.037
92402645|NCT00528112|184696315|SUPERIORITY_OR_OTHER||failure rate|0.009|||||TWO_SIDED|95.0|0.005|0.017||||||Cumulative failure rate (Kaplan-Meier) at 3 years||0.017|0.005|
92402646|NCT00528112|184696315|SUPERIORITY_OR_OTHER||failure rate|0.01||||||95.0|0.005|0.018||||||Cumulative failure rate (Kaplan-Meier) at 3 years||0.018|0.005|
92402647|NCT00528112|184696337|SUPERIORITY_OR_OTHER||failure rate|0.01445|||||TWO_SIDED|95.0|0.00823|0.02531||||||Cumulative failure rate (Kaplan-Meier) at 5 years||0.02531|0.00823|
92402648|NCT02718898|184696353|SUPERIORITY||Odds Ratio (OR)|33.8|||<|0.001|TWO_SIDED|95.0|12.39|92.23|||Regression, Logistic|||||92.23|12.39|<0.001
92402649|NCT02718898|184696354|SUPERIORITY||Odds Ratio (OR)|102.55|||<|0.001|TWO_SIDED|95.0|22.79|461.43|||Regression, Logistic|||||461.43|22.79|<0.001
92402650|NCT02718898|184696355|SUPERIORITY||Odds Ratio (OR)|16.27|||<|0.001|TWO_SIDED|95.0|5.71|46.4|||Regression, Logistic|||||46.40|5.71|<0.001
92402651|NCT02718898|184696356|SUPERIORITY||Odds Ratio (OR)|13.57|||<|0.001|TWO_SIDED|95.0|4.57|40.29|||Regression, Logistic|||||40.29|4.57|<0.001
92402652|NCT02718898|184696357|SUPERIORITY||Odds Ratio (OR)|9.84|||<|0.001|TWO_SIDED|95.0|3.08|31.4|||Regression, Logistic|||||31.40|3.08|<0.001
92227195|NCT02065453|184356608|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The data will be analyzed using linear regression, Kolmogorov-Smirnov test, and chi-square analysis.||||<0.001
92402653|NCT02718898|184696358|SUPERIORITY||Mean Difference (Final Values)|-8.4|STANDARD_ERROR_OF_MEAN|0.86|<|0.001|TWO_SIDED|95.0|-10.1|-6.7|||Mixed Models Analysis|||||-6.7|-10.1|<0.001
92402654|NCT02718898|184696359|SUPERIORITY||Mean Difference (Final Values)|-20.0|STANDARD_ERROR_OF_MEAN|2.15|<|0.001|TWO_SIDED|95.0|-24.3|-15.8|||Mixed Models Analysis|||||-15.8|-24.3|<0.001
92402655|NCT02718898|184696360|SUPERIORITY||Odds Ratio (OR)|13.95|||<|0.001|TWO_SIDED|95.0|6.12|31.8|||Regression, Logistic|||||31.80|6.12|<0.001
92402656|NCT02718898|184696361|SUPERIORITY||Mean Difference (Final Values)|4.506|STANDARD_ERROR_OF_MEAN|1.1339|<|0.001|TWO_SIDED|95.0|2.264|6.748|||ANCOVA|||||6.748|2.264|<0.001
92402657|NCT02718898|184696362|SUPERIORITY||Mean Difference (Final Values)|1.797|STANDARD_ERROR_OF_MEAN|1.0367||0.085|TWO_SIDED|95.0|-0.253|3.847|||ANCOVA|||||3.847|-0.253|0.085
92402658|NCT02718898|184696363|SUPERIORITY||Mean Difference (Final Values)|-28.75|STANDARD_ERROR_OF_MEAN|3.015|<|0.001|TWO_SIDED|95.0|-34.72|-22.78|||Mixed Models Analysis|||Total Score||-22.78|-34.72|<0.001
92402659|NCT02718898|184696363|SUPERIORITY||Mean Difference (Final Values)|-3.81|STANDARD_ERROR_OF_MEAN|0.399|<|0.001|TWO_SIDED|95.0|-4.6|-3.02|||Mixed Models Analysis|||Itch||-3.02|-4.60|<0.001
92402660|NCT02718898|184696363|SUPERIORITY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|0.405|<|0.001|TWO_SIDED|95.0|-4.3|-2.7|||Mixed Models Analysis|||Pain||-2.70|-4.30|<0.001
92402661|NCT02718898|184696363|SUPERIORITY||Mean Difference (Final Values)|-3.85|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-4.66|-3.04|||Mixed Models Analysis|||Discomfort||-3.04|-4.66|<0.001
92402662|NCT02718898|184696363|SUPERIORITY||Mean Difference (Final Values)|-3.23|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-4.04|-2.42|||Mixed Models Analysis|||Stinging||-2.42|-4.04|<0.001
92402663|NCT02718898|184696363|SUPERIORITY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.397|<|0.001|TWO_SIDED|95.0|-3.99|-2.41|||Mixed Models Analysis|||Burning||-2.41|-3.99|<0.001
92402664|NCT02718898|184696363|SUPERIORITY||Mean Difference (Final Values)|-3.81|STANDARD_ERROR_OF_MEAN|0.395|<|0.001|TWO_SIDED|95.0|-4.59|-3.03|||Mixed Models Analysis|||Redness||-3.03|-4.59|<0.001
92402665|NCT02718898|184696363|SUPERIORITY||Mean Difference (Final Values)|-3.78|STANDARD_ERROR_OF_MEAN|0.377|<|0.001|TWO_SIDED|95.0|-4.53|-3.03|||Mixed Models Analysis|||Scaling||-3.03|-4.53|<0.001
92227196|NCT03694392|184356616|OTHER||Hazard Ratio (HR)|0.85|||<|0.05|TWO_SIDED|95.0|0.76|0.94||Adjustment for multiplicity for the secondary outcomes was performed with the use of Holm's adjustment method.|Regression, Cox|Models were adjusted for age, age squared, sex, and race or ethnic group after weighting with stabilized facility-specific propensity scores.|Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 15.3% (5.9%, 23.8%)|||0.94|0.76|<0.05
92361895|NCT01968980|184627243|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.4|-0.4||||||Week 24:LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-0.4|-0.4|
92402666|NCT02718898|184696363|SUPERIORITY||Mean Difference (Final Values)|-3.55|STANDARD_ERROR_OF_MEAN|0.385|<|0.001|TWO_SIDED|95.0|-4.31|-2.79|||Mixed Models Analysis|||Cracking||-2.79|-4.31|<0.001
92402667|NCT02163538|184696365|SUPERIORITY|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
92224108|NCT02171611|184349520|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|182.17|STANDARD_ERROR_OF_MEAN|56.1|||TWO_SIDED|90.0|144.727|229.297|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||229.297|144.727|
92227197|NCT03694392|184356617|OTHER||Hazard Ratio (HR)|0.84|||<|0.05|TWO_SIDED|95.0|0.65|1.09||Adjustment for multiplicity for the secondary outcomes was performed with the use of Holm's adjustment method.|Regression, Cox|Models were adjusted for age, age squared, sex, and race or ethnic group after weighting with stabilized facility-specific propensity scores.|Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 15.9% (-9.2% to 35.2%)|||1.09|0.65|<0.05
92361896|NCT01968980|184627243|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.4|-0.3||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-0.3|-0.4|
92361897|NCT01968980|184627244|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|51.8|||||TWO_SIDED|95.0|25.24|106.1||||||Week 12: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||106.10|25.24|
92402668|NCT02163538|184696366|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
92402669|NCT02163538|184696367|SUPERIORITY|||||||0.582|||||||Chi-squared|||||||0.582
92402670|NCT02163538|184696368|SUPERIORITY|||||||0.0031|||||||Chi-squared|||||||0.0031
92402671|NCT02163538|184696369|SUPERIORITY|||||||0.0281|||||||Wilcoxon (Mann-Whitney)|||||||0.0281
92402672|NCT02163538|184696370|SUPERIORITY|||||||0.0821|||||||Wilcoxon (Mann-Whitney)|||||||.0821
92402673|NCT01345240|184696371|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the difference in percent seroprotection below 5% between recipients of licensed hepatitis B vaccine (Engerix-B) and recipients of RTS,S/AS01E vaccine.|Difference in percent seroprotection|-3.95|||||TWO_SIDED|95.0|-7.12|-2.16||||||Non-inferiority of the immune response to the hepatitis B antigen induced by RTS,S/AS01E vaccine versus a licensed hepatitis B vaccine.||-2.16|-7.12|
92402674|NCT01345240|184696374|EQUIVALENCE|Criteria for consistency: one month post Dose 3 of RTS,S/AS01E, the two-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between all pairs of lots are within \[0.5, 2\].|GMC ratio|0.91|||||TWO_SIDED|95.0|0.69|1.2|||ANOVA|||To demonstrate the lot-to-lot consistency in terms of anti-HBs immunogenicity between three commercial lots of the RTS,S/AS01E candidate malaria vaccine.||1.20|0.69|
92402675|NCT01345240|184696374|EQUIVALENCE|Criteria for consistency: one month post Dose 3 of RTS,S/AS01E, the two-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between all pairs of lots are within \[0.5, 2\].|GMC ratio|1.0|||||TWO_SIDED|95.0|0.76|1.32|||ANOVA|||To demonstrate the lot-to-lot consistency in terms of anti-HBs immunogenicity between three commercial lots of the RTS,S/AS01E candidate malaria vaccine.||1.32|0.76|
92402676|NCT01345240|184696374|EQUIVALENCE|Criteria for consistency: one month post Dose 3 of RTS,S/AS01E, the two-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between all pairs of lots are within \[0.5, 2\].|GMC ratio|1.1|||||TWO_SIDED|95.0|0.84|1.45|||ANOVA|||To demonstrate the lot-to-lot consistency in terms of anti-HBs immunogenicity between three commercial lots of the RTS,S/AS01E candidate malaria vaccine.||1.45|0.84|
92402677|NCT01345240|184696382|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.15|||||TWO_SIDED|95.0|0.95|1.39|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 1 responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.39|0.95|
92402678|NCT01345240|184696382|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.2|||||TWO_SIDED|95.0|0.97|1.48|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 4 responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.48|0.97|
92402679|NCT01345240|184696382|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.27|||||TWO_SIDED|95.0|1.06|1.52|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 5 responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.52|1.06|
92402680|NCT01345240|184696382|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.17|||||TWO_SIDED|95.0|0.83|1.65|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 6B responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.65|0.83|
92361898|NCT01968980|184627244|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|66.9|||||TWO_SIDED|95.0|30.32|147.43||||||Week 24: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||147.43|30.32|
92361899|NCT01968980|184627244|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|22.8|||||TWO_SIDED|95.0|11.85|44.01||||||Week 52: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||44.01|11.85|
92361900|NCT01968980|184627245|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|200.8|||||TWO_SIDED|95.0|47.16|854.6||||||Week 12: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||854.60|47.16|
92361901|NCT01968980|184627245|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|228.0|||||TWO_SIDED|95.0|51.95|1000.39||||||Week 24: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||1000.39|51.95|
92361902|NCT01968980|184627245|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|259.9|||||TWO_SIDED|95.0|34.87|1937.06||||||Week 52: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||1937.06|34.87|
92361903|NCT03189719|184627249|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.43|0.75|||Stratified Log-Rank|||OS in ESCC PD-L1 CPS ≥10 participants of the pembrolizumab + SOC arm was compared to OS in ESCC PD-L1 CPS ≥10 participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||0.75|0.43|<0.0001
92402681|NCT01345240|184696382|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.12|||||TWO_SIDED|95.0|0.94|1.33|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 7F responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.33|0.94|
92402682|NCT01345240|184696382|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.32|||||TWO_SIDED|95.0|1.08|1.63|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 9V responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.63|1.08|
92402683|NCT01345240|184696382|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|0.99|||||TWO_SIDED|95.0|0.77|1.27|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 14 responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.27|0.77|
92402684|NCT01345240|184696382|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.81|||||TWO_SIDED|95.0|1.38|2.38|||ANOVA|||To demonstrate the non-inferiority of antibody against 18C responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||2.38|1.38|
92402685|NCT01345240|184696382|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.21|||||TWO_SIDED|95.0|0.89|1.65|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 19F responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.65|0.89|
92224109|NCT02171611|184349520|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|160.74|STANDARD_ERROR_OF_MEAN|52.0|||TWO_SIDED|90.0|129.633|199.306|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||199.306|129.633|
92361904|NCT03189719|184627250|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0006|TWO_SIDED|95.0|0.6|0.88|||Stratified Log-Rank|||OS in ESCC participants of the pembrolizumab + SOC arm was compared to OS in ESCC participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||0.88|0.60|0.0006
92361905|NCT03189719|184627251|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.49|0.78|||Stratified Log-Rank|||OS in PD-L1 CPS ≥10 participants of the pembrolizumab + SOC arm was compared to OS in PD-L1 CPS ≥10 participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||0.78|0.49|<0.0001
92361906|NCT03189719|184627252|SUPERIORITY||Hazard Ratio (HR)|0.73|||<|0.0001|TWO_SIDED|95.0|0.62|0.86|||Stratified Log-Rank|||OS in all participants of the pembrolizumab + SOC arm was compared to OS in all participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World), tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma), and ECOG performance status (0 versus 1).||0.86|0.62|<0.0001
92361907|NCT03189719|184627253|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.54|0.78|||Stratified Log-Rank|||PFS in ESCC participants of the pembrolizumab + SOC arm was compared to PFS in ESCC participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||0.78|0.54|<0.0001
92402686|NCT01345240|184696382|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.12|||||TWO_SIDED|95.0|0.81|1.55|||ANOVA|||To demonstrate the non-inferiority of antibody against 23F responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.55|0.81|
92402687|NCT01345240|184696388|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of anti-PT, anti-FHA, anti-PRN antibody concentrations, is below a limit of 2 for the DTPa/Hib vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.08|||||TWO_SIDED|95.0|0.97|1.2|||ANOVA|||To demonstrate the non-inferiority of antibody response to the acellular B pertussis antigen, pertussis toxoid, (PT) of the DTPa/Hib vaccine when co-administered with RTS,S/AS01E as part of an EPI regimen.||1.20|0.97|
92402688|NCT01345240|184696388|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of anti-PT, anti-FHA, anti-PRN antibody concentrations, is below a limit of 2 for the DTPa/Hib vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.08|||||TWO_SIDED|95.0|0.97|1.21|||ANOVA|||To demonstrate the non-inferiority of antibody response to the acellular B pertussis antigen, filamentous haemagglutinin (FHA), of the DTPa/Hib vaccine when co-administered with RTS,S/AS01E as part of an EPI regimen.||1.21|0.97|
92402689|NCT01345240|184696388|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of anti-PT, anti-FHA, anti-PRN antibody concentrations, is below a limit of 2 for the DTPa/Hib vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.1|||||TWO_SIDED|95.0|0.98|1.22|||ANOVA|||To demonstrate the non-inferiority of antibody response to the acellular B pertussis antigen, pertactin (anti-PRN), of the DTPa/Hib vaccine when co-administered with RTS,S/AS01E as part of an EPI regimen.||1.22|0.98|
92402690|NCT01345240|184696389|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 2, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the geometric mean concentrations (GMC) ratios of rotavirus antibodies (IgA) concentrations is below 2 for the rotavirus vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.11|||||TWO_SIDED|95.0|0.76|1.61|||ANOVA|||To demonstrate the non-inferiority of antibody response to the rotavirus vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen||1.61|0.76|
92402691|NCT00617734|184696416|SUPERIORITY_OR_OTHER|||||||0.0667|||||||Log Rank|||||||0.0667
92402692|NCT00617734|184696417|SUPERIORITY_OR_OTHER|||||||0.1935|||||||Fisher Exact|||||||0.1935
92402693|NCT00617734|184696419|SUPERIORITY_OR_OTHER|||||||0.7455|||||||Log Rank|||||||0.7455
92402694|NCT05560425|184696424|EQUIVALENCE|"The equivalence margin is a range of the compliance score for which the independent training of skills in each group is close enough to be considered equivalent."|Mean Difference (Final Values)|1.29|STANDARD_ERROR_OF_MEAN|3.45|<|0.05|TWO_SIDED|95.0|-6.22|8.79|||t-test, 1 sided|degrees of freedom = 12||Null hypothesis: Compliance with independent training of skills is not equivalent between groups.||8.79|-6.22|<0.05
92402695|NCT03341299|184696466|SUPERIORITY||Ratio of geometric least square means|0.991||||0.7734|TWO_SIDED|95.0|0.932|1.05|||Mixed Models Analysis|||||1.05|0.932|0.7734
92402696|NCT03341299|184696467|SUPERIORITY||difference in LS means|-14.5||||0.719|TWO_SIDED|95.0|-94.38|65.38|||Mixed Models Analysis|||||65.38|-94.38|0.7190
92402697|NCT04905134|184696518|OTHER|||||||0.04|||||||Fisher Exact|||Flexible scope compared with the SOC scope||||0.04
92402698|NCT03137992|184696538|EQUIVALENCE|Bioequivalence was declared if the 90% CI was entirely contained within the bioequivalence interval, 0.80 to 1.25.|Least Squared Mean Ratio|0.9369|||||TWO_SIDED|90.0|0.834|1.047|||||Fieller's formula was applied to calculate the 90% confidence interval (CI) for the Lupin Tiotropium and Spiriva Handihaler LS mean ratio.|A blinded interim analysis was performed after 241 subjects had been randomized with measurable AUC data, which estimated 238 patients would be needed to demonstrate BE with 90% power. Therefore, it was planned that approximately 378 patients would be randomized to allow for a potential 30% loss/withdrawal from the PP population.||1.047|0.834|
92402699|NCT03137992|184696539|SUPERIORITY||Least Squared Mean Difference|3.29|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|2.9386|3.646||Efficacy of the Test (T) product was demonstrated if the T was shown to be statistically superior to Placebo (p\<0.05 \[two-tailed\]).Outcome variable was Difference in Baseline adjusted FEV1 AUC0-24h.|Mixed Models Analysis|Mixed model repeated measures analysis consisted of effects of treatment, period, and sequence.||||3.646|2.9386|<0.001
92402700|NCT03137992|184696539|SUPERIORITY||Least Squared Mean Difference|3.43|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|3.0718|3.7797||Study sensitivity was demonstrated if the Reference (R) product was shown to be statistically superior to Placebo (P) (p \<0.05 \[two-tailed\]). Outcome variable was Difference in Baseline adjusted FEV1 AUC0-24h.|Mixed Models Analysis|Mixed model repeated measures analysis consisted of effects of treatment, period, and sequence.||||3.7797|3.0718|<0.001
92402701|NCT05737069|184696579|EQUIVALENCE|The two products were considered to be bioequivalent if 90 percent (%) confidence intervals (CIs) for the geometric mean ratio (GMR) (Test/Reference) for AUC(0-t) were contained within the acceptance interval of 0.8 to 1.25.|Geometric Mean Ratio|1.0008|||||TWO_SIDED|90.0|0.9698|1.0327||||||||1.0327|0.9698|
92227198|NCT03694392|184356618|OTHER||Hazard Ratio (HR)|0.83|||<|0.05|TWO_SIDED|95.0|0.66|1.06||Adjustment for multiplicity for the secondary outcomes was performed with the use of Holm's adjustment method.|Regression, Cox|Models were adjusted for age, age squared, sex, and race or ethnic group after weighting with stabilized facility-specific propensity scores.|Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 16.7% (-5.6% to 34.4%)|||1.06|0.66|<0.05
92165708|NCT00762619|184220140|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92361908|NCT03189719|184627254|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.41|0.65|||Stratified Log-Rank|||PFS in PD-L1 CPS ≥10 participants of the pembrolizumab + SOC arm was compared to PFS in PD-L1 CPS ≥10 participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||0.65|0.41|<0.0001
92361909|NCT03189719|184627255|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.55|0.76|||Stratified Log-Rank|||PFS in all participants of the pembrolizumab + SOC arm was compared to PFS in all participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World), tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma), and ECOG performance status (0 versus 1).||0.76|0.55|<0.0001
92361910|NCT03189719|184627256|SUPERIORITY||Difference in Percentage|15.8|||<|0.0001|TWO_SIDED|95.0|9.0|22.5|||One-sided p-value|||ORR in all participants of the pembrolizumab + SOC arm was compared to ORR in all participants of the placebo + SOC arm based on the Miettinen \& Nurminen method stratified by geographic region (Asia versus Rest of the World), tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma), and ECOG performance status (0 versus 1).||22.5|9.0|<0.0001
92361911|NCT03189719|184627257|OTHER||Difference in Percentage|22.8|||<|0.0001|TWO_SIDED|95.0|11.6|33.4|||One-sided p-value|||ORR in ESCC PD-L1 CPS ≥10 participants of the pembrolizumab + SOC arm was compared to ORR in ESCC PD-L1 CPS ≥10 participants of the placebo + SOC arm based on the Miettinen \& Nurminen method stratified by geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||33.4|11.6|<0.0001
92361912|NCT03189719|184627258|OTHER||Difference in Percentage|12.8||||0.0009|TWO_SIDED|95.0|4.7|20.7|||One-sided p-value|||ORR in ESCC participants of the pembrolizumab + SOC arm was compared to ORR in ESCC participants of the placebo + SOC arm based on the Miettinen \& Nurminen method stratified by geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||20.7|4.7|0.0009
92361913|NCT03189719|184627259|OTHER||Difference in Percentage|24.0|||<|0.0001|TWO_SIDED|95.0|14.3|33.2|||One-sided p-value|||ORR in PD-L1 CPS ≥10 participants of the pembrolizumab + SOC arm was compared to ORR in PD-L1 CPS ≥10 participants of the placebo + SOC arm based on the Miettinen \& Nurminen method stratified by geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||33.2|14.3|<0.0001
92361914|NCT03189719|184627266|OTHER||Difference in LS Means|-0.1||||0.953|TWO_SIDED|95.0|-3.4|3.2|||constrained Longitudinal Data Analysis|||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between treatment arms based on a constrained longitudinal data analysis (cLDA) model with the EORTC-QLQ-C30 GHS/QoL scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma) and ECOG performance status (0 versus 1).||3.20|-3.40|0.9530
92402702|NCT05737069|184696580|EQUIVALENCE|The two products were considered to be bioequivalent if 90% CIs for the GMR (Test/Reference) for AUC (0-inf) were contained within the acceptance interval of 0.8 to 1.25.|Geometric Mean Ratio|1.0023|||||TWO_SIDED|90.0|0.971|1.0346||||||||1.0346|0.9710|
92402703|NCT05737069|184696581|EQUIVALENCE|The two products were considered to be bioequivalent if 90% CIs for the GMR (Test/Reference) for Cmax were contained within the acceptance interval of 0.8 to 1.25.|Geometric Mean Ratio|0.9825|||||TWO_SIDED|90.0|0.9383|1.0288||||||||1.0288|0.9383|
92402704|NCT05737069|184696582|EQUIVALENCE|The two products were considered to be bioequivalent if 90% CIs for the GMR (Test/Reference) for AUC(0-t) were contained within the acceptance interval of 0.8 to 1.25.|Geometric Mean Ratio|0.9916|||||TWO_SIDED|90.0|0.9755|1.0081||||||||1.0081|0.9755|
92402705|NCT05737069|184696583|EQUIVALENCE|The two products were considered to be bioequivalent if 90% CIs for the GMR (Test/Reference) for AUC (0-inf) were contained within the acceptance interval of 0.8 to 1.25.|Geometric Mean Ratio|0.9776|||||TWO_SIDED|90.0|0.9432|1.0133||||||||1.0133|0.9432|
92402706|NCT05737069|184696584|EQUIVALENCE|The two products were considered to be bioequivalent if 90% CIs for the GMR (Test/Reference) for Cmax were contained within the interval of 0.8 to 1.25.|Geometric Mean Ratio|0.9982|||||TWO_SIDED|90.0|0.9431|1.0567||||||||1.0567|0.9431|
92402707|NCT05010707|184696604|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||Time x treatment (month 0, and 1 month)||||0.005
92165709|NCT00762619|184220141|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165710|NCT00762619|184220142|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165711|NCT00762619|184220143|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92276788|NCT01271933|184455240|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.41||0.4571|TWO_SIDED|95.0|-0.5|1.1||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||1.1|-0.5|0.4571
92361915|NCT03189719|184627267|OTHER||Difference in LS Means|-1.95||||0.5053|TWO_SIDED|95.0|-7.72|3.82|||constrained Longitudinal Data Analysis|||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between treatment arms based on a cLDA model with the EORTC-QLQ-C30 GHS/QoL scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||3.82|-7.72|0.5053
92361916|NCT03189719|184627268|OTHER||Difference in LS Means|-0.06||||0.9742|TWO_SIDED|95.0|-3.93|3.81|||constrained Longitudinal Data Analysis|||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between treatment arms based on a cLDA model with the EORTC-QLQ-C30 GHS/QoL scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||3.81|-3.93|0.9742
92402708|NCT05010707|184696604|SUPERIORITY||Mean Difference (Final Values)|-225.3||||0.02|TWO_SIDED|95.0|-421.71|-28.79|||Mixed Models Analysis|||||-28.79|-421.71|0.02
92402709|NCT05010707|184696604|SUPERIORITY||Mean Difference (Final Values)|-250.6||||0.009|TWO_SIDED|95.0|-447.1|-54.19|||Mixed Models Analysis|||||-54.19|-447.10|0.009
92224110|NCT02171611|184349521|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|182.25|STANDARD_ERROR_OF_MEAN|55.7|||TWO_SIDED|90.0|144.993|229.075|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||229.075|144.993|
92276789|NCT01271933|184455241|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3779|TWO_SIDED|95.0|-0.2|0.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.6|-0.2|0.3779
92361917|NCT03189719|184627269|OTHER||Difference in LS Means|-1.77||||0.481|TWO_SIDED|95.0|-6.71|3.17|||constrained Longitudinal Data Analysis|||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between treatment arms based on a cLDA model with the EORTC-QLQ-C30 GHS/QoL scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||3.17|-6.71|0.4810
92402710|NCT05010707|184696605|SUPERIORITY|||||||0.951|||||||Mixed Models Analysis|||Time x treatment (month 0 and month 1)||||0.951
92361918|NCT03189719|184627270|OTHER||Difference in LS Means|-5.54||||0.0436|TWO_SIDED|95.0|-10.93|-0.16|||constrained Longitudinal Data Analysis|||DYSPHAGIA: Change from baseline to Week 18 in EORTC QLQ-OES18 Dysphagia subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma) and ECOG performance status (0 versus 1).||-0.16|-10.93|0.0436
92361919|NCT03189719|184627270|OTHER||Difference in LS Means|-2.94||||0.0487|TWO_SIDED|95.0|-5.86|-0.02|||constrained Longitudinal Data Analysis|||PAIN: Change from baseline to Week 18 in EORTC QLQ-OES18 Pain subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma) and ECOG performance status (0 versus 1).||-0.02|-5.86|0.0487
92361920|NCT03189719|184627270|OTHER||Difference in LS Means|-0.93||||0.5932|TWO_SIDED|95.0|-4.36|2.49|||constrained Longitudinal Data Analysis|||REFLUX: Change from baseline to Week 18 in EORTC QLQ-OES18 Reflux subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma) and ECOG performance status (0 versus 1).||2.49|-4.36|0.5932
92361921|NCT03189719|184627271|OTHER||Difference in LS Means|-8.68||||0.0564|TWO_SIDED|95.0|-17.59|0.24|||constrained Longitudinal Data Analysis|||DYSPHAGIA: Change from baseline to Week 18 in EORTC QLQ-OES18 Dysphagia subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||0.24|-17.59|0.0564
92361922|NCT03189719|184627271|OTHER||Difference in LS Means|-2.13||||0.3813|TWO_SIDED|95.0|-6.93|2.66|||constrained Longitudinal Data Analysis|||PAIN: Change from baseline to Week 18 in EORTC QLQ-OES18 Pain subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||2.66|-6.93|0.3813
92361923|NCT03189719|184627271|OTHER||Difference in LS Means|-5.11||||0.0816|TWO_SIDED|95.0|-10.86|0.65|||constrained Longitudinal Data Analysis|||REFLUX: Change from baseline to Week 18 in EORTC QLQ-OES18 Reflux subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||0.65|-10.86|0.0816
92361924|NCT03189719|184627272|OTHER||Difference in LS Means|-4.49||||0.1632|TWO_SIDED|95.0|-10.81|1.83|||constrained Longitudinal Data Analysis|||DYSPHAGIA: Change from baseline to Week 18 in EORTC QLQ-OES18 Dysphagia subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||1.83|-10.81|0.1632
92361925|NCT03189719|184627272|OTHER||Difference in LS Means|-1.71||||0.3259|TWO_SIDED|95.0|-5.12|1.71|||constrained Longitudinal Data Analysis|||PAIN: Change from baseline to Week 18 in EORTC QLQ-OES18 Pain subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||1.71|-5.12|0.3259
92402711|NCT05010707|184696605|SUPERIORITY||Mean Difference (Final Values)|-1.6||||1|TWO_SIDED|95.0|-29.6|26.4|||Mixed Models Analysis||The mean difference is computed using the model based estimates rather than from the raw data.|||26.4|-29.6|1
92402712|NCT05010707|184696605|SUPERIORITY||Mean Difference (Final Values)|-7.1||||1|TWO_SIDED|95.0|-35.1|20.8|||Mixed Models Analysis||The mean difference is computed using the model based estimates rather than from the raw data.|||20.8|-35.1|1
92402713|NCT05010707|184696606|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||Time x treatment (month 0 and month 1)||||0.004
92402714|NCT05010707|184696606|SUPERIORITY||Mean Difference (Final Values)|-280.4||||0.005|TWO_SIDED|95.0|-487.3|-73.5|||Mixed Models Analysis|||||-73.5|-487.3|0.005
92402715|NCT05010707|184696606|SUPERIORITY||Mean Difference (Final Values)|-204.1||||0.054|TWO_SIDED|95.0|-411.1|2.8|||Mixed Models Analysis|||||2.8|-411.1|0.054
92402716|NCT05565742|184696626|SUPERIORITY||LS Mean difference (Final Values)|-40.8|STANDARD_ERROR_OF_MEAN|8.82|<|0.001|TWO_SIDED|95.0|-55.8|-20.6|||Mixed Models Analysis|||||-20.6|-55.8|<0.001
92402717|NCT05565742|184696626|SUPERIORITY||LS Mean difference (Final Values)|-75.2|STANDARD_ERROR_OF_MEAN|3.01|<|0.001|TWO_SIDED|95.0|-80.4|-68.5|||Mixed Models Analysis|||||-68.5|-80.4|<0.001
92361926|NCT03189719|184627272|OTHER||Difference in LS Means|-1.5||||0.4598|TWO_SIDED|95.0|-5.47|2.48|||constrained Longitudinal Data Analysis|||REFLUX: Change from baseline to Week 18 in EORTC QLQ-OES18 Reflux subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||2.48|-5.47|0.4598
92361927|NCT03189719|184627273|OTHER||Difference in LS Means|-8.2||||0.0317|TWO_SIDED|95.0|-15.67|-0.73|||constrained Longitudinal Data Analysis|||DYSPHAGIA: Change from baseline to Week 18 in EORTC QLQ-OES18 Dysphagia subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||-0.73|-15.67|0.0317
92361928|NCT03189719|184627273|OTHER||Difference in LS Means|-3.57||||0.0945|TWO_SIDED|95.0|-7.77|0.62|||constrained Longitudinal Data Analysis|||PAIN: Change from baseline to Week 18 in EORTC QLQ-OES18 Pain subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||0.62|-7.77|0.0945
92361929|NCT03189719|184627273|OTHER||Difference in LS Means|-4.76||||0.0555|TWO_SIDED|95.0|-9.64|0.11|||constrained Longitudinal Data Analysis|||REFLUX: Change from baseline to Week 18 in EORTC QLQ-OES18 Reflux subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||0.11|-9.64|0.0555
92361930|NCT05211596|184627285|SUPERIORITY||Mean Difference (Net)|0.43||||0.008|TWO_SIDED||||||t-test, 2 sided|||||||0.008
92361931|NCT05211596|184627286|SUPERIORITY||Mean Difference (Net)|0.22||||0.264|TWO_SIDED||||||t-test, 2 sided|||||||0.264
92361932|NCT05211596|184627287|SUPERIORITY||Mean Difference (Net)|849.35||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
92361933|NCT05211596|184627288|SUPERIORITY||Mean Difference (Net)|777.42||||0.054|TWO_SIDED||||||t-test, 2 sided|||||||0.054
92361934|NCT05211596|184627289|SUPERIORITY||Mean Difference (Net)|0.04|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92361935|NCT05211596|184627290|SUPERIORITY||Mean Difference (Net)|0.04|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92361936|NCT02293551|184627291|SUPERIORITY_OR_OTHER_LEGACY||Geometric Ratio of Least Squares Mean|1.04||||0.2071|TWO_SIDED|90.0|0.988|1.1|||Log Rank|Log (PK) model included treatment, period, and sequence group as fixed effects and participant as a random effect.||||1.10|0.988|0.2071
92402718|NCT05565742|184696626|SUPERIORITY||LS Mean difference (Final Values)|-93.9|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|-95.1|-92.5|||Mixed Models Analysis|||||-92.5|-95.1|<0.001
92165712|NCT00762619|184220144|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165713|NCT00762619|184220145|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92361937|NCT02293551|184627291|SUPERIORITY_OR_OTHER_LEGACY||Geometric Ratio of Least Square Means|1.11||||0.0005|TWO_SIDED|90.0|1.06|1.17|||Log Rank|Log (PK) model included treatment, period, and sequence group as fixed effects and participant as a random effect.||||1.17|1.06|0.0005
92361938|NCT02293551|184627291|SUPERIORITY_OR_OTHER_LEGACY||Geometric of Ratio Least Square Means|1.08||||0.0123|TWO_SIDED|90.0|1.03|1.13|||Log Rank|Log (PK) model included treatment, period, and sequence group as fixed effects and participant as a random effect.||||1.13|1.03|0.0123
92361939|NCT02293551|184627291|SUPERIORITY_OR_OTHER_LEGACY||Geometric Ratio of Least Square Means|1.07||||0.0331|TWO_SIDED|90.0|1.02|1.13|||Log Rank|Log (PK) model included treatment, period, and sequence group as fixed effects and participant as a random effect.||||1.13|1.02|0.0331
92361940|NCT02293551|184627291|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.11|||||TWO_SIDED|90.0|1.06|1.16|||||Dose proportionality and the degree of dose proportionality was assessed by fitting the power model versus dose. Estimated ratio of dose-normalized geometric means of PK parameters between the highest and lowest doses assessed dose proportionality.|||1.16|1.06|
92361941|NCT04532749|184627292|SUPERIORITY||Least square (LS) mean difference|-1.2|STANDARD_ERROR_OF_MEAN|1.43|=|0.411|TWO_SIDED|95.0|-4.0|1.64|||Mixed Model Repeated Measures (MMRM)|||||1.64|-4.00|=0.411
92361942|NCT04532749|184627293|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|1.27|=|0.473|TWO_SIDED|95.0|-3.41|1.59|||MMRM model|||In accordance with protocol predefined testing sequence, statistical significance of the primary endpoint was required before testing the first secondary endpoint (MADRS-WOSI) and thus, a formal statistical testing was not performed.||1.59|-3.41|=0.473
92361943|NCT04532749|184627294|SUPERIORITY||LS mean difference|-2.0|STANDARD_ERROR_OF_MEAN|1.45|=|0.167|TWO_SIDED|95.0|-4.87|0.85|||MMRM Model|||In accordance with protocol predefined testing sequence, statistical significance of the primary endpoint was required before testing the second secondary endpoint (PROMIS-SD; Short Form 8a) and thus, a formal statistical testing was not performed.||0.85|-4.87|=0.167
92361944|NCT05395338|184627298|OTHER|cox proportional hazards models with stratification by matching pairs|Hazard Ratio (HR)|0.9||||0.183|TWO_SIDED|95.0|0.78|1.05|||Regression, Cox||rt-PA/non reperfusion|||1.05|0.78|0.183
92361945|NCT05395338|184627299|OTHER|Conditional logistic regression models with stratification by matching pairs.|Odds Ratio (OR)|1.25|||<|0.001|TWO_SIDED|95.0|1.12|1.39|||Regression, Logistic|||||1.39|1.12|<0.001
92361946|NCT05395338|184627300|OTHER|Conditional logistic regression models with stratification by matching pairs.|Odds Ratio (OR)|1.23|||<|0.001|TWO_SIDED|95.0|1.11|1.36|||Regression, Logistic||rt-PA/non reperfusion|||1.36|1.11|<0.001
92361947|NCT05395338|184627301|OTHER|Conditional logistic regression models with stratification by matching pairs|Odds Ratio (OR)|0.73|||<|0.001|TWO_SIDED|95.0|0.64|0.83|||Regression, Logistic||rt-PA/non reperfusion|||0.83|0.64|<0.001
92402719|NCT05565742|184696627|SUPERIORITY||LS Mean difference (Final Values)|-38.9|STANDARD_ERROR_OF_MEAN|9.43||0.002|TWO_SIDED|95.0|-54.9|-17.2|||Mixed Models Analysis|||||-17.2|-54.9|0.002
92361948|NCT05395338|184627302|OTHER|Ordinal logistic regression models|Odds Ratio (OR)|0.85|||<|0.001|TWO_SIDED|95.0|0.77|0.93|||Regression, Logistic||rt-PA/non reperfusion|||0.93|0.77|<0.001
92402720|NCT05565742|184696627|SUPERIORITY||LS Mean difference (Final Values)|-77.4|STANDARD_ERROR_OF_MEAN|2.83|<|0.001|TWO_SIDED|95.0|-82.4|-71.1|||Mixed Models Analysis|||||-71.1|-82.4|<0.001
92165714|NCT00762619|184220146|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165715|NCT00762619|184220147|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165716|NCT00762619|184220148|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165717|NCT00762619|184220149|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165718|NCT00762619|184220150|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165719|NCT00762619|184220151|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92361949|NCT03235050|184627317|SUPERIORITY||LS Mean Difference|-0.83|||<|0.001|TWO_SIDED|95.0|-1.06|-0.59|||ANCOVA|||||-0.59|-1.06|<0.001
92361950|NCT03235050|184627317|SUPERIORITY||LS Mean Difference|-1.04|||<|0.001|TWO_SIDED|95.0|-1.23|-0.85|||ANCOVA|||||-0.85|-1.23|<0.001
92361951|NCT03235050|184627317|SUPERIORITY||LS Mean Difference|-0.91|||<|0.001|TWO_SIDED|95.0|-1.11|-0.72|||ANCOVA|||||-0.72|-1.11|<0.001
92361952|NCT03235050|184627318|SUPERIORITY||LS Mean Difference|-2.0|||<|0.001|TWO_SIDED|95.0|-3.08|-0.91|||ANCOVA|||||-0.91|-3.08|<0.001
92361953|NCT03235050|184627318|SUPERIORITY||LS Mean Difference|-2.76|||<|0.001|TWO_SIDED|95.0|-3.65|-1.87|||ANCOVA|||||-1.87|-3.65|<0.001
92361954|NCT03235050|184627318|SUPERIORITY||LS Mean Difference|-3.62|||<|0.001|TWO_SIDED|95.0|-4.51|-2.73|||ANCOVA|||||-2.73|-4.51|<0.001
92361955|NCT03235050|184627319|SUPERIORITY||LS Mean Difference|-0.66|||<|0.001|TWO_SIDED|95.0|-0.92|-0.4|||ANCOVA|||Week 26||-0.40|-0.92|<0.001
92361956|NCT03235050|184627319|SUPERIORITY||LS Mean Difference|-0.81|||<|0.001|TWO_SIDED|95.0|-1.03|-0.6|||ANCOVA|||Week 26||-0.60|-1.03|<0.001
92361957|NCT03235050|184627319|SUPERIORITY||LS Mean Difference|-0.72|||<|0.001|TWO_SIDED|95.0|-0.94|-0.51|||ANCOVA|||Week 26||-0.51|-0.94|<0.001
92361958|NCT03235050|184627319|SUPERIORITY||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.8|-0.24|||ANCOVA|||Week 54||-0.24|-0.80|<0.001
92361959|NCT03235050|184627319|SUPERIORITY||LS Mean Difference|-0.63|||<|0.001|TWO_SIDED|95.0|-0.86|-0.39|||ANCOVA|||Week 54||-0.39|-0.86|<0.001
92361960|NCT03235050|184627319|SUPERIORITY||LS Mean Difference|-0.57|||<|0.001|TWO_SIDED|95.0|-0.8|-0.34|||ANCOVA|||Week 54||-0.34|-0.80|<0.001
92361961|NCT03235050|184627320|SUPERIORITY||Odds Ratio, log|6.67|||<|0.001|TWO_SIDED|92.0|3.34|13.3|||Regression, Logistic|||Week 14||13.30|3.34|<0.001
92361962|NCT03235050|184627320|SUPERIORITY||Odds Ratio, log|9.95|||<|0.001|TWO_SIDED|95.0|5.39|18.36|||Regression, Logistic|||Week 14||18.36|5.39|<0.001
92361963|NCT03235050|184627320|SUPERIORITY||Odds Ratio, log|8.52|||<|0.001|TWO_SIDED|95.0|4.65|15.61|||Regression, Logistic|||Week 14||15.61|4.65|<0.001
92361964|NCT03235050|184627320|SUPERIORITY||Odds Ratio, log|3.74|||<|0.001|TWO_SIDED|95.0|1.98|7.03|||Regression, Logistic|||Week 26||7.03|1.98|<0.001
92361965|NCT03235050|184627320|SUPERIORITY||Odds Ratio, log|5.4|||<|0.001|TWO_SIDED|95.0|3.13|9.34|||Regression, Logistic|||Week 26||9.34|3.13|<0.001
92361966|NCT03235050|184627320|SUPERIORITY||Odds Ratio, log|5.2|||<|0.001|TWO_SIDED|95.0|3.02|8.97|||Regression, Logistic|||Week 26||8.97|3.02|<0.001
92361967|NCT03235050|184627320|SUPERIORITY||Odds Ratio, log|4.94|||<|0.001|TWO_SIDED|95.0|2.61|9.36|||Regression, Logistic|||Week 54||9.36|2.61|<0.001
92361968|NCT03235050|184627320|SUPERIORITY||Odds Ratio, log|4.55|||<|0.001|TWO_SIDED|95.0|2.62|7.89|||Regression, Logistic|||Week 54||7.89|2.62|<0.001
92361969|NCT03235050|184627320|SUPERIORITY||Odds Ratio, log|4.34|||<|0.001|TWO_SIDED|95.0|2.51|7.51|||Regression, Logistic|||Week 54||7.51|2.51|<0.001
92361970|NCT03235050|184627321|SUPERIORITY||LS Mean Difference|-2.09|||<|0.001|TWO_SIDED|95.0|-3.32|-0.85|||ANCOVA|||Week 26||-0.85|-3.32|<0.001
92361971|NCT03235050|184627321|SUPERIORITY||LS Mean Difference|-2.8|||<|0.001|TWO_SIDED|95.0|-3.82|-1.79|||ANCOVA|||Week 26||-1.79|-3.82|<0.001
92361972|NCT03235050|184627321|SUPERIORITY||LS Mean Difference|-3.46|||<|0.001|TWO_SIDED|95.0|-4.48|-2.44|||ANCOVA|||Week 26||-2.44|-4.48|<0.001
92361973|NCT03235050|184627321|SUPERIORITY||LS Mean Difference|-2.43|||<|0.001|TWO_SIDED|95.0|-3.86|-1.0|||ANCOVA|||Week 54||-1.00|-3.86|<0.001
92361974|NCT03235050|184627321|SUPERIORITY||LS Mean Difference|-2.24|||<|0.001|TWO_SIDED|95.0|-3.41|-1.06|||ANCOVA|||Week 54||-1.06|-3.41|<0.001
92361975|NCT03235050|184627321|SUPERIORITY||LS Mean Difference|-3.32|||<|0.001|TWO_SIDED|95.0|-4.49|-2.14|||ANCOVA|||Week 54||-2.14|-4.49|<0.001
92361976|NCT03235050|184627322|SUPERIORITY||LS Mean Difference|-1.95|||<|0.001|TWO_SIDED|95.0|-3.03|-0.87|||ANCOVA|||Week 14||-0.87|-3.03|<0.001
92361977|NCT03235050|184627322|SUPERIORITY||LS Mean Difference|-2.75|||<|0.001|TWO_SIDED|95.0|-3.63|-1.86|||ANCOVA|||Week 14||-1.86|-3.63|<0.001
92361978|NCT03235050|184627322|SUPERIORITY||LS Mean Difference|-3.71|||<|0.001|TWO_SIDED|95.0|-4.6|-2.82|||ANCOVA|||Week 14||-2.82|-4.60|<0.001
92361979|NCT03235050|184627322|SUPERIORITY||LS Mean Difference|-2.01||||0.002|TWO_SIDED|95.0|-3.27|-0.74|||ANCOVA|||Week 26||-0.74|-3.27|0.002
92361980|NCT03235050|184627322|SUPERIORITY||LS Mean Difference|-2.74|||<|0.001|TWO_SIDED|95.0|-3.78|-1.71|||ANCOVA|||Week 26||-1.71|-3.78|<0.001
92361981|NCT03235050|184627322|SUPERIORITY||LS Mean Difference|-3.55|||<|0.001|TWO_SIDED|95.0|-4.59|-2.52|||ANCOVA|||Week 26||-2.52|-4.59|<0.001
92361982|NCT03235050|184627322|SUPERIORITY||LS Mean Difference|-2.27||||0.003|TWO_SIDED|95.0|-3.74|-0.79|||ANCOVA|||Week 54||-0.79|-3.74|0.003
92361983|NCT03235050|184627322|SUPERIORITY||LS Mean Difference|-2.16|||<|0.001|TWO_SIDED|95.0|-3.37|-0.95|||ANCOVA|||Week 54||-0.95|-3.37|<0.001
92361984|NCT03235050|184627322|SUPERIORITY||LS Mean Difference|-3.42|||<|0.001|TWO_SIDED|95.0|-4.63|-2.2|||ANCOVA|||Week 54||-2.20|-4.63|<0.001
92361985|NCT03235050|184627323|SUPERIORITY||LS Mean Difference|0.7||||0.211|TWO_SIDED|95.0|-0.39|1.79|||ANCOVA|||Percent change at Week 14||1.79|-0.39|0.211
92402721|NCT05565742|184696627|SUPERIORITY||LS Mean difference (Final Values)|-95.0|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-96.1|-93.6|||Mixed Models Analysis|||||-93.6|-96.1|<0.001
92402722|NCT05565742|184696627|SUPERIORITY||LS Mean difference (Final Values)|-76.8|STANDARD_ERROR_OF_MEAN|2.94|<|0.001|TWO_SIDED|95.0|-81.9|-70.2|||Mixed Models Analysis|||||-70.2|-81.9|<0.001
92402723|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|112.03||||0.001|TWO_SIDED|95.0|6.35|1975.13|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 60||1975.13|6.35|0.001
92402724|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|2762.52|||<|0.001|TWO_SIDED|95.0|142.74|53463.34|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 60||53463.34|142.74|<0.001
92402725|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|50904.09|||<|0.001|TWO_SIDED|95.0|1700.95|1523398.1|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 60||1523398.10|1700.95|<0.001
92402726|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|27.94||||0.026|TWO_SIDED|95.0|1.48|527.74|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 180||527.74|1.48|0.026
92402727|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|309.36|||<|0.001|TWO_SIDED|95.0|17.99|5320.81|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 180||5320.81|17.99|<0.001
92165720|NCT00762619|184220152|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92402728|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|3060.16|||<|0.001|TWO_SIDED|95.0|166.84|56127.55|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 180||56127.55|166.84|<0.001
92402729|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|32.91||||0.021|TWO_SIDED|95.0|1.7|635.94|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 60||635.94|1.70|0.021
92402730|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|579.62|||<|0.001|TWO_SIDED|95.0|31.48|10673.41|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 60||10673.41|31.48|<0.001
92402731|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|14659.81|||<|0.001|TWO_SIDED|95.0|646.35|332498.98|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 60||332498.98|646.35|<0.001
92402732|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|15.94||||0.071|TWO_SIDED|95.0|0.79|321.21|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 180||321.21|0.79|0.071
92402733|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|86.32||||0.002|TWO_SIDED|95.0|5.07|1468.36|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 180||1468.36|5.07|0.002
92402734|NCT05565742|184696628|SUPERIORITY||Odds Ratio (OR)|956.84|||<|0.001|TWO_SIDED|95.0|55.75|16422.76|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 180||16422.76|55.75|<0.001
92165721|NCT00762619|184220153|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92227199|NCT03694392|184356619|OTHER||Hazard Ratio (HR)|0.98|||<|0.05|TWO_SIDED|95.0|0.88|1.08||Adjustment for multiplicity for the secondary outcomes was performed with the use of Holm's adjustment method.|Regression, Cox|Models were adjusted for age, age squared, sex, and race or ethnic group after weighting with stabilized facility-specific propensity scores.|Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 2.4% (-8.1% to 11.9%)|||1.08|0.88|<0.05
92402735|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|32.05|||<|0.001|TWO_SIDED|95.0|5.36|191.58|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 240||191.58|5.36|<0.001
92402736|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|602.39|||<|0.001|TWO_SIDED|95.0|95.36|3805.22|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 240||3805.22|95.36|<0.001
92402737|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|6953.37|||<|0.001|TWO_SIDED|95.0|527.56|91646.24|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 240||91646.24|527.56|<0.001
92402738|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|347.76|||<|0.001|TWO_SIDED|95.0|57.46|2104.62|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 240||2104.62|57.46|<0.001
92402739|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|54.99||||0.007|TWO_SIDED|95.0|2.98|1015.84|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 360||1015.84|2.98|0.007
92165722|NCT00762619|184220154|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165723|NCT00762619|184220155|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92402740|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|363.15|||<|0.001|TWO_SIDED|95.0|20.83|6332.68|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 360||6332.68|20.83|<0.001
92402741|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|2953.53|||<|0.001|TWO_SIDED|95.0|150.95|57790.71|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 360||57790.71|150.95|<0.001
92402742|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|375.16|||<|0.001|TWO_SIDED|95.0|21.46|6571.66|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 360||6571.66|21.46|<0.001
92402743|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|16.43||||0.068|TWO_SIDED|95.0|0.81|331.69|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 540||331.69|0.81|0.068
92402744|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|84.97||||0.002|TWO_SIDED|95.0|4.99|1447.48|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 540||1447.48|4.99|0.002
92402745|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|594.66|||<|0.001|TWO_SIDED|95.0|33.99|10405.09|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 540||10405.09|33.99|<0.001
92402746|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|110.17||||0.001|TWO_SIDED|95.0|6.47|1875.77|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 540||1875.77|6.47|0.001
92361986|NCT03235050|184627323|SUPERIORITY||LS Mean Difference|-0.07||||0.881|TWO_SIDED|95.0|-0.96|0.83|||ANCOVA|||Percent change at Week 14||0.83|-0.96|0.881
92361987|NCT03235050|184627323|SUPERIORITY||LS Mean Difference|-0.93||||0.042|TWO_SIDED|95.0|-1.82|-0.04|||ANCOVA|||Percent change at Week 14||-0.04|-1.82|0.042
92361988|NCT03235050|184627323|SUPERIORITY||LS Mean Difference|0.9||||0.158|TWO_SIDED|95.0|-0.35|2.14|||ANCOVA|||Percent change at Week 26||2.14|-0.35|0.158
92361989|NCT03235050|184627323|SUPERIORITY||LS Mean Difference|0.18||||0.734|TWO_SIDED|95.0|-0.85|1.2|||ANCOVA|||Percent change at Week 26||1.20|-0.85|0.734
92361990|NCT03235050|184627323|SUPERIORITY||LS Mean Difference|-0.48||||0.357|TWO_SIDED|95.0|-1.51|0.54|||ANCOVA|||Percent change at Week 26||0.54|-1.51|0.357
92361991|NCT03235050|184627323|SUPERIORITY||LS Mean Difference|-0.07||||0.921|TWO_SIDED|95.0|-1.51|1.37|||ANCOVA|||Percent change at Week 54||1.37|-1.51|0.921
92402747|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|11.61||||0.01|TWO_SIDED|95.0|1.81|74.29|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 240||74.29|1.81|0.010
92402748|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|233.25|||<|0.001|TWO_SIDED|95.0|39.92|1362.79|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 240||1362.79|39.92|<0.001
92402749|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|3087.58|||<|0.001|TWO_SIDED|95.0|331.26|28778.1|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 240||28778.10|331.26|<0.001
92402750|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|144.58|||<|0.001|TWO_SIDED|95.0|25.2|829.42|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 240||829.42|25.20|<0.001
92402751|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|11.16||||0.125|TWO_SIDED|95.0|0.51|243.85|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 360||243.85|0.51|0.125
92402752|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|148.3|||<|0.001|TWO_SIDED|95.0|8.64|2546.89|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 360||2546.89|8.64|<0.001
92402753|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|1431.38|||<|0.001|TWO_SIDED|95.0|77.76|26349.86|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 360||26349.86|77.76|<0.001
92402754|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|147.78|||<|0.001|TWO_SIDED|95.0|8.6|2538.95|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 360||2538.95|8.60|<0.001
92402755|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|1.99||||0.733|TWO_SIDED|95.0|0.04|104.02|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 540||104.02|0.04|0.733
92402756|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|34.28||||0.015|TWO_SIDED|95.0|1.98|594.46|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 540||594.46|1.98|0.015
92402757|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|159.77|||<|0.001|TWO_SIDED|95.0|9.4|2716.42|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 540||2716.42|9.40|<0.001
92402758|NCT05565742|184696629|SUPERIORITY||Odds Ratio (OR)|37.98||||0.013|TWO_SIDED|95.0|2.19|659.75|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 540||659.75|2.19|0.013
92361992|NCT03235050|184627323|SUPERIORITY||LS Mean Difference|0.12||||0.847|TWO_SIDED|95.0|-1.07|1.3|||ANCOVA|||Percent change at Week 54||1.30|-1.07|0.847
92402759|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-47.4|STANDARD_ERROR_OF_MEAN|7.29|<|0.001|TWO_SIDED|95.0|-59.9|-30.9|||Mixed Models Analysis|||Baseline to Day 60||-30.9|-59.9|<0.001
92402760|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-80.9|STANDARD_ERROR_OF_MEAN|2.16|<|0.001|TWO_SIDED|95.0|-84.7|-76.1|||Mixed Models Analysis|||Baseline to Day 60||-76.1|-84.7|<0.001
92402761|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-95.5|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|95.0|-96.3|-94.5|||Mixed Models Analysis|||Baseline to Day 60||-94.5|-96.3|<0.001
92402762|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-95.5|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|95.0|-96.3|-94.5|||Mixed Models Analysis|||Baseline to Day 60||-94.5|-96.3|<0.001
92402763|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-31.9|STANDARD_ERROR_OF_MEAN|11.1||0.019|TWO_SIDED|95.0|-50.6|-6.2|||Mixed Models Analysis|||Baseline to Day 180||-6.2|-50.6|0.019
92361993|NCT03235050|184627323|SUPERIORITY||LS Mean Difference|-0.96||||0.112|TWO_SIDED|95.0|-2.15|0.22|||ANCOVA|||Percent change at Week 54||0.22|-2.15|0.112
92361994|NCT03235050|184627324|SUPERIORITY||LS Mean Difference|0.59||||0.284|TWO_SIDED|95.0|-0.49|1.68|||ANCOVA|||Absolute change at Week 14||1.68|-0.49|0.284
92361995|NCT03235050|184627324|SUPERIORITY||LS Mean Difference|-0.2||||0.658|TWO_SIDED|95.0|-1.09|0.69|||ANCOVA|||Absolute change at Week 14||0.69|-1.09|0.658
92361996|NCT03235050|184627324|SUPERIORITY||LS Mean Difference|-1.17||||0.01|TWO_SIDED|95.0|-2.06|-0.27|||ANCOVA|||Absolute change at Week 14||-0.27|-2.06|0.010
92361997|NCT03235050|184627324|SUPERIORITY||LS Mean Difference|0.7||||0.279|TWO_SIDED|95.0|-0.57|1.97|||ANCOVA|||Absolute change at Week 26||1.97|-0.57|0.279
92361998|NCT03235050|184627324|SUPERIORITY||LS Mean Difference|-0.04||||0.94|TWO_SIDED|95.0|-1.08|1.0|||ANCOVA|||Absolute change at Week 26||1.00|-1.08|0.940
92361999|NCT03235050|184627324|SUPERIORITY||LS Mean Difference|-0.85||||0.11|TWO_SIDED|95.0|-1.89|0.19|||ANCOVA|||Absolute change at Week 26||0.19|-1.89|0.110
92362000|NCT03235050|184627324|SUPERIORITY||LS Mean Difference|-0.26||||0.73|TWO_SIDED|95.0|-1.74|1.22|||ANCOVA|||Absolute change at Week 54||1.22|-1.74|0.730
92362001|NCT03235050|184627324|SUPERIORITY||LS Mean Difference|-0.15||||0.804|TWO_SIDED|95.0|-1.38|1.07|||ANCOVA|||Absolute change at Week 54||1.07|-1.38|0.804
92362002|NCT03235050|184627324|SUPERIORITY||LS Mean Difference|-1.41||||0.023|TWO_SIDED|95.0|-2.63|-0.19|||ANCOVA|||Absolute change at Week 54||-0.19|-2.63|0.023
92362003|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|8.37|||<|0.001|TWO_SIDED|95.0|2.38|29.43|||Regression, Logistic|||weight loss \>=5% at Week 14||29.43|2.38|<0.001
92362004|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|12.46|||<|0.001|TWO_SIDED|95.0|3.82|40.64|||Regression, Logistic|||weight loss \>=5% at Week 14||40.64|3.82|<0.001
92362005|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|21.26|||<|0.001|TWO_SIDED|95.0|6.55|68.97|||Regression, Logistic|||weight loss \>=5% at Week 14||68.97|6.55|<0.001
92362006|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|3.68|||<|0.001|TWO_SIDED|95.0|1.72|7.89|||Regression, Logistic|||weight loss \>=5% at Week 26||7.89|1.72|<0.001
92362007|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|3.95|||<|0.001|TWO_SIDED|95.0|2.0|7.78|||Regression, Logistic|||weight loss \>=5% at Week 26||7.78|2.00|<0.001
92362008|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|7.28|||<|0.001|TWO_SIDED|95.0|3.72|14.24|||Regression, Logistic|||weight loss \>=5% at Week 26||14.24|3.72|<0.001
92227200|NCT03694392|184356620|OTHER||Hazard Ratio (HR)|1.16|||<|0.05|TWO_SIDED|95.0|0.75|1.8|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -15.7% (-79.5% to 25.5%)|||1.80|0.75|<0.05
92402764|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-66.0|STANDARD_ERROR_OF_MEAN|4.52|<|0.001|TWO_SIDED|95.0|-73.8|-55.9|||Mixed Models Analysis|||Baseline to Day 180||-55.9|-73.8|<0.001
92165724|NCT00762619|184220156|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165725|NCT00762619|184220157|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92362009|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|3.71|||<|0.001|TWO_SIDED|95.0|1.84|7.45|||Regression, Logistic|||weight loss \>=5% at Week 54||7.45|1.84|<0.001
92362010|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|2.73||||0.002|TWO_SIDED|95.0|1.46|5.09|||Regression, Logistic|||weight loss \>=5% at Week 54||5.09|1.46|0.002
92362011|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|4.48|||<|0.001|TWO_SIDED|95.0|2.42|8.3|||ANCOVA|||weight loss \>=5% at Week 54||8.30|2.42|<0.001
92362012|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|8.47||||0.048|TWO_SIDED|95.0|1.02|70.17|||Regression, Logistic|||weight loss \>=10% at Week 26||70.17|1.02|0.048
92362013|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|13.81||||0.01|TWO_SIDED|95.0|1.85|102.91|||Regression, Logistic|||weight loss \>=10% at Week 26||102.91|1.85|0.010
92362014|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|13.09||||0.012|TWO_SIDED|95.0|1.75|97.68|||Regression, Logistic|||weight loss \>=10% at Week 26||97.68|1.75|0.012
92402765|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-90.7|STANDARD_ERROR_OF_MEAN|1.09|<|0.001|TWO_SIDED|95.0|-92.6|-88.3|||Mixed Models Analysis|||Baseline to Day 180||-88.3|-92.6|<0.001
92165726|NCT00762619|184220158|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165727|NCT00762619|184220159|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165728|NCT00762619|184220160|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165729|NCT00762619|184220161|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92227201|NCT03694392|184356621|OTHER||Hazard Ratio (HR)|1.001|||<|0.05|TWO_SIDED|95.0|0.95|1.06|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -0.1% (-6.0% to 5.4%)|||1.06|0.95|<0.05
92362015|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|6.92||||0.013|TWO_SIDED|95.0|1.49|32.07|||Regression, Logistic|||weight loss \>=10% at Week 54||32.07|1.49|0.013
92362016|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|4.98||||0.032|TWO_SIDED|95.0|1.15|21.6|||Regression, Logistic|||weight loss \>=10% at Week 54||21.60|1.15|0.032
92165730|NCT00762619|184220162|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165731|NCT00762619|184220163|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165732|NCT00762619|184220164|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165733|NCT00762619|184220165|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92362017|NCT03235050|184627325|SUPERIORITY||Odds Ratio, log|7.91||||0.005|TWO_SIDED|95.0|1.86|33.64|||Regression, Logistic|||weight loss \>=10% at Week 54||33.64|1.86|0.005
92362018|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.09||||0.024|TWO_SIDED|95.0|0.01|0.73|||Regression, Logistic|||received rescue medication at 14 wks||0.73|0.01|0.024
92362019|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.11|||<|0.001|TWO_SIDED|95.0|0.03|0.4|||Regression, Logistic|||received rescue medication at 14 wks||0.40|0.03|<0.001
92362020|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.07|||<|0.001|TWO_SIDED|95.0|0.02|0.33|||Regression, Logistic|||received rescue medication at 14 wks||0.33|0.02|<0.001
92362021|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.14||||0.002|TWO_SIDED|95.0|0.04|0.48|||Regression, Logistic|||received rescue medication at 26 wks||0.48|0.04|0.002
92362022|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.14|||<|0.001|TWO_SIDED|95.0|0.06|0.34|||Regression, Logistic|||received rescue medication at 26 wks||0.34|0.06|<0.001
92362023|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.11|||<|0.001|TWO_SIDED|95.0|0.04|0.28|||Regression, Logistic|||received rescue medication at 26 wks||0.28|0.04|<0.001
92362024|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.24|||<|0.001|TWO_SIDED|95.0|0.11|0.53|||Regression, Logistic|||received rescue medication at 54 wks||0.53|0.11|<0.001
92362025|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.24|||<|0.001|TWO_SIDED|95.0|0.13|0.44|||Regression, Logistic|||received rescue medication at 54 wks||0.44|0.13|<0.001
92362026|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.22|||<|0.001|TWO_SIDED|95.0|0.12|0.41|||Regression, Logistic|||received rescue medication at 54 wks||0.41|0.12|<0.001
92362027|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.22||||0.216|TWO_SIDED|95.0|0.02|2.43|||Regression, Logistic|||discontinued IP at 14 wks||2.43|0.02|0.216
92362028|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.28||||0.253|TWO_SIDED|95.0|0.03|2.52|||Regression, Logistic|||discontinued IP at 26 wks||2.52|0.03|0.253
92362029|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.21||||0.079|TWO_SIDED|95.0|0.04|1.19|||Regression, Logistic|||discontinued IP at 26 wks||1.19|0.04|0.079
92402766|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-90.7|STANDARD_ERROR_OF_MEAN|1.09|<|0.001|TWO_SIDED|95.0|-92.6|-88.3|||Mixed Models Analysis|||Baseline to Day 180||-88.3|-92.6|<0.001
92402767|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-47.3|STANDARD_ERROR_OF_MEAN|8.25|<|0.001|TWO_SIDED|95.0|-61.3|-28.3|||Mixed Models Analysis|||Baseline to Day 240||-28.3|-61.3|<0.001
92402768|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-84.7|STANDARD_ERROR_OF_MEAN|1.95|<|0.001|TWO_SIDED|95.0|-88.1|-80.3|||Mixed Models Analysis|||Baseline to Day 240||-80.3|-88.1|<0.001
92402769|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-96.8|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-97.4|-95.9|||Mixed Models Analysis|||Baseline to Day 240||-95.9|-97.4|<0.001
92362030|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.27||||0.252|TWO_SIDED|95.0|0.03|2.5|||Regression, Logistic|||discontinued IP at 54 wks||2.50|0.03|0.252
92362031|NCT03235050|184627326|SUPERIORITY||Odds Ratio, log|0.32||||0.143|TWO_SIDED|95.0|0.07|1.47|||Regression, Logistic|||discontinued IP at 54 wks||1.47|0.07|0.143
92362032|NCT00370292|184627330|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 1 Hour Post-Dose (1 hour across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
92402770|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-84.7|STANDARD_ERROR_OF_MEAN|1.78|<|0.001|TWO_SIDED|95.0|-87.9|-80.8|||Mixed Models Analysis|||Baseline to Day 240||-80.8|-87.9|<0.001
92402771|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|11.45||0.029|TWO_SIDED|95.0|-49.4|-3.6|||Mixed Models Analysis|||Baseline to Day 360||-3.6|-49.4|0.029
92402772|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-67.4|STANDARD_ERROR_OF_MEAN|4.35|<|0.001|TWO_SIDED|95.0|-74.9|-57.6|||Mixed Models Analysis|||Baseline to Day 360||-57.6|-74.9|<0.001
92402773|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-91.0|STANDARD_ERROR_OF_MEAN|1.11|<|0.001|TWO_SIDED|95.0|-92.9|-88.5|||Mixed Models Analysis|||Baseline to Day 360||-88.5|-92.9|<0.001
92402774|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-67.8|STANDARD_ERROR_OF_MEAN|3.96|<|0.001|TWO_SIDED|95.0|-74.8|-59.0|||Mixed Models Analysis|||Baseline to Day 360||-59.0|-74.8|<0.001
92402775|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-19.7|STANDARD_ERROR_OF_MEAN|10.45||0.093|TWO_SIDED|95.0|-37.8|3.7|||Mixed Models Analysis|||Baseline to Day 540||3.7|-37.8|0.093
92402776|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-45.8|STANDARD_ERROR_OF_MEAN|5.76|<|0.001|TWO_SIDED|95.0|-56.0|-33.2|||Mixed Models Analysis|||Baseline to Day 540||-33.2|-56.0|<0.001
92402777|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-74.2|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-78.8|-68.5|||Mixed Models Analysis|||Baseline to Day 540||-68.5|-78.8|<0.001
92402778|NCT05565742|184696630|SUPERIORITY||LS Mean difference (Final Values)|-53.4|STANDARD_ERROR_OF_MEAN|4.67|<|0.001|TWO_SIDED|95.0|-61.7|-43.3|||Mixed Models Analysis|||Baseline to Day 540||-43.3|-61.7|<0.001
92402779|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|3.74||0.01|TWO_SIDED|95.0|-17.5|-2.6|||Mixed Models Analysis|||Baseline to Day 60||-2.6|-17.5|0.010
92165734|NCT00762619|184220166|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165735|NCT00762619|184220167|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165736|NCT00762619|184220168|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165737|NCT00762619|184220169|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165738|NCT00762619|184220170|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92362033|NCT00370292|184627330|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 2 Hours Post-Dose (2 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
92362034|NCT00370292|184627330|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value for 4 Hours Post-Dose (4 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||0.030
92362035|NCT00370292|184627330|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||P-value for 6 Hours Post-Dose (6 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||0.166
92362036|NCT00370292|184627330|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 Hours Post-Dose (24 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
92402780|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-11.9|STANDARD_ERROR_OF_MEAN|3.02|<|0.001|TWO_SIDED|95.0|-17.7|-5.8|||Mixed Models Analysis|||Baseline to Day 60||-5.8|-17.7|<0.001
92402781|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-19.0|-8.8|||Mixed Models Analysis|||Baseline to Day 60||-8.8|-19.0|<0.001
92402782|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-19.0|-8.8|||Mixed Models Analysis|||Baseline to Day 60||-8.8|-19.0|<0.001
92402783|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-8.2|STANDARD_ERROR_OF_MEAN|4.27||0.068|TWO_SIDED|95.0|-16.2|0.6|||Mixed Models Analysis|||Baseline to Day 180||0.6|-16.2|0.068
92402784|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-10.7|STANDARD_ERROR_OF_MEAN|3.4||0.003|TWO_SIDED|95.0|-17.1|-3.8|||Mixed Models Analysis|||Baseline to Day 180||-3.8|-17.1|0.003
92402785|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-13.7|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-19.3|-7.9|||Mixed Models Analysis|||Baseline to Day 180||-7.9|-19.3|<0.001
92402786|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-13.7|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-19.3|-7.9|||Mixed Models Analysis|||Baseline to Day 180||-7.9|-19.3|<0.001
92402787|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-9.2|STANDARD_ERROR_OF_MEAN|3.93||0.026|TWO_SIDED|95.0|-16.7|-1.2|||Mixed Models Analysis|||Baseline to Day 240||-1.2|-16.7|0.026
92402788|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-15.4|STANDARD_ERROR_OF_MEAN|2.99|<|0.001|TWO_SIDED|95.0|-21.1|-9.3|||Mixed Models Analysis|||Baseline to Day 240||-9.3|-21.1|<0.001
92402789|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-15.5|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-21.0|-9.6|||Mixed Models Analysis|||Baseline to Day 240||-9.6|-21.0|<0.001
92402790|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-10.6|STANDARD_ERROR_OF_MEAN|3.03|<|0.001|TWO_SIDED|95.0|-16.3|-4.4|||Mixed Models Analysis|||Baseline to Day 240||-4.4|-16.3|<0.001
92402791|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|4.21||0.111|TWO_SIDED|95.0|-14.9|1.7|||Mixed Models Analysis|||Baseline to Day 360||1.7|-14.9|0.111
92402792|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-12.0|STANDARD_ERROR_OF_MEAN|3.25|<|0.001|TWO_SIDED|95.0|-18.1|-5.3|||Mixed Models Analysis|||Baseline to Day 360||-5.3|-18.1|<0.001
92165739|NCT00762619|184220171|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165740|NCT00762619|184220172|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92362037|NCT00370292|184627330|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 48 Hours Post-Dose (48 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
92362038|NCT00370292|184627332|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 1 Hour Post-Dose (1 hour across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
92362039|NCT00370292|184627332|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 2 Hours Post-Dose (2 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
92362040|NCT00370292|184627332|SUPERIORITY_OR_OTHER|||||||0.333||95.0||||P-value for 4 Hours Post-Dose (4 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||0.333
92362041|NCT00370292|184627332|SUPERIORITY_OR_OTHER|||||||0.849||95.0||||P-value for 6 Hours Post-Dose (6 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||0.849
92362042|NCT00370292|184627332|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 Hours Post-Dose (24 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
92402793|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|3.11|<|0.001|TWO_SIDED|95.0|-20.0|-7.8|||Mixed Models Analysis|||Baseline to Day 360||-7.8|-20.0|<0.001
92402794|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-8.6|STANDARD_ERROR_OF_MEAN|3.3||0.013|TWO_SIDED|95.0|-14.9|-1.9|||Mixed Models Analysis|||400 mg LY3819469, Placebo||-1.9|-14.9|0.013
92402795|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-2.8|STANDARD_ERROR_OF_MEAN|4.2||0.51|TWO_SIDED|95.0|-10.7|5.8|||Mixed Models Analysis|||Baseline to Day 540||5.8|-10.7|0.510
92402796|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|3.35||0.173|TWO_SIDED|95.0|-11.1|2.1|||Mixed Models Analysis|||Baseline to Day 540||2.1|-11.1|0.173
92402797|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-12.9|STANDARD_ERROR_OF_MEAN|3.01|<|0.001|TWO_SIDED|95.0|-18.6|-6.8|||Mixed Models Analysis|||Baseline to Day 540||-6.8|-18.6|<0.001
92402798|NCT05565742|184696631|SUPERIORITY||LS Mean difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|3.27||0.139|TWO_SIDED|95.0|-11.2|1.7|||Mixed Models Analysis|||Baseline to Day 540||1.7|-11.2|0.139
92402799|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-17.1|STANDARD_ERROR_OF_MEAN|16.71||0.353|TWO_SIDED|95.0|-44.3|23.3|||Mixed Models Analysis|||Baseline to Day 60||23.3|-44.3|0.353
92402800|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|15.84||0.902|TWO_SIDED|95.0|-28.7|34.7|||Mixed Models Analysis|||Baseline to Day 60||34.7|-28.7|0.902
92402801|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|13.65||0.779|TWO_SIDED|95.0|-27.4|27.1|||Mixed Models Analysis|||Baseline to Day 60||27.1|-27.4|0.779
92402802|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|13.65||0.779|TWO_SIDED|95.0|-27.4|27.1|||Mixed Models Analysis|||Baseline to Day 60||27.1|-27.4|0.779
92402803|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|20.41||0.987|TWO_SIDED|95.0|-32.8|49.7|||Mixed Models Analysis|||Baseline to Day 180||49.7|-32.8|0.987
92402804|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-15.2|STANDARD_ERROR_OF_MEAN|13.96||0.316|TWO_SIDED|95.0|-38.7|17.2|||Mixed Models Analysis|||Baseline to Day 180||17.2|-38.7|0.316
92402805|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|5.4|STANDARD_ERROR_OF_MEAN|15.37||0.72|TWO_SIDED|95.0|-20.9|40.4|||Mixed Models Analysis|||Baseline to Day 180||40.4|-20.9|0.720
92402806|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|5.4|STANDARD_ERROR_OF_MEAN|15.37||0.72|TWO_SIDED|95.0|-20.9|40.4|||Mixed Models Analysis|||Baseline to Day 180||40.4|-20.9|0.720
92402807|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-11.5|STANDARD_ERROR_OF_MEAN|14.66||0.461|TWO_SIDED|95.0|-36.1|22.6|||Mixed Models Analysis|||Baseline to Day 240||22.6|-36.1|0.461
92402808|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-16.1|STANDARD_ERROR_OF_MEAN|11.29||0.194|TWO_SIDED|95.0|-35.6|9.4|||Mixed Models Analysis|||Baseline to Day 240||9.4|-35.6|0.194
92402809|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|12.87||0.898|TWO_SIDED|95.0|-24.0|27.2|||Mixed Models Analysis|||Baseline to Day 240||27.2|-24.0|0.898
92402810|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-9.4|STANDARD_ERROR_OF_MEAN|11.81||0.448|TWO_SIDED|95.0|-29.9|17.0|||Mixed Models Analysis|||Baseline to Day 240||17.0|-29.9|0.448
92402811|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|29.6|STANDARD_ERROR_OF_MEAN|28.05||0.233|TWO_SIDED|95.0|-15.4|98.4|||Mixed Models Analysis|||Baseline to Day 360||98.4|-15.4|0.233
92402812|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|18.04||0.891|TWO_SIDED|95.0|-27.6|44.9|||Mixed Models Analysis|||Baseline to Day 360||44.9|-27.6|0.891
92402813|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|17.18||0.984|TWO_SIDED|95.0|-29.0|39.9|||Mixed Models Analysis|||Baseline to Day 360||39.9|-29.0|0.984
92402814|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|19.4|STANDARD_ERROR_OF_MEAN|20.52||0.302|TWO_SIDED|95.0|-14.8|67.5|||Mixed Models Analysis|||Baseline to Day 360||67.5|-14.8|0.302
92402815|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|18.49||0.684|TWO_SIDED|95.0|-37.9|36.8|||Mixed Models Analysis|||Baseline to Day 540||36.8|-37.9|0.684
92362043|NCT00370292|184627332|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 48 Hours Post-Dose (48 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
92362044|NCT03545672|184627334|SUPERIORITY|||||||0.001||||||The threshold for statistical significance was p=0.05|Chi-squared|||||||0.001
92362045|NCT03545672|184627335|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92362046|NCT00492557|184627346|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given virus subtype was demonstrated if the lower bound of the 2-sided, 95% confidence interval (CI), computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC+TIV - TIV alone) was greater than -0.10.|Percent Difference|1.7|||||TWO_SIDED|95.0|-3.1|6.5||||||Influenza virus subtype: A/H1N1. Primary null hypothesis for each of the influenza virus subtypes is: proportion of participants achieving a 4-fold increase in titer when 13vPnC+TIV were administered concomitantly, minus the proportion of participants achieving a 4-fold increase in titer when TIV was administered alone (with placebo) \<= -0.10.||6.5|-3.1|
92362047|NCT00492557|184627346|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given virus subtype was demonstrated if the lower bound of the 2-sided, 95% CI, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC+TIV - TIV alone) was greater than -0.10.|Percent Difference|-4.6|||||TWO_SIDED|95.0|-10.4|1.3||||||Influenza virus subtype: A/H3N2. Primary null hypothesis for each of the influenza virus subtypes is: proportion of participants achieving a 4-fold increase in titer when 13vPnC+TIV were administered concomitantly, minus the proportion of participants achieving a 4-fold increase in titer when TIV was administered alone (with placebo) \<= -0.10.||1.3|-10.4|
92362048|NCT00492557|184627346|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given virus subtype was demonstrated if the lower bound of the 2-sided, 95% CI, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC+TIV - TIV alone) was greater than -0.10.|Percent Difference|-1.8|||||TWO_SIDED|95.0|-7.8|4.1||||||Influenza virus subtype: B. Primary null hypothesis for each of the influenza virus subtypes is: proportion of participants achieving a 4-fold increase in titer when 13vPnC+TIV were administered concomitantly, minus the proportion of participants achieving a 4-fold increase in titer when TIV was administered alone (with placebo) \<= -0.10.||4.1|-7.8|
92402816|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|16.19||0.933|TWO_SIDED|95.0|-28.6|36.3|||Mixed Models Analysis|||Baseline to Day 540||36.3|-28.6|0.933
92402817|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|16.33||0.962|TWO_SIDED|95.0|-26.7|38.6|||Mixed Models Analysis|||Baseline to Day 540||38.6|-26.7|0.962
92402818|NCT05565742|184696632|SUPERIORITY||LS Mean difference (Final Values)|13.9|STANDARD_ERROR_OF_MEAN|18.52||0.422|TWO_SIDED|95.0|-17.2|56.9|||Mixed Models Analysis|||Baseline to Day 540||56.9|-17.2|0.422
92402819|NCT01074814|184696661|OTHER||||||||||||||||||Results for the primary objective - evaluation of GMI - were presented with descriptive statistics as the ration of PFS on current therapy over the PFS on latest therapy. The percentage of patients with GMI greater than 1.3 was displayed along with its corresponding 95% exact confidence interval.|||
92362049|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.79|||||TWO_SIDED|95.0|0.6|1.04|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 1. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.04|0.60|
92402820|NCT03175367|184696693|SUPERIORITY||Least Squares Mean Difference|-38.5|STANDARD_ERROR_OF_MEAN|9.1|<|0.0001|TWO_SIDED|95.0|-56.5|-20.6|||Mixed Models Analysis|||||-20.6|-56.5|< .0001
92402821|NCT03175367|184696693|SUPERIORITY||Least Squares Mean Difference|-52.9|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|95.0|-70.7|-35.1|||Mixed Models Analysis|||||-35.1|-70.7|< .0001
92402822|NCT03175367|184696693|SUPERIORITY||Least Squares Mean Difference|-56.0|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|95.0|-73.7|-38.3|||Mixed Models Analysis|||||-38.3|-73.7|< .0001
92402823|NCT03175367|184696693|SUPERIORITY||Least Squares Mean Difference|-24.2|STANDARD_ERROR_OF_MEAN|9.3|=|0.0109|TWO_SIDED|95.0|-42.6|-5.7||P-Value is not adjusted for multiplicity|Mixed Models Analysis|||||-5.7|-42.6|= 0.0109
92402824|NCT03175367|184696693|SUPERIORITY||Least Squares Mean Difference|-50.5|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|95.0|-68.4|-32.6|||Mixed Models Analysis|||||-32.6|-68.4|< .0001
92402825|NCT03175367|184696694|SUPERIORITY||Least Squares Mean Difference|-26.6|STANDARD_ERROR_OF_MEAN|7.2|=|0.0003|TWO_SIDED|95.0|-40.9|-12.4|||Mixed Models Analysis|||||-12.4|-40.9|= 0.0003
92402826|NCT03175367|184696694|SUPERIORITY||Least Squares Mean Difference|-42.0|STANDARD_ERROR_OF_MEAN|7.1|<|0.0001|TWO_SIDED|95.0|-56.1|-27.9|||Mixed Models Analysis|||||-27.9|-56.1|< 0.0001
92402827|NCT03175367|184696694|SUPERIORITY||Least Squares Mean Difference|-45.5|STANDARD_ERROR_OF_MEAN|7.1|<|0.0001|TWO_SIDED|95.0|-59.5|-31.5|||Mixed Models Analysis|||||-31.5|-59.5|< 0.0001
92402828|NCT03175367|184696694|SUPERIORITY||Least Squares Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|6.6|=|0.0132|TWO_SIDED|95.0|-29.7|-3.5|||Mixed Models Analysis|||||-3.5|-29.7|= 0.0132
92402829|NCT03175367|184696694|SUPERIORITY||Least Squares Mean Difference|-39.4|STANDARD_ERROR_OF_MEAN|6.4|<|0.0001|TWO_SIDED|95.0|-52.0|-26.8|||Mixed Models Analysis|||||-26.8|-52.0|< 0.0001
92402830|NCT03175367|184696695|SUPERIORITY||Least Squares Mean Difference|-21.8|STANDARD_ERROR_OF_MEAN|8.4|=|0.0111|TWO_SIDED|95.0|-38.4|-5.1|||Mixed Models Analysis|||||-5.1|-38.4|= 0.0111
92402831|NCT03175367|184696695|SUPERIORITY||Least Squares Mean Difference|-40.4|STANDARD_ERROR_OF_MEAN|8.2|<|0.0001|TWO_SIDED|95.0|-56.7|-24.0|||Mixed Models Analysis|||||-24.0|-56.7|< 0.0001
92362050|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.94|||||TWO_SIDED|95.0|0.78|1.13|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 3. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.13|0.78|
92362051|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.66|||||TWO_SIDED|95.0|0.51|0.87|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 4. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.87|0.51|
92402832|NCT03175367|184696696|SUPERIORITY||Least Squares Mean Difference|-39.3|STANDARD_ERROR_OF_MEAN|7.6|<|0.0001|TWO_SIDED|95.0|-54.4|-24.3|||Mixed Models Analysis|||||-24.3|-54.4|< 0.0001
92402833|NCT03175367|184696696|SUPERIORITY||Least Squares Mean Difference|-53.8|STANDARD_ERROR_OF_MEAN|7.6|<|0.0001|TWO_SIDED|95.0|-68.8|-38.9|||Mixed Models Analysis|||||-38.9|-68.8|< 0.0001
92402834|NCT03175367|184696696|SUPERIORITY||Least Squares Mean Difference|-58.5|STANDARD_ERROR_OF_MEAN|7.5|<|0.0001|TWO_SIDED|95.0|-73.4|-43.7|||Mixed Models Analysis|||||-43.7|-73.4|< 0.0001
92402835|NCT03175367|184696696|SUPERIORITY||Least Squares Mean Difference|-23.7|STANDARD_ERROR_OF_MEAN|8.1|=|0.0042|TWO_SIDED|95.0|-39.7|-7.7|||Mixed Models Analysis|||||-7.7|-39.7|= 0.0042
92165741|NCT00762619|184220173|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92402836|NCT03175367|184696696|SUPERIORITY||Least Squares Mean Difference|-50.9|STANDARD_ERROR_OF_MEAN|7.8|<|0.0001|TWO_SIDED|95.0|-66.4|-35.4|||Mixed Models Analysis|||||-35.4|-66.4|< 0.0001
92402837|NCT03175367|184696697|SUPERIORITY||Least Squares Mean Difference|-30.6|STANDARD_ERROR_OF_MEAN|9.7|=|0.0021|TWO_SIDED|95.0|-49.8|-11.4|||Mixed Models Analysis|||||-11.4|-49.8|= 0.0021
92402838|NCT03175367|184696697|SUPERIORITY||Least Squares Mean Difference|-54.6|STANDARD_ERROR_OF_MEAN|9.5|<|0.0001|TWO_SIDED|95.0|-73.4|-35.8|||Mixed Models Analysis|||||-35.8|-73.4|< 0.0001
92402839|NCT03175367|184696698|SUPERIORITY||Odds Ratio, log|19.4|||<|0.0001|TWO_SIDED|95.0|5.1|72.8|||Regression, Logistic|||||72.8|5.1|< 0.0001
92402840|NCT03175367|184696698|SUPERIORITY||Odds Ratio, log|23.9|||<|0.0001|TWO_SIDED|95.0|6.4|89.2|||Regression, Logistic|||||89.2|6.4|< 0.0001
92402841|NCT03175367|184696698|SUPERIORITY||Odds Ratio, log|22.1|||<|0.0001|TWO_SIDED|95.0|6.0|80.5|||Regression, Logistic|||||80.5|6.0|< 0.0001
92165742|NCT00762619|184220174|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92402842|NCT03175367|184696698|SUPERIORITY||Odds Ratio, log|8.5|||=|0.0007|TWO_SIDED|95.0|2.5|29.2|||Regression, Logistic|||||29.2|2.5|= 0.0007
92402843|NCT03175367|184696698|SUPERIORITY||Odds Ratio, log|42.3|||<|0.0001|TWO_SIDED|95.0|10.4|172.3|||Regression, Logistic|||||172.3|10.4|< 0.0001
92165743|NCT00762619|184220175|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165744|NCT00762619|184220176|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165745|NCT00762619|184220177|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165746|NCT00762619|184220178|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165747|NCT00762619|184220179|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165748|NCT00762619|184220180|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165749|NCT00762619|184220181|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165750|NCT00762619|184220182|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165751|NCT00762619|184220183|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165752|NCT00762619|184220184|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165753|NCT00762619|184220185|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92165754|NCT00762619|184220186|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92224111|NCT02171611|184349521|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|164.01|STANDARD_ERROR_OF_MEAN|51.7|||TWO_SIDED|90.0|132.421|203.14|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||203.14|132.421|
92362052|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.69|||||TWO_SIDED|95.0|0.55|0.86|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 5. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.86|0.55|
92362053|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.76|||||TWO_SIDED|95.0|0.61|0.94|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 6A. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.94|0.61|
92362054|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.97|||||TWO_SIDED|95.0|0.75|1.25|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 6B. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.25|0.75|
92362055|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.84|||||TWO_SIDED|95.0|0.67|1.07|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 7F. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.07|0.67|
92402844|NCT03175367|184696699|SUPERIORITY||Odds Ratio (OR)|9.6|||=|0.01|TWO_SIDED|95.0|1.7|53.5|||Regression, Logistic|||||53.5|1.7|= 0.0100
92402845|NCT03175367|184696699|SUPERIORITY||Odds Ratio (OR)|24.8|||=|0.0001|TWO_SIDED|95.0|4.7|129.9|||Regression, Logistic|||||129.9|4.7|= 0.0001
92402846|NCT03175367|184696699|SUPERIORITY||Odds Ratio (OR)|36.1|||<|0.0001|TWO_SIDED|95.0|6.7|194.7|||Regression, Logistic|||||194.7|6.7|< 0.0001
92402847|NCT03175367|184696699|SUPERIORITY||Odds Ratio (OR)|2.0|||=|0.3185|TWO_SIDED|95.0|0.5|8.2|||Regression, Logistic|||||8.2|0.5|= 0.3185
92402848|NCT03175367|184696699|SUPERIORITY||Odds Ratio (OR)|14.5|||<|0.0001|TWO_SIDED|95.0|3.9|54.2|||Regression, Logistic|||||54.2|3.9|< 0.0001
92402849|NCT03175367|184696700|SUPERIORITY||Odds Ratio (OR)|4.8|||=|0.0718|TWO_SIDED|95.0|0.9|26.5|||Regression, Logistic|||||26.5|0.9|= 0.0718
92224112|NCT00137111|184349554|SUPERIORITY_OR_OTHER_LEGACY||Binomial proportion|79.27|||||TWO_SIDED|95.0|75.69|82.85|||Binomial proportion|||Of the 498 eligible patients, 492 were successfully evaluated with day 46 MRD measurement.||82.85|75.69|
92402850|NCT03175367|184696700|SUPERIORITY||Odds Ratio (OR)|11.4|||=|0.0048|TWO_SIDED|95.0|2.1|62.1|||Regression, Logistic|||||62.1|2.1|= 0.0048
92402851|NCT03175367|184696700|SUPERIORITY||Odds Ratio (OR)|14.7|||=|0.0015|TWO_SIDED|95.0|2.8|76.8|||Regression, Logistic|||||76.8|2.8|= 0.0015
92402852|NCT03175367|184696700|SUPERIORITY||Odds Ratio (OR)|1.7|||=|0.527|TWO_SIDED|95.0|0.3|8.4|||Regression, Logistic|||||8.4|0.3|= 0.5270
92402853|NCT03175367|184696700|SUPERIORITY||Odds Ratio (OR)|7.7|||=|0.0047|TWO_SIDED|95.0|1.9|31.7|||Regression, Logistic|||||31.7|1.9|= 0.0047
92402854|NCT03175367|184696701|SUPERIORITY||Least Squares Mean Difference|-32.5|STANDARD_ERROR_OF_MEAN|11.5|=|0.0059|TWO_SIDED|95.0|-55.5|-9.6|||Mixed Models Analysis|||||-9.6|-55.5|= 0.0059
92402855|NCT03175367|184696701|SUPERIORITY||Least Squares Mean Difference|-54.5|STANDARD_ERROR_OF_MEAN|11.3|<|0.0001|TWO_SIDED|95.0|-77.0|-32.0|||Mixed Models Analysis|||||-32.0|-77.0|< 0.0001
92402856|NCT03175367|184696702|SUPERIORITY||Least Squares Mean Difference|-37.1|STANDARD_ERROR_OF_MEAN|5.7|<|0.0001|TWO_SIDED|95.0|-48.4|-25.8|||Mixed Models Analysis|||||-25.8|-48.4|< .0001
92402857|NCT03175367|184696702|SUPERIORITY||Least Squares Mean Difference|-46.4|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001|TWO_SIDED|95.0|-57.5|-35.2|||Mixed Models Analysis|||||-35.2|-57.5|< .0001
92402858|NCT03175367|184696702|SUPERIORITY||Least Squares Mean Difference|-51.5|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001|TWO_SIDED|95.0|-62.5|-40.4|||Mixed Models Analysis|||||-40.4|-62.5|< .0001
92362056|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.8|||||TWO_SIDED|95.0|0.63|1.02|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 9V. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.02|0.63|
92362057|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.72|||||TWO_SIDED|95.0|0.53|0.97|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 14. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.97|0.53|
92362058|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.8|||||TWO_SIDED|95.0|0.64|1.01|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 18C. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.01|0.64|
92362059|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.7|||||TWO_SIDED|95.0|0.56|0.87|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 19A. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.87|0.56|
92402859|NCT03175367|184696702|SUPERIORITY||Least Squares Mean Difference|-22.2|STANDARD_ERROR_OF_MEAN|6.2|=|0.0006|TWO_SIDED|95.0|-34.6|-9.8|||Mixed Models Analysis|||||-9.8|-34.6|= 0.0006
92402860|NCT03175367|184696702|SUPERIORITY||Least Squares Mean Difference|-46.4|STANDARD_ERROR_OF_MEAN|6.1|<|0.0001|TWO_SIDED|95.0|-58.4|-34.4|||Mixed Models Analysis|||||-34.4|-58.4|< .0001
92402861|NCT03175367|184696703|SUPERIORITY||Least Squares Mean Difference|-28.4|STANDARD_ERROR_OF_MEAN|7.1|=|0.0001|TWO_SIDED|95.0|-42.6|-14.3|||Mixed Models Analysis|||||-14.3|-42.6|= 0.0001
92402862|NCT03175367|184696703|SUPERIORITY||Least Squares Mean Difference|-49.3|STANDARD_ERROR_OF_MEAN|7.0|<|0.0001|TWO_SIDED|95.0|-63.2|-35.4|||Mixed Models Analysis|||||-35.4|-63.2|< .0001
92402863|NCT03175367|184696704|SUPERIORITY||Adjusted Mean Difference|-46.1|STANDARD_ERROR_OF_MEAN|6.0|<|0.0001|TWO_SIDED|95.0|-57.8|-34.3|||Regression, Linear|||||-34.3|-57.8|< .0001
92402864|NCT03175367|184696704|SUPERIORITY||Adjusted Mean Difference|-55.8|STANDARD_ERROR_OF_MEAN|5.9|<|0.0001|TWO_SIDED|95.0|-67.3|-44.3|||Regression, Linear|||||-44.3|-67.3|< .0001
92402865|NCT03175367|184696704|SUPERIORITY||Adjusted Mean Difference|-61.5|STANDARD_ERROR_OF_MEAN|5.8|<|0.0001|TWO_SIDED|95.0|-72.9|-50.0|||Regression, Linear|||||-50.0|-72.9|< .0001
92224113|NCT00137111|184349555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0062||||||p-value from t-test after stratified for lineage and ploidy|t-test, 2 sided|||t-test stratified for lineage and ploidy||||.0062
92402866|NCT03175367|184696704|SUPERIORITY||Adjusted Mean Difference|-25.2|STANDARD_ERROR_OF_MEAN|6.5|=|0.0001|TWO_SIDED|95.0|-38.0|-12.4|||Regression, Linear|||||-12.4|-38.0|= 0.0001
92402867|NCT03175367|184696704|SUPERIORITY||Adjusted Mean Difference|-45.9|STANDARD_ERROR_OF_MEAN|6.3|<|0.0001|TWO_SIDED|95.0|-58.4|-33.5|||Regression, Linear|||||-33.5|-58.4|< .0001
92402868|NCT03175367|184696705|SUPERIORITY||Adjusted Mean Difference|-17.1|STANDARD_ERROR_OF_MEAN|7.5|=|0.0228|TWO_SIDED|95.0|-31.8|-2.4|||Regression, Linear|||||-2.4|-31.8|= 0.0228
92402869|NCT03175367|184696705|SUPERIORITY||Adjusted Mean Difference|-45.3|STANDARD_ERROR_OF_MEAN|7.3|<|0.0001|TWO_SIDED|95.0|-59.6|-31.0|||Regression, Linear|||||-31.0|-59.6|< .0001
92224114|NCT00137111|184349556|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15||||||p-value from t-test after adjusted for lineage and ploidy|t-test, 2 sided|||t-test adjusting for lineage and ploidy||||.15
92402870|NCT03175367|184696706|SUPERIORITY||Adjusted Mean Difference|-10.6|STANDARD_ERROR_OF_MEAN|5.7|=|0.0635|TWO_SIDED|95.0|-21.8|0.6|||Regression, Linear|||||0.6|-21.8|= 0.0635
92402871|NCT03175367|184696706|SUPERIORITY||Adjusted Mean Difference|-11.9|STANDARD_ERROR_OF_MEAN|5.5|=|0.0314|TWO_SIDED|95.0|-22.8|-1.1|||Regression, Linear|||||-1.1|-22.8|= 0.0314
92402872|NCT03175367|184696706|SUPERIORITY||Adjusted Mean Difference|-9.2|STANDARD_ERROR_OF_MEAN|5.5|=|0.0923|TWO_SIDED|95.0|-19.9|1.5|||Regression, Linear|||||1.5|-19.9|= 0.0923
92402873|NCT03175367|184696706|SUPERIORITY||Adjusted Mean Difference|-16.5|STANDARD_ERROR_OF_MEAN|5.3|=|0.0017|TWO_SIDED|95.0|-26.8|-6.2|||Regression, Linear|||||-6.2|-26.8|= 0.0017
92402874|NCT03175367|184696706|SUPERIORITY||Adjusted Mean Difference|-16.5|STANDARD_ERROR_OF_MEAN|4.9|=|0.0009|TWO_SIDED|95.0|-26.2|-6.8|||Regression, Linear|||||-6.8|-26.2|= 0.0009
92402875|NCT03175367|184696707|SUPERIORITY||Adjusted Mean Difference|-16.1|STANDARD_ERROR_OF_MEAN|5.8|=|0.0054|TWO_SIDED|95.0|-27.4|-4.7|||Regression, Linear|||||-4.7|-27.4|= 0.0054
92402876|NCT03175367|184696707|SUPERIORITY||Adjusted Mean Difference|-14.6|STANDARD_ERROR_OF_MEAN|5.5|=|0.0085|TWO_SIDED|95.0|-25.4|-3.7|||Regression, Linear|||||-3.7|-25.4|= 0.0085
92402877|NCT02851615|184696708|SUPERIORITY|Power analyses were calculated on the PAM-13, our primary outcome measure. Analyses were conducted using the internal Monte Carlo simulation capabilities of Mplus (Version 1.20). Based on the effect size obtained from published pilot data, we expected the change in baseline/posttreatment Behavioral Activation for the SCThrive intervention group to be n2 = .14 (large effect). Based on these assumptions, the desired sample size was 54 participants (N = 27 per group) to achieve power of .80.|Mean Difference (Net)|7.75|STANDARD_ERROR_OF_MEAN|13.14||0.09|TWO_SIDED|95.0|-1.27|19.22||The threshold for statistical significance was p =.05|ANCOVA|||We conducted separate mixed ANOVA analyses to assess for the effects of group (SCThrive/SCHealthEd), time (baseline/post-treatment), and group x time interaction for the PAM-13.||19.22|-1.27|.09
92362060|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.65|||||TWO_SIDED|95.0|0.49|0.85|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 19F. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.85|0.49|
92224115|NCT00137111|184349557|SUPERIORITY_OR_OTHER_LEGACY|||||||9.5e-07|||||||Wilcoxon (Mann-Whitney)|||||||0.00000095
92224116|NCT00137111|184349558|SUPERIORITY_OR_OTHER_LEGACY|||||||7e-07|||||||Wilcoxon (Mann-Whitney)|||||||0.0000007
92362061|NCT00492557|184627347|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.95|||||TWO_SIDED|95.0|0.71|1.27|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 23F. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.27|0.71|
92362062|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.68|1.24|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 1. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.24|0.68|
92362063|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.69|1.2|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 3. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.20|0.69|
92362064|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.47|0.95|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 4. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.95|0.47|
92362065|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.77|1.6|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 5. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.60|0.77|
92362066|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.54|1.08|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 6A. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.08|0.54|
92362067|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.55|1.09|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 6B. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.09|0.55|
92362068|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.47|1.12|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 7F. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.12|0.47|
92369493|NCT00281099|184643813|SUPERIORITY_OR_OTHER|||||||0.9791||95.0||||The one-sided Wilcoxon Rank Sum test yielded a p-value greater than 0.05, which was the a priori threshold for significance.|Wilcoxon (Mann-Whitney)|||All subjects from the analysis cohort with available data for the time period of interest were included in the corresponding analysis. The null hypothesis was that the average percent ventricular pacing through 6 months post-implant for patients with MVP programming and was greater than or equal to that of patients with VVI 40 programming.||||0.9791
92224117|NCT04417894|184349559|SUPERIORITY||||||=|0.003|||||||Cochran-Mantel-Haenszel|||||||=0.0030
92224118|NCT04417894|184349560|SUPERIORITY||Difference|38.6|||<|0.0001|TWO_SIDED|95.0|24.06|53.15|||Mantel Haenszel|||||53.15|24.06|<0.0001
92224119|NCT00262873|184349581|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92224120|NCT00262873|184349582|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92224121|NCT00262873|184349583|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92224122|NCT00844753|184349587|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||Chi-squared|||||||0.47
92224123|NCT00844753|184349588|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||Chi-squared|||||||0.95
92224124|NCT02508194|184349592|SUPERIORITY||Vaccine efficacy|-7.1|||||TWO_SIDED|90.0|-106.9|44.3|||||The CI was estimated by an exact conditional method.|2 sided 90 percent (%) confidence interval (CI) was used to compare vaccine efficacy (VE). VE = (\[1 - relative risk (RR)\] \*100%), where RR was the RR of ARA-RI in the MEDI7510 group compared with the placebo group. A lower bound of the 90% CI greater than (\>) 0% would demonstrate the efficacy of MEDI7510.||44.3|-106.9|
92224125|NCT03485820|184349637|SUPERIORITY||Mean Difference (Net)|1.3||||0.76|TWO_SIDED|95.0|-7.1|9.6||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression, number of days in inpatient rehabilitation, and baseline calendar time.||9.6|-7.1|0.76
92224126|NCT03485820|184349638|SUPERIORITY||Mean Difference (Net)|-1.8||||0.6|TWO_SIDED|95.0|-8.6|5.0||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression, number of days in inpatient rehabilitation, and baseline calendar time.||5.0|-8.6|0.60
92224127|NCT03485820|184349639|SUPERIORITY||Mean Difference (Net)|-0.01||||0.83|TWO_SIDED|95.0|-0.06|0.05||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression, number of days in inpatient rehabilitation, and baseline calendar time.||0.05|-0.06|0.83
92224128|NCT03485820|184349640|SUPERIORITY||Mean Difference (Net)|0.39||||0.046|TWO_SIDED|95.0|0.01|0.77||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression , number of days in inpatient rehabilitation, and baseline calendar time.||0.77|0.01|0.046
92224129|NCT03485820|184349641|SUPERIORITY||Mean Difference (Net)|0.52||||0.02|TWO_SIDED|95.0|0.08|0.96||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression, number of days in inpatient rehabilitation, and baseline calendar time.||0.96|0.08|0.02
92224130|NCT03485820|184349642|SUPERIORITY||Mean Difference (Net)|-10.6||||0.07|TWO_SIDED|95.0|-21.9|0.8||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression, number of days in inpatient rehabilitation, and baseline calendar time.||0.8|-21.9|0.07
92224131|NCT03809611|184349673|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|1.77||0.1832|TWO_SIDED|90.0|-1.34|4.56||One-sided p-value for treatment difference|Mixed Models Analysis|||||4.56|-1.34|0.1832
92224132|NCT03809611|184349674|SUPERIORITY||Odds Ratio (OR)|1.9||||0.283|TWO_SIDED|90.0|0.72|4.78|||Cochran-Mantel-Haenszel|||||4.78|0.72|0.2830
92224133|NCT02600494|184349676|SUPERIORITY||Least Squares Mean Difference|0.9||||0.514|TWO_SIDED|95.0|-1.83|3.53||p-value is Hochberg-adjusted|Mixed Effects Model for Repeated Measure|||||3.53|-1.83|0.514
92224134|NCT02600494|184349676|SUPERIORITY||Least Squares Mean Difference|-1.0||||0.895|TWO_SIDED|95.0|-3.73|1.79||p-value is Hochberg adjusted|Mixed Effects Model for Repeated Measure|||||1.79|-3.73|0.895
92224135|NCT02600494|184349677|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.993|TWO_SIDED|95.0|0.712|1.4|||Regression, Cox|||||1.400|0.712|0.993
92224136|NCT02600494|184349677|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.665|TWO_SIDED|95.0|0.657|1.307|||Regression, Cox|||||1.307|0.657|0.665
92224137|NCT03124563|184349697|SUPERIORITY||||||=|0.006|||||||Mixed Models Analysis|Controlling for age, gender, and functional health||||||=.006
92224138|NCT03124563|184349698|SUPERIORITY|||||||0.034|||||||Mixed Models Analysis|Controlling for age, gender, and functional health||||||.034
92362069|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.42|1.03|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 9V. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.03|0.42|
92402878|NCT02851615|184696709|SUPERIORITY||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.55||0.28|TWO_SIDED|95.0|-0.19|0.66||The threshold for significance was p =.05|ANCOVA|||We conducted separate mixed ANOVA analyses to assess for the effects of group (SCThrive/SCHealthEd), time (baseline/post-treatment), and group x time interaction for the TRAQ-5||.66|-.19|.28
92402879|NCT02851615|184696710|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_DEVIATION|0.13||0.27|TWO_SIDED|95.0|-0.018|0.06||The threshold for statistical significance was p =.05|t-test, 2 sided|||We conducted a paired-samples t-test to assess for the effects of time (baseline/post-treatment) for participants (n=16) in the SCThrive intervention arm for the UNC TRxANSITION Scale.||.06|-.018|.27
92362070|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.65|1.24|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 14. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.24|0.65|
92362071|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.59|1.14|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 18C. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.14|0.59|
92362072|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.61|1.12|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 19A. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.12|0.61|
92362073|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.57|1.16|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 19F. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.16|0.57|
92362074|NCT00492557|184627350|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.54|1.27|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 23F. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.27|0.54|
92362075|NCT00372957|184627361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|||||TWO_SIDED|95.0|-2.28|-1.93|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||-1.93|-2.28|
92362076|NCT00372957|184627361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16|||||TWO_SIDED|95.0|-2.33|-1.98|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||-1.98|-2.33|
92224139|NCT03124563|184349699|SUPERIORITY|||||||0.065|||||||Mixed Models Analysis|Controlling for age, gender, and education||||||.065
92224140|NCT03124563|184349700|SUPERIORITY|||||||0.308|||||||Mixed Models Analysis|Controlling for age, gender, and level of education||||||.308
92224141|NCT03124563|184349701|SUPERIORITY|||||||0.349|||||||ANOVA|||||||.349
92224142|NCT03124563|184349702|SUPERIORITY|||||||0.022|||||||Mixed Models Analysis|Controlling for age, gender, and level of education||||||.022
92362077|NCT00372957|184627361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|||||TWO_SIDED|95.0|-2.15|-1.82|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||-1.82|-2.15|
92362078|NCT00372957|184627361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.12|||||TWO_SIDED|95.0|-2.28|-1.95|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||-1.95|-2.28|
92362079|NCT00372957|184627362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.87|||||TWO_SIDED|95.0|2.33|5.41|||Double-delta analysis||he point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||5.41|2.33|
92362080|NCT00372957|184627362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.21|||||TWO_SIDED|95.0|3.7|6.73|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||6.73|3.70|
92362081|NCT00372957|184627362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.22|||||TWO_SIDED|95.0|1.9|4.54|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||4.54|1.90|
92402880|NCT02345070|184696721|SUPERIORITY|The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least Square (LS) Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.05|=|0.6339|TWO_SIDED|95.0|-2.56|1.56||Threshold for significance at 0.05 level.|Mixed Models Analysis||SAR156597 200mg qw versus Placebo qw|A hierarchical testing procedure was used to control type I error. Testing was done sequentially in order the outcome measures were reported. Analyzed using Mixed Model for Repeated Measurements (MMRM) with fixed categorical effects of treatment arm, stratification factor (with/without background therapy), time point, treatment-by-time point interaction, stratification factor-by-treatment-by-time point interaction, and continuous fixed covariate of percent predicted FVC baseline.||1.56|-2.56|= 0.6339
92402881|NCT02345070|184696721|SUPERIORITY|The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|LS Mean Difference|0.56|STANDARD_ERROR_OF_MEAN|1.04|=|0.5874|TWO_SIDED|95.0|-1.47|2.6||Threshold for significance at 0.05 level.|Mixed Models Analysis||SAR156597 200mg q2w versus Placebo qw|A hierarchical testing procedure was used to control type I error. Testing was performed sequentially in the order outcome measures were reported (q2w dose group compared to placebo). Analysis was performed using MMRM with fixed categorical effects of treatment arm, stratification factor (with/without background therapy), time point, treatment-by-time point interaction, stratification factor-by-treatment-by-time point interaction, and continuous fixed covariate of percent predicted FVC baseline.||2.6|-1.47|= 0.5874
92402882|NCT02151058|184696724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.659|STANDARD_ERROR_OF_MEAN|0.0999|<|0.001|TWO_SIDED|95.0|-0.8559|-0.4622||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.4622|-0.8559|<0.001
92165755|NCT05555082|184220212|OTHER|Single-arm feasibility design; exploratory within-group analysis.|Mean Difference (Final Values)|-3.398||||0.021|TWO_SIDED|95.0|-6.236|-0.559||P-values reported for transparency; feasibility study not powered for hypothesis testing.|Mixed Models Analysis|Linear mixed model with repeated measures; maximum likelihood estimation.|Within-group change from baseline to 12 months|Single-arm feasibility design; exploratory within-group analysis.||-0.559|-6.236|0.021
92165756|NCT05555082|184220212|OTHER||Cohens d|0.66|||||TWO_SIDED|||||||||||||
92165757|NCT05555082|184220213|OTHER|Single-arm feasibility design; exploratory within-group analysis.|Median Difference (Final Values)|-1.328||||0.318|TWO_SIDED|95.0|-4.013|1.357||P-values reported for transparency; study not powered for significance testing.|Mixed Models Analysis|Linear mixed model with repeated measures; maximum likelihood estimation.|Within-group change from baseline to 12 months;|"Single-arm feasibility design; exploratory within-group analysis."||1.357|-4.013|0.318
92362082|NCT00372957|184627362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.39|||||TWO_SIDED|95.0|3.1|5.68|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||5.68|3.10|
92362083|NCT00372957|184627363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.56|||||TWO_SIDED|95.0|-6.0|2.89|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||2.89|-6.00|
92362084|NCT00372957|184627363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21|||||TWO_SIDED|95.0|-3.3|5.72|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||5.72|-3.30|
92165758|NCT05555082|184220213|OTHER||Cohens d|0.29|||||TWO_SIDED|||||||||||||
92362085|NCT00372957|184627363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35|||||TWO_SIDED|95.0|-5.2|2.5|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||2.50|-5.20|
92227202|NCT03694392|184356622|OTHER||Hazard Ratio (HR)|1.8|||<|0.05|TWO_SIDED|95.0|-2.2|5.5|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 1.8% (-2.2% to 5.5%)|||5.5|-2.2|<0.05
92227203|NCT03694392|184356623|OTHER||Hazard Ratio (HR)|9.4|||<|0.05|TWO_SIDED|95.0|-5.4|22.1|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 9.4% (-5.4% to 22.1%)|||22.1|-5.4|<0.05
92362086|NCT00372957|184627363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.48|||||TWO_SIDED|95.0|-2.47|5.43|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||5.43|-2.47|
92227204|NCT03694392|184356624|OTHER||Hazard Ratio (HR)|0.94|||<|0.05|TWO_SIDED|95.0|0.86|1.02|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 6.2% (-2.2% to 13.9%)|||1.02|0.86|<0.05
92227205|NCT03694392|184356625|OTHER||Hazard Ratio (HR)|1.07|||<|0.05|TWO_SIDED|95.0|0.75|1.52|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -6.9% (-51.6% to 24.6%)|||1.52|0.75|<0.05
92362087|NCT00372957|184627364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1|||||TWO_SIDED|95.0|-20.4|4.2|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||4.2|-20.4|
92362088|NCT00372957|184627364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2|||||TWO_SIDED|95.0|-28.4|-3.9|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||-3.9|-28.4|
92402883|NCT02151058|184696724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.993|STANDARD_ERROR_OF_MEAN|0.1005|<|0.001|TWO_SIDED|95.0|-1.1909|-0.7946||The significance threshold level was 0.05 (two-sided). Hypotheses were tested according to a hierarchical strategy.|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.7946|-1.1909|<0.001
92402884|NCT02151058|184696724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.334|STANDARD_ERROR_OF_MEAN|0.0812|<|0.001|TWO_SIDED|95.0|-0.4937|-0.1737||The significance threshold level was 0.05 (two-sided). Hypotheses were tested according to a hierarchical strategy.|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1737|-0.4937|<0.001
92402885|NCT02151058|184696725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.286|STANDARD_ERROR_OF_MEAN|0.0809|<|0.001|TWO_SIDED|95.0|-0.445|-0.1263||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1263|-0.4450|<0.001
92227206|NCT03694392|184356626|OTHER||Hazard Ratio (HR)|0.95|||<|0.05|TWO_SIDED|95.0|0.76|1.12|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 5.2% (-18.8% to 24.4%)|||1.12|0.76|<0.05
92362089|NCT00372957|184627364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9|||||TWO_SIDED|95.0|-23.1|1.4|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||1.4|-23.1|
92362090|NCT00372957|184627364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.6|||||TWO_SIDED|95.0|-27.9|-3.3|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||-3.3|-27.9|
92362091|NCT00372957|184627365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|||||TWO_SIDED|95.0|-0.64|1.16|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||1.16|-0.64|
92362092|NCT00372957|184627365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|||||TWO_SIDED|95.0|-0.47|1.32|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||1.32|-0.47|
92362093|NCT00372957|184627365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|||||TWO_SIDED|95.0|-0.37|1.07|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||1.07|-0.37|
92362094|NCT00372957|184627365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48|||||TWO_SIDED|95.0|-0.24|1.21|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||1.21|-0.24|
92362095|NCT00372957|184627366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9|||||TWO_SIDED|95.0|-40.7|0.9|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||0.9|-40.7|
92402886|NCT02151058|184696725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.328|STANDARD_ERROR_OF_MEAN|0.0811|<|0.001|TWO_SIDED|95.0|-0.4877|-0.1679||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1679|-0.4877|<0.001
92402887|NCT02151058|184696725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.0653||0.52|TWO_SIDED|95.0|-0.1709|0.0866||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.0866|-0.1709|0.520
92402888|NCT02151058|184696726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.513|STANDARD_ERROR_OF_MEAN|0.0971|<|0.001|TWO_SIDED|95.0|-0.7043|-0.3217||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.3217|-0.7043|<0.001
92227207|NCT03694392|184356627|OTHER||Hazard Ratio (HR)|0.89|||<|0.05|TWO_SIDED|95.0|0.85|0.93|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 10.8% (6.6% to 14.7%)|||0.93|0.85|<0.05
92227208|NCT03694392|184356628|OTHER||Hazard Ratio (HR)|1.001|||<|0.05|TWO_SIDED|95.0|0.94|1.06|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -0.1% (-6.2% to 5.6%)|||1.06|0.94|<0.05
92227209|NCT03694392|184356629|OTHER||Hazard Ratio (HR)|1.46|||<|0.05|TWO_SIDED|95.0|1.06|2.0|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -45.5% (-100.2% to -5.8%)|||2.00|1.06|<0.05
92362096|NCT00372957|184627366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|||||TWO_SIDED|95.0|-29.8|11.7|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||11.7|-29.8|
92362097|NCT00372957|184627366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.9|||||TWO_SIDED|95.0|-33.2|1.4|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||1.4|-33.2|
92362098|NCT00372957|184627366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.2|||||TWO_SIDED|95.0|-23.4|11.1|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||11.1|-23.4|
92402889|NCT02151058|184696726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.685|STANDARD_ERROR_OF_MEAN|0.0975|<|0.001|TWO_SIDED|95.0|-0.877|-0.4925||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.4925|-0.8770|<0.001
92402890|NCT02151058|184696726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.172|STANDARD_ERROR_OF_MEAN|0.0786||0.03|TWO_SIDED|95.0|-0.3268|-0.0168||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0168|-0.3268|0.030
92227210|NCT03694392|184356630|OTHER||Hazard Ratio (HR)|0.9|||<|0.05|TWO_SIDED|95.0|0.82|0.99|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 10.2% (1.4% to 18.2%)|||0.99|0.82|<0.05
92227211|NCT03694392|184356631|OTHER||Hazard Ratio (HR)|1.16|||<|0.05|TWO_SIDED|95.0|0.95|1.43|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -16.2% (-43.0% to 5.5%)|||1.43|0.95|<0.05
92362099|NCT04790786|184627375|EQUIVALENCE|Equivalence between two arms was defined as 95% posterior probability the odds ratio is within a given bound.||||||||||||Equivalence between two arms was defined as 95% posterior probability the odds ratio is within a given bound based on Bayesian probability.|Bayesian cumulative logistic model|Bayesian cumulative logistic model, Equivalence between two arms was defined as 95% posterior probability the odds ratio is within a given bound.||The primary analysis model was a Bayesian cumulative logistic model that adjusted for treatment location (infusion center or ED), age (\<30, 30-39, 40-49, 50-59, 60-69, 70-79, and ≥ 80 years), sex, and time (2-week epochs). Comparisons between individual mAb were based on the relative odds ratio between a given two arms for the primary outcome. An odds ratio for an arm to a comparator \>1 implies improved outcomes. A sliding scale with different levels of equivalence bounds was pre-defined|Equivalence between two arms was defined as 95% posterior probability the odds ratio is within a given bound.|||
92362100|NCT04102007|184627388|OTHER|There is no statistical test for this study|Proportion of sPGA 0/1 @ WK 16|57.4|||||TWO_SIDED|95.0|51.1|63.4|||Other|There is no test of hypothesis for this study.|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||63.4|51.1|
92362101|NCT04102007|184627389|OTHER|There is no statistical test for this study|Proportion of sPGA 0 @ WK 16|20.5|||||TWO_SIDED|95.0|15.4|26.0|||Other|There is no test of hypothesis for this study|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||26.0|15.4|
92362102|NCT04102007|184627390|OTHER|There is no statistical test for this study|Proportion of DLQI 0 or 1 @ WK 16|40.2|||||TWO_SIDED|95.0|34.2|46.4|||Other|There is no test of hypothesis for this study.|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||46.4|34.2|
92362103|NCT04102007|184627391|OTHER|There is no statistical test for this study|Proportion of PSS 0 @ WK 16|20.9|||||TWO_SIDED|95.0|16.3|26.4|||Other|There is no test of hypothesis for this study|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||26.4|16.3|
92362104|NCT04102007|184627392|OTHER|There is no statistical test for this study|Proportion of sPGA 0/1 @ WK 52|62.3|||||TWO_SIDED|95.0|56.0|68.1|||Other|There is no test of hypothesis for this study|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||68.1|56.0|
92362105|NCT04102007|184627393|OTHER|There is no statistical test for this study|Proportion of sPGA 0 @ WK 52|27.1|||||TWO_SIDED|95.0|21.9|33.0|||Other|There is no test of hypothesis for this study|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||33.0|21.9|
92362106|NCT04102007|184627394|OTHER|There is no statistical test for this study|Proportion of DLQI 0 or 1 @ WK 52|47.2|||||TWO_SIDED|95.0|41.0|53.4|||Other|There is no test of hypothesis for this study.|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||53.4|41.0|
92362107|NCT04102007|184627395|OTHER|There is no statistical test for this study|Proportion of PSS 0 @ WK 52|27.5|||||TWO_SIDED|95.0|22.3|33.4|||Other|There is no test of hypothesis for this study|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||33.4|22.3|
92362108|NCT05173974|184627398|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.037|TWO_SIDED|95.0|0.01|0.29||P-value included Bonferroni adjustment.|ANCOVA||ANCOVA with treatment and period as fixed effects; covariates for participant level baseline (natural logged) and period level baseline (natural logged) minus participant level baseline (natural logged). Participants included as a random effect.|||0.29|0.01|0.037
92362109|NCT05173974|184627398|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.044|TWO_SIDED|95.0|0.0|0.28||P-value included Bonferroni adjustment.|ANCOVA||ANCOVA with treatment and period as fixed effects; covariates for participant level baseline (natural logged) and period level baseline (natural logged) minus participant level baseline (natural logged). Participant included as a random effect.|||0.28|0.00|0.044
92362110|NCT05173974|184627398|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.005|TWO_SIDED|95.0|0.06|0.3||unadjusted P-value was presented.|ANCOVA||||ANCOVA with treatment and period as fixed effects; covariates for participant level baseline (natural logged) and period level baseline (natural logged) minus participant level baseline (natural logged). Participants included as a random effect.|0.30|0.06|0.005
92362111|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.218|TWO_SIDED|95.0|-0.04|0.17|||ANCOVA||Statistical comparison for AOB 0-0.5|||0.17|-0.04|0.218
92362112|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.034|TWO_SIDED|95.0|0.01|0.21|||ANCOVA||Statistical comparison for AOB 0-0.5|||0.21|0.01|0.034
92362113|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.004|TWO_SIDED|95.0|0.05|0.25|||ANCOVA||Statistical comparison for AOB 0-0.5|||0.25|0.05|0.004
92362114|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.058|TWO_SIDED|95.0|0.0|0.24|||ANCOVA||Statistical comparison for AOB 0-1|||0.24|-0.00|0.058
92362115|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.017|TWO_SIDED|95.0|0.03|0.27|||ANCOVA||Statistical comparison for AOB 0-1|||0.27|0.03|0.017
92362116|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.001|TWO_SIDED|95.0|0.09|0.33|||ANCOVA||Statistical comparison for AOB 0-1|||0.33|0.09|0.001
92362117|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.004|TWO_SIDED|95.0|0.06|0.3|||ANCOVA||Statistical comparison for AOB 0-3|||0.30|0.06|0.004
92362118|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.01|TWO_SIDED|95.0|0.04|0.27|||ANCOVA||Statistical comparison for AOB0-3|||0.27|0.04|0.010
92402891|NCT02151058|184696727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083|STANDARD_ERROR_OF_MEAN|0.0369||0.026|TWO_SIDED|95.0|-0.1556|-0.0102||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0102|-0.1556|0.026
92362119|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.002|TWO_SIDED|95.0|0.07|0.31|||ANCOVA||Statistical comparison for AOB0-3|||0.31|0.07|0.002
92362120|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.022|TWO_SIDED|95.0|0.02|0.29|||ANCOVA||Statistical comparison for AOB 0-6|||0.29|0.02|0.022
92165759|NCT05555082|184220214|OTHER|Single-arm feasibility design; exploratory within-group analysis.|Median Difference (Final Values)|-1.453||||0.28|TWO_SIDED|95.0|-4.174|1.268||P-values reported for transparency; study not powered for significance testing.|Mixed Models Analysis|Linear mixed model with repeated measures; maximum likelihood estimation.|Within-group change from baseline to 12 months|"Single-arm feasibility design; exploratory within-group analysis."||1.268|-4.174|0.28
92165760|NCT05555082|184220214|OTHER||Cohens d|0.23|||||TWO_SIDED|||||||||||||
92362121|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.011|TWO_SIDED|95.0|0.04|0.3|||ANCOVA||Statistical comparison for AOB 0-6|||0.30|0.04|0.011
92362122|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.005|TWO_SIDED|95.0|0.06|0.33|||ANCOVA||Statistical comparison for AOB 0-6|||0.33|0.06|0.005
92362123|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.037|TWO_SIDED|95.0|0.01|0.27|||ANCOVA||Statistical comparison for AOB 0-9|||0.27|0.01|0.037
92362124|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.013|TWO_SIDED|95.0|0.04|0.3|||ANCOVA||Statistical comparison for AOB 0-9|||0.30|0.04|0.013
92362125|NCT05173974|184627399|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.005|TWO_SIDED|95.0|0.06|0.32|||ANCOVA||Statistical comparison for AOB 0-9|||0.32|0.06|0.005
92362126|NCT03289143|184627400|SUPERIORITY|||||||0.6147||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.6147
92362127|NCT03289143|184627400|SUPERIORITY|||||||0.5778||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.5778
92362128|NCT03289143|184627400|SUPERIORITY|||||||0.5136||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.5136
92362129|NCT03289143|184627402|SUPERIORITY|||||||0.8198||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.8198
92362130|NCT03289143|184627402|SUPERIORITY|||||||0.3961||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.3961
92362131|NCT03289143|184627402|SUPERIORITY|||||||0.6043||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.6043
92362132|NCT03289143|184627403|SUPERIORITY|||||||0.0783||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.0783
92362133|NCT03289143|184627403|SUPERIORITY|||||||0.601||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.6010
92362134|NCT03289143|184627403|SUPERIORITY|||||||0.3961||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.3961
92362135|NCT03289143|184627404|SUPERIORITY|||||||0.9749||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.9749
92362136|NCT03289143|184627404|SUPERIORITY|||||||0.7718||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.7718
92362137|NCT03289143|184627404|SUPERIORITY|||||||0.5789||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.5789
92362138|NCT03289143|184627405|SUPERIORITY|||||||0.5235||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.5235
92362139|NCT03289143|184627405|SUPERIORITY|||||||0.5612||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.5612
92362140|NCT03289143|184627405|SUPERIORITY|||||||0.713||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.7130
92362141|NCT01453166|184627558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|120.0|STANDARD_DEVIATION|19.0|<|0.05||95.0|100.0|140.0|||ANOVA|||"The absolute changes has been assessed by ANOVA, in which the homogeneity of variance was assessed and the Brown-Forsythe correction was used when necessary. In cases of statistically significant differences between groups, we used multiple comparisons with Bonferroni adjustment to locate the differences. Was considered statistically significant p values \<0.05. All analyzes were performed following the principle of intention to treat."||140|100|<0.05
92362142|NCT01453166|184627559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|78.0|STANDARD_DEVIATION|15.0||0.05||95.0|66.0|95.0|||ANOVA|||||95|66|0.05
92362143|NCT01453166|184627560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|170.0|STANDARD_DEVIATION|39.0||0.05||95.0|140.0|220.0|||ANOVA|||"The absolute changes has been assessed by ANOVA, in which the homogeneity of variance was assessed and the Brown-Forsythe correction was used when necessary. In cases of statistically significant differences between groups, we used multiple comparisons with Bonferroni adjustment to locate the differences. Was considered statistically significant p values \<0.05. All analyzes were performed following the principle of intention to treat."||220|140|0.05
92362144|NCT01453166|184627561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|100.0|STANDARD_DEVIATION|12.0||0.05||95.0|88.0|112.0|||ANOVA|||"The absolute changes has been assessed by ANOVA, in which the homogeneity of variance was assessed and the Brown-Forsythe correction was used when necessary. In cases of statistically significant differences between groups, we used multiple comparisons with Bonferroni adjustment to locate the differences. Was considered statistically significant p values \<0.05. All analyzes were performed following the principle of intention to treat."||112|88|0.05
92362145|NCT01453166|184627562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|100.0|STANDARD_DEVIATION|30.0||0.05||95.0|77.0|137.0|||ANOVA|||"The absolute changes has been assessed by ANOVA, in which the homogeneity of variance was assessed and the Brown-Forsythe correction was used when necessary. In cases of statistically significant differences between groups, we used multiple comparisons with Bonferroni adjustment to locate the differences. Was considered statistically significant p values \<0.05. All analyzes were performed following the principle of intention to treat."||137|77|0.05
92362146|NCT02727322|184627563|SUPERIORITY||Risk Ratio (RR)|1.1||||0.97|TWO_SIDED|95.0|0.5|2.04|||Chi-squared|||||2.04|0.50|0.97
92362147|NCT02727322|184627564|SUPERIORITY||Risk Ratio (RR)|1.12||||0.665|TWO_SIDED|95.0|0.885|1.43|||Chi-squared|||||1.43|0.885|0.665
92362148|NCT02727322|184627565|SUPERIORITY||Risk Ratio (RR)|1.32||||1|TWO_SIDED|95.0|0.31|5.68|||Fisher Exact|||||5.68|0.31|1.0
92362149|NCT00560417|184627594|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin was prespecified at 0.4%|Mean Difference (Final Values)|0.22|||||TWO_SIDED|95.0|0.06|0.38|||ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group.||||0.38|0.06|
92362150|NCT00560417|184627595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.003|TWO_SIDED|95.0|0.08|0.39||p-value is for 24 weeks.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||0.39|0.08|0.003
92362151|NCT00560417|184627595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.008|TWO_SIDED|95.0|0.06|0.38||p-value is for Endpoint (LOCF)|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||0.38|0.06|0.008
92362152|NCT00560417|184627596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.003|TWO_SIDED|95.0|0.08|0.39||p-value is for 24 Weeks change.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||0.39|0.08|0.003
92362153|NCT00560417|184627596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.008|TWO_SIDED|95.0|0.06|0.38||p-value is for Endpoint (LOCF) Change.|ANCOVA|||||0.38|0.06|0.008
92362154|NCT00560417|184627597|SUPERIORITY_OR_OTHER|||||||0.561||95.0||||p-value is for Week 12: HbA1c \<7.0%|Fisher Exact|||||||0.561
92402892|NCT02151058|184696727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.118|STANDARD_ERROR_OF_MEAN|0.0372||0.002|TWO_SIDED|95.0|-0.1917|-0.0451||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0451|-0.1917|0.002
92402893|NCT02151058|184696727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.035|STANDARD_ERROR_OF_MEAN|0.0297||0.234|TWO_SIDED|95.0|-0.094|0.0231||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.0231|-0.0940|0.234
92362155|NCT00560417|184627597|SUPERIORITY_OR_OTHER|||||||0.511||95.0||||p-value is for Week 12: HbA1c \<=6.5%|Fisher Exact|||||||0.511
92362156|NCT00560417|184627597|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||p-value is for Week 18: HbA1c \<7.0%|Fisher Exact|||||||0.012
92362157|NCT00560417|184627597|SUPERIORITY_OR_OTHER|||||||0.269||95.0||||p-value is for Week 18: HbA1c \<=6.5%|Fisher Exact|||||||0.269
92362158|NCT00560417|184627597|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||p-value is for Week 24: HbA1c \<7.0%|Fisher Exact|||||||0.161
92362159|NCT00560417|184627597|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||p-value is for Week 24: HbA1c \<=6.5%|Fisher Exact|||||||0.071
92362160|NCT00560417|184627597|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||p-value is for Endpoint (LOCF): HbA1c \<7.0%|Fisher Exact|||||||0.177
92362161|NCT00560417|184627597|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||p-value is for Endpoint (LOCF): HbA1c \<=6.5%|Fisher Exact|||||||0.060
92362162|NCT00560417|184627598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.28||||0.179|TWO_SIDED|95.0|-1.97|10.53||p-value is for Endpoint Morning Pre-Meal.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||10.53|-1.97|0.179
92362163|NCT00560417|184627598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.96|||<|0.001|TWO_SIDED|95.0|5.72|22.19||p-value is for Endpoint Morning Postprandial.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||22.19|5.72|<0.001
92362164|NCT00560417|184627598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8||||0.325|TWO_SIDED|95.0|-3.79|11.39||p-value is for Endpoint Midday Pre-Meal.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||11.39|-3.79|0.325
92362165|NCT00560417|184627598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.73||||0.051|TWO_SIDED|95.0|-0.04|17.5||p-value is for Endpoint Midday Postprandial.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||17.50|-0.04|0.051
92362166|NCT00560417|184627598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.92||||0.003|TWO_SIDED|95.0|3.66|18.19||p-value is for Endpoint Evening Pre-Meal.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||18.19|3.66|0.003
92362167|NCT00560417|184627598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.19||||0.002|TWO_SIDED|95.0|5.44|22.94||p-value is for Endpoint Evening Postprandial.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||22.94|5.44|0.002
92362168|NCT00560417|184627598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.03||||0.415|TWO_SIDED|95.0|-10.35|4.28||p-value is for Endpoint 0300 Hours.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||4.28|-10.35|0.415
92362169|NCT00560417|184627598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.39||||0.015|TWO_SIDED|95.0|1.46|13.32||p-value is for Endpoint Daily Mean 7-Point Blood Glucose.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||13.32|1.46|0.015
92362170|NCT00560417|184627598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.12||||0.021|TWO_SIDED|95.0|1.1|13.14||p-value is for Endpoint Daily Mean Pre-Meal.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||13.14|1.10|0.021
92362171|NCT00560417|184627598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.97|||<|0.001|TWO_SIDED|95.0|5.01|18.93||p-value is for Endpoint Daily Mean Postprandial.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||18.93|5.01|<0.001
92362172|NCT00560417|184627599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.27||||0.131|TWO_SIDED|95.0|-0.68|5.22||p-value is for Baseline.|ANOVA|Variable = Treatment + Baseline HbA1c Group + Baseline SU Group||||5.22|-0.68|0.131
92362173|NCT00560417|184627599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.99|||<|0.001|TWO_SIDED|95.0|2.82|9.16||p-value is for Endpoint.|ANOVA|Variable = Treatment + Baseline HbA1c Group + Baseline SU Group||||9.16|2.82|<0.001
92362174|NCT00560417|184627600|SUPERIORITY_OR_OTHER|||||||0.826||95.0||||p-value is for all reported hypoglycemic events at endpoint.|Fisher Exact|||||||0.826
92362175|NCT00560417|184627600|SUPERIORITY_OR_OTHER|||||||0.394||95.0||||p-value is for all reported hypoglycemic events overall.|Fisher Exact|||||||0.394
92362176|NCT00560417|184627600|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||p-value is for non-nocturnal hypoglycemic events at endpoint.|Fisher Exact|||||||0.070
92362177|NCT00560417|184627600|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||p-value is for non-nocturnal hypoglycemic events overall.|Fisher Exact|||||||0.133
92362178|NCT00560417|184627600|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||p-value is for nocturnal hypoglycemic events at endpoint.|Fisher Exact|||||||0.013
92362179|NCT00560417|184627600|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||p-value is for nocturnal hypoglycemic events overall.|Fisher Exact|||||||0.061
92362180|NCT00560417|184627600|SUPERIORITY_OR_OTHER|||||||0.248||95.0||||p-value is for severe hypoglycemic events overall.|Fisher Exact|||||||0.248
92362181|NCT00560417|184627601|SUPERIORITY_OR_OTHER|||||||0.628||95.0||||p-value is for All reported episodes rate - Endpoint.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.628
92362182|NCT00560417|184627601|SUPERIORITY_OR_OTHER|||||||0.57||95.0||||p-value is for All reported episodes rate - Overall.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.570
92362183|NCT00560417|184627601|SUPERIORITY_OR_OTHER|||||||0.116||95.0||||p-value is for Non-Nocturnal reported episodes rate - Endpoint.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.116
92362184|NCT00560417|184627601|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||p-value is for Non-Nocturnal reported episodes rate - Overall.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.044
92362185|NCT00560417|184627601|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||p-value is for Nocturnal reported episodes rate - Endpoint.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.006
92362186|NCT00560417|184627601|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||p-value is for Nocturnal reported episodes rate - Overall.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.004
92362187|NCT00560417|184627602|SUPERIORITY_OR_OTHER|||||||0.343||95.0||||p-value is for endpoint.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group (Type III sums of squares)||||||0.343
92362188|NCT00560417|184627603|SUPERIORITY_OR_OTHER|||||||0.417||95.0||||p-value is for the change in body weight at endpoint in the ILPS treatment group.|t-test, 2 sided|||||||0.417
92362189|NCT00560417|184627603|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||p-value is for the change in body weight at endpoint in the glargine treatment group.|t-test, 2 sided|||||||0.041
92362190|NCT00560417|184627603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.343|TWO_SIDED|95.0|-1.15|0.4||p-value is for change in body weight at endpoint between ILPS and glargine treatment groups.|ANOVA|||||0.40|-1.15|0.343
92362191|NCT00560417|184627604|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Variable = Treatment + Baseline HbA1c Group+ Baseline SU Group||||||<0.001
92362192|NCT00320606|184627605|OTHER||95% confidence interval using an exact b|0.6|||||TWO_SIDED|95.0|0.4|0.8|||||Proportion Success|The proportion of participants in whom immunosuppression withdrawal was attempted who are successfully withdrawn from immunosuppression are descriptively summarized with 95% confidence intervals using an exact binomial method||0.8|0.4|
92362193|NCT00320606|184627606|OTHER||Binomial Proportion|0.0|||||TWO_SIDED|95.0|0.0|0.1684|||||95% Confidence Interval Exact Binomial|The proportion of participants in whom immunosuppression (IS) withdrawal was attempted who are successfully withdrawn from immunosuppression and experience death or graft loss are descriptively summarized with 95% confidence intervals using an exact binomial method.||0.1684|0.0|
92362194|NCT04358406|184627616|SUPERIORITY||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
92362195|NCT04358406|184627616|SUPERIORITY||||||>|0.1|||||||Chi-squared|||||||>0.1
92362196|NCT00256126|184627629|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92362197|NCT00854360|184627659|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.26||0.255|TWO_SIDED|95.0|-0.8|0.21||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.21|-0.80|0.255
92362198|NCT00854360|184627659|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.25||0.257|TWO_SIDED|95.0|-0.78|0.21||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.21|-0.78|0.257
92362199|NCT00854360|184627659|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.25||0.013|TWO_SIDED|95.0|-1.13|-0.13||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||-0.13|-1.13|0.013
92362200|NCT00854360|184627660|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.25||0.278|TWO_SIDED|95.0|-0.77|0.22||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.22|-0.77|0.278
92362201|NCT00854360|184627660|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.25||0.385|TWO_SIDED|95.0|-0.7|0.27||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.27|-0.70|0.385
92362202|NCT00854360|184627660|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.25||0.016|TWO_SIDED|95.0|-1.09|-0.11||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated Measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||-0.11|-1.09|0.016
92165761|NCT05555082|184220215|OTHER|Single-arm feasibility design; exploratory within-group analysis.|Median Difference (Final Values)|-2.122||||0.023|TWO_SIDED|95.0|-3.917|-0.326||P-values reported for transparency; study not powered for significance testing.|Mixed Models Analysis|Linear mixed model with repeated measures; maximum likelihood estimation.|Within-group change from baseline to 12 months|"Single-arm feasibility design; exploratory within-group analysis."||-0.326|-3.917|0.023
92362203|NCT00854360|184627661|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.26||0.082|TWO_SIDED|95.0|-0.95|0.06||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.06|-0.95|0.082
92362204|NCT00854360|184627661|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.25||0.114|TWO_SIDED|95.0|-0.9|0.1||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.10|-0.90|0.114
92362205|NCT00854360|184627661|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.26||0.001|TWO_SIDED|95.0|-1.33|-0.33||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||-0.33|-1.33|0.001
92362206|NCT00854360|184627662|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.23||0.747|TWO_SIDED|95.0|-0.52|0.37||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|ANCOVA|Results obtained from ANCOVA with treatment, baseline and center in the model.||A priori threshold for statistical significance is p\<0.05.||0.37|-0.52|0.747
92362207|NCT00854360|184627662|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.21||0.605|TWO_SIDED|95.0|-0.53|0.31||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|ANCOVA|Results obtained from ANCOVA with treatment, baseline and center in the model.||A priori threshold for statistical significance is p\<0.05.||0.31|-0.53|0.605
92362208|NCT00854360|184627662|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.23||0.083|TWO_SIDED|95.0|-0.84|0.05||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|ANCOVA|Results obtained from ANCOVA with treatment, baseline and center in the model.||A priori threshold for statistical significance is p\<0.05.||0.05|-0.84|0.083
92362209|NCT00854360|184627663|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.989|TWO_SIDED|95.0|-0.45|0.46||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.46|-0.45|0.989
92402894|NCT02151058|184696728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.176|STANDARD_ERROR_OF_MEAN|0.0568||0.002|TWO_SIDED|95.0|-0.2882|-0.0644||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0644|-0.2882|0.002
92402895|NCT02151058|184696728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.351|STANDARD_ERROR_OF_MEAN|0.0573|<|0.001|TWO_SIDED|95.0|-0.4638|-0.2378||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.2378|-0.4638|<0.001
92402896|NCT02151058|184696728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174|STANDARD_ERROR_OF_MEAN|0.0458|<|0.001|TWO_SIDED|95.0|-0.2648|-0.0841||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0841|-0.2648|<0.001
92402897|NCT02151058|184696729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.247|STANDARD_ERROR_OF_MEAN|0.0631|<|0.001|TWO_SIDED|95.0|-0.3713|-0.1226||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||Treatment and baseline value as covariates.||-0.1226|-0.3713|<0.001
92402898|NCT02151058|184696729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.498|STANDARD_ERROR_OF_MEAN|0.0638|<|0.001|TWO_SIDED|95.0|-0.6236|-0.3722||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.3722|-0.6236|<0.001
92165762|NCT05555082|184220215|OTHER||Cohens d|0.57|||||TWO_SIDED|||||||||||||
92402899|NCT02151058|184696729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.251|STANDARD_ERROR_OF_MEAN|0.0511|<|0.001|TWO_SIDED|95.0|-0.3516|-0.1503||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1503|-0.3516|<0.001
92402900|NCT02151058|184696730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.124|STANDARD_ERROR_OF_MEAN|0.0372||0.001|TWO_SIDED|95.0|-0.197|-0.0504||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0504|-0.1970|0.001
92402901|NCT02151058|184696730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.168|STANDARD_ERROR_OF_MEAN|0.0373|<|0.001|TWO_SIDED|95.0|-0.2413|-0.0941||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0941|-0.2413|<0.001
92402902|NCT02151058|184696730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044|STANDARD_ERROR_OF_MEAN|0.0301||0.145|TWO_SIDED|95.0|-0.1034|0.0152||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.0152|-0.1034|0.145
92402903|NCT02151058|184696731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.0497|<|0.001|TWO_SIDED|95.0|-0.3282|-0.1321||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1321|-0.3282|<0.001
92402904|NCT02151058|184696731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.313|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.4113|-0.2141||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.2141|-0.4113|<0.001
92402905|NCT02151058|184696731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083|STANDARD_ERROR_OF_MEAN|0.0404||0.042|TWO_SIDED|95.0|-0.1621|-0.0031||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0031|-0.1621|0.042
92402906|NCT02151058|184696732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.275|STANDARD_ERROR_OF_MEAN|0.0543|<|0.001|TWO_SIDED|95.0|-0.382|-0.1679||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1679|-0.3820|<0.001
92402907|NCT02151058|184696732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.464|STANDARD_ERROR_OF_MEAN|0.0548|<|0.001|TWO_SIDED|95.0|-0.5724|-0.3565||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.3565|-0.5724|<0.001
92402908|NCT02151058|184696732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.0442|<|0.001|TWO_SIDED|95.0|-0.2767|-0.1023||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1023|-0.2767|<0.001
92402909|NCT01181349|184696734|SUPERIORITY_OR_OTHER||||||=|0.169|||||||Chi-square test or Fisher's Exact Test|||Cross tables were performed between TOF ratio and medications administered. Statistical significance was evaluated using Chi-square test or Fisher's Exact Test. All tests were performed at a significance level of 0.05.||||=0.169
92402910|NCT01181349|184696736|SUPERIORITY_OR_OTHER||||||=|0.01|||||||Chi-square test or Fisher's Exact Test|||Cross tables were performed between TOF ratio and medications administered. Statistical significance was evaluated using Chi-square test or Fisher's Exact Test. All tests were performed at a significance level of 0.05.||||=0.01
92362210|NCT00854360|184627663|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.23||0.808|TWO_SIDED|95.0|-0.39|0.5||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.50|-0.39|0.808
92362211|NCT00854360|184627663|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.23||0.195|TWO_SIDED|95.0|-0.74|0.15||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.15|-0.74|0.195
92362212|NCT00854360|184627664|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.31||0.903|TWO_SIDED|95.0|-0.64|0.57||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.57|-0.64|0.903
92362213|NCT00854360|184627664|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.31||0.952|TWO_SIDED|95.0|-0.58|0.62||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.62|-0.58|0.952
92362214|NCT00854360|184627664|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.187|TWO_SIDED|95.0|-0.99|0.19||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.19|-0.99|0.187
92362215|NCT02037529|184627667|SUPERIORITY|||||||0.5623|||||||Log Rank|||||||0.5623
92362216|NCT02037529|184627672|SUPERIORITY|||||||0.984|||||||Log Rank|||||||0.9840
92402911|NCT00321620|184696738|NON_INFERIORITY_OR_EQUIVALENCE|A synthesis method was used for the non-inferiority test for the hypothesis that denosumab preserves as least 50% of the effect of zoledronic acid vs. placebo.|Hazard Ratio (HR)|0.82||||0.0002||95.0|0.71|0.95|||Regression, Cox||Stratified by the randomization stratification factors (previous skeletal-related event, prostate-specific antigen level, and current chemotherapy)|||0.95|0.71|0.0002
92165763|NCT05555082|184220216|OTHER|Single-arm feasibility design; exploratory within-group analysis.|Mean Difference (Final Values)|24.876||||0.004|TWO_SIDED|95.0|8.66|41.092||P-values reported for transparency; study not powered for significance testing.|Mixed Models Analysis|Linear mixed model with repeated measures; maximum likelihood estimation.|Within-group change from baseline to 12 months|"Single-arm feasibility design; exploratory within-group analysis."||41.092|8.660|0.004
92362217|NCT02037529|184627673|SUPERIORITY|||||||0.5968|||||||Log Rank|||||||0.5968
92362218|NCT00718315|184627677|SUPERIORITY_OR_OTHER|||||||0.481||||||Test for Binomial Ratio, where H0: P \>=61%; Ha: P \< 61% (One-tailed Test)|t-test, 1 sided|||||||0.481
92362219|NCT00718315|184627677|SUPERIORITY_OR_OTHER|||||||0.933||||||Test for Binomial Ratio, where H0: P \>=61%; Ha: P \< 61% (One-tailed Test)|t-test, 1 sided|||||||0.933
92362220|NCT00718315|184627677|SUPERIORITY_OR_OTHER|||||||0.986||||||Test for Binomial Ratio, where H0: P \>=61%; Ha: P \< 61% (One-tailed Test)|t-test, 1 sided|||||||0.986
92362221|NCT00718315|184627679|SUPERIORITY_OR_OTHER|||||||0.095|||||||Log Rank|||||||0.095
92362222|NCT00718315|184627680|SUPERIORITY_OR_OTHER|||||||0.199|||||||Chi-squared|||||||0.199
92362223|NCT00718315|184627681|SUPERIORITY_OR_OTHER|||||||0.108|||||||Chi-squared|||||||0.108
92362224|NCT00718315|184627682|SUPERIORITY_OR_OTHER|||||||0.179|||||||Chi-squared|||||||0.179
92402912|NCT00321620|184696739|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0085||95.0|0.71|0.95|||Regression, Cox|P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure.|Stratified by the randomization stratification factors (previous skeletal-related event, prostate-specific antigen level, and current chemotherapy).|||0.95|0.71|0.0085
92165764|NCT05555082|184220216|OTHER||Cohens d|0.96|||||TWO_SIDED|||||||||||||
92362225|NCT00718315|184627683|SUPERIORITY_OR_OTHER|||||||0.066|||||||Kruskal-Wallis|||||||0.066
92362226|NCT00718315|184627684|SUPERIORITY_OR_OTHER|||||||0.087|||||||Kruskal-Wallis|||||||0.087
92165765|NCT03142841|184220233|SUPERIORITY||Slope|-5.06|STANDARD_ERROR_OF_MEAN|1.48||0.001|ONE_SIDED|||||a priori \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.001
92165766|NCT03142841|184220234|SUPERIORITY||Slope|-4.04|STANDARD_ERROR_OF_MEAN|1.69||0.017|TWO_SIDED|||||a priori \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.017
92362227|NCT00718315|184627685|SUPERIORITY_OR_OTHER|||||||0.308|||||||Kruskal-Wallis|||||||0.308
92362228|NCT02384421|184627686|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92362229|NCT02384421|184627687|SUPERIORITY|||||||0.0064|||||||t-test, 2 sided|||||||0.0064
92362230|NCT02384421|184627688|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
92362231|NCT02384421|184627689|SUPERIORITY|||||||0.25|||||||Wilcoxon Signed-Rank Test|||||||0.25
92362232|NCT02384421|184627690|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
92165767|NCT03142841|184220235|SUPERIORITY||Slope|-4.04|STANDARD_ERROR_OF_MEAN|1.68||0.017|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.017
92165768|NCT03142841|184220236|SUPERIORITY||Slope|-5.66|STANDARD_ERROR_OF_MEAN|1.84||0.002|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis|||||||0.002
92362233|NCT02384421|184627691|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92362234|NCT03435380|184627695|SUPERIORITY||Risk Ratio (RR)|2.37||||0.019|TWO_SIDED|95.0|1.11|5.07|||Mantel Haenszel|Stratified by age at consent (25-39 vs \>=40), diagnosis (Hodgkin lymphoma vs other) and previous breast imaging exam (either mammogram or breast MRI).||||5.07|1.11|0.019
92362235|NCT03435380|184627695|SUPERIORITY||Risk Ratio (RR)|1.96||||0.092|TWO_SIDED|95.0|0.87|4.38|||Mantel Haenszel|Stratified by age at consent (25-39 vs \>=40), diagnosis (Hodgkin lymphoma vs other) and previous breast imaging exam (either mammogram or breast MRI).||||4.38|0.87|0.092
92362236|NCT01164007|184627711|SUPERIORITY_OR_OTHER|||||||0.071|||||||One-sample exact binomial test|||The observed percentage of participants with CR or PR was compared with the expected proportion under the null hypothesis (0.10) and analyzed for statistical significance using a one-sample exact binomial test.||||0.071
92362237|NCT03218917|184627727|SUPERIORITY||||||=|0.014||||||P-value is one-sided for superiority.|Stratified Log-rank test|Stratified by Pseudomonas aeruginosa (Pa) colonization status and maintenance antibiotic use at Baseline.||||||= 0.014
92402913|NCT00321620|184696740|SUPERIORITY_OR_OTHER||Rate ratio|0.82||||0.0085||95.0|0.71|0.94|||Anderson-Gill model|P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure.|Stratified by the randomization stratification factors (previous skeletal-related event, prostate-specific antigen level, and current chemotherapy).|||0.94|0.71|0.0085
92402914|NCT04225897|184696823|OTHER||Difference|-8.02|||||TWO_SIDED|95.0|-31.78|15.74||||||60 hours. Analysis was performed using mixed effects analysis of covariance model on change from baseline in viral load, including a random effect for participant and fixed effects for treatment group, baseline human rhinovirus/enterovirus status (present or absent), visit, vist by treatment group interaction, and baseline viral load as a covariate.||15.74|-31.78|
92402915|NCT04225897|184696823|OTHER||Difference|-15.22|||||TWO_SIDED|95.0|-40.15|9.7|||Mixed effects analysis of covariance|||156 hours. Analysis was performed using mixed effects analysis of covariance model on change from baseline in viral load, including a random effect for participant and fixed effects for treatment group, baseline human rhinovirus/enterovirus status (present or absent), visit, vist by treatment group interaction, and baseline viral load as a covariate.||9.70|-40.15|
92165769|NCT03142841|184220237|SUPERIORITY||Slope|6.47|STANDARD_ERROR_OF_MEAN|4.51||0.152|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.152
92362238|NCT03218917|184627727|SUPERIORITY||||||=|0.022||||||P-value is one-sided for superiority.|Stratified Log-rank test|Stratified by colonization status and maintenance antibiotic use at Baseline.||||||= 0.022
92402916|NCT04225897|184696824|OTHER||Difference|14.82|||||TWO_SIDED|95.0|-91.68|121.33||||||60 hours. Analysis was performed using mixed effects analysis of covariance model on change from baseline in viral load, including a random effect for participant and fixed effects for treatment group, baseline human rhinovirus/enterovirus status (present or absent), visit, vist by treatment group interaction, and baseline viral load as a covariate.||121.33|-91.68|
92402917|NCT04225897|184696824|OTHER||Difference|-31.19|||||TWO_SIDED|95.0|-143.96|81.57||||||156 hours. Analysis was performed using mixed effects analysis of covariance model on change from baseline in viral load, including a random effect for participant and fixed effects for treatment group, baseline human rhinovirus/enterovirus status (present or absent), visit, vist by treatment group interaction, and baseline viral load as a covariate.||81.57|-143.96|
92362239|NCT02581891|184627735|NON_INFERIORITY|The non-inferiority margin is set to 5 letters.|LS mean difference|-2.0199|STANDARD_ERROR_OF_MEAN|1.3833||0.0162|TWO_SIDED|95.0|-4.747|0.7073|||ANCOVA|||||0.7073|-4.7470|0.0162
92362240|NCT03767881|184627771|NON_INFERIORITY|The upper limit of a 97.8% confidence limit of the mean days to resolution of acute cholecystitis is compared to a Performance Goal of 3.5 days.|Mean Difference (Final Values)|3.5|||||ONE_SIDED|97.8||10.78|||t-test, 1 sided|||||10.78||
92362241|NCT03767881|184627772|NON_INFERIORITY|The upper limit of a 99.7% confidence limit of the proportion of patients with reintervention, including migration and occlusion, is compared to a Performance Goal of 46.2%.|Performance Goal|16.7|||||ONE_SIDED|99.7||42.0|||1-sided Clopper-Pearson 99.7% CI|||||42.0||
92362242|NCT01959932|184627784|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|8.38|||<|0.001|TWO_SIDED|95.0|6.89|10.2||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||10.20|6.89|<0.001
92165770|NCT03142841|184220238|SUPERIORITY||Slope|12.53|STANDARD_ERROR_OF_MEAN|4.68||0.008|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.008
92165771|NCT03142841|184220239|SUPERIORITY||Slope|0.66|STANDARD_ERROR_OF_MEAN|2.78||0.812|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.812
92402918|NCT05172128|184696869|OTHER||||||>|0.05|||||||t-test, 2 sided||||Paired t-test comparing baseline value to endpoint value revealed a p-value of 0.80.|||>0.05
92402919|NCT05172128|184696870|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92402920|NCT05172128|184696871|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92402921|NCT05172128|184696872|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92402922|NCT05172128|184696875|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92402923|NCT02584686|184696877|SUPERIORITY_OR_OTHER|||||||0.0049|||||||t-test, 1 sided|||Comparing the mean PSV before \& after treatment in the study group using the t-test.||||0.0049
92402924|NCT02584686|184696877|SUPERIORITY_OR_OTHER|||||||0.68|||||||t-test, 1 sided|||Comparing the mean PSV before \& after treatment in the control group using the t-test.||||0.68
92402925|NCT02584686|184696879|SUPERIORITY_OR_OTHER|||||||0.01086956|||||||Wilcoxon (Mann-Whitney)|||Comparing the Erection hardness score before \& after treatment in the study group.||||0.01086956
92402926|NCT02584686|184696879|SUPERIORITY_OR_OTHER|||||||0.6618176|||||||Wilcoxon (Mann-Whitney)|||Comparing the Erection hardness score before \& after treatment in the control group.||||0.6618176
92402927|NCT02584686|184696881|SUPERIORITY_OR_OTHER|||||||0.00751288|||||||Wilcoxon (Mann-Whitney)|||SHIM Score in the study group before \& after treatment.||||0.00751288
92402928|NCT02584686|184696881|SUPERIORITY_OR_OTHER|||||||0.6618176|||||||Wilcoxon (Mann-Whitney)|||SHIM Score in the control group before \& after treatment.||||0.6618176
92402929|NCT02584686|184696882|SUPERIORITY_OR_OTHER|||||||0.027191||||||"Due to the small sample size Fisher exact test was chosen. 7 out of 12 in the treatment group answered yes, while 1 out of 12 in the control group answered yes."|Fisher Exact|||||||0.027191
92402930|NCT02584686|184696884|SUPERIORITY_OR_OTHER|||||||0.109091|||||||Fisher Exact|||"Fisher Exact Test was used to compare the change in the number of in patients who answered Yes in Secondary Outcome 8 (SEP-Q2 Question Before Treatment) to patients who answered Yes in Secondary Outcome 9 (SEP-Q2 Question after Treatment), for both (BTXA) and Saline groups."||||0.109091
92402931|NCT02584686|184696886|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||"Fisher Exact Test was used to compare the change in patients who answered Yes in Secondary Outcome 10 (SEP-Q3 Question Before Treatment) to patients who answered Yes in Secondary Outcome 11 (SEP-Q3 Question after Treatment)."||||1
92402932|NCT02703597|184696895|SUPERIORITY||Odds Ratio (OR)|1.15||||0.8|TWO_SIDED|95.0|0.32|4.2|||Mixed Models Analysis|||"Hypothesis: Participants in the GSA-ASPIRE-Network Group will be more likely to decrease in susceptibility to vaping than participants in the ASPIRE group.~The statistical analysis was conducted for 10 out of the 15 participating sites, to avoid bias with respect to the sites that participated in different conditions (i.e., 1 site in a school classroom during class time and 4 sites in the summer camp during summer time)."||4.20|0.32|0.80
92402933|NCT02703597|184696895|SUPERIORITY||Odds Ratio (OR)|0.17|||<|0.01|TWO_SIDED|95.0|0.06|0.43|||Mixed Models Analysis|||"Hypothesis: Participants in both arms will decrease in susceptibility to vaping over time.~The statistical analysis was conducted for 10 out of the 15 participating sites, to avoid bias with respect to the sites that participated in different conditions (i.e., 1 site in a school classroom during class time and 4 sites in the summer camp during summer time)."||0.43|0.06|<0.01
92402934|NCT02703597|184696896|SUPERIORITY||Odds Ratio (OR)|0.76||||0.7|TWO_SIDED|95.0|0.16|3.49|||Mixed Models Analysis|||"Hypothesis: Adolescents who participated in the GSA-ASPIRE-Network group will be more likely to decrease in susceptibility to using conventional tobacco than adolescents who participated in the ASPIRE group.~The statistical analysis was conducted for 10 out of the 15 participating sites, to avoid bias with respect to the sites that participated in different conditions (i.e., 1 site in a school classroom during class time and 4 sites in the summer camp during summer time)."||3.49|0.16|0.70
92402935|NCT02703597|184696896|SUPERIORITY||Odds Ratio (OR)|0.13|||<|0.01|TWO_SIDED|95.0|0.04|0.4|||Mixed Models Analysis|||"Hypothesis: Participants in both arms will decrease in susceptibility of using conventional tobacco over time.~The statistical analysis was conducted for 10 out of the 15 participating sites, to avoid bias with respect to the sites that participated in different conditions (i.e., 1 site in a school classroom during class time and 4 sites in the summer camp during summer time)."||0.40|0.04|<0.01
92402936|NCT03416985|184696919|OTHER|||||||0.1561||||||p \< 0.05 considered significant|ANOVA|||Compare groups with respect to plaque level after 30 days||||0.1561
92402937|NCT03416985|184696920|OTHER|||||||0.2161||||||p \< 0.05 considered significant|ANOVA|||Compare groups with respect to Gingival scores at 30 days||||0.2161
92165772|NCT03142841|184220240|SUPERIORITY||Slope|3.64|STANDARD_ERROR_OF_MEAN|3.02||0.229|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.229
92402938|NCT02006472|184696921|SUPERIORITY||LSM difference|1.42||||0.3202|TWO_SIDED|95.0|-1.39|4.23|||Mixed Models Analysis|||||4.23|-1.39|0.3202
92165773|NCT03142841|184220241|SUPERIORITY||Slope|0.21|STANDARD_ERROR_OF_MEAN|5.25||0.968|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.968
92402939|NCT02006472|184696921|SUPERIORITY||LSM difference|1.7||||0.2266|TWO_SIDED|95.0|-1.06|4.46|||Mixed Models Analysis|||||4.46|-1.06|0.2266
92402940|NCT02006472|184696921|SUPERIORITY||LSM difference|0.66||||0.6348|TWO_SIDED|95.0|-2.07|3.39|||Mixed Models Analysis|||||3.39|-2.07|0.6348
92402941|NCT02006472|184696921|SUPERIORITY||LSM difference|2.04||||0.1447|TWO_SIDED|95.0|-0.71|4.8|||Mixed Models Analysis|||||4.8|-0.71|0.1447
92402942|NCT02006472|184696923|SUPERIORITY||LSM difference|0.87||||0.0032|TWO_SIDED|95.0|0.29|1.45|||Mixed Models Analysis|||||1.45|0.29|0.0032
92402943|NCT02006472|184696923|SUPERIORITY||LSM difference|0.11||||0.7042|TWO_SIDED|95.0|-0.46|0.68|||Mixed Models Analysis|||||0.68|-0.46|0.7042
92402944|NCT02006472|184696923|SUPERIORITY||LSM difference|0.19||||0.5099|TWO_SIDED|95.0|-0.37|0.75|||Mixed Models Analysis|||||0.75|-0.37|0.5099
92402945|NCT02006472|184696923|SUPERIORITY||LSM difference|0.24||||0.4061|TWO_SIDED|95.0|-0.33|0.82|||Mixed Models Analysis|||||0.82|-0.33|0.4061
92402946|NCT02006472|184696924|SUPERIORITY||LSM difference|1.16||||0.0003|TWO_SIDED|95.0|0.54|1.78|||Mixed Models Analysis|||||1.78|0.54|0.0003
92402947|NCT02006472|184696925|SUPERIORITY|||||||0.003|||||||Chi-squared|||||||0.003
92402948|NCT02006472|184696926|SUPERIORITY||LSM difference|-0.0341||||0.0346|TWO_SIDED|95.0|-0.0658|-0.0026|||Mixed Models Analysis|||At Week 26||-0.0026|-0.0658|0.0346
92402949|NCT02006472|184696926|SUPERIORITY||LSM difference|-0.0444||||0.0305|TWO_SIDED|95.0|-0.0847|-0.0042|||Mixed Models Analysis|||At Week 52||-0.0042|-0.0847|0.0305
92402950|NCT03137381|184696931|SUPERIORITY|||||||0.177|||||||Chi-squared|||||||0.177
92362243|NCT01959932|184627785|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS mean ratio|41.63|||<|0.001|TWO_SIDED|95.0|37.75|45.91||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on 3-HPMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||45.91|37.75|<0.001
92362244|NCT01959932|184627786|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|5.99|||<|0.001|TWO_SIDED|95.0|5.21|6.87||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on S-PMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||6.87|5.21|<0.001
92402951|NCT03137381|184696931|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92165774|NCT03142841|184220242|SUPERIORITY||Slope|7.24|STANDARD_ERROR_OF_MEAN|5.58||0.196|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.196
92165775|NCT03142841|184220243|SUPERIORITY||Slope|3.46|STANDARD_ERROR_OF_MEAN|1.89||0.067|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.067
92362245|NCT01959932|184627787|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|23.45|||<|0.001|TWO_SIDED|95.0|22.0|24.99||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on COHb levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||24.99|22.00|<0.001
92362246|NCT00758563|184627788|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
92362247|NCT00060944|184627789|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.734||||0.0302|TWO_SIDED|95.0|0.554|0.974|||Log Rank|||||0.974|0.554|0.0302
92362248|NCT00060944|184627792|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.755||||0.0418|TWO_SIDED|95.0|0.574|0.992|||Log Rank|||||0.992|0.574|0.0418
92362249|NCT00060944|184627793|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.843||||0.192|TWO_SIDED|95.0|0.653|1.09|||Log Rank|||||1.090|0.653|0.1920
92362250|NCT01138514|184627794|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|provides 85% power of success|equivalence ratio|98.77||||0.05|TWO_SIDED|90.0|95.2|102.5|||Fieller's method|||||102.5|95.2|0.05
92362251|NCT01138514|184627795|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|provides 85% power of success|equivalence ratio|100.27||||0.05|TWO_SIDED|90.0|95.6|105.2|||Fieller's method|||||105.2|95.6|0.05
92362252|NCT01138514|184627796|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"Clinical success was defined as a score of clear (0) or almost clear (1) on Investigators Global Assessment (IGA) at Visit 4/Week 10"|equivalence difference|1.6||||0.05|TWO_SIDED|90.0|-4.2|7.4|||Wald's method Yates' continuity correct|||||7.4|-4.2|0.05
92402952|NCT03137381|184696931|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92402953|NCT00459316|184696936|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||||||Two-sided p-value \<0.05 was specified as statistically significant a priori. There were no adjustments for multiple outcomes.|Fisher Exact|||The null hypothesis was that there would be no difference between CD4% strata.||||0.03
92362253|NCT03961308|184627804|OTHER|Geometric least-squares means (LSMs) were calculated by exponentiating the LSMs derived from analysis of covariance (ANCOVA) with weight as a covariate. Confidence intervals (CIs) were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|1.0734|||||TWO_SIDED|90.0|0.9963|1.1565||||||||1.1565|0.9963|
92362254|NCT03961308|184627805|OTHER|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|1.0824|||||TWO_SIDED|90.0|1.0169|1.1521||||||||1.1521|1.0169|
92402954|NCT00459316|184696937|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||||||Two sided-p-value \<0.05 was specified as statistically significant a priori. No adjustment for multiple primary outcomes was made.|Fisher Exact|||The null hypothesis was that there were no differences between CD4% strata.||||0.01
92402955|NCT00423579|184696974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-14.5||||0||95.0|-18.9|-10.1|||Student's t test for independent data||Difference in percentage change in mean LDL-C values (change from baseline to week 6) between the two treatment groups. (Ezetimibe \[EZ\]/Simvastatin \[S\] \[10/20mg\] + S \[placebo\] group minus the EZ/S \[10mg/placebo\] + S \[40mg\] group)|||-10.1|-18.9|0.0000
92165776|NCT03142841|184220244|SUPERIORITY||Slope|3.98|STANDARD_ERROR_OF_MEAN|2.16||0.066|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.066
92165777|NCT03142841|184220245|SUPERIORITY||Slope|1.99|STANDARD_ERROR_OF_MEAN|1.64||0.225|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.225
92165778|NCT03142841|184220246|SUPERIORITY||Slope|1.93|STANDARD_ERROR_OF_MEAN|1.3||0.138|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.138
92362255|NCT03961308|184627806|OTHER|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|1.0465|||||TWO_SIDED|90.0|0.9935|1.1023||||||||1.1023|0.9935|
92165779|NCT03142841|184220247|SUPERIORITY||Slope|5.17|STANDARD_ERROR_OF_MEAN|1.64||0.002|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.002
92402956|NCT03873116|184696982|SUPERIORITY||negative binomial regression model|-24.6||||0.181|TWO_SIDED|95.0|-50.1|14.0|||negative binomial regression model|||||14.0|-50.1|0.181
92224143|NCT04316585|184349760|SUPERIORITY||Mean Difference (Final Values)|-2.28|||||TWO_SIDED|95.0|-9.19|8.28|||Bayesian Logistic Regression Model|The model was adjusted for treatment (GSK2982772 vs placebo), baseline PASI score and prior biologic use (yes/no).|Posterior median and 95% CrI for the true difference in proportion of responders (GSK2982772 - placebo).|Bayesian logistic regression. An informative prior was used for the placebo response in this statistical analysis, the prior for placebo response rate was of the form: 90% weight on Be (5.39, 69) and 10% on Be (1/3,1/3). The prior was derived from historical data from similar clinical trials using meta-analytic predictive prior (MAP) approach. All other parameters took vague priors.||8.28|-9.19|
92362256|NCT02297412|184627820|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0186|||||||Wilcoxon (Mann-Whitney)|||||||0.0186
92362257|NCT02297412|184627821|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1146|||||||Wilcoxon (Mann-Whitney)|||||||0.1146
92362258|NCT02297412|184627822|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0243|||||||Wilcoxon (Mann-Whitney)|||||||0.0243
92362259|NCT04549454|184627823|SUPERIORITY||Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.598||0.985|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on weekly drinks. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 1-month follow-up in the Intervention Arm versus the Control Arm.||||.985
92362260|NCT04549454|184627824|SUPERIORITY||Mean Difference (Final Values)|0.244|STANDARD_ERROR_OF_MEAN|0.618||0.694|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on weekly drinks. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 6-month follow-up in the Intervention Arm versus the Control Arm.||||.694
92362261|NCT04549454|184627825|SUPERIORITY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.327||0.889|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on consequences. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in consequences from baseline to the 1-month follow-up in the Intervention Arm versus the Control Arm.||||.889
92362262|NCT04549454|184627826|SUPERIORITY||Mean Difference (Final Values)|-0.186|STANDARD_ERROR_OF_MEAN|0.338||0.582|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on consequences. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in consequences from baseline to the 6-month follow-up in the Intervention Arm versus the Control Arm.||||.582
92402957|NCT03873116|184696982|SUPERIORITY||negative binomial regression model|-49.1||||0.003|TWO_SIDED|95.0|-67.5|-20.4|||negative binomial regression model|||||-20.4|-67.5|0.003
92165780|NCT03142841|184220248|SUPERIORITY||Slope|3.12|STANDARD_ERROR_OF_MEAN|1.6||0.052|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.052
92165781|NCT03142841|184220249|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|2.5||0.981|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group X Time Interaction|||||0.981
92165782|NCT03142841|184220250|SUPERIORITY||Slope|3.29|STANDARD_ERROR_OF_MEAN|2.68||0.221|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.221
92362263|NCT04549454|184627827|SUPERIORITY||Mean Difference (Final Values)|-0.265|STANDARD_ERROR_OF_MEAN|0.414||0.523|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on peak drinks. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in peak drinks from baseline to the 1-month follow-up in the Intervention Arm versus the Control Arm.||||.523
92362264|NCT04549454|184627828|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.427||0.981|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on peak drinks. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in peak drinks from baseline to the 6-month follow-up in the Intervention Arm versus the Control Arm.||||.981
92362265|NCT04549454|184627829|SUPERIORITY||Median Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.327||0.889|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on HED. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in HED from baseline to the 1-month follow-up in the Intervention Arm versus the Control Arm.||||.889
92402958|NCT03873116|184696985|SUPERIORITY||Difference in Least Square Means|0.018||||0.814|TWO_SIDED|95.0|-0.143|0.179|||ANCOVA|||Numerical differences from the placebo treatment in the LSM proportion of the 169 days of treatment with angioedema symptoms.||0.179|-0.143|0.814
92402959|NCT03873116|184696985|SUPERIORITY||Difference in Least Square Means|-0.122||||0.12|TWO_SIDED|95.0|-0.28|0.036|||ANCOVA|||Numerical differences from the placebo treatment in the LSM proportion of the 169 days of treatment with angioedema symptoms.||0.036|-0.280|0.120
92165783|NCT03142841|184220251|SUPERIORITY||Slope|-2.35|STANDARD_ERROR_OF_MEAN|1.66||0.159|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.159
92165784|NCT03142841|184220252|SUPERIORITY||Slope|-3.13|STANDARD_ERROR_OF_MEAN|1.91||0.103|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.103
92165785|NCT03142841|184220253|SUPERIORITY||Slope|2.84|STANDARD_ERROR_OF_MEAN|2.45||0.247|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.247
92165786|NCT03142841|184220254|SUPERIORITY||Slope|3.43|STANDARD_ERROR_OF_MEAN|2.52||0.174|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.174
92165787|NCT03142841|184220255|SUPERIORITY||Slope|1.73|STANDARD_ERROR_OF_MEAN|2.09||0.408|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.408
92165788|NCT03142841|184220256|SUPERIORITY||Slope|1.53|STANDARD_ERROR_OF_MEAN|2.06||0.457|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.457
92362266|NCT04549454|184627830|SUPERIORITY||Mean Difference (Final Values)|-0.186|STANDARD_ERROR_OF_MEAN|0.338||0.582|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on HED. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in HED from baseline to the 6-month follow-up in the Intervention Arm versus the Control Arm.||||.582
92362267|NCT01405196|184627862|SUPERIORITY||Odds Ratio (OR)|2.23||||0.076|TWO_SIDED|90.0|0.89|5.62||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||Point estimates of the Odds ratio (ORs) as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||5.62|0.89|0.076
92362268|NCT01405196|184627862|SUPERIORITY||Odds Ratio (OR)|0.96||||0.528|TWO_SIDED|90.0|0.38|2.41||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.41|0.38|0.528
92402960|NCT03873116|184696986|SUPERIORITY||mixed-model repeated measures analysis|24.5||||0.188|TWO_SIDED|95.0|-14.7|50.3|||mixed-model repeated measures analysis|||In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the second secondary endpoint of rate of expert-confirmed angioedema events during dosing in the effective treatment period for statistical significance would not be completed. Therefore, P-values reported are nominal.||50.3|-14.7|0.188
92402961|NCT03873116|184696986|SUPERIORITY||mixed-model repeated measures analysis|47.6||||0.005|TWO_SIDED|95.0|17.7|66.6|||mixed-model repeated measures analysis|||In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the second secondary endpoint of rate of expert-confirmed angioedema events during dosing in the effective treatment period for statistical significance would not be completed. Therefore, P-values reported are nominal.||66.6|17.7|0.005
92165789|NCT03142841|184220257|SUPERIORITY||Slope|-2.37|STANDARD_ERROR_OF_MEAN|1.79||0.187|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.187
92165790|NCT03142841|184220258|SUPERIORITY||Slope|-2.0|STANDARD_ERROR_OF_MEAN|1.99||0.315|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.315
92402962|NCT03873116|184696987|SUPERIORITY||mixed-model repeated measures analysis|-12.65||||0.213|TWO_SIDED|95.0|-33.33|8.03|||mixed-model repeated measures analysis|||Numerical difference in change from baseline of AE-QoL total score between treatment groups. In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the third secondary endpoint of change from baseline in AE-QoL total score at Week 24 for statistical significance would not be completed. P-values that are reported are nominal.||8.03|-33.33|0.213
92402963|NCT03873116|184696987|SUPERIORITY||mixed-model repeated measures analysis|-19.0||||0.061|TWO_SIDED|95.0|-39.0|0.99|||mixed-model repeated measures analysis|||Numerical difference in change from baseline of AE-QoL total score between treatment groups. In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the third secondary endpoint of change from baseline in AE-QoL total score at Week 24 for statistical significance would not be completed. P-values that are reported are nominal.||0.99|-39.00|0.061
92402964|NCT03697252|184697010|SUPERIORITY||LS mean difference|-11.56|||<|0.0001|TWO_SIDED|95.0|-16.07|-7.05|||Mixed model for repeated measures||||Statistics are from a mixed model for repeated measures (MMRM). The model includes the treatment group (KarXT or placebo), visit, and the interaction between the treatment group and visit as fixed factors, and baseline PANSS total score, site, age, and gender as covariates. An unstructured covariance matrix is used to model the correlation among repeated measurements and the denominator degrees of freedom are computed using the Kenward-Roger method.|-7.05|-16.07|<0.0001
92402965|NCT03697252|184697012|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of KarXT and Placebo at Week 5||||<0.001
92165791|NCT03142841|184220259|SUPERIORITY||Slope|1.49|STANDARD_ERROR_OF_MEAN|1.41||0.289|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.289
92165792|NCT03142841|184220260|SUPERIORITY||Slope|2.92|STANDARD_ERROR_OF_MEAN|1.52||0.055|TWO_SIDED|||||a priori of \<0.05 threshold|Mixed Models Analysis||Group x Time Interaction|||||0.055
92165793|NCT03142841|184220261|OTHER|||||||0.095|||||||Chi-squared|||||||0.095
92165794|NCT03142841|184220262|OTHER|||||||0.6|||||||Chi-squared|||||||0.6
92165795|NCT03142841|184220263|OTHER|||||||0.063|||||||Chi-squared|||||||0.063
92165796|NCT03142841|184220264|OTHER|||||||0.9|||||||Chi-squared|||||||0.9
92165797|NCT03142841|184220265|OTHER|||||||0.15|||||||Chi-squared|||||||0.15
92165798|NCT03142841|184220266|OTHER|||||||0.11|||||||Chi-squared|||||||0.11
92224144|NCT04316585|184349760|SUPERIORITY||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-4.81|8.07|||Bayesian Logistic Regression Model|The model was adjusted for treatment (GSK2982772 vs placebo), baseline PASI score and prior biologic use (yes/no).|Posterior median and 95% CrI for the true difference in proportion of responders (GSK2982772 - placebo).|||8.07|-4.81|
92362269|NCT01405196|184627863|SUPERIORITY||Odds Ratio (OR)|2.77|||||TWO_SIDED|90.0|0.62|12.4||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||12.40|0.62|
92362270|NCT01405196|184627863|SUPERIORITY||Odds Ratio (OR)|1.54|||||TWO_SIDED|90.0|0.31|7.71||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||7.71|0.31|
92165799|NCT02189252|184220335|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|160.05||||0.2702|TWO_SIDED|95.0|64.71|395.82||The closed sequential testing procedure stopped at this step as the P Value is greater than 0.05.|Mixed Models Analysis|||In order to address the issue of multiple testing while maintaining overall type I error, a closed testing sequence was used involving 4 analyses stated in the primary objective of this study. In total, 4 statistical tests, each at a significance level of 5%, were carried along the fixed sequence until the first statistically non-significant treatment difference was observed (i.e. p-value\>0.05). This is the first test in the fixed testing sequence.||395.82|64.71|0.2702
92165800|NCT02189252|184220335|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|121.61||||0.6367|TWO_SIDED|95.0|49.17|300.76||The p-value was only interpreted descriptively|Mixed Models Analysis|||In order to address the issue of multiple testing while maintaining overall type I error, a closed testing sequence was used involving 4 analyses stated in the primary objective of this study. In total, 4 statistical tests, each at a significance level of 5%, were carried along the fixed sequence until the first statistically non-significant treatment difference was observed (i.e. p-value\>0.05). This is the second test in the fixed testing sequence.||300.76|49.17|0.6367
92165801|NCT02189252|184220336|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|193.91||||0.0511|TWO_SIDED|95.0|99.61|377.47||The p-value was only interpreted descriptively|Mixed Models Analysis|||In order to address the issue of multiple testing while maintaining overall type I error, a closed testing sequence was used involving 4 analyses stated in the primary objective of this study. In total, 4 statistical tests, each at a significance level of 5%, were carried along the fixed sequence until the first statistically non-significant treatment difference was observed (i.e. p-value\>0.05). This is the third test in the fixed testing sequence.||377.47|99.61|0.0511
92165802|NCT02189252|184220336|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|133.32||||0.3543|TWO_SIDED|95.0|68.49|259.52||The p-value was only interpreted descriptively|Mixed Models Analysis|||In order to address the issue of multiple testing while maintaining overall type I error, a closed testing sequence was used involving 4 analyses stated in the primary objective of this study. In total, 4 statistical tests, each at a significance level of 5%, were carried along the fixed sequence until the first statistically non-significant treatment difference was observed (i.e. p-value\>0.05). This is the fourth test in the fixed testing sequence.||259.52|68.49|0.3543
92165803|NCT02189252|184220337|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|259.19||||0.021|TWO_SIDED|95.0|119.75|560.99|||Mixed Models Analysis|||||560.99|119.75|0.0210
92224145|NCT03118297|184349772|SUPERIORITY|||||||0.002||||||Threshold for significance: p=0.05|Wilcoxon (Mann-Whitney)|||||||0.002
92224146|NCT03118297|184349773|SUPERIORITY|||||||0.032||||||Threshold for significance: p=0.05|Fisher Exact|||||||0.032
92224147|NCT03118297|184349774|SUPERIORITY||||||<|0.001||||||Threshold for significance: p=0.05|Fisher Exact|||||||<0.001
92362271|NCT01405196|184627863|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|90.0|0.4|2.67||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.67|0.40|
92362272|NCT01405196|184627863|SUPERIORITY||Odds Ratio (OR)|0.77|||||TWO_SIDED|90.0|0.29|2.05||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.05|0.29|
92362273|NCT01405196|184627863|SUPERIORITY||Odds Ratio (OR)|0.89|||||TWO_SIDED|90.0|0.35|2.24||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.24|0.35|
92165804|NCT02189252|184220337|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|177.95||||0.1256|TWO_SIDED|95.0|82.22|385.16|||Mixed Models Analysis|||||385.16|82.22|0.1256
92165805|NCT02189252|184220338|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|298.91||||0.0025|TWO_SIDED|95.0|164.32|543.74||The p-value was only interpreted descriptively|Mixed Models Analysis|||||543.74|164.32|0.0025
92165806|NCT02189252|184220338|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|187.28||||0.0418|TWO_SIDED|95.0|102.95|340.66||The p-value was only interpreted descriptively|Mixed Models Analysis|||||340.66|102.95|0.0418
92224148|NCT03118297|184349775|SUPERIORITY||||||>|0.05||||||Threshold for significance: p=0.05|Chi-squared|||||||>0.05
92224149|NCT03118297|184349776|OTHER|No statistical test performed|||||||||||||||||Significance testing not performed. All values below prespecified limit of 5.0 ng/mL.|||
92224150|NCT01121393|184349777|SUPERIORITY||||||<|0.0001|TWO_SIDED||||||Log Rank|||A stratified log-rank test (by the epidermal growth factor receptor (EGFR) mutation category stratification factor used at randomisation) was used to test for the effect of afatinib on PFS compared with gemcitabine / cisplatin chemotherapy.||||<0.0001
92224151|NCT01121393|184349777|SUPERIORITY||Hazard Ratio (HR)|0.281|||||TWO_SIDED|95.0|0.203|0.389||||||A Cox proportional-hazards model, stratified by EGFR mutation category was used to estimate the hazard ratio (HR) and 95% confidence interval (CI) between the 2 treatment arms.||0.389|0.203|
92224152|NCT01121393|184349778|SUPERIORITY||Odds Ratio (OR)|7.572|||<|0.0001|TWO_SIDED|95.0|4.522|12.679|||Regression, Logistic|||A logistic regression model, stratified by EGFR mutation category was used to compare the objective response rate between the 2 treatment arms.||12.679|4.522|<0.0001
92224153|NCT01121393|184349779|SUPERIORITY||Odds Ratio (OR)|3.843|||<|0.0001|TWO_SIDED|95.0|2.039|7.24|||Regression, Logistic|||stratified for EGFR mutation group||7.240|2.039|<0.0001
92362274|NCT01405196|184627863|SUPERIORITY||Odds Ratio (OR)|0.44|||||TWO_SIDED|90.0|0.16|1.16||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.16|0.16|
92362275|NCT01405196|184627863|SUPERIORITY||Odds Ratio (OR)|1.62|||||TWO_SIDED|90.0|0.64|4.09||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.09|0.64|
92362276|NCT01405196|184627863|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|90.0|0.27|1.77||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.77|0.27|
92362277|NCT01405196|184627863|SUPERIORITY||Odds Ratio (OR)|1.95|||||TWO_SIDED|90.0|0.78|4.84||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.84|0.78|
92402966|NCT00106704|184697066|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-90.0|-0.57|||ANCOVA|Model terms: treatment, stratum (on metformin or not), baseline A1C||||-0.57|-90.0|<0.001
92362278|NCT01405196|184627863|SUPERIORITY||Odds Ratio (OR)|0.94|||||TWO_SIDED|90.0|0.38|2.32||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.32|0.38|
92362279|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|1.05|||||TWO_SIDED|90.0|0.28|3.88||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||3.88|0.28|
92402967|NCT00106704|184697067|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.1|STANDARD_ERROR_OF_MEAN|4.2|<|0.001|TWO_SIDED|95.0|-28.4|-11.8|||ANCOVA|Model terms: treatment, stratum (on metformin or not at Visit 3), baseline A1C||||-11.8|-28.4|<0.001
92402968|NCT02559622|184697087|SUPERIORITY||Least Square (LS) mean difference|1.17||||0.223|TWO_SIDED|95.0|-0.72|3.06|||ANCOVA|||||3.06|-0.72|0.2230
92362280|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|0.75|||||TWO_SIDED|90.0|0.19|3.01||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||3.01|0.19|
92362281|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|0.72|||||TWO_SIDED|90.0|0.28|1.85||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.85|0.28|
92362282|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|0.8|||||TWO_SIDED|90.0|0.32|2.02||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.02|0.32|
92402969|NCT01710345|184697105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47|STANDARD_ERROR_OF_MEAN|4.45||0.742|ONE_SIDED|95.0|||||ANCOVA|||||||0.742
92402970|NCT01710345|184697105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.66|STANDARD_ERROR_OF_MEAN|4.47||0.003|ONE_SIDED|95.0|||||ANCOVA|||||||0.003
92402971|NCT00979940|184697141|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Chi-squared|||||||0.97
92165807|NCT02189252|184220339|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|79.36||||0.6833|TWO_SIDED|95.0|22.95|274.45|||Mixed Models Analysis|||||274.45|22.95|0.6833
92165808|NCT02189252|184220339|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|69.39||||0.522|TWO_SIDED|95.0|20.07|239.98|||Mixed Models Analysis|||||239.98|20.07|0.5220
92165809|NCT02189252|184220340|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|104.78||||0.9034|TWO_SIDED|95.0|44.92|244.41|||Mixed Models Analysis|||||244.41|44.92|0.9034
92165810|NCT02189252|184220340|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|80.58||||0.5782||95.0|34.55|187.95|||Mixed Models Analysis|||||187.95|34.55|0.5782
92165811|NCT02189252|184220341|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|753.75||||0.0391|TWO_SIDED|95.0|112.03|5071.6|||Mixed Models Analysis|||||5071.6|112.03|0.0391
92165812|NCT02189252|184220341|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|104.98||||0.9578|TWO_SIDED|95.0|15.6|706.33|||Mixed Models Analysis|||||706.33|15.60|0.9578
92165813|NCT02189252|184220342|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|376.64||||0.0186|TWO_SIDED|95.0|128.55|1103.5|||Mixed Models Analysis|||||1103.5|128.55|0.0186
92165814|NCT02189252|184220342|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|131.74||||0.5955|TWO_SIDED|95.0|44.97|386.0|||Mixed Models Analysis|||||386.00|44.97|0.5955
92165815|NCT04396860|184220343|SUPERIORITY||Hazard Ratio (HR)|1.47||||0.96|TWO_SIDED|95.0|0.98|2.21|||Log Rank|Stratified log-rank|Reference level = Arm 1|For the phase II endpoint, observation of 100 PFS events among the 150 randomized patients (from both arms) provides 95% statistical power to detect an improvement in median PFS from 5.7 months in the control arm to 9.7 months in the experimental arm, corresponding to a hazard reduction of 42% (hazard ratio 0.58) at one-sided significance level of 0.15 (and 87% power for hazard ratio of 0.65 at this same alpha).||2.21|0.98|0.96
92165816|NCT02139046|184220354|SUPERIORITY_OR_OTHER||Difference in Proportions|25.6|||<|0.001|TWO_SIDED|95.0|20.4|30.9||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the Cui, Hung, and Wang (CHW) Z-test which accounts for the interim analysis.||||30.9|20.4|<0.001
92224154|NCT01121393|184349780|SUPERIORITY|||||||0.4013|TWO_SIDED||||||Log Rank|||A stratified log-rank test (by the epidermal growth factor receptor (EGFR) mutation category stratification factor used at randomisation) was used to test for the effect of afatinib on OS compared with gemcitabine / cisplatin chemotherapy.||||0.4013
92362283|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|0.75|||||TWO_SIDED|90.0|0.3|1.83||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.83|0.30|
92362284|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|0.45|||||TWO_SIDED|90.0|0.18|1.13||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.13|0.18|
92402972|NCT01668784|184697142|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0018|TWO_SIDED|98.52|0.57|0.93||The boundary for statistical significance required the p-value to be less than 0.0148 at the interim analyses.|Log Rank|Log-rank Test stratified by the Memorial Sloan-Kettering Cancer Center risk group, number of prior anti-angiogenic therapies, and the region.|Stratified Cox proportional hazard model. Hazard ratio (HR) was Nivolumab over Everolimus.|||0.93|0.57|0.0018
92402973|NCT01668784|184697146|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.034|TWO_SIDED|95.0|0.72|0.99|||Log Rank|Log-rank Test stratified by the Memorial Sloan-Kettering Cancer Center (MSKCC) risk group, number of prior anti-angiogenic therapies, and the region.|Stratified Cox proportional hazard model. Hazard ratio is nivolumab over everolimus.|||0.99|0.72|0.0340
92224155|NCT01121393|184349780|SUPERIORITY||Hazard Ratio (HR)|0.904|||||TWO_SIDED|95.0|0.715|1.144||||||A Cox proportional hazard model stratified (by EGFR mutation category stratification factor used at randomisation) was used to test the effect of afatinib on OS compared with gemcitabine / cisplatin chemotherapy.||1.144|0.715|
92224156|NCT01121393|184349784|SUPERIORITY||Mean Difference (Final Values)|-13.64|STANDARD_ERROR_OF_MEAN|1.76|<|0.0001|TWO_SIDED|95.0|-17.1|-10.19|||ANCOVA|adjusted for baseline sum of diameters and EGFR mutation group||||-10.19|-17.10|<0.0001
92224157|NCT01121393|184349787|SUPERIORITY|||||||0.0001|TWO_SIDED||||||Log Rank|||A stratified log-rank test (by the epidermal growth factor receptor (EGFR) mutation category stratification factor used at randomisation) was used to test for the effect of afatinib on HRQOL compared with gemcitabine / cisplatin chemotherapy.||||0.0001
92362285|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|1.45|||||TWO_SIDED|90.0|0.58|3.6||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||3.60|0.58|
92362286|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|0.74|||||TWO_SIDED|90.0|0.3|1.84||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.84|0.30|
92362287|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|1.78|||||TWO_SIDED|90.0|0.72|4.37||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.37|0.72|
92362288|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|1.21|||||TWO_SIDED|90.0|0.5|2.92||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.92|0.50|
92362289|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|2.22|||||TWO_SIDED|90.0|0.89|5.55||||||Week 24: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||5.55|0.89|
92362290|NCT01405196|184627864|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|90.0|0.4|2.46||||||Week 24: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.46|0.40|
92224158|NCT01121393|184349787|SUPERIORITY||Hazard Ratio (HR)|0.458|||||TWO_SIDED|95.0|0.303|0.692||||||Cox proportional hazard model stratified by EGFR mutation group||0.692|0.303|
92362291|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|1.34|||||TWO_SIDED|90.0|0.53|3.35||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||3.35|0.53|
92362292|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|90.0|0.41|2.65||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.65|0.41|
92362293|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|0.81|||||TWO_SIDED|90.0|0.33|1.96||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.96|0.33|
92362294|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|0.93|||||TWO_SIDED|90.0|0.39|2.23||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.23|0.39|
92362295|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|90.0|0.42|2.45||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.45|0.42|
92362296|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|1.31|||||TWO_SIDED|90.0|0.55|3.1||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||3.10|0.55|
92362297|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|2.36|||||TWO_SIDED|90.0|0.95|5.88||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||5.88|0.95|
92362298|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|1.82|||||TWO_SIDED|90.0|0.74|4.46||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.46|0.74|
92362299|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|2.8|||||TWO_SIDED|90.0|1.1|7.12||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||7.12|1.10|
92362300|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|1.67|||||TWO_SIDED|90.0|0.66|4.21||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.21|0.66|
92362301|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|2.95|||||TWO_SIDED|90.0|1.18|7.41||||||Week 24: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||7.41|1.18|
92362302|NCT01405196|184627865|SUPERIORITY||Odds Ratio (OR)|2.03|||||TWO_SIDED|90.0|0.82|5.06||||||Week 24: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||5.06|0.82|
92402974|NCT01668784|184697152|SUPERIORITY||Stratified Cox Proportional hazard Model|0.74||||0.0001|TWO_SIDED|95.0|0.63|0.86|||Log Rank|||||0.86|0.63|0.0001
92402975|NCT02761330|184697153|OTHER|||||||0.016||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the recovery rate of Psychomotor Vigilance Task (PVT) reaction time.||||0.016
92402976|NCT02761330|184697153|OTHER|||||||0.012||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Psychomotor Vigilance Task (PVT) reaction time.||||0.012
92402977|NCT02761330|184697153|OTHER|||||||0.031||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the recovery rate of Digital Symbol Substitution Task (DSST) reaction time.||||0.031
92402978|NCT02761330|184697153|OTHER|||||||0.203||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Digital Symbol Substitution Task (DSST) reaction time.||||0.203
92224159|NCT01121393|184349788|SUPERIORITY||||||<|0.0001|TWO_SIDED||||||Log Rank|||A stratified log-rank test (by the epidermal growth factor receptor (EGFR) mutation category stratification factor used at randomisation) was used to test for the effect of afatinib on HRQOL compared with gemcitabine / cisplatin chemotherapy.||||<0.0001
92362303|NCT01405196|184627866|SUPERIORITY||Odds Ratio (OR)|1.59||||0.205|TWO_SIDED|90.0|0.63|4.02||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||\>=4 points reduction in SLEDAI score: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.02|0.63|0.205
92402979|NCT02761330|184697153|OTHER|||||||0.008||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the recovery rate of Motor Praxis Task (MP) reaction time.||||0.008
92402980|NCT02761330|184697153|OTHER|||||||0.496||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Motor Praxis Task (MP) reaction time.||||0.496
92402981|NCT02761330|184697153|OTHER|||||||0.844||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the recovery rate of Visual Object Learning Task (VOLT) reaction time.||||0.844
92402982|NCT02761330|184697153|OTHER|||||||0.016||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Visual Object Learning Task (VOLT) reaction time.||||0.016
92402983|NCT02761330|184697153|OTHER|||||||0.062||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the recovery rate of Abstract Matching task (AM) reaction time.||||0.062
92402984|NCT02761330|184697153|OTHER|||||||0.039||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Abstract Matching task (AM) reaction time.||||0.039
92165817|NCT02139046|184220354|SUPERIORITY_OR_OTHER||Difference in Proportions|49.8|||<|0.001|TWO_SIDED|95.0|43.9|55.8||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||55.8|43.9|<0.001
92362304|NCT01405196|184627866|SUPERIORITY||Odds Ratio (OR)|0.84||||0.625|TWO_SIDED|90.0|0.34|2.08||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||\>=4 points reduction in SLEDAI score: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.08|0.34|0.625
92165818|NCT02139046|184220354|SUPERIORITY_OR_OTHER||Difference in Proportions|10.2||||0.001|TWO_SIDED|95.0|3.5|17.0||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||17.0|3.5|0.001
92224160|NCT01121393|184349788|SUPERIORITY||Hazard Ratio (HR)|0.534|||||TWO_SIDED|95.0|0.394|0.724||||||Cox proportional hazard model stratified by EGFR mutation group||0.724|0.394|
92362305|NCT01405196|184627866|SUPERIORITY||Odds Ratio (OR)|2.81||||0.198|TWO_SIDED|90.0|0.38|20.65||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||No worsening in PhGA: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||20.65|0.38|0.198
92362306|NCT01405196|184627866|SUPERIORITY||Odds Ratio (OR)|2.88||||0.192|TWO_SIDED|90.0|0.39|21.3||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||No worsening in PhGA: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||21.30|0.39|0.192
92362307|NCT01405196|184627878|SUPERIORITY||LS mean difference|-5.41|||||TWO_SIDED|90.0|-12.3|1.49||||||Week 2: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||1.49|-12.30|
92402985|NCT02761330|184697154|OTHER|||||||0.016||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the initial decrement of Psychomotor Vigilance Task (PVT) reaction time.||||0.016
92402986|NCT02761330|184697154|OTHER|||||||0.039||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Psychomotor Vigilance Task (PVT) reaction time.||||0.039
92402987|NCT02761330|184697154|OTHER|||||||0.031||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the initial decrement of Digital Symbol Substitution Task (DSST) reaction time.||||0.031
92224161|NCT01121393|184349789|SUPERIORITY|||||||0.022|TWO_SIDED||||||Log Rank|||A stratified log-rank test (by the epidermal growth factor receptor (EGFR) mutation category stratification factor used at randomisation) was used to test for the effect of afatinib on HRQOL compared with gemcitabine / cisplatin chemotherapy.||||0.0220
92224162|NCT01121393|184349789|SUPERIORITY||Hazard Ratio (HR)|0.699|||||TWO_SIDED|95.0|0.511|0.956||||||Cox proportional hazard model stratified by EGFR mutation group||0.956|0.511|
92224163|NCT03988335|184349799|OTHER|The primary endpoints were first tested at alpha of 10% (2-sided). If the larger p-value was less than 10% (2-sided), both primary endpoints were to be declared statistically significant. If the larger p-value was greater than 10%, but the smaller p-value was less than 5% (2-sided), then the primary endpoint with the smaller p-value was to be declared statistically significant.||||||0.24|||||||Hochberg's method|||||||0.24
92362308|NCT01405196|184627878|SUPERIORITY||LS Mean difference|-1.39|||||TWO_SIDED|90.0|-8.21|5.42||||||Week 4: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||5.42|-8.21|
92362309|NCT01405196|184627878|SUPERIORITY||LS Mean difference|1.3|||||TWO_SIDED|90.0|-5.71|8.32||||||Week 6: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||8.32|-5.71|
92362310|NCT01405196|184627878|SUPERIORITY||LS Mean difference|4.67|||||TWO_SIDED|90.0|-2.22|11.57||||||Week 8: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||11.57|-2.22|
92362311|NCT01405196|184627878|SUPERIORITY||LS Mean difference|-3.98|||||TWO_SIDED|90.0|-11.04|3.07||||||Week 12: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||3.07|-11.04|
92362312|NCT01405196|184627878|SUPERIORITY||LS Mean difference|-2.89|||||TWO_SIDED|90.0|-9.87|4.1||||||Week 16: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||4.10|-9.87|
92362313|NCT01405196|184627878|SUPERIORITY||LS Mean difference|-6.21|||||TWO_SIDED|90.0|-13.37|0.94||||||Week 20: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||0.94|-13.37|
92362314|NCT01405196|184627878|SUPERIORITY||LS Mean difference|1.98|||||TWO_SIDED|90.0|-5.17|9.13||||||Week 24: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||9.13|-5.17|
92362315|NCT01405196|184627878|SUPERIORITY||LS Mean difference|2.07|||||TWO_SIDED|90.0|-4.7|8.84||||||Week 2: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||8.84|-4.70|
92362316|NCT01405196|184627878|SUPERIORITY||LS Mean difference|-2.81|||||TWO_SIDED|90.0|-9.62|4.0||||||Week 4: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||4.00|-9.62|
92362317|NCT01405196|184627878|SUPERIORITY||LS Mean difference|3.97|||||TWO_SIDED|90.0|-2.95|10.9||||||Week 6: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||10.90|-2.95|
92362318|NCT01405196|184627878|SUPERIORITY||LS Mean difference|2.56|||||TWO_SIDED|90.0|-4.29|9.4||||||Week 8: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||9.40|-4.29|
92362319|NCT01405196|184627878|SUPERIORITY||LS Mean difference|3.14|||||TWO_SIDED|90.0|-3.67|9.94||||||Week 12: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||9.94|-3.67|
92362320|NCT01405196|184627878|SUPERIORITY||LS Mean difference|-4.94|||||TWO_SIDED|90.0|-11.91|2.03||||||Week 16: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||2.03|-11.91|
92362321|NCT01405196|184627878|SUPERIORITY||LS Mean difference|-2.64|||||TWO_SIDED|90.0|-9.61|4.32||||||Week 20: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||4.32|-9.61|
92362322|NCT01405196|184627878|SUPERIORITY||LS Mean difference|2.66|||||TWO_SIDED|90.0|-4.48|9.8||||||Week 24: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||9.80|-4.48|
92362323|NCT01405196|184627879|SUPERIORITY||LS mean difference|3.63||||||90.0|-2.56|9.83||||||Week 4: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||9.83|-2.56|
92362324|NCT01405196|184627879|SUPERIORITY||LS mean difference|-2.02||||||90.0|-8.21|4.18||||||Week 8: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||4.18|-8.21|
92362325|NCT01405196|184627879|SUPERIORITY||LS mean difference|2.62|||||TWO_SIDED|90.0|-3.57|8.82||||||Week 12: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||8.82|-3.57|
92362326|NCT01405196|184627879|SUPERIORITY||LS mean difference|1.69|||||TWO_SIDED|90.0|-4.51|7.88||||||Week 16: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||7.88|-4.51|
92362327|NCT01405196|184627879|SUPERIORITY||LS mean difference|4.59|||||TWO_SIDED|90.0|-1.61|10.79||||||Week 20: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||10.79|-1.61|
92362328|NCT01405196|184627879|SUPERIORITY||LS mean difference|3.95||||||90.0|-2.24|10.15||||||Week 24: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||10.15|-2.24|
92362329|NCT01405196|184627879|SUPERIORITY||LS mean difference|1.92||||||90.0|-4.17|8.01||||||Week 4: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||8.01|-4.17|
92276790|NCT01271933|184455242|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.34||0.2009|TWO_SIDED|95.0|-0.2|1.1||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||1.1|-0.2|0.2009
92165819|NCT02139046|184220354|SUPERIORITY_OR_OTHER||Difference in Proportions|7.5||||0.043|TWO_SIDED|95.0|-0.8|15.9||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||15.9|-0.8|0.043
92276791|NCT01271933|184455244|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.48||0.1845|TWO_SIDED|95.0|-1.6|0.3||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.3|-1.6|0.1845
92362330|NCT01405196|184627879|SUPERIORITY||LS mean difference|-4.2||||||90.0|-10.25|1.85||||||Week 8: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||1.85|-10.25|
92362331|NCT01405196|184627879|SUPERIORITY||LS mean difference|1.5|||||TWO_SIDED|90.0|-4.56|7.55||||||Week 16: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||7.55|-4.56|
92362332|NCT01405196|184627879|SUPERIORITY||LS mean difference|0.1|||||TWO_SIDED|90.0|-5.96|6.15||||||Week 20: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||6.15|-5.96|
92362333|NCT01405196|184627879|SUPERIORITY||LS mean difference|-0.34|||||TWO_SIDED|90.0|-6.39|5.71||||||Week 24: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||5.71|-6.39|
92362334|NCT01405196|184627879|SUPERIORITY||LS mean difference|-2.34|||||TWO_SIDED|90.0|-8.39|3.71||||||Week 12: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||3.71|-8.39|
92362335|NCT01405196|184627881|SUPERIORITY||LS mean difference|0.53|||||TWO_SIDED|90.0|-2.53|3.59||||||MCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.59|-2.53|
92362336|NCT01405196|184627881|SUPERIORITY||LS mean difference|-0.48|||||TWO_SIDED|90.0|-3.54|2.58||||||MCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.58|-3.54|
92362337|NCT01405196|184627881|SUPERIORITY||LS mean difference|1.28|||||TWO_SIDED|90.0|-1.78|4.34||||||MCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.34|-1.78|
92362338|NCT01405196|184627881|SUPERIORITY||LS mean difference|1.78|||||TWO_SIDED|90.0|-1.28|4.84||||||MCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.84|-1.28|
92362339|NCT01405196|184627881|SUPERIORITY||LS mean difference|1.2|||||TWO_SIDED|90.0|-1.86|4.26||||||MCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.26|-1.86|
92362340|NCT01405196|184627881|SUPERIORITY||LS mean difference|0.09|||||TWO_SIDED|90.0|-2.98|3.15||||||MCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.15|-2.98|
92362341|NCT01405196|184627881|SUPERIORITY||LS mean difference|0.0|||||TWO_SIDED|90.0|-3.03|3.03||||||MCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.03|-3.03|
92362342|NCT01405196|184627881|SUPERIORITY||LS mean difference|-0.09|||||TWO_SIDED|90.0|-3.09|2.92||||||MCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.92|-3.09|
92362343|NCT01405196|184627881|SUPERIORITY||LS mean difference|-0.02|||||TWO_SIDED|90.0|-3.03|2.99||||||MCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.99|-3.03|
92362344|NCT01405196|184627881|SUPERIORITY||LS mean difference|-0.16|||||TWO_SIDED|90.0|-3.17|2.85||||||MCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.85|-3.17|
92362345|NCT01405196|184627881|SUPERIORITY||LS mean difference|-1.58|||||TWO_SIDED|90.0|-4.58|1.43||||||MCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||1.43|-4.58|
92362346|NCT01405196|184627881|SUPERIORITY||LS mean difference|-0.71|||||TWO_SIDED|90.0|-3.72|2.3||||||MCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.30|-3.72|
92362347|NCT01405196|184627881|SUPERIORITY||LS mean difference|2.67|||||TWO_SIDED|90.0|0.14|5.2||||||PCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.20|0.14|
92362348|NCT01405196|184627881|SUPERIORITY||LS mean difference|3.36|||||TWO_SIDED|90.0|0.84|5.89||||||PCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.89|0.84|
92362349|NCT01405196|184627881|SUPERIORITY||LS mean difference|3.23|||||TWO_SIDED|90.0|0.7|5.76||||||PCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.76|0.70|
92362350|NCT01405196|184627881|SUPERIORITY||LS mean difference|3.77|||||TWO_SIDED|90.0|1.24|6.3||||||PCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||6.30|1.24|
92362351|NCT01405196|184627881|SUPERIORITY||LS mean difference|3.1|||||TWO_SIDED|90.0|0.57|5.63||||||PCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.63|0.57|
92362352|NCT01405196|184627881|SUPERIORITY||LS mean difference|3.03||||||90.0|0.5|5.56||||||PCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.56|0.50|
92362353|NCT01405196|184627881|SUPERIORITY||LS mean difference|1.96|||||TWO_SIDED|90.0|-0.53|4.46||||||PCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.46|-0.53|
92362354|NCT01405196|184627881|SUPERIORITY||LS mean difference|2.68||||||90.0|0.2|5.17||||||PCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.17|0.20|
92362355|NCT01405196|184627881|SUPERIORITY||LS mean difference|1.84|||||TWO_SIDED|90.0|-0.65|4.32||||||PCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.32|-0.65|
92224164|NCT03988335|184349800|OTHER|The primary endpoints were first tested at alpha of 10% (2-sided). If the larger p-value was less than 10% (2sided), both primary endpoints were to be declared statistically significant. If the larger p-value was greater than 10%, but the smaller p-value was less than 5% (2-sided), then the primary endpoint with the smaller p-value was to be declared statistically significant.||||||0.804|||||||Hochberg's method|||||||0.804
92362356|NCT01405196|184627881|SUPERIORITY||LS mean difference|2.01|||||TWO_SIDED|90.0|-0.47|4.5||||||PCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.50|-0.47|
92402988|NCT02761330|184697154|OTHER|||||||1||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the initial decrement of Digital Symbol Substitution Task (DSST) reaction time.||||1.0
92224165|NCT00119158|184349801|NON_INFERIORITY_OR_EQUIVALENCE|modified EASI (eczema area severity index) was considered equivalent if p value was greater than \>0.05|||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92224166|NCT00608985|184349808|SUPERIORITY_OR_OTHER||Median Difference (Net)|-15.0|||<|0.0001|TWO_SIDED|95.0|-21.8|-8.8|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-8.8|-21.8|<0.0001
92362357|NCT01405196|184627881|SUPERIORITY||LS mean difference|2.34|||||TWO_SIDED|90.0|-0.15|4.82||||||PCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.82|-0.15|
92402989|NCT02761330|184697154|OTHER|||||||0.195||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the initial decrement of Motor Praxis task (MP) reaction time.||||0.195
92402990|NCT02761330|184697154|OTHER|||||||0.57||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the initial decrement of Motor Praxis task (MP) reaction time.||||0.570
92402991|NCT02761330|184697154|OTHER|||||||0.031||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the initial decrement of Visual Object Learning Task (VOLT) reaction time.||||0.031
92402992|NCT02761330|184697154|OTHER|||||||0.016||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the initial decrement of Visual Object Learning Task (VOLT) reaction time.||||0.016
92362358|NCT01405196|184627881|SUPERIORITY||LS mean difference|2.59|||||TWO_SIDED|90.0|0.11|5.08||||||PCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.08|0.11|
92362359|NCT01405196|184627882|SUPERIORITY||LS mean difference|0.47||||||90.0|-6.33|7.27||||||Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||7.27|-6.33|
92224167|NCT00608985|184349808|SUPERIORITY_OR_OTHER||Median Difference (Net)|-26.8|||<|0.0001|TWO_SIDED|95.0|-34.3|-19.5|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-19.5|-34.3|<0.0001
92402993|NCT02761330|184697154|OTHER|||||||1||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the initial decrement of Abstract Matching (AM) task reaction time.||||1.00
92402994|NCT02761330|184697154|OTHER|||||||0.109||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the initial decrement of Abstract Matching (AM) task reaction time.||||0.109
92402995|NCT02761330|184697162|OTHER|||||||0.301|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the delta band at baseline compared to T0 following return of responsiveness.||||0.301
92402996|NCT02761330|184697162|OTHER|||||||0.301|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the delta band at baseline compared to T0 following return of responsiveness.||||0.301
92402997|NCT02761330|184697162|OTHER|||||||0.557|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the delta band at baseline compared to T0 following return of responsiveness.||||0.557
92224168|NCT00608985|184349808|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.8||||0.0376|TWO_SIDED|95.0|-13.5|-0.3|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-0.3|-13.5|0.0376
92224169|NCT00608985|184349809|SUPERIORITY_OR_OTHER||Median Difference (Net)|-13.5||||0.0001|TWO_SIDED|95.0|-20.3|-6.5|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||-6.5|-20.3|0.0001
92224170|NCT00608985|184349809|SUPERIORITY_OR_OTHER||Median Difference (Net)|-19.5|||<|0.0001|TWO_SIDED|95.0|-27.3|-12.3|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||-12.3|-27.3|<0.0001
92362360|NCT01405196|184627882|SUPERIORITY||LS mean difference|3.92||||||90.0|-2.88|10.72||||||Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||10.72|-2.88|
92362361|NCT01405196|184627882|SUPERIORITY||LS mean difference|3.55|||||TWO_SIDED|90.0|-3.25|10.36||||||Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||10.36|-3.25|
92362362|NCT01405196|184627882|SUPERIORITY||LS mean difference|7.85|||||TWO_SIDED|90.0|1.05|14.66||||||Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||14.66|1.05|
92362363|NCT01405196|184627882|SUPERIORITY||LS mean difference|7.12|||||TWO_SIDED|90.0|0.32|13.92||||||Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||13.92|0.32|
92362364|NCT01405196|184627882|SUPERIORITY||LS mean difference|4.33|||||TWO_SIDED|90.0|-2.47|11.13||||||Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||11.13|-2.47|
92362365|NCT01405196|184627882|SUPERIORITY||LS mean difference|1.33|||||TWO_SIDED|90.0|-5.4|8.05||||||Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||8.05|-5.40|
92402998|NCT02761330|184697163|OTHER|||||||0.91|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the theta band at baseline compared to T0 following return of responsiveness.||||0.910
92402999|NCT02761330|184697163|OTHER|||||||0.734|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the theta band at baseline compared to T0 following return of responsiveness.||||0.734
92403000|NCT02761330|184697163|OTHER|||||||0.322|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the theta band at baseline compared to T0 following return of responsiveness.||||0.322
92403001|NCT02761330|184697164|OTHER|||||||0.164|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the alpha band at baseline compared to T0 following return of responsiveness.||||0.164
92224171|NCT00608985|184349809|SUPERIORITY_OR_OTHER||Median Difference (Net)|3.5||||0.3358|TWO_SIDED|95.0|-3.8|11.0|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||11.0|-3.8|0.3358
92165820|NCT02139046|184220355|SUPERIORITY_OR_OTHER||Difference in Proportions|2.1||||0.503|TWO_SIDED|95.0|-4.9|9.0||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||9.0|-4.9|0.503
92165821|NCT02139046|184220355|SUPERIORITY_OR_OTHER||Difference in Proportions|5.9||||0.064|TWO_SIDED|95.0|-1.2|13.0||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||13.0|-1.2|0.064
92224172|NCT00608985|184349810|SUPERIORITY_OR_OTHER||Median Difference (Net)|-7.3||||0.0186|TWO_SIDED|95.0|-13.3|-1.3|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||-1.3|-13.3|0.0186
92224173|NCT00608985|184349810|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.4||||0.0006|TWO_SIDED|95.0|-16.4|-4.6|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||-4.6|-16.4|0.0006
92362366|NCT01405196|184627882|SUPERIORITY||LS mean difference|3.93|||||TWO_SIDED|90.0|-2.75|10.62||||||Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||10.62|-2.75|
92362367|NCT01405196|184627882|SUPERIORITY||LS mean difference|-0.78|||||TWO_SIDED|90.0|-7.47|5.91||||||Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.91|-7.47|
92362368|NCT01405196|184627882|SUPERIORITY||LS mean difference|3.67||||||90.0|-3.02|10.35||||||Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||10.35|-3.02|
92362369|NCT01405196|184627882|SUPERIORITY||LS mean difference|2.99|||||TWO_SIDED|90.0|-3.7|9.68||||||Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||9.68|-3.70|
92362370|NCT01405196|184627882|SUPERIORITY||LS mean difference|1.44|||||TWO_SIDED|90.0|-5.24|8.13||||||Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||8.13|-5.24|
92362371|NCT01405196|184627883|SUPERIORITY||LS mean difference|0.53|||||TWO_SIDED|90.0|-2.53|3.59||||||MCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.59|-2.53|
92362372|NCT01405196|184627883|SUPERIORITY||LS mean difference|-0.48|||||TWO_SIDED|90.0|-3.54|2.58||||||MCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.58|-3.54|
92362373|NCT01405196|184627883|SUPERIORITY||LS mean difference|1.28|||||TWO_SIDED|90.0|-1.78|4.34||||||MCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.34|-1.78|
92362374|NCT01405196|184627883|SUPERIORITY||LS mean difference|1.78|||||TWO_SIDED|90.0|-1.28|4.84||||||MCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.84|-1.28|
92362375|NCT01405196|184627883|SUPERIORITY||LS mean difference|1.2|||||TWO_SIDED|90.0|-1.86|4.26||||||MCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.26|-1.86|
92362376|NCT01405196|184627883|SUPERIORITY||LS mean difference|0.09|||||TWO_SIDED|90.0|-2.98|3.15||||||MCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.15|-2.98|
92362377|NCT01405196|184627883|SUPERIORITY||LS mean difference|0.0|||||TWO_SIDED|90.0|-3.03|3.03||||||MCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.03|-3.03|
92362378|NCT01405196|184627883|SUPERIORITY||LS mean difference|-0.09|||||TWO_SIDED|90.0|-3.09|2.92||||||MCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.92|-3.09|
92362379|NCT01405196|184627883|SUPERIORITY||LS mean difference|-0.02|||||TWO_SIDED|90.0|-3.03|2.99||||||MCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.99|-3.03|
92362380|NCT01405196|184627883|SUPERIORITY||LS mean difference|-0.16|||||TWO_SIDED|90.0|-3.17|2.85||||||MCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.85|-3.17|
92362381|NCT01405196|184627883|SUPERIORITY||LS mean difference|-1.58|||||TWO_SIDED|90.0|-4.58|1.43||||||MCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||1.43|-4.58|
92362382|NCT01405196|184627883|SUPERIORITY||LS mean difference|-0.71|||||TWO_SIDED|90.0|-3.72|2.3||||||MCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.30|-3.72|
92362383|NCT01405196|184627883|SUPERIORITY||LS mean difference|2.67|||||TWO_SIDED|90.0|0.14|5.2||||||PCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.20|0.14|
92362384|NCT01405196|184627883|SUPERIORITY||LS mean difference|3.36|||||TWO_SIDED|90.0|0.84|5.89||||||PCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.89|0.84|
92362385|NCT01405196|184627883|SUPERIORITY||LS mean difference|3.23|||||TWO_SIDED|90.0|0.7|5.76||||||PCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.76|0.70|
92362386|NCT01405196|184627883|SUPERIORITY||LS mean difference|3.77|||||TWO_SIDED|90.0|1.24|6.3||||||PCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||6.30|1.24|
92362387|NCT01405196|184627883|SUPERIORITY||LS mean difference|3.1|||||TWO_SIDED|90.0|0.57|5.63||||||PCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.63|0.57|
92362388|NCT01405196|184627883|SUPERIORITY||LS mean difference|3.03||||||90.0|0.5|5.56||||||PCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.56|0.50|
92362389|NCT01405196|184627883|SUPERIORITY||LS mean difference|1.96|||||TWO_SIDED|90.0|-0.53|4.46||||||PCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.46|-0.53|
92362390|NCT01405196|184627883|SUPERIORITY||LS mean difference|2.68||||||90.0|0.2|5.17||||||PCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.17|0.20|
92362391|NCT01405196|184627883|SUPERIORITY||LS mean difference|1.84|||||TWO_SIDED|90.0|-0.65|4.32||||||PCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.32|-0.65|
92362392|NCT01405196|184627883|SUPERIORITY||LS mean difference|2.01|||||TWO_SIDED|90.0|-0.47|4.5||||||PCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.50|-0.47|
92224174|NCT00608985|184349810|SUPERIORITY_OR_OTHER||Median Difference (Net)|-12.7|||<|0.0001|TWO_SIDED|95.0|-18.8|-6.6|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||-6.6|-18.8|<0.0001
92224175|NCT00608985|184349811|SUPERIORITY_OR_OTHER||Median Difference (Net)|-9.3||||0.0035|TWO_SIDED|95.0|-15.3|-3.0|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-3.0|-15.3|0.0035
92224176|NCT00608985|184349811|SUPERIORITY_OR_OTHER||Median Difference (Net)|-9.5||||0.0006|TWO_SIDED|95.0|-15.0|-4.3|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-4.3|-15.0|0.0006
92362393|NCT01405196|184627883|SUPERIORITY||LS mean difference|2.34|||||TWO_SIDED|90.0|-0.15|4.82||||||PCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.82|-0.15|
92362394|NCT01405196|184627883|SUPERIORITY||LS mean difference|2.59|||||TWO_SIDED|90.0|0.11|5.08||||||PCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.08|0.11|
92362395|NCT01405196|184627885|SUPERIORITY||LS mean difference|2.08|||||TWO_SIDED|90.0|-1.26|5.42||||||Week 4: Analysis was done using the ANCOVA model; CI parameter being the Least Square (LS) mean difference from that model.||5.42|-1.26|
92362396|NCT01405196|184627885|SUPERIORITY||LS mean difference|1.95|||||TWO_SIDED|90.0|-1.38|5.29||||||Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.29|-1.38|
92362397|NCT01405196|184627885|SUPERIORITY||LS mean difference|2.81|||||TWO_SIDED|90.0|-0.53|6.15||||||Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||6.15|-0.53|
92362398|NCT01405196|184627885|SUPERIORITY||LS mean difference|3.88|||||TWO_SIDED|90.0|0.54|7.22||||||Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||7.22|0.54|
92362399|NCT01405196|184627885|SUPERIORITY||LS mean difference|1.95|||||TWO_SIDED|90.0|-1.39|5.29||||||Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.29|-1.39|
92362400|NCT01405196|184627885|SUPERIORITY||LS mean difference|1.69|||||TWO_SIDED|90.0|-1.65|5.03||||||Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.03|-1.65|
92362401|NCT01405196|184627885|SUPERIORITY||LS mean difference|1.69|||||TWO_SIDED|90.0|-1.61|4.99||||||Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.99|-1.61|
92362402|NCT01405196|184627885|SUPERIORITY||LS mean difference|0.97|||||TWO_SIDED|90.0|-2.31|4.26||||||Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.26|-2.31|
92362403|NCT01405196|184627885|SUPERIORITY||LS mean difference|1.33|||||TWO_SIDED|90.0|-1.96|4.61||||||Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.61|-1.96|
92362404|NCT01405196|184627885|SUPERIORITY||LS mean difference|3.6|||||TWO_SIDED|90.0|0.32|6.89||||||Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||6.89|0.32|
92362405|NCT01405196|184627885|SUPERIORITY||LS mean difference|0.91|||||TWO_SIDED|90.0|-2.38|4.19||||||Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.19|-2.38|
92362406|NCT01405196|184627885|SUPERIORITY||LS mean difference|0.6|||||TWO_SIDED|90.0|-2.68|3.88||||||Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.88|-2.68|
92362407|NCT01542788|184627886|SUPERIORITY_OR_OTHER||Proportion difference|77.3|||<|0.001|TWO_SIDED|95.0|71.0|83.6||P-value is from the Cochran-Mantel-Haenszel test stratified by presence or absence of cirrhosis for the superiority of SOF+RBV over placebo.|Cochran-Mantel-Haenszel||The difference in proportions between treatment groups and associated 95% confidence interval (CI) are calculated based on stratum-adjusted Mantel-Haenszel proportions.|A sample size of 180 subjects in the active group and 60 in the placebo group would provide 99% power to detect a difference between group SVR12 rates of 40% using a 2-sided continuity-corrected chi-square test at significance level of 0.05.||83.6|71.0|< 0.001
92362408|NCT01542788|184627888|SUPERIORITY_OR_OTHER||Proportion difference|82.7|||||TWO_SIDED|95.0|76.8|88.5|||||The difference in proportions between treatment groups and associated 95% CI are calculated based on stratum-adjusted Mantel-Haenszel proportions.|||88.5|76.8|
92362409|NCT01542788|184627889|SUPERIORITY_OR_OTHER||Proportion difference|77.3|||<|0.001|TWO_SIDED|95.0|71.0|83.6||P-value is from the Cochran-Mantel-Haenszel test stratified by randomization stratification factor for the superiority of SOF+RBV over placebo.|Cochran-Mantel-Haenszel||The difference in proportions between treatment groups and associated 95% CI are calculated based on stratum-adjusted Mantel-Haenszel proportions.|||83.6|71.0|< 0.001
92362410|NCT01400412|184627892|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Two-sided p-value without adjustment for multiple testing, interpreted at the 5% nominal level of significance|Wilcoxon (Mann-Whitney)|Stratified Wilcoxon rank sum test stratified by age (\<30 and \>=30 years)||The null hypothesis is that there is no difference between the two arms in the percent of total hip BMD change from baseline to week 48||||<0.001
92362411|NCT01649869|184627912|SUPERIORITY|||||||0.0859|||||||Generalized linear model|Generalized linear model for binary outcome based on generalized estimating equations.||||||0.0859
92403002|NCT02761330|184697164|OTHER|||||||0.039|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the alpha band at baseline compared to T0 following return of responsiveness.||||0.039
92362412|NCT01649869|184627913|SUPERIORITY|||||||0.7068|||||||Fisher Exact|||||||0.7068
92362413|NCT01649869|184627914|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92362414|NCT01649869|184627915|SUPERIORITY|||||||0.7068|||||||Fisher Exact|||||||0.7068
92362415|NCT01649869|184627916|SUPERIORITY|||||||0.0752|||||||Fisher Exact|||||||0.0752
92362416|NCT01649869|184627918|SUPERIORITY|||||||0.4823|||||||Generalized linear model|Generalized linear model for binary outcome using generalized estimating equations.||||||0.4823
92403003|NCT02761330|184697164|OTHER|||||||0.375|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the alpha band at baseline compared to T0 following return of responsiveness.||||0.375
92224177|NCT00608985|184349811|SUPERIORITY_OR_OTHER||Median Difference (Net)|-16.0|||<|0.0001|TWO_SIDED|95.0|-22.0|-9.8|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-9.8|-22.0|<0.0001
92403004|NCT02761330|184697165|OTHER|||||||0.91|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the beta band at baseline compared to T0 following return of responsiveness.||||0.910
92403005|NCT02761330|184697165|OTHER|||||||0.91|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the beta band at baseline compared to T0 following return of responsiveness.||||0.910
92403006|NCT02761330|184697165|OTHER|||||||0.625|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the beta band at baseline compared to T0 following return of responsiveness.||||0.625
92403007|NCT02761330|184697166|OTHER|||||||0.129|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior functional connectivity (coherence) at baseline compared to T0 following return of responsiveness.||||0.129
92403008|NCT02761330|184697166|OTHER|||||||0.91|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior functional connectivity (coherence) at baseline compared to T0 following return of responsiveness.||||0.910
92403009|NCT02761330|184697166|OTHER|||||||0.625|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior functional connectivity (coherence) at baseline compared to T0 following return of responsiveness.||||0.625
92403010|NCT02761330|184697167|OTHER|||||||1|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior phase-lag (PLI) at baseline compared to T0 following return of responsiveness.||||1.000
92403011|NCT02761330|184697167|OTHER|||||||0.496|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior phase-lag (PLI) at baseline compared to T0 following return of responsiveness.||||0.496
92403012|NCT02761330|184697167|OTHER|||||||0.16|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior phase-lag (PLI) at baseline compared to T0 following return of responsiveness.||||0.160
92403013|NCT02761330|184697168|OTHER|||||||0.008|||||||Wilcoxon Signed-Ranked Test|||Comparison of EEG Entropy using Permutation Entropy (PE) measures at baseline compared to T0 following return of responsiveness.||||0.008
92403014|NCT02761330|184697168|OTHER|||||||0.359|||||||Wilcoxon Signed-Ranked Test|||Comparison of EEG Entropy using Permutation Entropy (PE) measures at baseline compared to T0 following return of responsiveness.||||0.359
92403015|NCT02761330|184697168|OTHER|||||||0.375|||||||Wilcoxon Signed-Ranked Test|||Comparison of EEG Entropy using Permutation Entropy (PE) measures at baseline compared to T0 following return of responsiveness.||||0.375
92403016|NCT05386329|184697170|SUPERIORITY|Comparison of mid-treatment to end-of-treatment|Mean Difference (Final Values)|1.0308|STANDARD_ERROR_OF_MEAN|0.5485|=|0.0719|TWO_SIDED|95.0|-0.09883|2.1605||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT midpoint (week 4) CSQ-8 score compared to the end-point (week 8) CSQ-8 score.|Null hypothesis: there is no significant difference in CSQ-8 total scores between midpoint (week 4) and end-of-treatment (week 8).||2.1605|-0.09883|=.0719
92403017|NCT05386329|184697171|SUPERIORITY|Comparison of mid-treatment (week 4) to baseline|Mean Difference (Final Values)|0.4296|STANDARD_ERROR_OF_MEAN|0.8857|=|0.6316|TWO_SIDED|95.0|-1.3884|2.2475||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT midpoint (week 4) CEQ credibility score compared to the baseline (week 0) CEQ credibility score.|Null hypothesis: there is no significant difference in treatment credibility total scores between baseline (week 0) and midpoint (week 4).||2.2475|-1.3884|=.6316
92165822|NCT02139046|184220355|SUPERIORITY_OR_OTHER||Difference in Proportions|1.8||||0.561|TWO_SIDED|95.0|-5.1|8.7||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||8.7|-5.1|0.561
92165823|NCT02139046|184220355|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.5||||0.869|TWO_SIDED|95.0|-8.0|6.9||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||6.9|-8.0|0.869
92224178|NCT00608985|184349812|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.0||||0.2237|TWO_SIDED|95.0|-11.0|2.5|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||2.5|-11.0|0.2237
92403018|NCT05386329|184697172|SUPERIORITY|Comparison of mid-treatment (week 4) to baseline.|Mean Difference (Final Values)|1.1512|STANDARD_ERROR_OF_MEAN|0.9213|=|0.2225|TWO_SIDED|95.0|-0.7422|3.0446||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT midpoint (week 4) CEQ expectancy scores compared to the baseline (week 0) CEQ expectancy scores.|Null hypothesis: there is no significant difference in treatment expectancy total scores between baseline (week 0) and midpoint (week 4).||3.0446|-0.7422|=.2225
92403019|NCT05386329|184697174|SUPERIORITY|Comparison of post-treatment (week 8) to mid-treatment (week 4)|Wilcoxon Z|0.2712|||=|0.7873|TWO_SIDED|||||The a priori threshold for statistical significance was alpha=.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no significant difference in treatment utilization between midpoint (week 4) and end of treatment (week 8).||||=.7873
92362417|NCT01649869|184627919|SUPERIORITY|||||||0.0859|||||||Generalized linear model|Generalized linear model for binary outcome using generalized estimating equations.||||||0.0859
92362418|NCT01649869|184627920|OTHER|Association of binary outcome and continuous outcome||||||0.8212|||||||Generalized linear model|For binary outcome using generalized estimating equations||||||0.8212
92362419|NCT01649869|184627921|OTHER|Association of binary outcome and continuous outcome and continuous outcome||||||0.8356|||||||Generalized linear model|Generalized linear model for binary outcome using generalized estimating equations.||||||0.8356
92362420|NCT01649869|184627922|OTHER|Association of binary outcome and continuous outcome||||||0.7961|||||||Generalized linear model|Generalized linear model for binary outcome using generalized estimating equations||||||0.7961
92403020|NCT05386329|184697175|SUPERIORITY|Pre-post comparison|Mean Difference (Final Values)|-7.8424|STANDARD_ERROR_OF_MEAN|1.2858|<|0.0001|TWO_SIDED|95.0|-10.4944|-5.1903||The p-value was not adjusted for multiple comparisons because this was the pre-specified primary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT end of treatment (week 8) HAM-D score compared to the baseline (week 0) HAM-D score.|Null hypothesis: there is no significant difference in HAM-D total scores between baseline (week 0) and end of treatment (week 8).||-5.1903|-10.4944|<.0001
92403021|NCT05386329|184697176|SUPERIORITY|Pre-post comparison|Mean Difference (Final Values)|-9.9409|STANDARD_ERROR_OF_MEAN|1.7329|<|0.0001|TWO_SIDED|95.0|-13.5043|-6.3776||The p-value was not adjusted for multiple comparisons because this was the pre-specified secondary outcome that addresses complementary aspects of the patient experience. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT end of treatment (week 8) WSAS scores compared to the baseline (week 0) WSAS scores.|Null hypothesis: there is no significant difference in WSAS total scores between baseline (week 0) and end of treatment (week 8).||-6.3776|-13.5043|<.0001
92403022|NCT05386329|184697177|SUPERIORITY|Pre-post comparison|Mean Difference (Final Values)|21.5463|STANDARD_ERROR_OF_MEAN|3.4152|<|0.0001|TWO_SIDED|95.0|14.512|28.5806||The p-value was not adjusted for multiple comparisons because this was a pre-specified secondary outcome assessing a complementary aspect of the patient experience. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT end of treatment (week 8) Q-LES-Q-SF percent scores compared to the baseline (week 0) Q-LES-Q-SF percent scores.|Null hypothesis: there is no significant difference in Q-LES-Q-SF total scores between baseline (week 0) and end of treatment (week 8).||28.5806|14.5120|<.0001
92403023|NCT04973449|184697207|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.08|1.32||||||The analyses were derived using analysis of covariance (ANCOVA).||1.32|1.08|
92403024|NCT04973449|184697208|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group is \> 0.67.|GMT ratio|1.02|||||TWO_SIDED|95.0|0.9|1.14||||||The analyses were derived using ANCOVA.||1.14|0.90|
92403025|NCT04973449|184697209|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|1.68|||||TWO_SIDED|95.0|-3.11|6.49||||||The analyses were derived using ANCOVA.||6.49|-3.11|
92403026|NCT04973449|184697210|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group is \> 0.67.|GMT ratio|3.47|||||TWO_SIDED|95.0|3.09|3.89||||||The analyses were derived using ANCOVA.||3.89|3.09|
92403027|NCT04973449|184697213|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|3.21|||||TWO_SIDED|95.0|3.06|3.36||||||The analyses were derived using ANCOVA.||3.36|3.06|
92403028|NCT04973449|184697214|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.5|||||TWO_SIDED|95.0|0.45|0.56||||||The analyses were derived using ANCOVA.||0.56|0.45|
92224179|NCT00608985|184349812|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.0||||0.0607|TWO_SIDED|95.0|-12.3|0.3|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||0.3|-12.3|0.0607
92224180|NCT00608985|184349812|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.5||||0.0017|TWO_SIDED|95.0|-17.3|-4.0|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||-4.0|-17.3|0.0017
92362421|NCT01649869|184627923|OTHER|Association of binary outcome and continuous outcome||||||0.8675|||||||Generalized linear model|Generalized linear model for binary outcome||||||0.8675
92362422|NCT01649869|184627924|OTHER|Association of binary outcome and continuous outcome||||||0.9682|||||||Generalized linear model|Generalized linear model for binary outcome||||||0.9682
92362423|NCT01649869|184627925|OTHER|Association of binary outcome and continuous outcome||||||0.6063|||||||Generalized linear model|Generalized linear model for binary outcome||||||0.6063
92362424|NCT01649869|184627926|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
92362425|NCT01649869|184627927|SUPERIORITY|||||||0.6043|||||||Fisher Exact|||||||0.6043
92362426|NCT01649869|184627928|SUPERIORITY|||||||0.6513|||||||Fisher Exact|||||||0.6513
92362427|NCT01649869|184627929|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92362428|NCT01649869|184627930|SUPERIORITY|||||||0.0659|||||||Fisher Exact|||||||0.0659
92362429|NCT01649869|184627931|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92362430|NCT00069641|184627942|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|18.96|STANDARD_ERROR_OF_MEAN|6.47||0.0049|TWO_SIDED|95.0|5.99|31.93|||ANCOVA|||p-value for treatment difference based on Analysis of covariance (ANCOVA) model containing treatment, region, baseline participant age, and baseline disease score.||31.93|5.99|0.0049
92362431|NCT04778592|184627945|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.291||0.4549|TWO_SIDED|95.0|-0.36|0.79|||Mixed Models Analysis|||||0.79|-0.36|0.4549
92224181|NCT00608985|184349813|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.1||||0.1187|TWO_SIDED|95.0|-9.1|0.9|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||0.9|-9.1|0.1187
92224182|NCT00608985|184349813|SUPERIORITY_OR_OTHER||Median Difference (Net)|-7.1||||0.0017|TWO_SIDED|95.0|-11.5|-2.7|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||-2.7|-11.5|0.0017
92224183|NCT00608985|184349813|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.1||||0.0121|TWO_SIDED|95.0|-10.8|-1.4|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||-1.4|-10.8|0.0121
92224184|NCT03987854|184349847|SUPERIORITY||paired t-test|-7.67|STANDARD_DEVIATION|6.1|<|0.001|TWO_SIDED|||||-6.16|t-test, 2 sided|||||||<.001
92276792|NCT01271933|184455247|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.9|STANDARD_ERROR_OF_MEAN|4.52||0.0305|TWO_SIDED|95.0|-18.9|1.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Sleep disturbance||1.0|-18.9|0.0305
92276793|NCT01271933|184455247|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|5.17||0.3133|TWO_SIDED|95.0|-5.0|15.5||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Snoring||15.5|-5.0|0.3133
92362432|NCT01126190|184627965|NON_INFERIORITY|Non-inferiority was demonstrated if the upper endpoint of the CI for the difference in mean DSN was less than or equal to 0.62 days|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.13|0.37||||||For the primary non-inferiority endpoint of cycle 1 DSN, the 95% confidence interval (CI) for difference in DSN was calculated by stratified bootstrap resampling.||0.37|-0.13|
92362433|NCT01977898|184627975|SUPERIORITY|||||||0.877|||||||Fisher Exact|||A sample size of 65 patients in each group would be required to achieve 80% power to detect this difference between intrathecal morphine and saline administration . Sample size of 64 per group achieve 80% power to detect a difference between the group proportions of 0.25. The proportion in the treatment group is assumed to be 0.5 under the null hypothesis and 0.25 under the alternative hypothesis. The proportion in the control group is .05.The significance level of the test was targeted at .05.||||.877
92362434|NCT01977898|184627976|SUPERIORITY|||||||0.499|||||||Wilcoxon (Mann-Whitney)|||||||.499
92362435|NCT01977898|184627977|SUPERIORITY|||||||0.463|||||||Chi-squared|||||||.463
92362436|NCT01977898|184627978|SUPERIORITY|||||||0.0463|||||||Chi-squared|||||||.0463
92362437|NCT01977898|184627979|SUPERIORITY|||||||0.525|||||||Chi-squared|||||||.525
92362438|NCT01977898|184627980|SUPERIORITY|||||||0.691|||||||Wilcoxon (Mann-Whitney)|||||||0.691
92224185|NCT03987854|184349848|SUPERIORITY||paired t-test|-0.21|STANDARD_DEVIATION|0.27||0.001|TWO_SIDED|||||-3.29|t-test, 2 sided|||||||.001
92224186|NCT03987854|184349849|SUPERIORITY||paired t-test|1.92|STANDARD_DEVIATION|1.17|<|0.001|TWO_SIDED|||||7.52|t-test, 2 sided|||||||<.001
92224187|NCT03987854|184349850|SUPERIORITY||paired t-test|1.14|STANDARD_DEVIATION|1.04|<|0.001|TWO_SIDED|||||5.03|t-test, 2 sided|||||||<.001
92224188|NCT03987854|184349851|SUPERIORITY||paired t-test|2.52|STANDARD_DEVIATION|1.7|<|0.001|TWO_SIDED|||||6.81|t-test, 2 sided|||||||<.001
92403029|NCT04973449|184697215|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.31|||||TWO_SIDED|95.0|0.27|0.35||||||The analyses were derived using ANCOVA.||0.35|0.27|
92403030|NCT04973449|184697216|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.41|||||TWO_SIDED|95.0|1.25|1.58||||||The analyses were derived using ANCOVA.||1.58|1.25|
92224189|NCT03987854|184349852|SUPERIORITY||paired t-test|1.08|STANDARD_DEVIATION|1.43||0.003|TWO_SIDED|||||3.46|t-test, 2 sided|||||||.003
92224190|NCT03987854|184349853|SUPERIORITY||paired t-test|1.11|STANDARD_DEVIATION|1.56||0.004|TWO_SIDED|||||3.26|t-test, 2 sided|||||||.004
92224191|NCT03987854|184349854|SUPERIORITY||paired t-test|2.1|STANDARD_DEVIATION|2.76||0.002|TWO_SIDED|||||3.49|t-test, 2 sided|||||||.002
92224192|NCT00852995|184349915|SUPERIORITY_OR_OTHER|||||||0.00028|TWO_SIDED||||||t-test, 2 sided|||||||0.00028
92224193|NCT00852995|184349915|SUPERIORITY_OR_OTHER|||||||0.0899|TWO_SIDED||||||t-test, 2 sided|||||||0.0899
92224194|NCT00852995|184349915|SUPERIORITY_OR_OTHER|||||||0.1586|TWO_SIDED||||||t-test, 2 sided|||||||0.1586
92362439|NCT01977898|184627981|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.610
92362440|NCT01977898|184627982|SUPERIORITY|||||||0.499|||||||Wilcoxon (Mann-Whitney)|||||||.499
92362441|NCT01977898|184627983|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||.06
92362442|NCT01977898|184627984|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||.31
92362443|NCT01049373|184627989|SUPERIORITY_OR_OTHER|||||||0.0426|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0426
92362444|NCT01049373|184627990|SUPERIORITY_OR_OTHER|||||||0.0757|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0757
92362445|NCT01049373|184627991|SUPERIORITY_OR_OTHER|||||||0.0465|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0465
92362446|NCT01049373|184627992|SUPERIORITY_OR_OTHER|||||||0.04443|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.04443
92362447|NCT01155050|184628036|SUPERIORITY|||||||0.296|||||||ANOVA|||The null hypothesis is that there are no differences in the outcome across groups.||||.296
92362448|NCT01155050|184628037|SUPERIORITY|||||||0.787|||||||ANOVA|||The null hypothesis is that there are no differences in the outcome across groups.||||.787
92362449|NCT01155050|184628038|SUPERIORITY|||||||0.34|||||||ANOVA|||The null hypothesis is that there are no differences in the outcome across groups.||||.340
92362450|NCT01155050|184628039|SUPERIORITY|||||||0.502|||||||ANOVA|||The null hypothesis is that there are no differences in the outcome across groups.||||.502
92362451|NCT01155050|184628040|SUPERIORITY|||||||0.86|||||||ANOVA|||The null hypothesis is that the outcome does not differ across the four groups.||||.860
92362452|NCT01155050|184628041|SUPERIORITY|||||||0.634|||||||ANOVA|||The null hypothesis is that the outcome does not differ across the four groups.||||.634
92362453|NCT01155050|184628042|SUPERIORITY|||||||0.879|||||||ANOVA|||The null hypothesis is that there is no difference in the outcome across the four treatment groups.||||.879
92362454|NCT01198587|184628044|SUPERIORITY|||||||0.88|||||||Log Rank|||||||0.88
92362455|NCT01198587|184628044|SUPERIORITY|||||||0.19|||||||Log Rank|||||||0.19
92362456|NCT01959529|184628052|NON_INFERIORITY|Non-inferiority of IDeg to IGlar was considered confirmed if the upper limit of the two-sided 95% confidence interval for the HR was below 1.3 or equivalent if the p-value for the one-sided test of null hypothesis (H0): HR≥1.3 against the alternative hypothesis (Ha): HR\<1.3 was less than 2.5%.|Hazard Ratio (HR)|0.908|||<|0.001|TWO_SIDED|95.0|0.781|1.055||p value : Refers to one-sided test of HR \>= 1.3 (against Ha: HR\<1.3).|Regression, Cox|||The hazard ratio (HR) (IDeg vs IGlar) was based on Cox regression with investigational medicinal product as only factor for primary analysis.||1.055|0.781|<0.001
92362457|NCT01959529|184628053|SUPERIORITY||Rate ratio|0.601|||<|0.001|TWO_SIDED|95.0|0.476|0.759||p-value : Refers to one-sided test of RR \>= 1.0 (against Ha: RR\<1.0)|Negative binomial regression|The model included treatment (IDeg vs IGlar) as a fixed factor and was fitted using the FAS.||Superiority was considered confirmed if the upper limit of the two-sided 95% confidence interval for the rate ratio (RR) was below 1.0 or equivalent if the p-value for the one-sided test of H0: RR ≥1.0 against Ha: RR \<1.0, was less than 2.5%||0.759|0.476|<0.001
92362458|NCT01959529|184628054|SUPERIORITY||Odds Ratio (OR)|0.729|||<|0.001|TWO_SIDED|95.0|0.6|0.866||p-value: Refers to one-sided test of OR \>= 1.0 (against Ha: OR\<1.0)|Regression, Logistic|The model was logistic regression with log-link function.The model included treatment (IDeg vs IGlar) as a fixed factor and was fitted using the FAS||Superiority of IDeg to IGlar was considered confirmed if the upper limit of the two-sided 95% confidence interval for the odds ratio (OR) was below 1.0 or equivalent if the p-value for the one-sided test of H0: OR ≥1.0 against Ha: OR\<1.0, was less than 2.5%.||0.866|0.600|<0.001
92362459|NCT01440764|184628056|SUPERIORITY|||||||0.99||||||a priori threshold for significance was 0.05. Not corrected for multiple comparisons. This p-value describes the a priori analysis of comparing the furosemide test result to the saline test result.|t-test, 2 sided|||||||0.99
92362460|NCT01440764|184628056|SUPERIORITY|||||||0.32||||||a priori threshold for significance was 0.05. Not corrected for multiple comparisons. Thes p-value describes the a priori analysis of comparing the response to furosemide to the mean response to saline.|t-test, 2 sided|||||||0.32
92362461|NCT01440764|184628058|SUPERIORITY|||||||0.0006||||||a priori threshold for statistical significance was 0.05. Not adjusted for multiple comparisons.|t-test, 2 sided|||||||.0006
92362462|NCT01440764|184628058|SUPERIORITY||||||=|1e-05||||||a priori threshold for statistical significance was 0.05. Not adjusted for multiple comparisons.|t-test, 2 sided|||||||=.00001
92362463|NCT01440764|184628058|SUPERIORITY|||||||2e-07||||||a priori threshold for significance was 0.05. Not adjusted for multiple comparisons.|t-test, 2 sided|||||||.0000002
92362464|NCT00557193|184628065|SUPERIORITY||Hazard Ratio (HR)|1.107||||0.672|ONE_SIDED|85.0||1.403||A priori significance level threshold of alpha=0.15|Log Rank||Arm C is the numerator and Arm B is the denominator of the estimated hazard ratio|A one-sided log rank test will be used for testing whether the EFS in Arm C (chemo+lest) at DL2 is greater than the EFS in Arm B (chemo). This is equivalent to testing the null hypothesis of hazard ratio (HR)=1 versus the alternative of HR\<1.||1.403||0.672
92403031|NCT04973449|184697217|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.84|||||TWO_SIDED|95.0|1.63|2.08||||||The analyses were derived using ANCOVA.||2.08|1.63|
92403032|NCT04973449|184697218|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.88|||||TWO_SIDED|95.0|0.78|0.99||||||The analyses were derived using ANCOVA.||0.99|0.78|
92403033|NCT04973449|184697219|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.87|||||TWO_SIDED|95.0|0.78|0.97||||||The analyses were derived using ANCOVA.||0.97|0.78|
92403034|NCT04973449|184697220|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.95|||||TWO_SIDED|95.0|0.83|1.08||||||The analyses were derived using ANCOVA.||1.08|0.83|
92403035|NCT04973449|184697221|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|6.56|||||TWO_SIDED|95.0|5.82|7.4||||||The analyses were derived using ANCOVA.||7.40|5.82|
92403036|NCT04973449|184697222|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|2.22|||||TWO_SIDED|95.0|1.99|2.47||||||The analyses were derived using ANCOVA.||2.47|1.99|
92224195|NCT00852995|184349915|SUPERIORITY_OR_OTHER|||||||0.0295|TWO_SIDED||||||t-test, 2 sided|||||||0.0295
92224196|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED|||||Treatment Week 01|ANCOVA|||||||.037
92224197|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.064|TWO_SIDED|||||Treatment Week 02|ANCOVA|||||||.064
92224198|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.161|TWO_SIDED|||||Treatment Week 03|ANCOVA|||||||.161
92224199|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|||||Treatment Week 04|ANCOVA|||||||.39
92362465|NCT00652834|184628093|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.05|TWO_SIDED|95.0||||The p value is only for GSRS score comparison only.|t-test, 2 sided||The GSRS range is 1-7|"The results of the initial SBCE exams were evaluated by a visually challenged GI specialist who gave us a descriptive report. By the end of the study, we submitted the final reports to the same specialist and asked his impression on the significant changes observed in patients' exams for each GI segment (stomach and small bowel).~There were no comparison groups. Each patient is their own control. Given that this is a pilot study there is no power calculation."||||0.05
92362466|NCT01365793|184628211|SUPERIORITY|Each statistical test uses stratification to adjust for enrolling hospital, and the arm not being tested (e.g., the test for rapid vs slower rehydration is stratified by 0.45% and 0.9% Saline, and vice versa).||||||0.34||||||The a priori threshold for statistical significance for each of the 2 p-values is 0.025, for an overall significance of 0.50.|Cochran-Mantel-Haenszel|||The study uses a factorial experimental design, and tests two null hypotheses. The first of these hypotheses - the frequency of GCS score declines to \<14 is equal between the Rapid Rehydration and Slower Rehydration groups - is reported here. The analysis of the second hypothesis is reported below.||||0.34
92403037|NCT04973449|184697223|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group is \> 0.67.|GMT ratio|4.35|||||TWO_SIDED|95.0|3.86|4.9||||||The analyses were derived using ANCOVA.||4.90|3.86|
92165824|NCT02139046|184220356|SUPERIORITY_OR_OTHER||Difference in Proportions|47.6|||<|0.001|TWO_SIDED|95.0|41.6|53.6||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||53.6|41.6|<0.001
92224200|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED|||||Treatment Week 05|ANCOVA|||||||.079
92224201|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.069|TWO_SIDED|||||Treatment Week 06|ANCOVA|||||||.069
92403038|NCT04973449|184697224|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.25|||||TWO_SIDED|95.0|1.13|1.39||||||The analyses were derived using ANCOVA.||1.39|1.13|
92403039|NCT04973449|184697225|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|4.42|||||TWO_SIDED|95.0|3.85|5.08||||||The analyses were derived using ANCOVA.||5.08|3.85|
92403040|NCT04973449|184697226|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-1.24|||||TWO_SIDED|95.0|-6.62|3.84||||||The analyses were derived using ANCOVA.||3.84|-6.62|
92403041|NCT04973449|184697227|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|16.86|||||TWO_SIDED|95.0|10.18|23.32||||||The analyses were derived using ANCOVA.||23.32|10.18|
92403042|NCT04973449|184697228|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-18.12|||||TWO_SIDED|95.0|-24.22|-12.07||||||The analyses were derived using ANCOVA.||-12.07|-24.22|
92403043|NCT04973449|184697229|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-0.02|||||TWO_SIDED|95.0|-7.28|7.23||||||The analyses were derived using ANCOVA.||7.23|-7.28|
92224202|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||Treatment Week 07|ANCOVA|||||||.026
92224203|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.133|TWO_SIDED|||||Treatment Week 08|ANCOVA|||||||.133
92224204|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.089|TWO_SIDED|||||Treatment Week 09|ANCOVA|||||||.089
92165825|NCT02139046|184220356|SUPERIORITY_OR_OTHER||Difference in Proportions|60.5|||<|0.001|TWO_SIDED|95.0|54.6|66.3||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||66.3|54.6|<0.001
92224205|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED|||||Treatment Week 10|ANCOVA|||||||.057
92224206|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.127|TWO_SIDED|||||Treatment Week 11|ANCOVA|||||||.127
92224207|NCT00852995|184349917|SUPERIORITY_OR_OTHER|||||||0.395|TWO_SIDED|||||Treatment Week 12|ANCOVA|||||||0.395
92224208|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.0133|TWO_SIDED|||||Visit 02|Cochran-Mantel-Haenszel|||||||0.0133
92224209|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.3839|TWO_SIDED|||||Visit 02|Cochran-Mantel-Haenszel|||||||0.3839
92403044|NCT04973449|184697230|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|31.36|||||TWO_SIDED|95.0|24.44|37.82||||||The analyses were derived using ANCOVA.||37.82|24.44|
92224210|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.5721|TWO_SIDED|||||Visit 02|Cochran-Mantel-Haenszel|||||||0.5721
92224211|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.232|TWO_SIDED|||||Visit 02|Cochran-Mantel-Haenszel|||||||0.232
92224212|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.0787|TWO_SIDED|||||Visit 03|Cochran-Mantel-Haenszel|||||||0.0787
92224213|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.7919|TWO_SIDED|||||Visit 03|Cochran-Mantel-Haenszel|||||||0.7919
92224214|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.6881|TWO_SIDED|||||Visit 03|Cochran-Mantel-Haenszel|||||||0.6881
92403045|NCT04973449|184697231|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-3.55|||||TWO_SIDED|95.0|-9.4|1.9||||||The analyses were derived using ANCOVA.||1.90|-9.40|
92403046|NCT04973449|184697232|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|23.01|||||TWO_SIDED|95.0|15.41|30.23||||||The analyses were derived using ANCOVA.||30.23|15.41|
92403047|NCT04973449|184697233|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-34.24|||||TWO_SIDED|95.0|-40.77|-27.45||||||The analyses were derived using ANCOVA.||-27.45|-40.77|
92403048|NCT04973449|184697234|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|6.96|||||TWO_SIDED|95.0|-1.31|15.1||||||The analyses were derived using ANCOVA.||15.10|-1.31|
92362467|NCT01365793|184628211|SUPERIORITY|Each statistical test uses stratification to adjust for enrolling hospital, and the arm not being tested (e.g., the test for rapid vs slower rehydration is stratified by 0.45% and 0.9% Saline, and vice versa).||||||0.43||||||The a priori threshold for statistical significance for each of the 2 p-values is 0.025, for an overall significance of 0.50.|Cochran-Mantel-Haenszel|||The study uses a factorial experimental design, and tests the two null hypotheses. The second of these hypotheses - the frequency of GCS score declines to \<14 is equal between the 0.45% Saline group and the 0.90% Saline group - is reported here. The analysis of the first hypothesis is reported above.||||0.43
92362468|NCT01908140|184628216|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin=-0,055 L|Mean Difference (Final Values)|0.093|||<|0.001|TWO_SIDED|95.0|0.063|0.123|||MMRM|If non-inferiority on the PP was achieved then switch to superiority was tested on the ITT.||This sample size of 900 had 90% power to show that the lower bound of the two-sided 95% confidence interval for the difference between Aclidinium bromide 400 μg/Formoterol Fumarate 12 μg and SeretideTM AccuhalerTM (50/500 μg) in Peak FEV1 at 24 weeks is above -0,055 L||0.123|0.063|<0.001
92362469|NCT01908140|184628217|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority limit -0.5 units|Mean Difference (Final Values)|-0.001|||>|0.05|TWO_SIDED|95.0|-0.46|0.46|||MMRM|||The total sample size provided 81% nominal power to show that the lower bound of the two-sided 95 confidence interval for the difference between Aclidinium bromide 400 μg/Formoterol fumarate 12 μg and SeretideTM AccuhalerTM (50/500 μg) in transitional dyspnoea index (TDI) at 24 weeks is above -0,5||0.46|-0.46|>0.05
92362470|NCT00427193|184628224|OTHER||difference in mean change|0.02|STANDARD_DEVIATION|0.02||0.7|TWO_SIDED|95.0|-0.019|0.059||Type I error was controlled using a hierarchical gatekeeping strategy.|Mixed Models Analysis|||All analysis under intention-to-treat. All observations were included The primary analytic was a repeated measures analysis. The dependent variable was the change from baseline 12 \& 14mos., with treatment, time, and the treatment × time interaction as independent variables. Site, sex, BMI stratum, and the baseline value of the outcome were included as covariates. The predicted mean changes ± standard errors are the adjusted values from the contrasts of the multiple timepoints.||0.059|-0.019|0.70
92362471|NCT00427193|184628225|OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.84|TWO_SIDED|95.0|-0.0092|0.069|||Mixed Models Analysis|||||0.069|-0.0092|0.84
92362472|NCT00427193|184628226|OTHER||Mean Difference (Net)|-82.0|STANDARD_ERROR_OF_MEAN|11.12|<|0.001|TWO_SIDED|95.0|-103.8|-60.2|||Mixed Models Analysis|||||-60.2|-103.8|<0.001
92362473|NCT00427193|184628227|OTHER||Mean Difference (Final Values)|-64.0|STANDARD_DEVIATION|13.5|<|0.0001|TWO_SIDED|95.0|-90.5|-37.5|||Mixed Models Analysis|||||-37.5|-90.5|<0.0001
92362474|NCT00427193|184628228|OTHER||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.1||0.82|TWO_SIDED|95.0|-0.16|0.23|||Mixed Models Analysis|||||0.23|-0.16|0.82
92362475|NCT00427193|184628229|OTHER||Mean Difference (Net)|-5.9|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-6.5|-5.3|||Mixed Models Analysis|||Difference in change in Fat Mass between prescribed 25% Caloric Restriction (CR) and Ad Libitum (AL) at 12 and 24 months as measured by dual X-ray absorptiometry (DXA) using the Hologic 4500A, Delphi W or Discovery A, by a standardized protocol according to a standardized protocol. Fat Mass (FM) and Fat Free Mass (FFM) were determined for the whole body.||-5.3|-6.5|<0.001
92362476|NCT00427193|184628230|OTHER||Mean Difference (Net)|-5.9|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-6.4|-5.3|||Mixed Models Analysis|||Comparison of change in FM in 2 groups over at 24 mos, controlling for site, sex, BMI group, and baseline FM. A repeated measures Mixed Model was employed for the analysis. For any outcome, Type I error was controlled using a hierarchical gatekeeping strategy testing, first, the GroupXTime interaction, and, if non-significant, the main effects of these two factors. Bonferroni corrections were employed for non-significant effects. All tests were at p\<0.05||-5.3|-6.4|<0.0001
92403049|NCT04973449|184697235|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|29.05|||||TWO_SIDED|95.0|21.76|35.81||||||The analyses were derived using ANCOVA.||35.81|21.76|
92403050|NCT04973449|184697237|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.36|||||TWO_SIDED|95.0|1.3|1.42||||||The analyses were derived using ANCOVA.||1.42|1.30|
92403051|NCT04973449|184697238|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.76|||||TWO_SIDED|95.0|0.7|0.81||||||The analyses were derived using ANCOVA.||0.81|0.70|
92165826|NCT02139046|184220356|SUPERIORITY_OR_OTHER||Difference in Proportions|7.8||||0.036|TWO_SIDED|95.0|-0.5|16.1||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||16.1|-0.5|0.036
92165827|NCT02139046|184220356|SUPERIORITY_OR_OTHER||Difference in Proportions|3.3||||0.364|TWO_SIDED|95.0|-4.9|11.6||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||11.6|-4.9|0.364
92165828|NCT00818454|184220357|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||MMRM ANCOVA|||||||<0.0001
92165829|NCT00818454|184220358|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||MMRM ANCOVA|||||||<0.0001
92362477|NCT01076010|184628244|OTHER||25% Quartile (months)|8.0|||||TWO_SIDED|95.0|4.4|12.9||||||||12.9|4.4|
92362478|NCT01076010|184628244|OTHER||50% Quartile (months)|15.2|||||TWO_SIDED|95.0|11.1||DR was only summarized for subjects who had an objective tumor response. Upper limit of confidence interval could not be determined.||||||||11.1|
92362479|NCT01076010|184628244|OTHER||25% Quartile (months)|12.9|||||TWO_SIDED|95.0|5.6||DR was only summarized for subjects who had an objective tumor response. Upper limit of confidence interval could not be determined.||||||||5.6|
92403052|NCT04973449|184697239|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|3.87|||||TWO_SIDED|95.0|3.4|4.39||||||The analyses were derived using ANCOVA.||4.39|3.40|
92224215|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.9832|TWO_SIDED|||||Visit 03|Cochran-Mantel-Haenszel|||||||0.9832
92224216|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.0466|TWO_SIDED|||||Visit 04|Cochran-Mantel-Haenszel|||||||0.0466
92362480|NCT01076010|184628245|OTHER||25% Quartile (months)|3.6|||||TWO_SIDED|95.0|1.9|5.2||||||||5.2|1.9|
92224217|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.8435|TWO_SIDED|||||Visit 04|Cochran-Mantel-Haenszel|||||||0.8435
92362481|NCT01076010|184628245|OTHER||50% Quartile (months)|11.0|||||TWO_SIDED|95.0|7.3|12.7||||||||12.7|7.3|
92362482|NCT01076010|184628245|OTHER||75% Quartile (months)|20.9|||||TWO_SIDED|95.0|16.5||For the subjects in each treatment arm, PFS is calculated from the first dose date of the respective study drugs. Upper limit of confidence interval could not be determined.||||||||16.5|
92362483|NCT01076010|184628245|OTHER||25% Quartile (months)|7.2|||||TWO_SIDED|95.0|3.5|9.2||||||||9.2|3.5|
92362484|NCT01076010|184628246|OTHER||25% Quartile (months)|8.2|||||TWO_SIDED|95.0|6.0|12.1||||||||12.1|6.0|
92362485|NCT01076010|184628246|OTHER||50% Quartile (months)|21.6|||||TWO_SIDED|95.0|17.0|27.6||||||||27.6|17.0|
92362486|NCT01076010|184628246|OTHER||75% Quartile (months)|30.7|||||TWO_SIDED|95.0|28.8||For the subjects in each treatment arm, OS is calculated from the first dose date of the respective study drugs. Upper limit of confidence interval could not be determined.||||||||28.8|
92362487|NCT02972996|184628296|OTHER|||||||0.56|||||||ANCOVA|||Values are least-squares means ± SEs (adjusted for the baseline values) from ANCOVA linear mixed model that included covariates of age, baseline (pretreatment values), BMI and weight.||||0.56
92362488|NCT02972996|184628297|OTHER|||||||0.03|||||||ANCOVA|||||||0.03
92362489|NCT01355627|184628320|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82|STANDARD_ERROR_OF_MEAN|0.23||0.485|||||||Regression, Logistic|Treatment and pooled centre as covariates.|\< 1 implies a smaller likelihood of a TachoSil treated patient to experience a CSF leak.|||||0.485
92224218|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.8743|TWO_SIDED|||||Visit 04|Cochran-Mantel-Haenszel|||||||0.8743
92224219|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.2884|TWO_SIDED|||||Visit 04|Cochran-Mantel-Haenszel|||||||0.2884
92224220|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.0387|TWO_SIDED|||||Visit 05|Cochran-Mantel-Haenszel|||||||0.0387
92224221|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.8461|TWO_SIDED|||||Visit 05|Cochran-Mantel-Haenszel|||||||0.8461
92224222|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.9574|TWO_SIDED|||||Visit 05|Cochran-Mantel-Haenszel|||||||0.9574
92362490|NCT01230411|184628322|SUPERIORITY||Odds Ratio (OR)|3.12||||0.078|TWO_SIDED|95.0|0.88|11.0|||Regression, Logistic|||||11.0|0.88|0.078
92224223|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.2994|TWO_SIDED|||||Visit 05|Cochran-Mantel-Haenszel|||||||0.2994
92362491|NCT04712669|184628339|SUPERIORITY||Mean Difference (Final Values)|57.27|STANDARD_ERROR_OF_MEAN|24.773||0.0208|TWO_SIDED|95.0|8.716|105.824||LSM, SE, CIs for each treatment group; LSM Diff, SE, CIs, and p-value are estimated using an ANCOVA model incl. factors for treatment group and randomization strata with associated baseline value as a covariate.|ANCOVA|H0: The mean change from baseline in PVR at Week 24 is equal between placebo and rodatristat ethyl.||||105.824|8.716|0.0208
92224224|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.1024|TWO_SIDED|||||Visit 06|Cochran-Mantel-Haenszel|||||||0.1024
92224225|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.8759|TWO_SIDED|||||Visit 06|Cochran-Mantel-Haenszel|||||||0.8759
92224226|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.9008|TWO_SIDED|||||Visit 06|Cochran-Mantel-Haenszel|||||||0.9008
92224227|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.4618|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.4618
92224228|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.2439|TWO_SIDED|||||Visit 07|Cochran-Mantel-Haenszel|||||||0.2439
92224229|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.749|TWO_SIDED|||||Visit 07|Cochran-Mantel-Haenszel|||||||0.749
92224230|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.3749|TWO_SIDED|||||Visit 07|Cochran-Mantel-Haenszel|||||||0.3749
92224231|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED|||||Visit 07|Cochran-Mantel-Haenszel|||||||0.015
92224232|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED|||||Visit 08|Cochran-Mantel-Haenszel|||||||0.0078
92224233|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||Visit 08|Cochran-Mantel-Haenszel|||||||0.07
92362492|NCT04712669|184628339|SUPERIORITY||Mean Difference (Final Values)|58.406|STANDARD_ERROR_OF_MEAN|24.558||0.0174|TWO_SIDED|95.0|10.272|106.54||LSM, SE, CIs for each treatment group; LSM Diff, SE, CIs, and p-value are estimated using an ANCOVA model incl. factors for treatment group and randomization strata with associated baseline value as a covariate.|ANCOVA|H0: The mean change from baseline in PVR at Week 24 is equal between placebo and rodatristat ethyl.||||106.54|10.272|0.0174
92362493|NCT04712669|184628340|SUPERIORITY|||||||0.573||||||P-value based on ordinal logistic regression with treatment group and randomization stratification strata as factors at alpha=0.05.|Regression, Logistic|H0: The distribution of change from baseline in WHO FC at Week 24 is equal between placebo and rodatristat ethyl.||||||0.573
92362494|NCT04712669|184628340|SUPERIORITY|||||||0.9911||||||P-value based on ordinal logistic regression with treatment group and randomization stratification strata as factors at alpha=0.05.|Regression, Logistic|H0: The distribution of change from baseline in WHO FC at Week 24 is equal between placebo and rodatristat ethyl.||||||0.9911
92362495|NCT04712669|184628341|SUPERIORITY||Median Difference (Final Values)|-33.61|STANDARD_ERROR_OF_MEAN|18.121||0.0636|TWO_SIDED|95.0|-69.13|1.91||p-value (alpha=0.05) is estimated using the aligned rank stratified Wilcoxon test with the randomization stratification factors as strata.|Wilcoxon (Mann-Whitney)|H0: The distribution of change from baseline at Week 24 in 6MWT distance (meters) is equal between placebo and rodatristat ethyl.||||1.91|-69.13|0.0636
92362496|NCT04712669|184628341|SUPERIORITY||Median Difference (Final Values)|-19.05|STANDARD_ERROR_OF_MEAN|13.469||0.1573|TWO_SIDED|95.0|-45.45|7.35||p-value (alpha=0.05) is estimated using the aligned rank stratified Wilcoxon test with the randomization stratification factors as strata.|Wilcoxon (Mann-Whitney)|H0: The distribution of change from baseline at Week 24 in 6MWT distance (meters) is equal between placebo and rodatristat ethyl.||||7.35|-45.45|0.1573
92362497|NCT04712669|184628342|SUPERIORITY||Mean Difference (Final Values)|1125.9|STANDARD_ERROR_OF_MEAN|351.28||0.0014|TWO_SIDED|95.0|437.39|1814.39|||Mixed Models Analysis|H0: The mean change from baseline at Week 24 in NT-proBNP is equal between placebo and rodatristat ethyl.|Estimates from a REML MMRM with baseline covariate, fixed effects, and unstructured covariance.|||1814.39|437.39|0.0014
92362498|NCT04712669|184628342|SUPERIORITY||Mean Difference (Final Values)|866.3|STANDARD_ERROR_OF_MEAN|306.56||0.0047|TWO_SIDED|95.0|265.41|1467.16|||Mixed Models Analysis|H0: The mean change from baseline at Week 24 in NT-proBNP is equal between placebo and rodatristat ethyl.|Estimates from a REML MMRM with baseline covariate, fixed effects, and unstructured covariance.|||1467.16|265.41|0.0047
92362499|NCT02261961|184628441|SUPERIORITY||Slope|-0.24275|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
92362500|NCT02261961|184628442|SUPERIORITY||Slope|1.3707|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
92362501|NCT02261961|184628445|SUPERIORITY||Slope|-0.35579|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
92362502|NCT02261961|184628446|SUPERIORITY||Slope|0.004493|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
92362503|NCT02261961|184628447|SUPERIORITY||Slope|0.870653|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
92362504|NCT02261961|184628448|SUPERIORITY||Slope|-0.38664|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
92362505|NCT02261961|184628449|SUPERIORITY||Slope|0.335124|||>|0.05|TWO_SIDED||||||ANCOVA|||Outcomes were compared as percent change from the baseline measure using multiple methods by a blinded statistician. Differences between groups were assessed using ANCOVA, Welch's t-test, and Wilcoxon. No significant differences were found between groups for any outcome regardless of method used.||||>0.05
92362506|NCT02261961|184628451|SUPERIORITY||Slope|0.03145|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
92362507|NCT02261961|184628452|SUPERIORITY||Slope|-0.43902|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
92362508|NCT02261961|184628462|SUPERIORITY||Slope|-0.07603|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
92362509|NCT02261961|184628481|SUPERIORITY||Slope|-0.4745|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
92362510|NCT02431325|184628490|SUPERIORITY|||||||0.01|||||||ANCOVA|||||||0.01
92403053|NCT04973449|184697240|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.67|||||TWO_SIDED|95.0|0.64|0.7||||||The analyses were derived using ANCOVA.||0.70|0.64|
92403054|NCT04973449|184697241|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|0.58|||||TWO_SIDED|95.0|-0.61|2.09||||||The analyses were derived using ANCOVA.||2.09|-0.61|
92362511|NCT02431325|184628491|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92362512|NCT02431325|184628492|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
92362513|NCT02431325|184628493|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||0.047
92403055|NCT04973449|184697242|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-35.18|||||TWO_SIDED|95.0|-41.46|-28.44||||||The analyses were derived using ANCOVA.||-28.44|-41.46|
92165830|NCT00818454|184220359|SUPERIORITY_OR_OTHER|||||||0.159|||||||MMRM ANCOVA|||||||0.159
92165831|NCT00818454|184220360|SUPERIORITY_OR_OTHER|||||||0.8278|||||||MMRM ANCOVA|||||||0.8278
92165832|NCT00818454|184220361|SUPERIORITY_OR_OTHER|||||||0.5098|||||||MMRM ANCOVA|||||||0.5098
92165833|NCT00818454|184220362|SUPERIORITY_OR_OTHER|||||||0.6591|||||||MMRM ANCOVA|||||||0.6591
92165834|NCT00818454|184220363|SUPERIORITY_OR_OTHER|||||||0.3631|||||||MMRM ANCOVA|||||||0.3631
92362514|NCT02431325|184628494|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92362515|NCT02431325|184628495|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
92362516|NCT02431325|184628496|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.68
92362517|NCT02431325|184628497|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
92362518|NCT02431325|184628498|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92362519|NCT02431325|184628499|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92362520|NCT02431325|184628500|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
92362521|NCT02431325|184628501|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92362522|NCT02431325|184628502|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
92362523|NCT02431325|184628503|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||||||0.33
92362524|NCT02431325|184628504|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
92362525|NCT02431325|184628505|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.51
92362526|NCT02431325|184628506|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||0.93
92362527|NCT02431325|184628507|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Change from baseline at week 24||||0.09
92362528|NCT02431325|184628507|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Change from baseline at week 12||||0.25
92362529|NCT02431325|184628508|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.51
92362530|NCT02431325|184628509|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
92362531|NCT01469039|184628535|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92362532|NCT01469039|184628535|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92362533|NCT01469039|184628536|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||significant p-value, active vs placebo|Wilcoxon rank sum test based on LOCF|||||||<0.001
92362534|NCT01469039|184628536|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||significant p-value, active vs placebo|Wilcoxon rank sum test based on LOCF|||||||<0.001
92362535|NCT02013609|184628552|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measure (MMRM) with model terms: Baseline, visit, and Baseline by visit interaction||The null hypothesis of zero in mean change from Baseline in MADRS total score at Week 12 was tested at significance level of 0.05. Since this is an exploratory trial, no methods to control type I error rate were performed.||||<0.0001
92362536|NCT02013609|184628553|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12.||||<0.0001
92362537|NCT02013609|184628558|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction.||Statistical analysis at Week 12.||||<0.0001
92403056|NCT04973449|184697243|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-24.93|||||TWO_SIDED|95.0|-31.06|-18.56||||||The analyses were derived using ANCOVA.||-18.56|-31.06|
92362538|NCT02013609|184628559|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12.||||<0.0001
92224234|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.208|TWO_SIDED|||||Visit 08|Cochran-Mantel-Haenszel|||||||0.208
92224235|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.0413|TWO_SIDED|||||Visit 08|Cochran-Mantel-Haenszel|||||||0.0413
92224236|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.0054|TWO_SIDED|||||Visit 09|Cochran-Mantel-Haenszel|||||||0.0054
92224237|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.2031|TWO_SIDED|||||Visit 09|Cochran-Mantel-Haenszel|||||||0.2031
92224238|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.0894|TWO_SIDED|||||Visit 09|Cochran-Mantel-Haenszel|||||||0.0894
92224239|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.0288|TWO_SIDED|||||Visit 09|Cochran-Mantel-Haenszel|||||||0.0288
92362539|NCT02013609|184628560|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The p-value is the same for each of single item sub-scores of tasks: work/ school, social life and family life/ home responsibilities|Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12 of single item sub-scores of tasks: work/ school, social life and family life/ home responsibilities||||<0.0001
92362540|NCT02013609|184628561|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12.||||<0.0001
92362541|NCT02013609|184628562|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12||||<0.0001
92362542|NCT02013609|184628563|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12||||<0.0001
92362543|NCT02013609|184628564|SUPERIORITY_OR_OTHER|||||||0.3439|TWO_SIDED||||||t-test, 2 sided|p-value for change from Baseline using t-test.||Statistical analysis at Week 12 for p-inhibition failures (Go cues)||||0.3439
92362544|NCT02013609|184628564|SUPERIORITY_OR_OTHER|||||||0.3385|TWO_SIDED||||||t-test, 2 sided|p-value for change from Baseline using t-test.||Statistical analysis at Week 12 for p-inhibition failures (No-Go cues)||||0.3385
92362545|NCT02013609|184628565|SUPERIORITY_OR_OTHER|||||||0.2052|TWO_SIDED||||||t-test, 2 sided|p-value for change from Baseline using t-test.||Statistical analysis at Week 12 for mean reaction time (Go cues)||||0.2052
92362546|NCT02013609|184628565|SUPERIORITY_OR_OTHER|||||||0.3224|TWO_SIDED||||||t-test, 2 sided|p-value for change from Baseline using t-test.||Statistical analysis at Week 12 for mean reaction time (No-Go cues)||||0.3224
92362547|NCT02013609|184628566|SUPERIORITY_OR_OTHER|||||||0.3169|TWO_SIDED||||||t-test, 2 sided|p-value for change from Baseline using t-test.||Statistical analysis at Week 12||||0.3169
92362548|NCT02013609|184628567|SUPERIORITY_OR_OTHER|||||||0.3352|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12||||0.3352
92362549|NCT02013609|184628568|SUPERIORITY_OR_OTHER|||||||0.3517|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12 for delay discounting task k value||||0.3517
92362550|NCT02013609|184628568|SUPERIORITY_OR_OTHER|||||||0.3799|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12 for delay discounting task h value||||0.3799
92224240|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.6964|TWO_SIDED|||||Visit 10|Cochran-Mantel-Haenszel|||||||0.6964
92224241|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|||||Visit 10|Cochran-Mantel-Haenszel|||||||0.59
92224242|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.7146|TWO_SIDED|||||Visit 10|Cochran-Mantel-Haenszel|||||||0.7146
92224243|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.5008|TWO_SIDED|||||Visit 10|Cochran-Mantel-Haenszel|||||||0.5008
92362551|NCT02013609|184628569|SUPERIORITY_OR_OTHER|||||||0.261|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12 (AUC for food)||||0.2610
92362552|NCT02013609|184628569|SUPERIORITY_OR_OTHER|||||||0.8138|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12 (AUC for money)||||0.8138
92362553|NCT02013609|184628570|SUPERIORITY_OR_OTHER|||||||0.8138|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12 (AUC for money)||||0.8138
92362554|NCT02013609|184628571|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12.||||<0.0001
92362555|NCT04067011|184628593|EQUIVALENCE|The equivalence testing was constructed using paired two one-sided t-tests (TOST) with natural log transformation of PK parameters. Results obtained from transformed analyses were back-transformed by exponentiation for presentation of the point estimates and 90% CIs for geometric mean ratio of AUC0-12h.|Ratio of AUC|0.9764|||||TWO_SIDED|90.0|0.8895|1.0718||||||Analysis of Geometric mean ratio of area under the curve from 0 to 12 hours (AUC0-12h) for ciprofloxacin on Days 8 and 35||1.0718|0.8895|
92362556|NCT04067011|184628593|EQUIVALENCE|The equivalence testing was constructed using paired two one-sided t-tests (TOST) with natural log transformation of PK parameters. Results obtained from transformed analyses were back-transformed by exponentiation for presentation of the point estimates and 90% CIs for geometric mean ratio of Cmax.|Ratio of Cmax|0.9706|||||TWO_SIDED|90.0|0.8693|1.0838||||||Analysis of Geometric mean ration of Cmax for ciprofloxacin on Days 8 and 35||1.0838|0.8693|
92362557|NCT04067011|184628594|EQUIVALENCE|The equivalence testing was constructed using paired two one-sided t-tests (TOST) with natural log transformation of PK parameters. Results obtained from transformed analyses were back-transformed by exponentiation for presentation of the point estimates and 90% CIs for geometric mean ratio of AUC0-12h.|Ratio of AUC|0.9173|||||TWO_SIDED|90.0|0.8187|1.0278||||||Analysis of Geometric mean ratio of Area under the curve from 0 to 12 hours (AUC0-12h) for doxycycline on Days 8 and 38||1.0278|0.8187|
92224244|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.1235|TWO_SIDED|||||Visit 11|Cochran-Mantel-Haenszel|||||||0.1235
92224245|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.5488|TWO_SIDED|||||Visit 11|Cochran-Mantel-Haenszel|||||||0.5488
92224246|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.4343|TWO_SIDED|||||Visit 11|Cochran-Mantel-Haenszel|||||||0.4343
92362558|NCT04067011|184628594|EQUIVALENCE|The equivalence testing was constructed using paired two one-sided t-tests (TOST) with natural log transformation of PK parameters. Results obtained from transformed analyses were back-transformed by exponentiation for presentation of the point estimates and 90% CIs for geometric mean ratio of Cmax.|Ratio of Cmax|0.8974|||||TWO_SIDED|90.0|0.7841|1.0271||||||Analysis of Geometric mean ration of Cmax for doxycycline on Days 8 and 38||1.0271|0.7841|
92362559|NCT04067011|184628595|NON_INFERIORITY|Non-inferiority margin is 0.5.|Ratio of GMT (Group 1/Group 3)|1.13|||||TWO_SIDED|95.0|0.78|1.64||||||||1.64|0.78|
92362560|NCT04067011|184628595|NON_INFERIORITY|Non-inferiority margin is 0.5.|Ratio of GMT (Group 2/Group 3)|1.14|||||TWO_SIDED|95.0|0.81|1.6||||||||1.6|0.81|
92362561|NCT05209386|184628596|OTHER||||||||||||||||||Permutation-based clustering analysis was used to identify channels that significantly encode change in acoustic dimensions. For each channel, a sliding-window encoding model was built comparing evoked responses (z-scored voltages) to Canonical Block stimuli across varying F0 with fixed VOT. This analysis identified the n = 17 channels and time windows where neural responses differed according to change in F0.|||
92362562|NCT05209386|184628597|OTHER||||||<|0.0001|||||||t-test, 2 sided|t(20.45) = -5.8||||||<0.0001
92362563|NCT05209386|184628598|OTHER||||||<|0.0001|||||||Mixed Models Analysis|For interaction term (effect of interest): t(1016) = -2.7|||Time-averaged neural responses across respective windows of significance were averaged for all stimuli with ambiguous VOT (Canonical and Reverse blocks) to provide trial-averaged responses. A single linear mixed-effects model was built with fixed effects of F0, condition/listening context (block), and their interaction, as well as a random effect (intercept only) of patient+channel. The effect of interest was the interaction term, indicating that neural responses to F0 varied according to listening context (block).|||<0.0001
92362564|NCT05209386|184628599|OTHER||||||<|0.0001|||||||Mixed Models Analysis|t(48) = -4.50||The null hypothesis is that there is no effect of change in listening context on behavioral responses of participants.||||<0.0001
92403057|NCT04973449|184697244|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-0.02|||||TWO_SIDED|95.0|-1.63|1.56||||||The analyses were derived using ANCOVA.||1.56|-1.63|
92224247|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.1114|TWO_SIDED|||||Visit 11|Cochran-Mantel-Haenszel|||||||0.1114
92362565|NCT05209386|184628600|OTHER||||||||||||||||||Permutation-based clustering analysis was used to identify channels in non-regions of interest that significantly encode change in acoustic dimensions. For each channel, a sliding-window encoding model was built comparing evoked responses (z-scored voltages) to Canonical Block stimuli across varying F0 with fixed VOT. This analysis identified the n = 4 channels and time windows where neural responses differed according to change in F0.|||
92224248|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.2119|TWO_SIDED|||||Visit 12|Cochran-Mantel-Haenszel|||||||0.2119
92224249|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.0194|TWO_SIDED|||||Visit 12|Cochran-Mantel-Haenszel|||||||0.0194
92362566|NCT05209386|184628601|OTHER|||||||0.48|||||||Mixed Models Analysis|For interaction term (effect of interest): t(216) = -0.707|||Time-averaged neural responses across respective windows of significance were averaged for all stimuli with ambiguous VOT (Canonical and Reverse blocks) to provide trial-averaged responses. A single linear mixed-effects model was built with fixed effects of F0, condition/listening context (block), and their interaction, as well as a random effect (intercept only) of patient+channel. The effect of interest was the interaction term, indicating that neural responses to F0 varied according to listening context (block).|||0.480
92224250|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.506|TWO_SIDED|||||Visit 12|Cochran-Mantel-Haenszel|||||||0.506
92403058|NCT04973449|184697245|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-19.18|||||TWO_SIDED|95.0|-23.8|-14.98||||||The analyses were derived using ANCOVA.||-14.98|-23.80|
92224251|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.2317|TWO_SIDED|||||Visit 12|Cochran-Mantel-Haenszel|||||||0.2317
92224252|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.1144|TWO_SIDED|||||Visit 13|Cochran-Mantel-Haenszel|||||||0.1144
92224253|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.6786|TWO_SIDED|||||Visit 13|Cochran-Mantel-Haenszel|||||||0.6786
92224254|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.7735|TWO_SIDED|||||Visit 13|Cochran-Mantel-Haenszel|||||||0.7735
92224255|NCT00852995|184349918|SUPERIORITY_OR_OTHER|||||||0.758|TWO_SIDED|||||Visit 13|Cochran-Mantel-Haenszel|||||||0.758
92224256|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||Week 04|Cochran-Mantel-Haenszel|||||||0.017
92224257|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED|||||Week 04|Cochran-Mantel-Haenszel|||||||.041
92224258|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||Week 05|Cochran-Mantel-Haenszel|||||||.017
92362567|NCT01734902|184628681|EQUIVALENCE|The statistical model, analysis of variance (ANOVA) on the logarithmic scale includes effects: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subject within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted gMean ratio T/R (%)|86.97|STANDARD_ERROR_OF_MEAN|35.6|||TWO_SIDED|90.0|74.046|102.151|||||Standard error of the mean is actually intra-individual geometric coefficient variance \[%\]. Statistical analysis is based on PKS which includes 27 subjects.|||102.151|74.046|
92403059|NCT04973449|184697246|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|39.18|||||TWO_SIDED|95.0|32.68|45.21||||||The analyses were derived using ANCOVA.||45.21|32.68|
92403060|NCT04973449|184697247|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|0.0|||||TWO_SIDED|95.0|-1.62|1.62||||||The analyses were derived using ANCOVA.||1.62|-1.62|
92403061|NCT04973449|184697248|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.52|||||TWO_SIDED|95.0|0.45|0.59||||||The analyses were derived using ANCOVA.||0.59|0.45|
92224259|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||Week 06|Cochran-Mantel-Haenszel|||||||.011
92224260|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|||||Week 07|Cochran-Mantel-Haenszel|||||||.014
92224261|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|||||Week 08|Cochran-Mantel-Haenszel|||||||.029
92224262|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED|||||Week 09|Cochran-Mantel-Haenszel|||||||.021
92224263|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED|||||Week 10|Cochran-Mantel-Haenszel|||||||.041
92224264|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.044|TWO_SIDED|||||Week 10|Cochran-Mantel-Haenszel|||||||.044
92224265|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||Week 11|Cochran-Mantel-Haenszel|||||||.013
92224266|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED|||||Week 11|Cochran-Mantel-Haenszel|||||||.024
92403062|NCT04973449|184697249|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.76|||||TWO_SIDED|95.0|0.68|0.86||||||The analyses were derived using ANCOVA.||0.86|0.68|
92224267|NCT00852995|184349919|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED|||||Week 12|Cochran-Mantel-Haenszel|||||||.027
92224268|NCT00852995|184349921|SUPERIORITY_OR_OTHER|||||||0.0211|TWO_SIDED|||||P-value for Kaplan-Meier Days to Closure|ANCOVA|||||||0.0211
92224269|NCT00852995|184349921|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.83||||0.0212|TWO_SIDED|95.0|1.09|3.04|||Regression, Cox|||||3.04|1.09|.0212
92224270|NCT00852995|184349921|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||ANCOVA|||||||0.59
92224271|NCT00852995|184349921|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.53|TWO_SIDED|95.0|0.69|2.05||This is the P-value for the Cox Hazard Ratio|Regression, Cox|||||2.05|.69|0.53
92224272|NCT00852995|184349921|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||ANCOVA|Kaplan-Meier Days to Closure||||||0.26
92224273|NCT00852995|184349921|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.43||||0.19|TWO_SIDED|95.0|0.84|2.44||This is the P-value for the Cox Proportional Hazard Ratio|Regression, Cox|||||2.44|0.84|0.19
92224274|NCT00852995|184349921|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED|||||P-value for Kaplan Meier Days to Closure|ANCOVA|||||||0.10
92224275|NCT00852995|184349921|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.64||||0.06|TWO_SIDED|95.0|0.97|2.77||P-value for Cox Proportional Hazard Ratio|Regression, Cox|||||2.77|0.97|0.06
92276794|NCT01271933|184455247|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|3.71||0.2985|TWO_SIDED|95.0|-11.2|3.5||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Awakening Short of Breath or with a Headache||3.5|-11.2|0.2985
92224276|NCT00866307|184349923|SUPERIORITY_OR_OTHER_LEGACY||Percentage|50.0|||||TWO_SIDED|90.0|35.6|64.4|||Agresti-Coull Confidence Interval|||Per protocol, percentage of high risk-High patients taking less than 49 weeks from day 1 of consolidation to day 1 of maintenance therapy is compared to a null fixed rate (\<=73%). A 90% two-sided Agresti-Coull confidence interval will be constructed and the lower bound examined. Will reject null if lower bound of confidence interval is above 73%.||64.4|35.6|
92224277|NCT00866307|184349924|SUPERIORITY_OR_OTHER_LEGACY||Percentage|53.3|||||TWO_SIDED|90.0|38.7|67.4|||Agresti-Coull Confidence Interval|||Per protocol, percentage receiving at least 8 doses is compared to a null fixed rate (\<=42%). A 90% two-sided Agresti-Coull confidence interval will be constructed. Will reject null if lower bound of confidence interval is above 42%.||67.4|38.7|
92224278|NCT02573155|184349939|SUPERIORITY_OR_OTHER||Least Square Mean|0.111|STANDARD_ERROR_OF_MEAN|0.0265|<|0.0001|TWO_SIDED|95.0|0.0585|0.163|||ANCOVA|||||0.163|0.0585|<0.0001
92224279|NCT02573155|184349939|SUPERIORITY_OR_OTHER||Least square mean|0.21|STANDARD_ERROR_OF_MEAN|0.0272|<|0.0001||95.0|0.156|0.264|||ANCOVA|||||0.264|0.156|<0.0001
92224280|NCT06245551|184349957|OTHER|The analysis is applied to the All-subjects data.|Mean Difference (Final Values)|-17.52|||<|0.001|TWO_SIDED|95.0|-19.78|-15.25|||Mixed Models Analysis|||||-15.25|-19.78|<0.001
92224281|NCT00511355|184349965|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0849||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0849
92224282|NCT00511355|184349967|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
92224283|NCT00511355|184349968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4191||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.4191
92224284|NCT00511355|184349969|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0010
92224285|NCT00511355|184349973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3779||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.3779
92403063|NCT04973449|184697250|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.6|||||TWO_SIDED|95.0|1.43|1.79||||||The analyses were derived using ANCOVA.||1.79|1.43|
92403064|NCT04973449|184697251|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.75|||||TWO_SIDED|95.0|0.67|0.85||||||The analyses were derived using ANCOVA.||0.85|0.67|
92403065|NCT04973449|184697252|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-18.1|||||TWO_SIDED|95.0|-24.13|-12.1||||||The analyses were derived using ANCOVA.||-12.10|-24.13|
92224286|NCT00511355|184349974|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5027||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.5027
92224287|NCT00511355|184349975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0041||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0041
92224288|NCT00511355|184349976|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9662||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.9662
92224289|NCT00511355|184349977|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0004
92362568|NCT01734902|184628682|EQUIVALENCE|The statistical model, analysis of variance (ANOVA) on the logarithmic scale includes effects: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subject within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted gMean ratio T/R (%)|89.05|STANDARD_ERROR_OF_MEAN|31.2|||TWO_SIDED|90.0|77.26|102.62|||||Standard error of the mean is actually intra-individual geometric coefficient variance \[%\]. Statistical analysis is based on PKS which includes 27 subjects.|||102.62|77.26|
92165835|NCT00818454|184220364|NON_INFERIORITY_OR_EQUIVALENCE|Enter additional comments here, if non-inferiority or equivalence analysis||||||0.6787|||||||MMRM ANCOVA|||||||0.6787
92165836|NCT00818454|184220365|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Mixed Models Analysis|Adjusted for baseline, period, week, and treatment by week interaction||||||0.0001
92224290|NCT00511355|184349978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0019
92362569|NCT01734902|184628683|EQUIVALENCE|The statistical model, analysis of variance (ANOVA) on the logarithmic scale includes effects: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subject within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted gMean ratio T/R [%]|90.03|STANDARD_ERROR_OF_MEAN|29.3|||TWO_SIDED|90.0|78.78|102.88|||||Standard error of the mean is actually intra-individual geometric coefficient variance \[%\]. Statistical analysis is based on PKS which includes 27 subjects.|||102.88|78.78|
92362570|NCT04436744|184628684|SUPERIORITY|||||||0.0433|||||||t-test, 2 sided|||||||0.0433
92403066|NCT04973449|184697253|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|14.5|||||TWO_SIDED|95.0|7.07|21.71||||||The analyses were derived using ANCOVA.||21.71|7.07|
92224291|NCT00511355|184349979|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9662||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.9662
92224292|NCT00511355|184349980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0187||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0187
92362571|NCT04436744|184628685|SUPERIORITY||Difference in Overall Response Rates|-0.93||||0.8272|TWO_SIDED|95.0|-14.66|12.81|||Cochran-Mantel-Haenszel|||ORR was calculated using the stratified Cochran-Mantel-Haenszel test.||12.81|-14.66|0.8272
92403067|NCT04973449|184697254|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-18.1|||||TWO_SIDED|95.0|-24.13|-12.1||||||The analyses were derived using ANCOVA.||-12.10|-24.13|
92403068|NCT04973449|184697255|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|16.87|||||TWO_SIDED|95.0|10.15|23.4||||||The analyses were derived using ANCOVA.||23.40|10.15|
92165837|NCT00818454|184220366|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||Mixed Models Analysis|Adjusted for baseline, period, week, and treatment by week interaction||||||0.0003
92165838|NCT00779870|184220378|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
92165839|NCT00779870|184220378|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
92165840|NCT01040689|184220381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.145|0.224|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.224|0.145|<0.0001
92165841|NCT01040689|184220381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.167|0.246|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.246|0.167|<0.0001
92224293|NCT00511355|184349981|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
92224294|NCT00511355|184349982|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6886||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.6886
92224295|NCT00511355|184349983|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
92362572|NCT04436744|184628686|SUPERIORITY||Difference in Rate|6.86|||||TWO_SIDED|95.0|-4.25|17.97||||||||17.97|-4.25|
92362573|NCT01240863|184628742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.134|TWO_SIDED|95.0|-0.11|0.82||statistical significance level of 0.05.|ANCOVA|Treatment and stratification (opioid naïve/opioid experienced) factors as the fixed effects; screening and baseline APIs as covariates.|placebo - hydrocodone|||0.82|-0.11|0.134
92362574|NCT01538199|184628770|SUPERIORITY_OR_OTHER|||||||0.04||||||a priori threshold for statistical significance: p≤0.05|t-test, 1 sided|We used a modified intent-to-treat approach with LOCF and unpaired Student's t-test (one-way), comparing the change in total severity score.||||||0.04
92362575|NCT01538199|184628770|SUPERIORITY_OR_OTHER|||||||0.08||||||a priori threshold for statistical significance: p≤0.05|t-test, 2 sided|Modified intent-to-treat approach with lost observation carried forward (LOCF) and a two-tailed t-test to compare the change in total severity score.||||||0.08
92362576|NCT01538199|184628770|SUPERIORITY_OR_OTHER|||||||0.01||||||a priori threshold for statistical significance: p≤0.05|t-test, 1 sided|One-tailed t-test to compare the change in total severity score for treatment completers.||This analysis includes only treatment completers (participants who who were followed for the entire 8-week study period and who received a clinical assessment immediately after).||||0.01
92362577|NCT01538199|184628770|SUPERIORITY_OR_OTHER|||||||0.02||||||a priori threshold for statistical significance: p≤0.05|t-test, 2 sided|Two-tailed t-test to compare the change in total severity score for treatment completers.||This analysis includes only treatment completers (participants who who were followed for the entire 8-week study period and who received a clinical assessment immediately after).||||0.02
92362578|NCT01538199|184628770|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||By means of a paired t-test we tested the significance of the change in the mean HAM-D17 total score (from baseline) to week 8. Although the primary comparison was with the last assessment (week 8). A last observation carried forward (LOCF) was also performed to account for one missing value at week 8.||||0.004
92362579|NCT01538199|184628773|SUPERIORITY_OR_OTHER|||||||0.18||||||a priori threshold for statistical significance: p≤0.05|t-test, 1 sided|Last observation carried forward (LOCF), one tailed t-test to compare change in QIDS score.||||||0.18
92362580|NCT01538199|184628773|SUPERIORITY_OR_OTHER|||||||0.01||||||a priori threshold for statistical significance: p≤0.05|t-test, 1 sided|One-tailed t-test to measure the change in QIDS score for treatment completers.||This analysis includes only treatment completers (participants who who were followed for the entire 8-week study period and who received a clinical assessment immediately after). One treatment completer in Group 1 was excluded because they consistently skipped several answers across self-rated scales for the duration of the study.||||0.01
92362581|NCT01538199|184628773|SUPERIORITY_OR_OTHER|||||||0.02||||||a priori threshold for statistical significance: p≤0.05|t-test, 2 sided|Two-tailed t-test measuring change in QIDS score for treatment completers.||This analysis includes only treatment completers (participants who who were followed for the entire 8-week study period and who received a clinical assessment immediately after). One treatment completer in Group 1 was excluded because they consistently skipped several answers across self-rated scales for the duration of the study.||||0.02
92362582|NCT03358030|184628775|OTHER||||||<|0.05|||||||ANOVA|||Day 12 through Day 260||||<0.05
92362583|NCT03358030|184628775|OTHER||||||<|0.05|||||||ANOVA|||Day 15 through Day 232||||<0.05
92362584|NCT03358030|184628776|OTHER||||||<|0.05|||||||Wilcoxon Rank Sum Test|Wilcoxon Rank Sum Test based on t approximation||Day 15 through Day 176||||< 0.05
92362585|NCT03358030|184628776|OTHER||||||<|0.05|||||||Wilcoxon Rank Sum Test|Wilcoxon Rank Sum Test based on t approximation||Day 12 through Day 176||||< 0.05
92362586|NCT04756531|184628838|OTHER|Natural log transformed AUClast for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fasted was the test treatment and PF-07321332 250 mg (Suspension), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|81.21|||||TWO_SIDED|90.0|69.21|95.28||||||||95.28|69.21|
92362587|NCT04756531|184628839|OTHER|Natural log transformed AUCinf for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fasted was the test treatment and PF-07321332 250 mg (Suspension), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|76.06|||||TWO_SIDED|90.0|60.14|96.2||||||||96.20|60.14|
92362588|NCT04756531|184628840|OTHER|Natural log transformed Cmax for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fasted was the test treatment and PF-07321332 250 mg (Suspension), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|56.38|||||TWO_SIDED|90.0|43.42|73.19||||||||73.19|43.42|
92362589|NCT04756531|184628873|OTHER|Natural log transformed AUClast for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fed was the test treatment and PF-07321332 250 mg (Tablet), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|148.91|||||TWO_SIDED|90.0|126.92|174.72||||||||174.72|126.92|
92362590|NCT04756531|184628874|OTHER|Natural log transformed AUCinf for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fed was the test treatment and PF-07321332 250 mg (Tablet), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|146.8|||||TWO_SIDED|90.0|118.8|181.41||||||||181.41|118.80|
92362591|NCT04756531|184628875|OTHER|Natural log transformed Cmax for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fed was the test treatment and PF-07321332 250 mg (Tablet), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|244.84|||||TWO_SIDED|90.0|188.58|317.87||||||||317.87|188.58|
92362592|NCT01729039|184628913|SUPERIORITY|||||||0.356||||||Main effect of time (baseline to post-PT) alpha = .05|ANOVA|||||||.356
92362593|NCT01729039|184628913|SUPERIORITY|||||||0.84||||||Interaction of Time by Group (GS vs. CON) alpha = .05|ANOVA|||||||.840
92362594|NCT01729039|184628914|SUPERIORITY|||||||0.17||||||Main effect of Time (baseline to post-PT) Alpha=.05|ANOVA|||||||.170
92362595|NCT01729039|184628914|SUPERIORITY|||||||0.297||||||Interaction of Time by Group (GS vs. CON) alpha = .05|ANOVA|||||||.297
92362596|NCT01729039|184628915|SUPERIORITY||||||<|0.001|||||||ANOVA|Main effect of Time (baseline to post-PT) alpha = .05||||||<.001
92362597|NCT01729039|184628915|SUPERIORITY|||||||0.817||||||Interaction of Time by Group (GS vs. CON) alpha = .05|ANOVA|||||||.817
92362598|NCT01729039|184628916|SUPERIORITY|||||||0.005||||||Main effect of Time (baseline to post-PT) alpha = .05|ANOVA|||||||.005
92362599|NCT01729039|184628916|SUPERIORITY|||||||0.172||||||Interaction of Time by Group (GS vs. CON) alpha = .05|ANOVA|||||||.172
92362600|NCT01729039|184628917|SUPERIORITY|||||||0.009||||||Main effect of time (baseline to post-PT) alpha = .05|ANOVA|||||||.009
92362601|NCT01729039|184628917|SUPERIORITY|||||||0.146||||||Interaction of Time by Grou (GS vs. CON) alpha = .05|ANOVA|||||||.146
92362602|NCT03449576|184628918|SUPERIORITY||Slope|5.3846|STANDARD_ERROR_OF_MEAN|6.5525||0.4154|TWO_SIDED|||||This P value is the interaction term between Visit and Treatment.|Regression, Linear||This is the beta value for the interaction term between Visit and Treatment.|Test of prediction of dependent variable -- the CAPS score-- with the interaction between Visit (pre/post) and treatment type (TMT vs. EXP+EDU), as well as independent variable, age||||0.4154
92362603|NCT03449576|184628919|SUPERIORITY||Slope|0.267397|STANDARD_ERROR_OF_MEAN|0.362521||0.4636|TWO_SIDED|||||This P value is the interaction term between Visit and Treatment.|Regression, Linear||This is the beta value for the interaction term between Visit and Treatment.|Test of prediction of dependent variable -- the SAS-SR score-- with the interaction between Visit (pre/post) and Treatment type (TMT vs. EXP+EDU), as well as independent variable, age||||0.4636
92362604|NCT03449576|184628920|SUPERIORITY||Slope|2.3355|STANDARD_ERROR_OF_MEAN|6.8791||0.735129|TWO_SIDED|||||This P value is the interaction term between Visit and Treatment.|Regression, Linear||This is the beta value for the interaction term between Visit and Treatment.|Test of prediction of dependent variable -- the PCL score-- with the interaction between Visit (pre/post) and treatment type (TMT vs. EXP+EDU), as well as independent variable, age||||0.735129
92362605|NCT03449576|184628921|SUPERIORITY||Slope|-2.64908|STANDARD_ERROR_OF_MEAN|4.76601||0.58|TWO_SIDED|||||This P value is the interaction term between Visit and Treatment.|Regression, Linear||This is the beta value for the interaction term between Visit and Treatment.|Test of prediction of dependent variable -- the AQ score-- with the interaction between Visit (pre/post) and treatment type (TMT vs. EXP+EDU), as well as independent variable, age||||0.580
92362606|NCT03449576|184628922|SUPERIORITY||Slope|1.3946|STANDARD_ERROR_OF_MEAN|5.7193||0.808|TWO_SIDED|||||This P value is the interaction term between Visit and Treatment.|Regression, Linear||This is the beta value for the interaction term between Visit and Treatment.|Test of prediction of dependent variable -- the ITS score-- with the interaction between Visit (pre/post) and treatment type (TMT vs. EXP+EDU), as well as independent variable, age||||0.808
92403069|NCT04973449|184697256|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|0.0|||||TWO_SIDED|95.0|-7.21|7.21||||||The analyses were derived using ANCOVA.||7.21|-7.21|
92403070|NCT04973449|184697257|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|2.0|||||TWO_SIDED|95.0|1.75|2.28||||||The analyses were derived using ANCOVA.||2.28|1.75|
92362607|NCT00404248|184628925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.9|ONE_SIDED||||||t-test, 2 sided|||||||0.9
92362608|NCT00404248|184628926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.4||||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.6
92362609|NCT00404248|184628927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4||||0.8|TWO_SIDED||||||t-test, 2 sided|||||||0.8
92362610|NCT00253422|184628938|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.76|TWO_SIDED|95.0|0.86|1.24|||Log Rank|||||1.24|0.86|0.76
92403071|NCT04973449|184697258|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|2.96|||||TWO_SIDED|95.0|2.64|3.32||||||The analyses were derived using ANCOVA.||3.32|2.64|
92403072|NCT04973449|184697259|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.51|||||TWO_SIDED|95.0|1.35|1.69||||||The analyses were derived using ANCOVA.||1.69|1.35|
92403073|NCT04973449|184697260|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.85|||||TWO_SIDED|95.0|0.78|0.94||||||The analyses were derived using ANCOVA.||0.94|0.78|
92403074|NCT04973449|184697261|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-41.2|||||TWO_SIDED|95.0|-47.57|-34.41||||||The analyses were derived using ANCOVA.||-34.41|-47.57|
92403075|NCT04973449|184697262|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|6.05|||||TWO_SIDED|95.0|-1.81|13.77||||||The analyses were derived using ANCOVA.||13.77|-1.81|
92403076|NCT04973449|184697263|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-26.56|||||TWO_SIDED|95.0|-33.1|-19.94||||||The analyses were derived using ANCOVA.||-19.94|-33.10|
92362611|NCT00253422|184628938|SUPERIORITY||Hazard Ratio (HR)|1.0||||1|TWO_SIDED|95.0|0.83|1.2|||Log Rank|||||1.20|0.83|1.00
92362612|NCT00253422|184628939|SUPERIORITY|||||||0.99|||||||Chi-squared|||||||0.99
92362613|NCT00253422|184628939|SUPERIORITY|||||||0.12|||||||Chi-squared|||||||0.12
92362614|NCT00253422|184628941|SUPERIORITY|||||||0.33|||||||Chi-squared|||||||0.33
92362615|NCT00253422|184628941|SUPERIORITY|||||||0.94|||||||Chi-squared|||||||0.94
92362616|NCT00253422|184628943|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.95|TWO_SIDED|95.0|0.84|1.21|||Log Rank||HR less than 1 favour Faslodex + Arimidex|||1.21|0.84|0.95
92362617|NCT00253422|184628943|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.66|TWO_SIDED|95.0|0.87|1.25|||Log Rank||HR less than 1 favours Faslodex + placebo|||1.25|0.87|0.66
92362618|NCT00253422|184628944|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.91|TWO_SIDED|95.0|0.82|1.19|||Log Rank||HR less than 1 favours Faslodex + Arimidex|||1.19|0.82|0.91
92362619|NCT00253422|184628944|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.31|TWO_SIDED|95.0|0.91|1.32|||Log Rank||HR less than 1 favours Faslodex + Placebo|||1.32|0.91|0.31
92362620|NCT05788991|184628958|NON_INFERIORITY|Difference of proportions between groups (with 95% CI) and a non inferiority margin of 15 percentage points, assuming a 1-sided α = .025 and 80% power|Farrington-Manning test|-0.5|||<|0.025|ONE_SIDED|95.0|-10.8|||1 sided alpha|Farrington-Manning test|||The outcome measure of the primary objective was a noninferiority margin of 15 percentage points in the absolute difference in clinical cure rates between dequalinium chloride and metronidazole 7 to 11 days after start of treatment.|||-10.8|<.025
92362621|NCT04464473|184628965|SUPERIORITY|||||||0.5736|||||||ANOVA|The main effect of visit (Baseline, FPl-TMS, MFG-TMS, S1-TMS) on the overall magnitude of MFG efferent connectivity||||||0.5736
92362622|NCT04464473|184628965|SUPERIORITY|||||||0.304|||||||ANOVA|Interaction of visit (Baseline, FPl-TMS, MFG-TMS, S1-TMS) and subsystem (Temporal, Contextual Control) on the magnitude of MFG efferent connectivity||||||0.304
92362623|NCT04464473|184628965|SUPERIORITY|||||||0.0545|||||||ANOVA|The main effect of visit (Baseline, FPl-TMS, MFG-TMS, S1-TMS) on the overall magnitude of FPl efferent connectivity||||||0.0545
92362624|NCT04464473|184628965|SUPERIORITY|||||||0.1134|||||||ANOVA|Interaction of visit (Baseline, FPl-TMS, MFG-TMS, S1-TMS) and Subsystem on the magnitude of FPl efferent connectivity||||||0.1134
92362625|NCT04464473|184628965|SUPERIORITY|||||||0.4326|||||||ANOVA|The main effect of intervention (FPl-TMS, MFG-TMS, S1-TMS) on the overall magnitude of MFG efferent connectivity||||||0.4326
92362626|NCT04464473|184628965|SUPERIORITY|||||||0.2546|||||||ANOVA|The interaction of intervention (FPl-TMS, MFG-TMS, S1-TMS) and subsystem (Temporal, Contextual Control) on the magnitude of MFG efferent connectivity||||||0.2546
92362627|NCT04464473|184628965|SUPERIORITY|||||||0.0645|||||||ANOVA|The main effect of intervention (FPl-TMS, MFG-TMS, S1-TMS) on the overall magnitude of FPl efferent connectivity||||||0.0645
92362628|NCT04464473|184628965|SUPERIORITY|||||||0.2033|||||||ANOVA|Interaction of intervention (FPl-TMS, MFG-TMS, S1-TMS) and Subsystem on the magnitude of FPl efferent connectivity||||||0.2033
92362629|NCT04464473|184628966|SUPERIORITY|||||||0.8152|||||||ANOVA|Main effect of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) on overall BOLD actviation.||||||0.8152
92362630|NCT04464473|184628966|SUPERIORITY|||||||0.0085|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and subsystem (temporal, contextual, sensorimotor control) on overall BOLD activation.||||||0.0085
92362631|NCT04464473|184628966|SUPERIORITY|||||||0.1551|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control on BOLD activation||||||0.1551
92362632|NCT04464473|184628966|SUPERIORITY|||||||0.6431|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control on BOLD activation||||||0.6431
92224296|NCT00511355|184349984|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
92362633|NCT04464473|184628966|SUPERIORITY|||||||0.2447|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and contextual control on BOLD activation||||||0.2447
92362634|NCT04464473|184628966|SUPERIORITY|||||||0.0002|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and subsystem (temporal, contextual, sensorimotor) on BOLD activation||||||0.0002
92362635|NCT04464473|184628966|SUPERIORITY|||||||0.1339|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), contextual control, and subsystem on BOLD activation||||||0.1339
92362636|NCT04464473|184628966|SUPERIORITY|||||||0.1315|||||||ANOVA|Interaction of visit, temporal control, contextual control, and subsystem on BOLD activation||||||0.1315
92362637|NCT04464473|184628966|SUPERIORITY|||||||0.6836|||||||ANOVA|The main effect of intervention arm (FPl-TMS, MFG-TMS, S1-TMS) on overall BOLD activation.||||||0.6836
92362638|NCT04464473|184628966|SUPERIORITY|||||||0.2146|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and subsystem (temporal, contextual, sensorimotor control) on overall BOLD activation.||||||0.2146
92362639|NCT04464473|184628966|SUPERIORITY|||||||0.1541|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control on BOLD activation||||||0.1541
92362640|NCT04464473|184628966|SUPERIORITY|||||||0.6657|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control on BOLD activation||||||0.6657
92362641|NCT04464473|184628966|SUPERIORITY|||||||0.5619|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and contextual control on BOLD activation||||||0.5619
92362642|NCT04464473|184628966|SUPERIORITY|||||||0.5148|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and subsystem (temporal, contextual, sensorimotor) on BOLD activation||||||0.5148
92362643|NCT04464473|184628966|SUPERIORITY|||||||0.5428|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), contextual control, and subsystem (temporal, contextual, sensorimotor) on BOLD activation||||||0.5428
92362644|NCT04464473|184628966|SUPERIORITY|||||||0.1249|||||||ANOVA|Interaction of intervention, temporal control, contextual control, and subsystem on BOLD activation||||||0.1249
92362645|NCT04464473|184628967|SUPERIORITY|||||||0.9504|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control on error rate||||||0.9504
92362646|NCT04464473|184628967|SUPERIORITY|||||||0.7318|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and temporal control on error rate||||||0.7318
92362647|NCT04464473|184628967|SUPERIORITY|||||||0.8424|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control on error rate||||||0.8424
92362648|NCT04464473|184628967|SUPERIORITY|||||||0.7652|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and temporal control on error rate||||||0.7652
92362649|NCT04464473|184628968|SUPERIORITY|||||||0.0266|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control on error rate||||||0.0266
92362650|NCT04464473|184628968|SUPERIORITY|||||||0.2386|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return) and contextual control on error rate||||||0.2386
92362651|NCT04464473|184628968|SUPERIORITY|||||||0.4211|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control on error rate||||||0.4211
92362652|NCT04464473|184628968|SUPERIORITY|||||||0.7503|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return) and contextual control on error rate||||||0.7503
92362653|NCT04464473|184628969|SUPERIORITY|||||||0.0091|||||||ANOVA|Interaction of Visit (Baseline, MFG-cTBS, FPl-cTBS, S1), Temporal Control, and Contextual Control on error rate||||||0.0091
92362654|NCT04464473|184628969|SUPERIORITY|||||||0.0045|||||||ANOVA|Interaction of Visit (Baseline, MFG-cTBS, FPl-cTBS, S1), phase (sub-task, return), Temporal Control, and Contextual Control on error rate||||||0.0045
92403077|NCT04973449|184697264|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|30.69|||||TWO_SIDED|95.0|22.94|37.9||||||The analyses were derived using ANCOVA.||37.90|22.94|
92403078|NCT04973449|184697265|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|14.64|||||TWO_SIDED|95.0|6.36|22.64||||||The analyses were derived using ANCOVA.||22.64|6.36|
92403079|NCT04973449|184697266|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.84|||||TWO_SIDED|95.0|0.74|0.96||||||The analyses were derived using analysis of covariance (ANCOVA).||0.96|0.74|
92403080|NCT04973449|184697267|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.71|||||TWO_SIDED|95.0|1.62|1.8||||||The analyses were derived using ANCOVA.||1.80|1.62|
92403081|NCT04973449|184697268|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.5|||||TWO_SIDED|95.0|0.44|0.56||||||The analyses were derived using ANCOVA.||0.56|0.44|
92403082|NCT04973449|184697269|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.38|||||TWO_SIDED|95.0|0.32|0.44||||||The analyses were derived using ANCOVA.||0.44|0.32|
92165842|NCT01040689|184220381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.133|0.212|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.212|0.133|<0.0001
92403083|NCT04408989|184697418|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of AUC(0-∞) were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter AUC(0-∞) was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|0.943|||||TWO_SIDED|90.0|0.899|0.989|||||For the comparison, MB02 SP represents the numerator and MB02 DM represents the denominator.|||0.989|0.899|
92403084|NCT04408989|184697418|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of AUC(0-∞) were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter AUC(0-∞) was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|1.0|||||TWO_SIDED|90.0|0.956|1.05|||||For the comparison, MB02 SP represents the numerator and US Avastin represents the denominator.|||1.05|0.956|
92227212|NCT03694392|184356632|OTHER||Hazard Ratio (HR)|0.84|||<|0.05|TWO_SIDED|95.0|0.76|0.94|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 15.7% (6.0% to 24.5%)|||0.94|0.76|<0.05
92362655|NCT04464473|184628969|SUPERIORITY|||||||0.1082|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1), Temporal Control, and Contextual Control on error rate||||||0.1082
92227213|NCT03694392|184356633|OTHER||Hazard Ratio (HR)|0.9|||<|0.05|TWO_SIDED|95.0|0.6|1.34|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 10.3% (-33.9% to 39.9%)|||1.34|0.60|<0.05
92362656|NCT04464473|184628969|SUPERIORITY|||||||0.0659|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1), phase (sub-task, return), Temporal Control, and Contextual Control on error rate||||||0.0659
92362657|NCT04464473|184628970|SUPERIORITY|||||||0.0211|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control in reaction time||||||0.0211
92362658|NCT04464473|184628970|SUPERIORITY|||||||0.4964|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and temporal control in reaction time||||||0.4964
92362659|NCT04464473|184628970|SUPERIORITY|||||||0.3129|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control in reaction time||||||0.3129
92362660|NCT04464473|184628970|SUPERIORITY|||||||0.5439|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and temporal control in reaction time||||||0.5439
92362661|NCT04464473|184628971|SUPERIORITY|||||||0.0344|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control in reaction time||||||0.0344
92362662|NCT04464473|184628971|SUPERIORITY|||||||0.5113|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and contextual control in reaction time||||||0.5113
92362663|NCT04464473|184628971|SUPERIORITY|||||||0.0301|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control in reaction time||||||0.0301
92362664|NCT04464473|184628971|SUPERIORITY|||||||0.6931|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and contextual control in reaction time||||||0.6931
92362665|NCT04464473|184628972|SUPERIORITY|||||||0.0189|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and contextual control on reaction time||||||0.0189
92362666|NCT04464473|184628972|SUPERIORITY|||||||0.0763|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), temporal control, and contextual control on reaction time||||||0.0763
92362667|NCT04464473|184628972|SUPERIORITY|||||||0.9701|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and contextual control on reaction time||||||0.9701
92362668|NCT04464473|184628972|SUPERIORITY|||||||0.3826|||||||ANOVA|Interaction of intervention(MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), temporal control, and contextual control on reaction time||||||0.3826
92362669|NCT03802396|184628973|OTHER|||||||0.025|||||||Wilcoxon (Mann-Whitney)|||||||0.025
92362670|NCT03802396|184628974|OTHER|||||||0.116|||||||Wilcoxon (Mann-Whitney)|||Baseline to 24 hours||||0.116
92362671|NCT03802396|184628974|OTHER|||||||0.388|||||||Wilcoxon (Mann-Whitney)|||Baseline to 6 weeks||||0.388
92362672|NCT03802396|184628975|OTHER|||||||0.569|||||||Wilcoxon (Mann-Whitney)|||Baseline to 24 hours||||0.569
92362673|NCT03802396|184628975|OTHER|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||Baseline to 6 weeks||||0.047
92362674|NCT03802396|184628976|OTHER|||||||0.498|||||||Wilcoxon (Mann-Whitney)|||Baseline to 24 hours||||0.498
92362675|NCT03802396|184628976|OTHER|||||||0.745|||||||Wilcoxon (Mann-Whitney)|||Baseline to 6 weeks||||0.745
92362676|NCT03802396|184628977|OTHER|||||||0.177|||||||Wilcoxon (Mann-Whitney)|||Baseline to 24 hours||||0.177
92362677|NCT03802396|184628977|OTHER|||||||0.478|||||||Wilcoxon (Mann-Whitney)|||Baseline to 6 weeks||||0.478
92403085|NCT04408989|184697418|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of AUC(0-∞) were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter AUC(0-∞) was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|1.07|||||TWO_SIDED|90.0|1.01|1.12|||||For the comparison, MB02 DM represents the numerator and US Avastin represents the denominator.|||1.12|1.01|
92403086|NCT04408989|184697419|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of Cmax were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|0.937|||||TWO_SIDED|90.0|0.887|0.989|||||For the comparison, MB02 SP represents the numerator and MB02 DM represents the denominator.|||0.989|0.887|
92403087|NCT04408989|184697419|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of Cmax were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|0.983|||||TWO_SIDED|90.0|0.925|1.05|||||For the comparison, MB02 SP represents the numerator and US Avastin represents the denominator.|||1.05|0.925|
92362678|NCT03802396|184628978|OTHER|||||||0.803|||||||t-test, 2 sided|||||||0.803
92362679|NCT03802396|184628980|OTHER||Risk Ratio (RR)|0.73||||0.286|TWO_SIDED|95.0|0.41|1.3|||Chi-squared|||||1.30|0.41|0.286
92362680|NCT03802396|184628981|OTHER|||||||0.189|||||||Wilcoxon (Mann-Whitney)|||||||0.189
92362681|NCT04066829|184628982|OTHER||Difference in Differences|-29.2|||||TWO_SIDED|95.0|-42.2|-11.8||||||Pre and post difference in the treatment group as compared to the control group. A log transformation was used.||-11.8|-42.2|
92362682|NCT00163293|184629007|SUPERIORITY_OR_OTHER|||||||0.6625||95.0|||||Log Rank|||||||0.6625
92362683|NCT00163293|184629007|SUPERIORITY_OR_OTHER|||||||0.7303||95.0|||||Log Rank|||||||0.7303
92362684|NCT00163293|184629008|SUPERIORITY_OR_OTHER|||||||0.1291||95.0|||||Wald Chi-square|zero inflated Poisson model: adjustment for centre and age \[yrs\] (zero model), treatment and race (Poisson model)||||||0.1291
92362685|NCT00163293|184629008|SUPERIORITY_OR_OTHER|||||||0.0145||95.0|||||Wald Chi-square|zero inflated Poisson model: adjustment for centre and age \[yrs\] (zero model), treatment and race (Poisson model)||||||0.0145
92362686|NCT00163293|184629010|SUPERIORITY_OR_OTHER|||||||0.4754|||||||Kruskal-Wallis|||||||0.4754
92362687|NCT00163293|184629010|SUPERIORITY_OR_OTHER|||||||0.6844|||||||Kruskal-Wallis|||||||0.6844
92362688|NCT01492426|184629043|NON_INFERIORITY_OR_EQUIVALENCE|Test of noninferiority was based on noninferiority margin of -12% and 2-sided alpha level of 5%. That is, if the lower bound of the 95% CI \> -12%, the Daclatasvir arm would be considered nonnferior to the telaprevir arm.|Percentage difference|4.3|STANDARD_DEVIATION|3.885|||TWO_SIDED|95.0|-3.3|11.9||Test of noninferiority carried out by taking a confidence interval (CI) for the difference in rates (daclatasvir arm minus telapravir arm). If lower bound of 95% CI difference exceeded -12%, noninferiority was demonstrated. No p-value was computed.|Stratum-adjusted Mantel-Haenszel|||Percentage difference between SVR12 rate in the experimental and control arms was computed using a stratum-adjusted Mantel-Haenszel confidence interval (95% level) for the difference in rates. The stratification factors were IL28B rs1297860 single nucleotide polymorphism (CC or non-CC) and baseline cirrhosis status (absent or present), unless otherwise indicated.||11.9|-3.3|
92362689|NCT00269113|184629049|SUPERIORITY_OR_OTHER||Difference in percentage of participants|17.4||||0.0009|TWO_SIDED|95.0|6.4|28.4|||Fisher Exact|||||28.4|6.4|0.0009
92362690|NCT00269113|184629050|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92362691|NCT00269113|184629051|SUPERIORITY_OR_OTHER|||||||0.0127|||||||Log Rank|||||||0.0127
92362692|NCT00269113|184629052|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92362693|NCT00269113|184629053|SUPERIORITY_OR_OTHER|||||||0.0186|||||||Log Rank|||||||0.0186
92362694|NCT00269113|184629054|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Log Rank|||||||0.0002
92362695|NCT00269113|184629055|SUPERIORITY_OR_OTHER|||||||0.0017|||||||Log Rank|||||||0.0017
92362696|NCT02286895|184629106|NON_INFERIORITY|The protocol stated that non-inferiority would be achieved if the lower limit of the 95% confidence interval (2-sided) for the difference in sero-conversion percentages (group receiving rotavirus minus group not receiving rotavirus) was \> -10%.|Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-4.0|4.2||||||Based on results from a prior study, the sponsor assumed 90% sero-conversion rates in each Arms A and B for each antigen in the two co-primary objectives. To rule out a non-inferiority margin of no more than 10% with 95% power (95% power was chosen to give an overall power of at least 90%) and a one-sided type-one error rate of no more than 2.5%, 237 evaluable subjects were required in each group to explore the co-primary objectives.||4.2|-4.0|
92362697|NCT02286895|184629107|NON_INFERIORITY|The protocol stated that non-inferiority would be achieved if the lower limit of the 95% CI (2-sided) for the difference in sero-conversion percentages (group receiving rotavirus minus group not receiving rotavirus) was \> -10%.|Mean Difference (Net)|-4.1|||||TWO_SIDED|95.0|-12.2|4.0||||||Based on results from a prior study completed by PATH and CVD-Mali, the sponsor assumed 90% sero-conversion rates in each Arms A and B for each antigen in the two co-primary objectives. To rule out a non-inferiority margin of no more than 10% with 95% power (95% power was chosen to give an overall power of at least 90%) and a one-sided type-one error rate of no more than 2.5%, 237 evaluable subjects were required in each group to explore the co-primary objectives.||4.0|-12.2|
92362698|NCT02286895|184629108|NON_INFERIORITY|The protocol stated that non-inferiority would be achieved if the lower limit of the 95% confidence interval (2-sided) for the difference in sero-conversion percentages (group receiving rotavirus minus group not receiving rotavirus) was \> -10%.|Mean Difference (Net)|-2.4|||||TWO_SIDED|95.0|-7.5|2.7||||||Based on results from a prior study completed by PATH and CVD-Mali, the sponsor assumed 90% sero-conversion rates in each Arms A and B for each antigen in the two co-primary objectives. To rule out a non-inferiority margin of no more than 10% with 95% power (95% power was chosen to give an overall power of at least 90%) and a one-sided type-one error rate of no more than 2.5%, 237 evaluable subjects were required in each group to explore the co-primary objectives.||2.7|-7.5|
92362699|NCT02286895|184629109|EQUIVALENCE|Definition of equivalence/null hypothesis: geometric mean titer (GMT) of group receiving rotavirus vaccine divided by GMT of group not receiving rotavirus vaccine = 1.|geometric mean titer ratio|0.9|||||TWO_SIDED|95.0|0.8|1.1||||||||1.1|0.8|
92362700|NCT02286895|184629110|EQUIVALENCE|Definition of equivalence/null hypothesis: geometric mean concentration (GMC) of group receiving rotavirus vaccine/ GMC of group not receiving rotavirus vaccine = 1|geometric mean titer ratio|-0.7|||||TWO_SIDED|95.0|-5.2|3.8||||||||3.8|-5.2|
92362701|NCT02286895|184629111|EQUIVALENCE|Definition of equivalence/null hypothesis: geometric mean titer (GMT) of group receiving rotavirus vaccine divided by GMT of group not receiving rotavirus vaccine = 1.|geometric mean titer ratio|0.9|||||TWO_SIDED|95.0|0.7|1.3||||||||1.3|0.7|
92362702|NCT02286895|184629112|SUPERIORITY||Mean Difference (Net)|17.5|||||TWO_SIDED|95.0|9.7|25.3||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||25.3|9.7|
92362703|NCT02286895|184629113|SUPERIORITY||Mean Difference (Net)|15.8|||||TWO_SIDED|95.0|8.1|23.4||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||23.4|8.1|
92362704|NCT02286895|184629114|SUPERIORITY||Mean Difference (Net)|25.4|||||TWO_SIDED|95.0|14.6|36.2||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||36.2|14.6|
92362705|NCT02286895|184629115|SUPERIORITY||Mean Difference (Net)|31.1|||||TWO_SIDED|95.0|23.1|39.0||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||39.0|23.1|
92362706|NCT02286895|184629116|SUPERIORITY||Mean Difference (Net)|17.7|||||TWO_SIDED|95.0|12.0|23.5||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||23.5|12.0|
92362707|NCT02286895|184629117|SUPERIORITY||Mean Difference (Net)|52.0|||||TWO_SIDED|95.0|37.7|66.3||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||66.3|37.7|
92362708|NCT02286895|184629118|SUPERIORITY||geometric mean titer ratio|1.7|||||TWO_SIDED|95.0|1.2|2.4||||||Null hypothesis: geometric mean titer (GMT) in group receiving rotavirus vaccine/GMT in group not receiving rotavirus vaccine ≤ 1||2.4|1.2|
92362709|NCT02286895|184629119|SUPERIORITY||geometric mean titer ratio|2.3|||||TWO_SIDED|95.0|1.7|3.1||||||Null hypothesis: 28 days post-vaccination, geometric mean titer (GMT) in group receiving rotavirus vaccine/GMT in group not receiving rotavirus vaccine ≤ 1||3.1|1.7|
92362710|NCT02286895|184629120|SUPERIORITY||geometric mean titer ratio|2.0|||||TWO_SIDED|95.0|1.2|3.3||||||Null hypothesis: geometric mean titer (GMT) in group receiving rotavirus vaccine/GMT in group not receiving rotavirus vaccine ≤ 1||3.3|1.2|
92362711|NCT02286895|184629121|SUPERIORITY||geometric mean titer ratio|4.6|||||TWO_SIDED|95.0|2.4|8.9||||||Null hypothesis: geometric mean titer (GMT) in group receiving rotavirus vaccine/GMT in group not receiving rotavirus vaccine ≤ 1||8.9|2.4|
92362712|NCT02949011|184629127|SUPERIORITY||Median Difference|-29.1|||<|0.0001|TWO_SIDED|95.0|-42.8|-14.6||Adjusted p-value, two-sided significance level of 0.05|Stratified generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||The primary analysis of the primary endpoint was a comparison between the baloxavir marboxil and placebo groups.||-14.6|-42.8|<0.0001
92362713|NCT02949011|184629127|SUPERIORITY||Median Difference|-7.7||||0.8347|TWO_SIDED|95.0|-22.7|7.9||Adjusted p-value, two-sided significance level of 0.05|Stratified generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||The comparison between the baloxavir marboxil and the oseltamivir groups was conducted as a secondary analysis only if a statistically significant difference was observed in the primary analysis in order to maintain control of overall type I error.||7.9|-22.7|0.8347
92362714|NCT02949011|184629127|SUPERIORITY|||||||0.0008||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Log Rank|Log rank test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Analysis using the stratified log rank test was performed as a sensitivity analysis.||||0.0008
92362715|NCT02949011|184629127|SUPERIORITY|||||||0.8449||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Log Rank|Log rank test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Analysis using the stratified log rank test was performed as a sensitivity analysis.||||0.8449
92362716|NCT02949011|184629128|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
92362717|NCT02949011|184629128|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
92362718|NCT02949011|184629128|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||<0.0001
92362719|NCT02949011|184629128|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||<0.0001
92362720|NCT02949011|184629128|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||<0.0001
92362721|NCT02949011|184629128|SUPERIORITY|||||||0.0044||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.0044
92403088|NCT04408989|184697419|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of Cmax were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|1.05|||||TWO_SIDED|90.0|0.991|1.11|||||For the comparison, MB02 DM represents the numerator and US Avastin represents the denominator.|||1.11|0.991|
92403089|NCT00311766|184697437|SUPERIORITY_OR_OTHER||ANCOVA|0.8|||>|0.05|TWO_SIDED|95.0|||||Fisher Exact|||The primary population was the Full Analysis(FA)population. The FA population included all patients who were randomized and received at least one dose of study medication and who had at least one baseline efficacy parameter recorded||||>0.05
92403090|NCT02260934|184697439|SUPERIORITY|||||||0.58||||||Two-sided test|Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 0 to Week 24||||0.58
92362722|NCT02949011|184629128|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||<0.0001
92362723|NCT02949011|184629128|SUPERIORITY|||||||0.1146||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.1146
92362724|NCT02949011|184629128|SUPERIORITY|||||||0.0046||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.0046
92362725|NCT02949011|184629128|SUPERIORITY|||||||0.441||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.441
92403091|NCT02260934|184697439|SUPERIORITY|||||||0.25||||||Two-sided test.|Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 0 to Week 48||||0.25
92403092|NCT02260934|184697439|SUPERIORITY|||||||0.15||||||Two-sided test.|Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 0 to Week 96.||||0.15
92362726|NCT02949011|184629128|SUPERIORITY|||||||0.0929||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.0929
92362727|NCT02949011|184629128|SUPERIORITY|||||||0.0907||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.0907
92362728|NCT02949011|184629129|SUPERIORITY|||||||0.7383||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||0.7383
92362729|NCT02949011|184629129|SUPERIORITY|||||||0.9619||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||0.9619
92362730|NCT02949011|184629129|SUPERIORITY|||||||0.0576||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||0.0576
92362731|NCT02949011|184629129|SUPERIORITY|||||||0.1237||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||0.1237
92403093|NCT02260934|184697441|SUPERIORITY|P-value could not be produced because of zero count in at least one of the treatment arms.|||||||||||||Regression, Logistic|Two sided test. P-value could not be produced because of zero count in at least one of the treatment arms.||Week 0 to Week 24|Treatment group was the independent variable in the logistic regression.|||
92276795|NCT01271933|184455247|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|5.49||0.2159|TWO_SIDED|95.0|-4.1|17.7||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Sleep adequacy||17.7|-4.1|0.2159
92276796|NCT01271933|184455247|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.2|STANDARD_ERROR_OF_MEAN|4.1||0.2041|TWO_SIDED|95.0|-13.4|2.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Somnolence||2.9|-13.4|0.2041
92362732|NCT02949011|184629129|SUPERIORITY|||||||0.3071||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.3071
92362733|NCT02949011|184629129|SUPERIORITY|||||||0.9603||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.9603
92362734|NCT02949011|184629129|SUPERIORITY|||||||0.0784||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.0784
92362735|NCT02949011|184629129|SUPERIORITY|||||||0.5547||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.5547
92362736|NCT02949011|184629129|SUPERIORITY|||||||0.3087||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.3087
92403094|NCT02260934|184697441|SUPERIORITY||||||||||||||Regression, Logistic|P-value could not be produced because of zero count in at least one of the treatment arms.||Week 0 to Week 48|P-value could not be produced because of zero count in at least one of the treatment arms.|||
92165843|NCT01040689|184220382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.09|0.173|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.173|0.090|<0.0001
92165844|NCT01040689|184220382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.136|0.219|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.219|0.136|<0.0001
92165845|NCT01040689|184220382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.081|0.164|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.164|0.081|<0.0001
92165846|NCT01040689|184220383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.121|0.196|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.196|0.121|<0.0001
92165847|NCT01040689|184220383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.155|0.23|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.230|0.155|<0.0001
92165848|NCT01040689|184220383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.11|0.185|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.185|0.110|<0.0001
92165849|NCT01040689|184220384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.147|0.216|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.216|0.147|<0.0001
92165850|NCT01040689|184220384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.178|0.247|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.247|0.178|<0.0001
92165851|NCT01040689|184220384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.097|0.167|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.167|0.097|<0.0001
92165852|NCT01040689|184220385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.17|0.243|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.243|0.170|<0.0001
92165853|NCT01040689|184220385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.179|0.252|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.252|0.179|<0.0001
92362737|NCT02949011|184629129|SUPERIORITY|||||||0.9106||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.9106
92362738|NCT02949011|184629129|SUPERIORITY|||||||0.0017||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.0017
92362739|NCT02949011|184629129|SUPERIORITY|||||||0.3068||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.3068
92362740|NCT02949011|184629130|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
92403095|NCT02260934|184697441|SUPERIORITY|P-value could not be produced because of zero count in at least one of the treatment arms|||||||||||||Regression, Logistic|P-value could not be produced because of zero count in at least one of the treatment arms||Week 0 to Week 96 The modified intent to treat population includes all randomized participants who received 1 dose of Solumedrol, 1 dose of rituximab, 1 dose of cyclophosphamide, and, if in the Rituximab/Cyclophosphamide/Belimumab (RCB) arm, 1 dose of belimumab.|P-value could not be produced because of zero count in at least one of the treatment arms|||
92403096|NCT02260934|184697442|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.66||||||Treatment group was the independent variable in the logistic regression.|Regression, Logistic|2 sided test||Week 24||||0.66
92403097|NCT02260934|184697442|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.65||||||Treatment group was the independent variable in the logistic regression.|Regression, Logistic|2 sided test||Week 48|Treatment group was the independent variable in the logistic regression.|||0.65
92403098|NCT02260934|184697443|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.64||||||2 sided test|Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 24 Treatment group was the independent variable in the logistic regression.||||0.64
92403099|NCT02260934|184697443|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.37||||||2 sided test|Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 48||||0.37
92403100|NCT02260934|184697443|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.32|||||||Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 96||||0.32
92403101|NCT02260934|184697444|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.91||||||2 sided test|Regression, Logistic|2 sided test||Week 96||||0.91
92403102|NCT02260934|184697445|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.73||||||2 sided test|Regression, Logistic|2 sided test||Week 0 to Week 24||||.73
92165854|NCT01040689|184220385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.146|0.219|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.219|0.146|<0.0001
92362741|NCT02949011|184629130|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
92362742|NCT02949011|184629130|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||<0.0001
92362743|NCT02949011|184629130|SUPERIORITY|||||||0.0024||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||0.0024
92403103|NCT02260934|184697445|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.26||||||2 sided test|Regression, Logistic|2 sided test||Week 0 to Week 48||||0.26
92403104|NCT02260934|184697445|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.29||||||2 sided test|Regression, Logistic|2 sided test||Week 0 to Week 96||||0.29
92403105|NCT02260934|184697446|SUPERIORITY|2 sided test|||||>|0.99||||||2 sided test|Fisher Exact|2 sided test||Week 0 to Week 24||||>0.99
92403106|NCT02260934|184697447|SUPERIORITY|2 sided test||||||0.49||||||2 sided test|Fisher Exact|2 sided test||Week 0 to Week 48||||0.49
92403107|NCT02260934|184697449|SUPERIORITY|2 sided test||||||0.89||||||2 sided test|Regression, Logistic|||Treatment group was the independent variable in the logistic regression.||||0.89
92403108|NCT02260934|184697449|SUPERIORITY|Week 48||||||0.47||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.47
92403109|NCT02260934|184697449|SUPERIORITY|Week 96||||||0.94||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.94
92403110|NCT02260934|184697450|SUPERIORITY|Week 24||||||0.08||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.08
92403111|NCT02260934|184697450|SUPERIORITY|Week 48||||||0.11||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.11
92403112|NCT02260934|184697450|SUPERIORITY|Week 96||||||0.05||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.05
92403113|NCT02260934|184697451|SUPERIORITY|Week 24||||||0.2||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||.20
92403114|NCT02260934|184697451|SUPERIORITY|Week 48|||||>|0.99||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||>0.99
92403115|NCT02260934|184697451|SUPERIORITY|Week 96||||||0.63||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.63
92403116|NCT01436526|184697454|NON_INFERIORITY_OR_EQUIVALENCE|Using an estimated intra-subject coefficient of variation of less than 20% for AUC and Cmax, and a level of significance of 5%, a sample size of 25 completers was considered sufficient to conclude bioequivalence between 2\*5 mg and 1\*10 mg rivaroxaban with 90% power, if the 2 treatment means differed by 5%.|LS-Mean Ratio, Percent|108.35||||0.0438||90.0|101.59|115.57|||ANOVA|||||115.57|101.59|0.0438
92362744|NCT02949011|184629130|SUPERIORITY|||||||0.9127||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ven Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.9127
92362745|NCT02949011|184629130|SUPERIORITY|||||||0.5361||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.5361
92403117|NCT01436526|184697455|NON_INFERIORITY_OR_EQUIVALENCE|Using an estimated intra-subject coefficient of variation of less than 20% for AUC and Cmax, and a level of significance of 5%, a sample size of 25 completers was considered sufficient to conclude bioequivalence between 2\*5 mg and 1\*10 mg rivaroxaban with 90% power, if the 2 treatment means differed by 5%.|LS-Mean Ratio, Percent|108.19||||0.0514||90.0|101.31|115.54|||ANOVA|||||115.54|101.31|0.0514
92403118|NCT01436526|184697456|NON_INFERIORITY_OR_EQUIVALENCE|Using an estimated intra-subject coefficient of variation of less than 20% for AUC and Cmax, and a level of significance of 5%, a sample size of 25 completers was considered sufficient to conclude bioequivalence between 2\*5 mg and 1\*10 mg rivaroxaban with 90% power, if the 2 treatment means differed by 5%.|LS-Mean Ratio, Percent|111.64||||0.0685||90.0|101.14|123.23|||ANOVA|||||123.23|101.14|0.0685
92403119|NCT04272242|184697482|EQUIVALENCE|GMRs and associated 90% confidence intervals were calculated to assess the overall effect of 1HP on DTG PK.|Geometric Mean Ratio|0.92|||||TWO_SIDED|90.0|0.91|0.93|||||The numerator represents Day 28 and the denominator represents Entry.|Statistical analysis for Cmax, comparing Day 28 to Day 0.||0.93|0.91|
92165855|NCT01040689|184220386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.177|0.249|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.249|0.177|<0.0001
92165856|NCT01040689|184220386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.239|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.203|0.275|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.275|0.203|<0.0001
92224297|NCT00511355|184349985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0083||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0083
92224298|NCT00511355|184349986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0455||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0455
92224299|NCT00511355|184349987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0063||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0063
92362746|NCT02949011|184629130|SUPERIORITY|||||||0.5739||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.5739
92362747|NCT02949011|184629130|SUPERIORITY|||||||0.5466||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.5466
92165857|NCT01040689|184220386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.125|0.197|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.197|0.125|<0.0001
92362748|NCT02949011|184629130|SUPERIORITY|||||||0.0543||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.0543
92362749|NCT02949011|184629130|SUPERIORITY|||||||0.4677||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.4677
92362750|NCT02949011|184629130|SUPERIORITY|||||||0.0266||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.0266
92403120|NCT04272242|184697483|EQUIVALENCE|GMRs and associated 90% confidence intervals were calculated to assess the overall effect of 1HP on DTG PK.|Geometric Mean Ratio|0.96|||||TWO_SIDED|90.0|0.96|0.96|||||The numerator represents Day 28 and the denominator represents Entry.|Statistical analysis for AUC0-24, comparing Day 28 to Day 0.||0.96|0.96|
92403121|NCT04272242|184697484|EQUIVALENCE|GMRs and associated 90% confidence intervals were calculated to assess the overall effect of 1HP on DTG PK.|Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.97|1.0|||||The numerator represents Day 28 and the denominator represents Entry.|Statistical analysis for Cmin, comparing Day 28 to Day 0.||1.00|0.97|
92403122|NCT00906204|184697502|NON_INFERIORITY_OR_EQUIVALENCE|A one-sided alpha = 0.05, 85% power, an event rate of 0.70, equivalence margin of 0.20. Sample size = 75 patients per dose group, a total of 150 patients. Data analyzed will be counts of patients in each group who experience one or more component events of the primary endpoint during postoperative days one through seven. The DSMB requested an interim analysis after 80 patients and recommended ending the trial because the primary endpoint had been robustly reached.||||||0.64|TWO_SIDED||||||Fisher Exact|||The analysis compares the rates at which patients in each of the two groups cumulatively exceed the five composite endpoint thresholds. There are five safety outcomes monitored during the first seven post-transplantation days. The rates of observed vs. possible safety outcomes are compared.||||0.64
92403123|NCT00906204|184697503|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Log Rank|||||||0.35
92403124|NCT00906204|184697504|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||Log Rank|||||||0.47
92403125|NCT00906204|184697505|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Log Rank|||||||0.78
92403126|NCT00906204|184697506|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Fisher Exact|||||||0.72
92362751|NCT02949011|184629130|SUPERIORITY|||||||0.1281||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.1281
92224300|NCT00511355|184349988|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
92276797|NCT01271933|184455247|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.8|STANDARD_ERROR_OF_MEAN|3.81||0.1319|TWO_SIDED|95.0|-13.4|1.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Sleep Problems Index I||1.8|-13.4|0.1319
92276798|NCT01271933|184455247|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|3.89||0.1473|TWO_SIDED|95.0|-13.4|2.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Sleep Problems Index II||2.0|-13.4|0.1473
92362752|NCT02949011|184629131|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
92362753|NCT02949011|184629131|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
92362754|NCT02949011|184629131|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||<0.0001
92362755|NCT02949011|184629131|SUPERIORITY|||||||0.0015||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||0.0015
92224301|NCT00511355|184349989|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
92276799|NCT01271933|184455248|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3596|TWO_SIDED|95.0|-0.2|0.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.6|-0.2|0.3596
92362756|NCT02949011|184629131|SUPERIORITY|||||||0.0028||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.0028
92362757|NCT02949011|184629131|SUPERIORITY|||||||0.0265||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.0265
92362758|NCT02949011|184629131|SUPERIORITY|||||||0.0247||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.0247
92403127|NCT00906204|184697507|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||t-test, 2 sided|||||||0.85
92403128|NCT00124943|184697538|SUPERIORITY_OR_OTHER|||||||0.396||95.0|||||Fisher Exact|||The statistical testing of treatment difference is for exploratory purposes.||||0.396
92403129|NCT00124943|184697539|SUPERIORITY_OR_OTHER|||||||0.783||95.0|||||Fisher Exact|||Comparison of the number of patients with any treatment emergent adverse event. The statistical testing of treatment difference is for exploratory purposes.||||0.783
92403130|NCT00124943|184697540|SUPERIORITY_OR_OTHER|||||||0.293||95.0|||||Fisher Exact|||Comparison of in-stent binary restenosis. The statistical testing of treatment difference is for exploratory purposes.||||0.293
92403131|NCT00124943|184697540|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Fisher Exact|||Comparison of in-segment binary restenosis. The statistical testing of treatment difference is for exploratory purposes||||0.400
92403132|NCT00124943|184697541|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Fisher Exact|||The statistical testing of treatment difference is for exploratory purposes.||||>0.999
92403133|NCT00124943|184697542|SUPERIORITY_OR_OTHER|||||||0.061||95.0|||||Fisher Exact|||The statistical testing of treatment difference is for exploratory purposes.||||0.061
92403134|NCT00124943|184697543|SUPERIORITY_OR_OTHER|||||||0.709||95.0|||||Fisher Exact|||Comparison of in-stent late lumen loss. The statistical testing of treatment difference is for exploratory purposes.||||0.709
92403135|NCT00124943|184697543|SUPERIORITY_OR_OTHER|||||||0.495||95.0|||||Fisher Exact|||Comparison of in-segment late lumen loss. The statistical testing of treatment difference is for exploratory purposes.||||0.495
92403136|NCT00124943|184697544|SUPERIORITY_OR_OTHER|||||||0.317||95.0|||||ANOVA|P-value testing dose group differences based on an analysis of variance with dose effect in the model.||||||0.317
92403137|NCT03181932|184697545|SUPERIORITY|The primary efficacy endpoint was tested sequentially at Week 4 (end of Cycle 1), Week 12 (end of Cycle 2) and at Week 20 (end of Cycle 3). If a statistically significant difference was observed in favor of vancomycin inhalation powder compared to placebo after Cycle 1, then the mean change in the FEV1 percent predicted during Cycle 2 was to be tested. Similarly, if the effect after Cycle 2 was statistically significant, then the analysis of Baseline to end of Cycle 3 was to be tested.|Least square mean difference|1.4||||0.325|TWO_SIDED|95.0|-1.4|4.1|||Mixed Models Analysis|||Based on previous experience, a sample size of 45 participants per arm would provide 89% power to detect a statistically significant difference at alpha level of 0.05. To account for potential dropouts and/or smaller effect size in a 3-cycle trial, a sample size of 75 participants per arm was to be enrolled in the primary analysis population, which if all completed would provide 90% power to detect a difference of 3.4% at 20 weeks assuming the same standard deviation of 6.3%.||4.1|-1.4|0.325
92403138|NCT01887327|184697557|OTHER||LS Mean Difference vs Placebo|-31.64|||=|2.1e-06|TWO_SIDED|95.0|-44.0|-19.283|||LS Mean Difference vs Placebo|||||-19.283|-44.000|=0.0000021
92362759|NCT02949011|184629131|SUPERIORITY|||||||0.5298||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.5298
92362760|NCT02949011|184629131|SUPERIORITY|||||||0.9554||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.9554
92362761|NCT02949011|184629131|SUPERIORITY|||||||0.9075||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.9075
92362762|NCT02949011|184629131|SUPERIORITY|||||||0.7624||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.7624
92362763|NCT02949011|184629131|SUPERIORITY|||||||0.6156||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.6156
92362764|NCT02949011|184629132|SUPERIORITY|||||||0.034||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.0340
92362765|NCT02949011|184629132|SUPERIORITY|||||||0.2766||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.2766
92362766|NCT02949011|184629133|SUPERIORITY|||||||0.0072||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.0072
92403139|NCT01887327|184697557|OTHER||LS Mean Difference vs Placebo|-27.4|||=|2.6e-05|TWO_SIDED|95.0|-39.657|-15.142|||LS Mean Difference vs Placebo|||||-15.142|-39.657|=0.0000260
92362767|NCT02949011|184629133|SUPERIORITY|||||||0.733||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.7330
92362768|NCT02949011|184629134|SUPERIORITY||Median Difference|-48.0|||<|0.0001|TWO_SIDED|95.0|-48.0|-48.0||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region||||-48.0|-48.0|<0.0001
92362769|NCT02949011|184629134|SUPERIORITY||Median Difference|-48.0|||<|0.0001|TWO_SIDED|95.0|-48.0|-24.0||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region||||-24.0|-48.0|<0.0001
92362770|NCT02949011|184629135|SUPERIORITY||Median Difference|-24.0||||0.0006|TWO_SIDED|95.0|-96.0|0.0||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region||||0.0|-96.0|0.0006
92362771|NCT02949011|184629135|SUPERIORITY||Median Difference|0.0||||0.237|TWO_SIDED|95.0|-48.0|24.0||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region||||24.0|-48.0|0.2370
92362772|NCT02949011|184629136|SUPERIORITY|||||||0.7698||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||12 hours||||0.7698
92362773|NCT02949011|184629136|SUPERIORITY|||||||0.5777||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||12 hours||||0.5777
92362774|NCT02949011|184629136|SUPERIORITY|||||||0.1112||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||24 hours||||0.1112
92362775|NCT02949011|184629136|SUPERIORITY|||||||0.6483||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||24 hours||||0.6483
92403140|NCT00408317|184697574|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.74|||<|0.0001|||||||Mixed Models Analysis|||P-values are from a semi-parametric mixed model on ranked CFA% values including sequence, period, and treatment group as fixed effects; participant identification (ID) as random effect.||||<0.0001
92403141|NCT00408317|184697575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.68|||<|0.0001|||||||Mixed Models Analysis|||P-values are from a semi-parametric mixed model on ranked CNA% values including sequence, period, and treatment group as fixed effects, and participant ID as random effect.||||<0.0001
92403142|NCT01921205|184697616|SUPERIORITY||Percent reduction over Placebo|31.72|||=|0.0003|TWO_SIDED|95.0|16.342|44.277|||ANCOVA|Seizure frequency (log transformed) is analyzed using analysis of covariance with terms for treatment, pooled center and Baseline seizure frequency.|Percent reduction over placebo is estimated as 100 x (1-exp\[LSMLacosamide-LSMPlacebo\]). Where LSM is Least Square Mean.|||44.277|16.342|=0.0003
92403143|NCT05179785|184697642|OTHER|||||||0.2938909|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.29389090
92403144|NCT05179785|184697642|OTHER|||||||0.97863544|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.97863544
92165858|NCT01040689|184220387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.168|0.258|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.258|0.168|<0.0001
92362776|NCT02949011|184629136|SUPERIORITY|||||||0.0004||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||36 hours||||0.0004
92362777|NCT02949011|184629136|SUPERIORITY|||||||0.5625||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||36 hours||||0.5625
92362778|NCT02949011|184629136|SUPERIORITY|||||||0.0072||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||48 hours||||0.0072
92362779|NCT02949011|184629136|SUPERIORITY|||||||0.6234||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||48 hours||||0.6234
92362780|NCT02949011|184629136|SUPERIORITY|||||||0.0002||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||72 hours||||0.0002
92403145|NCT05179785|184697642|OTHER|||||||0.60236264|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.60236264
92165859|NCT01040689|184220387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.234|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.189|0.279|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.279|0.189|<0.0001
92165860|NCT01040689|184220387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.156|0.246|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.246|0.156|<0.0001
92403146|NCT05179785|184697642|OTHER|||||||0.35845126|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.35845126
92403147|NCT05179785|184697642|OTHER|||||||0.91766025|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.91766025
92403148|NCT05179785|184697642|OTHER|||||||0.09605169|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delayed discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delayed discounting task"||||0.09605169
92403149|NCT05179785|184697643|OTHER|||||||0.50030946|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.50030946
92403150|NCT05179785|184697643|OTHER|||||||0.3751738|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.37517380
92403151|NCT05179785|184697643|OTHER|||||||0.47876971|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.47876971
92403152|NCT05179785|184697643|OTHER|||||||0.21798816|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.21798816
92403153|NCT05179785|184697643|OTHER|||||||0.47876971|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.47876971
92165861|NCT01040689|184220388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.096|0.17|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.170|0.096|<0.0001
92362781|NCT02949011|184629136|SUPERIORITY|||||||0.9547||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||72 hours||||0.9547
92362782|NCT02949011|184629136|SUPERIORITY|||||||0.0012||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||96 hours||||0.0012
92362783|NCT02949011|184629136|SUPERIORITY|||||||0.186||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||96 hours||||0.1860
92362784|NCT02949011|184629136|SUPERIORITY|||||||0.0274||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||120 hours||||0.0274
92362785|NCT02949011|184629136|SUPERIORITY|||||||0.9635||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||120 hours||||0.9635
92362786|NCT02949011|184629136|SUPERIORITY|||||||0.0081||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||144 hours||||0.0081
92362787|NCT02949011|184629136|SUPERIORITY|||||||0.7425||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||144 hours||||0.7425
92362788|NCT02949011|184629136|SUPERIORITY|||||||0.0209||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||168 hours||||0.0209
92165862|NCT01040689|184220388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.11|0.184|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.184|0.110|<0.0001
92362789|NCT02949011|184629136|SUPERIORITY|||||||0.7448||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||168 hours||||0.7448
92362790|NCT02949011|184629136|SUPERIORITY|||||||0.0644||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||192 hours||||0.0644
92362791|NCT02949011|184629136|SUPERIORITY|||||||0.4931||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||192 hours||||0.4931
92362792|NCT02949011|184629136|SUPERIORITY|||||||0.0708||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||216 hours||||0.0708
92362793|NCT02949011|184629136|SUPERIORITY|||||||0.4024||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||216 hours||||0.4024
92362794|NCT02949011|184629137|SUPERIORITY||Median Difference|-25.8|||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||<0.0001
92403154|NCT05179785|184697643|OTHER|||||||0.21798816|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.21798816
92403155|NCT05179785|184697644|OTHER|||||||0.75298499|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.75298499
92403156|NCT05179785|184697644|OTHER|||||||0.16043787|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.16043787
92403157|NCT05179785|184697644|OTHER|||||||0.67902693|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.67902693
92403158|NCT05179785|184697644|OTHER|||||||0.33832977|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.33832977
92403159|NCT05179785|184697644|OTHER|||||||0.67902693|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.67902693
92403160|NCT05179785|184697644|OTHER|||||||0.33832977|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.33832977
92403161|NCT05179785|184697645|OTHER|||||||0.73357221|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.73357221
92403162|NCT05179785|184697645|OTHER|||||||0.43954526|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.43954526
92403163|NCT05179785|184697645|OTHER|||||||0.4419898|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.44198980
92362795|NCT02949011|184629137|SUPERIORITY||Median Difference|-8.6||||0.9127||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.9127
92362796|NCT02949011|184629138|SUPERIORITY||Median Difference|-15.1||||0.0013||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.0013
92362797|NCT02949011|184629138|SUPERIORITY||Median Difference|2.3||||0.8498||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.8498
92403164|NCT05179785|184697645|OTHER|||||||0.39565784|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.39565784
92403165|NCT05179785|184697645|OTHER|||||||0.35602382|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.35602382
92403166|NCT05179785|184697645|OTHER|||||||0.30499144|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.30499144
92165863|NCT01040689|184220388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.06|0.134|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.134|0.060|<0.0001
92276800|NCT01271933|184455250|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.4985|TWO_SIDED|95.0|0.66|2.36||Nominal p-value for two-sided test.|two-sided test|||"Odds ratio is the probability of the event occurring in Pregabalin 330 - 495 mg/day relative to the event occurring in Placebo for Pregabalin.~Odds ratio \> 1 is in favor of Pregabalin 330 - 495 mg/day."||2.36|0.66|0.4985
92403167|NCT05179785|184697646|OTHER|||||||0.81601415|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.81601415
92403168|NCT05179785|184697646|OTHER|||||||0.20563452|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.20563452
92403169|NCT05179785|184697646|OTHER|||||||0.21947623|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.21947623
92403170|NCT05179785|184697646|OTHER|||||||0.45535329|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.45535329
92403171|NCT05179785|184697646|OTHER|||||||0.21947623|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.21947623
92403172|NCT05179785|184697646|OTHER|||||||0.45535329|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.45535329
92403173|NCT05179785|184697647|OTHER|||||||0.83462055|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.83462055
92362798|NCT02949011|184629139|SUPERIORITY||Median Difference|-24.1||||0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.0001
92362799|NCT02949011|184629139|SUPERIORITY||Median Difference|1.5||||0.9237||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.9237
92362800|NCT02949011|184629140|SUPERIORITY||Median Difference|-19.8|||<|0.0001|TWO_SIDED|95.0|-28.8|-12.5||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||-12.5|-28.8|<0.0001
92362801|NCT02949011|184629140|SUPERIORITY||Median Difference|-3.5||||0.2425|TWO_SIDED|95.0|-9.1|2.7||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||2.7|-9.1|0.2425
92362802|NCT02949011|184629141|SUPERIORITY|||||||0.1713||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||12 hours||||0.1713
92362803|NCT02949011|184629141|SUPERIORITY|||||||0.2249||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||12 hours||||0.2249
92362804|NCT02949011|184629141|SUPERIORITY|||||||0.0387||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||24 hours||||0.0387
92362805|NCT02949011|184629141|SUPERIORITY|||||||0.3915||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||24 hours||||0.3915
92362806|NCT02949011|184629141|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||36 hours||||<0.0001
92362807|NCT02949011|184629141|SUPERIORITY|||||||0.2617||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||36 hours||||0.2617
92362808|NCT02949011|184629141|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||48 hours||||<0.0001
92362809|NCT02949011|184629141|SUPERIORITY|||||||0.8808||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||48 hours||||0.8808
92362810|NCT02949011|184629141|SUPERIORITY|||||||0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||72 hours||||0.0001
92165864|NCT01040689|184220389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.282|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.216|0.348|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.348|0.216|<0.0001
92362811|NCT02949011|184629141|SUPERIORITY|||||||0.5923||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||72 hours||||0.5923
92362812|NCT02949011|184629141|SUPERIORITY|||||||0.0064||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||96 hours||||0.0064
92362813|NCT02949011|184629141|SUPERIORITY|||||||0.6746||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||96 hours||||0.6746
92362814|NCT02949011|184629141|SUPERIORITY|||||||0.8167||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||120 hours||||0.8167
92362815|NCT02949011|184629141|SUPERIORITY|||||||0.3773||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||120 hours||||0.3773
92362816|NCT02949011|184629141|SUPERIORITY|||||||0.1041||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||144 hours||||0.1041
92403174|NCT05179785|184697647|OTHER|||||||0.21582586|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.21582586
92403175|NCT05179785|184697647|OTHER|||||||0.59574875|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.59574875
92403176|NCT05179785|184697647|OTHER|||||||0.75948776|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.75948776
92403177|NCT05179785|184697647|OTHER|||||||0.7238414|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.72384140
92403178|NCT05179785|184697647|OTHER|||||||0.00477281|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.00477281
92403179|NCT05179785|184697648|OTHER|||||||0.20047055|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.20047055
92403180|NCT05179785|184697648|OTHER|||||||0.77922802|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.77922802
92403181|NCT05179785|184697648|OTHER|||||||0.29196708|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.29196708
92165865|NCT01040689|184220389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.303|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.237|0.368|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.368|0.237|<0.0001
92403182|NCT05179785|184697648|OTHER|||||||0.05605962|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.05605962
92165866|NCT01040689|184220389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.276|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.21|0.342|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.342|0.210|<0.0001
92165867|NCT01040689|184220390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.131|0.262|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.262|0.131|<0.0001
92165868|NCT01040689|184220390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.252|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.187|0.318|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.318|0.187|<0.0001
92403183|NCT05179785|184697648|OTHER|||||||0.57368284|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.57368284
92362817|NCT02949011|184629141|SUPERIORITY|||||||0.3328||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||144 hours||||0.3328
92362818|NCT02949011|184629141|SUPERIORITY|||||||0.7867||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||168 hours||||0.7867
92362819|NCT02949011|184629141|SUPERIORITY|||||||0.864||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||168 hours||||0.8640
92403184|NCT05179785|184697648|OTHER|||||||0.56397238|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.56397238
92403185|NCT05179785|184697649|OTHER|||||||0.86107891|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.86107891
92362820|NCT02949011|184629141|SUPERIORITY|||||||0.6465||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||192 hours||||0.6465
92362821|NCT02949011|184629141|SUPERIORITY|||||||0.4265||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||192 hours||||0.4265
92403186|NCT05179785|184697649|OTHER|||||||0.62228799|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.62228799
92362822|NCT02949011|184629141|SUPERIORITY|||||||0.6568||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||216 hours||||0.6568
92362823|NCT02949011|184629141|SUPERIORITY|||||||0.6102||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||216 hours||||0.6102
92362824|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.07||0.0408|TWO_SIDED|95.0|-0.28|-0.01||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||12 hours||-0.01|-0.28|0.0408
92362825|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.5324|TWO_SIDED|95.0|-0.18|0.09||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||12 hours||0.09|-0.18|0.5324
92403187|NCT05179785|184697649|OTHER|||||||0.79477883|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.79477883
92403188|NCT05179785|184697649|OTHER|||||||0.12634435|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.12634435
92403189|NCT05179785|184697649|OTHER|||||||0.79477883|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.79477883
92403190|NCT05179785|184697649|OTHER|||||||0.12634435|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.12634435
92165869|NCT01040689|184220390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.118|0.249|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.249|0.118|<0.0001
92165870|NCT01040689|184220391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.178|0.301|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.301|0.178|<0.0001
92362826|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.06||0.0025|TWO_SIDED|95.0|-0.3|-0.06||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||24 hours||-0.06|-0.30|0.0025
92362827|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.4874|TWO_SIDED|95.0|-0.08|0.16||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||24 hours||0.16|-0.08|0.4874
92362828|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.47|-0.24||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||36 hours||-0.24|-0.47|<0.0001
92362829|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.06||0.5414|TWO_SIDED|95.0|-0.15|0.08||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||36 hours||0.08|-0.15|0.5414
92362830|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.44|-0.22||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||48 hours||-0.22|-0.44|<0.0001
92362831|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.3185|TWO_SIDED|95.0|-0.17|0.05||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||48 hours||0.05|-0.17|0.3185
92362832|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.05||0.0025|TWO_SIDED|95.0|-0.26|-0.06||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||72 hours||-0.06|-0.26|0.0025
92403191|NCT05179785|184697649|OTHER|||||||0.62461968|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.62461968
92165871|NCT01040689|184220391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.216|0.339|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.339|0.216|<0.0001
92224302|NCT00511355|184349990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0078||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0078
92224303|NCT00511355|184349991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0016
92362833|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8299|TWO_SIDED|95.0|-0.09|0.11||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||72 hours||0.11|-0.09|0.8299
92362834|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.0878|TWO_SIDED|95.0|-0.19|0.01||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||96 hours||0.01|-0.19|0.0878
92362835|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.7498|TWO_SIDED|95.0|-0.09|0.12||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||96 hours||0.12|-0.09|0.7498
92362836|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.803|TWO_SIDED|95.0|-0.11|0.09||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||120 hours||0.09|-0.11|0.8030
92362837|NCT02949011|184629142|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.3577|TWO_SIDED|95.0|-0.05|0.15||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||120 hours||0.15|-0.05|0.3577
92362838|NCT02949011|184629143|SUPERIORITY||Median Difference|-23.1||||0.0009||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Cough||||0.0009
92362839|NCT02949011|184629143|SUPERIORITY||Median Difference|-0.2||||0.4074||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Cough||||0.4074
92362840|NCT02949011|184629143|SUPERIORITY||Median Difference|-6.3||||0.2496||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Sore Throat||||0.2496
92403192|NCT05179785|184697649|OTHER|||||||0.51324793|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.51324793
92403193|NCT05179785|184697649|OTHER|||||||0.60543603|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.60543603
92403194|NCT05179785|184697649|OTHER|||||||0.75565448|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.75565448
92165872|NCT01040689|184220391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.168|0.291|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.291|0.168|<0.0001
92165873|NCT01040689|184220392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.268|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.207|0.33|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.330|0.207|<0.0001
92165874|NCT01040689|184220392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.312|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.251|0.374|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.374|0.251|<0.0001
92362841|NCT02949011|184629143|SUPERIORITY||Median Difference|0.9||||0.2963||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Sore Throat||||0.2963
92362842|NCT02949011|184629143|SUPERIORITY||Median Difference|-10.6||||0.039||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Headache||||0.0390
92403195|NCT05179785|184697649|OTHER|||||||0.60543603|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.60543603
92403196|NCT05179785|184697649|OTHER|||||||0.75565448|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.75565448
92403197|NCT05179785|184697650|OTHER|||||||0.09266386|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.09266386
92403198|NCT05179785|184697650|OTHER|||||||0.53980185|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.53980185
92224304|NCT00511355|184349992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0003
92403199|NCT05179785|184697650|OTHER|||||||0.30223686|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.30223686
92224305|NCT00511355|184349993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0009
92224306|NCT00511355|184349994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0024||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0024
92224307|NCT00511355|184349995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3653||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.3653
92403200|NCT05179785|184697650|OTHER|||||||0.39166649|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.39166649
92403201|NCT05179785|184697650|OTHER|||||||0.30223686|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.30223686
92403202|NCT05179785|184697650|OTHER|||||||0.39166649|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.39166649
92403203|NCT05179785|184697651|OTHER|||||||0.0265|||||||t-test, 2 sided|||Paired t-test (post versus pre)||||0.0265
92403204|NCT05179785|184697651|OTHER|||||||0.1053|||||||t-test, 2 sided|||Paired t-test (post versus pre)||||0.1053
92403205|NCT05179785|184697651|OTHER|||||||0.0033|||||||t-test, 2 sided|||Paired t-test (post versus pre)||||0.0033
92403206|NCT02105740|184697658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.67|STANDARD_DEVIATION|1.178||0.034|TWO_SIDED|95.0|0.224|5.11|||ANOVA|||The clinical significance was considered with a difference of 3 points on the Visual Analogue Scale (VAS) for both arms with a statistical power of 95%, significance level of 5%. Statistical analysis first compared the difference of means between hypnosis and control groups during three weeks.||5.110|0.224|0.034
92403207|NCT02105740|184697658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.66|STANDARD_DEVIATION|0.856||0.004|TWO_SIDED|95.0|1.253|6.08|||ANOVA|||The clinical significance was considered with a difference of 3 points on the Visual Analogue Scale (VAS) with a statistical power of 95%, significance level of 5%. Statistical analysis compared the difference in pain average between the first and the second week in the hypnosis group.||6.080|1.253|0.004
92403208|NCT02105740|184697658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.25|STANDARD_DEVIATION|0.827||0|TWO_SIDED|95.0|2.918|7.582|||ANOVA|||The clinical significance was considered with a difference of 3 points on the Visual Analogue Scale (VAS) with a statistical power of 95%, significance level of 5%. Statistical analysis compared the difference in pain average between the first and the third week in the hypnosis group.||7.582|2.918|0.000
92403209|NCT02105740|184697659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|||||TWO_SIDED|||||||||Statistical analysis evaluated if the difference of averages of anxiety at the hypnosis and control groups in the third week.||||
92403210|NCT02105740|184697659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|||||TWO_SIDED|||||||||Statistical analysis evaluated if the difference of averages of depression at the hypnosis and control groups in the third week.||||
92403211|NCT03431259|184697663|SUPERIORITY|||||||0.0574|||||||Chi-squared|||||||.0574
92403212|NCT03431259|184697663|SUPERIORITY|||||||0.57|||||||Chi-squared|||||||0.570
92403213|NCT01075243|184697668|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.71||||0.0009|TWO_SIDED|95.0|1.53|5.89|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 1000 mg caplet and Paracetamol 650 mg caplet.||5.89|1.53|0.0009
92403214|NCT01075243|184697668|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|11.33|||<|0.0001|TWO_SIDED|95.0|8.66|14.0|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 1000 mg caplet and placebo caplet.||14.00|8.66|<0.0001
92403215|NCT01075243|184697668|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.63|||<|0.0001||95.0|4.94|10.31|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 650 mg caplet and placebo caplet.||10.31|4.94|<0.0001
92165875|NCT01040689|184220392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.153|0.277|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.277|0.153|<0.0001
92224308|NCT00511355|184349996|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
92224309|NCT00511355|184349997|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
92403216|NCT00627393|184697683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.73|TWO_SIDED|95.0|0.44|3.2|||Regression, Logistic|Ordinary multiple logistic regression including treatment arm, infection strata, underlying disease, zubrod score, respiratory symptoms, and age.|Control group is the reference group. Model adjusted for infection strata, underlying disease, zubrod score, respiratory symptoms, and age.|||3.20|0.44|0.73
92403217|NCT00627393|184697686|SUPERIORITY_OR_OTHER||Log Rank P-Value|0.43||||0.43|TWO_SIDED|||||Competing risks analysis for time to GVHD for subjects with allogeneic HST. The sample size was very small (n=7 in the granulocyte group, and n=8 in the control group).|Competing Risks|||||||0.43
92403218|NCT00627393|184697691|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.293|STANDARD_ERROR_OF_MEAN|0.25885||0.35|TWO_SIDED|95.0|0.778|2.147|||Log Rank|Log-rank test to compare survival distributions between the control group and treatment group.|The control group is considered the reference group.|||2.147|0.778|0.35
92165876|NCT01040689|184220393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.317|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.246|0.388|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.388|0.246|<0.0001
92403219|NCT00551642|184697697|OTHER||Odds Ratio (OR)|1.05||||0.734|TWO_SIDED||||||Wald Chi-square|||||||0.7340
92403220|NCT03337308|184697700|SUPERIORITY||Difference of Least Squares (LS) means|-38.0|STANDARD_ERROR_OF_MEAN|4.32|<|0.001|TWO_SIDED|95.0|-46.5|-29.6|||ANCOVA||Standard Error of the Difference of Least Squares (LS) Means|||-29.6|-46.5|<0.001
92403221|NCT03337308|184697700|SUPERIORITY||Difference of LS means|-19.0|STANDARD_ERROR_OF_MEAN|3.6|<|0.001|TWO_SIDED|95.0|-26.1|-11.9|||ANCOVA||Standard Error of the Difference of LS Means|||-11.9|-26.1|<0.001
92403222|NCT03337308|184697700|SUPERIORITY||Difference of LS means|-13.1|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-19.7|-6.5|||ANCOVA||Standard Error of the Difference of LS Means|||-6.5|-19.7|<0.001
92403223|NCT03337308|184697701|SUPERIORITY||Location shift|-46.1|STANDARD_ERROR_OF_MEAN|12.22|<|0.001|TWO_SIDED|99.0|-78.75|-15.78||using alpha = 0.01|Wilcoxon rank sum test||Standard Error of the Hodges-Lehmann Median Difference|||-15.78|-78.75|<0.001
92403224|NCT03337308|184697701|SUPERIORITY||Median Difference (Final Values)|-25.6|STANDARD_ERROR_OF_MEAN|8.14||0.002|TWO_SIDED|98.0|-45.0|-7.15||using alpha = 0.02|Wilcoxon rank sum test||Standard Error of the Hodges-Lehmann Median Difference|||-7.15|-45.00|0.002
92403225|NCT03337308|184697701|SUPERIORITY||Median Difference (Final Values)|-2.6|STANDARD_ERROR_OF_MEAN|8.08||0.734|TWO_SIDED|98.0|-21.35|16.25||using alpha = 0.02|Wilcoxon rank sum test||Standard Error of the Hodges-Lehmann Median Difference|||16.25|-21.35|0.734
92403226|NCT03337308|184697702|SUPERIORITY|using alpha = 0.01|Difference in LS mean|-33.7|STANDARD_ERROR_OF_MEAN|3.97|<|0.001|TWO_SIDED|99.0|-43.9|-23.4|||ANCOVA||Standard Error of the Difference of LS Means|||-23.4|-43.9|<0.001
92362843|NCT02949011|184629143|SUPERIORITY||Median Difference|2.0||||0.7877||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Headache||||0.7877
92224310|NCT00511355|184349998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5668||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.5668
92224311|NCT00511355|184349999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.177||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.1770
92362844|NCT02949011|184629143|SUPERIORITY||Median Difference|-12.1||||0.0017||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Nasal Congestion||||0.0017
92362845|NCT02949011|184629143|SUPERIORITY||Median Difference|1.5||||0.8119||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Nasal Congestion||||0.8119
92362846|NCT02949011|184629143|SUPERIORITY||Median Difference|-3.6||||0.007||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Feverishness or Chills||||0.0070
92362847|NCT02949011|184629143|SUPERIORITY||Median Difference|-0.7||||0.9191||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Feverishness or Chills||||0.9191
92362848|NCT02949011|184629143|SUPERIORITY||Median Difference|-7.7||||0.0232||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Muscle or Joint Pain||||0.0232
92362849|NCT02949011|184629143|SUPERIORITY||Median Difference|4.0||||0.5436||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Muscle or Joint Pain||||0.5436
92362850|NCT02949011|184629143|SUPERIORITY||Median Difference|-7.5||||0.0207||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Fatigue||||0.0207
92362851|NCT02949011|184629143|SUPERIORITY||Median Difference|-1.9||||0.371||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Fatigue||||0.3710
92362852|NCT02949011|184629144|SUPERIORITY||Median Difference|-23.4||||0.4634||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.4634
92362853|NCT02949011|184629144|SUPERIORITY||Median Difference|-0.6||||0.6386||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.6386
92362854|NCT02949011|184629145|SUPERIORITY|||||||0.0112||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||||||0.0112
92362855|NCT02949011|184629145|SUPERIORITY|||||||0.8478||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||||||0.8478
92362856|NCT02949011|184629146|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||Any Complications||||<0.0001
92362857|NCT02949011|184629146|SUPERIORITY|||||||0.2558||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||Any Complications||||0.2558
92403227|NCT03337308|184697702|SUPERIORITY||Difference in LS means|-17.8|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|98.0|-25.1|-10.5||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-10.5|-25.1|<0.001
92403228|NCT03337308|184697702|SUPERIORITY||Difference in LS means|-12.1|STANDARD_ERROR_OF_MEAN|3.03|<|0.001|TWO_SIDED|98.0|-19.1|-5.0||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-5.0|-19.1|<0.001
92403229|NCT03337308|184697703|SUPERIORITY||Difference of LS means|-27.1|STANDARD_ERROR_OF_MEAN|3.11|<|0.001|TWO_SIDED|99.0|-35.1|-19.1||using alpha = 0.01|ANCOVA||Standard Error of the Difference of LS Means|||-19.1|-35.1|<0.001
92224312|NCT00511355|184350000|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
92224313|NCT00217087|184350027|SUPERIORITY_OR_OTHER|||||||0.0098|TWO_SIDED||||||Fisher Exact|||||||0.0098
92224314|NCT00217087|184350028|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Chi-squared|||||||0.34
92362858|NCT00163189|184629149|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Student's paired t-test|||Month 36||||<0.001
92403230|NCT03337308|184697703|SUPERIORITY||Difference of LS means|-14.2|STANDARD_ERROR_OF_MEAN|2.64|<|0.001|TWO_SIDED|98.0|-20.4|-8.1||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-8.1|-20.4|<0.001
92403231|NCT03337308|184697703|SUPERIORITY||Difference of LS means|-10.4|STANDARD_ERROR_OF_MEAN|2.48|<|0.001|TWO_SIDED|98.0|-16.1|-4.6||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-4.6|-16.1|<0.001
92224315|NCT00217087|184350029|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Chi-squared|the only participant who reported a decrease quality of life related that to a recent surgery not their esophagus.||||||0.2
92362859|NCT00163189|184629150|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|||||||Student's paired t-test|||Month 36||||0.008
92362860|NCT01170663|184629168|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.807||||0.0169|TWO_SIDED|95.0|0.678|0.962|||Stratified Log Rank Test|Adjusted for stratification factors: geographic region, time-to-progression from start of first-line therapy and disease measurability.||||0.962|0.678|0.0169
92362861|NCT01170663|184629169|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.635|||<|0.0001|TWO_SIDED|95.0|0.536|0.752|||Stratified Log Rank Test|Adjusted for stratification factors: geographic region, time-to-progression from start of first-line therapy and disease measurability.||||0.752|0.536|<0.0001
92362862|NCT01170663|184629170|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.596|||<|0.0001|TWO_SIDED|95.0|0.494|0.72|||Stratified Log Rank Test|Adjusted for stratification factors: geographic region, time-to-progression from start of first-line therapy and disease measurability.||||0.720|0.494|<0.0001
92224316|NCT00802685|184350030|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.0|STANDARD_DEVIATION|8.0||0.858|TWO_SIDED|95.0|4.0|36.0|||Wilcoxon (Mann-Whitney)|||Null hypothesis: Oxygen duration (days) during the first 28 days will be equal between treatment arms.||36|4|0.858
92224317|NCT00802685|184350031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.953||||0.8|TWO_SIDED|95.0|0.393|2.309|||Cochran-Mantel-Haenszel|||null hypothesis: The proportion of subjects on O2 at 36 wk PMA will be equal between treatment arms.||2.309|0.393|0.8
92224318|NCT03208231|184350035|SUPERIORITY|||||||0.79|||||||Fisher Exact|||||||0.79
92224319|NCT03208231|184350036|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
92362863|NCT01170663|184629172|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.14||||0.0001|TWO_SIDED|95.0|1.45|3.16|||Cochran-Mantel-Haenszel|Adjusted for stratification factors: geographic region, time-to-progression from the start of first-line therapy and disease measurability.||||3.16|1.45|0.0001
92362864|NCT01170663|184629180|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3973||||||Analysis of covariance (ANCOVA) included treatment group, randomization stratification factors and baseline value of Global Health Status scale.|ANCOVA|||||||0.3973
92362865|NCT01008618|184629192|SUPERIORITY_OR_OTHER|||||||0.0846|||||||Log Rank|||||||0.0846
92362866|NCT01128569|184629227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|||||TWO_SIDED|95.0|0.087|0.237||||||||0.237|0.087|
92362867|NCT01128569|184629227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|||||TWO_SIDED|95.0|0.069|0.222||||||||0.222|0.069|
92362868|NCT01128569|184629227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.017|||||TWO_SIDED|95.0|-0.091|0.057||||||||0.057|-0.091|
92403232|NCT03337308|184697704|SUPERIORITY||Difference of LS means|-30.1|STANDARD_ERROR_OF_MEAN|3.81|<|0.001|TWO_SIDED|99.0|-39.9|-20.3||using alpha = 0.01|ANCOVA||Standard Error of the Difference of LS Means|||-20.3|-39.9|<0.001
92403233|NCT03337308|184697704|SUPERIORITY||Difference of LS means|-12.8|STANDARD_ERROR_OF_MEAN|3.23|<|0.001|TWO_SIDED|98.0|-20.3|-5.3||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-5.3|-20.3|<0.001
92403234|NCT03337308|184697704|SUPERIORITY||Difference of LS means|-9.3|STANDARD_ERROR_OF_MEAN|3.09||0.003|TWO_SIDED|98.0|-16.5|-2.1||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-2.1|-16.5|0.003
92403235|NCT01294553|184697718|SUPERIORITY_OR_OTHER||Percentage of participants|15.4|||||TWO_SIDED|95.0|12.8|18.1|||||The estimated value represents the percentage of participants with an adverse event.|||18.1|12.8|
92403236|NCT03994081|184697730|SUPERIORITY|||||||0.332|||||||t-test, 2 sided|||||||0.332
92403237|NCT03994081|184697731|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.790
92403238|NCT03994081|184697732|SUPERIORITY|||||||0.464|||||||Pearson's correlation|||||||0.464
92403239|NCT03994081|184697732|SUPERIORITY|||||||0.765|||||||Pearson's correlation|||||||0.765
92403240|NCT03994081|184697733|SUPERIORITY|||||||0.072|||||||Pearson's correlation|||||||0.072
92403241|NCT03994081|184697733|SUPERIORITY|||||||0.811|||||||Pearson's correlation|||||||0.811
92403242|NCT01903460|184697742|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-40.707||||0.574|TWO_SIDED|95.0|-191.679|110.265|||ANCOVA|||Analysis of LUM001 140ug/kg/day||110.265|-191.679|0.5740
92403243|NCT01903460|184697742|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-7.231||||0.9147|TWO_SIDED|95.0|-148.726|134.264|||ANCOVA|||Analysis of LUM001 280ug/kg/day||134.264|-148.726|0.9147
92403244|NCT01903460|184697742|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-23.969||||0.6954|TWO_SIDED|95.0|-151.969|104.031|||ANCOVA|||Analysis of all doses of LUM001||104.031|-151.969|0.6954
92362869|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction.|see above|-0.21||||0.92|TWO_SIDED|95.0|-4.48|4.05|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||Data below is for FACT-B 3 month Total Score||4.05|-4.48|0.92
92165877|NCT01040689|184220393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.318|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.247|0.388|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.388|0.247|<0.0001
92165878|NCT01040689|184220393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.231|0.373|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.373|0.231|<0.0001
92224320|NCT01328951|184350085|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.8183|TWO_SIDED|95.0|0.85|1.22|||Log Rank||The HR and 95% confidence interval (CI) were estimated by Cox regression.|Unstratified Analysis.||1.22|0.85|0.8183
92224321|NCT01328951|184350085|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.5256|TWO_SIDED|95.0|0.87|1.32|||Log Rank||The HR and 95% CI were estimated by Cox regression.|Stratified Analysis: Stratified according to tumor histology, stage of disease, objective response at Baseline, bevacizumab use, smoking status, and region of enrollment.||1.32|0.87|0.5256
92224322|NCT01328951|184350086|SUPERIORITY_OR_OTHER||Difference in Event-Free Rate|-0.4||||0.9207|TWO_SIDED|95.0|-8.25|7.45|||Chi-squared|||||7.45|-8.25|0.9207
92224323|NCT01328951|184350088|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.4759|TWO_SIDED|95.0|0.8|1.11|||Log Rank||The HR and 95% CI were estimated by Cox regression.|Unstratified Analysis.||1.11|0.80|0.4759
92224324|NCT01328951|184350088|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1635|TWO_SIDED|95.0|0.72|1.06|||Log Rank||The HR and 95% CI were estimated by Cox regression.|Stratified Analysis: Stratified according to tumor histology, stage of disease, objective response at Baseline, bevacizumab use, smoking status, and region of enrollment.||1.06|0.72|0.1635
92362870|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction.|see above|1.37||||0.57|TWO_SIDED|95.0|-3.41|6.15|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for FACT-B 6 month Total Score||6.15|-3.41|0.57
92362871|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|1.18||||0.62|TWO_SIDED|95.0|-3.54|5.89|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is for the Fact-B 12 month Total Score||5.89|-3.54|0.62
92362872|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction.|see above|0.12||||0.83|TWO_SIDED|95.0|-0.99|1.23|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 3 month Physical Well-Being Subscale||1.23|-0.99|0.83
92362873|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.15||||0.82|TWO_SIDED|95.0|-1.15|1.45|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||Data below is for the Fact-B 6 month Physical Well-Being Subscale||1.45|-1.15|0.82
92362874|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.13||||0.84|TWO_SIDED|95.0|-1.41|1.15|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||Data below is for the Fact-B 12 month Physical Well-Being Subscale||1.15|-1.41|0.84
92362875|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.17||||0.77|TWO_SIDED|95.0|-1.31|0.96|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 3 month Social/Family Well-Being Subscale||0.96|-1.31|0.77
92403245|NCT01903460|184697743|SUPERIORITY_OR_OTHER||LS mean difference from placebo|56.7||||0.0783|TWO_SIDED|95.0|-7.2|120.6|||ANCOVA|||Analysis of LUM001 140ug/kg/day for ALT||120.6|-7.2|0.0783
92403246|NCT01903460|184697743|SUPERIORITY_OR_OTHER||LS mean difference from placebo|7.8||||0.7827|TWO_SIDED|95.0|-51.4|67.0|||ANCOVA|||Analysis of LUM001 280ug/kg/day for ALT||67.0|-51.4|0.7827
92403247|NCT01903460|184697743|SUPERIORITY_OR_OTHER||LS mean difference from placebo|32.2||||0.2235|TWO_SIDED|95.0|-21.9|86.3|||ANCOVA|||Analysis of all doses of LUM001 for ALT||86.3|-21.9|0.2235
92403248|NCT01903460|184697743|SUPERIORITY_OR_OTHER||LS mean difference from placebo|24.0||||0.2372|TWO_SIDED|95.0|-17.5|65.5|||ANCOVA|||Analysis of LUM001 140ug/kg/day for AST||65.5|-17.5|0.2372
92403249|NCT01903460|184697743|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-15.8||||0.3914|TWO_SIDED|95.0|-54.1|22.4|||ANCOVA|||Analysis of LUM001 280ug/kg/day for AST||22.4|-54.1|0.3914
92403250|NCT01903460|184697743|SUPERIORITY_OR_OTHER||LS mean difference from placebo|4.1||||0.8081|TWO_SIDED|95.0|-31.0|39.1|||ANCOVA|||Analysis of all doses of LUM001 for AST||39.1|-31.0|0.8081
92165879|NCT01040689|184220394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.222|0.378|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.378|0.222|<0.0001
92165880|NCT01040689|184220394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.297|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.22|0.375|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.375|0.220|<0.0001
92224325|NCT01328951|184350089|SUPERIORITY_OR_OTHER||Difference in Event-Free Rate|-2.89||||0.4069|TWO_SIDED|95.0|-9.7|3.93|||Chi-squared|||||3.93|-9.70|0.4069
92362876|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.56||||0.42|TWO_SIDED|95.0|-1.91|0.79|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 6 month Social/Family Well-Being Subscale||0.79|-1.91|0.42
92362877|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.08||||0.9|TWO_SIDED|95.0|-1.41|1.24|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 12 month Social/Family Well-Being Subscale||1.24|-1.41|0.90
92362878|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.05||||0.9|TWO_SIDED|95.0|-0.76|0.87|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 3 month Emotional Well-Being Subscale||0.87|-0.76|0.90
92362879|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.58||||0.25|TWO_SIDED|95.0|-0.4|1.56|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact B 6 month Emotional Well-Being Subscale||1.56|-0.40|0.25
92362880|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.6||||0.22|TWO_SIDED|95.0|-0.36|1.57|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 12 month Emotional Well-Being Subscale||1.57|-0.36|0.22
92362881|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.14||||0.81|TWO_SIDED|95.0|-1.05|1.34|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for Fact-B 3 month Functional Well-Being Subscale||1.34|-1.05|0.81
92362882|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.54||||0.45|TWO_SIDED|95.0|-0.85|1.94|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for Fact-B 6 month Functional Well-Being Subscale||1.94|-0.85|0.45
92362883|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.11||||0.87|TWO_SIDED|95.0|-1.48|1.26|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 12 month Functional Well-Being Subscale||1.26|-1.48|0.87
92362884|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.16||||0.8|TWO_SIDED|95.0|-1.13|1.45|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 3 month Breast Cancer Subscale||1.45|-1.13|0.80
92403251|NCT01903460|184697743|SUPERIORITY_OR_OTHER||LS mean difference from placebo|51.7||||0.5748|TWO_SIDED|95.0|-140.3|243.7|||ANCOVA|||Analysis of LUM001 140ug/kg/day for ALP||243.7|-140.3|0.5748
92403252|NCT01903460|184697743|SUPERIORITY_OR_OTHER||LS mean difference from placebo|11.9||||0.8835|TWO_SIDED|95.0|-158.4|182.2|||ANCOVA|||Analysis of LUM001 280ug/kg/day for ALP||182.2|-158.4|0.8835
92165881|NCT01040689|184220394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.295|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.217|0.373|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.373|0.217|<0.0001
92165882|NCT01040689|184220395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.115|0.255|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.255|0.115|<0.0001
92403253|NCT01903460|184697743|SUPERIORITY_OR_OTHER||LS mean difference from placebo|31.8||||0.6917|TWO_SIDED|95.0|-135.8|199.4|||ANCOVA|||Analysis of all doses of LUM001 for ALP||199.4|-135.8|0.6917
92403254|NCT01903460|184697744|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-0.348||||0.6907|TWO_SIDED|95.0|-2.468|1.772|||ANCOVA|||Analysis of LUM001 140ug/kg/day for Patient ItchRO||1.772|-2.468|0.6907
92403255|NCT01903460|184697744|SUPERIORITY_OR_OTHER||LS mean difference from placebo|0.202||||0.7897|TWO_SIDED|95.0|-1.647|2.052|||ANCOVA|||Analysis of LUM001 280ug/kg/day for Patient ItchRO||2.052|-1.647|0.7897
92403256|NCT01903460|184697744|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-0.073||||0.9203|TWO_SIDED|95.0|-1.85|1.705|||ANCOVA|||Analysis of all doses of LUM001 for Patient ItchRO||1.705|-1.850|0.9203
92165883|NCT01040689|184220395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.143|0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.282|0.143|<0.0001
92276801|NCT01271933|184455252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|4.1||0.74|TWO_SIDED|95.0|-9.5|6.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Physical Functioning||6.8|-9.5|0.7400
92362885|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.73||||0.35|TWO_SIDED|95.0|-0.79|2.24|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 6 month Breast Cancer Subscale||2.24|-0.79|0.35
92362886|NCT02941614|184629239|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.6||||0.42|TWO_SIDED|95.0|-0.88|2.09|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 12 month Breast Cancer Subscale||2.09|-0.88|0.42
92362887|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction.|see above|-0.03||||0.59|TWO_SIDED|95.0|-0.15|0.09||We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects|Mixed Models Analysis|||Data below is for the BCPT survey 3 month Total Score.||0.09|-0.15|0.59
92362888|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.05||||0.47|TWO_SIDED|95.0|-0.09|0.19|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Total Score||0.19|-0.09|0.47
92362889|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.06||||0.37|TWO_SIDED|95.0|-0.2|0.07|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Total Score||0.07|-0.20|0.37
92362890|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.05||||0.65|TWO_SIDED|95.0|-0.26|0.17|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Hot Flashes Sub-Scale||0.17|-0.26|0.65
92362891|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.08||||0.54|TWO_SIDED|95.0|-0.17|0.33|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Hot Flashes Sub-Scale||0.33|-0.17|0.54
92362892|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.02||||0.87|TWO_SIDED|95.0|-0.27|0.22|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Hot Flashes Sub-Scale||0.22|-0.27|0.87
92362893|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.06||||0.32|TWO_SIDED|95.0|-0.17|0.06|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Nausea Sub-Scale||0.06|-0.17|0.32
92362894|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.0||||0.96|TWO_SIDED|95.0|-0.15|0.14|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Nausea Sub-Scale||0.14|-0.15|0.96
92403257|NCT01903460|184697744|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-0.21||||0.5966|TWO_SIDED|95.0|-1.038|0.618|||ANCOVA|||Analysis of LUM001 140ug/kg/day for Observer ItchRO||0.618|-1.038|0.5966
92403258|NCT01903460|184697744|SUPERIORITY_OR_OTHER||LS mean difference from placebo|0.173||||0.632|TWO_SIDED|95.0|-0.58|0.926|||ANCOVA|||Analysis of LUM001 280ug/kg/day for Observer ItchRO||0.926|-0.580|0.6320
92403259|NCT01903460|184697744|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-0.019||||0.9547|TWO_SIDED|95.0|-0.71|0.673|||ANCOVA|||Analysis of all doses of LUM001 for Observer ItchRO||0.673|-0.710|0.9547
92403260|NCT02059278|184697763|EQUIVALENCE|Analysis at 8 am on Day 15|Mean Difference (Final Values)|0.781||||0.0091|TWO_SIDED|95.0|0.195|1.366|||ANCOVA||ANCOVA on change from baseline at 8 am on Day 15|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.366|0.195|0.0091
92403261|NCT02059278|184697763|EQUIVALENCE|Analysis at 10 am on Day 15|Mean Difference (Final Values)|0.664||||0.0098|TWO_SIDED|95.0|0.161|1.167|||ANCOVA||ANCOVA on change from baseline at 10 am on Day 15|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.167|0.161|0.0098
92362895|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.07||||0.32|TWO_SIDED|95.0|-0.21|0.07|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Nausea Sub-Scale||0.07|-0.21|0.32
92362896|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.07||||0.44|TWO_SIDED|95.0|-0.24|0.11|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Bladder Control Sub-Scale||0.11|-0.24|0.44
92362897|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.09||||0.38|TWO_SIDED|95.0|-0.11|0.3|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Bladder Control Sub-Scale||0.30|-0.11|0.38
92362898|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.07||||0.47|TWO_SIDED|95.0|-0.28|0.13|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is for the BCPT survey 12 month Bladder Control Sub-Scale||0.13|-0.28|0.47
92362899|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.17||||0.13|TWO_SIDED|95.0|-0.39|0.05|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Vaginal Problems Sub-Scale||0.05|-0.39|0.13
92362900|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.29||||0.03|TWO_SIDED|95.0|-0.55|-0.02|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Vaginal Problems Sub-Scale||-0.02|-0.55|0.03
92362901|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.19||||0.14|TWO_SIDED|95.0|-0.45|0.06|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Vaginal Problems Sub-Scale||0.06|-0.45|0.14
92362902|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.07||||0.53|TWO_SIDED|95.0|-0.14|0.28|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Musculoskeletal Pain Sub-Scale||0.28|-0.14|0.53
92403262|NCT02059278|184697763|EQUIVALENCE|Analysis at 4 pm on Day 15|Mean Difference (Final Values)|0.542||||0.0398|TWO_SIDED|95.0|0.025|1.058|||ANCOVA||ANCOVA on change from baseline at 4 pm on Day 15|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.058|0.025|0.0398
92403263|NCT02059278|184697763|EQUIVALENCE|Analysis at 8 am on Day 42|Mean Difference (Final Values)|0.478||||0.1008|TWO_SIDED|95.0|-0.093|1.05|||ANCOVA||ANCOVA on change from baseline at 8 am on Day 42|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.050|-0.093|0.1008
92165884|NCT01040689|184220395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.036||0.0003||95.0|0.059|0.199|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.199|0.059|0.0003
92403264|NCT02059278|184697763|EQUIVALENCE|Analysis at 10 am on Day 42|Mean Difference (Final Values)|0.505||||0.0558|TWO_SIDED|95.0|-0.013|1.024|||ANCOVA||ANCOVA on change from baseline at 10 am on Day 42|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.024|-0.013|0.0558
92362903|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.1||||0.47|TWO_SIDED|95.0|-0.16|0.35|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Musculoskeletal Pain Sub-Scale||0.35|-0.16|0.47
92362904|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.07||||0.57|TWO_SIDED|95.0|-0.18|0.33|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Musculoskeletal Pain Sub-Scale||0.33|-0.18|0.57
92403265|NCT02059278|184697763|EQUIVALENCE|Analysis at 4 pm on Day 42|Mean Difference (Final Values)|0.538||||0.0491|TWO_SIDED|95.0|0.002|1.074|||ANCOVA||ANCOVA on change from baseline at 4 pm on Day 42|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.074|0.002|0.0491
92403266|NCT02059278|184697763|EQUIVALENCE|Analysis at 8 am on Day 84|Mean Difference (Final Values)|0.808||||0.0025|TWO_SIDED|95.0|0.286|1.329|||ANCOVA||ANCOVA on change from baseline at 8 am on Day 84|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.329|0.286|0.0025
92224326|NCT01328951|184350090|SUPERIORITY_OR_OTHER||Difference in Response Rate|2.78||||0.1097|TWO_SIDED|95.0|-0.78|6.35|||Chi-squared||The 95% CI for difference in response rates was constructed using the Anderson-Hauck method.|||6.35|-0.78|0.1097
92224327|NCT01328951|184350090|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|0.87|3.72|||||The 95% CI for OR was constructed using the Wald method.|||3.72|0.87|
92224328|NCT01328951|184350092|SUPERIORITY_OR_OTHER||Difference in Response Rate|1.99||||0.6062|TWO_SIDED|95.0|-5.74|9.72|||Chi-squared||The 95% CI for difference in response rates was constructed using the Anderson-Hauck method.|||9.72|-5.74|0.6062
92403267|NCT02059278|184697763|EQUIVALENCE|Analysis at 10 am on Day 84|Mean Difference (Final Values)|0.627||||0.0113|TWO_SIDED|95.0|0.143|1.111|||ANCOVA||ANCOVA on change from baseline at 10 am on Day 84|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.111|0.143|0.0113
92403268|NCT02059278|184697763|EQUIVALENCE|Analysis at 4 pm on Day 84|Mean Difference (Final Values)|0.456||||0.0649|TWO_SIDED|95.0|-0.063|0.975|||ANCOVA||ANCOVA on change from baseline at 4 pm on Day 84|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||0.975|-0.063|0.0649
92403269|NCT00829426|184697789|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% Confidence Interval falls withi 80-125.|Geometric Test/Ref Ratio x 100|102.56|||||TWO_SIDED|90.0|98.74|106.52|||||Bioequivalence is established when 90% Confidence Interval falls withi 80-125.|||106.52|98.74|
92403270|NCT00829426|184697790|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on each of the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|92.88||||||90.0|90.34|95.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||95.48|90.34|
92403271|NCT00829426|184697791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on each of the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|93.92||||||90.0|91.47|96.44|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||96.44|91.47|
92403272|NCT02628873|184697792|EQUIVALENCE|Degree of agreement between the 2 Assessors|Degree of agreement / Kappa|0.48|||<|0.01|TWO_SIDED||||||Kappa|||||||< 0.01
92403273|NCT02628873|184697793|SUPERIORITY|T-test to determine whether one method had greater reported pain|Mean Difference (Final Values)|-0.925|STANDARD_DEVIATION|2.71|<|0.3|TWO_SIDED|95.0|-2.69|1.0|||t-test, 2 sided|||||1.00|-2.69|< 0.30
92403274|NCT02628873|184697794|SUPERIORITY||Mean Difference (Final Values)|-0.431|STANDARD_DEVIATION|2.76|<|0.67|TWO_SIDED|95.0|-2.4|1.56|||t-test, 2 sided|Paired t-test (pre-procedure versus post-procedure)||||1.56|-2.40|< 0.67
92224329|NCT01328951|184350092|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09|||||TWO_SIDED|95.0|0.79|1.49|||||The 95% CI for OR was constructed using the Wald method.|||1.49|0.79|
92224330|NCT00970853|184350093|NON_INFERIORITY_OR_EQUIVALENCE|The original sample for this study (N=302) was sufficient for an 80% detection of differences in means of at least 1/2 standard deviation. This analysis presents the results of the follow-up of the original sample.||||||0.39||||||non-adjusted for multiple comparisons|t-test, 2 sided|||||||0.39
92362905|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.02||||0.85|TWO_SIDED|95.0|-0.18|0.21|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Cognitive Problems Sub-Scale||0.21|-0.18|0.85
92362906|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.1||||0.38|TWO_SIDED|95.0|-0.12|0.32|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Cognitive Problems Sub-Scale||0.32|-0.12|0.38
92362907|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.13||||0.23|TWO_SIDED|95.0|-0.35|0.09|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Cognitive Problems Sub-Scale||0.09|-0.35|0.23
92362908|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.14||||0.18|TWO_SIDED|95.0|-0.35|0.07|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Weight Problems Sub-Scale||0.07|-0.35|0.18
92403275|NCT00107653|184697815|SUPERIORITY_OR_OTHER||SVR for Study Group Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.24|-0.08||P-values are calculated based on the difference in proportion between Latino and Non-Latino White group|Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with SVR. The 95% Confidence Interval is based on normal approximation to the binomial.|SVR for Latino Versus (VS) Non-Latino White||-0.08|-0.24|<0.0001
92403276|NCT00107653|184697816|SUPERIORITY_OR_OTHER||Study Group Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.031||0.0454|TWO_SIDED|95.0|-0.12|0.0|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 4||-0.00|-0.12|0.0454
92403277|NCT00107653|184697816|SUPERIORITY_OR_OTHER||Study Group Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.041||0.0003|TWO_SIDED|95.0|-0.23|-0.07|||Normal approximation to the binomial.||The estimated value is the Difference in proportion of participants (Latino minus Non-Latino White) with virologic response. the 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 12||-0.07|-0.23|0.0003
92403278|NCT00107653|184697816|SUPERIORITY_OR_OTHER||Study Group Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.039||0.0004|TWO_SIDED|95.0|-0.22|-0.06|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 24||-0.06|-0.22|0.0004
92403279|NCT00107653|184697816|SUPERIORITY_OR_OTHER||Study Group Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.24|-0.09|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 48||-0.09|-0.24|<0.0001
92165885|NCT04147897|184220397|SUPERIORITY||Difference in Difference|1.5||||0.06|TWO_SIDED||||||adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.28|||.06
92165886|NCT04147897|184220397|SUPERIORITY||Difference-in-Difference|1.0||||0.25|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.19|||.25
92165887|NCT04147897|184220398|SUPERIORITY||difference in difference|0.7||||0.37|TWO_SIDED||||||adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.13|||0.37
92165888|NCT04147897|184220398|SUPERIORITY||Difference-in-Difference|0.6||||0.44|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.13|||.44
92165889|NCT04147897|184220399|SUPERIORITY||Difference-in-Difference|-0.4||||0.619|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: -0.07|||.619
92362909|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.12||||0.35|TWO_SIDED|95.0|-0.36|0.13|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Weight Problems Sub-Scale||0.13|-0.36|0.35
92165890|NCT04147897|184220399|SUPERIORITY||Difference-in-Difference|1.5||||0.1|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.26|||0.10
92165891|NCT04147897|184220400|SUPERIORITY||Difference-in-Difference|1.9||||0.32|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.15|||.32
92165892|NCT04147897|184220400|SUPERIORITY||Difference-in-Difference|3.0||||0.16|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.23|||0.16
92165893|NCT04147897|184220401|SUPERIORITY||Difference-in-Difference|1.1||||0.31|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.15|||.31
92165894|NCT04147897|184220401|SUPERIORITY||Difference-in-Difference|1.3||||0.28|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.17|||.28
92165895|NCT04147897|184220402|SUPERIORITY||Difference-in-Difference|0.5||||0.63|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.07|||.63
92165896|NCT04147897|184220402|SUPERIORITY||Difference-in-Difference|0.9||||0.46|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.12|||.46
92165897|NCT04147897|184220403|SUPERIORITY||Difference-in-Difference|-0.4||||0.67|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: -0.07|||0.67
92165898|NCT04147897|184220403|SUPERIORITY||Difference-in-Difference|0.7||||0.53|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.10|||0.53
92165899|NCT05797155|184220439|SUPERIORITY||Odds Ratio (OR)|1.66||||0.036|TWO_SIDED|95.0|1.04|2.67|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 1-month.||2.67|1.04|.036
92165900|NCT05797155|184220439|SUPERIORITY||Odds Ratio (OR)|1.11||||0.632|TWO_SIDED|95.0|0.72|1.72|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 3-months||1.72|0.72|.632
92165901|NCT05797155|184220440|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.08||0.437|TWO_SIDED||||||t-test, 2 sided||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the condition by time interaction).|This is a longitudinal analysis from baseline to 3-month follow-up||||.437
92224331|NCT00970853|184350094|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.99|||||||t-test, 2 sided|||||||.99
92224332|NCT00970853|184350095|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.16|||||||t-test, 2 sided|||||||0.16
92165902|NCT05797155|184220441|SUPERIORITY||Odds Ratio (OR)|1.51||||0.088|TWO_SIDED|95.0|0.94|2.42|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 1-month||2.42|0.94|.088
92165903|NCT05797155|184220441|SUPERIORITY||Odds Ratio (OR)|1.15||||0.646|TWO_SIDED|95.0|0.64|2.07|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 3-months||2.07|0.64|.646
92165904|NCT05797155|184220442|SUPERIORITY||Odds Ratio (OR)|1.77||||0.01|TWO_SIDED|95.0|1.15|2.72|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 1-month||2.72|1.15|.010
92224333|NCT00970853|184350096|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.4|||||||t-test, 2 sided|||||||.40
92165905|NCT05797155|184220442|SUPERIORITY||Odds Ratio (OR)|1.36||||0.158|TWO_SIDED|95.0|0.89|2.11|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 3-months||2.11|0.89|.158
92224334|NCT00970853|184350097|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.56|||||||t-test, 2 sided|||||||.56
92165906|NCT01350804|184220443|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79||||0.0458|TWO_SIDED|95.0|1.0|3.2|||Regression, Logistic|||||3.2|1.0|0.0458
92362910|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.12||||0.34|TWO_SIDED|95.0|-0.36|0.12|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Weight Problems Sub-Scale||0.12|-0.36|0.34
92362911|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.09||||0.22|TWO_SIDED|95.0|-0.06|0.25|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Arm Problems Sub-Scale||0.25|-0.06|0.22
92362912|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.11||||0.26|TWO_SIDED|95.0|-0.08|0.29|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Arm Problems Sub-Scale||0.29|-0.08|0.26
92362913|NCT02941614|184629240|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.09||||0.34|TWO_SIDED|95.0|-0.09|0.27|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Arm Problems Sub-Scale||0.27|-0.09|0.34
92362914|NCT02941614|184629241|OTHER||Rate Ratio|0.86||||0.006|TWO_SIDED|95.0|0.77|0.96|||Regression, Poisson|||||0.96|0.77|0.006
92362915|NCT02941614|184629242|OTHER||Rate Ratio|1.07||||0.356|TWO_SIDED|95.0|0.93|1.07|||Regression, Poisson|||||1.07|0.93|0.356
92362916|NCT02941614|184629243|OTHER||Rate Ratio|1.02||||0.919|TWO_SIDED|95.0|0.73|1.41|||Regression/Poisson|||||1.41|0.73|0.919
92403280|NCT00107653|184697816|SUPERIORITY_OR_OTHER||Study Group Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.25|-0.09|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 60||-0.09|-0.25|<0.0001
92403281|NCT00107653|184697816|SUPERIORITY_OR_OTHER||Study Group Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.24|-0.08|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 72||-0.08|-0.24|<0.0001
92403282|NCT00107653|184697817|SUPERIORITY_OR_OTHER||Study Group Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.036||0.0353|TWO_SIDED|95.0|-0.15|-0.01|||Normal approximation to the binomial.||The estimated value is the Difference in proportion of participants (Latino minus Non-Latino White) with virologic response. the 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 4||-0.01|-0.15|0.0353
92165907|NCT01350804|184220443|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.02||||0.0152|TWO_SIDED|95.0|1.1|3.5|||Regression, Logistic|||||3.5|1.1|0.0152
92165908|NCT00026312|184220455|SUPERIORITY_OR_OTHER_LEGACY||Log Rank Test Statistic|2.6803||||0.1016|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients randomized to Regimen A - RA Only and randomized to Regimen B - RA + Immunotherapy were compared using the log-rank test.||||0.1016
92165909|NCT00026312|184220456|SUPERIORITY_OR_OTHER_LEGACY||Log Rank Test Statistic|2.6176||||0.1057|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients randomized to Regimen A - RA Only and randomized to Regimen B - RA + Immunotherapy for the subgroup of patients with INSS Stage 4 disease were compared using the log-rank test.||||0.1057
92362917|NCT02941614|184629244|OTHER||Rate Ratio|1.16||||0.367|TWO_SIDED|95.0|0.84|1.62|||Regression, Poisson|||The data below applies to Emergency Department visits||1.62|0.84|0.367
92362918|NCT02941614|184629244|OTHER||Rate Ratio|0.84||||0.497|TWO_SIDED|95.0|0.51|1.38|||Regression, Poisson|||The data below applies to Urgent Care visits||1.38|0.51|0.497
92362919|NCT00856609|184629259|OTHER||Slope|-624.8||||0.01|TWO_SIDED|95.0|-901.8|-347.8|||ANCOVA|||||-347.8|-901.8|0.01
92362920|NCT00856609|184629260|OTHER||Slope|-24.0||||0.01|TWO_SIDED|95.0|-89.7|41.4|||ANCOVA|||||41.4|-89.7|0.01
92362921|NCT00856609|184629261|OTHER||Slope|-1.48||||0.05|TWO_SIDED|95.0|-3.02|0.05|||ANCOVA|||||0.05|-3.02|0.05
92362922|NCT01788943|184629262|OTHER|||||||0.037|||||||ANOVA|||||||0.037
92362923|NCT01788943|184629263|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
92362924|NCT01816295|184629264|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92362925|NCT01816295|184629265|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.1|STANDARD_ERROR_OF_MEAN|1.42|<|0.001|TWO_SIDED|99.5|1.05|9.07|||ANCOVA|||||9.07|1.05|<0.001
92362926|NCT01816295|184629266|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9|STANDARD_ERROR_OF_MEAN|1.25||0.019|TWO_SIDED|99.5|-0.59|6.45|||ANCOVA|||||6.45|-0.59|0.019
92362927|NCT01816295|184629267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.34||0.442|TWO_SIDED|95.0|-0.94|0.41|||ANCOVA|||Change from Baseline to Week 12||0.41|-0.94|0.442
92362928|NCT01816295|184629267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.905|TWO_SIDED|95.0|-0.82|0.72|||ANCOVA|||Change from Baseline to Week 36||0.72|-0.82|0.905
92165910|NCT00026312|184220459|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.0262|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||The number of courses of therapy delivered or patients randomized to Regimen B - RA + Immunotherapy and non-randomly assigned to Regimen B after halting of randomization, excluding patients with persistent disease, were compared using the Wilcoxon rank-sum test.||||0.0262
92362929|NCT00783432|184629273|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||This is the Baseline P-Value|ANOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.368
92362930|NCT00783432|184629273|SUPERIORITY_OR_OTHER|||||||0.327||95.0||||This P-Value if for Month 1|ANCOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.327
92362931|NCT00783432|184629273|SUPERIORITY_OR_OTHER|||||||0.991||95.0||||This P-Value is for Month 3|ANCOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.991
92362932|NCT00783432|184629273|SUPERIORITY_OR_OTHER|||||||0.168||95.0||||This P-Value is for Month 6|ANCOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.168
92362933|NCT00783432|184629273|SUPERIORITY_OR_OTHER|||||||0.319||95.0||||This P-Value is for Month 9|ANCOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.319
92362934|NCT00783432|184629273|SUPERIORITY_OR_OTHER|||||||0.725||||||This P-Value is for Month 12/ET|ANCOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.725
92362935|NCT00186628|184629275|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Log Rank|||||||.07
92362936|NCT01331681|184629293|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.3|||<|0.0001|TWO_SIDED|97.5|6.5|12.0||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value was below the significance level of 0.025, the fixed sequence testing did continue with the first secondary endpoint.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate.|Least square (LS) mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||12.0|6.5|<0.0001
92362937|NCT01331681|184629293|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.1|||<|0.0001|TWO_SIDED|97.5|6.3|11.8||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value was below the significance level of 0.025, the fixed sequence testing did continue with the first secondary endpoint.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate.|LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||11.8|6.3|<0.0001
92362938|NCT01331681|184629294|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|28.7|||<|0.0001|TWO_SIDED|97.5|15.8|41.6||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the second secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to gain \>= 10 letters identical in both groups||41.6|15.8|<0.0001
92403283|NCT00107653|184697818|SUPERIORITY_OR_OTHER||Study Group Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.033||0.0014|TWO_SIDED|95.0|-0.17|-0.04|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 12||-0.04|-0.17|0.0014
92403284|NCT00107653|184697820|SUPERIORITY_OR_OTHER||Study Group Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.042||0.0006|TWO_SIDED|95.0|-0.22|-0.06|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 4||-0.06|-0.22|0.0006
92403285|NCT00107653|184697820|SUPERIORITY_OR_OTHER||Study Group Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.24|-0.08|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 12||-0.08|-0.24|<0.0001
92362939|NCT01331681|184629294|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|27.5|||<|0.0001|TWO_SIDED|97.5|14.6|40.5||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the second secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to gain \>= 10 letters identical in both groups||40.5|14.6|<0.0001
92362940|NCT01331681|184629295|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|23.3|||<|0.0001|TWO_SIDED|97.5|12.6|33.9||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the third secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to gain \>= 15 letters identical in both groups||33.9|12.6|<0.0001
92362941|NCT01331681|184629295|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|24.2|||<|0.0001|TWO_SIDED|97.5|13.5|34.9||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the third secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to gain \>= 15 letters identical in both groups||34.9|13.5|<0.0001
92362942|NCT01331681|184629296|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|25.8|||<|0.0001|TWO_SIDED|97.5|12.2|39.4||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the fourth secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to improve by \>= 2 steps identical in both groups||39.4|12.2|<0.0001
92362943|NCT01331681|184629296|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|19.3||||0.0006|TWO_SIDED|97.5|6.6|32.1||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the fourth secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to improve by \>= 2 steps identical in both groups||32.1|6.6|0.0006
92362944|NCT01331681|184629297|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-157.0|||<|0.0001|TWO_SIDED|97.5|-190.9|-123.1||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the fifth secondary endpoint.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate.|LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||-123.1|-190.9|<0.0001
92362945|NCT01331681|184629297|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-142.8|||<|0.0001|TWO_SIDED|97.5|-179.3|-106.3||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the fifth secondary endpoint.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate|LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A negative value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||-106.3|-179.3|<0.0001
92362946|NCT01331681|184629298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.41||||0.2208|TWO_SIDED|97.5|-2.01|6.82||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value is not below of 0.025, the fixed sequence testing stops here. The sixth secondary endpoint cannot be tested confirmatory.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate.|LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||6.82|-2.01|0.2208
92362947|NCT01331681|184629298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.21||||0.5537|TWO_SIDED|97.5|-5.79|3.37||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value is not below of 0.025, the fixed sequence testing stops here. The sixth secondary endpoint cannot be tested confirmatory.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate.|LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||3.37|-5.79|0.5537
92403286|NCT00107653|184697820|SUPERIORITY_OR_OTHER||Study Group Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.041||0.0003|TWO_SIDED|95.0|-0.23|-0.07|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 24||-0.07|-0.23|0.0003
92403287|NCT00107653|184697820|SUPERIORITY_OR_OTHER||Study Group Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.042||0.0008|TWO_SIDED|95.0|-0.22|-0.06|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 48||-0.06|-0.22|0.0008
92403288|NCT00107653|184697820|SUPERIORITY_OR_OTHER||Study Group Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.26|-0.1|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 60||-0.10|-0.26|<0.0001
92403289|NCT00107653|184697820|SUPERIORITY_OR_OTHER||Study Group Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.27|-0.11|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 72||-0.11|-0.27|<0.0001
92165911|NCT00026312|184220460|SUPERIORITY_OR_OTHER_LEGACY||Log Rank Test Statistic|3.4471||||0.0634|TWO_SIDED|95.0|||||Log Rank|||The overall survival distributions of patients randomized to Regimen A - RA Only and randomized to Regimen B - RA + Immunotherapy were compared using the log-rank test.||||0.0634
92165912|NCT00026312|184220460|SUPERIORITY_OR_OTHER_LEGACY||Log-Rank Test Statistic|4.1362||||0.042|TWO_SIDED|95.0|||||Log Rank|||The overall survival distributions of patients randomized to Regimen A - RA Only and randomized to Regimen B - RA + Immunotherapy for the subgroup of patients with INSS Stage 4 disease were compared using the log-rank test.||||0.042
92224335|NCT00970853|184350098|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.34|||||||t-test, 2 sided|||||||.34
92224336|NCT00970853|184350099|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.85|||||||t-test, 2 sided|||||||.85
92362948|NCT01331681|184629299|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.19||||0.5138|TWO_SIDED|97.5|-5.29|2.91|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||2.91|-5.29|0.5138
92362949|NCT01331681|184629299|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37||||0.8498|TWO_SIDED|97.5|-4.79|4.05|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||4.05|-4.79|0.8498
92362950|NCT05525910|184629304|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|105.03|||||TWO_SIDED|90.0|94.54|116.68||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||116.68|94.54|
92362951|NCT05525910|184629304|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|109.15|||||TWO_SIDED|90.0|98.08|121.47||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||121.47|98.08|
92362952|NCT05525910|184629304|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|100.72|||||TWO_SIDED|90.0|90.79|111.74||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||111.74|90.79|
92362953|NCT05525910|184629304|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|110.45|||||TWO_SIDED|90.0|99.58|122.52||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||122.52|99.58|
92403290|NCT00107653|184697821|SUPERIORITY_OR_OTHER||Study Group Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0285|TWO_SIDED|95.0|-0.2|0.0|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with ISHAK HAI response. The 95% Confidence Interval is based on normal approximation to the binomial.|ISHAK HAI Response For Latino VS Non-Latino White||-0.0|-0.2|0.0285
92403291|NCT00107653|184697822|SUPERIORITY_OR_OTHER||Study Group Difference|0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|0.5|1.3|||Normal approximation to the binomial.||The estimated value is the difference in change from baseline of ISHAK HAI activity (necroinflammatory) scores between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|ISHAK HAI activity For Latino VS Non-Latino White||1.3|0.5|<0.0001
92403292|NCT00107653|184697831|SUPERIORITY_OR_OTHER||Study Group Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.162|<|0.0001|TWO_SIDED|95.0|-0.96|-0.33|||ANCOVA||The estimated value is the difference of change from baseline in FSS scores at week 48 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|FSS Score of Latino VS Non-Latino White at week 48||-0.33|-0.96|<0.0001
92403293|NCT00107653|184697831|SUPERIORITY_OR_OTHER||Study Group Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.156||0.0921|TWO_SIDED|95.0|-0.57|0.04|||ANCOVA||The estimated value is the difference of change from baseline in FSS scores at week 72 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|FSS Score of Latino VS Non-Latino White at week 72||0.04|-0.57|0.0921
92165913|NCT05793112|184220478|SUPERIORITY||Median Difference (Final Values)|57.57||||0.154|||||||Wilcoxon range sum test|||||||0.154
92165914|NCT05793112|184220479|SUPERIORITY||Median Difference (Final Values)|-5.0||||0.073|||||||Wilcoxon (Mann-Whitney)|||||||0.073
92165915|NCT05793112|184220480|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.471|||||||Fisher Exact|||||||0.471
92165916|NCT05793112|184220481|SUPERIORITY|||||||0.057|||||||Cochran-Mantel-Haenszel|||Day 0 (Baseline)||||0.057
92165917|NCT05793112|184220481|SUPERIORITY|||||||0.169|||||||Cochran-Mantel-Haenszel|||Day 7||||0.169
92165918|NCT05793112|184220481|SUPERIORITY|||||||0.168|||||||Cochran-Mantel-Haenszel|||Day 14||||0.168
92362954|NCT05525910|184629305|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|104.86|||||TWO_SIDED|90.0|93.78|117.24||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||117.24|93.78|
92362955|NCT05525910|184629305|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|109.7|||||TWO_SIDED|90.0|97.93|122.89||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||122.89|97.93|
92165919|NCT05793112|184220481|SUPERIORITY|||||||0.139|||||||Cochran-Mantel-Haenszel|||Day 21||||0.139
92362956|NCT05525910|184629305|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|100.14|||||TWO_SIDED|90.0|89.69|111.8||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||111.80|89.69|
92362957|NCT05525910|184629305|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|109.8|||||TWO_SIDED|90.0|98.36|122.57||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||122.57|98.36|
92362958|NCT05525910|184629306|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|109.85|||||TWO_SIDED|90.0|94.97|127.06||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||127.06|94.97|
92362959|NCT05525910|184629306|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|114.69|||||TWO_SIDED|90.0|98.92|132.98||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||132.98|98.92|
92362960|NCT05525910|184629306|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|109.26|||||TWO_SIDED|90.0|94.64|126.14||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||126.14|94.64|
92362961|NCT05525910|184629306|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|115.98|||||TWO_SIDED|90.0|100.48|133.87||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||133.87|100.48|
92362962|NCT05525910|184629307|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|88.85|||||TWO_SIDED|90.0|76.24|103.53||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||103.53|76.24|
92362963|NCT05525910|184629307|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|95.11|||||TWO_SIDED|90.0|81.41|111.11||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||111.11|81.41|
92362964|NCT05525910|184629307|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|85.74|||||TWO_SIDED|90.0|73.73|99.7||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||99.70|73.73|
92362965|NCT05525910|184629307|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|93.12|||||TWO_SIDED|90.0|80.09|108.26||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||108.26|80.09|
92362966|NCT05525910|184629308|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|88.43|||||TWO_SIDED|90.0|74.64|104.78||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||104.78|74.64|
92362967|NCT05525910|184629308|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|96.0|||||TWO_SIDED|90.0|80.8|114.06||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||114.06|80.80|
92362968|NCT05525910|184629308|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|84.11|||||TWO_SIDED|90.0|71.15|99.43||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||99.43|71.15|
92362969|NCT05525910|184629308|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|90.99|||||TWO_SIDED|90.0|76.99|107.54||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||107.54|76.99|
92165920|NCT05793112|184220481|SUPERIORITY|||||||0.348|||||||Cochran-Mantel-Haenszel|||Day 28||||0.348
92165921|NCT05850520|184220482|NON_INFERIORITY|One-sided test (alpha=0.025) for non-inferiority at a 4-letter margin.|Difference in LS means|-0.1|||<|0.0001|TWO_SIDED|95.0|-2.0|1.9||1-sided p-value.|Mixed Models Analysis|Baseline BCVA measurement was used as a covariate and treatment group, visit, and the stratification variables as fixed factors.|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, prohibited medication, missing injection) were censored. Missing/censored data was handled implicitly by MMRM.|8q8/3 -2q4||1.9|-2.0|<0.0001
92224337|NCT00970853|184350100|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.61|||||||t-test, 2 sided|||||||.61
92224338|NCT00970853|184350101|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.67|||||||t-test, 2 sided|||||||.67
92165922|NCT05850520|184220482|NON_INFERIORITY|One-sided test (alpha=0.025) for non-inferiority at a 4-letter margin.|Difference in LS means|0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|2.7||1-sided p-value.|Mixed Models Analysis|Baseline BCVA measurement was used as a covariate and treatment group, visit, and the stratification variables as fixed factors.|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, prohibited medication, missing injection) were censored. Missing/censored data was handled implicitly by MMRM.|8q8/5 -2q4||2.7|-1.1|<0.0001
92165923|NCT05850520|184220483|SUPERIORITY|Two-sided test (alpha = 0.05)|Difference in LS means|-2.7|||<|0.0001|TWO_SIDED|95.0|-2.8|-2.6||Nominal p-value based on a non-parametric rank ANCOVA adjusted for baseline BCVA, baseline CST, and the stratification variables.|ANCOVA|Adjusted for baseline BCVA, baseline CST, and the stratification variables.|Estimation based on composite strategy for premature treatment discontinuation due to treatment related AEs and hypothetical strategy for premature treatment discontinuation due to other reasons. Hypothetical values imputed using a MI model.|8q8/3 -2q4||-2.6|-2.8|<0.0001
92224339|NCT06232317|184350123|SUPERIORITY|||||||0.61|||||||Kruskal-Wallis|||||||0.61
92362970|NCT05525910|184629309|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|82.65|||||TWO_SIDED|90.0|65.85|103.74||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||103.74|65.85|
92362971|NCT05525910|184629309|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|94.85|||||TWO_SIDED|90.0|75.28|119.49||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||119.49|75.28|
92362972|NCT05525910|184629309|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|81.56|||||TWO_SIDED|90.0|65.18|102.07||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||102.07|65.18|
92362973|NCT05525910|184629309|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|88.38|||||TWO_SIDED|90.0|70.65|110.57||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||110.57|70.65|
92362974|NCT03498716|184629348|SUPERIORITY|Stratified Analysis: The stratification factors used in the analysis are axillary nodal status, surgery (breast conserving vs. mastectomy),and tumor PD-L1 status.|Hazard Ratio (HR)|1.11||||0.3846|TWO_SIDED|95.0|0.87|1.42|||Log Rank|||||1.42|0.87|0.3846
92362975|NCT00265850|184629367|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.08|TWO_SIDED|95.0|0.77|1.01|||Log Rank|||||1.01|0.77|0.08
92362976|NCT00265850|184629368|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.45|TWO_SIDED|95.0|0.84|1.08|||Log Rank|||||1.08|0.84|0.45
92362977|NCT01918189|184629400|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the primary measure of pain interference (i.e., WHYMPI-Interference Scale) at 10 weeks post-baseline.||||||0.008||||||a priori threshold for statistical significance is p \<0.05|Regression, Logistic|||||||0.008
92362978|NCT01918189|184629401|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the primary measure of pain intensity at 10 weeks post-baseline.|Mean Difference (Final Values)|0.05||||0.27|TWO_SIDED|95.0||||a priori threshold for statistical significance is p\<0.05|Regression, Logistic|||||||0.27
92362979|NCT01918189|184629402|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the measure of mood symptoms at 10 weeks post-baseline.|Mean Difference (Net)|0.05||||0.02|TWO_SIDED|95.0||||a priori threshold for statistical significance is p\<0.05|Regression, Logistic|||||||0.02
92362980|NCT01918189|184629403|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the measure of mood symptoms at 10 weeks post-baseline.|Mean Difference (Net)|0.05||||0.48|TWO_SIDED|||||a priori threshold for statistical significance is p\<0.05|Regression, Logistic|||||||0.48
92362981|NCT01918189|184629404|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the measure of sleep at 10 weeks post-baseline.|Mean Difference (Net)|0.05||||0.18|TWO_SIDED|95.0||||a priori threshold for statistical significance is p\<0.05|Regression, Logistic|||||||0.18
92362982|NCT01918189|184629405|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the measure of depression symptoms at 10 weeks post-baseline.|Mean Difference (Final Values)|0.05||||0.03|TWO_SIDED|95.0||||a priori threshold for statistical significance is p\<0.05|Regression, Logistic|||||||0.03
92362983|NCT00461708|184629450|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92362984|NCT00461708|184629451|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92403294|NCT00107653|184697831|SUPERIORITY_OR_OTHER||Study Group Difference|-8.72|STANDARD_ERROR_OF_MEAN|2.725||0.0015|TWO_SIDED|95.0|-14.07|-3.36|||ANCOVA||The estimated value is the difference of change from baseline in FSS VAS scores at week 48 between Latino and Non-Latino White participants The 95% Confidence Interval is based on normal approximation to the binomial.|FSS VAS Score of Latino VS Non-Latino White at week 48||-3.36|-14.07|0.0015
92403295|NCT00107653|184697831|SUPERIORITY_OR_OTHER||Study Group Difference|4.83|STANDARD_ERROR_OF_MEAN|2.37||0.0421|TWO_SIDED|95.0|0.18|9.49|||ANCOVA||The estimated value is the difference of change from baseline in FSS VAS scores at week 72 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|FSS VAS Score of Latino VS Non-Latino White at week 72||9.49|0.18|0.0421
92403296|NCT00107653|184697832|SUPERIORITY_OR_OTHER||Study Group Difference|3.49|STANDARD_ERROR_OF_MEAN|0.864|<|0.0001|TWO_SIDED|95.0|1.79|5.18|||ANCOVA||The estimated value is the difference of change from baseline in standardized physical component score at week 48 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|Standardized Physical Component of Latino VS Non-Latino White at week 48||5.18|1.79|<0.0001
92403297|NCT00107653|184697832|SUPERIORITY_OR_OTHER||Study Group Difference|0.1|STANDARD_ERROR_OF_MEAN|0.808||0.9047|TWO_SIDED|95.0|-1.49|1.68|||ANCOVA||The estimated value is the difference of change from baseline in standardized physical component score at week 48 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|Standardized Physical Component of Latino VS Non-Latino White at week 72||1.68|-1.49|0.9047
92403298|NCT00107653|184697832|SUPERIORITY_OR_OTHER||Study Group Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.914||0.9286|TWO_SIDED|95.0|-1.88|1.71|||ANCOVA||The estimated value is the difference of change from baseline in standardized mental component score at week 48 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|Standardized Mental Component of Latino VS Non-Latino White at week 48||1.71|-1.88|0.9286
92403299|NCT00107653|184697832|SUPERIORITY_OR_OTHER||Study Group Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.888||0.1653|TWO_SIDED|95.0|-2.98|0.51|||ANCOVA||The estimated value is the difference of change from baseline in standardized mental component score at week 72 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|Standardized Mental Component of Latino VS Non-Latino White at week 72||0.51|-2.98|0.1653
92403300|NCT02234843|184697881|OTHER||Hazard Ratio (HR)|0.4||||0.1509|TWO_SIDED|95.0|0.11|1.41|||Expl. Cox Proportional Hazards Model|||||1.41|0.11|0.1509
92403301|NCT02711891|184697958|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8|||||||Paired Sample T-test|||||||0.8
92165924|NCT05850520|184220483|SUPERIORITY|Two-sided test (alpha = 0.05)|Difference in LS means|-1.8|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.7||Nominal p-value based on a non-parametric rank ANCOVA adjusted for baseline BCVA, baseline CST, and the stratification variables.|ANCOVA|Adjusted for baseline BCVA, baseline CST, and the stratification variables.|Estimation based on composite strategy for premature treatment discontinuation due to treatment related AEs and hypothetical strategy for premature treatment discontinuation due to other reasons. Hypothetical values imputed using a MI model.|8q8/5 -2q4||-1.7|-1.9|<0.0001
92224340|NCT06232317|184350124|SUPERIORITY|||||||0.014|||||||Kruskal-Wallis|||||||0.014
92224341|NCT06232317|184350129|SUPERIORITY|||||||0.011|||||||Fisher Exact|||||||0.011
92403302|NCT02711891|184697958|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||Paired Sample T-test|||||||.003
92403303|NCT02711891|184697958|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||t-test, 2 sided|||||||0.002
92403304|NCT02711891|184697960|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||t-test, 1 sided|||||||0.01
92403305|NCT02711891|184697960|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|0.05|||||Chi-squared|||||||.001
92403306|NCT02711891|184697962|SUPERIORITY_OR_OTHER_LEGACY|||||||0.876||||||Comparison of mean BPM during lance procedure for L1 vs L2 Loperamide.|t-test, 1 sided|||The population BPM lance one = population BPM mean lance two. Loperamide 1= Loperamide 2. Placebo 1=Placebo 2.||||.876
92403307|NCT02711891|184697962|SUPERIORITY_OR_OTHER_LEGACY|||||||0.085||||||Comparison of the mean between HR one and HR two during the procedure for lance one will equal the mean HR lance two following loperamide gel application.|ANOVA|df 16.||Mean HR during the procedure for lance one will equal mean HR lance two following loperamide gel applciation||||.085
92403308|NCT00091949|184697968|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||0.0067|TWO_SIDED|95.0|0.62|0.93||P-value adjusted for interim looks.|Regression, Cox||Pioglitazone arm compared to placebo; CI adjusted for interim looks.|||0.93|0.62|.0067
92403309|NCT00091949|184697969|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.19|TWO_SIDED|95.0|0.61|1.1||P-value adjusted for multiplicity (5 secondary outcomes).|Regression, Cox||Pioglitazone arm compared to placebo; conference interval (CI) adjusted for multiplicity (5 secondary outcomes).|||1.1|0.61|0.19
92362985|NCT02394561|184629453|NON_INFERIORITY|The difference in percentage of patients achieving PASI 90 response between the Cw6-positive cohort and the Cw6-negative cohort was H0 = Cw6-positive minus Cw6-negative ≥0.12 and HA = Cw6-positive minus Cw6-negative was \< 0.12. The percentage of PASI 90 response by cohort as well as the difference between cohort together with 97.5% upper CI was provided using Clopper Pearson CI method.|difference|-1.3|||||TWO_SIDED|95.0|-8.8|6.2||||||||6.2|-8.8|
92362986|NCT02394561|184629456|OTHER|difference between cohorts for PASI 90 using Kaplan-Meier estimate||||||0.1295|||||||Log Rank|||||||0.1295
92362987|NCT02394561|184629456|OTHER|||||||0.447||||||difference between cohorts for PASI 75 using Kaplan-Meier estimate|Log Rank|||||||0.4470
92362988|NCT02394561|184629457|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|At all time points||||||<.0001
92362989|NCT02394561|184629458|SUPERIORITY||||||<|0.0001||||||All time points|Wilcoxon (Mann-Whitney)|||||||<.0001
92362990|NCT02553629|184629463|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92165925|NCT05850520|184220487|SUPERIORITY|Two-sided test (alpha = 0.05)|Difference in LS means|-0.1||||0.9804|TWO_SIDED|95.0|-10.0|9.8||Nominal p-value for the two-sided test.|Mixed Models Analysis|Baseline CST measurement was used as a covariate and treatment group, visit, and the stratification variables as fixed factors.|Estimation mainly based on hypothetical strategy, i.e. observed data beyond ICE (premature discontinuation of treatment, prohibited medication, missing injection) were censored. Missing/censored data was handled implicitly by MMRM.|8q8/3 - 2q4||9.8|-10.0|0.9804
92362991|NCT02553629|184629464|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92362992|NCT02553629|184629465|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
92362993|NCT02553629|184629466|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92362994|NCT02553629|184629467|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92362995|NCT01114737|184629516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|2.3||0.085|TWO_SIDED|95.0|-8.9|0.6|||ANCOVA|Adjusted for baseline ADHD-RS/ASRS total score, age group, and ADHD medication.||||0.6|-8.9|0.085
92362996|NCT01114737|184629517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.9||0.669|TWO_SIDED|95.0|-1.5|2.3|||ANCOVA|Adjusted for baseline HAMA Anxiety Scale Total Score, age group, ADHD symptom, and ADHD medication.||||2.3|-1.5|0.669
92362997|NCT01114737|184629518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.8||0.588|TWO_SIDED|95.0|-1.1|1.9|||ANCOVA|Adjusted for Baseline HAM-D Rating Scale Total Score, age group, ADHD symptom, and ADHD medication.||||1.9|-1.1|0.588
92362998|NCT01114737|184629519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.531|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|Adjusted for baseline CGI-Severity Response, age group, ADHD symptom, and ADHD medication.||||0.2|-0.4|0.531
92362999|NCT01114737|184629520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|2.2||0.661|TWO_SIDED|95.0|-5.5|3.6|||ANCOVA|Adjusted for Baseline BRIEF Adult-GEC T Score, ADHD symptom, and ADHD medication.||||3.6|-5.5|0.661
92165926|NCT05850520|184220487|SUPERIORITY|Two-sided test (alpha = 0.05)|Difference in LS means|1.2||||0.7863|TWO_SIDED|95.0|-7.7|10.2||Nominal p-value for the two-sided test.|Mixed Models Analysis|Baseline CST measurement was used as a covariate and treatment group, visit, and the stratification variables as fixed factors.|Estimation mainly based on hypothetical strategy, i.e. observed data beyond ICE (premature discontinuation of treatment, prohibited medication, missing injection) were censored. Missing/censored data was handled implicitly by MMRM.|8q8/5 - 2q4||10.2|-7.7|0.7863
92363000|NCT01114737|184629521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|1.9||0.034|TWO_SIDED|95.0|-7.9|-0.3|||ANCOVA|Adjusted for Baseline BRIEF Parent-GEC T Score, ADHD symptom, and ADHD medication.||||-0.3|-7.9|0.034
92363001|NCT01114737|184629522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|2.6||0.312|TWO_SIDED|95.0|-2.6|7.8|||ANCOVA|Adjusted for Week 13 ADHD RS/ASRS Total Score, age group, and ADHD medication.||||7.8|-2.6|0.312
92363002|NCT01114737|184629523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|1.0||0.59|TWO_SIDED|95.0|-2.4|1.4|||ANCOVA|Adjusted for Week 13 HAMA Anxiety Rating Scale Total Score, age group, ADHD symptom, and ADHD medication.||||1.4|-2.4|0.590
92363003|NCT01114737|184629524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.8||0.636|TWO_SIDED|95.0|-1.2|1.9|||ANCOVA|Adjusted for Week 13 HAMD Rating Scale Total Score, age group, ADHD symptom, and ADHD||||1.9|-1.2|0.636
92363004|NCT01114737|184629525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.51|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|Adjusted for Week 13 Global Impression-Severity Score, ADHD symptom, and ADHD medication.||||0.5|-0.2|0.510
92363005|NCT01114737|184629526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|1.8||0.395|TWO_SIDED|95.0|-2.1|5.2|||ANCOVA|Adjusted for Week 13 BRIEF Adult-GEC T Score, ADHD symptom, and ADHD medication.||||5.2|-2.1|0.395
92363006|NCT01114737|184629527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.7||0.443|TWO_SIDED|95.0|-2.1|4.7|||ANCOVA|Adjusted for Week 13 BRIEF Parent-GEC T Score, ADHD symptom, and ADHD medication.||||4.7|-2.1|0.443
92363007|NCT01114737|184629528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|2.8||0.953|TWO_SIDED|95.0|-5.5|5.8|||ANCOVA|Adjusted for Baseline ADHD-RS/ASRS Total Score, ADHD symptom, and ADHD medication.||||5.8|-5.5|0.953
92363008|NCT01114737|184629529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.0||0.733|TWO_SIDED|95.0|-2.4|1.7|||ANCOVA|Adjusted for Baseline Hamilton Anxiety Rating Scale (HAM-A) Score, ADHD symptom, and ADHD medication.||||1.7|-2.4|0.733
92363009|NCT01114737|184629530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.8||0.522|TWO_SIDED|95.0|-1.1|2.2|||ANCOVA|Adjusted for Baseline Hamilton Rating Scale For Depression (HAM-D) Score, ADHD symptom, and ADHD medication.||||2.2|-1.1|0.522
92224342|NCT04289116|184350130|SUPERIORITY||Chi Square|1.36||||0.2|TWO_SIDED||||||Negative Binomial Regression|||Analysis only includes participants who participated in the We Test - Index arm and Individual HIV Testing and Counseling - Index arm on their own.||||0.20
92363010|NCT01114737|184629531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.564|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|Adjusted for Baseline Clinical Global Impression-Severity (CGI-S), ADHD symptom, and ADHD medication.||||0.4|-0.2|0.564
92363011|NCT01114737|184629532|SUPERIORITY_OR_OTHER||Relative Risk|0.87||||0.67|TWO_SIDED|95.0|0.46|1.64|||Cochran-Mantel-Haenszel|Adjusted for age group, ADHD symptom, and ADHD medication||||1.64|0.46|0.67
92363012|NCT01114737|184629533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.8||0.833|TWO_SIDED|95.0|-6.2|5.0|||ANCOVA|Adjusted for Baseline BRIEF Adult-GEC T Score, ADHD symptom, and ADHD medication.||||5.0|-6.2|0.833
92363013|NCT01114737|184629534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|2.0||0.279|TWO_SIDED|95.0|-6.3|1.8|||ANCOVA|Adjusted for Baseline BRIEF Parent-GEC T Score, ADHD symptom, and ADHD medication.||||1.8|-6.3|0.279
92363014|NCT03623698|184629558|OTHER||Median Difference (Final Values)|-2.5|||<|0.001|TWO_SIDED|95.0|-4.0|-1.5|||Wilcoxon (Mann-Whitney)|||"Statistical analysis was performed using IBM SPSS Statistics software, version 25.~This analysis applies to the category of Total courses of antibiotics."||-1.500|-4.000|<0.001
92363015|NCT03623698|184629558|OTHER|Linear mixed-effects model|Restricted Maximum Likelihood (REML)|-2.88||||0.001|TWO_SIDED|95.0|-4.46|-1.29||95% confidence interval, significance level p-values \<0.05. Random effects pre-defined from theory and published data, and AIC was were used to define the best model. Outcome measures: Courses of antibiotics; Fixed effect: nebulised saline treatment.|Mixed Models Analysis|Random effects: age, gender, mechanical ventilation, tracheostomy, gastrostomy, non-ambulant.||"Statistical analysis was performed using IBM SPSS Statistics software, version 25.~This analysis applies to the category of Total courses of antibiotics."||-1.29|-4.46|0.001
92363016|NCT03623698|184629559|OTHER||Median Difference (Final Values)|-1.0||||0.001|TWO_SIDED|95.0|-1.5|-0.5|||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed using IBM SPSS Statistics software, version 25.||-0.50|-1.50|0.001
92363017|NCT03623698|184629559|OTHER||Restricted Maximum Likelihood (REML)|-1.02|||<|0.001|TWO_SIDED|95.0|-1.53|-0.52||95% confidence interval, significance level p-values \<0.05. Random effects pre-defined from theory and published data, and AIC was were used to define the best model. Outcome measures: Courses of antibiotics; Fixed effect: nebulised saline treatment.|Mixed Models Analysis|Random effects: age, gender, prolonged mechanical ventilation (nasal or tracheostomy), and antibiotic prophylaxis||Statistical analysis was performed using IBM SPSS Statistics software, version 25.||-0.52|-1.53|<0.001
92363018|NCT03623698|184629562|OTHER||Median Difference (Final Values)|-4.5||||0.003|TWO_SIDED|95.0|-5.5|-3.0|||Wilcoxon (Mann-Whitney)|||||-3.00|-5.50|0.003
92363019|NCT03623698|184629563|OTHER||Mean Difference (Final Values)|-2.0|||<|0.001|TWO_SIDED|95.0|-2.5|-2.0|||Wilcoxon (Mann-Whitney)|||||-2.0|-2.5|<0.001
92363020|NCT03623698|184629566|OTHER||Mean Difference (Final Values)|0.17||||0.97|TWO_SIDED|95.0|-0.69|0.76|||Wilcoxon (Mann-Whitney)|||||0.76|-0.69|0.97
92363021|NCT03623698|184629567|OTHER||Mean Difference (Final Values)|-1.47||||0.09|TWO_SIDED|95.0|-3.26|0.34|||Wilcoxon (Mann-Whitney)|||||0.34|-3.26|0.09
92363022|NCT03623698|184629568|OTHER||Mean Difference (Final Values)|-0.08||||0.65|TWO_SIDED|95.0|-0.38|0.38|||Wilcoxon (Mann-Whitney)|||||0.38|-0.38|0.65
92403310|NCT00091949|184697970|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.11|TWO_SIDED|95.0|0.52|1.07||P-value adjusted for multiplicity (5 secondary outcomes).|Regression, Cox||Pioglitazone arm compared to placebo; CI adjusted for multiplicity (5 secondary outcomes).|||1.07|0.52|0.11
92403311|NCT00091949|184697972|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.52|TWO_SIDED|95.0|0.73|1.17||p-value adjusted for multiplicity (5 secondary outcomes)|Regression, Cox||Pioglitazone arm compared to placebo; CI adjusted for multiplicity (5 secondary outcomes).|||1.17|0.73|0.52
92403312|NCT00091949|184697973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.023||||0.88|TWO_SIDED|95.0|-0.326|0.28|||Mixed Models Analysis||Pioglitazone arm compared to placebo.|Changes in modified mini-mental examination (3MS) score from baseline (to annual scores) were analyzed using a longitudinal repeated measures mixed effects model.||0.280|-0.326|0.88
92403313|NCT00091949|184697974|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.11|TWO_SIDED|95.0|0.65|1.05||P-value adjusted for multiplicity (5 secondary outcomes).|Regression, Cox||Pioglitazone arm compared to placebo; CI adjusted for multiplicity (5 secondary outcomes).|||1.05|0.65|0.11
92165927|NCT05850520|184220488|SUPERIORITY|Two-sided test (alpha = 0.05)|Difference in LS means|-0.36||||0.6869|TWO_SIDED|95.0|-2.1|1.4||Nominal p-value for the two-sided test.|ANCOVA|Baseline NEI-VFQ-25 total score measurement used as a covariate and treatment group, visit, and stratification variables as fixed factors.|Estimation mainly based on hypothetical strategy, i.e. observed data beyond ICE (premature discontinuation of treatment, prohibited medication, missing active injection) were censored. Missing/censored data was imputed by LOCF approach.|8q8/3 - 2q4||1.40|-2.1|0.6869
92165928|NCT05850520|184220488|SUPERIORITY||Difference in LS means|0.65|||||TWO_SIDED|95.0|-1.2|2.45|||ANCOVA|Baseline NEI-VFQ-25 total score measurement used as a covariate and treatment group, visit, and stratification variables as fixed factors.|Estimation mainly based on hypothetical strategy, i.e. observed data beyond ICE (premature discontinuation of treatment, prohibited medication, missing active injection) were censored. Missing/censored data was imputed by LOCF approach.|8q8/5 - 2q4||2.45|-1.2|
92165929|NCT03785782|184220516|OTHER|||||||0.2988|||||||Regression, Logistic|||||||0.2988
92165930|NCT03785782|184220517|OTHER|||||||0.36|||||||Regression, Linear|||||||0.36
92165931|NCT03785782|184220518|OTHER|||||||0.43|||||||Regression, Linear|||||||0.43
92165932|NCT03785782|184220519|OTHER|||||||0.42|||||||Regression, Linear|||||||0.42
92165933|NCT03785782|184220520|OTHER|||||||0.45|||||||Regression, Linear|||||||0.45
92165934|NCT03785782|184220521|OTHER|||||||0.18|||||||Regression, Linear|||||||0.18
92165935|NCT03785782|184220522|OTHER|||||||0.78|||||||Regression, Linear|||||||0.78
92165936|NCT03785782|184220523|OTHER|||||||0.45|||||||Regression, Linear|||||||0.45
92165937|NCT03785782|184220524|OTHER|||||||0.34|||||||Regression, Linear|||||||0.34
92165938|NCT03785782|184220525|OTHER|||||||0.7465|||||||Regression, Logistic|||||||0.7465
92165939|NCT03785782|184220526|OTHER|||||||0.0466|||||||Regression, Logistic|||||||0.0466
92165940|NCT03785782|184220527|OTHER|||||||0.1567|||||||Regression, Logistic|||||||0.1567
92165941|NCT03785782|184220528|OTHER|||||||0.1837|||||||Regression, Logistic|||||||0.1837
92165942|NCT03785782|184220529|OTHER|||||||0.7447|||||||Regression, Logistic|||||||0.7447
92165943|NCT03785782|184220530|OTHER|||||||0.0739|||||||Regression, Logistic|||||||0.0739
92363023|NCT00811954|184629574|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval estimation was stratified by HIV-1 RNA level at screening using Greenwood's variance with the inverse of this variance used for the stratum weights. The pre-specified confidence bounds for equivalence were +/-10 percentage points.|Cumulative probability difference|3.4|||||TWO_SIDED|97.5|-0.7|7.4||||||Treatment comparison was made using the difference (arm A - arm B) in the stratified Kaplan-Meier estimate for the week 96 cumulative probability of virologic failure with 97.5% confidence interval.||7.4|-0.7|
92363024|NCT00811954|184629574|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval estimation was stratified by HIV-1 RNA level at screening using Greenwood's variance with the inverse of this variance used for the stratum weights. The pre-specified confidence bounds for equivalence were +/-10 percentage points.|Cumulative probability difference|5.6|||||TWO_SIDED|97.5|1.3|9.9||||||Treatment comparison was made using the difference (arm C - arm B) in the stratified Kaplan-Meier estimate for the week 96 cumulative probability of virologic failure with 97.5% confidence interval.||9.9|1.3|
92403314|NCT01148979|184697999|OTHER|A Paired sample t-test was used to test the null hypothesis of no difference in MDAR score change after 4 weeks of treatment with Vyvanse versus placebo.|||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||The statistical analysis represents a within-subject comparison of change under treatment with Vyvanse versus change under treatment with placebo, using paired t-tests with each subject as their own control. All tests reported are two-tailed.||||<0.05
92403315|NCT00565084|184698022|SUPERIORITY_OR_OTHER||Difference in LS Means|0.06||||0.743||90.0|-0.23|0.35|||ANOVA|||Primary efficacy endpoint was assessed by an ANOVA model with terms for treatment, period, sequence, and patients within sequence. Efficacy advantage over placebo was assessed via the treatment difference in the least-squares (LS) means (ibuprofen vs. average of the 2 placebo treatments) from the ANOVA model and the 90% confidence interval (CI; one-sided alpha=0.05) of the LS mean difference will be assessed.||0.35|-0.23|0.743
92165944|NCT03785782|184220531|OTHER|||||||0.9995|||||||Regression, Logistic|||||||0.9995
92165945|NCT05777785|184220536|SUPERIORITY|Power analysis determined that a sample size of 90 participants will have 80% power to detect an effect size of 0.30 (Cohen's D) using a paired t-test with a 0.05 two-sided significance level.|Mean Difference (Final Values)|0.9789||||0.037|TWO_SIDED||||||t-test, 2 sided|||||||0.037
92165946|NCT05777785|184220538|SUPERIORITY|Power analysis determined that a sample size of 90 participants will have 80% power to detect an effect size of 0.30 (Cohen's D) using a paired t-test with a 0.05 two-sided significance level.|Mean Difference (Final Values)|2.09||||0.027|TWO_SIDED||||||t-test, 2 sided|||||||0.027
92165947|NCT05777785|184220539|SUPERIORITY|Power analysis determined that a sample size of 90 participants will have 80% power to detect an effect size of 0.30 (Cohen's D) using a paired t-test with a 0.05 two-sided significance level.|Mean Difference (Final Values)|2.09||||0.029|TWO_SIDED||||||t-test, 2 sided|||||||0.029
92403316|NCT02266888|184698036|SUPERIORITY||Hazard Ratio (HR)|0.673||||0.514|TWO_SIDED|90.0|0.248|1.826|||Regression, Cox||Hazard ratio estimated for Rituximab vs. Placebo|||1.826|0.248|0.514
92403317|NCT02266888|184698040|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92403318|NCT02266888|184698041|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92403319|NCT02266888|184698042|SUPERIORITY|||||||0.188|||||||Fisher Exact|||||||0.188
92403320|NCT02266888|184698045|SUPERIORITY||Mean Difference (Net)|-1.62||||0.015|TWO_SIDED|90.0|-2.64|-0.6|||Paired t-Test|||This is not a comparison between treatment groups, but rather a comparison between timepoints.The Rituximab and Placebo groups were combined for purposes of testing the hypothesis that there would be no change in SD between pre-enrollment and 180 days post-enrollment into the TVI.||-0.60|-2.64|0.015
92403321|NCT02266888|184698047|SUPERIORITY|||||||0.502|||||||Cochran-Mantel-Haenszel|||||||0.502
92403322|NCT02266888|184698048|SUPERIORITY|||||||0.448|||||||Fisher Exact|||||||0.448
92403323|NCT02224560|184698072|SUPERIORITY||Median Difference (Final Values)|-21.57||||0.0047|TWO_SIDED|95.0|-34.79|-6.67|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-6.67|-34.79|0.0047
92403324|NCT02224560|184698072|SUPERIORITY||Median Difference (Final Values)|-19.19||||0.0016|TWO_SIDED|95.0|-31.24|-7.69|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-7.69|-31.24|0.0016
92363025|NCT00811954|184629574|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval estimation was stratified by HIV-1 RNA level at screening using Greenwood's variance with the inverse of this variance used for the stratum weights. The pre-specified confidence bounds for equivalence were +/-10 percentage points.|Cumulative probability difference|-2.2|||||TWO_SIDED|97.5|-6.7|2.3||||||Treatment comparison was made using the difference (arm A - arm C) in the stratified Kaplan-Meier estimate for the week 96 cumulative probability of virologic failure with 97.5% confidence interval.||2.3|-6.7|
92363026|NCT00811954|184629575|NON_INFERIORITY_OR_EQUIVALENCE|Although the study was not specifically powered to be able to detect equivalence, equivalence was declared if the 97.5% confidence interval difference in the cumulative probability of the tolerability endpoint by 96 weeks was entirely contained within +/-10 percentage points.|Cumulative incidence difference|12.8|||||TWO_SIDED|97.5|9.4|16.1||||||Treatment comparison was made using the methods of Gray. Inference regarding comparisons of the treatment groups (arm A and arm B) with respect to equivalence was made based on the two-sided 97.5% confidence intervals of differences (arm A - arm B) in 96 week probability of tolerability failure with 97.5% confidence interval.||16.1|9.4|
92363027|NCT00811954|184629575|NON_INFERIORITY_OR_EQUIVALENCE|Although the study was not specifically powered to be able to detect equivalence, equivalence was declared if the 97.5% confidence interval difference in the cumulative probability of the tolerability endpoint by 96 weeks was entirely contained within +/-10 percentage points.|Cumulative incidence difference|3.6|||||TWO_SIDED|97.5|1.4|5.8||||||Treatment comparison was made using the methods of Gray. Inference regarding comparisons of the treatment groups (arm C and arm B) with respect to equivalence was made based on the two-sided 97.5% confidence intervals of differences (arm C - arm B) in 96 week probability of tolerability failure with 97.5% confidence interval.||5.8|1.4|
92363028|NCT00811954|184629575|NON_INFERIORITY_OR_EQUIVALENCE|Although the study was not specifically powered to be able to detect equivalence, equivalence was declared if the 97.5% confidence interval difference in the cumulative probability of the tolerability endpoint by 96 weeks was entirely contained within +/-10 percentage points.|Cumulative incidence difference|9.2|||||TWO_SIDED|97.5|5.5|12.9||||||Treatment comparison was made using the methods of Gray. Inference regarding comparisons of the treatment groups (arm A and arm C) with respect to equivalence was made based on the two-sided 97.5% confidence intervals of differences (arm A - arm C) in 96 week probability of tolerability failure with 97.5% confidence interval.||12.9|5.5|
92363029|NCT01247064|184629610|SUPERIORITY_OR_OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
92363030|NCT01247064|184629611|SUPERIORITY_OR_OTHER|||||||0.86|||||||Chi-squared|||||||0.86
92403325|NCT02224560|184698073|SUPERIORITY||Odds Ratio (OR)|3.85||||0.0006|TWO_SIDED|95.0|1.75|8.47||Calculated using a Cochran-Mantel-Haenszel (CMH) test stratified by age group (2-5, 6-11, 12-17 and 18-55 years)|Cochran-Mantel-Haenszel|||||8.47|1.75|0.0006
92403326|NCT02224560|184698073|SUPERIORITY||Odds Ratio (OR)|3.27||||0.003|TWO_SIDED|95.0|1.47|7.26||Calculated using a CMH test stratified by age group (2-5, 6-11, 12-17 and 18-55 years)|Cochran-Mantel-Haenszel|||||7.26|1.47|0.0030
92165948|NCT00304031|184220546|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.03||||0.63|TWO_SIDED|95.0|0.88|1.2||One-sided|Log Rank||Reference level = Conventional adjuvant TMZ|This study was looking for a 20% reduction in hazard rate: null hypothesis (conventional arm): Median survival time (MST) = 14.0 mo.; alternative hypothesis (dose-dense arm): MST= 17.5 mo. A one-sided log-rank test at a significance level of 0.025 would have 80% power to detect this difference with a sample size of 750 patients (647 deaths were required for the final analysis).||1.20|0.88|0.63
92165949|NCT00304031|184220547|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.06|TWO_SIDED|95.0|0.75|1.0||Two-side significance level = 0.05|Log Rank||Reference level = Conventional adjuvant TMZ|||1.00|0.75|0.06
92165950|NCT00304031|184220548|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.44|TWO_SIDED|95.0|0.82|1.19||One-sided significance level = 0.05|Log Rank||Reference level = Conventional adjuvant TMZ|Unmethylated MGMT||1.19|0.82|0.44
92165951|NCT00304031|184220548|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.86|TWO_SIDED|95.0|0.87|1.62||One-sided significance level = 0.05|Log Rank||Reference level = Conventional adjuvant TMZ|Methylated MGMT||1.62|0.87|0.86
92363031|NCT01247064|184629612|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
92363032|NCT01247064|184629613|SUPERIORITY_OR_OTHER|||||||0.36|||||||t-test, 2 sided|||||||0.36
92363033|NCT01247064|184629614|SUPERIORITY_OR_OTHER|||||||0.62|||||||Chi-squared|||||||0.62
92363034|NCT01664247|184629624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.34|||<|0.0001|TWO_SIDED|95.0|-2.67|-2.01|||ANOVA||The treatment contrast estimated was IDeg - Placebo.|The pre-breakfast measures of SMPG values after 26 weeks of treatment were analysed an ANOVA method with treatment, region and sex as fixed effects, and age and baseline response as covariates.||-2.01|-2.67|<.0001
92363035|NCT01664247|184629625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.69|||<|0.0001|TWO_SIDED|95.0|-3.04|-2.34|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point before breakfast.||-2.34|-3.04|<.0001
92403327|NCT02224560|184698074|SUPERIORITY||Median Difference (Final Values)|-18.76||||0.0091|TWO_SIDED|95.0|-31.8|-4.43|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-4.43|-31.80|0.0091
92403328|NCT02224560|184698074|SUPERIORITY||Median Difference (Final Values)|-19.47||||0.0015|TWO_SIDED|95.0|-30.37|-7.47|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-7.47|-30.37|0.0015
92363036|NCT01664247|184629625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.09|||<|0.0001|TWO_SIDED|95.0|-2.71|-1.48|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point 90 mins after breakfast.||-1.48|-2.71|<.0001
92363037|NCT01664247|184629625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.01|||<|0.0001|TWO_SIDED|95.0|-2.47|-1.56|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point before lunch.||-1.56|-2.47|<.0001
92165952|NCT00304031|184220549|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.15|TWO_SIDED|95.0|0.73|1.05||One-sided significance level = 0.05|Log Rank||Reference level = Conventional adjuvant TMZ|Unmethylated MGMT||1.05|0.73|0.15
92363038|NCT01664247|184629625|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.93|||<|0.0001|TWO_SIDED|95.0|-2.46|-1.4|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point 90 mins after start of lunch.||-1.40|-2.46|<.0001
92363039|NCT01664247|184629625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.74|||<|0.0001|TWO_SIDED|95.0|-2.25|-1.23|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point main evening meal.||-1.23|-2.25|<.0001
92363040|NCT01664247|184629625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|||<|0.0001|TWO_SIDED|95.0|-2.26|-1.18|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point 90 mins after main evening meal.||-1.18|-2.26|<.0001
92363041|NCT01664247|184629625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.27|-1.23|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point before bedtime.||-1.23|-2.27|<.0001
92363042|NCT01664247|184629625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|||<|0.0001|TWO_SIDED|95.0|-2.91|-2.09|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point before breakfast the following day.||-2.09|-2.91|<.0001
92363043|NCT00945659|184629630|SUPERIORITY||Mean Difference (Net)|-0.003|STANDARD_DEVIATION|0.2||0.86|TWO_SIDED|95.0|-0.43|0.36|||Generalized Estimating Equation|||||0.36|-0.43|0.86
92363044|NCT00945659|184629630|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.19||0.03|TWO_SIDED|95.0|-0.78|-0.04|||Generalized Estimating Equation|||||-0.04|-0.78|0.03
92165953|NCT00304031|184220549|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.33|TWO_SIDED|95.0|0.66|1.15||One-sided significance level = 0.05|Log Rank||Reference level = Conventional adjuvant TMZ|Methylated MGMT||1.15|0.66|0.33
92165954|NCT00304031|184220550|SUPERIORITY|||||||0.012||||||Two-sided significance level of 0.05|Chi-squared|||||||0.012
92165955|NCT00304031|184220551|SUPERIORITY||||||<|0.001|||||||Chi-squared|Two-sided significance level of 0.05||||||<0.001
92165956|NCT00304031|184220552|SUPERIORITY||||||<|0.001||||||Two-sided test|Log Rank|||||||<0.001
92165957|NCT00304031|184220553|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
92165958|NCT00304031|184220554|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||0.73
92165959|NCT00304031|184220555|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||0.57
92165960|NCT00304031|184220556|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||||||0.78
92165961|NCT00304031|184220557|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
92363045|NCT00945659|184629631|SUPERIORITY||Mean Difference (Net)|-10.05|STANDARD_DEVIATION|4.72||0.03|TWO_SIDED|95.0|-19.3|-0.81|||Generalized Estimating Equation|||||-0.81|-19.30|0.03
92363046|NCT00945659|184629631|SUPERIORITY||Mean Difference (Net)|-0.82|STANDARD_DEVIATION|5.47||0.88|TWO_SIDED|95.0|-11.54|9.9|||Generalized Estimating Equation|||||9.9|-11.54|0.88
92363047|NCT00945659|184629632|SUPERIORITY||Generalized Estimating Equation|-3.45|STANDARD_DEVIATION|4.98||0.49|TWO_SIDED|95.0|-13.21|6.32|||Generalized Estimating Equation|||||6.32|-13.21|0.49
92363048|NCT00945659|184629632|SUPERIORITY||Mean Difference (Net)|2.53|STANDARD_DEVIATION|5.76||0.66|TWO_SIDED|95.0|||||Generalized Estimating Equation|||||||0.66
92363049|NCT00945659|184629633|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_DEVIATION|0.86||0.64|TWO_SIDED|95.0|-1.29|2.08|||Generalized Estimating Equation|||||2.08|-1.29|0.64
92363050|NCT00945659|184629633|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_DEVIATION|0.92||0.65|TWO_SIDED|95.0|-2.22|1.39|||Generalized Estimating Equation|||||1.39|-2.22|0.65
92363051|NCT00945659|184629634|SUPERIORITY||Mean Difference (Net)|0.71|STANDARD_DEVIATION|63.4||0.99|TWO_SIDED|95.0|-123.56|124.97|||Generalized Estimating Equation|||||124.97|-123.56|0.99
92363052|NCT00945659|184629634|SUPERIORITY||Mean Difference (Net)|-1.22|STANDARD_DEVIATION|13.81||0.93|TWO_SIDED|95.0|-28.26|25.83|||Generalized Estimating Equation|||||25.83|-28.26|0.93
92363053|NCT00945659|184629635|SUPERIORITY||Mean Difference (Net)|1.17|STANDARD_DEVIATION|1.47||0.43|TWO_SIDED|95.0|-1.7|4.04|||Generalized Estimating Equation|||||4.04|-1.70|0.43
92363054|NCT00945659|184629635|SUPERIORITY||Mean Difference (Net)|-2.59|STANDARD_DEVIATION|1.87||0.08|TWO_SIDED|95.0|-5.5|0.32|||Generalized Estimating Equation|||||0.32|-5.50|0.08
92403329|NCT02224560|184698075|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0439|TWO_SIDED|95.0|1.02|3.3|||Regression, Logistic|Ordinal logistic regression model with treatment group as a fixed factor|Odds of participant recording a lower score (improvement) on a continuous scale|||3.30|1.02|0.0439
92403330|NCT02224560|184698075|SUPERIORITY||Odds Ratio (OR)|2.57||||0.002|TWO_SIDED|95.0|1.41|4.66|||Regression, Logistic|Ordinal logistic regression model with treatment group as a fixed factor|Odds of participant recording a lower score (improvement) on a continuous scale|||4.66|1.41|0.0020
92403331|NCT00728689|184698077|SUPERIORITY_OR_OTHER|||||||0.4591|||||||ANOVA|||A sample size of 12 subjects was chosen to provide a statistical power of 80% to detect a 25% difference of the Form V mean between the Form I and Form V doses at the 0.05 level (2-sided) for this crossover design. A parametric (normal theory) general linear model was applied and an ANOVA for a 2-way crossover design was employed to examine the differences among the 2 forms.||||0.4591
92403332|NCT00728689|184698078|SUPERIORITY_OR_OTHER|||||||0.0048|||||||ANOVA|||A sample size of 12 subjects was chosen to provide a statistical power of 80% to detect a 25% difference of the Form V mean between the Form I and Form V doses at the 0.05 level (2-sided) for this crossover design. Firstly, a parametric (normal theory) general linear model was applied and an ANOVA for a 2-way crossover design was employed to examine the differences among the 2 forms. Secondly, AUC0-τ was analyzed on a log scale, to assess bioequivalence between Form I and Form V.||||0.0048
92403333|NCT00728689|184698079|SUPERIORITY_OR_OTHER|||||||0.0997|||||||ANOVA|||A sample size of 12 subjects was chosen to provide a statistical power of 80% to detect a 25% difference of the Form V mean between the Form I and Form V doses at the 0.05 level (2-sided) for this crossover design. Firstly, a parametric (normal theory) general linear model was applied and an ANOVA for a 2-way crossover design was employed to examine the differences among the 2 forms. Secondly, AUC0-∞ was analyzed on a log scale, to assess bioequivalence between Form I and Form V.||||0.0997
92165962|NCT00304031|184220558|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||||||0.74
92165963|NCT00304031|184220559|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
92224343|NCT04289116|184350130|SUPERIORITY||Chi Square|0.03||||0.58|TWO_SIDED||||||Negative Binomial Regression|||Analysis only includes participants who participated in the We Test - Index arm and Individual HIV Testing and Counseling - Index arm on their own.||||0.58
92363055|NCT00945659|184629636|SUPERIORITY||Mean Difference (Net)|1.32|STANDARD_DEVIATION|1.66||0.43|TWO_SIDED|95.0|-1.94|4.56|||Generalized Estimating Equation|||||4.56|-1.94|0.43
92363056|NCT00945659|184629636|SUPERIORITY||Mean Difference (Net)|-3.71|STANDARD_DEVIATION|1.36||0.007|TWO_SIDED|95.0|-6.38|-1.04|||Generalized Estimating Equation|||||-1.04|-6.38|.007
92363057|NCT00945659|184629637|SUPERIORITY||Mean Difference (Net)|0.39|STANDARD_DEVIATION|1.23||0.75|TWO_SIDED|95.0|-2.02|2.79|||Generalized Estimating Equation|||||2.79|-2.02|0.75
92363058|NCT00945659|184629637|SUPERIORITY||Mean Difference (Net)|-0.39|STANDARD_DEVIATION|1.38||0.78|TWO_SIDED|95.0|-3.09|2.32|||Generalized Estimating Equation|||||2.32|-3.09|0.78
92363059|NCT00945659|184629638|SUPERIORITY||Mean Difference (Net)|0.72|STANDARD_DEVIATION|1.31||0.58|TWO_SIDED|95.0|-1.86|3.29|||Generalized Estimating Equation|||||3.29|-1.86|0.58
92363060|NCT00945659|184629638|SUPERIORITY||Mean Difference (Net)|-0.93|STANDARD_DEVIATION|1.14||0.41|TWO_SIDED|95.0|-3.17|1.3|||Generalized Estimating Equation|||||1.3|-3.17|0.41
92363061|NCT00945659|184629639|SUPERIORITY||Mean Difference (Net)|1.95|STANDARD_DEVIATION|2.66||0.46|TWO_SIDED|95.0|-3.26|7.15|||Generalized Estimating Equation|||||7.15|-3.26|0.46
92363062|NCT00945659|184629639|SUPERIORITY||Mean Difference (Net)|-3.01|STANDARD_DEVIATION|2.54||0.24|TWO_SIDED|95.0|-7.99|1.96|||Generalized Estimating Equation|||||1.96|-7.99|0.24
92363063|NCT00945659|184629640|SUPERIORITY||Mean Difference (Net)|0.31|STANDARD_DEVIATION|3.37||0.93|TWO_SIDED|95.0|-6.33|6.91|||Generalized Estimating Equation|||||6.91|-6.33|0.93
92363064|NCT00945659|184629640|SUPERIORITY||Mean Difference (Net)|-2.21|STANDARD_DEVIATION|2.95||0.45|TWO_SIDED|95.0|-8.01|3.57|||Generalized Estimating Equation|||||3.57|-8.01|0.45
92363065|NCT00945659|184629641|SUPERIORITY||Mean Difference (Net)|-0.77|STANDARD_DEVIATION|3.26||0.81|TWO_SIDED|95.0|-7.15|5.62|||Generalized Estimating Equestion|||||5.62|-7.15|0.81
92363066|NCT00945659|184629641|SUPERIORITY||Mean Difference (Net)|0.99|STANDARD_DEVIATION|2.63||0.72|TWO_SIDED|95.0|-4.11|6.08|||Generalized Estimating Equation|||||6.08|-4.11|0.72
92363067|NCT00945659|184629642|SUPERIORITY||Mean Difference (Net)|0.99|STANDARD_DEVIATION|2.6||0.71|TWO_SIDED|95.0|-4.11|6.08|||Generalized Estimating Equation|||||6.08|-4.11|0.71
92403334|NCT00728689|184698080|SUPERIORITY_OR_OTHER|||||||0.0422|||||||ANOVA|||A sample size of 12 subjects was chosen to provide a statistical power of 80% to detect a 25% difference of the Form V mean between the Form I and Form V doses at the 0.05 level (2-sided) for this crossover design. Firstly, a parametric (normal theory) general linear model was applied and an ANOVA for a 2-way crossover design was employed to examine the differences among the 2 forms. Secondly, Cmax was analyzed on a log scale, to assess bioequivalence between Form I and Form V.||||0.0422
92403335|NCT00728689|184698081|SUPERIORITY_OR_OTHER|||||||0.8581|||||||ANOVA|||A sample size of 12 subjects was chosen to provide a statistical power of 80% to detect a 25% difference of the Form V mean between the Form I and Form V doses at the 0.05 level (2-sided) for this crossover design. A parametric (normal theory) general linear model was applied and an ANOVA for a 2-way crossover design was employed to examine the differences among the 2 forms.||||0.8581
92165964|NCT00304031|184220560|SUPERIORITY|||||||0.2184|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with EORTC QLQ-C30 Global Health Status Score (baseline, 10,12, 22, 24, and 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. Treatment arm is reported here.||||0.2184
92165965|NCT00304031|184220560|SUPERIORITY|||||||0.0763|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with EORTC QLQ-C30 Global Health Status Score (baseline, 10,12, 22, 24, and 46 weeks) as the outcome of interest. Treatment arm, RPA class, MGMT status, and time were included in the model. RPA class is reported here.||||0.0763
92363068|NCT00945659|184629642|SUPERIORITY||Mean Difference (Net)|-1.16|STANDARD_DEVIATION|2.85||0.68|TWO_SIDED|95.0|-6.74|4.43|||Generalized Estimating Equation|||||4.43|-6.74|0.68
92363069|NCT00565409|184629653|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.36|||<|0.0001|TWO_SIDED|95.0|3.2|9.0||P-value from Cochran-Mantel-Haenszel(CMH) test of general association, testing treatment effect on response. P-value and Odds Ratio (OR) stratified by geographic region.|Cochran-Mantel-Haenszel|Loss of efficacy (LOE) imputation defined as LOE drop-outs were treated as non-responders/all other participants had LOCF applied as primary analysis.||Sample size estimated based on moderate/severe rheumatoid arthritis(RA) trial. Study design included only moderate RA participants, thus a low disease activity estimate of 85% (ETN+MTX) vs 70% (MTX only) assumed, required 175 randomized participants in 3 treatments for a 90% power and Type I error of 0.05 to reject the null hypothesis of no ETN+MTX vs MTX only differences. More participants qualified for Period 2 than expected, Period 2 sample size roughly 15% larger than protocol-specified.||9.0|3.2|<0.0001
92363070|NCT00565409|184629653|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.3805|TWO_SIDED|95.0|0.7|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|LOE imputation defined as LOE drop-outs were treated as non-responders and all other participants had LOCF applied as primary analysis.||||2.0|0.7|0.3805
92363071|NCT00565409|184629653|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.81|||<|0.0001|TWO_SIDED|95.0|3.0|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|LOE imputation defined as LOE drop-outs were treated as non-responders and all other participants had LOCF applied as primary analysis.||||7.6|3.0|<0.0001
92363072|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.11||||0.0853|TWO_SIDED|95.0|0.5|21.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Low Disease Activity||21.4|0.5|0.0853
92363073|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8491|TWO_SIDED|95.0|0.2|4.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Low Disease Activity||4.8|0.2|0.8491
92363074|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.97||||0.1278|TWO_SIDED|95.0|0.4|42.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Low Disease Activity||42.5|0.4|0.1278
92363075|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.63|||<|0.0001|TWO_SIDED|95.0|2.1|6.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Low Disease Activity||6.4|2.1|<0.0001
92363076|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43||||0.3027|TWO_SIDED|95.0|0.8|2.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Low Disease Activity||2.7|0.8|0.3027
92363077|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51|||<|0.0001|TWO_SIDED|95.0|1.5|4.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Low Disease Activity||4.2|1.5|<0.0001
92224344|NCT04289116|184350131|SUPERIORITY||Mean Difference (Final Values)|-1.82||||0.08|TWO_SIDED||||||t-test, 2 sided|||Analysis only includes participants who participated in the We Test - Index arm and Individual HIV Testing and Counseling - Index arm on their own.||||0.08
92363078|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.55|||<|0.0001|TWO_SIDED|95.0|2.7|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Low Disease Activity||7.6|2.7|<0.0001
92363079|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.5871|TWO_SIDED|95.0|0.7|2.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Low Disease Activity||2.1|0.7|0.5871
92363080|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.76|||<|0.0001|TWO_SIDED|95.0|2.3|6.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Low Disease Activity||6.1|2.3|<0.0001
92363081|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.52|||<|0.0001|TWO_SIDED|95.0|3.9|11.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Low Disease Activity||11.0|3.9|<0.0001
92363082|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.6716|TWO_SIDED|95.0|0.6|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Low Disease Activity||2.0|0.6|0.6716
92403336|NCT01523366|184698082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-167.2|STANDARD_ERROR_OF_MEAN|14.6|<|0.001|TWO_SIDED|95.0|-197.0|-137.4|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|||-137.4|-197.0|<.001
92403337|NCT01523366|184698083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-135.2|STANDARD_ERROR_OF_MEAN|18.23|<|0.001|TWO_SIDED|95.0|-172.3|-98.0|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus Clopidogrel|Analysis at 0.5 hours after the loading dose||-98.0|-172.3|<.001
92403338|NCT01523366|184698083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-168.9|STANDARD_ERROR_OF_MEAN|17.28|<|0.001|TWO_SIDED|95.0|-204.0|-133.7|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus Clopidogrel|Analysis at 8 hours after the loading dose||-133.7|-204.0|<.001
92363083|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.4|||<|0.0001|TWO_SIDED|95.0|3.4|8.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Low Disease Activity||8.6|3.4|<0.0001
92363084|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.62|||<|0.0001|TWO_SIDED|95.0|2.8|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Low Disease Activity||7.6|2.8|<0.0001
92363085|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.9399|TWO_SIDED|95.0|0.5|1.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Low Disease Activity||1.5|0.5|0.9399
92363086|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.78|||<|0.0001|TWO_SIDED|95.0|3.0|7.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Low Disease Activity||7.7|3.0|<0.0001
92363087|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.25|||<|0.0001|TWO_SIDED|95.0|3.7|10.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Low Disease Activity||10.5|3.7|<0.0001
92165966|NCT00304031|184220560|SUPERIORITY|||||||0.5235|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with EORTC QLQ-C30 Global Health Status Score (baseline, 10,12, 22, 24, and 46 weeks) as the outcome of interest. Treatment arm, RPA class, MGMT status, and time were included in the model. MGMT status is reported here.||||0.5235
92165967|NCT00304031|184220561|SUPERIORITY|||||||0.03|||||||Z-test of two proportions|||||||0.03
92165968|NCT00304031|184220562|SUPERIORITY|||||||0.03|||||||Z-test of two proportions|||||||0.03
92165969|NCT00304031|184220563|SUPERIORITY|||||||0.0002|||||||Chi-squared|Two-sided test||||||0.0002
92165970|NCT00304031|184220564|SUPERIORITY|||||||0.005|||||||Fisher Exact|Two-sided test||||||0.005
92165971|NCT00304031|184220565|SUPERIORITY|||||||0.018|||||||Fisher Exact|Two-sided test||||||0.018
92165972|NCT00304031|184220566|SUPERIORITY|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||||||0.1702|||||||Mixed Models Analysis|||A mixed effects model was run with MDASI Symptom Severity Score (baseline, 10, 12, 22, 24, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. Treatment arm is reported here.||||0.1702
92363088|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.6692|TWO_SIDED|95.0|0.6|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Low Disease Activity||1.9|0.6|0.6692
92363089|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.46|||<|0.0001|TWO_SIDED|95.0|3.4|8.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Low Disease Activity||8.7|3.4|<0.0001
92363090|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.74|||<|0.0001|TWO_SIDED|95.0|3.4|9.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80 Low Disease Activity||9.8|3.4|<0.0001
92403339|NCT01523366|184698084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-150.5|STANDARD_ERROR_OF_MEAN|12.97|<|0.001|TWO_SIDED|95.0|-176.9|-124.1|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus Clopidogrel|Analysis at 2 hours on Day 7 after multiple doses||-124.1|-176.9|<.001
92165973|NCT00304031|184220566|SUPERIORITY|||||||0.8159|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with EORTC QLQ-C30 Global Health Status Score (baseline, 10, 12, 22, 24, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. RPA is reported here.||||0.8159
92363091|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.4326|TWO_SIDED|95.0|0.7|2.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80 Low Disease Activity||2.1|0.7|0.4326
92363092|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.12|||<|0.0001|TWO_SIDED|95.0|3.2|8.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80 Low Disease Activity||8.2|3.2|<0.0001
92363093|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.68|||<|0.0001|TWO_SIDED|95.0|2.8|7.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Low Disease Activity||7.8|2.8|<0.0001
92363094|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.6064|TWO_SIDED|95.0|0.6|1.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Low Disease Activity||1.8|0.6|0.6064
92363095|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.68|||<|0.0001|TWO_SIDED|95.0|3.0|7.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Low Disease Activity||7.4|3.0|<0.0001
92363096|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.4626|TWO_SIDED|95.0|0.5|3.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Remission||3.3|0.5|0.4626
92363097|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.2886|TWO_SIDED|95.0|0.6|3.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Remission||3.3|0.6|0.2886
92363098|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.7779|TWO_SIDED|95.0|0.4|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Remission||1.9|0.4|0.7779
92363099|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.94|||<|0.0001|TWO_SIDED|95.0|1.8|4.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Remission||4.7|1.8|<0.0001
92363100|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.2091|TWO_SIDED|95.0|0.8|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Remission||2.0|0.8|0.2091
92363101|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.31|||<|0.0001|TWO_SIDED|95.0|1.5|3.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Remission||3.6|1.5|<0.0001
92363102|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.33|||<|0.0001|TWO_SIDED|95.0|2.1|5.2||p-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Remission||5.2|2.1|<0.0001
92363103|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.5351|TWO_SIDED|95.0|0.7|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Remission||1.7|0.7|0.5351
92165974|NCT00304031|184220566|SUPERIORITY|||||||0.2174|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with EORTC QLQ-C30 Global Health Status Score (baseline, 10, 12, 22, 24, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. MGMT status is reported here.||||0.2174
92363104|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.12|||<|0.0001|TWO_SIDED|95.0|2.0|4.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Remission||4.8|2.0|<0.0001
92363105|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.09|||<|0.0001|TWO_SIDED|95.0|2.6|6.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Remission||6.5|2.6|<0.0001
92363106|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.4574|TWO_SIDED|95.0|0.5|1.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Remission||1.3|0.5|0.4574
92363107|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.04|||<|0.0001|TWO_SIDED|95.0|3.2|8.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Remission||8.0|3.2|<0.0001
92363108|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.19|||<|0.0001|TWO_SIDED|95.0|2.7|6.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Remission||6.6|2.7|<0.0001
92363109|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.5229|TWO_SIDED|95.0|0.7|1.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Remission||1.8|0.7|0.5229
92224345|NCT04289116|184350131|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.02|TWO_SIDED||||||t-test, 2 sided|||Analysis only includes participants who participated in the We Test - Index arm and Individual HIV Testing and Counseling - Index arm on their own.||||0.02
92363110|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.84|||<|0.0001|TWO_SIDED|95.0|2.5|6.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Remission||6.0|2.5|<0.0001
92363111|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.36|||<|0.0001|TWO_SIDED|95.0|3.3|8.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Remission||8.6|3.3|<0.0001
92363112|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.6464|TWO_SIDED|95.0|0.7|1.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Remission||1.8|0.7|0.6464
92363113|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.79|||<|0.0001|TWO_SIDED|95.0|3.0|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Remission||7.6|3.0|<0.0001
92363114|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.96|||<|0.0001|TWO_SIDED|95.0|3.1|7.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80 Remission||7.9|3.1|<0.0001
92363115|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.5499|TWO_SIDED|95.0|0.7|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80 Remission||1.7|0.7|0.5499
92363116|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.11|||<|0.0001|TWO_SIDED|95.0|2.6|6.4|||Cochran-Mantel-Haenszel|||Week 80 Remission||6.4|2.6|<0.0001
92363117|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.41|||<|0.0001|TWO_SIDED|95.0|2.8|7.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Remission||7.0|2.8|<0.0001
92363118|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.1109|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Remission||1.9|0.8|0.1109
92363119|NCT00565409|184629655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.85|||<|0.0001|TWO_SIDED|95.0|2.5|6.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Remission||6.0|2.5|<0.0001
92363120|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 40||-0.4|-0.7|<0.0001
92363121|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9344|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 40||0.2|-0.2|0.9344
92363122|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 40||-0.4|-0.7|<0.0001
92224346|NCT01358864|184350132|SUPERIORITY_OR_OTHER||Adjusted percent difference|52.8|||<|0.0001|TWO_SIDED|95.0|42.4|63.2||Adjusted for genotype and previous response to treatment|Cochran-Mantel-Haenszel|||||63.2|42.4|<0.0001
92224347|NCT01358864|184350132|SUPERIORITY_OR_OTHER||Adjusted percent difference|48.5|||<|0.0001|TWO_SIDED|95.0|38.2|58.9||Adjusted for genotype and previous response to treatment|Cochran-Mantel-Haenszel|||||58.9|38.2|<0.0001
92224348|NCT01358864|184350132|SUPERIORITY_OR_OTHER||Adjusted percent difference|4.4|||||TWO_SIDED|95.0|-6.0|14.9||||||||14.9|-6.0|
92224349|NCT01358864|184350132|SUPERIORITY_OR_OTHER||Adjusted percent difference|-0.1|||||TWO_SIDED|95.0|-10.9|10.7||||||||10.7|-10.9|
92363123|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 48||-0.7|-1.0|<0.0001
92363124|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.6173|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 48||0.2|-0.1|0.6173
92363125|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 48||-0.7|-1.1|<0.0001
92363126|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 56||-0.7|-1.1|<0.0001
92363127|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.5136|TWO_SIDED|95.0|-0.1|0.3|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 56||0.3|-0.1|0.5136
92363128|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 56||-0.8|-1.2|<0.0001
92363129|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 64||-0.7|-1.1|<0.0001
92224350|NCT01358864|184350132|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Normal approximation|||Comparison is based on the Null:Faldaprevir 12 weeks vs historical rate of 20%.||||<0.0001
92363130|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.4868|TWO_SIDED|95.0|-0.1|0.3|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 64||0.3|-0.1|0.4868
92363131|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 64||-0.7|-1.1|<0.0001
92363132|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 72||-0.8|-1.3|<0.0001
92363133|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.7847|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 72||0.2|-0.2|0.7847
92363134|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 72||-0.8|-1.2|<0.0001
92363135|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 80||-0.8|-1.2|<0.0001
92363136|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.981|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 80||0.2|-0.2|0.9810
92363137|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 80||-0.8|-1.2|<0.0001
92363138|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 88||-0.8|-1.3|<0.0001
92363139|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3562|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 88||0.1|-0.3|0.3562
92363140|NCT00565409|184629657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 88||-0.7|-1.2|<0.0001
92363141|NCT00565409|184629658|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||Imputation of failure defined as participants who did not reach the endpoint and discontinued due to lack of efficacy, with reason of unsatisfactory response-efficacy, adverse event, other or protocol violation were set to an event at time of discontinuation.||||<0.0001
92224351|NCT01358864|184350132|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Normal approximation|||Comparison is based on the Null:Faldaprevir 24 weeks vs historical rate of 20%.||||0.0001
92224352|NCT01358864|184350134|SUPERIORITY_OR_OTHER||Adjusted percent difference|54.7|||<|0.0001|TWO_SIDED|95.0|44.4|65.0||Adjusted for genotype and previous response to treatment|Cochran-Mantel-Haenszel|||||65.0|44.4|<0.0001
92224353|NCT01358864|184350134|SUPERIORITY_OR_OTHER||Adjusted percent difference|50.4|||<|0.0001|TWO_SIDED|95.0|40.1|60.8||Adjusted for genotype and previous response to treatment|Cochran-Mantel-Haenszel|||||60.8|40.1|<0.0001
92224354|NCT01358864|184350134|SUPERIORITY_OR_OTHER||Adjusted percent difference|4.5|||||TWO_SIDED|95.0|-5.8|14.9||||||||14.9|-5.8|
92224355|NCT01358864|184350134|SUPERIORITY_OR_OTHER||Adjusted percent difference|-0.1|||||TWO_SIDED|95.0|-10.9|10.7||||||||10.7|-10.9|
92224356|NCT01358864|184350134|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Normal approximation|||Comparison is based on the Null:Faldaprevir 12 weeks vs historical rate of 20%.||||<0.0001
92224357|NCT01358864|184350134|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Normal approximation|||Comparison is based on the Null:Faldaprevir 24 weeks vs historical rate of 20%.||||0.0001
92363142|NCT00565409|184629658|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||Imputation of failure defined as participants who did not reach the endpoint and discontinued due to lack of efficacy, with reason of unsatisfactory response-efficacy, adverse event, other or protocol violation were set to an event at time of discontinuation.||||<0.0001
92224358|NCT04209855|184350154|SUPERIORITY||Cox Proportional Hazard|0.63|||<|0.0001|TWO_SIDED|95.0|0.513|0.785|||Log Rank|||||0.785|0.513|<0.0001
92224359|NCT00507559|184350163|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||This is compared to a historical control group, in which 11.1% of subjects experienced one or more MAE within 30 days.||||<0.001
92276802|NCT01271933|184455252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|4.89||0.5938|TWO_SIDED|95.0|-7.1|12.3||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Role-Physical||12.3|-7.1|0.5938
92363143|NCT00565409|184629658|SUPERIORITY_OR_OTHER|||||||0.8622|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||Imputation of failure defined as participants who did not reach the endpoint and discontinued due to lack of efficacy, with reason of unsatisfactory response-efficacy, adverse event, other or protocol violation were set to an event at time of discontinuation.||||0.8622
92363144|NCT00565409|184629659|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||||||<0.0001
92363145|NCT00565409|184629659|SUPERIORITY_OR_OTHER|||||||0.9841|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||||||0.9841
92363146|NCT00565409|184629659|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||||||<0.0001
92363147|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.1|<0.0001
92363148|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.8015|TWO_SIDED|95.0|-0.3|0.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||0.3|-0.3|0.8015
92403340|NCT01523366|184698084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-140.2|STANDARD_ERROR_OF_MEAN|13.84|<|0.001|TWO_SIDED|95.0|-168.4|-111.9|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel.|Analysis at 8 hours on Day 7 after multiple doses||-111.9|-168.4|<.001
92403341|NCT01523366|184698084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-130.6|STANDARD_ERROR_OF_MEAN|13.41|<|0.001|TWO_SIDED|95.0|-158.0|-103.2|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel.|Analysis at end of dosing interval on Day 8||-103.2|-158.0|<.001
92403342|NCT00929695|184698160|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||t-test, 2 sided|||||||0.08
92403343|NCT00929695|184698160|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||t-test, 2 sided|||||||0.4
92403344|NCT00929695|184698168|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43|||||TWO_SIDED|95.0|0.14|1.33||||||||1.33|0.14|
92403345|NCT00929695|184698169|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||0.009|TWO_SIDED|95.0|0.12|0.74|||Regression, Cox|||||0.74|0.12|0.009
92403346|NCT00929695|184698171|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.95|TWO_SIDED|95.0|0.6|1.74|||Regression, Cox|||||1.74|0.6|0.95
92403347|NCT01352715|184698235|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Confidence interval estimation was stratified by randomization stratification factors using Greenwood's variance with the inverse of this variance used for the stratum weights. The pre-specified upper confidence bound for non-inferiority was 10 percentage points.|Cumulative probability difference|-3.4|||||TWO_SIDED|95.0|-8.4|1.5||||||Treatment comparison was made using the difference (arm A - arm B) in the stratified Kaplan-Meier estimate for the week 48 cumulative probability of virologic failure with 95% confidence interval.||1.5|-8.4|
92403348|NCT05966142|184698244|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.5913|TWO_SIDED|95.0|-0.42|0.74|||t-test, 2 sided|||||0.74|-0.42|0.5913
92165975|NCT00304031|184220567|OTHER|||||||0.023|||||||Regression, Cox|||A Cox proportional hazards model was run with overall survival as the outcome of interest and baseline scores as continuous covariates. The final model was determined from stepwise selection. EORTC physical functioning, EORTC role functioning, standardized HVLT-R recognition, standardized HVLT-R recall, and standardized COWA were included in the initial model. EORTC physical functioning is reported here.||||0.023
92403349|NCT05966142|184698245|SUPERIORITY|||||||0.6803|||||||t-test, 2 sided|||||||0.6803
92403350|NCT05966142|184698246|SUPERIORITY|||||||0.1228|||||||Chi-squared|||||||0.1228
92165976|NCT00304031|184220567|OTHER|||||||0.043|||||||Regression, Cox|||A Cox proportional hazards model was run with overall survival as the outcome of interest and baseline scores as continuous covariates. The final model was determined from stepwise selection. EORTC physical functioning, EORTC role functioning, standardized HVLT-R recognition, standardized HVLT-R recall, and standardized COWA were included in the initial model. Standardized HVLT-R recognition is reported here.||||0.043
92165977|NCT00304031|184220567|OTHER|||||||0.021|||||||Regression, Cox|||A Cox proportional hazards model was run with overall survival as the outcome of interest and baseline scores as continuous covariates. The final model was determined from stepwise selection. EORTC physical functioning, EORTC role functioning, standardized HVLT-R recognition, standardized HVLT-R recall, and standardized COWA were included in the initial model. Standardized COWA is reported here.||||0.021
92403351|NCT05966142|184698247|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.5252|TWO_SIDED|95.0|-1.7|0.9|||t-test, 2 sided|||||0.9|-1.7|0.5252
92403352|NCT05966142|184698248|SUPERIORITY|||||||0.9657|||||||Chi-squared|||||||0.9657
92403353|NCT00894803|184698257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.15||||0.053|TWO_SIDED|95.0|0.01|1.4|||Regression, Logistic|an exact logistic regression was used due to the number of events|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||1.40|0.01|0.053
92403354|NCT00894803|184698258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74||||0.23|TWO_SIDED|95.0|0.7|4.31|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||4.31|0.70|0.23
92403355|NCT00894803|184698258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.53|TWO_SIDED|95.0|0.51|3.71|||Regression, Logistic|adjusting for age, baseline NIHSS score and time to IV rt-PA|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||3.71|0.51|0.53
92403356|NCT00894803|184698260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.15||||0.053|TWO_SIDED|95.0|0.01|1.4|||Regression, Logistic|Exact method used due to number of responses|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||1.40|0.01|0.053
92403357|NCT00894803|184698261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.76||95.0|0.35|8.02|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||8.02|0.35|0.76
92403358|NCT00894803|184698262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.99999|TWO_SIDED|95.0|0.24|5.92|||Regression, Logistic|Exact method used due to small number of responses|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||5.92|0.24|0.99999
92403359|NCT00894803|184698263|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.99999|TWO_SIDED|95.0|0.24|5.92|||Regression, Logistic|Exact method used due to number of responses|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||5.92|0.24|0.99999
92403360|NCT00894803|184698264|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.78|TWO_SIDED|95.0|0.38|5.76|||Regression, Logistic|Exact methods used due t number of responses|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||5.76|0.38|0.78
92403361|NCT00894803|184698265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.99999|TWO_SIDED|95.0|0.26|4.18|||Regression, Logistic|Exact method used due to number of responses|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||4.18|0.26|0.99999
92403362|NCT00894803|184698266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.35|TWO_SIDED|95.0|0.63|3.67|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||3.67|0.63|0.35
92165978|NCT00304031|184220568|SUPERIORITY|||||||0.2357|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with NCF Composite Score (baseline, 10, 22, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. Treatment arm is reported here.||||0.2357
92363149|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.1|<0.0001
92363150|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-0.7|-1.5|<0.0001
92403363|NCT00894803|184698266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.85|TWO_SIDED|95.0|0.4|3.02|||Regression, Logistic|adjusting for age, baseline NIHSS and time to IV rt-PA|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||3.02|0.40|0.85
92403364|NCT00894803|184698267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.3|TWO_SIDED|95.0|0.65|3.88|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||3.88|0.65|0.30
92403365|NCT00894803|184698267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.73|TWO_SIDED|95.0|0.44|3.24|||Regression, Logistic|adjusting for age, baseline NIHSS and time to IV rt-PA|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||3.24|0.44|0.73
92403366|NCT00894803|184698268|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.31|TWO_SIDED|95.0|0.61|4.99|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||4.99|0.61|0.31
92403367|NCT00894803|184698269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.55|TWO_SIDED|95.0|0.47|4.07|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||4.07|0.47|0.55
92403368|NCT00894803|184698270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.82|TWO_SIDED|95.0|0.46|2.67|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||2.67|0.46|0.82
92403369|NCT00894803|184698271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.44||||0.07|TWO_SIDED|95.0|0.9|6.64|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||6.64|0.90|0.07
92363151|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.8534|TWO_SIDED|95.0|-0.4|0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||0.4|-0.4|0.8534
92363152|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-0.8|-1.6|<0.0001
92403370|NCT00894803|184698271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98||||0.22|TWO_SIDED|95.0|0.67|5.88|||Regression, Logistic|adjusting for age, baseline NIHSS and time to IV rt-PA|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||5.88|0.67|0.22
92403371|NCT00449696|184698273|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.91||||0.122||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.122
92403372|NCT00449696|184698274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.42||||0.071||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.071
92403373|NCT00449696|184698275|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.64||||0.058||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.058
92276803|NCT01271933|184455252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|4.61||0.4842|TWO_SIDED|95.0|-5.9|12.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Pain Index||12.4|-5.9|0.4842
92403374|NCT00449696|184698276|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.022||95.0||||P-value for strict OMERACT-OARSI response.|Generalized Estimating Equation Model|||||||0.022
92403375|NCT00449696|184698276|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.242||95.0||||P-value for OMERACT-OARSI response.|Generalized Estimating Equation Model|||||||0.242
92403376|NCT00449696|184698277|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||P-value for physical component scores, physical function subscale, role physical subscale, and bodily pain subscale.|Wilcoxon (Mann-Whitney)|||||||>0.05
92403377|NCT00449696|184698278|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.39||||0.037||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.037
92403378|NCT00449696|184698279|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.92||||0.746||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.746
92403379|NCT00449696|184698280|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.56||||0.166||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.166
92165979|NCT00304031|184220568|SUPERIORITY|||||||0.0147|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with NCF Composite Score (baseline, 10, 22, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. RPA is reported here.||||0.0147
92165980|NCT00304031|184220568|SUPERIORITY|||||||0.457|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with NCF Composite Score (baseline, 10, 22, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. MGMT Status is reported here.||||0.457
92165981|NCT00304031|184220569|SUPERIORITY|||||||0.02|||||||Chi-squared|Two-sided test||||||0.02
92363153|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.8|-1.7|<0.0001
92363154|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.9074|TWO_SIDED|95.0|-0.4|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||0.5|-0.4|0.9074
92363155|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.8|-1.7|<0.0001
92363156|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|||<|0.0001|TWO_SIDED|95.0|-1.8|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-0.8|-1.8|<0.0001
92363157|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.9229|TWO_SIDED|95.0|-0.4|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||0.5|-0.4|0.9229
92363158|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.8|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-0.8|-1.8|<0.0001
92363159|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.0|-1.9|<0.0001
92403380|NCT00449696|184698281|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.041
92403381|NCT00307801|184698284|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||inverting 2 one-sided tests|||||||< 0.0001
92165982|NCT00304031|184220570|SUPERIORITY|||||||0.99|||||||Fisher Exact|Two-sided test||||||0.99
92165983|NCT00304031|184220571|SUPERIORITY|||||||0.33|||||||Fisher Exact|Two-sided test||||||0.33
92165984|NCT02396316|184220588|SUPERIORITY_OR_OTHER||Difference of LS mean change|-4.9||||0.0644|TWO_SIDED|95.0|-10.2|0.3|||ANCOVA|||Point estimate, 95% CI and P-value were based on treatment difference of the LS mean changes using an ANCOVA model with treatment group and stage of NVG for randomization as fixed effects, baseline value as covariate. The superiority of aflibercept injection to sham injection was to be established if the upper limit of the two-sided 95% confidence interval for the difference (the aflibercept group minus the sham group) is less than 0.||0.3|-10.2|0.0644
92363160|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.9279|TWO_SIDED|95.0|-0.5|0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||0.4|-0.5|0.9279
92363161|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.42|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.0|-1.9|<0.0001
92363162|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58|||<|0.0001|TWO_SIDED|95.0|-2.1|-1.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.1|-2.1|<0.0001
92363163|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.7695|TWO_SIDED|95.0|-0.6|0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||0.4|-0.6|0.7695
92363164|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.0|-2.0|<0.0001
92363165|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.3|-1.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.2|-2.3|<0.0001
92363166|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.2182|TWO_SIDED|95.0|-0.8|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||0.2|-0.8|0.2182
92403382|NCT00795535|184698373|SUPERIORITY_OR_OTHER||||||<|0.15|TWO_SIDED|||||To avoid overfitting the models, only predictors with p\<0.15 were included in the final models.|Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum tests were used to compare continuous predictors, whereas chi-square tests were used to compare dichotomized predictors between those with and without serious injury. Test characteristics (specificity and positive/negative predictive values) of continuous predictors were reported based on threshold values chosen for a minimum of 80% of sensitivity. Multiple logistic regression models were used to examine the marginal effect of each predictor.||||< 0.15
92165985|NCT02396316|184220589|SUPERIORITY_OR_OTHER||MH adjusted difference|59.1|||||TWO_SIDED|95.0|37.0|81.2|||Mantel Haenszel|||The point estimate of the treatment difference (the aflibercept group minus the sham group) at Week 1 and its two-sided 95% confidence interval stratified by stage of NVG (as randomized) using Mantel-Haenszel weights.||81.2|37.0|
92363167|NCT00565409|184629663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44|||<|0.0001|TWO_SIDED|95.0|-1.9|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-0.9|-1.9|<0.0001
92363168|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86||||0.0003|TWO_SIDED|95.0|-1.3|-0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.4|-1.3|0.0003
92363169|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.6088|TWO_SIDED|95.0|-0.3|0.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||0.6|-0.3|0.6088
92363170|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.4|<0.0001
92363171|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.02|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-1.4|-2.6|<0.0001
92363172|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.9048|TWO_SIDED|95.0|-0.5|0.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANOVA|||Week 48||0.6|-0.5|0.9048
92363173|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-1.5|-2.6|<0.0001
92363174|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-1.5|-2.6|<0.0001
92165986|NCT00566735|184220602|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 1 sided|Degrees of freedom = 28||Independent t-test to assess differences between the placebo and galantamine groups in regard to pre- and post-ECT scores on the Delayed Memory Index (DMI).||||<0.05
92165987|NCT04603924|184220606|OTHER||||||||||||||||||"For the analysis of this efficacy endpoint, missing scores of the WHO Ordinal Scale for Clinical Improvement will be assumed to be \> 2 (i.e., no hospital discharge). Median time-to-clinical improvement and corresponding 95% confidence interval were estimated from the Kaplan-Meier curves. In some cases the 95% confidence interval was Not Evaluable (NE) by this method."|||
92165988|NCT04603924|184220607|OTHER||||||||||||||||||"For the analysis of this efficacy endpoint, missing scores of the WHO Ordinal Scale for Clinical Improvement were be assumed to be \> 2 (i.e., no hospital discharge). Median number of days to a 2-point improvement and corresponding 95% confidence interval were estimated from the Kaplan-Meier curves.~In some cases the 95% confidence interval was Not Evaluable (NE) by this method."|||
92363175|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.8437|TWO_SIDED|95.0|-0.6|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||0.5|-0.6|0.8437
92363176|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-1.4|-2.6|<0.0001
92363177|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-1.4|-2.6|<0.0001
92363178|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.8587|TWO_SIDED|95.0|-0.6|0.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||0.7|-0.6|0.8587
92165989|NCT03762668|184220615|NON_INFERIORITY|Noninferiority in VA was declared if the Upper Confidence Limit was less than 0.05.|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.005|||ONE_SIDED|95.0||0.01|||mixed effects repeated measures model||test minus control|||0.01||
92363179|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.03|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-1.4|-2.6|<0.0001
92363180|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.38|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.8|-3.0|<0.0001
92363181|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.6323|TWO_SIDED|95.0|-0.8|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||0.5|-0.8|0.6323
92363182|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.23|||<|0.0001|TWO_SIDED|95.0|-2.9|-1.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.6|-2.9|<0.0001
92363183|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.28|||<|0.0001|TWO_SIDED|95.0|-2.9|-1.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.6|-2.9|<0.0001
92363184|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.6558|TWO_SIDED|95.0|-0.8|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||0.5|-0.8|0.6558
92363185|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.14|||<|0.0001|TWO_SIDED|95.0|-2.8|-1.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.5|-2.8|<0.0001
92403383|NCT03955146|184698374|OTHER||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.062||0.2926|TWO_SIDED|95.0|-0.06|0.19|||Mixed Models Analysis|||||0.19|-0.06|0.2926
92403384|NCT04363320|184698382|SUPERIORITY||Slope|0.538|STANDARD_DEVIATION|0.169||0.002|TWO_SIDED|||||a prior threshold 0.05|Mixed Models Analysis||Slope is per month|Change in new patient counts (Combined MOUD) for Intervention Phase (from baseline to 12 months)||||0.002
92403385|NCT04363320|184698382|SUPERIORITY||Slope|0.38|STANDARD_DEVIATION|0.113||0.0008|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new patient counts (Buprenorphine) for Intervention Phase (from baseline to 12 months)||||0.0008
92403386|NCT04363320|184698382|SUPERIORITY||Slope|0.207|STANDARD_DEVIATION|0.129||0.111|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new patient counts (Methadone) for Intervention Phase (from baseline to 12 months)||||0.111
92403387|NCT04363320|184698382|SUPERIORITY||Slope|0.017|STANDARD_DEVIATION|0.014||0.235|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new patient counts (Naltrexone) for Intervention Phase (from baseline to 12 months)||||0.235
92403388|NCT04363320|184698383|SUPERIORITY||Slope|0.153|STANDARD_DEVIATION|0.218||0.485|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month|Change in new patient counts (Combined MOUD) for Sustainability Phase (from 13 to 24 months)||||0.485
92403389|NCT04363320|184698383|SUPERIORITY||Slope|0.642|STANDARD_DEVIATION|0.19||0.0008|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new Justice Involved Person counts (Buprenorphine) for Sustainability Phase (from 13 to 24 months)||||0.0008
92403390|NCT04363320|184698383|SUPERIORITY||Slope|-0.377|STANDARD_DEVIATION|0.154||0.015|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new patient counts (Methadone) for Sustainability Phase (from 13 to 24 months)||||0.015
92403391|NCT04363320|184698383|SUPERIORITY||Slope|-0.02|STANDARD_DEVIATION|0.017||0.241|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new patient counts (Naltrexone) for Sustainability Phase (from 13 to 24 months)||||0.241
92403392|NCT04363320|184698384|SUPERIORITY||Slope|1.912|STANDARD_DEVIATION|0.438||2e-05|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Combined MOUD) for Intervention Phase (from baseline to 12 months)||||0.00002
92276804|NCT01271933|184455252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|3.45||0.0827|TWO_SIDED|95.0|-12.9|0.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model|ANCOVA|||This analysis is for the domain: SF-36 General Health Perceptions||0.8|-12.9|0.0827
92403393|NCT04363320|184698384|SUPERIORITY||Slope|0.855|STANDARD_DEVIATION|0.206||4e-05|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Buprenorphine) for Intervention Phase (from baseline to 12 months)||||0.00004
92403394|NCT04363320|184698384|SUPERIORITY||Slope|0.322|STANDARD_DEVIATION|0.206||0.118|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Methadone) for Intervention Phase (from baseline to 12 months)||||0.118
92363186|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.41|||<|0.0001|TWO_SIDED|95.0|-3.1|-1.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.7|-3.1|<0.0001
92363187|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.8688|TWO_SIDED|95.0|-0.7|0.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||0.6|-0.7|0.8688
92403395|NCT04363320|184698384|SUPERIORITY||Slope|0.073|STANDARD_DEVIATION|0.031||0.02|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Naltrexone) for Intervention Phase (from baseline to 12 months)||||0.020
92403396|NCT04363320|184698385|SUPERIORITY||Slope|0.617|STANDARD_DEVIATION|0.307||0.045|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Combined MOUD) for Sustainability Phase (from 13 to 24 months)||||0.045
92403397|NCT04363320|184698385|SUPERIORITY||Slope|1.103|STANDARD_DEVIATION|0.229||2e-06|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Buprenorphine) for Sustainability Phase (from 13 to 24 months)||||0.000002
92403398|NCT04363320|184698385|SUPERIORITY||Slope|-0.387|STANDARD_DEVIATION|0.218||0.076|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month|Change in census patient counts (Methadone) for Sustainability Phase (13 to 24 months)||||0.076
92403399|NCT04363320|184698385|SUPERIORITY||Slope|0.086|STANDARD_DEVIATION|0.036||0.019|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Naltrexone) for Sustainability Phase (from 13 to 24 months)||||0.019
92276805|NCT01271933|184455252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|4.73||0.4561|TWO_SIDED|95.0|-12.09|5.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Vitality||5.8|-12.09|0.4561
92363188|NCT00565409|184629666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.7|-3.0|<0.0001
92363189|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.0|<0.0001
92403400|NCT03605667|184698391|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.93||0.9809|TWO_SIDED|95.0|-1.8|1.8|||Mixed model with repeated measures|||Model based summary statistics are from a mixed model with repeated measures, including fixed effects for pooled site ID, treatment, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction, mini-mental state examination (MMSE) randomization stratification, apolipoprotein E (APoE) status (carrier/non carrier), as covariates, and repeated measures for visit within participant.||1.8|-1.8|0.9809
92403401|NCT03605667|184698392|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.4474|TWO_SIDED|95.0|-0.8|0.3|||Mixed model with repeated measures|||Model based summary statistics are from a mixed model with repeated measures, including fixed effects for pooled site ID, treatment, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction, MMSE randomization stratification, APoE status (carrier/non carrier), as covariates, and repeated measures for visit within participant.||0.3|-0.8|0.4474
92403402|NCT03605667|184698393|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.867|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||Model based summary statistics were from an analysis of covariance (ANCOVA) with baseline MMSE total score as covariate.||0.5|-0.6|0.8670
92403403|NCT03605667|184698394|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|1.6|STANDARD_ERROR_OF_MEAN|1.21||0.195|TWO_SIDED|95.0|-0.8|3.9|||Mixed model with repeated measures|||Model based summary statistics are from a mixed model with repeated measures, including fixed effects for pooled site ID, treatment, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction, MMSE randomization stratification, APOE status (carrier/non-carrier), as covariates, and repeated measures for visit within participant.||3.9|-0.8|0.1950
92403404|NCT03605667|184698395|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|1.5|STANDARD_ERROR_OF_MEAN|1.31||0.2583|TWO_SIDED|95.0|-1.1|4.1|||Mixed model with repeated measures|||Model based summary statistics are from a mixed model with repeated measures, including fixed effects for pooled site ID, treatment, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction, MMSE randomization stratification, APOE status (carrier/non-carrier), as covariates, and repeated measures for visit within participant.||4.1|-1.1|0.2583
92363190|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9636|TWO_SIDED|95.0|-0.2|0.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||0.3|-0.2|0.9636
92363191|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.0|<0.0001
92363192|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-0.8|-1.4|<0.0001
92363193|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.4605|TWO_SIDED|95.0|-0.2|0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||0.4|-0.2|0.4605
92363194|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-0.9|-1.5|<0.0001
92363195|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.8|-1.4|<0.0001
92363196|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.8404|TWO_SIDED|95.0|-0.3|0.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||0.3|-0.3|0.8404
92363197|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.9|-1.4|<0.0001
92363198|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-0.8|-1.4|<0.0001
92363199|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.3118|TWO_SIDED|95.0|-0.1|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||0.5|-0.1|0.3118
92403405|NCT03605667|184698396|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.48||0.4191|TWO_SIDED|95.0|-0.6|1.3|||Mixed model with repeated measures|||Model based summary statistics are from a mixed model with repeated measures, including fixed effects for pooled site ID, treatment, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction, MMSE randomization stratification, APOE status (carrier/non-carrier), as covariates, and repeated measures for visit within participant.||1.3|-0.6|0.4191
92403406|NCT03605667|184698398|SUPERIORITY||Least square mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.224|TWO_SIDED|95.0|-1.2|0.3|||ANCOVA|||Model based summary statistics are from an ANCOVA with baseline MMSE total score as covariate.||0.3|-1.2|0.2240
92403407|NCT03605667|184698399|SUPERIORITY|||||||0.0161|||||||Fisher Exact|||||||0.0161
92403408|NCT00541658|184698402|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.233|||||TWO_SIDED|95.0|-0.812|0.345|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.345|-0.812|
92403409|NCT00541658|184698402|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.296|||||TWO_SIDED|95.0|-0.869|0.277|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.277|-0.869|
92403410|NCT00541658|184698403|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.265||||0.2955|TWO_SIDED|95.0|-0.763|0.232|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant used.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.232|-0.763|0.2955
92403411|NCT00541658|184698404|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.131|||||TWO_SIDED|95.0|-0.674|0.412|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.412|-0.674|
92403412|NCT00541658|184698404|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|0.156|||||TWO_SIDED|95.0|-0.382|0.695|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.695|-0.382|
92403413|NCT00541658|184698405|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.258|||||TWO_SIDED|95.0|-0.836|0.321|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.321|-0.836|
92363200|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-1.0|-1.6|<0.0001
92363201|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-0.9|-1.6|<0.0001
92165990|NCT02164240|184220617|OTHER||Clinical Benefit Rate|0.0|||||TWO_SIDED|95.0|0.0|24.7||descriptive statistics only||||Clinical benefit rate of at least 30% at 16 weeks for the entire, combined population, was considered worthy of further study.||24.7|0|
92165991|NCT02544152|184220635|OTHER||||||=|0.987|||||||Cochran-Mantel-Haenszel|||P-value is from a Cochran-Mantel-Haenszel (CMH) test stratified by sex and baseline stool consistency||||=0.9870
92165992|NCT02731755|184220647|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||Between time points and treatments, calculated p value||||0.5
92165993|NCT02731755|184220648|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||Ach-iAUC||||0.04
92165994|NCT02731755|184220648|SUPERIORITY|||||||0.007|||||||Mixed Models Analysis|||SNP-IAUC||||0.007
92165995|NCT02731755|184220648|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||Ach - AUC||||0.02
92165996|NCT02731755|184220649|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||0.9
92403414|NCT00541658|184698405|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.322|||||TWO_SIDED|95.0|-0.9|0.256|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.256|-0.900|
92165997|NCT02731755|184220651|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|||||||0.7
92403415|NCT00541658|184698406|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.154|||||TWO_SIDED|95.0|-1.903|-0.405|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.405|-1.903|
92403416|NCT00541658|184698406|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.044|||||TWO_SIDED|95.0|-1.789|-0.299|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.299|-1.789|
92403417|NCT00541658|184698407|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.059|||||TWO_SIDED|95.0|-1.762|-0.355|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.355|-1.762|
92403418|NCT00541658|184698407|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.922|||||TWO_SIDED|95.0|-1.62|-0.223|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.223|-1.620|
92403419|NCT00541658|184698408|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.08||||0.0524|TWO_SIDED|95.0|1.0|1.16|||Fisher Exact|||||1.16|1.00|0.0524
92403420|NCT00541658|184698408|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.07||||0.1207|TWO_SIDED|95.0|0.99|1.15|||Fisher Exact|||||1.15|0.99|0.1207
92165998|NCT00465816|184220668|NON_INFERIORITY|The lower limit of the two-sided 95% CI on the ratio of rSBA-MenA GMTs between Nimenrix + Twinrix group and (over) Nimenrix group was ≥ 0.5.|Adjusted GMT ratio|0.99|||||TWO_SIDED|95.0|0.8|1.22|||ANCOVA|||To assess the Non-inferiority in term of rSBA-MenA GMT of the Nimenrix + Twinrix group compared to Nimenrix one, two-sided 95% confidence interval (CI) from ANCOVA model on the GMTs ratio (Nimenrix+Twinrix group over Nimenrix group) was computed. The model was adjusted for age strata and baseline titre.||1.22|0.8|
92224360|NCT00271817|184350172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.4|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-41.4|-35.4||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin|||-35.4|-41.4|<0.001
92224361|NCT00271817|184350173|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-33.5|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-36.5|-30.6||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin|||-30.6|-36.5|<0.001
92276806|NCT01271933|184455252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|4.31||0.9645|TWO_SIDED|95.0|-8.8|8.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Social Functioning||8.4|-8.8|0.9645
92363202|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.61|TWO_SIDED|95.0|-0.2|0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||0.4|-0.2|0.6100
92363203|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.0|-1.6|<0.0001
92363204|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.0|-1.6|<0.0001
92363205|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.6552|TWO_SIDED|95.0|-0.4|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||0.2|-0.4|0.6552
92363206|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.0|-1.6|<0.0001
92363207|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.43|||<|0.0001|TWO_SIDED|95.0|-1.8|-1.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.1|-1.8|<0.0001
92363208|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.4753|TWO_SIDED|95.0|-0.4|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||0.2|-0.4|0.4753
92363209|NCT00565409|184629669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.0|-1.6|<0.0001
92363210|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.6|-1.2|<0.0001
92363211|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.7427|TWO_SIDED|95.0|-0.4|0.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||0.3|-0.4|0.7427
92363212|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.1|<0.0001
92363213|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-1.1|-1.7|<0.0001
92363214|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.3129|TWO_SIDED|95.0|-0.5|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||0.2|-0.5|0.3129
92363215|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.23|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-0.9|-1.6|<0.0001
92403421|NCT00541658|184698409|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.07||||0.0729|TWO_SIDED|95.0|1.0|1.15|||Fisher Exact|||||1.15|1.00|0.0729
92224362|NCT00271817|184350174|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.1|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|18.8|25.3||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin|||25.3|18.8|<0.001
92276807|NCT01271933|184455252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|5.41||0.7636|TWO_SIDED|95.0|-9.1|12.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Role-Emotional||12.4|-9.1|0.7636
92363216|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.9|-1.6|<0.0001
92363217|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.4645|TWO_SIDED|95.0|-0.5|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||0.2|-0.5|0.4645
92363218|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.8|-1.5|<0.0001
92363219|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-0.9|-1.7|<0.0001
92363220|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.3793|TWO_SIDED|95.0|-0.5|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||0.2|-0.5|0.3793
92363221|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-0.8|-1.5|<0.0001
92363222|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.2|-2.0|<0.0001
92363223|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.0816|TWO_SIDED|95.0|-0.7|0.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||0.0|-0.7|0.0816
92363224|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-0.9|-1.6|<0.0001
92363225|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.2|-1.9|<0.0001
92363226|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0256|TWO_SIDED|95.0|-0.8|-0.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-0.1|-0.8|0.0256
92363227|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-0.8|-1.5|<0.0001
92224363|NCT00271817|184350175|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-18.7|||<|0.001||95.0|-22.6|-14.7||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment, baseline LDL-C, baseline TG and gender|"Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin~The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic."|||-14.7|-22.6|<0.001
92363228|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.2|-1.9|<0.0001
92363229|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.1158|TWO_SIDED|95.0|-0.7|0.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||0.1|-0.7|0.1158
92363230|NCT00565409|184629672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-0.9|-1.6|<0.0001
92363231|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.67||||0.0214|TWO_SIDED|95.0|-77.1|-6.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-6.2|-77.1|0.0214
92363232|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.57||||0.5544|TWO_SIDED|95.0|-45.6|24.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||24.5|-45.6|0.5544
92363233|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.1||||0.0826|TWO_SIDED|95.0|-66.2|4.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||4.0|-66.2|0.0826
92363234|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-80.05||||0.0001|TWO_SIDED|95.0|-120.3|-39.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-39.8|-120.3|0.0001
92363235|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.18||||0.0344|TWO_SIDED|95.0|-83.2|-3.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-3.2|-83.2|0.0344
92363236|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.87||||0.0721|TWO_SIDED|95.0|-77.1|3.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||3.3|-77.1|0.0721
92363237|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-89.19|||<|0.0001|TWO_SIDED|95.0|-128.7|-49.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-49.7|-128.7|<0.0001
92363238|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.14||||0.191|TWO_SIDED|95.0|-65.4|13.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||13.1|-65.4|0.1910
92363239|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-63.05||||0.0018|TWO_SIDED|95.0|-102.5|-23.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-23.6|-102.5|0.0018
92363240|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-84.36||||0.0002|TWO_SIDED|95.0|-129.1|-39.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-39.6|-129.1|0.0002
92363241|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85||||0.935|TWO_SIDED|95.0|-46.3|42.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||42.6|-46.3|0.9350
92363242|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-82.52||||0.0003|TWO_SIDED|95.0|-127.2|-37.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-37.8|-127.2|0.0003
92363243|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-108.73|||<|0.0001|TWO_SIDED|95.0|-157.0|-60.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-60.4|-157.0|<0.0001
92363244|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2||||0.6764|TWO_SIDED|95.0|-58.2|37.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||37.8|-58.2|0.6764
92363245|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-98.53|||<|0.0001|TWO_SIDED|95.0|-146.7|-50.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-50.3|-146.7|<0.0001
92363246|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-115.48|||<|0.0001|TWO_SIDED|95.0|-157.7|-73.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-73.3|-157.7|<0.0001
92363247|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.69||||0.5219|TWO_SIDED|95.0|-55.6|28.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||28.3|-55.6|0.5219
92363248|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-101.8|||<|0.0001|TWO_SIDED|95.0|-144.0|-59.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-59.6|-144.0|<0.0001
92363249|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-71.6||||0.002|TWO_SIDED|95.0|-116.9|-26.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-26.3|-116.9|0.0020
92363250|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.3||||0.5917|TWO_SIDED|95.0|-32.7|57.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||57.3|-32.7|0.5917
92403422|NCT00541658|184698409|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.06||||0.1639|TWO_SIDED|95.0|0.98|1.14|||Fisher Exact|||||1.14|0.98|0.1639
92276808|NCT01271933|184455252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|3.54||0.7067|TWO_SIDED|95.0|-5.7|8.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Mental Health Index||8.4|-5.7|0.7067
92363251|NCT00565409|184629675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.91||||0.0003|TWO_SIDED|95.0|-129.2|-38.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-38.7|-129.2|0.0003
92363252|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.79|||<|0.0001|TWO_SIDED|95.0|-11.9|-5.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-5.7|-11.9|<0.0001
92363253|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.55||||0.1033|TWO_SIDED|95.0|-5.6|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||0.5|-5.6|0.1033
92363254|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.23|||<|0.0001|TWO_SIDED|95.0|-9.3|-3.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-3.1|-9.3|<0.0001
92363255|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.09|||<|0.0001|TWO_SIDED|95.0|-15.4|-8.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-8.8|-15.4|<0.0001
92363256|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.6802|TWO_SIDED|95.0|-4.0|2.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||2.6|-4.0|0.6802
92363257|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.39|||<|0.0001|TWO_SIDED|95.0|-14.7|-8.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-8.1|-14.7|<0.0001
92363258|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.09|||<|0.0001|TWO_SIDED|95.0|-15.6|-8.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-8.6|-15.6|<0.0001
92363259|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.4404|TWO_SIDED|95.0|-4.8|2.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||2.1|-4.8|0.4404
92363260|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.73|||<|0.0001|TWO_SIDED|95.0|-14.2|-7.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-7.2|-14.2|<0.0001
92363261|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.83|||<|0.0001|TWO_SIDED|95.0|-16.2|-9.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-9.4|-16.2|<0.0001
92363262|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32||||0.4437|TWO_SIDED|95.0|-4.7|2.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||2.1|-4.7|0.4437
92363263|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.51|||<|0.0001|TWO_SIDED|95.0|-14.9|-8.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-8.1|-14.9|<0.0001
92363264|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.79|||<|0.0001|TWO_SIDED|95.0|-18.5|-11.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-11.1|-18.5|<0.0001
92363265|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12||||0.096|TWO_SIDED|95.0|-6.8|0.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||0.6|-6.8|0.0960
92363266|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.67|||<|0.0001|TWO_SIDED|95.0|-15.4|-8.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-8.0|-15.4|<0.0001
92363267|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.56|||<|0.0001|TWO_SIDED|95.0|-18.1|-11.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-11.0|-18.1|<0.0001
92363268|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88||||0.2948|TWO_SIDED|95.0|-5.4|1.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||1.6|-5.4|0.2948
92363269|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.68|||<|0.0001|TWO_SIDED|95.0|-16.2|-9.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-9.1|-16.2|<0.0001
92363270|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.16|||<|0.0001|TWO_SIDED|95.0|-16.9|-9.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-9.5|-16.9|<0.0001
92363271|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33||||0.213|TWO_SIDED|95.0|-6.0|1.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||1.3|-6.0|0.2130
92363272|NCT00565409|184629678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.83|||<|0.0001|TWO_SIDED|95.0|-14.5|-7.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-7.1|-14.5|<0.0001
92363273|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.55|||<|0.0001|TWO_SIDED|95.0|-11.8|-5.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-5.3|-11.8|<0.0001
92363274|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.8033|TWO_SIDED|95.0|-3.6|2.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||2.8|-3.6|0.8033
92363275|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.14|||<|0.0001|TWO_SIDED|95.0|-11.3|-4.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-4.9|-11.3|<0.0001
92363276|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.61|||<|0.0001|TWO_SIDED|95.0|-17.2|-10.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-10.0|-17.2|<0.0001
92403423|NCT00541658|184698410|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.08||||0.0476|TWO_SIDED|95.0|1.0|1.16|||Fisher Exact|||||1.16|1.00|0.0476
92403424|NCT00541658|184698410|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.12||||0.0014|TWO_SIDED|95.0|1.04|1.2|||ANOVA|||||1.20|1.04|0.0014
92403425|NCT00541658|184698411|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.08||||0.0547|TWO_SIDED|95.0|1.0|1.16|||ANOVA|||||1.16|1.00|0.0547
92403426|NCT00541658|184698411|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.1||||0.0066|TWO_SIDED|95.0|1.03|1.18|||ANOVA|||||1.18|1.03|0.0066
92403427|NCT00541658|184698412|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.135|||||TWO_SIDED|95.0|-0.504|0.234|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.234|-0.504|
92403428|NCT00541658|184698412|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.072|||||TWO_SIDED|95.0|-0.437|0.294|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.294|-0.437|
92165999|NCT00465816|184220668|NON_INFERIORITY|The lower limit of the two-sided 95% CI on the ratio of rSBA-MenC GMTs between Nimenrix + Twinrix group and (over) Nimenrix group was ≥ 0.5.|Adjusted GMT ratio|0.91|||||TWO_SIDED|95.0|0.68|1.21|||ANCOVA|||To assess the Non-inferiority in term of rSBA-MenC GMT of the Nimenrix+Twinrix group compared to Nimenrix one, Two-sided 95% CI from ANCOVA model on the GMTs ratio (Nimenrix+Twinrix group over Nimenrix group) was computed. The model was adjusted for age strata and baseline titre.||1.21|0.68|
92224364|NCT00271817|184350176|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.5|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|18.0|25.0||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin|||25.0|18.0|<0.001
92224365|NCT00271817|184350177|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-17.6|||<|0.001||95.0|-21.8|-13.6||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment, baseline LDL-C, baseline TG and gender.|"Median difference = Ezetimibe/Simvastatin + Niacin minus Ezetimibe/Simvastatin~The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic."|||-13.6|-21.8|<0.001
92166000|NCT00465816|184220668|NON_INFERIORITY|The lower limit of the two-sided 95% CI on the ratio of rSBA-MenW-135 GMTs between Nimenrix + Twinrix group and (over) Nimenrix group was ≥ 0.5.|Adjusted GMT ratio|1.02|||||TWO_SIDED|95.0|0.87|1.19|||ANCOVA|||To assess the Non-inferiority in term of rSBA-MenW-135 GMT of the Nimenrix+Twinrixg roup compared to Nimenrix one, Two-sided 95% CI from ANCOVA model on the GMTs ratio (Nimenrix+Twinrix group over Nimenrix group) was computed. The model was adjusted for age strata and baseline titre.||1.19|0.87|
92166001|NCT00465816|184220668|NON_INFERIORITY|The lower limit of the two-sided 95% CI on the ratio of rSBA-MenY GMTs between Nimenrix + Twinrix group and (over) Nimenrix group was ≥ 0.5.|Adjusted GMT ratio|1.01|||||TWO_SIDED|95.0|0.85|1.19|||ANCOVA|||To assess the Non-inferiority in term of rSBA-MenY GMT of the Nimenrix+Twinrix group compared to Nimenrix one, Two-sided 95% CI from ANCOVA model on the GMTs ratio (Nimenrix+Twinrix group over Nimenrix group) was computed. The model was adjusted for age strata and baseline titre.||1.19|0.85|
92166002|NCT00465816|184220669|NON_INFERIORITY|The lower limit of the two-sided standardised asymptotic 95% CI for group difference (Nimenrix+Twinrix group minus Twinrix group) in the percentage of subjects with vaccine seroconversion was ≥ pre-defined clinical limit of -10%.|Percentage difference|0.0|||||TWO_SIDED|95.0|-1.19|3.9||||||To assess the Non-inferiority of the Nimenrix+Twinrix group compared to Twinrix one, two-sided standardized asymptotic 95% CI for the difference in seroconversion rates for hepatitis A (Nimenrix+Twinrix group minus Twinrix group) was computed.||3.9|-1.19|
92166003|NCT00465816|184220670|NON_INFERIORITY|The lower limit of the two-sided standardised asymptotic 95% CI for group difference (Nimenrix+Twinrix group minus Twinrix group) in the percentage of subjects with vaccine seroconversion was ≥ pre-defined clinical limit of -10%.|Percentage difference|-0.91|||||TWO_SIDED|95.0|-2.64|2.92||||||To assess the Non-inferiority of the Nimenrix+Twinrix group compared to the Twinrix one, two-sided standardized asymptotic 95% CI for the difference in seroprotection rates for hepatitis B (Nimenrix+Twinrix group minus Twinrix group) was computed.||2.92|-2.64|
92276809|NCT01271933|184455252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.78||0.8352|TWO_SIDED|95.0|-3.9|3.2||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Physical Component Score||3.2|-3.9|0.8352
92363277|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.783|TWO_SIDED|95.0|-4.1|3.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||3.1|-4.1|0.7830
92363278|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.11|||<|0.0001|TWO_SIDED|95.0|-16.7|-9.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-9.5|-16.7|<0.0001
92363279|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.53|||<|0.0001|TWO_SIDED|95.0|-16.1|-8.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-8.9|-16.1|<0.0001
92363280|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||0.5732|TWO_SIDED|95.0|-4.6|2.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization|ANCOVA|||Week 56||2.5|-4.6|0.5732
92363281|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.5|||<|0.0001|TWO_SIDED|95.0|-15.1|-7.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-7.9|-15.1|<0.0001
92363282|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.88|||<|0.0001|TWO_SIDED|95.0|-17.6|-10.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-10.2|-17.6|<0.0001
92363283|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.94||||0.2972|TWO_SIDED|95.0|-5.6|1.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||1.7|-5.6|0.2972
92363284|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.94|||<|0.0001|TWO_SIDED|95.0|-15.6|-8.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-8.3|-15.6|<0.0001
92166004|NCT00773370|184220697|SUPERIORITY_OR_OTHER||difference between slopes|8.43|STANDARD_DEVIATION|7.17|<|0.25|TWO_SIDED|||||Random effects ANOVA with random intercept and random slope compared the time course (slopes) of change in our outcome measures across three time points: baseline, three, and six-months in our two experimental groups--APA-stroke and Sittercise.|ANOVA|||||||<0.25
92363285|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.64|||<|0.0001|TWO_SIDED|95.0|-19.4|-11.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-11.8|-19.4|<0.0001
92363286|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.1477|TWO_SIDED|95.0|-6.6|1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||1.0|-6.6|0.1477
92363287|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.85|||<|0.0001|TWO_SIDED|95.0|-16.6|-9.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-9.0|-16.6|<0.0001
92363288|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.87|||<|0.0001|TWO_SIDED|95.0|-18.6|-11.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-11.1|-18.6|<0.0001
92363289|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.56||||0.1808|TWO_SIDED|95.0|-6.3|1.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||1.2|-6.3|0.1808
92363290|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.31|||<|0.0001|TWO_SIDED|95.0|-16.1|-8.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-8.5|-16.1|<0.0001
92363291|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.7|||<|0.0001|TWO_SIDED|95.0|-18.5|-10.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-10.9|-18.5|<0.0001
92363292|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.44||||0.2077|TWO_SIDED|95.0|-6.2|1.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||1.4|-6.2|0.2077
92363293|NCT00565409|184629681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.26|||<|0.0001|TWO_SIDED|95.0|-16.1|-8.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-8.5|-16.1|<0.0001
92363294|NCT00565409|184629682|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0001
92363295|NCT00565409|184629683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.8974|TWO_SIDED|95.0|0.5|2.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.5|0.5|0.8974
92363296|NCT00565409|184629683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.1105|TWO_SIDED|95.0|0.8|3.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||3.7|0.8|0.1105
92363297|NCT00565409|184629683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.19|TWO_SIDED|95.0|0.3|1.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.4|0.3|0.1900
92403429|NCT00541658|184698413|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.321|||||TWO_SIDED|95.0|-0.724|0.082|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.082|-0.724|
92403430|NCT00541658|184698413|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.29|||||TWO_SIDED|95.0|-0.692|0.112|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.112|-0.692|
92403431|NCT00541658|184698414|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.288|||||TWO_SIDED|95.0|-0.682|0.106|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.106|-0.682|
92405788|NCT02085161|184701883|SUPERIORITY_OR_OTHER||LSMean Difference|0.182|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.109|0.255||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||0.255|0.109|<0.0001
92166005|NCT00773370|184220697|SUPERIORITY_OR_OTHER||Slope|14.95|STANDARD_DEVIATION|4.92|<|0.004|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||<0.004
92363298|NCT00565409|184629683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.18|||<|0.0001|TWO_SIDED|95.0|2.3|7.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||7.5|2.3|<0.0001
92363299|NCT00565409|184629683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.4032|TWO_SIDED|95.0|0.6|2.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||2.4|0.6|0.4032
92363300|NCT00565409|184629683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.23|||<|0.0001|TWO_SIDED|95.0|2.4|7.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||7.5|2.4|<0.0001
92363301|NCT00565409|184629683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.92|||<|0.0001|TWO_SIDED|95.0|2.1|7.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||7.2|2.1|<0.0001
92363302|NCT00565409|184629683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.0272|TWO_SIDED|95.0|1.0|3.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||3.6|1.0|0.0272
92363303|NCT00565409|184629683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.34||||0.0004|TWO_SIDED|95.0|1.4|4.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||4.0|1.4|0.0004
92363304|NCT00565409|184629684|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 4||||<0.0001
92363305|NCT00565409|184629684|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8||||<0.0001
92363306|NCT00565409|184629684|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||<0.0001
92363307|NCT00565409|184629684|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20||||<0.0001
92363308|NCT00565409|184629684|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||<0.0001
92363309|NCT00565409|184629684|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 36||||<0.0001
92363310|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.29||||0.1718|TWO_SIDED|95.0|0.5|10.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||10.7|0.5|0.1718
92363311|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.8303|TWO_SIDED|95.0|0.2|7.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||7.3|0.2|0.8303
92363312|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.27||||0.213|TWO_SIDED|95.0|0.5|10.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||10.1|0.5|0.2130
92363313|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1|||<|0.0001|TWO_SIDED|95.0|2.1|8.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||8.2|2.1|<0.0001
92363314|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.4337|TWO_SIDED|95.0|0.3|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||2.0|0.3|0.4337
92363315|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.14|||<|0.0001|TWO_SIDED|95.0|2.5|10.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||10.8|2.5|<0.0001
92363316|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.61|||<|0.0001|TWO_SIDED|95.0|3.0|10.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||10.5|3.0|<0.0001
92363317|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.8973|TWO_SIDED|95.0|0.4|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||1.9|0.4|0.8973
92363318|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.33|||<|0.0001|TWO_SIDED|95.0|2.8|10.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||10.1|2.8|<0.0001
92363319|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.4|8.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||8.1|2.4|<0.0001
92363320|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.5708|TWO_SIDED|95.0|0.4|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||1.7|0.4|0.5708
92363321|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.58|||<|0.0001|TWO_SIDED|95.0|3.0|10.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||10.3|3.0|<0.0001
92363322|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.29|||<|0.0001|TWO_SIDED|95.0|3.3|12.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||12.0|3.3|<0.0001
92363323|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.8842|TWO_SIDED|95.0|0.4|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||2.0|0.4|0.8842
92363324|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.92|||<|0.0001|TWO_SIDED|95.0|3.2|10.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||10.8|3.2|<0.0001
92363325|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.39|||<|0.0001|TWO_SIDED|95.0|3.8|14.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||14.4|3.8|<0.0001
92363326|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.1608|TWO_SIDED|95.0|0.6|3.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||3.1|0.6|0.1608
92363327|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.92|||<|0.0001|TWO_SIDED|95.0|2.9|8.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||8.4|2.9|<0.0001
92363328|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.44|||<|0.0001|TWO_SIDED|95.0|3.4|12.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||12.4|3.4|<0.0001
92363329|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.2825|TWO_SIDED|95.0|0.6|2.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||2.7|0.6|0.2825
92363330|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.59|||<|0.0001|TWO_SIDED|95.0|2.7|7.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||7.8|2.7|<0.0001
92403432|NCT00541658|184698414|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.29|||||TWO_SIDED|95.0|-0.681|0.101|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.101|-0.681|
92403433|NCT00541658|184698415|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.644|||||TWO_SIDED|95.0|-1.179|-0.11|||ANOVA|||||-0.110|-1.179|
92403434|NCT00541658|184698415|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.587|||||TWO_SIDED|95.0|-1.116|-0.059|||ANOVA|||||-0.059|-1.116|
92403435|NCT00541658|184698416|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.522|||||TWO_SIDED|95.0|-1.03|-0.014|||ANOVA|||||-0.014|-1.030|
92276810|NCT01271933|184455252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|2.22||0.9347|TWO_SIDED|95.0|-4.2|4.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Mental Component Score||4.6|-4.2|0.9347
92363331|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.81|||<|0.0001|TWO_SIDED|95.0|2.7|8.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||8.7|2.7|<0.0001
92363332|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.4471|TWO_SIDED|95.0|0.5|2.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||2.1|0.5|0.4471
92363333|NCT00565409|184629685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.19|||<|0.0001|TWO_SIDED|95.0|2.5|7.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||7.0|2.5|<0.0001
92363334|NCT00565409|184629686|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4||||<0.0001
92363335|NCT00565409|184629686|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8||||<0.0001
92363336|NCT00565409|184629686|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||<0.0001
92363337|NCT00565409|184629686|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20||||<0.0001
92363338|NCT00565409|184629686|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||<0.0001
92363339|NCT00565409|184629686|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 36||||<0.0001
92363340|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.6006|TWO_SIDED|95.0|0.4|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.6|0.4|0.6006
92363341|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.4967|TWO_SIDED|95.0|0.6|2.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.1|0.6|0.4967
92363342|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.3648|TWO_SIDED|95.0|0.4|1.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.5|0.4|0.3648
92363343|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98||||0.0024|TWO_SIDED|95.0|1.2|3.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.2|1.2|0.0024
92363344|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.8308||95.0|0.6|||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||1.|0.6|0.8308
92363345|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.0008|TWO_SIDED|95.0|1.3|3.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.4|1.3|0.0008
92363346|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.25|||<|0.0001|TWO_SIDED|95.0|2.0|5.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||5.2|2.0|<0.0001
92363347|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.7374|TWO_SIDED|95.0|0.7|1.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||1.8|0.7|0.7374
92363348|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.04|||<|0.0001|TWO_SIDED|95.0|1.9|4.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||4.8|1.9|<0.0001
92363349|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.0001|TWO_SIDED|95.0|1.9|4.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||4.8|1.9|<0.0001
92363350|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.9599|TWO_SIDED|95.0|0.6|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||1.7|0.6|0.9599
92363351|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.98|||<|0.0001|TWO_SIDED|95.0|1.9|4.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||4.6|1.9|<0.0001
92363352|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.59|||<|0.0001|TWO_SIDED|95.0|2.3|5.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||5.7|2.3|<0.0001
92363353|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.4509|TWO_SIDED|95.0|0.8|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||2.0|0.8|0.4509
92403436|NCT00541658|184698416|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.468|||||TWO_SIDED|95.0|-0.973|0.037|||ANOVA|||||0.037|-0.973|
92403437|NCT00541658|184698417|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.265|||||TWO_SIDED|95.0|-0.731|0.201|||ANOVA|Fixed effects for treatment, pooled centers and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.201|-0.731|
92403438|NCT00541658|184698417|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.126|||||TWO_SIDED|95.0|-0.588|0.336|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.336|-0.588|
92403439|NCT00541658|184698418|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.328|||||TWO_SIDED|95.0|-0.811|0.156|||ANOVA|Fixed effects for treatment, pooled centers and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.156|-0.811|
92403440|NCT00541658|184698418|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.563|||||TWO_SIDED|95.0|-1.045|-0.08|||ANOVA|Fixed effects for treatment, pooled center, anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.080|-1.045|
92403441|NCT00541658|184698419|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.327|||||TWO_SIDED|95.0|-0.793|0.138|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.138|-0.793|
92363354|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96|||<|0.0001|TWO_SIDED|95.0|1.9|4.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||4.6|1.9|<0.0001
92363355|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.28|||<|0.0001|TWO_SIDED|95.0|2.6|7.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||7.0|2.6|<0.0001
92363356|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.3037|TWO_SIDED|95.0|0.7|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||2.0|0.7|0.3037
92363357|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.27|||<|0.0001|TWO_SIDED|95.0|2.1|5.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||5.1|2.1|<0.0001
92403442|NCT00541658|184698419|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.537|||||TWO_SIDED|95.0|-1.0|-0.074|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.074|-1.000|
92403443|NCT00541658|184698420|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.578|||||TWO_SIDED|95.0|-1.189|0.032|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.032|-1.189|
92403444|NCT00541658|184698420|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.799|||||TWO_SIDED|95.0|-1.403|-0.194|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.194|-1.403|
92403445|NCT00541658|184698421|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.555|||||TWO_SIDED|95.0|-1.128|0.018|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.018|-1.128|
92403446|NCT00541658|184698421|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.616|||||TWO_SIDED|95.0|-1.185|-0.046|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.046|-1.185|
92403447|NCT00541658|184698422|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.249|||||TWO_SIDED|95.0|-0.86|0.363|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.363|-0.860|
92276811|NCT01271933|184455254|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.69||0.1901|TWO_SIDED|95.0|-0.5|2.3||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||HADS-A Anxiety scale||2.3|-0.5|0.1901
92363358|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.41|||<|0.0001|TWO_SIDED|95.0|2.7|7.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||7.2|2.7|<0.0001
92363359|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.6076|TWO_SIDED|95.0|0.7|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||1.9|0.7|0.6076
92363360|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.8|||<|0.0001|TWO_SIDED|95.0|2.4|6.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||6.0|2.4|<0.0001
92363361|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.85|||<|0.0001|TWO_SIDED|95.0|1.8|4.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||4.6|1.8|<0.0001
92363362|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.7837|TWO_SIDED|95.0|0.6|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||1.6|0.6|0.7837
92363363|NCT00565409|184629687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.0001|TWO_SIDED|95.0|2.0|4.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||4.7|2.0|<0.0001
92363364|NCT00565409|184629688|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4||||<0.0001
92363365|NCT00565409|184629688|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 8||||<0.0001
92363366|NCT00565409|184629688|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 12||||<0.0001
92363367|NCT00565409|184629688|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 20||||<0.0001
92363368|NCT00565409|184629688|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 28||||<0.0001
92363369|NCT00565409|184629688|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 36||||<0.0001
92403448|NCT00541658|184698422|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.265|||||TWO_SIDED|95.0|-0.871|0.342|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.342|-0.871|
92403449|NCT00541658|184698423|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.557|||||TWO_SIDED|95.0|-1.185|0.071|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.071|-1.185|
92403450|NCT00541658|184698423|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.522|||||TWO_SIDED|95.0|-1.149|0.105|||ANOVA||LS Mean Difference is 5 mg daily minus weekly treatment.|||0.105|-1.149|
92403451|NCT00541658|184698424|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.546|||||TWO_SIDED|95.0|-1.17|0.078|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.078|-1.170|
92403452|NCT00541658|184698424|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.579|||||TWO_SIDED|95.0|-1.199|0.042|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.042|-1.199|
92403453|NCT00541658|184698425|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.095|||||TWO_SIDED|95.0|-1.861|-0.329|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.329|-1.861|
92403454|NCT00541658|184698425|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.19|||||TWO_SIDED|95.0|-1.948|-0.432|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.432|-1.948|
92403455|NCT00541658|184698426|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.919|||||TWO_SIDED|95.0|-1.655|-0.184|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.184|-1.655|
92166006|NCT00773370|184220697|SUPERIORITY_OR_OTHER||Slope|6.52|STANDARD_DEVIATION|5.13||0.218|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||.218
92363370|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.5263|TWO_SIDED|95.0|0.7|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.0|0.7|0.5263
92363371|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.1055|TWO_SIDED|95.0|0.9|2.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.3|0.9|0.1055
92363372|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.4348|TWO_SIDED|95.0|0.5|1.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.4|0.5|0.4348
92363373|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16||||0.0003|TWO_SIDED|95.0|1.4|3.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.3|1.4|0.0003
92363374|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.5511|TWO_SIDED|95.0|0.7|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||1.7|0.7|0.5511
92363375|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||0.0013|TWO_SIDED|95.0|1.3|2.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||2.9|1.3|0.0013
92363376|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.79|||<|0.0001|TWO_SIDED|95.0|1.8|4.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||4.3|1.8|<0.0001
92363377|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.9225|TWO_SIDED|95.0|0.6|1.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||1.5|0.6|0.9225
92363378|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.95|||<|0.0001|TWO_SIDED|95.0|1.9|4.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||4.5|1.9|<0.0001
92363379|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.2|||<|0.0001|TWO_SIDED|95.0|2.7|6.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||6.6|2.7|<0.0001
92363380|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.2454|TWO_SIDED|95.0|0.9|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||2.0|0.9|0.2454
92363381|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.15|||<|0.0001|TWO_SIDED|95.0|2.0|4.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||4.9|2.0|<0.0001
92363382|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.83|||<|0.0001|TWO_SIDED|95.0|2.4|6.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||6.0|2.4|<0.0001
92363383|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.4919|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||1.9|0.8|0.4919
92363384|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.16|||<|0.0001|TWO_SIDED|95.0|2.0|4.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||4.9|2.0|<0.0001
92363385|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8|||<|0.0001|TWO_SIDED|95.0|3.0|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||7.6|3.0|<0.0001
92363386|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.0658|TWO_SIDED|95.0|1.0|2.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||2.3|1.0|0.0658
92363387|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.0001|TWO_SIDED|95.0|2.0|4.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||4.7|2.0|<0.0001
92363388|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.32|||<|0.0001|TWO_SIDED|95.0|2.7|6.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||6.8|2.7|<0.0001
92363389|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.4014|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||1.9|0.8|0.4014
92363390|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.54|||<|0.0001|TWO_SIDED|95.0|2.3|5.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||5.5|2.3|<0.0001
92363391|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.53|||<|0.0001|TWO_SIDED|95.0|2.9|7.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||7.2|2.9|<0.0001
92363392|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.2824|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||1.9|0.8|0.2824
92363393|NCT00565409|184629689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.83|||<|0.0001|TWO_SIDED|95.0|2.5|5.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||5.9|2.5|<0.0001
92363394|NCT00565409|184629690|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4||||<0.0001
92363395|NCT00565409|184629690|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8||||<0.0001
92363396|NCT00565409|184629690|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||<0.0001
92363397|NCT00565409|184629690|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20||||<0.0001
92363398|NCT00565409|184629690|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||<0.0001
92363399|NCT00565409|184629690|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||week 36||||<0.0001
92403456|NCT00541658|184698426|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.056|||||TWO_SIDED|95.0|-1.787|-0.326|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.326|-1.787|
92403457|NCT00541658|184698427|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|3.771|||||TWO_SIDED|95.0|-0.885|8.427|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||8.427|-0.885|
92403458|NCT00541658|184698427|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|2.826|||||TWO_SIDED|95.0|-1.819|7.471|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||7.471|-1.819|
92224366|NCT00271817|184350178|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|-10.4|-4.2||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Median difference = Ezetimibe/Simvastatin + Niacin minus Ezetimibe/Simvastatin|||-4.2|-10.4|<0.001
92403459|NCT00541658|184698428|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|2.63|||||TWO_SIDED|95.0|-2.171|7.431|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||7.431|-2.171|
92403460|NCT00541658|184698428|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.617|||||TWO_SIDED|95.0|-0.152|9.386|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.386|-0.152|
92403461|NCT00541658|184698429|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|5.04|||||TWO_SIDED|95.0|0.091|9.989|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.989|0.091|
92403462|NCT00541658|184698429|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.64|||||TWO_SIDED|95.0|-0.293|9.574|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.574|-0.293|
92224367|NCT00271817|184350179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|1.6||0.004||95.0|-8.0|-1.5||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Ezetimibe/Simvastatin|||-1.5|-8.0|0.004
92403463|NCT00541658|184698430|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|6.372|||||TWO_SIDED|95.0|1.329|11.414|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||11.414|1.329|
92363400|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.0575|TWO_SIDED|95.0|1.0|2.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.3|1.0|0.0575
92363401|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.063|TWO_SIDED|95.0|1.0|2.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.3|1.0|0.0630
92363402|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.916|TWO_SIDED|95.0|0.7|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.6|0.7|0.9160
92363403|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76||||0.0147|TWO_SIDED|95.0|1.0|3.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.0|1.0|0.0147
92363404|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.8675|TWO_SIDED|95.0|0.6|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||1.6|0.6|0.8675
92363405|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77||||0.0174|TWO_SIDED|95.0|1.1|3.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.0|1.1|0.0174
92403464|NCT00541658|184698430|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.403|||||TWO_SIDED|95.0|-0.619|9.425|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.425|-0.619|
92403465|NCT00541658|184698431|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|4.739|||||TWO_SIDED|95.0|-0.793|10.271|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||10.271|-0.793|
92403466|NCT00541658|184698431|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|3.999|||||TWO_SIDED|95.0|-1.518|9.515|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.515|-1.518|
92166007|NCT00773370|184220698|SUPERIORITY_OR_OTHER||Difference between slopes|0.186|STANDARD_DEVIATION|0.256||0.47|TWO_SIDED|||||Random effects ANOVA with random intercept and random slope compared the time course (slopes) of change in our outcome measures across three time points: baseline, three, and six-months in our two experimental groups--APA-stroke and Sittercise.|ANOVA|||||||.47
92363406|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.24|||<|0.0001|TWO_SIDED|95.0|1.9|5.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||5.7|1.9|<0.0001
92363407|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.4941|TWO_SIDED|95.0|0.5|1.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||1.3|0.5|0.4941
92166008|NCT00773370|184220698|SUPERIORITY_OR_OTHER||Slope|0.215|STANDARD_DEVIATION|0.175||0.225|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||.225
92363408|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.01|||<|0.0001|TWO_SIDED|95.0|2.3|7.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||7.0|2.3|<0.0001
92363409|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.4|||<|0.0001|TWO_SIDED|95.0|2.0|5.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||5.9|2.0|<0.0001
92363410|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.8185|TWO_SIDED|95.0|0.6|1.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||1.5|0.6|0.8185
92363411|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.66|||<|0.0001|TWO_SIDED|95.0|2.1|6.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||6.4|2.1|<0.0001
92363412|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.78|||<|0.0001|TWO_SIDED|95.0|2.2|6.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||6.6|2.2|<0.0001
92363413|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.4254|TWO_SIDED|95.0|0.7|1.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||1.8|0.7|0.4254
92363414|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.38|||<|0.0001|TWO_SIDED|95.0|1.9|5.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||5.9|1.9|<0.0001
92363415|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.26|||<|0.0001|TWO_SIDED|95.0|1.8|5.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||5.8|1.8|<0.0001
92363416|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.8766|TWO_SIDED|95.0|0.7|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||1.6|0.7|0.8766
92363417|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.67|||<|0.0001|TWO_SIDED|95.0|2.1|6.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||6.4|2.1|<0.0001
92363418|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.53|||<|0.0001|TWO_SIDED|95.0|2.0|6.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||6.4|2.0|<0.0001
92363419|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.3535|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||1.9|0.8|0.3535
92363420|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.44|||<|0.0001|TWO_SIDED|95.0|1.9|6.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||6.1|1.9|<0.0001
92363421|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.45|||<|0.0001|TWO_SIDED|95.0|2.0|6.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||6.1|2.0|<0.0001
92363422|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.3231|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||1.9|0.8|0.3231
92363423|NCT00565409|184629691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.23|||<|0.0001|TWO_SIDED|95.0|1.9|5.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||5.6|1.9|<0.0001
92363424|NCT00565409|184629692|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4||||<0.0001
92363425|NCT00565409|184629692|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8||||<0.0001
92363426|NCT00565409|184629692|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||<0.0001
92363427|NCT00565409|184629692|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 20||||<0.0001
92403467|NCT00541658|184698432|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|4.817|||||TWO_SIDED|95.0|-0.693|10.327|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||10.327|-0.693|
92166009|NCT00773370|184220698|SUPERIORITY_OR_OTHER||Slope|0.029|STANDARD_DEVIATION|0.187||0.88|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||.88
92363428|NCT00565409|184629692|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||<0.0001
92363429|NCT00565409|184629692|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 36||||<0.0001
92363430|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.14||||0.0089|TWO_SIDED|95.0|0.9|5.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||5.2|0.9|0.0089
92363431|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.6932|TWO_SIDED|95.0|0.5|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.7|0.5|0.6932
92363432|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.76||||0.0019|TWO_SIDED|95.0|1.2|6.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||6.1|1.2|0.0019
92363433|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.0797|TWO_SIDED|95.0|0.6|3.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.6|0.6|0.0797
92363434|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.8103|TWO_SIDED|95.0|0.4|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||1.9|0.4|0.8103
92363435|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87||||0.0903|TWO_SIDED|95.0|0.8|4.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||4.5|0.8|0.0903
92363436|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.02||||0.0035|TWO_SIDED|95.0|1.2|7.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||7.8|1.2|0.0035
92363437|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.977|TWO_SIDED|95.0|0.5|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||2.0|0.5|0.9770
92363438|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.29||||0.0036|TWO_SIDED|95.0|1.3|8.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||8.3|1.3|0.0036
92363439|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8||||0.0038|TWO_SIDED|95.0|1.0|7.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||7.7|1.0|0.0038
92363440|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9055|TWO_SIDED|95.0|0.5|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||2.0|0.5|0.9055
92363441|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.36||||0.002|TWO_SIDED|95.0|1.2|9.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||9.8|1.2|0.0020
92363442|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.35||||0.002|TWO_SIDED|95.0|1.3|8.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||8.8|1.3|0.0020
92363443|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.5763|TWO_SIDED|95.0|0.4|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||1.7|0.4|0.5763
92363444|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.93||||0.0002|TWO_SIDED|95.0|1.5|10.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||10.0|1.5|0.0002
92363445|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.21||||0.0004|TWO_SIDED|95.0|1.2|8.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||8.8|1.2|0.0004
92363446|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.4828|TWO_SIDED|95.0|0.4|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||1.6|0.4|0.4828
92363447|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.52|||<|0.0001|TWO_SIDED|95.0|1.4|9.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||9.0|1.4|<0.0001
92363448|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.28||||0.0002|TWO_SIDED|95.0|1.4|7.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||7.8|1.4|0.0002
92363449|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.8553|TWO_SIDED|95.0|0.6|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||1.9|0.6|0.8553
92403468|NCT00541658|184698432|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|3.192|||||TWO_SIDED|95.0|-2.295|8.68|||ANOVA|Fixed effects for treatment, pooled centers and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||8.680|-2.295|
92363450|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.56||||0.0003|TWO_SIDED|95.0|1.5|8.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||8.7|1.5|0.0003
92363451|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.53|||<|0.0001|TWO_SIDED|95.0|1.6|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||7.6|1.6|<0.0001
92363452|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.5025|TWO_SIDED|95.0|0.6|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||2.0|0.6|0.5025
92363453|NCT00565409|184629693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.62||||0.0001|TWO_SIDED|95.0|1.6|8.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||8.1|1.6|0.0001
92363454|NCT04828707|184629695|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||"The Intent-To-Treat (ITT) dataset was used for primary outcome. To overcome impact of missing data, statistical analysis was conducted using the Last Observation Carried Forward (LOCF) as an imputation method.~The data of each variable collected from the daily diary was normalized to 28 days for every period (weeks 1-4, weeks 5-8, and weeks 9-12).~Participants' data who entered the treatment phase but dropped out during weeks 5-8 were carried forward and analyzed as their data at weeks 9-12."||||<0.05
92224368|NCT00271817|184350180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-7.7|-2.1||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin|||-2.1|-7.7|<0.001
92403469|NCT00541658|184698433|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.45|||||TWO_SIDED|95.0|-0.26|9.16|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.160|-0.260|
92403470|NCT00541658|184698433|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|3.723|||||TWO_SIDED|95.0|-0.975|8.421|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||8.421|-0.975|
92224369|NCT00271817|184350181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.7|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-10.4|-5.0||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Ezetimibe/Simvastatin|||-5.0|-10.4|<0.001
92363455|NCT04211363|184629737|SUPERIORITY||Odds Ratio (OR)|20.69|||<|0.0001|TWO_SIDED|95.0|7.58|56.48|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data..|IGA Success Odds Ratio||56.48|7.58|<0.0001
92363456|NCT04211363|184629738|SUPERIORITY||Hazard Ratio (HR)|3.867|||<|0.0001|TWO_SIDED|95.0|2.795|5.351|||Log Rank|Unstratified log-rank test|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization.|Time to PASI-50||5.351|2.795|<0.0001
92363457|NCT04211363|184629739|SUPERIORITY||Odds Ratio (OR)|12.0|||<|0.0001|TWO_SIDED|95.0|5.15|27.93|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|PASI-75 at Week 8 Odds Ratio||27.93|5.15|<0.0001
92363458|NCT04211363|184629740|SUPERIORITY||Odds Ratio (OR)|17.9|||<|0.0001|TWO_SIDED|95.0|4.38|73.09|||Cochran-Mantel-Haenszel|Stratified by study site, baseline IGA score, and baseline intertriginous involvement with multiple imputation of missing data.|Cochran-Mantel-Haenszel stratified by study site, baseline IGA score, and baseline intertriginous involvement with multiple imputation of missing data.|PASI-90 at Week 8 Odds Ratio||73.09|4.38|<0.0001
92363459|NCT04211363|184629741|SUPERIORITY||Odds Ratio (OR)|17.94|||<|0.0001|TWO_SIDED|95.0|2.33|138.2|||Cochran-Mantel-Haenszel|Stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|I-IGA Success at Week 8 Odds Ratio||138.20|2.33|<0.0001
92363460|NCT04211363|184629742|SUPERIORITY||Odds Ratio (OR)|29.36||||0.003|TWO_SIDED|95.0|2.99|288.36|||Cochran-Mantel-Haenszel|Stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|I-IGA Clear at Week 8 Odds Ratio||288.36|2.99|0.003
92363461|NCT04211363|184629743|SUPERIORITY||Odds Ratio (OR)|1.76||||0.1197|TWO_SIDED|95.0|0.98|3.19|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|WI-NRS Success at Week 2 Odds Ratio||3.19|0.98|0.1197
92363462|NCT04211363|184629743|SUPERIORITY||Odds Ratio (OR)|4.36|||<|0.0001|TWO_SIDED|95.0|2.31|8.26|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|WI-NRS Success at Week 4 Odds Ratio||8.26|2.31|<0.0001
92363463|NCT04211363|184629743|SUPERIORITY||Odds Ratio (OR)|7.84|||<|0.0001|TWO_SIDED|95.0|3.85|15.94|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|WI-NRS at Week 8 Odds Ratio||15.94|3.85|<0.0001
92363464|NCT04211363|184629744|SUPERIORITY||Mean Difference (Final Values)|-25.83|||<|0.0001|TWO_SIDED|95.0|-31.7|-20.0|||ANCOVA|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Comparison of change from baseline in PSD score at Week 4||-20.0|-31.7|<0.0001
92363465|NCT04211363|184629744|SUPERIORITY||Mean Difference (Final Values)|-30.9|||<|0.0001|TWO_SIDED|95.0|-37.2|-24.6|||ANCOVA|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Comparison of change from baseline in PSD score at Week 8||-24.6|-37.2|<0.0001
92363466|NCT01991860|184629745|SUPERIORITY|||||||0.033||||||2-sided|Chi-squared, Corrected|Yates's continuity correction||||||0.033
92363467|NCT01991860|184629746|SUPERIORITY|||||||0.16|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.16
92363468|NCT01991860|184629747|SUPERIORITY|||||||0.68|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.68
92363469|NCT01991860|184629748|SUPERIORITY|||||||0.026|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.026
92363470|NCT01991860|184629749|SUPERIORITY|||||||0.086|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.086
92363471|NCT01991860|184629750|SUPERIORITY|||||||0.074|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.074
92363472|NCT01991860|184629751|SUPERIORITY|||||||0.15|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.15
92363473|NCT02797821|184629761|OTHER||Least Squares (LS) Means Difference|-1.88|||<|0.0001|TWO_SIDED|95.0|-2.544|-1.216||REML-based repeated measures mixed model (treatment, visit, sex, Baseline PPi, Baseline weight group \[≥median vs \< median\], and study drug lot assignment as factors) with an unstructured covariance structure for within-participant correlation.|REML|A fixed sequence testing procedure was used to control the Type I error rate. A statistical adjustment of p-values was not performed.||A fixed sequence testing procedure was performed to compare the 3.0 mg/kg cohort with the 0.5 mg/kg cohort first. The hypothesis testing for the second comparison of the 2.0 mg/kg cohort compared with the 0.5 mg/kg cohort was only performed if the null hypothesis was rejected for the previous comparison at a significance level of 0.05 (p-value \<0.05). The primary endpoint was met if the null hypothesis was rejected for both comparisons at a significance level of 0.05 (both p-values \<0.05).||-1.216|-2.544|<0.0001
92363474|NCT02797821|184629761|OTHER||LS Means Difference|-1.193||||0.0008|TWO_SIDED|95.0|-1.805|-0.581||REML-based repeated measures mixed model (treatment, visit, sex, Baseline PPi, Baseline weight group \[≥median vs \< median\], and study drug lot assignment as factors) with an unstructured covariance structure for within-participant correlation.|REML|A fixed sequence testing procedure was used to control the Type I error rate. A statistical adjustment of p-values was not performed.||A fixed sequence testing procedure was performed to compare the 3.0 mg/kg cohort with the 0.5 mg/kg cohort first. The hypothesis testing for the second comparison of the 2.0 mg/kg cohort compared with the 0.5 mg/kg cohort was only performed if the null hypothesis was rejected for the first comparison at a significance level of 0.05 (p-value \<0.05). The primary endpoint was met if the null hypothesis was rejected for both comparisons at a significance level of 0.05 (both p-values \<0.05).||-0.581|-1.805|0.0008
92363475|NCT02797821|184629762|OTHER||LS Means Difference|-34.047||||0.0128|TWO_SIDED|95.0|-60.171|-7.922||REML-based repeated measures mixed model (treatment, visit, sex, Baseline PPi, Baseline weight group \[≥ median versus \< median\], and study drug lot assignment as factors) with an unstructured covariance structure for within-participant correlation.|Restricted maximum likelihood-based|A statistical adjustment of p-values was not performed.||||-7.922|-60.171|0.0128
92363476|NCT02797821|184629762|OTHER||LS Means Difference|-29.492||||0.0239|TWO_SIDED|95.0|-54.723|-4.261||REML-based repeated measures mixed model (treatment, visit, sex, Baseline PPi, Baseline weight group \[≥ median versus \< median\], and study drug lot assignment as factors) with an unstructured covariance structure for within-participant correlation.|Restricted maximum likelihood-based|A statistical adjustment of p-values was not performed.||||-4.261|-54.723|0.0239
92363477|NCT01812057|184629763|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.740
92363478|NCT01812057|184629764|SUPERIORITY|Pain Score at rest at 2 hours||||||0.171|||||||t-test, 2 sided|||||||0.171
92403471|NCT00541658|184698434|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.798|||||TWO_SIDED|95.0|-0.195|9.79|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.790|-0.195|
92363479|NCT01812057|184629764|SUPERIORITY|Pain Score with movement at 2 hours||||||0.204|||||||t-test, 2 sided|||||||0.204
92363480|NCT01812057|184629765|SUPERIORITY|||||||0.1965|||||||Log Rank|||||||0.1965
92363481|NCT01812057|184629766|SUPERIORITY|||||||0.709|||||||Wilcoxon (Mann-Whitney)|||||||0.709
92363482|NCT01812057|184629767|SUPERIORITY|Pain Score at rest at 24 hours||||||0.267|||||||Wilcoxon (Mann-Whitney)|||||||0.267
92363483|NCT01812057|184629767|SUPERIORITY|Pain Score with movement at 24 hours||||||0.518|||||||t-test, 2 sided|||||||0.518
92363484|NCT01812057|184629768|SUPERIORITY|Pain Score at rest at 48 hours||||||0.491|||||||Wilcoxon (Mann-Whitney)|||||||0.491
92363485|NCT01812057|184629768|SUPERIORITY|Pain Scores with movement at 48 hours||||||0.525|||||||Wilcoxon (Mann-Whitney)|||||||0.525
92363486|NCT01812057|184629769|SUPERIORITY|||||||0.355|||||||Wilcoxon (Mann-Whitney)|Total opioid consumption at 24 hours|||We also performed a multivariable regression analysis to determine factors associated with 24h opioid consumption accounting for MTS category, demographic factors, study group allocation (dexamethasone vs placebo) and a preoperative questions to assess patients anxiety, anticipated pain scores after surgery and anticipated analgesic need after surgery. At each step of backward variable selection, we eliminate the factor with the largest p-value over 0.05.In the final model MTS was not associated with 24h opioid consumption parameter estimate (standard error) = 9.15 (5.27), p=0.09.|||0.355
92363487|NCT01812057|184629770|SUPERIORITY|||||||0.42|||||||Fisher Exact|Chronic pain at 8 weeks||||||0.420
92363488|NCT01812057|184629771|SUPERIORITY|||||||0.322|||||||Fisher Exact|||||||0.322
92363489|NCT01812057|184629772|SUPERIORITY|||||||0.805|||||||Wilcoxon (Mann-Whitney)|||24 hour pain scores at rest between MTS groups|We also performed a multivariable regression analysis to determine factors associated with Pain scores at rest at 24 hours accounting for MTS category, demographic factors, study group allocation (dexamethasone vs placebo) and a preoperative questions to assess patients anxiety, anticipated pain scores after surgery and anticipated analgesic need after surgery. At each step of backward variable selection, we eliminate the factors with the largest p-value over 0.05. MTS category was not included in the final model for 24 h pain scores at rest.|||0.805
92363490|NCT01812057|184629772|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Pain scores on movement at 24h|We also performed a multivariable regression analysis to determine factors associated with Pain scores at rest at 24 hours accounting for MTS category, demographic factors, study group allocation (dexamethasone vs placebo) and a preoperative questions to assess patients anxiety, anticipated pain scores after surgery and anticipated analgesic need after surgery. At each step of backward variable selection, we eliminated the factors with the largest p-value over 0.05. MTS category was not included in the final model for 24 h pain scores on movement.|||1.000
92363491|NCT01812057|184629773|SUPERIORITY|Intraoperative nausea and vomiting||||||0.245|||||||Fisher Exact|||||||0.245
92363492|NCT01812057|184629773|SUPERIORITY|||||||0.676|||||||Chi-squared|Need for intraoperative antiemetics||||||0.676
92363493|NCT01812057|184629773|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92363494|NCT01812057|184629775|SUPERIORITY|||||||0.924|||||||Chi-squared|Incidence of postoperative pruritus||||||0.924
92363495|NCT01812057|184629776|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||0.700
92363496|NCT01812057|184629777|SUPERIORITY|||||||0.302|||||||Chi-squared|Incidence of PONV at 24 h||||||0.302
92363497|NCT01812057|184629777|SUPERIORITY|||||||0.028|||||||Chi-squared|Postoperative need for rescue antiemetic||||||0.028
92363498|NCT01812057|184629777|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92363499|NCT01812057|184629777|SUPERIORITY|||||||0.188|||||||Chi-squared|||||||0.188
92363500|NCT01259011|184629784|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9|||<|0.05|TWO_SIDED|95.0|1.1|3.3|||Mixed Models Analysis|||||3.3|1.1|<.05
92363501|NCT01259011|184629785|SUPERIORITY||Slope|-1.2||||0.12|TWO_SIDED|95.0|-2.8|0.3||HADS-anxiety|Regression, Linear|||||0.3|-2.8|0.12
92363502|NCT01259011|184629785|SUPERIORITY||Slope|-2.2|||<|0.05|TWO_SIDED|95.0|-4.2|-0.3||HADS-depression|Regression, Linear|||||-0.3|-4.2|<0.05
92363503|NCT01259011|184629786|SUPERIORITY||Slope|-4.0||||0.21|TWO_SIDED|95.0|-10.2|2.2|||Regression, Linear|||||2.2|-10.2|0.21
92363504|NCT01180127|184629791|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Repeated measures ANOVA|||Repeated measures ANOVA for the interaction of time (baseline vs 12 week) and flavanol group.||||.0001
92363505|NCT01180127|184629792|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED|||||The ANCOVA model included a main effect for both flavanol and exercise, so this p-value is for the effect of flavanol on Modbent controlling for baseline Modbent and exercise|ANCOVA|||ANCOVA used to test main effect of flavanol||||0.038
92363506|NCT01180127|184629792|SUPERIORITY_OR_OTHER|||||||0.815|TWO_SIDED|||||The ANCOVA included both a main effect for flavanol and exercise, so this p-value is for the test of exercise controlling for baseline Modbent and flavanol|ANCOVA|||ANCOVA used to test main effect of exercise||||0.815
92363507|NCT01180127|184629793|SUPERIORITY_OR_OTHER|||||||0.853|TWO_SIDED||||||ANCOVA|||ANCOVA for testing main effect of flavanol||||0.853
92363508|NCT01180127|184629793|SUPERIORITY_OR_OTHER|||||||0.581|TWO_SIDED||||||ANCOVA|||ANCOVA for testing main effect of exercise||||0.581
92363509|NCT01180127|184629794|SUPERIORITY_OR_OTHER|||||||0.237|TWO_SIDED||||||ANCOVA|||ANCOVA was used to test for an exercise effect.||||0.237
92363510|NCT01854528|184629817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.26|||<|0.001|TWO_SIDED|95.0|21.09|47.42|||Stratum adjusted Mantel-Haenszel|||P-value for the difference in sustained virologic response rates 12 weeks after the last dose between treatment groups with HCV subgenotype (1a, non-1a) from stratum adjusted Mantel-Haenszel with previous type of response to pegIFN/RBV treatment (relapser, partial or null responder) as strata.||47.42|21.09|<0.001
92363511|NCT01854528|184629818|SUPERIORITY_OR_OTHER||LS mean difference|8.64|||<|0.001|TWO_SIDED|95.0|5.43|11.85|||ANCOVA|||P-value from ANCOVA model including baseline score and region as covariates and treatment arm as a factor.||11.85|5.43|<0.001
92363512|NCT01854528|184629819|SUPERIORITY_OR_OTHER||LS mean difference|7.55|||<|0.001|TWO_SIDED|95.0|5.11|9.98|||ANCOVA|||P-value from ANCOVA model including baseline score and region as covariates and treatment arm as a factor.||9.98|5.11|<0.001
92363513|NCT01854528|184629820|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|54.7|||<|0.001|TWO_SIDED|95.0|6.9|435.1|||Regression, Logistic|||P-value from logistic regression model including treatment arm, baseline log10 HCV RNA level, HCV subgenotype, and previous response to pegIFN/RBV treatment as predictors.||435.1|6.9|<0.001
92363514|NCT00518180|184629843|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given concomitantly with HPV and Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup I minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-2.0|||||TWO_SIDED|95.0|-6.0|3.0||||||Immune response to Men A when MenACWY is administered concomitantly with Tdap and HPV, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||3|-6|
92363515|NCT00518180|184629843|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given concomitantly with HPV and Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup I minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-1.0|||||TWO_SIDED|95.0|-6.0|3.0||||||Immune response to Men C when MenACWY is administered concomitantly with Tdap and HPV, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||3|-6|
92403472|NCT00541658|184698434|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.972|||||TWO_SIDED|95.0|0.02|9.924|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.924|0.020|
92403473|NCT00541658|184698435|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.775|||||TWO_SIDED|95.0|-0.514|10.065|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||10.065|-0.514|
92403474|NCT00541658|184698435|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|5.638||||||95.0|0.356|10.92|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||10.920|0.356|
92403475|NCT00541658|184698436|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|6.552|||||TWO_SIDED|95.0|1.162|11.942|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||11.942|1.162|
92403476|NCT00541658|184698436|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|5.531|||||TWO_SIDED|95.0|0.164|10.897|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||10.897|0.164|
92403477|NCT00541658|184698437|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|7.83|||||TWO_SIDED|95.0|1.175|14.485|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||14.485|1.175|
92403478|NCT00541658|184698437|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|8.383|||||TWO_SIDED|95.0|1.757|15.01|||ANOVA|Fixed effects for treatment, pooled centers and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||15.010|1.757|
92403479|NCT00541658|184698438|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|7.802|||||TWO_SIDED|95.0|1.385|14.22|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||14.220|1.385|
92403480|NCT00541658|184698438|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|7.301|||||TWO_SIDED|95.0|0.911|13.69|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||13.690|0.911|
92166010|NCT00773370|184220699|SUPERIORITY_OR_OTHER||Difference between slopes|0.002|STANDARD_DEVIATION|0.078||0.98|TWO_SIDED|||||Random effects ANOVA with random intercept and random slope compared the time course (slopes) of change in our outcome measures across three time points: baseline, three, and six-months in our two experimental groups--APA-stroke and Sittercise.|ANOVA|||||||.98
92166011|NCT00773370|184220699|SUPERIORITY_OR_OTHER||Slope|0.033|STANDARD_DEVIATION|0.054||0.54|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||.54
92363516|NCT00518180|184629843|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given concomitantly with HPV and Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup I minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-4.0|||||TWO_SIDED|95.0|-9.0|1.0||||||Immune response to Men W when MenACWY is administered concomitantly with Tdap and HPV, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||1|-9|
92363517|NCT00518180|184629843|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given concomitantly with HPV and Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup I minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|0.0|||||TWO_SIDED|95.0|-4.0|5.0||||||Immune response to Men Y when MenACWY is administered concomitantly with Tdap and HPV, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||5|-4|
92363518|NCT00518180|184629843|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given after Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup III minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|5.0|||||TWO_SIDED|95.0|1.0|10.0||||||Immune response to Men A when MenACWY is administered 1 month after Tdap, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||10|1|
92363519|NCT00518180|184629843|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given after Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup III minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-1.0|||||TWO_SIDED|95.0|-6.0|4.0||||||Immune response to Men C when MenACWY is administered 1 month after Tdap, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||4|-6|
92363520|NCT00518180|184629843|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given after Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup III minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-16.0|||||TWO_SIDED|95.0|-21.0|-10.0||||||Immune response to Men W when MenACWY is administered 1 month after Tdap, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||-10|-21|
92363521|NCT00518180|184629843|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given after Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup III minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-4.0|||||TWO_SIDED|95.0|-9.0|1.0||||||Immune response to Men Y when MenACWY is administered 1 month after Tdap, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||1|-9|
92363522|NCT00518180|184629844|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority of the immune response to Tdap when administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone, was demonstrated for the diphteria and tetanus antigens if the lower limits of the two-sided 95% CIs around the difference in the percentages of subjects with ELISA anti-D toxin ≥ 1.0 IU/mL \[Group I minus Group III\] were greater than -10%.|Vaccine Group differences (%)|2.0|||||TWO_SIDED|95.0|1.0|4.0||||||Non inferiority of the immune response to diphteria antigen, when Tdap is administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||4|1|
92363523|NCT00518180|184629844|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority of the immune response to Tdap when administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone, was demonstrated for the diphteria and tetanus antigens if the lower limits of the two-sided 95% CIs around the difference in the percentages of subjects with ELISA anti-D toxin ≥ 1.0 IU/mL \[Group I minus Group III\] were greater than -10%.|Vaccine Group differences (%)|0.0|||||TWO_SIDED|95.0|-1.0|1.0||||||Non inferiority of the immune response to tetanus antigen, when Tdap is administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||1|-1|
92363524|NCT00518180|184629853|NON_INFERIORITY_OR_EQUIVALENCE|Tdap concomitant with MenACWY a was considered non inferior to Tdap alone if, for PT, FHA and pertactin, the lower limit of the two-sided 95% CI for the ratio of the GMCs (GMC Group I / GMC Group III) at 1 month after vaccination was \> 0.67.|Vaccine Group Ratio|0.8|||||TWO_SIDED|95.0|0.72|0.9||||||Non inferiority of the immune response to Tdap is administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone, for PT antigen. Method: ANCOVA. Parameter estimate: Vaccine Group Ratio.||0.9|0.72|
92403481|NCT00541658|184698439|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.755|||||TWO_SIDED|95.0|-1.145|4.655|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.655|-1.145|
92363525|NCT00518180|184629853|NON_INFERIORITY_OR_EQUIVALENCE|Tdap concomitant with MenACWY a was considered non inferior to Tdap alone if, for PT, FHA and pertactin, the lower limit of the two-sided 95% CI for the ratio of the GMCs (GMC Group I / GMC Group III) at 1 month after vaccination was \> 0.67.|Vaccine Group Ratio|0.68|||||TWO_SIDED|95.0|0.58|0.81||||||Non inferiority of the immune response to Tdap when administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone, for PRN antigen. Method: ANCOVA. Parameter estimate: Vaccine Group Ratio.||0.81|0.58|
92363526|NCT00518180|184629853|NON_INFERIORITY_OR_EQUIVALENCE|Tdap concomitant with MenACWY a was considered non inferior to Tdap alone if, for PT, FHA and pertactin, the lower limit of the two-sided 95% CI for the ratio of the GMCs (GMC Group I / GMC Group III) at 1 month after vaccination was \> 0.67.|Vaccine Group Ratio|0.67|||||TWO_SIDED|95.0|0.58|0.76||||||Non inferiority of the immune response to Tdap when administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alon, for FHA antigen. Method: ANCOVA. Parameter estimate: Vaccine Group Ratio.||0.76|0.58|
92363527|NCT03060902|184629856|SUPERIORITY||F|10.16||||0.002|TWO_SIDED||||||ANOVA|||||||.002
92363528|NCT01957865|184629870|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Linear and Poisson regressions|||In an intention-to-treat analysis, percentage doses taken each month were compared by linear generalized estimating equations (GEEs); more than 48-h and more than 96-h lapses in dosingwere compared by Poisson GEE regression.||||<0.05
92363529|NCT01957865|184629871|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher's exact test|||HIV RNA suppression (\<100 copies/ml) was compared among study arms by Fisher's exact test.||||<0.05
92363530|NCT01419119|184629893|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92403482|NCT00541658|184698439|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.805|||||TWO_SIDED|95.0|-1.087|4.698|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.698|-1.087|
92403483|NCT00541658|184698440|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|2.407|||||TWO_SIDED|95.0|-0.502|5.316|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||5.316|-0.502|
92403484|NCT00541658|184698440|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.309|||||TWO_SIDED|95.0|-1.576|4.194|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.194|-1.576|
92166012|NCT00773370|184220699|SUPERIORITY_OR_OTHER||Slope|0.031|STANDARD_DEVIATION|0.057||0.59|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||.59
92363531|NCT01419119|184629894|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92363532|NCT03768427|184629918|OTHER|Difference in least squares mean|Mean Difference (Final Values)|-19.5|||<|0.001|TWO_SIDED|95.0|-26.7|-12.3|||Constrained longitudinal model|||"This statistical analysis was performed by fitting a constrained longitudinal model adjusting for time and the interaction of time by treatment, and time by baseline disease risk category, including all participants with baseline data (88 participants in arm Atorvastatin 10 mg - ezetimibe 10 mg/Ator 10 mg and 89 participants in arm Atorvastatin 10mg - Atorvastatin 20 mg)."|Difference in least squares mean is Atorvastatin 10 mg - EZ 10 mg/Ator 10 mg minus Atorvastatin 10mg - Atorvastatin 20 mg.|-12.3|-26.7|<0.001
92363533|NCT03768427|184629918|OTHER|Difference in least squares mean|Mean Difference (Final Values)|-15.9|||<|0.001|TWO_SIDED|95.0|-21.0|-10.7|||Constrained longitudinal model|||"This statistical analysis was performed by fitting a constrained longitudinal model adjusting for time and the interaction of time by treatment, and time by baseline disease risk category, including all participants with baseline data (137 participants in arm Atorvastatin 20 mg - EZ 10 mg/Ator 20 mg and 140 participants in arm Atorvastatin 20 mg - Atorvastatin 40 mg)."|Atorvastatin 20 mg - EZ 10 mg/Ator 20 mg minus Atorvastatin 20 mg - Atorvastatin 40 mg.|-10.7|-21.0|<0.001
92363534|NCT03710889|184629937|OTHER|Within treatment paired t-tests were used to compare the differences in dynamic indices between Baseline and Month 3 using the Bone-Biopsy Population. If the normality assumption is not satisfied at the 0.01 significance level and visual inspection of the data deems it necessary, Wilcoxon signed-rank test is used. No adjustments for multiplicity were made. A 2-sided p-value \<0.05 was considered statistically significant.|||||<|0.0001|||||||Paired t-test, 2 sided|||||||<0.0001
92363535|NCT00833521|184629975|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|91.1||||||90.0|86.3|96.1|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||96.1|86.3|
92363536|NCT00833521|184629976|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|97.0||||||90.0|91.0|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|91.0|
92363537|NCT00833521|184629977|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|96.8||||||90.0|90.7|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|90.7|
92403485|NCT00541658|184698441|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.555|||||TWO_SIDED|95.0|-1.617|4.727|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.727|-1.617|
92403486|NCT00541658|184698441|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.612|||||TWO_SIDED|95.0|-1.556|4.779|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.779|-1.556|
92403487|NCT00541658|184698442|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.434|||||TWO_SIDED|95.0|-1.652|4.521|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.521|-1.652|
92403488|NCT00541658|184698442|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.462|||||TWO_SIDED|95.0|-1.611|4.535|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.535|-1.611|
92403489|NCT00541658|184698443|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|2.749|||||TWO_SIDED|95.0|-0.938|6.436|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||6.436|-0.938|
92403490|NCT00541658|184698443|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|3.416|||||TWO_SIDED|95.0|-0.255|7.087|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus daily treatment.|||7.087|-0.255|
92403491|NCT00541658|184698444|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|2.197|||||TWO_SIDED|95.0|-1.318|5.711|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||5.711|-1.318|
92363538|NCT02121509|184629978|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|102.79|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|90.0|98.938|106.789|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||106.789|98.938|<0.0001
92363539|NCT02121509|184629978|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|101.45|STANDARD_ERROR_OF_MEAN|1.026|<|0.0001|TWO_SIDED|90.0|96.99|106.121|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||106.121|96.990|<0.0001
92363540|NCT02121509|184629979|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|106.22|STANDARD_ERROR_OF_MEAN|1.046||0.0004|TWO_SIDED|90.0|98.449|114.614|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||114.614|98.449|0.0004
92363541|NCT02121509|184629979|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|106.71|STANDARD_ERROR_OF_MEAN|1.051||0.004|TWO_SIDED|90.0|97.614|116.658|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||116.658|97.614|0.0040
92166013|NCT00773370|184220700|SUPERIORITY_OR_OTHER||Slope|0.296|STANDARD_DEVIATION|9.77||0.98|TWO_SIDED||||||ANOVA|||Random effects ANOVA with random intercept and random slope was used to compare the time course of change in our outcome measures across three time points: baseline, three, and six-months in our two experimental groups--APA-stroke and Sittercise.||||.98
92363542|NCT02121509|184629980|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|102.03|STANDARD_ERROR_OF_MEAN|1.05||0.0001|TWO_SIDED|90.0|94.03|110.72|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||110.72|94.03|0.0001
92363543|NCT02121509|184629980|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|96.36|STANDARD_ERROR_OF_MEAN|1.04||0.0002|TWO_SIDED|90.0|89.96|103.22|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||103.22|89.96|0.0002
92363544|NCT02121509|184629981|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|105.1|STANDARD_ERROR_OF_MEAN|1.057||0.0013|TWO_SIDED|90.0|95.829|115.269|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||115.269|95.829|0.0013
92363545|NCT02121509|184629981|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|113.91|STANDARD_ERROR_OF_MEAN|1.027||0.0018|TWO_SIDED|90.0|108.749|119.318|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||119.318|108.749|0.0018
92363546|NCT02121509|184629982|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|101.45|STANDARD_ERROR_OF_MEAN|1.035|<|0.0001|TWO_SIDED|90.0|95.748|107.487|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||107.487|95.748|<0.0001
92363547|NCT02121509|184629982|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|106.33|STANDARD_ERROR_OF_MEAN|1.034||0.0002|TWO_SIDED|90.0|100.268|112.763|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||112.763|100.268|0.0002
92363548|NCT02121509|184629983|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|102.07|STANDARD_ERROR_OF_MEAN|1.05|<|0.0001|TWO_SIDED|90.0|94.2|110.59|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||110.59|94.20|<0.0001
92166014|NCT00773370|184220700|SUPERIORITY_OR_OTHER||Slope|15.49|STANDARD_DEVIATION|6.19||0.02|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||||||.02
92166015|NCT00773370|184220700|SUPERIORITY_OR_OTHER||Slope|15.193|STANDARD_DEVIATION|7.553||0.051|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||||||.051
92363549|NCT02121509|184629983|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|96.79|STANDARD_ERROR_OF_MEAN|1.04||0.0001|TWO_SIDED|90.0|90.33|103.7|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||103.70|90.33|0.0001
92363550|NCT00636181|184629985|SUPERIORITY|||||||0.3||||||PSG outcomes employed analysis of variance for approximately normally distributed outcomes (or outcomes that could be transformed to an approximately normal distribution), and the Kruskal-Wallis test for non-normal outcomes.|Kruskal-Wallis|Pairwise differences were determined using Tukey-Kramer test- ANOVA applied or by Mann-Whitney-Wilcoxon summed rank tests and Bonferroni adjustment.||||||0.3
92363551|NCT00896012|184630012|OTHER|||||||0.222||||||Significance was considered to be P \< .05|t-test, 2 sided|||Statistical analysis was performed by analysis of variance and Student t test for estimated glomerular filtration rate (eGFR) at 12 months. Chi-square analysis was used for demographics data.||||0.222
92363552|NCT02735421|184630014|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92363553|NCT01978145|184630032|NON_INFERIORITY_OR_EQUIVALENCE|Non- inferiority was demonstrated if lower limit of the CI (0.025 one sided significance level) for the difference of the mean change from Baseline in trough FEV1 of FSC administered BID by CB DPI versus FSC administered BID by MD DPI is greater than -45 milliliter (mL).|Mean Difference (Net)|0.025|||||TWO_SIDED|95.0|0.002|0.047|||Repeated Measures Mixed Models|||||0.047|0.002|
92363554|NCT01978145|184630033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.004|||||TWO_SIDED|95.0|-0.019|0.027|||||The estimated value and 95% CI values are provided for Day 28|||0.027|-0.019|
92166016|NCT01765543|184220701|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.614|||||TWO_SIDED|90.0|0.484|0.78||||||Analysis of variance (ANOVA) was applied to the log-transformed PK parameters, and then back transformed to provide geometric mean ratio (Period C/Period A) and confidence intervals.||0.780|0.484|
92363555|NCT01978145|184630033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|||||TWO_SIDED|95.0|-0.005|0.044|||||The estimated value and 95% CI values are provided for Day 56|||0.044|-0.005|
92363556|NCT01978145|184630034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166||||||95.0|-0.06|0.393||||||||0.393|-0.060|
92363557|NCT01978145|184630035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.003|||||TWO_SIDED|95.0|-0.278|0.272|||||The estimated and 95% CI values are presented for Day 28.|||0.272|-0.278|
92166017|NCT01765543|184220702|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.596|||||TWO_SIDED|90.0|0.469|0.759||||||ANOVA was applied to the log-transformed PK parameters, and then back transformed to provide geometric mean ratio (Period C/Period A) and confidence intervals.||0.759|0.469|
92166018|NCT01765543|184220703|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.11|||||TWO_SIDED|90.0|0.908|1.36||||||ANOVA was applied to the log-transformed PK parameters, and then back transformed to provide geometric mean ratio (Period C/Period A) and confidence intervals.||1.36|0.908|
92363558|NCT01978145|184630035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.069||||||95.0|-0.349|0.212|||||The estimated and 95% CI values are presented for Day 56.|||0.212|-0.349|
92363559|NCT01978145|184630035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.133|||||TWO_SIDED|95.0|-0.413|0.148|||||The estimated and 95% CI values are presented for Day 85.|||0.148|-0.413|
92363560|NCT01978145|184630036|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|-0.7|1.19||||||||1.19|-0.70|
92363561|NCT01978145|184630037|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-1.1|-0.02||||||||-0.02|-1.10|
92363562|NCT02026011|184630042|SUPERIORITY_OR_OTHER|||||||0.39||||||Medication effect: b = -0.15, SE = 0.17, t = -0.86, p = 0.39|Mixed Models Analysis|||||||0.39
92363563|NCT02026011|184630042|SUPERIORITY_OR_OTHER|||||||0.34||||||Genotype effect: b = 0.20, SE = 0.21, t = 0.96, p = 0.34|Mixed Models Analysis|||||||0.34
92363564|NCT02026011|184630042|SUPERIORITY_OR_OTHER|||||||0.04||||||BrAC effect: b = 0.13, SE = 0.06, t = 2.10, p = 0.04|Mixed Models Analysis|||||||0.04
92363565|NCT02026011|184630042|SUPERIORITY_OR_OTHER|||||||0.47||||||Medication by genotype interaction: b = 0.15, SE = 0.21, t = 0.73, p = 0.47|Mixed Models Analysis|||||||0.47
92363566|NCT02026011|184630042|SUPERIORITY_OR_OTHER|||||||0.13||||||Medication by genotype by BrAC interaction: b = -0.20, SE = 0.13, t = -1.52, p = 0.13|Mixed Models Analysis|||||||0.13
92363567|NCT02026011|184630043|SUPERIORITY_OR_OTHER|||||||0.23||||||Medication effect: b = 0.16, SE = 0.13, t = 1.20, p = 0.23|Mixed Models Analysis|||||||0.23
92403492|NCT00541658|184698444|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|2.251|||||TWO_SIDED|95.0|-1.248|5.751|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||5.751|-1.248|
92403493|NCT00541658|184698445|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.0||||1|TWO_SIDED|95.0|0.14|7.05|||Fisher Exact|||||7.05|0.14|1.0000
92403494|NCT00541658|184698445|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.5||||1|TWO_SIDED|95.0|0.25|8.9|||Fisher Exact|||||8.90|0.25|1.0000
92403495|NCT00541658|184698446|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.03||||1|TWO_SIDED|95.0|0.15|7.29|||Fisher Exact|||||7.29|0.15|1.0000
92403496|NCT00541658|184698446|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.49||||1|TWO_SIDED|95.0|0.25|8.87|||Fisher Exact|||||8.87|0.25|1.0000
92363568|NCT02026011|184630043|SUPERIORITY_OR_OTHER|||||||0.09||||||Genotype effect: b = 0.37, SE = 0.22, t = 1.69, p = 0.09|Mixed Models Analysis|||||||0.09
92363569|NCT02026011|184630043|SUPERIORITY_OR_OTHER|||||||0.84||||||Medication by genotype interaction: b = 0.04, SE = 0.21, t = 0.20, p = 0.84|Mixed Models Analysis|||||||0.84
92363570|NCT02026011|184630043|SUPERIORITY_OR_OTHER|||||||0.05||||||Medication by genotype by BrAC interaction: b = -0.32, SE = 0.16, t = -1.93, p = 0.05|Mixed Models Analysis|||||||0.05
92363571|NCT02026011|184630044|SUPERIORITY_OR_OTHER|||||||0.55||||||Medication effect: b = 0.14, SE = 0.23, t = 0.61, p = 0.55|Mixed Models Analysis|||||||0.55
92363572|NCT02026011|184630044|SUPERIORITY_OR_OTHER|||||||0.77||||||Genotype effect: b = -0.11, SE = 0.37, t = -0.30, p = 0.77|Mixed Models Analysis|||||||0.77
92363573|NCT02026011|184630044|SUPERIORITY_OR_OTHER|||||||0.04||||||BrAC effect: b = 0.30, SE = 0.15, t = 2.02, p = 0.04|Mixed Models Analysis|||||||0.04
92363574|NCT02026011|184630044|SUPERIORITY_OR_OTHER|||||||0.47||||||Medication by genotype interaction: b = -0.21, SE = 0.29, t = -0.72, p = 0.47|Mixed Models Analysis|||||||0.47
92363575|NCT02026011|184630044|SUPERIORITY_OR_OTHER|||||||0.19||||||Medication by genotype by BrAC interaction: b = 0.28, SE = 0.21, t = 1.30, p = 0.19|Mixed Models Analysis|||||||0.19
92363576|NCT02026011|184630046|SUPERIORITY_OR_OTHER|||||||0.14||||||Medication effect: F(1,71) = 2.24, p = 0.14|Poisson Regression|||||||0.14
92363577|NCT02026011|184630046|SUPERIORITY_OR_OTHER|||||||0.02||||||Genotype effect: F(1, 71) = 5.79, p = 0.02|Poisson|||||||0.02
92363578|NCT02026011|184630046|SUPERIORITY_OR_OTHER|||||||0.41||||||Medication by genotype interaction: F(1, 70) = 0.68, p = 0.41.|Poisson|||||||0.41
92363579|NCT01714323|184630058|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07|||>|0.05|TWO_SIDED|95.0|0.84|1.37|||Chi-squared|||Data from all three sites were combined after determining that outcomes did not vary by hospital using Breslow-Day tests. The proportion abstinent by treatment arm was assessed using chi-square test.||1.37|0.84|>0.05
92363580|NCT01714323|184630059|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92363581|NCT01714323|184630060|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||This compares at Month 1||||<0.001
92363582|NCT01714323|184630060|SUPERIORITY||||||<|0.01|||||||Chi-squared|||This is analysis for Month 3||||<0.01
92363583|NCT01714323|184630060|SUPERIORITY||||||<|0.09|||||||Chi-squared|||This is for Month 6||||<0.09
92363584|NCT01714323|184630062|SUPERIORITY_OR_OTHER||||||<|0.001||||||This is the p value for the comparison at each follow up point: 1 mo, 3 mo, and 6 mo.|Chi-squared|||||||<0.001
92363585|NCT01714323|184630063|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92363586|NCT01714323|184630064|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92363587|NCT00755807|184630065|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed model repeated measures (MMRM):Change from Baseline=Baseline+Treatment+Investigator+Week+Treatment\*Week+Baseline\*Week,participant random effect.||Null hypothesis: no difference between duloxetine and placebo on pain severity reduction as measured by weekly mean of the daily 24-hour average pain scores in participants assessed at 6 weeks. Sample size is determined using 2-sided t-test with significance level of 0.05, and 5% of randomized participants without post-baseline data due to very early discontinuation. With 119 participants per arm, study has approximately 80% power to detect an effect size of 0.375 on treatment group difference.||||0.001
92363588|NCT00755807|184630066|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-value is for the 30% Reduction (LOCF). P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.027
92363589|NCT00755807|184630066|SUPERIORITY_OR_OTHER|||||||0.246||95.0||||P-value is for 50% Reduction (LOCF). P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.246
92363590|NCT00755807|184630066|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||P-value is for the 30% Reduction (BOCF). P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.024
92363591|NCT00755807|184630066|SUPERIORITY_OR_OTHER|||||||0.165||95.0||||P-value is for 50% Reduction (BOCF). P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.165
92224370|NCT01411085|184350238|SUPERIORITY||Mean Difference (Final Values)|7.0||||0.317|TWO_SIDED||||||t-test, 2 sided|||The assessment was between baseline and values for last 8 weeks.||||0.317
92363592|NCT00755807|184630067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.121|TWO_SIDED|95.0|-0.06|0.49||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Analysis of Variance (ANOVA) Model: PGI improvement at Endpoint = Treatment + Investigator.|The mean difference is for placebo - duloxetine.|||0.49|-0.06|0.121
92363593|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.016|TWO_SIDED|95.0|0.12|1.2||P-value is for BPI Severity for Worst Pain score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.20|0.12|0.016
92363594|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.043|TWO_SIDED|95.0|0.02|0.95||P-value is for BPI Severity for Least Pain score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.95|0.02|0.043
92363595|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.03|TWO_SIDED|95.0|0.05|0.99||P-value is for BPI Severity for Average Pain score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.99|0.05|0.030
92363596|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.001|TWO_SIDED|95.0|0.36|1.43||P-value is for BPI Severity for Pain Right Now score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.43|0.36|0.001
92363597|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.083|TWO_SIDED|95.0|-0.07|1.11||P-value is for BPI Interference for General Activity score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.11|-0.07|0.083
92363598|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.034|TWO_SIDED|95.0|0.05|1.27||P-value is for BPI Interference for Mood score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.27|0.05|0.034
92363599|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55||||0.089|TWO_SIDED|95.0|-0.08|1.19||P-value is for BPI Interference for Walking Ability score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.19|-0.08|0.089
92363600|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.291|TWO_SIDED|95.0|-0.28|0.93||P-value is for BPI Interference for Normal Work score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.93|-0.28|0.291
92363601|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.077|TWO_SIDED|95.0|-0.06|1.05||P-value is for BPI Interference for Relations With Others score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.05|-0.06|0.077
92363602|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.148|TWO_SIDED|95.0|-0.15|0.97||P-value is for BPI Interference for Sleep score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.97|-0.15|0.148
92363603|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.582|TWO_SIDED|95.0|-0.45|0.79||P-value is for BPI Interference for Enjoyment Of Life score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.79|-0.45|0.582
92363604|NCT00755807|184630068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.067|TWO_SIDED|95.0|-0.03|0.94||P-value is for BPI Mean Interference score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.94|-0.03|0.067
92363605|NCT00755807|184630069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.041|TWO_SIDED|95.0|0.01|0.45||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.45|0.01|0.041
92363606|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.5|TWO_SIDED|95.0|-3.9|1.91||P-value is for treatment comparison of change from baseline on MSQOL Physical Health Composite Section score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.91|-3.90|0.500
92363607|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22||||0.512|TWO_SIDED|95.0|-4.87|2.44||P-value is for treatment comparison of change from baseline on MSQOL Mental Health Composite Section score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||2.44|-4.87|0.512
92363608|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.72|TWO_SIDED|95.0|-4.51|3.12||P-value is for treatment comparison of change from baseline on MSQOL Physical Health Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||3.12|-4.51|0.720
92363609|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.973|TWO_SIDED|95.0|-3.58|3.46||P-value is for treatment comparison of change from baseline on MSQOL Health Perceptions Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||3.46|-3.58|0.973
92363610|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.991|TWO_SIDED|95.0|-4.07|4.02||P-value is for treatment comparison of change from baseline on MSQOL Energy Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||4.02|-4.07|0.991
92363611|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.14||||0.441|TWO_SIDED|95.0|-11.14|4.87||P-value is for treatment comparison of change from baseline on MSQOL Role Limitation Due to Physical Problems Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||4.87|-11.14|0.441
92166019|NCT01185561|184220709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.89|STANDARD_ERROR_OF_MEAN|2.43||0.001|TWO_SIDED|95.0|4.03|13.76|||t-test, 2 sided|||The null hypothesis is that there is no difference in CES-D score between those assigned to the psychoeducational intervention and those assigned to usual medical care six months after randomization.||13.76|4.03|.001
92363612|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.58||||0.108|TWO_SIDED|95.0|-7.94|0.79||P-value is for treatment comparison of change from baseline on MSQOL Pain Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.79|-7.94|0.108
92363613|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.948|TWO_SIDED|95.0|-5.77|5.39||P-value is for treatment comparison of change from baseline on MSQOL Sexual Function Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||5.39|-5.77|0.948
92363614|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.96||||0.374|TWO_SIDED|95.0|-2.37|6.28||P-value is for treatment comparison of change from baseline on MSQOL Social Function Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||6.28|-2.37|0.374
92403497|NCT00541658|184698447|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.42||||0.4505|TWO_SIDED|95.0|0.08|2.14|||Fisher Exact|||||2.14|0.08|0.4505
92363615|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.867|TWO_SIDED|95.0|-4.1|4.87||P-value is for treatment comparison of change from baseline on MSQOL Health Distress Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||4.87|-4.10|0.867
92363616|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.77||||0.306|TWO_SIDED|95.0|-1.63|5.17||P-value is for treatment comparison of change from baseline on MSQOL Overall Quality Of Life Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||5.17|-1.63|0.306
92363617|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.733|TWO_SIDED|95.0|-4.08|2.88||P-value is for treatment comparison of change from baseline on MSQOL Emotional Well-being Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||2.88|-4.08|0.733
92363618|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.283|TWO_SIDED|95.0|-13.88|4.08||P-value is for treatment comparison of change from baseline on MSQOL Role Limitation Due to Emotional Problems score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||4.08|-13.88|0.283
92363619|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.664|TWO_SIDED|95.0|-4.49|2.86||P-value is for treatment comparison of change from baseline on MSQOL Cognitive Function Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||2.86|-4.49|0.664
92363620|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98||||0.504|TWO_SIDED|95.0|-7.81|3.85||P-value is for treatment comparison of change from baseline on MSQOL Change in Health Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine|||3.85|-7.81|0.504
92403498|NCT00541658|184698447|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.82||||1|TWO_SIDED|95.0|0.22|3.03|||Fisher Exact|||||3.03|0.22|1.0000
92403499|NCT00541658|184698448|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.41||||0.4505|TWO_SIDED|95.0|0.08|2.11|||Fisher Exact|||||2.11|0.08|0.4505
92403500|NCT00541658|184698448|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.2||||0.7719|TWO_SIDED|95.0|0.37|3.9|||Fisher Exact|||||3.90|0.37|0.7719
92166020|NCT01185561|184220710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.82|STANDARD_ERROR_OF_MEAN|3.27||0.02|TWO_SIDED|95.0|1.29|14.37|||t-test, 2 sided|||The null hypothesis is that there is no difference in the State Anxiety Sub-test score between those assigned to the psychoeducational intervention and those assigned to usual medical care six months after randomization.||14.37|1.29|.02
92363621|NCT00755807|184630070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.02||||0.27|TWO_SIDED|95.0|-11.18|3.14||P-value is for treatment comparison of change from baseline on MSQOL Satisfaction with Sexual Function Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine|||3.14|-11.18|0.270
92363622|NCT00755807|184630071|SUPERIORITY_OR_OTHER|||||||0.119||95.0||||P-value is for treatment comparison in number of participants with CSSR-S Suicidal Ideation during first 6 weeks of acute treatment. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.119
92363623|NCT00755807|184630071|SUPERIORITY_OR_OTHER|||||||0.494||95.0||||P-value is for treatment comparison in number of participants with CSSR-S Suicidal Behavior during first 6 weeks of acute treatment. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.494
92363624|NCT00755807|184630071|SUPERIORITY_OR_OTHER|||||||0.494||95.0||||P-value is for treatment comparison in number of participants with CSSR-S Suicidal Acts during first 6 weeks of acute treatment. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.494
92363625|NCT00755807|184630072|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed model repeated measures model:Change from Baseline=Baseline+Treatment+Investigator+Week+Treatment\*Week+Baseline\*Week; participant=random effect.||||||0.002
92403501|NCT00541658|184698449|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.0||||1|TWO_SIDED|95.0|0.14|7.05|||Fisher Exact|||||7.05|0.14|1.0000
92403502|NCT00541658|184698449|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.5||||1|TWO_SIDED|95.0|0.25|8.9|||Fisher Exact|||||8.90|0.25|1.0000
92403503|NCT00541658|184698450|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.03||||1|TWO_SIDED|95.0|0.15|7.29|||Fisher Exact|||||7.29|0.15|1.0000
92403504|NCT00541658|184698450|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.49||||1|TWO_SIDED|95.0|0.25|8.87|||Fisher Exact|||||8.87|0.25|1.0000
92403505|NCT00541658|184698451|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.42||||0.4505|TWO_SIDED|95.0|0.08|2.14|||Fisher Exact|||||2.14|0.08|0.4505
92403506|NCT00541658|184698451|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.82||||1|TWO_SIDED|95.0|0.22|3.03|||Fisher Exact|||||3.03|0.22|1.0000
92403507|NCT00541658|184698452|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.41||||0.4505|TWO_SIDED|95.0|0.08|2.11|||Fisher Exact|||||2.11|0.08|0.4505
92166021|NCT01185561|184220711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.48|STANDARD_ERROR_OF_MEAN|2.91||0.005|TWO_SIDED|95.0|2.64|14.31|||t-test, 2 sided|||The null hypothesis is that there is no difference in the State Trait Anxiety Sub-test score between those assigned to the psychoeducational intervention and those assigned to usual medical care six months after randomization.||14.31|2.64|.005
92403508|NCT00541658|184698452|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.2||||0.7719|TWO_SIDED|95.0|0.37|3.9|||Fisher Exact|||||3.90|0.37|0.7719
92403509|NCT03373240|184698453|OTHER|Examining stop signal reaction time changed across the 4-week training period|Mean Difference (Net)|-8.62|STANDARD_ERROR_OF_MEAN|2.79||0.003|TWO_SIDED|95.0|-14.17|-3.06|||Mixed Models Analysis|||||-3.06|-14.17|.003
92403510|NCT03373240|184698454|SUPERIORITY||Mean Difference (Net)|-0.075|STANDARD_ERROR_OF_MEAN|0.127||0.049|TWO_SIDED|95.0|-0.333|0.184|||ANOVA|||||.184|-.333|.049
92363626|NCT00755807|184630073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.662|TWO_SIDED|95.0|-0.06|0.04||P-value is for treatment comparison of change from baseline on BDI-II Question #9 score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.04|-0.06|0.662
92363627|NCT00755807|184630074|SUPERIORITY_OR_OTHER|||||||0.244||95.0||||This is the P-value for Discontinuation Due to Any Reason.|Fisher Exact|||||||0.244
92363628|NCT00755807|184630074|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||This is the P-value for Adverse Event (AE).|Fisher Exact|||||||0.012
92363629|NCT00755807|184630074|SUPERIORITY_OR_OTHER|||||||0.622||95.0||||This is the P-value for Protocol Violation.|Fisher Exact|||||||0.622
92403511|NCT03373240|184698455|SUPERIORITY||Mean Difference (Net)|-1.914|STANDARD_ERROR_OF_MEAN|1.011||0.236|TWO_SIDED|95.0|-3.965|0.136|||ANOVA|||||.136|-3.965|.236
92403512|NCT03373240|184698456|OTHER|Examining whether percentage of risky choices decreased across the 4-wwek training period.|Mean Difference (Net)|-1.62|STANDARD_ERROR_OF_MEAN|0.77||0.039|TWO_SIDED|95.0|-3.15|-0.08|||Mixed Models Analysis|||||-.08|-3.15|.039
92363630|NCT00755807|184630074|SUPERIORITY_OR_OTHER|||||||1||95.0||||This is the P-value for Subject Decision.|Fisher Exact|||||||1.00
92363631|NCT00755807|184630074|SUPERIORITY_OR_OTHER|||||||1||95.0||||This is the P-value for Lack of Efficacy.|Fisher Exact|||||||1.00
92403513|NCT03373240|184698457|OTHER||Mean Difference (Net)|-1.77|STANDARD_ERROR_OF_MEAN|0.82||0.035|TWO_SIDED|95.0|-3.4|-0.13|||Mixed Models Analysis|||||-.13|-3.40|.035
92403514|NCT03373240|184698458|OTHER||Mean Difference (Net)|4.26|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|3.12|5.39|||Mixed Models Analysis|||||5.39|3.12|<.001
92363632|NCT00755807|184630074|SUPERIORITY_OR_OTHER|||||||1||95.0||||This is the P-value for Physician Decision.|Fisher Exact|||||||1.00
92403515|NCT03373240|184698459|SUPERIORITY||Mean Difference (Net)|0.933|STANDARD_ERROR_OF_MEAN|0.403||0.008|TWO_SIDED|95.0|0.111|1.755|||ANOVA|||||1.755|.111|.008
92403516|NCT03373240|184698460|SUPERIORITY||Mean Difference (Net)|0.019|STANDARD_ERROR_OF_MEAN|0.096||0.077|TWO_SIDED|97.0|-0.177|0.214|||ANOVA|||||.214|-.177|.077
92166022|NCT01185561|184220712|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73|STANDARD_ERROR_OF_MEAN|3.75||0.85|TWO_SIDED|95.0|-6.77|8.24|||t-test, 2 sided|||The null hypothesis is that there is no difference in the State Trait Anger Expression Sub-test score between those assigned to the psychoeducational intervention and those assigned to usual medical care six months after randomization.||8.24|-6.77|.85
92166023|NCT02755805|184220720|SUPERIORITY_OR_OTHER||Cohen's d effect size at month 6|1.11||||0.007|TWO_SIDED|||||a priori threshold set at p\<0.05|Mixed Models Analysis|"F(3,74)=4.37~P-values were calculated using mixed model analyses and controlled for stoke severity as a covariate."|Effect size was calculated using mean change scores (baseline to month 6) and standard error of change (baseline to month 6) for each group.|All analyses were performed using the intent-to-treat principle so that comparisons were made according to the assigned intervention group regardless of study completion.||||0.007
92363633|NCT00755807|184630077|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-value is for treatment comparison of change from baseline on Bicarbonate, HCO3. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Model: Rank-transformed change from Baseline = Treatment + Investigator.||||||0.047
92363634|NCT00755807|184630078|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-value is for treatment comparison of change from baseline on creatinine. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Model: Rank-transformed change from Baseline = Treatment + Investigator.||||||0.033
92363635|NCT00755807|184630079|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-value is for treatment comparison of change from baseline on platelet count. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Model: Rank-transformed change from baseline = Treatment + Investigator.||||||0.034
92363636|NCT00755807|184630080|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value is for treatment comparison of change from baseline on inorganic phosphorus. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Model: Rank-transformed change from Baseline = Treatment + Investigator.||||||0.007
92363637|NCT00755807|184630081|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P-value is for treatment comparison of change from baseline on uric acid. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Model: Rank-transformed change from Baseline = Treatment + Investigator.||||||0.025
92363638|NCT00755807|184630082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86||||0.322|TWO_SIDED|95.0|-2.55|0.84||P-value is for treatment comparison of change from baseline on diastolic blood pressure. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.84|-2.55|0.322
92363639|NCT00755807|184630082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.787|TWO_SIDED|95.0|-3.32|2.52||P-value is for treatment comparison of change from baseline on systolic blood pressure. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||2.52|-3.32|0.787
92403517|NCT03373240|184698461|SUPERIORITY||Mean Difference (Net)|-0.964|STANDARD_ERROR_OF_MEAN|1.902||0.547|TWO_SIDED|95.0|-4.822|2.895|||ANOVA|||||2.895|-4.822|.547
92403518|NCT03373240|184698462|SUPERIORITY||Mean Difference (Net)|-0.532|STANDARD_ERROR_OF_MEAN|0.628||0.436|TWO_SIDED|95.0|-1.805|0.742|||ANOVA|||||.742|-1.805|.436
92403519|NCT02867436|184698463|SUPERIORITY||Mean Difference (Final Values)|205.0|||<|0.05|TWO_SIDED|95.0|-223.0|633.0|||Regression, Linear|||||633|-223|<0.05
92403520|NCT02867436|184698464|SUPERIORITY||Mean Difference (Final Values)|-7.8|||<|0.05|TWO_SIDED|95.0|-14.1|-1.6|||Regression, Linear|||||-1.6|-14.1|<0.05
92403521|NCT02867436|184698465|SUPERIORITY||Mean Difference (Final Values)|-0.15|||<|0.05|TWO_SIDED|95.0|-0.31|0.01|||Regression, Linear|||||0.01|-0.31|<0.05
92403522|NCT02867436|184698466|SUPERIORITY||||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92403523|NCT02867436|184698467|SUPERIORITY||||||<|0.05||||||After Benjamini-Hochberg correction for multiple comparisons|ANOVA|||||||<0.05
92224371|NCT05568888|184350239|SUPERIORITY|A Bayesian logistic regression model was used to compare all-cause 6-hour mortality rate between the BE1116 and placebo arms. The null hypothesis is rejected if the posterior probability of 6-hour mortality rate difference (BE1116-placebo) being negative is greater than predefined threshold at interim and final analyses (ITT population).|Estimated difference Placebo - BE1116|-2.5||||1.9|TWO_SIDED|95.0|-5.02|-0.13||Reported value reflect a posterior probability difference rather than p-value.|Regression, Logistic||Reported values reflect a 95% Credible Interval rather than a 95% Confidence Interval.|Null hypotheses: The all-cause 6-hour mortality rates in BE1116 is no better than the control.||-0.13|-5.02|1.9
92363640|NCT00755807|184630083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55||||0.16|TWO_SIDED|95.0|-3.7|0.61||P-value is for treatment comparison of change from baseline on pulse rate. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.61|-3.70|0.160
92363641|NCT00755807|184630084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.003|TWO_SIDED|95.0|0.27|1.26||P-value is for treatment comparison of change from baseline on weight. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.26|0.27|0.003
92363642|NCT00755807|184630085|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean PGI-I score at 18 weeks for all participants who entered extension phase.||||||<0.001
92363643|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for BPI-S for Worst Pain. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-S for Worst Pain.||||||<0.001
92363644|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for BPI-S for Least Pain. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-S for Least Pain score.||||||<0.001
92363645|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for BPI-S for Average Pain. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-S for Average Pain score.||||||<0.001
92363646|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-S for Pain Right Now score.||||||<0.001
92363647|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for BPI-I for General Activity. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for General Activity score.||||||<0.001
92363648|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Mood. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for Mood score.||||||<0.001
92403524|NCT05178173|184698612|SUPERIORITY|||||||0.59||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.59
92276812|NCT01271933|184455254|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.65||0.6914|TWO_SIDED|95.0|-1.6|1.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||HADS-D Depression scale||1.0|-1.6|0.6914
92276813|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.41||0.3721|TWO_SIDED|95.0|-0.5|1.2||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 1: Physical activities||1.2|-0.5|0.3721
92363649|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Walking Ability. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for Walking Ability score.||||||<0.001
92363650|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Normal Work. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for Normal Work score.||||||<0.001
92363651|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Relations With Others. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from baseline to endpoint on BPI-I for Relations With Others score.||||||<0.001
92363652|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Sleep. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for Sleep score.||||||<0.001
92363653|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Enjoyment of Life. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for Enjoyment Of Life score.||||||<0.001
92363654|NCT00755807|184630086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI for Mean Interference Score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI for Mean Interference score.||||||<0.001
92403525|NCT05178173|184698612|SUPERIORITY|||||||0.18||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.18
92403526|NCT05178173|184698612|SUPERIORITY|||||||0.78||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.78
92166024|NCT02755805|184220721|SUPERIORITY_OR_OTHER||Cohen's d effect size at month 6|0.76||||0.09|TWO_SIDED|||||a priori threshold set at p\<0.05|Mixed Models Analysis|F(2,34)=2.55|Effect size was calculated using mean change scores (baseline to month 6) and standard error of change (baseline to month 6) for each group.|All analyses were performed using the intent-to-treat principle so that comparisons were made according to the assigned intervention group regardless of study completion.||||0.09
92363655|NCT00755807|184630087|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on CGI-S score for all participants who entered extension phase.||||||<0.001
92363656|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Physical Health Composite Section score.||||||0.002
92363657|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Mental Health Composite Section score.||||||0.054
92363658|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Physical Health Subsection score.||||||0.002
92363659|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Health Perceptions Subsection score.||||||0.025
92363660|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Energy Subsection score.||||||0.008
92363661|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.858||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Role Limitation Due to Physical Problems Subsection score.||||||0.858
92363662|NCT00755807|184630088|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Pain Subsection score.||||||<0.001
92363663|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.637||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Sexual Function Subsection score.||||||0.637
92363664|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Social Function Subsection score.||||||0.051
92363665|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.27||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Health Distress Subsection score.||||||0.270
92363666|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Overall Quality Of Life Subsection score.||||||0.061
92363667|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Emotional Well-being Subsection score.||||||0.007
92363668|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.253||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Role Limitation Due to Emotional Problems score.||||||0.253
92363669|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.942||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Cognitive Function Subsection score.||||||0.942
92363670|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Change in Health Subsection score.||||||0.016
92363671|NCT00755807|184630088|SUPERIORITY_OR_OTHER|||||||0.381||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Satisfaction with Sexual Function Subsection score.||||||0.381
92363672|NCT00755807|184630090|SUPERIORITY_OR_OTHER|||||||0.524||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 7). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed model repeated measures (MMRM) Model: Change from Baseline=Baseline+Investigator+Week+Baseline\*Week; participant was treated as random effect.||||||0.524
92276814|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.64||0.8084|TWO_SIDED|95.0|-1.1|1.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 2: Feel good||1.4|-1.1|0.8084
92363673|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 8). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92166025|NCT02755805|184220722|SUPERIORITY_OR_OTHER||Cohen's d effect size at month 6|1.23||||0.002|TWO_SIDED|||||a priori threshold set at p\<0.05|Mixed Models Analysis|F(2,34)=7.83|Effect size was calculated using mean change scores (baseline to month 6) and standard error of change (baseline to month 6) for each group.|All analyses were performed using the intent-to-treat principle so that comparisons were made according to assigned intervention group regardless of study completion.||||.002
92276815|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.35||0.6312|TWO_SIDED|95.0|-0.9|0.5||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 3: Work missed||0.5|-0.9|0.6312
92363674|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 9). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92363675|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 10). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92363676|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 11). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92363677|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 12). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92363678|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 13). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92363679|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 14). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92363680|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 15). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92363681|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 16). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92363682|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 17). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92363683|NCT00755807|184630090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 18). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
92363684|NCT00755807|184630091|SUPERIORITY_OR_OTHER|||||||0.706||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|1-sample t-test of mean change from extension phase baseline to endpoint on BDI-II Question #9 score for all participants who entered extension phase.||||||0.706
92166026|NCT02755805|184220723|SUPERIORITY_OR_OTHER||Cohen's d effect size at month 6|0.7||||0.04|TWO_SIDED|||||a priori threshold set at \<0.05|repeated measures fixed effects model|F(2,28)=3.61|Effect size was calculated using mean change scores (baseline to month 6) and standard error of change (baseline to month 6) for each group.|All analyses were performed using the intent-to-treat principle so that comparisons were made according to the assigned intervention group regardless of study completion.||||.04
92166027|NCT03718767|184220756|OTHER||Hazard Ratio (HR)|1.0||||0.623|TWO_SIDED||||||Regression, Cox|||||||0.623
92166028|NCT03718767|184220756|OTHER||Hazard Ratio (HR)|1.73||||0.073|TWO_SIDED||||||Regression, Cox|||||||0.073
92363685|NCT00755807|184630095|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test of mean change from extension phase baseline to endpoint on monocytes.||||||0.035
92363686|NCT00755807|184630096|SUPERIORITY_OR_OTHER|||||||0.042||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test of mean change from extension phase baseline to endpoint on sodium.||||||0.042
92166029|NCT03593213|184220768|SUPERIORITY||Hazard Ratio (HR)|0.56|||=|0.1576|TWO_SIDED|95.0|0.25|1.29||The significance level was 0.05 using the log rank test.|Log Rank||Hazard ratio (cariprazine 3.0 or 4.5 mg/day vs. placebo) was based on Cox proportional hazards regression model, with treatment group as an explanatory variable.|||1.29|0.25|=0.1576
92363687|NCT00755807|184630097|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test of mean change from extension phase baseline to endpoint on total protein.||||||0.036
92363688|NCT00755807|184630098|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on diastolic blood pressure.||||||0.320
92166030|NCT03593213|184220768|SUPERIORITY||Hazard Ratio (HR)|0.61|||=|0.2066|TWO_SIDED|95.0|0.26|1.45||The significance level was 0.05 using the log rank test.|Log Rank||Hazard ratio (cariprazine 3.0 or 4.5 mg/day vs. placebo) was based on Cox proportional hazards regression model, with treatment group as an explanatory variable.|||1.45|0.26|=0.2066
92363689|NCT00755807|184630098|SUPERIORITY_OR_OTHER|||||||0.182||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on systolic blood pressure.||||||0.182
92363690|NCT00755807|184630099|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on pulse rate.||||||0.032
92363691|NCT00755807|184630100|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on weight.||||||0.151
92363692|NCT00939107|184630101|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|||>|0.05||95.0|0.2|2.8|||t-test, 2 sided|||||2.8|0.2|>0.05
92363693|NCT01585025|184630137|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||Paired comparison of fasting FGF19 at baseline on day 0 and on day 14 of OCA treatment||||0.007
92166031|NCT02658240|184220769|SUPERIORITY|||||||0.05|||||||ANOVA|||The study was powered to detect a mean difference of 1.5 in pain scores in favor of patients undergoing SFICB procedure assuming a standard deviation of 2.5. With a two sided alpha level of 0.05, a total of 52 patients would be needed to have 80% power using a repeated measures ANOVA F test with 6 observations on each subject. Correlation on the repeat observations was assumed to be 0.5. Assuming a 14% loss to follow-up, 60 patients were enrolled at 1:1 ratio.||||0.05
92166032|NCT02658240|184220770|SUPERIORITY|||||||0.05|||||||ANOVA|||||||0.05
92166033|NCT02658240|184220771|SUPERIORITY|||||||0.149|TWO_SIDED|80.0|||||t-test, 2 sided|||||||0.149
92166034|NCT02658240|184220772|SUPERIORITY|||||||0.584|TWO_SIDED|80.0|||||Wilcoxon (Mann-Whitney)|||||||0.584
92166035|NCT01254019|184220778|SUPERIORITY||Mean Difference (Net)|10.334||||0.415|TWO_SIDED|95.0|-14.645|35.312||Statistical significance was assessed at the 5% level.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||35.312|-14.645|0.415
92166036|NCT01254019|184220779|SUPERIORITY||Mean Difference (Net)|-0.53||||0.757|TWO_SIDED|95.0|-3.95|2.88||Statistical significance (SS) was only to be assessed if a statistically significant difference was observed for the primary and any secondary endpoints higher in the pre-defined hierarchy. Hence conclusions with regards to SS should not be made.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||2.88|-3.95|0.757
92166037|NCT01254019|184220780|SUPERIORITY||Mean Difference (Net)|-0.021||||0.718|TWO_SIDED|95.0|-0.137|0.095||SS was only to be assessed if a statistically significant difference was observed for the primary and any secondary endpoints higher in the pre-defined hierarchy. Hence conclusions with regards to SS should not be made.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||0.095|-0.137|0.718
92166038|NCT01254019|184220781|SUPERIORITY||Mean Difference (Net)|-0.009||||0.881|TWO_SIDED|95.0|-0.129|0.111||SS was only to be assessed if a statistically significant difference was observed for the primary and any secondary endpoints higher in the pre-defined hierarchy. Hence conclusions with regards to SS should not be made.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||0.111|-0.129|0.881
92224372|NCT05568888|184350239|SUPERIORITY|A Bayesian logistic regression model was used to compare all-cause 6-hour mortality rate between the BE1116 and placebo arms. The null hypothesis is rejected if the posterior probability of 6-hour mortality rate difference (BE1116-placebo) being negative is greater than predefined threshold at interim and final analyses (mITT population).|Estimated difference Placebo - BE1116|-2.8||||3.1|TWO_SIDED|95.0|-5.8|0.13||Reported value reflect a posterior probability difference rather than p-value.|Regression, Logistic||Reported values reflect a 95% Credible Interval rather than a 95% Confidence Interval.|Null hypotheses: The all-cause 6-hour mortality rates in BE1116 is no better than the control.||0.13|-5.80|3.1
92363694|NCT01585025|184630137|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Paired comparison of fasting FGF19 at baseline on day 0 and on day 14 of OCA treatment||||0.11
92363695|NCT01585025|184630137|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Paired comparison of fasting FGF19 at baseline on day 0 and on day 14 of OCA treatment||||0.12
92363696|NCT01585025|184630138|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Change in FGF19 AUC||||0.72
92403527|NCT05178173|184698612|SUPERIORITY|||||||0.08||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.08
92403528|NCT02086175|184698686|SUPERIORITY||percent|48.0||||0.044|TWO_SIDED|90.0|31.0|66.0|||Fisher Exact|||"Patients will be accrued in a single stage design, with a goal accrual of 25 patients.~Assuming a 30% response rate with rituximab alone, if the true but unknown rate of CR or PR is 50% with the addition of Imprime PGG, the probability of observing 11 or more patients with a response is 0.79 with 0.098 one-sided type-I error.~Therefore a study with 25 patients, in which an observed response rate of 11/25 (44%) would be considered worthy of further consideration."||66|31|0.044
92403529|NCT04314284|184698693|SUPERIORITY|||||||0.15|||||||Kruskal-Wallis|||||||0.15
92403530|NCT04314284|184698694|SUPERIORITY|||||||0.35|||||||Kruskal-Wallis|||||||0.35
92403531|NCT04314284|184698695|SUPERIORITY|||||||0.22|||||||Chi-squared|||||||0.22
92166039|NCT01254019|184220782|SUPERIORITY||Mean Difference (Net)|-1.115||||0.658|TWO_SIDED|95.0|-6.097|3.866||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||3.866|-6.097|0.658
92363697|NCT01585025|184630138|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Change in FGF19 AUC||||0.51
92363698|NCT01585025|184630138|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Change in FGF19 AUC||||0.13
92403532|NCT04314284|184698699|SUPERIORITY|||||||0.65|||||||Kruskal-Wallis|||||||0.65
92403533|NCT04314284|184698700|SUPERIORITY|||||||0.52|||||||Kruskal-Wallis|||||||0.52
92403534|NCT04314284|184698701|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
92363699|NCT01585025|184630139|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Change in fasting C4||||0.03
92363700|NCT01585025|184630139|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Change in fasting C4||||0.11
92363701|NCT01585025|184630139|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Change in fasting C4||||0.02
92403535|NCT04314284|184698704|OTHER|2-sided||||||0.71|||||||t-test, 2 sided|||||||0.71
92363702|NCT01585025|184630140|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Change in bile acid 6h AUC||||0.02
92363703|NCT01585025|184630140|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Change in bile acid 6h AUC||||0.04
92403536|NCT04314284|184698705|OTHER|2-sided||||||0.12|||||||t-test, 2 sided|||||||0.12
92403537|NCT04314284|184698707|SUPERIORITY|||||||0.66|||||||Kruskal-Wallis|||||||0.66
92403538|NCT01298648|184698727|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|Paired t-test using observed cases at Baseline and Week 4.||||||<0.0001
92403539|NCT01298648|184698729|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 1 sided|Paired t-test using observed values at Baseline and Week 8.||||||<0.0001
92403540|NCT01298648|184698730|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|Paired t-test using observed values at Baseline and Week 24.||||||<0.0001
92403541|NCT01116986|184698766|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.954||||0.312|TWO_SIDED|95.0|0.871|1.045|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.045|.871|.312
92403542|NCT01116986|184698766|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.98||||0.664|TWO_SIDED|95.0|0.894|1.074|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.074|.894|.664
92403543|NCT01116986|184698766|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.989||||0.814|TWO_SIDED|95.0|0.903|1.084|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.084|.903|.814
92403544|NCT01116986|184698766|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.925||||0.093|TWO_SIDED|95.0|0.844|1.013|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.013|.844|.093
92166040|NCT01254019|184220783|SUPERIORITY||Mean Difference (Net)|0.041||||0.513|TWO_SIDED|95.0|-0.082|0.164||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||0.164|-0.082|0.513
92363704|NCT01585025|184630140|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Change in bile acid 6h AUC||||0.02
92363705|NCT01585025|184630141|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in number of stools per week||||0.03
92363706|NCT01585025|184630141|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in number of stools per week||||0.17
92363707|NCT01585025|184630141|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in number of stools per week||||0.31
92363708|NCT01585025|184630142|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Change in median stool form||||0.05
92363709|NCT01585025|184630142|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Change in median stool form||||0.04
92363710|NCT01585025|184630142|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Change in median stool form||||0.74
92363711|NCT01585025|184630143|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||Paired difference in weekly index score||||0.005
92363712|NCT01585025|184630143|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Paired difference in weekly index score||||0.03
92363713|NCT01585025|184630143|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||Paired difference in weekly index score||||0.61
92363714|NCT02122380|184630164|SUPERIORITY|||||||0.918|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of mean growth hormone (GH) levels between sitagliptin and placebo. The test was performed with a significance level of 0.05 (two sided). A sample size of 16 participants was needed to provide 93% power to detect a difference in GH means of 0.5 mcg/L.||||0.918
92363715|NCT02122380|184630165|SUPERIORITY|||||||0.054|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of early insulin secretion between sitagliptin and placebo. The test was performed with a significance level of 0.05 (two sided).||||0.054
92363716|NCT02122380|184630166|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in blood glucose levels between sitagliptin and placebo. The test was performed with a significance level of 0.05 (two sided).||||0.009
92403545|NCT01116986|184698766|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.983||||0.716|TWO_SIDED|95.0|0.898|1.077|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.077|.898|.716
92403546|NCT01116986|184698766|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.031||||0.511|TWO_SIDED|95.0|0.941|1.13|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.130|.941|.511
92166041|NCT01254019|184220784|SUPERIORITY||Mean Difference (Net)|-0.965||||0.769|TWO_SIDED|95.0|-7.446|5.516||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||5.516|-7.446|0.769
92403547|NCT01116986|184698767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.087||||0.341|TWO_SIDED|95.0|0.916|1.29|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Pre-Quit Nicotine Patch vs. Pre-Quit Nicotine Patch) would result in significantly higher abstinence at 16 weeks post-quit.||1.290|.916|.341
92363717|NCT02122380|184630167|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in the mass of visceral adipose tissue after sitagliptin vs. placebo. The test was performed with a significance level of 0.05 (two sided).||||0.022
92363718|NCT02122380|184630168|SUPERIORITY|||||||0.943|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in vascular function between sitagliptin and placebo treatments. The test was performed with a significance level of 0.05 (two sided).||||0.943
92363719|NCT00952705|184630189|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV-BFS was declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for the post dose A/H1N1 GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the A/H1N1 post-dose GMT ratio: (FluMist B/Yamagata A/H1N1 + FluMist B/Victoria A/H1N1) divided by Q/LAIV-BFS A/H1N1.|Ratio of geometric mean titers|0.95|||||TWO_SIDED|95.0|0.87|1.03|||Bootstrapping method|Confidence intervals calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CIs for the ratio of A/H1N1 GMTs for the specified comparison. Geometric mean titers for the A/H1N1 influenza antigen measurements were calculated as: GMT = antilog\^y (mean \[log\^y x\]) where x was the assay result and y was the natural logarithm.||1.03|0.87|
92363720|NCT00952705|184630189|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV-BFS was declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for the post dose A/H3N2 GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the A/H3N2 post-dose GMT ratio: (FluMist B/Yamagata A/H3N2 + FluMist B/Victoria A/H3N2) divided by Q/LAIV-BFS A/H3N2.|Ratio of geometric mean titers|0.93|||||TWO_SIDED|95.0|0.85|1.0|||Bootstrapping method|Confidence intervals calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CIs for the ratio of A/H3N2 GMTs for the specified comparison. Geometric mean titers for the A/H3N2 influenza antigen measurements were calculated as: GMT = antilog\^y (mean \[log\^y x\]) where x was the assay result and y was the natural logarithm.||1.00|0.85|
92363721|NCT00952705|184630189|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV-BFS was declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for the post dose B/Yamagata GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the B/Yamagata post-dose GMT ratio: FluMist B/Yamagata divided by Q/LAIV-BFS B/Yamagata.|Ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.79|1.02|||Bootstrapping method|Confidence intervals calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CIs for the ratio of B/Yamagata GMTs for the specified comparison. Geometric mean titers for the B/Yamagata influenza antigen measurements were calculated as: GMT = antilog\^y (mean \[log\^y x\]) where x was the assay result and y was the natural logarithm.||1.02|0.79|
92363722|NCT00952705|184630189|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV-BFS was declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for the post dose B/Victoria GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the B/Victoria post-dose GMT ratio: FluMist B/Victoria divided by Q/LAIV-BFS B/Victoria.|Ratio of geometric mean titers|0.97|||||TWO_SIDED|95.0|0.87|1.1|||Bootstrapping method|Confidence intervals calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CIs for the ratio of B/Victoria GMTs for the specified comparison. Geometric mean titers for the B/Victoria influenza antigen measurements were calculated as: GMT = antilog\^y (mean \[log\^y x\]) where x was the assay result and y was the natural logarithm.||1.10|0.87|
92363723|NCT04552041|184630217|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 24 weeks row.||||<0.0001
92403548|NCT01116986|184698767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.117||||0.207|TWO_SIDED|95.0|0.941|1.325|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Pre-Quit Nicotine Gum vs. Pre-Quit Nicotine Gum) would result in significantly higher abstinence at 16 weeks post-quit.||1.325|.941|.207
92403549|NCT01116986|184698767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.196||||0.041|TWO_SIDED|95.0|1.008|1.42|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Counseling Before the Quit Attempt vs. Counseling Before the Quit Attempt) would result in significantly higher abstinence at 16 weeks post-quit.||1.420|1.008|.041
92403550|NCT01116986|184698767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.056||||0.536|TWO_SIDED|95.0|0.889|1.254|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., Minimal In-person Counseling During the Quit Attempt vs. Intensive In-person Counseling During the Quit Attempt) would result in significantly higher abstinence at 16 weeks post-quit.||1.254|.889|.536
92403551|NCT01116986|184698767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.049||||0.587|TWO_SIDED|95.0|0.883|1.246|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., Minimal Phone Counseling During the Quit Attempt vs. Intensive Phone Counseling During the Quit Attempt) would result in significantly higher abstinence at 16 weeks post-quit.||1.246|.883|.587
92403552|NCT01116986|184698767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.078||||0.389|TWO_SIDED|95.0|0.909|1.278|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., Short Term (8 Weeks) Postquit Nicotine Patch + Nicotine Gum vs. Long Term (26 Weeks) Postquit Nicotine Patch + Nicotine Gum) would result in significantly higher abstinence at 16 weeks post-quit.||1.278|.909|.389
92403553|NCT00871975|184698823|SUPERIORITY_OR_OTHER||Sensitivity (percent)|80.6|||||TWO_SIDED||||||||We found an 80.6% sensitivity for detection of detrusor overactivity on Tetra-NIRS as compared to urodynamics.|A contingency table was used to compare presence or absence of an event (eg. detrusor overactivity) on the urodynamic tracing with interpretation of events on the Tetra-NIRS tracings.||||
92166042|NCT01254019|184220787|SUPERIORITY||Mean Difference (Net)|-4044.99||||0|TWO_SIDED|95.0|-5232.21|-2857.77||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||-2857.77|-5232.21|0.000
92403554|NCT00871975|184698823|SUPERIORITY_OR_OTHER||Specificity (percent)|28.1|||||TWO_SIDED||||||||We found a 28.1% specificity for detection of detrusor overactivity on Tetra-NIRS as compared to urodynamics.|A contingency table was used to compare presence or absence of an event (eg. detrusor overactivity) on the urodynamic tracing with interpretation of events on the Tetra-NIRS tracings.||||
92403555|NCT01436149|184698824|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.96||0.883|TWO_SIDED|95.0|-1.7|2.0|||Mixed- effects Model for Repeat Measures|||||2.0|-1.7|0.883
92403556|NCT01436149|184698825|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.69||0.576|TWO_SIDED|95.0|-1.8|1.0|||Mixed- effects Model for Repeat Measures|||||1.0|-1.8|0.576
92403557|NCT01409707|184698850|SUPERIORITY_OR_OTHER||||||=|0.068||95.0||||The a priori threshold for statistical significance was set at p = .05.|Mixed Models Analysis|||Multilevel mixed modeling was employed. The null hypothesis was that there'd be no differences between groups at posttreatment on posttraumatic stress disorder measures or alcohol use measures.||||=.068
92403558|NCT01409707|184698851|SUPERIORITY_OR_OTHER||||||=|0.39||95.0||||The a priori threshold for statistical significance was set at p=.05.|Mixed Models Analysis|||Multilevel mixed modeling was employed. The null hypothesis was that there would be no differences in alcohol use at posttreatment.||||= 0.39
92363724|NCT04552041|184630218|SUPERIORITY|||||||0.0028|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 24 weeks row.||||0.0028
92276816|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.57||0.8824|TWO_SIDED|95.0|-1.0|1.2||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 4: Do job||1.2|-1.0|0.8824
92363725|NCT04552041|184630218|SUPERIORITY|||||||0.1739|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Delusional ideas ∆ between baseline and 24 weeks row."||||0.1739
92363726|NCT04552041|184630218|SUPERIORITY|||||||0.0559|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Hallucinations ∆ between baseline and 24 weeks row."||||0.0559
92403559|NCT00632229|184698852|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||To evaluate between-group continuous outcomes of the pilot controlled trial, ANCOVAs were performed, where 8-week outcome scores were predicted by treatment condition while covarying for baseline scores.||||<0.05
92166043|NCT01254019|184220793|SUPERIORITY||Mean Difference (Net)|0.0288||||0.207|TWO_SIDED|95.0|-0.0161|0.0738||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo, HUI2 at Week 48||0.0738|-0.0161|0.207
92363727|NCT04552041|184630218|SUPERIORITY|||||||0.0174|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Agitation ∆ between baseline and 24 weeks row."||||0.0174
92363728|NCT04552041|184630218|SUPERIORITY|||||||0.333|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Aggression ∆ between baseline and 24 weeks row."||||0.3330
92363729|NCT04552041|184630218|SUPERIORITY|||||||0.1037|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Dysphoria ∆ between baseline and 24 weeks row."||||0.1037
92363730|NCT04552041|184630218|SUPERIORITY|||||||0.0329|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Anxiety ∆ between baseline and 24 weeks row."||||0.0329
92363731|NCT04552041|184630218|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Euphoria ∆ between baseline and 24 weeks row."||||0.2700
92363732|NCT04552041|184630218|SUPERIORITY|||||||0.0557|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Apathy ∆ between baseline and 24 weeks row."||||0.0557
92363733|NCT04552041|184630218|SUPERIORITY|||||||0.982|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Disinhibition ∆ between baseline and 24 weeks row."||||0.9820
92403560|NCT00632229|184698853|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||To evaluate between-group continuous outcomes of the pilot controlled trial, ANCOVAs were performed, where 8-week outcome scores were predicted by treatment condition while covarying for baseline scores.||||<0.05
92403561|NCT05810740|184698864|OTHER||LS-Mean Ratio, Percent|96.43|||||TWO_SIDED|90.0|92.57|100.46||||||||100.46|92.57|
92403562|NCT05810740|184698865|OTHER||Geometric Mean Ratio|97.19|||||TWO_SIDED|90.0|93.47|101.06||||||||101.06|93.47|
92403563|NCT05810740|184698866|OTHER||Geometric Mean Ratio|94.02|||||TWO_SIDED|90.0|87.25|101.33||||||||101.33|87.25|
92166044|NCT01254019|184220793|SUPERIORITY||Mean Difference (Net)|0.0048||||0.88|TWO_SIDED|95.0|-0.058|0.0676||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo, HUI3 at Week 48||0.0676|-0.0580|0.880
92166045|NCT03061474|184220802|SUPERIORITY|||||||0.6096|||||||ANCOVA|||||||0.6096
92363734|NCT04552041|184630218|SUPERIORITY|||||||0.4626|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Irritability ∆ between baseline and 24 weeks row."||||0.4626
92363735|NCT04552041|184630218|SUPERIORITY|||||||0.0006|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Aberrant motor behaviour ∆ between baseline and 24 weeks row."||||0.0006
92363736|NCT04552041|184630218|SUPERIORITY|||||||0.3725|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Sleep disorders ∆ between baseline and 24 weeks row."||||0.3725
92363737|NCT04552041|184630218|SUPERIORITY|||||||0.1013|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Appetite disorders ∆ between baseline and 24 weeks row."||||0.1013
92363738|NCT04552041|184630218|SUPERIORITY|||||||0.0432|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Aberrant vocalizations ∆ between baseline and 24 weeks row."||||0.0432
92363739|NCT04552041|184630219|SUPERIORITY|||||||0.0316|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 12 weeks row.||||0.0316
92363740|NCT04552041|184630220|SUPERIORITY|||||||0.1483|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 12 weeks row.||||0.1483
92363741|NCT04552041|184630221|SUPERIORITY|||||||0.0018|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Therapeutic effect row.||||0.0018
92363742|NCT04552041|184630221|SUPERIORITY|||||||0.4733|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Side effects row.||||0.4733
92363743|NCT04552041|184630221|SUPERIORITY|||||||0.0035|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Efficiency index row.||||0.0035
92363744|NCT02921789|184630230|SUPERIORITY||Difference|-12.7||||0.3705|TWO_SIDED|95.0|-34.5|9.0||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||||9.0|-34.5|0.3705
92403564|NCT00737672|184698908|SUPERIORITY_OR_OTHER|||||||0.53|||||||Log Rank|||||||0.530
92403565|NCT00737672|184698911|SUPERIORITY_OR_OTHER|||||||0.475|||||||Log Rank|||||||0.475
92403566|NCT00737672|184698914|SUPERIORITY_OR_OTHER|||||||0.008||||||P-value was calculated using Kaplan-Meier methodology with 24-month follow-up data.|Log Rank|||||||0.008
92403567|NCT00737672|184698915|NON_INFERIORITY_OR_EQUIVALENCE|One-sided test of non-inferior proportions with delta = 0.15.|||||<|0.001|||||||Z-test|One-sided.||||||<0.001
92403568|NCT00737672|184698916|SUPERIORITY_OR_OTHER|||||||0.035|||||||Log Rank|||||||0.035
92166046|NCT03061474|184220812|SUPERIORITY|||||||0.648|||||||ANCOVA|||||||0.648
92363745|NCT02921789|184630231|SUPERIORITY||Difference|-12.7||||0.3705|TWO_SIDED|95.0|-34.5|9.0||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 6||9.0|-34.5|0.3705
92363746|NCT02921789|184630231|SUPERIORITY||Difference|-12.4||||0.389|TWO_SIDED|95.0|-35.8|11.0||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 12||11.0|-35.8|0.3890
92363747|NCT02921789|184630232|SUPERIORITY||Difference|6.9||||0.752|TWO_SIDED|95.0|-15.3|29.2||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 3||29.2|-15.3|0.7520
92363748|NCT02921789|184630232|SUPERIORITY||Difference|6.9||||0.752||95.0|-15.3|29.2||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 6||29.2|-15.3|0.7520
92403569|NCT00737672|184698919|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|Two-tailed.||||||1.000
92166047|NCT03061474|184220813|SUPERIORITY|||||||0.6833|||||||ANCOVA|||||||0.6833
92166048|NCT03061474|184220814|SUPERIORITY|||||||0.4438|||||||ANCOVA|||||||0.4438
92224373|NCT05568888|184350240|SUPERIORITY|A Bayesian logistic regression model was used to compare all-cause 24-hour in-hospital mortality rate between the BE1116 and placebo arms. The null hypothesis is rejected if the posterior probability of 24-hour in-hospital mortality rate difference (BE1116-placebo) being negative is greater than predefined threshold at interim and final analyses (mITT population).|Estimated difference Placebo - BE1116|-3.6||||3|TWO_SIDED|95.0|-7.35|0.15||Reported value reflect a posterior probability difference rather than p-value.|Regression, Logistic||Reported values reflect a 95% Credible Interval rather than a 95% Confidence Interval.|Null hypotheses: The all-cause 24-hour in-hospital mortality rates in BE1116 is no better than the control.||0.15|-7.35|3.0
92363749|NCT02921789|184630232|SUPERIORITY||Difference|5.0||||0.7597|TWO_SIDED|95.0|-18.9|29.0||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 12||29.0|-18.9|0.7597
92363750|NCT02921789|184630233|SUPERIORITY||Difference|-0.3||||1||95.0|-24.9|24.3||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||||24.3|-24.9|1.0
92363751|NCT02921789|184630234|SUPERIORITY||Difference|-3.9||||1||95.0|-30.2|22.4||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 3||22.4|-30.2|1.0
92363752|NCT02921789|184630234|SUPERIORITY||Difference|-6.2||||0.772||95.0|-31.7|19.3||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 6||19.3|-31.7|0.7720
92403570|NCT00737672|184698920|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|Two-tailed.||||||<0.001
92166049|NCT03061474|184220815|SUPERIORITY|||||||0.7158|||||||ANCOVA|||||||0.7158
92166050|NCT03061474|184220816|SUPERIORITY|||||||0.93428359|||||||ANCOVA|||||||0.93428359
92166051|NCT03061474|184220817|SUPERIORITY|||||||0.9931|||||||ANCOVA|||||||0.9931
92166052|NCT03061474|184220818|SUPERIORITY|||||||0.3233|||||||Mixed Models Analysis|||||||0.3233
92363753|NCT02921789|184630234|SUPERIORITY||Difference|-7.5||||0.772||95.0|-32.6|17.6||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 12||17.6|-32.6|0.7720
92363754|NCT01669902|184630261|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon signed rank test|||Change at Month 3||||<0.0001
92166053|NCT03061474|184220819|SUPERIORITY|||||||0.1008|||||||Mixed Models Analysis|||||||0.1008
92166054|NCT03061474|184220820|SUPERIORITY|||||||0.0323|||||||Mixed Models Analysis|||||||0.0323
92166055|NCT01391130|184220824|SUPERIORITY||Hazard Ratio (HR)|1.2149||||0.4318|TWO_SIDED|95.0|0.7462|1.9779|||Log Rank|||||1.9779|0.7462|0.4318
92166056|NCT00566527|184220833|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Measles Response Rate (Arm 2 - Arm 3)|-0.91|||||TWO_SIDED|95.0|-2.82|0.87||||||Measles difference||0.87|-2.82|
92166057|NCT00566527|184220833|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Mumps Response Rate (Arm 2 - Arm 3)|0.03|||||TWO_SIDED|95.0|-1.2|1.32||||||Mumps difference||1.32|-1.20|
92363755|NCT01669902|184630261|SUPERIORITY_OR_OTHER|||||||0.0357|TWO_SIDED||||||Wilcoxon signed rank test|||Change at Month 6||||0.0357
92363756|NCT01047189|184630265|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Kruskal-Wallis|||||||0.05
92363757|NCT00688467|184630281|SUPERIORITY_OR_OTHER||100 * (placebo - navarixin) / placebo|26.0|STANDARD_DEVIATION|27.377||0.411|||||||ANOVA|||||||0.411
92363758|NCT00688467|184630282|SUPERIORITY_OR_OTHER||100 * (placebo - navarixin) / placebo|23.3|STANDARD_DEVIATION|0.306||0.292|||||||ANOVA|||||||0.292
92363759|NCT00688467|184630284|SUPERIORITY_OR_OTHER||100 * (placebo - navarixin) / placebo|-1.7|STANDARD_DEVIATION|16.261||0.927|||||||ANOVA|||||||0.927
92363760|NCT00688467|184630285|SUPERIORITY_OR_OTHER||100 * (placebo - navarixin) / placebo|4.3|STANDARD_DEVIATION|7.398||0.645|||||||ANOVA|||||||0.645
92363761|NCT00387088|184630318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.009|<|0.0001|TWO_SIDED|95.0|0.085|0.118|||ANCOVA|ANCOVA with pooled centre, LABA use, and treatment fitted as main effects and the baseline trough FEV1 as a covariate.||||0.118|0.085|<0.0001
92403571|NCT00737672|184698921|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|Two-tailed.||||||<0.001
92403572|NCT02735863|184698930|SUPERIORITY|||||||0.5352|||||||Log Rank|||||||0.5352
92224374|NCT05568888|184350241|SUPERIORITY|A Bayesian logistic regression model was used to compare all-cause 30 days in-hospital mortality rate between the BE1116 and placebo arms. The null hypothesis is rejected if the posterior probability of 30 days in-hospital mortality rate difference (BE1116-placebo) being negative is greater than predefined threshold at interim and final analyses (mITT population).|Estimated difference Placebo - BE1116|-6.0||||1.4|TWO_SIDED|95.0|-11.42|-0.68||Reported value reflect a posterior probability difference rather than p-value.|Regression, Logistic||Reported values reflect a 95% Credible Interval rather than a 95% Confidence Interval.|Null hypotheses: The all-cause 30 days in-hospital mortality rates in BE1116 is no better than the control.||-0.68|-11.42|1.4
92276817|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.49||0.2742|TWO_SIDED|95.0|-1.5|0.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 5: Pain||0.4|-1.5|0.2742
92363762|NCT02441218|184630342|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82|||<|0.0001|TWO_SIDED|95.0|0.75|0.9|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.90|0.75|<0.0001
92363763|NCT02441218|184630343|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.128|TWO_SIDED|95.0|0.8|1.03|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||1.03|0.80|0.128
92363764|NCT02441218|184630344|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74|||<|0.0001|TWO_SIDED|95.0|0.66|0.83|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.83|0.66|< 0.0001
92363765|NCT02441218|184630345|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.092|TWO_SIDED|95.0|0.8|1.02|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||1.02|0.80|0.092
92403573|NCT05720897|184698969|SUPERIORITY|||||||0.399||||||The calculations are based on a Mann Whitney calculation.|Wilcoxon (Mann-Whitney)|||The study has an 80% power to detect changes in patient's self-reported anxiety as measured by their responses to the psychometrically validated STAI-S \& T instrument of 3.6 within each group (with an effect size of 0.55) and differences of a 5.0 between groups (with an effect size of 0.77).||||.399
92403574|NCT00400179|184698975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3952||95.0|||||Fisher Exact|||||||0.3952
92363766|NCT02441218|184630346|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.014|TWO_SIDED|95.0|0.58|0.94|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.94|0.58|0.0140
92363767|NCT02441218|184630347|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89||||0.0027|TWO_SIDED|95.0|0.82|0.96|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.96|0.82|0.0027
92363768|NCT02441218|184630348|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.0002|TWO_SIDED|95.0|0.78|0.92|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.92|0.78|0.0002
92363769|NCT02441218|184630349|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.0013|TWO_SIDED|95.0|0.81|0.95|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.95|0.81|0.0013
92403575|NCT00400179|184698976|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.0808|TWO_SIDED|95.0|0.57|1.03|||Log Rank|||||1.03|0.57|0.0808
92403576|NCT00400179|184698977|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.9158|TWO_SIDED|95.0|0.86|1.14|||Log Rank|||||1.14|0.86|0.9158
92403577|NCT00400179|184698978|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.032|TWO_SIDED|95.0|0.77|0.99|||Log Rank|||||0.99|0.77|0.0320
92363770|NCT02441218|184630350|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.0002|TWO_SIDED|95.0|0.77|0.92|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.92|0.77|0.0002
92403578|NCT00400179|184698979|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92||||0.1983|TWO_SIDED|95.0|0.8|1.05|||Log Rank|||||1.05|0.80|0.1983
92403579|NCT04780061|184698980|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||An area under the curve approach was used to analyze the primary outcome, whereby participants' scores for each assessment were summed over the 21-day period. For missing values, we imputed the mean of the most recent and first subsequent measurement or carried the last observation forward if there was no subsequent measurement.||||0.53
92403580|NCT04780061|184698982|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92403581|NCT04780061|184698983|SUPERIORITY|||||||0.81|||||||Log Rank|||||||0.81
92403582|NCT02344108|184698989|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92403583|NCT02344108|184698990|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92403584|NCT02344108|184698991|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
92166058|NCT00566527|184220833|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Rubella Response Rate (Arm 2 - Arm 3)|-0.22|||||TWO_SIDED|95.0|-1.55|1.03||||||Rubella difference||1.03|-1.55|
92166059|NCT00566527|184220833|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -10. Values are shown as percentages.|Varicella Response Rate (Arm 2 - Arm 3)|0.0|||||TWO_SIDED|95.0|-1.28|1.1||||||Varicella difference||1.10|-1.28|
92166060|NCT00566527|184220834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Measles Response Rate (Arm 1 - Arm 3)|-3.97|||||TWO_SIDED|95.0|-6.44|-1.87||||||Measles difference||-1.87|-6.44|
92363771|NCT02441218|184630351|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82|||<|0.0001|TWO_SIDED|95.0|0.74|0.89|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate. P-value: Wald test|||0.89|0.74|< 0.0001
92363772|NCT00523978|184630388|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||The null hypothesis is the success rate in experimental group is less than and equal to the one in control group. This comparison of the rates was performed using a 2-sided Fisher's Exact. A sample size of 240(160 experimental and 80 control) is required to provide 80% power to detect the treatment difference using a 2-sided (alpha = 0.05)Fisher's Exact Test of binomial proportions assuming the success rate was 40% for control and 60% for treatment.||||<0.0001
92363773|NCT00523978|184630389|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin was selected based on literature review.|||||<|0.001|||||||t-test, 1 sided|||The null hypothesis is the proportion of subjects free from MAFE in the experimental group is inferior to that in the control group using 10% non-inferiority margin.A sample size of 160 evaluable cryoablation and 80 control subjects (one-sided α = 0.05, 2:1 randomization) was required to provide 80% power assuming the rate of free from MAFE at 12 months 80.5 and 77% in experimental and control groups respectively .||||<0.001
92363774|NCT00523978|184630390|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||The test hypothesis is UCBExperimental\_CPE ≥ 14.8% vs UCBExperimental\_CPE \< 14.8%.The performance goal 14.8% was chosen based on a review of SSEDs for similar types of ablation trials.The expected rate for CPEs in a well-monitored trial of left atrial RF ablation for AF was estimated to be 10% (corresponding to a CPE-free rate of 90%).In a trial with 160 subject, the resulting one-sided 95% upper confidence bound would be 14.8%.||||<0.001
92363775|NCT00587041|184630411|SUPERIORITY_OR_OTHER|||||||0.3|||||||Kruskal-Wallis|||80% power for 0.66 DG difference from placebo. The reported value is the overall p-value for CaOx supersaturation by Kruskal-Wallis test of equal change across all three groups, no pair-wise comparison.||||0.3
92363776|NCT00587041|184630411|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||t-test, 1 sided|||Ranked sum T-test for placebo group CaOx SS comparison between 0 and 6 weeks||||0.045
92403585|NCT02344108|184698992|SUPERIORITY|||||||0.083|||||||t-test, 2 sided|||||||0.083
92403586|NCT02344108|184698993|SUPERIORITY|||||||0.0021|||||||t-test, 2 sided|||||||0.0021
92403587|NCT02344108|184698994|SUPERIORITY|||||||0.764|||||||t-test, 2 sided|||||||0.764
92403588|NCT02344108|184698995|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92403589|NCT02344108|184698996|SUPERIORITY|||||||0.467|||||||t-test, 2 sided|||||||0.467
92403590|NCT02344108|184698997|SUPERIORITY|||||||0.745|||||||t-test, 2 sided|||||||0.745
92403591|NCT02344108|184698998|SUPERIORITY|||||||0.106|||||||t-test, 2 sided|||||||0.106
92403592|NCT02344108|184698999|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92403593|NCT02344108|184699000|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92403594|NCT02344108|184699001|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92403595|NCT04050553|184699002|SUPERIORITY||Least Square (LS) Mean Difference|-0.49||||0.7556|TWO_SIDED|95.0|-3.64|2.67|||Mixed Models Analysis|||||2.67|-3.64|0.7556
92403596|NCT04050553|184699003|SUPERIORITY||LS Mean Difference|-174.77||||0.0043|TWO_SIDED|95.0|-290.34|-59.21|||Mixed Models Analysis|||||-59.21|-290.34|0.0043
92403597|NCT04050553|184699004|SUPERIORITY||LS Mean Difference|-488.31|||<|0.0001|TWO_SIDED|95.0|-621.25|-355.36|||Mixed Models Analysis|||||-355.36|-621.25|<0.0001
92403598|NCT04050553|184699005|SUPERIORITY||LS Mean Difference|4.39||||0.0023|TWO_SIDED|95.0|1.69|7.08|||Mixed Models Analysis|||||7.08|1.69|0.0023
92403599|NCT04050553|184699006|SUPERIORITY||LS Mean Difference|-0.06||||0.0505|TWO_SIDED|95.0|-0.13|0.0|||Mixed Models Analysis|||For Overall Hypoglycemia Symptom Score at concentration of 100 mg/dL.||0.00|-0.13|0.0505
92403600|NCT04050553|184699006|SUPERIORITY||LS Mean Difference|-0.18||||0.0104|TWO_SIDED|95.0|-0.31|-0.05|||Mixed Models Analysis|||For Overall Hypoglycemia Symptom Score at concentration of 63 mg/dL.||-0.05|-0.31|0.0104
92403601|NCT04050553|184699006|SUPERIORITY||LS Mean Difference|-0.19||||0.0068|TWO_SIDED|95.0|-0.32|-0.06|||Mixed Models Analysis|||For Overall Hypoglycemia Symptom Score at concentration of 45 mg/dL.||-0.06|-0.32|0.0068
92403602|NCT04050553|184699006|SUPERIORITY||LS Mean Difference|-0.11||||0.2302|TWO_SIDED|95.0|-0.3|0.08|||Mixed Models Analysis|||For Overall Hypoglycemia Symptom Score at concentration of 72 mg/dL.||0.08|-0.30|0.2302
92403603|NCT04050553|184699007|SUPERIORITY||LS Mean Difference|-0.51||||0.8298|TWO_SIDED|95.0|-5.28|4.27|||Mixed Models Analysis|||For systolic blood pressure.||4.27|-5.28|0.8298
92403604|NCT04050553|184699007|SUPERIORITY||LS Mean Difference|1.96||||0.1516|TWO_SIDED|95.0|-0.76|4.67|||Mixed Models Analysis|||For diastolic blood pressure.||4.67|-0.76|0.1516
92403605|NCT04050553|184699008|SUPERIORITY||LS Mean Difference|-0.89||||0.5776|TWO_SIDED|95.0|-4.1|2.33|||Mixed Models Analysis|||||2.33|-4.10|0.5776
92403606|NCT00498940|184699013|SUPERIORITY_OR_OTHER|||||||0.14||||||Differences in cardiac index between groups were assessed by an independent 2-sample t test.|t-test, 2 sided|||||||.14
92403607|NCT04607005|184699056|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.067|TWO_SIDED|95.0|-0.89|0.03||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||0.03|-0.89|0.067
92403608|NCT04607005|184699057|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.043|TWO_SIDED|95.0|-0.92|-0.02||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.02|-0.92|0.043
92403609|NCT04607005|184699058|SUPERIORITY||Mean Difference (Final Values)|-1.43||||0.003|TWO_SIDED|95.0|-2.37|-0.5||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.50|-2.37|0.003
92363777|NCT00587041|184630411|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||t-test, 1 sided|||Ranked sum T-test for AKSB group CaOX SS comparison between 0 and 6 weeks||||0.67
92363778|NCT00587041|184630411|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||t-test, 1 sided|||Ranked-sum T-Test for Oxadrop group CaOX SS comparison between 0 and 6 weeks||||0.30
92363779|NCT04389866|184630439|SUPERIORITY||Mean Difference (Final Values)|-0.357|STANDARD_DEVIATION|0.864||0.018|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for arm 1 (jawline injections) analysis of Jawline Rating Scale Assessments given by blinded physician.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline injection arm was that there would be no statistically significant change in the blinded physician Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.018
92166061|NCT00566527|184220834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Mumps Response Rate (Arm 1 - Arm 3)|-0.35|||||TWO_SIDED|95.0|-1.71|1.01||||||Mumps difference||1.01|-1.71|
92166062|NCT00566527|184220834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Rubella Response Rate (Arm 1 - Arm 3)|-0.15|||||TWO_SIDED|95.0|-1.34|1.09||||||Rubella difference||1.09|-1.34|
92363780|NCT04389866|184630439|SUPERIORITY||Mean Difference (Final Values)|-0.214|STANDARD_DEVIATION|0.864||0.082|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for arm 2 (jawline and lateral zygomatic cheek area injections) analysis of Jawline Rating Scale Assessments given by blinded physician.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline and lateral (zygomatic) cheek area injections arm was that there would be no statistically significant change in the blinded physician Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.082
92363781|NCT04389866|184630440|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_DEVIATION|0.497||3.1e-07|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for arm 1 (jawline injections) analysis of Jawline Rating Scale Assessments given by unblinded physician.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline injection arm was that there would be no statistically significant change in the unblinded physician Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.00000031
92363782|NCT04389866|184630440|SUPERIORITY||Mean Difference (Final Values)|-0.714|STANDARD_DEVIATION|0.497||7.28e-05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for jawline and lateral (zygomatic) cheek area injections arm analysis of Jawline Rating Scale Assessments given by unblinded physician.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline and lateral (zygomatic) cheek area injections arm was that there would be no statistically significant change in the unblinded physician Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.0000728
92363783|NCT04389866|184630441|SUPERIORITY||Mean Difference (Final Values)|-0.571|STANDARD_DEVIATION|0.611||0.014|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for jawline injections analysis of Jawline Rating Scale Assessments given by subjects.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline injection arm was that there would be no statistically significant change in the subjects' Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.014
92363784|NCT04389866|184630441|SUPERIORITY||Mean Difference (Final Values)|-0.714|STANDARD_DEVIATION|0.726||0.0065|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for jawline and lateral (zygomatic) cheek area injections analysis of Jawline Rating Scale Assessments given by the subjects.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline and lateral (zygomatic) cheek area injections arm was that there would be no statistically significant change in the subjects' Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.0065
92363785|NCT01205503|184630450|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|||||This is for the interaction between baseline tnf-alpha levels and treatment received (mesna vs saline).|Mixed Models Analysis|Model was adjusted for baseline biochemical measures, time of measurement, treatment (mesna or saline), chemo type, and first-order interactions.||||||0.014
92363786|NCT00776789|184630456|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4
92363787|NCT00776789|184630457|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0||95.0|1.4|4.3|||Wilcoxon (Mann-Whitney)|||Exclusive breast feeding at 48 hours was 95% (19 out of 20 partcipants were exclusively breast feeding)in the skin-to-skin contact group vs. 38.1% in the control group||4.3|1.4|0.00
92363788|NCT00776789|184630458|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.001||95.0|1.6|6.3|||Wilcoxon (Mann-Whitney)|||||6.3|1.6|0.001
92363789|NCT04881760|184630468|SUPERIORITY||LS Mean difference (Final Values)|-5.64|||<|0.001|TWO_SIDED|95.0|-7.34|-3.94|||Mixed Models Analysis|||||-3.94|-7.34|<0.001
92363790|NCT04881760|184630468|SUPERIORITY||LS Mean difference (Final Values)|-10.45|||<|0.001|TWO_SIDED|95.0|-12.21|-8.7|||Mixed Models Analysis|||||-8.70|-12.21|<0.001
92363791|NCT04881760|184630468|SUPERIORITY||LS Mean difference (Final Values)|-12.25|||<|0.001|TWO_SIDED|95.0|-14.42|-10.08|||Mixed Models Analysis|||||-10.08|-14.42|<0.001
92363792|NCT04881760|184630468|SUPERIORITY||LS Mean difference (Final Values)|-15.1|||<|0.001|TWO_SIDED|95.0|-16.9|-13.3|||Mixed Models Analysis|||||-13.30|-16.90|<0.001
92363793|NCT04881760|184630468|SUPERIORITY||LS Mean difference (Final Values)|-16.72|||<|0.001|TWO_SIDED|95.0|-18.86|-14.58|||Mixed Models Analysis|||||-14.58|-18.86|<0.001
92363794|NCT04881760|184630468|SUPERIORITY||LS Mean difference (Final Values)|-15.85|||<|0.001|TWO_SIDED|95.0|-17.57|-14.13|||Mixed Models Analysis|||||-14.13|-17.57|<0.001
92363795|NCT04881760|184630469|SUPERIORITY||LS Mean difference (Final Values)|-6.57|||<|0.001|TWO_SIDED|95.0|-8.94|-4.2|||Mixed Models Analysis|||||-4.20|-8.94|<0.001
92363796|NCT04881760|184630469|SUPERIORITY||LS Mean difference (Final Values)|-14.21|||<|0.001|TWO_SIDED|95.0|-17.64|-10.78|||Mixed Models Analysis|||||-10.78|-17.64|<0.001
92363797|NCT04881760|184630469|SUPERIORITY||LS Mean difference (Final Values)|-15.72|||<|0.001|TWO_SIDED|95.0|-19.05|-12.4|||Mixed Models Analysis|||||-12.40|-19.05|<0.001
92166063|NCT00566527|184220834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -10. Values are shown as percentages.|Varicella Response Rate (Arm 1 - Arm 3)|0.0|||||TWO_SIDED|95.0|-1.83|1.1||||||Varicella difference||1.10|-1.83|
92166064|NCT01152190|184220877|SUPERIORITY_OR_OTHER||Difference in LS Means|0.01|STANDARD_ERROR_OF_MEAN|0.009||0.121||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 between the tadalafil and placebo treatment groups was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.121
92166065|NCT01152190|184220878|SUPERIORITY_OR_OTHER||Difference in LS Means|0.01|STANDARD_ERROR_OF_MEAN|0.008||0.226||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 between the tadalafil and placebo treatment groups was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.226
92363798|NCT04881760|184630469|SUPERIORITY||LS Mean difference (Final Values)|-19.62|||<|0.001|TWO_SIDED|95.0|-22.73|-16.51|||Mixed Models Analysis|||||-16.51|-22.73|<0.001
92363799|NCT04881760|184630469|SUPERIORITY||LS Mean difference (Final Values)|-21.78|||<|0.001|TWO_SIDED|95.0|-25.05|-18.51|||Mixed Models Analysis|||||-18.51|-25.05|<0.001
92363800|NCT04881760|184630469|SUPERIORITY||LS Mean difference (Final Values)|-22.11|||<|0.001|TWO_SIDED|95.0|-24.92|-19.31|||Mixed Models Analysis|||||-19.31|-24.92|<0.001
92363801|NCT04881760|184630470|SUPERIORITY||Risk Difference (RD)|33.0|||<|0.001|TWO_SIDED|95.0|17.0|49.0|||Regression, Logistic|||||49|17|<0.001
92363802|NCT04881760|184630470|SUPERIORITY||Risk Difference (RD)|61.0|||<|0.001|TWO_SIDED|95.0|45.0|77.0|||Regression, Logistic|||||77|45|<0.001
92363803|NCT04881760|184630470|SUPERIORITY||Risk Difference (RD)|68.0|||<|0.001|TWO_SIDED|95.0|54.0|81.0|||Regression, Logistic|||||81|54|<0.001
92363804|NCT04881760|184630470|SUPERIORITY||Risk Difference (RD)|74.0|||<|0.001|TWO_SIDED|95.0|63.0|85.0|||Regression, Logistic|||||85|63|<0.001
92363805|NCT04881760|184630470|SUPERIORITY||Risk Difference (RD)|74.0|||<|0.001|TWO_SIDED|95.0|63.0|85.0|||Regression, Logistic|||||85|63|<0.001
92363806|NCT04881760|184630470|SUPERIORITY||Risk Difference (RD)|71.0|||<|0.001|TWO_SIDED|95.0|59.0|82.0|||Regression, Logistic|||||82|59|<0.001
92363807|NCT04881760|184630471|SUPERIORITY||Risk Difference (RD)|37.0|||<|0.001|TWO_SIDED|95.0|20.0|54.0|||Regression, Logistic|||||54|20|<0.001
92363808|NCT04881760|184630471|SUPERIORITY||Risk Difference (RD)|60.0|||<|0.001|TWO_SIDED|95.0|44.0|76.0|||Regression, Logistic|||||76|44|<0.001
92363809|NCT04881760|184630471|SUPERIORITY||Risk Difference (RD)|70.0|||<|0.001|TWO_SIDED|95.0|57.0|83.0|||Regression, Logistic|||||83|57|<0.001
92363810|NCT04881760|184630471|SUPERIORITY||Risk Difference (RD)|73.0|||<|0.001|TWO_SIDED|95.0|62.0|84.0|||Regression, Logistic|||||84|62|<0.001
92276818|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.46||0.852|TWO_SIDED|95.0|-0.8|1.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 6: Fatigue||1.0|-0.8|0.8520
92166066|NCT01152190|184220879|SUPERIORITY_OR_OTHER||Difference in LS Means|0.01|STANDARD_ERROR_OF_MEAN|0.009||0.208||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 in the prostate peripheral zone RI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.208
92363811|NCT04881760|184630471|SUPERIORITY||Risk Difference (RD)|73.0|||<|0.001|TWO_SIDED|95.0|62.0|84.0|||Regression, Logistic|||||84|62|<0.001
92363812|NCT04881760|184630471|SUPERIORITY||Risk Difference (RD)|73.0|||<|0.001|TWO_SIDED|95.0|67.0|84.0|||Regression, Logistic|||||84|67|<0.001
92363813|NCT04881760|184630472|SUPERIORITY||Risk Difference (RD)|22.0|||<|0.001|TWO_SIDED|95.0|11.0|33.0|||Regression, Logistic|||||33|11|<0.001
92363814|NCT04881760|184630472|SUPERIORITY||Risk Difference (RD)|56.0|||<|0.001|TWO_SIDED|95.0|38.0|73.0|||Regression, Logistic|||||73|38|<0.001
92363815|NCT04881760|184630472|SUPERIORITY||Risk Difference (RD)|69.0|||<|0.001|TWO_SIDED|95.0|53.0|85.0|||Regression, Logistic|||||85|53|<0.001
92363816|NCT04881760|184630472|SUPERIORITY||Risk Difference (RD)|80.0|||<|0.001|TWO_SIDED|95.0|66.0|93.0|||Regression, Logistic|||||93|66|<0.001
92363817|NCT04881760|184630472|SUPERIORITY||Risk Difference (RD)|91.0|||<|0.001|TWO_SIDED|95.0|83.0|100.0|||Regression, Logistic|||||100|83|<0.001
92363818|NCT04881760|184630472|SUPERIORITY||Risk Difference (RD)|87.0|||<|0.001|TWO_SIDED|95.0|78.0|96.0|||Regression, Logistic|||||96|78|<0.001
92363819|NCT04881760|184630473|SUPERIORITY||Risk Difference (RD)|18.0||||0.008|TWO_SIDED|95.0|5.0|31.0|||Regression, Logistic|||||31|5|0.008
92363820|NCT04881760|184630473|SUPERIORITY||Risk Difference (RD)|64.0|||<|0.001|TWO_SIDED|95.0|48.0|81.0|||Regression, Logistic|||||81|48|<0.001
92363821|NCT04881760|184630473|SUPERIORITY||Risk Difference (RD)|67.0|||<|0.001|TWO_SIDED|95.0|51.0|84.0|||Regression, Logistic|||||84|51|<0.001
92363822|NCT04881760|184630473|SUPERIORITY||Risk Difference (RD)|81.0|||<|0.001|TWO_SIDED|95.0|69.0|94.0|||Regression, Logistic|||||94|69|<0.001
92363823|NCT04881760|184630473|SUPERIORITY||Risk Difference (RD)|82.0|||<|0.001|TWO_SIDED|95.0|71.0|94.0|||Regression, Logistic|||||94|71|<0.001
92363824|NCT04881760|184630473|SUPERIORITY||Risk Difference (RD)|84.0|||<|0.001|TWO_SIDED|95.0|74.0|94.0|||Regression, Logistic|||||94|74|<0.001
92363825|NCT04881760|184630474|SUPERIORITY||Risk Difference (RD)|9.0||||0.029|TWO_SIDED|95.0|1.0|17.0|||Regression, Logistic|||||17|1|0.029
92363826|NCT04881760|184630474|SUPERIORITY||Risk Difference (RD)|27.0|||<|0.001|TWO_SIDED|95.0|11.0|43.0|||Regression, Logistic|||||43|11|<0.001
92363827|NCT04881760|184630474|SUPERIORITY||Risk Difference (RD)|43.0|||<|0.001|TWO_SIDED|95.0|26.0|60.0|||Regression, Logistic|||||60|26|<0.001
92363828|NCT04881760|184630474|SUPERIORITY||Risk Difference (RD)|49.0|||<|0.001|TWO_SIDED|95.0|33.0|66.0|||Regression, Logistic|||||66|33|<0.001
92166067|NCT01152190|184220879|SUPERIORITY_OR_OTHER||Difference in LS Means|0.02|STANDARD_ERROR_OF_MEAN|0.009||0.066||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 in the prostate peripheral zone RI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.066
92166068|NCT01152190|184220879|SUPERIORITY_OR_OTHER||Difference in LS Means|0.02|STANDARD_ERROR_OF_MEAN|0.017||0.195||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 in bladder neck RI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.195
92363829|NCT04881760|184630474|SUPERIORITY||Risk Difference (RD)|67.0|||<|0.001|TWO_SIDED|95.0|51.0|83.0|||Regression, Logistic|||||83|51|<0.001
92363830|NCT04881760|184630474|SUPERIORITY||Risk Difference (RD)|68.0|||<|0.001|TWO_SIDED|95.0|56.0|80.0|||Regression, Logistic|||||80|56|<0.001
92363831|NCT04881760|184630475|SUPERIORITY||Risk Difference (RD)|15.0||||0.002|TWO_SIDED|95.0|6.0|24.0|||Regression, Logistic|||||24|6|0.002
92363832|NCT04881760|184630475|SUPERIORITY||Risk Difference (RD)|53.0|||<|0.001|TWO_SIDED|95.0|36.0|70.0|||Regression, Logistic|||||70|36|<0.001
92363833|NCT04881760|184630475|SUPERIORITY||Risk Difference (RD)|63.0|||<|0.001|TWO_SIDED|95.0|47.0|79.0|||Regression, Logistic|||||79|47|<0.001
92363834|NCT04881760|184630475|SUPERIORITY||Risk Difference (RD)|71.0|||<|0.001|TWO_SIDED|95.0|55.0|87.0|||Regression, Logistic|||||87|55|<0.001
92363835|NCT04881760|184630475|SUPERIORITY||Risk Difference (RD)|75.0|||<|0.001|TWO_SIDED|95.0|62.0|89.0|||Regression, Logistic|||||89|62|<0.001
92363836|NCT04881760|184630475|SUPERIORITY||Risk Difference (RD)|82.0|||<|0.001|TWO_SIDED|95.0|71.0|92.0|||Regression, Logistic|||||92|71|<0.001
92363837|NCT04881760|184630476|SUPERIORITY||LS Mean difference (Final Values)|-6.46|||<|0.001|TWO_SIDED|95.0|-8.36|-4.56|||Mixed Models Analysis|||||-4.56|-8.36|<0.001
92363838|NCT04881760|184630476|SUPERIORITY||LS Mean difference (Final Values)|-11.32|||<|0.001|TWO_SIDED|95.0|-13.34|-9.3|||Mixed Models Analysis|||||-9.30|-13.34|<0.001
92363839|NCT04881760|184630476|SUPERIORITY||LS Mean difference (Final Values)|-13.52|||<|0.001|TWO_SIDED|95.0|-15.99|-11.05|||Mixed Models Analysis|||||-11.05|-15.99|<0.001
92363840|NCT04881760|184630476|SUPERIORITY||LS Mean difference (Final Values)|-16.43|||<|0.001|TWO_SIDED|95.0|-18.41|-14.45|||Mixed Models Analysis|||||-14.45|-18.41|<0.001
92363841|NCT04881760|184630476|SUPERIORITY||LS Mean difference (Final Values)|-18.48|||<|0.001|TWO_SIDED|95.0|-20.93|-16.04|||Mixed Models Analysis|||||-16.04|-20.93|<0.001
92363842|NCT04881760|184630476|SUPERIORITY||LS Mean difference (Final Values)|-17.26|||<|0.001|TWO_SIDED|95.0|-19.11|-15.4|||Mixed Models Analysis|||||-15.40|-19.11|<0.001
92363843|NCT04881760|184630477|SUPERIORITY||LS Mean difference (Final Values)|-7.53|||<|0.001|TWO_SIDED|95.0|-10.18|-4.88|||Mixed Models Analysis|||||-4.88|-10.18|<0.001
92363844|NCT04881760|184630477|SUPERIORITY||LS Mean difference (Final Values)|-15.48|||<|0.001|TWO_SIDED|95.0|-19.35|-11.6|||Mixed Models Analysis|||||-11.60|-19.35|<0.001
92363845|NCT04881760|184630477|SUPERIORITY||LS Mean difference (Final Values)|-17.29|||<|0.001|TWO_SIDED|95.0|-21.19|-13.39|||Mixed Models Analysis|||||-13.39|-21.19|<0.001
92363846|NCT04881760|184630477|SUPERIORITY||LS Mean difference (Final Values)|-21.69|||<|0.001|TWO_SIDED|95.0|-25.25|-18.12|||Mixed Models Analysis|||||-18.12|-25.25|<0.001
92403610|NCT04607005|184699059|SUPERIORITY||Mean Difference (Final Values)|-1.43||||0.002|TWO_SIDED|95.0|-2.35|-0.51||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.51|-2.35|0.002
92403611|NCT04607005|184699060|SUPERIORITY||Mean Difference (Final Values)|-1.54||||0.003|TWO_SIDED|95.0|-2.52|-0.55||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.55|-2.52|0.003
92403612|NCT04607005|184699061|SUPERIORITY||Mean Difference (Final Values)|-1.54||||0.002|TWO_SIDED|95.0|-2.51|-0.57||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.57|-2.51|0.002
92403613|NCT04607005|184699062|SUPERIORITY||Mean Difference (Final Values)|-1.63||||0.012|TWO_SIDED|95.0|-2.9|-0.37||p-Value was based on a ANCOVA Model.|ANCOVA|||||-0.37|-2.90|0.012
92403614|NCT04607005|184699063|SUPERIORITY||Mean Difference (Final Values)|-1.67||||0.009|TWO_SIDED|95.0|-2.93|-0.42||p-Value was based on a ANCOVA Model.|ANCOVA|||||-0.42|-2.93|0.009
92403615|NCT04607005|184699064|SUPERIORITY||Mean Difference (Final Values)|-1.17||||0.005|TWO_SIDED|95.0|-1.99|-0.35||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.35|-1.99|0.005
92166069|NCT01152190|184220879|SUPERIORITY_OR_OTHER||Difference in LS Means|0.01|STANDARD_ERROR_OF_MEAN|0.022||0.625||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 in bladder neck RI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.625
92403616|NCT04607005|184699065|SUPERIORITY||Mean Difference (Final Values)|-1.21||||0.004|TWO_SIDED|95.0|-2.02|-0.4||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.40|-2.02|0.004
92403617|NCT04607005|184699066|SUPERIORITY||Mean Difference (Final Values)|-10.63||||0.01|TWO_SIDED|95.0|-18.68|-2.57||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-2.57|-18.68|0.010
92403618|NCT04607005|184699067|SUPERIORITY||Mean Difference (Final Values)|-11.39||||0.004|TWO_SIDED|95.0|-19.19|-3.6||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-3.60|-19.19|0.004
92403619|NCT04607005|184699068|SUPERIORITY||Mean Difference (Final Values)|-0.82||||0.009|TWO_SIDED|95.0|-1.43|-0.21||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.21|-1.43|0.009
92403620|NCT04607005|184699069|SUPERIORITY||Mean Difference (Final Values)|-0.89||||0.004|TWO_SIDED|95.0|-1.49|-0.28||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.28|-1.49|0.004
92403621|NCT04607005|184699070|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.026|TWO_SIDED|95.0|0.26|0.92||p-Value was based on Cox Proportional Hazards Model.|Cox proportional hazards model|||||0.92|0.26|0.026
92166070|NCT01152190|184220880|SUPERIORITY_OR_OTHER||Difference in LS Means|2.63|STANDARD_ERROR_OF_MEAN|3.38||0.439||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 in the prostate transition zone CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.439
92166071|NCT01152190|184220880|SUPERIORITY_OR_OTHER||Difference in LS Means|0.51|STANDARD_ERROR_OF_MEAN|2.867||0.86||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 in the prostate transition zone CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.860
92363847|NCT04881760|184630477|SUPERIORITY||LS Mean difference (Final Values)|-24.04|||<|0.001|TWO_SIDED|95.0|-27.72|-20.36|||Mixed Models Analysis|||||-20.36|-27.72|<0.001
92363848|NCT04881760|184630477|SUPERIORITY||LS Mean difference (Final Values)|-24.34|||<|0.001|TWO_SIDED|95.0|-27.4|-21.27|||Mixed Models Analysis|||||-21.27|-27.40|<0.001
92363849|NCT04881760|184630478|SUPERIORITY||LS Mean difference (Final Values)|-2.15|||<|0.001|TWO_SIDED|95.0|-2.8|-1.5|||Mixed Models Analysis|||||-1.50|-2.80|<0.001
92363850|NCT04881760|184630478|SUPERIORITY||LS Mean difference (Final Values)|-3.98|||<|0.001|TWO_SIDED|95.0|-4.66|-3.29|||Mixed Models Analysis|||||-3.29|-4.66|<0.001
92363851|NCT04881760|184630478|SUPERIORITY||LS Mean difference (Final Values)|-4.64|||<|0.001|TWO_SIDED|95.0|-5.46|-3.82|||Mixed Models Analysis|||||-3.82|-5.46|<0.001
92363852|NCT04881760|184630478|SUPERIORITY||LS Mean difference (Final Values)|-5.66|||<|0.001|TWO_SIDED|95.0|-6.34|-4.99|||Mixed Models Analysis|||||-4.99|-6.34|<0.001
92363853|NCT04881760|184630478|SUPERIORITY||LS Mean difference (Final Values)|-6.35|||<|0.001|TWO_SIDED|95.0|-7.17|-5.53|||Mixed Models Analysis|||||-5.53|-7.17|<0.001
92363854|NCT04881760|184630478|SUPERIORITY||LS Mean difference (Final Values)|-5.95|||<|0.001|TWO_SIDED|95.0|-6.59|-5.32|||Mixed Models Analysis|||||-5.32|-6.59|<0.001
92403622|NCT04607005|184699071|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.018|TWO_SIDED|95.0|0.25|0.88||p-Value was based on Cox Proportional Hazards Model.|Cox proportional hazards model|||||0.88|0.25|0.018
92403623|NCT03589859|184699076|OTHER|This was a physiology study, not a treatment trial. The test was for a change in VOR gain.|||||<|0.001|||||||Mixed Models Analysis|||A linear mixed effects model was used to compare pre- and post-training VOR gains||||<0.001
92276819|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.55||0.5264|TWO_SIDED|95.0|-1.4|0.7||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 7: Rested||0.7|-1.4|0.5264
92363855|NCT04881760|184630479|SUPERIORITY||LS Mean difference (Final Values)|-2.5|||<|0.001|TWO_SIDED|95.0|-3.42|-1.57|||Mixed Models Analysis|||||-1.57|-3.42|<0.001
92363856|NCT04881760|184630479|SUPERIORITY||LS Mean difference (Final Values)|-5.42|||<|0.001|TWO_SIDED|95.0|-6.81|-4.03|||Mixed Models Analysis|||||-4.03|-6.81|<0.001
92363857|NCT04881760|184630479|SUPERIORITY||LS Mean difference (Final Values)|-5.95|||<|0.001|TWO_SIDED|95.0|-7.23|-4.67|||Mixed Models Analysis|||||-4.67|-7.23|<0.001
92363858|NCT04881760|184630479|SUPERIORITY||LS Mean difference (Final Values)|-7.4|||<|0.001|TWO_SIDED|95.0|-8.62|-6.18|||Mixed Models Analysis|||||-6.18|-8.62|<0.001
92363859|NCT04881760|184630479|SUPERIORITY||LS Mean difference (Final Values)|-8.3|||<|0.001|TWO_SIDED|95.0|-9.55|-7.05|||Mixed Models Analysis|||||-7.05|-9.55|<0.001
92363860|NCT04881760|184630479|SUPERIORITY||LS Mean difference (Final Values)|-8.42|||<|0.001|TWO_SIDED|95.0|-9.49|-7.35|||Mixed Models Analysis|||||-7.35|-9.49|<0.001
92363861|NCT04881760|184630480|SUPERIORITY||LS Mean difference (Final Values)|-2.82||||0.022|TWO_SIDED|95.0|-5.23|-0.41|||Mixed Models Analysis|||||-0.41|-5.23|0.022
92363862|NCT04881760|184630480|SUPERIORITY||LS Mean difference (Final Values)|-7.73|||<|0.001|TWO_SIDED|95.0|-10.32|-5.13|||Mixed Models Analysis|||||-5.13|-10.32|<0.001
92363863|NCT04881760|184630480|SUPERIORITY||LS Mean difference (Final Values)|-9.95|||<|0.001|TWO_SIDED|95.0|-12.47|-7.43|||Mixed Models Analysis|||||-7.43|-12.47|<0.001
92363864|NCT04881760|184630480|SUPERIORITY||LS Mean difference (Final Values)|-11.14|||<|0.001|TWO_SIDED|95.0|-13.72|-8.56|||Mixed Models Analysis|||||-8.56|-13.72|<0.001
92363865|NCT04881760|184630480|SUPERIORITY||LS Mean difference (Final Values)|-12.38|||<|0.001|TWO_SIDED|95.0|-14.87|-9.9|||Mixed Models Analysis|||||-9.90|-14.87|<0.001
92363866|NCT04881760|184630480|SUPERIORITY||LS Mean difference (Final Values)|-11.73|||<|0.001|TWO_SIDED|95.0|-14.04|-9.43|||Mixed Models Analysis|||||-9.43|-14.04|<0.001
92363867|NCT04881760|184630481|SUPERIORITY||LS Mean difference (Final Values)|-3.84||||0.01|TWO_SIDED|95.0|-6.77|-0.91|||Mixed Models Analysis|||||-0.91|-6.77|0.010
92363868|NCT04881760|184630481|SUPERIORITY||LS Mean difference (Final Values)|-11.94|||<|0.001|TWO_SIDED|95.0|-15.54|-8.33|||Mixed Models Analysis|||||-8.33|-15.54|<0.001
92363869|NCT04881760|184630481|SUPERIORITY||LS Mean difference (Final Values)|-12.22|||<|0.001|TWO_SIDED|95.0|-16.11|-8.33|||Mixed Models Analysis|||||-8.33|-16.11|<0.001
92363870|NCT04881760|184630481|SUPERIORITY||LS Mean difference (Final Values)|-15.88|||<|0.001|TWO_SIDED|95.0|-19.33|-12.43|||Mixed Models Analysis|||||-12.43|-19.33|<0.001
92363871|NCT04881760|184630481|SUPERIORITY||LS Mean difference (Final Values)|-15.85|||<|0.001|TWO_SIDED|95.0|-19.39|-12.31|||Mixed Models Analysis|||||-12.31|-19.39|<0.001
92363872|NCT04881760|184630481|SUPERIORITY||LS Mean difference (Final Values)|-16.95|||<|0.001|TWO_SIDED|95.0|-20.13|-13.78|||Mixed Models Analysis|||||-13.78|-20.13|<0.001
92363873|NCT01595529|184630488|NON_INFERIORITY|The primary analysis was a non-inferiority test comparing the proportion of subjects with symptomatic UTIs at the TOC visit to evaluate whether the difference was within the 5% equivalence interval. This test was conducted by calculating the one-sided 95% upper confidence limit for the difference in symptomatic UTI (treatment failure) rate. If this limit was less than or equal to the equivalence interval (0.05), then would conclude that short course therapy is not inferior to standard therapy.|Risk Difference (RD)|0.035569|||||ONE_SIDED|95.0||0.054844||||||||0.054844||
92403624|NCT00626106|184699092|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.542|TWO_SIDED|95.0|-0.11|0.07|||ANCOVA|||||0.07|-0.11|0.542
92403625|NCT02201953|184699107|NON_INFERIORITY_OR_EQUIVALENCE|Primary analyses consisted of non-inferiority test of Group 1 (SOF/VEL 12 weeks) versus Group 2 (SOF+RBV 24 weeks) at the 0.05 significance level. Non-inferiority was assessed using the conventional confidence interval approach and a non-inferiority margin of 10% was applied. The two-sided 95% confidence intervals was constructed using stratum-adjusted Mantel-Haenszel proportions, stratified by the randomization stratification factors (i.e cirrhosis status and prior treatment experience)|Difference in proportions|14.4|||||TWO_SIDED|95.0|9.2|19.6|||||Difference in proportions between treatment groups and associated 95% confidence intervals (CI) are calculated based on stratum-adjusted Mantel-Haenszel proportions.|||19.6|9.2|
92403626|NCT02201953|184699107|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value was from the Cochran-Mantel-Haenszel test stratified by cirrhosis status and prior HCV treatment experience.|Cochran-Mantel-Haenszel|||If the lower bound of 95% CI on the difference was \> -10%, the p-value tested for the superiority of SOF/VEL for 12 weeks over SOF+RBV for 24 weeks. Superiority was demonstrated if the two-sided p-value is less than 0.05.||||<0.001
92403627|NCT03077412|184699167|SUPERIORITY||Risk Difference in Percentages|22.1|||||TWO_SIDED|90.0|-9.9|50.0|||||The 90% exact confidence interval (CI) was calculated based on binomial distribution (Clopper-Pearson method).|||50.0|-9.9|
92403628|NCT03077412|184699167|SUPERIORITY||Risk Difference in Percentages|4.2|||||TWO_SIDED|90.0|-26.5|34.3|||||The 90% exact CI was calculated based on binomial distribution (Clopper-Pearson method).|||34.3|-26.5|
92403629|NCT03077412|184699168|SUPERIORITY||Risk Difference in Percentages|30.4|||||TWO_SIDED|90.0|-1.3|57.3|||||The 90% exact CI was calculated based on binomial distribution (Clopper-Pearson method).|||57.3|-1.3|
92403630|NCT03077412|184699168|SUPERIORITY||Risk Difference in Percentages|8.3|||||TWO_SIDED|90.0|-22.5|38.1|||||The 90% exact CI was calculated based on binomial distribution (Clopper-Pearson method).|||38.1|-22.5|
92403631|NCT03077412|184699169|SUPERIORITY||Hazard Ratio (HR)|1.26|||||TWO_SIDED|90.0|0.64|2.49|||||Hazard ratio was derived from Cox Proportional-Hazards model.|||2.49|0.64|
92403632|NCT03077412|184699169|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|90.0|0.47|1.75|||||Hazard ratio was derived from Cox Proportional-Hazards model.|||1.75|0.47|
92403633|NCT03077412|184699170|SUPERIORITY||Hazard Ratio (HR)|1.87|||||TWO_SIDED|90.0|0.87|4.01|||||Hazard ratio was derived from Cox Proportional-Hazards model.|||4.01|0.87|
92403634|NCT03077412|184699170|SUPERIORITY||Hazard Ratio (HR)|1.37|||||TWO_SIDED|90.0|0.65|2.92|||||Hazard ratio was derived from Cox Proportional-Hazards model.|||2.92|0.65|
92403635|NCT03077412|184699171|SUPERIORITY||Risk Difference in Percentages|-18.6|||||TWO_SIDED|90.0|-55.6|21.3|||||The 90% exact CI was calculated based on binomial distribution (Clopper-Pearson method).|||21.3|-55.6|
92166072|NCT01152190|184220880|SUPERIORITY_OR_OTHER||Difference in LS Means|3.47|STANDARD_ERROR_OF_MEAN|2.937||0.24||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 in the prostate peripheral zone CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.240
92363874|NCT01595529|184630489|NON_INFERIORITY|The primary analysis was a non-inferiority test comparing the proportion of subjects with symptomatic UTIs at the TOC visit to evaluate whether the difference was within the 5% equivalence interval. This test was conducted by calculating the one-sided 95% upper confidence limit for the difference in symptomatic UTI (treatment failure) rate. If this limit was less than or equal to the equivalence interval (0.05), then would conclude that short course therapy is not inferior to standard therapy.|Risk Difference (RD)|0.022169|||||ONE_SIDED|95.0||0.03939||||||||0.03939||
92363875|NCT01595529|184630490|SUPERIORITY||Risk Difference (RD)|-0.00356|||||TWO_SIDED|95.0|-0.03323|0.026102||||||||0.026102|-0.03323|
92363876|NCT01595529|184630491|SUPERIORITY||Risk Difference (RD)|-0.00994|||||TWO_SIDED|95.0|-0.04012|0.020236||||||||0.020236|-0.04012|
92363877|NCT01595529|184630492|SUPERIORITY|||||||0.2282|||||||Chi-squared|||At Test of Cure Visit||||0.2282
92363878|NCT01595529|184630492|SUPERIORITY|||||||0.4876|||||||Chi-squared|||At Outcome Assessment Visit||||0.4876
92363879|NCT01595529|184630493|SUPERIORITY|||||||0.4184|||||||Chi-squared|||At Test of Cure Visit||||0.4184
92363880|NCT01595529|184630493|SUPERIORITY|||||||0.9782|||||||Chi-squared|||At Outcome Assessment Visit||||0.9782
92363881|NCT01595529|184630494|SUPERIORITY||Risk Difference (RD)|-0.05277|||||TWO_SIDED|95.0|-0.08857|-0.01698||||||||-0.01698|-0.08857|
92363882|NCT01595529|184630495|SUPERIORITY||Risk Difference (RD)|-0.05664|||||TWO_SIDED|95.0|-0.09479|-0.0185||||||||-0.01850|-0.09479|
92363883|NCT01595529|184630496|SUPERIORITY||Risk Difference (RD)|-0.03056|||||TWO_SIDED|95.0|-0.07744|0.016323||||||||0.016323|-0.07744|
92363884|NCT01595529|184630497|SUPERIORITY||Risk Difference (RD)|-0.01094|||||TWO_SIDED|95.0|-0.058|0.036117||||||||0.036117|-0.0580|
92363885|NCT01595529|184630498|SUPERIORITY||Risk Difference (RD)|-0.10373|||||TWO_SIDED|95.0|-0.14161|-0.06585||||||||-0.06585|-0.14161|
92363886|NCT01595529|184630499|SUPERIORITY||Risk Difference (RD)|-0.09198|||||TWO_SIDED|95.0|-0.13006|-0.05391||||||||-0.05391|-0.13006|
92363887|NCT04016714|184630500|OTHER||Difference in percentage vs Prevenar 13™|-5.5|||=|0.05|TWO_SIDED|95.0|-11.0|0.0|||Miettinen & Nurminen method|||Injection-site erythema||0.0|-11.0|= 0.050
92363888|NCT04016714|184630500|OTHER||Difference in percentage vs Prevenar 13™|-2.1|||=|0.46|TWO_SIDED|95.0|-7.7|3.5|||Miettinen & Nurminen method|||Injection-site induration||3.5|-7.7|= 0.460
92363889|NCT04016714|184630500|OTHER||Difference in percentage vs Prevenar 13™|3.4|||=|0.225|TWO_SIDED|95.0|-2.1|8.9|||Miettinen & Nurminen method|||Injection-site pain||8.9|-2.1|= 0.225
92363890|NCT04016714|184630500|OTHER||Difference in percentage vs Prevenar 13™|2.3|||=|0.43|TWO_SIDED|95.0|-3.4|7.9|||Miettinen & Nurminen method|||Injection-site swelling||7.9|-3.4|= 0.430
92363891|NCT04016714|184630501|OTHER||Difference in percentage vs Prevenar 13™|-3.5|||=|0.229|TWO_SIDED|95.0|-9.1|2.2|||Miettinen & Nurminen method|||Decreased appetite||2.2|-9.1|= 0.229
92363892|NCT04016714|184630501|OTHER||Difference in percentage vs Prevenar 13™|2.2|||=|0.077|TWO_SIDED|95.0|-0.2|4.7|||Miettinen & Nurminen method|||Irritability||4.7|-0.2|= 0.077
92363893|NCT04016714|184630501|OTHER||Difference in percentage vs Prevenar 13™|-0.6|||=|0.793|TWO_SIDED|95.0|-5.4|4.1|||Miettinen & Nurminen method|||Somnolence||4.1|-5.4|= 0.793
92363894|NCT04016714|184630501|OTHER||Difference in percentage vs Prevenar 13™|-4.6|||=|0.045|TWO_SIDED|95.0|-9.1|-0.1|||Miettinen & Nurminen method|||Urticaria||-0.1|-9.1|= 0.045
92363895|NCT04016714|184630502|OTHER||Difference in percentage vs Prevenar 13™|0.0|||||TWO_SIDED|95.0|-0.9|0.9||||||Vaccine-related SAEs||0.9|-0.9|
92363896|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% confidence interval (CI) for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-2.2|||<|0.001|TWO_SIDED|95.0|-4.3|-0.6|||Miettinen & Nurminen method|||Serotype 1||-0.6|-4.3|< 0.001
92363897|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|10.5|||<|0.001|TWO_SIDED|95.0|6.6|14.6|||Miettinen & Nurminen method|||Serotype 3||14.6|6.6|< 0.001
92363898|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-1.9|||<|0.001|TWO_SIDED|95.0|-4.0|0.0|||Miettinen & Nurminen method|||Serotype 4||0.0|-4.0|< 0.001
92363899|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.4|0.8|||Miettinen & Nurminen method|||Serotype 5||0.8|-1.4|< 0.001
92363900|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.5|1.0|||Miettinen & Nurminen method|||Serotype 6A||1.0|-1.5|< 0.001
92363901|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-1.2|1.5|||Miettinen & Nurminen method|||Serotype 6B||1.5|-1.2|< 0.001
92403636|NCT03077412|184699171|SUPERIORITY||Risk Difference in Percentages|-13.2|||||TWO_SIDED|90.0|-51.0|24.1|||||The 90% exact CI was calculated based on binomial distribution (Clopper-Pearson method).|||24.1|-51.0|
92166073|NCT01152190|184220880|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.55|STANDARD_ERROR_OF_MEAN|2.729||0.839||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 in the prostate peripheral zone CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.839
92166074|NCT01152190|184220880|SUPERIORITY_OR_OTHER||Difference in LS Means|-4.2|STANDARD_ERROR_OF_MEAN|5.77||0.468||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 in the bladder neck CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.468
92166075|NCT01152190|184220880|SUPERIORITY_OR_OTHER||Difference in LS Means|7.93|STANDARD_ERROR_OF_MEAN|5.199||0.131||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 in the bladder neck CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.131
92166076|NCT00732381|184220894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0|||||ANCOVA|||||||0.006
92166077|NCT00732381|184220895|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92166078|NCT02582593|184220911|SUPERIORITY||Cohen's D|0.27||||0.575|TWO_SIDED|||||t = .581, only 1 comparison (2 groups) and thus multiple comparison correction not needed|t-test, 2 sided|||An independent sample t-test was used to examine difference in Pre-post intervention change scores for the Active and Sham groups;. Cohen's d was calculated to determine effect size.||||.575
92166079|NCT02582593|184220912|SUPERIORITY||Cohen's D|1.06||||0.16|TWO_SIDED|||||t = 1.574; only two comparisons, thus not necessary to adjust|t-test, 2 sided|||independent t-test, cohen's d effect size||||.160
92363902|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.4|||<|0.001|TWO_SIDED|95.0|-0.4|1.4|||Miettinen & Nurminen method|||Serotype 7F||1.4|-0.4|< 0.001
92363903|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.8|1.2|||Miettinen & Nurminen method|||Serotype 9V||1.2|-0.8|< 0.001
92363904|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.7|0.7|||Miettinen & Nurminen method|||Serotype 14||0.7|-1.7|< 0.001
92363905|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.4|||<|0.001|TWO_SIDED|95.0|-0.6|1.5|||Miettinen & Nurminen method|||Serotype 18C||1.5|-0.6|< 0.001
92363906|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.3|0.7|||Miettinen & Nurminen method|||Serotype 19A||0.7|-1.3|< 0.001
92363907|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.8|1.2|||Miettinen & Nurminen method|||Serotype 19F||1.2|-0.8|< 0.001
92363908|NCT04016714|184630503|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.9|||<|0.001|TWO_SIDED|95.0|-1.2|3.0|||Miettinen & Nurminen method|||Serotype 23F||3.0|-1.2|< 0.001
92363909|NCT04016714|184630503|SUPERIORITY|For the 2 serotypes unique to V114, a conclusion of superiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>10 percentage points (1-sided p-value \<0.025).|Percentage point difference|94.0|||<|0.001|TWO_SIDED|95.0|91.6|95.8|||Miettinen & Nurminen method|||Serotype 22F||95.8|91.6|< 0.001
92363910|NCT04016714|184630503|SUPERIORITY|For the 2 serotypes unique to V114, a conclusion of superiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>10 percentage points (1-sided p-value \<0.025).|Percentage point difference|97.2|||<|0.001|TWO_SIDED|95.0|95.4|98.4|||Miettinen & Nurminen method|||Serotype 33F||98.4|95.4|< 0.001
92363911|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.58|||<|0.001|TWO_SIDED|95.0|0.54|0.63|||t-test, 1 sided|||Serotype 1||0.63|0.54|< 0.001
92363912|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|1.31|||<|0.001|TWO_SIDED|95.0|1.2|1.43|||t-test, 1 sided|||Serotype 3||1.43|1.20|< 0.001
92166080|NCT02582593|184220913|SUPERIORITY||Cohen's D|0.27||||0.424|TWO_SIDED||||||t-test, 2 sided|||independent t-test, Cohen's d effect size||||.424
92166081|NCT02582593|184220914|SUPERIORITY||Cohen's D|-1.03||||0.099|TWO_SIDED|||||no adjustment necessary, only 1 comparison|t-test, 2 sided|||independent sample t-test, Cohen's d effect size||||0.099
92363913|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.7|||<|0.001|TWO_SIDED|95.0|0.63|0.78|||t-test, 1 sided|||Serotype 4||0.78|0.63|< 0.001
92363914|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.62|||<|0.001|TWO_SIDED|95.0|0.56|0.68|||t-test, 1 sided|||Serotype 5||0.68|0.56|< 0.001
92363915|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.6|||<|0.001|TWO_SIDED|95.0|0.54|0.67|||t-test, 1 sided|||Serotype 6A||0.67|0.54|< 0.001
92363916|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.79|1.0|||t-test, 1 sided|||Serotype 6B||1.00|0.79|< 0.001
92363917|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.69|0.81|||t-test, 1 sided|||Serotype 7F||0.81|0.69|< 0.001
92363918|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.7|||<|0.001|TWO_SIDED|95.0|0.64|0.76|||t-test, 1 sided|||Serotype 9V||0.76|0.64|< 0.001
92363919|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.78|||<|0.001|TWO_SIDED|95.0|0.7|0.87|||t-test, 1 sided|||Serotype 14||0.87|0.70|< 0.001
92363920|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.85|||<|0.001|TWO_SIDED|95.0|0.77|0.92|||t-test, 1 sided|||Serotype 18C||0.92|0.77|< 0.001
92403637|NCT03762993|184699189|OTHER|Changes in phonation threshold pressure were analyzed using a linear mixed effect model. Fixed factors included in the statistical model included time, group, and restoration strategy (controlled phonation or vocal rest). In addition, appropriate interactions were included and participant was added as a random factor in order to control for individual variation.|||||<|0.001||||||P-value is for the effect of time. A priori significance level set at .05|Mixed Models Analysis|||||||<0.001
92403638|NCT03762993|184699190|OTHER|Changes in lung volumes were analyzed using a linear mixed effect model. Fixed factors included in the statistical model included time, group, and restoration strategy (controlled phonation or vocal rest). In addition, appropriate interactions were included and participant was added as a random factor in order to control for individual variation.|||||<|0.01||||||P-value represents effect of group. A priori threshold for significance set at .05|Mixed Models Analysis|||||||<0.01
92363921|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.68|0.82|||t-test, 1 sided|||Serotype 19A||0.82|0.68|< 0.001
92403639|NCT03038100|184699193|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.2785|TWO_SIDED|95.0|0.79|1.07|||Log Rank|||||1.07|0.79|0.2785
92403640|NCT03038100|184699194|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.8||||0.0376|TWO_SIDED|95.0|0.65|0.99|||Log Rank|||||0.99|0.65|0.0376
92166082|NCT00414544|184220918|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority was tested.|Mean Difference (Final Values)|-0.13|STANDARD_DEVIATION|0.6|||TWO_SIDED|90.0|-2.0|1.0|||Confidence interval|The 90% lower confidence bound of the difference between CosmetaLife and Restylane were computed.|The confidence interval is built around the mean difference of the two reporting groups.|The a priori hypothesis for statistical analysis was based on predetermined clinical relevance being set to a difference score between CosmetaLife and Control (Restylane) of -0.5. This clinical relevance was set to -0.5 because the observation scale used is not accurate below 0.5 differences. That is CosmetaLife needed to be greater than 0.5 less than Control (Restylane) in the treatment difference scores to be considered inferior.||1.0|-2.0|
92363922|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.72|0.87|||t-test, 1 sided|||Serotype 19F||0.87|0.72|< 0.001
92363923|NCT04016714|184630504|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.9|||<|0.001|TWO_SIDED|95.0|0.81|1.0|||t-test, 1 sided|||Serotype 23F||1.00|0.81|< 0.001
92403641|NCT03038100|184699195|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.3432|TWO_SIDED|95.0|0.78|1.09|||Log Rank|||Stratified by: stage and/or surgical status (Stage III vs. Stage IV), ECOG performance status (0 vs. 1 or 2), tumor PD-L1 status (IC0 vs. IC1/2/3), and treatment strategy (adjuvant vs. neoadjuvant).||1.09|0.78|0.3432
92403642|NCT03038100|184699196|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.83||||0.1316|TWO_SIDED|95.0|0.66|1.06|||Log Rank|||Stratified by: stage and/or surgical status (Stage III vs. Stage IV), ECOG performance status (0 vs. 1 or 2) and treatment strategy (adjuvant vs. neoadjuvant).||1.06|0.66|0.1316
92403643|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.97||||0.9096|TWO_SIDED|95.0|0.58|1.62|||Cochran-Mantel-Haenszel|||Emotional Functioning, Presurgical/Surgery||1.62|0.58|0.9096
92403644|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.21||||0.4662|TWO_SIDED|95.0|0.73|2.01|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 4 Day 1||2.01|0.73|0.4662
92403645|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.85||||0.5237|TWO_SIDED|95.0|0.51|1.4|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 6 Day 1||1.40|0.51|0.5237
92403646|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.25||||0.3826|TWO_SIDED|95.0|0.76|2.07|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 8 Day 1||2.07|0.76|0.3826
92403647|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9893|TWO_SIDED|95.0|0.56|1.76|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 12 Day 1||1.76|0.56|0.9893
92403648|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.89||||0.6892|TWO_SIDED|95.0|0.49|1.61|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 16 Day 1||1.61|0.49|0.6892
92403649|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.59||||0.1324|TWO_SIDED|95.0|0.3|1.17|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 20 Day 1||1.17|0.30|0.1324
92403650|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.03||||0.9176|TWO_SIDED|95.0|0.62|1.7|||Cochran-Mantel-Haenszel|||Emotional Functioning, Completion of Treatment/Early Termination Visit||1.70|0.62|0.9176
92403651|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.92||||0.7861|TWO_SIDED|95.0|0.5|1.68|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 3 Months||1.68|0.50|0.7861
92403652|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.31||||0.4539|TWO_SIDED|95.0|0.65|2.65|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 6 Months||2.65|0.65|0.4539
92166083|NCT04425863|184220939|OTHER|||||||0.0246|||||||Chi-squared|||A chi-squared test is used to find out whether there is a statistically significant decrease in mortality rate when the IDEA treatment protocol is used in hospitalized patients in comparison with other treatments in the same hospital in the same period of time (3 out of 12 inpatients died)||||0.0246
92403653|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.71||||0.4849|TWO_SIDED|95.0|0.27|1.86|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 9 Months||1.86|0.27|0.4849
92403654|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.79||||0.747|TWO_SIDED|95.0|0.19|3.34|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 12 Months||3.34|0.19|0.7470
92403655|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|33.33||||0.0896|TWO_SIDED|95.0|-44.86|100.0|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 18 Months||100.00|-44.86|0.0896
92403656|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Emotional Functioning, Post-Treatment Follow Up 24 Months||100.00|-94.30|
92403657|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.92||||0.7347|TWO_SIDED|95.0|0.56|1.5|||Cochran-Mantel-Haenszel|||Physical Functioning, Presurgical/Surgery||1.50|0.56|0.7347
92403658|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.56||||0.0479|TWO_SIDED|95.0|0.32|1.0|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 4 Day 1||1.00|0.32|0.0479
92403659|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.61||||0.0712|TWO_SIDED|95.0|0.36|1.05|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 6 Day 1||1.05|0.36|0.0712
92403660|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.8168|TWO_SIDED|95.0|0.56|1.58|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 8 Day 1||1.58|0.56|0.8168
92403661|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.6417|TWO_SIDED|95.0|0.5|1.52|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 12 Day 1||1.52|0.50|0.6417
92403662|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.8821|TWO_SIDED|95.0|0.53|1.72|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 16 Day 1||1.72|0.53|0.8821
92166084|NCT04425863|184220939|OTHER|||||||0.0475|||||||Chi-squared|||Overall mortality rate of patients treated according to IDEA protocol is compared by a chi-squared test against overall mortality rate in Argentina (the same region where the hospital is located). Data used for overall mortality in Argentina correspond to June 30th according to the website of the Ministry of Health of Argentina||||0.0475
92403663|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.64||||0.2158|TWO_SIDED|95.0|0.32|1.3|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 20 Day 1||1.30|0.32|0.2158
92403664|NCT03038100|184699202|SUPERIORITY||Odds Ratio (OR)|0.84||||0.4762|TWO_SIDED|95.0|0.51|1.37|||Cochran-Mantel-Haenszel|||Physical Functioning, Completion of Treatment/Early Termination Visit||1.37|0.51|0.4762
92403665|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.1||||0.7585|TWO_SIDED|95.0|0.61|1.96|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 3 Months||1.96|0.61|0.7585
92403666|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9985|TWO_SIDED|95.0|0.52|1.93|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 6 Months||1.93|0.52|0.9985
92403667|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.07||||0.1067|TWO_SIDED|95.0|0.85|5.06|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 9 Months||5.06|0.85|0.1067
92403668|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.42||||0.6171|TWO_SIDED|95.0|0.36|5.61|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 12 Months||5.61|0.36|0.6171
92403669|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.41||||0.8084|TWO_SIDED|95.0|0.08|23.57|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 18 Months||23.57|0.08|0.8084
92403670|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|-50.0||||0.3173|TWO_SIDED|95.0|-100.0|94.3|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 24 Months||94.30|-100.00|0.3173
92403671|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.1||||0.6802|TWO_SIDED|95.0|0.69|1.77|||Cochran-Mantel-Haenszel|||Global health status/QoL, Presurgical/Surgery||1.77|0.69|0.6802
92403672|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.79||||0.347|TWO_SIDED|95.0|0.48|1.29|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 4 Day 1||1.29|0.48|0.3470
92403673|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.86||||0.5564|TWO_SIDED|95.0|0.53|1.41|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 6 Day 1||1.41|0.53|0.5564
92403674|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.19||||0.5|TWO_SIDED|95.0|0.72|1.99|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 8 Day 1||1.99|0.72|0.5000
92403675|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.01||||0.9778|TWO_SIDED|95.0|0.57|1.78|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 12 Day 1||1.78|0.57|0.9778
92403676|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.17||||0.6005|TWO_SIDED|95.0|0.65|2.12|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 16 Day 1||2.12|0.65|0.6005
92166085|NCT04425863|184220939|OTHER|||||||0.0025|||||||Chi-squared|||A chi-square test was applied to compare the mortality rate of patients treated with IDEA protocol as compared with data published (26.84 %) in Bertsimas D, Lukin G, Mingardi L, Nohadani O, Orfanoudaki A, Stellato B et al. (2020), COVID-19 Mortality Risk Assessment: An International Multi-Center Study doi: 10.1101/2020.07.07.20148304||||0.0025
92363924|NCT04016714|184630504|SUPERIORITY|For the 2 serotypes unique to V114, a conclusion of superiority of V114 to Prevenar 13™ is based on the lower bound of the 2- sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>2.0 (1-sided p-value \<0.025).|GMC ratio|68.34|||<|0.001|TWO_SIDED|95.0|61.73|75.65|||t-test, 1 sided|||Serotype 22F||75.65|61.73|< 0.001
92363925|NCT04016714|184630504|SUPERIORITY|For the 2 serotypes unique to V114, a conclusion of superiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>2.0 (1-sided p-value \<0.025).|GMC ratio|48.99|||<|0.001|TWO_SIDED|95.0|44.45|54.01|||t-test, 1 sided|||Serotype 33F||54.01|44.45|< 0.001
92363926|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.6|1.0|||Miettinen & Nurminen method|||Diphtheria toxoid||1.0|-0.6|< 0.001
92363927|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.6|1.0|||Miettinen & Nurminen method|||Tetanus toxoid||1.0|-0.6|< 0.001
92363928|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.6|1.0|||Miettinen & Nurminen method|||Pertussis - PT||1.0|-0.6|< 0.001
92363929|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.6|1.0|||Miettinen & Nurminen method|||Pertussis - FHA||1.0|-0.6|< 0.001
92403677|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.99|TWO_SIDED|95.0|0.5|2.0|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 20 Day 1||2.00|0.50|0.9900
92403678|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.32||||0.2634|TWO_SIDED|95.0|0.81|2.15|||Cochran-Mantel-Haenszel|||Global health status/QoL, Completion of Treatment/Early Termination Visit||2.15|0.81|0.2634
92403679|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.99||||0.964|TWO_SIDED|95.0|0.56|1.74|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 3 Months||1.74|0.56|0.9640
92403680|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.76||||0.4117|TWO_SIDED|95.0|0.4|1.46|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 6 Months||1.46|0.40|0.4117
92403681|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.51||||0.3505|TWO_SIDED|95.0|0.63|3.62|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 9 Months||3.62|0.63|0.3505
92403682|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.28||||0.2439|TWO_SIDED|95.0|0.55|9.45|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 12 Months||9.45|0.55|0.2439
92403683|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|33.33||||0.1573|TWO_SIDED|95.0|-44.86|100.0|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 18 Months||100.00|-44.86|0.1573
92403684|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Global health status/QoL, Post-Treatment Follow Up 24 Months||100.00|-94.30|
92403685|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.72||||0.182|TWO_SIDED|95.0|0.45|1.16|||Cochran-Mantel-Haenszel|||Role Functioning, Presurgical/Surgery||1.16|0.45|0.1820
92403686|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.47||||0.0046|TWO_SIDED|95.0|0.28|0.8|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 4 Day 1||0.80|0.28|0.0046
92403687|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.59||||0.0361|TWO_SIDED|95.0|0.36|0.97|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 6 Day 1||0.97|0.36|0.0361
92403688|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.64||||0.0848|TWO_SIDED|95.0|0.39|1.06|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 8 Day 1||1.06|0.39|0.0848
92403689|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.64||||0.1224|TWO_SIDED|95.0|0.37|1.13|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 12 Day 1||1.13|0.37|0.1224
92403690|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.74||||0.3127|TWO_SIDED|95.0|0.41|1.33|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 16 Day 1||1.33|0.41|0.3127
92403691|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.84||||0.6065|TWO_SIDED|95.0|0.42|1.65|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 20 Day 1||1.65|0.42|0.6065
92166086|NCT03691428|184220942|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
92363930|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.8|1.2|||Miettinen & Nurminen method|||Pertussis - FIM 2/3||1.2|-0.8|< 0.001
92363931|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.8|1.2|||Miettinen & Nurminen method|||Pertussis - PRN||1.2|-0.8|< 0.001
92363932|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|-1.1|||<|0.001|TWO_SIDED|95.0|-3.3|0.9|||Miettinen & Nurminen method|||Hib-PRP||0.9|-3.3|< 0.001
92363933|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|-0.6|||<|0.001|TWO_SIDED|95.0|-2.0|0.5|||Miettinen & Nurminen method|||HBsAg||0.5|-2.0|< 0.001
92363934|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.9|0.9|||Miettinen & Nurminen method|||Poliovirus 1||0.9|-0.9|< 0.001
92363935|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.6|1.1|||Miettinen & Nurminen method|||Poliovirus 2||1.1|-0.6|< 0.001
92363936|NCT04016714|184630505|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.8|0.7|||Miettinen & Nurminen method|||Poliovirus 3||0.7|-0.8|< 0.001
92363937|NCT04016714|184630507|OTHER||GMC ratio|0.82|||||TWO_SIDED|95.0|0.75|0.89||||||Serotype 1||0.89|0.75|
92363938|NCT04016714|184630507|OTHER||GMC ratio|1.81|||||TWO_SIDED|95.0|1.66|1.98||||||Serotype 3||1.98|1.66|
92363939|NCT04016714|184630507|OTHER||GMC ratio|1.09|||||TWO_SIDED|95.0|0.99|1.21||||||Serotype 4||1.21|0.99|
92363940|NCT04016714|184630507|OTHER||GMC ratio|0.91|||||TWO_SIDED|95.0|0.81|1.01||||||Serotype 5||1.01|0.81|
92363941|NCT04016714|184630507|OTHER||GMC ratio|0.44|||||TWO_SIDED|95.0|0.38|0.5||||||Serotype 6A||0.50|0.38|
92363942|NCT04016714|184630507|OTHER||GMC ratio|1.73|||||TWO_SIDED|95.0|1.46|2.05||||||Serotype 6B||2.05|1.46|
92363943|NCT04016714|184630507|OTHER||GMC ratio|0.78|||||TWO_SIDED|95.0|0.71|0.84||||||Serotype 7F||0.84|0.71|
92363944|NCT04016714|184630507|OTHER||GMC ratio|1.0|||||TWO_SIDED|95.0|0.9|1.12||||||Serotype 9V||1.12|0.90|
92363945|NCT04016714|184630507|OTHER||GMC ratio|1.02|||||TWO_SIDED|95.0|0.89|1.18||||||Serotype 14||1.18|0.89|
92363946|NCT04016714|184630507|OTHER||GMC ratio|0.75|||||TWO_SIDED|95.0|0.68|0.82||||||Serotype 18C||0.82|0.68|
92403692|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.74||||0.2173|TWO_SIDED|95.0|0.45|1.2|||Cochran-Mantel-Haenszel|||Role functioning, Completion of Treatment/ Early Termination Visit||1.20|0.45|0.2173
92403693|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.64||||0.1316|TWO_SIDED|95.0|0.35|1.15|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 3 Months||1.15|0.35|0.1316
92403694|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.9||||0.7678|TWO_SIDED|95.0|0.46|1.76|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 6 Months||1.76|0.46|0.7678
92403695|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.85||||0.7331|TWO_SIDED|95.0|0.34|2.14|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 9 Months||2.14|0.34|0.7331
92403696|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.83||||0.1235|TWO_SIDED|95.0|0.73|10.92|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 12 Months||10.92|0.73|0.1235
92403697|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|0.0|||||TWO_SIDED|95.0|-84.09|84.09||||||Role functioning, Post-Treatment Follow Up 18 Months||84.09|-84.09|
92403698|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Role functioning, Post-Treatment Follow Up 24 Months||100.00|-94.30|
92403699|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.07||||0.7869|TWO_SIDED|95.0|0.65|1.78|||Cochran-Mantel-Haenszel|||Social functioning, Presurgical/Surgery||1.78|0.65|0.7869
92403700|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.73||||0.2502|TWO_SIDED|95.0|0.43|1.25|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 4 Day 1||1.25|0.43|0.2502
92403701|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.84||||0.5066|TWO_SIDED|95.0|0.5|1.41|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 6 Day 1||1.41|0.50|0.5066
92403702|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.8124|TWO_SIDED|95.0|0.56|1.59|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 8 Day 1||1.59|0.56|0.8124
92363947|NCT04016714|184630507|OTHER||GMC ratio|0.72|||||TWO_SIDED|95.0|0.64|0.81||||||Serotype 19A||0.81|0.64|
92363948|NCT04016714|184630507|OTHER||GMC ratio|0.69|||||TWO_SIDED|95.0|0.62|0.77||||||Serotype 19F||0.77|0.62|
92363949|NCT04016714|184630507|OTHER||GMC ratio|1.32|||||TWO_SIDED|95.0|1.16|1.51||||||Serotype 23F||1.51|1.16|
92166087|NCT03691428|184220943|SUPERIORITY|A multivariate dyadic linear growth curve model was used to predict the trajectories of psychological well-being (Raudenbush, Brennan, \& Barnett, 1995).|||||<|0.05|||||||Mixed Models Analysis|||||||<.05
92363950|NCT04016714|184630507|SUPERIORITY||GMC ratio|81.01|||||TWO_SIDED|95.0|73.12|89.75||||||Serotype 22F||89.75|73.12|
92363951|NCT04016714|184630507|OTHER||GMC ratio|7.81|||||TWO_SIDED|95.0|6.82|8.94||||||Serotype 33F||8.94|6.82|
92363952|NCT01822665|184630510|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.11|||<|0.0001|TWO_SIDED|95.0|-1.63|-0.59||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||-0.59|-1.63|<0.0001
92363953|NCT01822665|184630511|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.0095|TWO_SIDED|95.0|-1.23|-0.18|||t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||-0.18|-1.23|0.0095
92363954|NCT01822665|184630511|SUPERIORITY_OR_OTHER||LS mean difference|0.19||||0.4794|TWO_SIDED|95.0|-0.34|0.72||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||0.72|-0.34|0.4794
92363955|NCT01822665|184630511|SUPERIORITY_OR_OTHER||LS mean difference|0.4||||0.1429|TWO_SIDED|95.0|-0.14|0.95||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||0.95|-0.14|0.1429
92403703|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.23||||0.4656|TWO_SIDED|95.0|0.7|2.17|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 12 Day 1||2.17|0.70|0.4656
92403704|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.14||||0.6725|TWO_SIDED|95.0|0.62|2.12|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 16 Day 1||2.12|0.62|0.6725
92363956|NCT01822665|184630511|SUPERIORITY_OR_OTHER||LS mean difference|1.3|||<|0.0001|TWO_SIDED|95.0|0.75|1.84||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||1.84|0.75|<0.0001
92363957|NCT01822665|184630511|SUPERIORITY_OR_OTHER||LS mean difference|0.89||||0.002|TWO_SIDED|95.0|0.34|1.45||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||1.45|0.34|0.0020
92363958|NCT01822665|184630512|SUPERIORITY_OR_OTHER||LS mean difference|-0.09||||0.6497|TWO_SIDED|95.0|-0.49|0.31||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments.||0.31|-0.49|0.6497
92363959|NCT01822665|184630512|SUPERIORITY_OR_OTHER||LS mean difference|-0.06||||0.7591|TWO_SIDED|95.0|-0.46|0.34||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments||0.34|-0.46|0.7591
92403705|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.82||||0.578|TWO_SIDED|95.0|0.41|1.64|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 20 Day 1||1.64|0.41|0.5780
92403706|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.08||||0.7611|TWO_SIDED|95.0|0.66|1.76|||Cochran-Mantel-Haenszel|||Social functioning, Completion of Treatment/Early Termination Visit||1.76|0.66|0.7611
92403707|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.09||||0.7588|TWO_SIDED|95.0|0.62|1.94|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 3 Months||1.94|0.62|0.7588
92403708|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.6||||0.1428|TWO_SIDED|95.0|0.3|1.19|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 6 Months||1.19|0.30|0.1428
92403709|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.99||||0.9802|TWO_SIDED|95.0|0.41|2.39|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 9 Months||2.39|0.41|0.9802
92403710|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.34||||0.1967|TWO_SIDED|95.0|0.63|8.7|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 12 Months||8.70|0.63|0.1967
92403711|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Difference in Proportion of Respnders|8.33||||0.4795|TWO_SIDED|95.0|-69.28|85.94|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 18 Months||85.94|-69.28|0.4795
92403712|NCT03038100|184699202|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Social functioning, Post-Treatment Follow Up 24 Months||100.00|-94.30|
92166088|NCT03691428|184220944|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
92403713|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.6651|TWO_SIDED|95.0|0.7|1.25|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 3 Day 1||1.25|0.70|0.6651
92403714|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9927|TWO_SIDED|95.0|0.75|1.34|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 5 Day 1||1.34|0.75|0.9927
92403715|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.03||||0.8209|TWO_SIDED|95.0|0.77|1.39|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 8 Day 1||1.39|0.77|0.8209
92403716|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.07||||0.6507|TWO_SIDED|95.0|0.79|1.45|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 12 Day 1||1.45|0.79|0.6507
92403717|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.21||||0.2596|TWO_SIDED|95.0|0.87|1.67|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 16 Day 1||1.67|0.87|0.2596
92403718|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.09||||0.6532|TWO_SIDED|95.0|0.75|1.58|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 20 Day 1||1.58|0.75|0.6532
92403719|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.05||||0.7592|TWO_SIDED|95.0|0.76|1.45|||Cochran-Mantel-Haenszel|||Emotional functioning, Completion Of Treatment/ Early Termination Visit||1.45|0.76|0.7592
92403720|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.93||||0.7424|TWO_SIDED|95.0|0.62|1.4|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 3 Months||1.40|0.62|0.7424
92403721|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.37||||0.1912|TWO_SIDED|95.0|0.85|2.19|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 6 Months||2.19|0.85|0.1912
92403722|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.83||||0.5526|TWO_SIDED|95.0|0.45|1.53|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 9 Months||1.53|0.45|0.5526
92403723|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.69||||0.3609|TWO_SIDED|95.0|0.32|1.52|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 12 Months||1.52|0.32|0.3609
92403724|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.8||||0.7527|TWO_SIDED|95.0|0.2|3.23|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 18 Months||3.23|0.20|0.7527
92403725|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|-33.33|||||TWO_SIDED|95.0|-100.0|75.44||||||Emotional functioning, Post-Treatment Follow Up 24 Months||75.44|-100.00|
92403726|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.85||||0.3177|TWO_SIDED|95.0|0.62|1.17|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 3 Day 1||1.17|0.62|0.3177
92403727|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.4184|TWO_SIDED|95.0|0.63|1.21|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 5 Day 1||1.21|0.63|0.4184
92403728|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.91||||0.571|TWO_SIDED|95.0|0.67|1.24|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 8 Day 1||1.24|0.67|0.5710
92403729|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.3973|TWO_SIDED|95.0|0.65|1.19|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 12 Day 1||1.19|0.65|0.3973
92403730|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.12||||0.5163|TWO_SIDED|95.0|0.8|1.55|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 16 Day 1||1.55|0.80|0.5163
92403731|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.93||||0.6897|TWO_SIDED|95.0|0.64|1.35|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 20 Day 1||1.35|0.64|0.6897
92403732|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.91||||0.5735|TWO_SIDED|95.0|0.67|1.25|||Cochran-Mantel-Haenszel|||Physical functioning, Completion Of Treatment/ Early Termination Visit||1.25|0.67|0.5735
92403733|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.75||||0.1414|TWO_SIDED|95.0|0.5|1.1|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 3 Months||1.10|0.50|0.1414
92403734|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.8655|TWO_SIDED|95.0|0.59|1.55|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 6 Months||1.55|0.59|0.8655
92166089|NCT03691428|184220945|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
92166090|NCT03691428|184220946|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
92166091|NCT04589689|184220999|OTHER|||||||0.777||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3 months.||||0.777
92166092|NCT04589689|184220999|OTHER|||||||0.247||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month.||||0.247
92403735|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.72||||0.3017|TWO_SIDED|95.0|0.38|1.35|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 9 Months||1.35|0.38|0.3017
92403736|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.6||||0.2325|TWO_SIDED|95.0|0.26|1.39|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 12 Months||1.39|0.26|0.2325
92403737|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.33||||0.1717|TWO_SIDED|95.0|0.06|1.69|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 18 Months||1.69|0.06|0.1717
92403738|NCT03038100|184699203|SUPERIORITY|Stratified Analsyis|Difference in Proportion of Responders|16.67|||||TWO_SIDED|95.0|-46.49|79.82||||||Physical functioning, Post-Treatment Follow Up 24 Months||79.82|-46.49|
92403739|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.11||||0.4745|TWO_SIDED|95.0|0.84|1.46|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 3 Day 1||1.46|0.84|0.4745
92403740|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.92||||0.5499|TWO_SIDED|95.0|0.69|1.22|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 5 Day 1||1.22|0.69|0.5499
92403741|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.97||||0.8436|TWO_SIDED|95.0|0.73|1.29|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 8 Day 1||1.29|0.73|0.8436
92403742|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.09||||0.5798|TWO_SIDED|95.0|0.81|1.46|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 12 Day 1||1.46|0.81|0.5798
92403743|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.02||||0.9094|TWO_SIDED|95.0|0.74|1.39|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 16 Day 1||1.39|0.74|0.9094
92403744|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.17||||0.4006|TWO_SIDED|95.0|0.81|1.67|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 20 Day 1||1.67|0.81|0.4006
92224375|NCT05568888|184350242|SUPERIORITY|A Bayesian logistic regression model was used to compare difference in proportion of subjects between the BE1116 and placebo arms. The null hypothesis is rejected if the posterior probability of subjects who undergo surgical or interventional radiological procedures to stop bleeding related to the primary injury up to 24 hours difference (BE1116-placebo) being negative is greater than predefined threshold at interim and final analyses (mITT population).|Estimated difference Placebo - BE1116|-2.5||||18.9|TWO_SIDED|95.0|-7.98|3.05||Reported value reflect a posterior probability difference rather than p-value.|Regression, Logistic|||Null hypotheses: The proportion of subjects who undergo surgical or interventional radiological procedures to stop bleeding related to the primary injury up to 24 hours in BE1116 is no better than the control.|Reported values reflect a 95% Credible Interval rather than a 95% Confidence Interval.|3.05|-7.98|18.9
92224376|NCT01564862|184350248|SUPERIORITY_OR_OTHER||LS mean difference|1.75|STANDARD_ERROR_OF_MEAN|0.744||0.019|TWO_SIDED|95.0|0.28|3.21||P-value was from an ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.|ANCOVA|||||3.21|0.28|0.019
92403745|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.4024|TWO_SIDED|95.0|0.65|1.19|||Cochran-Mantel-Haenszel|||Global health status/QoL, Completion of Treatment/ Early Termination Visit||1.19|0.65|0.4024
92403746|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.97||||0.8796|TWO_SIDED|95.0|0.67|1.41|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 3 Months||1.41|0.67|0.8796
92403747|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.83||||0.435|TWO_SIDED|95.0|0.53|1.32|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 6 Months||1.32|0.53|0.4350
92403748|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.86||||0.6225|TWO_SIDED|95.0|0.47|1.56|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 9 Months||1.56|0.47|0.6225
92403749|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.8||||0.5775|TWO_SIDED|95.0|0.36|1.77|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 12 Months||1.77|0.36|0.5775
92403750|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.37||||0.2343|TWO_SIDED|95.0|0.07|1.94|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 18 Months||1.94|0.07|0.2343
92403751|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|-66.67||||0.0833|TWO_SIDED|95.0|-100.0|4.39|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 24 Months||4.39|-100.00|0.0833
92403752|NCT03038100|184699203|SUPERIORITY|Superiority|Odds Ratio (OR)|0.93||||0.6012|TWO_SIDED|95.0|0.71|1.21|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 3 Day 1||1.21|0.71|0.6012
92403753|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.85||||0.2291|TWO_SIDED|95.0|0.65|1.11|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 5 Day 1||1.11|0.65|0.2291
92403754|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.6574|TWO_SIDED|95.0|0.71|1.24|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 8 Day 1||1.24|0.71|0.6574
92403755|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.01||||0.9217|TWO_SIDED|95.0|0.76|1.35|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 12 Day 1||1.35|0.76|0.9217
92403756|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.95||||0.7693|TWO_SIDED|95.0|0.7|1.3|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 16 Day 1||1.30|0.70|0.7693
92403757|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.92||||0.647|TWO_SIDED|95.0|0.64|1.31|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 20 Day 1||1.31|0.64|0.6470
92403758|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.93||||0.6391|TWO_SIDED|95.0|0.7|1.25|||Cochran-Mantel-Haenszel|||Role functioning, Completion Of Treatment/ Early Termination Visit||1.25|0.70|0.6391
92403759|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.73||||0.0892|TWO_SIDED|95.0|0.51|1.05|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 3 Months||1.05|0.51|0.0892
92403760|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.65||||0.055|TWO_SIDED|95.0|0.41|1.01|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 6 Months||1.01|0.41|0.0550
92403761|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.49||||0.0168|TWO_SIDED|95.0|0.27|0.88|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 9 Months||0.88|0.27|0.0168
92403762|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.29||||0.0021|TWO_SIDED|95.0|0.13|0.65|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 12 Months||0.65|0.13|0.0021
92403763|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.8||||0.7817|TWO_SIDED|95.0|0.17|3.8|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 18 Months||3.80|0.17|0.7817
92403764|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|-33.33|||||TWO_SIDED|95.0|-100.0|75.44||||||Role functioning, Post-Treatment Follow Up 24 Months||75.44|-100.00|
92363960|NCT01822665|184630512|SUPERIORITY_OR_OTHER||LS mean difference|0.17||||0.4126|TWO_SIDED|95.0|-0.24|0.57||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments.||0.57|-0.24|0.4126
92363961|NCT01822665|184630512|SUPERIORITY_OR_OTHER||LS mean difference|0.03||||0.8903|TWO_SIDED|95.0|-0.39|0.45||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments||0.45|-0.39|0.8903
92403765|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.06||||0.6646|TWO_SIDED|95.0|0.8|1.41|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 3 Day 1||1.41|0.80|0.6646
92403766|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.98||||0.8677|TWO_SIDED|95.0|0.73|1.3|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 5 Day 1||1.30|0.73|0.8677
92403767|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.04||||0.767|TWO_SIDED|95.0|0.79|1.38|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 8 Day 1||1.38|0.79|0.7670
92403768|NCT03038100|184699203|SUPERIORITY||Odds Ratio (OR)|0.95||||0.7487|TWO_SIDED|95.0|0.71|1.28|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 12 Day 1||1.28|0.71|0.7487
92403769|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.23||||0.1882|TWO_SIDED|95.0|0.9|1.68|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 16 Day 1||1.68|0.90|0.1882
92403770|NCT03038100|184699203|SUPERIORITY||Odds Ratio (OR)|1.21||||0.3015|TWO_SIDED|95.0|0.84|1.72|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 20 Day 1||1.72|0.84|0.3015
92403771|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.98||||0.9059|TWO_SIDED|95.0|0.73|1.32|||Cochran-Mantel-Haenszel|||Social functioning, Completion of Treatment/ Early Termination Visit||1.32|0.73|0.9059
92363962|NCT01822665|184630512|SUPERIORITY_OR_OTHER||LS mean difference|0.26||||0.2227|TWO_SIDED|95.0|-0.16|0.67||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments||0.67|-0.16|0.2227
92403772|NCT03038100|184699203|SUPERIORITY||Odds Ratio (OR)|0.93||||0.7125|TWO_SIDED|95.0|0.65|1.35|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 3 Months||1.35|0.65|0.7125
92403773|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.68||||0.0947|TWO_SIDED|95.0|0.43|1.07|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 6 Months||1.07|0.43|0.0947
92403774|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.58||||0.0686|TWO_SIDED|95.0|0.32|1.05|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 9 Months||1.05|0.32|0.0686
92403775|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.39||||0.0175|TWO_SIDED|95.0|0.17|0.86|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 12 Months||0.86|0.17|0.0175
92403776|NCT03038100|184699203|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.46||||0.3376|TWO_SIDED|95.0|0.09|2.3|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 18 Months||2.30|0.09|0.3376
92403777|NCT03038100|184699203|SUPERIORITY||Difference in Proportion of Responders|-50.0||||0.5637|TWO_SIDED|95.0|-100.0|23.34|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 24 Months||23.34|-100.00|0.5637
92403778|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.977|TWO_SIDED|95.0|0.76|1.3|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 3 Day 1||1.30|0.76|0.9770
92403779|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.05||||0.7317|TWO_SIDED|95.0|0.8|1.37|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 5 Day 1||1.37|0.80|0.7317
92403780|NCT03038100|184699204|SUPERIORITY||Odds Ratio (OR)|1.06||||0.6937|TWO_SIDED|95.0|0.8|1.39|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 8 Day 1||1.39|0.80|0.6937
92403781|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.3916|TWO_SIDED|95.0|0.66|1.18|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 12 Day 1||1.18|0.66|0.3916
92166093|NCT04589689|184221000|OTHER|||||||0.16||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.160
92403782|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.86||||0.3363|TWO_SIDED|95.0|0.63|1.17|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 16 Day 1||1.17|0.63|0.3363
92403783|NCT03038100|184699204|SUPERIORITY||Odds Ratio (OR)|1.08||||0.6761|TWO_SIDED|95.0|0.75|1.55|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 20 Day 1||1.55|0.75|0.6761
92403784|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.6997|TWO_SIDED|95.0|0.71|1.26|||Cochran-Mantel-Haenszel|||Emotional Functioning, Completion of Treatment/ Early Termination Visit||1.26|0.71|0.6997
92403785|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.19||||0.3592|TWO_SIDED|95.0|0.82|1.72|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 3 Months||1.72|0.82|0.3592
92403786|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.97||||0.8798|TWO_SIDED|95.0|0.62|1.51|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 6 Months||1.51|0.62|0.8798
92224377|NCT01564862|184350248|SUPERIORITY_OR_OTHER||LS mean difference|1.21|STANDARD_ERROR_OF_MEAN|0.733||0.099|TWO_SIDED|95.0|-0.23|2.65||P-value was from an ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.|ANCOVA|||||2.65|-0.23|0.099
92224378|NCT01564862|184350248|SUPERIORITY_OR_OTHER||LS mean difference|0.54|STANDARD_ERROR_OF_MEAN|0.725||0.46|TWO_SIDED|95.0|-0.89|1.96||P-value was from an ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.|ANCOVA|||||1.96|-0.89|0.460
92363963|NCT01822665|184630512|SUPERIORITY_OR_OTHER||LS mean difference|0.23||||0.2855|TWO_SIDED|95.0|-0.2|0.65||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments.||0.65|-0.20|0.2855
92363964|NCT01822665|184630513|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.19||||0.0084|TWO_SIDED|95.0|1.6|23.97||P-value associated with chi-square testing odds ratio.|Chi-squared||Odds Ratio from logistic regression model with treatment as factor and period as covariate.|||23.97|1.60|0.0084
92363965|NCT01822665|184630513|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.19||||0.0999|TWO_SIDED|95.0|0.8|12.74||P-value associated with chi-square testing odds ratio.|Chi-squared||Odds Ratio from logistic regression model with treatment as factor and period as covariate.|||12.74|0.80|0.0999
92363966|NCT01822665|184630513|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.94||||0.2845|TWO_SIDED|95.0|0.58|6.5|||Chi-squared||Odds Ratio from logistic regression model with treatment as factor and period as covariate.|||6.50|0.58|0.2845
92363967|NCT00867035|184630515|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||Rosenberg scores compared baseline to 1 hour by Mann-Whitney U test.||||<0.001
92363968|NCT00867035|184630515|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||mann whitney u to compare rosenberg score baseline to 1 hour||||<.001
92363969|NCT00867035|184630515|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 2 hours||||<0.001
92363970|NCT00867035|184630515|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 4 hours||||<0.001
92363971|NCT00867035|184630515|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 1 week||||<0.001
92363972|NCT00867035|184630515|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 2 hours||||<0.01
92363973|NCT00867035|184630515|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 4 hours||||<0.01
92363974|NCT00867035|184630515|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 1 week||||<0.05
92363975|NCT00867035|184630516|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of H2S in mouth air at 1 hour analyzed between groups.||||>0.05
92363976|NCT00867035|184630517|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of H2S in mouth air at 2 hours analyzed between groups. Each time point was compared between groups by Students t test.||||>0.05
92224379|NCT01564862|184350249|SUPERIORITY_OR_OTHER||LS Mean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.78||0.001|TWO_SIDED|95.0|-4.1|-1.0||P-value was from a MMRM model with baseline\*week, center, week, treatment and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||-1.0|-4.1|0.001
92363977|NCT00867035|184630518|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of H2S in mouth air at 4 hours analyzed between groups||||>0.05
92363978|NCT00867035|184630519|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of H2S in mouth air at 1 week analyzed between groups. Each time point was compared between groups by Students t test.||||>0.05
92363979|NCT00867035|184630520|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of MM in mouth air at 1 hour analyzed between groups||||>0.05
92363980|NCT00867035|184630521|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of MM in mouth air at 2 hours analyzed between groups. Each time point was compared between groups by Students t test||||>0.05
92363981|NCT00867035|184630522|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of MM in mouth air at 4 hours analyzed between groups. Each time point was compared between groups by Students t test.||||>0.05
92363982|NCT00867035|184630523|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrtations of MM in mouth air at 1 week analyzed between groups. Each time point was compared between groups by Students t test||||>0.05
92363983|NCT00867035|184630524|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Counts of colony forming units from swab of 1square centimeter area on tongue at 1 week cultured on anaerobe plates for 1 week analyzed between groups||||>0.05
92363984|NCT00867035|184630525|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Percentage of black colonies out of Total Viable Count cultured on anaerobe agar with lead acetate. Black colonies are those producing sulfides (H2S, MM)and creating black lead sulfide. Analyzed between groups. Groups compared at baseline and 1 week.||||>0.05
92363985|NCT00542178|184630530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.003|TWO_SIDED|95.0|0.51|0.87|||Regression, Logistic|Comparisons made using likelihood-ratio tests from logistic-regression models with adjustment for same study-design factors used in ACCORD analysis||Our recruitment goal for the ACCORD Eye study was set in order to achieve a statistical power of 88% to detect a 15% relative reduction with intensive glycemic control as compared with standard glycemic control||0.87|0.51|0.003
92363986|NCT00542178|184630530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.29|TWO_SIDED|95.0|0.84|1.79|||Regression, Logistic|Comparisons made using likelihood-ratio tests from logistic-regression models with adjustment for same study-design factors used in ACCORD analysis||Our recruitment goal for the ACCORD Eye study was set in order to achieve a statistical power of 80% to detect a 20% relative reduction with intensive blood pressure control as compared with standard blood pressure control||1.79|0.84|0.29
92403787|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.77||||0.3857|TWO_SIDED|95.0|0.43|1.39|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 9 Months||1.39|0.43|0.3857
92403788|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.85||||0.6854|TWO_SIDED|95.0|0.39|1.85|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 12 Months||1.85|0.39|0.6854
92403789|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.54||||0.4533|TWO_SIDED|95.0|0.11|2.7|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 18 Months||2.70|0.11|0.4533
92224380|NCT01564862|184350249|SUPERIORITY_OR_OTHER||LS mean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.77|<|0.001|TWO_SIDED|95.0|-4.5|-1.5||P-value was from a MMRM model with baseline\*week, center, week, treatment and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||-1.5|-4.5|<0.001
92363987|NCT00542178|184630530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.006|TWO_SIDED|95.0|0.42|0.87|||Regression, Logistic|Comparisons made using likelihood-ratio tests from logistic-regression models with adjustment for same study-design factors used in ACCORD analysis||Our recruitment goal for the ACCORD Eye study was set in order to achieve a statistical power of 91% to detect a 20% relative reduction with lipid control with a statin and fenofibrate as compared with lipid control with a statin alone||0.87|0.42|0.006
92224381|NCT01564862|184350250|SUPERIORITY_OR_OTHER||LS Mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.1211||0.017|TWO_SIDED|95.0|-0.528|-0.052||P-value was from a MMRM model with baseline\*week, center, week, treatment and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||-0.052|-0.528|0.017
92224382|NCT01564862|184350250|SUPERIORITY_OR_OTHER||LS mean difference|-0.404|STANDARD_ERROR_OF_MEAN|0.1194|<|0.001|TWO_SIDED|95.0|-0.638|-0.169||P-value was from a MMRM model with baseline\*week, center, week, treatment and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||-0.169|-0.638|<0.001
92224383|NCT00313209|184350263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.0|STANDARD_ERROR_OF_MEAN|11.0|<|0.0001|TWO_SIDED|95.0|27.0|71.0||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||71|27|<0.0001
92224384|NCT00313209|184350264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|60.0|STANDARD_ERROR_OF_MEAN|11.0|<|0.0001|TWO_SIDED|95.0|38.0|82.0||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||82|38|<0.0001
92224385|NCT00313209|184350265|SUPERIORITY_OR_OTHER||Rate ratio|0.79|STANDARD_ERROR_OF_MEAN|0.12||0.1408|TWO_SIDED|95.0|0.58|1.08||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|Poisson regression|||||1.08|0.58|0.1408
92224386|NCT00313209|184350266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.4654|TWO_SIDED|95.0|-0.2|0.4||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||0.4|-0.2|0.4654
92403790|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|-33.33||||0.3173|TWO_SIDED|95.0|-100.0|75.44|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 24 Months||75.44|-100.00|0.3173
92224387|NCT00313209|184350267|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|0.9||0.5457|TWO_SIDED|95.0|-1.2|2.2||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||2.2|-1.2|0.5457
92224388|NCT02193074|184350268|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentages|50.68|||<|0.0001|TWO_SIDED|95.0|31.81|66.48|||Fisher Exact||exact unconditional confidence interval|||66.48|31.81|< 0.0001
92224389|NCT02193074|184350269|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0046|||||||Log Rank|Based on log-rank test stratified by disease duration.||||||0.0046
92224390|NCT02193074|184350269|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.53||||0.0164|TWO_SIDED|95.0|0.3156|0.8902|||Cox proportional hazards model|Based on Cox proportional hazards model adjusted for each subject's disease duration at screening.||||0.8902|0.3156|0.0164
92224391|NCT02193074|184350270|SUPERIORITY_OR_OTHER_LEGACY||DIfference in percentages|68.53|||<|0.0001|TWO_SIDED|95.0|51.27|81.99|||Fisher Exact|||||81.99|51.27|< 0.0001
92224392|NCT02193074|184350271|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0041|||||||Log Rank|Based on log-rank test stratified by disease duration (primary analysis).||||||0.0041
92224393|NCT02193074|184350271|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.372||||0.0082|TWO_SIDED|95.0|0.1787|0.7745|||Cox proportional hazards|Based on Cox proportional hazards model adjusted for each subject's disease duration at screening (sensitivity analysis).||||0.7745|0.1787|0.0082
92224394|NCT02193074|184350273|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentages|30.21||||0.0004|TWO_SIDED|95.0|10.35|48.09|||Fisher Exact|||||48.09|10.35|0.0004
92224395|NCT02193074|184350274|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||Log Rank|||||||0.0003
92363988|NCT00542178|184630531|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.997||||0.96|TWO_SIDED|95.0|0.901|1.104|||Regression, Cox|||||1.104|0.901|0.96
92403791|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.13||||0.3658|TWO_SIDED|95.0|0.87|1.47|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 3 Day 1||1.47|0.87|0.3658
92403792|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.04||||0.7619|TWO_SIDED|95.0|0.8|1.36|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 5 Day 1||1.36|0.80|0.7619
92403793|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.06||||0.658|TWO_SIDED|95.0|0.81|1.4|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 8 Day 1||1.40|0.81|0.6580
92224396|NCT02193074|184350274|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.24||||0.0014|TWO_SIDED|95.0|0.1002|0.5753|||Cox proportional hazards|Based on Cox proportional hazards model adjusted for each subject's disease duration at screening.||||0.5753|0.1002|0.0014
92224397|NCT02193074|184350275|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3953|||||||Log Rank|||||||0.3953
92224398|NCT02193074|184350275|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.844||||0.6268|TWO_SIDED|95.0|0.427|1.6698|||Cox proportional hazards|Based on Cox proportional hazards model adjusted for each subject's disease duration at screening.||||1.6698|0.4270|0.6268
92224399|NCT01844986|184350282|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.23|0.41||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.41|0.23|<0.0001
92363989|NCT00542178|184630531|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.952||||0.5|TWO_SIDED|95.0|0.825|1.099|||Regression, Cox|||||1.099|0.825|0.50
92363990|NCT00542178|184630531|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.08|TWO_SIDED|95.0|0.762|1.016|||Regression, Cox|||||1.016|0.762|0.08
92363991|NCT00542178|184630532|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.884||||0.0355|TWO_SIDED|95.0|0.788|0.992|||Regression, Cox|||||0.992|0.788|0.0355
92363992|NCT00542178|184630532|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.891||||0.17|TWO_SIDED|95.0|0.755|1.051|||Regression, Cox|||||1.051|0.755|0.17
92363993|NCT00542178|184630532|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.015||||0.86|TWO_SIDED|95.0|0.865|1.19|||Regression, Cox|||||1.190|0.865|0.86
92363994|NCT00542178|184630533|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.069|TWO_SIDED|95.0|0.71|1.69|||Regression, Logistic|||||1.69|0.71|0.069
92363995|NCT00542178|184630533|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.63|TWO_SIDED|95.0|0.44|1.63|||Regression, Logistic|||||1.63|0.44|0.63
92363996|NCT00542178|184630533|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.78|TWO_SIDED|95.0|0.6|1.96|||Regression, Logistic|||||1.96|0.60|0.78
92363997|NCT00829998|184630534|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|97.4||||||90.0|89.4|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106|89.4|
92363998|NCT00829998|184630535|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|102.0||||||90.0|97.1|107.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107|97.1|
92363999|NCT00829998|184630536|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|102.0||||||90.0|97.1|107.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107|97.1|
92364000|NCT02163577|184630618|SUPERIORITY||||||<|0.0001||||||Per generalized estimating equations (GEE) model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
92364001|NCT02163577|184630618|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
92364002|NCT02163577|184630618|SUPERIORITY||Difference in LS Means|-0.33|||||TWO_SIDED|95.0|-0.63|-0.04||||||Difference in change to Week 40||-0.04|-0.63|
92364003|NCT02163577|184630618|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92364004|NCT02163577|184630618|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92364005|NCT02163577|184630618|SUPERIORITY||Difference in LS Means|-0.16|||||TWO_SIDED|95.0|-0.45|0.13||||||Difference in change to Week 64||0.13|-0.45|
92364006|NCT02163577|184630618|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364007|NCT02163577|184630618|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92403794|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.18||||0.2726|TWO_SIDED|95.0|0.88|1.57|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 12 Day 1||1.57|0.88|0.2726
92403795|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.6973|TWO_SIDED|95.0|0.69|1.29|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 16 Day 1||1.29|0.69|0.6973
92403796|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.15||||0.447|TWO_SIDED|95.0|0.8|1.64|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 20 Day 1||1.64|0.80|0.4470
92403797|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.91||||0.515|TWO_SIDED|95.0|0.68|1.21|||Cochran-Mantel-Haenszel|||Physical functioning, Completion of Treatment/ Early Termination Visit||1.21|0.68|0.5150
92403798|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.26||||0.2103|TWO_SIDED|95.0|0.88|1.82|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 3 Months||1.82|0.88|0.2103
92364008|NCT02163577|184630619|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
92364009|NCT02163577|184630619|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
92364010|NCT02163577|184630619|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
92364011|NCT02163577|184630619|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
92364012|NCT02163577|184630619|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
92364013|NCT02163577|184630619|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
92364014|NCT02163577|184630620|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
92364015|NCT02163577|184630620|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
92364016|NCT02163577|184630620|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
92364017|NCT02163577|184630620|SUPERIORITY|||||||0.0024|||||||one sample t test|||Week 64||||0.0024
92364018|NCT02163577|184630620|SUPERIORITY|||||||0.0018|||||||one sample t test|||Week 160||||0.0018
92364019|NCT02163577|184630620|SUPERIORITY|||||||0.0002|||||||one sample t test|||Week 160||||0.0002
92364020|NCT02163577|184630621|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
92364021|NCT02163577|184630621|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
92364022|NCT02163577|184630621|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
92364023|NCT02163577|184630621|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
92364024|NCT02163577|184630621|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
92364025|NCT02163577|184630621|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
92364026|NCT02163577|184630622|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes the change from baseline in RSS as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
92166094|NCT04589689|184221000|OTHER|||||||0.275||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.275
92166095|NCT04589689|184221001|OTHER|||||||0.509||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.509
92224400|NCT01844986|184350282|SUPERIORITY||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.23|0.97||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \< 1 favours olaparib|||0.97|0.23|
92364027|NCT02163577|184630622|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes the change from baseline in RSS as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
92364028|NCT02163577|184630622|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92364029|NCT02163577|184630622|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92364030|NCT02163577|184630622|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364031|NCT02163577|184630622|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364032|NCT02163577|184630623|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes the change from baseline in RSS as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
92364033|NCT02163577|184630623|SUPERIORITY|||||||0.0015||||||ANCOVA model includes the change from baseline in RSS as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||0.0015
92364034|NCT02163577|184630623|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92364035|NCT02163577|184630623|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92364036|NCT02163577|184630623|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364037|NCT02163577|184630623|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364038|NCT02163577|184630624|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
92364039|NCT02163577|184630624|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
92364040|NCT02163577|184630624|SUPERIORITY||Difference in LS Means|0.21|||||TWO_SIDED|95.0|-0.12|0.54||||||Difference in change to Week 40||0.54|-0.12|
92403799|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.06||||0.7969|TWO_SIDED|95.0|0.68|1.66|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 6 Months||1.66|0.68|0.7969
92403800|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.07||||0.83|TWO_SIDED|95.0|0.6|1.91|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 9 Months||1.91|0.60|0.8300
92403801|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.17||||0.6987|TWO_SIDED|95.0|0.53|2.55|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 12 Months||2.55|0.53|0.6987
92364041|NCT02163577|184630624|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92403802|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|3.32||||0.1441|TWO_SIDED|95.0|0.62|17.77|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 18 Months||17.77|0.62|0.1441
92364042|NCT02163577|184630624|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92364043|NCT02163577|184630624|SUPERIORITY||Difference in LS Means|-0.02|||||TWO_SIDED|95.0|-0.34|0.29||||||Difference in change to Week 64||0.29|-0.34|
92364044|NCT02163577|184630624|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92403803|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Difference in proportion of Responders|-66.67||||0.3173|TWO_SIDED|95.0|-100.0|4.39|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 24 Months||4.39|-100.00|0.3173
92166096|NCT04589689|184221001|OTHER|||||||0.61||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.610
92166097|NCT04589689|184221002|OTHER|||||||0.807||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.807
92166098|NCT04589689|184221002|OTHER|||||||0.826||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.826
92364045|NCT02163577|184630624|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364046|NCT02163577|184630625|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
92166099|NCT04589689|184221003|OTHER|||||||0.076||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.076
92166100|NCT04589689|184221003|OTHER|||||||0.747||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.747
92166101|NCT04589689|184221004|OTHER|||||||0.154||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.154
92166102|NCT04589689|184221004|OTHER|||||||0.107||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.107
92166103|NCT04589689|184221005|OTHER|||||||0.445||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.445
92166104|NCT04589689|184221005|OTHER|||||||0.543||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.543
92166105|NCT04589689|184221006|OTHER|||||||0.157||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.157
92166106|NCT03520413|184221043|EQUIVALENCE|Difference between groups at 12months|Mean Difference (Final Values)|-0.61||||0.02|TWO_SIDED|95.0|-1.12|-0.11|||Mixed Models Analysis|||||-0.11|-1.12|0.02
92166107|NCT03520413|184221044|EQUIVALENCE|Difference between groups at 12months|Mean Difference (Final Values)|-0.25||||0.007|TWO_SIDED|95.0|-0.42|-0.07|||Mixed Models Analysis|||||-0.07|-0.42|0.007
92224401|NCT01844986|184350283|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.8903|TWO_SIDED|95.0|0.6|1.53||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||1.53|0.60|0.8903
92364047|NCT02163577|184630625|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
92364048|NCT02163577|184630625|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92166108|NCT03520413|184221045|EQUIVALENCE|Difference between groups at 12months|Mean Difference (Final Values)|0.51||||0.0002|TWO_SIDED|95.0|0.25|0.78|||Mixed Models Analysis|||||0.78|0.25|0.0002
92166109|NCT03520413|184221046|EQUIVALENCE|Difference between groups at 12months|Mean Difference (Final Values)|0.39||||0.02|TWO_SIDED|95.0|0.07|0.71|||Mixed Models Analysis|||||0.71|0.07|0.02
92166110|NCT03520413|184221047|EQUIVALENCE|Difference between groups at 6months|Mean Difference (Final Values)|0.19||||0.39|TWO_SIDED|95.0|-0.24|0.62|||Mixed Models Analysis|||||0.62|-0.24|0.39
92166111|NCT03520413|184221048|EQUIVALENCE|Difference between groups at 12months|Mean Difference (Final Values)|-1.16||||0.1|TWO_SIDED|95.0|-2.53|0.21|||Mixed Models Analysis|||||0.21|-2.53|0.10
92166112|NCT03401112|184221085|SUPERIORITY|||||||0.0686|||||||Log Rank|||||||0.0686
92166113|NCT03401112|184221085|SUPERIORITY|||||||0.0294|||||||Log Rank|||||||0.0294
92166114|NCT03475316|184221089|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|-1.14|1.49|||||The estimate parameter is the difference in change at post intervention from pre between dance and treadmill group.|Linear mixed effects model were used to compare changes in the composite score pre and post intervention.||1.49|-1.14|
92166115|NCT03475316|184221090|SUPERIORITY||Mean Difference (Net)|166.16|STANDARD_ERROR_OF_MEAN|-202.7|||TWO_SIDED|95.0|-231.12|563.44|||||The estimate parameter reflects change in functional activation/deactivation pattern from pre to post intervention as a function intervention (social dancing vs. treadmill walking).|Estimates with standard errors (SE) are from linear mixed effect models used to examine the difference in change in functional activation/deactivation covariance patterns during the Digit Symbol Substitution test at post intervention from pre intervention between the social dancing and treadmill walking group.||563.44|-231.12|
92224402|NCT01844986|184350283|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.29|2.28||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \< 1 favours olaparib|||2.28|0.29|
92364049|NCT02163577|184630625|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92364050|NCT02163577|184630625|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92166116|NCT03475316|184221090|SUPERIORITY||Mean Difference (Net)|24.6|STANDARD_ERROR_OF_MEAN|28.47|||TWO_SIDED|95.0|-31.2|80.4|||||The estimate parameter reflects change in functional activation/deactivation pattern from pre to post intervention as a function intervention (social dancing vs. treadmill walking).|Estimates with standard errors (SE) and p-values are from linear mixed effect models used to examine the difference in change in functional activation/deactivation covariance patterns during the Flanker interference test at post intervention from pre intervention between the social dancing and treadmill walking group.||80.40|-31.20|
92166117|NCT03475316|184221090|SUPERIORITY||Mean Difference (Net)|58.22|STANDARD_ERROR_OF_MEAN|51.2|||TWO_SIDED|95.0|-42.14|158.58|||||The estimate parameter reflects change in functional activation/deactivation pattern from pre to post intervention as a function intervention (social dancing vs. treadmill walking).|Estimates with standard errors (SE) are from linear mixed effect models used to examine the difference in functional activation/deactivation covariance patterns during the Imagery of Walking-While Talking task at post intervention from pre intervention between the social dancing and treadmill walking group.||158.58|-42.14|
92166118|NCT03475316|184221091|SUPERIORITY||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-5.1|6.64|||||The Estimation Parameter is the difference in change at post from pre between dance and treadmill group.|Linear mixed effects model were used to compare changes in the CHAMPS scores pre and post intervention.||6.64|-5.10|
92166119|NCT03475316|184221092|SUPERIORITY||Mean Difference (Final Values)|7.27|STANDARD_ERROR_OF_MEAN|8.57|||TWO_SIDED|95.0|-11.6|26.14|||||The estimate parameter is the difference in change at post intervention from pre between dance and treadmill group.|Linear mixed effects model were used to compare changes in gait speed pre and post intervention.||26.14|-11.60|
92224403|NCT01844986|184350284|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.23|0.4||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.40|0.23|<0.0001
92364051|NCT02163577|184630625|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364052|NCT02163577|184630626|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
92364053|NCT02163577|184630626|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
92364054|NCT02163577|184630626|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92364055|NCT02163577|184630626|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92364056|NCT02163577|184630626|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364057|NCT02163577|184630626|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92403804|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.7591|TWO_SIDED|95.0|0.74|1.25|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 3 Day 1||1.25|0.74|0.7591
92403805|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.09||||0.5403|TWO_SIDED|95.0|0.83|1.42|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 5 Day 1||1.42|0.83|0.5403
92403806|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.17||||0.2654|TWO_SIDED|95.0|0.89|1.55|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 8 Day 1||1.55|0.89|0.2654
92403807|NCT03038100|184699204|SUPERIORITY||Odds Ratio (OR)|1.1||||0.5138|TWO_SIDED|95.0|0.82|1.48|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 12 Day 1||1.48|0.82|0.5138
92224404|NCT01844986|184350284|SUPERIORITY||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.23|0.99||Not applicable due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \<1 favours Olaparib.|||0.99|0.23|
92224405|NCT01844986|184350285|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.0002|TWO_SIDED|95.0|0.35|0.72||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.72|0.35|0.0002
92224406|NCT01844986|184350285|SUPERIORITY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.23|1.35||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \<1 favours Olaparib.|||1.35|0.23|
92224407|NCT01844986|184350286|SUPERIORITY||Mean Difference (Final Values)|-3.0||||0.001|TWO_SIDED|95.0|-4.779|-1.216|||Mixed Models Analysis|Fixed effects for treatment, visit and baseline TOI with the treatment by visit and baseline TOI by visit interaction. Random patient effect.||||-1.216|-4.779|0.0010
92364058|NCT02163577|184630627|SUPERIORITY|||||||0.0088|||||||one sample t-test|||Week 0 to Week 40||||0.0088
92364059|NCT02163577|184630627|SUPERIORITY|||||||0.465|||||||one sample t-test|||Week 0 to Week 40||||0.4650
92364060|NCT02163577|184630627|SUPERIORITY|||||||0.016|||||||one sample t test|||Week 0 to Week 64||||0.0160
92364061|NCT02163577|184630627|SUPERIORITY|||||||0.4114|||||||one sample t test|||Week 0 to Week 64||||0.4114
92364062|NCT02163577|184630627|SUPERIORITY|||||||0.5335|||||||one sample t test|||Week 64 to Week 112||||0.5335
92364063|NCT02163577|184630627|SUPERIORITY|||||||0.8606|||||||one sample t test|||Week 64 to Week 112||||0.8606
92224408|NCT01844986|184350287|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.4||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.40|0.22|<0.0001
92364064|NCT02163577|184630627|SUPERIORITY|||||||0.1627|||||||one sample t test|||Week 112 to Week 160||||0.1627
92364065|NCT02163577|184630627|SUPERIORITY|||||||0.4096|||||||one sample t test|||Week 112 to Week 160||||0.4096
92364066|NCT02163577|184630628|SUPERIORITY||||||<|0.0001||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
92364067|NCT02163577|184630628|SUPERIORITY|||||||0.0569||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 40||||0.0569
92364068|NCT02163577|184630628|SUPERIORITY|||||||0.0002||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 64||||0.0002
92364069|NCT02163577|184630628|SUPERIORITY|||||||0.0456||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 64||||0.0456
92364070|NCT02163577|184630628|SUPERIORITY||||||<|0.0001||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364071|NCT02163577|184630628|SUPERIORITY|||||||0.0343||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 160||||0.0343
92403808|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.22||||0.2138|TWO_SIDED|95.0|0.89|1.67|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 16 Day 1||1.67|0.89|0.2138
92403809|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.26||||0.2114|TWO_SIDED|95.0|0.88|1.82|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 20 Day 1||1.82|0.88|0.2114
92403810|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.14||||0.3938|TWO_SIDED|95.0|0.85|1.53|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Completion of Treatment/ Early Termination Visit||1.53|0.85|0.3938
92403811|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.95||||0.7793|TWO_SIDED|95.0|0.65|1.38|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 3 Months||1.38|0.65|0.7793
92403812|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.08||||0.737|TWO_SIDED|95.0|0.69|1.39|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 6 Months||1.39|0.69|0.7370
92403813|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.99||||0.9658|TWO_SIDED|95.0|0.55|1.79|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 9 Months||1.79|0.55|0.9658
92166120|NCT03475316|184221093|SUPERIORITY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|5.91|||TWO_SIDED|95.0|-13.4|14.55|||||The estimate parameter is the difference in change at post intervention from pre between dance and treadmill group.|Linear mixed effects model were used to compare changes in unipedal stance time pre and post intervention.||14.55|-13.40|
92166121|NCT03475316|184221095|SUPERIORITY||Mean Difference (Final Values)|1.08|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|95.0|-1.3|3.46|||||The estimate parameter is the difference in change at post intervention from pre between dance and treadmill group.|Linear mixed effects model were used to compare changes in the geriatric depression scale pre and post intervention.||3.46|-1.30|
92364072|NCT02163577|184630633|SUPERIORITY|||||||0.0771||||||GEE model included change in 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0771
92403814|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.66||||0.3015|TWO_SIDED|95.0|0.29|1.46|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 12 Months||1.46|0.29|0.3015
92403815|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.77||||0.7534|TWO_SIDED|95.0|0.15|3.94|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 18 Months||3.94|0.15|0.7534
92403816|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|16.67||||0.5637|TWO_SIDED|95.0|-46.49|79.82|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 24 Months||79.82|-46.49|0.5637
92403817|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.8||||0.1177|TWO_SIDED|95.0|0.61|1.06|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 3 Day 1||1.06|0.61|0.1177
92403818|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.17||||0.273|TWO_SIDED|95.0|0.88|1.56|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 5 Day 1||1.56|0.88|0.2730
92403819|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.99||||0.9306|TWO_SIDED|95.0|0.73|1.33|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 8 Day 1||1.33|0.73|0.9306
92403820|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.97||||0.8631|TWO_SIDED|95.0|0.72|1.32|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 12 Day 1||1.32|0.72|0.8631
92403821|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.33||||0.0977|TWO_SIDED|95.0|0.95|1.86|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 16 Day 1||1.86|0.95|0.0977
92403822|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.43||||0.0726|TWO_SIDED|95.0|0.97|2.1|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 20 Day 1||2.10|0.97|0.0726
92403823|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9974|TWO_SIDED|95.0|0.73|1.38|||Cochran-Mantel-Haenszel|||Role functioning, Completion of Treatment/ Early Termination Visit||1.38|0.73|0.9974
92403824|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.08||||0.7069|TWO_SIDED|95.0|0.72|1.63|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 3 Months||1.63|0.72|0.7069
92403825|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.3||||0.3068|TWO_SIDED|95.0|0.78|2.16|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 6 Months||2.16|0.78|0.3068
92403826|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.64||||0.1375|TWO_SIDED|95.0|0.85|3.16|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 9 Months||3.16|0.85|0.1375
92166122|NCT02476409|184221096|SUPERIORITY|||||||0.094|||||||Kruskal-Wallis|||||||0.094
92166123|NCT02476409|184221097|SUPERIORITY|||||||0.166|||||||Kruskal-Wallis|||||||0.166
92166124|NCT02476409|184221097|SUPERIORITY|||||||0.491|||||||Kruskal-Wallis|||||||0.491
92166125|NCT02476409|184221098|SUPERIORITY|||||||0.543|||||||Kruskal-Wallis|||P-value for Change in Dyspnea VAS - Baseline to Day 3 Tolvaptan versus placebo.||||0.543
92166126|NCT02476409|184221099|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|||||||0.050
92364073|NCT02163577|184630633|SUPERIORITY|||||||0.9098||||||GEE model included change in 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.9098
92364074|NCT02163577|184630633|SUPERIORITY|||||||0.0007||||||GEE model included change in percent of predicted 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0007
92364075|NCT02163577|184630633|SUPERIORITY|||||||0.0327||||||GEE model included change in percent of predicted 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0327
92224409|NCT01844986|184350287|SUPERIORITY||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.29|1.23||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \<1 favours Olaparib.|||1.23|0.29|
92224410|NCT01844986|184350288|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.32|0.63||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.63|0.32|<0.0001
92224411|NCT01844986|184350288|SUPERIORITY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.25|1.26||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \<1 favours Olaparib.|||1.26|0.25|
92364076|NCT02163577|184630633|SUPERIORITY|||||||0.1865||||||GEE model included change in percent of predicted 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.1865
92166127|NCT02476409|184221100|SUPERIORITY|||||||0.092|||||||Fisher Exact|||||||0.092
92166128|NCT02476409|184221101|SUPERIORITY|||||||0.034|||||||Kruskal-Wallis|||||||0.034
92364077|NCT02163577|184630633|SUPERIORITY|||||||0.2654||||||GEE model included change in percent of predicted 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.2654
92364078|NCT02163577|184630634|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
92364079|NCT02163577|184630634|SUPERIORITY|||||||0.0144||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0144
92364080|NCT02163577|184630634|SUPERIORITY|||||||0.0384||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0384
92364081|NCT02163577|184630634|SUPERIORITY|||||||0.0004||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0004
92364082|NCT02163577|184630634|SUPERIORITY|||||||0.9795||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.9795
92364083|NCT02163577|184630634|SUPERIORITY|||||||0.2082||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.2082
92166129|NCT02476409|184221102|SUPERIORITY|||||||0.643|||||||Kruskal-Wallis|||||||0.643
92364084|NCT02163577|184630635|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
92364085|NCT02163577|184630635|SUPERIORITY|||||||0.0251||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0251
92364086|NCT02163577|184630635|SUPERIORITY|||||||0.9124||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.9124
92364087|NCT02163577|184630635|SUPERIORITY|||||||0.0016||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0016
92364088|NCT02163577|184630635|SUPERIORITY|||||||0.5677||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.5677
92364089|NCT02163577|184630635|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92224412|NCT01844986|184350289|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.51|0.79||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.79|0.51|<0.0001
92224413|NCT01844986|184350289|SUPERIORITY||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.47|1.42||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \<1 favours Olaparib.|||1.42|0.47|
92166130|NCT00275392|184221103|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||Interaction effect|RM ANOVA|||||||0.026
92166131|NCT00275392|184221103|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||main effect of time|RM ANOVA|||||||<.001
92166132|NCT00275392|184221103|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||main effect of group|RM ANOVA|||||||>.05
92166133|NCT00275392|184221104|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Interaction effect|RM ANOVA|||||||> 0.05
92166134|NCT00275392|184221104|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|||||main effect of time|RM ANOVA|||||||.016
92166135|NCT00275392|184221104|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Main effect of Group|RM ANOVA|||||||>.05
92224414|NCT01844986|184350290|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.4||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.40|0.22|<0.0001
92224415|NCT03160560|184350357|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Baseline, Week 1, Week 2, Week 3||||<0.010
92364090|NCT02163577|184630636|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
92364091|NCT02163577|184630636|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
92364092|NCT02163577|184630636|SUPERIORITY|||||||0.0033||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0033
92364093|NCT02163577|184630636|SUPERIORITY|||||||0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0001
92364094|NCT02163577|184630636|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364095|NCT02163577|184630636|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364096|NCT02163577|184630637|SUPERIORITY|||||||0.0014||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0014
92403827|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.02||||0.954|TWO_SIDED|95.0|0.46|2.29|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 12 Months||2.29|0.46|0.9540
92403828|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.53||||0.4283|TWO_SIDED|95.0|0.1|2.64|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 18 Months||2.64|0.10|0.4283
92403829|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|16.67|||||TWO_SIDED|95.0|-95.56|100.0||||||Role functioning, Post-Treatment Follow Up 24 Months||100.00|-95.56|
92166136|NCT04975308|184221126|SUPERIORITY||Hazard Ratio (HR)|0.867||||0.1158|TWO_SIDED|95.0|0.724|1.039|||Log Rank|||||1.039|0.724|0.1158
92166137|NCT04975308|184221127|SUPERIORITY||Hazard Ratio (HR)|0.569|||<|0.0001|TWO_SIDED|95.0|0.441|0.733|||Log Rank|||||0.733|0.441|<0.0001
92166138|NCT04975308|184221128|SUPERIORITY||Hazard Ratio (HR)|0.617||||0.0008|TWO_SIDED|95.0|0.464|0.821|||Log Rank|||||0.821|0.464|0.0008
92166139|NCT00468910|184221147|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The study was powered to detect an attributable change in the aspirin group of 50% relative to baseline values - an approximate 50% increase in spectral slope.||||0.11
92166140|NCT00468910|184221148|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.17
92166141|NCT03654768|184221173|SUPERIORITY|||||||0.09|||||||Fisher Exact|||||||0.09
92166142|NCT03654768|184221174|SUPERIORITY|||||||0.3|||||||Log Rank|||||||0.30
92166143|NCT03654768|184221175|SUPERIORITY|||||||0.9|||||||Log Rank|||||||0.90
92166144|NCT05323734|184221181|OTHER||Median Difference (Final Values)|-14.53||||0.0904|TWO_SIDED|95.0|-32.04|2.48|||Wilcoxon Rank-Sum|Wilcoxon Rank-Sum statistic is applied using a 2-sided significance level of 0.05.|The Hodges-Lehmann approach is applied for estimating 95% confidence interval.|||2.48|-32.04|0.0904
92166145|NCT05323734|184221182|OTHER||Difference in percentage|6.4||||0.3407|TWO_SIDED|95.0|-6.4|20.1|||Fisher Exact|||||20.1|-6.4|0.3407
92166146|NCT05323734|184221183|OTHER||Odds Ratio (OR)|0.88||||0.7069|TWO_SIDED|95.0|0.46|1.7|||Regression, Logistic||The estimated odds ratio of the ganaxolone group compared to the placebo group based on proportional odds logistic regression with treatment as a factor.|||1.70|0.46|0.7069
92166147|NCT05323734|184221184|OTHER||Odds Ratio (OR)|0.85||||0.6434|TWO_SIDED|95.0|0.42|1.72|||Regression, Logistic||The estimated odds ratio of the ganaxolone group compared to the placebo group based on proportional odds logistic regression with treatment as a factor.|||1.72|0.42|0.6434
92166148|NCT04345913|184221248|OTHER|This test is used to compare the survival distributions of different groups in a survival analysis. It's a nonparametric test.||||||0.5259|||||||Log Rank|||||||0.5259
92166149|NCT04345913|184221253|OTHER|This test is used to compare the survival distributions of different groups in a survival analysis. It's a nonparametric test.||||||0.706|||||||Log Rank|||||||0.7060
92166150|NCT02601170|184221320|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92166151|NCT02527148|184221394|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement from preoperative to 6 weeks for the control cases||||<0.0001
92166152|NCT02527148|184221394|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement from preoperative to 6 weeks for the Shapematch cases||||<0.0001
92166153|NCT02527148|184221394|SUPERIORITY|||||||0.0004|||||||t-test, 2 sided|||To compare improvement of OKS from preoperative to 6 weeks between both groups.||||0.0004
92166154|NCT02527148|184221394|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement from preoperative to 6 months for Control cases.||||<0.0001
92166155|NCT02527148|184221394|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement form preoperative to 6 months for Shapematch cases.||||<0.0001
92166156|NCT02527148|184221394|SUPERIORITY|||||||0.3894|||||||t-test, 2 sided|||To compare improvement of OKS from preoperative to 6 months between both groups.||||0.3894
92166157|NCT02527148|184221394|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement from preoperative to 12 months for the Control cases||||<0.0001
92166158|NCT02527148|184221394|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement from preoperative to 12 months for the Shapematch cases||||<0.0001
92166159|NCT02527148|184221394|SUPERIORITY|||||||0.4387|||||||t-test, 2 sided|p-values from repeated ANOVA with change from preoperative variable/scores as dependent variable.||To compare improvement of OKS from preoperative to 12 months between both groups.||||0.4387
92166160|NCT02527148|184221394|SUPERIORITY|||||||0.261|||||||t-test, 2 sided|||To compare improvement of OKS from preoperative to 2 years between both groups.||||0.2610
92166161|NCT02527148|184221394|SUPERIORITY|||||||0.8458|||||||t-test, 2 sided|||To compare improvement of OKS from preoperative to 5 years between both groups.||||0.8458
92364097|NCT02163577|184630637|SUPERIORITY|||||||0.0028||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0028
92364098|NCT02163577|184630637|SUPERIORITY|||||||0.0536||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0536
92364099|NCT02163577|184630637|SUPERIORITY|||||||0.0002||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0002
92364100|NCT02163577|184630637|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364101|NCT02163577|184630637|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364102|NCT02163577|184630638|SUPERIORITY|||||||0.223||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.2230
92364103|NCT02163577|184630638|SUPERIORITY|||||||0.1132||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.1132
92364104|NCT02163577|184630638|SUPERIORITY|||||||0.2558||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.2558
92364105|NCT02163577|184630638|SUPERIORITY|||||||0.0814||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0814
92364106|NCT02163577|184630638|SUPERIORITY|||||||0.0093||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.0093
92364107|NCT02163577|184630638|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364108|NCT02163577|184630639|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
92364109|NCT02163577|184630639|SUPERIORITY|||||||0.0006||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0006
92364110|NCT02163577|184630639|SUPERIORITY|||||||0.026||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0260
92364111|NCT02163577|184630639|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
92403830|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.84||||0.2153|TWO_SIDED|95.0|0.64|1.1|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 3 Day 1||1.10|0.64|0.2153
92166162|NCT02527148|184221395|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||To compare mean duration of surgery between both groups.||||0.10
92166163|NCT02527148|184221396|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||To compare wound length between both groups.||||0.05
92166164|NCT02527148|184221398|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||To compare average length of hospital stay between both groups.||||0.07
92166165|NCT02527148|184221399|SUPERIORITY||Mean Difference (Final Values)|-0.023||||0.55|TWO_SIDED||||||t-test, 2 sided|||Comparison of baseline differences||||0.55
92166166|NCT02527148|184221399|SUPERIORITY||Mean Difference (Final Values)|-0.043||||0.23|TWO_SIDED||||||t-test, 2 sided|||Analysis of QALY between each instrument platform at 12-months||||0.23
92166167|NCT02527148|184221400|EQUIVALENCE|To determine equivalence in baseline characteristics between the control and intervention group.||||||0.724|||||||t-test, 2 sided|||To compare VAS rest preoperatively between both groups.||||0.7240
92166168|NCT02527148|184221400|EQUIVALENCE|To determine equivalence in baseline characteristics between the control and intervention group.||||||0.7545|||||||t-test, 2 sided|||To compare VAS mobilisation preoperatively between both groups.||||0.7545
92166169|NCT02527148|184221400|NON_INFERIORITY|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.6921|||||||t-test, 2 sided|||To compare VAS rest at 6 weeks between both groups.||||0.6921
92166170|NCT02527148|184221400|NON_INFERIORITY|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.9601|||||||t-test, 2 sided|||To compare VAS mobilisation at 6 weeks between both groups.||||0.9601
92166171|NCT02527148|184221400|NON_INFERIORITY|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.0697|||||||t-test, 2 sided|||To compare VAS rest at 6 months between both groups.||||0.0697
92166172|NCT02527148|184221400|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.0342|||||||t-test, 2 sided|||To compare VAS mobilisation at 6 months between both groups.||||0.0342
92166173|NCT02527148|184221400|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.3487|||||||t-test, 2 sided|||To compare VAS rest at 12 months between both groups.||||0.3487
92224416|NCT03160560|184350357|SUPERIORITY|||||||0.932|||||||Wilcoxon (Mann-Whitney)|||Baseline, Week 1, Week 2, Week 3||||.932
92364112|NCT02163577|184630639|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364113|NCT02163577|184630639|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
92364114|NCT02163577|184630643|SUPERIORITY|||||||0.0003|||||||one sample t test|||Week 40||||0.0003
92364115|NCT02163577|184630643|SUPERIORITY|||||||0.0021|||||||one sample t test|||Week 40||||0.0021
92364116|NCT02163577|184630643|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
92364117|NCT02163577|184630643|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
92364118|NCT02163577|184630643|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
92364119|NCT02163577|184630643|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
92403831|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.7878|TWO_SIDED|95.0|0.73|1.27|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 5 Day 1||1.27|0.73|0.7878
92403832|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.81||||0.1544|TWO_SIDED|95.0|0.61|1.08|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 8 Day 1||1.08|0.61|0.1544
92403833|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.04||||0.8017|TWO_SIDED|95.0|0.77|1.4|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 12 Day 1||1.40|0.77|0.8017
92403834|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.4295|TWO_SIDED|95.0|0.63|1.21|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 16 Day 1||1.21|0.63|0.4295
92403835|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio, log|0.99||||0.954|TWO_SIDED|95.0|0.68|1.44|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 20 Day 1||1.44|0.68|0.9540
92403836|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.95||||0.7494|TWO_SIDED|95.0|0.69|1.3|||Cochran-Mantel-Haenszel|||Social Functioning, Completion of Treatment/ Early Termination Visit||1.30|0.69|0.7494
92224417|NCT03160560|184350357|SUPERIORITY|||||||0.853|||||||Wilcoxon (Mann-Whitney)|||Baseline 2, Week 6, Week 7, Week 8||||.853
92224418|NCT03160560|184350357|SUPERIORITY|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||Baseline-2, Week 6, Week 7, Week 8||||.032
92364120|NCT01343888|184630647|SUPERIORITY_OR_OTHER||Koch's method|27.5|||<|0.0001|TWO_SIDED|95.0|17.9|37.0||adjusted for genotype and race|Cochran-Mantel-Haenszel||adjusted for genotype and race using Koch's method, with continuity correction|||37.0|17.9|<0.0001
92364121|NCT01343888|184630647|SUPERIORITY_OR_OTHER||Koch's methond|28.6|||<|0.0001|TWO_SIDED|95.0|19.0|38.2||adjusted for genotype and race|Cochran-Mantel-Haenszel||adjusted for genotype and race using Koch's method, with continuity correction|||38.2|19.0|<0.0001
92364122|NCT01343888|184630647|SUPERIORITY_OR_OTHER||Koch's method|-1.0|||||TWO_SIDED|95.0|-7.9|5.8|||||adjusted for genotype and race using Koch's method, with continuity correction|||5.8|-7.9|
92224419|NCT03160560|184350357|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Baseline, Week 1, Week 2, Week 3||||<0.001
92224420|NCT03160560|184350357|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Baseline, Week 1, Week 2, Week 3||||.750
92364123|NCT01343888|184630648|SUPERIORITY_OR_OTHER||Koch's method|27.1|||<|0.0001|TWO_SIDED|95.0|17.5|36.7||adjusted for genotype and race|Cochran-Mantel-Haenszel||adjusted for genotype and race using Koch's method, with continuity correction|||36.7|17.5|<0.0001
92364124|NCT01343888|184630648|SUPERIORITY_OR_OTHER||Koch's method|27.8|||<|0.0001|TWO_SIDED|95.0|18.2|37.4||adjusted for genotype and race|Cochran-Mantel-Haenszel||adjusted for genotype and race using Koch's method, with continuity correction|||37.4|18.2|<0.0001
92364125|NCT01343888|184630648|SUPERIORITY_OR_OTHER||Koch's method|-0.6|||||TWO_SIDED|95.0|-7.6|6.3|||||adjusted for genotype and race using Koch's method, with continuity correction|||6.3|-7.6|
92364126|NCT01990742|184630665|OTHER||||||>|0.05|||||||MOnte carlo simulation|||||||>0.05
92364127|NCT01990742|184630666|OTHER||||||>|0.05|||||||Monte carlo simulation|||||||>0.05
92364128|NCT01990742|184630667|OTHER||||||>|0.05|||||||Monte carlo simulation|||||||>0.05
92364129|NCT01103414|184630670|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.1|STANDARD_ERROR_OF_MEAN|6.77||0.1819|TWO_SIDED|95.0|-22.4|4.3|||ANCOVA|||||4.3|-22.4|0.1819
92364130|NCT01103414|184630670|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-18.4|STANDARD_ERROR_OF_MEAN|6.59||0.0057|TWO_SIDED|95.0|-31.4|-5.4|||ANCOVA|||||-5.4|-31.4|0.0057
92364131|NCT01103414|184630670|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.9|STANDARD_ERROR_OF_MEAN|6.8|<|0.0001|TWO_SIDED|95.0|-42.3|-15.6|||ANCOVA|||||-15.6|-42.3|<0.0001
92364132|NCT01103414|184630670|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.0|STANDARD_ERROR_OF_MEAN|6.5|<|0.0001|TWO_SIDED|95.0|-43.8|-18.2|||ANCOVA|||||-18.2|-43.8|<0.0001
92364133|NCT01103414|184630671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|0.175||0.0273|TWO_SIDED|95.0|-0.73|-0.04|||ANCOVA|||||-0.04|-0.73|0.0273
92364134|NCT01103414|184630671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.171|<|0.0001|TWO_SIDED|95.0|-1.13|-0.45|||ANCOVA|||||-0.45|-1.13|<0.0001
92364135|NCT01103414|184630671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.86|STANDARD_ERROR_OF_MEAN|0.176|<|0.0001|TWO_SIDED|95.0|-1.21|-0.52|||ANCOVA|||||-0.52|-1.21|<0.0001
92364136|NCT01103414|184630671|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.98|STANDARD_ERROR_OF_MEAN|0.169|<|0.0001|TWO_SIDED|95.0|-1.32|-0.65|||ANCOVA|||||-0.65|-1.32|<0.0001
92364137|NCT01436110|184630735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037||||0.43|TWO_SIDED|95.0|-0.055|0.128|||ANCOVA|||||0.128|-0.055|0.430
92364138|NCT01436110|184630735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102||||0.03|TWO_SIDED|95.0|0.01|0.194|||ANCOVA|||||0.194|0.010|0.030
92403837|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.1||||0.6412|TWO_SIDED|95.0|0.74|1.62|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 3 Months||1.62|0.74|0.6412
92403838|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.04||||0.8652|TWO_SIDED|95.0|0.65|1.67|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 6 Months||1.67|0.65|0.8652
92364139|NCT03273907|184630748|SUPERIORITY|The primary null hypothesis tested was that the observed rate of clinically relevant complications associated with CyPass Micro-Stent placement and stability is greater than or equal to the performance target rate of 7.00 percent.||||||0.187|||||||Exact one-sided binomial test|P-value is provided from exact one-sided binomial test with type I error 0.05 comparing CyPass System with performance criterion of 7.00 percent.||||||0.1870
92364140|NCT00110214|184630755|NON_INFERIORITY_OR_EQUIVALENCE|Superiority and futility analyses were conducted for the OS end point. The Lan-Demets analog of the Emerson-Fleming sequential boundary was used to maintain the overall significance level of alpha=0.05 while conducting interim analyses on OS. The final analysis was performed when 748 deaths had been observed. An intention-to-treat approach was used in the analysis for all the clinical end points with the exception of toxicity.|Hazard Ratio (HR)|0.91||||0.181|TWO_SIDED|95.0|0.7|1.05||The primary analysis was adjusted for the stratification factors (24-mo survival probability as predicted by a validated nomogram (\<10%,10%-29.9%,\>=30%), age (\<65, \>=65 years) and prior history of arterial events (yes, no)).|Log Rank|||||1.05|0.7|0.181
92364141|NCT00110214|184630756|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92364142|NCT00110214|184630757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||<|0.001|TWO_SIDED|95.0|0.71|0.91||The primary analysis was adjusted for the stratification factors (24-mo survival probability as predicted by a validated nomogram (\<10%,10%-29.9%,\>=30%), age (\<65, \>=65 years) and prior history of arterial events (yes, no)).|Log Rank|||||0.91|0.71|<0.001
92364143|NCT01088503|184630759|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.7108|TWO_SIDED|95.0|0.88|1.22||Statistical analysis adjusted for the differences in baseline characteristics between participants treated with prasugrel vs. clopidogrel using propensity scoring.|Log Rank|||||1.22|0.88|0.7108
92364144|NCT01088503|184630760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.464|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants with DES vs BMS.|||||
92364145|NCT01088503|184630760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants with STEMI vs not STEMI|||||
92403839|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.14||||0.6912|TWO_SIDED|95.0|0.6|2.18|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 9 Months||2.18|0.60|0.6912
92403840|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.79||||0.5834|TWO_SIDED|95.0|0.33|1.86|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 12 Months||1.86|0.33|0.5834
92403841|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.93||||0.9578|TWO_SIDED|95.0|0.05|16.05|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 18 Months||16.05|0.05|0.9578
92166174|NCT02527148|184221400|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.2201|||||||t-test, 2 sided|||To compare VAS mobilisation at 1 year between both groups.||||0.2201
92166175|NCT02527148|184221400|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.2291|||||||t-test, 2 sided|||To compare VAS rest at 2 years between both groups.||||0.2291
92166176|NCT02527148|184221400|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.6436|||||||t-test, 2 sided|||To compare VAS mobilisation at 2 years between both groups.||||0.6436
92166177|NCT02527148|184221400|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.4344|||||||t-test, 2 sided|||To compare VAS rest at 5 years between both groups.||||0.4344
92166178|NCT02527148|184221400|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.8732|||||||t-test, 2 sided|||To compare VAS mobilisation at 5 years between both groups.||||0.8732
92166179|NCT02527148|184221401|SUPERIORITY|||||||0.911|||||||t-test, 2 sided|||To compare WOMAC preoperatively between both groups.||||0.911
92166180|NCT02527148|184221401|SUPERIORITY|||||||0.588|||||||t-test, 2 sided|||To compare WOMAC at 6-weeks between both groups.||||0.588
92166181|NCT02527148|184221401|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||To compare WOMAC at 6-months between both groups.||||0.030
92166182|NCT02527148|184221401|SUPERIORITY|||||||0.131|||||||t-test, 2 sided|||To compare WOMAC at 1-year between both groups.||||0.131
92166183|NCT02527148|184221401|SUPERIORITY|||||||0.347|||||||t-test, 2 sided|||To compare WOMAC at 2-years between both groups.||||0.347
92166184|NCT02527148|184221401|SUPERIORITY|||||||0.341|||||||t-test, 2 sided|||To compare WOMAC at 5-years between both groups.||||0.341
92166185|NCT02527148|184221402|SUPERIORITY|||||||0.452|||||||t-test, 2 sided|||To compare EQ-5D index preoperatively between both groups.||||0.452
92166186|NCT02527148|184221402|SUPERIORITY|||||||0.201|||||||t-test, 2 sided|||To compare EQ-5D VAS preoperatively between both groups.||||0.201
92166187|NCT02527148|184221402|SUPERIORITY|||||||0.741|||||||t-test, 2 sided|||To compare EQ-5D index at 6-weeks between both groups.||||0.741
92166188|NCT02527148|184221402|SUPERIORITY|||||||0.794|||||||t-test, 2 sided|||To compare EQ-5D VAS at 6-weeks between both groups.||||0.794
92166189|NCT02527148|184221402|SUPERIORITY|||||||0.232|||||||t-test, 2 sided|||To compare EQ-5D index at 6-months between both groups.||||0.232
92166190|NCT02527148|184221402|SUPERIORITY|||||||0.513|||||||t-test, 2 sided|||To compare EQ-5D VAS at 6-months between both groups.||||0.513
92166191|NCT02527148|184221402|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||To compare EQ-5D index at 1-year between both groups.||||0.180
92364146|NCT01088503|184630760|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.657|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who were Other Race vs Caucasian.|||||
92364147|NCT01088503|184630760|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.684|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who had cardiogenic shock within 24 hours vs no cardiogenic shock within 24 hours.|||||
92364148|NCT01088503|184630760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.195|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who were male vs not male.|||||
92364149|NCT01088503|184630760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants with EQ-5D US index = 1 vs. \<1.|||||
92166192|NCT02527148|184221402|SUPERIORITY|||||||0.864|||||||t-test, 2 sided|||To compare EQ-5D VAS at 1-year between both groups.||||0.864
92166193|NCT02527148|184221402|SUPERIORITY|||||||0.223|||||||t-test, 2 sided|||To compare EQ-5D index at 2-year between both groups.||||0.223
92166194|NCT02527148|184221402|SUPERIORITY|||||||0.355|||||||t-test, 2 sided|||To compare EQ-5D VAS at 2-year between both groups.||||0.355
92224421|NCT03160560|184350357|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Baseline 2, Week 6, Week 7, Week 8||||.810
92224422|NCT03160560|184350357|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Baseline 2, Week 6, Week 7, Week 8||||.006
92224423|NCT00403260|184350358|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The primary efficacy analysis tested the non-inferiority of the PA group compared to the comparator group with regard to the PCR-corrected ACPR response rate at Day 28 using the 2-sided 95% confidence interval (CI) (Newcombe-Wilson score method without continuity correction). Non-inferiority of PA to MQ + AS was concluded if the lower limit of the CI for the difference was \>-5%.|ACPR percent difference|1.1||||0.106|TWO_SIDED|95.0|-0.2|3.1||If non-inferiority of PA was demonstrated, the p-value associated with a superiority test is calculated based on a 2-sided Chi-square test. If the calculated p-value is \<5%, then the superiority of PA compared to MQ+AS was statistically demonstrated.|Chi-squared|||"Null hypothesis: The PCR-corrected ACPR response rate at Day 28 for the PA group is inferior to the PCR-corrected ACPR response rate at Day 28 for the comparator group (MQ + AS) by more than 5%.~Was tested versus the alternative:~Alternative hypothesis: the PCR-corrected ACPR response rate at Day 28 for the PA group is not inferior to the PCR-corrected ACPR response rate at Day 28 for the comparator group (MQ + AS) by more than -5%."||3.1|-0.2|0.106
92364150|NCT01088503|184630760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.116|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who were married vs not married.|||||
92364151|NCT01088503|184630760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.125|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who had diabetes vs no diabetes.|||||
92364152|NCT01088503|184630760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.172|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants with no BMS or DES placement vs BMS.|||||
92364153|NCT01088503|184630761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.1882|TWO_SIDED|95.0|0.88|1.93||Statistical analysis adjusted for the differences in baseline characteristics between participants treated with prasugrel vs. clopidogrel using propensity scoring.|Log Rank||Hazard ratio (HR) is for the analysis at 12 months.|||1.93|0.88|0.1882
92364154|NCT01088503|184630762|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.967|||||TWO_SIDED|95.0|0.849|1.103|||||Statistical analysis adjusted for the differences in baseline characteristics between participants treated with prasugrel vs. clopidogrel using propensity scoring.|||1.103|0.849|
92364155|NCT01088503|184630766|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who had pre-procedure hemoglobin evaluation vs no hemoglobin evaluation.|||||
92364156|NCT01088503|184630767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.005|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants with Duke CAD Index vs no Duke CAD Index.|||||
92403842|NCT03038100|184699204|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|16.67||||0.5637|TWO_SIDED|95.0|-46.49|79.82|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 24 Months||79.82|-46.49|0.5637
92403843|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.11||||0.6063|TWO_SIDED|95.0|0.75|1.63|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 3 Day 1||1.63|0.75|0.6063
92166195|NCT02527148|184221402|SUPERIORITY|||||||0.314|||||||t-test, 2 sided|||To compare EQ-5D index at 5-year between both groups.||||0.314
92364157|NCT01847092|184630768|SUPERIORITY|||||||0.279|||||||Mixed Models Analysis|||||||0.279
92166196|NCT02527148|184221402|SUPERIORITY|||||||0.914|||||||t-test, 2 sided|||To compare EQ-5D VAS at 5-year between both groups.||||0.914
92166197|NCT02527148|184221403|SUPERIORITY|||||||0.523|||||||t-test, 2 sided|||To compare FJS at 6-weeks between both groups.||||0.523
92166198|NCT02527148|184221403|SUPERIORITY|||||||0.932|||||||t-test, 2 sided|||To compare FJS at 6-months between both groups.||||0.932
92166199|NCT02527148|184221403|SUPERIORITY|||||||0.934|||||||t-test, 2 sided|||To compare FJS at 1-year between both groups.||||0.934
92166200|NCT02527148|184221403|SUPERIORITY|||||||0.566|||||||t-test, 2 sided|||To compare FJS at 2-year between both groups.||||0.566
92276820|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.55||0.6601|TWO_SIDED|95.0|-1.3|0.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 8: Stiffness||0.9|-1.3|0.6601
92364158|NCT01847092|184630769|SUPERIORITY|||||||0.94|||||||ANCOVA|||||||0.94
92364159|NCT01896687|184630777|SUPERIORITY_OR_OTHER||||||<|0.001||||||"The worst pain and interference scores as dependent variables, and time (baseline, 1-, and 3 week follow up visit), group (Calmare or Sham), and group by time interaction terms as the independent variable."|ANOVA|||||||<0.001
92364160|NCT01000506|184630796|SUPERIORITY_OR_OTHER||Rate Ratio|0.52|||<|0.001|TWO_SIDED|95.0|0.39|0.69||Hochberg testing procedure with a one-sided alpha of 2.5% used for controlling multiplicity|Negative Binomial regression model||Number of exacerbations per year in the mepolizumab 75mg IV arm divided by the number of exacerbations per year in the placebo arm.|||0.69|0.39|<0.001
92364161|NCT01000506|184630796|SUPERIORITY_OR_OTHER||Rate Ratio|0.61|||<|0.001|TWO_SIDED|95.0|0.46|0.81||Hochberg testing procedure with a one-sided alpha of 2.5% used for controlling multiplicity|Negative Binomial regression model||Number of exacerbations per year in the mepolizumab 250 mg IV arm divided by the number of exacerbations per year in the placebo arm.|||0.81|0.46|<0.001
92403844|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.9||||0.5739|TWO_SIDED|95.0|0.63|1.29|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 5 Day 1||1.29|0.63|0.5739
92364162|NCT01000506|184630796|SUPERIORITY_OR_OTHER||Rate Ratio|0.48|||<|0.001|TWO_SIDED|95.0|0.36|0.64||Hochberg testing procedure with a one-sided alpha of 2.5% used for controlling multiplicity|Negative Binomial regression model||Number of exacerbations per year in the mepolizumab 750 mg IV arm divided by the number of exacerbations per year in the placebo arm.|||0.64|0.36|<0.001
92364163|NCT05018689|184630840|SUPERIORITY||Mean Difference (Net)|0.04||||0.642|TWO_SIDED|95.0|-0.13|0.22|||Regression, Linear|||How confident to identify someone showing depression?||0.22|-0.13|0.642
92166201|NCT02527148|184221403|SUPERIORITY|||||||0.263|||||||t-test, 2 sided|||To compare FJS at 5-year between both groups.||||0.263
92166202|NCT02527148|184221404|SUPERIORITY|||||||0.3768|||||||t-test, 2 sided|||To compare IKSS Pain preoperatively between both groups.||||0.3768
92364164|NCT05018689|184630840|SUPERIORITY||Mean Difference (Net)|0.02||||0.864|TWO_SIDED|95.0|-0.21|0.25|||Regression, Linear|||How confident to help a friend?||0.25|-0.21|0.864
92364165|NCT05018689|184630841|SUPERIORITY||comparison of odds ratios|0.78||||0.336|TWO_SIDED|95.0|0.47|1.3|||Regression, Logistic|||||1.30|0.47|0.336
92166203|NCT02527148|184221404|SUPERIORITY|||||||0.6425|||||||t-test, 2 sided|||To compare IKSS Function preoperatively between both groups.||||0.6425
92166204|NCT02527148|184221404|SUPERIORITY|||||||0.5041|||||||t-test, 2 sided|||To compare IKSS ROM preoperatively between both groups.||||0.5041
92166205|NCT02527148|184221404|SUPERIORITY|||||||0.223|||||||t-test, 2 sided|||To compare IKSS Pain at 6-weeks between both groups.||||0.2230
92224424|NCT04137887|184350384|SUPERIORITY|Superiority of QIV-HD effectiveness over QIV-SD was demonstrated if the lower bound of the Confidence intervals (CIs) for relative vaccine effectiveness (rVE); expressed in percentage (%) was more than (\>) 0%.|Relative Vaccine Effectiveness|5.54|||||TWO_SIDED|95.0|-12.43|20.66|||||rVE: % reduction of 1st occurrence of cardiovascular/respiratory hospitalization cases in QIV-HD group compared to QIV-SD group. 2-sided 95% CIs for rVE was calculated by exact method assuming Binomial distribution of number of cases in both groups.|||20.66|-12.43|
92224425|NCT04137887|184350385|SUPERIORITY|Superiority of QIV-HD effectiveness over QIV-SD was demonstrated if the lower bound of the CIs for rVE, expressed in % was \> 0%.|Relative Vaccine Effectiveness|5.4|||||TWO_SIDED|95.0|-27.99|30.14|||||rVE: % reduction of 1st occurrence of cardiovascular/respiratory hospitalization cases in QIV-HD group compared to QIV-SD group. 2-sided 95% CIs for rVE was calculated by exact method assuming Binomial distribution of number of cases in both groups.|Statistical analysis for diseases of respiratory system.||30.14|-27.99|
92403845|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.84||||0.3792|TWO_SIDED|95.0|0.56|1.25|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 8 Day 1||1.25|0.56|0.3792
92403846|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.12||||0.6022|TWO_SIDED|95.0|0.73|1.73|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 12 Day 1||1.73|0.73|0.6022
92403847|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.7893|TWO_SIDED|95.0|0.59|1.49|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 16 Day 1||1.49|0.59|0.7893
92403848|NCT03038100|184699205|SUPERIORITY||Odds Ratio (OR)|0.71||||0.2125|TWO_SIDED|95.0|0.42|1.22|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 20 Day 1||1.22|0.42|0.2125
92403849|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.01||||0.9661|TWO_SIDED|95.0|0.7|1.46|||Cochran-Mantel-Haenszel|||Emotional functioning, Completion of Treatment/ Early Termination Visit||1.46|0.70|0.9661
92403850|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.83||||0.4299|TWO_SIDED|95.0|0.52|1.32|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 3 Months||1.32|0.52|0.4299
92166206|NCT02527148|184221404|SUPERIORITY|||||||0.8209|||||||t-test, 2 sided|||To compare IKSS Function at 6-weeks between both groups.||||0.8209
92166207|NCT02527148|184221404|SUPERIORITY|||||||0.6958|||||||t-test, 2 sided|||To compare IKSS ROM at 6-weeks between both groups.||||0.6958
92166208|NCT02527148|184221404|SUPERIORITY|||||||0.0548|||||||t-test, 2 sided|||To compare IKSS Pain at 6-months between both groups.||||0.0548
92166209|NCT02527148|184221404|SUPERIORITY|||||||0.1958|||||||t-test, 2 sided|||To compare IKSS Function at 6-months between both groups.||||0.1958
92166210|NCT02527148|184221404|SUPERIORITY|||||||0.2786|||||||t-test, 2 sided|||To compare IKSS ROM at 6-months between both groups.||||0.2786
92166211|NCT02527148|184221404|SUPERIORITY|||||||0.2399|||||||t-test, 2 sided|||To compare IKSS Pain at 1-year between both groups.||||0.2399
92166212|NCT02527148|184221404|SUPERIORITY|||||||0.4135|||||||t-test, 2 sided|||To compare IKSS Function at 1-year between both groups.||||0.4135
92364166|NCT05018689|184630842|SUPERIORITY||comparison of odds ratios|1.05||||0.806|TWO_SIDED|95.0|0.7|1.59|||Regression, Logistic|||Depression runs in families. Answer: true||1.59|0.70|0.806
92364167|NCT05018689|184630842|SUPERIORITY||comparison of odds ratios|0.96||||0.781|TWO_SIDED|95.0|0.71|1.3|||Regression, Logistic|||Depression can be controlled through willpower. Answer: false||1.30|0.71|0.781
92364168|NCT05018689|184630842|SUPERIORITY||comparison of odds ratios|0.93||||0.72|TWO_SIDED|95.0|0.62|1.39|||Regression, Logistic|||Depression is treatable. Answer: true||1.39|0.62|0.720
92364169|NCT05018689|184630842|SUPERIORITY||comparison of odds ratios|1.11||||0.784|TWO_SIDED|95.0|0.52|2.38|||Regression, Logistic|||Abuse of alcohol and drugs can be a sign of depression. Answer: true||2.38|0.52|0.784
92364170|NCT05018689|184630842|SUPERIORITY||comparison of odds ratios|1.08||||0.662|TWO_SIDED|95.0|0.76|1.55|||Regression, Logistic|||Depression is a sign of personal weakness. Answer: false||1.55|0.76|0.662
92364171|NCT05018689|184630843|SUPERIORITY||comparison of odds ratios|0.8||||0.34|TWO_SIDED|95.0|0.51|1.26|||Regression, Logistic|||Difficulty concentrating or making decisions||1.26|0.51|0.340
92364172|NCT05018689|184630843|SUPERIORITY||comparison of odds ratios|0.81||||0.265|TWO_SIDED|95.0|0.56|1.17|||Regression, Logistic|||Feeling angry||1.17|0.56|0.265
92364173|NCT05018689|184630843|SUPERIORITY||comparison of odds ratios|0.7||||0.259|TWO_SIDED|95.0|0.38|1.3|||Regression, Logistic|||Changes in sleep patterns||1.30|0.38|0.259
92364174|NCT05018689|184630843|SUPERIORITY||comparison of odds ratios|1.12||||0.45|TWO_SIDED|95.0|0.84|1.49|||Regression, Logistic|||Frequent unexplained aches and pains||1.49|0.84|0.450
92364175|NCT05018689|184630843|SUPERIORITY||comparison of odds ratios|2.28||||0.025|TWO_SIDED|95.0|1.11|4.69|||Regression, Logistic|||Feeling tired or less energetic||4.69|1.11|0.025
92364176|NCT05018689|184630843|SUPERIORITY||comparison of odds ratios|1.01||||0.937|TWO_SIDED|95.0|0.71|1.44|||Regression, Logistic|||Eating more than usual||1.44|0.71|0.937
92364177|NCT05018689|184630843|SUPERIORITY||comparison of odds ratios|0.83||||0.447|TWO_SIDED|95.0|0.52|1.34|||Regression, Logistic|||Feeling irritable or restless||1.34|0.52|0.447
92364178|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|0.02||||0.8|TWO_SIDED|95.0|-0.11|0.14|||Regression, Linear|||Friend||0.14|-0.11|0.800
92364179|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|-0.05||||0.451|TWO_SIDED|95.0|-0.18|0.08|||Regression, Linear|||Parent/guardian||0.08|-0.18|0.451
92364180|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|0.07||||0.335|TWO_SIDED|95.0|-0.07|0.2|||Regression, Linear|||School counselor||0.2|-0.07|0.335
92364181|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|-0.04||||0.554|TWO_SIDED|95.0|-0.17|0.09|||Regression, Linear|||Teacher||0.09|-0.17|0.554
92364182|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|-0.04||||0.541|TWO_SIDED|95.0|-0.19|0.1|||Regression, Linear|||Mental health professional||0.10|-0.19|0.541
92364183|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|0.05||||0.454|TWO_SIDED|95.0|-0.09|0.19|||Regression, Linear|||Doctor||0.19|-0.09|0.454
92403851|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.65||||0.1542|TWO_SIDED|95.0|0.36|1.18|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 6 Months||1.18|0.36|0.1542
92403852|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.65||||0.0363|TWO_SIDED|95.0|1.04|6.76|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 9 Months||6.76|1.04|0.0363
92403853|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.75||||0.0814|TWO_SIDED|95.0|0.85|8.93|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 12 Months||8.93|0.85|0.0814
92403854|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|4.03||||0.1915|TWO_SIDED|95.0|0.43|38.0|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 18 Months||38.00|0.43|0.1915
92403855|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|66.67||||0.3173|TWO_SIDED|95.0|-4.39|100.0|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 24 Months||100.00|-4.39|0.3173
92403856|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9818|TWO_SIDED|95.0|0.73|1.35|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 3 Day 1||1.35|0.73|0.9818
92166213|NCT02527148|184221404|SUPERIORITY|||||||0.5278|||||||t-test, 2 sided|||To compare IKSS ROM at 1-year between both groups.||||0.5278
92166214|NCT02527148|184221404|SUPERIORITY|||||||0.2992|||||||t-test, 2 sided|||To compare IKSS Pain at 2-year between both groups.||||0.2992
92166215|NCT02527148|184221404|SUPERIORITY|||||||0.5462|||||||t-test, 2 sided|||To compare IKSS Function at 2-year between both groups.||||0.5462
92166216|NCT02527148|184221404|SUPERIORITY|||||||0.5765|||||||t-test, 2 sided|||To compare IKSS ROM at 2-year between both groups.||||0.5765
92166217|NCT02527148|184221404|SUPERIORITY|||||||0.5493|||||||t-test, 2 sided|||To compare IKSS Pain at 5-year between both groups.||||0.5493
92166218|NCT02527148|184221404|SUPERIORITY|||||||0.1705|||||||t-test, 2 sided|||To compare IKSS Function at 5-year between both groups.||||0.1705
92166219|NCT02527148|184221404|SUPERIORITY|||||||0.2918|||||||t-test, 2 sided|||To compare IKSS ROM at 5-year between both groups.||||0.2918
92166220|NCT02527148|184221405|OTHER|||||||0.6|||||||t-test, 2 sided|||Comparison of coronal mechanical axis:hip knee ankle angle between both groups.||||0.6
92166221|NCT02527148|184221405|OTHER|||||||0.002|||||||t-test, 2 sided|||Comparison of coronal angle fem comp and mech axis femur between both groups.||||0.002
92166222|NCT02527148|184221405|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison of coronal angle tibial comp and mech axis tibia between both groups.||||<0.001
92166223|NCT02527148|184221405|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison of sagital tibial component slope between both groups.||||<0.001
92166224|NCT02527148|184221405|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison of Fem comp rotation relative to surg epicond axis+=ER between both groups.||||<0.001
92364184|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|-0.02||||0.749|TWO_SIDED|95.0|-0.16|0.12|||Regression, Linear|||Internet/website||0.12|-0.16|0.749
92364185|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|-0.13||||0.03|TWO_SIDED|95.0|-0.24|-0.01|||Regression, Linear|||Clergy, priest, rabbi, or other religious person||-0.01|-0.24|0.030
92364186|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|0.06||||0.334|TWO_SIDED|95.0|-0.06|0.18|||Regression, Linear|||Phone helpline||0.18|-0.06|0.334
92364187|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|0.07||||0.243|TWO_SIDED|95.0|-0.05|0.2|||Regression, Linear|||Crisis textline||0.20|-0.05|0.243
92364188|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|-0.05||||0.492|TWO_SIDED|95.0|-0.19|0.09|||Regression, Linear|||Other relative (i.e., sister, brother, aunt, uncle)||0.09|-0.19|0.492
92364189|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|-0.04||||0.61|TWO_SIDED|95.0|-0.17|0.1|||Regression, Linear|||Boyfriend or girlfriend||0.10|-0.17|0.610
92364190|NCT05018689|184630844|SUPERIORITY||Mean Difference (Net)|-0.12||||0.061|TWO_SIDED|95.0|-0.25|0.01|||Regression, Linear|||Coach||0.01|-0.25|0.061
92364191|NCT05018689|184630845|SUPERIORITY||comparison of odds ratios|1.27||||0.086|TWO_SIDED|95.0|0.97|1.66|||Regression, Logistic|||If you had depression symptoms for more than 2 weeks, would you ask for help?||1.66|0.97|0.086
92364192|NCT05018689|184630845|SUPERIORITY||comparison of odds ratios|1.13||||0.526|TWO_SIDED|95.0|0.77|1.66|||Regression, Logistic|||If you thought you had mental health issues, is there a trusted adult you would go to?||1.66|0.77|0.526
92364193|NCT05018689|184630846|SUPERIORITY||Mean Difference (Net)|0.06||||0.199|TWO_SIDED|95.0|-0.03|0.16|||Regression, Linear|||Do you know how to get help in your school?||0.16|-0.03|0.199
92364194|NCT05018689|184630847|SUPERIORITY||Mean Difference (Net)|-0.25|||<|0.001|TWO_SIDED|95.0|-0.38|-0.12|||Regression, Linear|||The new student is more dangerous than other students||-0.12|-0.38|<0.001
92364195|NCT05018689|184630847|SUPERIORITY||Mean Difference (Net)|-0.18||||0.003|TWO_SIDED|95.0|-0.29|-0.06|||Regression, Linear|||The student is to blame for his or her condition||-0.06|-0.29|0.003
92364196|NCT05018689|184630847|SUPERIORITY||Mean Difference (Net)|0.06||||0.31|TWO_SIDED|95.0|-0.06|0.18|||Regression, Linear|||I would have sympathy for the new student||0.18|-0.06|0.310
92364197|NCT05018689|184630847|SUPERIORITY||Mean Difference (Net)|-0.1||||0.114|TWO_SIDED|95.0|-0.21|0.02|||Regression, Linear|||The new student makes me feel scared||0.02|-0.21|0.114
92364198|NCT05018689|184630847|SUPERIORITY||Mean Difference (Net)|0.02||||0.738|TWO_SIDED|95.0|-0.1|0.15|||Regression, Linear|||The new student makes me feel uncomfortable||0.15|-0.10|0.738
92364199|NCT05018689|184630847|SUPERIORITY||Mean Difference (Net)|0.12||||0.04|TWO_SIDED|95.0|0.01|0.24|||Regression, Linear|||I would help the new student even if I did not know him or her well||0.24|0.01|0.040
92403857|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.08||||0.6263|TWO_SIDED|95.0|0.8|1.45|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 5 Day 1||1.45|0.80|0.6263
92403858|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.01||||0.9407|TWO_SIDED|95.0|0.73|1.4|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 8 Day 1||1.40|0.73|0.9407
92403859|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.77|TWO_SIDED|95.0|0.64|1.39|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 12 Day 1||1.39|0.64|0.7700
92403860|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.8458|TWO_SIDED|95.0|0.63|1.45|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 16 Day 1||1.45|0.63|0.8458
92403861|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.91||||0.7028|TWO_SIDED|95.0|0.57|1.46|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 20 Day 1||1.46|0.57|0.7028
92403862|NCT03038100|184699205|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1391|TWO_SIDED|95.0|0.92|1.83|||Cochran-Mantel-Haenszel|||Physical functioning, Completion of Treatment/ Early Termination Visit||1.83|0.92|0.1391
92403863|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.06||||0.8002|TWO_SIDED|95.0|0.69|1.62|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 3 Months||1.62|0.69|0.8002
92166225|NCT02918279|184221406|SUPERIORITY||Treatment difference|-0.22||||0.0022|TWO_SIDED|95.0|-0.37|-0.08|||ANCOVA||Liraglutide 3.0 mg - Placebo|Analysis of in-trial data with missing observations was imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Responses at week 56 were analysed using an analysis of covariance model with treatment, sex, region, baseline glycaemic category, stratification factor for Tanner stage and interaction between baseline glycaemic category and stratification factor for Tanner stage as fixed effects, baseline BMI SDS, age as covariates.||-0.08|-0.37|0.0022
92166226|NCT01641198|184221490|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.115|<|0.05|TWO_SIDED|95.0|-0.59|0.01||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SW estimated with the mixed linear model (mean±SE, 95% CI)||0.01|-0.59|<0.05
92166227|NCT01641198|184221490|SUPERIORITY||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED|95.0|0.09|0.69||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SC estimated with the mixed linear model (mean±SE, 95% CI)||0.69|0.09|<0.05
92166228|NCT01641198|184221490|SUPERIORITY||Mean Difference (Final Values)|-0.685|STANDARD_ERROR_OF_MEAN|0.115|<|0.05|TWO_SIDED|95.0|-0.98|-0.39||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between SW and SC estimated with the mixed linear model (mean±SE, 95% CI)||-0.39|-0.98|<0.05
92166229|NCT01641198|184221491|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.135|<|0.05|TWO_SIDED|95.0|-0.47|0.13||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SW estimated with the mixed linear model (mean±SE, 95% CI)||0.13|-0.47|<0.05
92403864|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.01||||0.9751|TWO_SIDED|95.0|0.6|1.68|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 6 Months||1.68|0.60|0.9751
92276821|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.56||0.8937|TWO_SIDED|95.0|-1.2|1.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 9: Anxiety||1.0|-1.2|0.8937
92364200|NCT05018689|184630847|SUPERIORITY||Mean Difference (Net)|-0.17||||0.006|TWO_SIDED|95.0|-0.29|-0.05|||Regression, Linear|||I would try to stay away from the new student||-0.05|-0.29|0.006
92364201|NCT05018689|184630847|SUPERIORITY||Mean Difference (Net)|-0.02||||0.798|TWO_SIDED|95.0|-0.15|0.11|||Regression, Linear|||The new student would be made fun of at my school||0.11|-0.15|0.798
92364202|NCT05018689|184630847|SUPERIORITY||Mean Difference (Net)|-0.09||||0.197|TWO_SIDED|95.0|-0.22|0.05|||Regression, Linear|||The new student would be ignored at my school||0.05|-0.22|0.197
92364203|NCT05018689|184630847|SUPERIORITY||Mean Difference (Net)|0.03||||0.623|TWO_SIDED|95.0|-0.1|0.16|||Regression, Linear|||I think other students in my school would try to help the new student||0.16|-0.10|0.623
92403865|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.37||||0.3811|TWO_SIDED|95.0|0.68|2.78|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 9 Months||2.78|0.68|0.3811
92403866|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.51||||0.395|TWO_SIDED|95.0|0.58|3.9|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 12 Months||3.90|0.58|0.3950
92403867|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.89||||0.8993|TWO_SIDED|95.0|0.16|5.12|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 18 Months||5.12|0.16|0.8993
92403868|NCT03038100|184699205|SUPERIORITY|Stratified|Difference in Proportion of Responders|50.0||||0.3173|TWO_SIDED|95.0|-23.34|100.0|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 24 Months||100.00|-23.34|0.3173
92403869|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.92||||0.5988|TWO_SIDED|95.0|0.68|1.25|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 3 Day 1||1.25|0.68|0.5988
92403870|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.98||||0.8859|TWO_SIDED|95.0|0.72|1.34|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 5 Day 1||1.34|0.72|0.8859
92364204|NCT05018689|184630848|SUPERIORITY||Mean Difference (Net)|0.05||||0.718|TWO_SIDED|95.0|-0.21|0.3|||Regression, Linear|||On a scale from 1 to 7, if you were seen going into the office of your school social worker or school psychologist, how would you feel?||0.30|-0.21|0.718
92166230|NCT01641198|184221491|SUPERIORITY||Mean Difference (Final Values)|0.56|STANDARD_ERROR_OF_MEAN|0.13|<|0.05|TWO_SIDED|95.0|0.26|0.85||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SC estimated with the mixed linear model (mean±SE, 95% CI)||0.85|0.26|<0.05
92224426|NCT04137887|184350385|SUPERIORITY|Superiority of QIV-HD effectiveness over QIV-SD was demonstrated if the lower bound of the CIs for rVE, expressed in % was \> 0%.|Relative Vaccine Effectiveness|7.09|||||TWO_SIDED|95.0|-15.04|25.0|||||rVE: % reduction of 1st occurrence of cardiovascular/respiratory hospitalization cases in QIV-HD group compared to QIV-SD group. 2-sided 95% CIs for rVE was calculated by exact method assuming Binomial distribution of number of cases in both groups.|Statistical analysis for diseases of circulatory system.||25.00|-15.04|
92224427|NCT01790503|184350409|OTHER||Hazard Ratio (HR)|0.98||||0.456|TWO_SIDED|95.0|0.71|1.36|||Log Rank|||||1.36|0.71|0.456
92364205|NCT05018689|184630849|SUPERIORITY||Mean Difference (Net)|0.21||||0.09|TWO_SIDED|95.0|-0.03|0.46|||Regression, Linear|||How comfortable are you talking about mental health issues with other students at your school?||0.46|-0.03|0.090
92364206|NCT05018689|184630850|SUPERIORITY||comparison of odds ratios|0.99||||0.944|TWO_SIDED|95.0|0.67|1.44|||Regression, Logistic|||Depression||1.44|0.67|0.944
92364207|NCT05018689|184630850|SUPERIORITY||comparison of odds ratios|1.18||||0.369|TWO_SIDED|95.0|0.82|1.68|||Regression, Logistic|||Anxiety||1.68|0.82|0.369
92364208|NCT05018689|184630850|SUPERIORITY||comparison of odds ratios|1.07||||0.676|TWO_SIDED|95.0|0.77|1.5|||Regression, Logistic|||Thoughts of suicide||1.50|0.77|0.676
92364209|NCT05018689|184630850|SUPERIORITY||comparison of odds ratios|0.79||||0.432|TWO_SIDED|95.0|0.44|1.42|||Regression, Logistic|||I do not think there are any mental health issues that are concerning for students||1.42|0.44|0.432
92364210|NCT05018689|184630850|SUPERIORITY||comparison of odds ratios|0.87||||0.533|TWO_SIDED|95.0|0.56|1.35|||Regression, Logistic|||Other||1.35|0.56|0.533
92364211|NCT05018689|184630851|SUPERIORITY||Mean Difference (Net)|-0.01||||0.769|TWO_SIDED|95.0|-0.11|0.08|||Regression, Linear|||How much do your teachers know about addressing student mental health needs?||0.08|-0.11|0.769
92364212|NCT05018689|184630851|SUPERIORITY||Mean Difference (Net)|0.05||||0.315|TWO_SIDED|95.0|-0.05|0.16|||Regression, Linear|||How much do your school counselors know about addressing student mental health needs?||0.16|-0.05|0.315
92364213|NCT05018689|184630852|SUPERIORITY||comparison of odds ratios|0.86||||0.345|TWO_SIDED|95.0|0.63|1.18|||Regression, Logistic|||Mental health information sheets at school||1.18|0.63|0.345
92364214|NCT05018689|184630852|SUPERIORITY||comparison of odds ratios|0.98||||0.899|TWO_SIDED|95.0|0.73|1.33|||Regression, Logistic|||Class activities about mental health||1.33|0.73|0.899
92364215|NCT05018689|184630852|SUPERIORITY||comparison of odds ratios|1.08||||0.612|TWO_SIDED|95.0|0.8|1.48|||Regression, Logistic|||Mental health information on school website||1.48|0.80|0.612
92224428|NCT01790503|184350409|OTHER||Hazard Ratio (HR)|1.05||||0.619|TWO_SIDED|95.0|0.77|1.43|||Log Rank|||||1.43|0.77|0.619
92224429|NCT01790503|184350409|OTHER||Hazard Ratio (HR)|0.9||||0.272|TWO_SIDED|95.0|0.65|1.26|||Log Rank|||||1.26|0.65|0.272
92364216|NCT05018689|184630852|SUPERIORITY||comparison of odds ratios|1.14||||0.476|TWO_SIDED|95.0|0.79|1.65|||Regression, Logistic|||Other||1.65|0.79|0.476
92364217|NCT05018689|184630853|SUPERIORITY||Mean Difference (Net)|-0.09||||0.141|TWO_SIDED|95.0|-0.22|0.03|||Regression, Linear|||On average, how often do your teachers speak to you about your emotions and feelings?||0.03|-0.22|0.141
92364218|NCT05018689|184630854|SUPERIORITY||Mean Difference (Net)|0.04||||0.392|TWO_SIDED|95.0|-0.05|0.13|||Regression, Linear|||Would you like your teachers to speak to you about your emotions and feelings?||0.13|-0.05|0.392
92364219|NCT01448616|184630866|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.86||||0.086|TWO_SIDED|95.0|0.71|1.01||ITT|Poisson GLME|||For intent to treat analysis, difference between lead-in and treatment phase (within arm comparison)||1.01|0.71|0.086
92364220|NCT01448616|184630866|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.94||||0.54|TWO_SIDED|95.0|0.75|1.16||For intent to treat analysis, difference between lead-in and treatment phase (within arm comparison)|Poisson GLME|||For intent to treat analysis, difference between lead-in and treatment phase (within arm comparison)||1.16|0.75|0.54
92364221|NCT01448616|184630866|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.9||||0.47|TWO_SIDED|95.0|0.67|1.22|||Poisson GLME|||For intent to treat analysis, difference between lead-in and treatment phase (within arm comparison)||1.22|0.67|0.47
92364222|NCT01448616|184630867|SUPERIORITY_OR_OTHER_LEGACY||Change in log copies|-0.16||||0.18|TWO_SIDED|95.0|-0.4|0.07|||Linear Mixed Effects Model|||Intent to treat analysis||0.07|-0.40|0.18
92224430|NCT01790503|184350410|OTHER|||||||0.44|||||||t-test, 2 sided|||Comparison between age subgroups: 18-64 years vs 65+ years||||0.440
92224431|NCT01790503|184350410|OTHER|||||||0.699|||||||t-test, 2 sided|||Comparison between extent of surgery subgroups: complete resection vs partial resection||||0.699
92364223|NCT01448616|184630867|SUPERIORITY_OR_OTHER_LEGACY||Change in log copies|-0.5||||0.008|TWO_SIDED|95.0|-0.86|-0.13|||Linear Mixed Effects Model|||Intent to treat analysis||-0.13|-0.86|0.008
92364224|NCT01448616|184630867|SUPERIORITY_OR_OTHER_LEGACY||Change in log copies|0.16||||0.45|TWO_SIDED|95.0|-0.27|0.6|||Linear Mixed Effects Model|||Intent to treat analysis||0.60|-0.27|0.45
92364225|NCT01448616|184630868|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.98||||0.9|TWO_SIDED|95.0|0.7|1.37|||Poisson GLME|||Intent to treat analysis||1.37|0.70|0.90
92364226|NCT01448616|184630868|SUPERIORITY||Risk Ratio (RR)|0.8||||0.25|TWO_SIDED|95.0|0.54|1.18|||Poisson GLM|||Intent to treat||1.18|0.54|0.25
92364227|NCT01448616|184630868|SUPERIORITY||Risk Ratio (RR)|0.95||||0.82|TWO_SIDED|95.0|0.57|1.57|||Poisson GLM|||||1.57|0.57|0.82
92364228|NCT01448616|184630869|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.74||||0.01|TWO_SIDED|95.0|0.59|0.92|||Poisson GLME|||Intent to Treat||0.92|0.59|0.010
92364229|NCT01448616|184630869|SUPERIORITY||Risk Ratio (RR)|1.3||||0.09|TWO_SIDED|95.0|0.9|1.76|||Poisson GLM|||||1.76|0.9|0.09
92364230|NCT01448616|184630869|SUPERIORITY||Risk Ratio (RR)|0.9||||0.47|TWO_SIDED|95.0|0.67|1.22|||Poisson GLM|||Intent to treat analysis||1.22|0.67|0.47
92364231|NCT04577781|184630870|SUPERIORITY||Least Squares (LS) Mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.353||0.885|TWO_SIDED|90.0|-0.66|0.55||Mixed model repeated measure (MMRM) with treatment-by-visit interaction and baseline-by-visit interaction as fixed effects (with an unstructured variance-covariance matrix).|MMRM|||||0.55|-0.66|0.885
92364232|NCT01074125|184630894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3376|||<|0.0001|TWO_SIDED||||||Regression, Linear|||To assess dose ranging, the primary efficacy variable will be analyzed via a model with dose effect. Positive dose ranging confirmed if the null hypothesis of slope =0 was rejected at a significance level of 0.05||||<0.0001
92364233|NCT00508482|184630903|SUPERIORITY_OR_OTHER|||||||0.238|||||||Kruskal-Wallis|||Comparison among three groups over 4 weeks of treatment||||0.238
92364234|NCT00508482|184630903|SUPERIORITY_OR_OTHER|||||||0.004|||||||Kruskal-Wallis|||Comparison among three groups at the 4th week of follow-up||||0.004
92364235|NCT00508482|184630903|SUPERIORITY_OR_OTHER|||||||0.277|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 4th week of follow-up||||0.277
92364236|NCT00508482|184630903|SUPERIORITY_OR_OTHER|||||||0.001|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 4th week of follow-up||||0.001
92403871|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.82||||0.2531|TWO_SIDED|95.0|0.58|1.16|||Cochran-Mantel-Haenszel|Stratified Analysis||Global health status/QoL, Cycle 8 Day 1||1.16|0.58|0.2531
92403872|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.69||||0.0785|TWO_SIDED|95.0|0.46|1.04|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 12 Day 1||1.04|0.46|0.0785
92403873|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.67||||0.0641|TWO_SIDED|95.0|0.43|1.03|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 16 Day 1||1.03|0.43|0.0641
92403874|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.48||||0.0046|TWO_SIDED|95.0|0.29|0.8|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 20 Day 1||0.80|0.29|0.0046
92403875|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.98||||0.8928|TWO_SIDED|95.0|0.7|1.37|||Cochran-Mantel-Haenszel|||Global health status/QoL, Completion of Treatment/ Early Termination Visit||1.37|0.70|0.8928
92403876|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.12||||0.6106|TWO_SIDED|95.0|0.72|1.74|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 3 Months||1.74|0.72|0.6106
92403877|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.15||||0.6159|TWO_SIDED|95.0|0.67|1.95|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 6 Months||1.95|0.67|0.6159
92166231|NCT01641198|184221491|SUPERIORITY||Mean Difference (Final Values)|-0.725|STANDARD_ERROR_OF_MEAN|0.135|<|0.05|TWO_SIDED|95.0|-1.02|-0.43||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between SW and SC estimated with the mixed linear model (mean±SE, 95% CI)||-0.43|-1.02|<0.05
92403878|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.24||||0.5372|TWO_SIDED|95.0|0.62|2.49|||Cochran-Mantel-Haenszel|Stratified Analysis||Global health status/QoL, Post-Treatment Follow Up 9 Months||2.49|0.62|0.5372
92166232|NCT01641198|184221492|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|TWO_SIDED|95.0|-0.19|0.59||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SW estimated with the mixed linear model (mean±SE, 95% CI)||0.59|-0.19|<0.05
92403879|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.22||||0.0845|TWO_SIDED|95.0|0.89|5.58|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 12 Months||5.58|0.89|0.0845
92166233|NCT01641198|184221492|SUPERIORITY||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|TWO_SIDED|95.0|0.45|1.22||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SC estimated with the mixed linear model (mean±SE, 95% CI)||1.22|0.45|<0.05
92364237|NCT00508482|184630903|SUPERIORITY_OR_OTHER|||||||0.055|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 4th week of follow-up||||0.055
92364238|NCT00508482|184630903|SUPERIORITY_OR_OTHER|||||||0.001|||||||Kruskal-Wallis|||Comparison among three groups at the 12th week of follow-up||||0.001
92403880|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|3.67||||0.1344|TWO_SIDED|95.0|0.62|21.56|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 18 Months||21.56|0.62|0.1344
92403881|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|50.0||||0.3173|TWO_SIDED|95.0|-23.34|100.0|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 24 Months||100.00|-23.34|0.3173
92403882|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.41||||0.026|TWO_SIDED|95.0|1.04|1.92|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 3 Day 1||1.92|1.04|0.0260
92403883|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.02||||0.9179|TWO_SIDED|95.0|0.75|1.37|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 5 Day 1||1.37|0.75|0.9179
92403884|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.1||||0.582|TWO_SIDED|95.0|0.79|1.53|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 8 Day 1||1.53|0.79|0.5820
92403885|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.99||||0.9772|TWO_SIDED|95.0|0.67|1.47|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 12 Day 1||1.47|0.67|0.9772
92403886|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.73||||0.13|TWO_SIDED|95.0|0.49|1.1|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 16 Day 1||1.10|0.49|0.1300
92364239|NCT00508482|184630903|SUPERIORITY_OR_OTHER|||||||0.33|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 12th week of follow-up||||0.330
92364240|NCT00508482|184630903|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 12th week of follow-up||||<0.001
92364241|NCT00508482|184630903|SUPERIORITY_OR_OTHER|||||||0.018|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 12th week of follow-up||||0.018
92364242|NCT00508482|184630904|SUPERIORITY_OR_OTHER|||||||0.573|||||||ANOVA|||||||0.573
92364243|NCT00508482|184630905|SUPERIORITY_OR_OTHER|||||||0.271|||||||Kruskal-Wallis|||||||0.271
92364244|NCT00508482|184630906|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92364245|NCT00508482|184630906|SUPERIORITY_OR_OTHER|||||||0.58|||||||Least-Significant Difference|||||||0.580
92364246|NCT00508482|184630906|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Least-Significant Difference|||||||<0.001
92364247|NCT00508482|184630906|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Least-Significant Difference|||||||<0.001
92364248|NCT00508482|184630907|SUPERIORITY_OR_OTHER|||||||0.167|||||||ANOVA|||||||0.167
92364249|NCT00508482|184630908|SUPERIORITY_OR_OTHER|||||||0.066|||||||Kruskal-Wallis|||||||0.066
92364250|NCT00508482|184630909|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92403887|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.66||||0.099|TWO_SIDED|95.0|0.4|1.08|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 20 Day 1||1.08|0.40|0.0990
92364251|NCT00508482|184630909|SUPERIORITY_OR_OTHER|||||||0.024|||||||Least-Significant Difference|||||||0.024
92364252|NCT00508482|184630909|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Least-Significant Difference|||||||<0.001
92364253|NCT00508482|184630909|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Least-Significant Difference|||||||<0.001
92364254|NCT00508482|184630910|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92364255|NCT00508482|184630910|SUPERIORITY_OR_OTHER|||||||0.627||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.627
92364256|NCT00508482|184630910|SUPERIORITY_OR_OTHER||||||<|0.001||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||<0.001
92364257|NCT00508482|184630910|SUPERIORITY_OR_OTHER||||||<|0.001||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||<0.001
92364258|NCT00508482|184630911|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92364259|NCT00508482|184630911|SUPERIORITY_OR_OTHER|||||||0.587||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.587
92364260|NCT00508482|184630911|SUPERIORITY_OR_OTHER|||||||0.001||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.001
92364261|NCT00508482|184630911|SUPERIORITY_OR_OTHER||||||<|0.001||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||<0.001
92364262|NCT00508482|184630912|SUPERIORITY_OR_OTHER|||||||0.006|||||||Chi-squared|||||||0.006
92364263|NCT00508482|184630912|SUPERIORITY_OR_OTHER|||||||0.507||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.507
92403888|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.07||||0.7133|TWO_SIDED|95.0|0.76|1.5|||Cochran-Mantel-Haenszel|||Role functioning, Completion of Treatment/ Early Termination Visit||1.50|0.76|0.7133
92364264|NCT00508482|184630912|SUPERIORITY_OR_OTHER|||||||0.005||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.005
92364265|NCT00508482|184630912|SUPERIORITY_OR_OTHER|||||||0.008||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.008
92364266|NCT01227057|184630925|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the SI-R using effect size estimates from a previous trial comparing individual CBT with a Wait List (WL) control (Steketee2010). In this study, the effect size of Cognitive Behavioral Therapy (CBT) relative to WL was d = 2.21 on the SI-R. Accounting for a smaller effect size due to having an active control condition, we expected to have 80% power to detect a large (d = .80) effect size. The sample assessed for eligibility (n = 67) was 99% of this target.||||||0.029||||||P value is for the group x time interaction.|Mixed Models Analysis|Adjusted for age, years of education, and presence of co-morbid obsessive-compulsive disorder due to group differences at baseline.||Linear mixed models with random intercepts were used to evaluate the change in primary and secondary outcome variables over time, the effect of group, the effect of treatment, and the treatment group by time interaction, both for the treatment phase (0-6 months) and follow up phase (6-12 months). All analyses (0-6 months) were conducted first using observed data only (i.e., completer analysis) and then using an intent to treat (ITT) sample.||||.029
92364267|NCT01227057|184630926|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the SI-R using effect size estimates from a previous trial comparing individual CBT with a Wait List (WL) control (Steketee2010). In this study, the effect size of Cognitive Behavioral Therapy (CBT) relative to WL was d = 2.21 on the SI-R. Accounting for a smaller effect size due to having an active control condition, we expected to have 80% power to detect a large (d = .80) effect size. The sample assessed for eligibility (n = 67) was 99% of this target.||||||0.04||||||P value is for the group x time interaction.|Mixed Models Analysis|Adjusted for age, years of education, and presence of co-morbid obsessive-compulsive disorder due to group differences at baseline.||Linear mixed models with random intercepts were used to evaluate the change in primary and secondary outcome variables over time, the effect of group, the effect of treatment, and the treatment group by time interaction, both for the treatment phase (0-6 months) and follow up phase (6-12 months). All analyses (0-6 months) were conducted first using observed data only (i.e., completer analysis) and then using an intent to treat (ITT) sample.||||.04
92364268|NCT01227057|184630927|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the SI-R using effect size estimates from a previous trial comparing individual CBT with a Wait List (WL) control (Steketee2010). In this study, the effect size of Cognitive Behavioral Therapy (CBT) relative to WL was d = 2.21 on the SI-R. Accounting for a smaller effect size due to having an active control condition, we expected to have 80% power to detect a large (d = .80) effect size. The sample assessed for eligibility (n = 67) was 99% of this target.|||||>|0.1||||||P value is for the group x time interaction.|ANOVA|||||||>.1
92224432|NCT01790503|184350410|OTHER|||||||0.003|||||||t-test, 2 sided|||Comparison between baseline KPS subgroups: 70-89 vs 90-100||||0.003
92364269|NCT02271529|184630928|NON_INFERIORITY_OR_EQUIVALENCE|Under the assumption that the mean percent change in stent length upon deployment being 0.2% with a standard deviation of 4%, type I error of 0.05, and two one-sided t-tests, a sample size of at least 30 stents provides power \> 0.90 to determine that the mean length change of stents deployed with the thumbwheel delivery system is within +/-10%.|Mean percent change|-1.0|||<|0.01|TWO_SIDED|95.0|-1.5|-0.4|||two one-sided t-tests|||||-0.4|-1.5|<0.01
92364270|NCT00811720|184630933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33|STANDARD_ERROR_OF_MEAN|0.75||0.002|TWO_SIDED|95.0|-3.81|-0.85|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 213 participants in the placebo group and 152 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. The null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-6); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||-0.85|-3.81|0.002
92364271|NCT00811720|184630934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.96|STANDARD_ERROR_OF_MEAN|2.98|<|0.001|TWO_SIDED|95.0|-16.81|-5.11|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 213 participants in the placebo group and 152 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. The null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-6); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||-5.11|-16.81|<0.001
92364272|NCT00811720|184630935|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.039|TWO_SIDED|95.0|0.5|0.98|||Adjusted Odds Ratio (OR) response|||The analysis of RSDRL used a logistic regression (LREG) model, with country, sex, Baseline DRL, and treatment as fixed effects, and missing values imputed as non-response.||0.98|0.50|0.039
92364273|NCT00811720|184630936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.57|-0.16|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 210 participants in the placebo group and 152 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model; an unstructured covariance matrix was used.||-0.16|-0.57|<0.001
92364274|NCT00811720|184630937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.53|-0.15|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 210 participants in the placebo group and 152 participants in the nalmefene group.|MMRM model with the Baseline CGI-S score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline CGI-S score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used.||-0.15|-0.53|<0.001
92364275|NCT00811720|184630938|SUPERIORITY_OR_OTHER||Ratio to placebo|0.88||||0.009|TWO_SIDED|95.0|0.8|0.97|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 211 participants in the placebo group and 158 participants in the nalmefene group.|Log-transformed GGT values were analysed using an MMRM model with the log-transformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time interaction and treatment-by-time interaction were included in the model. An unstructured covariance matrix was used.||0.97|0.80|0.009
92364276|NCT00811720|184630939|SUPERIORITY_OR_OTHER||Ratio to placebo|0.9||||0.011|TWO_SIDED|95.0|0.84|0.98|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 209 participants in the placebo group and 158 participants in the nalmefene group.|Log-transformed ALAT values were analysed using an MMRM model with the log-transformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time and treatment-by-time interactions were included in the model. An unstructured covariance matrix was used.||0.98|0.84|0.011
92364277|NCT01044030|184630950|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Chi-squared|||||||0.6
92364278|NCT02742129|184631001|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|-0.2||||0.265|TWO_SIDED|95.0|-0.56|0.16|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||0.16|-0.56|0.2650
92403889|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.38||||0.1384|TWO_SIDED|95.0|0.9|2.11|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 3 Months||2.11|0.90|0.1384
92276822|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.47||0.9151|TWO_SIDED|95.0|-1.0|0.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 10: Depression||0.9|-1.0|0.9151
92224433|NCT01790503|184350410|OTHER|||||||0.201|||||||t-test, 2 sided|||Comparison between MGMT status subgroups: methylated vs unmethylated||||0.201
92224434|NCT01790503|184350412|OTHER||Hazard Ratio (HR)|0.94||||0.389|TWO_SIDED|95.0|0.6|1.47|||Log Rank|||||1.47|0.60|0.389
92224435|NCT01790503|184350412|OTHER||Hazard Ratio (HR)|0.94||||0.393|TWO_SIDED|95.0|0.63|1.42|||Log Rank|||||1.42|0.63|0.393
92224436|NCT01790503|184350412|OTHER||Hazard Ratio (HR)|0.98||||0.469|TWO_SIDED|95.0|0.63|1.54|||Log Rank|||||1.54|0.63|0.469
92224437|NCT01790503|184350413|OTHER|||||||0.063|||||||t-test, 2 sided|||Comparison between age subgroups: 18-64 years vs 65+ years||||0.063
92276823|NCT01271933|184455256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|3.91||0.9045|TWO_SIDED|95.0|-8.2|7.3||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the total score||7.3|-8.2|0.9045
92276824|NCT01271933|184455258|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.31||0.4606|TWO_SIDED|95.0|-0.4|0.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: General Fatigue||0.9|-0.4|0.4606
92276825|NCT01271933|184455258|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.37||0.4703|TWO_SIDED|95.0|-1.0|0.5||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Physical Fatigue||0.5|-1.0|0.4703
92276826|NCT01271933|184455258|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.36||0.4009|TWO_SIDED|95.0|-0.4|1.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Reduced activity||1.0|-0.4|0.4009
92276827|NCT01271933|184455258|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.35||0.0695|TWO_SIDED|95.0|-0.1|1.3||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Reduced motivation||1.3|-0.1|0.0695
92276828|NCT01271933|184455258|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.5869|TWO_SIDED|95.0|-0.7|0.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Mental fatigue||0.4|-0.7|0.5869
92276829|NCT01271933|184455260|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.29||||0.0296|TWO_SIDED|95.0|1.09|4.81||Nominal p-value for two-sided test.|two-sided test|||This analysis is for the domain: Benefit from treatment||4.81|1.09|0.0296
92276830|NCT01271933|184455260|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.29||||0.4691|TWO_SIDED|95.0|0.64|2.61||Nominal p-value for two-sided test|two-sided test|||This analysis is for the domain: Satisfaction from treatment||2.61|0.64|0.4691
92276831|NCT01271933|184455260|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.98||||0.9577|TWO_SIDED|95.0|0.48|2.01||Nominal p-value for two-sided test|two-sided test|||This analysis is for the domain: Willingness to continue treatment||2.01|0.48|0.9577
92276832|NCT01271933|184455262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.3|STANDARD_ERROR_OF_MEAN|9.85||0.0562|TWO_SIDED|95.0|-0.5|39.2||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Percent Work Time Missed||39.2|-0.5|0.0562
92276833|NCT01271933|184455262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|3.96||0.7892|TWO_SIDED|95.0|-7.0|9.2||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Percent Impairment While Working||9.2|-7.0|0.7892
92276834|NCT01271933|184455262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.82||0.0819|TWO_SIDED|95.0|-0.4|6.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Percent Activity Impairment||6.8|-0.4|0.0819
92276835|NCT01271933|184455262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|1.91||0.4135|TWO_SIDED|95.0|-2.2|5.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Percent Overall Work Impairment||5.4|-2.2|0.4135
92276836|NCT01271933|184455273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.24||0.1224|TWO_SIDED|95.0|-0.1|0.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.9|-0.1|0.1224
92276837|NCT01271933|184455274|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|4.06||0.768|TWO_SIDED|95.0|-9.3|6.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||6.9|-9.3|0.7680
92364279|NCT02742129|184631002|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis|Mean Difference (Final Values)|-14.68||||0.9069|TWO_SIDED|95.0|-263.65|234.29|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data||234.29|-263.65|0.9069
92403890|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.33||||0.2895|TWO_SIDED|95.0|0.78|2.26|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 6 Months||2.26|0.78|0.2895
92403891|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.55||||0.2221|TWO_SIDED|95.0|0.77|3.14|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 9 Months||3.14|0.77|0.2221
92403892|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|7.37||||0.0005|TWO_SIDED|95.0|2.08|26.1|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 12 Months||26.10|2.08|0.0005
92403893|NCT03038100|184699205|SUPERIORITY||Odds Ratio (OR)|3.72||||0.2171|TWO_SIDED|95.0|0.4|34.56|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 18 Months||34.56|0.40|0.2171
92276838|NCT01271933|184455275|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|1.29||0.136|TWO_SIDED|95.0|-4.5|0.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.6|-4.5|0.1360
92276839|NCT01271933|184455276|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6489.5|STANDARD_ERROR_OF_MEAN|12579.5||0.6077|TWO_SIDED|95.0|-18648.6|31627.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Total daytime activity||31627.6|-18648.6|0.6077
92276840|NCT01271933|184455277|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|1.38||0.6647|TWO_SIDED|95.0|-2.2|3.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||3.4|-2.2|0.6647
92224438|NCT01790503|184350413|OTHER|||||||0.969|||||||t-test, 2 sided|||Comparison between extent of surgery subgroups: complete resection vs partial resection||||0.969
92224439|NCT01790503|184350413|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison between baseline KPS subgroups: 70-89 vs 90-100||||<0.001
92224440|NCT01790503|184350413|OTHER|||||||0.501|||||||t-test, 2 sided|||Comparison between MGMT status subgroups: methylated vs unmethylated||||0.501
92364280|NCT02742129|184631003|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|0.05||||0.9338|TWO_SIDED|95.0|-1.16|1.27|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||1.27|-1.16|0.9338
92364281|NCT02742129|184631004|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|-0.29||||0.8151|TWO_SIDED|95.0|-2.79|2.2|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||2.20|-2.79|0.8151
92364282|NCT02742129|184631005|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|0.82||||0.4658|TWO_SIDED|95.0|-1.41|3.05|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||3.05|-1.41|0.4658
92364283|NCT02742129|184631006|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|1.06||||0.3902|TWO_SIDED|95.0|-1.37|3.49|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||3.49|-1.37|0.3902
92364284|NCT02742129|184631007|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|10.69||||0.7404|TWO_SIDED|95.0|-53.21|74.6|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||74.6|-53.21|0.7404
92364285|NCT02742129|184631008|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Median Difference (Final Values)|0.05||||0.4282|TWO_SIDED|95.0|-0.08|0.18|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||0.18|-0.08|0.4282
92403894|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|16.67|||||TWO_SIDED|95.0|-46.49|79.82||||||Role functioning, Post-Treatment Follow Up 24 Months||79.82|-46.49|
92224441|NCT01790503|184350414|OTHER|||||||0.705|||||||t-test, 2 sided|||Comparison between age subgroups: 18-64 years vs 65+ years||||0.705
92224442|NCT01790503|184350414|OTHER||||||>|0.999|||||||t-test, 2 sided|||Comparison between extent of surgery subgroups: complete resection vs partial resection||||>0.999
92224443|NCT01790503|184350414|OTHER|||||||0.099|||||||t-test, 2 sided|||Comparison between baseline KPS subgroups: 70-89 vs 90-100||||0.099
92224444|NCT01790503|184350414|OTHER|||||||0.348|||||||t-test, 2 sided|||Comparison between MGMT status subgroups: methylated vs unmethylated||||0.348
92224445|NCT04183335|184350419|SUPERIORITY||Odds Ratio (OR)|6.5|||<|0.0001|TWO_SIDED|95.0|2.78|15.41||Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when primary outcome measure was statistically significant at two-sided 0.05.||15.41|2.78|<0.0001
92224446|NCT04183335|184350420|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0004|TWO_SIDED|95.0|1.81|8.98||Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||8.98|1.81|0.0004
92224447|NCT04183335|184350421|SUPERIORITY||Odds Ratio (OR)|6.9|||<|0.0001|TWO_SIDED|95.0|2.49|19.05||Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||19.05|2.49|<0.0001
92224448|NCT04183335|184350422|SUPERIORITY||LS mean difference|-26.67|||<|0.0001|TWO_SIDED|95.0|-38.44|-14.9||Threshold of significance at 0.05.|ANCOVA||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-14.90|-38.44|<0.0001
92224449|NCT04183335|184350423|SUPERIORITY||Least square mean difference|-6.19|||<|0.0001|TWO_SIDED|95.0|-8.34|-4.05||Threshold of significance at 0.05.|ANCOVA||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-4.05|-8.34|<0.0001
92403895|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.11||||0.4647|TWO_SIDED|95.0|0.84|1.48|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 3 Day 1||1.48|0.84|0.4647
92403896|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.04||||0.7676|TWO_SIDED|95.0|0.78|1.4|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 5 Day 1||1.40|0.78|0.7676
92166234|NCT01641198|184221492|SUPERIORITY||Mean Difference (Final Values)|-0.635|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|TWO_SIDED|95.0|-1.01|-0.26||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between SW and SC estimated with the mixed linear model (mean±SE, 95% CI).||-0.26|-1.01|<0.05
92166235|NCT00346151|184221510|SUPERIORITY_OR_OTHER||Incidence Rate|60.0||||||95.0|15.0|95.0|||95% exact binomial CI of proportion|||Proportion of participant's cumulative incidence of acute rejection at 24 weeks with 95% exact binomial confidence interval. Local biopsy reads were used in determining primary endpoint.||95|15|
92166236|NCT00346151|184221511|SUPERIORITY_OR_OTHER||Incidence Rate|100.0||||||95.0|40.0|100.0|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||100|40|
92166237|NCT00346151|184221512|SUPERIORITY_OR_OTHER||Incidence rate|80.0||||||95.0|28.0|99.0|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||99|28|
92166238|NCT00346151|184221515|SUPERIORITY_OR_OTHER||Incidence Rate|100.0||||||95.0|40.0|100.0|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||100|40|
92166239|NCT00346151|184221517|SUPERIORITY_OR_OTHER||Incidence Rate|0.0||||||95.0|0.0|52.2|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||52.2|0|
92166240|NCT00346151|184221518|SUPERIORITY_OR_OTHER||Incidence Rate|80.0||||||95.0|28.0|99.0|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||99|28|
92166241|NCT00346151|184221519|SUPERIORITY_OR_OTHER||Incidence Rate|0.0||||||95.0|0.0|52.2|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||52.2|0|
92166242|NCT00346151|184221520|SUPERIORITY_OR_OTHER||Incidence Rate|0.0||||||95.0|0.0|52.2|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||52.2|0|
92166243|NCT00346151|184221521|SUPERIORITY_OR_OTHER||Incidence Rate|100.0||||||95.0|47.8|100.0|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||100|47.8|
92166244|NCT00346151|184221522|SUPERIORITY_OR_OTHER||Incidence Rate|0.0||||||95.0|0.0|52.2|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||52.2|0|
92166245|NCT00346151|184221523|SUPERIORITY_OR_OTHER||Incidence Rate|0.0||||||95.0|0.0|52.2|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||52.2|0|
92166246|NCT00346151|184221524|SUPERIORITY_OR_OTHER||Incidence Rate|20.0||||||95.0|0.5|71.6|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||71.6|0.5|
92166247|NCT01075217|184221525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|STANDARD_DEVIATION|2.45|<|0.0001|TWO_SIDED|95.0|1.4|3.5||P-value provided is for the difference in pain assessment between Isovue and Visipaque in Group 1, i.e., pain was not assessed separately from heat.|t-test, 2 sided|||||3.5|1.4|<0.0001
92166248|NCT01075217|184221525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|1.94||0.3244|TWO_SIDED|95.0|-0.5|1.4||P-value provided is for the difference in pain assessment between Isovue and Visipaque in Group 2, i.e., pain was assessed separately from heat.|t-test, 2 sided|||||1.4|-0.5|0.3244
92166249|NCT01075217|184221526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|STANDARD_DEVIATION|2.35||0.0059|TWO_SIDED|95.0|0.5|2.7|||t-test, 2 sided|||||2.7|0.5|0.0059
92166250|NCT03260140|184221539|SUPERIORITY||Mean Difference (Final Values)|-1.93||||0.001|TWO_SIDED|97.5|-3.24|-0.61|||Mixed Models Analysis|Difference in average weight at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month weight between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||-0.61|-3.24|0.001
92166251|NCT03260140|184221540|SUPERIORITY||Mean Difference (Final Values)|0.69||||0.388|TWO_SIDED|97.5|-1.11|2.49|||Mixed Models Analysis|Difference in average SF-12 PCS score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the 12-month SF-12 PCS between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||2.49|-1.11|0.388
92166252|NCT03260140|184221541|SUPERIORITY||Sign test|1.76||||0.308|TWO_SIDED|95.0|0.85|3.66|||F test-ratio of 2 McNemar's Chi-Squares|||Group-specific McNemar's Chi-Square tests were applied to examine the change from baseline to follow-up in dichotomized IPAQ (\>=150 vs \<150) minutes of physical activity per week. To compare intervention vs. control at 12 months, we applied an F test. The intervention effect was an odds ratio of the ratios of discordant pairs in the intervention vs the control group.||3.66|0.85|0.308
92166253|NCT03260140|184221542|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.396|TWO_SIDED|95.0|-0.61|0.24|||Mixed Models Analysis|Difference in average weight at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month score between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||0.24|-0.61|0.396
92166254|NCT03260140|184221543|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.657|TWO_SIDED|95.0|-1.02|1.61|||Mixed Models Analysis|Difference in average score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month score between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||1.61|-1.02|0.657
92403897|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.24||||0.1983|TWO_SIDED|95.0|0.89|1.71|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 8 Day 1||1.71|0.89|0.1983
92224450|NCT04183335|184350424|SUPERIORITY||Least square mean difference|-2.17|||<|0.0001|TWO_SIDED|95.0|-3.07|-1.28||Threshold of significance at 0.05.|ANCOVA||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-1.28|-3.07|<0.0001
92224451|NCT04183335|184350425|SUPERIORITY||Least square mean difference|-2.6||||0.0082|TWO_SIDED|95.0|-4.52|-0.67||Threshold of significance at 0.05.|ANCOVA||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-0.67|-4.52|0.0082
92224452|NCT04183335|184350433|SUPERIORITY||LS mean difference|-0.7||||0.0119|TWO_SIDED|95.0|-1.25|-0.15||Threshold of significance at \<0.05 level.|ANCOVA||Dupilumab 300 mg Q2W versus Placebo|||-0.15|-1.25|0.0119
92224453|NCT00049673|184350440|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.18|TWO_SIDED|95.0|0.53|1.14|||Log Rank|||||1.14|0.53|0.18
92224454|NCT00049673|184350441|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0001|TWO_SIDED|95.0|0.43|0.73|||Log Rank|||||0.73|0.43|0.0001
92364286|NCT02742129|184631010|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|-0.49||||0.1067|TWO_SIDED|95.0|-1.08|0.11|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||0.11|-1.08|0.1067
92364287|NCT02742129|184631011|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|-0.1||||0.4411|TWO_SIDED|95.0|-0.37|0.16|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||0.16|-0.37|0.4411
92364288|NCT00539240|184631033|SUPERIORITY_OR_OTHER|||||||0.04||||||P\<0.05 considered statistically significant. No adjustment for multiple comparisons|Regression, Linear|adjusted for age, sex, BMI and ethnicity||||||0.04
92364289|NCT00539240|184631033|SUPERIORITY_OR_OTHER|||||||0.5||||||P\<0.05 considered statistically significant, No adjustment for multiple comparisons|Regression, Linear|adjusted for age, sex, BMI and ethnicity||||||0.50
92364290|NCT00539240|184631034|SUPERIORITY_OR_OTHER|||||||0.19||||||P\<0.05 considered statistically significant. No adjustment for multiple comparisons (no post-hoc contrasts performed)|ANCOVA|Adjusted for baseline score and personality traits (SCL-90)||||||0.19
92403898|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9874|TWO_SIDED|95.0|0.69|1.44|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 12 Day 1||1.44|0.69|0.9874
92224455|NCT01535729|184350443|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.949|STANDARD_ERROR_OF_MEAN|0.167||0.756|TWO_SIDED|95.0|0.684|1.318|||Wald Chi-Squares|||Comparison between 70-74 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||1.318|0.684|0.756
92224456|NCT01535729|184350443|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.744|STANDARD_ERROR_OF_MEAN|0.185||0.11|TWO_SIDED|95.0|0.518|1.07|||Wald Chi-Squares|||Comparison between 75-79 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||1.070|0.518|0.110
92224457|NCT01535729|184350443|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.054|STANDARD_ERROR_OF_MEAN|0.242||0.829|TWO_SIDED|95.0|0.656|1.692|||Wald Chi-Squares|||Comparison between ≥ 80 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||1.692|0.656|0.829
92224458|NCT01535729|184350458|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.981|STANDARD_ERROR_OF_MEAN|0.143||0.895|TWO_SIDED|95.0|0.741|1.299|||Wald Chi-Squares|||Comparison between 70-74 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||1.299|0.741|0.895
92224459|NCT01535729|184350458|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.689|STANDARD_ERROR_OF_MEAN|0.162||0.022|TWO_SIDED|95.0|0.501|0.947|||Wald Chi-Squares|||Comparison between 75-79 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||0.947|0.501|0.022
92364291|NCT00539240|184631035|SUPERIORITY_OR_OTHER|||||||0.04||||||P\<0.05 considered statistically significant, No adjustment for multiple comparisons|Regression, Linear|adjusted for age, sex, BMI and ethnicity.||||||0.04
92364292|NCT00539240|184631035|SUPERIORITY_OR_OTHER|||||||0.5||||||P\<0.05 considered statistically significant, no adjustment for multiple comparisons|Regression, Linear|adjusted for age, sex, BMI and ethnicity||||||0.50
92364293|NCT00539240|184631036|SUPERIORITY_OR_OTHER|||||||0.04||||||P\<0.05 considered statistically significant. No adjustment for multiple comparisons.|Regression, Linear|adjusted for age, sex, BMI and ethnicity||||||0.04
92364294|NCT00539240|184631036|SUPERIORITY_OR_OTHER|||||||0.2||||||P\<0.05 considered statistically significant. No adjustment for multiple comparisons.|Regression, Linear|adjusted for age, sex, BMI and ethnicity.||||||0.20
92364295|NCT00363311|184631046|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.56||||0.009||95.0|0.36|0.87||Statistical data are for Year 1.5|Log Rank|||||0.87|0.36|0.009
92364296|NCT00363311|184631046|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.61||||0.007||95.0|0.43|0.88||Statistical data are for Overall (Years 0-3)|Log Rank|||||0.88|0.43|0.007
92364297|NCT00363311|184631047|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.46||||0.13||95.0|0.16|1.31||Statistical data are for Year 1.5|Log Rank|||||1.31|0.16|0.13
92364298|NCT00363311|184631047|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.48||||0.053||95.0|0.22|1.03||Statistical data are for Overall (Years 0-3)|Log Rank|||||1.03|0.22|0.053
92403899|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.86||||0.4716|TWO_SIDED|95.0|0.58|1.29|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 16 Day 1||1.29|0.58|0.4716
92403900|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.74||||0.2041|TWO_SIDED|95.0|0.46|1.18|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 20 Day 1||1.18|0.46|0.2041
92166255|NCT03260140|184221544|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.281|TWO_SIDED|95.0|-2.33|0.68|||Mixed Models Analysis|Difference in average score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month score between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||0.68|-2.33|0.281
92166256|NCT03260140|184221545|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.483|TWO_SIDED|95.0|-0.11|0.23|||Mixed Models Analysis|Difference in average score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rodgers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average score between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||0.23|-0.11|0.483
92166257|NCT03260140|184221546|SUPERIORITY||Mean percent change in HbA1c|0.02||||0.985|TWO_SIDED|95.0|-2.57|2.69|||Mixed Models Analysis|Difference in average HbA1c at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis on log-transformed HbA1c comparing the average HbA1c between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||2.69|-2.57|0.985
92166258|NCT03260140|184221547|SUPERIORITY||Mean Difference (Net)|-0.22||||0.806|TWO_SIDED|95.0|-1.99|1.55|||Mixed Models Analysis|Difference in average SF-12 MCS score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month MCS between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||1.55|-1.99|0.806
92166259|NCT03260140|184221548|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.62|TWO_SIDED|95.0|-1.77|1.05|||Mixed Models Analysis|Difference in average DBP at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month DBP between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||1.05|-1.77|0.620
92166260|NCT03260140|184221549|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.987|TWO_SIDED|95.0|-2.32|2.28|||Mixed Models Analysis|Difference in average SPB at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average SBP between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||2.28|-2.32|0.987
92166261|NCT00463788|184221550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.126||||0.1109|TWO_SIDED|95.0|0.809|5.591|||Cochran-Mantel-Haenszel|Randomization strata: first- or second line according to Interactive Voice Response System (IVRS).||||5.591|0.809|0.1109
92166262|NCT00463788|184221551|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.675||||0.0324|TWO_SIDED|95.0|0.47|0.969|||Log Rank|||||0.969|0.470|0.0324
92166263|NCT00463788|184221552|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.821||||0.3121|TWO_SIDED|95.0|0.561|1.204|||Log Rank|||||1.204|0.561|0.3121
92166264|NCT00463788|184221553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.754||||0.5993|TWO_SIDED|95.0|0.262|2.17|||Log Rank|||||2.170|0.262|0.5993
92166265|NCT00360698|184221555|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.68||||0.0499||95.0|0.01|28.37|||Chi-squared||Difference in percentage between groups: Insulin Glulisine+Insulin Glargine+Metformin+Glimepiride group - Insulin Glargine+Metformin+Glimepiride group|The null-hypothesis stated no differences between the 2 treatment groups regarding the percentage of patients with Glycosylated Haemoglobin (HbA1c) level \<7%. A sample size of 98 randomized (49/arm) patients would allow to demonstrate with 80% power that 40 % of patients in the Insulin Glulisine+Insulin Glargine+Metformin+Glimepiride group would achieve a HbA1c level \< 7 % compared to 15 % of patients in the Insulin Glargine+Metformin+Glimepiride group(5% alpha risk, 2-sided test).||28.37|0.01|0.0499
92166266|NCT00360698|184221557|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.116||0.029||95.0|-0.49|-0.03||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|ANCOVA|The analysis is an ANCOVA analysis on the change with group as fixed effect and baseline HbA1c as covariate|Difference between groups: Insulin Glulisine+Insulin Glargine+Metformin+Glimepiride group - Insulin Glargine+Metformin+Glimepiride group|The null-hypothesis stated no difference between the 2 treatment groups regarding the adjusted mean change from baseline in Glycosylated Haemoglobin (HbA1c) at the end of treatment.||-0.03|-0.49|0.029
92166267|NCT00360698|184221559|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.94|STANDARD_ERROR_OF_MEAN|4.987||0.0109||95.0|-22.83|-3.04||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|ANCOVA|The analysis is an ANCOVA analysis on the change with group as fixed effect and baseline daily mean plasma glucose as covariate|Difference between groups: Insulin Glulisine+Insulin Glargine+Metformin+Glimepiride group - Insulin Glargine+Metformin+Glimepiride group|The null-hypothesis stated no differences between the 2 treatment groups regarding the adjusted mean change from baseline in daily mean plasma glucose at the end of treatment.||-3.04|-22.83|0.0109
92224460|NCT01535729|184350458|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.162|STANDARD_ERROR_OF_MEAN|0.212||0.479|TWO_SIDED|95.0|0.767|1.759|||Wald Chi-Squares|||Comparison between ≥ 80 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||1.759|0.767|0.479
92224461|NCT01535729|184350459|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.732|STANDARD_ERROR_OF_MEAN|0.129||0.015|TWO_SIDED|95.0|0.569|0.941|||Wald Chi-Squares|||Comparison between female and male was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor gender.||0.941|0.569|0.015
92224462|NCT01535729|184350460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.902|STANDARD_ERROR_OF_MEAN|0.156||0|TWO_SIDED|95.0|1.402|2.582|||Wald Chi-Squares|||Comparison between ex-smoker and non-smoker was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor smoking.||2.582|1.402|0.000
92224463|NCT01535729|184350460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.786|STANDARD_ERROR_OF_MEAN|0.183||0.002|TWO_SIDED|95.0|1.248|2.557|||Wald Chi-Squares|||Comparison between smoker and non-smoker was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor smoking.||2.557|1.248|0.002
92224464|NCT01535729|184350463|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.717|STANDARD_ERROR_OF_MEAN|0.15||0.027|TWO_SIDED|95.0|0.535|0.962|||Wald Chi-Squares|||Comparison between female and male was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor gender.||0.962|0.535|0.027
92224465|NCT01535729|184350464|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.935|STANDARD_ERROR_OF_MEAN|0.179||0|TWO_SIDED|95.0|1.362|2.749|||Wald Chi-Squares|||Comparison between ex-smoker and non-smoker was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor smoking.||2.749|1.362|0.000
92224466|NCT01535729|184350464|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.882|STANDARD_ERROR_OF_MEAN|0.213||0.003|TWO_SIDED|95.0|1.239|2.859|||Wald Chi-Squares|||Comparison between smoker and non-smoker was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor smoking.||2.859|1.239|0.003
92224467|NCT02814565|184350577|SUPERIORITY|||||||0.6179|TWO_SIDED|95.0|||||Wilcoxon Rank Sum test|||The 2-sample Wilcoxon rank sum test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.6179
92224468|NCT02814565|184350578|SUPERIORITY|||||||0.4338|||||||Wilcoxon Rank Sum Test|||Day 7. The 2-sample Wilcoxon rank sum test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.4338
92224469|NCT02814565|184350578|SUPERIORITY|||||||0.1657|||||||Wilcoxon Rank Sum Test|||Day 14. The 2-sample Wilcoxon rank sum test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.1657
92224470|NCT02814565|184350579|SUPERIORITY|||||||0.0393|||||||Wilcoxon Sum Rank Test|||The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0393
92224471|NCT02814565|184350580|SUPERIORITY|||||||0.033|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0330
92224472|NCT02814565|184350580|SUPERIORITY|||||||0.0262|||||||Wilcoxon Sum Rank Test|||Day 15. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0262
92224473|NCT02814565|184350581|SUPERIORITY|||||||0.5756|||||||Wilcoxon Sum Rank Test|||Day 3. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.5756
92224474|NCT02814565|184350581|SUPERIORITY|||||||0.4395|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.4395
92224475|NCT02814565|184350581|SUPERIORITY|||||||0.0905|||||||Wilcoxon Sum Rank Test|||Day 14. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0905
92224476|NCT02814565|184350582|SUPERIORITY|||||||1|||||||Fisher Exact|||"Day 3. A two-tailed Fisher's exact test to compare the number of responders between the Placebo and the Cyclobenzaprine HCl 15 mg treatment group to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance."||||1.0000
92364299|NCT00363311|184631048|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.59||||0.031||95.0|0.36|0.96||Statistical data are for Year 1.5|Log Rank|||||0.96|0.36|0.031
92364300|NCT00363311|184631048|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.7||||0.079||95.0|0.46|1.05||Statistical data are for Overall (Years 0-3)|Log Rank|||||1.05|0.46|0.079
92364301|NCT00363311|184631049|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Fisher Exact|||||||0.65
92364302|NCT00363311|184631050|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Fisher Exact|||||||0.024
92364303|NCT00363311|184631057|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.20
92364304|NCT00363311|184631058|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.039
92364305|NCT00363311|184631060|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.80
92364306|NCT00363311|184631061|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Fisher Exact|||||||0.12
92364307|NCT02525679|184631110|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.5968|STANDARD_ERROR_OF_MEAN|0.1047|||TWO_SIDED|95.0|1.3784|1.8151|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error (SE) of the mean is actually SE of the slope.|Dose proportionality in plasma for Cmax (log-transformed scale) was explored based on the linear regression model.||1.8151|1.3784|
92364308|NCT02525679|184631110|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.0207|STANDARD_ERROR_OF_MEAN|0.0261|||TWO_SIDED|95.0|0.9668|1.0747|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error (SE) of the mean is actually SE of the slope.|Dose proportionality in plasma for Cmax (log-transformed scale) was explored based on the linear regression model.||1.0747|0.9668|
92166268|NCT00360698|184221560|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.431||0.5762||95.0|-0.61|1.1||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|ANCOVA|The analysis is an ANCOVA analysis on the change with group as fixed effect and baseline weight as covariate|Difference between groups: Insulin Glulisine+Insulin Glargine+Metformin+Glimepiride group - Insulin Glargine+Metformin+Glimepiride group|The null-hypothesis stated no differences between the 2 treatment groups regarding the adjusted mean change from baseline in weight at the end of treatment.||1.1|-0.61|0.5762
92166269|NCT00360698|184221563|SUPERIORITY_OR_OTHER|||||||0.958||95.0||||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|Wilcoxon (Mann-Whitney)|||The null-hypothesis stated no difference between the 2 treatment groups regarding the rate of symptomatic hypoglycemia with plasma glucose \<70 mg/dL during the treatment period.||||0.958
92403901|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.05||||0.7771|TWO_SIDED|95.0|0.76|1.45|||Cochran-Mantel-Haenszel|||Social functioning, Completion of Treatment/ Early Termination Visit||1.45|0.76|0.7771
92403902|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.8542|TWO_SIDED|95.0|0.64|1.45|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 3 Months||1.45|0.64|0.8542
92403903|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.5||||0.123|TWO_SIDED|95.0|0.9|2.5|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 6 Months||2.50|0.90|0.1230
92403904|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.72||||0.1089|TWO_SIDED|95.0|0.88|3.34|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 9 Months||3.34|0.88|0.1089
92403905|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|5.82||||0.0011|TWO_SIDED|95.0|1.85|18.3|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 12 Months||18.30|1.85|0.0011
92403906|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.51||||0.295|TWO_SIDED|95.0|0.43|14.74|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 18 Months||14.74|0.43|0.2950
92403907|NCT03038100|184699205|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|33.33|||||TWO_SIDED|95.0|-37.72|100.0||||||Social functioning, Post-Treatment Follow Up 24 Months||100.00|-37.72|
92403908|NCT00918255|184699210|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Cochran-Mantel-Haenszel|||||||0.022
92403909|NCT00918255|184699210|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.025
92403910|NCT00918255|184699210|SUPERIORITY_OR_OTHER|||||||0.252||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.252
92403911|NCT00918255|184699211|SUPERIORITY_OR_OTHER|||||||0.062||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|ANCOVA|||||||0.062
92403912|NCT00918255|184699211|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||ANCOVA|Analyzed using ANCOVA adjusting for Baseline Hurley Stage (I/II vs III).||||||0.019
92166270|NCT00360698|184221564|SUPERIORITY_OR_OTHER|||||||0.302||95.0||||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|Wilcoxon (Mann-Whitney)|||The null-hypothesis stated no difference between the 2 treatment groups regarding the rate of nocturnal symptomatic hypoglycemia with plasma glucose \<70 mg/dL during the treatment period.||||0.302
92166271|NCT00360698|184221565|SUPERIORITY_OR_OTHER|||||||0.192||95.0||||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|Wilcoxon (Mann-Whitney)|||The null-hypothesis stated no difference between the 2 treatment groups regarding the rate of severe symptomatic hypoglycemia during the treatment period.||||0.192
92224477|NCT02814565|184350582|SUPERIORITY|||||||1|||||||Fisher Exact|||"Day 7. A two-tailed Fisher's exact test to compare the number of responders between the Placebo and the Cyclobenzaprine HCl 15 mg treatment group to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance."||||1.0000
92403913|NCT00918255|184699211|SUPERIORITY_OR_OTHER|||||||0.286||95.0|||||ANCOVA|Analyzed using ANCOVA adjusting for Baseline Hurley Stage (I/II vs III).||||||0.286
92403914|NCT00918255|184699212|SUPERIORITY_OR_OTHER|||||||1||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Cochran-Mantel-Haenszel|||||||1.000
92403915|NCT00918255|184699212|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||1.000
92403916|NCT00918255|184699212|SUPERIORITY_OR_OTHER|||||||0.097||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.097
92403917|NCT00918255|184699213|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Cochran-Mantel-Haenszel|||||||0.044
92403918|NCT00918255|184699213|SUPERIORITY_OR_OTHER|||||||0.051||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.051
92403919|NCT00918255|184699213|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.320
92403920|NCT00918255|184699214|SUPERIORITY_OR_OTHER|||||||1||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Cochran-Mantel-Haenszel|||||||1.000
92403921|NCT00918255|184699214|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||1.000
92403922|NCT00918255|184699214|SUPERIORITY_OR_OTHER|||||||0.673||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.673
92403923|NCT00918255|184699215|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Cochran-Mantel-Haenszel|||||||0.012
92403924|NCT00918255|184699215|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.020
92403925|NCT00918255|184699215|SUPERIORITY_OR_OTHER|||||||0.721||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.721
92276841|NCT00591253|184455291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0||||0.001|TWO_SIDED|95.0|-7.97|-2.04||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-2.04|-7.97|0.001
92403926|NCT00918255|184699216|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Van Elteren test|||||||0.045
92403927|NCT00918255|184699216|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Van Elteren test|Analyzed using Van Elteren test stratified by Hurley Stage.||||||0.014
92403928|NCT00918255|184699216|SUPERIORITY_OR_OTHER|||||||0.169||95.0|||||Van Elteren test|Analyzed using Van Elteren test stratified by Hurley Stage.||||||0.169
92403929|NCT02392624|184699219|SUPERIORITY||Clinical Worsening Rate Difference|-39.4|||<|0.0001|TWO_SIDED|95.0|-54.5|-22.5|||Chi-squared|||For participants who transitioned to open-label omalizumab, data prior to the date of transitioning was used for analysis.||-22.5|-54.5|<0.0001
92403930|NCT02392624|184699220|SUPERIORITY||||||<|0.0001|||||||Log Rank|||For participants who transitioned to open-label omalizumab, data prior to the date of transitioning was used for analysis.||||<0.0001
92403931|NCT02392624|184699221|SUPERIORITY||Clinical Worsening Rate Difference|-32.1||||0.0004|TWO_SIDED|95.0|-47.9|-14.9|||Chi-squared|||For participants who transitioned to open-label omalizumab, data prior to the date of transitioning was used for analysis.||-14.9|-47.9|0.0004
92403932|NCT02392624|184699222|OTHER||||||<|0.0001|||||||One-sample t-test, 1 sided|The p-value from this test was used to determine the importance of continued treatment in this study. P-value is one-sided with alpha = 0.05.||The null hypothesis for this test was that the mean change from Week 24 to Week 48 in UAS7 score was \>/=5 and the alternative hypothesis was that the mean change from Week 24 to Week 48 in UAS7 score was \<5.||||<0.0001
92403933|NCT02392624|184699223|OTHER||||||<|0.0001|||||||One-sample t-test, 2 sided|The p-value from this test was used to evaluate the importance of retreatment after experiencing clinical worsening.||The null hypothesis for this test was that the mean change from the time of retreatment to 12 weeks after retreatment in UAS7 was zero and the alternative hypothesis was that this change was non-zero.||||<0.0001
92403934|NCT03841604|184699225|SUPERIORITY||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.52||0.1695|TWO_SIDED|95.0|-1.75|0.32|||Mixed Model Repeated Measures|||||0.32|-1.75|0.1695
92166272|NCT01755949|184221566|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||Baseline C-reactive protein vs day 28 C-reactive protein||||0.038
92403935|NCT03841604|184699226|OTHER||Least square mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.55||0.0784|TWO_SIDED|95.0|-2.1|0.12|||Mixed Model Repeated Measures|||||0.12|-2.1|0.0784
92403936|NCT03841604|184699227|OTHER||Risk Difference (RD)|-0.23||||0.0744|TWO_SIDED|95.0|-0.45|-0.01|||Cochran-Mantel-Haenszel|||||-0.01|-0.45|0.0744
92403937|NCT03841604|184699228|OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7247|TWO_SIDED|95.0|-0.7|0.49|||Mixed Model Repeated Measures|||||0.49|-0.70|0.7247
92403938|NCT03841604|184699229|OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.9052|TWO_SIDED|95.0|-0.43|0.38|||Mixed Model Repeated Measures|||||0.38|-0.43|0.9052
92403939|NCT03841604|184699230|OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.37||0.7115|TWO_SIDED|95.0|-0.61|0.88|||Mixed Model Repeated Measures|||||0.88|-0.61|0.7115
92403940|NCT03841604|184699231|SUPERIORITY||Risk Difference (RD)|0.04||||0.1967|TWO_SIDED|95.0|-0.04|0.12|||Cochran-Mantel-Haenszel|||||0.12|-0.04|0.1967
92403941|NCT03841604|184699232|SUPERIORITY||Risk Difference (RD)|0.06||||0.5122|TWO_SIDED|95.0|-0.13|0.26|||Cochran-Mantel-Haenszel|||||0.26|-0.13|0.5122
92403942|NCT03841604|184699234|OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|1.29||0.7376|TWO_SIDED|95.0|-3.03|2.16|||ANCOVA|||||2.16|-3.03|0.7376
92403943|NCT03841604|184699235|OTHER||Mean Difference (Net)|-2.5|STANDARD_ERROR_OF_MEAN|3.92||0.5349|TWO_SIDED|95.0|-10.33|5.43|||Mixed Model Repeated Measures|||||5.43|-10.33|0.5349
92403944|NCT01337960|184699236|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Fisher Exact|||||||< 0.01
92403945|NCT01337960|184699237|SUPERIORITY_OR_OTHER||||||<|0.02|TWO_SIDED||||||Fisher Exact|||||||<.02
92403946|NCT01337960|184699238|SUPERIORITY_OR_OTHER||||||=|0.17|TWO_SIDED||||||Fisher Exact|||||||=0.17
92403947|NCT01337960|184699239|SUPERIORITY_OR_OTHER||||||=|0.35|TWO_SIDED||||||Fisher Exact|||||||=0.35
92166273|NCT01755949|184221566|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||Baseline C-reactive protein vs day 28 C-reactive protein||||0.98
92166274|NCT01755949|184221566|SUPERIORITY|||||||0.072|||||||t-test, 2 sided|||difference between placebo and colchicine levels at day 28||||0.072
92166275|NCT01755949|184221567|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||placebo vs colchicine||||0.08
92166276|NCT01667796|184221595|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||univariate generalized estimating equati|||||||0.001
92166277|NCT01667796|184221595|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||Adjusted for adherence, body mass index, and oral contraceptive use|Generalized estimating equation|||||||0.008
92166278|NCT02200770|184221604|SUPERIORITY||Hazard Ratio (HR)|0.272|||<|0.0001|TWO_SIDED|95.0|0.1496|0.4961|||Regression, Cox|||||0.4961|0.1496|<0.0001
92166279|NCT02200770|184221605|SUPERIORITY||Odds Ratio (OR)|0.352||||0.0033|TWO_SIDED|95.0|0.1755|0.7059|||Regression, Logistic|||||0.7059|0.1755|0.0033
92166280|NCT02200770|184221606|SUPERIORITY||Mean Difference (Net)|0.134|STANDARD_ERROR_OF_MEAN|1.096||0.9026|TWO_SIDED|95.0|-2.0254|2.2941|||ANCOVA|||||2.2941|-2.0254|0.9026
92166281|NCT02200770|184221607|SUPERIORITY||Rate Ratio|0.566||||0.0034|TWO_SIDED|95.0|0.3866|0.8279|||Negative Binomial Regression|||||0.8279|0.3866|0.0034
92166282|NCT02200770|184221608|SUPERIORITY||Rate Ratio|0.317||||0.0146|TWO_SIDED|95.0|0.1257|0.7972|||Negative Binomial Regression|||||0.7972|0.1257|0.0146
92166283|NCT00457743|184221666|SUPERIORITY_OR_OTHER||Disease control Rate (percentage)|56.7||||||95.0|37.4|74.5|||||The disease control rate, defined as the percentage of subjects confirmed with CR, PR, and SD \>=10 weeks on study according to RECIST.|||74.5|37.4|
92166284|NCT00457743|184221668|SUPERIORITY_OR_OTHER||Objective Response Rate(percentage)|13.3||||||95.0|3.8|30.7|||||The subjects confirmed with complete response (CR) and partial response (PR) according to Response Evaluation Criteria in Solid Tumors (RECIST).|||30.7|3.8|
92224478|NCT02814565|184350582|SUPERIORITY|||||||0.2757|||||||Fisher Exact|||"Day 14. A two-tailed Fisher's exact test to compare the number of responders between the Placebo and the Cyclobenzaprine HCl 15 mg treatment group to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance."||||0.2757
92224479|NCT02814565|184350583|SUPERIORITY|||||||0.302|||||||Wilcoxon Sum Rank Test|||Day 3. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.3020
92224480|NCT02814565|184350583|SUPERIORITY|||||||0.2367|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.2367
92224481|NCT02814565|184350583|SUPERIORITY|||||||0.025|||||||Wilcoxon Sum Rank Test|||Day 15. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0250
92224482|NCT02814565|184350584|SUPERIORITY|||||||0.4428|||||||Wilcoxon Sum Rank Test|||Day 3. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.4428
92224483|NCT02814565|184350584|SUPERIORITY|||||||0.1163|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.1163
92224484|NCT02814565|184350584|SUPERIORITY|||||||0.0489|||||||Wilcoxon Sum Rank Test|||Day 15. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0489
92224485|NCT02814565|184350585|SUPERIORITY|||||||0.5275|||||||Wilcoxon Sum Rank Test|||Day 3. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.5275
92224486|NCT02814565|184350585|SUPERIORITY|||||||0.088|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0880
92224487|NCT02814565|184350585|SUPERIORITY|||||||0.2542|||||||Wilcoxon Sum Rank Test|||Day 15. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.2542
92364309|NCT02525679|184631112|SUPERIORITY_OR_OTHER_LEGACY||Slope|2.7123|STANDARD_ERROR_OF_MEAN|0.2525|||TWO_SIDED|95.0|2.1856|3.2389|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error (SE) of the mean is actually SE of the slope.|Dose proportionality in plasma for AUC(0-tz) (log-transformed scale) was explored based on the linear regression model.||3.2389|2.1856|
92364310|NCT02525679|184631112|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.0003|STANDARD_ERROR_OF_MEAN|0.0253|||TWO_SIDED|95.0|0.9482|1.0525|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error (SE) of the mean is actually SE of the slope.|Dose proportionality in plasma for AUC(0-tz) (log-transformed scale) was explored based on the linear regression model.||1.0525|0.9482|
92364311|NCT02629861|184631113|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
92364312|NCT02629861|184631113|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
92364313|NCT02629861|184631115|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 1 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||<0.0001
92364314|NCT02629861|184631115|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 1 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||<0.0001
92364315|NCT02629861|184631115|SUPERIORITY|||||||0.0032||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 2 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||0.0032
92364316|NCT02629861|184631115|SUPERIORITY|||||||0.001||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 2 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||0.0010
92364317|NCT02629861|184631115|SUPERIORITY|||||||0.0048||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 3 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||0.0048
92364318|NCT02629861|184631115|SUPERIORITY|||||||0.0003||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 3 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||0.0003
92364319|NCT02629861|184631115|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Overall P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||<0.0001
92364320|NCT02629861|184631115|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Overall P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||<0.0001
92224488|NCT02814565|184350586|SUPERIORITY|||||||0.692|||||||Wilcoxon Sum Rank Test|||Day 3. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.6920
92224489|NCT02814565|184350586|SUPERIORITY|||||||0.0749|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0749
92224490|NCT02814565|184350586|SUPERIORITY|||||||0.2371|||||||Wilcoxon Sum Rank Test|||Day 15. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.2371
92224491|NCT01978093|184350595|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the difference (HibCY group minus the PedHIB group) in the percentage of subjects with anti-PRP concentrations ≥1.0 mg/mL is to be≥-10% (clinical limit for non-inferiority).|Difference in percentage of subjects|0.96|||||TWO_SIDED|95.0|-2.12|4.3|||Group difference in proportions|Before concluding on the primary objectives for Rotarix, Prevnar 13 and Havrix, this primary objective regarding anti-PRP needs to be reached||Difference between HibCY and PedHIB groups in percentage of subjects with anti-PRP concentrations equal to or above the cut-off value of 1.0 µg/mL one month after the fourth dose in HibCY Group and third dose in PedHIB Group.||4.30|-2.12|
92224492|NCT01978093|184350596|NON_INFERIORITY|Non-inferiority is concluded if lower limit of the two-sided standardized asymptotic 97.5% CI on the ratio of anti-rotavirus IgA GMC (HibCY group over PedHIB group) is to be ≥0.5|Adjusted GMC ratios|1.21|||||TWO_SIDED|97.5|0.77|1.9|||ANCOVA|GMC adjusted for BS sub-cohorts;97.5% confidence interval calculated for adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 Post dose 3)\& Epoch 002 (Havrix \& Prevnar13 post dose 4),a Bonferroni correction is used in order to test these objectives(1.25% 1sided for Epoch 001 \& 002)|GMC ratios between HibCY and PedHIB groups for anti-Rota IgA concentrations 2 months after the second dose of Rotarix vaccine||1.90|0.77|
92224493|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 1 is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.18|||||TWO_SIDED|97.5|0.95|1.47|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio (Ancova Model: adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix \& Prevnar13 post dose 4),Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 1 concentrations one month after the third dose.||1.47|0.95|
92224494|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 3 is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.15|||||TWO_SIDED|97.5|0.93|1.42|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 3 concentrations one month after the third dose.||1.42|0.93|
92224495|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 4 is to be≥ 0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.08|||||TWO_SIDED|97.5|0.9|1.31|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 4 concentrations one month after the third dose.||1.31|0.90|
92224496|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 5 is to be ≥ 0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.18|||||TWO_SIDED|97.5|0.95|1.47|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 5 concentrations one month after the third dose.||1.47|0.95|
92224497|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 6A is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.29|||||TWO_SIDED|97.5|1.03|1.63|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 6A concentrations one month after the third dose.||1.63|1.03|
92364321|NCT02629861|184631116|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint||||<0.0001
92364322|NCT02629861|184631116|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint||||<0.0001
92364323|NCT02629861|184631117|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint||||<0.0001
92403948|NCT03763877|184699270|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|7.926||0.9883|TWO_SIDED|95.0|-15.42|15.66|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||15.66|-15.42|0.9883
92403949|NCT03763877|184699270|SUPERIORITY||Mean Difference (Final Values)|-13.14|STANDARD_ERROR_OF_MEAN|7.609||0.0842|TWO_SIDED|95.0|-28.06|1.78|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||1.78|-28.06|0.0842
92403950|NCT03763877|184699270|SUPERIORITY||Mean Difference (Final Values)|-13.54|STANDARD_ERROR_OF_MEAN|7.636||0.0763|TWO_SIDED|95.0|-28.51|1.43|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||1.43|-28.51|0.0763
92403951|NCT03763877|184699271|SUPERIORITY||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|7.265||0.8283|TWO_SIDED|95.0|-16.01|12.85|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||12.85|-16.01|0.8283
92403952|NCT03763877|184699271|SUPERIORITY||Mean Difference (Final Values)|-13.25|STANDARD_ERROR_OF_MEAN|7.221||0.0698|TWO_SIDED|95.0|-27.6|1.1|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||1.10|-27.60|0.0698
92403953|NCT03763877|184699271|SUPERIORITY||Mean Difference (Final Values)|-17.31|STANDARD_ERROR_OF_MEAN|7.207||0.0184|TWO_SIDED|95.0|-31.63|-2.99|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||-2.99|-31.63|0.0184
92403954|NCT03763877|184699272|SUPERIORITY||Location Shift|-4.22||||0.5537|TWO_SIDED|95.0|-15.64|8.65|||Wilcoxon (Mann-Whitney)|||||8.65|-15.64|0.5537
92403955|NCT03763877|184699272|SUPERIORITY||Location Shift|-13.64||||0.1005|TWO_SIDED|95.0|-26.19|1.88|||Wilcoxon (Mann-Whitney)|||||1.88|-26.19|0.1005
92166285|NCT00457743|184221677|SUPERIORITY_OR_OTHER||CBR rate (percentage)|40.0||||||95.0|22.7|59.4|||||The clinical benefit response (CBR) rate, defined as the percentage of the subjects confirmed with CR, PR, or SD\>=22 weeks on study according to Response Evaluation Criteria in Solid Tumors (RECIST).|||59.4|22.7|
92166286|NCT00357097|184221736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|||<|0.001||95.0|-5.6|-1.6|||ANCOVA||Mean difference = Ropinirole minus Placebo. Used adjusted change from baseline.|||-1.6|-5.6|<0.001
92166287|NCT00385801|184221772|SUPERIORITY_OR_OTHER|||||||0.86||||||The effect of treatment on intensity of craving was assessed and the threshold for statistical significance was p \< 0.05|Mixed Models Analysis|F=0.03||Intensity of craving||||0.86
92166288|NCT03603717|184221774|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
92166289|NCT03603717|184221775|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92166290|NCT03603717|184221776|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|||||||0.84
92166291|NCT03603717|184221777|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92166292|NCT03505099|184221779|SUPERIORITY||Difference of Proportion|76.5|||<|0.0001|TWO_SIDED|95.0|50.95|92.21|||Fisher Exact||||Data for the current study were compared to historical control data (Finkel et al, 2014 - PubMed 25080519) where 19 out of 81 participants (23.46%) with 3 copies of SMN2 achieved standing alone for at least 3 seconds.|92.21|50.95|<0.0001
92166293|NCT03505099|184221780|SUPERIORITY||Difference of Proportion|73.9|||<|0.0001|TWO_SIDED|95.0|44.67|91.61|||Fisher Exact||||Data for the current study were compared to historical control data (Finkel et al 2014 - PubMed 25080519) where 6 out of 23 participants (26.09%) with 2 copies of SMN2 were alive and did not require permanent ventilation.|91.61|44.67|<0.0001
92166294|NCT03505099|184221782|SUPERIORITY||Difference of Proportion|72.3|||<|0.0001|TWO_SIDED|95.0|44.9|90.11|||Fisher Exact||||Data for the current study were compared to historical control data (Finkel et al, 2014 - PubMed 25080519) where 17 out of 81 participants (20.99%) with 3 copies of SMN2 achieved the ability to walk alone.|90.11|44.90|<0.0001
92166295|NCT00457691|184221788|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.095||||0.8072|TWO_SIDED|95.0|0.892|1.344||p-value from 1-sided log-rank test, stratified by Eastern Cooperative Oncology Group (ECOG) performance status, organ sites with disease, primary tumor site, prior adjuvant treatment|Log Rank|||||1.344|0.892|0.8072
92166296|NCT00457691|184221789|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.171||||0.9163|TWO_SIDED|95.0|0.936|1.466||p-value from 1-sided log-rank test, stratified by ECOG performance status, organ sites with disease, primary tumor site, prior adjuvant treatment|Log Rank|||||1.466|0.936|0.9163
92166297|NCT00722046|184221843|SUPERIORITY||Least Squares (LS) Mean Difference|1.38|STANDARD_ERROR_OF_MEAN|3.04||0.6504|TWO_SIDED|90.0|-3.68|6.45|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||6.45|-3.68|0.6504
92166298|NCT00722046|184221843|SUPERIORITY||LS Mean Difference|2.02|STANDARD_ERROR_OF_MEAN|3.13||0.5213|TWO_SIDED|90.0|-3.2|7.23|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||7.23|-3.20|0.5213
92224498|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 6B is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.17|||||TWO_SIDED|97.5|0.88|1.55|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 6B concentrations one month after the third dose.||1.55|0.88|
92224499|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 7F is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.11|||||TWO_SIDED|97.5|0.91|1.34|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 7F concentrations one month after the third dose.||1.34|0.91|
92224500|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 9V is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.25|||||TWO_SIDED|97.5|1.0|1.55|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 9V concentrations one month after the third dose.||1.55|1.00|
92224501|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 14 is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.16|||||TWO_SIDED|97.5|0.9|1.5|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 14 concentrations one month after the third dose.||1.50|0.90|
92224502|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 18C is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.24|||||TWO_SIDED|97.5|1.01|1.52|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 18C concentrations one month after the third dose.||1.52|1.01|
92403956|NCT03763877|184699272|SUPERIORITY||Location Shift|-18.72||||0.0387|TWO_SIDED|95.0|-31.95|-1.58|||Wilcoxon (Mann-Whitney)|||||-1.58|-31.95|0.0387
92403957|NCT03763877|184699273|SUPERIORITY||Mean Difference (Final Values)|7.25|STANDARD_ERROR_OF_MEAN|0.5733||0.5733|TWO_SIDED|95.0|-18.0|32.51|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||32.51|-18.00|0.5733
92403958|NCT03763877|184699273|SUPERIORITY||Mean Difference (Final Values)|-10.61|STANDARD_ERROR_OF_MEAN|12.236||0.3861|TWO_SIDED|95.0|-34.6|13.38|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||13.38|-34.60|0.3861
92403959|NCT03763877|184699273|SUPERIORITY||Mean Difference (Final Values)|-21.13|STANDARD_ERROR_OF_MEAN|12.916||0.1019|TWO_SIDED|95.0|-46.46|4.19|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||4.19|-46.46|0.1019
92403960|NCT03763877|184699274|SUPERIORITY||Mean Difference (Final Values)|-0.242|STANDARD_ERROR_OF_MEAN|1.3873||0.8617|TWO_SIDED|95.0|-2.961|2.478|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||2.478|-2.961|0.8617
92224503|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 19A is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.16|||||TWO_SIDED|97.5|0.94|1.43|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 19A concentrations one month after the third dose.||1.43|0.94|
92403961|NCT03763877|184699274|SUPERIORITY||Mean Difference (Final Values)|-2.571|STANDARD_ERROR_OF_MEAN|1.3712||0.0609|TWO_SIDED|95.0|-5.26|0.117|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method|||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|0.117|-5.260|0.0609
92403962|NCT03763877|184699274|SUPERIORITY||Mean Difference (Final Values)|-2.414|STANDARD_ERROR_OF_MEAN|1.3633||0.0766|TWO_SIDED|95.0|-5.087|0.258|||ANCOVA|ANCOVA using a multiple imputation procedure based on the fully conditional specification method|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||0.258|-5.087|0.0766
92403963|NCT03763877|184699275|SUPERIORITY||Odds Ratio (OR)|1.744||||0.5592|TWO_SIDED|95.0|0.27|11.267|||Regression, Logistic|Logistic regression with multiple imputation||||11.267|0.270|0.5592
92224504|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 19F is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.07|||||TWO_SIDED|97.5|0.89|1.29|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 19F concentrations one month after the third dose.||1.29|0.89|
92224505|NCT01978093|184350597|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 23F is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.18|||||TWO_SIDED|97.5|0.91|1.53|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 23F concentrations one month after the third dose.||1.53|0.91|
92276842|NCT00591253|184455291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.78|||<|0.001|TWO_SIDED|95.0|-10.69|-4.86||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-4.86|-10.69|<0.001
92276843|NCT00591253|184455292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.48|||<|0.001|TWO_SIDED|95.0|-10.18|-2.78||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-2.78|-10.18|<0.001
92276844|NCT00591253|184455292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.54|||<|0.001|TWO_SIDED|95.0|-10.27|-2.81||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-2.81|-10.27|<0.001
92276845|NCT00591253|184455293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44||||0.001|TWO_SIDED|95.0|-5.47|-1.4||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.40|-5.47|0.001
92276846|NCT00591253|184455293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.77|||<|0.001|TWO_SIDED|95.0|-7.78|-3.77||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.77|-7.78|<0.001
92276847|NCT00591253|184455294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12||||0.004|TWO_SIDED|95.0|-5.22|-1.02||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.02|-5.22|0.004
92276848|NCT00591253|184455294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.96||||0.006|TWO_SIDED|95.0|-5.08|-0.84||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.84|-5.08|0.006
92276849|NCT00591253|184455295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.09||||0.001|TWO_SIDED|95.0|-8.14|-2.04||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.04|-8.14|0.001
92276850|NCT00591253|184455295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.97|||<|0.001|TWO_SIDED|95.0|-10.96|-4.97||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.97|-10.96|<0.001
92276851|NCT00591253|184455296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.74|||<|0.001|TWO_SIDED|95.0|-5.86|-1.61||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.61|-5.86|<0.001
92276852|NCT00591253|184455296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|||<|0.001|TWO_SIDED|95.0|-7.99|-3.81||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.81|-7.99|<0.001
92276853|NCT00591253|184455297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.91||||0.008|TWO_SIDED|95.0|-8.54|-1.27||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.27|-8.54|0.008
92276854|NCT00591253|184455297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.27|||<|0.001|TWO_SIDED|95.0|-10.85|-3.69||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.69|-10.85|<0.001
92276855|NCT00591253|184455298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.05||||0.024|TWO_SIDED|95.0|-5.69|-0.4||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.40|-5.69|0.024
92364324|NCT02629861|184631117|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint||||<0.0001
92364325|NCT02629861|184631118|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint.||||<0.0001
92364326|NCT02629861|184631118|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint.||||<0.0001
92403964|NCT03763877|184699275|SUPERIORITY||Odds Ratio (OR)|2.287||||0.3747|TWO_SIDED|95.0|0.368|14.208|||Regression, Logistic|Logistic regression with multiple imputation||||14.208|0.368|0.3747
92403965|NCT03763877|184699275|SUPERIORITY||Odds Ratio (OR)|5.669||||0.0501|TWO_SIDED|95.0|1.0|32.149|||Regression, Logistic|Logistic regression with multiple imputation||||32.149|1.000|0.0501
92403966|NCT03763877|184699276|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|3.71||0.8013|TWO_SIDED|95.0|-8.3|6.4|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||6.4|-8.3|0.8013
92403967|NCT03763877|184699276|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|3.81||0.8694|TWO_SIDED|95.0|-8.2|7.0|||Mixed Models Analysis|Mixed Model Repeated Measures|||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|7.0|-8.2|0.8694
92403968|NCT03763877|184699276|SUPERIORITY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|3.8||0.0581|TWO_SIDED|95.0|-14.9|0.3|||Mixed Models Analysis|Mixed Model Repeated Measures|||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|0.3|-14.9|0.0581
92403969|NCT03763877|184699277|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|2.44||0.6681|TWO_SIDED|95.0|-3.8|5.9|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||5.9|-3.8|0.6681
92403970|NCT03763877|184699277|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|2.51||0.8224|TWO_SIDED|95.0|-4.4|5.5|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||5.5|-4.4|0.8224
92403971|NCT03763877|184699277|SUPERIORITY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|2.5||0.0924|TWO_SIDED|95.0|-9.2|0.7|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.7|-9.2|0.0924
92403972|NCT03763877|184699278|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.256||0.5148|TWO_SIDED|95.0|-0.68|0.34|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.34|-0.68|0.5148
92403973|NCT03763877|184699278|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.261||0.0434|TWO_SIDED|95.0|-1.05|-0.02|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-0.02|-1.05|0.0434
92403974|NCT03763877|184699278|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.261||0.0494|TWO_SIDED|95.0|-1.04|0.0|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.00|-1.04|0.0494
92403975|NCT03763877|184699279|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.111||0.2449|TWO_SIDED|95.0|-0.35|0.09|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||0.09|-0.35|0.2449
92403976|NCT03763877|184699279|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.115||0.0502|TWO_SIDED|95.0|-0.46|0.0|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||0.00|-0.46|0.0502
92403977|NCT03763877|184699279|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.113||0.0123|TWO_SIDED|95.0|-0.51|-0.06|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||-0.06|-0.51|0.0123
92224506|NCT01978093|184350598|NON_INFERIORITY|Lower limit of the two-sided standardized asymptotic 97.5% CI on the difference (HibCY group minus the PedHIB group) in the percentage of subjects with anti-HAV concentrations ≥15 mIU/mL is to be≥-10% (clinical limit for non-inferiority).|Difference in percentage of subjects|0.0|||||TWO_SIDED|97.5|-3.76|3.91|||Group difference in proportions||To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix \& Prevnar13 post dose 4),Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|Difference between HibCY and PedHIB groups in percentage of subjects with anti-HAV concentrations equal to or above the cut-off value of 15 mIU/mL one month after the second Havrix dose.||3.91|-3.76|
92276856|NCT00591253|184455298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.79|||<|0.001|TWO_SIDED|95.0|-8.39|-3.19||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.19|-8.39|<0.001
92403978|NCT03763877|184699280|SUPERIORITY||Mean Difference (Final Values)|-0.251|STANDARD_ERROR_OF_MEAN|0.2172||0.251|TWO_SIDED|95.0|-0.682|0.18|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.180|-0.682|0.2510
92403979|NCT03763877|184699280|SUPERIORITY||Mean Difference (Final Values)|-0.049|STANDARD_ERROR_OF_MEAN|0.2202||0.8246|TWO_SIDED|95.0|-0.486|0.388|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.388|-0.486|0.8246
92403980|NCT03763877|184699280|SUPERIORITY||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.2216||0.9067|TWO_SIDED|95.0|-0.466|0.414|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.414|-0.466|0.9067
92403981|NCT03763877|184699281|SUPERIORITY||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.0468||0.6951|TWO_SIDED|95.0|-0.111|0.075|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.075|-0.111|0.6951
92403982|NCT03763877|184699281|SUPERIORITY||Mean Difference (Final Values)|-0.078|STANDARD_ERROR_OF_MEAN|0.0472||0.103|TWO_SIDED|95.0|-0.171|0.016|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.016|-0.171|0.1030
92403983|NCT03763877|184699281|SUPERIORITY||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.0471||0.8583|TWO_SIDED|95.0|-0.085|0.102|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.102|-0.085|0.8583
92403984|NCT03763877|184699282|SUPERIORITY||Mean Difference (Final Values)|-0.105|STANDARD_ERROR_OF_MEAN|0.1777||0.5576|TWO_SIDED|95.0|-0.457|0.248|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.248|-0.457|0.5576
92403985|NCT03763877|184699282|SUPERIORITY||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.1799||0.4261|TWO_SIDED|95.0|-0.213|0.501|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.501|-0.213|0.4261
92364327|NCT02629861|184631119|SUPERIORITY|||||||0.0023||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint.||||0.0023
92364328|NCT02629861|184631119|SUPERIORITY|||||||0.0021||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint.||||0.0021
92166299|NCT00722046|184221843|SUPERIORITY||LS Mean Difference|2.27|STANDARD_ERROR_OF_MEAN|3.13||0.4698|TWO_SIDED|90.0|-2.94|7.48|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||7.48|-2.94|0.4698
92364329|NCT00271544|184631127|SUPERIORITY_OR_OTHER||One sample proportion|0.955||||||95.0|0.92|0.955|||||1-side 95% confidence limit lower bound|||0.955|0.92|
92364330|NCT00271544|184631128|SUPERIORITY_OR_OTHER||One sample proportion|0.96||||||95.0|0.932|0.989||||||||0.989|0.932|
92364331|NCT00271544|184631129|SUPERIORITY_OR_OTHER||One sample mean|1.1|STANDARD_DEVIATION|0.9||||95.0|1.1|1.2|||||1-side 95% confidence limit upper bound|||1.2|1.1|
92364332|NCT00271544|184631130|SUPERIORITY_OR_OTHER||One sample mean|1.9|STANDARD_DEVIATION|2.0||||97.5|1.9|2.2|||||1-sided 97.5% confidence limit upper bound|||2.2|1.9|
92364333|NCT00271544|184631131|SUPERIORITY_OR_OTHER||One sample proportion|0.989||||||95.0|0.974|1.0||||||||1|0.974|
92166300|NCT00722046|184221843|SUPERIORITY||LS Mean Difference|1.73|STANDARD_ERROR_OF_MEAN|2.66||0.5183|TWO_SIDED|90.0|-2.71|6.17|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||6.17|-2.71|0.5183
92166301|NCT00722046|184221843|SUPERIORITY||LS Mean Difference|0.85|STANDARD_ERROR_OF_MEAN|2.7||0.7529|TWO_SIDED|90.0|-3.65|5.35|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||5.35|-3.65|0.7529
92166302|NCT00722046|184221845|SUPERIORITY||LS Mean Difference|-4.07|STANDARD_ERROR_OF_MEAN|5.59||0.4688|TWO_SIDED|90.0|-13.38|5.24|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||5.24|-13.38|0.4688
92166303|NCT00722046|184221845|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|5.64||0.9743|TWO_SIDED|90.0|-9.59|9.22|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||9.22|-9.59|0.9743
92166304|NCT00722046|184221845|SUPERIORITY||LS Mean Difference|0.84|STANDARD_ERROR_OF_MEAN|5.65||0.8824|TWO_SIDED|90.0|-8.57|10.25|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||10.25|-8.57|0.8824
92166305|NCT00722046|184221845|SUPERIORITY||LS Mean Difference|-4.09|STANDARD_ERROR_OF_MEAN|5.81||0.4831|TWO_SIDED|90.0|-13.77|5.58|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||5.58|-13.77|0.4831
92166306|NCT00722046|184221845|SUPERIORITY||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|5.88||0.9562|TWO_SIDED|90.0|-9.48|10.13|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||10.13|-9.48|0.9562
92166307|NCT02512965|184221921|SUPERIORITY||Odds Ratio (OR)|3.46||||0.0002|TWO_SIDED|95.0|1.79|6.69||2-sided, adjusted for stratification factors at randomization.|Cochran-Mantel-Haenszel||Mantel-Haenszel estimate stratified by stratification factor at randomization.|||6.69|1.79|0.0002
92364334|NCT00271544|184631132|SUPERIORITY_OR_OTHER||One sample proportion|0.973||||||95.0|0.95|0.996||||||||0.996|0.950|
92364335|NCT00271544|184631133|SUPERIORITY_OR_OTHER||One sample proportion|0.973||||||95.0|0.95|0.996||||||||0.996|0.950|
92364336|NCT01685684|184631146|SUPERIORITY_OR_OTHER_LEGACY||Marginal Mean Difference (Net)|-1.56|STANDARD_ERROR_OF_MEAN|0.267|<|0.0001|TWO_SIDED||||||z-test|||||||<0.0001
92364337|NCT00902330|184631213|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Spearman correlation coefficients were computed for the biomarkers. P-Values shown are not adjusted for multiple comparisons. The a priori threshold for statistical significance was P less than 0.05. This information applies to all rows listed in the table.||||<0.05
92364338|NCT03571971|184631242|SUPERIORITY|Based on published data, we conservatively estimated that the standard exercise (SE) group and load modification (LM) group would have a 20% and 50% treatment success rate, respectively. We defined treatment success as either: 1) at least 'moderately better' on the Global Rating of Change scale or 2) ≥2 point decrease on the Numeric Pain Rating Scale. With one-side type I error=0.1, power=80%, and allocation ratio is 1:1, we estimated the need for 22 participants in each group (total N=44).|Odds Ratio (OR)|1.09||||0.879|TWO_SIDED|95.0|0.36|3.35||The a priori threshold for statistical significance was set at 0.05.|Chi-squared|||||3.35|0.36|0.879
92364339|NCT03950856|184631252|OTHER||Difference in Percentage|1.3||||0.538|TWO_SIDED|95.0|-3.3|4.8|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Injection site erythema: V114 Combined Lots - Prevnar 13™||4.8|-3.3|0.538
92364340|NCT03950856|184631252|OTHER||Difference in Percentage|14.6|||<|0.001|TWO_SIDED|95.0|7.9|21.4|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Injection site pain: V114 Combined Lots - Prevnar 13™||21.4|7.9|<0.001
92364341|NCT03950856|184631252|OTHER||Difference in Percentage|1.0||||0.686|TWO_SIDED|95.0|-4.3|5.3|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Injection site swelling: V114 Combined Lots - Prevnar 13™||5.3|-4.3|0.686
92224507|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 1 is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.25|||||TWO_SIDED|97.5|1.04|1.51|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 1 concentrations one month after the fourth dose||1.51|1.04|
92364342|NCT03950856|184631254|OTHER||Difference in Percentage|2.0||||0.272|TWO_SIDED|95.0|-1.9|4.7|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Arthralgia: V114 Combined Lots - Prevnar 13™||4.7|-1.9|0.272
92364343|NCT03950856|184631254|OTHER||Difference in Percentage|-0.7||||0.812|TWO_SIDED|95.0|-6.7|4.5|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Fatigue: V114 Combined Lots - Prevnar 13™||4.5|-6.7|0.812
92364344|NCT03950856|184631254|OTHER||Difference in Percentage|0.2||||0.947|TWO_SIDED|95.0|-5.6|5.0|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Headache: V114 Combined Lots - Prevnar 13™||5.0|-5.6|0.947
92364345|NCT03950856|184631254|OTHER||Difference in Percentage|5.2||||0.091|TWO_SIDED|95.0|-0.9|10.4|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Myalgia: V114 Combined Lots - Prevnar 13™||10.4|-0.9|0.091
92364346|NCT03950856|184631256|OTHER||Miettinen & Nurminen|0.0|||||TWO_SIDED|95.0|-1.6|0.2|||||V114 Combined Lots minus Prevnar 13™|V114 Combined Lots - Prevnar 13™||0.2|-1.6|
92224508|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 3 is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.01|||||TWO_SIDED|97.5|0.83|1.24|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 3 concentrations one month after the fourth dose||1.24|0.83|
92276857|NCT00591253|184455299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3||||0.001|TWO_SIDED|95.0|-8.52|-2.08||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.08|-8.52|0.001
92364347|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.99|||<|0.001|TWO_SIDED|95.0|0.83|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 1: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.18|0.83|<0.001
92364348|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.87|1.24||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 1: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.24|0.87|<0.001
92364349|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.88|1.25||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 1: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.25|0.88|<0.001
92364350|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.85|||<|0.001|TWO_SIDED|95.0|0.75|0.97||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 3: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|0.97|0.75|<0.001
92364351|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.92|||<|0.001|TWO_SIDED|95.0|0.81|1.05||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 3: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.05|0.81|<0.001
92403986|NCT03763877|184699282|SUPERIORITY||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.1822||0.6571|TWO_SIDED|95.0|-0.281|0.443|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.443|-0.281|0.6571
92364352|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.95|1.23||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 3: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.23|0.95|<0.001
92364353|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.82|||<|0.001|TWO_SIDED|95.0|0.7|0.97||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 4: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|0.97|0.70|<0.001
92364354|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.85|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 4: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.18|0.85|<0.001
92224509|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 4 is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.1|||||TWO_SIDED|97.5|0.92|1.31|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 4 concentrations one month after the fourth dose||1.31|0.92|
92364355|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.21|||<|0.001|TWO_SIDED|95.0|1.03|1.43||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 4: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.43|1.03|<0.001
92364356|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.84|||<|0.001|TWO_SIDED|95.0|0.7|1.02||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 5: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.02|0.70|<0.001
92364357|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.83|1.2||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 5: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.20|0.83|<0.001
92403987|NCT03763877|184699283|SUPERIORITY||Mean Difference (Final Values)|-0.161|STANDARD_ERROR_OF_MEAN|0.2851||0.5732|TWO_SIDED|95.0|-0.727|0.405|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.405|-0.727|0.5732
92403988|NCT03763877|184699283|SUPERIORITY||Mean Difference (Final Values)|-0.139|STANDARD_ERROR_OF_MEAN|0.2884||0.6312|TWO_SIDED|95.0|-0.712|0.434|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.434|-0.712|0.6312
92403989|NCT03763877|184699283|SUPERIORITY||Mean Difference (Final Values)|-0.201|STANDARD_ERROR_OF_MEAN|0.2865||0.4857|TWO_SIDED|95.0|-0.769|0.368|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.368|-0.769|0.4857
92403990|NCT03763877|184699284|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.074||0.5737|TWO_SIDED|95.0|-0.11|0.19|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||0.19|-0.11|0.5737
92403991|NCT03763877|184699284|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.074||0.7563|TWO_SIDED|95.0|-0.12|0.17|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||0.17|-0.12|0.7563
92403992|NCT03763877|184699284|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.075||0.5695|TWO_SIDED|95.0|-0.19|0.11|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||0.11|-0.19|0.5695
92403993|NCT03763877|184699285|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.659||0.9552|TWO_SIDED|95.0|-1.34|1.27|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||1.27|-1.34|0.9552
92403994|NCT03763877|184699285|SUPERIORITY||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|0.674||0.2633|TWO_SIDED|95.0|-2.1|0.58|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.58|-2.10|0.2633
92403995|NCT03763877|184699285|SUPERIORITY||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|0.673||0.1962|TWO_SIDED|95.0|-2.21|0.46|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.46|-2.21|0.1962
92403996|NCT03763877|184699286|SUPERIORITY||Odds Ratio (OR)|1.353||||0.8245|TWO_SIDED|95.0|0.094|19.554|||Regression, Logistic|||||19.554|0.094|0.8245
92166308|NCT02512965|184221922|SUPERIORITY||Odds Ratio (OR)|2.56||||0.0036|TWO_SIDED|95.0|1.35|4.85|||Cochran-Mantel-Haenszel||Mantel-Haenszel estimate stratified by stratification factors at randomization.|||4.85|1.35|0.0036
92166309|NCT02512965|184221923|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.26|TWO_SIDED|95.0|0.46|1.24|||Log Rank|2-sided p-value adjusted for stratification factors at randomization.|Estimate adjusted for stratification factors at randopmization.|||1.24|0.46|0.26
92166310|NCT02512965|184221924|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.47|TWO_SIDED|95.0|0.48|1.4||2-sided p-value adjusted for stratification factors at randomization.|Log Rank|||||1.40|0.48|0.47
92166311|NCT04303156|184221925|OTHER||GMR|2.2|||||TWO_SIDED|90.0|1.68|2.88|||||Severe Renal Impairment / Healthy|Geometric mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|2.88|1.68|
92166312|NCT04303156|184221926|OTHER||GMR|1.93|||||TWO_SIDED|90.0|1.46|2.55|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|2.55|1.46|
92166313|NCT04303156|184221927|OTHER||GMR|1.03|||||TWO_SIDED|90.0|0.67|1.57|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.57|0.67|
92166314|NCT04303156|184221930|OTHER||GMR|0.46|||||TWO_SIDED|90.0|0.35|0.6|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|0.60|0.35|
92166315|NCT04303156|184221931|OTHER||GMR|0.8|||||TWO_SIDED|90.0|0.56|1.14|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.14|0.56|
92166316|NCT04303156|184221932|OTHER||GMR|1.48|||||TWO_SIDED|90.0|1.03|2.14|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|2.14|1.03|
92224510|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 5 is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.06|||||TWO_SIDED|97.5|0.87|1.28|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 5 concentrations one month after the fourth dose||1.28|0.87|
92224511|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 6A is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.21|||||TWO_SIDED|97.5|1.01|1.44|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 6A concentrations one month after the fourth dose||1.44|1.01|
92224512|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 6B is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.13|||||TWO_SIDED|97.5|0.94|1.36|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 6B concentrations one month after the fourth dose||1.36|0.94|
92224513|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 7F is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.09|||||TWO_SIDED|97.5|0.93|1.29|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 7F concentrations one month after the fourth dose||1.29|0.93|
92224514|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 9V is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.12|||||TWO_SIDED|97.5|0.94|1.33|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 9V concentrations one month after the fourth dose||1.33|0.94|
92224515|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 14 is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.16|||||TWO_SIDED|97.5|0.96|1.41|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 14 concentrations one month after the fourth dose||1.41|0.96|
92224516|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 18C is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.14|||||TWO_SIDED|97.5|0.97|1.35|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 18C concentrations one month after the fourth dose||1.35|0.97|
92224517|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 19A is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.09|||||TWO_SIDED|97.5|0.9|1.31|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 19A concentrations one month after the fourth dose||1.31|0.90|
92224518|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB Group) for antibodies to S. pneumoniae serotype 19F is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.12|||||TWO_SIDED|97.5|0.95|1.34|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 19F concentrations one month after the fourth dose||1.34|0.95|
92276858|NCT00591253|184455299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.71|||<|0.001|TWO_SIDED|95.0|-10.88|-4.55||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.55|-10.88|<0.001
92403997|NCT03763877|184699286|SUPERIORITY||Odds Ratio (OR)|2.791||||0.414|TWO_SIDED|95.0|0.238|32.752|||Regression, Logistic|||||32.752|0.238|0.4140
92403998|NCT03763877|184699286|SUPERIORITY||Odds Ratio (OR)|14.872||||0.0341|TWO_SIDED|95.0|1.226|180.452|||Regression, Logistic|||||180.452|1.226|0.0341
92403999|NCT03763877|184699287|SUPERIORITY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|5.84||0.4626|TWO_SIDED|95.0|-16.1|7.5|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||7.5|-16.1|0.4626
92224519|NCT01978093|184350599|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 23F is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.22|||||TWO_SIDED|97.5|1.0|1.5|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 23F concentrations one month after the fourth dose||1.50|1.00|
92224520|NCT03728309|184350635|SUPERIORITY||Percentage Difference|53.5|||<|0.001|TWO_SIDED|95.0|43.5|63.5||The p-value and 95% CI are computed by pooling 30 imputed data sets using SAS PROC MIANALYZE with normal approximation.|SAS PROC MIANALYZE|||||63.5|43.5|<0.001
92224521|NCT03728309|184350637|SUPERIORITY||Mean Difference (Final Values)|28.0|STANDARD_ERROR_OF_MEAN|3.83|<|0.001|TWO_SIDED|95.0|21.0|36.0|||2-sample, t-test|||||36.0|21.0|<0.001
92224522|NCT03728309|184350638|SUPERIORITY||Percentage Difference|52.9|||<|0.001|TWO_SIDED|95.0|40.1|65.7|||Fisher's Exact Test||Comparison of treatment group versus control group at Month 1, responder rate difference, 95% CI for risk difference and p-value was estimated based on Fisher's exact test using mITT population with baseline AFLS score of 2 or 3 on both cheeks.|||65.7|40.1|<0.001
92224523|NCT03403205|184350639|OTHER||LS Mean Difference|1.64|STANDARD_ERROR_OF_MEAN|0.254|<|0.0001|TWO_SIDED|95.0|1.14|2.13||Test was performed at a significance level of 0.05.|ANCOVA|||Analysis was performed using ANCOVA model, which included treatment, cohort, and baseline value. Missing imputation was performed: 1) for intermediate missing, interpolation was used to fill out missing values. 2) For participants who die, baseline dNCC was carried forward from discontinuation to week 48. 3) For others, multiple imputation was used to impute missing dNCC assuming data were missing not at random.||2.13|1.14|< 0.0001
92224524|NCT03403205|184350639|OTHER||LS Mean Difference|3.79|STANDARD_ERROR_OF_MEAN|0.584|<|0.0001|TWO_SIDED|95.0|2.65|4.94||Test was performed at a significance level of 0.05.|ANCOVA|||Analysis was performed using ANCOVA model, which included treatment, cohort, and baseline value. Missing imputation was performed: 1) for intermediate missing, interpolation was used to fill out missing values. 2) For participants who die, baseline dNCC was carried forward from discontinuation to week 48. 3) For others, multiple imputation was used to impute missing dNCC assuming data were missing not at random.||4.94|2.65|< 0.0001
92224525|NCT02004873|184350652|SUPERIORITY_OR_OTHER||Kaplan-Meier survival probability (%)|96.0|||<|0.0001|TWO_SIDED|98.66|93.3|97.6||The threshold for statistical significance was 0.0067, determined by the pre-specified alpha spending function for the interim analysis.|z-test, 1-sided||"The major complication free rate (i.e. survival probability) was estimated using the Kaplan-Meier method.~The coverage level for the confidence interval was 98.66%, determined by the pre-specified alpha spending function for the interim analysis."|"Null hypothesis: Major complication free rate at 6 months post-implant is less than or equal to 83%.~Alternative hypothesis: Major complication free rate at 6 months post-implant is greater than 83%."||97.6|93.3|<0.0001
92224526|NCT02004873|184350653|SUPERIORITY_OR_OTHER||Percentage of subjects (%)|98.3|||<|0.0001|TWO_SIDED|98.66|95.4|99.6||The threshold for statistical significance was 0.0067, determined by the pre-specified alpha spending function for the interim analysis.|Exact Binomial test||The coverage level for confidence interval was 98.66%, determined by the pre-specified alpha spending function for the interim analysis.|"Null hypothesis: Percentage of subjects with an adequate pacing capture threshold at 6-months post-implant is less than or equal to 80%.~Alternative hypothesis: Percentage of subjects with an adequate pacing capture threshold at 6-months post-implant is greater than 80%."||99.6|95.4|<0.0001
92276859|NCT00591253|184455300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.81||||0.001|TWO_SIDED|95.0|-6.08|-1.54||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.54|-6.08|0.001
92364358|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.18|||<|0.001|TWO_SIDED|95.0|0.98|1.42||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 5: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.42|0.98|<0.001
92404000|NCT03763877|184699287|SUPERIORITY||Mean Difference (Final Values)|-6.0|STANDARD_ERROR_OF_MEAN|5.88||0.316|TWO_SIDED|95.0|-17.9|5.9|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||5.9|-17.9|0.3160
92404001|NCT03763877|184699287|SUPERIORITY||Mean Difference (Final Values)|-14.9|STANDARD_ERROR_OF_MEAN|6.19||0.0204|TWO_SIDED|95.0|-27.4|-2.4|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-2.4|-27.4|0.0204
92404002|NCT03763877|184699288|SUPERIORITY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|3.91||0.4601|TWO_SIDED|95.0|-10.8|5.0|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||5.0|-10.8|0.4601
92404003|NCT03763877|184699288|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|3.95||0.9782|TWO_SIDED|95.0|-8.1|7.9|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||7.9|-8.1|0.9782
92404004|NCT03763877|184699288|SUPERIORITY||Mean Difference (Final Values)|-9.9|STANDARD_ERROR_OF_MEAN|4.13||0.0205|TWO_SIDED|95.0|-18.3|-1.6|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-1.6|-18.3|0.0205
92404005|NCT03763877|184699289|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.538||0.9529|TWO_SIDED|95.0|-1.12|1.05|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||1.05|-1.12|0.9529
92404006|NCT03763877|184699289|SUPERIORITY||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.532||0.1285|TWO_SIDED|95.0|-1.9|0.25|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.25|-1.90|0.1285
92404007|NCT03763877|184699289|SUPERIORITY||Mean Difference (Final Values)|-1.19|STANDARD_ERROR_OF_MEAN|0.565||0.0417|TWO_SIDED|95.0|-2.32|-0.05|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-0.05|-2.32|0.0417
92364359|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.82|1.12||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 6A: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.12|0.82|<0.001
92364360|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.95|||<|0.001|TWO_SIDED|95.0|0.82|1.12||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 6A: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.12|0.82|<0.001
92364361|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.99|||<|0.001|TWO_SIDED|95.0|0.85|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 6A: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.16|0.85|<0.001
92364362|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.82|1.12||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 6B: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.12|0.82|<0.001
92364363|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.86|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 6B: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.18|0.86|<0.001
92404008|NCT03763877|184699290|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.228||0.3141|TWO_SIDED|95.0|-0.69|0.23|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||0.23|-0.69|0.3141
92364364|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.9|1.23||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 6B: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.23|0.90|<0.001
92364365|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.82|||<|0.001|TWO_SIDED|95.0|0.72|0.93||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 7F: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|0.93|0.72|<0.001
92364366|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.79|1.01||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 7F: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.01|0.79|<0.001
92404009|NCT03763877|184699290|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.226||0.0656|TWO_SIDED|95.0|-0.88|0.03|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||0.03|-0.88|0.0656
92404010|NCT03763877|184699290|SUPERIORITY||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.237||0.0101|TWO_SIDED|95.0|-1.12|-0.16|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||-0.16|-1.12|0.0101
92166317|NCT04303156|184221933|OTHER||GMR|1.38|||||TWO_SIDED|90.0|0.98|1.93|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.93|0.98|
92166318|NCT04303156|184221934|OTHER||GMR|0.94|||||TWO_SIDED|90.0|0.64|1.39|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.39|0.64|
92166319|NCT04303156|184221936|OTHER||GMR|0.97|||||TWO_SIDED|90.0|0.69|1.35|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.35|0.69|
92166320|NCT04303156|184221937|OTHER||GMR|1.82|||||TWO_SIDED|90.0|0.55|6.02|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|6.02|0.55|
92166321|NCT04303156|184221938|OTHER||GMR|2.69|||||TWO_SIDED|90.0|1.51|4.8|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|4.80|1.51|
92166322|NCT01852071|184221965|SUPERIORITY||Difference in percentages|14.29|||||TWO_SIDED|95.0|-5.4|42.81||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||42.81|-5.40|
92166323|NCT01852071|184221965|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||||
92166324|NCT01852071|184221965|SUPERIORITY||Difference in percentages|7.69|||||TWO_SIDED|95.0|-10.08|25.13||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (all control patients) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||25.13|-10.08|
92224527|NCT02004873|184350654|SUPERIORITY_OR_OTHER||Percentage of subjects (%)|99.6|||<|0.0001|TWO_SIDED|98.66|97.5|100.0||Holm adjustment for multiple comparisons for secondary objectives was used. The threshold for statistical significance was 0.0067, determined by the pre-specified alpha spending function for the interim analysis.|Exact Binomial test||The coverage level for confidence interval was 98.66%, determined by the pre-specified alpha spending function for the interim analysis.|"Null hypothesis: Percentage of subjects with VCMT within 0.5 Volts of auto decrement PCT at 6 months post-implant is less than or equal to 85%.~Alternative hypothesis: Percentage of subjects with VCMT within 0.5 Volts of auto decrement PCT at 6 months post-implant is greater than 85%."||100.0|97.5|<0.0001
92364367|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.96|1.24||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 7F: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.24|0.96|<0.001
92364368|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.88|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 9V: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.16|0.88|<0.001
92166325|NCT01852071|184221966|SUPERIORITY||Difference in percentages|35.71|||||TWO_SIDED|95.0|11.21|64.86||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||64.86|11.21|
92364369|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.98|||<|0.001|TWO_SIDED|95.0|0.85|1.12||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 9V: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.12|0.85|<0.001
92364370|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.84|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 9V: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.11|0.84|<0.001
92364371|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.81|1.1||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 14: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.10|0.81|<0.001
92364372|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|0.99|1.34||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 14: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.34|0.99|<0.001
92364373|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.22|||<|0.001|TWO_SIDED|95.0|1.05|1.43||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 14: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.43|1.05|<0.001
92364374|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.1|||<|0.001|TWO_SIDED|95.0|0.96|1.26||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 18C: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.26|0.96|<0.001
92364375|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|1.0|1.31||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 18C: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.31|1.00|<0.001
92364376|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.91|1.19||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 18C: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.19|0.91|<0.001
92166326|NCT01852071|184221966|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||||
92276860|NCT00591253|184455300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.65|||<|0.001|TWO_SIDED|95.0|-7.88|-3.41||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.41|-7.88|<0.001
92224528|NCT02004873|184350655|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin is 0.35. The Micra sensor indicated rate is considered proportional to the workload if the 90% CI for the Kay-Wilkoff slope parameter falls into \[0.65, 1.35\].|Slope|0.864|||<|0.001|TWO_SIDED|90.0|0.768|0.961||Holm adjustment for multiple comparisons for secondary objectives was used. Two One-sided Test (TOST) procedure was used at the 0.05 significance level.|t-test, 1 sided|Two One-sided Test (TOST)|A random effect linear regression model was used to assess if the Micra sensor-indicated rate was proportional to the workload using the Kay-Wilkoff model. The Kay-Wilkoff slope parameter was estimated along with its 90% CI.|Null hypothesis: Kay-Wilkoff slope parameter is \< 0.65 or \> 1.35 Alternative hypothesis: Kay-Wilkoff slope parameter is between 0.65 and 1.35||0.961|0.768|<0.001
92224529|NCT02799069|184350688|NON_INFERIORITY|The sample size of 210 subjects per treatment arm (per protocol set) has a power of at least 90% to establish non-inferiority of BF-200 ALA to Metvix using a non-inferiority margin of -15% and assuming response rates of 70% for both BF-200 ALA and Metvix. The power calculation was based on a one-sided Z-test with continuity correction (unpooled) with a significance level of 0.025.The establishment of non-inferiority was performed for the PP set and verified for robustness on the ITT.|Difference to BF-200 ALA|14.0|||||ONE_SIDED|97.5|5.9||||||||||5.9|
92224530|NCT02799069|184350688|SUPERIORITY||Difference to BF-200 ALA|61.1||||0|TWO_SIDED|95.0|51.2|71.0|||Chi-squared|||"Superiority of BF-200 ALA compared to placebo:~A sample size of 264: 88 patients (BF-200 ALA: placebo) will have a power of more than 90% to establish superiority of BF-200 ALA over placebo, even if very conservative response rates of 65% for the BF-200 ALA group and 40% for placebo are assumed using a chi-square test with continuity correction and a two-sided significance level of 0.05."||71.0|51.2|0.0000
92224531|NCT02799069|184350689|NON_INFERIORITY|The sample size of 210 subjects per treatment arm (per protocol set) has a power of at least 90% to establish non-inferiority of BF-200 ALA to Metvix using a non-inferiority margin of -15% and assuming response rates of 70% for both BF-200 ALA and Metvix. The power calculation was based on a one-sided Z-test with continuity correction (unpooled) with a significance level of 0.025.The establishment of non-inferiority was performed for the PP set and verified for robustness on the ITT.|Difference to BF-200 ALA|14.2|||||ONE_SIDED|97.5|6.0||||||||||6.0|
92224532|NCT02799069|184350689|SUPERIORITY_OR_OTHER||Difference to BF-200 ALA|59.4||||0|TWO_SIDED|95.0|48.4|70.4|||Chi-squared|||||70.4|48.4|0.0000
92364377|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.9|||<|0.001|TWO_SIDED|95.0|0.79|1.02||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 19A: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.02|0.79|<0.001
92364378|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.85|1.1||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 19A: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.10|0.85|<0.001
92364379|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.95|1.22||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 19A: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.22|0.95|<0.001
92364380|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.92|||<|0.001|TWO_SIDED|95.0|0.81|1.05||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 19F: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.05|0.81|<0.001
92364381|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.82|1.07||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 19F: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.07|0.82|<0.001
92166327|NCT01852071|184221966|SUPERIORITY||Difference in percentages|19.23|||||TWO_SIDED|95.0|0.71|39.35||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (all control patients) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||39.35|0.71|
92166328|NCT01852071|184221967|SUPERIORITY||Difference in percentages|14.29|||||TWO_SIDED|95.0|-5.4|42.81||||||Percentage of patients alive at 2-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients alive at 2-years post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||42.81|-5.40|
92224533|NCT02799069|184350690|SUPERIORITY_OR_OTHER||Difference to BF-200 ALA|72.0||||0|TWO_SIDED|95.0|59.7|84.2|||Chi-squared|||||84.2|59.7|0.0000
92224534|NCT02799069|184350690|SUPERIORITY_OR_OTHER||Difference to BF-200 ALA|17.3|||||ONE_SIDED|97.5|6.6||||||||||6.6|
92224535|NCT03440814|184350745|SUPERIORITY||Mean Difference (Final Values)|-1.67|STANDARD_ERROR_OF_MEAN|1.294||0.1983|TWO_SIDED|95.0|-4.24|0.89|||Mixed Models Analysis|MMRM analysis adjusted for baseline growth hormone use and HQ-CT total score. All available subject data were used with no imputation of missing data.|alpha=0.05 level of significance|||0.89|-4.24|0.1983
92224536|NCT03440814|184350746|SUPERIORITY|||||||0.0294|||||||Cochran-Mantel-Haenszel|Treatment groups were compared using CMH mean score test with modified ridit scores, stratified by the randomization stratification variables.||||||0.0294
92224537|NCT03440814|184350747|SUPERIORITY|||||||0.4089|||||||Cochran-Mantel-Haenszel|Treatment groups were compared using CMH mean score test with modified ridit scores, stratified by the randomization stratification variables.||||||0.4089
92364382|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.89|1.15||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 19F: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.15|0.89|<0.001
92364383|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.92|||<|0.001|TWO_SIDED|95.0|0.77|1.1||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 23F: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.10|0.77|<0.001
92166329|NCT01852071|184221967|SUPERIORITY||Difference in percentages|9.09|||||TWO_SIDED|95.0|-9.55|41.28||||||Percentage of patients alive at 2-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients alive at 2-years post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||41.28|-9.55|
92166330|NCT01852071|184221967|SUPERIORITY||Difference in percentages|12.0|||||TWO_SIDED|95.0|-5.62|31.22||||||Percentage of patients alive at 2-years post-treatment in the historical control groups (all control patients) were compared to the percentage of study patients alive at 2-years post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||31.22|-5.62|
92166331|NCT01852071|184221968|SUPERIORITY||Difference in percentages|50.0|||||TWO_SIDED|95.0|22.71|76.96||||||Percentage of patients with EvFS at 2-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 2-years post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||76.96|22.71|
92166332|NCT01852071|184221968|SUPERIORITY||Difference in percentages|36.36|||||TWO_SIDED|95.0|9.8|69.21||||||Percentage of patients with EvFS at 2-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 2-years post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||69.21|9.80|
92166333|NCT01852071|184221968|SUPERIORITY||Difference in percentages|44.0|||||TWO_SIDED|95.0|22.78|65.23||||||Percentage of patients with EvFS at 2-years post-treatment in the historical control groups (all control patients) were compared to the percentage of study patients with EvFS at 2-years post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||65.23|22.78|
92166334|NCT01444417|184221987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.0497||||0.0018|TWO_SIDED|95.0|1.896|43.199|||Cochran-Mantel-Haenszel|P-value from Cochran-Mantel-Haenszel test stratified by baseline age group.||The incidence of durable platelet response was compared by the Cochran-Mantel-Haenszel test stratified by the baseline age group. The Mantel-Haenszel common odds ratio (romiplostim vs placebo) was estimated along with its 95% confidence interval.||43.199|1.896|0.0018
92166335|NCT01444417|184221988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.0443||||0.0002|TWO_SIDED|95.0|2.535|32.265|||Cochran-Mantel-Haenszel|P-value from Cochran-Mantel-Haenszel test stratified by baseline age group.||The incidence of overall platelet response was compared by the Cochran-Mantel-Haenszel test stratified by the baseline age group. The Mantel-Haenszel common odds ratio (romiplostim vs placebo) was estimated along with its 95% confidence interval.||32.265|2.535|0.0002
92166336|NCT01444417|184221989|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANOVA|P-value from Analysis of Variance with main effects (treatment and age group) model after testing for non-significant interaction (p-value ≥ 0.10).||||||0.0004
92166337|NCT01444417|184221990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.813||||0.7103|TWO_SIDED|95.0|0.277|2.391|||Cochran-Mantel-Haenszel|P-value from Cochran-Mantel-Haenszel test stratified by baseline age group||||2.391|0.277|0.7103
92166338|NCT02755116|184221996|SUPERIORITY||Adjusted relative risk|0.76||||0.003|TWO_SIDED|95.0|0.48|1.2|||log-binomial regression|||||1.20|0.48|0.003
92166339|NCT01214824|184222012|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.3||||0.014||95.0|||||Wilcoxon signed rank test|||Comparison is HbA1c at 6 months versus Baseline||||0.014
92166340|NCT01214824|184222014|SUPERIORITY_OR_OTHER|||||||0.5304||95.0|||||Paired t-test|||Comparison is masked phase 2 versus masked phase 1||||0.5304
92166341|NCT02214160|184222016|SUPERIORITY|||||||0.0347|||||||Paired T-test|||||||0.0347
92166342|NCT02214160|184222017|SUPERIORITY|||||||0.0343|||||||Wilcoxon Signed Rank Test|||||||0.0343
92166343|NCT02423798|184222033|OTHER||Mean|9.13|||||TWO_SIDED|||||||||||||
92166344|NCT01063972|184222036|SUPERIORITY|||||||0.46|||||||Chi-squared|||||||0.46
92166345|NCT01063972|184222037|SUPERIORITY|||||||0.22|||||||Chi-squared|||||||0.22
92166346|NCT01063972|184222038|SUPERIORITY|||||||0.56|||||||Chi-squared|||||||0.56
92166347|NCT01063972|184222039|SUPERIORITY|||||||0.48|||||||Chi-squared|||||||0.48
92166348|NCT00392054|184222079|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56||||0.0016|TWO_SIDED|95.0|0.35|0.9||Cox regression analysis, stratified by clinical site, was performed and presented as hazard ratios with 95% confidence intervals and a two-sided p-value testing of less than or equal to 0.05 (two-sided) for the Wald test.|Regression, Cox|||Event rates were plotted over time using Kaplan-Meier methodology. Only events occurring after the 90-day treatment period were included in the final analysis. Treatment groups were analyzed on an intention-to-treat basis.||0.90|0.35|0.0016
92166349|NCT00392054|184222081|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56||||0.03|TWO_SIDED|95.0|0.33|0.95|||Regression, Cox|||||0.95|0.33|0.03
92166350|NCT00392054|184222082|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.52||||0.017|TWO_SIDED|95.0|0.3|0.89|||Regression, Cox|||||0.89|0.3|0.017
92166351|NCT00392054|184222083|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.28|0.4|||Regression, Cox|||||0.4|0.28|<0.0001
92166352|NCT00392054|184222084|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.66|TWO_SIDED|95.0|0.42|1.72|||Regression, Cox|||||1.72|0.42|0.66
92364384|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.87|1.24||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 23F: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.24|0.87|<0.001
92166353|NCT00442117|184222125|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.074||||0.4982|TWO_SIDED|95.0|-4.196|2.049|||ANOVA|||||2.049|-4.196|0.4982
92364385|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.13|||<|0.001|TWO_SIDED|95.0|0.95|1.35||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 23F: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.35|0.95|<0.001
92364386|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.95|||<|0.001|TWO_SIDED|95.0|0.81|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 22F: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.11|0.81|<0.001
92364387|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.98|||<|0.001|TWO_SIDED|95.0|0.84|1.14||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 22F: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.14|0.84|<0.001
92364388|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.88|1.21||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 22F: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.21|0.88|<0.001
92364389|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.86|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 33F: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.16|0.86|<0.001
92364390|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.91|1.22||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 33F: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.22|0.91|<0.001
92364391|NCT03950856|184631257|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.9|1.22||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 33F: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.22|0.90|<0.001
92364392|NCT03950856|184631258|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.84|1.1|||||Lot 1 divided by Lot 2|Serotype 1: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.10|0.84|
92364393|NCT03950856|184631258|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.89|1.17|||||Lot 1 divided by Lot 3|Serotype 1: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.17|0.89|
92364394|NCT03950856|184631258|OTHER||GMC Ratio|1.06|||||TWO_SIDED|95.0|0.92|1.21|||||Lot 2 divided by Lot 3|Serotype 1: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.21|0.92|
92364395|NCT03950856|184631258|OTHER||GMC Ratio|0.85|||||TWO_SIDED|95.0|0.77|0.95|||||Lot 1 divided by Lot 2|Serotype 3: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|0.95|0.77|
92364396|NCT03950856|184631258|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.91|1.13|||||Lot 1 divided by Lot 3|Serotype 3: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.13|0.91|
92166354|NCT00442117|184222126|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7601||||0.6544|TWO_SIDED|95.0|-2.585|4.106|||ANOVA|||||4.106|-2.585|0.6544
92166355|NCT00442117|184222127|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.704||||0.3796|TWO_SIDED|95.0|-5.528|2.115|||ANOVA|||||2.115|-5.528|0.3796
92166356|NCT00442117|184222128|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.432||||0.9622|TWO_SIDED|95.0|-17.56|18.24|||ANOVA|||||18.240|-17.560|0.9622
92166357|NCT01499654|184222140|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
92166358|NCT01499654|184222140|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.67
92166359|NCT01499654|184222141|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92166360|NCT01499654|184222141|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.002
92166361|NCT01499654|184222142|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92166362|NCT01499654|184222142|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.08
92166363|NCT01499654|184222143|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.006
92364397|NCT03950856|184631258|OTHER||GMC Ratio|1.18|||||TWO_SIDED|95.0|1.06|1.32|||||Lot 2 divided by Lot 3|Serotype 3: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.32|1.06|
92364398|NCT03950856|184631258|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.72|0.94|||||Lot 1 divided by Lot 2|Serotype 4: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|0.94|0.72|
92364399|NCT03950856|184631258|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.94|1.23|||||Lot 1 divided by Lot 3|Serotype 4: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.23|0.94|
92364400|NCT03950856|184631258|OTHER||GMC Ratio|1.31|||||TWO_SIDED|95.0|1.14|1.5||||P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 4: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.50|1.14|
92364401|NCT03950856|184631258|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.72|0.95|||||Lot 1 divided by Lot 2|Serotype 5: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|0.95|0.72|
92364402|NCT03950856|184631258|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.84|1.11|||||Lot 1 divided by Lot 3|Serotype 5: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.11|0.84|
92364403|NCT03950856|184631258|OTHER||GMC Ratio|1.17|||||TWO_SIDED|95.0|1.02|1.35|||||Lot 2 divided by Lot 3|Serotype 5: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.35|1.02|
92364404|NCT03950856|184631258|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.78|1.07|||||Lot 1 divided by Lot 2|Serotype 6A: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.07|0.78|
92364405|NCT03950856|184631258|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.85|1.16|||||Lot 1 divided by Lot 3|Serotype 6A: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.16|0.85|
92364406|NCT03950856|184631258|OTHER||GMC Ratio|1.08|||||TWO_SIDED|95.0|0.93|1.27|||||Lot 2 divided by Lot 3|Serotype 6A: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.27|0.93|
92364407|NCT03950856|184631258|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.82|1.11|||||Lot 1 divided by Lot 2|Serotype 6B: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.11|0.82|
92364408|NCT03950856|184631258|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.9|1.22|||||Lot 1 divided by Lot 3|Serotype 6B: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.22|0.90|
92364409|NCT03950856|184631258|OTHER||GMC Ratio|1.1|||||TWO_SIDED|95.0|0.94|1.28|||||Lot 2 divided by Lot 3|Serotype 6B: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.28|0.94|
92364410|NCT03950856|184631258|OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.7|0.92|||||Lot 1 divided by Lot 2|Serotype 7F: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|0.92|0.70|
92364411|NCT03950856|184631258|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.84|1.1|||||Lot 1 divided by Lot 3|Serotype 7F: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.10|0.84|
92364412|NCT03950856|184631258|OTHER||GMC Ratio|1.2|||||TWO_SIDED|95.0|1.04|1.37|||||Lot 2 divided by Lot 3|Serotype 7F: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.37|1.04|
92364413|NCT03950856|184631258|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.83|1.08|||l||Lot 1 divided by Lot 2|Serotype 9V: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.08|0.83|
92364414|NCT03950856|184631258|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.87|1.13|||||Lot 1 divided by Lot 3|Serotype 9V: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.13|0.87|
92364415|NCT03950856|184631258|OTHER||GMC Ratio|1.04|||||TWO_SIDED|95.0|0.91|1.19|||||Lot 2 divided by Lot 3|Serotype 9V: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.19|0.91|
92166364|NCT01499654|184222143|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.44
92364416|NCT03950856|184631258|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.75|1.0|||||Lot 1 divided by Lot 2|Serotype 14: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.00|0.75|
92364417|NCT03950856|184631258|OTHER||GMC Ratio|1.13|||||TWO_SIDED|95.0|0.98|1.31|||||Lot 1 divided by Lot 3|Serotype 14: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.31|0.98|
92364418|NCT03950856|184631258|OTHER||GMC Ratio|1.31|||||TWO_SIDED|95.0|1.14|1.52|||||Lot 2 divided by Lot 3|Serotype 14: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.52|1.14|
92364419|NCT03950856|184631258|OTHER||GMC Ratio|1.19|||||TWO_SIDED|95.0|1.04|1.36|||||Lot 1 divided by Lot 2|Serotype 18C: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.36|1.04|
92364420|NCT03950856|184631258|OTHER||GMC Ratio|1.32|||||TWO_SIDED|95.0|1.15|1.51|||||Lot 1 divided by Lot 3|Serotype 18C: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.51|1.15|
92364421|NCT03950856|184631258|OTHER||GMC Ratio|1.11|||||TWO_SIDED|95.0|0.97|1.27|||||Lot 2 divided by Lot 3|Serotype 18C: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.27|0.97|
92364422|NCT03950856|184631258|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.78|1.02|||||Lot 1 divided by Lot 2|Serotype 19A: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.02|0.78|
92364423|NCT03950856|184631258|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.86|1.11|||||Lot 1 divided by Lot 3|Serotype 19A: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.11|0.86|
92364424|NCT03950856|184631258|OTHER||GMC Ratio|1.1|||||TWO_SIDED|95.0|0.96|1.25|||||Lot 2 divided by Lot 3|Serotype 19A: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.25|0.96|
92364425|NCT03950856|184631258|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.76|1.0|||||Lot 1 divided by Lot 2|Serotype 19F: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.00|0.76|
92364426|NCT03950856|184631258|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.8|1.05|||||Lot 1 divided by Lot 3|Serotype 19F: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.05|0.80|
92364427|NCT03950856|184631258|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.92|1.21|||||Lot 2 divided by Lot 3|Serotype 19F: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.21|0.92|
92364428|NCT03950856|184631258|OTHER||GMC Ratio|0.93|||||TWO_SIDED|95.0|0.8|1.07|||||Lot 1 divided by Lot 2|Serotype 23F: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.07|0.80|
92364429|NCT03950856|184631258|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.86|1.15|||||Lot 1 divided by Lot 3|Serotype 23F: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.15|0.86|
92364430|NCT03950856|184631258|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.93|1.24|||||Lot 2 divided by Lot 3|Serotype 23F: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.24|0.93|
92364431|NCT03950856|184631258|OTHER||GMC Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.08|||||Lot 1 divided by Lot 2|Serotype 22F: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.08|0.81|
92166365|NCT03073941|184222164|NON_INFERIORITY|A non-Inferiority analysis was performed once the 1 year OKS of the first 216 patients were collected. A one-sided T-test, 90% power, SD=10 and with a non-inferiority margin of 4 OKS was used and the analysis was based on the difference of average OKS between Persona and NexGen 1 year postoperatively.|||||<|0.05|||||||t-test, 1 sided|90% power, SD=10 and with a non-inferiority margin of 4 OKS||||||<0.05
92364432|NCT03950856|184631258|OTHER||GMC Ratio|1.08|||||TWO_SIDED|95.0|0.93|1.26|||||Lot 1 divided by Lot 3|Serotype 22F: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.26|0.93|
92364433|NCT03950856|184631258|OTHER||GMC Ratio|1.16|||||TWO_SIDED|95.0|1.0|1.35|||||Lot 2 divided by Lot 3|Serotype 22F: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.35|1.00|
92364434|NCT03950856|184631258|OTHER||GMC Ratio|0.91|||||TWO_SIDED|95.0|0.79|1.06|||||Lot 1 divided by Lot 2|Serotype 33F: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.06|0.79|
92364435|NCT03950856|184631258|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.9|1.22|||||Lot 1 divided by Lot 3|Serotype 33F: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.22|0.90|
92364436|NCT03950856|184631258|OTHER||GMC Ratio|1.15|||||TWO_SIDED|95.0|0.99|1.34|||||Lot 2 divided by Lot 3|Serotype 33F: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.34|0.99|
92364437|NCT03950856|184631259|OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.62|0.91|||||V114 Combined Lots divided by Prevnar 13™|Serotype 1: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|0.91|0.62|
92364438|NCT03950856|184631259|OTHER||GMC Ratio|1.39|||||TWO_SIDED|95.0|1.2|1.61|||||V114 Combined Lots divided by Prevnar 13™|Serotype 3: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.61|1.20|
92364439|NCT03950856|184631259|OTHER||GMC Ratio|0.79|||||TWO_SIDED|95.0|0.66|0.94|||||V114 Combined Lots divided by Prevnar 13™|Serotype 4: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|0.94|0.66|
92364440|NCT03950856|184631259|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.74|1.07|||||V114 Combined Lots divided by Prevnar 13™|Serotype 5: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.07|0.74|
92166366|NCT04250883|184222174|SUPERIORITY|||||||0.54|||||||Chi-squared, Corrected|for age||||||0.54
92166367|NCT04250883|184222175|SUPERIORITY|||||||0.97|||||||Chi-squared, Corrected|for age||||||0.97
92166368|NCT04250883|184222177|SUPERIORITY|||||||0.64||||||At 12 days postoperative|Chi-squared, Corrected|for age||||||0.64
92166369|NCT04250883|184222177|SUPERIORITY|||||||0.38||||||At 3 months postoperative|Chi-squared, Corrected|for age||||||0.38
92166370|NCT04250883|184222178|SUPERIORITY|||||||0.84|||||||Chi-squared, Corrected|For age||Count of patients with or without pain at 3 months postoperative||||0.84
92166371|NCT04250883|184222178|SUPERIORITY|||||||0.89|||||||ANCOVA|Correction for age||Number of Words Chosen||||0.89
92166372|NCT04250883|184222178|SUPERIORITY|||||||0.98|||||||ANCOVA|Correction for age||Pain Rating index||||0.98
92166373|NCT04250883|184222179|SUPERIORITY|||||||0.9|||||||ANCOVA|Correction for age||||||0.9
92166374|NCT04250883|184222180|SUPERIORITY|||||||0.68|||||||ANCOVA|Correction for age||At 1 hour||||0.68
92166375|NCT04250883|184222180|SUPERIORITY|||||||0.91|||||||ANCOVA|Correction for age||At 6 hours||||0.91
92166376|NCT04250883|184222180|SUPERIORITY|||||||0.73|||||||ANCOVA|Correction for age||||||0.73
92166377|NCT04250883|184222180|SUPERIORITY|||||||0.77|||||||ANCOVA|Correction for age||||||0.77
92166378|NCT04250883|184222181|SUPERIORITY|||||||0.63|||||||ANCOVA|Correction for age||At 1 hour||||0.63
92166379|NCT04250883|184222181|SUPERIORITY|||||||0.19|||||||ANCOVA|Correction for age||At postoperative day 1||||0.19
92166380|NCT04250883|184222182|SUPERIORITY|||||||0.89|||||||ANCOVA|Correction for age||At 1 hour||||0.89
92166381|NCT04250883|184222182|SUPERIORITY|||||||0.49|||||||ANCOVA|Correction for age||At postoperative day 1||||0.49
92166382|NCT04250883|184222183|SUPERIORITY|||||||0.42|||||||ANCOVA|Correction for age||||||0.42
92166383|NCT04250883|184222184|SUPERIORITY|||||||0.92|||||||ANCOVA|Correction for age||Of Total complications within 30 days postoperative||||0.92
92166384|NCT04250883|184222185|SUPERIORITY|||||||0.098|||||||ANCOVA|correction for age||Time to maximal intensity||||0.098
92166385|NCT04250883|184222185|SUPERIORITY|||||||0.008|||||||ANCOVA|correction for age||Angle from minimal to maximal intensity||||0.008
92166386|NCT04250883|184222185|SUPERIORITY|||||||0.042|||||||ANCOVA|correction for age||Delta between minimal and maximal intensity||||0.042
92166387|NCT04250883|184222186|SUPERIORITY|||||||0.35|||||||ANCOVA|Correction for age||postoperative day 1||||0.35
92166388|NCT04250883|184222186|SUPERIORITY|||||||0.52|||||||ANCOVA|Correction for age||at postoperative day 12||||0.52
92166389|NCT04250883|184222187|SUPERIORITY|||||||0.99|||||||ANCOVA|correction for age||at postoperative day 1||||0.99
92166390|NCT04250883|184222187|SUPERIORITY|||||||0.3|||||||ANCOVA|Correction for age||At postoperative day 12||||0.30
92166391|NCT04250883|184222188|SUPERIORITY|||||||0.42|||||||ANCOVA|Correction for age||||||0.42
92166392|NCT04250883|184222189|SUPERIORITY|||||||0.3|||||||ANCOVA|Correction for age||||||0.3
92166393|NCT04250883|184222190|SUPERIORITY|||||||0.33|||||||ANCOVA|Correction for age||||||0.33
92166394|NCT04250883|184222191|SUPERIORITY|||||||0.018|||||||ANCOVA|Correction for age||||||0.018
92364441|NCT03950856|184631259|OTHER||GMC Ratio|1.16|||||TWO_SIDED|95.0|0.95|1.43|||||V114 Combined Lots divided by Prevnar 13™|Serotype 6A: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.43|0.95|
92364442|NCT03950856|184631259|OTHER||GMC Ratio|1.5|||||TWO_SIDED|95.0|1.21|1.86|||||V114 Combined Lots divided by Prevnar 13™|Serotype 6B: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.86|1.21|
92364443|NCT03950856|184631259|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.73|1.04|||||V114 Combined Lots divided by Prevnar 13™|Serotype 7F: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.04|0.73|
92364444|NCT03950856|184631259|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.72|1.04|||||V114 Combined Lots divided by Prevnar 13™|Serotype 9V: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.04|0.72|
92364445|NCT03950856|184631259|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.82|1.2|||||V114 Combined Lots divided by Prevnar 13™|Serotype 14: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.20|0.82|
92364446|NCT03950856|184631259|OTHER||GMC Ratio|1.26|||||TWO_SIDED|95.0|1.05|1.51|||||V114 Combined Lots divided by Prevnar 13™|Serotype 18C: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.51|1.05|
92364447|NCT03950856|184631259|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.82|1.15|||||V114 Combined Lots divided by Prevnar 13™|Serotype 19A: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.15|0.82|
92364448|NCT03950856|184631259|OTHER||GMC Ratio|1.03|||||TWO_SIDED|95.0|0.86|1.23|||||V114 Combined Lots divided by Prevnar 13™|Serotype 19F: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.23|0.86|
92364449|NCT03950856|184631259|OTHER||GMC Ratio|1.26|||||TWO_SIDED|95.0|1.03|1.54|||||V114 Combined Lots divided by Prevnar 13™|Serotype 23F: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.54|1.03|
92364450|NCT03950856|184631259|OTHER||GMC Ratio|12.21|||||TWO_SIDED|95.0|10.11|14.74|||||V114 Combined Lots divided by Prevnar 13™|Serotype 22F: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|14.74|10.11|
92364451|NCT03950856|184631259|OTHER||GMC Ratio|9.42|||||TWO_SIDED|95.0|7.96|11.13|||||V114 Combined Lots divided by Prevnar 13™|Serotype 33F: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|11.13|7.96|
92364452|NCT03531814|184631298|OTHER|||||||0.006||||||The Greenhouse-Geisser correction was used because Mauchly's test of sphericity was significant. The reported p-value represents the probability of the differences in the averages of adherence assessment methods for cycles 1-4.|ANOVA|||||||0.006
92404011|NCT02930824|184699297|SUPERIORITY|We will test the hypothesis that CYP2C19 rapid metabolizers or ultra rapid metabolizers (1 or 2 gain-of-function alleles) in the genotype-supported arm have better gastroesophageal reflux disease and symptom control than CYP2C19 rapid metabolizers or ultra rapid metabolizers in the conventional treatment group because they will have their dose increased based on their genotype.||||||0.78||||||Analysis was done of adult patients enrolled that have a CYP2C19 Rapid or Ultra-rapid metabolizer result.|t-test, 2 sided|||We will test the hypothesis that CYP2C19 rapid metabolizers or ultra rapid metabolizers (1 or 2 gain-of-function alleles) in the genotype-supported arm have better gastroesophageal reflux disease and symptom control than CYP2C19 rapid metabolizers or ultra rapid metabolizers in the conventional treatment group because they will have their dose increased based on their genotype.||||0.78
92404012|NCT02930824|184699298|SUPERIORITY|||||||0.031||||||Adjusted for baseline score, race, baseline proton pump inhibitor use, baseline histamine receptor antagonist use. A sensitivity analysis of participants only on omeprazole revealed similar findings.|Wilcoxon (Mann-Whitney)|Adjusted these end points for covariates, including the baseline score, race, and baseline medications using logistic regression||||||0.031
92404013|NCT02930824|184699299|SUPERIORITY||Hazard Ratio (HR)|2.42||||0.07|TWO_SIDED|95.0|0.9|6.3||unadjusted|Log Rank|||||6.3|0.9|0.07
92166395|NCT02763319|184222194|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.468|TWO_SIDED|95.0|0.837|1.351|||Inverse normal test|The Inverse Normal method combines information (p-value) from the interim analysis and information from the final analysis.|The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per the Interactive Web Response System (IWRS). Rituximab + bendamustine was the reference treatment group.|||1.351|0.837|0.468
92166396|NCT02763319|184222195|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.568|TWO_SIDED|95.0|0.586|1.33|||Inverse normal test|The Inverse Normal method combines information (p-value) from the interim analysis and information from the final analysis.|The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per the Interactive Web Response System. Rituximab + bendamustine is the reference treatment group.|||1.330|0.586|0.568
92166397|NCT02763319|184222196|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.812|1.779|||||||A Cochran-Mantel-Haenszel (CMH) test stratified by Baseline stratification factors was performed for response variable coded as follows: 1 for response (CR or PR) and 0 for nonresponse (stable disease \[SD\] or progressive disease \[PD\] or unknown).|1.779|0.812|
92166398|NCT02763319|184222197|SUPERIORITY||Odds Ratio (OR)|1.54|||||TWO_SIDED|95.0|0.778|3.041|||||||A Cochran-Mantel-Haenszel (CMH) test stratified by Baseline stratification factors was performed for response variable coded as follows: 1 for response (CR or PR) and 0 for nonresponse (stable disease \[SD\] or progressive disease \[PD\] or unknown).|3.041|0.778|
92166399|NCT02763319|184222198|SUPERIORITY||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.938|1.745|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.745|0.938|
92166400|NCT02763319|184222199|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.673|2.035|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|2.035|0.673|
92364453|NCT03531814|184631298|OTHER|||||||0.021||||||The Greenhouse-Geisser correction was used because Mauchly's test of sphericity was significant. The reported p-value represents the probability of the differences in the averages of adherence assessment methods for cycles 5-8.|ANOVA|||||||0.021
92364454|NCT03531814|184631298|OTHER|||||||0.034||||||The Greenhouse-Geisser correction was used because Mauchly's test of sphericity was significant. The reported p-value represents the probability of the differences in the averages of adherence assessment methods for cycles 9-12.|ANOVA|||||||.034
92364455|NCT03531814|184631298|OTHER|||||||0.04||||||The Greenhouse-Geisser correction was used because Mauchly's test of sphericity was significant. The reported p-value represents the probability of the differences in the averages of adherence assessment methods for cycles 13-18.|ANOVA|||||||.040
92364456|NCT03531814|184631299|OTHER||Spearman's correlation|-0.21||||0.536|TWO_SIDED|95.0|-0.729|0.463||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.463|-0.729|0.536
92364457|NCT03531814|184631299|OTHER||Spearman's correlation|0.134||||0.713|TWO_SIDED|95.0|-0.557|0.715||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Spearman correlation (non-parametric)|||||0.715|-0.557|.713
92364458|NCT03531814|184631299|OTHER||Spearman's correlation|0.095||||0.823|TWO_SIDED|95.0|-0.668|0.761||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 9-12.|Spearman correlation (non-parametric)|||||0.761|-0.668|.823
92224538|NCT03440814|184350748|SUPERIORITY||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.458||0.0225|TWO_SIDED|95.0|-1.95|-0.15|||ANCOVA|ANCOVA adjusted for baseline body fat mass value as a covariate, and randomization stratification variables (as randomized) as factors.||||-0.15|-1.95|0.0225
92224539|NCT03440814|184350749|SUPERIORITY||Mean Difference (Final Values)|-3.13|STANDARD_ERROR_OF_MEAN|1.481||0.0369|TWO_SIDED|95.0|-6.06|-0.19|||Mixed Models Analysis|Linear mixed model for repeated measurements was used. All available data collected before the March 1, 2020 cutoff from each subject were included.|alpha=0.05 level of significance|||-0.19|-6.06|0.0369
92224540|NCT01437397|184350769|SUPERIORITY_OR_OTHER||Least squares mean difference|0.108|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.073|0.144|||Mixed Models Analysis|Treatment, sex, smoking-status, visit and group-by-visit as factors; screening pre- and post-bronchodilator FEV1, age and baseline FEV1 as covariates||||0.144|0.073|<0.0001
92224541|NCT01437397|184350769|SUPERIORITY_OR_OTHER||Least squares mean difference|0.087|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.052|0.123|||Mixed Models Analysis|Treatment, sex, smoking-status, visit and group-by-visit as factors; screening pre- and post-bronchodilator FEV1, age and baseline FEV1 as covariates||||0.123|0.052|<0.0001
92364459|NCT03531814|184631299|OTHER||Spearman's correlation|0.333||||0.42|TWO_SIDED|95.0|-0.505|0.848||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18.|Spearman correlation (non-parametric)|||||0.848|-0.505|.420
92364460|NCT03531814|184631300|OTHER||Spearman's correlation|-0.333||||0.317|TWO_SIDED|95.0|-0.785|0.352||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.352|-0.785|0.317
92364461|NCT03531814|184631300|OTHER||Spearman's correlation|-0.309||||0.385|TWO_SIDED|95.0|-0.794|0.416||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Spearman correlation (non-parametric)|||||0.416|-0.794|.385
92364462|NCT03531814|184631300|OTHER||Spearman's correlation|-0.259||||0.535|TWO_SIDED|95.0|-0.824|0.563||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 9-12.|Spearman correlation (non-parametric)|||||0.563|-0.824|.535
92364463|NCT03531814|184631300|OTHER||Spearman's correlation|-0.222||||0.597|TWO_SIDED|95.0|-0.811|0.589||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18.|Spearman correlation (non-parametric)|||||0.589|-0.811|.597
92364464|NCT03531814|184631301|OTHER||Spearman's correlation|-0.215||||0.526|TWO_SIDED|95.0|-0.731|0.459||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.459|-0.731|0.526
92364465|NCT03531814|184631301|OTHER||Spearman's correlation|0.049||||0.894|TWO_SIDED|95.0|-0.613|0.67||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Spearman correlation (non-parametric)|||||0.670|-0.613|.894
92364466|NCT03531814|184631301|OTHER||Spearman's correlation|-0.048||||0.911|TWO_SIDED|95.0|-0.74|0.694||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 9-12|Spearman correlation (non-parametric)|||||0.694|-0.740|.911
92364467|NCT03531814|184631301|OTHER||Spearman's correlation|-0.167||||0.693|TWO_SIDED|95.0|-0.79|0.626||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18|Spearman correlation (non-parametric)|||||0.626|-0.790|.693
92364468|NCT03531814|184631302|OTHER||Spearman's correlation|-0.607||||0.048|TWO_SIDED|95.0|-0.889|0.009||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.009|-0.889|0.048
92364469|NCT03531814|184631302|OTHER||Spearman's correlation|-0.658||||0.038|TWO_SIDED|95.0|-0.914|-0.027||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Spearman correlation (non-parametric)|||||-0.027|-0.914|0.038
92364470|NCT03531814|184631302|OTHER||Spearman's correlation|-0.708||||0.5|TWO_SIDED|95.0|-0.945|0.02||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 9-12.|Spearman correlation (non-parametric)|||||0.020|-0.945|0.50
92364471|NCT03531814|184631302|OTHER||Spearman's correlation|-0.878||||0.004|TWO_SIDED|95.0|-0.979|-0.435||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18.|Spearman correlation (non-parametric)|||||-0.435|-0.979|0.004
92364472|NCT03531814|184631303|OTHER||Spearman's correlation|0.293||||0.382|TWO_SIDED|95.0|-0.39|0.768||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.768|-0.390|0.382
92364473|NCT03531814|184631303|OTHER||Spearman's correlation|0.278||||0.436|TWO_SIDED|95.0|-0.444|0.781||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Spearman correlation (non-parametric)|||||0.781|-0.444|0.436
92364474|NCT03531814|184631303|OTHER||Spearman's correlation|0.229||||0.586|TWO_SIDED|95.0|-0.585|0.813||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 9-12.|Spearman correlation (non-parametric)|||||0.813|-0.585|0.586
92364475|NCT03531814|184631303|OTHER||Spearman's correlation|0.53||||0.177|TWO_SIDED|95.0|-0.302|0.904||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18.|Spearman correlation (non-parametric)|||||0.904|-0.302|0.177
92364476|NCT03531814|184631305|OTHER||Spearman's correlation|-0.576||||0.063|TWO_SIDED|95.0|-0.879|0.056||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.056|-0.879|0.063
92364477|NCT03531814|184631305|OTHER||Spearman's correlation|-0.68||||0.031|TWO_SIDED|95.0|-0.92|-0.066||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Wilcoxon (Mann-Whitney)|||||-0.066|-0.920|0.031
92364478|NCT03531814|184631305|OTHER||Spearman's correlation|-0.835||||0.01|TWO_SIDED|95.0|-0.971|-0.292||The reported p-value represents the strength of the relationship between the variables at cycles 9-12.|Spearman correlation (non-parametric)|||||-0.292|-0.971|0.010
92364479|NCT03531814|184631305|OTHER||Spearman's correlation|-0.933|||<|0.001|TWO_SIDED|95.0|-0.989|-0.652||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18.|Spearman correlation (non-parametric)|||||-0.652|-0.989|<0.001
92364480|NCT03531814|184631306|OTHER||Spearman's correlation|-0.035||||0.919|TWO_SIDED|95.0|-0.634|0.591||The reported p-value represents the strength of the relationship between the variables for cycles 1-4.|Spearman correlation|||||0.591|-0.634|0.919
92166401|NCT02763319|184222200|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.875|1.452|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.452|0.875|
92166402|NCT02763319|184222201|SUPERIORITY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.682|1.626|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.626|0.682|
92166403|NCT02763319|184222202|SUPERIORITY||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.829|1.985|||||||A CMH test stratified by Baseline stratification factors was performed for response variable coded as follows: 1 for response (CR or PR) and 0 for nonresponse (stable disease \[SD\] or progressive disease \[PD\] or unknown).|1.985|0.829|
92166404|NCT02763319|184222203|SUPERIORITY||Odds Ratio (OR)|1.62|||||TWO_SIDED|95.0|0.755|3.457|||||||A CMH test stratified by Baseline stratification factors was performed for response variable coded as follows: 1 for response (CR or PR) and 0 for nonresponse (stable disease \[SD\] or progressive disease \[PD\] or unknown).|3.457|0.755|
92166405|NCT02763319|184222204|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.831|1.416|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.416|0.831|
92166406|NCT02763319|184222205|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.633|1.595|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.595|0.633|
92166407|NCT02763319|184222206|SUPERIORITY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.794|1.244|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.244|0.794|
92166408|NCT02763319|184222207|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.57|1.22|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.220|0.570|
92166409|NCT00925587|184222230|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin -0.5 g/dL|Mean Difference (Final Values)|-0.188|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|95.0|-0.427|0.052|||||Darbepoetin alfa QM - Darbepoetin alfa Q2W|Power = 90% at sample size calculation||0.052|-0.427|
92166410|NCT00516321|184222307|SUPERIORITY_OR_OTHER||Percentage difference in SVR|7.9||||0.0064|TWO_SIDED|95.0|2.4|13.4||Stratified Cochran-Mantel-Haenszel (CMH) chi-square test adjusted for the randomization strata|Cochran-Mantel-Haenszel||The estimated value reflects the percentage of participants with SVR in the eltrombopag group minus the percentage of participants with SVR in the placebo group. Adjusted for the actual strata: HCV genotype, baseline platelet count, and HCV RNA.|||13.4|2.4|0.0064
92364481|NCT03531814|184631306|OTHER||Spearman's correlation|0.227||||0.528|TWO_SIDED|95.0|-0.487|0.759||The reported p-value represents the strength of the relationship between the variables for cycles 5-8.|Spearman correlation|||||0.759|-0.487|0.528
92364482|NCT03531814|184631306|OTHER||Spearman's correlation|0.179||||0.672|TWO_SIDED|95.0|-0.618|0.794||The reported p-value represents the strength of the relationship between the variables for cycles 9-12.|Spearman correlation|||||0.794|-0.618|0.672
92364483|NCT03531814|184631306|OTHER||Spearman's correlation|0.041||||0.923|TWO_SIDED|95.0|-0.697|0.737||The reported p-value represents the strength of the relationship between the variables for cycles 13-18.|Spearman correlation|||||0.737|-0.697|0.923
92364484|NCT03531814|184631307|OTHER||Spearman's correlation|-0.638||||0.035|TWO_SIDED|95.0|-0.899|-0.041||The reported p-value represents the strength of the relationship between the variables for cycles 1-4.|Spearman correlation|||||-0.041|-0.899|0.035
92166411|NCT00373386|184222330|SUPERIORITY_OR_OTHER|||||||0.644|||||||t-test, 2 sided|||compared with baseline||||0.644
92166412|NCT00373386|184222331|SUPERIORITY_OR_OTHER|||||||0.018||||||Versus baseline|t-test, 2 sided|paired||Compared with baseline||||0.018
92166413|NCT00373386|184222332|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||Comparison to baseline||||0.04
92166414|NCT00373386|184222333|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Comparison with baseline||||0.004
92166415|NCT00373386|184222334|SUPERIORITY_OR_OTHER|||||||0.804|||||||t-test, 2 sided|||Comparison with baseline||||0.804
92166416|NCT00373386|184222335|SUPERIORITY_OR_OTHER|||||||0.095|||||||t-test, 2 sided|||Comparison with baseline||||0.095
92166417|NCT00373386|184222336|SUPERIORITY_OR_OTHER|||||||0.648|||||||t-test, 2 sided|||Comparison with baseline||||0.648
92166418|NCT01925469|184222342|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|Differences in the median change in pain scores were assessed using Wilcoxon rank sum test.||An a priori sample size calculation determined at least 28 patients were needed to detect a clinically significant 13 mm difference in pain score (α=0.05, power =0.80) with a standard deviation of 12 mm. Intention to treat analysis was performed.||||0.43
92166419|NCT01925469|184222343|SUPERIORITY_OR_OTHER|||||||0.4|||||||Fisher Exact|||Fisher exact test was used to assess differences in satisfaction scores by treatment group. Correlation between pain and satisfaction scores was assessed by Spearman's correlation coefficient.||||0.4
92364485|NCT03531814|184631307|OTHER||Spearman's correlation|-0.361||||0.306|TWO_SIDED|95.0|-0.815|0.367||The reported p-value represents the strength of the relationship between the variables for cycles 5-8.|Spearman correlation|||||0.367|-0.815|0.306
92364486|NCT03531814|184631307|OTHER||Spearman's correlation|-0.407||||0.317|TWO_SIDED|95.0|-0.87|0.438||The reported p-value represents the strength of the relationship between the variables for cycles 9-12.|Spearman correlation|||||0.438|-0.870|0.317
92364487|NCT03531814|184631307|OTHER||Spearman's correlation|-0.18||||0.67|TWO_SIDED|95.0|-0.795|0.0617||The reported p-value represents the strength of the relationship between the variables for cycles 13-18.|Spearman correlation|||||0.0617|-0.795|0.670
92364488|NCT02896257|184631323|SUPERIORITY||Odds Ratio (OR)|3.66|||<|0.001|TWO_SIDED|95.0|2.5|5.38|||Regression, Logistic|Mixed-random effects for provider clustering and adjusting for smoking status. Multiple imputation by chained equations for missing smoking status.||||5.38|2.50|<0.001
92364489|NCT02896257|184631324|SUPERIORITY||Odds Ratio (OR)|0.8||||0.47|TWO_SIDED|95.0|0.44|1.47|||Regression, Logistic|Mixed-random effects for provider clustering and adjusting for smoking status. Multiple imputation by chained equations for missing smoking status.||||1.47|0.44|0.47
92364490|NCT02896257|184631325|SUPERIORITY||Odds Ratio (OR)|0.63||||0.42|TWO_SIDED|95.0|0.2|1.96|||Regression, Logistic|Mixed-random effects for provider clustering and adjusting for smoking status. Multiple imputation by chained equations for missing smoking status.||||1.96|0.20|0.42
92224542|NCT01437397|184350770|SUPERIORITY_OR_OTHER||Least squares mean difference|0.045|STANDARD_ERROR_OF_MEAN|0.017||0.01|TWO_SIDED|95.0|0.011|0.079|||Mixed Models Analysis|Treatment, sex, smoking-status, visit and group-by-visit as factors; screening pre- and post-bronchodilator FEV1, age and baseline FEV1 as covariates||||0.079|0.011|0.010
92224543|NCT01437397|184350770|SUPERIORITY_OR_OTHER||Least squares mean difference|0.026|STANDARD_ERROR_OF_MEAN|0.017||0.133|TWO_SIDED|95.0|-0.008|0.06|||Mixed Models Analysis|Treatment, sex, smoking-status, visit and group-by-visit as factors; screening pre- and post-bronchodilator FEV1, age and baseline FEV1 as covariates||||0.060|-0.008|0.133
92364491|NCT03423602|184631334|NON_INFERIORITY|Based on a Meta-Analysis of a focused systematic literature review from a comparable patient population, the estimated major vascular access site complication rate or PGsafety for the conservative Random Effect Model is 0.125 with a 95% Confidence Interval of 0.09 to 0.17. Given that the upper bound was 0.17 this justified the use of 0.13 as a valid PGsafety plus a non-inferiority margin of 0.04 yielding an overall non-inferiority limit (NLs) of 0.17 for Safety. Study power is greater than 90%|Wilson's exact test|0.0487|||<|0.0001|ONE_SIDED|95.0||0.0487|||Wilson's exact test|All 75 enrolled subjects, regardless of their enrolment status at 1-month post implantation, including all reported safety data where included.||"The test for non-inferiority for safety was based on a one-sided test (at the 0.025 significance level) for a binomial proportion with hypotheses:~H0s: Psafety ≥ NLs versus H1s: Psafety \< NLs Where: Psafety is the actual proportion of device related major vascular access site complications within the study population; and NLs is the non-inferiority limit for proportion of expected major vascular access site complications associated with cut-down and suture closure."||0.0487||<.0001
92166420|NCT01925469|184222344|SUPERIORITY_OR_OTHER|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
92166421|NCT01308567|184222347|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.975||||0.7574|TWO_SIDED|95.0|0.819|1.16||P-value from two-sided stratified log-rank test, stratified for ECOG PS score at baseline, measurable disease at baseline and region with commercial availability of cabazitaxel at time of randomization. Threshold for statistical significance = 0.0479|Log Rank||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by Eastern Cooperative Oncology Group performance status (ECOG PS) score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.16|0.819|0.7574
92224544|NCT01437397|184350771|SUPERIORITY_OR_OTHER||Least squares mean difference|1.436|STANDARD_ERROR_OF_MEAN|0.297|<|0.0001|TWO_SIDED|95.0|0.854|2.018|||Mixed Models Analysis|Treatment group, sex, smoking-status, visit, and treatment group-by-visit as factors; visit, age baseline BDI/SGRQ as covariates||||2.018|0.854|<0.0001
92364492|NCT03257358|184631339|OTHER|Estimation|least squares mean|-413.4|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|-422.7||||ANCOVA|||||-404.|-422.7|
92364493|NCT03257358|184631339|OTHER|Estimation|least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|-3.9|3.6|||ANCOVA|||||3.6|-3.9|
92364494|NCT03257358|184631340|OTHER|Estimation|least squares mean|-368.7|STANDARD_ERROR_OF_MEAN|7.08|||TWO_SIDED|95.0|-382.8|354.7|||ANCOVA|||||354.7|-382.8|
92364495|NCT03257358|184631340|OTHER|Estimation|least squares mean|-0.1|STANDARD_ERROR_OF_MEAN|3.54|||TWO_SIDED|95.0|-7.1|6.9|||ANCOVA|||||6.9|-7.1|
92364496|NCT03257358|184631341|OTHER|Estimation|least squares mean|-52.1|STANDARD_ERROR_OF_MEAN|2.58|||TWO_SIDED|95.0|-57.2|-46.9|||ANCOVA|||||-46.9|-57.2|
92224545|NCT01437397|184350771|SUPERIORITY_OR_OTHER||Least squares mean difference|1.395|STANDARD_ERROR_OF_MEAN|0.294|<|0.0001|TWO_SIDED|95.0|0.818|1.972|||Mixed Models Analysis|Treatment group, sex, smoking-status, visit, and treatment group-by-visit as factors; visit, age baseline BDI/SGRQ as covariates||||1.972|0.818|<0.0001
92224546|NCT01437397|184350772|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.353|STANDARD_ERROR_OF_MEAN|1.075|<|0.0001|TWO_SIDED|95.0|-6.462|-2.244|||Mixed Models Analysis|Treatment group, sex, smoking-status, visit, and treatment group-by-visit as factors; visit, age baseline BDI/SGRQ as covariates||||-2.244|-6.462|<0.0001
92364497|NCT03257358|184631341|OTHER|Estimation|least squares mean|-3.1|STANDARD_ERROR_OF_MEAN|2.27|||TWO_SIDED|95.0|-7.6|1.4|||ANCOVA|||||1.4|-7.6|
92364498|NCT03257358|184631342|OTHER|Estimation|least squares mean|-43.6|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|-46.9|-40.3|||ANCOVA|||||-40.3|-46.9|
92364499|NCT03257358|184631342|OTHER|Estimation|least squares mean|-0.7|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|95.0|-3.0|1.7|||ANCOVA|||||1.7|-3.0|
92364500|NCT03257358|184631343|OTHER|Estimation|least squares mean|-36.3|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|95.0|-37.2|-35.3|||ANCOVA|||||-35.3|-37.2|
92364501|NCT03257358|184631343|OTHER|Estimation|least squares mean|0.4|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-0.4|1.2|||ANCOVA|||||1.2|-0.4|
92364502|NCT03257358|184631344|OTHER|Estimation|least squares mean|-53.2|STANDARD_ERROR_OF_MEAN|0.97|||TWO_SIDED|95.0|-55.1|-51.3|||ANCOVA|||||-51.3|-55.1|
92364503|NCT03257358|184631344|OTHER|Estimation|least squares mean|0.4|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|-0.7|1.4|||ANCOVA|||||1.4|-0.7|
92364504|NCT03257358|184631345|OTHER|Estimation|least squares mean|-140.4|STANDARD_ERROR_OF_MEAN|2.71|||TWO_SIDED|95.0|-145.8|-135.0|||ANCOVA|||||-135.0|-145.8|
92364505|NCT03257358|184631345|OTHER|Estimation|least squares mean|0.7|STANDARD_ERROR_OF_MEAN|1.3|||TWO_SIDED|95.0|-1.9|3.3|||ANCOVA|||||3.3|-1.9|
92364506|NCT03257358|184631346|OTHER|Estimation|least squares mean|-85.2|STANDARD_ERROR_OF_MEAN|1.92|||TWO_SIDED|95.0|-89.0|-81.4|||ANCOVA|||||-81.4|-89.0|
92364507|NCT03257358|184631346|OTHER|Estimation|least squares mean|0.2|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-2.3|1.9|||ANCOVA|||||1.9|-2.3|
92364508|NCT03257358|184631347|OTHER|Estimation|least squares mean|-27.9|STANDARD_ERROR_OF_MEAN|11.65|||TWO_SIDED|95.0|-51.1|-4.8|||ANCOVA|||||-4.8|-51.1|
92364509|NCT03257358|184631347|OTHER|Estimation|least squares mean|-9.4|STANDARD_ERROR_OF_MEAN|3.47|||TWO_SIDED|95.0|-16.3|-2.6|||ANCOVA|||||-2.6|-16.3|
92364510|NCT03257358|184631348|OTHER|Estimation|least squares mean|-181.2|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|95.0|-183.3|-179.0|||ANCOVA|||||-179.0|-183.3|
92364511|NCT03257358|184631348|OTHER|Estimation|least squares mean|-0.8|STANDARD_ERROR_OF_MEAN|1.66|||TWO_SIDED|95.0|-4.1|2.5|||ANCOVA|||||2.5|-4.1|
92364512|NCT03257358|184631349|OTHER|Estimation|least squares mean|-55.2|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-56.5|-53.9|||ANCOVA|||||-53.9|-56.5|
92364513|NCT03257358|184631349|OTHER|Estimation|least squares mean|0.3|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-0.5|1.1|||ANCOVA|||||1.1|-0.5|
92364514|NCT03257358|184631350|OTHER|Estimation|least squares mean|-7.2|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-8.0|-6.4|||ANCOVA|||||-6.4|-8.0|
92364515|NCT03257358|184631350|OTHER|Estimation|least squares mean|1.1|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|95.0|0.3|2.0|||ANCOVA|||||2.0|0.3|
92364516|NCT03257358|184631351|OTHER|Estimation|least squares mean|69.4|STANDARD_ERROR_OF_MEAN|13.78|||TWO_SIDED|95.0|42.1|96.7|||ANCOVA|||||96.7|42.1|
92364517|NCT03257358|184631351|OTHER|Estimation|least squares mean|117.0|STANDARD_ERROR_OF_MEAN|10.07|||TWO_SIDED|95.0|97.1|136.9|||ANCOVA|||||136.9|97.1|
92364518|NCT03257358|184631352|OTHER|Estimation|least squares mean|-782.6|STANDARD_ERROR_OF_MEAN|138.9|||TWO_SIDED|95.0|-1058.2|-507.1|||ANCOVA|||||-507.1|-1058.2|
92364519|NCT03257358|184631352|OTHER|Estimation|least squares mean|-485.9|STANDARD_ERROR_OF_MEAN|91.88|||TWO_SIDED|95.0|-667.3|-304.4|||ANCOVA|||||-304.4|-667.3|
92364520|NCT03257358|184631353|OTHER|Estimation|least squares mean|-33.3|STANDARD_ERROR_OF_MEAN|7.47|||TWO_SIDED|95.0|-48.2|-18.5|||ANCOVA|||||-18.5|-48.2|
92364521|NCT03257358|184631353|OTHER|Estimation|least squares mean|-25.8|STANDARD_ERROR_OF_MEAN|5.52|||TWO_SIDED|95.0|-36.7|-14.9|||ANCOVA|||||-14.9|-36.7|
92364522|NCT03257358|184631354|OTHER|Estimation|least squares mean|-888.7|STANDARD_ERROR_OF_MEAN|13.1|||TWO_SIDED|95.0|-914.6|-862.7|||ANCOVA|||||-862.7|-914.6|
92364523|NCT03257358|184631354|OTHER|Estimation|least squares mean|-3.3|STANDARD_ERROR_OF_MEAN|7.24|||TWO_SIDED|95.0|-17.6|11.0|||ANCOVA|||||11.0|-17.6|
92364524|NCT03257358|184631355|OTHER|Estimation|least squares mean|-39.5|STANDARD_ERROR_OF_MEAN|1.053|||TWO_SIDED|95.0|-41.59|-37.42|||ANCOVA|||||-37.42|-41.59|
92166422|NCT01308567|184222347|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.009||||0.9967|TWO_SIDED|95.0|0.85|1.197||P-value from two-sided stratified log-rank test, stratified for ECOG PS score at baseline, measurable disease at baseline and region with commercial availability of cabazitaxel at time of randomization. Threshold for statistical significance = 0.0479|Log Rank||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.197|0.85|0.9967
92166423|NCT01308567|184222348|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.989|||||TWO_SIDED|95.0|0.849|1.152|||||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.152|0.849|
92166424|NCT01308567|184222348|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.063|||||TWO_SIDED|95.0|0.913|1.236|||||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.236|0.913|
92166425|NCT01308567|184222349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.958|||||TWO_SIDED|95.0|0.785|1.17|||||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.17|0.785|
92166426|NCT01308567|184222349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.916|||||TWO_SIDED|95.0|0.75|1.118|||||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.118|0.75|
92364525|NCT03257358|184631355|OTHER|Estimation|least squares mean|0.14|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|-0.87|1.14|||ANCOVA|||||1.14|-0.87|
92364526|NCT03257358|184631356|OTHER|Estimation|least squares mean|-248.9|STANDARD_ERROR_OF_MEAN|15.0|||TWO_SIDED|95.0|-278.7|-219.2|||ANCOVA|||||-219.2|-278.7|
92364527|NCT03257358|184631356|OTHER|Estimation|least squares mean|-9.9|STANDARD_ERROR_OF_MEAN|7.71|||TWO_SIDED|95.0|-25.1|5.4|||ANCOVA|||||5.4|-25.1|
92364528|NCT03257358|184631357|OTHER|Estimation|least squares mean|5.6|STANDARD_ERROR_OF_MEAN|1.249|||TWO_SIDED|95.0|3.13|8.08|||ANCOVA|||||8.08|3.13|
92364529|NCT03257358|184631357|OTHER|Estimation|least squares mean|0.04|STANDARD_ERROR_OF_MEAN|0.364|||TWO_SIDED|95.0|-0.68|0.76|||ANCOVA|||||0.76|-0.68|
92364530|NCT03257358|184631358|OTHER|Estimation|least squares mean|-231.0|STANDARD_ERROR_OF_MEAN|1.75|||TWO_SIDED|95.0|-234.5|-227.6|||ANCOVA|||||-227.6|-234.5|
92364531|NCT03257358|184631358|OTHER|Estimation|least squares mean|-0.3|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|95.0|-5.2|4.5|||ANCOVA|||||4.5|-5.2|
92364532|NCT03257358|184631359|OTHER|Estimation|least squares mean|-8.3|STANDARD_ERROR_OF_MEAN|0.455|||TWO_SIDED|95.0|-9.21|-7.4|||ANCOVA|||||-7.40|-9.21|
92364533|NCT03257358|184631359|OTHER|Estimation|least squares mean|0.32|STANDARD_ERROR_OF_MEAN|0.251|||TWO_SIDED|95.0|-0.17|0.82|||ANCOVA|||||0.82|-0.17|
92364534|NCT01747915|184631389|SUPERIORITY||Least Square (LS) Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.088||0.8121|TWO_SIDED|95.0|-0.15|0.19|||ANCOVA|||Estimates and p-values from an ANCOVA model including fixed effects for log transformed baseline value, region, age strata, and treatment group.||0.19|-0.15|0.8121
92364535|NCT01747915|184631389|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.088||0.8889|TWO_SIDED|95.0|-0.19|0.16|||ANCOVA|||Estimates and p-values from an ANCOVA model including fixed effects for log transformed baseline value, region, age strata, and treatment group.||0.16|-0.19|0.8889
92364536|NCT01747915|184631390|SUPERIORITY||Odds Ratio (OR)|1.095||||0.7973|TWO_SIDED|95.0|0.548|2.186||P-values were from a Logistic Regression Model including fixed effects for region, age strata and treatment.|Regression, Logistic|||||2.186|0.548|0.7973
92364537|NCT01747915|184631390|SUPERIORITY||Odds Ratio (OR)|0.934||||0.8474|TWO_SIDED|95.0|0.465|1.877||P-values were from a Logistic Regression Model including fixed effects for region, age strata and treatment.|Regression, Logistic|||||1.877|0.465|0.8474
92364538|NCT00988156|184631391|SUPERIORITY_OR_OTHER|||||||0.249|||||||ANCOVA|||||||0.2490
92364539|NCT00988156|184631392|SUPERIORITY_OR_OTHER|||||||0.9017|||||||Cochran-Mantel-Haenszel|||||||0.9017
92364540|NCT03420742|184631408|OTHER||Geometric least squares mean ratio|0.741|||||TWO_SIDED|90.0|0.6|0.915|||||The ratios of geometric mean were calculated on the basis of the within-participant variance. Participant was treated as a random effect in the model.|||0.915|0.600|
92364541|NCT03420742|184631409|OTHER||Geometric least squares mean ratio|0.836|||||TWO_SIDED|90.0|0.662|1.06|||||The ratios of geometric mean were calculated on the basis of the within-participant variance. Participant was treated as a random effect in the model.|||1.06|0.662|
92364542|NCT02266147|184631413|OTHER|MTD was not observed because no DLTs occurred at the maximum dose tested. Because this is a safety endpoint, a statistical analysis was not conducted.||||||||||||||||MTD was not observed because no DLTs occurred at the maximum dose tested. Because this is a safety endpoint, a statistical analysis was not conducted.|MTD was not observed because no DLTs occurred at the maximum dose tested. Because this is a safety endpoint, a statistical analysis was not conducted.|||
92404014|NCT02930824|184699300|SUPERIORITY|||||||0.97||||||If a participant did not complete a follow-up questionnaire during their third to fifth week of proton pump inhibitor therapy, their questionnaire results were excluded from the analyses.|Wilcoxon (Mann-Whitney)|||If a participant did not complete a follow-up questionnaire during their third to fifth week of proton pump inhibitor therapy, their questionnaire results were excluded from the analyses.||||0.97
92404015|NCT02930824|184699301|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||If a participant did not complete a follow-up questionnaire during their third to fifth week of proton pump inhibitor therapy, their questionnaire results were excluded from the analyses.||||0.83
92404016|NCT01524796|184699309|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||paired Wilcoxon signed-rank test|||||||<0.001
92364543|NCT01911260|184631421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_DEVIATION|2.0|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|In intragroup of supplementation (zinc or placebo) we used the t-test for dependent samples in order to compare growth over time.||"Null Hypothesis: There isn't difference in the HAZ mean difference between children with Growth Deficit who received zinc amino acid or placebo.~We attributed α=0.05, β=0.20, and power=0.80."||||<0.05
92404017|NCT01524796|184699310|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon signed-rank test|||||||<0.001
92404018|NCT01524796|184699311|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon signed-rank test|||||||<0.001
92404019|NCT02121158|184699325|EQUIVALENCE|Unadjusted|Hazard Ratio (HR)|0.915||||0.7457|TWO_SIDED|95.0|0.534|1.568|||Cox Proportional Hazards|||||1.568|0.534|0.7457
92404020|NCT02435992|184699326|SUPERIORITY||Odds Ratio (OR)|3.586||||0.0001|TWO_SIDED|95.0|1.938|6.636|||Cochran-Mantel-Haenszel|||||6.636|1.938|0.0001
92404021|NCT02435992|184699327|SUPERIORITY||Odds Ratio (OR)|2.755||||0.0001|TWO_SIDED|95.0|1.767|4.294|||Cochran-Mantel-Haenszel|||||4.294|1.767|0.0001
92166427|NCT01308567|184222351|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.948|||||TWO_SIDED|95.0|0.8|1.123|||||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.123|0.8|
92364544|NCT01911260|184631421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_DEVIATION|2.0|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|In intragroup of supplementation (zinc or placebo) we used the t-test for dependent samples in order to compare growth over time.||"Null Hypothesis: There isn't difference in the HAZ mean difference between children with Normal Height who received zinc amino acid or placebo.~We attributed α=0.05, β=0.20, and power=0.80."||||<0.05
92404022|NCT03879772|184699337|SUPERIORITY|||||||0.95|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way analysis of variance (ANOVA).||||0.95
92404023|NCT03879772|184699337|SUPERIORITY|||||||0.78|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.78
92404024|NCT03879772|184699337|SUPERIORITY|||||||0.98|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.98
92404025|NCT03879772|184699337|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
92404026|NCT03879772|184699337|SUPERIORITY|||||||0.82|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.82
92404027|NCT03879772|184699337|SUPERIORITY|||||||0.98|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.98
92404028|NCT03879772|184699337|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
92404029|NCT03879772|184699337|SUPERIORITY|||||||0.8|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.8
92404030|NCT03879772|184699337|SUPERIORITY|||||||0.02|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.02
92404031|NCT03879772|184699337|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
92404032|NCT03879772|184699338|SUPERIORITY|||||||0.56|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.56
92404033|NCT03879772|184699338|SUPERIORITY|||||||0.74|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.74
92404034|NCT03879772|184699338|SUPERIORITY|||||||0.68|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.68
92404035|NCT03879772|184699338|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92404036|NCT03879772|184699338|SUPERIORITY|||||||0.81|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.81
92404037|NCT03879772|184699338|SUPERIORITY|||||||0.33|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.33
92404038|NCT03879772|184699338|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
92404039|NCT03879772|184699338|SUPERIORITY|||||||0.46|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.46
92404040|NCT03879772|184699338|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92404041|NCT03879772|184699338|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92404042|NCT03879772|184699339|SUPERIORITY|||||||0.8|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.8
92404043|NCT03879772|184699339|SUPERIORITY|||||||0.45|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.45
92404044|NCT03879772|184699339|SUPERIORITY|||||||0.12|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.12
92404045|NCT03879772|184699339|SUPERIORITY|||||||0.36|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.36
92404046|NCT03879772|184699339|SUPERIORITY|||||||0.6|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.6
92404047|NCT03879772|184699339|SUPERIORITY|||||||0.17|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.17
92404048|NCT03879772|184699339|SUPERIORITY|||||||0.23|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.23
92364545|NCT01657305|184631422|SUPERIORITY_OR_OTHER||||||<|0.0001||||||2-sided, significance level = 0.05|t-test, 2 sided|||"All participants received both treatments and treatments were intra-individually compared.~Hypotheses tested: H0: δ = 0 and H1: δ ≠ 0 with δ being the difference in time to wound closure between treatments.~Negative values for the intra-individual time difference indicate faster healing of the Oleogel-S10-treated wound half.~For right-censored observations (no wound closure observed in blinded photo evaluation), wound closure was conservatively calculated as +1 day after the last photo."||||<0.0001
92364546|NCT01657305|184631426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_DEVIATION|13.4|<|0.0001|TWO_SIDED|95.0|6.0|11.2||Day 7|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||11.2|6.0|<0.0001
92364547|NCT01657305|184631426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.1|STANDARD_DEVIATION|17.0|<|0.0001|TWO_SIDED|95.0|6.9|13.4||Day 10|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||13.4|6.9|<0.0001
92364548|NCT01657305|184631426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9|STANDARD_DEVIATION|17.0|<|0.0001|TWO_SIDED|95.0|4.6|11.1||Day 14|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||11.1|4.6|<0.0001
92364549|NCT01657305|184631426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4|STANDARD_DEVIATION|18.3|<|0.0001|TWO_SIDED|95.0|3.9|10.9||Day 18|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||10.9|3.9|<0.0001
92364550|NCT01657305|184631426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4|STANDARD_DEVIATION|14.1|<|0.0001|TWO_SIDED|95.0|3.7|9.1||Day 21|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||9.1|3.7|<0.0001
92364551|NCT01657305|184631426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|STANDARD_DEVIATION|12.9|=|0.0021|TWO_SIDED|95.0|1.5|6.4||Day 28|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||6.4|1.5|=0.0021
92364552|NCT00940602|184631435|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.636||||0.015|TWO_SIDED|95.0|0.42|0.96||Exploratory p-value is one tailed and is based on the stratified log-rank test.|Regression, Cox||95% CI was based on a Wald test from Cox model|||0.96|0.42|0.015
92364553|NCT00940602|184631436|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|12.0|||||TWO_SIDED|95.0|-1.8|25.7||||||||25.7|-1.8|
92364554|NCT00940602|184631437|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.832||||0.2|TWO_SIDED|95.0|0.54|1.28|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||1.28|0.54|0.200
92364555|NCT00940602|184631438|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|1.4|||||TWO_SIDED|95.0|-5.3|8.1||||||||8.1|-5.3|
92404049|NCT03879772|184699339|SUPERIORITY|||||||0.42|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.42
92404050|NCT03879772|184699339|SUPERIORITY|||||||0.09|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.09
92404051|NCT03879772|184699339|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
92404052|NCT03879772|184699340|SUPERIORITY|||||||0.03|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.03
92404053|NCT03879772|184699340|SUPERIORITY|||||||0.04|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.04
92364556|NCT00940602|184631439|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|-0.3|||||TWO_SIDED|95.0|-12.0|11.4||||||||11.4|-12.0|
92364557|NCT00940602|184631440|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.725||||0.184|TWO_SIDED|95.0|0.36|1.46|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||1.46|0.36|0.184
92364558|NCT00940602|184631441|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.195|||<|0.001|TWO_SIDED|95.0|0.11|0.36|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||0.36|0.11|<.001
92364559|NCT00940602|184631442|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.871||||0.303|TWO_SIDED|95.0|0.52|1.46|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||1.46|0.52|0.303
92364560|NCT00940602|184631443|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|1.072||||0.389|TWO_SIDED|95.0|0.66|1.75|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||1.75|0.66|0.389
92364561|NCT00940602|184631445|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|1.5|||||TWO_SIDED|95.0|-5.2|8.1||||||||8.1|-5.2|
92364562|NCT00940602|184631446|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|0.7|||||TWO_SIDED|95.0|-1.6|3.0||||||||3.0|-1.6|
92364563|NCT00940602|184631447|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|1.4|||||TWO_SIDED|95.0|-11.9|14.6||||||||14.6|-11.9|
92364564|NCT00940602|184631448|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|-9.6|||||TWO_SIDED|95.0|-20.8|1.6||||||||1.6|-20.8|
92404054|NCT03879772|184699340|SUPERIORITY|||||||0.08|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.08
92404055|NCT03879772|184699340|SUPERIORITY|||||||0.49|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.49
92404056|NCT03879772|184699340|SUPERIORITY|||||||0.93|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.93
92404057|NCT03879772|184699340|SUPERIORITY|||||||0.75|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.75
92364565|NCT00940602|184631449|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.797||||0.232|TWO_SIDED|95.0|0.43|1.46|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||1.46|0.43|0.232
92364566|NCT01374425|184631468|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0555|TWO_SIDED|95.0|0.61|1.01||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||Hazard ratio (HR) (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by high/low excision repair cross-complementing (ERCC)-1 level and region of enrollment.||1.01|0.61|0.0555
92166428|NCT01308567|184222351|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.047|||||TWO_SIDED|95.0|0.886|1.238|||||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.238|0.886|
92166429|NCT01308567|184222353|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.189|||||TWO_SIDED|95.0|0.986|1.434|||||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.434|0.986|
92166430|NCT01308567|184222353|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.189|||||TWO_SIDED|95.0|0.985|1.435|||||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.435|0.985|
92166431|NCT01308567|184222355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.121|||||TWO_SIDED|95.0|0.886|1.417|||||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.417|0.886|
92166432|NCT01308567|184222355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.014|||||TWO_SIDED|95.0|0.798|1.288|||||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.288|0.798|
92166433|NCT01599793|184222373|EQUIVALENCE|Testing if the change of ktrans between 2 weeks and baseline = 0 (i.e testing if the difference of means between 2 weeks and baseline =0)||||||0.0016|||||||Mixed Models Analysis|||The least square means of ktrans at different time points (baseline, 2 weeks, 12 weeks, 24 weeks) are estimated by a linear mixed model. Comparison of means at different time points were performed. The primary result reported below is for the difference of means between 2 weeks and baseline.||||0.0016
92166434|NCT01599793|184222375|OTHER|We calculated Spearman Correlation Coefficient between the percent change in Ktrans (from week 0 to 12) and the bone scan response change. We tested if the coefficient = 0|Spearman Correlation Coefficients|0.36853||||0.3291|TWO_SIDED||||||t-test, 2 sided|||||||0.3291
92166435|NCT01599793|184222377|OTHER|We calculated Spearman Correlation Coefficient between the percent change in Ktrans (from week 0 to 12) and the PSA change. We tested if the coefficient = 0|Spearman Correlation Coefficients|-0.41818||||0.2006|TWO_SIDED||||||t-test, 2 sided|||||||0.2006
92166436|NCT01599793|184222379|OTHER|We calculated Spearman Correlation Coefficient between the percent change in Ktrans (from week 0 to 12) and the Change in pain scale. We tested if the coefficient = 0|Spearman Correlation Coefficients|0.17669||||0.5828|TWO_SIDED||||||t-test, 2 sided|||||||0.5828
92166437|NCT04040296|184222447|SUPERIORITY||Difference in percentage|1.4||||0.28|TWO_SIDED|95.0|-1.1|3.8|||Cochran-Mantel-Haenszel||Difference between arms in the percentage of subjects with the primary outcome within 14 days of randomization.|||3.8|-1.1|0.28
92166438|NCT04040296|184222448|SUPERIORITY||Difference in percentage|9.5|||<|0.001|TWO_SIDED|95.0|8.1|11.0|||Van Elteren test||Difference between arms in the percentage of implemented recommendations with 24 hours of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||11|8.1|<.001
92166439|NCT04040296|184222449|SUPERIORITY||Difference in percentage|0.5||||0.65|TWO_SIDED|95.0|-1.6|2.6|||Van Elteren test||Difference between arms in the percentage of subjects with AKI progression within 14 days of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||2.6|-1.6|.65
92166440|NCT04040296|184222450|SUPERIORITY||Difference in percentage|0.1||||0.89|TWO_SIDED|95.0|-0.7|0.8|||Van Elteren test||Difference between arms in the percentage of subjects who received inpatient dialysis within 14 days of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||.8|-.7|.89
92166441|NCT04040296|184222451|SUPERIORITY||Difference in percentage|0.4||||0.72|TWO_SIDED|95.0|-1.5|2.1|||Van Elteren test||Difference between arms in the percentage of subjects with inpatient mortality within 14 days of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||2.1|-1.5|.72
92166442|NCT04040296|184222452|SUPERIORITY||Difference in percentage|1.9||||0.31|TWO_SIDED|95.0|-0.3|4.1|||Van Elteren test||Difference between arms in the percentage of subjects who received a kidney consult within 14 days of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||4.1|-.3|.31
92166443|NCT04040296|184222453|SUPERIORITY||Difference in percentage|-0.9||||0.17|TWO_SIDED|95.0|-2.3|0.4|||Van Elteren test||Difference between arms in the percentage of subjects discharged to hospice care within 14 days of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||.4|-2.3|.17
92166444|NCT02652442|184222498|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|Paired samples t-test for change in SVV (measured in degrees)||Null hypothesis: The change in SVV (Post-OAR - Pre-OAR) will not be different for the off-axis distance of 3.5 cm and 7.0 cm.||||0.97
92166445|NCT02652442|184222498|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|Paired samples t-test for change in SVV (measured in degrees)||Null hypothesis: The change in SVV (Post-OAR - Pre-OAR) will not be different for the centrifugation duration of 1 minute and 3 minutes.||||0.51
92224547|NCT01437397|184350772|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.728|STANDARD_ERROR_OF_MEAN|1.066||0.0005|TWO_SIDED|95.0|-5.819|-1.637|||Mixed Models Analysis|Treatment group, sex, smoking-status, visit, and treatment group-by-visit as factors; visit, age baseline BDI/SGRQ as covariates||||-1.637|-5.819|0.0005
92224548|NCT03194373|184350775|SUPERIORITY|Power to detect a 20% improvement in disease control rate (DCR). Based on historical data, the DCR in R/M HNSCC with single agent platinum therapy is 40%. We hypothesize that addition of Palbociclib will increase DCR at 12 weeks to 60%. Two-stage design. Type I error rate of 0.059 and power of 0.80 when the true response rate is 0.60 with alpha=0.05. The two-stage sample size calculations assume a null probability of 0.40.|Proportion|33.0|||||TWO_SIDED|95.0|13.0|59.0||||||||59|13|
92224549|NCT03194373|184350776|OTHER||||||||||||||||||Median survival times were computed using the Kaplan-Meier method with standard error computed using Greenwood's formula. All analyses were done using SAS 9.4 software.|||
92224550|NCT03194373|184350777|OTHER||||||||||||||||||Median survival times were computed using the Kaplan-Meier method with standard error computed using Greenwood's formula. All analyses were done using SAS 9.4 software.|||
92364567|NCT01374425|184631469|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.3944|TWO_SIDED|95.0|0.56|1.26||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.26|0.56|0.3944
92364568|NCT01374425|184631470|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.0786|TWO_SIDED|95.0|0.55|1.03||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.03|0.55|0.0786
92364569|NCT01374425|184631471|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.9576|TWO_SIDED|95.0|0.77|1.28||P-value (relative to ERCC-1 Low subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to ERCC-1 Low subgroup) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.28|0.77|0.9576
92364570|NCT01374425|184631472|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.1658|TWO_SIDED|95.0|0.93|1.53||P-value (relative to VEGF-A Low subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to VEGF-A Low subgroup) was estimated by Cox regression.|Analysis stratified by high/low ERCC-1 level and region of enrollment.||1.53|0.93|0.1658
92364571|NCT01374425|184631473|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.3019|TWO_SIDED|95.0|0.41|1.32||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.32|0.41|0.3019
92404058|NCT03879772|184699340|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92404059|NCT03879772|184699340|SUPERIORITY|||||||0.71|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.71
92404060|NCT03879772|184699340|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92224551|NCT00931359|184350785|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Factors of treatment group and analysis center were considered||||||<0.001
92364572|NCT01374425|184631474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.6035|TWO_SIDED|95.0|0.48|1.53||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.53|0.48|0.6035
92404061|NCT03879772|184699340|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
92404062|NCT03879772|184699341|SUPERIORITY|||||||0.16|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.16
92404063|NCT03879772|184699341|SUPERIORITY|||||||0.22|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.22
92224552|NCT00931359|184350786|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||ANOVA|||||||0.019
92224553|NCT03784079|184350893|OTHER||Emax|-1.937|||||TWO_SIDED|95.0|-2.484|-1.389||||||||-1.389|-2.484|
92224554|NCT03784079|184350893|OTHER||EC50|7.094|||||TWO_SIDED|95.0|0.585|13.602||||||||13.602|0.585|
92224555|NCT03784079|184350893|OTHER||s2e|0.137|||||TWO_SIDED|95.0|0.062|0.212||||||||0.212|0.062|
92404064|NCT03879772|184699341|SUPERIORITY|||||||0.14|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.14
92404065|NCT03879772|184699341|SUPERIORITY|||||||0.14|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.14
92224556|NCT03784079|184350894|OTHER||Emax|-1.929|||||TWO_SIDED|95.0|-2.479|-1.379||||||||-1.379|-2.479|
92224557|NCT03784079|184350894|OTHER||EC50|0.446|||||TWO_SIDED|95.0|0.03|0.861||||||||0.861|0.030|
92224558|NCT03784079|184350894|OTHER||s2e|0.139|||||TWO_SIDED|95.0|0.063|0.216||||||||0.216|0.063|
92224559|NCT03784079|184350895|OTHER||Emax|-1.926|||||TWO_SIDED|95.0|-2.498|-1.354||||||||-1.354|-2.498|
92224560|NCT03784079|184350895|OTHER||EC50|0.197|||||TWO_SIDED|95.0|0.007|0.386||||||||0.386|0.007|
92224561|NCT03784079|184350895|OTHER||s2e|0.144|||||TWO_SIDED|95.0|0.065|0.222||||||||0.222|0.065|
92404066|NCT03879772|184699341|SUPERIORITY|||||||0.85|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.85
92404067|NCT03879772|184699341|SUPERIORITY|||||||0.96|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.96
92404068|NCT03879772|184699341|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92404069|NCT03879772|184699341|SUPERIORITY|||||||0.81|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.81
92404070|NCT03879772|184699341|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92404071|NCT03879772|184699341|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92404072|NCT03879772|184699342|SUPERIORITY|||||||0.05|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.05
92224562|NCT04401267|184350992|SUPERIORITY|||||||0.7139|||||||Fisher Exact|||||||0.7139
92224563|NCT02066792|184351006|SUPERIORITY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.81|-0.21||two-sided|Mixed Models Analysis|Four level multivariate MLM with measures nested within time, which was nested within subjects, who were nested within treatment cohort.||At 3 month follow-up||-.21|-.81|<.001
92364573|NCT01374425|184631475|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.4032|TWO_SIDED|95.0|0.54|1.28||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.28|0.54|0.4032
92364574|NCT01374425|184631476|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.0647|TWO_SIDED|95.0|0.41|1.03||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.03|0.41|0.0647
92364575|NCT01374425|184631477|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.0861|TWO_SIDED|95.0|0.56|1.04||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by high/low ERCC-1 level and region of enrollment.||1.04|0.56|0.0861
92364576|NCT01374425|184631478|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.3295|TWO_SIDED|95.0|0.51|1.26||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.26|0.51|0.3295
92224564|NCT02066792|184351006|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.15||0.635|TWO_SIDED|95.0|-0.37|0.23||Two-sided|Mixed Models Analysis|Four level multivariate MLM with measures nested within time, which was nested within subjects, who were nested within treatment cohort.||3 month follow-up||.23|-.37|.635
92224565|NCT02066792|184351006|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.16||0.002|TWO_SIDED|95.0|-0.8|-0.18|||Mixed Models Analysis|Four level multivariate MLM with measures nested within time, which was nested within subjects, who were nested within treatment cohort.||||-.18|-.80|.002
92224566|NCT02066792|184351006|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.15||0.004|TWO_SIDED|95.0|-0.73|-0.14|||Mixed Models Analysis|Four level multivariate MLM with measures nested within time, which was nested within subjects, who were nested within treatment cohort.||3 month follow-up||-.14|-.73|.004
92364577|NCT01374425|184631479|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.1519|TWO_SIDED|95.0|0.49|1.12||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.12|0.49|0.1519
92364578|NCT01374425|184631480|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.2774|TWO_SIDED|95.0|0.87|1.62||P-value (relative to ERCC-1 Low subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to ERCC-1 Low subgroup) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.62|0.87|0.2774
92364579|NCT01374425|184631481|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|4.3|||||TWO_SIDED|95.0|-5.5|14.0|||||The difference was calculated as the percentage of participants with objective response in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||14.0|-5.5|
92364580|NCT01374425|184631482|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|9.4|||||TWO_SIDED|95.0|7.2|26.1|||||The difference was calculated as the percentage of participants with objective response in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||26.1|7.2|
92364581|NCT01374425|184631483|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|2.1|||||TWO_SIDED|95.0|-9.9|14.1|||||The difference was calculated as the percentage of participants with objective response in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||14.1|-9.9|
92364582|NCT01374425|184631484|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|-3.7|||||TWO_SIDED|95.0|-14.0|6.6|||||The difference was calculated as the percentage of participants with objective response in the ERCC-1 High subgroup minus the ERCC-1 Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||6.6|-14.0|
92364583|NCT01374425|184631485|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|2.1|||||TWO_SIDED|95.0|-7.6|3.3|||||The difference was calculated as the percentage of participants with disease control in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||3.3|-7.6|
92364584|NCT01374425|184631486|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|-8.7|||||TWO_SIDED|95.0|-19.1|1.7|||||The difference was calculated as the percentage of participants with disease control in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||1.7|-19.1|
92364585|NCT01374425|184631487|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|2.3|||||TWO_SIDED|95.0|-3.7|8.3|||||The difference was calculated as the percentage of participants with disease control in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||8.3|-3.7|
92364586|NCT01374425|184631488|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|-4.5|||||TWO_SIDED|95.0|-10.6|1.5|||||The difference was calculated as the percentage of participants with disease control in the ERCC-1 High subgroup minus the ERCC-1 Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||1.5|-10.6|
92364587|NCT01374425|184631489|SUPERIORITY_OR_OTHER||Difference in Resection Rates|-4.0|||||TWO_SIDED|95.0|-15.9|7.8|||||The difference was calculated as the percentage of participants with resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||7.8|-15.9|
92404073|NCT03879772|184699342|SUPERIORITY|||||||0.07|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.07
92404074|NCT03879772|184699342|SUPERIORITY|||||||0.11|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.11
92166446|NCT02652442|184222498|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|Paired samples t-test for change in SVV (measured in degrees)||Null hypothesis: The change in SVV (Post-OAR - Pre-OAR) will not be different for the centrifugation schedule of daily OAR and biweekly OAR for a total of 5 sessions.||||0.44
92224567|NCT02066792|184351006|SUPERIORITY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.16||0.008|TWO_SIDED|95.0|-0.72|-0.11|||Mixed Models Analysis|Four level multivariate MLM with measures nested within time, which was nested within subjects, who were nested within treatment cohort.||3 month follow-up||-.11|-.72|.008
92224568|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|99.34|||||TWO_SIDED|90.0|66.05|149.43||||||Buprenorphine||149.43|66.05|
92224569|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|163.88|||||TWO_SIDED|90.0|110.82|242.34||||||Buprenorphine||242.34|110.82|
92224570|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|281.43|||||TWO_SIDED|90.0|187.1|423.33||||||Buprenorphine||423.33|187.10|
92224571|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|78.43|||||TWO_SIDED|90.0|52.14|117.98||||||Buprenorphine||117.98|52.14|
92224572|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|126.66|||||TWO_SIDED|90.0|81.87|195.97||||||Buprenorphine||195.97|81.87|
92224573|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|208.94|||||TWO_SIDED|90.0|137.21|318.18||||||Buprenorphine||318.18|137.21|
92224574|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|358.83|||||TWO_SIDED|90.0|231.92|555.17||||||Buprenorphine||555.17|231.92|
92364588|NCT01374425|184631490|SUPERIORITY_OR_OTHER||Difference in Complete Resection Rates|-6.5|||||TWO_SIDED|95.0|-16.3|3.3|||||The difference was calculated as the percentage of participants with complete resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||3.3|-16.3|
92364589|NCT01374425|184631491|SUPERIORITY_OR_OTHER||Difference in Resection Rates|-11.0|||||TWO_SIDED|95.0|-33.1|11.1|||||The difference was calculated as the percentage of participants with resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||11.1|-33.1|
92404075|NCT03879772|184699342|SUPERIORITY|||||||0.31|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.31
92404076|NCT03879772|184699342|SUPERIORITY|||||||0.94|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.94
92404077|NCT03879772|184699342|SUPERIORITY|||||||0.73|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.73
92166447|NCT02252042|184222499|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0316|TWO_SIDED|95.0|0.67|1.01|||Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.01|0.67|0.03160
92166448|NCT02252042|184222500|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.01605|TWO_SIDED|95.0|0.65|0.98||Nominal p-value|Log Rank||Nominal HR. Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||0.98|0.65|0.01605
92166449|NCT02252042|184222501|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.00493|TWO_SIDED|95.0|0.58|0.93|||Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||0.93|0.58|0.00493
92224575|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|78.09|||||TWO_SIDED|90.0|44.03|138.49||||||Norbuprenorphine||138.49|44.03|
92224576|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|74.78|||||TWO_SIDED|90.0|39.26|142.41||||||Norbuprenorphine||142.41|39.26|
92224577|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|11.45|||||TWO_SIDED|90.0|6.35|20.66||||||Norbuprenorphine||20.66|6.35|
92224578|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|71.08|||||TWO_SIDED|90.0|39.0|129.49||||||Norbuprenorphine||129.49|39.00|
92224579|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|109.9|||||TWO_SIDED|90.0|58.14|207.75||||||Norbuprenorphine||207.75|58.14|
92364590|NCT01374425|184631492|SUPERIORITY_OR_OTHER||Difference in Complete Resection Rates|-11.0|||||TWO_SIDED|95.0|-33.1|11.1|||||The difference was calculated as the percentage of participants with complete resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||11.1|-33.1|
92224580|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|105.23|||||TWO_SIDED|90.0|52.17|212.24||||||Norbuprenorphine||212.24|52.17|
92224581|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|16.12|||||TWO_SIDED|90.0|8.4|30.94||||||Norbuprenorphine||30.94|8.40|
92224582|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|79.3|||||TWO_SIDED|90.0|40.03|157.12||||||Naloxone||157.12|40.03|
92224583|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|317.58|||||TWO_SIDED|90.0|164.93|611.54||||||Naloxone||611.54|164.93|
92224584|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|1401.85|||||TWO_SIDED|90.0|707.55|2777.46||||||Naloxone||2777.46|707.55|
92224585|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|105.78|||||TWO_SIDED|90.0|53.39|209.59||||||Naloxone||209.59|53.39|
92224586|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|74.97|||||TWO_SIDED|90.0|36.09|155.71||||||Naloxone||155.71|36.09|
92404078|NCT03879772|184699342|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92404079|NCT03879772|184699342|SUPERIORITY|||||||0.79|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.79
92404080|NCT03879772|184699342|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92404081|NCT03879772|184699342|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
92404082|NCT03773978|184699428|SUPERIORITY||Hazard Ratio (HR)|0.241|||<|0.001|TWO_SIDED|95.0|0.128|0.453|||Log Rank|||||0.453|0.128|<0.001
92404083|NCT03773978|184699429|SUPERIORITY||Odds Ratio (OR)|2.72||||0.052|TWO_SIDED|95.0|0.99|7.46|||Regression, Logistic|||at week 16||7.46|0.99|0.052
92404084|NCT03773978|184699429|SUPERIORITY||Odds Ratio (OR)|3.64||||0.002|TWO_SIDED|95.0|1.6|8.28|||Regression, Logistic|||at week 20||8.28|1.60|0.002
92166450|NCT02252042|184222502|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.32504|TWO_SIDED|95.0|0.79|1.16|||Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.16|0.79|0.32504
92166451|NCT02252042|184222503|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.07736|TWO_SIDED|95.0|0.69|1.06|||Log Rank||Cox regression model with treatment as a single covariate|||1.06|0.69|0.07736
92224587|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|300.22|||||TWO_SIDED|90.0|148.44|607.21||||||Naloxone||607.21|148.44|
92166452|NCT02252042|184222504|SUPERIORITY||Difference in percentages|4.6||||0.061|TWO_SIDED|95.0|-1.2|10.6|||Log Rank|H0: difference in %=0; H1: difference in %\>0|Stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||10.6|-1.2|0.0610
92404085|NCT03773978|184699429|SUPERIORITY||Odds Ratio (OR)|4.34|||<|0.001|TWO_SIDED|95.0|2.0|9.41|||Regression, Logistic|||at week 24||9.41|2.00|<0.001
92404086|NCT03773978|184699429|SUPERIORITY||Odds Ratio (OR)|3.37||||0.001|TWO_SIDED|95.0|1.62|7.01|||Regression, Logistic|||at week 28||7.01|1.62|0.001
92404087|NCT03773978|184699429|SUPERIORITY||Odds Ratio (OR)|3.0||||0.002|TWO_SIDED|95.0|1.48|6.07|||Regression, Logistic|||at week 32||6.07|1.48|0.002
92166453|NCT02252042|184222505|SUPERIORITY||Difference in percentages|7.5||||0.0171|TWO_SIDED|95.0|0.6|14.6|||Log Rank|H0: difference in %=0; H1: difference in %\>0|Stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||14.6|0.6|0.0171
92166454|NCT02252042|184222508|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.14545|TWO_SIDED|95.0|0.7|1.12||p-value stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.12|0.70|0.14545
92166455|NCT02252042|184222509|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.05851|TWO_SIDED|95.0|0.62|1.06||p-value stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.06|0.62|0.05851
92166456|NCT02252042|184222510|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.65759|TWO_SIDED|95.0|0.86|1.27|||Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.27|0.86|0.65759
92166457|NCT02252042|184222511|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.51982|TWO_SIDED|95.0|0.81|1.26|||Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.26|0.81|0.51982
92166458|NCT04283552|184222552|SUPERIORITY|||||||0.001|||||||Two-tailed Wildoxon signed-rank test|||This statistical analysis is for Reader 1.||||0.001
92166459|NCT04283552|184222552|SUPERIORITY|||||||0.28|||||||Two-tailed Wilcoxon signed-rank test|||This statistical analysis is for Reader 2.||||0.28
92166460|NCT04283552|184222553|SUPERIORITY|||||||0.22|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 1.||||0.22
92166461|NCT04283552|184222553|SUPERIORITY||||||>|0.05|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 2.||||>0.05
92166462|NCT04283552|184222554|SUPERIORITY|||||||0.009|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 1.||||0.009
92166463|NCT04283552|184222554|SUPERIORITY||||||>|0.05|||||||Two-tailed Wilcoxon signed-rank test.|||This statistical analysis is for Reader 2.||||>0.05
92166464|NCT04283552|184222555|SUPERIORITY||||||<|0.001|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 1.||||<0.001
92166465|NCT04283552|184222555|SUPERIORITY|||||||0.02|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 2.||||0.02
92166466|NCT04283552|184222556|SUPERIORITY||||||<|0.001|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 1.||||<0.001
92166467|NCT04283552|184222556|SUPERIORITY|||||||0.02|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 2.||||0.02
92166468|NCT04283552|184222559|SUPERIORITY||||||<|0.001|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis comparing PS-Early Reader 1 to PS-Late Reader 1.||||<0.001
92166469|NCT04283552|184222559|SUPERIORITY||||||<|0.001|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis comparing PS-Early Reader 2 and PS-Late Reader 2.||||<0.001
92166470|NCT03292913|184222567|SUPERIORITY||Risk Ratio (RR)|1.07||||0.22|TWO_SIDED|95.0|0.96|1.21|||Mixed Models Analysis|Risk ratio is adjusted for sex, age, race, site, viral load suppression at baseline, and new to care.||Outcome measure for this analysis is viral load suppression. A priori threshold for statistical significance is p-value less than 0.05.||1.21|0.96|0.220
92166471|NCT03292913|184222568|SUPERIORITY||Risk Ratio (RR)|1.04||||0.481|TWO_SIDED|95.0|0.94|1.15|||Mixed Models Analysis|Risk ratio is adjusted for sex, age, race, site, and new to care.||Outcome measure for this analysis is retention in care. A priori threshold for statistical significance is p-value less than 0.05.||1.15|0.94|0.481
92224588|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|1325.22|||||TWO_SIDED|90.0|638.03|2752.55||||||Naloxone||2752.55|638.03|
92224589|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|85.87|||||TWO_SIDED|90.0|66.06|111.61||||||Naloxone-3-β-D-Glucuronide||111.61|66.06|
92404088|NCT03773978|184699429|SUPERIORITY||Odds Ratio (OR)|3.25|||<|0.001|TWO_SIDED|95.0|1.62|6.52|||Regression, Logistic|||at week 36||6.52|1.62|<0.001
92404089|NCT03773978|184699429|SUPERIORITY||Odds Ratio (OR)|3.7|||<|0.001|TWO_SIDED|95.0|1.85|7.41|||Regression, Logistic|||at week 40||7.41|1.85|<0.001
92404090|NCT03773978|184699429|SUPERIORITY||Odds Ratio (OR)|3.27|||<|0.001|TWO_SIDED|95.0|1.65|6.5|||Regression, Logistic|||at week 44||6.50|1.65|<0.001
92404091|NCT03773978|184699430|SUPERIORITY||Odds Ratio (OR)|1.25||||0.568|TWO_SIDED|95.0|0.59|2.65|||Regression, Logistic|||at week 16||2.65|0.59|0.568
92404092|NCT03773978|184699430|SUPERIORITY||Odds Ratio (OR)|2.92||||0.004|TWO_SIDED|95.0|1.4|6.09|||Regression, Logistic|||at week 20||6.09|1.40|0.004
92404093|NCT03773978|184699430|SUPERIORITY||Odds Ratio (OR)|4.38|||<|0.001|TWO_SIDED|95.0|2.1|9.15|||Regression, Logistic|||at week 24||9.15|2.10|<0.001
92166472|NCT03292913|184222569|SUPERIORITY||Risk Ratio (RR)|0.86||||0.093|TWO_SIDED|95.0|0.72|1.03|||Mixed Models Analysis|Risk ratio is adjusted for sex, age, race, site, and new to care.||Outcome measure for this analysis is a 6-month visit gap defined ashaving at least 189 days between two sequentially kept visits, post-randomization. A priori threshold for statistical significance is p-value less than 0.05.||1.03|0.72|0.093
92166473|NCT03950622|184222570|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-2.4||||0.175|TWO_SIDED|95.0|-5.8|1.1|||Miettinen & Nurminen|||Injection site redness/erythema||1.1|-5.8|0.175
92166474|NCT03950622|184222570|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|11.7|||<|0.001|TWO_SIDED|95.0|6.0|17.2|||Miettinen & Nurminen|||Injection site tenderness/pain||17.2|6.0|<0.001
92166475|NCT03950622|184222570|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|1.3||||0.488|TWO_SIDED|95.0|-2.4|5.0|||Miettinen & Nurminen|||Injection site swelling||5.0|-2.4|0.488
92166476|NCT03950622|184222571|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-0.2||||0.888|TWO_SIDED|95.0|-2.8|2.4|||Miettinen & Nurminen|||Joint pain/arthralgia||2.4|-2.8|0.888
92166477|NCT03950622|184222571|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.1||||0.96|TWO_SIDED|95.0|-4.2|4.4|||Miettinen & Nurminen|||Tiredness/fatigue||4.4|-4.2|0.960
92224590|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|123.77|||||TWO_SIDED|90.0|96.27|159.13||||||Naloxone-3-β-D-Glucuronide||159.13|96.27|
92364591|NCT01374425|184631493|SUPERIORITY_OR_OTHER||Difference in Resection Rates|-3.0|||||TWO_SIDED|95.0|-10.1|4.2|||||The difference was calculated as the percentage of participants with resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||4.2|-10.1|
92364592|NCT01374425|184631494|SUPERIORITY_OR_OTHER||Difference in Complete Resection Rates|-5.5|||||TWO_SIDED|95.0|-11.5|0.4|||||The difference was calculated as the percentage of participants with complete resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||0.4|-11.5|
92364593|NCT01374425|184631495|SUPERIORITY_OR_OTHER||Difference in Resection Rates|-4.4|||||TWO_SIDED|95.0|-9.5|0.6|||||The difference was calculated as the percentage of participants with resection in the ERCC-1 High subgroup minus the ERCC-1 Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||0.6|-9.5|
92364594|NCT01374425|184631496|SUPERIORITY_OR_OTHER||Difference in Complete Resection Rates|-1.6|||||TWO_SIDED|95.0|-6.2|3.1|||||The difference was calculated as the percentage of participants with complete resection in the ERCC-1 High subgroup minus the ERCC-1 Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||3.1|-6.2|
92364595|NCT01374425|184631497|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.0593|TWO_SIDED|95.0|0.99|1.69||P-value (relative to KRAS Wild-Type subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to KRAS Wild-Type subgroup) was estimated by Cox regression.|Analysis stratified by high/low ERCC-1 level and region of enrollment.||1.69|0.99|0.0593
92364596|NCT01374425|184631498|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.64||||0.002|TWO_SIDED|95.0|1.2|2.24||P-value (relative to VEGF-A Low subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to VEGF-A Low subgroup) was estimated by Cox regression.|Analysis stratified by high/low ERCC-1 level and region of enrollment.||2.24|1.20|0.0020
92364597|NCT01374425|184631499|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.34||||0.0955|TWO_SIDED|95.0|0.95|1.88||P-value (relative to KRAS Wild-Type subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to KRAS Wild-Type subgroup) was estimated by Cox regression.|Analysis stratified by high/low ERCC-1 level and region of enrollment.||1.88|0.95|0.0955
92364598|NCT01374425|184631500|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|-5.9|||||TWO_SIDED|95.0|-15.7|3.8|||||The difference was calculated as the percentage of participants with objective response in the VEGF-A High subgroup minus the VEGF-A Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||3.8|-15.7|
92364599|NCT01374425|184631501|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|-5.4|||||TWO_SIDED|95.0|-16.0|5.2|||||The difference was calculated as the percentage of participants with objective response in the KRAS Mutant subgroup minus the KRAS Wild-Type subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||5.2|-16.0|
92364600|NCT01374425|184631502|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|-1.1|||||TWO_SIDED|95.0|-6.5|4.3|||||The difference was calculated as the percentage of participants with disease control in the VEGF-A High subgroup minus the VEGF-A Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||4.3|-6.5|
92166478|NCT03950622|184222571|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-1.4||||0.469|TWO_SIDED|95.0|-5.1|2.4|||Miettinen & Nurminen|||Headache||2.4|-5.1|0.469
92364601|NCT01374425|184631503|SUPERIORITY_OR_OTHER||Difference in Resection Rates|-3.2|||||TWO_SIDED|95.0|-8.6|2.1|||||The difference was calculated as the percentage of participants with resection in the VEGF-A High subgroup minus the VEGF-A Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||2.1|-8.6|
92364602|NCT01374425|184631504|SUPERIORITY_OR_OTHER||Difference in Complete Resection Rates|-4.9|||||TWO_SIDED|95.0|-9.6|-0.2|||||The difference was calculated as the percentage of participants with complete resection in the VEGF-A High subgroup minus the VEGF-A Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||-0.2|-9.6|
92364603|NCT02289469|184631505|SUPERIORITY||Mean Difference (Final Values)|23.8|||<|0.0001|TWO_SIDED|95.0|16.0|31.6|||Chi-squared|||A chi-square test was used to test for differences in proportions between intervention and control groups.||31.6|16.0|<0.0001
92364604|NCT02289469|184631506|OTHER||||||<|0.01|||||||Other|||Descriptive statistics (counts, frequencies) were used to summarize responses.||||<0.01
92364605|NCT00532844|184631517|SUPERIORITY||Geometric Mean Ratio|1.5|||<|0.001|TWO_SIDED|95.0|1.2|1.8||The model will constitute the independent variables of treatment regimen, treatment sequence, and period as fixed effects, and subject as a random effect. The dependent variable plasma BH4 concentration (AUC0-12 hr) expressed in log transformation.|Mixed Models Analysis|||To determine if administration of saproprterin dihydrochloride administered with Vitamin C results in higher plasma BH4 concentrations when compared with administration of sapropterin dihydrochloride alone in subjects with endothelial dysfunction. The difference in the plasma BH4 concentration (AUC0-12 hr) between the 2 regimens will be compared using a mixed model with a 0.05 level of significance. The difference is represented as the geometric mean ratio.||1.8|1.2|<0.001
92404094|NCT03773978|184699430|SUPERIORITY||Odds Ratio (OR)|3.09||||0.002|TWO_SIDED|95.0|1.51|6.32|||Regression, Logistic|||at week 28||6.32|1.51|0.002
92404095|NCT03773978|184699430|SUPERIORITY||Odds Ratio (OR)|2.99||||0.003|TWO_SIDED|95.0|1.47|6.11|||Regression, Logistic|||at week 32||6.11|1.47|0.003
92404096|NCT03773978|184699430|SUPERIORITY||Odds Ratio (OR)|2.84||||0.003|TWO_SIDED|95.0|1.44|5.6|||Regression, Logistic|||at week 36||5.60|1.44|0.003
92224591|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|91.26|||||TWO_SIDED|90.0|70.21|118.62||||||Naloxone-3-β-D-Glucuronide||118.62|70.21|
92404097|NCT03773978|184699430|SUPERIORITY||Odds Ratio (OR)|3.49|||<|0.001|TWO_SIDED|95.0|1.74|6.97|||Regression, Logistic|||at week 40||6.97|1.74|<0.001
92404098|NCT03773978|184699430|SUPERIORITY||Odds Ratio (OR)|2.87||||0.002|TWO_SIDED|95.0|1.46|5.66|||Regression, Logistic|||at week 44||5.66|1.46|0.002
92404099|NCT03773978|184699431|SUPERIORITY||Odds Ratio (OR)|0.99||||0.972|TWO_SIDED|95.0|0.52|1.87|||Regression, Logistic|||at week 16||1.87|0.52|0.972
92404100|NCT03773978|184699431|SUPERIORITY||Odds Ratio (OR)|2.47||||0.008|TWO_SIDED|95.0|1.27|4.81|||Regression, Logistic|||at week 20||4.81|1.27|0.008
92404101|NCT03773978|184699431|SUPERIORITY||Odds Ratio (OR)|2.57||||0.005|TWO_SIDED|95.0|1.33|4.97|||Regression, Logistic|||at week 24||4.97|1.33|0.005
92404102|NCT03773978|184699431|SUPERIORITY||Odds Ratio (OR)|3.06|||<|0.001|TWO_SIDED|95.0|1.57|5.94|||Regression, Logistic|||at week 28||5.94|1.57|<0.001
92166479|NCT03950622|184222571|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|3.4||||0.082|TWO_SIDED|95.0|-0.4|7.4|||Miettinen & Nurminen|||Muscle pain/myalgia||7.4|-0.4|0.082
92166480|NCT03950622|184222572|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-0.6|0.6|||Miettinen & Nurminen|||Vaccine-related SAEs||0.6|-0.6|
92166481|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.66|0.96|||Constrained longitudinal data analysis|GMT ratio, 95% CI, and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||Serotype 1 (Shared)||0.96|0.66|<0.001
92166482|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|1.6|||<|0.001|TWO_SIDED|95.0|1.38|1.85|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 3 (Shared)||1.85|1.38|<0.001
92404103|NCT03773978|184699431|SUPERIORITY||Odds Ratio (OR)|2.42||||0.009|TWO_SIDED|95.0|1.25|4.71|||Regression, Logistic|||at week 32||4.71|1.25|0.009
92166483|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% CI of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.68|||<|0.001|TWO_SIDED|95.0|0.57|0.8|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 4 (Shared)||0.80|0.57|<0.001
92166484|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.64|0.98|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 5 (Shared)||0.98|0.64|<0.001
92166485|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.84|1.19|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 6A (Shared)||1.19|0.84|<0.001
92166486|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|1.23|||<|0.001|TWO_SIDED|95.0|1.02|1.48|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 6B (Shared)||1.48|1.02|<0.001
92404104|NCT03773978|184699431|SUPERIORITY||Odds Ratio (OR)|2.8||||0.003|TWO_SIDED|95.0|1.43|5.47|||Regression, Logistic|||at week 36||5.47|1.43|0.003
92404105|NCT03773978|184699431|SUPERIORITY||Odds Ratio (OR)|2.93||||0.002|TWO_SIDED|95.0|1.47|5.83|||Regression, Logistic|||at week 40||5.83|1.47|0.002
92404106|NCT03773978|184699431|SUPERIORITY||Odds Ratio (OR)|1.93||||0.052|TWO_SIDED|95.0|0.99|3.74|||Regression, Logistic|||at week 44||3.74|0.99|0.052
92404107|NCT03773978|184699432|SUPERIORITY||Odds Ratio (OR)|1.35||||0.409|TWO_SIDED|95.0|0.66|2.75|||Regression, Logistic|||at week 16||2.75|0.66|0.409
92404108|NCT03773978|184699432|SUPERIORITY||Odds Ratio (OR)|2.13||||0.03|TWO_SIDED|95.0|1.07|4.23|||Regression, Logistic|||at week 20||4.23|1.07|0.030
92404109|NCT03773978|184699432|SUPERIORITY||Odds Ratio (OR)|2.36||||0.022|TWO_SIDED|95.0|1.13|4.92|||Regression, Logistic|||at week 24||4.92|1.13|0.022
92404110|NCT03773978|184699432|SUPERIORITY||Odds Ratio (OR)|2.05||||0.04|TWO_SIDED|95.0|1.03|4.08|||Regression, Logistic|||at week 28||4.08|1.03|0.040
92404111|NCT03773978|184699432|SUPERIORITY||Odds Ratio (OR)|2.13||||0.032|TWO_SIDED|95.0|1.07|4.24|||Regression, Logistic|||at week 32||4.24|1.07|0.032
92404112|NCT03773978|184699432|SUPERIORITY||Odds Ratio (OR)|1.71||||0.132|TWO_SIDED|95.0|0.85|3.42|||Regression, Logistic|||at week 36||3.42|0.85|0.132
92404113|NCT03773978|184699432|SUPERIORITY||Odds Ratio (OR)|2.02||||0.05|TWO_SIDED|95.0|1.0|4.1|||Regression, Logistic|||at week 40||4.10|1.00|0.050
92364606|NCT00532844|184631518|SUPERIORITY||Geometric Mean Ratio|0.9||||0.139|TWO_SIDED|95.0|0.7|1.0||The model will constitute the independent variables of treatment regimen, treatment sequence, and period as fixed effects, and subject as a random effect. The dependent variable plasma BH2 concentration (AUC0-12 hr) expressed in log transformation.|Mixed Models Analysis|||To determine if administration of saproprterin dihydrochloride administered with Vitamin C results in higher plasma BH2 when compared with administration of sapropterin dihydrochloride alone in subjects with endothelial dysfunction. The difference in the plasma BH2 concentration (AUC0-12 hr) between the 2 regimens will be compared using a mixed model with a 0.05 level of significance. The difference is represented as the geometric mean ratio.||1.0|0.7|0.139
92364607|NCT00532844|184631518|SUPERIORITY||Geometric Mean Ratio|0.96||||0.57|TWO_SIDED|95.0|0.83|1.11||The model will constitute independent variables of treatment regimen, treatment sequence, and period as fixed effects, and subject as a random effect. The dependent variable Total B concentration (AUC0-12 hr) expressed in log transformation.|Mixed Models Analysis|||To determine if administration of saproprterin dihydrochloride administered with Vitamin C results in Total B (biopterin) when compared with administration of sapropterin dihydrochloride alone in subjects with endothelial dysfunction. The difference in the Total B (biopterin) concentration (AUC0-12 hr) between the 2 regimens will be compared using a mixed model with a 0.05 level of significance. The difference is represented as the geometric mean ratio.||1.11|0.83|0.570
92364608|NCT00532844|184631521|SUPERIORITY|||||||0.593|||||||ANCOVA|The model will have the treatments and the baseline measurement as independent variables and measurement at Day 13 as the dependent variable.||The raw value of PAT obtained from the first period (baseline to Day 13) will be used to compare the two treatments.||||0.593
92364609|NCT00114127|184631577|SUPERIORITY_OR_OTHER||||||<|0.132||95.0|||||t-test, 2 sided|||||||<0.132
92364610|NCT00114127|184631578|SUPERIORITY_OR_OTHER||||||<|0.292||95.0|||||t-test, 2 sided|||||||<.292
92364611|NCT00251693|184631579|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 95% CI was greater than -10%, noninferiority was concluded. Superiority of primary efficacy endpoint was assessed by comparing the crude healing rate of dexlansoprazole MR 60 mg dose to that of lansoprazole 30 mg using a Cochran Mantel Haenszel (CMH) test with baseline LA EE Grade as strata.|Difference in percentage|6.33||||0.004||95.0|2.17|10.48||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Cochran-Mantel-Haenszel|||||10.48|2.17|0.004
92364612|NCT00251693|184631579|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 95% CI was greater than -10%, noninferiority was concluded. Superiority of primary efficacy endpoint was assessed by comparing the crude healing rate of dexlansoprazole MR 90 mg dose to that of lansoprazole 30 mg using a Cochran Mantel Haenszel (CMH) test with baseline LA EE Grade as strata.|Difference in percentage|6.84||||0.001||95.0|2.7|10.98||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Cochran-Mantel-Haenszel|||||10.98|2.70|0.001
92364613|NCT00251693|184631579|SUPERIORITY_OR_OTHER|||||||0.727||95.0||||Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.727
92364614|NCT00251693|184631580|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.002
92364615|NCT00251693|184631580|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.045
92364616|NCT00251693|184631580|SUPERIORITY_OR_OTHER|||||||0.245||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.245
92364617|NCT00251693|184631581|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.011
92224592|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|84.78|||||TWO_SIDED|90.0|65.23|110.2||||||Naloxone-3-β-D-Glucuronide||110.20|65.23|
92364618|NCT00251693|184631581|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.017
92224593|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|101.28|||||TWO_SIDED|90.0|76.52|134.06||||||Naloxone-3-β-D-Glucuronide||134.06|76.52|
92224594|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|145.99|||||TWO_SIDED|90.0|111.43|191.26||||||Naloxone-3-β-D-Glucuronide||191.26|111.43|
92224595|NCT01846455|184351007|SUPERIORITY_OR_OTHER||ratio of parameter means, %|107.64|||||TWO_SIDED|90.0|81.33|142.47||||||Naloxone-3-β-D-Glucuronide||142.47|81.33|
92224596|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|120.02|||||TWO_SIDED|90.0|83.35|172.82||||||Buprenorphine||172.82|83.35|
92224597|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|107.85|||||TWO_SIDED|90.0|75.85|153.36||||||Buprenorphine||153.36|75.85|
92224598|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|171.76|||||TWO_SIDED|90.0|117.93|250.15||||||Buprenorphine||250.15|117.93|
92224599|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|112.82|||||TWO_SIDED|90.0|77.66|163.91||||||Buprenorphine||163.91|77.66|
92364619|NCT00251693|184631581|SUPERIORITY_OR_OTHER|||||||0.927||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Log Rank|||||||0.927
92364620|NCT00251693|184631582|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was supported if the lower bound of the 95% CI for the difference with lansoprazole 30 mg of the estimated 8-week healing rate was greater than -10%. Superiority was assessed based on log-rank tests comparing treatments for the endpoints.|Difference in percentage|6.2||||0.06||95.0|2.3|10.11||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Log Rank|||||10.11|2.30|0.060
92404114|NCT03773978|184699432|SUPERIORITY||Odds Ratio (OR)|2.32||||0.019|TWO_SIDED|95.0|1.15|4.71|||Regression, Logistic|||at week 44||4.71|1.15|0.019
92166487|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.68|0.9|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 7F (Shared)||0.90|0.68|<0.001
92364621|NCT00251693|184631582|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was supported if the lower bound of the 95% CI for the difference with lansoprazole 30 mg of the estimated 8-week healing rate was greater than -10%. Superiority was assessed based on log-rank tests comparing treatments for the endpoints.|Difference in percentage|6.08||||0.029||95.0|2.16|10.0||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Log Rank|||||10.00|2.16|0.029
92364622|NCT00251693|184631582|SUPERIORITY_OR_OTHER|||||||0.707||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.707
92364623|NCT00251693|184631583|SUPERIORITY_OR_OTHER|||||||0.705||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.705
92364624|NCT00251693|184631583|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.146
92364625|NCT00251693|184631583|SUPERIORITY_OR_OTHER|||||||0.283||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.283
92364626|NCT00251693|184631584|SUPERIORITY_OR_OTHER|||||||0.896||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.896
92364627|NCT00251693|184631584|SUPERIORITY_OR_OTHER|||||||0.241||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.241
92364628|NCT00251693|184631584|SUPERIORITY_OR_OTHER|||||||0.211||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Log Rank|||||||0.211
92364629|NCT04005586|184631588|OTHER|The comparison was made by descriptive statistics.||||||||||||||||Two different historical controls implanted under NCT01496066 were used.|The LAL treatment group had a mean MRCYL of -0.14 (+/- 0.21D) compared to -0.33 (+/- 0.29D) and -0.40 (+/- 0.36D) for the LAL historical control group and the monofocal IOL historical control group in NCT01496066 respectively.|||
92364630|NCT04005586|184631589|OTHER|The comparison was made by descriptive statistics.||||||||||||||||Two different historical controls implanted under NCT01496066 were used.|The LAL treatment group MRCYL change from baseline was 0.36 (+/- 0.21D) compared to 0.17 (+/- 0.29D) and 0.10 (+/- 0.36D) for the LAL historical control group and the monofocal IOL historical control group in NCT01496066, respectively.|||
92404115|NCT03773978|184699433|SUPERIORITY||Odds Ratio (OR)|0.8||||0.62|TWO_SIDED|95.0|0.33|1.92|||Regression, Logistic|||at week 16||1.92|0.33|0.620
92404116|NCT03773978|184699433|SUPERIORITY||Odds Ratio (OR)|1.3||||0.492|TWO_SIDED|95.0|0.61|2.78|||Regression, Logistic|||at week 20||2.78|0.61|0.492
92166488|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.81|||<|0.001|TWO_SIDED|95.0|0.7|0.94|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 9V (Shared)||0.94|0.70|<0.001
92166489|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.64|0.89|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 14 (Shared)||0.89|0.64|<0.001
92166490|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|1.07|||<|0.001|TWO_SIDED|95.0|0.91|1.26|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 18C (Shared)||1.26|0.91|<0.001
92166491|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.8|||<|0.001|TWO_SIDED|95.0|0.7|0.93|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 19A (Shared)||0.93|0.70|<0.001
92166492|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.88|||<|0.001|TWO_SIDED|95.0|0.76|1.02|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 19F (Shared)||1.02|0.76|<0.001
92166493|NCT03950622|184222573|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|1.18|||<|0.001|TWO_SIDED|95.0|0.96|1.44|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 23F (Shared)||1.44|0.96|<0.001
92166494|NCT03950622|184222573|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the OPA GMT ratio \[V114/ Prevnar 13™\] to be greater than 2.0.|GMT Ratio|31.83|||<|0.001|TWO_SIDED|95.0|25.35|39.97|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 22F (Unique to V114)||39.97|25.35|<0.001
92364631|NCT04422431|184631608|OTHER|||||||0.1002|||||||t-test, 2 sided|||||||0.1002
92404117|NCT03773978|184699433|SUPERIORITY||Odds Ratio (OR)|1.17||||0.715|TWO_SIDED|95.0|0.5|2.75|||Regression, Logistic|||at week 24||2.75|0.50|0.715
92404118|NCT03773978|184699433|SUPERIORITY||Odds Ratio (OR)|1.4||||0.384|TWO_SIDED|95.0|0.66|2.99|||Regression, Logistic|||at week 28||2.99|0.66|0.384
92404119|NCT03773978|184699433|SUPERIORITY||Odds Ratio (OR)|1.47||||0.311|TWO_SIDED|95.0|0.7|3.1|||Regression, Logistic|||at week 32||3.10|0.70|0.311
92404120|NCT03773978|184699433|SUPERIORITY||Odds Ratio (OR)|1.58||||0.231|TWO_SIDED|95.0|0.75|3.34|||Regression, Logistic|||at week 36||3.34|0.75|0.231
92224600|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|106.38|||||TWO_SIDED|90.0|71.43|158.43||||||Buprenorphine||158.43|71.43|
92364632|NCT01174563|184631624|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.005|TWO_SIDED|95.0|0.41|0.83|||Log Rank|||||0.83|0.41|0.005
92364633|NCT01347060|184631635|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.0051|TWO_SIDED|95.0|0.68|0.93||The P-value relates to differences in combined inpatient/emergency department.|Regression, Cox|Adjusted for baseline differences||||0.93|0.68|0.0051
92224601|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|95.59|||||TWO_SIDED|90.0|64.36|141.99||||||Buprenorphine||141.99|64.36|
92224602|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|152.24|||||TWO_SIDED|90.0|103.08|224.83||||||Buprenorphine||224.83|103.08|
92364634|NCT01347060|184631636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|883.23||||0.001|TWO_SIDED|95.0|731.66|1041.69||The P-value is on the adjusted difference in total asthma costs.|Regression, Linear|Generalized Linear Model with a log-link and a gamma distribution adjusting for differences at baseline||||1041.69|731.66|0.001
92364635|NCT01347060|184631637|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92364636|NCT00444106|184631638|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||One-sided exact test for a single propn.|One-sided exact test for a single proportion.||"One-sided null hypothesis that the incidence rate of ABR Wave III latency changes is greater than or equal to 15%.~Increase in ABR Wave III latency between baseline and Day 7 of greater than 0.3 ms."||||<.0001
92364637|NCT00038948|184631642|SUPERIORITY_OR_OTHER||Weighted difference|-2.68||||0.575||95.0|-12.27|6.91||Analysis of covariance p-value|ANCOVA||Data was adjusted for baseline and center.|Baseline GFR of 20.0 to 40.0 mL/min||6.91|-12.27|0.575
92364638|NCT00038948|184631642|SUPERIORITY_OR_OTHER||Weighted difference|1.31||||0.278||95.0|-1.06|3.69||Analysis of covariance p-value|ANCOVA||Data was adjusted for baseline and center.|Baseline GFR of \>40.0 mL/min||3.69|-1.06|0.278
92364639|NCT00038948|184631643|SUPERIORITY_OR_OTHER|||||||0.135||||||Tests the equality of rates between treatments across strata at 52 weeks.|Cochran-Mantel-Haenszel|||52 weeks statistical analysis across strata||||0.135
92364640|NCT00038948|184631643|SUPERIORITY_OR_OTHER|||||||0.559||||||Tests the equality of rates between treatments across strata at 104 weeks.|Cochran-Mantel-Haenszel|||104 weeks statistical analysis across strata||||0.559
92364641|NCT05270863|184631644|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<.001
92364642|NCT01415583|184631653|NON_INFERIORITY|Consistent with the noninferiority design, the null hypothesis states that the bleeding rate in patients receiving perioperative dexamethasone differed from the bleeding rate in patients receiving perioperative placebo; the alternative hypothesis states that the bleeding rate with dexamethasone is not greater than placebo by more than the noninferiority margin.||||||0.05|||||||t-test, 1 sided|||||||0.05
92224603|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|135.17|||||TWO_SIDED|90.0|75.44|242.16||||||Norbuprenorphine||242.16|75.44|
92364643|NCT01415583|184631653|NON_INFERIORITY|This noninferiority margin was set at 5%, meaning a difference in bleeding rates that did not exceed 5% would be taken as evidence that the bleeding with dexamethasone is not greater than that with placebo by more than 5%.||||||0.05|||||||t-test, 1 sided|||||||0.05
92364644|NCT00552071|184631654|OTHER|||||||0.4||||||A two-sided p value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.40
92224604|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|67.87|||||TWO_SIDED|90.0|38.82|118.68||||||Norbuprenorphine||118.68|38.82|
92224605|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|48.39|||||TWO_SIDED|90.0|27.01|86.69||||||Norbuprenorphine||86.69|27.01|
92224606|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|76.59|||||TWO_SIDED|90.0|42.75|137.22||||||Norbuprenorphine||137.22|42.75|
92224607|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|176.48|||||TWO_SIDED|90.0|94.62|329.17||||||Norbuprenorphine||329.17|94.62|
92224608|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|88.62|||||TWO_SIDED|90.0|48.6|161.59||||||Norbuprenorphine||161.59|48.60|
92224609|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|63.17|||||TWO_SIDED|90.0|33.87|117.83||||||Norbuprenorphine||117.83|33.87|
92224610|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|100.41|||||TWO_SIDED|90.0|51.3|196.53||||||Naloxone||196.53|51.30|
92224611|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|270.0|||||TWO_SIDED|90.0|141.86|513.9||||||Naloxone||513.90|141.86|
92224612|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|1129.81|||||TWO_SIDED|90.0|577.22|2211.44||||||Naloxone||2211.44|577.22|
92364645|NCT00552071|184631655|OTHER|||||||0.43||||||A two-sided p value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.43
92364646|NCT00272792|184631656|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 1 sided|||Compared Week 10 to Baseline.||||<0.001
92364647|NCT00272792|184631656|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 1 sided|||Compared Week 10 to Baseline.||||0.027
92364648|NCT00272792|184631657|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Longitudinal Model|Longitudinal model with blood Phe measurements as the response variable and treatment group, visit, and baseline blood Phe level as covariates.||||||0.009
92364649|NCT00298389|184631680|SUPERIORITY|||||||0.05||||||calculated|Kruskal-Wallis|||||||0.05
92364650|NCT00298389|184631681|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|||||||0.05
92364651|NCT02628444|184631682|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% confidence interval (CI) of the ratio of GMTs between groups (Group 2/Group 1) was greater than (\>) 1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|1.09|||||TWO_SIDED|95.0|0.862|1.39||||||Group 2/Group 1: Serotype 1||1.39|0.862|
92364652|NCT02628444|184631682|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.993|||||TWO_SIDED|95.0|0.82|1.2||||||Group 2/Group 1: Serotype 2||1.20|0.820|
92364653|NCT02628444|184631682|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.983|||||TWO_SIDED|95.0|0.816|1.18||||||Group 2/Group 1: Serotype 3||1.18|0.816|
92404121|NCT03773978|184699433|SUPERIORITY||Odds Ratio (OR)|1.82||||0.129|TWO_SIDED|95.0|0.84|3.95|||Regression, Logistic|||at week 40||3.95|0.84|0.129
92224613|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|126.25|||||TWO_SIDED|90.0|64.5|247.11||||||Naloxone||247.11|64.50|
92224614|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|79.53|||||TWO_SIDED|90.0|38.79|163.06||||||Naloxone||163.06|38.79|
92224615|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|213.86|||||TWO_SIDED|90.0|107.07|427.17||||||Naloxone||427.17|107.07|
92224616|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|894.91|||||TWO_SIDED|90.0|436.49|1834.8||||||Naloxone||1834.80|436.49|
92364654|NCT02628444|184631682|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.96|||||TWO_SIDED|95.0|0.809|1.14||||||Group 2/Group 1: Serotype 4||1.14|0.809|
92364655|NCT02628444|184631683|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|1.03|||||TWO_SIDED|95.0|0.757|1.4||||||Group 2/Group 1: Serotype 1||1.40|0.757|
92404122|NCT03773978|184699433|SUPERIORITY||Odds Ratio (OR)|2.23||||0.043|TWO_SIDED|95.0|1.02|4.84|||Regression, Logistic|||at week 44||4.84|1.02|0.043
92404123|NCT03773978|184699434|SUPERIORITY||Odds Ratio (OR)|1.1||||0.853|TWO_SIDED|95.0|0.4|2.98|||Regression, Logistic|||at week 16||2.98|0.40|0.853
92404124|NCT03773978|184699434|SUPERIORITY||Odds Ratio (OR)|0.7||||0.432|TWO_SIDED|95.0|0.29|1.71|||Regression, Logistic|||at week 20||1.71|0.29|0.432
92166495|NCT03950622|184222573|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the OPA GMT ratio \[V114/ Prevnar 13™\] to be greater than 2.0.|GMT Ratio|7.11|||<|0.001|TWO_SIDED|95.0|6.07|8.32|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 33F (Unique to V114)||8.32|6.07|<0.001
92166496|NCT03950622|184222574|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the differences \[V114 - Prevnar 13™\] between the proportions of participants with a ≥4-fold rise from prevaccination \[Day 1\] to 30 days postvaccination \[Day 30\] to be greater than 0.1.|Percentage Point Difference|57.1|||<|0.001|TWO_SIDED|95.0|52.0|61.8|||Miettinen & Nurminen|Estimated difference, 95% CI, and p-value are based on the stratified Miettinen \& Nurminen method.||Serotype 22F (Unique to V114)||61.8|52.0|<0.001
92166497|NCT03950622|184222574|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the differences \[V114 - Prevnar 13™\] between the proportions of participants with a ≥4-fold rise from prevaccination \[Day 1\] to 30 days postvaccination \[Day 30\] to be greater than 0.1)|Percentage Point Difference|50.5|||<|0.001|TWO_SIDED|95.0|45.9|54.9|||Miettinen & Nurminen|Estimated difference, 95% CI, and p-value are based on the stratified Miettinen \& Nurminen method.||Serotype 33F (Unique to V114)||54.9|45.9|<0.001
92364656|NCT02628444|184631683|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.897|||||TWO_SIDED|95.0|0.705|1.14||||||Group 2/Group 1: Serotype 2||1.14|0.705|
92364657|NCT02628444|184631683|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.917|||||TWO_SIDED|95.0|0.724|1.16||||||Group 2/Group 1: Serotype 3||1.16|0.724|
92224617|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|111.03|||||TWO_SIDED|90.0|85.94|143.44||||||Naloxone-3-β-D-Glucuronide||143.44|85.94|
92224618|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|111.22|||||TWO_SIDED|90.0|87.02|142.16||||||Naloxone-3-β-D-Glucuronide||142.16|87.02|
92224619|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|83.09|||||TWO_SIDED|90.0|64.32|107.35||||||Naloxone-3-β-D-Glucuronide||107.35|64.32|
92224620|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|83.66|||||TWO_SIDED|90.0|64.75|108.08||||||Naloxone-3-β-D-Glucuronide||108.08|64.75|
92224621|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|132.72|||||TWO_SIDED|90.0|100.93|174.53||||||Naloxone-3-β-D-Glucuronide||174.53|100.93|
92224622|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|132.95|||||TWO_SIDED|90.0|102.12|173.1||||||Naloxone-3-β-D-Glucuronide||173.10|102.12|
92224623|NCT01846455|184351008|SUPERIORITY_OR_OTHER||ratio of parameter means, %|99.33|||||TWO_SIDED|90.0|75.54|130.61||||||Naloxone-3-β-D-Glucuronide||130.61|75.54|
92224624|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|125.19|||||TWO_SIDED|90.0|79.46|197.24||||||Buprenorphine||197.24|79.46|
92224625|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|220.97|||||TWO_SIDED|90.0|135.33|360.81||||||Buprenorphine||360.81|135.33|
92224626|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|249.28|||||TWO_SIDED|90.0|162.19|383.14||||||Buprenorphine||383.14|162.19|
92364658|NCT02628444|184631683|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.884|||||TWO_SIDED|95.0|0.72|1.09||||||Group 2/Group 1: Serotype 4||1.09|0.720|
92404125|NCT03773978|184699434|SUPERIORITY||Odds Ratio (OR)|0.98||||0.96|TWO_SIDED|95.0|0.41|2.31|||Regression, Logistic|||at week 24||2.31|0.41|0.960
92404126|NCT03773978|184699434|SUPERIORITY||Odds Ratio (OR)|1.71||||0.215|TWO_SIDED|95.0|0.73|4.01|||Regression, Logistic|||at week 28||4.01|0.73|0.215
92404127|NCT03773978|184699434|SUPERIORITY||Odds Ratio (OR)|1.8||||0.173|TWO_SIDED|95.0|0.77|4.22|||Regression, Logistic|||at week 32||4.22|0.77|0.173
92404128|NCT03773978|184699434|SUPERIORITY||Odds Ratio (OR)|1.46||||0.367|TWO_SIDED|95.0|0.64|3.33|||Regression, Logistic|||at week 36||3.33|0.64|0.367
92404129|NCT03773978|184699434|SUPERIORITY||Odds Ratio (OR)|1.9||||0.162|TWO_SIDED|95.0|0.77|4.67|||Regression, Logistic|||at week 40||4.67|0.77|0.162
92404130|NCT03773978|184699434|SUPERIORITY||Odds Ratio (OR)|1.96||||0.113|TWO_SIDED|95.0|0.85|4.5|||Regression, Logistic|||at week 44||4.50|0.85|0.113
92404131|NCT03773978|184699435|SUPERIORITY||Odds Ratio (OR)|0.8||||0.511|TWO_SIDED|95.0|0.42|1.55|||Regression, Logistic|||at week 16||1.55|0.42|0.511
92404132|NCT03773978|184699435|SUPERIORITY||Odds Ratio (OR)|1.64||||0.145|TWO_SIDED|95.0|0.84|3.2|||Regression, Logistic|||at week 20||3.20|0.84|0.145
92404133|NCT03773978|184699435|SUPERIORITY||Odds Ratio (OR)|1.38||||0.349|TWO_SIDED|95.0|0.7|2.72|||Regression, Logistic|||at week 24||2.72|0.70|0.349
92404134|NCT03773978|184699435|SUPERIORITY||Odds Ratio (OR)|1.63||||0.167|TWO_SIDED|95.0|0.82|3.25|||Regression, Logistic|||at week 28||3.25|0.82|0.167
92404135|NCT03773978|184699435|SUPERIORITY||Odds Ratio (OR)|1.55||||0.212|TWO_SIDED|95.0|0.78|3.07|||Regression, Logistic|||at week 32||3.07|0.78|0.212
92404136|NCT03773978|184699435|SUPERIORITY||Odds Ratio (OR)|1.21||||0.577|TWO_SIDED|95.0|0.62|2.39|||Regression, Logistic|||at week 36||2.39|0.62|0.577
92404137|NCT03773978|184699435|SUPERIORITY||Odds Ratio (OR)|1.51||||0.225|TWO_SIDED|95.0|0.78|2.95|||Regression, Logistic|||at week 40||2.95|0.78|0.225
92404138|NCT03773978|184699435|SUPERIORITY||Odds Ratio (OR)|1.96||||0.055|TWO_SIDED|95.0|0.98|3.9|||Regression, Logistic|||at week 44||3.90|0.98|0.055
92404139|NCT03773978|184699437|SUPERIORITY||LS Mean difference|-4.33|STANDARD_ERROR_OF_MEAN|1.328||0.001|TWO_SIDED|95.0|-6.95|-1.7|||ANCOVA|||||-1.70|-6.95|0.001
92404140|NCT03773978|184699438|SUPERIORITY||LS Mean difference|-12.97|STANDARD_ERROR_OF_MEAN|4.262||0.003|TWO_SIDED|95.0|-21.39|-4.55|||ANCOVA|||||-4.55|-21.39|0.003
92404141|NCT03773978|184699439|SUPERIORITY||LS Mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.526||0.574|TWO_SIDED|95.0|-2.62|1.91|||ANCOVA|||||1.91|-2.62|0.574
92404142|NCT03773978|184699440|SUPERIORITY||LS Mean difference|0.45|STANDARD_ERROR_OF_MEAN|0.348||0.208|TWO_SIDED|95.0|-0.26|1.15|||ANCOVA|||||1.15|-0.26|0.208
92166498|NCT03950622|184222575|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the OPA GMT ratio \[V114/ Prevnar 13™\] to be greater than 1.2.|GMT Ratio|1.6|||<|0.001|TWO_SIDED|95.0|1.38|1.85|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 3 (Shared)||1.85|1.38|<0.001
92404143|NCT03773978|184699441|SUPERIORITY||LS Mean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.438||0.019|TWO_SIDED|95.0|-1.98|-0.19|||ANCOVA|||||-0.19|-1.98|0.019
92404144|NCT04916587|184699470|SUPERIORITY||Risk Difference (RD)|11.6|||||TWO_SIDED|95.0|10.6|12.6||||||||12.6|10.6|
92404145|NCT04916587|184699471|SUPERIORITY||Risk Difference (RD)|7.5|||||TWO_SIDED|95.0|6.6|8.3||||||||8.3|6.6|
92166499|NCT03950622|184222576|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the difference(V114 - Prevnar 13™) between the proportions of participants with a ≥4-fold rise from prevaccination (Day 1) to 30 days postvaccination (Day 30) to be greater than 0.|Percentage Point Difference|11.5|||<|0.001|TWO_SIDED|95.0|6.0|16.9|||Miettinen & Nurminen|Estimated difference, 95% CI, and p-value are based on the stratified Miettinen \& Nurminen method.||Serotype 3 (Shared) ≥4-Fold Rise in OPA||16.9|6.0|<0.001
92166500|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.72|||||TWO_SIDED|95.0|0.62|0.83||||||Serotype 1 (Shared)||0.83|0.62|
92166501|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.51|||||TWO_SIDED|95.0|1.33|1.71||||||Serotype 3 (Shared)||1.71|1.33|
92166502|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.72|||||TWO_SIDED|95.0|0.62|0.83||||||Serotype 4 (Shared)||0.83|0.62|
92166503|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.82|||||TWO_SIDED|95.0|0.7|0.96||||||Serotype 5 (Shared)||0.96|0.70|
92166504|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.03|||||TWO_SIDED|95.0|0.87|1.21||||||Serotype 6A (Shared)||1.21|0.87|
92166505|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.39|||||TWO_SIDED|95.0|1.17|1.64||||||Serotype 6B (Shared)||1.64|1.17|
92166506|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.76|||||TWO_SIDED|95.0|0.66|0.89||||||Serotype 7F (Shared)||0.89|0.66|
92404146|NCT04916587|184699472|SUPERIORITY||Odds Ratio (OR)|0.36||||0.03|TWO_SIDED|90.0|0.14|0.89|||Mixed Models Analysis|||||0.89|0.14|0.03
92404147|NCT02667119|184699527|SUPERIORITY||F|4.75||||0.041|TWO_SIDED||||||ANCOVA|Controlled for baseline scores on the National Stressful Events PTSD Scale||Compared the two groups at 3 months post-baseline||||.041
92404148|NCT02667119|184699528|SUPERIORITY||F|6.89||||0.016|TWO_SIDED||||||ANCOVA|Controlled for baseline score on the National Stressful Events PTSD Scale||||||.016
92404149|NCT02667119|184699529|SUPERIORITY||t|-2.19||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||.04
92404150|NCT02667119|184699530|SUPERIORITY||F|2.25||||0.148|TWO_SIDED|||||Controlling for baseline score on the Center for Epidemiological Studies-Depressed Mood scale|ANCOVA|||||||.148
92404151|NCT02667119|184699531|SUPERIORITY||F|4.64||||0.043|TWO_SIDED||||||ANCOVA|Controlling for baseline score on the Center for Epidemiological Studies-Depressed Mood scale||||||.043
92404152|NCT02667119|184699532|SUPERIORITY||F|1.4||||0.25|TWO_SIDED|||||Controlling for baseline score on the Quality of Life Scale|ANCOVA|||||||.250
92404153|NCT02667119|184699533|SUPERIORITY||F|0.45||||0.508|TWO_SIDED||||||ANCOVA|Controlling for baseline score on the Quality of Life Scale||||||.508
92404154|NCT05452486|184699538|EQUIVALENCE|The purpose of this study was to evaluate whether the mean performance on auditory processing assessments differed depending on whether the tests were administered in Spanish or English.|Slope|-3.89|||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||Dichotic digits comparison||||<0.01
92404155|NCT05452486|184699538|EQUIVALENCE|The purpose of this study was to evaluate whether the mean performance on auditory processing assessments differed depending on whether the tests were administered in Spanish or English.|Slope|5.18||||0.69|TWO_SIDED||||||Mixed Models Analysis|||Dichotic words comparison||||0.69
92404156|NCT03818256|184699561|SUPERIORITY||Least Squares Mean Difference|0.11||||0.8511|TWO_SIDED|95.0|-1.03|1.24|||Mixed Models Analysis|||||1.24|-1.03|0.8511
92404157|NCT03818256|184699565|SUPERIORITY||Odds Ratio (OR)|0.82||||0.8169|TWO_SIDED|95.0|0.15|4.474|||Regression, Logistic|||||4.474|0.150|0.8169
92404158|NCT03818256|184699566|SUPERIORITY||Location shift|0.175||||0.9285|TWO_SIDED|95.0|-2.86|2.78|||Wilcoxon rank-sum test|||||2.780|-2.860|0.9285
92404159|NCT03818256|184699567|SUPERIORITY||Least squares mean difference|0.007||||0.5669|TWO_SIDED|95.0|-0.018|0.033|||Mixed Models Analysis|||||0.033|-0.018|0.5669
92404160|NCT00911170|184699573|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41||||0.014|TWO_SIDED|95.0|0.19|0.86|||Cochran-Mantel-Haenszel|The p-value is adjusted for the randomization stratification factors (chemotherapy regimen, geographic region, disease stage).|Odds ratio adjusted for the randomization stratification factors. An OR \< 1.0 indicates a lower event rate for the pegfilgrastim arm relative to the placebo arm.|The primary hypothesis was that the percentage of participants treated with study chemotherapy and bevacizumab who experience grade 3/4 febrile neutropenia (FN) would be lower in participants randomized to the pegfilgrastim arm compared to placebo arm. The study was designed to have at least 90% power at the 2-sided 0.05 significance level to detect a 6% difference in incidence of grade 3/4 FN from 9% to 3%, which is approximately a 66.7% relative reduction.||0.86|0.19|0.014
92404161|NCT00911170|184699574|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.704|TWO_SIDED|95.0|0.81|1.36|||Log Rank|P-values based on the log-rank test statistic from the Kaplan-Meier survival analysis stratified by the 3 randomization factors.|Based on Cox proportional Hazard model stratified by chemotherapy regimen, region and disease status. A HR\< 1.0 indicates a lower average event rate and a longer survival time for the pegfilgrastim arm relative to the placebo arm.|||1.36|0.81|0.704
92404162|NCT00911170|184699575|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.552|TWO_SIDED|95.0|0.88|1.26|||Log Rank|P-values are based on the log-rank test statistic from the Kaplan-Meier survival analysis stratified by the 3 randomization factors.|Based on Cox proportional Hazard model stratified by chemotherapy regimen, region and disease status. A HR\< 1.0 indicates a lower average event rate and a longer survival time for the pegfilgrastim arm relative to the placebo arm.|||1.26|0.88|0.552
92404163|NCT00911170|184699576|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.502|TWO_SIDED|95.0|0.88|1.29|||Log Rank|P-values are based on the log-rank test statistic from the Kaplan-Meier survival analysis stratified by the 3 randomization factors.|Based on Cox proportional Hazard model stratified by chemotherapy regimen, region and disease status. A HR\< 1.0 indicates a lower average event rate and a longer survival time for the pegfilgrastim arm relative to the placebo arm.|||1.29|0.88|0.502
92404164|NCT00911170|184699577|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.683|TWO_SIDED|95.0|0.81|1.39|||Cochran-Mantel-Haenszel|The p-value is from the Cochran Mantel Haenszel (CMH) test adjusting for the randomization stratification factors.|Odds ratio (OR) adjusted for the randomization stratification factors. An OR \> 1.0 indicates a higher event rate for the pegfilgrastim arm relative to the placebo arm.|||1.39|0.81|0.683
92404165|NCT00911170|184699578|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.312||95.0|0.29|1.49|||Cochran-Mantel-Haenszel|The p-value is from the Cochran Mantel Haenszel (CMH) test adjusting for the randomization stratification factors.|Odds ratio (OR) adjusted for the randomization stratification factors. An OR \< 1.0 indicates a lower event rate for the pegfilgrastim arm relative to the placebo arm.|||1.49|0.29|0.312
92404166|NCT00911170|184699579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.18|||<|0.001||95.0|0.1|0.32|||Cochran-Mantel-Haenszel|The p-value is from the Cochran Mantel Haenszel (CMH) test adjusting for the randomization stratification factors.|Odds ratio (OR) adjusted for the randomization stratification factors. An OR \< 1.0 indicates a lower event rate for the pegfilgrastim arm relative to the placebo arm.|||0.32|0.10|<.001
92404167|NCT00911170|184699580|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27|||<|0.001|TWO_SIDED|95.0|0.13|0.56|||Cochran-Mantel-Haenszel|The p-value is from the Cochran Mantel Haenszel (CMH) test adjusting for the randomization stratification factors.|Odds ratio (OR) adjusted for the randomization stratification factors. An OR \< 1.0 indicates a lower event rate for the pegfilgrastim arm relative to the placebo arm.|||0.56|0.13|<.001
92404168|NCT02677493|184699586|EQUIVALENCE|"All statistical significance testing was performed at a two-sided significance level (α) of 5%.~Exceptionally, non-inferiority was tested at a one-sided CI of 97.5%."||||||0.09135|||||||ANCOVA|||To evaluate if the seroconversion (SCR) and seroprotection (SPR) rates on Day 28 after vaccination of IL-YANG Quadrivalent Influenza Vaccine Inj. meet the following criteria in all age groups of healthy male and female adults at the age of 19 or older.||||0.09135
92166507|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.75|1.0||||||Serotype 9V (Shared)||1.00|0.75|
92166508|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.89||||||Serotype 14 (Shared)||0.89|0.65|
92166509|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.9|||||TWO_SIDED|95.0|0.77|1.05||||||Serotype 18C (Shared)||1.05|0.77|
92166510|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.73|0.97||||||Serotype 19A (Shared)||0.97|0.73|
92166511|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.9|||||TWO_SIDED|95.0|0.78|1.05||||||Serotype 19F (Shared)||1.05|0.78|
92166512|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.09|||||TWO_SIDED|95.0|0.92|1.28||||||Serotype 23F (Shared)||1.28|0.92|
92166513|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|10.62|||||TWO_SIDED|95.0|9.37|12.03||||||Serotype 22F (Unique to V114)||12.03|9.37|
92166514|NCT03950622|184222577|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|8.98|||||TWO_SIDED|95.0|8.0|10.07||||||Serotype 33F (Unique to V114)||10.07|8.00|
92166515|NCT02928224|184222616|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
92166516|NCT02928224|184222617|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
92166517|NCT02928224|184222618|OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92166518|NCT02928224|184222627|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
92166519|NCT02928224|184222628|OTHER|||||||0.5958|||||||Stratified Log-rank|||||||0.5958
92166520|NCT02928224|184222629|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
92166521|NCT02928224|184222630|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
92166522|NCT02928224|184222631|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
92166523|NCT02928224|184222632|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
92166524|NCT02928224|184222633|OTHER|||||||0.1004|||||||Stratified Log-rank|||||||0.1004
92166525|NCT02928224|184222634|OTHER|||||||0.3724|||||||Stratified Log-rank|||||||0.3724
92166526|NCT02928224|184222635|OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92166527|NCT02928224|184222636|OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92364659|NCT02628444|184631684|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.567|||||TWO_SIDED|98.75|0.399|0.805||||||Group 1a Booster/Group 1 Post-dose 3: Serotype 1||0.805|0.399|
92364660|NCT02628444|184631684|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.746|||||TWO_SIDED|98.75|0.55|1.01||||||Group 1a Booster/Group 1 Post-dose 3: Serotype 2||1.01|0.550|
92364661|NCT02628444|184631684|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|1.04|||||TWO_SIDED|98.75|0.686|1.57||||||Group 1a Booster/Group 1 Post-dose 3: Serotype 3||1.57|0.686|
92364662|NCT02628444|184631684|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.647|||||TWO_SIDED|98.75|0.434|0.963||||||Group 1a Booster/Group 1 Post-dose 3: Serotype 4||0.963|0.434|
92404169|NCT00554216|184699595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.36|STANDARD_ERROR_OF_MEAN|0.476|<|0.0001|TWO_SIDED|95.0|8.43|10.3||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||10.30|8.43|<0.0001
92404170|NCT00554216|184699595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.54|STANDARD_ERROR_OF_MEAN|0.596|<|0.0001|TWO_SIDED|95.0|2.38|4.71||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.71|2.38|<0.0001
92166528|NCT02928224|184222637|OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92166529|NCT02928224|184222638|OTHER|||||||0.1928|||||||Cochran-Mantel-Haenszel|||||||0.1928
92166530|NCT02928224|184222639|OTHER|||||||0.0357|||||||Cochran-Mantel-Haenszel|||||||0.0357
92166531|NCT00958633|184222713|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.12|TWO_SIDED|95.0|0.43|1.1|||Log Rank||The hazard ratio for time to any mood episode in the 52-week group relative to the 8-week group was 0.68 (95% confidence interval \[CI\], 0.43 to 1.10; P = 0.12 by log-rank test).|||1.10|0.43|0.12
92166532|NCT00958633|184222714|SUPERIORITY||Hazard Ratio (HR)|2.28|||||TWO_SIDED|95.0|0.86|6.08||||||Manic or Hypomanic events||6.08|.86|
92166533|NCT00958633|184222714|SUPERIORITY||Hazard Ratio (HR)|0.43|||||TWO_SIDED|95.0|0.25|0.75||||||Depressive Events||0.75|0.25|
92166534|NCT00094575|184222721|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.81|TWO_SIDED|95.0|0.77|1.22|||Log Rank||The HR was estimated by comparing Endovascular repair arm vs the Open repair arm.|The primary outcome was long-term, all-cause mortality. The sample size would provide 80% power to detect a 25% relative reduction in mortality at a two-sided alpha level of 0.05. The primary comparison was the main effects of Endovascular repair vs Open repair of AAA.||1.22|0.77|0.81
92166535|NCT00094575|184222722|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Chi-squared|||||||0.12
92166536|NCT00094575|184222723|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||Mixed Models Analysis|||||||0.81
92166537|NCT00094575|184222724|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
92166538|NCT00094575|184222725|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Mixed Models Analysis|||||||0.78
92166539|NCT00094575|184222726|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Mixed Models Analysis|||Note: Since this is measuring change over time since baseline, values could be below 0.||||0.58
92166540|NCT00094575|184222727|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Mixed Models Analysis|||||||0.37
92166541|NCT00094575|184222728|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Mixed Models Analysis|||||||0.68
92166542|NCT03122886|184222865|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.9|TWO_SIDED|95.0|0.12|6.37|||Log Rank|||||6.37|0.12|0.90
92166543|NCT05938413|184222921|NON_INFERIORITY|Non-inferiority test to compare viral suppression rate between month 3 and baseline.|Odds Ratio (OR)|3.01|||||TWO_SIDED|||||||||||||
92166544|NCT03312907|184222924|OTHER||Odds Ratio (OR)|1.27||||0.5342|TWO_SIDED|95.0|0.6|2.71|||Regression, Logistic||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose. Belimumab + Standard therapy arm was excluded from model.|||2.71|0.60|0.5342
92166545|NCT03312907|184222924|OTHER||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.32|1.54|||||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, and Baseline prednisone equivalent dose. Belimumab + Placebo arm excluded from model.|||1.54|0.32|
92166546|NCT03312907|184222925|OTHER||Odds Ratio (OR)|1.12||||0.8582|TWO_SIDED|95.0|0.33|3.78|||Regression, Logistic||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||3.78|0.33|0.8582
92166547|NCT03312907|184222925|OTHER||Odds Ratio (OR)|0.53|||||TWO_SIDED|95.0|0.17|1.7|||||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm was excluded from model.|||1.70|0.17|
92166548|NCT03312907|184222926|OTHER||Odds Ratio (OR)|1.64||||0.3613|TWO_SIDED|95.0|0.57|4.72|||Regression, Logistic||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||4.72|0.57|0.3613
92166549|NCT03312907|184222926|OTHER||Odds Ratio (OR)|0.45|||||TWO_SIDED|95.0|0.19|1.09|||||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm excluded from model.|||1.09|0.19|
92224627|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|94.44|||||TWO_SIDED|90.0|56.44|158.02||||||Buprenorphine||158.02|56.44|
92224628|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|132.57|||||TWO_SIDED|90.0|78.86|222.84||||||Buprenorphine||222.84|78.86|
92224629|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|233.99|||||TWO_SIDED|90.0|135.63|403.68||||||Buprenorphine||403.68|135.63|
92224630|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|263.97|||||TWO_SIDED|90.0|155.52|448.03||||||Buprenorphine||448.03|155.52|
92364663|NCT02628444|184631685|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided Bonferroni corrected 95% CI for the ratio of GMTs between groups (Group 2a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.627|||||TWO_SIDED|98.75|0.342|1.15||||||Group 2a Booster dose/Group 1 Post-dose 3: Serotype 1||1.15|0.342|
92364664|NCT02628444|184631685|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided Bonferroni corrected 95% CI for the ratio of GMTs between groups (Group 2a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.809|||||TWO_SIDED|98.75|0.505|1.3||||||Group 2a Booster/Group 1 Post-dose 3: Serotype 2||1.30|0.505|
92364665|NCT02628444|184631685|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided Bonferroni corrected 95% CI for the ratio of GMTs between groups (Group 2a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|1.19|||||TWO_SIDED|98.75|0.732|1.94||||||Group 2a Booster/Group 1 Post-dose 3: Serotype 3||1.94|0.732|
92364666|NCT02628444|184631685|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided Bonferroni corrected 95% CI for the ratio of GMTs between groups (Group 2a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.499|||||TWO_SIDED|98.75|0.331|0.754||||||Group 2a Booster/Group 1 Post-dose 3: Serotype 4||0.754|0.331|
92364667|NCT02628444|184631686|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1b booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.688|||||TWO_SIDED|98.75|0.479|0.989||||||Group 1b Booster/Group 1 Post-dose 3: Serotype 1||0.989|0.479|
92364668|NCT02628444|184631686|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1b booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.871|||||TWO_SIDED|98.75|0.673|1.13||||||Group 1b Booster/Group 1 Post-dose 3: Serotype 2||1.13|0.673|
92364669|NCT02628444|184631686|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1b booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|1.15|||||TWO_SIDED|98.75|0.887|1.49||||||Group 1b Booster/Group 1 Post-dose 3: Serotype 3||1.49|0.887|
92364670|NCT02628444|184631686|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1b booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.655|||||TWO_SIDED|98.75|0.471|0.911||||||Group 1b Booster/Group 1 Post-dose 3: Serotype 4||0.911|0.471|
92224631|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|159.38|||||TWO_SIDED|90.0|78.21|324.79||||||Norbuprenorphine||324.79|78.21|
92224632|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|106.93|||||TWO_SIDED|90.0|52.47|217.91||||||Norbuprenorphine||217.91|52.47|
92224633|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|87.1|||||TWO_SIDED|90.0|42.74|177.5||||||Norbuprenorphine||177.50|42.74|
92224634|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|182.98|||||TWO_SIDED|90.0|89.79|372.89||||||Norbuprenorphine||372.89|89.79|
92364671|NCT02628444|184631687|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2b Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.889|||||TWO_SIDED|98.75|0.462|1.71||||||Group 2b Booster/Group 1 Post-dose 3: Serotype 1||1.71|0.462|
92364672|NCT02628444|184631687|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2b Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.677|||||TWO_SIDED|98.75|0.402|1.14||||||Group 2b Booster/Group 1 Post-dose 3: Serotype 2||1.14|0.402|
92224635|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|122.77|||||TWO_SIDED|90.0|60.24|250.19||||||Norbuprenorphine||250.19|60.24|
92224636|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|69.12|||||TWO_SIDED|90.0|33.45|142.82||||||Naloxone||142.82|33.45|
92224637|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|282.17|||||TWO_SIDED|90.0|141.59|562.3||||||Naloxone||562.30|141.59|
92224638|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|1497.7|||||TWO_SIDED|90.0|724.85|3094.59||||||Naloxone||3094.59|724.85|
92224639|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|87.64|||||TWO_SIDED|90.0|40.3|190.59||||||Naloxone||190.59|40.30|
92224640|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|78.86|||||TWO_SIDED|90.0|34.34|181.12||||||Naloxone||181.12|34.34|
92224641|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|321.94|||||TWO_SIDED|90.0|144.65|716.52||||||Naloxone||716.52|144.65|
92224642|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|1708.83|||||TWO_SIDED|90.0|744.08|3924.47||||||Naloxone||3924.47|744.08|
92224643|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|84.2|||||TWO_SIDED|90.0|60.92|116.38||||||Naloxone-3-β-D-Glucuronide||116.38|60.92|
92224644|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|110.98|||||TWO_SIDED|90.0|82.02|150.17||||||Naloxone-3-β-D-Glucuronide||150.17|82.02|
92224645|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|81.97|||||TWO_SIDED|90.0|60.03|111.92||||||Naloxone-3-β-D-Glucuronide||111.92|60.03|
92364673|NCT02628444|184631687|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2b Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.911|||||TWO_SIDED|98.75|0.573|1.45||||||Group 2b Booster/Group 1 Post-dose 3: Serotype 3||1.45|0.573|
92166550|NCT03312907|184222932|OTHER||Hazard Ratio (HR)|0.81||||0.215|TWO_SIDED|95.0|0.57|1.13|||Cox proportional hazards model||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||1.13|0.57|0.2150
92166551|NCT03312907|184222932|OTHER||Hazard Ratio (HR)|1.64|||||TWO_SIDED|95.0|1.03|2.63|||||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm excluded from model.|||2.63|1.03|
92166552|NCT03312907|184222933|OTHER||Hazard Ratio (HR)|0.87||||0.3757|TWO_SIDED|95.0|0.64|1.19|||Cox proportional hazards model||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||1.19|0.64|0.3757
92166553|NCT03312907|184222933|OTHER||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.71|1.49|||||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm excluded from model.|||1.49|0.71|
92166554|NCT03312907|184222934|OTHER||Hazard Ratio (HR)|1.55||||0.5127|TWO_SIDED|95.0|0.42|5.78|||Cox proportional hazards model||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||5.78|0.42|0.5127
92166555|NCT03312907|184222934|OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.23|2.1|||||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm excluded from model.|||2.10|0.23|
92166556|NCT03312907|184222935|OTHER||Hazard Ratio (HR)|0.83||||0.8436|TWO_SIDED|95.0|0.14|5.05|||Cox proportional hazards model||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||5.05|0.14|0.8436
92166557|NCT03312907|184222935|OTHER||Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.09|3.14|||||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm excluded from model.|||3.14|0.09|
92166558|NCT03312907|184222942|OTHER||Odds Ratio (OR)|1.55||||0.7102|TWO_SIDED|95.0|0.15|15.7|||Regression, Logistic|Week 52|Odds ratio at Week 52 was calculated using Logistic regression model with covariates:Baseline SLEDAI-2K,Baseline immunosuppressant,Baseline prednisone equivalent dose and treatment group. Belimumab+ Standard therapy arm was excluded from the model.|||15.70|0.15|0.7102
92166559|NCT03312907|184222942|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.1|10.71|||||Odds ratio at Week 52 was calculated using Logistic regression model with covariates:Baseline SLEDAI-2K,Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm was excluded from the model.|||10.71|0.10|
92166560|NCT03312907|184222942|OTHER||Odds Ratio (OR)|0.9||||0.8641|TWO_SIDED|95.0|0.26|3.15|||Regression, Logistic|Week 104|Odds ratio at Week 104 was calculated using Logistic regression model with covariates:Baseline SLEDAI-2K,Baseline immunosuppressant,Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from the model.|||3.15|0.26|0.8641
92166561|NCT03312907|184222942|OTHER||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.26|5.64|||||Odds ratio at Week 104 was calculated using Logistic regression model with covariates:Baseline SLEDAI-2K,Baseline immunosuppressant,Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm was excluded from the model.|||5.64|0.26|
92166562|NCT02576574|184223008|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.007|TWO_SIDED|95.0|0.54|0.93|||Log Rank|||||0.93|0.54|0.0070
92166563|NCT02576574|184223009|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0196|TWO_SIDED|95.0|0.52|0.98|||Log Rank|||||0.98|0.52|0.0196
92166564|NCT02576574|184223010|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1032|TWO_SIDED|95.0|0.67|1.09|||Log Rank|||||1.09|0.67|0.1032
92166565|NCT02576574|184223011|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.063|TWO_SIDED|95.0|0.59|1.07|||Log Rank|||||1.07|0.59|0.0630
92166566|NCT02576574|184223012|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0147|TWO_SIDED|95.0|0.62|0.98|||Log Rank|||||0.98|0.62|0.0147
92166567|NCT02576574|184223013|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1753|TWO_SIDED|95.0|0.67|1.15|||Log Rank|||||1.15|0.67|0.1753
92166568|NCT02576574|184223014|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0257|TWO_SIDED|95.0|0.66|1.0|||Log Rank|||||1.00|0.66|0.0257
92166569|NCT02576574|184223015|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0809|TWO_SIDED|95.0|0.66|1.07|||Log Rank|||||1.07|0.66|0.0809
92166570|NCT02576574|184223016|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.1294|TWO_SIDED|95.0|0.78|1.07|||Log Rank|||||1.07|0.78|0.1294
92166571|NCT02576574|184223017|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.2618|TWO_SIDED|95.0|0.79|1.13|||Log Rank|||||1.13|0.79|0.2618
92166572|NCT02576574|184223018|SUPERIORITY||Odds Ratio (OR)|1.41||||0.064|TWO_SIDED|95.0|0.91|2.18|||Cochran-Mantel-Haenszel|||||2.18|0.91|0.0640
92166573|NCT02576574|184223019|SUPERIORITY||Odds Ratio (OR)|1.23||||0.2217|TWO_SIDED|95.0|0.73|2.07|||Cochran-Mantel-Haenszel|||||2.07|0.73|0.2217
92166574|NCT02576574|184223020|SUPERIORITY||Odds Ratio (OR)|1.18||||0.1912|TWO_SIDED|95.0|0.81|1.72|||Cochran-Mantel-Haenszel|||||1.72|0.81|0.1912
92166575|NCT02576574|184223021|SUPERIORITY||Odds Ratio (OR)|1.0||||0.4951|TWO_SIDED|95.0|0.64|1.57|||Cochran-Mantel-Haenszel|||||1.57|0.64|0.4951
92166576|NCT01780298|184223087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-36.278|||<|0.0001|TWO_SIDED|95.0|-42.203|-30.352|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||-30.352|-42.203|<0.0001
92166577|NCT01780298|184223087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-32.739|||<|0.0001|TWO_SIDED|95.0|-38.418|-27.06|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||-27.060|-38.418|<0.0001
92166578|NCT01780298|184223087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-25.265|||<|0.0001|TWO_SIDED|95.0|-31.081|-19.449|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||-19.449|-31.081|<0.0001
92166579|NCT01780298|184223087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.538||||0.1504|TWO_SIDED|95.0|-8.398|1.321|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||1.321|-8.398|0.1504
92166580|NCT01780298|184223087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.474||||0.0002|TWO_SIDED|95.0|-11.207|-3.741|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||-3.741|-11.207|0.0002
92166581|NCT01780298|184223087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.013|||<|0.0001|TWO_SIDED|95.0|-15.979|-6.046|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||-6.046|-15.979|<0.0001
92224646|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|82.78|||||TWO_SIDED|90.0|59.89|114.42||||||Naloxone-3-β-D-Glucuronide||114.42|59.89|
92364674|NCT02628444|184631687|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2b Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.702|||||TWO_SIDED|98.75|0.447|1.1||||||Group 2b Booster/Group 1 Post-dose 3: Serotype 4||1.10|0.447|
92364675|NCT02628444|184631688|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|1.05|||||TWO_SIDED|95.0|0.833|1.33||||||Group2/Group1: Serotype 1 (28 days after last vaccination)||1.33|0.833|
92364676|NCT02628444|184631688|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.99|||||TWO_SIDED|95.0|0.821|1.19||||||Group2/Group1: Serotype 2 (28 days after last vaccination)||1.19|0.821|
92364677|NCT02628444|184631688|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.972|||||TWO_SIDED|95.0|0.81|1.17||||||Group2/Group1: Serotype 3 (28 days after last vaccination)||1.17|0.810|
92364678|NCT02628444|184631688|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.963|||||TWO_SIDED|95.0|0.814|1.14||||||Group2/Group1: Serotype 4 (28 days after last vaccination)||1.14|0.814|
92364679|NCT02628444|184631688|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|1.03|||||TWO_SIDED|95.0|0.762|1.39||||||Group2/Group1: Serotype 1 (1 year after last vaccination)||1.39|0.762|
92364680|NCT02628444|184631688|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.917|||||TWO_SIDED|95.0|0.724|1.16||||||Group2/Group1: Serotype 2 (1 year after last vaccination)||1.16|0.724|
92364681|NCT02628444|184631688|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.933|||||TWO_SIDED|95.0|0.742|1.17||||||Group2/Group1: Serotype 3 (1 year after last vaccination)||1.17|0.742|
92364682|NCT02628444|184631688|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.916|||||TWO_SIDED|95.0|0.75|1.12||||||Group2/Group1: Serotype 4 (1 year after last vaccination)||1.12|0.750|
92364683|NCT00288015|184631706|OTHER|This is a two-stage optimal simon design. If bevacizumab is not effective, there is a 0.050 probability of concluding that it is. If bevacizumab is effective, there is a 0.2000 probability of concluding that it is not.||||||||||||In first stage 12 patients will be entered, if \</=3 patients have PFS time\>3 months p\</=0.22 is likely true. In second stage a total of up to 31 patients data will be analysed. If \>/=10 patients show PFS\</=3 months, it will suggest p\>0.50 is true.|Kaplan-Meier estimate|||This is a two stage optimal simon design testing the Null hypothesis: bevacizumab is not effective with P\<=0.220 and the alternative hypothesis: bevacizumab is effective with P \>=0.450 and has a sample size of 16.96 and a probability of early termination of 0.739. p=probability (progression free survival - PFS time\>/=3 months).|P\<=0.220 is the threshold value of significance that the null hypothesis is true or the alternative hypothesis is true. P Value was not calculated from the data. Median survival time was calculated using a 20% censored Kaplan-Meier table and graph.|||
92364684|NCT02079909|184631758|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.3919|TWO_SIDED||||||Mixed Models Analysis|||||||0.3919
92364685|NCT02079909|184631759|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.7588|TWO_SIDED||||||Mixed Models Analysis|||||||0.7588
92364686|NCT02079909|184631760|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.3212|TWO_SIDED||||||Mixed Models Analysis|||||||0.3212
92364687|NCT02277249|184631761|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||No power calculation performed given that this was a pilot study. The null hypothesis was that there would be no difference in pain score with injection between the two study arms. The Wilcoxon rank sum test was selected because of the study's small sample size and the non-normal distribution of pain scores. Intention to treat analyses were used.||||0.36
92364688|NCT01869634|184631779|OTHER|Wilcoxon signed-rank test. Paired samples.||||||0.0025|||||||Sign test|||Comparison between HIV positive naïve to ART before and after ART has been done.||||0.0025
92364689|NCT01869634|184631780|OTHER|Two-sample Wilcoxon rank-sum (Mann-Whitney) test||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
92224647|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|101.71|||||TWO_SIDED|90.0|74.96|138.0||||||Naloxone-3-β-D-Glucuronide||138.00|74.96|
92404171|NCT00554216|184699595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.82|STANDARD_ERROR_OF_MEAN|0.596|<|0.0001|TWO_SIDED|95.0|4.65|6.99||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||6.99|4.65|<0.0001
92404172|NCT00554216|184699596|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.61|STANDARD_ERROR_OF_MEAN|1.463|<|0.0001|TWO_SIDED|95.0|7.13|12.95||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||12.95|7.13|<0.0001
92404173|NCT00554216|184699596|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.97|STANDARD_ERROR_OF_MEAN|0.706|<|0.0001|TWO_SIDED|95.0|2.8|5.63||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||5.63|2.80|<0.0001
92404174|NCT00554216|184699596|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.42|STANDARD_ERROR_OF_MEAN|0.394|<|0.0001|TWO_SIDED|95.0|1.76|3.33||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||3.33|1.76|<0.0001
92404175|NCT01347112|184699597|SUPERIORITY_OR_OTHER|||||||0.034||||||1 tailed fisher's exact test|Fisher Exact|1 tailed||||||0.034
92404176|NCT01347112|184699598|SUPERIORITY_OR_OTHER|||||||0.044||||||1 tailed fisher's exact|Fisher Exact|1 tailed||||||0.044
92404177|NCT01347112|184699599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|90.0|-4.7|2.1|||||data were analyzed using analysis of covariance with treatment as the independent variable and the baseline value included as the co-variate|||2.1|-4.7|
92404178|NCT05462756|184699608|NON_INFERIORITY|The sample size provided \>99% statistical power to show noninferiority assuming a 0.4% noninferiority margin (NIM), in insulin efsitora doses compared to insulin glargine, in a 1:1 randomization, a standard deviation (SD) of 1.1%, and a dropout rate of 15%.|LS Mean Difference|-0.012|||||TWO_SIDED|95.0|-0.14|0.116||||||Least Squares (LS) Mean was determined using ANCOVA model with Baseline + Country + Personal Use of CGM or FGM at Randomization + Treatment (Type III sum of squares) as variables. Missing data at Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed.||0.116|-0.140|
92404179|NCT05462756|184699609|SUPERIORITY||LS Mean Difference|-0.012||||0.855|TWO_SIDED|95.0|-0.14|0.116|||ANCOVA|||Least Squares (LS) Mean was determined using ANCOVA model with Baseline + Country + Personal Use of CGM or FGM at Randomization + Treatment (Type III sum of squares) as variables. Missing data at Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed.||0.116|-0.140|0.855
92404180|NCT05462756|184699610|SUPERIORITY||Odds Ratio (OR)|1.11||||0.504|TWO_SIDED|95.0|0.81|1.52|||Chi-squared|||||1.52|0.81|0.504
92166582|NCT01780298|184223088|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.611|||<|0.0001|TWO_SIDED|95.0|-32.249|-22.973|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||-22.973|-32.249|<0.0001
92166583|NCT01780298|184223088|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-24.553|||<|0.0001|TWO_SIDED|95.0|-29.501|-19.604|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||-19.604|-29.501|<0.0001
92166584|NCT01780298|184223088|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.107|||<|0.0001|TWO_SIDED|95.0|-19.043|-9.17|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||-9.170|-19.043|<0.0001
92166585|NCT01780298|184223088|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.058||||0.0983|TWO_SIDED|95.0|-6.702|0.585|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||0.585|-6.702|0.0983
92166586|NCT01780298|184223088|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.446|||<|0.0001|TWO_SIDED|95.0|-13.845|-7.047|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||-7.047|-13.845|<0.0001
92166587|NCT01780298|184223088|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.504|||<|0.0001|TWO_SIDED|95.0|-17.302|-9.707|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||-9.707|-17.302|<0.0001
92166588|NCT01780298|184223089|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.448|||<|0.0001|TWO_SIDED|95.0|28.374|52.521|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||52.521|28.374|<0.0001
92166589|NCT01780298|184223089|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|26.538|||<|0.0001|TWO_SIDED|95.0|14.89|38.185|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||38.185|14.890|<0.0001
92166590|NCT01780298|184223089|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|20.661||||0.0018|TWO_SIDED|95.0|7.997|33.324|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||33.324|7.997|0.0018
92166591|NCT01780298|184223089|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.91||||0.0015|TWO_SIDED|95.0|5.534|22.286|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||22.286|5.534|0.0015
92364690|NCT01869634|184631780|OTHER|Wilcoxon signed-rank test||||||0.826|||||||Sign test|||Comparison of coronary artery wall thickness before and after ART in the HIV infected participants.||||0.826
92166592|NCT01780298|184223089|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.877||||0.1847|TWO_SIDED|95.0|-2.886|14.639|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||14.639|-2.886|0.1847
92166593|NCT01780298|184223089|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.787||||0.0003|TWO_SIDED|95.0|9.536|30.038|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||30.038|9.536|0.0003
92166594|NCT01780298|184223090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2979.725||||0.1981|TWO_SIDED|95.0|-7560.258|1600.808|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||1600.808|-7560.258|0.1981
92166595|NCT01780298|184223090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2317.131||||0.1956|TWO_SIDED|95.0|-1224.786|5859.048|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||5859.048|-1224.786|0.1956
92166596|NCT01780298|184223090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2396.589||||0.2077|TWO_SIDED|95.0|-1367.692|6160.87|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||6160.870|-1367.692|0.2077
92364691|NCT01869634|184631781|OTHER|Two-sample Wilcoxon rank-sum (Mann-Whitney) test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||comparison between groups (HIV+ vs HIV-)||||<0.001
92364692|NCT01869634|184631781|OTHER|||||||0.807|||||||Sign test|||Changes in systemic immune activation through IL6||||0.807
92364693|NCT02098304|184631814|SUPERIORITY_OR_OTHER||Percentage agreement|72.3|||<|0.001|TWO_SIDED|95.0|59.8|82.7|||Exact binomial test|An exact binomial test was used and an exact 95% Confidence Interval using the Clopper-Pearson method was calculated.||The null hypothesis was of chance agreement (50%) and was tested against a two-sided alternative at the 5% level of significance.||82.7|59.8|<0.001
92364694|NCT02098304|184631814|SUPERIORITY_OR_OTHER||Cohen's kappa|0.45||||0.001|TWO_SIDED|95.0|0.24|0.66|||Cohen's Kappa||Cohen's kappa is a chance-adjusted measure of agreement. A value of 0 indicates agreement by chance and 1 perfect agreement.|The null hypothesis was of chance agreement (Cohen's kappa of 0) and was tested against a two-sided alternative at the 5% level of significance. The study was powered such that 58 teeth (29 subjects), there would be 95% power to reject the null hypothesis of chance agreement (Cohen's kappa of 0) at the 5% level of significance, given that it was expected to be at least 0.4.||0.66|0.24|0.001
92364695|NCT00457392|184631818|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.942||||0.1933|TWO_SIDED|95.0|0.822|1.079||p-value was not adjusted for multiple comparisons.|Log Rank|||Differences in OS between treatment arms was analyzed by the 1-sided log rank test, stratified for smoking status (ever versus never), prior bevacizumab therapy (yes versus no) and epidermal growth factor receptor (EGFR) status (positive, versus negative, versus unknown).||1.079|0.822|0.1933
92364696|NCT00457392|184631819|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.807||||0.0023|TWO_SIDED|95.0|0.695|0.937||No p-value is adjusted for multiple comparisons for PFS.|Log Rank|One-sided log-rank test with alpha=0.025 was used.||Differences in PFS between treatment arms was analyzed by the 1-sided log rank test, stratified for smoking status (ever versus never), prior bevacizumab therapy (yes versus no) and EGFR status (positive, versus negative, versus unknown).||0.937|0.695|0.0023
92364697|NCT00457392|184631820|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.514||||0.0471|TWO_SIDED|95.0|1.002|2.289|||Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) test stratified for smoking status (ever versus never), prior bevacizumab therapy (yes versus no) and EGFR status (positive, versus negative, versus unknown) was used to compare ORR between the 2 treatment arms. The relative risk ratio estimator was used to contrast the treatment effects on response rates. A point estimate of relative risk ratio and 2-sided 95% CI was calculated.||2.289|1.002|0.0471
92364698|NCT00756275|184631824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.33|||<|0.05|TWO_SIDED|95.0|0.91|20.56|||Chi-squared|||||20.56|.91|<0.05
92364699|NCT00756275|184631825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.59|STANDARD_ERROR_OF_MEAN|2.36||0.5|TWO_SIDED|95.0|-6.29|3.11|||t-test, 2 sided|||||3.11|-6.29|.50
92364700|NCT00756275|184631826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.3|TWO_SIDED|95.0|0.58|14.5|||Fisher Exact|||||14.50|.58|.30
92364701|NCT00756275|184631827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.98|STANDARD_ERROR_OF_MEAN|8.38||0.34|TWO_SIDED|95.0|-24.64|8.68|||t-test, 2 sided|||||8.68|-24.64|.34
92364702|NCT00756275|184631828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.39|STANDARD_ERROR_OF_MEAN|8.1||0.36|TWO_SIDED|95.0|-8.73|23.52|||t-test, 2 sided|||||23.52|-8.73|.36
92364703|NCT00756275|184631829|SUPERIORITY_OR_OTHER|||||||0.57|||||||Chi-squared|||||||.57
92364704|NCT00756275|184631830|SUPERIORITY_OR_OTHER|||||||0.31|||||||Chi-squared|||||||.31
92364705|NCT00756275|184631831|SUPERIORITY_OR_OTHER|||||||0.72|||||||Chi-squared|||||||.72
92364706|NCT00756275|184631832|SUPERIORITY_OR_OTHER|||||||0.18|||||||Chi-squared|||||||.18
92364707|NCT00756275|184631833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|1.72||0.75|TWO_SIDED|95.0|-3.98|2.87|||t-test, 2 sided|||||2.87|-3.98|.75
92369494|NCT00281099|184643813|SUPERIORITY_OR_OTHER|||||||0.8984||95.0||||The one-sided Wilcoxon Rank Sum test yielded a p-value greater than 0.05, which was the a priori threshold for significance.|Wilcoxon (Mann-Whitney)|Alternative hypothesis:patients with MVP \& no pacing indication have less mean ventricular pacing through 12 months than similar patients with VVI 40.||All subjects from the analysis cohort with available data for the time period of interest were included in the corresponding analysis. The null hypothesis was that the average percent ventricular pacing through 12 months post-implant for patients with MVP programming was greater than or equal to that of patients with VVI 40 programming.||||0.8984
92224648|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|134.06|||||TWO_SIDED|90.0|101.07|177.82||||||Naloxone-3-β-D-Glucuronide||177.82|101.07|
92224649|NCT01846455|184351009|SUPERIORITY_OR_OTHER||ratio of parameter means, %|99.02|||||TWO_SIDED|90.0|73.93|132.61||||||Naloxone-3-β-D-Glucuronide||132.61|73.93|
92224650|NCT01449708|184351017|SUPERIORITY_OR_OTHER||Relative Risk|1.27||||0.04|TWO_SIDED|95.0|1.01|1.61|||Chi-squared|||||1.61|1.01|0.04
92224651|NCT01449708|184351019|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.04||||0.009|TWO_SIDED|95.0|1.28|7.29|||Chi-squared|||Grouping of surgical procedures into three categories, analysis using bonferroni correction, 1) ReY group( gastric bypass, conversion to gastric bypass and revision gastric bypass) 2) Gastric Band (GB), 3) sleeve gastrectomy (SG)||7.29|1.28|0.009
92224652|NCT02889796|184351020|SUPERIORITY||Difference in Response Rates|26.7|||<|0.001|TWO_SIDED|95.0|20.6|32.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||32.8|20.6|<0.001
92364708|NCT00980148|184631834|NON_INFERIORITY_OR_EQUIVALENCE|This noninferiority study tested the null hypothesis that the failure rate of azithromycin is 5% higher than that of doxycycline against the alternative hypothesis that there is no difference between the two treatments. The treatment failure rate was assumed to be 3% for both treatments. To test this hypothesis at the one-sided 0.10 significance level with power of 0.90 required 153 study subjects per arm in the per-protocol population.|Risk Difference (RD)|3.2|||||ONE_SIDED|90.0||5.9|||||The risk difference is the percentage in the azithromycin arm with treatment failure minus the percentage in the doxycycline arm with treatment failure. Noninferiority of azithromycin would be supported if the upper 90% confidence limit is below 5%.|This noninferiority study tested the null hypothesis that the failure rate of azithromycin is 5% higher than that of doxycycline against the alternative hypothesis that there is no difference between the two treatments. The one-sided 90% exact confidence interval was used to estimate the difference between the two failures rates.||5.9||
92364709|NCT02852967|184631838|SUPERIORITY|||||||0.6384|||||||Fisher Exact|||LOCF at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 200 mg QD + placebo (n = 23) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 18) who achieved PASI 75.||||0.6384
92364710|NCT02852967|184631838|SUPERIORITY|||||||0.6419|||||||Fisher Exact|||LOCF at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 200 mg BID + placebo (n = 22) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 18) who achieved PASI 75.||||0.6419
92364711|NCT02852967|184631838|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||LOCF at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 400 mg QD + placebo (n = 21) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 18) who achieved PASI 75.||||> 0.9999
92364712|NCT02852967|184631838|SUPERIORITY|||||||0.3859|||||||Fisher Exact|||LOCF at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 600 mg (n = 26) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 18) who achieved PASI 75.||||0.3859
92364713|NCT02852967|184631838|SUPERIORITY|||||||0.4435|||||||Fisher Exact|||LOCF at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of all subjects treated with belumosudil (n = 92) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 18) who achieved PASI 75||||0.4435
92404181|NCT05462756|184699611|SUPERIORITY||Relative rate|0.67||||0.058|TWO_SIDED|95.0|0.44|1.01|||Negative binomial model||Relative rate is the ratio of the group means (Insulin Efsitora vs Insulin Glargine).|Group mean is determined by Negative Binomial Model using Number of episodes = Baseline hypoglycemia rate + Hemoglobin A1c at Baseline (%) + Treatment, with log (exposure in days/365.25) as an offset variable.||1.01|0.44|0.058
92404182|NCT05462756|184699612|SUPERIORITY||LS Mean Difference|-4.29||||0.104|TWO_SIDED|95.0|-9.461|0.886|||ANCOVA|||LS Mean was determined using ANCOVA model using Baseline + Country + Personal Use of CGM or FGM at Randomization + Hemoglobin A1c Stratum at Baseline + Treatment (Type III sum of squares) as variables. Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed with one for each of the 100 datasets imputed at Baseline.||0.886|-9.461|0.104
92224653|NCT02889796|184351020|SUPERIORITY||Difference in Response Rates|19.9|||<|0.001|TWO_SIDED|95.0|13.6|26.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||26.2|13.6|<0.001
92364714|NCT02852967|184631838|SUPERIORITY|||||||0.2721|||||||Fisher Exact|||Observed at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 200 mg QD + placebo (n = 14) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 10) who achieved PASI 75.||||0.2721
92364715|NCT02852967|184631838|SUPERIORITY|||||||0.3577|||||||Fisher Exact|||Observed at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 200 mg BID+ Placebo (n = 15) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 10) who achieved PASI 75.||||0.3577
92224654|NCT02889796|184351021|SUPERIORITY||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.034|<|0.001|TWO_SIDED|95.0|-0.36|-0.22||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|Mixed effects model for repeated measure|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from mixed effects model for repeated measures (MMRM). Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.22|-0.36|<0.001
92276861|NCT00591253|184455301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.86||||0.014|TWO_SIDED|95.0|-8.72|-1.01||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.01|-8.72|0.014
92364716|NCT02852967|184631838|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||Observed at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 500 mg QD + Placebo (n = 17) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 10) who achieved PASI 75.||||> 0.9999
92224655|NCT02889796|184351021|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.034|<|0.001|TWO_SIDED|95.0|-0.24|-0.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.10|-0.24|<0.001
92224656|NCT02889796|184351022|SUPERIORITY||Difference in Response Rates|24.8|||<|0.001|TWO_SIDED|95.0|19.6|30.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12.||30.0|19.6|<0.001
92224657|NCT02889796|184351022|SUPERIORITY||Difference in Response Rates|14.5|||<|0.001|TWO_SIDED|95.0|9.7|19.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12.||19.3|9.7|<0.001
92364717|NCT02852967|184631838|SUPERIORITY|||||||0.3402|||||||Fisher Exact|||Observed at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 600 mg/day (n = 16) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 10) who achieved PASI 75.||||0.3402
92224658|NCT02889796|184351022|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) \< 2.6 using non-responder imputation (NRI).|||||<|0.001||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 200 mg vs Adalimumab at Week 12.||||<0.001
92224659|NCT02889796|184351022|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) \< 2.6 using NRI.||||||0.002||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 100 mg vs Adalimumab at Week 12.||||0.002
92224660|NCT02889796|184351022|SUPERIORITY||Difference in Response Rates|10.4||||0.001|TWO_SIDED|95.0|3.9|17.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Adalimumab at Week 12.||17.0|3.9|0.001
92224661|NCT02889796|184351022|SUPERIORITY||Difference in Response Rates|0.1||||0.99|TWO_SIDED|95.0|-6.2|6.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Adalimumab at Week 12.||6.3|-6.2|0.99
92224662|NCT02889796|184351023|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.078|<|0.001|TWO_SIDED|95.0|-0.43|-0.12||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.12|-0.43|<0.001
92224663|NCT02889796|184351023|SUPERIORITY||Least Squares Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.078||0.001|TWO_SIDED|95.0|-0.4|-0.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.10|-0.40|0.001
92224664|NCT02889796|184351024|SUPERIORITY||Difference in Response Rates|26.3|||<|0.001|TWO_SIDED|95.0|20.2|32.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||32.4|20.2|<0.001
92224665|NCT02889796|184351024|SUPERIORITY||Difference in Response Rates|15.4|||<|0.001|TWO_SIDED|95.0|9.4|21.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||21.4|9.4|<0.001
92224666|NCT02889796|184351024|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) ≤ 3.2 using NRI.|||||<|0.001||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 200 mg vs Adalimumab at Week 12||||<0.001
92224667|NCT02889796|184351024|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) ≤ 3.2 using NRI.||||||0.054||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 100 mg vs Adalimumab at Week 12||||0.054
92224668|NCT02889796|184351024|SUPERIORITY||Difference in Response Rates|6.3||||0.069|TWO_SIDED|95.0|-1.0|13.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Adalimumab at Week 12||13.6|-1.0|0.069
92224669|NCT02889796|184351024|SUPERIORITY||Difference in Response Rates|-4.6||||0.18|TWO_SIDED|95.0|-11.8|2.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Adalimumab at Week 12||2.6|-11.8|0.18
92224670|NCT02889796|184351025|SUPERIORITY||Least Squares Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|2.8|4.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.6|2.8|<0.001
92364718|NCT02852967|184631838|SUPERIORITY|||||||0.3542|||||||Fisher Exact|||Observed at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of all subjects treated with belumosudil 200 mg QD + Placebo (n = 62) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 10) who achieved PASI 75.||||0.3542
92364719|NCT02852967|184631842|SUPERIORITY|||||||0.5728|||||||Fisher Exact|||Percentage of subjects treated with belumosudil compared to placebo who had a PGA rating of clear or almost clear||||0.5728
92166597|NCT01780298|184223090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5296.856||||0.1154|TWO_SIDED|95.0|-11930.19|1336.478|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||1336.478|-11930.190|0.1154
92364720|NCT02852967|184631842|SUPERIORITY|||||||0.1962|||||||Fisher Exact|||Percentage of subjects treated with belumosudil compared to placebo who had a PGA rating of clear or almost clear||||0.1962
92364721|NCT02852967|184631842|SUPERIORITY|Percentage of subjects treated with belumosudil compared to placebo who had a PGA rating of clear or almost clear|||||>|0.9999|||||||Fisher Exact|||||||> 0.9999
92364722|NCT02852967|184631842|SUPERIORITY|||||||0.5583|||||||Fisher Exact|||Percentage of subjects treated with belumosudil compared to placebo who had a PGA rating of clear or almost clear||||0.5583
92364723|NCT02852967|184631842|SUPERIORITY|||||||0.2538|||||||Fisher Exact|||Percentage of subjects treated with belumosudil compared to placebo who had a PGA rating of clear or almost clear||||0.2538
92166598|NCT01780298|184223090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-79.458||||0.8095|TWO_SIDED|95.0|-736.151|577.234|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||577.234|-736.151|0.8095
92166599|NCT01780298|184223090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5376.314||||0.1113|TWO_SIDED|95.0|-12030.714|1278.085|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||1278.085|-12030.714|0.1113
92166600|NCT01780298|184223091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.015|||<|0.0001|TWO_SIDED|95.0|4.51|7.521|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||7.521|4.510|<0.0001
92364724|NCT00339040|184631851|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Fisher Exact|||||||1.00
92364725|NCT00887159|184631870|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98||||0.45|TWO_SIDED|95.0|0.65|1.47||P-value is one-sided.|Regression, Cox||The hazard ratio was derived comparing Arm B to Arm A.|There are 2 primary comparisons and each involves comparing the experimental arms (B, C) to the control arm (A). Accrual goal was 54 patients per arm. With a 1-sided 0.1 level logrank test for each test, we have 90% power to detect a 42% reduction in the PFS hazard rate of 0.139 to 0.082 (corresponding to an improvement in median PFS of 5 months to 8.5 months) with 18-month accrual and 12-month follow-up; assuming exponential survival. For each test, 94 events are needed to achieve this power.||1.47|0.65|0.45
92166601|NCT01780298|184223091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.845|||<|0.0001|TWO_SIDED|95.0|3.379|6.31|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||6.310|3.379|<0.0001
92166602|NCT01780298|184223091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.454|||<|0.0001|TWO_SIDED|95.0|1.923|4.984|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||4.984|1.923|<0.0001
92364726|NCT00887159|184631870|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.48|TWO_SIDED|95.0|0.66|1.48||P-value is one-sided.|Regression, Cox||Hazard ratio was derived comparing Arm C to Arm A.|There are 2 primary comparisons and each involves comparing the experimental arms (B, C) to the control arm (A). Accrual goal was 54 patients per arm. With a 1-sided 0.1 level logrank test for each test, we have 90% power to detect a 42% reduction in the PFS hazard rate of 0.139 to 0.082 (corresponding to an improvement in median PFS of 5 months to 8.5 months) with 18-month accrual and 12-month follow-up; assuming exponential survival. For each test, 94 events are needed to achieve this power.||1.48|0.66|0.48
92166603|NCT01780298|184223091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.171||||0.0418|TWO_SIDED|95.0|0.045|2.296|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||2.296|0.045|0.0418
92166604|NCT01780298|184223091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.391||||0.0357|TWO_SIDED|95.0|0.096|2.686|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||2.686|0.096|0.0357
92166605|NCT01780298|184223091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.562||||0.0001|TWO_SIDED|95.0|1.303|3.82|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||3.820|1.303|0.0001
92166606|NCT01780298|184223092|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|39.633|||<|0.0001|TWO_SIDED|95.0|33.964|45.302|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||45.302|33.964|<0.0001
92166607|NCT01780298|184223092|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|35.792|||<|0.0001|TWO_SIDED|95.0|29.761|41.822|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||41.822|29.761|<0.0001
92166608|NCT01780298|184223092|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.167|||<|0.0001|TWO_SIDED|95.0|23.445|34.888|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||34.888|23.445|<0.0001
92166609|NCT01780298|184223092|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.842||||0.0418|TWO_SIDED|95.0|0.147|7.536|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||7.536|0.147|0.0418
92364727|NCT00887159|184631873|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.69||||0.01|TWO_SIDED|95.0|1.13|2.52|||Regression, Cox||Hazard ratio was derived comparing the high CTCs group to the low CTCs group.|||2.52|1.13|0.01
92404183|NCT05462756|184699613|SUPERIORITY||LS Mean Difference|1.35||||0.337|TWO_SIDED|95.0|-1.404|4.101|||ANCOVA|||LS Mean was determined using ANCOVA model using Baseline + Country + Personal Use of CGM or FGM at Randomization + Hemoglobin A1c Stratum at Baseline + Treatment (Type III sum of squares) as variables. Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at Week 22-Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed with one for each of the 100 datasets imputed at Baseline.||4.101|-1.404|0.337
92166610|NCT01780298|184223092|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.625||||0.0084|TWO_SIDED|95.0|1.763|11.487|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||11.487|1.763|0.0084
92166611|NCT01780298|184223092|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.467|||<|0.0001|TWO_SIDED|95.0|5.888|15.045|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||15.045|5.888|<0.0001
92166612|NCT01780298|184223093|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.929|||<|0.0001|TWO_SIDED|95.0|0.654|1.203|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||1.203|0.654|<0.0001
92364728|NCT01109108|184631881|OTHER||Risk Ratio (RR)|1.0|||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
92364729|NCT01244035|184631930|OTHER||LS Mean difference|1.1||||0.1325|TWO_SIDED|90.0|-0.54|2.74|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||2.74|-0.54|0.1325
92364730|NCT01244035|184631930|OTHER||LS Mean difference|4.16|||<|0.001|TWO_SIDED|90.0|2.53|5.79|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||5.79|2.53|<0.001
92364731|NCT01244035|184631930|OTHER||LS Mean difference|-3.06||||0.0016|TWO_SIDED|90.0|-4.7|-1.42|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||-1.42|-4.70|0.0016
92364732|NCT01244035|184631931|OTHER||LS Mean difference|-2.94||||0.0212|TWO_SIDED|90.0|-5.3|-0.57|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||-0.57|-5.30|0.0212
92364733|NCT01244035|184631931|OTHER||LS Mean difference|-2.76||||0.0299|TWO_SIDED|90.0|-5.16|-0.36|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||-0.36|-5.16|0.0299
92364734|NCT01244035|184631931|OTHER||LS Mean difference|-0.18||||0.4506|TWO_SIDED|90.0|-2.54|2.19|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||2.19|-2.54|0.4506
92364735|NCT00570323|184631946|SUPERIORITY|||||||0.6202|||||||t-test, 2 sided|||||||0.6202
92364736|NCT03856359|184631950|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.60
92364737|NCT03856359|184631952|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
92364738|NCT03856359|184631954|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||0.73
92364739|NCT03856359|184631956|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
92364740|NCT03856359|184631957|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
92364741|NCT03856359|184631958|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92364742|NCT03856359|184631959|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92364743|NCT03856359|184631960|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
92364744|NCT03856359|184631961|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92364745|NCT03856359|184631962|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||||||0.65
92364746|NCT03856359|184631963|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||||||0.18
92364747|NCT03856359|184631964|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||||||0.44
92364748|NCT03856359|184631965|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.20
92364749|NCT03856359|184631966|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
92364750|NCT03856359|184631967|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
92364751|NCT03856359|184631968|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
92364752|NCT02347605|184631977|SUPERIORITY|||||||0.25||||||Adjusted for treatment order, session, room sequence|Mixed Models Analysis|||||||0.25
92364753|NCT02347605|184631978|SUPERIORITY|||||||0.18||||||Adjusted for treatment order, session, room sequence|Mixed Models Analysis|||||||0.18
92364754|NCT03937479|184632069|SUPERIORITY||LS mean difference|0.1242|STANDARD_ERROR_OF_MEAN|0.03691||0.0008|TWO_SIDED|95.0|0.0517|0.1968||The mixed model for repeated measures (MMRM) model was used to model the change from baseline FEV1 to peak FEV1 using treatment, visit and treatment by visit interaction as fixed effect, patient as random effect and baseline FEV1 as the covariate.|MMRM||Estimates refer to the Week 4 from treatment by visit interaction.|Comparison was done using a closed testing procedure; testing began at the highest dose of RPL554 compared with placebo. If found statistically significant then the next highest dose was compared with placebo. This continued until a result was found to be non-significant or all RPL554 doses were compared with placebo.||0.1968|0.0517|0.0008
92364755|NCT03937479|184632069|SUPERIORITY||LS mean difference|0.1072|STANDARD_ERROR_OF_MEAN|0.03703||0.004|TWO_SIDED|95.0|0.0344|0.18||The MMRM model was used to model the change from baseline FEV1 to peak FEV1 using treatment, visit and treatment by visit interaction as fixed effect, patient as random effect and baseline FEV1 as the covariate.|MMRM||Estimates refer to the Week 4 from treatment by visit interaction.|Comparison was done using a closed testing procedure; testing began at the highest dose of RPL554 compared with placebo. If found statistically significant then the next highest dose was compared with placebo. This continued until a result was found to be non-significant or all RPL554 doses were compared with placebo.||0.1800|0.0344|0.0040
92364756|NCT03937479|184632069|SUPERIORITY||LS mean difference|0.0912|STANDARD_ERROR_OF_MEAN|0.03723||0.0148|TWO_SIDED|95.0|0.018|0.1643||The MMRM model was used to model the change from baseline FEV1 to peak FEV1 using treatment, visit and treatment by visit interaction as fixed effect, patient as random effect and baseline FEV1 as the covariate.|MMRM||Estimates refer to the Week 4 from treatment by visit interaction.|Comparison was done using a closed testing procedure; testing began at the highest dose of RPL554 compared with placebo. If found statistically significant then the next highest dose was compared with placebo. This continued until a result was found to be non-significant or all RPL554 doses were compared with placebo.||0.1643|0.0180|0.0148
92404184|NCT05462756|184699614|SUPERIORITY||LS Mean Difference|1.59||||0.104|TWO_SIDED|95.0|-0.327|3.508|||ANCOVA|||LS Mean was determined by ANCOVA model using Baseline + Country + Personal Use of CGM or FGM at Randomization + Hemoglobin A1c Stratum at Baseline + Treatment (Type III sum of squares) as variables. Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at Week 22-Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed with one for each of the 100 datasets imputed at Baseline.||3.508|-0.327|0.104
92404185|NCT05462756|184699615|SUPERIORITY||LS Mean Difference|-1.5||||0.304|TWO_SIDED|95.0|-4.358|1.36|||ANCOVA|||LS Mean was determined by ANCOVA model using Baseline + Country + Personal Use of CGM or FGM at Randomization + Hemoglobin A1c Stratum at Baseline + Treatment (Type III sum of squares). Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at Week 22-Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed with one for each of the 100 datasets imputed at Baseline.||1.360|-4.358|0.304
92224671|NCT02889796|184351025|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|2.2|4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.0|2.2|<0.001
92364757|NCT03937479|184632069|SUPERIORITY||LS mean difference|0.0775|STANDARD_ERROR_OF_MEAN|0.03697||0.0368|TWO_SIDED|95.0|0.0048|0.1501||The MMRM model was used to model the change from baseline FEV1 to peak FEV1 using treatment, visit and treatment by visit interaction as fixed effect, patient as random effect and baseline FEV1 as the covariate.|MMRM||Estimates refer to the Week 4 from treatment by visit interaction.|Comparison was done using a closed testing procedure; testing began at the highest dose of RPL554 compared with placebo. If found statistically significant then the next highest dose was compared with placebo. This continued until a result was found to be non-significant or all RPL554 doses were compared with placebo.||0.1501|0.0048|0.0368
92364758|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|2.11||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR4521||||0.010
92364759|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|0.56||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR107||||0.010
92364760|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|2.57||||0.018|TWO_SIDED||||||t-test, 2 sided|||miR-891a||||0.018
92364761|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|0.88||||0.021|TWO_SIDED||||||t-test, 2 sided|||miR363||||0.021
92364762|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|-1.0||||0.028|TWO_SIDED||||||t-test, 2 sided|||miR1248||||0.028
92364763|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|-0.85||||0.033|TWO_SIDED||||||t-test, 2 sided|||miR944||||0.033
92364764|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|2.13||||0.034|TWO_SIDED||||||t-test, 2 sided|||miR6806||||0.034
92276862|NCT00591253|184455301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.71|||<|0.001|TWO_SIDED|95.0|-12.5|-4.92||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.92|-12.50|<0.001
92364765|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|0.39||||0.036|TWO_SIDED||||||t-test, 2 sided|||miR103a||||0.036
92364766|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|1.69||||0.037|TWO_SIDED||||||t-test, 2 sided|||miR454||||0.037
92364767|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|-1.13||||0.041|TWO_SIDED||||||t-test, 2 sided|||miR320e||||0.041
92364768|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|-0.55||||0.043|TWO_SIDED||||||t-test, 2 sided|||miR181a||||0.043
92364769|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|1.95||||0.044|TWO_SIDED||||||t-test, 2 sided|||miR130b||||0.044
92364770|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|-2.18||||0.044|TWO_SIDED||||||t-test, 2 sided|||miR365a||||0.044
92364771|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|2.06||||0.047|TWO_SIDED||||||t-test, 2 sided|||miR135b||||0.047
92364772|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|-2.35||||0.048|TWO_SIDED||||||t-test, 2 sided|||miR1273h||||0.048
92364773|NCT02230189|184632098|SUPERIORITY||Mean Difference (Net)|-1.31||||0.048|TWO_SIDED||||||t-test, 2 sided|||miR3177||||0.048
92364774|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-1.83||||0|TWO_SIDED||||||t-test, 2 sided|||miR6510||||0.0
92364775|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-2.09||||0|TWO_SIDED||||||t-test, 2 sided|||miR3605||||0
92364776|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-5.75||||0|TWO_SIDED||||||t-test, 2 sided|||miR3912||||0
92364777|NCT02230189|184632099|SUPERIORITY||Median Difference (Net)|1.93||||0|TWO_SIDED||||||t-test, 2 sided|||miR15b||||0
92364778|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-2.35||||0|TWO_SIDED||||||t-test, 2 sided|||miR127||||0
92364779|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|1.59||||0|TWO_SIDED||||||t-test, 2 sided|||miR146a||||0
92364780|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|1.21||||0|TWO_SIDED||||||t-test, 2 sided|||miR449b||||0
92364781|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|0.85||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR21-5p||||0.01
92364782|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-1.29||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR6842||||0.01
92364783|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|1.24||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR142-5p||||0.01
92364784|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|1.67||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR21||||0.01
92364785|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-4.24||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR493||||0.01
92364786|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-1.46||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR193a||||0.01
92364787|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-0.89||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR149||||0.01
92364788|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|1.06||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR449a||||0.01
92364789|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-2.1||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR6511a||||0.01
92364790|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-1.59||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR6843||||0.01
92364791|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-0.95||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR671||||0.01
92166613|NCT01780298|184223093|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.875|||<|0.0001|TWO_SIDED|95.0|0.609|1.141|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||1.141|0.609|<0.0001
92166614|NCT01780298|184223093|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.649|||<|0.0001|TWO_SIDED|95.0|0.386|0.912|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||0.912|0.386|<0.0001
92364792|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-4.65||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR6503||||0.02
92364793|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|2.84||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR450b||||0.02
92364794|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-4.92||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR485||||0.02
92364795|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-2.49||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR6806||||0.02
92364796|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|2.18||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR3182||||0.02
92364797|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|1.28||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR142-3p||||0.02
92364798|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-1.23||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR320d||||0.02
92364799|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|2.73||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR3928||||0.02
92364800|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|4.59||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR744||||0.02
92364801|NCT02230189|184632099|SUPERIORITY||Median Difference (Net)|3.42||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR206||||0.02
92166615|NCT01780298|184223093|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.069||||0.3985|TWO_SIDED|95.0|-0.093|0.231|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||0.231|-0.093|0.3985
92364802|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|0.9||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR30e||||0.03
92364803|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|1.52||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR4500||||0.03
92364804|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-0.98||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR125a||||0.03
92166616|NCT01780298|184223093|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22||||0.0267|TWO_SIDED|95.0|0.026|0.414|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||0.414|0.026|0.0267
92364805|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-0.6||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR99b||||0.03
92364806|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|2.67||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR1||||0.03
92364807|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-0.77||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR146b||||0.03
92364808|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-3.17||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR1255a||||0.03
92364809|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|1.02||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR223||||0.03
92364810|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-0.78||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR642a||||0.03
92364811|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|2.17||||0.4|TWO_SIDED||||||t-test, 2 sided|||miR548ae||||0.4
92364812|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-0.79||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR146b||||0.04
92364813|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-2.52||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR877||||0.04
92364814|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-0.69||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR181a||||0.04
92364815|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-3.4||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR4467||||0.04
92364816|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-2.48||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR1249||||0.04
92364817|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|3.87||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR766||||0.04
92364818|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|1.07||||0.048|TWO_SIDED||||||t-test, 2 sided|||miR29c||||0.048
92166617|NCT01780298|184223093|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.305||||0.0036|TWO_SIDED|95.0|0.104|0.506|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||0.506|0.104|0.0036
92364819|NCT02230189|184632099|SUPERIORITY||Mean Difference (Net)|-1.75||||-1.75|TWO_SIDED||||||t-test, 2 sided|||miR370||||-1.75
92364820|NCT02031302|184632133|OTHER|One-sided Clopper-Pearson 98.699% upper bound|||||<|0.0001||||||The proportion of patients who experience an event through 30 days post-procedure out of the patients who have either had an event within 30 days post-procedure or who were event-free with last follow-up at least 23 days post-procedure.|Chi-squared|||Note: the 95% CI is from Clopper-Pearson Exact Method. The analysis was only done for the Lotus valve arm as the Lotus with Depth Guard arm has not sufficient power for this statistical analysis.|One-sided Clopper-Pearson 98.699% upper bound: 4.11% Performance goal is 14%|||<.0001
92364821|NCT01847443|184632141|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was to be established between the test and reference treatment if the 90% CI of ratio of geometric means (Test/Reference) was included within the bioequivalence limits of (0.80, 1.25)|Ratio of Geometric means|1.107|||||TWO_SIDED|90.0|1.07|1.147|||ANOVA|||Null hypothesis stated that there was no difference between the test and reference gums in AUC(0-t)||1.147|1.070|
92364822|NCT01847443|184632146|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was to be established between the test and reference treatment if the 90% CI of ratio of geometric means (Test/Reference) was included within the bioequivalence limits of (0.80, 1.25)|Ratio of Geometric means|1.098|||||TWO_SIDED|90.0|1.061|1.137|||ANOVA|||Null hypothesis stated that there was no difference between the test and reference gums in AUC(0-t)||1.137|1.061|
92364823|NCT01847443|184632147|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was to be established between the test and reference treatment if the 90% CI of ratio of geometric means (Test/Reference) was included within the bioequivalence limits of (0.80, 1.25)|Ratio of Geometric means|1.044|||||TWO_SIDED|90.0|1.002|1.089|||ANOVA|||Null hypothesis stated that there was no difference between the test and reference gums in Cmax||1.089|1.002|
92364824|NCT01847443|184632148|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was to be established between the test and reference treatment if the 90% CI of ratio of geometric means (Test/Reference) was included within the bioequivalence limits of (0.80, 1.25)|Ratio of Geometric means|1.071|||||TWO_SIDED|90.0|1.028|1.116|||ANOVA|||Null hypothesis stated that there was no difference between the test and reference gums in Cmax||1.116|1.028|
92364825|NCT04067492|184632149|OTHER|"The study was planned to randomize 85 patients: 15 patients in the RPH-104 4 mg group, and 14 patients in the RPH-104 20 mg, 40 mg, 80 mg and 160 mg groups each, a total of 14 patients in the Voltaren® (diclofenac) group.~The sample size was calculated assuming a standard deviation of 26 mm for change in pain intensity at 72 hours."|Mean Difference (Final Values)|28.63||||0.1331|TWO_SIDED|95.0|4.21|53.05||p-value, group|ANCOVA||Adjusted mean difference. Comparison with the control group \[RPH-104 - Diclofenac\].|It was assumed that the sample size would allow constructing a 95% CI around the mean change in pain intensity at 72 hours after the start of the investigational product use in each group with an accuracy of 30 mm change in pain intensity and would reveal statistically significant differences between the groups in pairwise comparisons, without control for type I error for multiple comparisons, taking into account the type I error α = 5%, if the difference between the compared groups is ≥ 20 mm.||53.05|4.21|0.1331
92404186|NCT05462756|184699616|SUPERIORITY||LS Mean Difference|0.23||||0.523|TWO_SIDED|95.0|-0.48|0.95|||Mixed Models Analysis|||LS Mean was determined by MMRM model with BASELINE + Hemoglobin A1c Stratum at Baseline + Country + Personal Use CGM or FGM at Randomization + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables. Unstructured variance-covariance structure was used.||0.95|-0.48|0.523
92364826|NCT04067492|184632149|OTHER|"The study was planned to randomize 85 patients: 15 patients in the RPH-104 4 mg group, and 14 patients in the RPH-104 20 mg, 40 mg, 80 mg and 160 mg groups each, a total of 14 patients in the Voltaren® (diclofenac) group.~The sample size was calculated assuming a standard deviation of 26 mm for change in pain intensity at 72 hours."|Mean Difference (Final Values)|-2.05||||0.1331|TWO_SIDED|95.0|-30.6|26.5||p-value, group|ANCOVA||Adjusted mean difference. Comparison with the control group \[RPH-104 - Diclofenac\].|It was assumed that the sample size would allow constructing a 95% CI around the mean change in pain intensity at 72 hours after the start of the investigational product use in each group with an accuracy of 30 mm change in pain intensity and would reveal statistically significant differences between the groups in pairwise comparisons, without control for type I error for multiple comparisons, taking into account the type I error α = 5%, if the difference between the compared groups is ≥ 20 mm.||26.50|-30.60|0.1331
92404187|NCT05462756|184699617|SUPERIORITY||LS Mean Difference|-35.04|||<|0.001|TWO_SIDED|95.0|-55.57|-14.5|||Mixed Models Analysis|||LS Mean was determined by Mixed Model Repeated Measures (MMRM) model using BASELINE + Hemoglobin A1c Stratum at Baseline + Country + Personal Use CGM or FGM at Randomization + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables. Variance-covariance structure was set as compound symmetry.||-14.50|-55.57|<0.001
92404188|NCT05462756|184699618|SUPERIORITY||LS Mean Difference|-7.55|||<|0.001|TWO_SIDED|95.0|-10.79|-4.3|||Mixed Models Analysis|||LS Mean was determined by MMRM model using BASELINE + Hemoglobin A1c Stratum at Baseline + Country + Personal Use CGM or FGM at Randomization + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables. Variance-covariance structure was set as compound symmetry.||-4.30|-10.79|<0.001
92404189|NCT05462756|184699619|SUPERIORITY||LS Mean Difference|-73.5|||<|0.001|TWO_SIDED|95.0|-107.81|-39.2|||Mixed Models Analysis|||LS Mean was determined by MMRM model using BASELINE + Hemoglobin A1c Stratum at Baseline + Country + Personal Use CGM or FGM at Randomization + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables. Variance-covariance structure was set as compound symmetry.||-39.20|-107.81|<0.001
92404190|NCT05462756|184699620|SUPERIORITY||LS Mean Difference|3.53|||<|0.001|TWO_SIDED|95.0|1.49|5.58|||Mixed Models Analysis|||LS Mean was determined by MMRM model using BASELINE + Hemoglobin A1c Stratum at Baseline + Country + Personal Use CGM or FGM at Randomization + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables. Variance-covariance structure was set as compound symmetry.||5.58|1.49|<0.001
92404191|NCT05462756|184699621|SUPERIORITY||Mean Difference (Net)|1.11||||0.442|TWO_SIDED|95.0|0.85|1.44|||Negative binomial model|||Group mean was reported and determined by Negative binomial method using Baseline hypoglycemia rate + Hemoglobin A1c at Baseline (%) + Treatment, with log (exposure in days/365.25) as variables.||1.44|0.85|0.442
92404192|NCT05462756|184699622|SUPERIORITY||LS Mean Difference|0.14||||0.543|TWO_SIDED|95.0|-0.32|0.6|||Mixed Models Analysis|||LS Mean was determined by MMRM model using BASELINE + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.60|-0.32|0.543
92276863|NCT00591253|184455302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.04||||0.012|TWO_SIDED|95.0|-7.17|-0.91||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.91|-7.17|0.012
92404193|NCT05462756|184699623|SUPERIORITY||LS Mean Difference|1.8||||0.099|TWO_SIDED|95.0|-0.3|4.0|||ANCOVA|||LS Mean was determined by ANCOVA model using Country + Personal Use CGM or FGM at Randomization + Hemoglobin A1c Stratum at Baseline + Treatment (Type III sum of squares) as variables.||4.0|-0.3|0.099
92404194|NCT03591406|184699624|NON_INFERIORITY|Pre-defined non-inferiority margin of -15%|Difference in proportions|1.12|||||TWO_SIDED|95.0|-2.15|4.71|||||2-sided 95% Confidence Interval (CI) was computed using the Wilson score method with continuity correction described by Newcombe.|||4.71|-2.15|
92404195|NCT01389596|184699637|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.092||0.2577|TWO_SIDED|95.0|-0.29|0.08|||ANCOVA|||Linear Model With Log transformed baseline seizure rate as continuous covariate and geographic regions, treatment groups and weight as fixed effects.||0.08|-0.29|0.2577
92404196|NCT01389596|184699637|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.094||0.0185|TWO_SIDED|95.0|-0.41|-0.04|||ANCOVA|||Linear Model With Log transformed baseline seizure rate as continuous covariate and geographic regions, treatment groups and weight as fixed effects.||-0.04|-0.41|0.0185
92364827|NCT04067492|184632149|OTHER|"The study was planned to randomize 85 patients: 15 patients in the RPH-104 4 mg group, and 14 patients in the RPH-104 20 mg, 40 mg, 80 mg and 160 mg groups each, a total of 14 patients in the Voltaren® (diclofenac) group.~The sample size was calculated assuming a standard deviation of 26 mm for change in pain intensity at 72 hours."|Mean Difference (Final Values)|16.7||||0.1331|TWO_SIDED|95.0|-12.67|46.08||p-value, group|ANCOVA||Adjusted mean difference. Comparison with the control group \[RPH-104 - Diclofenac\].|It was assumed that the sample size would allow constructing a 95% CI around the mean change in pain intensity at 72 hours after the start of the investigational product use in each group with an accuracy of 30 mm change in pain intensity and would reveal statistically significant differences between the groups in pairwise comparisons, without control for type I error for multiple comparisons, taking into account the type I error α = 5%, if the difference between the compared groups is ≥ 20 mm.||46.08|-12.67|0.1331
92364828|NCT04067492|184632149|OTHER|"The study was planned to randomize 85 patients: 15 patients in the RPH-104 4 mg group, and 14 patients in the RPH-104 20 mg, 40 mg, 80 mg and 160 mg groups each, a total of 14 patients in the Voltaren® (diclofenac) group.~The sample size was calculated assuming a standard deviation of 26 mm for change in pain intensity at 72 hours."|Mean Difference (Final Values)|3.12||||0.1331|TWO_SIDED|95.0|-25.1|31.33||p-value, group|ANCOVA||Adjusted mean difference. Comparison with the control group \[RPH-104 - Diclofenac\]|It was assumed that the sample size would allow constructing a 95% CI around the mean change in pain intensity at 72 hours after the start of the investigational product use in each group with an accuracy of 30 mm change in pain intensity and would reveal statistically significant differences between the groups in pairwise comparisons, without control for type I error for multiple comparisons, taking into account the type I error α = 5%, if the difference between the compared groups is ≥ 20 mm.||31.33|-25.10|0.1331
92364829|NCT04067492|184632149|OTHER|"The study was planned to randomize 85 patients: 15 patients in the RPH-104 4 mg group, and 14 patients in the RPH-104 20 mg, 40 mg, 80 mg and 160 mg groups each, a total of 14 patients in the Voltaren® (diclofenac) group.~The sample size was calculated assuming a standard deviation of 26 mm for change in pain intensity at 72 hours."|Mean Difference (Final Values)|5.96||||0.1331|TWO_SIDED|95.0|-24.22|36.14||p-value, group|ANCOVA||Adjusted mean difference. Comparison with the control group \[RPH-104 - Diclofenac\].|It was assumed that the sample size would allow constructing a 95% CI around the mean change in pain intensity at 72 hours after the start of the investigational product use in each group with an accuracy of 30 mm change in pain intensity and would reveal statistically significant differences between the groups in pairwise comparisons, without control for type I error for multiple comparisons, taking into account the type I error α = 5%, if the difference between the compared groups is ≥ 20 mm.||36.14|-24.22|0.1331
92364830|NCT04067492|184632156|OTHER|||||||0.5995|||||||Log Rank|||||||0.5995
92364831|NCT04067492|184632156|OTHER|||||||0.9012|||||||Log Rank|||||||0.9012
92364832|NCT04067492|184632158|OTHER||difference in proportions|63.5||||0.0066|TWO_SIDED|95.0|19.9|88.6|||Fisher Exact|||||88.6|19.9|0.0066
92364833|NCT04067492|184632158|OTHER||difference in proportions|-5.6|||>|0.9999|TWO_SIDED|95.0|-50.1|45.5|||Fisher Exact|||||45.5|-50.1|>0.9999
92364834|NCT04067492|184632158|OTHER||difference in proportions|27.8||||0.3287|TWO_SIDED|95.0|-26.8|71.8|||Fisher Exact|||||71.8|-26.8|0.3287
92364835|NCT04067492|184632158|OTHER||difference in proportions|27.8||||0.3287|TWO_SIDED|95.0|-26.8|71.8|||Fisher Exact|||||71.8|-26.8|0.3287
92404197|NCT01389596|184699638|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.036||||0.8024|TWO_SIDED|95.0|0.528|2.03|||Regression, Logistic|||P-values were from a Logistic Regression Model including fixed effects for treatment, weight group, and geographical region.||2.030|0.528|0.8024
92404198|NCT01389596|184699638|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.636||||0.0092|TWO_SIDED|95.0|0.851|3.147|||Regression, Logistic|||P-values were from a Logistic Regression Model including fixed effects for treatment, weight group, and geographical region.||3.147|0.851|0.0092
92404199|NCT01432730|184699669|SUPERIORITY||Log mean difference (Active - Placebo)|-0.6027||||0.0003|TWO_SIDED|95.0|-0.9049|-0.3005|||Mixed Models Analysis|Mixed model included terms for treatment sequence, participant within sequence, treatment \& period. Average \& period baseline covariates included.||||-0.3005|-0.9049|0.0003
92404200|NCT01432730|184699670|SUPERIORITY||Mean Difference (Final Values)|-25.57||||0.003|TWO_SIDED|95.0|-41.53|-9.62|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||-9.62|-41.53|0.003
92404201|NCT01432730|184699671|SUPERIORITY||Log mean difference (Active - Placebo)|-0.4212||||0.057|TWO_SIDED|95.0|-0.8568|0.01438|||Mixed Models Analysis|Mixed model included terms for treatment sequence, participant within sequence, treatment \& period. Average \& period baseline covariates included.||||0.01438|-0.8568|0.057
92224672|NCT02889796|184351026|SUPERIORITY||Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|1.7|3.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.9|1.7|<0.001
92276864|NCT00591253|184455302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.55|||<|0.001|TWO_SIDED|95.0|-10.63|-4.48||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.48|-10.63|<0.001
92364836|NCT04067492|184632158|OTHER||difference in proportions|17.8||||0.5804|TWO_SIDED|95.0|-33.7|67.8|||Fisher Exact|||||67.8|-33.7|0.5804
92364837|NCT00956384|184632182|SUPERIORITY|A minimally clinically important difference of 4 as statistically significant at the 0.05 level (two-sided), with a power equal to 0.85.|Mean Difference (Final Values)|-2.69||||0.05|TWO_SIDED|95.0|-10.57|5.19||Threshold for statistical significance was p= 0.05|t-test, 2 sided|||For the comparison of mean BREAST-Q subdomain score at each timepoint, Mann-Whitney U test was used for skewed data, while independent t-test was used for not skewed data. We investigated the possibly variable effects of the treatment group differences across multiple time-points, namely 2 weeks after mastectomy, at 6 months and at 12 months following the reconstruction procedure. A linear regression model was used to account for the correlation between the three time-points within each patient||5.19|-10.57|0.05
92364838|NCT00956384|184632183|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Regression, Logistic|||We assessed the effect of the surgical method on the occurrences of any complications versus none via logistic regression, and results were expressed as odds ratios with 95% CIs.||||<0.05
92224673|NCT02889796|184351026|SUPERIORITY||Least Squares Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|1.5|3.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.7|1.5|<0.001
92224674|NCT02889796|184351027|SUPERIORITY||Difference in Response Rates|8.0|||<|0.001|TWO_SIDED|95.0|5.1|10.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2||10.9|5.1|<0.001
92224675|NCT02889796|184351027|SUPERIORITY||Difference in Response Rates|4.8|||<|0.001|TWO_SIDED|95.0|2.3|7.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2||7.3|2.3|<0.001
92224676|NCT02889796|184351027|SUPERIORITY||Difference in Response Rates|16.4|||<|0.001|TWO_SIDED|95.0|11.9|20.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||20.9|11.9|<0.001
92224677|NCT02889796|184351027|SUPERIORITY||Difference in Response Rates|7.0|||<|0.001|TWO_SIDED|95.0|3.1|10.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||10.9|3.1|<0.001
92364839|NCT01147302|184632222|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|8.89||||0.6498|TWO_SIDED|95.0|-24.65|42.42||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of C4d score||42.42|-24.65|0.6498
92404202|NCT01432730|184699672|SUPERIORITY||Mean Difference (Final Values)|-8.53||||0.172|TWO_SIDED|95.0|-20.93|3.87|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||3.87|-20.93|0.172
92224678|NCT02889796|184351027|SUPERIORITY||Difference in Response Rates|27.4|||<|0.001|TWO_SIDED|95.0|21.4|33.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||33.3|21.4|<0.001
92224679|NCT02889796|184351027|SUPERIORITY||Difference in Response Rates|16.7|||<|0.001|TWO_SIDED|95.0|10.9|22.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||22.5|10.9|<0.001
92224680|NCT02889796|184351027|SUPERIORITY||Difference in Response Rates|24.6|||<|0.001|TWO_SIDED|95.0|18.3|31.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||31.0|18.3|<0.001
92224681|NCT02889796|184351027|SUPERIORITY||Difference in Response Rates|19.4|||<|0.001|TWO_SIDED|95.0|13.1|25.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||25.8|13.1|<0.001
92224682|NCT02889796|184351029|SUPERIORITY||Difference in Response Rates|2.3||||0.008|TWO_SIDED|95.0|0.5|4.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2||4.1|0.5|0.008
92224683|NCT02889796|184351029|SUPERIORITY||Difference in Response Rates|0.8||||0.18|TWO_SIDED|95.0|-0.5|2.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2||2.2|-0.5|0.18
92224684|NCT02889796|184351029|SUPERIORITY||Difference in Response Rates|7.6|||<|0.001|TWO_SIDED|95.0|4.6|10.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||10.6|4.6|<0.001
92224685|NCT02889796|184351029|SUPERIORITY||Difference in Response Rates|1.9||||0.067|TWO_SIDED|95.0|-0.3|4.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||4.0|-0.3|0.067
92364840|NCT01147302|184632222|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|18.56||||0.0768|TWO_SIDED|95.0|1.43|35.68||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of margination score||35.68|1.43|0.0768
92364841|NCT01147302|184632222|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-4.0||||0.6928|TWO_SIDED|95.0|-21.36|13.36||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of glomerulitis score||13.36|-21.36|0.6928
92364842|NCT01147302|184632222|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|7.11||||0.0508|TWO_SIDED|95.0|1.23|12.99||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of vasculitis score||12.99|1.23|0.0508
92364843|NCT01147302|184632222|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-4.89||||0.2042|TWO_SIDED|95.0|-11.34|1.56||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of glomerulosclerosis score||1.56|-11.34|0.2042
92364844|NCT01147302|184632222|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-0.22||||0.3322|TWO_SIDED|95.0|-0.61|0.17||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of chronic glomerulopathy score||0.17|-0.61|0.3322
92364845|NCT01147302|184632222|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|5.67||||0.4723|TWO_SIDED|95.0|-7.77|9.11||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of interstitial fibrosis score||9.11|-7.77|0.4723
92364846|NCT01147302|184632222|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|4.56||||0.5103|TWO_SIDED|95.0|-7.25|16.37||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of chronic vasculitis score||16.37|-7.25|0.5103
92224686|NCT02889796|184351029|SUPERIORITY||Difference in Response Rates|19.4|||<|0.001|TWO_SIDED|95.0|14.6|24.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||24.1|14.6|<0.001
92364847|NCT01147302|184632223|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|0.08||||0.7591|TWO_SIDED|95.0|-0.35|0.51||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 20||0.51|-0.35|0.7591
92364848|NCT01147302|184632223|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-0.01||||0.9533|TWO_SIDED|95.0|-0.44|0.41||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 90||0.41|-0.44|0.9533
92364849|NCT01147302|184632224|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|1.45||||0.9046|TWO_SIDED|95.0|-19.34|22.24||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 20||22.24|-19.34|0.9046
92364850|NCT01147302|184632224|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|4.68||||0.5895|TWO_SIDED|95.0|-10.19|19.55||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 90||19.55|-10.19|0.5895
92364851|NCT01147302|184632225|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|1.56||||0.4558|TWO_SIDED|90.0|-2.0|5.11||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 1 through Day 20||5.11|-2.00|0.4558
92364852|NCT01147302|184632225|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|0.24||||0.947|TWO_SIDED|90.0|-6.05|6.52||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 1 through Day 90||6.52|-6.05|0.9470
92364853|NCT04021290|184632234|NON_INFERIORITY|Non-inferiority was be concluded if the upper bound of the two-sided 95% confidence interval (CI) for the CMH adjusted difference in the proportion of patients with plasma HIV-1 RNA ≥ 50 c/mL between each treatment group (DTG/3TC - CAR) is less than 5%.|Adjusted Difference in Percent (ADP)|-0.8|||||TWO_SIDED|95.0|-2.4|0.8|||||ADP was based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factor:Baseline third agent (protease inhibitor \[PI\], non-nucleoside reverse transcriptase inhibitor \[NNRTI\], and integrase inhibitor \[INI\]).|||0.8|-2.4|
92364854|NCT04021290|184632235|NON_INFERIORITY|Non-inferiority will be concluded if the lower bound of a 2-sided 95% confidence interval for the difference in success rates between the two treatment arms (DTG/3TC-CAR) is greater than -12%.|Adjusted Difference in Percent|1.6|||||TWO_SIDED|95.0|-2.8|5.9|||||ADP was based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factor:Baseline third agent (PI, NNRTI, and INI).|||5.9|-2.8|
92364855|NCT04021290|184632256|OTHER||Adjusted Mean|1.4|||<|0.001|TWO_SIDED|95.0|0.7|2.2|||Mixed Model Repeated Measures||MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Age (continuous), Sex, Race, Baseline Value (continuous), Treatment by Visit interaction, Baseline Value by Visit interaction, with Visit as the repeated factor.|||2.2|0.7|<0.001
92364856|NCT04021290|184632257|OTHER||Adjusted Mean|1.4|||<|0.001|TWO_SIDED|95.0|0.7|2.2|||Mixed Model Repeated Measures||MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Age (continuous), Sex, Race, Baseline Value (continuous), Treatment by Visit interaction, Baseline Value by Visit interaction, with Visit as the repeated factor.|||2.2|0.7|<0.001
92364857|NCT04021290|184632258|OTHER||Adjusted Mean|-1.6||||0.021|TWO_SIDED|95.0|-2.9|-0.2|||Mixed Model Repeated Measures||MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Age (continuous), Sex, Race, Baseline Value (continuous), Treatment by Visit interaction, Baseline Value by Visit interaction, with Visit as the repeated factor.|||-0.2|-2.9|0.021
92364858|NCT04021290|184632259|OTHER||Adjusted Mean|-0.5||||0.398|TWO_SIDED|95.0|-1.8|0.7|||Mixed Model Repeated Measures||MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Age (continuous), Sex, Race, Baseline Value (continuous), Treatment by Visit interaction, Baseline Value by Visit interaction, with Visit as the repeated factor.|||0.7|-1.8|0.398
92364859|NCT05076045|184632261|SUPERIORITY|||||||0.03||||||This p-value has been adjusted using the Bonferroni correction. The threshold for statistical significance was p = 0.05 (two-sided).|Mixed Models Analysis|Results of the pairwise comparisons for the SNR by Session interaction in the linear mixed model analysis.||Null hypothesis is that there was no difference in percentage of correct answers between PSAPs and Control. Data were analyzed using a linear mixed-effects (LME) model. The model included session (PSAPs, Control) and signal-to-noise ratio (SNR) as within-subject factors. Participants were included as a random factor.||||0.03
92364860|NCT05076045|184632262|SUPERIORITY|||||||0.28||||||The threshold for statistical significance was p = 0.05 (two-sided).|Mixed Models Analysis|||Null hypothesis is that there was no difference in reaction time between PSAPs and Control. Data were analyzed using a linear mixed-effects (LME) model. The model included session (PSAPs, Control) and signal-to-noise ratio as within-subject factors. Participants were included as a random factor.||||0.28
92364861|NCT05076045|184632263|SUPERIORITY|||||||0.005||||||The threshold for statistical significance was p = 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in Quick Speech In Noise score between PSAPs and Control. The performance of the QuickSIN for the two sessions (PSAPs, Control) was compared using the Wilcoxon signed rank test on paired samples.||||0.005
92364862|NCT05076045|184632264|SUPERIORITY|||||||1||||||This p-value has been adjusted using the Bonferroni correction. The threshold for statistical significance was p = 0.05 (two-sided).|Mixed Models Analysis|Result of the pairwise comparisons for the SNR by Session interaction in the linear mixed model analysis.||Null hypothesis is that there was no difference in alpha power between PSAPs and Control. Data were analyzed using a linear mixed-effects (LME) model. The model included session (PSAPs, Control) and signal-to-noise ratio (SNR) as within-subject factors. Participants were included as a random factor.||||1.00
92404203|NCT01432730|184699673|SUPERIORITY||Log mean difference (Active - Placebo)|-0.582||||0.001|TWO_SIDED|95.0|-0.8934|-0.2707|||Mixed Models Analysis|Mixed model included terms for treatment sequence, participant within sequence, treatment \& period. Average \& period baseline covariates included.||||-0.2707|-0.8934|0.001
92404204|NCT01432730|184699674|SUPERIORITY||Mean Difference (Final Values)|-2.538||||0.033|TWO_SIDED|95.0|-4.849|-0.227|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||-0.227|-4.849|0.033
92364863|NCT05076045|184632265|SUPERIORITY|This p-value has been adjusted using the Bonferroni correction. The threshold for statistical significance was p = 0.05 (two-sided).||||||1|||||||Mixed Models Analysis|Result of the pairwise comparisons for the SNR by Session interaction in the linear mixed model analysis.||Null hypothesis is that there was no difference in alpha power between PSAPs and Control. Data were analyzed using a linear mixed-effects (LME) model. The model included session (PSAPs, Control) and signal-to-noise ratio (SNR) as within-subject factors. Participants were included as a random factor.||||1.00
92364864|NCT05076045|184632266|SUPERIORITY|||||||0.36||||||This p-value has been adjusted using the Bonferroni correction. The threshold for statistical significance was p = 0.05 (two-sided).|Mixed Models Analysis|Result of the pairwise comparisons for the SNR by Session interaction in the linear mixed model analysis.||Null hypothesis is that there was no difference in alpha power between PSAPs and Control. Data were analyzed using a linear mixed-effects (LME) model. The model included session (PSAPs, Control) and signal-to-noise ratio (SNR) as within-subject factors. Participants were included as a random factor.||||0.36
92364865|NCT05076045|184632267|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p = 0.05 (two-sided).|Cumulative link mixed model|||Null hypothesis is that there was no difference in listening effort between PSAPs and Control. The listening effort score was analyzed using a cumulative link mixed model. A logit link function with flexible thresholds was used. The model included Session (PSAPs, Control) and Block (1, 2, 3) as within-subject factors. Participants were included as a random factor.||||<0.001
92364866|NCT03391882|184632268|SUPERIORITY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|1.722||0.8944|TWO_SIDED|95.0|-3.16|3.62|||Mixed Models Analysis|||||3.62|-3.16|0.8944
92364867|NCT03391882|184632269|SUPERIORITY||Odds Ratio (OR)|1.129||||0.7777|TWO_SIDED|95.0|0.484|2.637|||generalized linear random effects model|||||2.637|0.484|0.7777
92364868|NCT03391882|184632270|SUPERIORITY|||||||0.0002|TWO_SIDED|||||The p-value is from a 1-sample, 2-sided test of the null hypothesis that the true proportion preferring APL is 50% to evaluate if a significantly higher proportion of the subjects prefer APL-130277 or not.|binomial distribution with normal approx|||||||0.0002
92364869|NCT03391882|184632271|SUPERIORITY||Odds Ratio (OR)|1.835||||0.1769|TWO_SIDED|95.0|0.759|4.438|||generalized linear random effects model|||||4.438|0.759|0.1769
92364870|NCT03391882|184632272|SUPERIORITY||Odds Ratio (OR)|1.47||||0.3922|TWO_SIDED|95.0|0.61|3.53|||generalized linear random effects model|||||3.53|0.61|0.3922
92364871|NCT04683913|184632280|OTHER||||||<|0.001|||||||ANCOVA|alpha=0.05||||||<0.001
92364872|NCT04683913|184632281|OTHER|||||||0.027||||||Week 1\&2 vs Week 3\&4|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.027
92364873|NCT04683913|184632281|OTHER|||||||1||||||Week 3\&4 vs Week 5\&6|t-test, 2 sided|||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||1.0
92364874|NCT04683913|184632281|OTHER|||||||0.078||||||Week 5\&6 vs Follow up|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.078
92364875|NCT04683913|184632281|OTHER|||||||0.015||||||Follow up vs Retention|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.015
92404205|NCT01432730|184699675|SUPERIORITY||Median Difference (Final Values)|-2.267||||0.049|TWO_SIDED|95.0|-4.523|-0.01|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||-0.010|-4.523|0.049
92364876|NCT04683913|184632281|OTHER|||||||0.567||||||Week 1\&2 vs Week 5\&6|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.567
92364877|NCT04683913|184632281|OTHER|||||||0.001||||||Week 1\&2 vs Follow up|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.001
92364878|NCT04683913|184632281|OTHER|||||||1||||||Week 1\&2 vs Retention|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||1.0
92224687|NCT02889796|184351029|SUPERIORITY||Difference in Response Rates|11.8|||<|0.001|TWO_SIDED|95.0|7.5|16.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||16.2|7.5|<0.001
92364879|NCT04683913|184632281|OTHER|||||||0.205||||||Week 3\&4 vs Follow up|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.205
92364880|NCT04683913|184632281|OTHER|||||||0.162||||||Week 3\&4 vs Retention|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.162
92364881|NCT04683913|184632281|OTHER|||||||0.421||||||Week 5\&6 vs Retention|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.421
92364882|NCT04683913|184632286|SUPERIORITY|||||||0.75|||||||ANCOVA|Controlling for baseline scores, structural severity and sex. alpha=0.05||Knee Injury and Osteoarthritis Outcome Scale - pain subscale scores were compared between the delayed and immediate groups at week 6 using ANCOVA.||||0.750
92364883|NCT04683913|184632286|SUPERIORITY|||||||0.201|||||||ANCOVA|Controlling for baseline scores, structural severity and sex. alpha=0.05||Knee Injury and Osteoarthritis Outcome Scale - stiffness subscale scores were compared between the delayed and immediate groups at week 6 using ANCOVA.||||0.201
92364884|NCT04683913|184632286|SUPERIORITY|||||||0.997|||||||ANCOVA|Controlling for baseline scores, structural severity and sex. alpha=0.05||Knee Injury and Osteoarthritis Outcome Scale - physical function subscale scores were compared between the delayed and immediate groups at week 6 using ANCOVA.||||0.997
92364885|NCT04683913|184632286|SUPERIORITY|||||||0.423|||||||ANCOVA|Controlling for baseline scores, structural severity and sex. alpha=0.05||Knee Injury and Osteoarthritis Outcome Scale - quality of life subscale scores were compared between the delayed and immediate groups at week 6 using ANCOVA.||||0.423
92364886|NCT04683913|184632287|SUPERIORITY|||||||0.342|||||||ANCOVA|Controlling for body mass, structural severity and sex. alpha=0.05||Knee adduction moment 1 (early stance) was analyzed as raw Nm with body mass entered as as covariate.||||0.342
92364887|NCT04683913|184632287|SUPERIORITY|||||||0.844|||||||ANCOVA|Controlling for body mass, structural severity and sex. alpha=0.05||Knee Adduction Moment 2 (late stance was analyzed as raw Nm with body mass entered as as covariate.||||0.844
92364888|NCT04683913|184632287|SUPERIORITY|||||||0.774|||||||ANCOVA|Controlling for body mass, structural severity and sex. alpha=0.05||Knee Flexion Moments were analyzed as raw Nm with body mass entered as as covariate||||0.774
92364889|NCT04683913|184632288|SUPERIORITY|||||||0.186|||||||ANCOVA|Controlling for body mass, structural severity and sex. alpha=0.05||Knee adduction moment impulses were analyzed as raw Nm\*s with body mass entered as as covariate.||||0.186
92364890|NCT04683913|184632288|SUPERIORITY|||||||0.601|||||||ANCOVA|Controlling for body mass, structural severity and sex. alpha=0.05||Knee flexion moment impulses were analyzed as raw Nm\*s with body mass entered as as covariate.||||0.601
92364891|NCT02878382|184632314|SUPERIORITY||||||<|0.001||||||significance level of 5%|Chi-squared|also, Fisher's exact test and Mann-Whtiney were used for comparing the other variables in the study||||||<0.001
92364892|NCT02878382|184632316|SUPERIORITY||||||=|0.001||||||significance level of 5%|Fisher Exact|||||||=0.001
92364893|NCT02878382|184632317|SUPERIORITY||||||=|0.048|||||||Wilcoxon (Mann-Whitney)|||Student's t-test or the Mann-Whitney test was used according to the assumption of normality of data for PpIX fluorescence intensity||||=0.048
92364894|NCT04046939|184632320|SUPERIORITY||Ratio to PBO of the ratios to baseline|0.2283|||<|0.0001|TWO_SIDED|95.0|0.121|0.431||A closed hierarchical procedure testing dexpramipexole against placebo at Week 12 was used. (1) 150 mg BID for AEC (2) 75 mg BID for AEC (3) pooled 75 mg and 150 mg BID group for pre-bronchodilator FEV1; and (4) 37.5 mg BID for AEC.|Mixed Models Analysis||0.2283 represents the ratio of the 150 mg BID week 12 ratio to baseline (0.2051), compared to the PBO week 12 ratio to baseline (0.8980). This ratio of 0.2283 is equivalent to a -77.17% change compared to placebo at week 12.|The 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.431|0.121|<.0001
92364895|NCT04046939|184632320|SUPERIORITY||Ratio to PBO of the ratios to baseline|0.3403||||0.0014|TWO_SIDED|95.0|0.177|0.653||A closed hierarchical procedure testing dexpramipexole against placebo at Week 12 was used. (1) 150 mg BID for AEC (2) 75 mg BID for AEC (3) pooled 75 mg and 150 mg BID group for pre-bronchodilator FEV1; and (4) 37.5 mg BID for AEC.|Mixed Models Analysis||0.3403 represents the ratio of the 75 mg BID week 12 ratio to baseline (0.3056), compared to the PBO week 12 ratio to baseline (0.8980). This ratio of 0.3403 is equivalent to a -65.97% change compared to placebo at week 12.|The 75 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.653|0.177|0.0014
92364896|NCT04046939|184632320|SUPERIORITY||Ratio to PBO of the ratios to baseline|0.4489||||0.019|TWO_SIDED|95.0|0.231|0.874||A closed hierarchical statistical testing was used. The previous endpoint in the hierarchy was not statistically significant. Therefore, this endpoint was not formally tested and is not considered statistically significant, despite a p-value \<0.05.|Mixed Models Analysis||0.4489 represents the ratio of the 37.5 mg BID week 12 ratio to baseline (0.4031) compared to the PBO week 12 ratio to baseline (0.8980). This ratio of 0.4489 is equivalent to a -55.11% change compared to placebo at week 12.|The 37.5 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.874|0.231|0.0190
92364897|NCT04046939|184632321|SUPERIORITY||Mean Difference (Final Values)|0.0814||||0.4154|TWO_SIDED|95.0|-0.116|0.279||A closed hierarchical procedure testing dexpramipexole against placebo at Week 12 was used. (1) 150 mg BID for AEC (2) 75 mg BID for AEC (3) pooled 75 mg and 150 mg BID group for pre-bronchodilator FEV1; and (4) 37.5 mg BID for AEC.|Mixed Models Analysis||Estimate is the difference of the pooled 75 mg and 150 mg BID group from placebo in change in pre-bronchodilator FEV1 in liters from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement in lung function.|The combined 75 mg and 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.279|-0.116|0.4154
92364898|NCT04046939|184632321|SUPERIORITY||Mean Difference (Final Values)|0.177||||0.1174|TWO_SIDED|95.0|-0.0456|0.4||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 150 mg BID group from the placebo group in the change in pre-bronchodilator FEV1 in liters from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement in lung function.|The 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.400|-0.0456|0.1174
92404206|NCT01432730|184699676|SUPERIORITY||Mean Difference (Final Values)|-9.237||||0.018|TWO_SIDED|95.0|-16.759|-1.716|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||-1.716|-16.759|0.018
92166618|NCT01780298|184223094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.564|||<|0.0001|TWO_SIDED|95.0|1.179|1.949|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||1.949|1.179|<0.0001
92166619|NCT01780298|184223094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.291|||<|0.0001|TWO_SIDED|95.0|0.924|1.658|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||1.658|0.924|<0.0001
92166620|NCT01780298|184223094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.073|||<|0.0001|TWO_SIDED|95.0|0.724|1.421|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||1.421|0.724|<0.0001
92166621|NCT01780298|184223094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.276||||0.0282|TWO_SIDED|95.0|0.031|0.521|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||0.521|0.031|0.0282
92364899|NCT04046939|184632321|SUPERIORITY||Mean Difference (Final Values)|-0.0143||||0.8998|TWO_SIDED|95.0|-0.24|0.211||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 75 mg BID group from the placebo group in the change in pre-bronchodilator FEV1 in liters from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement in lung function.|The 75 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.211|-0.240|0.8998
92166622|NCT01780298|184223094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.207||||0.1223|TWO_SIDED|95.0|-0.057|0.471|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||0.471|-0.057|0.1223
92166623|NCT01780298|184223094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.492|||<|0.0001|TWO_SIDED|95.0|0.273|0.71|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||0.710|0.273|<0.0001
92166624|NCT01780298|184223095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.372|||<|0.0001|TWO_SIDED|95.0|0.269|0.478|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||0.478|0.269|<0.0001
92166625|NCT01780298|184223095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.256|||<|0.0001|TWO_SIDED|95.0|0.158|0.354|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||0.354|0.158|<0.0001
92364900|NCT04046939|184632321|SUPERIORITY||Mean Difference (Final Values)|0.138||||0.2425|TWO_SIDED|95.0|-0.095|0.37||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 37.5 mg BID group from the placebo group in the change in pre-bronchodilator FEV1 in liters from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement in lung function.|The 37.5 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.370|-0.0950|0.2425
92166626|NCT01780298|184223095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.136||||0.0199|TWO_SIDED|95.0|0.022|0.249|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||0.249|0.022|0.0199
92166627|NCT01780298|184223095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.117||||0.0247|TWO_SIDED|95.0|0.015|0.218|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||0.218|0.015|0.0247
92166628|NCT01780298|184223095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12||||0.0204|TWO_SIDED|95.0|0.019|0.221|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||0.221|0.019|0.0204
92364901|NCT04046939|184632322|SUPERIORITY||Mean Difference (Final Values)|-0.264||||0.3059|TWO_SIDED|95.0|-0.772|0.245||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 150 mg BID dexpramipexole group compared to the placebo group in change in ACQ-6 score from Baseline to Week 12 (end of primary treatment period). A negative value indicates improvement of asthma symptoms.|The 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.245|-0.772|0.3059
92364902|NCT04046939|184632322|SUPERIORITY||Mean Difference (Final Values)|-0.0457||||0.8642|TWO_SIDED|95.0|-0.575|0.484||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 75 mg BID dexpramipexole group compared to the placebo group in change in ACQ-6 score from Baseline to Week 12 (end of primary treatment period). A negative value indicates improvement of asthma symptoms.|The 75 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.484|-0.575|0.8642
92364903|NCT04046939|184632322|SUPERIORITY||Mean Difference (Final Values)|-0.0276||||0.9182|TWO_SIDED|95.0|-0.56|0.505||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 37.5 mg BID dexpramipexole group compared to the placebo group in change in ACQ-6 score from Baseline to Week 12 (end of primary treatment period). A negative value indicates improvement of asthma symptoms.|The 37.5 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.505|-0.560|0.9182
92224688|NCT02889796|184351029|SUPERIORITY||Difference in Response Rates|21.3|||<|0.001|TWO_SIDED|95.0|15.7|26.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||26.9|15.7|<0.001
92224689|NCT02889796|184351029|SUPERIORITY||Difference in Response Rates|14.6|||<|0.001|TWO_SIDED|95.0|9.2|20.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||20.0|9.2|<0.001
92364904|NCT04046939|184632323|SUPERIORITY||Mean Difference (Final Values)|0.181||||0.0716|TWO_SIDED|95.0|-0.0163|0.378||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference of the 150 mg BID Dexpramipexole group from placebo in change in post-bronchodilator FEV1 from Baseline to Week 12 (end of primary treatment period) in liters. A positive value indicates improvement in lung function.|An ANCOVA analysis was performed comparing the 150 mg BID dexpramipexole group to placebo.||0.378|-0.0163|0.0716
92364905|NCT04046939|184632323|SUPERIORITY||Mean Difference (Final Values)|0.00474||||0.9619|TWO_SIDED|95.0|-0.192|0.202||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference of the 75 mg BID Dexpramipexole group from placebo in change in post-bronchodilator FEV1 from Baseline to Week 12 (end of primary treatment period) in liters. A positive value indicates improvement in lung function.|An ANCOVA analysis was performed comparing the 75 mg BID dexpramipexole group to placebo.||0.202|-0.192|0.9619
92364906|NCT04046939|184632323|SUPERIORITY||Median Difference (Final Values)|0.0987||||0.3368|TWO_SIDED|95.0|-0.105|0.302||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference of the 37.5 mg BID Dexpramipexole group from placebo in change in post-bronchodilator FEV1 from Baseline to Week 12 (end of primary treatment period) in liters. A positive value indicates improvement in lung function.|An ANCOVA analysis was performed comparing the 37.5 mg BID dexpramipexole group to placebo.||0.302|-0.105|0.3368
92364907|NCT04046939|184632324|SUPERIORITY||Mean Difference (Final Values)|0.208||||0.4512|TWO_SIDED|95.0|-0.338|0.755||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference in the 150 mg BID dexpramipexole group from the placebo group in the change in AQLQ score from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement of asthma symptoms.|An ANCOVA analysis was performed comparing the 150 mg BID dexpramipexole group to placebo.||0.755|-0.338|0.4512
92364908|NCT04046939|184632324|SUPERIORITY||Mean Difference (Final Values)|-0.0642||||0.8214|TWO_SIDED|95.0|-0.627|0.499||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference in the 75 mg BID dexpramipexole group from the placebo group in the change in AQLQ score from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement of asthma symptoms.|An ANCOVA analysis was performed comparing the 75 mg BID dexpramipexole group to placebo.||0.499|-0.627|0.8214
92364909|NCT04046939|184632324|SUPERIORITY||Mean Difference (Final Values)|0.154||||0.5894|TWO_SIDED|95.0|-0.411|0.72||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference in the 37.5 mg BID dexpramipexole group from the placebo group in the change in AQLQ score from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement of asthma symptoms.|An ANCOVA analysis was performed comparing the 37.5 mg BID dexpramipexole group to placebo.||0.720|-0.411|0.5894
92364910|NCT04046939|184632330|SUPERIORITY|||||||0.0196||||||No adjustment for multiple testing of exploratory endpoints was used.|Wilcoxon (Mann-Whitney)|||The 150 mg BID dexpramipexole group was compared to placebo at Week 12 using a Wilcoxon rank sum test.||||0.0196
92364911|NCT04046939|184632330|SUPERIORITY|||||||0.0207||||||No adjustment for multiple testing of exploratory endpoints was used.|Wilcoxon (Mann-Whitney)|||The 75mg BID dexpramipexole group was compared to placebo at Week 12 using a Wilcoxon rank sum test.||||0.0207
92364912|NCT04046939|184632330|SUPERIORITY|||||||0.5399||||||No adjustment for multiple testing of exploratory endpoints was used.|Wilcoxon (Mann-Whitney)|||The 37.5 mg BID dexpramipexole group was compared to placebo at Week 12 using a Wilcoxon rank sum test.||||0.5399
92364913|NCT04046939|184632331|SUPERIORITY||Mean Difference (Final Values)|-0.0233||||0.0084|TWO_SIDED|95.0|-0.0405|-0.00613||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 150 mg BID group from the placebo group in the change absolute basophil count (automated differential) from Baseline to Week 12 (end of primary treatment period). A negative value represents fewer basophils.|The 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||-0.00613|-0.0405|0.0084
92364914|NCT04046939|184632331|SUPERIORITY||Mean Difference (Final Values)|-0.0206||||0.0237|TWO_SIDED|95.0|-0.0384|-0.00281||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 75 mg BID group from the placebo group in the change absolute basophil count (automated differential) from Baseline to Week 12 (end of primary treatment period). A negative value represents fewer basophils.|The 75 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||-0.00281|-0.0384|0.0237
92404207|NCT01432730|184699677|SUPERIORITY||Mean Difference (Final Values)|-21.25||||0.035|TWO_SIDED|95.0|-40.96|-1.54|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||-1.54|-40.96|0.035
92404208|NCT00904033|184699705|OTHER|||||||0.86|||||||ANCOVA|Main Effects Results only for No Exercise vs Exercise||||||0.86
92404209|NCT00904033|184699706|OTHER|||||||0.19|||||||ANCOVA|||||||0.19
92404210|NCT00904033|184699707|OTHER|||||||0.49|||||||ANCOVA|||||||0.49
92404211|NCT00904033|184699708|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
92404212|NCT00904033|184699709|OTHER|||||||0.16|||||||t-test, 2 sided|||||||0.16
92404213|NCT00904033|184699710|OTHER|||||||0.84|||||||t-test, 2 sided|||||||0.84
92404214|NCT00904033|184699711|OTHER|||||||0.38|||||||t-test, 2 sided|||||||0.38
92404215|NCT00904033|184699712|OTHER|||||||0.92|||||||t-test, 2 sided|||||||0.92
92404216|NCT01774721|184699725|SUPERIORITY||Hazard Ratio (HR)|0.589|||<|0.0001|TWO_SIDED|95.0|0.469|0.739|||1-sided stratified log-rank test||Based on stratified Cox regression model|||0.739|0.469|<0.0001
92404217|NCT01774721|184699726|SUPERIORITY||Hazard Ratio (HR)|0.748||||0.0077|TWO_SIDED|95.0|0.591|0.947|||1-sided stratified log-rank test||Based on stratified Cox Regression model|||0.947|0.591|0.0077
92404218|NCT01774721|184699728|SUPERIORITY||Hazard Ratio (HR)|0.622|||<|0.0001|TWO_SIDED|95.0|0.497|0.779|||1-sided stratified log-rank test||Based on stratified Cox regression model|||0.779|0.497|<0.0001
92404219|NCT01774721|184699731|SUPERIORITY||Hazard Ratio (HR)|0.403|||<|0.0001|TWO_SIDED|95.0|0.307|0.529|||1-sided stratified log-rank test||Based on stratified Cox regression model|Comparison of dacomitinib vs gefitinib based on IRC review||0.529|0.307|<0.0001
92404220|NCT01774721|184699731|SUPERIORITY||Hazard Ratio (HR)|0.545|||<|0.0001|TWO_SIDED|95.0|0.418|0.711|||1-sided stratified log-rank test||Based on stratified Cox regression model|Comparison of dacomitinib vs gefitinib based on Investigator assessment||0.711|0.418|<0.0001
92404221|NCT01774721|184699732|SUPERIORITY|||||||0.1942|||||||Cochran-Mantel-Haenszel|||||||0.1942
92404222|NCT01774721|184699733|SUPERIORITY|||||||0.0924|||||||Cochran-Mantel-Haenszel|||||||0.0924
92166629|NCT01780298|184223095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.237|||<|0.0001|TWO_SIDED|95.0|0.127|0.347|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||0.347|0.127|<0.0001
92166630|NCT05286385|184223104|NON_INFERIORITY|Non-inferiority margin -10%|Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|4.59|||TWO_SIDED|95.0|-6.29|0.29||||||||0.29|-6.29|
92224690|NCT02889796|184351031|SUPERIORITY||Difference in Response Rates|22.3|||<|0.001|TWO_SIDED|95.0|16.7|27.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2||27.9|16.7|<0.001
92224691|NCT02889796|184351031|SUPERIORITY||Difference in Response Rates|12.6|||<|0.001|TWO_SIDED|95.0|7.2|17.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2||17.9|7.2|<0.001
92166631|NCT05286385|184223105|NON_INFERIORITY|Non-inferiority margin -10%|Mean Difference (Final Values)|-2.3|STANDARD_DEVIATION|8.03|||TWO_SIDED|95.0|-8.04|3.44||||||||3.44|-8.04|
92166632|NCT05286385|184223106|NON_INFERIORITY|Non-inferiority margin -10%|Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|4.55|||TWO_SIDED|95.0|-2.95|3.55||||||||3.55|-2.95|
92404223|NCT01774721|184699740|SUPERIORITY||Cox Proportional Hazard|1.173||||0.1641|TWO_SIDED|95.0|0.928|1.483|||Unstratified Log-rank Test|||||1.483|0.928|0.1641
92404224|NCT00118417|184699751|SUPERIORITY_OR_OTHER|||||||0||95.0||||Paired t-test between endpoint and baseline PDSS|t-test, 2 sided|Degrees of Freedom = 38||||||0.0000
92404225|NCT00118417|184699752|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||T-test of PDSS change score|t-test, 2 sided|Degrees of Freedom = 22||||||0.97
92404226|NCT00118417|184699753|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||T-test of PDSS change between baseline and endpoint of Phase 3|t-test, 2 sided|Degrees of Freedom = 17||||||0.061
92404227|NCT02978781|184699755|SUPERIORITY||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.227||0.9143|TWO_SIDED|95.0|-0.44|0.49|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization at Day 14 (predose)|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.49|-0.44|0.9143
92404228|NCT02978781|184699756|OTHER||Least Squares Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.815||0.0529|TWO_SIDED|95.0|-3.5|0.03|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.03|-3.50|0.0529
92404229|NCT02978781|184699762|SUPERIORITY||Least Squares Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|1.326||0.7795|TWO_SIDED|95.0|-3.47|2.7|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|2.70|-3.47|0.7795
92404230|NCT02978781|184699763|SUPERIORITY||Least Squares Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.473||0.4846|TWO_SIDED|95.0|-0.65|1.33|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization in Forward outstretched postural tremor (FOPT) at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|1.33|-0.65|0.4846
92404231|NCT02978781|184699763|SUPERIORITY||Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.845||0.4567|TWO_SIDED|95.0|-2.7|1.36|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|"Change from Randomization in Lateral wing beating postural tremor (LWBPT) at Day 14"|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|1.36|-2.70|0.4567
92404232|NCT02978781|184699764|SUPERIORITY||Least Squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.85||0.3771|TWO_SIDED|95.0|-2.48|0.96|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.96|-2.48|0.3771
92166633|NCT05930782|184223139|EQUIVALENCE|The treatment was considered as bioequivalent if the 90% confidence interval (CI) for geometric least square mean ratios (GMR) of Cmax falls within the acceptance range of 80.00 % to 125.00 %.|geometric least square mean ratios (GMR)|73.9|||||TWO_SIDED|90.0|48.32|113.02||||||||113.02|48.32|
92166634|NCT05930782|184223140|EQUIVALENCE|The treatment was considered as bioequivalent if the 90% confidence interval (CI) for geometric least square mean ratios (GMR) of ln-transformed parameters falls within the acceptance range of 80.00 % to 125.00 %.|geometric least square mean ratio (GMR)|75.41|||||TWO_SIDED|90.0|56.46|100.71||||||||100.71|56.46|
92166635|NCT05930782|184223141|EQUIVALENCE|The treatment was considered as bioequivalent if the 90% confidence interval (CI) for geometric least square mean ratios (GMR) of ln-transformed parameters falls within the acceptance range of 80.00 % to 125.00 %.|geometric least square mean ratios (GMR)|86.45|||||TWO_SIDED|90.0|68.16|109.63||||||||109.63|68.16|
92364915|NCT04046939|184632331|SUPERIORITY||Mean Difference (Final Values)|-0.00215||||0.814|TWO_SIDED|95.0|-0.0203|0.016||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 37.5 mg BID group from the placebo group in the change absolute basophil count (automated differential) from Baseline to Week 12 (end of primary treatment period). A negative value represents fewer basophils.|The 37.5 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||0.0160|-0.0203|0.8140
92166636|NCT05930782|184223142|EQUIVALENCE|The treatment was considered as bioequivalent if the 90% confidence interval (CI) for geometric least square mean ratios (GMR) of ln-transformed parameters falls within the acceptance range of 80.00 % to 125.00 %.|geometric least square mean ratios (GMR)|77.67|||||TWO_SIDED|90.0|59.49|101.39||||||||101.39|59.49|
92166637|NCT05930782|184223143|EQUIVALENCE|The treatment was considered as bioequivalent if the 90% confidence interval (CI) for geometric least square mean ratios (GMR) of ln-transformed parameters falls within the acceptance range of 80.00 % to 125.00 %.|geometric least square mean ratios (GMR)|55.24|||||TWO_SIDED|90.0|6.03|113.02|||||For AUC0-inf, the GMR and 90% CI values were unreliable as there was only 1 calculable value for the Test (Group 2) and 2 values for the Reference (Group 1) products.|||113.02|6.03|
92166638|NCT01693120|184223162|SUPERIORITY||rate|1.6||||0.175|ONE_SIDED|95.0||4.9|||exact binomial test|||The null hypothesis was that the procedure or device related stroke rate within 30-days of a Phased RF ablation procedure was 3.5% or greater. The alternative hypothesis was that this rate was less than 3.5%. A sample size of 300 subjects provided 90% power to test the null hypothesis assuming the true stroke rate was 1.0% with a one-sided type I error rate of 0.05||4.9||0.175
92166639|NCT01693120|184223163|OTHER|The goal of the analysis was to compute a two-sided 95% confidence interval around the 6-month effectiveness rate. There was no pre-specified hypothesis.|rate|52.6|||||TWO_SIDED|95.0|43.1|62.1||||||||62.1|43.1|
92166640|NCT01693120|184223164|OTHER|There was no prespecified hypothesis tested.|rate|90.7|||||TWO_SIDED|95.0|84.3|95.1||||||There was no prespecified hypothesis tested.||95.1|84.3|
92166641|NCT01693120|184223165|OTHER|There was no pre-specified hypothesis to test|rate|0.0|||||TWO_SIDED|95.0|0.0|6.1||||||There was no pre-specified hypothesis to test||6.1|0|
92166642|NCT00774397|184223184|SUPERIORITY_OR_OTHER|||||||0.0537||95.0||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||0.0537
92166643|NCT00774397|184223184|SUPERIORITY_OR_OTHER|||||||0.0213||||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||0.0213
92166644|NCT00774397|184223184|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||<0.0001
92166645|NCT00774397|184223184|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||<0.0001
92166646|NCT00774397|184223184|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||<0.0001
92364916|NCT04046939|184632332|SUPERIORITY||Mean Difference (Final Values)|-8.24||||0.1886|TWO_SIDED|95.0|-20.6|4.13||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 150 mg BID group from the placebo group in the change in FeNO from Baseline to Week 12 in liters. In eosinophilic asthma, a lower FeNO indicates less eosinophilic inflammation of the airway than a higher value.|The 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||4.13|-20.6|0.1886
92364917|NCT04046939|184632332|SUPERIORITY||Mean Difference (Final Values)|-6.53||||0.3061|TWO_SIDED|95.0|-19.1|6.08||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 75 mg BID group from the placebo group in the change in FeNO from Baseline to Week 12 in liters. In eosinophilic asthma, a lower FeNO indicates less eosinophilic inflammation of the airway than a higher value.|The 75mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||6.08|-19.1|0.3061
92364918|NCT04046939|184632332|SUPERIORITY||Mean Difference (Final Values)|-10.2||||0.1294|TWO_SIDED|95.0|-23.4|3.04||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 37.5 mg BID group from the placebo group in the change in FeNO from Baseline to Week 12 in liters. In eosinophilic asthma, a lower FeNO indicates less eosinophilic inflammation of the airway than a higher value.|The 37.5 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||3.04|-23.4|0.1294
92404233|NCT02978781|184699765|SUPERIORITY||Least Squares Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.415||0.7302|TWO_SIDED|95.0|-0.97|0.69|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization in Forward outstretched postural tremor (FOPT) at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.69|-0.97|0.7302
92404234|NCT02978781|184699765|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.467||0.7916|TWO_SIDED|95.0|-1.1|0.85|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|"Change from Randomization in Lateral wing beating postural tremor (LWBPT) at Day 14"|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.85|-1.10|0.7916
92166647|NCT00774397|184223184|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||<0.0001
92166648|NCT01636687|184223226|SUPERIORITY_OR_OTHER||Risk Difference (RD)|53.3|||<|0.0001|TWO_SIDED|95.0|36.6|67.7|||Fisher Exact|||Response criterion: IGA 0/1||67.7|36.6|<0.0001
92166649|NCT01636687|184223226|SUPERIORITY_OR_OTHER||Risk Difference (RD)|73.3|||<|0.0001|TWO_SIDED|95.0|58.8|83.9|||Fisher Exact|||Response Criterion: IGA 0/1||83.9|58.8|<0.0001
92166650|NCT01636687|184223226|SUPERIORITY_OR_OTHER||Risk Difference (RD)|68.4|||<|0.0001|TWO_SIDED|95.0|53.1|79.8|||Fisher Exact|||Response criterion: PASI 75||79.8|53.1|<0.0001
92166651|NCT01636687|184223226|SUPERIORITY_OR_OTHER||Risk Difference (RD)|83.4|||<|0.0001|TWO_SIDED|95.0|70.7|91.7|||Fisher Exact|||Response criterion: PASI 75||91.7|70.7|<0.0001
92166652|NCT00666276|184223265|SUPERIORITY_OR_OTHER||||||=|0.712|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the incidence rate of ADRs."||||=0.712
92166653|NCT00666276|184223266|SUPERIORITY_OR_OTHER||||||=|0.257|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between over 65 and less than 65 in the incidence rate of ADRs."||||=0.257
92166654|NCT00666276|184223267|SUPERIORITY_OR_OTHER||||||=|0.082|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic dysfunctions. The null hypothesis is there is no difference between with Hepatic dysfunction and without Hepatic dysfunction in the incidence rate of ADRs."||||=0.082
92166655|NCT00666276|184223268|SUPERIORITY_OR_OTHER||||||=|0.462|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal dysfunctions. The null hypothesis is there is no difference between with Renal dysfunction and without Renal dysfunction in the incidence rate of ADRs."||||=0.462
92166656|NCT00666276|184223269|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Duration of drug administration. The null hypothesis is there is no difference between over 15 days and less than 15 days in the incidence rate of ADRs."||||<0.001
92166657|NCT00666276|184223270|SUPERIORITY_OR_OTHER||||||=|0.018|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Route of administration. The null hypothesis is there is no difference between oral, injection and switch in the incidence rate of ADRs."||||=0.018
92166658|NCT00666276|184223271|SUPERIORITY_OR_OTHER||||||=|0.311|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Weight. The null hypothesis is there is no difference between over 40kg and less than 40kg in the incidence rate of ADRs."||||=0.311
92166659|NCT00666276|184223272|SUPERIORITY_OR_OTHER||||||=|0.044|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Concomitant drugs. The null hypothesis is there is no difference between with Concomitant drug and without Concomitant drug in the incidence rate of ADRs."||||=0.044
92166660|NCT00666276|184223273|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Non-drug therapies. The null hypothesis is there is no difference between with Non-drug therapies and without Non-drug therapies in the incidence rate of ADRs."||||=0.008
92224692|NCT02889796|184351031|SUPERIORITY||Difference in Response Rates|19.8|||<|0.001|TWO_SIDED|95.0|13.4|26.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||26.1|13.4|<0.001
92224693|NCT02889796|184351031|SUPERIORITY||Difference in Response Rates|13.8|||<|0.001|TWO_SIDED|95.0|7.5|20.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||20.2|7.5|<0.001
92364919|NCT04704193|184632333|OTHER|This arm includes descriptive statistics only.|count with proportion|0.955|||||TWO_SIDED|95.0|0.888|0.987||||||"Descriptive statistics only/proportion reported good or excellent~Q1a. Genetic testing is a blood test that looks for mutations in genes that can increase cancer risk"||.987|.888|
92364920|NCT04704193|184632333|OTHER|This arm includes descriptive statistics only.|count with proportion|0.931|||||TWO_SIDED|95.0|0.856|0.974||||||"Descriptive statistics only/proportion reported good or excellent~Q1b. Genetic test results may help guide my treatment options"||.974|.856|
92364921|NCT04704193|184632333|OTHER|This arm includes descriptive statistics only.|count with proportion|0.943|||||TWO_SIDED|95.0|0.872|0.981||||||"Descriptive statistics only/proportion reported good or excellent~Q1c. Genetic test results may help me understand the future risks of other cancers"||.981|.872|
92364922|NCT04704193|184632333|OTHER|This arm includes descriptive statistics only.|count with proportion|0.851|||||TWO_SIDED|95.0|0.758|0.918||||||"Descriptive statistics only/proportion reported good or excellent~Q1d. Genetic test results may increase stress to me and my family members"||.918|.758|
92364923|NCT04704193|184632333|OTHER|This arm includes descriptive statistics only.|count with proportion|0.931|||||TWO_SIDED|95.0|0.856|0.974||||||"Descriptive statistics only/proportion reported good or excellent~Q1e. There are 3 gene panel options that include either a small, medium, or large number of genes"||.974|.856|
92364924|NCT04704193|184632333|OTHER|This arm includes descriptive statistics only.|count with proportion|0.919|||||TWO_SIDED|95.0|0.839|0.967||||||"Descriptive statistics only/proportion reported good or excellent~Q1f. Gene test results may come back as positive, negative or uncertain"||.967|.839|
92364925|NCT04704193|184632334|OTHER|Summary statistics only|Mean|13.7|STANDARD_DEVIATION|5.6|||TWO_SIDED|||||||||||||
92364926|NCT03384875|184632335|SUPERIORITY||Risk Difference (RD)|0.0||||0.517|TWO_SIDED||||||Chi-squared|||||||0.517
92364927|NCT04472650|184632363|OTHER||Ratio of Geometric Least Squares Means|87.63|||||TWO_SIDED|90.0|78.273|98.111||||||Sitravatinib Malate Salt Capsule (Test) vs. Sitravatinib Free Base Capsule (Reference). Analysis based on Relative Bioavailability Analysis Set, defined as the subset of participants in the PK Parameters Analysis Set who had at least 1 primary PK parameter (AUC0-t, AUC0-inf and Cmax of sitravatinib) in both periods.||98.111|78.273|
92364928|NCT04472650|184632364|OTHER||Ratio of Geometric Least Squares Means|87.5|||||TWO_SIDED|90.0|78.12|98.01||||||Sitravatinib Malate Salt Capsule (Test) vs. Sitravatinib Free Base Capsule (Reference). Analysis based on Relative Bioavailability Analysis Set, defined as the subset of participants in the PK Parameters Analysis Set who had at least 1 primary PK parameter (AUC0-t, AUC0-inf and Cmax of sitravatinib) in both periods.||98.01|78.12|
92364929|NCT04472650|184632365|OTHER||Ratio of Geometric Least Squares Means|88.8|||||TWO_SIDED|90.0|77.41|101.87||||||Sitravatinib Malate Salt Capsule (Test) vs. Sitravatinib Free Base Capsule (Reference). Analysis based on Relative Bioavailability Analysis Set, defined as the subset of participants in the PK Parameters Analysis Set who had at least 1 primary PK parameter (AUC0-t, AUC0-inf and Cmax of sitravatinib) in both periods.||101.87|77.41|
92364930|NCT01861665|184632371|SUPERIORITY|||||||0.8379||||||Pre Incision vs. Post Incision on Post op day 0.|t-test, 2 sided|||||||0.8379
92364931|NCT01861665|184632371|SUPERIORITY|||||||0.7263||||||Pre incision vs. Post incision post op day 1.|t-test, 2 sided|||||||0.7263
92364932|NCT01861665|184632371|SUPERIORITY|||||||0.5||||||Pre incision vs. Post incision day 2.|t-test, 2 sided|||||||0.5
92364933|NCT03247829|184632372|OTHER|||||||0.001|||||||t-test, 2 sided|Comparative p-values were calculated by two-sided t-tests (paired analysis).||||||0.001
92364934|NCT03247829|184632373|OTHER|||||||0.0931|||||||t-test, 2 sided|||||||0.0931
92364935|NCT01783444|184632381|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|0.74|||||TWO_SIDED|90.0|0.57|0.97||||||||0.97|0.57|
92364936|NCT01783444|184632382|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.26|||||TWO_SIDED|90.0|0.96|1.66||||||||1.66|0.96|
92364937|NCT01783444|184632383|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.27|||||TWO_SIDED|90.0|0.95|1.7||||||||1.70|0.95|
92364938|NCT01783444|184632383|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.33|||||TWO_SIDED|90.0|0.99|1.79||||||||1.79|0.99|
92364939|NCT01783444|184632386|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.09|||||TWO_SIDED|90.0|0.72|1.66||||||||1.66|0.72|
92364940|NCT01783444|184632386|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.18|||||TWO_SIDED|90.0|0.78|1.77||||||||1.77|0.78|
92364941|NCT01783444|184632387|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|0.64|||||TWO_SIDED|90.0|0.46|0.88||||||||0.88|0.46|
92364942|NCT01783444|184632387|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.33|||||TWO_SIDED|90.0|0.93|1.91||||||||1.91|0.93|
92364943|NCT01783444|184632388|OTHER||Mean Difference (Net)|4.3|||||TWO_SIDED|90.0|-3.3|11.9||||||Side-effects||11.9|-3.3|
92364944|NCT01783444|184632388|OTHER||Mean Difference (Net)|-2.2|||||TWO_SIDED|90.0|-9.9|5.5||||||Side-effects||5.5|-9.9|
92364945|NCT01783444|184632388|OTHER||Mean Difference (Net)|-3.3|||||TWO_SIDED|90.0|-10.4|3.8||||||Effectiveness||3.8|-10.4|
92224694|NCT02889796|184351031|SUPERIORITY||Difference in Response Rates|18.9|||<|0.001|TWO_SIDED|95.0|13.0|24.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||24.9|13.0|<0.001
92224695|NCT02889796|184351031|SUPERIORITY||Difference in Response Rates|18.6|||<|0.001|TWO_SIDED|95.0|12.6|24.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||24.5|12.6|<0.001
92364946|NCT01783444|184632388|OTHER||Mean Difference (Net)|-3.3|||||TWO_SIDED|90.0|-9.7|3.0||||||Effectiveness||3.0|-9.7|
92364947|NCT01783444|184632388|OTHER||Mean Difference (Net)|-1.6|||||TWO_SIDED|90.0|-5.8|2.5||||||Convenience||2.5|-5.8|
92364948|NCT01783444|184632388|OTHER||Mean Difference (Net)|-1.1|||||TWO_SIDED|90.0|-5.5|3.3||||||Convenience||3.3|-5.5|
92364949|NCT01783444|184632388|OTHER||Mean Difference (Net)|-2.7|||||TWO_SIDED|90.0|-8.3|2.9||||||Global Satisfaction||2.9|-8.3|
92364950|NCT01783444|184632388|OTHER||Mean Difference (Net)|-3.3|||||TWO_SIDED|90.0|-8.4|1.9||||||Global Satisfaction||1.9|-8.4|
92364951|NCT02722408|184632390|OTHER|||||||0.0041||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||||||0.0041
92364952|NCT02722408|184632391|OTHER|||||||0.001||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||||||0.0010
92364953|NCT02722408|184632392|OTHER|||||||0.0012||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||||||0.0012
92364954|NCT02722408|184632393|OTHER|||||||0.056||||||Mixed-effects model for repeated measures analysis with Change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0560
92364955|NCT02722408|184632393|OTHER|||||||0.0219||||||Mixed-effects model for repeated measures analysis with Change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0219
92364956|NCT02722408|184632393|OTHER|||||||0.0286||||||Mixed-effects model for repeated measures analysis with Change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0286
92364957|NCT02722408|184632394|OTHER|||||||0.0058||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0058
92404235|NCT02978781|184699766|SUPERIORITY||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.34||0.1807|TWO_SIDED|95.0|-1.17|0.23|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.23|-1.17|0.1807
92224696|NCT02889796|184351033|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.025|<|0.001|TWO_SIDED|95.0|-0.22|-0.12||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.12|-0.22|<0.001
92364958|NCT02722408|184632394|OTHER|||||||0.0019||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0019
92364959|NCT02722408|184632394|OTHER|||||||0.0024||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0024
92364960|NCT02722408|184632395|OTHER|||||||0.0592||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0592
92364961|NCT02722408|184632395|OTHER|||||||0.0266||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0266
92364962|NCT02722408|184632395|OTHER|||||||0.0336||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0336
92364963|NCT02722408|184632396|OTHER|||||||0.0057||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0057
92364964|NCT02722408|184632396|OTHER|||||||0.0017||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0017
92364965|NCT02722408|184632396|OTHER|||||||0.0017||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0017
92166661|NCT01039688|184223275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.14||0.0014|TWO_SIDED|95.0|-0.73|-0.18||A stepdown procedure was used to control for multiple comparisons. In order for the comparison of CP-690,550 5 mg to be statistically significant versus MTX, the comparison of CP-690,550 10 mg versus MTX had to be statistically significant.|ANCOVA|||||-0.18|-0.73|0.0014
92166662|NCT01039688|184223275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.14||0.0004|TWO_SIDED|95.0|-0.77|-0.23||A stepdown procedure was used to control for multiple comparisons. In order for the comparison of CP-690,550 5 mg to be statistically significant versus MTX, the comparison of CP-690,550 10 mg versus MTX had to be statistically significant.|ANCOVA|||||-0.23|-0.77|0.0004
92166663|NCT01039688|184223276|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.32|||<|0.0001|TWO_SIDED|95.0|6.81|19.82||A stepdown procedure was used to control for multiple comparisons. For comparison of 5 mg to be statistically significant, comparison of 10 mg to MTX in ACR70 and comparison of 5 mg to MTX in change from BL in mTSS had to be statistically significant|Normal approximation|||||19.82|6.81|<0.0001
92224697|NCT02889796|184351033|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.025|<|0.001|TWO_SIDED|95.0|-0.14|-0.04||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.04|-0.14|<0.001
92224698|NCT02889796|184351033|SUPERIORITY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.028|<|0.001|TWO_SIDED|95.0|-0.24|-0.13||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.13|-0.24|<0.001
92364966|NCT02722408|184632397|OTHER|||||||0.0057||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0057
92364967|NCT02722408|184632397|OTHER|||||||0.0255||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0255
92364968|NCT02722408|184632397|OTHER|||||||0.0312||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 86||||0.0312
92364969|NCT02722408|184632398|OTHER|||||||0.4489||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.4489
92364970|NCT02722408|184632398|OTHER|||||||0.5964||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 84||||0.5964
92224699|NCT02889796|184351033|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.028|<|0.001|TWO_SIDED|95.0|-0.15|-0.04||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.04|-0.15|<0.001
92364971|NCT02722408|184632398|OTHER|||||||0.6785||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.6785
92364972|NCT02722408|184632399|OTHER|||||||0.2177||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300mg: Day 28||||0.2177
92364973|NCT02722408|184632399|OTHER|||||||0.3209||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600mg: Day 56||||0.3209
92364974|NCT02722408|184632399|OTHER|||||||0.3101||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900mg: Day 84||||0.3101
92364975|NCT02722408|184632400|OTHER|||||||0.0057||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0057
92364976|NCT02722408|184632400|OTHER|||||||0.0022||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0022
92364977|NCT02722408|184632400|OTHER|||||||0.0029||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0029
92166664|NCT01039688|184223276|SUPERIORITY_OR_OTHER||Risk Difference (RD)|25.25|||<|0.0001|TWO_SIDED|95.0|18.51|31.99||A stepdown procedure was used to control for multiple comparisons. For comparison of 10 mg to MTX in ACR70 to be statistically significant, comparison of 10 mg to MTX in change from BL in mTSS had to be statistically significant|Normal approximation|||||31.99|18.51|<0.0001
92364978|NCT02722408|184632401|OTHER|||||||0.0008||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300mg: Day 28||||0.0008
92364979|NCT02722408|184632401|OTHER|||||||0.0005||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600mg: Day 56||||0.0005
92364980|NCT02722408|184632401|OTHER|||||||0.0002||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900mg: Day 84||||0.0002
92364981|NCT02722408|184632402|OTHER|||||||0.4103||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.4103
92364982|NCT02722408|184632402|OTHER|||||||0.6164||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.6164
92404236|NCT02978781|184699767|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.72||0.8709|TWO_SIDED|95.0|-1.7|1.9|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline(SAGE-217 - placebo)|Change from Baseline in Archimedes Spirals (AS) at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|1.9|-1.7|0.8709
92166665|NCT02594735|184223365|OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
92364983|NCT02722408|184632402|OTHER|||||||0.6732||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.6732
92364984|NCT02722408|184632403|OTHER|||||||0.2003||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300mg: Day 28||||0.2003
92404237|NCT02978781|184699767|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.65||0.7843|TWO_SIDED|95.0|-1.8|1.4|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217 - placebo)|Change from Baseline in Handwriting at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|1.4|-1.8|0.7843
92404238|NCT02978781|184699767|SUPERIORITY||Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.984||0.7604|TWO_SIDED|95.0|-2.72|2.1|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217 - placebo|Change from Baseline in Dot approximation task (DAT) at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|2.10|-2.72|0.7604
92364985|NCT02722408|184632403|OTHER|||||||0.3323||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600mg: Day 56||||0.3323
92364986|NCT02722408|184632403|OTHER|||||||0.3047||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900mg: Day 84||||0.3047
92166666|NCT02594735|184223366|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92166667|NCT02594735|184223367|OTHER|||||||0.004|||||||t-test, 2 sided|||||||0.004
92364987|NCT02722408|184632404|OTHER|||||||0.3601||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.3601
92364988|NCT02722408|184632404|OTHER|||||||0.192||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.1920
92364989|NCT02722408|184632404|OTHER|||||||0.2912||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.2912
92364990|NCT02722408|184632404|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||<0.0001
92166668|NCT02594735|184223368|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92166669|NCT02594735|184223369|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92166670|NCT02594735|184223370|OTHER|||||||0.375|||||||t-test, 2 sided|||||||0.375
92364991|NCT02722408|184632404|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||<0.0001
92364992|NCT02722408|184632404|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||<0.0001
92166671|NCT02594735|184223371|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92166672|NCT02594735|184223372|OTHER|||||||0.044|||||||Sign test|Data was not normally distributed||||||0.044
92364993|NCT02722408|184632404|OTHER|||||||0.0444||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0444
92364994|NCT02722408|184632404|OTHER|||||||0.0159||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0159
92364995|NCT02722408|184632404|OTHER|||||||0.0235||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0235
92364996|NCT02722408|184632404|OTHER|||||||0.0005||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0005
92364997|NCT02722408|184632404|OTHER|||||||0.0003||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0003
92364998|NCT02722408|184632404|OTHER|||||||0.0003||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0003
92364999|NCT02722408|184632405|OTHER|||||||0.3646||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.3646
92365000|NCT02722408|184632405|OTHER|||||||0.1994||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.1994
92365001|NCT02722408|184632405|OTHER|||||||0.2858||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.2858
92365002|NCT02722408|184632405|OTHER|||||||0.0829||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0829
92365003|NCT02722408|184632405|OTHER|||||||0.0492||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.0492
92365004|NCT02722408|184632405|OTHER|||||||0.0442||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.0442
92166673|NCT02594735|184223373|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
92365005|NCT02722408|184632405|OTHER|||||||0.736||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.7360
92365006|NCT02722408|184632405|OTHER|||||||0.6917||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.6917
92365007|NCT02722408|184632405|OTHER|||||||0.7131||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.7131
92365008|NCT02722408|184632405|OTHER|||||||0.0014||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0014
92365009|NCT02722408|184632405|OTHER|||||||0.0009||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0009
92365010|NCT02722408|184632405|OTHER|||||||0.0007||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0007
92365011|NCT02722408|184632406|OTHER|||||||0.388||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.3880
92166674|NCT03844269|184223385|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||EEG data excluded if excessive noise (rejection of more than 30% of target trials due to voltage fluctuations greater than ± 100 μV deflections within an epoch) at the pre- or post-intervention assessment||||<0.05
92166675|NCT00475319|184223399|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||versus placebo|t-test, 2 sided|a general linear model||||||0.001
92365012|NCT02722408|184632406|OTHER|||||||0.2057||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.2057
92365013|NCT02722408|184632406|OTHER|||||||0.2892||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.2892
92365014|NCT02722408|184632406|OTHER|||||||0.0052||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0052
92365015|NCT02722408|184632406|OTHER|||||||0.0028||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.0028
92365016|NCT02722408|184632406|OTHER|||||||0.0026||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.0026
92365017|NCT02722408|184632406|OTHER|||||||0.0493||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0493
92365018|NCT02722408|184632406|OTHER|||||||0.0253||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0253
92404239|NCT02978781|184699768|OTHER||Least Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.301||0.1333|TWO_SIDED|95.0|-1.13|0.17|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Forward outstretched postural tremor (FOPT) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.17|-1.13|0.1333
92166676|NCT00475319|184223400|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||versus placebo|t-test, 2 sided|a general linear model||||||0.001
92365019|NCT02722408|184632406|OTHER|||||||0.0394||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0394
92365020|NCT02722408|184632406|OTHER|||||||0.0003||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0003
92365021|NCT02722408|184632406|OTHER|||||||0.0002||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0002
92365022|NCT02722408|184632406|OTHER|||||||0.0002||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0002
92365023|NCT02722408|184632407|OTHER|||||||0.3833||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.3833
92365024|NCT02722408|184632407|OTHER|||||||0.2172||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.2172
92404240|NCT02978781|184699768|OTHER||Least Squares Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.389||0.0572|TWO_SIDED|95.0|-1.64|0.03|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|"Change from Baseline in Lateral wing beating postural tremor (LWBPT) at Day 15"|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.03|-1.64|0.0572
92166677|NCT03698708|184223405|SUPERIORITY||cohen's d|0.88|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92166678|NCT03698708|184223406|SUPERIORITY||cohen's d|0.22|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92166679|NCT03698708|184223407|SUPERIORITY||cohen's d|0.05|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92166680|NCT03698708|184223408|SUPERIORITY||cohen's d|0.14|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92166681|NCT03698708|184223409|SUPERIORITY||cohen's d|0.09|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92166682|NCT03698708|184223410|SUPERIORITY||Mean Difference (Final Values)|-4.16|||||TWO_SIDED|95.0|-10.07|1.74|||ANOVA|||||1.74|-10.07|
92365025|NCT02722408|184632407|OTHER|||||||0.293||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.2930
92166683|NCT00364013|184223422|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-2.27||||0.0234||||||P-value is based on a 2-sided log-rank test stratified by Region (Western Europe, Canada and Australia vs. Rest of World) and ECOG score (0 or 1 vs. 2).|Stratified log-rank test||A normal score \<0 indicates fewer than expected events for the panitumumab plus FOLFOX arm and therefore a longer progression-free survival time.|PFS in the Wild-type KRAS Efficacy Analysis Set was compared at a significance level of 5%.||||0.0234
92365026|NCT02722408|184632407|OTHER|||||||0.1217||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.1217
92365027|NCT02722408|184632407|OTHER|||||||0.0901||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.0901
92365028|NCT02722408|184632407|OTHER|||||||0.085||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.0850
92365029|NCT02722408|184632407|OTHER|||||||0.0747||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0747
92365030|NCT02722408|184632407|OTHER|||||||0.0279||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0279
92365031|NCT02722408|184632407|OTHER|||||||0.0492||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0492
92365032|NCT02722408|184632407|OTHER|||||||0.0003||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0003
92365033|NCT02722408|184632407|OTHER|||||||0.0002||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0002
92166684|NCT00364013|184223422|SUPERIORITY_OR_OTHER_LEGACY||Normal score|2.28||||0.0227||||||P-value is based on a 2-sided log-rank test stratified by Region (Western Europe, Canada and Australia vs. Rest of World) and ECOG score (0 or 1 vs. 2).|Stratified log-rank test||A normal score \<0 indicates fewer than expected events for the panitumumab plus FOLFOX arm and therefore a longer progression-free survival time.|PFS in the Mutant KRAS Efficacy Analysis Set was compared at a significance level of 5% conditional on first demonstrating a significant treatment effect in PFS in the Wild-type KRAS Efficacy Analysis Set.||||0.0227
92166685|NCT00364013|184223423|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-1.8||||0.0723||||||cP-value is based on a 2-sided log-rank test stratified by Region (Western Europe, Canada and Australia vs. Rest of World) and ECOG score (0 or 1 vs. 2).|Stratified log-rank test||A normal score \<0 indicates fewer than expected events for the panitumumab plus FOLFOX arm and therefore a longer overall survival time.|Overall survival comparisons in the wild-type KRAS Efficacy Analysis Set was performed at a significance level of 4.99% conditional on a statistically significant difference for PFS in the Wild-type KRAS Efficacy Analysis Set.||||0.0723
92365034|NCT02722408|184632407|OTHER|||||||0.0002||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0002
92365035|NCT02722408|184632408|OTHER|||||||0.8972||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.8972
92365036|NCT02722408|184632408|OTHER|||||||0.7867||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.7867
92365037|NCT02722408|184632408|OTHER|||||||0.4974||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.4974
92365038|NCT02722408|184632408|OTHER|||||||0.5464||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.5464
92365039|NCT02722408|184632408|OTHER|||||||0.7668||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.7668
92365040|NCT02722408|184632408|OTHER|||||||0.9276||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.9276
92166686|NCT00364013|184223423|SUPERIORITY_OR_OTHER_LEGACY||Normal score|1.83||||0.0678||||||P-value is based on a 2-sided log-rank test stratified by Region (Western Europe, Canada and Australia vs. Rest of World) and ECOG score (0 or 1 vs. 2).|Stratified log-rank test||A normal score \<0 indicates fewer than expected events for the panitumumab plus FOLFOX arm and therefore a longer overall survival time.|Overall survival comparisons in the mutant KRAS Efficacy Analysis Set was performed at an significance level of 4.99% conditional on a statistically significant difference for PFS in the Mutant KRAS Efficacy Analysis Set.||||0.0678
92166687|NCT00364013|184223424|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.35||||0.0684|TWO_SIDED|95.0|0.98|1.87|||Stratified exact test|Adjusted for geographic region and ECOG score.|The odds ratio is defined as the odds of having an objective response in the panitumumab plus arm relative to the odds on the FOLFOX alone arm.|||1.87|0.98|0.0684
92365041|NCT02722408|184632408|OTHER|||||||0.5821||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.5821
92404241|NCT02978781|184699768|OTHER||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.255||0.0707|TWO_SIDED|95.0|-1.05|0.05|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Kinetic tremor (KT) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.05|-1.05|0.0707
92365042|NCT02722408|184632408|OTHER|||||||0.8881||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.8881
92365043|NCT02722408|184632408|OTHER|||||||0.8525||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.8525
92365044|NCT02722408|184632408|OTHER|||||||0.0112||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0112
92365045|NCT02722408|184632408|OTHER|||||||0.0018||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0018
92365046|NCT02722408|184632408|OTHER|||||||0.0028||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH).||||0.0028
92365047|NCT02722408|184632409|OTHER|||||||0.8985||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.8985
92365048|NCT02722408|184632409|OTHER|||||||0.7664||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.7664
92166688|NCT00364013|184223424|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.98||||0.9822|TWO_SIDED|95.0|0.65|1.47|||Stratified exact test|Adjusted for geographic region and ECOG score|The odds ratio is defined as the odds of having an objective response in the panitumumab plus arm relative to the odds on the FOLFOX alone arm.|||1.47|0.65|0.9822
92365049|NCT02722408|184632409|OTHER|||||||0.4755||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.4755
92365050|NCT02722408|184632409|OTHER|||||||0.2286||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.2286
92365051|NCT02722408|184632409|OTHER|||||||0.3975||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.3975
92365052|NCT02722408|184632409|OTHER|||||||0.446||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.4460
92365053|NCT02722408|184632409|OTHER|||||||0.9414||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.9414
92365054|NCT02722408|184632409|OTHER|||||||0.9735||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.9735
92404242|NCT02978781|184699769|OTHER||Least Squares Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.628||0.0278|TWO_SIDED|95.0|-2.87|-0.19|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|-0.19|-2.87|0.0278
92166689|NCT00891930|184223428|SUPERIORITY|||||||0.013|||||||Regression, Cox|||||||0.0130
92166690|NCT03873337|184223450|SUPERIORITY||||||<|0.001||||||not adjusted for multiple comparisons|t-test, 1 sided|df = 25||One-tailed, paired sample t-tests will be used to examine decreases in scores on the TASQ at one-month post target quit date (2-months after baseline assessment.||||<0.001
92365055|NCT02722408|184632409|OTHER|||||||0.9825||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.9825
92365056|NCT02722408|184632409|OTHER|||||||0.442||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.4420
92365057|NCT02722408|184632409|OTHER|||||||0.0378||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0378
92365058|NCT02722408|184632409|OTHER|||||||0.0378||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0378
92166691|NCT03873337|184223450|SUPERIORITY|||||||0.002||||||not adjusted for multiple comparisons|t-test, 1 sided|df = 27||One-tailed, paired sample t-tests will be used to examine decreases in scores on the TASQ at 3-months post target quit date (4 months after baseline assessment.||||0.002
92276865|NCT00591253|184455303|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.15||||0.004|TWO_SIDED|95.0|1.27|3.65||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||3.65|1.27|0.004
92276866|NCT00591253|184455303|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93||||0.016|TWO_SIDED|95.0|1.13|3.31||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||3.31|1.13|0.016
92276867|NCT00591253|184455304|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.018|TWO_SIDED|95.0|1.11|3.08||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||3.08|1.11|0.018
92276868|NCT00591253|184455304|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89||||0.015|TWO_SIDED|95.0|1.13|3.16||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||3.16|1.13|0.015
92276869|NCT00591253|184455305|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.35||||0.004|TWO_SIDED|95.0|1.31|4.24||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||4.24|1.31|0.004
92276870|NCT00591253|184455305|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84|||<|0.001|TWO_SIDED|95.0|1.57|5.13||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.13|1.57|<0.001
92276871|NCT00362401|184455306|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||The comparison of the three valve groups with respect to the objective sound measures was made by the one-way ANOVA method. The null hypothesis is that there is no difference on intensity of heart valve sounds among the three groups.||||<0.05
92276872|NCT01841359|184455323|OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.90
92276873|NCT01841359|184455324|OTHER|||||||0.08|||||||t-test, 2 sided|||||||0.08
92276874|NCT01841359|184455325|OTHER||||||=|0.20492|||||||t-test, 2 sided|||||||= 0.20492
92276875|NCT01841359|184455326|OTHER|||||||0.2655|||||||t-test, 2 sided|||||||0.2655
92276876|NCT01841359|184455327|OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
92276877|NCT01841359|184455328|OTHER|||||||0.597|||||||t-test, 2 sided|||||||0.597
92365059|NCT02722408|184632410|OTHER|||||||0.2305||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.2305
92276878|NCT01841359|184455329|OTHER|||||||0.37|||||||t-test, 2 sided|||||||0.37
92276879|NCT01841359|184455330|OTHER|||||||0.14|||||||t-test, 2 sided|||||||0.14
92276880|NCT01841359|184455331|OTHER|||||||0.412|||||||t-test, 2 sided|||||||0.412
92365060|NCT02722408|184632410|OTHER|||||||0.1836||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.1836
92365061|NCT02722408|184632410|OTHER|||||||0.6501||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.6501
92166692|NCT03873337|184223451|SUPERIORITY||||||<|0.001||||||not adjusted for multiple comparisons|t-test, 1 sided|df = 27||One-tailed, paired sample t-tests will be used to examine decreases in cigarettes smoked per day at one-month post target quit date (2-months after baseline assessment.||||<0.001
92276881|NCT01841359|184455332|OTHER|||||||0.89|||||||t-test, 2 sided|||||||0.890
92276882|NCT01841359|184455333|OTHER|||||||0.69|||||||Fisher Exact|||||||0.69
92276883|NCT03764059|184455336|NON_INFERIORITY|The test for non-inferiority is based on a 95% CI of the difference between the investigational and control groups with respect to the rate of clinically acceptable restorations at 1-year post placement. The non-inferiority margin was 7%. To establish non-inferiority the lower limit has to be \> -7%|Risk Difference (RD)|4.2|||<|0.0001|TWO_SIDED|95.0||9.2|||Cochran-Mantel-Haenszel|||||9.2|- 0.6|< 0.0001
92276884|NCT00769015|184455341|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.54||||0.067|TWO_SIDED|95.0|0.27|1.06||Mantel-Haenszel chi-square test. The p-value refers to the overall test of between group differences in rates of depression.|Mantel Haenszel|||||1.06|.27|.067
92276885|NCT00769015|184455342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.81||||0.75|TWO_SIDED|95.0|-5.92|4.3|||Linear Mixed effects model|||||4.30|-5.92|.75
92276886|NCT00769015|184455343|SUPERIORITY_OR_OTHER||Change in least squares mean|3.47||||0.68|TWO_SIDED|95.0|-12.22|5.29|||Mixed Models Analysis|||||5.29|-12.22|.68
92276887|NCT00769015|184455344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.42||||0.34|TWO_SIDED|95.0|-2.58|7.41|||Least squares mean|||||7.41|-2.58|.34
92276888|NCT00769015|184455345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.02||||0.68|TWO_SIDED|95.0|-9.8|5.76|||Least squares mean|||||5.76|-9.80|.68
92365062|NCT02722408|184632410|OTHER|||||||0.0139||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0139
92276889|NCT00769015|184455346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39||||0.68|TWO_SIDED|95.0|-4.04|6.82|||Least squares mean|||||6.82|-4.04|.68
92365063|NCT02722408|184632410|OTHER|||||||0.0077||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.0077
92365064|NCT02722408|184632410|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||<0.0001
92365065|NCT02722408|184632410|OTHER|||||||0.0507||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0507
92365066|NCT02722408|184632410|OTHER|||||||0.0118||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0118
92365067|NCT02722408|184632410|OTHER|||||||0.0122||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0122
92365068|NCT02722408|184632410|OTHER|||||||0.0077||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0077
92365069|NCT02722408|184632410|OTHER|||||||0.0317||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0317
92404243|NCT02978781|184699770|OTHER||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.258||0.9579|TWO_SIDED|95.0|-0.57|0.54|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Forward outstretched postural tremor (FOPT) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.54|-0.57|0.9579
92365070|NCT02722408|184632410|OTHER|||||||0.0473||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH).||||0.0473
92365071|NCT02722408|184632411|OTHER|||||||0.2143||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.2143
92365072|NCT02722408|184632411|OTHER|||||||0.1874||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.1874
92365073|NCT02722408|184632411|OTHER|||||||0.6731||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.6731
92365074|NCT02722408|184632411|OTHER|||||||0.0027||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0027
92365075|NCT02722408|184632411|OTHER|||||||0.002||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0020
92166693|NCT03873337|184223451|SUPERIORITY||||||<|0.001||||||not adjusted for multiple comparisons|t-test, 1 sided|df = 27||One-tailed, paired sample t-tests will be used to examine decreases in cigarettes smoked per day at 3-months post target quit date (4-months after baseline assessment.||||<0.001
92166694|NCT01574807|184223455|SUPERIORITY||Percentage difference|0.0||||1|TWO_SIDED|||||Multiple McNemar tests corrected with Step-down Bonferroni method of Holm. A priori threshold for significance was 0.05.|McNemar|||||||1.00
92166695|NCT01185782|184223472|NON_INFERIORITY_OR_EQUIVALENCE|"The primary endpoint was to determine whether or not SJ-0021 is inferior to u-hFSH in inducing ovulation. The criterion for non-inferiority was that the lower limit of the two-sided 95% CI (= one-sided 97.5% CI) had to be greater than -15% for SJ-0021 to be considered not inferior to u-hFSH.)"|Delta|-3.51|||||TWO_SIDED|95.0|-13.05|6.04|||Chi-squared|||||6.04|-13.05|
92166696|NCT01185782|184223473|SUPERIORITY_OR_OTHER|||||||0.214||95.0|||||Chi-squared|||||||0.214
92166697|NCT01185782|184223474|SUPERIORITY_OR_OTHER|||||||0.087||95.0|||||t-test, 2 sided|||||||0.087
92166698|NCT01185782|184223475|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||t-test, 2 sided|||||||0.069
92166699|NCT01185782|184223476|SUPERIORITY_OR_OTHER|||||||0.852||95.0|||||Chi-squared|||||||0.852
92166700|NCT01185782|184223477|SUPERIORITY_OR_OTHER|||||||0.102||95.0|||||Chi-squared|||||||0.102
92365076|NCT02722408|184632411|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||<0.0001
92404244|NCT02978781|184699770|OTHER||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.234||0.0039|TWO_SIDED|95.0|-1.31|-0.3|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|"Change from Baseline in Lateral wing beating postural tremor (LWBPT) at Day 15"|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|-0.30|-1.31|0.0039
92404245|NCT02978781|184699770|OTHER||Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.223||0.0099|TWO_SIDED|95.0|-1.14|-0.19|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Kinetic tremor (KT) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|-0.19|-1.14|0.0099
92404246|NCT02978781|184699771|OTHER||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41||0.1595|TWO_SIDED|95.0|-1.5|0.3|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Archimedes spirals (AS) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.3|-1.5|0.1595
92166701|NCT01185782|184223478|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Chi-squared|||||||0.560
92166702|NCT01185782|184223479|SUPERIORITY_OR_OTHER|||||||0.555||95.0|||||Chi-squared|||||||0.555
92276890|NCT00769015|184455347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.62||||0.68|TWO_SIDED|95.0|-5.94|9.17|||Least squares mean|||||9.17|-5.94|.68
92365077|NCT02722408|184632411|OTHER|||||||0.0258||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0258
92365078|NCT02722408|184632411|OTHER|||||||0.0044||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0044
92365079|NCT02722408|184632411|OTHER|||||||0.0011||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0011
92365080|NCT02722408|184632411|OTHER|||||||0.0083||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0083
92276891|NCT00947765|184455351|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92276892|NCT00947765|184455352|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92365081|NCT02722408|184632411|OTHER|||||||0.0314||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0314
92365082|NCT02722408|184632411|OTHER|||||||0.0533||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0533
92365083|NCT02722408|184632412|OTHER|||||||0.3657||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.3657
92365084|NCT02722408|184632412|OTHER|||||||0.1983||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.1983
92365085|NCT02722408|184632412|OTHER|||||||0.297||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.2970
92404247|NCT02978781|184699771|OTHER||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0126|TWO_SIDED|95.0|-0.9|-0.1|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Handwriting at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|-0.1|-0.9|0.0126
92166703|NCT01185782|184223480|SUPERIORITY_OR_OTHER|||||||0.416||95.0|||||Chi-squared|||||||0.416
92166704|NCT02507752|184223484|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Physical component score at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA).||||< 0.001
92166705|NCT02507752|184223484|SUPERIORITY_OR_OTHER||||||=|0.014|TWO_SIDED||||||ANOVA|||Mental component score at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA).||||= 0.014
92276893|NCT00947765|184455353|SUPERIORITY_OR_OTHER|||||||0.0022||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0022
92276894|NCT00947765|184455354|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.003
92276895|NCT00947765|184455355|SUPERIORITY_OR_OTHER|||||||0.0127||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0127
92365086|NCT02722408|184632412|OTHER|||||||0.0092||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0092
92166706|NCT02507752|184223486|SUPERIORITY_OR_OTHER||||||=|0.021|TWO_SIDED||||||ANOVA|||Mean change from Baseline in ESR at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.021
92365087|NCT02722408|184632412|OTHER|||||||0.0049||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.0049
92365088|NCT02722408|184632412|OTHER|||||||0.0033||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.0033
92365089|NCT02722408|184632412|OTHER|||||||0.0618||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0618
92365090|NCT02722408|184632412|OTHER|||||||0.0298||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0298
92365091|NCT02722408|184632412|OTHER|||||||0.0352||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0352
92365092|NCT02722408|184632412|OTHER|||||||0.0001||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0001
92166707|NCT02507752|184223486|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||ANOVA|||Mean change from Baseline in ESR at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.003
92276896|NCT00947765|184455356|SUPERIORITY_OR_OTHER|||||||0.0184||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0184
92365093|NCT02722408|184632412|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||<0.0001
92365094|NCT02722408|184632412|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||<0.0001
92365095|NCT02722408|184632413|OTHER|||||||0.3672||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr||||0.3672
92365096|NCT02722408|184632413|OTHER|||||||0.2101||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.2101
92365097|NCT02722408|184632413|OTHER|||||||0.3009||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.3009
92365098|NCT02722408|184632413|OTHER|||||||0.1567||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.1567
92404248|NCT02978781|184699771|OTHER||Least Squares Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.151||0.1536|TWO_SIDED|95.0|-0.55|0.1|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Dot approximation task (DAT) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.10|-0.55|0.1536
92166708|NCT02507752|184223487|SUPERIORITY_OR_OTHER||||||=|0.744|TWO_SIDED||||||ANOVA|||Mean change from Baseline in CRP at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.744
92276897|NCT00947765|184455357|SUPERIORITY_OR_OTHER|||||||0.0058||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0058
92365099|NCT02722408|184632413|OTHER|||||||0.1207||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.1207
92365100|NCT02722408|184632413|OTHER|||||||0.1045||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.1045
92166709|NCT02507752|184223487|SUPERIORITY_OR_OTHER||||||=|0.646|TWO_SIDED||||||ANOVA|||Mean change from Baseline in CRP at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.646
92166710|NCT02507752|184223488|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in SJC at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92276898|NCT00947765|184455358|SUPERIORITY_OR_OTHER|||||||0.0064||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0064
92224700|NCT02889796|184351033|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.037|<|0.001|TWO_SIDED|95.0|-0.34|-0.19||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.19|-0.34|<0.001
92166711|NCT02507752|184223488|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in SJC at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92276899|NCT01328054|184455359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.31|STANDARD_ERROR_OF_MEAN|2.151|||TWO_SIDED|90.0|2.72|9.89|||||Confidence interval (CI), estimated value and dispersion value of is presented for pre dose|||9.89|2.72|
92365101|NCT02722408|184632413|OTHER|||||||0.0631||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0631
92365102|NCT02722408|184632413|OTHER|||||||0.0217||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0217
92365103|NCT02722408|184632413|OTHER|||||||0.0359||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0359
92365104|NCT02722408|184632413|OTHER|||||||0.0001||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0001
92365105|NCT02722408|184632413|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||<0.0001
92365106|NCT02722408|184632413|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||<0.0001
92365107|NCT02722408|184632414|OTHER|||||||0.9417||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.9417
92365108|NCT02722408|184632414|OTHER|||||||0.7722||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.7722
92365109|NCT02722408|184632414|OTHER|||||||0.5283||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.5283
92365110|NCT02722408|184632414|OTHER|||||||0.5905||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.5905
92404249|NCT01383356|184699780|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|Geometric mean ratio (GMR) in percent|118.0|||||TWO_SIDED|90.0|111.0|125.0|||||Lina/Met 2.5mg/500mg versus (vs.) Lina 2.5mg plus Met 500mg.|The two formulations are shown to be bioequivalent if the geometric mean ratio is contained within the 80 to 125 percent range both on measured data (statistical analysis 1) and on potency corrected data (percent potency of label claim) (statistical analysis 2). ANOVA was applied to log-transformed Cmax and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction.||125|111|
92365111|NCT02722408|184632414|OTHER|||||||0.7682||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.7682
92166712|NCT02507752|184223489|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in TJC at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92166713|NCT02507752|184223489|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in TJC at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92166714|NCT02507752|184223490|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in DAS28 at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92166715|NCT02507752|184223490|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in DAS28 at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92166716|NCT02507752|184223491|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in patient global assessment at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92365112|NCT02722408|184632414|OTHER|||||||0.9245||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.9245
92224701|NCT02889796|184351033|SUPERIORITY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.037|<|0.001|TWO_SIDED|95.0|-0.26|-0.11||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.11|-0.26|<0.001
92224702|NCT02889796|184351035|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-4.0|<0.001
92365113|NCT02722408|184632414|OTHER|||||||0.6325||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.6325
92365114|NCT02722408|184632414|OTHER|||||||0.9221||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.9221
92365115|NCT02722408|184632414|OTHER|||||||0.8387||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.8387
92365116|NCT02722408|184632414|OTHER|||||||0.0089||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0089
92365117|NCT02722408|184632414|OTHER|||||||0.0013||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0013
92365118|NCT02722408|184632414|OTHER|||||||0.0019||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0019
92404250|NCT01383356|184699780|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|GMR, potency corrected (percent)|122.0|||||TWO_SIDED|90.0|114.0|130.0|||||Lina/Met 2.5mg/500mg vs. Lina 2.5mg plus Met 500mg.|ANOVA was applied to log-transformed Cmax and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction. Results were potency corrected (GMR multiplied by the quotient of drug potency (DP) of Met in single tablet and DP of Met in combination tablet).||130|114|
92404251|NCT01383356|184699781|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|Geometric mean ratio (percent)|105.0||||||90.0|101.0|108.0|||||Lina/Met 2.5mg/500mg vs. Lina 2.5mg plus Met 500mg.|The two formulations are shown to be bioequivalent if the 90 percent confidence interval of geometric mean ratio is entirely contained within the 80 to125 percent range both on measured data (statistical analysis 1) and potency corrected data (percent potency of label claim) (statistical analysis 2). ANOVA was applied to log-transformed AUC0-t and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction.||108|101|
92404252|NCT01383356|184699781|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|GMR, potency corrected (percent)|108.0||||||90.0|105.0|112.0|||||Lina/Met 2.5mg/500mg vs.Lina 2.5mg plus Met 500mg.|ANOVA was applied to log-transformed AUC0-t and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction. Results were potency corrected (GMR multiplied by the quotient of DP of Met in single tablet and DP of Met in combination tablet).||112|105|
92404253|NCT01383356|184699782|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE), AUC0-inf was no BE criteria|Geometric mean ratio (percent)|105.0||||||90.0|101.0|108.0|||||Lina/Met 2.5mg/500mg vs. Lina 2.5mg plus Met 500mg.|ANOVA was applied to log-transformed AUC0-inf and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction.||108|101|
92365119|NCT02722408|184632415|OTHER|||||||0.9195||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.9195
92365120|NCT02722408|184632415|OTHER|||||||0.7497||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.7497
92365121|NCT02722408|184632415|OTHER|||||||0.5056||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.5056
92365122|NCT02722408|184632415|OTHER|||||||0.2468||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.2468
92276900|NCT01328054|184455359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.43|STANDARD_ERROR_OF_MEAN|2.059|||TWO_SIDED|90.0|3.0|9.87|||||CI, estimated value and dispersion value of is presented for 1 hour post dose|||9.87|3.00|
92365123|NCT02722408|184632415|OTHER|||||||0.392||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.3920
92365124|NCT02722408|184632415|OTHER|||||||0.4456||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.4456
92166717|NCT02507752|184223491|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in patient global assessment at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92166718|NCT02507752|184223492|SUPERIORITY_OR_OTHER||||||=|0.011|TWO_SIDED||||||ANOVA|||Change in HAQ score from screening to Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.011
92166719|NCT02507752|184223492|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||ANOVA|||Change in HAQ score from screening to Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.001
92166720|NCT02507752|184223493|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change in pain scale from screening to Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92166721|NCT02507752|184223493|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change in pain scale from screening to Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92365125|NCT02722408|184632415|OTHER|||||||0.9203||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.9203
92365126|NCT02722408|184632415|OTHER|||||||0.9704||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.9704
92365127|NCT02722408|184632415|OTHER|||||||0.9755||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.9755
92365128|NCT02722408|184632415|OTHER|||||||0.4213||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.4213
92365129|NCT02722408|184632415|OTHER|||||||0.03||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0300
92404254|NCT01383356|184699782|NON_INFERIORITY_OR_EQUIVALENCE|BE, AUC0-inf was no BE criteria|GMR, potency corrected (percent)|108.0||||||90.0|105.0|112.0|||||Lina/Met 2.5mg/500mg vs. Lina 2.5mg plus Met 500mg.|ANOVA was applied to log-transformed AUC0-inf and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction. Results were potency corrected (GMR multiplied by the quotient of DP of Met in single tablet and DP of Met in combination tablet).||112|105|
92166722|NCT02507752|184223494|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||ANOVA|||Physical component score at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.001
92365130|NCT02722408|184632415|OTHER|||||||0.03||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0300
92365131|NCT02722408|184632421|OTHER|||||||0.0294||||||Mixed-effects model for repeated measures analysis with percent change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300mg: Day 28||||0.0294
92365132|NCT02722408|184632421|OTHER|||||||0.3228||||||Mixed-effects model for repeated measures analysis with percent change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.3228
92365133|NCT02722408|184632421|OTHER|||||||0.5268||||||Mixed-effects model for repeated measures analysis with percent change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.5268
92365134|NCT02722408|184632422|OTHER|||||||0.1099||||||Mixed-effects model for repeated measures analysis with change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.1099
92166723|NCT02507752|184223494|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||ANOVA|||Mental component score at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.001
92166724|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.102|TWO_SIDED||||||ANOVA|||Physical functioning domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.102
92166725|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||ANOVA|||Physical functioning domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.008
92166726|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||ANOVA|||Role physical domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.008
92166727|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Role physical domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92166728|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.002|TWO_SIDED||||||ANOVA|||Bodily pain domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.002
92224703|NCT02889796|184351035|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6||0.01|TWO_SIDED|95.0|-3.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-3.0|0.010
92224704|NCT02889796|184351035|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
92224705|NCT02889796|184351035|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
92224706|NCT02889796|184351035|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
92224707|NCT02889796|184351035|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
92224708|NCT02889796|184351035|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-4.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-4.0|<0.001
92224709|NCT02889796|184351035|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92224710|NCT02889796|184351037|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.002|TWO_SIDED|95.0|-2.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-2.0|0.002
92224711|NCT02889796|184351037|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.047|TWO_SIDED|95.0|-2.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-2.0|0.047
92224712|NCT02889796|184351037|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92276901|NCT01328054|184455359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.71|STANDARD_ERROR_OF_MEAN|1.734|||TWO_SIDED|90.0|4.82|10.6|||||CI, estimated value and dispersion value of is presented for 2 hour post dose|||10.60|4.82|
92365135|NCT02722408|184632422|OTHER|||||||0.5478||||||Mixed-effects model for repeated measures analysis with change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.5478
92365136|NCT02722408|184632422|OTHER|||||||0.8837||||||Mixed-effects model for repeated measures analysis with change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.8837
92365137|NCT02722408|184632423|OTHER|||||||0.0587||||||Mixed-effects model for repeated measures analysis with percent change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0587
92404255|NCT02054104|184699795|OTHER|||||||0.36|||||||Mann-Whitney U test|||||||0.36
92365138|NCT02722408|184632423|OTHER|||||||0.1491||||||Mixed-effects model for repeated measures analysis with percent change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.1491
92404256|NCT00084136|184699809|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51|||<|0.01|TWO_SIDED|95.0|1.12|2.04||Not adjusted for multiple interim analyses. Peto-Haybittle spending function was used as a basis for calculating the repeated confidence intervals used in interim monitoring.|Log Rank|Log-rank test was stratified by country and screening RNA (\< 100,000 c/mL vs \>= 100,000 copies/mL).|The HR is for ddI+FTC+ATV vs. ZDV/3TC+EFV.|||2.04|1.12|<0.01
92404257|NCT00084136|184699810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.72|1.27|||Other||The HR is for TDF/FTC+EFV vs. ZDV/3TC+EFV.|While original study design specified a non-inferiority test, study follow-up stopped early, not due to treatment effect size or futility, but due to slowing accumulation of primary outcome events. Therefore, 2-sided, 95% confidence intervals about the estimated treatment effect (relative effect estimated by a hazard ratio) are provided.||1.27|0.72|
92404258|NCT00836693|184699836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|2.2|5.5||p-value is for Week 12 Change. The null hypothesis concerning tadalafil versus placebo was to be rejected if, and only if, the three primary hypotheses (H01, H02, and H03) were all rejected therefore no adjustments for multiple comparisons were made.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||5.5|2.2|<0.001
92404259|NCT00836693|184699837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7|STANDARD_ERROR_OF_MEAN|3.35|<|0.001|TWO_SIDED|95.0|5.1|18.3||p-value is for Week 12 Change. The null hypothesis concerning tadalafil versus placebo was to be rejected if, and only if, the three primary hypotheses (H01, H02, and H03) were all rejected therefore no adjustments for multiple comparisons were made.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||18.3|5.1|<0.001
92404260|NCT00836693|184699838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.0|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|8.9|27.0||p-value is for Week 12 Change. The null hypothesis concerning tadalafil versus placebo was to be rejected if, and only if, the three primary hypotheses (H01, H02, and H03) were all rejected therefore no adjustments for multiple comparisons were made.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||27.0|8.9|<0.001
92404261|NCT00836693|184699842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.2|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|9.5|22.8||P-value is for Week 12 change. For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The change from baseline to endpoint in morning erection percentages was analyzed with an ANCOVA model including terms for baseline value, treatment group, country, age and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||22.8|9.5|<0.001
92404262|NCT00836693|184699843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0|STANDARD_ERROR_OF_MEAN|3.11|>|0.001|TWO_SIDED|95.0|13.9|26.1||p-value is for Week 12 Change. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANOVA|||The models included terms for baseline value of the efficacy variable,treatment group,country, and the baseline-by-treatment-group interaction.In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||26.1|13.9|>0.001
92166729|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Bodily pain domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
92166730|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.077|TWO_SIDED||||||ANOVA|||General health domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.077
92166731|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.068|TWO_SIDED||||||ANOVA|||General health domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.068
92166732|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.018|TWO_SIDED||||||ANOVA|||Vitality domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.018
92166733|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.053|TWO_SIDED||||||ANOVA|||Vitality domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.053
92166734|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.002|TWO_SIDED||||||ANOVA|||Social functioning domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.002
92166735|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||ANOVA|||Social functioning domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.003
92224713|NCT02889796|184351037|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92224714|NCT02889796|184351037|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92404263|NCT00836693|184699844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7|STANDARD_ERROR_OF_MEAN|3.17|<|0.001|TWO_SIDED|95.0|5.5|18.0||p-value is for Total (Change). For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||18.0|5.5|<0.001
92404264|NCT00836693|184699844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.2|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|6.6|19.8||p-value is for Sexual Relationship Domain(Change).For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||19.8|6.6|<0.001
92404265|NCT00836693|184699844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9|STANDARD_ERROR_OF_MEAN|3.34||0.0034|TWO_SIDED|95.0|3.3|16.5||p-value is for Confidence Domain (Change).For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||16.5|3.3|0.0034
92404266|NCT00836693|184699844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|3.52||0.002|TWO_SIDED|95.0|4.1|17.9||p-value is for Self-Esteem Domain (Change).For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||17.9|4.1|0.0020
92404267|NCT00836693|184699844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5|STANDARD_ERROR_OF_MEAN|4.07||0.0653|TWO_SIDED|95.0|-0.5|15.6||p-value is for Overall Relationship Domain(Change).For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||15.6|-0.5|0.0653
92276902|NCT01328054|184455359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.42|STANDARD_ERROR_OF_MEAN|2.085|||TWO_SIDED|90.0|2.94|9.89|||||CI, estimated value and dispersion value of is presented for 3 hour post dose|||9.89|2.94|
92276903|NCT01328054|184455359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|2.434|||TWO_SIDED|90.0|2.54|10.65|||||CI, estimated value and dispersion value of is presented for 4 hour post dose|||10.65|2.54|
92404268|NCT00836693|184699845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|0.7|1.9||p-value is for Week 12 Change.For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||1.9|0.7|<0.001
92404269|NCT00836693|184699846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.25||0.0089|TWO_SIDED|95.0|0.2|1.1||p-value is for Week 12 Change. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||1.1|0.2|0.0089
92404270|NCT00836693|184699847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|0.37||0.0461|TWO_SIDED|95.0|0.0|1.5||p-value is for Week 12 Change. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||1.5|0.0|0.0461
92404271|NCT00836693|184699848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|0.7|1.9||p-value is for Week 12 Change. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||1.9|0.7|<0.001
92404272|NCT00836693|184699849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3|STANDARD_ERROR_OF_MEAN|2.22||0.0047|TWO_SIDED|95.0|2.0|10.7||p-value is for Week 12 Change. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Baseline = Visit 2; Endpoint = the last non-missing post-baseline value until Visit 5; Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (that is, if p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on the type 3 sums of squares.||10.7|2.0|0.0047
92405789|NCT02085161|184701884|SUPERIORITY_OR_OTHER||LSMean Difference|0.478|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001|TWO_SIDED|95.0|0.35|0.606||Mixed effect Model Repeat Measurement (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||0.606|0.350|<0.0001
92166736|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.015|TWO_SIDED||||||ANOVA|||Role emotional domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.015
92166737|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.154|TWO_SIDED||||||ANOVA|||Role emotional domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.154
92166738|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.024|TWO_SIDED||||||ANOVA|||Mental health domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.024
92166739|NCT02507752|184223495|SUPERIORITY_OR_OTHER||||||=|0.029|TWO_SIDED||||||ANOVA|||Mental health domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.029
92166740|NCT01240330|184223522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.9|STANDARD_DEVIATION|7.46|<|0.0001|TWO_SIDED|95.0|16.3|21.59|||t-test, 1 sided|||The femoral venous peak flow velocity (PFV) compared to the subject's own resting baseline PFV.||21.59|16.30|<0.0001
92276904|NCT01328054|184455359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.86|STANDARD_ERROR_OF_MEAN|2.573|||TWO_SIDED|90.0|1.57|10.14|||||CI, estimated value and dispersion value of is presented for 6 hour post dose|||10.14|1.57|
92166741|NCT05082935|184223532|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.09|TWO_SIDED|95.0|-0.008|0.104|||ANCOVA|||||0.104|-0.008|0.09
92166742|NCT05082935|184223533|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.02|TWO_SIDED|95.0|0.02|0.29|||ANCOVA|||||0.29|0.02|0.02
92166743|NCT05082935|184223534|SUPERIORITY||Ratio of Means|-0.076||||0.03|TWO_SIDED|95.0|-0.145|-0.007|||ANCOVA|||||-0.007|-0.145|0.03
92166744|NCT05082935|184223535|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.38|TWO_SIDED|95.0|-0.04|0.09|||ANCOVA|||||0.09|-0.04|0.38
92166745|NCT05082935|184223536|SUPERIORITY||Mean Difference (Final Values)|0.096||||0.002|TWO_SIDED|95.0|0.04|0.16|||ANCOVA|||||0.16|0.04|0.002
92224715|NCT02889796|184351037|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-2.0|<0.001
92365139|NCT02722408|184632423|OTHER|||||||0.2224||||||Mixed-effects model for repeated measures analysis with percent change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.2224
92224716|NCT02889796|184351037|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
92224717|NCT02889796|184351037|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-2.0|<0.001
92224718|NCT02889796|184351039|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-11.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-11.0|<0.001
92224719|NCT02889796|184351039|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-7.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-7.0|<0.001
92224720|NCT02889796|184351039|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-12.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-12.0|<0.001
92224721|NCT02889796|184351039|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-7.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-7.0|<0.001
92224722|NCT02889796|184351039|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-16.0|-10.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-10.0|-16.0|<0.001
92365140|NCT02722408|184632424|OTHER|||||||0.0959||||||Mixed-effects model for repeated measures analysis with change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0959
92224723|NCT02889796|184351039|SUPERIORITY||Least Squares Mean Difference|-10.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-12.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-12.0|<0.001
92224724|NCT02889796|184351039|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-14.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-14.0|<0.001
92276905|NCT01328054|184455359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.91|STANDARD_ERROR_OF_MEAN|2.735|||TWO_SIDED|90.0|0.35|9.47|||||CI, estimated value and dispersion value of is presented for 8 hour post dose|||9.47|0.35|
92365141|NCT02722408|184632424|OTHER|||||||0.0923||||||Mixed-effects model for repeated measures analysis with change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0923
92365142|NCT02722408|184632424|OTHER|||||||0.1592||||||Mixed-effects model for repeated measures analysis with change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.1592
92365143|NCT02722408|184632425|OTHER|||||||0.5856||||||Mixed-effects model for repeated measures analysis with percent change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.5856
92166746|NCT01391832|184223621|SUPERIORITY|Comparison of differences between rTMS+CPT and sham+CPT groups in change Clinical Administered Post-Traumatic Scale Total Severity Scores from baseline to 1-month follow-up.|t-value on group differences in change|-1.51|||>|0.05|ONE_SIDED|||||Predicted effects on symptom reduction were evaluated with α = 0.05 for one-tailed t-distributions, recommended for designs examining efficacy of therapeutic interventions (Overall, 1991).|Mixed Models Analysis|Restricted maximum likelihood estimators of variance components for fixed effects; Satterthwaite estimates of effective degrees of freedom.|degrees of freedom = 327|Restricted maximum likelihood estimators (ReML) of the variance components were used to compute the maximum likelihood estimators of the fixed effects parameters (i.e., group, time, therapist, all two-way interaction terms, and the three-way interaction term). Thus, we did not exclude participants with missing time points.||||>0.05
92166747|NCT01391832|184223621|SUPERIORITY|Comparison of differences between rTMS+CPT and sham+CPT groups in change Clinical Administered Post-Traumatic Scale Total Severity Scores from baseline to 3-month follow-up.|t-value on group differences in change|-2.05|||<|0.05|ONE_SIDED|||||Predicted effects on symptom reduction were evaluated with α = 0.05 for one-tailed t-distributions, recommended for designs examining efficacy of therapeutic interventions (Overall, 1991).|Mixed Models Analysis|Restricted maximum likelihood estimators of variance components for fixed effects; Satterthwaite estimates of effective degrees of freedom.|degrees of freedom = 327|Restricted maximum likelihood estimators (ReML) of the variance components were used to compute the maximum likelihood estimators of the fixed effects parameters (i.e., group, time, therapist, all two-way interaction terms, and the three-way interaction term). Thus, we did not exclude participants with missing time points.||||<0.05
92224725|NCT02889796|184351039|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-11.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-11.0|<0.001
92276906|NCT01328054|184455359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.75|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|90.0|4.08|13.42|||||CI, estimated value and dispersion value of is presented for 10 hour post dose|||13.42|4.08|
92276907|NCT01328054|184455359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.76|STANDARD_ERROR_OF_MEAN|2.759|||TWO_SIDED|90.0|1.16|10.36|||||CI, estimated value and dispersion value of is presented for 12 hour post dose|||10.36|1.16|
92365144|NCT02722408|184632425|OTHER|||||||0.644||||||Mixed-effects model for repeated measures analysis with percent change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.6440
92365145|NCT02722408|184632425|OTHER|||||||0.2269||||||Mixed-effects model for repeated measures analysis with percent change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.2269
92365146|NCT02722408|184632426|OTHER|||||||0.4814||||||Mixed-effects model for repeated measures analysis with change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.4814
92365147|NCT02722408|184632426|OTHER|||||||0.5011||||||Mixed-effects model for repeated measures analysis with change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.5011
92365148|NCT02722408|184632426|OTHER|||||||0.4356||||||Mixed-effects model for repeated measures analysis with change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.4356
92365149|NCT02722408|184632427|OTHER|||||||0.0669||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0669
92404273|NCT00836693|184699850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.5|STANDARD_ERROR_OF_MEAN|4.99|<|0.001|TWO_SIDED|95.0|14.6|34.3||p-value is for Week 12 Change.For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Baseline = Visit 2; Endpoint = the last non-missing post-baseline value until Visit 5; Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (that is, if p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on the type 3 sums of squares.||34.3|14.6|<0.001
92404274|NCT00836693|184699851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.5|STANDARD_ERROR_OF_MEAN|4.96|<|0.001|TWO_SIDED|95.0|13.7|33.2||p-value is for Week 12 Change.For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Baseline = Visit 2; Endpoint = the last non-missing post-baseline value until Visit 5; Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (that is, if p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on the type 3 sums of squares.||33.2|13.7|<0.001
92365150|NCT02722408|184632427|OTHER|||||||0.0189||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0189
92365151|NCT02722408|184632427|OTHER|||||||0.0316||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0316
92224726|NCT02889796|184351041|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-10.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-10.0|<0.001
92224727|NCT02889796|184351041|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-8.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-8.0|<0.001
92224728|NCT02889796|184351041|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-11.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-11.0|<0.001
92166748|NCT01391832|184223621|SUPERIORITY|Comparison of differences between rTMS+CPT and sham+CPT groups in change Clinical Administered Post-Traumatic Scale Total Severity Scores from baseline to 6-month follow-up.|t-value on group differences in change|-2.01|||<|0.05|ONE_SIDED|||||Predicted effects on symptom reduction were evaluated with α = 0.05 for one-tailed t-distributions, recommended for designs examining efficacy of therapeutic interventions (Overall, 1991).|Mixed Models Analysis|Restricted maximum likelihood estimators of variance components for fixed effects; Satterthwaite estimates of effective degrees of freedom.|degrees of freedom = 327|Restricted maximum likelihood estimators (ReML) of the variance components were used to compute the maximum likelihood estimators of the fixed effects parameters (i.e., group, time, therapist, all two-way interaction terms, and the three-way interaction term). Thus, we did not exclude participants with missing time points.||||<0.05
92224729|NCT02889796|184351041|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-9.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-9.0|<0.001
92224730|NCT02889796|184351041|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-10.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-10.0|<0.001
92224731|NCT02889796|184351041|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-10.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-10.0|<0.001
92224732|NCT02889796|184351041|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-11.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-11.0|<0.001
92276908|NCT01328054|184455359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75|STANDARD_ERROR_OF_MEAN|2.164|||TWO_SIDED|90.0|0.15|7.36|||||CI, estimated value and dispersion value of is presented for 24 hour post dose|||7.36|0.15|
92365152|NCT02722408|184632428|OTHER|||||||0.0685||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0685
92224733|NCT02889796|184351041|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-10.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-10.0|<0.001
92224734|NCT02889796|184351043|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-12.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-12.0|<0.001
92166749|NCT01391832|184223622|SUPERIORITY||Mean Difference (Final Values)|-0.666|STANDARD_DEVIATION|0.7101||0.3422|TWO_SIDED|1.422|-0.7548|2.088||It is not adjusted for multiple comparisons.|t-test, 2 sided|degrees of freedom = 58|mean change from baseline to 6-month follow-up, rTMS Active - rTMS Sham|Null hypothesis test of differences in N2 micro-volt change from baseline to 6-month followup.||2.088|-0.7548|.3422
92166750|NCT01391832|184223622|OTHER|The analysis examined correlations in change in N2 and PTSD symptoms.|Slope|-0.3||||0.02|TWO_SIDED|||||Not adjusted|Regression, Linear|||The analysis examined the association between change in PTSD symptoms from baseline to 6-month follow-up and the change in N2 amplitude to the threatening stimulus from baseline to 6-month follow-up.|Correlations for the individual groups were active rTMS r(28)=-.373 and sham rTMS r(32)=-.296.|||0.02
92166751|NCT01154985|184223623|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Cochran-Armitage trend test|||Proportion of responders in the EPA-E 1800 mg and 2700 mg groups compared to the proportion of responders in the placebo group compared using the Cochran-Armitage trend test in the Efficacy Evaluable analysis set. P-value less than 5% 1-sided. A total sample size of 210 (70 per arm) was planned to give 80% power for detecting a positive dose-response slope among the 3 treatment arms at 12 months.||||0.57
92166752|NCT01154985|184223624|SUPERIORITY_OR_OTHER|||||||0.0137|TWO_SIDED|||||Two-sided p-values testing for significance was performed within treatment group change from baseline and comparisons between treatment groups. Multiple comparison techniques were not applied.|ANCOVA|||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 1,800 mg/day EPA-E treatment group compared to placebo.||||0.0137
92166753|NCT01154985|184223624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.2|||||TWO_SIDED|95.0|3.4|29.1||||||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 1,800 mg/day EPA-E treatment group compared to placebo.||29.1|3.4|
92166754|NCT01154985|184223624|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||Two-sided p-values testing for significance was performed within treatment group change from baseline and comparisons between treatment groups. Multiple comparison techniques were not applied.|ANCOVA|||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 2,700 mg/day EPA-E treatment group compared to placebo.||||0.0006
92166755|NCT01154985|184223624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.0|||||TWO_SIDED|95.0|9.6|34.4||||||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 2,700 mg/day EPA-E treatment group compared to placebo.||34.4|9.6|
92224735|NCT02889796|184351043|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-8.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-8.0|<0.001
92224736|NCT02889796|184351043|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-12.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-12.0|<0.001
92224737|NCT02889796|184351043|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-9.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-9.0|<0.001
92224738|NCT02889796|184351043|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-15.0|-9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-9.0|-15.0|<0.001
92404275|NCT00836693|184699852|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for Global Assessment Questions GAQ1. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|Wilcoxon (Mann-Whitney)|||Wilcoxon's rank sum test was used to compare responses to GAQs between treatment groups.||||<0.0001
92276909|NCT03740100|184455383|OTHER||Percent with objective response|17.0|||||TWO_SIDED|95.0|1.0|58.0||||||The primary endpoint was to determine the objective response rate of patients with R/M HNSCC harboring NOTCH1 LOF mutations to oral bimiralisib using RECIST v1.1. We used a Simon's optimal two-stage design. In order to have 80% power to detect a response rate of 30%, (one-sided α=0.05 and β=0.20), we planned to enroll up to 10 patients in the first stage. If ≥ 2 patients had an objective response, then the study would enroll an additional 19 patients in the second stage.||58|1|
92404276|NCT00836693|184699853|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for Global Assessment Question GAQ2.For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|Wilcoxon (Mann-Whitney)|||Wilcoxon's rank sum test was used to compare responses to GAQs between treatment groups.||||<0.0001
92166756|NCT01154985|184223625|SUPERIORITY_OR_OTHER|||||||0.1592|TWO_SIDED|||||Two-sided p-values testing for significance was performed within treatment group change from baseline and comparisons between treatment groups. Multiple comparison techniques were not applied.|ANCOVA|||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 1,800 mg/day EPA-E treatment group compared to placebo.||||0.1592
92166757|NCT01154985|184223625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.6|||||TWO_SIDED|95.0|-3.8|23.0||||||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 1,800 mg/day EPA-E treatment group compared to placebo.||23.0|-3.8|
92166758|NCT01154985|184223625|SUPERIORITY_OR_OTHER|||||||0.0153|TWO_SIDED|||||Two-sided p-values testing for significance was performed within treatment group change from baseline and comparisons between treatment groups. Multiple comparison techniques were not applied.|ANCOVA|||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 2,700 mg/day EPA-E treatment group compared to placebo.||||0.0153
92166759|NCT01154985|184223625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.0|||||TWO_SIDED|95.0|3.1|28.9||||||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 2,700 mg/day EPA-E treatment group compared to placebo.||28.9|3.1|
92166760|NCT00232180|184223642|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.535|0.741||Using an adaptation of Haybittle-Peto stopping criterion adjusting for two interim analyses, p-value for final primary analysis will be compared to alpha=0.049. No adjustment in alpha will be made on parameters/endpoints other than primary endpoint.|Cox proportional hazard model|||Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, time from electrocardiogram Q wave to the end of the S wave corresponding to ventricle depolarization (QRS) and atrial fibrillation as covariates.||0.741|0.535|<0.0001
92166761|NCT00232180|184223644|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.647|||<|0.0001|TWO_SIDED|95.0|0.552|0.757||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.757|0.552|<0.0001
92276910|NCT01191255|184455391|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The P-value for the change in mean serum phosphorus was calculated via an ANCOVA model with treatment as the fixed effect and Week-52-baseline as the co-variate.|ANCOVA|||||||<0.0001
92365153|NCT02722408|184632428|OTHER|||||||0.0114||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0114
92365154|NCT02722408|184632428|OTHER|||||||0.0263||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0263
92365155|NCT02722408|184632429|OTHER|||||||0.1466||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.1466
92365156|NCT02722408|184632429|OTHER|||||||0.3598||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.3598
92365157|NCT02722408|184632429|OTHER|||||||0.0685||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0685
92365158|NCT02722408|184632430|OTHER|||||||0.166||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.1660
92365159|NCT02722408|184632430|OTHER|||||||0.3423||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.3423
92404277|NCT02633306|184699855|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
92404278|NCT02633306|184699856|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
92404279|NCT02633306|184699857|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
92365160|NCT02722408|184632430|OTHER|||||||0.0313||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0313
92365161|NCT02722408|184632431|OTHER|||||||0.7196||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.7196
92365162|NCT02722408|184632431|OTHER|||||||0.4343||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.4343
92404280|NCT02633306|184699858|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
92224739|NCT02889796|184351043|SUPERIORITY||Least Squares Mean Difference|-10.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-13.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-13.0|<0.001
92224740|NCT02889796|184351043|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-14.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-14.0|<0.001
92224741|NCT02889796|184351043|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-12.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-12.0|<0.001
92224742|NCT02889796|184351045|SUPERIORITY||Least Squares Mean Difference|-10.83|STANDARD_ERROR_OF_MEAN|0.952|<|0.001|TWO_SIDED|95.0|-12.7|-8.96||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.96|-12.70|<0.001
92224743|NCT02889796|184351045|SUPERIORITY||Least Squares Mean Difference|-7.73|STANDARD_ERROR_OF_MEAN|0.947|<|0.001|TWO_SIDED|95.0|-9.58|-5.87||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.87|-9.58|<0.001
92224744|NCT02889796|184351045|SUPERIORITY||Least Squares Mean Difference|-9.39|STANDARD_ERROR_OF_MEAN|0.989|<|0.001|TWO_SIDED|95.0|-11.33|-7.45||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.45|-11.33|<0.001
92224745|NCT02889796|184351045|SUPERIORITY||Least Squares Mean Difference|-7.35|STANDARD_ERROR_OF_MEAN|0.987|<|0.001|TWO_SIDED|95.0|-9.29|-5.42||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.42|-9.29|<0.001
92224746|NCT02889796|184351045|SUPERIORITY||Least Squares Mean Difference|-8.02|STANDARD_ERROR_OF_MEAN|0.961|<|0.001|TWO_SIDED|95.0|-9.9|-6.13||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.13|-9.90|<0.001
92224747|NCT02889796|184351045|SUPERIORITY||Least Squares Mean Difference|-6.46|STANDARD_ERROR_OF_MEAN|0.96|<|0.001|TWO_SIDED|95.0|-8.35|-4.58||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.58|-8.35|<0.001
92276911|NCT01191255|184455392|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The P-value for the change in mean serum Ferritin were created via an ANCOVA model with treatment as the fixed effect and Study-baseline as the co-variate.|ANCOVA|||||||<0.0001
92404281|NCT02633306|184699859|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
92404282|NCT02633306|184699860|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
92276912|NCT01191255|184455393|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92404283|NCT02633306|184699861|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
92166762|NCT00232180|184223645|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.761||||0.0081|TWO_SIDED|95.0|0.622|0.932||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.932|0.622|0.0081
92166763|NCT00232180|184223646|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.757||||0.012|TWO_SIDED|95.0|0.609|0.941||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.941|0.609|0.0120
92166764|NCT00232180|184223647|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.768|||<|0.0001|TWO_SIDED|95.0|0.673|0.876||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.876|0.673|<0.0001
92365163|NCT02722408|184632431|OTHER|||||||0.7241||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.7241
92166765|NCT00232180|184223648|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.576|||<|0.0001|TWO_SIDED|95.0|0.473|0.702||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.702|0.473|<0.0001
92166766|NCT00232180|184223649|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.751|||<|0.0001|TWO_SIDED|95.0|0.664|0.849||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.849|0.664|<0.0001
92166767|NCT00232180|184223650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.577|||<|0.0001|TWO_SIDED|95.0|0.475|0.701||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.701|0.475|<0.0001
92166768|NCT00232180|184223651|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.694|||<|0.0001|TWO_SIDED|95.0|0.598|0.806||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.806|0.598|<0.0001
92365164|NCT02722408|184632432|OTHER|||||||0.7952||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.7952
92404284|NCT01122238|184699889|SUPERIORITY_OR_OTHER|||||||0.665|TWO_SIDED||||||ANCOVA|The mean values tested and reported consist of residualized change scores from the ANCOVA.||The ANCOVA model included intervention main effects and intervention interactions plus baseline cigarettes per day, education, race, and time to first daily cigarette as covariates. Intervention main effects included Nicotine Patch vs. No Nicotine Patch; Nicotine Gum vs. No Nicotine Gum; Smoking Reduction vs. No Smoking Reduction; and Motivational Interviewing vs. No Motivational Interviewing.||||.665
92404285|NCT01122238|184699889|SUPERIORITY_OR_OTHER|||||||0.562|TWO_SIDED||||||ANCOVA|The mean values tested and reported consist of residualized change scores from the ANCOVA.||The ANCOVA model included intervention main effects and intervention interactions plus baseline cigarettes per day, education, race, and time to first daily cigarette as covariates. Intervention main effects included Nicotine Patch vs. No Nicotine Patch; Nicotine Gum vs. No Nicotine Gum; Smoking Reduction vs. No Smoking Reduction; and Motivational Interviewing vs. No Motivational Interviewing.||||.562
92276913|NCT01191255|184455394|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92276914|NCT01191255|184455395|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92365165|NCT02722408|184632432|OTHER|||||||0.4931||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.4931
92365166|NCT02722408|184632432|OTHER|||||||0.8622||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.8622
92224748|NCT02889796|184351045|SUPERIORITY||Least Squares Mean Difference|-7.91|STANDARD_ERROR_OF_MEAN|1.007|<|0.001|TWO_SIDED|95.0|-9.88|-5.93||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.93|-9.88|<0.001
92166769|NCT00232180|184223652|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.316||||0.2321|TWO_SIDED|95.0|0.839|2.064||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||2.064|0.839|0.2321
92365167|NCT02722408|184632433|OTHER|||||||0.9823||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.9823
92365168|NCT02722408|184632433|OTHER|||||||0.9129||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.9129
92166770|NCT00232180|184223653|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.789||||0.4213|TWO_SIDED|95.0|0.443|1.406||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||1.406|0.443|0.4213
92166771|NCT00232180|184223654|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.994||||0.9754|TWO_SIDED|95.0|0.694|1.424||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||1.424|0.694|0.9754
92166772|NCT00232180|184223655|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.2652|TWO_SIDED|95.0|0.485|1.22||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||1.220|0.485|0.2652
92166773|NCT00232180|184223656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.971||||0.9537|TWO_SIDED|95.0|0.366|2.578||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||2.578|0.366|0.9537
92166774|NCT00232180|184223657|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.154||||0.8539|TWO_SIDED|95.0|0.251|5.312||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||5.312|0.251|0.8539
92166775|NCT00232180|184223658|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.585||||0.0175|TWO_SIDED|95.0|0.376|0.91||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.910|0.376|0.0175
92166776|NCT00232180|184223659|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.885||||0.6009|TWO_SIDED|95.0|0.559|1.4||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||1.400|0.559|0.6009
92166777|NCT02748317|184223660|OTHER|1 group t-test no comparison group|||||=|0.219||||||P-value is not adjusted|t-test, 2 sided|||||||=0.219
92166778|NCT01149369|184223725|NON_INFERIORITY_OR_EQUIVALENCE|P-values, relative risk ratios, and 95% confidence limits (CI) for the primary ITT were calculated using the Cochran-Mantel-Haenszel chi-square test, stratified by clinic.|Risk Ratio (RR)|1.2||||0.43|TWO_SIDED|95.0|0.8|1.7|||Cochran-Mantel-Haenszel|Stratified by clinic||Either 1) improvement in mean of available nausea VAS scores over 28-day treatment period compared to means of VAS during the 7-day baseline (BL) period being ≤ -25 mm, or 2) mean VAS after 28-days of treatment was \< 25 mm.||1.7|0.8|0.43
92166779|NCT01149369|184223726|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-1.5||||0.03|TWO_SIDED|95.0|-2.8|-0.1|||ANCOVA|||||-0.1|-2.8|0.03
92166780|NCT01149369|184223727|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.01||||0.94|TWO_SIDED|95.0|-0.3|0.3|||ANCOVA|||||0.3|-0.3|0.94
92166781|NCT01149369|184223728|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.1||||0.73|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||||0.6|-0.4|0.73
92166782|NCT01149369|184223729|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.2||||0.22|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.22
92166783|NCT01149369|184223730|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.06|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||0.0|-0.6|0.06
92224749|NCT02889796|184351045|SUPERIORITY||Least Squares Mean Difference|-6.59|STANDARD_ERROR_OF_MEAN|1.005|<|0.001|TWO_SIDED|95.0|-8.56|-4.62||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.62|-8.56|<0.001
92224750|NCT02889796|184351047|SUPERIORITY||Difference in Response Rates|12.3|||<|0.001|TWO_SIDED|95.0|5.7|18.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2.||18.9|5.7|<0.001
92224751|NCT02889796|184351047|SUPERIORITY||Difference in Response Rates|6.5||||0.043|TWO_SIDED|95.0|-0.1|13.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2.||13.1|-0.1|0.043
92365169|NCT02722408|184632433|OTHER|||||||0.7762||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 84||||0.7762
92365170|NCT02722408|184632434|OTHER|||||||0.2683||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.2683
92166784|NCT01149369|184223731|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.1||||0.24|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.24
92166785|NCT01149369|184223732|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.01|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|||||-0.1|-0.7|0.01
92224752|NCT02889796|184351047|SUPERIORITY||Difference in Response Rates|16.3|||<|0.001|TWO_SIDED|95.0|9.8|22.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4.||22.8|9.8|<0.001
92224753|NCT02889796|184351047|SUPERIORITY||Difference in Response Rates|8.1||||0.011|TWO_SIDED|95.0|1.5|14.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4.||14.7|1.5|0.011
92224754|NCT02889796|184351047|SUPERIORITY||Difference in Response Rates|21.0|||<|0.001|TWO_SIDED|95.0|14.9|27.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12.||27.0|14.9|<0.001
92365171|NCT02722408|184632434|OTHER|||||||0.088||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0880
92166786|NCT01149369|184223733|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.2||||0.22|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.22
92166787|NCT01149369|184223734|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.03||||0.51|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||||0.1|-0.1|0.51
92166788|NCT01149369|184223735|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.2||||0.12|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.12
92166789|NCT01149369|184223736|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.02|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|||||-0.1|-0.6|0.02
92365172|NCT02722408|184632434|OTHER|||||||0.0165||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0165
92166790|NCT01149369|184223737|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.3||||0.17|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||||0.7|-0.1|0.17
92365173|NCT02722408|184632435|OTHER|||||||0.4585||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.4585
92365174|NCT02722408|184632435|OTHER|||||||0.3721||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.3721
92365175|NCT02722408|184632435|OTHER|||||||0.5305||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.5305
92365176|NCT02722408|184632436|OTHER|||||||0.2937||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.2937
92365177|NCT02722408|184632436|OTHER|||||||0.2182||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.2182
92365178|NCT02722408|184632436|OTHER|||||||0.2937||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.2937
92404286|NCT01122238|184699889|SUPERIORITY_OR_OTHER|||||||0.536|TWO_SIDED||||||ANCOVA|The mean values tested and reported consist of residualized change scores from the ANCOVA.||The ANCOVA model included intervention main effects and intervention interactions plus baseline cigarettes per day, education, race, and time to first daily cigarette as covariates. Intervention main effects included Nicotine Patch vs. No Nicotine Patch; Nicotine Gum vs. No Nicotine Gum; Smoking Reduction vs. No Smoking Reduction; and Motivational Interviewing vs. No Motivational Interviewing.||||.536
92404287|NCT01122238|184699889|SUPERIORITY_OR_OTHER|||||||0.206|TWO_SIDED||||||ANCOVA|The mean values tested and reported consist of residualized change scores from the ANCOVA.||The ANCOVA model included intervention main effects and intervention interactions plus baseline cigarettes per day, education, race, and time to first daily cigarette as covariates. Intervention main effects included Nicotine Patch vs. No Nicotine Patch; Nicotine Gum vs. No Nicotine Gum; Smoking Reduction vs. No Smoking Reduction; and Motivational Interviewing vs. No Motivational Interviewing.||||.206
92404288|NCT01122238|184699890|SUPERIORITY_OR_OTHER||Standardized Regression Coefficient|0.0||||0.98|TWO_SIDED||||||Regression, Linear|||The linear regression model effects consisted of four treatment main effects, six two-way treatment interactions, four three-way treatment interactions, and one four-way interaction. Only the results for the treatment main effects are being reported in ClinicalTrials.gov.||||.98
92404289|NCT01122238|184699890|SUPERIORITY_OR_OTHER||Standardized Regression Coefficient|-0.04||||0.4|TWO_SIDED||||||Regression, Linear|||The linear regression model effects consisted of four treatment main effects, six two-way treatment interactions, four three-way treatment interactions, and one four-way interaction. Only the results for the treatment main effects are being reported in ClinicalTrials.gov.||||.40
92365179|NCT02722408|184632437|OTHER|||||||0.0411||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0411
92365180|NCT02722408|184632437|OTHER|||||||0.0192||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0192
92166791|NCT01149369|184223738|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|2.6||||0.59|TWO_SIDED|95.0|-7.0|12.2|||ANCOVA|||||12.2|-7.0|0.59
92365181|NCT02722408|184632437|OTHER|||||||0.0445||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0445
92365182|NCT02722408|184632438|OTHER|||||||0.0465||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0465
92365183|NCT02722408|184632438|OTHER|||||||0.0221||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0221
92365184|NCT02722408|184632438|OTHER|||||||0.0402||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0402
92365185|NCT04551898|184632450|SUPERIORITY||Least square Mean|-0.25||||0.4829|TWO_SIDED|90.0|-0.84|0.34|||Mixed Models Analysis|||||0.34|-0.84|0.4829
92365186|NCT04551898|184632450|SUPERIORITY||Least square Mean|-0.51||||0.1739|TWO_SIDED|90.0|-1.13|0.11|||Mixed Models Analysis|||||0.11|-1.13|0.1739
92365187|NCT04551898|184632450|SUPERIORITY||Least square Mean|0.19||||0.6006|TWO_SIDED|90.0|-0.4|0.77|||Mixed Models Analysis|||||0.77|-0.40|0.6006
92224755|NCT02889796|184351047|SUPERIORITY||Difference in Response Rates|13.6|||<|0.001|TWO_SIDED|95.0|7.3|19.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12.||19.9|7.3|<0.001
92166792|NCT01149369|184223739|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|2.1||||0.61|TWO_SIDED|95.0|-5.9|10.0|||ANCOVA|||||10.0|-5.9|0.61
92166793|NCT01149369|184223740|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.1||||0.23|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|||||0.2|-0.1|0.23
92166794|NCT01149369|184223741|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.97|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||||0.5|-0.5|0.97
92166795|NCT01149369|184223742|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|3.1||||0.77|TWO_SIDED|95.0|-18.0|24.2|||ANCOVA|||||24.2|-18.0|0.77
92166796|NCT01149369|184223743|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.1||||0.46|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.46
92365188|NCT04551898|184632450|SUPERIORITY|||||||0.4996||||||H0: there is a flat dose response curve comparing change from baseline to Day 8 in viral load in the Placebo and other BGB-DXP593 dose groups|t-test, 1 sided|MCP Mod was used to test the primary hypothesis and provide 1-sided p-value accordingly.||||||0.4996
92365189|NCT03427814|184632466|SUPERIORITY||||||=|0.1428|||||||Log Rank|The one-sided p-value was based on a stratified log-rank test.||||||= 0.1428
92365190|NCT03846427|184632473|SUPERIORITY|P value was based on the exact binomial test against the null hypothesis of ORR = 30% with alternative of ORR \> 30%|||||<|0.0001|||||||Binomial exact method|||||||<0.0001
92365191|NCT01334554|184632499|SUPERIORITY_OR_OTHER||Beta coefficient (linear regression)|0.12||||0.55|TWO_SIDED|95.0|-0.33|0.58||p- value was unadjusted. Primary outcome underwent logarithmic transformation|Regression, Linear|||H0= 4-week treatment with sildenafil citrate does not improve insulin sensitivity in obese African American women.||0.58|-0.33|0.55
92365192|NCT01334554|184632500|SUPERIORITY_OR_OTHER||Beta coefficient|0.46||||0.649|TWO_SIDED|95.0|-1.58|2.49||Adjusted for baseline values only|Regression, Linear|||||2.49|-1.58|0.649
92365193|NCT02393859|184632515|SUPERIORITY||Normal score|-11.54|||<|0.001||||||Stratification factors were: age (1 to 9 years vs other \[\< 1 year and \> 9 years\]), and marrow/MRD status (M1 with MRD level \< 10\^-3 vs M1 with MRD level ≥ 10\^-3 vs M2).|Stratified log-rank test||A normal score \< 0 indicates fewer than expected events for blinatumomab relative to HC3 and therefore a longer event-free survival time.|||||< 0.001
92365194|NCT02393859|184632515|SUPERIORITY||Normal score|-11.16||||0.001|||||||Unstratified log-rank test||A normal score \< 0 indicates fewer than expected events for blinatumomab relative to HC3 and therefore a longer event-free survival time.|||||0.001
92365195|NCT02393859|184632515|SUPERIORITY||Stratified hazard ratio (HR)|0.36|||||TWO_SIDED|95.0|0.19|0.66|||||Cox proportional hazard model. Stratification factors were: age and marrow/MRD status. (HR \< 1.0 indicates a lower average event rate and a longer EFS for blinatumomab relative to HC3.)|||0.66|0.19|
92365196|NCT02393859|184632515|SUPERIORITY||Unstratified HR|0.39|||||TWO_SIDED|95.0|0.22|0.7|||||Cox proportional hazard model. (HR \< 1.0 indicates a lower average event rate and a longer EFS for blinatumomab relative to HC3.)|||0.70|0.22|
92365197|NCT02393859|184632515|SUPERIORITY||Stratified HR w/time-dependent covariate|0.36|||||TWO_SIDED|95.0|0.2|0.64|||||Cox proportional hazard model including time from randomization to allogeneic hematopoietic stem cell transplant. Stratification factors: age and marrow/MRD status. (HR \<1.0=lower average event rate and longer EFS for blinatumomab relative to HC3.)|||0.64|0.20|
92365198|NCT02393859|184632516|SUPERIORITY||Normal score|-13.9|||<|0.001||||||Stratification factors were: age (1 to 9 years vs other \[\< 1 year and \> 9 years\]), and marrow/MRD status (M1 with MRD level \< 10\^-3 vs M1 with MRD level ≥ 10\^-3 vs M2).|Stratified log-rank test||A normal score \< 0 indicates fewer than expected events for blinatumomab relative to HC3 and therefore a longer event-free survival time.|||||< 0.001
92166797|NCT01149369|184223744|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.1||||0.44|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|||||0.4|-0.2|0.44
92365199|NCT02393859|184632516|SUPERIORITY||Normal score|-13.61|||<|0.001|||||||Unstratified log-rank test||A normal score \< 0 indicates fewer than expected events for Blinatumomab relative to HC3 and therefore a longer event free survival time.|||||< 0.001
92166798|NCT01149369|184223745|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.1||||0.77|TWO_SIDED|95.0|-0.7|0.9|||ANCOVA|||||0.9|-0.7|0.77
92365200|NCT02393859|184632516|SUPERIORITY||Stratified HR|0.35|||||TWO_SIDED|95.0|0.2|0.61|||||Cox proportional hazard model. Stratification factors were: age and marrow/MRD status. (HR \< 1.0 indicates a lower average event rate and a longer EFS for blinatumomab relative to HC3.)|||0.61|0.20|
92365201|NCT02393859|184632516|SUPERIORITY||Unstratified HR|0.38|||||TWO_SIDED|95.0|0.22|0.65|||||Cox proportional hazard model. (HR \< 1.0 indicates a lower average event rate and a longer EFS for blinatumomab relative to HC3.)|||0.65|0.22|
92365202|NCT02393859|184632516|SUPERIORITY||Stratified HR w/time-dependent covariate|0.34|||||TWO_SIDED|95.0|0.2|0.59|||||Cox proportional hazard model including time from randomization to allogeneic hematopoietic stem cell transplant. Stratification factors: age and marrow/MRD status. (HR \<1.0=lower average event rate and longer EFS for blinatumomab relative to HC3.)|||0.59|0.20|
92276915|NCT00185211|184455396|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||A 2-sided error level of 0.0253 was used for analyses at month 36 and 60 in order to keep the study-wise error level at 0.05. A conditional sequential testing approach was used for the family of null hypotheses of the primary efficacy variables.|Log Rank|||"The null hypothesis for comparison of initial IFNB-1b versus initial placebo treatment was:~H0: The survival functions (i.e., the probability that time to CDMS is ≥ t) are identical for both treatment arms for all points in time t\>0.~The two-sided alternative hypothesis was:~H1: The survival functions (i.e., the probability that time to CDMS is ≥ t) are not identical for both treatment arms for some points in time t\>0."||||0.0027
92166799|NCT01149369|184223746|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.1||||0.8|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||||0.5|-0.6|0.80
92276916|NCT00185211|184455396|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.663||||0.0028||97.47|0.488|0.902|||Regression, Cox|covariate adjustment: steroid use during first event, onset of disease, categorized number of T2 lesions at screening|The direction of comparison is initial IFNB-1b (numerator) versus initial placebo (denominator), i.e. the Hazard Ratio represents the relative risk of initial IFNB-1b treatment compared to initial placebo treatment.|Time to CDMS was modelled by a Cox proportional hazards regression model with the following covariates: treatment group, steroid use during first event (yes vs. no), onset of disease (monofocal vs. multifocal) and number of T2 lesions at screening (categories: 2-4, 5-8 and at least 9 T2 lesions). The null hypothesis was: Initial IFNB-1b and initial placebo do not differ with regard to the hazard for CDMS, i.e. hazard ratio = 1.||0.902|0.488|0.0028
92276917|NCT00185211|184455397|SUPERIORITY_OR_OTHER|||||||0.1768||95.0||||A 2-sided error level of 0.0253 was used for analyses at month 36 and 60 in order to keep the study-wise error level at 0.05. A conditional sequential testing approach was used for the family of null hypotheses of the primary efficacy variables.|Log Rank|||The null hypothesis for comparison of initial IFNB-1b versus initial placebo treatment was: H0: The survival functions (i.e., the probability that time to confirmed EDSS progression is ≥ t) are not identical for both treatment arms for some points in time t\>0. The two-sided alternative hypothesis was: H1: The survival functions (i.e., the probability that time to confirmed EDSS progression is ≥ t) are identical for both treatment arms for some points in time t\>0.||||0.1768
92365203|NCT02393859|184632517|SUPERIORITY||Normal score|-10.14||||0.001||||||Stratification factors were: age (1 to 9 years vs other \[\< 1 year and \> 9 years\]), and marrow/MRD status (M1 with MRD level \< 10\^-3 vs M1 with MRD level ≥ 10\^-3 vs M2).|Stratified log-rank test||A normal score \< 0 indicates fewer than expected events for blinatumomab relative to HC3 and therefore a longer event-free survival time.|||||0.001
92365204|NCT02393859|184632517|SUPERIORITY||Normal score|-10.32|||<|0.001|||||||Unstratified log-rank test||A normal score \< 0 indicates fewer than expected events for blinatumomab relative to HC3 and therefore a longer event-free survival time.|||||< 0.001
92365205|NCT02393859|184632517|SUPERIORITY||Stratified HR|0.33|||||TWO_SIDED|95.0|0.16|0.66|||||Cox proportional hazard model. Stratification factors were: age and marrow/MRD status. (HR \< 1.0 indicates a lower average event rate and a longer survival for blinatumomab relative to HC3.)|||0.66|0.16|
92365206|NCT02393859|184632517|SUPERIORITY||Unstratified HR|0.32|||||TWO_SIDED|95.0|0.16|0.65|||||Cox proportional hazard model. (HR \< 1.0 indicates a lower average event rate and a longer survival for blinatumomab relative to HC3.)|||0.65|0.16|
92365207|NCT02393859|184632518|SUPERIORITY||||||<|0.001||||||Cochran-Mantel-Haenszel test adjusting for the stratification factors: age (1 to 9 years vs other \[\< 1 year and \> 9 years\]), and marrow/MRD status (M1 with MRD level \< 10\^-3 vs M1 with MRD level ≥ 10\^-3 vs M2).|Cochran-Mantel-Haenszel|||MRD response by PCR||||< 0.001
92404290|NCT01122238|184699890|SUPERIORITY_OR_OTHER||Standardized Regression Coefficient|0.0||||0.99|TWO_SIDED||||||Regression, Linear|||The linear regression model effects consisted of four treatment main effects, six two-way treatment interactions, four three-way treatment interactions, and one four-way interaction. Only the results for the treatment main effects are being reported in ClinicalTrials.gov.||||.99
92365208|NCT02393859|184632518|SUPERIORITY||||||<|0.001||||||Cochran-Mantel-Haenszel test adjusting for the stratification factors: age (1 to 9 years vs other \[\< 1 year and \> 9 years\]), and marrow/MRD status (M1 with MRD level \< 10-3 vs M1 with MRD level ≥ 10-3 vs M2).|Cochran-Mantel-Haenszel|||MRD response by flow cytometry||||< 0.001
92365209|NCT02393859|184632519|SUPERIORITY||Hazard Ratio (HR)|0.29|||||TWO_SIDED|95.0|0.16|0.52|||||The subdistribution HR estimates are obtained from the subdistribution Cox model. (HR \< 1.0 indicates a lower average event rate and a longer relapse-free time for blinatumomab relative to HC3.)|||0.52|0.16|
92365210|NCT02393859|184632519|SUPERIORITY||Stratified hazard ratio (HR)|0.27|||||TWO_SIDED|95.0|0.15|0.48|||||The subdistribution HR estimates are obtained from the subdistribution Cox model. (HR \< 1.0 indicates a lower average event rate and a longer relapse-free time for blinatumomab relative to HC3.) Stratification factors are age and marrow/MRD status.|||0.48|0.15|
92365211|NCT00954447|184632527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.74|-0.55|||ANCOVA||Linagliptin 5mg - Placebo|||-0.55|-0.74|<0.0001
92166800|NCT01149369|184223747|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.88|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||||0.1|-0.1|0.88
92365212|NCT00954447|184632528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.935|||<|0.0001||95.0|1.949|4.419|||Regression, Logistic|Logistic regression of HbA1c \< 7.0 percent at week 52|Linagliptin 5mg vs. Placebo OR adjusted for baseline HbA1c, categorical renal function impairment, concomitant OADs and treatment|FAS with baseline HbA1c \>= 7.0 percent (NCF); there are 593 available values for Placebo and 595 for Linagliptin 5mg||4.419|1.949|<0.0001
92365213|NCT00954447|184632530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|-0.51|-0.39|||ANCOVA||Linagliptin 5mg - Placebo|||-0.39|-0.51|<0.0001
92365214|NCT00954447|184632531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|-0.69|-0.52|||ANCOVA||Linagliptin 5mg - Placebo|||-0.52|-0.69|<0.0001
92166801|NCT01149369|184223748|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-10.9||||0.17|TWO_SIDED|95.0|-26.5|4.7|||ANCOVA|||||4.7|-26.5|0.17
92166802|NCT01149369|184223749|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.7||||0.07|TWO_SIDED|95.0|-1.5|0.0|||ANCOVA|||||0.0|-1.5|0.07
92166803|NCT01149369|184223750|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.3||||0.53|TWO_SIDED|95.0|-0.7|1.3|||ANCOVA|||||1.3|-0.7|0.53
92365215|NCT00954447|184632532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.76|-0.57|||ANCOVA||Linagliptin 5mg - Placebo|||-0.57|-0.76|<0.0001
92166804|NCT01149369|184223751|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.93|TWO_SIDED|95.0|-0.9|1.0|||ANCOVA|||||1.0|-0.9|0.93
92166805|NCT01149369|184223752|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.52|TWO_SIDED|95.0|-1.0|0.2|||ANCOVA|||||0.2|-1.0|0.52
92166806|NCT01149369|184223753|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.76|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||||0.1|-0.1|0.76
92166807|NCT01149369|184223754|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.45|TWO_SIDED|95.0|-2.0|0.9|||ANCOVA|||||0.9|-2.0|0.45
92166808|NCT01149369|184223755|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.18|TWO_SIDED|95.0|0.0|0.1|||ANCOVA|||||0.1|0.0|0.18
92166809|NCT01149369|184223756|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.1||||0.008|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|||||-0|-0.2|0.008
92166810|NCT01149369|184223757|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.6||||0.001|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|||||-0.3|-0.9|0.001
92365216|NCT00954447|184632533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.67|-0.47|||ANCOVA||Linagliptin 5mg - Placebo|||-0.47|-0.67|<0.0001
92166811|NCT01149369|184223758|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.2|-0.4|||ANCOVA|||||-0.4|-1.2|<0.001
92166812|NCT01149369|184223759|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.13|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||||0.1|-0.7|0.13
92166813|NCT01149369|184223760|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.6||||0.004|TWO_SIDED|95.0|-1.2|-0.2|||ANCOVA|||||-0.2|-1.2|0.004
92365217|NCT00954447|184632534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.65|-0.45|||ANCOVA||Linagliptin 5mg - Placebo|||-0.45|-0.65|<0.0001
92365218|NCT00954447|184632535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.64|-0.43|||ANCOVA||Linagliptin 5mg - Placebo|||-0.43|-0.64|<0.0001
92365219|NCT00954447|184632536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|2.49|<|0.0001||95.0|-16.49|-6.71|||ANCOVA||Linagliptin 5mg - Placebo|||-6.71|-16.49|<0.0001
92365220|NCT00954447|184632539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|0.53||0.0029||95.0|-2.61|-0.54|||ANCOVA||Linagliptin 5mg - Placebo|||-0.54|-2.61|0.0029
92166814|NCT01149369|184223761|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.08|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|0.08
92166815|NCT01149369|184223762|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.007|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||||-0.1|-0.8|0.007
92166816|NCT01149369|184223763|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.7||||0.005|TWO_SIDED|95.0|-1.3|-0.2|||ANCOVA|||||-0.2|-1.3|0.005
92166817|NCT01149369|184223764|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.7||||0.001|TWO_SIDED|95.0|-1.1|-0.3|||ANCOVA|||||-0.3|-1.1|0.001
92224756|NCT02889796|184351047|SUPERIORITY||Difference in Response Rates|16.6|||<|0.001|TWO_SIDED|95.0|10.5|22.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24.||22.8|10.5|<0.001
92224757|NCT02889796|184351047|SUPERIORITY||Difference in Response Rates|14.1|||<|0.001|TWO_SIDED|95.0|7.8|20.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24.||20.3|7.8|<0.001
92224758|NCT02889796|184351049|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.9|-0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-0.9|<0.001
92224759|NCT02889796|184351049|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.5|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-0.5|<0.001
92365221|NCT00954447|184632542|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.327|||<|0.0001||95.0|2.221|8.43|||Regression, Logistic|Logistic regression of HbA1c \< 6.5 percent at week 52|Linagliptin 5mg vs. Placebo OR adjusted for baseline HbA1c, categorical renal function impairment, concomitant OADs and treatment|FAS with baseline HbA1c \>= 6.5 percent (NCF); there are 615 available values for Placebo and 616 for Linagliptin 5mg||8.430|2.221|<0.0001
92365222|NCT01979614|184632543|SUPERIORITY_OR_OTHER||Standard Error|-0.1116||||0.438|TWO_SIDED|95.0|-0.399|0.176|||ANCOVA|||SAP for Global Myocardial Perfusion Reserve Index (MPRI)||0.176|-0.399|0.438
92365223|NCT04971967|184632612|SUPERIORITY|||||||0.07|||||||Generalized linear regression|||||||0.07
92365224|NCT04971967|184632613|SUPERIORITY|||||||0.3|||||||Generalized linear regression|||||||0.30
92365225|NCT04971967|184632615|SUPERIORITY|||||||0.28|||||||Generalized linear regression|||||||0.28
92365226|NCT04971967|184632617|SUPERIORITY|||||||0.07|||||||Generalized linear regression|||||||0.07
92404291|NCT01122238|184699890|SUPERIORITY_OR_OTHER||Standardized Regression Coefficient|-0.04||||0.33|TWO_SIDED||||||Regression, Linear|||The linear regression model effects consisted of four treatment main effects, six two-way treatment interactions, four three-way treatment interactions, and one four-way interaction. Only the results for the treatment main effects are being reported in ClinicalTrials.gov.||||.33
92224760|NCT02889796|184351049|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.9|-0.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.7|-0.9|<0.001
92365227|NCT04971967|184632618|SUPERIORITY|||||||0.11|||||||Generalized linear regression|||||||0.11
92365228|NCT00052910|184632619|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.99|||||TWO_SIDED|95.0|0.79|1.24|||||Adjusted Hazard Ratio, ECF vs 5-FU/LV|||1.24|0.79|
92365229|NCT00052910|184632620|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.03|||||TWO_SIDED|95.0|0.83|1.28|||||Adjusted Hazard Ratio, ECF vs 5-FU/LV|||1.28|0.83|
92365230|NCT03181971|184632684|SUPERIORITY||Odds Ratio (OR)|0.7||||0.68|TWO_SIDED|95.0|0.2|2.9|||Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||2.9|0.2|0.68
92365231|NCT03181971|184632684|SUPERIORITY||Odds Ratio (OR)|0.1||||0.017|TWO_SIDED|95.0|0.03|0.7|||Mixed Models Analysis|||Analysis of between group change from baseline to 15 months||0.7|0.03|0.017
92404292|NCT00129402|184699891|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||ANOVA|||||||<0.01
92365232|NCT03181971|184632685|SUPERIORITY||Odds Ratio (OR)|0.4||||0.24|TWO_SIDED|95.0|0.07|2.0|||Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||2.0|0.07|.24
92365233|NCT03181971|184632685|SUPERIORITY||Odds Ratio (OR)|1.0||||0.98|TWO_SIDED|95.0|0.1|7.0|||Mixed Models Analysis|||Analysis of between group change from baseline to 15 months.||7.0|0.1|.98
92365234|NCT03181971|184632686|SUPERIORITY||Adjusted mean difference|0.2||||0.57|TWO_SIDED|95.0|-0.6|1.0|||Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||1.0|-0.6|0.57
92365235|NCT03181971|184632686|SUPERIORITY||Adjusted mean difference|-0.5||||0.4|TWO_SIDED|95.0|-1.5|0.6|||Mixed Models Analysis|||Analysis of between group change from baseline to 15 months.||0.6|-1.5|.40
92365236|NCT03181971|184632687|SUPERIORITY||Adjusted mean difference|0.04||||0.46|TWO_SIDED|95.0|-0.06|0.1|||Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||0.1|-0.06|.46
92365237|NCT03181971|184632687|SUPERIORITY||Adjusted mean difference|-0.02||||0.8|TWO_SIDED|95.0|-0.2|0.1|||Mixed Models Analysis|||Analysis of between group change from baseline to 15 months.||0.1|-0.2|.80
92365238|NCT03181971|184632688|SUPERIORITY||Adjusted mean difference|0.001||||0.93|TWO_SIDED|95.0|-0.03|0.03|||Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||0.03|-0.03|.93
92365239|NCT03181971|184632688|SUPERIORITY||Adjusted mean difference|-0.02||||0.36|TWO_SIDED|95.0|-0.06|0.02|||Mixed Models Analysis|||Analysis of between group change from baseline to 15 months.||0.02|-0.06|.36
92365240|NCT03181971|184632689|SUPERIORITY||Percent difference in change|1.4||||0.7|TWO_SIDED|95.0|-5.3|8.5||Because of skewed distributions, dietary outcomes were log-transformed and regression coefficients were exponentiated to derive the percent change in outcomes by intervention status over time.|Mixed Models Analysis|||Analysis of between group change in total kcal intake from baseline to 7 months.||8.5|-5.3|0.70
92404293|NCT00129402|184699892|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||ANOVA|||||||<0.01
92404294|NCT00129402|184699893|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||ANOVA|||||||<0.01
92404295|NCT00129402|184699894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48||95.0|||||non-parametric model|||||||.48
92404296|NCT00129402|184699895|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||ANOVA|||||||<0.01
92404297|NCT00129402|184699896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.95||95.0|||||ANOVA|||||||.95
92224761|NCT02889796|184351049|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.7|-0.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.4|-0.7|<0.001
92224762|NCT02889796|184351049|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-1.1|-0.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.8|-1.1|<0.001
92224763|NCT02889796|184351049|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.8|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-0.8|<0.001
92224764|NCT02889796|184351049|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-1.1|-0.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.8|-1.1|<0.001
92224765|NCT02889796|184351049|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.8|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-0.8|<0.001
92224766|NCT02889796|184351051|SUPERIORITY||Difference in Response Rates|9.5|||<|0.001|TWO_SIDED|95.0|5.8|13.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2||13.1|5.8|<0.001
92224767|NCT02889796|184351051|SUPERIORITY||Difference in Response Rates|4.5||||0.004|TWO_SIDED|95.0|1.4|7.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2||7.7|1.4|0.004
92365241|NCT03181971|184632689|SUPERIORITY||Percent difference in change|3.7||||0.35|TWO_SIDED|95.0|-3.9|12.0||Because of skewed distributions, dietary outcomes were log-transformed and regression coefficients were exponentiated to derive the percent change in outcomes by intervention status over time.|Mixed Models Analysis|||Analysis of between group change in intake of food kcal from baseline to 7 months.||12.0|-3.9|.35
92365242|NCT03181971|184632689|SUPERIORITY||Percent difference in change|-10.6||||0.35|TWO_SIDED|95.0|-29.2|8.8|||Mixed Models Analysis|||Analysis of between group change in intake of beverage kcal from baseline to 7 months.||8.8|-29.2|.35
92365243|NCT03181971|184632689|SUPERIORITY||Percent difference in change|-17.5||||0.18|TWO_SIDED|95.0|-37.8|9.6|||Mixed Models Analysis|||Analysis of between group change in SSB kcal from baseline to 7 months.||9.6|-37.8|.18
92365244|NCT03181971|184632690|SUPERIORITY||Percent difference in change|9.1||||0.59|TWO_SIDED|95.0|-20.6|49.9||Because of skewed distributions, dietary outcomes were log-transformed and regression coefficients were exponentiated to derive the percent change in outcomes by intervention status over time.|Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||49.9|-20.6|.59
92365245|NCT03181971|184632691|SUPERIORITY||Percent difference in change|23.2|||<|0.001|TWO_SIDED|95.0|13.1|34.2|||Mixed Models Analysis|||Analysis of between group change in water intake from baseline to 7 months.||34.2|13.1|<.001
92365246|NCT03181971|184632691|SUPERIORITY||Percent difference in change|14.7||||0.004|TWO_SIDED|95.0|4.5|25.9|||Mixed Models Analysis|||Analysis of between group change in water intake from baseline to 15 months.||25.9|4.5|.004
92404298|NCT00089752|184699902|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was designed to achieve at least 80% power, using n 1⁄4 123 per group with an effect size of at least 0.36|Adjusted difference in mean change|-1.76||||0.09|TWO_SIDED|95.0|-3.8|0.3||a priori threshold was p\<0.05|ANCOVA|||Intent to Treat analysis with Last Observation Carried Forward.||0.3|-3.8|0.09
92404299|NCT04266717|184699986|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
92404300|NCT00198822|184699999|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.65||||0.05|ONE_SIDED|95.0||0.99||We set an a priori level of statistical significance of p equal to 0.05.|generalized estimating equations|RR with 95% CIs were estimated by GEE binomial regression, with a log link function and exchangeable correlation appropriate for binary data.|The vitamin A group and the Beta-carotene group were compared to the placebo group.|Sample size was based on an expected placebo group MR of 600/100,000 pregnancies, requiring 18,000 pregnancies to detect a 35% reduction in all-cause mortality, with a 5% type I error, 80% power, 1.21 design effect, 15% early pregnancy loss and 10% loss to follow-up. A mid-study DSMB analysis suggested a lower MR, leading the SS to be increased to 67,740. However, with no mortality difference evident at a DSMB meeting in Dec 2006, the trial was halted leaving 59,721 in the trial cohort.||0.99||0.05
92405790|NCT02085161|184701884|SUPERIORITY_OR_OTHER||LSMean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.064|<|0.0001|TWO_SIDED|95.0|0.403|0.657||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||0.657|0.403|<0.0001
92365247|NCT03181971|184632691|SUPERIORITY||Percent difference in change|-8.0||||0.063|TWO_SIDED|95.0|-15.7|0.4|||Mixed Models Analysis|||Analysis of between group change in SSB intake from baseline to 7 months.||0.4|-15.7|0.063
92166818|NCT01149369|184223765|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.8||||0.003|TWO_SIDED|95.0|-2.3|-0.3|||ANCOVA|||||-0.3|-2.3|0.003
92166819|NCT01149369|184223766|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.03|TWO_SIDED|95.0|-1.0|-0.1|||ANCOVA|||||-0.1|-1.0|0.03
92166820|NCT01149369|184223767|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.16|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||||0.1|-0.8|0.16
92404301|NCT04672239|184700021|SUPERIORITY||Mean Difference (Final Values)|7.3341||||0.0219|TWO_SIDED|95.0|1.0734|13.5948||We used hierarchical linear mixed models with maximum likelihood estimation of all available longitudinal data to handle missing data, then used a planned, pairwise comparison to test for end-of-treatment group differences.|Mixed Models Analysis||Model-estimated difference for the pairwise group difference at week 6 post-quit (end-of-treatment).|This proof-of-concept RCT was powered to detect an effect size of d=0.50 between SiS3 and either of the two control groups. Using SAS PROC POWER, it was determined that a sample size of n=64 per group would be needed to detect this effect in a 2-sided t-test with p=.05. Assuming a retention rate of 85%, it was determined that one needed to enroll n=75 per group in order to retain n=64 by end of treatment.||13.5948|1.0734|0.0219
92404302|NCT04672239|184700021|SUPERIORITY||Mean Difference (Final Values)|8.7775||||0.0072|TWO_SIDED|95.0|2.407|15.148||We used hierarchical linear mixed models with maximum likelihood estimation of all available longitudinal data to handle missing data, then used a planned, pairwise comparison to test for end-of-treatment group differences.|Mixed Models Analysis||Model-estimated difference for the pairwise group difference at week 6 post-quit (end-of-treatment).|This proof-of-concept RCT was powered to detect an effect size of d=0.50 between SiS3 and either of the two control groups. Using SAS PROC POWER, it was determined that a sample size of n=64 per group would be needed to detect this effect in a 2-sided t-test with p=.05. Assuming a retention rate of 85%, it was determined that one needed to enroll n=75 per group in order to retain n=64 by end of treatment.||15.1480|2.4070|0.0072
92404303|NCT04672239|184700022|SUPERIORITY||Odds Ratio (OR)|1.5072||||0.2259|TWO_SIDED|95.0|0.7759|2.9281|||Generalized Linear Model|We used a Generalized Linear Model with binomial distribution (abstinent vs. smoking) and logit link with repeated measures over time.|The odds ratio compares the SiS app treatment to the QG app treatment at week 6 post-quit (end-of-treatment).|This was an exploratory aim, so no power analysis was conducted. We hypothesized, that the 30-day point prevalence smoking cessation prevalence would be higher in the SiS app treatment compared to the QuitGuide app treatment. Participants with missing data were assumed to be smoking. We modeled all available data over time and present the cross-sectional group difference test at week 6 post quit (i.e., end-of-treatment).||2.9281|0.7759|0.2259
92166821|NCT01149369|184223768|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.05|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||||0.0|-0.9|0.05
92224768|NCT02889796|184351051|SUPERIORITY||Difference in Response Rates|16.2|||<|0.001|TWO_SIDED|95.0|11.3|21.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||21.1|11.3|<0.001
92224769|NCT02889796|184351051|SUPERIORITY||Difference in Response Rates|11.2|||<|0.001|TWO_SIDED|95.0|6.5|15.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||15.8|6.5|<0.001
92224770|NCT02889796|184351051|SUPERIORITY||Difference in Response Rates|26.9|||<|0.001|TWO_SIDED|95.0|20.6|33.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||33.3|20.6|<0.001
92224771|NCT02889796|184351051|SUPERIORITY||Difference in Response Rates|19.4|||<|0.001|TWO_SIDED|95.0|13.1|25.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||25.8|13.1|<0.001
92404304|NCT04672239|184700022|SUPERIORITY||Odds Ratio (OR)|1.963||||0.0579|TWO_SIDED|95.0|0.9776|3.9415|||Generalized Linear Model|We used a Generalized Linear Model with binomial distribution (abstinent vs. smoking) and logit link with repeated measures over time.|The odds ratio compares the SiS app treatment to the CtA pamphlet at week 6 post-quit (end-of-treatment).|This was an exploratory aim, so no power analysis was conducted. We hypothesized, that the 30-day point prevalence smoking cessation prevalence would be higher in the SiS app treatment compared to the Clearing the Air pamphlet treatment. Participants with missing data were assumed to be smoking. We modeled all available data over time and present the cross-sectional group difference test at week 6 post quit (i.e., post-treatment).||3.9415|0.9776|0.0579
92224772|NCT02889796|184351053|SUPERIORITY||Difference in Response Rates|4.4|||<|0.001|TWO_SIDED|95.0|2.1|6.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2.||6.7|2.1|<0.001
92224773|NCT02889796|184351053|SUPERIORITY||Difference in Response Rates|1.0||||0.17|TWO_SIDED|95.0|-0.5|2.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2.||2.6|-0.5|0.17
92166822|NCT01149369|184223769|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.1||||0.72|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||||0.6|-0.4|0.72
92166823|NCT01149369|184223770|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.8||||0.001|TWO_SIDED|95.0|-1.2|-0.3|||ANCOVA|||||-0.3|-1.2|0.001
92365248|NCT03181971|184632691|SUPERIORITY||Percent difference in change|-2.8||||0.56|TWO_SIDED|95.0|-11.7|6.9|||Mixed Models Analysis|||Analysis of between group change in SSB intake from baseline to 15 months.||6.9|-11.7|.56
92166824|NCT01149369|184223771|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.04|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||||0.0|-0.9|0.04
92166825|NCT01149369|184223772|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.14|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|0.14
92166826|NCT01149369|184223773|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.07|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|||||0.0|-1.0|0.07
92365249|NCT03181971|184632691|SUPERIORITY||Percent difference in change|1.2||||0.68|TWO_SIDED|95.0|-4.3|7.0|||Mixed Models Analysis|||Analysis of between group change in juice intake from baseline to 7 months.||7|-4.3|.68
92365250|NCT03181971|184632691|SUPERIORITY||Percent difference in change|-1.4||||0.66|TWO_SIDED|95.0|-7.4|5.0|||Mixed Models Analysis|||Analysis of between group change in juice intake from baseline to 15 months.||5|-7.4|.66
92365251|NCT03181971|184632691|SUPERIORITY||Percent difference in change|-4.0||||0.079|TWO_SIDED|95.0|-8.3|0.5|||Mixed Models Analysis|||Analysis of between group change in flavored milk intake from baseline to 7 months.||0.5|-8.3|0.079
92365252|NCT03181971|184632691|SUPERIORITY||Percent difference in change|-3.0||||0.26|TWO_SIDED|95.0|-8.0|2.3|||Mixed Models Analysis|||Analysis of between group change in flavored milk intake from baseline to 15 months.||2.3|-8.0|.26
92365253|NCT03181971|184632691|SUPERIORITY||Percent difference in change|4.4||||0.2|TWO_SIDED|95.0|-2.2|11.5|||Mixed Models Analysis|||Analysis of between group change in plain milk intake from baseline to 7 months.||11.5|-2.2|.20
92365254|NCT03181971|184632691|SUPERIORITY||Percent difference in change|2.3||||0.51|TWO_SIDED|95.0|-4.4|9.6|||Mixed Models Analysis|||Analysis of between group change in plain milk intake from baseline to 15 months.||9.6|-4.4|.51
92365255|NCT03181971|184632692|SUPERIORITY||Percent difference in change|31.3|||<|0.001|TWO_SIDED|95.0|21.2|42.2|||Mixed Models Analysis|||Analysis of between group change in water intake from water source at lunch from baseline to 7 months.||42.2|21.2|<.001
92365256|NCT03181971|184632692|SUPERIORITY||Percent difference in change|4.9||||0.22|TWO_SIDED|95.0|-3.0|13.5|||Mixed Models Analysis|||Analysis of between group change in water intake from water source during lunch from baseline to 15 months.||13.5|-3.0|.22
92365257|NCT03181971|184632692|SUPERIORITY||Percent difference in change|17.0||||0.02|TWO_SIDED|95.0|2.6|33.3|||Mixed Models Analysis|||Analysis of between group change in water intake from water source at recess from baseline to 7 months.||33.3|2.6|.02
92365258|NCT03181971|184632692|SUPERIORITY||Percent difference in change|4.7||||0.48|TWO_SIDED|95.0|-8.0|19.2|||Mixed Models Analysis|||Analysis of between group change in water intake from water source at recess from baseline to 15 months.||19.2|-8.0|.48
92365259|NCT03181971|184632692|SUPERIORITY||Percent difference in change|34.6||||0.14|TWO_SIDED|95.0|-9.4|99.8|||Mixed Models Analysis|||Analysis of between group change in water intake from water source at PE from baseline to 7 months.||99.8|-9.4|.14
92365260|NCT03181971|184632692|SUPERIORITY||Percent difference in change|32.1||||0.16|TWO_SIDED|95.0|-11.0|96.2|||Mixed Models Analysis|||Analysis of between group change in water intake from water source at PE from baseline to 15 months.||96.2|-11.0|.16
92365261|NCT04343092|184632695|SUPERIORITY||Mean Difference (Final Values)|7.92||||0.05|TWO_SIDED||||||t-test, 2 sided||||Historical control population included: Hydroxychloroquin (HCQ) 400mg BID at admission day then 200mg BID for 5 days plus Azithromycin (AZT) 500mg at admission day then 250mg for 5 days.|||0.05
92365262|NCT00803738|184632696|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For the primary clinical equivalence analysis, a 90% confidence interval was constructed on the difference in the therapeutic cure rates between the Test Product and Reference Product at the Test-of-Cure visit (Visit 3). The interval was calculated using Wald's method with Yates' continuity correction. Clinical equivalence was established if this 90% confidence interval was contained within the interval -0.20 to +0.20 (-20% to +20%).|proportion of subjects in trtmt groups|0.05|||||TWO_SIDED|90.0|-4.3|15.02|||Wald's method with Yates' continuity|||||15.02|-4.30|
92365263|NCT00803738|184632697|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A 90% confidence interval was constructed on the difference in the mycological cure rates between the Test Product and Reference Product at the Test-of-Cure visit (Visit 3). The interval was calculated using Wald's method with Yates' continuity correction. Clinical equivalence was established if this 90% confidence interval was contained within the interval -0.20 to +0.20 (-20% to +20%).|proportion of subjects in trtmt groups|0.05|||||TWO_SIDED|90.0|-4.66|11.49|||Wald's method with Yates' continuity|||||11.49|-4.66|
92365264|NCT00803738|184632698|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A 90% confidence interval was constructed on the difference in the clinical cure rates between the Test Product and Reference Product at the Test-of-Cure visit (Visit 3). The interval was calculated using Wald's method with Yates' continuity correction. Clinical equivalence was established if this 90% confidence interval was contained within the interval -0.20 to +0.20 (-20% to +20%).|proportion of subjects in trtmt groups|0.05|||||TWO_SIDED|90.0|-1.35|16.88|||Wald's method with Yates' continuity|||||16.88|-1.35|
92224774|NCT02889796|184351053|SUPERIORITY||Difference in Response Rates|10.7|||<|0.001|TWO_SIDED|95.0|7.1|14.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4.||14.4|7.1|<0.001
92404305|NCT04672239|184700023|SUPERIORITY||Wilcoxon Z|0.401||||0.9152|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Pairwise Two-Sided Multiple Comparison Analysis Dwass, Steel, Critchlow-Fligner Method|SiS app treatment vs. QuitGuide app treatment at week 6 post-quit (end-of-treatment)|||||0.9152
92404306|NCT04672239|184700023|SUPERIORITY||Wilcoxon Z|1.372||||0.3557|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Pairwise Two-Sided Multiple Comparison Analysis Dwass, Steel, Critchlow-Fligner Method|Pairwise comparison, SiS app treatment vs. CTA pamphlet at week 6 post-quit (end-of-treatment)|||||0.3557
92404307|NCT04672239|184700024|SUPERIORITY||Mean Difference (Final Values)|0.2936||||0.7469|TWO_SIDED|95.0|-1.4983|2.0856||The p-value was not adjusted for multiple comparisons.|t-test, 2 sided||Comparison of SiS app treatment to the QuitGuide treatment as control (Contrast coding SiS 1, QG -1)|||2.0856|-1.4983|0.7469
92404308|NCT04672239|184700024|SUPERIORITY||Mean Difference (Final Values)|1.2569||||0.1747|TWO_SIDED|95.0|-0.5628|3.0766||The p-value was not adjusted for multiple comparisons.|t-test, 2 sided||Comparison of SiS app treatment to the Clearing the Air pamphlet treatment as control (Contrast coding SiS 1, CtA -1)|||3.0766|-0.5628|0.1747
92404309|NCT04672239|184700025|SUPERIORITY||Wilcoxon Z|1.9255||||0.1315|TWO_SIDED|||||p-values were not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|Pairwise Two-Sided Multiple Comparison Analysis Dwass, Steel, Critchlow-Fligner Method||||||0.1315
92404310|NCT04672239|184700025|SUPERIORITY||Wilcoxon Z|1.401||||0.3403|TWO_SIDED|||||the p-value was not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|Pairwise Two-Sided Multiple Comparison Analysis Dwass, Steel, Critchlow-Fligner Method|SiS app vs. Clearing the Air pamphlet|||||0.3403
92404311|NCT04672239|184700026|SUPERIORITY||Mean Difference (Final Values)|0.2289||||0.0429|TWO_SIDED|95.0|0.007364|0.4505||p-value is not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. QuitGuide app|0.4505|0.007364|0.0429
92404312|NCT04672239|184700026|SUPERIORITY||Mean Difference (Final Values)|0.1609||||0.16|TWO_SIDED|95.0|-0.06415|0.386||p-value is not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. CtA pamphlet|0.3860|-0.06415|0.1600
92404313|NCT04672239|184700027|SUPERIORITY||Mean Difference (Final Values)|0.152||||0.1996|TWO_SIDED|95.0|-0.08092|0.3848||p-value is not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. QG app|0.3848|-0.08092|0.1996
92224775|NCT02889796|184351053|SUPERIORITY||Difference in Response Rates|5.8|||<|0.001|TWO_SIDED|95.0|2.6|9.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4.||9.0|2.6|<0.001
92224776|NCT02889796|184351053|SUPERIORITY||Difference in Response Rates|32.2|||<|0.001|TWO_SIDED|95.0|26.4|38.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24.||38.0|26.4|<0.001
92404314|NCT04672239|184700027|SUPERIORITY||Mean Difference (Final Values)|0.292||||0.0154|TWO_SIDED|95.0|0.05636|0.5276||p-value was not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. CtA pamphlet (control)|0.5276|0.05636|0.0154
92404315|NCT04672239|184700028|SUPERIORITY||Mean Difference (Final Values)|2.6255||||0.2988|TWO_SIDED|95.0|-2.3458|7.5968||p-value was not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. QuitGuide app (control)|7.5968|-2.3458|0.2988
92404316|NCT04672239|184700028|SUPERIORITY||Mean Difference (Final Values)|3.9277||||0.1251|TWO_SIDED|95.0|-1.1015|8.9569||p-value was not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. CtA pamphlet (control)|8.9569|-1.1015|0.1251
92404317|NCT04672239|184700029|SUPERIORITY||Wilcoxon Z|-0.8096||||0.4182|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.4182
92404318|NCT04672239|184700030|SUPERIORITY||Wilcoxon Z|1.909||||0.0563|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0563
92224777|NCT02889796|184351053|SUPERIORITY||Difference in Response Rates|19.0|||<|0.001|TWO_SIDED|95.0|13.4|24.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24.||24.6|13.4|<0.001
92224778|NCT02889796|184351053|SUPERIORITY||Difference in Response Rates|12.7|||<|0.001|TWO_SIDED|95.0|5.6|19.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Adalimumab at Week 24.||19.9|5.6|<0.001
92224779|NCT02889796|184351053|SUPERIORITY||Difference in Response Rates|-0.5||||0.88|TWO_SIDED|95.0|-7.5|6.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Adalimumab at Week 24.||6.5|-7.5|0.88
92404319|NCT04672239|184700031|SUPERIORITY||Mean Difference (Final Values)|0.1106||||0.5018|TWO_SIDED|95.0|-0.2143|0.4354|||t-test, 2 sided|||||0.4354|-0.2143|0.5018
92404320|NCT04672239|184700032|SUPERIORITY||Mean Difference (Final Values)|0.1406||||0.4246|TWO_SIDED|95.0|-0.2068|0.488|||t-test, 2 sided|||||0.4880|-0.2068|0.4246
92404321|NCT04672239|184700033|SUPERIORITY||Mean Difference (Final Values)|2.4296||||0.4078|TWO_SIDED|95.0|-3.3597|8.2188|||t-test, 2 sided||SiS app vs. QG (control)|||8.2188|-3.3597|0.4078
92404322|NCT04825678|184700053|OTHER||Least squares mean (LSM)|40.72|STANDARD_ERROR_OF_MEAN|2.37|<|0.001|TWO_SIDED|95.0|36.05|45.39||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Adjusted analysis utilizes a generalized linear mixed model which includes Baseline TSQM overall satisfaction scale score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline monthly migraine days (MMD), and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.||45.39|36.05|< 0.001
92404323|NCT04825678|184700053|OTHER||LSM|30.84|STANDARD_ERROR_OF_MEAN|14.53||0.058|TWO_SIDED|95.0|-1.3|62.98||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Adjusted analysis utilizes a generalized linear mixed model which includes Baseline TSQM overall satisfaction scale score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.||62.98|-1.30|0.058
92365265|NCT03012334|184632721|NON_INFERIORITY|Doses of lasmiditan were considered non-inferior to placebo if the upper 95% confidence limit on the difference in Standard Deviation of Lateral Position (SDLP) between that dose and placebo was less than 4.4 cm and lower doses also did not exceed the non-inferiority (NI) margin.|LS Mean|9.86|||<|0.001|TWO_SIDED|95.0|7.39|12.33||P-value is obtained from mixed effect model for testing difference versus placebo equals to zero.|Mixed Models Analysis|||||12.33|7.39|<.001
92365266|NCT03012334|184632721|NON_INFERIORITY|Doses of lasmiditan were considered non-inferior to placebo if the upper 95% confidence limit on the difference in SDLP between that dose and placebo was less than 4.4 cm and lower doses also did not exceed the non-inferiority (NI) margin.|LS Mean|15.35|||<|0.001|TWO_SIDED|95.0|12.87|17.82||P-value is obtained from mixed effect model for testing difference versus placebo equals to zero.|Mixed Models Analysis|||||17.82|12.87|<0.001
92365267|NCT03012334|184632721|NON_INFERIORITY|Doses of lasmiditan were considered non-inferior to placebo if the upper 95% confidence limit on the difference in SDLP between that dose and placebo was less than 4.4 cm and lower doses also did not exceed the non-inferiority (NI) margin.|LS Mean|21.06|||<|0.001|TWO_SIDED|95.0|18.6|23.52||P-value is obtained from mixed effect model for testing difference versus placebo equals to zero.|Mixed Models Analysis|||||23.52|18.60|<0.001
92365268|NCT03012334|184632721|SUPERIORITY||LS Mean|22.71|||<|0.001|TWO_SIDED|95.0|20.23|25.18|||Mixed Models Analysis|||||25.18|20.23|<0.001
92365269|NCT03012334|184632721|SUPERIORITY||LS Mean|-12.85|||<|0.001|TWO_SIDED|95.0|-15.32|-10.38|||Mixed Models Analysis|||||-10.38|-15.32|<0.001
92365270|NCT03012334|184632721|SUPERIORITY||LS Mean|-7.36|||<|0.001|TWO_SIDED|95.0|-9.84|-4.88|||Mixed Models Analysis|||||-4.88|-9.84|<0.001
92365271|NCT03012334|184632721|SUPERIORITY||LS Mean|-1.65||||0.19|TWO_SIDED|95.0|-4.11|0.82|||Mixed Models Analysis|||||0.82|-4.11|0.19
92365272|NCT03012334|184632722|SUPERIORITY||LS Mean|1.6|||<|0.0001|TWO_SIDED|95.0|1.1744|2.0335|||Mixed Models Analysis|||||2.0335|1.1744|<0.0001
92365273|NCT03012334|184632722|SUPERIORITY||LS Mean|2.3|||<|0.0001|TWO_SIDED|95.0|1.8306|2.6926|||Mixed Models Analysis|||||2.6926|1.8306|<.0001
92166827|NCT01149369|184223774|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.19|TWO_SIDED|95.0|-0.8|0.2|||ANCOVA|||||0.2|-0.8|0.19
92166828|NCT01149369|184223775|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.04|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||||-0.0|-0.9|0.04
92365274|NCT03012334|184632722|SUPERIORITY||LS Mean|2.9|||<|0.0001|TWO_SIDED|95.0|2.4239|3.28|||Mixed Models Analysis|||||3.2800|2.4239|<0.0001
92365275|NCT03012334|184632722|SUPERIORITY||LS Mean|3.4|||<|0.0001|TWO_SIDED|95.0|2.9568|3.8193|||Mixed Models Analysis|||||3.8193|2.9568|<0.0001
92365276|NCT03012334|184632722|SUPERIORITY||LS Mean|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.2137|-1.3546|||Mixed Models Analysis|||||-1.3546|-2.2137|<0.0001
92365277|NCT03012334|184632722|SUPERIORITY||LS Mean|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.5574|-0.6956|||Mixed Models Analysis|||||-0.6956|-1.5574|<0.0001
92365278|NCT03012334|184632722|SUPERIORITY||LS Mean|-0.5||||0.0142|TWO_SIDED|95.0|-0.9642|-0.1081|||Mixed Models Analysis|||||-0.1081|-0.9642|0.0142
92365279|NCT03012334|184632724|SUPERIORITY||LS Mean|-12.6|||<|0.0001|TWO_SIDED|95.0|-18.6895|-6.5006|||Mixed Models Analysis|||||-6.5006|-18.6895|<.0001
92365280|NCT03012334|184632724|SUPERIORITY||LS Mean|-24.2|||<|0.0001|TWO_SIDED|95.0|-30.3631|-18.1357|||Mixed Models Analysis|||||-18.1357|-30.3631|<.0001
92365281|NCT03012334|184632724|SUPERIORITY||LS Mean|-28.4|||<|0.0001|TWO_SIDED|95.0|-34.442|-22.2897|||Mixed Models Analysis|||||-22.2897|-34.4420|<.0001
92166829|NCT01149369|184223776|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.02|TWO_SIDED|95.0|-1.0|-0.1|||ANCOVA|||||-0.1|-1.0|0.02
92365282|NCT03012334|184632724|SUPERIORITY||LS Mean|-30.4|||<|0.0001|TWO_SIDED|95.0|-36.5068|-24.277|||Mixed Models Analysis|||||-24.2770|-36.5068|<0.0001
92365283|NCT03012334|184632724|SUPERIORITY||LS Mean|17.8|||<|0.0001|TWO_SIDED|95.0|11.7029|23.8908|||Mixed Models Analysis|||||23.8908|11.7029|<.0001
92365284|NCT03012334|184632724|SUPERIORITY||LS Mean|6.1||||0.0489|TWO_SIDED|95.0|0.0297|12.2554|||Mixed Models Analysis|||||12.2554|0.0297|0.0489
92365285|NCT03012334|184632724|SUPERIORITY||LS Mean|2.0||||0.5123|TWO_SIDED|95.0|-4.05|8.1021|||Mixed Models Analysis|||||8.1021|-4.0500|0.5123
92365286|NCT03012334|184632724|SUPERIORITY||LS Mean|-26.4|||<|0.0001|TWO_SIDED|95.0|-32.4956|-20.3628|||Mixed Models Analysis|||||-20.3628|-32.4956|<.0001
92365287|NCT03012334|184632724|SUPERIORITY||LS Mean|-37.8|||<|0.0001|TWO_SIDED|95.0|-43.927|-31.7537|||Mixed Models Analysis|||||-31.7537|-43.9270|<.0001
92365288|NCT03012334|184632724|SUPERIORITY||LS Mean|-46.8|||<|0.0001|TWO_SIDED|95.0|-52.8147|-40.7268|||Mixed Models Analysis|||||-40.7268|-52.8147|<.0001
92365289|NCT03012334|184632724|SUPERIORITY||LS Mean|-52.6|||<|0.0001|TWO_SIDED|95.0|-58.649|-46.4682|||Mixed Models Analysis|||||-46.4682|-58.6490|<0.0001
92365290|NCT03012334|184632724|SUPERIORITY||LS Mean|26.1|||<|0.0001|TWO_SIDED|95.0|20.0635|32.1953|||Mixed Models Analysis|||||32.1953|20.0635|<.0001
92365291|NCT03012334|184632724|SUPERIORITY||LS Mean|14.7|||<|0.0001|TWO_SIDED|95.0|8.6325|20.804|||Mixed Models Analysis|||||20.8040|8.6325|<.0001
92365292|NCT03012334|184632724|SUPERIORITY||LS Mean|5.8||||0.0605|TWO_SIDED|95.0|-0.256|11.8317|||Mixed Models Analysis|||||11.8317|-0.2560|0.0605
92365293|NCT03012334|184632725|SUPERIORITY||LS Mean|-4.5|||<|0.001|TWO_SIDED|95.0|-6.14|-2.85|||Mixed Models Analysis|||||-2.85|-6.14|<0.001
92365294|NCT03012334|184632725|SUPERIORITY||LS Mean|-6.9|||<|0.001|TWO_SIDED|95.0|-8.58|-5.28|||Mixed Models Analysis|||||-5.28|-8.58|<0.001
92365295|NCT03012334|184632725|SUPERIORITY||LS Mean|-8.9|||<|0.001|TWO_SIDED|95.0|-10.52|-7.23|||Mixed Models Analysis|||||-7.23|-10.52|<0.001
92365296|NCT03012334|184632725|SUPERIORITY||LS Mean|-11.2|||<|0.001|TWO_SIDED|95.0|-12.81|-9.51|||Mixed Models Analysis|||||-9.51|-12.81|<0.001
92365297|NCT03012334|184632725|SUPERIORITY||LS Mean|6.7|||<|0.001|TWO_SIDED|95.0|5.02|8.31|||Mixed Models Analysis|||||8.31|5.02|<0.001
92224780|NCT02889796|184351053|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) \< 2.6 at using NRI.|||||<|0.001||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 200 mg vs Adalimumab at Week 24.||||<0.001
92365298|NCT03012334|184632725|SUPERIORITY||LS Mean|4.2|||<|0.001|TWO_SIDED|95.0|2.58|5.88|||Mixed Models Analysis|||||5.88|2.58|<0.001
92365299|NCT03012334|184632725|SUPERIORITY||LS Mean|2.3|||<|0.007|TWO_SIDED|95.0|0.64|3.93|||Mixed Models Analysis|||||3.93|0.64|<0.007
92365300|NCT03012334|184632726|SUPERIORITY||LS Mean|1.439|||<|0.0001|TWO_SIDED|95.0|1.2198|1.6583|||Mixed Models Analysis|||||1.6583|1.2198|<0.0001
92365301|NCT03012334|184632726|SUPERIORITY||LS Mean|2.018|||<|0.0001|TWO_SIDED|95.0|1.7981|2.238|||Mixed Models Analysis|||||2.2380|1.7981|<0.0001
92365302|NCT03012334|184632726|SUPERIORITY||LS Mean|2.572|||<|0.0001|TWO_SIDED|95.0|2.3536|2.7909|||Mixed Models Analysis|||||2.7909|2.3536|<0.0001
92404324|NCT04825678|184700054|OTHER||LSM|37.87|STANDARD_ERROR_OF_MEAN|4.62|<|0.001|TWO_SIDED|95.0|28.62|47.12||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Adjusted analysis utilizes a generalized linear mixed model which includes Baseline TSQM overall satisfaction scale score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.||47.12|28.62|< 0.001
92404325|NCT04825678|184700054|OTHER||LSM|43.25|STANDARD_ERROR_OF_MEAN|2.63|<|0.001|TWO_SIDED|95.0|38.06|48.44||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Adjusted analysis utilizes a generalized linear mixed model which includes Baseline TSQM overall satisfaction scale score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.||48.44|38.06|< 0.001
92404326|NCT04825678|184700063|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-44.9|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-49.39|-40.41||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Continued SoC: Physical Function Domain||-40.41|-49.39|< 0.001
92224781|NCT02889796|184351053|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) \< 2.6 at using NRI.|||||<|0.001||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 100 mg vs Adalimumab at Week 24.||||<0.001
92365303|NCT03012334|184632726|SUPERIORITY||LS Mean|2.553|||<|0.0001|TWO_SIDED|95.0|2.3331|2.773|||Mixed Models Analysis|||||2.7730|2.3331|<0.0001
92365304|NCT03012334|184632726|SUPERIORITY||LS Mean|-1.114|||<|0.0001|TWO_SIDED|95.0|-1.3333|-0.8948|||Mixed Models Analysis|||||-0.8948|-1.3333|<0.0001
92365305|NCT03012334|184632726|SUPERIORITY||LS Mean|-0.535|||<|0.0001|TWO_SIDED|95.0|-0.7549|-0.3151|||Mixed Models Analysis|||||-0.3151|-0.7549|<0.0001
92365306|NCT03012334|184632726|SUPERIORITY||LS Mean|0.019||||0.8629|TWO_SIDED|95.0|-0.1995|0.2379|||Mixed Models Analysis|||||0.2379|-0.1995|0.8629
92365307|NCT03012334|184632728|SUPERIORITY||LS Mean|0.18||||0.0002|TWO_SIDED|95.0|0.0849|0.2746|||Mixed Models Analysis|||||0.2746|0.0849|0.0002
92365308|NCT03012334|184632728|SUPERIORITY||LS Mean|0.303|||<|0.0001|TWO_SIDED|95.0|0.2082|0.3985|||Mixed Models Analysis|||||0.3985|0.2082|<.0001
92404327|NCT04825678|184700063|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-54.15|STANDARD_ERROR_OF_MEAN|8.43|<|0.001|TWO_SIDED|95.0|-73.43|-34.86||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Discontinued SoC: Physical Function Domain||-34.86|-73.43|< 0.001
92365309|NCT03012334|184632728|SUPERIORITY||LS Mean|0.372|||<|0.0001|TWO_SIDED|95.0|0.277|0.4662|||Mixed Models Analysis|||||0.4662|0.2770|<.0001
92365310|NCT03012334|184632728|SUPERIORITY||LS Mean|0.603|||<|0.0001|TWO_SIDED|95.0|0.508|0.6983|||Mixed Models Analysis|||||0.6983|0.5080|<.0001
92365311|NCT03012334|184632728|SUPERIORITY||LS Mean|-0.423|||<|0.0001|TWO_SIDED|95.0|-0.5183|-0.3286|||Mixed Models Analysis|||||-0.3286|-0.5183|<.0001
92365312|NCT03012334|184632728|SUPERIORITY||LS Mean|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.3949|-0.2047|||Mixed Models Analysis|||||-0.2047|-0.3949|<0.0001
92365313|NCT03012334|184632728|SUPERIORITY||LS Mean|-0.232|||<|0.0001|TWO_SIDED|95.0|-0.3261|-0.137|||Mixed Models Analysis|||||-0.1370|-0.3261|<0.0001
92365314|NCT00328172|184632741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.3271||95.0|-0.41|0.14|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline HbA1c as a linear covariate.||Linagliptin 0.5 mg versus placebo||0.14|-0.41|0.3271
92365315|NCT00328172|184632741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0032||95.0|-0.69|-0.14|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline HbA1c as a linear covariate.||Linagliptin 2.5 mg versus placebo||-0.14|-0.69|0.0032
92365316|NCT00328172|184632741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0012||95.0|-0.74|-0.18|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline HbA1c as a linear covariate.||Linagliptin 5.0 mg versus placebo||-0.18|-0.74|0.0012
92365317|NCT00328172|184632741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|||<|0.0001||95.0|-1.1|-0.59|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline HbA1c as a linear covariate.||Metformin versus placebo||-0.59|-1.1|<0.0001
92365318|NCT00328172|184632742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.45||||0.7027||95.0|-10.0|15.1|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline FPG as a linear covariate.||Linagliptin 0.5 mg versus placebo||15.1|-10|0.7027
92365319|NCT00328172|184632742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.4||||0.003||95.0|-32.0|-6.6|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline FPG as a linear covariate.||Linagliptin 2.5 mg versus placebo||-6.6|-32|0.003
92224782|NCT02889796|184351059|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|0.68|<|0.001|TWO_SIDED|95.0|-5.9|-3.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.2|-5.9|<0.001
92224783|NCT02889796|184351059|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.68|<|0.001|TWO_SIDED|95.0|-4.3|-1.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.6|-4.3|<0.001
92224784|NCT02889796|184351059|SUPERIORITY||Least Squares Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|0.73|<|0.001|TWO_SIDED|95.0|-6.6|-3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.8|-6.6|<0.001
92224785|NCT02889796|184351059|SUPERIORITY||Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|0.73|<|0.001|TWO_SIDED|95.0|-5.3|-2.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.4|-5.3|<0.001
92365320|NCT00328172|184632742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.3||||0.0418||95.0|-26.0|-0.5|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline FPG as a linear covariate.||Linagliptin 5.0 mg versus placebo||-0.5|-26|0.0418
92365321|NCT00328172|184632742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-34.3|||<|0.0001||95.0|-47.0|-22.0|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline FPG as a linear covariate.||||-22|-47|< 0.0001
92365322|NCT00328172|184632743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.735||||0.413||95.0|0.464|6.492|||Regression, Logistic|||Linagliptin 0.5 mg versus placebo||6.492|0.464|0.413
92365323|NCT00328172|184632743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.157||||0.842||95.0|0.275|4.861|||Regression, Logistic|||Linagliptin 2.5 mg versus placebo||4.861|0.275|0.842
92166830|NCT01149369|184223777|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.06|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||||0.0|-0.9|0.06
92166831|NCT01149369|184223778|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.09|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||||0.1|-0.8|0.09
92166832|NCT01149369|184223779|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.17|TWO_SIDED|95.0|-7.0|0.1|||ANCOVA|||||0.1|-7|0.17
92365324|NCT00328172|184632743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.844||||0.364||95.0|0.492|6.91|||Regression, Logistic|||Linagliptin 5.0 mg versus placebo||6.910|0.492|0.364
92365325|NCT00328172|184632743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.224||||0.005||95.0|1.648|16.562|||Regression, Logistic|||Metformin versus placebo||16.562|1.648|0.005
92365326|NCT00077974|184632744|SUPERIORITY_OR_OTHER||Percent|33.0||||||95.0|24.2|42.8|||||Using exact method based on binomial distribution. Percent equals n divided by N times 100.|||42.8|24.2|
92365327|NCT04512001|184632832|EQUIVALENCE|Margins for results to be considered equivalent: -0.6 to 0.5.|Least squares means difference|0.01|||||TWO_SIDED|90.0|-0.16|0.18||||||||0.18|-0.16|
92365328|NCT04512001|184632834|EQUIVALENCE|Margins for results to be considered equivalent: -15%, 15%.|Difference in % Response Rate|-3.94|||||TWO_SIDED|95.0|-9.97|2.11||||||||2.11|-9.97|
92365329|NCT03896477|184632870|OTHER||GMC Ratio|2.91|||||TWO_SIDED|95.0|2.47|3.44||||||Serotype 1 geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||3.44|2.47|
92365330|NCT03896477|184632870|OTHER||GMC Ratio|1.44|||||TWO_SIDED|95.0|1.23|1.69||||||Serotype 1 geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.69|1.23|
92365331|NCT03896477|184632870|OTHER||GMC Ratio|1.93|||||TWO_SIDED|95.0|1.66|2.25||||||Serotype 5 geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||2.25|1.66|
92365332|NCT03896477|184632870|OTHER||GMC Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.88||||||Serotype 5 geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||0.88|0.65|
92365333|NCT03896477|184632870|OTHER||GMC Ratio|16.03|||||TWO_SIDED|95.0|12.84|20.03||||||Serotype 6A geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||20.03|12.84|
92365334|NCT03896477|184632870|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.72|1.06||||||Serotype 6A geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.06|0.72|
92224786|NCT02889796|184351059|SUPERIORITY||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|0.69|<|0.001|TWO_SIDED|95.0|-7.3|-4.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.6|-7.3|<0.001
92224787|NCT02889796|184351059|SUPERIORITY||Least Squares Mean Difference|-4.4|STANDARD_DEVIATION|0.69|<|0.001|TWO_SIDED|95.0|-5.8|-3.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.1|-5.8|<0.001
92224788|NCT02889796|184351059|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|-6.9|-4.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.5|-6.9|<0.001
92224789|NCT02889796|184351059|SUPERIORITY||Least Squares Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|-5.3|-2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.9|-5.3|<0.001
92224790|NCT02889796|184351061|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-7.1|-4.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.4|-7.1|<0.001
92224791|NCT02889796|184351061|SUPERIORITY||Least Squares Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-5.0|-2.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.2|-5.0|<0.001
92224792|NCT02889796|184351061|SUPERIORITY||Least Squares Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|0.75|<|0.001|TWO_SIDED|95.0|-7.6|-4.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.6|-7.6|<0.001
92365335|NCT03896477|184632870|OTHER||GMC Ratio|2.51|||||TWO_SIDED|95.0|2.14|2.95||||||Serotype 6B geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||2.95|2.14|
92224793|NCT02889796|184351061|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.75|<|0.001|TWO_SIDED|95.0|-6.0|-3.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.1|-6.0|<0.001
92224794|NCT02889796|184351061|SUPERIORITY||Least Squares Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|0.71|<|0.001|TWO_SIDED|95.0|-8.2|-5.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.4|-8.2|<0.001
92404328|NCT04825678|184700063|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed baseline MMD, and selected baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-44.35|STANDARD_ERROR_OF_MEAN|1.99|<|0.001|TWO_SIDED|95.0|-48.26|-40.44||P-value is nominal to compare the mean change from baseline at Week 24 to zero.|Mixed Models Analysis|||Continued SoC: Usual Activities Domain||-40.44|-48.26|< 0.001
92224795|NCT02889796|184351061|SUPERIORITY||Least Squares Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|0.71|<|0.001|TWO_SIDED|95.0|-6.5|-3.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.7|-6.5|<0.001
92365336|NCT03896477|184632870|OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.68|0.95||||||Serotype 6B geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||0.95|0.68|
92365337|NCT03896477|184632870|OTHER||GMC Ratio|2.11|||||TWO_SIDED|95.0|1.83|2.44||||||Serotype 7F geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||2.44|1.83|
92365338|NCT03896477|184632870|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.91|1.22||||||Serotype 7F geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.22|0.91|
92365339|NCT03896477|184632870|OTHER||GMC Ratio|1.41|||||TWO_SIDED|95.0|1.21|1.65||||||Serotype 9V geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.65|1.21|
92365340|NCT03896477|184632870|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.76|1.05||||||Serotype 9V geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.05|0.76|
92365341|NCT03896477|184632870|OTHER||GMC Ratio|1.65|||||TWO_SIDED|95.0|1.29|2.1||||||Serotype 14 geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||2.10|1.29|
92365342|NCT03896477|184632870|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.73|1.12||||||Serotype 14 geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.12|0.73|
92365343|NCT03896477|184632870|OTHER||GMC Ratio|3.69|||||TWO_SIDED|95.0|2.91|4.67||||||Serotype 19A geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||4.67|2.91|
92365344|NCT03896477|184632870|OTHER||GMC Ratio|0.72|||||TWO_SIDED|95.0|0.6|0.87||||||Serotype 19A geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||0.87|0.60|
92404329|NCT04825678|184700063|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-43.8|STANDARD_ERROR_OF_MEAN|4.47|<|0.001|TWO_SIDED|95.0|-53.51|-34.08||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Discontinued SoC: Usual Activities Domain||-34.08|-53.51|< 0.001
92404330|NCT04825678|184700063|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-44.39|STANDARD_ERROR_OF_MEAN|2.16|<|0.001|TWO_SIDED|95.0|-48.65|-40.14||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Continued SoC: Social Function Domain||-40.14|-48.65|< 0.001
92166833|NCT01149369|184223780|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.6||||0.009|TWO_SIDED|95.0|-1.1|-0.2|||ANCOVA|||||-0.2|-1.1|0.009
92166834|NCT01149369|184223781|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.7||||0.004|TWO_SIDED|95.0|-1.2|-0.2|||ANCOVA|||||-0.2|-1.2|0.004
92224796|NCT02889796|184351061|SUPERIORITY||Least Squares Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|-7.8|-5.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.3|-7.8|<0.001
92365345|NCT03896477|184632870|OTHER||GMC Ratio|0.64|||||TWO_SIDED|95.0|0.52|0.79||||||Serotype 19F geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||0.79|0.52|
92365346|NCT03896477|184632870|OTHER||GMC Ratio|0.74|||||TWO_SIDED|95.0|0.62|0.89||||||Serotype 19F geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||0.89|0.62|
92365347|NCT03896477|184632870|OTHER||GMC Ratio|2.29|||||TWO_SIDED|95.0|1.89|2.76||||||Serotype 23F geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||2.76|1.89|
92365348|NCT03896477|184632870|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.82|1.22||||||Serotype 23F geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.22|0.82|
92365349|NCT01106157|184632890|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.277|STANDARD_ERROR_OF_MEAN|0.134||0.017|TWO_SIDED|95.0|0.001|0.552|||t-test, 2 sided|||||0.552|0.001|0.017
92365350|NCT01106157|184632891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.104||0.43|TWO_SIDED|95.0|-0.3|0.13|||t-test, 2 sided|||||0.13|-0.30|0.43
92365351|NCT01106157|184632892|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.7||0.37|TWO_SIDED|95.0|-1.64|0.63|||t-test, 2 sided|||||0.63|-1.64|0.37
92365352|NCT01106157|184632893|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.064|STANDARD_ERROR_OF_MEAN|0.16||0.69|TWO_SIDED|95.0|-0.4|0.27|||t-test, 2 sided|||||0.27|-0.40|0.69
92365353|NCT01106157|184632894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.75|STANDARD_ERROR_OF_MEAN|81.3||0.89|TWO_SIDED|95.0|-156.8|180.3|||t-test, 2 sided|||||180.3|-156.8|0.89
92365354|NCT01106157|184632895|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.21||0.2|TWO_SIDED|95.0|-0.15|0.7|||t-test, 2 sided|||||0.70|-0.15|0.2
92365355|NCT01106157|184632896|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.13|STANDARD_ERROR_OF_MEAN|19.61||0.23|TWO_SIDED|95.0|-64.8|16.7|||t-test, 2 sided|||||16.7|-64.8|0.23
92365356|NCT01106157|184632897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.037|STANDARD_ERROR_OF_MEAN|0.1||0.79|TWO_SIDED|95.0|-0.18|0.23|||t-test, 2 sided|||||0.23|-0.18|0.79
92365357|NCT01106157|184632898|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-7.67|STANDARD_ERROR_OF_MEAN|5.33||0.163|TWO_SIDED|95.0|-18.7|3.35|||t-test, 2 sided|||||3.35|-18.7|0.163
92166835|NCT01149369|184223782|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.1|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||||0.1|-0.8|0.10
92166836|NCT01149369|184223783|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.13|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|0.13
92224797|NCT02889796|184351061|SUPERIORITY||Least Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|-6.1|-3.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.5|-6.1|<0.001
92365358|NCT00696878|184632915|SUPERIORITY_OR_OTHER_LEGACY||Percentage with immunogenicity|0.0|||||ONE_SIDED|95.0||0.4|||||Provided limit is upper 1-sided 95% confidence limit for study population for percentage of participants with clinically relevant immunogenicity, after Cycle 1|During sample size determination, the upper limit of the one-sided 95% confidence interval for the population incidence of immunogenicity, if no immunogenicity is observed, was calculated. If no immunogenicity is observed in the projected 150 participants who receive corifollitropin alfa during 3 COS cycles, then the upper limit for the population is 2%. For the projected 300 participants who receive corifollitropin alfa during 2 COS cycles, the upper limit for the population is 1%.||0.4||
92365359|NCT00696878|184632915|SUPERIORITY_OR_OTHER_LEGACY||Percentage with immunogenicity|0.0|||||ONE_SIDED|95.0||0.8|||||Provided limit is upper 1-sided 95% confidence limit for study population for percentage of participants with clinically relevant immunogenicity, after Cycle 2|During sample size determination, the upper limit of the one-sided 95% confidence interval for the population incidence of immunogenicity, if no immunogenicity is observed, was calculated. If no immunogenicity is observed in the projected 150 participants who receive corifollitropin alfa during 3 COS cycles, then the upper limit for the population is 2%. For the projected 300 participants who receive corifollitropin alfa during 2 COS cycles, the upper limit for the population is 1%.||0.8||
92365360|NCT00696878|184632915|SUPERIORITY_OR_OTHER_LEGACY||Percentage with immunogenicity|0.0|||||ONE_SIDED|95.0||1.5|||||Provided limit is upper 1-sided 95% confidence limit for study population for percentage of participants with clinically relevant immunogenicity, after Cycle 3|During sample size determination, the upper limit of the one-sided 95% confidence interval for the population incidence of immunogenicity, if no immunogenicity is observed, was calculated. If no immunogenicity is observed in the projected 150 participants who receive corifollitropin alfa during 3 COS cycles, then the upper limit for the population is 2%. For the projected 300 participants who receive corifollitropin alfa during 2 COS cycles, the upper limit for the population is 1%.||1.5||
92365361|NCT01120405|184632984|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of xenon over sevoflurane is accepted if the upper bound of the two-sided 95% CI around the estimated difference is below the prespecified non-inferiority margin of 10%.|Difference of proportion|0.19||||0.0052|TWO_SIDED|95.0|-6.7|7.07|||Difference of proportion|||"The percentage of patients with MN during the 3 postoperative days in the sevoflurane group and in the xenon group was expected to be 20%. The margin of non-inferiority was 10%. Thus the sample size to prove non-inferiority was 252 patients per group with α = 0.025, a power of 0.80 and the following hypotheses: H0: Px-Pc ≥ 10%; H1: Px-Pc \< 10%.~As it was expected that approximately 15% of patients would be non-evaluable, a total of 600 patients were included."||7.07|-6.70|0.0052
92166837|NCT01149369|184223784|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.01||||0.98|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||||0.4|-0.5|0.98
92166838|NCT01149369|184223785|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.007|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||||0.1|-0.7|0.007
92166839|NCT01149369|184223786|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.06|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||||0.0|-0.9|0.06
92166840|NCT01149369|184223787|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.6||||0.001|TWO_SIDED|95.0|-1.0|-0.2|||ANCOVA|||||-0.2|-1.0|0.001
92365362|NCT01120405|184632985|SUPERIORITY_OR_OTHER||Difference of proportion|0.68||||0.7715|TWO_SIDED|95.0|-3.9|5.25|||Difference of proportion|||||5.25|-3.90|0.7715
92365363|NCT01120405|184632986|SUPERIORITY_OR_OTHER||Difference of proportion|0.68||||0.4763|TWO_SIDED|95.0|-1.19|2.54|||Difference of proportion|||||2.54|-1.19|0.4763
92365364|NCT01120405|184632987|SUPERIORITY_OR_OTHER||Difference of proportion|-0.34||||0.6533|TWO_SIDED|95.0|-1.82|1.14|||Difference of proportion|||||1.14|-1.82|0.6533
92365365|NCT01120405|184632988|SUPERIORITY_OR_OTHER||Difference of proportion|0.68||||0.1559|TWO_SIDED|95.0|-0.26|1.61|||Difference of proportion|||||1.61|-0.26|0.1559
92365366|NCT01120405|184632990|SUPERIORITY_OR_OTHER||Difference of proportion|1.69||||0.6056|TWO_SIDED|95.0|-4.74|8.13|||Difference of proportion|||||8.13|-4.74|0.6056
92365367|NCT05501639|184633012|OTHER|||||||0.758|||||||Log Rank|||||||0.758
92365368|NCT05501639|184633013|OTHER|||||||0.474|||||||Log Rank|||||||0.474
92365369|NCT05501639|184633014|OTHER|||||||0.472|||||||Chi-squared|||||||0.472
92365370|NCT05501639|184633015|OTHER||Incidence rate ratio|0.647|||||TWO_SIDED|95.0|0.261|1.604|||||Incidence rate ratio at 6 months|||1.604|0.261|
92365371|NCT05501639|184633015|OTHER||Incidence rate ratio|1.005|||||TWO_SIDED|95.0|0.513|1.969|||||Incidence rate ratio at 12 months|||1.969|0.513|
92365372|NCT05501639|184633016|OTHER|||||||0.222|||||||Chi-squared|||Hospitalisations||||0.222
92365373|NCT05501639|184633016|OTHER|||||||0.553|||||||Chi-squared|||Asthma-related hospitalisations||||0.553
92404331|NCT04825678|184700063|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-45.03|STANDARD_ERROR_OF_MEAN|6.97|<|0.001|TWO_SIDED|95.0|-60.28|-29.79||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Discontinued SoC: Social Function Domain||-29.79|-60.28|< 0.001
92365374|NCT05501639|184633016|OTHER|||||||0.192|||||||Chi-squared|||ED visits||||0.192
92365375|NCT05501639|184633016|OTHER|||||||0.383|||||||Chi-squared|||Asthma-related ED visits||||0.383
92365376|NCT05501639|184633016|OTHER|||||||0.338|||||||Chi-squared|||OP visits||||0.338
92365377|NCT05501639|184633016|OTHER||||||<|0.0001|||||||Chi-squared|||Asthma-related OP visits||||<0.0001
92365378|NCT05501639|184633017|OTHER|||||||0.538|||||||t-test, 2 sided|||Hospitalisations||||0.538
92365379|NCT05501639|184633017|OTHER|||||||0.913|||||||t-test, 2 sided|||Asthma-related hospitalisations||||0.913
92365380|NCT05501639|184633017|OTHER|||||||0.688|||||||t-test, 2 sided|||ED visits||||0.688
92365381|NCT05501639|184633017|OTHER|||||||0.892|||||||t-test, 2 sided|||Asthma-related ED visits||||0.892
92404332|NCT04825678|184700063|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-45.5|STANDARD_ERROR_OF_MEAN|2.44|<|0.001|TWO_SIDED|95.0|-50.29|-40.7||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Continued SoC: Emotional Function Domain||-40.70|-50.29|< 0.001
92224798|NCT02889796|184351063|SUPERIORITY||Least Squares Mean Difference|-0.39||||0.042|TWO_SIDED|95.0|-0.77|-0.01||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.01|-0.77|0.042
92365382|NCT05501639|184633017|OTHER||||||<|0.0001|||||||t-test, 2 sided|||OP visits||||<0.0001
92365383|NCT05501639|184633017|OTHER|||||||0.002|||||||t-test, 2 sided|||Asthma-related OP visits||||0.002
92365384|NCT05501639|184633018|OTHER|||||||0.378|||||||Chi-squared|||||||0.378
92365385|NCT01953211|184633022|SUPERIORITY_OR_OTHER||Slope|0.02|STANDARD_DEVIATION|0.57||0.88|TWO_SIDED||||||t-test, 2 sided|||||||0.88
92365386|NCT01953211|184633022|SUPERIORITY_OR_OTHER||Slope|0.63|STANDARD_DEVIATION|0.9|<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92365387|NCT01953211|184633022|SUPERIORITY_OR_OTHER||Slope|0.83|STANDARD_DEVIATION|0.78|<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92365388|NCT03188263|184633023|OTHER|The primary planned analysis was in bright light group only and compared pre-post measurements.||||||0.046||||||A threshold of .05 was selected a priori.|Sign test|A Wilcoxon matched-pairs signed-ranks test was estimated to determine if pre-post measures of glucose levels differed significantly.||The primary planned analyses was to examine effect in bright light group. A significance level of .05 was selected a priori.||||.046
92365389|NCT03188263|184633024|OTHER|The primary planned analysis was in bright light group only and compared pre-post measurements.||||||0.35||||||A threshold of .05 was selected a priori.|Sign test|A Wilcoxon matched-pairs signed-ranks test was estimated to determine if pre-post measures of glucose levels differed significantly.||The primary planned analyses was to examine effect in bright light group. A significance level of .05 was selected a priori.||||.35
92365390|NCT01628523|184633045|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.08|||<|0.05|TWO_SIDED||||||Regression, Logistic|||||||<0.05
92365391|NCT00768261|184633046|OTHER|||||||0.095|TWO_SIDED|95.0|||||ANOVA|df= 3,92||||||0.095
92365392|NCT00768261|184633047|OTHER|||||||0.066|TWO_SIDED|95.0|||||ANOVA|||"There would be a treatment effect on the changes of hippocampal measures over time.~Repeated measures ANOVA on hippocampal volume slopes with hemisphere as a within-subject repeated factor, and treatment group as the main effect."||||0.066
92365393|NCT00768261|184633047|OTHER|||||||0.009|TWO_SIDED|95.0|||||ANOVA|||"There would be a treatment effect on the changes of hippocampal measures over time.~Repeated measures ANOVA on hippocampal volume slopes with hemisphere as a within-subject repeated factor, and treatment group as the main effect."||||0.009
92365394|NCT00768261|184633047|OTHER|||||||0.3|TWO_SIDED|95.0|||||ANOVA|||"There would be a treatment effect on the changes of hippocampal measures over time.~Repeated measures ANOVA on hippocampal volume slopes with hemisphere as a within-subject repeated factor, and treatment group as the main effect."||||0.30
92365395|NCT00768261|184633047|OTHER|||||||0.0288|TWO_SIDED|95.0|||||Repeated Measures ANOVA|||RM-ANOVA on hippocampal volume slope||||0.0288
92365396|NCT00120627|184633055|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|F (1,144) = 4.12, p \< .05||2 group (treatment vs. control) by 2 time (pre-intervention and post-intervention) one-way ANOVA||||<0.05
92365397|NCT00120627|184633055|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Fisher Exact|||||||<0.05
92365398|NCT00120627|184633056|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||Intent to treat analysis using Expectation-Maximization (EM) algorithm in SPSS, a maximum-likelihood method based on group assignment, demographic variables and clinical variables.||||<0.05
92365399|NCT00120627|184633057|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||2 group (treatment vs control) by 2 time points (pre-intervention and post-intervention)||||<0.0001
92365400|NCT00120627|184633058|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
92365401|NCT00120627|184633058|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mediation using Sobel Test|||||||<0.001
92365402|NCT00120627|184633059|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||||||<0.01
92365403|NCT00120627|184633060|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||2 group (treatment vs control) by 2 time (pre-intervention and post-intervention) ANOVA||||< 0.05
92365404|NCT00120627|184633061|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Depression Subscale||||<0.001
92365405|NCT00120627|184633061|SUPERIORITY_OR_OTHER||||||=|0.31|TWO_SIDED||||||ANOVA|||Anxiety Subscale||||=0.31
92365406|NCT00120627|184633061|SUPERIORITY_OR_OTHER||||||=|0.44|TWO_SIDED||||||ANOVA|||Somatization Subscale||||=0.44
92365407|NCT00120627|184633062|SUPERIORITY_OR_OTHER||||||=|0.66|TWO_SIDED||||||ANOVA|||Post-hoc analysis||||=0.66
92166841|NCT01149369|184223788|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.2||||0.28|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||||0.2|-0.6|0.28
92365408|NCT00120627|184633063|SUPERIORITY_OR_OTHER||||||=|0.18|TWO_SIDED||||||ANOVA|||||||= 0.18
92365409|NCT00120627|184633064|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||||||< 0.01
92365410|NCT01815424|184633098|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.52|||<|0.0001|TWO_SIDED|95.0|6.03|32.77||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for tofacitinib 10 mg vs placebo at Week 16; PASI75 response for tofacitinib 10 mg vs placebo at Week 16; PGA response for tofacitinib 5 mg vs placebo at Week 16; PASI75 response for tofacitinib 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||32.77|6.03|<0.0001
92365411|NCT01815424|184633098|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.27|||<|0.0001|TWO_SIDED|95.0|2.46|11.86||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for tofacitinib 10 mg vs placebo at Week 16; PASI75 response for tofacitinib 10 mg vs placebo at Week 16; PGA response for tofacitinib 5 mg vs placebo at Week 16; PASI75 response for tofacitinib 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||11.86|2.46|<0.0001
92365412|NCT01815424|184633099|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|41.71|||<|0.0001|TWO_SIDED|95.0|14.84|151.11||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for tofacitinib 10 mg vs placebo at Week 16; PASI75 response for tofacitinib 10 mg vs placebo at Week 16; PGA response for tofacitinib 5 mg vs placebo at Week 16; PASI75 response for tofacitinib 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||151.11|14.84|<0.0001
92365413|NCT01815424|184633099|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.97|||<|0.0001|TWO_SIDED|95.0|4.06|25.17||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for tofacitinib 10 mg vs placebo at Week 16; PASI75 response for tofacitinib 10 mg vs placebo at Week 16; PGA response for tofacitinib 5 mg vs placebo at Week 16; PASI75 response for tofacitinib 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||25.17|4.06|<0.0001
92365414|NCT01815424|184633100|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-71.54|STANDARD_ERROR_OF_MEAN|8.461|<|0.0001|TWO_SIDED|95.0|-88.2|-54.87||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance of 0.025 (2-sided).|Mixed Models Analysis|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-54.87|-88.20|<0.0001
92365415|NCT01815424|184633100|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-52.12|STANDARD_ERROR_OF_MEAN|8.416|<|0.0001|TWO_SIDED|95.0|-68.7|-35.55||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Mixed Models Analysis|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-35.55|-68.70|<0.0001
92166842|NCT01149369|184223789|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.05|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|||||0.0|-1.0|0.05
92166843|NCT01149369|184223790|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.08|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|0.08
92166844|NCT01149369|184223791|SUPERIORITY|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.53|TWO_SIDED|95.0|-1.1|0.6|||ANCOVA|||||0.6|-1.1|0.53
92166845|NCT01149369|184223792|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.38|TWO_SIDED|95.0|-1.3|0.5|||ANCOVA|||||0.5|-1.3|0.38
92224799|NCT02889796|184351063|SUPERIORITY||Least Squares Mean Difference|-0.39||||0.039|TWO_SIDED|95.0|-0.77|-0.02||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.02|-0.77|0.039
92365416|NCT01815424|184633101|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|70.31|||<|0.0001|TWO_SIDED|95.0|13.38|267.15||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||267.15|13.38|<0.0001
92365417|NCT01815424|184633101|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.44|||<|0.0001|TWO_SIDED|95.0|4.31|79.62||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||79.62|4.31|<0.0001
92365418|NCT01815424|184633102|SUPERIORITY_OR_OTHER||Least square mean difference|-7.52|STANDARD_ERROR_OF_MEAN|0.913|<|0.0001|TWO_SIDED|95.0|-9.32|5.72||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance of 0.025 (2-sided).|Mixed Models Analysis|||Week 16. This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||5.72|-9.32|<0.0001
92365419|NCT01815424|184633102|SUPERIORITY_OR_OTHER||Least square mean difference|-5.45|STANDARD_ERROR_OF_MEAN|0.907|<|0.0001|TWO_SIDED|95.0|-7.24|-3.67||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance of 0.025 (2-sided).|Mixed Models Analysis|||Week 16. This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-3.67|-7.24|<0.0001
92365420|NCT01815424|184633103|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|114.4|||<|0.0001|TWO_SIDED|95.0|8.95|2657.62||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant,only then subsequent comparison was tested at the below specified significance level.||2657.62|8.95|<0.0001
92365421|NCT01815424|184633103|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|35.37|||<|0.0001|TWO_SIDED|95.0|3.47|1084.02||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||1084.02|3.47|<0.0001
92365422|NCT01815424|184633104|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|OR and 95% CI not available due to 0% frequency in placebo group.||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||||<0.0001
92365423|NCT01815424|184633104|SUPERIORITY_OR_OTHER|||||||0.0386||||||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|OR and 95% CI not available due to 0% frequency in placebo group.||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||||0.0386
92365424|NCT01815424|184633105|SUPERIORITY_OR_OTHER||Least square mean difference|-5.09|STANDARD_ERROR_OF_MEAN|0.709|<|0.0001|TWO_SIDED|95.0|-6.49|-3.7||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance of 0.025 (2-sided).|Mixed Models Analysis|||Week 4. This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-3.70|-6.49|<0.0001
92365425|NCT01815424|184633105|SUPERIORITY_OR_OTHER||Least square mean difference|-4.2|STANDARD_ERROR_OF_MEAN|0.706|<|0.0001|TWO_SIDED|95.0|-5.59|-2.81||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance of 0.025 (2-sided).|Mixed Models Analysis|||Week 4. This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-2.81|-5.59|<0.0001
92365426|NCT01815424|184633106|SUPERIORITY_OR_OTHER||Least square mean of difference|-41.23|STANDARD_ERROR_OF_MEAN|15.977||0.0113|TWO_SIDED|95.0|-72.91|-9.54||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Mixed Models Analysis|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-9.54|-72.91|0.0113
92365427|NCT01815424|184633106|SUPERIORITY_OR_OTHER||Least square mean of difference|-22.89|STANDARD_ERROR_OF_MEAN|16.01||0.1558|TWO_SIDED|95.0|-54.64|8.86||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Mixed Models Analysis|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||8.86|-54.64|0.1558
92365428|NCT04723355|184633152|NON_INFERIORITY|In the sample size calculations, we assumed that the innovative 3-lead wireless water resistant Holter System would have a concordance in the diagnosis of arrhythmia compared to the conventional Holter device similar to a previous study that compared a patch to the conventional Holter device. With this assumption, a total sample of 182 participants would have 80% power to demonstrate an accuracy of at least 85% with a significance level of 2.5% (the 95% CI lower limit should be above 85%).|Accuracy|0.87|||||TWO_SIDED|95.0|0.81|0.92||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||0.92|0.81|
92365429|NCT04723355|184633152|OTHER||Sensitivity|0.9|||||TWO_SIDED|95.0|0.83|0.95||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.95|0.83|
92404333|NCT04825678|184700063|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-60.06|STANDARD_ERROR_OF_MEAN|10.98|<|0.001|TWO_SIDED|95.0|-85.16|-34.96||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Discontinued SoC: Emotional Function Domain||-34.96|-85.16|< 0.001
92404334|NCT04825678|184700064|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-34.38|STANDARD_ERROR_OF_MEAN|3.69|<|0.001|TWO_SIDED|95.0|-41.72|-27.03||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||EM: Physical Function Domain||-27.03|-41.72|< 0.001
92404335|NCT04825678|184700064|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-49.56|STANDARD_ERROR_OF_MEAN|2.48|<|0.001|TWO_SIDED|95.0|-54.44|-44.69||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||CM: Physical Function Domain||-44.69|-54.44|< 0.001
92404336|NCT04825678|184700064|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed baseline MMD, and selected baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-35.76|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-41.47|-30.06||P-value is nominal to compare the mean change from baseline at Week 24 to zero.|Mixed Models Analysis|||EM: Usual Activities Domain||-30.06|-41.47|< 0.001
92224800|NCT02889796|184351064|SUPERIORITY||Difference in non-progression rate|6.6||||0.002|TWO_SIDED|95.0|2.2|11.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24 for change in mTSS ≤ 0.5.||11.1|2.2|0.002
92166846|NCT01149369|184223793|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-2.2||||0.09|TWO_SIDED|95.0|-4.7|0.4|||ANCOVA|||||0.4|-4.7|0.09
92166847|NCT01149369|184223794|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-1.8||||0.28|TWO_SIDED|95.0|-5.2|1.5|||ANCOVA|||||1.5|-5.2|0.28
92224801|NCT02889796|184351064|SUPERIORITY||Difference in non-progression rate|3.9||||0.073|TWO_SIDED|95.0|-0.8|8.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24 for change in mTSS ≤ 0.5.||8.6|-0.8|0.073
92365430|NCT04723355|184633152|OTHER||Specificity|0.83|||||TWO_SIDED|95.0|0.72|0.9||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.90|0.72|
92365431|NCT04723355|184633152|OTHER||Positive predictive value|0.88|||||TWO_SIDED|95.0|0.8|0.93||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.93|0.80|
92365432|NCT04723355|184633152|OTHER||Negative predictive value|0.86|||||TWO_SIDED|95.0|0.76|0.93||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.93|0.76|
92365433|NCT04723355|184633152|OTHER||Cohen Kappa coefficient|0.74|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
92365434|NCT04723355|184633152|OTHER||Positive likelihood ratio|5.21|||||TWO_SIDED|95.0|3.17|8.58||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||8.58|3.17|
92365435|NCT04723355|184633152|OTHER||Negative likelihood ratio|0.12|||||TWO_SIDED|95.0|0.06|0.21||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0.21|0.06|
92365436|NCT04723355|184633153|OTHER||Accuracy|0.99|||||TWO_SIDED|95.0|0.97|1.0||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||1.00|0.97|
92365437|NCT04723355|184633153|OTHER||Sensitivity|1.0|||||TWO_SIDED|95.0|0.85|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.85|
92166848|NCT01149369|184223795|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-1.6||||0.3|TWO_SIDED|95.0|-4.6|1.4|||ANCOVA|||||1.4|-4.6|0.30
92365438|NCT04723355|184633153|OTHER||Specificity|0.99|||||TWO_SIDED|95.0|0.97|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.97|
92365439|NCT04723355|184633153|OTHER||Positive predictive value|0.96|||||TWO_SIDED|95.0|0.78|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.78|
92365440|NCT04723355|184633153|OTHER||Negative predictive value|1.0|||||TWO_SIDED|95.0|0.98|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.98|
92365441|NCT04723355|184633153|OTHER||Cohen Kappa coefficient|0.97|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
92365442|NCT04723355|184633153|OTHER||Positive likelihood ratio|157.0|||||TWO_SIDED|95.0|22.25|1107.61||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||1107.61|22.25|
92365443|NCT04723355|184633153|OTHER||Negative likelihood ratio|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0|0|
92365444|NCT04723355|184633154|OTHER||Accuracy|0.85|||||TWO_SIDED|95.0|0.79|0.9||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||0.90|0.79|
92365445|NCT04723355|184633154|OTHER||Sensitivity|0.82|||||TWO_SIDED|95.0|0.71|0.9||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.90|0.71|
92365446|NCT04723355|184633154|OTHER||Specificity|0.88|||||TWO_SIDED|95.0|0.8|0.93||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.93|0.80|
92365447|NCT04723355|184633154|OTHER||Positive predictive value|0.82|||||TWO_SIDED|95.0|0.71|0.9||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.90|0.71|
92365448|NCT04723355|184633154|OTHER||Negative predictive value|0.88|||||TWO_SIDED|95.0|0.8|0.93||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.93|0.80|
92365449|NCT04723355|184633154|OTHER||Cohen Kappa coefficient|0.7|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
92365450|NCT04723355|184633154|OTHER||Positive likelihood ratio|6.79|||||TWO_SIDED|95.0|4.03|11.43||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||11.43|4.03|
92365451|NCT04723355|184633154|OTHER||Negative likelihood ratio|0.21|||||TWO_SIDED|95.0|0.13|0.34||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0.34|0.13|
92365452|NCT04723355|184633155|OTHER||Accuracy|0.93|||||TWO_SIDED|95.0|0.88|0.96||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||0.96|0.88|
92365453|NCT04723355|184633155|OTHER||Sensitivity|0.78|||||TWO_SIDED|95.0|0.56|0.93||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.93|0.56|
92365454|NCT04723355|184633155|OTHER||Specificity|0.95|||||TWO_SIDED|95.0|0.9|0.98||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.98|0.90|
92365455|NCT04723355|184633155|OTHER||Positive predictive value|0.69|||||TWO_SIDED|95.0|0.48|0.86||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.86|0.48|
92365456|NCT04723355|184633155|OTHER||Negative predictive value|0.97|||||TWO_SIDED|95.0|0.93|0.99||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.99|0.93|
92365457|NCT04723355|184633155|OTHER||Cohen Kappa coefficient|0.69|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
92365458|NCT04723355|184633155|OTHER||Positive likelihood ratio|15.26|||||TWO_SIDED|95.0|7.51|30.99||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||30.99|7.51|
92365459|NCT04723355|184633155|OTHER||Negative likelihood ratio|0.23|||||TWO_SIDED|95.0|0.11|0.5||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0.50|0.11|
92365460|NCT04723355|184633156|OTHER||Accuracy|0.93|||||TWO_SIDED|95.0|0.89|0.96||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||0.96|0.89|
92365461|NCT04723355|184633156|OTHER||Sensitivity|0.58|||||TWO_SIDED|95.0|0.28|0.85||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.85|0.28|
92166849|NCT01149369|184223796|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-21.2||||0.4|TWO_SIDED|95.0|-70.5|28.1|||ANCOVA|||||28.1|-70.5|0.40
92365462|NCT04723355|184633156|OTHER||Specificity|0.96|||||TWO_SIDED|95.0|0.92|0.98||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.98|0.92|
92365463|NCT04723355|184633156|OTHER||Positive predictive value|0.5|||||TWO_SIDED|95.0|0.23|0.77||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.77|0.23|
92365464|NCT04723355|184633156|OTHER||Negative predictive value|0.97|||||TWO_SIDED|95.0|0.93|0.99||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.99|0.93|
92365465|NCT04723355|184633156|OTHER||Cohen Kappa coefficient|0.77|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
92365466|NCT04723355|184633156|OTHER||Positive likelihood ratio|13.92|||||TWO_SIDED|95.0|5.84|33.17||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||33.17|5.84|
92365467|NCT04723355|184633156|OTHER||Negative likelihood ratio|0.43|||||TWO_SIDED|95.0|0.22|0.85||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0.85|0.22|
92166850|NCT01149369|184223797|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-4.2||||0.28|TWO_SIDED|95.0|-12.0|3.5|||ANCOVA|||||3.5|-12.0|0.28
92166851|NCT01149369|184223798|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|2.4||||0.47|TWO_SIDED|95.0|-4.1|8.9|||ANCOVA|||||8.9|-4.1|0.47
92166852|NCT01149369|184223799|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|1.2||||0.68|TWO_SIDED|95.0|-4.5|6.9|||ANCOVA|||||6.9|-4.5|0.68
92166853|NCT01149369|184223800|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|2.0||||0.48|TWO_SIDED|95.0|-3.6|7.6|||ANCOVA|||||7.6|-3.6|0.48
92166854|NCT01149369|184223801|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|1.5||||0.43|TWO_SIDED|95.0|-2.2|5.1|||ANCOVA|||||5.1|-2.2|0.43
92166855|NCT01149369|184223802|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-4.8||||0.01|TWO_SIDED|95.0|-8.5|-1.2|||ANCOVA|||||-1.2|-8.5|0.01
92166856|NCT01149369|184223803|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|1.4||||0.57|TWO_SIDED|95.0|-3.4|6.1|||ANCOVA|||||6.1|-3.4|0.57
92166857|NCT01149369|184223804|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.84||||0.34|TWO_SIDED|95.0|-2.6|1.0|||ANCOVA|||||1.0|-2.6|0.34
92166858|NCT01424397|184223805|SUPERIORITY_OR_OTHER||||||||||||||||||Bayesian analysis: The posterior probability of a reduction in TNSS with FP alone compared to Placebo using Mixed Models Analysis was 1.0000|||
92166859|NCT01424397|184223805|SUPERIORITY_OR_OTHER||||||||||||||||||Bayesian analysis: The posterior probability of a reduction in TNSS with SB-705498 alone compared to Placebo using Mixed Models Analysis was 0.7127|||
92365468|NCT04723355|184633157|OTHER||Accuracy|0.98|||||TWO_SIDED|95.0|0.95|1.0||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||1.00|0.95|
92365469|NCT04723355|184633157|OTHER||Sensitivity|0.75|||||TWO_SIDED|95.0|0.19|0.99||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.99|0.19|
92365470|NCT04723355|184633157|OTHER||Specificity|0.99|||||TWO_SIDED|95.0|0.96|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.96|
92365471|NCT04723355|184633157|OTHER||Positive predictive value|0.6|||||TWO_SIDED|95.0|0.15|0.95||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.95|0.15|
92365472|NCT04723355|184633157|OTHER||Negative predictive value|0.99|||||TWO_SIDED|95.0|0.97|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.97|
92365473|NCT04723355|184633157|OTHER||Cohen Kappa coefficient|0.66|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
92365474|NCT04723355|184633157|OTHER||Positive likelihood ratio|65.63|||||TWO_SIDED|95.0|14.8|291.07||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||291.07|14.80|
92365475|NCT04723355|184633157|OTHER||Negative likelihood ratio|0.25|||||TWO_SIDED|95.0|0.05|1.38||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||1.38|0.05|
92365476|NCT04723355|184633158|OTHER||Accuracy|0.98|||||TWO_SIDED|95.0|0.94|0.99||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||0.99|0.94|
92166860|NCT01424397|184223805|SUPERIORITY_OR_OTHER||||||||||||||||||Bayesian analysis: The posterior probability of a reduction in TNSS with SB-705498 + FP compared to Placebo using Mixed Models Analysis was 1.0000|||
92365477|NCT04723355|184633158|OTHER||Sensitivity|0.64|||||TWO_SIDED|95.0|0.31|0.89||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.89|0.31|
92365478|NCT04723355|184633158|OTHER||Specificity|1.0|||||TWO_SIDED|95.0|0.98|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.98|
92365479|NCT04723355|184633158|OTHER||Positive predictive value|1.0|||||TWO_SIDED|95.0|0.59|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.59|
92365480|NCT04723355|184633158|OTHER||Negative predictive value|0.98|||||TWO_SIDED|95.0|0.94|0.99||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.99|0.94|
92365481|NCT04723355|184633158|OTHER||Cohen Kappa coefficient|0.77|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
92365482|NCT04723355|184633158|OTHER|||||||||||||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.|The positive likelihood ratio could not be calculated due to the value of zero in the denominator|||
92365483|NCT04723355|184633158|OTHER||Negative likelihood ratio|0.36|||||TWO_SIDED|95.0|0.17|0.79||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0.79|0.17|
92365484|NCT04723355|184633160|OTHER||Mean Difference (Final Values)|-0.94|||||TWO_SIDED|95.0|-6.2|4.31||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||4.31|-6.20|
92365485|NCT04723355|184633160|OTHER||Lin´s concordance correlation coeficient|0.97|||||TWO_SIDED|95.0|0.96|0.98||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.98|0.96|
92365486|NCT04723355|184633161|OTHER||Mean Difference (Final Values)|-2.71|||||TWO_SIDED|95.0|-17.09|11.67||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||11.67|-17.09|
92365487|NCT04723355|184633161|OTHER||Lin´s concordance correlation coeficient|0.95|||||TWO_SIDED|95.0|0.93|0.96||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.96|0.93|
92365488|NCT04723355|184633162|OTHER||Mean Difference (Final Values)|0.39|||||TWO_SIDED|95.0|-5.43|6.22||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||6.22|-5.43|
92365489|NCT04723355|184633162|OTHER||Lin´s concordance correlation coeficient|0.95|||||TWO_SIDED|95.0|0.93|0.96||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.96|0.93|
92365490|NCT04723355|184633163|OTHER||Mean Difference (Final Values)|-6.37|||||TWO_SIDED|95.0|-1391.46|1378.72||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||1378.72|-1391.46|
92365491|NCT04723355|184633163|OTHER||Lin´s concordance correlation coeficient|0.95|||||TWO_SIDED|95.0|0.94|0.96||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.96|0.94|
92365492|NCT04723355|184633164|OTHER||Mean Difference (Final Values)|11.04|||||TWO_SIDED|95.0|-2089.58|2111.65||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||2111.65|-2089.58|
92365493|NCT04723355|184633164|OTHER||Lin´s concordance correlation coeficient|0.92|||||TWO_SIDED|95.0|0.89|0.94||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.94|0.89|
92365494|NCT04723355|184633165|OTHER||Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-5.45|5.2||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||5.20|-5.45|
92166861|NCT01424397|184223805|SUPERIORITY_OR_OTHER||||||||||||||||||Bayesian analysis: The posterior probability of a reduction in TNSS with SB-705498 + FP compared to FP alone using Mixed Models Analysis was 0.0160|||
92224802|NCT02889796|184351064|SUPERIORITY||Difference in non-progression rate|7.0||||0.009|TWO_SIDED|95.0|1.5|12.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24 for change in mTSS ≤ 0.||12.5|1.5|0.009
92224803|NCT02889796|184351064|SUPERIORITY||Difference in non-progression rate|5.0||||0.061|TWO_SIDED|95.0|-0.6|10.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24 for change in mTSS ≤ 0.||10.6|-0.6|0.061
92224804|NCT02889796|184351064|SUPERIORITY||Difference in non-progression rate|5.5||||0.004|TWO_SIDED|95.0|1.6|9.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24 for change in mTSS ≤ SDC (1.36).||9.4|1.6|0.004
92224805|NCT02889796|184351064|SUPERIORITY||Difference in non-progression rate|4.7||||0.012|TWO_SIDED|95.0|0.7|8.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24 for change in mTSS ≤ SDC (1.36).||8.8|0.7|0.012
92224806|NCT02889796|184351068|SUPERIORITY||Least Squares Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|1.9|3.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.4|1.9|<0.001
92224807|NCT02889796|184351068|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|1.0|2.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.5|1.0|<0.001
92224808|NCT02889796|184351068|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|2.1|4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.1|2.1|<0.001
92224809|NCT02889796|184351068|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|2.0|4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.1|2.0|<0.001
92224810|NCT02889796|184351072|SUPERIORITY||Least Squares Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|0.9|2.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.8|0.9|<0.001
92224811|NCT02889796|184351072|SUPERIORITY||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.48||0.002|TWO_SIDED|95.0|0.6|2.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.5|0.6|0.002
92365495|NCT04723355|184633165|OTHER||Lin´s concordance correlation coeficient|0.93|||||TWO_SIDED|95.0|0.91|0.94||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.94|0.91|
92365496|NCT04723355|184633166|OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-13.38|12.07||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||12.07|-13.38|
92365497|NCT04723355|184633166|OTHER||Lin´s concordance correlation coeficient|0.987|||||TWO_SIDED|95.0|0.98|0.99||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.99|0.98|
92365498|NCT04723355|184633167|OTHER||Mean Difference (Final Values)|-0.09|||||TWO_SIDED|95.0|-1.75|1.56||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||1.56|-1.75|
92365499|NCT04723355|184633167|OTHER||Lin´s concordance correlation coeficient|0.9976|||||TWO_SIDED|95.0|0.997|0.998||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.998|0.997|
92365500|NCT04723355|184633168|SUPERIORITY||chi-squared test statistic|23.529|||<|0.0001|TWO_SIDED||||||Chi-squared|||||||<0.0001
92365501|NCT01127633|184633179|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority margin for this hypothesis was specified as 50% of the treatment difference observed at the end of the feeder study. If the lower limit of the confidence interval (CI) was greater than 0, the noninferiority criterion was met, indicating that at least 50% of the treatment difference observed at the end of the feeder studies was maintained at specified time points in the delayed-start period.|Median Difference (Net)|-0.02||||0.974|TWO_SIDED|95.0|-1.14|1.11|||Mixed Models Analysis|||||1.11|-1.14|0.974
92365502|NCT01073293|184633194|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.95|||<|0.001|TWO_SIDED|95.0|0.86|1.05|||ANOVA|||Anti-HPV 6||1.05|0.86|<0.001
92365503|NCT01073293|184633194|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.97|||<|0.001|TWO_SIDED|95.0|0.87|1.07|||ANOVA|||Anti-HPV 11||1.07|0.87|<0.001
92404337|NCT04825678|184700064|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-46.7|STANDARD_ERROR_OF_MEAN|2.23|<|0.001|TWO_SIDED|95.0|-51.1|-42.29||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||CM: Usual Activities Domain||-42.29|-51.10|< 0.001
92224812|NCT02889796|184351072|SUPERIORITY||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.52||0.006|TWO_SIDED|95.0|0.4|2.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.5|0.4|0.006
92365504|NCT01073293|184633194|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.94|||<|0.001|TWO_SIDED|95.0|0.85|1.04|||ANOVA|||Anti-HPV 16||1.04|0.85|<0.001
92365505|NCT01073293|184633194|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.95|||<|0.001|TWO_SIDED|95.0|0.84|1.07|||ANOVA|||Anti-HPV 18||1.07|0.84|<0.001
92365506|NCT01073293|184633194|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.94|||<|0.001|TWO_SIDED|95.0|0.84|1.06|||ANOVA|||Anti-HPV 31||1.06|0.84|<0.001
92365507|NCT01073293|184633194|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.9|||<|0.001|TWO_SIDED|95.0|0.81|1.0|||ANOVA|||Anti-HPV 33||1.00|0.81|<0.001
92365508|NCT01073293|184633194|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.97|||<|0.001|TWO_SIDED|95.0|0.86|1.11|||ANOVA|||Anti-HPV 45||1.11|0.86|<0.001
92404338|NCT04825678|184700064|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-36.42|STANDARD_ERROR_OF_MEAN|3.26|<|0.001|TWO_SIDED|95.0|-42.89|-29.96||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||EM: Social Function Domain||-29.96|-42.89|< 0.001
92404339|NCT04825678|184700064|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-46.73|STANDARD_ERROR_OF_MEAN|2.41|<|0.001|TWO_SIDED|95.0|-51.49|-41.98||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||CM: Social Function Domain||-41.98|-51.49|< 0.001
92404340|NCT04825678|184700064|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-41.44|STANDARD_ERROR_OF_MEAN|4.04|<|0.001|TWO_SIDED|95.0|-49.47|-33.4||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||EM: Emotional Function Domain||-33.40|-49.47|< 0.001
92365509|NCT01073293|184633194|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.95|||<|0.001|TWO_SIDED|95.0|0.85|1.06|||ANOVA|||Anti-HPV 52||1.06|0.85|<0.001
92365510|NCT01073293|184633194|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.89|||<|0.001|TWO_SIDED|95.0|0.8|0.99|||ANOVA|||Anti-HPV 58||0.99|0.80|<0.001
92365511|NCT01073293|184633199|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the percentage difference is greater than -10|Difference in percentage|0.2|||<|0.001|TWO_SIDED|95.0|-0.7|1.4|||Miettinen and Nurminen|||Anti-diphtheria titer \>=0.1 IU/mL||1.4|-0.7|<0.001
92365512|NCT01073293|184633199|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the percentage difference is greater than -10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-1.1|1.2|||Miettinen and Nurminen|||Anti-tetanus titer \>=0.1 IU/mL||1.2|-1.1|<0.001
92365513|NCT01073293|184633200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.95|||<|0.001|TWO_SIDED|95.0|0.85|1.06|||ANOVA|||Anti-PT||1.06|0.85|<0.001
92166862|NCT01424397|184223807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|81.35|STANDARD_ERROR_OF_MEAN|12.56|||TWO_SIDED|90.0|60.54|102.15||||||Placebo versus FP 200 μg,Nasal Airflow resistance Total WM,0-4 hr||102.15|60.54|
92224813|NCT02889796|184351072|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.52||0.001|TWO_SIDED|95.0|0.7|2.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.7|0.7|0.001
92224814|NCT02889796|184351072|SUPERIORITY||Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.55||0.086|TWO_SIDED|95.0|-0.1|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-0.1|0.086
92166863|NCT01424397|184223807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.31|STANDARD_ERROR_OF_MEAN|19.548|||TWO_SIDED|90.0|-39.7|25.05||||||Placebo versus FP 12 mg SB-705498 , Nasal Airflow resistance Total WM, 0-4 hr||25.05|-39.7|
92276918|NCT00185211|184455397|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.764||||0.1604||97.47|0.497|1.174|||Regression, Cox|The variable used as additional covariate adjustment was volume of T2 lesions on screening MRI.|The direction of comparison is initial IFNB-1b (numerator) versus initial placebo (denominator), i.e. the Hazard Ratio represents the relative risk of initial IFNB-1b treatment compared to initial placebo treatment.|Time to confirmed EDSS progression was modelled by a Cox proportional hazards regression model with the following covariates: treatment group and volume of T2 lesions on screening MRI. The null hypothesis was: Initial IFNB-1b and initial placebo do not differ with regard to the hazard for confirmed EDSS progression, i.e. hazard ratio = 1.||1.174|0.497|0.1604
92365514|NCT01073293|184633200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.99|||<|0.001|TWO_SIDED|95.0|0.9|1.08|||ANOVA|||Anti-FHA||1.08|0.90|<0.001
92365515|NCT01073293|184633200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.67|Difference in GMT|0.94|||<|0.001|TWO_SIDED|95.0|0.8|1.09|||ANOVA|||Anti-PRN||1.09|0.80|<0.001
92365516|NCT01073293|184633200|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.67|Difference in GMT|0.89||||0.005|TWO_SIDED|95.0|0.72|1.11|||ANOVA|||Anti-FIM 2/3||1.11|0.72|0.005
92365517|NCT01073293|184633201|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the difference is statistically less than 10 percentage points|Difference in percentage|-0.2|||<|0.001|TWO_SIDED|95.0|-1.2|0.8|||Miettinen and Nurminen|||Poliovirus type 1||0.8|-1.2|<0.001
92365518|NCT01073293|184633201|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the difference is statistically less than 10 percentage points|Difference in percentage|-0.2|||<|0.001|TWO_SIDED|95.0|-1.2|0.8|||Miettinen and Nurminen|||Poliovirus type 2||0.8|-1.2|<0.001
92365519|NCT01073293|184633201|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the difference is statistically less than 10 percentage points|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-0.8|0.8|||Miettinen and Nurminen|||Poliovirus type 3||0.8|-0.8|<0.001
92365520|NCT01194245|184633217|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be supported if the upper limit of the two-sided 95% confidence interval for the difference between Analog-PH20 and the comparator (insulin lispro) did not exceed 0.40.|LS Means Difference|0.05||||0.2878|TWO_SIDED|95.0|-0.05|0.15|||Mixed Models Analysis|||Approximately 110 participants were to be enrolled, allowing approximately 88 participants to complete both treatment periods (44 for each investigational drug). Assuming a dropout rate of no more than 20%, intra-participant correlation of 0.80, standard deviation of 1.2, and a true difference of 0, the study would have a greater than 90% power to show that Analog-PH20 was non-inferior to insulin lispro alone with respect to the change from baseline in A1C at the end of each treatment period.||0.15|-0.05|0.2878
92365521|NCT01824290|184633257|SUPERIORITY||Mean Difference (Final Values)|23.88|STANDARD_ERROR_OF_MEAN|29.114|||TWO_SIDED|80.0|-14.25|62.0||||||||62.00|-14.25|
92365522|NCT01490918|184633264|SUPERIORITY|||||||0.0036||||||The threshold for statistical significance was p=0.05|ANCOVA|Baselin HbA1c as covariate||primary outcome efficacy will be evaluated between group 1(placebo + metfromin + sitagliptin) and 2 (sitagliptine + metformin + acarbose)||||0.0036
92365523|NCT01490918|184633265|SUPERIORITY||||||<|0.0001||||||The threshold for statistical significance was p=0.05|ANCOVA|Baseline HbA1c as covariate||||||<0.0001
92365524|NCT01490918|184633266|SUPERIORITY|||||||0.0185||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline PPG2hr as covariate||||||0.0185
92365525|NCT01490918|184633267|SUPERIORITY|||||||0.0356||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.0356
92365526|NCT01490918|184633268|SUPERIORITY|||||||0.8258||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.8258
92365527|NCT01490918|184633269|SUPERIORITY|||||||0.9217||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.9217
92365528|NCT01490918|184633270|SUPERIORITY|||||||0.16||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.16
92365529|NCT01490918|184633271|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.004
92365530|NCT01490918|184633272|SUPERIORITY|||||||0.292||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.292
92166864|NCT01424397|184223807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|72.4|STANDARD_ERROR_OF_MEAN|14.567|||TWO_SIDED|90.0|48.28|96.52||||||Placebo versus SB-705498 + FP 12 mg, Nasal Airflow resistance Total WM, 0-4 hr||96.52|48.28|
92166865|NCT01424397|184223807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.95|STANDARD_ERROR_OF_MEAN|14.592|||TWO_SIDED|90.0|-33.1|15.22||||||FP 200 μg versus SB-705498 + FP 12 mg, Nasal Airflow resistance Total WM, 0-4 hr||15.22|-33.1|
92365531|NCT01490918|184633273|SUPERIORITY|||||||0.314||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.314
92365532|NCT01490918|184633274|SUPERIORITY|||||||0.7563||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.7563
92365533|NCT02099084|184633275|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||t-test, 2 sided|||Level of significance = .05||||0.74
92365534|NCT02099084|184633276|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||t-test, 2 sided|||Comparison between the groups for change between 0- and 2-hours. Level of significance = .05||||0.20
92365535|NCT02099084|184633276|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||t-test, 2 sided|||Comparison between the groups for change between 0- and 8-hours. Level of significance = .05||||0.17
92365536|NCT02099084|184633277|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||t-test, 2 sided|||Level of significance = .05||||0.075
92365537|NCT02099084|184633280|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||t-test, 2 sided|||Level of significance = .05||||0.42
92365538|NCT02099084|184633281|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||t-test, 2 sided|||Level of significance = .05||||0.34
92365539|NCT02706925|184633290|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.2951|STANDARD_DEVIATION|0.0352|||TWO_SIDED|95.0|1.2242|1.366|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||1.3660|1.2242|
92365540|NCT02706925|184633290|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.088|STANDARD_DEVIATION|0.0843|||TWO_SIDED|95.0|0.9128|1.2633|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||1.2633|0.9128|
92365541|NCT02706925|184633290|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.1846|STANDARD_DEVIATION|0.3328|||TWO_SIDED|95.0|0.4791|1.89|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||1.8900|0.4791|
92365542|NCT02706925|184633291|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.2114|STANDARD_DEVIATION|0.035|||TWO_SIDED|95.0|1.1409|1.2818|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||1.2818|1.1409|
92365543|NCT02706925|184633291|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.0771|STANDARD_DEVIATION|0.0524|||TWO_SIDED|95.0|0.9696|1.1845|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||1.1845|0.9696|
92166866|NCT01424397|184223808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.68|STANDARD_ERROR_OF_MEAN|0.113|||TWO_SIDED|90.0|-0.87|-0.49||||||||-0.49|-0.87|
92166867|NCT01424397|184223808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.173|||TWO_SIDED|90.0|-0.3|0.27||||||||0.27|-0.30|
92166868|NCT01424397|184223808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.74|-0.31||||||||-0.31|-0.74|
92166869|NCT01424397|184223808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.06|0.37||||||||0.37|-0.06|
92166870|NCT01951170|184223822|SUPERIORITY_OR_OTHER|||||||0.83||||||Change in mTSS scores from baseline to Week 24.|Wilcoxon signed rank test|||||||0.83
92166871|NCT01911169|184223870|OTHER||Cohen's d|0.68|||||TWO_SIDED|||||||||Effect size of primary outcome was calculated||||
92166872|NCT01911169|184223870|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||This study was conducted to determine the effect size for in change in FMD at 16 weeks with 25(OH) therapy. For change in FMD at 16 weeks with 25(OH)D repletion, based on this effect size, to detect significant differences between 2 groups, assuming 1) normally distributed data, 2) the same effect size, 3) alpha= 0.05, and 4) a power of 0.8, 35 patients in each group would be required. Therefore, this was designed as a pilot to determine effect size.||||> 0.05
92166873|NCT01546753|184223872|SUPERIORITY|The change from baseline OFC to week 38 OFC (primary outcome measure) was compared between the two groups using a Mann-Whitney U test.||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92166874|NCT01546753|184223873|SUPERIORITY|Differences in dichotomous outcomes for the percentage of participants who reach the 5000 mg cumulative dose to the walnut at the week 38 desensitization OFC was analyzed using Fisher's exact test||||||0.01|||||||Fisher Exact|||||||0.01
92166875|NCT01546753|184223874|SUPERIORITY|Differences in dichotomous outcomes including the percentage of subjects who reach the 2000 mg cumulative dose to the walnut at the week 38 desensitization OFC was analyzed using Fisher's exact test|||||<|0.01|||||||Fisher Exact|||||||<0.01
92166876|NCT01546753|184223875|SUPERIORITY|Differences in dichotomous outcomes such as the percentage of subjects who reach the 2000 mg cumulative dose to the tree nut at the week 38 desensitization OFC was analyzed using Fisher's exact test|||||<|0.01|||||||Fisher Exact|||||||<0.01
92166877|NCT01546753|184223877|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92166878|NCT01102231|184223899|OTHER||Proportion difference|0.905|||||TWO_SIDED|95.0|0.846|0.964||||||||0.964|0.846|
92166879|NCT00546754|184223909|SUPERIORITY_OR_OTHER_LEGACY|||||||0.153||95.0|||||ANOVA|||||||0.153
92166880|NCT00546754|184223910|SUPERIORITY_OR_OTHER_LEGACY|||||||0.343||95.0|||||ANOVA|||||||0.343
92166881|NCT00546754|184223911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.118||95.0|||||Fisher Exact|||||||0.118
92166882|NCT00546754|184223912|SUPERIORITY_OR_OTHER_LEGACY|||||||0.395||95.0|||||ANOVA|||||||0.395
92166883|NCT00546754|184223913|SUPERIORITY_OR_OTHER_LEGACY|||||||0.662||95.0|||||Fisher Exact|||||||0.662
92166884|NCT00546754|184223914|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Log Rank|||||||0.020
92166885|NCT00546754|184223915|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92166886|NCT00546754|184223916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.935||95.0|||||ANOVA|||||||0.935
92166887|NCT00546754|184223917|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92166888|NCT00546754|184223918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.899||95.0|||||ANOVA|||||||0.899
92166889|NCT00546754|184223919|SUPERIORITY_OR_OTHER_LEGACY|||||||0.218||95.0|||||ANOVA|||||||0.218
92166890|NCT00546754|184223920|SUPERIORITY_OR_OTHER_LEGACY|||||||0.386||95.0|||||ANOVA|||||||0.386
92365544|NCT02706925|184633291|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.3969|STANDARD_DEVIATION|0.3965|||TWO_SIDED|95.0|0.5563|2.2375|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||2.2375|0.5563|
92365545|NCT00959907|184633293|SUPERIORITY_OR_OTHER|||||||0.832||95.0|||||t-test, 2 sided|||||||0.832
92224815|NCT02889796|184351072|SUPERIORITY||Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.55||0.12|TWO_SIDED|95.0|-0.2|1.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.9|-0.2|0.12
92166891|NCT00546754|184223921|SUPERIORITY_OR_OTHER_LEGACY|||||||0.725||95.0|||||ANOVA|||||||0.725
92224816|NCT02889796|184351076|SUPERIORITY||Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.8|3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.8|1.8|<0.001
92224817|NCT02889796|184351076|SUPERIORITY||Least Squares Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.2|3.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.2|1.2|<0.001
92224818|NCT02889796|184351076|SUPERIORITY||Least Squares Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|1.5|3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.8|1.5|<0.001
92224819|NCT02889796|184351076|SUPERIORITY||Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|1.6|3.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.9|1.6|<0.001
92224820|NCT02889796|184351082|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.2||0.049|TWO_SIDED|95.0|0.0|5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.0|0.0|0.049
92224821|NCT02889796|184351082|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.2||0.069|TWO_SIDED|95.0|0.0|5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.0|-0.0|0.069
92166892|NCT01195883|184223922|SUPERIORITY||Risk Ratio (RR)|0.9||||0.51|TWO_SIDED|95.0|0.65|1.23|||GEE model|||||1.23|0.65|0.51
92166893|NCT01195883|184223923|SUPERIORITY||Risk Ratio (RR)|0.95||||0.42|TWO_SIDED|95.0|0.81|1.11|||Chi-squared|||||1.11|0.81|0.42
92365546|NCT00959907|184633294|SUPERIORITY_OR_OTHER|||||||0.658||95.0|||||t-test, 2 sided|||||||0.658
92166894|NCT01195883|184223924|SUPERIORITY||Risk Ratio (RR)|0.89||||0.26|TWO_SIDED|95.0|0.72|1.09|||Chi-squared|||||1.09|0.72|0.26
92365547|NCT00959907|184633294|SUPERIORITY_OR_OTHER|||||||0.739||95.0|||||t-test, 2 sided|||||||0.739
92166895|NCT01195883|184223925|SUPERIORITY||Odds Ratio (OR)|1.33||||0.4|TWO_SIDED|95.0|0.69|2.58|||Chi-squared|||||2.58|0.69|0.40
92365548|NCT00959907|184633295|SUPERIORITY_OR_OTHER|||||||0.184||95.0|||||t-test, 2 sided|||||||0.184
92166896|NCT04470375|184223947|OTHER|Paired samples pre-post t-test||||||0.137|||||||t-test, 2 sided|||||||.137
92166897|NCT04470375|184223948|OTHER|Paired samples t-test (pre - post measure of group)||||||0.01|||||||t-test, 2 sided|||||||.010
92166898|NCT04470375|184223949|OTHER|Paired samples t-test (pre post measure of group)||||||0.591|||||||t-test, 2 sided|||||||.591
92166899|NCT05714696|184223950|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||.007
92166900|NCT05714696|184223951|SUPERIORITY|||||||0.049|||||||t-test, 2 sided|||||||.049
92166901|NCT05714696|184223952|SUPERIORITY|||||||0.029|||||||t-test, 2 sided|||||||.029
92166902|NCT05714696|184223953|SUPERIORITY|||||||0.163|||||||t-test, 2 sided|||||||.163
92166903|NCT05714696|184223954|SUPERIORITY|||||||0.442|||||||t-test, 2 sided|||||||.442
92166904|NCT05714696|184223956|SUPERIORITY|||||||0.527|||||||t-test, 2 sided|||||||.527
92166905|NCT05714696|184223957|SUPERIORITY|||||||0.311|||||||t-test, 2 sided|||||||.311
92166906|NCT05714696|184223958|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||.004
92166907|NCT05714696|184223959|SUPERIORITY|||||||0.005|||||||Chi-squared|||||||.005
92166908|NCT04090190|184223973|SUPERIORITY|||||||0.6497|||||||Wilcoxon (Mann-Whitney)|||T-test of Wilcoxon rank sum was used to test this non-normal data. Null hypothesis is that the concentration of urine inflammatory markers is the same at baseline and follow-up. This p-value is the probability that the difference in the CRP Calc. Conc. (pg/ml) between baseline and follow-up.||||0.6497
92224822|NCT02889796|184351082|SUPERIORITY||Least Squares Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|4.0|9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||9.0|4.0|<0.001
92224823|NCT02889796|184351082|SUPERIORITY||Least Squares Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|4.0|9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||9.0|4.0|<0.001
92224824|NCT02889796|184351082|SUPERIORITY||Least Squares Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|1.5||0.06|TWO_SIDED|95.0|0.0|6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||6.0|-0.0|0.060
92224825|NCT02889796|184351082|SUPERIORITY||Least Squares Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|1.5||0.003|TWO_SIDED|95.0|2.0|8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||8.0|2.0|0.003
92224826|NCT02787863|184351125|OTHER||||||<|0.05|||||||McNemar|||||||<0.05
92224827|NCT02787863|184351126|OTHER||||||<|0.05|||||||McNemar|||||||<0.05
92224828|NCT02479802|184351134|OTHER||||||<|0.0001|||||||t-test, 1 sided|||Change from Baseline at Week 48.||||<0.0001
92224829|NCT02479802|184351135|OTHER|||||||0.0006|||||||t-test, 1 sided|||Change from Baseline at Week 48.||||0.0006
92224830|NCT03124784|184351158|EQUIVALENCE|ARMS\<= 3 %SpO2 Error per International Organization For Standardization (ISO) -80601-2-61 Pilot study Monte Carlo simulation provided 80% Power with 25 subjects for an expected ARMS\< 3 % SpO2.|ARMS|0.0|||||TWO_SIDED|||||||||Accuracy Root Mean Square (ARMS)|Per ISO-80601-2-61, the Root Mean Square difference (SpO2-SaO2) is the measure of merit for desaturation studies.|||
92365549|NCT01722929|184633305|OTHER||||||<|0.0001||||||p-value is for the main effect for the Treatment, Time, and Treatment\*Time interaction.|Mixed Models Analysis|||A mixed ANOVA was performed with the arms as a between factor and the three times as the within factor.||||<0.0001
92224831|NCT01784965|184351163|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92224832|NCT01087541|184351185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|0.5|<|0.01||95.0|0.0|1.0|||t-test, 2 sided|||||1|0|<0.01
92224833|NCT01087541|184351187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_DEVIATION|5.0|<|0.001|TWO_SIDED|95.0|2.0|15.0|||t-test, 2 sided|||||15|2|<0.001
92224834|NCT05587296|184351193|SUPERIORITY||Diffrence in Least Squares (LS) means|-3.48|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|ONE_SIDED|||||One-sided. A multiplicity adjustment strategy was defined using the hierarchical testing strategy, controlling the overall type I error rate at a one-sided alpha level of 0.025 for confirmatory statistical superiority testing.|Mixed model repeated measures (MMRM)|||||||<0.0001
92224835|NCT05587296|184351194|SUPERIORITY||Difference in Least Squares Means|-3.38|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|ONE_SIDED|||||One-sided. A multiplicity adjustment strategy was defined using the hierarchical testing strategy, controlling the overall type I error rate at a one-sided alpha level of 0.025 for confirmatory statistical superiority testing.|MMRM|||||||<0.0001
92224836|NCT05587296|184351199|SUPERIORITY||Difference in Least Squares Means|-6.12|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|ONE_SIDED|||||One-sided. A multiplicity adjustment strategy was defined using the hierarchical testing strategy, controlling the overall type I error rate at a one-sided alpha level of 0.025 for confirmatory statistical superiority testing.|MMRM|||||||<0.0001
92224837|NCT05587296|184351200|SUPERIORITY||Difference in Last Squares Means|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|ONE_SIDED|||||One-sided. A multiplicity adjustment strategy was defined using the hierarchical testing strategy, controlling the overall type I error rate at a one-sided alpha level of 0.025 for confirmatory statistical superiority testing.|MMRM|||||||<0.0001
92224838|NCT04735653|184351213|SUPERIORITY||||||<|0.001||||||A Wilcoxon rank-sum test was used instead of ANOVA due to the non-normality of the adherence outcomes. We did not block on clinic due to differences in sample characteristics by site.|Wilcoxon (Mann-Whitney)|Medication adherence was compared between groups with a Wilcoxon rank-sum test.||||||<0.001
92224839|NCT04735653|184351214|SUPERIORITY||||||<|0.001||||||A chi-squared test was used instead of Cochran-Mantel-Haenszel test due to site differences. Site differences will be incorporated into multivariable models to investigate moderating effects with treatment on the outcome in future analyses.|Chi-squared|||||||<0.001
92224840|NCT04735653|184351215|SUPERIORITY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.5|-0.1|||||Adjustment for site was not performed. Site differences will be incorporated into multivariable models to investigate moderating effects with treatment on the outcome in future analyses.|||-0.1|-0.5|
92365550|NCT04290624|184633390|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.4|-0.2|||ANCOVA|||||-0.20|-0.40|<0.0001
92365551|NCT04290624|184633391|SUPERIORITY||Mean Difference (Final Values)|-28.6|STANDARD_ERROR_OF_MEAN|4.73|<|0.0001|TWO_SIDED|95.0|-38.1|-19.1|||ANCOVA|||At Week 6||-19.1|-38.1|<0.0001
92365552|NCT04290624|184633391|SUPERIORITY||Mean Difference (Final Values)|-27.9|STANDARD_ERROR_OF_MEAN|5.08|<|0.0001|TWO_SIDED|95.0|-38.2|-17.7|||ANCOVA|||At Week 12||-17.7|-38.2|<0.0001
92365553|NCT04290624|184633392|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001|TWO_SIDED|95.0|-0.52|-0.27|||ANCOVA|||At Week 6||-0.27|-0.52|<0.0001
92365554|NCT04290624|184633392|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.054|<|0.0001|TWO_SIDED|95.0|-0.47|-0.25|||ANCOVA|||At Week 12||-0.25|-0.47|<0.0001
92365555|NCT04290624|184633393|SUPERIORITY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.142|<|0.0001|TWO_SIDED|95.0|-1.14|-0.56|||ANCOVA|||At Week 6||-0.56|-1.14|<0.0001
92224841|NCT04589988|184351218|SUPERIORITY|||||||0.068||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.068
92224842|NCT04589988|184351219|SUPERIORITY|||||||0.063||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.063
92224843|NCT04589988|184351220|SUPERIORITY|||||||0.724||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.724
92224844|NCT04589988|184351221|SUPERIORITY|||||||0.447||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.447
92365556|NCT04290624|184633393|SUPERIORITY||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.139|<|0.0001|TWO_SIDED|95.0|-1.23|-0.67|||ANCOVA|||At Week 12||-0.67|-1.23|<0.0001
92224845|NCT04589988|184351222|SUPERIORITY|||||||0.696||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, work status, and depression score at baseline.||||0.696
92224846|NCT04589988|184351223|SUPERIORITY|||||||0.798||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.798
92224847|NCT04589988|184351224|SUPERIORITY|||||||0.135||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.135
92365557|NCT04290624|184633394|SUPERIORITY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.151|<|0.0001|TWO_SIDED|95.0|-1.22|-0.61|||ANCOVA|||At Week 6||-0.61|-1.22|<0.0001
92166909|NCT04090190|184223973|SUPERIORITY|||||||0.4281|||||||Wilcoxon (Mann-Whitney)|||T-test of Wilcoxon rank sum was used to test this non-normal data. Null hypothesis is that the concentration of urine inflammatory markers is the same at baseline and follow-up. This p-value is the probability that the difference in the IL-12/IL-23p40 Calc. Conc. (pg/ml) between baseline and follow-up.||||0.4281
92166910|NCT04090190|184223973|SUPERIORITY|||||||0.3157|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the baseline and follow-up levels of the urine inflammatory markers are due to chance. This p-value represents the probability that the difference between the baseline and follow-up levels of MCP-1 Calc. Conc. (pg/ml) is due to chance.||||0.3157
92166911|NCT04090190|184223973|SUPERIORITY|||||||0.1463|||||||Wilcoxon (Mann-Whitney)|||This p-value represents the probability that the difference between baseline and follow-up levels of GM-CSF Calc. Conc. (pg/ml) is due to chance.||||0.1463
92166912|NCT04090190|184223973|SUPERIORITY|||||||0.6091|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the baseline and follow-up levels of the urine inflammatory markers are due to chance. This p-value represents the probability that the difference between the baseline and follow-up levels of IL-1β Calc. Conc. (pg/ml) is due to chance.||||0.6091
92365558|NCT04290624|184633394|SUPERIORITY||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.154|<|0.0001|TWO_SIDED|95.0|-1.36|-0.74|||ANCOVA|||At Week 12||-0.74|-1.36|<0.0001
92365559|NCT04290624|184633395|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|-0.41|-0.23|||ANCOVA|||||-0.23|-0.41|<0.0001
92365560|NCT04290624|184633396|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0039|TWO_SIDED|95.0|-0.9|-0.2|||ANCOVA|||At Week 6||-0.2|-0.9|0.0039
92365561|NCT04290624|184633396|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.1|-0.5|||ANCOVA|||At Week 12||-0.5|-1.1|<0.0001
92365562|NCT04290624|184633397|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.0367|TWO_SIDED|95.0|-0.21|-0.01|||ANCOVA|||At Week 6||-0.01|-0.21|0.0367
92365563|NCT04290624|184633397|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.033||0.0725|TWO_SIDED|95.0|-0.14|-0.01|||Van-Elteren test|||At Week 12||-0.01|-0.14|0.0725
92365564|NCT04290624|184633398|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.075||0.0006|TWO_SIDED|95.0|-0.43|-0.13|||ANCOVA|||At Week 6||-0.13|-0.43|0.0006
92365565|NCT04290624|184633398|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.073||0.0009|TWO_SIDED|95.0|-0.41|-0.11|||ANCOVA|||At Week 12||-0.11|-0.41|0.0009
92365566|NCT04290624|184633399|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.117||0.002|TWO_SIDED|95.0|-0.62|-0.15|||ANCOVA|||At Week 6||-0.15|-0.62|0.0020
92365567|NCT04290624|184633399|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.09||0.0005|TWO_SIDED|95.0|-0.52|-0.16|||ANCOVA|||At Week 12||-0.16|-0.52|0.0005
92365568|NCT00656370|184633418|SUPERIORITY|||||||0.93|||||||Wilcoxon signed rank test|||||||0.93
92224848|NCT04589988|184351225|SUPERIORITY|||||||0.291||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, work status, and depression score at baseline.||||0.291
92224849|NCT04589988|184351226|SUPERIORITY||Incidence rate ratio|0.83||||0.631|TWO_SIDED|95.0|0.4|1.76|||Negative binomial regression||IRR reflects REBIL intervention group versus control group.|Fall rates were compared between REBIL and control groups using negative binomial regression. The model adjusted for age, sex, ace, and depression score at baseline. The null hypothesis was that fall rates do not differ between groups.||1.76|0.40|0.631
92224850|NCT01202656|184351227|SUPERIORITY_OR_OTHER|||||||0.72|||||||Cochran-Mantel-Haenszel|||||||0.72
92224851|NCT04161495|184351231|NON_INFERIORITY|Non-inferiority would be established if the upper bound of the one-sided 97.5% CI was less than 4.|Mean difference|-2.3|||||TWO_SIDED|95.0|-3.49|-1.11||||||Hierarchical testing framework: used to control type I error for secondary OM analyses. Statistical testing of Arm A intra-participant comparison non-inferiority continued only when estimation of previous OM was statistically significant at 0.05 level. For Arm A intra-participant comparison, mean difference and 95% confidence interval (CI) were estimated by NB regression model in which treatment (BIVV001 prophylaxis vs historical prophylaxis vs historical prophylaxis) was treated as covariate.||-1.11|-3.49|
92224852|NCT04161495|184351233|SUPERIORITY|Superiority was declared if the upper bound of the one-sided 97.5% confidence interval was less than 1.|Rate ratio|0.23|||<|0.0001|TWO_SIDED|95.0|0.13|0.42|||Negative binomial regression mode|||Tested according to hierarchical testing procedure (only performed if the previous OM was statistically significant for the considered dosing regimen). For test about Arm A intra-participant comparison superiority, rate ratio and 95% CI were estimated using NB regression model in which treatment (BIVV001 prophylaxis vs historical prophylaxis) was treated as covariate.||0.42|0.13|<0.0001
92224853|NCT04161495|184351235|SUPERIORITY||LS mean difference|-6.74|STANDARD_ERROR_OF_MEAN|1.71||0.0001|TWO_SIDED|95.0|-10.13|-3.36|||Unstructured covariance matrix|An unstructured covariance matrix within a participant was used.||Testing according to hierarchical testing procedure. Only performed if previous OM \[Annualized Bleeding Rate During the Efficacy Period in Prophylaxis Arm - Superiority Analysis\] was statistically significant for considered dosing regimen). Least square (LS) mean difference, standard error and 95% confidence interval were estimated by mixed-effect model with repeated measures (MMRM) using visit as fixed effect and Baseline Haem-A-QOL physical health score as covariate.||-3.36|-10.13|0.0001
92224854|NCT04161495|184351236|SUPERIORITY||LS mean difference|-1.94|STANDARD_ERROR_OF_MEAN|0.67||0.0042|TWO_SIDED|95.0|-3.26|-0.63|||Unstructured covariance matrix|An unstructured covariance matrix within a participant was used.||Testing according to hierarchical testing procedure. Only performed if previous OM \[Change From Baseline in Haem-A-QOL Physical Health Score at Weeks 26 and 52: Prophylaxis Arm\] was statistically significant for considered dosing regimen). LS mean difference, standard error and 95% confidence interval were estimated by MMRM using visit as fixed effect and PROMIS Pain Intensity 3a score as covariate.||-0.63|-3.26|0.0042
92224855|NCT04161495|184351237|SUPERIORITY||LS mean difference|-1.54|STANDARD_ERROR_OF_MEAN|0.59||0.0101|TWO_SIDED|95.0|-2.7|-0.37||An unstructured covariance matrix within a participant was used.|Unstructured covariance matrix|||Testing according to hierarchical testing procedure (only performed if previous OM \[Change From Baseline in PROMIS Pain Intensity 3a First Item at Week 52: Prophylaxis Arm\] was statistically significant for considered dosing regimen). LS mean difference, standard error and 95% confidence interval were estimated by MMRM using visit as fixed effect and Baseline Haem-A-QOL physical health score as covariate.||-0.37|-2.70|0.0101
92224856|NCT01764633|184351303|SUPERIORITY||Hazard Ratio (HR)|0.85|||<|0.0001|TWO_SIDED|95.0|0.79|0.92|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|The primary endpoint was compared between treatment groups at a significance level of 0.05.||0.92|0.79|< 0.0001
92224857|NCT01764633|184351304|SUPERIORITY||Hazard Ratio (HR)|0.8|||<|0.0001|TWO_SIDED|95.0|0.73|0.88|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary endpoint reached statistical significance at the 0.05 level, the key secondary endpoint (composite of cardiovascular death, myocardial infarction, and stroke) was tested at a significance level of 0.05.||0.88|0.73|< 0.0001
92224858|NCT01764633|184351305|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.6188|TWO_SIDED|95.0|0.88|1.25|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary and key secondary endpoints reached a statistical significance level of 0.05, then the endpoint of cardiovascular death was tested at a significance level of 0.05.||1.25|0.88|0.6188
92224859|NCT01764633|184351306|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.5368|TWO_SIDED|95.0|0.91|1.19|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints at an overall significant level of 0.01 by applying the Hochberg method.||1.19|0.91|0.5368
92224860|NCT01764633|184351307|SUPERIORITY||Hazard Ratio (HR)|0.73|||<|0.0001|TWO_SIDED|95.0|0.65|0.82|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint of cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints were tested at an overall significance level of 0.01 by applying the Hochberg method.||0.82|0.65|< 0.0001
92365569|NCT00656370|184633419|SUPERIORITY|||||||0.67|||||||Wilcoxon signed rank test|||||||0.67
92365570|NCT01342094|184633422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|||<|0.001|TWO_SIDED|95.0|-2.2|-0.9|||ANCOVA|||||-0.9|-2.2|< 0.001
92365571|NCT01646814|184633467|SUPERIORITY|||||||0.019|||||||Chi-squared|||||||0.019
92224861|NCT01764633|184351308|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.0101|TWO_SIDED|95.0|0.66|0.95|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint of cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints were tested at an overall significance level of 0.01 by applying the Hochberg method.||0.95|0.66|0.0101
92224862|NCT01764633|184351309|SUPERIORITY||Hazard Ratio (HR)|0.78|||<|0.0001|TWO_SIDED|95.0|0.71|0.86|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint of cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints were tested at an overall significance level of 0.01 by applying the Hochberg method.||0.86|0.71|< 0.0001
92224863|NCT01764633|184351310|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.8179|TWO_SIDED|95.0|0.86|1.13|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint of cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints were tested at an overall significance level of 0.01 by applying the Hochberg method.||1.13|0.86|0.8179
92166913|NCT04090190|184223973|SUPERIORITY|||||||0.3011|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the baseline and follow-up levels of the urine inflammatory markers are due to chance. This p-value represents the probability that the difference between the baseline and follow-up levels of IL-6 Calc. Conc. (pg/ml) is due to chance.||||0.3011
92224864|NCT01764633|184351311|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0035|TWO_SIDED|95.0|0.65|0.92|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint of cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints were tested at an overall significance level of 0.01 by applying the Hochberg method.||0.92|0.65|0.0035
92224865|NCT04781816|184351319|SUPERIORITY||Least Square Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|7.53|||TWO_SIDED|90.0|-18.26|6.85||||||Analysis was performed using mixed model with repeated measurements (MMRM) including fixed effects for baseline CLASI-A, post-baseline visit, geographical region, disease subtype, baseline use of CQ/HCQ, intervention group, visit-by- intervention group interaction, and visit-by-baseline-CLASI-A interaction.||6.85|-18.26|
92224866|NCT02123485|184351338|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||0.30
92224867|NCT03545906|184351340|SUPERIORITY||Mean Difference (Net)|1.0||||0.075|TWO_SIDED||||||t-test, 2 sided|||||||.075
92224868|NCT03545906|184351341|SUPERIORITY||Mean Difference (Net)|1.3||||0.018|TWO_SIDED||||||t-test, 2 sided|||||||.018
92224869|NCT03545906|184351342|SUPERIORITY||Mean Difference (Net)|1.2||||0.039|TWO_SIDED||||||t-test, 2 sided|||||||.039
92224870|NCT03545906|184351343|SUPERIORITY||Mean Difference (Net)|0.7||||0.265|TWO_SIDED||||||t-test, 2 sided|||||||.265
92224871|NCT03423342|184351350|SUPERIORITY||Mean Difference (Net)|30.2|STANDARD_ERROR_OF_MEAN|3.3|<|0.0001|TWO_SIDED|||||The updated p-value is calculated and not a threshold for statistical significance.|t-test, 2 sided|||||||<0.0001
92404341|NCT04825678|184700064|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-47.67|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|-52.95|-42.39||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||CM: Emotional Function Domain||-42.39|-52.95|< 0.001
92404342|NCT01342211|184700065|SUPERIORITY_OR_OTHER||Least squares (LS) Mean Difference|-5.63|STANDARD_ERROR_OF_MEAN|9.759||0.5661|TWO_SIDED|95.0|-25.09|13.83|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with fixed effects for treatment, background statin, treatment by background statin interaction, and baseline.||13.83|-25.09|0.5661
92166914|NCT04090190|184223973|SUPERIORITY|||||||0.5009|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the baseline and follow-up levels of the urine inflammatory markers are due to chance. This p-value represents the probability that the difference between the baseline and follow-up levels of IL-8 Calc. Conc. (pg/ml) is due to chance.||||0.5009
92166915|NCT00940537|184223977|SUPERIORITY_OR_OTHER|||||||0.097||95.0||||a priori threshhold for significance was set at p\<0.05.|t-test, 2 sided|this was a paired t-test||As there was no a priori reason for the level of IHTG to impact this measurement we compared the pre and post-prandial results for all subjects whose data were of sufficient quality (N=12). These results are comparing the two categories of fasting and post-prandial. Null hypothesis was that there would be no difference in IHTG before and after a high fat, high carbohydrate meal.||||.097
92166916|NCT00940537|184223978|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||This p-value compares the low IHTG (\<5%) subjects to those with medium levels of IHTG (5 - 10%). The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||null hypothesis was that the T2 ratio would not depend on level of intrahepatic triglyceride (IHTG) and would be equal for the low and medium IHTG categories.||||0.006
92166917|NCT00940537|184223978|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||null hypothesis was that the T2 ratio would not depend on level of intra-hepatic triglyceride (IHTG) and would be equal for the low (\<5%) and high (\>10%) IHTG categories.||||<0.0001
92166918|NCT00940537|184223978|SUPERIORITY_OR_OTHER|||||||0.93||95.0||||The a priori threshold for statistical significance was set at p\<0.05.|t-test, 2 sided|||The null hypothesis was that there would be no difference in T2 relaxation ratios for varying levels of intra-hepatic triglyceride (IHTG). Thus the medium (5 - 10%) and high (\<10%) IHTG groups would not be statistically different with regard to average T2 ratio.||||.93
92166919|NCT03473340|184223981|SUPERIORITY|||||||0.17697507|||||||t-test, 2 sided|||P-Value provided is for net change only.||||0.17697507
92166920|NCT03473340|184223982|SUPERIORITY|||||||0.77367872|||||||Welch Two Sample t-test|||P-Value provided is for net change only.||||0.77367872
92224872|NCT03423342|184351351|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.0|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92224873|NCT03423342|184351352|SUPERIORITY||Mean Difference (Net)|19.0|STANDARD_ERROR_OF_MEAN|48.0|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92276919|NCT00185211|184455398|SUPERIORITY_OR_OTHER|||||||0.888||95.0||||A 2-sided error level of 0.0253 was used for analyses at month 36 and 60 in order to keep the study-wise error level at 0.05. A conditional sequential testing approach was used for the family of null hypotheses of the primary efficacy variables.|non-parametric ANCOVA|Variable used as covariate: FAMS TOI measured at baseline||"The null hypothesis H0: The distribution of FAMS TOI at month 60, adjusted for baseline FAMS TOI, is identical for both treatment arms was tested against the alternative hypothesis HA: The distribution of FAMS TOI at month 60, adjusted for baseline FAMS TOI, is not the same in the two treatment arms using a non-parametric analysis of covariance (ANCOVA)."||||0.8880
92224874|NCT03423342|184351353|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|17.0|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92224875|NCT03423342|184351354|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|3.1|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92224876|NCT03423342|184351355|SUPERIORITY||Mean Difference (Net)|0.81|STANDARD_ERROR_OF_MEAN|0.66|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92276920|NCT00185211|184455398|SUPERIORITY_OR_OTHER|||||||0.3832||95.0|||||ANCOVA|Variable used as covariate: FAMS TOI measured at baseline||"The null hypothesis H0: The mean FAMS TOI at month 60, adjusted for baseline FAMS TOI, is identical for both treatment arms was tested against the alternative hypothesis HA: The mean FAMS TOI at month 60, adjusted for baseline FAMS TOI, is not the same in the two treatment arms using a parametric analysis of covariance (ANCOVA)."||||0.3832
92365572|NCT01911351|184633482|SUPERIORITY_OR_OTHER||kappa statistic|0.88|||<|0.001|TWO_SIDED|||||A priori threshold for statistical significance: p\< or = 0.05|Chi-squared|||A kappa statistic was performed for 75% of the group to assess inter-rater agreement of the perception of the success of the procedure.||||<0.001
92365573|NCT01333436|184633499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.8|STANDARD_DEVIATION|36.8||0.0078||95.0|||||t-test, 2 sided|||||||0.0078
92365574|NCT01333436|184633500|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.5|STANDARD_DEVIATION|13.9||0.0675||95.0|||||t-test, 2 sided|||||||0.0675
92365575|NCT01333436|184633501|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.4|STANDARD_DEVIATION|4.8||0.1798||95.0|||||t-test, 2 sided|||||||0.1798
92365576|NCT00543985|184633502|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.266|||=|0.14|TWO_SIDED|95.0|||||Regression, Linear|||Pearson Product correlation was used to determine relationships between resting E/E' and Exercise VO2 max and Stress E/E' and Exercise VO2max.||||=0.14
92365577|NCT01634152|184633506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.035|STANDARD_ERROR_OF_MEAN|0.032||0.2724|TWO_SIDED|95.0|-0.028|0.099|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis was performed in a stepwise manner, firstly for this endpoint, then Trough FEV1. Each step was only considered confirmatory if all previous steps were successful.||0.099|-0.028|0.2724
92365578|NCT01634152|184633506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.139|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.075|0.203|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis was performed in a stepwise manner, firstly for this endpoint, then Trough FEV1. Each step was only considered confirmatory if all previous steps were successful.||0.203|0.075|<0.0001
92365579|NCT01634152|184633507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.018|STANDARD_ERROR_OF_MEAN|0.034||0.5898|TWO_SIDED|95.0|-0.048|0.085|||Mixed Models Analysis|Repeated measures restricted maximum likelihood|Difference calculated as Tio R2.5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis for this endpoint was performed in a stepwise manner after the analysis of the primary endpoint was performed. Each step was only considered confirmatory if all previous steps were successful.||0.085|-0.048|0.5898
92365580|NCT01634152|184633507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.087|STANDARD_ERROR_OF_MEAN|0.034||0.0117|TWO_SIDED|95.0|0.019|0.154|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis for this endpoint was performed in a stepwise manner after the analysis of the primary endpoint was performed. Each step was only considered confirmatory if all previous steps were successful.||0.154|0.019|0.0117
92365581|NCT01634152|184633508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.036||0.2277|TWO_SIDED|95.0|-0.113|0.027|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.027|-0.113|0.2277
92365582|NCT01634152|184633508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.036||0.3998|TWO_SIDED|95.0|-0.04|0.101|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.101|-0.040|0.3998
92365583|NCT01634152|184633509|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.048|STANDARD_ERROR_OF_MEAN|0.037||0.203|TWO_SIDED|95.0|-0.121|0.026|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.026|-0.121|0.2030
92365584|NCT01634152|184633509|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.009|STANDARD_ERROR_OF_MEAN|0.038||0.8194|TWO_SIDED|95.0|-0.066|0.083|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.083|-0.066|0.8194
92365585|NCT01634152|184633510|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.031|STANDARD_ERROR_OF_MEAN|0.029||0.2907|TWO_SIDED|95.0|-0.026|0.088|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.088|-0.026|0.2907
92365586|NCT01634152|184633510|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.126|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.068|0.184|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.184|0.068|<0.0001
92365587|NCT01634152|184633511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.041|STANDARD_ERROR_OF_MEAN|0.032||0.2008|TWO_SIDED|95.0|-0.103|0.022|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.022|-0.103|0.2008
92224877|NCT05130463|184351391|OTHER|||||||0.0011||||||Comparison of the change in HbA1c from baseline to the values at 12 weeks post Esgliteo administration.|t-test, 2 sided|||||||0.0011
92224878|NCT05130463|184351392|OTHER|||||||0.0014||||||Comparison of the change in HbA1c from baseline to the values at 24 weeks post Esgliteo administration.|t-test, 2 sided|||||||0.0014
92365588|NCT01634152|184633511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.037|STANDARD_ERROR_OF_MEAN|0.032||0.2545|TWO_SIDED|95.0|-0.026|0.1|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.100|-0.026|0.2545
92365589|NCT01634152|184633514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.078||0.798|TWO_SIDED|95.0|-0.133|0.173|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.173|-0.133|0.7980
92365590|NCT01634152|184633514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.079|STANDARD_ERROR_OF_MEAN|0.079||0.3166|TWO_SIDED|95.0|-0.233|0.076|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.076|-0.233|0.3166
92404343|NCT01342211|184700065|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|9.422||0.808|TWO_SIDED|95.0|-21.08|16.49|||ANCOVA|||Analysis was performed using ANCOVA model with fixed effects for treatment, background statin, treatment by background statin interaction, and baseline.||16.49|-21.08|0.8080
92404344|NCT01342211|184700065|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.72|STANDARD_ERROR_OF_MEAN|9.404||0.0001|TWO_SIDED|95.0|-56.47|-18.97|||ANCOVA|||Analysis was performed using ANCOVA model with fixed effects for treatment, background statin, treatment by background statin interaction, and baseline.||-18.97|-56.47|0.0001
92404345|NCT01342211|184700065|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.11|STANDARD_ERROR_OF_MEAN|9.514|<|0.0001|TWO_SIDED|95.0|-68.08|-30.14|||ANCOVA|||Analysis was performed using ANCOVA model with fixed effects for treatment, background statin, treatment by background statin interaction, and baseline.||-30.14|-68.08|<0.0001
92404346|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.172||||0.8998|TWO_SIDED|95.0|0.1|13.92|||Regression, Logistic|||Day 29, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||13.92|0.10|0.8998
92404347|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.063||||0.5273|TWO_SIDED|95.0|0.22|19.48|||Regression, Logistic|||Day 29, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||19.48|0.22|0.5273
92404348|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|53.924||||0.0004|TWO_SIDED|95.0|5.93|490.67|||Regression, Logistic|||Day 29, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||490.67|5.93|0.0004
92404349|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|280.366|||<|0.0001|TWO_SIDED|95.0|18.65|4214.35|||Regression, Logistic|||Day 29, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||4214.35|18.65|<0.0001
92404350|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.262||||0.086|TWO_SIDED|95.0|0.06|1.21|||Regression, Logistic|||Day 29, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||1.21|0.06|0.0860
92404351|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.579||||0.4308|TWO_SIDED|95.0|0.15|2.25|||Regression, Logistic|||Day 29, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||2.25|0.15|0.4308
92404352|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.272||||0.0127|TWO_SIDED|95.0|1.57|43.56|||Regression, Logistic|||Day 29, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||43.56|1.57|0.0127
92166921|NCT03473340|184223983|SUPERIORITY|||||||0.68595748|||||||t-test, 2 sided|||P-Value provided is for net change only.||||0.68595748
92166922|NCT03473340|184223984|SUPERIORITY|||||||0.00127634|||||||Fisher Exact|||||||0.00127634
92404353|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.528||||0.0096|TWO_SIDED|95.0|1.89|97.0|||Regression, Logistic|||Day 29, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||97.00|1.89|0.0096
92166923|NCT03473340|184223985|SUPERIORITY|||||||0.80904544|||||||Fisher Exact|||||||0.80904544
92166924|NCT02079844|184223986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.232|STANDARD_ERROR_OF_MEAN|0.7313||0.753|TWO_SIDED|95.0|-1.269|1.733||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||1.733|-1.269|0.753
92166925|NCT02079844|184223986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.133|STANDARD_ERROR_OF_MEAN|0.7417||0.859|TWO_SIDED|95.0|-1.389|1.655||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||1.655|-1.389|0.859
92166926|NCT02079844|184223987|SUPERIORITY_OR_OTHER||LS Mean Difference|1.938|STANDARD_ERROR_OF_MEAN|1.2436||0.131|TWO_SIDED|95.0|-0.614|4.49||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||4.490|-0.614|0.131
92166927|NCT02079844|184223987|SUPERIORITY_OR_OTHER||LS Mean Difference|2.377|STANDARD_ERROR_OF_MEAN|1.2545||0.069|TWO_SIDED|95.0|-0.198|4.951||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||4.951|-0.198|0.069
92166928|NCT02079844|184223988|SUPERIORITY_OR_OTHER||LS Mean Difference|0.076|STANDARD_ERROR_OF_MEAN|0.1757||0.671|TWO_SIDED|95.0|-0.739|0.106||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||0.106|-0.739|0.671
92166929|NCT02079844|184223988|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.171|STANDARD_ERROR_OF_MEAN|0.1757||0.345|TWO_SIDED|95.0|-1.193|0.571||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||0.571|-1.193|0.345
92166930|NCT01420549|184224003|NON_INFERIORITY|The non-inferiority assessment was analyzed by the bilateral confidence interval (95%) for the ratio of the mean LDLfinal/LDLbaseline of the R/E combination, compared to the mean LDLfinal/LDLbaseline of the S/E combination and the bilateral confidence interval (95%) for the difference between the two means of the percentage variation of LDL-C in the treatments (\[(LDLfinal - LDLbaseline)/LDLbaseline))\*100)R+E\] - \[(LDLfinal - LDLbaseline)/LDLbaseline))\*100)S+E\].|Median Difference (Final Values)|-10.32|STANDARD_ERROR_OF_MEAN|3.33||0.0013|TWO_SIDED|95.0|-16.94|-3.7|||ANCOVA|Estimates for treatment effect and their 95% confidence intervals were exponentiated to produce estimates of percentage change.|Mean Percentage Change LDL- C (%)|Rosuvastatin + Ezetimibe versus Simvastatin + Ezetimibe||-3.70|-16.94|0.0013
92404354|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.131||||0.9519|TWO_SIDED|95.0|0.02|61.54|||Regression, Logistic|||Day 57, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||61.54|0.02|0.9519
92365591|NCT01634152|184633516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.017|STANDARD_ERROR_OF_MEAN|0.124||0.8916|TWO_SIDED|95.0|-0.227|0.261|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.261|-0.227|0.8916
92365592|NCT01634152|184633516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.089|STANDARD_ERROR_OF_MEAN|0.126||0.4789|TWO_SIDED|95.0|-0.336|0.158|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.158|-0.336|0.4789
92365593|NCT01634152|184633517|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.015|STANDARD_ERROR_OF_MEAN|0.074||0.8361|TWO_SIDED|95.0|-0.16|0.129|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.129|-0.160|0.8361
92365594|NCT01634152|184633517|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.087|STANDARD_ERROR_OF_MEAN|0.075||0.2461|TWO_SIDED|95.0|-0.233|0.06|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.060|-0.233|0.2461
92365595|NCT01634152|184633518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.035|STANDARD_ERROR_OF_MEAN|0.067||0.6029|TWO_SIDED|95.0|-0.096|0.165|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.165|-0.096|0.6029
92365596|NCT01634152|184633518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.026|STANDARD_ERROR_OF_MEAN|0.067||0.7034|TWO_SIDED|95.0|-0.158|0.107|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.107|-0.158|0.7034
92365597|NCT01634152|184633519|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.776|STANDARD_ERROR_OF_MEAN|4.686||0.3083|TWO_SIDED|95.0|-4.419|13.97|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||13.970|-4.419|0.3083
92365598|NCT01634152|184633519|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.743|STANDARD_ERROR_OF_MEAN|4.747||0.3179|TWO_SIDED|95.0|-4.571|14.057|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||14.057|-4.571|0.3179
92365599|NCT01634152|184633520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.567|STANDARD_ERROR_OF_MEAN|4.807||0.9061|TWO_SIDED|95.0|-8.866|10.001|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||10.001|-8.866|0.9061
92365600|NCT01634152|184633520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.107|STANDARD_ERROR_OF_MEAN|4.867||0.399|TWO_SIDED|95.0|-13.658|5.444|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||5.444|-13.658|0.3990
92365601|NCT01634152|184633521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|1.025||0.3542|TWO_SIDED|95.0|-2.959|1.06|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||1.060|-2.959|0.3542
92224879|NCT05130463|184351397|OTHER|||||||0.0008||||||Comparison of the change in FPG from baseline to the values at 12 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||FPG at baseline vs FPG after 12 weeks of treatment.||||0.0008
92224880|NCT05130463|184351398|OTHER|||||||0.0068||||||Comparison of the change in FPG from baseline to the values at 24 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||FPG at baseline vs FPG after 24 weeks of treatment.||||0.0068
92365602|NCT01634152|184633521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.502|STANDARD_ERROR_OF_MEAN|1.042||0.6298|TWO_SIDED|95.0|-2.545|1.541|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||1.541|-2.545|0.6298
92365603|NCT01634152|184633522|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.032|STANDARD_ERROR_OF_MEAN|0.038||0.4066|TWO_SIDED|95.0|-0.107|0.043|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.043|-0.107|0.4066
92365604|NCT01634152|184633522|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.049|STANDARD_ERROR_OF_MEAN|0.039||0.2032|TWO_SIDED|95.0|-0.125|0.027|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.027|-0.125|0.2032
92365605|NCT01634152|184633523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.051|STANDARD_ERROR_OF_MEAN|0.041||0.2064|TWO_SIDED|95.0|-0.131|0.028|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.028|-0.131|0.2064
92365606|NCT01634152|184633523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.061|STANDARD_ERROR_OF_MEAN|0.041||0.141|TWO_SIDED|95.0|-0.142|0.02|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.020|-0.142|0.1410
92365607|NCT01634152|184633524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.001|STANDARD_ERROR_OF_MEAN|0.042||0.9869|TWO_SIDED|95.0|-0.083|0.082|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.082|-0.083|0.9869
92365608|NCT01634152|184633524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.007|STANDARD_ERROR_OF_MEAN|0.043||0.873|TWO_SIDED|95.0|-0.077|0.09|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.090|-0.077|0.8730
92365609|NCT01634152|184633525|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.006|STANDARD_ERROR_OF_MEAN|0.049||0.9043|TWO_SIDED|95.0|-0.103|0.091|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.091|-0.103|0.9043
92365610|NCT01634152|184633525|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.015|STANDARD_ERROR_OF_MEAN|0.05||0.7708|TWO_SIDED|95.0|-0.112|0.083|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.083|-0.112|0.7708
92404355|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.069||||0.974|TWO_SIDED|95.0|0.02|58.0|||Regression, Logistic|||Day 57, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||58.00|0.02|0.9740
92224881|NCT05130463|184351399|OTHER|||||||0.1867||||||Comparison of the change in body weight from baseline to the values at 12 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level||Body weight at baseline vs Body weight after 12 weeks of treatment.||||0.1867
92365611|NCT01634152|184633526|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.036|STANDARD_ERROR_OF_MEAN|0.052||0.4864|TWO_SIDED|95.0|-0.139|0.066|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.066|-0.139|0.4864
92365612|NCT01634152|184633526|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.013|STANDARD_ERROR_OF_MEAN|0.053||0.7991|TWO_SIDED|95.0|-0.117|0.09|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.090|-0.117|0.7991
92365613|NCT01634152|184633527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.007|STANDARD_ERROR_OF_MEAN|0.05||0.8884|TWO_SIDED|95.0|-0.092|0.106|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.106|-0.092|0.8884
92365614|NCT01634152|184633527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.012|STANDARD_ERROR_OF_MEAN|0.051||0.8115|TWO_SIDED|95.0|-0.112|0.088|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.088|-0.112|0.8115
92365615|NCT01634152|184633528|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.051||0.7498|TWO_SIDED|95.0|-0.084|0.117|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.117|-0.084|0.7498
92365616|NCT01634152|184633528|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.083|STANDARD_ERROR_OF_MEAN|0.052||0.1108|TWO_SIDED|95.0|-0.185|0.019|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.019|-0.185|0.1108
92365617|NCT01634152|184633529|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.015|STANDARD_ERROR_OF_MEAN|0.059||0.8055|TWO_SIDED|95.0|-0.131|0.102|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.102|-0.131|0.8055
92365618|NCT01634152|184633529|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.071|STANDARD_ERROR_OF_MEAN|0.06||0.236|TWO_SIDED|95.0|-0.189|0.047|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.047|-0.189|0.2360
92365619|NCT01634152|184633530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.017|STANDARD_ERROR_OF_MEAN|0.041||0.6748|TWO_SIDED|95.0|-0.097|0.063|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.063|-0.097|0.6748
92365620|NCT01634152|184633530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.025|STANDARD_ERROR_OF_MEAN|0.041||0.5497|TWO_SIDED|95.0|-0.056|0.105|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.105|-0.056|0.5497
92365621|NCT03848455|184633531|OTHER||||||<|0.001|||||||Kruskal-Wallis|||we use the method of RT-PCR to detect the relative expression level of PPP2CA gene in Parkinson's disease group(90 participants), healthy controls group(125 participants) and Parkinson-plus syndrome group(23 participants).This gene expression is relative to a house keeping gene GAPDH.The data were processed using 2-△△Ct. ΔCT(test) = CT(target, test) - CT(ref, test), ΔCT(calibrator) = CT(target, calibrator) - CT(ref, calibrator),ΔΔCT = ΔCT(test) - ΔCT(calibrator).||||<0.001
92365622|NCT03848455|184633531|OTHER||||||<|0.001|||||||Kruskal-Wallis|||we use the method of RT-PCR to detect the relative expression level of SYNJ1 gene in Parkinson's disease group(90 participants), healthy controls group(125 participants) and Parkinson-plus syndrome group(23 participants).This gene expression is relative to a house keeping gene GAPDH.The data were processed using 2-△△Ct. ΔCT(test) = CT(target, test) - CT(ref, test), ΔCT(calibrator) = CT(target, calibrator) - CT(ref, calibrator),ΔΔCT = ΔCT(test) - ΔCT(calibrator).||||<0.001
92365623|NCT03848455|184633531|OTHER|||||||0.149|||||||Kruskal-Wallis|||we use the method of RT-PCR to detect the relative expression level of PPP3CB gene in Parkinson's disease group(90 participants), healthy controls group(125 participants) and Parkinson-plus syndrome group(23 participants).This gene expression is relative to a house keeping gene GAPDH.The data were processed using 2-△△Ct. ΔCT(test) = CT(target, test) - CT(ref, test), ΔCT(calibrator) = CT(target, calibrator) - CT(ref, calibrator),ΔΔCT = ΔCT(test) - ΔCT(calibrator).||||0.149
92365624|NCT03848455|184633531|OTHER||||||<|0.001|||||||Kruskal-Wallis|||we use the method of RT-PCR to detect the relative expression level of NSF gene in Parkinson's disease group(90 participants), healthy controls group(125 participants) and Parkinson-plus syndrome group(23 participants).This gene expression is relative to a house keeping gene GAPDH.The data were processed using 2-△△Ct. ΔCT(test) = CT(target, test) - CT(ref, test), ΔCT(calibrator) = CT(target, calibrator) - CT(ref, calibrator),ΔΔCT = ΔCT(test) - ΔCT(calibrator).||||<0.001
92365625|NCT02481258|184633534|EQUIVALENCE|Power calculations were based on a two-sample t-test. A priori calculations to detect an effect size of 0.57 units indicated that that 50 patients per arm were needed to have 80% power. The actual effect size observed in the present study was 0.86.||||||0.05|||||||ANCOVA|||The statistical analysis was done using an ANCOVA analysis adjusting for the baseline aortic valve calcium levels.||||0.05
92365626|NCT02481258|184633536|EQUIVALENCE|Power calculations were based on a two-sample t-tests assuming initial recruitment of 50 subjects.|||||>|0.05||||||Our a priori threshold for statistical significance was p \< 0.05.|ANCOVA|||||||>0.05
92365627|NCT02481258|184633537|EQUIVALENCE|Power calculations were based on a two-sample t-test.|||||>|0.05||||||Our a priori threshold for statistical significance was p \< 0.05.|ANCOVA|||The statistical analysis was done using an ANCOVA analysis adjusting for the baseline aortic valve calcium levels.||||>0.05
92365628|NCT01900665|184633545|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.095|TWO_SIDED|95.0|-1.73|0.14|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate the denominator degrees of freedom.||||0.14|-1.73|0.095
92365629|NCT02317627|184633575|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD PASI from baseline to Week 12.||||||0.0282||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0282
92365630|NCT02317627|184633575|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID PASI from baseline to Week 12.||||||0.0035||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0035
92404356|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|28.286||||0.0273|TWO_SIDED|95.0|1.46|549.78|||Regression, Logistic|||Day 57, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||549.78|1.46|0.0273
92166931|NCT03394885|184224004|OTHER||Exact Binomial Confidence Interval|83.0|||||TWO_SIDED|95.0|66.0|100.0||||||||100|66|
92365631|NCT02317627|184633575|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID PASI from baseline to Week 12.||||||0.0261||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0261
92365632|NCT02317627|184633575|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change for all subjects' PASI from baseline to Week 12.|||||<|0.0001||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||< 0.0001
92365633|NCT02317627|184633576|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD PASI from baseline to Week 12.||||||0.0282||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0282
92365634|NCT02317627|184633576|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID PASI from baseline to Week 12.||||||0.0029||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0029
92365635|NCT02317627|184633576|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID PASI from baseline to Week 12.||||||0.0703||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0703
92166932|NCT01212991|184224026|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.706|||<|0.0001|TWO_SIDED|95.0|0.596|0.837||A 2-stage group sequential method (Lan DeMets OBF) assigned the level of significance for the pre-specified interim overall survival analysis (p\<0.015) based on overall 2-sided type I error rate of 0.049. Final results based upon interim analysis.|Log Rank||The hazard ratio is based on an unstratified Cox regression model (with treatment as the only covariate) and is relative to placebo with \<1 favoring enzalutamide.|||0.837|0.596|<0.0001
92365636|NCT02317627|184633576|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change of all subjects' PASI from baseline to Week 12.||||||0.0002||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0002
92365637|NCT02317627|184633581|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD from baseline to Week 4.||||||0.0064||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0064
92365638|NCT02317627|184633581|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID from baseline to Week 4.||||||0.0479||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0479
92365639|NCT02317627|184633581|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID from baseline to Week 4.||||||0.1513||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.1513
92166933|NCT01212991|184224027|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.186|||<|0.0001|TWO_SIDED|95.0|0.149|0.231||The assigned 2-sided type I error rate was 0.001 for the analysis of radiographic progression-free survival.|Log Rank||The hazard ratio is based on an unstratified Cox regression model (with treatment as the only covariate) and is relative to placebo with \< 1 favoring enzalutamide.|||0.231|0.149|<0.0001
92365640|NCT02317627|184633581|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change Overall from baseline to Week 4.||||||0.0002||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0002
92365641|NCT02317627|184633582|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD from baseline to Week 8.||||||0.0137||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0137
92365642|NCT02317627|184633582|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID from baseline to Week 8.||||||0.0017||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0017
92365643|NCT02317627|184633582|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID from baseline to Week 8.||||||0.0743||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0743
92365644|NCT02317627|184633582|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change Overall from baseline to Week 8.|||||<|0.0001||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||< 0.0001
92365645|NCT02317627|184633583|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD from baseline to 4 weeks.||||||0.014||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0140
92365646|NCT02317627|184633583|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID from baseline to 4 weeks.||||||0.062||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0620
92365647|NCT02317627|184633583|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in 400 mg BID from baseline to 4 weeks.||||||0.262||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.2620
92365648|NCT02317627|184633583|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change of all subjects from baseline to 4 weeks.||||||0.0008||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0008
92224882|NCT05130463|184351400|OTHER|||||||0.0003||||||Comparison of the change in body weight from baseline to the values at 24 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||Body weight at baseline vs Body weight after 24 weeks of treatment.||||0.0003
92224883|NCT05130463|184351401|OTHER|||||||0.002||||||Comparison of the change in SBP from baseline to the values at 12 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||SBP at baseline vs SBP after 12 weeks of treatment.||||0.0020
92365649|NCT02317627|184633583|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD from baseline to 8 weeks.||||||0.0137||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0137
92365650|NCT02317627|184633583|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID from baseline to 8 weeks.||||||0.0064||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0064
92365651|NCT02317627|184633583|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID from baseline to 8 weeks.||||||0.0743||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0743
92365652|NCT02317627|184633583|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change of all subjects from baseline to 8 weeks.|||||<|0.0001||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||< 0.0001
92365653|NCT02317627|184633588|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD from baseline to 12 weeks.||||||0.004||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.004
92365654|NCT02317627|184633588|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID from baseline to 12 weeks.||||||0.007||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.007
92224884|NCT05130463|184351401|OTHER|||||||0.0132||||||Comparison of the change in DBP from baseline to the values at 12 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||DBP at baseline vs DBP after 12 weeks of treatment.||||0.0132
92224885|NCT05130463|184351402|OTHER|||||||0.7591||||||Comparison of the change in SBP from baseline to the values at 24 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||SBP at baseline vs SBP after 24 weeks of treatment.||||0.7591
92224886|NCT05130463|184351402|OTHER|||||||0.5161||||||Comparison of the change in DBP from baseline to the values at 24 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||DBP at baseline vs DBP after 24 weeks of treatment.||||0.5161
92365655|NCT02317627|184633588|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID from baseline to 12 weeks.||||||0.09||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.090
92365656|NCT02317627|184633588|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change Overall from baseline to 12 weeks.|||||<|0.001||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||< 0.001
92365657|NCT02317627|184633589|SUPERIORITY|||||||0.004||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.004
92365658|NCT02317627|184633589|SUPERIORITY|||||||0.029||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.029
92365659|NCT02317627|184633589|SUPERIORITY|||||||0.084||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.084
92365660|NCT02317627|184633589|SUPERIORITY||||||<|0.001||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||< 0.001
92365661|NCT00279214|184633598|SUPERIORITY_OR_OTHER|||||||0.238||95.0|||||Repeated Measures - propensity adjusted|||24-Hour p-value||||0.238
92365662|NCT00279214|184633598|SUPERIORITY_OR_OTHER|||||||0.281||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.281
92365663|NCT00279214|184633599|SUPERIORITY_OR_OTHER|||||||0.478||95.0||||P-value for 96 Hour Change from Baseline.|Mixed Models Analysis|Model: Outcome=Therapy + Sedative Indicator + Time + Therapy\*Time + Propensity Score||||||0.478
92224887|NCT00487539|184351412|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92224888|NCT00487539|184351412|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92224889|NCT00487539|184351413|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92224890|NCT00487539|184351413|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92224891|NCT00487539|184351414|SUPERIORITY_OR_OTHER|||||||0.0014|||||||Chi-squared|||||||0.0014
92224892|NCT00487539|184351414|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Chi-squared|||||||0.0001
92224893|NCT00487539|184351415|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|on the van der Waerden normal scores||||||<0.0001
92365664|NCT00279214|184633600|SUPERIORITY_OR_OTHER|||||||0.442||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.442
92365665|NCT00279214|184633600|SUPERIORITY_OR_OTHER|||||||0.871||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.871
92365666|NCT00279214|184633601|SUPERIORITY_OR_OTHER|||||||0.704||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.704
92365667|NCT00279214|184633601|SUPERIORITY_OR_OTHER|||||||0.702||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.702
92365668|NCT00279214|184633602|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||6-Hour p-value|Repeated Measures - propensity adjusted|||||||0.061
92365669|NCT00279214|184633602|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||6-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.027
92224894|NCT00487539|184351415|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|on the van der Waerden normal scores||||||<0.0001
92224895|NCT01844895|184351419|SUPERIORITY_OR_OTHER||geometric mean ratio|0.91|||||TWO_SIDED|90.0|0.83|1.0||||||A mixed-effect model of log (Cminss) with device and substudy baseline weight category (\< 60 kg,60-100 kg, \> 100 kg) as fixed effects and participant as a random effect was used. Point estimates and 90% CIs for device differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale. No adjustment was made for multiplicity. PK comparability was concluded if the 90% CIs for the ratios of geometric means were contained within 80% to 125%.||1.00|0.83|
92224896|NCT01318109|184351425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.751|||||TWO_SIDED|95.0|-0.923|-0.579||||||||-0.579|-0.923|
92365670|NCT00279214|184633603|SUPERIORITY_OR_OTHER|||||||0.242||95.0||||Baseline p-value|Repeated Measures - propensity adjusted|||||||0.242
92224897|NCT01318109|184351425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.858|||||TWO_SIDED|95.0|-1.019|-0.697||||||||-0.697|-1.019|
92365671|NCT00279214|184633603|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||12-Hour p-value|Repeated Measures - propensity adjusted|||||||0.083
92365672|NCT00279214|184633603|SUPERIORITY_OR_OTHER|||||||0.81||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.810
92365673|NCT00279214|184633603|SUPERIORITY_OR_OTHER|||||||0.623||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.623
92224898|NCT01318109|184351426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.191|||||TWO_SIDED|95.0|-0.247|-0.135||||||||-0.135|-0.247|
92365674|NCT00279214|184633604|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||Baseline p-value|Repeated Measures - propensity adjusted|||||||0.686
92224899|NCT01318109|184351426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.192|||||TWO_SIDED|95.0|-0.242|-0.143||||||||-0.143|-0.242|
92224900|NCT01318109|184351427|SUPERIORITY_OR_OTHER||Hazard Ratio, log|-0.386|||||TWO_SIDED|95.0|-0.469|-0.303||||||||-0.303|-0.469|
92224901|NCT01318109|184351427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.403|||||TWO_SIDED|95.0|-0.484|-0.323||||||||-0.323|-0.484|
92224902|NCT01318109|184351428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.621|||||TWO_SIDED|95.0|-0.757|-0.486||||||||-0.486|-0.757|
92224903|NCT01318109|184351428|SUPERIORITY_OR_OTHER||Hazard Ratio, log|-0.692|||||TWO_SIDED|95.0|-0.814|-0.569||||||||-0.569|-0.814|
92224904|NCT01318109|184351429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.26|||||TWO_SIDED|95.0|-26.12|-12.4||||||||-12.40|-26.12|
92365675|NCT00279214|184633604|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.575
92365676|NCT00279214|184633605|SUPERIORITY_OR_OTHER|||||||0.165||95.0|||||Repeated Measures - propensity adjusted|||||||0.165
92365677|NCT00279214|184633607|SUPERIORITY_OR_OTHER|||||||0.552||95.0||||Baseline p-value|Repeated Measures - propensity adjusted|||||||0.552
92365678|NCT00279214|184633607|SUPERIORITY_OR_OTHER|||||||0.129||95.0||||12-Hour p-value|Repeated Measures - propensity adjusted|||||||0.129
92365679|NCT00279214|184633607|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.030
92224905|NCT01318109|184351429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.27|||||TWO_SIDED|95.0|-30.43|-16.12||||||||-16.12|-30.43|
92224906|NCT01318109|184351430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6|||||TWO_SIDED|95.0|-24.54|-10.66||||||||-10.66|-24.54|
92224907|NCT01318109|184351430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.35|||||TWO_SIDED|95.0|-28.32|-14.39||||||||-14.39|-28.32|
92224908|NCT01318109|184351431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.87|||||TWO_SIDED|95.0|-25.95|-11.79||||||||-11.79|-25.95|
92224909|NCT01318109|184351431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.16|||||TWO_SIDED|95.0|-25.43|-10.9||||||||-10.90|-25.43|
92224910|NCT01318109|184351432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.24|||||TWO_SIDED|95.0|-26.32|-10.16||||||||-10.16|-26.32|
92365680|NCT00279214|184633607|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.002
92365681|NCT00279214|184633609|SUPERIORITY_OR_OTHER|||||||0.128||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.128
92365682|NCT00279214|184633609|SUPERIORITY_OR_OTHER|||||||0.234||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.234
92365683|NCT00806260|184633618|NON_INFERIORITY_OR_EQUIVALENCE|step down test|Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.07|||ONE_SIDED|90.0|0.21||||ANCOVA|||at alcohol level 0.10%|||0.21|
92365684|NCT00806260|184633618|NON_INFERIORITY_OR_EQUIVALENCE|step down test|Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.05|||ONE_SIDED|90.0|0.12||||ANCOVA|||at alcohol level 0.07%|||0.12|
92365685|NCT00806260|184633618|NON_INFERIORITY_OR_EQUIVALENCE|step-down test|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.06|||ONE_SIDED|90.0|-0.03||||ANCOVA|||at alcohol level 0.04%|||-0.03|
92365686|NCT00806260|184633619|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|95.0|-0.17|0.07|||ANCOVA|||at 2 hr timepoint||0.07|-0.17|
92365687|NCT00806260|184633619|NON_INFERIORITY_OR_EQUIVALENCE|non inferiority test|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.18|0.04|||ANCOVA|||at 6 hr timepoint||0.04|-0.18|
92365688|NCT00806260|184633619|NON_INFERIORITY_OR_EQUIVALENCE|non inferiority|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.08|0.06|||ANCOVA|||at 2 hr timepoint||0.06|-0.08|
92365689|NCT00806260|184633619|NON_INFERIORITY_OR_EQUIVALENCE|non inferiority|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-0.13|0.05|||ANCOVA|||at 6 hr timepoint||0.05|-0.13|
92365690|NCT03682965|184633631|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92224911|NCT01318109|184351432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.38|||||TWO_SIDED|95.0|-30.87|-13.88||||||||-13.88|-30.87|
92224912|NCT01318109|184351433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.89|||||TWO_SIDED|95.0|-20.14|2.37||||||||2.37|-20.14|
92224913|NCT01318109|184351433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.41|||||TWO_SIDED|95.0|-16.34|3.52||||||||3.52|-16.34|
92224914|NCT06485479|184351434|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
92224915|NCT06485479|184351434|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
92224916|NCT06485479|184351434|SUPERIORITY|||||||0.56|||||||Regression, Linear|||||||.56
92224917|NCT06485479|184351435|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
92365691|NCT03682965|184633632|SUPERIORITY||||||<|0.05||||||The Holm-Bonferroni correction for multiple tests was used because the two outcomes are based on correlated data.|Clopper-Pearson binomial exact test|||The secondary efficacy endpoint was the percentage of days during peak pollen season for which the average total combined score was lower in the immunotherapy group than in the placebo group.||||<0.05
92365692|NCT03682965|184633634|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.23
92276921|NCT00185211|184455399|SUPERIORITY_OR_OTHER|||||||6e-06||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|Log Rank|||"The null hypothesis for comparison of initial IFNB-1b versus initial placebo treatment was:~H0: The survival functions (i.e., the probability that time to McDonald MS is ≥ t) are identical for both treatment arms for all points in time t\>0.~The two-sided alternative hypothesis was:~H1: The survival functions (i.e., the probability that time to McDonald MS is ≥ t) are not identical for both treatment arms for some points in time t\>0."||||0.000006
92365693|NCT00953706|184633639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|1.2||0.1509|TWO_SIDED|95.0|-0.6|4.1|||Mixed Models Analysis|||The primary analysis for the primary efficacy variable was based on a Mixed-Effects Model for Repeated Measures (MMRM). The model included absolute change from baseline in percent predicted forced expiratory volume in 1 second (FEV1) as the dependent variable, treatment (ivacaftor versus placebo) and visit as fixed effects, and participant as a random effect, with adjustment for age and continuous baseline value of percent predicted FEV1.||4.1|-0.6|0.1509
92365694|NCT00953706|184633640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|2.1||0.5408|TWO_SIDED|95.0|-2.9|5.6|||Mixed Models Analysis|||Analysis for the respiratory domain score endpoint was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with the dependent variable being absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for for age and baseline value for CFQ-R score, using unstructured covariance matrix||5.6|-2.9|0.5408
92224918|NCT06485479|184351435|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
92224919|NCT06485479|184351435|SUPERIORITY|||||||0.35|||||||Regression, Linear|||||||.35
92365695|NCT00953706|184633641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|1.4||0.0384|TWO_SIDED|95.0|-5.6|-0.2|||Mixed Models Analysis|||Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable being absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous age and baseline value for age, sweat chloride, using unstructured covariance matrix.||-0.2|-5.6|0.0384
92224920|NCT06485479|184351436|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
92224921|NCT06485479|184351436|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
92224922|NCT06485479|184351436|SUPERIORITY|||||||0.62|||||||Regression, Linear|||||||.62
92224923|NCT06485479|184351437|SUPERIORITY|||||||0.03|||||||Regression, Linear|||||||.03
92224924|NCT06485479|184351437|SUPERIORITY|||||||0.17|||||||Regression, Linear|||||||.17
92224925|NCT06485479|184351437|SUPERIORITY|||||||0.33|||||||Regression, Linear|||||||.33
92365696|NCT00953706|184633642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.5||0.7265|TWO_SIDED|95.0|-1.1|0.7|||Mixed Models Analysis|||The analysis used the linear mixed model with treatment as fixed effects, visit (days on study) and treatment by visit interaction as random effects, with adjustment for age group (\< 18 years and ≥ 18 years) and percent predicted forced expiratory volume (FEV1) severity (\< 70%, ≥ 70% to ≤ 90%, \> 90%) at screening, with random intercept and random slope. Rate of change in the study period is the slope of weight versus time (days) multiplied by the number of days in the study period (112 days).||0.7|-1.1|0.7265
92404357|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|114.508||||0.0022|TWO_SIDED|95.0|5.5|2384.03|||Regression, Logistic|||Day 57, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||2384.03|5.50|0.0022
92224926|NCT06485479|184351438|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
92224927|NCT06485479|184351438|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
92224928|NCT06485479|184351438|SUPERIORITY|||||||0.38|||||||Regression, Linear|||||||.38
92224929|NCT06485479|184351439|SUPERIORITY|||||||0.6|||||||Regression, Linear|||||||.6
92224930|NCT06485479|184351439|SUPERIORITY|||||||0.65|||||||Regression, Linear|||||||.65
92224931|NCT06485479|184351439|SUPERIORITY|||||||0.4|||||||Regression, Linear|||||||.4
92224932|NCT06142643|184351440|OTHER|"A responder was defined by subjects with a score 1 (very much improved), 2 (much improved) or 3 (improved) on the GAIS.~Inferential analysis for the primary evaluation criterion For the derived outcome responder rate at M1 (1 month after injection) for the GAIS Investigator, a binomial exact test (bilateral approach) vs 60% was applied for the overall score. This test compared the proportion of improvement to 60%."|||||<|0.0001||||||Power of 80%, significant result (alpha = 5%).|t-test, 2 sided|Null hypothesis stated that less than 60% of subjects were responders with GAIS. Under the alternative hypothesis, 75% of subjects were responders.||||||<0.0001
92224933|NCT06142643|184351441|OTHER|"A responder was defined by subjects with a score 1 (very much improved), 2 (much improved) or 3 (improved) on the GAIS.~Inferential analysis for the primary evaluation criterion For the derived outcome responder rate at M1 (1 month after injection) for the GAIS Investigator, a binomial exact test (bilateral approach) vs 60% was applied for the overall score. This test compared the proportion of improvement to 60%."|||||<|0.0001||||||Power of 80%, significant result (alpha = 5%).|t-test, 2 sided|Null hypothesis stated that less than 60% of subjects were responders with GAIS. Under the alternative hypothesis, 75% of subjects were responders.||||||<0.0001
92224934|NCT04982250|184351449|SUPERIORITY||Risk Difference (RD)|-6.0|||||TWO_SIDED|95.0|-26.0|11.0|||||Risk differences (RD) with 95% confidence intervals (CI) were estimated using regression models with Gaussian distributions, identify links, study group fixed effects, and index peer random effects (to adjust for clustering).|The sample size calculation was based on the primary PrEP initiation outcome at follow-up; 80 clusters (40 per study group) provided 80% power to detect a 17% difference in PrEP initiation between the enhanced (80%) and standard (63%) groups, assuming three referred peers per cluster (75% of those recommended), an intra-cluster correlation coefficient of 0.05, and an alpha level of 0.05.||11|-26|
92224935|NCT04982250|184351454|SUPERIORITY||Risk Difference (RD)|39.0|||||TWO_SIDED|95.0|24.0|54.0||||||||54|24|
92224936|NCT04982250|184351455|SUPERIORITY||Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-10.0|13.0||||||||13|-10|
92224937|NCT04982250|184351456|SUPERIORITY||Risk Difference (RD)|-19.0|||||TWO_SIDED|95.0|-40.0|2.0||||||||2|-40|
92224938|NCT04982250|184351457|SUPERIORITY||Median Difference (Final Values)|-16.9|||||TWO_SIDED|95.0|-36.3|2.5||||||||2.5|-36.3|
92224939|NCT04982250|184351458|SUPERIORITY||Median Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-0.2|1.1||||||||1.1|-0.2|
92224940|NCT04685876|184351465|SUPERIORITY|||||||0.355|||||||Regression, Linear|||||||0.355
92224941|NCT04685876|184351465|SUPERIORITY|||||||0.578|||||||Regression, Linear|||||||0.578
92224942|NCT04685876|184351467|SUPERIORITY|||||||0.248|||||||Regression, Cox|||||||0.248
92224943|NCT04685876|184351467|SUPERIORITY|||||||0.297|||||||Regression, Cox|||||||0.297
92224944|NCT04685876|184351468|SUPERIORITY|||||||0.748|||||||Mixed Models Analysis|||||||0.748
92224945|NCT04685876|184351468|SUPERIORITY|||||||0.395|||||||Mixed Models Analysis|||||||0.395
92224946|NCT04685876|184351469|SUPERIORITY|||||||0.152|||||||Regression, Linear|||||||0.152
92404358|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.216||||0.0684|TWO_SIDED|95.0|0.04|1.12|||Regression, Logistic|||Day 57, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||1.12|0.04|0.0684
92404359|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.081||||0.9068|TWO_SIDED|95.0|0.29|3.99|||Regression, Logistic|||Day 57, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||3.99|0.29|0.9068
92224947|NCT04685876|184351469|SUPERIORITY|||||||0.482|||||||Regression, Linear|||||||0.482
92224948|NCT02926950|184351480|SUPERIORITY||Difference in Least Squares (LS) Means|-0.47|STANDARD_ERROR_OF_MEAN|0.084|<|0.0001|TWO_SIDED|95.0|-0.64|-0.309|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.309|-0.64|< 0.0001
92224949|NCT02926950|184351481|SUPERIORITY||Difference in LS Means|-1.572|STANDARD_ERROR_OF_MEAN|0.2457|<|0.0001|TWO_SIDED|95.0|-2.0538|-1.0909|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and country as fixed effects, and baseline 2- hour postprandial glucose as a covariate.||-1.0909|-2.0538|< 0.0001
92224950|NCT02926950|184351482|SUPERIORITY||Difference in LS Means|-0.76|STANDARD_ERROR_OF_MEAN|0.2247|=|0.0007|TWO_SIDED|95.0|-1.2006|-0.3198|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline fasting plasma glucose as a covariate.||-0.3198|-1.2006|= 0.0007
92224951|NCT02926950|184351483|SUPERIORITY||Difference in LS Means|-1.87|STANDARD_ERROR_OF_MEAN|0.369|<|0.0001|TWO_SIDED|95.0|-2.591|-1.144|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and country as fixed effects, and baseline weight as a covariate.||-1.144|-2.591|< 0.0001
92224952|NCT02926950|184351484|SUPERIORITY||Difference in LS Means|-3.28|STANDARD_ERROR_OF_MEAN|1.422|=|0.0209|TWO_SIDED|95.0|-6.07|-0.497|||ANCOVA|||The change from baseline to Week 12 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤ 8.0, \>8.0%) at screening, and country as fixed effects, and baseline SBP as a covariate.||-0.497|-6.07|= 0.0209
92224953|NCT02926950|184351485|SUPERIORITY||Difference in LS Means|-3.54|STANDARD_ERROR_OF_MEAN|0.992|=|0.0004|TWO_SIDED|95.0|-5.479|-1.592|||ANCOVA|||The change from baseline to Week 12 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤ 8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||-1.592|-5.479|= 0.0004
92224954|NCT02926950|184351486|SUPERIORITY||Percentage Difference|5.4|||=|0.0238|TWO_SIDED|95.0|0.75|10.06|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening. Missing data at Week 26 were assigned a status of nonresponder in the analysis.||10.06|0.75|= 0.0238
92224955|NCT02926950|184351487|SUPERIORITY||Percentage Difference|13.9|||=|0.0001|TWO_SIDED|95.0|6.91|20.89|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening. Missing data at Week 26 were assigned a status of nonresponder in the analysis.||20.89|6.91|= 0.0001
92224956|NCT02392429|184351509|NON_INFERIORITY|we tested the null hypothesis that the NPV of the post-treatment FLT PET/CT scan was less than or equal to the NPV of the day 14 nadir bone marrow biopsy (estimated to be 0.64 by Hussein et al) against the one-sided alternative hypothesis that the NPV was greater than 0.64 using the exact binomial test.|||||>|0.99|||||||binomial exact test|||||||>0.99
92404360|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.251||||0.2235|TWO_SIDED|95.0|0.61|8.31|||Regression, Logistic|||Day 57, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||8.31|0.61|0.2235
92404361|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.25||||0.012|TWO_SIDED|95.0|1.59|42.82|||Regression, Logistic|||Day 57, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||42.82|1.59|0.0120
92224957|NCT02392429|184351510|NON_INFERIORITY|we tested the null hypothesis that the PPV of the post-treatment FLT PET/CT scan was less than or equal to the PPV of the day 14 nadir bone marrow biopsy (estimated to be 0.79by Hussein et al) against the one-sided alternative hypothesis that the PPV was greater than 0.79 using the exact binomial test.||||||0.06|||||||binomial exact test|||||||0.06
92404362|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.359||||0.5449|TWO_SIDED|95.0|0.01|9.92|||Regression, Logistic|||Day 85, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||9.92|0.01|0.5449
92224958|NCT02392429|184351514|EQUIVALENCE|no margin was assumed||||||0.68|||||||log-rank test|||Kaplan-Meier curves were constructed for the positive and negative scan groups, and the null hypothesis that the survival distributions of the two groups were equal was tested using the log-rank test.||||0.68
92224959|NCT02392429|184351515|EQUIVALENCE|no margin was assumed||||||0.08|||||||log-rank test|||Kaplan-Meier curves were constructed for the positive and negative scan groups, and the null hypothesis that the survival distributions of the two groups were equal was tested using the log-rank test.||||0.08
92224960|NCT03266016|184351516|SUPERIORITY||Odds Ratio (OR)|1.67||||0.045|TWO_SIDED|95.0|1.01|2.77|||Proportional Odds Logistic Regression|||This analysis is comparing length of weaning between REDvent acute group and control acute group.||2.77|1.01|.045
92224961|NCT03266016|184351516|SUPERIORITY||Proportional odds logistic regression|1.3|||||TWO_SIDED|95.0|0.7|2.6||||||Weaning Phase||2.6|0.7|
92224962|NCT03266016|184351517|SUPERIORITY||Incident rate ratio|1.03|||||TWO_SIDED|95.0|0.84|1.25|||||Negative binomial model.|||1.25|0.84|
92365697|NCT01214837|184633677|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA titers ≥ 1:8 against N. meningitidis serogroups C, W and Y between the 3-dose series and (minus) the 4-dose series, is greater than -10%.|Vaccine group difference|-7.0|||||TWO_SIDED|95.0|-14.0|-1.0|||Miettinen and Nurminen method|||Non-inferiority of Men ACWY 3-dose series (doses at 2, 4 and 12 months) to 4-dose series (doses at 2, 4, 6 and 12 months of age) against serogroup A at 13 months of age.||-1|-14|
92224963|NCT03266016|184351518|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.4|2.7||||||||2.7|0.4|
92365698|NCT01214837|184633677|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA titers ≥ 1:8 against N. meningitidis serogroups C, W and Y between the 3-dose series and (minus) the 4-dose series, is greater than -10%.|Vaccine group difference|-4.0|||||TWO_SIDED|95.0|-8.0|0.0|||Miettinen and Nurminen method|||Non-inferiority of Men ACWY 3-dose series (doses at 2, 4 and 12 months) to 4-dose series (doses at 2, 4, 6 and 12 months of age) against serogroup C at 13 months of age.||0|-8|
92365699|NCT01214837|184633677|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA titers ≥ 1:8 against N. meningitidis serogroups C, W and Y between the 3-dose series and (minus) the 4-dose series, is greater than -10%.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0|||Miettinen and Nurminen method|||Non-inferiority of Men ACWY 3-dose series (doses at 2, 4 and 12 months) to 4-dose series (doses at 2, 4, 6 and 12 months of age) against serogroup W at 13 months of age.||3|-3|
92365700|NCT01214837|184633677|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA titers ≥ 1:8 against N. meningitidis serogroups C, W and Y between the 3-dose series and (minus) the 4-dose series, is greater than -10%.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0|||Miettinen and Nurminen method|||Non-inferiority of Men ACWY 3-dose series (doses at 2, 4 and 12 months) to 4-dose series (doses at 2, 4, 6 and 12 months of age) against serogroup Y at 13 months of age.||4|-2|
92224964|NCT03266016|184351519|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.44|2.47||||||||2.47|0.44|
92224965|NCT03266016|184351520|SUPERIORITY||Proportional odds logistic regression|1.6|||||TWO_SIDED|95.0|1.01|2.55||||||||2.55|1.01|
92224966|NCT01664793|184351543|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|Chi-square tests for comparisons of between-arm changes in vaccination rates from pre to post intervention.||||||<0.05
92404363|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.914||||0.5585|TWO_SIDED|95.0|0.22|16.85|||Regression, Logistic|||Day 85, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||16.85|0.22|0.5585
92224967|NCT02787850|184351547|OTHER||sucess proportion|86.8|||||TWO_SIDED|95.0|71.9|95.6||||||||95.6|71.9|
92404364|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.059||||0.0022|TWO_SIDED|95.0|3.0|147.65|||Regression, Logistic|||Day 85, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||147.65|3.00|0.0022
92224968|NCT02787850|184351547|OTHER||success proportion|76.7|||||TWO_SIDED|95.0|57.7|90.1||||||||90.1|57.7|
92224969|NCT02787850|184351547|OTHER||success proportion|87.7|||||TWO_SIDED|95.0|76.3|94.9||||||||94.9|76.3|
92224970|NCT02787850|184351547|OTHER||success proportion|85.2|||||TWO_SIDED|95.0|66.3|95.8||||||||95.8|66.3|
92224971|NCT01789970|184351589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63|||<|0.001|TWO_SIDED|95.0|0.26|1.0||5% significance level|ANCOVA|The model included treatment, study center, opioid status, and baseline WPI score.|Placebo - Hydrocodone ER|The least squares means of the change from baseline to week 12 in WPI were compared between the active drug and placebo treatment groups.||1.00|0.26|<0.001
92224972|NCT01789970|184351590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|||<|0.001|TWO_SIDED|95.0|0.25|0.91||5% significance level|ANCOVA|The model included treatment, study center, opioid status, and baseline WPI score.|Placebo - Hydrocodone ER|The least squares means of the change from baseline to week 12 in API were compared between the active drug and placebo treatment groups.||0.91|0.25|<0.001
92224973|NCT01789970|184351591|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.059|TWO_SIDED|95.0|0.5|1.01||5% significance level|Wald chi-square|Cox proportional hazards model with treatment, baseline worst pain intensity (WPI), opioid status, and center in the model||||1.01|0.5|0.059
92404365|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|22.851||||0.002|TWO_SIDED|95.0|3.15|165.99|||Regression, Logistic|||Day 85, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||165.99|3.15|0.0020
92404366|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.844||||0.375|TWO_SIDED|95.0|0.48|7.12|||Regression, Logistic|||Day 85, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||7.12|0.48|0.3750
92365701|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-0.5|||||TWO_SIDED|95.0|-6.1|5.0|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 1.||5|-6.1|
92365702|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|5.8|||||TWO_SIDED|95.0|3.0|10.5|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 1.||10.5|3|
92166934|NCT01212991|184224028|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.718|||<|0.0001||95.0|0.61|0.844||The Holm step down method of multiple comparisons was used to maintain a study wide type I error of 5% for prespecified secondary efficacy analyses. The 2-sided type I error rate was 0.01 for this analysis.|Log Rank||The hazard ratio is based on an unstratified Cox regression model (with treatment as the only covariate) and is relative to placebo with \< 1 favoring enzalutamide.|||0.844|0.610|<0.0001
92166935|NCT01212991|184224029|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.349|||<|0.0001||95.0|0.303|0.403||The Holm step down method of multiple comparisons was used to maintain a study wide type I error of 5% for prespecified secondary efficacy analyses. The 2-sided type I error rate was 0.0125 for this analysis.|Log Rank||The hazard ratio is based on an unstratified Cox regression model (with treatment as the only covariate) and is relative to placebo with \< 1 favoring enzalutamide.|||0.403|0.303|<0.0001
92166936|NCT01212991|184224030|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.169|||<|0.0001||95.0|0.147|0.195||The Holm step down method of multiple comparisons was used to maintain a study wide type I error of 5% for prespecified secondary efficacy analyses. The 2-sided type I error rate was 0.0167 for this analysis.|Log Rank||The hazard ratio is based on an unstratified Cox regression model (with treatment as the only covariate) and is relative to placebo with \< 1 favoring enzalutamide.|||0.195|0.147|<0.0001
92166937|NCT01212991|184224031|SUPERIORITY_OR_OTHER_LEGACY||Difference in response rates|74.51|||<|0.0001||95.0|71.45|77.57||The Holm step down method of multiple comparisons was used to maintain a study wide type I error of 5% for prespecified secondary efficacy analyses. The 2-sided type I error rate was 0.025 for this analysis.|Cochran-Mantel-Haenszel|||||77.57|71.45|<0.0001
92166938|NCT01212991|184224032|SUPERIORITY_OR_OTHER_LEGACY||Difference in objective response rate|53.85|||<|0.0001||95.0|48.53|59.17||The Holm step down method of multiple comparisons was used to maintain a study wide type I error of 5% for prespecified secondary efficacy analyses. The 2-sided type I error rate was 0.05 for this analysis.|Cochran-Mantel-Haenszel|||||59.17|48.53|<0.0001
92166939|NCT03149991|184224038|SUPERIORITY|The unstructured covariance matrix structure was used to model nesting of observations within persons. Non-significant site interaction effects were removed one at a time. Least squares means estimates of the linear fixed effects model on SDQ change scores, adjusting for baseline covariates was used to test the primary hypothesis via contrast statements.|Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.15||0.46|TWO_SIDED||||||Mixed Models Analysis|Because sample sizes per site varied substantially, we used the Kenward-Roger degrees of freedom method.|degrees of freedom = 44.5; t=-0.74|SDQ total was primary outcome \& Day 14 primary endpoint. Change from baseline was calculated for each person at each follow-up. Change score was the dependent variable in a linear fixed effects model, where a (-)number = less severe depression. For group comparison, treatment was coded as 1 \& placebo as 0, thus a (-)value means treatment doing better. Fixed effects: group(brex v placebo), day(1-28), site(6 sites). All 2-\& 3-way interactions were included, as well as a priori defined covariates.||||0.46
92166940|NCT03149991|184224038|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.11||0.04|TWO_SIDED||||||Mixed Models Analysis||Degrees of freedom = 41.3; t=2.07.|Secondary Aim: To evaluate the short-term effect of brexpiprazole, as measured by the Symptoms of Depression Questionnaire (SDQ), on Day 2. We used the same model as in Aim 1 to test this hypothesis.||||0.04
92166941|NCT03149991|184224038|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.21||0.92|TWO_SIDED||||||Mixed Models Analysis||Degrees of freedom=38.2; t=0.10.|To evaluate the long-term effect of brexpiprazole as measured by the Symptoms of Depression Questionnaire (SDQ) on Day 28. The same model as was used in Aim 1 was used to test this hypothesis.||||0.92
92166942|NCT03149991|184224039|SUPERIORITY||Chi-squared test|0.51||||0.47|TWO_SIDED|||||This p-value was not adjusted, however there were adjustments when using a logistic regression in Statistical Analysis #2.|Chi-squared|||We used a Chi-squared test to assess differences between treatment and control in terms of percent of participants achieving a long-term sustained response, as measured by achieving a 50% or greater reduction on the MADRS on Day 28.||||0.47
92166943|NCT03149991|184224039|SUPERIORITY||Odds Ratio (OR)|1.83||||0.35|TWO_SIDED|95.0|0.52|6.44|||Regression, Logistic|Adjusted for a priori defined covariates also included in Aim 1.||Logistic regression was used to assess a difference in 50% reduction on the MADRS on Day 28 between groups.||6.44|0.52|0.35
92166944|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|3.39|STANDARD_ERROR_OF_MEAN|1.59||0.04|TWO_SIDED|||||Because tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||degrees of freedom = 41.0, t=2.13.|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the MADRS change scores, reporting here information for Day 2.||||0.04
92224974|NCT01789970|184351592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.0293|TWO_SIDED|95.0|0.47|0.96||5% significance level|Regression, Logistic|stratified by center with the following effects: treatment group, baseline API, and opioid status.|Hydrocodone ER / Placebo|API increase \>=30% and API \>=5||0.96|0.47|0.0293
92365703|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-11.9|6.0|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 3.||6|-11.9|
92365704|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|5.3|||||TWO_SIDED|95.0|-3.3|13.7|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 3.||13.7|-3.3|
92365705|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-2.4|||||TWO_SIDED|95.0|-7.5|2.3|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 4.||2.3|-7.5|
92365706|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.3|||||TWO_SIDED|95.0|-4.4|4.7|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 4.||4.7|-4.4|
92365707|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-4.3|||||TWO_SIDED|95.0|-12.1|3.4|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 5.||3.4|-12.1|
92365708|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|4.9|||||TWO_SIDED|95.0|-1.9|11.8|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 5.||11.8|-1.9|
92365709|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.04|||||TWO_SIDED|95.0|-3.7|3.8|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 6A.||3.8|-3.7|
92404367|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.078||||0.914|TWO_SIDED|95.0|0.28|4.23|||Regression, Logistic|||Day 85, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||4.23|0.28|0.9140
92365710|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|1.2|||||TWO_SIDED|95.0|-2.2|4.8|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 6A.||4.8|-2.2|
92365711|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-0.3|||||TWO_SIDED|95.0|-8.4|7.7|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 6B.||7.7|-8.4|
92404368|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.548||||0.0036|TWO_SIDED|95.0|2.09|43.57|||Regression, Logistic|||Day 85, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||43.57|2.09|0.0036
92166945|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|2.94||0.73|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df = 44.2, t=-0.35|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the MADRS change scores, reporting here information for Day 14.||||0.73
92224975|NCT01789970|184351593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.557|TWO_SIDED|95.0|-1.2|0.65||5% significance level|ANCOVA|Model with the following effects: treatment, study center, opioid status, and baseline RMDQ score.|Placebo - Hydrocodone ER|||0.65|-1.20|0.557
92224976|NCT02475655|184351602|SUPERIORITY|||||||0.67||||||Not adjusted for multiple comparisons. One-sided 5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in the percentage of participants experiencing safety milestones from Entry to Week 5.||||0.67
92224977|NCT02475655|184351605|SUPERIORITY||Mean Difference (Net)|0.85||||0.18|TWO_SIDED|90.0|0.69|1.04||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Plasma Interleukin 6 (IL-6) from baseline to week 4/5.||1.04|0.69|0.18
92224978|NCT02475655|184351607|SUPERIORITY|||||||0.4||||||Not adjusted for multiple comparisons. One-sided 5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in the percentage of participants experiencing safety milestones from Entry to Week 12.||||0.40
92224979|NCT02475655|184351611|SUPERIORITY||Mean Difference (Net)|1.31||||0.7|TWO_SIDED|90.0|-4.27|6.9||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in creatinine clearance from Entry to Week 1/2.||6.90|-4.27|0.70
92224980|NCT02475655|184351611|SUPERIORITY||Mean Difference (Net)|1.61||||0.69|TWO_SIDED|90.0|-5.06|8.29||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in creatinine clearance from Entry to Week 4/5.||8.29|-5.06|0.69
92365712|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|10.2|||||TWO_SIDED|95.0|3.4|17.2|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 6B.||17.2|3.4|
92365713|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.6|||||TWO_SIDED|95.0|-1.7|3.5|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 7F.||3.5|-1.7|
92365714|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.6|||||TWO_SIDED|95.0|-2.1|3.5|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 7F.||3.5|-2.1|
92365715|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-3.1|||||TWO_SIDED|95.0|-9.7|3.4|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 9V.||3.4|-9.7|
92365716|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-1.5|9.7|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 9V.||9.7|-1.5|
92404369|NCT01342211|184700066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.093||||0.0149|TWO_SIDED|95.0|1.42|26.1|||Regression, Logistic|||Day 85, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||26.10|1.42|0.0149
92404370|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.674||||0.5436|TWO_SIDED|95.0|0.32|8.83|||Regression, Logistic|||Day 29: The standard logistic regression model was used to assess treatment effect.||8.83|0.32|0.5436
92224981|NCT02475655|184351611|SUPERIORITY||Mean Difference (Net)|6.35||||0.09|TWO_SIDED|90.0|0.16|12.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.||Null hypothesis: There is no difference between the two arms in the change in creatinine clearance from Entry to 10/12.||12.5|0.16|0.09
92224982|NCT02475655|184351613|SUPERIORITY||Mean Difference (Net)|-0.02||||0.58|TWO_SIDED|90.0|-0.06|0.03||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in creatinine from Entry to Week 1/2.||0.03|-0.06|0.58
92224983|NCT02475655|184351613|SUPERIORITY||Mean Difference (Net)|-0.01||||0.79|TWO_SIDED|90.0|-0.06|0.04||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in creatinine from Entry to Week 4/5.||0.04|-0.06|0.79
92224984|NCT02475655|184351613|SUPERIORITY||Mean Difference (Net)|-0.07||||0.016|TWO_SIDED|90.0|-0.11|-0.02||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in creatinine from Entry to 10/12.||-0.02|-0.11|0.016
92224985|NCT02475655|184351615|SUPERIORITY||Mean Difference (Net)|-679.0||||0.018|TWO_SIDED|90.0|-1146.0|-212.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean|Null hypothesis: There is no difference between the two arms in the change in absolute neutrophil count (ANC) from Entry to Week 1/2.||-212|-1146|0.018
92224986|NCT02475655|184351615|SUPERIORITY||Mean Difference (Net)|-651.0||||0.021|TWO_SIDED|90.0|-1110.0|-192.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in absolute neutrophil count (ANC) from Entry to Week 4/5.||-192|-1110|0.021
92224987|NCT02475655|184351615|SUPERIORITY||Mean Difference (Net)|33.6||||0.91|TWO_SIDED|90.0|-461.0|528.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in absolute neutrophil count (ANC) from Entry to Week 10/12.||528|-461|0.91
92224988|NCT02475655|184351617|SUPERIORITY||Mean Difference (Net)|-0.13||||0.45|TWO_SIDED|90.0|-0.42|0.15||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in hemoglobin from Entry to Week 1/2.||0.15|-0.42|0.45
92224989|NCT02475655|184351617|SUPERIORITY||Mean Difference (Net)|-0.55||||0.005|TWO_SIDED|90.0|-0.87|-0.23||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in hemoglobin from Entry to Week 4/5.||-0.23|-0.87|0.005
92224990|NCT02475655|184351617|SUPERIORITY||Mean Difference (Net)|0.15||||0.75|TWO_SIDED|90.0|-0.65|0.95||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in hemoglobin from Entry to Week 10/12.||0.95|-0.65|0.75
92365717|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|vaccine group difference|1.9|||||TWO_SIDED|95.0|-1.2|5.7|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 14.||5.7|-1.2|
92365718|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|2.5|||||TWO_SIDED|95.0|-0.2|6.3|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 14.||6.3|-0.2|
92404371|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.734||||0.742|TWO_SIDED|95.0|0.12|4.63|||Regression, Logistic|||Day 29: The standard logistic regression model was used to assess treatment effect.||4.63|0.12|0.7420
92404372|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|28.151||||0.0002|TWO_SIDED|95.0|4.73|167.62|||Regression, Logistic|||Day 29: The standard logistic regression model was used to assess treatment effect.||167.62|4.73|0.0002
92404373|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|71.214||||0.0001|TWO_SIDED|95.0|7.88|643.42|||Regression, Logistic|||Day 29: The standard logistic regression model was used to assess treatment effect.||643.42|7.88|0.0001
92404374|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.203||||0.321|TWO_SIDED|95.0|0.01|4.74|||Regression, Logistic|||Day 57: The standard logistic regression model was used to assess treatment effect.||4.74|0.01|0.3210
92404375|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.175||||0.3786|TWO_SIDED|95.0|0.39|12.27|||Regression, Logistic|||Day 57: The standard logistic regression model was used to assess treatment effect.||12.27|0.39|0.3786
92224991|NCT02475655|184351619|SUPERIORITY||Mean Difference (Net)|37754.0|||<|0.001|TWO_SIDED|90.0|19609.0|55898.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in platelet values from Entry to Week 1/2.||55898|19609|<0.001
92224992|NCT02475655|184351619|SUPERIORITY||Mean Difference (Net)|27832.0||||0.012|TWO_SIDED|90.0|9849.0|45815.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in platelet values from Entry to Week 4/5.||45815|9849|0.012
92224993|NCT02475655|184351619|SUPERIORITY||Mean Difference (Net)|5376.0||||0.52|TWO_SIDED|90.0|-8592.0|19344.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in platelet values from Entry to Week 10/12.||19344|-8592|0.52
92404376|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.576||||0.0144|TWO_SIDED|95.0|1.5|38.38|||Regression, Logistic|||Day 57: The standard logistic regression model was used to assess treatment effect.||38.38|1.50|0.0144
92404377|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.465||||0.0007|TWO_SIDED|95.0|3.59|116.6|||Regression, Logistic|||Day 57: The standard logistic regression model was used to assess treatment effect.||116.60|3.59|0.0007
92404378|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.161||||0.8626|TWO_SIDED|95.0|0.21|6.3|||Regression, Logistic|||Day 85: The standard logistic regression model was used to assess treatment effect.||6.30|0.21|0.8626
92365719|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-2.5|||||TWO_SIDED|95.0|-6.3|-0.2|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 18C.||-0.2|-6.3|
92224994|NCT02475655|184351621|SUPERIORITY||Mean Difference (Net)|4.96||||0.05|TWO_SIDED|90.0|0.78|9.14||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Aspartate Aminotransferase (AST) (SGOT) values from Entry to Week 1/2.||9.14|0.78|0.05
92224995|NCT02475655|184351621|SUPERIORITY||Mean Difference (Net)|8.15|||<|0.001|TWO_SIDED|90.0|4.47|11.8||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Aspartate Aminotransferase (AST) (SGOT) values from Entry to Week 4/5.||11.8|4.47|<0.001
92224996|NCT02475655|184351621|SUPERIORITY||Mean Difference (Net)|3.95||||0.025|TWO_SIDED|90.0|1.08|6.81||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Aspartate Aminotransferase (AST) (SGOT) values from Entry to Week 10/12.||6.81|1.08|0.025
92224997|NCT02475655|184351623|SUPERIORITY||Mean Difference (Net)|4.9||||0.02|TWO_SIDED|90.0|1.46|8.33||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Alanine Aminotransferase (ALT) (SGPT) values from Entry to Week 1/2.||8.33|1.46|0.020
92224998|NCT02475655|184351623|SUPERIORITY||Mean Difference (Net)|11.0||||0.004|TWO_SIDED|90.0|4.84|17.1||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Alanine Aminotransferase (ALT) (SGPT) values from Entry to Week 4/5.||17.1|4.84|0.004
92224999|NCT02475655|184351623|SUPERIORITY||Mean Difference (Net)|4.64||||0.043|TWO_SIDED|90.0|0.88|8.39||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Alanine Aminotransferase (ALT) (SGPT) values from Entry to Week 10/12.||8.39|0.88|0.043
92225000|NCT02475655|184351624|SUPERIORITY||Mean Difference (Net)|1.1||||0.56|TWO_SIDED|90.0|0.84|1.44||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Plasma Interleukin 6 (IL-6) from baseline to Week 10/12.||1.44|0.84|0.56
92225001|NCT02475655|184351624|SUPERIORITY||Mean Difference (Net)|1.37||||0.026|TWO_SIDED|90.0|1.09|1.73||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Plasma Interleukin 6 (IL-6) from Week 4/5 to Week 10/12.||1.73|1.09|0.026
92225002|NCT02475655|184351625|SUPERIORITY||Mean Difference (Net)|0.89||||0.07|TWO_SIDED|90.0|0.8|0.99||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in soluble CD14 (sCD14) from baseline to Week 4/5.||0.99|0.80|0.07
92365720|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-2.2|||||TWO_SIDED|95.0|-6.2|0.2|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 18C.||0.2|-6.2|
92225003|NCT02475655|184351625|SUPERIORITY||Mean Difference (Net)|0.95||||0.59|TWO_SIDED|90.0|0.8|1.12||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in soluble CD14 (sCD14) from baseline to Week 12.||1.12|0.80|0.59
92225004|NCT02475655|184351625|SUPERIORITY||Mean Difference (Net)|1.06||||0.56|TWO_SIDED|90.0|0.9|1.24||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in soluble CD14 (sCD14) from Week 4/5 to Week 12.||1.24|0.90|0.56
92225005|NCT02475655|184351626|SUPERIORITY||Mean Difference (Net)|142.1||||0.007|TWO_SIDED|90.0|57.6|227.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in CD4+ T cell counts from Baseline to Week 2.||227|57.6|0.007
92225006|NCT02475655|184351626|SUPERIORITY||Mean Difference (Net)|74.3||||0.14|TWO_SIDED|90.0|-8.23|156.7||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in CD4+ T cell counts from Baseline to Week 5.||156.7|-8.23|0.14
92225007|NCT02475655|184351626|SUPERIORITY||Mean Difference (Net)|-38.9||||0.54|TWO_SIDED|90.0|-143.0|65.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in CD4+ T cell counts from Baseline to Week 12.||65.5|-143|0.54
92225008|NCT02475655|184351626|SUPERIORITY||Mean Difference (Net)|-112.0||||0.12|TWO_SIDED|90.0|-231.0|5.9||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|There is no difference between the two arms in the change in CD4+ T cell counts from Week 5 to Week 12.||5.90|-231|0.12
92225009|NCT02475655|184351628|SUPERIORITY||Risk Ratio (RR)|0.98||||0.94|TWO_SIDED|90.0|0.65|1.49||Not adjusted for multiple comparisons. Two-sided 10% alpha.|GEE|A GEE model for binary data was used to compare changes in iSCA because a substantial proportion of data was below the assay limit.|Risk ratio is Ruxolitinib risk divided by No Study Treatment risk.|Null hypothesis: There is no difference between the two arms in the change in HIV-1 RNA by iSCA from Entry to Week 5.||1.49|0.65|0.94
92225010|NCT02475655|184351628|SUPERIORITY||Risk Ratio (RR)|0.74||||0.46|TWO_SIDED|90.0|0.37|1.46||Not adjusted for multiple comparisons. Two-sided 10% alpha.|GEE|A GEE model for binary data was used to compare changes in iSCA because a substantial proportion of data was below the assay limit.|Risk ratio is Ruxolitinib risk divided by No Study Treatment risk.|Null hypothesis: There is no difference between the two arms in the change in HIV-1 RNA by iSCA from Entry to Week 12.||1.46|0.37|0.46
92225011|NCT02475655|184351628|SUPERIORITY||Risk Ratio (RR)|0.83||||0.59|TWO_SIDED|90.0|0.46|1.48||Not adjusted for multiple comparisons. Two-sided 10% alpha.|GEE|A GEE model for binary data was used to compare changes in iSCA because a substantial proportion of data was below the assay limit.|Risk ratio is Ruxolitinib risk divided by No Study Treatment risk.|Null hypothesis: There is no difference between the two arms in the change in HIV-1 RNA by iSCA from Week 5 to Week 12.||1.48|0.46|0.59
92225012|NCT02475655|184351629|SUPERIORITY||Mean Difference (Net)|0.88||||0.11|TWO_SIDED|90.0|0.76|1.01||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Tumor Necrosis Factor alpha (TNF alpha) from entry to Week 5.||1.01|0.76|0.11
92225013|NCT02475655|184351629|SUPERIORITY||Mean Difference (Net)|0.92||||0.71|TWO_SIDED|90.0|0.64|1.33||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Tumor Necrosis Factor alpha (TNF alpha) from entry to Week 12.||1.33|0.64|0.71
92365721|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-2.5|||||TWO_SIDED|95.0|-7.1|1.6|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 19A.||1.6|-7.1|
92365722|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-5.5|||||TWO_SIDED|95.0|-11.3|-0.9|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 19A.||-0.9|-11.3|
92365723|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.6|||||TWO_SIDED|95.0|-1.7|3.4|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 19F.||3.4|-1.7|
92404379|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.497||||0.6237|TWO_SIDED|95.0|0.3|7.51|||Regression, Logistic|||Day 85: The standard logistic regression model was used to assess treatment effect.||7.51|0.30|0.6237
92404380|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.029||||0.0072|TWO_SIDED|95.0|1.76|36.65|||Regression, Logistic|||Day 85: The standard logistic regression model was used to assess treatment effect.||36.65|1.76|0.0072
92225014|NCT02475655|184351630|SUPERIORITY||Mean Difference (Net)|1.27||||0.3|TWO_SIDED|90.0|0.87|1.86||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 1 beta (IL-1 beta) from entry to Week 5.||1.86|0.87|0.30
92225015|NCT02475655|184351630|SUPERIORITY||Mean Difference (Net)|1.59||||0.46|TWO_SIDED|90.0|0.56|4.49||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 1 beta (IL-1 beta) from entry to Week 12.||4.49|0.56|0.46
92225016|NCT02475655|184351631|SUPERIORITY||Mean Difference (Net)|1.29||||0.24|TWO_SIDED|90.0|0.9|1.84||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 7 (IL-7) from entry to Week 5.||1.84|0.90|0.24
92225017|NCT02475655|184351631|SUPERIORITY||Mean Difference (Net)|1.19||||0.46|TWO_SIDED|90.0|0.81|1.74||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 7 (IL-7) from entry to Week 12.||1.74|0.81|0.46
92225018|NCT02475655|184351636|SUPERIORITY||Mean Difference (Net)|1.15||||0.56|TWO_SIDED|90.0|0.77|1.72||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.||Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 10 (IL-10) from entry to Week 5.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|1.72|0.77|0.56
92225019|NCT02475655|184351636|SUPERIORITY||Mean Difference (Net)|0.97||||0.95|TWO_SIDED|90.0|0.47|2.01||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 10 (IL-10) from entry to Week 12.||2.01|0.47|0.95
92225020|NCT02475655|184351637|SUPERIORITY||Mean Difference (Net)|1.34||||0.002|TWO_SIDED|90.0|1.15|1.56||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in TInterleukin 15 (IL-15) from entry to Week 5.||1.56|1.15|0.002
92225021|NCT02475655|184351637|SUPERIORITY||Mean Difference (Net)|1.07||||0.6|TWO_SIDED|90.0|0.86|1.34||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in TInterleukin 15 (IL-15) from entry to Week 12.||1.34|0.86|0.60
92225022|NCT02475655|184351638|SUPERIORITY||Mean Difference (Net)|0.94||||0.4|TWO_SIDED|90.0|0.82|1.07||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 18 (IL-18) from entry to Week 5.||1.07|0.82|0.40
92365724|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.6|||||TWO_SIDED|95.0|-2.1|3.4|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 19F.||3.4|-2.1|
92365725|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|1.9|||||TWO_SIDED|95.0|-4.2|8.2|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 23F.||8.2|-4.2|
92365726|NCT01214837|184633684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|4.5|||||TWO_SIDED|95.0|-1.4|10.5|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 23F.||10.5|-1.4|
92225023|NCT02475655|184351638|SUPERIORITY||Mean Difference (Net)|1.03||||0.82|TWO_SIDED|90.0|0.83|1.27||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 18 (IL-18) from entry to Week 12.||1.27|0.83|0.82
92365727|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.94|||||TWO_SIDED|95.0|0.77|1.13|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 1.||1.13|0.77|
92404381|NCT01342211|184700067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.557||||0.0005|TWO_SIDED|95.0|3.73|113.2|||Regression, Logistic|||Day 85: The standard logistic regression model was used to assess treatment effect.||113.20|3.73|0.0005
92404382|NCT03593044|184700120|OTHER|||||||0.002|||||||t-test, 2 sided|||Photopic pupil size||||0.002
92404383|NCT03593044|184700120|OTHER|||||||0.66|||||||t-test, 2 sided|||Mesopic pupil size||||0.66
92225024|NCT02475655|184351639|SUPERIORITY||Mean Difference (Net)|1.5||||0.028|TWO_SIDED|90.0|1.11|2.02||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 1 (TGF beta-1) from entry to Week 5.||2.02|1.11|0.028
92225025|NCT02475655|184351639|SUPERIORITY||Mean Difference (Net)|2.04||||0.21|TWO_SIDED|90.0|0.79|5.25||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 1 (TGF beta-1) from entry to Week 12.||5.25|0.79|0.21
92225026|NCT02475655|184351640|SUPERIORITY||Mean Difference (Net)|1.39||||0.031|TWO_SIDED|90.0|1.08|1.79||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 2 (TGF beta-2) from entry to Week 5.||1.79|1.08|0.031
92225027|NCT02475655|184351640|SUPERIORITY||Mean Difference (Net)|0.96||||0.93|TWO_SIDED|90.0|0.46|2.02||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 2 (TGF beta-2) from entry to Week 12.||2.02|0.46|0.93
92225028|NCT02475655|184351641|SUPERIORITY||Mean Difference (Net)|1.57||||0.43|TWO_SIDED|90.0|0.61|4.05||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 3 (TGF beta-3) from entry to Week 5.||4.05|0.61|0.43
92225029|NCT02475655|184351641|SUPERIORITY||Mean Difference (Net)|0.68||||0.41|TWO_SIDED|90.0|0.3|1.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 3 (TGF beta-3) from entry to Week 12.||1.50|0.30|0.41
92225030|NCT02475655|184351642|SUPERIORITY||Mean Difference (Net)|-0.34||||0.038|TWO_SIDED|90.0|-0.61|-0.07||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD4+ T-cells from Entry to Week 5.||-0.07|-0.61|0.038
92225031|NCT02475655|184351642|SUPERIORITY||Mean Difference (Net)|0.27||||0.07|TWO_SIDED|90.0|0.03|0.51||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD4+ T-cells from Entry to Week 12.||0.51|0.03|0.07
92225032|NCT02475655|184351643|SUPERIORITY||Mean Difference (Net)|-0.88||||0.05|TWO_SIDED|90.0|-1.62|-0.13||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD8+ T-cells from Entry to Week 5.||-0.13|-1.62|0.05
92225033|NCT02475655|184351643|SUPERIORITY||Mean Difference (Net)|0.86||||0.16|TWO_SIDED|90.0|-0.16|1.88||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD8+ T-cells from Entry to Week 12.||1.88|-0.16|0.16
92225034|NCT02475655|184351644|SUPERIORITY||Mean Difference (Net)|-1.71|||<|0.001|TWO_SIDED|90.0|-2.46|-0.97||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD25hi+ among CD4+ T-cells from Entry to Week 5.||-0.97|-2.46|<0.001
92225035|NCT02475655|184351644|SUPERIORITY||Mean Difference (Net)|0.16||||0.68|TWO_SIDED|90.0|-0.5|0.82||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD25hi+ among CD4+ T-cells from Entry to Week 12.||0.82|-0.50|0.68
92225036|NCT02475655|184351645|SUPERIORITY||Mean Difference (Net)|-0.01||||0.98|TWO_SIDED|90.0|-0.7|0.69||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD25+ among CD8+ T-cells from Entry to Week 5.||0.69|-0.70|0.98
92365728|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.02|||||TWO_SIDED|95.0|0.83|1.25|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 1.||1.25|0.83|
92404384|NCT03593044|184700121|OTHER|||||||0.96|||||||t-test, 2 sided|||High contrast distance visual acuity||||0.96
92404385|NCT03593044|184700121|OTHER|||||||0.77|||||||t-test, 2 sided|||High contrast near visual acuity||||0.77
92225037|NCT02475655|184351645|SUPERIORITY||Mean Difference (Net)|-0.16||||0.79|TWO_SIDED|90.0|-1.13|0.82||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD25+ among CD8+ T-cells from Entry to Week 12.||0.82|-1.13|0.79
92225038|NCT02475655|184351646|SUPERIORITY||Mean Difference (Net)|3.49||||0.001|TWO_SIDED|90.0|1.75|5.22||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD127+ among CD4+ T-cells from Entry to Week 5.||5.22|1.75|0.001
92225039|NCT02475655|184351646|SUPERIORITY||Mean Difference (Net)|-1.3||||0.28|TWO_SIDED|90.0|-3.28|0.68||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.||Null hypothesis: There is no difference between the two arms in the change in the expression of CD127+ among CD4+ T-cells from Entry to Week 12.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|0.68|-3.28|0.28
92225040|NCT02475655|184351647|SUPERIORITY||Mean Difference (Net)|6.54|||<|0.001|TWO_SIDED|90.0|3.76|9.31||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD127+ among CD8+ T-cells from Entry to Week 5.||9.31|3.76|<0.001
92225041|NCT02475655|184351647|SUPERIORITY||Mean Difference (Net)|-0.19||||0.92|TWO_SIDED|90.0|-3.56|3.18||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD127+ among CD8+ T-cells from Entry to Week 12.||3.18|-3.56|0.92
92225042|NCT02475655|184351648|SUPERIORITY||Mean Difference (Net)|-0.07||||0.82|TWO_SIDED|90.0|-0.61|0.47||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Ki67+ among CD4+ T-cells from Entry to Week 5.||0.47|-0.61|0.82
92225043|NCT02475655|184351648|SUPERIORITY||Mean Difference (Net)|0.76||||0.033|TWO_SIDED|90.0|0.18|1.34||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Ki67+ among CD4+ T-cells from Entry to Week 12.||1.34|0.18|0.033
92365729|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|1.14|||||TWO_SIDED|95.0|0.93|1.4|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 3.||1.4|0.93|
92365730|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.25|||||TWO_SIDED|95.0|1.01|1.55|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 3.||1.55|1.01|
92365731|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.77|||||TWO_SIDED|95.0|0.62|0.96|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 4.||0.96|0.62|
92225044|NCT02475655|184351649|SUPERIORITY||Mean Difference (Net)|0.01||||0.98|TWO_SIDED|90.0|-0.53|0.55||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Ki67+ among CD8+ T-cells from Entry to Week 5.||0.55|-0.53|0.98
92225045|NCT02475655|184351649|SUPERIORITY||Mean Difference (Net)|0.55||||0.37|TWO_SIDED|90.0|-0.46|1.57||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Ki67+ among CD8+ T-cells from Entry to Week 12.||1.57|-0.46|0.37
92225046|NCT02475655|184351650|SUPERIORITY||Mean Difference (Net)|-3.3|||<|0.001|TWO_SIDED|90.0|-4.72|-1.87||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Bcl2+ among CD4+ T-cells from Entry to Week 5.||-1.87|-4.72|<0.001
92225047|NCT02475655|184351650|SUPERIORITY||Mean Difference (Net)|-0.73||||0.09|TWO_SIDED|90.0|-1.42|-0.03||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Bcl2+ among CD4+ T-cells from Entry to Week 12.||-0.03|-1.42|0.09
92225048|NCT02475655|184351651|SUPERIORITY||Mean Difference (Net)|-5.4|||<|0.001|TWO_SIDED|90.0|-7.29|-3.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Bcl2+ among CD8+ T-cells from Entry to Week 5.||-3.50|-7.29|<0.001
92225049|NCT02475655|184351651|SUPERIORITY||Mean Difference (Net)|-1.23||||0.11|TWO_SIDED|90.0|-2.51|0.05||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Bcl2+ among CD8+ T-cells from Entry to Week 12.||0.05|-2.51|0.11
92225050|NCT02475655|184351652|SUPERIORITY||Mean Difference (Net)|-1.54||||0.26|TWO_SIDED|90.0|-3.78|0.7||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of a4b7+ among CD4+ T-cells from Entry to Week 5.||0.70|-3.78|0.26
92365732|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|0.94|||||TWO_SIDED|95.0|0.75|1.18|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 4.||1.18|0.75|
92225051|NCT02475655|184351652|SUPERIORITY||Mean Difference (Net)|-0.39||||0.74|TWO_SIDED|90.0|-2.41|1.62||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of a4b7+ among CD4+ T-cells from Entry to Week 12.||1.62|-2.41|0.74
92365733|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|1.02|||||TWO_SIDED|95.0|0.86|1.21|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 5.||1.21|0.86|
92365734|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5|GMC ratio|1.07|||||TWO_SIDED|95.0|0.89|1.29|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 5.||1.29|0.89|
92365735|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.85|||||TWO_SIDED|95.0|0.69|1.04|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 6A.||1.04|0.69|
92365736|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.1|||||TWO_SIDED|95.0|0.88|1.37|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 6A.||1.37|0.88|
92365737|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.85|||||TWO_SIDED|95.0|0.69|1.05|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 6B.||1.05|0.69|
92404386|NCT03593044|184700121|OTHER|||||||0.82|||||||t-test, 2 sided|||Low contrast distance visual acuity||||0.82
92404387|NCT03593044|184700122|OTHER|||||||0.1|||||||t-test, 2 sided|||Accommodative amplitude||||0.10
92404388|NCT03593044|184700122|OTHER|||||||0.66|||||||t-test, 2 sided|||Accommodative lag||||0.66
92225052|NCT02475655|184351653|SUPERIORITY||Mean Difference (Net)|0.55||||0.71|TWO_SIDED|90.0|-1.9|3.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of a4b7+ among CD8+ T-cells from Entry to Week 5.||3.00|-1.90|0.71
92225053|NCT02475655|184351653|SUPERIORITY||Mean Difference (Net)|0.31||||0.83|TWO_SIDED|90.0|-2.15|2.78||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of a4b7+ among CD8+ T-cells from Entry to Week 12.||2.78|-2.15|0.83
92365738|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.04|||||TWO_SIDED|95.0|0.83|1.3|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 6B.||1.3|0.83|
92365739|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.8|||||TWO_SIDED|95.0|0.67|0.95|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 7F.||0.95|0.67|
92404389|NCT03593044|184700122|OTHER|||||||0.24|||||||t-test, 2 sided|||Accommodative facility||||0.24
92404390|NCT03593044|184700123|OTHER|||||||0.3|||||||t-test, 2 sided|||Glare||||0.3
92404391|NCT03593044|184700123|OTHER|||||||0.5|||||||t-test, 2 sided|||Ghost images||||0.5
92404392|NCT03593044|184700123|OTHER|||||||0.9|||||||t-test, 2 sided|||Strain/tiredness||||0.9
92404393|NCT03593044|184700123|OTHER|||||||0.9|||||||t-test, 2 sided|||Changing vision||||0.9
92404394|NCT03593044|184700123|OTHER|||||||0.3|||||||t-test, 2 sided|||Headache frequency||||0.3
92404395|NCT03593044|184700123|OTHER|||||||0.7|||||||t-test, 2 sided|||Distance clarity||||0.7
92404396|NCT03593044|184700123|OTHER|||||||0.3|||||||t-test, 2 sided|||Computer clarity||||0.3
92404397|NCT03593044|184700123|OTHER|||||||0.1|||||||t-test, 2 sided|||Small print clarity||||0.1
92404398|NCT03593044|184700123|OTHER|||||||1|||||||t-test, 2 sided|||Vision during sports/hobbies||||1.0
92166946|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|-2.86|STANDARD_ERROR_OF_MEAN|3.16||0.37|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df =44.8, t=-0.91|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the MADRS change scores, reporting here information for Day 28.||||0.37
92225054|NCT02475655|184351654|SUPERIORITY||Mean Difference (Net)|-1.33||||0.01|TWO_SIDED|90.0|-2.16|-0.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CX3CR1+ among CD4+ T-cells from Entry to Week 5.||-0.50|-2.16|0.010
92225055|NCT02475655|184351654|SUPERIORITY||Mean Difference (Net)|-0.17||||0.74|TWO_SIDED|90.0|-1.02|0.68||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CX3CR1+ among CD4+ T-cells from Entry to Week 12.||0.68|-1.02|0.74
92225056|NCT02475655|184351655|SUPERIORITY||Mean Difference (Net)|-3.24||||0.008|TWO_SIDED|90.0|-5.22|-1.27||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD8+ T-cells from Entry to Week 5.||-1.27|-5.22|0.008
92365740|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.04|||||TWO_SIDED|95.0|0.87|1.25|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 7F.||1.25|0.87|
92365741|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.79|||||TWO_SIDED|95.0|0.66|0.96|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 9V.||0.96|0.66|
92365742|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.07|||||TWO_SIDED|95.0|0.87|1.31|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 9V.||1.31|0.87|
92365743|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.84|1.27|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 14.||1.27|0.84|
92365744|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.04|||||TWO_SIDED|95.0|0.83|1.3|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 14.||1.3|0.83|
92365745|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.72|||||TWO_SIDED|95.0|0.59|0.87|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 18C.||0.87|0.59|
92365746|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.1|||||TWO_SIDED|95.0|0.89|1.36|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 18C.||1.36|0.89|
92225057|NCT02475655|184351655|SUPERIORITY||Median Difference (Net)|-0.17||||0.9|TWO_SIDED|90.0|-2.38|2.05||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD8+ T-cells from Entry to Week 12.||2.05|-2.38|0.90
92365747|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|1.02|||||TWO_SIDED|95.0|0.83|1.27|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 19A.||1.27|0.83|
92365748|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|0.97|||||TWO_SIDED|95.0|0.77|1.21|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 19A.||1.21|0.77|
92404399|NCT03593044|184700123|OTHER|||||||0.2|||||||t-test, 2 sided|||Overall vision||||0.2
92225058|NCT02475655|184351658|SUPERIORITY||Mean Difference (Net)|1.39||||0.47|TWO_SIDED|90.0|-1.83|4.61||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) from Entry to Week 5.||4.61|-1.83|0.47
92225059|NCT02475655|184351658|SUPERIORITY||Mean Difference (Net)|2.21||||0.22|TWO_SIDED|90.0|-0.77|5.18||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) from Entry to Week 12.||5.18|-0.77|0.22
92225060|NCT02475655|184351659|SUPERIORITY||Mean Difference (Net)|-4.34||||0.28|TWO_SIDED|90.0|-11.0|2.35||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CD163+ from Entry to Week 5.||2.35|-11.0|0.28
92365749|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|1.0|||||TWO_SIDED|95.0|0.82|1.22|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 19F.||1.22|0.82|
92365750|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.07|||||TWO_SIDED|95.0|0.86|1.32|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 19F.||1.32|0.86|
92225061|NCT02475655|184351659|SUPERIORITY||Mean Difference (Net)|-9.81||||0.019|TWO_SIDED|90.0|-16.6|-3.02||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CD163+ from Entry to Week 12.||-3.02|-16.6|0.019
92225062|NCT02475655|184351660|SUPERIORITY||Mean Difference (Net)|-0.81||||0.55|TWO_SIDED|90.0|-3.02|1.41||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CCR2+ from Entry to Week 5.||1.41|-3.02|0.55
92365751|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.77|||||TWO_SIDED|95.0|0.62|0.97|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 23F.||0.97|0.62|
92365752|NCT01214837|184633685|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|0.89|||||TWO_SIDED|95.0|0.7|1.13|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 23F.||1.13|0.7|
92365753|NCT00834197|184633695|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.59||||||90.0|95.76|105.65|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||105.65|95.76|
92365754|NCT00834197|184633696|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.17||||||90.0|94.82|101.65|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101.65|94.82|
92365755|NCT00834197|184633697|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.25||||||90.0|95.22|101.39|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101.39|95.22|
92365756|NCT04050384|184633709|OTHER||||||<|0.001|||||||ANCOVA|These analyses apply to the Frontal, Central, and Central-Parietal regions.||||||<0.001
92365757|NCT04050384|184633710|OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
92365758|NCT04776161|184633738|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.78|TWO_SIDED|95.0|-0.16|0.12|||Generalized linear models|Adjusted for age, sex, race||||0.12|-0.16|0.78
92365759|NCT04776161|184633738|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.79|TWO_SIDED|95.0|-0.1|0.13|||Generalized linear models|Adjusted for age, sex, race||||0.13|-0.10|0.79
92365760|NCT04776161|184633739|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.22|TWO_SIDED|95.0|-0.28|1.22|||Generalized linear models|Adjusted for age, sex, race and baseline uric acid level.||||1.22|-0.28|0.22
92365761|NCT04776161|184633739|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.24|TWO_SIDED|95.0|-0.33|1.26|||Generalized linear models|Adjusted for age, sex, race and baseline uric acid level||||1.26|-0.33|0.24
92365762|NCT01187095|184633744|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Estimation parameter|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92365763|NCT01187095|184633744|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||||||<0.05
92365764|NCT01475721|184633760|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority comparison is statistically significant if the upper bound of the two-sided 95% CI falls below 2, the non-inferiority margin, and the non-inferiority test one-sided p-value \<0.025.|Hazard Ratio (HR)|1.029||||0.003|TWO_SIDED|95.0|0.638|1.662|||Regression, Cox|||||1.662|0.638|0.003
92365765|NCT01475721|184633761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.834||||0.203|TWO_SIDED|95.0|0.63|1.103|||Regression, Cox||Analysis of time to first exacerbation in efficacy subgroup: Subjects not well-controlled on prior ICS or non-LABA therapy.|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.103|0.630|0.203
92365766|NCT01475721|184633761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.839||||0.188|TWO_SIDED|95.0|0.645|1.09|||Regression, Cox||Analysis of time to first exacerbation in efficacy subgroup: Subjects not well-controlled on prior ICS+LABA therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.090|0.645|0.188
92365767|NCT01475721|184633761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.764||||0.002|TWO_SIDED|95.0|0.645|0.905|||Regression, Cox||Analysis of time to first exacerbation in efficacy subgroup: Subjects controlled on prior ICS+LABA therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||0.905|0.645|0.002
92365768|NCT01475721|184633761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.682||||0.071|TWO_SIDED|95.0|0.451|1.034|||Regression, Cox||Analysis of time to first exacerbation in efficacy subgroup: Subjects controlled on prior ICS therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.034|0.451|0.071
92365769|NCT01475721|184633761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.878||||0.373|TWO_SIDED|95.0|0.659|1.17|||Regression, Cox||Analysis of number of asthma exacerbations in efficacy subgroup: Subjects not well-controlled on prior ICS or non-LABA therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.170|0.659|0.373
92404400|NCT03593044|184700123|OTHER|||||||0.7|||||||t-test, 2 sided|||Light sensitivity||||0.7
92404401|NCT03593044|184700123|OTHER|||||||0.002|||||||t-test, 2 sided|||Discomfort during bright light||||0.002
92404402|NCT03593044|184700124|OTHER|||||||0.001|||||||t-test, 2 sided|||Right eye intraocular pressure||||0.001
92225063|NCT02475655|184351660|SUPERIORITY||Mean Difference (Net)|-1.7||||0.09|TWO_SIDED|90.0|-3.36|-0.04||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CCR2+ from Entry to Week 12.||-0.04|-3.36|0.09
92404403|NCT03593044|184700124|OTHER|||||||0.05|||||||t-test, 2 sided|||Left eye intraocular pressure||||0.05
92225064|NCT02475655|184351661|SUPERIORITY||Mean Difference (Net)|-1.47||||0.15|TWO_SIDED|90.0|-3.17|0.23||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CX3CR1+ from Entry to Week 5.||0.23|-3.17|0.15
92225065|NCT02475655|184351661|SUPERIORITY||Mean Difference (Net)|-1.62||||0.37|TWO_SIDED|90.0|-4.59|1.35||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CX3CR1+ from Entry to Week 12.||1.35|-4.59|0.37
92225066|NCT02475655|184351662|SUPERIORITY||Mean Difference (Net)|-0.86||||0.39|TWO_SIDED|90.0|-2.51|0.8||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) from Entry to Week 5.||0.80|-2.51|0.39
92365770|NCT01475721|184633761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.864||||0.271|TWO_SIDED|95.0|0.665|1.122|||Regression, Cox||Analysis of number of asthma exacerbations in efficacy subgroup: Subjects not well-controlled on prior ICS+LABA therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.122|0.665|0.271
92404404|NCT03881852|184700200|SUPERIORITY||||||<|0.001||||||P-value calculated from LSMean|Mixed Models Analysis|||||||<0.001
92404405|NCT01421719|184700201|SUPERIORITY_OR_OTHER|||||||0.0087||95.0|||||t-test, 2 sided|||Paired t test comparison of baseline number of urinary leaks per day versus number of leaks per day at 6 month evaluation after treatment.||||0.0087
92404406|NCT02653417|184700224|SUPERIORITY||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|||||||||Regimen 1 = 5 mg vs Regimen 4 = placebo||||
92404407|NCT02653417|184700224|SUPERIORITY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|||||||||Regimen 2 = 10 mg vs Regimen 4 = placebo||||
92404408|NCT02653417|184700224|SUPERIORITY||Mean Difference (Final Values)|0.46|||||TWO_SIDED|||||||||Regimen 3 = 20 mg vs Regimen 4 = placebo||||
92404409|NCT01357850|184700228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0119||||0.7873|TWO_SIDED|95.0|-0.0768|0.1005|||ANOVA|||||0.1005|-0.0768|0.7873
92404410|NCT01357850|184700228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0678||||0.0499|TWO_SIDED|95.0|0.0|0.1356|||ANOVA|||||0.1356|0.0000|0.0499
92404411|NCT01357850|184700228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0467||||0.1666|TWO_SIDED|95.0|-0.0204|0.1137|||ANOVA|||||0.1137|-0.0204|0.1666
92404412|NCT01357850|184700229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|134.89||||0.9343|TWO_SIDED|95.0|-3172.05|3441.83|||ANOVA|||||3441.83|-3172.05|0.9343
92404413|NCT01357850|184700229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1278.77||||0.3375|TWO_SIDED|95.0|-1398.13|3955.68|||ANOVA|||||3955.68|-1398.13|0.3375
92404414|NCT01357850|184700229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|772.7||||0.5582|TWO_SIDED|95.0|-1887.77|3433.17|||ANOVA|||||3433.17|-1887.77|0.5582
92225067|NCT02475655|184351662|SUPERIORITY||Mean Difference (Net)|-0.7||||0.54|TWO_SIDED|90.0|-2.59|1.19||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) from Entry to Week 12.||1.19|-2.59|0.54
92225068|NCT02475655|184351663|SUPERIORITY||Mean Difference (Net)|-6.02||||0.1|TWO_SIDED|90.0|-12.0|-0.06||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CD163+ from Entry to Week 5.||-0.06|-12.0|0.10
92225069|NCT02475655|184351663|SUPERIORITY||Mean Difference (Net)|-6.39||||0.026|TWO_SIDED|90.0|-11.1|-1.73||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CD163+ from Entry to Week 12.||-1.73|-11.1|0.026
92225070|NCT02475655|184351664|SUPERIORITY||Mean Difference (Net)|0.28||||0.95|TWO_SIDED|90.0|-7.26|7.82||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CCR2+ from Entry to Week 5.||7.82|-7.26|0.95
92225071|NCT02475655|184351664|SUPERIORITY||Mean Difference (Net)|-4.1||||0.43|TWO_SIDED|90.0|-12.6|4.45||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CCR2+ from Entry to Week 12.||4.45|-12.6|0.43
92225072|NCT02475655|184351665|SUPERIORITY||Mean Difference (Net)|1.23||||0.74|TWO_SIDED|90.0|-5.08|7.54||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CX3CR1+ from Entry to Week 5.||7.54|-5.08|0.74
92225073|NCT02475655|184351665|SUPERIORITY||Mean Difference (Net)|3.76||||0.42|TWO_SIDED|90.0|-3.94|11.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CX3CR1+ from Entry to Week 12.||11.5|-3.94|0.42
92225074|NCT02475655|184351666|SUPERIORITY||Mean Difference (Net)|-0.63||||0.66|TWO_SIDED|90.0|-2.99|1.73||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) from Entry to Week 5.||1.73|-2.99|0.66
92225075|NCT02475655|184351666|SUPERIORITY||Mean Difference (Net)|-1.56||||0.27|TWO_SIDED|90.0|-3.93|0.8||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) from Entry to Week 12.||0.80|-3.93|0.27
92225076|NCT02475655|184351667|SUPERIORITY||Mean Difference (Net)|-7.1||||0.013|TWO_SIDED|90.0|-11.7|-2.46||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CD163+ from Entry to Week 5.||-2.46|-11.7|0.013
92225077|NCT02475655|184351667|SUPERIORITY||Mean Difference (Net)|-1.49||||0.7|TWO_SIDED|90.0|-8.06|5.07||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CD163+ from Entry to Week 12.||5.07|-8.06|0.70
92225078|NCT02475655|184351668|SUPERIORITY||Mean Difference (Net)|0.01||||0.79|TWO_SIDED|90.0|-0.05|0.07||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CCR2+ from Entry to Week 5.||0.07|-0.05|0.79
92365771|NCT01475721|184633761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.755||||0.001|TWO_SIDED|95.0|0.637|0.895|||Regression, Cox||Analysis of number of asthma exacerbations in efficacy subgroup: Subjects controlled on prior ICS+LABA therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||0.895|0.637|0.001
92365772|NCT01475721|184633761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.687||||0.075|TWO_SIDED|95.0|0.454|1.04|||Regression, Cox||Analysis of number of asthma exacerbations in efficacy subgroup: Subjects controlled on prior ICS therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.040|0.454|0.075
92365773|NCT01475721|184633763|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.776||||0.123|TWO_SIDED|95.0|0.562|1.071|||Regression, Cox|||||1.071|0.562|0.123
92365774|NCT01475721|184633764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.263|||<|0.001|TWO_SIDED|95.0|-0.385|-0.141|||Regression, Cox||Efficacy subgroup: Subjects not well-controlled on prior ICS or non-LABA therapy|||-0.141|-0.385|<0.001
92365775|NCT01475721|184633764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.222||||0.003|TWO_SIDED|95.0|-0.369|-0.076|||Regression, Cox||Efficacy subgroup: Subjects not well-controlled on prior ICS+LABA therapy|||-0.076|-0.369|0.003
92365776|NCT01475721|184633764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.172|||<|0.001|TWO_SIDED|95.0|-0.238|-0.106|||Regression, Cox||Efficacy subgroup: Subjects controlled on prior ICS+LABA therapy|||-0.106|-0.238|<0.001
92365777|NCT01475721|184633764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.251|TWO_SIDED|95.0|-0.216|0.056|||Regression, Cox||Efficacy subgroup: Subjects controlled on prior ICS therapy|||0.056|-0.216|0.251
92225079|NCT02475655|184351668|SUPERIORITY||Mean Difference (Net)|0.01||||0.91|TWO_SIDED|90.0|-0.07|0.08||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CCR2+ from Entry to Week 12.||0.08|-0.07|0.91
92225080|NCT02475655|184351669|SUPERIORITY||Mean Difference (Net)|-2.85||||0.43|TWO_SIDED|90.0|-8.82|3.12||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CX3CR1+ from Entry to Week 5.||3.12|-8.82|0.43
92225081|NCT02475655|184351669|SUPERIORITY||Mean Difference (Net)|0.03||||0.99|TWO_SIDED|90.0|-6.53|6.6||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CX3CR1+ from Entry to Week 12.||6.60|-6.53|0.99
92225082|NCT02475655|184351670|SUPERIORITY||Median Difference (Net)|1.88||||0.007|TWO_SIDED|90.0|1.29|2.73||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Cellular HIV-1 DNA from entry to Week 5.||2.73|1.29|0.007
92225083|NCT02475655|184351670|SUPERIORITY||Mean Difference (Net)|1.31||||0.23|TWO_SIDED|90.0|0.9|1.9||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Cellular HIV-1 DNA from entry to Week 12.||1.90|0.90|0.23
92225084|NCT02475655|184351671|SUPERIORITY||Mean Difference (Net)|1.22||||0.32|TWO_SIDED|90.0|0.87|1.72||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in cellular HIV-1 total RNA from entry to Week 5.||1.72|0.87|0.32
92365778|NCT01772550|184633772|NON_INFERIORITY_OR_EQUIVALENCE|A 95% upper confidence bound for the observed difference in percentages of images with acceptable quality between the control catheter and evaluation catheter was calculated using the Score method. The 20 G BD Nexiva™ Diffusics™ can be considered non-inferior for acceptable image quality if this 95% upper confidence bound is smaller than 15% (i.e. C - D \< 15% with 95% confidence). The non-inferiority margin was 15%.|Risk Difference (RD)|0.0|||||ONE_SIDED|95.0||2.6|||||The difference in percent of acceptable image quality is used as an estimate. The Score method was used to estimate the upper 95% confidence limit.|Only the percent of acceptable image quality from the randomized test and reference catheter groups were considered for this statistical analysis. If C is the percentage of acceptable quality images with the control catheter, and D is the percentage of images of acceptable quality with the evaluation catheter, and the non-inferiority criteria is 15%, the hypotheses to be tested are as follows: H0: C - D \> or = 15%; H1: C - D \< 15%.||2.6||
92365779|NCT00559104|184633784|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.51||||0.51|TWO_SIDED|95.0|0.07|3.79|||Regression, Cox||"Parameter Dispersion Type: Standard Error of the Parameter Estimate, not of the mean.~Standard Error = 1.02475"|There is no power calculation as this is a phase II study. This is an Event-free Survival, in which an event can be Relapse/Progression, or Death. Censoring can be at the End of follow-up date, or at the End of study date.||3.79|0.07|0.51
92365780|NCT00559104|184633785|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.66||||0.69|TWO_SIDED|95.0|0.09|4.99|||Regression, Cox||"Numerator: Carmustine in the conditioning. Denominator: Irradiation in the conditioning.~Parameter: Hazard ratio. Dispersion: Standard Error of the Hazard Ratio."|Phase II analysis: There was no power calculation.||4.99|0.09|0.69
92365781|NCT00512278|184633802|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a 25% difference in the rate of SVR between the PEG INF/RBV plus infliximab group (70%) and the PEG INF/RBV (45%) group, a power of 0.85 and an alpha level of 0.05, 75 patients for each group was estimated||||||0.718|||||||t-test, 2 sided|||||||0.718
92365782|NCT00512278|184633804|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a 25% difference in the rate of SVR between the PEG INF/RBV plus infliximab group (70%) and the PEG INF/RBV (45%) group, a power of 0.85 and an alpha level of 0.05, 75 patients for each group was estimated.||||||0.718|TWO_SIDED|95.0||||Univariate and multivariable logistic regression were used for factors associated with an SVR.|t-test, 2 sided|||SVR was the primary outcome to calculate sample size. Assuming a 25% difference in the rate of SVR between the the two groups, a power of 0.85 and an alpha level of 0.05, 75 patients for each group was estimated. This analysis included patients randomized and received at least one dose of study drugs. A 2-sided probability value of \< 0.05 was considered statistically significant. Univariate and multivariable logistic regression were used for factors associated with an SVR.||||0.718
92225085|NCT02475655|184351671|SUPERIORITY||Mean Difference (Net)|1.03||||0.91|TWO_SIDED|90.0|0.68|1.56||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in cellular HIV-1 total RNA from entry to Week 12.||1.56|0.68|0.91
92225086|NCT02475655|184351672|SUPERIORITY|||||||0.4||||||Not adjusted for multiple comparisons. Two-sided 10% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in the percentage of participants with detectable CMV at any on-treatment time point (ever shedding at weeks 1, 2, 4, or 5).||||0.40
92225087|NCT02475655|184351672|SUPERIORITY|||||||0.87||||||Not adjusted for multiple comparisons. Two-sided 10% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in the percentage of participants with detectable CMV at any post-treatment time point (ever shedding at weeks 10 or 12).||||0.87
92225088|NCT02475655|184351676|SUPERIORITY||Mean Difference (Net)|0.53||||0.4|TWO_SIDED|90.0|0.15|1.88||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Integrated DNA from entry to Week 5.||1.88|0.15|0.40
92225089|NCT02475655|184351676|SUPERIORITY||Mean Difference (Net)|0.92||||0.93|TWO_SIDED|90.0|0.2|4.34||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Integrated DNA from entry to Week 12.||4.34|0.20|0.93
92225090|NCT00662792|184351688|SUPERIORITY||Difference of adjusted means|0.13|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.102|0.158|||ANOVA|Analysis of variance with terms for centre, patient with centre, treatment, and period.|(T+S\_PE) - (Salm50DPI)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. salmeterol (Salm50DPI) for FEV1 AUC0-12||0.158|0.102|<0.0001
92225091|NCT00662792|184351688|SUPERIORITY||Difference of adjusted means|0.07|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.042|0.097|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Tio18GEL)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs Tiotropium (Tio18GEL) for FEV1 AUC0- 12||0.097|0.042|<.0001
92225092|NCT00662792|184351688|OTHER||Difference of adjusted means|-0.024|STANDARD_ERROR_OF_MEAN|0.014||0.0914|TWO_SIDED|95.0|-0.052|0.004|||ANOVA|Analysis of variance with terms for centre, patient with centre, treatment, and period. α = 0.025 one-sided|(T+S\_PE) - (T18GEL+S-DPI)|The Tiotropium free combination (T18GEL+S\_DPI) was included in order to characterise this treatment in comparison with the FDC Tiotropium/Salmeterol (T+S\_PE). No formal hypotheses were defined.||0.004|-0.052|0.0914
92225093|NCT00662792|184351689|NON_INFERIORITY|The non-inferiority margin for FEV1 endpoints was defined as d=0.050 L.|Difference of adjusted means|0.064|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.036|0.093|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Salm50DPI)|H1: Non-Inferiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Salmeterol (Salm50DPI) for FEV1AUC12-24||0.093|0.036|<.0001
92225094|NCT00662792|184351689|NON_INFERIORITY|The non-inferiority margin for FEV1 endpoints was defined as d=0.050 L.|Difference of adjusted means|0.064|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.036|0.093|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Tio18GEL)|H1: Non-inferiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Tiotropium (TIO18GEL) of FEV1AUC12-24||0.093|0.036|<.0001
92225095|NCT00662792|184351689|OTHER||Difference of adjusted means|-0.057|STANDARD_ERROR_OF_MEAN|0.015||0.0001|TWO_SIDED|95.0|-0.086|-0.028|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (T18GEL+S-DPI)|The Tiotropium free combination (T18GEL+S\_DPI) was included in order to characterise this treatment in comparison with the FDC Tiotropium/Salmeterol (T+S\_PE). No formal hypotheses were defined.||-0.028|-0.086|0.0001
92225096|NCT00662792|184351690|SUPERIORITY||Difference of adjusted means|0.134|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.102|0.166|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Salm50DPI)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Salmeterol (Salm50DPI) of Peak FEV1||0.166|0.102|<.0001
92225097|NCT00662792|184351690|SUPERIORITY||Difference of adjusted means|0.066|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.034|0.098|||ANOVA|Analysis of with terms for centre, patient with centre, treatment, and period. α = 0.025 one-sided|(T+S\_PE) - (Tio18GEL)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Tiotropium (TIO18GEL) of PeakFEV1.||0.098|0.034|<.0001
92225098|NCT00662792|184351690|OTHER||Difference of adjusted means|-0.026|STANDARD_ERROR_OF_MEAN|0.016||0.1093|TWO_SIDED|95.0|-0.058|0.006|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (T18GEL+S\_DPI)|The Tiotropium free combination (T18GEL+S\_DPI) was included in order to characterise this treatment in comparison with the FDC Tiotropium/Salmeterol (T+S\_PE). No formal hypotheses were defined.||0.006|-0.058|0.1093
92365783|NCT00775268|184633826|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed-rank test|||||||<0.001
92365784|NCT00775268|184633827|SUPERIORITY|||||||0.0313|||||||Wilcoxon matched-pairs signed rank test|||||||0.0313
92365785|NCT03723980|184633871|SUPERIORITY||Mean Difference (Net)|2.96||||0.329|TWO_SIDED|95.0||||"the calculated p value is for time interval of 4 hours~threshold for statistical significance= \<0.05"|ANOVA|For multiple comparisons between groups, post hoc (LSD) was applied||||||0.329
92365786|NCT03723980|184633871|SUPERIORITY||Mean Difference (Net)|-0.92||||0.764|TWO_SIDED|95.0||||"The calculated p value is for time interval of 12 hours~threshold for statistical significance= \<0.05"|ANOVA|||||||0.764
92365787|NCT03723980|184633871|SUPERIORITY||Mean Difference (Net)|-1.57||||0.605|TWO_SIDED|95.0||||"The calculated p value is for time interval of day 2~threshold for statistical significance= \<0.05"|ANOVA|||||||0.605
92365788|NCT03723980|184633871|SUPERIORITY||Mean Difference (Net)|-0.82||||0.786|TWO_SIDED|95.0||||"The calculated p value is for time interval of day 3~threshold for statistical significance= \<0.05"|ANOVA|||||||0.786
92365789|NCT03723980|184633871|SUPERIORITY||Mean Difference (Net)|-0.72||||0.813|TWO_SIDED|95.0||||"The calculated p value is for time interval of day 4~threshold for statistical significance= \<0.05"|ANOVA|||||||0.813
92365790|NCT03723980|184633873|OTHER||Mean Difference (Net)|2.97|STANDARD_ERROR_OF_MEAN|3.0||0.334|TWO_SIDED|95.0||||"The calculated p value is for the difference between pre-operative time interval and 4 hours time interval.~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.334
92365791|NCT03723980|184633873|OTHER||Mean Difference (Net)|2.33|STANDARD_ERROR_OF_MEAN|3.0||0.448|TWO_SIDED|95.0||||"The calculated p value is for the difference between time interval of 4 hours and time interval of 12 hours.~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.448
92365792|NCT03723980|184633873|OTHER||Mean Difference (Net)|5.88|STANDARD_ERROR_OF_MEAN|3.0||0.056|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of 12 hours and day 2~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.056
92225099|NCT00662792|184351691|NON_INFERIORITY|The non-inferiority margin for FEV1 endpoints was defined as d=0.050 L.|Differences of adjusted means|0.058|STANDARD_ERROR_OF_MEAN|0.017||0.0008|TWO_SIDED|95.0|0.024|0.092|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Salm50DPI)|H1: Non-inferiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Salmeterol (Salm50DPI) of trough FEV1||0.092|0.024|0.0008
92225100|NCT00662792|184351691|NON_INFERIORITY|The non-inferiority margin for FEV1 endpoints was defined as a delta of 0.050 L.|Difference of adjusted means|0.029|STANDARD_ERROR_OF_MEAN|0.017||0.0857|TWO_SIDED|95.0|-0.004|0.063|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Tio18GEL)|H1: Non-inferiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Tiotropium (TIO18GEL) of trough FEV1||0.063|-0.004|0.0857
92225101|NCT00662792|184351691|OTHER||Difference of adjusted means|-0.037|STANDARD_ERROR_OF_MEAN|0.017||0.0317|TWO_SIDED|95.0|-0.071|-0.003|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (T18GEL+S-DPI)|The Tiotropium free combination (T18GEL+S\_DPI) was included in order to characterise this treatment in comparison with the FDC Tiotropium/Salmeterol (T+S\_PE). No formal hypotheses were defined.||-0.003|-0.071|0.0317
92404415|NCT01357850|184700230|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.06||||0.2256|TWO_SIDED|95.0|-5.43|1.3|||ANOVA|||||1.30|-5.43|0.2256
92225102|NCT00662792|184351692|SUPERIORITY||Difference of adjusted means|0.097|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.071|0.124|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided|(T+S\_PE) - (Salm50DPI)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. salmeterol (Salm50DPI) for FEV1 AUC0-24||0.124|0.071|<.0001
92225103|NCT00662792|184351692|SUPERIORITY||Difference of adjusted mean difference|0.067|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.041|0.093|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided|(T+S\_PE) - (Tio18GEL)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Tiotropium (TIO18GEL) for FEV1 AUC24||0.093|0.041|<.0001
92225104|NCT00662792|184351692|SUPERIORITY||Difference of adjusted means|-0.041|STANDARD_ERROR_OF_MEAN|0.014||0.0029|TWO_SIDED|95.0|-0.067|-0.014|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided|(T+S\_PE) - (T18GEL+S-DPI)|||-0.014|-0.067|0.0029
92225105|NCT00662792|184351693|SUPERIORITY||Difference of adjusted means|0.083|STANDARD_ERROR_OF_MEAN|0.025||0.001|TWO_SIDED|95.0|0.034|0.132|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided|(T+S\_PE) - (Tio18GEL)|||0.132|0.034|0.0010
92365793|NCT03723980|184633873|OTHER||Mean Difference (Net)|0.94|STANDARD_ERROR_OF_MEAN|3.0||0.76|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of day 2 and day 3~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.760
92404416|NCT01357850|184700230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95||||0.5647|TWO_SIDED|95.0|-4.22|2.32|||ANOVA|||||2.32|-4.22|0.5647
92225106|NCT00662792|184351693|SUPERIORITY||Difference of adjusted means|0.176|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.127|0.226|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.226|0.127|<.0001
92225107|NCT00662792|184351693|SUPERIORITY||Difference of adjusted means|-0.045|STANDARD_ERROR_OF_MEAN|0.025||0.0757|TWO_SIDED|95.0|-0.095|0.005|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.005|-0.095|0.0757
92365794|NCT03723980|184633873|OTHER||Mean Difference (Net)|0.67|STANDARD_ERROR_OF_MEAN|3.0||0.828|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of day 3 and day 4~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.828
92404417|NCT01357850|184700230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.8942|TWO_SIDED|95.0|-2.44|2.79|||ANOVA|||||2.79|-2.44|0.8942
92225108|NCT00662792|184351694|SUPERIORITY||Difference of adjusted means|0.085|STANDARD_ERROR_OF_MEAN|0.027||0.0015|TWO_SIDED|95.0|0.033|0.137|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.137|0.033|0.0015
92225109|NCT00662792|184351694|SUPERIORITY||Difference of adjusted means|0.118|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.066|0.171|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.171|0.066|<.0001
92225110|NCT00662792|184351694|SUPERIORITY||Difference of adjusted means|-0.085|STANDARD_ERROR_OF_MEAN|0.027||0.0017|TWO_SIDED|95.0|-0.138|-0.032|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||-0.032|-0.138|0.0017
92225111|NCT00662792|184351695|SUPERIORITY||Difference of adjusted means|0.084|STANDARD_ERROR_OF_MEAN|0.024||0.0005|TWO_SIDED|95.0|0.037|0.131|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.131|0.037|0.0005
92365795|NCT03723980|184633873|OTHER||Mean Difference (Net)|11.8|STANDARD_ERROR_OF_MEAN|2.9||0|TWO_SIDED|95.0||||"The calculated p value is for the difference between pre-operative time interval and 4 hours time interval~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.000
92404418|NCT02904954|184700269|SUPERIORITY||Risk Difference (RD)|46.6||||0.0001|TWO_SIDED|95.0|26.7|66.6||Testing at alpha = 0.05.|Fisher Exact|||Fisher's exact test performed to compare the MPR proportion between the two treatment arms. Null hypothesis is that there is no difference in the MPR proportion between the two arms.||66.6|26.7|0.0001
92404419|NCT02904954|184700270|SUPERIORITY|||||||0.89|||||||Log Rank|||Kaplan-Meier survival analysis comparing the two arms.||||0.89
92365796|NCT03723980|184633873|OTHER||Mean Difference (Net)|-1.54|STANDARD_ERROR_OF_MEAN|2.9||0.605|TWO_SIDED|95.0||||"The calculated p value is for the difference between time interval of 4 hours and time interval of 12 hours~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.605
92365797|NCT03723980|184633873|OTHER||Mean Difference (Net)|5.23|STANDARD_ERROR_OF_MEAN|2.9||0.8|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of 12 hours and day 2~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.80
92365798|NCT03723980|184633873|OTHER||Mean Difference (Net)|1.69|STANDARD_ERROR_OF_MEAN|2.9||0.574|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of day 2 and day 3~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.574
92365799|NCT03723980|184633873|OTHER||Mean Difference (Net)|0.77|STANDARD_ERROR_OF_MEAN|2.9||0.796|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of day 3 and day 4~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.796
92365800|NCT03723980|184633874|OTHER||Mean Difference (Net)|-0.6||||0.412|TWO_SIDED|||||"The p-value calculated is for pain score difference at 4 hours~Threshold for statistical significance= \<0.05"|Wilcoxon (Mann-Whitney)|||||||0.412
92365801|NCT03723980|184633874|OTHER||Mean Difference (Net)|2.8||||0.94|TWO_SIDED|||||"The p-value calculated is for pain score difference at 12 hours~Threshold for statistical significance= \<0.05"|Wilcoxon (Mann-Whitney)|||||||0.94
92404420|NCT02904954|184700271|SUPERIORITY||Risk Difference (RD)|43.4||||0.0001|TWO_SIDED|95.0|24.4|62.3||Testing at alpha = 0.05.|Fisher Exact|||Fisher's exact test performed to compare the objective clinical response proportion between the two treatment arms. Null hypothesis is that there is no difference in the objective clinical response proportion between the two arms. Objective clinical response proportion is defined as the proportion of patients in each arm who have complete response or partial response.||62.3|24.4|0.0001
92225112|NCT00662792|184351695|SUPERIORITY||Difference of adjusted means|0.147|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.1|0.194|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.194|0.100|<.0001
92225113|NCT00662792|184351695|SUPERIORITY||Difference of adjusted means|-0.065|STANDARD_ERROR_OF_MEAN|0.024||0.0074|TWO_SIDED|95.0|-0.113|-0.018|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||-0.018|-0.113|0.0074
92225114|NCT00662792|184351696|SUPERIORITY||Differences of adjusted means|0.051|STANDARD_ERROR_OF_MEAN|0.03||0.0898|TWO_SIDED|95.0|-0.008|0.109|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.109|-0.008|0.0898
92225115|NCT00662792|184351696|SUPERIORITY||Difference of adjusted means|0.142|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.083|0.201|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.201|0.083|<.0001
92404421|NCT00753506|184700274|SUPERIORITY_OR_OTHER||F|1.59|||>|0.1|TWO_SIDED|95.0|||||ANOVA|||Repeated measures analaysis of variance||||>0.10
92225116|NCT00662792|184351696|SUPERIORITY||Difference of adjusted means|-0.057|STANDARD_ERROR_OF_MEAN|0.03||0.0601|TWO_SIDED|95.0|-0.116|0.002|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.002|-0.116|0.0601
92225117|NCT00662792|184351697|SUPERIORITY||Difference of adjusted means|-0.028|STANDARD_ERROR_OF_MEAN|0.031||0.3652|TWO_SIDED|95.0|-0.089|0.033|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.033|-0.089|0.3652
92225118|NCT00662792|184351697|SUPERIORITY||Difference of adjusted means|0.042|STANDARD_ERROR_OF_MEAN|0.031||0.1816|TWO_SIDED|95.0|-0.02|0.103|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.103|-0.020|0.1816
92225119|NCT00662792|184351697|SUPERIORITY||Difference of adjusted means|-0.095|STANDARD_ERROR_OF_MEAN|0.031||0.0026|TWO_SIDED|95.0|-0.157|-0.033|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||-0.033|-0.157|0.0026
92225120|NCT00662792|184351698|SUPERIORITY||Difference of adjusted means|11.8|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|6.9|16.8|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||16.8|6.9|<.0001
92225121|NCT00662792|184351698|SUPERIORITY||Difference of adjusted means|24.2|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|19.2|29.2|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||29.2|19.2|<.0001
92225122|NCT00662792|184351698|SUPERIORITY||Difference of adjusted means|-3.4|STANDARD_ERROR_OF_MEAN|2.6||0.1804|TWO_SIDED|95.0|-8.5|1.6|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||1.6|-8.5|0.1804
92225123|NCT00662792|184351699|SUPERIORITY||Difference of adjusted means|8.5|STANDARD_ERROR_OF_MEAN|2.5||0.0008|TWO_SIDED|95.0|3.5|13.4|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||13.4|3.5|0.0008
92225124|NCT00662792|184351699|SUPERIORITY||Difference of adjusted means|10.6|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|5.6|15.5|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||15.5|5.6|<.0001
92225125|NCT00662792|184351699|SUPERIORITY||Difference of adjusted means|-12.9|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-17.9|-8.0|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S\_DPI)|||-8.0|-17.9|<.0001
92365802|NCT03723980|184633874|OTHER||Mean Difference (Net)|5.5||||0.035|TWO_SIDED|||||"The p-value calculated is for pain score difference at Day 2~Threshold for statistical significance= \<0.05"|Wilcoxon (Mann-Whitney)|||||||0.035
92365803|NCT03723980|184633874|OTHER||Mean Difference (Net)|4.4||||0.023|TWO_SIDED|||||"The p-value calculated is for pain score difference at Day 3~Threshold for statistical significance= \<0.05"|Wilcoxon (Mann-Whitney)|||||||0.023
92365804|NCT03723980|184633874|OTHER||Median Difference (Net)|4.3||||0.02|TWO_SIDED|||||"The p-value calculated is for pain score difference at Day 4.~Threshold for statistical significance= \<0.05"|Wilcoxon (Mann-Whitney)|||||||0.020
92225126|NCT00662792|184351700|SUPERIORITY||Difference of adjusted means|10.1|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001|TWO_SIDED|95.0|5.7|14.6|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||14.6|5.7|<.0001
92225127|NCT00662792|184351700|SUPERIORITY||Difference of adjusted means|17.4|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001|TWO_SIDED|95.0|12.9|21.9|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||21.9|12.9|<.0001
92225128|NCT00662792|184351700|SUPERIORITY||Difference of adjusted means|-8.2|STANDARD_ERROR_OF_MEAN|2.3||0.0004|TWO_SIDED|95.0|-12.7|-3.7|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S\_DPI)|||-3.7|-12.7|0.0004
92225129|NCT00662792|184351701|SUPERIORITY||Difference of adjusted means|13.1|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|7.2|18.9|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||18.9|7.2|<.0001
92225130|NCT00662792|184351701|SUPERIORITY||Difference of adjusted means|23.1|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|17.2|28.9|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||28.9|17.2|<.0001
92225131|NCT00662792|184351701|SUPERIORITY||Difference in adjusted means|-5.3|STANDARD_ERROR_OF_MEAN|3.0||0.0769|TWO_SIDED|95.0|-11.2|0.6|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.6|-11.2|0.0769
92225132|NCT00662792|184351702|SUPERIORITY||Difference of adjusted means|2.8|STANDARD_ERROR_OF_MEAN|3.2||0.3775|TWO_SIDED|95.0|-3.5|9.1|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||9.1|-3.5|0.3775
92404422|NCT03819114|184700276|EQUIVALENCE|Confidence Interval (CI) on Geometric Mean Ratio compared to reference interval (0.7, 1.43).|Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.81|1.2|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.20|0.81|
92404423|NCT03819114|184700276|EQUIVALENCE|Confidence Interval on Geometric Mean Ratio compared to reference interval (0.7, 1.43).|Geometric Mean Ratio|1.34|||||TWO_SIDED|90.0|1.12|1.6|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.60|1.12|
92225133|NCT00662792|184351702|SUPERIORITY||Difference of adjusted means|7.1|STANDARD_ERROR_OF_MEAN|3.2||0.0285|TWO_SIDED|95.0|0.7|13.4|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||13.4|0.7|0.0285
92225134|NCT00662792|184351702|SUPERIORITY||Difference of adjusted means|-8.9|STANDARD_ERROR_OF_MEAN|3.2||0.0065|TWO_SIDED|95.0|-15.2|-2.5|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||-2.5|-15.2|0.0065
92225135|NCT00662792|184351706|SUPERIORITY||Difference of adjusted means|5.7|STANDARD_ERROR_OF_MEAN|2.4||0.0182|TWO_SIDED|95.0|1.0|10.4|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Morning PEF||10.4|1.0|0.0182
92225136|NCT00662792|184351706|SUPERIORITY||Difference of adjusted means|6.3|STANDARD_ERROR_OF_MEAN|2.4||0.0091|TWO_SIDED|95.0|1.6|11.1|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Morning PEF||11.1|1.6|0.0091
92225137|NCT00662792|184351706|SUPERIORITY||Difference of adjusted means|-8.0|STANDARD_ERROR_OF_MEAN|2.4||0.001|TWO_SIDED|95.0|-12.8|-3.3|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Morning PEF||-3.3|-12.8|0.0010
92225138|NCT00662792|184351706|SUPERIORITY||Difference of adjusted means|11.0|STANDARD_ERROR_OF_MEAN|2.6|<|0.0001|TWO_SIDED|95.0|5.8|16.2|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Evening PEF||16.2|5.8|<.0001
92225139|NCT00662792|184351706|SUPERIORITY||Difference of adjusted means|23.3|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|18.1|28.6|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Evening PEF||28.6|18.1|<.0001
92225140|NCT00662792|184351706|SUPERIORITY||Difference of adjusted means|1.5|STANDARD_ERROR_OF_MEAN|2.7||0.5766|TWO_SIDED|95.0|-3.8|6.8|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Evening PEF||6.8|-3.8|0.5766
92225141|NCT00662792|184351707|SUPERIORITY||Difference of adjusted means|0.04|STANDARD_ERROR_OF_MEAN|0.016||0.0137|TWO_SIDED|95.0|0.008|0.071|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Morning FEV1||0.071|0.008|0.0137
92225142|NCT00662792|184351707|SUPERIORITY||Difference of adjusted means|0.027|STANDARD_ERROR_OF_MEAN|0.016||0.0981|TWO_SIDED|95.0|-0.005|0.059|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Morning FEV1||0.059|-0.005|0.0981
92225143|NCT00662792|184351707|SUPERIORITY||Difference of adjusted means|-0.022|STANDARD_ERROR_OF_MEAN|0.016||0.1827|TWO_SIDED|95.0|-0.054|0.01|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Morning FEV1||0.010|-0.054|0.1827
92225144|NCT00662792|184351707|SUPERIORITY||Difference of adjusted means|0.057|STANDARD_ERROR_OF_MEAN|0.018||0.0014|TWO_SIDED|95.0|0.022|0.092|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Evening FEV1||0.092|0.022|0.0014
92225145|NCT00662792|184351707|SUPERIORITY||Difference of adjusted means|0.105|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.07|0.14|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Evening FEV1||0.140|0.070|<.0001
92225146|NCT00662792|184351707|SUPERIORITY||Difference of adjusted means|0.02|STANDARD_ERROR_OF_MEAN|0.018||0.2584|TWO_SIDED|95.0|-0.015|0.056|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Evening FEV1||0.056|-0.015|0.2584
92225147|NCT00662792|184351708|SUPERIORITY||Difference of adjusted means|-0.07|STANDARD_ERROR_OF_MEAN|0.02||0.0027|TWO_SIDED|95.0|-0.11|-0.02|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Daytime||-0.02|-0.11|0.0027
92225148|NCT00662792|184351708|SUPERIORITY||Difference of adjusted means|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.4587|TWO_SIDED|95.0|-0.06|0.03|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Daytime||0.03|-0.06|0.4587
92225149|NCT00662792|184351708|SUPERIORITY||Difference of adjusted means|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.1535|TWO_SIDED|95.0|-0.01|0.08|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Daytime||0.08|-0.01|0.1535
92225150|NCT00662792|184351708|SUPERIORITY||Difference of adjusted means|-0.09|STANDARD_ERROR_OF_MEAN|0.02||0.0002|TWO_SIDED|95.0|-0.14|-0.05|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Night-time||-0.05|-0.14|0.0002
92225151|NCT00662792|184351708|SUPERIORITY||Difference of adjusted means|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.0006|TWO_SIDED|95.0|-0.14|-0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Night-time||-0.04|-0.14|0.0006
92225152|NCT00662792|184351708|SUPERIORITY||Difference of adjusted means|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.5784|TWO_SIDED|95.0|-0.06|0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Night-time||0.04|-0.06|0.5784
92225153|NCT00662792|184351708|SUPERIORITY||Difference of adjusted means|-0.09|STANDARD_ERROR_OF_MEAN|0.02||0.0003|TWO_SIDED|95.0|-0.14|-0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|24 hours||-0.04|-0.14|0.0003
92225154|NCT00662792|184351708|SUPERIORITY||Difference of adjusted means|-0.07|STANDARD_ERROR_OF_MEAN|0.02||0.0042|TWO_SIDED|95.0|-0.12|-0.02|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|24 hours||-0.02|-0.12|0.0042
92225155|NCT00662792|184351708|SUPERIORITY||Difference of adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.9978|TWO_SIDED|95.0|-0.05|0.05|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|24 hours||0.05|-0.05|0.9978
92225156|NCT00662792|184351709|SUPERIORITY||Difference of adjusted means|-0.33|STANDARD_ERROR_OF_MEAN|0.11||0.0029|TWO_SIDED|95.0|-0.55|-0.11|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Daytime||-0.11|-0.55|0.0029
92225157|NCT00662792|184351709|SUPERIORITY||Difference of adjusted means|-0.36|STANDARD_ERROR_OF_MEAN|0.11||0.0012|TWO_SIDED|95.0|-0.58|-0.14|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Daytime||-0.14|-0.58|0.0012
92225158|NCT00662792|184351709|SUPERIORITY||Difference of adjusted means|0.12|STANDARD_ERROR_OF_MEAN|0.07||0.0829|TWO_SIDED|95.0|-0.02|0.25|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Daytime||0.25|-0.02|0.0829
92225159|NCT00662792|184351709|SUPERIORITY||Difference of adjusted means|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.0115|TWO_SIDED|95.0|-0.3|-0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Night-time||-0.04|-0.30|0.0115
92225160|NCT00662792|184351709|SUPERIORITY||Difference of adjusted means|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.1772|TWO_SIDED|95.0|-0.22|0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Night-time||0.04|-0.22|0.1772
92225161|NCT00662792|184351709|SUPERIORITY||Difference of adjusted means|0.04|STANDARD_ERROR_OF_MEAN|0.11||0.6895|TWO_SIDED|95.0|-0.18|0.27|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Night-time||0.27|-0.18|0.6895
92225162|NCT00662792|184351709|SUPERIORITY||Difference of adjusted means|-0.52|STANDARD_ERROR_OF_MEAN|0.16||0.0013|TWO_SIDED|95.0|-0.84|-0.21|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Over 24 hours||-0.21|-0.84|0.0013
92225163|NCT00662792|184351709|SUPERIORITY||Difference of adjusted means|-0.47|STANDARD_ERROR_OF_MEAN|0.16||0.004|TWO_SIDED|95.0|-0.78|-0.15|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Over 24 hours||-0.15|-0.78|0.0040
92225164|NCT00662792|184351709|SUPERIORITY||Difference of adjusted means|0.16|STANDARD_ERROR_OF_MEAN|0.16||0.3287|TWO_SIDED|95.0|-0.16|0.48|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Over 24 hours||0.48|-0.16|0.3287
92404424|NCT03819114|184700276|SUPERIORITY|Confidence Interval on Geometric Mean Ratio excluding 1.|Geometric Mean Ratio|1.66|||||TWO_SIDED|90.0|1.27|2.18|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.18|1.27|
92404425|NCT03819114|184700276|SUPERIORITY|Confidence Interval on Geometric Mean Ratio excluding 1.|Geometric Mean Ratio|0.59|||||TWO_SIDED|90.0|0.45|0.78|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.78|0.45|
92404426|NCT03819114|184700277|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons were made. Statistical significance was declared if p\<0.05.|Fisher Exact|||||||1.00
92225165|NCT00662792|184351710|SUPERIORITY||Difference of adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9956|TWO_SIDED|95.0|-0.03|0.03|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.03|-0.03|0.9956
92225166|NCT00662792|184351710|SUPERIORITY||Difference of adjusted means|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.71|TWO_SIDED|95.0|-0.03|0.02|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.02|-0.03|0.7100
92404427|NCT03819114|184700278|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.17|||||TWO_SIDED|90.0|0.96|1.41|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.41|0.96|
92225167|NCT00662792|184351710|SUPERIORITY||Difference of adjusted means|0.01|STANDARD_ERROR_OF_MEAN|0.01||0.3659|TWO_SIDED|95.0|-0.02|0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.04|-0.02|0.3659
92225168|NCT00662792|184351711|SUPERIORITY||Difference of adjusted means|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.4416|TWO_SIDED|95.0|-0.04|0.02|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.02|-0.04|0.4416
92225169|NCT00662792|184351711|SUPERIORITY||Difference of adjusted means|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.7058|TWO_SIDED|95.0|-0.03|0.02|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.02|-0.03|0.7058
92225170|NCT00662792|184351711|SUPERIORITY||Difference of adjusted means|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.1494|TWO_SIDED|95.0|-0.01|0.05|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.05|-0.01|0.1494
92225171|NCT00662792|184351712|SUPERIORITY||Difference of adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.998|TWO_SIDED|95.0|-0.06|0.06|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.06|-0.06|0.9980
92225172|NCT00662792|184351712|SUPERIORITY||Difference of adjusted means|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.4618|TWO_SIDED|95.0|-0.04|0.08|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.08|-0.04|0.4618
92225173|NCT00662792|184351712|SUPERIORITY||Difference of adjusted means|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.0418|TWO_SIDED|95.0|0.0|0.12|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.12|0.00|0.0418
92225174|NCT00662792|184351713|SUPERIORITY||Difference of adjusted means|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.4206|TWO_SIDED|95.0|-0.08|0.03|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.03|-0.08|0.4206
92225175|NCT00662792|184351713|SUPERIORITY||Difference of adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.8723|TWO_SIDED|95.0|-0.05|0.06|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.06|-0.05|0.8723
92225176|NCT00662792|184351713|SUPERIORITY||Difference of adjusted means|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.1005|TWO_SIDED|95.0|-0.01|0.11|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.11|-0.01|0.1005
92225177|NCT02499029|184351719|SUPERIORITY|||||||0.05|||||||Regression, Linear|||A series of hierarchical linear regression analyses were conducted to examine the effects of treatment group (NAC or placebo) on PTSD symptomatology, craving, substance use, and depression. Baseline levels of the respective outcome measures were entered in Step 1 of the model to adjust for any baseline differences. Treatment group was entered as the predictor in Step 2. The significance threshold was set at a p-value of .05 (two-sided) for all statistical tests.||||.05
92225178|NCT02347176|184351731|SUPERIORITY||Adjusted Mean Difference|-2.89|STANDARD_ERROR_OF_MEAN|1.968||0.143|TWO_SIDED|95.0|-6.78|0.99|||Mixed Model Repeated Measures Analysis|||||0.99|-6.78|0.143
92225179|NCT02347176|184351731|SUPERIORITY||Adjusted Mean Difference|-4.36|STANDARD_ERROR_OF_MEAN|1.951||0.027|TWO_SIDED|95.0|-8.22|-0.51|||Mixed Model Repeated Measures Analysis|||||-0.51|-8.22|0.027
92225180|NCT02347176|184351731|SUPERIORITY||Adjusted Mean Difference|-4.94|STANDARD_ERROR_OF_MEAN|1.932||0.011|TWO_SIDED|95.0|-8.76|-1.13|||Mixed Model Repeated Measures Analysis|||||-1.13|-8.76|0.011
92225181|NCT02347176|184351732|SUPERIORITY||Odds Ratio (OR)|0.98||||0.974|TWO_SIDED|95.0|0.29|3.32|||Regression, Logistic|||||3.32|0.29|0.974
92225182|NCT02347176|184351732|SUPERIORITY||Odds Ratio (OR)|1.85||||0.281|TWO_SIDED|95.0|0.61|5.65|||Regression, Logistic|||||5.65|0.61|0.281
92225183|NCT02347176|184351732|SUPERIORITY||Odds Ratio (OR)|2.83||||0.061|TWO_SIDED|95.0|0.95|8.37|||Regression, Logistic|||||8.37|0.95|0.061
92225184|NCT00411554|184351745|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin (Sitagliptin minus Voglibose) = 0.2 percent|Least-squares Mean Difference|-0.39|||<|0.001||95.0|-0.51|-0.28||"This p-value corresponds to a test of superiority that was performed after success was achieved in the test of non-inferiority (reported under Estimation below), according to the pre-specified analysis plan"|ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to compare two groups|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to show non-inferiority and superiority to voglibose (closed procedure) and to estimate difference of two groups and its 95% confidence interval|||-0.28|-0.51|<0.001
92225185|NCT00411554|184351746|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-10.7|||<|0.001||95.0|-15.3|-6.2|||ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to compare two groups|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to show superiority to voglibose and to estimate difference of two groups and its 95% confidence interval|||-6.2|-15.3|<0.001
92225186|NCT00411554|184351747|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-18.8|||<|0.001||95.0|-26.7|-10.9|||ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to compare two groups|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to show superiority to voglibose and to estimate difference of two groups and its 95% confidence interval|||-10.9|-26.7|<0.001
92365805|NCT03723980|184633875|OTHER|||||||0.15||||||"The p-value calculated is for pain score difference at 4 hours~Threshold for statistical significance= \<0.05"|Kruskal-Wallis|||||||0.15
92225187|NCT01707693|184351800|SUPERIORITY|repeated measures mixed model analysis of covariance, with the baseline measurement as a covariate.||||||0.023||||||P-value calculated from repeated measures model adjusting for age with a log transformation applied. P-values are one-sided.|ANCOVA|||||||0.023
92225188|NCT01707693|184351801|SUPERIORITY|||||||0.011||||||\* P-value calculated from repeated measures model adjusting for age with a log transformation applied.|ANCOVA|\* P-value calculated from repeated measures model adjusting for age with a log transformation applied.||||||0.011
92225189|NCT01707693|184351802|OTHER|2-sided Wilcoxon Rank Sum test||||||0.033|||||||Wilcoxon (Mann-Whitney)|||||||0.033
92365806|NCT03723980|184633875|OTHER|||||||0.36||||||"The p-value calculated is for pain score difference at 12 hours~Threshold for statistical significance= \<0.05"|Kruskal-Wallis|||||||0.36
92225190|NCT01707693|184351803|OTHER|counts of stage of change||||||0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Armitage trend test||||||.001
92225191|NCT02342015|184351805|OTHER||||||<|0.05|||||||wilcoxon signed-rank test|||||||<0.05
92225192|NCT02342015|184351806|OTHER||||||<|0.05|||||||paired Student's t-test|||||||<0.05
92225193|NCT01849770|184351817|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.23|STANDARD_ERROR_OF_MEAN|0.4||0.561|TWO_SIDED|95.0|-1.03|0.56|||Random slopes model|||||0.56|-1.03|0.561
92225194|NCT01849770|184351817|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.19|STANDARD_ERROR_OF_MEAN|0.43||0.662|TWO_SIDED|95.0|-1.04|0.66|||Random slopes model|||||0.66|-1.04|0.662
92365807|NCT03723980|184633875|OTHER|||||||0.13||||||"The p-value calculated is for pain score difference at day 2~Threshold for statistical significance= \<0.05"|Kruskal-Wallis|||||||0.13
92365808|NCT03723980|184633875|OTHER|||||||0.55||||||"The p-value calculated is for pain score difference at day 3~Threshold for statistical significance= \<0.05"|Kruskal-Wallis|||||||0.55
92225195|NCT01849770|184351818|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.71|STANDARD_ERROR_OF_MEAN|1.25||0.178|TWO_SIDED|95.0|-0.8|4.22|||Random slopes model|||||4.22|-0.80|0.178
92225196|NCT01849770|184351818|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.94|STANDARD_ERROR_OF_MEAN|1.42||0.51|TWO_SIDED|95.0|-3.8|1.91|||Random slopes model|||||1.91|-3.80|0.510
92225197|NCT00143455|184351847|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.236||||0.0556||95.0|0.995|1.536|||Cox Proportional Hazard Model|||A non-inferiority test was combined with a superiority test based on a closed testing procedure. The null hypothesis was to be rejected if the lower bound of the 2-sided 95% confidence interval for the hazard ratio (control/test) estimated from a Cox proportional hazards model, with an indicator for the control arm, was less than 0.80.||1.536|0.995|0.0556
92225198|NCT00143455|184351848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.343||||0.143||95.0|0.905|1.993|||Chi-squared|||||1.993|0.905|0.143
92225199|NCT00143455|184351849|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority test was combined with a superiority test based on a closed testing procedure. The null hypothesis was to be rejected if the lower bound of the 2-sided 95% confidence interval for the hazard ratio (control/test) estimated from a Cox proportional hazards model, with an indicator for the control arm, was less than 0.80.|Hazard Ratio (HR)|1.35||||0.011||95.0|1.071|1.701|||Cox Proportional Hazard Model|||||1.701|1.071|0.0110
92225200|NCT00143455|184351850|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.354||||0.0831||95.0|0.961|1.908|||Cox Proportional Hazard Model|||||1.908|0.961|0.0831
92225201|NCT00143455|184351851|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.965||||0.7544||95.0|0.771|1.208|||Cox Proportional Hazard Model|||||1.208|0.771|0.7544
92225202|NCT02682901|184351854|SUPERIORITY|||||||0.603||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means are statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.603
92365809|NCT03723980|184633875|OTHER|||||||0.17||||||"The p-value calculated is for pain score difference at day 4~Threshold for statistical significance= \<0.05"|Kruskal-Wallis|||||||0.17
92225203|NCT02682901|184351855|SUPERIORITY|||||||0.068||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means are statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.068
92225204|NCT02682901|184351856|SUPERIORITY|||||||0.493||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means are statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.493
92225205|NCT02682901|184351857|SUPERIORITY|||||||0.524||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means were statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.524
92225206|NCT02682901|184351858|SUPERIORITY|||||||0.63||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means were statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.630
92225207|NCT02682901|184351859|SUPERIORITY|||||||0.537||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means were statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.537
92225208|NCT02682901|184351860|SUPERIORITY|||||||0.53||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means were statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.530
92225209|NCT02682901|184351861|SUPERIORITY|||||||0.005||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means were statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.005
92225210|NCT01639872|184351862|SUPERIORITY||difference in treatment means|0.014|STANDARD_ERROR_OF_MEAN|1.62||0.99|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.99
92225211|NCT01639872|184351863|SUPERIORITY||difference in treatment means|-0.32|STANDARD_ERROR_OF_MEAN|0.28||0.25|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.25
92225212|NCT03850912|184351864|SUPERIORITY||Odds Ratio (OR)|1.104||||0.214|TWO_SIDED|95.0|0.944|1.29|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (chemo and surgical patients combined)||1.290|0.944|0.214
92225213|NCT03850912|184351864|SUPERIORITY||Odds Ratio (OR)|0.927||||0.565|TWO_SIDED|95.0|0.715|1.201|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology patients only)||1.201|0.715|0.565
92225214|NCT03850912|184351864|SUPERIORITY||Odds Ratio (OR)|1.225||||0.042|TWO_SIDED|95.0|1.008|1.49|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (surgical patients only)||1.490|1.008|0.042
92365810|NCT04263766|184633882|EQUIVALENCE|We tested whether TMS delivered to DLPFC had a difference effect on confidence compared to delivered to Vertex.|||||<|0.001|||||||t-test, 2 sided|||Our null hypothesis is TMS to DLPFC would not lead to a significant change in confidence across all 4 delay conditions compared to TMS to the vertex.||||<.001
92225215|NCT03850912|184351865|OTHER||Odds Ratio (OR)|1.128||||0.05|TWO_SIDED|95.0|1.0|1.272|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology and surgical patients combined)||1.272|1.000|0.050
92225216|NCT03850912|184351865|OTHER||Odds Ratio (OR)|1.012||||0.903|TWO_SIDED|95.0|0.836|1.225|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology patients only)||1.225|0.836|0.903
92225217|NCT03850912|184351865|OTHER||Odds Ratio (OR)|1.215||||0.014|TWO_SIDED|95.0|1.04|1.418|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (surgical patients only)||1.418|1.040|0.014
92225218|NCT03850912|184351866|OTHER||Odds Ratio (OR)|1.002||||0.978|TWO_SIDED|95.0|0.881|1.139|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology and surgical patients combined)||1.139|0.881|0.978
92225219|NCT03850912|184351866|OTHER||Odds Ratio (OR)|0.854||||0.126|TWO_SIDED|95.0|0.697|1.046|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology patients only)||1.046|0.697|0.126
92225220|NCT03850912|184351866|OTHER||Odds Ratio (OR)|1.102||||0.254|TWO_SIDED|95.0|0.933|1.302|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (surgical patients only)||1.302|0.933|0.254
92225221|NCT03850912|184351867|OTHER||Odds Ratio (OR)|1.068||||0.209|TWO_SIDED|95.0|0.964|1.183|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology and surgical patients combined)||1.183|0.964|0.209
92404428|NCT03819114|184700278|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.43|||||TWO_SIDED|90.0|1.21|1.69|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.69|1.21|
92404429|NCT03819114|184700278|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.51|||||TWO_SIDED|90.0|1.17|1.96|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.96|1.17|
92404430|NCT03819114|184700278|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.77|||||TWO_SIDED|90.0|0.6|1.0|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.00|0.60|
92404431|NCT03819114|184700279|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.37|||||TWO_SIDED|90.0|0.22|0.61|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.61|0.22|
92404432|NCT03819114|184700279|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.25|||||TWO_SIDED|90.0|0.15|0.44|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.44|0.15|
92404433|NCT03819114|184700279|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|2.11|||||TWO_SIDED|90.0|1.2|3.7|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||3.70|1.20|
92404434|NCT03819114|184700279|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.17|||||TWO_SIDED|90.0|0.09|0.32|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.32|0.09|
92404435|NCT03819114|184700280|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|4.03|||||TWO_SIDED|90.0|3.17|5.12|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||5.12|3.17|
92404436|NCT03819114|184700280|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|2.92|||||TWO_SIDED|90.0|2.33|3.65|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||3.65|2.33|
92404437|NCT03819114|184700280|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.11|||||TWO_SIDED|90.0|0.82|1.52|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.52|0.82|
92404438|NCT03819114|184700280|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|3.62|||||TWO_SIDED|90.0|2.65|4.93|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||4.93|2.65|
92404439|NCT03819114|184700281|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|2.1|||||TWO_SIDED|90.0|1.66|2.65|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.65|1.66|
92225222|NCT03850912|184351867|OTHER||Odds Ratio (OR)|0.992||||0.924|TWO_SIDED|95.0|0.85|1.159|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology patients only)||1.159|0.850|0.924
92225223|NCT03850912|184351867|OTHER||Odds Ratio (OR)|1.122||||0.099|TWO_SIDED|95.0|0.979|1.286|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (surgical patients only)||1.286|0.979|0.099
92225224|NCT03850912|184351868|SUPERIORITY||Difference|-1.328||||0.04|TWO_SIDED|95.0|-2.593|-0.062|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||-0.062|-2.593|0.04
92225225|NCT03850912|184351868|OTHER||Difference|-1.958||||0.004|TWO_SIDED|95.0|-3.269|-0.646|||Regression, Logistic|||Multivariable regression analyses (surgical cohort only)||-0.646|-3.269|0.004
92225226|NCT03850912|184351869|SUPERIORITY||Difference|-0.925||||0.09|TWO_SIDED|95.0|-1.985|0.136|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||0.136|-1.985|0.09
92404440|NCT03819114|184700281|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.11|||||TWO_SIDED|90.0|0.89|1.39|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.39|0.89|
92404441|NCT03819114|184700281|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.2|||||TWO_SIDED|90.0|0.87|1.66|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.66|0.87|
92225227|NCT03850912|184351869|SUPERIORITY||Difference|-1.516||||0.002|TWO_SIDED|95.0|-2.474|-0.557|||Regression, Linear|||Multivariable regression analyses (surgical cohort only)||-0.557|-2.474|0.002
92225228|NCT03850912|184351870|SUPERIORITY||Difference|-1.767||||0.17|TWO_SIDED|95.0|-2.532|0.433|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||0.433|-2.532|0.17
92225229|NCT03850912|184351870|SUPERIORITY||Difference|-2.198|||<|0.0001|TWO_SIDED|95.0|-3.259|-1.137|||Regression, Linear|||Multivariable regression analyses (surgical cohort only)||-1.137|-3.259|<0.0001
92225230|NCT03850912|184351871|SUPERIORITY||Difference|-0.8084||||0.2|TWO_SIDED|95.0|-2.048|0.431|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||0.431|-2.048|0.2
92225231|NCT03850912|184351871|SUPERIORITY||Difference|-0.652||||0.27|TWO_SIDED|95.0|-1.8|0.496|||Regression, Linear|||Multivariable regression analyses (surgical cohort only)||0.496|-1.800|0.27
92225232|NCT03850912|184351872|SUPERIORITY||Difference|-0.617||||0.23|TWO_SIDED|95.0|-1.62|0.386|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||0.386|-1.620|0.23
92225233|NCT03850912|184351872|SUPERIORITY||Difference|0.434||||0.39|TWO_SIDED|95.0|-0.563|1.431|||Regression, Linear|||Multivariable regression analyses (surgical cohort only)||1.431|-0.563|0.39
92166947|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|1.66|STANDARD_ERROR_OF_MEAN|0.85||0.06|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||degrees of freedom = 40.3, t=1.94.|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the HAMD6 change scores, reporting here information for Day 2.||||0.06
92166948|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|1.06||0.83|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df = 44.2, t=-0.22|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the HAMD6 change scores, reporting here information for Day 14.||||0.83
92225234|NCT03850912|184351873|SUPERIORITY||Difference|-0.7||||0.22|TWO_SIDED|95.0|-1.829|0.429|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||0.429|-1.829|0.22
92225235|NCT03850912|184351873|SUPERIORITY||Difference|-0.58||||0.28|TWO_SIDED|95.0|-1.632|0.472|||Regression, Linear|||Multivariable regression analyses (surgical cohort only)||0.472|-1.632|0.28
92225236|NCT03850912|184351874|SUPERIORITY||Odds Ratio (OR)|0.842|||<|0.001|TWO_SIDED|95.0|0.776|0.913|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (chemo and surgical patients combined)||0.913|0.776|<0.001
92276922|NCT00185211|184455399|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.583|||<|1e-06||95.0|0.474|0.718|||Regression, Cox|covariate adjustment: steroid use during first event, onset of disease, categorized number of T2 lesions at screening|The direction of comparison is initial IFNB-1b versus initial placebo, i.e. the Hazard Ratio represents the relative risk of initial IFNB-1b treatment compared to initial placebo treatment.|Time to McDonald MS was modelled by a Cox proportional hazards regression model with the following covariates: treatment group, steroid use during first event (yes vs. no), onset of disease (monofocal vs. multifocal) and number of T2 lesions at screening (categories: 2-4, 5-8 and at least 9 T2 lesions). The null hypothesis was: Initial IFNB-1b and initial placebo do not differ with regard to the hazard for McDonald MS, i.e. hazard ratio = 1.||0.718|0.474|< 0.000001
92225237|NCT03850912|184351874|SUPERIORITY||Odds Ratio (OR)|0.78|||<|0.001|TWO_SIDED|95.0|0.688|0.885|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology patients only)||0.885|0.688|<0.001
92225238|NCT03850912|184351874|SUPERIORITY||Odds Ratio (OR)|0.889||||0.032|TWO_SIDED|95.0|0.799|0.99|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (surgical patients only)||0.990|0.799|0.032
92225239|NCT03850912|184351875|SUPERIORITY||Odds Ratio (OR)|0.893|||<|0.001|TWO_SIDED|95.0|0.839|0.949|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology and surgical patients combined)||0.949|0.839|<0.001
92225240|NCT03850912|184351875|SUPERIORITY||Odds Ratio (OR)|0.872||||0.003|TWO_SIDED|95.0|0.796|0.954|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology patients only)||0.954|0.796|0.003
92225241|NCT03850912|184351875|SUPERIORITY||Odds Ratio (OR)|0.909||||0.027|TWO_SIDED|95.0|0.835|0.989|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (surgical patients only)||0.989|0.835|0.027
92225242|NCT03850912|184351876|SUPERIORITY||Odds Ratio (OR)|0.636|||<|0.001|TWO_SIDED|95.0|0.593|0.682|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology and surgical patients combined)||0.682|0.593|<0.001
92225243|NCT03850912|184351876|SUPERIORITY||Odds Ratio (OR)|0.611|||<|0.001|TWO_SIDED|95.0|0.55|0.679|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology patients only)||0.679|0.550|<0.001
92225244|NCT03850912|184351876|SUPERIORITY||Odds Ratio (OR)|0.655|||<|0.001|TWO_SIDED|95.0|0.597|0.719|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (surgical patients only)||0.719|0.597|<0.001
92225245|NCT03850912|184351877|SUPERIORITY||Odds Ratio (OR)|0.769|||<|0.001|TWO_SIDED|95.0|0.729|0.811|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology and surgical patients combined)||0.811|0.729|<0.001
92225246|NCT03850912|184351877|SUPERIORITY||Odds Ratio (OR)|0.795|||<|0.001|TWO_SIDED|95.0|0.737|0.858|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology patients only)||0.858|0.737|<0.001
92225247|NCT03850912|184351877|SUPERIORITY||Odds Ratio (OR)|0.739|||<|0.001|TWO_SIDED|95.0|0.686|0.796|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (surgical patients only)||0.796|0.686|<0.001
92365811|NCT04263766|184633882|EQUIVALENCE|We tested whether TMS to DLPFC leads to equivalent increase in confidence for four delay conditions.||||||0.99|||||||ANOVA|||||||0.99
92365812|NCT04263766|184633882|EQUIVALENCE|We tested whether TMS delivered to Vertex leads to a same effect on confidence regardless of the delay conditions.||||||0.83|||||||ANOVA|||||||0.83
92365813|NCT04263766|184633883|EQUIVALENCE|We used a two-way ANOVA to test whether TMS affected Mratio differently for DLPFC and Vertex and across different delay conditions.|||||>|0.19|||||||ANOVA|||Our null hypothesis is TMS to DLPFC would not lead to a significant change in Mratio across all 4 delay conditions compared to TMS to the vertex.||||>0.19
92365814|NCT04232943|184633889|OTHER|This study was designed to provide at least 96% power to detect ≥ 60% reduction in shedding rate in the IPV+ dmLT group assuming the shedding rate in the IPV alone group is at least 80%.|Risk Ratio (RR)|1.17|||||TWO_SIDED|95.0|0.56|2.464|||||RR = Ratio of proportions: (IPV+dmLT) / IPV|Analysis of Shedding of Poliovirus Type 1||2.464|0.560|
92365815|NCT04232943|184633889|OTHER|This study was designed to provide at least 96% power to detect ≥ 60% reduction in shedding rate in the IPV+ dmLT group assuming the shedding rate in the IPV alone group is at least 80%.|Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.606|1.51|||||RR = Ratio of proportions: (IPV+dmLT) / IPV|Analysis of Shedding of Poliovirus Type 3||1.510|0.606|
92365816|NCT01891396|184633909|SUPERIORITY|||||||0.0099|||||||ANOVA|||||||0.0099
92404442|NCT03819114|184700281|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.75|||||TWO_SIDED|90.0|1.24|2.45|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.45|1.24|
92404443|NCT03819114|184700282|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.52|||||TWO_SIDED|90.0|0.46|0.59|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.59|0.46|
92404444|NCT03819114|184700282|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.38|||||TWO_SIDED|90.0|0.34|0.43|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.43|0.34|
92225248|NCT00720109|184351880|SUPERIORITY_OR_OTHER_LEGACY||Percentage|40.7|||<|0.001|TWO_SIDED|90.0|30.8|51.4|||Chi-squared|Chi-squared test equivalent to Z-test of proportions.||The a priori plan was to compare MRD positivity rate with that on a prior study, AALL0031 (n=72 Cohorts 1-5 of AALL0031 with 71% MRD positive). Out of 59 patients with end-Induction MRD on AALL0622, 40.7% were MRD positive. Per protocol, rates will be compared with a 2 sample Z-test of proportions, 1-sided test, alpha=5%.||51.4|30.8|<0.001
92225249|NCT00720109|184351881|SUPERIORITY_OR_OTHER_LEGACY||percentage|10.5|||=|0.13|TWO_SIDED|90.0|5.3|19.3|||Binomial Test||The pre-specified threshold for the estimated percentage of MRD positivity at End Consolidation was set to 16%. Results show an upper bound on the (Agresti-Coull) confidence interval of 19.3%.|||19.3|5.3|=0.13
92365817|NCT01891396|184633910|SUPERIORITY|||||||0.0367|||||||ANOVA|||||||0.0367
92365818|NCT01891396|184633911|SUPERIORITY|||||||0.0289|||||||ANOVA|||||||0.0289
92365819|NCT01891396|184633912|SUPERIORITY|||||||0.0141|||||||ANOVA|||||||0.0141
92365820|NCT01891396|184633913|SUPERIORITY|||||||0.0002|||||||ANOVA|||||||0.0002
92365821|NCT01891396|184633914|SUPERIORITY|||||||0.0533|||||||ANOVA|||||||0.0533
92365822|NCT01891396|184633915|SUPERIORITY|||||||0.0323|||||||ANOVA|||||||0.0323
92365823|NCT01891396|184633916|SUPERIORITY|||||||0.0072|||||||ANOVA|||||||0.0072
92365824|NCT01891396|184633917|SUPERIORITY|||||||0.003|||||||ANOVA|||||||0.0030
92404445|NCT03819114|184700282|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.08|||||TWO_SIDED|90.0|0.93|1.25|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.25|0.93|
92365825|NCT01891396|184633918|SUPERIORITY|||||||0.044|||||||ANOVA|||||||0.0440
92365826|NCT01891396|184633919|SUPERIORITY|||||||0.0579|||||||ANOVA|||||||0.0579
92365827|NCT01891396|184633920|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
92365828|NCT01891396|184633921|SUPERIORITY|||||||0.0046|||||||ANOVA|||||||0.0046
92365829|NCT01891396|184633922|SUPERIORITY|||||||0.0029|||||||ANOVA|||||||0.0029
92365830|NCT01891396|184633923|SUPERIORITY|||||||0.0087|||||||ANOVA|||||||0.0087
92365831|NCT01891396|184633924|SUPERIORITY|||||||0.0154|||||||ANOVA|||||||0.0154
92365832|NCT01891396|184633925|SUPERIORITY|||||||0.0227|||||||ANOVA|||||||0.0227
92365833|NCT01891396|184633926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|TWO_SIDED||||||ANOVA|||||||0.0002
92365834|NCT01891396|184633927|SUPERIORITY|||||||0.0148|||||||ANOVA|||||||0.0148
92365835|NCT01891396|184633928|SUPERIORITY|||||||0.0113|||||||ANOVA|||||||0.0113
92365836|NCT01891396|184633929|SUPERIORITY|||||||0.0016|||||||ANOVA|||||||0.0016
92365837|NCT01891396|184633930|SUPERIORITY|||||||0.0056|||||||ANOVA|||||||0.0056
92365838|NCT01891396|184633931|SUPERIORITY|||||||0.0095|||||||ANOVA|||||||0.0095
92365839|NCT01891396|184633932|SUPERIORITY|||||||0.0136|||||||ANOVA|||||||0.0136
92365840|NCT01891396|184633933|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
92365841|NCT01891396|184633934|SUPERIORITY|||||||0.0059|||||||ANOVA|||||||0.0059
92365842|NCT02831855|184633947|NON_INFERIORITY|Non-inferiority (NI) of Tofacitinib 11 mg + Methotrexate Placebo to Tofacitinib 11 mg + continued Methotrexate was concluded if the upper bound of 95% 2-sided confidence interval (CI) for difference between the 2 arms (Tofacitinib 11 mg + Methotrexate Placebo reporting arm - Tofacitinib 11 mg + continued Methotrexate arm) was lower than 0.6.|Least Square (LS) Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.09||0.0005|TWO_SIDED|95.0|0.12|0.48||The p-value is one-sided for the test against the NI margin of 0.6.|MMRM|||Linear mixed-effect model of repeated measures (MMRM) was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a biological disease-modifying anti-rheumatic drug (bDMARD), and baseline DAS28-4 (ESR) value as a covariate.||0.48|0.12|0.0005
92365843|NCT02831855|184633948|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|0.03|0.41||||||Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline DAS28-4 (ESR) value as a covariate.||0.41|0.03|
92404446|NCT03819114|184700282|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.48|||||TWO_SIDED|90.0|0.41|0.56|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.56|0.41|
92365844|NCT02831855|184633949|SUPERIORITY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|0.08|0.43||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment -by-visit interaction, prior use of a bDMARD and baseline DAS28-4 (CRP) value as a covariate.||0.43|0.08|
92365845|NCT02831855|184633949|SUPERIORITY||LS Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|0.11|0.45||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment -by-visit interaction, prior use of a bDMARD and baseline DAS28-4 (CRP) value as a covariate.||0.45|0.11|
92365846|NCT02831855|184633950|SUPERIORITY||LS Mean Difference|1.74|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|0.4|3.07||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline CDAI value as a covariate.||3.07|0.40|
92365847|NCT02831855|184633950|SUPERIORITY||LS Mean Difference|2.13|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|0.83|3.43||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline CDAI value as a covariate.||3.43|0.83|
92365848|NCT02831855|184633951|SUPERIORITY||LS Mean Difference|1.95|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|95.0|0.53|3.37||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline SDAI value as a covariate.||3.37|0.53|
92365849|NCT02831855|184633951|SUPERIORITY||LS Mean Difference|2.23|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|0.86|3.59||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline SDAI value as a covariate.||3.59|0.86|
92365850|NCT02831855|184633952|SUPERIORITY||Difference in percentage of participants|-5.69|||||TWO_SIDED|95.0|-14.15|2.76||||||Week 36||2.76|-14.15|
92365851|NCT02831855|184633952|SUPERIORITY||Difference in percentage of participants|-4.54|||||TWO_SIDED|95.0|-13.04|3.94||||||Week 48||3.94|-13.04|
92365852|NCT02831855|184633953|SUPERIORITY||Difference in percentage of participants|-5.14|||||TWO_SIDED|95.0|-13.07|2.77||||||Week 36||2.77|-13.07|
92365853|NCT02831855|184633953|SUPERIORITY||Difference in percentage of participants|-8.52|||||TWO_SIDED|95.0|-16.28|-0.76||||||Week 48||-0.76|-16.28|
92365854|NCT02831855|184633954|SUPERIORITY||Difference in percentage of participants|-7.39|||||TWO_SIDED|95.0|-15.17|0.38||||||Week 36||0.38|-15.17|
92365855|NCT02831855|184633954|SUPERIORITY||Difference in percentage of participants|-11.91|||||TWO_SIDED|95.0|-19.56|-4.26||||||Week 48||-4.26|-19.56|
92365856|NCT02831855|184633955|SUPERIORITY||Difference in percentage of participants|-7.02|||||TWO_SIDED|95.0|-14.81|0.77||||||Week 36||0.77|-14.81|
92365857|NCT02831855|184633955|SUPERIORITY||Difference in percentage of participants|-10.02|||||TWO_SIDED|95.0|-17.68|-2.37||||||Week 48||-2.37|-17.68|
92365858|NCT02831855|184633956|SUPERIORITY||Difference in percentage of participants|-8.52|||||TWO_SIDED|95.0|-15.27|-1.78||||||Week 36||-1.78|-15.27|
92365859|NCT02831855|184633956|SUPERIORITY||Difference in percentage of participants|-1.33|||||TWO_SIDED|95.0|-8.5|5.83|||Two Sided|||Week 48||5.83|-8.50|
92365860|NCT02831855|184633957|SUPERIORITY||Difference in percentage of participants|-8.11|||||TWO_SIDED|95.0|-15.4|-0.82||||||Week 36||-0.82|-15.40|
92365861|NCT02831855|184633957|SUPERIORITY||Difference in percentage of participants|-6.21|||||TWO_SIDED|95.0|-13.74|1.32||||||Week 48||1.32|-13.74|
92365862|NCT02831855|184633958|SUPERIORITY||Difference in percentage of participants|-5.63|||||TWO_SIDED|95.0|-14.12|2.84||||||Week 36||2.84|-14.12|
92365863|NCT02831855|184633958|SUPERIORITY||Difference in percentage of participants|-4.13|||||TWO_SIDED|95.0|-12.62|4.36||||||Week 48||4.36|-12.62|
92365864|NCT02831855|184633959|SUPERIORITY||Difference in percentage of participants|-8.84|||||TWO_SIDED|95.0|-16.44|-1.24||||||Week 36||-1.24|-16.44|
92365865|NCT02831855|184633959|SUPERIORITY||Difference in percentage of participants|-2.41|||||TWO_SIDED|95.0|-10.18|5.35||||||Week 48||5.35|-10.18|
92365866|NCT02831855|184633960|SUPERIORITY||Difference in percentage of participants|-8.85|||||TWO_SIDED|95.0|-16.38|-1.31||||||Week 36||-1.31|-16.38|
92365867|NCT02831855|184633960|SUPERIORITY||Difference in percentage of participants|-3.16|||||TWO_SIDED|95.0|-10.99|4.65||||||Week 48||4.65|-10.99|
92365868|NCT02831855|184633961|SUPERIORITY||Difference in percentage of participants|-6.96|||||TWO_SIDED|95.0|-14.06|0.14||||||Week 36||0.14|-14.06|
92365869|NCT02831855|184633961|SUPERIORITY||Difference in percentage of participants|-6.59|||||TWO_SIDED|95.0|-13.8|0.61||||||Week 48||0.61|-13.80|
92365870|NCT02831855|184633962|SUPERIORITY||Difference in percentage of participants|-12.75|||||TWO_SIDED|95.0|-21.01|-4.48||||||Week 36||-4.48|-21.01|
92365871|NCT02831855|184633962|SUPERIORITY||Difference in percentage of participants|-11.99|||||TWO_SIDED|95.0|-20.22|-3.75||||||Week 48||-3.75|-20.22|
92365872|NCT02831855|184633963|SUPERIORITY||Difference in percentage of participants|-5.37|||||TWO_SIDED|95.0|-13.63|2.89||||||Week 36||2.89|-13.63|
92365873|NCT02831855|184633963|SUPERIORITY||Difference in percentage of participants|-4.97|||||TWO_SIDED|95.0|-13.32|3.36||||||Week 48||3.36|-13.32|
92365874|NCT02831855|184633964|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|0.02|0.16||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline HAQ-DI.||0.16|0.02|
92365875|NCT02831855|184633964|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-0.06|0.09||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline HAQ-DI.||0.09|-0.06|
92365876|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-1.79|0.92||||||Change at Week 36: Physical Functioning- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 physical component score as a covariate.||0.92|-1.79|
92365877|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|-0.82|1.85||||||Change at Week 48: Physical Functioning- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 physical component score as a covariate.||1.85|-0.82|
92365878|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-1.67|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-2.97|-0.37||||||Change at Week 36: Role Physical Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 role physical score score as a covariate.||-0.37|-2.97|
92225250|NCT00915343|184351887|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.806|||<|0.0001|TWO_SIDED|95.0|0.753|0.862||Comparison of log S-cortisol AUC between OD and TID regimens was adjusted for both period effect and subject effect using generalized linear model (GLM) in statistical analysis system (SAS).|ANOVA||The quotient was defined as AUC0-24h for OD treatment divided by AUC0-24h for TID treatment.|||0.862|0.753|<0.0001
92225251|NCT00915343|184351888|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-111.989|||<|0.0001|TWO_SIDED|95.0|-133.98|89.999|||Fisher's non-parametric permutation test|||||89.999|-133.980|<0.0001
92225252|NCT00915343|184351889|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|110.417||||0.0357|TWO_SIDED|95.0|16.755|204.078|||Fisher's non-parametric permutation test|||||204.078|16.755|0.0357
92225253|NCT00915343|184351890|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-38.076|||<|0.0001|TWO_SIDED|95.0|-50.276|25.876|||Fisher's non-parametric permutation test|||||25.876|-50.276|<0.0001
92225254|NCT00915343|184351891|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-65.782||||0.0033|TWO_SIDED|95.0|-109.201|22.362|||Fisher's non-parametric permutation test|||||22.362|-109.201|0.0033
92225255|NCT00915343|184351892|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-148.015|||<|0.0001|TWO_SIDED|95.0|-189.469|-106.561|||Fisher's non-parametric permutation test|||||-106.561|-189.469|<0.0001
92225256|NCT00915343|184351893|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-108.306|||<|0.0001|TWO_SIDED|95.0|-140.193|-76.42|||Fisher's non-parametric permutation test|||||-76.420|-140.193|<0.0001
92225257|NCT00915343|184351894|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|0.27||||0.0214|TWO_SIDED|95.0|0.028|0.512|||Fisher's non-parametric permutation test|||||0.512|0.028|0.0214
92365879|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-2.13|0.66||||||Change at Week 48: Role Physical Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 role physical score score as a covariate.||0.66|-2.13|
92225258|NCT00915343|184351895|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-1.042||||0.0714|TWO_SIDED|95.0|-2.098|0.015|||Fisher's non-parametric permutation test|||||0.015|-2.098|0.0714
92225259|NCT00915343|184351896|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.007||||0.6687|TWO_SIDED|95.0|-0.038|0.024|||Fisher's non-parametric permutation test|||||0.024|-0.038|0.6687
92225260|NCT00915343|184351897|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|0.049||||0.028|TWO_SIDED|95.0|0.006|0.093|||Fisher's non-parametric permutation test|||||0.093|0.006|0.0280
92225261|NCT00915343|184351898|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|5.509||||0.0003|TWO_SIDED|95.0|0.751|10.268|||Fisher's non-parametric permutation test|||||10.268|0.751|0.0003
92365880|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-1.5|1.21||||||Change at Week 36: Social functioning- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 Social functioning score as a covariate.||1.21|-1.50|
92365881|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-1.95|0.93||||||Change at Week 48: Social functioning- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 Social functioning score as a covariate.||0.93|-1.95|
92365882|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-1.45|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-2.9|-0.01||||||Change at Week 36: Bodily Pain Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 bodily pain score as a covariate.||-0.01|-2.90|
92365883|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-2.23|0.73||||||Change at Week 48: Bodily Pain Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 bodily pain score as a covariate.||0.73|-2.23|
92225262|NCT00915343|184351899|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-13.8|||<|0.0001|TWO_SIDED|95.0|-20.533|-7.067|||Fisher's non-parametric permutation test|||||-7.067|-20.533|<0.0001
92225263|NCT00915343|184351900|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|1.064||||0.0002|TWO_SIDED|95.0|1.032|1.097|||ANOVA||The quotient was defined as AUC0-4h for OD treatment divided by AUC0-4h for TID treatment.|AUC0-4h||1.097|1.032|0.0002
92225264|NCT00915343|184351900|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.617|||<|0.0001|TWO_SIDED|95.0|0.563|0.675|||ANOVA||The quotient was defined as AUC4-12h for OD treatment divided by AUC4-12h for TID treatment.|AUC4-12h||0.675|0.563|<0.0001
92225265|NCT00915343|184351900|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.472|||<|0.0001|TWO_SIDED|95.0|0.424|0.525|||ANOVA||The quotient was defined as AUC6-12h for OD treatment divided by AUC6-12h for TID treatment.|AUC6-12h||0.525|0.424|<0.0001
92225266|NCT00915343|184351900|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.588||||0.0003|TWO_SIDED|95.0|0.446|0.775|||ANOVA||The quotient was defined as AUC12-24h for OD treatment divided by AUC12-24h for TID treatment.|AUC12-24h||0.775|0.446|0.0003
92225267|NCT00915343|184351900|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.894|||<|0.0001|TWO_SIDED|95.0|0.856|0.935|||ANOVA||The quotient was defined as AUC0-10h for OD treatment divided by AUC0-10h for TID treatment.|AUC0-10h||0.935|0.856|<0.0001
92225268|NCT00915343|184351900|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.695|||<|0.0001|TWO_SIDED|95.0|0.632|0.765|||ANOVA||The quotient was defined as AUC4-10h for OD treatment divided by AUC4-10h for TID treatment.|AUC4-10h||0.765|0.632|<0.0001
92225269|NCT00915343|184351900|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.54|||<|0.0001|TWO_SIDED|95.0|0.482|0.605|||ANOVA||The quotient was defined as AUC6-10h for OD treatment divided by AUC6-10h for TID treatment.|AUC6-10h||0.605|0.482|<0.0001
92225270|NCT00915343|184351900|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.412|||<|0.0001|TWO_SIDED|95.0|0.338|0.504|||ANOVA||The quotient was defined as AUC10-24h for OD treatment divided by AUC10-24h for TID treatment.|AUC10-24h||0.504|0.338|<0.0001
92225271|NCT00915343|184351900|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.776|||<|0.0001|TWO_SIDED|95.0|0.714|0.843|||ANOVA||The quotient was defined as AUC(0-inf) for OD treatment divided by AUC(0-inf) for TID treatment.|AUC(0-inf)||0.843|0.714|<0.0001
92225272|NCT00915343|184351900|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|1.069||||0.877|TWO_SIDED|95.0|0.453|2.521|||ANOVA||The quotient was defined as AUC(24h-inf) for OD treatment divided by AUC(24h-inf) for TID treatment.|AUC(24h-inf)||2.521|0.453|0.8770
92225273|NCT00915343|184351901|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.806|||<|0.0001|TWO_SIDED|95.0|0.753|0.862|||ANOVA||The quotient was defined as AUCtau for OD treatment divided by AUCtau for TID treatment.|||0.862|0.753|<0.0001
92225274|NCT00915343|184351902|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.79|||<|0.0001|TWO_SIDED|95.0|0.734|0.851|||ANOVA||The quotient was defined as AUCtau/dose for OD treatment divided by AUCtau/dose for TID treatment.|||0.851|0.734|<0.0001
92225275|NCT00915343|184351903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.785|||<|0.0001|TWO_SIDED|95.0|0.741|0.831|||ANOVA||The quotient was defined as AUC0-24h/dose for OD treatment divided by AUC0-24h/dose for TID treatment.|||0.831|0.741|<0.0001
92225276|NCT00915343|184351904|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.885|||<|0.0001|TWO_SIDED|95.0|0.844|0.926|||ANOVA||The quotient was defined as AUC0-10h/dose for OD treatment divided by AUC0-10h/dose for TID treatment.|||0.926|0.844|<0.0001
92225277|NCT00915343|184351905|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|1.053||||0.002|TWO_SIDED|95.0|1.02|1.086|||ANOVA||The quotient was defined as AUC0-4h/dose for OD treatment divided by AUC0-4h/dose for TID treatment.|||1.086|1.020|0.0020
92225278|NCT00915343|184351906|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.001|||<|0.0001|TWO_SIDED|95.0|-0.001|0.0|||Fisher's non-parametric permutation test|||||-0.000|-0.001|<0.0001
92225279|NCT00915343|184351907|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.001|||<|0.0001|TWO_SIDED|95.0|-0.002|-0.001|||Fisher's non-parametric permutation test|||||-0.001|-0.002|<0.0001
92404447|NCT03819114|184700284|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.75|||||TWO_SIDED|90.0|0.6|0.93|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.93|0.60|
92404448|NCT03819114|184700284|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.1|||||TWO_SIDED|90.0|0.9|1.36|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.36|0.90|
92404449|NCT03819114|184700284|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.74|||||TWO_SIDED|90.0|1.29|2.33|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.33|1.29|
92404450|NCT03819114|184700284|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.43|||||TWO_SIDED|90.0|0.32|0.58|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.58|0.32|
92225280|NCT00915343|184351908|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.055||||0.7827|TWO_SIDED|95.0|-0.444|0.334|||Fisher's non-parametric permutation test|||||0.334|-0.444|0.7827
92225281|NCT00915343|184351909|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.001||||0.0015|TWO_SIDED|95.0|-0.001|0.0|||Fisher's non-parametric permutation test|||||-0.000|-0.001|0.0015
92225282|NCT00915343|184351910|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|6.098|||<|0.0001|TWO_SIDED|95.0|2.94|12.646|||ANOVA||The quotient was defined as AUC Extrapolation for OD treatment divided by AUC Extrapolation for TID treatment.|||12.646|2.940|<0.0001
92225283|NCT00915343|184351911|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|33.532||||0.0396|TWO_SIDED|95.0|1.734|65.329|||Fisher's non-parametric permutation test|||||65.329|1.734|0.0396
92225284|NCT00915343|184351912|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.08||||0.1032|TWO_SIDED|95.0|-0.017|0.177|||Fisher's non-parametric permutation test|||||0.177|-0.017|0.1032
92225285|NCT00915343|184351913|SUPERIORITY_OR_OTHER_LEGACY||least square mean|-0.078||||0.3767|TWO_SIDED|95.0|-0.25|0.094|||Fisher's test|Fisher's non||Patient||0.094|-0.250|0.3767
92225286|NCT00915343|184351913|SUPERIORITY_OR_OTHER_LEGACY||least square mean|-0.064||||0.4625|TWO_SIDED|95.0|-0.235|0.107|||Fisher's test|Fisher's non||Investigator||0.107|-0.235|0.4625
92225287|NCT00915343|184351914|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6072|TWO_SIDED||||||Sign test|||Patient||||0.6072
92225288|NCT00915343|184351914|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Sign test|||Investigator||||1.0000
92225289|NCT00915343|184351915|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.6||||0.3332|TWO_SIDED||||||Fisher's test|Fisher's non-parametric two-sample permutation test||Comparison of Quality of Life (QoL) Assessed by Short Form-36 Survey (SF-36) For Physical Component Score||||0.3332
92225290|NCT00915343|184351915|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|0.9||||0.3405|TWO_SIDED||||||Fisher's test|Fisher's non-parametric two-sample permutation test||Comparison of Quality of Life (QoL) Assessed by Short Form-36 Survey (SF-36) For Mental Component Score||||0.3405
92225291|NCT00915343|184351916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8418|TWO_SIDED||||||Wilcoxon Signed Rank|||Change From Baseline to 6 months in Quality of Life (QoL) Assessed by Short Form-36 Survey (SF-36) For Physical Component Score||||0.8418
92225292|NCT00915343|184351916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.355|TWO_SIDED||||||Wilcoxon Signed Rank test|||Change From Baseline to 6 months in Quality of Life (QoL) Assessed by Short Form-36 Survey (SF-36) For Mental Component Score||||0.3550
92225293|NCT00915343|184351917|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-2.9||||0.0823|TWO_SIDED||||||Fisher's|Fisher's non-parametric two-sample permutation test||||||0.0823
92225294|NCT00915343|184351918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5982|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.5982
92225295|NCT00915343|184351919|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|2.3||||0.0632|TWO_SIDED||||||Fisher's test|Fisher's non-parametric two-sample permutation test||||||0.0632
92225296|NCT00915343|184351920|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8676|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.8676
92225297|NCT00915343|184351921|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.9700
92225298|NCT00915343|184351922|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2624|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.2624
92225299|NCT00915343|184351923|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|1.28|||||TWO_SIDED|||||||||||||
92225300|NCT00915343|184351925|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Sign test|||||||<0.0001
92225301|NCT00915343|184351926|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-272.3||||0.0034|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.0034
92404451|NCT03819114|184700285|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.62|||||TWO_SIDED|90.0|0.49|0.78|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.78|0.49|
92365884|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|-2.29|0.49||||||Change at Week 36: Mental Health Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 mental health score as a covariate.||0.49|-2.29|
92365885|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-1.94|1.02||||||Change at Week 48: Mental Health Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 mental health score as a covariate.||1.02|-1.94|
92365886|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|-2.64|0.43||||||Change at Week 36: Role Emotional Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 role emotional score as a covariate.||0.43|-2.64|
92365887|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-1.95|1.01||||||Change at Week 48: Role Emotional Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 role emotional score as a covariate.||1.01|-1.95|
92365888|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-2.52|0.22||||||Change at Week 36: Vitality Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 vitality score as a covariate.||0.22|-2.52|
92365889|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-1.94|0.91||||||Change at Week 48: Vitality Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 vitality score as a covariate.||0.91|-1.94|
92365890|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.3|1.08||||||Change at Week 36: General Health Perception Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 general health perception score as a covariate.||1.08|-1.30|
92404452|NCT03819114|184700285|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.89|||||TWO_SIDED|90.0|0.71|1.1|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.10|0.71|
92225302|NCT02177201|184351932|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis: The antiemetic effect was not significantly different for two groups in this study||||0.05
92225303|NCT02177201|184351932|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared, Corrected|||77 patients was needed in each groups for an 20% effect size, 5% alpha and 80% statistical power for postoperative vomiting.||||<0.05
92365891|NCT02831855|184633965|SUPERIORITY||LS Mean Difference|0.62|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-0.6|1.83||||||Change at Week 48: General Health Perception Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 general health perception score as a covariate.||1.83|-0.60|
92365892|NCT02831855|184633966|SUPERIORITY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-2.01|0.37||||||Change at Week 36: Physical Component Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 physical component score- as a covariate.||0.37|-2.01|
92365893|NCT02831855|184633966|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.11|1.29||||||Change at Week 48: Physical Component Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a biological disease-modifying anti-rheumatic drug (DMARD), and baseline SF-36 physical component score- as a covariate.||1.29|-1.11|
92365894|NCT02831855|184633966|SUPERIORITY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|-2.13|0.49||||||Change at Week 36: Mental Component Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 mental component score as a covariate.||0.49|-2.13|
92365895|NCT02831855|184633966|SUPERIORITY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-2.06|0.7||||||Change at Week 48: Mental Component Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 mental component score as a covariate.||0.70|-2.06|
92365896|NCT02831855|184633967|SUPERIORITY||LS Mean Difference|1.61|STANDARD_ERROR_OF_MEAN|2.41|||TWO_SIDED|95.0|-3.14|6.37||||||Change at Week 36: Absenteeism Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI absenteeism score as a covariate.||6.37|-3.14|
92365897|NCT02831855|184633967|SUPERIORITY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|2.28|||TWO_SIDED|95.0|-5.01|3.99||||||Change at Week 48: Absenteeism Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI absenteeism score as a covariate.||3.99|-5.01|
92365898|NCT02831855|184633967|SUPERIORITY||LS Mean Difference|3.19|STANDARD_ERROR_OF_MEAN|1.88|||TWO_SIDED|95.0|-0.51|6.89||||||Change at Week 36: Daily activity impairment- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI daily activity impairment score as a covariate.||6.89|-0.51|
92365899|NCT02831855|184633967|SUPERIORITY||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|2.04|||TWO_SIDED|95.0|-2.41|5.61||||||Change at Week 48: Daily activity impairment- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI daily activity impairment score as a covariate.||5.61|-2.41|
92404453|NCT03819114|184700285|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.77|||||TWO_SIDED|90.0|1.31|2.4|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.40|1.31|
92404454|NCT03819114|184700285|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.35|||||TWO_SIDED|90.0|0.26|0.47|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.47|0.26|
92225304|NCT05853380|184351933|OTHER|The primary outcome was considered successful if the bootstrapped upper 95% confidence interval on the RMSD was \< 3.0. Power was assessed by bootstrapping 95% confidence intervals at different n sizes on a product development population.|RMSD|0.77|||||TWO_SIDED|95.0|0.67|0.87||||||Subjects with simultaneously collected HR and PR comparator data were assigned to the comparison group.|The upper 95% confidence interval on the RMSD was 0.87, meeting the significance threshold of \< 3.0. The study tested hypothesis of accuracy \< 3.0 RMSD by showing the upper 95% confidence interval on the RMSD was \< 3.0. The upper 95% confidence interval on the RMSD was 0.87, meeting the target threshold of \< 3.0.|0.87|0.67|
92365900|NCT02831855|184633967|SUPERIORITY||LS Mean Difference|3.01|STANDARD_ERROR_OF_MEAN|2.97|||TWO_SIDED|95.0|-2.84|8.87||||||Change at Week 36: Presenteeism- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI presenteeism score as a covariate.||8.87|-2.84|
92365901|NCT02831855|184633967|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-8.34|6.54||||||Change at Week 48: Presenteeism- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI presenteeism score as a covariate.||6.54|-8.34|
92365902|NCT02831855|184633967|SUPERIORITY||LS Mean Difference|2.84|STANDARD_ERROR_OF_MEAN|3.45|||TWO_SIDED|95.0|-3.97|9.65||||||Change at Week 36: Work productivity loss- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI work productivity loss score as a covariate.||9.65|-3.97|
92365903|NCT02831855|184633967|SUPERIORITY||LS Mean Difference|-2.46|STANDARD_ERROR_OF_MEAN|4.19|||TWO_SIDED|95.0|-10.72|5.8||||||Change at Week 48: Work productivity loss- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI work productivity loss score as a covariate.||5.80|-10.72|
92404455|NCT03819114|184700286|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.5|||||TWO_SIDED|90.0|0.39|0.63|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.63|0.39|
92404456|NCT03819114|184700286|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.69|||||TWO_SIDED|90.0|0.55|0.86|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.86|0.55|
92404457|NCT03819114|184700286|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.8|||||TWO_SIDED|90.0|1.32|2.45|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.45|1.32|
92225305|NCT02322710|184351996|NON_INFERIORITY|Non-inferiority was demonstrated if the upper limit of the 95% confidence interval of the observed difference between healing rates at D21 (Urgotul® - Tullegras M.S.®) in the PP population did not exceed +10%.|Difference in Percentages|1.2|STANDARD_DEVIATION|4.5|||ONE_SIDED|97.5||10.0||||||||10.0||
92365904|NCT02831855|184633968|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.07|-0.01||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline EQ-5D score as a covariate.||-0.01|-0.07|
92365905|NCT02831855|184633968|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.06|0.01||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline EQ-5D score as a covariate.||0.01|-0.06|
92365906|NCT02831855|184633969|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-1.37|1.0||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline FACIT - fatigue scale score as a covariate.||1.00|-1.37|
92365907|NCT02831855|184633969|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.64|||TWO_SIDED|95.0|-1.07|1.44||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline FACIT - fatigue scale score as a covariate.||1.44|-1.07|
92365908|NCT02831855|184633970|SUPERIORITY||Difference in percentage of participants|-10.02|STANDARD_ERROR_OF_MEAN|3.87|||TWO_SIDED|95.0|-17.61|-2.42||||||Week 36||-2.42|-17.61|
92365909|NCT02831855|184633970|SUPERIORITY||Difference in percentage of participants|-6.62|STANDARD_ERROR_OF_MEAN|3.89|||TWO_SIDED|95.0|-14.26|1.0||||||Week 48||1.00|-14.26|
92365910|NCT01118780|184633981|SUPERIORITY_OR_OTHER||LS mean difference|4.17|STANDARD_ERROR_OF_MEAN|0.86|<|0.001|TWO_SIDED|95.0|2.47|5.88|||Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||5.88|2.47|<0.001
92365911|NCT01118780|184633982|SUPERIORITY_OR_OTHER||LS mean difference|3.23|STANDARD_ERROR_OF_MEAN|0.82|<|0.001|TWO_SIDED|95.0|1.61|4.85|||Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||4.85|1.61|<0.001
92404458|NCT03819114|184700286|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.28|||||TWO_SIDED|90.0|0.2|0.38|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.38|0.20|
92404459|NCT04226742|184700287|SUPERIORITY||Mean Difference (Net)|0.58||||0.79|TWO_SIDED|95.0|-3.71|4.88||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||||4.88|-3.71|0.79
92404460|NCT04226742|184700288|SUPERIORITY||Mean Difference (Net)|0.9||||0.61|TWO_SIDED|95.0|-2.52|4.32||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||||4.32|-2.52|.61
92404461|NCT04226742|184700289|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.088|TWO_SIDED|95.0|-0.05|0.68||Significance threshold of alpha = 0.05|Mixed Models Analysis|||||0.68|-0.05|0.088
92404462|NCT04226742|184700290|SUPERIORITY||Mean Difference (Final Values)|13.68||||0.142|TWO_SIDED|95.0|-4.62|31.99||Threshold for statistical significance of alpha = 0.05|Mixed Models Analysis|||||31.99|-4.62|0.142
92404463|NCT04226742|184700291|SUPERIORITY||Mean Difference (Final Values)|-6.87||||0.109|TWO_SIDED|95.0|-15.28|1.54||Threshold for statistical significance of alpha = .05|Mixed Models Analysis|||||1.54|-15.28|0.109
92404464|NCT04226742|184700292|SUPERIORITY||Mean Difference (Final Values)|-1.01||||0.736|TWO_SIDED|95.0|-6.92|4.89|||Mixed Models Analysis|||||4.89|-6.92|0.736
92365912|NCT01118780|184633983|SUPERIORITY_OR_OTHER||LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|1.43|3.37||The p-value is for the change from baseline to Week 10 in the HAMA Psychic Anxiety Factor Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||3.37|1.43|<0.001
92365913|NCT01118780|184633983|SUPERIORITY_OR_OTHER||LS mean difference|1.76|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|95.0|0.87|2.65||The p-value is for the change from baseline to Week 10 in the HAMA Somatic Anxiety Factor Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||2.65|0.87|<0.001
92365914|NCT01118780|184633983|SUPERIORITY_OR_OTHER||LS mean difference|0.52|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|0.3|0.74||The p-value is for the change from baseline to Week 10 in the HAMA Anxious Mood Item Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.74|0.30|<0.001
92365915|NCT01118780|184633983|SUPERIORITY_OR_OTHER||LS mean difference|0.31|STANDARD_ERROR_OF_MEAN|0.11||0.007|TWO_SIDED|95.0|0.09|0.53||The p-value is for the change from baseline to Week 10 in the HAMA Tension Item Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.53|0.09|0.007
92365916|NCT01118780|184633984|SUPERIORITY_OR_OTHER||LS mean difference|2.19|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|1.2|3.18||The p-value is for the change from baseline to Week 10 in the HADS Anxiety Subscale Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||3.18|1.20|<0.001
92365917|NCT01118780|184633984|SUPERIORITY_OR_OTHER||LS mean difference|1.69|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|0.89|2.49||The p-value is for the change from baseline to Week 10 in the HADS Depression Subscale Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||2.49|0.89|<0.001
92365918|NCT01118780|184633985|SUPERIORITY_OR_OTHER||LS mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|0.26|0.79|||Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.79|0.26|<0.001
92365919|NCT01118780|184633986|SUPERIORITY_OR_OTHER||LS mean difference|0.62|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|0.33|0.91|||Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.91|0.33|<0.001
92365920|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.55|STANDARD_ERROR_OF_MEAN|0.29||0.059|TWO_SIDED|95.0|-0.02|1.11||The p-value is for the change from baseline to Week 10 in BPI-SF Worst Pain Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.11|-0.02|0.059
92365921|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.24||0.079|TWO_SIDED|95.0|-0.05|0.89||The p-value is for the change from baseline to Week 10 in BPI-SF Least Pain Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.89|-0.05|0.079
92365922|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.25||0.089|TWO_SIDED|95.0|-0.06|0.91||The p-value is for the change from baseline to Week 10 in BPI-SF Average Pain Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.91|-0.06|0.089
92365923|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.25||0.371|TWO_SIDED|95.0|-0.27|0.73||The p-value is for the change from baseline to Week 10 in BPI-SF Pain Right Now Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.73|-0.27|0.371
92365924|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.29||0.066|TWO_SIDED|95.0|-0.04|1.09||The p-value is for the change from baseline to Week 10 in BPI-SF General Activity Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.09|-0.04|0.066
92365925|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.41|STANDARD_ERROR_OF_MEAN|0.27||0.14|TWO_SIDED|95.0|-0.13|0.95||The p-value is for the change from baseline to Week 10 in BPI-SF Mood Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.95|-0.13|0.140
92365926|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.29||0.04|TWO_SIDED|95.0|0.03|1.18||The p-value is for the change from baseline to Week 10 in BPI-SF Walking Ability Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.18|0.03|0.040
92365927|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.38|STANDARD_ERROR_OF_MEAN|0.29||0.187|TWO_SIDED|95.0|-0.19|0.94||The p-value is for the change from baseline to Week 10 in BPI-SF Normal Work Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.94|-0.19|0.187
92365928|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.26||0.515|TWO_SIDED|95.0|-0.34|0.68||The p-value is for the change from baseline to Week 10 in BPI-SF Relations With Other People Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.68|-0.34|0.515
92365929|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.34||0.141|TWO_SIDED|95.0|-0.17|1.18||The p-value is for the change from baseline to Week 10 in BPI-SF Sleep Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.18|-0.17|0.141
92365930|NCT01118780|184633987|SUPERIORITY_OR_OTHER||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.29||0.088|TWO_SIDED|95.0|-0.07|1.07||The p-value is for the change from baseline to Week 10 in BPI-SF Enjoyment of Life Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.07|-0.07|0.088
92365931|NCT01118780|184633988|SUPERIORITY_OR_OTHER||LS mean difference|-5.76|STANDARD_ERROR_OF_MEAN|1.87||0.002|TWO_SIDED|95.0|-9.4|-2.1|||ANCOVA||LS mean difference was calculated by placebo minus duloxetine. Negative values indicated improvement over placebo.|||-2.1|-9.4|0.002
92365932|NCT01118780|184633990|SUPERIORITY_OR_OTHER||LS mean difference|1.13|STANDARD_ERROR_OF_MEAN|0.43||0.01|TWO_SIDED|95.0|0.27|1.98||The p-value is for the change from baseline to Week 10 in SDS for Work/School Impairment Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.98|0.27|0.010
92225306|NCT05064059|184352013|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4183|TWO_SIDED|95.0|0.8|1.2||One-sided p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||1.20|0.80|0.4183
92225307|NCT05064059|184352014|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.9967|TWO_SIDED|95.0|1.09|1.64||One-sided nominal p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||1.64|1.09|0.9967
92225308|NCT05064059|184352015|SUPERIORITY||Difference in percentage|5.9||||0.0007|TWO_SIDED|95.0|2.5|10.1||One-sided, nominal p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Miettinen & Nurminen Method||Difference in percentage and 95% CI were based on the Miettinen \& Nurminen method stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||10.1|2.5|0.0007
92225309|NCT05064059|184352019|OTHER||Difference in Least Square (LS) Means|-3.08||||0.1318|TWO_SIDED|95.0|-7.09|0.93||Two-sided p-value based on t-test.|t-test, 2 sided||Calculated using a cLDA model with PRO scores as response variable with covariates for treatment by study visit interaction \& stratified by geographic region, presence of liver metastasis \& time from diagnosis of metastatic disease to randomization.|||0.93|-7.09|0.1318
92365933|NCT01118780|184633990|SUPERIORITY_OR_OTHER||LS mean difference|0.9|STANDARD_ERROR_OF_MEAN|0.29||0.002|TWO_SIDED|95.0|0.32|1.48||The p-value is for the change from baseline to Week 10 in SDS for Social Life/Leisure Activities Impairment Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.48|0.32|0.002
92365934|NCT01118780|184633990|SUPERIORITY_OR_OTHER||LS mean difference|1.21|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|0.61|1.81||The p-value is for the change from baseline to Week 10 in SDS for Family/Home Management Impairment Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.81|0.61|<0.001
92404465|NCT00248040|184700328|SUPERIORITY|The model included fixed effect terms for center, time point, and treatment. Time point was specified as a repeated measurement.|Difference between means|-0.275||||0.9076|TWO_SIDED|95.0|-5.0|4.45|||Other|||This analysis refers to the 1-3 hours time point||4.45|-5.00|0.9076
92404466|NCT00248040|184700328|SUPERIORITY|The model included fixed effect terms for center, time point, and treatment. Time point was specified as a repeated measurement.|Difference between means|2.444||||0.3084|TWO_SIDED|95.0|-2.32|7.21|||Other|||This analysis refers to the 1-3 hours timepoint.||7.21|-2.32|0.3084
92225310|NCT05064059|184352020|OTHER||Difference in LS Means|-0.95||||0.637|TWO_SIDED|95.0|-4.93|3.02||Two-sided p-value based on t-test.|t-test, 2 sided||Calculated using a cLDA model with PRO scores as response variable with covariates for treatment by study visit interaction \& stratified by geographic region, presence of liver metastasis \& time from diagnosis of metastatic disease to randomization.|||3.02|-4.93|0.6370
92365935|NCT01118780|184633991|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for percentage of participants having HAMA response at Week 10 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||<0.001
92365936|NCT01118780|184633991|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for percentage of participants having remission (HAMA Total Score ≤7) at Week 10 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||<0.001
92365937|NCT01118780|184633991|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for percentage of participants having remission (HAMA Total Score ≤10) at Week 10 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||<0.001
92365938|NCT01118780|184633992|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for the percentage of participants having functional remission (SDS Global Score ≤5) at Week 10 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||<0.001
92365939|NCT01118780|184633992|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for the percentage of participants having functional remission (SDS Global Score ≤6) at Week 10 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||<0.001
92365940|NCT01118780|184633993|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||The p-value is for the percentage of participants having HAMA sustained improvement overall and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||0.001
92365941|NCT01118780|184633993|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||The p-value is for the percentage of participants having HAMA sustained improvement from Week 2 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||0.038
92404467|NCT00248040|184700328|OTHER||Difference between means|-2.719||||0.2565|TWO_SIDED|95.0|-7.47|2.03|||Other|||||2.03|-7.47|0.2565
92404468|NCT00248040|184700328|SUPERIORITY|The model included fixed effect terms for center, time point, and treatment. Time point was specified as a repeated measurement.|Difference between means|-0.063||||0.9855|TWO_SIDED|95.0|-6.91|6.79|||Other|||This analysis refers to the 10-12 hours time point.||6.79|-6.91|0.9855
92404469|NCT00248040|184700328|SUPERIORITY|The model included fixed effect terms for center, time point, and treatment. Time point was specified as a repeated measurement.|Difference between means|4.519||||0.1934|TWO_SIDED|95.0|-2.36|11.39|||Other|||This analysis refers to the 10-12 hours timepoint.||11.39|-2.36|0.1934
92404470|NCT00248040|184700328|OTHER|The model included fixed effect terms for center, time point, and treatment. Time point was specified as a repeated measurement.|Difference between means|-4.582||||0.1797|TWO_SIDED|95.0|-11.3|2.17|||Other|||This analysis refers to the 10-12 hours time point.||2.17|-11.3|0.1797
92365942|NCT01118780|184633997|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||The p-value was adjusted for pooled investigator.|Log Rank|||||||0.005
92365943|NCT01118780|184633998|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for the time to first remission (HAMA Total Score ≤10) and was adjusted for pooled investigator.|Log Rank|||||||<0.001
92365944|NCT01118780|184633999|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||The p-value was adjusted for pooled investigator.|Log Rank|||||||0.001
92365945|NCT01118780|184634000|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||The p-value is for the time to first functional remission (SDS Global Functional Impairment Score ≤5) and was adjusted for pooled investigator.|Log Rank|||||||0.006
92365946|NCT01118780|184634000|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||The p-value is for time to first functional remission (SDS Global Functional Impairment Score ≤6) and was adjusted for pooled investigator.|Log Rank|||||||0.003
92365947|NCT01118780|184634001|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was adjusted for pooled investigator.|Log Rank|||||||<0.001
92404471|NCT02494323|184700343|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value is adjusted for the comparison of subjects who benefited, were satisfied and willing to continue using the Segmented Electrodes versus subjects who didn't benefit, wern't satisfied ans were not willing to continue using the Segmented Eletrode|t-test, 1 sided|||||||<0.01
92404472|NCT03847896|184700344|SUPERIORITY||Mean Difference (Final Values)|60.5||||0.025|TWO_SIDED|95.0|7.7|113.4|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||113.4|7.7|0.025
92404473|NCT03847896|184700344|SUPERIORITY||Mean Difference (Final Values)|161.9|||<|0.001|TWO_SIDED|95.0|109.4|214.5|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||214.5|109.4|<0.001
92225311|NCT05064059|184352021|OTHER||Difference in LS Means|3.86||||0.1846|TWO_SIDED|95.0|-1.85|9.57||Two-sided p-value based on t-test.|t-test, 2 sided||Calculated using a cLDA model with PRO scores as response variable with covariates for treatment by study visit interaction \& stratified by geographic region, presence of liver metastasis \& time from diagnosis of metastatic disease to randomization.|||9.57|-1.85|0.1846
92225312|NCT05064059|184352022|OTHER||Difference in LS Means|0.56||||0.841|TWO_SIDED|95.0|-4.96|6.08||Two-sided p-value based on t-test.|t-test, 2 sided||Calculated using a cLDA model with PRO scores as response variable with covariates for treatment by study visit interaction \& stratified by geographic region, presence of liver metastasis \& time from diagnosis of metastatic disease to randomization.|||6.08|-4.96|0.8410
92365948|NCT02020590|184634029|OTHER||||||||TWO_SIDED|90.0||||||||"The success of ALLOB® treatment was based on the percentage of responders. A treated patient was considered as responding if, at the end of the study (6 months):~* He/she had not required rescue surgery and~* The GDE score as perceived by the patient had improved by at least 25% or the TUS (tomographic union score) as assessed by CT scan had increased by at least 2 points."|The response rate at Month 6 for the 21 patients in the PP population was 100 % (CI: 86.71 - 100.0%). None of the treated patients required rescue surgery. An improvement of GDE score of at least 25% was reported for 16 (76.2%) patients. An increase in TUS of at least 2 points was reported for 16 (76.2%) patients; all patients met at least one of these two criteria.|||
92365949|NCT00527618|184634035|SUPERIORITY_OR_OTHER||Slope|-0.27|||<|0.001|TWO_SIDED|95.0|-0.41|-0.14|||Mixed Models Analysis|Adjusted for baseline plasma HIV-1 RNA.|Acyclovir was coded as 0 and valacyclovir as 1. The beta-coefficient (slope) indicates the average difference in HIV-1 RNA on valacyclovir and acyclovir; a negative number indicates that plasma HIV-1 RNA was lower on valacyclovir than acyclovir.|We estimated that a sample size of 29 participants, with 4 weeks of weekly plasma HIV-1 RNA levels per treatment arm, would be required to detect a 0.25 log10 copies/ml difference in plasma HIV-1 RNA between the study arms with 80% power, at a two-sided type I error rate of 5%.||-0.14|-0.41|<0.001
92365950|NCT00527618|184634036|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.95||||0.78|TWO_SIDED|95.0|0.66|1.37|||Random effects poission regression|Adjusted for age.||We estimated that 26 participants would be required to detect a 50% reduction in genital HSV shedding with 80% power, at a two-sided type I error rate of 5%.||1.37|0.66|0.78
92365951|NCT00527618|184634037|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
92365952|NCT00527618|184634038|SUPERIORITY_OR_OTHER|||||||0.67|||||||Mixed Models Analysis|||||||0.67
92365953|NCT03141255|184634045|OTHER|||||||1|||||||Fisher Exact|||||||1
92365954|NCT03141255|184634046|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
92365955|NCT03141255|184634047|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92365956|NCT03141255|184634048|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92365957|NCT03141255|184634049|SUPERIORITY|||||||0.029|||||||Mixed Models Analysis|||||||0.029
92365958|NCT03141255|184634050|SUPERIORITY|||||||0.091|||||||Mixed Models Analysis|||||||0.091
92365959|NCT03141255|184634051|SUPERIORITY|||||||0.029|||||||Mixed Models Analysis|||||||0.029
92365960|NCT03141255|184634052|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
92365961|NCT03141255|184634053|SUPERIORITY|||||||0.516|||||||Fisher Exact|||||||0.516
92365962|NCT03141255|184634054|OTHER|||||||0.75|||||||Kaplan Meier|||||||0.75
92365963|NCT03141255|184634055|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
92365964|NCT03141255|184634056|SUPERIORITY|||||||0.052|||||||t-test, 2 sided|||||||0.052
92365965|NCT02967679|184634068|OTHER||Mean Difference (Net)|1.67|STANDARD_DEVIATION|11.45||0.7615|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.7615
92404474|NCT03847896|184700344|SUPERIORITY||Mean Difference (Final Values)|80.7||||0.003|TWO_SIDED|95.0|28.4|132.9|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||132.9|28.4|0.003
92225313|NCT05064059|184352023|OTHER||Hazard Ratio (HR)|1.0||||0.5094|TWO_SIDED|95.0|0.64|1.58||One-sided p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||1.58|0.64|0.5094
92365966|NCT02967679|184634069|OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|8.89||0.5995|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.5995
92365967|NCT02967679|184634070|OTHER||Mean Difference (Net)|4.8|STANDARD_DEVIATION|8.4||0.1641|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1641
92365968|NCT02967679|184634071|OTHER||Mean Difference (Net)|8.5|STANDARD_DEVIATION|16.5||0.0353|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0353
92365969|NCT02967679|184634072|OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|1.4||0.2642|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.2642
92365970|NCT02967679|184634073|OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|1.2||0.1777|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1777
92365971|NCT02967679|184634074|OTHER||Mean Difference (Net)|4.5|STANDARD_DEVIATION|8.2||0.0371|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0371
92365972|NCT02967679|184634075|OTHER||Mean Difference (Net)|-2.2|STANDARD_DEVIATION|2.9||0.0142|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0142
92365973|NCT02967679|184634077|OTHER||Mean Difference (Net)|0.111|STANDARD_DEVIATION|0.201||0.1055|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1055
92365974|NCT02967679|184634078|OTHER||Mean Difference (Net)|9.84|STANDARD_DEVIATION|28.16||0.213|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.2130
92365975|NCT02967679|184634079|OTHER||Mean Difference (Net)|0.068|STANDARD_DEVIATION|0.112||0.0393|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0393
92365976|NCT02967679|184634080|OTHER||Mean Difference (Net)|-5.905|STANDARD_DEVIATION|6.283||0.0004|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0004
92365977|NCT02967679|184634081|OTHER||Mean Difference (Net)|-4.28|STANDARD_DEVIATION|32.21||0.3303|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3303
92365978|NCT02967679|184634082|OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.092||0.9229|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.9229
92365979|NCT04571060|184634109|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|8.8|||<|0.0001|TWO_SIDED|95.0|4.5|13.1||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||13.1|4.5|<0.0001
92365980|NCT04571060|184634110|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|8.7||||0.0012|TWO_SIDED|95.0|3.4|13.9||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||13.9|3.4|0.0012
92365981|NCT04571060|184634111|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|9.0||||0.0012|TWO_SIDED|95.0|3.6|14.5||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||14.5|3.6|0.0012
92365982|NCT04571060|184634112|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|10.2||||0.0001|TWO_SIDED|95.0|5.0|15.5||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||15.5|5.0|0.0001
92365983|NCT04571060|184634113|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|7.6||||0.0048|TWO_SIDED|95.0|2.3|12.9||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||12.9|2.3|0.0048
92365984|NCT04571060|184634114|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|6.5||||0.013|TWO_SIDED|95.0|1.4|11.7||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||11.7|1.4|0.0130
92365985|NCT04571060|184634115|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|4.9||||0.0076|TWO_SIDED|95.0|1.3|8.5||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||8.5|1.3|0.0076
92365986|NCT04571060|184634116|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|3.7||||0.0308|TWO_SIDED|95.0|0.3|7.1||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||7.1|0.3|0.0308
92365987|NCT04571060|184634117|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|8.3||||0.0123|TWO_SIDED|95.0|1.8|14.9||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||14.9|1.8|0.0123
92365988|NCT04571060|184634118|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|8.6||||0.0018|TWO_SIDED|95.0|3.2|14.1||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||14.1|3.2|0.0018
92365989|NCT04571060|184634119|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|6.0||||0.0293|TWO_SIDED|95.0|0.6|11.4||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||11.4|0.6|0.0293
92365990|NCT04571060|184634120|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|4.7||||0.0362|TWO_SIDED|95.0|0.3|9.1||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||9.1|0.3|0.0362
92365991|NCT04571060|184634121|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|10.2|||<|0.0001|TWO_SIDED|95.0|5.5|15.0||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||15.0|5.5|<0.0001
92365992|NCT04571060|184634122|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|4.4||||0.0059|TWO_SIDED|95.0|1.3|7.6||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||7.6|1.3|0.0059
92365993|NCT04571060|184634123|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|7.8|||<|0.0001|TWO_SIDED|95.0|4.2|11.3||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||11.3|4.2|<0.0001
92225314|NCT05064059|184352024|OTHER||Hazard Ratio (HR)|1.51||||0.9704|TWO_SIDED|95.0|0.98|2.33||One-sided p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||2.33|0.98|0.9704
92225315|NCT05064059|184352025|OTHER||Hazard Ratio (HR)|1.82||||0.9905|TWO_SIDED|95.0|1.11|2.98||One-sided p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||2.98|1.11|0.9905
92225316|NCT05064059|184352026|OTHER||Hazard Ratio (HR)|1.86||||0.9853|TWO_SIDED|95.0|1.06|3.26||One-sided p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization|||3.26|1.06|0.9853
92225317|NCT02944448|184352031|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.7093|TWO_SIDED|95.0|-0.4|0.5|||Mixed Models Analysis|||||0.5|-0.4|0.7093
92225318|NCT02944448|184352032|SUPERIORITY||Mean Difference (Final Values)|-2.8||||0.6007|TWO_SIDED|95.0|-13.1|7.6|||Mixed Models Analysis|||||7.6|-13.1|0.6007
92225319|NCT02944448|184352033|SUPERIORITY||Median Difference (Final Values)|-0.8||||0.4563|TWO_SIDED|95.0|-3.0|1.4|||Mixed Models Analysis|||||1.4|-3.0|0.4563
92225320|NCT02944448|184352034|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.8693|TWO_SIDED|95.0|-1.0|0.8|||Mixed Models Analysis|||||0.8|-1.0|0.8693
92225321|NCT02944448|184352035|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.6516|TWO_SIDED|95.0|-9.1|5.7|||Mixed Models Analysis|||||5.7|-9.1|0.6516
92225322|NCT02944448|184352036|SUPERIORITY||Odds Ratio (OR)|0.7||||0.1033|TWO_SIDED|95.0|0.5|1.1|||Regression, Logistic|Logistic regression, including treatment, baseline weekly pain score, and OA joint as independent variables.|Ratio between treatment odds of achieving a treatment response.|||1.1|0.5|0.1033
92225323|NCT02944448|184352037|SUPERIORITY||Odds Ratio (OR)|0.8||||0.2831|TWO_SIDED|95.0|0.5|1.2|||Regression, Logistic|Logistic regression, including treatment, baseline weekly pain score, and OA joint as independent variables.|Ratio between treatment odds of achieving a treatment response.|||1.2|0.5|0.2831
92225324|NCT02944448|184352038|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1959|TWO_SIDED|95.0|0.9|2.0|||Regression, Logistic|Logistic regression with treatment as a main effect and OA joint as a covariate.|"Ratio between treatment odds of having a PGIC of Very Much Improved or Much Improved."|||2.0|0.9|0.1959
92225325|NCT02944448|184352039|SUPERIORITY|||||||0.2858|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum test stratified by Primary OA joint (Hip or Knee) and Baseline Week Mean of the Daily NRS (\<6.7 or \>=6.7) (Van Elteren test).||||||0.2858
92225326|NCT02944448|184352040|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8002|TWO_SIDED|95.0|0.3|2.7|||Regression, Logistic|Logistic regression, including treatment, baseline pain score, and OA joint as independent variables.|Ratio between treatment odds of withdrawing from treatment due to lack of analgesic efficacy.|||2.7|0.3|0.8002
92225327|NCT00804687|184352049|SUPERIORITY_OR_OTHER||Least Squares Mean difference|-0.126|STANDARD_ERROR_OF_MEAN|0.066||0.0602||95.0|-0.258|0.006|||Linear mixed model|||||0.006|-0.258|0.0602
92225328|NCT00804687|184352049|SUPERIORITY_OR_OTHER||Least Squares Mean difference|-0.195|STANDARD_ERROR_OF_MEAN|0.067||0.0043||95.0|-0.328|-0.063|||Linear mixed model|||||-0.063|-0.328|0.0043
92225329|NCT00804687|184352049|SUPERIORITY_OR_OTHER||Least Squares Mean difference|-0.066|STANDARD_ERROR_OF_MEAN|0.07||0.3513|TWO_SIDED|95.0|-0.206|0.075|||Linear mixed model|||||0.075|-0.206|0.3513
92225330|NCT00804687|184352050|SUPERIORITY_OR_OTHER||Least Squares Mean difference|8.604|STANDARD_ERROR_OF_MEAN|2.267||0.0003||95.0|4.104|13.104|||Linear mixed model|||||13.104|4.104|0.0003
92225331|NCT00804687|184352050|SUPERIORITY_OR_OTHER||Least Squares Mean difference|4.699|STANDARD_ERROR_OF_MEAN|2.289||0.0428||95.0|0.155|9.243|||Linear mixed model|||||9.243|0.155|0.0428
92225332|NCT00804687|184352050|SUPERIORITY_OR_OTHER||Least Squares Mean difference|-3.905|STANDARD_ERROR_OF_MEAN|2.277||0.0895|TWO_SIDED|95.0|-8.424|0.614|||Linear mixed model|||||0.614|-8.424|0.0895
92365994|NCT02030821|184634187|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92365995|NCT02030821|184634188|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92365996|NCT02030821|184634189|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92365997|NCT02030821|184634190|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92365998|NCT01088906|184634194|SUPERIORITY||Odds Ratio (OR)|34.0||||0.05|TWO_SIDED||||||Regression, Logistic|||||||0.05
92365999|NCT03366454|184634219|OTHER||AUC|0.6692|STANDARD_ERROR_OF_MEAN|0.05322||0.0048|TWO_SIDED|95.0|0.5649|0.7735|||ROC Curve Analysis|||ROC curve analysis was performed to evaluate outcome. The Area Under the Curve (AUC) was calculated along with a 95% confidence interval and statistical significance (p-value)||0.7735|0.5649|0.0048
92366000|NCT03366454|184634219|OTHER||AUC|0.6892|STANDARD_ERROR_OF_MEAN|0.05213||0.0029|TWO_SIDED|95.0|0.587|0.7914|||ROC Curve Analysis|||ROC curve analysis was performed to evaluate outcome. The Area Under the Curve (AUC) was calculated along with a 95% confidence interval and statistical significance (p-value).||0.7914|0.5870|0.0029
92366001|NCT03366454|184634220|OTHER||AUC|0.644|STANDARD_ERROR_OF_MEAN|0.05635||0.0233|TWO_SIDED|95.0|0.5335|0.7544|||ROC Curve Analysis||The optimal cutoff value for NLR was determined as 1.335 using the Youden Index.|ROC curve analysis was performed to evaluate outcome. The Area Under the Curve (AUC) was calculated along with a 95% confidence interval and statistical significance (p-value).||0.7544|0.5335|0.0233
92366002|NCT03366454|184634221|OTHER||AUC|0.6884|STANDARD_ERROR_OF_MEAN|0.04709||0.0018|TWO_SIDED|95.0|0.5962|0.7807|||ROC Curve Analysis||The optimal cut-off value for CRP was determined as 5.70 using the Youden Index.|ROC curve analysis was performed to evaluate outcome. The Area Under the Curve (AUC) was calculated along with a 95% confidence interval and statistical significance (p-value)||0.7807|0.5962|0.0018
92225333|NCT00805740|184352067|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.8|||||TWO_SIDED|95.0|-12.3|53.3||||||The 95 percent (%) confidence interval (CI) was calculated using method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||53.3|-12.3|
92225334|NCT00805740|184352068|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.6|||||TWO_SIDED|95.0|-13.6|55.6||||||2-week follow-up: The 95% CI was calculated using method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||55.6|-13.6|
92404475|NCT03847896|184700345|SUPERIORITY||Mean Difference (Final Values)|73.3||||0.037|TWO_SIDED|95.0|4.4|142.2|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||142.2|4.4|0.037
92404476|NCT03847896|184700345|SUPERIORITY||Mean Difference (Final Values)|99.9||||0.005|TWO_SIDED|95.0|30.9|168.8|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||168.8|30.9|0.005
92404477|NCT03847896|184700345|SUPERIORITY||Mean Difference (Final Values)|132.8|||<|0.001|TWO_SIDED|95.0|63.6|201.9|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||201.9|63.6|<0.001
92404478|NCT03847896|184700345|SUPERIORITY||Mean Difference (Final Values)|87.9||||0.013|TWO_SIDED|95.0|18.8|156.9|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||156.9|18.8|0.013
92404479|NCT03847896|184700345|SUPERIORITY||Mean Difference (Final Values)|120.8|||<|0.001|TWO_SIDED|95.0|51.5|190.1|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||190.1|51.5|<0.001
92404480|NCT03847896|184700346|SUPERIORITY||Median Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-6.0|1.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||1|-6|
92404481|NCT03847896|184700346|SUPERIORITY||Median Difference (Final Values)|3.0|||||TWO_SIDED|95.0|-3.0|9.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||9|-3|
92225335|NCT00805740|184352068|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.1|||||TWO_SIDED|95.0|-23.3|47.3||||||6-week follow-up: The 95% CI was calculated using method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||47.3|-23.3|
92404482|NCT03847896|184700346|SUPERIORITY||Median Difference (Final Values)|-4.5|||||TWO_SIDED|95.0|-9.0|0.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||0|-9|
92225336|NCT00805740|184352070|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-6.1|||||TWO_SIDED|95.0|-39.0|27.9||||||The 95% CI was calculated using method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||27.9|-39.0|
92404483|NCT03847896|184700346|SUPERIORITY||Median Difference (Final Values)|-4.5|||||TWO_SIDED|95.0|-9.0|0.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||0|-9|
92404484|NCT03847896|184700346|SUPERIORITY||Median Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-3.0|0.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||0|-3|
92404485|NCT03847896|184700346|SUPERIORITY||Median Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-2.0|0.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||0|-2|
92404486|NCT03847896|184700346|SUPERIORITY||Median Difference (Final Values)|-6.5|||||TWO_SIDED|95.0|-11.0|-2.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||-2|-11|
92404487|NCT03847896|184700346|SUPERIORITY||Median Difference (Final Values)|-6.5|||||TWO_SIDED|95.0|-11.0|-2.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||-2|-11|
92404488|NCT03847896|184700346|SUPERIORITY||Median Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.0|1.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||1|-1|
92404489|NCT03847896|184700348|SUPERIORITY||Odds Ratio (OR)|0.699||||0.118|TWO_SIDED|95.0|0.445|1.096|||Regression, Logistic|||Comparison is not type-I error controlled.||1.096|0.445|0.118
92404490|NCT03847896|184700348|SUPERIORITY||Odds Ratio (OR)|1.386||||0.161|TWO_SIDED|95.0|0.878|2.187|||Regression, Logistic|||Comparison is not type-I error controlled.||2.187|0.878|0.161
92404491|NCT03847896|184700348|SUPERIORITY||Odds Ratio (OR)|1.605||||0.044|TWO_SIDED|95.0|1.013|2.541|||Regression, Logistic|||Comparison is not type-I error controlled.||2.541|1.013|0.044
92404492|NCT03847896|184700348|SUPERIORITY||Odds Ratio (OR)|1.626||||0.039|TWO_SIDED|95.0|1.024|2.584|||Regression, Logistic|||Comparison is not type-I error controlled.||2.584|1.024|0.039
92404493|NCT03847896|184700348|SUPERIORITY||Odds Ratio (OR)|2.297|||<|0.001|TWO_SIDED|95.0|1.456|3.626|||Regression, Logistic|||Comparison is not type-I error controlled.||3.626|1.456|<0.001
92225337|NCT05227690|184352087|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.24|=|0.1765|TWO_SIDED|95.0|-7.5|1.4|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Emraclidine 30 mg versus Placebo||1.4|-7.5|=0.1765
92366003|NCT03366454|184634222|OTHER||AUC|0.7063|STANDARD_ERROR_OF_MEAN|0.04857||0.0007|TWO_SIDED|95.0|0.6111|0.8015|||ROC Curve Analysis||The optimal cutoff value for PCT was determined as 0.141 using the Youden Index.|ROC curve analysis was performed to evaluate outcome. The Area Under the Curve (AUC) was calculated along with a 95% confidence interval and statistical significance (p-value).||0.8015|0.6111|0.0007
92366004|NCT02848092|184634253|SUPERIORITY||Incidence Risk Ratio|0.64|||<|0.0001|TWO_SIDED|95.0|0.52|0.76|||Generalized Estimating Equation|P value is for the interaction between group (intervention vs. control) and time point (baseline vs. 1 month) using a generalized estimating equation.||||.76|.52|<.0001
92366005|NCT02848092|184634254|SUPERIORITY||Mean Difference (Final Values)|-0.21|||<|0.0001|TWO_SIDED|95.0|-0.29|-0.13|||Generalized Estimating Equation|P value is for the interaction between group (intervention vs. control) and time point (baseline vs. 1 month) using a generalized estimating equation.||||-.13|-.29|<.0001
92366006|NCT02848092|184634255|SUPERIORITY||Incidence Risk Ratio|0.64|||<|0.0001|TWO_SIDED|95.0|0.52|0.76|||Generalized Estimating Equation|P value is for the interaction between group (intervention vs. control) and time point (baseline vs. 6 month) using a generalized estimating equation.||||.76|.52|<.0001
92366007|NCT02848092|184634256|SUPERIORITY||Mean Difference (Final Values)|-0.22|||<|0.0001|TWO_SIDED|95.0|-0.31|-0.13|||Generalized Estimating Equation|P value is for the interaction between group (intervention vs. control) and time point (baseline vs. 6 month) using a generalized estimating equation.||||-.13|-.31|<.0001
92366008|NCT02848092|184634257|SUPERIORITY||Risk Ratio (RR)|0.6|||||TWO_SIDED|95.0|0.41|0.89||||||||.89|.41|
92366009|NCT02848092|184634258|SUPERIORITY||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.61|0.92||||||||.92|.61|
92404494|NCT03847896|184700348|SUPERIORITY||Odds Ratio (OR)|2.328|||<|0.001|TWO_SIDED|95.0|1.471|3.687|||Regression, Logistic|||Comparison is not type-I error controlled.||3.687|1.471|<0.001
92366010|NCT01516632|184634286|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62|||||TWO_SIDED|95.0|0.82|3.21||||||||3.21|.82|
92366011|NCT01516632|184634287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.55|||||TWO_SIDED|95.0|1.22|5.3||||||||5.30|1.22|
92366012|NCT01516632|184634288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.33|||||TWO_SIDED|95.0|1.48|7.45||||||||7.45|1.48|
92366013|NCT01665911|184634310|SUPERIORITY_OR_OTHER|||||||0.049||||||Non-fluoridated milk, 200 ml vs. 1.5 mg Sodium Fluoride in 100 ml milk|ANOVA|||Based on prior studies using a variety of products in this model, the within-product standard deviation of %SMH recovery is estimated to be 13% and the correlation between products is expected to be approximately 0.5. With a sample size of 28 subjects in a 5-way crossover study, the study will have 80% power to detect a %SMH recovery difference of 8.6%, assuming two-sided tests each conducted at a 5% significance level.||||0.0490
92366014|NCT01665911|184634310|SUPERIORITY_OR_OTHER|||||||0.19||||||Non-fluoridated milk, 200 ml vs. 1.5 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.19
92366015|NCT01665911|184634310|SUPERIORITY_OR_OTHER|||||||0.0017||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0017
92366016|NCT01665911|184634310|SUPERIORITY_OR_OTHER|||||||0.0092||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0092
92366017|NCT01665911|184634310|SUPERIORITY_OR_OTHER|||||||0.45||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 1.5 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.45
92366018|NCT01665911|184634310|SUPERIORITY_OR_OTHER|||||||0.18||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.18
92366019|NCT01665911|184634310|SUPERIORITY_OR_OTHER|||||||0.47||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.47
92366020|NCT01665911|184634310|SUPERIORITY_OR_OTHER|||||||0.0423||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0423
92366021|NCT01665911|184634310|SUPERIORITY_OR_OTHER|||||||0.15||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.15
92366022|NCT01665911|184634310|SUPERIORITY_OR_OTHER|||||||0.54||||||3 mg sodium fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.54
92366023|NCT01665911|184634311|SUPERIORITY_OR_OTHER|||||||0.24||||||Non-fluoridated milk, 200 ml vs. 1.5 mg Sodium Fluoride in 100 ml milk|ANOVA|||||||0.24
92366024|NCT01665911|184634311|SUPERIORITY_OR_OTHER|||||||0.17||||||Non-fluoridated milk, 200 ml vs. 1.5 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.17
92404495|NCT03847896|184700348|SUPERIORITY||Odds Ratio (OR)|1.158||||0.532|TWO_SIDED|95.0|0.731|1.835|||Regression, Logistic|||Comparison is not type-I error controlled.||1.835|0.731|0.532
92366025|NCT01665911|184634311|SUPERIORITY_OR_OTHER|||||||0.0008||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0008
92366026|NCT01665911|184634311|SUPERIORITY_OR_OTHER|||||||0.0003||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0003
92366027|NCT01665911|184634311|SUPERIORITY_OR_OTHER|||||||0.24||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 1.5 mg Sodium Fluoride in 200 ml milk|ANOVA|||||||0.24
92366028|NCT01665911|184634311|SUPERIORITY_OR_OTHER|||||||0.26||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.26
92366029|NCT01665911|184634311|SUPERIORITY_OR_OTHER|||||||0.18||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.18
92366030|NCT01665911|184634311|SUPERIORITY_OR_OTHER|||||||0.0269||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0269
92366031|NCT01665911|184634311|SUPERIORITY_OR_OTHER|||||||0.0142||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0142
92366032|NCT01665911|184634311|SUPERIORITY_OR_OTHER|||||||0.81||||||3 mg sodium fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.81
92366033|NCT01665911|184634312|SUPERIORITY_OR_OTHER|||||||0||||||Non-fluoridated milk, 200 ml vs. 1.5 mg Sodium Fluoride in 100 ml milk|ANOVA|||||||0.0000
92366034|NCT01665911|184634312|SUPERIORITY_OR_OTHER|||||||0||||||Non-fluoridated milk, 200 ml vs. 1.5 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0000
92366035|NCT01665911|184634312|SUPERIORITY_OR_OTHER|||||||0||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0000
92366036|NCT01665911|184634312|SUPERIORITY_OR_OTHER|||||||0||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0000
92366037|NCT01665911|184634312|SUPERIORITY_OR_OTHER|||||||0.14||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 1.5 mg Sodium Fluoride in 200 ml milk|ANOVA|||||||0.14
92366038|NCT01665911|184634312|SUPERIORITY_OR_OTHER|||||||0.0012||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0012
92366039|NCT01665911|184634312|SUPERIORITY_OR_OTHER|||||||0.19||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.19
92366040|NCT01665911|184634312|SUPERIORITY_OR_OTHER|||||||0||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0000
92404496|NCT03847896|184700348|SUPERIORITY||Odds Ratio (OR)|1.174||||0.499|TWO_SIDED|95.0|0.737|1.868|||Regression, Logistic|||Comparison is not type-I error controlled.||1.868|0.737|0.499
92404497|NCT03847896|184700348|SUPERIORITY||Odds Ratio (OR)|1.014||||0.955|TWO_SIDED|95.0|0.635|1.618|||Regression, Logistic|||Comparison is not type-I error controlled.||1.618|0.635|0.955
92404498|NCT03847896|184700349|SUPERIORITY||Mean Difference (Final Values)|-42.1||||0.169|TWO_SIDED|95.0|-101.9|17.8|||ANCOVA|||Comparison is not type-I error controlled.||17.8|-101.9|0.169
92366041|NCT01665911|184634312|SUPERIORITY_OR_OTHER|||||||0.0075||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0075
92366042|NCT01665911|184634312|SUPERIORITY_OR_OTHER|||||||0.0444||||||3 mg sodium fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0444
92366043|NCT01881009|184634313|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92366044|NCT01881009|184634314|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92404499|NCT03847896|184700349|SUPERIORITY||Mean Difference (Final Values)|52.1||||0.086|TWO_SIDED|95.0|-7.4|111.5|||ANCOVA|||Comparison is not type-I error controlled.||111.5|-7.4|0.086
92404500|NCT03847896|184700349|SUPERIORITY||Mean Difference (Final Values)|30.7||||0.31|TWO_SIDED|95.0|-28.6|90.1|||ANCOVA|||Comparison is not type-I error controlled.||90.1|-28.6|0.31
92404501|NCT03847896|184700349|SUPERIORITY||Mean Difference (Final Values)|65.9||||0.03|TWO_SIDED|95.0|6.3|125.4|||ANCOVA|||Comparison is not type-I error controlled.||125.4|6.3|0.03
92404502|NCT03847896|184700349|SUPERIORITY||Mean Difference (Final Values)|72.8||||0.017|TWO_SIDED|95.0|13.1|132.5|||ANCOVA|||Comparison is not type-I error controlled.||132.5|13.1|0.017
92404503|NCT03847896|184700349|SUPERIORITY||Mean Difference (Final Values)|107.9|||<|0.001|TWO_SIDED|95.0|48.1|167.8|||ANCOVA|||Comparison is not type-I error controlled.||167.8|48.1|<0.001
92404504|NCT03847896|184700349|SUPERIORITY||Mean Difference (Final Values)|-21.3||||0.48|TWO_SIDED|95.0|-80.5|37.9|||ANCOVA|||Comparison is not type-I error controlled.||37.9|-80.5|0.48
92404505|NCT03847896|184700349|SUPERIORITY||Mean Difference (Final Values)|13.8||||0.648|TWO_SIDED|95.0|-45.6|73.2|||ANCOVA|||Comparison is not type-I error controlled.||73.2|-45.6|0.648
92366045|NCT01151020|184634316|SUPERIORITY_OR_OTHER_LEGACY||Free from major adverse event rate (%)|96.4|||<|0.001|TWO_SIDED|95.0|91.0|99.0|||Exact binomial test|||Null hypothesis: The 30-day freedom from MAE for patients treated with the Zenith® TX2® Low Profile TAA Endovascular Graft does not meet the performance goal of 80.6%.||99|91|< 0.001
92366046|NCT01151020|184634317|SUPERIORITY_OR_OTHER_LEGACY||Device success rate (%)|92.7|||<|0.001|TWO_SIDED|95.0|86.2|96.8|||Exact binomial test|||Null Hypothesis: The 12-month device success for patients treated with the Zenith® TX2® Low Profile TAA Endovascular Graft does not meet the performance goal of 80.7%.||96.8|86.2|< 0.001
92366047|NCT04419467|184634332|SUPERIORITY||GM % treatment difference (80% CI)|-0.5||||0.485|TWO_SIDED|80.0|-14.8|16.3||One-sided p-value|Mixed Models Repeated Measures Analysis||Data analyzed are log-transformed values of ACR, using MMRM. Comparisons vs. placebo are back-transformed by exponentiation to obtain geometric mean (GM), then expressed as percent treatment difference.|||16.3|-14.8|0.485
92366048|NCT04419467|184634332|SUPERIORITY||GM % treatment difference (80% CI)|8.6||||0.75|TWO_SIDED|80.0|-7.2|27.2||One-sided p-value|Mixed Models Repeated Measures Analysis||Data analyzed are log-transformed values of ACR, using MMRM. Comparisons vs. placebo are back-transformed by exponentiation to obtain geometric mean, then expressed as percent treatment difference|||27.2|-7.2|0.750
92366049|NCT00600067|184634358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.17||0.0381|TWO_SIDED|95.0|-0.69|-0.02|||ANCOVA|||||-0.02|-0.69|0.0381
92366050|NCT00600067|184634359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|1.26|<|0.0001|TWO_SIDED|95.0|-9.18|-4.21|||ANCOVA|||||-4.21|-9.18|<0.0001
92366051|NCT03502915|184634360|EQUIVALENCE|The equivalence margin is the standard error of the estimated difference.|Mean Difference (Final Values)|0.053|STANDARD_DEVIATION|2.508||0.943|TWO_SIDED|95.0|-1.402|1.507|||t-test, 2 sided|||||1.507|-1.402|0.943
92366052|NCT03502915|184634361|EQUIVALENCE|The equivalence margin is the standard error of the estimated difference.|Mean Difference (Final Values)|0.443|STANDARD_DEVIATION|2.867||0.597|TWO_SIDED|95.0|-1.229|2.114|||t-test, 2 sided|||||2.114|-1.229|0.597
92366053|NCT03502915|184634362|EQUIVALENCE|The equivalence margin is the standard error of the estimated difference.|Mean Difference (Final Values)|0.12|STANDARD_DEVIATION|1.28||0.748|TWO_SIDED|95.0|-0.629|0.869|||t-test, 2 sided|||||0.869|-0.629|0.748
92366054|NCT03502915|184634363|EQUIVALENCE|The equivalence margin is the standard error of the estimated difference.|Mean Difference (Final Values)|-2.634|STANDARD_DEVIATION|3.816||0.025|TWO_SIDED|95.0|-4.927|-0.341|||t-test, 2 sided|||||-0.341|-4.927|0.025
92366055|NCT03502915|184634364|EQUIVALENCE|The equivalence margin is the standard error of the estimated difference.|Mean Difference (Final Values)|0.056|STANDARD_DEVIATION|2.742||0.944|TWO_SIDED|95.0|-1.543|1.655|||t-test, 2 sided|||||1.655|-1.543|0.944
92366056|NCT00881894|184634365|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|0.9864||||||90.0|0.9103|1.0688|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0688|0.9103|
92225338|NCT05227690|184352087|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.26|=|0.6007|TWO_SIDED|95.0|-5.6|3.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Emraclidine 10 mg versus Placebo||3.3|-5.6|=0.6007
92225339|NCT05227690|184352088|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.124|=|0.2534|TWO_SIDED|95.0|-0.39|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Emraclidine 30 mg versus Placebo||0.10|-0.39|=0.2534
92366057|NCT00881894|184634366|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|0.9584||||||90.0|0.8861|1.0367|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0367|0.8861|
92366058|NCT00881894|184634367|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|0.9896||||||90.0|0.9179|1.0671|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).||Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0671|0.9179|
92366059|NCT01361217|184634378|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92366060|NCT01361217|184634378|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92366061|NCT01361217|184634379|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92404506|NCT03847896|184700349|SUPERIORITY||Mean Difference (Final Values)|35.1||||0.246|TWO_SIDED|95.0|-24.2|94.5|||ANCOVA|||Comparison is not type-I error controlled.||94.5|-24.2|0.246
92404507|NCT03038880|184700375|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|-2.1|||||TWO_SIDED|80.0|-6.8|2.6|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|||2.6|-6.8|
92225340|NCT05227690|184352088|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.125|=|0.6774|TWO_SIDED|95.0|-0.3|0.19|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Emraclidine 10 mg versus Placebo||0.19|-0.30|=0.6774
92366062|NCT02765399|184634403|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92366063|NCT02765399|184634403|OTHER|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
92366064|NCT02765399|184634404|OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
92366065|NCT02765399|184634404|OTHER|||||||0.612|||||||Wilcoxon (Mann-Whitney)|||||||0.612
92366066|NCT02765399|184634405|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92366067|NCT02765399|184634405|OTHER|||||||0.128|||||||Wilcoxon (Mann-Whitney)|||||||0.128
92366068|NCT02765399|184634406|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92366069|NCT02765399|184634406|OTHER|||||||0.343|||||||Wilcoxon (Mann-Whitney)|||||||0.343
92366070|NCT02765399|184634407|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92366071|NCT02765399|184634407|OTHER|||||||0.865|||||||Wilcoxon (Mann-Whitney)|||||||0.865
92366072|NCT02765399|184634408|OTHER|||||||0.532|||||||Wilcoxon (Mann-Whitney)|||||||0.532
92366073|NCT02765399|184634408|OTHER|||||||0.735|||||||Wilcoxon (Mann-Whitney)|||||||0.735
92366074|NCT02765399|184634409|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||||||0.017
92366075|NCT02765399|184634409|OTHER|||||||0.753|||||||Wilcoxon (Mann-Whitney)|||||||0.753
92366076|NCT02765399|184634410|OTHER|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||||||0.047
92404508|NCT03038880|184700375|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|1.1|||||TWO_SIDED|80.0|-3.4|5.5|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|||5.5|-3.4|
92366077|NCT02765399|184634410|OTHER|||||||0.499|||||||Wilcoxon (Mann-Whitney)|||||||0.499
92366078|NCT02765399|184634411|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92366079|NCT02765399|184634411|OTHER|||||||0.128|||||||Wilcoxon (Mann-Whitney)|||||||0.128
92366080|NCT02765399|184634412|OTHER|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
92366081|NCT02765399|184634412|OTHER|||||||0.578|||||||Wilcoxon (Mann-Whitney)|||||||0.578
92366082|NCT02765399|184634413|OTHER|||||||0.152|||||||Wilcoxon (Mann-Whitney)|||||||0.152
92366083|NCT02765399|184634413|OTHER|||||||0.866|||||||Wilcoxon (Mann-Whitney)|||||||0.866
92366084|NCT02765399|184634414|OTHER|||||||0.173|||||||Wilcoxon (Mann-Whitney)|||||||0.173
92366085|NCT02765399|184634414|OTHER|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
92366086|NCT02765399|184634415|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92366087|NCT02765399|184634415|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
92366088|NCT02765399|184634416|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92366089|NCT02765399|184634416|OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
92366090|NCT02765399|184634417|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92366091|NCT02765399|184634417|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92366092|NCT02765399|184634418|OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
92366093|NCT02765399|184634418|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92366094|NCT02765399|184634419|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92366095|NCT02765399|184634419|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92366096|NCT02765399|184634420|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92166949|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|1.2||0.52|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df =44.0, t=-0.64|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the HAMD6 change scores, reporting here information for Day 28.||||0.52
92166950|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.19||0.11|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df = 31.0, t=1.67|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-S change scores, reporting here information for Day 2.||||0.11
92225341|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.1|=|0.3596|TWO_SIDED|95.0|-3.2|1.2|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 1-- Emraclidine 30 mg versus Placebo||1.2|-3.2|=0.3596
92225342|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.1|=|0.6053|TWO_SIDED|95.0|-2.7|1.6|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 1-- Emraclidine 10 mg versus Placebo||1.6|-2.7|=0.6053
92366097|NCT02765399|184634420|OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
92366098|NCT02765399|184634421|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||||||0.017
92366099|NCT02765399|184634421|OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
92404509|NCT03038880|184700376|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|-2.09|||||TWO_SIDED|80.0|-6.75|2.56|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||2.56|-6.75|
92404510|NCT03038880|184700376|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|1.05|||||TWO_SIDED|80.0|-3.4|5.49|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||5.49|-3.40|
92225343|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.54|=|0.8149|TWO_SIDED|95.0|-3.4|2.7|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 2-- Emraclidine 30 mg versus Placebo||2.7|-3.4|=0.8149
92225344|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.55|=|0.9058|TWO_SIDED|95.0|-3.2|2.9|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 2-- Emraclidine 10 mg versus Placebo||2.9|-3.2|=0.9058
92366100|NCT02765399|184634422|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||||||0.017
92366101|NCT02765399|184634422|OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92366102|NCT02765399|184634423|OTHER|||||||0.068|||||||Wilcoxon (Mann-Whitney)|||||||0.068
92366103|NCT02765399|184634423|OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
92366104|NCT03958331|184634431|SUPERIORITY||Mean Difference (Final Values)|10.62|STANDARD_ERROR_OF_MEAN|3.38||0.002|TWO_SIDED|95.0|4.0|17.25|||ANCOVA|Model controlled for baseline adherence, resistance to peer influence, dose, active seizures, COVID timing, COVID Impact (3 items), and sex|||We also conducted a longitudinal mixed effects model for adherence over time, estimating a groupXtime interaction with the same covariates listed above and allowing for a non-linear effect.|17.25|4|0.002
92366105|NCT03192137|184634453|SUPERIORITY|Statistical hypotheses testing for the primary efficacy endpoint was two-sided and performed using a significance (alpha) level of 0.05.||||||0.0005||||||P-values were from a Chi-Square test (with continuity correction) of differences between treatments in the proportion of participants with anterior chamber cells Grade 0 who did not receive rescue medication versus all other grades combined.|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||||||0.0005
92366106|NCT03192137|184634454|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|3.217|||<|0.0001|TWO_SIDED|95.0|1.823|5.675||P-values were from a Chi-Square test (with continuity correction).|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 1||5.675|1.823|<0.0001
92404511|NCT03038880|184700376|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|0.49|||||TWO_SIDED|80.0|-4.26|5.25|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||5.25|-4.26|
92404512|NCT03038880|184700376|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|1.83|||||TWO_SIDED|80.0|-2.71|6.37|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||6.37|-2.71|
92366107|NCT03192137|184634454|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|4.337|||<|0.0001|TWO_SIDED|95.0|2.305|8.161||P-values were from a Chi-Square test (with continuity correction).|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 8||8.161|2.305|<0.0001
92166951|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.36||0.98|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df=41.1, t=-0.03|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-S change scores, reporting here information for Day 14.||||0.98
92366108|NCT03192137|184634454|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|4.12|||<|0.0001|TWO_SIDED|95.0|2.113|8.033||P-values were from a Chi-Square test (with continuity correction).|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 15||8.033|2.113|<0.0001
92366109|NCT03192137|184634454|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|2.58||||0.0043|TWO_SIDED|95.0|1.38|4.822||P-values were from a Chi-Square test (with continuity correction).|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 18||4.822|1.380|0.0043
92166952|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.41||0.45|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df=46.0, t=-0.76|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-S change scores, reporting here information for Day 28.||||0.45
92366110|NCT03192137|184634454|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|3.277||||0.0005|TWO_SIDED|95.0|1.695|6.335||P-values were from a Chi-Square test (with continuity correction).|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 29||6.335|1.695|0.0005
92366111|NCT00437268|184634462|SUPERIORITY_OR_OTHER_LEGACY|||||||0.431||||||The type 1 error rate was set at 0.20|Log Rank|||||||0.431
92366112|NCT00437268|184634463|SUPERIORITY_OR_OTHER_LEGACY|||||||0.593|||||||Fisher Exact|||||||0.593
92366113|NCT00437268|184634464|SUPERIORITY_OR_OTHER_LEGACY|||||||0.157|||||||Log Rank|||||||0.157
92366114|NCT00437268|184634465|SUPERIORITY_OR_OTHER_LEGACY|||||||0.539||||||Kaplan-Meier analysis was used for statistical analysis.|Log Rank|||||||0.539
92366115|NCT00437268|184634466|SUPERIORITY_OR_OTHER_LEGACY|||||||0.695|||||||Fisher Exact|||||||0.695
92366116|NCT04417257|184634477|SUPERIORITY||Mean Difference (Final Values)|-2.9||||0.7377|TWO_SIDED|95.0|-15.0|9.0||one-sided (right tailed)|Fisher Exact||A positive difference favours LAU-7b, a negative difference favours placebo.|Participants with health status data missing on Day 29 were treated as non-responders, where a non-responder was defined as not reaching a health status of 1-4.||9|-15|0.7377
92366117|NCT04417257|184634477|SUPERIORITY||Mean Difference (Final Values)|-3.0||||1|TWO_SIDED|95.0|-10.0|2.8||one-sided (right tailed)|Fisher Exact||A positive difference favours LAU-7b, a negative difference favours placebo.|Participants from Per-Protocol population and with available Day 29 health status data||2.8|-10.0|1.000
92225345|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.71|=|0.5419|TWO_SIDED|95.0|-4.4|2.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||2.3|-4.4|=0.5419
92366118|NCT04417257|184634477|OTHER||Odds Ratio (OR)|0.57||||0.0177|TWO_SIDED|95.0|0.359|0.907||À priori threshold for statistical significance is set at 0.1|Regression, Logistic|"This P-value is for the baseline factor Health Status at baseline. Other baseline factors not significant."||Multivariable logistic regression was constructed for the proportion of participants alive and free of respiratory failure on Day 29 as the outcome variable by screening baseline covariates using stepwise technique with an alpha of 0.1 as the entry and stay criterion, and treatment group was forced to remain in the model. Health status at baseline was used as a continuous variable||0.907|0.359|0.0177
92366119|NCT04417257|184634477|SUPERIORITY||Mean Difference (Final Values)|3.9||||0.3537|TWO_SIDED|95.0|-10.2|18.2||One-sided (right tailed)|Fisher Exact||A positive difference favours LAU-7b, a negative difference favours placebo.|Participants in the ITT population with baseline Health Status of 3 + 4 grouped together with imputation of failure for missing Day 29 data||18.2|-10.2|0.3537
92366120|NCT04417257|184634477|SUPERIORITY||Mean Difference (Final Values)|-16.2||||0.959|TWO_SIDED|95.0|-36.6|5.4||one-sided (right tailed)|Fisher Exact||A positive difference favours LAU-7b, a negative difference favours placebo.|Participants in the ITT population with baseline Health Status of 5 and imputation of failure for missing Day 29 data||5.4|-36.6|0.9590
92366121|NCT04417257|184634477|SUPERIORITY||Mean Difference (Final Values)|6.9||||0.0553|TWO_SIDED|95.0|0.4|17.1||one-sided (right tailed)|Fisher Exact||A positive difference favours LAU-7b, a negative difference favours placebo.|Participants in the ITT population with baseline Health Status of 3 + 4 and available Day 29 health status data (no imputation)||17.1|0.4|0.0553
92166953|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest. This model contains an interaction effect with site, because the SITE\*DRUG effect was significant (p=0.03).|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.29||0.02|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df=49.2, t=2.39;|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-I change scores, reporting here information for Day 2.||||0.02
92366122|NCT04417257|184634478|SUPERIORITY||Mean Difference (Net)|2.7||||0.66|TWO_SIDED|95.0|-6.9|13.9||Two-sided test|Fisher Exact||A negative difference favours LAU-7b, a positive difference favours placebo.|ITT population with Day 60 health status/survival data||13.9|-6.9|0.6600
92404513|NCT03038880|184700378|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|4.76|||||TWO_SIDED|80.0|-15.92|25.44|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||25.44|-15.92|
92404514|NCT03038880|184700378|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|5.95|||||TWO_SIDED|80.0|-13.62|25.53|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||25.53|-13.62|
92404515|NCT03038880|184700378|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|-4.17|||||TWO_SIDED|80.0|-24.52|16.19|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||16.19|-24.52|
92366123|NCT04417257|184634478|SUPERIORITY||Mean Difference (Net)|0.5||||1|TWO_SIDED|95.0|-10.6|12.6||Two-sided test|Fisher Exact||A negative difference favours LAU-7b, a positive difference favours placebo.|Per-Protocol population with Day 60 health status/survival data||12.6|-10.6|1.000
92366124|NCT04417257|184634481|SUPERIORITY|||||||0.5459||||||two-sided test|Wilcoxon (Mann-Whitney)|||ITT population, Day 14. The proportional odds assumption of the ordinal logistic regression was not met (P-value of Score test = 0.0180) and a Wilcoxon two sample test was performed.||||0.5459
92366125|NCT04417257|184634481|SUPERIORITY|||||||0.6229||||||two-sided test|Wilcoxon (Mann-Whitney)|||ITT population, Day 29. The proportional odds assumption of the ordinal logistic regression was not met (P-value \<.0001) and a Wilcoxon two sample test was performed.||||0.6229
92366126|NCT04417257|184634482|SUPERIORITY|||||||0.8222||||||two-sided test|Fisher Exact|||Total number of participants in the overall ITT population who had the event prior to or with Day 29 assessment available.||||0.8222
92366127|NCT04417257|184634482|SUPERIORITY|||||||0.0536||||||two-sided test|Fisher Exact|||Total number of participants with Health Status 3 + 4 at baseline who had the event prior to or with Day 29 assessment available.||||0.0536
92366128|NCT04417257|184634482|SUPERIORITY|||||||0.1131||||||two-sided test|Fisher Exact|||Total number of participants with Health Status 5 at baseline who had the event prior to or with Day 29 assessment available.||||0.1131
92366129|NCT04417257|184634484|SUPERIORITY|||||||0.6689||||||two-sided test|Fisher Exact|||Total number of participants in the overall ITT population who had the event prior to or with Day 60 assessment available.||||0.6689
92366130|NCT04417257|184634484|SUPERIORITY|||||||0.0536||||||two-sided test|Fisher Exact|||Total number of participants with Health Status 3 + 4 at baseline who had the event prior to or with Day 60 assessment available.||||0.0536
92366131|NCT04417257|184634484|SUPERIORITY|||||||0.0786||||||two-sided test|Fisher Exact|||Total number of participants with Health Status 5 at baseline who had the event prior to or with Day 60 assessment available.||||0.0786
92366132|NCT04417257|184634486|SUPERIORITY|Two-sided test||||||1|||||||Fisher Exact|||||||1.000
92366133|NCT04417257|184634487|SUPERIORITY|||||||1||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants who had the event prior to or with Day 60 assessment available within each group||||1.000
92366134|NCT04417257|184634487|SUPERIORITY|||||||0.068||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with health status 3 + 4 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.0680
92366135|NCT04417257|184634487|SUPERIORITY|||||||0.0534||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with health status 5 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.0534
92366136|NCT04417257|184634488|SUPERIORITY|||||||0.7923||||||Two-sided test|Fisher Exact|||Calculated based on the total number of participants who had the event prior to or with Day 60 assessment available within each group||||0.7923
92366137|NCT04417257|184634489|SUPERIORITY|||||||0.8886||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants who had the event prior to or with Day 60 assessment available within each group.||||0.8886
92366138|NCT04417257|184634489|SUPERIORITY|||||||0.2735||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with Health Status 3 + 4 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.2735
92366139|NCT04417257|184634489|SUPERIORITY|||||||0.3604||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with Health Status 5 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.3604
92366140|NCT04417257|184634490|SUPERIORITY|||||||1||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants who had the event prior to or with Day 60 assessment available within each group.||||1.000
92404516|NCT03038880|184700378|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|8.93|||||TWO_SIDED|80.0|-10.73|28.59|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||28.59|-10.73|
92404517|NCT03038880|184700380|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|-4.76|||||TWO_SIDED|80.0|-10.72|1.19|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||1.19|-10.72|
92404518|NCT03038880|184700380|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|-3.57|||||TWO_SIDED|80.0|-8.07|0.92|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||0.92|-8.07|
92225346|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.72|=|0.8585|TWO_SIDED|95.0|-3.1|3.7|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 3-- Emraclidine 10 mg versus Placebo||3.7|-3.1|=0.8585
92366141|NCT04417257|184634490|SUPERIORITY|||||||0.0253||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with Health Status 3 + 4 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.0253
92366142|NCT04417257|184634490|SUPERIORITY|||||||0.2729||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with Health Status 5 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.2729
92366143|NCT04417257|184634491|SUPERIORITY|||||||0.646||||||Alpha set at 0.05|Mixed Models Analysis|||Null hypothesis of no difference||||0.6460
92366144|NCT04417257|184634492|SUPERIORITY|||||||0.8722|||||||Log Rank|||If health status was not improved (remains stable or aggravates) by Day 60, it was censored at Day 60. Overall ITT population.||||0.8722
92366145|NCT04417257|184634492|SUPERIORITY|||||||0.539|||||||Log Rank|||If health status was not improved (remains stable or aggravates) by Day 60, it was censored at Day 60. Participants with Health Status 3 + 4 at baseline.||||0.5390
92366146|NCT04417257|184634492|SUPERIORITY|||||||0.2319|||||||Log Rank|||If health status was not improved (remains stable or aggravates) by Day 60, it was censored at Day 60. Participants with Health Status 5 at baseline.||||0.2319
92366147|NCT04417257|184634493|SUPERIORITY|||||||0.9358|||||||Log Rank|||If health status did not reach categories 2 or 1 by Day 60, it was censored at Day 60. Overall ITT population.||||0.9358
92366148|NCT04417257|184634493|SUPERIORITY|||||||0.63|||||||Log Rank|||If health status did not reach categories 2 or 1 by Day 60, it was censored at Day 60. Participants with Health Status 3 + 4 at baseline.||||0.6300
92366149|NCT04417257|184634493|SUPERIORITY|||||||0.655|||||||Log Rank|||If health status did not reach categories 2 or 1 by Day 60, it was censored at Day 60. Participants with Health Status 5 at baseline.||||0.6550
92366150|NCT04417257|184634494|SUPERIORITY|||||||0.9101||||||Two-sided test|Log Rank|||If health status did not reach categories 2 or 1 by Day 60, it was censored at Day 60. Overall ITT population.||||0.9101
92366151|NCT04417257|184634497|SUPERIORITY|||||||0.2706||||||two-sided test|Wilcoxon (Mann-Whitney)|||Overall ITT population. The Kolmogorov-Smirnov test and visual check indicated the normality assumption was rejected, and two-sided Wilcoxon rank sum test was used to obtain the P-value.||||0.2706
92366152|NCT04417257|184634497|SUPERIORITY|||||||0.0974||||||two-sided test|Wilcoxon (Mann-Whitney)|||Participants with Health Status 3 + 4 at baseline. The Kolmogorov-Smirnov test and visual check indicated the normality assumption was rejected, and two-sided Wilcoxon rank sum test was used to obtain the P-value.||||0.0974
92366153|NCT04417257|184634497|SUPERIORITY|||||||0.5549||||||two-sided test|Wilcoxon (Mann-Whitney)|||Participants with Health Status 5 at baseline. The Kolmogorov-Smirnov test and visual check indicated the normality assumption was rejected, and two-sided Wilcoxon rank sum test was used to obtain the P-value.||||0.5549
92366154|NCT04417257|184634498|SUPERIORITY|||||||0.4787||||||Two-sided test|Wilcoxon (Mann-Whitney)|||Overall ITT population. The Kolmogorov-Smirnov test and visual check indicated the normality assumption was rejected, and two-sided Wilcoxon rank sum test was used to obtain the P-value||||0.4787
92366155|NCT04417257|184634500|SUPERIORITY||Least Squares Mean difference|-0.02||||0.4746|TWO_SIDED|95.0|-0.07|0.03|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 14 or end of hospitalization data.||0.03|-0.07|0.4746
92366156|NCT04417257|184634500|SUPERIORITY||Leat Squares Mean difference|-0.01||||0.7445|TWO_SIDED|95.0|-0.06|0.05|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 29.||0.05|-0.06|0.7445
92366157|NCT04417257|184634500|SUPERIORITY||Least Squares Mean difference|-0.01||||0.7105|TWO_SIDED|95.0|-0.07|0.05|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 45.||0.05|-0.07|0.7105
92366158|NCT04417257|184634500|SUPERIORITY||Least Squares Mean difference|-0.01||||0.6424|TWO_SIDED|95.0|-0.07|0.04|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 60.||0.04|-0.07|0.6424
92366159|NCT04417257|184634500|SUPERIORITY||Least Square Means difference|0.05||||0.2789|TWO_SIDED|95.0|-0.04|0.14|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 14 or end of hospitalization data.||0.14|-0.04|0.2789
92366160|NCT04417257|184634500|SUPERIORITY||Least Square Means difference|0.05||||0.2884|TWO_SIDED|95.0|-0.04|0.14|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 29||0.14|-0.04|0.2884
92366161|NCT04417257|184634500|SUPERIORITY||Least Square Means difference|0.06||||0.2058|TWO_SIDED|95.0|-0.03|0.15|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 45||0.15|-0.03|0.2058
92225347|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|1.99|=|0.5521|TWO_SIDED|95.0|-5.1|2.7|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 4-- Emraclidine 30 mg versus Placebo||2.7|-5.1|=0.5521
92366162|NCT04417257|184634500|SUPERIORITY||Least Square Means difference|0.03||||0.516|TWO_SIDED|95.0|-0.06|0.12|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 60||0.12|-0.06|0.5160
92366163|NCT01328743|184634524|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||.04
92366164|NCT01328743|184634525|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<.01
92366165|NCT01328743|184634526|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<.01
92366166|NCT01328743|184634527|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||.48
92366167|NCT01328743|184634528|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||.25
92366168|NCT01328743|184634529|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92404519|NCT03038880|184700380|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|0.0|||||||||||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||||
92404520|NCT03038880|184700380|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|-3.57|||||TWO_SIDED|80.0|-8.07|0.92|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||0.92|-8.07|
92404521|NCT03038880|184700381|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|21.9|||||TWO_SIDED|80.0|0.76|43.05|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||43.05|0.76|
92225348|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|2.0|=|0.754|TWO_SIDED|95.0|-4.6|3.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 4-- Emraclidine 10 mg versus Placebo||3.3|-4.6|=0.7540
92225349|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|2.12|=|0.4842|TWO_SIDED|95.0|-5.7|2.7|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 5-- Emraclidine 30 mg versus Placebo||2.7|-5.7|=0.4842
92366169|NCT01152437|184634535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.122||||0.0735|TWO_SIDED|90.0|0.018|0.844||The statistical analysis is descriptive and exploratory in nature and performed only to provide a statistical framework from which to view the results and plan further studies.|Regression, Logistic|Wald Chi-square test and Confidence Interval from logistic regression stratified by number of lines of palliative chemotherapy.||Null hypothesis is that the objective response rate (ORR) in KRAS wild-type patients treated with afatinib is less than or equal to the ORR in KRAS wild-type patients treated with cetuximab. Sample size is based on a 'pick the winner' approach assuming ORR for cetuximab of 12%, undesirable ORR for afatinib of 11% and desirable ORR for afatinib of 16%. As per 'pick the winner' approach, afatinib would be considered 'the winner' if the ORR for afatinib was greater than the ORR for cetuximab.||0.844|0.018|0.0735
92366170|NCT01152437|184634536|SUPERIORITY_OR_OTHER||Percentage of participants|12.0||||0.6394|TWO_SIDED|90.0|4.9|23.9||The statistical analysis is descriptive and exploratory in nature and performed only to provide a statistical framework from which to view the results and plan further studies.|Exact binomial test|||Null hypothesis is that the disease control rate is 10% in patients with KRAS mutation. Sample size calculation based on a 2-sided exact binomial test at 10% significance level to distinguish between the historical disease control rate of 10% and a desirable disease control rate for afatinib of 25%.||23.9|4.9|0.6394
92366171|NCT01897532|184634547|NON_INFERIORITY|The non-inferiority margin was chosen as 1.3 (FDA Guidance for Industry - Diabetes Mellitus - Evaluating Cardiovascular Risk in New Antidiabetic Therapies to Treat Type 2 Diabetes).|Hazard Ratio (HR)|1.02||||0.0002|TWO_SIDED|95.0|0.89|1.17||p-value for Hazard ratio (HR) ≥1.3 (1-sided)|Regression, Cox|Based on a Cox regression model with terms for treatment group and region.||Cox proportional hazard regression model was performed to compare the effect of linagliptin versus placebo. Model included randomised treatment and geographical region as factors. Breslow's method was used for dealing with ties. First hypothesis (non-inferiority of the primary endpoint) was to be tested at the one-sided alpha-level of 2.5%. In case of significance the next set of hypotheses (two separate hypothesis tests) were to be tested with a sequentially rejective multiple test procedure.||1.17|0.89|0.0002
92404522|NCT03038880|184700381|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|38.57|||||TWO_SIDED|80.0|19.56|57.59|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||57.59|19.56|
92404523|NCT03038880|184700381|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|19.64|||||TWO_SIDED|80.0|-1.14|40.43|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||40.43|-1.14|
92404524|NCT03038880|184700381|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|33.93|||||TWO_SIDED|80.0|14.95|52.91|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||52.91|14.95|
92404525|NCT03038880|184700382|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|0.0|||||||||||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||||
92366172|NCT01897532|184634547|OTHER||Hazard Ratio (HR)|1.02||||0.6301|TWO_SIDED|95.0|0.89|1.17||p-value for HR ≥1.0 (1-sided).|Regression, Cox|Based on a Cox regression model with terms for treatment group and region.||Cox proportional hazard regression model was performed to compare the effect of linagliptin versus placebo. Model included randomised treatment and geographical region as factors. Breslow's method was used for dealing with ties. First hypothesis (non-inferiority of the primary endpoint) was to be tested at the one-sided alpha-level of 2.5%. In case of significance the next set of hypotheses (two separate hypothesis tests) were to be tested with a sequentially rejective multiple test procedure.||1.17|0.89|0.6301
92225350|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|2.13|=|0.6999|TWO_SIDED|95.0|-5.0|3.4|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 5-- Emraclidine 10 mg versus Placebo||3.4|-5.0|=0.6999
92366173|NCT01897532|184634548|OTHER||Hazard Ratio (HR)|1.04||||0.6918|TWO_SIDED|95.0|0.89|1.22||p-value for HR ≥1.0 (1-sided)|Regression, Cox|Based on a Cox regression model with terms for treatment group and region.||Cox proportional hazard regression model was performed to compare the effect of linagliptin versus placebo. Model included randomised treatment and geographical region as factors. Breslow's method was used for dealing with ties. First hypothesis (non-inferiority of the primary endpoint) was to be tested at the one-sided alpha-level of 2.5%. In case of significance the next set of hypotheses (two separate hypothesis tests) were to be tested with a sequentially rejective multiple test procedure.||1.22|0.89|0.6918
92366174|NCT03137771|184634584|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.66|TWO_SIDED|95.0|0.68|1.4|||Log Rank|Two-sided test|Reference level = systemic therapy. Cox proportional hazards model stratified by histology (non-squamous vs squamous) and systemic therapy (immunotherapy-based regimens vs chemotherapy- only regimens).|Based on expected 6- and 12-month PFS rates of approximately 60% and 39% for the standard arm, assuming approximately exponential distributions, at least 138 PFS events are needed to detect a hazard ratio of 0.6 (a hazard reduction of 40%) with 95% power and a one-sided significance level of 0.15. The Cox proportional hazards model is stratified by histology and systemic therapy type. The hazard ratio estimate must be ≤ 0.83 for the study to proceed to the phase III component.||1.40|0.68|0.66
92366175|NCT03052608|184634594|SUPERIORITY||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.191|0.413||The study was to be considered positive if the 1-sided log-rank test for PFS, stratified for baseline stratification factors (ethnicity and brain metastases) was significant at the 0.0081 level at the cutoff date of this report.|one-sided stratified log-rank|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Based on Cox Proportional Hazards model stratified by the presence of brain metastases and ethnic origin at randomization. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Lorlatinib.|The study was designed to test the null hypothesis H0: λ ≥1 versus the alternative hypothesis HA: λ \<1, where λ is the hazard ratio (HR; Lorlatinib/Crizotinib). Evaluation of 177 PFS events was required to have at least 90% power to detect a HR of 0.611 using a one-sided stratified log-rank test at a significance level of 0.025 (one-sided), and a 2-look group-sequential design with a Lan-DeMets (O'Brien-Fleming) α-spending function to determine the efficacy boundaries.||0.413|0.191|<0.0001
92366176|NCT03052608|184634595|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.414|1.249|||||Based on Cox Proportional Hazards model stratified by the presence of brain metastases and ethnic origin at randomization. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Lorlatinib.|||1.249|0.414|
92225351|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.24|=|0.1765|TWO_SIDED|95.0|-7.5|1.4|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||1.4|-7.5|=0.1765
92366177|NCT03052608|184634596|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.144|0.307|||one-sided stratified log-rank|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Based on Cox Proportional Hazards model stratified by the presence of brain metastases and ethnic origin at randomization. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Lorlatinib.|||0.307|0.144|<0.0001
92366178|NCT03052608|184634597|SUPERIORITY||Odds Ratio (OR)|2.254||||0.0005|TWO_SIDED|95.0|1.353|3.891|||Cochran-Mantel-Haenszel|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Odds ratio was estimated using Mantel-Haenszel method. An odds ratio larger than 1 indicates better outcome for Lorlatinib relative to Crizotinib. Exact CI was calculated.|||3.891|1.353|0.0005
92366179|NCT03052608|184634598|SUPERIORITY||Odds Ratio (OR)|2.499||||0.0002|TWO_SIDED|95.0|1.484|4.594|||Cochran-Mantel-Haenszel|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Odds ratio was estimated using Mantel-Haenszel method. An odds ratio larger than 1 indicates better outcome for Lorlatinib relative to Crizotinib. Exact CI was calculated.|||4.594|1.484|0.0002
92366180|NCT03052608|184634599|SUPERIORITY||Odds Ratio (OR)|8.407|||<|0.0001|TWO_SIDED|95.0|2.586|27.233|||Cochran-Mantel-Haenszel|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Odds ratio was estimated using Mantel-Haenszel method. An odds ratio larger than 1 indicates better outcome for Lorlatinib relative to Crizotinib. Exact CI was calculated.|||27.233|2.586|<0.0001
92366181|NCT03052608|184634600|SUPERIORITY||Hazard Ratio (HR)|0.07|||<|0.0001|TWO_SIDED|95.0|0.026|0.17|||one-sided stratified log-rank|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Based on Cox Proportional Hazards model stratified by the presence of brain metastases and ethnic origin at randomization. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Lorlatinib.|||0.170|0.026|<0.0001
92225352|NCT05227690|184352089|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.26|=|0.6007|TWO_SIDED|95.0|-5.6|3.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 6-- Emraclidine 10 mg versus Placebo||3.3|-5.6|=0.6007
92225353|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.061|=|0.5822|TWO_SIDED|95.0|-0.15|0.09|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 1-- Emraclidine 30 mg versus Placebo||0.09|-0.15|=0.5822
92225354|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.061|=|0.9244|TWO_SIDED|95.0|-0.11|0.13|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 1-- Emraclidine 10 mg versus Placebo||0.13|-0.11|=0.9244
92225355|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.088|=|0.9348|TWO_SIDED|95.0|-0.17|0.18|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 2-- Emraclidine 30 mg versus Placebo||0.18|-0.17|=0.9348
92366182|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|4.65||||0.0096|TWO_SIDED|95.0|1.14|8.16|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Global QOL. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||8.16|1.14|0.0096
92366183|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|2.02||||0.1897|TWO_SIDED|95.0|-1.01|5.05|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Physical Functioning. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||5.05|-1.01|0.1897
92366184|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|2.09||||0.2999|TWO_SIDED|95.0|-1.87|6.04|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Role Functioning. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||6.04|-1.87|0.2999
92366185|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|2.58||||0.0553|TWO_SIDED|95.0|-0.06|5.22|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Emotional Functioning. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||5.22|-0.06|0.0553
92225356|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.089|=|0.716|TWO_SIDED|95.0|-0.21|0.14|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 2-- Emraclidine 10 mg versus Placebo||0.14|-0.21|=0.7160
92225357|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.1|=|0.6883|TWO_SIDED|95.0|-0.24|0.16|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.16|-0.24|=0.6883
92225358|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.1|=|0.5973|TWO_SIDED|95.0|-0.14|0.25|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 3-- Emraclidine 10 mg versus Placebo||0.25|-0.14|=0.5973
92366186|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|-3.18||||0.0588|TWO_SIDED|95.0|-6.47|0.12|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Cognitive Functioning. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||0.12|-6.47|0.0588
92366187|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|2.27||||0.2118|TWO_SIDED|95.0|-1.3|5.85|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Social Functioning. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||5.85|-1.30|0.2118
92366188|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|-5.67||||0.0032|TWO_SIDED|95.0|-9.42|-1.92|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Fatigue. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-1.92|-9.42|0.0032
92225359|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.11|=|0.1392|TWO_SIDED|95.0|-0.38|0.05|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 4-- Emraclidine 30 mg versus Placebo||0.05|-0.38|=0.1392
92225360|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.111|=|0.9421|TWO_SIDED|95.0|-0.21|0.23|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 4-- Emraclidine 10 mg versus Placebo||0.23|-0.21|=0.9421
92225361|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.116|=|0.5431|TWO_SIDED|95.0|-0.3|0.16|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 5-- Emraclidine 30 mg versus Placebo||0.16|-0.30|=0.5431
92225362|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.117|=|0.816|TWO_SIDED|95.0|-0.2|0.26|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 5-- Emraclidine 10 mg versus Placebo||0.26|-0.20|=0.8160
92225363|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.124|=|0.2534|TWO_SIDED|95.0|-0.39|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.10|-0.39|=0.2534
92225364|NCT05227690|184352090|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.125|=|0.6774|TWO_SIDED|95.0|-0.3|0.19|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 6-- Emraclidine 10 mg versus Placebo||0.19|-0.30|=0.6774
92225365|NCT05227690|184352091|SUPERIORITY|Odds ratio, 95% confidence interval, and p-value were from a logistic regression with treatment group, geographic region and Baseline value as a covariate.|Odds Ratio|1.9|||=|0.0904|TWO_SIDED|95.0|0.9|3.99|||Regression, Logistic|||Emraclidine 30 mg versus Placebo||3.99|0.90|=0.0904
92404526|NCT03038880|184700382|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|3.57|||||TWO_SIDED|80.0|-0.92|8.07|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||8.07|-0.92|
92404527|NCT03038880|184700382|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|4.76|||||TWO_SIDED|80.0|-1.19|10.72|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||10.72|-1.19|
92225366|NCT05227690|184352091|SUPERIORITY|Odds ratio, 95% confidence interval, and p-value were from a logistic regression with treatment group, geographic region and Baseline value as a covariate.|Odds Ratio|1.96|||=|0.0756|TWO_SIDED|95.0|0.93|4.13|||Regression, Logistic|||Emraclidine 10 mg versus Placebo||4.13|0.93|=0.0756
92225367|NCT05227690|184352098|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.05|=|0.2418|TWO_SIDED|95.0|0.0|0.2|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.2|0.0|=0.2418
92225368|NCT05227690|184352098|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.572|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 3-- Emraclidine 10 mg versus Placebo||0.1|-0.1|=0.5720
92225369|NCT05227690|184352098|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06|=|0.7459|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.1|-0.1|=0.7459
92404528|NCT03038880|184700382|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|3.57|||||TWO_SIDED|80.0|-0.92|8.07|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||8.07|-0.92|
92404529|NCT03038880|184700383|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|0.45|||||TWO_SIDED|80.0|-29.81|30.71|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||30.71|-29.81|
92404530|NCT03038880|184700383|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|14.68|||||TWO_SIDED|80.0|-14.29|43.65|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||43.65|-14.29|
92225370|NCT05227690|184352098|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06|=|0.6729|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 6-- Emraclidine 10 mg versus Placebo||0.1|-0.1|=0.6729
92225371|NCT05227690|184352099|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.06|=|0.3783|TWO_SIDED|95.0|-0.1|0.2|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.2|-0.1|=0.3783
92225372|NCT05227690|184352099|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06|=|0.2242|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 3-- Emraclidine 10 mg versus Placebo||0.0|-0.2|=0.2242
92225373|NCT05227690|184352099|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.8626|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.1|-0.1|=0.8626
92225374|NCT05227690|184352099|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.6106|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 6-- Emraclidine 10 mg versus Placebo||0.1|-0.1|=0.6106
92225375|NCT05227690|184352100|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03|=|0.4219|TWO_SIDED|95.0|0.0|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.1|0.0|=0.4219
92225376|NCT05227690|184352100|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03|=|0.3933|TWO_SIDED|95.0|0.0|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 3-- Emraclidine 10 mg versus Placebo||0.1|0.0|=0.3933
92225377|NCT05227690|184352100|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02|=|0.7366|TWO_SIDED|95.0|0.0|0.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.0|0.0|=0.7366
92225378|NCT05227690|184352100|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02|=|0.4639|TWO_SIDED|95.0|-0.1|0.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 6-- Emraclidine 10 mg versus Placebo||0.0|-0.1|=0.4639
92366189|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|-7.86|||<|0.0001|TWO_SIDED|95.0|-9.86|-5.86|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Nausea and Vomiting. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-5.86|-9.86|<0.0001
92366190|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|1.16||||0.531|TWO_SIDED|95.0|-2.49|4.82|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Pain. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||4.82|-2.49|0.5310
92366191|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|1.72||||0.3602|TWO_SIDED|95.0|-1.98|5.43|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Dyspnoea. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||5.43|-1.98|0.3602
92366192|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|-7.95|||<|0.0001|TWO_SIDED|95.0|-11.25|-4.64|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Insomnia. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-4.64|-11.25|<0.0001
92366193|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|-9.21|||<|0.0001|TWO_SIDED|95.0|-11.8|-6.62|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Appetite Loss. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-6.62|-11.80|<0.0001
92225379|NCT02634580|184352103|SUPERIORITY||LS Mean Treatment Difference|-39.35|STANDARD_ERROR_OF_MEAN|3.93|<|0.0001|TWO_SIDED|95.0|-47.23|-31.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-31.48|-47.23|<0.0001
92225380|NCT02634580|184352104|SUPERIORITY||LS Mean Treatment Difference|-40.14|STANDARD_ERROR_OF_MEAN|4.26|<|0.0001|TWO_SIDED|95.0|-48.68|-31.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-31.60|-48.68|< 0.0001
92225381|NCT02634580|184352105|SUPERIORITY||LS Mean Treatment Difference|-77.6|STANDARD_ERROR_OF_MEAN|8.1|<|0.0001|TWO_SIDED|95.0|-93.9|-61.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-61.3|-93.9|<0.0001
92225382|NCT02634580|184352106|SUPERIORITY||LS Mean Treatment Difference|-79.4|STANDARD_ERROR_OF_MEAN|8.7|<|0.0001|TWO_SIDED|95.0|-96.7|-62.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-62.0|-96.7|<0.0001
92225383|NCT02634580|184352107|SUPERIORITY||Treatment Difference|56.41|||<|0.0001|TWO_SIDED|95.0|34.1|70.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Ezetimibe|||70.70|34.10|<0.0001
92404531|NCT03038880|184700383|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|-4.85|||||TWO_SIDED|80.0|-30.57|20.87|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||20.87|-30.57|
92225384|NCT02634580|184352108|SUPERIORITY||Treatment Difference|52.63|||<|0.0001|TWO_SIDED|95.0|30.36|67.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Ezetimibe|||67.52|30.36|< 0.0001
92225385|NCT02634580|184352109|SUPERIORITY||LS Mean Treatment Difference|-25.44|STANDARD_ERROR_OF_MEAN|2.68|<|0.0001|TWO_SIDED|95.0|-30.8|-20.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-20.08|-30.80|<0.0001
92225386|NCT02634580|184352110|SUPERIORITY||LS Mean Treatment Difference|-25.83|STANDARD_ERROR_OF_MEAN|2.89|<|0.0001|TWO_SIDED|95.0|-31.63|-20.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-20.04|-31.63|<0.0001
92404532|NCT03038880|184700383|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|1.12|||||TWO_SIDED|80.0|-23.57|25.8|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||25.80|-23.57|
92225387|NCT02634580|184352111|SUPERIORITY||LS Mean Treatment Difference|-33.53|STANDARD_ERROR_OF_MEAN|3.42|<|0.0001|TWO_SIDED|95.0|-40.38|-26.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-26.68|-40.38|< 0.0001
92225388|NCT02634580|184352112|SUPERIORITY||LS Mean Treatment Difference|-33.44|STANDARD_ERROR_OF_MEAN|3.75|<|0.0001|TWO_SIDED|95.0|-40.94|-25.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-25.94|-40.94|<0.0001
92366194|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|-4.93||||0.0198|TWO_SIDED|95.0|-9.07|-0.79|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Constipation. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-0.79|-9.07|0.0198
92225389|NCT02634580|184352113|SUPERIORITY||LS Mean Treatment Difference|-35.67|STANDARD_ERROR_OF_MEAN|3.31|<|0.0001|TWO_SIDED|95.0|-42.3|-29.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-29.04|-42.30|< 0.0001
92366195|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|-12.03|||<|0.0001|TWO_SIDED|95.0|-15.49|-8.58|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Diarrhea. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-8.58|-15.49|<0.0001
92366196|NCT03052608|184634615|SUPERIORITY||Mean Difference (Net)|-1.04||||0.5947|TWO_SIDED|95.0|-4.9|2.82|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Financial Difficulties. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||2.82|-4.90|0.5947
92404533|NCT03038880|184700384|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|-12.23|||||TWO_SIDED|80.0|-36.6|12.15|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||12.15|-36.60|
92225390|NCT02634580|184352114|SUPERIORITY||LS Mean Treatment Difference|-36.6|STANDARD_ERROR_OF_MEAN|3.68|<|0.0001|TWO_SIDED|95.0|-43.98|-29.22||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-29.22|-43.98|<0.0001
92225391|NCT02634580|184352115|SUPERIORITY||LS Mean Treatment Difference|-28.61|STANDARD_ERROR_OF_MEAN|3.32|<|0.0001|TWO_SIDED|95.0|-35.26|-21.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-21.97|-35.26|< 0.0001
92225392|NCT02634580|184352116|SUPERIORITY||LS Mean Treatment Difference|-27.05|STANDARD_ERROR_OF_MEAN|3.47|<|0.0001|TWO_SIDED|95.0|-34.0|-20.09||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-20.09|-34.00|< 0.0001
92225393|NCT02634580|184352117|SUPERIORITY||LS Mean Treatment Difference|-37.07|STANDARD_ERROR_OF_MEAN|3.28|<|0.0001|TWO_SIDED|95.0|-43.65|-30.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-30.50|-43.65|<0.0001
92225394|NCT02634580|184352118|SUPERIORITY||LS Mean Treatment Difference|-36.29|STANDARD_ERROR_OF_MEAN|3.54|<|0.0001|TWO_SIDED|95.0|-43.39|-29.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-29.20|-43.39|<0.0001
92225395|NCT02634580|184352119|SUPERIORITY||LS Mean Treatment Difference|-31.13|STANDARD_ERROR_OF_MEAN|5.34|<|0.0001|TWO_SIDED|95.0|-41.83|-20.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-20.43|-41.83|<0.0001
92225396|NCT02634580|184352120|SUPERIORITY||LS Mean Treatment Difference|-31.21|STANDARD_ERROR_OF_MEAN|6.17|<|0.0001|TWO_SIDED|95.0|-43.57|-18.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-18.84|-43.57|<0.0001
92225397|NCT02634580|184352121|SUPERIORITY||LS Mean Treatment Difference|3.49|STANDARD_ERROR_OF_MEAN|7.31||0.63|TWO_SIDED|95.0|-11.15|18.13||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||18.13|-11.15|0.63
92225398|NCT02634580|184352122|SUPERIORITY||LS Mean Treatment Difference|11.79|STANDARD_ERROR_OF_MEAN|9.52||0.22|TWO_SIDED|95.0|-7.29|30.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||30.87|-7.29|0.22
92225399|NCT02634580|184352123|SUPERIORITY||LS Mean Treatment Difference|7.96|STANDARD_ERROR_OF_MEAN|3.08||0.012|TWO_SIDED|95.0|1.78|14.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||14.14|1.78|0.012
92225400|NCT02634580|184352124|SUPERIORITY||LS Mean Treatment Difference|5.59|STANDARD_ERROR_OF_MEAN|3.2||0.086|TWO_SIDED|95.0|-0.82|12.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||12.00|-0.82|0.086
92225401|NCT02634580|184352125|SUPERIORITY||LS Mean Treatment Difference|-0.67|STANDARD_ERROR_OF_MEAN|7.26||0.93|TWO_SIDED|95.0|-15.22|13.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||13.87|-15.22|0.93
92225402|NCT02634580|184352126|SUPERIORITY||LS Mean Treatment Difference|7.64|STANDARD_ERROR_OF_MEAN|9.88||0.44|TWO_SIDED|95.0|-12.15|27.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||27.43|-12.15|0.44
92366197|NCT03052608|184634616|SUPERIORITY||Mean Difference (Net)|0.55||||0.7254|TWO_SIDED|95.0|-2.51|3.6|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Dyspnoea. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||3.60|-2.51|0.7254
92225403|NCT02653768|184352136|OTHER|As noted above, a statistical test was not specified at this time point. Rather, the data for all time points were included in the model and are presented here descriptively.|Mean Difference (Final Values)|-5.1|||||TWO_SIDED|95.0|-8.2|-2.0||||||This analysis of between-group difference in change from baseline to 3-month follow-up. We have not included a p-value because there was no pre-specified hypothesis for this time point. Rather, these are additional data obtained from the overall model, for which the 9-month time point was primary and included a pre-specified hypothesis.||-2.0|-8.2|
92404534|NCT03038880|184700384|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|4.98|||||TWO_SIDED|80.0|-18.5|28.45|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||28.45|-18.50|
92225404|NCT02653768|184352136|OTHER|As noted above, a statistical test was not specified at this time point. Rather, the data for all time points were included in the model and are presented here descriptively.|Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-5.2|2.3||||||This is the analysis of between-group difference in change from baseline to 6-month follow-up. We have not included a p-value because there was no pre-specified hypothesis for this time point. Rather, these are additional data obtained from the overall model, for which the 9-month time point was primary and included a pre-specified hypothesis.||2.3|-5.2|
92225405|NCT02653768|184352136|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.0003|TWO_SIDED|95.0|-10.5|-3.2|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 9-month follow-up. This is the primary outcome assessment time point.||-3.2|-10.5|0.0003
92225406|NCT02653768|184352137|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.43|TWO_SIDED|95.0|-0.6|1.3|||Mixed Models Analysis|||This is the analysis between-group difference in change from baseline to 9-month follow-up for the 30 second chair stand.||1.3|-0.6|0.43
92225407|NCT02653768|184352138|OTHER||Mean Difference (Final Values)|-2.3||||0.23|TWO_SIDED|95.0|-6.1|1.5|||Mixed Models Analysis|||||1.5|-6.1|0.23
92225408|NCT02397473|184352148|SUPERIORITY||LSMean Difference|-3.47|STANDARD_ERROR_OF_MEAN|1.63||0.036|TWO_SIDED|95.0|-6.72|-0.23|||Mixed Models Analysis|||||-0.23|-6.72|0.036
92225409|NCT02397473|184352149|SUPERIORITY|||||||0.046|||||||ANCOVA|Koch's nonparametric randomization-based ANCOVA.||||||0.046
92225410|NCT02397473|184352150|SUPERIORITY||LSMean Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.2||0.493|TWO_SIDED|95.0|-3.23|1.57|||Mixed Models Analysis|||||1.57|-3.23|0.493
92225411|NCT02397473|184352151|SUPERIORITY||Odds Ratio (OR)|3.046||||0.016|TWO_SIDED|95.0|1.242|7.469|||Mixed Models Analysis|||||7.469|1.242|0.016
92225412|NCT02397473|184352152|SUPERIORITY||Odds Ratio (OR)|1.312||||0.575|TWO_SIDED|95.0|0.502|3.426|||Mixed Models Analysis|||||3.426|.502|0.575
92225413|NCT02397473|184352153|SUPERIORITY||Odds Ratio (OR)|0.965||||0.91|TWO_SIDED|95.0|0.512|1.819|||Mixed Models Analysis|Pseudo-likelihood-based repeated measures.||||1.819|.512|0.910
92225414|NCT02397473|184352154|SUPERIORITY||Odds Ratio (OR)|0.929||||0.841|TWO_SIDED|95.0|0.449|1.923|||Mixed Models Analysis|Pseudolikelihood-based repeated measures model||||1.923|0.449|0.841
92225415|NCT01970176|184352188|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
92225416|NCT01970176|184352189|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
92225417|NCT01970176|184352190|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92404535|NCT03038880|184700384|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|-8.64|||||TWO_SIDED|80.0|-30.42|13.14|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||13.14|-30.42|
92225418|NCT01415752|184352254|SUPERIORITY|||||||0.25||||||one-sided stratified log-rank test|Log Rank|one-sided stratified log-rank test||||||0.25
92225419|NCT01415752|184352255|SUPERIORITY|||||||0.178||||||one-sided stratified log-rank test|Log Rank|one-sided stratified log-rank test||||||0.178
92225420|NCT03083886|184352280|SUPERIORITY||Risk Ratio (RR)|0.93||||0.04|TWO_SIDED|95.0|0.87|0.997|||GEE with log link and Poisson errors|||||.997|.87|.04
92225421|NCT03083886|184352280|SUPERIORITY||Risk Ratio (RR)|1.4|||<|0.001|TWO_SIDED|95.0|1.35|1.45|||GEE with log link and Poisson errors|||||1.45|1.35|<0.001
92225422|NCT03083886|184352281|SUPERIORITY||Risk Difference (RD)|-5.8|||<|0.001|TWO_SIDED|95.0|-7.7|-3.9|||GEE with identity link and normal errors|||||-3.9|-7.7|<0.001
92225423|NCT03083886|184352281|SUPERIORITY||Risk Difference (RD)|-4.3|||<|0.001|TWO_SIDED|95.0|-5.9|-2.6|||GEE with identity link and normal errors|||||-2.6|-5.9|<0.001
92225424|NCT03083886|184352282|SUPERIORITY||Risk Difference (RD)|-7.5|||<|0.001|TWO_SIDED|95.0|-9.4|-5.7|||GEE with identity link and normal errors|||||-5.7|-9.4|<0.001
92225425|NCT03083886|184352282|SUPERIORITY||Risk Difference (RD)|-6.7|||<|0.001|TWO_SIDED|95.0|-8.4|-5.0|||GEE with identity link and normal errors|||||-5.0|-8.4|<0.001
92225426|NCT03083886|184352283|SUPERIORITY||Risk Difference (RD)|4.7|||<|0.001|TWO_SIDED|95.0|2.6|6.8|||GEE with identity link and normal errors|||||6.8|2.6|<0.001
92225427|NCT03083886|184352283|SUPERIORITY||Risk Difference (RD)|6.0|||<|0.001|TWO_SIDED|95.0|4.1|7.9|||GEE with identity link and normal errors|||||7.9|4.1|<0.001
92225428|NCT03083886|184352284|SUPERIORITY||Risk Difference (RD)|6.8|||<|0.001|TWO_SIDED|95.0|5.0|8.7|||GEE with identity link and normal errors|||||8.7|5.0|<0.001
92225429|NCT03083886|184352284|SUPERIORITY||Risk Difference (RD)|6.7|||<|0.001|TWO_SIDED|95.0|5.0|8.4|||GEE with identity link and normal errors|||||8.4|5.0|<0.001
92225430|NCT01562548|184352305|SUPERIORITY_OR_OTHER||Least Squares Means Difference|-0.21||||0.68|TWO_SIDED|95.0|-1.23|0.8||P-value was associated with t-test for difference of LS means|t-test, 2 sided|The model included factors for treatment (as a fixed effect) and site (as a random effect).|Least Square mean from Mixed Model including factors for treatment (as a fixed effect) and site (as a random effect). Difference was First named treatment - second named treatment|Null hypotheses was tested as: H01: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 600mg and placebo. H02: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and placebo. H03: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and Guaifenesin 600mg.||0.80|-1.23|0.68
92225431|NCT01562548|184352305|SUPERIORITY_OR_OTHER||Least Squares Means Difference|0.35||||0.52|TWO_SIDED|95.0|-0.72|1.42||P-value associated with t-test for difference of LS means|t-test, 2 sided||Least Square mean from Mixed Model including factors for treatment (as a fixed effect) and site (as a random effect). Difference was First named treatment - second named treatment|Null hypotheses was tested as: H01: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 600mg and placebo. H02: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and placebo. H03: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and Guaifenesin 600mg.||1.42|-0.72|0.52
92404536|NCT03038880|184700384|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|7.36|||||TWO_SIDED|80.0|-13.65|28.37|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||28.37|-13.65|
92225432|NCT01562548|184352305|SUPERIORITY_OR_OTHER||Least Squares Means Difference|0.24||||0.58|TWO_SIDED|95.0|-0.64|1.13||P-value associated with t-test for difference of LS means|t-test, 2 sided||Least Square mean from Mixed Model including factors for treatment (as a fixed effect) and site (as a random effect). Difference was Second named treatment - first named treatment|Null hypotheses was tested as: H01: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 600mg and placebo. H02: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and placebo. H03: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and Guaifenesin 600mg.||1.13|-0.64|0.58
92225433|NCT03066102|184352351|OTHER|||||||0.227||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||The effects of muscle fatigue on reposition error of scapular elevation. Muscle fatigue would increase reposition error during scapular elevation. One-way repeated measures analysis of variance.||||0.227
92225434|NCT03066102|184352351|OTHER|||||||0.764||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||The effects of muscle fatigue on reposition error of scapular protraction. Muscle fatigue would increase reposition error during scapular protraction. One-way repeated measures analysis of variance.||||0.764
92225435|NCT03066102|184352352|OTHER|||||||0.413||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of upper trapezius during scapular elevation.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.413
92225436|NCT03066102|184352352|OTHER|||||||0.984||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of lower trapezius during scapular elevation.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.984
92225437|NCT03066102|184352352|OTHER|||||||0.006||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of serratus anterior during scapular elevation.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.006
92225438|NCT03066102|184352352|OTHER|||||||0.154||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of upper trapezius during scapular protraction.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.154
92225439|NCT03066102|184352352|OTHER|||||||0.096||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of lower trapezius during scapular protraction.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.096
92225440|NCT03066102|184352352|OTHER|||||||0.037||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of serratus anterior during scapular protraction.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.037
92225441|NCT03066102|184352353|OTHER|||||||8.5e-05||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle strength of serratus anterior during maximum voluntary isometric muscle contraction.~Muscle fatigue would decrease muscle strength during maximum voluntary isometric muscle contraction.~One-way repeated measures analysis of variance."||||0.000085
92225442|NCT03066102|184352353|OTHER|||||||0.037||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle strength of upper trapezius during maximum voluntary isometric muscle contraction.~Muscle fatigue would decrease muscle strength during maximum voluntary isometric muscle contraction.~One-way repeated measures analysis of variance."||||0.037
92225443|NCT03066102|184352353|OTHER|||||||0.382||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle strength of lower trapezius during maximum voluntary isometric muscle contraction.~Muscle fatigue would decrease muscle strength during maximum voluntary isometric muscle contraction.~One-way repeated measures analysis of variance."||||0.382
92225444|NCT03066102|184352354|OTHER|||||||0.000467||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||The effects of muscle fatigue on scapular posterior tilt during scaption. Muscle fatigue would change scapular kinematics during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on kinematics changed of scapular posterior tilt during each angle of scaption.||||0.000467
92366198|NCT03052608|184634616|SUPERIORITY||Mean Difference (Net)|-4.55||||0.0115|TWO_SIDED|95.0|-8.06|-1.03|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Coughing. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-1.03|-8.06|0.0115
92225445|NCT03066102|184352354|OTHER|||||||0.093||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during ascending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.093
92225446|NCT03066102|184352354|OTHER|||||||0.062||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during ascending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.062
92225447|NCT03066102|184352354|OTHER|||||||0.04||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during ascending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.04
92404537|NCT03926611|184700402|SUPERIORITY|LOU064 10 mg q.d.|LS Mean|-13.66|STANDARD_ERROR_OF_MEAN|2.334|<|0.0001|TWO_SIDED|90.0|-17.51|-9.81|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-9.81|-17.51|<0.0001
92225448|NCT03066102|184352354|OTHER|||||||0.000147||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during ascending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.000147
92225449|NCT03066102|184352354|OTHER|||||||1.2e-05||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during descending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.000012
92225450|NCT03066102|184352354|OTHER|||||||0.007||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during descending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.007
92225451|NCT03066102|184352354|OTHER|||||||0.059||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during descending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.059
92225452|NCT03066102|184352354|OTHER|||||||0.032||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during descending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.032
92225453|NCT03066102|184352354|OTHER|||||||1.5e-05||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||The effects of muscle fatigue on scapular internal rotation during scaption Muscle fatigue would change scapular kinematics during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on kinematics changed of scapular internal rotation during each angle of scaption.||||0.000015
92225454|NCT03066102|184352354|OTHER|||||||0.296||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during ascending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.296
92225455|NCT03066102|184352354|OTHER|||||||0.457||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during ascending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.457
92225456|NCT03066102|184352354|OTHER|||||||0.311||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during ascending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.311
92225457|NCT03066102|184352354|OTHER|||||||0.004||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during ascending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.004
92225458|NCT03066102|184352354|OTHER|||||||0.002||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during descending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.002
92225459|NCT03066102|184352354|OTHER|||||||0.137||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during descending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.137
92225460|NCT03066102|184352354|OTHER|||||||0.636||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during descending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.636
92225461|NCT03066102|184352354|OTHER|||||||0.406||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during descending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.406
92225462|NCT03066102|184352354|OTHER|||||||0.001||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||The effects of muscle fatigue on scapular upward rotation during scaption. Muscle fatigue would change scapular kinematics during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on kinematics changed of scapular upward rotation during each angle of scaption.||||0.001
92225463|NCT03066102|184352354|OTHER|||||||0.65||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during ascending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.650
92225464|NCT03066102|184352354|OTHER|||||||0.141||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during ascending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.141
92225465|NCT03066102|184352354|OTHER|||||||0.021||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during ascending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.021
92225466|NCT03066102|184352354|OTHER|||||||0.005||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during ascending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.005
92225467|NCT03066102|184352354|OTHER|||||||0.083||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during descending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.083
92225468|NCT03066102|184352354|OTHER|||||||0.389||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during descending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.389
92225469|NCT03066102|184352354|OTHER|||||||0.542||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during descending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.542
92225470|NCT03066102|184352354|OTHER|||||||0.263||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during descending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.263
92225471|NCT03066102|184352355|OTHER|||||||0.331||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of upper trapezius during scaption.~Muscle fatigue would change muscle activation during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on muscle activation changed of upper trapezius during each angle of scaption."||||0.331
92225472|NCT03066102|184352355|OTHER|||||||0.627||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of lower trapezius during scaption.~Muscle fatigue would change muscle activation during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on muscle activation changed of lower trapezius during each angle of scaption."||||0.627
92225473|NCT03066102|184352355|OTHER|||||||0.042||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of serratus anterior during scaption.~Muscle fatigue would change muscle activation during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on muscle activation changed of serratus anterior during each angle of scaption."||||0.042
92225474|NCT03066102|184352355|OTHER|||||||0.021||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during ascending 30\~60 degree of scaption.~One-way repeated measures analysis of variance."||||0.021
92225475|NCT03066102|184352355|OTHER|||||||0.018||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during ascending 60\~90 degree of scaption.~One-way repeated measures analysis of variance."||||0.018
92225476|NCT03066102|184352355|OTHER|||||||0.002||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during ascending 90\~120 degree of scaption.~One-way repeated measures analysis of variance."||||0.002
92225477|NCT03066102|184352355|OTHER|||||||0.002||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during descending 120\~90 degree of scaption.~One-way repeated measures analysis of variance."||||0.002
92225478|NCT03066102|184352355|OTHER|||||||0.035||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during descending 90\~60 degree of scaption.~One-way repeated measures analysis of variance."||||0.035
92225479|NCT03066102|184352355|OTHER|||||||0.05||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during descending 60\~30 degree of scaption.~One-way repeated measures analysis of variance."||||0.05
92225480|NCT03066102|184352356|OTHER|||||||0.5||||||The level of statistical significance was set at P \< 0.05|ANOVA|||"The effects of muscle fatigue on muscle onset timing of upper trapezius during scaption.~Muscle fatigue would change muscle onset timing during scaption. One-way repeated measures analysis of variance."||||0.5
92225481|NCT03066102|184352356|OTHER|||||||0.843||||||The level of statistical significance was set at P \< 0.05|ANOVA|||"The effects of muscle fatigue on muscle onset timing of lower trapezius during scaption.~Muscle fatigue would change muscle onset timing during scaption. One-way repeated measures analysis of variance."||||0.843
92225482|NCT03066102|184352356|OTHER|||||||0.466||||||The level of statistical significance was set at P \< 0.05|ANOVA|||"The effects of muscle fatigue on muscle onset timing of serratus anterior during scaption.~Muscle fatigue would change muscle onset timing during scaption. One-way repeated measures analysis of variance."||||0.466
92225483|NCT01496066|184352360|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<.0001
92225484|NCT01496066|184352361|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<.0001
92225485|NCT01496066|184352362|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<.0001
92225486|NCT01496066|184352363|SUPERIORITY|||||||0.0318|||||||t-test, 2 sided|||||||.0318
92225487|NCT01496066|184352364|EQUIVALENCE|a two-group t-test of equivalence in means was used|Mean Difference (Final Values)|-0.04|||||TWO_SIDED|99.0|-0.06|-0.02||||||||-0.02|-0.06|
92225488|NCT01340209|184352366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.048||0.7971|TWO_SIDED|95.0|-0.082|0.106|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||0.106|-0.082|0.7971
92225489|NCT01340209|184352366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.048||0.0203|TWO_SIDED|95.0|0.018|0.207|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 5 μg minus placebo||0.207|0.018|0.0203
92225490|NCT01340209|184352367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.037|STANDARD_ERROR_OF_MEAN|0.053||0.4944|TWO_SIDED|95.0|-0.141|0.068|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||0.068|-0.141|0.4944
92225491|NCT01340209|184352367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.054||0.127|TWO_SIDED|95.0|-0.023|0.188|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 5 μg minus placebo||0.188|-0.023|0.1270
92225492|NCT01340209|184352368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.498|STANDARD_ERROR_OF_MEAN|12.282||0.9677|TWO_SIDED|95.0|-23.634|24.63|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||24.630|-23.634|0.9677
92225493|NCT01340209|184352368|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|34.176|STANDARD_ERROR_OF_MEAN|12.346||0.0058|TWO_SIDED|95.0|9.919|58.432|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium Respimat 5 μg minus placebo||58.432|9.919|0.0058
92225494|NCT01340209|184352369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.646|STANDARD_ERROR_OF_MEAN|9.182||0.3468|TWO_SIDED|95.0|-9.388|26.68|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||26.680|-9.388|0.3468
92225495|NCT01340209|184352369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.216|STANDARD_ERROR_OF_MEAN|9.238||0.5013||95.0|-11.927|24.359|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 5 μg minus placebo||24.359|-11.927|0.5013
92225496|NCT01340209|184352370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.458|STANDARD_ERROR_OF_MEAN|9.196||0.2132|TWO_SIDED|95.0|-6.601|29.517|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||29.517|-6.601|0.2132
92225497|NCT01340209|184352370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.398|STANDARD_ERROR_OF_MEAN|9.245||0.0766|TWO_SIDED|95.0|-1.759|34.555|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 5 μg minus placebo||34.555|-1.759|0.0766
92225498|NCT01340209|184352371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.601|STANDARD_ERROR_OF_MEAN|1.038||0.5629|TWO_SIDED|95.0|-2.637|1.436|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||1.436|-2.637|0.5629
92225499|NCT01340209|184352371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.564|STANDARD_ERROR_OF_MEAN|1.038||0.5871|TWO_SIDED|95.0|-1.473|2.601|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 5 μg minus placebo||2.601|-1.473|0.5871
92225500|NCT03237065|184352381|SUPERIORITY||Risk Difference (RD)|-65.8|||<|0.0001|TWO_SIDED|95.0|-76.6|-49.8|||Cochran-Mantel-Haenszel|Rate difference with 95% Newcombe confidence intervals (CI) adjusted for stratum, using the Cochran-Mantel-Haenszel method.|Iron isomaltoside/ferric derisomaltose was compared to ferric carboxymaltose by estimation of the risk difference and the associated 95% CI, adjusting for strata (underlying disease and screening s-phosphate) using the Cochran-Mantel-Haenszel method.|"Power:~The power was set to 80%. Assuming incidences of 15% for iron isomaltoside/ferric derisomaltose and 40% for ferric carboxymaltose, 49 subjects in each treatment group were required to detect a difference between the treatment groups. The significance level was set to 5%."||-49.8|-76.6|<0.0001
92225501|NCT03237065|184352382|SUPERIORITY|||||||0.0511|||||||Log Rank|||The time with hypophosphatemia from baseline to day 35 was estimated by a Kaplan- Meier plot. The treatment groups were compared by a log-rank test. Only subjects who had one or more s-phosphate value(s) \<2 mg/dL were included.||||0.0511
92225502|NCT03237065|184352383|SUPERIORITY||Risk Difference (RD)|-44.6|||<|0.0001|TWO_SIDED|95.0|-57.7|-31.6|||Cochran-Mantel-Haenszel|||Iron isomaltoside/ferric derisomaltose was compared to ferric carboxymaltose by estimation of the risk difference and the associated 95 % CI, adjusting for strata (type of underlying disease (women with IDA due to gynaecological blood losses; yes/no) and screening s-phosphate level (\< or ≥ 3.5 mg/dL)) using the Cochran-Mantel-Haenszel method.||-31.6|-57.7|<0.0001
92225503|NCT03237065|184352384|SUPERIORITY||Mean Difference (Final Values)|0.46|||<|0.0001|TWO_SIDED|95.0|0.3|0.62|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.62|0.30|<0.0001
92366199|NCT03052608|184634616|SUPERIORITY||Mean Difference (Net)|0.12||||0.7824|TWO_SIDED|95.0|-0.75|0.99|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Haemoptysis. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||0.99|-0.75|0.7824
92366200|NCT03052608|184634616|SUPERIORITY||Mean Difference (Net)|1.16||||0.2988|TWO_SIDED|95.0|-1.04|3.36|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Sore Mouth. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||3.36|-1.04|0.2988
92366201|NCT03052608|184634616|SUPERIORITY||Mean Difference (Net)|-1.51||||0.1916|TWO_SIDED|95.0|-3.79|0.76|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Dysphagia. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||0.76|-3.79|0.1916
92366202|NCT03052608|184634616|SUPERIORITY||Mean Difference (Net)|5.37||||0.0279|TWO_SIDED|95.0|0.59|10.15|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Peripheral Neuropathy. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||10.15|0.59|0.0279
92366203|NCT03052608|184634616|SUPERIORITY||Mean Difference (Net)|-0.2||||0.9162|TWO_SIDED|95.0|-3.89|3.49|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Alopecia. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||3.49|-3.89|0.9162
92366204|NCT03052608|184634616|SUPERIORITY||Mean Difference (Net)|-0.53||||0.6698|TWO_SIDED|95.0|-2.96|1.9|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Pain in Chest. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||1.90|-2.96|0.6698
92366205|NCT03052608|184634616|SUPERIORITY||Mean Difference (Net)|0.45||||0.8035|TWO_SIDED|95.0|-3.13|4.04|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Pain in Arm or Shoulder. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||4.04|-3.13|0.8035
92366206|NCT03052608|184634616|SUPERIORITY||Mean Difference (Net)|3.36||||0.1143|TWO_SIDED|95.0|-0.82|7.55|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Pain in Other Parts. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||7.55|-0.82|0.1143
92366207|NCT03052608|184634619|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7293|TWO_SIDED|95.0|0.822|1.444|||one-sided stratified log-rank|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Based on Cox Proportional Hazards model stratified by the presence of brain metastases and ethnic origin at randomization. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Lorlatinib.|||1.444|0.822|0.7293
92404538|NCT03926611|184700402|SUPERIORITY|LOU064 35 mg q.d.|LS Mean|-13.64|STANDARD_ERROR_OF_MEAN|2.336|<|0.0001|TWO_SIDED|90.0|-17.49|-9.78|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-9.78|-17.49|<0.0001
92225504|NCT03237065|184352384|SUPERIORITY||Mean Difference (Final Values)|0.54|||<|0.0001|TWO_SIDED|95.0|0.32|0.76|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.76|0.32|<0.0001
92225505|NCT03237065|184352384|SUPERIORITY||Mean Difference (Final Values)|0.73|||<|0.0001|TWO_SIDED|95.0|0.49|0.96|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.96|0.49|<0.0001
92225506|NCT03237065|184352384|SUPERIORITY||Mean Difference (Final Values)|1.22|||<|0.0001|TWO_SIDED|95.0|0.99|1.46|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.46|0.99|<0.0001
92225507|NCT03237065|184352384|SUPERIORITY||Mean Difference (Final Values)|1.24|||<|0.0001|TWO_SIDED|95.0|0.98|1.51|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.51|0.98|<0.0001
92225508|NCT03237065|184352384|SUPERIORITY||Mean Difference (Final Values)|1.17|||<|0.0001|TWO_SIDED|95.0|0.91|1.43|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.43|0.91|<0.0001
92225509|NCT03237065|184352385|SUPERIORITY||Mean Difference (Final Values)|13.99|||<|0.0001|TWO_SIDED|95.0|9.38|18.59|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||18.59|9.38|<0.0001
92225510|NCT03237065|184352385|SUPERIORITY||Mean Difference (Final Values)|15.84|||<|0.0001|TWO_SIDED|95.0|9.45|22.23|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||22.23|9.45|<0.0001
92366208|NCT05554146|184634642|SUPERIORITY||Beta|-2.6185||||0.0303|TWO_SIDED|95.0|-4.98|-0.25||A mixed effects model was completed with Arm 2 as the reference.|Mixed Models Analysis|There were no adjustments for any covariates.|Arm 2 was the comparison arm.|The study team hypothesized that participants randomized to coupons for high THC products would have greater reduction in self-reported pain severity than high CBD, equal parts THC and CBD, or placebo.||-0.25|-4.98|0.0303
92366209|NCT05554146|184634642|SUPERIORITY||Beta|-0.8424||||0.4851|TWO_SIDED|||||A mixed effects model was completed with Arm 2 as the reference.|Mixed Models Analysis|There were no adjustments for any covariates.|Arm 2 was the comparison arm.|The study team hypothesized that participants randomized to coupons for high THC products would have greater reduction in self-reported pain severity than high CBD, equal parts THC and CBD, or placebo.||||0.4851
92366210|NCT05554146|184634642|SUPERIORITY||Beta|-0.6038||||0.6165|TWO_SIDED|95.0||||A mixed effects model was completed with Arm 2 as the reference.|Mixed Models Analysis|There were no adjustments for any covariates.|Arm 2 was the comparison arm.|The study team hypothesized that participants randomized to coupons for high THC products would have greater reduction in self-reported pain severity than high CBD, equal parts THC and CBD, or placebo.||||0.6165
92366211|NCT05554146|184634643|SUPERIORITY|An ANOVA test with mean change in NPX values was completed.|F value (F-test)|0.63||||0.6|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that anti-inflammatory cytokines (IL-4 and IL-10) would have greater increase in participants randomized to coupons for high CBD products than the other arms.||||0.6
92366212|NCT05554146|184634644|SUPERIORITY|An ANOVA test with mean change in NPX values was completed.|F value (F-test)|0.83||||0.49|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that anti-inflammatory cytokines (IL-4 and IL-10) would have greater increase in participants randomized to coupons for high CBD products than the other arms.||||0.49
92366213|NCT05554146|184634645|SUPERIORITY|An ANOVA test with mean change in NPX values was completed.|F value (F-test)|0.53||||0.66|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that pro-inflammatory cytokines (TNFa and IL-6) would have greater reduction in participants randomized to coupons for high CBD products than the other arms.||||0.66
92366214|NCT05554146|184634646|SUPERIORITY|An ANOVA test with mean change in NPX values was completed.|F value (F-test)|0.21||||0.88|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that pro-inflammatory cytokines (TNFa and IL-6) would have greater reduction in participants randomized to coupons for high CBD products than the other arms.||||0.88
92366215|NCT05554146|184634647|SUPERIORITY|An ANOVA test with the mean change in adherence score was completed.|F value (F-test)|1.11||||0.39|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that participants randomized to coupons for high THC products would have poorer Antiretroviral (ARV) medication adherence than those randomized to coupons for high CBD, equal parts THC and CBD, or placebo.||||0.39
92166954|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest. This model contains an interaction effect with site, because the SITE\*DRUG effect was significant (p=0.03).|Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.34||0.07|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df=56.8, t=1.85|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-I change scores, reporting here information for Day 14.||||0.07
92366216|NCT05554146|184634648|SUPERIORITY|An ANOVA test with mean change in HIV viral load was completed.|F value (F-test)|1.25||||0.31|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that participants randomized to coupons for high THC products would have less suppressed HIV viral load than those randomized to coupons for high CBD, equal parts THC and CBD or placebo.||||0.31
92366217|NCT05554146|184634649|SUPERIORITY|An ANOVA test with the mean change in depression score was completed.|F value (F-test)|2.04||||0.13|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that participants randomized to coupons for high THC products would have greater depression than those randomized to coupons for high CBD, equal parts THC and CBD, or placebo.||||0.13
92366218|NCT05554146|184634650|SUPERIORITY|An ANOVA test with the mean change in anxiety score was completed.|F value (F-test)|1.58||||0.22|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that participants randomized to coupons for high THC products would have greater anxiety than those randomized to coupons for high CBD, equal parts THC and CBD, or placebo.||||0.22
92366219|NCT01139411|184634651|SUPERIORITY_OR_OTHER|||||||0.06||||||Threshold for significance: 0.05|ANCOVA|||"Null hypothesis was that the amount of weight lost by adolescents in Enhanced Parent Involvement and Minimal Parent involvement would not be significantly different. The study was powered at .8 to achieve a medium effect size (f = .26; partial eta sq. = 0.06).~The end-of-treatment BMI value was the dependent variable, with the baseline BMI value entered as a covariate."||||0.06
92366220|NCT01139411|184634652|SUPERIORITY_OR_OTHER|||||||0.58||||||Threshold for significance: 0.05|ANCOVA|||The end-of-treatment value was the dependent variable, with the baseline value entered as a covariate.||||0.58
92366221|NCT01139411|184634653|SUPERIORITY_OR_OTHER|||||||0.19||||||Threshold for significance: 0.05|ANCOVA|||||||0.19
92366222|NCT01139411|184634654|SUPERIORITY_OR_OTHER|||||||0.72||||||Threshold for significance: 0.05|ANCOVA|||||||0.72
92366223|NCT01139411|184634655|SUPERIORITY_OR_OTHER|||||||0.41|||||||ANCOVA|||||||0.41
92366224|NCT01139411|184634656|SUPERIORITY_OR_OTHER|||||||0.01||||||Threshold for significance: 0.05|ANCOVA|||||||0.01
92366225|NCT01139411|184634657|SUPERIORITY_OR_OTHER|||||||0.61||||||Threshold for significance: 0.05|ANCOVA|||||||0.61
92366226|NCT01639469|184634680|SUPERIORITY||Incidence Rate Ratio|0.39|||<|0.001|TWO_SIDED|95.0|0.22|0.68|||Negative Binomial Regression|||Testing to see if there is a significant difference in fall rates over 12months between the two groups.||0.68|0.22|<0.001
92366227|NCT01119443|184634681|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|104.2|||||TWO_SIDED|90.0|98.3|110.3|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||110.3|98.3|
92225511|NCT03237065|184352385|SUPERIORITY||Mean Difference (Final Values)|21.66|||<|0.0001|TWO_SIDED|95.0|14.72|28.59|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||28.59|14.72|<0.0001
92225512|NCT03237065|184352385|SUPERIORITY||Mean Difference (Final Values)|36.17|||<|0.0001|TWO_SIDED|95.0|29.28|43.06|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||43.06|29.28|<0.0001
92225513|NCT03237065|184352385|SUPERIORITY||Mean Difference (Final Values)|37.86|||<|0.0001|TWO_SIDED|95.0|29.99|45.72|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||45.72|29.99|<0.0001
92225514|NCT03237065|184352385|SUPERIORITY||Mean Difference (Final Values)|34.53|||<|0.0001|TWO_SIDED|95.0|26.8|42.26|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||42.26|26.80|<0.0001
92225515|NCT03237065|184352387|SUPERIORITY||Mean Difference (Final Values)|-96.8|||<|0.0001|TWO_SIDED|95.0|-119.8|-73.8|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-73.8|-119.8|<0.0001
92225516|NCT03237065|184352387|SUPERIORITY||Mean Difference (Final Values)|-15.7||||0.1064|TWO_SIDED|95.0|-34.9|3.4|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||3.4|-34.9|0.1064
92225517|NCT03237065|184352387|SUPERIORITY||Mean Difference (Final Values)|-251.7|||<|0.0001|TWO_SIDED|95.0|-307.2|-196.2|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-196.2|-307.2|<0.0001
92225518|NCT03237065|184352387|SUPERIORITY||Mean Difference (Final Values)|-79.1|||<|0.0001|TWO_SIDED|95.0|-103.7|-54.5|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-54.5|-103.7|<0.0001
92404539|NCT03926611|184700402|SUPERIORITY|LOU064 100 mg q.d.|LS Mean|-9.21|STANDARD_ERROR_OF_MEAN|2.277|<|0.0001|TWO_SIDED|90.0|-12.97|-5.45|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-5.45|-12.97|<0.0001
92404540|NCT03926611|184700402|SUPERIORITY|LOU064 10 mg b.i.d.|LS Mean|-10.55|STANDARD_ERROR_OF_MEAN|2.319|<|0.0001|TWO_SIDED|90.0|-14.38|-6.72|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-6.72|-14.38|<0.0001
92225519|NCT03237065|184352387|SUPERIORITY||Mean Difference (Final Values)|-61.8|||<|0.0001|TWO_SIDED|95.0|-83.0|-40.5|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-40.5|-83.0|<0.0001
92225520|NCT03237065|184352387|SUPERIORITY||Mean Difference (Final Values)|-18.0||||0.0039|TWO_SIDED|95.0|-30.1|-5.9|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-5.9|-30.1|0.0039
92404541|NCT03926611|184700402|SUPERIORITY|LOU064 25 mg b.i.d.|LS Mean|-14.58|STANDARD_ERROR_OF_MEAN|2.334|<|0.0001|TWO_SIDED|90.0|-18.43|-10.73|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-10.73|-18.43|<0.0001
92404542|NCT03926611|184700402|SUPERIORITY|LOU064 100 mg b.i.d.|LS Mean|-12.62|STANDARD_ERROR_OF_MEAN|2.327|<|0.0001|TWO_SIDED|90.0|-16.45|-8.78|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-8.78|-16.45|<0.0001
92404543|NCT03926611|184700403|SUPERIORITY|LOU064 10 mg q.d.|LS Mean|-10.24|STANDARD_ERROR_OF_MEAN|2.71|<|0.0001|TWO_SIDED|90.0|-14.72|-5.77|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-5.77|-14.72|<0.0001
92404544|NCT03926611|184700403|SUPERIORITY|LOU064 35 mg q.d.|LS Mean|-10.11|STANDARD_ERROR_OF_MEAN|2.711||0.0001|TWO_SIDED|90.0|-14.58|-5.63|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-5.63|-14.58|0.0001
92366228|NCT01119443|184634682|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|104.8||||||90.0|100.1|109.8|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||109.8|100.1|
92166955|NCT03149991|184224040|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest. This model contains an interaction effect with site, because the SITE\*DRUG effect was significant (p=0.03).|Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.41||0.37|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df=50.5, t=0.91|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-I change scores, reporting here information for Day 28.||||0.37
92166956|NCT03149991|184224044|EQUIVALENCE|The hypothesis was that there would be no group differences in terms of occurrence of abnormal ECGs.|Chi-squared test|0.28||||0.6|TWO_SIDED||||||Chi-squared|||This analysis was to assess group differences (drug vs. placebo) in terms of number of abnormal ECGs out of total ECGs assessed.||||0.60
92166957|NCT03149991|184224044|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at baseline.|Chi-squared test|0.94||||0.33|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at baseline.||||0.33
92166958|NCT03149991|184224044|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at Visit 4.|Chi-squared test|0.0||||1|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at Visit 4.||||1.00
92166959|NCT03149991|184224044|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at Visit 5.|Chi-squared test|0.08||||0.78|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at Visit 5.||||0.78
92166960|NCT03149991|184224044|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at Visit 6.|Chi-squared test|0.02||||0.9|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at Visit 6.||||0.90
92166961|NCT03149991|184224044|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at Visit 7.|Chi-squared test|0.63||||0.43|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at Visit 7.||||0.43
92166962|NCT03149991|184224044|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at Visit 9.|Chi-squared test|0.09||||0.76|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at Visit 9.||||0.76
92166963|NCT03149991|184224046|EQUIVALENCE|The hypothesis was that there would be no group differences in number of participants reporting adverse events.|Chi-squared test|0.009||||0.92|TWO_SIDED||||||Chi-squared|||This analysis assessed group differences (drug vs. placebo) in terms of number of participants reporting adverse events.||||0.92
92166964|NCT03149991|184224047|EQUIVALENCE|The hypothesis was that there would be no difference between the groups in terms of mean number of adverse events per person, among those who reported any adverse events.|Mean Difference (Final Values)|0.24||||0.81|TWO_SIDED||||||t-test, 2 sided|||This analysis assessed group differences (drug vs. placebo) in terms of mean number of adverse events per person, among those who reported any adverse events.||||0.81
92166965|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared test|0.43||||0.51|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) throughout the trial.||||0.51
92166966|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|2.85||||0.09|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) at Screening.||||0.09
92166967|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.004||||0.95|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) at Baseline.||||0.95
92166968|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.005||||0.94|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 1.||||0.94
92166969|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|1.97||||0.16|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 2.||||0.16
92166970|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.44||||0.51|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 5.||||0.51
92166971|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.94||||0.33|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 8.||||0.33
92166972|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.003||||0.96|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 11.||||0.96
92225521|NCT03237065|184352388|SUPERIORITY||Mean Difference (Final Values)|-57.5||||0.1243|TWO_SIDED|95.0|-131.1|16.1|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||16.1|-131.1|0.1243
92225522|NCT03237065|184352388|SUPERIORITY||Mean Difference (Final Values)|20.7||||0.5547|TWO_SIDED|95.0|-49.7|91.0|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||91.0|-49.7|0.5547
92225523|NCT03237065|184352388|SUPERIORITY||Mean Difference (Final Values)|-155.7||||0.0005|TWO_SIDED|95.0|-234.7|-76.6|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-76.6|-234.7|0.0005
92225524|NCT03237065|184352388|SUPERIORITY||Mean Difference (Final Values)|-27.3||||0.3516|TWO_SIDED|95.0|-86.0|31.5|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||31.5|-86.0|0.3516
92225525|NCT03237065|184352388|SUPERIORITY||Mean Difference (Final Values)|-24.3||||0.1988|TWO_SIDED|95.0|-62.3|13.7|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||13.7|-62.3|0.1988
92225526|NCT03237065|184352388|SUPERIORITY||Mean Difference (Final Values)|11.3||||0.4379|TWO_SIDED|95.0|-18.6|41.2|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||41.2|-18.6|0.4379
92225527|NCT03237065|184352389|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.6869|TWO_SIDED|95.0|-1.06|0.7|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.70|-1.06|0.6869
92225528|NCT03237065|184352389|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.1037|TWO_SIDED|95.0|-2.29|0.22|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.22|-2.29|0.1037
92366229|NCT01119443|184634683|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|108.31|||||TWO_SIDED|90.0|95.634|122.676|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||122.676|95.634|
92366230|NCT01119443|184634684|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|106.85|||||TWO_SIDED|90.0|93.189|122.251|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||122.251|93.189|
92366231|NCT01119443|184634685|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|98.426|||||TWO_SIDED|90.0|84.276|112.58|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||112.58|84.276|
92366232|NCT01119443|184634686|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|95.11|||||TWO_SIDED|90.0|82.461|109.698|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||109.698|82.461|
92225529|NCT03237065|184352389|SUPERIORITY||Mean Difference (Final Values)|-1.62||||0.0213|TWO_SIDED|95.0|-2.99|-0.25|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.25|-2.99|0.0213
92225530|NCT03237065|184352389|SUPERIORITY||Mean Difference (Final Values)|-1.91||||0.0176|TWO_SIDED|95.0|-3.47|-0.34|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.34|-3.47|0.0176
92225531|NCT03237065|184352389|SUPERIORITY||Mean Difference (Final Values)|-1.37||||0.0999|TWO_SIDED|95.0|-3.01|0.27|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.27|-3.01|0.0999
92225532|NCT03237065|184352389|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.8878|TWO_SIDED|95.0|-1.77|2.04|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||2.04|-1.77|0.8878
92225533|NCT03237065|184352390|SUPERIORITY||Mean Difference (Final Values)|21.81|||<|0.0001|TWO_SIDED|95.0|17.66|25.95|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||25.95|17.66|<0.0001
92366233|NCT01119443|184634688|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|104.07|||||TWO_SIDED|90.0|91.585|118.263|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||118.263|91.585|
92366234|NCT01119443|184634689|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|93.6||||||90.0|86.9|100.8|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||100.8|86.9|
92366235|NCT01119443|184634690|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|100.2|||||TWO_SIDED|90.0|94.0|106.7|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.7|94.0|
92366236|NCT01119443|184634691|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|86.57|||||TWO_SIDED|90.0|73.583|101.854|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.854|73.583|
92366237|NCT01119443|184634692|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|86.57|||||TWO_SIDED|90.0|73.583|101.854|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.854|73.583|
92366238|NCT01119443|184634693|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|99.069|||||TWO_SIDED|90.0|80.688|117.45|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||117.45|80.688|
92366239|NCT01119443|184634694|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|109.48|||||TWO_SIDED|90.0|89.571|133.811|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||133.811|89.571|
92366240|NCT01119443|184634696|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|92.63|||||TWO_SIDED|90.0|77.871|110.185|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||110.185|77.871|
92366241|NCT00913510|184634697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.0||||1||||||The p-value is calculated to the fourth decimal place.|Wilcoxon (Mann-Whitney)|||"H0 : µt = µc versus H1 : µt ≠ µc µt = Exp. relative change of frequency of micturitions per day in test group µc = Exp. relative change of frequency of micturitions per day in control group.~Plan was to have 44 evaluable subjects (90% power) but power of the study was reduced by early termination. It cannot be concluded that there is no difference between the treatment groups due to insufficient power."||||1.0000
92366242|NCT01484496|184634710|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0006|TWO_SIDED|95.0|1.25|2.25|||Regression, Logistic|||||2.25|1.25|0.0006
92366243|NCT01484496|184634711|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51||||0.0004|TWO_SIDED|95.0|0.35|0.74|||Cox proportional hazards model|||||0.74|0.35|0.0004
92404545|NCT03926611|184700403|SUPERIORITY|LOU064 100 mg q.d.|LS Mean|-7.4|STANDARD_ERROR_OF_MEAN|2.635||0.0027|TWO_SIDED|90.0|-11.75|-3.05|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-3.05|-11.75|0.0027
92404546|NCT03926611|184700403|SUPERIORITY|LOU064 10 mg b.i.d.|LS Mean|-9.8|STANDARD_ERROR_OF_MEAN|2.696||0.0002|TWO_SIDED|90.0|-14.25|-5.35|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-5.35|-14.25|0.0002
92404547|NCT03926611|184700403|SUPERIORITY|LOU064 25 mg b.i.d.|LS Mean|-12.35|STANDARD_ERROR_OF_MEAN|2.714|<|0.0001|TWO_SIDED|90.0|-16.82|-7.87|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-7.87|-16.82|<0.0001
92404548|NCT03926611|184700403|SUPERIORITY|LOU064 100 mg b.i.d.|LS Mean|-9.52|STANDARD_ERROR_OF_MEAN|2.733||0.0003|TWO_SIDED|90.0|-14.03|-5.01|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-5.01|-14.03|0.0003
92404549|NCT02177032|184700441|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at day 50 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-1.0|||||TWO_SIDED|95.0|-2.4|0.0|||Fisher Exact|||||0|-2.4|
92404550|NCT02177032|184700442|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667."|Vaccine Group Ratios|0.46|||||TWO_SIDED|95.0|0.37|0.58|||ANOVA|||||0.58|0.37|
92166973|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.5||||0.48|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 14.||||0.48
92166974|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.67||||0.41|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 17.||||0.41
92225534|NCT03237065|184352390|SUPERIORITY||Mean Difference (Final Values)|4.64||||0.2923|TWO_SIDED|95.0|-4.05|13.33|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||13.33|-4.05|0.2923
92225535|NCT03237065|184352390|SUPERIORITY||Mean Difference (Final Values)|19.56|||<|0.0001|TWO_SIDED|95.0|12.37|26.74|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||26.74|12.37|<0.0001
92225536|NCT03237065|184352390|SUPERIORITY||Mean Difference (Final Values)|33.05|||<|0.0001|TWO_SIDED|95.0|25.96|40.14|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||40.14|25.96|<0.0001
92225537|NCT03237065|184352390|SUPERIORITY||Mean Difference (Final Values)|21.82|||<|0.0001|TWO_SIDED|95.0|14.2|29.43|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||29.43|14.20|<0.0001
92225538|NCT03237065|184352390|SUPERIORITY||Mean Difference (Final Values)|9.03||||0.025|TWO_SIDED|95.0|1.16|16.9|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||16.90|1.16|0.0250
92225539|NCT03237065|184352391|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.5134|TWO_SIDED|95.0|-0.22|0.11|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.11|-0.22|0.5134
92166975|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.17||||0.68|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 21.||||0.68
92166976|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.67||||0.41|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 23.||||0.41
92225540|NCT03237065|184352391|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.7579|TWO_SIDED|95.0|-0.24|0.32|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.32|-0.24|0.7579
92225541|NCT03237065|184352391|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.3169|TWO_SIDED|95.0|-0.41|0.14|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.14|-0.41|0.3169
92366244|NCT01484496|184634712|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.0732|TWO_SIDED|95.0|0.95|2.84|||Regression, Logistic|||||2.84|0.95|0.0732
92366245|NCT01718522|184634733|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
92366246|NCT01718522|184634734|OTHER|||||||0.12|||||||Wilcoxon Signed-Rank Test|||||||0.12
92366247|NCT01718522|184634735|OTHER|||||||0.3|||||||Wilcoxon Signed-Rank Test|||||||0.30
92366248|NCT01718522|184634736|OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
92366249|NCT01718522|184634737|OTHER|||||||0.04|||||||Wilcoxon Signed-Rank Test|||||||0.04
92366250|NCT01718522|184634738|OTHER|||||||0.35|||||||Wilcoxon Signed-Rank Test|||||||0.35
92225542|NCT03237065|184352391|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.0018|TWO_SIDED|95.0|-0.76|-0.18|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.18|-0.76|0.0018
92225543|NCT03237065|184352391|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.0003|TWO_SIDED|95.0|-0.77|-0.24|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.24|-0.77|0.0003
92225544|NCT03237065|184352391|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.1063|TWO_SIDED|95.0|-0.5|0.05|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.05|-0.50|0.1063
92225545|NCT03237065|184352392|SUPERIORITY||Mean Difference (Final Values)|4.57||||0.2166|TWO_SIDED|95.0|-2.72|11.85|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||11.85|-2.72|0.2166
92225546|NCT03237065|184352392|SUPERIORITY||Mean Difference (Final Values)|-4.64||||0.2997|TWO_SIDED|95.0|-13.47|4.19|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||4.19|-13.47|0.2997
92225547|NCT03237065|184352392|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.9221|TWO_SIDED|95.0|-7.75|8.56|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||8.56|-7.75|0.9221
92225548|NCT03237065|184352392|SUPERIORITY||Mean Difference (Final Values)|-15.69||||0.0034|TWO_SIDED|95.0|-26.07|-5.32|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-5.32|-26.07|0.0034
92225549|NCT03237065|184352392|SUPERIORITY||Mean Difference (Final Values)|-22.54||||0.0002|TWO_SIDED|95.0|-33.93|-11.16|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-11.16|-33.93|0.0002
92225550|NCT03237065|184352392|SUPERIORITY||Mean Difference (Final Values)|-24.81|||<|0.0001|TWO_SIDED|95.0|-35.42|-14.21|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-14.21|-35.42|<0.0001
92225551|NCT03237065|184352393|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.3048|TWO_SIDED|95.0|-0.1|0.03|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.03|-0.10|0.3048
92225552|NCT03237065|184352393|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.1641|TWO_SIDED|95.0|-0.02|0.13|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.13|-0.02|0.1641
92366251|NCT01718522|184634739|OTHER|||||||0.001|||||||Wilcoxon Signed-Rank Test|||||||0.001
92366252|NCT01718522|184634740|OTHER|||||||0.61|||||||Wilcoxon Signed-Rank Test|||||||0.61
92366253|NCT01718522|184634741|OTHER|||||||0.1|||||||Wilcoxon Signed-Rank Test|||||||0.1
92366254|NCT01718522|184634742|OTHER|||||||0.22|||||||Wilcoxon Signed-Rank Test|||||||0.22
92366255|NCT01299389|184634833|SUPERIORITY_OR_OTHER||Least squares (LS) means difference|-9.7|STANDARD_ERROR_OF_MEAN|2.19|<|0.0001|TWO_SIDED|95.0|-14.0|-5.4|||ANCOVA|||Change at Week 13 or Early Discontinuation: P value were calculated using an analysis of covariance (ANCOVA) model with treatment and country as factors and baseline PANSS total score as a covariate.||-5.4|-14.0|<0.0001
92225553|NCT03237065|184352393|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.1333|TWO_SIDED|95.0|-0.02|0.12|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.12|-0.02|0.1333
92225554|NCT03237065|184352393|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.9385|TWO_SIDED|95.0|-0.17|0.16|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.16|-0.17|0.9385
92166977|NCT03149991|184224048|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.67||||0.41|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 28.||||0.41
92166978|NCT01285999|184224068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29||||0.05|TWO_SIDED|95.0|-0.37|-0.21||p-value has not been adjusted.|t-test, 2 sided|No adjustment.||H0: μt - μc = 0 H1: μt - μc ≠ 0 where μt and μc are the mean 9-month in-stent late loss values for the subjects in the PROMUS Element test and TAXUS Liberté control treatment groups, respectively.||-0.21|-0.37|0.05
92166979|NCT04714320|184224084|SUPERIORITY||||||=|0.135||||||The stratification factor (screening estimated glomerular filtration rate (eGFR) status \[\<60 vs. ≥60 mL/min/1.73 m\^2\]), treatment received, and baseline measure were included in the analysis of covariate (ANCOVA) model as independent variables.|ANCOVA|||Change From Baseline in Seated Automated Office SBP to Day 85||||=0.135
92166980|NCT04714320|184224084|SUPERIORITY||||||=|0.867||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change From Baseline in Seated Automated Office SBP to Day 85||||=0.867
92166981|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change From Baseline at Day 15||||<0.001
92166982|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change From Baseline at Day 15||||<0.001
92166983|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||<0.001
92166984|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||<0.001
92166985|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||<0.001
92166986|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||<0.001
92166987|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||<0.001
92225555|NCT03237065|184352393|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.0408|TWO_SIDED|95.0|0.0|0.14|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.14|0.00|0.0408
92166988|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||<0.001
92166989|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 71||||<0.001
92166990|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 71||||<0.001
92166991|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 85||||<0.001
92166992|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 85||||<0.001
92166993|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||<0.001
92166994|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||<0.001
92404551|NCT02177032|184700443|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667 (Day 8)"|Vaccine Group Ratios|1.04|||||TWO_SIDED|95.0|0.84|1.29|||ANOVA|||||1.29|0.84|
92404552|NCT02177032|184700443|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667 (Day 15)"|Vaccine Group Ratios|1.68|||||TWO_SIDED|95.0|1.35|2.1|||ANOVA|||||2.1|1.35|
92404553|NCT02177032|184700443|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667 (Day 91)."|Vaccine Group Ratios|0.68|||||TWO_SIDED|95.0|0.54|0.85|||ANOVA|||||0.85|0.54|
92404554|NCT02177032|184700443|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667 (Day 181)"|Vaccine Group Ratios|1.22|||||TWO_SIDED|95.0|0.94|1.59|||ANOVA|||||1.59|0.94|
92404555|NCT02177032|184700443|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667 (Day 366)"|Vaccine Group Ratios|1.67|||||TWO_SIDED|95.0|1.27|2.19|||ANOVA|||||2.19|1.27|
92404556|NCT02177032|184700444|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 8 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|9.0|||||TWO_SIDED|95.0|3.8|13.9|||Fisher Exact|||||13.9|3.8|
92404557|NCT02177032|184700444|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 15 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|0.0|||||TWO_SIDED|95.0|-1.0|1.6|||Fisher Exact|||||1.6|-1|
92404558|NCT02177032|184700444|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 91 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-3.0|||||TWO_SIDED|95.0|-6.0|-1.4|||Fisher Exact|||||-1.4|-6|
92404559|NCT02177032|184700444|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 181 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-1.0|||||TWO_SIDED|95.0|-4.5|3.2|||Fisher Exact|||||3.2|-4.5|
92404560|NCT02177032|184700444|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 366 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|6.0|||||TWO_SIDED|95.0|1.3|11.5|||Fisher Exact|||||11.5|1.3|
92166995|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 106||||<0.001
92166996|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 106||||<0.001
92166997|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables|ANCOVA|||Change from Baseline at Day 120||||<0.001
92166998|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables|ANCOVA|||Change from Baseline at Day 120||||<0.001
92166999|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 148||||<0.001
92167000|NCT04714320|184224086|SUPERIORITY||||||=|0.002||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 148||||=0.002
92167001|NCT04714320|184224086|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 169||||<0.001
92167002|NCT04714320|184224086|SUPERIORITY||||||=|0.002||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 169||||=0.002
92167003|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 15||||<0.001
92225556|NCT03237065|184352393|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.2376|TWO_SIDED|95.0|-0.03|0.12|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.12|-0.03|0.2376
92225557|NCT03237065|184352395|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.0882|TWO_SIDED|95.0|-0.67|0.05|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.05|-0.67|0.0882
92225558|NCT03237065|184352395|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.0941|TWO_SIDED|95.0|-0.74|0.06|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.06|-0.74|0.0941
92225559|NCT03237065|184352395|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.0628|TWO_SIDED|95.0|-0.02|0.66|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.66|-0.02|0.0628
92225560|NCT03237065|184352395|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.0056|TWO_SIDED|95.0|0.14|0.79|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.79|0.14|0.0056
92225561|NCT03237065|184352395|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.0492|TWO_SIDED|95.0|0.0|0.55|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.55|0.00|0.0492
92225562|NCT03237065|184352395|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.0882|TWO_SIDED|95.0|-0.05|0.64|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.64|-0.05|0.0882
92404561|NCT02177032|184700445|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, with HRIG administration, compared to that of the new 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, without HRIG administration, in adult subjects will be established if the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 8 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-11.0|||||TWO_SIDED|95.0|-19.6|-1.0|||Fisher Exact|||||-1|-19.6|
92225563|NCT03237065|184352396|SUPERIORITY||Mean Difference (Final Values)|-6.5||||0.6568|TWO_SIDED|95.0|-35.3|22.3|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||22.3|-35.3|0.6568
92225564|NCT03237065|184352396|SUPERIORITY||Mean Difference (Final Values)|-24.2||||0.4929|TWO_SIDED|95.0|-94.0|45.5|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||45.5|-94.0|0.4929
92366256|NCT01299389|184634836|SUPERIORITY_OR_OTHER||LS Mean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.69|<|0.0001|TWO_SIDED|95.0|-4.1|-1.4|||ANCOVA|||Positive symptoms (change at Week 13 or ED): P value was calculated using an ANCOVA model with treatment and country as factors and baseline PANSS factor scores as covariates.||-1.4|-4.1|<0.0001
92366257|NCT01299389|184634836|SUPERIORITY_OR_OTHER||LS Mean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.61||0.0012|TWO_SIDED|95.0|-3.2|-0.8|||ANCOVA|||Negative symptoms (change at Week 13 or ED): P value was calculated using an ANCOVA model with treatment and country as factors and baseline PANSS factor scores as covariates.||-0.8|-3.2|0.0012
92366258|NCT01299389|184634836|SUPERIORITY_OR_OTHER||LS Mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|-3.4|-1.1|||ANCOVA|||Disorganized thoughts (change at Week 13 or ED): P value was calculated using an ANCOVA model with treatment and country as factors and baseline PANSS factor scores as covariates.||-1.1|-3.4|<0.0001
92225565|NCT03237065|184352396|SUPERIORITY||Mean Difference (Final Values)|-91.7||||0.0113|TWO_SIDED|95.0|-162.3|-21.1|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-21.1|-162.3|0.0113
92225566|NCT03237065|184352396|SUPERIORITY||Mean Difference (Final Values)|-240.4|||<|0.0001|TWO_SIDED|95.0|-318.4|-162.3|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-162.3|-318.4|<0.0001
92225567|NCT03237065|184352396|SUPERIORITY||Mean Difference (Final Values)|-135.1|||<|0.0001|TWO_SIDED|95.0|-196.1|-74.0|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-74.0|-196.1|<0.0001
92225568|NCT03237065|184352396|SUPERIORITY||Mean Difference (Final Values)|-67.7||||0.0039|TWO_SIDED|95.0|-113.2|-22.2|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-22.2|-113.2|0.0039
92225569|NCT03237065|184352397|SUPERIORITY||Mean Difference (Final Values)|24.2||||0.0503|TWO_SIDED|95.0|0.0|48.5|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||48.5|-0.0|0.0503
92225570|NCT03237065|184352397|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.5794|TWO_SIDED|95.0|-5.5|9.8|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||9.8|-5.5|0.5794
92225571|NCT03237065|184352397|SUPERIORITY||Mean Difference (Final Values)|-62.2|||<|0.0001|TWO_SIDED|95.0|-70.1|-54.3|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-54.3|-70.1|<0.0001
92225572|NCT03237065|184352397|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.0001|TWO_SIDED|95.0|-10.4|-3.5|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-3.5|-10.4|0.0001
92225573|NCT03237065|184352397|SUPERIORITY||Mean Difference (Final Values)|-5.8||||0.0008|TWO_SIDED|95.0|-9.1|-2.4|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-2.4|-9.1|0.0008
92404562|NCT02177032|184700445|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, with HRIG administration, compared to that of the new 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, without HRIG administration, in adult subjects will be established if the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 15 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|0.0|||||TWO_SIDED|95.0|-5.6|2.6|||Fisher Exact|||||2.6|-5.6|
92404563|NCT02177032|184700445|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, with HRIG administration, compared to that of the new 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, without HRIG administration, in adult subjects will be established if the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 91 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-15.0|||||TWO_SIDED|95.0|-26.0|-7.1|||Fisher Exact|||||-7.1|-26|
92404564|NCT02177032|184700445|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, with HRIG administration, compared to that of the new 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, without HRIG administration, in adult subjects will be established if the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 181 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-17.0|||||TWO_SIDED|95.0|-29.0|-7.1|||Fisher Exact|||||-7.1|-29|
92225574|NCT03237065|184352397|SUPERIORITY||Mean Difference (Final Values)|-4.8||||0.004|TWO_SIDED|95.0|-8.1|-1.6|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-1.6|-8.1|0.0040
92225575|NCT03237065|184352398|SUPERIORITY||Risk Difference (RD)|-10.7||||0.009|TWO_SIDED|95.0|-18.8|-2.6|||Cochran-Mantel-Haenszel|||The rate difference with 95% Newcombe confidence interval, adjusted for stratum using the Cochran-Mantel-Haenszel method, could not be estimated due to lack of events. Thus, the unadjusted treatment difference is presented together with 95% Wald-based confidence interval. The p-value is based on the Cochran-Mantel-Haenszel statistics.||-2.6|-18.8|0.0090
92225576|NCT00353418|184352486|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.6119||95.0|0.68|1.93|||Cochran-Mantel-Haenszel|||"Sample sizes of 133 and 267 patients for RBV 800 mg daily and RBV 1000 or 1200 mg daily, respectively, provided the following probabilities of detecting the specified differences in SVR with a 0.05 level two-sided chi-square test of significance:~RBV 800 mg SVR - 0.30; RBV 1000 or 1200 mg SVR - 0.40; Probability - 0.49~RBV 800 mg SVR - 0.30; RBV 1000 or 1200 mg SVR - 0.45; Probability - 0.83"||1.93|0.68|0.6119
92225577|NCT04311086|184352520|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||>0.05
92225578|NCT04311086|184352521|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||>0.05
92225579|NCT04311086|184352522|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment||||>0.05
92225580|NCT04311086|184352523|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||>0.05
92225581|NCT04311086|184352527|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||<|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||<0.05
92225582|NCT04311086|184352528|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||<|0.05|||||||ANCOVA|||||||<0.05
92225583|NCT04311086|184352529|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||>0.05
92225584|NCT04311086|184352530|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||>0.05
92225585|NCT04823949|184352540|OTHER||Risk Ratio (RR)|1.59|||<|0.001|TWO_SIDED|95.0|1.33|1.88|||Chi-squared|||||1.88|1.33|<0.001
92225586|NCT04823949|184352541|OTHER||Risk Ratio (RR)|1.35||||0.53|TWO_SIDED|95.0|0.52|3.49|||Fisher Exact|||||3.49|0.52|.530
92225587|NCT04823949|184352542|OTHER||Risk Ratio (RR)|2.53||||0.059|TWO_SIDED|95.0|0.92|6.9|||Fisher Exact|||||6.90|0.92|.059
92225588|NCT04823949|184352543|OTHER||Risk Ratio (RR)|0.84||||0.792|TWO_SIDED|95.0|0.23|3.04|||Fisher Exact|||||3.04|0.23|.792
92225589|NCT04823949|184352544|OTHER||Risk Ratio (RR)|1.11||||0.21|TWO_SIDED|95.0|0.94|1.31|||Chi-squared|||||1.31|0.94|.210
92225590|NCT00756938|184352545|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.22||||0.753|TWO_SIDED|95.0|-6.45|8.9|||ANCOVA|Analysis of covariance (ANCOVA) model with terms for dose, weight (as a continuous covariate) and presence of co-morbidities/end organ damage||||8.90|-6.45|0.753
92225591|NCT00756938|184352546|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.81||||0.643|TWO_SIDED|95.0|-5.9|9.51|||ANCOVA|Analysis of covariance (ANCOVA) model with terms for dose, weight (as a continuous covariate) and presence of co-morbidities/end organ damage||||9.51|-5.90|0.643
92225592|NCT00441545|184352555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113||95.0|||||ANCOVA|||||||0.1130
92225593|NCT00441545|184352556|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0249||95.0|||||ANCOVA|||||||0.0249
92404565|NCT02177032|184700445|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, with HRIG administration, compared to that of the new 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, without HRIG administration, in adult subjects will be established if the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 366 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-25.0|||||TWO_SIDED|95.0|-37.8|-13.2|||Fisher Exact|||||-13.2|-37.8|
92404566|NCT01598532|184700455|SUPERIORITY_OR_OTHER||||||<|0.004|||||||ANOVA|Univariate, one-way, repeated measure ANOVA with trend analysis||linear trend over time for the effect of LED treatments||||<0.004
92404567|NCT01598532|184700456|SUPERIORITY_OR_OTHER||||||<|0.003|||||||ANOVA|Univariate, one-way, repeated measure ANOVA with trend analysis||linear trend over time for the effect of LED treatments||||<0.003
92225594|NCT00699907|184352568|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon Rank Sum Test|||||||0.012
92225595|NCT00699907|184352568|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
92404568|NCT01598532|184700457|SUPERIORITY_OR_OTHER||||||<|0.003|||||||ANOVA|Univariate, one-way, repeated measure ANOVA with trend analysis||linear trend over time for effect of LED treatments||||<0.003
92404569|NCT01598532|184700458|SUPERIORITY_OR_OTHER||||||<|0.006|||||||ANOVA|Univariate, one-way, repeated measure ANOVA with trend analysis||linear trend over time for the effects of LED treatments||||<0.006
92225596|NCT00699907|184352569|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon Rank Sum Test|||||||0.010
92225597|NCT00699907|184352569|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon Rank Sum Test|||||||0.005
92404570|NCT00912808|184700461|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||t-test, 2 sided|||Means and standard deviations were calculated to describe the subject baseline characteristics. Paired t-tests evaluated the difference between baseline and end of treatment frequency of falls. Changes post-treatment from baseline in secondary measures were also compared between the donepezil and placebo phases with paired t-tests or Wilcoxon signed rank tests when data was nonparametric. SPSS was used for the analysis.||||0.049
92225598|NCT00699907|184352570|SUPERIORITY_OR_OTHER|||||||0.0006|||||||Wilcoxon Rank Sum Test|||||||0.0006
92225599|NCT00699907|184352570|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
92225600|NCT00699907|184352571|SUPERIORITY_OR_OTHER|||||||0.009|||||||Wilcoxon Rank Sum Test|||||||0.009
92225601|NCT00699907|184352571|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
92404571|NCT00912808|184700462|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||t-test, 2 sided|||Means and standard deviations were calculated to describe the subject baseline characteristics. Paired t-tests evaluated the difference between baseline and end of treatment frequency of falls. Changes post-treatment from baseline in secondary measures were also compared between the donepezil and placebo phases with paired t-tests or Wilcoxon signed rank tests when data was nonparametric. SPSS was used for the analysis.||||0.27
92225602|NCT00699907|184352572|SUPERIORITY_OR_OTHER|||||||0.037|||||||Wilcoxon Rank Sum Test|||||||0.037
92225603|NCT00699907|184352572|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
92225604|NCT00699907|184352573|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon Rank Sum Test|||||||0.010
92225605|NCT00699907|184352573|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
92225606|NCT00699907|184352574|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon Rank Sum Test|||||||0.005
92225607|NCT00699907|184352574|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
92225608|NCT00699907|184352575|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon Rank Sum Test|||||||0.006
92225609|NCT00699907|184352575|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon Rank Sum Test|||||||0.005
92225610|NCT00699907|184352576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum Test|||||||<0.0001
92225611|NCT00699907|184352576|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon Rank Sum Test|||||||0.005
92225612|NCT01081795|184352577|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.4||||0.1646|TWO_SIDED|95.0|-1.0|0.2||Analysis of covariance (ANCOVA) method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-1.0|0.1646
92225613|NCT01081795|184352577|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.4479|TWO_SIDED|95.0|-0.8|0.4||ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.4|-0.8|0.4479
92225614|NCT01081795|184352578|SUPERIORITY_OR_OTHER||LS mean difference|-0.5||||0.1547|TWO_SIDED|95.0|-1.1|0.2||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-1.1|0.1547
92225615|NCT01081795|184352578|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.2624|TWO_SIDED|95.0|-1.0|0.3||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.3|-1.0|0.2624
92225616|NCT01081795|184352579|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.2464|TWO_SIDED|95.0|-1.0|0.3||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.3|-1.0|0.2464
92225617|NCT01081795|184352579|SUPERIORITY_OR_OTHER||LS mean difference|-0.3||||0.3148|TWO_SIDED|95.0|-1.0|0.3||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.3|-1.0|0.3148
92225618|NCT01081795|184352580|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.8762|TWO_SIDED|95.0|-0.6|0.5||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.5|-0.6|0.8762
92225619|NCT01081795|184352580|SUPERIORITY_OR_OTHER||LS mean difference|-0.3||||0.3031|TWO_SIDED|95.0|-0.8|0.3||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.3|-0.8|0.3031
92225620|NCT01081795|184352581|SUPERIORITY_OR_OTHER||LS mean difference|-0.3||||0.1145|TWO_SIDED|95.0|-0.7|0.1||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.1|-0.7|0.1145
92225621|NCT01081795|184352581|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.3971|TWO_SIDED|95.0|-0.6|0.2||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-0.6|0.3971
92225622|NCT01081795|184352582|SUPERIORITY_OR_OTHER||LS mean difference|-0.5||||0.1866|TWO_SIDED|95.0|-1.3|0.3||ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.3|-1.3|0.1866
92225623|NCT01081795|184352582|SUPERIORITY_OR_OTHER||LS mean difference|-0.6||||0.1507|TWO_SIDED|95.0|-1.4|0.2||ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-1.4|0.1507
92225624|NCT01081795|184352584|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.1743|TWO_SIDED|95.0|-1.0|0.2||ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-1.0|0.1743
92225625|NCT01081795|184352584|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.2165|TWO_SIDED|95.0|-1.0|0.2||ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-1.0|0.2165
92225626|NCT01081795|184352585|SUPERIORITY_OR_OTHER||Percentage difference|5.1||||0.3083|TWO_SIDED|95.0|-3.8|14.0||Month 6|Fisher Exact|||||14.0|-3.8|0.3083
92225627|NCT01081795|184352585|SUPERIORITY_OR_OTHER||Percentage difference|2.0||||0.7235|TWO_SIDED|95.0|-6.6|10.6||Month 6|Fisher Exact|||||10.6|-6.6|0.7235
92225628|NCT02161211|184352587|SUPERIORITY|||||||0.673|||||||Chi-squared|df = 2||Null hypothesis = no difference in frequency in relapse between groups||||.673
92225629|NCT02161211|184352588|SUPERIORITY||Wald Chi-squared|-0.278||||0.133|TWO_SIDED|95.0|-0.64|0.084|||Wald Chi-squared|Negative binomial regression with offset of natural log of possible drinking days||||.084|-.64|.133
92225630|NCT02161211|184352588|SUPERIORITY||Wald Chi-squared|0.101||||0.562|TWO_SIDED|95.0|-0.24|0.44|||Wald Chi-squared|||||.44|-.24|.562
92225631|NCT02161211|184352589|SUPERIORITY|||||||0.982|||||||ANOVA|F(2,105) = .019||||||.982
92225632|NCT02161211|184352590|SUPERIORITY|||||||0.685|||||||Chi-squared|||Null hypothesis = no difference in proportion between the groups||||.685
92225633|NCT02161211|184352591|SUPERIORITY|||||||0.608|||||||Chi-squared|||Null hypothesis = no significant difference in frequency of hazardous drinking between groups||||.608
92225634|NCT00848354|184352660|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel chi-square test, stratified by country, was used to calculate p-value. Assuming ACR50 response at Week 24 to be 23% in the DMARD combination therapy group and 37% in the etanercept + methotrexate group, a study enrolling 276 participants assigned to etanercept + methotrexate and 138 participants assigned to DMARD combination therapy has 80% power to reject the null hypothesis of no difference in response rates testing at the type I error = 0.05 level.||||<0.0001
92225635|NCT00848354|184352661|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||Analysis of covariance (ANCOVA) model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value.||||<0.0001
92225636|NCT00848354|184352662|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for vitality domain at Week 24.||||0.0003
92225637|NCT00848354|184352662|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for mental component at Week 24.||||0.0002
92225638|NCT00848354|184352662|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for physical component at Week 24.||||<0.0001
92225639|NCT00848354|184352663|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model on ranks of change in mTSS with treatment group and center main effects and the Baseline rank as covariate was used to calculate p-value.||||0.0270
92366259|NCT01299389|184634836|SUPERIORITY_OR_OTHER||LS Mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.45||0.0023|TWO_SIDED|95.0|-2.3|-0.5|||ANCOVA|||Uncontrolled hostility/excitement (change at Week 13 or ED): P value was calculated using an ANCOVA model with treatment and country as factors and baseline PANSS factor scores as covariates.||-0.5|-2.3|0.0023
92366260|NCT01299389|184634836|SUPERIORITY_OR_OTHER||LS Mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.37||0.0025|TWO_SIDED|95.0|-1.9|-0.4|||ANCOVA|||Anxiety/depression (change at Week 13 or ED): P value was calculated using an ANCOVA model with treatment and country as factors and baseline PANSS factor scores as covariates.||-0.4|-1.9|0.0025
92366261|NCT01299389|184634837|SUPERIORITY_OR_OTHER||LS Mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.59||0.0003|TWO_SIDED|95.0|-3.3|-1.0|||ANCOVA|||Change at Week 13 or Early Discontinuation: P value were calculated using an ANCOVA model with treatment and country as factors and baseline PANSS total score as a covariate.||-1.0|-3.3|0.0003
92225640|NCT00848354|184352664|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
92225641|NCT00848354|184352667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.39|||<|0.0001|TWO_SIDED|95.0|2.25|18.2||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||18.2|2.25|<0.0001
92225642|NCT00848354|184352667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.99|||<|0.0001|TWO_SIDED|95.0|2.62|9.49||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||9.49|2.62|<0.0001
92225643|NCT00848354|184352667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.6|||<|0.0001|TWO_SIDED|95.0|2.19|5.94||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||5.94|2.19|<0.0001
92404572|NCT02900378|184700464|OTHER||Differences of least square means|5.68|STANDARD_ERROR_OF_MEAN|4.89||0.2464|TWO_SIDED|95.0|-3.93|15.29||The comparison of treatment groups were out using an analysis of covariance (ANCOVA) model adjusting for treatment and baseline NYHA class (NYHA II vs. III/IV) and the 6MWT baseline value as covariates.|ANCOVA|||Change from BL at Week 12 (FAS)||15.29|-3.93|0.2464
92404573|NCT02900378|184700464|OTHER||Differences of least square means|8.98|STANDARD_ERROR_OF_MEAN|4.58||0.0503|TWO_SIDED|97.5|-1.31|19.27||The comparison of treatment groups were out using an analysis of covariance (ANCOVA) model adjusting for treatment and baseline NYHA class (NYHA II vs. III/IV) and the 6MWT baseline value as covariates.|ANCOVA|||Change from BL at Week 12 (FAS without AE/SAE)||19.27|-1.31|0.0503
92167004|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 15||||<0.001
92167005|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day at 29||||<0.001
92167006|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day at 29||||<0.001
92167007|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 43||||<0.001
92167008|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 43||||<0.001
92225644|NCT00848354|184352667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1|||<|0.0001|TWO_SIDED|95.0|2.57|6.53||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||6.53|2.57|<0.0001
92225645|NCT00848354|184352667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.93|||<|0.0001|TWO_SIDED|95.0|2.51|6.16||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||6.16|2.51|<0.0001
92225646|NCT00848354|184352667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.82|||<|0.0001|TWO_SIDED|95.0|2.46|5.93||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||5.93|2.46|<0.0001
92225647|NCT00848354|184352667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.39|||<|0.0001|TWO_SIDED|95.0|3.41|8.53||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||8.53|3.41|<0.0001
92225648|NCT00848354|184352669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.84|||<|0.0001|TWO_SIDED|95.0|2.37|6.21||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||6.21|2.37|<0.0001
92225649|NCT00848354|184352669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.34|||<|0.0001|TWO_SIDED|95.0|2.19|5.11||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||5.11|2.19|<0.0001
92167009|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 57||||<0.001
92167010|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 57||||<0.001
92167011|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 71||||<0.001
92167012|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 71||||<0.001
92167013|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 85||||<0.001
92167014|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 85||||<0.001
92167015|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 92||||<0.001
92167016|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received were included in the Van Elteren model as independent variables|Van Elteren|||Percent Change from Baseline at Day 92||||<0.001
92167017|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 106||||<0.001
92167018|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 106||||<0.001
92167019|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 120||||<0.001
92167020|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 120||||<0.001
92167021|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 148||||<0.001
92167022|NCT04714320|184224087|SUPERIORITY||||||=|0.005||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 148||||=0.005
92225650|NCT00848354|184352669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9|||<|0.0001|TWO_SIDED|95.0|1.9|4.43||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||4.43|1.90|<0.0001
92225651|NCT00848354|184352669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.2|||<|0.0001|TWO_SIDED|95.0|2.06|4.96||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||4.96|2.06|<0.0001
92225652|NCT00848354|184352669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.91|||<|0.0001|TWO_SIDED|95.0|2.46|6.21||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||6.21|2.46|<0.0001
92167023|NCT04714320|184224087|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 169||||<0.001
92167024|NCT04714320|184224087|SUPERIORITY||||||=|0.002||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 169||||=0.002
92167025|NCT04714320|184224088|SUPERIORITY||||||=|0.094||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline in 24-hour Mean SBP at Day 85||||=0.094
92167026|NCT04714320|184224088|SUPERIORITY||||||=|0.842||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline in 24-hour Mean SBP at Day 85||||=0.842
92167027|NCT04714320|184224088|SUPERIORITY||||||=|0.066||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change From Baseline in 24-hour Mean DBP at Day 85||||=0.066
92167028|NCT04714320|184224088|SUPERIORITY||||||=|0.442||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change From Baseline in 24-hour Mean DBP at Day 85||||=0.442
92167029|NCT04714320|184224089|SUPERIORITY||||||=|0.834||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 8||||=0.834
92167030|NCT04714320|184224089|SUPERIORITY||||||=|0.945||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 8||||=0.945
92167031|NCT04714320|184224089|SUPERIORITY||||||=|0.208||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 15||||=0.208
92225653|NCT00848354|184352669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.9|||<|0.0001|TWO_SIDED|95.0|2.45|6.22||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||6.22|2.45|<0.0001
92225654|NCT00848354|184352669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.94|||<|0.0001|TWO_SIDED|95.0|3.13|7.78||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||7.78|3.13|<0.0001
92225655|NCT00848354|184352671|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.19||||0.1086|TWO_SIDED|95.0|0.66|40.9||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||40.9|0.66|0.1086
92225656|NCT00848354|184352671|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.58||||0.0392|TWO_SIDED|95.0|1.04|12.3||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||12.3|1.04|0.0392
92225657|NCT00848354|184352671|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.27|||<|0.0001|TWO_SIDED|95.0|2.04|13.6||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||13.6|2.04|<0.0001
92225658|NCT00848354|184352671|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.69|||<|0.0001|TWO_SIDED|95.0|2.39|13.6||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||13.6|2.39|<0.0001
92225659|NCT00848354|184352671|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.78|||<|0.0001|TWO_SIDED|95.0|2.02|7.09||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||7.09|2.02|<0.0001
92225660|NCT00848354|184352671|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.65|||<|0.0001|TWO_SIDED|95.0|2.02|6.6||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||6.60|2.02|<0.0001
92225661|NCT00848354|184352671|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.2|||<|0.0001|TWO_SIDED|95.0|2.36|7.46||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||7.46|2.36|<0.0001
92225662|NCT00848354|184352673|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
92225663|NCT00848354|184352675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.23|||<|0.0001|TWO_SIDED|95.0|3.88|10.0||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value.||10.00|3.88|<0.0001
92225664|NCT00848354|184352676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.79|||<|0.0001|TWO_SIDED|95.0|3.49|17.39||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value.||17.39|3.49|<0.0001
92225665|NCT00848354|184352677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.5|||<|0.0001|TWO_SIDED|95.0|2.24|5.46||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||5.46|2.24|<0.0001
92225666|NCT00848354|184352677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.99|||<|0.0001|TWO_SIDED|95.0|2.91|8.55||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||8.55|2.91|<0.0001
92366262|NCT01299389|184634838|SUPERIORITY_OR_OTHER||LS Mean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-4.1|-1.5|||ANCOVA|||Change at Week 13 or Early Discontinuation: P value were calculated using an ANCOVA model with treatment and country as factors and baseline PANSS total score as a covariate.||-1.5|-4.1|<0.0001
92225667|NCT00848354|184352677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.94|||<|0.0001|TWO_SIDED|95.0|2.93|12.02||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||12.02|2.93|<0.0001
92225668|NCT00848354|184352677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.57|||<|0.0001|TWO_SIDED|95.0|2.27|9.21||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||9.21|2.27|<0.0001
92225669|NCT00848354|184352677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.08|||<|0.0001|TWO_SIDED|95.0|2.74|13.48||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||13.48|2.74|<0.0001
92366263|NCT01299389|184634839|SUPERIORITY_OR_OTHER||LS Mean difference|-4.6|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-6.9|-2.3|||ANCOVA|||Change at Week 13 or Early Discontinuation: P value were calculated using an ANCOVA model with treatment and country as factors and baseline PANSS total score as a covariate.||-2.3|-6.9|<0.0001
92366264|NCT00889707|184634866|SUPERIORITY_OR_OTHER|||||||0.04||||||Test of superiority computed using an ANCOVA model with terms for treatment group, baseline total IPSS, and baseline prostate volume. Tested for 2-sided 0.05 level of statistical significance.|ANCOVA|ANCOVA model with terms for treatment group, baseline total IPSS, and baseline prostate volume.||||||0.040
92225670|NCT00848354|184352677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.86|||<|0.0001|TWO_SIDED|95.0|3.0|15.72||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||15.72|3.00|<0.0001
92225671|NCT00848354|184352677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.64|||<|0.0001|TWO_SIDED|95.0|3.74|15.63||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||15.63|3.74|<0.0001
92225672|NCT00848354|184352679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.15|||<|0.0001|TWO_SIDED|95.0|2.04|4.86||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||4.86|2.04|<0.0001
92225673|NCT00848354|184352679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.41|||<|0.0001|TWO_SIDED|95.0|2.85|6.82||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||6.82|2.85|<0.0001
92225674|NCT00848354|184352679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.99|||<|0.0001|TWO_SIDED|95.0|2.5|6.38||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||6.38|2.50|<0.0001
92225675|NCT00848354|184352679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.9|||<|0.0001|TWO_SIDED|95.0|2.37|6.41||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||6.41|2.37|<0.0001
92225676|NCT00848354|184352679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.58|||<|0.0001|TWO_SIDED|95.0|3.19|9.76||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||9.76|3.19|<0.0001
92225677|NCT00848354|184352679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.49|||<|0.0001|TWO_SIDED|95.0|3.16|9.52||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||9.52|3.16|<0.0001
92225678|NCT00848354|184352679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.59|||<|0.0001|TWO_SIDED|95.0|3.87|11.21||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||11.21|3.87|<0.0001
92225679|NCT00848354|184352681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.52|||<|0.0001|TWO_SIDED|95.0|2.3|5.4||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||5.40|2.30|<0.0001
92225680|NCT00848354|184352681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.87|||<|0.0001|TWO_SIDED|95.0|3.07|7.71||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||7.71|3.07|<0.0001
92225681|NCT00848354|184352681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0|||<|0.0001|TWO_SIDED|95.0|2.98|8.41||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||8.41|2.98|<0.0001
92225682|NCT00848354|184352681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.55|7.58||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||7.58|2.55|<0.0001
92225683|NCT00848354|184352681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.81|||<|0.0001|TWO_SIDED|95.0|3.15|10.74||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||10.74|3.15|<0.0001
92225684|NCT00848354|184352681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.18|||<|0.0001|TWO_SIDED|95.0|3.25|11.73||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||11.73|3.25|<0.0001
92225685|NCT00848354|184352681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.45|||<|0.0001|TWO_SIDED|95.0|3.67|11.33||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||11.33|3.67|<0.0001
92225686|NCT00848354|184352683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.09||||0.0349|TWO_SIDED|95.0|1.05|9.13||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||9.13|1.05|0.0349
92225687|NCT00848354|184352683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.87|||<|0.0001|TWO_SIDED|95.0|1.98|7.6||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||7.60|1.98|<0.0001
92225688|NCT00848354|184352683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.52|||<|0.0001|TWO_SIDED|95.0|2.1|5.88||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||5.88|2.10|<0.0001
92225689|NCT00848354|184352683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.2|||<|0.0001|TWO_SIDED|95.0|2.02|5.06||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||5.06|2.02|<0.0001
92225690|NCT00848354|184352683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.78|6.96||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||6.96|2.78|<0.0001
92225691|NCT00848354|184352683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.8|6.9||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||6.90|2.80|<0.0001
92225692|NCT00848354|184352683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.13|||<|0.0001|TWO_SIDED|95.0|3.82|9.85||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||9.85|3.82|<0.0001
92225693|NCT00848354|184352685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.25|||<|0.0001|TWO_SIDED|95.0|2.74|6.6||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||6.60|2.74|<0.0001
92225694|NCT00848354|184352685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.6|||<|0.0001|TWO_SIDED|95.0|2.94|7.18||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||7.18|2.94|<0.0001
92225695|NCT00848354|184352685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.21|||<|0.0001|TWO_SIDED|95.0|3.15|8.61||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||8.61|3.15|<0.0001
92225696|NCT00848354|184352685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.77|||<|0.0001|TWO_SIDED|95.0|3.36|9.93||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||9.93|3.36|<0.0001
92225697|NCT00848354|184352685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.15|||<|0.0001|TWO_SIDED|95.0|3.91|13.09||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||13.09|3.91|<0.0001
92225698|NCT00848354|184352685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.43|||<|0.0001|TWO_SIDED|95.0|4.5|15.8||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||15.80|4.50|<0.0001
92225699|NCT00848354|184352685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.05|||<|0.0001|TWO_SIDED|95.0|3.5|10.47||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||10.47|3.50|<0.0001
92225700|NCT00848354|184352687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.4||||0.025|TWO_SIDED|95.0|0.96|56.88||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||56.88|0.96|0.0250
92225701|NCT00848354|184352687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.33||||0.0466|TWO_SIDED|95.0|1.0|5.45||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||5.45|1.00|0.0466
92225702|NCT00848354|184352687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84||||0.0007|TWO_SIDED|95.0|1.5|5.36||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||5.36|1.50|0.0007
92225703|NCT00848354|184352687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.97|||<|0.0001|TWO_SIDED|95.0|1.7|5.18||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||5.18|1.70|<0.0001
92225704|NCT00848354|184352687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.06|||<|0.0001|TWO_SIDED|95.0|1.85|5.05||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||5.05|1.85|<0.0001
92225705|NCT00848354|184352687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12|||<|0.0001|TWO_SIDED|95.0|2.47|6.87||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||6.87|2.47|<0.0001
92225706|NCT00848354|184352687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.51|||<|0.0001|TWO_SIDED|95.0|3.72|11.38||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||11.38|3.72|<0.0001
92225707|NCT00848354|184352689|SUPERIORITY_OR_OTHER|||||||0.3054||||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||||0.3054
92225708|NCT00848354|184352689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.4044|TWO_SIDED|95.0|0.58|7.53||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||7.53|0.58|0.4044
92366265|NCT00889707|184634867|SUPERIORITY_OR_OTHER|||||||0.047||||||ANCOVA model with terms for treatment group, baseline total IPSS, baseline prostate volume, and baseline Qmax.|ANCOVA|Model with terms for treatment group, baseline total IPSS, baseline prostate volume, and baseline Qmax.||||||0.047
92225709|NCT00848354|184352689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.53||||0.0388|TWO_SIDED|95.0|1.02|6.26||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||6.26|1.02|0.0388
92225710|NCT00848354|184352689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.89||||0.0059|TWO_SIDED|95.0|1.31|6.34||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||6.34|1.31|0.0059
92225711|NCT00848354|184352689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.3|||<|0.0001|TWO_SIDED|95.0|1.99|9.29||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||9.29|1.99|<0.0001
92225712|NCT00848354|184352689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.94|||<|0.0001|TWO_SIDED|95.0|2.88|12.24||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||12.24|2.88|<0.0001
92225713|NCT00848354|184352689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.18|||<|0.0001|TWO_SIDED|95.0|3.61|23.32||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||23.32|3.61|<0.0001
92225714|NCT00848354|184352691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.4||||0.025|TWO_SIDED|95.0|0.96|56.88||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||56.88|0.96|0.0250
92225715|NCT00848354|184352691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.33||||0.0466|TWO_SIDED|95.0|1.0|5.45||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||5.45|1.00|0.0466
92225716|NCT00848354|184352691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84||||0.0007|TWO_SIDED|95.0|1.5|5.36||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||5.36|1.50|0.0007
92404574|NCT02900378|184700465|OTHER||Differences of least square means|-6.14|STANDARD_ERROR_OF_MEAN|8.61||0.4769|TWO_SIDED|97.5|-25.7|13.41||The comparison of treatment groups were carried out using an ANCOVA model adjusting for treatment, baseline NYHA class (NYHA II vs. III/IV) and the daily non-sedentary daytime activity baseline value as covariates.|ANCOVA|||Change from BL at Week 12 (FAS with MI)||13.41|-25.70|0.4769
92225717|NCT00848354|184352691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.97|||<|0.0001|TWO_SIDED|95.0|1.7|5.18||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||5.18|1.70|<0.0001
92225718|NCT00848354|184352691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.06|||<|0.0001|TWO_SIDED|95.0|1.85|5.05||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||5.05|1.85|<0.0001
92225719|NCT00848354|184352691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12|||<|0.0001|TWO_SIDED|95.0|2.47|6.87||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||6.87|2.47|<0.0001
92225720|NCT00848354|184352691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.51|||<|0.0001|TWO_SIDED|95.0|3.72|11.38||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||11.38|3.72|<0.0001
92225721|NCT00848354|184352693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.53|||<|0.0001|TWO_SIDED|95.0|2.9|7.07||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||7.07|2.90|<0.0001
92225722|NCT00848354|184352693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.01|||<|0.0001|TWO_SIDED|95.0|2.36|6.8||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||6.80|2.36|<0.0001
92225723|NCT00848354|184352693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.23|||<|0.0001|TWO_SIDED|95.0|2.82|9.72||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||9.72|2.82|<0.0001
92404575|NCT02900378|184700465|OTHER||Differences of least square means|-5.67|STANDARD_ERROR_OF_MEAN|6.01||0.3463|TWO_SIDED|95.0|-17.48|6.14||The comparison of treatment groups were carried out using an ANCOVA model adjusting for treatment, baseline NYHA class (NYHA II vs. III/IV) and the daily non-sedentary daytime activity baseline value as covariates.|ANCOVA|||Change from BL at Week 12 (FAS with LOCF)||6.14|-17.48|0.3463
92225724|NCT00848354|184352693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.25|||<|0.0001|TWO_SIDED|95.0|2.63|10.47||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||10.47|2.63|<0.0001
92225725|NCT00848354|184352693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.53|||<|0.0001|TWO_SIDED|95.0|3.16|13.48||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||13.48|3.16|<0.0001
92225726|NCT00848354|184352693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.38|||<|0.0001|TWO_SIDED|95.0|3.86|18.17||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||18.17|3.86|<0.0001
92225727|NCT00848354|184352693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.84|||<|0.0001|TWO_SIDED|95.0|3.94|15.62||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||15.62|3.94|<0.0001
92404576|NCT02900378|184700465|OTHER||Differences of least square means|-6.24|STANDARD_ERROR_OF_MEAN|6.69||0.3513|TWO_SIDED|95.0|-19.39|6.91||The comparison of treatment groups were carried out using an ANCOVA model adjusting for treatment, baseline NYHA class (NYHA II vs. III/IV) and the daily non-sedentary daytime activity baseline value as covariates.|ANCOVA|||Change from BL at Week 12 (FAS without MI/LOCF)||6.91|-19.39|0.3513
92404577|NCT02900378|184700466|OTHER||Odds Ratio (OR)|1.228|||||TWO_SIDED|95.0|0.882|1.708||||||FAS population||1.708|0.882|
92167032|NCT04714320|184224089|SUPERIORITY||||||=|0.74||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 15||||=0.740
92167033|NCT04714320|184224089|SUPERIORITY||||||=|0.019||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 22||||=0.019
92167034|NCT04714320|184224089|SUPERIORITY||||||=|0.56||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 22||||=0.560
92167035|NCT04714320|184224089|SUPERIORITY||||||=|0.903||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure are included in Logistic Regression model, firth correction will be applied if quasi-complete separation of data points is detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 29||||=0.903
92167036|NCT04714320|184224089|SUPERIORITY||||||=|0.268||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure are included in Logistic Regression model, firth correction will be applied if quasi-complete separation of data points is detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 29||||=0.268
92167037|NCT04714320|184224089|SUPERIORITY||||||=|0.702||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 36||||=0.702
92167038|NCT04714320|184224089|SUPERIORITY||||||=|0.885||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 36||||=0.885
92167039|NCT04714320|184224089|SUPERIORITY||||||=|0.066||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 43||||=0.066
92167040|NCT04714320|184224089|SUPERIORITY||||||=|0.783||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 43||||=0.783
92225728|NCT00848354|184352695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.67|||<|0.0001|TWO_SIDED|95.0|2.35|5.73||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||5.73|2.35|<0.0001
92404578|NCT02900378|184700467|OTHER||Odds Ratio (OR)|1.251|||||TWO_SIDED|95.0|0.895|1.748||||||FAS subset without AE/SAE||1.748|0.895|
92167041|NCT04714320|184224089|SUPERIORITY||||||=|0.456||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 50||||=0.456
92167042|NCT04714320|184224089|SUPERIORITY||||||=|0.102||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 50||||=0.102
92404579|NCT02900378|184700468|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.634|2.464||||||FAS population||2.464|0.634|
92404580|NCT02900378|184700469|OTHER||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.644|2.544||||||FAS subset without AE/SAE||2.544|0.644|
92404581|NCT02900378|184700470|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.863|1.811||||||FAS population||1.811|0.863|
92404582|NCT02900378|184700471|OTHER||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|0.865|1.834||||||FAS subset without AE/SAE||1.834|0.865|
92167043|NCT04714320|184224089|SUPERIORITY||||||=|0.668||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 57||||=0.668
92167044|NCT04714320|184224089|SUPERIORITY||||||=|0.454||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 57||||=0.454
92167045|NCT04714320|184224089|SUPERIORITY||||||=|0.044||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 64||||=0.044
92225729|NCT00848354|184352695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.65|||<|0.0001|TWO_SIDED|95.0|3.0|7.22||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||7.22|3.00|<0.0001
92225730|NCT00848354|184352695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.96|||<|0.0001|TWO_SIDED|95.0|3.05|8.06||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||8.06|3.05|<0.0001
92225731|NCT00848354|184352695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.34|||<|0.0001|TWO_SIDED|95.0|3.18|8.96||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||8.96|3.18|<0.0001
92225732|NCT00848354|184352695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.7|||<|0.0001|TWO_SIDED|95.0|3.23|10.06||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||10.06|3.23|<0.0001
92225733|NCT00848354|184352695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.88|||<|0.0001|TWO_SIDED|95.0|4.37|14.2||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||14.20|4.37|<0.0001
92225734|NCT00848354|184352695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.73|||<|0.0001|TWO_SIDED|95.0|3.4|9.65||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||9.65|3.40|<0.0001
92366266|NCT02185534|184634868|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25|Geometric mean ratio|104.43|||||TWO_SIDED|90.0|92.27|118.19|||||Geometric mean ratio is calculated as A/B, where A= European clopidogrel and B=Japanese clopidogrel|||118.19|92.27|
92366267|NCT02185534|184634868|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio is calculated as A/C, where A= European clopidogrel and C=US clopidogrel|Geometric mean ratio|97.19|||||TWO_SIDED|90.0|81.12|116.45|||||Geometric mean ratio is calculated as A/C, where A= European clopidogrel and C=US clopidogrel|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25||116.45|81.12|
92366268|NCT02185534|184634869|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25.|Geometric mean ratio|108.06|||||TWO_SIDED|90.0|95.46|122.33|||||Geometric mean ratio is calculated as A/B, where A= European clopidogrel and B=Japanese clopidogrel|||122.33|95.46|
92366269|NCT02185534|184634869|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25.|Geometric mean ratio|105.79|||||TWO_SIDED|90.0|95.22|117.53|||||Geometric mean ratio is calculated as A/C, where A= European clopidogrel and C=US clopidogrel|||117.53|95.22|
92366270|NCT02185534|184634870|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25.|Geometric mean ratio|93.94|||||TWO_SIDED|90.0|87.12|101.29|||||Geometric mean ratio is calculated as A/B, where A= European clopidogrel and B=Japanese clopidogrel|||101.29|87.12|
92366271|NCT02185534|184634870|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25|Geometric mean ratio|92.03|||||TWO_SIDED|90.0|84.91|99.75|||||Geometric mean ratio is calculated as A/C, where A= European clopidogrel and C=US clopidogrel|||99.75|84.91|
92366272|NCT00149799|184634876|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.73||||0.048|TWO_SIDED|95.0|1.01|8.59|||Regression, Cox|p-value is based on the likelihood ratio Chi-Square statistic.||Cox proportional hazards regression was used to compare relapse rates (accounting for censoring and time from randomization to relapse) in Phase II.||8.59|1.01|0.048
92404583|NCT02900378|184700472|OTHER|||||||0.1814|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4 (FAS)||||0.1814
92225735|NCT00848354|184352697|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
92404584|NCT02900378|184700472|OTHER|||||||0.3315|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4 (FAS without AE/SAE)||||0.3315
92404585|NCT02900378|184700472|OTHER|||||||0.2414|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8 (FAS)||||0.2414
92404586|NCT02900378|184700472|OTHER|||||||0.1793|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8 (FAS without AE/SAE)||||0.1793
92167046|NCT04714320|184224089|SUPERIORITY||||||=|0.704||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 64||||=0.704
92167047|NCT04714320|184224089|SUPERIORITY||||||=|0.878||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 71||||=0.878
92225736|NCT00848354|184352699|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
92167048|NCT04714320|184224089|SUPERIORITY||||||=|0.681||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 71||||=0.681
92167049|NCT04714320|184224089|SUPERIORITY||||||=|0.199||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 78||||=0.199
92167050|NCT04714320|184224089|SUPERIORITY||||||=|0.602||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 78||||=0.602
92167051|NCT04714320|184224089|SUPERIORITY||||||=|0.135||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 85||||=0.135
92225737|NCT00848354|184352701|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
92225738|NCT00848354|184352703|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
92225739|NCT00848354|184352705|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 2.||||<0.0001
92225740|NCT00848354|184352705|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 4.||||0.0007
92225741|NCT00848354|184352705|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0009
92225742|NCT00848354|184352705|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 12.||||0.0007
92225743|NCT00848354|184352705|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0005
92225744|NCT00848354|184352705|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 20.||||<0.0001
92225745|NCT00848354|184352705|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
92404587|NCT02900378|184700473|OTHER||Odds Ratio (OR)|0.821|||||TWO_SIDED|95.0|0.462|1.457||||||Increased levels (\>= 10% increase) of non sedentary daytime physical activity at Week 12||1.457|0.462|
92404588|NCT02900378|184700474|OTHER|||||||0.0516|||||||Chi-squared|||Week 4||||0.0516
92167052|NCT04714320|184224089|SUPERIORITY||||||=|0.407||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 85||||=0.407
92167053|NCT04714320|184224089|SUPERIORITY||||||=|0.795||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 92||||=0.795
92366273|NCT00149799|184634878|SUPERIORITY||Slope difference|-0.07006|STANDARD_ERROR_OF_MEAN|0.04163||0.093|TWO_SIDED|||||A priori threshold for statistical significance: 0.0167 Model term of interest: treatment by time interaction (i.e., slope difference between treatments over time)|Mixed Models Analysis|Degrees of freedom=556||"We compared change in depression over time by randomized treatment group (Escitalopram vs. Placebo) using a random coefficient model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in depression symptom severity in the Escitalopram group will not be significantly different from the placebo group \[to be tested\]."||||0.0930
92366274|NCT00149799|184634879|SUPERIORITY||Slope difference|0.001176|STANDARD_ERROR_OF_MEAN|0.03991||0.9766|TWO_SIDED|||||A priori threshold for statistical significance: 0.0167 Model term of interest: treatment by time interaction (i.e., slope difference between treatments over time)|Mixed Models Analysis|Degrees of freedom=43||"We compared change in functional impairment over time during trial phase 2 by treatment group (Escitalopram vs. Placebo) using a random coefficient model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in functional impairment in the Escitalopram group will not be significantly different from that of the placebo group \[to be tested\]."||||0.9766
92366275|NCT00149799|184634880|SUPERIORITY||Slope difference|0.05723|STANDARD_ERROR_OF_MEAN|0.1963||0.7724|TWO_SIDED|||||A priori threshold for statistical significance: 0.0167 Model term of interest: treatment by time interaction (i.e., slope difference between treatments over time)|Mixed Models Analysis|Degrees of freedom=36||"We compared change in Q-LES-Q-SF percent scores over time by randomized treatment group (Escitalopram vs. Placebo) using a random coefficient model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in Q-LES-Q-SF percent scores in the Escitalopram group will not be significantly different from that of the placebo group \[to be tested\]."||||0.7724
92366276|NCT02737501|184634905|SUPERIORITY||Hazard Ratio (HR)|0.481|||<|0.0001|TWO_SIDED|95.0|0.35|0.66||P-values are from a log-rank test stratified by randomization stratification factors (current; presence of intracranial central nervous system (iCNS) metastases at baseline and prior chemotherapy for locally advanced or metastatic disease).|Log Rank||The hazard ratio was obtained using a Cox proportional hazards model with randomization stratification factors (current) as covariates.|||0.66|0.35|<0.0001
92366277|NCT02737501|184634906|SUPERIORITY||Odds Ratio (OR)|1.74||||0.033|TWO_SIDED|95.0|1.04|2.91|||Cochran-Mantel-Haenszel||Odds ratios and p-values were from a Cochran-Mantel-Haenszel test stratified by presence of intracranial central nervous system (iCNS) metastases at Baseline, and prior chemotherapy for locally advanced or metastatic disease (current strata).|||2.91|1.04|0.0330
92366278|NCT02737501|184634907|SUPERIORITY||Odds Ratio (OR)|13.56|||<|0.0001|TWO_SIDED|95.0|4.7|39.11|||Cochran-Mantel-Haenszel||Odds ratios and p-values were from a Cochran-Mantel-Haenszel test stratified by presence of prior chemotherapy for Locally advanced or metastatic disease at study entry (current strata).|||39.11|4.70|<0.0001
92225746|NCT00848354|184352707|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
92225747|NCT00848354|184352709|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
92167054|NCT04714320|184224089|SUPERIORITY||||||=|0.036||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 92||||=0.036
92167055|NCT04714320|184224089|SUPERIORITY||||||=|0.915||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 106||||=0.915
92167056|NCT04714320|184224089|SUPERIORITY||||||=|0.957||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 106||||=0.957
92167057|NCT04714320|184224089|SUPERIORITY||||||=|0.804||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 120||||=0.804
92167058|NCT04714320|184224089|SUPERIORITY||||||=|0.775||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 120||||=0.775
92167059|NCT04714320|184224089|SUPERIORITY||||||=|0.801||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 148||||=0.801
92366279|NCT02737501|184634908|SUPERIORITY||Hazard Ratio (HR)|0.293|||<|0.0001|TWO_SIDED|95.0|0.17|0.51||P-values are from a log-rank test stratified by randomization stratification factors (current; presence of iCNS metastases at baseline and prior chemotherapy for locally advanced or metastatic disease).|Log Rank||The hazard ratio was obtained using a Cox proportional hazards model with prior chemotherapy for locally advanced or metastatic disease (current strata) as covariate.|||0.51|0.17|<0.0001
92366280|NCT02737501|184634912|SUPERIORITY||Odds Ratio (OR)|0.93||||0.822|TWO_SIDED|95.0|0.47|1.82|||Cochran-Mantel-Haenszel||Odds ratios and p-values were from a Cochran-Mantel-Haenszel test stratified by presence of iCNS metastases at Baseline, and prior chemotherapy for locally advanced or metastatic disease (current strata).|||1.82|0.47|0.8220
92366281|NCT02737501|184634914|SUPERIORITY||Least Square Mean Difference|5.79||||0.0295|TWO_SIDED|95.0|0.58|11.0||p-values were obtained using mixed effects models stratified by presence of iCNS metastases at study entry, prior chemotherapy at Baseline.|Mixed Models Analysis|A mixed effect model is used with an unstructured covariance matrix.||||11.00|0.58|0.0295
92167060|NCT04714320|184224089|SUPERIORITY||||||=|0.329||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 148||||=0.329
92167061|NCT04714320|184224089|SUPERIORITY||||||=|0.882||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 169||||=0.882
92366282|NCT02012218|184634915|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values were calculated according to testing a null hypothesis of zero mean change.|Mixed Models Analysis|This analysis was conducted using a mixed model repeated measures analysis on observed case data.||The null hypothesis of zero in mean change from baseline in MADRS total score at Week 6 was tested for each treatment group at significance level of 0.05 (2-sided).||||<0.0001
92366283|NCT00553410|184634957|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.31|TWO_SIDED|95.0|0.93|1.26|||Log Rank|||||1.26|.93|.31
92366284|NCT00553410|184634958|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.16|TWO_SIDED|95.0|0.68|1.06|||Log Rank|||||1.06|.68|.16
92366285|NCT00553410|184634959|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.25|TWO_SIDED|95.0|0.71|1.09|||Log Rank|||||1.09|.71|.25
92366286|NCT00553410|184634960|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.84|TWO_SIDED|95.0|0.81|1.18|||Log Rank|||||1.18|.81|.84
92366287|NCT01482715|184634968|OTHER||RP2D|600.0|||||TWO_SIDED||||||||||A MTD was not established based on observation of DLTs in Cycle 1 of treatment. The 600 mg BID dose was considered to be the maximum dose with an acceptable toxicity profile that could be continuously administered to patients and was selected as the recommended Phase 2 dose (RP2D).|||
92366288|NCT00996658|184635011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.0001||95.0|-0.83|-0.31|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and centre||||-0.31|-0.83|< 0.0001
92404589|NCT02900378|184700474|OTHER|||||||0.9025|||||||Chi-squared|||Week 8||||0.9025
92167062|NCT04714320|184224089|SUPERIORITY||||||=|0.235||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 169||||=0.235
92167063|NCT04714320|184224089|SUPERIORITY||||||=|0.505||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 8||||=0.505
92167064|NCT04714320|184224089|SUPERIORITY||||||=|0.436||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 8||||=0.436
92167065|NCT04714320|184224089|SUPERIORITY||||||=|0.637||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 15||||=0.637
92167066|NCT04714320|184224089|SUPERIORITY||||||=|0.254||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 15||||=0.254
92167067|NCT04714320|184224089|SUPERIORITY||||||=|0.848||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 22||||=0.848
92167068|NCT04714320|184224089|SUPERIORITY||||||=|0.24||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 22||||=0.240
92167069|NCT04714320|184224089|SUPERIORITY||||||=|0.382||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 29||||=0.382
92366289|NCT00996658|184635012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||<|0.0001||95.0|-0.61|-0.21|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and centre||||-0.21|-0.61|< 0.0001
92366290|NCT00996658|184635013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.0001||95.0|-0.79|-0.28|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and centre||||-0.28|-0.79|< 0.0001
92404590|NCT02900378|184700474|OTHER|||||||0.6713|||||||Chi-squared|||Week 12||||0.6713
92404591|NCT02900378|184700475|OTHER|||||||0.0029|||||||Chi-squared|||Week 4||||0.0029
92404592|NCT02900378|184700475|OTHER|||||||0.7754|||||||Chi-squared|||Week 8||||0.7754
92167070|NCT04714320|184224089|SUPERIORITY||||||=|0.935||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 29||||=0.935
92276923|NCT00185211|184455400|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.797||||0.1265||95.0|0.595|1.066||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|Andersen-Gill Model|Covariate adjustment: steroid use during first event, onset of disease, categorized number of T2 lesions at screening|The direction of comparison is initial IFNB-1b (numerator) versus initial placebo (denominator), i.e. the Hazard Ratio represents the relative risk of initial IFNB-1b treatment compared to initial placebo treatment.|The time to recurrent relapses was modelled by an extension of Cox's PH regression model (Andersen-Gill Model) for recurrent events with the following covariates: treatment group, steroid use during first event (yes vs. no), onset of disease (monofocal vs. multifocal) and number of T2 lesions at screening (2-4, 5-8 and at least 9 T2 lesions). The null hypothesis was: Initial IFNB-1b and initial placebo do not differ with regard to the hazard for recurrent relapses, i.e. hazard ratio = 1.||1.066|0.595|0.1265
92366291|NCT00996658|184635014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.0001||95.0|-0.8|-0.29|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and centre||||-0.29|-0.80|< 0.0001
92366292|NCT00996658|184635015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.939||||0.0033|TWO_SIDED|95.0|1.432|6.032|||Regression, Logistic|||Linagliptin vs Placebo||6.032|1.432|0.0033
92366293|NCT00996658|184635016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.902||||0.0074|TWO_SIDED|95.0|1.44|10.572|||Regression, Logistic|||Linagliptin vs Placebo||10.572|1.440|0.0074
92366294|NCT00996658|184635017|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.059||||0.0071|TWO_SIDED|95.0|1.216|3.485|||Regression, Logistic|||Linagliptin vs. Placebo||3.485|1.216|0.0071
92366295|NCT00996658|184635018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4||||0.028||95.0|-19.6|-1.1|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline FPG, and centre||||-1.1|-19.6|0.0280
92366296|NCT00996658|184635019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.7||||0.0006||95.0|-24.5|-6.8|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline FPG, and centre||||-6.8|-24.5|0.0006
92366297|NCT00996658|184635020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9||||0.021||95.0|-20.2|-1.7|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline FPG, and centre||||-1.7|-20.2|0.0210
92366298|NCT00996658|184635021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.2||||0.2137||95.0|-16.0|3.6|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline FPG, and centre||||3.6|-16.0|0.2137
92167071|NCT04714320|184224089|SUPERIORITY||||||=|0.278||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 36||||=0.278
92167072|NCT04714320|184224089|SUPERIORITY||||||=|0.211||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 36||||=0.211
92167073|NCT04714320|184224089|SUPERIORITY||||||=|0.562||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 43||||=0.562
92167074|NCT04714320|184224089|SUPERIORITY||||||=|0.25||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 43||||=0.250
92167075|NCT04714320|184224089|SUPERIORITY||||||=|0.114||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 50||||=0.114
92167076|NCT04714320|184224089|SUPERIORITY||||||=|0.55||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 50||||=0.550
92167077|NCT04714320|184224089|SUPERIORITY||||||=|0.423||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 57||||=0.423
92167078|NCT04714320|184224089|SUPERIORITY||||||=|0.422||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 57||||=0.422
92167079|NCT04714320|184224089|SUPERIORITY||||||=|0.073||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 64||||=0.073
92167080|NCT04714320|184224089|SUPERIORITY||||||=|0.278||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 64||||=0.278
92167081|NCT04714320|184224089|SUPERIORITY||||||=|0.338||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 71||||=0.338
92225748|NCT00848354|184352711|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
92225749|NCT00848354|184352713|SUPERIORITY_OR_OTHER|||||||0.1975|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value.||||0.1975
92167082|NCT04714320|184224089|SUPERIORITY||||||=|0.969||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 71||||=0.969
92167083|NCT04714320|184224089|SUPERIORITY||||||=|0.489||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 78||||=0.489
92167084|NCT04714320|184224089|SUPERIORITY||||||=|0.156||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 78||||=0.156
92225750|NCT00848354|184352714|SUPERIORITY_OR_OTHER|||||||0.0044|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value.||||0.0044
92225751|NCT00848354|184352715|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
92167085|NCT04714320|184224089|SUPERIORITY||||||=|0.389||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 85||||=0.389
92225752|NCT00848354|184352717|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 2.||||<0.0001
92225753|NCT00848354|184352717|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 4.||||<0.0001
92167086|NCT04714320|184224089|SUPERIORITY||||||=|0.775||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 85||||=0.775
92167087|NCT04714320|184224089|SUPERIORITY||||||=|0.437||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 92||||=0.437
92225754|NCT00848354|184352717|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0002
92366299|NCT04566731|184635023|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
92366300|NCT04267926|184635024|OTHER|||||||0.9489|TWO_SIDED||||||Mixed Models Analysis||||In our work there are several hypotheses for the group comparison for the change. Therefore multiple estimate values that are not suitable for the questions above.|||0.9489
92366301|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.029|TWO_SIDED||||||t-test, 2 sided|||CFB in GHS/QoL statistical analysis at Cycle 5.||||=0.029
92366302|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.027|TWO_SIDED||||||t-test, 2 sided|||CFB in GHS/QoL statistical analysis at Cycle 11.||||=0.027
92366303|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.602|TWO_SIDED||||||t-test, 2 sided|||CFB in GHS/QoL statistical analysis at end of FU.||||=0.602
92366304|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.631|TWO_SIDED||||||t-test, 2 sided|||CFB in physical functioning statistical analysis at Cycle 5.||||=0.631
92366305|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.339|TWO_SIDED||||||t-test, 2 sided|||CFB in physical functioning statistical analysis at Cycle 11.||||=0.339
92366306|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.44|TWO_SIDED||||||t-test, 2 sided|||CFB in physical functioning statistical analysis at end of FU.||||=0.440
92366307|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||t-test, 2 sided|||CFB in role functioning statistical analysis at Cycle 5.||||=1.000
92366308|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.465|TWO_SIDED||||||t-test, 2 sided|||CFB in role functioning statistical analysis at Cycle 11.||||=0.465
92366309|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.431|TWO_SIDED||||||t-test, 2 sided|||CFB in role functioning statistical analysis at end of FU.||||=0.431
92366310|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.65|TWO_SIDED||||||t-test, 2 sided|||CFB in emotional functioning statistical analysis at Cycle 5.||||=0.650
92167088|NCT04714320|184224089|SUPERIORITY||||||=|0.618|||||||Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 92||||=0.618
92225755|NCT00848354|184352717|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 12.||||0.0007
92225756|NCT00848354|184352717|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0001
92225757|NCT00848354|184352717|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 20.||||<0.0001
92225758|NCT00848354|184352717|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||0.0021
92225759|NCT00848354|184352718|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0001
92225760|NCT00848354|184352718|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||<0.0001
92225761|NCT00848354|184352718|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||0.0003
92225762|NCT00848354|184352720|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||<0.0001
92225763|NCT00848354|184352720|SUPERIORITY_OR_OTHER|||||||0.0264|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0264
92225764|NCT00848354|184352720|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||0.0002
92225765|NCT00848354|184352722|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0005
92225766|NCT00848354|184352722|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||<0.0001
92225767|NCT00848354|184352722|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
92225768|NCT00848354|184352724|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 8, Week 16, and Week 24 - independently).||||<0.0001
92225769|NCT00848354|184352725|SUPERIORITY_OR_OTHER|||||||0.0061|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0061
92225770|NCT00848354|184352725|SUPERIORITY_OR_OTHER|||||||0.073|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0730
92225771|NCT00848354|184352725|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
92225772|NCT00848354|184352726|SUPERIORITY_OR_OTHER|||||||0.0066|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0066
92225773|NCT00848354|184352726|SUPERIORITY_OR_OTHER|||||||0.0036|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0036
92404593|NCT02900378|184700475|OTHER|||||||0.2172|||||||Chi-squared|||Week 12||||0.2172
92225774|NCT00848354|184352726|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
92225775|NCT00848354|184352727|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||<0.0001
92225776|NCT00848354|184352727|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0013
92225777|NCT00848354|184352727|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||0.0002
92225778|NCT00848354|184352728|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0021
92225779|NCT00848354|184352728|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||<0.0001
92225780|NCT00848354|184352728|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
92225781|NCT00848354|184352729|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0062
92225782|NCT00848354|184352729|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0007
92225783|NCT00848354|184352729|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
92225784|NCT00848354|184352730|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||<0.0001
92225785|NCT00848354|184352730|SUPERIORITY_OR_OTHER|||||||0.0073|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0073
92225786|NCT00848354|184352730|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
92225787|NCT03505021|184352733|SUPERIORITY||Mean Difference (Final Values)|0.258||||0.8253|TWO_SIDED|95.0|-2.032|2.547|||ANCOVA|||||2.547|-2.032|0.8253
92225788|NCT03505021|184352734|SUPERIORITY||Mean Difference (Final Values)|10.69||||0.4277|TWO_SIDED|95.0|-15.74|37.12|||ANCOVA|||||37.12|-15.74|0.4277
92225789|NCT03505021|184352735|SUPERIORITY||Hazard Ratio (HR)|1.051||||0.6733|TWO_SIDED|95.0|0.833|1.327|||Regression, Cox|||||1.327|0.833|0.6733
92404594|NCT02900378|184700476|OTHER|||||||0.0008|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.0008
92404595|NCT02900378|184700476|OTHER|||||||0.0008|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0008
92404596|NCT02900378|184700476|OTHER|||||||0.0297|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.0297
92225790|NCT03505021|184352736|SUPERIORITY||Mean Difference (Final Values)|3.762||||0.1295|TWO_SIDED|95.0|-1.129|8.654|||ANCOVA|||||8.654|-1.129|0.1295
92225791|NCT03505021|184352737|SUPERIORITY||Mean Difference (Final Values)|0.013||||0.623|TWO_SIDED|95.0|-0.04|0.066|||Mixed Models Analysis|||||0.066|-0.040|0.6230
92225792|NCT03505021|184352738|SUPERIORITY||Mean Difference (Final Values)|-0.272||||0.1752|TWO_SIDED|95.0|-0.666|0.122|||ANCOVA|||||0.122|-0.666|0.1752
92225793|NCT01299766|184352775|SUPERIORITY||Risk Ratio (RR)|0.12||||0.02|TWO_SIDED|95.0|0.02|0.74|||Poisson regression with robust SE (GEE)|||Poisson regression with robust standard errors (GEE) was used to jointly model decline in HVLT-R Total Recall score ≥ 6 words at 6, 12, 18, and 24 months by treatment group. The model included time, treatment, time-by-treatment interaction terms, and baseline HVLT-R Total Recall score.||0.74|0.02|.02
92404597|NCT02900378|184700476|OTHER|||||||0.0069|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0069
92404598|NCT02900378|184700476|OTHER|||||||0.2275|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.2275
92404599|NCT02900378|184700476|OTHER|||||||0.3486|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.3486
92404600|NCT02900378|184700476|OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.6800
92404601|NCT02900378|184700476|OTHER|||||||0.7184|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.7184
92404602|NCT02900378|184700476|OTHER|||||||0.5301|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.5301
92225794|NCT01299766|184352776|SUPERIORITY||Difference in Slopes|2.47||||0.064|TWO_SIDED|95.0|-0.14|5.07|||Mixed Models Analysis|||Mixed effects linear regression was used to model the trajectory. Fixed effects for time (as a continuous variable), treatment group, time-by-treatment group interaction, and age at baseline were included. Random intercepts and slopes were included to account for within-subject correlation.||5.07|-.14|.064
92225795|NCT01354028|184352800|SUPERIORITY_OR_OTHER|||||||0.1303||95.0|||||Chi-squared|Degrees of freedom =1||"Null hypothesis: there will be no difference in sleep efficiency in preterm infants on the day of massage versus the day without massage.~Power calculation: the sample size was determined by convenience for this pilot study"||||0.1303
92225796|NCT01354028|184352803|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||Pearson's chi square|Chi-squared|Degrees of freedom=1||"Null hypothesis: there is no difference in massage therapy or no massage therapy in number of infants who will be asleep at the end of massage or the corresponding time frame on the non massage day.~Pearson's chi square=4.98"||||0.026
92225797|NCT01641939|184352804|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.8589|TWO_SIDED|95.0|0.87|1.6||One sided p-value with correction for interim treatment selection due to adaptive seamless phase design.|Log Rank|Log-Rank test, inverse normal combination test.||The unstratified Cox proportional hazards model was used to estimate the hazard ratio. The 95% Confidence Interval (CI) for median was computed using the method of Brookmeyer and Crowley. Reference group: Standard Taxane Therapy.||1.60|0.87|0.8589
92225798|NCT01641939|184352805|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.32|2.03||||||The unstratified Cox proportional hazards model was used to estimate the hazard ratio. The 95% CI for median was computed using the method of Brookmeyer and Crowley. Reference group: Standard Taxane Therapy.||2.03|0.32|
92366311|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.98|TWO_SIDED||||||t-test, 2 sided|||CFB in emotional functioning statistical analysis at Cycle 11.||||=0.980
92366312|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.906|TWO_SIDED||||||t-test, 2 sided|||CFB in emotional functioning statistical analysis at end of FU.||||=0.906
92366313|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.381|TWO_SIDED||||||t-test, 2 sided|||CFB in cognitive functioning statistical analysis at Cycle 5.||||=0.381
92366314|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.886|TWO_SIDED||||||t-test, 2 sided|||CFB in cognitive functioning statistical analysis at Cycle 11.||||=0.886
92366315|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.264|TWO_SIDED||||||t-test, 2 sided|||CFB in cognitive functioning statistical analysis at end of FU.||||=0.264
92366316|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.424|TWO_SIDED||||||t-test, 2 sided|||CFB in social functioning statistical analysis at Cycle 5.||||=0.424
92366317|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||t-test, 2 sided|||CFB in social functioning statistical analysis at Cycle 11.||||=1.000
92404603|NCT02900378|184700476|OTHER|||||||0.6019|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.6019
92404604|NCT02900378|184700476|OTHER|||||||0.8229|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.8229
92404605|NCT02900378|184700476|OTHER|||||||0.8229|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.8229
92225799|NCT01641939|184352805|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.01|||||TWO_SIDED|95.0|0.82|4.92||||||The unstratified Cox proportional hazards model was used to estimate the hazard ratio. The 95% CI for median was computed using the method of Brookmeyer and Crowley. Reference group: Standard Taxane Therapy.||4.92|0.82|
92225800|NCT01641939|184352805|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.23|0.96||||||The unstratified Cox proportional hazards model was used to estimate the hazard ratio. The 95% CI for median was computed using the method of Brookmeyer and Crowley. Reference group: Trastuzumab Emtansine 3.6 mg||0.96|0.23|
92366318|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.312|TWO_SIDED||||||t-test, 2 sided|||CFB in social functioning statistical analysis at end of FU.||||=0.312
92366319|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.664|TWO_SIDED||||||t-test, 2 sided|||CFB in fatigue statistical analysis at Cycle 5.||||=0.664
92366320|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.17|TWO_SIDED||||||t-test, 2 sided|||CFB in fatigue functioning statistical analysis at Cycle 11.||||=0.170
92366321|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.318|TWO_SIDED||||||t-test, 2 sided|||CFB in fatigue statistical analysis at end of FU.||||=0.318
92366322|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.536|TWO_SIDED||||||t-test, 2 sided|||CFB in Nausea/vomiting statistical analysis at Cycle 5.||||=0.536
92366323|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.9|TWO_SIDED||||||t-test, 2 sided|||CFB in nausea/vomiting statistical analysis at Cycle 11.||||=0.900
92366324|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.188|TWO_SIDED||||||t-test, 2 sided|||CFB in nausea/vomiting statistical analysis at end of FU.||||=0.188
92366325|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.37|TWO_SIDED||||||t-test, 2 sided|||CFB in pain statistical analysis at Cycle 5.||||=0.370
92366326|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|0.813|TWO_SIDED||||||t-test, 2 sided|||CFB in pain statistical analysis at Cycle 11.||||=0.813
92366327|NCT00532129|184635042|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||t-test, 2 sided|||CFB in pain statistical analysis at end of FU.||||=1.000
92366328|NCT00589797|184635102|NON_INFERIORITY|The trial was designed as a non-inferiority trial with a margin (delta) of 15%. Additional analyses using a delta of 10% as requested by FDA were also conducted.|||||<|0.05|TWO_SIDED|95.0|||||t-test, 1 sided|||||||<0.05
92366329|NCT02141672|184635113|SUPERIORITY||Odds Ratio (OR)|2.03||||0.045|TWO_SIDED|95.0|1.01|4.05|||Regression, Logistic|||Voclosporin low dose vs. placebo||4.05|1.01|0.045
92366330|NCT02141672|184635113|SUPERIORITY||Odds Ratio (OR)|1.59||||0.204|TWO_SIDED|95.0|0.78|3.27|||Regression, Logistic|||Voclosporin high dose vs. placebo||3.27|0.78|0.204
92366331|NCT02141672|184635114|SUPERIORITY||Odds Ratio (OR)|3.21|||<|0.001|TWO_SIDED|95.0|1.68|6.13|||Regression, Logistic|||Voclosporin low dose vs. placebo||6.13|1.68|<0.001
92404606|NCT02900378|184700477|OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0001
92404607|NCT02900378|184700477|OTHER|||||||0.0123|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0123
92404608|NCT02900378|184700477|OTHER|||||||0.256|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.2560
92404609|NCT02900378|184700477|OTHER|||||||0.5865|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.5865
92404610|NCT02900378|184700477|OTHER|||||||0.5463|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.5463
92404611|NCT02900378|184700477|OTHER|||||||0.3212|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.3212
92225801|NCT01641939|184352807|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.308|TWO_SIDED|95.0|0.89|1.43|||Log Rank|||The unstratified Cox proportional hazards model was used to estimate the hazard ratio. The 95% CI for median was computed using the method of Brookmeyer and Crowley. Reference group: Standard Taxane Therapy||1.43|0.89|0.308
92225802|NCT05022641|184352846|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||.6
92225803|NCT05022641|184352847|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||||||.65
92366332|NCT02141672|184635114|SUPERIORITY||Odds Ratio (OR)|2.1||||0.026|TWO_SIDED|95.0|1.09|4.02|||Regression, Logistic|||Voclosporin high dose vs. placebo||4.02|1.09|0.026
92366333|NCT02141672|184635115|SUPERIORITY||Odds Ratio (OR)|1.9||||0.066|TWO_SIDED|95.0|0.96|3.78|||Regression, Logistic|||||3.78|0.96|0.066
92366334|NCT02141672|184635115|SUPERIORITY||Odds Ratio (OR)|1.64||||0.162|TWO_SIDED|95.0|0.82|3.28|||Regression, Logistic|||||3.28|0.82|0.162
92366335|NCT02141672|184635116|SUPERIORITY||Hazard Ratio (HR)|2.26|||<|0.001|TWO_SIDED|95.0|1.45|3.51|||Regression, Cox|||Voclosporin low dose vs. placebo||3.51|1.45|<0.001
92366336|NCT02141672|184635116|SUPERIORITY||Hazard Ratio (HR)|2.25|||<|0.001|TWO_SIDED|95.0|1.46|3.47|||Regression, Cox|||Voclosporin high dose vs. placebo||3.47|1.46|<0.001
92404612|NCT02900378|184700478|OTHER|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.0004
92225804|NCT05022641|184352848|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||.02
92225805|NCT05022641|184352849|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.6
92225806|NCT05022641|184352851|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||.6
92225807|NCT03881007|184352852|SUPERIORITY||Incidence rate ratio|1.17||||0.359|TWO_SIDED|95.0|0.84|1.64|||Mixed Models Analysis|||||1.64|0.84|0.359
92225808|NCT03881007|184352853|SUPERIORITY||Incidence rate ratio|5.78||||0.024|TWO_SIDED|95.0|1.52|136.56|||Mixed Models Analysis|||||136.56|1.52|0.024
92225809|NCT03881007|184352854|SUPERIORITY||Incidence rate ratio|1.09||||0.774|TWO_SIDED|95.0|0.61|1.95|||Mixed Models Analysis|||||1.95|0.61|0.774
92366337|NCT02141672|184635117|SUPERIORITY||Hazard Ratio (HR)|2.89|||<|0.001|TWO_SIDED|95.0|1.58|5.29|||Regression, Cox|||||5.29|1.58|<0.001
92366338|NCT02141672|184635117|SUPERIORITY||Hazard Ratio (HR)|1.48|||<|0.248|TWO_SIDED|95.0|0.77|2.86|||Regression, Cox|||Voclosporin high dose vs. placebo||2.86|0.77|<0.248
92366339|NCT02141672|184635119|SUPERIORITY||Hazard Ratio (HR)|1.63||||0.005|TWO_SIDED|95.0|1.16|2.27|||Regression, Cox|||||2.27|1.16|0.005
92366340|NCT02141672|184635119|SUPERIORITY||Hazard Ratio (HR)|1.74||||0.002|TWO_SIDED|95.0|1.25|2.43|||Regression, Cox|||Voclosporin high dose vs. placebo||2.43|1.25|0.002
92366341|NCT02141672|184635121|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.98|TWO_SIDED|95.0|0.45|2.15|||Regression, Cox|||Voclosporin low dose vs. placebo||2.15|0.45|0.980
92366342|NCT02141672|184635121|SUPERIORITY||Hazard Ratio (HR)|1.98||||0.118|TWO_SIDED|95.0|0.95|4.16|||Regression, Cox|||Voclosporin high dose vs. placebo||4.16|0.95|0.118
92366343|NCT02141672|184635123|SUPERIORITY||Odds Ratio (OR)|2.33||||0.007|TWO_SIDED|95.0|1.26|4.33|||Regression, Logistic|||week 24||4.33|1.26|0.007
92366344|NCT02141672|184635123|SUPERIORITY||Odds Ratio (OR)|2.03||||0.024|TWO_SIDED|95.0|1.1|3.76|||Regression, Logistic|||week 24||3.76|1.1|0.024
92366345|NCT02141672|184635123|SUPERIORITY||Odds Ratio (OR)|2.34||||0.007|TWO_SIDED|95.0|1.27|4.33|||Regression, Logistic|||week 48||4.33|1.27|0.007
92366346|NCT02141672|184635123|SUPERIORITY||Odds Ratio (OR)|2.68||||0.002|TWO_SIDED|95.0|1.43|5.02|||Regression, Logistic|||week 48||5.02|1.43|0.002
92366347|NCT02141672|184635124|SUPERIORITY||Hazard Ratio (HR)|2.03|||<|0.001|TWO_SIDED|95.0|1.36|3.03|||Regression, Cox|||Voclosporin low dose vs. placebo||3.03|1.36|<0.001
92366348|NCT02141672|184635124|SUPERIORITY||Hazard Ratio (HR)|1.81||||0.004|TWO_SIDED|95.0|1.22|2.69|||Regression, Cox|||Voclosporin high dose vs. placebo||2.69|1.22|0.004
92366349|NCT02141672|184635126|SUPERIORITY||Hazard Ratio (HR)|2.21|||<|0.001|TWO_SIDED|95.0|1.45|3.36|||Regression, Cox|||Voclosporin low dose vs. placebo||3.36|1.45|<0.001
92366350|NCT02141672|184635126|SUPERIORITY||Hazard Ratio (HR)|1.87||||0.004|TWO_SIDED|95.0|1.23|2.84|||Regression, Cox|||Voclosporin high dose vs. placebo||2.84|1.23|0.004
92366351|NCT02688192|184635132|SUPERIORITY|||||||0.39|||||||ANOVA|df = 33||Effects of the intervention on changes in the General Subscale from baseline to post-intervention (3 months) were evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||0.39
92366352|NCT02688192|184635132|SUPERIORITY|||||||0.49|||||||ANOVA|df = 33||Effects of the intervention on changes in the Sleep/Rest Subscale from baseline to post-intervention (3 months) were evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||.49
92366353|NCT02688192|184635132|SUPERIORITY|||||||0.83|||||||ANOVA|df = 33||Effect of the intervention on changes in the Cognitive Subscale from baseline to post-intervention (3 months) were evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||.83
92366354|NCT02688192|184635133|SUPERIORITY|||||||0.98|||||||ANOVA|df = 33||Effects of the intervention on changes in the PedsQL Physical Summary score were evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||.98
92366355|NCT02688192|184635133|SUPERIORITY|||||||0.85|||||||ANOVA|df = 29||Effects of the intervention on changes in the PedsQL Psychosocial Summary score were evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||.85
92366356|NCT02688192|184635134|SUPERIORITY|||||||0.29|||||||ANOVA|df = 29||||||.29
92366357|NCT02688192|184635135|SUPERIORITY|||||||0.019|||||||ANOVA|df = 32||Effect of the intervention on changes in lower body estimated 1-RM was evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data||||.019
92366358|NCT02688192|184635135|SUPERIORITY|||||||0.34|||||||ANOVA|df = 32||Effect of the intervention on changes in upper body estimated 1-RM was evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||.34
92366359|NCT01773967|184635159|SUPERIORITY|||||||0.83|||||||Mantel Haenszel|||||||0.83
92404613|NCT02900378|184700478|OTHER|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0009
92404614|NCT02900378|184700478|OTHER|||||||0.0094|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.0094
92225810|NCT03881007|184352855|SUPERIORITY||incidence rate ratio|0.59||||0.323|TWO_SIDED|95.0|0.2|1.63|||Mixed Models Analysis|||||1.63|0.2|0.323
92225811|NCT03881007|184352857|SUPERIORITY||Incidence rate ratio|1.21||||0.279|TWO_SIDED|95.0|0.86|1.72|||Mixed Models Analysis|||||1.72|0.86|0.279
92225812|NCT00847587|184352859|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 8 additional hours was chosen to be clinically relevant, as many common medical interventions (such as epidural anesthesia, cesarean delivery, labor induction, and general stress) have been reported to delay time to lactogenesis stage II by up to 12 hours.|Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|120.0|<|0.05|TWO_SIDED|95.0|-10.6|7.7|||t-test, 2 sided|||It was assumed that both groups would have a mean of 54 hours to lactogenesis with a common standard deviation of 12 hours based on previous reports of lactogenesis in women with uncomplicated vaginal deliveries. Setting the noninferiority margin at 8 additional hours, using an alpha 0.05 level comparison, to achieve 80% power a sample size of n=34 evaluable subjects was required in each group. The calculation was performed using N Solution 2007 Professional Software.||7.7|-10.6|<0.05
92225813|NCT00847587|184352860|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.61|STANDARD_DEVIATION|1.8|<|0.05|TWO_SIDED|95.0|-1.3|2.5|||t-test, 2 sided|||||2.5|-1.3|<0.05
92225814|NCT04669678|184352882|OTHER||Odds Ratio (OR)|0.85||||0.306|TWO_SIDED|90.0|0.65|1.11|||Mixed Models Analysis|||Week 2||1.11|0.65|0.306
92225815|NCT04669678|184352882|OTHER||Odds Ratio (OR)|0.81||||0.874|TWO_SIDED|90.0|0.6|1.09|||Mixed Models Analysis|||Week 4||1.09|0.60|0.874
92225816|NCT04669678|184352882|OTHER||Odds Ratio (OR)|1.04||||0.646|TWO_SIDED|90.0|0.91|1.19|||Mixed Models Analysis|||Week 8||1.19|0.91|0.646
92225817|NCT04669678|184352882|OTHER||Odds Ratio (OR)|1.02||||0.869|TWO_SIDED|90.0|0.82|1.28|||Mixed Models Analysis|||Week 12||1.28|0.82|0.869
92225818|NCT04669678|184352882|OTHER||Odds Ratio (OR)|0.51||||0.044|TWO_SIDED|90.0|0.3|0.88|||Mixed Models Analysis|||Week 2||0.88|0.30|0.044
92225819|NCT04669678|184352882|OTHER||Odds Ratio (OR)|0.36|||<|0.001|TWO_SIDED|90.0|0.28|0.46|||Mixed Models Analysis|||Week 4||0.46|0.28|<0.001
92225820|NCT04669678|184352882|OTHER||Odds Ratio (OR)|0.37|||<|0.001|TWO_SIDED|90.0|0.27|0.49|||Mixed Models Analysis|||Week 8||0.49|0.27|<0.001
92225821|NCT04669678|184352882|OTHER||Odds Ratio (OR)|0.44|||<|0.001|TWO_SIDED|90.0|0.35|0.54|||Mixed Models Analysis|||Week 12||0.54|0.35|<0.001
92225822|NCT04669678|184352883|OTHER||Odds Ratio (OR)|1.25||||0.641|TWO_SIDED|90.0|0.57|2.74|||Mixed Models Analysis|||Week 2||2.74|0.57|0.641
92225823|NCT04669678|184352883|OTHER||Odds Ratio (OR)|1.57||||0.204|TWO_SIDED|90.0|0.87|2.8|||Mixed Models Analysis|||Week 4||2.80|0.87|0.204
92276924|NCT00185211|184455401|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7971||||0.0141||95.0|0.665|0.9554||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|generalized linear Poisson regression|covariate adjustment: steroid use during first event, onset of disease, categorized number of T2 lesions at screening|The direction of comparison is initial IFNB-1b (numerator) versus initial placebo (denominator), i.e. the Risk Ratio represents the relative risk of initial IFNB-1b treatment compared to initial placebo treatment.|Relapse rate was analyzed by a generalized linear Poisson regression model with individual relapse counts as dependent variable, covariates: treatment arm, steroid use during first event, onset of disease and categorized number of T2 lesions at screening and offset variable natural log of time (in years) as difference between last clinical visit and baseline visit. The treatment effect on the relapse rate was of primary interest.||0.9554|0.6650|0.0141
92276925|NCT00185211|184455402|SUPERIORITY_OR_OTHER|||||||0.6078||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|non-parametric ANCOVA|Variable used as covariate: MSFC Z-scores measured at baseline||"The null hypothesis H0: The distribution of MSFC Z-scores at month 60 adjusted for baseline MSFC Z-score is identical for both treatment arms was tested against the alternative hypothesis HA: The distribution of MSFC Z-scores at month 60 adjusted for baseline MSFC Z-score is not the same in the two treatment groups based on a non-parametric analysis of covariance (ANCOVA)."||||0.6078
92276926|NCT00185211|184455402|SUPERIORITY_OR_OTHER|||||||0.8245||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|ANCOVA|Variable used as covariate: MSFC Z-scores measured at baseline||"The null hypothesis H0: The mean MSFC Z-scores at month 60 adjusted for baseline MSFC Z-score are identical for both treatment arms was tested against the alternative hypothesis HA: The mean MSFC Z-scores at month 60 adjusted for baseline MSFC Z-score are not the same in the two treatment groups based on a non-parametric analysis of covariance (ANCOVA)."||||0.8245
92366360|NCT01773967|184635161|SUPERIORITY|||||||0.26|||||||Van Elteren's modification Mann-Whitney|||||||0.26
92225824|NCT04669678|184352883|OTHER||Odds Ratio (OR)|1.29||||0.415|TWO_SIDED|90.0|0.77|2.15|||Mixed Models Analysis|||Week 8||2.15|0.77|0.415
92225825|NCT04669678|184352883|OTHER||Odds Ratio (OR)|2.23||||0.027|TWO_SIDED|90.0|1.23|4.06|||Mixed Models Analysis|||Week 12||4.06|1.23|0.027
92225826|NCT04669678|184352883|OTHER||Odds Ratio (OR)|1.86||||0.274|TWO_SIDED|90.0|0.73|4.73|||Mixed Models Analysis|||Week 2||4.73|0.73|0.274
92225827|NCT04669678|184352883|OTHER||Odds Ratio (OR)|1.83||||0.065|TWO_SIDED|90.0|1.07|3.13|||Mixed Models Analysis|||Week 4||3.13|1.07|0.065
92225828|NCT04669678|184352883|OTHER||Odds Ratio (OR)|1.72||||0.252|TWO_SIDED|90.0|0.79|3.75|||Mixed Models Analysis|||Week 8||3.75|0.79|0.252
92225829|NCT04669678|184352883|OTHER||Odds Ratio (OR)|2.61||||0.002|TWO_SIDED|90.0|1.57|4.33|||Mixed Models Analysis|||Week 12||4.33|1.57|0.002
92225830|NCT04669678|184352883|OTHER||Odds Ratio (OR)|0.78||||0.46|TWO_SIDED|90.0|0.46|1.34|||Mixed Models Analysis|||Week 20||1.34|0.46|0.460
92225831|NCT04669678|184352883|OTHER||Odds Ratio (OR)|1.59||||0.019|TWO_SIDED|90.0|1.15|2.2|||Mixed Models Analysis|||Week 24||2.20|1.15|0.019
92404615|NCT02900378|184700478|OTHER|||||||0.0301|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0301
92225832|NCT04669678|184352883|OTHER||Odds Ratio (OR)|2.16||||0.061|TWO_SIDED|90.0|1.1|4.27|||Mixed Models Analysis|||Week 2||4.27|1.10|0.061
92225833|NCT04669678|184352883|OTHER||Odds Ratio (OR)|1.64||||0.106|TWO_SIDED|90.0|0.99|2.71|||Mixed Models Analysis|||Week 4||2.71|0.99|0.106
92225834|NCT04669678|184352883|OTHER||Odds Ratio (OR)|1.77||||0.144|TWO_SIDED|90.0|0.93|3.36|||Mixed Models Analysis|||Week 8||3.36|0.93|0.144
92225835|NCT04669678|184352883|OTHER||Odds Ratio (OR)|2.37||||0.011|TWO_SIDED|90.0|1.36|4.16|||Mixed Models Analysis|||Week 12||4.16|1.36|0.011
92225836|NCT00997516|184352904|SUPERIORITY_OR_OTHER|||||||0.01||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.01
92225837|NCT00997516|184352905|SUPERIORITY_OR_OTHER||||||<|0.01||||||Significant at p\<0.05|t-test, 2 sided|||||||<0.01
92366361|NCT01135459|184635162|OTHER||Odds Ratio (OR)|0.7649||||0.3989|TWO_SIDED|95.0|0.4|1.4|||Regression, Logistic|||Analysis was performed using a logistic regression model with treatment and stratification factors as main factors.||1.4|0.4|0.3989
92225838|NCT00997516|184352914|SUPERIORITY_OR_OTHER|||||||0.86||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||Overall body satisfaction||||0.86
92225839|NCT00997516|184352914|SUPERIORITY_OR_OTHER|||||||0.18||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||Damage to body||||0.18
92225840|NCT00997516|184352914|SUPERIORITY_OR_OTHER|||||||0.04||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||Physical attractiveness||||0.04
92366362|NCT01803880|184635173|NON_INFERIORITY|"Non-inferiority Margin = 10 points. Non-inferiority of study device was concluded if lower limit of one-sided 97.5% CI for treatment difference \<10.~Superiority of study device was established if LS means of treatment difference and lower limit of one-sided 97.5% CI for treatment difference ≤0."|One-sided 97.5% confidence interval (CI)|-7.42|STANDARD_ERROR_OF_MEAN|5.137|>|0.05|ONE_SIDED|97.5|-19.29|||All unscheduled visits were to be included and nominal visits were to be applied using analysis visit windows. Both the assigned analysis visits and the site reported nominal visits were provided in the subject data listings.|ANCOVA|Due to early termination, all inferential analysis was interpreted as descriptive and carried out in an exploratory manner.||An ANCOVA model was used to compare the difference in the devices for change from Baseline in the KOOS at Week 52. KOOS was derived as the average of five subscale scores. LOCF imputation was considered for missing value. One-sided 97.5% confidence interval (CI) for treatment difference (Study-Control) was to be used for determining non-inferiority/superiority of the study device.|||-19.29|>0.05
92366363|NCT03703232|184635187|SUPERIORITY|||||||0.092|||||||Wilcoxon signed-rank test|||||||0.092
92366364|NCT03703232|184635188|SUPERIORITY|||||||0.76|||||||Wilcoxon signed-rank test|||||||0.760
92366365|NCT03703232|184635189|SUPERIORITY|||||||0.007|||||||Wilcoxon signed-rank test|||||||0.007
92366366|NCT03703232|184635190|SUPERIORITY|||||||0.003|||||||Wilcoxon signed-rank test|||||||0.003
92225841|NCT00997516|184352914|SUPERIORITY_OR_OTHER|||||||0.34||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||Masculinity/femininity||||0.34
92225842|NCT00997516|184352914|SUPERIORITY_OR_OTHER|||||||0.63||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||Looking at oneself naked||||0.63
92225843|NCT00997516|184352915|SUPERIORITY_OR_OTHER|||||||0.48||||||Significant at p\<0.05|t-test, 2 sided|||Cosmetic appearance of abdomen||||0.48
92225844|NCT00997516|184352915|SUPERIORITY_OR_OTHER|||||||0.09||||||Significant at p\<0.05|t-test, 2 sided|||Cosmetic appearance of scars||||0.09
92225845|NCT00997516|184352915|SUPERIORITY_OR_OTHER|||||||0.25||||||Significant at p\<0.05|t-test, 2 sided|||Satisfaction with scars||||0.25
92366367|NCT03703232|184635191|SUPERIORITY|||||||0.861|||||||Wilcoxon signed-rank test|||||||0.861
92366368|NCT03703232|184635193|SUPERIORITY|||||||0.405|||||||Wilcoxon signed-rank test|||||||0.405
92366369|NCT03703232|184635194|SUPERIORITY|||||||0.798|||||||Wilcoxon signed-rank test|||||||0.798
92366370|NCT03703232|184635195|SUPERIORITY|||||||0.382|||||||Wilcoxon signed-rank test|||||||0.382
92366371|NCT03703232|184635196|SUPERIORITY|||||||0.179|||||||Wilcoxon signed-rank test|||||||0.179
92366372|NCT03703232|184635197|SUPERIORITY|||||||0.984|||||||Wilcoxon signed-rank test|||||||0.984
92366373|NCT01816776|184635198|SUPERIORITY||Risk Difference (RD)|41.0|||<|0.0001|TWO_SIDED|95.0|25.0|54.0||1-sided. p\<0.025 considered significant.|Fisher Exact||Risk difference = Treatment - Control|||54|25|<0.0001
92366374|NCT01816776|184635200|SUPERIORITY||Mean Difference (Net)|-22.8|||<|0.0001|TWO_SIDED|95.0|-29.0|-16.6||1-sided. Secondary endpoints hierarchically tested with p\<0.025 considered significant.|Wilcoxon (Mann-Whitney)||Mean difference = Treatment - Control|||-16.6|-29.0|<0.0001
92366375|NCT01816776|184635201|SUPERIORITY||Mean Difference (Net)|-25.0|||<|0.0001|TWO_SIDED|95.0|-31.2|-18.7||Secondary endpoints hierarchically tested with p\<0.025 considered significant.|t-test, 1 sided||Mean difference = Treatment - Control|||-18.7|-31.2|<0.0001
92366376|NCT01816776|184635202|SUPERIORITY||Mean Difference (Net)|-15.2|||<|0.0001|TWO_SIDED|95.0|-21.6|-8.7||Secondary endpoints hierarchically tested with p\<0.025 considered significant.|t-test, 1 sided||Mean difference = Treatment - Control|||-8.7|-21.6|<0.0001
92366377|NCT01816776|184635203|SUPERIORITY||Mean Difference (Net)|2.4||||0.0244|TWO_SIDED|95.0|-0.4|5.1||1-sided. Secondary endpoints hierarchically tested with p\<0.025 considered significant.|Wilcoxon (Mann-Whitney)||Mean difference = Treatment - Control|||5.1|-0.4|0.0244
92366378|NCT01816776|184635204|SUPERIORITY||Risk Difference (RD)|55.0|||<|0.0001|TWO_SIDED|95.0|40.0|68.0||1-sided. Secondary endpoints hierarchically tested with p\<0.025 considered significant.|Fisher Exact||Risk difference = Treatment - Control|||68|40|<0.0001
92366379|NCT01816776|184635205|SUPERIORITY||Mean Difference (Net)|-22.7|||<|0.0001|TWO_SIDED|95.0|-28.9|-16.5||Secondary endpoints hierarchically tested with p\<0.025 considered significant.|t-test, 1 sided||Mean difference = Treatment - Control|||-16.5|-28.9|<0.0001
92366380|NCT01816776|184635206|SUPERIORITY||Mean Difference (Net)|-3.7|||<|0.0001|TWO_SIDED|95.0|-5.5|-2.0||1-sided. Secondary endpoints hierarchically tested with p\<0.025 considered significant.|Wilcoxon (Mann-Whitney)||Mean difference = Treatment - Control|||-2.0|-5.5|<0.0001
92366381|NCT02651116|184635227|SUPERIORITY||Rate Ratio|0.7899|STANDARD_ERROR_OF_MEAN|0.0929||0.0449|TWO_SIDED|95.0|0.6273|0.9947||P-Value less than or equal to (\<=) 0.05 level was considered significantly better and P-Value lying between 0.05 less than (\<) p\<=0.1 level was considered marginally significantly better.|Negative Binomial Regression|||Estimated rate ratio (ratio of rate of cough counts per 24 hours for DXM HBr to placebo), and corresponding 95% confidence interval (CI) for DXM HBr versus placebo was obtained from negative binomial model with treatment, study site (pooled), age group, and log-transformed baseline average cough count per hour as factors, with logarithm of the time over which the cough count was evaluated as the offset parameter.||0.9947|0.6273|0.0449
92366382|NCT02651116|184635227|SUPERIORITY|||||||0.6293||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|Negative Binomial Regression|||P-value was obtained from the negative binomial model with treatment, study site (pooled), age group, log-transformed baseline average cough count per hour (based on Baseline Run-in Period) as factors, with interaction term of treatment by age group, and logarithm of the time over which the cough count was evaluated as the offset parameter.||||0.6293
92225846|NCT00997516|184352915|SUPERIORITY_OR_OTHER|||||||0.81||||||Significant at p\<0.05|t-test, 2 sided|||Discomfort of scars||||0.81
92225847|NCT00997516|184352915|SUPERIORITY_OR_OTHER||||||<|0.01||||||Significant at p\<0.05|t-test, 2 sided|||Overall impression of scars||||<0.01
92404616|NCT02900378|184700478|OTHER|||||||0.1557|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.1557
92225848|NCT00584233|184352916|NON_INFERIORITY|The statistical test will be to assess non-inferiority. The non-inferiority margin is -0.04 in AUC. Key parameters are the number of participating patients, the number of radiologists reading the images in the study. Power analysis was conducted using the standard simulation from the ROC literature (Roe and Metz, Academic Radiology 1997). With a total of 100 participating patients and 4 participating readers, we achieve a power \>80% with a non-inferiority margin of -0.04.|Obuchowski Rockette methodology|0.05||||0.05|TWO_SIDED|95.0|0.025|0.975|||Obuchowski Rockette|||The analysis is intended to evaluate non-inferiority in observer performance between CE-bCT and CE-bMRI as assessed by the area under the ROC curve (AUC). The null hypothesis is that the observed difference in average AUC for CE-bCT and CE-bMRI will be outside of a non-inferiority margin of -0.04. See below for details of the power analyses.||.975|.025|0.05
92225849|NCT03178487|184352954|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint.|Response Rate Difference|26.1|||<|0.001|TWO_SIDED|95.0|12.6|39.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusting for stratification factor of Screening hsCRP level.|Response Rate Difference = Upadacitinib - Placebo|||39.5|12.6|<0.001
92225850|NCT03178487|184352955|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint.|Least Squares (LS) Mean Difference|-0.91|||<|0.001|TWO_SIDED|95.0|-1.14|-0.68|||Mixed Effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction as fixed effects and Screening hsCRP level and Baseline value as covariates.|Treatment difference = Upadacitinib - Placebo|||-0.68|-1.14|<0.001
92404617|NCT02900378|184700478|OTHER|||||||0.6461|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.6461
92404618|NCT02900378|184700478|OTHER|||||||0.9759|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.9759
92225851|NCT03178487|184352956|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint.|LS Mean Difference|-6.71|||<|0.001|TWO_SIDED|95.0|-9.01|-4.41|||ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-4.41|-9.01|<0.001
92225852|NCT03178487|184352957|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including BASDAI 50; within the group, the allocated α was adjusted based on the magnitude of p values.|Response Rate Difference|21.8||||0.002|TWO_SIDED|95.0|8.5|35.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factor of Screening hsCRP level.|Response rate difference = Upadacitinib - Placebo|||35.0|8.5|0.002
92276927|NCT00185211|184455403|SUPERIORITY_OR_OTHER|||||||0.0062||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|non-parametric ANCOVA|Variable used as covariate: number of Gd-enhancing lesions on T1 at screening||"The null hypothesis H0: The distribution of the cumulative number of newly active lesions at month 60 adjusted for the number of Gadolinium (Gd)-enhancing lesions on T1 at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a non-parametric analysis of covariance (ANCOVA)."||||0.0062
92404619|NCT02900378|184700478|OTHER|||||||0.3941|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.3941
92404620|NCT02900378|184700478|OTHER|||||||0.7209|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.7209
92404621|NCT02900378|184700478|OTHER|||||||0.4444|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.4444
92404622|NCT02900378|184700478|OTHER|||||||0.7247|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.7247
92404623|NCT02900378|184700478|OTHER|||||||0.2933|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.2933
92404624|NCT02900378|184700479|OTHER|||||||0.0854|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.0854
92404625|NCT02900378|184700479|OTHER|||||||0.0528|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0528
92404626|NCT02900378|184700479|OTHER|||||||0.4137|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.4137
92404627|NCT02900378|184700479|OTHER|||||||0.0082|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0082
92404628|NCT02900378|184700479|OTHER|||||||0.7908|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.7908
92404629|NCT02900378|184700479|OTHER|||||||0.6499|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.6499
92404630|NCT02900378|184700479|OTHER|||||||0.5547|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.5547
92404631|NCT02900378|184700479|OTHER|||||||0.6961|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.6961
92404632|NCT02900378|184700479|OTHER|||||||0.5946|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.5946
92404633|NCT02900378|184700479|OTHER|||||||0.8957|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.8957
92404634|NCT02900378|184700479|OTHER|||||||0.8468|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.8468
92404635|NCT02900378|184700479|OTHER|||||||0.1711|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.1711
92404636|NCT02900378|184700480|OTHER|||||||0.0065|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.0065
92404637|NCT02900378|184700480|OTHER|||||||0.0316|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0316
92404638|NCT02900378|184700480|OTHER|||||||0.1342|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.1342
92404639|NCT02900378|184700480|OTHER|||||||0.0252|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0252
92404640|NCT02900378|184700480|OTHER|||||||0.9024|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.9024
92167089|NCT04714320|184224089|SUPERIORITY||||||=|0.079||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 106||||=0.079
92404641|NCT02900378|184700480|OTHER|||||||0.9052|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.9052
92404642|NCT02900378|184700480|OTHER|||||||0.287|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.2870
92167090|NCT04714320|184224089|SUPERIORITY||||||=|0.349||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 106||||=0.349
92167091|NCT04714320|184224089|SUPERIORITY||||||=|0.58||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 120||||=0.580
92225853|NCT03178487|184352958|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including ASQoL; within the group, the allocated α was adjusted based on the magnitude of p values.|LS Mean Difference|-1.54||||0.016|TWO_SIDED|95.0|-2.78|-0.3|||Mixed Effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction as fixed effects and Screening hsCRP level and Baseline value as covariates.|Treatment difference = Upadacitinib - Placebo|||-0.30|-2.78|0.016
92404643|NCT02900378|184700480|OTHER|||||||0.3174|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.3174
92225854|NCT03178487|184352959|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including ASAS PR; within the group, the allocated α was adjusted based on the magnitude of p values.|Response Rate Difference|18.3|||<|0.001|TWO_SIDED|95.0|10.0|26.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factor of Screening hsCRP level.|Response rate difference = Upadacitinib - Placebo|||26.6|10.0|<0.001
92225855|NCT03178487|184352960|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including BASFI; within the group, the allocated α was adjusted based on the magnitude of p values.|LS Mean Difference|-1.0||||0.001|TWO_SIDED|95.0|-1.6|-0.39|||Mixed Effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction as fixed effects and Screening hsCRP level and Baseline value as covariates.|Treatment difference = Upadacitinib - Placebo|||-0.39|-1.60|0.001
92225856|NCT03178487|184352961|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including BASMI(lin); within the group, the allocated α was adjusted based on the magnitude of p values.|LS Mean Difference|-0.22||||0.03|TWO_SIDED|95.0|-0.43|-0.02|||ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.02|-0.43|0.030
92225857|NCT03178487|184352962|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including MASES; within the group, the allocated α was adjusted based on the magnitude of p values.|LS Mean Difference|-0.84||||0.049|TWO_SIDED|95.0|-1.68|0.0|||Mixed Effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction as fixed effects and Screening hsCRP level and Baseline value as covariates.|Treatment difference = Upadacitinib - Placebo|||-0.00|-1.68|0.049
92404644|NCT02900378|184700480|OTHER|||||||0.502|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.5020
92404645|NCT02900378|184700480|OTHER|||||||0.4037|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.4037
92404646|NCT02900378|184700480|OTHER|||||||0.4823|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.4823
92404647|NCT02900378|184700480|OTHER|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.1090
92404648|NCT02900378|184700481|OTHER|||||||0.0061|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.0061
92404649|NCT02900378|184700481|OTHER|||||||0.0143|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0143
92404650|NCT02900378|184700481|OTHER|||||||0.0708|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.0708
92404651|NCT02900378|184700481|OTHER|||||||0.075|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0750
92167092|NCT04714320|184224089|SUPERIORITY||||||=|0.106||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 120||||=0.106
92404652|NCT02900378|184700481|OTHER|||||||0.8017|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.8017
92404653|NCT02900378|184700481|OTHER|||||||0.7956|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.7956
92404654|NCT02900378|184700481|OTHER|||||||0.3499|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.3499
92404655|NCT02900378|184700481|OTHER|||||||0.1192|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.1192
92404656|NCT02900378|184700481|OTHER|||||||0.5237|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.5237
92404657|NCT02900378|184700481|OTHER|||||||0.3902|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.3902
92404658|NCT02900378|184700481|OTHER|||||||0.4228|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.4228
92404659|NCT02900378|184700481|OTHER|||||||0.1571|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.1571
92404660|NCT02900378|184700482|OTHER|||||||0.3231|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.3231
92404661|NCT02900378|184700482|OTHER|||||||0.3519|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.3519
92404662|NCT02900378|184700482|OTHER|||||||0.8335|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.8335
92404663|NCT02900378|184700482|OTHER|||||||0.0465|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0465
92404664|NCT02900378|184700482|OTHER|||||||0.5016|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.5016
92404665|NCT02900378|184700482|OTHER|||||||0.5941|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.5941
92404666|NCT02900378|184700482|OTHER|||||||0.2019|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.2019
92404667|NCT02900378|184700482|OTHER|||||||0.4125|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.4125
92167093|NCT04714320|184224089|SUPERIORITY||||||=|0.955||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 148||||=0.955
92167094|NCT04714320|184224089|SUPERIORITY||||||=|0.134||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 148||||=0.134
92404668|NCT02900378|184700482|OTHER|||||||0.5702|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.5702
92404669|NCT02900378|184700482|OTHER|||||||0.4752|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.4752
92404670|NCT02900378|184700482|OTHER|||||||0.5343|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.5343
92404671|NCT02900378|184700482|OTHER|||||||0.0985|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.0985
92404672|NCT02900378|184700483|OTHER|||||||0.4525|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.4525
92404673|NCT02900378|184700483|OTHER|||||||0.0445|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0445
92404674|NCT02900378|184700483|OTHER|||||||0.1158|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.1158
92404675|NCT02900378|184700483|OTHER|||||||0.3901|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.3901
92404676|NCT02900378|184700483|OTHER|||||||0.7725|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.7725
92167095|NCT04714320|184224089|SUPERIORITY||||||=|0.933||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 169||||=0.933
92404677|NCT01134055|184700489|SUPERIORITY_OR_OTHER|||||||0.1974||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Injection Rate at 28 Weeks is presented||||0.1974
92404678|NCT01134055|184700489|SUPERIORITY_OR_OTHER|||||||0.8263||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Injection Rate at 28 Weeks is presented||||0.8263
92404679|NCT01134055|184700489|SUPERIORITY_OR_OTHER|||||||0.8263||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Injection Rate at 28 Weeks is presented||||0.8263
92404680|NCT01134055|184700489|SUPERIORITY_OR_OTHER|||||||0.8263||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Injection Rate at 28 Weeks is presented||||0.8263
92404681|NCT01134055|184700489|SUPERIORITY_OR_OTHER|||||||0.7418||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Injection Rate at 28 Weeks is presented||||0.7418
92404682|NCT01134055|184700489|SUPERIORITY_OR_OTHER|||||||0.2429||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Overall Injection Rate at 52 weeks is presented||||0.2429
92404683|NCT01134055|184700489|SUPERIORITY_OR_OTHER|||||||0.97||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Overall Injection Rate at 52 weeks is presented||||0.9700
92404684|NCT01134055|184700489|SUPERIORITY_OR_OTHER|||||||0.97||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Overall Injection Rate at 52 weeks is presented||||0.9700
92404685|NCT01134055|184700489|SUPERIORITY_OR_OTHER|||||||0.97||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Overall Injection Rate at 52 weeks is presented||||0.9700
92404686|NCT01134055|184700489|SUPERIORITY_OR_OTHER|||||||0.7673||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Overall Injection Rate at 52 weeks is presented||||0.7673
92404687|NCT01967940|184700561|SUPERIORITY|Enrollment into this study was stopped early due to the challenge of recruiting a sufficient number of participants who met the eligibility criteria. The actual number of enrolled is 55, among them 43 enrolled in the Randomized Cohort. Based on the actual enrollment numbers, the power to detect a 35% difference drops to 51%, under the same assumptions in the original sample size calculations.|Difference in proportions|60.7|||<|0.001|TWO_SIDED|95.0|42.6|78.8|||Fisher Exact||The 95% confidence interval was estimated based on unconditional exact method using 2 inverted 1-sided tests with the standardized statistic.|A sample size of 90 participants, randomized in a 2:1 ratio, achieves 89% power to detect a 35% difference in the proportion of participants with HIV-1 RNA decreases from baseline exceeding 0.5 log10 between the TAF and placebo arms at Day 10. Sample size and power computation was based on the assumption that 50% of participants in the TAF arm and 15% of participants in the placebo arm achieved a reduction exceeding 0.5 log10 HIV-1 RNA.||78.8|42.6|<0.001
92404688|NCT05567783|184700587|SUPERIORITY||Relative risk reduction (RRR, %)|15.85||||0.5552|TWO_SIDED|95.0|-49.27|52.56||two-sided, alpha=0.05|Poisson regression|Estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model|RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group was the only factor in the model|||52.56|-49.27|0.5552
92404689|NCT05567783|184700587|SUPERIORITY||Relative risk reduction (RRR, %)|3.78|||||TWO_SIDED|95.0|-67.23|44.63|||||RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model; 95% CI are nominal and not adjusted for multiple comparisons.|||44.63|-67.23|
92225858|NCT03178487|184352963|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including WPAI; within the group, the allocated α was adjusted based on the magnitude of p values.|LS Mean Difference|-5.52||||0.19|TWO_SIDED|95.0|-13.82|2.78|||ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||2.78|-13.82|0.190
92225859|NCT03178487|184352964|OTHER|"To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint.~ASAS HI was to be evaluated only if the group of endpoints tested by Hochberg procedure were all significant."|LS Mean Difference|-1.37||||0.007|TWO_SIDED|95.0|-2.37|-0.37||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped during the Hochberg procedure.|Mixed Effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction as fixed effects and Screening hsCRP level and Baseline value as covariates.|Treatment difference = Upadacitinib - Placebo|||-0.37|-2.37|0.007
92225860|NCT03178487|184352965|OTHER||Response Rate Difference|24.1||||0.001|TWO_SIDED|95.0|10.2|38.0||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factor of Screening hsCRP level.|||Response Rate Difference = Upadacitinib - Placebo|38.0|10.2|0.001
92225861|NCT03178487|184352966|OTHER||LS Mean Difference|-3.69|||<|0.001|TWO_SIDED|95.0|-5.31|-2.08||This comparison was not part of the pre-specified multiplicity testing sequence.|ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-2.08|-5.31|<0.001
92167096|NCT04714320|184224089|SUPERIORITY||||||=|0.502||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 169||||=0.502
92167097|NCT04714320|184224089|SUPERIORITY||||||=|0.653||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 8||||=0.653
92225862|NCT03178487|184352967|OTHER||LS Mean Difference|-6.21|||<|0.001|TWO_SIDED|95.0|-8.27|-4.14|||ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-4.14|-8.27|<0.001
92225863|NCT03178487|184352968|OTHER||LS Mean Difference|-2.55|||<|0.001|TWO_SIDED|95.0|-4.01|-1.08|||ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-1.08|-4.01|<0.001
92225864|NCT00355394|184353078|SUPERIORITY_OR_OTHER|||||||0.03|||||||Fisher Exact|||||||0.03
92225865|NCT00355394|184353079|SUPERIORITY_OR_OTHER|||||||0.02|||||||Fisher Exact|||||||0.02
92225866|NCT00355394|184353080|SUPERIORITY_OR_OTHER|||||||0.46|||||||Fisher Exact|||||||0.46
92225867|NCT00355394|184353081|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92225868|NCT00355394|184353082|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.01
92225869|NCT00355394|184353083|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.50
92404690|NCT05567783|184700595|SUPERIORITY||Relative risk reduction (RRR, %)|57.23|||||TWO_SIDED|95.0|-2.51|82.15|||||RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model; 95%CI are nominal and not adjusted for multiple comparisons.|||82.15|-2.51|
92225870|NCT03021642|184353090|SUPERIORITY_OR_OTHER_LEGACY||Geometric Least square (LS) mean ratio|98.68|||||TWO_SIDED|90.0|93.67|103.96||||||||103.96|93.67|
92225871|NCT03021642|184353091|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS mean ratio|95.71|||||TWO_SIDED|90.0|88.43|103.59||||||||103.59|88.43|
92225872|NCT03021642|184353092|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS mean ratio|96.88|||||TWO_SIDED|90.0|90.8|103.36||||||||103.36|90.8|
92225873|NCT03021642|184353093|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|0.0||||0.8981|TWO_SIDED|90.0|-1.0|1.025|||Wilcoxon signed-rank test|||||1.025|-1.000|0.8981
92225874|NCT01175902|184353132|NON_INFERIORITY_OR_EQUIVALENCE|"To prove the non-inferiority of Cosopt to Xalatan, the sample size calculation was based on the assumption that non-inferiority margin of trough IOP of 1.5mmHg. A sample size of n=21 patients per group, this study has 80% power (1-β=0.80) and α=0.05, crossover-designed analysis.~In this study, the upper limit of the 95% CI is expected above the maximal acceptable clinically significant difference of 1.5 mmHg of IOP."|Mean Difference (Final Values)|0.9||||0.05|TWO_SIDED|||||Comparison between two arms were made for IOP, systolic BP, diastolic BP and OPP at each time period.|t-test, 2 sided|Comparison between two arms were made for IOP, systolic BP, diastolic BP and OPP at each time period.|Comparison between two arms were made for IOP, systolic BP, diastolic BP and OPP at each time period.|Comparison between two arms were made for IOP, systolic BP, diastolic BP and OPP at each time period.||||0.05
92225875|NCT04317274|184353144|OTHER||Slope|-0.19||||0.21|TWO_SIDED||||||Mixed Models Analysis|Note: original plan was to conduct ANOVAs, but failed tests of assumptions||We tested for interaction effect of order and video version within the high cholesterol group.||||0.21
92404691|NCT05567783|184700595|SUPERIORITY||Relative risk reduction (RRR, %)|11.45|||||TWO_SIDED|95.0|-76.25|55.51|||||RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model; 95% CI are nominal and not adjusted for multiple comparisons.|||55.51|-76.25|
92167098|NCT04714320|184224089|SUPERIORITY||||||=|0.816||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 8||||=0.816
92225876|NCT04317274|184353144|OTHER||Slope|-1.23|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Original plan was to conduct ANOVAs, but failed tests of assumptions||We tested for interaction effect of order and video version within the colorectal cancer group.||||<0.001
92225877|NCT04317274|184353145|OTHER||Slope|0.58|||<|0.001|TWO_SIDED||||||Pearson's correlation coefficient|||We examined the correlation between SDM Process and SDM-Q9 scores in the high cholesterol group.||||<.001
92225878|NCT04317274|184353145|OTHER||Slope|0.71|||<|0.001|TWO_SIDED||||||Pearson's correlation coefficient]|||We examined the correlation between SDM Process and SDM-Q9 scores in the colorectal cancer group.||||<.001
92225879|NCT03138876|184353157|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||||||0.0005
92225880|NCT03889639|184353161|SUPERIORITY|Relative reduction in lesions in SAR442168 5 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95 percentage (%) confidence interval (CI) were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|-56.16||||0.1673|TWO_SIDED|95.0|-193.99|17.05|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 5 mg/Placebo||17.05|-193.99|0.1673
92225881|NCT03889639|184353161|SUPERIORITY|Relative reduction in lesions in SAR442168 15 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|-62.8||||0.354|TWO_SIDED|95.0|-356.24|41.91|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 15 mg/Placebo||41.91|-356.24|0.3540
92276928|NCT00185211|184455403|SUPERIORITY_OR_OTHER||Relative effect size|0.7351||||0.0435||95.0|0.5436|0.994||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|generalized linear model|Distribution: negative binomial distribution; covariate: number of Gd-enhancing lesions on T1 at screening|The direction of comparison is initial IFNB-1b versus initial placebo.|Assuming that the cumulative number of newly active lesions at month 60 follows a negative binomial distribution, a generalized linear model (logarithmic link function, covariate: number of Gd-enhancing lesions on T1 at BENEFIT screening) was set up in order to analyze the treatment effect on that MRI outcome.||0.9940|0.5436|0.0435
92276929|NCT00185211|184455404|SUPERIORITY_OR_OTHER|||||||0.7801||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|non-parametric ANCOVA|Variable used as covariate: T2 lesion volume at screening||"The null hypothesis H0: The distribution of the absolute change of T2 lesion volume at month 60 adjusted for the T2 lesion volume at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a non-parametric analysis of covariance (ANCOVA)."||||0.7801
92276930|NCT00185211|184455404|SUPERIORITY_OR_OTHER|||||||0.9408||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|ANCOVA|Variable used as covariate: T2 lesion volume at screening||"The null hypothesis H0: The mean absolute change of T2 lesion volume at month 60 adjusted for the T2 lesion volume at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a parametric analysis of covariance (ANCOVA)."||||0.9408
92404692|NCT05567783|184700596|SUPERIORITY||Relative risk reduction (RRR, %)|44.13|||||TWO_SIDED|95.0|-50.49|79.26|||||RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model; 95%CI are nominal and not adjusted for multiple comparisons.|||79.26|-50.49|
92225882|NCT03889639|184353161|SUPERIORITY|Relative reduction in lesions in SAR442168 30 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|13.49||||0.7674|TWO_SIDED|95.0|-126.05|66.89|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 30 mg/Placebo||66.89|-126.05|0.7674
92276931|NCT00185211|184455405|SUPERIORITY_OR_OTHER|||||||0.6619||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|non-parametric ANCOVA|Variable used as covariate: Volume of black holes at screening||"The null hypothesis H0: The distribution of the absolute change of volume of black holes at month 60 adjusted for the volume of black holes at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a non-parametric analysis of covariance (ANCOVA)."||||0.6619
92404693|NCT05567783|184700596|SUPERIORITY||Relative risk reduction (RRR, %)|-9.8|||||TWO_SIDED|95.0|-147.41|51.27|||||RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model; 95% CI are nominal and not adjusted for multiple comparisons.|||51.27|-147.41|
92404694|NCT00001959|184700605|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||H0: GFR Decrease during baseline period and treatment period are same||||<0.01
92276932|NCT00185211|184455405|SUPERIORITY_OR_OTHER|||||||0.8558||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|ANCOVA|Variable used as covariate: Volume of black holes at screening||"The null hypothesis H0: The mean absolute change of volume of black holes at month 60 adjusted for the volume of black holes at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a parametric analysis of covariance (ANCOVA)."||||0.8558
92276933|NCT00185211|184455406|SUPERIORITY_OR_OTHER|||||||0.1208||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|non-parametric ANCOVA|Variable used as covariate: Brain volume at screening||"The null hypothesis H0: The distribution of the percentage change of brain volume at month 60 adjusted for the brain volume at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a non-parametric analysis of covariance (ANCOVA)."||||0.1208
92404695|NCT00001959|184700606|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Kruskal-Wallis|||H0: Proteinuria during baseline and treatment periods are same||||0.16
92404696|NCT03755934|184700610|SUPERIORITY||LS mean estimate|-1.96|STANDARD_ERROR_OF_MEAN|0.961||0.0437|TWO_SIDED|95.0|-3.87|-0.06||ANCOVA by dose using NRS baseline value and co-medication as covariates, with CFB to Week 12 (LOCF) as dependent variable was used to derive p-value.|ANCOVA|||||-0.06|-3.87|0.0437
92404697|NCT03755934|184700610|SUPERIORITY||LS mean estimate|0.72|STANDARD_ERROR_OF_MEAN|0.541||0.1878|TWO_SIDED|95.0|-0.36|1.79||ANCOVA by dose using NRS baseline value and co-medication as covariates, with CFB to Week 12 (LOCF) as dependent variable was used to derive p-value.|ANCOVA|||||1.79|-0.36|0.1878
92167099|NCT04714320|184224089|SUPERIORITY||||||=|0.184||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 15||||=0.184
92225883|NCT03889639|184353161|SUPERIORITY|Relative reduction in lesions in SAR442168 60 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|85.02||||0.0178|TWO_SIDED|95.0|28.02|96.88|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 60 mg/Placebo||96.88|28.02|0.0178
92225884|NCT03889639|184353162|SUPERIORITY|Relative reduction in lesions in SAR442168 5 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model without adjusting for Baseline T2 lesion activity as all participants had at least one T2 lesion at Baseline.|Relative reduction in lesions|10.17||||0.7736|TWO_SIDED|95.0|-86.49|56.73|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 5 mg/Placebo||56.73|-86.49|0.7736
92225885|NCT03889639|184353162|SUPERIORITY|Relative reduction in lesions in SAR442168 15 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model without adjusting for Baseline T2 lesion activity as all participants had at least one T2 lesion at Baseline.|Relative reduction in lesions|37.07||||0.248|TWO_SIDED|95.0|-38.08|71.32|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 15 mg/Placebo||71.32|-38.08|0.2480
92225886|NCT03889639|184353162|SUPERIORITY|Relative reduction in lesions in SAR442168 30 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model without adjusting for Baseline T2 lesion activity as all participants had at least one T2 lesion at Baseline.|Relative reduction in lesions|38.5||||0.3081|TWO_SIDED|95.0|-56.61|75.85|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 30 mg/Placebo||75.85|-56.61|0.3081
92225887|NCT03889639|184353162|SUPERIORITY|Relative reduction in lesions in SAR442168 60 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model without adjusting for Baseline T2 lesion activity as all participants had at least one T2 lesion at Baseline.|Relative reduction in lesions|89.34||||0.0001|TWO_SIDED|95.0|68.39|96.41|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 60 mg/Placebo||96.41|68.39|0.0001
92225888|NCT03889639|184353163|SUPERIORITY|Relative reduction in lesions in SAR442168 5 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|-62.16||||0.1525|TWO_SIDED|95.0|-214.44|16.38|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 5 mg/Placebo||16.38|-214.44|0.1525
92225889|NCT03889639|184353163|SUPERIORITY|Relative reduction in lesions in SAR442168 15 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|-47.38||||0.4606|TWO_SIDED|95.0|-312.91|47.4|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 15 mg/Placebo||47.40|-312.91|0.4606
92276934|NCT00185211|184455406|SUPERIORITY_OR_OTHER|||||||0.0719||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|ANCOVA|Variable used as covariate: Brain volume at screening||"The null hypothesis H0: The mean percentage change of brain volume at month 60 adjusted for the brain volume at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a parametric analysis of covariance (ANCOVA)."||||0.0719
92404698|NCT03755934|184700610|SUPERIORITY||LS mean estimate|-1.39|STANDARD_ERROR_OF_MEAN|0.407||0.0009|TWO_SIDED|95.0|-2.19|-0.58||ANCOVA by dose using NRS baseline value and co-medication as covariates, with CFB to Week 12 (LOCF) as dependent variable was used to derive p-value.|ANCOVA|||||-0.58|-2.19|0.0009
92167100|NCT04714320|184224089|SUPERIORITY||||||=|0.765||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 15||||=0.765
92167101|NCT04714320|184224089|SUPERIORITY||||||=|0.009||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 22||||=0.009
92167102|NCT04714320|184224089|SUPERIORITY||||||=|0.578||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 22||||=0.578
92167103|NCT04714320|184224089|SUPERIORITY||||||=|0.725||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 29||||=0.725
92167104|NCT04714320|184224089|SUPERIORITY||||||=|0.287||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 29||||=0.287
92167105|NCT04714320|184224089|SUPERIORITY||||||=|0.705||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 36||||=0.705
92167106|NCT04714320|184224089|SUPERIORITY||||||=|0.975||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 36||||=0.975
92404699|NCT00940771|184700633|OTHER|Friedman's Test|Chi Square|12.3||||0.006|TWO_SIDED||||||Friedman's Test|3 degrees of freedom.||||||.006
92404700|NCT00940771|184700633|OTHER|Post Hoc testing Post hoc Wilcoxon Signed Rank tests||||||0.007|||||||Wilcoxon Signed Rank|Z=-2.701||Nul lHypothesis that there is no difference between specific time points.||||.007
92404701|NCT00940771|184700634|OTHER|Friedman's test with 3 df||||||0.356|||||||Friedman's Test|3 degrees of freedom||||||.356
92404702|NCT00940771|184700635|OTHER||Chi-square|1.0||||0.801|TWO_SIDED||||||Friedman's test|3 degrees of freedom|1.0 is the actual calculated Chi-X value, not the p value.|The null hypothesis was that there was a difference. We were looking for no difference between before and after switch.||||.801
92404703|NCT00940771|184700636|OTHER|Friedman's test||||||0.075||||||a priori threshold for statistical significance 0.05|Friedman's test|3 degrees of freedom||||||.075
92404704|NCT05523089|184700691|SUPERIORITY||Hodges-Lehmann estimator|-1.2||||0.039|TWO_SIDED|95.0|-5.7|0.0||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||0.0|-5.7|0.0390
92167107|NCT04714320|184224089|SUPERIORITY||||||=|0.118||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 43||||=0.118
92167108|NCT04714320|184224089|SUPERIORITY||||||=|0.959||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 43||||=0.959
92167109|NCT04714320|184224089|SUPERIORITY||||||=|0.413||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 50||||=0.413
92167110|NCT04714320|184224089|SUPERIORITY||||||=|0.043||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 50||||=0.043
92167111|NCT04714320|184224089|SUPERIORITY||||||=|0.849||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 57||||=0.849
92167112|NCT04714320|184224089|SUPERIORITY||||||=|0.662||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 57||||=0.662
92167113|NCT04714320|184224089|SUPERIORITY||||||=|0.047||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 64||||=0.047
92167114|NCT04714320|184224089|SUPERIORITY||||||=|0.95||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 64||||=0.950
92167115|NCT04714320|184224089|SUPERIORITY||||||=|0.656||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 71||||=0.656
92167116|NCT04714320|184224089|SUPERIORITY||||||=|0.922||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 71||||=0.922
92167117|NCT04714320|184224089|SUPERIORITY||||||=|0.143||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 78||||=0.143
92167118|NCT04714320|184224089|SUPERIORITY||||||=|0.452||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 78||||=0.452
92167119|NCT04714320|184224089|SUPERIORITY||||||=|0.231||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 85||||=0.231
92404705|NCT05523089|184700693|SUPERIORITY||Mean Difference (Net)|-1.4||||0.0185|TWO_SIDED|95.0|-2.9|0.0||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||-0.0|-2.9|0.0185
92404706|NCT05523089|184700695|SUPERIORITY|||||||0.0613||||||alpha = 0.025 one-sided|Gehan-Wilcoxon|||||||0.0613
92404707|NCT05523089|184700696|SUPERIORITY||Hodges-Lehmann estimator|0.0||||0.1587|TWO_SIDED|95.0|-2.4|0.0||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||0.0|-2.4|0.1587
92404708|NCT05523089|184700698|SUPERIORITY||Mean Difference (Net)|-1.1||||0.0236|TWO_SIDED|95.0|-2.0|-0.1||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||-0.1|-2.0|0.0236
92225890|NCT03889639|184353163|SUPERIORITY|Relative reduction in lesions in SAR442168 30 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|2.9||||0.949|TWO_SIDED|95.0|-138.96|60.54|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 30 mg/Placebo||60.54|-138.96|0.9490
92404709|NCT05523089|184700700|SUPERIORITY|||||||0.1282||||||alpha = 0.025 one-sided|Gehan-Wilcoxon|||||||0.1282
92404710|NCT05523089|184700701|SUPERIORITY||Mean Difference (Net)|-5.4||||0.2877|TWO_SIDED|95.0|-11.2|0.3||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||0.3|-11.2|0.2877
92225891|NCT03889639|184353163|SUPERIORITY|Relative reduction in lesions in SAR442168 60 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|65.05||||0.2324|TWO_SIDED|95.0|-96.21|93.77|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 60 mg/Placebo||93.77|-96.21|0.2324
92366383|NCT02651116|184635228|SUPERIORITY||Rate Ratio|0.8048|STANDARD_ERROR_OF_MEAN|0.0912||0.0552|TWO_SIDED|95.0|0.6446|1.0049||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|Negative Binomial Regression|||Estimated rate ratio (ratio of rate of cough counts per specified duration for DXM HBr to placebo, used in evaluation of this outcome measure), and corresponding 95% CI for DXM HBr versus placebo was obtained from negative binomial model with treatment, study site (pooled), age group, and log-transformed baseline average cough count per hour as factors, with logarithm of the time over which the cough count was evaluated as the offset parameter.||1.0049|0.6446|0.0552
92366384|NCT02651116|184635229|SUPERIORITY||Rate Ratio|0.9551|STANDARD_ERROR_OF_MEAN|0.1491||0.7684|TWO_SIDED|95.0|0.7032|1.2971||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|Negative Binomial Regression|||Estimated rate ratio (ratio of rate of cough counts per specified duration for DXM HBr to placebo, used in evaluation of this outcome measure), and corresponding 95% CI for DXM HBr versus placebo was obtained from negative binomial model with treatment, study site (pooled), age group, and log-transformed baseline average cough count per hour as factors, with logarithm of the time over which the cough count was evaluated as the offset parameter.||1.2971|0.7032|0.7684
92366385|NCT02651116|184635230|SUPERIORITY||Rate Ratio|0.7014|STANDARD_ERROR_OF_MEAN|0.1086||0.022|TWO_SIDED|95.0|0.5178|0.95||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|Negative Binomial Regression|||Estimated rate ratio (ratio of rate of cough counts per specified duration for DXM HBr to placebo, used in evaluation of this outcome measure), and corresponding 95% CI for DXM HBr versus placebo was obtained from negative binomial model with treatment, study site (pooled), age group, and log-transformed baseline average cough count per hour as factors, with logarithm of the time over which the cough count was evaluated as the offset parameter.||0.9500|0.5178|0.0220
92366386|NCT02651116|184635231|SUPERIORITY||Rate Ratio|0.7454|STANDARD_ERROR_OF_MEAN|0.0848||0.0098|TWO_SIDED|95.0|0.5964|0.9316||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|Negative Binomial Regression|||Estimated rate ratio (ratio of rate of cough counts per specified duration for DXM HBr to placebo, used in evaluation of this outcome measure), and corresponding 95% CI for DXM HBr versus placebo was obtained from negative binomial model with treatment, study site (pooled), age group, and log-transformed baseline average cough count per hour as factors, with logarithm of the time over which the cough count was evaluated as the offset parameter.||0.9316|0.5964|0.0098
92366387|NCT02651116|184635232|SUPERIORITY||Difference in least squares mean|-0.221|STANDARD_ERROR_OF_MEAN|0.1324||0.0977|TWO_SIDED|95.0|-0.4831|0.0411||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANCOVA|||Analysis of covariance (ANCOVA) model contained treatment, study site (pooled), log-transformed baseline cough time and age group terms as factors.||0.0411|-0.4831|0.0977
92366388|NCT02651116|184635233|SUPERIORITY||Difference in least squares mean|-0.2881|STANDARD_ERROR_OF_MEAN|0.1224||0.0191|TWO_SIDED|95.0|-0.5287|-0.0475||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||Analysis of variance (ANOVA) model contained treatment, study site (pooled), the corresponding morning baseline cough frequency by participant, and age group included in the model. The statistical analysis was performed on the composite for all categories.||-0.0475|-0.5287|0.0191
92225892|NCT01703858|184353167|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|98.68|STANDARD_DEVIATION|10.0||0|TWO_SIDED|90.0|92.501|105.272|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|B : BI-113608 vs. A : BI-113608 - Comparison with oral solution||105.272|92.501|0.0000
92366389|NCT02651116|184635233|SUPERIORITY|||||||0.8355||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model contained treatment, study site (pooled), screening assessment by participant, interaction of treatment by age group and age group included in the model.||||0.8355
92404711|NCT05523089|184700703|SUPERIORITY||Mean Difference (Net)|-1.8||||0.2517|TWO_SIDED|95.0|-4.1|0.6||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||0.6|-4.1|0.2517
92404712|NCT05523089|184700707|SUPERIORITY|||||||0.9024||||||alpha = 0.025 one-sided|Gehan-Wilcoxon|||||||0.9024
92404713|NCT05523089|184700708|SUPERIORITY|||||||0.0248||||||alpha = 0.025 one-sided|Fisher Exact|||||||0.0248
92404714|NCT05523089|184700710|SUPERIORITY|||||||0.1224||||||alpha = 0.025 one-sided|Fisher Exact|||||||0.1224
92404715|NCT05523089|184700712|SUPERIORITY|||||||0.1023||||||alpha = 0.025 one-sided|Fisher Exact|||||||0.1023
92404716|NCT05523089|184700714|SUPERIORITY|||||||0.1477||||||alpha = 0.025 one-sided|Fisher Exact|||||||0.1477
92404717|NCT05523089|184700716|SUPERIORITY|||||||0.1645||||||alpha = 0.025 one-sided|Fisher Exact|||||||0.1645
92167120|NCT04714320|184224089|SUPERIORITY||||||=|0.405||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 85||||=0.405
92167121|NCT04714320|184224089|SUPERIORITY||||||=|0.718||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 92||||=0.718
92366390|NCT02651116|184635234|SUPERIORITY||Difference in least squares mean|-0.3128|STANDARD_ERROR_OF_MEAN|0.1104||0.0049|TWO_SIDED|95.0|-0.5299|-0.0956||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||ANOVA model contained treatment, study site (pooled), the corresponding morning baseline cough severity by participant, and age group included in the model. The statistical analysis was performed on the composite for all categories.||-0.0956|-0.5299|0.0049
92366391|NCT02651116|184635234|SUPERIORITY|||||||0.8413||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model contained treatment, study site (pooled), screening assessment by participant, interaction of treatment by age group and age group included in the model.||||0.8413
92366392|NCT02651116|184635235|SUPERIORITY||Difference in least squares mean|-0.1483|STANDARD_ERROR_OF_MEAN|0.1337||0.2679|TWO_SIDED|95.0|-0.4112|0.1146||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||ANOVA model contained treatment, study site (pooled), the corresponding morning baseline impact on sleep by participant, and age group included in the model. The statistical analysis was performed on the composite for all categories.||0.1146|-0.4112|0.2679
92225893|NCT01703858|184353167|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|70.16|STANDARD_DEVIATION|18.3||0.9644|TWO_SIDED|90.0|62.331|78.962|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|C : BI-113608 vs. B : BI-113608 - Food effect||78.962|62.331|0.9644
92404718|NCT02230995|184700741|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% confidence intervals (CIs) for the ratios (test to reference treatment) of the adjusted geometric means (gMeans) of the primary endpoints, using an acceptance range of 80.00 to 125.00%.|Adjusted gMean ratio|98.22|STANDARD_DEVIATION|5.0|<|1e-05|TWO_SIDED|90.0|96.11|100.39|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by the ratios of the adjusted gMean of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||100.39|96.11|<0.00001
92405791|NCT02085161|184701884|SUPERIORITY_OR_OTHER||LSMean Difference|0.286|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|0.157|0.415||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||0.415|0.157|<0.0001
92225894|NCT01703858|184353167|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|83.36|STANDARD_DEVIATION|18.8||0.2835|TWO_SIDED|90.0|73.648|94.346|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. B : BI-113608 - Food effect||94.346|73.648|0.2835
92366393|NCT02651116|184635235|SUPERIORITY|||||||0.2882||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model contained treatment, study site (pooled), screening assessment by participant, interaction of treatment by age group and age group included in the model.||||0.2882
92366394|NCT02651116|184635236|SUPERIORITY||Difference in least squares mean|-0.2812|STANDARD_ERROR_OF_MEAN|0.1242||0.0242|TWO_SIDED|95.0|-0.5255|-0.0369||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||ANOVA model contained treatment, study site (pooled), the corresponding afternoon baseline cough frequency by participant, and age group included in the model. The statistical analysis was performed on the composite for all categories.||-0.0369|-0.5255|0.0242
92366395|NCT02651116|184635236|SUPERIORITY|||||||0.2892||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model contained treatment, study site (pooled), afternoon baseline assessment by participant, interaction of treatment by age group and age group included in the model.||||0.2892
92225895|NCT01703858|184353167|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|117.18|STANDARD_DEVIATION|16.7||0.1599|TWO_SIDED|90.0|104.923|130.867|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. C : BI-113608 - Food effect||130.867|104.923|0.1599
92225896|NCT01703858|184353167|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|97.4|STANDARD_DEVIATION|15.8||0.002|TWO_SIDED|90.0|88.072|107.719|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|D : BI-113608 vs. B : BI-113608 - Pantoprazole effect||107.719|88.072|0.0020
92225897|NCT01703858|184353168|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|89.26|STANDARD_DEVIATION|25.3||0.1261|TWO_SIDED|90.0|75.893|104.973|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|B : BI-113608 vs. A : BI-113608 - Comparison with oral solution||104.973|75.893|0.1261
92366396|NCT02651116|184635237|SUPERIORITY||Difference in least squares mean|-0.3014|STANDARD_ERROR_OF_MEAN|0.1096||0.0063|TWO_SIDED|95.0|-0.517|-0.0858||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||ANOVA model contained treatment, study site (pooled), the corresponding afternoon baseline cough severity by participant, and age group included in the model. The statistical analysis was performed on the composite for all categories.||-0.0858|-0.5170|0.0063
92366397|NCT02651116|184635237|SUPERIORITY|||||||0.3268||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model contained treatment, study site (pooled), afternoon baseline assessment by participant, interaction of treatment by age group and age group included in the model.||||0.3268
92366398|NCT02651116|184635238|SUPERIORITY||Difference in least squares mean|-0.2535|STANDARD_ERROR_OF_MEAN|0.1124||0.0247|TWO_SIDED|95.0|-0.4745|-0.0325||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||ANOVA model with treatment, study site (pooled), the baseline assessment in child global question cold assessment by participant and age group included in the model. The statistical analysis was performed on the composite for all categories.||-0.0325|-0.4745|0.0247
92366399|NCT02651116|184635238|SUPERIORITY|||||||0.4093||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model with treatment, study site (pooled), baseline assessment by participant, interaction of treatment by age group and age group included in the model.||||0.4093
92404719|NCT02230995|184700742|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% confidence intervals (CIs) for the ratios (test to reference treatment) of the adjusted geometric means (gMeans) of the primary endpoints, using an acceptance range of 80.00 to 125.00%.|Adjusted gMean ratio|102.14|STANDARD_DEVIATION|7.9|<|1e-05|TWO_SIDED|90.0|98.65|105.76|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the ratios of the adjusted gMean of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||105.76|98.65|<0.00001
92404720|NCT02230995|184700743|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% confidence intervals (CIs) for the ratios (test to reference treatment) of the adjusted geometric means (gMeans) of the primary endpoints, using an acceptance range of 80.00 to 125.00%.|Adjusted gMean ratio|98.7|STANDARD_DEVIATION|12.3|<|1e-05|TWO_SIDED|90.0|93.51|104.17|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by the ratios of the adjusted gMean of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||104.17|93.51|<0.00001
92404721|NCT02230995|184700744|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% confidence intervals (CIs) for the ratios (test to reference treatment) of the adjusted geometric means (gMeans) of the primary endpoints, using an acceptance range of 80.00 to 125.00%.|Adjusted gMean ratio|105.69|STANDARD_DEVIATION|10.9|<|1e-05|TWO_SIDED|90.0|100.78|110.84|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the ratios of the adjusted gMean of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||110.84|100.78|<0.00001
92404722|NCT02230995|184700745|SUPERIORITY_OR_OTHER||Adjusted gMean ratio|98.32|STANDARD_DEVIATION|5.1|||TWO_SIDED|90.0|96.16|100.53|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by ratios of adjusted geometric means (gMean) of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||100.53|96.16|
92404723|NCT02230995|184700746|SUPERIORITY_OR_OTHER||Adjusted gMean ratio|104.66|STANDARD_DEVIATION|7.3|||TWO_SIDED|90.0|101.36|108.07|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the ratios of the adjusted geometric means (gMean) of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||108.07|101.36|
92404724|NCT04040933|184700747|OTHER|Change from Baseline in TEWL measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each baseline score within each treatment using paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.86|TWO_SIDED||||||ANCOVA|||||||0.860
92225898|NCT01703858|184353168|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|54.57|STANDARD_DEVIATION|47.4||0.9808|TWO_SIDED|90.0|40.711|73.157|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|C : BI-113608 vs. B : BI-113608 - Food effect||73.157|40.711|0.9808
92404725|NCT04040933|184700747|OTHER|Change from Baseline in TEWL measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each baseline score within each treatment using paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.051|||||||ANCOVA|||||||0.051
92404726|NCT04040933|184700748|OTHER|Change from Baseline in Erythema measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.259|TWO_SIDED||||||ANCOVA|||||||0.259
92366400|NCT02651116|184635239|SUPERIORITY||Difference in least squares mean|0.1266|STANDARD_ERROR_OF_MEAN|0.2196||0.5652|TWO_SIDED|95.0|-0.3081|0.5614||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||Participant: ANOVA model with treatment, study site (pooled), and age group included in the model.||0.5614|-0.3081|0.5652
92366401|NCT02651116|184635239|SUPERIORITY||Difference in least squares mean|-0.1368|STANDARD_ERROR_OF_MEAN|0.1982||0.4914|TWO_SIDED|95.0|-0.5292|0.2556||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||Caregiver: ANOVA model with treatment, study site (pooled), and age group included in the model.||0.2556|-0.5292|0.4914
92167122|NCT04714320|184224089|SUPERIORITY||||||=|0.053||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 92||||=0.053
92167123|NCT04714320|184224089|SUPERIORITY||||||=|0.893||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 106||||=0.893
92167124|NCT04714320|184224089|SUPERIORITY||||||=|0.662||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 106||||=0.662
92366402|NCT02651116|184635239|SUPERIORITY|||||||0.1029||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||Participant: ANOVA model with treatment, study site (pooled), interaction of treatment by age group and age group included in the model.||||0.1029
92366403|NCT02651116|184635239|SUPERIORITY|||||||0.4736||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||Caregiver: ANOVA model with treatment, study site (pooled), interaction of treatment by age group and age group included in the model.||||0.4736
92366404|NCT02041299|184635262|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 96.01% confidence interval (CI) is less than or equal to 2 mg/g dw.|Mean Difference (Net)|0.26||||0.0399|TWO_SIDED|96.01|-0.97|1.48|||ANCOVA|||||1.48|-0.97|0.0399
92366405|NCT02041299|184635263|NON_INFERIORITY|Support for non-inferiority is demonstrated if the 96.01% CI contains zero (0)|Mean Difference (Net)|-0.000295||||0.0399|TWO_SIDED|96.01|-0.054247|0.053657|||ANCOVA|||Data for this measure were log-transformed.||0.053657|-0.054247|0.0399
92366406|NCT02041299|184635264|NON_INFERIORITY|Support for non-inferiority of deferiprone to deferoxamine in serum ferritin is demonstrated if the 96.01% CI contains zero (0)|Mean Difference (Net)|375.07||||0.0399|TWO_SIDED|96.01|-260.63|1010.76|||ANCOVA|||||1010.76|-260.63|0.0399
92366407|NCT02041299|184635265|SUPERIORITY|Comparison of treatment groups on change in score on SF-36 Physical Summary||||||0.9214|||||||ANCOVA|||||||0.9214
92404727|NCT04040933|184700748|OTHER|Change from Baseline in Erythema measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.451|||||||ANCOVA|||||||0.451
92167125|NCT04714320|184224089|SUPERIORITY||||||=|0.688||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 120||||=0.688
92167126|NCT04714320|184224089|SUPERIORITY||||||=|0.611||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 120||||=0.611
92366408|NCT02041299|184635265|SUPERIORITY|||||||0.1174|||||||ANCOVA|||Comparison of treatment groups on change in score on SF-36 Mental Summary||||0.1174
92366409|NCT02041299|184635265|SUPERIORITY|||||||0.6488|||||||ANCOVA|||Comparison of treatment groups on change in score on CHQ-PF50 Physical Summary||||0.6488
92366410|NCT02041299|184635265|SUPERIORITY|||||||0.5915|||||||ANCOVA|||Comparison of treatment groups on change in score on CHQ-PF50 Psychosocial Summary||||0.5915
92366411|NCT02389465|184635266|OTHER|||||||0.44|||||||t-test, 2 sided|||IL6 levels in healthy controls pre- and post-treatment compared using a paired t-test||||.44
92366412|NCT02389465|184635266|OTHER|||||||0.11|||||||t-test, 2 sided|||IL6 levels in the placebo group pre- and post-treatment compared using a paired t-test||||.11
92366413|NCT02389465|184635266|OTHER|||||||0.42|||||||t-test, 2 sided|||IL6 levels in the escitalopram group pre- and post-treatment compared using a paired t-test||||.42
92366414|NCT02389465|184635266|OTHER|||||||0.49|||||||t-test, 2 sided|||IL-6 levels in the escitalopram + celecoxib group pre- and post-treatment compared using a paired t-tes||||.49
92366415|NCT02389465|184635266|OTHER|||||||0.23|||||||t-test, 2 sided|||IL6 levels at completion of study compared between all MDD groups (placebo, escitalopram, and escitalopram + celecoxib) and the healthy control group||||.23
92366416|NCT02389465|184635267|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||MADRS scores at the final visit compared between the healthy control and escitalopram + celecoxib groups||||.003
92366417|NCT02389465|184635267|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||MADRS scores at the final visit compared between the healthy control and escitalopram groups||||<.001
92366418|NCT02389465|184635267|SUPERIORITY|||||||0.034|||||||Wilcoxon (Mann-Whitney)|||MADRS scores at the final visit compared between the healthy control and placebo groups||||.034
92366419|NCT02389465|184635267|SUPERIORITY|||||||0.03|||||||ANCOVA|||MADRS scores at the final visit compared between the placebo groups and all groups receiving escitalopram (both with and without celecoxib)||||.03
92366420|NCT02389465|184635268|OTHER|||||||0.29|||||||t-test, 2 sided|||IL10 levels in healthy controls pre- and post-treatment compared using a paired t-test||||.29
92366421|NCT02389465|184635268|OTHER|||||||0.19|||||||t-test, 2 sided|||IL10 levels in the placebo group pre- and post-treatment compared using a paired t-test||||.19
92366422|NCT02389465|184635268|OTHER|||||||0.5|||||||t-test, 2 sided|||IL10 levels in the escitalopram group pre- and post-treatment compared using a paired t-test||||.5
92366423|NCT02389465|184635268|OTHER|||||||0.55|||||||t-test, 2 sided|||IL10 levels in the escitalopram + celecoxib group pre- and post-treatment compared using a paired t-test||||.55
92366424|NCT02389465|184635268|OTHER|||||||0.06|||||||t-test, 2 sided|||IL10 levels at completion of study compared between all MDD groups (placebo, escitalopram, and escitalopram + celecoxib) and the healthy control group||||.06
92366425|NCT01925768|184635269|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|17.7||||0.004|TWO_SIDED|95.0|6.2|29.3||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by the 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights. The CI is based on a normal approximation.|||29.3|6.2|0.0040
92366426|NCT01925768|184635270|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.103||||0.1677|TWO_SIDED|95.0|-0.251|0.044|||Mixed Models Analysis|Those with a baseline and at least 1 postbaseline value at the PBO controlled phase were counted with mixed effects model for repeated measure (MMRM)|The LS mean (SE) and 2-sided p-value were based on a MMRM analysis for change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD and baseline corticosteroids used as factors and baseline value as a covariate|||0.044|-0.251|0.1677
92167127|NCT04714320|184224089|SUPERIORITY||||||=|0.907||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 148||||=0.907
92167128|NCT04714320|184224089|SUPERIORITY||||||=|0.699||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 148||||=0.699
92167129|NCT04714320|184224089|SUPERIORITY||||||=|0.802||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 169||||=0.802
92366427|NCT01925768|184635271|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|18.5||||0.004|TWO_SIDED|95.0|6.3|30.6||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel|Those who withdrew early or who did not have sufficient data at Week 16 were counted as non-responders.|Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by the 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights. The CI is based on a normal approximation.|||30.6|6.3|0.0040
92366428|NCT01925768|184635272|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5||||0.0051|TWO_SIDED|95.0|-0.85|-0.15|||Mixed Models Analysis||The LS mean (SE) and 2-sided p-value were based on a MMRM analysis for change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD and baseline corticosteroids used as factors and baseline value as a covariate.|||-0.15|-0.85|0.0051
92366429|NCT01925768|184635273|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.68||||0.0167|TWO_SIDED|95.0|0.49|4.88|||Mixed Models Analysis|Those with a baseline and at least 1 postbaseline value at the PBO controlled phase were counted with mixed effects model for repeated measure (MMRM)|The LS mean (SE) and 2-sided p-value were based on a MMRM analysis for change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD and baseline corticosteroids used as factors and baseline value as a covariate|||4.88|0.49|0.0167
92366430|NCT01925768|184635274|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.4||||0.0039|TWO_SIDED|95.0|1.1|5.7||Based on an MMRM model for the change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD use and baseline Oral Corticosteroids use as factors and the baseline value as a covariate.|Mixed Models Analysis|||2-sided 95% CI for the difference in LS mean.||5.70|1.10|0.0039
92366431|NCT01925768|184635275|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.0||||0.012|TWO_SIDED|95.0|-21.5|10.2|||Sign test|p-value based on distribution free signed rank test||||10.2|-21.5|0.012
92366432|NCT01925768|184635276|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|19.7||||0.0016|TWO_SIDED|95.0|8.0|31.3||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline oral corticosteroids (prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by the 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights. The CI is based on a normal approximation.|||31.3|8.0|0.0016
92366433|NCT01925768|184635277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15||||0.0229|TWO_SIDED|95.0|-0.279|-0.021|||Mixed Models Analysis||The LS mean (SE) and 2-sided p-value were based on a MMRM analysis for change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD and baseline corticosteroids used as factors and baseline value as a covariate|||-0.021|-0.279|0.0229
92366434|NCT01925768|184635278|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.35|||Mixed Models Analysis||The LS mean (SE) and 2-sided p-value were based on a MMRM analysis for change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD and baseline corticosteroids used as factors and baseline value as a covariate|||-0.35|-1.00|<0.0001
92366435|NCT01925768|184635279|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.46||||0.0039|TWO_SIDED|95.0|1.13|5.8|||Mixed Models Analysis||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by the 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|||5.80|1.13|0.0039
92366436|NCT01925768|184635280|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann|10.0||||0.0168|TWO_SIDED|95.0|0.0|20.0|||Stratified Van Elteren test|p-value based on stratified Van Elteren test, using 2 stratification factors: previous DMARD use and baseline Oral Corticosteroids|Location shift and 95% CI based on Hodges-Lehmann for between treatment median estimates.|||20.0|0.0|0.0168
92366437|NCT01925768|184635281|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|20.7||||0.0015|TWO_SIDED|95.0|8.5|32.8||2 sided-p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by the 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|||32.8|8.5|0.0015
92366438|NCT01925768|184635282|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|9.7||||0.0252|TWO_SIDED|95.0|1.6|17.7||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 2; 2-sided 95% CI is based on a normal approximation to the weighted average||17.7|1.6|0.0252
92366439|NCT01925768|184635282|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|8.6||||0.1121|TWO_SIDED|95.0|-1.7|18.9||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 4; 2-sided 95% CI is based on a normal approximation to the weighted average||18.9|-1.7|0.1121
92366440|NCT01925768|184635282|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|17.8||||0.0036|TWO_SIDED|95.0|6.2|29.3||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 6; 2-sided 95% CI is based on a normal approximation to the weighted average||29.3|6.2|0.0036
92366441|NCT01925768|184635282|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|12.7||||0.0392|TWO_SIDED|95.0|0.8|24.6||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 8; 2-sided 95% CI is based on a normal approximation to the weighted average||24.6|0.8|0.0392
92404728|NCT04040933|184700749|OTHER|Change from Baseline in Edema measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.|||||>|0.999|TWO_SIDED||||||ANCOVA|||||||>0.999
92404729|NCT04040933|184700749|OTHER|Change from Baseline in Edema measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.739|||||||ANCOVA|||||||0.739
92404730|NCT04040933|184700750|OTHER|Change from Baseline in Composite Scar Score Measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.|||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92167130|NCT04714320|184224089|SUPERIORITY||||||=|0.206||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 169||||=0.206
92167131|NCT04714320|184224090|SUPERIORITY||||||=|0.28||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 8||||=0.280
92167132|NCT04714320|184224090|SUPERIORITY||||||=|0.648||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 8||||=0.648
92167133|NCT04714320|184224090|SUPERIORITY||||||=|0.416||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 15||||=0.416
92167134|NCT04714320|184224090|SUPERIORITY||||||=|0.9||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 15||||=0.900
92167135|NCT04714320|184224090|SUPERIORITY||||||=|0.627||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 22||||=0.627
92167136|NCT04714320|184224090|SUPERIORITY||||||=|0.921||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 22||||=0.921
92167137|NCT04714320|184224090|SUPERIORITY||||||=|0.464||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 29||||=0.464
92225899|NCT01703858|184353168|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|94.88|STANDARD_DEVIATION|43.2||0.1449|TWO_SIDED|90.0|72.175|124.731|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. B : BI-113608 - Food effect||124.731|72.175|0.1449
92225900|NCT01703858|184353168|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|169.46|STANDARD_DEVIATION|49.7||0.9463|TWO_SIDED|90.0|124.093|231.419|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. C : BI-113608 - Food effect||231.419|124.093|0.9463
92225901|NCT01703858|184353168|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|81.06|STANDARD_DEVIATION|33.3||0.4564|TWO_SIDED|90.0|65.811|99.848|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|D : BI-113608 vs. B : BI-113608 - Pantoprazole effect||99.848|65.811|0.4564
92225902|NCT01703858|184353169|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|98.66|STANDARD_DEVIATION|9.9||0|TWO_SIDED|90.0|92.5|105.225|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|B : BI-113608 vs. A : BI-113608 - Comparison with oral solution||105.225|92.500|0.0000
92225903|NCT01703858|184353169|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|70.24|STANDARD_DEVIATION|18.3||0.9635|TWO_SIDED|90.0|62.43|79.038|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|C : BI-113608 vs. B : BI-113608 - Food effect||79.038|62.430|0.9635
92225904|NCT01703858|184353169|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|83.46|STANDARD_DEVIATION|18.7||0.2771|TWO_SIDED|90.0|73.774|94.412|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. B : BI-113608 - Food effect||94.412|73.774|0.2771
92225905|NCT01703858|184353169|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|117.16|STANDARD_DEVIATION|16.6||0.1584|TWO_SIDED|90.0|104.958|130.787|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. C : BI-113608 - Food effect||130.787|104.958|0.1584
92225906|NCT01703858|184353169|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|97.41|STANDARD_DEVIATION|15.8||0.002|TWO_SIDED|90.0|88.066|107.741|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|D : BI-113608 vs. B : BI-113608 - Pantoprazole effect||107.741|88.066|0.0020
92225907|NCT00993031|184353182|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.76|TWO_SIDED|95.0|0.26|2.67|||Chi-squared|||||2.67|.26|.76
92225908|NCT00993031|184353183|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.85||||0.76|TWO_SIDED|95.0|0.29|2.46|||Chi-squared|||||2.46|.29|.76
92225909|NCT00993031|184353184|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75||||0.45|TWO_SIDED|95.0|0.36|1.59|||Chi-squared|||||1.59|.36|.45
92225910|NCT00993031|184353186|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.22||||0.21|TWO_SIDED|95.0|0.89|1.66|||Chi-squared|||||1.66|.89|.21
92225911|NCT00993031|184353187|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.34||||0.06|TWO_SIDED|95.0|0.98|1.83|||Chi-squared|||||1.83|.98|.06
92225912|NCT03506295|184353198|OTHER||Odds Ratio (OR)|0.496||||0.7878|TWO_SIDED|95.0|0.168|1.469|||Regression, Logistic|||||1.469|0.168|0.7878
92225913|NCT01834729|184353203|SUPERIORITY|||||||0.78|||||||Least squares means|||||||0.78
92225914|NCT01834729|184353204|SUPERIORITY|||||||0.57|||||||Least squares means|||||||0.57
92225915|NCT00288080|184353205|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0398|||||||Log Rank|||The study was designed to detect an improvement in the 4-year overall survival rate from 86% (AS+RT) to 93% (AS+RT+CT). Assuming an exponential survival distribution for each arm, then an absolute improvement of 7% in the 4-year overall survival rate translates to a 51% relative reduction (hazard ratio 0.49) in the yearly death rate. Under a 1-sided significance level of 0.05 and 90% power, at least 78 deaths and 486 cases were required to perform the primary endpoint analysis.||||0.0398
92404731|NCT04040933|184700750|OTHER|Change from Baseline in Composite Scar Score Measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.053|||||||ANCOVA|||||||0.053
92404732|NCT04040933|184700751|OTHER|Change in Baseline in Painful Score with Arm Resting by Side was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.666|TWO_SIDED||||||ANCOVA|||||||0.666
92167138|NCT04714320|184224090|SUPERIORITY||||||=|0.458||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 29||||=0.458
92225916|NCT00288080|184353206|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22|||||||Log Rank|||Biochemical control rates at 4 years were calculated using the Kaplan-Meier method and compared by a two-sided log-rank test with a significance level of 0.05.||||0.22
92225917|NCT00288080|184353208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|||||||Log Rank|||Distant failure rates at 4 years were calculated using the Kaplan-Meier method and compared by a two-side log-rank test at the 0.05 significance level.||||0.21
92404733|NCT04040933|184700751|OTHER|Change in Baseline in Painful Score with Arm Resting by Side was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.473|||||||ANCOVA|||||||0.473
92404734|NCT04040933|184700752|OTHER|Change from Baseline In Painful Score with Arm in Normal Motion was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.761|TWO_SIDED||||||ANCOVA|||||||0.761
92167139|NCT04714320|184224090|SUPERIORITY||||||=|0.779||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 36||||=0.779
92225918|NCT00288080|184353209|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0484|||||||Log Rank|||Disease-free survival rates were compared by a two-sided log-rank test at a significance level of 0.05.||||0.0484
92225919|NCT04673786|184353223|EQUIVALENCE|Predefined equivalence margin: -10% to 10%|Treatment difference (%) and 90% CI|2.05|||||TWO_SIDED|90.0|-0.23|4.32|||ANCOVA|Multiple imputation (MI) with the Missing at random (MAR) assumption was applied.||||4.32|-0.23|
92366442|NCT01925768|184635282|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|11.0||||0.0884|TWO_SIDED|95.0|-1.3|23.2||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 12; 2-sided 95% CI is based on a normal approximation to the weighted average||23.2|-1.3|0.0884
92366443|NCT01925768|184635282|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|18.6||||0.004|TWO_SIDED|95.0|6.5|30.7||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 20; 2-sided 95% CI is based on a normal approximation to the weighted average||30.7|6.5|0.0040
92167140|NCT04714320|184224090|SUPERIORITY||||||=|0.629||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 36||||=0.629
92167141|NCT04714320|184224090|SUPERIORITY||||||=|0.242||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 43||||=0.242
92167142|NCT04714320|184224090|SUPERIORITY||||||=|0.29||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 43||||=0.290
92366444|NCT00362882|184635326|SUPERIORITY|||||||0.17|||||||Log Rank|||||||0.17
92366445|NCT00361972|184635346|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92366446|NCT00361972|184635347|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
92366447|NCT03542266|184635357|OTHER||Proportion (percent)|75.0|||||TWO_SIDED|95.0|46.5|90.3|||||Exact (Clopper-Pearson) 95% confidence interval for complete response rate.|||90.3|46.5|
92167143|NCT04714320|184224090|SUPERIORITY||||||=|0.349||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 50||||=0.349
92225920|NCT04849780|184353240|NON_INFERIORITY|It was calculated that 80 participants randomized in a 1:1 fashion between the two arms would have at least 80% power to detect a 5 points difference in mean change from baseline overall comfort. Sample size was determined using a 2-sided Satterthwaite t-test assuming unequal variances with an alpha level of 5%. A non-inferiority margin of -5 points was used.|Population Mean Difference|29.279|||||TWO_SIDED|95.0|24.602|33.732|||Bootstrapping methods||Population Mean difference was calculated as Arm 1 minus Arm 2|||33.732|24.602|
92225921|NCT04849780|184353241|NON_INFERIORITY|Sample size was determined based on the primary hypothesis only. A non-inferiority margin of 3 points was used.|LS Mean|-10.7|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-12.7|-8.6|||Heterogeneous Mixed model analysis|The Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Arm 1 minus Arm 2 (subjects' own contact lens)|||-8.6|-12.7|
92225922|NCT04849780|184353242|NON_INFERIORITY|Sample size was determined based on the primary hypothesis only. A non-inferiority margin of -5 points was used.|LS Mean|25.9|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|19.0|32.9|||Heterogeneous Mixed model analysis|The Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Arm 2 (senofilcon A), minus Arm 2 (subjects' own contact lens)|||32.9|19.0|
92225923|NCT04849780|184353243|NON_INFERIORITY|A non-inferiority margin of 3 points was used.|LS Mean|-8.5|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-10.1|-7.0|||Heterogeneous mixed model analysis||Mean difference was calculated as Arm 2 (senofilcon A) minus Arm 2 (subjects' own contact lens)|||-7.0|-10.1|
92225924|NCT00725075|184353244|SUPERIORITY_OR_OTHER||Mean Change From Baseline|-2.26||||0.267|TWO_SIDED|95.0|-6.25|1.74|||ANCOVA|ANCOVA model with the baseline value as covariate and with treatment group and center as fixed factors||Comparison of Mean Change in Baseline: Least Squared Estimates with Statistical Inference.||1.74|-6.25|0.267
92225925|NCT00725075|184353244|SUPERIORITY_OR_OTHER||Mean Change From Baseline|-0.08||||0.966|TWO_SIDED|95.0|-3.91|3.74|||ANCOVA|ANCOVA model with the baseline value as covariate and with treatment group and center as fixed factors||Comparison of Mean Change in Baseline: Least Squared Estimates with Statistical Inference.||3.74|-3.91|0.966
92225926|NCT02340663|184353260|OTHER|||||||0.23|||||||t-test, 2 sided|||||||0.23
92225927|NCT02340663|184353261|OTHER|||||||0.045|||||||ANOVA|||||||0.045
92225928|NCT02340663|184353262|OTHER|||||||0.665|||||||t-test, 2 sided|||||||0.665
92225929|NCT02340663|184353263|OTHER|||||||0.249|||||||Wilcoxon (Mann-Whitney)|||||||0.249
92366448|NCT00873821|184635382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.83|||<|0.001|TWO_SIDED|95.0|26.33|55.32|||Mixed Models Analysis|||Difference (placebo minus MK-0941) in change from baseline to Day 13||55.32|26.33|<0.001
92366449|NCT00405288|184635387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.0|STANDARD_DEVIATION|450.0||0.17|TWO_SIDED|95.0|0.0|200.0|||t-test, 2 sided|||"Null hypothesis: Birth weight in pregnancies exposed to Proctofoam-HC will be the same as control pregnancies.~To detect a clinically significant decrease of 200 g in birth weight at a power of 80% and alpha of 5%, 200 women per group were required. Post hoc power analysis of our cohort revealed that, in fact, we had a 91.5% power to detect a 200 g difference in birth weight between the two groups."||200|0|0.17
92225930|NCT02340663|184353264|OTHER|||||||0.626|||||||Wilcoxon (Mann-Whitney)|||||||0.626
92225931|NCT02340663|184353265|OTHER|||||||0.695|||||||t-test, 2 sided|||||||0.695
92225932|NCT02340663|184353266|OTHER|||||||0.255|||||||Wilcoxon (Mann-Whitney)|||||||0.255
92225933|NCT02340663|184353267|OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||.049
92225934|NCT02340663|184353270|OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.750
92225935|NCT02340663|184353271|OTHER||||||<|0.01||||||The P-value given is the computed value|Mixed Models Analysis|||||||<0.01
92366450|NCT00405288|184635388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|3.0||0.16|TWO_SIDED|95.0|0.0|3.0|||Wilcoxon (Mann-Whitney)|||||3|0|0.16
92167144|NCT04714320|184224090|SUPERIORITY||||||=|0.532||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 50||||=0.532
92225936|NCT02340663|184353272|OTHER|||||||0.544|||||||Wilcoxon (Mann-Whitney)|||||||0.544
92225937|NCT02340663|184353273|OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.220
92225938|NCT02340663|184353274|OTHER|||||||0.081|||||||Wilcoxon (Mann-Whitney)|||||||0.081
92225939|NCT02340663|184353275|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
92366451|NCT00405288|184635389|SUPERIORITY_OR_OTHER||chi square|30.0||||0.003||95.0|||||McNemar|||The null hypothesis is that the proportion of vaginal deliveries in the Proctofoam and Control groups will be the same (ie. there will not be a greater proportion of complicated deliveries in either group).||||0.003
92225940|NCT02340663|184353276|OTHER|||||||0.731|||||||Wilcoxon (Mann-Whitney)|||||||0.731
92225941|NCT02340663|184353277|OTHER|||||||0.238|||||||Wilcoxon (Mann-Whitney)|||||||0.238
92225942|NCT02340663|184353278|OTHER|||||||0.952||||||"The P-value refers to the difference in group means, see Group Means row in the table."|ANOVA|||||||0.952
92366452|NCT00405288|184635390|SUPERIORITY_OR_OTHER||chi square|5.0||||0.55||95.0|||||McNemar|||The null hypothesis is that the proportion of pre-term births in the Proctofoam and Control groups will be the same.||||0.55
92366453|NCT00405288|184635391|SUPERIORITY_OR_OTHER||chi square|10.0||||0.97||95.0|||||McNemar|||Fetal Distress The null hypothesis is that the proportion of fetal distress in the Proctofoam and Control groups will be the same.||||0.97
92366454|NCT00405288|184635392|SUPERIORITY_OR_OTHER||binary|3.0||||0.31||95.0|||||McNemar|||Low birth weight \<2,500g; The null hypothesis is that the proportion of low birth weight babies in the Proctofoam and Control groups will be the same.||||0.31
92366455|NCT00405288|184635393|SUPERIORITY_OR_OTHER||chi square|10.0||||0.87||95.0|||||McNemar|||The null hypothesis is that the proportion of healthy babies (not requiring NICU (neonatal intensive care unit) or additional medical monitoring) will be the same between the Proctofoam and Control groups.||||0.87
92366456|NCT00405288|184635394|SUPERIORITY_OR_OTHER||proportion|4.0||||0.99||95.0|||||Fisher Exact|||||||0.99
92404735|NCT04040933|184700752|OTHER|Change from Baseline In Painful Score with Arm in Normal Motion was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.456|||||||ANCOVA|||||||0.456
92404736|NCT04040933|184700753|OTHER|Change from Baseline In Itchy Score was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.019|TWO_SIDED||||||ANCOVA|||||||0.019
92404737|NCT04040933|184700753|OTHER|Change from Baseline In Itchy Score was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.325|||||||ANCOVA|||||||0.325
92404738|NCT04040933|184700754|OTHER|Time to complete healing was analyzed using a survival analysis method. The survival function (cumulative percentage of wounds healed at each time point) was estimated by the Kaplan-Meier method for each treatment separately. The median time to complete healing was derived from the estimated survival functions and be compared using the bootstrap re-sampling method.|||||<|0.001|TWO_SIDED|||||no adjustments|Boot-strap sampling method|||All hypothesis tests was conducted at 0.05 level without adjustment of multiple comparisons||||<0.001
92404739|NCT04040933|184700754|OTHER|Time to complete healing was analyzed using a survival analysis method. The survival function (cumulative percentage of wounds healed at each time point) was estimated by the Kaplan-Meier method for each treatment separately. The median time to complete healing was derived from the estimated survival functions and be compared using the bootstrap re-sampling method.|||||<|0.001||||||no adjustments|Boot-strap sampling method|||||||<0.001
92404740|NCT02066181|184700757|SUPERIORITY||Hazard Ratio (HR)|11.3|||<|0.001|ONE_SIDED|95.0|5.7||||Log Rank||||||5.7|<0.001
92404741|NCT05764785|184700776|SUPERIORITY|||||||0.182||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.182
92404742|NCT05764785|184700777|SUPERIORITY|||||||0.461||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.461
92404743|NCT05764785|184700778|SUPERIORITY|||||||0.228||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.228
92404744|NCT05764785|184700779|SUPERIORITY|||||||0.295||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.295
92404745|NCT05764785|184700780|SUPERIORITY|||||||0.915||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.915
92404746|NCT05764785|184700781|SUPERIORITY|||||||0.226||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.226
92404747|NCT02141295|184700782|OTHER||Hazard Ratio (HR)|0.91|||=|0.6753|TWO_SIDED|95.0|0.6|1.39||log-rank|Regression, Cox|||Kaplan-Meier methods were used to estimate median PFS for each treatment arm and the 95% CIs for median PFS were computed using the Brookmeyer and Crowley method. The stratified Cox proportional hazard was used to estimate the hazard ratio (i.e., the magnitude of the treatment effect) and the corresponding 95% confidence interval. The stratification factors are number of metastatic sites (1 vs. \>1) and country/region (USA vs rest of the world).||1.39|0.60|= 0.6753
92404748|NCT02141295|184700785|OTHER||Hazard Ratio (HR)|0.85|||=|0.574|TWO_SIDED|95.0|0.49|1.49|||Log Rank|||Kaplan-Meier methods were used to estimate median OS for each treatment arm and the 95% CIs for median OS were computed using the Brookmeyer and Crowley method. The stratified Cox proportional hazard was used to estimate the hazard ratio (i.e., the magnitude of the treatment effect) and the corresponding 95% confidence interval. The stratification factors are number of metastatic sites (1 vs. \>1) and country/region (USA vs rest of the world).||1.49|0.49|= 0.5740
92404749|NCT00071890|184700799|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Chi-squared|||||||0.025
92404750|NCT00071890|184700800|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||Biphasic decline of CD4 after week 24 : first slope before W32 and weaker decline until W168.Slopes significantly different (all p values ≤0.0001) between the 2 groups, more pronounced in the IL-2 groups|Wilcoxon (Mann-Whitney)|||||||0.069
92404751|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||MI at 0-6 Months||||>0.999
92404752|NCT02144610|184700805|SUPERIORITY_OR_OTHER|||||||0.4889|||||||Fisher Exact|||MI at 0-12 Months||||0.4889
92404753|NCT02144610|184700805|SUPERIORITY_OR_OTHER|||||||0.4889|||||||Fisher Exact|||MI at 0-18 Months||||0.4889
92404754|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Stroke at 0-6 Months||||>0.999
92404755|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Stroke at 0-12 Months||||>0.999
92366457|NCT00405288|184635395|SUPERIORITY_OR_OTHER||proportion|3.0||||0.99||95.0|||||Fisher Exact|||||||0.99
92366458|NCT00405288|184635396|SUPERIORITY_OR_OTHER||proportion|2.0||||0.99||95.0|||||Fisher Exact|||||||0.99
92366459|NCT00405288|184635397|SUPERIORITY_OR_OTHER||proportions|2.0||||0.35||95.0|||||Fisher Exact|||||||0.35
92366460|NCT00142792|184635399|SUPERIORITY_OR_OTHER|||||||0.18||||||Time by group interaction effect, F(2,372) = 1.8, p =0.18)|Mixed Models Analysis|A random intercept for each participant with a first-order antedependent covariance structure. Adjusted for site.||The study was powered to detect differences in FMA scores of a minimum effect size of 0.8 at a significance level of 0.01, the smallest effect size difference anticipated between Cyclic NMES and Cyclic Sensory Stimulation based on prior studies. A significance level of 0.01 in the power-analysis was taken since for each measurement occasion, three post-hoc tests are needed. To account for drop out of 20 % , the minimum number of participants required per group is 63.||||0.18
92404756|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Stroke at 0-18 Months||||>0.999
92404757|NCT02144610|184700805|SUPERIORITY_OR_OTHER|||||||0.7381|||||||Fisher Exact|||Major amputation at 0-6 Months||||0.7381
92404758|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Major amputation at 0-12 Months||||>0.999
92404759|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Major amputation at 0-18 Months||||>0.999
92404760|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Revascularization at 0-6 Months||||>0.999
92404761|NCT02144610|184700805|SUPERIORITY_OR_OTHER|||||||0.4591|||||||Fisher Exact|||Revascularization at 0-12 Months||||0.4591
92404762|NCT02144610|184700805|SUPERIORITY_OR_OTHER|||||||0.4591|||||||Fisher Exact|||Revascularization at 0-18 Months||||0.4591
92404763|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||All-cause death at 0-6 Months||||>0.999
92404764|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||All-cause death at 0-12 Months||||>0.999
92404765|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||All-cause death at 0-18 Months||||>0.999
92404766|NCT02144610|184700805|SUPERIORITY_OR_OTHER|||||||0.5136|||||||Fisher Exact|||0-6 Months (Major Amputation or Death)||||0.5136
92404767|NCT02144610|184700805|SUPERIORITY_OR_OTHER|||||||0.7575|||||||Fisher Exact|||0-12 Months (Major Amputation or Death)||||0.7575
92404768|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||0-18 Months (Major Amputation or Death)||||>0.999
92404769|NCT02144610|184700805|SUPERIORITY_OR_OTHER|||||||0.7575|||||||Fisher Exact|||0-6 Months (Major Amputation or Revascularization)||||0.7575
92404770|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||0-12 Months (Major Amputation or Revascularization)||||>0.999
92404771|NCT02144610|184700805|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||0-18 Months (Major Amputation or Revascularization)||||>0.999
92404772|NCT02144610|184700806|SUPERIORITY_OR_OTHER|||||||0.514|||||||ANCOVA|||Change from Baseline at Month 3||||0.514
92404773|NCT02144610|184700806|SUPERIORITY_OR_OTHER|||||||0.445|||||||ANCOVA|||Change from Baseline at Month 6||||0.445
92404774|NCT02144610|184700806|SUPERIORITY_OR_OTHER|||||||0.863|||||||ANCOVA|||Change from Baseline at Month 9||||0.863
92404775|NCT02144610|184700806|SUPERIORITY_OR_OTHER|||||||0.111|||||||ANCOVA|||Change from Baseline at Month 12||||0.111
92404776|NCT02144610|184700806|SUPERIORITY_OR_OTHER|||||||0.153|||||||ANCOVA|||Change from Baseline at Month 15||||0.153
92404777|NCT02144610|184700806|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANCOVA|||Change from Baseline at last observation carried forward (LOCF)||||0.002
92404778|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.733|||||||ANCOVA|||Change from baseline at Month 3 (right brachial)||||0.733
92404779|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.808|||||||ANCOVA|||Change from baseline at Month 6 (right brachial)||||0.808
92404780|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.487|||||||ANCOVA|||Change from baseline at Month 9 (right brachial)||||0.487
92404781|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.216|||||||ANCOVA|||Change from baseline at Month 12 (right brachial)||||0.216
92404782|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.896|||||||ANCOVA|||Change from baseline at Month 15 (right brachial)||||0.896
92225943|NCT02340663|184353279|OTHER|||||||0.53||||||"The P-value refers to the difference in group means, see Group Means row in the table."|ANOVA|||||||0.53
92225944|NCT02340663|184353280|OTHER|||||||0.292||||||"The P-value refers to the difference in group means, see Group Means row in the table."|Mixed Models Analysis|||||||0.292
92404783|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.167|||||||ANCOVA|||Change from baseline at last observation carried forward (LOCF) (right brachial)||||0.167
92404784|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.378|||||||ANCOVA|||Change from baseline at Month 3 (left brachial)||||0.378
92404785|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.39|||||||ANCOVA|||Change from baseline at Month 6 (left brachial)||||0.390
92404786|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.521|||||||ANCOVA|||Change from baseline at Month 9 (left brachial)||||0.521
92404787|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.044|||||||ANCOVA|||Change from baseline at Month 12 (left brachial)||||0.044
92404788|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.423|||||||ANCOVA|||Change from baseline at Month 15 (left brachial)||||0.423
92404789|NCT02144610|184700809|SUPERIORITY_OR_OTHER|||||||0.989|||||||ANCOVA|||Change from baseline at LOCF (left brachial)||||0.989
92404790|NCT02144610|184700810|SUPERIORITY_OR_OTHER|||||||0.803|||||||ANCOVA|||Change from Baseline at Month 3 (Dorsalis Pedis)||||0.803
92404791|NCT02144610|184700810|SUPERIORITY_OR_OTHER|||||||0.668|||||||ANCOVA|||Change from Baseline at Month 6 (Dorsalis Pedis)||||0.668
92404792|NCT02144610|184700810|SUPERIORITY_OR_OTHER|||||||0.789|||||||ANCOVA|||Change from Baseline at Month 9 (Dorsalis Pedis)||||0.789
92404793|NCT02144610|184700810|SUPERIORITY_OR_OTHER|||||||0.28|||||||ANCOVA|||Change from Baseline at Month 12 (Dorsalis Pedis)||||0.280
92404794|NCT02144610|184700810|SUPERIORITY_OR_OTHER|||||||0.324|||||||ANCOVA|||Change from Baseline at LOCF (Dorsalis Pedis)||||0.324
92404795|NCT02144610|184700810|SUPERIORITY_OR_OTHER|||||||0.759|||||||ANCOVA|||Change from Baseline at Month 3 (Posterior Tibial)||||0.759
92404796|NCT02144610|184700810|SUPERIORITY_OR_OTHER|||||||0.414|||||||ANCOVA|||Change from Baseline at Month 6 (Posterior Tibial)||||0.414
92404797|NCT02144610|184700810|SUPERIORITY_OR_OTHER|||||||0.886|||||||ANCOVA|||Change from Baseline at Month 9 (Posterior Tibial)||||0.886
92404798|NCT02144610|184700810|SUPERIORITY_OR_OTHER|||||||0.114|||||||ANCOVA|||Change from Baseline at Month 12 (Posterior Tibial)||||0.114
92404799|NCT02144610|184700810|SUPERIORITY_OR_OTHER|||||||0.051|||||||ANCOVA|||Change from Baseline at LOCF (Posterior Tibial)||||0.051
92404800|NCT02144610|184700811|SUPERIORITY_OR_OTHER|||||||0.211|||||||ANCOVA|||Change from Baseline at Month 3||||0.211
92404801|NCT02144610|184700811|SUPERIORITY_OR_OTHER|||||||0.036|||||||ANCOVA|||Change from Baseline at Month 6||||0.036
92404802|NCT02144610|184700811|SUPERIORITY_OR_OTHER|||||||0.725|||||||ANCOVA|||Change from Baseline at Month 9||||0.725
92404803|NCT02144610|184700811|SUPERIORITY_OR_OTHER|||||||0.468|||||||ANCOVA|||Change from Baseline at Month 12||||0.468
92404804|NCT02144610|184700811|SUPERIORITY_OR_OTHER|||||||0.854|||||||ANCOVA|||Change from Baseline at Month 15||||0.854
92404805|NCT02144610|184700811|SUPERIORITY_OR_OTHER|||||||0.233|||||||ANCOVA|||Change from Baseline at LOCF||||0.233
92404806|NCT02144610|184700812|SUPERIORITY_OR_OTHER|||||||0.268|||||||ANCOVA|||Change from Baseline at Month 3||||0.268
92404807|NCT02144610|184700812|SUPERIORITY_OR_OTHER|||||||0.32|||||||ANCOVA|||Change from Baseline at Month 6||||0.320
92404808|NCT02144610|184700812|SUPERIORITY_OR_OTHER|||||||0.315|||||||ANCOVA|||Change from Baseline at Month 9||||0.315
92167145|NCT04714320|184224090|SUPERIORITY||||||=|0.205||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 57||||=0.205
92366461|NCT00142792|184635399|SUPERIORITY||||||<|0.001||||||time effect, F(1,109)=87.7, p\<0.001)|Mixed Models Analysis|A random intercept for each participant with a first-order antedependent covariance structure. Adjusted for site.||||||<0.001
92366462|NCT00142792|184635400|SUPERIORITY_OR_OTHER|||||||0.27||||||time by group interaction effect, F(2,373) = 1.3, p =0.27|Mixed Models Analysis|A random intercept for each participant with a first-order antedependent covariance structure. Adjusted for site.||||||0.27
92366463|NCT00142792|184635400|SUPERIORITY||||||<|0.001||||||time effect, F(1,109)=91.1, p\<0.001|Mixed Models Analysis|A random intercept for each participant with a first-order antedependent covariance structure. Adjusted for site.||||||<0.001
92366464|NCT00833027|184635408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|0.85|<|0.001|ONE_SIDED|95.0|||||Student's T-test|Student's T-test for paired samples||||||<0.001
92366465|NCT00444925|184635410|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine versus (vs) placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the fifth (5th) and ninety-fifth (95th) percentile, respectively).||||<0.0001
92366466|NCT00444925|184635410|SUPERIORITY_OR_OTHER|||||||0.0107||95.0||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment Difference Tolterodine ER vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0107
92366467|NCT00444925|184635410|SUPERIORITY_OR_OTHER|||||||0.0172||95.0||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0172
92404809|NCT02144610|184700812|SUPERIORITY_OR_OTHER|||||||0.327|||||||ANCOVA|||Change from Baseline at Month 12||||0.327
92404810|NCT02144610|184700812|SUPERIORITY_OR_OTHER|||||||0.643|||||||ANCOVA|||Change from Baseline at Month 15||||0.643
92404811|NCT02144610|184700812|SUPERIORITY_OR_OTHER|||||||0.74|||||||ANCOVA|||Change from Baseline at LOCF||||0.740
92167146|NCT04714320|184224090|SUPERIORITY||||||=|0.368||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 57||||=0.368
92404812|NCT02144610|184700813|SUPERIORITY_OR_OTHER|||||||0.147|||||||ANCOVA|||Change from Baseline at Month 3||||0.147
92404813|NCT02144610|184700813|SUPERIORITY_OR_OTHER|||||||0.032|||||||ANCOVA|||Change from Baseline at Month 6||||0.032
92404814|NCT02144610|184700813|SUPERIORITY_OR_OTHER|||||||0.709|||||||ANCOVA|||Change from Baseline at Month 9||||0.709
92167147|NCT04714320|184224090|SUPERIORITY||||||=|0.084||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 64||||=0.084
92366468|NCT00444925|184635411|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine vs placebo at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
92366469|NCT00444925|184635411|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Tolterodine ER vs placebo at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
92366470|NCT00444925|184635411|SUPERIORITY_OR_OTHER|||||||0.846||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.8460
92366471|NCT00444925|184635411|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine vs placebo at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
92366472|NCT00444925|184635411|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Tolterodine ER vs placebo at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
92366473|NCT00444925|184635411|SUPERIORITY_OR_OTHER|||||||0.1937||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.1937
92404815|NCT02144610|184700813|SUPERIORITY_OR_OTHER|||||||0.771|||||||ANCOVA|||Change from Baseline at Month 12||||0.771
92404816|NCT02144610|184700813|SUPERIORITY_OR_OTHER|||||||0.83|||||||ANCOVA|||Change from Baseline at Month 15||||0.830
92404817|NCT02144610|184700813|SUPERIORITY_OR_OTHER|||||||0.033|||||||ANCOVA|||Change from Baseline at LOCF||||0.033
92404818|NCT02144610|184700814|SUPERIORITY_OR_OTHER|||||||0.105|||||||ANCOVA|||Pain (LOCF)||||0.105
92167148|NCT04714320|184224090|SUPERIORITY||||||=|0.179||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 64||||=0.179
92225945|NCT02340663|184353281|OTHER|||||||0.289|||||||Wilcoxon (Mann-Whitney)|||The P-value refers to the main effect of treatment group, i.e., differences between SOVA bite splints and Michigan bite splints.||||0.289
92366474|NCT00444925|184635412|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||<0.0001
92366475|NCT00444925|184635412|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||<0.0001
92366476|NCT00444925|184635412|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
92366477|NCT00444925|184635412|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
92366478|NCT00444925|184635412|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
92366479|NCT00444925|184635412|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 12.||||<0.0001
92404819|NCT02144610|184700814|SUPERIORITY_OR_OTHER|||||||0.557|||||||ANCOVA|||Symptom (LOCF)||||0.557
92404820|NCT02144610|184700814|SUPERIORITY_OR_OTHER|||||||0.94|||||||ANCOVA|||Activities (LOCF)||||0.940
92404821|NCT02144610|184700814|SUPERIORITY_OR_OTHER|||||||0.905|||||||ANCOVA|||Social (LOCF)||||0.905
92404822|NCT02144610|184700814|SUPERIORITY_OR_OTHER|||||||0.782|||||||ANCOVA|||Emotional Functioning (LOCF)||||0.782
92167149|NCT04714320|184224090|SUPERIORITY||||||=|0.584||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 71||||=0.584
92167150|NCT04714320|184224090|SUPERIORITY||||||=|0.762||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 71||||=0.762
92225946|NCT02340663|184353282|OTHER|||||||0.287||||||The P-value refers to the main effect of treatment group, i.e., differences between SOVA bite splints and Michigan bite splints.|Wilcoxon (Mann-Whitney)|||||||0.287
92225947|NCT02340663|184353283|OTHER|||||||0.505||||||The P-value refers to the main effect of treatment group, i.e., differences between SOVA bite splints and Michigan bite splints.|Wilcoxon (Mann-Whitney)|||||||0.505
92225948|NCT02340663|184353284|OTHER|||||||0.643||||||The P-value refers to the main effect of treatment group, i.e., differences between SOVA bite splints and Michigan bite splints.|Wilcoxon (Mann-Whitney)|||||||0.643
92366480|NCT00444925|184635412|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.0220
92404823|NCT02144610|184700814|SUPERIORITY_OR_OTHER|||||||0.802|||||||ANCOVA|||Composite Overall (LOCF)||||0.802
92404824|NCT02144610|184700815|SUPERIORITY_OR_OTHER|||||||0.941|||||||ANCOVA|||Change from Baseline at Month 3||||0.941
92404825|NCT02144610|184700815|SUPERIORITY_OR_OTHER|||||||0.584|||||||ANCOVA|||Change from Baseline at Month 6||||0.584
92404826|NCT02144610|184700815|SUPERIORITY_OR_OTHER|||||||0.1|||||||ANCOVA|||Change from Baseline at Month 9||||0.100
92404827|NCT02144610|184700815|SUPERIORITY_OR_OTHER|||||||0.916|||||||ANCOVA|||Change from Baseline at Month 12||||0.916
92404828|NCT02144610|184700815|SUPERIORITY_OR_OTHER|||||||0.486|||||||ANCOVA|||Change from Baseline at Month 15||||0.486
92404829|NCT02144610|184700815|SUPERIORITY_OR_OTHER|||||||0.835|||||||ANCOVA|||Change from Baseline at LOCF||||0.835
92404830|NCT01193244|184700838|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.707|||<|1e-05||95.0|0.626|0.799|||Log Rank|||Hazard ratio is based on a stratified Cox's proportional hazard regression model with stratification factors of region and radiographic disease progression at baseline with treatment as a factor in the model. A hazard ratio less than (\<) 1 indicated better prevention of death in the orteronel group compared to the placebo group. From log-rank test stratified by region and radiographic disease progression at Baseline.||0.799|0.626|<0.00001
92404831|NCT01193244|184700839|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.963||||0.59755||95.0|0.838|1.107|||Log Rank|||Hazard ratio is based on a stratified Cox's proportional hazard regression model with stratification factors of region and radiographic disease progression at baseline with treatment as a factor in the model. A hazard ratio \<1 indicated better prevention of death in the orteronel group compared to the placebo group. From log-rank test stratified by region and radiographic disease progression at baseline.||1.107|0.838|0.59755
92404832|NCT01193244|184700840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.166|||<|0.001||95.0|1.724|2.721|||Regression, Logistic|||Logistic regression model with prognostic factors: region; radiographic disease progression at baseline; age; race; baseline Eastern Cooperative Oncology Group (ECOG) score; Gleason score at initial diagnosis; baseline PSA, natural log scale; presence of visceral disease; alkaline phosphatase; lactate dehydrogenase; and hemoglobin. Odds ratio greater than (\>)1 favored orteronel. P-values tested for odds ratio equal to 1.||2.721|1.724|<0.001
92404833|NCT01193244|184700841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.712||||0.001||95.0|1.235|2.373|||Regression, Logistic|||Logistic regression model with prognostic factors: region; radiographic disease progression at baseline; age; race; baseline ECOG score; Gleason score at initial diagnosis; baseline PSA, natural log scale; presence of visceral disease; alkaline phosphatase; lactate dehydrogenase; and hemoglobin. Odds ratio \> 1 favored orteronel. P-values tested for odds ratio equal to 1.||2.373|1.235|0.001
92404834|NCT01193244|184700842|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.885||||0.33906||95.0|0.688|1.138|||Log Rank|||Hazard ratio is based on a stratified Cox's proportional hazard regression model with stratification factors of region and radiographic disease progression at baseline with treatment as a factor in the model. A hazard ratio less than (\<) 1 indicated better prevention of death in the orteronel group compared to the placebo group. From log-rank test stratified by region and radiographic disease progression at baseline.||1.138|0.688|0.33906
92404835|NCT00865566|184700881|OTHER|Score test|Hazard Ratio (HR)|0.73|||<|0.001|TWO_SIDED|95.0|0.63|0.84|||Regression, Cox||HR is vaccine / placebo|Cox proportional hazards model to assess the association between treatment assignment and dropout||0.84|0.63|<0.001
92404836|NCT00865566|184700882|OTHER||Hazard Ratio (HR)|0.77||||0.05|TWO_SIDED|95.0|0.59|1.0||Score test|Regression, Cox||HR is vaccine / placebo|Cox PH model to assess the association between treatment assignment and dropout||1|0.59|0.05
92404837|NCT00865566|184700883|OTHER||Cox Proportional Hazard|0.71|||<|0.001|TWO_SIDED|95.0|0.6|0.84||Score test|Regression, Cox||HR is vaccine / placebo|Assess the association between treatment assignment and dropout||0.84|0.60|<0.001
92167151|NCT04714320|184224090|SUPERIORITY||||||=|0.675||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 78||||=0.675
92167152|NCT04714320|184224090|SUPERIORITY||||||=|0.166||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 78||||=0.166
92167153|NCT04714320|184224090|SUPERIORITY||||||=|0.09||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 85||||=0.090
92167154|NCT04714320|184224090|SUPERIORITY||||||=|0.488||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 85||||=0.488
92167155|NCT04714320|184224090|SUPERIORITY||||||=|0.218||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 92||||=0.218
92167156|NCT04714320|184224090|SUPERIORITY||||||=|0.232||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 92||||=0.232
92167157|NCT04714320|184224090|SUPERIORITY||||||=|0.421||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 106||||=0.421
92167158|NCT04714320|184224090|SUPERIORITY||||||=|0.815||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 106||||=0.815
92404838|NCT00865566|184700884|OTHER||Hazard Ratio (HR)|1.02||||0.903|TWO_SIDED|95.0|0.73|1.42||Score test|Regression, Cox|Adjusted for age, behavioral risk score, square of behavioral risk score, race, and BMI|HR is vaccine / placebo|||1.42|0.73|0.903
92404839|NCT00865566|184700885|OTHER||Hazard Ratio (HR)|1.06||||0.783|TWO_SIDED|95.0|0.71|1.58||Adjusted for ave, behavioral risk score, square of behavioral risk score, and BMI|Regression, Cox|Score test|HR is vaccine / placebo|||1.58|0.71|0.783
92404840|NCT01039376|184700889|SUPERIORITY||Hazard Ratio (HR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.43|0.7|||Stratified log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||0.70|0.43|<0.0001
92404841|NCT01039376|184700890|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.42|0.68|||Stratified log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||0.68|0.42|<0.0001
92225949|NCT02340663|184353285|OTHER|||||||0.923||||||The P-value refers to the main effect of treatment group, i.e., differences between SOVA bite splints and Michigan bite splints.|Wilcoxon (Mann-Whitney)|||||||0.923
92225950|NCT00087646|184353286|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0||||0.006|TWO_SIDED|95.0|1.21|3.31|||Cochran-Mantel-Haenszel|||Group A Vs Group D||3.31|1.21|0.0060
92167159|NCT04714320|184224090|SUPERIORITY||||||=|0.711||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 120||||=0.711
92167160|NCT04714320|184224090|SUPERIORITY||||||=|0.514||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 120||||=0.514
92404842|NCT01039376|184700891|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.6046|TWO_SIDED|95.0|0.69|1.25|||Stratified log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||1.25|0.69|0.6046
92225951|NCT00087646|184353287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9228|TWO_SIDED|95.0|0.63|1.51|||Cochran-Mantel-Haenszel|||||1.51|0.63|0.9228
92404843|NCT01039376|184700893|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0178|TWO_SIDED|95.0|0.62|0.96|||Stratified log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||0.96|0.62|0.0178
92404844|NCT01039376|184700894|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.3136|TWO_SIDED|95.0|0.42|1.32|||log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||1.32|0.42|0.3136
92366481|NCT00444925|184635413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8|STANDARD_ERROR_OF_MEAN|3.4||0.0214|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference Least Squares Mean (LSMean) Difference Standard Error (SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||0.0214
92167161|NCT04714320|184224090|SUPERIORITY||||||=|0.479||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 148||||=0.479
92167162|NCT04714320|184224090|SUPERIORITY||||||=|0.292||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 148||||=0.292
92167163|NCT04714320|184224090|SUPERIORITY||||||=|0.528||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 169||||=0.528
92167164|NCT04714320|184224090|SUPERIORITY||||||=|0.946||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 169||||=0.946
92167165|NCT04714320|184224090|SUPERIORITY||||||=|0.552||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 8||||=0.552
92167166|NCT04714320|184224090|SUPERIORITY||||||=|0.598||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 8||||=0.598
92167167|NCT04714320|184224090|SUPERIORITY||||||=|0.184||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 15||||=0.184
92167168|NCT04714320|184224090|SUPERIORITY||||||=|0.614||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 15||||=0.614
92167169|NCT04714320|184224090|SUPERIORITY||||||=|0.933||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 22||||=0.933
92167170|NCT04714320|184224090|SUPERIORITY||||||=|0.803||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 22||||=0.803
92167171|NCT04714320|184224090|SUPERIORITY||||||=|0.686||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 29||||=0.686
92167172|NCT04714320|184224090|SUPERIORITY||||||=|0.752||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 29||||=0.752
92167173|NCT04714320|184224090|SUPERIORITY||||||=|0.106||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 36||||=0.106
92167174|NCT04714320|184224090|SUPERIORITY||||||=|0.779||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 36||||=0.779
92167175|NCT04714320|184224090|SUPERIORITY||||||=|0.323||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 43||||=0.323
92167176|NCT04714320|184224090|SUPERIORITY||||||=|0.991||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 43||||=0.991
92225952|NCT00087646|184353288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.22||||0.0006|TWO_SIDED|95.0|1.4|3.52|||Cochran-Mantel-Haenszel|||||3.52|1.40|0.0006
92404845|NCT01039376|184700895|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.1603|TWO_SIDED|95.0|0.29|1.19|||log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||1.19|0.29|0.1603
92404846|NCT01039376|184700896|SUPERIORITY||Mean Difference (Final Values)|-2.19||||0.0199|TWO_SIDED|95.0|-4.04|-0.35||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Disease Effects Scale|||-0.35|-4.04|0.0199
92404847|NCT01039376|184700896|SUPERIORITY||Mean Difference (Final Values)|-3.79||||0.0085|TWO_SIDED|95.0|-6.61|-0.97||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Fatigue Scale|||-0.97|-6.61|0.0085
92404848|NCT01039376|184700896|SUPERIORITY||Mean Difference (Final Values)|-3.58||||0.0642|TWO_SIDED|95.0|-7.37|0.21||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Future Health Scale|||0.21|-7.37|0.0642
92404849|NCT01039376|184700896|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.6398|TWO_SIDED|95.0|-1.67|2.72||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Infection Scale|||2.72|-1.67|0.6398
92404850|NCT01039376|184700896|SUPERIORITY||Mean Difference (Final Values)|-4.32||||0.0055|TWO_SIDED|95.0|-7.37|-1.28||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Social Problems Scale|||-1.28|-7.37|0.0055
92404851|NCT01039376|184700896|SUPERIORITY||Mean Difference (Final Values)|-2.49||||0.0063|TWO_SIDED|95.0|-4.27|-0.71||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Side Effects Scale|||-0.71|-4.27|0.0063
92366482|NCT00444925|184635413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.2|STANDARD_ERROR_OF_MEAN|3.4||0.0149|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||0.0149
92366483|NCT00444925|184635413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|2.7||0.8659|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.8659
92366484|NCT00444925|184635413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.5|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
92366485|NCT00444925|184635413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7|STANDARD_ERROR_OF_MEAN|4.0||0.0036|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||0.0036
92366486|NCT00444925|184635413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|3.3||0.1484|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.1484
92366487|NCT00444925|184635413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
92366488|NCT00444925|184635413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|STANDARD_ERROR_OF_MEAN|4.1||0.1029|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||0.1029
92366489|NCT00444925|184635413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4|STANDARD_ERROR_OF_MEAN|3.3||0.0048|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.0048
92366490|NCT00444925|184635414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0002|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||0.0002
92404852|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|-1.48||||0.1816|TWO_SIDED|95.0|-3.64|0.69||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Appetite Loss|||0.69|-3.64|0.1816
92366491|NCT00444925|184635414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0006|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||0.0006
92366492|NCT00444925|184635414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.7395|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.7395
92167177|NCT04714320|184224090|SUPERIORITY||||||=|0.973||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 50||||=0.973
92167178|NCT04714320|184224090|SUPERIORITY||||||=|0.23||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 50||||=0.230
92366493|NCT00444925|184635414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
92366494|NCT00444925|184635414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0007|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||0.0007
92366495|NCT00444925|184635414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4185|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.4185
92366496|NCT00444925|184635414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
92404853|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.2863|TWO_SIDED|95.0|-1.18|3.97||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Cognitive Functioning|||3.97|-1.18|0.2863
92167179|NCT04714320|184224090|SUPERIORITY||||||=|0.792||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 57||||=0.792
92366497|NCT00444925|184635414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0005|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||0.0005
92366498|NCT00444925|184635414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3798|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.3798
92366499|NCT00444925|184635415|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||0.0001
92404854|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|-1.97||||0.0932|TWO_SIDED|95.0|-4.28|0.33||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Constipation|||0.33|-4.28|0.0932
92404855|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.6533|TWO_SIDED|95.0|-1.67|2.66||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Diarrhoea|||2.66|-1.67|0.6533
92404856|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|-2.32||||0.0963|TWO_SIDED|95.0|-5.06|0.42||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Dyspnoea|||0.42|-5.06|0.0963
92366500|NCT00444925|184635415|SUPERIORITY_OR_OTHER|||||||0.0002||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||0.0002
92404857|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|3.89||||0.0037|TWO_SIDED|95.0|1.27|6.51||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Emotional Functioning|||6.51|1.27|0.0037
92404858|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|-4.63||||0.0013|TWO_SIDED|95.0|-7.45|-1.82||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Fatigue|||-1.82|-7.45|0.0013
92167180|NCT04714320|184224090|SUPERIORITY||||||=|0.744||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 57||||=0.744
92167181|NCT04714320|184224090|SUPERIORITY|Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|||||=|0.925|||||||Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 64||||=0.925
92167182|NCT04714320|184224090|SUPERIORITY||||||=|0.991||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 64||||=0.991
92167183|NCT04714320|184224090|SUPERIORITY|Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|||||=|0.53|||||||Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 71||||=0.530
92167184|NCT04714320|184224090|SUPERIORITY||||||=|0.849||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 71||||=0.849
92167185|NCT04714320|184224090|SUPERIORITY||||||=|0.953||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 78||||=0.953
92167186|NCT04714320|184224090|SUPERIORITY||||||=|0.884||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 78||||=0.884
92167187|NCT04714320|184224090|SUPERIORITY||||||=|0.23||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 85||||=0.230
92167188|NCT04714320|184224090|SUPERIORITY||||||=|0.589||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 85||||=0.589
92167189|NCT04714320|184224090|SUPERIORITY||||||=|0.919||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 92||||=0.919
92167190|NCT04714320|184224090|SUPERIORITY||||||=|0.753||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 92||||=0.753
92167191|NCT04714320|184224090|SUPERIORITY||||||=|0.747||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 106||||=0.747
92167192|NCT04714320|184224090|SUPERIORITY||||||=|0.764||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 106||||=0.764
92225953|NCT00087646|184353289|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.64|||<|0.0001|TWO_SIDED|95.0|1.66|4.18|||Cochran-Mantel-Haenszel|||At Week 12||4.18|1.66|<.0001
92225954|NCT00087646|184353289|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.1955|TWO_SIDED|95.0|0.89|1.79|||Cochran-Mantel-Haenszel|||At Week 24||1.79|0.89|0.1955
92225955|NCT00087646|184353289|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.0883|TWO_SIDED|95.0|0.95|1.93|||Cochran-Mantel-Haenszel|||At Week 48||1.93|0.95|0.0883
92225956|NCT00087646|184353290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.31|||<|0.0001|TWO_SIDED|95.0|1.67|3.19|||Cochran-Mantel-Haenszel|||Groups A vs Groups D (Week 12)||3.19|1.67|<.0001
92225957|NCT00087646|184353290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.3389|TWO_SIDED|95.0|0.85|1.6|||Cochran-Mantel-Haenszel|||Groups A vs Groups D (Week 24)||1.60|0.85|0.3389
92225958|NCT01331304|184353294|SUPERIORITY_OR_OTHER|||||||0.59||||||Because this study has co-primary outcomes (CGI-EI and NCAs), the analyses of the treatment effect in the two primary hypotheses each involved a two-tailed alpha-level of 0.025.|Mixed Models Analysis|||For the first co-primary aim, mixed-effects linear regression analyses compared the two intervention groups on the repeated assessments of the CGI-EI over 6 months.||||0.59
92366501|NCT00444925|184635415|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
92366502|NCT00444925|184635415|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
92366503|NCT00444925|184635415|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||<0.0001
92366504|NCT00444925|184635415|SUPERIORITY_OR_OTHER|||||||0.0003||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||0.0003
92366505|NCT00444925|184635416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.273|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||0.2730
92366506|NCT00444925|184635416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.0652|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||0.0652
92366507|NCT00444925|184635416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.3503|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.3503
92404859|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.2902|TWO_SIDED|95.0|-5.02|1.51||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Financial Difficulties|||1.51|-5.02|0.2902
92404860|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|-1.22||||0.0606|TWO_SIDED|95.0|-2.49|0.05||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Nausea and Vomiting|||0.05|-2.49|0.0606
92225959|NCT01331304|184353295|SUPERIORITY_OR_OTHER|||||||0.118|||||||Wilcoxon (Mann-Whitney)|||For the second co-primary, patient monthly rates of NCAs (determined by dividing total number of NCAs during follow-up by the length of follow-up - to account for attrition and resulting differential exposure time) for treatment groups were compared using a Wilcoxon rank-sum test.||||0.118
92366508|NCT00444925|184635416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2667|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||0.2667
92366509|NCT00444925|184635416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1643|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||0.1643
92366510|NCT00444925|184635416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.7264|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.7264
92366511|NCT00444925|184635416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3269|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||0.3269
92167193|NCT04714320|184224090|SUPERIORITY||||||=|0.527||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 120||||=0.527
92167194|NCT04714320|184224090|SUPERIORITY||||||=|0.639||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 120||||=0.639
92167195|NCT04714320|184224090|SUPERIORITY||||||=|0.744||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 148||||=0.744
92167196|NCT04714320|184224090|SUPERIORITY||||||=|0.539||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 148||||=0.539
92225960|NCT01331304|184353296|SUPERIORITY|||||||0.11||||||Analysis of this secondary outcome was not corrected for multiple comparisons. Therefore, the a priori threshold for statistical significance was set at 0.05|Mixed Models Analysis|||Mixed-effects linear regression analyses compared the two intervention groups on the repeated collection of measures relevant to calculation of the Framingham Risk Score over 6 months||||0.11
92225961|NCT01331304|184353297|SUPERIORITY|||||||0.7||||||Analysis of this secondary outcome was not corrected for multiple comparisons. Therefore, the a priori threshold for statistical significance was set at 0.05|Mixed Models Analysis|||Mixed-effects linear regression analyses compared the two intervention groups on the repeated assessment of the LIFE-RIFT over 6 months||||0.70
92225962|NCT03694925|184353298|OTHER||Specificity|0.871|||||TWO_SIDED||||||||Specificity was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the number of the true negatives and the denominator is the number of total negatives.|||||
92225963|NCT03694925|184353298|OTHER||Specificity|0.957|||||TWO_SIDED||||||||Specificity was calculated using 2x2 tables using \>50 mg/L cut off. The numerator is the number of the true negatives and the denominator is the number of total negatives.|||||
92276935|NCT01715415|184455421|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic peg-interferon/ribavirin (pegIFN/RBV) treatment-experienced subjects administered telaprevir plus pegIFN/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 60% to achieve noninferiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV, and the LCB of the 95% CI must have exceeded 70% to achieve superiority.|Percentage of Participants with SVR12|96.3|||||TWO_SIDED|95.0|94.1|98.4|||||95% CI calculated using the normal approximation to the binomial distribution. In order to control the Type I error rate at 0.05, a fixed-sequence testing procedure was used to proceed through the primary and numbered secondary efficacy endpoints.|With a sample size of 300 subjects and assuming that 85% of the subjects in Arm A will achieve sustained virologic response (SVR) 12, this study has greater than 90% power to demonstrate non-inferiority with a 2-sided 95% lower confidence bound greater than 60% and greater than 90% power to demonstrate superiority with a 2-sided 95% lower confidence bound greater than 70% (based on the normal approximation of a single binomial proportion).||98.4|94.1|
92276936|NCT01715415|184455422|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||In order to control the Type I error rate at 0.05, a fixed-sequence testing procedure will be used to proceed through the primary and the first 3 secondary endpoints in the order numbered below.|Fisher Exact|||||||<0.001
92366512|NCT00444925|184635416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.5059|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||0.5059
92404861|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|-3.04||||0.0393|TWO_SIDED|95.0|-5.93|-0.15||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Pain|||-0.15|-5.93|0.0393
92225964|NCT03694925|184353298|OTHER||Sensitivity|0.981|||||TWO_SIDED||||||||Sensitivity was calculated using 2x2 tables using \>14 mg/L cut off. Sensitivity is the number of true positives over the number of total positives.|||||
92225965|NCT03694925|184353298|OTHER||Sensitivity|0.981|||||TWO_SIDED||||||||Sensitivity was calculated using 2x2 tables using \>50 mg/L cut off. Sensitivity is the number of true positives over the number of total positives.|||||
92366513|NCT00444925|184635416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.699|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.6990
92167197|NCT04714320|184224090|SUPERIORITY||||||=|0.417||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 169||||=0.417
92167198|NCT04714320|184224090|SUPERIORITY||||||=|0.466||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 169||||=0.466
92225966|NCT03694925|184353298|OTHER||Positive predictive value|0.852|||||TWO_SIDED||||||||Positive predictive value was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the septic positives and the denominator are the total positives.|||||
92167199|NCT04714320|184224090|SUPERIORITY||||||=|0.38||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 8||||=0.380
92167200|NCT04714320|184224090|SUPERIORITY||||||=|0.73||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 8||||=0.730
92167201|NCT04714320|184224090|SUPERIORITY||||||=|0.595||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 15||||=0.595
92167202|NCT04714320|184224090|SUPERIORITY||||||=|0.279||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 15||||=0.279
92167203|NCT04714320|184224090|SUPERIORITY||||||=|0.196||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 22||||=0.196
92167204|NCT04714320|184224090|SUPERIORITY||||||=|0.728||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 22||||=0.728
92167205|NCT04714320|184224090|SUPERIORITY||||||=|0.453||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 29||||=0.453
92167206|NCT04714320|184224090|SUPERIORITY||||||=|0.681||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 29||||=0.681
92225967|NCT03694925|184353298|OTHER||Positive predictive value|0.945|||||TWO_SIDED||||||||Positive predictive value was calculated using 2x2 tables using \>50mg/L cut off. The numerator is the septic positives and the denominator are the total positives.|||||
92366514|NCT00444925|184635418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0008|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||0.0008
92366515|NCT00444925|184635418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||<0.0001
92404862|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|1.81||||0.0968|TWO_SIDED|95.0|-0.33|3.96||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Physical Functioning|||3.96|-0.33|0.0968
92404863|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|1.78||||0.1449|TWO_SIDED|95.0|-0.61|4.17||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Global Health Status/QOL|||4.17|-0.61|0.1449
92167207|NCT04714320|184224090|SUPERIORITY||||||=|0.863||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 36||||=0.863
92225968|NCT03694925|184353298|OTHER||Negative predictive value|0.984|||||TWO_SIDED||||||||Negative predictive value was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the aseptic negatives and the denominator is the number of total negatives.|||||
92225969|NCT03694925|184353298|OTHER||Negative predictive value|0.985|||||TWO_SIDED||||||||Negative predictive value was calculated using 2x2 tables using \>50 mg/L cut off. The numerator is the aseptic negatives and the denominator is the number of total negatives.|||||
92366516|NCT00444925|184635418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.382|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.3820
92404864|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|3.56||||0.0259|TWO_SIDED|95.0|0.43|6.7||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Role Functioning|||6.70|0.43|0.0259
92404865|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|3.65||||0.0175|TWO_SIDED|95.0|0.64|6.65||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Social Functioning|||6.65|0.64|0.0175
92366517|NCT00444925|184635418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
92225970|NCT03694925|184353299|OTHER||Specificity|0.829|||||TWO_SIDED||||||||Specificity was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the number of the number of aseptic negatives and the denominator is the number of aseptics.|||||
92225971|NCT03694925|184353299|OTHER||Specificity|0.957|||||TWO_SIDED||||||||Specificity was calculated using 2x2 tables using \>50 mg/L cut off. The numerator is the number of the number of aseptic negatives and the denominator is the number of aseptics.|||||
92225972|NCT03694925|184353299|OTHER||Sensitivity|0.981|||||TWO_SIDED||||||||Sensitivity was calculated using 2x2 tables using \>14 mg/L cut off. Sensitivity is the number of septic positives over the number of septics.|||||
92225973|NCT03694925|184353299|OTHER||Sensitivity|0.981|||||TWO_SIDED||||||||Sensitivity was calculated using 2x2 tables using \>50 mg/L cut off. Sensitivity is the number of septic positives over the number of septics.|||||
92225974|NCT03694925|184353299|OTHER||Positive predictive value|0.813|||||TWO_SIDED||||||||Positive predictive value was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the septic positives and the denominator are the total positives.|||||
92225975|NCT03694925|184353299|OTHER||Positive predictive value|0.945|||||TWO_SIDED||||||||Positive predictive value was calculated using 2x2 tables using \>50mg/L cut off. The numerator is the septic positives and the denominator are the total positives.|||||
92225976|NCT03694925|184353299|OTHER||Negative predictive value|0.983|||||TWO_SIDED||||||||Negative predictive value was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the aseptic negatives and the denominator is the number of total negatives.|||||
92225977|NCT03694925|184353299|OTHER||Negative predictive value|0.985|||||TWO_SIDED||||||||Negative predictive value was calculated using 2x2 tables using \>50 mg/L cut off. The numerator is the aseptic negatives and the denominator is the number of total negatives.||Negative predictive value was calculated using 2x2 tables using \>50 mg/L cut off. NPV=98.5%|||
92225978|NCT01459705|184353313|SUPERIORITY_OR_OTHER||Slope|-22.34|STANDARD_DEVIATION|4.69|||ONE_SIDED|||||||||||||
92225979|NCT01459705|184353313|SUPERIORITY_OR_OTHER||Slope|-13.3|STANDARD_ERROR_OF_MEAN|4.77|||TWO_SIDED|||||||||||||
92225980|NCT01459705|184353313|SUPERIORITY_OR_OTHER||Slope|9.04|STANDARD_ERROR_OF_MEAN|5.11|||TWO_SIDED|||||||||||||
92366518|NCT00444925|184635418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||<0.0001
92225981|NCT01459705|184353314|SUPERIORITY_OR_OTHER||Slope|15.07|STANDARD_DEVIATION|6.03|||TWO_SIDED|||||||||||||
92225982|NCT01459705|184353315|SUPERIORITY_OR_OTHER||Slope|13.91|STANDARD_ERROR_OF_MEAN|6.7|||TWO_SIDED|||||||||||||
92225983|NCT03434977|184353412|OTHER||Ratio|0.937|||||TWO_SIDED|90.0|0.89|0.986||||||The shown data were ratio of fed conditions divided by fasted conditions, taking anti-logs of the least square (LS) means difference (fed-fasted) or confidence interval (CI). The difference in LS means between treatment conditions (fed-fasted) and two-sided 90% CI were provided using a crossover analysis of variance (ANOVA) model. ANOVA model included log-transformed (natural log) PK parameters Cmax as dependent variable, and treatment condition, group, and period as independent variables.||0.986|0.890|
92225984|NCT03434977|184353413|OTHER||LS-Means Difference|0.9083|||||TWO_SIDED|90.0|0.1821|1.6345||||||The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (non-natural log) PK parameters tmax as dependent variable, and treatment condition, group, and period as independent variables.||1.6345|0.1821|
92225985|NCT03434977|184353414|OTHER||Ratio|0.998|||||TWO_SIDED|90.0|0.943|1.056||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters AUClast as dependent variable, and treatment condition, group, and period as independent variables.||1.056|0.943|
92225986|NCT03434977|184353415|OTHER||Ratio|0.997|||||TWO_SIDED|90.0|0.942|1.056||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters AUC∞ as dependent variable, and treatment condition, group, and period as independent variables.||1.056|0.942|
92225987|NCT03434977|184353416|OTHER||Ratio|0.985|||||TWO_SIDED|90.0|0.932|1.041||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters T1/2z as dependent variable, and treatment condition, group, and period as independent variables.||1.041|0.932|
92276937|NCT01715415|184455423|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic pegIFN/RBV treatment-experienced subjects of the appropriate HCV genotype 1 subtype administered telaprevir plus pegIFN/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 65% to achieve superiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV.|Percentage of Participants with SVR12|96.0|||||TWO_SIDED|95.0|93.0|98.9|||||95% CI calculated using the normal approximation to the binomial distribution.|||98.9|93.0|
92366519|NCT00444925|184635418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3498|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.3498
92404866|NCT01039376|184700897|SUPERIORITY||Mean Difference (Final Values)|-1.79||||0.3209|TWO_SIDED|95.0|-5.33|1.75||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Insomnia|||1.75|-5.33|0.3209
92404867|NCT01039376|184700898|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.011|TWO_SIDED|95.0|0.01|0.06||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Utility Score|||0.06|0.01|0.0110
92404868|NCT01039376|184700898|SUPERIORITY||Mean Difference (Final Values)|1.38||||0.1999|TWO_SIDED|95.0|-0.73|3.49||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Thermometer Score|||3.49|-0.73|0.1999
92404869|NCT01039376|184700910|SUPERIORITY||Hazard Ratio (HR)|1.547|||||TWO_SIDED|95.0|1.051|2.276|||||HR estimated for Cytogenetics Group (based on \>=20% cut-off) with 6q-, or +12q or 13q-/no abberation|||2.276|1.051|
92404870|NCT01039376|184700910|SUPERIORITY||Hazard Ratio (HR)|9.303|||||TWO_SIDED|95.0|4.934|17.54|||||HR estimated for Cytogenetics Group (based on \>=20% cut-off) with 17p-/no abberation|||17.540|4.934|
92404871|NCT01039376|184700910|SUPERIORITY||Hazard Ratio (HR)|4.219|||||TWO_SIDED|95.0|2.468|7.21|||||HR estimated for Cytogenetics Group (based on \>=20% cut-off) with 11q-/no abberation|||7.210|2.468|
92225988|NCT03434977|184353417|OTHER||Ratio|1.047|||||TWO_SIDED|90.0|1.006|1.091||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters MRTlast, ev as dependent variable, and treatment condition, group, and period as independent variables.||1.091|1.006|
92366520|NCT00444925|184635418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
92366521|NCT00444925|184635418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||<0.0001
92366522|NCT00444925|184635418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0542|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.0542
92366523|NCT00444925|184635419|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||0.0004
92404872|NCT01039376|184700910|SUPERIORITY||Hazard Ratio (HR)|1.832|||||TWO_SIDED|95.0|1.434|2.339|||||HR estimated for B2 Microglobulin Group 2 with 3500 as cut off: \>3500 ug/L/\<=3500 ug/L|||2.339|1.434|
92404873|NCT01039376|184700910|SUPERIORITY||Hazard Ratio (HR)|0.573|||||TWO_SIDED|95.0|0.432|0.76|||||HR estimated for IgVH Mutational Status 1 Mutated/Unmutated|||0.760|0.432|
92404874|NCT01039376|184700910|SUPERIORITY||Hazard Ratio (HR)|1.301|||||TWO_SIDED|95.0|0.692|2.448|||||HR estimated for VH3-21 Usage Flag Yes/No.|||2.448|0.692|
92404875|NCT00785785|184700916|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.466||||0.0081|TWO_SIDED|95.0|1.104|1.945|||Hazard Ratio|||||1.945|1.104|0.0081
92404876|NCT02453321|184700917|SUPERIORITY|||||||0.355|||||||Kruskal-Wallis|||||||0.355
92404877|NCT02453321|184700918|SUPERIORITY|||||||0.065|||||||Kruskal-Wallis|||||||0.065
92404878|NCT01244893|184700926|NON_INFERIORITY_OR_EQUIVALENCE|This study uses -0.05 LogMAR as the non-inferiority margin.|Mean Difference (Final Values)|0.005|STANDARD_ERROR_OF_MEAN|0.003|||TWO_SIDED|95.0|-0.00092|0.01045|||Mixed Models Analysis||The mean difference is calculated as the test lens - control lens.|"Ho: after time period (6-8 days of lens wear), the test lens - control lens will be greater than or equal to the non-inferiority margin specified .~Ha: after time period, test-control will be less than the margin specified concluding that the test lens will be inferior to control lens in terms of LogMAR scale"||0.01045|-0.00092|
92404879|NCT00357552|184700930|NON_INFERIORITY_OR_EQUIVALENCE|Success of the strategy is assessed according to whether the lower bound of the exact 90% confidence interval of this proportion is greater than 65%.|proportion|87.0|||||TWO_SIDED|90.0|81.0|92.0|||confidence interval|Success was determined by whether the lower bound of the 90% exact confidence interval was greater than 65%.|exact confidence interval|The null hypothesis was that LPV/r monotherapy provides at least a 65% short-term virologic response. The target sample size was 120 subjects. Assuming an underlying true 24 week success rate of 76%, this sample size was chosen in order to provide at least 90% power to show that the true 24 week virologic success rate of LPV/r monotherapy in this population is greater than 65%.||92|81|
92404880|NCT03089281|184700953|SUPERIORITY|||||||0.17|||||||Chi-squared|||||||0.17
92404881|NCT03089281|184700954|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
92404882|NCT03089281|184700955|SUPERIORITY|||||||0.029|||||||t-test, 2 sided|||||||0.029
92404883|NCT03089281|184700957|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.050
92404884|NCT03089281|184700958|SUPERIORITY|||||||0.49|||||||Cochran-Armitage Trend Test|||||||0.49
92404885|NCT03089281|184700959|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
92404886|NCT03089281|184700960|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||||||0.21
92404887|NCT03089281|184700961|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||||||0.34
92404888|NCT03089281|184700962|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
92404889|NCT03089281|184700963|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||0.45
92404890|NCT03089281|184700964|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||||||0.90
92404891|NCT03089281|184700965|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
92404892|NCT04555616|184700966|OTHER|||||||0.12|||||||Fisher Exact|||Primary outcome analyzed via success rates among groups.||||0.12
92404893|NCT02282605|184700976|SUPERIORITY_OR_OTHER|||||||0.792|||||||Fisher Exact|||||||0.792
92167208|NCT04714320|184224090|SUPERIORITY||||||=|0.837||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 36||||=0.837
92167209|NCT04714320|184224090|SUPERIORITY||||||=|0.504||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 43||||=0.504
92404894|NCT02282605|184700976|SUPERIORITY_OR_OTHER|||||||0.887|||||||Fisher Exact|||||||0.887
92404895|NCT02282605|184700977|SUPERIORITY_OR_OTHER|||||||0.0058||||||For timepoint Day 3 (12 hours after last dose)|Fisher Exact|||||||0.0058
92404896|NCT02282605|184700979|SUPERIORITY_OR_OTHER|||||||0.028||||||The adjusted means were compared for the two-day treatment period.|ANCOVA|||||||0.028
92404897|NCT02282605|184700979|SUPERIORITY_OR_OTHER||||||<|0.001||||||The adjusted means were compared for the two-day treatment period to discharge.|ANCOVA|||||||<0.001
92225989|NCT03434977|184353418|OTHER||Ratio|1.037|||||TWO_SIDED|90.0|0.996|1.081||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters MRT∞, ev as dependent variable, and treatment condition, group, and period as independent variables.||1.081|0.996|
92404898|NCT02282605|184700979|SUPERIORITY_OR_OTHER|||||||0.005||||||The adjusted means were compared for the two-day treatment period through to discharge|ANCOVA|||||||0.005
92404899|NCT02230670|184701025|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.0817||0.091|TWO_SIDED|95.0|-0.302|0.023|||ANCOVA|||Analysis was conducted using an ANCOVA model adjusting for baseline value.||0.023|-0.302|0.091
92404900|NCT02230670|184701025|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.041|TWO_SIDED|95.0|-0.41|0.01|||ANCOVA|||The analysis was conducted using an ANCOVA model adjusting for baseline value, baseline MELD score, and etiology. The significance was assessed using Type II Sums of Squares from this ANCOVA model.||0.01|-0.41|0.041
92404901|NCT02230670|184701026|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.333||0.466|TWO_SIDED|95.0|-0.91|0.42|||ANCOVA|||Analysis was conducted using an ANCOVA model adjusting for baseline value.||0.42|-0.91|0.466
92404902|NCT02230670|184701026|SUPERIORITY||Median Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|1.42||0.003|TWO_SIDED|95.0|-3.61|-0.77|||ANCOVA|calculated from the estimated least square means for the treatment by BL MELD category interaction term.||BL MELD \>= 15 subgroup results (N=19), as analyzed from the adjusted analysis ANCOVA model adjusting for baseline value, baseline MELD score, and etiology.||-0.77|-3.61|0.003
92404903|NCT02230670|184701026|SUPERIORITY||Median Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.46||0.029|TWO_SIDED|95.0|-3.09|-0.17|||ANCOVA|calculated from the estimated least square means for the treatment by etiology interaction term.||NASH Etiology subgroup results (N=20), as analyzed from the adjusted analysis ANCOVA model adjusting for baseline value, baseline MELD score, and etiology.||-0.17|-3.09|0.029
92404904|NCT01907854|184701032|SUPERIORITY_OR_OTHER||Treatment difference|-0.61|||<|0.0001|TWO_SIDED|95.0|-0.82|-0.4|||Mixed Models Analysis|Superiority of liraglutide over sitagliptin was concluded if the 95% Confidence Interval for the treatment difference was entirely below 0%.||Changes in HbA1c from baseline to the 26 weeks measurements were analysed using MMRM, with treatment, baseline HbA1c level (≤8.5% and \>8.5%), metformin dose (\<1500 mg/day and ≥1500 mg/day), the interaction between baseline HbA1c level and metformin dose, and country as factors and the HbA1c value at baseline as a covariate, all variables nested within week as a factor.||-0.40|-0.82|<0.0001
92404905|NCT01907854|184701033|SUPERIORITY_OR_OTHER||Treatment difference|-1.67|||<|0.0001|TWO_SIDED|95.0|-2.34|-0.99|||Mixed Models Analysis|Superiority of liraglutide over sitagliptin was concluded if the 95% Confidence Interval for the treatment difference was entirely below 0%.||Change in body weight from baseline to the 26 weeks measurements was analysed using MMRM, with treatment, baseline HbA1c level (≤8.5% and \>8.5%), metformin dose (\<1500 mg/day and ≥1500 mg/day), the interaction between baseline HbA1c level and metformin dose, and country as factors and the body weight at baseline as a covariate and all variables nested within week as a factor.||-0.99|-2.34|<0.0001
92404906|NCT01744977|184701039|NON_INFERIORITY_OR_EQUIVALENCE|With an assumed adherence proportion in the Control arm of 0.50, there is 80% power to detect a difference between Control and the intervention arms of 17% or more with 125 patients in each arm.||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.300
92404907|NCT01744977|184701040|NON_INFERIORITY_OR_EQUIVALENCE|With an assumed adherence proportion in the Control arm of 0.50, there is 80% power to detect a difference between Control and the intervention arms of 17% or more with 125 patients in each arm.|Mean Difference (Final Values)|-0.7||||0.839|TWO_SIDED|95.0|-8.0|6.5||As measured at 12m|Mixed Models Analysis||This value summarizes the full 12 month period so Mean Difference (Final Values) is appropriate.|||6.5|-8.0|0.839
92404908|NCT01750229|184701047|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|Variables included in the Mixed Model were: baseline VAS back pain score, treatment group, and period.||||||0.002
92404909|NCT01746901|184701052|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|30.5|||<|0.0001|TWO_SIDED|95.0|24.4|36.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||36.6|24.4|<0.0001
92366524|NCT00444925|184635419|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||0.0001
92366525|NCT00444925|184635419|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
92366526|NCT00444925|184635419|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
92366527|NCT00444925|184635419|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||<0.0001
92366528|NCT00444925|184635419|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||0.0001
92404910|NCT01746901|184701052|SUPERIORITY_OR_OTHER||LS Mean Difference|7.7||||0.0132|TWO_SIDED|95.0|1.6|13.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.7|1.6|0.0132
92404911|NCT01746901|184701052|SUPERIORITY_OR_OTHER||LS Mean Difference|15.3|||<|0.0001|TWO_SIDED|95.0|9.3|21.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.4|9.3|<0.0001
92404912|NCT01746901|184701052|SUPERIORITY_OR_OTHER||LS Mean Difference|22.9|||<|0.0001|TWO_SIDED|95.0|16.8|28.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.9|16.8|<0.0001
92167210|NCT04714320|184224090|SUPERIORITY||||||=|0.531||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 43||||=0.531
92167211|NCT04714320|184224090|SUPERIORITY||||||=|0.6||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 50||||=0.600
92167212|NCT04714320|184224090|SUPERIORITY||||||=|0.83||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 50||||=0.830
92167213|NCT04714320|184224090|SUPERIORITY||||||=|0.209||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 57||||=0.209
92225990|NCT03434977|184353419|OTHER||Ratio|1.014|||||TWO_SIDED|90.0|0.959|1.071||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters λz as dependent variable, and treatment condition, group, and period as independent variables.||1.071|0.959|
92366529|NCT00444925|184635420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||<0.0001
92404913|NCT01746901|184701052|SUPERIORITY_OR_OTHER||LS Mean Difference|15.3|||<|0.0001|TWO_SIDED|95.0|9.3|21.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.4|9.3|<0.0001
92167214|NCT04714320|184224090|SUPERIORITY||||||=|0.809||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 57||||=0.809
92366530|NCT00444925|184635420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||<0.0001
92366531|NCT00444925|184635420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5581|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.5581
92366532|NCT00444925|184635420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
92366533|NCT00444925|184635420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||<0.0001
92366534|NCT00444925|184635420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.151|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.1510
92366535|NCT00444925|184635420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
92366536|NCT00444925|184635420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.2||0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||0.0001
92366537|NCT00444925|184635420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1391|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.1391
92366538|NCT00444925|184635421|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||<0.0001
92404914|NCT01746901|184701052|SUPERIORITY_OR_OTHER||LS Mean Difference|18.5||||18.5|TWO_SIDED|95.0|12.5|24.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.6|12.5|18.5
92167215|NCT04714320|184224090|SUPERIORITY||||||=|0.045||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 64||||=0.045
92366539|NCT00444925|184635421|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||<0.0001
92366540|NCT00444925|184635421|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
92366541|NCT00444925|184635421|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
92366542|NCT00444925|184635421|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||<0.0001
92366543|NCT00444925|184635421|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||0.0001
92366544|NCT00444925|184635422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||<0.0001
92366545|NCT00444925|184635422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||<0.0001
92366546|NCT00444925|184635422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.5972|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.5972
92366547|NCT00444925|184635422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
92366548|NCT00444925|184635422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||<0.0001
92366549|NCT00444925|184635422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.1267|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.1267
92404915|NCT01746901|184701053|SUPERIORITY_OR_OTHER||LS Mean Difference|49.3|||<|0.0001|TWO_SIDED|95.0|39.2|59.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||59.5|39.2|<0.0001
92404916|NCT01746901|184701053|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.9994|TWO_SIDED|95.0|-10.1|10.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.1|-10.1|0.9994
92404917|NCT01746901|184701053|SUPERIORITY_OR_OTHER||LS Mean Difference|22.2|||<|0.0001|TWO_SIDED|95.0|12.1|32.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||32.4|12.1|<0.0001
92404918|NCT01746901|184701053|SUPERIORITY_OR_OTHER||LS Mean Difference|27.1|||<|0.0001|TWO_SIDED|95.0|17.0|37.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.3|17.0|<0.0001
92366550|NCT00444925|184635422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
92366551|NCT00444925|184635422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||<0.0001
92366552|NCT00444925|184635422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.0289|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.0289
92366553|NCT00444925|184635423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||<0.0001
92366554|NCT00444925|184635423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||<0.0001
92366555|NCT00444925|184635423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.6||0.7288|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.7288
92366556|NCT00444925|184635423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
92366557|NCT00444925|184635423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||<0.0001
92366558|NCT00444925|184635423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2473|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.2473
92366559|NCT00444925|184635423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
92366560|NCT00444925|184635423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||<0.0001
92366561|NCT00444925|184635423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.7||0.1047|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.1047
92366562|NCT00444925|184635424|SUPERIORITY_OR_OTHER|||||||0.0143||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 1||||0.0143
92404919|NCT01746901|184701053|SUPERIORITY_OR_OTHER||LS Mean Difference|23.0|||<|0.0001|TWO_SIDED|95.0|12.8|33.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||33.1|12.8|<0.0001
92404920|NCT01746901|184701053|SUPERIORITY_OR_OTHER||LS Mean Difference|18.2||||0.0005|TWO_SIDED|95.0|8.1|28.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.4|8.1|0.0005
92404921|NCT01746901|184701054|SUPERIORITY_OR_OTHER||LS Mean Difference|63.2|||<|0.0001|TWO_SIDED|95.0|51.5|74.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||74.9|51.5|<0.0001
92404922|NCT01746901|184701054|SUPERIORITY_OR_OTHER||LS Mean Difference|12.3||||0.0402|TWO_SIDED|95.0|0.6|24.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.1|0.6|0.0402
92366563|NCT00444925|184635424|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 4||||<0.0001
92366564|NCT00444925|184635424|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 12||||<0.0001
92366565|NCT00444925|184635425|SUPERIORITY_OR_OTHER|||||||0.0773||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 1||||0.0773
92366566|NCT00444925|184635425|SUPERIORITY_OR_OTHER|||||||0.0017||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 4||||0.0017
92366567|NCT00444925|184635425|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 12||||0.0008
92366568|NCT00444925|184635426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|STANDARD_ERROR_OF_MEAN|1.5|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment difference Fesoterodine vs placebo at Week 12||||<0.0001
92366569|NCT00444925|184635427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.2|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL concern domain.||||<0.0001
92366570|NCT00444925|184635427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL coping domain.||||<0.0001
92366571|NCT00444925|184635427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_DEVIATION|1.5||0.0008|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL sleep domain.||||0.0008
92404923|NCT01746901|184701054|SUPERIORITY_OR_OTHER||LS Mean Difference|32.9|||<|0.0001|TWO_SIDED|95.0|21.1|44.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||44.7|21.1|<0.0001
92404924|NCT01746901|184701054|SUPERIORITY_OR_OTHER||LS Mean Difference|42.6|||<|0.0001|TWO_SIDED|95.0|30.9|54.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||54.4|30.9|<0.0001
92404925|NCT01746901|184701054|SUPERIORITY_OR_OTHER||LS Mean Difference|32.1|||<|0.0001|TWO_SIDED|95.0|20.3|43.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||43.9|20.3|<0.0001
92225991|NCT03434977|184353420|OTHER||Ratio|1.003|||||TWO_SIDED|90.0|0.947|1.062||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters CL/F as dependent variable, and treatment condition, group, and period as independent variables.||1.062|0.947|
92225992|NCT03434977|184353421|OTHER||Ratio|0.989|||||TWO_SIDED|90.0|0.916|1.068||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters Vz/F as dependent variable, and treatment condition, group, and period as independent variables.||1.068|0.916|
92366572|NCT00444925|184635427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL social interaction domain.||||<0.0001
92366573|NCT00444925|184635427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.3|STANDARD_ERROR_OF_MEAN|1.3|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL scale score total.||||<0.0001
92366574|NCT00444925|184635428|SUPERIORITY_OR_OTHER|||||||0.0072||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs placebo at Week 1.||||0.0072
92366575|NCT00444925|184635428|SUPERIORITY_OR_OTHER|||||||0.0116||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Tolterodine ER vs placebo at Week 1.||||0.0116
92404926|NCT01746901|184701054|SUPERIORITY_OR_OTHER||LS Mean Difference|36.3|||<|0.0001|TWO_SIDED|95.0|24.6|48.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||48.1|24.6|<0.0001
92404927|NCT01746901|184701055|SUPERIORITY_OR_OTHER||LS Mean Difference|108.0|||<|0.0001|TWO_SIDED|95.0|91.6|124.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||124.5|91.6|<0.0001
92404928|NCT01746901|184701055|SUPERIORITY_OR_OTHER||LS Mean Difference|6.8||||0.4125|TWO_SIDED|95.0|-9.6|23.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.3|-9.6|0.4125
92404929|NCT01746901|184701055|SUPERIORITY_OR_OTHER||LS Mean Difference|46.1|||<|0.0001|TWO_SIDED|95.0|29.6|62.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||62.5|29.6|<0.0001
92404930|NCT01746901|184701055|SUPERIORITY_OR_OTHER||LS Mean Difference|68.8|||<|0.0001|TWO_SIDED|95.0|52.4|85.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||85.2|52.4|<0.0001
92225993|NCT06523491|184353452|SUPERIORITY||F value|23.31||||0|TWO_SIDED|||||The threshold for statistical significance was p \<0.05.|ANCOVA|"To compare the efficacy of 1 and 2 NOLTREX courses with placebo was used ANCOVA adjusted for the baseline value with fixed factor of treatment group"||No sample size calculation was performed. In the survey took part 57 patients from the parent study and OLE. The study did not have a formal hypothesis. The between-group comparison of changes from baseline (OLE visit 0) in the WOMAC-T at the end of 12-month follow-up (EOF) visit was conducted using analysis of covariance (ANCOVA) and, as a post hoc test, the Tukey test.||||0.00
92366576|NCT00444925|184635428|SUPERIORITY_OR_OTHER|||||||0.7828||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.7828
92366577|NCT00444925|184635428|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
92366578|NCT00444925|184635428|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Tolterodine ER vs placebo at Week 4.||||<0.0001
92366579|NCT00444925|184635428|SUPERIORITY_OR_OTHER|||||||0.3104||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.3104
92366580|NCT00444925|184635428|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
92366581|NCT00444925|184635428|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Tolterodine ER vs placebo at Week 12.||||0.0004
92366582|NCT00444925|184635428|SUPERIORITY_OR_OTHER|||||||0.0153||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.0153
92225994|NCT06523491|184353452|SUPERIORITY||LS-means difference|353.18|STANDARD_ERROR_OF_MEAN|72.27||0|TWO_SIDED|95.0|178.91|527.45||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||527.45|178.91|0.00
92366583|NCT02881775|184635431|SUPERIORITY|||||||0.9994||||||The threshold for significance was P \<.05|ANOVA|"Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors.~Degrees of freedom (DF) = 34.1"||Comparison of CAR BL Change (treatment by time)||||.9994
92225995|NCT06523491|184353452|SUPERIORITY||LS-means difference|-292.19|STANDARD_ERROR_OF_MEAN|78.04||0|TWO_SIDED|95.0|-480.37|-104.01||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||-104.01|-480.37|0.00
92225996|NCT06523491|184353452|SUPERIORITY||LS-means difference|-645.37|STANDARD_ERROR_OF_MEAN|95.68||0|TWO_SIDED|95.0|-876.07|-414.67||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||-414.67|-876.07|0.00
92225997|NCT06523491|184353452|SUPERIORITY||F value|23.31||||0|TWO_SIDED|||||The threshold for statistical significance was p \<0.05.|ANCOVA|"To compare the efficacy of 1 and 2 NOLTREX courses with placebo was used ANCOVA adjusted for the baseline value with fixed factor of treatment group"||The between-group comparison of changes from baseline (study 1 visit 1) in the WOMAC-T at visit 5 was conducted using analysis of covariance (ANCOVA) and, as a post hoc test, the Tukey test.||||0.00
92225998|NCT06523491|184353452|SUPERIORITY||LS-means difference|-292.19|STANDARD_ERROR_OF_MEAN|78.04||0|TWO_SIDED|95.0|-480.37|-104.01|||Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||-104.01|-480.37|0.00
92225999|NCT06523491|184353452|SUPERIORITY||[LS-means difference|-645.37|STANDARD_ERROR_OF_MEAN|95.68||0|TWO_SIDED|95.0|-876.07|-414.67||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||-414.67|-876.07|0.00
92226000|NCT01916980|184353459|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Longitudinal Data Analysis|Model includes terms of visit, group and visit by group interaction; visit is treated as a categorical variable||Analysis of the change from Baseline in least squares (LS) mean for the Desloratadine: Eczema/Dermatitis group||||<0.001
92226001|NCT01916980|184353459|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Longitudinal Data Analysis|Model includes terms of visit, group and visit by group interaction; visit is treated as a categorical variable||Analysis of the change from Baseline in LS mean for the Desloratadine: Dermal Pruritus group||||<0.001
92226002|NCT03968419|184353491|OTHER||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-25.56|21.23||||||Difference in MPR rate||21.23|-25.56|
92226003|NCT02109159|184353494|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.44|TWO_SIDED|95.0|0.8|1.4|||Chi-squared||This analysis was conducted on an intention-to-treat (ITT) basis including all participants randomised.|||1.4|0.8|0.44
92226004|NCT02109159|184353494|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.47|TWO_SIDED|95.0|0.8|1.7|||Chi-squared||This analysis was conducted on a per-protocol (PP) basis including only those who watched the videos.|||1.7|0.8|0.47
92226005|NCT02109159|184353495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.53|TWO_SIDED|95.0|-0.02|0.04|||t-test, 2 sided||This analysis was conducted on an intention-to-treat (ITT) basis including all participants randomised.|||0.04|-0.02|0.53
92226006|NCT02109159|184353495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.56|TWO_SIDED|95.0|-0.5|0.8|||t-test, 2 sided||This analysis was conducted on a per-protocol (PP) basis including only those who watched the videos.|||0.8|-0.5|0.56
92226007|NCT03193398|184353515|OTHER||Mean Difference (Net)|-1.3||||0.5939|TWO_SIDED|95.0|-6.3|3.6|||MMRM|MMRM: mixed model for repeated measures||Difference in LS Means (BTRX-246040 - Placebo)||3.6|-6.3|0.5939
92226008|NCT03193398|184353516|OTHER||Mean Difference (Net)|-1.0||||0.5503|TWO_SIDED|95.0|-4.4|2.3|||MMRM|MMRM: mixed model for repeated measures||Analysis of Change from Baseline in Investigator-administered MADRS-6 Total Score at week 8||2.3|-4.4|0.5503
92226009|NCT03193398|184353517|OTHER||Mean Difference (Net)|0.8||||0.3906|TWO_SIDED|95.0|-1.1|2.8|||MMRM|MMRM: mixed model for repeated measures||||2.8|-1.1|0.3906
92226010|NCT03193398|184353518|OTHER||Mean Difference (Net)|0.9||||0.4187|TWO_SIDED|95.0|-1.3|3.1||+/-|MMRM|MMRM: mixed model for repeated measures||||3.1|-1.3|0.4187
92226011|NCT03193398|184353519|OTHER||Mean Difference (Net)|-3.0||||0.4869|TWO_SIDED|95.0|-11.5|5.5|||MMRM|MMRM: mixed model for repeated measures||||5.5|-11.5|0.4869
92226012|NCT03193398|184353520|OTHER||Mean Difference (Net)|1.2||||0.5178|TWO_SIDED|95.0|-2.4|4.7|||MMRM|MMRM: mixed model for repeated measures||||4.7|-2.4|0.5178
92226013|NCT05425563|184353521|OTHER||Slope|8.3269|STANDARD_ERROR_OF_MEAN|0.8792|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||< .001
92226014|NCT05425563|184353522|OTHER||Slope|8.0809|STANDARD_ERROR_OF_MEAN|0.5414|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||< .001
92226015|NCT05425563|184353523|OTHER||Slope|8.121|STANDARD_ERROR_OF_MEAN|0.481|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||< .001
92226016|NCT05425563|184353530|OTHER||Slope|34.613|STANDARD_ERROR_OF_MEAN|0.602|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||< .001
92226017|NCT05425563|184353531|OTHER||Slope|33.9754|STANDARD_ERROR_OF_MEAN|0.426||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||.001
92226018|NCT05425563|184353532|OTHER||Slope|31.63|STANDARD_ERROR_OF_MEAN|0.422|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||< .001
92226019|NCT01394705|184353605|SUPERIORITY|||||||0.65|||||||Fisher Exact|||||||.65
92226020|NCT01394705|184353605|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
92226021|NCT01394705|184353606|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
92226022|NCT02474082|184353636|SUPERIORITY||Odds Ratio (OR)|16.61|||<|0.0001|TWO_SIDED|95.0|7.79|35.4|||Regression, Logistic|||||35.40|7.79|<.0001
92226023|NCT00430508|184353651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.3|||<|0.0001||95.0|-6.97|-3.6|||ANCOVA|||||-3.6|-6.97|<0.0001
92366584|NCT02881775|184635432|SUPERIORITY|||||||0.9768||||||The threshold for statistical significance was p \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 45||Comparison of MVIC BL Change (treatment by time)||||.9768
92404931|NCT01746901|184701055|SUPERIORITY_OR_OTHER||LS Mean Difference|56.7|||<|0.0001|TWO_SIDED|95.0|40.3|73.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||73.2|40.3|<0.0001
92404932|NCT01746901|184701055|SUPERIORITY_OR_OTHER||LS Mean Difference|52.6|||<|0.0001|TWO_SIDED|95.0|36.2|69.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||69.0|36.2|<0.0001
92404933|NCT01746901|184701056|SUPERIORITY_OR_OTHER||LS Mean Difference|32.8|||<|0.0001|TWO_SIDED|95.0|21.8|43.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||43.7|21.8|<0.0001
92404934|NCT01746901|184701056|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6||||0.6434|TWO_SIDED|95.0|-8.4|13.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.5|-8.4|0.6434
92404935|NCT01746901|184701056|SUPERIORITY_OR_OTHER||LS Mean Difference|9.0||||0.1072|TWO_SIDED|95.0|-2.0|20.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.0|-2.0|0.1072
92366585|NCT02881775|184635433|SUPERIORITY|||||||0.444||||||threshold for statistical significance is p \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 43.1||Comparison of NPRS BL Change (treatment by time)||||0.4440
92404936|NCT01746901|184701056|SUPERIORITY_OR_OTHER||LS Mean Difference|26.3|||<|0.0001|TWO_SIDED|95.0|15.4|37.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.3|15.4|<0.0001
92404937|NCT01746901|184701056|SUPERIORITY_OR_OTHER||LS Mean Difference|25.7|||<|0.0001|TWO_SIDED|95.0|14.7|36.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||36.6|14.7|<0.0001
92404938|NCT01746901|184701056|SUPERIORITY_OR_OTHER||LS Mean Difference|11.9||||0.0335|TWO_SIDED|95.0|0.9|22.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.9|0.9|0.0335
92404939|NCT01746901|184701057|SUPERIORITY_OR_OTHER||LS Mean Difference|35.0|||<|0.0001|TWO_SIDED|95.0|24.0|46.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||46.0|24.0|<0.0001
92404940|NCT01746901|184701057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.9811|TWO_SIDED|95.0|-11.1|10.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.8|-11.1|0.9811
92404941|NCT01746901|184701057|SUPERIORITY_OR_OTHER||LS Mean Difference|9.0||||0.1083|TWO_SIDED|95.0|-2.0|19.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||19.9|-2.0|0.1083
92404942|NCT01746901|184701057|SUPERIORITY_OR_OTHER||LS Mean Difference|25.9|||<|0.0001|TWO_SIDED|95.0|14.9|36.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||36.9|14.9|<0.0001
92404943|NCT01746901|184701057|SUPERIORITY_OR_OTHER||LS Mean Difference|23.2|||<|0.0001|TWO_SIDED|95.0|12.3|34.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||34.2|12.3|<0.0001
92404944|NCT01746901|184701057|SUPERIORITY_OR_OTHER||LS Mean Difference|11.5||||0.0408|TWO_SIDED|95.0|0.5|22.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.4|0.5|0.0408
92404945|NCT01746901|184701058|SUPERIORITY_OR_OTHER||LS Mean Difference|36.9|||<|0.0001|TWO_SIDED|95.0|25.2|48.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||48.7|25.2|<0.0001
92404946|NCT01746901|184701058|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2||||0.5968|TWO_SIDED|95.0|-14.9|8.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||8.6|-14.9|0.5968
92404947|NCT01746901|184701058|SUPERIORITY_OR_OTHER||LS Mean Difference|8.7||||0.1471|TWO_SIDED|95.0|-3.1|20.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.4|-3.1|0.1471
92404948|NCT01746901|184701058|SUPERIORITY_OR_OTHER||LS Mean Difference|9.5||||0.1136|TWO_SIDED|95.0|-2.3|21.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.3|-2.3|0.1136
92404949|NCT01746901|184701058|SUPERIORITY_OR_OTHER||LS Mean Difference|22.4||||0.0002|TWO_SIDED|95.0|10.6|34.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||34.2|10.6|0.0002
92404950|NCT01746901|184701058|SUPERIORITY_OR_OTHER||LS Mean Difference|9.5||||0.1136|TWO_SIDED|95.0|-2.3|21.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.3|-2.3|0.1136
92226024|NCT00430508|184353651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4|||<|0.0001||95.0|-4.79|-2.03|||ANCOVA|||||-2.03|-4.79|<0.0001
92366586|NCT02881775|184635434|SUPERIORITY|||||||0.6608||||||Threshold for statistical significance is P \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 45||PPT BL Change (treatment by time)||||.6608
92366587|NCT02881775|184635435|SUPERIORITY|||||||0.7706||||||Threshold for statistical significance is P \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 45||Comparison of TUG BL Change (treatment by time)||||.7706
92366588|NCT02881775|184635436|SUPERIORITY|||||||0.3665||||||Threshold for statistical significance is P \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 33||Comparison of AMT-MEP BL Change (treatment by time)||||.3665
92366589|NCT02881775|184635437|SUPERIORITY|||||||0.3889||||||Threshold for statistical significance is P \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 33||Comparison of SICI BL Change (treatment by time)||||.3889
92167216|NCT04714320|184224090|SUPERIORITY||||||=|0.104||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 64||||=0.104
92167217|NCT04714320|184224090|SUPERIORITY||||||=|0.69||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 71||||=0.690
92226025|NCT00430508|184353651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.1788||95.0|-2.32|0.43|||ANCOVA|||||0.43|-2.32|0.1788
92366590|NCT02881775|184635438|SUPERIORITY|||||||0.2192||||||Threshold for statistical significance is P \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 33||Comparison of ICF BL Change (treatment by time)||||.2192
92366591|NCT00237042|184635462|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||Regression, Linear|Linear regression was used to compare group means at follow up, adjusted for baseline values of the outcome variable.||The null hypothesis was that mean characteristic pain intensity at 6-month follow up is equal across the three groups.||||0.19
92366592|NCT00237042|184635463|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Regression, Logistic|Adjusted for baseline value of the outcome variable||||||0.27
92366593|NCT00237042|184635464|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Regression, Linear|Group means compared with linear regression adjusted for baseline values. Adjusted difference: -1.0 between SMT and COCT, -1.0 between TSMT and COCT.||The null hypothesis was that mean characteristic pain intensity at 12-month follow up is equal across the three groups.||||0.003
92404951|NCT01746901|184701060|SUPERIORITY_OR_OTHER||LS Mean Difference|28.5|||<|0.0001|TWO_SIDED|95.0|19.6|37.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.4|19.6|<0.0001
92404952|NCT01746901|184701060|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2||||0.6209|TWO_SIDED|95.0|-6.7|11.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.1|-6.7|0.6209
92404953|NCT01746901|184701060|SUPERIORITY_OR_OTHER||LS Mean Difference|7.5||||0.0997|TWO_SIDED|95.0|-1.4|16.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.3|-1.4|0.0997
92226026|NCT00430508|184353652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1|||<|0.0001||95.0|-5.54|-2.6|||ANCOVA|||||-2.6|-5.54|<0.0001
92226027|NCT00430508|184353652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|||<|0.0001||95.0|-4.39|-1.98|||ANCOVA|||||-1.98|-4.39|<0.0001
92226028|NCT00430508|184353652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.1081||95.0|-2.19|0.22|||ANCOVA|||||0.22|-2.19|0.1081
92226029|NCT00430508|184353653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.4|||<|0.0001||95.0|-10.13|-4.66|||ANCOVA|||||-4.66|-10.13|<0.0001
92226030|NCT00430508|184353653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.2|||<|0.0001||95.0|-7.4|-2.91|||ANCOVA|||||-2.91|-7.4|<0.0001
92226031|NCT00430508|184353653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.0255||95.0|-4.79|-0.31|||ANCOVA|||||-0.31|-4.79|0.0255
92366594|NCT00237042|184635465|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||Regression, Logistic|Adjusted for baseline value of the outcome variable||||||0.016
92366595|NCT04522167|184635507|EQUIVALENCE|If the confidence interval for difference in LSMeans is completely contained in the interval \]-3.5 letters; 3.5 letters\[, FBY203 and Eylea are considered equivalent.|LS mean difference|1.0|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.4|-0.3|2.2||||||||2.2|-0.3|
92366596|NCT00661830|184635541|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.281|||||TWO_SIDED|95.0|0.811|2.023|||Regression, Cox|||||2.023|0.811|
92366597|NCT00661830|184635542|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.747|1.927|||Regression, Cox|||||1.927|0.747|
92366598|NCT02621476|184635672|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92366599|NCT03198767|184635673|SUPERIORITY||Ratio of number of events|0.71||||0.202|TWO_SIDED|80.0|0.5|1.0|||Mixed Models Analysis|||Day 3||1.00|0.50|0.202
92366600|NCT03198767|184635673|SUPERIORITY||Ratio of number of events|0.21|||<|0.001|TWO_SIDED|80.0|0.14|0.32|||Mixed Models Analysis|||Day 3||0.32|0.14|<0.001
92366601|NCT03198767|184635673|SUPERIORITY||Ratio of number of events|0.3|||<|0.001|TWO_SIDED|80.0|0.19|0.46|||Mixed Models Analysis|||Day 3||0.46|0.19|<0.001
92366602|NCT03198767|184635673|SUPERIORITY||Ratio of number of events|0.79||||0.275|TWO_SIDED|80.0|0.6|1.04|||Mixed Models Analysis|||Day 3||1.04|0.60|0.275
92366603|NCT03198767|184635673|SUPERIORITY||Ratio of number of events|0.78||||0.234|TWO_SIDED|80.0|0.59|1.02|||Mixed Models Analysis|||Day 3||1.02|0.59|0.234
92366604|NCT03198767|184635673|SUPERIORITY||Ratio of number of events|0.98||||0.921|TWO_SIDED|80.0|0.73|1.3|||Mixed Models Analysis|||Day 3||1.30|0.73|0.921
92366605|NCT03198767|184635674|SUPERIORITY||Ratio of number of events|0.68||||0.04|TWO_SIDED|80.0|0.54|0.86|||Mixed Models Analysis|||||0.86|0.54|0.040
92366606|NCT03198767|184635674|SUPERIORITY||Ratio of number of events|0.37|||<|0.001|TWO_SIDED|80.0|0.28|0.49|||Mixed Models Analysis|||||0.49|0.28|<0.001
92366607|NCT03198767|184635674|SUPERIORITY||Ratio of number of events|0.54||||0.008|TWO_SIDED|80.0|0.41|0.72|||Mixed Models Analysis|||||0.72|0.41|0.008
92366608|NCT03198767|184635674|SUPERIORITY||Ratio of number of events|0.79||||0.141|TWO_SIDED|80.0|0.65|0.97|||Mixed Models Analysis|||||0.97|0.65|0.141
92366609|NCT03198767|184635674|SUPERIORITY||Ratio of number of events|0.9||||0.51|TWO_SIDED|80.0|0.74|1.1|||Mixed Models Analysis|||||1.10|0.74|0.510
92366610|NCT03198767|184635674|SUPERIORITY||Ratio of number of events|1.14||||0.401|TWO_SIDED|80.0|0.93|1.41|||Mixed Models Analysis|||||1.41|0.93|0.401
92167218|NCT04714320|184224090|SUPERIORITY||||||=|0.59||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 71||||=0.590
92167219|NCT04714320|184224090|SUPERIORITY||||||=|0.538||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 78||||=0.538
92226032|NCT00430508|184353654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.6|||<|0.0001||95.0|-9.0|-4.26|||ANCOVA|||||-4.26|-9.00|<0.0001
92366611|NCT03198767|184635675|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.426|TWO_SIDED|80.0|-0.56|0.13|||Mixed Models Analysis|||||0.13|-0.56|0.426
92366612|NCT03198767|184635675|SUPERIORITY||Median Difference (Final Values)|-1.06||||0.001|TWO_SIDED|80.0|-1.46|-0.67|||Mixed Models Analysis|||||-0.67|-1.46|0.001
92366613|NCT03198767|184635675|SUPERIORITY||Mean Difference (Final Values)|-0.85||||0.009|TWO_SIDED|80.0|-1.25|-0.45|||Mixed Models Analysis|||||-0.45|-1.25|0.009
92366614|NCT03198767|184635675|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.135|TWO_SIDED|80.0|-0.68|-0.05|||Mixed Models Analysis|||||-0.05|-0.68|0.135
92366615|NCT03198767|184635675|SUPERIORITY||Median Difference (Final Values)|-0.19||||0.436|TWO_SIDED|80.0|-0.5|0.12|||Mixed Models Analysis|||||0.12|-0.50|0.436
92366616|NCT03198767|184635675|SUPERIORITY||Median Difference (Final Values)|0.18||||0.452|TWO_SIDED|80.0|-0.13|0.49|||Mixed Models Analysis|||||0.49|-0.13|0.452
92366617|NCT02820844|184635684|OTHER||Mean Difference (Net)|-2.16|||<|0.001|TWO_SIDED|95.0|-3.14|-1.18||Analysis was performed using mixed-model for repeated measures (MMRM) with treatment, site, visit, treatment-by-visit interaction, Baseline value, Baseline-by-visit interaction as fixed effects.|MMRM||Mean difference (Net) at Week 12 has been presented.|||-1.18|-3.14|<0.001
92404954|NCT01746901|184701060|SUPERIORITY_OR_OTHER||LS Mean Difference|23.2|||<|0.0001|TWO_SIDED|95.0|14.4|32.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||32.1|14.4|<0.0001
92167220|NCT04714320|184224090|SUPERIORITY||||||=|0.407||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 78||||=0.407
92404955|NCT01746901|184701060|SUPERIORITY_OR_OTHER||LS Mean Difference|16.6||||0.0003|TWO_SIDED|95.0|7.7|25.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.5|7.7|0.0003
92404956|NCT01746901|184701060|SUPERIORITY_OR_OTHER||LS Mean Difference|13.3||||0.0036|TWO_SIDED|95.0|4.4|22.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.2|4.4|0.0036
92226033|NCT00430508|184353654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.8|||<|0.0001||95.0|-6.7|-2.81|||ANCOVA|||||-2.81|-6.70|<0.0001
92226034|NCT00430508|184353654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.0812||95.0|-3.66|0.21|||ANCOVA|||||0.21|-3.66|0.0812
92366618|NCT02820844|184635685|OTHER||Mean Difference (Net)|29.69|||<|0.001|TWO_SIDED|95.0|18.47|40.91||Analysis performed using MMRM, with treatment, site, visit, Baseline urinary urgency incontinence (UUI) episodes over 3 day diary (\<=9 or \>=10), treatment-by-visit interaction, Baseline value, Baseline-by-visit interaction as fixed effects.|MMRM||Mean difference (Net) at Week 12 has been presented.|||40.91|18.47|<0.001
92366619|NCT02820844|184635740|OTHER||Hazard Ratio (HR)|0.45|||<|0.001|TWO_SIDED|95.0|0.34|0.6||P-value is from log-rank test stratified by Baseline urinary urgency incontinence episodes over 3 day diary (\<=9 versus \>=10).|Log Rank||Hazard ratio and 95% Confidence Interval (CI) are estimated using the Cox proportional hazard model with treatment and Baseline urinary urgency incontinence episodes over 3 day diary (\<=9 versus \>=10) as fixed effect.|||0.60|0.34|<0.001
92366620|NCT02820844|184635741|OTHER||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.38|0.66||P-value is from log-rank test stratified by Baseline urinary urgency incontinence episodes over 3 day diary (\<=9 versus \>=10)|Log Rank||Hazard ratio and 95% CI are estimated using the Cox proportional hazard model with treatment and Baseline urinary urgency incontinence episodes over 3 day diary (\<=9 versus \>=10) as fixed effect.|||0.66|0.38|<0.001
92366621|NCT02655887|184635874|NON_INFERIORITY|PG of 74%, which was set at 10% (non-inferiority margin) below the weighted mean of primary patency (PP2) rate at 12 month at a combination of 55% (PTS) subjects at primary patency rate of 77.1% and 45% (NIVL) subjects at primary patency rate of 93.4%. When taking into consideration both co-primary efficacy and safety endpoints, with 138 BVS subjects, the overall study power is at least 85%\*99%=84%.|Weighted Z-statistics|88.3||||0.0001|ONE_SIDED|90.0|82.4||||Weighted Z-statistics|||"Hypothesis: H0 :Primary patency rate at 12 months post-index procedure from the overall VENOVO Venous Stent (BVS) patients (PTS and NIVL combined) is at most as good as that of the PG.~Ha: Primary patency rate at 12 months post-index procedure from the overall VENOVO Venous Stent (BVS) patients (PTS and NIVL combined) is better than that of PG."|||82.4|0.0001
92366622|NCT02655887|184635875|NON_INFERIORITY|The primary safety endpoint was evaluated against the PG of 89% which was set at 10% (non-inferiority margin) below the literature-derived average freedom from MAE rate at 30 day of 99%. A one-side p-value is derived based on an exact binomial test. When taking into consideration both co-primary efficacy and safety endpoints, with 138 BVS subjects, the overall study power is at least 85%\*99%=84%.|Exact binomial test|93.5||||0.0322|ONE_SIDED|90.0|89.5||||Exact binomial test|||"Hypothesis: H0: The primary safety endpoint absence from event rate in the VENOVO Venous Stent (BVS) through 30 day at most as large as that of the PG.~Ha: The primary safety endpoint absence from event rate in the VENOVO Venous Stent (BVS) through 30 day is better than that of the PG."|||89.5|0.0322
92366623|NCT02655887|184635876|OTHER|||||||0.001||||||this p value is \< 0.001.|t-test, 2 sided|||"H0: The distribution at the 12-month follow-up remains unimproved compared to baseline.~Ha: The distribution shifts toward lower (less pain) classes."||||0.001
92366624|NCT02655887|184635877|OTHER|||||||0.001||||||p value is \< 0.001|t-test, 2 sided|||||||0.001
92226035|NCT00430508|184353655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.67||||||95.0|1.69|4.21|||Regression, Logistic|||||4.21|1.69|
92226036|NCT00430508|184353655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||||95.0|1.5|3.24|||Regression, Logistic|||||3.24|1.50|
92226037|NCT00430508|184353655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||||95.0|1.07|2.25|||Regression, Logistic|||||2.25|1.07|
92226038|NCT00430508|184353656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.1|||<|0.0001||95.0|-6.78|-3.36|||ANCOVA|||||-3.36|-6.78|<0.0001
92226039|NCT00430508|184353656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|||<|0.0001||95.0|-4.54|-1.78|||ANCOVA|||||-1.78|-4.54|<0.0001
92226040|NCT00430508|184353656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.1452||95.0|-2.43|0.36|||ANCOVA|||||0.36|-2.43|0.1452
92226041|NCT00430508|184353657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.0|||<|0.0001||95.0|-6.79|-3.17|||ANCOVA|||||-3.17|-6.79|<0.0001
92226042|NCT00430508|184353657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3|||<|0.0001||95.0|-4.79|-1.87|||ANCOVA|||||-1.87|-4.79|<0.0001
92226043|NCT00430508|184353657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.1629||95.0|-2.52|0.42|||ANCOVA|||||0.42|-2.52|0.1629
92226044|NCT00430508|184353658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.5|||<|0.0001||95.0|-7.4|-3.62|||ANCOVA|||||-3.62|-7.40|<0.0001
92226045|NCT00430508|184353658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|||<|0.0009||95.0|-4.12|-1.07|||ANCOVA|||||-1.07|-4.12|<0.0009
92226046|NCT00430508|184353658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.1985||95.0|-2.55|0.53|||ANCOVA|||||0.53|-2.55|0.1985
92226047|NCT01687712|184353687|NON_INFERIORITY|Non-inferiority was demonstrated if the upper limit of the two-sided 95% CI of the difference in pregnancy rates (Gonal-f® RFF - AFOLIA) did not exceed 8% (i.e. a one-sided hypothesis test at the 2.5% level of significance). The difference in rates (\& Wald CI) was estimated using a logistic regression model with binomial distribution and identity link, with treatment and site as factors.|Risk Difference (RD)|3.7|||||TWO_SIDED|95.0|-1.3|8.7|||||"Note that risk in this context is the risk of clinical pregnancy. The difference is in the direction Gonal-f® RFF - AFOLIA."|"The null and alternative hypotheses are as follows:~H0: p2- p1 \> ∆ and H1: p2- p1 ≤ ∆,~where p1 is the clinical pregnancy rate in the AFOLIA treatment group, p2 is the clinical pregnancy rate in the Gonal f® treatment group, and Δ is the non-inferiority margin of 8%."||8.7|-1.3|
92226048|NCT01687712|184353688|NON_INFERIORITY|Non-inferiority was demonstrated if the upper limit of the two-sided 95% CI of the difference in pregnancy rates (Gonal-f® RFF - AFOLIA) did not exceed 8% (i.e. a one-sided hypothesis test at the 2.5% level of significance). The difference in rates (\& Wald CI) was estimated using a logistic regression model with binomial distribution and identity link, with treatment and site as factors.|Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-2.5|8.1|||||"Note that risk in this context is the risk of clinical pregnancy. The difference is in the direction Gonal-f® RFF - AFOLIA."|"The null and alternative hypotheses are as follows:~H0: p2- p1 \> ∆ and H1: p2- p1 ≤ ∆,~where p1 is the clinical pregnancy rate in the AFOLIA treatment group, p2 is the clinical pregnancy rate in the Gonal f® treatment group, and Δ is the non-inferiority margin of 8%."||8.1|-2.5|
92226049|NCT01687712|184353692|SUPERIORITY|Comparisons were tested against a null of zero at the two-side 5% significance level.||||||0.612||||||P-values are based upon Type III sums of squares.|ANCOVA|Treatment group and Site are included as factors.||"The null and alternative hypotheses are as follows:~H0: p2- p1 = 0 and H1: p2- p1 ≠0,~where p1 is the least squares adjusted mean number of oocytes retrieved in the AFOLIA treatment group and p2 is the least squares adjusted mean number of oocytes retrieved in the Gonal f® treatment group."||||0.612
92226050|NCT01128829|184353702|SUPERIORITY_OR_OTHER|||||||0.025|||||||t-test, 2 sided|||Each subject served as their own control. We compared insulin concentrations when subjects consumed sucralose before a glucose load (experimental condition) with those on the day consumed water before a glucose load (control condition).||||0.025
92226051|NCT01060059|184353719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.831|TWO_SIDED|95.0|0.62|1.46|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if Baseline Gender (Male vs. Female), was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.46|0.62|0.831
92226052|NCT01060059|184353719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.554|TWO_SIDED|95.0|0.74|1.76||Baseline Medical conditions (yes vs. no)|Regression, Logistic|||Logistic regression analysis was used to find factors associated with treatment choice at baseline. Covariates with more than 30% observations missing are omitted in this analysis. Weight was removed (high correlation with BMI) and also fasting blood glucose (lab value) was removed (high correlation with HbA1c). Missing values for remaining numeric covariates were replaced with means, and for categorical ones-with modes.||1.76|0.74|0.554
92226053|NCT01060059|184353719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.714|TWO_SIDED|95.0|0.43|3.42||Baseline gastrointestinal symptoms (yes vs. no)|Regression, Logistic|||Logistic regression analysis was used to find factors associated with treatment choice at baseline. Covariates with more than 30% observations missing are omitted in this analysis. Weight was removed (high correlation with BMI) and also fasting blood glucose (lab value) was removed (high correlation with HbA1c). Missing values for remaining numeric covariates were replaced with means, and for categorical ones-with modes.||3.42|0.43|0.714
92226054|NCT01060059|184353720|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|||<|0.001|TWO_SIDED|95.0|0.6|0.78|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if Baseline HbA1c was 1% more, was it associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||0.78|0.60|<0.001
92404957|NCT01746901|184701061|SUPERIORITY_OR_OTHER||LS Mean Difference|29.9|||<|0.0001|TWO_SIDED|95.0|21.1|38.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||38.8|21.1|<0.0001
92404958|NCT01746901|184701061|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4||||0.5951|TWO_SIDED|95.0|-11.2|6.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.4|-11.2|0.5951
92404959|NCT01746901|184701061|SUPERIORITY_OR_OTHER||LS Mean Difference|7.8||||0.0841|TWO_SIDED|95.0|-1.1|16.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.6|-1.1|0.0841
92404960|NCT01746901|184701061|SUPERIORITY_OR_OTHER||LS Mean Difference|19.8|||<|0.0001|TWO_SIDED|95.0|11.0|28.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.6|11.0|<0.0001
92404961|NCT01746901|184701061|SUPERIORITY_OR_OTHER||LS Mean Difference|14.5||||0.0014|TWO_SIDED|95.0|5.7|23.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.4|5.7|0.0014
92404962|NCT01746901|184701061|SUPERIORITY_OR_OTHER||LS Mean Difference|10.8||||0.0172|TWO_SIDED|95.0|1.9|19.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||19.6|1.9|0.0172
92404963|NCT01746901|184701062|SUPERIORITY_OR_OTHER||LS Mean Difference|30.4|||<|0.0001|TWO_SIDED|95.0|21.0|39.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||39.9|21.0|<0.0001
92404964|NCT01746901|184701062|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.9||||0.2166|TWO_SIDED|95.0|-15.4|3.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.5|-15.4|0.2166
92167221|NCT04714320|184224090|SUPERIORITY||||||=|0.398||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 85||||=0.398
92167222|NCT04714320|184224090|SUPERIORITY||||||=|0.93||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 85||||=0.930
92404965|NCT01746901|184701062|SUPERIORITY_OR_OTHER||LS Mean Difference|8.5||||0.0777|TWO_SIDED|95.0|-1.0|18.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||18.0|-1.0|0.0777
92404966|NCT01746901|184701062|SUPERIORITY_OR_OTHER||LS Mean Difference|16.0||||0.0011|TWO_SIDED|95.0|6.5|25.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.4|6.5|0.0011
92404967|NCT01746901|184701062|SUPERIORITY_OR_OTHER||LS Mean Difference|12.7||||0.0086|TWO_SIDED|95.0|3.3|22.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.2|3.3|0.0086
92404968|NCT01746901|184701062|SUPERIORITY_OR_OTHER||LS Mean Difference|8.5||||0.0775|TWO_SIDED|95.0|-0.9|18.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||18.0|-0.9|0.0775
92404969|NCT01746901|184701064|SUPERIORITY_OR_OTHER||LS Mean Difference|61.2|||<|0.0001|TWO_SIDED|95.0|48.8|73.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||73.6|48.8|<0.0001
92404970|NCT01746901|184701064|SUPERIORITY_OR_OTHER||LS Mean Difference|18.8||||0.0032|TWO_SIDED|95.0|6.4|31.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||31.2|6.4|0.0032
92404971|NCT01746901|184701064|SUPERIORITY_OR_OTHER||LS Mean Difference|32.9|||<|0.0001|TWO_SIDED|95.0|20.5|45.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||45.3|20.5|<0.0001
92404972|NCT01746901|184701064|SUPERIORITY_OR_OTHER||LS Mean Difference|47.2|||<|0.0001|TWO_SIDED|95.0|34.8|59.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||59.6|34.8|<0.0001
92404973|NCT01746901|184701064|SUPERIORITY_OR_OTHER||LS Mean Difference|73.6|||<|0.0001|TWO_SIDED|95.0|61.1|86.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||86.0|61.1|<0.0001
92404974|NCT01746901|184701064|SUPERIORITY_OR_OTHER||LS Mean Difference|38.4|||<|0.0001|TWO_SIDED|95.0|26.0|50.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||50.8|26.0|<0.0001
92404975|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|43.9|||<|0.0001|TWO_SIDED|95.0|36.0|51.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||51.8|36.0|<0.0001
92404976|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3||||0.4154|TWO_SIDED|95.0|-4.6|11.2|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.2|-4.6|0.4154
92404977|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|21.8|||<|0.0001|TWO_SIDED|95.0|13.9|29.7|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||29.7|13.9|<0.0001
92404978|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|25.4|||<|0.0001|TWO_SIDED|95.0|17.5|33.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||33.3|17.5|<0.0001
92404979|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|20.2|||<|0.0001|TWO_SIDED|95.0|12.3|28.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.1|12.3|<0.0001
92404980|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|18.9|||<|0.0001|TWO_SIDED|95.0|11.0|26.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||26.8|11.0|<0.0001
92404981|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|114.2|||<|0.0001|TWO_SIDED|95.0|97.1|131.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||131.3|97.1|<0.0001
92404982|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|7.3||||0.3985|TWO_SIDED|95.0|-9.8|24.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.4|-9.8|0.3985
92226055|NCT01060059|184353721|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.055|TWO_SIDED|95.0|0.96|1.0|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if longer duration of diabetes was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.00|0.96|0.055
92226056|NCT01060059|184353722|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97|||<|0.001|TWO_SIDED|95.0|0.95|0.99|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if older age (1 year older), was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||0.99|0.95|<0.001
92226057|NCT01060059|184353723|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19|||<|0.001|TWO_SIDED|95.0|1.15|1.23|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if higher BMI (1 kg/m\^2 higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.23|1.15|<0.001
92404983|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|55.6|||<|0.0001|TWO_SIDED|95.0|38.5|72.8|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||72.8|38.5|<0.0001
92404984|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|65.9|||<|0.0001|TWO_SIDED|95.0|48.8|83.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||83.0|48.8|<0.0001
92404985|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|55.6|||<|0.0001|TWO_SIDED|95.0|38.5|72.7|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||72.7|38.5|<0.0001
92404986|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|54.1|||<|0.0001|TWO_SIDED|95.0|37.0|71.2|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||71.2|37.0|<0.0001
92404987|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|302.8|||<|0.0001|TWO_SIDED|95.0|248.8|356.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||356.8|248.8|<0.0001
92404988|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|47.8||||0.0824|TWO_SIDED|95.0|-6.2|101.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||101.7|-6.2|0.0824
92404989|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|188.5|||<|0.0001|TWO_SIDED|95.0|134.6|242.5|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||242.5|134.6|<0.0001
92404990|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|162.0|||<|0.0001|TWO_SIDED|95.0|108.0|216.0|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||216.0|108.0|<0.0001
92404991|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|141.9|||<|0.0001|TWO_SIDED|95.0|87.9|195.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||195.8|87.9|<0.0001
92404992|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|135.7|||<|0.0001|TWO_SIDED|95.0|81.7|189.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||189.6|81.7|<0.0001
92404993|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|287.6|||<|0.0001|TWO_SIDED|95.0|219.1|356.1|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||356.1|219.1|<0.0001
92404994|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|101.4||||0.004|TWO_SIDED|95.0|32.9|169.8|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||169.8|32.9|0.0040
92167223|NCT04714320|184224090|SUPERIORITY||||||=|0.111||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 92||||=0.111
92366625|NCT01964378|184635921|NON_INFERIORITY|Non-inferiority margin of 8 mg. Assuming equal mean values in both the cebranopadol and morphine groups, it was calculated that for the final analysis of the primary endpoint 170 subjects would have been required per treatment arm in the Per Protocol Set using a 2 sample-t-test for 90% power and a 1-sided significance level of α = 0.025.|point-estimate|-7.48|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001|TWO_SIDED|95.0|-12.05|-2.918|||MMRM|||The MMRM (mixed model repeated measurement) model includes fixed effects of pooled country, treatment, week, treatment-by-week interaction, history of opioid intake, baseline pain intensity as covariate \& subject-specific random effects. Dependent variable being the weekly average rescue medication intake.||-2.918|-12.05|< 0.0001
92404995|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|218.5|||<|0.0001|TWO_SIDED|95.0|150.0|287.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||287.0|150.0|<0.0001
92404996|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|170.5|||<|0.0001|TWO_SIDED|95.0|102.0|239.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||239.0|102.0|<0.0001
92404997|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|158.6|||<|0.0001|TWO_SIDED|95.0|90.1|227.1|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||227.1|90.1|<0.0001
92167224|NCT04714320|184224090|SUPERIORITY||||||=|0.196||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 92||||=0.196
92276938|NCT01715415|184455424|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic pegIFN/RBV treatment-experienced subjects of the appropriate HCV genotype 1 subtype administered telaprevir plus pegIFN/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 77% to achieve superiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV.|Percentage of Participants with SVR12|96.7|||||TWO_SIDED|95.0|93.6|99.9||||||||99.9|93.6|
92404998|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|152.2|||<|0.0001|TWO_SIDED|95.0|83.7|220.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||220.7|83.7|<0.0001
92404999|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|185.9||||0.0002|TWO_SIDED|95.0|90.1|281.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||281.8|90.1|0.0002
92405000|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|205.0|||<|0.0001|TWO_SIDED|95.0|109.2|300.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||300.8|109.2|<0.0001
92405001|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|221.0|||<|0.0001|TWO_SIDED|95.0|125.2|316.7|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||316.7|125.2|<0.0001
92405002|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|170.0||||0.0006|TWO_SIDED|95.0|74.1|265.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||265.8|74.1|0.0006
92167225|NCT04714320|184224090|SUPERIORITY||||||=|0.816||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 106||||=0.816
92167226|NCT04714320|184224090|SUPERIORITY||||||=|0.473||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 106||||=0.473
92167227|NCT04714320|184224090|SUPERIORITY||||||=|0.615||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 120||||=0.615
92167228|NCT04714320|184224090|SUPERIORITY||||||=|0.214||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 120||||=0.214
92366626|NCT01964378|184635922|NON_INFERIORITY|Non-inferiority margin of 8 mg. Assuming that 65% of the participants are available for the Per Protocol Set, a total of 524 participant would have to be allocated (randomized) to IMP. With 262 participants per group in the Full Analysis Set, the non-inferiority of cebranopadol as compared to morphine sulfate prolonged release could have been demonstrated with at least 98% power and a 1-sided significance level of α = 0.025.|point-estimate|-4.67|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001|TWO_SIDED|95.0|-9.245|-0.099||MMRM model: fixed effects of pooled country, treatment, week, treatment-by-week interaction, opioid intake history, baseline pain intensity as covariate \& subject-specific random effects. Dependent variable: weekly average rescue medication intake.|MMRM (mixed model repeated measurement)|For participants with no data in the Maintenance Phase, the average amount of rescue medication over the last 3 days of titration was imputed.|Non-inferiority of cebranopadol compared with morphine will be established if the upper bound of the resulting 95% confidence interval for the average treatment difference is below the non-inferiority margin of 8mg.|The primary endpoint will be analyzed by means of a mixed-effects model for repeated measures (MMRM), based on observed case weekly averages. Under the assumption of a missing-at-random missing data mechanism, an MMRM does not require an imputation of missing data and can obtain an improved estimate of variance.||-0.099|-9.245|< 0.0001
92366627|NCT02358993|184635935|NON_INFERIORITY|Non-inferiority of the primary outcome was achieved if the lower limit of the 95% confidence interval of the mean difference was greater than the specified non-inferiority margin of 15%(a clinically relevant margin within the range of those commonly used in non-inferiority and equivalence trials for studies examining antibiotic use for UTI)|Risk Ratio (RR)|-0.01|||||TWO_SIDED|95.0||||||||||||
92366628|NCT01072136|184635949|NON_INFERIORITY_OR_EQUIVALENCE|Under the assumption of a clinical cure proportion of 75% for the Azithromycin/Cefixime group, a 10% non-inferiority margin (i.e., no more than a 10% lower cure rate in the placebo group) at the one-sided 0.05 significance level with 85% power required 270 study participants in each arm (540 total) using an unpooled Z-test (normal approximation). Anticipating that approximately 30% of enrolled participants would not be in the per protocol group, 772 participants were targeted for enrollment.|Risk Difference (RD)|14.0|||||ONE_SIDED|95.0|-12.2||||||Asymptotic one-sided 95% confidence limit for the difference in clinical cure proportions(placebo minus treatment) were computed so that the lower limit could be examined relative to the non-inferiority margin of -10%.|The primary efficacy outcome was MPC clinical cure at 2 months. This was a non-inferiority trial designed to reject the null hypothesis that placebo control is inferior to empiric therapy for MPC.|||-12.2|
92366629|NCT00480740|184635974|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of dexmedetomindine plus sevoflurane compared with the baseline (sevoflurane alone) for any given variable was reached when the difference (steady-state \[dexmedetomidine + sevoflurane\]-baseline \[sevoflurane0\]/baseline \[sevoflurane\]0 and its associated 95% confidence interval (CI) fell completely withing the range of +/-20% indicated by the gray column.||||||0.05||95.0||||The original study design was powered to achieve at least 80% power to detect noninferiority with the two-tailed alpha level set at 0.05 for data with two measurements.|t-test, 2 sided|||||||0.05
92366630|NCT04951622|184635981|SUPERIORITY||Difference of LS Means|-1.45|STANDARD_ERROR_OF_MEAN|0.47|=|0.002|TWO_SIDED|95.0|-2.38|-0.52|||mixed effects model for repeated measure|||||-0.52|-2.38|=0.002
92405003|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|185.7||||0.0002|TWO_SIDED|95.0|89.9|281.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||281.5|89.9|0.0002
92405004|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|144.9||||0.0033|TWO_SIDED|95.0|49.1|240.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||240.8|49.1|0.0033
92405005|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|170.0||||0.0017|TWO_SIDED|95.0|65.2|274.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||274.9|65.2|0.0017
92405006|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|211.4||||0.0001|TWO_SIDED|95.0|106.6|316.2|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||316.2|106.6|0.0001
92405007|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|219.2|||<|0.0001|TWO_SIDED|95.0|114.5|324.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||324.0|114.5|<0.0001
92366631|NCT02891226|184636030|SUPERIORITY||Odds Ratio (OR)|2.75||||0.079|TWO_SIDED|90.0|1.07|7.08|||Regression, Logistic|||||7.08|1.07|0.079
92366632|NCT02891226|184636030|SUPERIORITY||Odds Ratio (OR)|4.92||||0.003|TWO_SIDED|90.0|2.01|12.07|||Regression, Logistic|||||12.07|2.01|0.003
92366633|NCT02891226|184636030|SUPERIORITY||Odds Ratio (OR)|6.14|||<|0.001|TWO_SIDED|90.0|2.81|13.42|||Regression, Logistic|||||13.42|2.81|<0.001
92405008|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|162.2||||0.0027|TWO_SIDED|95.0|57.3|267.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||267.0|57.3|0.0027
92167229|NCT04714320|184224090|SUPERIORITY||||||=|0.575||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 148||||=0.575
92276939|NCT00420290|184455434|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||0.031 is the upper level of significance|ANCOVA|||Using data from 128 CHD patients, CRP data were highly skewed, and data were log transformed to achieve normality. With 14 pts in each group (total of 28), it was predicted the minimum detectable difference between control and intervention would be 15% (1.22 for control group and 1.00 for the intervention group), with an 80% power and an alpha of 0.05 using t test approach. Thus, planned sample size was 30 to complete the study.||||0.008
92276940|NCT00420290|184455435|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANCOVA|||||||0.03
92366634|NCT02891226|184636031|SUPERIORITY||Odds Ratio (OR)|4.31||||0.241|TWO_SIDED|90.0|0.55|33.58|||Regression, Logistic|||||33.58|0.55|0.241
92366635|NCT02891226|184636031|SUPERIORITY||Odds Ratio (OR)|11.16||||0.032|TWO_SIDED|90.0|1.76|70.64|||Regression, Logistic|||||70.64|1.76|0.032
92366636|NCT02891226|184636031|SUPERIORITY||Odds Ratio (OR)|16.04||||0.009|TWO_SIDED|90.0|2.82|91.32|||Regression, Logistic|||||91.32|2.82|0.009
92366637|NCT02891226|184636032|SUPERIORITY||Odds Ratio (OR)|2.0||||0.33|TWO_SIDED|90.0|0.62|6.45|||Regression, Logistic|||||6.45|0.62|0.330
92366638|NCT02891226|184636032|SUPERIORITY||Odds Ratio (OR)|5.72||||0.006|TWO_SIDED|90.0|2.02|16.21|||Regression, Logistic|||||16.21|2.02|0.006
92366639|NCT02891226|184636032|SUPERIORITY||Odds Ratio (OR)|3.52||||0.029|TWO_SIDED|90.0|1.37|9.07|||Regression, Logistic|||||9.07|1.37|0.029
92366640|NCT02891226|184636033|SUPERIORITY||LS Mean difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.234||0.007|TWO_SIDED|90.0|-1.03|-0.25|||Mixed Models Analysis|||||-0.25|-1.03|0.007
92405009|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|185.9||||0.0006|TWO_SIDED|95.0|81.1|290.7|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||290.7|81.1|0.0006
92366641|NCT02891226|184636033|SUPERIORITY||LS Mean difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|90.0|-1.21|-0.45|||Mixed Models Analysis|||||-0.45|-1.21|<0.001
92366642|NCT02891226|184636033|SUPERIORITY||LS Mean difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.188||0.005|TWO_SIDED|90.0|-0.84|-0.22|||Mixed Models Analysis|||||-0.22|-0.84|0.005
92366643|NCT02891226|184636035|SUPERIORITY||LS Mean difference (Final Values)|24.05|STANDARD_ERROR_OF_MEAN|6.358|<|0.001|TWO_SIDED|90.0|13.53|34.56|||Mixed Models Analysis|||||34.56|13.53|<0.001
92366644|NCT02891226|184636035|SUPERIORITY||LS Mean difference (Final Values)|29.46|STANDARD_ERROR_OF_MEAN|6.421|<|0.001|TWO_SIDED|90.0|18.84|40.08|||Mixed Models Analysis|||||40.08|18.84|<0.001
92366645|NCT02891226|184636035|SUPERIORITY||LS Mean difference (Final Values)|25.24|STANDARD_ERROR_OF_MEAN|5.185|<|0.001|TWO_SIDED|90.0|16.67|33.82|||Mixed Models Analysis|||||33.82|16.67|<0.001
92366646|NCT02891226|184636036|SUPERIORITY||LS Mean difference (Final Values)|7.91|STANDARD_ERROR_OF_MEAN|2.072|<|0.001|TWO_SIDED|90.0|4.48|11.34|||Mixed Models Analysis|||||11.34|4.48|<0.001
92366647|NCT02891226|184636036|SUPERIORITY||LS Mean difference (Final Values)|6.2|STANDARD_ERROR_OF_MEAN|2.102||0.004|TWO_SIDED|90.0|2.72|9.67|||Mixed Models Analysis|||||9.67|2.72|0.004
92366648|NCT02891226|184636036|SUPERIORITY||LS Mean difference (Final Values)|6.73|STANDARD_ERROR_OF_MEAN|1.686|<|0.001|TWO_SIDED|90.0|3.94|9.51|||Mixed Models Analysis|||||9.51|3.94|<0.001
92366649|NCT02891226|184636037|SUPERIORITY||LS Mean difference (Final Values)|5.14|STANDARD_ERROR_OF_MEAN|1.927||0.008|TWO_SIDED|90.0|1.95|8.32|||Mixed Models Analysis|||Mental Component Summary (MCS)||8.32|1.95|0.008
92366650|NCT02891226|184636037|SUPERIORITY||LS Mean difference (Final Values)|4.18|STANDARD_ERROR_OF_MEAN|1.951||0.033|TWO_SIDED|90.0|0.96|7.41|||Mixed Models Analysis|||Mental Component Summary (MCS)||7.41|0.96|0.033
92366651|NCT02891226|184636037|SUPERIORITY||LS Mean difference (Final Values)|3.71|STANDARD_ERROR_OF_MEAN|1.589||0.021|TWO_SIDED|90.0|1.08|6.34|||Mixed Models Analysis|||Mental Component Summary (MCS)||6.34|1.08|0.021
92366652|NCT02891226|184636037|SUPERIORITY||LS Mean difference (Final Values)|1.59|STANDARD_ERROR_OF_MEAN|1.319||0.229|TWO_SIDED|90.0|-0.59|3.77|||Mixed Models Analysis|||Physical Component Summary (PCS)||3.77|-0.59|0.229
92366653|NCT02891226|184636037|SUPERIORITY||LS Mean difference (Final Values)|4.91|STANDARD_ERROR_OF_MEAN|1.349|<|0.001|TWO_SIDED|90.0|2.67|7.14|||Mixed Models Analysis|||Physical Component Summary (PCS)||7.14|2.67|<0.001
92366654|NCT02891226|184636037|SUPERIORITY||LS Mean difference (Final Values)|3.6|STANDARD_ERROR_OF_MEAN|1.078||0.001|TWO_SIDED|90.0|1.81|5.38|||Mixed Models Analysis|||Physical Component Summary (PCS)||5.38|1.81|0.001
92366655|NCT01445847|184636047|SUPERIORITY_OR_OTHER||Percentage|5.0|||<|0.05|TWO_SIDED|95.0|1.7|9.1|||Comparison of proportions|||We used incidence reported to AIMS study to calculate the sample size of this study. We set the null hypothesis as (percentage point of laryngospasm incidence in placebo group (µ1) - percentage point of laryngospasm incidence in Lidocaine group (µ2) = 0), with alternative hypothesis is (µ1 \> µ2) by 5% was analyzed by comparison of two proportions. A sample size of 380 patients (190 per group) was adequate to detect a 5-percentage point difference in the incidence with 80% power and p = 0.05.||9.1|1.7|<0.05
92366656|NCT04570384|184636048|OTHER||Hazard Ratio (HR)|1.14||||0.782|TWO_SIDED|95.0|0.45|2.86|||Log Rank|||||2.86|0.45|0.782
92366657|NCT04570384|184636048|OTHER||Odds Ratio (OR)|1.25||||0.668|TWO_SIDED|95.0|0.46|3.4|||Regression, Logistic|||||3.40|0.46|0.668
92366658|NCT04570384|184636049|OTHER||Hazard Ratio (HR)|1.58||||0.36|TWO_SIDED|95.0|0.59|4.22|||Log Rank|||||4.22|0.59|0.360
92366659|NCT04570384|184636050|OTHER||Hazard Ratio (HR)|0.49||||0.285|TWO_SIDED|95.0|0.13|1.83|||Log Rank|||||1.83|0.13|0.285
92405010|NCT01746901|184701065|SUPERIORITY_OR_OTHER||LS Mean Difference|135.5||||0.0116|TWO_SIDED|95.0|30.7|240.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||240.4|30.7|0.0116
92167230|NCT04714320|184224090|SUPERIORITY||||||=|0.276||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 148||||=0.276
92405011|NCT01746901|184701066|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9|||<|0.0001|TWO_SIDED|95.0|-4.3|-1.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.5|-4.3|<0.0001
92405012|NCT01746901|184701066|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8||||0.0001|TWO_SIDED|95.0|1.4|4.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.2|1.4|0.0001
92405013|NCT01746901|184701066|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.7005|TWO_SIDED|95.0|-1.7|1.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.1|-1.7|0.7005
92405014|NCT01746901|184701066|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.844|TWO_SIDED|95.0|-1.3|1.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.5|-1.3|0.8440
92405015|NCT01746901|184701066|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.7295|TWO_SIDED|95.0|-1.6|1.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.1|-1.6|0.7295
92405016|NCT01746901|184701066|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.8757|TWO_SIDED|95.0|-1.3|1.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.5|-1.3|0.8757
92405017|NCT01746901|184701067|SUPERIORITY_OR_OTHER||LS Mean Difference|60.1|||<|0.0001|TWO_SIDED|95.0|47.4|72.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||72.9|47.4|<0.0001
92405018|NCT01746901|184701067|SUPERIORITY_OR_OTHER||LS Mean Difference|12.6||||0.0514|TWO_SIDED|95.0|-0.1|25.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.4|-0.1|0.0514
92167231|NCT04714320|184224090|SUPERIORITY||||||=|0.573||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 169||||=0.573
92226058|NCT01060059|184353724|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.026|TWO_SIDED|95.0|1.0|1.05|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if greater height (1 cm higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.05|1.00|0.026
92405019|NCT01746901|184701067|SUPERIORITY_OR_OTHER||LS Mean Difference|29.7|||<|0.0001|TWO_SIDED|95.0|17.0|42.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||42.4|17.0|<0.0001
92405020|NCT01746901|184701067|SUPERIORITY_OR_OTHER||LS Mean Difference|43.0|||<|0.0001|TWO_SIDED|95.0|30.3|55.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||55.8|30.3|<0.0001
92405021|NCT01746901|184701067|SUPERIORITY_OR_OTHER||LS Mean Difference|33.7|||<|0.0001|TWO_SIDED|95.0|21.0|46.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||46.4|21.0|<0.0001
92405022|NCT01746901|184701067|SUPERIORITY_OR_OTHER||LS Mean Difference|36.4|||<|0.0001|TWO_SIDED|95.0|23.7|49.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||49.1|23.7|<0.0001
92405023|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|39.5|||<|0.0001|TWO_SIDED|95.0|31.8|47.2|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||47.2|31.8|<0.0001
92405024|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3||||0.2739|TWO_SIDED|95.0|-3.4|12.0|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||12.0|-3.4|0.2739
92405025|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|16.4|||<|0.0001|TWO_SIDED|95.0|8.7|24.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.1|8.7|<0.0001
92405026|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|27.4|||<|0.0001|TWO_SIDED|95.0|19.7|35.0|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||35.0|19.7|<0.0001
92405027|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|20.5|||<|0.0001|TWO_SIDED|95.0|12.8|28.2|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.2|12.8|<0.0001
92405028|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|19.7|||<|0.0001|TWO_SIDED|95.0|12.0|27.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||27.4|12.0|<0.0001
92276941|NCT00420290|184455436|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92405029|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|104.7|||<|0.0001|TWO_SIDED|95.0|87.7|121.8|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||121.8|87.7|<0.0001
92366660|NCT04570384|184636050|OTHER||Odds Ratio (OR)|0.6||||0.471|TWO_SIDED|95.0|0.15|2.41|||Regression, Logistic|||||2.41|0.15|0.471
92366661|NCT04570384|184636056|OTHER||Odds Ratio, log|0.81||||0.668|TWO_SIDED|95.0|0.3|2.2|||Zero-inflated negative binomial analyses|||||2.20|0.30|0.668
92366662|NCT04570384|184636056|OTHER||Incidence Rate Ratio|0.66||||0.437|TWO_SIDED|95.0|0.23|1.9|||Zero-inflated negative binomial analyses|||||1.90|0.23|0.437
92366663|NCT04570384|184636057|OTHER||Odds Ratio (OR)|0.35||||0.232|TWO_SIDED|95.0|0.06|1.97|||Regression, Logistic|||||1.97|0.06|0.232
92167232|NCT04714320|184224090|SUPERIORITY||||||=|0.706||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 169||||=0.706
92366664|NCT04570384|184636058|OTHER||Odds Ratio (OR)|0.84||||0.729|TWO_SIDED|95.0|0.31|2.28|||Regression, Logistic|||||2.28|0.31|0.729
92167233|NCT04714320|184224091|SUPERIORITY||||||=|0.853||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables|ANCOVA|||Change from Baseline at Day 8||||=0.853
92167234|NCT04714320|184224091|SUPERIORITY||||||=|0.542||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 8||||=0.542
92167235|NCT04714320|184224091|SUPERIORITY||||||=|0.43||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 15||||=0.430
92167236|NCT04714320|184224091|SUPERIORITY||||||=|0.587||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 15||||=0.587
92167237|NCT04714320|184224091|SUPERIORITY||||||=|0.91||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 22||||=0.910
92167238|NCT04714320|184224091|SUPERIORITY||||||=|0.846||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 22||||=0.846
92167239|NCT04714320|184224091|SUPERIORITY|||||||0.634||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||0.634
92167240|NCT04714320|184224091|SUPERIORITY||||||=|0.767||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||=0.767
92276942|NCT00420290|184455437|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92366665|NCT04570384|184636059|OTHER||Odds Ratio, log|1.22||||0.706|TWO_SIDED|95.0|0.43|3.44|||Zero-inflated negative binomial analyses|||||3.44|0.43|0.706
92366666|NCT04570384|184636059|OTHER||Incidence Rate Ratio|1.12||||0.788|TWO_SIDED|95.0|0.49|2.56|||Zero-inflated negative binomial analyses|||||2.56|0.49|0.788
92366667|NCT04570384|184636060|OTHER||Incidence Rate Ratio|1.08||||0.834|TWO_SIDED|95.0|0.52|2.25|||Negative binomial analysis|||||2.25|0.52|0.834
92366668|NCT00326001|184636121|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||P-value not adjusted for multiple comparisons|t-test, 2 sided|||||||0.25
92366669|NCT00326001|184636122|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||Chi-squared|||||||0.042
92366670|NCT00326001|184636123|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Chi-squared|||||||0.53
92366671|NCT00326001|184636124|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92366672|NCT03265145|184636125|OTHER||Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|0.87|1.72|||||"Cox proportional hazards model with baseline ICS prior use as a covariate was used to estimate the hazard ratio (HR) and the two-sided 95% Wald confidence interval (CI).~Ratio: Stiolto Respimat/triple therapy."|||1.72|0.87|
92366673|NCT03265145|184636126|OTHER||adjusted annual rate ratio|1.41|||||TWO_SIDED|95.0|0.97|2.04|||||Ratio: Stiolto Respimat/triple therapy|||2.04|0.97|
92366674|NCT03265145|184636127|OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.62|2.0|||||"Cox proportional hazards model with baseline ICS prior use as a covariate was used to estimate the hazard ratio (HR) and the two-sided 95% Wald confidence interval (CI).~Ratio: Stiolto Respimat/triple therapy."|||2.00|0.62|
92366675|NCT03265145|184636128|OTHER||adjusted annual rate ratio|1.08|||||TWO_SIDED|95.0|0.58|2.01|||||Ratio: Stiolto Respimat/triple therapy|||2.01|0.58|
92366676|NCT03265145|184636129|OTHER||Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.89|1.64|||||Ratio: Stiolto Respimat/triple therapy|A Cochran-Mantel-Haenszel (CMH) model with baseline ICS prior use as stratum was used to estimate the Risk Ratio (RR) (Stiolto Respimat versus triple therapy) of moderate or severe COPD exacerbations along with 95% CI.||1.64|0.89|
92366677|NCT03265145|184636129|OTHER||Risk Difference (RD)|0.036|||||TWO_SIDED|95.0|-0.022|0.094|||||Ratio: Stiolto Respimat/triple therapy|A Cochran-Mantel-Haenszel (CMH) model with baseline ICS prior use as stratum was used to estimate the Risk Difference (Stiolto Respimat versus triple therapy) of moderate or severe COPD exacerbations along with 95% CI.||0.094|-0.022|
92366678|NCT03046927|184636138|EQUIVALENCE|p values were obtained using generalized linear model with GEE for repeated measures.|Mean Difference (Net)|0.08|||<|0.001|TWO_SIDED||||||generalized linear model with dependent||Trend analysis was performed using generalized linear model with GEE for repeated measures.|||||<0.001
92366679|NCT03046927|184636139|OTHER||trend analysis|0.04|||<|0.01|TWO_SIDED|||||The threshold for statistical significance was p=0.05|generalized linear model|p values were obtained using generalized linear model with GEE for repeated measures.|Trend analysis was performed using generalized linear model with GEE for repeated measures.|||||<0.01
92366680|NCT03046927|184636140|OTHER|p values were derived from trend analysis using generalized linear models|Mean Difference (Net)|0.507||||0.0241|TWO_SIDED|95.0|0.066|0.947||The p-value was derived from a statistical model adjusted for age, sex, and BMI|General linear models|||||0.947|0.066|0.0241
92276943|NCT00420290|184455438|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92366681|NCT03046927|184636141|OTHER|p values were obtained from a generalized linear model with repeated measures|Mean Difference (Net)|10.37||||0.23|TWO_SIDED|95.0|-6.4|27.13||The p-value was derived from a statistical model adjusted for age, sex, and BMI|Regression, Linear|||||27.13|-6.40|0.23
92366682|NCT03046927|184636142|OTHER||trend analysis|0.02|||<|0.001|TWO_SIDED||||||generalized linear model|p values were obtained using generalized linear model with GEE for repeated measures.|||Trend analysis was obtained using generalized linear model GEE.|||<0.001
92366683|NCT01848977|184636148|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||Unpaired t-test was used to compare the difference between SrO2 and StO2.||||<0.05
92366684|NCT02197572|184636164|OTHER||Least Squares Mean|-2.2|||||ONE_SIDED|95.0||2.2||||||Change from Baseline at 0.25 Hours Postdose||2.2||
92366685|NCT02197572|184636164|OTHER||Least Squares Mean|-8.3|||||ONE_SIDED|95.0||-4.0||||||Change from Baseline at 0.5 Hours Postdose||-4.0||
92366686|NCT02197572|184636164|OTHER||Least Squares Mean|-1.8|||||ONE_SIDED|95.0||2.6||||||Change from Baseline at 1 Hour Postdose||2.6||
92366687|NCT02197572|184636164|OTHER||Least Squares Mean|-2.7|||||ONE_SIDED|95.0||1.7||||||Change from Baseline at 1.5 Hours Postdose||1.7||
92366688|NCT02197572|184636164|OTHER||Least Squares Mean|-5.0|||||ONE_SIDED|95.0||-0.6||||||Change from Baseline at 2 Hours Postdose||-0.6||
92405030|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|7.3||||0.4003|TWO_SIDED|95.0|-9.8|24.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.3|-9.8|0.4003
92405031|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|43.6|||<|0.0001|TWO_SIDED|95.0|26.6|60.7|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||60.7|26.6|<0.0001
92405032|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|68.4|||<|0.0001|TWO_SIDED|95.0|51.3|85.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||85.4|51.3|<0.0001
92366689|NCT02197572|184636164|OTHER||Least Squares Mean|-7.6|||||ONE_SIDED|95.0||-3.2||||||Change from Baseline at 2.5 Hours Postdose||-3.2||
92366690|NCT02197572|184636164|OTHER||Least Squares Mean|-9.1|||||ONE_SIDED|95.0||-4.6||||||Change from Baseline at 3 Hours Postdose||-4.6||
92366691|NCT02197572|184636164|OTHER||Least Squares Mean|-7.2|||||ONE_SIDED|95.0||-2.9||||||Change from Baseline at 4 Hours Postdose||-2.9||
92366692|NCT02197572|184636164|OTHER||Least Squares Mean|-8.8|||||ONE_SIDED|95.0||-4.6||||||Change from Baseline at 6 Hours Postdose||-4.6||
92366693|NCT02197572|184636164|OTHER||Least Squares Mean|-2.2|||||ONE_SIDED|95.0||2.4||||||Change from Baseline at 8 Hours Postdose||2.4||
92366694|NCT02197572|184636164|OTHER||Least Squares Mean|-6.6|||||ONE_SIDED|95.0||-0.5||||||Change from Baseline at 10 Hours Postdose||-0.5||
92366695|NCT02197572|184636164|OTHER||Least Squares Mean|7.1|||||ONE_SIDED|95.0||11.4||||||Change from Baseline at 24 Hours Postdose||11.4||
92366696|NCT02197572|184636164|OTHER||Least Squares Mean|2.8|||||ONE_SIDED|95.0||8.1||||||Change from Baseline at 48 Hours Postdose||8.1||
92366697|NCT02956746|184636178|OTHER|||||||0.4187||||||threshold for significance p-values \< 0.05|ANOVA|||||||0.4187
92366698|NCT02383862|184636187|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.79||0.165|TWO_SIDED|95.0|-0.45|2.64|||t-test, 2 sided|||||2.64|-0.45|0.165
92366699|NCT02383862|184636188|SUPERIORITY||Mean Difference (Final Values)|0.84|STANDARD_ERROR_OF_MEAN|1.05||0.425|TWO_SIDED|95.0|-1.23|2.91|||t-test, 2 sided|||||2.91|-1.23|0.425
92366700|NCT02383862|184636189|SUPERIORITY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|1.05||0.539|TWO_SIDED|95.0|-1.41|2.7|||t-test, 2 sided|||||2.70|-1.41|0.539
92366701|NCT02383862|184636190|SUPERIORITY||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|1.16||0.471|TWO_SIDED|95.0|-1.44|3.11|||t-test, 2 sided|||||3.11|-1.44|0.471
92366702|NCT02383862|184636191|SUPERIORITY||Mean Difference (Final Values)|1.49|STANDARD_ERROR_OF_MEAN|1.1||0.174|TWO_SIDED|95.0|-0.66|3.65|||t-test, 2 sided|||||3.65|-0.66|0.174
92366703|NCT02383862|184636192|SUPERIORITY||Mean Difference (Final Values)|1.67|STANDARD_ERROR_OF_MEAN|1.36||0.222|TWO_SIDED|95.0|-1.0|4.35|||t-test, 2 sided|||||4.35|-1.00|0.222
92366704|NCT02630693|184636212|OTHER|As stated in the protocol, the primary objective of this trial is to estimate the hazard ratio and the corresponding 90% confidence interval. Therefore, we do not conduct any statistical hypothesis test for progression free survival.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|90.0|0.66|1.3|||||Hazard ratio of Palbociclib100mg arm vs 125 mg arm|||1.30|0.66|
92366705|NCT02630693|184636215|OTHER|As stated in the protocol, the objective of this trial is to estimate the hazard ratio and the corresponding 90% confidence interval. Therefore, we do not conduct any statistical hypothesis test for overall survival.|Hazard Ratio (HR)|1.07|||||TWO_SIDED|90.0|0.67|1.69|||||Hazard ratio for Palbociclib 100mg arm vs 125 mg arm|||1.69|0.67|
92366706|NCT02763059|184636255|OTHER|Kruskal-Wallis||||||0.027||||||Kruskal-Wallis test, a non-parametric omnibus test, was used followed by Dunn's multiple comparison test for pairwise group analysis. A priori threshold for statistical significance was set at p \< 0.05 with no adjustments for multiple comparisons.|Kruskal-Wallis|||The Kruskal-Wallis test is an omnibus test comparing all three independent groups.||||0.027
92366707|NCT02763059|184636255|OTHER|Kruskal-Wallis|||||<|0.0001||||||Kruskal-Wallis test, a non-parametric omnibus test, was used followed by Dunn's multiple comparison test for pairwise group analysis. A priori threshold for statistical significance was set at p \< 0.05 with no adjustments for multiple comparisons.|Kruskal-Wallis|||The Kruskal-Wallis test is an omnibus test comparing all three independent groups on the pain/discomfort outcome.||||<0.0001
92366708|NCT04105868|184636263|OTHER|Within-group pre/post differences were tested using a paired t-test.||||||0.004|||||||t-test, 2 sided|Two-tailed paired samples t-test comparing baseline and post-training SSVEP competition index scores||Null hypothesis: No within-subject change in SSVEP competition index from baseline to post-training.||||.004
92366709|NCT04105868|184636264|OTHER|Within-group pre/post differences were tested using a paired t-test.||||||0.25|||||||t-test, 2 sided|Two-tailed paired samples t-test comparing baseline and post-stressor VAS sadness scores.||Null hypothesis: No within-subject change in VAS Sadness scores from baseline to post-stressor.||||.25
92366710|NCT04105868|184636265|OTHER|Within-group pre/post differences were tested using a paired t-test.||||||0.471|||||||t-test, 2 sided|Two-tailed paired samples t-test comparing baseline and post-stressor VAS anxiety scores.||Null hypothesis: No within-subject change in VAS Anxiety scores from baseline to post-stressor.||||.471
92366711|NCT02661997|184636276|SUPERIORITY|||||||0.58||||||Between group differences|ANOVA|||||||0.58
92366712|NCT02661997|184636277|SUPERIORITY|||||||0.88|||||||ANOVA|||||||0.88
92366713|NCT02661997|184636278|SUPERIORITY|||||||0.17|||||||ANOVA|||||||0.17
92366714|NCT02661997|184636279|SUPERIORITY|||||||0.88|||||||ANOVA|||This is an analysis of pre to post-treatment changes on the Physical Health subscale of the PROMIS Global Health Scale||||0.88
92366715|NCT02661997|184636280|SUPERIORITY|||||||0.032||||||P-value for group by time interaction|ANOVA|||||||0.032
92366716|NCT02661997|184636281|SUPERIORITY|||||||0.44||||||P-value for group by time interaction|ANOVA|||||||0.44
92366717|NCT02661997|184636282|SUPERIORITY|||||||0.73||||||P-value for group by time interaction|ANOVA|||||||0.73
92366718|NCT02661997|184636283|SUPERIORITY|||||||0.36||||||P-value for group by time interaction|ANOVA|||||||0.36
92366719|NCT02661997|184636284|SUPERIORITY|||||||0.24|||||||ANOVA|||||||0.24
92366720|NCT02661997|184636285|SUPERIORITY|||||||0.006||||||P-value for group by time interaction|ANOVA|||||||0.006
92366721|NCT02661997|184636286|SUPERIORITY|||||||0.55||||||P-value for group by time interaction|ANOVA|||||||0.55
92366722|NCT02661997|184636287|SUPERIORITY|||||||0.36||||||P-value for group by time interaction|ANOVA|||||||0.36
92366723|NCT02661997|184636288|SUPERIORITY|||||||0.13|||||||ANOVA|||||||0.13
92366724|NCT02661997|184636289|SUPERIORITY|||||||0.26|||||||ANOVA|||||||0.26
92366725|NCT02661997|184636290|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
92366726|NCT02661997|184636291|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.35
92366727|NCT02661997|184636294|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
92366728|NCT02661997|184636295|SUPERIORITY|||||||0.91|||||||ANOVA|||||||0.91
92366729|NCT02661997|184636296|SUPERIORITY|||||||0.42|||||||ANOVA|||||||0.42
92366730|NCT02661997|184636297|SUPERIORITY|||||||0.1|||||||ANOVA|||||||0.10
92366731|NCT02661997|184636298|SUPERIORITY|||||||0.99|||||||ANOVA|||||||0.99
92366732|NCT02661997|184636299|SUPERIORITY|||||||0.09|||||||ANOVA|||||||0.09
92366733|NCT02661997|184636300|SUPERIORITY|||||||0.44|||||||ANOVA|||||||0.44
92366734|NCT02661997|184636301|SUPERIORITY|||||||0.09||||||An adjusted p value was used based on Levene's test.|t-test, 2 sided|||||||0.09
92366735|NCT02661997|184636302|SUPERIORITY|||||||0.75|||||||ANOVA|||||||0.75
92366736|NCT02661997|184636303|SUPERIORITY|||||||0.44|||||||ANOVA|||||||0.44
92366737|NCT02661997|184636304|SUPERIORITY|||||||0.67|||||||ANOVA|||||||0.67
92366738|NCT02661997|184636305|SUPERIORITY|||||||0.43|||||||ANOVA|||||||0.43
92366739|NCT02661997|184636306|SUPERIORITY|||||||0.8|||||||ANOVA|||||||0.80
92366740|NCT02661997|184636307|SUPERIORITY|||||||0.31|||||||ANOVA|||||||0.31
92167241|NCT04714320|184224091|SUPERIORITY||||||=|0.399||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 36||||=0.399
92167242|NCT04714320|184224091|SUPERIORITY||||||=|0.323||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 36||||=0.323
92167243|NCT04714320|184224091|SUPERIORITY||||||=|0.115||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||=0.115
92276944|NCT04578548|184455452|SUPERIORITY||Geometric Mean Difference|-0.91||||0.606|TWO_SIDED|95.0|-4.34|2.64|||Random coefficient regression model|||Based on a random coefficient regression model (linear slope model) on htTKV log-transformed values with time (in weeks) as a continuous variable, treatment, time-by-treatment interaction and a random intercept and slope. The treatment effect was determined by using estimated slopes for each treatment group on the basis of the time-by-treatment interaction term from the mixed model.||2.64|-4.34|0.606
92366741|NCT02661997|184636308|SUPERIORITY|||||||0.16|||||||ANOVA|||||||0.16
92366742|NCT02661997|184636309|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92366743|NCT02661997|184636310|SUPERIORITY|||||||0.56|||||||ANOVA|||||||0.56
92366744|NCT02661997|184636311|SUPERIORITY|||||||0.64|||||||ANOVA|||||||0.64
92366745|NCT02933879|184636321|SUPERIORITY|||||||0.4615|||||||Z-test, 2 sided|||||||0.4615
92405033|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|54.3|||<|0.0001|TWO_SIDED|95.0|37.3|71.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||71.4|37.3|<0.0001
92405034|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|53.0|||<|0.0001|TWO_SIDED|95.0|36.0|70.1|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||70.1|36.0|<0.0001
92405035|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|292.5|||<|0.0001|TWO_SIDED|95.0|240.0|345.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||345.1|240.0|<0.0001
92405036|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|32.2||||0.2277|TWO_SIDED|95.0|-20.3|84.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||84.7|-20.3|0.2277
92405037|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|173.1|||<|0.0001|TWO_SIDED|95.0|120.5|225.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||225.6|120.5|<0.0001
92405038|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|151.7|||<|0.0001|TWO_SIDED|95.0|99.1|204.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||204.2|99.1|<0.0001
92405039|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|129.8|||<|0.0001|TWO_SIDED|95.0|77.2|182.3|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||182.3|77.2|<0.0001
92405040|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|122.6|||<|0.0001|TWO_SIDED|95.0|70.0|175.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||175.1|70.0|<0.0001
92167244|NCT04714320|184224091|SUPERIORITY||||||=|0.982||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||=0.982
92366746|NCT02933879|184636323|SUPERIORITY|||||||0.0404|||||||Z-test, 2 sided|||||||0.0404
92366747|NCT02933879|184636323|SUPERIORITY|||||||0.2106|||||||Z-test, 2 sided|||||||0.2106
92366748|NCT02933879|184636325|SUPERIORITY|||||||1|||||||Z-test, 2 sided|||||||1.0000
92366749|NCT02933879|184636327|SUPERIORITY|||||||1|||||||Z-test, 2 sided|||||||1.0000
92366750|NCT02933879|184636330|SUPERIORITY|||||||0.2467|||||||Z-test, 2 sided|||||||0.2467
92366751|NCT00075764|184636333|OTHER||Hazard Ratio (HR)|0.8||||0.007|TWO_SIDED|95.0|0.68|0.94|||Log Rank|Two-sided stratified log-rank test||||0.94|0.68|0.007
92366752|NCT00075764|184636335|OTHER||Hazard Ratio (HR)|0.81||||0.049|TWO_SIDED|95.0|0.65|1.0|||Log Rank|A log-rank test, stratified according to prior or no prior tamoxifen therapy.||||1.00|0.65|0.049
92366753|NCT01057693|184636342|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.32||||0.1221|TWO_SIDED|95.0|-0.74|0.09|||ANCOVA|||P-value was calculated using analysis of covariance (ANCOVA), with terms for baseline mean pain score, center and treatment in the model.||0.09|-0.74|0.1221
92366754|NCT02413996|184636372|SUPERIORITY||Mean Difference (Net)|5.94|STANDARD_DEVIATION|5.3||0.05|TWO_SIDED|95.0|-4.62|16.51|||t-test, 2 sided|||Does VRRS rehabilitation is superior to the traditional one?||16.51|-4.62|0.05
92366755|NCT00090779|184636386|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.005
92366756|NCT00090779|184636387|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92366757|NCT01672879|184636397|SUPERIORITY||Difference in LSMeans [SIM - Placebo]|0.1|||||TWO_SIDED|95.0|-1.2|1.5||||||A mixed-effect model for repeated measures (MMRM) with an unstructured variance-covariance matrix for each participant was used to calculate a point estimate and a 95% confidence interval (CI) for the treatment difference between each treatment arm and placebo in least squares mean (LSMean) change from baseline in HVPG at Week 96. With MMRM setting, all participants with available data from 3 treatment groups with change in HVPG at Week 96 contributed to the overall model.||1.5|-1.2|
92366758|NCT01672879|184636397|SUPERIORITY||Difference in LSMeans [SIM - Placebo]|0.1|||||TWO_SIDED|95.0|-1.2|1.4||||||An MMRM with an unstructured variance-covariance matrix for each participant was used to calculate a point estimate and a 95% CI for the treatment difference between each treatment arm and placebo in LSMean change from baseline in HVPG at Week 96. With MMRM setting, all participants with available data from 3 treatment groups with change in HVPG at Week 96 contributed to the overall model.||1.4|-1.2|
92405041|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|295.3|||<|0.0001|TWO_SIDED|95.0|228.3|362.2|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||362.2|228.3|<0.0001
92366759|NCT01672879|184636398|SUPERIORITY|||||||0.41|||||||Stratified log-rank test|||Differences in EFS between a given SIM group and placebo were assessed using the log-rank test stratified by HVPG category (\< 10 mmHg vs ≥ 10 mmHg) and presence or absence of diabetes at baseline.||||0.41
92366760|NCT01672879|184636398|SUPERIORITY|||||||0.065|||||||Stratified log-rank test|||Differences in EFS between a given SIM group and placebo were assessed using the log-rank test stratified by HVPG category (\< 10 mmHg vs ≥ 10 mmHg) and presence or absence of diabetes at baseline.||||0.065
92366761|NCT05069649|184636408|SUPERIORITY|||||||0.0046|||||||Chi-squared|||||||0.0046
92366762|NCT05069649|184636409|SUPERIORITY|||||||0.2488|||||||Fisher Exact|||||||0.2488
92366763|NCT05069649|184636410|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92366764|NCT05069649|184636411|SUPERIORITY|||||||0.32|||||||Fisher Exact|||||||0.32
92405042|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|69.6||||0.0416|TWO_SIDED|95.0|2.7|136.5|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||136.5|2.7|0.0416
92405043|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|204.4|||<|0.0001|TWO_SIDED|95.0|137.5|271.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||271.3|137.5|<0.0001
92405044|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|160.5|||<|0.0001|TWO_SIDED|95.0|93.5|227.4|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||227.4|93.5|<0.0001
92167245|NCT04714320|184224091|SUPERIORITY||||||=|0.859||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 50||||=0.859
92167246|NCT04714320|184224091|SUPERIORITY||||||=|0.344||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 50||||=0.344
92366765|NCT05069649|184636412|SUPERIORITY|||||||0.02|||||||Fisher Exact|||||||0.02
92366766|NCT05069649|184636413|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
92366767|NCT03951766|184636415|SUPERIORITY||Mean Difference (Final Values)|-1.5|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.1||The a priori threshold for statistical significance was alpha=.05. We did not adjust for multiple comparisons, because this was a secondary outcome. The p-value is for a planned specific comparison of week 6 to baseline.|t-test, 2 sided|||||-1.1|-1.9|<.0001
92366768|NCT03951766|184636416|SUPERIORITY||Median Difference (Final Values)|-24.9|||<|0.0001|TWO_SIDED|95.0|-32.7|-17.1||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-17.1|-32.7|<.0001
92366769|NCT03951766|184636417|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.06|TWO_SIDED|95.0|0.0|0.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6|t-test, 2 sided|||PANAS positive affect||0.4|-0.0|0.06
92366770|NCT03951766|184636417|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.36|TWO_SIDED|95.0|-0.4|0.1||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||PANAS negative affect||0.1|-0.4|0.36
92366771|NCT03951766|184636418|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.1627|TWO_SIDED|95.0|-0.1|0.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.4|-0.1|0.1627
92366772|NCT03951766|184636419|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.62|TWO_SIDED|95.0|-3.8|6.3||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||Single-item - past week||6.3|-3.8|0.62
92366773|NCT03951766|184636419|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.83|TWO_SIDED|95.0|-5.4|4.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||Single-item - right now||4.4|-5.4|0.83
92366774|NCT03951766|184636420|SUPERIORITY||Mean Difference (Final Values)|13.1|||<|0.0001|TWO_SIDED|95.0|7.6|18.7||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||SEQ-12 - Internal||18.7|7.6|<.0001
92366775|NCT03951766|184636420|SUPERIORITY||Mean Difference (Final Values)|11.1|||<|0.0001|TWO_SIDED|95.0|6.1|16.1|||t-test, 2 sided|||SEQ-12 - External||16.1|6.1|<.0001
92366776|NCT03951766|184636421|SUPERIORITY||Mean Difference (Final Values)|5.5||||0.0126|TWO_SIDED|95.0|1.2|9.8||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||9.8|1.2|0.0126
92405045|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|133.0||||0.0001|TWO_SIDED|95.0|66.1|199.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||199.9|66.1|0.0001
92226059|NCT01060059|184353725|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.37||||0.007|TWO_SIDED|95.0|0.18|0.77|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if higher baseline creatinine (1mg/dL higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||0.77|0.18|0.007
92226060|NCT01060059|184353725|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.094|TWO_SIDED|95.0|0.97|1.0|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if higher baseline fasting HDL cholesterol (1mg/dL higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.00|0.97|0.094
92366777|NCT03951766|184636422|SUPERIORITY||Mean Difference (Final Values)|-6.6||||0.0053|TWO_SIDED|95.0|-11.1|-2.0||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-2.0|-11.1|0.0053
92366778|NCT03951766|184636423|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.76|TWO_SIDED|95.0|-0.1|0.2||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||ATS - Adverse Effects||0.2|-0.1|0.76
92366779|NCT03951766|184636423|SUPERIORITY||Mean Difference (Final Values)|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.5||The a priori threshold for statistical significance was alpha=.05. We did not adjust for multiple comparisons, because this was a secondary outcome. The p-value is for a planned specific comparison of week 6 to baseline.|t-test, 2 sided|||ATS - Psychoactive Benefits||-0.5|-1.0|<.0001
92366780|NCT03951766|184636423|SUPERIORITY||Mean Difference (Final Values)|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.3||The a priori threshold for statistical significance was alpha=.05. We did not adjust for multiple comparisons, because this was a secondary outcome. The p-value is for a planned specific comparison of week 6 to baseline.|t-test, 2 sided|||ATS - Pleasure||-0.3|-0.8|<.0001
92405046|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|140.1|||<|0.0001|TWO_SIDED|95.0|73.1|207.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||207.0|73.1|<0.0001
92405047|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|219.5|||<|0.0001|TWO_SIDED|95.0|127.6|311.3|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||311.3|127.6|<0.0001
92405048|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|145.0||||0.0022|TWO_SIDED|95.0|53.2|236.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||236.8|53.2|0.0022
92405049|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|200.2|||<|0.0001|TWO_SIDED|95.0|108.4|292.0|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||292.0|108.4|<0.0001
92405050|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|164.3||||0.0005|TWO_SIDED|95.0|72.4|256.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||256.1|72.4|0.0005
92405051|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|146.6||||0.0019|TWO_SIDED|95.0|54.8|238.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||238.4|54.8|0.0019
92405052|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|132.7||||0.0049|TWO_SIDED|95.0|40.8|224.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||224.5|40.8|0.0049
92405053|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|209.3|||<|0.0001|TWO_SIDED|95.0|108.3|310.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||310.3|108.3|<0.0001
92405054|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|145.7||||0.005|TWO_SIDED|95.0|44.7|246.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||246.6|44.7|0.0050
92405055|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|200.7||||0.0001|TWO_SIDED|95.0|99.7|301.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||301.6|99.7|0.0001
92405056|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|154.3||||0.003|TWO_SIDED|95.0|53.3|255.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||255.3|53.3|0.0030
92405057|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|146.8||||0.0046|TWO_SIDED|95.0|45.9|247.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||247.8|45.9|0.0046
92405058|NCT01746901|184701068|SUPERIORITY_OR_OTHER||LS Mean Difference|123.3||||0.0171|TWO_SIDED|95.0|22.3|224.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||224.3|22.3|0.0171
92366781|NCT03951766|184636424|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.25|TWO_SIDED|95.0|-0.3|0.1||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.1|-0.3|0.25
92366782|NCT03951766|184636425|SUPERIORITY|DBI - Positive Experiences|Mean Difference (Final Values)|-20.7|||<|0.0001|TWO_SIDED|95.0|-27.2|-14.3||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-14.3|-27.2|<.0001
92366783|NCT03951766|184636425|SUPERIORITY|DBI - Negative Experiences|Mean Difference (Final Values)|-2.9||||0.27|TWO_SIDED|95.0|-8.1|2.3||"We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6."|t-test, 2 sided|||||2.3|-8.1|0.27
92366784|NCT03951766|184636426|SUPERIORITY|Pros of Being Smoke-Free|Mean Difference (Final Values)|-9.1||||0.009|TWO_SIDED|95.0|-15.9|-2.3||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-2.3|-15.9|0.009
92366785|NCT03951766|184636426|SUPERIORITY|Cons of Quitting|Mean Difference (Final Values)|-5.1||||0.25|TWO_SIDED|95.0|-13.7|3.6||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||3.6|-13.7|0.25
92405059|NCT01746901|184701069|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3||||0.0016|TWO_SIDED|95.0|-3.7|-0.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.9|-3.7|0.0016
92405060|NCT01746901|184701069|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9||||0.0105|TWO_SIDED|95.0|0.4|3.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.3|0.4|0.0105
92167247|NCT04714320|184224091|SUPERIORITY||||||=|0.633||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||=0.633
92167248|NCT04714320|184224091|SUPERIORITY||||||=|0.889||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||=0.889
92366786|NCT03951766|184636427|SUPERIORITY|PSS total scores|Mean Difference (Final Values)|-2.4||||0.0069|TWO_SIDED|95.0|-4.1|-0.7||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-0.7|-4.1|0.0069
92405061|NCT01746901|184701069|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.7259|TWO_SIDED|95.0|-1.7|1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.2|-1.7|0.7259
92167249|NCT04714320|184224091|SUPERIORITY||||||=|0.241||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 64||||=0.241
92276945|NCT04578548|184455454|SUPERIORITY||Least-squares mean difference|-2.31||||0.171|TWO_SIDED|95.0|-5.64|1.02|||Random coefficient regression model|||Least-squares mean difference (95% CI) from a random coefficient regression model (linear slope model) on eGFR values with time (in weeks) as a continuous variable, the time-by-treatment interaction and a random intercept and slope. The treatment effect was determined by using estimated slopes for each treatment group on the basis of the time-by-treatment interaction term from the mixed model.||1.02|-5.64|0.171
92366787|NCT03951766|184636427|SUPERIORITY|PSS - Perceived Helplessness|Mean Difference (Final Values)|-0.3||||0.0043|TWO_SIDED|95.0|-0.5|-0.1||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-0.1|-0.5|0.0043
92366788|NCT03951766|184636427|SUPERIORITY|PSS - Perceived Self-Efficacy|Mean Difference (Final Values)|0.1||||0.1953|TWO_SIDED|95.0|-0.1|0.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.4|-0.1|0.1953
92366789|NCT03951766|184636428|SUPERIORITY|Brief COPE Self-distraction|Mean Difference (Final Values)|0.4||||0.087|TWO_SIDED|95.0|-0.1|0.8||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.8|-0.1|0.087
92366790|NCT03951766|184636428|SUPERIORITY|Brief COPE active coping|Mean Difference (Final Values)|-0.209||||0.2866|TWO_SIDED|95.0|-0.6|0.2||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.2|-0.6|0.2866
92366791|NCT03951766|184636428|SUPERIORITY|Brief COPE denial|Mean Difference (Final Values)|0.0||||0.9296|TWO_SIDED|95.0|-0.4|0.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6|t-test, 2 sided|||||0.4|-0.4|0.9296
92366792|NCT03951766|184636428|SUPERIORITY|Brief COPE substance use|Mean Difference (Final Values)|-0.1||||0.6599|TWO_SIDED|95.0|-0.5|0.3||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6|t-test, 2 sided|||||0.3|-0.5|0.6599
92226061|NCT01060059|184353725|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.259|TWO_SIDED|95.0|1.0|1.01|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if higher baseline fasting total cholesterol (1mg/dL higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.01|1.00|0.259
92405062|NCT01746901|184701069|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.7813|TWO_SIDED|95.0|-1.6|1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.2|-1.6|0.7813
92226062|NCT01060059|184353725|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.123|TWO_SIDED|95.0|1.0|1.0|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if higher baseline fasting triglycerides (1mg/dL higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.00|1.00|0.123
92226063|NCT01920711|184353750|SUPERIORITY||Rate Ratio|0.8698||||0.0587|TWO_SIDED|95.0|0.7526|1.0052||1-sided p-value 0.0294|Proportional Rates Model (LWYY)|Treatment as fixed-effect factor and stratified by region and with robust variance estimate.||Primary Composite Events||1.0052|0.7526|0.0587
92366793|NCT03951766|184636428|SUPERIORITY|Brief COPE use of emotional support|Mean Difference (Final Values)|0.3||||0.2315|TWO_SIDED|95.0|-0.2|0.7||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6|t-test, 2 sided|||||0.7|-0.2|0.2315
92366794|NCT03951766|184636428|SUPERIORITY|Brief COPE use of instrumental support|Mean Difference (Final Values)|0.1||||0.6183|TWO_SIDED|95.0|-0.3|0.6||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.6|-0.3|0.6183
92366795|NCT03951766|184636428|SUPERIORITY|Brief COPE behavioral disengagement|Mean Difference (Final Values)|0.3||||0.2037|TWO_SIDED|95.0|-0.1|0.7||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.7|-0.1|0.2037
92366796|NCT03951766|184636428|SUPERIORITY|Brief COPE venting|Mean Difference (Final Values)|-0.5||||0.006|TWO_SIDED|95.0|-0.9|-0.2||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-0.2|-0.9|0.0060
92366797|NCT03951766|184636428|SUPERIORITY|Brief COPE positive reframing|Mean Difference (Final Values)|-0.2||||0.3045|TWO_SIDED|95.0|-0.7|0.2||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.2|-0.7|0.3045
92366798|NCT03951766|184636428|SUPERIORITY|Brief COPE planning|Mean Difference (Final Values)|-0.6||||0.0029|TWO_SIDED|95.0|-1.0|-0.2||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-0.2|-1.0|0.0029
92366799|NCT03951766|184636428|SUPERIORITY|Brief COPE humor|Mean Difference (Final Values)|0.0||||0.8274|TWO_SIDED|95.0|-0.5|0.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.4|-0.5|0.8274
92366800|NCT03951766|184636428|SUPERIORITY|Brief COPE acceptance|Mean Difference (Final Values)|0.4||||0.0349|TWO_SIDED|95.0|0.0|0.9||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.9|0.0|0.0349
92366801|NCT03951766|184636428|SUPERIORITY|Brief COPE religion|Mean Difference (Final Values)|0.2||||0.3451|TWO_SIDED|95.0|-0.2|0.6||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.6|-0.2|0.3451
92366802|NCT03951766|184636428|SUPERIORITY|Brief COPE self-blame|Mean Difference (Final Values)|-0.8||||0.0006|TWO_SIDED|95.0|-1.2|-0.3||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-0.3|-1.2|0.0006
92366803|NCT02623972|184636434|OTHER||Pathelogic Complete Response Rate|30.0|||||TWO_SIDED||||||Simon minimax two-stage design||Decision Rule: If the percentage of participants experiencing pathologic complete response (pCR) is ≤ 10% then the preoperative regimen is considered minimally effective. If the proportion of pCR ≥ 30% then the regimen is worthy of further study.|Null Hypothesis: the proportion of participants experiencing pCR is ≤ 0.10, Alternative hypothesis that proportion pCR ≥ 0.30. Hypothesized False Positive Rate(α)=10%; Hypothesized False Negative Rate(1-β)=10%.||||
92405063|NCT01746901|184701069|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.5235|TWO_SIDED|95.0|-1.9|1.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.0|-1.9|0.5235
92405064|NCT01746901|184701069|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.8512|TWO_SIDED|95.0|-1.6|1.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.3|-1.6|0.8512
92405065|NCT01746901|184701070|SUPERIORITY_OR_OTHER||LS Mean Difference|11.1||||0.0883|TWO_SIDED|95.0|-1.7|23.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.9|-1.7|0.0883
92226064|NCT01920711|184353750|SUPERIORITY||Rate Ratio|0.8511||||0.0556|TWO_SIDED|95.0|0.7216|1.0039||1-sided p-value 0.0278|Joint Frality Model|Treatment and region as fixed-effect factors||Total Hospitalizations for heart failure||1.0039|0.7216|0.0556
92366804|NCT02623972|184636434|OTHER||Pathelogic Complete Response Rate|23.0|||||TWO_SIDED||||||Simon minimax two-stage design||Decision Rule: If the percentage of participants experiencing pathologic complete response (pCR) is ≤ 2% then the preoperative regimen is considered minimally effective. If the proportion of pCR ≥ 23% then the regimen is worthy of further study.|Null Hypothesis: the proportion of participants experiencing pCR is ≤ 0.02, Alternative hypothesis that proportion pCR ≥ 0.23. Hypothesized False Positive Rate(α)=5%; Hypothesized False Negative Rate(1-β)=10%.||||
92366805|NCT04847843|184636443|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<0.001
92366806|NCT04847843|184636444|SUPERIORITY|||||||0.22|||||||Regression, Linear|||||||0.22
92366807|NCT04847843|184636445|SUPERIORITY|||||||0.62|||||||Regression, Linear|||||||0.62
92366808|NCT04847843|184636447|SUPERIORITY|||||||0.21|||||||Regression, Linear|||||||0.21
92366809|NCT04847843|184636448|SUPERIORITY|||||||0.11|||||||Regression, Linear|||||||0.11
92366810|NCT01061385|184636476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.5||||0.2922|TWO_SIDED|95.0|-6.8|21.7|||t-test, 1 sided|||||21.7|-6.8|0.2922
92366811|NCT01061385|184636477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0|||||TWO_SIDED|95.0|-37.7|38.0|||||The 95% CI range above is calculated for the current estimated value.|||38.0|-37.7|
92366812|NCT00533429|184636482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.469||||||P-value (one-tailed) was calculated based on the un-stratified log-rank test.|Log Rank|||||||0.469
92366813|NCT00533429|184636483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.462||||||95% confidence interval based on normal approximation to the binomial distribution. P-value (2-tailed) calculation based on unadjusted, normal-distribution approximation for the difference in rates.|Fisher Exact|||||||0.462
92405066|NCT01746901|184701070|SUPERIORITY_OR_OTHER||LS Mean Difference|14.8||||0.0241|TWO_SIDED|95.0|2.0|27.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||27.6|2.0|0.0241
92226065|NCT01920711|184353750|SUPERIORITY||Hazard Ratio (HR)|0.9531||||0.6241|TWO_SIDED|95.0|0.7863|1.1551||1-sided p-value 0.3120|Cox's proportional hazard model|||Cardiovascular Death||1.1551|0.7863|0.6241
92366814|NCT00533429|184636484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.492||||||P-value (two-tailed) was calculated based on the un-stratified log-rank test.|Log Rank|||||||0.492
92366815|NCT03800030|184636488|SUPERIORITY|||||||0.031|||||||t-test, 2 sided|degrees of freedom = 22 t-statistic = 2.305||||||0.031
92366816|NCT03800030|184636489|SUPERIORITY|||||||0.935|||||||t-test, 2 sided|degrees of freedom = 22 t-statistic = 0.083||||||0.935
92366817|NCT03800030|184636490|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|degrees of freedom = 22 t-statistic = 1.833||||||0.040
92366818|NCT03800030|184636491|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|degrees of freedom = 22 t-statistic = 2.174||||||0.020
92366819|NCT03800030|184636492|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|degrees of freedom = 22 t-statistic = -0.623||||||0.540
92366820|NCT03800030|184636493|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|degrees of freedom = 22 t-statistic = 2.989||||||0.007
92366821|NCT02379052|184636499|SUPERIORITY||Least Squares (LS) Mean Difference|-1.7||||0.0304|TWO_SIDED|95.0|-3.22|-0.16|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||-0.16|-3.22|0.0304
92366822|NCT02379052|184636500|SUPERIORITY||Least Squares Mean Difference|-26.45||||0.0312|TWO_SIDED|95.0|-50.523|-2.387|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||-2.387|-50.523|0.0312
92366823|NCT02379052|184636501|SUPERIORITY||Least Squares Mean Difference|-0.8||||0.383|TWO_SIDED|95.0|-2.48|0.96|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||0.96|-2.48|0.3830
92366824|NCT02379052|184636502|SUPERIORITY||Least Squares Mean Difference|-11.0||||0.4147|TWO_SIDED|95.0|-37.46|15.467|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||15.467|-37.460|0.4147
92366825|NCT02379052|184636503|SUPERIORITY||Percent Difference|26.6||||0.049|TWO_SIDED|95.0|-3.04|51.05|||Clopper-Pearson Exact||Difference is Dupilumab minus Placebo. CI = Confidence interval calculated using Clopper-Pearson Exact method|||51.05|-3.04|0.0490
92366826|NCT02379052|184636504|SUPERIORITY||Percent Difference|26.6||||0.049|TWO_SIDED|95.0|-3.04|51.05|||Clopper-Pearson Exact||Difference is Dupilumab minus Placebo. CI = Confidence interval calculated using Clopper-Pearson Exact method|||51.05|-3.04|0.0490
92405067|NCT01746901|184701070|SUPERIORITY_OR_OTHER||LS Mean Difference|14.8||||0.0235|TWO_SIDED|95.0|2.0|27.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||27.6|2.0|0.0235
92405068|NCT01746901|184701070|SUPERIORITY_OR_OTHER||LS Mean Difference|11.1||||0.0901|TWO_SIDED|95.0|-1.7|23.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.9|-1.7|0.0901
92226066|NCT01920711|184353751|SUPERIORITY||Least Squares Mean of Difference|1.0264||||0.051|TWO_SIDED|95.0|-0.0047|2.0576|||Mixed Models Analysis|||Clinical Summary Score||2.0576|-0.0047|0.0510
92226067|NCT01920711|184353752|SUPERIORITY||Odds Ratio (OR)|1.4475||||0.0035|TWO_SIDED|95.0|1.1294|1.8552|||Repeated measures cumulative odds model|The response variable is the change from baseline to any scheduled time points up to Month 8.||NYHA Class Change||1.8552|1.1294|0.0035
92226068|NCT01920711|184353753|SUPERIORITY||Hazard Ratio (HR)|0.5041||||0.0014|TWO_SIDED|95.0|0.3312|0.7673|||Cox's proportional hazards model|Treatment as fixed factor and stratified by region.||Composite renal endpoint||0.7673|0.3312|0.0014
92366827|NCT02379052|184636505|SUPERIORITY||Least Squares Mean Difference|-23.23||||0.085|TWO_SIDED|95.0|-49.677|3.212|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||3.212|-49.677|0.0850
92366828|NCT02379052|184636506|SUPERIORITY||Least Squares Mean Difference|-13.9||||0.0635|TWO_SIDED|95.0|-28.54|0.78|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||0.78|-28.54|0.0635
92366829|NCT02379052|184636507|SUPERIORITY||Least Squares Mean Difference|-33.65||||0.0608|TWO_SIDED|95.0|-68.828|1.536|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\])|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||1.536|-68.828|0.0608
92366830|NCT02379052|184636508|SUPERIORITY||Least Squares Mean Difference|-21.1||||0.0318|TWO_SIDED|95.0|-40.42|-1.86|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||-1.86|-40.42|0.0318
92366831|NCT02379052|184636509|SUPERIORITY||Percent Difference|17.8||||0.1365|TWO_SIDED|95.0|-11.54|43.55||P-values were derived by Fisher exact test|Clopper-Pearson Exact|CI = Confidence interval calculated using Exact method|Difference is Dupilumab minus Placebo|||43.55|-11.54|0.1365
92366832|NCT02379052|184636510|SUPERIORITY||Percent Difference|35.0||||0.0044|TWO_SIDED|95.0|5.69|58.34||P-values were derived by Fisher exact test|Clopper-Pearson Exact|CI = Confidence interval calculated using Exact method|Difference is Dupilumab minus Placebo|||58.34|5.69|0.0044
92366833|NCT02379052|184636511|SUPERIORITY||Least Squares Mean Difference|-107.13|||<|0.0001|TWO_SIDED|95.0|-141.215|-73.046|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\])|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||-73.046|-141.215|<0.0001
92366834|NCT02379052|184636512|SUPERIORITY||Least Square Mean Difference|-1.6||||0.0006|TWO_SIDED|95.0|-2.5|-0.68|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\])|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||-0.68|-2.50|0.0006
92366835|NCT02379052|184636513|SUPERIORITY||Least Squares Mean Difference|0.33||||0.091|TWO_SIDED|95.0|-0.053|0.72|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||0.720|-0.053|0.0910
92366836|NCT04229888|184636566|NON_INFERIORITY|To establish non-inferiority of the treatment effect on the primary outcome change in DEQ-5 score, the upper bound of the two-sided 95% confidence interval on mean difference between the light based (sham) treatment and Lipiflow treatment were compared against a non-inferiority margin M=6 representing the largest clinically acceptable difference based on historical data.||||||0.02|||||||ANOVA|||||||0.02
92366837|NCT04229888|184636567|NON_INFERIORITY|To establish non-inferiority of the treatment effect on the primary outcome change in MG score, the upper bound of the two-sided 95% confidence interval on mean difference between the light based (sham) treatment and Lipiflow treatment were compared against a non-inferiority margin M= 1 representing the largest clinically acceptable difference based on historical data.||||||0.07|||||||ANOVA|||||||0.07
92366838|NCT04229888|184636568|NON_INFERIORITY|To establish non-inferiority of the treatment effect on the primary outcome change in TBUT, the upper bound of the two-sided 95% confidence interval on mean difference between the light based (sham) treatment and Lipiflow treatment were compared against a non-inferiority margin M=6 representing the largest clinically acceptable difference based on historical data.||||||0.66|||||||ANOVA|||||||0.66
92366839|NCT01282866|184636569|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92366840|NCT02948582|184636584|SUPERIORITY||least squares mean|0.033||||0.1257|TWO_SIDED|95.0|-0.009|0.075|||least squares mean|||"An analysis of covariance was used with change from baseline in trough FEV1 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.~A sample size of 34 subjects (42 with dropouts) provides 80% power to detect a 0.14L difference in mean change trough FEV1 between 2 groups at an alpha of 0.05 using a 2-tailed t-test and assuming a common standard deviation for change in trough FEV1 of 0.2."||0.075|-0.009|0.1257
92226069|NCT01920711|184353753|SUPERIORITY||Hazard Ratio (HR)|0.9295||||0.9588|TWO_SIDED|95.0|0.0581|14.861|||Cox's proportional hazards model|Treatment as fixed factor and stratified by region.||Renal Death||14.861|0.0581|0.9588
92226070|NCT01920711|184353753|SUPERIORITY||Hazard Ratio (HR)|0.5774||||0.2484|TWO_SIDED|95.0|0.2272|1.4672|||Cox's proportional hazards model|Treatment as fixed factor and stratified by region.||Reaching ESRD||1.4672|0.2272|0.2484
92226071|NCT01920711|184353753|SUPERIORITY||Hazard Ratio (HR)|0.4407||||0.0004|TWO_SIDED|95.0|0.2798|0.6942|||Cox's proportional hazards model|Treatment as fixed factor and stratified by region.||\>=50% decline in eGFR from baseline||0.6942|0.2798|0.0004
92226072|NCT01920711|184353754|SUPERIORITY||Hazard Ratio (HR)|0.9696||||0.6846|TWO_SIDED|95.0|0.8352|1.1255|||Cox's proportional hazards model|Treatment as fixed factor and stratified by region.||All-cause mortality||1.1255|0.8352|0.6846
92366841|NCT02948582|184636584|SUPERIORITY||least squares mean|0.072||||0.0008|TWO_SIDED|95.0|0.03|0.113|||least squares mean|||"An analysis of covariance was used with change from baseline in trough FEV1 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.~A sample size of 34 subjects (42 with dropouts) provides 80% power to detect a 0.14L difference in mean change trough FEV1 between 2 groups at an alpha of 0.05 using a 2-tailed t-test and assuming a common standard deviation for change in trough FEV1 of 0.2."||0.113|0.030|0.0008
92366842|NCT02948582|184636584|SUPERIORITY||least squares mean|0.102|||<|0.0001|TWO_SIDED|95.0|0.061|0.144|||least squares mean|||"An analysis of covariance was used with change from baseline in trough FEV1 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.~A sample size of 34 subjects (42 with dropouts) provides 80% power to detect a 0.14L difference in mean change trough FEV1 between 2 groups at an alpha of 0.05 using a 2-tailed t-test and assuming a common standard deviation for change in trough FEV1 of 0.2."||0.144|0.061|<0.0001
92366843|NCT02948582|184636584|SUPERIORITY||least squares mean|0.108|||<|0.0001|TWO_SIDED|95.0|0.066|0.15|||least squares mean|||"An analysis of covariance was used with change from baseline in trough FEV1 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.~A sample size of 34 subjects (42 with dropouts) provides 80% power to detect a 0.14L difference in mean change trough FEV1 between 2 groups at an alpha of 0.05 using a 2-tailed t-test and assuming a common standard deviation for change in trough FEV1 of 0.2."||0.150|0.066|<0.0001
92366844|NCT02948582|184636584|SUPERIORITY||least squares mean|0.098|||<|0.0001|TWO_SIDED|95.0|0.056|0.14|||least squares mean|||"An analysis of covariance was used with change from baseline in trough FEV1 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.~A sample size of 34 subjects (42 with dropouts) provides 80% power to detect a 0.14L difference in mean change trough FEV1 between 2 groups at an alpha of 0.05 using a 2-tailed t-test and assuming a common standard deviation for change in trough FEV1 of 0.2."||0.140|0.056|<0.0001
92366845|NCT02948582|184636585|SUPERIORITY||least squares mean|0.086|||<|0.0001|TWO_SIDED|95.0|0.05|0.123|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC0\_12 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.123|0.050|<0.0001
92366846|NCT02948582|184636585|SUPERIORITY||least squares mean|0.151|||<|0.0001|TWO_SIDED|95.0|0.114|0.187|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC0\_12 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.187|0.114|<0.0001
92405069|NCT01746901|184701070|SUPERIORITY_OR_OTHER||LS Mean Difference|9.8||||0.1313|TWO_SIDED|95.0|-3.0|22.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.6|-3.0|0.1313
92226073|NCT03551743|184353762|SUPERIORITY||Least Squares Means (Difference)|-65.02||||0.0344|TWO_SIDED||||||ANCOVA|||||||0.0344
92366847|NCT02948582|184636585|SUPERIORITY||least squares mean|0.156|||<|0.0001|TWO_SIDED|95.0|0.12|0.193|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC0\_12 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.193|0.120|<0.0001
92366848|NCT02948582|184636585|SUPERIORITY||least squares mean|0.202|||<|0.0001|TWO_SIDED|95.0|0.165|0.239|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC0\_12 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.239|0.165|<0.0001
92366849|NCT02948582|184636585|SUPERIORITY||least squares mean|0.199|||<|0.0001|TWO_SIDED|95.0|0.162|0.235|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC0\_12 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.235|0.162|<0.0001
92366850|NCT02948582|184636586|SUPERIORITY||least squares mean|0.058||||0.0028|TWO_SIDED|95.0|0.021|0.095|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC12\_24 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.095|0.021|0.0028
92405070|NCT01746901|184701070|SUPERIORITY_OR_OTHER||LS Mean Difference|10.8||||0.0982|TWO_SIDED|95.0|-2.0|23.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.6|-2.0|0.0982
92405071|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3||||0.0351|TWO_SIDED|95.0|0.2|6.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.3|0.2|0.0351
92405072|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.8751|TWO_SIDED|95.0|-3.3|2.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.8|-3.3|0.8751
92405073|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7||||0.0795|TWO_SIDED|95.0|-0.3|5.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.8|-0.3|0.0795
92226074|NCT03551743|184353762|SUPERIORITY||Least Squares Means (Difference)|-92.38||||0.0014|TWO_SIDED||||||ANCOVA|||||||0.0014
92226075|NCT03551743|184353762|SUPERIORITY||Least Squares Means (Difference)|-46.26||||0.0002|TWO_SIDED||||||ANCOVA|||||||0.0002
92226076|NCT03551743|184353763|SUPERIORITY||Least Squares Means (Difference)|88722.37||||0.0032|TWO_SIDED||||||ANCOVA|||||||0.0032
92226077|NCT03551743|184353763|SUPERIORITY||Least Squares Means (Difference)|151500.3||||0.0003|TWO_SIDED||||||ANCOVA|||||||0.0003
92366851|NCT02948582|184636586|SUPERIORITY||least squares mean|0.1|||<|0.0001|TWO_SIDED|95.0|0.063|0.137|||least squares mena|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC12\_24 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.137|0.063|<0.0001
92366852|NCT02948582|184636586|SUPERIORITY||least squares mean|0.105|||<|0.0001|TWO_SIDED|95.0|0.068|0.142|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC12\_24 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.142|0.068|<0.0001
92366853|NCT02948582|184636586|SUPERIORITY||least squares mean|0.135|||<|0.0001|TWO_SIDED|95.0|0.098|0.173|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC12\_24 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.173|0.098|<0.0001
92366854|NCT02948582|184636586|SUPERIORITY||least squares mean|0.128|||<|0.0001|TWO_SIDED|95.0|0.091|0.166|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC12\_24 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.166|0.091|<0.0001
92366855|NCT02137070|184636629|SUPERIORITY||||||<|0.01||||||Voxel-size (p-FWE \< 0.01) and voxel-peak (p-unc \< 0.001) were corrected for multiple comparisons.|2x2 Factorial ANOVA in CONN|2x2 Factorial ANOVA in CONN - Group (Bariatric surgery vs. control) \& time (pre-surgery baseline vs. 18-month follow-up)||Analysis of variance comparing change scores from 18 months post-surgery relative to pre-surgical baseline were performed. Change in the surgical group was compared to change for the non-surgical controls. The dependent measures were connectivity strengths seeding from the hippocampus and left dorsal lateral pre-frontal cortex to other cortical areas.||||<0.01
92366856|NCT03941483|184636630|SUPERIORITY||Risk Ratio (RR)|1.174||||0.595|TWO_SIDED|90.0|0.715|1.927|||Chi-squared|||||1.927|0.715|0.595
92366857|NCT03941483|184636631|SUPERIORITY||Risk Ratio (RR)|1.297||||0.335|TWO_SIDED|90.0|0.831|2.026|||Chi-squared|||||2.026|0.831|0.335
92366858|NCT03941483|184636632|SUPERIORITY||Risk Ratio (RR)|1.025||||0.773|TWO_SIDED|90.0|0.891|1.179|||Chi-squared|||||1.179|0.891|0.773
92366859|NCT03941483|184636633|SUPERIORITY||Risk Ratio (RR)|1.038||||0.563|TWO_SIDED|90.0|0.935|1.152|||Chi-squared|||||1.152|0.935|0.563
92366860|NCT03941483|184636634|SUPERIORITY||Risk Ratio (RR)|1.174||||0.717|TWO_SIDED|90.0|0.567|2.429|||Chi-squared|||||2.429|0.567|0.717
92226078|NCT03551743|184353763|SUPERIORITY||Least Squares Means (Difference)|198560.4||||0.0004|TWO_SIDED||||||ANCOVA|||||||0.0004
92366861|NCT03941483|184636635|SUPERIORITY||Risk Ratio (RR)|1.614||||0.266|TWO_SIDED|90.0|0.789|3.3|||Chi-squared|||||3.300|0.789|0.266
92366862|NCT02292537|184636638|SUPERIORITY||LS Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|0.91||1e-07|TWO_SIDED|95.0|3.1|6.7|||ANCOVA|ANCOVA model with treatment group as a factor and age at Screening and baseline HFMSE score as covariates.||||6.7|3.1|0.0000001
92366863|NCT02292537|184636639|SUPERIORITY||Odds Ratio (OR)|5.59||||0.0006|TWO_SIDED|95.0|2.09|14.91||Based on multiple imputation and logistic regression with treatment effect and adjustment for each participant's age at screening and HFMSE score at baseline.|Regression, Logistic|||||14.91|2.09|0.0006
92366864|NCT02292537|184636639|SUPERIORITY||Difference in Proportions|30.5|||||TWO_SIDED|95.0|12.74|48.31|||||Difference in proportions of Nusinersen minus Sham Procedure are from multiple imputation procedure and are based on binomial proportions.|||48.31|12.74|
92366865|NCT02292537|184636640|SUPERIORITY||Difference in Proportions|13.8||||0.0811|TWO_SIDED|95.0|-6.64|34.17|||Fisher Exact||Difference in proportions of Nusinersen minus Sham Procedure is based on exact unconditional confidence interval.|||34.17|-6.64|0.0811
92366866|NCT02292537|184636641|SUPERIORITY||LS Mean Difference|0.4|||||TWO_SIDED|95.0|0.2|0.7|||||Based on ANCOVA with treatment as a fixed effect and adjustment for each participant's age at screening and number of milestones at baseline.|||0.7|0.2|
92226079|NCT03551743|184353764|SUPERIORITY||Least Squares Means (Difference)|-76.05||||0.1874|TWO_SIDED||||||ANCOVA|||||||0.1874
92226080|NCT03551743|184353764|SUPERIORITY||Least Squares Means (Difference)|-27.98||||0.386|TWO_SIDED||||||ANCOVA|||||||0.386
92226081|NCT03551743|184353764|SUPERIORITY||Least Squares Means (Difference)|-49.99|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92226082|NCT06033079|184353817|SUPERIORITY||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.32|2.95||||||||2.95|0.32|
92226083|NCT06033079|184353818|SUPERIORITY|||||||0.233|||||||Fisher Exact|||||||0.233
92366867|NCT02292537|184636642|SUPERIORITY||LS Mean Differenec|3.7|||||TWO_SIDED|95.0|2.3|5.0|||||From multiple imputation procedure, based on ANCOVA with treatment as a fixed effect and adjustment for each participant's age at screening and derived total score at baseline.|||5.0|2.3|
92366868|NCT02292537|184636643|SUPERIORITY||Difference in Proportions|-1.4|||||TWO_SIDED|95.0|-21.84|19.34|||||Difference in proportions of Nusinersen minus Sham Procedure is based on exact unconditional confidence interval.|||19.34|-21.84|
92366869|NCT02292537|184636644|SUPERIORITY||Difference in Proportions|1.5|||||TWO_SIDED|95.0|-19.1|22.1|||||Difference in proportions of Nusinersen minus Sham Procedure is based on exact unconditional confidence interval.|||22.10|-19.10|
92366870|NCT01444430|184636654|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the 95% CI of the hazard ratio will be used to assess statistical non-inferiority (non-inferiority margin=2).|Hazard Ratio (HR)|1.073|||||TWO_SIDED|95.0|0.698|1.65|||Regression, Cox|||||1.650|0.698|
92366871|NCT01444430|184636655|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.835||||0.002|TWO_SIDED|95.0|0.745|0.937|||Regression, Cox|||||0.937|0.745|0.002
92366872|NCT01444430|184636656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|3.3|5.4|||ANOVA|||||5.4|3.3|<0.001
92366873|NCT01444430|184636657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.6||0.272|TWO_SIDED|95.0|-0.5|1.7|||ANOVA|||||1.7|-0.5|0.272
92366874|NCT01444430|184636658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0|<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||ANOVA|||||-0.1|-0.2|<0.001
92366875|NCT01444430|184636659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|-0.1|-0.06|||ANCOVA|||||-0.06|-0.10|<0.001
92366876|NCT01444430|184636660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.004|TWO_SIDED|95.0|-1.0|-0.2|||ANOVA|||||-0.2|-1.0|0.004
92366877|NCT01444430|184636661|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.739||||0.095|TWO_SIDED|95.0|0.518|1.055|||Regression, Cox|||||1.055|0.518|0.095
92366878|NCT01142388|184636673|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85|TWO_SIDED||||||Log Rank|one-sided stratified log rank test, stratifying on: 1) gastroesophageal junction vs. esophagus, 2) squamous cell carcinoma vs. adenocarcinoma.||||||0.85
92366879|NCT01142388|184636674|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|TWO_SIDED||||||Log Rank|one-sided stratified log rank test, stratifying on 1) gastroesophageal junction vs. esophagus, 2) squamous cell carcinoma vs. adenocarcinoma.||||||0.50
92366880|NCT00802997|184636676|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||t-test, 2 sided|||||||0.035
92366881|NCT05265728|184636721|SUPERIORITY||Least Square Mean (LS mean)|0.37|||||TWO_SIDED|95.0|0.18|0.76|||||LS mean (95% Confidence Interval \[CI\]) lesions were obtained from a Poisson distribution model with no explanatory variables.|||0.76|0.18|
92366882|NCT05265728|184636722|SUPERIORITY||Least Square Mean|3.08|||||TWO_SIDED|95.0|0.69|13.74|||||LS mean (95% CI) lesions were obtained from a Poisson distribution model with no explanatory variables.|||13.74|0.69|
92366883|NCT01032954|184636752|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||P-value threshold for significance: \<0.05|GLM= GENERAL LINEAR MODELS WITH REPEATED|||||||<0.05
92366884|NCT01032954|184636753|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||P-value threshold for significance: \<0.05|GLM|||||||<0.05
92366885|NCT01693250|184636769|SUPERIORITY||Mean Difference (Final Values)|1.68|STANDARD_DEVIATION|0.5|<|0.001|TWO_SIDED|95.0|||||Mixed Models Analysis|||This is a feasibility and pilot study. We acknowledge that our sample size will not have adequate power to detect any statistically significant outcomes. We chose a sample size that would be large enough to assess feasibility and effect size and to accommodate recruitment within the study time and budget of this application. We hope to be able to estimate the effect size of the intervention.||||<.001
92366886|NCT01693250|184636770|SUPERIORITY||Mean Difference (Final Values)|2.66||||0.001|TWO_SIDED|95.0|||||Mixed Models Analysis|||We hypothesized the intervention group will have significant reduction of systematic blood pressure compared to the control group at 6 month follow up.||||.001
92366887|NCT00600106|184636780|SUPERIORITY_OR_OTHER|All tests were two-sided with p values \<0.05.||||||0.36|||||||t-test (nonparametric Wilcoxon test)|||"Data were presented in tables as means and SDs for continuous variables and frequencies for categorical variables. Comparisons between the placebo and 1/10 NA/EE groups were don using Wilcoxon rank sum test for continuous measurement and Fisher's exact test for discrete data. The strategy of analysis was intention to treat with comparing the study groups in term of treatment to which they were randomly allocated."||||0.36
92366888|NCT00600106|184636781|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.93
92366889|NCT00600106|184636782|SUPERIORITY_OR_OTHER|All tests were two-sided with p values \<0.05.||||||0.77|||||||Wilcoxon rank sum test|||"Data were presented in tables as means and SDs for continuous variables and frequencies for categorical variables. Comparisons between the placebo and 1/10 NA/EE groups were don using Wilcoxon rank sum test for continuous measurement and Fisher's exact test for discrete data. The strategy of analysis was intention to treat with comparing the study groups in term of treatment to which they were randomly allocated."||||0.77
92366890|NCT00600106|184636784|SUPERIORITY_OR_OTHER|All tests were two-sided with p values \<0.05.||||||0.38|||||||Wilcoxon rank sum test|||"Data were presented in tables as means and SDs for continuous variables and frequencies for categorical variables. Comparisons between the placebo and 1/10 NA/EE groups were don using Wilcoxon rank sum test for continuous measurement and Fisher's exact test for discrete data. The strategy of analysis was intention to treat with comparing the study groups in term of treatment to which they were randomly allocated."||||0.38
92366891|NCT00600106|184636788|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||t-test (nonparametric Wilcoxon test)|||"Data were presented in tables as means and SDs for continuous variables and frequencies for categorical variables. Comparisons between the placebo and 1/10 NA/EE groups were don using Wilcoxon rank sum test for continuous measurement and Fisher's exact test for discrete data. The strategy of analysis was intention to treat with comparing the study groups in term of treatment to which they were randomly allocated. All tests were two-sided with p values \<0.05."||||0.17
92366892|NCT00600106|184636789|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.49
92366893|NCT00600106|184636790|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.77
92366894|NCT00600106|184636791|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.40
92366895|NCT00600106|184636792|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.99
92366896|NCT00600106|184636793|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.21
92366897|NCT00620373|184636794|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|||Significant difference p ≤ 0.05||||.016
92366898|NCT00620373|184636794|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||McNemar|||significant difference p ≤ 0.05||||.07
92226084|NCT06033079|184353819|SUPERIORITY||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.3|2.37||||||||2.37|0.30|
92226085|NCT06033079|184353820|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.32|1.82||||||||1.82|0.32|
92366899|NCT00620373|184636795|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||McNemar|||For all cancers; significant difference p ≤ 0.05||||.016
92226086|NCT06033079|184353821|SUPERIORITY||Odds Ratio (OR)|1.42|||||TWO_SIDED|95.0|0.34|7.51||||||||7.51|0.34|
92226087|NCT06033079|184353822|SUPERIORITY||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.13|1.42||||||||1.42|0.13|
92366900|NCT00620373|184636795|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||McNemar|||For all cancers; significant difference p ≤ 0.05||||.07
92366901|NCT00620373|184636795|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||McNemar|||For invasive cancers; significant difference p ≤ 0.05||||.063
92366902|NCT00620373|184636795|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||McNemar|||For invasive cancers; significant difference p ≤ 0.05||||.063
92366903|NCT00620373|184636795|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||McNemar|||For ductal carcinoma in situ; significant difference p ≤ 0.05||||.5
92366904|NCT00620373|184636795|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||McNemar|||For ductal carcinoma in situ; significant difference p ≤ 0.05||||>.99
92366905|NCT00620373|184636797|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||McNemar|||significant difference p ≤ 0.05||||<.001
92366906|NCT00620373|184636797|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||McNemar|||significant difference p ≤ 0.05||||.069
92366907|NCT00620373|184636798|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||McNemar|||significant difference p ≤ 0.05||||<.001
92226088|NCT06033079|184353823|SUPERIORITY||Odds Ratio (OR)|1.72|||||TWO_SIDED|95.0|0.41|7.9||||||||7.90|0.41|
92366908|NCT00620373|184636798|SUPERIORITY_OR_OTHER|||||||0.218||95.0|||||McNemar|||significant difference p ≤ 0.05||||.218
92366909|NCT02975804|184636830|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
92366910|NCT02975804|184636831|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
92366911|NCT02975804|184636832|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
92366912|NCT02975804|184636833|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
92366913|NCT02975804|184636834|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
92366914|NCT02975804|184636835|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
92226089|NCT04202679|184353824|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0216|TWO_SIDED|95.0|1.08|5.0||Threshold of significance at 0.05 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when primary outcome measure was statistically significant at two-sided 0.05.||5.00|1.08|0.0216
92226090|NCT04202679|184353825|SUPERIORITY||Odds Ratio (OR)|9.0|||<|0.0001|TWO_SIDED|95.0|3.56|22.66||Threshold of significance at 0.05 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||22.66|3.56|<0.0001
92366915|NCT02975804|184636839|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
92366916|NCT02975804|184636840|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
92366917|NCT03783962|184636848|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|||||||.003
92366918|NCT03783962|184636849|SUPERIORITY|||||||0.97|||||||Mixed Models Analysis|||||||.97
92366919|NCT03783962|184636850|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||.08
92366920|NCT03783962|184636850|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92366921|NCT03783962|184636850|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92366922|NCT03783962|184636851|SUPERIORITY|||||||0.18|||||||Mixed Models Analysis|||||||.18
92366923|NCT03783962|184636851|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||.40
92366924|NCT03783962|184636851|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||.01
92366925|NCT03783962|184636852|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||.40
92366926|NCT03783962|184636852|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92366927|NCT03783962|184636852|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92366928|NCT03783962|184636853|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||.25
92366929|NCT03783962|184636853|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92366930|NCT03783962|184636853|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92405074|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.8382|TWO_SIDED|95.0|-2.7|3.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.4|-2.7|0.8382
92405075|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4||||0.0289|TWO_SIDED|95.0|0.4|6.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.4|0.4|0.0289
92405076|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.7878|TWO_SIDED|95.0|-2.6|3.5|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.5|-2.6|0.7878
92405077|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|14.8||||0.0019|TWO_SIDED|95.0|5.6|24.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.0|5.6|0.0019
92405078|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.821|TWO_SIDED|95.0|-8.1|10.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.3|-8.1|0.821
92366931|NCT03783962|184636854|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|||||||.26
92366932|NCT03783962|184636854|SUPERIORITY|||||||0.41|||||||Mixed Models Analysis|||||||.41
92366933|NCT03783962|184636854|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||||||.02
92366934|NCT03783962|184636855|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||.03
92226091|NCT04202679|184353826|SUPERIORITY||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.02|9.55||Threshold of significance at 0.05 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||9.55|2.02|<0.0001
92366935|NCT03783962|184636855|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||||||.02
92366936|NCT03783962|184636855|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92366937|NCT03783962|184636856|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis|||||||.58
92366938|NCT03783962|184636856|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||.05
92366939|NCT03783962|184636856|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||.01
92366940|NCT03783962|184636857|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||.009
92366941|NCT03783962|184636858|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92366942|NCT01169337|184636863|SUPERIORITY|||||||0.0005|||||||Log Rank|stratified 1-sided log-rank test||||||0.0005
92226092|NCT04202679|184353827|SUPERIORITY||Odds Ratio (OR)|6.1||||0.0001|TWO_SIDED|95.0|2.03|18.11||Threshold of significance at 0.05 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05||18.11|2.03|0.0001
92366943|NCT03726658|184636881|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose). Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.|Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|2.24||0.98|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose). Since this was a phase 1 study no power calculation was performed.||||0.98
92366944|NCT03726658|184636881|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose). Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.|Median Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|2.25||0.25|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose).||Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose). Since this was a phase 1 study no power calculation was performed.||||0.25
92366945|NCT03726658|184636881|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose).|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|2.26||0.93|TWO_SIDED|||||Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose).|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose).||||0.93
92366946|NCT03726658|184636882|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group|Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|2.02||0.43|TWO_SIDED|||||a priori threshold for statistical significance was \<0.05|Mixed Models Analysis|||Chane from baseline in treated group compared to change from baseline in placebo group. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.43
92405079|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|12.3||||0.0094|TWO_SIDED|95.0|3.1|21.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.5|3.1|0.0094
92405080|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|3.6||||0.4454|TWO_SIDED|95.0|-5.6|12.8|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||12.8|-5.6|0.4454
92405081|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|7.9||||0.0934|TWO_SIDED|95.0|-1.3|17.1|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||17.1|-1.3|0.0934
92366947|NCT03726658|184636882|EQUIVALENCE|Change from baseline in treated group compared to change in baseline in placebo group|Median Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|2.02||0.84|TWO_SIDED|||||The a priori threshold for statistical significance was P \<0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change in placebo group. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.84
92366948|NCT03726658|184636883|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 9|Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|2.65||0.69|TWO_SIDED|||||A priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 9. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.69
92366949|NCT03726658|184636883|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 9|Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|2.66||0.44|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 9. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.44
92366950|NCT03726658|184636883|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 9|Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|2.66||0.43|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 9. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.43
92366951|NCT03726658|184636883|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 15|Median Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|2.65||0.55|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 15. Since this was a phase 1 study no power calculaton was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.55
92366952|NCT03726658|184636883|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 15.|Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|2.66||0.44|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 15. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.44
92366953|NCT03726658|184636883|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 15|Median Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|2.69||0.56|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 15. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.56
92366954|NCT03726658|184636883|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 22.|Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|2.74||0.8|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 22. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.80
92366955|NCT03726658|184636883|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 22.|Median Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|2.74||0.45|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 22. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.45
92366956|NCT03726658|184636883|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 22.|Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|2.77||0.67|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 22. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.67
92226093|NCT04202679|184353828|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0194|TWO_SIDED|95.0|1.13|7.52||Threshold of significance at 0.05 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||7.52|1.13|0.0194
92226094|NCT04202679|184353829|SUPERIORITY||LS mean difference|-23.16|||<|0.0001|TWO_SIDED|95.0|-33.81|-12.51||Threshold of significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-12.51|-33.81|<0.0001
92366957|NCT03726658|184636884|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 11|Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|2.36||0.43|TWO_SIDED|||||a priori threshold for statistical significance was p\>0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 11. Since this was a phase 1 study, no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.43
92366958|NCT03726658|184636884|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 11|Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|2.38||0.59|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 11. Since this was a phase 1 study, no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.59
92366959|NCT03726658|184636884|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 14|Mean Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|2.44||0.35|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 14, Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.35
92366960|NCT03726658|184636884|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 14|Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.48||0.82|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 14. Since this was a phase 1 study, no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.82
92366961|NCT03726658|184636884|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 18|Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|2.62||0.61|TWO_SIDED||||||Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 18. Since this was a phase 1 study, no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.61
92366962|NCT03726658|184636884|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 18|Median Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|2.69||0.47|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 18. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.47
92226095|NCT04202679|184353830|SUPERIORITY||LS mean difference|-6.39|||<|0.0001|TWO_SIDED|95.0|-8.42|-4.36||Threshold of significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-4.36|-8.42|<0.0001
92226096|NCT04202679|184353831|SUPERIORITY||LS mean difference|-1.61||||0.0003|TWO_SIDED|95.0|-2.49|-0.73||Threshold of significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-0.73|-2.49|0.0003
92226097|NCT04202679|184353832|SUPERIORITY||LS mean difference|0.54||||0.1658|TWO_SIDED|95.0|-0.22|1.3||Threshold of significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||1.30|-0.22|0.1658
92226098|NCT04202679|184353840|SUPERIORITY||LS mean difference|-0.61||||0.037|TWO_SIDED|95.0|-1.18|-0.04||Threshold of significance was \<0.05.|ANCOVA||Dupilumab 300 mg q2w versus Placebo|||-0.04|-1.18|0.0370
92226099|NCT01250379|184353848|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0204|TWO_SIDED|95.0|0.65|0.97|||Log Rank||The 95% confidence interval (CI) was estimated using Cox proportional hazards methodology. The stratification factors used in the analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and lactate dehydrogenase (LDH) level.|||0.97|0.65|0.0204
92226100|NCT01250379|184353848|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0245|TWO_SIDED|95.0|0.67|0.97|||Log Rank||Unstratified analysis.|||0.97|0.67|0.0245
92226101|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59||||0.0088|TWO_SIDED|95.0|0.4|0.88|||Log Rank|||Subgroup analysis: HR-neg||0.88|0.40|0.0088
92226102|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.1196|TWO_SIDED|95.0|0.67|1.05|||Log Rank|||Subgroup analysis: HR-pos/HER-neg||1.05|0.67|0.1196
92226103|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.011|TWO_SIDED|95.0|0.43|0.9|||Log Rank|||Subgroup analysis: PFS \<6 months||0.90|0.43|0.0110
92226104|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0816|TWO_SIDED|95.0|0.65|1.03|||Log Rank|||Subgroup analysis: PFS ≥6 months||1.03|0.65|0.0816
92276946|NCT00972153|184455458|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Descriptive statistics (means, medians, frequencies) were used to evaluate the distributions of variables. One-way analysis of variance and independent t-tests or Mann-Whitney U tests were used to compare patient and environmental characteristics between groups. Generalized estimating equations were used to evaluate the effects of group and other factors on airborne CFUs/cubic meter at the surgical site in each 10 minute interval.||||<0.001
92276947|NCT00972153|184455459|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Descriptive statistics (means, medians, frequencies) were used to evaluate the distributions of variables. One-way analysis of variance and independent t-tests or Mann-Whitney U tests were used to compare patient and environmental characteristics between groups. Generalized estimating equations were used to evaluate the effects of group and other factors on airborne CFUs/cubic meter at the surgical site in each 10 minute interval.||||<0.001
92276948|NCT04192799|184455460|EQUIVALENCE|Testing was two-sided and p-values \<0.05 were considered statistically significant.|Mean Ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.65|0.85||Testing was two-sided and p-values \<0.05 were considered statistically significant, not adjusted for multiple comparison.|Gamma Regression with Log Link Function|Adjusted for demographics, clinical characteristics, time period; interaction term for hospital and time period, random effect for practice group.||||0.85|0.65|<0.001
92276949|NCT04192799|184455461|EQUIVALENCE|Testing was two-sided and p-values \<0.05 were considered statistically significant.|Mean Ratio|1.12|||<|0.001|TWO_SIDED|95.0|1.06|1.19||Testing was two-sided and p-values \<0.05 were considered statistically significant, not adjusted for multiple comparison.|Gamma Regression with Log Link Function|Adjusted for demographics, clinical characteristics, time period; interaction term for hospital and time period, random effect for practice group.||||1.19|1.06|<0.001
92276950|NCT04192799|184455462|EQUIVALENCE|Testing was two-sided and p-values \<0.05 were considered statistically significant.|Mean Ratio|0.93||||0.37|TWO_SIDED|95.0|0.8|1.09||Testing was two-sided and p-values \<0.05 were considered statistically significant, not adjusted for multiple comparison.|Gamma Regression with Log Link Function|Adjusted for demographics, clinical characteristics, time period; interaction term for hospital and time period, random effect for practice group.||||1.09|0.80|0.37
92226105|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55||||0.0395|TWO_SIDED|95.0|0.31|0.98|||Log Rank|||Subgroup analysis: taxane chemo||0.98|0.31|0.0395
92226106|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.1385|TWO_SIDED|95.0|0.68|1.06|||Log Rank|||Subgroup analysis: non-taxane chemo||1.06|0.68|0.1385
92226107|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41||||0.0029|TWO_SIDED|95.0|0.22|0.75|||Log Rank|||Subgroup analysis: vinorelbine chemo||0.75|0.22|0.0029
92226108|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.0171|TWO_SIDED|95.0|0.62|0.96|||Log Rank|||Subgroup analysis: LDH ≤ 1.5 ULN||0.96|0.62|0.0171
92226109|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.1797|TWO_SIDED|95.0|0.46|1.16|||Log Rank|||Subgroup analysis: LDH \> 1.5 ULN||1.16|0.46|0.1797
92226110|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.0229|TWO_SIDED|95.0|0.62|0.97|||Log Rank|||Subgroup analysis: \< 65 years of age||0.97|0.62|0.0229
92226111|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.2139|TWO_SIDED|95.0|0.51|1.16|||Log Rank|||Subgroup analysis: ≥ 65 years of age||1.16|0.51|0.2139
92226112|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0021|TWO_SIDED|95.0|0.59|0.89|||Log Rank|||Subgroup analysis: \< 70 years of age||0.89|0.59|0.0021
92226113|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.5216|TWO_SIDED|95.0|0.64|2.39|||Log Rank|||Subgroup analysis: ≥ 70 years of age||2.39|0.64|0.5216
92366963|NCT03726658|184636884|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 21|Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|2.48||0.76|TWO_SIDED||||||Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 21. Since this was a phase 1 study, no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.76
92366964|NCT03726658|184636884|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 21|Median Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|2.51||0.99|TWO_SIDED|||||Change from baseline in treated group compared to change from baseline in placebo group on Day 21|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 21. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.99
92366965|NCT05710640|184636885|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||||||1.000
92366966|NCT05710640|184636886|SUPERIORITY|||||||0.294||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 4||||0.294
92366967|NCT05710640|184636886|SUPERIORITY|||||||0.637||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||0.637
92366968|NCT05710640|184636886|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 16||||1.00
92366969|NCT05710640|184636887|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 4||||1.000
92366970|NCT05710640|184636887|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 8||||1.000
92366971|NCT05710640|184636887|SUPERIORITY|||||||0.62||||||P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||0.620
92226114|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.0148|TWO_SIDED|95.0|0.58|0.94|||Log Rank|||Subgroup analysis: \< 3 metastatic organ sites||0.94|0.58|0.0148
92366972|NCT05710640|184636887|SUPERIORITY|||||||0.576||||||P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 16||||0.576
92366973|NCT05710640|184636888|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 4||||1.000
92226115|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.3102|TWO_SIDED|95.0|0.61|1.17|||Log Rank|||Subgroup analysis: ≥ 3 metastatic organ sites||1.17|0.61|0.3102
92226116|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0967|TWO_SIDED|95.0|0.64|1.04|||Log Rank|||Subgroup analysis: B-free ≤ 6 weeks||1.04|0.64|0.0967
92226117|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.0489|TWO_SIDED|95.0|0.51|1.0|||Log Rank|||Subgroup analysis: B-free \> 6 weeks||1.00|0.51|0.0489
92226118|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.0176|TWO_SIDED|95.0|0.41|0.92|||Log Rank|||Subgroup analysis: D-free ≤ 24 months||0.92|0.41|0.0176
92366974|NCT05710640|184636888|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 8||||1.00
92366975|NCT05710640|184636888|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||1.000
92366976|NCT05710640|184636888|SUPERIORITY|||||||0.637||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 16||||0.637
92366977|NCT05710640|184636889|SUPERIORITY|||||||0.331||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Baseline and covariates of treatment and Baseline JADAS-27 score.|ANCOVA|||Week 4||||0.331
92366978|NCT05710640|184636889|SUPERIORITY|||||||0.5||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Baseline and covariates of treatment and Baseline JADAS-27 score.|ANCOVA|||Week 8||||0.500
92366979|NCT05710640|184636889|SUPERIORITY|||||||0.285||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Baseline and covariates of treatment and Baseline JADAS-27 score.|ANCOVA|||Week 12||||0.285
92366980|NCT05710640|184636889|SUPERIORITY|||||||0.148||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Baseline and covariates of treatment and Baseline JADAS-27 score.|ANCOVA|||Week 16||||0.148
92366981|NCT05710640|184636890|SUPERIORITY|||||||0.294||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||0.294
92366982|NCT05710640|184636890|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 16||||1.000
92366983|NCT05710640|184636891|SUPERIORITY|||||||0.335||||||P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||0.335
92366984|NCT05710640|184636891|SUPERIORITY|P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.||||||1|||||||Fisher Exact|||Week 16||||1.000
92366985|NCT05710640|184636892|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||1.000
92226119|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.2318|TWO_SIDED|95.0|0.66|1.11|||Log Rank|||Subgroup analysis: D-free \> 24 months||1.11|0.66|0.2318
92366986|NCT05710640|184636892|SUPERIORITY|||||||0.471||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 16||||0.471
92366987|NCT05710640|184636893|SUPERIORITY|||||||0.592||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Week 8 and covariates of treatment and Week 8 JADAS-27 score.|ANCOVA|||Week 12||||0.592
92167250|NCT04714320|184224091|SUPERIORITY||||||=|0.367||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 64||||=0.367
92167251|NCT04714320|184224091|SUPERIORITY||||||=|0.716||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 71||||=0.716
92167252|NCT04714320|184224091|SUPERIORITY||||||=|0.21||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 71||||=0.210
92167253|NCT04714320|184224091|SUPERIORITY||||||=|0.363||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 78||||=0.363
92167254|NCT04714320|184224091|SUPERIORITY||||||=|0.193||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 78||||=0.193
92167255|NCT04714320|184224091|SUPERIORITY||||||=|0.135||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 85||||=0.135
92167256|NCT04714320|184224091|SUPERIORITY||||||=|0.867||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 85||||=0.867
92167257|NCT04714320|184224091|SUPERIORITY||||||=|0.761||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||=0.761
92167258|NCT04714320|184224091|SUPERIORITY||||||=|0.618||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||=0.618
92366988|NCT05710640|184636893|SUPERIORITY|||||||0.337||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Week 8 and covariates of treatment and Week 8 JADAS-27 score.|ANCOVA|||Week 16||||0.337
92366989|NCT03810014|184636918|SUPERIORITY||Risk Difference (RD)|2.5||||0.01|TWO_SIDED|98.0|0.2|4.8|||Generalized estimating equations|||(Arm 3 + Arm 4) vs (Arm 1 + Arm 2)||4.80|0.20|0.01
92366990|NCT03810014|184636918|SUPERIORITY||Risk Ratio, log|1.025||||0.012|TWO_SIDED|98.0|1.002|1.049|||Generalized estimating equations|||(Arm 3 + Arm 4) vs (Arm 1 + Arm 2)||1.049|1.002|0.012
92366991|NCT03810014|184636918|SUPERIORITY||Risk Difference (RD)|-0.6||||0.33|TWO_SIDED|98.0|-2.2|0.9|||Generalized estimating equations|||(Arm 1 + Arm 3) vs (Arm 2 + Arm 4)||0.90|-2.20|0.33
92366992|NCT03810014|184636918|SUPERIORITY||Risk Ratio, log|0.994||||0.332|TWO_SIDED|98.0|0.979|1.009|||Generalized estimating equations|||(Arm 1 + Arm 3) vs (Arm 2 + Arm 4)||1.009|0.979|0.332
92366993|NCT00703963|184636962|SUPERIORITY_OR_OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Statistical significance was defined as p \< 0.05.||||0.20
92366994|NCT00703963|184636963|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Statistical significance was defined as p \< 0.05.||||0.05
92366995|NCT00703963|184636964|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Statistical significance was defined as p \< 0.05.||||<0.001
92366996|NCT03994211|184636985|OTHER||Geometric Mean Ratio Estimate|0.94|||||TWO_SIDED|90.0|0.83|1.06||||||||1.06|0.83|
92366997|NCT03994211|184636986|OTHER||Geometric Mean Ratio|1.05|||||TWO_SIDED|90.0|0.95|1.15||||||||1.15|0.95|
92366998|NCT03994211|184636987|OTHER||Geometric Mean Ratio|0.62|||||TWO_SIDED|90.0|0.54|0.7||||||||0.70|0.54|
92366999|NCT03994211|184636988|OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.91|1.09||||||||1.09|0.91|
92367000|NCT03994211|184636989|OTHER||Geometric Mean Ratio|0.57|||||TWO_SIDED|90.0|0.48|0.69||||||||0.69|0.48|
92367001|NCT03994211|184636990|OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.9|1.09||||||||1.09|0.90|
92367002|NCT01107964|184637005|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.61
92367003|NCT01107964|184637006|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
92367004|NCT01107964|184637007|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
92367005|NCT01107964|184637008|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92367006|NCT02148263|184637043|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||0.83
92367007|NCT02148263|184637044|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92367008|NCT02148263|184637045|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||.94
92367009|NCT02148263|184637046|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||.96
92367010|NCT02148263|184637047|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||.14
92367011|NCT02148263|184637048|SUPERIORITY|This is for the upper eyelid evaluation.||||||0.27|||||||Fisher Exact|||||||.27
92367012|NCT02148263|184637048|SUPERIORITY|||||||0.58|||||||Fisher Exact|||This is for the lower eyelid evaluation.||||.58
92367013|NCT02148263|184637049|SUPERIORITY|||||||0.5|||||||Fisher Exact|||Extent||||.50
92367014|NCT02148263|184637049|SUPERIORITY|||||||0.76|||||||Fisher Exact|||Type||||.76
92367015|NCT02148263|184637049|SUPERIORITY|||||||0.5|||||||Fisher Exact|||Depth||||.50
92367016|NCT02148263|184637050|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92367017|NCT02148263|184637051|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
92367018|NCT00906178|184637062|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.57|1.94||||||||1.94|.57|
92367019|NCT00906178|184637063|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.62|1.65||||||||1.65|.62|
92367020|NCT00906178|184637064|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56|||||TWO_SIDED|95.0|0.93|2.62||||||||2.62|.93|
92367021|NCT00906178|184637065|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.37|1.3||||||||1.30|.37|
92167259|NCT04714320|184224091|SUPERIORITY||||||=|0.363||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received are included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 106||||=0.363
92167260|NCT04714320|184224091|SUPERIORITY||||||=|0.125||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received are included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 106||||=0.125
92367022|NCT01272037|184637069|OTHER||Hazard Ratio (HR)|1.02||||0.35|TWO_SIDED|95.0|0.98|1.05|||Regression, Cox|A Cox model was used that included treatment arm, recurrence score, menopausal status, and the chemotherapy\*recurrence score interaction term.||This test describes the interaction of the treatment arm with the recurrence score in the analysis of invasive disease-free survival in the overall study population, to determine whether chemotherapy benefit depends on the recurrence score. If the interaction was statistically significant, the interaction term was planned to be included in the Cox model to evaluate the invasive disease-free survival outcome.||1.05|0.98|0.35
92367023|NCT01272037|184637069|OTHER||Hazard Ratio (HR)|1.71||||0.008|TWO_SIDED|95.0|1.15|2.54|||Regression, Cox|A Cox model was used that included treatment arm, recurrence score, menopausal status, and the chemotherapy\*menopausal status interaction term.||This test describes the interaction of the treatment arm with menopausal status (one of the study stratification factors) in the analysis of invasive disease-free survival in the overall study population, to determine whether chemotherapy benefit depends on menopausal status. If the interaction was statistically significant, separate analyses of IDFS were planned to be conducted by menopausal status.||2.54|1.15|0.008
92367024|NCT01272037|184637069|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.002|TWO_SIDED|95.0|0.43|0.83|||Regression, Cox||To compare the Chemo and Endocrine Therapy arm to the Endocrine Therapy Alone arm, a Cox model was used with adjustment for the continuous recurrence score.|This analysis includes only premenopausal participants.||0.83|0.43|0.002
92367025|NCT01272037|184637069|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.89|TWO_SIDED|95.0|0.82|1.26|||Regression, Cox||To compare the Chemo and Endocrine Therapy arm to the Endocrine Therapy Alone arm, a Cox model was used with adjustment for the continuous recurrence score.|This analysis includes only postmenopausal participants.||1.26|0.82|0.89
92367026|NCT01272037|184637076|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.009|TWO_SIDED|95.0|0.39|0.87|||Regression, Cox|||This analysis includes only premenopausal participants.|To compare DRFS between the Chemo and Endocrine Therapy arm and the Endocrine Therapy Alone arm, a Cox model was used with adjustment for the continuous recurrence score.|0.87|0.39|0.009
92367027|NCT01272037|184637076|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7|TWO_SIDED|95.0|0.81|1.37|||Regression, Cox||To compare DRFS between the Chemo and Endocrine Therapy arm and the Endocrine Therapy Alone arm, a Cox model was used with adjustment for the continuous recurrence score.|This analysis includes only postmenopausal participants.||1.37|0.81|0.70
92367028|NCT01393899|184637077|SUPERIORITY_OR_OTHER||Difference in Percentage|1.44|||||TWO_SIDED|80.0|-12.11|14.99||||||||14.99|-12.11|
92367029|NCT01393899|184637077|SUPERIORITY_OR_OTHER||Difference in Percentage|17.72|||||TWO_SIDED|80.0|4.07|31.37||||||||31.37|4.07|
92367030|NCT01393899|184637078|SUPERIORITY_OR_OTHER||Difference in Percentage|0.61|||||TWO_SIDED|80.0|-11.57|12.79||||||Week 4||12.79|-11.57|
92367031|NCT01393899|184637078|SUPERIORITY_OR_OTHER||Difference in Percentage|0.78|||||TWO_SIDED|80.0|-12.29|13.84||||||Week 8||13.84|-12.29|
92405082|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|7.0||||0.1358|TWO_SIDED|95.0|-2.2|16.2|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.2|-2.2|0.1358
92167261|NCT04714320|184224091|SUPERIORITY||||||=|0.435||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 120||||=0.435
92167262|NCT04714320|184224091|SUPERIORITY||||||=|0.413||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 120||||=0.413
92167263|NCT04714320|184224091|SUPERIORITY||||||=|0.658||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 148||||=0.658
92167264|NCT04714320|184224091|SUPERIORITY||||||=|0.275||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 148||||=0.275
92367032|NCT01393899|184637078|SUPERIORITY_OR_OTHER||Difference in Percentage|5.81|||||TWO_SIDED|80.0|-8.04|19.67||||||Week 12||19.67|-8.04|
92367033|NCT01393899|184637078|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.94|||||TWO_SIDED|80.0|-14.56|12.68||||||Week 20||12.68|-14.56|
92367034|NCT01393899|184637078|SUPERIORITY_OR_OTHER||Difference in Percentage|5.26|||||TWO_SIDED|80.0|-6.52|17.04||||||Week 4||17.04|-6.52|
92367035|NCT01393899|184637078|SUPERIORITY_OR_OTHER||Difference in Percentage|-8.53|||||TWO_SIDED|80.0|-21.94|4.88||||||Week 8||4.88|-21.94|
92367036|NCT01393899|184637078|SUPERIORITY_OR_OTHER||Difference in Percentage|3.49|||||TWO_SIDED|80.0|-10.4|17.37||||||Week 12||17.37|-10.40|
92367037|NCT01393899|184637078|SUPERIORITY_OR_OTHER||Difference in Percentage|10.69|||||TWO_SIDED|80.0|-3.08|24.46||||||Week 20||24.46|-3.08|
92367038|NCT01393899|184637079|SUPERIORITY_OR_OTHER||Difference in Percentage|-1.72|||||TWO_SIDED|80.0|-14.06|10.63||||||Week 4||10.63|-14.06|
92367039|NCT01393899|184637079|SUPERIORITY_OR_OTHER||Difference in Percentage|-3.88|||||TWO_SIDED|80.0|-17.15|9.4||||||Week 8||9.40|-17.15|
92367040|NCT01393899|184637079|SUPERIORITY_OR_OTHER||Difference in Percentage|5.81|||||TWO_SIDED|80.0|-8.04|19.67||||||Week 12||19.67|-8.04|
92367041|NCT01393899|184637079|SUPERIORITY_OR_OTHER||Difference in Percentage|1.44|||||TWO_SIDED|80.0|-12.11|14.99||||||Week 20||14.99|-12.11|
92367042|NCT01393899|184637079|SUPERIORITY_OR_OTHER||Difference in Percentage|1.5|||||TWO_SIDED|80.0|-11.88|14.87||||||Week 26||14.87|-11.88|
92367043|NCT01393899|184637079|SUPERIORITY_OR_OTHER||Difference in Percentage|2.93|||||TWO_SIDED|80.0|-9.06|14.92||||||Week 4||14.92|-9.06|
92405083|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|59.8||||0.0004|TWO_SIDED|95.0|27.0|92.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||92.7|27.0|0.0004
92405084|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|19.7||||0.2365|TWO_SIDED|95.0|-13.1|52.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||52.6|-13.1|0.2365
92405085|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|43.9||||0.0091|TWO_SIDED|95.0|11.1|76.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||76.7|11.1|0.0091
92405086|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|35.7||||0.0335|TWO_SIDED|95.0|2.8|68.5|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||68.5|2.8|0.0335
92405087|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|30.8||||0.0661|TWO_SIDED|95.0|-2.1|63.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||63.6|-2.1|0.0661
92405088|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|26.9||||0.1074|TWO_SIDED|95.0|-5.9|59.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||59.8|-5.9|0.1074
92405089|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|55.3||||0.0064|TWO_SIDED|95.0|15.8|94.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||94.9|15.8|0.0064
92405090|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|38.8||||0.0543|TWO_SIDED|95.0|-0.7|78.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||78.3|-0.7|0.0543
92405091|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|50.2||||0.0131|TWO_SIDED|95.0|10.7|89.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||89.7|10.7|0.0131
92405092|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|43.9||||0.0297|TWO_SIDED|95.0|4.4|83.5|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||83.5|4.4|0.0297
92405093|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|41.3||||0.0407|TWO_SIDED|95.0|1.8|80.8|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||80.8|1.8|0.0407
92167265|NCT04714320|184224091|SUPERIORITY||||||=|0.578||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 169||||=0.578
92405094|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|27.5||||0.171|TWO_SIDED|95.0|-12.0|67.1|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||67.1|-12.0|0.1710
92405095|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.0||||0.3362|TWO_SIDED|95.0|-106.7|36.7|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||36.7|-106.7|0.3362
92405096|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|126.9||||0.0006|TWO_SIDED|95.0|55.2|198.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||198.5|55.2|0.0006
92405097|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|53.2||||0.1449|TWO_SIDED|95.0|-18.5|124.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||124.8|-18.5|0.1449
92167266|NCT04714320|184224091|SUPERIORITY||||||=|0.114||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 169||||=0.114
92167267|NCT04714320|184224092|SUPERIORITY||||||=|0.378||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 8||||=0.378
92405098|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|38.7||||0.2882|TWO_SIDED|95.0|-33.0|110.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||110.4|-33.0|0.2882
92405099|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|55.0||||0.1314|TWO_SIDED|95.0|-16.6|126.7|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||126.7|-16.6|0.1314
92167268|NCT04714320|184224092|SUPERIORITY||||||=|0.648||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 8||||=0.648
92167269|NCT04714320|184224092|SUPERIORITY||||||=|0.961||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 15||||=0.961
92167270|NCT04714320|184224092|SUPERIORITY||||||=|0.817||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 15||||=0.817
92405100|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|20.1||||0.5808|TWO_SIDED|95.0|-51.6|91.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||91.8|-51.6|0.5808
92167271|NCT04714320|184224092|SUPERIORITY||||||=|0.823||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 22||||=0.823
92167272|NCT04714320|184224092|SUPERIORITY||||||=|0.362||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 22||||=0.362
92167273|NCT04714320|184224092|SUPERIORITY||||||=|0.66||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||=0.660
92167274|NCT04714320|184224092|SUPERIORITY||||||=|0.539||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||=0.539
92167275|NCT04714320|184224092|SUPERIORITY||||||=|0.43||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 36||||=0.430
92167276|NCT04714320|184224092|SUPERIORITY||||||=|0.594||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 36||||=0.594
92167277|NCT04714320|184224092|SUPERIORITY||||||=|0.783||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||=0.783
92226120|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52||||0.0568|TWO_SIDED|95.0|0.26|1.03|||Log Rank|||Subgroup analysis: D-free ≤ 12 months||1.03|0.26|0.0568
92226121|NCT01250379|184353849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.1143|TWO_SIDED|95.0|0.66|1.05|||Log Rank|||Subgroup analysis: D-free \> 12 months||1.05|0.66|0.1143
92226122|NCT01250379|184353850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1||||0.3457|TWO_SIDED|95.0|-4.2|12.4|||Chi-squared||The 95% CI was estimated using Hauck-Anderson methodology.|||12.4|-4.2|0.3457
92226123|NCT01250379|184353852|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9825|TWO_SIDED|95.0|0.51|1.99|||Log Rank||The 95% CI was estimated using Cox proportional hazards methodology. The stratification factors used in stratified analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and LDH level.|||1.99|0.51|0.9825
92226124|NCT01250379|184353852|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.3601|TWO_SIDED|95.0|0.73|2.34|||Log Rank||Unstratified analysis.|||2.34|0.73|0.3601
92226125|NCT01250379|184353855|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.108|TWO_SIDED|95.0|0.59|1.06|||Log Rank||The 95% CI was estimated using Cox proportional hazards methodology. The stratification factors used in stratified analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and LDH level.|||1.06|0.59|0.1080
92226126|NCT01250379|184353855|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0625|TWO_SIDED|95.0|0.59|1.02|||Log Rank||Unstratified analysis.|||1.02|0.59|0.0625
92226127|NCT01250379|184353857|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.1349|TWO_SIDED|95.0|0.68|1.05|||Log Rank||The 95% CI was estimated using Cox proportional hazards methodology. The stratification factors used in stratified analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and LDH level.|||1.05|0.68|0.1349
92226128|NCT01250379|184353857|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0863|TWO_SIDED|95.0|0.68|1.03|||Log Rank||Unstratified analysis.|||1.03|0.68|0.0863
92226129|NCT01250379|184353859|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0744|TWO_SIDED|95.0|0.65|1.02|||Log Rank||The 95% CI was estimated using Cox proportional hazards methodology. The stratification factors used in stratified analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and LDH level.|||1.02|0.65|0.0744
92226130|NCT01250379|184353859|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0503|TWO_SIDED|95.0|0.66|1.0|||Log Rank||Unstratified analysis.|||1.00|0.66|0.0503
92226131|NCT01250379|184353862|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.7253|TWO_SIDED|95.0|0.76|1.21|||Log Rank||The 95% CI was estimated using Cox proportional hazards methodology. The stratification factors used in stratified analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and LDH level.|||1.21|0.76|0.7253
92226132|NCT01250379|184353862|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.5332|TWO_SIDED|95.0|0.75|1.16|||Log Rank||Unstratified analysis.|||1.16|0.75|0.5332
92226133|NCT02531646|184353877|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence interval (-0.25, 0.25)||||||0||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician.They were rounded to fit four digits."|Equivalence test|||||||0.000
92226134|NCT02531646|184353878|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence interval (-0.25, 0.25)||||||0||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician.They were rounded to fit four digits."|Equivalence test|||||||0.000
92226135|NCT02531646|184353879|SUPERIORITY_OR_OTHER|||||||0||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician.They were rounded to fit four digits."|t-test, 1 sided|||||||0.000
92226136|NCT02531646|184353880|SUPERIORITY_OR_OTHER|||||||0||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician. They were rounded to fit four digits."|t-test, 1 sided|||||||0.000
92226137|NCT02531646|184353881|SUPERIORITY_OR_OTHER|||||||0.007||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician. They were rounded to fit four digits."|t-test, 1 sided|||||||0.007
92226138|NCT02531646|184353883|SUPERIORITY_OR_OTHER|||||||0||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician. They were rounded to fit four digits."|t-test, 1 sided|||||||0.000
92226139|NCT01582308|184353896|SUPERIORITY_OR_OTHER||Least squares mean difference|18.24|||<|0.001|TWO_SIDED|90.0|14.97|21.67||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||21.67|14.97|<.001
92367044|NCT01393899|184637079|SUPERIORITY_OR_OTHER||Difference in Percentage|-8.53|||||TWO_SIDED|80.0|-21.94|4.88||||||Week 8||4.88|-21.94|
92276951|NCT04192799|184455463|EQUIVALENCE|Testing was two-sided and p-values \<0.05 were considered statistically significant.|Odds Ratio (OR)|1.31||||0.81|TWO_SIDED|95.0|0.14|12.27||Testing was two-sided and p-values \<0.05 were considered statistically significant, not adjusted for multiple comparison.|Regression, Logistic|Adjusted for demographics, clinical characteristics, time period; interaction term for hospital and time period, random effect for practice group.||||12.27|0.14|0.81
92367045|NCT01393899|184637079|SUPERIORITY_OR_OTHER||Difference in Percentage|1.16|||||TWO_SIDED|80.0|-12.74|15.06||||||Week 12||15.06|-12.74|
92367046|NCT01393899|184637079|SUPERIORITY_OR_OTHER||Difference in Percentage|13.07|||||TWO_SIDED|80.0|-0.63|26.77||||||Week 20||26.77|-0.63|
92367047|NCT01393899|184637079|SUPERIORITY_OR_OTHER||Difference in Percentage|20.1|||||TWO_SIDED|80.0|6.54|33.66||||||Week 26||33.66|6.54|
92367048|NCT01393899|184637080|SUPERIORITY_OR_OTHER||Difference in Percentage|3.43|||||TWO_SIDED|80.0|-10.41|17.28||||||Week 4||17.28|-10.41|
92367049|NCT01393899|184637080|SUPERIORITY_OR_OTHER||Difference in Percentage|1.22|||||TWO_SIDED|80.0|-12.67|15.11||||||Week 8||15.11|-12.67|
92367050|NCT01393899|184637080|SUPERIORITY_OR_OTHER||Difference in Percentage|13.18|||||TWO_SIDED|80.0|-0.31|26.67||||||Week 12||26.67|-0.31|
92167278|NCT04714320|184224092|SUPERIORITY||||||=|0.599||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||=0.599
92167279|NCT04714320|184224092|SUPERIORITY||||||=|0.454||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 50||||=0.454
92276952|NCT04192799|184455464|EQUIVALENCE|Testing was two-sided and p-values \<0.05 were considered statistically significant.|Slope|0.05||||0.12|TWO_SIDED|95.0|-0.01|0.11|||Regression, Linear|Adjusted for demographics, clinical characteristics, time period; interaction term for hospital and time period, random effect for practice group.||||0.11|-0.01|0.12
92367051|NCT01393899|184637080|SUPERIORITY_OR_OTHER||Difference in Percentage|1.61|||||TWO_SIDED|80.0|-11.33|14.55||||||Week 20||14.55|-11.33|
92367052|NCT01393899|184637080|SUPERIORITY_OR_OTHER||Difference in Percentage|8.64|||||TWO_SIDED|80.0|-4.36|21.64||||||Week 26||21.64|-4.36|
92367053|NCT01393899|184637080|SUPERIORITY_OR_OTHER||Difference in Percentage|5.76|||||TWO_SIDED|80.0|-8.04|19.56||||||Week 4||19.56|-8.04|
92405101|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|-66.2||||0.1415|TWO_SIDED|95.0|-154.6|22.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.3|-154.6|0.1415
92367054|NCT01393899|184637080|SUPERIORITY_OR_OTHER||Difference in Percentage|-8.08|||||TWO_SIDED|80.0|-21.83|5.66||||||Week 8||5.66|-21.83|
92405102|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|149.1||||0.0011|TWO_SIDED|95.0|60.7|237.5|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||237.5|60.7|0.0011
92367055|NCT01393899|184637080|SUPERIORITY_OR_OTHER||Difference in Percentage|1.55|||||TWO_SIDED|80.0|-11.63|14.73||||||Week 12||14.73|-11.63|
92367056|NCT01393899|184637080|SUPERIORITY_OR_OTHER||Difference in Percentage|8.58|||||TWO_SIDED|80.0|-4.64|21.81||||||Week 20||21.81|-4.64|
92367057|NCT01393899|184637080|SUPERIORITY_OR_OTHER||Difference in Percentage|13.29|||||TWO_SIDED|80.0|0.15|26.43||||||Week 26||26.43|0.15|
92367058|NCT01393899|184637081|SUPERIORITY_OR_OTHER||Difference in Percentage|6.57|||||TWO_SIDED|80.0|-8.63|21.78||||||Week 4||21.78|-8.63|
92367059|NCT01393899|184637081|SUPERIORITY_OR_OTHER||Difference in Percentage|0.29|||||TWO_SIDED|80.0|-16.63|17.2||||||Week 8||17.20|-16.63|
92367060|NCT01393899|184637081|SUPERIORITY_OR_OTHER||Difference in Percentage|24.29|||||TWO_SIDED|80.0|7.19|41.38||||||Week 12||41.38|7.19|
92367061|NCT01393899|184637081|SUPERIORITY_OR_OTHER||Difference in Percentage|6.86|||||TWO_SIDED|80.0|-10.32|24.03||||||Week 20||24.03|-10.32|
92367062|NCT01393899|184637081|SUPERIORITY_OR_OTHER||Difference in Percentage|11.29|||||TWO_SIDED|80.0|-5.22|27.79||||||Week 26||27.79|-5.22|
92367063|NCT01393899|184637081|SUPERIORITY_OR_OTHER||Difference in Percentage|8.77|||||TWO_SIDED|80.0|-6.41|23.95||||||Week 4||23.95|-6.41|
92367064|NCT01393899|184637081|SUPERIORITY_OR_OTHER||Difference in Percentage|-14.0|||||TWO_SIDED|80.0|-31.59|3.59||||||Week 8||3.59|-31.59|
92405103|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|52.5||||0.2423|TWO_SIDED|95.0|-35.9|140.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||140.9|-35.9|0.2423
92405104|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|30.4||||0.498|TWO_SIDED|95.0|-58.0|118.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||118.8|-58.0|0.4980
92405105|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|54.5||||0.2253|TWO_SIDED|95.0|-33.9|142.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||142.9|-33.9|0.2253
92405106|NCT01746901|184701071|SUPERIORITY_OR_OTHER||LS Mean Difference|11.7||||0.7945|TWO_SIDED|95.0|-76.8|100.1|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||100.1|-76.8|0.7945
92405107|NCT01746901|184701072|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8||||0.0129|TWO_SIDED|95.0|-5.1|-0.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.6|-5.1|0.0129
92405108|NCT01746901|184701072|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2||||0.0003|TWO_SIDED|95.0|2.0|6.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.5|2.0|0.0003
92405109|NCT01746901|184701072|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.5483|TWO_SIDED|95.0|-1.6|2.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.9|-1.6|0.5483
92226140|NCT01582308|184353896|SUPERIORITY_OR_OTHER||Least squares mean difference|62.86|||<|0.001|TWO_SIDED|90.0|58.21|67.74||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||67.74|58.21|<.001
92167280|NCT04714320|184224092|SUPERIORITY||||||=|0.394||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 50||||=0.394
92167281|NCT04714320|184224092|SUPERIORITY||||||=|0.93||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||=0.930
92367065|NCT01393899|184637081|SUPERIORITY_OR_OTHER||Difference in Percentage|2.31|||||TWO_SIDED|80.0|-15.35|19.97||||||Week 12||19.97|-15.35|
92367066|NCT01393899|184637081|SUPERIORITY_OR_OTHER||Difference in Percentage|10.15|||||TWO_SIDED|80.0|-7.41|27.71||||||Week 20||27.71|-7.41|
92367067|NCT01393899|184637081|SUPERIORITY_OR_OTHER||Difference in Percentage|22.0|||||TWO_SIDED|80.0|4.96|39.04||||||Week 26||39.04|4.96|
92367068|NCT01393899|184637082|SUPERIORITY_OR_OTHER||Difference in Percentage|1.83|||||TWO_SIDED|80.0|-9.75|13.4||||||||13.40|-9.75|
92367069|NCT01393899|184637082|SUPERIORITY_OR_OTHER||Difference in Percentage|18.11|||||TWO_SIDED|80.0|5.57|30.64||||||||30.64|5.57|
92367070|NCT01393899|184637083|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.75|||||TWO_SIDED|80.0|-20.39|4.88||||||||4.88|-20.39|
92367071|NCT01393899|184637083|SUPERIORITY_OR_OTHER||Difference in Percentage|17.83|||||TWO_SIDED|80.0|4.33|31.33||||||||31.33|4.33|
92367072|NCT01393899|184637085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-30.26|||=|0.0637|TWO_SIDED|80.0|-51.1|-9.42|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 4||-9.42|-51.10|=0.0637
92367073|NCT01393899|184637085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-21.06|||=|0.3054|TWO_SIDED|80.0|-47.43|5.31|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||5.31|-47.43|=0.3054
92367074|NCT01393899|184637085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-42.52|||=|0.1316|TWO_SIDED|80.0|-78.57|-6.48|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||-6.48|-78.57|=0.1316
92367075|NCT01393899|184637085|SUPERIORITY_OR_OTHER||Adjusted Mean Dofference|-18.01|||=|0.5704|TWO_SIDED|80.0|-59.01|22.99|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 20||22.99|-59.01|=0.5704
92226141|NCT01582308|184353896|SUPERIORITY_OR_OTHER||Least squares mean difference|1.11||||0.128|TWO_SIDED|90.0|-0.1|2.33||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||2.33|-0.10|0.128
92367076|NCT01393899|184637085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.0|||=|0.8389|TWO_SIDED|80.0|-44.22|32.21|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||32.21|-44.22|=0.8389
92226142|NCT01582308|184353896|SUPERIORITY_OR_OTHER||Least squares mean difference|88.24|||<|0.001|TWO_SIDED|90.0|85.77|90.76||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||90.76|85.77|<.001
92226143|NCT01582308|184353896|SUPERIORITY_OR_OTHER||Least squares mean difference|44.62|||<|0.001|TWO_SIDED|90.0|34.51|55.23||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||55.23|34.51|<.001
92367077|NCT01393899|184637085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-23.56|||=|0.1452|TWO_SIDED|80.0|-44.27|-2.85|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 4||-2.85|-44.27|=0.1452
92367078|NCT01393899|184637085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.61|||=|0.6399|TWO_SIDED|80.0|-36.03|16.81|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||16.81|-36.03|=0.6399
92367079|NCT01393899|184637085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-37.0|||=|0.1949|TWO_SIDED|80.0|-73.57|-0.42|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||-0.42|-73.57|=0.1949
92367080|NCT01393899|184637085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-47.74|||=|0.1358|TWO_SIDED|80.0|-88.62|-6.87|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 20||-6.87|-88.62|=0.1358
92367081|NCT01393899|184637085|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-50.38|||=|0.089|TWO_SIDED|80.0|-88.03|-12.72|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||-12.72|-88.03|=0.0890
92367082|NCT01393899|184637086|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.44|||||TWO_SIDED|80.0|-16.14|1.26||||||Week 4||1.26|-16.14|
92367083|NCT01393899|184637086|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.43|||||TWO_SIDED|80.0|-18.27|3.41||||||Week 8||3.41|-18.27|
92367084|NCT01393899|184637086|SUPERIORITY_OR_OTHER||Difference in Percentage|-12.48|||||TWO_SIDED|80.0|-25.68|0.72||||||Week 12||0.72|-25.68|
92367085|NCT01393899|184637086|SUPERIORITY_OR_OTHER||Difference in Percentage|-12.73|||||TWO_SIDED|80.0|-26.81|1.34||||||Week 20||1.34|-26.81|
92367086|NCT01393899|184637086|SUPERIORITY_OR_OTHER||Difference in Percentage|-18.9|||||TWO_SIDED|80.0|-39.52|1.72||||||Week 26||1.72|-39.52|
92367087|NCT01393899|184637086|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.96|||||TWO_SIDED|80.0|-12.39|6.48||||||Week 4||6.48|-12.39|
92367088|NCT01393899|184637086|SUPERIORITY_OR_OTHER||Difference in Percentage|1.61|||||TWO_SIDED|80.0|-10.14|13.36||||||Week 8||13.36|-10.14|
92367089|NCT01393899|184637086|SUPERIORITY_OR_OTHER||Difference in Percentage|-8.09|||||TWO_SIDED|80.0|-21.54|5.36||||||Week 12||5.36|-21.54|
92367090|NCT01393899|184637086|SUPERIORITY_OR_OTHER||Difference in Percentage|-12.9|||||TWO_SIDED|80.0|-26.99|1.19||||||Week 20||1.19|-26.99|
92367091|NCT01393899|184637086|SUPERIORITY_OR_OTHER||Difference in Percentage|-26.28|||||TWO_SIDED|80.0|-46.54|-6.02||||||Week 26||-6.02|-46.54|
92367092|NCT01393899|184637087|SUPERIORITY_OR_OTHER||Difference in Percentage|10.61|||||TWO_SIDED|80.0|-11.44|32.66||||||||32.66|-11.44|
92367093|NCT01393899|184637087|SUPERIORITY_OR_OTHER||Difference in Percentage|16.67|||||TWO_SIDED|80.0|-4.15|37.49||||||||37.49|-4.15|
92367094|NCT01393899|184637089|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.93|||<|0.0001|TWO_SIDED|95.0|-1.34|-0.53|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 4||-0.53|-1.34|<0.0001
92167282|NCT04714320|184224092|SUPERIORITY||||||=|0.313||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||=0.313
92167283|NCT04714320|184224092|SUPERIORITY||||||=|0.276||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 64||||=0.276
92167284|NCT04714320|184224092|SUPERIORITY||||||=|0.168||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 64||||=0.168
92226144|NCT01582308|184353896|SUPERIORITY_OR_OTHER||Least squares mean difference|-17.13|||<|0.001|TWO_SIDED|90.0|-21.21|-13.25||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||-13.25|-21.21|<.001
92367095|NCT01393899|184637089|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.76|||=|0.0024|TWO_SIDED|95.0|-1.24|-0.28|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||-0.28|-1.24|=0.0024
92367096|NCT01393899|184637089|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.75|||=|0.0044|TWO_SIDED|95.0|-1.26|-0.24|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||-0.24|-1.26|=0.0044
92367097|NCT01393899|184637089|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.56|||=|0.0582|TWO_SIDED|95.0|-1.13|0.02|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 20||0.02|-1.13|=0.0582
92367098|NCT01393899|184637089|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.61|||=|0.0865|TWO_SIDED|95.0|-1.31|0.09|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||0.09|-1.31|=0.0865
92367099|NCT01393899|184637089|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.32|-0.52|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 4||-0.52|-1.32|<0.0001
92367100|NCT01393899|184637089|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.92|||=|0.0002|TWO_SIDED|95.0|-1.4|-0.45|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||-0.45|-1.40|=0.0002
92367101|NCT01393899|184637089|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.23|||<|0.0001|TWO_SIDED|95.0|-1.75|-0.71|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||-0.71|-1.75|<0.0001
92367102|NCT01393899|184637089|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.87|-0.74|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 20||-0.74|-1.87|<0.0001
92405110|NCT01746901|184701072|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.5284|TWO_SIDED|95.0|-1.5|2.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.9|-1.5|0.5284
92226145|NCT01582308|184353896|SUPERIORITY_OR_OTHER||Least squares mean difference|70.0|||<|0.001|TWO_SIDED|90.0|58.46|82.2||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||82.20|58.46|<.001
92167285|NCT04714320|184224092|SUPERIORITY||||||=|0.199||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 71||||=0.199
92226146|NCT01582308|184353896|SUPERIORITY_OR_OTHER||Least squares mean difference|-61.75|||<|0.001|TWO_SIDED|90.0|-68.76|-55.18||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||-55.18|-68.76|<.001
92226147|NCT01582308|184353896|SUPERIORITY_OR_OTHER||Least squares mean difference|25.38|||<|0.001|TWO_SIDED|90.0|15.37|35.48||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||35.48|15.37|<.001
92367103|NCT01393899|184637089|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.62|||<|0.0001|TWO_SIDED|95.0|-2.3|-0.95|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||-0.95|-2.30|<0.0001
92367104|NCT01393899|184637091|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.39|||=|0.0566|TWO_SIDED|95.0|-0.79|0.01|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||0.01|-0.79|=0.0566
92367105|NCT01393899|184637091|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21|||=|0.3144|TWO_SIDED|95.0|-0.61|0.2|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||0.20|-0.61|=0.3144
92367106|NCT01393899|184637091|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.56|||=|0.0434|TWO_SIDED|95.0|-1.1|-0.02|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||-0.02|-1.10|=0.0434
92367107|NCT01393899|184637091|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.57|||=|0.005|TWO_SIDED|95.0|-0.96|-0.18|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||-0.18|-0.96|=0.0050
92367108|NCT01393899|184637091|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.66|||=|0.0017|TWO_SIDED|95.0|-1.06|-0.25|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||-0.25|-1.06|=0.0017
92367109|NCT01393899|184637091|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.72|-0.67|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||-0.67|-1.72|<0.0001
92367110|NCT01144416|184637105|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pre-defined non-inferiority margin was -8%|Difference in percentage vital pregnancy|-3.0|||||TWO_SIDED|95.0|-7.4|1.4|||generalized linear model|The estimated difference in percentage vital pregnancy was adjusted for age class as stratified (≤38 yrs vs. \>38 yrs)||||1.4|-7.4|
92367111|NCT01144416|184637106|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pre-defined non-inferiority margin was -3 oocytes.|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-0.2|1.2|||ANOVA|The estimated difference in number of oocytes retrieved was adjusted for age class as stratified (≤38 yrs vs. \>38 yrs) and center.||||1.2|-0.2|
92367112|NCT01144416|184637107|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pre-defined non-inferiority margin was -8%|Difference in Live Birth Rates|-2.3|||||TWO_SIDED|95.0|-6.5|1.9|||generalized linear model|The estimated difference in live birth rate was adjusted for age class as stratified (≤38 yrs vs. \>38 yrs)||||1.9|-6.5|
92167286|NCT04714320|184224092|SUPERIORITY||||||=|0.506||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 71||||=0.506
92367113|NCT01144416|184637108|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3||95.0|||||Fisher Exact|||||||0.30
92367114|NCT01144416|184637109|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999||95.0|||||Fisher Exact|||||||>0.999
92367115|NCT03328832|184637121|EQUIVALENCE|equivalence means p value \> 0.05||||||0.276|||||||t-test, 2 sided|||||||0.276
92367116|NCT03328832|184637122|EQUIVALENCE|equivalence means p value \> 0.05||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
92367117|NCT03328832|184637123|EQUIVALENCE|Equivalence means p value \> 0.05||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
92367118|NCT00132301|184637138|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.4|TWO_SIDED|95.0|0.58|1.11||Log rank test stratified by site.|Log Rank|||||1.11|0.58|0.40
92367119|NCT03163134|184637139|OTHER|||||||0.017|||||||Chi-squared|||||||0.017
92367120|NCT03163134|184637140|OTHER|||||||0.577|||||||Chi-squared|||||||0.577
92367121|NCT01890265|184637141|SUPERIORITY||LS mean difference|4.33|||=|0.0331|TWO_SIDED|95.0|0.35|8.3||The analysis of the change from Baseline to Week 48 in FVC (% predicted) was based on the random coefficient regression model based on observed cases.|Random coefficient regression|||The absolute LS mean treatment difference (pamrevlumab - placebo) for change from Baseline to Week 48 in FVC (% predicted) is presented.||8.3|0.35|= 0.0331
92367122|NCT01890265|184637142|SUPERIORITY||LS mean difference|-1.8|||=|0.0236|TWO_SIDED|95.0|-3.3|-0.2|||ANCOVA with MI|||The absolute LS mean treatment difference (pamrevlumab - placebo) for change from Baseline to Week 24 in QLF score is presented.||-0.2|-3.3|= 0.0236
92367123|NCT01890265|184637142|SUPERIORITY||LS mean difference|-3.2|||=|0.0729|TWO_SIDED|95.0|-6.6|0.3|||ANCOVA with MI|||The absolute LS mean treatment difference (pamrevlumab - placebo) for change from Baseline to Week 48 in QLF score is presented.||0.3|-6.6|= 0.0729
92367124|NCT01890265|184637143|SUPERIORITY||Absolute difference|-21.4|||=|0.0133|TWO_SIDED|95.0|-36.6|-6.2|||Regression, Logistic|||The absolute treatment difference (pamrevlumab - placebo) for percentage of participants with IPF progression at Week 48 is presented.||-6.2|-36.6|= 0.0133
92367125|NCT03674970|184637148|OTHER|||||||0.55|||||||ANOVA|||||||.55
92367126|NCT03674970|184637149|OTHER|||||||0.2146|||||||ANOVA|||||||.2146
92367127|NCT03674970|184637150|OTHER|||||||0.5642|||||||ANOVA|||||||.5642
92367128|NCT03674970|184637151|OTHER|||||||0.4353|||||||ANOVA|||||||.4353
92167287|NCT04714320|184224092|SUPERIORITY||||||=|0.32||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 78||||=0.320
92167288|NCT04714320|184224092|SUPERIORITY||||||=|0.25||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 78||||=0.250
92367129|NCT03674970|184637152|OTHER|||||||0.0348|||||||ANOVA|||||||.0348
92367130|NCT03674970|184637153|OTHER|||||||0.404|||||||ANOVA|||||||.4040
92367131|NCT04271540|184637170|SUPERIORITY|||||||0.35|||||||Spearman's Rank Correlation|||||||0.35
92367132|NCT02101788|184637179|SUPERIORITY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.28|1.07|||||Estimation of treatment effect; Trametinib vs. SOC among patients with a mutation.|||1.07|0.28|
92367133|NCT02101788|184637179|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.39|1.03|||||Estimation of treatment effect; Trametinib vs. SOC among wild-type patients.|||1.03|0.39|
92367134|NCT02101788|184637179|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0929|TWO_SIDED|95.0|0.34|1.08|||Chi-squared||Estimation of mutation effect; mutant vs. wild-type in the SOC group.|Prognostic effect of the mutation status among patients in the SOC arm.||1.08|0.34|0.0929
92367135|NCT02101788|184637179|SUPERIORITY|||||||0.7195|||||||Chi-squared|||Predictive effect biomarker p-value||||0.7195
92367136|NCT04587869|184637181|SUPERIORITY||Odds Ratio (OR)|1.23||||0.44|TWO_SIDED|95.0|0.73|2.07|||Regression, Logistic|Result was adjusted for HIV status and age (dichotomized at 50+ vs. \<50), as those characteristics were used to stratify sampling|Result is for indicator of assignment to intervention arm (vs. control)|Nonresponse weights were employed to account for potential bias from excluding participants who did not complete any follow-up assessments.||2.07|.73|.44
92167289|NCT04714320|184224092|SUPERIORITY||||||=|0.373||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 85||||=0.373
92367137|NCT04587869|184637182|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.47|TWO_SIDED||||||Regression, Linear|Result was adjusted for HIV status and age (dichotomized at 50+ vs. \<50), as those characteristics were used to stratify sampling|Result is for indicator of assignment to intervention arm (vs. control)|Nonresponse weights were employed to account for potential bias from excluding participants who did not complete any follow-up assessments.||||.47
92367138|NCT04587869|184637183|SUPERIORITY||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.08||0.02|TWO_SIDED||||||Regression, Linear|Result was adjusted for HIV status and age (dichotomized at 50+ vs. \<50), as those characteristics were used to stratify sampling|Slope is adjusted regression coefficient for indicator of intervention arm (so mean of outcome across follow-ups was 0.19 higher for intervention vs. control)|Unlike the two primary outcomes which have a single value for each participant, for this outcome we employed a repeated measures style structure with one record for each of up to 3 FU observations. A sandwich estimator (SAS Proc Surveyreg) was employed to account for clustering of observations within participant. In addition, nonresponse weights were employed to account for potential bias from excluding participants who did not complete any follow-up assessments.||||.02
92367139|NCT01102491|184637192|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92367140|NCT02440139|184637255|SUPERIORITY||difference in sensitivity|-0.124|STANDARD_DEVIATION|0.034|<|0.05|TWO_SIDED|95.0|-0.186|-0.062|||Mixed Models Analysis|||||-0.062|-0.186|<0.05
92226148|NCT01582308|184353896|SUPERIORITY_OR_OTHER||Least squares mean difference|87.13|||<|0.001|TWO_SIDED|90.0|80.06|94.61||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||94.61|80.06|<.001
92167290|NCT04714320|184224092|SUPERIORITY||||||=|0.597||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 85||||=0.597
92226149|NCT01227902|184353942|SUPERIORITY_OR_OTHER||percentage of participants|40.0|||||TWO_SIDED|95.0|27.1|52.9|||||The estimated value represents the percentage of participants with a \>=50% reduction in partial-onset seizure frequency from Baseline.|||52.9|27.1|
92226150|NCT01227902|184353942|SUPERIORITY_OR_OTHER||percentage of participants|32.0|||||TWO_SIDED|95.0|19.1|44.9|||||The estimated value represents the percentage of participants with a \>=50% reduction in partial-onset seizure frequency from Baseline.|||44.9|19.1|
92226151|NCT01227902|184353942|SUPERIORITY_OR_OTHER||percentage of participants|50.0|||||TWO_SIDED|95.0|35.2|64.8|||||The estimated value represents the percentage of participants with a \>=50% reduction in partial-onset seizure frequency from Baseline.|||64.8|35.2|
92226152|NCT01227902|184353942|SUPERIORITY_OR_OTHER||percentage of participants|56.9|||||TWO_SIDED|95.0|43.3|70.5|||||The estimated value represents the percentage of participants with a \>=50% reduction in partial-onset seizure frequency from Baseline.|||70.5|43.3|
92226153|NCT01227902|184353942|SUPERIORITY_OR_OTHER||percentage of participants|44.5|||||TWO_SIDED|95.0|37.6|51.4|||||The estimated value represents the percentage of participants with a \>=50% reduction in partial-onset seizure frequency from Baseline.|||51.4|37.6|
92167291|NCT04714320|184224092|SUPERIORITY||||||=|0.867||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||=0.867
92167292|NCT04714320|184224092|SUPERIORITY||||||=|0.5||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||=0.500
92167293|NCT04714320|184224092|SUPERIORITY||||||=|0.863||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 106||||=0.863
92167294|NCT04714320|184224092|SUPERIORITY||||||=|0.681||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 106||||=0.681
92167295|NCT04714320|184224092|SUPERIORITY||||||=|0.262||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 120||||=0.262
92167296|NCT04714320|184224092|SUPERIORITY||||||=|0.645||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 120||||=0.645
92167297|NCT04714320|184224092|SUPERIORITY||||||=|0.947||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 148||||=0.947
92167298|NCT04714320|184224092|SUPERIORITY||||||=|0.665||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 148||||=0.665
92167299|NCT04714320|184224092|SUPERIORITY||||||=|0.498||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 169||||=0.498
92167300|NCT04714320|184224092|SUPERIORITY||||||=|0.173||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 169||||=0.173
92167301|NCT04524390|184224107|SUPERIORITY||Least-Square mean|-0.39|STANDARD_ERROR_OF_MEAN|1.182||0.7419|TWO_SIDED|95.0|-2.76|1.97|||MMRM|||||1.97|-2.76|0.7419
92167302|NCT04524390|184224108|SUPERIORITY||Least-Square mean|-45.9|STANDARD_ERROR_OF_MEAN|35.398||0.2002|TWO_SIDED|95.0|-116.86|25.05|||MMRM|||||25.05|-116.86|0.2002
92167303|NCT04524390|184224109|SUPERIORITY|||||||0.8412|||||||Barnard's exact test|||||||0.8412
92167304|NCT04524390|184224110|SUPERIORITY||||||>|0.9999|||||||Barnard's exact test|||||||> 0.9999
92167305|NCT04524390|184224111|SUPERIORITY|||||||0.6658|||||||Barnard's exact test|||||||0.6658
92167306|NCT04524390|184224112|SUPERIORITY|||||||0.6236|||||||Barnard's exact test|||||||0.6236
92167307|NCT04524390|184224113|SUPERIORITY|||||||0.6658|||||||Barnard's exact test|||||||0.6658
92226154|NCT02363478|184353962|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|This statistical analysis applies to changes of amplitude of contractions, resting LES pressure and IRP between baseline and week 4.||||||<0.05
92226155|NCT02363478|184353965|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|This statistical analysis applies to changes of amplitude of heartburn, regurgitation, chest pain and dysphagia between baseline and week 4.||||||0.05
92226156|NCT00930059|184353967|SUPERIORITY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.73||0.3353|TWO_SIDED|90.0|-1.52|0.9||The primary test of significance was 1-sided, and a nominal Type I error rate a = 0.05 was employed.|ANCOVA|||Least squares (LS) mean difference and p-values were based on analysis of covariance (ANCOVA) on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||0.90|-1.52|0.3353
92226157|NCT00930059|184353968|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.72||0.6073|TWO_SIDED|90.0|-0.99|1.38||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 3: LS mean difference and p-values were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||1.38|-0.99|0.6073
92367141|NCT02440139|184637256|SUPERIORITY||Difference in LROC curves|-0.14|STANDARD_DEVIATION|0.039|<|0.05|TWO_SIDED|95.0|-0.209|-0.071|||ANOVA|||For each study arm, the difference in the least-squares means of the two arms was estimated. A two-sided 95% confidence interval on this difference in study arms (i.e. unaided minus aided by the software) was used to test the hypothesis that the difference in the area under the LROC curve (AUC). The superiority of ClearRead CT will be concluded if the upper bound of the two-sided 95% confidence interval on the difference is less than zero.||-0.071|-0.209|<0.05
92367142|NCT00412958|184637290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.796|TWO_SIDED|95.0|0.24|6.36|||Regression, Logistic|||P-values are from Wald chi-square tests from a logistic regression model with study center and treatment as categorical fixed effects comparing active treatment groups with the placebo group as the reference group.||6.36|0.24|0.796
92367143|NCT00412958|184637290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.447|TWO_SIDED|95.0|0.39|8.36|||Regression, Logistic|||P-values are from Wald chi-square test from a logistic regression model with study center and treatment as categorical fixed effects comparing active treatment groups with the placebo group as the reference group.||8.36|0.39|0.447
92367144|NCT00412958|184637290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.28||||0.107|TWO_SIDED|95.0|0.77|13.95|||Regression, Logistic|||P-values are from Wald chi-square test from a logistic regression model with study center and treatment as categorical fixed effects comparing active treatment groups with the placebo group as the reference group.||13.95|0.77|0.107
92367145|NCT03579693|184637363|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.33|TWO_SIDED|95.0|-0.43|1.31|||Mixed Models Analysis||Interpretation of mean difference is for a typical participant, i.e. random effect of 0.|||1.31|-0.43|0.33
92226158|NCT00930059|184353968|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.73||0.3086|TWO_SIDED|90.0|-1.56|0.84||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 6: LS mean difference and p-values were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||0.84|-1.56|0.3086
92367146|NCT03579693|184637363|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.93|TWO_SIDED|95.0|-0.9|0.82|||Mixed Models Analysis||Interpretation of mean difference is for a typical participant, i.e. random effect of 0.|||0.82|-0.90|0.93
92367147|NCT03579693|184637364|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.05|TWO_SIDED|95.0|-3.47|0.0|||Mixed Models Analysis||Interpretation of mean difference is for a typical participant, i.e. random effect of 0.|||0.00|-3.47|0.050
92367148|NCT03579693|184637364|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.47|TWO_SIDED|95.0|-2.28|1.05|||Mixed Models Analysis||Interpretation of mean difference is for a typical participant, i.e. random effect of 0.|||1.05|-2.28|0.47
92367149|NCT04970069|184637365|SUPERIORITY||Ratio of geometric means|1.01||||0.89|TWO_SIDED|95.0|0.86|1.18|||Regression, Linear||The numerator and denominator for the ratio of geometric means are analgesic education and general preoperative education respectively.|Multiple imputation by chained equations (MICE) was used for imputing missing outcomes and covariates.||1.18|0.86|0.890
92367150|NCT04970069|184637366|SUPERIORITY||Median Difference (Final Values)|-0.1||||0.617|TWO_SIDED|95.0|-0.3|0.2|||Regression, Linear|||||0.2|-0.3|0.617
92367151|NCT04970069|184637367|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.611|TWO_SIDED|95.0|-0.3|0.2|||Regression, Linear|||||0.2|-0.3|0.611
92367152|NCT00503425|184637369|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Change from baseline in mean DAS28 was analyzed using paired t-test for course 1.|t-test, 2 sided|||||||<0.0001
92367153|NCT00503425|184637369|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Change from baseline in mean DAS28 was analyzed using paired t-test for course 2.|t-test, 2 sided|||||||<0.0001
92367154|NCT00503425|184637369|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Change from baseline in mean DAS28 was analyzed using paired t-test for course 3.|t-test, 2 sided|||||||<0.0001
92367155|NCT00503425|184637369|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Change from baseline in mean DAS28 was analyzed using paired t-test for course 4.|t-test, 2 sided|||||||0.0001
92367156|NCT00003869|184637383|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Log Rank|||||||0.54
92367157|NCT00003869|184637384|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Fisher Exact|||||||0.18
92226159|NCT00930059|184353968|SUPERIORITY||LS mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.73||0.197|TWO_SIDED|90.0|-1.82|0.58||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 9: LS mean difference and p-values were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||0.58|-1.82|0.1970
92367158|NCT00003869|184637385|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Log Rank|||||||0.50
92367159|NCT00003869|184637386|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Fisher Exact|||||||0.04
92367160|NCT00003869|184637387|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Fisher Exact|||||||0.18
92367161|NCT00763256|184637389|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92367162|NCT00763256|184637390|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92367163|NCT00763256|184637391|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92367164|NCT00763256|184637392|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92367165|NCT00763256|184637393|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92367166|NCT02622295|184637400|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92367167|NCT02622295|184637401|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92367168|NCT02622295|184637402|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92367169|NCT02622295|184637403|SUPERIORITY|||||||0.467|||||||ANOVA|||||||0.467
92367170|NCT02622295|184637404|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92367171|NCT02622295|184637405|SUPERIORITY|||||||0.932|||||||ANOVA|||||||0.932
92367172|NCT02622295|184637406|SUPERIORITY|||||||0.326|||||||ANOVA|||||||0.326
92367173|NCT02622295|184637407|SUPERIORITY|||||||0.673|||||||ANOVA|||||||0.673
92367174|NCT02622295|184637408|SUPERIORITY|||||||0.539|||||||ANOVA|||||||0.539
92367175|NCT02622295|184637409|SUPERIORITY|||||||0.155|||||||ANOVA|||||||0.155
92226160|NCT00930059|184353969|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.14||0.6547|TWO_SIDED|90.0|-0.18|0.29||No adjustments made for multiple comparisons.|Linear model|||Week 3: Inferential statistics were based on linear model with fixed effects for visit (nominal scale) and visit by treatment interaction, and a random effect for participant.||0.29|-0.18|0.6547
92226161|NCT00930059|184353969|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.14||0.702|TWO_SIDED|90.0|-0.16|0.31||No adjustments made for multiple comparisons.|Linear model|||Week 6: Inferential statistics were based on linear model with fixed effects for visit (nominal scale) and visit by treatment interaction, and a random effect for participant.||0.31|-0.16|0.7020
92367176|NCT02622295|184637410|SUPERIORITY|||||||0.164|||||||ANOVA|||||||0.164
92226162|NCT00930059|184353969|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.1138|TWO_SIDED|90.0|-0.41|0.06||No adjustments made for multiple comparisons.|Linear model|||Week 9: Inferential statistics were based on linear model with fixed effects for visit (nominal scale) and visit by treatment interaction, and a random effect for participant.||0.06|-0.41|0.1138
92367177|NCT02622295|184637411|SUPERIORITY|||||||0.493|||||||ANOVA|||||||0.493
92367178|NCT02622295|184637412|SUPERIORITY|||||||0.458|||||||ANOVA|||||||0.458
92367179|NCT01342926|184637494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|||||TWO_SIDED|90.0|-0.57|0.43|||||6 months visit|||0.43|-0.57|
92367180|NCT01342926|184637494|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.2|||||TWO_SIDED|90.0|-0.31|0.71|||||12 months visit|||0.71|-0.31|
92367181|NCT01342926|184637494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||||TWO_SIDED|90.0|-0.33|0.68|||||18 months visit|||0.68|-0.33|
92367182|NCT01342926|184637494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|||||TWO_SIDED|90.0|-0.71|0.26|||||6 months visit|||0.26|-0.71|
92367183|NCT01342926|184637494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||||TWO_SIDED|90.0|-0.26|0.72|||||12 months visit|||0.72|-0.26|
92167308|NCT04524390|184224114|SUPERIORITY|||||||0.6659|||||||Barnard's exact test|||||||0.6659
92167309|NCT02765100|184224115|EQUIVALENCE|Unless specified otherwise, each of the statistical tests above will use a two-tailed alpha-level of 0.05.|Mean Difference (Final Values)|-0.2|STANDARD_DEVIATION|3.4|<|0.05|TWO_SIDED||||||t-test, 2 sided|||This is a pilot proof of concept study and does not require formal sample size calculations. High and low CRP groups will be compared on demographic, clinical and biological variables using two-sample t-tests or analysis of variance (ANOVA) tests for continuous variables (for nonparametric continuous variables, either Mann-Whitney tests or Kruskal-Wallis tests will be used) and chi-square tests or Fisher's exact tests for categorical variables.||||<0.05
92226163|NCT00930059|184353969|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.0816|TWO_SIDED|90.0|-0.44|0.04||No adjustments made for multiple comparisons.|Linear model|||Week 12: Inferential statistics were based on linear model with fixed effects for visit (nominal scale) and visit by treatment interaction, and a random effect for participant.||0.04|-0.44|0.0816
92167310|NCT02597920|184224116|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Baseline CDS with that of Visit 2.||||<0.0001
92367184|NCT01342926|184637494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|||||TWO_SIDED|90.0|-0.21|0.77|||||18 months visit|||0.77|-0.21|
92367185|NCT01342926|184637494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|90.0|-0.66|0.29|||||6 months visit|||0.29|-0.66|
92367186|NCT01342926|184637494|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.28|||||TWO_SIDED|90.0|-0.19|0.75|||||12 months visit|||0.75|-0.19|
92367187|NCT01342926|184637494|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.39|||||TWO_SIDED|90.0|-0.08|0.86|||||18 months visit|||0.86|-0.08|
92367188|NCT01342926|184637502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||||TWO_SIDED|90.0|-0.34|0.61|||||6 months visit|||0.61|-0.34|
92367189|NCT01342926|184637502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|||||TWO_SIDED|90.0|-0.07|0.89|||||12 months visit|||0.89|-0.07|
92367190|NCT01342926|184637502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42|||||TWO_SIDED|90.0|-0.06|0.89|||||18 months visit|||0.89|-0.06|
92367191|NCT01342926|184637502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|||||TWO_SIDED|90.0|-0.55|0.37|||||6 months visit|||0.37|-0.55|
92367192|NCT01342926|184637502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||||TWO_SIDED|90.0|-0.13|0.8|||||12 months visit|||0.80|-0.13|
92367193|NCT01342926|184637502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||||TWO_SIDED|90.0|-0.3|0.63|||||18 months visit|||0.63|-0.30|
92367194|NCT01342926|184637502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|||||TWO_SIDED|90.0|-0.31|0.57|||||6 months visit|||0.57|-0.31|
92367195|NCT01342926|184637502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.54|||||TWO_SIDED|90.0|0.1|0.99|||||12 months visit|||0.99|0.10|
92367196|NCT01342926|184637502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91|||||TWO_SIDED|90.0|0.47|1.36|||||18 months visit|||1.36|0.47|
92367197|NCT01342926|184637503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|90.0|-0.34|0.55|||||6 months visit|||0.55|-0.34|
92367198|NCT01342926|184637503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|||||TWO_SIDED|90.0|0.0|0.9|||||12 months visit|||0.90|0.00|
92367199|NCT01342926|184637503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||||TWO_SIDED|90.0|-0.12|0.77|||||18 months visit|||0.77|-0.12|
92226164|NCT00930059|184353971|SUPERIORITY||LS mean difference|0.69|STANDARD_ERROR_OF_MEAN|0.96||0.7634|TWO_SIDED|90.0|-0.89|2.27||No adjustments have been made for multiple comparisons.|ANCOVA|||Change at Week 3: LS mean difference and p-value were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||2.27|-0.89|0.7634
92367200|NCT01342926|184637503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|||||TWO_SIDED|90.0|-0.51|0.35|||||6 months visit|||0.35|-0.51|
92367201|NCT01342926|184637503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||||TWO_SIDED|90.0|-0.21|0.66|||||12 months visit|||0.66|-0.21|
92367202|NCT01342926|184637503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||||TWO_SIDED|90.0|-0.32|0.55|||||18 months visit|||0.55|-0.32|
92367203|NCT01342926|184637503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|90.0|-0.48|0.35|||||6 months visit|||0.35|-0.48|
92367204|NCT01342926|184637503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|90.0|-0.22|0.62|||||12 months visit|||0.62|-0.22|
92367205|NCT01342926|184637503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||||TWO_SIDED|90.0|0.08|0.92|||||18 months visit|||0.92|0.08|
92367206|NCT03382912|184637525|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.3|5.9|||||Odds Ratio stratified based on tumor histology at randomization (interactive web response system (IWRS)), smoking status (IWRS). Confidence intervals were based on the Clopper-Pearson method.|||5.9|0.3|
92367207|NCT03382912|184637526|SUPERIORITY||Hazard Ratio (HR)|1.006|||||TWO_SIDED|95.0|0.519|1.951|||||The estimate of the hazard ration (HR) stratified based on tumor histology at randomization (interactive web response system (IWRS)) and smoking status (IWRS).|||1.951|0.519|
92367208|NCT03382912|184637527|SUPERIORITY||Hazard Ratio (HR)|1.871|||||TWO_SIDED|95.0|0.772|4.532|||||||The estimate of the hazard ration (HR) stratified based on tumor histology at randomization (IWRS) and smoking status (IWRS).|4.532|0.772|
92367209|NCT03382912|184637528|SUPERIORITY||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.4|4.1|||||Odds Ratio stratified based on tumor histology at randomization (IWRS) and smoking status (IWRS). Confidence intervals were based on the Clopper-Pearson method.|||4.1|0.4|
92367210|NCT01402869|184637536|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||LSD post hoc test was used for multiple group comparisons. P\<.05|ANOVA|LSD post hoc test was used for multiple group comparisons.||Null hypothesis: There is no statistically significant difference in peak methemoglobin blood levels following the administration of prilocaine, lidocaine, or no local anesthetic in pre-cooperative children undergoing comprehensive dental rehabilitation under general anesthesia.||||<.001
92367211|NCT01402869|184637536|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
92367212|NCT01402869|184637536|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
92367213|NCT01402869|184637536|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||=|0.89||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||=.89
92367214|NCT01402869|184637537|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001|||||||ANOVA|LSD post hoc test was used for multiple group comparisons.||Null hypothesis: There is no statistically significant difference in the time frame to peak methemoglobin levels following the administration of prilocaine, lidocaine, or no local anesthetic in pre-cooperative children undergoing comprehensive dental rehabilitation under general anesthesia.||||<.001
92367215|NCT01402869|184637537|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||=|0.43||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||=.43
92367216|NCT01402869|184637537|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
92367217|NCT01402869|184637537|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
92367218|NCT01402869|184637538|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||95.0||||P\<.05|ANOVA|LSD post hoc test was used for multiple group comparisons.||Null hypothesis: There is no statistically significant difference in delta methemoglobin blood levels following the administration prilocaine, lidocaine, or no local anesthetic in pre-cooperative children undergoing comprehensive dental rehabilitation under general anesthesia.||||<.001
92367219|NCT01402869|184637538|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
92367220|NCT01402869|184637538|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
92226165|NCT00930059|184353971|SUPERIORITY||LS mean difference|0.85|STANDARD_ERROR_OF_MEAN|0.97||0.8077|TWO_SIDED|90.0|-0.75|2.45||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 6: LS mean difference and p-value were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||2.45|-0.75|0.8077
92367221|NCT01402869|184637538|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||=|0.92||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||=.92
92367222|NCT00125788|184637549|SUPERIORITY|||||||0.076|||||||Cochran-Mantel-Haenszel|||||||0.076
92367223|NCT00125788|184637550|SUPERIORITY|||||||0.072|||||||Cochran-Mantel-Haenszel|||||||0.072
92367224|NCT00125788|184637551|SUPERIORITY|||||||0.129|||||||Cochran-Mantel-Haenszel|||||||0.129
92367225|NCT00707993|184637577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|||||ONE_SIDED|97.5||0.13|||ANCOVA|Treatment, randomization schedule, and geographic region as class effects; baseline value for the endpoint as a continuous covariate.||Primary null hypothesis: the average Week 52 HbA1c change from Baseline for alogliptin is inferior to that for glipizide (1-sided 97.5% CI \[alpha=0.025\] compared to non-inferiority margin of 0.4%). If the primary null hypothesis was rejected (non-inferiority demonstrated), an additional comparison for statistical superiority of alogliptin was performed. The CI was re-evaluated; statistical superiority declared if the upper limit was \< 0%.||0.13||
92405111|NCT01746901|184701072|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.1331|TWO_SIDED|95.0|-0.5|3.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.9|-0.5|0.1331
92226166|NCT00930059|184353971|SUPERIORITY||LS mean difference|0.96|STANDARD_ERROR_OF_MEAN|0.98||0.835|TWO_SIDED|90.0|-0.66|2.57||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 9: LS mean difference and p-value were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||2.57|-0.66|0.8350
92226167|NCT00930059|184353971|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.99||0.4377|TWO_SIDED|90.0|-1.78|1.48||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 12: LS mean difference and p-value were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||1.48|-1.78|0.4377
92226168|NCT04660643|184354063|SUPERIORITY||LS Mean difference|-21.4|||<|0.001|TWO_SIDED|95.0|-22.9|-20.0|||Mixed Models Analysis|||||-20.0|-22.9|<.001
92226169|NCT04660643|184354064|SUPERIORITY||LS Mean difference|-15.9|||<|0.001|TWO_SIDED|95.0|-17.0|-14.9|||Mixed Models Analysis|||||-14.9|-17.0|<.001
92226170|NCT04660643|184354065|SUPERIORITY||LS Mean difference|-17.6|||<|0.001|TWO_SIDED|95.0|-18.8|-16.4|||Mixed Models Analysis|||||-16.4|-18.8|<.001
92226171|NCT04660643|184354066|SUPERIORITY||LS Mean difference|-12.9|||<|0.001|TWO_SIDED|95.0|-14.1|-11.7|||Mixed Models Analysis|||||-11.7|-14.1|<.001
92226172|NCT04660643|184354067|SUPERIORITY||LS Mean difference|-6.4|||<|0.001|TWO_SIDED|95.0|-6.8|-6.0|||Mixed Models Analysis|||||-6.0|-6.8|<.001
92226173|NCT04660643|184354068|SUPERIORITY||LS Mean difference|-8.64|||<|0.001|TWO_SIDED|95.0|-10.14|-7.15|||Mixed Models Analysis|||||-7.15|-10.14|<.001
92226174|NCT04660643|184354069|SUPERIORITY||LS Mean difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.38|-0.28|||Mixed Models Analysis|||||-0.28|-0.38|<.001
92226175|NCT04660643|184354070|SUPERIORITY||LS Mean difference|-31.4|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-37.7|-24.4|||Mixed Models Analysis|||||-24.4|-37.7|<.001
92367226|NCT03008070|184637639|SUPERIORITY||Risk Ratio (RR)|1.52|||=|0.061|TWO_SIDED|95.0|0.98|2.12|||Cochran-Mantel-Haenszel|||"The primary endpoint was a binary outcome (Yes/No). Responders rates were compared between the placebo and lanifibranor 800 mg at the end of the treatment period (week 24) using a Cochran Mantel Haenzel test stratified on diabetic status at baseline (that was the stratified factors in the randomisation).~The CMH risk ratio is used to estimate the effect size. Patients with missing data are considered as non-responders."||2.12|0.98|=0.061
92367227|NCT03008070|184637639|SUPERIORITY||Risk Ratio (RR)|1.82|||=|0.004|TWO_SIDED|95.0|1.24|2.4|||Cochran-Mantel-Haenszel|||"The primary endpoint was a binary outcome (Yes/No). Responders rates were compared between the placebo and lanifibranor 1200 mg at the end of the treatment period (week 24) using a Cochran Mantel Haenzel test stratified on diabetic status at baseline (that was the stratified factors in the randomisation).~The CMH risk ratio is used to estimate the effect size. Patients with missing data are considered as non-responders."||2.4|1.24|=0.004
92226176|NCT04660643|184354071|SUPERIORITY||LS Mean difference|-5.54|STANDARD_ERROR_OF_MEAN|1.139|<|0.001|TWO_SIDED|95.0|-7.76|-3.28|||Mixed Models Analysis|||Total Cholesterol||-3.28|-7.76|<.001
92226177|NCT04660643|184354071|SUPERIORITY||LS Mean difference|-6.57|STANDARD_ERROR_OF_MEAN|1.709|<|0.001|TWO_SIDED|95.0|-9.87|-3.15|||Mixed Models Analysis|||LDL Cholesterol||-3.15|-9.87|<.001
92367228|NCT04409834|184637674|SUPERIORITY|"Stratified Win-Ratio Analysis, 2-sided~* The estimated win ratio is calculated by taking the total number of wins in the FDAC arm divided by the total number of wins in the SDPAC arm. A win ratio greater than 1 was in favor of the FDAC arm.~* The win ratio methodology is explained in the following reference Pocock et al. Eur Heart J 2012;33:176-82 (doi:10.1093/eurheartj/ehr352)."|Win Ratio|1.95||||0.028|TWO_SIDED|95.0|1.08|3.55|||Stratified Win-Ratio Analysis, 2-sided|||FDAC = Full Dose Anticoagulation; SDPAC = Standard Dose Prophylactic Anticoagulation||3.55|1.08|0.028
92226178|NCT04660643|184354071|SUPERIORITY||LS Mean difference|3.2|STANDARD_ERROR_OF_MEAN|1.33||0.014|TWO_SIDED|95.0|0.6|5.8|||Mixed Models Analysis|||HDL Cholesterol||5.8|0.6|0.014
92226179|NCT04660643|184354071|SUPERIORITY||LS Mean difference|-19.7|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|-24.0|-15.1|||Mixed Models Analysis|||VLDL Cholesterol||-15.1|-24.0|<.001
92226180|NCT04660643|184354071|SUPERIORITY||LS Mean difference|-20.6|STANDARD_ERROR_OF_MEAN|2.27|<|0.001|TWO_SIDED|95.0|-24.9|-16.0|||Mixed Models Analysis|||Triglycerides||-16|-24.9|<.001
92226181|NCT04660643|184354071|SUPERIORITY||LS Mean difference|-10.8|STANDARD_ERROR_OF_MEAN|3.79||0.008|TWO_SIDED|95.0|-17.9|-3.0|||Mixed Models Analysis|||FFA||-3.0|-17.9|0.008
92226182|NCT04660643|184354072|SUPERIORITY||LS Mean difference|-6.4|||<|0.001|TWO_SIDED|95.0|-8.1|-4.6|||Mixed Models Analysis|||SBP||-4.6|-8.1|<.001
92405112|NCT01746901|184701072|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.8732|TWO_SIDED|95.0|-2.1|2.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.4|-2.1|0.8732
92405113|NCT01746901|184701073|SUPERIORITY_OR_OTHER||LS Mean Difference|3.6||||0.4555|TWO_SIDED|95.0|-5.9|13.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.2|-5.9|0.4555
92226183|NCT04660643|184354072|SUPERIORITY||LS Mean difference|-3.6|||<|0.001|TWO_SIDED|95.0|-4.8|-2.4|||Mixed Models Analysis|||DBP||-2.4|-4.8|<.001
92226184|NCT04660643|184354073|SUPERIORITY||LS Mean difference|2.6|||<|0.001|TWO_SIDED|95.0|1.7|3.5|||ANCOVA|||||3.5|1.7|<.001
92226185|NCT04660643|184354074|SUPERIORITY||LS Mean difference|9.4|||<|0.001|TWO_SIDED|95.0|6.8|12.0|||ANCOVA|||||12.0|6.8|<0.001
92226186|NCT04660643|184354075|SUPERIORITY||Odds Ratio (OR)|95.91|||<|0.001|TWO_SIDED|95.0|54.72|168.09|||Regression, Logistic|||||168.09|54.72|<0.001
92226187|NCT04660643|184354076|SUPERIORITY||Odds Ratio (OR)|47.27|||<|0.001|TWO_SIDED|95.0|18.32|121.99|||Regression, Logistic|||≥5% body weight reduction from baseline||121.99|18.32|<0.001
92226188|NCT04660643|184354076|SUPERIORITY||Odds Ratio (OR)|71.51|||<|0.001|TWO_SIDED|95.0|34.46|148.39|||Regression, Logistic|||≥10% body weight reduction from baseline||148.39|34.46|<0.001
92226189|NCT04660643|184354076|SUPERIORITY||Odds Ratio (OR)|79.99|||<|0.001|TWO_SIDED|95.0|42.06|152.14|||Regression, Logistic|||≥15% body weight reduction from baseline||152.14|42.06|<0.001
92226190|NCT04660643|184354076|SUPERIORITY||Odds Ratio (OR)|140.84|||<|0.001|TWO_SIDED|95.0|66.06|300.29|||Regression, Logistic|||≥20% body weight reduction from baseline||300.29|66.06|<0.001
92226191|NCT04660643|184354077|SUPERIORITY||Hazard Ratio (HR)|0.013|||<|0.001|TWO_SIDED|95.0|0.004|0.046|||Log Rank||Unstratified hazard ratio from Cox proportional hazard model with Baseline Weight (kg), Analysis Country, Sex, IWRS MTD at Week 36, Weight at randomization (kg) as covariates.|||0.046|0.004|<.001
92226192|NCT04660643|184354078|SUPERIORITY||LS Mean difference|-6.4|||<|0.001|TWO_SIDED|95.0|-6.8|-6.0|||Mixed Models Analysis|||||-6.0|-6.8|<.001
92367229|NCT04409834|184637675|SUPERIORITY|"Stratified Win-Ratio Analysis, 2-sided~* The estimated win ratio is calculated by taking the total number of wins in the FDAC arm divided by the total number of wins in the SDPAC arm. A win ratio greater than 1 was in favor of the FDAC arm.~* The win ratio methodology is explained in the following reference Pocock et al. Eur Heart J 2012;33:176-82 (doi:10.1093/eurheartj/ehr352)."|Win Ratio|1.79||||0.087|TWO_SIDED|95.0|0.92|3.47|||Stratified Win-Ratio Analysis, 2-sided|||FDAC = Full Dose Anticoagulation; SDPAC = Standard Dose Prophylactic Anticoagulation||3.47|0.92|0.087
92367230|NCT04409834|184637676|SUPERIORITY|"Stratified Win-Ratio Analysis, 2-sided~* The estimated win ratio is calculated by taking the total number of wins in the Anti-platelet arm divided by the total number of wins in the No Anti-platelet arm. A win ratio greater than 1 was in favor of the Anti-platelet arm.~* The win ratio methodology is explained in the following reference Pocock et al. Eur Heart J 2012;33:176-82 (doi:10.1093/eurheartj/ehr352)."|Win Ratio|1.04||||0.9|TWO_SIDED|95.0|0.54|2.01|||Stratified Win-Ratio Analysis, 2-sided|||||2.01|0.54|0.90
92367231|NCT04409834|184637677|SUPERIORITY|"Stratified Win-Ratio Analysis, 2-sided~* The estimated win ratio is calculated by taking the total number of wins in the Anti-platelet arm divided by the total number of wins in the No Anti-platelet arm. A win ratio greater than 1 was in favor of the Anti-platelet arm.~* The win ratio methodology is explained in the following reference Pocock et al. Eur Heart J 2012;33:176-82 (doi:10.1093/eurheartj/ehr352)."|Win Ratio|0.79||||0.53|TWO_SIDED|95.0|0.38|1.65|||Stratified Win-Ratio Analysis, 2-sided|||||1.65|0.38|0.53
92367232|NCT02574078|184637771|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.505|TWO_SIDED|95.0|0.24|2.03|||Unstratified log-rank|||||2.03|0.24|0.5050
92367233|NCT02574078|184637771|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.6284|TWO_SIDED|95.0|0.22|2.54|||Unstratified log-rank|||||2.54|0.22|0.6284
92367234|NCT02574078|184637771|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.1988|TWO_SIDED|95.0|0.4|1.22|||Unstratified log-rank|||||1.22|0.40|0.1988
92367235|NCT02574078|184637771|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.2722|TWO_SIDED|95.0|0.42|1.28|||Unstratified log-rank|||||1.28|0.42|0.2722
92367236|NCT02574078|184637771|SUPERIORITY||Hazard Ratio (HR)|0.42||||0.0544|TWO_SIDED|95.0|0.17|1.04|||Unstratified log-rank|||||1.04|0.17|0.0544
92405114|NCT01746901|184701073|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9||||0.1495|TWO_SIDED|95.0|-2.5|16.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.4|-2.5|0.1495
92405115|NCT01746901|184701073|SUPERIORITY_OR_OTHER||LS Mean Difference|11.4||||0.02|TWO_SIDED|95.0|1.8|20.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.9|1.8|0.0200
92405116|NCT01746901|184701073|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.8668|TWO_SIDED|95.0|-10.3|8.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||8.7|-10.3|0.8668
92367237|NCT02574078|184637771|SUPERIORITY||Hazard Ratio (HR)|2.04||||0.0442|TWO_SIDED|95.0|1.0|4.16|||Unstratified log-rank|||||4.16|1.00|0.0442
92367238|NCT02574078|184637771|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.5489|TWO_SIDED|95.0|0.5|1.45|||Log Rank|stratified by Disease Status (Recurrent Locally Advanced vs. Metastatic), Performance Status (ECOG 0 vs.1 vs. 2) as entered into the IVRS||||1.45|0.50|0.5489
92367239|NCT02574078|184637772|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9951|TWO_SIDED|95.0|0.35|2.91|||Unstratified log-rank|||||2.91|0.35|0.9951
92367240|NCT02574078|184637772|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.8321|TWO_SIDED|95.0|0.25|3.1|||Unstratified log-rank|||||3.10|0.25|0.8321
92367241|NCT02574078|184637772|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.2938|TWO_SIDED|95.0|0.41|1.31|||Unstratified log-rank|||||1.31|0.41|0.2938
92367242|NCT02574078|184637772|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.4819|TWO_SIDED|95.0|0.46|1.45|||Unstratified log-rank|||||1.45|0.46|0.4819
92367243|NCT02574078|184637772|SUPERIORITY||Hazard Ratio (HR)|0.31||||0.0241|TWO_SIDED|95.0|0.11|0.91|||Unstratified log-rank|||||0.91|0.11|0.0241
92405117|NCT01746901|184701073|SUPERIORITY_OR_OTHER||LS Mean Difference|4.1||||0.3904|TWO_SIDED|95.0|-5.3|13.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.6|-5.3|0.3904
92367244|NCT02574078|184637772|SUPERIORITY||Hazard Ratio (HR)|1.59||||0.1401|TWO_SIDED|95.0|0.85|2.95|||Unstratified log-rank|||||2.95|0.85|0.1401
92367245|NCT02574078|184637776|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.2862|TWO_SIDED|95.0|0.4|1.31|||Log Rank|stratified by Disease Status (Recurrent Locally Advanced vs. Metastatic), Performance Status (ECOG 0 vs.1 vs. 2) as entered into the IVRS||||1.31|0.40|0.2862
92367246|NCT01530178|184637796|OTHER|Non-specified|Mean Difference (Final Values)|-27.91||||0.003|TWO_SIDED|95.0|-44.7|-11.2|||ANOVA|||||-11.2|-44.7|0.003
92367247|NCT01530178|184637796|OTHER|Non-specified|Mean Difference (Final Values)|-2.131||||0.68|TWO_SIDED|95.0|-12.91|8.652|||ANOVA|||||8.652|-12.91|0.68
92405118|NCT01746901|184701073|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2||||0.6524|TWO_SIDED|95.0|-7.3|11.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.6|-7.3|0.6524
92405119|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.1771|TWO_SIDED|95.0|-0.4|2.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.1|-0.4|0.1771
92405120|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.3944|TWO_SIDED|95.0|-1.7|0.7|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.7|-1.7|0.3944
92226193|NCT04660643|184354079|SUPERIORITY||LS Mean difference|-17.6|||<|0.001|TWO_SIDED|95.0|-18.8|-16.4|||Mixed Models Analysis|||||-16.4|-18.8|<.001
92167311|NCT02597920|184224116|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Baseline CDS with that of Visit 3.||||<0.0001
92167312|NCT02597920|184224116|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Baseline SDS with that of Visit 2.||||<0.0001
92167313|NCT02597920|184224116|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Baseline SDS with that of Visit 3.||||<0.0001
92367248|NCT01530178|184637796|OTHER||Mean Difference (Final Values)|-25.78||||0.0005|TWO_SIDED|95.0|-38.39|-13.17|||ANOVA|||||-13.17|-38.39|0.0005
92367249|NCT03980743|184637824|SUPERIORITY|||||||0.97|||||||Mixed Models Analysis|||Time x treatment (week 0 and week 24)||||0.97
92367250|NCT03980743|184637825|SUPERIORITY|||||||0.273|||||||Mixed Models Analysis|||Time x treatment (week 0 and week 24) for Healthy Eating||||0.273
92367251|NCT03980743|184637826|SUPERIORITY|Time x treatment (week 0 and week 24) with sum score||||||0.691|||||||Mixed Models Analysis|||||||0.691
92367252|NCT02709512|184637827|SUPERIORITY|Relative Risk Ratio (ADIPemPlatinum/PlaceboPemPlatinum) is the common relative risk of having a response (CR or PR) based on the Mantel-Haenszel estimator controlling for tumor histology. A relative risk ratio greater than one is favorable to ADIPemPlatinum.|Risk Ratio (RR)|1.02||||0.9489|TWO_SIDED|95.0|0.5|2.11|||Cochran-Mantel-Haenszel|||||2.11|0.50|0.9489
92367253|NCT02709512|184637828|SUPERIORITY||Cox Proportional Hazard|0.64||||0.0078|TWO_SIDED|95.0|0.47|0.88|||Log Rank|||||0.88|0.47|0.0078
92367254|NCT02709512|184637829|SUPERIORITY||Cox Proportional Hazard|0.71||||0.0234|TWO_SIDED|95.0|0.55|0.93|||Log Rank|||||0.93|0.55|0.0234
92367255|NCT02709512|184637830|SUPERIORITY||Cox Proportional Hazard|0.65||||0.0193|TWO_SIDED|95.0|0.46|0.9|||Log Rank|||||0.90|0.46|0.0193
92367256|NCT01834287|184637834|SUPERIORITY||Mean Difference (Final Values)|31.0||||0.001|TWO_SIDED|95.0|9.6|52.4|||Regression, Linear|||||52.4|9.6|.001
92367257|NCT00276406|184637841|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|||Analysis was adjusted for BMI and baseline values and incorporated Bonferroni corrections.||||<0.01
92367258|NCT00276406|184637845|SUPERIORITY_OR_OTHER|||||||0.096||95.0|||||ANCOVA|||Analysis was adjusted for BMI and baseline values and incorporated Bonferroni corrections.||||0.096
92367259|NCT00276406|184637846|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANCOVA|||||||0.02
92367260|NCT00276406|184637847|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANCOVA|||Bowel diaries were analyzed by computing the mean scores for the 9-day baseline period and separately for the last 7 days of the treatment period (i.e., when the pyridostigmine dose was stable in each subject.) Individual subject treatment period mean bowel function scores were then compared using a similar ANCOVA model, with the corresponding individual subject baseline mean bowel function score and gender as covariates.||||0.005
92167314|NCT02597920|184224117|OTHER|||||||0.0005|||||||Propensity score matching method|||Between group comparison of Visit 2 CDS||||0.0005
92167315|NCT02597920|184224117|OTHER|||||||0.0002|||||||Propensity score matching method|||Between group comparison of Visit 3 CDS||||0.0002
92167316|NCT02597920|184224117|OTHER|||||||0.0002|||||||Propensity score matching method|||Between group comparison of Visit 2 SDS||||0.0002
92167317|NCT02597920|184224117|OTHER|||||||0.0004|||||||Propensity score matching method|||Between group comparison of Visit 3 SDS||||0.0004
92167318|NCT02597920|184224122|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Visit 2 CDS with that of Visit 3.||||<0.0001
92367261|NCT00276406|184637848|SUPERIORITY_OR_OTHER||||||<|0.04||95.0|||||ANCOVA|||Bowel diaries were analyzed by computing the mean scores for the 9-day baseline period and separately for the last 7 days of the treatment period (i.e., when the pyridostigmine dose was stable in each subject.) Individual subject treatment period mean bowel function scores were then compared using a similar ANCOVA model, with the corresponding individual subject baseline mean bowel function score and gender as covariates.||||<0.04
92367262|NCT02297815|184637858|SUPERIORITY_OR_OTHER||Score difference|-1.4||||0.008|TWO_SIDED|95.0|-2.44|-0.36|||Weighted linear regression|Propensity-score based full matching performed. Average treatment effect weights calculated and applied to a weighted linear regression.|Narrow antibiotics is the reference group. A score difference less than zero indicates that broad spectrum antibiotics are associated with a lower (poorer) health related quality of life score.|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted linear regression.||-0.36|-2.44|0.008
92367263|NCT02297815|184637859|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.4||||0.39|TWO_SIDED|95.0|-3.1|7.9|||Weighted logistic regression|Propensity-score based full matching. Average treatment effect weights calculated and applied to a weighted logistic regression.|Broad spectrum antibiotics are the reference. A risk difference more than 0 indicates that the broad spectrum antibiotics had a higher risk of adverse outcome|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted logistic regression. Risk difference obtained by marginal standardization.||7.9|-3.1|0.39
92405121|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.1778|TWO_SIDED|95.0|-0.4|2.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.1|-0.4|0.1778
92405122|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.396|TWO_SIDED|95.0|-1.7|0.7|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.7|-1.7|0.3960
92405123|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.6125|TWO_SIDED|95.0|-0.9|1.5|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.5|-0.9|0.6125
92405124|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.9059|TWO_SIDED|95.0|-1.1|1.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.3|-1.1|0.9059
92405125|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.4585|TWO_SIDED|95.0|-2.9|6.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.3|-2.9|0.4585
92405126|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.8986|TWO_SIDED|95.0|-4.2|4.8|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.8|-4.2|0.8986
92226194|NCT04660643|184354080|SUPERIORITY||LS Mean difference|-16.4|||<|0.001|TWO_SIDED|95.0|-17.5|-15.4|||Mixed Models Analysis|||||-15.4|-17.5|<.001
92367264|NCT02297815|184637860|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.5||||0.59|TWO_SIDED|95.0|-3.9|6.8|||Weighted logistic regression|Propensity-score based full matching. Average treatment effect weights calculated and applied to a weighted logistic regression.|Broad spectrum antibiotics are the reference. A risk difference more than 0 indicates that the broad spectrum antibiotics had a higher risk of adverse outcome|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted logistic regression. Risk difference obtained by marginal standardization.||6.8|-3.9|0.59
92367265|NCT02297815|184637861|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.2|||<|0.001|TWO_SIDED|95.0|7.3|17.2|||Weighted logistic regression|Propensity-score based full matching. Average treatment effect weights calculated and applied to a weighted logistic regression.|Broad spectrum antibiotics are the reference. A risk difference more than 0 indicates that the broad spectrum antibiotics had a higher risk of adverse outcome|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted logistic regression. Risk difference obtained by marginal standardization.||17.2|7.3|<0.001
92367266|NCT02297815|184637862|SUPERIORITY_OR_OTHER||Risk Difference (RD)|4.9||||0.09|TWO_SIDED|95.0|-0.8|10.6|||Weighted logistic regression|Propensity-score based full matching. Average treatment effect weights calculated and applied to a weighted logistic regression.|Broad spectrum antibiotics are the reference. A risk difference more than 0 indicates that the broad spectrum antibiotics had a higher risk of adverse outcome|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted logistic regression. Risk difference obtained by marginal standardization.||10.6|-0.8|0.09
92367267|NCT02297815|184637863|SUPERIORITY||Risk Difference (RD)|4.6||||0.07|TWO_SIDED|95.0|-0.3|9.6|||Weighted logistic regression|Propensity-score based full matching. Average treatment effect weights calculated and applied to a weighted logistic regression.|Broad spectrum antibiotics are the reference. A risk difference more than 0 indicates that the broad spectrum antibiotics had a higher risk of adverse outcome|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted logistic regression. Risk difference obtained by marginal standardization.||9.6|-0.3|0.07
92367268|NCT00252512|184637887|SUPERIORITY||||||<|0.001||||||Above is calculated p value, a priori threshold for significance set at \<.05|GEE full factorial modeling|||||||<.001
92367269|NCT00252512|184637888|SUPERIORITY|||||||0.015||||||a priori threshold of \<.05|t-test, 2 sided|||8 week analysis||||.015
92367270|NCT00252512|184637888|SUPERIORITY|||||||0.45||||||a priori threshold of \<.05|t-test, 2 sided|||6 month analysis||||0.45
92367271|NCT00252512|184637888|SUPERIORITY|||||||0.0497||||||a prior threshold of .05|t-test, 2 sided|||12 month analysis||||.0497
92367272|NCT00252512|184637889|SUPERIORITY||||||>|0.05||||||a priori threshold \<.05|Estimation Equation mean modeling|||Costs for period between 6 month follow-up and 12 month follow up.||||>.05
92367273|NCT00252512|184637889|SUPERIORITY||||||>|0.05|||||||Estimating Equation mean modeling|||Costs for period between 6 month follow up and 12 month follow up.||||>.05
92367274|NCT00252512|184637890|SUPERIORITY|||||||0.28||||||a priori threshold \<.05|Chi-squared|||Analysis for 8 week follow up||||.28
92367275|NCT00252512|184637890|SUPERIORITY|||||||0.013||||||A priori threshold \<.05|Chi-squared|||Analysis for 6 month follow up||||.013
92367276|NCT00252512|184637890|SUPERIORITY|||||||0.76||||||A priori threshold \<.05|Chi-squared|||Analysis for 12 month follow up||||.76
92367277|NCT00252512|184637891|SUPERIORITY|||||||0.66||||||A priori threshold \<.05|Chi-squared|||Analysis for 8 week follow-up||||.66
92367278|NCT00252512|184637891|SUPERIORITY|||||||0.37||||||A priori threshold \<.05|Chi-squared|||Analysis for 6 month follow up.||||.37
92226195|NCT04660643|184354081|SUPERIORITY||LS Mean difference|-13.6|||<|0.001|TWO_SIDED|95.0|-15.1|-12.2|||Mixed Models Analysis|||||-12.2|-15.1|<.001
92226196|NCT04660643|184354082|SUPERIORITY||LS Mean difference|-8.92|||<|0.001|TWO_SIDED|95.0|-10.4|-7.43|||Mixed Models Analysis|||||-7.43|-10.40|<.001
92367279|NCT00252512|184637891|SUPERIORITY|||||||0.19||||||a priori threshold \<.05|Chi-squared|||Analysis for 12 month follow up.||||.19
92367280|NCT00252512|184637892|SUPERIORITY|||||||0.05||||||A priori threshold of \<.05|Chi-squared|||Analysis for 8 week follow-up||||.05
92226197|NCT04660643|184354083|SUPERIORITY||LS Mean difference|-0.34|||<|0.001|TWO_SIDED|95.0|-0.39|-0.29|||Mixed Models Analysis|||||-0.29|-0.39|<.001
92226198|NCT04660643|184354084|SUPERIORITY||LS Mean difference|-34.6|STANDARD_ERROR_OF_MEAN|3.25|<|0.001|TWO_SIDED|95.0|-40.6|-27.9|||Mixed Models Analysis|||||-27.9|-40.6|<.001
92226199|NCT04660643|184354085|SUPERIORITY||LS Mean difference|-7.02|STANDARD_ERROR_OF_MEAN|1.158|<|0.001|TWO_SIDED|95.0|-9.27|-4.72|||Mixed Models Analysis|||Total Cholesterol||-4.72|-9.27|<.001
92226200|NCT04660643|184354085|SUPERIORITY||LS Mean difference|-7.62|STANDARD_ERROR_OF_MEAN|1.707|<|0.001|TWO_SIDED|95.0|-10.91|-4.21|||Mixed Models Analysis|||LDL Cholesterol||-4.21|-10.91|<.001
92226201|NCT04660643|184354085|SUPERIORITY||LS Mean difference|2.6|STANDARD_ERROR_OF_MEAN|1.418||0.064|TWO_SIDED|95.0|-0.14|5.43|||Mixed Models Analysis|||HDL Cholesterol||5.43|-0.14|0.064
92367281|NCT00252512|184637892|SUPERIORITY|||||||0.8||||||A priori threshold of \<.05|Chi-squared|||Analysis for 6 month follow-up.||||.80
92367282|NCT00252512|184637892|SUPERIORITY|||||||0.12||||||A priori threshold of \<.05|Chi-squared|||Analysis for 12 month follow-up.||||.12
92367283|NCT02397915|184637897|SUPERIORITY_OR_OTHER||||||<|0.001||||||Par. preferences were analyzed using Prescott's test, as approximated by a Cochran-Mantel-Haenszel test, adjusted for country and symptomatology. All preference p-values were also adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||<0.001
92367284|NCT02397915|184637898|SUPERIORITY_OR_OTHER|||||||0.065||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute scent/odor.|Cochran-Mantel-Haenszel|||||||0.065
92226202|NCT04660643|184354085|SUPERIORITY||LS Mean difference|-20.1|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-24.7|-15.3|||Mixed Models Analysis|||VLDL Cholesterol||-15.3|-24.7|<.001
92367285|NCT02397915|184637898|SUPERIORITY_OR_OTHER|||||||0.532||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute immediate taste.|Cochran-Mantel-Haenszel|||||||0.532
92367286|NCT02397915|184637898|SUPERIORITY_OR_OTHER|||||||0.138||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute after taste.|Cochran-Mantel-Haenszel|||||||0.138
92367287|NCT02397915|184637898|SUPERIORITY_OR_OTHER||||||<|0.001||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute LDTT.|Cochran-Mantel-Haenszel|||||||<0.001
92367288|NCT02397915|184637898|SUPERIORITY_OR_OTHER|||||||0.017||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute LRON.|Cochran-Mantel-Haenszel|||||||0.017
92367289|NCT02397915|184637898|SUPERIORITY_OR_OTHER|||||||0.046||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute more soothing.|Cochran-Mantel-Haenszel|||||||0.046
92367290|NCT02397915|184637898|SUPERIORITY_OR_OTHER||||||<|0.001||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute less irritating.|Cochran-Mantel-Haenszel|||||||<0.001
92367291|NCT02397915|184637898|SUPERIORITY_OR_OTHER|||||||0.532||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute UTS.|Cochran-Mantel-Haenszel|||||||0.532
92367292|NCT02397915|184637899|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||1.000
92167319|NCT02597920|184224122|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Visit 2 SDS with that of Visit 3.||||<0.0001
92367293|NCT02397915|184637900|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||1.00
92367294|NCT02397915|184637901|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||1.00
92405127|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1||||0.3641|TWO_SIDED|95.0|-2.5|6.7|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.7|-2.5|0.3641
92167320|NCT04532528|184224129|OTHER|No formal hypotheses were tested.||||||0.9701|||||||Chi-squared|||||||0.9701
92167321|NCT04532528|184224130|OTHER|No formal hypotheses were tested.||||||0.7376|||||||Chi-squared|||At 3 months only||||0.7376
92167322|NCT04532528|184224130|OTHER|No formal hypotheses were tested.||||||0.1356|||||||Chi-squared|||At 6 months only||||0.1356
92167323|NCT04532528|184224130|OTHER|No formal hypotheses were tested.||||||0.68|||||||Chi-squared|||At 9 months only||||0.6800
92167324|NCT04532528|184224131|OTHER|No formal hypotheses were tested.||||||0.5777|||||||Chi-squared|||At 3 months only||||0.5777
92167325|NCT04532528|184224131|OTHER|No formal hypotheses were tested.||||||0.3313|||||||Chi-squared|||At 6 months only||||0.3313
92167326|NCT04532528|184224131|OTHER|No formal hypotheses was tested.||||||0.5697|||||||Chi-squared|||At 9 months only||||0.5697
92167327|NCT04532528|184224131|OTHER|No formal hypotheses were tested.||||||0.5135|||||||Chi-squared|||At 12 months only||||0.5135
92167328|NCT04532528|184224132|OTHER|No formal hypotheses were tested.||||||0.8509|||||||Chi-squared|||At 3 months only||||0.8509
92167329|NCT04532528|184224132|OTHER|No formal hypotheses were tested.||||||0.3302|||||||Chi-squared|||At 6 months only||||0.3302
92167330|NCT04532528|184224132|OTHER|No formal hypotheses was tested.||||||0.9005|||||||Chi-squared|||At 9 months only||||0.9005
92226203|NCT04660643|184354085|SUPERIORITY||LS Mean difference|-21.2|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-25.8|-16.4|||Mixed Models Analysis|||Triglycerides||-16.4|-25.8|<.001
92367295|NCT02397915|184637902|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.179||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.179
92367296|NCT02397915|184637903|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||1.00
92367297|NCT02397915|184637904|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||<|0.001||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||<0.001
92367298|NCT02397915|184637905|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||<|0.001||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||<0.001
92367299|NCT02397915|184637906|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||1.000
92367300|NCT02397915|184637907|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.188||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.188
92167331|NCT04532528|184224132|OTHER|No formal hypotheses were tested.||||||0.2789|||||||Chi-squared|||At 12 months only||||0.2789
92167332|NCT04532528|184224133|OTHER|No formal hypotheses were tested.||||||0.667|||||||Wilcoxon (Mann-Whitney)|||At 3 months only||||0.6670
92167333|NCT04532528|184224133|OTHER|||||||0.1285|||||||Wilcoxon (Mann-Whitney)|||At 6 months only||||0.1285
92367301|NCT02397915|184637908|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.951||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.951
92405128|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.9674|TWO_SIDED|95.0|-4.6|4.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.4|-4.6|0.9674
92167334|NCT04532528|184224133|OTHER|No formal hypotheses was tested.||||||0.7151|||||||Wilcoxon (Mann-Whitney)|||At 9 months only||||0.7151
92167335|NCT04532528|184224133|OTHER|No formal hypotheses were tested||||||0.803|||||||Wilcoxon (Mann-Whitney)|||At 12 months only||||0.8030
92167336|NCT01068743|184224151|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% confidence intervals (CIs) for the test-to-reference ratios (B/A) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of saxagliptin.|Ratio (%) of Geometric LS Means|101.45|||||TWO_SIDED|90.0|98.17|104.84|||||Ratio=Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries. LS=Least Squares.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 98% and 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf, respectively. If there was a 5% difference, then 20 participants would have provided 93% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||104.84|98.17|
92167337|NCT01068743|184224151|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of saxagliptin.|Ratio (%) of Geometric LS Means|102.43|||||TWO_SIDED|90.0|99.53|105.42|||||Ratio=Treatment D/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 98% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively. If there was a 5% difference, then 20 participants would have provided 93% and 99% power to conclude BE with respect to Cmax and AUC0-inf,respectively.||105.42|99.53|
92167338|NCT01068743|184224151|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|49.23||||||||||||||Geometric least squares means for Treatment A.||||
92367302|NCT02397915|184637909|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.951||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.951
92367303|NCT02397915|184637910|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.951||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.951
92405129|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3||||0.5744|TWO_SIDED|95.0|-3.2|5.8|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.8|-3.2|0.5744
92167339|NCT01068743|184224151|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|49.94||||||||||||||Geometric least squares means for Treatment B.||||
92167340|NCT01068743|184224151|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|52.71||||||||||||||Geometric least squares means for Treatment C.||||
92167341|NCT01068743|184224151|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|53.99||||||||||||||Geometric least squares means for Treatment D.||||
92226204|NCT04660643|184354085|SUPERIORITY||LS Mean difference|-11.83|STANDARD_ERROR_OF_MEAN|3.793||0.004|TWO_SIDED|95.0|-18.98|-4.06|||Mixed Models Analysis|||FFA||-4.06|-18.98|0.004
92367304|NCT02397915|184637911|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.004||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.004
92405130|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2||||0.3457|TWO_SIDED|95.0|-2.4|6.7|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.7|-2.4|0.3457
92405131|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|3.7||||0.6664|TWO_SIDED|95.0|-13.3|20.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.8|-13.3|0.6664
92226205|NCT04660643|184354086|SUPERIORITY||LS Mean difference|-6.9|||<|0.001|TWO_SIDED|95.0|-8.7|-5.1|||Mixed Models Analysis|||SBP||-5.1|-8.7|<.001
92367305|NCT02397915|184637912|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.223||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.223
92405132|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|11.1||||0.1949|TWO_SIDED|95.0|-5.8|28.0|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.0|-5.8|0.1949
92405133|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|11.1||||0.2009|TWO_SIDED|95.0|-6.0|28.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.1|-6.0|0.2009
92367306|NCT02397915|184637913|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||<|0.001||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||<0.001
92367307|NCT02397915|184637914|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.008||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.008
92367308|NCT02397915|184637915|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.831||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.831
92367309|NCT02397915|184637916|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||<|0.001||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||<0.001
92367310|NCT02397915|184637917|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.007||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.007
92367311|NCT02397915|184637918|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.568||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.568
92367312|NCT02397915|184637919|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.951||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.951
92367313|NCT03292874|184637921|SUPERIORITY|||||||0.014||||||"Areas under the receiver operating characteristics curve (AUC) were compared between models with standard and high-resolution MRI variables using the nonparametric method described by DeLong.~DeLong. Biometrics 1988;44(3):837-45."|nonparametric method|||||||0.014
92167342|NCT01068743|184224154|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (B/A) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of saxagliptin.|Ratio (%) of Geometric LS Means|102.46|||||TWO_SIDED|90.0|94.68|110.88|||||Ratio=Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 98% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively. If there was a 5% difference, then 20 participants would have provided 93% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||110.88|94.68|
92226206|NCT04660643|184354086|SUPERIORITY||LS Mean difference|-3.8|||<|0.001|TWO_SIDED|95.0|-5.1|-2.6|||Mixed Models Analysis|||DBP||-2.6|-5.1|<.001
92367314|NCT00368745|184637922|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2838||95.0||||significance determined using 2-tailed significance level of 0.05|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with country as a covariate||Primary objective: evaluate the efficacy of pregabalin in maintaining the benzodiazepine free state in subjects with prior stable alprazolam use.||||0.2838
92367315|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.48|STANDARD_ERROR_OF_MEAN|0.81||0.0709||95.0|-3.1|0.13||contrasts performed using Dunnett's Test|ANCOVA|Least squares (LS) Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Alprazolam Taper (AT) Week 1||0.13|-3.10|0.0709
92367316|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.89|STANDARD_ERROR_OF_MEAN|1.08||0.0006||95.0|-6.04|-1.74||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 2||-1.74|-6.04|0.0006
92405134|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|3.8||||0.6595|TWO_SIDED|95.0|-13.1|20.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.7|-13.1|0.6595
92405135|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|8.6||||0.3176|TWO_SIDED|95.0|-8.3|25.5|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.5|-8.3|0.3176
92405136|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|4.0||||0.6423|TWO_SIDED|95.0|-12.9|20.9|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.9|-12.9|0.6423
92405137|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|6.8||||0.4358|TWO_SIDED|95.0|-10.5|24.2|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.2|-10.5|0.4358
92226207|NCT04660643|184354087|SUPERIORITY||LS Mean difference|2.7|||<|0.001|TWO_SIDED|95.0|1.7|3.7|||ANCOVA|||||3.7|1.7|<.001
92226208|NCT04660643|184354088|SUPERIORITY||LS Mean difference|9.3|||<|0.001|TWO_SIDED|95.0|6.5|12.0|||ANCOVA|||||12.0|6.5|<.001
92226209|NCT00741156|184354089|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.09
92226210|NCT01815229|184354098|OTHER||||||<|0.05||||||P value applies to cell count at removal|t-test, 2 sided|||Tracheal lavages (TL) were done in intubated humans to obtain cell counts.||||<0.05
92367317|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.38|STANDARD_ERROR_OF_MEAN|1.3||0.0718||95.0|-4.98|0.22||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 3||0.22|-4.98|0.0718
92367318|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.38|STANDARD_ERROR_OF_MEAN|1.92||0.092||95.0|-7.37|0.6||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 4||0.60|-7.37|0.0920
92367319|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.22|STANDARD_ERROR_OF_MEAN|3.04||0.1371||95.0|-12.67|2.23||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT week 5||2.23|-12.67|0.1371
92367320|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.68|STANDARD_ERROR_OF_MEAN|2.04||0.0882||95.0|-7.96|0.61||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 6||0.61|-7.96|0.0882
92367321|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.83|STANDARD_ERROR_OF_MEAN|1.11||0.0135||95.0|-5.05|-0.61||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Alprazolam Free (AF) Week 1||-0.61|-5.05|0.0135
92367322|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.18||0.3924||95.0|-3.38|1.35||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 2||1.35|-3.38|0.3924
92367323|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.14||0.3868||95.0|-3.29|1.3||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 3||1.30|-3.29|0.3868
92367324|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|1.15||0.9966||95.0|-2.31|2.32||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 4||2.32|-2.31|0.9966
92367325|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|1.26||0.6873||95.0|-3.07|2.05||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 5||2.05|-3.07|0.6873
92367326|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|1.35||0.5337||95.0|-3.62|1.91||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 6||1.91|-3.62|0.5337
92367327|NCT00368745|184637923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.79|STANDARD_ERROR_OF_MEAN|1.37||0.0008||95.0|-7.51|-2.07||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Endpoint \[LOCF\]||-2.07|-7.51|0.0008
92367328|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.18|STANDARD_ERROR_OF_MEAN|1.4||0.122||95.0|-4.97|0.6||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Taper (AT) Week 1||0.60|-4.97|0.1220
92367329|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.63|STANDARD_ERROR_OF_MEAN|1.26||0.0053||95.0|-6.15|-1.11||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 2||-1.11|-6.15|0.0053
92405138|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|11.7||||0.1789|TWO_SIDED|95.0|-5.4|28.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.9|-5.4|0.1789
92367330|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.85|STANDARD_ERROR_OF_MEAN|1.73||0.1048||95.0|-6.32|0.62||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 3||0.62|-6.32|0.1048
92367331|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.41|STANDARD_ERROR_OF_MEAN|1.52||0.0357||95.0|-6.57|-0.25||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 4||-0.25|-6.57|0.0357
92367332|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.28|STANDARD_ERROR_OF_MEAN|2.67||0.4263||95.0|-8.82|4.26||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 5||4.26|-8.82|0.4263
92367333|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.73|STANDARD_ERROR_OF_MEAN|2.02||0.0104||95.0|-9.96|-1.51||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 6||-1.51|-9.96|0.0104
92367334|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.92|STANDARD_ERROR_OF_MEAN|1.4||0.0069||95.0|-6.73|-1.12||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Free (AF) Week 1||-1.12|-6.73|0.0069
92405139|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|14.0||||0.1131|TWO_SIDED|95.0|-3.3|31.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||31.3|-3.3|0.1131
92367335|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|1.37||0.2185||95.0|-4.47|1.05||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 2||1.05|-4.47|0.2185
92405140|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|4.6||||0.5965|TWO_SIDED|95.0|-12.6|21.8|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.8|-12.6|0.5965
92226211|NCT01276821|184354105|NON_INFERIORITY_OR_EQUIVALENCE|Non - Inferiority Analysis|Mean Difference (Final Values)|1.33|STANDARD_DEVIATION|1.3|<|0.05|TWO_SIDED|95.0|0.78|1.82|||t-test, 2 sided|||"Null Hypothesis Efficacy of nebulised hypertonic saline (3%) with L-Epinephrine is not higer than as compared to L-Epinephrine given with 0.9% normal saline in the management of children aged 6 weeks to 24 months with mild to moderately severe bronchiolitis.~Alternate Hypothesis:~Nebulised hypertonic saline (3%) with L-Epinephrine is superior to 0.9% Normal saline with L-Epinephrine in the management of children aged 6 weeks to 24 months with mild to moderately severe bronchiolitis."||1.82|0.78|<0.05
92226212|NCT00066690|184354112|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.1|TWO_SIDED|95.0|0.66|1.04|||Log Rank||Tamoxifen was the reference group in the estimation of the hazard ratio.|||1.04|0.66|0.1
92367336|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|1.06||0.7832||95.0|-2.41|1.83||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 3||1.83|-2.41|0.7832
92367337|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.16||0.7062||95.0|-1.9|2.79||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 4||2.79|-1.90|0.7062
92367338|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|1.04||0.7161||95.0|-2.49|1.73||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 5||1.73|-2.49|0.7161
92367339|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.11|STANDARD_ERROR_OF_MEAN|1.43||0.0376||95.0|-6.03|-0.19||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 6||-0.19|-6.03|0.0376
92367340|NCT00368745|184637926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|1.48||0.0122||95.0|-6.74|-0.85||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Endpoint \[LOCF\]||-0.85|-6.74|0.0122
92367341|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.16||0.0052||95.0|-0.76|-0.14||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Alprazolam Taper (AT) Week 1||-0.14|-0.76|0.0052
92367342|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.18||0.0001||95.0|-1.11|-0.38||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 2||-0.38|-1.11|0.0001
92367343|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.25||0.0528||95.0|-1.0|0.01||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 3||0.01|-1.00|0.0528
92367344|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.35||0.3085||95.0|-1.11|0.37||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 4||0.37|-1.11|0.3085
92226213|NCT00066690|184354112|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.53|0.86|||||Tamoxifen was the reference group in the estimation of the hazard ratio.|||0.86|0.53|
92367345|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.47||0.1807||95.0|-1.92|0.47||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 5||0.47|-1.92|0.1807
92367346|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.42||0.1074||95.0|-1.58|0.17||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 6||0.17|-1.58|0.1074
92367347|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.2||0.0013||95.0|-1.1|-0.28||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Alprazolam Free (AF) Week 1||-0.28|-1.10|0.0013
92367348|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.25||0.0503||95.0|-0.99|0.0||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 2||0.00|-0.99|0.0503
92367349|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.26||0.0364||95.0|-1.09|-0.04||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 3||-0.04|-1.09|0.0364
92367350|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.24||0.914||95.0|-0.51|0.46||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 4||0.46|-0.51|0.9140
92367351|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.27||0.7789||95.0|-0.62|0.47||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 5||0.47|-0.62|0.7789
92367352|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.31||0.3189||95.0|-0.95|0.32||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 6||0.32|-0.95|0.3189
92367353|NCT00368745|184637928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|0.25||0.0031||95.0|-1.26|-0.27||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Endpoint \[LOCF\]||-0.27|-1.26|0.0031
92226214|NCT00066690|184354113|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.09|TWO_SIDED|95.0|0.3|1.03|||Log Rank||Tamoxifen was the reference group in the estimation of the hazard ratio.|||1.03|0.3|0.09
92367354|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.24||0.126||95.0|-0.86|0.11||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Taper (AT) Week 1||0.11|-0.86|0.1260
92367355|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.29||0.0074||95.0|-1.4|-0.22||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 2||-0.22|-1.40|0.0074
92367356|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.38||0.125||95.0|-1.35|0.17||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 3||0.17|-1.35|0.1250
92367357|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.6||0.8991||95.0|-1.17|1.32||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 4||1.32|-1.17|0.8991
92367358|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.53||0.1747||95.0|-2.07|0.46||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 5||0.46|-2.07|0.1747
92367359|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.45||0.0744||95.0|-1.79|0.09||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 6||0.09|-1.79|0.0744
92367360|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.35||0.0063||95.0|-1.67|-0.29||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Free (AF) Week 1||-0.29|-1.67|0.0063
92367361|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.34||0.014||95.0|-1.56|-0.18||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 2||-0.18|-1.56|0.0140
92367362|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.34||0.0267||95.0|-1.46|-0.09||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 3||-0.09|-1.46|0.0267
92367363|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.38||0.5104||95.0|-1.03|0.52||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 4||0.52|-1.03|0.5104
92367364|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.43||0.2702||95.0|-1.35|0.39||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 5||0.39|-1.35|0.2702
92367365|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.42||0.1241||95.0|-1.52|0.19||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 6||0.19|-1.52|0.1241
92367366|NCT00368745|184637929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.36||0.0109||95.0|-1.67|-0.22||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Endpoint \[LOCF\]||-0.22|-1.67|0.0109
92367367|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.28||0.0226||95.0|-1.22|-0.09||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Taper (AT) Week 1||-0.09|-1.22|0.0226
92367368|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.34||0.0099||95.0|-1.58|-0.22||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 2||-0.22|-1.58|0.0099
92405141|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|8.7||||0.3175|TWO_SIDED|95.0|-8.5|25.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.9|-8.5|0.3175
92367369|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.35||0.2827||95.0|-1.07|0.32||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 3||0.32|-1.07|0.2827
92405142|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|3.9||||0.6551|TWO_SIDED|95.0|-13.3|21.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.0|-13.3|0.6551
92367370|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.58||0.8232||95.0|-1.07|1.34||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 4||1.34|-1.07|0.8232
92405143|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.3||||0.0354|TWO_SIDED|95.0|-87.5|-3.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-3.1|-87.5|0.0354
92226215|NCT00066690|184354113|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.49|0.83|||||Tamoxifen was the reference group in the estimation of the hazard ratio.|||0.83|0.49|
92367371|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.66||0.2409||95.0|-2.41|0.72||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 5||0.72|-2.41|0.2409
92226216|NCT00066690|184354114|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.4|TWO_SIDED|95.0|0.66|1.18|||Log Rank||T was the reference group in the estimation of the hazard ratio.|||1.18|0.66|0.40
92367372|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.61||0.476||95.0|-1.73|0.84||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 6||0.84|-1.73|0.4760
92367373|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.32||0.1252||95.0|-1.14|0.14||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Free (AF) Week 1||0.14|-1.14|0.1252
92367374|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.33||0.0717||95.0|-1.26|0.06||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 2||0.06|-1.26|0.0717
92367375|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.35||0.0707||95.0|-1.33|0.06||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 3||0.06|-1.33|0.0707
92367376|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.39||0.4341||95.0|-1.08|0.47||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 4||0.47|-1.08|0.4341
92367377|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.42||0.37||95.0|-1.23|0.47||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 5||0.47|-1.23|0.3700
92367378|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.43||0.0328||95.0|-1.83|-0.08||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 6||-0.08|-1.83|0.0328
92367379|NCT00368745|184637930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.39||0.0096||95.0|-1.8|-0.26||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Endpoint \[LOCF\]||-0.26|-1.80|0.0096
92367380|NCT00368745|184637931|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|2.68||0.8897||95.0|-5.74|4.99||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as the covariate||||4.99|-5.74|0.8897
92367381|NCT00368745|184637932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0626||95.0||||p-value is from the log-rank statistic from the tests for equality over treatment as strata and country used as covariate|Log Rank|||||||0.0626
92367382|NCT00368745|184637933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0148||95.0||||p-value is from the log-rank statistic from the tests for equality over treatment as strata and country used as covariate|Log Rank|||||||0.0148
92367383|NCT00368745|184637934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1159||95.0||||p-value is obtained using Cochran-Mantel-Haenszel option|Cochran-Mantel-Haenszel|||||||0.1159
92367384|NCT02476032|184637935|OTHER|||||||0.05|TWO_SIDED|90.0||||P-values for pairwise group comparisons were adjusted for multiple comparisons using the Tukey method.|t-test, 2 sided|||Within group comparisons: t-tests comparing the mean change to 0 were utilized. P-values less than 0.05 were considered statistically significant. SAS V9.3 (SAS Institute Inc., Cary, NC) was used for analysis. The sample size of 20 participants per group was based on having 90% power to detect a one standard deviation difference between the DO-strip groups and the placebo group means using ANOVA with a 0.05 level of significance.||||0.05
92405144|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|55.2||||0.01|TWO_SIDED|95.0|13.4|97.0|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||97.0|13.4|0.0100
92367385|NCT02476032|184637936|OTHER|||||||0.05|TWO_SIDED|90.0||||P-values for pairwise group comparisons were adjusted for multiple comparisons using the Tukey method.|t-test, 2 sided|||Within group comparisons: t-tests comparing the mean change to 0 were utilized. P-values less than 0.05 were considered statistically significant. SAS V9.3 (SAS Institute Inc., Cary, NC) was used for analysis. The sample size of 20 participants per group was based on having 90% power to detect a one standard deviation difference between the DO-strip groups and the placebo group means using ANOVA with a 0.05 level of significance.||||0.05
92367386|NCT00293813|184637937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1||||||95.0|2.6|5.7|||ANCOVA|||||5.7|2.6|
92367387|NCT00293813|184637937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||||95.0|-0.6|2.6|||ANCOVA|||||2.6|-.6|
92367388|NCT01537315|184637941|SUPERIORITY_OR_OTHER|||||||0.4521|TWO_SIDED|||||A paired comparison between baseline CRP values with values obtained after 1, 3, and 6 months of treatment was conducted, with a p-value of 0.05 used as the a priori threshold of statistical significance.|ANOVA|||||||0.4521
92405145|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|13.2||||0.5379|TWO_SIDED|95.0|-29.0|55.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||55.4|-29.0|0.5379
92226217|NCT00066690|184354114|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.52|0.96|||||T was the reference group in the estimation of hazard ratio.|||0.96|0.52|
92226218|NCT00066690|184354115|SUPERIORITY|\[not specified\]|Hazard Ratio (HR)|0.67||||0.01|TWO_SIDED|95.0|0.48|0.92|||Log Rank||T was the reference group in the estimation of the hazard ratio|||0.92|0.48|0.01
92226219|NCT00066690|184354115|SUPERIORITY|\[not specified\]|Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.62|1.15|||||T was the reference group in the estimation of hazard ratio|||1.15|0.62|
92367389|NCT03458325|184637961|SUPERIORITY||Mean Difference (Final Values)|-16.0|||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||"The comparator arm was populated with claims data for patients who presented to the emergency department for worsening HF and were admitted to the hospital for ≤ 72 hours for the treatment of HF. The filter was further strengthened by analyzing diagnostic codes and resource utilization during their hospital stay to exclude hospitalizations other than Heart Failure.~Each subject from the Furoscix group was matched to controls in ratios ranging from 1:1 to 4:1."||-11,802.70|-22,187.90|<0.0001
92226220|NCT02939131|184354118|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not. The study was designed for at least 80% power to detect an effect size of 0.8 standard deviations (SD), which corresponded to a difference of four points. We assumed an intracluster correlation coefficient (ICC) between 0.02 and 0.16 and allowed for 10% non-evaluability. In a pre-planned interim analysis, we estimated the ICC based on the entry QIDS-SR to be 0.10.|Mean Difference (Final Values)|-3.86||||0.01|TWO_SIDED|95.0|-6.79|-0.94|||t-test, 2 sided||We subtracted the mean of the ESC group from the mean of the COMB-R group. Because a lower score indicated less severe depressive symptoms, a negative value indicated superiority.|||-0.94|-6.79|0.01
92367390|NCT03458325|184637962|SUPERIORITY||Percentage Difference|-6.4||||0.6765|TWO_SIDED||||||Fisher Exact|||"The comparator arm was populated with claims data for patients who presented to the emergency department for worsening HF and were admitted to the hospital for ≤ 72 hours for the treatment of HF. The filter was further strengthened by analyzing diagnostic codes and resource utilization during their hospital stay to exclude hospitalizations other than Heart Failure.~Each subject from the Furoscix group was matched to controls in ratios ranging from 1:1 to 4:1."||||0.6765
92367391|NCT03458325|184637963|SUPERIORITY||Mean Difference (Net)|5.3||||0.5856|TWO_SIDED||||||Fisher Exact|||"The comparator arm was populated with claims data for patients who presented to the emergency department for worsening HF and were admitted to the hospital for ≤ 72 hours for the treatment of HF. The filter was further strengthened by analyzing diagnostic codes and resource utilization during their hospital stay to exclude hospitalizations other than Heart Failure.~Each subject from the Furoscix group was matched to controls in ratios ranging from 1:1 to 4:1."||||0.5856
92367392|NCT03458325|184637964|SUPERIORITY||Mean Difference (Net)|-1.9||||1|TWO_SIDED||||||Fisher Exact|||"The comparator arm was populated with claims data for patients who presented to the emergency department for worsening HF and were admitted to the hospital for ≤ 72 hours for the treatment of HF. The filter was further strengthened by analyzing diagnostic codes and resource utilization during their hospital stay to exclude hospitalizations other than Heart Failure.~Each subject from the Furoscix group was matched to controls in ratios ranging from 1:1 to 4:1."||||1.000
92367393|NCT03458325|184637965|SUPERIORITY||Mean Difference (Net)|65.1|||<|0.0001|TWO_SIDED||||||Chi-squared|||"The comparator arm was populated with claims data for patients who presented to the emergency department for worsening HF and were admitted to the hospital for ≤ 72 hours for the treatment of HF. The filter was further strengthened by analyzing diagnostic codes and resource utilization during their hospital stay to exclude hospitalizations other than Heart Failure.~Each subject from the Furoscix group was matched to controls in ratios ranging from 1:1 to 4:1."||||<0.0001
92367394|NCT03458325|184637966|SUPERIORITY||Mean Difference (Net)|12.8||||0.0443|TWO_SIDED|95.0|0.4|25.3|||t-test, 2 sided|P-value was obtained from the paired t-test statistic.||Analysis for Summary Score||25.3|0.4|0.0443
92405146|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.3||||0.8768|TWO_SIDED|95.0|-45.1|38.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||38.5|-45.1|0.8768
92405147|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|8.1||||0.7031|TWO_SIDED|95.0|-33.8|49.9|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||49.9|-33.8|0.7031
92405148|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.0||||0.8507|TWO_SIDED|95.0|-45.8|37.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.8|-45.8|0.8507
92405149|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|-62.3||||0.0381|TWO_SIDED|95.0|-121.2|-3.5|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-3.5|-121.2|0.0381
92405150|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|64.0||||0.0318|TWO_SIDED|95.0|5.7|122.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||122.3|5.7|0.0318
92405151|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|15.2||||0.6095|TWO_SIDED|95.0|-43.6|74.1|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||74.1|-43.6|0.6095
92405152|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.6||||0.647|TWO_SIDED|95.0|-71.9|44.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||44.8|-71.9|0.6470
92405153|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|7.0||||0.8136|TWO_SIDED|95.0|-51.4|65.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||65.4|-51.4|0.8136
92167343|NCT01068743|184224154|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of saxagliptin.|Ratio (%) of Geometric LS Means|106.24|||||TWO_SIDED|90.0|98.43|114.66|||||Ratio=Treatment D/Treatment C. Geometric least squares means values presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 98% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively. If there was a 5% difference, then 20 participants would have provided 93% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||114.66|98.43|
92167344|NCT01068743|184224154|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|9.73||||||||||||||Geometric least squares means for Treatment A.||||
92167345|NCT01068743|184224154|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|9.97||||||||||||||Geometric least squares means for Treatment B.||||
92167346|NCT01068743|184224154|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|10.33||||||||||||||Geometric least squares means for Treatment C.||||
92167347|NCT01068743|184224154|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|10.97||||||||||||||Geometric least squares means for Treatment D.||||
92405154|NCT01746901|184701074|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.6||||0.6699|TWO_SIDED|95.0|-71.0|45.7|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||45.7|-71.0|0.6699
92405155|NCT01746901|184701075|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6||||0.1728|TWO_SIDED|95.0|-3.9|0.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.7|-3.9|0.1728
92405156|NCT01746901|184701075|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3||||0.2616|TWO_SIDED|95.0|-1.0|3.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.6|-1.0|0.2616
92405157|NCT01746901|184701075|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.7307|TWO_SIDED|95.0|-1.9|2.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.7|-1.9|0.7307
92405158|NCT01746901|184701075|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.5473|TWO_SIDED|95.0|-3.0|1.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.6|-3.0|0.5473
92405159|NCT01746901|184701075|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.4999|TWO_SIDED|95.0|-3.1|1.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.5|-3.1|0.4999
92405160|NCT01746901|184701075|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.5592|TWO_SIDED|95.0|-3.0|1.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.6|-3.0|0.5592
92367395|NCT03458325|184637967|SUPERIORITY|Statistical Analysis for the mean change in NT-proBNP over 30 days|Mean Difference (Final Values)|-122.6||||0.5133|TWO_SIDED|95.0|-525.8|280.5|||t-test, 2 sided|||||280.5|-525.8|0.5133
92367396|NCT03458325|184637967|SUPERIORITY||Mean Difference (Final Values)|-719.9||||0.042|TWO_SIDED|95.0|-1406.5|-33.2|||t-test, 2 sided|||Statistical Analysis for mean change in BNP over 30 days||-33.2|-1406.5|0.0420
92367397|NCT02720523|184637972|SUPERIORITY||Response Rate Difference|32.7|||<|0.001|TWO_SIDED|95.0|14.3|51.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||51.0|14.3|<0.001
92405161|NCT01746901|184701076|SUPERIORITY_OR_OTHER||LS Mean Difference|13.3||||0.0217|TWO_SIDED|95.0|2.0|24.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.6|2.0|0.0217
92226221|NCT02939131|184354119|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|44.3|||<|0.001|TWO_SIDED|95.0|23.1|65.5|||t-test, 2 sided||We subtracted the group mean of the site percents with response for the ESC group from that of the COMB-R group. A positive value indicates the COMB-R group had a higher mean percent of participants with response compared to the ESC group.|||65.5|23.1|<0.001
92405162|NCT01746901|184701076|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4||||0.5513|TWO_SIDED|95.0|-7.8|14.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||14.6|-7.8|0.5513
92405163|NCT01746901|184701076|SUPERIORITY_OR_OTHER||LS Mean Difference|11.5||||0.0469|TWO_SIDED|95.0|0.2|22.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.8|0.2|0.0469
92405164|NCT01746901|184701076|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2||||0.3604|TWO_SIDED|95.0|-6.0|16.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.4|-6.0|0.3604
92405165|NCT01746901|184701076|SUPERIORITY_OR_OTHER||LS Mean Difference|6.2||||0.2725|TWO_SIDED|95.0|-5.0|17.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||17.4|-5.0|0.2725
92405166|NCT01746901|184701076|SUPERIORITY_OR_OTHER||LS Mean Difference|5.4||||0.3461|TWO_SIDED|95.0|-5.8|16.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.6|-5.8|0.3461
92405167|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4||||0.1828|TWO_SIDED|95.0|-1.1|5.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.8|-1.1|0.1828
92367398|NCT02720523|184637972|SUPERIORITY||Response Rate Difference|40.8|||<|0.001|TWO_SIDED|95.0|23.5|58.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||58.1|23.5|<0.001
92367399|NCT02720523|184637972|SUPERIORITY||Response Rate Difference|37.1|||<|0.001|TWO_SIDED|95.0|19.4|54.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||54.9|19.4|<0.001
92367400|NCT02720523|184637972|OTHER|Cochran-Armitage test was conducted for demonstrating a dose response relationship.|||||<|0.001|||||||Cochran-Armitage test|||||||<0.001
92405168|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5||||0.3908|TWO_SIDED|95.0|-5.0|1.9|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.9|-5.0|0.3908
92226222|NCT02939131|184354120|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|30.9||||0.01|TWO_SIDED|95.0|8.9|52.9|||t-test, 2 sided||We subtracted the group mean of the site percents with remission for the ESC group from the COMB-R group so a positive value indicates the COMB-R group has more participants with remission.|||52.9|8.9|0.01
92367401|NCT02720523|184637973|SUPERIORITY||Least Squares (LS) Mean Difference|-1.29|||<|0.001|TWO_SIDED|95.0|-1.693|-0.88|||ANCOVA|ANCOVA model including treatment as the fixed factor, and baseline value and the stratification factor prior bDMARD use as covariates.|Difference = Upadacitinib - Placebo|||-0.880|-1.693|<0.001
92367402|NCT02720523|184637973|SUPERIORITY||LS Mean Difference|-1.6|||<|0.001|TWO_SIDED|95.0|-2.005|-1.19|||ANCOVA|ANCOVA model including treatment as the fixed factor, and baseline value and the stratification factor prior bDMARD use as covariates.|Difference = Upadacitinib - Placebo|||-1.190|-2.005|<0.001
92367403|NCT02720523|184637973|SUPERIORITY||LS Mean Difference|-1.62|||<|0.001|TWO_SIDED|95.0|-2.027|-1.216|||ANCOVA|ANCOVA model including treatment as the fixed factor, and baseline value and the stratification factor prior bDMARD use as covariates.|Difference = Upadacitinib - Placebo|||-1.216|-2.027|<0.001
92367404|NCT02720523|184637974|SUPERIORITY||LS Mean Difference|-0.3|||<|0.001|TWO_SIDED|95.0|-0.465|-0.144|||ANCOVA|ANCOVA model includes treatment as the fixed factor, and the baseline value and stratification factor prior bDMARD use as the covariates.|Difference = Upadacitinib - Placebo|||-0.144|-0.465|<0.001
92367405|NCT02720523|184637974|SUPERIORITY||LS Mean Difference|-0.34|||<|0.001|TWO_SIDED|95.0|-0.505|-0.184|||ANCOVA|ANCOVA model includes treatment as the fixed factor, and the baseline value and stratification factor prior bDMARD use as the covariates.|Difference = Upadacitinib - Placebo|||-0.184|-0.505|<0.001
92367406|NCT02720523|184637974|SUPERIORITY||LS Mean Difference|-0.39|||<|0.001|TWO_SIDED|95.0|-0.55|-0.229|||ANCOVA|ANCOVA model includes treatment as the fixed factor, and the baseline value and stratification factor prior bDMARD use as the covariates.|Difference = Upadacitinib - Placebo|||-0.229|-0.550|<0.001
92367407|NCT02720523|184637975|SUPERIORITY||Response Rate Difference|24.5||||0.007|TWO_SIDED|95.0|7.3|41.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||41.7|7.3|0.007
92367408|NCT02720523|184637975|SUPERIORITY||Response Rate Difference|49.0|||<|0.001|TWO_SIDED|95.0|32.1|65.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||65.9|32.1|<0.001
92367409|NCT02720523|184637975|SUPERIORITY||Response Rate Difference|41.7|||<|0.001|TWO_SIDED|95.0|24.5|58.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||58.8|24.5|<0.001
92367410|NCT02720523|184637976|SUPERIORITY||Response Rate Difference|18.4||||0.004|TWO_SIDED|95.0|6.4|30.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||30.3|6.4|0.004
92367411|NCT02720523|184637976|SUPERIORITY||Response Rate Difference|32.7|||<|0.001|TWO_SIDED|95.0|18.7|46.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||46.6|18.7|<0.001
92367412|NCT02720523|184637976|SUPERIORITY||Response Rate Difference|26.0|||<|0.001|TWO_SIDED|95.0|12.9|39.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||39.0|12.9|<0.001
92367413|NCT02720523|184637977|SUPERIORITY||LS Mean Difference|4.33|||<|0.001|TWO_SIDED|95.0|2.1|6.57|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||6.57|2.10|<0.001
92367414|NCT02720523|184637977|SUPERIORITY||LS Mean Difference|3.5||||0.002|TWO_SIDED|95.0|1.25|5.75|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||5.75|1.25|0.002
92405169|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0||||0.2513|TWO_SIDED|95.0|-1.5|5.5|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.5|-1.5|0.2513
92405170|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.2||||0.5035|TWO_SIDED|95.0|-4.6|2.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.3|-4.6|0.5035
92405171|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6||||0.1452|TWO_SIDED|95.0|-0.9|6.0|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.0|-0.9|0.1452
92367415|NCT02720523|184637977|SUPERIORITY||LS Mean Difference|5.93|||<|0.001|TWO_SIDED|95.0|3.64|8.22|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||8.22|3.64|<0.001
92367416|NCT02720523|184637978|SUPERIORITY||Response Rate Difference|34.7|||<|0.001|TWO_SIDED|95.0|17.0|52.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||52.4|17.0|<0.001
92367417|NCT02720523|184637978|SUPERIORITY||Response Rate Difference|51.0|||<|0.001|TWO_SIDED|95.0|34.2|67.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||67.9|34.2|<0.001
92367418|NCT02720523|184637978|SUPERIORITY||Response Rate Difference|53.6|||<|0.001|TWO_SIDED|95.0|37.1|70.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||70.1|37.1|<0.001
92367419|NCT02720523|184637979|SUPERIORITY||Response Rate Difference|30.6|||<|0.001|TWO_SIDED|95.0|15.5|45.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||45.7|15.5|<0.001
92367420|NCT02720523|184637979|SUPERIORITY||Response Rate Difference|51.0|||<|0.001|TWO_SIDED|95.0|35.6|66.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||66.4|35.6|<0.001
92367421|NCT02720523|184637979|SUPERIORITY||Response Rate Difference|43.9|||<|0.001|TWO_SIDED|95.0|28.5|59.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||59.3|28.5|<0.001
92367422|NCT02720523|184637980|SUPERIORITY||Response Rate Difference|22.4||||0.006|TWO_SIDED|95.0|7.4|37.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||37.5|7.4|0.006
92367423|NCT02720523|184637980|SUPERIORITY||Response Rate Difference|16.3||||0.026|TWO_SIDED|95.0|2.1|30.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||30.6|2.1|0.026
92405172|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.9303|TWO_SIDED|95.0|-3.6|3.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.3|-3.6|0.9303
92167348|NCT01068743|184224155|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (B/A) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of metformin.|Ratio (%) of Geometric LS Means|102.1|||||TWO_SIDED|90.0|97.26|107.18|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 99% power to conclude BE with respect to each of Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would provide 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||107.18|97.26|
92226223|NCT02939131|184354121|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|19.0||||0.86|TWO_SIDED|95.0|-223.0|262.0|||t-test, 2 sided||Group mean for ESC is subtracted from the group mean for COMB-R. The group means are the means of the site mean CD4 cell counts.|||262|-223|0.86
92367424|NCT02720523|184637980|SUPERIORITY||Response Rate Difference|25.8||||0.002|TWO_SIDED|95.0|10.6|41.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||41.0|10.6|0.002
92367425|NCT02720523|184637981|SUPERIORITY||LS Mean Difference|2.66||||0.04|TWO_SIDED|95.0|0.12|5.2|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||5.20|0.12|0.040
92367426|NCT02720523|184637981|SUPERIORITY||LS Mean Difference|1.79||||0.169|TWO_SIDED|95.0|-0.77|4.35|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||4.35|-0.77|0.169
92367427|NCT02720523|184637981|SUPERIORITY||LS Mean Difference|0.85||||0.516|TWO_SIDED|95.0|-1.73|3.43|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||3.43|-1.73|0.516
92367428|NCT02720523|184637982|SUPERIORITY||LS Mean Difference|-2.54||||0.021|TWO_SIDED|95.0|-4.68|-0.39|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||-0.39|-4.68|0.021
92367429|NCT02720523|184637982|SUPERIORITY||LS Mean Difference|-2.06||||0.08|TWO_SIDED|95.0|-4.36|0.25|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||0.25|-4.36|0.080
92367430|NCT02720523|184637982|SUPERIORITY||LS Mean Difference|-1.56||||0.22|TWO_SIDED|95.0|-4.06|0.94|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||0.94|-4.06|0.220
92367431|NCT02720523|184637983|SUPERIORITY||LS Mean Difference|-1.81|||<|0.001|TWO_SIDED|95.0|-2.57|-1.04|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||-1.04|-2.57|<0.001
92367432|NCT02720523|184637983|SUPERIORITY||LS Mean Difference|-1.82|||<|0.001|TWO_SIDED|95.0|-2.59|-1.05|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||-1.05|-2.59|<0.001
92367433|NCT02720523|184637983|SUPERIORITY||LS Mean Difference|-1.96|||<|0.001|TWO_SIDED|95.0|-2.73|-1.18|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||-1.18|-2.73|<0.001
92405173|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|8.8||||0.0283|TWO_SIDED|95.0|0.9|16.7|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.7|0.9|0.0283
92405174|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7||||0.4861|TWO_SIDED|95.0|-10.5|5.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.0|-10.5|0.4861
92405175|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|5.3||||0.1809|TWO_SIDED|95.0|-2.5|13.2|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.2|-2.5|0.1809
92405176|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.856|TWO_SIDED|95.0|-7.1|8.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||8.5|-7.1|0.8560
92226224|NCT02939131|184354122|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|0.17||||0.66|TWO_SIDED|95.0|-0.65|0.99|||t-test, 2 sided||We subtracted the group mean for the ESC group from the group mean of the COMB-R group. The group means are the means of the site mean log10 HIV RNA copies/mL.|||0.99|-0.65|0.66
92367434|NCT01166347|184637986|NON_INFERIORITY|The non-inferiority margin was 15%.|Difference in Percentages|3.7||||0.011|ONE_SIDED|95.0||12.56|||Wald test||Difference = Control - HeartWare|Primary endpoint is 2 year survival free from disabling stroke (Modified Rankin Scale \>=4), death, exchange, explant due to device malfunction or urgent transplantation. Subjects who are electively transplanted or explanted due to recovery (no disabling stroke) must survive to 2 years post original implant to be considered a success.||12.56||0.0110
92367435|NCT01166347|184637987|SUPERIORITY||Difference in Percentages|1.1||||0.5922|TWO_SIDED|95.0|-8.5|10.8||If p\<0.05, then the test is statistically significant.|Regression, Logistic|Treatment as the only independent variable.|Difference = HeartWare - Control|If non-inferiority is established for the primary endpoint, statistical testing for superiority and p-value estimation for the 3 secondary endpoints (incidence of bleeding, incidence of major infection, overall survival) will be performed in a pre-specified sequence and testing will continue at the nominal alpha level until the first non-significant result. This fixed sequence procedure strongly controls the family-wise error rate for the collection of the 3 secondary endpoints.||10.8|-8.5|0.5922
92367436|NCT03541499|184638017|SUPERIORITY|||||||0.807|||||||Barnard's exact test|||At any time point||||0.807
92367437|NCT03541499|184638017|SUPERIORITY|||||||0.043|||||||Barnard's exact test|||At any time point||||0.043
92367438|NCT03541499|184638018|SUPERIORITY|||||||1|||||||Barnard's exact test|||Any time point||||1.000
92367439|NCT03541499|184638018|SUPERIORITY|||||||0.301|||||||Barnard's exact test|||Any time point||||0.301
92367440|NCT03541499|184638019|SUPERIORITY|||||||1|||||||Barnard's exact test|||Any time point||||1.000
92405177|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|4.7||||0.2385|TWO_SIDED|95.0|-3.1|12.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||12.4|-3.1|0.2385
92405178|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|3.7||||0.3479|TWO_SIDED|95.0|-4.1|11.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.5|-4.1|0.3479
92405179|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|27.7||||0.0185|TWO_SIDED|95.0|4.7|50.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||50.6|4.7|0.0185
92167349|NCT01068743|184224155|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (B/A) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of metformin.|Ratio (%) of Geometric LS Means|99.17|||||TWO_SIDED|90.0|96.23|102.21|||||Ratio=Treatment D/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 99% power to conclude BE with respect to each of Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would provide 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||102.21|96.23|
92167350|NCT01068743|184224155|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|11998.0||||||||||||||Geometric least squares mean for Treatment A.||||
92367441|NCT03541499|184638019|SUPERIORITY|||||||0.009|||||||Barnard's exact test|||Any time point||||0.009
92367442|NCT03541499|184638021|SUPERIORITY|||||||0.526|||||||Barnard's exact test|||IgA, any time point||||0.526
92367443|NCT03541499|184638021|SUPERIORITY|||||||0.1|||||||Barnard's exact test|||IgA, any time point||||0.100
92367444|NCT03541499|184638021|SUPERIORITY|||||||0.055|||||||Barnard's exact test|||IgG, any time point||||0.055
92367445|NCT03541499|184638021|SUPERIORITY|||||||0.023|||||||Barnard's exact test|||IgG, any time point||||0.023
92367446|NCT03541499|184638022|SUPERIORITY|||||||0.174|||||||Barnard's exact test|||IgA, any time point||||0.174
92405180|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9||||0.5471|TWO_SIDED|95.0|-15.8|29.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||29.7|-15.8|0.5471
92405181|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|24.5||||0.0367|TWO_SIDED|95.0|1.5|47.4|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||47.4|1.5|0.0367
92167351|NCT01068743|184224155|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|12250.0||||||||||||||Geometric least squares means for Treatment B.||||
92167352|NCT01068743|184224155|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|12036.0||||||||||||||Geometric least squares means for Treatment C.||||
92167353|NCT01068743|184224155|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|11937.0||||||||||||||Geometric least squares means for Treatment D.||||
92226225|NCT02939131|184354123|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.04|TWO_SIDED|95.0|0.1|4.0|||t-test, 2 sided||A positive difference indicates COMB-R group had a site-level average of more days in last 30 with missed HIV medication doses.|Comparison of COMB-R and ESC groups, number of days in last 30 with any missed HIV medication doses reported at week 24.||4.0|0.1|0.04
92367447|NCT03541499|184638022|SUPERIORITY|||||||0.006|||||||Barnard's exact test|||IgA, any time point||||0.006
92367448|NCT03541499|184638022|SUPERIORITY|||||||0.745|||||||Barnard's exact test|||IgG, any time point||||0.745
92367449|NCT03541499|184638022|SUPERIORITY|||||||0.023|||||||Barnard's exact test|||IgG, any time point||||0.023
92367450|NCT03541499|184638028|SUPERIORITY|||||||0.023|||||||Barnard's exact test|||IgA, any time point||||0.023
92367451|NCT03541499|184638028|SUPERIORITY|||||||0.142|||||||Barnard's exact test|||IgA, any time point||||0.142
92367452|NCT03541499|184638028|SUPERIORITY|||||||0.526|||||||Barnard's exact test|||IgG, any time point||||0.526
92367453|NCT03541499|184638028|SUPERIORITY|||||||0.142|||||||Barnard's exact test|||IgG, any time point||||0.142
92367454|NCT03541499|184638029|SUPERIORITY|||||||0.836|||||||Barnard's exact test|||IgA, any time point||||0.836
92367455|NCT03541499|184638029|SUPERIORITY|||||||1|||||||Barnard's exact test|||IgA, any time point||||1.000
92367456|NCT03541499|184638029|SUPERIORITY|||||||0.526|||||||Barnard's exact test|||IgG, any time point||||0.526
92167354|NCT01068743|184224156|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (B/A) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of metformin.|Ratio (%) of Geometric LS Means|99.5|||||TWO_SIDED|90.0|90.41|109.5|||||Ratio=Treatment B/Treatment A. Geometric least squares means values presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 99% power to conclude BE with respect to each of Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would provide 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||109.5|90.41|
92367457|NCT03541499|184638029|SUPERIORITY|||||||0.119|||||||Barnard's exact test|||IgG, any time point||||0.119
92367458|NCT03541499|184638030|SUPERIORITY|||||||0.271|||||||Barnard's exact test|||Any time point||||0.271
92367459|NCT03541499|184638030|SUPERIORITY|||||||0.226|||||||Barnard's exact test|||Any time point||||0.226
92367460|NCT03541499|184638031|SUPERIORITY|||||||0.783|||||||Barnard's exact test|||Any time point||||0.783
92367461|NCT03541499|184638031|SUPERIORITY|||||||0.001|||||||Barnard's exact test|||Any time point||||0.001
92367462|NCT03541499|184638032|SUPERIORITY|||||||0.745|||||||Barnard's exact test|||Any time point||||0.745
92367463|NCT03541499|184638032|SUPERIORITY|||||||0.068|||||||Barnard's exact test|||Any time point||||0.068
92367464|NCT03541499|184638033|SUPERIORITY|||||||0.585|||||||Barnard's exact test|||Any time point||||0.585
92367465|NCT03541499|184638033|SUPERIORITY|||||||1|||||||Barnard's exact test|||Any time point||||1.000
92367466|NCT03533660|184638060|SUPERIORITY||||||<|0.05||||||Applies to SOCRATES subscales recognition, ambivalence, taking steps at 6 weeks|t-test, 2 sided|||||||<.05
92367467|NCT03533660|184638060|SUPERIORITY||||||>|0.05||||||Applies to SOCRATES total scores and subscales (recognition, ambivalence, and taking steps) at intake and 3 months|t-test, 2 sided|||||||>.05
92367468|NCT03533660|184638061|SUPERIORITY||||||>|0.05||||||Applies to alcohol self-efficacy scale total score and subscales scores at intake, 6 weeks and 3 months|t-test, 2 sided|||||||>.05
92367469|NCT04446312|184638076|NON_INFERIORITY|The pre-defined non-inferiority margin was 10%.|Risk Difference (RD)|0.15|||<|0.001|TWO_SIDED|95.0|-3.97|4.27|||Mantel Haenszel|||||4.27|-3.97|<0.001
92367470|NCT01682356|184638117|SUPERIORITY|||||||0.0153|||||||t-test, 2 sided|Paired||||||0.0153
92367471|NCT01682356|184638118|SUPERIORITY|||||||0.0131|||||||t-test, 2 sided|Paired||||||0.0131
92367472|NCT01682356|184638119|SUPERIORITY|||||||0.83||||||P value adjusted for multiplicity|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.83
92367473|NCT01682356|184638120|SUPERIORITY||||||<|1e-07||||||P values adjusted for multiplicity. Exact P value 6.06 x 10\^-18.|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||<0.0000001
92367474|NCT01682356|184638121|SUPERIORITY||||||<|1e-07||||||P values adjusted for multiplicity. Exact P value 1.87 x 10\^-20.|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||<0.0000001
92367475|NCT01682356|184638122|SUPERIORITY||||||<|1e-07||||||P values adjusted for multiplicity. Exact P value 8.23 x 10\^-21.|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||<0.0000001
92405182|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|10.1||||0.3797|TWO_SIDED|95.0|-12.6|32.9|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||32.9|-12.6|0.3797
92367476|NCT01682356|184638123|SUPERIORITY|||||||0.6847||||||P values adjusted for multiplicity|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.6847
92367477|NCT01682356|184638124|SUPERIORITY|||||||0.6847||||||P values adjusted for multiplicity|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.6847
92367478|NCT01682356|184638125|SUPERIORITY|||||||0.4078||||||P values adjusted for multiplicity|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.4078
92367479|NCT01682356|184638126|SUPERIORITY|||||||0.4078||||||P values adjusted for multiplicity|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.4078
92367480|NCT01682356|184638127|SUPERIORITY|||||||0.3042||||||P value adjusted for multiplicity|ANOVA|Breath nitric oxide values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.3042
92367481|NCT01682356|184638128|SUPERIORITY||||||<|1e-07||||||P value adjusted for multiplicity. Exact P value 3.469 x 10\^-7.|ANOVA|Breath nitric oxide values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||<0.0000001
92405183|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|16.4||||0.1557|TWO_SIDED|95.0|-6.3|39.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||39.1|-6.3|0.1557
92405184|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|12.2||||0.2904|TWO_SIDED|95.0|-10.5|34.9|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||34.9|-10.5|0.2904
92405185|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|26.0||||0.0467|TWO_SIDED|95.0|0.4|51.6|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||51.6|0.4|0.0467
92405186|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|10.7||||0.4056|TWO_SIDED|95.0|-14.6|36.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||36.0|-14.6|0.4056
92367482|NCT01682356|184638129|SUPERIORITY||||||<|1e-07||||||P value adjusted for multiplicity. Exact P value 7.202 x 10\^-8|ANOVA|Breath nitric oxide values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||<0.0000001
92226226|NCT02939131|184354123|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.96|TWO_SIDED|95.0|-5.0|5.2|||t-test, 2 sided||A positive difference reflects greater number of days with missed HIV medication doses in last 30 days for COMB-R group.|Comparison of COMB-R and ESC groups, number of days in last 30 with any missed HIV medication doses reported at week 48.||5.2|-5.0|0.96
92226227|NCT02939131|184354124|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.27|TWO_SIDED|95.0|-1.1|0.4|||t-test, 2 sided||A positive difference means the COMB-R group rated adherence to HIV medications better than the ESC group.|Comparison of COMB-R and ESC groups, how good was participant at taking HIV medication doses; reported at week 24.||0.4|-1.1|0.27
92367483|NCT01682356|184638130|SUPERIORITY|||||||2.13e-06||||||P value adjusted for multiplicity. Exact P value 2.129 x 10\^-6.|ANOVA|Breath nitric oxide values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.00000213
92367484|NCT01682356|184638131|SUPERIORITY|||||||0.3918||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.3918
92367485|NCT01682356|184638132|SUPERIORITY|||||||0.0598||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.05980
92367486|NCT01682356|184638133|SUPERIORITY|||||||0.3918||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.3918
92367487|NCT01682356|184638134|SUPERIORITY|||||||0.0987||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.09870
92367488|NCT01682356|184638135|SUPERIORITY|||||||0.6044||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.6044
92367489|NCT01682356|184638136|SUPERIORITY|||||||0.6044||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.6044
92367490|NCT01682356|184638137|SUPERIORITY|||||||0.8819||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.8819
92367491|NCT01682356|184638138|SUPERIORITY|||||||0.8987||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.8987
92367492|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L inferior frontal gyrus||||<0.05
92367493|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Desire to void: L superior temporal gyrus||||<0.05
92367494|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L inferior temporal gyrus||||<0.05
92367495|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L middle temporal gyrus||||<0.05
92367496|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R middle temporal gyrus||||<0.05
92367497|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L inferior parietal lobule||||<0.05
92367498|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R inferior parietal lobule||||<0.05
92367499|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R paracentral lobule||||<0.05
92367500|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R superior parietal lobule||||<0.05
92367501|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R supplementary motor area||||<0.05
92367502|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L postcentral gyrus||||<0.05
92367503|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R postcentral gyrus||||<0.05
92367504|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L angular gyrus||||<0.05
92367505|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R supramarginal gyrus||||<0.05
92367506|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L superior medial gyrus||||<0.05
92367507|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L inferior occipital gyrus||||<0.05
92367508|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L middle cingulate cortex||||<0.05
92367509|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R middle cingulate cortex||||<0.05
92367510|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R posterior cingulate cortex||||<0.05
92367511|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L thalamus||||<0.05
92367512|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R thalamus||||<0.05
92367513|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L precuneus||||<0.05
92367514|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R precuneus||||<0.05
92367515|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L caudate nucleus||||<0.05
92367516|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire void: L hippocampus||||<0.05
92367517|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L hippocampus||||<0.05
92367518|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L putamen||||<0.05
92367519|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L precentral gyrus||||<0.05
92226228|NCT02939131|184354124|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.44|TWO_SIDED|95.0|-0.4|0.9|||t-test, 2 sided||A positive difference would indicate the COMB-R group rated their adherence better than the ESC group.|Comparison of COMB-R and ESC groups, how good was participant at taking HIV medication doses; reported at week 48.||0.9|-0.4|0.44
92226229|NCT02939131|184354125|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.14|TWO_SIDED|95.0|-1.1|0.2|||t-test, 2 sided||A positive difference would indicate the COMB-R group rated their adherence better than the ESC group.|Comparison of COMB-R and ESC groups, how often did participant take HIV medication as instructed; reported at week 24.||0.2|-1.1|0.14
92367520|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R precentral gyrus||||<0.05
92367521|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L insula lobe||||<0.05
92367522|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L superior frontal gyrus||||<0.05
92367523|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L middle frontal gyrus||||<0.05
92367524|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R cerebellum||||<0.05
92367525|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R fusiform gyrus||||<0.05
92367526|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L postcentral gyrus||||<0.05
92367527|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R postcentral gyrus||||<0.05
92226230|NCT02939131|184354125|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.49|TWO_SIDED|95.0|-0.6|1.1|||t-test, 2 sided||A positive difference would indicate the COMB-R group rated their adherence better than the ESC group.|Comparison of COMB-R and ESC groups, how often did participant take HIV medication as instructed; reported at week 48.||1.1|-0.6|0.49
92226231|NCT02939131|184354126|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.05|TWO_SIDED|95.0|0.0|4.4|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group had more days with missed depression medications than those in the ESC group.|Comparison of COMB-R and ESC groups, number of days in last 30 with any missed depression medication doses reported at week 24.||4.4|0.0|0.05
92367528|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L precentral gyrus||||<0.05
92367529|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R precentral gyrus||||<0.05
92226232|NCT02939131|184354126|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.53|TWO_SIDED|95.0|-12.5|7.1|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group reported more days with missed doses than those in the ESC group.|Comparison of COMB-R and ESC groups, number of days in last 30 with any missed depression medication doses reported at week 48.||7.1|-12.5|0.53
92367530|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L superior temporal gyrus||||<0.05
92367531|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R superior temporal gyrus||||<0.05
92367532|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L middle temporal gyrus||||<0.05
92367533|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R middle temporal gyrus||||<0.05
92367534|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L inferior temporal gyrus||||<0.05
92367535|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L supramarginal gyrus||||<0.05
92367536|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R supramarginal gyrus||||<0.05
92367537|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding Initiation: L inferior occipital gyrus||||<0.05
92367538|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R superior occipital gyrus||||<0.05
92367539|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding Initiation: R middle occipital gyrus||||<0.05
92367540|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L inferior frontal gyrus (p. Orbitalis)||||<0.05
92367541|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L inferior frontal gyrus (p. Triangularis)||||<0.05
92367542|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L inferior frontal gyrus (p. Opercularis)||||<0.05
92367543|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R inferior frontal gyrus (p. Orbitalis)||||<0.05
92367544|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R inferior frontal gyrus (p. Triangularis)||||<0.05
92367545|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L cerebellum||||<0.05
92367546|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L rectal gyrus||||<0.05
92367547|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R rectal gyrus||||<0.05
92367548|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L superior medial gyrus||||<0.05
92367549|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R superior medial gyrus||||<0.05
92367550|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L superior frontal gyrus||||<0.05
92367551|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R superior frontal gyrus||||<0.05
92367552|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L middle frontal gyrus||||<0.05
92367553|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R middle frontal gyrus||||<0.05
92367554|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L supplementary motor area (SMA)||||<0.05
92367555|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R SMA||||<0.05
92367556|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L paracentral lobule||||<0.05
92367557|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R paracentral lobule||||<0.05
92367558|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R superior parietal lobule||||<0.05
92367559|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R inferior parietal lobule||||<0.05
92367560|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L superior orbital gyrus||||<0.05
92405187|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|23.3||||0.0738|TWO_SIDED|95.0|-2.3|48.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||48.9|-2.3|0.0738
92405188|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|13.4||||0.2987|TWO_SIDED|95.0|-12.0|38.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||38.7|-12.0|0.2987
92405189|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|22.9||||0.0763|TWO_SIDED|95.0|-2.4|48.2|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||48.2|-2.4|0.0763
92405190|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|12.3||||0.3396|TWO_SIDED|95.0|-13.1|37.6|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.6|-13.1|0.3396
92405191|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.2||||0.2425|TWO_SIDED|95.0|-89.1|22.7|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.7|-89.1|0.2425
92405192|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|62.1||||0.0281|TWO_SIDED|95.0|6.8|117.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||117.5|6.8|0.0281
92405193|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|22.9||||0.4189|TWO_SIDED|95.0|-33.0|78.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||78.8|-33.0|0.4189
92405194|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|6.0||||0.831|TWO_SIDED|95.0|-49.4|61.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||61.4|-49.4|0.8310
92167355|NCT01068743|184224156|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of metformin.|Ratio (%) of Geometric LS Means|98.22|||||TWO_SIDED|90.0|94.28|102.32|||||Ratio=Treatment D/Treatment C. Geometric least squares means values presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 99% power to conclude BE with respect to each of Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would provide 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||102.32|94.28|
92276953|NCT04136626|184455475|SUPERIORITY||Mean Difference (Final Values)|-2.0475||||0.0871|TWO_SIDED|95.0|-4.3977|0.3027||The p-value was not adjusted for multiple comparisons because this was the pre-specified primary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the Perspectives OCD group outcome compared to the Health and Well-Being Program group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in Y-BOCS total scores between the treatment groups at endpoint (week 12).||0.3027|-4.3977|0.0871
92405195|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|34.8||||0.2161|TWO_SIDED|95.0|-20.6|90.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||90.1|-20.6|0.2161
92405196|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|3.9||||0.8905|TWO_SIDED|95.0|-51.5|59.2|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||59.2|-51.5|0.8905
92405197|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.8||||0.1597|TWO_SIDED|95.0|-124.2|20.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.6|-124.2|0.1597
92167356|NCT01068743|184224156|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL|1724.4||||||||||||||Geometric least squares means for Treatment A.||||
92167357|NCT01068743|184224156|SUPERIORITY_OR_OTHER||Geometric Least Square Means (ng/mL)|1715.8||||||||||||||Geometric least squares means for Treatment B.||||
92405198|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|70.9||||0.0525|TWO_SIDED|95.0|-0.8|142.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||142.6|-0.8|0.0525
92405199|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|23.1||||0.5294|TWO_SIDED|95.0|-49.3|95.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||95.4|-49.3|0.5294
92405200|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.0||||0.9126|TWO_SIDED|95.0|-75.7|67.7|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||67.7|-75.7|0.9126
92167358|NCT01068743|184224156|SUPERIORITY_OR_OTHER||Geometric Least Square Mean (ng/mL)|1581.4||||||||||||||Geometric least squares means for Treatment C.||||
92167359|NCT01068743|184224156|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|1553.2||||||||||||||Geometric least squares means for Treatment D.||||
92167360|NCT01068743|184224161|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|101.43|||||TWO_SIDED|90.0|98.07|104.9|||||Ratio=Treatment B/Treatment A. Geometric least squares means values presented in other statistical analysis entries.|||104.90|98.07|
92167361|NCT01068743|184224161|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|102.52|||||TWO_SIDED|90.0|99.56|105.57|||||Ratio=Treatment D/Treatment C. Geometric least squares means values presented in other statistical analysis entries.|||105.57|99.56|
92167362|NCT01068743|184224161|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|47.15|||||||||||||Geometric least squares means for Treatment A.|||||
92167363|NCT01068743|184224161|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|47.83|||||||||||||Geometric least squares means for Treatment B.|||||
92367561|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L middle orbital gyrus||||<0.05
92367562|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R middle orbital gyrus||||<0.05
92367563|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R calcarine gyrus||||<0.05
92367564|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L calcarine gyrus||||<0.05
92367565|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L anterior cingulate cortex||||<0.05
92367566|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L middle cingulate cortex||||<0.05
92367567|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R middle cingulate cortex||||<0.05
92367568|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R angular gyrus||||<0.05
92367569|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L thalamus||||<0.05
92367570|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R thalamus||||<0.05
92167364|NCT01068743|184224161|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|50.89|||||||||||||Geometric least squares means for Treatment C.|||||
92367571|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L precuneus||||<0.05
92367572|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R precuneus||||<0.05
92367573|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R caudate nucleus||||<0.05
92367574|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L putamen||||<0.05
92367575|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L amygdala||||<0.05
92367576|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R insula lobe||||<0.05
92367577|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L rolandic operculum||||<0.05
92167365|NCT01068743|184224161|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|52.17|||||||||||||Geometric least squares means for Treatment D.|||||
92367578|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L hippocampus||||<0.05
92367579|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R hippocampus||||<0.05
92367580|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R fusiform gyrus||||<0.05
92405201|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|34.6||||0.3418|TWO_SIDED|95.0|-37.1|106.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||106.3|-37.1|0.3418
92167366|NCT01068743|184224164|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|100.41|||||TWO_SIDED|90.0|95.4|105.68|||||Ratio=Treatment B/Treatment A. Geometric least squares means values presented in other statistical analysis entries.|||105.68|95.40|
92167367|NCT01068743|184224164|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|99.06|||||TWO_SIDED|90.0|96.19|102.02|||||Ratio=Treatment D/Treatment C. Geometric least squares means values presented in other statistical analysis entries.|||102.02|96.19|
92167368|NCT01068743|184224164|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|11827.0|||||||||||||Geometric least squares means for Treatment A.|||||
92167369|NCT01068743|184224164|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|11875.0|||||||||||||Geometric least squares means for Treatment B.|||||
92367581|NCT03574610|184638167|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R rolandic operculum||||<0.05
92167370|NCT01068743|184224164|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|11845.0|||||||||||||Geometric least squares means for Treatment C.|||||
92167371|NCT01068743|184224164|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|11734.0|||||||||||||Geometric least squares means for Treatment D.|||||
92167372|NCT03740009|184224190|NON_INFERIORITY|For analyses the researchers used a paired T-test to compare baseline and post-treatment mean activation values across 3 regions of interest (ROIs): the caudate, putamen and nucleus accumbens.||||||0.53|||||||t-test, 2 sided|||\[Ho\]: TSEC has no meaningful effect on activity within key nodes of the frontostriate in response to reward.||||0.53
92367582|NCT03574610|184638168|OTHER|||||||0.45||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||Voided volume - baseline vs post-treatment||||0.45
92367583|NCT03574610|184638168|OTHER|||||||0.39||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||Voided volume - baseline vs 4 month follow-up||||0.39
92367584|NCT03574610|184638168|OTHER|||||||0.014||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||PVR - baseline vs post-treatment||||0.014
92367585|NCT03574610|184638168|OTHER|||||||0.66||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||PVR - baseline vs 4 month follow-up||||0.66
92367586|NCT03574610|184638168|OTHER|||||||0.31||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||Bladder capacity - baseline vs post-treatment||||0.31
92367587|NCT03574610|184638168|OTHER|||||||0.001||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||Bladder capacity - baseline vs 4 month follow-up||||0.001
92367588|NCT03574610|184638169|OTHER|||||||0.004||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||% PVR/BC - baseline vs post-treatment||||0.004
92367589|NCT03574610|184638169|OTHER|||||||0.038||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||%PVR/BC - baseline vs 4 month follow-up||||0.038
92367590|NCT03574610|184638170|OTHER|||||||0.19||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||Qmax - baseline vs post-treatment||||0.19
92367591|NCT03574610|184638170|OTHER|||||||0.91||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||Max - baseline vs 4 month follow-up||||0.91
92405202|NCT01746901|184701077|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3||||0.8833|TWO_SIDED|95.0|-77.0|66.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||66.4|-77.0|0.8833
92405203|NCT01746901|184701078|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.6||||0.0041|TWO_SIDED|95.0|-6.1|-1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.2|-6.1|0.0041
92405204|NCT01746901|184701078|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3||||0.0006|TWO_SIDED|95.0|1.9|6.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.8|1.9|0.0006
92367592|NCT03574610|184638171|OTHER|||||||0.13||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||Liverpool nomogram percentile - baseline vs post-treatment||||0.13
92367593|NCT03574610|184638171|OTHER|||||||0.26||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||Liverpool nomogram percentile - baseline vs 4 month follow-up||||0.26
92367594|NCT03574610|184638172|OTHER|||||||0.4||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||UDI-6 Q1 - baseline vs post-treatment||||0.40
92367595|NCT03574610|184638172|OTHER|||||||0.086||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||UDI-6 Q1 - baseline vs 4 month follow-up||||0.086
92367596|NCT03574610|184638172|OTHER|||||||0.54||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test.||UDI-6 Q2 - baseline vs post-treatment||||0.54
92167373|NCT03740009|184224191|NON_INFERIORITY|Analysis included MASQ-AD scores from all visits to characterize the change in scores from baseline to post-treatment.|GLM|-5.8|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|||||Mixed models of 3 week TSEC administration for MASQ-AD scores assessed at each study visit from baseline to post-treatment.|GLM||F value=13.26|\[Ho\] No change in depressive symptoms from baseline throughout 3 weeks of TSEC administration||||<0.001
92167374|NCT01061151|184224192|SUPERIORITY||Risk Difference (RD)|-1.3|||||TWO_SIDED|96.5|-2.1|-0.4|||||The combination of Arm B and Arm C minus Arm A, based on a repeated confidence interval (Lan-DeMets approach with an O'Brien-Fleming type I error spending function to preserve an experiment-wise type I error rate of 5%).|Arm B and Arm C were combined and compared to Arm A. This comparison was an a priori planned comparison.||-0.4|-2.1|
92367597|NCT03574610|184638172|OTHER|||||||0.19||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||UDI-6 Q2 - baseline vs 4 month follow-up||||0.19
92367598|NCT03574610|184638172|OTHER|||||||0.04||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||UDI-6 Q5 - baseline vs post-treatment||||0.04
92367599|NCT03574610|184638172|OTHER|||||||0.026||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||UDI-6 5 - baseline vs 4 month follow-up||||0.026
92367600|NCT03574610|184638173|OTHER|||||||0.044||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||AUASS Q3 - baseline vs post-treatment||||0.044
92405205|NCT01746901|184701078|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.8765|TWO_SIDED|95.0|-2.7|2.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.3|-2.7|0.8765
92405206|NCT01746901|184701078|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9||||0.4746|TWO_SIDED|95.0|-1.6|3.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.3|-1.6|0.4746
92405207|NCT01746901|184701078|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9||||0.4607|TWO_SIDED|95.0|-3.3|1.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.5|-3.3|0.4607
92167375|NCT01061151|184224193|SUPERIORITY|||||||0.008|||||||Fisher Exact|||Periods 1 and 2||||0.008
92167376|NCT01061151|184224193|SUPERIORITY|||||||0.77|||||||Fisher Exact|||Period 2||||0.77
92167377|NCT01061151|184224193|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Period 2||||>0.99
92167378|NCT01061151|184224194|SUPERIORITY|||||||0.3|||||||Fisher Exact|||Periods 1 and 2||||0.30
92167379|NCT01061151|184224194|SUPERIORITY|||||||0.64|||||||Fisher Exact|||Period 2||||0.64
92167380|NCT01061151|184224194|SUPERIORITY|||||||0.06|||||||Fisher Exact|||Period 2||||0.06
92167381|NCT01061151|184224195|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Periods 1 and 2||||<0.001
92167382|NCT01061151|184224195|SUPERIORITY|||||||0.04|||||||Fisher Exact|||Period 2||||0.04
92167383|NCT01061151|184224195|SUPERIORITY|||||||0.46|||||||Fisher Exact|||Period 2||||0.46
92367601|NCT03574610|184638173|OTHER|||||||0.017||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||AUASS Q3 - baseline vs 4 month follow-up||||0.017
92367602|NCT03574610|184638173|OTHER|||||||0.54||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||AUASS Q5 - baseline vs post-treatment||||0.54
92367603|NCT03574610|184638173|OTHER|||||||0.503||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||AUASS Q5 - baseline vs 4 month follow-up||||0.503
92367604|NCT03574610|184638173|OTHER|||||||0.023||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||AUASS Q7 - baseline vs post-treatment||||0.023
92367605|NCT03574610|184638173|OTHER|||||||0.049||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||AUASS Q7 - baseline vs 4 month follow-up||||0.049
92367606|NCT03574610|184638173|OTHER|||||||0.089||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||AUASS Q8 - baseline vs post-treatment||||0.089
92405208|NCT01746901|184701078|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5||||0.2316|TWO_SIDED|95.0|-1.0|3.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.9|-1.0|0.2316
92405209|NCT01746901|184701079|SUPERIORITY_OR_OTHER||LS Mean Difference|38.8|||<|0.0001|TWO_SIDED|95.0|26.4|51.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||51.3|26.4|<0.0001
92405210|NCT01746901|184701079|SUPERIORITY_OR_OTHER||LS Mean Difference|15.8||||0.0136|TWO_SIDED|95.0|3.3|28.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.3|3.3|0.0136
92405211|NCT01746901|184701079|SUPERIORITY_OR_OTHER||LS Mean Difference|18.5||||0.0039|TWO_SIDED|95.0|6.1|31.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||31.0|6.1|0.0039
92405212|NCT01746901|184701079|SUPERIORITY_OR_OTHER||LS Mean Difference|36.1|||<|0.0001|TWO_SIDED|95.0|23.6|48.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||48.5|23.6|<0.0001
92405213|NCT01746901|184701079|SUPERIORITY_OR_OTHER||LS Mean Difference|15.4||||0.0157|TWO_SIDED|95.0|2.9|27.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||27.8|2.9|0.0157
92405214|NCT01746901|184701079|SUPERIORITY_OR_OTHER||LS Mean Difference|32.9|||<|0.0001|TWO_SIDED|95.0|20.5|45.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||45.3|20.5|<0.0001
92405215|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|12.5|||<|0.0001|TWO_SIDED|95.0|6.4|18.6|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||18.6|6.4|<0.0001
92405216|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5||||0.255|TWO_SIDED|95.0|-2.6|9.6|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||9.6|-2.6|0.2550
92405217|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|10.4||||0.001|TWO_SIDED|95.0|4.3|16.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.4|4.3|0.0010
92405218|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|5.7||||0.0667|TWO_SIDED|95.0|-0.4|11.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.8|-0.4|0.0667
92405219|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|8.3||||0.0075|TWO_SIDED|95.0|2.3|14.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||14.4|2.3|0.0075
92405220|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|4.6||||0.1354|TWO_SIDED|95.0|-1.5|10.7|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.7|-1.5|0.1354
92405221|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|50.9|||<|0.0001|TWO_SIDED|95.0|34.2|67.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||67.5|34.2|<0.0001
92405222|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|7.3||||0.3905|TWO_SIDED|95.0|-9.4|24.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.0|-9.4|0.3905
92405223|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|28.6||||0.0009|TWO_SIDED|95.0|11.9|45.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||45.3|11.9|0.0009
92405224|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|29.6||||0.0006|TWO_SIDED|95.0|12.9|46.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||46.3|12.9|0.0006
92167384|NCT01061151|184224196|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|96.0|0.3|3.1|||||The confidence interval was based on a repeated confidence interval.|||3.1|0.3|
92167385|NCT01061151|184224197|SUPERIORITY|||||||0.98|||||||Log Rank|||||||0.98
92167386|NCT01061151|184224198|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.37|TWO_SIDED|95.0|0.14|2.08|||Log Rank||The hazard ratio compares Arm A relative to Arm B.|||2.08|0.14|0.37
92167387|NCT01061151|184224200|SUPERIORITY|||||||0.16|||||||Two-sided Z test|||Overall survival||||0.16
92167388|NCT01061151|184224200|SUPERIORITY|||||||0.0156|||||||Two-sided Z test|||Overall survival, period 2 group||||0.0156
92167389|NCT01061151|184224200|SUPERIORITY|||||||0.31|||||||Two-sided Z test|||Overall survival, period 2 group||||0.31
92167390|NCT01061151|184224200|SUPERIORITY|||||||0.0022|||||||Two-sided Z test|||Overall survival, period 2 group||||0.0022
92167391|NCT01061151|184224200|SUPERIORITY|||||||0.13|||||||Two-sided Z test|||HIV-free survival||||0.13
92167392|NCT01061151|184224200|SUPERIORITY|||||||0.44|||||||Two-sided Z test|||HIV-free survival, period 2 group||||0.44
92167393|NCT01061151|184224200|SUPERIORITY|||||||0.24|||||||Two-sided Z test|||HIV-free survival, period 2 group||||0.24
92167394|NCT01061151|184224200|SUPERIORITY|||||||0.26|||||||Two-sided Z test|||HIV-free survival, group 2||||0.26
92167395|NCT02384070|184224229|SUPERIORITY_OR_OTHER|||||||1||||||Analysis of the variance was used and Chi-square test for categorical variables. A sample size was calculated for a 95% confidence level and a power of 80%, assuming a 10% difference between groups.|ANOVA|||||||1
92167396|NCT02384070|184224229|SUPERIORITY_OR_OTHER|||||||1||||||The prior threshold for statistical significance was P \< 0.05|ANOVA|||||||1
92367607|NCT03574610|184638173|OTHER|||||||0.161||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||AUASS Q8 - baseline vs 4 month follow-up||||0.161
92367608|NCT03574610|184638174|OTHER|||||||0.01||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||NBSS (Incontinence) - baseline vs post-treatment||||0.010
92367609|NCT03574610|184638174|OTHER|||||||0.41||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||NBSS (Incontinence) - baseline vs 4 month follow-up||||0.41
92367610|NCT03574610|184638174|OTHER|||||||0.32||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||NBSS (Storage and Voiding) - baseline vs post-treatment||||0.32
92367611|NCT03574610|184638174|OTHER|||||||0.02||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||NBSS (Storage and Voiding) - baseline vs 4 month follow-up||||0.02
92367612|NCT03574610|184638174|OTHER|||||||0.34||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||NBSS (Consequences) - baseline vs post-treatment||||0.34
92367613|NCT03574610|184638174|OTHER|||||||0.61||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||NBSS (Consequences) - baseline vs 4 month follow-up||||0.61
92367614|NCT03574610|184638174|OTHER|||||||0.02||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||NBSS (QoL) - baseline vs post-treatment||||0.02
92405225|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|22.9||||0.0072|TWO_SIDED|95.0|6.3|39.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||39.5|6.3|0.0072
92405226|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|25.0||||0.0035|TWO_SIDED|95.0|8.4|41.6|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||41.6|8.4|0.0035
92367615|NCT03574610|184638174|OTHER|||||||0.07||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||NBSS (QoL) - baseline vs 4 month follow-up||||0.07
92367616|NCT00958360|184638257|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
92367617|NCT00958360|184638258|SUPERIORITY_OR_OTHER|||||||0.13|||||||t-test, 2 sided|||||||0.13
92367618|NCT00958360|184638259|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
92367619|NCT00958360|184638260|SUPERIORITY_OR_OTHER|||||||0.013|||||||t-test, 2 sided|||||||0.013
92367620|NCT00958360|184638261|SUPERIORITY_OR_OTHER|||||||0.013|||||||t-test, 2 sided|||||||0.013
92367621|NCT01061723|184638262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.966|TWO_SIDED|95.0|0.4|2.5||Threshold for significance = 0.05|Cochran-Mantel-Haenszel|||Sarilumab group was compared to placebo group. Analysis was performed using two-sided Cochran-Mantel-Haenszel test. Pairwise comparisons of the response rates between each dose of sarilumab and placebo were derived.||2.5|0.4|0.966
92367622|NCT01061723|184638262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.467|TWO_SIDED|95.0|0.6|3.5||Threshold for significance = 0.05|Cochran-Mantel-Haenszel|||||3.5|0.6|0.467
92367623|NCT01061723|184638262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.559|TWO_SIDED|95.0|0.3|1.9||Threshold for significance = 0.05|Cochran-Mantel-Haenszel|||||1.9|0.3|0.559
92367624|NCT01061723|184638262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.496|TWO_SIDED|95.0|0.6|3.4||Threshold for significance = 0.05|Cochran-Mantel-Haenszel|||||3.4|0.6|0.496
92167397|NCT03926039|184224232|EQUIVALENCE|Equivalence Analysis||||||0.05|||||||ANOVA|||Both group of average difference (95% CI) in intervention group and control group||||0.05
92367625|NCT01061723|184638262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.143|TWO_SIDED|95.0|0.8|4.2||Threshold for significance = 0.05|Cochran-Mantel-Haenszel|||||4.2|0.8|0.143
92367626|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.28|0.56|||||Confidence Intervals (CI) for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 minus \[-\] Vax 1).|Serotype 1: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.56|0.28|
92367627|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.67|1.01|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 3: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||1.01|0.67|
92405227|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|248.4|||<|0.0001|TWO_SIDED|95.0|188.6|308.3|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||308.3|188.6|<0.0001
92167398|NCT03756571|184224240|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
92167399|NCT03756571|184224241|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
92167400|NCT03756571|184224242|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
92167401|NCT03756571|184224243|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
92167402|NCT03756571|184224244|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
92167403|NCT03756571|184224245|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||||||0.33
92167404|NCT03756571|184224246|SUPERIORITY|||||||0.03|||||||Regression, Linear|||||||0.03
92167405|NCT03756571|184224247|SUPERIORITY|||||||0.03|||||||Regression, Linear|||||||0.03
92167406|NCT03756571|184224248|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
92226233|NCT02939131|184354127|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.13|TWO_SIDED|95.0|-1.5|0.2|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group were better at taking medications.|Comparison of COMB-R and ESC groups, how good was participant at taking depression medication; reported at week 24.||0.2|-1.5|0.13
92226234|NCT02939131|184354127|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.53|TWO_SIDED|95.0|-1.1|2.0|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group were better at taking their medications.|Comparison of COMB-R and ESC groups, how good was participant at taking depression medication; reported at week 48.||2.0|-1.1|0.53
92367628|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.44|0.72|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 4: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.72|0.44|
92367629|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.32|0.53|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 5: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.53|0.32|
92367630|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.45|0.91|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 6A: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.91|0.45|
92367631|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.56|1.01|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 6B: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||1.01|0.56|
92367632|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.25|0.65|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 7F: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.65|0.25|
92367633|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.16|0.4|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 9V: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.40|0.16|
92367634|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.4|0.78|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 14: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.78|0.40|
92367635|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.4|0.65|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 18C: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.65|0.40|
92367636|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.3|0.48|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 19A: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.48|0.30|
92367637|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.35|0.67|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 19F: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.67|0.35|
92367638|NCT00500357|184638274|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|1.3|||||TWO_SIDED|95.0|0.86|1.86|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 23F: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||1.86|0.86|
92405228|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|68.2||||0.0263|TWO_SIDED|95.0|8.2|128.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||128.2|8.2|0.0263
92367639|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.34|0.57|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 1: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.57|0.34|
92367640|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.66|0.95|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 3: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.95|0.66|
92367641|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.76|1.22|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 4: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.22|0.76|
92367642|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.57|0.8|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 5: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.80|0.57|
92367643|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|2.0|||||TWO_SIDED|95.0|1.39|2.84|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 6A: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||2.84|1.39|
92367644|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.11|1.63|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 6B: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.63|1.11|
92367645|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.18|0.41|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 7F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.41|0.18|
92367646|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.27|0.68|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 9V: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.68|0.27|
92367647|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.57|0.83|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 14: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.83|0.57|
92405229|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|151.2|||<|0.0001|TWO_SIDED|95.0|91.3|211.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||211.1|91.3|<0.0001
92405230|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|165.4|||<|0.0001|TWO_SIDED|95.0|105.6|225.3|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||225.3|105.6|<0.0001
92167407|NCT03756571|184224249|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||||||0.18
92367648|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.66|1.03|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 18C: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.03|0.66|
92405231|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|97.9||||0.0015|TWO_SIDED|95.0|38.3|157.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||157.6|38.3|0.0015
92167408|NCT03756571|184224250|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
92167409|NCT03756571|184224251|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.80
92367649|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.58|0.78|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 19A: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.78|0.58|
92367650|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.47|0.73|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 19F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.73|0.47|
92367651|NCT00500357|184638277|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|1.5|||||TWO_SIDED|95.0|1.18|1.94|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 23F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.94|1.18|
92367652|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.65|||||TWO_SIDED|95.0|0.52|0.82|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 1: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.82|0.52|
92367653|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.52|||||TWO_SIDED|95.0|0.43|0.62|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 3: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.62|0.43|
92367654|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.63|||||TWO_SIDED|95.0|0.53|0.76|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 4: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.76|0.53|
92367655|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.32|||||TWO_SIDED|95.0|0.27|0.39|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 5: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.39|0.27|
92367656|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.74|1.1|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 6A: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||1.10|0.74|
92367657|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.79|||||TWO_SIDED|95.0|0.63|0.99|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 6B: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.99|0.63|
92367658|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.72|||||TWO_SIDED|95.0|0.6|0.87|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 7F: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.87|0.60|
92367659|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.6|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 9V: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.60|0.42|
92405232|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|138.4|||<|0.0001|TWO_SIDED|95.0|78.7|198.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||198.2|78.7|<0.0001
92226235|NCT02939131|184354128|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.07|TWO_SIDED|95.0|-1.3|0.1|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group reported better adherence.|Comparison of COMB-R and ESC groups, how often did participant take depression medication as instructed; reported at week 24.||0.1|-1.3|0.07
92367660|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.76|||||TWO_SIDED|95.0|0.59|0.98|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 14: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.98|0.59|
92367661|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.38|||||TWO_SIDED|95.0|0.31|0.46|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 18C: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.46|0.31|
92367662|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.49|0.74|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 19A: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.74|0.49|
92367663|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.64|||||TWO_SIDED|95.0|0.52|0.79|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 19F: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.79|0.52|
92405233|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|241.3|||<|0.0001|TWO_SIDED|95.0|162.8|319.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||319.9|162.8|<0.0001
92405234|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|121.1||||0.0028|TWO_SIDED|95.0|42.4|199.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||199.9|42.4|0.0028
92405235|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|164.4|||<|0.0001|TWO_SIDED|95.0|85.8|243.1|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||243.1|85.8|<0.0001
92226236|NCT02939131|184354128|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.28|TWO_SIDED|95.0|-0.8|2.3|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group reported better adherence than those in the ESC group.|Comparison of COMB-R and ESC groups, how often did participant take depression medication as instructed; reported at week 48.||2.3|-0.8|0.28
92367664|NCT00500357|184638278|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.76|||||TWO_SIDED|95.0|0.62|0.93|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 23F: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.93|0.62|
92367665|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.68|||||TWO_SIDED|95.0|0.6|0.78|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 1: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.78|0.60|
92367666|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.55|||||TWO_SIDED|95.0|0.48|0.64|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 3: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.64|0.48|
92367667|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.75|||||TWO_SIDED|95.0|0.65|0.87|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 4: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.87|0.65|
92367668|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.68|||||TWO_SIDED|95.0|0.61|0.76|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 5: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.76|0.61|
92367669|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.49|||||TWO_SIDED|95.0|1.27|1.75|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 6A: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.75|1.27|
92367670|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.07|||||TWO_SIDED|95.0|0.94|1.21|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 6B: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.21|0.94|
92405236|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|198.0|||<|0.0001|TWO_SIDED|95.0|119.4|276.6|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||276.6|119.4|<0.0001
92167410|NCT03752151|184224276|SUPERIORITY||||||<|0.001|||||||McNemar|||The null hypothesis was that the probability of meeting the endpoint (Atrioventricular synchrony \>70%) was the same in MARVEL 2 Monitor Mode and MARVEL 2 Adaptive Mode. A sample size of 35 participants with a predominant rhythm of 3rd degree atrioventricular block and normal sinus function provided \>90% power at a type I error rate of 0.05 assuming the proportion of patients meeting the endpoint in one mode, but not the other exceeded 50% and 90% of these pairs favored the Adaptive mode.||||<0.001
92367671|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.68|||||TWO_SIDED|95.0|0.58|0.79|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 7F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.79|0.58|
92367672|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.53|0.68|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 9V: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.68|0.53|
92367673|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.59|||||TWO_SIDED|95.0|0.51|0.67|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 14: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.67|0.51|
92367674|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.67|||||TWO_SIDED|95.0|0.6|0.74|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 18C: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.74|0.60|
92367675|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.78|||||TWO_SIDED|95.0|0.69|0.88|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 19A: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.88|0.69|
92367676|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.54|||||TWO_SIDED|95.0|0.47|0.62|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 19F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.62|0.47|
92405237|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|111.1||||0.0057|TWO_SIDED|95.0|32.8|189.4|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||189.4|32.8|0.0057
92405238|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|168.1|||<|0.0001|TWO_SIDED|95.0|89.7|246.6|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||246.6|89.7|<0.0001
92167411|NCT03752151|184224277|SUPERIORITY||proportion expressed as a percentage|100.0|||<|0.001|TWO_SIDED|95.0|95.2|100.0|||Exact binomial test|||The null hypothesis is that 87% or fewer participants will achieve the endpoint. The alternative hypothesis is that more than 87% of participants will achieve the endpoint. A sample size of 70 participants provides at least 90% power to test the null hypothesis assuming the true rate of meeting the endpoint in the population is 98% at a type I error rate of 2.5%.||100|95.2|<0.001
92367677|NCT00500357|184638279|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.06|||||TWO_SIDED|95.0|0.9|1.25|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 23F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.25|0.90|
92405239|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|128.4||||0.036|TWO_SIDED|95.0|8.5|248.3|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||248.3|8.5|0.0360
92405240|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|221.5||||0.0004|TWO_SIDED|95.0|101.2|341.7|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||341.7|101.2|0.0004
92405241|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|126.7||||0.0388|TWO_SIDED|95.0|6.6|246.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||246.8|6.6|0.0388
92405242|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|223.2||||0.0003|TWO_SIDED|95.0|103.2|343.2|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||343.2|103.2|0.0003
92405243|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|107.2||||0.0787|TWO_SIDED|95.0|-12.4|226.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||226.8|-12.4|0.0787
92405244|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|181.3||||0.0033|TWO_SIDED|95.0|61.5|301.0|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||301.0|61.5|0.0033
92405245|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|96.1||||0.1688|TWO_SIDED|95.0|-41.2|233.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||233.3|-41.2|0.1688
92405246|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|220.3||||0.0019|TWO_SIDED|95.0|82.6|358.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||358.0|82.6|0.0019
92405247|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|106.0||||0.1298|TWO_SIDED|95.0|-31.5|243.5|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||243.5|-31.5|0.1298
92405248|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|210.4||||0.0029|TWO_SIDED|95.0|73.0|347.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||347.8|73.0|0.0029
92405249|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|108.7||||0.1189|TWO_SIDED|95.0|-28.3|245.7|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||245.7|-28.3|0.1189
92405250|NCT01746901|184701080|SUPERIORITY_OR_OTHER||LS Mean Difference|153.6||||0.0284|TWO_SIDED|95.0|16.4|290.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||290.8|16.4|0.0284
92167412|NCT03752151|184224278|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.002|TWO_SIDED|95.0|0.7|2.7|||t-test, 2 sided|Paired t-test since each participant had LVOT VTI measurements in MARVEL 2 Adaptive and Monitor modes||The null hypothesis is that the mean LVOT VTI during MARVEL 2 Adaptive mode equals the mean LVOT VTI during MARVEL 2 Monitor mode. A sample size of 35 participants with paired LVOT VTI measurements provides 89% power at a type I error rate of 5% to reject the null hypothesis assuming the true difference in LVOT VTI is 2.1 cm with a standard deviation of 3.8 cm.||2.7|0.7|0.002
92405251|NCT01746901|184701081|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8||||0.0327|TWO_SIDED|95.0|-3.4|-0.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.1|-3.4|0.0327
92405252|NCT01746901|184701081|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6||||0.0019|TWO_SIDED|95.0|1.0|4.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.2|1.0|0.0019
92405253|NCT01746901|184701081|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.7508|TWO_SIDED|95.0|-1.9|1.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.4|-1.9|0.7508
92167413|NCT03224390|184224281|SUPERIORITY||Instrumental variables estimate|0.41|||||TWO_SIDED|95.0|-0.03|0.85||||||||.85|-.03|
92167414|NCT00703820|184224288|SUPERIORITY||Odds Ratio (OR)|1.87||||0.035|TWO_SIDED|95.0|1.03|3.41||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.0429 so that the overall level of the study is maintained at 0.05 across the 4 interim analyses and the final analysis.|Cochran-Mantel-Haenszel|The p-value was computed using an exact, risk-group stratified, two-sided test.|The odds ratio is defined as the ratio of the odds that a Clofarabine+Cytarabine patient is MRD positive to the odds that a Cytarabine+Daunorubicin+Etoposide patient is MRD positive.|The study was designed to test the null hypothesis that Cytarabine+Daunorubicin+Etoposide and Clofarabine+Cytarabine result in the same proportion of patients with positive MRD after 22 days. Power calculations indicate that enrollment of a total of 240 MRD-evaluable patients in a 5-stage Haybittle-Peto group sequential design gives 80% power at the 5% level to detect an odds ratio of 2.5. The design was developed using East statistical software.||3.41|1.03|0.035
92226237|NCT02939131|184354129|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.44|TWO_SIDED|95.0|-0.6|0.3|||t-test, 2 sided|||||0.3|-0.6|0.44
92405254|NCT01746901|184701081|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.1868|TWO_SIDED|95.0|-0.5|2.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.7|-0.5|0.1868
92226238|NCT02939131|184354131|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.67|TWO_SIDED|95.0|-0.4|0.3|||t-test, 2 sided|||The average number of scheduled study visits through week 24 was computed for each site. The analysis was of these site-level averages. These values were compared between study groups||0.3|-0.4|0.67
92226239|NCT02939131|184354131|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.74|TWO_SIDED|95.0|-0.7|0.5|||t-test, 2 sided|||We computed the average number of scheduled study visits through week 48 for each site. We then averaged the site-level values and compared study groups.||0.5|-0.7|0.74
92367678|NCT02263326|184638280|NON_INFERIORITY|We considered DTG/3TC was noninferior to cART if the 90% confidence interval for the difference in proportions, calculated with Miettinen-Nurminen (score) confidence limits, excluded the 12% noninferiority margin.|Risk Difference (RD)|0.0015|||||TWO_SIDED|90.0|-0.098|0.102||||||A sample size of 41 participants per arm provided 80% power to show noninferiority of DTG/3TC to cART based on a 12% noninferiority margin, assuming an estimated treatment failure rate of 5% per arm by week 24 and 5% 1-sided type I error rate.||0.102|-0.098|
92226240|NCT02939131|184354132|SUPERIORITY||Mean Difference (Final Values)|-1.99||||0.14|TWO_SIDED|95.0|-4.74|0.76|||t-test, 2 sided||We subtracted the mean of the ESC group from the mean of the COMB-R group. Because a lower score indicated less severe depressive symptoms, a negative value indicated superiority.|We tested the null hypothesis that the treatment group means were equal vs. not.||0.76|-4.74|0.14
92167415|NCT05061693|184224336|SUPERIORITY||Odds Ratio (OR)|7.1||||0.0061|TWO_SIDED|95.0|1.6|45.4|||Regression, Logistic|Exact Logistic regression: (response at Week 16 = treatment + stratification factor \[Day 1 Investigator's Global Assessment score (3 or 4)\])||||45.4|1.6|0.0061
92167416|NCT05061693|184224336|SUPERIORITY||difference in response rate|28.0|STANDARD_ERROR_OF_MEAN|9.18|||TWO_SIDED|95.0|||||||The standard error of the difference between response rates was from normal approximation.|||||
92167417|NCT05061693|184224336|SUPERIORITY||Odds Ratio (OR)|10.2||||0.0005|TWO_SIDED|95.0|2.3|65.6|||Regression, Logistic|Exact Logistic regression: (response at Week 16 = treatment + stratification factor \[Day 1 Investigator's Global Assessment score (3 or 4)\])||||65.6|2.3|0.0005
92167418|NCT05061693|184224336|SUPERIORITY||difference in response rate|36.3|STANDARD_ERROR_OF_MEAN|9.42|||TWO_SIDED|95.0|||||||The standard error of the difference between response rates was from normal approximation.|||||
92167419|NCT05061693|184224336|SUPERIORITY||Odds Ratio (OR)|16.8|||<|0.0001|TWO_SIDED|95.0|3.9|107.5|||Regression, Logistic|Exact Logistic regression: (response at Week 16 = treatment + stratification factor \[Day 1 Investigator's Global Assessment score (3 or 4)\])||||107.5|3.9|<0.0001
92167420|NCT05061693|184224336|SUPERIORITY||difference in response rate|48.6|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|95.0|||||||The standard error of the difference between response rates was from normal approximation.|||||
92167421|NCT00311363|184224350|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.353||||0.0158||95.0|0.2|0.8||Model included terms for treatment group, randomization IRLS score (Week 24), and pooled study site|Regression, Logistic|||||0.8|0.2|0.0158
92167422|NCT00396084|184224383|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Mean adjusted aAUC for all 4 treatment groups over the 7 days of study drug administration||||<0.001
92167423|NCT00396084|184224383|SUPERIORITY_OR_OTHER|||||||0.041|||||||Wilcoxon (Mann-Whitney)|||Day 1. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.041
92167424|NCT00396084|184224383|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Wilcoxon (Mann-Whitney)|||Day 2. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.008
92167425|NCT00396084|184224383|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Wilcoxon (Mann-Whitney)|||Day 3. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.012
92167426|NCT00396084|184224383|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Wilcoxon (Mann-Whitney)|||Day 4. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.01
92167427|NCT00396084|184224383|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||Day 5. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.03
92226241|NCT02939131|184354133|SUPERIORITY||Mean Difference (Final Values)|25.3||||0.05|TWO_SIDED|95.0|0.5|50.0|||t-test, 2 sided||We subtracted the group mean of the site percents with response for the ESC group from that of the COMB-R group. A positive value indicates the COMB-R group had a higher mean percent of participants with response compared to the ESC group.|We tested the null hypothesis that the treatment group means were equal vs. not.||50.0|0.5|0.05
92226242|NCT02939131|184354134|SUPERIORITY||Mean Difference (Final Values)|16.3||||0.24|TWO_SIDED|95.0|-12.3|44.8|||t-test, 2 sided||We subtracted the group mean of the site percents with remission for the ESC group from the COMB-R group so a positive value indicates the COMB-R group has more participants with remission.|We tested the null hypothesis that the treatment group means were equal vs. not.||44.8|-12.3|0.24
92226243|NCT02939131|184354135|SUPERIORITY||Mean Difference (Final Values)|6.79||||0.01|TWO_SIDED|95.0|2.3|11.28||This is the test of effect modification by sex at birth|t-test, 2 sided||A positive value indicates that the treatment difference (lower QIDS-SR score with COMB-R than with ESC) was greater for females compared to males.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||11.28|2.30|0.01
92226244|NCT02939131|184354135|SUPERIORITY||Mean Difference (Final Values)|-2.56||||0.23|TWO_SIDED|95.0|-7.05|1.93||This is the test of effect modification by age group|t-test, 2 sided||A negative value indicates the treatment difference is greater for younger compared to older participants.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||1.93|-7.05|0.23
92226245|NCT02939131|184354135|SUPERIORITY||Mean Difference (Final Values)|-2.77||||0.31|TWO_SIDED|95.0|-8.48|2.95||This is the test of the effect modification of viral suppression status|t-test, 2 sided||A negative value indicates a greater treatment difference among those with viral suppression at study entry compared to those without viral suppression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups.Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||2.95|-8.48|0.31
92226246|NCT02939131|184354135|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.72|TWO_SIDED|95.0|-4.29|5.95||This is the test of effect modification by QIDS-SR depression level at study entry.|t-test, 2 sided||A positive value indicates a greater treatment difference among those with moderate levels of depression compared to severe depression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups.Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||5.95|-4.29|0.72
92226247|NCT02939131|184354135|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.91|TWO_SIDED|95.0|-5.91|5.31||This is the test of effect modification by mode of transmission|t-test, 2 sided||A negative value would indicate a greater treatment difference for those with perinatal HIV acquisition compared to behavioral acquisition.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||5.31|-5.91|0.91
92367679|NCT02263326|184638281|NON_INFERIORITY|The difference in virologic outcomes based on the FDA snapshot algorithm at week 48 (HIV RNA \<50 copies/mL) was compared between arms, with 95% confidence intervals.|Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.126|0.165||||||||0.165|-0.126|
92367680|NCT02263326|184638282|OTHER|||||||0.866|||||||Wilcoxon (Mann-Whitney)|||||||0.866
92367681|NCT02263326|184638283|OTHER|||||||0.613|||||||Wilcoxon (Mann-Whitney)|||||||0.613
92367682|NCT02263326|184638284|OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.420
92367683|NCT02263326|184638285|OTHER|||||||0.074|||||||Wilcoxon (Mann-Whitney)|||||||0.074
92367684|NCT02263326|184638287|OTHER||Mean Difference (Final Values)|0.5||||0.76|TWO_SIDED|95.0|-3.0|4.1|||Regression, Linear|||||4.1|-3.0|0.76
92367685|NCT01734785|184638288|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001||95.0|-0.93|-0.46|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 25 mg minus Placebo.|Superiority of Empagliflozin 25 mg vs. placebo: change in HbA1c using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c as linear covariate(s) \& baseline Estimated glomerula filtration rate (eGFR), geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-0.46|-0.93|<0.0001
92367686|NCT01734785|184638288|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001||95.0|-1.02|-0.55|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 10 mg minus Placebo.|Superiority of Empagliflozin 10 mg vs. placebo: change in HbA1c using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c as linear covariate(s) \& baseline Estimated glomerula filtration rate (eGFR), geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-0.55|-1.02|<0.0001
92367687|NCT01734785|184638289|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.09|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001||95.0|-2.61|-1.57|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 25 mg minus Placebo.|Superiority of Empagliflozin 25 mg vs. placebo: change in FPG using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline FPG, baseline HbA1c as linear covariate(s) \& baseline eGFR, geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-1.57|-2.61|<0.0001
92367688|NCT01734785|184638289|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001||95.0|-2.31|-1.28|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 10 mg minus Placebo.|Superiority of Empagliflozin 10 mg vs. placebo: change in FPG using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline FPG, baseline HbA1c as linear covariate(s) \& baseline eGFR, geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-1.28|-2.31|<0.0001
92367689|NCT01734785|184638290|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.22|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001||95.0|-2.92|-1.52|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 25 mg minus Placebo.|Superiority of Empagliflozin 25 mg vs. placebo: change in body weight using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline weight, baseline HbA1c as linear covariate(s) \& baseline eGFR, geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-1.52|-2.92|<0.0001
92405255|NCT01746901|184701081|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.9944|TWO_SIDED|95.0|-1.6|1.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.6|-1.6|0.9944
92405256|NCT01746901|184701081|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0||||0.2322|TWO_SIDED|95.0|-0.6|2.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.6|-0.6|0.2322
92226248|NCT02939131|184354135|SUPERIORITY||Mean Difference (Final Values)|1.33||||0.57|TWO_SIDED|95.0|-3.91|6.57||This is the test of effect modification by HIV CDC stage level|t-test, 2 sided||A positive value would indicate a greater treatment effect for those with less than HIV CDC Stage 3 compared to those with CDC Stage 3 HIV illness.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||6.57|-3.91|0.57
92226249|NCT02939131|184354135|SUPERIORITY||Mean Difference (Final Values)|5.93||||0.1|TWO_SIDED|95.0|-1.73|13.59||This is the test of effect modification of CD4 Stage 3 at entry.|t-test, 2 sided||A positive value indicates a greater treatment effect among those with less than Stage 3 CD4 count at entry compared to those with Stage 3 CD4 count.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups..||13.59|-1.73|0.10
92226250|NCT02939131|184354135|SUPERIORITY||Mean Difference (Final Values)|-1.57||||0.58|TWO_SIDED|95.0|-7.74|4.6||This is the test of effect modification by Nadir Stage 3 level at study entry.|t-test, 2 sided||A negative value indicates a greater treatment effect among those with Stage 3 Nadir CD4 compare to those with less than Stage 3 Nadir CD4.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||4.60|-7.74|0.58
92226251|NCT02939131|184354136|SUPERIORITY||Mean Difference (Final Values)|-67.81||||0.01|TWO_SIDED|95.0|-116.53|-19.1||This is the test of effect modification by sex at birth.|t-test, 2 sided||A negative value indicates a greater treatment response (higher percent with response in COMB-R than in ESC group) among females compared to males.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||-19.10|-116.53|0.01
92226252|NCT02939131|184354136|SUPERIORITY||Mean Difference (Final Values)|43.08||||0.09|TWO_SIDED|95.0|-8.23|94.38||This is the test of effect modification by age group.|t-test, 2 sided||A positive value reflects a greater treatment effect among younger participants compared to older participants.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||94.38|-8.23|0.09
92226253|NCT02939131|184354136|SUPERIORITY||Mean Difference (Final Values)|2.18||||0.93|TWO_SIDED|95.0|-51.13|55.49||This is the test of effect modification by viral suppression status.|t-test, 2 sided||A positive value would reflect a greater treatment response among those with suppressed viral status at entry compared to those without viral suppression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||55.49|-51.13|0.93
92367690|NCT01734785|184638290|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.77|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001||95.0|-3.47|-2.07|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 10 mg minus Placebo.|Superiority of Empagliflozin 10 mg vs. placebo:change in body weight using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline weight, baseline HbA1c as linear covariate(s) \& baseline eGFR, geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-2.07|-3.47|<0.0001
92367691|NCT02482298|184638291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.06367|||TWO_SIDED|90.0|-0.061|0.151|||Mixed Models Analysis|||||0.1510|-0.0610|
92367692|NCT02482298|184638291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0801|STANDARD_ERROR_OF_MEAN|0.06192|||TWO_SIDED|90.0|-0.023|0.1832|||Mixed Models Analysis|||||0.1832|-0.0230|
92367693|NCT02482298|184638293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1192|STANDARD_ERROR_OF_MEAN|0.05059|||TWO_SIDED|90.0|0.035|0.2035|||Mixed Models Analysis|||||0.2035|0.0350|
92367694|NCT02482298|184638293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0975|STANDARD_ERROR_OF_MEAN|0.04923|||TWO_SIDED|90.0|0.0155|0.1795|||Mixed Models Analysis|||||0.1795|0.0155|
92367695|NCT00348946|184638339|SUPERIORITY|BOT Visual-motor control||||||0.005|||||||ANCOVA|||||||0.005
92367696|NCT00348946|184638339|SUPERIORITY|||||||0.17|||||||ANCOVA|||BOT upper limb speed||||0.17
92367697|NCT00348946|184638339|SUPERIORITY|||||||0.17|||||||ANCOVA|||BOT strength||||0.17
92367698|NCT00348946|184638339|SUPERIORITY|||||||0.06|||||||ANCOVA|||Hand dynamometer||||0.06
92367699|NCT00348946|184638339|SUPERIORITY|||||||0.87|||||||ANCOVA|||PANESS||||0.87
92367700|NCT00348946|184638340|SUPERIORITY|||||||0.44|||||||ANCOVA|||DAS: General concept ability||||0.44
92367701|NCT00348946|184638340|SUPERIORITY|||||||0.57|||||||ANCOVA|||DAS: Verbal Cluster||||0.57
92367702|NCT00348946|184638340|SUPERIORITY|||||||0.55|||||||ANCOVA|||DAS: Nonverbal Cluster||||0.55
92405257|NCT01746901|184701082|SUPERIORITY_OR_OTHER||LS Mean Difference|28.2|||<|0.0001|TWO_SIDED|95.0|16.8|39.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||39.6|16.8|<0.0001
92367703|NCT00348946|184638340|SUPERIORITY|||||||0.65|||||||ANCOVA|||DAS: Spatial Cluster||||0.65
92226254|NCT02939131|184354136|SUPERIORITY||Mean Difference (Final Values)|3.36||||0.87|TWO_SIDED|95.0|-42.28|49.0||This is the test of effect modification by entry QIDS-SR depression level.|t-test, 2 sided||A positive value would indicate a greater treatment response for those with severe depressive symptoms at study entry compared to those with moderate depression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||49.00|-42.28|0.87
92367704|NCT00348946|184638341|SUPERIORITY|||||||0.23|||||||ANCOVA|||Digit Span backward||||0.23
92367705|NCT00348946|184638341|SUPERIORITY|||||||0.36|||||||ANCOVA|||Phonetic fluency||||0.36
92367706|NCT00348946|184638341|SUPERIORITY|||||||0.37|||||||ANCOVA|||Semantic fluency||||0.37
92367707|NCT00348946|184638341|SUPERIORITY|||||||0.41|||||||ANCOVA|||CPT: omissions||||0.41
92367708|NCT00348946|184638341|SUPERIORITY|||||||0.73|||||||ANCOVA|||CPT: commissions||||0.73
92367709|NCT00348946|184638341|SUPERIORITY|||||||0.4|||||||ANCOVA|||CPT: hit reaction time||||0.40
92367710|NCT00348946|184638341|SUPERIORITY|||||||0.95|||||||ANCOVA|||CPT: variability||||0.95
92367711|NCT00348946|184638341|SUPERIORITY|||||||0.78|||||||ANCOVA|||CPT: preservations||||0.78
92367712|NCT00348946|184638342|SUPERIORITY|||||||0.16|||||||ANCOVA|||CBCL: Behavior total||||0.16
92367713|NCT00348946|184638342|SUPERIORITY|||||||0.1|||||||ANCOVA|||CBCL: Internalizing total||||0.10
92367714|NCT00348946|184638342|SUPERIORITY|||||||0.24|||||||ANCOVA|||CBCL: externalizing total||||0.24
92367715|NCT00348946|184638342|SUPERIORITY|||||||0.5|||||||ANCOVA|||CDI: Total||||0.50
92367716|NCT00348946|184638343|SUPERIORITY|||||||0.15|||||||ANCOVA|||||||0.15
92367717|NCT03332173|184638390|SUPERIORITY||||||<|0.0001||||||P value was based on the exact binomial test against the null hypothesis H0: MRR = 0.30 at a significance level of 0.025 (1-sided)|Exact binomial test|||Zanubrutinib versus historical control estimate of 30%||||<0.0001
92367718|NCT00131352|184638433|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||ANCOVA|The repeated measures ANCOVA model included terms for treatment, site, time and time-by-treatment interaction; the baseline score was a covariate.||||||0.047
92367719|NCT00131352|184638434|SUPERIORITY_OR_OTHER|||||||0.064||95.0|||||ANCOVA|||||||0.064
92405258|NCT01746901|184701082|SUPERIORITY_OR_OTHER||LS Mean Difference|8.4||||0.1421|TWO_SIDED|95.0|-2.8|19.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||19.6|-2.8|0.1421
92367720|NCT00131352|184638435|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.022|TWO_SIDED|95.0|0.35|0.92|||Generalized Estimating Equations (GEE)|||Estimate of Odds Ratio (Placebo/Synvisc-One) using WOMAC A1 data at Week 26.||0.92|0.35|0.022
92405259|NCT01746901|184701082|SUPERIORITY_OR_OTHER||LS Mean Difference|20.9||||0.0004|TWO_SIDED|95.0|9.5|32.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||32.2|9.5|0.0004
92367721|NCT00131352|184638436|SUPERIORITY_OR_OTHER|||||||0.679||95.0|||||ANCOVA|||||||0.679
92367722|NCT00131352|184638437|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||ANCOVA|||||||0.266
92367723|NCT00131352|184638438|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.005|TWO_SIDED|95.0|0.31|0.82|||Generalized Estimating Equations (GEE)|||Model-based estimate of Odds Ratio (Placebo/Synvisc-One) using PTGA data at Week 26.||0.82|0.31|0.005
92367724|NCT00131352|184638439|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.025|TWO_SIDED|95.0|0.34|0.93|||Generalized Estimating Equations (GEE)|||Model-based estimate of Odds Ratio (Placebo/Synvisc-One) using COGA data at Week 26.||0.93|0.34|0.025
92367725|NCT00131352|184638440|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.156|TWO_SIDED|95.0|0.41|1.16|||Generalized Estimating Equations (GEE)|||Estimate of Odds Ratio (Placebo/Synvisc-One) using Responder classification data at Week 26.||1.16|0.41|0.156
92367726|NCT02553928|184638442|OTHER||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.19||0.097|TWO_SIDED|95.0|-0.06|0.69||Based on full analysis set|ANCOVA||The comparison is to BID memantine.|The ADCS-CGIC was analyzed based on an analysis of covariance (ANCOVA) of ADCS-CGIC score at Week 12, with treatment and site as fixed factors, and baseline score as a covariate using observed cases.||0.69|-0.06|0.097
92367727|NCT05507567|184638443|OTHER|||||||0.0331|||||||Chi-squared|||A priori primary analysis group||||0.0331
92367728|NCT05507567|184638444|OTHER|||||||0.1427||||||Hodges-Lehmann (H-L) estimation|Wilcoxon (Mann-Whitney)|1-sided Wilcoxon rank-sum||||||0.1427
92367729|NCT05507567|184638445|OTHER|||||||0.1307||||||H-L estimation|Wilcoxon (Mann-Whitney)|1-sided Wilcoxon rank-sum||||||0.1307
92367730|NCT05507567|184638446|OTHER|||||||0.0382||||||H-L estimation|Wilcoxon (Mann-Whitney)|1-sided Wilcoxon rank-sum||||||0.0382
92367731|NCT05507567|184638447|OTHER|||||||0.011||||||H-L estimation|Wilcoxon (Mann-Whitney)|1-sided Wilcoxon rank-sum||||||0.0110
92367732|NCT00383331|184638452|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Fisher Exact|||The response rates are separately evaluated for these two treatment arms. For each arm, a sample size of 48 achieves 91% power to detect a difference of 20% between the null hypothesis of 15% response rate and the alternative hypothesis of 35% using a one-sided, binomial hypothesis test with a target significance level of 2.5% (the actual significance level is 2.2%).||||0.48
92367733|NCT00383331|184638457|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Log Rank|||||||0.56
92367734|NCT04830215|184638458|OTHER||||||<|0.0001||||||MMRM included fixed effect terms for visit, baseline value, an interaction term of baseline value by visit, and trial center.|MMRM|||||||<0.0001
92367735|NCT04830215|184638459|OTHER||||||<|0.0001||||||MMRM included fixed effect terms for visit, baseline value, an interaction term of baseline value by visit, and trial center.|MMRM|||||||<0.0001
92367736|NCT00770562|184638474|SUPERIORITY_OR_OTHER|||||||0.004|||||||Fisher Exact|||||||0.004
92367737|NCT00770562|184638475|SUPERIORITY_OR_OTHER|||||||0.001|||||||Fisher Exact|||||||0.001
92367738|NCT00770562|184638476|SUPERIORITY_OR_OTHER|||||||0.015|||||||Fisher Exact|||||||0.015
92367739|NCT01194219|184638487|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|27.8|||<|0.0001|TWO_SIDED|95.0|23.1|32.5|||Chi-squared|||||32.5|23.1|<0.0001
92367740|NCT01194219|184638488|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|17.8|||<|0.0001|TWO_SIDED|95.0|13.7|21.9|||Chi-squared|||||21.9|13.7|<0.0001
92367741|NCT01194219|184638489|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-40.78|||<|0.0001|TWO_SIDED|95.0|-46.34|-35.21|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-35.21|-46.34|<0.0001
92367742|NCT01194219|184638490|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-35.3|||<|0.0001|TWO_SIDED|95.0|-39.9|-30.6|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-30.6|-39.9|<0.0001
92405260|NCT01746901|184701082|SUPERIORITY_OR_OTHER||LS Mean Difference|15.8||||0.0064|TWO_SIDED|95.0|4.5|27.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||27.0|4.5|0.0064
92405261|NCT01746901|184701082|SUPERIORITY_OR_OTHER||LS Mean Difference|7.4||||0.1974|TWO_SIDED|95.0|-3.9|18.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||18.6|-3.9|0.1974
92405262|NCT01746901|184701082|SUPERIORITY_OR_OTHER||LS Mean Difference|19.5||||0.0008|TWO_SIDED|95.0|8.3|30.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||30.8|8.3|0.0008
92167428|NCT00396084|184224383|SUPERIORITY_OR_OTHER|||||||0.091||95.0|||||Wilcoxon (Mann-Whitney)|||Day 6. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.091
92167429|NCT00396084|184224383|SUPERIORITY_OR_OTHER|||||||0.354||95.0|||||Wilcoxon (Mann-Whitney)|||Day 7. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.354
92226255|NCT02939131|184354136|SUPERIORITY||Mean Difference (Final Values)|41.65||||0.17|TWO_SIDED|95.0|-21.91|105.2||This is the test of effect modification by mode of transmission.|t-test, 2 sided||A positive value would indicate a larger treatment response for those with perinatal transmission compared to behavioral.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||105.20|-21.91|0.17
92226256|NCT02939131|184354136|SUPERIORITY||Mean Difference (Final Values)|49.4||||0.17|TWO_SIDED|95.0|-26.02|124.83||This is the test of effect modification by HIV CDC stage.|t-test, 2 sided||A positive value reflects a greater treatment response for those with HIV CDC Stage 3 classification compared to those with CDC classification less than Stage 3.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||124.83|-26.02|0.17
92226257|NCT02939131|184354136|SUPERIORITY||Mean Difference (Final Values)|11.69||||0.71|TWO_SIDED|95.0|-70.76|94.15||This is the test of effect modification by CD4 Stage at study entry.|t-test, 2 sided||A positive value would reflect greater treatment response for those with CD4 Stage 3 compared to those with less than Stage 3 CD4.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||94.15|-70.76|0.71
92367743|NCT01194219|184638491|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|41.7|||<|0.0001|TWO_SIDED|95.0|35.7|47.7|||Chi-squared|||||47.7|35.7|<0.0001
92367744|NCT01194219|184638492|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-24.2|||<|0.0001|TWO_SIDED|95.0|-28.7|-19.8|||ANOVA|Based on an analysis of variance model for the change from baseline at Week 16, with treatment group as a factor (an ANOVA model).||||-19.8|-28.7|<0.0001
92405263|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|12.2|||<|0.0001|TWO_SIDED|95.0|7.1|17.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||17.4|7.1|<0.0001
92405264|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0||||0.6868|TWO_SIDED|95.0|-4.1|6.2|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.2|-4.1|0.6868
92405265|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|7.3||||0.0058|TWO_SIDED|95.0|2.2|12.5|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||12.5|2.2|0.0058
92405266|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9||||0.0229|TWO_SIDED|95.0|0.8|11.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.1|0.8|0.0229
92405267|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|3.2||||0.2168|TWO_SIDED|95.0|-1.9|8.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||8.3|-1.9|0.2168
92405268|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|6.8||||0.0096|TWO_SIDED|95.0|1.7|11.9|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.9|1.7|0.0096
92167430|NCT00396084|184224387|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||Mean values of EBA Days 0 to 2 for the 4 treatment groups were compared.||||0.05
92167431|NCT00396084|184224387|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Two way comparison of INH against gatifloxacin using a simultaneous non-parametric procedure.||||0.01
92167432|NCT00396084|184224387|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||Two way comparison of INH against moxifloxacin using a simultaneous non-parametric procedure.||||0.02
92167433|NCT00396084|184224387|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Wilcoxon (Mann-Whitney)|||Two way comparison of INH against levofloxacin using a simultaneous non-parametric procedure.||||0.14
92167434|NCT00396084|184224388|SUPERIORITY_OR_OTHER|||||||0.51|||||||ANOVA|||Mean values of EBA Days 2 to 7 for the 4 treatment groups were compared.||||0.51
92167435|NCT00396084|184224388|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||The rate of fall in sputum cfu for the 4 treatment groups between day 2 and day 7 of monotherapy was estimated by the slope of the linear regression obtained from fitting the 6 sputum cfu values corresponding to days 2 through 7.||||0.16
92405269|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|33.0|||<|0.0001|TWO_SIDED|95.0|20.0|45.9|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||45.9|20.0|<0.0001
92405270|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6||||0.8009|TWO_SIDED|95.0|-11.2|14.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||14.4|-11.2|0.8009
92167436|NCT00396084|184224388|SUPERIORITY_OR_OTHER|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||EBA Days 2-7 for patients in the 3 fluoroquinolone groups were pooled and compared to bactericidal activity of patients in the INH arm.||||0.036
92167437|NCT00396084|184224389|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Mean adjusted aAUC for all 3 treatment groups over the 7 days of study drug administration||||<0.001
92167438|NCT00396084|184224389|SUPERIORITY_OR_OTHER|||||||0.023|||||||Wilcoxon (Mann-Whitney)|||Day 1. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.023
92167439|NCT00396084|184224389|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Wilcoxon (Mann-Whitney)|||Day 2. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.018
92167440|NCT00396084|184224389|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||Day 3. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.03
92226258|NCT02939131|184354136|SUPERIORITY||Mean Difference (Final Values)|52.48||||0.02|TWO_SIDED|95.0|10.46|94.5||This is the test of effect modification by CD4 Nadir stage at study entry.|t-test, 2 sided||A positive value reflects a larger treatment response among those with Stage 3 Nadir CD4 compared to those with less than Stage 3 Nadir CD4.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||94.50|10.46|0.02
92226259|NCT02939131|184354137|SUPERIORITY||Mean Difference (Final Values)|-45.06||||0.09|TWO_SIDED|95.0|-97.84|7.72||This is the test of effect modification by sex at birth|t-test, 2 sided||A negative value indicates a greater treatment effect (higher percent with remission for COMB-R than for ESC) among females.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||7.72|-97.84|0.09
92167441|NCT00396084|184224389|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Wilcoxon (Mann-Whitney)|||Day 4. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.012
92167442|NCT00396084|184224389|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||Day 5. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.003
92167443|NCT00396084|184224389|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||Day 6. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.003
92405271|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|17.4||||0.0086|TWO_SIDED|95.0|4.5|30.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||30.3|4.5|0.0086
92405272|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|17.2||||0.0089|TWO_SIDED|95.0|4.4|30.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||30.0|4.4|0.0089
92167444|NCT00396084|184224389|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon (Mann-Whitney)|||Day 7. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.004
92167445|NCT00396084|184224390|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|||Mean values of EBA Days 0 to 2 for the 3 treatments groups were compared.||||<0.01
92405273|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2||||0.4224|TWO_SIDED|95.0|-7.6|18.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||18.0|-7.6|0.4224
92405274|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|22.6||||0.0006|TWO_SIDED|95.0|9.8|35.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||35.5|9.8|0.0006
92405275|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|96.1|||<|0.0001|TWO_SIDED|95.0|57.9|134.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||134.2|57.9|<0.0001
92167446|NCT00396084|184224390|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Two way comparison of INH against Linezolid once daily using a simultaneous non-parametric procedure.||||<0.01
92167447|NCT00396084|184224390|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Mean EBA 0-2 of INH was compared to pooled Linezolid once daily and Linezolid twice daily results.||||<0.01
92167448|NCT00396084|184224393|SUPERIORITY_OR_OTHER|||||||0.25|||||||ANOVA|||Mean values EBA Days 2-7 for the 3 treatment groups were compared.||||0.25
92167449|NCT00396084|184224393|SUPERIORITY_OR_OTHER|||||||0.42|||||||ANOVA|||The rate of fall in sputum cfu for the 3 treatment groups between day 2 and day 7 of monotherapy was estimated by the slope of the linear regression obtained from fitting the 6 sputum cfu values corresponding to days 2 through 7.||||0.42
92226260|NCT02939131|184354137|SUPERIORITY||Mean Difference (Final Values)|1.41||||0.95|TWO_SIDED|95.0|-43.38|46.2||This is the test of effect modification by age group.|t-test, 2 sided||A positive value would reflect a larger treatment effect among younger participants compared to older participants.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||46.20|-43.38|0.95
92226261|NCT02939131|184354137|SUPERIORITY||Mean Difference (Final Values)|5.59||||0.79|TWO_SIDED|95.0|-40.47|51.65||This is the test of effect modification by viral suppression status.|Wilcoxon (Mann-Whitney)||A positive value would reflect a greater treatment effect among those with suppressed viral load compared to those without viral suppression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||51.65|-40.47|0.79
92226262|NCT02939131|184354137|SUPERIORITY||Mean Difference (Final Values)|-15.97||||0.42|TWO_SIDED|95.0|-58.88|26.94||This is the test of effect modification by QIDS-SR level at entry.|t-test, 2 sided||A negative value would reflect a greater treatment effect among those with moderate depression symptomatology at entry compared to those with severe depression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||26.94|-58.88|0.42
92226263|NCT02939131|184354137|SUPERIORITY||Mean Difference (Final Values)|9.99||||0.68|TWO_SIDED|95.0|-41.24|61.22||This is the test of effect modification by mode of transmission.|t-test, 2 sided||A positive value would reflect a greater treatment effect among those with perinatal transmission compared to behavioral transmission.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||61.22|-41.24|0.68
92226264|NCT02939131|184354137|SUPERIORITY||Mean Difference (Final Values)|-14.21||||0.57|TWO_SIDED|95.0|-70.62|42.2||This is the test of effect modification by HIV CDC stage.|t-test, 2 sided||A positive value would reflect a greater treatment response among those with HIV CDC Stage 3 classification compared to those with less than Stage 3 classification.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||42.20|-70.62|0.57
92226265|NCT02939131|184354137|SUPERIORITY||Mean Difference (Final Values)|-44.97||||0.26|TWO_SIDED|95.0|-141.12|51.17||This is the test of effect modification by CD4 Stage.|t-test, 2 sided||A negative value would reflect a greater treatment effect among those with less than Stage 3 CD4 levels compared to those with Stage 3 CD4.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||51.17|-141.12|0.26
92226266|NCT02939131|184354137|SUPERIORITY||Mean Difference (Final Values)|9.53||||0.72|TWO_SIDED|95.0|-52.97|72.02||This is the test of effect modification by CD4 nadir stage.|t-test, 2 sided||A positive value would reflect a greater treatment effect by those with Stage 3 CD4 Nadir compared to those with less than Stage 3.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||72.02|-52.97|0.72
92226267|NCT02939131|184354138|SUPERIORITY||Mean Difference (Final Values)|9.9||||0.26|TWO_SIDED|95.0|-8.4|28.1|||t-test, 2 sided||A positive value would indicate site-level percentages were higher in the COMB-R group and vice versa.|The percent of participants with alcohol use ever at week 24 were computed for each site. These site-level percentages were compared across treatment groups.||28.1|-8.4|0.26
92226268|NCT02939131|184354138|SUPERIORITY||Mean Difference (Final Values)|-6.3||||0.66|TWO_SIDED|95.0|-37.1|24.6|||t-test, 2 sided||A positive value would indicate site-level percentages were higher in the COMB-R group and vice versa.|The percent of participants with alcohol use ever at week 48 were computed for each site. These site-level percentages were compared across treatment groups.||24.6|-37.1|0.66
92405276|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|21.9||||0.253|TWO_SIDED|95.0|-15.8|59.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||59.7|-15.8|0.2530
92226269|NCT02939131|184354139|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.71|TWO_SIDED|95.0|-22.3|31.7|||t-test, 2 sided||A positive value indicates higher site-level percentages in the COMB-R group.|The percent of participants with regular frequency alcohol use at week 24 were computed for each site. These site-level percentages were compared across treatment groups.||31.7|-22.3|0.71
92226270|NCT02939131|184354139|SUPERIORITY||Mean Difference (Final Values)|26.7||||0.1|TWO_SIDED|95.0|-6.3|59.6|||t-test, 2 sided||A positive value would indicate higher site-level percentages in the COMB-R group.|The percent of participants at each site with regular alcohol use at week 48 was computed. These site-level percents were compared across treatments||59.6|-6.3|0.10
92226271|NCT02939131|184354140|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.09|TWO_SIDED|95.0|-2.6|0.2|||t-test, 2 sided||A positive value would indicate site level averages were higher in the COMB-R group and vice versa.|The average number of drinks per day reported at week 24 was computed for each site and these site-level averages were compared across treatments.||0.2|-2.6|0.09
92367745|NCT01194219|184638493|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-4.5|||<|0.0001|TWO_SIDED|95.0|-5.4|-3.6|||ANOVA||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor, the baseline value, and the treatment by baseline interaction term as covariates.|||-3.6|-5.4|<0.0001
92367746|NCT01194219|184638494|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.08|||<|0.0001|TWO_SIDED|95.0|1.81|4.35|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||4.35|1.81|<0.0001
92167450|NCT00396084|184224393|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||EBA Days 2-7 for INH was compared to that of the pooled linezolid arms.||||0.14
92367747|NCT01194219|184638495|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.7|||<|0.0001|TWO_SIDED|95.0|12.8|20.7|||Chi-squared|||||20.7|12.8|<0.0001
92367748|NCT01194219|184638496|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.649|||<|0.0001|TWO_SIDED|95.0|1.768|3.969|||Log Rank|||||3.969|1.768|<0.0001
92367749|NCT01081951|184638501|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51||||0.0012|TWO_SIDED|95.0|0.34|0.77||The use of a one-sided 10% significance level test will be used to assess the statistical significance of the analyses of PFS.|Log Rank|Stratified by number of prior platinum treatment lines (1 or \>1) and time to progression following previous platinum therapy (\>6 to ≤12 vs \>12 months)|A hazard ratio of \< 1 favours olaparib.|The null hypothesis for all efficacy analyses in this study is that there is no difference in treatment effects between olaparib in combination with carboplatin/paclitaxel compared with carboplatin/paclitaxel alone.||0.77|0.34|0.0012
92367750|NCT01081951|184638502|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17||||0.4379|TWO_SIDED|95.0|0.79|1.73||Two sided|Log Rank|Stratified by number of prior platinum treatment lines (1 or \>1) and time to progression following previous platinum therapy (\>6 to ≤12 vs \>12 months)|A hazard ratio \< 1 favours favours olaparib.|The null hypothesis for all efficacy analyses in this study is that there is no difference in treatment effects between olaparib in combination with carboplatin/paclitaxel compared with carboplatin/paclitaxel alone.||1.73|0.79|0.4379
92405277|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|78.6|||<|0.0001|TWO_SIDED|95.0|40.5|116.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||116.8|40.5|<0.0001
92167451|NCT00696618|184224435|SUPERIORITY_OR_OTHER||||||<|0.05||||||Adjusted for multiple comparisons.|multi-level|||Nine research participants provided the ability to detect an effect size of 1.25 standard deviation units relative to the mean with 80% power using two-sided, 5% alpha in a paired analysis. The Baseline condition (no intervention) was assigned a value of 1 and geometric mean ratios with 95% confidence intervals for each intervention were calculated relative to baseline.||||<.05
92167452|NCT00696618|184224436|SUPERIORITY_OR_OTHER||||||<|0.05|||||||multi-level|||||||<.05
92167453|NCT00696618|184224437|SUPERIORITY_OR_OTHER||||||<|0.05|||||||mulit-level analysis|||||||<.05
92367751|NCT05226598|184638512|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.8335|TWO_SIDED|95.0|0.87|1.5||One-sided p-value based on log-rank test stratified by ECOG, predominant tumor histology, PD-L1 expression, and geographic region|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by ECOG, predominant tumor histology, PD-L1 expression, and geographic region|||1.50|0.87|0.8335
92367752|NCT05226598|184638513|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.5104|TWO_SIDED|95.0|0.82|1.23||One-sided p-value based on log-rank test stratified by ECOG, predominant tumor histology, PD-L1 expression, and geographic region|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by ECOG, predominant tumor histology, PD-L1 expression, and geographic region|||1.23|0.82|0.5104
92367753|NCT04503551|184638531|SUPERIORITY||CMH Weighted Percentage Difference|71.1|||<|0.0001|TWO_SIDED|95.04|61.0|81.2|||Cochran-Mantel-Haenszel|Stratification was done by baseline ETDRS-DRSS level (47 vs.53) \& baseline intraretinal/subretinal fluid status on SD-OCT (present vs. absent).||||81.2|61.0|<0.0001
92367754|NCT04503551|184638532|SUPERIORITY||Stratified Hazard Ratio|0.1|||<|0.0001|TWO_SIDED|95.04|0.1|0.3|||Stratified Log-Rank||||A stratified log-rank test was used for hypothesis testing comparing the PDS arm with the comparator arm. A Cox proportional hazards regression model (stratified) was used as a supportive analysis to estimate the Hazard ratio (HR).|0.3|0.1|< 0.0001
92367755|NCT04503551|184638533|SUPERIORITY||Stratified Hazard Ratio|0.1|||<|0.0001|TWO_SIDED|95.04|0.1|0.1|||Stratified Log-Rank||||A stratified log-rank test was used for hypothesis testing comparing the PDS arm with the comparator arm. A Cox proportional hazards regression model (stratified) was used as a supportive analysis to estimate the HR.|0.1|0.1|< 0.0001
92167454|NCT00028093|184224438|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Wilcoxon (Mann-Whitney)|||Null hypothesis: there is no difference in the outcome between the two groups||||0.54
92167455|NCT01351272|184224450|SUPERIORITY||||||=|0.09|||||||SPM two-sample t-test|||||||=0.09
92167456|NCT01351272|184224451|SUPERIORITY||||||=|0.16|||||||t-test, 1 sided|||||||= 0.16
92167457|NCT01351272|184224452|SUPERIORITY||||||=|0.09|||||||t-test, 1 sided|||||||= 0.09
92167458|NCT03949335|184224453|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92167459|NCT03949335|184224454|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92167460|NCT03949335|184224455|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92167461|NCT03949335|184224456|NON_INFERIORITY|Noninferiority margin equals -0.1|Mean Difference (Final Values)|-0.031|||||TWO_SIDED|95.0|-0.053|-0.01||Success criteria was evaluated using lower confidence interval. No P-Value was calculated.||||||-0.010|-0.053|
92167462|NCT03949335|184224458|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92167463|NCT00801983|184224501|SUPERIORITY_OR_OTHER||||||>|0.05|||||||GEE|||Subjects were compared across keyboard types - The percentage of subjects with MSD when using the alternative keyboard were compared to the % of subjects with MSD when they were using the typical keyboard||||>.05
92226272|NCT02939131|184354140|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.79|TWO_SIDED|95.0|-0.8|1.0|||t-test, 2 sided||A positive value would indicate site level averages were higher in the COMB-R group and vice versa.|The site-level average numbers of drinks per day reported at week 48 were computed and these site-level averages were compared across treatment groups.||1.0|-0.8|0.79
92226273|NCT02939131|184354141|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.87|TWO_SIDED|95.0|-0.9|0.8|||t-test, 2 sided||A positive value would indicate site level averages were higher in the COMB-R group anc vice versa|The site-level average number of days with binge drinking at week 24 were computed and these site-level averages were compared across treatments.||0.8|-0.9|0.87
92226274|NCT02939131|184354141|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|95.0|-0.8|0.8|||t-test, 2 sided||A positive difference would indicate site level averages were higher in the COMB-R group and vice versa|The site-level average number of days with binge drinking reported at week 48 were computed and the site-level averages were compared across treatment groups.||0.8|-0.8|0.99
92367756|NCT04503551|184638534|SUPERIORITY||Stratified Hazard Ratio|0.1|||<|0.0001|TWO_SIDED|95.04|0.1|0.3|||Stratified Log-Rank||||A stratified log-rank test was used for hypothesis testing comparing the PDS arm with the comparator arm. A Cox proportional hazards regression model (stratified) was used as a supportive analysis to estimate the HR.|0.3|0.1|<0.0001
92367757|NCT04503551|184638535|SUPERIORITY||Stratified Hazard Ratio|0.1|||<|0.0001|TWO_SIDED|95.04|0.1|0.2|||Stratified Log-Rank||||A stratified log-rank test was used for hypothesis testing comparing the PDS arm with the comparator arm. A Cox proportional hazards regression model (stratified) was used as a supportive analysis to estimate the HR.|0.2|0.1|<0.0001
92367758|NCT04503551|184638536|SUPERIORITY||Percentage Difference|15.1||||0.0003|TWO_SIDED|95.04|8.3|21.9|||Fisher Exact|||||21.9|8.3|0.0003
92367759|NCT04503551|184638537|SUPERIORITY||Stratified Hazard Ratio|0.1|||<|0.0001|TWO_SIDED|95.04|0.1|0.2|||Stratified Log-Rank||||A stratified log-rank test was used for hypothesis testing comparing the PDS arm with the comparator arm. A Cox proportional hazards regression model (stratified) was used as a supportive analysis to estimate the HR.|0.2|0.1|<0.0001
92367760|NCT01152788|184638616|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.1||||0.76|TWO_SIDED|95.0|0.6|2.01|||Log Rank|||||2.01|0.6|0.76
92367761|NCT01152788|184638617|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-18.7|16.8||||||||16.8|-18.7|
92367762|NCT01152788|184638618|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.55|TWO_SIDED|95.0|0.38|1.68|||Log Rank|||||1.68|0.38|0.55
92367763|NCT01152788|184638619|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Chi-squared|||||||0.01
92367764|NCT00778336|184638623|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \> 0.||||||<0.0001
92367765|NCT00778336|184638623|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \> 0.||||||<0.0001
92226275|NCT02939131|184354142|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.77|TWO_SIDED|95.0|-19.7|26.0|||t-test, 2 sided||A positive value would indicate site-level percentages were higher in the COMB-R group and vice versa.|The percent of participants with tobacco use ever at week 24 were computed for each site. These site-level percentages were compared across treatment groups.||26.0|-19.7|0.77
92367766|NCT00778336|184638623|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \> 0.||||||<0.0001
92367767|NCT00778336|184638623|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \> 0.||||||<0.0001
92226276|NCT02939131|184354142|SUPERIORITY||Mean Difference (Final Values)|14.7||||0.2|TWO_SIDED|95.0|-8.9|38.4|||t-test, 2 sided||A positive value would indicate site-level percentages were higher in the COMB-R group.|The percent of participants with tobacco use ever at week 48 were computed for each site. These site-level percentages were compared across treatment groups.||38.4|-8.9|0.20
92367768|NCT04585269|184638626|SUPERIORITY|Testing for a difference between arms|Mean Difference (Final Values)|-3.23|||<|0.001|TWO_SIDED|95.0|-4.93|-1.53|||Mixed Models Analysis|||||-1.53|-4.93|<0.001
92226277|NCT02939131|184354143|SUPERIORITY||Mean Difference (Final Values)|15.2||||0.09|TWO_SIDED|95.0|-2.8|33.3|||t-test, 2 sided||A positive difference would indicate the site level percentages were higher in the COMB-R group.|This is the analysis of regular use of tobacco at week 24. The percent of participants at each site with regular use was computed. These site-level percentages were compared across treatment groups.||33.3|-2.8|0.09
92367769|NCT04585269|184638627|SUPERIORITY|Testing for a difference between arms|Mean Difference (Final Values)|-2.43||||0.003|TWO_SIDED|95.0|-4.05|-0.81|||Mixed Models Analysis|||||-0.81|-4.05|0.003
92367770|NCT04585269|184638628|SUPERIORITY|Testing for a difference between arms|Mean Difference (Final Values)|3.4||||0.029|TWO_SIDED|95.0|0.34|6.45|||Mixed Models Analysis|||||6.45|0.34|0.029
92367771|NCT05111613|184638916|SUPERIORITY||Win Ratio|5.01|||||TWO_SIDED|95.0|3.68|6.97||||||||6.97|3.68|
92367772|NCT05111613|184638917|SUPERIORITY||Win Ratio|1.34|||||TWO_SIDED|95.0|0.78|2.35||||||||2.35|0.78|
92367773|NCT04209387|184638936|OTHER|p \< .01||||||0.01||||||p adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||"Pair-wise comparison of changes in coherency from baseline (before therapy) to the end of therapy.~Pair-wise comparison of changes in coherency from end of therapy to 3-month follow-up"|ANOVA test of means|||0.01
92367774|NCT01392573|184638940|SUPERIORITY_OR_OTHER||Treatment contrast|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.25|-0.84|||ANCOVA|ANCOVA model with treatment, country and previous antidiabetic treatment as fixed effects and baseline HbA1c value as covariate||||-0.84|-1.25|<0.0001
92367775|NCT00841412|184638958|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76|||<|0.05|TWO_SIDED|95.0|0.59|0.96|||Mixed Models Analysis||The above results are for just one of multiple feeding assistance care process measures: proportion of meals during which residents received assistance to eat baseline to post intervention.|||0.96|0.59|<0.05
92367776|NCT00325130|184638959|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -5%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
92405278|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|39.3||||0.0414|TWO_SIDED|95.0|1.6|77.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||77.1|1.6|0.0414
92405279|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|28.9||||0.1329|TWO_SIDED|95.0|-8.9|66.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||66.6|-8.9|0.1329
92167464|NCT05165485|184224524|SUPERIORITY||Mean Difference (Net)|-23.0||||0.22|TWO_SIDED|95.0|-61.0|14.0||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence, stopping after the first failure to reject the null hypothesis.|Mixed Models Analysis|Denominator degrees of freedom were approximated by the Kenward and Roger (1997) method.|Revefenacin - Tiotropium Least Squares Mean Difference|The null hypothesis was that the Revefenacin - Tiotropium Least Squares Mean Difference was zero and the alternative hypothesis was that it was nonzero.|The Revefenacin - Tiotropium Least Squares Mean Difference was estimated by fitting a repeated measures mixed model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|14|-61|0.22
92367777|NCT00325130|184638961|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -5%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
92367778|NCT00325130|184638962|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -5%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
92367779|NCT00325130|184638963|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -5%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
92367780|NCT00325130|184638964|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
92367781|NCT00325130|184638965|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
92367782|NCT00325130|184638966|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
92367783|NCT00325130|184638967|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
92367784|NCT00325130|184638968|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
92405280|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|45.5||||0.0187|TWO_SIDED|95.0|7.7|83.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||83.2|7.7|0.0187
92405281|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|76.9||||0.0009|TWO_SIDED|95.0|31.9|121.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||121.9|31.9|0.0009
92405282|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|45.4||||0.0456|TWO_SIDED|95.0|0.9|89.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||89.9|0.9|0.0456
92405283|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|82.8||||0.0004|TWO_SIDED|95.0|37.8|127.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||127.7|37.8|0.0004
92405284|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|39.6||||0.0812|TWO_SIDED|95.0|-5.0|84.1|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||84.1|-5.0|0.0812
92405285|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|35.5||||0.1174|TWO_SIDED|95.0|-9.0|80.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||80.0|-9.0|0.1174
92405286|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|46.1||||0.0427|TWO_SIDED|95.0|1.5|90.6|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||90.6|1.5|0.0427
92405287|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0||||0.9318|TWO_SIDED|95.0|-66.9|73.0|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||73.0|-66.9|0.9318
92405288|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|110.4||||0.002|TWO_SIDED|95.0|41.2|179.6|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||179.6|41.2|0.0020
92167465|NCT05165485|184224525|SUPERIORITY||Mean Difference (Net)|-9.0|||||TWO_SIDED|95.0|-38.0|20.0||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Mixed Models Analysis||Revefenacin - Tiotropium Least Squares Mean Difference|The OTE is defined as the average of the Day 30, Day 60, and Day 85 Revefenacin - Tiotropium Least Squares Mean differences. The null hypothesis was that the OTE Revefenacin - Tiotropium Least Squares Mean Difference was zero and the alternative hypothesis was that it was nonzero.|The Revefenacin - Tiotropium Least Squares Mean Difference was estimated by fitting a repeated measures mixed model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|20|-38|
92276954|NCT04136626|184455475|SUPERIORITY||Difference in the amount of change|-3.4385||||0.0036|TWO_SIDED|95.0|-5.7394|-1.1376||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the difference in the amount of symptom reduction (week 12 - week 0) between Perspectives OCD and the Health and Well-Being Program group (i.e., a group difference in the amount of change over time).|Null hypothesis: there is no significant difference in the change from baseline to end-of-treatment Y-BOCS total scores between the treatment groups.||-1.1376|-5.7394|0.0036
92367785|NCT00325130|184638969|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
92367786|NCT00325130|184638970|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.5."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92367787|NCT00325130|184638971|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.5."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92367788|NCT00325130|184638972|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.5."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92276955|NCT04136626|184455476|SUPERIORITY||Mean Difference (Final Values)|-0.8743||||0.3616|TWO_SIDED|95.0|-2.7666|1.0181||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the Perspectives OCD group outcome compared to the Health and Well-Being Program group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in depression severity (QIDS-SR total scores) between the treatment groups at endpoint (week 12).||1.0181|-2.7666|0.3616
92276956|NCT04136626|184455476|SUPERIORITY||Difference in the amount of change|-1.3076||||0.1973|TWO_SIDED|95.0|-3.3014|0.6862||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the difference in the amount of symptom reduction (week 12 - week 0) between Perspectives OCD and the Health and Well-Being Program group (i.e., a group difference in the amount of change over time).|Null hypothesis: there is no significant difference in the change from baseline to end-of-treatment depression severity (QIDS-SR total scores) between the treatment groups.||0.6862|-3.3014|0.1973
92276957|NCT04136626|184455477|SUPERIORITY||Mean Difference (Final Values)|-2.7992||||0.1289|TWO_SIDED|95.0|-6.4246|0.8262||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the Perspectives OCD group outcome compared to the Health and Well-Being Program group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in functional impairment (WSAS total scores) between the treatment groups at endpoint (week 12).||0.8262|-6.4246|0.1289
92276958|NCT04136626|184455477|SUPERIORITY||Difference in the amount of change|-4.5704||||0.0137|TWO_SIDED|95.0|-8.1939|-0.9468||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the difference in the amount of symptom reduction (week 12 - week 0) between Perspectives OCD and the Health and Well-Being Program group (i.e., a group difference in the amount of change over time).|Null hypothesis: there is no significant difference in the change from baseline to end-of-treatment functional impairment (WSAS total scores) between the treatment groups.||-0.9468|-8.1939|0.0137
92276959|NCT04136626|184455478|SUPERIORITY||Mean Difference (Final Values)|4.3953||||0.1796|TWO_SIDED|95.0|-2.0543|10.8448||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the Perspectives OCD group outcome compared to the Health and Well-Being Program group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in quality of life (Q-LES-Q-SF percentage scores) between the treatment groups at endpoint (week 12).||10.8448|-2.0543|0.1796
92367789|NCT00325130|184638973|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.5."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92367790|NCT00325130|184638974|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.67."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92367791|NCT00325130|184638975|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.67."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92367792|NCT00325130|184638976|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.67."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92367793|NCT00325130|184638977|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.67."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92367794|NCT03896750|184638978|EQUIVALENCE|Equivalence analysis by 90% confidence interval. If the interval encompasses 1 there is no clinically meaningful difference in pretomanid AUC(0-last). Assuming a 20% coefficient of variation for the AUC(0-last) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%|Mean Ratio|0.83|||||TWO_SIDED|90.0|0.54|1.26|||Regression, Linear|Adjusted for site||No formal hypothesis testing was conducted. Assuming a 20% coefficient of variation for the AUC(0-last) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%.||1.26|0.54|
92367795|NCT03896750|184638978|EQUIVALENCE|Equivalence analysis by 90% confidence interval. If the interval encompasses 1 there is no clinically meaningful difference in pretomanid AUC(0-last). Assuming a 20% coefficient of variation for the AUC(0-last) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%|Mean Ratio|0.87|||||TWO_SIDED|90.0|0.67|1.14|||Regression, Linear|Adjusted for site||No formal hypothesis testing was conducted. Assuming a 20% coefficient of variation for the AUC(0-last) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%||1.14|0.67|
92367796|NCT03896750|184638979|EQUIVALENCE|Equivalence analysis by 90% confidence interval. If the interval encompasses 1 there is no clinically meaningful difference in pretomanid AUC(0-infinity). Assuming a 20% coefficient of variation for the AUC(0-infinity) of both groups, the probability of observing at least 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%|Mean Ratio|0.87|||||TWO_SIDED|90.0|0.54|1.39|||Regression, Linear|Adjusted for site||No formal hypothesis testing was conducted. Assuming a 20% coefficient of variation for the AUC(0-infinity) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%||1.39|0.54|
92367797|NCT03896750|184638979|EQUIVALENCE|Equivalence analysis by 90% confidence interval. If the interval encompasses 1 there is no clinically meaningful difference in pretomanid AUC(0-infinity). Assuming a 20% coefficient of variation for the AUC(0-infinity) of both groups, the probability of observing at least 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%|Mean Ratio|0.95|||||TWO_SIDED|90.0|0.71|1.28|||Regression, Linear|Adjusted for site||No formal hypothesis testing was conducted. Assuming a 20% coefficient of variation for the AUC(0-infinity) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%||1.28|0.71|
92367798|NCT00932035|184639004|SUPERIORITY|To achieve a power of 0.84, a sample size of 72 patients, evenly distributed is required. With 36 patients per group, a Fisher's exact test with a one-sided alpha of 0.05 will have a 84% power to detect the difference between the experimental group (axillary reverse mapping) of 5% or less and a control group (standard dissection) of 30% or more. Response estimates were chosen based on reported lymphedema rates.||||||0.45|||||||Fisher Exact|||||||0.45
92367799|NCT00932035|184639005|SUPERIORITY|||||||0.5|||||||Fisher Exact|||||||0.50
92367800|NCT00932035|184639006|SUPERIORITY|||||||0.59|||||||Chi-squared|||||||0.59
92367801|NCT03744910|184639007|OTHER||Treatment difference|-2.75|STANDARD_ERROR_OF_MEAN|1.563|||TWO_SIDED|95.0|-5.84|0.35||||||||0.35|-5.84|
92367802|NCT03419897|184639070|SUPERIORITY|||||||0.0001|||||||Binomial exact test|||Tislelizumab compared with historical ORR rate of 7%||||0.0001
92367803|NCT05112679|184639087|OTHER|See SAP|Mean Difference (Final Values)|0.007|STANDARD_DEVIATION|0.21||0.009|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||All participants were randomized to both groups in a cross over design, if a participant started with proprio after 4 weeks of use they will cross over to Empower ankle or vice versa. the data reflect comparison of the groups.||||0.009
92367804|NCT03053440|184639135|SUPERIORITY||Risk Difference (RD)|10.2||||0.0921|TWO_SIDED|95.0|-1.5|22.0|||Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test stratified by the stratification factors per interactive response technology (IRT). p value is 2-sided||||22.0|-1.5|0.0921
92226278|NCT02939131|184354143|SUPERIORITY||Mean Difference (Final Values)|20.6||||0.21|TWO_SIDED|95.0|-14.0|55.3|||t-test, 2 sided||A positive difference indicates site-level percentages were higher in the COMB-R group.|This is the analysis of regular frequency use of tobacco at week 48. Site level percentages of the numbers of participants with regular tobacco use were computed and compared across treatment groups.||55.3|-14.0|0.21
92367805|NCT00473889|184639162|SUPERIORITY_OR_OTHER|||||||0.992||95.0||||This is a one sided p-value, which corresponds to the null hypothesis.|Stratified Log Rank|Disease stage and bevacizumab eligibility are the stratification factors in the stratified log rank test.||||||0.992
92367806|NCT00473889|184639163|SUPERIORITY_OR_OTHER|||||||0.862||95.0||||This is a one sided p-value, which corresponds to the null hypothesis.|Finkelstein's Interval Censored Method|Disease stage and bevacizumab eligibility are the stratification factors in the Finkelstein's Interval Censored Method Model.||||||0.862
92367807|NCT00473889|184639164|SUPERIORITY_OR_OTHER|||||||0.899||95.0||||This is a one sided p-value, which corresponds to the null hypothesis.|Stratified Miettinen and Nurminen|Disease stage and bevacizumab eligibility are the stratification factors in the stratified Miettinen and Nurmimen method.||||||0.899
92367808|NCT00460655|184639171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.428||||0.006||95.0|-5.841|-1.016|||t-test, 2 sided|||||-1.016|-5.841|0.006
92367809|NCT00910910|184639209|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.323|TWO_SIDED|90.0|0.88|1.66|||stratified log rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|Stratification factors: Disease stage (Binet A or Binet B or Rai I or Rai II versus (VS) Binet C or Rai III or Rai IV); Presence of at least one of the co-morbidities Asparate transaminase (AST)/Alanine transaminase (ALT) ≥ 3.0 times Upper Limits of Normal (ULN,) Creatinine clearance ≥ 30 to \< 60 mL/min, Yes VS No); Presence of at least one 11q deletion, 17p deletion, unmutated Immunoglobulin Heavy-chain Variable-region (IgVH) or Beta-2 Microglobulin (ß2M )\> 4.0 mg/L (Yes versus No VS Unknown)||1.66|0.88|0.323
92367810|NCT00910910|184639210|SUPERIORITY||Cox Proportional Hazard|0.99||||0.967|TWO_SIDED|90.0|0.76|1.29||The p-value is based on a stratified log-rank test|Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|Stratification factors: Disease stage (Binet A or Binet B or Rai I or Rai II versus (VS) Binet C or Rai III or Rai IV); Presence of at least one of the co-morbidities Asparate transaminase (AST)/Alanine transaminase (ALT) ≥ 3.0 times Upper Limits of Normal (ULN,) Creatinine clearance ≥ 30 to \< 60 mL/min, Yes VS No); Presence of at least one 11q deletion, 17p deletion, unmutated Immunoglobulin Heavy-chain Variable-region (IgVH) or Beta-2 Microglobulin (ß2M )\> 4.0 mg/L (Yes versus No VS Unknown)||1.29|0.76|0.967
92367811|NCT00910910|184639213|SUPERIORITY||Odds Ratio (OR)|0.65||||0.032|TWO_SIDED|95.0|0.44|0.96|||Fisher Exact|||||0.96|0.44|0.032
92367812|NCT00910910|184639214|SUPERIORITY||Odds Ratio (OR)|0.66||||0.047|TWO_SIDED|95.0|0.45|0.98|||Fisher Exact|||||0.98|0.45|0.047
92367813|NCT00910910|184639215|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.826|TWO_SIDED|90.0|0.58|1.52|||Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups|||1.52|0.58|0.826
92367814|NCT00910910|184639216|SUPERIORITY||Cox Proportional Hazard|0.71||||0.149|TWO_SIDED|90.0|0.48|1.05|||Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|||1.05|0.48|0.149
92367815|NCT00910910|184639219|SUPERIORITY||Cox Proportional Hazard|1.03||||0.883|TWO_SIDED|90.0|0.73|1.46|||Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|||1.46|0.73|0.883
92167466|NCT05165485|184224526|SUPERIORITY||Mean Difference (Net)|2.0|||||TWO_SIDED|95.0|-29.0|32.0||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Mixed Models Analysis||Revefenacin - Tiotropium Least Squares Mean Difference|The null hypothesis was that the Revefenacin - Tiotropium Least Squares Mean Difference was zero and the alternative hypothesis was that it was nonzero.|The Revefenacin - Tiotropium Least Squares Mean Difference was estimated by fitting a repeated measures mixed model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|32|-29|
92167467|NCT05165485|184224527|SUPERIORITY||Mean Difference (Net)|-6.0|||||TWO_SIDED|95.0|-40.0|29.0||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Mixed Models Analysis||Revefenacin - Tiotropium Least Squares Mean Difference|The null hypothesis was that the Revefenacin - Tiotropium Least Squares Mean Difference was zero and the alternative hypothesis was that it was nonzero.|The Revefenacin - Tiotropium Least Squares Mean Difference was estimated by fitting a repeated measures mixed model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|29|-40|
92367816|NCT00910910|184639220|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.06||||0.709|TWO_SIDED|90.0|0.83|1.34|||stratified log rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups|||1.34|0.83|0.709
92367817|NCT00040742|184639272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.566|STANDARD_ERROR_OF_MEAN|0.145||0.017|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method.|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (0.5 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 0.5g and placebo of change from baseline of Peak Acute Nausea = 0.~Ha: Mean difference between 0.5g and placebo of change from baseline of Peak Acute Nausea \> 0. (Two-sided)"||||.017
92405289|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|81.5||||0.0226|TWO_SIDED|95.0|11.6|151.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||151.4|11.6|0.0226
92226279|NCT02939131|184354144|SUPERIORITY||Mean Difference (Final Values)|7.9||||0.41|TWO_SIDED|95.0|-12.4|28.3|||t-test, 2 sided||A positive value would indicate higher site-level percentages in the COMB-R group and vice versa.|The site-level percentages of participants ever using marijuana (cannabis) reported at week 24 were computed and compared across treatment groups.||28.3|-12.4|0.41
92405290|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|32.0||||0.3629|TWO_SIDED|95.0|-37.3|101.2|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||101.2|-37.3|0.3629
92405291|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|35.9||||0.3077|TWO_SIDED|95.0|-33.4|105.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||105.1|-33.4|0.3077
92405292|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|39.1||||0.2662|TWO_SIDED|95.0|-30.1|108.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||108.4|-30.1|0.2662
92405293|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.4||||0.7875|TWO_SIDED|95.0|-94.7|71.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||71.9|-94.7|0.7875
92405294|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|115.0||||0.0066|TWO_SIDED|95.0|32.6|197.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||197.4|32.6|0.0066
92405295|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|81.7||||0.054|TWO_SIDED|95.0|-1.4|164.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||164.9|-1.4|0.0540
92405296|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|21.8||||0.6014|TWO_SIDED|95.0|-60.6|104.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||104.3|-60.6|0.6014
92405297|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|36.1||||0.3885|TWO_SIDED|95.0|-46.3|118.5|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||118.5|-46.3|0.3885
92405298|NCT01746901|184701083|SUPERIORITY_OR_OTHER||LS Mean Difference|29.5||||0.4801|TWO_SIDED|95.0|-52.9|112.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||112.0|-52.9|0.4801
92167468|NCT05165485|184224528|SUPERIORITY||Mean Difference (Net)|-41.0|||||TWO_SIDED|95.0|-118.0|35.0||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Mixed Models Analysis||Revefenacin - Tiotropium Least Squares Mean Difference.|The null hypothesis was that the Revefenacin - Tiotropium Least Squares Mean Difference was zero and the alternative hypothesis was that it was nonzero.|The Revefenacin - Tiotropium Least Squares Mean Difference was estimated by fitting a repeated measures mixed model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FVC, screening FVC, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|35|-118|
92226280|NCT02939131|184354144|SUPERIORITY||Mean Difference (Final Values)|13.0||||0.26|TWO_SIDED|95.0|-10.9|36.8|||t-test, 2 sided||A positive value would indicate higher site-level percentages in the COMB-R group and vice versa.|The site-level percentages of participants ever using marijuana (cannabis) reported at week 48 were computed and compared across treatment groups.||36.8|-10.9|0.26
92405299|NCT01746901|184701084|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.5494|TWO_SIDED|95.0|-2.5|1.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.4|-2.5|0.5494
92405300|NCT01746901|184701084|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8||||0.0626|TWO_SIDED|95.0|-0.1|3.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.8|-0.1|0.0626
92405301|NCT01746901|184701084|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.7216|TWO_SIDED|95.0|-1.6|2.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.3|-1.6|0.7216
92405302|NCT01746901|184701084|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9||||0.3647|TWO_SIDED|95.0|-1.0|2.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.8|-1.0|0.3647
92405303|NCT01746901|184701084|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.4456|TWO_SIDED|95.0|-2.7|1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.2|-2.7|0.4456
92405304|NCT01746901|184701084|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9||||0.05|TWO_SIDED|95.0|0.0|3.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.9|0.0|0.0500
92405305|NCT01746901|184701085|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51|||<|0.0001|TWO_SIDED|95.0|-0.69|-0.34|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.34|-0.69|<0.0001
92405306|NCT01746901|184701085|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.69|||<|0.0001|TWO_SIDED|95.0|-1.86|-1.52|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.52|-1.86|<0.0001
92405307|NCT01746901|184701085|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-0.97|-0.63|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.63|-0.97|<0.0001
92405308|NCT01746901|184701085|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.58|-1.23|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.23|-1.58|<0.0001
92367818|NCT00040742|184639272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.506|STANDARD_ERROR_OF_MEAN|0.141||0.036|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method.|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (1 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 1.0g and placebo of change from baseline of Peak Acute Nausea = 0.~Ha: Mean difference between 1.0g and placebo of change from baseline of Peak Acute Nausea \> 0. (Two-sided)"||||0.036
92367819|NCT00040742|184639272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.269|STANDARD_ERROR_OF_MEAN|0.137||0.431|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method.|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (1.5 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 1.5g and placebo of change from baseline of Peak Acute Nausea = 0.~Ha: Mean difference between 1.5g and placebo of change from baseline of Peak Acute Nausea \> 0. (Two-sided)"||||0.431
92367820|NCT00040742|184639272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.16||0.003|TWO_SIDED||||||Mixed Models Analysis|Parameter estimated using a contrast.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (any ginger - placebo). Negative values are favorable for the ginger group.|"Placebo vs. Any Ginger. H0: Mean difference between \[(0.5g +1.0g +1.5g) / 3\] and placebo of change from baseline of Peak Acute Nausea = 0.~Ha: Mean difference between \[(0.5g +1.0g +1.5g) / 3\] and placebo of change from baseline of Peak Acute Nausea \> 0. (Two-sided)"||||0.003
92367821|NCT00040742|184639273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.441|STANDARD_ERROR_OF_MEAN|0.127||0.046|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (0.5 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 0.5g and placebo of change from baseline of Average Acute Nausea = 0.~Ha: Mean difference between 0.5g and placebo of change from baseline of Average Acute Nausea \> 0. (Two-sided)"||||0.046
92367822|NCT00040742|184639273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.402|STANDARD_ERROR_OF_MEAN|0.124||0.076|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method.|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (1 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 1.0g and placebo of change from baseline of Average Acute Nausea = 0.~Ha: Mean difference between 1.0g and placebo of change from baseline of Average Acute Nausea \> 0. (Two-sided)"||||0.076
92367823|NCT00040742|184639273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.158|STANDARD_ERROR_OF_MEAN|0.12||0.738|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method.|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (1.5 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 1.5g and placebo of change from baseline of Average Acute Nausea = 0.~Ha: Mean difference between 1.5g and placebo of change from baseline of Average Acute Nausea \> 0. (Two-sided)"||||0.738
92367824|NCT00040742|184639273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.14||0.013|TWO_SIDED||||||Mixed Models Analysis|Contrasts used for estimation.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (any ginger - placebo). Negative values are favorable for the ginger group.|"Placebo vs Any Ginger. H0: Mean difference between \[(0.5g +1.0g +1.5g) / 3\] and placebo of change from baseline of Average Acute Nausea = 0.~Ha: Mean difference between \[(0.5g +1.0g +1.5g) / 3\] and placebo of change from baseline of Average Acute Nausea \> 0. (Two-sided)"||||0.013
92367825|NCT01434654|184639298|SUPERIORITY_OR_OTHER|||||||0.99||||||P-value for arm\*time interaction fixed effect.|Mixed Models Analysis|49 datapoints included from baseline, 6 months, and 12 months visits (low CNS penetrance n=14; high CNS penetrance n=35)||The primary outcome was analysed using a mixed-effect regression model with arm and time as fixed linear effects, arm\*time interaction as a non-linear fixed effect and participant as a random effect to account for participant attrition.||||0.99
92367826|NCT01434654|184639299|SUPERIORITY_OR_OTHER|||||||0.58|||||||ANOVA|||Change in NAA/H20 levels was analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.58
92367827|NCT01434654|184639299|SUPERIORITY_OR_OTHER|||||||0.44|||||||ANOVA|||Change in Cr/H20 levels was analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.44
92367828|NCT01434654|184639299|SUPERIORITY_OR_OTHER|||||||0.86|||||||ANOVA|||Change in Cho/H20 levels was analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.86
92226281|NCT02939131|184354144|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.69|TWO_SIDED|95.0|-20.2|29.5|||t-test, 2 sided||A positive difference would indicate higher site-level percentages in the COMB-R group and vice versa.|The site-level percentages of participants ever using any illegal substance excluding marijuana (cannabis) reported at week 24 were computed and compared across treatment groups.||29.5|-20.2|0.69
92367829|NCT01434654|184639299|SUPERIORITY_OR_OTHER|||||||0.98|||||||ANOVA|||Change in mIo/H20 levels was analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.98
92367830|NCT01434654|184639300|SUPERIORITY_OR_OTHER|||||||0.16|||||||ANOVA|||Change in NAA/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.16
92367831|NCT01434654|184639300|SUPERIORITY_OR_OTHER|||||||0.09|||||||ANOVA|||Change in Cr/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.09
92367832|NCT01434654|184639300|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||Change in Cho/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.06
92367833|NCT01434654|184639300|SUPERIORITY_OR_OTHER|||||||0.68|||||||ANOVA|||Change in mIo/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.68
92367834|NCT01434654|184639300|SUPERIORITY_OR_OTHER|||||||0.58|||||||ANOVA|||Change in Glx/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.58
92367835|NCT00363142|184639302|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of FPV/r100 to FPV/r200 would be declared if the lower limit of the 2-sided 95% confidence interval on the difference in percentage of participants not meeting the virologic failure definition \[FPV/r100 minus FPV/r200\] was -12% or greater.|Difference in the percentages|-2.12||||||95.0|-9.36|5.12|||||Difference in percentages = percentage in Arm 1 minus percentage in Arm 2|||5.12|-9.36|
92367836|NCT01313910|184639315|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxin-rank test used to determine decrease in bowel movements/day after 8 weeks of intervention||||0.008
92367837|NCT01313910|184639316|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92367838|NCT01313910|184639317|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92367839|NCT01313910|184639319|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
92367840|NCT01340664|184639320|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-0.637|-0.251|||ANCOVA|||||-0.251|-0.637|<0.001
92405309|NCT01746901|184701085|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.74|||<|0.0001|TWO_SIDED|95.0|-0.91|-0.56|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.56|-0.91|<0.0001
92167469|NCT05165485|184224529|SUPERIORITY||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.39|0.92||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Regression, Logistic||The profile likelihood method was used to estimate the Revefenacin / Tiotropium responder OR.|The null hypothesis was that the Revefenacin / Tiotropium responder Odds Ratio was equal to 1 and the alternative hypothesis was that it was not equal to 1.|The Revefenacin / Tiotropium responder OR was estimated by fitting a logistic regression model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|0.92|0.39|
92226282|NCT02939131|184354144|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.96|TWO_SIDED|95.0|-24.8|23.5|||t-test, 2 sided||A positive difference would indicate higher site-level percentages in the COMB-R group and vice versa.|The site-level percentages of participants ever using any illegal substance excluding marijuana (cannabis) reported at week 48 were computed and compared across treatment groups.||23.5|-24.8|0.96
92367841|NCT01340664|184639320|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-0.792|-0.407|||ANCOVA|||||-0.407|-0.792|<0.001
92367842|NCT01340664|184639321|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-23.6|STANDARD_ERROR_OF_MEAN|4.673|<|0.001|TWO_SIDED|95.0|-32.78|-14.38|||ANCOVA|||||-14.38|-32.78|<0.001
92367843|NCT01340664|184639321|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-24.0|STANDARD_ERROR_OF_MEAN|4.661|<|0.001||95.0|-33.18|-14.83|||ANCOVA|||||-14.83|-33.18|<0.001
92367844|NCT01340664|184639322|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.1|-1.3|||ANCOVA|||||-1.3|-3.1|<0.001
92367845|NCT01340664|184639322|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.5|-1.7|||ANCOVA|||||-1.7|-3.5|<0.001
92367846|NCT01340664|184639323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43||||0.013|TWO_SIDED|95.0|1.21|4.9|||Regression, Logistic|||||4.90|1.21|0.013
92367847|NCT01340664|184639323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.38|||<|0.001|TWO_SIDED|95.0|1.68|6.81|||Regression, Logistic|||||6.81|1.68|<0.001
92367848|NCT01926444|184639326|OTHER|||||||0.506|||||||ANOVA|||AUC- censorsed (standardized); FAS||||0.506
92367849|NCT01926444|184639326|OTHER|||||||0.299|||||||ANOVA|||AUC LOCF (standardized); FAS||||0.299
92367850|NCT01926444|184639326|OTHER|||||||0.234|||||||ANOVA|||AUC Censored (Standardized)- PP Population||||0.234
92367851|NCT01926444|184639326|OTHER|||||||0.219|||||||ANOVA|||AUC LOCF (Standardized)- PP Population||||0.219
92367852|NCT01926444|184639327|OTHER|||||||0.047|||||||Chi-squared|||Time to Caecum||||0.047
92367853|NCT01926444|184639328|OTHER|||||||0.047|||||||Chi-squared|||||||0.047
92367854|NCT00894699|184639336|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92367855|NCT00894699|184639336|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92367856|NCT02626156|184639337|SUPERIORITY||Risk Difference (RD)|0.13|STANDARD_ERROR_OF_MEAN|0.07||0.091|TWO_SIDED|95.0|-0.02|0.3|||Chi-squared||Asymptotic standard error was used|||0.3|-0.02|0.091
92367857|NCT03035864|184639401|SUPERIORITY||difference in LS means|-0.11|||=|0.974|TWO_SIDED|95.0|-6.85|6.63|||ANCOVA|||Frequency statistical analysis||6.63|-6.85|=0.974
92367858|NCT03035864|184639401|SUPERIORITY||Difference in least square means|2.88|||=|0.399|TWO_SIDED|95.0|-3.85|9.61|||ANCOVA|||Statistical analysis related to severity||9.61|-3.85|=0.399
92367859|NCT03035864|184639402|SUPERIORITY||difference in least square means|0.04|||=|0.214|TWO_SIDED|95.0|-0.02|0.1|||ANCOVA|||||0.10|-0.02|=0.214
92367860|NCT03035864|184639406|SUPERIORITY||difference in least square means|-0.43|||=|0.881|TWO_SIDED|95.0|-6.13|5.27|||ANCOVA|||Frequency - week 4||5.27|-6.13|=0.881
92367861|NCT03035864|184639406|SUPERIORITY||difference in least square means|-0.31|||=|0.926|TWO_SIDED|95.0|-6.96|6.33|||ANCOVA|||Frequency - week 8||6.33|-6.96|=0.926
92367862|NCT03035864|184639406|SUPERIORITY||difference in least square means|-2.29|||=|0.426|TWO_SIDED|95.0|-7.97|3.38|||ANCOVA|||Frequency - Week 12||3.38|-7.97|=0.426
92367863|NCT03035864|184639406|SUPERIORITY||Difference in least square means|0.62|||=|0.828|TWO_SIDED|95.0|-5.04|6.29|||ANCOVA|||Severity - Week 4||6.29|-5.04|=0.828
92367864|NCT03035864|184639406|SUPERIORITY||difference in least square means|2.86|||=|0.394|TWO_SIDED|95.0|-3.75|9.47|||ANCOVA|||Severity - Week 8||9.47|-3.75|=0.394
92226283|NCT02939131|184354145|SUPERIORITY||Mean Difference (Final Values)|10.1||||0.53|TWO_SIDED|95.0|-23.9|44.1|||t-test, 2 sided||A positive difference indicates a higher site-level percentage of participants reporting regular use fof marijuana in the COMB-R group compared to the ESC group.|This is the analysis for regular use of marijuana (cannabis) at week 24. The percent of participants at each site reporting regular use (of those reporting any use) was computed. These site-level percentages were averaged and compared across treatments.||44.1|-23.9|0.53
92226284|NCT02939131|184354145|SUPERIORITY||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-35.1|34.9|||t-test, 2 sided||A positive difference would indicate higher site-level percentages of regular use of marijuana (cannabis) in the COMB-R group compared to the ESC group.|This is the analysis of regular use of marijuana (cannabis) at week 48. Of those reporting ever used, the percent at each site reporting regular use was computed. These site-level percentages were averaged and compared across treatment groups.||34.9|-35.1|1.0
92226285|NCT02939131|184354145|SUPERIORITY||Mean Difference (Final Values)|24.7||||0.18|TWO_SIDED|95.0|-16.2|65.5|||t-test, 2 sided||A positive difference would indicate higher site-level percentages of regular substance use in the COMB-R group compared to the ESC group.|This is the analysis of regular use of any illegal substance, excluding cannabis, at week 24. Of those reporting ever used, the percent at each site reporting regular use was computed. These site-level percentages were averaged and compared across treatment groups.||65.5|-16.2|0.18
92276960|NCT04136626|184455478|SUPERIORITY||Difference in the amount of change|6.7962||||0.04|TWO_SIDED|95.0|0.314|13.2785||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the difference in the amount of symptom reduction (week 12 - week 0) between Perspectives OCD and the Health and Well-Being Program group (i.e., a group difference in the amount of change over time).|Null hypothesis: there is no significant difference in the change from baseline to end-of-treatment quality of life (Q-LES-Q-SF percentage scores) between the treatment groups.||13.2785|0.3140|0.0400
92367865|NCT03035864|184639406|SUPERIORITY||difference in least square means|-1.49|||=|0.552|TWO_SIDED|95.0|-6.41|3.44|||ANCOVA|||Severeity - Week 12||3.44|-6.41|=0.552
92167470|NCT05165485|184224530|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.69|1.45||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Regression, Cox||The profile likelihood method was used to estimate the Revefenacin / Tiotropium HR.|The null hypothesis was that the Revefenacin / Tiotropium CompEx Event Hazard Ratio was equal to 1 and the alternative hypothesis was that it was not equal to 1.|The Revefenacin / Tiotropium HR was estimated by fitting a Cox proportional hazards model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|1.45|0.69|
92167471|NCT04928001|184224531|SUPERIORITY||Mean Difference (Final Values)|31.0||||0.01|TWO_SIDED|95.0|0.0|60.0|||t-test, 1 sided|||||60|0|.01
92167472|NCT01305252|184224553|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
92167473|NCT01305252|184224553|SUPERIORITY_OR_OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
92167474|NCT01305252|184224556|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
92167475|NCT01305252|184224556|SUPERIORITY_OR_OTHER|||||||0.33|||||||t-test, 2 sided|||||||0.33
92167476|NCT04723394|184224570|SUPERIORITY||Relative Risk Reduction (100*[1-RR])|50.38||||0.01|TWO_SIDED|95.0|14.38|71.25|||Cochran-Mantel-Haenszel|CMH was stratified by randomization factors||AZD7442 vs Placebo||71.25|14.38|0.010
92167477|NCT04723394|184224571|SUPERIORITY||Relative Risk Reduction (100*[1-RR])|49.24||||0.009|TWO_SIDED|95.0|14.72|69.79|||Cochran-Mantel-Haenszel|CMH was stratified by randomization factors||AZD7442 vs Placebo||69.79|14.72|0.009
92167478|NCT00253890|184224580|SUPERIORITY_OR_OTHER||Mean Difference (Net)|35.7||||0.05||95.0|||||t-test, 2 sided|||Change in sleep quality was assessed by calculating gain scores. We used a 2-sided t-test to report mean change.||||.05
92167479|NCT00077675|184224592|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was selected on the basis of clinical judgment and was deemed adequate to provide clinically meaningful descriptive results consistent with study objectives. This sample size was estimated to provide 91% power to test telavancin's non-inferiority to vancomycin with respect to clinical response using a non-inferiority margin of 20%||||||0.5318|||||||2-sided 95% confidence interval calculat|||95% Confidence Interval: -0.0527 to 0.1102 No estimated value Parameter that was estimated: Risk Difference||||0.5318
92167480|NCT01266122|184224648|SUPERIORITY_OR_OTHER||log(Incident Risk Ratio)|-0.95|||<|0.001|TWO_SIDED|95.0|-1.47|-0.44|||Mixed Models Analysis|Mixed effects Poisson regression||Intent to treat analysis||-.44|-1.47|<.001
92167481|NCT01266122|184224649|SUPERIORITY_OR_OTHER||Chi-square statistic|1.39|||=|0.239|TWO_SIDED||||||Chi-squared|||Intent to treat analysis.||||=.239
92167482|NCT00174382|184224660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|0.33||0.182||95.0|-0.21|1.09||Baseline value, center, and week as fixed effects; subject was included as a random effect.|Mixed Models Analysis|||Week 12 Null hypothesis; change from baseline to the final visit = 0. Alternative hypothesis; change from baseline to final visit not = to 0. Sample of 260 participants was required for study to have 85% power to detect change from baseline to final visit of 0.73 in SMMSE total score, with a SD of 3.5. Fewer than 260 patients were enrolled, due to this loss in power the number of analyses specified in the protocol has been reduced and any analyses carried out will be exploratory in nature.||1.09|-0.21|0.182
92167483|NCT00174382|184224660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.66|STANDARD_ERROR_OF_MEAN|0.36||0.067||95.0|-0.05|1.36|||Mixed Models Analysis|||Week 24 Null hypothesis; change from baseline to the final visit = 0. Alternative hypothesis; change from baseline to final visit not = to 0. Sample of 260 participants was required for study to have 85% power to detect change from baseline to final visit of 0.73 in SMMSE total score, with a SD of 3.5. Fewer than 260 patients were enrolled, due to this loss in power the number of analyses specified in the protocol has been reduced and any analyses carried out will be exploratory in nature.||1.36|-0.05|0.067
92167484|NCT00174382|184224660|SUPERIORITY_OR_OTHER|||||||0.085||95.0|||||Mixed Models Analysis|||Week 24 LOCF Null hypothesis; change from baseline to the final visit = 0. Alternative hypothesis; change from baseline to final visit not = to 0. Sample of 260 participants was required for study to have 85% power to detect change from baseline to final visit of 0.73 in SMMSE total score, with a SD of 3.5. Fewer than 260 patients were enrolled, due to this loss in power the number of analyses specified in the protocol has been reduced and any analyses carried out will be exploratory in nature.||||0.085
92167485|NCT00174382|184224661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_ERROR_OF_MEAN|1.16||0.218||95.0|-1.2|5.19|||Mixed Models Analysis|||||5.19|-1.20|0.218
92167486|NCT00174382|184224661|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.85|STANDARD_ERROR_OF_MEAN|2.12||0.385||95.0|-6.03|2.34|||Mixed Models Analysis|||||2.34|-6.03|0.385
92167487|NCT00174382|184224661|SUPERIORITY_OR_OTHER|||||||0.228||95.0|||||Mixed Models Analysis|||||||0.228
92167488|NCT00174382|184224662|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.84|STANDARD_ERROR_OF_MEAN|2.19||0.404||95.0|-2.51|6.18|||Mixed Models Analysis|||||6.18|-2.51|0.404
92167489|NCT00174382|184224662|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.57|STANDARD_ERROR_OF_MEAN|2.56||0.826||95.0|-4.51|5.64|||Mixed Models Analysis|||||5.64|-4.51|0.826
92167490|NCT00174382|184224662|SUPERIORITY_OR_OTHER|||||||0.494||95.0|||||Mixed Models Analysis|||||||0.494
92167491|NCT00174382|184224663|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.78|STANDARD_ERROR_OF_MEAN|1.61||0.272||95.0|-1.42|4.99|||Mixed Models Analysis|||||4.99|-1.42|0.272
92167492|NCT00174382|184224663|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|2.0||0.894||95.0|-4.21|3.68|||Mixed Models Analysis|||||3.68|-4.21|0.894
92167493|NCT00174382|184224663|SUPERIORITY_OR_OTHER|||||||0.906||95.0|||||Mixed Models Analysis|||||||0.906
92167494|NCT00174382|184224664|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.35||0.719||95.0|-0.56|0.82|||Mixed Models Analysis|||||0.82|-0.56|0.719
92167495|NCT00174382|184224664|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|0.36||0.006||95.0|0.29|1.71|||Mixed Models Analysis|||||1.71|0.29|0.006
92167496|NCT00174382|184224664|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Mixed Models Analysis|||||||0.007
92167497|NCT00174382|184224665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.32|STANDARD_ERROR_OF_MEAN|0.35||0.368||95.0|-0.38|1.01|||Mixed Models Analysis|||||1.01|-0.38|0.368
92167498|NCT00174382|184224665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.72|STANDARD_ERROR_OF_MEAN|0.33||0.03||95.0|0.07|1.37|||Mixed Models Analysis|||||1.37|0.07|0.030
92367866|NCT02340169|184639414|OTHER||||||||||||||||||Adrenal suppression rates in the evaluable population were 35% (21 out of 60), 43.3% (13 out of 30) and 20% (2 out of 10) in Cohorts 1, 2 a nd 3, respectively.|||
92367867|NCT03063606|184639426|SUPERIORITY|Analyses used all available data. Analyses to compare treatments were all intent-to-treat.||||||0.0002|||||||Mixed Models Analysis|Analyses were performed for all randomized patients who attended the first treatment session.||||||.0002
92367868|NCT03063606|184639427|SUPERIORITY|||||||0.83||||||Analyses used all available data. Analyses to compare treatments were all intent-to-treat.|Mixed Models Analysis|Analyses were performed for all randomized patients who attended the first treatment session.||||||.83
92226286|NCT02939131|184354145|SUPERIORITY||Mean Difference (Final Values)|-18.3||||0.34|TWO_SIDED|95.0|-59.5|22.9|||t-test, 2 sided||A positive difference would indicate higher site-level percentages of regular substance use in the COMB-R group compared to the ESC group.|This is the analysis of regular use of any illegal substance, excluding cannabis, at week 48. Of those reporting ever used, the percent at each site reporting regular use was computed. These site-level percentages were averaged and compared across treatment groups.||22.9|-59.5|0.34
92226287|NCT02939131|184354146|SUPERIORITY||Mean Difference (Final Values)|13.4||||0.29|TWO_SIDED|95.0|-12.9|39.6|||t-test, 2 sided||A positive value would indicate higher site-level percents in the COMB-R group.|This is the analysis for week 24. The percentage of participants at a site who reported using sex as a commodity was calculated and the site-level percentages were averaged and compared across treatments.||39.6|-12.9|0.29
92367869|NCT03079531|184639432|OTHER|||||||0.01|||||||Wilcoxon signed rank test|||The null hypothesis is that there would be no difference in papule/pustule count at baseline and after 16 weeks of secukinumab; the alternative hypothesis is that there would be a difference. Using an alpha=0.05 and power=0.80 (two sided test), the sample size needed would be 20. Assuming a dropout rate of 20%, 24 patients would be needed to achieve sufficient sample size.||||0.01
92367870|NCT03079531|184639433|OTHER|||||||0.02|||||||Wilcoxon signed rank test|||||||0.02
92367871|NCT03079531|184639434|OTHER|||||||0.03|||||||Wilcoxon signed rank test|||||||0.03
92367872|NCT03079531|184639435|OTHER|||||||0.2|||||||Wilcoxon signed rank test|||||||0.2
92367873|NCT03079531|184639436|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
92367874|NCT03079531|184639438|OTHER|||||||0.56|||||||Wilcoxon signed rank test|||||||0.56
92369495|NCT00281099|184643813|SUPERIORITY_OR_OTHER|||||||0.7144||95.0||||The one-sided Wilcoxon Rank Sum test yielded a p-value greater than 0.05, which was the a priori threshold for significance.|Wilcoxon (Mann-Whitney)|Alternative hypothesis:patients with MVP \& no pacing indication have less mean ventricular pacing through 24 months than similar patients with VVI 40.||All subjects from the analysis cohort with available data for the time period of interest were included in the corresponding analysis. The null hypothesis was that the average percent ventricular pacing through 24 months post-implant for patients with MVP programming and no pacing indication was greater than or equal to that of patients with VVI 40 programming and no pacing indication.||||0.7144
92369496|NCT00281099|184643813|SUPERIORITY_OR_OTHER|||||||0.5165||95.0||||The one-sided Wilcoxon Rank Sum test yielded a p-value greater than 0.05, which was the a priori threshold for significance.|Wilcoxon (Mann-Whitney)|Alternative hypothesis:patients with MVP \& no pacing indication have less mean ventricular pacing through 36 months than similar patients with VVI 40.||All subjects from the analysis cohort with available data for the time period of interest were included in the corresponding analysis. The null hypothesis was that the average percent ventricular pacing through 36 months post-implant for patients with MVP programming and no pacing indication was greater than or equal to that of patients with VVI 40 programming and no pacing indication.||||0.5165
92369497|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.0073||95.0||||The p-value is not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||For the KCCQ Physical Limitation Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0073
92369498|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.2493||95.0||||No adjustment was made for multiple comparisons, and the a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||For the KCCQ Symptom Stability Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.2493
92369499|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.7728||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Symptom Frequency Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.7728
92369500|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.3082||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons|Wilcoxon (Mann-Whitney)|||For the KCCQ Symptom Burden Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.3082
92369501|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.5422||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Total Symptom Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.5422
92369502|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.0851||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Self-Efficacy Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0851
92369503|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.0502||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Quality of Life Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0502
92369504|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.0463||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Social Limitation Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0463
92367875|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.4|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-3.62|-1.22||||||Day 8 Cohort A: TIP, Pooled PBO||-1.22|-3.62|
92367876|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.1|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-3.3|-0.98||||||Day 8 Cohort A: TIP/PBO, Pooled PBO||-0.98|-3.30|
92367877|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.9|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-3.2|-0.68||||||Day 8 Cohort B: TIP, Pooled PBO||-0.68|-3.20|
92367878|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.3|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-4.38|-2.15||||||Day 8 Cohort B: TIP/PBO, Pooled PBO|LS Mean Diff (SE) vs pooled placebo|-2.15|-4.38|
92367879|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-4.0|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|-5.06|-2.88||||||Day 8 Cohort C: TIP, Pooled PBO||-2.88|-5.06|
92367880|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.4|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-4.57|-2.14||||||Day 8 Cohort C: TIP/PBO, Pooled PBO||-2.14|-4.57|
92367881|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.8|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-3.66|-1.89||||||Day 8: Pooled TIP, Pooled PBO||-1.89|-3.66|
92367882|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.9|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|95.0|-3.79|-2.05||||||Day 8: Pooled TIP/PBO, Pooled PBO||-2.05|-3.79|
92367883|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.8|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-4.28|-1.31||||||Day 29 Cohort A: TIP, Pooled PBO||-1.31|-4.28|
92367884|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.4|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|95.0|-4.03|-0.67||||||Day 29 Cohort A: TIP/PBO, Pooled PBO||-0.67|-4.03|
92367885|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.3|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-4.04|-0.52||||||Day 29 Cohort B: TIP, Pooled PBO||-0.52|-4.04|
92367886|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.5|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|-5.16|-1.85||||||Day 29 Cohort B: TIP/PBO, Pooled PBO||-1.85|-5.16|
92367887|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-4.6|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-6.13|-3.09||||||Day 29 Cohort C: TIP, Pooled PBO||-3.09|-6.13|
92405310|NCT01746901|184701085|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.46|-1.11|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.11|-1.46|<0.0001
92405311|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.59|||<|0.0001|TWO_SIDED|95.0|-1.75|-1.42|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.42|-1.75|<0.0001
92367888|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.1|STANDARD_ERROR_OF_MEAN|0.79|||TWO_SIDED|95.0|-4.68|-1.52||||||Day 29 Cohort C: TIP/PBO, Pooled PBO||-1.52|-4.68|
92367889|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.2|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-4.43|-2.02||||||Day 29: Pooled TIP, Pooled PBO||-2.02|-4.43|
92367890|NCT02712983|184639456|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.0|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-4.19|-1.78||||||Day 29: Pooled TIP/PBO, Pooled PBO||-1.78|-4.19|
92367891|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.1|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-3.82|-0.36||||||Day 57 Cohort A: TIP, Pooled PBO||-0.36|-3.82|
92167499|NCT00174382|184224665|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Mixed Models Analysis|||||||0.060
92367892|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.5|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-2.21|1.29||||||Day 57 Cohort A: TIP/PBO, Pooled PBO||1.29|-2.21|
92367893|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.9|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-3.87|0.08||||||Day 57 Cohort B: TIP, Pooled PBO||0.08|-3.87|
92367894|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.6|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-3.34|0.16||||||Day 57 Cohort B: TIP/PBO, Pooled PBO||0.16|-3.34|
92367895|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.9|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-5.5|-2.22||||||Day 57 Cohort C: TIP, Pooled PBO||-2.22|-5.50|
92367896|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.4|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-3.26|0.41||||||Day 57 Cohort C: TIP/PBO, Pooled PBO||0.41|-3.26|
92367897|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.6|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|-3.98|-1.25||||||Day 57: Pooled TIP, Pooled PBO||-1.25|-3.98|
92367898|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.2|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|-2.5|0.19||||||Day 57: Pooled TIP/PBO, Pooled PBO||0.19|-2.50|
92367899|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.2|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-4.0|-0.38||||||Day 85 Cohort A: TIP, Pooled PBO||-0.38|-4.00|
92367900|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.8|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-3.81|0.13||||||Day 85 Cohort A: TIP/PBO, Pooled PBO||0.13|-3.81|
92367901|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.7|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|95.0|-4.96|-0.53||||||Day 85 Cohort B: TIP, Pooled PBO||-0.53|-4.96|
92367902|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.6|STANDARD_ERROR_OF_MEAN|0.93|||TWO_SIDED|95.0|-5.44|-1.73||||||Day 85 Cohort B: TIP/PBO, Pooled PBO||-1.73|-5.44|
92367903|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.0|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-4.9|-1.07||||||Day 85 Cohort C: TIP, Pooled PBO||-1.07|-4.90|
92367904|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.6|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-4.66|-0.53||||||Day 85 Cohort C: TIP/PBO, Pooled PBO||-0.53|-4.66|
92367905|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.6|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-4.11|-1.17||||||Day 85: Pooled TIP, Pooled PBO||-1.17|-4.11|
92367906|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.7|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|95.0|-4.12|-1.23||||||Day 85: Pooled TIP/PBO, Pooled PBO||-1.23|-4.12|
92367907|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.8|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-4.55|-1.08||||||Day 113 Cohort A: TIP, Pooled PBO||-1.08|-4.55|
92367908|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|0.1|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|-1.61|1.71||||||Day 113 Cohort A: TIP/PBO, Pooled PBO||1.71|-1.61|
92226288|NCT02939131|184354146|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.7|TWO_SIDED|95.0|-17.0|24.5|||t-test, 2 sided||A positive difference would indicate site-level percentages were higher in the COMB-R group|This is the analysis for week 48. The percentage of participants at a site who reported using sex as a commodity was calculated and the site-level percentages were averaged and compared across treatments.||24.5|-17.0|0.70
92226289|NCT02939131|184354147|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.71|TWO_SIDED|95.0|-13.7|19.4|||t-test, 2 sided||A positive difference indicates the site-level averages were higher for the COMB-R group.|This is the analysis for week 24. Scores were averaged by site and the site-level averages were averaged and compared across treatment groups.||19.4|-13.7|0.71
92367909|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.6|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|95.0|-4.93|-0.29||||||Day 113 Cohort B: TIP, Pooled PBO||-0.29|-4.93|
92367910|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.9|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|95.0|-3.62|-0.25||||||Day 113 Cohort B: TIP/PBO, Pooled PBO||-0.25|-3.62|
92367911|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.1|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-4.94|-1.3||||||Day 113 Cohort C: TIP, Pooled PBO||-1.30|-4.94|
92367912|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.4|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|-4.37|-0.43||||||Day 113 Cohort C: TIP/PBO, Pooled PBO||-0.43|-4.37|
92367913|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.8|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-4.24|-1.45||||||Day 113: Pooled TIP, Pooled PBO||-1.45|-4.24|
92367914|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.4|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|95.0|-2.73|-0.13||||||Day 113: Pooled TIP/PBO, Pooled PBO||-0.13|-2.73|
92367915|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.2|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-3.64|-0.73||||||EoT Cohort A: TIP, Pooled PBO||-0.73|-3.64|
92367916|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.1|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-1.61|1.43||||||EoT Cohort A: TIP/PBO, Pooled PBO||1.43|-1.61|
92367917|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.3|STANDARD_ERROR_OF_MEAN|0.77|||TWO_SIDED|95.0|-2.81|0.25||||||EoT Cohort B: TIP, Pooled PBO||0.25|-2.81|
92367918|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.7|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-3.14|-0.22||||||EoT Cohort B: TIP/PBO, Pooled PBO||-0.22|-3.14|
92367919|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.4|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-3.89|-0.98||||||EoT Cohort C: TIP, Pooled PBO||-0.98|-3.89|
92367920|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.7|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-3.12|-0.22||||||EoT Cohort C: TIP/PBO, Pooled PBO||-0.22|-3.12|
92367921|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.0|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-3.08|-0.85||||||EoT: Pooled TIP, Pooled PBO||-0.85|-3.08|
92367922|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-2.25|-0.04||||||EoT: Pooled TIP/PBO, Pooled PBO||-0.04|-2.25|
92367923|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.8|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-2.63|0.99||||||Day 141 Cohort A: TIP, Pooled PBO||0.99|-2.63|
92405312|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.3309|TWO_SIDED|95.0|-0.24|0.08|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.08|-0.24|0.3309
92367924|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|0.1|STANDARD_ERROR_OF_MEAN|0.95|||TWO_SIDED|95.0|-1.83|1.98||||||Day 141 Cohort A: TIP/PBO, Pooled PBO||1.98|-1.83|
92367925|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|0.2|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|95.0|-2.03|2.41||||||Day 141 Cohort B: TIP, Pooled PBO||2.41|-2.03|
92367926|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.8|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-3.68|-0.01||||||Day 141 Cohort B: TIP/PBO, Pooled PBO||-0.01|-3.68|
92367927|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.9|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-2.78|1.07||||||Day 141 Cohort C (4 capsules b.i.d.): TIP, Pooled PBO||1.07|-2.78|
92367928|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.2|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-3.36|0.89||||||Day 141 Cohort C: TIP/PBO, Pooled PBO||0.89|-3.36|
92367929|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.5|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-1.97|0.98||||||Day 141: Pooled TIP, Pooled PBO||0.98|-1.97|
92367930|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.0|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-2.45|0.45||||||Day 141: Pooled TIP/PBO, Pooled PBO||0.45|-2.45|
92367931|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.3|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-3.24|0.61||||||Day 169 Cohort A: TIP, Pooled PBO||0.61|-3.24|
92367932|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-3.05|0.91||||||Day 169 Cohort A: TIP/PBO, Pooled PBO||0.91|-3.05|
92367933|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.6|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|-2.73|1.62||||||Day 169 Cohort B: TIP, Pooled PBO||1.62|-2.73|
92367934|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.1|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-4.22|-0.08||||||Day 169 Cohort B: TIP/PBO, Pooled PBO||-0.08|-4.22|
92367935|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.2|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|95.0|-2.48|2.1||||||Day 169 Cohort C: TIP, Pooled PBO||2.10|-2.48|
92367936|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.1|STANDARD_ERROR_OF_MEAN|1.12|||TWO_SIDED|95.0|-2.33|2.13||||||Day 169 Cohort C: TIP/PBO, Pooled PBO||2.13|-2.33|
92367937|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.7|STANDARD_ERROR_OF_MEAN|0.77|||TWO_SIDED|95.0|-2.24|0.86||||||Day 169: Pooled TIP, Pooled PBO||0.86|-2.24|
92367938|NCT02712983|184639457|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-2.61|0.4||||||Day 169: Pooled TIP/PBO, Pooled PBO||0.40|-2.61|
92226290|NCT02939131|184354147|SUPERIORITY||Mean Difference (Final Values)|-4.7||||0.44|TWO_SIDED|95.0|-17.5|8.1|||t-test, 2 sided||A positive value would indicate site-level averages were higher in the COMB-R group.|This is the analysis for week 48. Scores were averaged by site and the site-level averages were averaged and compared across treatment groups.||8.1|-17.5|0.44
92226291|NCT02939131|184354148|SUPERIORITY||Mean Difference (Final Values)|7.3||||0.23|TWO_SIDED|95.0|-5.3|19.8|||t-test, 2 sided||A positive value would indicate site-level averages were higher in the COMB-R group.|This is the analysis for week 24. Scores were averaged by site and the site-level averages were averaged and compared across treatment groups.||19.8|-5.3|0.23
92226292|NCT02939131|184354148|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.73|TWO_SIDED|95.0|-17.5|12.7|||t-test, 2 sided||A positive difference would indicate site-level averages were higher in the COMB-R group.|This is the analysis for week 48. Scores were averaged by site and the site-level averages were averaged and compared across treatment groups.||12.7|-17.5|0.73
92226293|NCT02939131|184354149|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.24|TWO_SIDED|95.0|-0.4|1.5|||t-test, 2 sided||A positive value would indicate site-level averages were higher in COMB-R group.|This is the analysis for week 24. Numbers of partners were averaged by site and the site-level averages were averaged and compared across treatment groups.||1.5|-0.4|0.24
92226294|NCT02939131|184354149|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.22|TWO_SIDED|95.0|-0.3|1.0|||t-test, 2 sided||A positive difference indicates site-level averages were higher in the COMB-R group.|This is the analysis for week 48. Numbers of partners were averaged by site and the site-level averages were averaged and compared across treatment groups.||1.0|-0.3|0.22
92226295|NCT02939131|184354150|SUPERIORITY||Mean Difference (Final Values)|-8.3||||0.57|TWO_SIDED|95.0|-40.4|23.9|||t-test, 2 sided||A positive value would indicate higher site-level percents of low frequency condom use in COMB-R treatment group and vice versa.|This is the analysis for week 24 data. We computed the percent of participants reporting low frequency of condom use in past three months by site, averaged the site-level percents and compared these averages across treatment arms.||23.9|-40.4|0.57
92367939|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.14|3.18|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort A: TIP, Pooled PBO||3.18|0.14|
92367940|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.18|1.85|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort A: TIP/PBO, Pooled PBO||1.85|0.18|
92367941|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|0.42|3.77|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort B: TIP, Pooled PBO||3.77|0.42|
92367942|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.2|1.83|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort B: TIP/PBO, Pooled PBO||1.83|0.20|
92367943|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.21|2.17|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort C: TIP, Pooled PBO||2.17|0.21|
92367944|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|1.27|||||TWO_SIDED|95.0|0.44|3.62|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort C: TIP/PBO, Pooled PBO||3.62|0.44|
92367945|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.44|2.23|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Pooled TIP, Pooled PBO||2.23|0.44|
92367946|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.34|1.71|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Pooled TIP/PBO, Pooled PBO||1.71|0.34|
92367947|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.39|||||TWO_SIDED|95.0|0.08|1.83|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort A: TIP, Pooled PBO||1.83|0.08|
92367948|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.25|2.89|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort A: TIP/PBO, Pooled PBO||2.89|0.25|
92367949|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.25|3.93|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort B: TIP, Pooled PBO||3.93|0.25|
92367950|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.19|2.36|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort B: TIP/PBO, Pooled PBO||2.36|0.19|
92367951|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.19|||||TWO_SIDED|95.0|0.02|1.57|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort C: TIP, Pooled PBO||1.57|0.02|
92226296|NCT02939131|184354150|SUPERIORITY||Mean Difference (Final Values)|-21.8||||0.15|TWO_SIDED|95.0|-53.1|9.5|||t-test, 2 sided||A positive difference would indicate higher site-level percentages in the COMB-R group and vice versa.|This is the analysis for week 48 data. We computed the percent of participants reporting low frequency of condom use in past three months by site, averaged the site-level percents and compared these averages across treatment arms.||9.5|-53.1|0.15
92226297|NCT02939131|184354151|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.65|TWO_SIDED|95.0|-40.9|27.2|||t-test, 2 sided||A positive difference would indicate site level percents were higher in the COMB-R group and vice versa.|We computed the site-level percentages of participants reporting low frequency condom use at week 24, then averaged the site-level percentages by treatment group and compared these group average percents.||27.2|-40.9|0.65
92226298|NCT02939131|184354151|SUPERIORITY||Mean Difference (Final Values)|-37.8||||0.02|TWO_SIDED|95.0|-69.7|-5.8|||t-test, 2 sided||A positive difference would indicate site-level percentages were higher in the COMB-R group and vice versa.|We computed the site-level percentages of participants reporting low frequency condom use at week 48, then averaged the site-level percentages by treatment group and compared these group average percents.||-5.8|-69.7|0.02
92226299|NCT02939131|184354152|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.33|TWO_SIDED|95.0|-3.0|8.1|||t-test, 2 sided||A positive difference indicates COMB-R participants attended more sessions than ESC|We averaged the number of counseling sessions for each site and compared these site-level averages.||8.1|-3.0|0.33
92405313|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.42|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.42|-0.74|<0.0001
92226300|NCT02939131|184354157|SUPERIORITY||Mean Difference (Final Values)|18.7||||0.06|TWO_SIDED|95.0|-0.9|38.2|||t-test, 2 sided||A positive difference indicates more participants in the COMB-R group were taking medications, based on site-level percentages.|This is the analysis for the percent of participants on any psychiatric medication at week 24. Site-level percentages were compared across treatments.||38.2|-0.9|0.06
92226301|NCT02939131|184354157|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.06|TWO_SIDED|95.0|-0.7|35.5|||t-test, 2 sided||A positive difference means the site-level percentages of those taking medications were higher in the COMB-R group.|This is the analysis of the percent of participants on antidepressant medications. Site-level percentages were compared across treatments.||35.5|-0.7|0.06
92226302|NCT02939131|184354157|SUPERIORITY||Mean Difference (Final Values)|22.4||||0.02|TWO_SIDED|95.0|4.2|40.6|||t-test, 2 sided||A positive difference indicates the site-level percentages of those taking medications were higher in the COMB-R group.|This is the analysis of the percent of participants on SSRI antidepressant medications. Site-level percentages were compared across treatments.||40.6|4.2|0.02
92226303|NCT02939131|184354157|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.54|TWO_SIDED|95.0|-17.3|9.6|||t-test, 2 sided||A positive difference would indicate site-level percentages of those on medication were higher in the COMB-R group.|This is the analysis of the percent of participants on non-SSRI antidepressant medications. Site-level percentages were compared across treatments.||9.6|-17.3|0.54
92226304|NCT02939131|184354157|SUPERIORITY||Mean Difference (Final Values)|-5.0||||0.6|TWO_SIDED|95.0|-25.4|15.4|||t-test, 2 sided||A positive value would indicate the site-level percentages of those on medications were higher in the COMB-R group.|This is the analysis of the percent of participants on non-antidepressant psychiatric medications. Site-level percentages were compared across treatments.||15.4|-25.4|0.60
92226305|NCT02939131|184354158|SUPERIORITY||Mean Difference (Final Values)|-3.8||||0.77|TWO_SIDED|95.0|-32.5|24.8|||t-test, 2 sided||A positive difference would indicate more time on medication in the COMB-R group.|This is the analysis comparing site-level mean percents of study time on any psychiatric medication across treatment groups.||24.8|-32.5|0.77
92367952|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.16|2.41|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort C: TIP/PBO, Pooled PBO||2.41|0.16|
92367953|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.42|||||TWO_SIDED|95.0|0.13|1.31|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Pooled TIP, Pooled PBO||1.31|0.13|
92367954|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.28|1.8|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Pooled TIP/PBO, Pooled PBO||1.80|0.28|
92367955|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|10.71|||||TWO_SIDED|95.0|1.1|104.19|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort A: TIP, Pooled PBO||104.19|1.10|
92367956|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|4.62|||||TWO_SIDED|95.0|0.41|52.29|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort B: TIP, Pooled PBO||52.29|0.41|
92367957|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|3.23|||||TWO_SIDED|95.0|0.28|37.06|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort B: TIP/PBO, Pooled PBO||37.06|0.28|
92367958|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|1.61|||||TWO_SIDED|95.0|0.1|25.94|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort C: TIP, Pooled PBO||25.94|0.10|
92367959|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|11.3|||||TWO_SIDED|95.0|1.09|117.34|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort C: TIP/PBO, Pooled PBO||117.34|1.09|
92367960|NCT02712983|184639458|OTHER||Hazard Ratio (HR)|4.3|||||TWO_SIDED|95.0|0.5|37.32|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Pooled TIP, Pooled PBO||37.32|0.50|
92405314|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.09|||<|0.0001|TWO_SIDED|95.0|-1.25|-0.92|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.92|-1.25|<0.0001
92367961|NCT02712983|184639459|OTHER||LS Mean Diff (SE) vs pooled placebo|9.8|STANDARD_ERROR_OF_MEAN|18.15|||TWO_SIDED|95.0|-27.15|46.81|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort A: TIP, Pooled PBO||46.81|-27.15|
92167500|NCT00174382|184224666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.33||0.516||95.0|-0.44|0.86|||Mixed Models Analysis|||||0.86|-0.44|0.516
92367962|NCT02712983|184639459|OTHER||LS Mean Diff (SE) vs pooled placebo|19.8|STANDARD_ERROR_OF_MEAN|20.81|||TWO_SIDED|95.0|-22.63|62.14|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort A: TIP/PBO, Pooled PBO||62.14|-22.63|
92367963|NCT02712983|184639459|OTHER||LS Mean Diff (SE) vs pooled placebo|8.0|STANDARD_ERROR_OF_MEAN|19.29|||TWO_SIDED|95.0|-31.32|47.26|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort B: TIP, Pooled PBO||47.26|-31.32|
92367964|NCT02712983|184639459|OTHER||LS Mean Diff (SE) vs pooled placebo|12.7|STANDARD_ERROR_OF_MEAN|19.24|||TWO_SIDED|95.0|-26.49|51.89|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort B: TIP/PBO, Pooled PBO||51.89|-26.49|
92367965|NCT02712983|184639459|OTHER||LS Mean Diff (SE) vs pooled placebo|46.5|STANDARD_ERROR_OF_MEAN|21.17|||TWO_SIDED|95.0|3.37|89.61|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort C: TIP, Pooled PBO||89.61|3.37|
92405315|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.59|-0.26|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.26|-0.59|<0.0001
92167501|NCT00174382|184224666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|0.32||0.297||95.0|-0.97|0.3|||Mixed Models Analysis|||||0.30|-0.97|0.297
92167502|NCT00174382|184224666|SUPERIORITY_OR_OTHER|||||||0.133||95.0|||||Mixed Models Analysis|||||||0.133
92167503|NCT00174382|184224667|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.79|STANDARD_ERROR_OF_MEAN|0.33||0.02||95.0|0.13|1.45|||Mixed Models Analysis|||||1.45|0.13|0.020
92167504|NCT00174382|184224667|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.87|STANDARD_ERROR_OF_MEAN|0.36||0.018||95.0|0.16|1.59|||Mixed Models Analysis|||||1.59|0.16|0.018
92167505|NCT00174382|184224667|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Mixed Models Analysis|||||||0.004
92167506|NCT00174382|184224668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.42||0.01||95.0|-1.93|-0.27|||Mixed Models Analysis|||||-0.27|-1.93|0.010
92167507|NCT00174382|184224668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.12|STANDARD_ERROR_OF_MEAN|0.47||0.018||95.0|-2.05|-0.19|||Mixed Models Analysis|||||-0.19|-2.05|0.018
92167508|NCT00174382|184224668|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Mixed Models Analysis|||||||0.018
92167509|NCT00174382|184224669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.83|STANDARD_ERROR_OF_MEAN|0.62||0.182||95.0|-2.06|0.39|||Mixed Models Analysis|||||0.39|-2.06|0.182
92167510|NCT00174382|184224669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09|STANDARD_ERROR_OF_MEAN|0.68||0.114||95.0|-2.44|0.26|||Mixed Models Analysis|||||0.26|-2.44|0.114
92167511|NCT00174382|184224669|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||Mixed Models Analysis|||||||0.038
92167512|NCT03903822|184224674|SUPERIORITY||Least square (LS) mean difference|-13.9|STANDARD_ERROR_OF_MEAN|11.04||0.104|TWO_SIDED|90.0|-32.1|4.3|||ANCOVA|||Analysis of covariance (ANCOVA) contained fixed factors of treatment and baseline value.||4.3|-32.1|0.1040
92167513|NCT03903822|184224674|SUPERIORITY||LS Mean Difference|-20.2|STANDARD_ERROR_OF_MEAN|11.0||0.0334|TWO_SIDED|90.0|-38.3|-2.1|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-2.1|-38.3|0.0334
92167514|NCT03903822|184224674|SUPERIORITY||LS Mean Difference|-25.6|STANDARD_ERROR_OF_MEAN|10.75||0.0086|TWO_SIDED|90.0|-43.3|-8.0|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-8.0|-43.3|0.0086
92167515|NCT03903822|184224674|SUPERIORITY||LS Mean Difference|-23.5|STANDARD_ERROR_OF_MEAN|10.93||0.0158|TWO_SIDED|90.0|-41.5|-5.5|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-5.5|-41.5|0.0158
92167516|NCT03903822|184224674|SUPERIORITY||LS Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|8.11||0.0879|TWO_SIDED|90.0|-24.3|2.4|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||2.4|-24.3|0.0879
92167517|NCT03903822|184224674|SUPERIORITY||LS Mean Difference|-27.4|STANDARD_ERROR_OF_MEAN|8.11||0.0004|TWO_SIDED|90.0|-40.7|-14.1|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-14.1|-40.7|0.0004
92167518|NCT03903822|184224675|SUPERIORITY||Risk Difference (RD)|18.9||||0.0244|TWO_SIDED|90.0|2.4|34.7|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||34.7|2.4|0.0244
92167519|NCT03903822|184224675|SUPERIORITY||Risk Difference (RD)|22.5||||0.0113|TWO_SIDED|90.0|4.8|38.6|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||38.6|4.8|0.0113
92167520|NCT03903822|184224675|SUPERIORITY||Risk Difference (RD)|29.7||||0.0018|TWO_SIDED|90.0|11.0|45.7|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||45.7|11.0|0.0018
92167521|NCT03903822|184224675|SUPERIORITY||Risk Difference (RD)|33.6||||0.0007|TWO_SIDED|90.0|13.7|49.9|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||49.9|13.7|0.0007
92167522|NCT03903822|184224675|SUPERIORITY||Risk Difference (RD)|19.4||||0.0289|TWO_SIDED|90.0|1.8|36.5|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||36.5|1.8|0.0289
92167523|NCT03903822|184224675|SUPERIORITY||Risk Difference (RD)|13.1||||0.1145|TWO_SIDED|90.0|-2.9|29.6|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||29.6|-2.9|0.1145
92167524|NCT03903822|184224676|SUPERIORITY||LS mean difference|-1.31|STANDARD_ERROR_OF_MEAN|0.79||0.0488|TWO_SIDED|90.0|-2.61|-0.01|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-0.01|-2.61|0.0488
92167525|NCT03903822|184224676|SUPERIORITY||LS Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.788||0.0413|TWO_SIDED|90.0|-2.66|-0.07|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-0.07|-2.66|0.0413
92405316|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.21|-0.88|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.88|-1.21|<0.0001
92405317|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.03|||<|0.0001|TWO_SIDED|95.0|-4.37|-3.69|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-3.69|-4.37|<0.0001
92405318|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.2475|TWO_SIDED|95.0|-0.54|0.14|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.14|-0.54|0.2475
92367966|NCT02712983|184639459|OTHER||LS Mean Diff (SE) vs pooled placebo|3.2|STANDARD_ERROR_OF_MEAN|18.37|||TWO_SIDED|95.0|-34.21|40.64|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort C: TIP/PBO, Pooled PBO||40.64|-34.21|
92367967|NCT02712983|184639459|OTHER||LS Mean Diff (SE) vs pooled placebo|21.4|STANDARD_ERROR_OF_MEAN|14.46|||TWO_SIDED|95.0|-8.03|50.89|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Pooled TIP, Pooled PBO||50.89|-8.03|
92367968|NCT02712983|184639459|OTHER||LS Mean Diff (SE) vs pooled placebo|11.9|STANDARD_ERROR_OF_MEAN|14.44|||TWO_SIDED|95.0|-17.52|41.29|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Pooled TIP/PBO, Pooled PBO||41.29|-17.52|
92367969|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|0.51|3.13|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort A: TIP, Pooled PBO||3.13|0.51|
92367970|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.15|1.46|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort A: TIP/PBO, Pooled PBO||1.46|0.15|
92367971|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.44|3.21|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort B: TIP, Pooled PBO||3.21|0.44|
92367972|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.32|2.18|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort B: TIP/PBO, Pooled PBO||2.18|0.32|
92367973|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.1|1.27|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort C: TIP, Pooled PBO||1.27|0.10|
92367974|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.43|2.99|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort C: TIP/PBO, Pooled PBO||2.99|0.43|
92367975|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.37|1.76|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Pooled TIP, Pooled PBO||1.76|0.37|
92367976|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.36|1.61|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Pooled TIP/PBO, Pooled PBO||1.61|0.36|
92367977|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.3|2.55|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort A: TIP, Pooled PBO||2.55|0.30|
92367978|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.2|2.03|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort A: TIP/PBO, Pooled PBO||2.03|0.20|
92367979|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.4|3.6|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort B: TIP, Pooled PBO||3.60|0.40|
92367980|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.31|2.55|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort B: TIP/PBO, Pooled PBO||2.55|0.31|
92367981|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.28|||||TWO_SIDED|95.0|0.06|1.27|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort C: TIP, Pooled PBO||1.27|0.06|
92405319|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.61|||<|0.0001|TWO_SIDED|95.0|-1.96|-1.27|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.27|-1.96|<0.0001
92405320|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.62|||<|0.0001|TWO_SIDED|95.0|-2.96|-2.27|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-2.27|-2.96|<0.0001
92405321|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.68|-1.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.00|-1.68|<0.0001
92167526|NCT03903822|184224676|SUPERIORITY||LS Mean Difference|-1.59|STANDARD_ERROR_OF_MEAN|0.773||0.02|TWO_SIDED|90.0|-2.86|-0.32|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-0.32|-2.86|0.0200
92167527|NCT03903822|184224676|SUPERIORITY||LS Mean Difference|-2.33|STANDARD_ERROR_OF_MEAN|0.758||0.0011|TWO_SIDED|90.0|-3.58|-1.08|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-1.08|-3.58|0.0011
92167528|NCT03903822|184224676|SUPERIORITY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.535||0.0727|TWO_SIDED|90.0|-1.66|0.1|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||0.10|-1.66|0.0727
92167529|NCT03903822|184224676|SUPERIORITY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.534||0.001|TWO_SIDED|90.0|-2.52|-0.77|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-0.77|-2.52|0.0010
92167530|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|0.5||||0.5246|TWO_SIDED|90.0|-14.7|16.4|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||16.4|-14.7|0.5246
92167531|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|3.8||||0.3906|TWO_SIDED|90.0|-12.5|19.9|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||19.9|-12.5|0.3906
92167532|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|13.5||||0.1193|TWO_SIDED|90.0|-3.2|30.6|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||30.6|-3.2|0.1193
92167533|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|28.2||||0.0048|TWO_SIDED|90.0|8.8|45.5|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||45.5|8.8|0.0048
92167534|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|14.7||||0.0777|TWO_SIDED|90.0|-2.0|31.1|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||31.1|-2.0|0.0777
92167535|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|11.8||||0.1245|TWO_SIDED|90.0|-4.3|28.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||28.0|-4.3|0.1245
92167536|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|6.2||||0.3322|TWO_SIDED|90.0|-12.2|24.4|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||24.4|-12.2|0.3322
92167537|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|18.5||||0.0535|TWO_SIDED|90.0|-0.3|36.5|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||36.5|-0.3|0.0535
92167538|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|24.3||||0.0159|TWO_SIDED|90.0|4.5|41.9|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||41.9|4.5|0.0159
92167539|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|36.8||||0.0008|TWO_SIDED|90.0|15.4|54.0|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||54.0|15.4|0.0008
92167540|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|20.7||||0.0386|TWO_SIDED|90.0|1.5|38.8|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||38.8|1.5|0.0386
92167541|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|12.1||||0.1485|TWO_SIDED|90.0|-6.4|30.3|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||30.3|-6.4|0.1485
92167542|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|17.3||||0.062|TWO_SIDED|90.0|-0.8|34.8|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||34.8|-0.8|0.0620
92167543|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|26.9||||0.0089|TWO_SIDED|90.0|6.5|44.4|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||44.4|6.5|0.0089
92167544|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|37.8||||0.0005|TWO_SIDED|90.0|17.5|54.7|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||54.7|17.5|0.0005
92167545|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|36.7||||0.0007|TWO_SIDED|90.0|15.4|54.0|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||54.0|15.4|0.0007
92167546|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|18.1||||0.0711|TWO_SIDED|90.0|-2.0|37.5|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||37.5|-2.0|0.0711
92167547|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|23.8||||0.0266|TWO_SIDED|90.0|2.7|42.5|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||42.5|2.7|0.0266
92167548|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|3.8||||0.4173|TWO_SIDED|90.0|-15.3|23.1|||Chan and Zhang Exact Method|||At week 4: Risk difference = difference in percentage of participants.||23.1|-15.3|0.4173
92167549|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|16.3||||0.1096|TWO_SIDED|90.0|-4.3|35.6|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||35.6|-4.3|0.1096
92167550|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|27.0||||0.0133|TWO_SIDED|90.0|6.1|45.7|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||45.7|6.1|0.0133
92167551|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|23.2||||0.0304|TWO_SIDED|90.0|2.6|41.7|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||41.7|2.6|0.0304
92167552|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|29.4||||0.0078|TWO_SIDED|90.0|7.2|47.6|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||47.6|7.2|0.0078
92167553|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|29.4||||0.0078|TWO_SIDED|90.0|7.2|47.6|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||47.6|7.2|0.0078
92167554|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|1.1||||0.4966|TWO_SIDED|90.0|-18.4|20.4|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||20.4|-18.4|0.4966
92167555|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|10.9||||0.2753|TWO_SIDED|90.0|-9.3|30.1|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||30.1|-9.3|0.2753
92167556|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|16.2||||0.1036|TWO_SIDED|90.0|-4.2|35.7|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||35.7|-4.2|0.1036
92167557|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|20.6||||0.0457|TWO_SIDED|90.0|0.4|39.6|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||39.6|0.4|0.0457
92226306|NCT02939131|184354158|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.91|TWO_SIDED|95.0|-37.3|33.5|||t-test, 2 sided||A positive difference would indicate more study time on medication in the COMB-R group.|This is the analysis comparing site-level mean percents of study time on single SSRI psychiatric medication across treatment groups.||33.5|-37.3|0.91
92226307|NCT02939131|184354158|SUPERIORITY||Mean Difference (Final Values)|-16.7||||0.4|TWO_SIDED|95.0|-60.2|26.9|||t-test, 2 sided||A positive value would indicate more time on medication in the COMB-R group.|This is the analysis comparing site-level mean percents of study time on SSRI+other psychiatric medication across treatment groups.||26.9|-60.2|0.40
92226308|NCT02939131|184354158|SUPERIORITY||Mean Difference (Final Values)|-13.5||||0.52|TWO_SIDED|95.0|-67.0|40.1|||t-test, 2 sided||A positive difference would indicate more time on medication in COMB-R group.|This is the analysis comparing site-level mean percents of study time on a single non-SSRI psychiatric medication across treatment groups.||40.1|-67.0|0.52
92226309|NCT02939131|184354158|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.96|TWO_SIDED|95.0|-778.0|785.7|||t-test, 2 sided|Because of sparseness, the confidence intervals for this site-level analysis are very large.|A positive difference indicates more time on medication in the COMB-R group. There was data from only one site in the ESC group and 2 sites in the COMB-R group. The confidence interval for the difference is quite large and the test is unreliable.|This is the analysis comparing site-level mean percents of study time on non-SSRI+other psychiatric medication across treatment groups. This analysis is unstable because of sparseness.||785.7|-778.0|0.96
92226310|NCT02939131|184354158|SUPERIORITY||Mean Difference (Final Values)|-4.2||||0.74|TWO_SIDED|95.0|-31.4|23.0|||t-test, 2 sided||A positive difference would reflect more time on medications in the COMB-R group|This is the analysis comparing site-level mean percents of study time on antidepressant medication across treatment groups.||23.0|-31.4|0.74
92226311|NCT02939131|184354159|SUPERIORITY||Mean Difference (Final Values)|2.7||||0.29|TWO_SIDED|95.0|-2.8|8.2|||t-test, 2 sided||A positive difference would indicate the site level average interim counseling sessions was higher in the COMB-R group.|We compared the site-level average number of interim counseling sessions between treatment groups.||8.2|-2.8|0.29
92367982|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.45|3.73|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort C: TIP/PBO, Pooled PBO||3.73|0.45|
92367983|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.27|1.6|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Pooled TIP, Pooled PBO||1.60|0.27|
92367984|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.4|2.02|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Pooled TIP/PBO, Pooled PBO||2.02|0.40|
92367985|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|3.72|||||TWO_SIDED|95.0|0.84|16.52|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort A: TIP, Pooled PBO||16.52|0.84|
92367986|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|0.22|8.16|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort B: TIP, Pooled PBO||8.16|0.22|
92367987|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|2.15|||||TWO_SIDED|95.0|0.46|10.05|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort B: TIP/PBO, Pooled PBO||10.05|0.46|
92367988|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.05|4.87|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort C: TIP, Pooled PBO||4.87|0.05|
92367989|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|2.56|||||TWO_SIDED|95.0|0.53|12.49|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort C: TIP/PBO, Pooled PBO||12.49|0.53|
92367990|NCT02712983|184639464|OTHER||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|0.33|5.68|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Paremteral Pooled TIP, Pooled PBO||5.68|0.33|
92367991|NCT02712983|184639469|OTHER||Odds Ratio, log|5.62|||||TWO_SIDED|95.0|0.83|38.18|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|Cohort A (3 capsules o.d.): TIP, Pooled PBO||38.18|0.83|
92367992|NCT02712983|184639469|OTHER||Odds Ratio, log|2.0|||||TWO_SIDED|95.0|0.21|19.16|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|Cohort B (5 capsules o.d.): TIP, Pooled PBO||19.16|0.21|
92226312|NCT02939131|184354161|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.03|TWO_SIDED|95.0|0.02|0.38|||t-test, 2 sided||A positive difference indicates higher site-level averages in the COMB-R group.|The average score for all participants at each site was computed. These site-level averages were compared across treatment groups.||0.38|0.02|0.03
92226313|NCT02939131|184354162|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.69|TWO_SIDED|95.0|-0.43|0.29|||t-test, 2 sided||A positive difference would indicate the site-level averages were higher in the COMB-R group compared to the ESC group and vice versa|The average of scores for all participants' clinicians at each site was computed and these site-level averages were compared across treatments.||0.29|-0.43|0.69
92226314|NCT02939131|184354163|SUPERIORITY||Mean Difference (Final Values)|0.65||||0.004|TWO_SIDED|95.0|0.26|1.03|||t-test, 2 sided||A positive difference would indicate site-level averages were higher for the COMB-R group than the ESC group and vice versa.|The average scores for all participants' prescribing clinicians at each site were computed and these site-level averages were compared across treatment groups.||1.03|0.26|0.004
92226315|NCT02939131|184354164|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|0.16||||0.98|TWO_SIDED|95.0|-14.04|14.36|||t-test, 2 sided||We subtract group mean for ESC from group mean for COMB-R. The group means are the means of the site-level percentages of participants with events.|This is the analysis of new Grade 3+ signs/symptoms through week 24. The percent of participants at each site with at least one such event was computed. The average of these site-level percents was calculated for each treatment arm. These averages were compared.||14.36|-14.04|0.98
92367993|NCT02712983|184639469|OTHER||Odds Ratio, log|3.05|||||TWO_SIDED|95.0|0.43|21.8|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|Cohort B (5 capsules o.d.): TIP/PBO, Pooled PBO||21.80|0.43|
92367994|NCT02712983|184639469|OTHER||Odds Ratio, log|1.84|||||TWO_SIDED|95.0|0.19|17.42|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|Cohort C (4 capsules b.i.d.): TIP, Pooled PBO||17.42|0.19|
92367995|NCT02712983|184639469|OTHER||Odds Ratio, log|3.41|||||TWO_SIDED|95.0|0.47|25.03|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|Cohort C (4 capsules b.i.d.): TIP/PBO, Pooled PBO||25.03|0.47|
92226316|NCT02939131|184354164|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|2.57||||0.6|TWO_SIDED|95.0|-7.85|12.98|||t-test, 2 sided||We subtracted the group mean for the ESC group from that of the COMB-R group. The group mean is the mean of the site-specific percentages of participants with events.|This is the analysis of new Grade 3+ diagnoses through week 24.The percent of participants at each site with at least one such event was computed. The average of these site-level percents was calculated for each treatment arm. These averages were compared.||12.98|-7.85|0.60
92226317|NCT02939131|184354164|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.The group mean is the mean of the site-specific percentages of participants with events as defined above.|Mean Difference (Final Values)|4.4||||0.17|TWO_SIDED|95.0|-2.21|11.02|||t-test, 2 sided||The ESC group mean percent of participants reporting a trigger event was subtracted from the COMB-R group mean.|This is the analysis of the triggering events (psychiatric hospitalizations or suicide attempts) through week 24. A participant is counted once if they had reported any such event prior to the upper bound of the week 24 window. The percent of participants at each site with at least one such event were computed.The average of these site-level percents was calculated for each treatment arm. These averages were compared.||11.02|-2.21|0.17
92226318|NCT02939131|184354165|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.98|TWO_SIDED|95.0|-13.85|14.13|||t-test, 2 sided||A positive difference indicates more participants with events in the COMB-R group.|This is the analysis of new Grade 3+ signs/symptoms through week 48. The percent of participants at each site with at least one such event was computed. The average of these site-level percents was calculated for each treatment arm. These averages were compared.||14.13|-13.85|0.98
92226319|NCT02939131|184354165|SUPERIORITY||Mean Difference (Final Values)|5.64||||0.4|TWO_SIDED|95.0|-8.6|19.89|||t-test, 2 sided||A positive difference indicates more participants with events in the COMB-R group.|This is the analysis of new Grade 3+ diagnoses through week 48. The percent of participants at each site with at least one such event was computed. The average of these site-level percents was calculated for each treatment arm. These averages were compared.||19.89|-8.60|0.40
92226320|NCT02939131|184354165|SUPERIORITY||Mean Difference (Final Values)|3.01||||0.44|TWO_SIDED|95.0|-5.27|11.29|||t-test, 2 sided||A positive difference indicates more participants with events in the COMB-R group.|This is the analysis of new trigger events through week 48. The percent of participants at each site with at least one such event was computed. The average of these site-level percents was calculated for each treatment arm. These averages were compared.||11.29|-5.27|0.44
92226321|NCT04033367|184354166|SUPERIORITY||Least square mean difference|-15.52|||<|0.001|TWO_SIDED|95.0|-24.13|-6.9||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when primary outcome measure was statistically significant at two-sided 0.05 level.||-6.90|-24.13|<0.001
92226322|NCT04033367|184354167|SUPERIORITY||Least square mean difference|-27.87|||<|0.001|TWO_SIDED|95.0|-37.96|-17.78||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05 level.||-17.78|-37.96|<0.001
92226323|NCT04033367|184354168|SUPERIORITY||Least square mean difference|-15.06|||<|0.001|TWO_SIDED|95.0|-20.56|-9.56||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05 level.||-9.56|-20.56|<0.001
92226324|NCT04033367|184354169|SUPERIORITY||Least square mean difference|-2.08|||<|0.001|TWO_SIDED|95.0|-2.97|-1.18||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05 level.||-1.18|-2.97|<0.001
92226325|NCT04033367|184354170|SUPERIORITY||Least square mean difference|-3.61|||<|0.001|TWO_SIDED|95.0|-5.68|-1.53||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-1.53|-5.68|<0.001
92226326|NCT04033367|184354171|SUPERIORITY||Least square mean difference|9.97||||0.297|TWO_SIDED|95.0|-8.86|28.79||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||28.79|-8.86|0.297
92367996|NCT02712983|184639469|OTHER||Odds Ratio, log|2.74|||||TWO_SIDED|95.0|0.47|16.07|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|||16.07|0.47|
92167558|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|29.4||||0.0078|TWO_SIDED|90.0|7.2|47.6|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||47.6|7.2|0.0078
92167559|NCT03903822|184224677|SUPERIORITY||Risk Difference (RD)|29.4||||0.0078|TWO_SIDED|90.0|7.2|47.6|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||47.6|7.2|0.0078
92367997|NCT02712983|184639470|OTHER||Hazard Ratio (HR)|4.5|||||TWO_SIDED|95.0|0.77|26.42|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Cohort A (3 capsules o.d.): TIP, Pooled PBO||26.42|0.77|
92367998|NCT02712983|184639470|OTHER||Hazard Ratio (HR)|2.0|||||TWO_SIDED|95.0|0.28|14.47|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Cohort B (5 capsules o.d.): TIP, Pooled PBO||14.47|0.28|
92367999|NCT02712983|184639470|OTHER||Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|0.2|11.6|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Cohort B (5 capsules o.d.): TIP/PBO, Pooled PBO||11.60|0.20|
92368000|NCT02712983|184639470|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.06|7.49|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Cohort C (4 capsules b.i.d.): TIP, Pooled PBO||7.49|0.06|
92368001|NCT02712983|184639470|OTHER||Hazard Ratio (HR)|3.81|||||TWO_SIDED|95.0|0.62|23.29|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Cohort C (4 capsules b.i.d.): TIP/PBO, Pooled PBO||23.29|0.62|
92368002|NCT02712983|184639470|OTHER||Hazard Ratio (HR)|1.82|||||TWO_SIDED|95.0|0.35|9.45|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Pooled TIP, Pooled PBO||9.45|0.35|
92368003|NCT03430843|184639559|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0001|TWO_SIDED|95.0|0.57|0.85|||1-sided, Log Rank Test|||||0.85|0.57|0.0001
92368004|NCT05360966|184639582|OTHER|Difference (2-sided)|Difference in Percentages|38.8|||<|0.0001|TWO_SIDED|95.0|30.8|46.8||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|46.8|30.8|<0.0001
92368005|NCT05360966|184639583|OTHER|Difference (2-sided)|Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|2.08||0.1321|TWO_SIDED|95.0|-7.2|0.9||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center.|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||0.9|-7.2|0.1321
92368006|NCT05360966|184639584|OTHER|Difference (2-sided)|Least Squares Mean Difference|8.3|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED|95.0|6.9|9.8||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||9.8|6.9|<0.0001
92405322|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.42|||<|0.0001|TWO_SIDED|95.0|-2.76|-2.08|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-2.08|-2.76|<0.0001
92167560|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|3.3||||0.245|TWO_SIDED|90.0|-5.4|14.9|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||14.9|-5.4|0.2450
92167561|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|3.1||||0.2575|TWO_SIDED|90.0|-5.3|14.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||14.0|-5.3|0.2575
92167562|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|16.1||||0.0087|TWO_SIDED|90.0|5.7|31.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||31.0|5.7|0.0087
92167563|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|10.7||||0.0392|TWO_SIDED|90.0|0.8|25.4|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||25.4|0.8|0.0392
92226327|NCT02723201|184354181|SUPERIORITY_OR_OTHER||LS Mean Difference|0.402|||<|0.001|TWO_SIDED|90.0|0.32|0.505|||ANOVA|||Analysis of variance (ANOVA) was performed on the natural logarithms of Cmax with regimen as the fixed effects and participant as the random effect. The point estimate and 90 percent (%) confidence interval (CI) was obtained by taking the antilog of the difference in the log transformed least square (LS) means and its CI, respectively.||0.505|0.320|<0.001
92405323|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.91|||<|0.0001|TWO_SIDED|95.0|-13.21|-10.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-10.60|-13.21|<0.0001
92405324|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.23|||<|0.0001|TWO_SIDED|95.0|-8.54|-5.93|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-5.93|-8.54|<0.0001
92405325|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.9|||<|0.0001|TWO_SIDED|95.0|-9.2|-6.59|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-6.59|-9.20|<0.0001
92405326|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.24|||<|0.0001|TWO_SIDED|95.0|-12.55|-9.94|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-9.94|-12.55|<0.0001
92167564|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-11.2|11.2|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||11.2|-11.2|1.0000
92167565|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|7.8||||0.1528|TWO_SIDED|90.0|-4.9|22.5|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||22.5|-4.9|0.1528
92167566|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|0.9||||0.4989|TWO_SIDED|90.0|-12.7|15.2|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||15.2|-12.7|0.4989
92405327|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.35|||<|0.0001|TWO_SIDED|95.0|-7.65|-5.05|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-5.05|-7.65|<0.0001
92405328|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.36|||<|0.0001|TWO_SIDED|95.0|-11.67|-9.05|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-9.05|-11.67|<0.0001
92405329|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.37|||<|0.0001|TWO_SIDED|95.0|-13.16|-9.58|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-9.58|-13.16|<0.0001
92405330|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.07|||<|0.0001|TWO_SIDED|95.0|-17.86|-14.28|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-14.28|-17.86|<0.0001
92405331|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.73|||<|0.0001|TWO_SIDED|95.0|-13.53|-9.93|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-9.93|-13.53|<0.0001
92167567|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|0.3||||0.5419|TWO_SIDED|90.0|-13.6|14.2|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||14.2|-13.6|0.5419
92167568|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|10.3||||0.1362|TWO_SIDED|90.0|-5.0|26.2|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||26.2|-5.0|0.1362
92167569|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|15.9||||0.0541|TWO_SIDED|90.0|-0.4|33.9|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||33.9|-0.4|0.0541
92167570|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|3.3||||0.3945|TWO_SIDED|90.0|-12.0|19.5|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||19.5|-12.0|0.3945
92167571|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|23.3||||0.0201|TWO_SIDED|90.0|3.9|41.8|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||41.8|3.9|0.0201
92167572|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|11.2||||0.1372|TWO_SIDED|90.0|-5.4|28.2|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||28.2|-5.4|0.1372
92167573|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|3.5||||0.3924|TWO_SIDED|90.0|-11.6|19.1|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||19.1|-11.6|0.3924
92167574|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|20.1||||0.0311|TWO_SIDED|90.0|2.4|38.3|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||38.3|2.4|0.0311
92167575|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|20.0||||0.0392|TWO_SIDED|90.0|0.8|38.1|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||38.1|0.8|0.0392
92167576|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|10.0||||0.1541|TWO_SIDED|90.0|-6.2|26.4|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||26.4|-6.2|0.1541
92167577|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|27.0||||0.0091|TWO_SIDED|90.0|6.8|45.4|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||45.4|6.8|0.0091
92226328|NCT02723201|184354181|SUPERIORITY_OR_OTHER||LS Mean Difference|1.216||||0.249|TWO_SIDED|90.0|1.016|1.455|||ANOVA|||ANOVA was performed on the natural logarithms of Cmax with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||1.455|1.016|0.249
92368007|NCT05360966|184639585|OTHER|Difference (2-sided)|Difference in Percentages|40.1|||<|0.0001|TWO_SIDED|95.0|32.3|47.9||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|47.9|32.3|<0.0001
92368008|NCT05360966|184639586|OTHER|Difference (2-sided)|Least Squares Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|6.3|8.9||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||8.9|6.3|<0.0001
92369505|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.0227||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Overall Summary Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0227
92405332|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.71|||<|0.0001|TWO_SIDED|95.0|-17.51|-13.91|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-13.91|-17.51|<0.0001
92405333|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.88|||<|0.0001|TWO_SIDED|95.0|-10.67|-7.09|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-7.09|-10.67|<0.0001
92405334|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.19|||<|0.0001|TWO_SIDED|95.0|-15.99|-12.39|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-12.39|-15.99|<0.0001
92405335|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.26||||0.8784|TWO_SIDED|95.0|-3.63|3.11|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.11|-3.63|0.8784
92167578|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|8.5||||0.2835|TWO_SIDED|90.0|-9.5|27.0|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||27.0|-9.5|0.2835
92167579|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|9.9||||0.27|TWO_SIDED|90.0|-8.7|27.8|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||27.8|-8.7|0.2700
92167580|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|17.3||||0.0662|TWO_SIDED|90.0|-1.4|36.2|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||36.2|-1.4|0.0662
92167581|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|31.8||||0.005|TWO_SIDED|90.0|9.2|50.4|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||50.4|9.2|0.0050
92167582|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|20.0||||0.0302|TWO_SIDED|90.0|2.2|38.3|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||38.3|2.2|0.0302
92167583|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|27.0||||0.0091|TWO_SIDED|90.0|6.8|45.4|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||45.4|6.8|0.0091
92167584|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|11.8||||0.1561|TWO_SIDED|90.0|-6.5|30.2|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||30.2|-6.5|0.1561
92167585|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|16.2||||0.0753|TWO_SIDED|90.0|-2.7|34.8|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||34.8|-2.7|0.0753
92167586|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|27.0||||0.0108|TWO_SIDED|90.0|5.7|46.0|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||46.0|5.7|0.0108
92226329|NCT02723201|184354181|SUPERIORITY_OR_OTHER||LS Mean Difference|0.055|||<|0.001|TWO_SIDED|90.0|0.041|0.074|||ANOVA|||ANOVA was performed on the natural logarithms of Cmax with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||0.074|0.041|<0.001
92226330|NCT02723201|184354181|SUPERIORITY_OR_OTHER||LS Mean Difference|0.685||||0.054|TWO_SIDED|90.0|0.499|0.939|||ANOVA|||ANOVA was performed on the natural logarithms of Cmax with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||0.939|0.499|0.054
92226331|NCT02723201|184354183|SUPERIORITY_OR_OTHER||LS Mean Difference|0.648||||0.007|TWO_SIDED|90.0|0.497|0.844|||ANOVA|||ANOVA was performed on the natural logarithms of AUC∞ with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||0.844|0.497|0.007
92368009|NCT05360966|184639587|OTHER|Difference (2 sided)|Difference in Percentages|37.3|||<|0.0001|TWO_SIDED|95.0|28.7|45.9||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|45.9|28.7|<0.0001
92368010|NCT05360966|184639588|OTHER|Difference (2-sided)|Least Squares Mean Difference|8.1|STANDARD_ERROR_OF_MEAN|0.78|<|0.0001|TWO_SIDED|95.0|6.5|9.6||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||9.6|6.5|<0.0001
92368011|NCT05360966|184639589|OTHER|Difference (2-sided)|Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|2.4||0.5626|TWO_SIDED|95.0|-6.1|3.3||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||3.3|-6.1|0.5626
92368012|NCT05360966|184639590|OTHER|Difference (2-sided)|Least Squares Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|2.53||0.5981|TWO_SIDED|95.0|-6.3|3.6||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||3.6|-6.3|0.5981
92368013|NCT05360966|184639591|OTHER|Difference (2-sided)|Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|2.44||0.5161|TWO_SIDED|95.0|-6.4|3.2||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||3.2|-6.4|0.5161
92369506|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.0582||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Overall Clinical Summary Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0582
92226332|NCT02723201|184354183|SUPERIORITY_OR_OTHER||LS Mean Difference|1.18||||0.423|TWO_SIDED|90.0|1.088|1.279|||ANOVA|||ANOVA was performed on the natural logarithms of AUC∞ with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||1.279|1.088|0.423
92226333|NCT02723201|184354183|SUPERIORITY_OR_OTHER||LS Mean Difference|0.116|||<|0.001|TWO_SIDED|90.0|0.077|0.176|||ANOVA|||ANOVA was performed on the natural logarithms of AUC∞ with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||0.176|0.077|<0.001
92226334|NCT02723201|184354183|SUPERIORITY_OR_OTHER||LS Mean Difference|0.836||||0.037|TWO_SIDED|90.0|0.731|0.957|||ANOVA|||ANOVA was performed on the natural logarithms of AUC∞ with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||0.957|0.731|0.037
92368014|NCT05360966|184639592|OTHER|Difference (2-sided)|Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|2.51||0.8574|TWO_SIDED|95.0|-4.5|5.4||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||5.4|-4.5|0.8574
92226335|NCT03439033|184354300|SUPERIORITY||Risk Difference (RD)|0.42|||<|0.0001|TWO_SIDED|95.0|0.3|0.53|||McNemar||Risk difference reflects PSMA PET/MRI Scan detection proportion minus MRI scan detection proportion.|||0.53|0.30|<0.0001
92368015|NCT05360966|184639593|OTHER|Difference (2-sided)|Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|2.69||0.698|TWO_SIDED|95.0|-6.3|4.2||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||4.2|-6.3|0.6980
92368016|NCT01477710|184639607|SUPERIORITY_OR_OTHER_LEGACY||ANOVA F-value|266.39|||<|0.0001||||||This p-value is for the omnibus F-test of between-treatment differences in tidal volume|ANOVA|The p-value for the omnibus F-test was \<0.0001||Using ANOVA, pairwise comparisons of treatment means were made using a Tukey adjustment for multiple comparisons.||||<0.0001
92368017|NCT01477710|184639607|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|314.4|||<|0.0001||95.0|264.7|364.1|||t-test, 2 sided|||||364.1|264.7|<0.0001
92368018|NCT01477710|184639607|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|576.6|STANDARD_ERROR_OF_MEAN|25.0|<|0.0001|TWO_SIDED|95.0|526.9|626.3|||t-test, 2 sided|||||626.3|526.9|<0.0001
92368019|NCT01477710|184639607|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|262.2|STANDARD_DEVIATION|25.0|<|0.0001|TWO_SIDED|95.0|212.5|312.0|||t-test, 2 sided|||||312.0|212.5|<0.0001
92368020|NCT02522429|184639692|OTHER|||||||0.05||||||Statistic adjusted at familywise level alpha of 0.05 with a Gaussian Random Field Cluster Correction (Z \> 2.7)|t-test, 1 sided|||||||0.05
92368021|NCT02522429|184639693|OTHER||||||<|0.05||||||Statistic adjusted at familywise level alpha of 0.05 with a Gaussian Random Field Cluster Correction (Z \> 2.7). All significant voxels have an associated p-value smaller-or-equal to 0.05 (corrected for multiplicity).|t-test, 1 sided|||||||<0.05
92368022|NCT02522429|184639695|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Maximum CRS-R prior to LIFUP compared to Maximum CRS-R after LIFUP||||<0.05
92368023|NCT00294671|184639697|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in NIS+7 change from baseline to 2 years.||||<0.001
92368024|NCT00294671|184639697|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in NIS+7 change from baseline to 1years.||||0.02
92368025|NCT00294671|184639698|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in Kumamoto score change from baseline to 2 years.||||0.002
92368026|NCT00294671|184639698|SUPERIORITY_OR_OTHER|||||||0.1|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in Kumamoto score change from baseline to 1 year.||||0.10
92226336|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-79.456|STANDARD_ERROR_OF_MEAN|0.0819|<|0.0001|TWO_SIDED|80.0|-81.56|-77.11|||Mixed Models Analysis|||ABeta 1-38: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-77.11|-81.56|<0.0001
92368027|NCT00294671|184639699|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in mBMI change from baseline to 2 years.||||0.21
92368028|NCT00294671|184639699|SUPERIORITY_OR_OTHER|||||||0.43|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in mBMI change from baseline to 1 year.||||0.43
92368029|NCT00294671|184639700|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in SF-36 physical component change from baseline to 2 years.||||0.001
92226337|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-87.403|STANDARD_ERROR_OF_MEAN|0.0887|<|0.0001|TWO_SIDED|80.0|-88.8|-85.84|||Mixed Models Analysis|||ABeta 1-38: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-85.84|-88.80|<0.0001
92226338|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-83.83|STANDARD_ERROR_OF_MEAN|0.0905|<|0.0001|TWO_SIDED|80.0|-85.65|-81.78|||Mixed Models Analysis|||ABeta 1-40: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-81.78|-85.65|<0.0001
92226339|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-92.138|STANDARD_ERROR_OF_MEAN|0.1041|<|0.0001|TWO_SIDED|80.0|-93.15|-90.98|||Mixed Models Analysis|||ABeta 1-40: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-90.98|-93.15|<0.0001
92226340|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-84.814|STANDARD_ERROR_OF_MEAN|0.0971|<|0.0001|TWO_SIDED|80.0|-86.64|-82.74|||Mixed Models Analysis|||ABeta 1-42: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-82.74|-86.64|<0.0001
92226341|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-92.87|STANDARD_ERROR_OF_MEAN|0.1114|<|0.0001|TWO_SIDED|80.0|-93.85|-91.74|||Mixed Models Analysis|||ABeta 1-42: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-91.74|-93.85|<0.0001
92368030|NCT00294671|184639700|SUPERIORITY_OR_OTHER|||||||0.06|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in SF-36 physical component change from baseline to 1 year.||||0.06
92368031|NCT00294671|184639701|SUPERIORITY_OR_OTHER|||||||0.06|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in SF-36 mental component change from baseline to 2 years.||||0.06
92368032|NCT00294671|184639701|SUPERIORITY_OR_OTHER|||||||0.37|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in SF-36 mental component change from baseline to 1 year.||||0.37
92368033|NCT01893411|184639705|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean difference|-0.04|||=|0.65|TWO_SIDED|95.0|-0.23|0.14|||Mixed Model Repeated Measure|||||0.14|-0.23|= 0.65
92368034|NCT01893411|184639705|SUPERIORITY_OR_OTHER_LEGACY||LS-Mean difference|-0.04|||=|0.741|TWO_SIDED|95.0|-0.26|0.18|||Mixed Model Repeated Measure|||||0.18|-0.26|= 0.741
92368035|NCT01893411|184639706|SUPERIORITY_OR_OTHER_LEGACY||LS-Mean difference|0.16|||=|0.075|TWO_SIDED|95.0|-0.02|0.34|||Mixed Model Repeated Measure|||||0.34|-0.02|= 0.075
92368036|NCT01893411|184639706|SUPERIORITY_OR_OTHER_LEGACY||LS-Mean difference|0.06|||=|0.603|TWO_SIDED|95.0|-0.16|0.27|||Mixed Model Repeated Measure|||||0.27|-0.16|= 0.603
92368037|NCT01498692|184639750|SUPERIORITY_OR_OTHER||Percent Target Lesion Failure|2.4|||<|0.0001|ONE_SIDED|95.0||7.3|||One-group exact binomial test|||A one-group exact binomial test was used to test the hypothesis that the primary endpoint rate in the PROMUS Element cohort is less than the predefined performance goal of 21.1%.||7.3||<0.0001
92368038|NCT03782259|184639790|SUPERIORITY||||||<|0.0125||||||Given that there were 4 separate comparisons of the primary outcomes, the level of significance was adjusted from 0.05 to 0.0125 (.05/4) using the Bonferroni correction.|Wilcoxon (Mann-Whitney)|There were no adjustments for covariates.||||||< 0 .0125
92368039|NCT03782259|184639791|SUPERIORITY||||||<|0.0125||||||Given that there were 4 separate comparisons of the primary outcomes, the level of significance was adjusted from 0.05 to 0.0125 (.05/4) using the Bonferroni correction.|Wilcoxon (Mann-Whitney)|There were no adjustments for covariates.||||||< 0 .0125
92368040|NCT00485758|184639830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-21.4|-14.4|||Wilcoxon (Mann-Whitney)|Study times: 4, 8 and 12 weeks. Terms: treatment-by-time, gender-by-time and baseline low-density lipoprotein cholesterol -by-time interaction.||||-14.4|-21.4|<0.001
92368041|NCT00485758|184639831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.2|STANDARD_ERROR_OF_MEAN|1.3|<|0.001||95.0|20.7|25.7|||Repeated Measures Analysis|Study times: 4, 8 and 12 weeks. Terms: treatment-by-time, gender-by-time and baseline high-density lipoprotein cholesterol -by-time interaction.||||25.7|20.7|<0.001
92368042|NCT00485758|184639832|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-23.1|||<|0.001||95.0|-27.2|-18.9|||ANCOVA|Nonparametric Analysis of Covariance model based on Tukey's normalized ranks with term for treatment, gender and Tukey's normal score of baseline.|The median difference between treatments is based on the Hodges-Lehmann estimates of shift with a corresponding distribution-free Confidence Interval based on Wilcoxon's rank|||-18.9|-27.2|<0.001
92368043|NCT03024112|184639833|OTHER|||||||0.68|||||||t-test, 1 sided|||||||0.680
92368044|NCT01399229|184639838|NON_INFERIORITY_OR_EQUIVALENCE|"Agreement between SureCALL® and Tocodynamometer Contraction Peak Times~Null hypothesis: The mean peak difference between RMS and TOCO is equal to 0. Alternative hypothesis: The mean peak difference is not equal to 0."|Mean Difference (Net)|0.99|STANDARD_ERROR_OF_MEAN|1.4086||0.4901|TWO_SIDED|95.0|-28.74|30.72|||Mixed Models Analysis|||||30.72|-28.74|0.4901
92368045|NCT02253433|184639839|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.575|TWO_SIDED|95.0|-0.87|2.07|||Mixed Models Analysis|||||2.07|-.87|0.575
92368046|NCT02253433|184639840|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.141|TWO_SIDED|95.0|-0.18|0.68|||Mixed Models Analysis|||||.68|-.18|0.141
92368047|NCT02253433|184639841|SUPERIORITY||Odds Ratio (OR)|0.86||||0.043|TWO_SIDED|95.0|0.47|1.57|||Mixed Models Analysis|ED visits over the previous 12 months were positively skewed (skewness 2.95; kurtosis 14.1); the responses were dichotomized (0 vs. 1 or more).||||1.57|.47|0.043
92368048|NCT04283656|184639846|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.76|1.24||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for doravirine AUC falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.24|0.76|
92369507|NCT00281099|184643814|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Tests for all ten KCCQ subscores yielded p-values greater than 0.15 (the a priori threshold for statistical significance was 0.05).|Wilcoxon (Mann-Whitney)|||The 10 KCCQ analyses were repeated comparing changes from baseline to 24 months between arms. Again if a subject died prior to their 24 month visit, a value of 0 was imputed for their 24 month score.||||> 0.15
92369508|NCT00281099|184643814|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Tests for all 10 KCCQ subscores yielded p-values greater than 0.15 (the a priori threshold for statistical significance was 0.05).|Wilcoxon (Mann-Whitney)|Because the trial was stopped early, only 178 subjects were included in these analyses.||The 10 KCCQ analyses were repeated comparing changes from baseline to 36 months between arms. Again if a subject died prior to their 36 month visit, a value of 0 was imputed for their 36 month score.||||> 0.15
92226342|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-79.465|STANDARD_ERROR_OF_MEAN|0.087|<|0.0001|TWO_SIDED|80.0|-81.69|-76.96|||Mixed Models Analysis|||ABeta x-38: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-76.96|-81.69|<0.0001
92226343|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-88.711|STANDARD_ERROR_OF_MEAN|0.0963|<|0.0001|TWO_SIDED|80.0|-90.06|-87.18|||Mixed Models Analysis|||ABeta x-38: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-87.18|-90.06|<0.0001
92226344|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-78.936|STANDARD_ERROR_OF_MEAN|0.0824|<|0.0001|TWO_SIDED|80.0|-81.11|-76.52|||Mixed Models Analysis|||ABeta x-40: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-76.52|-81.11|<0.0001
92368049|NCT04283656|184639847|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|0.93|||||TWO_SIDED|90.0|0.66|1.32||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for doravirine Cmax falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.32|0.66|
92368050|NCT04283656|184639848|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.76|1.24||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for doravirine C24 falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.24|0.76|
92368051|NCT04283656|184639849|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|1.17|||||TWO_SIDED|90.0|0.91|1.5||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for tenofovir AUC falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.50|0.91|
92368052|NCT04283656|184639850|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|1.38|||||TWO_SIDED|90.0|0.73|2.6||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for tenofovir Cmax falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||2.60|0.73|
92368053|NCT04283656|184639851|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|1.14|||||TWO_SIDED|90.0|0.93|1.4||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for tenofovir C24 falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.40|0.93|
92369509|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.1399||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The change in Minnesota Living with Heart Failure Questionnaire score from baseline to 12 months was compared using a two-sided test. If a subject died before their 12 month visit, a value of 105 (worst possible MLWHF score) was imputed for their 12 month score.||||0.1399
92405336|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.66|||<|0.0001|TWO_SIDED|95.0|-45.02|-38.29|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-38.29|-45.02|<0.0001
92226345|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-86.28|STANDARD_ERROR_OF_MEAN|0.0899|<|0.0001|TWO_SIDED|80.0|-87.82|-84.55|||Mixed Models Analysis|||ABeta x-40: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-84.55|-87.82|<0.0001
92226346|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-79.648|STANDARD_ERROR_OF_MEAN|0.0664|<|0.0001|TWO_SIDED|80.0|-81.36|-77.78|||Mixed Models Analysis|||ABeta x-42: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-77.78|-81.36|<0.0001
92368054|NCT04283656|184639852|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.7|1.35||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment B (Single-dose estradiol and spironolactone co-administered with placebo)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for estradiol AUC falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.35|0.70|
92368055|NCT04283656|184639853|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|1.12|||||TWO_SIDED|90.0|0.92|1.36||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment B (Single-dose estradiol and spironolactone co-administered with placebo)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratios for estradiol Cmax falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.36|0.92|
92368056|NCT04283656|184639854|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|1.09|||||TWO_SIDED|90.0|0.88|1.35||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment B (Single-dose estradiol and spironolactone co-administered with placebo)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratios for estradiol C12 falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.35|0.88|
92368057|NCT00803361|184639855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.62||||0.006|TWO_SIDED|95.0|-2.76|-0.48||p-value is for Change from Baseline.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.48|-2.76|0.006
92368058|NCT00803361|184639856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.56||||0.024|TWO_SIDED|95.0|-4.78|-0.34||p-value is for Change from Baseline|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.34|-4.78|0.024
92368059|NCT00803361|184639857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.004|TWO_SIDED|95.0|-0.74|-0.15|||ANOVA|||||-0.15|-0.74|0.004
92368060|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.125|TWO_SIDED|95.0|-0.93|0.11||p-value is for Severity of Worst Pain Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.11|-0.93|0.125
92368061|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.014|TWO_SIDED|95.0|-0.75|-0.09||p-value is for Severity of Least Pain Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.09|-0.75|0.014
92405337|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.63|||<|0.0001|TWO_SIDED|95.0|-23.01|-16.25|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-16.25|-23.01|<0.0001
92405338|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.28|||<|0.0001|TWO_SIDED|95.0|-25.67|-18.9|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-18.90|-25.67|<0.0001
92405339|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.5|||<|0.0001|TWO_SIDED|95.0|-15.86|-9.14|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-9.14|-15.86|<0.0001
92405340|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-20.59|||<|0.0001|TWO_SIDED|95.0|-23.98|-17.21|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-17.21|-23.98|<0.0001
92405341|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|10.64|||<|0.0001|TWO_SIDED|95.0|5.75|15.54|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||15.54|5.75|<0.0001
92167587|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|31.8||||0.005|TWO_SIDED|90.0|9.2|50.4|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||50.4|9.2|0.0050
92167588|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|16.7||||0.0775|TWO_SIDED|90.0|-2.9|35.7|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||35.7|-2.9|0.0775
92167589|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|24.1||||0.0243|TWO_SIDED|90.0|3.4|43.4|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||43.4|3.4|0.0243
92167590|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|20.9||||0.0234|TWO_SIDED|90.0|3.5|38.8|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||38.8|3.5|0.0234
92167591|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|12.8||||0.1134|TWO_SIDED|90.0|-2.8|29.3|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||29.3|-2.8|0.1134
92368062|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.012|TWO_SIDED|95.0|-0.93|-0.11||p-value is for Severity of Average Pain Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.11|-0.93|0.012
92368063|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.002|TWO_SIDED|95.0|-1.14|-0.25||p-value is for Severity of Pain Right Now Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.25|-1.14|0.002
92368064|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.101|TWO_SIDED|95.0|-0.87|0.08||p-value is for Interference of Pain, General Activity, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.08|-0.87|0.101
92368065|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.252|TWO_SIDED|95.0|-0.83|0.22||p-value is for Interference of Pain, Mood, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.22|-0.83|0.252
92368066|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.149|TWO_SIDED|95.0|-0.72|0.11||p-value is for Interference of Pain,Walking Ability, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.11|-0.72|0.149
92368067|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.367|TWO_SIDED|95.0|-0.71|0.26||p-value is for Interference of Pain, Normal Work, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.26|-0.71|0.367
92368068|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.395|TWO_SIDED|95.0|-0.59|0.24||p-value is for Interference of Pain, Relations with Others, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.24|-0.59|0.395
92167592|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|10.3||||0.1362|TWO_SIDED|90.0|-5.0|26.2|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||26.2|-5.0|0.1362
92368069|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.731|TWO_SIDED|95.0|-0.63|0.44||p-value is for Interference of Pain, Sleep, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.44|-0.63|0.731
92368070|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.186|TWO_SIDED|95.0|-0.85|0.17||p-value is for Interference of Pain, Enjoyment of Life, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.17|-0.85|0.186
92167593|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|12.3||||0.1029|TWO_SIDED|90.0|-3.4|29.8|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||29.8|-3.4|0.1029
92167594|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-17.9|17.9|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||17.9|-17.9|1.0000
92167595|NCT03903822|184224678|SUPERIORITY||Risk Difference (RD)|-12.6||||0.8972|TWO_SIDED|90.0|-28.8|3.5|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||3.5|-28.8|0.8972
92167596|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-0.5|STANDARD_ERROR_OF_MEAN|8.33||0.4781|TWO_SIDED|90.0|-14.2|13.3|||Mixed Model Repeated Measure|||At Week 1: Mixed Model Repeated Measure (MMRM) contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||13.3|-14.2|0.4781
92167597|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-13.8|STANDARD_ERROR_OF_MEAN|8.47||0.0522|TWO_SIDED|90.0|-27.8|0.2|||Mixed Model Repeated Measure|||At Week 1: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||0.2|-27.8|0.0522
92226347|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-84.985|STANDARD_ERROR_OF_MEAN|0.0715|<|0.0001|TWO_SIDED|80.0|-86.34|-83.5|||Mixed Models Analysis|||ABeta x-42: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-83.50|-86.34|<0.0001
92226348|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|72.893|STANDARD_ERROR_OF_MEAN|0.0809|<|0.0001|TWO_SIDED|80.0|55.37|92.4|||Mixed Models Analysis|||sAPP-alpha: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||92.40|55.37|<0.0001
92368071|NCT00803361|184639858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.22|TWO_SIDED|95.0|-0.67|0.16||p-value is for Mean Interference Score, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.16|-0.67|0.220
92368072|NCT00803361|184639859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.076|TWO_SIDED|95.0|-1.29|0.06||p-value is for symptoms have disrupted your work/schoolwork - change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.06|-1.29|0.076
92368073|NCT00803361|184639859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.14|TWO_SIDED|95.0|-1.16|0.17||p-value is for symptoms disrupted social/leisure - change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.17|-1.16|0.140
92368074|NCT00803361|184639859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.087|TWO_SIDED|95.0|-1.14|0.08||p-value is for symptoms disrupted family life - change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.08|-1.14|0.087
92368075|NCT00803361|184639859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.62||||0.083|TWO_SIDED|95.0|-3.46|0.21||p-value is for Global Functional Impairment Total Score - change|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.21|-3.46|0.083
92368076|NCT00803361|184639860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.32||||0.063|TWO_SIDED|95.0|-10.93|0.3||p-value is for Severity of Overall Pain, Past Week, Change|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||0.30|-10.93|0.063
92368077|NCT00803361|184639860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.66|TWO_SIDED|95.0|-6.64|4.22||p-value is for Severity of Headaches, Past Week, Change.|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||4.22|-6.64|0.660
92368078|NCT00803361|184639860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.03||||0.025|TWO_SIDED|95.0|-11.3|-0.76||p-value is for Severity of Back Pain, Past Week, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.76|-11.30|0.025
92368079|NCT00803361|184639860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.93||||0.26|TWO_SIDED|95.0|-8.06|2.19||p-value is for Severity of Shoulder Pain, Past Week, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||2.19|-8.06|0.260
92368080|NCT00803361|184639860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.67||||0.145|TWO_SIDED|95.0|-8.61|1.28||p-value is for Pain Interference, Daily Activities, Change|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||1.28|-8.61|0.145
92368081|NCT00803361|184639860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.15||||0.011|TWO_SIDED|95.0|-12.64|-1.66||p-value is for Pain During Waking Hours, Past Week, Change|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-1.66|-12.64|0.011
92368082|NCT00803361|184639861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.068|TWO_SIDED|95.0|-1.72|0.06||p-value is for Change from Baseline|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.06|-1.72|0.068
92368083|NCT04445519|184639862|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the 95.1% CIs around the difference (NCX 470 minus latanoprost 0.005%) in mean IOP reduction from time-matched baseline in the study eye was greater than or equal to -1.5 mmHg at all time points and was greater than or equal to -1.0 mmHg at a majority of the time points.|Mean Difference (Net)|1.0|STANDARD_DEVIATION|3.25|||TWO_SIDED|95.1||||The primary efficacy assessment was the non-inferiority analysis of the difference in the treatment effect between NCX 470 and latanoprost 0.005% for mean IOP reduction from time-matched baseline at the 8AM and 4PM time-points.|||The analysis assumed a true difference of 1.0 mmHg at the Week 2 time points and 1.25 mmHg at the Week 6 and Month 3 time points; a common standard deviation (SD) at each time-point of 3.25 mmHg; and a two-sided significance level of 4.9%.|||||
92167598|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-17.5|STANDARD_ERROR_OF_MEAN|8.37||0.0187|TWO_SIDED|90.0|-31.4|-3.7|||Mixed Model Repeated Measure|||At Week 1: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-3.7|-31.4|0.0187
92226349|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|98.049|STANDARD_ERROR_OF_MEAN|0.0897|<|0.0001|TWO_SIDED|80.0|75.92|122.96|||Mixed Models Analysis|||sAPP-alpha: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||122.96|75.92|<0.0001
92226350|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-80.164|STANDARD_ERROR_OF_MEAN|0.0668|<|0.0001|TWO_SIDED|80.0|-81.84|-78.33|||Mixed Models Analysis|||sAPP-beta: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-78.33|-81.84|<0.0001
92226351|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-83.381|STANDARD_ERROR_OF_MEAN|0.0733|<|0.0001|TWO_SIDED|80.0|-84.92|-81.69|||Mixed Models Analysis|||sAPP-beta: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-81.69|-84.92|<0.0001
92405342|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.74|||<|0.0001|TWO_SIDED|95.0|-62.63|-52.85|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-52.85|-62.63|<0.0001
92226352|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-78.408|STANDARD_ERROR_OF_MEAN|0.0602|<|0.0001|TWO_SIDED|80.0|-80.06|-76.62|||Mixed Models Analysis|||Abeta total: General linear model with treatment, as the fixed effect and loge(baseline) as covariate||-76.62|-80.06|<0.0001
92226353|NCT02793232|184354365|SUPERIORITY||Percent change from baseline|-85.365|STANDARD_ERROR_OF_MEAN|0.0653|<|0.0001|TWO_SIDED|80.0|-86.57|-84.05|||Mixed Models Analysis|||Abeta total: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-84.05|-86.57|<0.0001
92226354|NCT01064167|184354373|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||Given that the frequency of RBC transfusion for OPCAB surgery is about 55%, to detect 35% reduction in TA group, with power=o.8 and α=0.05, a group of 107 patients in each arm is required. We estimated a crossover rate of 20%. The final sample size for randomization purposes increased to a total of 260 patients. The Chi-square test was used to test the differences in categorical variables between both groups.If one or more cells had an expected count less than 5, Fisher's Exact Test was used.||||<0.05
92226355|NCT01064167|184354374|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92226356|NCT03979274|184354417|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric mean ratio|98.53|||||TWO_SIDED|90.0|94.55|102.68||||||||102.68|94.55|
92226357|NCT03979274|184354418|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric mean ratio|97.59|||||TWO_SIDED|90.0|91.34|104.26||||||||104.26|91.34|
92368084|NCT00394329|184639870|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.56|STANDARD_ERROR_OF_MEAN|0.28||0.066|TWO_SIDED|95.0|0.32|0.96||Hochberg adjustment was applied to the p-value to account for each of three active group comparisons to the placebo group. The unadjusted p-value is 0.033.|Regression, Cox|||||0.96|0.32|0.066
92368085|NCT04677543|184639918|SUPERIORITY||Percentage Difference|10.4||||0.2819|TWO_SIDED|95.0|-8.6|29.5|||Standardized Logistic Regression||The percentage difference and confidence intervals are estimated by standardized logistic regression with treatment group and history of MAC lung infection as factors in the model.|||29.5|-8.6|0.2819
92226358|NCT03979274|184354421|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric mean ratio|99.73|||||TWO_SIDED|90.0|98.45|101.03||||||||101.03|98.45|
92226359|NCT03979274|184354422|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric mean ratio|99.26|||||TWO_SIDED|90.0|97.7|100.85||||||||100.85|97.70|
92226360|NCT02301403|184354428|SUPERIORITY||Odds Ratio (OR)|2.95|||<|0.001|TWO_SIDED|95.0|1.69|5.14|||Regression, Logistic|||||5.14|1.69|<.001
92226361|NCT02302963|184354429|OTHER|Analysis of Variance|||||<|0.001|||||||GLM Repeated Measures|Repeated-measures general linear model was used to compare HCLC versus SAP data. A P-value of \< 0.001 was considered the threshold for significance.||||||<0.001
92226362|NCT00632853|184354477|SUPERIORITY|||||||0.8741|||||||Log Rank|||||||0.8741
92368086|NCT04677543|184639919|SUPERIORITY||Percentage Difference|6.1||||0.508|TWO_SIDED|95.0|-11.9|24.1|||Standardized Logistic Regression||The percentage difference and confidence intervals are estimated by standardized logistic regression with treatment group and history of MAC lung infection as factors in the model.|||24.1|-11.9|0.5080
92368087|NCT04677543|184639920|SUPERIORITY||Percentage Difference|16.7||||0.0712|TWO_SIDED|95.0|-1.4|34.9|||Standardized Logistic Regression|||||34.9|-1.4|0.0712
92226363|NCT01724528|184354489|SUPERIORITY_OR_OTHER||Least squares means difference|-196.794|||<|0.0001|TWO_SIDED|95.0|-238.6|-154.988|||ANCOVA|||Treatment, TLS risk (intermediate/high) and sUA level at baseline (≤ 7.5 mg/dL and \> 7.5 mg/dL) were inserted in the ANCOVA model as covariates||-154.988|-238.600|<0.0001
92226364|NCT01724528|184354490|SUPERIORITY_OR_OTHER||Least squares means difference|4.097||||0.0903|TWO_SIDED|95.0|-0.6467|8.8406|||ANCOVA|||Treatment, TLS risk (intermediate/high) and sUA level at baseline (≤ 7.5 mg/dL and \> 7.5 mg/dL) were inserted in the ANCOVA model as covariates||8.8406|-0.6467|0.0903
92226365|NCT01724528|184354491|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0231||||0.1993|TWO_SIDED|95.0|-0.0153|0.0654|||Wilson's confidence interval|||||0.0654|-0.0153|0.1993
92226366|NCT01724528|184354492|SUPERIORITY_OR_OTHER||Relative risk|0.875||||0.8488|TWO_SIDED|95.0|0.4408|1.7369|||Chi-squared|||||1.7369|0.4408|0.8488
92226367|NCT01724528|184354493|SUPERIORITY_OR_OTHER||Relative risk|0.994||||1|TWO_SIDED|95.0|0.9691|1.0199|||Chi-squared|||||1.0199|0.9691|1.0000
92226368|NCT00466310|184354495|SUPERIORITY_OR_OTHER|||||||0.0149|TWO_SIDED|95.0||||Unadjusted p value is .0041|Wilcoxon (Mann-Whitney)|||A wilcoxon rank sum test was performed comparing baseline plasmalogen values, comparing schizophrenia subjects vs controls.P values from this analysis were adjusted for false discovery rates by the method of Storey and Tribshiani.||||0.0149
92226369|NCT01493180|184354497|SUPERIORITY_OR_OTHER|||||||0.576|||||||t-test, 2 sided|||||||0.576
92226370|NCT01314716|184354519|SUPERIORITY_OR_OTHER||Differences in least squares mean|4.6||||0.011|TWO_SIDED|95.0|1.1|8.2||P-value was based on T-test from mixed-effect model repeated measures (MMRM).|MMRM|||||8.2|1.1|0.011
92226371|NCT01314716|184354520|SUPERIORITY_OR_OTHER||Difference in least squares mean|1.1||||0.56|TWO_SIDED|95.0|-2.7|5.0||P-value was based on T-test from mixed-effect model repeated measures (MMRM).|MMRM|||||5.0|-2.7|0.56
92226372|NCT01327157|184354525|EQUIVALENCE|The comparison among the groups, from the results obtained by the Visual Analog Scale (VAS), was done through analysis of variance models (ANOVA) with two factors.|Mean Difference (Net)|0.5||||0.524|TWO_SIDED|||||Statistical significance was considered for values of p \<0.05 and it was used The Minitab statistical software, version 15.1 to obtain the results.|t-test, 1 sided|The comparison between the groups in each study period (initial) was done through the t-test for two independent samples.||"We assessed the quality of oral functions in the first query to check the status of discomfort before treatment in both groups, using VAS..~Statistical significance was considered for values of p \<0.05 and it was used The Minitab statistical software, version 15.1 to obtain the results"||||0.524
92167599|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-20.6|STANDARD_ERROR_OF_MEAN|8.45||0.008|TWO_SIDED|90.0|-34.5|-6.6|||Mixed Model Repeated Measure|||At Week 1: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-6.6|-34.5|0.0080
92167600|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-25.0|STANDARD_ERROR_OF_MEAN|14.17||0.0401|TWO_SIDED|90.0|-48.6|-1.5|||Mixed Model Repeated Measure|||At Week 1: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-1.5|-48.6|0.0401
92167601|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-25.5|STANDARD_ERROR_OF_MEAN|14.25||0.0379|TWO_SIDED|90.0|-49.2|-1.9|||Mixed Model Repeated Measure|||At Week 1: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-1.9|-49.2|0.0379
92167602|NCT03903822|184224679|SUPERIORITY||LS Mean difference|8.1|STANDARD_ERROR_OF_MEAN|11.01||0.7678|TWO_SIDED|90.0|-10.1|26.3|||Mixed Model Repeated Measure|||At Week 2: MMRM contained fixed factors of treatment, visit(Weeks 1, 2, 3, 4, 6 and follow up), treatment-by-visit interaction and baseline value.||26.3|-10.1|0.7678
92368088|NCT04677543|184639921|SUPERIORITY||Least Square Mean Difference|4.48||||0.1073|TWO_SIDED|95.0|-0.97|9.93|||ANCOVA|||||9.93|-0.97|0.1073
92368089|NCT04677543|184639922|SUPERIORITY||Least Square Mean Difference|-0.4||||0.613|TWO_SIDED|95.0|-2.2|1.3|||ANCOVA|||||1.3|-2.2|0.6130
92368090|NCT04677543|184639923|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.3542|TWO_SIDED|95.0|0.79|1.92|||Regression, Cox||A Cox regression model was applied to calculate the hazard ratio. The model included effects for treatment and history of MAC lung infection (initial or subsequent).|||1.92|0.79|0.3542
92368091|NCT04677543|184639924|SUPERIORITY||Hazard Ratio (HR)|1.35||||0.1583|TWO_SIDED|95.0|0.89|2.06|||Regression, Cox||A Cox regression model was applied to calculate the hazard ratio. The model included effects for treatment and history of MAC lung infection (initial or subsequent).|||2.06|0.89|0.1583
92368092|NCT01158820|184639984|OTHER|No data available for power analysis|Mean Difference (Net)|0.028|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92368093|NCT01158820|184639985|SUPERIORITY||Mean Difference (Final Values)|43.75|||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||units are µg|See reference power analysis||||<0.01
92368094|NCT01158820|184639986|SUPERIORITY||Median Difference (Final Values)|1.75||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||units are mg|See reference for power analysis||||0.01
92369510|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.3573||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The change in Minnesota Living with Heart Failure Questionnaire score from baseline to 24 months was compared using a two-sided test. If a subject died before their 24 month visit, a value of 105 (worst possible MLWHF score) was imputed for their 24 month score.||||0.3573
92405343|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.18|||<|0.0001|TWO_SIDED|95.0|-27.09|-17.27|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-17.27|-27.09|<0.0001
92167603|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-22.8|STANDARD_ERROR_OF_MEAN|10.94||0.0193|TWO_SIDED|90.0|-40.9|-4.7|||Mixed Model Repeated Measure|||At Week 2: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-4.7|-40.9|0.0193
92167604|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-28.3|STANDARD_ERROR_OF_MEAN|10.95||0.0052|TWO_SIDED|90.0|-46.5|-10.2|||Mixed Model Repeated Measure|||At Week 2:MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-10.2|-46.5|0.0052
92167605|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-23.7|STANDARD_ERROR_OF_MEAN|11.03||0.0164|TWO_SIDED|90.0|-42.0|-5.5|||Mixed Model Repeated Measure|||At Week 2: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-5.5|-42.0|0.0164
92405344|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.91|||<|0.0001|TWO_SIDED|95.0|-29.83|-20.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-20.00|-29.83|<0.0001
92405345|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.53|||<|0.0001|TWO_SIDED|95.0|-18.41|-8.64|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-8.64|-18.41|<0.0001
92405346|NCT01746901|184701086|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.7|||<|0.0001|TWO_SIDED|95.0|-28.62|-18.78|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-18.78|-28.62|<0.0001
92405347|NCT01746901|184701087|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.73|||<|0.0001|TWO_SIDED|95.0|-11.9|-7.57|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-7.57|-11.90|<0.0001
92405348|NCT01746901|184701087|SUPERIORITY_OR_OTHER||LS Mean Difference|5.16|||<|0.0001|TWO_SIDED|95.0|2.99|7.32|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||7.32|2.99|<0.0001
92226373|NCT01327157|184354526|EQUIVALENCE|"Only the treatment group was analysed. The dental contacts were evaluated in models and gnathostats demarcated after the points were counted in the models before and after treatment If an increase in the number of dental contacts after occlusal adjustment was detected, in relation of the models.~The models are made in the first and last query, after four visits with one month interval between them."|Mean Difference (Net)|5.0|STANDARD_DEVIATION|3.92|<|0.001|TWO_SIDED||||||t-test, 2 sided|||The brand carbon mark was done on the treatment group in the first and last query.||||<0.001
92226374|NCT01327157|184354527|EQUIVALENCE|The comparison among the groups, from the results obtained by the Visual Analog Scale (VAS), was done through analysis of variance models (ANOVA) with two factors. The comparison among the groups, in each period of the study (initial and final) was done through t test for two independent samples.|Mean Difference (Net)|2.4|STANDARD_DEVIATION|1.44||0.002|TWO_SIDED||||||t-test, 2 sided|||"We assessed the quality of oral functions in the last query to check the status of discomfort after ninety days in both groups, control and treatment, using VAS.~The statistical significance was considered to p\<0.05 values and it was used the Minitab statistics software, 15.1 version, to get the results."||||0.002
92368095|NCT03299244|184639995|NON_INFERIORITY|Etelcalcetide was considered non-inferior if the upper bound of the two-sided 95% confidence interval of the treatment difference (Cinacalcet - Etelcalcetide) was smaller than 12%, or if the lower bound of (Etelcalcetide - Cinacalcet) greater than -12%. If this criterion was met, the 2 key secondary endpoints were tested sequentially. If both key secondary endpoints were statistically significant, the other secondary endpoints were to be formally tested at an overall significance level of 0.05.|Treatment Difference|4.52|||||TWO_SIDED|95.0|-3.05|12.09|||||Treatment difference (Etelcalcetide - Cinacalcet) stratified by screening iPTH level, screening cCa level, and country/region.|"The analysis was conducted on the full analysis set (637 participants). Imputation under the non-inferiority null method was applied to participants who did not have PTH data during the EAP.~The Mantel-Haenszel estimator was used to calculate the treatment (Cinacalcet - Etelcalcetide), stratified by screening PTH level (\< 900 pg/mL, ≥ 900 pg/mL), screening serum cCa (\< 9.0 mg/dL, ≥ 9.0 mg/dL) measured by the central laboratory, and country (China versus non-China)."||12.09|-3.05|
92226375|NCT01327157|184354528|OTHER|||||||0.705|||||||t-test, 1 sided|||||||0.705
92226376|NCT01327157|184354529|OTHER|||||||0.01|||||||t-test, 1 sided|||||||0.01
92226377|NCT01928381|184354530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.23||0.5695|TWO_SIDED|95.0|-0.34|0.61|||Mixed Models Analysis|||||0.61|-0.34|0.5695
92226378|NCT01928381|184354530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.23||0.8905|TWO_SIDED|95.0|-0.43|0.49|||Mixed Models Analysis|||||0.49|-0.43|0.8905
92226379|NCT01928381|184354530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.23||0.4822|TWO_SIDED|95.0|-0.3|0.64|||Mixed Models Analysis|||||0.64|-0.30|0.4822
92226380|NCT01928381|184354531|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|0.25||0.2237|TWO_SIDED|95.0|-0.2|0.82|||Mixed Models Analysis||In direction of Pregabalin|||0.82|-0.20|0.2237
92226381|NCT01928381|184354531|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.25||0.0978|TWO_SIDED|95.0|-0.93|0.08|||Mixed Models Analysis||In direction of Pregabain, positive control|||0.08|-0.93|0.0978
92226382|NCT01928381|184354531|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.25||0.661|TWO_SIDED|95.0|-0.62|0.4|||Mixed Models Analysis|||||0.40|-0.62|0.6610
92226383|NCT02554929|184354548|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.42||0.002|TWO_SIDED|95.0|-0.91|0.74||P value adjusted for multiple comparison; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis||Values above are for the primary outcome measure of the Anxiety Disorders Interview Schedule for DSM-IV, Clinical Severity Rating (ADIS-CSR) score for SAD.|In our previous study, 42% participants in the CBT arm lost their primary diagnosis of social anxiety disorder (SAD) and/or selective mutism (SM) post-intervention versus none of the comparison group participants. In the present study, we conservatively estimated that 10% of comparison group children will lose their primary diagnosis. A sample size of 70 achieves a power of 81% to detect a 32% difference between treatments, using a two-sided Chi-squared test with a significance level of 0.05.||0.74|-0.91|0.002
92226384|NCT02554929|184354548|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.62||0.002|TWO_SIDED|95.0|-0.95|1.48||P value adjusted for multiple comparison; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis||Values above are for the primary outcome measure of the Anxiety Disorders Interview Schedule for DSM-IV, Clinical Severity Rating (ADIS-CSR) score for SM.|In our previous study, 42% participants in the CBT arm lost their primary diagnosis of social anxiety disorder (SAD) and/or selective mutism (SM) post-intervention versus none of the comparison group participants. In the present study, we conservatively estimated that 10% of comparison group children will lose their primary diagnosis. A sample size of 70 achieves a power of 81% to detect a 32% difference between treatments, using a two-sided Chi-squared test with a significance level of 0.05.||1.48|-0.95|0.002
92226385|NCT02554929|184354551|SUPERIORITY||Mean Difference (Final Values)|1.89|STANDARD_ERROR_OF_MEAN|3.14||0.002|TWO_SIDED|95.0|-4.28|8.08||P value adjusted for multiple comparison; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis||The estimated value of the estimation parameter corresponds to the difference between change in CGAS scores for participants in the CBT arm, in comparison to those in the socialization arm, from pre-treatment to 6-month follow-up.|In our previous study, 42% participants in the CBT arm lost their primary diagnosis of social anxiety disorder (SAD) and/or selective mutism (SM) post-intervention versus none of the comparison group participants. In the present study, we conservatively estimated that 10% of comparison group children will lose their primary diagnosis. A sample size of 70 achieves a power of 81% to detect a 32% difference between treatments, using a two-sided Chi-squared test with a significance level of 0.05.||8.08|-4.28|0.002
92226386|NCT04187092|184354554|SUPERIORITY||||||<|0.05|||||||ANCOVA|||The 12-week changes in the KOOS scores, and the 12-week changes in the IKDC scores were analyzed by way of analysis of covariance (ANCOVA). Covariates: Age and sex of the subject, the subject's baseline outcome measure, the subject's baseline IKDC Total score, and the subject's standardized intake date (i.e., i.e., subject's intake date minus the intake date of the first enrolled subject) served as the ANCOVA concomitant adjustment variables||||<0.05
92226387|NCT03569202|184354586|SUPERIORITY||Mean Difference (Final Values)|1.8837||||0.662|TWO_SIDED|95.0|-6.7081|10.4756||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||10.4756|-6.7081|0.662
92226388|NCT03569202|184354586|OTHER||Mean Difference (Final Values)|-24.6445|||<|0.0001|TWO_SIDED|95.0|-30.7199|-18.5692||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||-18.5692|-30.7199|<0.0001
92226389|NCT03569202|184354586|OTHER||Mean Difference (Final Values)|-26.5283|||<|0.0001|TWO_SIDED|95.0|-32.6036|-20.4529||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||-20.4529|-32.6036|<0.0001
92226390|NCT03569202|184354587|OTHER||Mean Difference (Final Values)|-2.9808||||0.575|TWO_SIDED|95.0|-13.6005|7.639||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||7.6390|-13.6005|0.575
92226391|NCT03569202|184354587|OTHER||Mean Difference (Final Values)|-4.75||||0.2098|TWO_SIDED|95.0|-12.2593|2.7593||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||2.7593|-12.2593|0.2098
92226392|NCT03569202|184354587|OTHER||Mean Difference (Final Values)|-1.7692||||0.6381|TWO_SIDED|95.0|-9.2785|5.7401||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||5.7401|-9.2785|0.6381
92226393|NCT03569202|184354588|OTHER||Mean Difference (Final Values)|0.8462||||0.271|TWO_SIDED|95.0|-0.6792|2.3715||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||2.3715|-0.6792|0.271
92226394|NCT03569202|184354588|OTHER||Mean Difference (Final Values)|1.7115||||0.0025|TWO_SIDED|95.0|0.633|2.7901||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||2.7901|0.6330|0.0025
92226395|NCT03569202|184354588|OTHER||Mean Difference (Final Values)|0.8654||||0.1134|TWO_SIDED|95.0|-0.2132|1.944||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||1.9440|-0.2132|0.1134
92226396|NCT03569202|184354589|OTHER||Mean Difference (Final Values)|2.1731||||0.412|TWO_SIDED|95.0|-3.1016|7.4477||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||7.4477|-3.1016|0.412
92226397|NCT03569202|184354589|OTHER||Mean Difference (Final Values)|0.01923||||0.9918|TWO_SIDED|95.0|-3.7105|3.749||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||3.7490|-3.7105|0.9918
92226398|NCT03569202|184354589|OTHER||Mean Difference (Final Values)|-2.1538||||0.2516|TWO_SIDED|95.0|-5.8836|1.5759||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||1.5759|-5.8836|0.2516
92368096|NCT03299244|184639996|SUPERIORITY|Testing of this key secondary efficacy endpoint at an overall significance level of 0.05 was to be performed if non-inferiority was demonstrated for the primary endpoint.|Odds Ratio (OR)|2.02|||<|0.001|TWO_SIDED|95.0|1.47|2.77|||Cochran-Mantel-Haenszel|CMH test stratified by screening iPTH level, screening cCa level, and country/region.|Odds ratio (Etelcalcetide : Cinacalcet) stratified by screening iPTH level, screening cCa level, and country/region.|||2.77|1.47|<0.001
92226399|NCT03569202|184354590|OTHER||Mean Difference (Final Values)|0.5093||||0.047|TWO_SIDED|95.0|0.007267|1.0113||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||1.0113|0.007267|0.047
92226400|NCT03569202|184354590|OTHER||Mean Difference (Final Values)|0.5596||||0.0026|TWO_SIDED|95.0|0.2046|0.9146||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||0.9146|0.2046|0.0026
92226401|NCT03569202|184354590|OTHER||Mean Difference (Final Values)|0.05032||||0.777|TWO_SIDED|95.0|-0.3047|0.4053||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||0.4053|-0.3047|0.7770
92226402|NCT03569202|184354591|OTHER||Wilcoxon Z statistic|-0.7604||||0.447|TWO_SIDED|||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Between-group comparison, change from baseline||||0.447
92226403|NCT03569202|184354591|OTHER|||||||0.014||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.014
92226404|NCT03569202|184354591|OTHER|||||||0.07||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.070
92226405|NCT03569202|184354592|OTHER||Wilcoxon Z statistic|-0.6396||||0.522|TWO_SIDED|||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Between-group comparison, change from baseline||||0.522
92226406|NCT03569202|184354592|OTHER|||||||0.119||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.119
92226407|NCT03569202|184354592|OTHER|||||||0.9||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.900
92226408|NCT03569202|184354593|OTHER||Wilcoxon Z statistic|-0.5387||||0.59|TWO_SIDED|||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Between-group comparison, change from baseline||||0.590
92226409|NCT03569202|184354593|OTHER|||||||0.043||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.043
92226410|NCT03569202|184354593|OTHER|||||||0.442||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.442
92226411|NCT03569202|184354595|OTHER||Wilcoxon Z statistic|0.9208||||0.357|TWO_SIDED|||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Between-group comparison, change from baseline||||0.357
92226412|NCT03569202|184354595|OTHER|||||||0.001||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.001
92226413|NCT03569202|184354595|OTHER|||||||0.065||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.065
92226414|NCT03569202|184354596|OTHER||Wilcoxon Z statistic|1.044||||0.296|TWO_SIDED|||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Between-group comparison, change from baseline||||0.296
92226415|NCT03569202|184354596|OTHER|||||||0.012||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.012
92167606|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-31.7|STANDARD_ERROR_OF_MEAN|9.72||0.0008|TWO_SIDED|90.0|-47.8|-15.6|||Mixed Model Repeated Measure|||At Week 2: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-15.6|-47.8|0.0008
92368097|NCT03299244|184639997|SUPERIORITY|Testing of this key secondary efficacy endpoint at an overall significance level of 0.05 was to be performed if non-inferiority was demonstrated for the primary endpoint, and superiority was demonstrated for the previous key secondary endpoint.|Odds Ratio (OR)|1.42||||0.033|TWO_SIDED|95.0|1.03|1.96|||Cochran-Mantel-Haenszel|CMH test stratified by screening iPTH level, screening cCa level, and country/region.|Odds ratio (Etelcalcetide : Cinacalcet) stratified by screening iPTH level, screening cCa level, and country/region.|||1.96|1.03|0.033
92368098|NCT03299244|184639998|SUPERIORITY||Difference in Least Squares Means|-2.82|STANDARD_ERROR_OF_MEAN|0.67|<|0.001|TWO_SIDED|95.0|-4.14|-1.5|||Mixed-effects Model Repeated Measures|Model includes treatment group, randomization stratification factors, study week, and study week by treatment as covariates.|Treatment difference (Etelcalcetide - Cinacalcet) stratified by screening iPTH level, screening cCa level, and country/region. Standard error of the mean is the standard error of the least squares means difference.|||-1.50|-4.14|<0.001
92368099|NCT03299244|184639999|SUPERIORITY||Odds Ratio (OR)|1.16||||0.41|TWO_SIDED|95.0|0.82|1.65|||Cochran-Mantel-Haenszel|CMH test stratified by screening iPTH level, screening cCa level, and country/region.|Odds ratio (Etelcalcetide : Cinacalcet) stratified by screening iPTH level, screening cCa level, and country/region.|||1.65|0.82|0.41
92368100|NCT00145626|184640041|SUPERIORITY_OR_OTHER||Cumulative Incidence|0.214|STANDARD_ERROR_OF_MEAN|0.114|||TWO_SIDED||||||||The cumulative incidence estimate and its standard error for occurrence of regimen-related mortality by the end of the first 100 days post-transplant was calculated.|||||
92368101|NCT01198574|184640073|SUPERIORITY_OR_OTHER||||||<|0.05|||||||GLM for repeated measures|The Hb concentration at Week 0, Week 6 and Week 12 are analyzed using GLM repeated measures.||"Null Hypothesis~1. Haemoglobin level was not influenced by sub-clinical inflammation during iron supplementation in the anaemic adolescent school girls~2. Vitamin A does not improve the haemoglobin level of the anaemic schoolgirls during iron supplementation in the presence of inflammation."||||<0.05
92368102|NCT01198574|184640074|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||GLM for repeated measures ANOVA|||"Null hypothesis~1. Iron status indicator (serum ferritin) was not influenced by sub-clinical inflammation during iron supplementation in the anaemic adolescent school girls~2. Vitamin A does not improve the iron status indicator (serum ferritin) concentration of the anaemic schoolgirls during iron supplementation in the presence of inflammation."||||<0.05
92368103|NCT01198574|184640075|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||GLM for repeated measures ANOVA|||"Null Hypothesis~1. iron status indicator (sTfR) was not influenced by sub-clinical inflammation during iron supplementation in the anaemic adolescent school girls~2. Vitamin A does not improve iron status indicator (sTfR) of the anaemic schoolgirls during iron supplementation in the presence of inflammation."||||<0.05
92167607|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-40.6|STANDARD_ERROR_OF_MEAN|9.86|<|0.0001|TWO_SIDED|90.0|-57.0|-24.3|||Mixed Model Repeated Measure|||At Week 2: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-24.3|-57.0|<0.0001
92226416|NCT03569202|184354596|OTHER||||||>|0.05||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||>0.05
92368104|NCT03308968|184640119|OTHER||Least square (LS) mean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-3.84|-2.42|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) method with treatment, sex, region, special group of treatment failure (yes or no), migraine classification (that is; CM or EM), and treatment-by-migraine classification interaction as fixed effects, and baseline number of migraine days and years since onset of migraines as covariates. The stratification factors (as randomized) were used in the model.||-2.42|-3.84|<0.0001
92368105|NCT03308968|184640119|OTHER||LS mean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-4.19|-2.78|||ANCOVA|||Analysis was performed using ANCOVA method with treatment, sex, region, special group of treatment failure (yes or no), migraine classification (that is; CM or EM), and treatment-by-migraine classification interaction as fixed effects, and baseline number of migraine days and years since onset of migraines as covariates. The stratification factors (as randomized) were used in the model.||-2.78|-4.19|<0.0001
92368106|NCT01521923|184640150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.719|||=|0.112|TWO_SIDED|95.0|0.881|3.354|||Regression, Logistic|||In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in a hierarchical order beginning with the CZP standard maintenance dosing (200 mg Q2W) + MTX group vs the CZP stopped dosing (PBO) + MTX group. If this analysis was statistically significant at the alpha =0.05 level, then an additional comparison of the CZP reduced frequency dosing (200 mg Q4W) + MTX group vs the CZP stopped dosing + MTX group was performed with testing at the alpha =0.05 level||3.354|0.881|=0.112
92368107|NCT01521923|184640150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.889|||=|0.041|TWO_SIDED|95.0|1.026|3.48|||Regression, Logistic|||In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in a hierarchical order. A hierarchical test procedure was applied to protect the Overall significance level for the multiplicity of endpoints. Hypothesis testing was performed in the following predefined order, each at a 2-sided 95 % alpha level||3.480|1.026|=0.041
92368108|NCT03037476|184640188|OTHER|General Linear Model|Slope|-0.235||||0.03|TWO_SIDED|95.0|-0.446|-0.023|||Mixed Models Analysis|Negative Binomial Regression||Changes from Baseline to 6 Month Follow-up Outcomes reported in this section.||-.023|-.446|0.03
92167608|NCT03903822|184224679|SUPERIORITY||LS Mean difference|3.9|STANDARD_ERROR_OF_MEAN|12.09||0.6269|TWO_SIDED|90.0|-16.1|23.9|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||23.9|-16.1|0.6269
92167609|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-33.5|STANDARD_ERROR_OF_MEAN|11.87||0.0027|TWO_SIDED|90.0|-53.1|-13.8|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-13.8|-53.1|0.0027
92226417|NCT03569202|184354598|OTHER||Mean Difference (Final Values)|-1.9911||||0.764|TWO_SIDED|95.0|-15.6117|11.6295||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||11.6295|-15.6117|0.764
92167610|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-38.8|STANDARD_ERROR_OF_MEAN|11.89||0.0007|TWO_SIDED|90.0|-58.5|-19.2|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-19.2|-58.5|0.0007
92226418|NCT03569202|184354598|OTHER||Mean Difference (Final Values)|-17.0625||||0.0038|TWO_SIDED|95.0|-27.928|-6.197||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||-6.1970|-27.9280|0.0038
92226419|NCT03569202|184354598|OTHER||Mean Difference (Final Values)|-15.0714||||0.0011|TWO_SIDED|95.0|-23.285|-6.8579||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||-6.8579|-23.2850|0.0011
92226420|NCT00454779|184354599|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.629||||0.051|TWO_SIDED|95.0|0.395|1.002|||Regression, Cox|Stratified by IVRS randomization factors|Hazard ratio is presented as panitumumab plus chemotherapy:chemotherapy alone.|||1.002|0.395|0.051
92368109|NCT03037476|184640188|OTHER|General Linear Model|Slope|-0.149||||0.164|TWO_SIDED|95.0|-0.36|0.061|||Mixed Models Analysis|Negative Binomial Regression||Changes from Baseline to 12 Month Follow-up reported in this section.||.061|-.360|0.164
92368110|NCT03037476|184640189|OTHER|General Linear Model|Slope|-0.24||||0.603|TWO_SIDED|95.0|-1.12|0.65|||Mixed Models Analysis|Poisson Regression||Change in Medical Misuse of Prescription Stimulant Medication Among those with ADHD Diagnosis from Baseline to 6 Month Followup||.650|-1.120|.603
92368111|NCT03037476|184640189|OTHER|General Linear Model|Slope|-0.336||||0.465|TWO_SIDED|95.0|-1.238|0.566|||Mixed Models Analysis|Poisson Regression||Change in Medical Misuse of Prescription Stimulant Medication Among those with ADHD Diagnosis from Baseline to 12 Month Followup||.566|-1.238|.465
92368112|NCT03037476|184640190|OTHER|General Linear Model|Slope|-0.059||||0.486|TWO_SIDED|95.0|-0.227|0.108|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 12 Month Tobacco Use from Baseline to 6 Month Followup||.108|-.227|.486
92368113|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.006||||0.942|TWO_SIDED|95.0|-0.16|0.172|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 12 Month Tobacco Use from Baseline to 12 Month Followup||.172|-.160|.942
92405349|NCT01746901|184701087|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.9766|TWO_SIDED|95.0|-2.13|2.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.20|-2.13|0.9766
92226421|NCT00454779|184354599|SUPERIORITY_OR_OTHER|||||||0.048|||||||Log Rank|Stratified by IVRS randomization factors||||||0.048
92368114|NCT03037476|184640190|OTHER|General Linear Model|Slope|-0.042||||0.552|TWO_SIDED|95.0|-0.18|0.097|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Alcohol Use from Baseline to 6 Month Followup||.097|-.180|.552
92368115|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.037||||0.608|TWO_SIDED|95.0|-0.104|0.177|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Alcohol Use from Baseline to 12 Month Followup||.177|-.104|.608
92368116|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.015||||0.84|TWO_SIDED|95.0|-0.13|0.16|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Other Drug Use from Baseline to 6 Month Followup||.160|-.130|.840
92368117|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.007||||0.927|TWO_SIDED|95.0|-0.142|0.155|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Other Drug Use from Baseline to 12 Month Followup||.155|-.142|.927
92368118|NCT03037476|184640190|OTHER|General Linear Model|Slope|-0.01||||0.932|TWO_SIDED|95.0|-0.244|0.223|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Nonmedical Prescription Drug Use from Baseline to 6 Month Followup||.223|-.244|.932
92405350|NCT01746901|184701087|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.61|||<|0.0001|TWO_SIDED|95.0|-6.78|-2.44|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-2.44|-6.78|<0.0001
92167611|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-32.1|STANDARD_ERROR_OF_MEAN|12.0||0.0041|TWO_SIDED|90.0|-51.9|-12.3|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-12.3|-51.9|0.0041
92167612|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-14.6|STANDARD_ERROR_OF_MEAN|11.61||0.1054|TWO_SIDED|90.0|-33.9|4.6|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||4.6|-33.9|0.1054
92368119|NCT03037476|184640190|OTHER|General Linear Model|Slope|-0.057||||0.648|TWO_SIDED|95.0|-0.3|0.187|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Nonmedical Prescription Drug Use from Baseline to 12 Month Followup||0.187|-.300|.648
92368120|NCT03037476|184640190|OTHER|General Linear Model|Slope|-0.059||||0.702|TWO_SIDED|95.0|-0.363|0.245|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Tobacco Use from Baseline to 6 Month Followup||.245|-.363|.702
92368121|NCT03037476|184640190|OTHER|General Linear Model|Slope|-0.1||||0.524|TWO_SIDED|95.0|-0.408|0.208|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Tobacco Use from Baseline to 12 Month Followup||.208|-.408|.524
92405351|NCT01746901|184701087|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39||||0.7242|TWO_SIDED|95.0|-2.55|1.78|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.78|-2.55|0.7242
92167613|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-18.8|STANDARD_ERROR_OF_MEAN|11.62||0.0542|TWO_SIDED|90.0|-38.1|0.5|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||0.5|-38.1|0.0542
92226422|NCT00454779|184354600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.23|||||TWO_SIDED|95.0|-11.67|24.12|||||With Mantel-Haenszel weights within strata defined by randomization factors recorded in the IVRS|||24.12|-11.67|
92226423|NCT00454779|184354600|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||||95.0|0.57|3.33|||||Calculated from a logistic regression model with treatment indicator and randomization factors (recorded on the CRF) as covariates|||3.33|0.57|
92226424|NCT00454779|184354601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.78|||||TWO_SIDED|95.0|-8.29|23.85|||||With Mantel-Haenszel weights within strata defined by randomization factors recorded in the IVRS|||23.85|-8.29|
92226425|NCT00454779|184354601|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76||||||95.0|0.62|5.26|||||Calculated from a logistic regression model with treatment indicator and randomization factors (recorded on the CRF) as covariates|||5.26|0.62|
92226426|NCT00454779|184354604|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.103||||0.663|TWO_SIDED|95.0|0.709|1.717|||Regression, Cox|Stratified by IVRS randomization factors|Hazard ratio is presented as panitumumab plus chemotherapy:chemotherapy alone|||1.717|0.709|0.663
92226427|NCT00454779|184354604|SUPERIORITY_OR_OTHER|||||||0.666|||||||Log Rank|Stratified by IVRS randomization factors||||||0.666
92368122|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.008||||0.913|TWO_SIDED|95.0|-0.137|0.153|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Alcohol Use from Baseline to 6 Month Followup||.153|-.137|.913
92368123|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.032||||0.676|TWO_SIDED|95.0|-0.117|0.181|||Mixed Models Analysis|Poisson Regresision||Change in Past 3 Month Alcohol Use from Baseline to 12 Month Followup||.181|-.117|.676
92368124|NCT03037476|184640190|OTHER|General Linear Model|Slope|-0.035||||0.712|TWO_SIDED|95.0|-0.223|0.152|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Marijuana Use from Baseline to 6 Month Followup||.152|-.223|.712
92368125|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.005||||0.956|TWO_SIDED|95.0|-0.186|0.197|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Marijuana Use from Baseline to 12 Month Followup||0.197|-.186|.956
92368126|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.149||||0.446|TWO_SIDED|95.0|-0.234|0.531|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Stimulant Use from Baseline to 6 Month Followup||.531|-.234|.446
92368127|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.055||||0.793|TWO_SIDED|95.0|-0.353|0.462|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Stimulant Use from Baseline to 12 Month Followup||.462|-.353|.793
92368128|NCT03037476|184640190|OTHER|General Linear Model|Slope|-0.001||||0.999|TWO_SIDED|95.0|-2.005|2.003|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 3 Month Heroin Use from Baseline to 6 Month Followup||2.003|-2.005|.999
92368129|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.999||||0.397|TWO_SIDED|95.0|-1.312|3.31|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 3 Month Heroin Use from Baseline to 12 Month Followup||3.310|-1.312|.397
92368130|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.465||||0.303|TWO_SIDED|95.0|-0.419|1.349|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 3 Month Nonmedical Prescription Drug Use from Baseline to 6 Month Followup||1.349|-.419|.303
92368131|NCT03037476|184640190|OTHER|General Linear Model|Slope|0.939|||<|0.05|TWO_SIDED|95.0|0.128|1.751|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 3 Month Nonmedical Prescription Drug Use from Baseline to 12 Month Followup||1.751|.128|<.05
92368132|NCT03037476|184640191|OTHER|General Linear Model|Slope|-0.1816||||0.151|TWO_SIDED|95.0|-0.4295|0.0663|||Mixed Models Analysis|Negative binomial regression||Change in ASSIST Score over time: 6 month follow up||0.0663|-0.4295|0.151
92368133|NCT03037476|184640191|OTHER|General Linear Model|Slope|-0.0601||||0.642|TWO_SIDED|95.0|-0.3133|0.1931|||Mixed Models Analysis|Negative Binomial Regression||Changes in ASSIST scores at 12 month follow up||0.1931|-0.3133|0.642
92368134|NCT03037476|184640192|OTHER|General Linear Model|Slope|-0.2177||||0.074|TWO_SIDED|95.0|-0.4566|0.0213|||Mixed Models Analysis|Negative Binomial Regression||Change in consequence score at 6 month follow up||0.0213|-0.4566|0.074
92368135|NCT03037476|184640192|OTHER|General Linear Model|Slope|-0.1165||||0.351|TWO_SIDED|95.0|-0.3612|0.1282|||Mixed Models Analysis|Negative Binomial Regression||Change in consequence score at 12 month follow up||0.1282|-0.3612|0.351
92368136|NCT03037476|184640193|OTHER|General Linear Model|Slope|0.044||||0.255|TWO_SIDED|95.0|-0.032|0.1197|||Mixed Models Analysis|Negative Binomial Regression||Change in peak alcohol quantity at 6 months (reported by number of standard drinks)||0.1197|-0.032|0.255
92368137|NCT03037476|184640193|OTHER|General Linear Model|Slope|0.0315||||0.428|TWO_SIDED|95.0|-0.0463|0.1092|||Mixed Models Analysis|Negative Binomial Regression||Change in peak alcohol quantity (reported in standard drinks) at 12 month follow-up||0.1092|-0.0463|0.428
92368138|NCT03037476|184640194|OTHER|General Linear Model|Slope|0.0021||||0.966|TWO_SIDED|95.0|-0.0936|0.0978|||Mixed Models Analysis|Negative Binomial Regression||Change in DDQ score at 6 months||0.0978|-0.0936|0.966
92368139|NCT03037476|184640194|OTHER|General Linear Model|Slope|-0.0559||||0.265|TWO_SIDED|95.0|-0.1542|0.0424|||Mixed Models Analysis|Negative Binomial Regression||Change in DDQ score at 12 month follow-up||0.0424|-0.1542|0.265
92368140|NCT03037476|184640195|OTHER|General Linear Model|Slope|-0.0128||||0.868|TWO_SIDED|95.0|-0.1633|0.1378|||Mixed Models Analysis|Negative Binomial Regression||Change in RAPI count at 6 month follow-up||0.1378|-0.1633|0.868
92368141|NCT03037476|184640195|OTHER|General Linear Model|Slope|-0.0445||||0.573|TWO_SIDED|95.0|-0.1993|0.1102|||Mixed Models Analysis|Negative Binomial Regression||Change in RAPI count at 12 month follow-up||0.1102|-0.1993|0.573
92368142|NCT03037476|184640196|OTHER|General Linear Model|Slope|-0.0899||||0.266|TWO_SIDED|95.0|-0.2484|0.0685|||Mixed Models Analysis|Negative Binomial Regression||Change in past 12 month marijuana use at 6 month follow-up||0.0685|-0.2484|0.266
92368143|NCT03037476|184640196|OTHER|General Linear Model|Slope|-0.0197||||0.816|TWO_SIDED|95.0|-0.1859|0.1465|||Mixed Models Analysis|Negative Binomial Regression||Past 12 month marijuana use at 12 month follow-up||0.1465|-0.1859|0.816
92368144|NCT03037476|184640196|OTHER|General Linear Model|Slope|-0.1031||||0.209|TWO_SIDED|95.0|-0.2639|0.0577|||Mixed Models Analysis|Negative Binomial Regression||Change in past 6 month marijuana use at 6 month follow-up||0.0577|-0.2639|0.209
92368145|NCT03037476|184640196|OTHER|General Linear Model|Slope|-0.006||||0.944|TWO_SIDED|95.0|-0.1729|0.1608|||Mixed Models Analysis|Negative Binomial Regression||Change in past 6 month marijuana use at 12 month follow-up||0.1608|-0.1729|0.944
92368146|NCT03037476|184640196|OTHER|General Linear Model|Slope|-0.0391||||0.654|TWO_SIDED|95.0|-0.2102|0.132|||Mixed Models Analysis|Negative Binomial Regression||Change in past month marijuana use at 6 month follow-up||0.1320|-0.2102|0.654
92226428|NCT02167945|184354637|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
92368147|NCT03037476|184640196|OTHER|General Linear Model|Slope|-0.0646||||0.481|TWO_SIDED|95.0|-0.2444|0.1152|||Mixed Models Analysis|Negative Binomial Regression||Change in past month marijuana use at 12 month follow-up||0.1152|-0.2444|0.481
92368148|NCT03037476|184640197|OTHER|General Linear Model|Slope|-0.0411||||0.487|TWO_SIDED|95.0|-0.1569|0.0747|||Mixed Models Analysis|Negative Binomial Regression||Change in RMPI count at 6 month follow-up||0.0747|-0.1569|0.487
92368149|NCT03037476|184640197|OTHER|General Linear Model|Slope|0.0177||||0.772|TWO_SIDED|95.0|-0.1021|0.1375|||Mixed Models Analysis|Negative Binomial Regression||Change in RMPI count at 12 month follow-up||0.1375|-0.1021|0.772
92368150|NCT03037476|184640198|OTHER|General Linear Model|Slope|0.1285||||0.075|TWO_SIDED|95.0|-0.0131|0.2702|||Mixed Models Analysis|Negative Binomial Regression||Change in PBS count at 6 month follow up||0.2702|-0.0131|0.075
92368151|NCT03037476|184640198|OTHER|General Linear Model|Slope|0.0936||||0.207|TWO_SIDED|95.0|-0.0517|0.2388|||Mixed Models Analysis|Negative Binomial Regression||Change in PBS count at 12 month follow up||0.2388|-0.0517|0.207
92405352|NCT01746901|184701087|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.45|||<|0.0001|TWO_SIDED|95.0|-6.62|-2.28|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-2.28|-6.62|<0.0001
92405353|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|19.0|||<|0.0001|TWO_SIDED|95.0|14.6|23.5|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.5|14.6|<0.0001
92405354|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.8048|TWO_SIDED|95.0|-3.9|5.0|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.0|-3.9|0.8048
92405355|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|8.6||||0.0002|TWO_SIDED|95.0|4.2|13.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.1|4.2|0.0002
92405356|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|11.0|||<|0.0001|TWO_SIDED|95.0|6.5|15.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||15.4|6.5|<0.0001
92405357|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|7.1||||0.0019|TWO_SIDED|95.0|2.7|11.6|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.6|2.7|0.0019
92405358|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|7.6||||0.001|TWO_SIDED|95.0|3.2|12.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||12.1|3.2|0.0010
92405359|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|127.4|||<|0.0001|TWO_SIDED|95.0|93.6|161.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||161.2|93.6|<0.0001
92368152|NCT03037476|184640199|OTHER|General Linear Model|Slope|-0.1604|||<|0.001|TWO_SIDED|95.0|-0.2525|-0.0683|||Mixed Models Analysis|Negative Binomial Regression||Change in perceived norm (in perceived days of use in past year) at 6 month follow up||-0.0683|-0.2525|<0.001
92368153|NCT03037476|184640199|OTHER|General Linear Model|Slope|-0.1441|||<|0.003|TWO_SIDED|95.0|-0.2404|-0.0478|||Mixed Models Analysis|Negative Binomial Regression||Change in perceived norm (perceived number of days of use in past year) at 12 month follow up||-0.0478|-0.2404|<.003
92368154|NCT03037476|184640200|OTHER|General Linear Model|Slope|-0.0157||||0.743|TWO_SIDED|95.0|-0.1096|0.0782|||Mixed Models Analysis|Poisson regression||Change in MSLQ score at 6 month follow-up||0.0782|-0.1096|0.743
92368155|NCT03037476|184640200|OTHER|General Linear Model|Slope|0.0133||||0.784|TWO_SIDED|95.0|-0.0816|0.1081|||Mixed Models Analysis|Poisson regression||Change in MSLQ score at 12 month follow up||0.1081|-0.0816|0.784
92368156|NCT03037476|184640201|OTHER|General Linear Model|Slope|-0.0061||||0.914|TWO_SIDED|95.0|-0.1161|0.104|||Mixed Models Analysis|Poisson regression||Change in cumulative grade point average at 6 month follow up||0.104|-0.1161|0.914
92368157|NCT03037476|184640201|OTHER|General Linear Model|Slope|-0.0092||||0.871|TWO_SIDED|95.0|-0.1202|0.1018|||Mixed Models Analysis|General Linear Model||Change in cumulative grade point average at 12 month follow up||0.1018|-0.1202|0.871
92368158|NCT03037476|184640201|OTHER|General Linear Model|Slope|0.003||||0.957|TWO_SIDED|95.0|-0.1063|0.1124|||Mixed Models Analysis|Poisson regression||Change in last term GPA at 6 month follow-up||0.1124|-0.1063|0.957
92405360|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|4.7||||0.7837|TWO_SIDED|95.0|-29.1|38.5|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||38.5|-29.1|0.7837
92405361|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|65.8||||0.0002|TWO_SIDED|95.0|32.0|99.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||99.6|32.0|0.0002
92405362|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|66.3||||0.0002|TWO_SIDED|95.0|32.5|100.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||100.1|32.5|0.0002
92405363|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|60.3||||0.0006|TWO_SIDED|95.0|26.5|94.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||94.1|26.5|0.0006
92405364|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|31.9||||0.064|TWO_SIDED|95.0|-1.9|65.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||65.7|-1.9|0.0640
92405365|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|142.6|||<|0.0001|TWO_SIDED|95.0|94.5|190.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||190.7|94.5|<0.0001
92368159|NCT03037476|184640201|OTHER|General Linear Model|Slope|0.0006||||0.992|TWO_SIDED|95.0|-0.1098|0.1109|||Mixed Models Analysis|Poisson regression||Change in last term GPA at 12 month follow-up||0.1109|-0.1098|0.992
92405366|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|15.8||||0.5169|TWO_SIDED|95.0|-32.3|63.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||63.9|-32.3|0.5169
92405367|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|81.3||||0.0011|TWO_SIDED|95.0|33.2|129.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||129.3|33.2|0.0011
92405368|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|77.1||||0.0018|TWO_SIDED|95.0|29.1|125.2|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||125.2|29.1|0.0018
92405369|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|63.6||||0.0098|TWO_SIDED|95.0|15.6|111.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||111.7|15.6|0.0098
92405370|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|39.4||||0.1078|TWO_SIDED|95.0|-8.7|87.4|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||87.4|-8.7|0.1078
92226429|NCT02167945|184354637|SUPERIORITY||Cox Proportional Hazard Ratio|0.126|||<|0.001|TWO_SIDED|95.0|0.044|0.358|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.358|0.044|<0.001
92226430|NCT02167945|184354638|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
92226431|NCT02167945|184354638|SUPERIORITY||Cox Proportional Hazard Ratio|0.031||||0.007|TWO_SIDED|95.0|0.003|0.38|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.380|0.003|0.007
92226432|NCT02167945|184354639|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
92226433|NCT02167945|184354639|SUPERIORITY||Cox Proportional Hazard Ratio|0.038|||<|0.001|TWO_SIDED|95.0|0.009|0.156|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.156|0.009|<0.001
92226434|NCT02167945|184354640|SUPERIORITY|||||||0.86|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||0.860
92405371|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|196.0|||<|0.0001|TWO_SIDED|95.0|116.9|275.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||275.1|116.9|<0.0001
92405372|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4||||0.9726|TWO_SIDED|95.0|-77.7|80.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||80.5|-77.7|0.9726
92405373|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|114.1||||0.005|TWO_SIDED|95.0|35.0|193.2|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||193.2|35.0|0.0050
92405374|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|83.3||||0.0392|TWO_SIDED|95.0|4.2|162.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||162.4|4.2|0.0392
92405375|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|68.7||||0.0883|TWO_SIDED|95.0|-10.4|147.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||147.8|-10.4|0.0883
92405376|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|64.4||||0.11|TWO_SIDED|95.0|-14.7|143.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||143.5|-14.7|0.1100
92405377|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|242.9|||<|0.0001|TWO_SIDED|95.0|138.6|347.2|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||347.2|138.6|<0.0001
92368160|NCT03037476|184640202|OTHER|General Linear Model|Slope|0.039||||0.447|TWO_SIDED|95.0|-0.0615|0.1395|||Mixed Models Analysis|Negative Binomial Regression||Change in past month alcohol frequency at 6 month follow-up||0.1395|-.0615|0.447
92368161|NCT03037476|184640202|OTHER|General Linear Model|Slope|0.0398||||0.443|TWO_SIDED|95.0|-0.0619|0.1414|||Mixed Models Analysis|Negative Binomial Regression||Change in past month alcohol frequency at 12 month follow-up||0.1414|-0.0619|0.443
92368162|NCT03037476|184640203|OTHER|General Linear Model|Slope|0.0002||||0.997|TWO_SIDED|95.0|-0.1066|0.107|||Mixed Models Analysis|Negative Binomial Regression||Change in past month alcohol typical quantity at 6 months||0.1070|-0.1066|0.997
92368163|NCT03037476|184640203|OTHER|General Linear Model|Slope|-0.0136||||0.808|TWO_SIDED|95.0|-0.1236|0.0963|||Mixed Models Analysis|Negative Binomial Regression||Change in past month typical alcohol quantity at 12 month follow-up||0.0963|-0.1236|0.808
92368164|NCT02403817|184640206|OTHER|This is a small pilot study with no power calculations required (and no data upon which to base a priori power estimates).||||||5e-05|||||||t-test, 2 sided|||This analysis compares pre-intervention to post-intervention scores in the eye movement training group on the primary attention outcome measure. The hand movement Control in this pilot was not feasible and the sample is too small for analysis. This is a small pilot study and so power analyses were not computed. The null hypothesis was no difference between pre- and post-training outcome measure (alpha .05).||||0.00005
92368165|NCT02403817|184640207|OTHER|||||||0.018|||||||t-test, 2 sided|||This analysis compares pre-intervention to post-intervention scores in the eye movement training group on the primary eye movement outcome measure. The hand movement Control in this pilot was not feasible and the sample is too small for analysis. This is a small pilot study and so power analyses were not computed. The null hypothesis was no difference between pre- and post-training outcome measure (alpha .05).||||0.018
92368166|NCT00501592|184640216|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||The primary endpoints are calculated as the change (post minus pre treatment) during low dose and high dose insulin infusion periods. These are compared between placebo and INT-747 25 mg using t-tests for independent samples. These tests will be made without correction for multiple comparisons using 0.05 as the alpha criterion for significance. Results will be described with the corresponding means and standard deviations.||||0.040
92368167|NCT00501592|184640216|SUPERIORITY_OR_OTHER|||||||0.28|||||||t-test, 2 sided|||The primary endpoints are calculated as the change (post minus pre treatment) during low dose and high dose insulin infusion periods. These are compared between placebo and INT-747 50 mg using t-tests for independent samples. These tests will be made without correction for multiple comparisons using 0.05 as the alpha criterion for significance. Results will be described with the corresponding means and standard deviations.||||0.28
92405378|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.0||||0.6906|TWO_SIDED|95.0|-125.3|83.2|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||83.2|-125.3|0.6906
92368168|NCT00501592|184640217|SUPERIORITY_OR_OTHER|||||||0.0031||95.0|||||t-test, 2 sided|||||||0.0031
92368169|NCT00501592|184640217|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||||||>0.05
92368170|NCT00501592|184640217|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||t-test, 2 sided|||||||0.0001
92368171|NCT00501592|184640217|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||t-test, 2 sided|||||||0.0005
92368172|NCT02978157|184640220|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92368173|NCT00135330|184640229|SUPERIORITY_OR_OTHER|||||||0.282||95.0|||||ANCOVA|||The ratio of the ASI-iAUC at Week 20 to that at baseline was compared between the treatment groups.||||0.282
92368174|NCT00135330|184640230|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|||||||0.004
92368175|NCT00135330|184640231|SUPERIORITY_OR_OTHER|||||||0.308||95.0|||||ANCOVA|||||||0.308
92368176|NCT00135330|184640232|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||ANCOVA|||||||0.079
92368177|NCT00135330|184640233|SUPERIORITY_OR_OTHER|||||||0.252||95.0|||||ANCOVA|||||||0.252
92368178|NCT00135330|184640234|SUPERIORITY_OR_OTHER|||||||0.465||95.0|||||ANCOVA|||||||0.465
92167614|NCT03903822|184224679|SUPERIORITY||LS Mean difference|5.8|STANDARD_ERROR_OF_MEAN|12.12||0.6847|TWO_SIDED|90.0|-14.2|25.9|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||25.9|-14.2|0.6847
92368179|NCT00135330|184640235|SUPERIORITY_OR_OTHER|||||||0.348||95.0|||||ANCOVA|||||||0.348
92167615|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-29.9|STANDARD_ERROR_OF_MEAN|11.82||0.0062|TWO_SIDED|90.0|-49.4|-10.3|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-10.3|-49.4|0.0062
92368180|NCT00135330|184640239|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Mixed Model Repeated Measures (MMRM)|||||||0.039
92368181|NCT00135330|184640240|SUPERIORITY_OR_OTHER|||||||0.555||95.0|||||MMRM|||||||0.555
92368182|NCT00135330|184640242|SUPERIORITY_OR_OTHER|||||||0.106||95.0|||||MMRM|||||||0.106
92368183|NCT00135330|184640243|SUPERIORITY_OR_OTHER|||||||0.341||95.0|||||MMRM|||||||0.341
92368184|NCT00135330|184640244|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||MMRM|||||||<0.001
92368185|NCT00135330|184640245|SUPERIORITY_OR_OTHER|||||||0.276||95.0|||||MMRM|||||||0.276
92368186|NCT00135330|184640246|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||MMRM|||||||0.840
92368187|NCT00135330|184640247|SUPERIORITY_OR_OTHER|||||||0.096||95.0|||||MMRM|||||||0.096
92368188|NCT00135330|184640248|SUPERIORITY_OR_OTHER|||||||0.875||95.0|||||MMRM|||||||0.875
92368189|NCT00135330|184640249|SUPERIORITY_OR_OTHER|||||||0.581||95.0|||||ANCOVA|||||||0.581
92368190|NCT00135330|184640250|SUPERIORITY_OR_OTHER|||||||0.631||95.0|||||ANCOVA|||||||0.631
92368191|NCT00135330|184640251|SUPERIORITY_OR_OTHER|||||||0.724||95.0|||||ANCOVA|||||||0.724
92368192|NCT00135330|184640252|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||MMRM|||||||0.117
92368193|NCT00135330|184640253|SUPERIORITY_OR_OTHER|||||||0.251||95.0|||||MMRM|||||||0.251
92405379|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|118.7||||0.0259|TWO_SIDED|95.0|14.5|223.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||223.0|14.5|0.0259
92405380|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|103.2||||0.0525|TWO_SIDED|95.0|-1.1|207.5|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||207.5|-1.1|0.0525
92405381|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|60.2||||0.2558|TWO_SIDED|95.0|-44.1|164.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||164.4|-44.1|0.2558
92405382|NCT01746901|184701088|SUPERIORITY_OR_OTHER||LS Mean Difference|88.6||||0.0952|TWO_SIDED|95.0|-15.7|192.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||192.9|-15.7|0.0952
92405383|NCT01746901|184701089|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8||||0.0298|TWO_SIDED|95.0|-3.3|-0.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.2|-3.3|0.0298
92405384|NCT01746901|184701089|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7||||0.0008|TWO_SIDED|95.0|1.1|4.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.3|1.1|0.0008
92405385|NCT01746901|184701089|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.645|TWO_SIDED|95.0|-2.0|1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.2|-2.0|0.6450
92405386|NCT01746901|184701089|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3||||0.0962|TWO_SIDED|95.0|-0.2|2.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.9|-0.2|0.0962
92167616|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-32.0|STANDARD_ERROR_OF_MEAN|11.89||0.004|TWO_SIDED|90.0|-51.6|-12.3|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-12.3|-51.6|0.0040
92226435|NCT02167945|184354640|SUPERIORITY|||||||0.997||||||The Hazard Ratio for experiencing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to those who did not achieve SVR12 is infinite and the CI is not bounded due to zero events in one of the groups.|Cox proportional hazards model|||A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||||0.997
92405387|NCT01746901|184701089|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0||||0.193|TWO_SIDED|95.0|-2.6|0.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.5|-2.6|0.1930
92167617|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-30.8|STANDARD_ERROR_OF_MEAN|11.97||0.0054|TWO_SIDED|90.0|-50.6|-11.0|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-11.0|-50.6|0.0054
92167618|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-11.7|STANDARD_ERROR_OF_MEAN|9.35||0.1076|TWO_SIDED|90.0|-27.2|3.9|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||3.9|-27.2|0.1076
92226436|NCT02167945|184354641|SUPERIORITY|||||||0.608|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||0.608
92405388|NCT01746901|184701089|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.031|TWO_SIDED|95.0|0.2|3.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.3|0.2|0.0310
92405389|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|41.5|||<|0.0001|TWO_SIDED|95.0|33.9|49.0|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||49.0|33.9|<0.0001
92405390|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4||||0.3763|TWO_SIDED|95.0|-4.2|10.9|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.9|-4.2|0.3763
92405391|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|18.3|||<|0.0001|TWO_SIDED|95.0|10.7|25.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.8|10.7|<0.0001
92167619|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-23.0|STANDARD_ERROR_OF_MEAN|9.42||0.0082|TWO_SIDED|90.0|-38.6|-7.3|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-7.3|-38.6|0.0082
92405392|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|26.6|||<|0.0001|TWO_SIDED|95.0|19.1|34.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||34.1|19.1|<0.0001
92405393|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|20.7|||<|0.0001|TWO_SIDED|95.0|13.1|28.2|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.2|13.1|<0.0001
92368194|NCT00135330|184640254|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||MMRM|||||||0.710
92368195|NCT00135330|184640255|SUPERIORITY_OR_OTHER|||||||0.575||95.0|||||Fisher Exact|||||||0.575
92368196|NCT00135330|184640256|SUPERIORITY_OR_OTHER|||||||0.436||95.0|||||ANOVA|||||||0.436
92368197|NCT00135330|184640257|SUPERIORITY_OR_OTHER|||||||0.168||95.0|||||Generalized Linear Model|||||||0.168
92368198|NCT01771991|184640259|SUPERIORITY||sum of scores|453.0|STANDARD_DEVIATION|39.6||0.57|TWO_SIDED||||||Wilcoxon Rank-Sum||Standard Deviation under the Null hypothesis for each group.|||||0.57
92368199|NCT01771991|184640260|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_DEVIATION|1.5||0.65|TWO_SIDED|95.0|-0.6|0.95|||t-test, 2 sided|||Looking at the difference in pain change over time. The null hypothesis is there was no difference between the two treatment groups.||0.95|-0.60|0.65
92368200|NCT01771991|184640261|SUPERIORITY||Mean Difference (Final Values)|2.63|STANDARD_DEVIATION|17.79||0.57|TWO_SIDED|95.0|-6.65|11.91|||t-test, 2 sided|||Looking at the difference in range of motion change over time. The null hypothesis is there was no difference between the two treatment groups.||11.91|-6.65|0.57
92368201|NCT02229825|184640279|OTHER|||||||0.88||||||p-value for treatment effect|ANCOVA|ANCOVA with stratification factors (country and pretreatment) and baseline score and treatment as the main factor.||The null hypothesis was that the mean change in MADRS total score between week 4 and baseline was the same for the 2 duloxetine treatment groups.||||0.88
92368202|NCT02229825|184640280|OTHER|||||||0.86||||||Treatment effect.|ANCOVA|Analysis of covariance (ANCOVA) with stratification factors and HAMD6 baseline as covariates and treatment regimen as main factor.||Comparison between treatment regimes at Week 4.||||0.86
92405394|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|||<|0.0001|TWO_SIDED|95.0|11.8|26.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||26.8|11.8|<0.0001
92368203|NCT02229825|184640281|OTHER||||||<|0.0001|||||||Signed Rank test|||Within-group comparisons, week 8 versus baseline.||||<0.0001
92368204|NCT02229825|184640281|OTHER||||||<|0.0001|||||||Singed Rank test|||Within-group comparison, week 8 versus baseline.||||<0.0001
92368205|NCT02229825|184640281|OTHER||||||<|0.0001|||||||Singed Rank test|||Within-group comparison, week 8 versus baseline.||||<0.0001
92368206|NCT02229825|184640281|OTHER||||||<|0.0001|||||||Signed Rank test|||Within-group comparison, week 8 versus baseline.||||<0.0001
92368207|NCT02229825|184640283|OTHER||||||<|0.0001|||||||McNemar|||Within group comparisons were performed at week 8 versus baseline.||||<0.0001
92368208|NCT02229825|184640283|OTHER||||||<|0.0001|||||||McNemar|||Within group comparisons were performed at week 8 versus baseline.||||<0.0001
92368209|NCT02229825|184640283|OTHER||||||<|0.0001|||||||McNemar|||Within group comparisons were performed at week 8 versus baseline.||||<0.0001
92368210|NCT02229825|184640283|OTHER||||||<|0.0001|||||||McNemar|||Within group comparisons were performed at week 8 versus baseline.||||<0.0001
92368211|NCT02229825|184640284|OTHER|||||||0.32||||||Treatment effect.|Regression, Logistic|||Treatment groups were compared regarding the number of responders and non-responders at week 4, using a logistic regression with stratification factors (country and pretreatment) and baseline scores as covariates and treatment regimen as main factor.||||0.32
92368212|NCT02229825|184640286|OTHER|||||||0.57||||||Treatment effect.|Regression, Logistic|||Treatment groups were compared regarding the number of responders and non-responders at week 4, using a logistic regression with stratification factors (country and pretreatment) and baseline scores as covariates and treatment regimen as main factor.||||0.57
92368213|NCT02229825|184640289|OTHER|||||||0.68|||||||Cochran-Mantel-Haenszel|Stratified by country, 60 mg vs. 120 mg||"At week 4 CGI-S items were pooled to reduce the possible number of classes before formal testing. The 3 classes used (instead of 7 items) were: 1-2: normal, 3-5: moderate, 6-7: severe. Treatment groups were compared using the Cochran Mantel-Haenszel test with stratification by centre."||||0.68
92368214|NCT02229825|184640290|OTHER||Statistic|-528.0|||<|0.0001|||||||Signed Rank test||Difference is value at week 8 minus week 4.|At week 8, within-group comparison versus week 4 was performed.||||<0.0001
92368215|NCT02229825|184640290|OTHER||Statistic|-540.0|||<|0.0001|||||||Signed Rank test||Difference is value at week 8 minus week 4.|At week 8, within-group comparison versus week 4 was performed.||||<0.0001
92167620|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-17.8|STANDARD_ERROR_OF_MEAN|14.14||0.1051|TWO_SIDED|90.0|-41.2|5.6|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||5.6|-41.2|0.1051
92368216|NCT02229825|184640290|OTHER||Statistic|-1024.5|||<|0.0001|||||||Signed Rank test||Difference is value at week 8 minus week 4.|At week 8, within-group comparison versus week 4 was performed.||||<0.0001
92368217|NCT02229825|184640290|OTHER||Statistic|-279.0|||<|0.0001|||||||Signed Rank test||Difference is value at week 8 minus week 4.|At week 8, within-group comparison versus week 4 was performed.||||<0.0001
92368218|NCT02229825|184640291|OTHER|No formal hypothesis was tested.||||||0.07||||||Stratified by country, 60 mg vs. 120 mg|Cochran-Mantel-Haenszel|||"At week 4 CGI-S items were pooled to reduce the possible number of classes before formal testing. The 3 classes used (instead of 7 items) were: 1-2: normal, 3-5: moderate, 6-7: severe. Treatment groups were compared using the Cochran Mantel-Haenszel test with stratification by centre."||||0.07
92368219|NCT02229825|184640293|OTHER||CMH statistic|0.0||||1|||||||Cochran-Mantel-Haenszel|||"Before testing, PGI-I items were pooled to reduce the possible number of classes. The 3 classes used (instead of 7 items) were: 1-2= improved, 3-5=Stable, 6-7=Worsened. At week 4 treatment groups were compared using the Cochran Mantel-Haenszel test with stratification by centre."||||1.00
92368220|NCT02229825|184640295|OTHER|||||||0.92||||||Treatment effect|ANCOVA|||Comparison between HAMA scores between treatment regimens.||||0.92
92368221|NCT02229825|184640296|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||<0.0001
92368222|NCT02229825|184640296|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||<0.0001
92368223|NCT02229825|184640296|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||<0.0001
92368224|NCT02229825|184640296|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||<0.0001
92368225|NCT02229825|184640298|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, Week 8 versus baseline.||||<0.0001
92226437|NCT02167945|184354641|SUPERIORITY|||||||0.992||||||The Hazard Ratio for experiencing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to those who did not achieve SVR12 is infinite and the CI is not bounded due to zero events in one of the groups.|Cox proportional hazards model|||A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||||0.992
92167621|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-37.8|STANDARD_ERROR_OF_MEAN|13.8||0.0034|TWO_SIDED|90.0|-60.6|-15.0|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-15.0|-60.6|0.0034
92167622|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-41.9|STANDARD_ERROR_OF_MEAN|13.83||0.0014|TWO_SIDED|90.0|-64.8|-19.0|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-19.0|-64.8|0.0014
92167623|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-38.6|STANDARD_ERROR_OF_MEAN|13.9||0.003|TWO_SIDED|90.0|-61.6|-15.6|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-15.6|-61.6|0.0030
92226438|NCT02167945|184354642|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
92226439|NCT02167945|184354642|SUPERIORITY||Cox Proportional Hazard Ratio|0.133|||<|0.001|TWO_SIDED|95.0|0.057|0.313|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.313|0.057|<0.001
92368226|NCT02229825|184640298|OTHER|||||||0.001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||0.001
92368227|NCT02229825|184640298|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||<0.0001
92226440|NCT02167945|184354644|SUPERIORITY||LS Mean Difference|-1.75|STANDARD_ERROR_OF_MEAN|0.79||0.026|TWO_SIDED|95.0|-3.3|-0.21|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||-0.21|-3.30|0.026
92226441|NCT02167945|184354644|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.74||0.472|TWO_SIDED|95.0|-1.97|0.91|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.91|-1.97|0.472
92226442|NCT02167945|184354644|SUPERIORITY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.73||0.159|TWO_SIDED|95.0|-2.47|0.4|||ANCOVA||F4 - F0-F1|"F0-F1 vs F4 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.40|-2.47|0.159
92226443|NCT02167945|184354644|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.84||0.125|TWO_SIDED|95.0|-2.95|0.36|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.36|-2.95|0.125
92226444|NCT02167945|184354644|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.78||0.756|TWO_SIDED|95.0|-1.78|1.29|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||1.29|-1.78|0.756
92226445|NCT02167945|184354644|SUPERIORITY||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.78||0.315|TWO_SIDED|95.0|-2.32|0.75|||ANCOVA||F4 - F0-F1|"F0-F1 vs F4 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.75|-2.32|0.315
92368228|NCT02229825|184640298|OTHER|||||||0.28|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||0.28
92368229|NCT01309997|184640311|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92368230|NCT01309997|184640311|SUPERIORITY_OR_OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
92368231|NCT04474197|184640312|SUPERIORITY||Least Squares (LS) Mean Difference|2.3|||<|0.0001|TWO_SIDED|95.0|1.5|3.1|||Mixed-effects Model for Repeated Measure|||||3.1|1.5|<0.0001
92368232|NCT04474197|184640312|SUPERIORITY||LS Mean Difference|2.3|||<|0.0001|TWO_SIDED|95.0|1.6|3.1|||Mixed-effects Model for Repeated Measure|||||3.1|1.6|<0.0001
92368233|NCT04474197|184640312|SUPERIORITY||LS Mean Difference|2.2|||<|0.0001|TWO_SIDED|95.0|1.5|2.9|||Mixed-effects Model for Repeated Measure|||||2.9|1.5|<0.0001
92368234|NCT04474197|184640314|SUPERIORITY||LS Mean Difference|3.5|||<|0.0001|TWO_SIDED|95.0|2.4|4.6|||Mixed-effects Model for Repeated Measure|||||4.6|2.4|<0.0001
92368235|NCT04474197|184640314|SUPERIORITY||LS Mean Difference|3.0|||<|0.0001|TWO_SIDED|95.0|1.9|4.0|||Mixed-effects Model for Repeated Measure|||||4.0|1.9|<0.0001
92226446|NCT02167945|184354645|SUPERIORITY||LS Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|1.03||0.216|TWO_SIDED|95.0|-3.3|0.75|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.75|-3.30|0.216
92368236|NCT04474197|184640314|SUPERIORITY||LS Mean Difference|2.7|||<|0.0001|TWO_SIDED|95.0|1.8|3.7|||Mixed-effects Model for Repeated Measure|||||3.7|1.8|<0.0001
92405395|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|284.3|||<|0.0001|TWO_SIDED|95.0|232.9|335.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||335.8|232.9|<0.0001
92405396|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|31.2||||0.2336|TWO_SIDED|95.0|-20.4|82.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||82.8|-20.4|0.2336
92405397|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|167.3|||<|0.0001|TWO_SIDED|95.0|115.7|218.9|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||218.9|115.7|<0.0001
92405398|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|148.3|||<|0.0001|TWO_SIDED|95.0|96.8|199.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||199.7|96.8|<0.0001
92405399|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|135.6|||<|0.0001|TWO_SIDED|95.0|84.0|187.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||187.2|84.0|<0.0001
92405400|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|113.6|||<|0.0001|TWO_SIDED|95.0|62.1|165.0|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||165.0|62.1|<0.0001
92405401|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|278.3|||<|0.0001|TWO_SIDED|95.0|213.2|343.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||343.3|213.2|<0.0001
92405402|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|71.3||||0.0322|TWO_SIDED|95.0|6.1|136.5|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||136.5|6.1|0.0322
92167624|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-17.7|STANDARD_ERROR_OF_MEAN|9.22||0.0289|TWO_SIDED|90.0|-33.0|-2.4|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit(Weeks 1, 2, 3, 4, 6 and follow up), treatment-by-visit interaction and baseline value.||-2.4|-33.0|0.0289
92368237|NCT02526212|184640324|SUPERIORITY|||||||0.44|||||||Fisher Exact|||Due to the small sample size, planned analyses that assessed for clustering by group assignment or primary care physician could not be conducted. Chi square using fisher's exact test was conducted to investigate differences in abstinence between study arms.||||0.44
92368238|NCT02526212|184640327|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Each of the 17 items were rated on a scale from 1 to 5. For each participant, the scores from these items were summed and divided by 17 for an average satisfaction score. The average satisfaction score was compared between study arms.||||0.20
92368239|NCT00237666|184640344|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92405403|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|195.4|||<|0.0001|TWO_SIDED|95.0|130.2|260.5|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||260.5|130.2|<0.0001
92405404|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|154.3|||<|0.0001|TWO_SIDED|95.0|89.2|219.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||219.3|89.2|<0.0001
92405405|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|143.2|||<|0.0001|TWO_SIDED|95.0|78.0|208.4|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||208.4|78.0|<0.0001
92405406|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|126.7||||0.0002|TWO_SIDED|95.0|61.7|191.8|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||191.8|61.7|0.0002
92405407|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|202.4|||<|0.0001|TWO_SIDED|95.0|118.4|286.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||286.4|118.4|<0.0001
92405408|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|137.6||||0.0015|TWO_SIDED|95.0|53.3|221.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||221.8|53.3|0.0015
92167625|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-33.8|STANDARD_ERROR_OF_MEAN|9.27||0.0002|TWO_SIDED|90.0|-49.2|-18.4|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-18.4|-49.2|0.0002
92167626|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-0.9|STANDARD_ERROR_OF_MEAN|13.88||0.4739|TWO_SIDED|90.0|-23.9|22.0|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||22.0|-23.9|0.4739
92167627|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-19.1|STANDARD_ERROR_OF_MEAN|13.43||0.0789|TWO_SIDED|90.0|-41.3|3.2|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||3.2|-41.3|0.0789
92368240|NCT03645096|184640367|SUPERIORITY||Mean Difference (Final Values)|0.0493|STANDARD_ERROR_OF_MEAN|0.0554||0.195|TWO_SIDED|95.0|-0.0703|0.1689||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: Amygdala-PCC functional connectivity (z-score) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Amygdala-PCC functional connectivity (z-score) at 500 mg will be greater than that at placebo."||0.1689|-0.0703|.195
92226447|NCT02167945|184354645|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.95||0.074|TWO_SIDED|95.0|-3.58|0.17|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.17|-3.58|0.074
92226448|NCT02167945|184354645|SUPERIORITY||LS Mean Difference|-1.81|STANDARD_ERROR_OF_MEAN|0.95||0.056|TWO_SIDED|95.0|-3.67|0.05|||ANCOVA||F4 - F0-F1|"F0-F1 vs F4 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.05|-3.67|0.056
92226449|NCT02167945|184354645|SUPERIORITY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|1.02||0.411|TWO_SIDED|95.0|-2.84|1.16|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||1.16|-2.84|0.411
92226450|NCT02167945|184354645|SUPERIORITY||LS Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|0.93||0.065|TWO_SIDED|95.0|-3.55|0.11|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.11|-3.55|0.065
92226451|NCT02167945|184354645|SUPERIORITY||LS Mean Difference|-2.08|STANDARD_ERROR_OF_MEAN|0.93||0.026|TWO_SIDED|95.0|-3.91|-0.25|||ANCOVA||F4 - F0-F1|F0-F1 vs F4 at Post-treatment Week 24||-0.25|-3.91|0.026
92226452|NCT02167945|184354646|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.95||0.035|TWO_SIDED|95.0|-3.86|-0.14|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes (PRO) score and SVR12 status as covariates."||-0.14|-3.86|0.035
92226453|NCT02167945|184354646|SUPERIORITY||LS Mean Difference|-2.15|STANDARD_ERROR_OF_MEAN|0.88||0.015|TWO_SIDED|95.0|-3.88|-0.42|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||-0.42|-3.88|0.015
92226454|NCT02167945|184354646|SUPERIORITY||LS Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.88||0.048|TWO_SIDED|95.0|-3.46|-0.01|||ANCOVA||F4 - F0-F1|F0-F1 vs F4 at Post-treatment Week 12||-0.01|-3.46|0.048
92226455|NCT02167945|184354646|SUPERIORITY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.99||0.466|TWO_SIDED|95.0|-2.67|1.22|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||1.22|-2.67|0.466
92226456|NCT02167945|184354646|SUPERIORITY||LS Mean Difference|-1.91|STANDARD_ERROR_OF_MEAN|0.91||0.035|TWO_SIDED|95.0|-3.7|-0.13|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||-0.13|-3.70|0.035
92226457|NCT02167945|184354646|SUPERIORITY||LS Mean Difference|-2.22|STANDARD_ERROR_OF_MEAN|0.91||0.015|TWO_SIDED|95.0|-4.01|-0.43|||ANCOVA||F4 - F0-F1|"F0-F1 vs F4 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||-0.43|-4.01|0.015
92226458|NCT00094757|184354656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|0.9|<|0.001|TWO_SIDED|95.0|-0.82|-0.39||Model terms: treatment, baseline, prior anti-hyperglycemic therapy status (on vs. not on prior therapy)|ANCOVA|||||-0.39|-0.82|<0.001
92226459|NCT00094757|184354656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48|STANDARD_DEVIATION|0.9|<|0.001|TWO_SIDED|95.0|-0.7|-0.26|||ANCOVA|Model terms: treatment, baseline, prior anti-hyperglycemic therapy status (on vs. not on prior therapy)||||-0.26|-0.70|<0.001
92226460|NCT00094757|184354657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.7|STANDARD_DEVIATION|45.9|<|0.001|TWO_SIDED|95.0|-30.5|-8.9|||ANCOVA|Model terms: treatment, baseline, prior anti-hyperglycemic therapy status||||-8.9|-30.5|<0.001
92226461|NCT00094757|184354657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.9|STANDARD_DEVIATION|45.9|<|0.002|TWO_SIDED|95.0|-27.6|-6.1|||ANCOVA|Model terms: treatment, baseline, prior anti-hyperglycemic therapy status||||-6.1|-27.6|<0.002
92226462|NCT02623335|184354660|SUPERIORITY||Odds Ratio (OR)|1.32||||0.353|TWO_SIDED||||||Mixed Models Analysis|||Options questions||||0.353
92226463|NCT02623335|184354660|SUPERIORITY||Odds Ratio (OR)|0.97||||0.923|TWO_SIDED||||||Mixed Models Analysis|||Expectations questions||||0.923
92226464|NCT02623335|184354660|SUPERIORITY||Odds Ratio (OR)|1.41||||0.255|TWO_SIDED||||||Mixed Models Analysis|||Risks questions||||0.255
92226465|NCT02623335|184354660|SUPERIORITY||Odds Ratio (OR)|239047259.0||||0.094|TWO_SIDED||||||Mixed Models Analysis|||Advance directives questions||||0.094
92226466|NCT02623335|184354661|SUPERIORITY||Effect estimate|-0.04||||0.84|TWO_SIDED||||||Mixed Models Analysis|||Change in scores between T2 and T1||||0.84
92405409|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|192.9|||<|0.0001|TWO_SIDED|95.0|108.7|277.2|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||277.2|108.7|<0.0001
92167628|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-13.4|STANDARD_ERROR_OF_MEAN|13.5||0.1611|TWO_SIDED|90.0|-35.7|8.9|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||8.9|-35.7|0.1611
92167629|NCT03903822|184224679|SUPERIORITY||LS Mean Difference|-31.6|STANDARD_ERROR_OF_MEAN|13.94||0.0124|TWO_SIDED|90.0|-54.7|-8.5|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-8.5|-54.7|0.0124
92167630|NCT03903822|184224679|SUPERIORITY||LS Mean difference|-5.3|STANDARD_ERROR_OF_MEAN|17.68||0.3828|TWO_SIDED|90.0|-34.7|24.1|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||24.1|-34.7|0.3828
92226467|NCT02623335|184354661|SUPERIORITY||Effect estimate|-0.15||||0.645|TWO_SIDED||||||Mixed Models Analysis|||Change in scores between T3 and T1||||0.645
92226468|NCT02623335|184354662|SUPERIORITY||Effect estimate|-0.37||||0.411|TWO_SIDED||||||Mixed Models Analysis|||||||0.411
92226469|NCT02623335|184354663|SUPERIORITY||Odds Ratio (OR)|1.39||||0.412|TWO_SIDED||||||Mixed Models Analysis|||||||0.412
92226470|NCT02623335|184354664|SUPERIORITY||Effect estimate|-0.25||||0.009|TWO_SIDED||||||Mixed Models Analysis|||||||0.009
92368241|NCT03645096|184640367|SUPERIORITY||Mean Difference (Final Values)|0.0262|STANDARD_ERROR_OF_MEAN|0.0565||0.325|TWO_SIDED|95.0|-0.0943|0.1467||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: Amygdala-PCC functional connectivity (z-score) at 800 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Amygdala-PCC functional connectivity (z-score) at 800 mg will be greater than that at placebo."||0.1467|-0.0943|.325
92368242|NCT03645096|184640368|SUPERIORITY||Mean Difference (Final Values)|-0.0071|STANDARD_ERROR_OF_MEAN|0.0878||0.468|TWO_SIDED|95.0|-0.1969|0.1827||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: dlPFC-Insula functional connectivity (z-score) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: dlPFC-Insula functional connectivity (z-score) at 500 mg will be greater than that at placebo."||0.1827|-0.1969|.468
92405410|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|147.0||||0.0007|TWO_SIDED|95.0|63.0|231.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||231.1|63.0|0.0007
92405411|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|148.1||||0.0007|TWO_SIDED|95.0|63.9|232.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||232.4|63.9|0.0007
92405412|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|109.6||||0.011|TWO_SIDED|95.0|25.5|193.6|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||193.6|25.5|0.0110
92167631|NCT03903822|184224679|SUPERIORITY||LS Mean difference|1.7|STANDARD_ERROR_OF_MEAN|17.8||0.5383|TWO_SIDED|90.0|-27.9|31.3|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||31.3|-27.9|0.5383
92226471|NCT02623335|184354665|SUPERIORITY||Effect estimate|-0.72||||0.106|TWO_SIDED||||||Mixed Models Analysis|||6-8 weeks post-enrollment (T2)||||0.106
92226472|NCT02623335|184354665|SUPERIORITY||Effect estimate|-1.12||||0.007|TWO_SIDED||||||Mixed Models Analysis|||3-4 months post-enrollment post-enrollment (T3)||||0.007
92226473|NCT02623335|184354666|SUPERIORITY||Effect estimate|0.97||||0.034|TWO_SIDED||||||Mixed Models Analysis|||6-8 weeks post-enrollment (T2)||||0.034
92226474|NCT02623335|184354666|SUPERIORITY||Effect estimate|1.12||||0.019|TWO_SIDED||||||Mixed Models Analysis|||3-4 months post-enrollment (T3)||||0.019
92226475|NCT02623335|184354667|SUPERIORITY||Effect estimate|1.16||||0.022|TWO_SIDED||||||Mixed Models Analysis|||6-8 weeks post-enrollment (T2)||||0.022
92226476|NCT02623335|184354667|SUPERIORITY||Effect estimate|0.94||||0.053|TWO_SIDED||||||Mixed Models Analysis|||3-4 months post-enrollment post-enrollment (T3)||||0.053
92226477|NCT02623335|184354669|SUPERIORITY||Effect estimate|5.04||||0.07|TWO_SIDED||||||Mixed Models Analysis|||||||0.07
92226478|NCT00408694|184354740|OTHER|||||||||||||||||Null hypothesis, H0: Incidence of patients with either grade 4 hemorrhage or any grade 5 adverse event for the protocol treatment regimen ≤ 0.05. Alternative hypothesis, HA: Incidence of patients with either grade 4 hemorrhage or any grade 5 adverse event for the protocol treatment regimen ≥ 0.15.|If 3 of the first 14 patients or 4 of the first 42 patients experience the specified adverse events, then the regimen is considered unacceptable as calculated by the Fleming method for a two-stage design with type I error and the statistical power were set at 0.14 and 0.83, respectively.|||
92167632|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|-5.4||||0.8964|TWO_SIDED|90.0|-16.1|2.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||2.0|-16.1|0.8964
92167633|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|14.0||||0.0391|TWO_SIDED|90.0|1.0|28.2|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||28.2|1.0|0.0391
92226479|NCT00523991|184354749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||<|0.001||95.0|0.18|0.27||"There was only one primary endpoint and the p-value was not adjusted for multiple comparisons.~Mean Difference (Final Values) means difference in LS-Means"|ANCOVA|The analysis of covariance model included treatment, site, and trough forced expiratory volume in 1 second at baseline in the model.||||0.27|0.18|<0.001
92226480|NCT00523991|184354753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001||95.0|0.09|0.18||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|Terms include treatment, site, and trough forced expiratory volume in 1 second at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.18|0.09|<0.001
92167634|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-10.8|10.8|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||10.8|-10.8|1.0000
92167635|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|11.3||||0.0708|TWO_SIDED|90.0|-1.4|25.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||25.0|-1.4|0.0708
92226481|NCT00523991|184354757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||<|0.001||95.0|0.19|0.29||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|Terms include treatment, site, and peak forced expiratory volume in 1 second at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.29|0.19|<0.001
92226482|NCT00523991|184354773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001||95.0|0.09|0.18||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"Terms include treatment, site, and forced expiratory volume in 1 second at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.18|0.09|<0.001
92368243|NCT03645096|184640368|SUPERIORITY||Mean Difference (Final Values)|0.0097|STANDARD_ERROR_OF_MEAN|0.0891||0.458|TWO_SIDED|95.0|-0.1803|0.1996||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: dlPFC-Insula functional connectivity (z-score) at 800 mg will be less than or equal to that at placebo.~Alternative Hypothesis: dlPFC-Insula functional connectivity (z-score) at 800 mg will be greater than that at placebo."||0.1996|-0.1803|.458
92368244|NCT03645096|184640369|SUPERIORITY||Mean Difference (Final Values)|0.0038|STANDARD_ERROR_OF_MEAN|0.0078||0.316|TWO_SIDED|95.0|-0.0132|0.0209||Paired samples t-test with corrected standard deviation of the difference.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: GABA concentration (mM) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: GABA concentration (mM) at 500 mg will be greater than that at placebo."||0.0209|-0.0132|.316
92368245|NCT03645096|184640369|SUPERIORITY||Mean Difference (Final Values)|0.0131|STANDARD_ERROR_OF_MEAN|0.0084||0.071|TWO_SIDED|95.0|-0.005|0.0312||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: GABA concentration (mM) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: GABA concentration (mM) at 500 mg will be greater than that at placebo."||0.0312|-0.0050|.071
92368246|NCT03645096|184640370|SUPERIORITY||Mean Difference (Final Values)|-11322.45|STANDARD_ERROR_OF_MEAN|3750.52||0.006|TWO_SIDED|95.0|-19577.27|-3067.62||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: Pregnenolone level (pg/mL) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Pregnenolone level (pg/mL) at 500 mg will be greater than that at placebo."||-3067.62|-19577.27|.006
92405413|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|196.0|||<|0.0001|TWO_SIDED|95.0|107.4|284.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||284.6|107.4|<0.0001
92405414|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|133.9||||0.0034|TWO_SIDED|95.0|45.0|222.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||222.8|45.0|0.0034
92405415|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|190.9|||<|0.0001|TWO_SIDED|95.0|102.1|279.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||279.8|102.1|<0.0001
92405416|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|138.9||||0.0023|TWO_SIDED|95.0|50.3|227.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||227.6|50.3|0.0023
92405417|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|147.8||||0.0013|TWO_SIDED|95.0|59.0|236.7|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||236.7|59.0|0.0013
92405418|NCT01746901|184701090|SUPERIORITY_OR_OTHER||LS Mean Difference|100.0||||0.0273|TWO_SIDED|95.0|11.3|188.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||188.6|11.3|0.0273
92405419|NCT01746901|184701091|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|||<|0.0001|TWO_SIDED|95.0|-5.0|-1.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.8|-5.0|<0.0001
92405420|NCT01746901|184701091|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9||||0.0004|TWO_SIDED|95.0|1.3|4.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.4|1.3|0.0004
92167636|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|13.9||||0.0122|TWO_SIDED|90.0|4.7|27.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||27.0|4.7|0.0122
92167637|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|21.6||||0.0016|TWO_SIDED|90.0|11.0|35.6|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||35.6|11.0|0.0016
92167638|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|2.7||||0.395|TWO_SIDED|90.0|-9.8|16.1|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||16.1|-9.8|0.3950
92167639|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|19.7||||0.0173|TWO_SIDED|90.0|4.2|35.6|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||35.6|4.2|0.0173
92167640|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|16.2||||0.0327|TWO_SIDED|90.0|1.4|31.0|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||31.0|1.4|0.0327
92167641|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|30.8||||0.0011|TWO_SIDED|90.0|13.2|46.6|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||46.6|13.2|0.0011
92405421|NCT01746901|184701091|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.8478|TWO_SIDED|95.0|-1.7|1.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.4|-1.7|0.8478
92405422|NCT01746901|184701091|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.6192|TWO_SIDED|95.0|-1.9|1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.2|-1.9|0.6192
92405423|NCT01746901|184701091|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.8857|TWO_SIDED|95.0|-1.7|1.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.4|-1.7|0.8857
92167642|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|11.1||||0.1348|TWO_SIDED|90.0|-5.0|27.2|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||27.2|-5.0|0.1348
92167643|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|18.5||||0.0328|TWO_SIDED|90.0|1.5|34.8|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||34.8|1.5|0.0328
92368247|NCT03645096|184640370|SUPERIORITY||Mean Difference (Final Values)|-11828.78|STANDARD_ERROR_OF_MEAN|3620.42||0.003|TWO_SIDED|95.0|-19650.24|-4007.33||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: Pregnenolone level (pg/mL) at 800 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Pregnenolone level (pg/mL) at 800 mg will be greater than that at placebo."||-4007.33|-19650.24|.003
92368248|NCT03645096|184640371|SUPERIORITY||Mean Difference (Final Values)|-2523.58|STANDARD_ERROR_OF_MEAN|545.83||0.001|TWO_SIDED|95.0|-3724.93|-1322.22||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: Allopregnanolone level (pg/mL) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Allopregnanolone level (pg/mL) at 500 mg will be greater than that at placebo."||-1322.22|-3724.93|.001
92368249|NCT03645096|184640371|SUPERIORITY||Mean Difference (Final Values)|-2480.62|STANDARD_ERROR_OF_MEAN|582.63||0.001|TWO_SIDED|95.0|-3739.32|-1221.93||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: Allopregnanolone level (pg/mL) at 800 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Allopregnanolone level (pg/mL) at 800 mg will be greater than that at placebo."||-1221.93|-3739.32|.001
92368250|NCT03645096|184640372|NON_INFERIORITY|"Using the two one-sided test (TOST) procedure (Schuirmann, 1987), equivalence is established at the α significance level if a (1-2α) × 100% confidence interval for the difference in efficacies (new - current) is contained within the interval (-δ, δ)~Schuirmann, D. J. (1987). A comparison of the two one-sided tests procedure and the power approach for assessing the equivalence of average bioavailability. Journal of pharmacokinetics and biopharmaceutics, 15, 657-680."|Mean Difference (Final Values)|0.7059|STANDARD_ERROR_OF_MEAN|1.6377||0.336|TWO_SIDED|95.0|-2.7659|4.1777||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: SAFTEE (total) scores at 500 mg will be greater than or equal to that at placebo.~Alternative Hypothesis: SAFTEE (total) scores at 500 mg will be less than that at placebo."||4.1777|-2.7659|.336
92369511|NCT00281099|184643814|SUPERIORITY_OR_OTHER|||||||0.5183||95.0||||The a priori threshold for statistical significance was 0.05, with no adjustment made for multiple comparisons.|Wilcoxon (Mann-Whitney)|Because the trial was stopped early, only 178 subjects were included in this analysis.||The change in Minnesota Living with Heart Failure Questionnaire score from baseline to 36 months was compared using a two-sided test. If a subject died before their 36 month visit, a value of 105 (worst possible MLWHF score) was imputed for their 36 month score.||||0.5183
92405424|NCT01746901|184701091|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.5092|TWO_SIDED|95.0|-2.1|1.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.0|-2.1|0.5092
92405425|NCT03594110|184701104|SUPERIORITY|"Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.~Two-sided significance level of \<0.0017 required at interim analysis."|Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|99.83|0.59|0.89|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence of kidney disease progression or CV death. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening Urine albumin-to-creatinine ratio (UACR), region and treatment.||0.89|0.59|<0.0001
92167644|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|10.8||||0.0769|TWO_SIDED|90.0|-1.8|24.4|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||24.4|-1.8|0.0769
92167645|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|30.7||||0.0005|TWO_SIDED|90.0|13.2|46.0|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||46.0|13.2|0.0005
92167646|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|37.8|||<|0.0001|TWO_SIDED|90.0|22.1|53.1|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||53.1|22.1|<0.0001
92167647|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|36.3||||0.0001|TWO_SIDED|90.0|19.7|51.8|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||51.8|19.7|0.0001
92167648|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-16.5|16.5|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||16.5|-16.5|1.0000
92368251|NCT03645096|184640372|NON_INFERIORITY|"Using the two one-sided test (TOST) procedure (Schuirmann, 1987), equivalence is established at the α significance level if a (1-2α) × 100% confidence interval for the difference in efficacies (new - current) is contained within the interval (-δ, δ)~Schuirmann, D. J. (1987). A comparison of the two one-sided tests procedure and the power approach for assessing the equivalence of average bioavailability. Journal of pharmacokinetics and biopharmaceutics, 15, 657-680."|Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|3.4662||0.24|TWO_SIDED|95.0|-9.8131|4.8131||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: SAFTEE (total) scores at 800 mg will be greater than or equal to that at placebo.~Alternative Hypothesis: SAFTEE (total) scores at 800 mg will be less than that at placebo."||4.8131|-9.8131|.240
92368252|NCT00066222|184640392|OTHER|||||||||||||||||This study was designed to detect an improvement in the 2-year overall survival rate from 47% to 60%. Using a one-group chi-square test with a one-sided significance level of 0.10, a sample of 67 patients was deemed sufficient to detect the difference between the null hypothesis (H0: P .47) and the alternative hypothesis (HA: P .60) with 80% power.|If the point estimate for two-year survival is less than or equal to 0.54815, the upper bound of the one-sided 90% confidence interval on 47%, then H0 would not be rejected and the conclusion would be that the two-year survival rate did not statistically improve from 47% under the new treatment. If the point estimate is greater than 0.54815, then H0 would be rejected and the conclusion is that the two-year survival rate did improve from 47% to 60% under the new treatment.|||
92368253|NCT00066222|184640395|OTHER||||||||||||||||||The following rule would reject the null hypothesis that the proportion of severe esophagitis was 30% with an overall significance level of 0.05: 27 or more cases of severe esophagitis among the total sample of evaluable patients.|||
92368254|NCT00066222|184640396|OTHER||||||||||||||||||The following rule would reject the null hypothesis that the proportion of treatment-related fatalities was less than or equal to 5% with an overall significance level of 0.05: 6 or more instances of treatment-related fatalities among the total sample of evaluable patients.|||
92405426|NCT03594110|184701105|SUPERIORITY|"Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.~Two-sided significance level of \<0.0145 required at interim analysis."|Hazard Ratio (HR)|0.84||||0.1363|TWO_SIDED|98.55|0.63|1.12|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to first hospitalization for heart failure or cardiovascular death. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening Urine albumin-to-creatinine ratio (UACR), region and treatment.||1.12|0.63|0.1363
92405427|NCT03594110|184701106|SUPERIORITY|Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin. Two-sided significance level of \<0.0097 required at interim analysis.|Hazard Ratio (HR)|0.86||||0.0022|TWO_SIDED|99.03|0.76|0.98|||Joint frailty model||Comparison vs. Placebo|Hazard ratio (HR) of the time to occurrences of all-cause hospitalizations (first and recurrent combined). HR based on an analysis of recurrent events accounting for terminal events using a joint frailty model with terms for age, log(local screening UACR), local screening Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), treatment, sex, screening diabetes status, region.||0.98|0.76|0.0022
92405428|NCT03594110|184701107|SUPERIORITY|"Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.~Two-sided significance level of \<0.0290 required at interim analysis."|Hazard Ratio (HR)|0.87||||0.2122|TWO_SIDED|97.1|0.68|1.11|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to death from any cause. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening Urine albumin-to-creatinine ratio (UACR), region and treatment.||1.11|0.68|0.2122
92167649|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|23.8||||0.0173|TWO_SIDED|90.0|4.5|41.5|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||41.5|4.5|0.0173
92167650|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|-2.7||||0.5663|TWO_SIDED|90.0|-19.9|14.2|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||14.2|-19.9|0.5663
92167651|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|14.6||||0.1243|TWO_SIDED|90.0|-3.8|32.6|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||32.6|-3.8|0.1243
92167652|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|18.9||||0.046|TWO_SIDED|90.0|-0.5|36.6|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||36.6|-0.5|0.0460
92167653|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|25.7||||0.013|TWO_SIDED|90.0|4.8|43.3|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||43.3|4.8|0.0130
92167654|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|13.9||||0.1194|TWO_SIDED|90.0|-4.2|31.4|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||31.4|-4.2|0.1194
92167655|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|26.4||||0.0097|TWO_SIDED|90.0|6.5|44.4|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||44.4|6.5|0.0097
92167656|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|-2.7||||0.5556|TWO_SIDED|90.0|-21.0|16.1|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||16.1|-21.0|0.5556
92368255|NCT00635349|184640398|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower confidence limit interval was less than -1.0 (1-sided , 97.5% confidence interval)|Mean Difference (Final Values)|1.81||||0.4258|ONE_SIDED|97.5|-6.31||||t-test, 1 sided||||||-6.31|0.4258
92368256|NCT00635349|184640399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.0628|ONE_SIDED|97.5|-1.41||||t-test, 1 sided||||||-1.41|0.0628
92368257|NCT00635349|184640400|SUPERIORITY_OR_OTHER|||||||0.0131||||||Day 29: p-value was calculated by fisher exact test|Fisher Exact|||||||0.0131
92368258|NCT00635349|184640400|SUPERIORITY_OR_OTHER|||||||0.9834||||||Day 57; p-value was calculated by Chi-squared test|Chi-squared|||||||0.9834
92368259|NCT00635349|184640400|SUPERIORITY_OR_OTHER|||||||0.1131||||||Day 85; p-value was calculated by Chi-squared test|Chi-squared|||||||0.1131
92368260|NCT04904744|184640406|SUPERIORITY||Odds Ratio (OR)|1.35||||0.165|TWO_SIDED|95.0|0.88|2.06|||Regression, Logistic||Low Tailored Message vs. No Message (reference group)|||2.06|0.88|0.165
92368261|NCT04904744|184640406|SUPERIORITY||Odds Ratio (OR)|1.33||||0.193|TWO_SIDED|95.0|0.87|2.03|||Regression, Logistic||Low tailored message plus COVID-19 vaccine message vs. No Message|||2.03|0.87|0.193
92368262|NCT04904744|184640406|SUPERIORITY||Odds Ratio (OR)|1.02||||0.93|TWO_SIDED|95.0|0.68|1.52|||Regression, Logistic||Low Tailored Message vs. Low tailored message plus COVID-19 vaccine message|||1.52|0.68|0.930
92167657|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|17.6||||0.0761|TWO_SIDED|90.0|-2.5|36.5|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||36.5|-2.5|0.0761
92167658|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|18.9||||0.0583|TWO_SIDED|90.0|-0.8|37.6|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||37.6|-0.8|0.0583
92368263|NCT04904744|184640407|SUPERIORITY||Odds Ratio (OR)|2.07||||0.008|TWO_SIDED|95.0|1.21|3.52|||Regression, Logistic||Low Tailored Message vs. No Message|||3.52|1.21|0.008
92368264|NCT04904744|184640407|SUPERIORITY||Odds Ratio (OR)|1.25||||0.457|TWO_SIDED|95.0|0.7|2.23|||Regression, Logistic||Low tailored message plus COVID-19 vaccine message vs. No Message|||2.23|0.70|0.457
92368265|NCT04904744|184640407|SUPERIORITY||Odds Ratio (OR)|1.66||||0.049|TWO_SIDED|95.0|1.0|2.74|||Regression, Logistic||Low Tailored Message vs. Low tailored message plus COVID-19 vaccine message|||2.74|1.00|0.049
92368266|NCT04904744|184640408|SUPERIORITY||Odds Ratio (OR)|2.04||||0.104|TWO_SIDED|95.0|0.86|4.82|||Regression, Logistic||Low Tailored Message vs. No Message|||4.82|0.86|0.104
92368267|NCT04904744|184640408|SUPERIORITY||Odds Ratio (OR)|1.26||||0.631|TWO_SIDED|95.0|0.49|3.22|||Regression, Logistic||Low tailored message plus COVID-19 vaccine message vs. No Message|||3.22|0.49|0.631
92368268|NCT04904744|184640408|SUPERIORITY||Odds Ratio (OR)|1.62||||0.238|TWO_SIDED|95.0|0.73|3.61|||Regression, Logistic||Low Tailored Message vs. Low tailored message plus COVID-19 vaccine message|||3.61|0.73|0.238
92368269|NCT00295646|184640532|SUPERIORITY|A two-sided significance level of 2.5% was used in this 2x2 factorial design of two primary endpoints according to the Bonferroni-Holm adjustment to control multiplicity.|Cox Proportional Hazard|1.1||||0.59|TWO_SIDED|95.0|0.78|1.53||Two-sided significance level of 2.5%, with the application of the Bonferroni-Holm adjustment for multiple comparisons|Log Rank||From the Cox Proportional hazard model with endocrine treatment fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter disease-free time for arimidex relative to tamoxifen.|To determine the effect of arimidex (AZ and AC) compared to tamoxifen (TZ and TC) in terms of disease-free survival. Disease-free survival (DFS) is defined as the time from randomization to the first occurrence of a local or regional recurrence, cancer in the contralateral breast, distant metastasis, second primary carcinoma, or death from any cause.||1.53|0.78|0.59
92368270|NCT00295646|184640533|SUPERIORITY|A two-sided significance level of 2.5% was used in this 2x2 factorial design of two primary endpoints according to the Bonferroni-Holm adjustment to control multiplicity.|Cox Proportional Hazard|0.64||||0.01|TWO_SIDED|95.0|0.46|0.91||Two-sided significance level of 2.5%, with the application of the Bonferroni-Holm adjustment for multiple comparisons|Log Rank||From the Cox Proportional hazard model with Zoledronic Acid treatment fitted as a covariate. A hazard ratio \< 1.0 indicates a lower average event rate and a longer disease-free time for Zoledronic Acid relative to no Zoledronic Acid.|To determine the effect of Zoledronic Acid (AZ and TZ) compared to no Zoledronic Acid (AC and TC) in terms of disease-free survival. Disease-free survival (DFS) is defined as the time from randomization to the first occurrence of a local or regional recurrence, cancer in the contralateral breast, distant metastasis, second primary carcinoma, or death from any cause.||0.91|0.46|0.01
92368271|NCT00295646|184640534|SUPERIORITY|No multiplicity adjustment was applied.|Cox Proportional Hazard|1.11||||0.53|TWO_SIDED|95.0|0.8|1.56|||Log Rank||From the Cox Proportional hazard model with endocrine treatment fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter recurrence-free time for arimidex relative to tamoxifen.|To determine the effect of arimidex (AZ and AC) compared to tamoxifen (TZ and TC) in terms of recurrence-free survival. Recurrence-free survival is defined as the time from randomization to the first occurrence of a local or regional recurrence, cancer in the contralateral breast, distant metastasis, second primary carcinoma, or death related to breast cancer.||1.56|0.80|0.53
92368272|NCT00295646|184640535|SUPERIORITY|No multiplicity adjustment was applied.|Cox Proportional Hazard|0.65||||0.01|TWO_SIDED|95.0|0.46|0.92|||Log Rank|||To determine the effect of Zoledronic Acid (AZ and TZ) compared to no Zoledronic Acid (AC and TC) in terms of recurrence-free survival. Recurrence-free survival is defined as the time from randomization to the first occurrence of a local or regional recurrence, cancer in the contralateral breast, distant metastasis, second primary carcinoma, or death related to breast cancer.|From the Cox Proportional hazard model with Zoledronic Acid treatment fitted as a covariate. A hazard ratio \< 1.0 indicates a lower average event rate and a longer recurrence-free time for Zoledronic Acid relative to no Zoledronic Acid.|0.92|0.46|0.01
92167659|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|14.9||||0.1245|TWO_SIDED|90.0|-5.0|33.7|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||33.7|-5.0|0.1245
92167660|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|19.4||||0.0382|TWO_SIDED|90.0|1.5|36.5|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||36.5|1.5|0.0382
92167661|NCT03903822|184224680|SUPERIORITY||Risk Difference (RD)|34.7||||0.0011|TWO_SIDED|90.0|13.2|51.4|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||51.4|13.2|0.0011
92167662|NCT00296036|184224701|SUPERIORITY_OR_OTHER|||||||0.768|||||||Fisher Exact|||||||0.768
92167663|NCT01796236|184224706|SUPERIORITY_OR_OTHER|||||||0.12|||||||Mantel Haenszel|||||||0.12
92226483|NCT00523991|184354774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||<|0.001||95.0|0.16|0.25||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and forced expiratory volume in 1 second at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.25|0.16|<0.001
92226484|NCT00523991|184354775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||<|0.001||95.0|0.18|0.28||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and forced expiratory volume in 1 second at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium vesus placebo||0.28|0.18|<0.001
92368273|NCT00295646|184640536|SUPERIORITY|No multiplicity adjustment was applied.|Cox Proportional Hazard|1.8||||0.07|TWO_SIDED|95.0|0.96|3.38|||Log Rank||From the Cox Proportional hazard model with endocrine treatment fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter survival time for arimidex relative to tamoxifen.|To determine the effect of anastrozole (AZ and AC) compared to tamoxifen (TZ and TC) in terms of overall survival. Overall survival is defined as the time from randomization to death from any cause.||3.38|0.96|0.07
92368274|NCT00295646|184640537|SUPERIORITY|No multiplicity adjustment was applied.|Cox Proportional Hazard|0.6||||0.1|TWO_SIDED|95.0|0.32|1.11|||Log Rank||From the Cox Proportional hazard model with Zoledronic Acid treatment fitted as a covariate. A hazard ratio \< 1.0 indicates a lower average event rate and a longer survival time for Zoledronic Acid relative to no Zoledronic Acid.|To determine the effect of Zoledronic Acid (AZ and TZ) compared to no Zoledronic Acid (AC and TC) in terms of overall survival. Overall survival is defined as the time from randomization to death from any cause.||1.11|0.32|0.10
92368275|NCT00995436|184640538|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.|Mean Difference (Final Values)|-0.58|||||TWO_SIDED|95.0|-1.53|0.36|||||Maxillary right molar|||0.36|-1.53|
92368276|NCT00995436|184640538|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.|Mean Difference (Final Values)|-0.96|||||TWO_SIDED|95.0|-1.89|-0.04|||||Maxillary left molar|||-0.04|-1.89|
92368277|NCT00995436|184640538|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.|Mean Difference (Final Values)|0.62|||||TWO_SIDED|95.0|-0.32|1.55|||||Maxillary right molar|||1.55|-0.32|
92368278|NCT00995436|184640538|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.|Mean Difference (Final Values)|-0.09|||||TWO_SIDED|95.0|-1.0|0.83|||||Maxillary left molar|||0.83|-1|
92368279|NCT00995436|184640538|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.||||||0.05||||||Maxillary right molar. F(2, 67) = 3.10. Overall effect of treatment.|ANCOVA|||||||0.05
92368280|NCT00995436|184640538|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.||||||0.08||||||Overall effect of treatment F(2,67) = 2.58.|ANCOVA|||Maxillary left molar.||||0.08
92368281|NCT00418093|184640540|SUPERIORITY_OR_OTHER||Proportion|0.684|||||TWO_SIDED|95.0|0.43|0.87||Exact 95% CI for the partial response rate (13/19 = 0.684): 43.4% \~ 87.4%|Estimation of PR based on Binomial Model|We did not perform a test. Point estimate of PR and its exact 95% CI based on Binomial Model is provided. Thus there is no p-value to report.|Point estimate of PR and its exact 95% CI based on Binomial Model|||0.87|0.43|
92368282|NCT00418093|184640540|SUPERIORITY_OR_OTHER||Single Proportion|0.684|||||TWO_SIDED|95.0|0.434|0.874||We did not perform hypothesis test. We made an estimation for a single proportion (partial response) with its two-sided 95% exact Binomial confidence interval.|Fisher Exact||Estimation of a single proportion (partial response rate) with exact 95% Binomial confidence interval|||0.874|0.434|
92368283|NCT03162796|184640560|SUPERIORITY||Difference in percentage|29.8|||<|0.001|TWO_SIDED|95.0|18.6|41.1|||Cochran-Mantel-Haenszel|||||41.1|18.6|< 0.001
92368284|NCT03162796|184640560|SUPERIORITY||Difference in percentage|37.1|||<|0.001|TWO_SIDED|95.0|26.1|48.2|||Cochran-Mantel-Haenszel|||||48.2|26.1|< 0.001
92368285|NCT03162796|184640561|SUPERIORITY||Least Square (LS) Mean Difference|-0.2483|||<|0.001|TWO_SIDED|95.0|-0.364|-0.1325|||ANCOVA|||||-0.1325|-0.3640|< 0.001
92368286|NCT03162796|184640561|SUPERIORITY||LS Mean difference|-0.3226|||<|0.001|TWO_SIDED|95.0|-0.4385|-0.2066|||ANCOVA|||||-0.2066|-0.4385|< 0.001
92368287|NCT03162796|184640562|SUPERIORITY||Difference in percentage|21.4|||<|0.001|TWO_SIDED|95.0|12.1|30.7||Nominal|Cochran-Mantel-Haenszel|||||30.7|12.1|< 0.001
92368288|NCT03162796|184640562|SUPERIORITY||Difference in percentage|27.2|||<|0.001|TWO_SIDED|95.0|17.6|36.8||Nominal|Cochran-Mantel-Haenszel|||||36.8|17.6|< 0.001
92368289|NCT03162796|184640563|SUPERIORITY||Difference in percentage|42.0|||<|0.001|TWO_SIDED|95.0|28.9|55.1|||Cochran-Mantel-Haenszel|||||55.1|28.9|< 0.001
92368290|NCT03162796|184640563|SUPERIORITY||Difference in percentage|60.0|||<|0.001|TWO_SIDED|95.0|48.3|71.8|||Cochran-Mantel-Haenszel|||||71.8|48.3|< 0.001
92368291|NCT03162796|184640564|SUPERIORITY||Difference in percentage|26.7|||<|0.001|TWO_SIDED|95.0|15.3|38.1||Nominal|Cochran-Mantel-Haenszel|||||38.1|15.3|< 0.001
92368292|NCT03162796|184640564|SUPERIORITY||Difference in percentage|34.8|||<|0.001|TWO_SIDED|95.0|23.5|46.0||Nominal|Cochran-Mantel-Haenszel|||||46.0|23.5|< 0.001
92368293|NCT03162796|184640565|SUPERIORITY||LS Mean difference|-0.73|||<|0.001||95.0|-0.98|-0.48||Nominal|ANCOVA|||||-0.48|-0.98|< 0.001
92368294|NCT03162796|184640565|SUPERIORITY||LS Mean difference|-0.91|||<|0.001||95.0|-1.16|-0.66||Nominal|ANCOVA|||||-0.66|-1.16|< 0.001
92368295|NCT03162796|184640566|SUPERIORITY||Difference in percentage|6.4||||0.069|TWO_SIDED|95.0|-0.3|13.1|||Cochran-Mantel-Haenszel|||||13.1|-0.3|0.069
92368296|NCT03162796|184640566|SUPERIORITY||Difference in percentage|14.8|||<|0.001|TWO_SIDED|95.0|6.9|22.7|||Cochran-Mantel-Haenszel|||||22.7|6.9|< 0.001
92368297|NCT03162796|184640567|SUPERIORITY||Difference in percentage|10.2||||0.036|TWO_SIDED|95.0|1.0|19.3||Nominal|Cochran-Mantel-Haenszel|||||19.3|1.0|0.036
92368298|NCT03162796|184640567|SUPERIORITY||Difference in percentage|13.9||||0.006|TWO_SIDED|95.0|4.4|23.4||Nominal|Cochran-Mantel-Haenszel|||||23.4|4.4|0.006
92368299|NCT03162796|184640568|SUPERIORITY||LS Mean difference|4.14|||<|0.001|TWO_SIDED|95.0|2.42|5.85|||ANCOVA|||||5.85|2.42|< 0.001
92368300|NCT03162796|184640568|SUPERIORITY||LS Mean difference|4.91|||<|0.001||95.0|3.19|6.63|||ANCOVA|||||6.63|3.19|< 0.001
92368301|NCT03162796|184640569|SUPERIORITY||Difference in percentage|13.0||||0.094|TWO_SIDED|95.0|-1.6|27.5||Nominal|Cochran-Mantel-Haenszel|||||27.5|-1.6|0.094
92368302|NCT03162796|184640569|SUPERIORITY||Difference in percentage|19.8||||0.013|TWO_SIDED|95.0|4.9|34.6||Nominal|Cochran-Mantel-Haenszel|||||34.6|4.9|0.013
92368303|NCT03162796|184640570|SUPERIORITY||LS Mean difference|-0.33||||0.185|TWO_SIDED|95.0|-0.83|0.16||Nominal|ANCOVA|||||0.16|-0.83|0.185
92405429|NCT03594110|184701108|SUPERIORITY|Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.62|0.81|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence of kidney disease progression. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||0.81|0.62|<0.0001
92368304|NCT03162796|184640570|SUPERIORITY||LS Mean difference|-0.74||||0.004|TWO_SIDED|95.0|-1.24|-0.24||Nominal|ANCOVA|||||-0.24|-1.24|0.004
92368305|NCT03162796|184640571|SUPERIORITY||LS Mean difference|0.83||||0.398|TWO_SIDED|95.0|-1.1|2.77||Nominal|ANCOVA|||||2.77|-1.10|0.398
92368306|NCT03162796|184640571|SUPERIORITY||LS Mean difference|1.23||||0.214|TWO_SIDED|95.0|-0.71|3.16||Nominal|ANCOVA|||||3.16|-0.71|0.214
92368307|NCT03162796|184640572|SUPERIORITY||Difference in percentage|16.6||||0.088|TWO_SIDED|95.0|-1.5|34.8||Nominal|Cochran-Mantel-Haenszel|||||34.8|-1.5|0.088
92368308|NCT03162796|184640572|SUPERIORITY||Difference in percentage|13.4||||0.212|TWO_SIDED|95.0|-6.9|33.7||Nominal|Cochran-Mantel-Haenszel|||||33.7|-6.9|0.212
92368309|NCT03162796|184640573|SUPERIORITY||LS Mean difference|-1.82||||0.121|TWO_SIDED|95.0|-4.12|0.49||Nominal|ANCOVA|||||0.49|-4.12|0.121
92368310|NCT03162796|184640573|SUPERIORITY||LS Mean difference|-1.53||||0.225|TWO_SIDED|95.0|-4.0|0.95||Nominal|ANCOVA|||||0.95|-4.00|0.225
92368311|NCT00289289|184640671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|4.8||0.629|ONE_SIDED|95.0||0.5||P-value is from a paired t-test since each subject had the intervention pacing features turned ON and OFF in this crossover study|t-test, 1 sided|One-sided paired t-test with 221 degrees of freedom|A mean difference greater than zero indicates an average increase in atrial fibrillation/atrial tachycardia symptomatic episodes while the intervention pacing features were programmed ON versus OFF.|Null Hypothesis: rate of symptomatic atrial tachycardia/atrial fibrillation episodes during periods when intervention pacing features ON is greater to or equal to the rate of symptomatic atrial tachycardia/atrial fibrillation episodes during periods where intervention pacing features were programmed OFF Alternative Hypothesis: rate of symptomatic AT/AF during periods of ON programming is less than the rate of symptomatic AT/AF during OFF programming||0.5||0.629
92368312|NCT00289289|184640672|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.165|||||||Wilcoxon (Mann-Whitney)|P-value is from Koch's adaptation to the Wilcoxon Rank-Sum test comparing the within subject ON minus OFF differences to 0|A negative change means an improvement in AF symptom frequency with intervention pacing therapy programmed ON. Total possible improvement while intervention features are programmed ON is -64. Total possible worsening during ON programming is 64.|"The null hypothesis is that the symptom frequency score does not differ between while intervention pacing features were programmed ON versus OFF.~This secondary objective was not powered."||||0.165
92368313|NCT00289289|184640673|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.603|TWO_SIDED|95.0|0.39|1.73||P-value is based on a repeated measures Cox proportional hazards model to the rate of AF cardioversion attempts between periods of ON and OFF programming|Regression, Cox||Hazard Ratio compares rate of first attempted cardioversion for AF while the intervention pacing features were programmed ON versus OFF.|"Null Hypothesis: AF Cardioversion attempt rate is the same during periods of ON and OFF programming~Alternative Hypothesis: AF Cardioversion attempt rate is different during periods of ON and OFF programming"||1.73|0.39|0.603
92368314|NCT00289289|184640674|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.394||95.0||||Within each randomized subject, the ON minus OFF difference in AT/AF burden was computed. The Wilcoxon Signed-Rank test was used to determine if the ON minus OFF difference in AT/AF burden was different from zero.|Wilcoxon (Mann-Whitney)||A negative median difference represents an improvement (lessening) of AT/AF burden during periods of ON versus OFF programming. A positive median difference represents an increase in AT/AF burden during ON compared to OFF programming.|Null Hypothesis: There is no difference in AT/AF burden during periods on ON and OFF programming Alternative Hypothesis: AT/AF burden is lower during periods of ON programming compared to periods of OFF programming||||0.394
92368315|NCT06875284|184640712|SUPERIORITY||Mean Difference (Net)|-9.01|STANDARD_ERROR_OF_MEAN|1.05|<|0.0001|TWO_SIDED|95.0|-11.06|-6.96|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-6.96|-11.06|<0.0001
92368316|NCT06875284|184640712|SUPERIORITY||Mean Difference (Net)|-2.16|STANDARD_ERROR_OF_MEAN|1.05||0.041|TWO_SIDED|95.0|-4.22|-0.09|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-0.09|-4.22|0.041
92368317|NCT06875284|184640712|SUPERIORITY||Mean Difference (Net)|-8.51|STANDARD_ERROR_OF_MEAN|1.15|<|0.0001|TWO_SIDED|95.0|-10.76|-6.25|||Mixed Models Analysis||Covariates included cohort and history of peer victimization.||The SCC plus eCHECKUP TO GO arm was the reference group.|-6.25|-10.76|<0.0001
92368318|NCT06875284|184640713|SUPERIORITY||Mean Difference (Net)|-1.18|STANDARD_ERROR_OF_MEAN|0.56||0.035|TWO_SIDED|95.0|-2.27|-0.08|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-0.08|-2.27|0.035
92368319|NCT06875284|184640713|SUPERIORITY||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|0.56||0.54|TWO_SIDED|95.0|-1.44|0.76|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||0.76|-1.44|0.54
92226485|NCT00523991|184354776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||<|0.001||95.0|0.2|0.29||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and forced expiratory volume in 1 second at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.29|0.20|<0.001
92226486|NCT00523991|184354777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||<|0.001||95.0|0.2|0.3||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and peak forced expiratory volume in 1 second at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.30|0.20|<0.001
92226487|NCT00523991|184354781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31|||<|0.001||95.0|0.24|0.38||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms include treatment, site, and forced vital capacity area under the curve at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.38|0.24|<0.001
92226488|NCT00523991|184354785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||<|0.001||95.0|0.14|0.28||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and trough forced vital capacity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.28|0.14|<0.001
92226489|NCT00523991|184354789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||<|0.001||95.0|0.24|0.42||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and peak forced vital capacity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.42|0.24|<0.001
92226490|NCT00523991|184354805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||<|0.001||95.0|0.14|0.28||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms include treatment, site, and forced vital capacity at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.28|0.14|<0.001
92368320|NCT06875284|184640713|SUPERIORITY||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|0.61||0.023|TWO_SIDED|95.0|-2.6|-0.19|||Mixed Models Analysis|||||-0.19|-2.60|0.023
92405430|NCT03594110|184701109|SUPERIORITY|Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.83||||0.2932|TWO_SIDED|95.0|0.59|1.17|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to cardiovascular death. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||1.17|0.59|0.2932
92226491|NCT00523991|184354806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|||<|0.001||95.0|0.21|0.36||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and forced vital capacity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.36|0.21|<0.001
92368321|NCT06875284|184640714|SUPERIORITY||Mean Difference (Net)|-2.66|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-3.98|-1.34|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-1.34|-3.98|<0.0001
92368322|NCT06875284|184640714|SUPERIORITY||Mean Difference (Net)|-1.74|STANDARD_ERROR_OF_MEAN|0.69||0.012|TWO_SIDED|95.0|-3.09|-0.39|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-0.39|-3.09|0.012
92368323|NCT06875284|184640714|SUPERIORITY||Median Difference (Net)|-2.45|STANDARD_ERROR_OF_MEAN|0.73||0.0008|TWO_SIDED|95.0|-3.88|-1.03|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-1.03|-3.88|0.0008
92226492|NCT00523991|184354807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||<|0.001||95.0|0.23|0.38||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms include treatment, site, and forced vital capacity at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.38|0.23|<0.001
92226493|NCT00523991|184354808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||<|0.001||95.0|0.25|0.4||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms include treatment, site, and forced vital capacity at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.40|0.25|<0.001
92226494|NCT00523991|184354809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|||<|0.001||95.0|0.26|0.45||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and forced vital capacity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.45|0.26|<0.001
92226495|NCT00523991|184354816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.927||95.0|-0.38|0.41||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and albuterol use at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.41|-0.38|0.927
92226496|NCT00523991|184354817|SUPERIORITY_OR_OTHER|||||||0.174||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.174
92226497|NCT00523991|184354818|SUPERIORITY_OR_OTHER|||||||0.186||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.186
92368324|NCT06875284|184640715|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|0.26||0.058|TWO_SIDED|95.0|-0.02|1.02|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||1.02|-0.02|0.058
92368325|NCT06875284|184640715|SUPERIORITY||Mean Difference (Net)|-0.54|STANDARD_ERROR_OF_MEAN|0.27||0.046|TWO_SIDED|95.0|-1.07|-0.01|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-0.01|-1.07|0.046
92167664|NCT01796236|184224707|SUPERIORITY_OR_OTHER|||||||0.45|||||||Mantel Haenszel|||"Combined Endpoint is calculated as the sum of the following four events from 3 weeks to 3 years:~Holgers Index \>=2. Any Overgrowth \>=2. Pain (scar/neuropathic) \>=3. Any numbness \>=2.~Each event is counted only once"||||0.45
92368326|NCT06875284|184640715|SUPERIORITY||Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.29||0.097|TWO_SIDED|95.0|-1.06|0.09|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||0.09|-1.06|0.097
92368327|NCT06875284|184640716|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.64|TWO_SIDED|95.0|-0.16|0.26|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||0.26|-0.16|0.64
92368328|NCT06875284|184640716|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.11||0.25|TWO_SIDED|95.0|-0.09|0.33|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||0.33|-0.09|0.25
92368329|NCT06875284|184640716|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.11||0.033|TWO_SIDED|95.0|-0.47|-0.02|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-0.02|-0.47|0.033
92368330|NCT06631274|184640719|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|-0.056||||0.646|TWO_SIDED|95.0|-0.296|0.184|||ANOVA|one-way repeated measures ANOVA was conducted for personal adjustment|Hedges' g=-0.14. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|The outcome measure is personal adjustment||0.184|-0.296|0.646
92368331|NCT06631274|184640719|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.188||||0.196|TWO_SIDED|95.0|-0.096|0.473|||ANOVA|one-way repeated measures ANOVA was conducted for internalizing problems|Hedges' g=0.40. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|The outcome measure is internalizing problems||0.473|-0.096|0.196
92368332|NCT06631274|184640720|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.326|||<|0.01|TWO_SIDED|95.0|0.112|0.539|||ANOVA|one-way repeated ANOVA was conducted|Hedges' g=0.92. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||0.539|0.112|<0.01
92368333|NCT06631274|184640721|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.681||||0.11|TWO_SIDED|95.0|-0.187|1.549|||ANOVA|one-way repeated measures ANOVA was conducted.|Hedges' g=0.51. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||1.549|-0.187|0.11
92368334|NCT06631274|184640722|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.078||||0.599|TWO_SIDED|95.0|-0.212|0.367|||ANOVA|one-way repeated measures ANOVA was conducted for avoidance coping|Hedges' g=0.16. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|The outcome measure is avoidance coping||0.367|-0.212|0.599
92167665|NCT01796236|184224708|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mann-Whitney U test|||||||<0.0001
92167666|NCT01796236|184224709|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Fisher Exact|||Day 10||||0.020
92167667|NCT01796236|184224709|SUPERIORITY_OR_OTHER|||||||0.4|||||||Fisher Exact|||Week 3||||0.4
92167668|NCT01796236|184224709|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Week 6||||1.00
92167669|NCT01796236|184224709|SUPERIORITY_OR_OTHER|||||||0.97|||||||Fisher Exact|||Week 12||||0.97
92167670|NCT01796236|184224709|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Week 24||||1.00
92167671|NCT01796236|184224710|SUPERIORITY_OR_OTHER|||||||0.4|||||||Mantel Haenszel|||Maximum of Holgers at 12 Months||||0.40
92167672|NCT01796236|184224710|SUPERIORITY_OR_OTHER|||||||0.14|||||||Mantel Haenszel|||Maximum of Holgers at 36 Months||||0.14
92167673|NCT01796236|184224711|SUPERIORITY_OR_OTHER|||||||0.38|||||||Mantel Haenszel|||Holgers Index Day 10||||0.38
92167674|NCT01796236|184224711|SUPERIORITY_OR_OTHER|||||||0.17|||||||Mantel Haenszel|||Holgers Index Week 3||||0.17
92167675|NCT01796236|184224711|SUPERIORITY_OR_OTHER|||||||0.37|||||||Mantel Haenszel|||Holgers Index Week 6||||0.37
92167676|NCT01796236|184224711|SUPERIORITY_OR_OTHER|||||||0.73|||||||Mantel Haenszel|||Holgers Index Week 12||||0.73
92167677|NCT01796236|184224711|SUPERIORITY_OR_OTHER|||||||0.47|||||||Mantel Haenszel|||Holgers Index Week 24||||0.47
92167678|NCT01796236|184224711|SUPERIORITY_OR_OTHER|||||||0.73|||||||Mantel Haenszel|||Holgers Index Month 12||||0.73
92167679|NCT01796236|184224711|SUPERIORITY_OR_OTHER|||||||0.37|||||||Mantel Haenszel|||Holgers Index Month 24||||0.37
92368335|NCT06631274|184640722|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.316||||0.044|TWO_SIDED|95.0|0.152|0.617|||ANOVA|one-way repeated measures ANOVA was conducted for approach coping|Hedges' g=0.63. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|The outcome measure is approach coping||0.617|0.152|0.044
92368336|NCT06631274|184640723|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|1.024|||<|0.01|TWO_SIDED|95.0|0.284|1.764|||ANOVA|one-way repeated measures ANOVA was conducted|Hedges' g=0.85. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||1.764|0.284|<.01
92368337|NCT06631274|184640724|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|-0.589||||0.0498|TWO_SIDED|95.0|-1.178|-0.0005|||ANOVA|one-way repeated measures ANOVA was conducted|Hedges' g=-0.61. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||-0.0005|-1.178|0.0498
92368338|NCT06631274|184640725|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.261||||0.182|TWO_SIDED|95.0|-0.127|0.65|||ANOVA|one-way repeated measures ANOVA was conducted|Hedges' g=0.41. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||0.650|-0.127|0.182
92368339|NCT06631274|184640726|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|-0.03||||0.927|TWO_SIDED|95.0|-0.612|0.551|||ANOVA|one-way repeated measures ANOVA was conducted|Hedges' g=-0.04. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||0.551|-0.612|0.927
92368340|NCT01701362|184640759|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.1823||95.0|-0.54|0.1|||Mixed Model Repeated Measures Analysis|Mixed Model Repeated Measures = MMRM|MMRM analysis includes fixed categorical effects of treatment, country, trauma type, visit week, treatment-by-visit interaction, and fixed continuous effect of baseline value. Missing mean pain scores imputed by multiple imputation method|||0.10|-0.54|0.1823
92368341|NCT01701362|184640760|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012||||||The p-value is derived from CMH test, stratified for pooled center and trauma type and excludes missing values.|Cochran-Mantel-Haenszel|||||||0.0012
92368342|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.14||0.0119||95.0|-0.62|-0.08|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 1||-0.08|-0.62|0.0119
92368343|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.14||0.0135||95.0|-0.62|-0.07|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 2||-0.07|-0.62|0.0135
92167680|NCT01796236|184224711|SUPERIORITY_OR_OTHER|||||||0.75|||||||Mantel Haenszel|||Holgers Index Month 36||||0.75
92368344|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.14||0.0028||95.0|-0.69|-0.14|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 3||-0.14|-0.69|0.0028
92368345|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.14||0.0016||95.0|-0.72|-0.17|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 4||-0.17|-0.72|0.0016
92167681|NCT01796236|184224712|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mantel Haenszel|||maximum numbness at 12 months||||<0.0001
92167682|NCT01796236|184224712|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mantel Haenszel|||maximum numbness at 36 months||||<0.0001
92167683|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Day 10, Neuropathic pain||||0.74
92167684|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||Day 10, Scar pain||||0.36
92167685|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Week 3, Neuropathic pain||||0.030
92167686|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||Week 3, Scar pain||||0.92
92167687|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Week 6, Neuropathic pain||||0.15
92167688|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Week 6, Scar pain||||0.38
92167689|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||Week 12, Neuropathic pain||||0.015
92368346|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.0007||95.0|-0.75|-0.2|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 5||-0.20|-0.75|0.0007
92368347|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.0006||95.0|-0.76|-0.21|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 6||-0.21|-0.76|0.0006
92368348|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.0008||95.0|-0.75|-0.2|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 7||-0.20|-0.75|0.0008
92368349|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.14||0.0003||95.0|-0.79|-0.24|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 8||-0.24|-0.79|0.0003
92368350|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.14||0.0001||95.0|-0.82|-0.26|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 9||-0.26|-0.82|0.0001
92368351|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.14||0.0005||95.0|-0.77|-0.22|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 10||-0.22|-0.77|0.0005
92368352|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.0007||95.0|-0.76|-0.2|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 11||-0.20|-0.76|0.0007
92368353|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.14||0.0001||95.0|-0.82|-0.27|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 12||-0.27|-0.82|0.0001
92368354|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.84|-0.28|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 13||-0.28|-0.84|<0.0001
92368355|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14||0.0005||95.0|-0.78|-0.22|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 14||-0.22|-0.78|0.0005
92368356|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.15||0.0031||95.0|-0.71|-0.14|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 15||-0.14|-0.71|0.0031
92368357|NCT01701362|184640761|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.12||0.0001||95.0|-0.71|-0.23|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Overall||-0.23|-0.71|0.0001
92368358|NCT01701362|184640762|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.16||0.005||95.0|-0.77|-0.14|||ANCOVA|This secondary endpoint has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||||-0.14|-0.77|0.0050
92368359|NCT01701362|184640763|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.16||0.0168||95.0|-0.7|-0.07|||ANCOVA|This secondary endpoint has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||||-0.07|-0.70|0.0168
92368360|NCT01701362|184640764|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.037||0.6841||95.0|-0.09|0.06|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for mobility||0.06|-0.09|0.6841
92368361|NCT01701362|184640764|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.029||0.6564||95.0|-0.07|0.04|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for self-care||0.04|-0.07|0.6564
92368362|NCT01701362|184640764|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.043||0.859||95.0|-0.08|0.09|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for usual activities||0.09|-0.08|0.8590
92167690|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Week 12, Scar pain||||0.72
92167691|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Week 24, Neuropathic pain||||0.44
92167692|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||Week 24, Scar pain||||0.43
92167693|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Month 12, Neuropathic pain||||0.21
92167694|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||Month 12, Scar pain||||0.97
92167695|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Month 36, Neuropathic pain||||0.19
92167696|NCT01796236|184224713|SUPERIORITY_OR_OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||Month 36, Scar pain||||0.77
92167697|NCT01796236|184224714|SUPERIORITY_OR_OTHER|||||||0.076|||||||Mantel Haenszel|||Neuropathic Categorical Max Pain||||0.076
92167698|NCT01796236|184224714|SUPERIORITY_OR_OTHER|||||||0.49|||||||Mantel Haenszel|||Scar Categorical Max Pain||||0.49
92368363|NCT01701362|184640764|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.043||0.1628||95.0|-0.14|0.02|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for pain/discomfort||0.02|-0.14|0.1628
92368364|NCT01701362|184640764|SUPERIORITY_OR_OTHER_LEGACY||leaset squares mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.037||0.4654||95.0|-0.05|0.1|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for anxiety/depression||0.10|-0.05|0.4654
92368365|NCT01701362|184640764|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.017||0.5||95.0|-0.02|0.04|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for Dolan 1997 Index score||0.04|-0.02|0.5000
92368366|NCT01701362|184640764|SUPERIORITY_OR_OTHER_LEGACY||leaset squares mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.026||0.5493||95.0|-0.07|0.04|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for Dolan 2001 Index Score||0.04|-0.07|0.5493
92368367|NCT01701362|184640766|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|3.5|STANDARD_ERROR_OF_MEAN|1.8||0.0545||95.0|-0.07|7.0|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Sleep Disturbance Score||7.00|-0.07|0.0545
92368368|NCT01701362|184640766|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-2.0|STANDARD_ERROR_OF_MEAN|2.29||0.3913||95.0|-6.47|2.54|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Sleep Adequancy Score||2.54|-6.47|0.3913
92368369|NCT01701362|184640766|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-1.1|STANDARD_ERROR_OF_MEAN|2.04||0.6059||95.0|-5.06|2.96|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Snoring Score||2.96|-5.06|0.6059
92368370|NCT01701362|184640766|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|0.6|STANDARD_ERROR_OF_MEAN|1.7||0.7317||95.0|-2.76|3.93|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Awaken Short of Breath Score||3.93|-2.76|0.7317
92368371|NCT01701362|184640766|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.2663||95.0|-0.45|0.12|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Quantity of Sleep Score (hours)||0.12|-0.45|0.2663
92368372|NCT01701362|184640766|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-2.1|STANDARD_ERROR_OF_MEAN|1.5||0.1562||95.0|-5.08|0.82|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Somnolence Score||0.82|-5.08|0.1562
92368373|NCT01701362|184640766|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|1.7|STANDARD_ERROR_OF_MEAN|1.45||0.249||95.0|-1.18|4.53|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Sleep Problem Index (9) Score||4.53|-1.18|0.2490
92368374|NCT01701362|184640766|SUPERIORITY_OR_OTHER_LEGACY||leaet squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0609||95.0|-0.15|0.0|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Optimal Sleep Score||0.00|-0.15|0.0609
92368375|NCT01701362|184640767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7165||||||p-values based on CMH test stratified by pooled center and trauma type, patients with unknown status at baseline or endpoint will not be included in the calculation of p-values.|Cochran-Mantel-Haenszel|||||||0.7165
92368376|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.2||||0.0028||95.0|1.5|6.86|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 1||6.86|1.50|0.0028
92368377|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.66||||0.036||95.0|1.03|2.68|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 2||2.68|1.03|0.0360
92405431|NCT03594110|184701110|SUPERIORITY|Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.72||||0.0017|TWO_SIDED|95.0|0.59|0.89|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence cardiovascular death or end stage kidney disease (ESKD). HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||0.89|0.59|0.0017
92405432|NCT03594110|184701111|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.72|0.87|||||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence of kidney disease progression or CV death. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening Urine albumin-to-creatinine ratio (UACR), region and treatment.||0.87|0.72|
92167699|NCT01796236|184224715|SUPERIORITY_OR_OTHER|||||||0.076|||||||Mantel Haenszel|||Neuropathic Categorical Max Pain 36 months||||0.076
92167700|NCT01796236|184224715|SUPERIORITY_OR_OTHER|||||||0.71|||||||Mantel Haenszel|||Scar Categorical Max Pain 36 months||||0.71
92167701|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.52|||||||Cochran-Mantel-Haenszel|||Day 10: Neuropathic pain||||0.52
92167702|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.44|||||||Cochran-Mantel-Haenszel|||Day 10: Scar pain||||0.44
92405433|NCT03594110|184701112|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.72|0.87|||||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence of kidney disease progression. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||0.87|0.72|
92405434|NCT03594110|184701113|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.72|0.9|||||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence of death from any cause or ESKD. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||0.90|0.72|
92167703|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.14|||||||Cochran-Mantel-Haenszel|||Week 3: Neuropathic pain||||0.14
92167704|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.59|||||||Cochran-Mantel-Haenszel|||Week 3: Scar pain||||0.59
92368378|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.62||||0.0235||95.0|1.07|2.45|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 3||2.45|1.07|0.0235
92368379|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.48||||0.0619||95.0|0.98|2.24|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 4||2.24|0.98|0.0619
92368380|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.46||||0.0677||95.0|0.97|2.2|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 5||2.20|0.97|0.0677
92368381|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45||||0.0707||95.0|0.97|2.16|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 6||2.16|0.97|0.0707
92368382|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.1313||95.0|0.91|2.06|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 7||2.06|0.91|0.1313
92368383|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||0.3072||95.0|0.82|1.86|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 8||1.86|0.82|0.3072
92368384|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.19||||0.3947||95.0|0.79|1.8|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 9||1.80|0.79|0.3947
92368385|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.36||||0.1462||95.0|0.9|2.05|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 10||2.05|0.90|0.1462
92368386|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.6854||95.0|0.72|1.64|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 11||1.64|0.72|0.6854
92368387|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15||||0.5025||95.0|0.76|1.74|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 12||1.74|0.76|0.5025
92368388|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.4908||95.0|0.76|1.76|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 13||1.76|0.76|0.4908
92368389|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.19||||0.4245||95.0|0.78|1.8|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 14||1.80|0.78|0.4245
92368390|NCT01701362|184640768|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.96||||0.8464||95.0|0.61|1.49|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 15||1.49|0.61|0.8464
92368391|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.11||||0.1633||95.0|0.74|6.0|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 1||6.00|0.74|0.1633
92167705|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.17|||||||Cochran-Mantel-Haenszel|||Week 6: Neuropathic pain||||0.17
92167706|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.44|||||||Cochran-Mantel-Haenszel|||Week 6: Scar pain||||0.44
92167707|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.0087|||||||Cochran-Mantel-Haenszel|||Week 12: Neuropathic pain||||0.0087
92167708|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.84|||||||Cochran-Mantel-Haenszel|||Week 12: Scar pain||||0.84
92167709|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.43|||||||Cochran-Mantel-Haenszel|||Week 24: Neuropathic pain||||0.43
92167710|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.33|||||||Cochran-Mantel-Haenszel|||Week 24: Scar pain||||0.33
92368392|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.92||||0.0652||95.0|0.96|3.85|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 2||3.85|0.96|0.0652
92368393|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.2||||0.0039||95.0|1.29|3.77|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 3||3.77|1.29|0.0039
92167711|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.21|||||||Cochran-Mantel-Haenszel|||Month 12 Neuropathic pain||||0.21
92368394|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.71||||0.0382||95.0|1.03|2.83|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 4||2.83|1.03|0.0382
92368395|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.86||||0.0137||95.0|1.14|3.05|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 5||3.05|1.14|0.0137
92368396|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.0693||95.0|0.97|2.49|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 6||2.49|0.97|0.0693
92368397|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.68||||0.0349||95.0|1.04|2.73|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 7||2.73|1.04|0.0349
92368398|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.44||||0.1227||95.0|0.91|2.29|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 8||2.29|0.91|0.1227
92368399|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.65||||0.0364||95.0|1.03|2.63|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 9||2.63|1.03|0.0364
92368400|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.0667||95.0|0.97|2.49|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 10||2.49|0.97|0.0667
92368401|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.77||||0.0176||95.0|1.1|2.84|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 11||2.84|1.10|0.0176
92368402|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.03||||0.003||95.0|1.27|3.23|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 12||3.23|1.27|0.0030
92368403|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.71||||0.0256||95.0|1.07|2.74|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 13||2.74|1.07|0.0256
92368404|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.66||||0.0314||95.0|1.05|2.64|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 14||2.64|1.05|0.0314
92368405|NCT01701362|184640769|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.38||||0.1889||95.0|0.85|2.21|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 15||2.21|0.85|0.1889
92167712|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.82|||||||Cochran-Mantel-Haenszel|||Month 12 Scar pain||||0.82
92167713|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.19|||||||Cochran-Mantel-Haenszel|||Month 36 Neuropathic pain||||0.19
92167714|NCT01796236|184224716|SUPERIORITY_OR_OTHER|||||||0.77|||||||Cochran-Mantel-Haenszel|||Month 36 Scar pain||||0.77
92167715|NCT01796236|184224717|SUPERIORITY_OR_OTHER|||||||0.12|||||||Mantel Haenszel|||Day 10 Soft tissue thickening/overgrowth||||0.12
92167716|NCT01796236|184224717|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mantel Haenszel|||Week 3 Soft tissue thickening/overgrowth||||0.016
92167717|NCT01796236|184224717|SUPERIORITY_OR_OTHER|||||||0.84|||||||Mantel Haenszel|||Week 6 Soft tissue thickening/overgrowth||||0.84
92167718|NCT01796236|184224717|SUPERIORITY_OR_OTHER|||||||0.53|||||||Mantel Haenszel|||Week 12 Soft tissue thickening/overgrowth||||0.53
92167719|NCT01796236|184224717|SUPERIORITY_OR_OTHER|||||||0.18|||||||Mantel Haenszel|||Week 24 Soft tissue thickening/overgrowth||||0.18
92167720|NCT01796236|184224717|SUPERIORITY_OR_OTHER|||||||0.63|||||||Mantel Haenszel|||Month 12 Soft tissue thickening/overgrowth||||0.63
92167721|NCT01796236|184224717|SUPERIORITY_OR_OTHER|||||||0.81|||||||Mantel Haenszel|||Month 24 Soft tissue thickening/overgrowth||||0.81
92167722|NCT01796236|184224717|SUPERIORITY_OR_OTHER|||||||1|||||||Mantel Haenszel|||Month 36 Soft tissue thickening/overgrowth||||1.00
92167723|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Day 10||||0.0009
92167724|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Week 3||||0.0080
92368406|NCT00443872|184640777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|STANDARD_DEVIATION|1.0|<|0.01|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Comparison of mean group scores at baseline and 12 weeks||||<0.01
92368407|NCT00443872|184640778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||<|0.01|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
92368408|NCT00443872|184640779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided||Comparison of baseline vs. 3 month circumference of the Left and Right lower leg/ankle (change identical for both legs).|Change in pedal edema as measured by change in lower leg/ankle circumference in the left and right legs||||<0.01
92368409|NCT00443872|184640780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
92368410|NCT00443872|184640781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This analysis is for the Activities of Daily Living (ADL) section of the scale||||<0.01
92368411|NCT00443872|184640781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|||<|0.05|TWO_SIDED|||||This analysis is for the motor section of the UPDRS|Wilcoxon (Mann-Whitney)|||||||<0.05
92368412|NCT00443872|184640782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92368413|NCT00443872|184640783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92167725|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Week 6||||0.46
92368414|NCT00443872|184640784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92368415|NCT00443872|184640785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92368416|NCT00700622|184640788|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 92 subjects in each group was required to complete the trial. Approximately 230 subjects were to be randomized to achieve 184 completers (assuming a 20% dropout rate). This would have provided 80% power for a noninferiority design to test the difference of a 4-month change in HbA1c levels between treatment groups, assuming the upper noninferiority margins Δ of 0.5% with a standard deviation of 1.2 and a 1-sided alpha of 0.025.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.119|||TWO_SIDED|95.0|-0.31|0.17|||ANCOVA|||||0.17|-0.31|
92368417|NCT00282087|184640789|SUPERIORITY_OR_OTHER||Two year PFS|78.0||||0.15|TWO_SIDED|95.0|67.0|91.0|||Bayesian Posterior Probability|||The primary endpoint is progression-free survival time, with progression defined as a patient having evidence of recurrent LMS on follow-up evaluation and CT scan. Futility monitoring will be based on the accumulating right-censored PFS time data. The monitoring rules will be based on a Bayesian model.||91|67|0.15
92167726|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Week 12||||0.45
92167727|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Week 24||||0.18
92167728|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Month 12||||0.017
92167729|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Month 24||||0.15
92167730|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Month 36||||0.32
92167731|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.74|||||||Sign test|||Change in Visible Test Abutment - Week 3 change from day 10||||0.74
92167732|NCT01796236|184224718|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Visible Test Abutment - Week 6 change from day 10||||<0.0001
92167733|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.041|||||||Sign test|||Change in Visible Test Abutment - Week 12 change from day 10||||0.041
92167734|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.0065|||||||Sign test|||Change in Visible Test Abutment - Week 24 change from day 10||||0.0065
92167735|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Sign test|||Change in Visible Test Abutment - Month 12 change from day 10||||0.0003
92167736|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.028|||||||Sign test|||Change in Visible Test Abutment - Month 24 change from day 10||||0.028
92368418|NCT00282087|184640791|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|-0.00269|||||TWO_SIDED||||||Cox Proportional Hazards|||Age correlation with progression-free survival for patients on study treatment.||||
92167737|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.037|||||||Sign test|||Change in Visible Test Abutment - Month 36 change from day 10||||0.037
92167738|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.072|||||||Sign test|||Change in Visible Control Abutment - Week 3 change from day 10||||0.072
92368419|NCT00282087|184640792|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.02|||||TWO_SIDED||||||Cox Proportional Hazards|||Menopausal status at diagnosis correlation with progression-free survival for patients on study treatment.||||
92368420|NCT00282087|184640793|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.101|||||TWO_SIDED||||||Cox Proportional Hazards|||Uterine serosal involvement correlation with progression-free survival for patients on study treatment.||||
92368421|NCT00282087|184640794|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|-0.00676|||||TWO_SIDED||||||Cox Proportional Hazards|||Mitotic rate correlation with progression-free survival for patients on study treatment.||||
92368422|NCT00282087|184640795|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|-0.708|||||TWO_SIDED||||||Cox Proportional Hazards|||Estrogen receptor (ER) status correlation with progression-free survival for patients on study treatment.||||
92368423|NCT00282087|184640796|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|-0.906|||||TWO_SIDED||||||Cox Proportional Hazards|||Progesterone receptor (PR) status correlation with progression-free survival for patients on study treatment.||||
92167739|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.034|||||||Sign test|||Change in Visible Control Abutment - Week 6 change from day 10||||0.034
92167740|NCT01796236|184224718|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Visible Control Abutment - Week 12 change from day 10||||<0.0001
92167741|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.01|||||||Sign test|||Change in Visible Control Abutment - Week 24 change from day 10||||0.010
92167742|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.0086|||||||Sign test|||Change in Visible Control Abutment - Month 12 change from day 10||||0.0086
92368424|NCT00282087|184640797|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.207|||||TWO_SIDED||||||Cox Proportional Hazards|||1988 FIGO Stage correlation with progression-free survival for patients on study treatment.||||
92368425|NCT00282087|184640798|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|-0.564|||||TWO_SIDED||||||Cox Proportional Hazards|||Estrogen receptor (ER) or progesterone receptor (PR) positive correlation with progression-free survival for patients on study treatment.||||
92368426|NCT00405392|184640799|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92368427|NCT00405392|184640800|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92368428|NCT00405392|184640801|SUPERIORITY_OR_OTHER|||||||0.9456|||||||t-test, 2 sided|||||||0.9456
92226498|NCT00523991|184354819|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.045
92368429|NCT04301934|184640802|NON_INFERIORITY|The prevalence of UTI for the LASER group and vaginal estrogen group was calculated. Non-inferiority test using Farrington-Manning method was applied to test the risk difference against the pre-specified non-inferiority margin (20%).||||||0.034|||||||Farrington-Manning|||||||0.034
92368430|NCT02550288|184640809|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-36.3|||<|0.001|TWO_SIDED|95.0|-40.5|-32.2|||Constrained longitudinal data analysis|||||-32.2|-40.5|<0.001
92368431|NCT02550288|184640809|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-11.6|||<|0.001|TWO_SIDED|95.0|-14.9|-8.2|||Constrained longitudinal data analysis|||||-8.2|-14.9|<0.001
92167743|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.0021|||||||Sign test|||Change in Visible Control Abutment - Month 24 change from day 10||||0.0021
92167744|NCT01796236|184224718|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Sign test|||Change in Visible Control Abutment - Month 36 change from day 10||||0.0005
92167745|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||Week 12: Vascularity (observer)||||0.026
92167746|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||Month 12: Vascularity (observer)||||0.33
92368432|NCT02550288|184640809|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-39.9|||<|0.001|TWO_SIDED|95.0|-44.1|-35.8|||Constrained longitudinal data analysis|||||-35.8|-44.1|<0.001
92167747|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.094|||||||Wilcoxon (Mann-Whitney)|||Month 36: Vascularity (observer)||||0.094
92226499|NCT00523991|184354820|SUPERIORITY_OR_OTHER|||||||0.223||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.223
92368433|NCT02550288|184640809|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-10.1|||<|0.001|TWO_SIDED|95.0|-13.5|-6.8|||Constrained longitudinal data analysis|||||-6.8|-13.5|<0.001
92368434|NCT00842153|184640832|SUPERIORITY_OR_OTHER|||||||0.1269||95.0||||P-value for Week 1|Fisher Exact|||||||0.1269
92368435|NCT00842153|184640832|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Week 2|Chi-squared|||||||<0.0001
92368436|NCT00842153|184640832|SUPERIORITY_OR_OTHER|||||||0.0015||95.0||||P-value for Week 4|Chi-squared|||||||0.0015
92368437|NCT00402324|184640879|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||All tests of treatment effects will be conducted at a two-sided alpha level of 0.05 unless otherwise stated.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) Change = Therapy PooledINV Visit Baseline Baseline\*Visit Therapy\*Visit. P-value from therapy term in model.||The overall power of the two co-primary analyses-the probability of simultaneously rejecting both co-primary null hypotheses-for this sample size under assumed effect sizes of 0.5 and 0.45 is estimated as approximately 85-87% and 77-80%, respectively.||||<0.001
92368438|NCT00402324|184640880|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||All tests of treatment effects will be conducted at a two-sided alpha level of 0.05 unless otherwise stated.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) Change = Therapy PooledINV Visit Baseline Baseline\*Visit Therapy\*Visit. P-value from therapy term in model.||The overall power of the two co-primary analyses-the probability of simultaneously rejecting both co-primary null hypotheses-for this sample size under assumed effect sizes of 0.5 and 0.45 is estimated as approximately 85-87% and 77-80%, respectively.||||0.022
92368439|NCT00402324|184640881|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Fisher Exact|||||||0.100
92368440|NCT00402324|184640882|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||Fisher Exact|||||||0.048
92368441|NCT00402324|184640883|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||ANCOVA|Type III sums of squares of ANCOVA model: Change= TRT + Pooled Investigator + Baseline.||||||0.056
92368442|NCT00402324|184640885|SUPERIORITY_OR_OTHER|||||||0.657||95.0||||P-value for Total Cholesterol Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.657
92368443|NCT00402324|184640885|SUPERIORITY_OR_OTHER|||||||0.924||95.0||||P-value for Low Density Lipoprotein Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.924
92368444|NCT00402324|184640885|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||P-value for High Density Lipoprotein Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.122
92368445|NCT00402324|184640886|SUPERIORITY_OR_OTHER|||||||0.293||95.0||||P-value for Fasting Triglycerides Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.293
92368446|NCT00402324|184640887|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value for Fasting Blood Glucose Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.007
92368447|NCT00402324|184640888|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||P-value for Bilirubin Total Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.046
92368448|NCT00402324|184640889|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Type III sums of squares of ANCOVA model: Change= Treatment + Pooled Investigator + Baseline||||||<0.001
92167748|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Week 12: Pigmentation (observer)||||0.30
92167749|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Month 12: Pigmentation (observer)||||0.23
92167750|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Month 36: Pigmentation (observer)||||0.48
92167751|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||Week 12: Thickness (observer)||||0.0003
92167752|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||Month 12: Thickness (observer)||||0.062
92167753|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Month 36: Thickness (observer)||||0.11
92167754|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||Week 12: Relief (observer)||||0.0003
92226500|NCT00523991|184354821|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.010
92226501|NCT00523991|184354822|SUPERIORITY_OR_OTHER|||||||0.086||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.086
92368449|NCT00402324|184640890|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Type III sums of squares of ANCOVA model: Change= Treatment + Pooled Investigator + Baseline||||||<0.001
92368450|NCT00402324|184640891|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92167755|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.079|||||||Wilcoxon (Mann-Whitney)|||Month 12: Relief (observer)||||0.079
92167756|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.025|||||||Wilcoxon (Mann-Whitney)|||Month 36: Relief (observer)||||0.025
92167757|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Week 12: Pliability (observer)||||0.0020
92368451|NCT01277822|184640892|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin was 3 mmHg as Korean Food and Drug Administration (KFDA) guidance.|Mean Difference (Final Values)|-1.3|STANDARD_DEVIATION|7.7||0.1339|TWO_SIDED|95.0|-3.0|0.4|||t-test, 2 sided|Last observed non-missing, post-baseline value was imputed for missing value. If no such value existed, the value was treated as missing in analysis||||0.4|-3.0|0.1339
92368452|NCT01277822|184640893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4478||||||No imputation for missing data was performed|t-test, 2 sided|||||||0.4478
92368453|NCT01277822|184640894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0717|||||||t-test, 2 sided|Last observed non-missing, post-baseline value was imputed for missing value. If no such value existed, the value was treated as missing in analysis||||||0.0717
92368454|NCT01277822|184640895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8736|||||||t-test, 2 sided|No imputation for missing data was performed||||||0.8736
92368455|NCT01277822|184640896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2508||||||No imputation for missing data was performed|Chi-squared|||||||0.2508
92405435|NCT03594110|184701114|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.64|0.87|||||Comparison vs. Placebo|Hazard ratio (HR) of ESKD. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||0.87|0.64|
92405436|NCT03594110|184701115|OTHER||Mean Difference (Net)|-0.24|||<|0.001|TWO_SIDED|95.0|-0.38|-0.11|||Mixed Models Analysis||\[Comparator\] - \[Placebo\]|A mixed model of repeated measures (MMRM) with terms for baseline, age, sex, screening diabetes status, local screening eGFR, local screening UACR, treatment, treatment-by-time interaction and baseline-by-time interaction.||-0.11|-0.38|< 0.001
92167758|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Month 12: Pliability (observer)||||0.14
92167759|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||Month 36: Pliability (observer)||||0.0014
92167760|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 12: Surface Area (observer)||||0.0001
92167761|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.023|||||||Wilcoxon (Mann-Whitney)|||Month 12: Surface Area (observer)||||0.023
92167762|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.045|||||||Wilcoxon (Mann-Whitney)|||Month 36: Surface Area (observer)||||0.045
92368456|NCT01277822|184640897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2508||||||No imputation for missing data was performed|Chi-squared|||||||0.2508
92368457|NCT01277822|184640898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6646|||||||Chi-squared|||||||0.6646
92368458|NCT01277822|184640899|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7911||||||Left ankle: Last observed non-missing, post-baseline value was imputed for missing value. If no such value existed, the value was treated as missing in analysis|t-test, 2 sided|||||||0.7911
92368459|NCT01277822|184640899|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5933||||||Right ankle: Last observed non-missing, post-baseline value was imputed for missing value. If no such value existed, the value was treated as missing in analysis|t-test, 2 sided|||||||0.5933
92368460|NCT00997984|184640900|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||A hierarchical testing structure was employed. First placebo vs all-active, then placebo vs am and lastly placebo vs pm. Testing was stopped when one comparison was not significant (p\<0.05).|ANCOVA|||Study designed to detect an effect size of 0.4 with 90% at the 0.05 significance level.||||<0.001
92368461|NCT00997984|184640900|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||A hierarchical testing structure was employed. First placebo vs all-active, then placebo vs am and lastly placebo vs pm. Testing was stopped when one comparison was not significant (p\<0.05).|ANCOVA|||Study designed to detect an effect size of 0.4 with 90% at the 0.05 significance level.||||<0.001
92368462|NCT00997984|184640900|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||A hierarchical testing structure was employed. First placebo vs all-active, then placebo vs am and lastly placebo vs pm. Testing was stopped when one comparison was not significant (p\<0.05).|ANCOVA|||Study designed to detect an effect size of 0.4 with 90% at the 0.05 significance level.||||<0.001
92368463|NCT00997984|184640901|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
92167763|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||Week 12: Total Score (observer)||||0.0005
92167764|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.085|||||||Wilcoxon (Mann-Whitney)|||Month 12: Total Score (observer)||||0.085
92167765|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Month 36: Total Score (observer)||||0.030
92167766|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||Week 12: Overall Opinion (observer)||||0.0015
92167767|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.076|||||||Wilcoxon (Mann-Whitney)|||Month 12: Overall Opinion (observer)||||0.076
92167768|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Month 36: Overall Opinion (observer)||||0.15
92167769|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Week 12: Painful (patient)||||0.72
92167770|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||Month 12: Painful (patient)||||0.97
92167771|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Month 36: Painful (patient)||||0.82
92167772|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||Week 12: Itching (patient)||||0.86
92167773|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||Month 12: Itching (patient)||||0.84
92167774|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Month 36: Itching (patient)||||0.76
92167775|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Week 12: Color (patient)||||0.41
92167776|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||Month 12: Color (patient)||||0.98
92167777|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Month 36: Color (patient)||||0.76
92226502|NCT00523991|184354824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64||||0.729||95.0|-2.97|4.24||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||4.24|-2.97|0.729
92368464|NCT00997984|184640901|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
92368465|NCT00997984|184640901|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
92368466|NCT00997984|184640902|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
92368467|NCT00997984|184640902|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
92368468|NCT00997984|184640902|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
92368469|NCT00997984|184640903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.099||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.099
92167778|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||Week 12: Stiffness (patient)||||0.43
92167779|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Month 12: Stiffness (patient)||||0.25
92167780|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||Month 36: Stiffness (patient)||||0.017
92167781|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Week 12: Thickness (patient)||||0.13
92167782|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||Month 12: Thickness (patient)||||0.33
92167783|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||Month 36: Thickness (patient)||||0.65
92167784|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Week 12: Irregularity (patient)||||0.18
92167785|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Month 12: Irregularity (patient)||||0.38
92368470|NCT00997984|184640903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.596||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.596
92368471|NCT00997984|184640903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.023
92368472|NCT00997984|184640905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||<0.001
92368473|NCT00997984|184640905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||<0.001
92368474|NCT00997984|184640905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||<0.001
92368475|NCT00997984|184640906|SUPERIORITY_OR_OTHER_LEGACY|||||||0.712||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.712
92368476|NCT00997984|184640906|SUPERIORITY_OR_OTHER_LEGACY|||||||0.531||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.531
92368477|NCT00997984|184640906|SUPERIORITY_OR_OTHER_LEGACY|||||||0.226||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.226
92368478|NCT00997984|184640907|SUPERIORITY_OR_OTHER_LEGACY|||||||0.859||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||0.859
92368479|NCT00997984|184640907|SUPERIORITY_OR_OTHER_LEGACY|||||||0.527||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||0.527
92167786|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Month 36: Irregularity (patient)||||0.080
92167787|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Week 12: Total Score (patient)||||0.28
92167788|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Month 12: Total Score (patient)||||0.44
92167789|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Month 36: Total Score (patient)||||0.19
92167790|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Week 12: Overall Opinion (patient)||||0.16
92167791|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Week 12: Overall Opinion (patient)||||0.23
92167792|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.079|||||||Wilcoxon (Mann-Whitney)|||Month 36: Overall Opinion (patient)||||0.079
92167793|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Wilcoxon (Mann-Whitney)|||Week 12: Pain not within Scar (patient)||||0.0018
92167794|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||Month 12: Pain not within Scar (patient)||||0.053
92368480|NCT00997984|184640907|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||0.739
92368481|NCT00997984|184640908|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||<0.001
92368482|NCT00997984|184640908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.004
92368483|NCT00997984|184640908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.001
92368484|NCT01539070|184640947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3|||<|0.05|TWO_SIDED|95.0|1.8|10.8|||Regression, Linear|All Regression models adjusted for clustering by clinic, child age, change in age, BMI z-score, maternal education and occupation, and season|The change in the average vegetable consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||10.8|1.8|<0.05
92167795|NCT01796236|184224719|SUPERIORITY_OR_OTHER|||||||0.068|||||||Wilcoxon (Mann-Whitney)|||Month 36: Pain not within Scar (patient)||||0.068
92368485|NCT01539070|184640947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|||<|0.05|TWO_SIDED|95.0|-13.6|10.3|||Regression, Linear||The change in the average fruit consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||10.3|-13.6|<0.05
92368486|NCT01539070|184640947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||<|0.05|TWO_SIDED|95.0|-5.4|6.5|||Regression, Linear||The change in the average water consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||6.5|-5.4|<0.05
92368487|NCT01539070|184640947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|||<|0.05|TWO_SIDED|95.0|-8.9|1.1|||Regression, Linear||The change in the average sweet snacks consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||1.1|-8.9|<0.05
92368488|NCT01539070|184640947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||<|0.05|TWO_SIDED|95.0|-0.5|1.1|||Regression, Linear||The change in the average fast food consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||1.1|-0.5|<0.05
92368489|NCT01539070|184640947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||<|0.05|TWO_SIDED|95.0|-0.5|0.0|||Regression, Linear||The change in the average savory snacks consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||0.0|-0.5|<0.05
92405437|NCT03594110|184701116|OTHER||Mean Difference (Net)|-12.0||||0.41|TWO_SIDED|95.0|-42.0|17.0|||Regression, Linear||\[Comparator\]-\[Placebo\]|Differences in MRI measurements between treatment groups were assessed using a linear regression with terms for age, sex, screening diabetes status, local screening eGFR, local screening UACR was used in the analysis.||17|-42|0.41
92405792|NCT02085161|184701884|SUPERIORITY_OR_OTHER||LSMean Difference|-0.052|STANDARD_ERROR_OF_MEAN|0.063||0.4107|TWO_SIDED|95.0|-0.176|0.072||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||0.072|-0.176|0.4107
92167796|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Baseline: Comprehensive Health State (HUI3)||||0.90
92167797|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||Week 24: Comprehensive Health State (HUI3)||||0.43
92167798|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Month 12: Comprehensive Health State (HUI3)||||0.23
92167799|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||Month 36: Comprehensive Health State (HUI3)||||0.019
92167800|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.079|||||||Wilcoxon (Mann-Whitney)|||Baseline: Vision (HUI3)||||0.079
92167801|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||Week 24: Vision (HUI3)||||0.96
92167802|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Month 12: Vision (HUI3)||||0.55
92167803|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Month 36: Vision (HUI3)||||0.64
92167804|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Baseline: Hearing (HUI3)||||0.76
92167805|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.059|||||||Wilcoxon (Mann-Whitney)|||Week 24: Hearing (HUI3)||||0.059
92167806|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Month 12: Hearing (HUI3)||||0.38
92167807|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Month 36: Hearing (HUI3)||||0.14
92167808|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||Baseline: Speech (HUI3)||||0.73
92167809|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||Week 24: Speech (HUI3)||||0.65
92167810|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Month 12: Speech (HUI3)||||1.00
92167811|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||Month 36: Speech (HUI3)||||0.35
92167812|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Baseline: Ambulation (HUI3)||||0.50
92167813|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Week 24: Ambulation (HUI3)||||0.40
92368490|NCT01539070|184640947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.05|TWO_SIDED|95.0|-4.9|3.4|||Regression, Linear||The change in the average sugar-sweetened beverage consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||3.4|-4.9|<0.05
92368491|NCT01539070|184640947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|||<|0.05|TWO_SIDED|95.0|-8.4|4.1|||Regression, Linear||The change in the average added sugar in beverage consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||4.1|-8.4|<0.05
92368492|NCT01539070|184640948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.8|||<|0.05|TWO_SIDED|95.0|-29.1|5.5|||Regression, Linear|All Regression models adjusted for clustering by clinic, child age, change in age, BMI z-score, maternal education and occupation, and season|The change in mean physical activity between the baseline measurement and 3 months, the intervention group compared with the control group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI) are reported.||5.5|-29.1|<0.05
92368493|NCT01539070|184640948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||<|0.05|TWO_SIDED|95.0|-0.2|0.5|||Regression, Linear||The change in mean sleep time between the baseline measurement and 3 months, the intervention group compared with the control group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||0.5|-0.2|<0.05
92368494|NCT01539070|184640948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|||<|0.05|TWO_SIDED|95.0|-4.4|1.1|||Regression, Linear||The change in mean screen time between the baseline measurement and 3 months, the intervention group compared with the control group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||1.1|-4.4|<0.05
92368495|NCT01539070|184640950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|||<|0.05|TWO_SIDED|95.0|-0.04|0.35|||Regression, Linear|||In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||0.35|-0.04|<0.05
92368496|NCT02689206|184640951|OTHER||Mean Difference (Final Values)|0.57|||||TWO_SIDED|95.0|-0.31|1.45|||||Analysis using a Repeated Measures Model with terms included for baseline, treatment, time and treatment\*time. Model-adjusted treatment difference of dapro 10 mg arm from Placebo along with 95 percent CI are presented.|||1.45|-0.31|
92368497|NCT02689206|184640951|OTHER||Mean Difference (Final Values)|0.51|||||TWO_SIDED|95.0|-0.4|1.42|||||Analysis using a Repeated Measures Model with terms included for baseline, treatment, time and treatment\*time. Model-adjusted treatment difference of dapro 15 mg arm from Placebo along with 95 percent CI are presented.|||1.42|-0.40|
92368498|NCT02689206|184640951|OTHER||Mean Difference (Final Values)|1.47|||||TWO_SIDED|95.0|0.59|2.35|||||Analysis using a Repeated Measures Model with terms included for baseline, treatment, time and treatment\*time. Model-adjusted treatment difference of dapro 25 mg arm from Placebo along with 95 percent CI are presented.|||2.35|0.59|
92167814|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Month 12: Ambulation (HUI3)||||0.21
92167815|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Month 36: Ambulation (HUI3)||||0.0010
92167816|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Baseline: Emotion (HUI3)||||0.13
92167817|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||Week 24: Emotion (HUI3)||||0.96
92167818|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Month 12: Emotion (HUI3)||||0.75
92167819|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Month 36: Emotion (HUI3)||||0.20
92167820|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Baseline: Cognition (HUI3)||||0.95
92167821|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||Week 24: Cognition (HUI3)||||0.31
92167822|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Month 12: Cognition (HUI3)||||0.15
92167823|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Month 36: Cognition (HUI3)||||0.19
92368499|NCT02689206|184640951|OTHER||Mean Difference (Final Values)|1.67|||||TWO_SIDED|95.0|0.77|2.57|||||Analysis using a Repeated Measures Model with terms included for baseline, treatment, time and treatment\*time. Model-adjusted treatment difference of dapro 30 mg arm from Placebo along with 95 percent CI are presented.|||2.57|0.77|
92368500|NCT02520388|184640991|SUPERIORITY|||||||0.05|||||||Mixed model repeated measures analysis|||||||0.05
92368501|NCT02520388|184640992|SUPERIORITY|||||||0.05|||||||Mixed model repeated measures analysis|||||||0.05
92368502|NCT01352221|184641051|SUPERIORITY||Mean Difference (Final Values)|2.18|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|ONE_SIDED|97.5|1.81||||ANCOVA|||ANCOVA for primary endpoint, Change in Hb concentration from Baseline to Week 12 in double-blind phase, FAS|||1.81|< 0.0001
92368503|NCT01352221|184641055|SUPERIORITY||Mean Difference (Final Values)|1.04|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|ONE_SIDED|97.5|0.82||||ANCOVA|||ANCOVA analysis of the change in Hb concentration from Baseline to Week 4 of the double-blind phase - Full Analysis Set, multiple imputation|||0.82|< 0.0001
92368504|NCT01352221|184641056|SUPERIORITY||Mean Difference (Final Values)|1.73|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|ONE_SIDED|97.5|1.43|||ANCOVA analysis of Change in Hb concentration from Baseline to Week 8 of double-blind phase - FAS, multiple imputation|ANCOVA||||||1.43|< 0.0001
92368505|NCT01352221|184641067|SUPERIORITY||Mean Difference (Final Values)|2.18|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|ONE_SIDED|97.5|1.87||||ANCOVA|||ANCOVA sensitivity analysis of the Primary efficacy endpoint analysis on the PPAS|||1.87|< 0.0001
92368506|NCT01352221|184641068|SUPERIORITY||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|ONE_SIDED|97.5|1.82||||ANCOVA|||ANCOVA sensitivity analysis of the Primary efficacy endpoint analysis on the FAS LOCF Change in Haemoglobin Concentration from Baseline to Week 12|||1.82|< 0.0001
92405438|NCT03592186|184701142|SUPERIORITY|In zero-inflated distributions, two outcomes can be specified: 1) probability of being an excess zero (falling outside expected negative binomial distribution), and 2) count value, if not an excess zero. Our focal effect of interest was Time\*Condition in the count distribution, i.e. effect of condition over time on predicting the percent of days used greater than zero.|Risk Ratio (RR)|1.15|STANDARD_ERROR_OF_MEAN|2.57||0.12|TWO_SIDED|95.0|0.97|1.36|||Mixed Models Analysis|||Mixed models with zero-inflated distributions evaluated whether there was a Time\*Condition interaction, using data from the baseline, 12-week, and 24-week assessments. Full maximum likelihood estimation was used. We tested the primary outcome (percent of days of use over the past 90 days, adjusted for time in a controlled environment) for overall number of days of use.||1.36|.97|.12
92167824|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Baseline: Pain (HUI3)||||0.41
92368507|NCT00200967|184641077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|7.0||0.99||95.0|-14.0|14.0|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for AM PEF rate.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design. A sample size of 40 participants per genotype was required to detect a difference of 25 L/min in AM PEF (and relevant effect sizes for secondary outcomes) with a two-sided, 0.05 significance level test with 90% statistical power and a 15% drop-out rate.||14|-14|0.99
92368508|NCT00200967|184641078|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|7.0||0.82||95.0|-15.0|12.0|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for PM PEF rate.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||12|-15|0.82
92368509|NCT00200967|184641079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.5||0.31||95.0|-1.6|0.5|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for PEF variability.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||0.5|-1.6|0.31
92167825|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Week 24: Pain (HUI3)||||0.30
92167826|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||Month 12: Pain (HUI3)||||0.42
92167827|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Month 36: Pain (HUI3)||||0.040
92167828|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Baseline: Comprehensive Health State (HUI2)||||0.99
92167829|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Week 24: Comprehensive Health State (HUI2)||||0.88
92167830|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Month 12: Comprehensive Health State (HUI2)||||0.32
92167831|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.0084|||||||Wilcoxon (Mann-Whitney)|||Month 36: Comprehensive Health State (HUI2)||||0.0084
92167832|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||Baseline: Sensation (HUI2)||||0.77
92167833|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Week 24: Sensation (HUI2)||||0.95
92167834|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Month 12: Sensation (HUI2)||||0.60
92167835|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Month 36: Sensation (HUI2)||||0.48
92167836|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Baseline: Mobility (HUI2)||||0.51
92167837|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||Week 24: Mobility (HUI2)||||0.42
92368510|NCT00200967|184641080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.09||95.0|-0.02|0.07|||Wilcoxon (Mann-Whitney)||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for asthma symptoms.|A mixed-effects linear model was attempted but could not converge because very few symptoms were recorded, so a nonparametric analysis was applied.||0.07|-0.02|0.09
92405439|NCT03592186|184701143|SUPERIORITY||Risk Ratio (RR)|-0.1|STANDARD_ERROR_OF_MEAN|0.34||0.19|TWO_SIDED|95.0|-0.34|0.07|||Mixed Models Analysis|||Mixed models using a linear distribution evaluated whether change in substance-related problems differed by condition. The focal effect was a Time\*Condition interaction, using data from the baseline, 12-week, and 24-week assessments. Full maximum likelihood estimation was used.||.07|-.34|.19
92368511|NCT00200967|184641081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.25||95.0|-0.1|0.2|||Wilcoxon (Mann-Whitney)||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for rescue medication use.|A mixed-effects linear model was attempted but could not converge because very few usages of rescue medications were recorded, so a nonparametric analysis was applied.||0.2|-0.1|0.25
92368512|NCT00200967|184641082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.34||95.0|-0.1|0.03|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for Spirometry FEV1, pre-bronchodilator.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||0.03|-0.10|0.34
92368513|NCT00200967|184641083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.91||95.0|-0.08|0.07|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for Spirometry FVC, pre-bronchodilator.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||0.07|-0.08|0.91
92368514|NCT00200967|184641084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|7.0||0.93||95.0|-15.0|14.0|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for Spirometry PEF rate, pre-bronchodilator.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||14|-15|0.93
92368515|NCT00200967|184641085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.08||0.13||95.0|-0.04|0.31|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for eNO.|A mixed-effects linear model was applied to the natural logarithm of eNO to account for the repeated measurements within each treatment period of the crossover design.||0.31|-0.04|0.13
92405440|NCT03592186|184701144|SUPERIORITY||Chi-square value|0.01||||0.92|TWO_SIDED||||||Chi-squared|||Comparison of the count of positive urine screens by condition at 12 weeks||||.92
92405441|NCT02593006|184701145|SUPERIORITY||Risk Difference (RD)|10.3|||>|0.05|TWO_SIDED|95.0|-3.2|23.8|||Propensity weighted regression model|||||23.8|-3.2|>0.05
92368516|NCT00200967|184641086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.24||0.79||95.0|-0.56|0.43|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for EBC.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||0.43|-0.56|0.79
92405442|NCT02593006|184701146|SUPERIORITY|||||||0.04||||||Global test of interaction between time and treatment group.|Mixed Models Analysis|||||||0.04
92405443|NCT02072668|184701147|SUPERIORITY|||||||0.6281|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.6281
92167838|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||Month 12: Mobility (HUI2)||||0.22
92167839|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Wilcoxon (Mann-Whitney)|||Month 36: Mobility (HUI2)||||0.0018
92405444|NCT02072668|184701148|SUPERIORITY|||||||0.7973|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.7973
92405445|NCT02072668|184701149|SUPERIORITY|||||||0.4442|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.4442
92167840|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Baseline: Emotion (HUI2)||||0.30
92167841|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Week 24: Emotion (HUI2)||||0.52
92167842|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Month 12: Emotion (HUI2)||||0.47
92167843|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Month 36: Emotion (HUI2)||||0.18
92167844|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Baseline: Cognition (HUI2)||||0.82
92167845|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Week 24: Cognition (HUI2)||||0.41
92167846|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Month 12: Cognition (HUI2)||||0.14
92167847|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Month 36: Cognition (HUI2)||||0.25
92167848|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||Baseline: Self Care (HUI2)||||0.59
92167849|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Week 24: Self Care (HUI2)||||1.00
92167850|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Month 12: Self Care (HUI2)||||0.55
92167851|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Month 36: Self Care (HUI2)||||0.14
92167852|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Baseline: Pain (HUI2)||||0.75
92368517|NCT00200967|184641087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32|STANDARD_ERROR_OF_MEAN|0.45||0.004||95.0|0.43|2.21|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for methacholine PC20.|A mixed-effects linear model was applied to the base-2 logarithm of the methacholine PC20 to account for the repeated measurements within each treatment period of the crossover design.||2.21|0.43|0.004
92368518|NCT00200967|184641088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.12||0.89||95.0|-0.23|0.26|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for ACQ.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||0.26|-0.23|0.89
92368519|NCT02842086|184641094|NON_INFERIORITY|Noninferiority of DVY to TVD was to be concluded if the upper bound of the 2-sided 95.003% CI of the rate ratio (DVY group over TVD group) in the HIV infection incidence rate was less than 1.62.|Rate Ratio|0.468|||||TWO_SIDED|95.003|0.191|1.149||||||Noninferiority was assessed using a 95.003% confidence interval (CI) constructed using a generalized model associated with a Poisson distribution and logarithmic link with the treatment group being the main effect and with a noninferiority margin of 1.62.||1.149|0.191|
92368520|NCT02842086|184641095|SUPERIORITY||Difference in least squares mean (LSM)|1.142|||<|0.0001|TWO_SIDED|95.0|0.628|1.655|||ANOVA|||Hip BMD results were compared between the 2 treatment groups using analysis of variance (ANOVA), which included baseline TVD for pre-exposure prophylaxis (PrEP) and treatment as fixed effects.||1.655|0.628|<0.0001
92368521|NCT02842086|184641096|SUPERIORITY||Difference in LSM|1.567|||<|0.0001|TWO_SIDED|95.0|0.913|2.22|||ANOVA|||Spine BMD results were compared between the 2 treatment groups using ANOVA, which included baseline TVD for PrEP and treatment as fixed effects.||2.220|0.913|<0.0001
92368522|NCT02842086|184641097|SUPERIORITY||||||<|0.0001||||||P-values were from the Van Elteren test stratified by baseline TVD for PrEP.|Van Elteren test|||||||<0.0001
92368523|NCT02842086|184641098|SUPERIORITY||||||<|0.0001||||||P-values were from the Van Elteren test stratified by baseline TVD for PrEP.|Van Elteren test|||||||<0.0001
92368524|NCT02842086|184641099|SUPERIORITY|||||||0.0048||||||P-value for difference between treatment groups in distributions of UPCR ≤ 200 mg/g versus \> 200 mg/g was from the rank analysis of covariance adjusting for baseline category and baseline TVD for PrEP.|Rank analysis of covariance|||||||0.0048
92368525|NCT02842086|184641100|SUPERIORITY||Difference in LSM|-0.02|||<|0.0001|TWO_SIDED|95.0|-0.02|-0.01|||ANCOVA|||Results were compared between the 2 treatment groups using the analysis of covariance (ANCOVA) model including baseline TVD for PrEP and treatment as fixed effects and baseline serum creatinine as a covariate.||-0.01|-0.02|<0.0001
92368526|NCT02842086|184641101|NON_INFERIORITY|Noninferiority of DVY to TVD was to be concluded if the upper bound of the 2-sided 95.003% CI of the rate ratio (DVY group over TVD group) in the HIV infection incidence rate was less than 1.62.|Rate Ratio|0.536|||||TWO_SIDED|95.003|0.227|1.264||||||Noninferiority was assessed using a 95.003% CI constructed using a generalized model associated with a Poisson distribution and logarithmic link with the treatment group being the main effect and with a noninferiority margin of 1.62.||1.264|0.227|
92368527|NCT02842086|184641102|SUPERIORITY||Difference in LSM|1.567|||<|0.0001|TWO_SIDED|95.0|0.896|2.237|||ANOVA|||Hip BMD results were compared between the 2 treatment groups using ANOVA, which included baseline TVD for PrEP and treatment as fixed effects.||2.237|0.896|<0.0001
92368528|NCT02842086|184641103|SUPERIORITY||Difference in LSM|2.253|||<|0.0001|TWO_SIDED|95.0|1.437|3.069|||ANOVA|||Spine BMD results were compared between the 2 treatment groups using ANOVA, which included baseline TVD for PrEP and treatment as fixed effects.||3.069|1.437|<0.0001
92368529|NCT02842086|184641104|SUPERIORITY||||||<|0.0001||||||P-values were from the Van Elteren test stratified by baseline TVD for PrEP.|Van Elteren test|||||||<0.0001
92368530|NCT02842086|184641105|SUPERIORITY||||||<|0.0001||||||P-values were from the Van Elteren test stratified by baseline TVD for PrEP.|Van Elteren test|||||||<0.0001
92405446|NCT02072668|184701150|SUPERIORITY|||||||0.2545|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.2545
92405447|NCT02072668|184701156|SUPERIORITY|||||||0.4374|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.4374
92167853|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Week 24: Pain (HUI2)||||0.63
92167854|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Month 12: Pain (HUI2)||||0.57
92167855|NCT01796236|184224720|SUPERIORITY_OR_OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||Month 36: Pain (HUI2)||||0.019
92167856|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||Baseline: Ease of Communication (Aided)||||0.047
92167857|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Baseline: Background Noise (Aided)||||0.23
92167858|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||Baseline: Reverberation (Aided)||||0.015
92167859|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Baseline: Aversiveness (Aided)||||0.13
92167860|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.041|||||||Wilcoxon (Mann-Whitney)|||Baseline: Global (Aided)||||0.041
92167861|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.071|||||||Wilcoxon (Mann-Whitney)|||Baseline: Ease of Communication (Unaided)||||0.071
92167862|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Baseline: Background Noise (Unaided)||||0.75
92167863|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Baseline: Reverberation (Unaided)||||0.32
92167864|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Baseline: Aversiveness (Unaided)||||0.24
92167865|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Baseline: Global (Unaided)||||0.24
92167866|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Baseline: Ease of Communication (Benefit)||||0.12
92167867|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Baseline: Background Noise (Benefit)||||0.19
92167868|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||Baseline: Reverberation (Benefit)||||0.055
92405448|NCT02072668|184701157|SUPERIORITY|||||||0.347|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.3470
92167869|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Baseline: Aversiveness (Benefit)||||0.24
92167870|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.042|||||||Wilcoxon (Mann-Whitney)|||Baseline: Global (Benefit)||||0.042
92368531|NCT02842086|184641106|SUPERIORITY|||||||0.2163||||||P-value for difference between treatment groups in distributions of UPCR ≤ 200 mg/g versus \> 200 mg/g was from the rank analysis of covariance adjusting for baseline category and baseline TVD for PrEP.|Rank analysis of covariance|||||||0.2163
92368532|NCT02842086|184641107|SUPERIORITY||Difference in LSM|-0.02|||<|0.0001|TWO_SIDED|95.0|-0.02|-0.01|||ANCOVA|||Results were compared between the 2 treatment groups using the ANCOVA model including baseline TVD for PrEP and treatment as fixed effects and baseline serum creatinine as a covariate.||-0.01|-0.02|<0.0001
92368533|NCT00928187|184641110|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesizing 80% efficacy at the 50 copies/mL Viral Load (VL) threshold in the control group at W48, we calculated a required sample size of 150 participants per group to show non-inferiority of ABC/ddI and DRV groups compared with control group in ITT analysis, with a non-inferiority margin of 15%, a power of 90% and a two-sided α of 5%.|differences in proportions|5.6|||||TWO_SIDED|95.0|-5.1|16.4||||||||16.4|-5.1|
92368534|NCT00928187|184641110|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesizing 80% efficacy at the 50 copies/mL VL threshold in the control group at W48, we calculated a required sample size of 150 participants per group to show non-inferiority of ABC/ddI and DRV groups compared with control group in ITT analysis, with a non-inferiority margin of 15%, a power of 90% and a two-sided α of 5%.|difference in proportions|6.1|||||TWO_SIDED|95.0|-4.5|16.7||||||||16.7|-4.5|
92368535|NCT00928187|184641115|SUPERIORITY_OR_OTHER|||||||0.001|||||||Chi-squared|||||||0.001
92368536|NCT00928187|184641116|SUPERIORITY_OR_OTHER|||||||0.26|||||||Chi-squared|||||||0.26
92368537|NCT00928187|184641117|SUPERIORITY_OR_OTHER|||||||0.13|||||||Chi-squared|||||||0.13
92368538|NCT05696444|184641123|SUPERIORITY|Test was calculated using an exact test against a null value of 0.85.|||||<|0.0001|||||||Exact test|||||||<0.0001
92368539|NCT05696444|184641124|SUPERIORITY|Test was calculated using an exact test against a null value of 0.2||||||0.0006||||||Holm adjusted at alpha = 0.025|Exact test|||||||0.0006
92368540|NCT05696444|184641124|SUPERIORITY|||||||0.0025||||||Holm adjusted at alpha = 0.025|Exact test|||Test was calculated using an exact test against a null value of 0.45||||0.0025
92368541|NCT05696444|184641124|SUPERIORITY|||||||0.0001||||||Holm adjusted at alpha = 0.025|Exact test|||Test was calculated using an exact test against a null value of 0.2||||0.0001
92368542|NCT03759639|184641137|SUPERIORITY||Hodges-Lehmann Estimator|1.0||||0.029|TWO_SIDED|90.0|0.25|1.75|||1-sided Wilcoxon signed-rank test|||||1.75|0.25|0.029
92368543|NCT03759639|184641139|SUPERIORITY||Hodges-Lehmann Estimator|0.13||||0.318|TWO_SIDED|90.0|-0.25|0.5|||1-sided Wilcoxon signed-rank test|||||0.50|-0.25|0.318
92368544|NCT03759639|184641142|SUPERIORITY||Hodges-Lehmann Estimator|0.0854||||0.084|TWO_SIDED|90.0|-0.0123|0.1777|||1-sided Wilcoxon signed-rank test|||Treatment With IB1001||0.1777|-0.0123|0.084
92368545|NCT03759639|184641142|SUPERIORITY||Hodges-Lehmann Estimator|-0.0399||||0.315|TWO_SIDED|90.0|-0.1269|0.1031|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||0.1031|-0.1269|0.315
92368546|NCT03759639|184641143|SUPERIORITY||Hodges-Lehmann Estimator|-1.25||||0.001|TWO_SIDED|90.0|-1.75|-0.5|||1-sided Wilcoxon signed-rank test|||Treatment With IB1001||-0.50|-1.75|0.001
92368547|NCT03759639|184641143|SUPERIORITY||Hodges-Lehmann Estimator|1.25||||0.002|TWO_SIDED|90.0|0.5|2.0|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||2.00|0.50|0.002
92368548|NCT03759639|184641145|SUPERIORITY||Hodges-Lehmann Estimator|0.0||||0.121|TWO_SIDED|90.0|-0.021|0.0|||1-sided Wilcoxon signed-rank test|||Treatment with IB1001||0.000|-0.021|0.121
92368549|NCT03759639|184641145|SUPERIORITY||Hodges-Lehmann Estimator|0.021||||0.056|TWO_SIDED|90.0|0.0|0.042|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||0.042|0.000|0.056
92368550|NCT03759639|184641146|SUPERIORITY||Mean Difference (Net)|3.4|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Treatment With IB1001||||<0.001
92167871|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Week 24: Ease of Communication (Aided)||||0.19
92167872|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Week 24: Background Noise (Aided)||||0.99
92167873|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Week 24: Reverberation (Aided)||||0.24
92167874|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||Week 24: Aversiveness (Aided)||||0.73
92167875|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Week 24: Global (Aided)||||0.39
92167876|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Week 24: Ease of Communication (Unaided)||||0.24
92167877|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Week 24: Background Noise (Unaided)||||0.81
92368551|NCT03759639|184641146|SUPERIORITY||Mean Difference (Net)|4.5||||0.006|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Post-Treatment Washout||||0.006
92368552|NCT03759639|184641147|SUPERIORITY||Mean Difference (Net)|3.4||||0.005|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Treatment With IB1001||||0.005
92368553|NCT03759639|184641147|SUPERIORITY||Mean Difference (Net)|4.4||||0.038|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Treatment With IB1001||||0.038
92368554|NCT03759639|184641148|SUPERIORITY||Mean Difference (Net)|3.3||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Treatment with IB1001||||0.003
92368555|NCT03759639|184641148|SUPERIORITY||Mean Difference (Net)|4.4||||0.034|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Post-Treatment Washout||||0.034
92368556|NCT00161616|184641170|SUPERIORITY_OR_OTHER|||||||0.0541|||||||Fisher Exact|||Comparison of Healed vs Not healed/No outcome for week 13.||||0.0541
92368557|NCT00161616|184641170|SUPERIORITY_OR_OTHER|||||||0.7983|||||||Fisher Exact|||Comparison of Healed vs Not healed/No outcome for week 20.||||0.7983
92368558|NCT00161616|184641171|SUPERIORITY_OR_OTHER|||||||0.8961|||||||Fisher Exact|||||||0.8961
92368559|NCT00336284|184641172|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92405449|NCT02072668|184701158|SUPERIORITY|||||||0.0755|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.0755
92368560|NCT00336284|184641173|NON_INFERIORITY_OR_EQUIVALENCE|Sample size of the study is based on the safety endpoint and based on a Blackwelder type test of non inferiority with the standard design criteria: Type I error (one-sided), statistical power of 80%, and 2:1 randomization. The evaluation of the primary safety endpoint was based on an exact binomial non-inferiority test comparing the proportions of patient deaths, strokes or surgical interventions.||||||0.005||95.0|||||Exact binomial test for non-inferiority|1-sided||||||0.005
92405450|NCT02072668|184701160|SUPERIORITY|||||||0.0708|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.0708
92405451|NCT02072668|184701161|SUPERIORITY|||||||0.4501|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.4501
92167878|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Week 24: Reverberation (Unaided)||||0.34
92368561|NCT00336284|184641174|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|||||||0.016
92405452|NCT02072668|184701162|SUPERIORITY|||||||0.0767|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.0767
92405453|NCT02072668|184701163|SUPERIORITY|||||||0.725|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.7250
92405454|NCT01353898|184701165|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.62|||||||||||||Geometric mean ratio of HIV-1/Healthy. Analyzed using a linear mixed model with fixed factors: dose, health-status and the interaction between dose and health-status.|Compared to historical data for AUC0-24hrs measured on Day 7 for healthy participants treated with 200 mg MK-1972 once daily||||
92405455|NCT01353898|184701165|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.84|||||||||||||Geometric mean ratio of HIV-1/Healthy. Analyzed using a linear mixed model with fixed factors: dose, health-status and the interaction between dose and health-status.|Compared to historical data for AUC0-24hrs measured on Day 7 for healthy participants treated with 800 mg MK-1972 once daily||||
92405456|NCT01353898|184701166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||||||||||||||||
92405457|NCT01353898|184701166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||||||||||||||||
92167879|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.038|||||||Wilcoxon (Mann-Whitney)|||Week 24: Aversiveness (Unaided)||||0.038
92167880|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||Week 24: Global (Unaided)||||0.53
92167881|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Week 24: Ease of Communication (Benefit)||||0.63
92405458|NCT01353898|184701166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||||||||||||||||
92368562|NCT00861757|184641177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.6||0.003|TWO_SIDED|95.0|-3.0|-0.6|||ANCOVA|||||-0.6|-3.0|0.003
92368563|NCT00861757|184641177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.6||0.004|TWO_SIDED|95.0|-2.9|-0.6|||ANCOVA|||||-0.6|-2.9|0.004
92368564|NCT00861757|184641177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-3.7|-1.3|||ANCOVA|||||-1.3|-3.7|<0.001
92405459|NCT01353898|184701166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||||||||||||||||
92405460|NCT01353898|184701166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.83||||||||||||||||||
92405461|NCT04322526|184701181|OTHER|||||||0.01|||||||t-test, 2 sided|||Changes in BOLD signal in the rACC during the processing of contextual cues (pleasant \> unpleasant).||||0.01
92167882|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||Week 24: Background Noise (Benefit)||||0.83
92167883|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Week 24: Reverberation (Benefit)||||0.71
92167884|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Week 24: Aversiveness (Benefit)||||0.16
92167885|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Week 24: Global (Benefit)||||0.81
92167886|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Month 12: Ease of Communication (Aided)||||0.51
92167887|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Month 12: Background Noise (Aided)||||0.47
92167888|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.93|||||||Wilcoxon (Mann-Whitney)|||Month 12: Reverberation (Aided)||||0.93
92368565|NCT00861757|184641178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.2|-0.6||This is the p value for the Voiding (Obstructive) Score.|ANCOVA|||||-0.6|-2.2|<0.001
92405462|NCT04322526|184701182|OTHER|Mechanistic hypothesis: naltrexone will block contextual processing.||||||0.0002|||||||t-test, 2 sided|||Changes in BOLD fMRI signal from the Placebo vs. the Naltrexone session.||||0.0002
92405463|NCT02205736|184701230|SUPERIORITY|||||||0.8084||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 1 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.8084
92405464|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 2 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
92368566|NCT00861757|184641178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.4||0.005|TWO_SIDED|95.0|-1.9|-0.3||This is the p value for the Voiding (Obstructive) Score.|ANCOVA|||||-0.3|-1.9|0.005
92368567|NCT00861757|184641178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.7|-1.1||This is the p value for the Voiding (Obstructive) Score.|ANCOVA|||||-1.1|-2.7|<0.001
92368568|NCT00861757|184641178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.072|TWO_SIDED|95.0|-1.0|0.0||This is the p value for the Storage (Irritative) Score.|ANCOVA|||||0.0|-1.0|0.072
92368569|NCT00861757|184641178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.021|TWO_SIDED|95.0|-1.1|-0.1||This is the p value for the Storage (Irritative) Score.|ANCOVA|||||-0.1|-1.1|0.021
92368570|NCT00861757|184641178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.023|TWO_SIDED|95.0|-1.1|-0.1||This is the p value for the Storage (Irritative) Score.|ANCOVA|||||-0.1|-1.1|0.023
92368571|NCT00861757|184641179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.031|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||-0.0|-0.6|0.031
92405465|NCT02205736|184701230|SUPERIORITY|||||||0.0036||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 3 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0036
92405466|NCT02205736|184701230|SUPERIORITY|||||||0.0033||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 4 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0033
92405467|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 5 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
92167889|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Month 12: Aversiveness (Aided)||||0.62
92368572|NCT00861757|184641179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.013|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|||||-0.1|-0.6|0.013
92368573|NCT00861757|184641179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA|||||-0.4|-0.9|<0.001
92405793|NCT02085161|184701884|SUPERIORITY_OR_OTHER||LSMean Difference|0.244|STANDARD_ERROR_OF_MEAN|0.064||0.0002|TWO_SIDED|95.0|0.119|0.37||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||0.370|0.119|0.0002
92368574|NCT00861757|184641180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.201|TWO_SIDED|95.0|-1.0|0.2|||ANCOVA|||||0.2|-1.0|0.201
92368575|NCT00861757|184641180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.393|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||||0.3|-0.8|0.393
92368576|NCT00861757|184641180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.3||0.007|TWO_SIDED|95.0|-1.4|-0.2|||ANCOVA|||||-0.2|-1.4|0.007
92368577|NCT00861757|184641181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.5||0.331|TWO_SIDED|95.0|-1.6|0.5|||ANCOVA|||||0.5|-1.6|0.331
92368578|NCT00861757|184641181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.14|TWO_SIDED|95.0|-1.8|0.3|||ANCOVA|||||0.3|-1.8|0.140
92368579|NCT00861757|184641181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.94|TWO_SIDED|95.0|-1.1|1.0|||ANCOVA|||||1.0|-1.1|0.940
92368580|NCT00861757|184641182|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (that is, placebo vs 2.5 mg Tadalafil) and 7 categories of the PGI-I.|Cochran-Mantel-Haenszel|||||||<0.001
92167890|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Month 12: Global (Aided)||||0.63
92167891|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Month 12: Ease of Communication (Unaided)||||0.18
92167892|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Month 12: Background Noise (Unaided)||||0.76
92167893|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Month 12: Reverberation (Unaided)||||0.17
92167894|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||Month 12: Aversiveness (Unaided)||||0.29
92368581|NCT00861757|184641182|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (that is, placebo vs 5.0 mg Tadalafil) and 7 categories of the PGI-I.|Cochran-Mantel-Haenszel|||||||<0.001
92368582|NCT00861757|184641182|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (placebo vs 0.2 mg Tamsulosin) and 7 categories of the PGI-I.|Cochran-Mantel-Haenszel|||||||<0.001
92368583|NCT00861757|184641183|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (that is, placebo vs 2.5 mg Tadalafil) and 7 categories of the CGI-I.|Cochran-Mantel-Haenszel|||||||0.034
92368584|NCT00861757|184641183|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (that is, placebo vs 5.0 mg Tadalafil) and 7 categories of the CGI-I.|Cochran-Mantel-Haenszel|||||||0.002
92368585|NCT00861757|184641183|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (that is, placebo vs 0.2 mg Tamsulosin) and 7 categories of the CGI-I.|Cochran-Mantel-Haenszel|||||||0.001
92368586|NCT00861757|184641184|SUPERIORITY_OR_OTHER|||||||0.412||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.412
92368587|NCT00861757|184641184|SUPERIORITY_OR_OTHER|||||||0.083||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.083
92368588|NCT00861757|184641184|SUPERIORITY_OR_OTHER|||||||0.456||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.456
92368589|NCT00861757|184641185|SUPERIORITY_OR_OTHER|||||||0.688||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.688
92405468|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 6 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
92368590|NCT00861757|184641185|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.510
92368591|NCT00861757|184641185|SUPERIORITY_OR_OTHER|||||||0.212||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.212
92368592|NCT00861757|184641186|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||This is the p value for systolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.005
92368593|NCT00861757|184641186|SUPERIORITY_OR_OTHER|||||||0.274||95.0||||This is the p value for systolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.274
92368594|NCT00861757|184641186|SUPERIORITY_OR_OTHER|||||||0.538||95.0||||This is the p value for systolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.538
92167895|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Month 12: Global (Unaided)||||0.40
92167896|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||Month 12: Ease of Communication (Benefit)||||0.29
92368595|NCT00861757|184641186|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.008
92368596|NCT00861757|184641186|SUPERIORITY_OR_OTHER|||||||0.216||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.216
92368597|NCT00861757|184641186|SUPERIORITY_OR_OTHER|||||||0.524||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.524
92368598|NCT00861757|184641187|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||This is the p value for systolic blood pressure.|Wilcoxon rank-sum test|||||||0.007
92368599|NCT00861757|184641187|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||This is the p value for systolic blood pressure.|Wilcoxon rank-sum test|||||||0.723
92368600|NCT00861757|184641187|SUPERIORITY_OR_OTHER|||||||0.273||95.0||||This is the p value for systolic blood pressure.|Wilcoxon rank-sum test|||||||0.273
92368601|NCT00861757|184641187|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon rank-sum test|||||||0.005
92368602|NCT00861757|184641187|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon rank-sum test|||||||0.054
92368603|NCT00861757|184641187|SUPERIORITY_OR_OTHER|||||||0.278||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon rank-sum test|||||||0.278
92368604|NCT00861757|184641188|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||Wilcoxon rank-sum test|||||||0.330
92167897|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Month 12: Background Noise (Benefit)||||0.90
92167898|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Month 12: Reverberation (Benefit)||||0.24
92167899|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Month 12: Aversiveness (Benefit)||||0.45
92167900|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Month 12: Global (Benefit)||||0.37
92167901|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||Month 36: Ease of Communication (Aided)||||0.84
92167902|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Month 36: Background Noise (Aided)||||0.57
92368605|NCT00861757|184641188|SUPERIORITY_OR_OTHER|||||||0.838||95.0|||||Wilcoxon rank-sum test|||||||0.838
92368606|NCT00861757|184641188|SUPERIORITY_OR_OTHER|||||||0.409||95.0|||||Wilcoxon rank-sum test|||||||0.409
92368607|NCT03462641|184641210|SUPERIORITY||t-value|-2.15|STANDARD_DEVIATION|1.32||0.0407|TWO_SIDED|||||Alpha was set to 0.05.|Paired-Sample Two-Tailed T-Test|||Null hypothesis was no difference in PIGD score within participants before and after flumazenil infusion.||||0.0407
92368608|NCT03462641|184641210|OTHER||F-value|2.861||||0.103|TWO_SIDED|||||"P value is given for the Drug\*Time term, which represents interaction between time relative to administration (before infusion vs after infusion) and treatment administered (placebo vs flumazenil).~Alpha was set to 0.05."|Repeated Measures ANCOVA|||Null hypothesis is that there is no significant interaction between drug and time of administration (pre vs. post infusion).||||0.103
92368609|NCT03462641|184641211|OTHER||Standardized β Coefficient|0.6||||2.9e-07|TWO_SIDED|95.0|0.13|1.07||P value presented is for model comparison between interaction model and random intercept model.|Mixed Models Analysis|||A pair of maximum likelihood mixed linear models were estimated. The first was a random intercept model that merely accounted for individual differences in PIGD score before infusion. The second was an interaction model, that added an interaction term between baseline FMZ PET binding and PIGD score change from pre to post infusion. The interaction model was compared against the random intercept model to determine significance of the interaction using likelihood ratio goodness of fit test.||1.07|0.13|0.00000029
92368610|NCT03938103|184641212|OTHER|||||||0.101|||||||Mixed Models Analysis|||||||0.101
92368611|NCT03938103|184641213|OTHER|||||||0.383|||||||Mixed Models Analysis|||||||0.383
92368612|NCT04660552|184641260|EQUIVALENCE|The post treatment cars scores of active and sham group will be statistically different as measured by independent sample t-test with p\<.05|Mean Difference (Net)|7.23|STANDARD_DEVIATION|4.2||0.01|TWO_SIDED|95.0|2.357|12.107|||t-test, 2 sided|||||12.107|2.357|0.01
92368613|NCT03012828|184641261|OTHER|The model was used for predicting population average and 90% 2-sided bootstrapped CI of the baseline-adjusted difference between active and placebo at each time point bound at clinically relevant concentrations.|Slope|-0.0077||||0.4727|TWO_SIDED|90.0|-0.0255|0.0101|||Mixed Models Analysis||The primary mixed effects model analysis revealed a nearly flat dQTcF - plasma concentration gradient|The primary analysis used a mixed-effects model to explore the relationship between the time-matched, baseline-adjusted QTcF (delta (d)QTcF) and moxidectin concentrations. dQTcF was a dependent variable and treatment, time point, and treatment by time point interaction as the independent variables with baseline QTcF as a covariate and time-matched concentrations of moxidectin as a covariate with random effects of intercept and slope for each subject.Concentrations of zero were used for placebo.||0.0101|-0.0255|0.4727
92368614|NCT01637584|184641292|SUPERIORITY_OR_OTHER||||||<|0.001||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Wakefulness \> Non-Rapid Eye Movement (NREM): Mean K-cluster voxels (Ke)=15,586: x,y,z= -36, -74, 0. Left Brodmann's Area (BA) 3, 6, 7, 10, 17, 19, 20,21,23, 38||||<0.001
92368615|NCT01637584|184641292|SUPERIORITY_OR_OTHER|||||||0.039||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Wakefulness \< NREM: Ke=7,013: x,y,z= 26, 22, -40. Right BA 4, 10-14, 21, 25, 32, 38, 45;||||0.039
92405469|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 7 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
92405470|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 8 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
92405471|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 9 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
92167903|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Month 36: Reverberation (Aided)||||0.71
92368616|NCT01637584|184641292|SUPERIORITY_OR_OTHER|||||||0.701||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Wakefulness \> (Rapid Eye Movement (REM): No cluster size, coordinates, or brain regions to report||||0.701
92368617|NCT01637584|184641292|SUPERIORITY_OR_OTHER|||||||1||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Wakefulness \< REM: No cluster size, coordinates, or brain regions to report||||1.00
92167904|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Month 36: Aversiveness (Aided)||||0.99
92167905|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Month 36: Global (Aided)||||0.78
92368618|NCT01637584|184641292|SUPERIORITY_OR_OTHER|||||||0.03||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Within-state decrease in rCMRglc: Ke=6,150: x,y,z= -30, -30, 2. Left BA 40, insula, hippocampus, caudate, and putamen;||||0.03
92368619|NCT01637584|184641292|SUPERIORITY_OR_OTHER|||||||0.01||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Within-state increase in rCMRglc: Ke=7,049: x,y,z= 66, -18, 26. Right BA 1, 3, 15, 21, 22, 23, 41, 42||||0.01
92368620|NCT00177294|184641348|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Regression, Logistic|||We conducted Cox regreassion analyses of time to remission and logistic modeling for rates of remission. We tested group difference in Hamilton depession ratings over time via mixed-effects modeling.||||0.14
92368621|NCT01479764|184641356|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.059|||Pearson's Chi-square test|||Sugammadex is the numerator and Neostigmine/Glycopyrrolate is the denominator.||0.059|0.000|<0.0001
92368622|NCT01479764|184641357|SUPERIORITY_OR_OTHER||Estimated Ratio of Geometric Means|0.83||||0.021|TWO_SIDED|95.0|0.71|0.97|||ANCOVA|Adjusted for age, American Society of Anesthesiologists class, Body Mass Index, comorbidity index \& length of surgical procedure||Sugammadex is the numerator and neostigmine/glycopyrrolate is the denominator. Used log-transformed time intervals.||0.97|0.71|0.021
92167906|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Month 36: Ease of Communication (Unaided)||||0.50
92167907|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Month 36: Background Noise (Unaided)||||0.48
92167908|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Month 36: Reverberation (Unaided)||||0.64
92167909|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.041|||||||Wilcoxon (Mann-Whitney)|||Month 36: Aversiveness (Unaided)||||0.041
92167910|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||Month 36: Global (Unaided)||||0.89
92167911|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Month 36: Ease of Communication (Benefit)||||0.14
92167912|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Month 36: Background Noise (Benefit)||||0.48
92167913|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Month 36: Reverberation (Benefit)||||0.23
92167914|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Month 36: Aversiveness (Benefit)||||0.57
92167915|NCT01796236|184224721|SUPERIORITY_OR_OTHER|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Month 36: Global (Benefit)||||0.21
92167916|NCT01796236|184224722|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||Sound Processor Usage: Week 6||||0.46
92167917|NCT01796236|184224722|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Use of Sound Processor: Week 12||||0.75
92167918|NCT01796236|184224722|SUPERIORITY_OR_OTHER|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||Use of Sound Processor: Week 24||||0.83
92167919|NCT01796236|184224722|SUPERIORITY_OR_OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Use of Sound Processor: Month 12||||0.52
92167920|NCT01796236|184224722|SUPERIORITY_OR_OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Use of Sound Processor: Month 24||||0.67
92167921|NCT01796236|184224722|SUPERIORITY_OR_OTHER|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Use of Sound Processor: Month 36||||0.71
92167922|NCT01796236|184224724|SUPERIORITY_OR_OTHER|||||||0.91|||||||Mantel Haenszel|||Baseline: Smoking and Wet Snuff habits||||0.91
92167923|NCT01796236|184224724|SUPERIORITY_OR_OTHER|||||||0.7|||||||Mantel Haenszel|||Week 3: Smoking and Wet Snuff habits||||0.70
92167924|NCT01796236|184224724|SUPERIORITY_OR_OTHER|||||||0.95|||||||Mantel Haenszel|||Week 12: Smoking and Wet Snuff habits||||0.95
92167925|NCT01796236|184224724|SUPERIORITY_OR_OTHER|||||||0.22|||||||Mantel Haenszel|||Month 12: Smoking and Wet Snuff habits||||0.22
92226503|NCT00523991|184354825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.149||95.0|-5.9|0.9||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||0.90|-5.90|0.149
92167926|NCT01796236|184224724|SUPERIORITY_OR_OTHER|||||||0.19|||||||Mantel Haenszel|||Month 24: Smoking and Wet Snuff habits||||0.19
92167927|NCT01796236|184224724|SUPERIORITY_OR_OTHER|||||||0.45|||||||Mantel Haenszel|||Month 36: Smoking and Wet Snuff habits||||0.45
92368623|NCT03711370|184641361|OTHER|Repeated measures ANOVA was used to model between-subject effects of group (Clear versus Opaque), within-subjects effects of use of clear versus opaque bottles during the feeding observations, and potential group by bottle type interactions on infant intake during post-test feeding observations.||||||0.76||||||Statistical significance was defined as p \< 0.05.|Mixed Models Analysis|Models controlled for pre-test values, infant sex and age, time since last feeding, and whether the assessment was in-person or remote.||||||0.76
92368624|NCT03711370|184641362|OTHER|Repeated measures ANOVA was used to model between-subject effects of group (Clear versus Opaque), within-subjects effects of use of clear versus opaque bottles during the feeding observations, and potential group by-bottle type interactions on maternal sensitivity during post-test feeding observations.||||||0.64||||||Statistical significance was defined as p \< 0.05.|Mixed Models Analysis|Models controlled for pre-test values, infant sex and age, time since last feeding, and whether the assessment was in-person or remote.||||||0.64
92368625|NCT03711370|184641363|OTHER|General linear models were used to compare post-test weight-for-length z-scores (WLZ).||||||0.02||||||Statistical significance was defined as p \< 0.05.|Regression, Linear|These models controlled for baseline values (i.e., baseline WLZ), infant sex and age, and whether the assessment was in-person or remote.||||||0.02
92167928|NCT01796236|184224725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.989|TWO_SIDED|95.0|||||Log Rank|||Loss of Implant (safety population)||||0.989
92167929|NCT01943799|184224759|SUPERIORITY||LS Mean Difference|-0.001||||0.976|TWO_SIDED|95.0|-0.061|0.059|||MMRM|||Each null hypothesis was tested against the 2-sided alternative that the mean change from baseline in serum HBsAg (log10 IU/mL) titers in the respective GS-4774 group was not equal to that of the OAV group. Estimated least squares means (LSM) of treatment effects and estimated differences in treatment effects between GS-4774 treatment groups and the OAV group at Week 24 were calculated with 95% confidence intervals (CIs) and unadjusted p-values.||0.059|-0.061|0.976
92167930|NCT01943799|184224759|SUPERIORITY||LS Mean Difference|-0.007||||0.828|TWO_SIDED|95.0|-0.067|0.053|||MMRM|||Each null hypothesis was tested against the 2-sided alternative that the mean change from baseline in serum HBsAg (log10 IU/mL) titers in the respective GS-4774 group was not equal to that of the OAV group. Estimated least squares means (LSM) of treatment effects and estimated differences in treatment effects between GS-4774 treatment groups and the OAV group at Week 24 were calculated with 95% confidence intervals (CIs) and unadjusted p-values.||0.053|-0.067|0.828
92167931|NCT01943799|184224759|SUPERIORITY||LS Mean Difference|-0.029||||0.343|TWO_SIDED|95.0|-0.089|0.031|||MMRM|||Each null hypothesis was tested against the 2-sided alternative that the mean change from baseline in serum HBsAg (log10 IU/mL) titers in the respective GS-4774 group was not equal to that of the OAV group. Estimated least squares means (LSM) of treatment effects and estimated differences in treatment effects between GS-4774 treatment groups and the OAV group at Week 24 were calculated with 95% confidence intervals (CIs) and unadjusted p-values.||0.031|-0.089|0.343
92167932|NCT01395758|184224833|SUPERIORITY|||||||0.5017|||||||Log Rank|||||||0.5017
92167933|NCT01395758|184224834|SUPERIORITY|||||||0.4356|||||||Log Rank|||||||0.4356
92167934|NCT04515641|184224837|OTHER||GMR|0.75|||||TWO_SIDED|90.0|0.58|0.96|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|0.96|0.58|
92167935|NCT04515641|184224838|OTHER||GMR|0.75|||||TWO_SIDED|90.0|0.58|0.98|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|0.98|0.58|
92167936|NCT04515641|184224839|OTHER||GMR|0.65|||||TWO_SIDED|90.0|0.38|1.14|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.14|0.38|
92167937|NCT04515641|184224846|OTHER||GMR|0.76|||||TWO_SIDED|90.0|0.57|1.0|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.00|0.57|
92167938|NCT04515641|184224847|OTHER||GMR|0.77|||||TWO_SIDED|90.0|0.58|1.03|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.03|0.58|
92167939|NCT04515641|184224848|OTHER||GMR|0.96|||||TWO_SIDED|90.0|0.63|1.46|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.46|0.63|
92167940|NCT04515641|184224849|OTHER||GMR|1.05|||||TWO_SIDED|90.0|0.65|1.71|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.71|0.65|
92167941|NCT04515641|184224850|OTHER||GMR|0.86|||||TWO_SIDED|90.0|0.59|1.26|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.26|0.59|
92167942|NCT04515641|184224851|OTHER||GMR|0.65|||||TWO_SIDED|90.0|0.42|1.01|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.01|0.42|
92167943|NCT00736853|184224860|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.377||||0.0001|TWO_SIDED|95.0|0.221|0.641|||Log Rank|Stratified Log-rank test with the target disease as the stratification factor||||0.641|0.221|0.0001
92167944|NCT01415349|184224883|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Point estimates and 90% confidence intervals were assessed against the currently accepted bioequivalence criteria for log-transformed data (0.80, 1.25).|Ratio of Geometric LS Means|1.03|||||TWO_SIDED|90.0|0.966|1.09|||Mixed Models Analysis|||||1.09|0.966|
92167945|NCT01415349|184224884|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Point estimates and 90% confidence intervals were assessed against the currently accepted bioequivalence criteria for log-transformed data (0.80, 1.25).|Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|0.998|1.08|||Mixed Models Analysis|||||1.08|0.998|
92167946|NCT02918071|184224896|OTHER||percentage|97.4|||||TWO_SIDED|95.0|92.63|99.46|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of patients successfully administered benralizumab with an AI at home (Week 12)|||99.46|92.63|
92167947|NCT02918071|184224896|OTHER||Percentage|96.6|||||TWO_SIDED|95.0|91.41|99.05|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 16)|Percentage of patients who successfully administered benralizumab with an AI at home (Week 16)|||99.05|91.41|
92167948|NCT02918071|184224896|OTHER||Percentage|93.1|||||TWO_SIDED|95.0|86.86|96.98|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12 and 16)|Percentage of patients who successfully administered benralizumab with an AI at home (Week 12 and 16)|||96.98|86.86|
92167949|NCT02918071|184224897|OTHER||Percentage|97.4|||||TWO_SIDED|95.0|92.69|99.47|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of patients returned functional AI administered at home (Week 12)|||99.47|92.69|
92167950|NCT02918071|184224897|OTHER||Percentage|96.6|||||TWO_SIDED|95.0|91.48|99.06|||Clopper Pearson Exact CI|One sample confidence interval (Week 16)|Percentage of patients returned functional AI administered at home (Week 16)|||99.06|91.48|
92167951|NCT02918071|184224898|OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|3.0|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0)|Percentage of mulfunctioning AI used to administer benralizumab at home or clinic (Week 0)|||3.00|0.00|
92167952|NCT02918071|184224898|OTHER||Percentage|0.8|||||TWO_SIDED|95.0|0.02|4.52|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 4)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 4)|||4.52|0.02|
92167953|NCT02918071|184224898|OTHER||Percentage|0.8|||||TWO_SIDED|95.0|0.02|4.59|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 8)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 8)|||4.59|0.02|
92167954|NCT02918071|184224898|OTHER||Percentage|2.6|||||TWO_SIDED|95.0|0.53|7.31|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 12)|||7.31|0.53|
92167955|NCT02918071|184224898|OTHER||Percentage|3.4|||||TWO_SIDED|95.0|0.94|8.52|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 16)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 16)|||8.52|0.94|
92167956|NCT02918071|184224898|OTHER||Percentage|0.6|||||TWO_SIDED|95.0|0.07|1.99|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0 to 8)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 0 to 8)|||1.99|0.07|
92167957|NCT02918071|184224898|OTHER||Percentage|3.0|||||TWO_SIDED|95.0|1.21|6.07|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12 to 16)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 12 to 16)|||6.07|1.21|
92167958|NCT02918071|184224898|OTHER||Percentage|1.5|||||TWO_SIDED|95.0|0.69|2.85|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0 to 16)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 0 to 16)|||2.85|0.69|
92226504|NCT00523991|184354826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.763||95.0|-4.0|2.93||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||2.93|-4.00|0.763
92226505|NCT00523991|184354827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85||||0.313||95.0|-5.45|1.75||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||1.75|-5.45|0.313
92226506|NCT00523991|184354828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.682||95.0|-4.6|3.01||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||3.01|-4.60|0.682
92226507|NCT00523991|184354829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.76||||0.043||95.0|-7.39|-0.13||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||-0.13|-7.39|0.043
92226508|NCT00523991|184354831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.823||95.0|-6.01|4.79||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||4.79|-6.01|0.823
92226509|NCT00523991|184354832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.767||95.0|-7.86|5.81||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||5.81|-7.86|0.767
92368626|NCT03711370|184641364|OTHER|General linear models were used to compare post-test waist circumference for the Clear versus Opaque groups.||||||0.07||||||Statistical significance was defined as p \< 0.05.|Regression, Linear|Model controlled for baseline values (i.e., waist circumference), infant sex and age, and whether the assessment was in-person or remote.||||||0.07
92368627|NCT03711370|184641365|OTHER|General linear models were used to compare post-test triceps skinfold z-scores for the Clear versus Opaque groups.||||||0.7||||||Statistical significance was defined as p \< 0.05.|Regression, Linear|Model controlled for baseline values (i.e.,triceps skinfolds z-scores), infant sex and age, and whether the assessment was in-person or remote.||||||0.70
92368628|NCT01740687|184641409|OTHER||95% upper Bayesian credible interval|1.23|||||||||||||%|predetermined study success threshold of 2.1% at 1 year||||
92368629|NCT01740687|184641410|OTHER||95% upper Bayesian credible interval|1.33|||||||||||||%|predetermined study success threshold of 2.8% at 3 years||||
92368630|NCT01433042|184641418|SUPERIORITY_OR_OTHER||percentage|98.0||||||||||since the study results analysis is purley discriptive no P value and confidence interval was used for the analysis|percentage|percentage of SB3 images graded as superior in image quality to SB2|since the study results analysis is purley discriptive no P value and confidence interval was used for the analysis|"Primary Endpoint~o Physician's subjective assessment questionnaire was evaluated in a quality manner.~The physicians were required to assess the performance of SB3 system as compare to SB2 by answering a short questionnaire.~The physicians were requested to indicate whether capsule SB3 was better as compared to SB2."||||
92226510|NCT00523991|184354833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.754||95.0|-4.12|5.67||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||5.67|-4.12|0.754
92368631|NCT00556439|184641425|OTHER|Kaplan-Meier curves of relapse free survival were constructed, and differences in treatment arms compared using the logrank test. The analysis of the primary outcome was based upon intent to treat.||||||0.049||||||The p value of 0.049 reflects comparison of relapse free survival of abatacept versus placebo in giant cell arteritis.|Log Rank|||The planned sample size was determined by the minimally clinically meaningful result (i.e., an approximate 30% improvement in relapse-free survival) to be detected utilizing a one-sided alpha of 0.1. Kaplan-Meier curves of RFS were constructed for each stratum, and differences in treatment arms compared using the logrank test. The analysis of the primary outcome was based upon intent to treat.||||0.049
92368632|NCT00556439|184641425|OTHER|Kaplan-Meier curves of relapse free survival were constructed, and differences in treatment arms compared using the logrank test. The analysis of the primary outcome was based upon intent to treat.||||||0.853||||||The p value of 0.853 reflects comparison of relapse free survival of abatacept versus placebo in Takayasu arteritis.|Log Rank|||The planned sample size was determined by the minimally clinically meaningful result (i.e., an approximate 30% improvement in relapse-free survival) to be detected utilizing a one-sided alpha of 0.1. Kaplan-Meier curves of RFS were constructed for each stratum, and differences in treatment arms compared using the logrank test. The analysis of the primary outcome was based upon intent to treat.||||0.853
92226511|NCT00523991|184354834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.995||95.0|-6.31|6.27||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||6.27|-6.31|0.995
92226512|NCT00523991|184354835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19||||0.72||95.0|-7.77|5.39||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||5.39|-7.77|0.720
92405472|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 10 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
92405473|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 11 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
92405474|NCT02205736|184701230|SUPERIORITY|||||||0.0124||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 12 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0124
92167959|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC =1.51 in the 11Pn Group and N= 203 and Adjusted GMC= 1.36 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.9|||||TWO_SIDED|95.9|0.75|1.07||||||ANTI-1 serotype test :to demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.07|0.75|
92167960|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC =1.77 in the 11Pn Group and N= 203 and Adjusted GMC= 1.66 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.94|||||TWO_SIDED|95.9|0.77|1.14||||||ANTI-4 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.14|0.77|
92167961|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC = 2.46 in the 11Pn Group and N= 201 and Adjusted GMC= 2.16 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.88|||||TWO_SIDED|95.9|0.75|1.03||||||ANTI-5 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.03|0.75|
92167962|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC =0.51 in the 11Pn Group and N= 200 and Adjusted GMC= 0.47 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.93|||||TWO_SIDED|95.9|0.71|1.23||||||ANTI-6B serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.23|0.71|
92226513|NCT00523991|184354836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.88||||0.064||95.0|-12.1|0.35||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||0.35|-12.10|0.064
92405794|NCT02085161|184701885|SUPERIORITY_OR_OTHER||LSMean Difference|0.318|STANDARD_ERROR_OF_MEAN|0.071|<|0.0001|TWO_SIDED|95.0|0.179|0.457||Mixed effect Model Repeat Measurement (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||0.457|0.179|<0.0001
92405475|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 13 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
92167963|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=219 and Adjusted GMC =2.30 in the 11Pn Group and N= 202 and Adjusted GMC= 2.17 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.94|||||TWO_SIDED|95.9|0.81|1.1||||||ANTI-7F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.10|0.81|
92226514|NCT00523991|184354838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.718||95.0|-7.21|4.98||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||4.98|-7.21|0.718
92368633|NCT02195700|184641449|SUPERIORITY||LSM difference|-1.4|STANDARD_ERROR_OF_MEAN|0.6||0.0188|TWO_SIDED|95.0|-2.6|-0.2||5% level of significance (2-sided)|unstructured covariance|||The linear mixed model for repeated measurements (MMRM) included fixed effects for treatment, each scheduled time point (5 levels: weeks 2, 4, 6, 9, and 12), the treatment-by-time point interaction, and the DRA status. Baseline AIMS score was a covariate. The unstructured covariance model was used, and the primary analysis compared the SD-809 and placebo groups at week 12. This was based on the F-test using the Satterhwaite method to compute the denominator degrees of freedom.||-0.2|-2.6|0.0188
92368634|NCT02195700|184641450|SUPERIORITY||Differences in %|7.9||||0.4001|TWO_SIDED|95.0|-10.2|25.2||5% level of significance (2-sided)|Pearson's chi-square test|||The secondary efficacy endpoints were analyzed using a hierarchical testing procedure. If the primary analysis was statistically significant (p\<0.05), then the first key secondary endpoint was to be analyzed. If the first key secondary endpoint was statistically significant, then the second key secondary endpoint was to be similarly analyzed. For any analysis that was not statistically significant, all subsequent analyses of key secondary endpoints were exploratory rather than confirmatory.||25.2|-10.2|0.4001
92368635|NCT01340625|184641503|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|107.84|||||TWO_SIDED|90.0|100.91|115.24|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||115.24|100.91|
92368636|NCT01340625|184641504|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|104.03|||||TWO_SIDED|90.0|96.74|111.88|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||111.88|96.74|
92368637|NCT01340625|184641505|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|101.97|||||TWO_SIDED|90.0|95.73|108.62|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.62|95.73|
92368638|NCT01340625|184641506|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.24|||||TWO_SIDED|90.0|90.04|102.86|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||102.86|90.04|
92368639|NCT01340625|184641507|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.8|||||TWO_SIDED|90.0|93.89|103.97|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||103.97|93.89|
92368640|NCT01340625|184641508|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.59|||||TWO_SIDED|90.0|94.91|104.5|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.50|94.91|
92405476|NCT02205736|184701230|SUPERIORITY|||||||0.0588||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 14 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0588
92405477|NCT02205736|184701230|SUPERIORITY|||||||0.0143||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 15 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0143
92405478|NCT02205736|184701230|SUPERIORITY|||||||0.1025||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 16 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.1025
92368641|NCT01519791|184641525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.283|||<|0.001|TWO_SIDED|95.0|1.503|3.468|||Regression, Logistic||The Odds ratio measuring the treatment effect was estimated from a logistic regression model including terms for treatment, region and stratification factor. Nonresponder imputation (NRI) was used.|"In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in the following hierarchical order (each at a 2-sided 95 % alpha level):~1. Primary: sustained DAS28(ESR) remission at Week 52~2. Key secondary: sustained DAS28(ESR) LDA at Week 52~3. ACR50 response at Week 52 in relation to Baseline~4. Change from Baseline in HAQ-DI at Week 52~5. Change from Baseline in mTSS at Week 52"||3.468|1.503|<0.001
92368642|NCT01519791|184641526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.957|||<|0.001|TWO_SIDED|95.0|1.384|2.767|||Regression, Logistic||The Odds ratio measuring the treatment effect was estimated from a logistic regression model including terms for treatment, region and stratification factor. Nonresponder imputation (NRI) was used.|"In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in the following hierarchical order (each at a 2-sided 95 % alpha level):~1. Primary: sustained DAS28(ESR) remission at Week 52~2. Key secondary: sustained DAS28(ESR) LDA at Week 52~3. ACR50 response at Week 52 in relation to Baseline~4. Change from Baseline in HAQ-DI at Week 52~5. Change from Baseline in mTSS at Week 52"||2.767|1.384|<0.001
92368643|NCT01519791|184641527|SUPERIORITY_OR_OTHER||Hodges-Lehmann point estimate of shift|-0.978|||<|0.001|TWO_SIDED|95.0|-1.005|-0.5|||ANCOVA on ranks||"ANCOVA model on the ranks with the terms for treatment, region, and time since RA diagnosis at Baseline (≤4 months or \>4 months) as factors and rank Baseline value as a covariate.~Confidence Interval is an asymptotic Moses CI."|"In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in the following hierarchical order (each at a 2-sided 95 % alpha level):~1. Primary: sustained DAS28(ESR) remission at Week 52~2. Key secondary: sustained DAS28(ESR) LDA at Week 52~3. ACR50 response at Week 52 in relation to Baseline~4. Change from Baseline in HAQ-DI at Week 52~5. Change from Baseline in mTSS at Week 52"||-0.500|-1.005|<0.001
92368644|NCT01519791|184641532|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.446|||=|0.023|TWO_SIDED|95.0|1.052|1.989|||Regression, Logistic||The Odds ratio was estimated from a logistic regression model including terms for treatment, region and stratification factor. Nonresponder imputation (NRI) was used.|"In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in the following hierarchical order (each at a 2-sided 95 % alpha level):~1. Primary: sustained DAS28(ESR) remission at Week 52~2. Key secondary: sustained DAS28(ESR) LDA at Week 52~3. ACR50 response at Week 52 in relation to Baseline~4. Change from Baseline in HAQ-DI at Week 52~5. Change from Baseline in mTSS at Week 52"||1.989|1.052|=0.023
92167964|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC =1.56 in the 11Pn Group and N= 200 and Adjusted GMC= 1.40 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.89|||||TWO_SIDED|95.9|0.76|1.06||||||ANTI-9V serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.06|0.76|
92368645|NCT01519791|184641544|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|-0.177|STANDARD_ERROR_OF_MEAN|0.049|<|0.001|TWO_SIDED|95.0|-0.273|-0.082|||ANCOVA||The CfB in HAQ-DI at Week 52 was analyzed using an ANCOVA model with terms for treatment, region, and time since Rheumatoid Arthritis (RA) diagnosis at Baseline (≤4 months or \>4 months) as factors and Baseline value as a covariate.|"In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in the following hierarchical order (each at a 2-sided 95 % alpha level):~1. Primary: sustained DAS28(ESR) remission at Week 52~2. Key secondary: sustained DAS28(ESR) LDA at Week 52~3. ACR50 response at Week 52 in relation to Baseline~4. Change from Baseline in HAQ-DI at Week 52~5. Change from Baseline in mTSS at Week 52"||-0.082|-0.273|<0.001
92368646|NCT01525862|184641556|SUPERIORITY||||||<|0.0001||||||P values \<0.05 are considered statistically significant.|t-test, 2 sided|||||||<0.0001
92167965|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC = 4.22 in the 11Pn Group and N= 201 and Adjusted GMC= 4.06 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.96|||||TWO_SIDED|95.9|0.81|1.15||||||ANTI-14 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.15|0.81|
92368647|NCT01709110|184641601|SUPERIORITY||Odds Ratio (OR)|0.4071||||9.4e-05|TWO_SIDED|95.0|0.256|0.647|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.647|0.256|0.000094
92368648|NCT01709110|184641601|SUPERIORITY||Risk Ratio (RR)|0.4431||||9.4e-05|TWO_SIDED|95.0|0.29|0.677|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.677|0.290|0.000094
92368649|NCT01709110|184641602|SUPERIORITY||Odds Ratio (OR)|0.4187||||7.5e-05|TWO_SIDED|95.0|0.269|0.652|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.652|0.269|0.000075
92368650|NCT01709110|184641602|SUPERIORITY||Risk Ratio (RR)|0.4561||||7.5e-05|TWO_SIDED|95.0|0.305|0.682|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.682|0.305|0.000075
92368651|NCT01709110|184641603|SUPERIORITY||Stratified Hazard Ratio (HR)|0.4831||||0.000869|TWO_SIDED|95.0|0.316|0.739|||Stratified Log Rank|Stratified Log Rank test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.|The Stratified Hazard Ratio estimate and corresponding 95% CI were obtained from the number of observed and expected events as part of the stratified log-rank test calculations.|||0.739|0.316|0.000869
92226515|NCT00523991|184354839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.912||95.0|-7.9|7.06||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||7.06|-7.90|0.912
92226516|NCT00523991|184354840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.79||||0.162||95.0|-1.55|9.13||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||9.13|-1.55|0.162
92368652|NCT01709110|184641604|SUPERIORITY||Stratified Hazard Ratio (HR)|0.6553||||0.099023|TWO_SIDED|95.0|0.39|1.101|||Stratified Log Rank|Stratified Log Rank test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.|The Stratified Hazard Ratio estimate and corresponding 95% CI were obtained from the number of observed and expected events as part of the stratified log-rank test calculations.|||1.101|0.390|0.099023
92368653|NCT01709110|184641605|SUPERIORITY||Stratified Hazard Ratio (HR)|0.5786||||0.062432|TWO_SIDED|95.0|0.318|1.052|||Stratified Log Rank|Stratified Log Rank test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.|The Stratified Hazard Ratio estimate and corresponding 95% CI were obtained from the number of observed and expected events as part of the stratified log-rank test calculations.|||1.052|0.318|0.062432
92368654|NCT01709110|184641606|SUPERIORITY||Odds Ratio (OR)|0.3812|||<|0.001|TWO_SIDED|95.0|0.237|0.614|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.614|0.237|<0.001
92368655|NCT01709110|184641606|SUPERIORITY||Risk Ratio (RR)|0.4173|||<|0.001|TWO_SIDED|95.0|0.27|0.646|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.646|0.270|<0.001
92368656|NCT01709110|184641607|SUPERIORITY||Odds Ratio (OR)|0.1593||||0.007|TWO_SIDED|95.0|0.035|0.728|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.728|0.035|0.007
92368657|NCT01709110|184641607|SUPERIORITY||Risk Ratio (RR)|0.1643||||0.007|TWO_SIDED|95.0|0.036|0.744|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.744|0.036|0.007
92368658|NCT01709110|184641608|SUPERIORITY||Stratified Hazard Ratio (HR)|0.696||||0.078|TWO_SIDED|95.0|0.461|1.05|||Stratified Log Rank|Stratified Log Rank test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.|The Stratified Hazard Ratio estimates and corresponding 95% CI were obtained from the number of observed and expected events as part of the stratified log-rank test calculations.|||1.050|0.461|0.078
92368659|NCT01709110|184641609|SUPERIORITY||Least Squares Mean|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.093|TWO_SIDED|95.0|-0.28|0.02||Model included the following fixed effects: treatment, visit, treatment-by-visit interaction, antecedent of recent clinical vertebral fractures, recent use of bisphosphonate and baseline body height(cm).|Mixed Models Analysis|An unstructured covariance matrix was assumed to account for the correlation between observations of the same participant.|Treatment difference was calculated as Teriparatide - Risedronate.|||0.02|-0.28|0.093
92368660|NCT01709110|184641610|SUPERIORITY||Least Squares Mean|-0.09|STANDARD_ERROR_OF_MEAN|0.17||0.585|TWO_SIDED|95.0|-0.42|0.24||Model included the following fixed effects: treatment, visit, treatment-by-visit interaction, antecedent of recent clinical vertebral fractures, recent use of bisphosphonate and baseline back pain (no pain - worst pain \[0-10\]).|Mixed Models Analysis|An unstructured covariance matrix was assumed to account for the correlation between observations of the same participant.|Treatment difference was calculated as Teriparatide - Risedronate.|||0.24|-0.42|0.585
92368661|NCT01709110|184641611|SUPERIORITY||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.757|TWO_SIDED|95.0|-0.03|0.02||Model included the following fixed effects: treatment, visit, treatment-by-visit interaction, antecedent of recent clinical vertebral fractures, recent use of bisphosphonate baseline EQ-5D-5L (UK).|Mixed Models Analysis|An unstructured covariance matrix was assumed to account for the correlation between observations of the same participant.|Treatment difference was calculated as Teriparatide - Risedronate.|||0.02|-0.03|0.757
92368662|NCT01709110|184641612|SUPERIORITY||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.694|TWO_SIDED|95.0|-0.02|0.01||Model included the following fixed effects: treatment, visit, treatment-by-visit interaction, antecedent of recent clinical vertebral fractures, recent use of bisphosphonate baseline EQ-5D-5L (US).|Mixed Models Analysis|An unstructured covariance matrix was assumed to account for the correlation between observations of the same participant.|Treatment difference was calculated as Teriparatide - Risedronate.|||0.01|-0.02|0.694
92368663|NCT01204905|184641633|OTHER|This was a pilot study with a small sample population. There were no power calculations performed.|||||||||||||||||The percentage of patients with HIV-1 viral loads less than 50 c/ml at 48 weeks.|||
92368664|NCT01204905|184641634|OTHER|There were no power calculations performed due to the size of the pilot study.|||||||||||||||||Number of weeks to virologic suppression|||
92368665|NCT00104416|184641642|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|31.6|||<|0.0001||95.0|15.8|48.1|||Cochran-Mantel-Haenszel|||||48.1|15.8|<0.0001
92368666|NCT02767869|184641673|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
92167966|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC =2.81 in the 11Pn Group and N= 201 and Adjusted GMC= 2.57 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.92|||||TWO_SIDED|95.9|0.74|1.14||||||ANTI-18C serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.14|0.74|
92368667|NCT02767869|184641674|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.530
92368668|NCT02767869|184641675|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034|||||||Wilcoxon (Mann-Whitney)|||||||0.034
92368669|NCT02767869|184641676|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.050
92368670|NCT02767869|184641677|SUPERIORITY_OR_OTHER_LEGACY|||||||0.799|||||||Wilcoxon (Mann-Whitney)|||||||0.799
92368671|NCT02767869|184641678|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||||||0.047
92368672|NCT02767869|184641679|SUPERIORITY_OR_OTHER_LEGACY|||||||0.878|||||||Wilcoxon (Mann-Whitney)|||||||0.878
92368673|NCT02767869|184641680|SUPERIORITY_OR_OTHER_LEGACY|||||||0.919|||||||Wilcoxon (Mann-Whitney)|||||||0.919
92368674|NCT02767869|184641681|SUPERIORITY_OR_OTHER_LEGACY|||||||0.254|||||||Wilcoxon (Mann-Whitney)|||||||0.254
92368675|NCT02767869|184641682|SUPERIORITY_OR_OTHER_LEGACY|||||||0.347|||||||Wilcoxon (Mann-Whitney)|||||||0.347
92368676|NCT02767869|184641683|SUPERIORITY_OR_OTHER_LEGACY|||||||0.227|||||||Wilcoxon (Mann-Whitney)|||||||0.227
92368677|NCT02767869|184641684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.410
92368678|NCT02767869|184641685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
92368679|NCT03248531|184641727|OTHER||Mean posterior difference|31.2|STANDARD_DEVIATION|10.1|||TWO_SIDED|95.0|11.0|50.4|||Regression, Logistic|||Results were based on a Bayesian logistic regression model where the number of responders were assumed to follow a binomial distribution. Treatment and Baseline Hurley Stage were included as predictors in the model. 95% credible intervals were presented for the bimekizumab (BKZ) vs placebo (PBO) comparison.||50.4|11.0|
92368680|NCT03248531|184641727|OTHER||Mean posterior difference|-2.2|STANDARD_DEVIATION|10.6|||TWO_SIDED|60.0|-11.2|6.6|||Regression, Logistic|||Results were based on a Bayesian logistic regression model where the number of responders were assumed to follow a binomial distribution. Treatment and Baseline Hurley Stage were included as predictors in the model. 60% credible intervals were presented for the BKZ vs adalimumab (ADA) comparison.||6.6|-11.2|
92368681|NCT03248531|184641727|OTHER||Pr [Diff>0%] (%)|99.8|||||||||||Regression, Logistic|||Results were based on a Bayesian logistic regression model where the number of responders were assumed to follow a binomial distribution. Treatment and Baseline Hurley Stage were included as predictors in the model.||||
92226517|NCT00523991|184354841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.59||||0.471||95.0|-4.51|9.69||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||9.69|-4.51|0.471
92226518|NCT00523991|184354842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.961||95.0|-6.52|6.84||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||6.84|-6.52|0.961
92167967|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC = 3.70 in the 11Pn Group and N= 202 and Adjusted GMC= 3.68 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|1.0|||||TWO_SIDED|95.9|0.81|1.23||||||ANTI-19F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.23|0.81|
92226519|NCT00523991|184354843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.158||95.0|-11.73|1.94||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||1.94|-11.73|0.158
92226520|NCT00523991|184354845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.74||||0.469||95.0|-3.01|6.49||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||6.49|-3.01|0.469
92226521|NCT00523991|184354846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.79||||0.079||95.0|-0.68|12.26||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||12.26|-0.68|0.079
92368682|NCT03248531|184641727|OTHER||Pr[Diff > 0%](%)|42.1|||||||||||Regression, Logistic|||Results were based on a Bayesian logistic regression model where the number of responders were assumed to follow a binomial distribution. Treatment and Baseline Hurley Stage were included as predictors in the model.||||
92368683|NCT02110485|184641789|SUPERIORITY|||||||0.03|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
92368684|NCT02110485|184641790|OTHER|||||||0.27|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.27
92405479|NCT02205736|184701230|SUPERIORITY|||||||0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 17 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0001
92226522|NCT00523991|184354847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1||||0.051||95.0|-0.02|8.23||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||8.23|-0.02|0.051
92226523|NCT00523991|184354848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.43||||0.075||95.0|-0.35|7.21||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||7.21|-0.35|0.075
92226524|NCT00523991|184354849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.306||95.0|-1.39|4.38||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms for treatment, site, and work productivity at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||4.38|-1.39|0.306
92368685|NCT02110485|184641791|OTHER|||||||0.67|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.67
92368686|NCT02110485|184641792|OTHER|||||||0.17|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.17
92368687|NCT02110485|184641793|OTHER|||||||0.84|||||||Fisher Exact|||||||.84
92368688|NCT02110485|184641794|OTHER|||||||0.99|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.99
92368689|NCT00595881|184641805|SUPERIORITY_OR_OTHER||Difference in sensitivity|-1.7|||||TWO_SIDED|95.0|-3.4|0.0||"We calculated the differences between the sensitivities and specificities. The difference in sensitivity between the clinical exam alone vs clinical exam + ultrasound was -1.7% (-3.4%, 0%).~The difference in specificity was -2.8% (-9.7%, 4.1%)."|Mixed effects logistic regression|We used the bootstrap method to obtain valid confidence intervals and compare sensitivity and specificity for the 2 tests.|The clinical exam alone was compared to the clinical exam + ultrasound.|See sample size calculations already entered. Null hypothesis is that there is no difference in the sensitivity or specificity of clinical exam alone compared with clinical exam+ultrasound.||0|-3.4|
92368690|NCT00595881|184641805|SUPERIORITY_OR_OTHER||Difference in specificity|-2.8||||||95.0|-9.7|4.1||Statistical significance was defined as a CI surrounding the difference between groups not including 0.||as previously described for sensitivity||as previously described for sensitivity||4.1|-9.7|
92226525|NCT00523991|184354850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33||||0.363||95.0|-7.39|2.73||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||2.73|-7.39|0.363
92226526|NCT00523991|184354852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.668||95.0|-0.03|0.02||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms for treatment, site, and logarithm of baseline value Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.02|-0.03|0.668
92368691|NCT02473471|184641806|OTHER|The sample size was calculated based on a type I error frequency of 5%. According to the power analysis and assuming a large effect size difference between groups (effect size= 0.8), the power analysis yielded 28 subjects per group at a conventional alpha level (p = 0.05) and desired power (1 - β) of 0.90||||||0.77|||||||t-test, 2 sided|||||||0.77
92368692|NCT02473471|184641807|OTHER|||||||0.5|||||||t-test, 2 sided|||||||0.50
92368693|NCT02473471|184641808|OTHER|||||||0.76|||||||t-test, 2 sided|||||||0.76
92368694|NCT02473471|184641809|OTHER|||||||0.56|||||||t-test, 2 sided|||||||0.56
92368695|NCT02473471|184641810|OTHER|||||||0.88|||||||t-test, 2 sided|||||||0.88
92368696|NCT02473471|184641811|OTHER|||||||0.74||||||There was no significant difference in tooth movement between control and MOP sides from baseline to 1st, 2nd and 3rd months. P Value \< 0.05 was considered statistically significant.|t-test, 2 sided|||||||0.74
92368697|NCT02473471|184641812|OTHER|||||||0.59|||||||t-test, 2 sided|||Root length at baseline.||||0.59
92368698|NCT02473471|184641812|OTHER|||||||0.48|||||||t-test, 2 sided|||Root length at 3 months||||0.48
92368699|NCT02473471|184641813|OTHER|||||||0.388|||||||t-test, 2 sided|||Immediate after intervention||||0.388
92368700|NCT02473471|184641813|OTHER|||||||0.092|||||||t-test, 2 sided|||1 hour after intervention||||0.092
92368701|NCT02473471|184641813|OTHER|||||||0.1|||||||t-test, 2 sided|||12 hour after intervention||||0.100
92368702|NCT02473471|184641813|OTHER|||||||0.302|||||||t-test, 2 sided|||Day 1 after intervention||||0.302
92368703|NCT02473471|184641813|OTHER|||||||0.582|||||||t-test, 2 sided|||Day 3 after intervention||||0.582
92368704|NCT02473471|184641813|OTHER|||||||0.743|||||||t-test, 2 sided|||Day 5 after intervention||||0.743
92368705|NCT02473471|184641813|OTHER|||||||0.809|||||||t-test, 2 sided|||Day 7 after intervention||||0.809
92368706|NCT02473471|184641814|OTHER|||||||0.09|||||||t-test, 2 sided|||Day 1||||0.09
92368707|NCT02473471|184641814|OTHER|||||||0.29|||||||t-test, 2 sided|||Day 3||||0.29
92368708|NCT02473471|184641814|OTHER|||||||0.57|||||||t-test, 2 sided|||Day 5||||0.57
92368709|NCT02473471|184641814|OTHER|||||||0.82|||||||t-test, 2 sided|||Day 7||||0.82
92368710|NCT02473471|184641815|OTHER|||||||0.27|||||||t-test, 2 sided|||Day 1||||0.27
92368711|NCT02473471|184641815|OTHER|||||||0.37|||||||t-test, 2 sided|||Day 3||||0.37
92368712|NCT02473471|184641815|OTHER|||||||0.33|||||||t-test, 2 sided|||Day 5||||0.33
92368713|NCT02473471|184641815|OTHER||||||>|0.05|||||||t-test, 2 sided|||Day 7||||> 0.05
92368714|NCT02473471|184641816|OTHER|||||||0.05|||||||t-test, 2 sided|||Day 1||||0.05
92368715|NCT02473471|184641816|OTHER|||||||0.47|||||||t-test, 2 sided|||Day 3||||0.47
92368716|NCT02473471|184641816|OTHER|||||||0.09|||||||t-test, 2 sided|||Day 5||||0.09
92368717|NCT02473471|184641816|OTHER|||||||0.16|||||||t-test, 2 sided|||||||0.16
92368718|NCT02473471|184641817|OTHER|||||||0.18|||||||t-test, 2 sided|||Day 1||||0.18
92368719|NCT02473471|184641817|OTHER|||||||0.57|||||||t-test, 2 sided|||Day 3||||0.57
92368720|NCT02473471|184641817|OTHER|||||||0.3|||||||t-test, 2 sided|||Day 5||||0.30
92368721|NCT02473471|184641817|OTHER|||||||0.56|||||||t-test, 2 sided|||Day 7||||0.56
92368722|NCT02473471|184641818|OTHER||||||<|0.05|||||||Descriptive statistics|||||||< 0.05
92368723|NCT01181804|184641834|NON_INFERIORITY_OR_EQUIVALENCE|Comparison of boceprevir tablet versus capsule used a mixed-effects model with fixed effects for formulation, sequence, and period, and a random effect for participant within sequence. The geometric mean ratio (GMR) of boceprevir tablet to boceprevir capsule is presented with two-sided 90% CIs. Equivalence of formulations was signified by the GMR falling within prespecified bioequivalence bounds.|Least Squares Geometric Mean Ratio|1.11|||||TWO_SIDED|90.0|1.07|1.15|||ANOVA|||||1.15|1.07|
92368724|NCT01181804|184641835|NON_INFERIORITY_OR_EQUIVALENCE|Comparison of boceprevir tablet versus capsule used a mixed-effects model with fixed effects for formulation, sequence, and period, and a random effect for participant within sequence. The geometric mean ratio (GMR) of boceprevir tablet to boceprevir capsule is presented with two-sided 90% CIs. Equivalence of formulations was signified by the GMR falling within prespecified bioequivalence bounds.|Least Squares Geometric mean ratio|1.43|||||TWO_SIDED|90.0|1.32|1.54|||ANOVA|||||1.54|1.32|
92368725|NCT01181804|184641836|NON_INFERIORITY_OR_EQUIVALENCE|Comparison of boceprevir tablet versus capsule used a mixed-effects model with fixed effects for formulation, sequence, and period, and a random effect for participant within sequence. The geometric mean ratio (GMR) of boceprevir tablet to boceprevir capsule is presented with two-sided 90% CIs. Equivalence of formulations was signified by the GMR falling within prespecified bioequivalence bounds.|Least Squares Geometric mean ratio|1.1|||||TWO_SIDED|95.0|1.06|1.14|||ANOVA|||||1.14|1.06|
92368726|NCT01181804|184641837|NON_INFERIORITY_OR_EQUIVALENCE|Comparison of boceprevir tablet versus capsule used a mixed-effects model with fixed effects for formulation, sequence, and period, and a random effect for participant within sequence. The geometric mean ratio (GMR) of boceprevir tablet to boceprevir capsule is presented with two-sided 90% CIs. Equivalence of formulations was signified by the GMR falling within prespecified bioequivalence bounds.|Least Squares Geometric mean ratio|1.15|||||TWO_SIDED|90.0|1.09|1.21|||ANOVA|||||1.21|1.09|
92368727|NCT00191945|184641864|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.9|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|-11.0|-4.8|||Mixed Models Analysis|Mixed Model Repeated Measures analysis method: treatment, study site, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction.|Least Squares Mean difference at week 12 (Atomoxetine minus Placebo)|||-4.8|-11.0|<0.001
92167968|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC = 0.62 in the 11Pn Group and N= 199 and Adjusted GMC= 0.71 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|1.15|||||TWO_SIDED|95.9|0.89|1.48||||||ANTI-23F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.48|0.89|
92167969|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations/titres, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=217 and Adjusted GMC =1.61 in the 11Pn Group and N= 206 and Adjusted GMC= 2.75 for the Prevnar13 Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|1.71|||||TWO_SIDED|95.9|1.44|2.03||||||ANTI-19A serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||2.03|1.44|
92226527|NCT00523991|184354853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.78||95.0|-0.02|0.03||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.03|-0.02|0.780
92226528|NCT00523991|184354854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.61||95.0|-0.03|0.02||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.02|-0.03|0.610
92226529|NCT00523991|184354855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.554||95.0|-0.02|0.04||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.04|-0.02|0.554
92405480|NCT02205736|184701230|SUPERIORITY|||||||0.1138||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 18 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.1138
92405481|NCT02205736|184701230|SUPERIORITY|||||||0.0011||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 19 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0011
92167970|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=207 and Adj. GMC =1.58 in 12Pn Group and N= 203 and Adj. GMC= 1.35 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.86||||||95.8|0.72|1.02||||||ANTI-1 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.02|0.72|
92226530|NCT00523991|184354856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.549||95.0|-0.02|0.04||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.04|-0.02|0.549
92226531|NCT00523991|184354857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.568||95.0|-0.02|0.04||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.04|-0.02|0.568
92226532|NCT00523991|184354859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.358||95.0|-0.18|0.07||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.07|-0.18|0.358
92368728|NCT00191945|184641865|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.5|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-9.5|-3.6|||Mixed Models Analysis|Mixed Model Repeated Measures analysis method: treatment, study site, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction.|Least Squares Mean difference at Week 9 (Atomoxetine - Placebo)|A gatekeeper strategy was employed for sequentially testing the secondary hypotheses using a REML-based Mixed-Model Repeated Measures (MMRM) technique as defined for the primary efficacy analyses. If primary hypothesis is significant at 0.05 (2-sided), first secondary hypothesis will be tested at Visit 6 from MMRM. If comparison is significant, subsequent secondary hypotheses will be tested in sequence until first null hypothesis fails to be rejected.||-3.6|-9.5|<0.001
92368729|NCT00191945|184641866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.2|STANDARD_ERROR_OF_MEAN|1.5||0.0009||95.0|-8.2|-2.2|||Mixed Models Analysis|Mixed Model Repeated Measures analysis method: treatment, study site, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction.|Least Squares Mean difference at 6 weeks (Atomoxetine - Placebo)|A gatekeeper strategy was employed for sequentially testing the secondary hypotheses using a REML-based Mixed-Model Repeated Measures (MMRM) technique as defined for the primary efficacy analyses. If primary hypothesis is significant at 0.05 (2-sided), first secondary hypothesis will be tested at Visit 6 from MMRM. If comparison is significant, subsequent secondary hypotheses will be tested in sequence until first null hypothesis fails to be rejected.||-2.2|-8.2|0.0009
92167971|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =1.94 in 12Pn Group and N= 203 and Adj. GMC= 1.66 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.86||||||95.8|0.7|1.05||||||ANTI-4 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.05|0.70|
92167972|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =2.37 in 12Pn Group and N= 201 and Adj. GMC= 2.16 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.91|||||TWO_SIDED|95.8|0.78|1.07||||||ANTI-5 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.07|0.78|
92168779|NCT02528188|184227108|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.11||0.0148|TWO_SIDED|95.0|-0.46|-0.05||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.46|0.0148
92368730|NCT00191945|184641867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.8|STANDARD_ERROR_OF_MEAN|1.3||0.0033||95.0|-6.4|-1.3|||Mixed Models Analysis|Mixed Model Repeated Measures analysis method: treatment, study site, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction.|Least Squares Mean difference at 4 weeks (Atomoxetine - Placebo)|A gatekeeper strategy was employed for sequentially testing the secondary hypotheses using a REML-based Mixed-Model Repeated Measures (MMRM) technique as defined for the primary efficacy analyses. If primary hypothesis is significant at 0.05 (2-sided), first secondary hypothesis will be tested at Visit 6 from MMRM. If comparison is significant, subsequent secondary hypotheses will be tested in sequence until first null hypothesis fails to be rejected.||-1.3|-6.4|0.0033
92368731|NCT00191945|184641868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|1.1||0.013||95.0|-4.9|-0.6||P-value is for the difference between groups in the change from 12 weeks minus 6 weeks.|Mixed Models Analysis|Mixed Model Repeated Measures analysis method: treatment, study site, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction.|Least Squares Mean difference between groups (Atomoxetine - Placebo) in change from 6 weeks to 12 weeks|A gatekeeper strategy was employed for sequentially testing the secondary hypotheses using a REML-based Mixed-Model Repeated Measures (MMRM) technique as defined for the primary efficacy analyses. If primary hypothesis is significant at 0.05 (2-sided), first secondary hypothesis will be tested at Visit 6 from MMRM. If comparison is significant, subsequent secondary hypotheses will be tested in sequence until first null hypothesis fails to be rejected.||-0.6|-4.9|0.013
92368732|NCT00191945|184641871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.7|STANDARD_ERROR_OF_MEAN|2.3|<|0.001||95.0|-15.1|-6.2||P-value is for the difference between groups in the change from 12 weeks minus baseline.|Mixed Models Analysis|mixed model repeated measures analyis: treatment, visit, patient, and CPRS-R: S Total score at baseline as covariate, with treatment\*visit interaction|Least Squares Mean difference between groups (Atomoxetine - Placebo) in change from baseline to 12 weeks.|||-6.2|-15.1|<0.001
92368733|NCT00191945|184641872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.47||||0.81||95.0|-3.39|4.33||P-value for Parent: Satisfaction difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||4.33|-3.39|0.810
92368734|NCT00191945|184641872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.96||||0.243||95.0|-1.35|5.29||P-value for Parent: Comfort difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||5.29|-1.35|0.243
92368735|NCT00191945|184641872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.56||||0.419||95.0|-2.26|5.39||P-value for Parent: Resilience difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||5.39|-2.26|0.419
92167973|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =0.56 in 12Pn Group and N= 200 and Adj. GMC= 0.47 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.84||||||95.8|0.64|1.11||||||ANTI-6B serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.11|0.64|
92168780|NCT02528188|184227108|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.1597|TWO_SIDED|95.0|-0.36|0.06||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. Analysis of covariance (ANCOVA) model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.36|0.1597
92226533|NCT00523991|184354860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.219||95.0|-0.2|0.05||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.05|-0.20|0.219
92226534|NCT00523991|184354861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.518||95.0|-0.1|0.19||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.19|-0.10|0.518
92226535|NCT00523991|184354862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.455||95.0|-0.09|0.21||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.21|-0.09|0.455
92226536|NCT00523991|184354863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.927||95.0|-0.16|0.15||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.15|-0.16|0.927
92226537|NCT00523991|184354864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.933||95.0|-0.17|0.16||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.16|-0.17|0.933
92226538|NCT00523991|184354865|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.996
92226539|NCT00523991|184354866|SUPERIORITY_OR_OTHER|||||||0.196||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.196
92226540|NCT00523991|184354867|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.800
92226541|NCT00523991|184354868|SUPERIORITY_OR_OTHER|||||||0.215||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.215
92226542|NCT00523991|184354869|SUPERIORITY_OR_OTHER|||||||0.205||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.205
92226543|NCT00523991|184354870|SUPERIORITY_OR_OTHER|||||||0.622||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.622
92226544|NCT00523991|184354871|SUPERIORITY_OR_OTHER|||||||0.446||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.446
92226545|NCT00523991|184354873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.819||95.0|-0.05|0.06||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms for treatment, site, and baseline value Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.06|-0.05|0.819
92226546|NCT00523991|184354874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.204||95.0|-0.1|0.02||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.02|-0.10|0.204
92226547|NCT00523991|184354875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.67||95.0|-0.08|0.05||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.05|-0.08|0.670
92368736|NCT00191945|184641872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.41|||<|0.001||95.0|4.27|12.55||P-value for Parent:Risk Avoidance difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||12.55|4.27|<0.001
92368737|NCT00191945|184641872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.39||||0.042||95.0|0.13|6.65||P-value for Parent:Achievement difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||6.65|0.13|0.042
92368738|NCT00191945|184641872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.36||||0.323||95.0|-4.06|1.35||P-value for Child/Adolescent:Satisfaction difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||1.35|-4.06|0.323
92167974|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=211 and Adj. GMC =2.42 in 12Pn Group and N= 202 and Adj. GMC= 2.17 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.9|||||TWO_SIDED|95.8|0.76|1.06||||||ANTI-7F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.06|0.76|
92368739|NCT00191945|184641872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.92||||0.452||95.0|-1.49|3.34||P-value for Child/Adolescent:Comfort difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||3.34|-1.49|0.452
92368740|NCT00191945|184641872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.91||95.0|-2.59|2.9||P-value for Child/Adolescent:Resilience difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||2.90|-2.59|0.910
92368741|NCT00191945|184641872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.56||||0.006||95.0|1.04|6.08||P-value for Child/Adolescent:Risk Avoidance difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||6.08|1.04|0.006
92405482|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 20 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
92405795|NCT02085161|184701885|SUPERIORITY_OR_OTHER||LSMean Difference|0.302|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|0.165|0.439||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||0.439|0.165|<0.0001
92368742|NCT00191945|184641872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.99||||0.541||95.0|-2.21|4.19||P-value for Child/Adolescent:Achievement difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||4.19|-2.21|0.541
92368743|NCT02063984|184641894|SUPERIORITY||Odds Ratio (OR)|0.42|||||TWO_SIDED|95.0|0.11|1.56|||||Outcome was tested in a zero-inflated negative binomial (ZINB) model|CM+No WMT is the comparison condition||1.56|.11|
92368744|NCT02063984|184641895|SUPERIORITY||Ratio of means|1.56|||||TWO_SIDED|95.0|0.79|3.07|||||Outcome was tested in a zero-inflated negative binomial (ZINB) model|CM+No WMT is the comparison condition||3.07|.79|
92368745|NCT02063984|184641896|SUPERIORITY||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.18|4.82||||||CM+No WMT is the comparison condition||4.82|.18|
92368746|NCT02063984|184641897|SUPERIORITY||Ratio of means|0.92|||||TWO_SIDED|95.0|0.33|2.54|||||Outcome was tested in a zero-inflated negative binomial (ZINB) model|CM+No WMT is the comparison condition||2.54|.33|
92368747|NCT02063984|184641898|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.45|2.45||||||Strategy 1 is the comparison condition||2.45|.45|
92368748|NCT02063984|184641898|SUPERIORITY||Odds Ratio (OR)|2.29|||||TWO_SIDED|95.0|0.84|6.2||||||Strategy 1 is the comparison condition||6.20|.84|
92167975|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =1.78 in 12Pn Group and N= 200 and Adj. GMC= 1.40 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.79|||||TWO_SIDED|95.8|0.67|0.93||||||ANTI-9V serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||0.93|0.67|
92226548|NCT00523991|184354876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.63||95.0|-0.09|0.06||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms for treatment, site, and baseline value Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.06|-0.09|0.630
92368749|NCT02063984|184641898|SUPERIORITY||Odds Ratio (OR)|0.51|||||TWO_SIDED|95.0|0.23|1.13||||||Strategy 1 is the comparison condition||1.13|.23|
92368750|NCT02063984|184641899|SUPERIORITY||Ratio of means|1.21|||||TWO_SIDED|95.0|0.76|1.92||||||Strategy 1 is the comparison condition||1.92|.76|
92368751|NCT02063984|184641899|SUPERIORITY||Ratio of means|0.76|||||TWO_SIDED|95.0|0.49|1.18||||||Strategy 1 is the comparison condition||1.18|.49|
92368752|NCT02063984|184641899|SUPERIORITY||Ratio of means|1.33|||||TWO_SIDED|95.0|0.83|2.15||||||Strategy 1 is the comparison condition||2.15|.83|
92368753|NCT01763333|184641937|SUPERIORITY_OR_OTHER||Slope|0.8728|||||TWO_SIDED|95.0|0.6942|1.0513|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of tablets for Cmax was analysed. The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0513|0.6942|
92368754|NCT01763333|184641937|SUPERIORITY_OR_OTHER||Slope|0.9341|||||TWO_SIDED|95.0|0.8277|1.0405|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of solution for Cmax was analysed. The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0405|0.8277|
92368755|NCT01763333|184641937|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|112.74|||||TWO_SIDED|90.0|95.579|132.993|||||Adjusted gMean ratio.|Relative bioavailability comparison Tab. fed (T1): Tab. fasted (R1) for Cmax. The per protocol set for the evaluation of relative bioavailability of T1 vs R1 (PPS-BA-T1-R1) was used.||132.993|95.579|
92368756|NCT01763333|184641937|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|52.66|||||TWO_SIDED|90.0|40.488|68.499|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2) : Sol. fasted (R2) for Cmax. The per protocol set for the evaluation of relative bioavailability of T2 vs R2 (PPS-BA-T2-R2) was used.||68.499|40.488|
92368757|NCT01763333|184641937|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|239.63|||||TWO_SIDED|90.0|197.445|290.83|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fasted (R2): Tab. fasted (R1) for Cmax. The per protocol set for the evaluation of relative bioavailability of R2 vs R1 (PPS-BA-R2-R1) was used.||290.830|197.445|
92368758|NCT01763333|184641937|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|105.47|||||TWO_SIDED|90.0|85.427|130.208|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2): Tab. fed (T1) for Cmax. The per protocol set for the evaluation of relative bioavailability of T2 vs T1 (PPS-BA-T2-T1) was used.||130.208|85.427|
92368759|NCT01763333|184641939|SUPERIORITY_OR_OTHER||Slope|0.8341|||||TWO_SIDED|95.0|0.6485|1.0198|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose).Dose proportionality of tablets for AUC0-inf was analysed.The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0198|0.6485|
92167976|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=209 and Adj. GMC =4.48 in 12Pn Group and N= 201 and Adj. GMC= 4.10 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.91|||||TWO_SIDED|95.8|0.77|1.09||||||ANTI-14 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.09|0.77|
92368760|NCT01763333|184641939|SUPERIORITY_OR_OTHER||Slope|0.9149|||||TWO_SIDED|95.0|0.8059|1.0239|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose).Dose proportionality of solution for AUC0-inf was analysed. The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0239|0.8059|
92368761|NCT01763333|184641939|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean Ratio|86.61|||||TWO_SIDED|90.0|76.529|98.029|||||Adjusted gMean ratio.|Relative bioavailability comparison Tab. fed (T1): Tab. fasted (R1) for AUC0-inf. The per protocol set for the evaluation of relative bioavailability of T1 vs R1 (PPS-BA-T1-R1) was used.||98.029|76.529|
92368762|NCT01763333|184641939|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|74.44|||||TWO_SIDED|90.0|66.322|83.562|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2) : Sol. fasted (R2) for AUC0-inf.The per protocol set for the evaluation of relative bioavailability of T2 vs R2 (PPS-BA-T2-R2) was used.||83.562|66.322|
92368763|NCT01763333|184641939|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|137.25|||||TWO_SIDED|90.0|119.708|157.353|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fasted (R2): Tab. fasted (R1) for AUC0-inf.The per protocol set for the evaluation of relative bioavailability of R2 vs R1 (PPS-BA-R2-R1) was used.||157.353|119.708|
92368764|NCT01763333|184641939|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|116.48|||||TWO_SIDED|90.0|111.462|121.724|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2): Tab. fed (T1) for AUC0-inf.The per protocol set for the evaluation of relative bioavailability of T2 vs T1 (PPS-BA-T2-T1) was used.||121.724|111.462|
92368765|NCT01763333|184641940|SUPERIORITY_OR_OTHER||Slope|0.8428|||||TWO_SIDED|95.0|0.658|1.0275|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of tablets for AUC 0- tz was analysed. The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0275|0.6580|
92368766|NCT01763333|184641940|SUPERIORITY_OR_OTHER||Slope|0.9307|||||TWO_SIDED|95.0|0.8187|1.0426|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1.|This was non confirmatory testing (Single dose). Dose proportionality of solution for AUC0-tz was analysed. The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0426|0.8187|
92368767|NCT01763333|184641940|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean)|gMean Ratio|86.16|||||TWO_SIDED|90.0|75.735|98.027|||||Adjusted geometric mean (gMean) ratio.|Relative bioavailability comparison Tab. fed (T1) : Tab. fasted (R1) for AUC 0-tz. The per protocol set for the evaluation of relative bioavailability of T1 vs R1 (PPS-BA-T1-R1) was used.||98.027|75.735|
92167977|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=209 and Adj. GMC =2.55 in 12Pn Group and N= 201 and Adj. GMC= 2.57 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|1.01|||||TWO_SIDED|95.8|0.81|1.26||||||ANTI-18C serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.26|0.81|
92167978|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=211 and Adj. GMC =3.29 in 12Pn Group and N= 202 and Adj. GMC= 3.67 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|1.12|||||TWO_SIDED|95.8|0.9|1.38||||||ANTI-19F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.38|0.90|
92167979|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =0.68 in 12Pn Group and N= 199 and Adj. GMC= 0.71 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI..|Adjusted GMCs ratio|1.05|||||TWO_SIDED|95.8|0.81|1.37||||||ANTI-23F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.37|0.81|
92368768|NCT01763333|184641940|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean)|gMean ratio|74.42|||||TWO_SIDED|90.0|65.979|83.941|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2) : Sol. fasted (R2) for AUC 0-tz.The per protocol set for the evaluation of relative bioavailability of T2 vs R2 (PPS-BA-T2-R2) was used.||83.941|65.979|
92368769|NCT01763333|184641940|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|137.2|||||TWO_SIDED|90.0|119.611|157.374|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fasted (R2): Tab. fasted (R1) for AUC 0-tz.The per protocol set for the evaluation of relative bioavailability of R2 vs R1(PPS-BA-R2-R1) was used.||157.374|119.611|
92368770|NCT01763333|184641940|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|116.83|||||TWO_SIDED|90.0|111.814|122.079|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2): Tab. fed (T1) for AUC 0-tz.The per protocol set for the evaluation of relative bioavailability of T2 vs T1 (PPS-BA-T2-T1) was used.||122.079|111.814|
92167980|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=210 and Adj. GMC =1.09 in 12Pn Group and N= 214 and Adj. GMC= 2.07 for Prevnar13 Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|1.9|||||TWO_SIDED|95.8|1.51|2.39||||||ANTI-6A serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A\&19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||2.39|1.51|
92167981|NCT01616459|184224903|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =1.19 in 12Pn Group and N= 206 and Adj. GMC= 2.76 for Prevnar13 Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|2.32|||||TWO_SIDED|95.8|1.94|2.77||||||ANTI-19A serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A\&19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||2.77|1.94|
92167982|NCT01616459|184224904|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.98|||||TWO_SIDED|95.9|-3.89|1.36||||||ANTI-1 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||1.36|-3.89|
92226549|NCT00523991|184354877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.704||95.0|-0.1|0.07||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms for treatment, site, and baseline value Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.07|-0.10|0.704
92226550|NCT00523991|184354878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.579||95.0|-0.11|0.06||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.06|-0.11|0.579
92226551|NCT00523991|184354880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.54||||0.916||95.0|-464.02|416.94||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||416.94|-464.02|0.916
92226552|NCT00523991|184354881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.42||||0.899||95.0|-520.19|457.34||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||457.34|-520.19|0.899
92226553|NCT00523991|184354882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|181.99||||0.495||95.0|-341.75|705.73||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||placebo versus tiotropium||705.73|-341.75|0.495
92368771|NCT03583359|184641943|SUPERIORITY||Difference in Responder Rate|66.8|||<|0.0001|TWO_SIDED|95.0|53.7|75.2|||Fisher's exact test|The Fisher's exact test was utilized to test the superiority of treatment (Radiesse \[+\]) over control group.|Two-sided Newcombe confidence intervals (CIs) were calculated for difference in responder rate.|||75.2|53.7|<0.0001
92226554|NCT00523991|184354883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|258.83||||0.318||95.0|-250.37|768.03||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||768.03|-250.37|0.318
92226555|NCT00523991|184354884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|211.18||||0.45||95.0|-338.04|760.39||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||760.39|-338.04|0.450
92368772|NCT01625416|184641952|SUPERIORITY|||||||0.05|||||||Chi-squared|Chi square (2) =5.9, p=0.05|||This chi-square analysis was derived from a mixed repeated measures model comparing intervention results with control results over 4 time points.|||0.05
92368773|NCT01625416|184641953|SUPERIORITY|||||||0.69|||||||Chi-squared|Chi square(2) = 0.74, p = 0.69|||This chi-square analysis was derived from a mixed repeated measures model comparing intervention results with control results over 4 time points.|||0.69
92368774|NCT01625416|184641956|SUPERIORITY|||||||0.97||||||Chi square (2) = 0.06, p = 0.97|Chi-squared||||This chi-square analysis was derived from a mixed repeated measures model comparing intervention results with control results over 4 time points.|||0.97
92368775|NCT01625416|184641957|SUPERIORITY|||||||0.71|||||||Chi-squared|Chi-Square (2) =0.68, p=0.71|||This chi-square analysis was derived from a mixed repeated measures model comparing intervention results with control results over 4 time points.|||0.71
92368776|NCT01831466|184641958|SUPERIORITY_OR_OTHER||Difference in response rates|3.9|STANDARD_ERROR_OF_MEAN|6.36||0.5425|TWO_SIDED|80.0|-4.3|12.0|||Cochran-Mantel-Haenszel|||||12.0|-4.3|0.5425
92368777|NCT01831466|184641958|SUPERIORITY_OR_OTHER||Difference in response rates|-4.0|STANDARD_ERROR_OF_MEAN|5.87||0.4976|TWO_SIDED|80.0|-11.5|3.5|||Cochran-Mantel-Haenszel|||||3.5|-11.5|0.4976
92368778|NCT01831466|184641958|SUPERIORITY_OR_OTHER||Difference in response rates|3.3|STANDARD_ERROR_OF_MEAN|6.36||0.6039|TWO_SIDED|80.0|-4.9|11.5|||Cochran-Mantel-Haenszel|||||11.5|-4.9|0.6039
92368779|NCT01831466|184641958|SUPERIORITY_OR_OTHER||Difference in response rate|4.0|STANDARD_ERROR_OF_MEAN|6.34||0.5279|TWO_SIDED|80.0|-4.1|12.1|||Cochran-Mantel-Haenszel|||||12.1|-4.1|0.5279
92368780|NCT01831466|184641959|SUPERIORITY_OR_OTHER||Difference in response rates|10.8|STANDARD_ERROR_OF_MEAN|5.99||0.071|TWO_SIDED|80.0|3.1|18.5|||Cochran-Mantel-Haenszel|||||18.5|3.1|0.0710
92368781|NCT01831466|184641959|SUPERIORITY_OR_OTHER||Difference in response rates|-1.2|STANDARD_ERROR_OF_MEAN|5.2||0.8175|TWO_SIDED|80.0|-7.9|5.5|||Cochran-Mantel-Haenszel|||||5.5|-7.9|0.8175
92368782|NCT01831466|184641959|SUPERIORITY_OR_OTHER||Difference in response rates|11.0|STANDARD_ERROR_OF_MEAN|5.63||0.0513|TWO_SIDED|80.0|3.8|18.2|||Cochran-Mantel-Haenszel|||||18.2|3.8|0.0513
92405483|NCT02205736|184701230|SUPERIORITY|||||||0.0522||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 21 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0522
92167983|NCT01616459|184224904|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9% Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-1.08|||||TWO_SIDED|95.9|-4.94|2.45||||||ANTI-4 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||2.45|-4.94|
92226556|NCT00523991|184354885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.46||||0.858||95.0|-512.2|615.12||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||615.12|-512.20|0.858
92226557|NCT01700192|184354902|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.2|-0.4|||Wilcoxon (Mann-Whitney)|||||-0.40|-1.20|<0.001
92368783|NCT01831466|184641959|SUPERIORITY_OR_OTHER||Difference in response rates|6.7|STANDARD_ERROR_OF_MEAN|5.23||0.2021|TWO_SIDED|80.0|0.0|13.4|||Cochran-Mantel-Haenszel|||||13.4|-0.0|0.2021
92368784|NCT02131662|184642007|SUPERIORITY_OR_OTHER||Percentage difference|58.28|||||TWO_SIDED|95.0|44.55|70.94||||||The placebo-adjusted amenorrhea rate was summarized by dose with unconditional 2-sided 95% confidence intervals for each active treatment group. This unconditional confidence interval was calculated by inverting 2 separate one-sided tests of half the nominal significance level each.||70.94|44.55|
92368785|NCT02131662|184642007|SUPERIORITY_OR_OTHER||Percentage difference|52.37|||||TWO_SIDED|95.0|38.8|65.42||||||The placebo-adjusted amenorrhea rate was summarized by dose with unconditional 2-sided 95% confidence intervals for each active treatment group. This unconditional confidence interval was calculated by inverting 2 separate one-sided tests of half the nominal significance level each.||65.42|38.8|
92368786|NCT02131662|184642007|SUPERIORITY_OR_OTHER||Percentage difference|54.01|||||TWO_SIDED|95.0|40.41|66.95||||||The placebo-adjusted amenorrhea rate was summarized by dose with unconditional 2-sided 95% confidence intervals for each active treatment group. This unconditional confidence interval was calculated by inverting 2 separate one-sided tests of half the nominal significance level each.||66.95|40.41|
92368787|NCT02131662|184642007|SUPERIORITY_OR_OTHER||Percentage difference|28.28|||||TWO_SIDED|95.0|15.92|41.5||||||The placebo-adjusted amenorrhea rate was summarized by dose with unconditional 2-sided 95% confidence intervals for each active treatment group. This unconditional confidence interval was calculated by inverting 2 separate one-sided tests of half the nominal significance level each.||41.5|15.92|
92368788|NCT00803595|184642081|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 18 hours (h) was set to assure the superiority of laninamivir octanoate over a putative placebo. A meta-analysis using 3 placebo-controlled trials reported that the difference between the median time to illness alleviation in the placebo and oseltamivir groups was 33.1 h and the 95% confidence interval ranged from 19.1 to 47.1 h. From this, a margin that was less than the lower limit of this 95% CI was selected.|Median Difference (Final Values)|-0.6||||0.748|TWO_SIDED|95.0|-9.9|6.9||2-sided p-value without adjustments for multiple testing|Generalized Wilcoxon Test|||This trial was designed to confirm the efficacy of laninamivir octanoate by showing that the median time to illness alleviation in patients treated with laninamivir octanoate was not \>18 hours longer than that in patients treated with oseltamivir. Sample size of 300 patients in each group was determined to achieve a power of at least 80% to show noninferiority at both dose levels of laninamivir octanoate with use of a Monte Carlo simulation.||6.9|-9.9|0.748
92368789|NCT00803595|184642081|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-12.8||||0.038|TWO_SIDED|95.0|-18.2|-0.4||2-sided p-value without adjustments for multiple testing|Generalized Wilcoxon Test|||Null hypothesis was that there was no difference in the time to illness alleviation||-0.4|-18.2|0.038
92226558|NCT01700192|184354902|SUPERIORITY_OR_OTHER||Treatment Difference Relative to Placebo|-17.2|||||TWO_SIDED|95.0|-25.0|-9.7||||||||-9.7|-25.0|
92226559|NCT01700192|184354905|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.6|||<|0.001|TWO_SIDED|95.0|-1.0|-0.3|||Wilcoxon (Mann-Whitney)|||||-0.30|-1.00|<0.001
92226560|NCT01700192|184354905|SUPERIORITY_OR_OTHER||Treatment Difference Relative to Placebo|-15.5|||||TWO_SIDED|95.0|-24.4|-7.3||||||||-7.3|-24.4|
92226561|NCT01700192|184354906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.154|TWO_SIDED|95.0|-0.35|0.05|||Zero-inflated Log-normal Model|||||0.05|-0.35|0.154
92226562|NCT01700192|184354906|SUPERIORITY_OR_OTHER||Treatment Difference Relative to Placebo|-18.4|||||TWO_SIDED|95.0|-41.0|4.3||||||||4.3|-41|
92226563|NCT01700192|184354907|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.1|||<|0.001|TWO_SIDED|95.0|-1.7|-0.6|||Wilcoxon (Mann-Whitney)|||||-0.60|-1.70|<0.001
92226564|NCT01700192|184354907|SUPERIORITY_OR_OTHER||Treatment Difference Relative to Placebo|-16.7|||||TWO_SIDED|95.0|-24.6|-4.0||||||||-4.0|-24.6|
92226565|NCT01700192|184354908|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-6.1|||<|0.001|TWO_SIDED|95.0|-9.1|-3.1|||Wilcoxon (Mann-Whitney)|||||-3.10|-9.10|<0.001
92368790|NCT00803595|184642081|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 18 hours was set to assure the superiority of laninamivir octanoate over a putative placebo. A meta-analysis using 3 placebo-controlled trials reported that the difference between the median time to illness alleviation in the placebo and oseltamivir groups was 33.1 h and the 95% confidence interval ranged from 19.1 to 47.1 h. From this, a margin that was less than the lower limit of this 95% CI was selected.|Median Difference (Final Values)|12.2||||0.104|TWO_SIDED|95.0|-1.5|17.2|||Generalized Wilcoxon test|||This trial was designed to confirm the efficacy of laninamivir octanoate by showing that the median time to illness alleviation in patients treated with laninamivir octanoate was not \>18 hours longer than that in patients treated with oseltamivir. Sample size of 300 patients in each group was determined to achieve a power of at least 80% to show noninferiority at both dose levels of laninamivir octanoate with use of a Monte Carlo simulation.||17.2|-1.5|0.104
92368791|NCT00803595|184642082|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.3||||0.318|TWO_SIDED|95.0|-2.8|9.1||2-sided P value without adjustments for multiple testing.|Generalized Wilcoxon test|||Null hypothesis was that there was no difference in the time for return to normal axillary temperature.||9.1|-2.8|0.318
92368792|NCT00803595|184642082|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.6||||0.981|TWO_SIDED|95.0|-5.8|5.7||2-sided P value without adjustments for multiple testing.|Generalized Wilcoxon test|||Null hypothesis was that there was no difference in the time for return to normal axillary temperature.||5.7|-5.8|0.981
92226566|NCT01700192|184354908|SUPERIORITY_OR_OTHER||Treatment Difference Relative to Placebo|-16.0|||||TWO_SIDED|95.0|-22.7|-8.3||||||||-8.3|-22.7|
92226567|NCT03285243|184354927|OTHER|||||||0.001||||||A priori, All p-values \< 0.05 were considered statistically significant.|Chi-squared|||||||0.001
92226568|NCT03285243|184354928|OTHER|||||||0.002||||||a priori, all p-values \< 0.05 were considered statistically significant.|Regression, Logistic|||||||0.002
92226569|NCT02435849|184354929|OTHER|testing the null hypothesis that ORR within 3 months is less than or equal to 20%|||||<|0.0001|||||||Clopper-Pearson|||||||<.0001
92226570|NCT02435849|184354931|OTHER|testing the null hypothesis that ORR with MRD negative within 3 months is less than or equal to 15%|||||<|0.0001|||||||Clopper-Pearson|||||||<.0001
92226571|NCT02435849|184354932|OTHER|testing the null hypothesis that ORR with MRD negative within 3 months is less than or equal to 15%|||||<|0.0001|||||||Clopper-Pearson|||||||<.0001
92226572|NCT03175549|184354964|SUPERIORITY||Mean Difference (Final Values)|5.53|STANDARD_ERROR_OF_MEAN|10.1||0.36|TWO_SIDED|95.0|-10.22|29.38||A priori threshold for significance was 0.05.|Mixed Models Analysis||Standard error was calculated using bootstrap methods which is considered best for MEM.|||29.38|-10.22|0.36
92226573|NCT03175549|184354965|SUPERIORITY||Slope|-0.067|STANDARD_ERROR_OF_MEAN|0.03|<|0.025|TWO_SIDED||||||t-test, 2 sided|||Posted results show mean change in drinking for the drug group relative to placebo for each day of the 11 days of ad libidum drinking (Days 1-11) permitted during the 14 days (2 weeks) of medication.||||<0.025
92226574|NCT03175549|184354965|SUPERIORITY||Slope|-0.067|STANDARD_ERROR_OF_MEAN|0.03||0.025|TWO_SIDED||||||Mixed Models Analysis|473 daily observations within 43 individuals.|The apremilast group showed a significantly more rapid reduction in drinks per day relative to placebo.|||||0.025
92226575|NCT01017952|184354966|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||0.04|TWO_SIDED|95.0|0.66|0.99|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||0.99|0.66|0.040
92226576|NCT01017952|184354966|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79||||0.024|TWO_SIDED|95.0|0.64|0.97|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||0.97|0.64|0.024
92226577|NCT01017952|184354966|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.69|||<|0.001|TWO_SIDED|95.0|0.56|0.85|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||0.85|0.56|<0.001
92226578|NCT01017952|184354967|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.177|TWO_SIDED|95.0|0.71|1.06|||Regression, Cox|||||1.06|0.71|0.177
92226579|NCT01017952|184354967|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.036|TWO_SIDED|95.0|0.66|0.99|||Regression, Cox|||||0.99|0.66|0.036
92226580|NCT01017952|184354967|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66|||<|0.001|TWO_SIDED|95.0|0.54|0.82|||Regression, Cox|||||0.82|0.54|<0.001
92226581|NCT01017952|184354968|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84||||0.154|TWO_SIDED|95.0|0.65|1.07|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||1.07|0.65|0.154
92226582|NCT01017952|184354968|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77||||0.041|TWO_SIDED|95.0|0.6|0.99|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable||||0.99|0.60|0.041
92226583|NCT01017952|184354968|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.65|||<|0.001|TWO_SIDED|95.0|0.51|0.84|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable||||0.84|0.51|<0.001
92226584|NCT01017952|184354969|SUPERIORITY_OR_OTHER||Least squares mean difference|0.034||||0.034|TWO_SIDED|95.0|0.003|0.066||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.066|0.003|0.034
92226585|NCT01017952|184354969|SUPERIORITY_OR_OTHER||Least squares mean difference|0.024||||0.143|TWO_SIDED|95.0|-0.008|0.056|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.056|-0.008|0.143
92368793|NCT00803595|184642082|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.7||||0.344|TWO_SIDED|95.0|-9.1|3.1||2-sided P value without adjustments for multiple testing.|Generalized Wilcoxon test|||Null hypothesis was that there was no difference in the time for return to normal axillary temperature.||3.1|-9.1|0.344
92167984|NCT01616459|184224904|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.48|||||TWO_SIDED|95.9|-2.82|1.38||||||ANTI-5 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||1.38|-2.82|
92226586|NCT01017952|184354969|SUPERIORITY_OR_OTHER||Least squares mean difference|0.026||||0.115|TWO_SIDED|95.0|-0.006|0.057|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.057|-0.006|0.115
92368794|NCT01597908|184642086|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.58|0.83|||||Hazard ratios are estimated using a Pike estimator.|||0.83|0.58|
92368795|NCT01597908|184642087|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.52|0.73|||||Hazard ratios are estimated using a Pike estimator.|||0.73|0.52|
92368796|NCT01597908|184642089|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.51|0.81||||||||0.81|0.51|
92368797|NCT03206970|184642143|OTHER||Clopper-Pearson|83.7|||<|0.0001|TWO_SIDED|95.0|74.2|90.8|||Binomial Exact Test|||A binomial exact test was performed to test against the null hypothesis H0: ORR=0.40 using the significant level of 0.025 (1-sided)||90.8|74.2|<.0001
92368798|NCT03206970|184642147|SUPERIORITY||Clopper-Pearson|83.7|||<|0.0001|TWO_SIDED|95.0|74.2|90.8|||Binomial Exact Test|||A binomial exact test was performed to test against the null hypothesis H0: ORR=0.40 using the significant level of 0.025 (1-sided)||90.8|74.2|<0.0001
92368799|NCT01951586|184642160|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.5157|TWO_SIDED|95.0|0.81|1.53|||Log Rank|Log rank test stratified by the randomization stratification factors.|"Based on a Cox proportional hazards model stratified by the randomized stratification factors.~Hazard ratio \< 1 favors denosumab."|||1.53|0.81|0.5157
92405484|NCT02205736|184701230|SUPERIORITY|||||||0.8185||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 22 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.8185
92405485|NCT02205736|184701230|SUPERIORITY|||||||0.0005||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 24 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0005
92167985|NCT01616459|184224904|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-2.24|||||TWO_SIDED|95.9|-10.65|6.13||||||ANTI-6B serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||6.13|-10.65|
92226587|NCT02979431|184354983|SUPERIORITY||||||<|0.001|||||||Log Rank|||The primary endpoint was analysed using log-rank test to compare time-to-BQL between each of the ALX-0171 treatment groups and the combined placebo group. The tests were performed in a sequential way to preserve the family-wise error rate at 0.05.||||<0.001
92405486|NCT02205736|184701230|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Subjects recorded True/False answers to Q25 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The contingency table of 329 responses to Q25 displayed the following: N=260 Correct at Baseline and Correct at Post-Intervention (79.0%), N=7 Correct at Baseline and Incorrect at Post-Intervention (2.1%), N=49 Incorrect at Baseline and Correct at Post-Intervention (14.9%), N=13 Incorrect at Baseline and Incorrect at Post-Intervention (4.0%).||||<.0001
92405487|NCT02205736|184701231|SUPERIORITY|||||||0.2482||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 1 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.2482
92405488|NCT02205736|184701231|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 2 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
92405489|NCT02205736|184701231|SUPERIORITY|||||||0.005||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 3 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0050
92405490|NCT02205736|184701231|SUPERIORITY|||||||0.0423||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 4 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0423
92226588|NCT02979431|184354983|SUPERIORITY||||||=|0.001|||||||Log Rank|||The primary endpoint was analysed using log-rank test to compare time-to-BQL between each of the ALX-0171 treatment groups and the combined placebo group. The tests were performed in a sequential way to preserve the family-wise error rate at 0.05.||||=0.001
92368800|NCT01951586|184642161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3759|||||||Cox propotional hazard model|||The interaction of RANK expression level measured in the cytoplasm (all intensity) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.3759
92226589|NCT02979431|184354983|SUPERIORITY||||||<|0.001|||||||Log Rank|||The primary endpoint was analysed using log-rank test to compare time-to-BQL between each of the ALX-0171 treatment groups and the combined placebo group. The tests were performed in a sequential way to preserve the family-wise error rate at 0.05.||||<0.001
92226590|NCT02979431|184354984|SUPERIORITY||Mean Difference (Net)|-0.6452|STANDARD_ERROR_OF_MEAN|0.5843|=|0.271|TWO_SIDED||||||Mixed Models Analysis|||A comparison for change from Baseline in GSS to Day 2, 5 hours post-dose was performed using a contrast analysis on a longitudinal mixed model with random factor subject and fixed effects baseline value, treatment group and timepoint, including the treatment-by-timepoint interaction term. All data up to + including Day 3 were used in the longitudinal mixed model. The Kenward-Roger approximation of degrees of freedom was used.The model was fitted using an unstructured variance-covariance matrix.||||=0.271
92226591|NCT02979431|184354984|SUPERIORITY||Difference in LS means|-0.4904|STANDARD_ERROR_OF_MEAN|0.5862|=|0.404|TWO_SIDED||||||Mixed Models Analysis|||||||=0.404
92226592|NCT02979431|184354984|SUPERIORITY||Difference in LS means|-0.2156|STANDARD_ERROR_OF_MEAN|0.5842|=|0.713|TWO_SIDED||||||Mixed Models Analysis|||||||=0.713
92167986|NCT01616459|184224904|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.03|||||TWO_SIDED|95.9|-2.39|2.21||||||ANTI-7F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||2.21|-2.39|
92226593|NCT02642094|184355022|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.0020
92226594|NCT02642094|184355023|SUPERIORITY|||||||0.0137|||||||t-test, 2 sided|||||||0.0137
92368801|NCT01951586|184642161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3666|||||||Cox propotional hazard model|||The interaction of RANK expression level measured in membranes (all intensity) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.3666
92368802|NCT01951586|184642161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1917|||||||Cox propotional hazard model|||The interaction of RANK expression level total (cytoplasm + membranes; all intensity) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.1917
92368803|NCT01951586|184642161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3353|||||||Cox propotional hazard model|||The interaction of RANK expression level measured in the cytoplasm (H-score) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.3353
92226595|NCT02642094|184355024|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92226596|NCT02642094|184355025|SUPERIORITY|||||||0.0072|||||||t-test, 2 sided|||||||0.0072
92226597|NCT02642094|184355026|SUPERIORITY|||||||0.3093|||||||t-test, 2 sided|||||||0.3093
92226598|NCT00993928|184355034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Comparison of Q3: Percent change in sleep latency from baseline to week 7.||||0.85
92226599|NCT00993928|184355034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||Comparison of Q6A: Percent change in time to fall back asleep from baseline to week 7.||||0.86
92226600|NCT00993928|184355036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42|||||||Chi-squared|||||||0.42
92226601|NCT00993928|184355038|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64|||||||t-test, 2 sided|||Compare percent change from baseline to week 7 Distress Thermometer score.||||0.64
92368804|NCT01951586|184642161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3179|||||||Cox propotional hazard model|||The interaction of RANK expression level measured in membranes (H-score) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.3179
92368805|NCT01951586|184642161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1583|||||||Cox propotional hazard model|||The interaction of RANK expression level total (cytoplasm + membranes; H-score) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.1583
92226602|NCT03550066|184355039|NON_INFERIORITY|The non-inferiority limit, d, is selected as the largest difference that is clinically acceptable. Here the non-inferiority limit is d=.6 (a medium to large effect size).||||||0.18||||||Threshold for statistical significance: \<.05|t-test, 2 sided|||||||0.18
92226603|NCT05574062|184355053|NON_INFERIORITY|-7.5% non-inferiority margin|Mean Difference (Final Values)|9.88|||||TWO_SIDED|95.0|8.04|11.72|||Mixed Models Analysis||Mixed model adjusted for baseline (run-in) values|||11.72|8.04|
92226604|NCT05574062|184355054|NON_INFERIORITY|non-inferiority margin of 0.4% HbA1c|Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-0.03|0.31|||Regression, Linear||Linear regression model adjusted for baseline (continuation phase period1) values|||0.31|-0.03|
92226605|NCT05574062|184355055|NON_INFERIORITY|non- inferiority margin of 0.4%|Mean Difference (Final Values)|-0.61|||||TWO_SIDED|95.0|-0.76|-0.46|||Mixed Models Analysis||Mixed model adjusted for baseline (screening) values|||-0.46|-0.76|
92226606|NCT05574062|184355056|SUPERIORITY||Median Difference (Final Values)|9.88|||<|0.0001|TWO_SIDED|95.0|8.04|11.72|||Mixed Models Analysis||Mixed model adjusted for baseline (run-in) values|||11.72|8.04|<.0001
92226607|NCT05574062|184355057|SUPERIORITY||Mean Difference (Net)|-0.61|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.46|||Mixed Models Analysis||Mixed model adjusted for baseline (screening) values|||-0.46|-0.76|<.0001
92226608|NCT05574062|184355058|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.1097|TWO_SIDED|95.0|-0.03|0.31|||Regression, Linear||Linear regression model adjusted for baseline (period1) values|||0.31|-0.03|0.1097
92368806|NCT01951586|184642162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3946|||||||Cox propotional hazard model|||The interaction of RANKL expression level measured in the cytoplasm (all intensity) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANKL expression level and treatment-by-RANKL expression level interaction stratified by the randomization stratification factors.||||0.3946
92368807|NCT01951586|184642162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3735|||||||Cox propotional hazard model|||The interaction of RANKL expression level measured in the cytoplasm (H-score) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANKL expression level and treatment-by-RANKL expression level interaction stratified by the randomization stratification factors.||||0.3735
92167987|NCT01616459|184224904|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|0.4|||||TWO_SIDED|95.9|-2.36|3.22||||||ANTI-9V serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||3.22|-2.36|
92368808|NCT01951586|184642163|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.76||||0.3491|TWO_SIDED|95.0|0.43|1.35|||Regression, Logistic|Logistic regression model adjusted for the randomization stratification factors.|Based on a logistic regression model adjusted for the randomization stratification factors; an odds ratio ≥ 1 favors denosumab.|||1.35|0.43|0.3491
92167988|NCT01616459|184224904|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|0.45|||||TWO_SIDED|95.9|-1.51|2.66||||||ANTI-14 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||2.66|-1.51|
92167989|NCT01616459|184224904|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-1.0|||||TWO_SIDED|95.9|-4.18|1.7||||||ANTI-18C serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||1.70|-4.18|
92167990|NCT01616459|184224904|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-2.38|||||TWO_SIDED|95.9|-5.64|-0.52||||||ANTI-19F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||-0.52|-5.64|
92167991|NCT01616459|184224904|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|2.73|||||TWO_SIDED|95.9|-4.84|10.25||||||ANTI-23F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||10.25|-4.84|
92167992|NCT01616459|184224905|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|0.89|||||TWO_SIDED|95.9|-1.46|3.66||||||ANTI-19A serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||3.66|-1.46|
92368809|NCT01951586|184642164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.476|||||||Regression, Logistic|||The interaction of RANK expression level measured in the cytoplasm (all intensity) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.4760
92368810|NCT01951586|184642164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2582|||||||Regression, Logistic|||The interaction of RANK expression level measured in the membranes (all intensity) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.2582
92368811|NCT01951586|184642164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.223|||||||Regression, Logistic|||The interaction of RANK expression level total (cytoplasm + membrane; all intensity) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.2230
92368812|NCT01951586|184642164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4329|||||||Regression, Logistic|||The interaction of RANK expression level measured in the cytoplasm (H-score) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.4329
92368813|NCT01951586|184642164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262|||||||Regression, Logistic|||The interaction of RANK expression level measured in the membranes (H-score) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.2620
92368814|NCT01951586|184642164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2081|||||||Regression, Logistic|||The interaction of RANK expression level total (cytoplasm + membrane; H-score) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.2081
92405491|NCT02205736|184701231|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 5 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
92405492|NCT02205736|184701231|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 6 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
92167993|NCT01616459|184224906|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.49|||||TWO_SIDED|95.8|-3.44|2.22||||||ANTI-1 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||2.22|-3.44|
92167994|NCT01616459|184224906|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.06|||||TWO_SIDED|95.8|-4.03|3.86||||||ANTI-4 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||3.86|-4.03|
92167995|NCT01616459|184224906|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.01|||||TWO_SIDED|95.8|-2.37|2.3||||||ANTI-5 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||2.30|-2.37|
92368815|NCT01951586|184642165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4671|||||||Regression, Logistic|||The interaction of RANKL expression level measured in the cytoplasm (all intensity) and treatment effect was evaluated using a logistic regression model that included treatment group, RANKL expression level and treatment-by-RANKL expression level interaction stratified by the randomization stratification factors.||||0.4671
92368816|NCT01951586|184642165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4236|||||||Regression, Logistic|||The interaction of RANKL expression level measured in the cytoplasm (H-score) and treatment effect was evaluated using a logistic regression model that included treatment group, RANKL expression level and treatment-by-RANKL expression level interaction stratified by the randomization stratification factors.||||0.4236
92368817|NCT01951586|184642166|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.81||||0.4654|TWO_SIDED|95.0|0.46|1.43|||Regression, Logistic|Logistic regression model adjusted for the randomization stratification factors.|Based on a logistic regression model adjusted for the randomization stratification factors; an odds ratio ≥ 1 favors denosumab.|||1.43|0.46|0.4654
92368818|NCT01951586|184642167|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.05||||0.7363|TWO_SIDED|95.0|0.78|1.43|||Log Rank|Log rank test stratified by the randomized stratification factors.|"Based on a Cox proportional hazards model stratified by the randomized stratification factors.~Hazard ratio \< 1 favors denosumab."|||1.43|0.78|0.7363
92368819|NCT03636893|184642215|OTHER|Two-sided log-rank test comparing disease-free survival between treatment groups. No adjustment for multiple comparisons as this was a pre-specified secondary endpoint. Statistical significance set at P \<0.05.|Hazard Ratio (HR)|1.06||||0.842|TWO_SIDED|95.0|0.597|1.884||P-value from two-sided log-rank test. Alpha level set at 0.05.|Log Rank|Kaplan-Meier survival analysis with log-rank test for between-group comparison. Analysis performed using SPSS version 30.0.|Hazard ratio from Cox proportional hazards regression with FLOT as reference group.|Disease-free survival analysis in intention-to-treat population. DFS defined as time from randomization to first occurrence of local recurrence, regional recurrence, distant metastases, or death from any cause.|Kaplan-Meier method used to estimate DFS curves. Cox regression performed to calculate hazard ratios.|1.884|0.597|0.842
92368820|NCT03636893|184642216|OTHER|Two-sided log-rank test comparing overall survival between treatment groups. No adjustment for multiple comparisons as this was a pre-specified secondary endpoint. Statistical significance set at P \<0.05.|Hazard Ratio (HR)|1.101||||0.759|TWO_SIDED|95.0|0.595|2.036||P-value from two-sided log-rank test. No adjustment for multiple comparisons as overall survival was a pre-specified secondary endpoint. Alpha level set at 0.05.|Log Rank|Kaplan-Meier survival analysis with log-rank test for between-group comparison. Analysis performed using SPSS version 30.0.|Hazard ratio from Cox proportional hazards regression with FLOT as reference group.|Primary survival analysis comparing overall survival between neoadjuvant FLOT and SOX regimens in intention-to-treat population.|Kaplan-Meier method used to estimate survival curves. Cox regression performed to calculate hazard ratios. Multivariable analysis performed to identify independent predictors.|2.036|0.595|0.759
92368821|NCT00758069|184642232|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-25.9|||<|0.001||95.0|-34.2|-17.5||No multiplicity adjustment among the pairwise comparisons of sitagliptin against placebo|ANCOVA|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used for pairwise comparison|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used to estimate difference of two groups and its 95% confidence interval|||-17.5|-34.2|<0.001
92168781|NCT02528188|184227109|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.1||0.003|TWO_SIDED|95.0|-0.52|-0.11||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.11|-0.52|0.0030
92368822|NCT00758069|184642232|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-19.5|||<|0.001||95.0|-28.0|-11.1||No multiplicity adjustment among the pairwise comparisons of sitagliptin against placebo|ANCOVA|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used for pairwise comparison|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used to estimate difference of two groups and its 95% confidence interval|||-11.1|-28.0|<0.001
92368823|NCT00758069|184642233|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-19.3|||<|0.001||95.0|-26.6|-11.9||No multiplicity adjustment among the pairwise comparisons of sitagliptin against placebo|ANCOVA|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used for pairwise comparison|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used to estimate difference of two groups and its 95% confidence interval|||-11.9|-26.6|<0.001
92368824|NCT00758069|184642233|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-12.9|||<|0.001||95.0|-20.4|-5.4||No multiplicity adjustment among the pairwise comparisons of sitagliptin against placebo|ANCOVA|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used for pairwise comparison|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used to estimate difference of two groups and its 95% confidence interval|||-5.4|-20.4|<0.001
92368825|NCT02277691|184642262|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in office trough SBP at Week 12 (LOCF).||||<0.0001
92368826|NCT02277691|184642262|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in office trough SBP at Week 52 (LOCF).||||<0.0001
92226609|NCT05574062|184355059|NON_INFERIORITY|non inferiority margin of -7.5%|Mean Difference (Net)|1.17|||||TWO_SIDED|95.0|-0.04|2.38|||Regression, Linear||Linear regression adjusted for baseline (continuation phase period 1) values|||2.38|-0.04|
92226610|NCT05574062|184355060|SUPERIORITY||Mean Difference (Final Values)|1.17||||0.0581|TWO_SIDED|95.0|-0.04|2.38|||Regression, Linear||Linear regression adjusted for baseline (continuation phase period 1) values|||2.38|-0.04|0.0581
92368827|NCT02277691|184642262|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in office trough sitting DBP at Week 12 (LOCF).||||<0.0001
92368828|NCT02277691|184642262|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in office trough sitting DBP at Week 52 (LOCF).||||<0.0001
92168782|NCT02528188|184227109|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.11||0.0691|TWO_SIDED|95.0|-0.4|0.02||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.02|-0.40|0.0691
92226611|NCT02288273|184355124|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92226612|NCT02321436|184355139|OTHER|The treatment difference (Dysport® versus placebo) was tested using a non-parametric, two-sided, stratified log rank test.||||||0.0176||||||Significance level (α) = 5%|Log Rank|||||||0.0176
92226613|NCT02321436|184355139|OTHER|The treatment difference (Dysport® versus placebo) was tested using a non-parametric, two-sided, stratified Wilcoxon test.||||||0.048||||||Significance level (α) = 5%|Wilcoxon (Mann-Whitney)|||||||0.0480
92226614|NCT02321436|184355140|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-1.0||||0.0005|TWO_SIDED|95.0|-1.54|-0.47||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 2 (Week 4).||-0.47|-1.54|0.0005
92226615|NCT02321436|184355140|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-1.05||||0.0007|TWO_SIDED|95.0|-1.63|-0.47||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 3 (Week 6).||-0.47|-1.63|0.0007
92368829|NCT02277691|184642263|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in home SBP, morning at End of Week 12.||||<0.0001
92368830|NCT02277691|184642263|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in home SBP, morning at EOT (Up to Week 52).||||<0.0001
92226616|NCT02321436|184355140|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-1.05||||0.0006|TWO_SIDED|95.0|-1.62|-0.48||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 4 (Week 8).||-0.48|-1.62|0.0006
92226617|NCT02321436|184355140|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.84||||0.0027|TWO_SIDED|95.0|-1.36|-0.31||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 5 (Week 10).||-0.31|-1.36|0.0027
92226618|NCT02321436|184355140|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.83||||0.0052|TWO_SIDED|95.0|-1.39|-0.26||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 6 (Week 12).||-0.26|-1.39|0.0052
92368831|NCT02277691|184642263|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in home DBP, morning at End of Week 12.||||<0.0001
92368832|NCT02277691|184642263|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in home DBP, morning at EOT (Up to Week 52).||||<0.0001
92368833|NCT04343534|184642271|OTHER||Mean Difference (Final Values)|0.15||||0.092|TWO_SIDED|95.0|-0.02|0.33|||t-test, 2 sided|||"SDM Process score distributions were compared to determine of the scores spanned the range of possible values, were normally distributed, had low rates of missing data, and whether there was indications of floor or ceiling effects.~we conducted independent t-tests to determine if there were differences in SDM Process scores between the two versions."||0.33|-0.02|0.092
92368834|NCT01804049|184642280|SUPERIORITY|Hypothesis: metformin will reduce loss of total lean mass in insulin-resistant older adults over a three year period. It was determined (prior to the initiation of the study) that a sample size of 60 participants per group will have a 73% power to detect a 0.09 m/s difference in gait speed.||||||0.45||||||For lean total body mass, t(118)=0.744, p=0.45.|t-test, 2 sided|T-test calculation for total lean mass: 0.74.||||||0.45
92368835|NCT01804049|184642280|SUPERIORITY|Hypothesis: metformin will reduce loss of total appendicular lean mass in insulin-resistant older adults over a three year period. It was determined (prior to the initiation of the study) that a sample size of 60 participants per group will have a 73% power to detect a 0.09 m/s difference in gait speed.||||||0.79||||||For lean appendicular body mass, t(118) = 0.264, p=0.79.|t-test, 2 sided|T-test calculation appendicular lean mass: 0.26.||||||0.79
92368836|NCT01804049|184642281|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|t(118)=0.703, p=0.48||||||0.48
92368837|NCT03985943|184642288|OTHER||Strata-adjusted percentage difference|11.5||||0.0003|TWO_SIDED|97.5|4.7|18.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||18.3|4.7|0.0003
92368838|NCT03985943|184642289|OTHER||Strata-adjusted percentage difference|14.3||||0.0002|TWO_SIDED|97.5|6.1|22.5||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||22.5|6.1|0.0002
92368839|NCT03985943|184642290|OTHER||Strata-adjusted percentage difference|14.9|||<|0.0001|TWO_SIDED|97.5|7.8|22.0||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||22.0|7.8|<0.0001
92368840|NCT03985943|184642291|OTHER||Strata-adjusted percentage difference|18.1|||<|0.0001|TWO_SIDED|97.5|9.6|26.6||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||26.6|9.6|<0.0001
92368841|NCT03985943|184642292|OTHER||Strata-adjusted percentage difference|24.9|||<|0.0001|TWO_SIDED|97.5|18.4|31.5||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level. Participants with missing data were considered non-responders.||31.5|18.4|<0.0001
92405493|NCT02205736|184701231|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 7 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
92405494|NCT02205736|184701231|SUPERIORITY|||||||0.0002||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 8 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0002
92405495|NCT02205736|184701231|SUPERIORITY|||||||0.7456||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 9 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.7456
92167996|NCT01616459|184224906|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-4.67|||||TWO_SIDED|95.8|-12.94|3.6||||||ANTI-6B serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||3.60|-12.94|
92368842|NCT03985943|184642292|OTHER||Strata-adjusted percentage difference|28.1|||<|0.0001|TWO_SIDED|97.5|22.0|34.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel||The estimates are from 50 complete datasets by MI-MAR assumption.|Nemolizumab 30 mg versus Placebo using multiple imputation (MI) with missing at random (MAR) assumption.||34.3|22.0|<0.0001
92167997|NCT01616459|184224906|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|0.46|||||TWO_SIDED|95.8|-1.93|3.06||||||ANTI-7F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||3.06|-1.93|
92226619|NCT02321436|184355140|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.52||||0.2037|TWO_SIDED|95.0|-1.35|0.31||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 7 (Week 16).||0.31|-1.35|0.2037
92368843|NCT03985943|184642293|OTHER||Strata-adjusted percentage difference|27.5|||<|0.0001|TWO_SIDED|97.5|19.4|35.7||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\].|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level. Participants with missing data were considered non-responders.||35.7|19.4|<0.0001
92368844|NCT03985943|184642293|OTHER||Strata-adjusted percentage difference|32.1|||<|0.0001|TWO_SIDED|97.5|24.4|39.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\].|Cochran-Mantel-Haenszel||The estimates are from 50 complete datasets by MI-MAR assumption.|Nemolizumab 30 mg versus Placebo using MI-MAR assumption.||39.8|24.4|<0.0001
92368845|NCT03985943|184642294|OTHER||Strata-adjusted percentage difference|19.5|||<|0.0001|TWO_SIDED|97.5|13.7|25.2||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||25.2|13.7|<0.0001
92405496|NCT02205736|184701231|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 10 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
92405497|NCT02205736|184701231|SUPERIORITY|||||||0.0028||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 11 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0028
92405498|NCT02205736|184701231|SUPERIORITY|||||||0.0707||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 12 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0707
92226620|NCT02321436|184355140|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.15||||0.7656|TWO_SIDED|95.0|-1.25|0.94||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 8 (Week 20).||0.94|-1.25|0.7656
92226621|NCT02321436|184355140|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.12||||0.8521|TWO_SIDED|95.0|-1.46|1.23||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 9 (Week 24).||1.23|-1.46|0.8521
92226622|NCT02321436|184355140|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.21||||0.6582|TWO_SIDED|95.0|-1.24|0.81||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 10 (Week 28).||0.81|-1.24|0.6582
92368846|NCT03985943|184642295|OTHER||Strata-adjusted percentage difference|20.3|||<|0.0001|TWO_SIDED|97.5|13.8|26.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||26.8|13.8|<0.0001
92368847|NCT03985943|184642296|OTHER||Strata-adjusted percentage difference|17.9|||<|0.0001|TWO_SIDED|97.5|11.3|24.5||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||24.5|11.3|<0.0001
92368848|NCT03985943|184642297|OTHER||Strata-adjusted percentage difference|19.7|||<|0.0001|TWO_SIDED|97.5|11.2|28.2||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||28.2|11.2|<0.0001
92368849|NCT03985943|184642298|OTHER||Strata-adjusted percentage difference|20.9|||<|0.0001|TWO_SIDED|97.5|15.8|26.0||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||26|15.8|<0.0001
92368850|NCT03985943|184642299|OTHER||Strata-adjusted percentage difference|21.2|||<|0.0001|TWO_SIDED|97.5|14.8|27.6||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||27.6|14.8|<0.0001
92368851|NCT03985943|184642300|OTHER||Strata-adjusted percentage difference|12.2|||<|0.0001|TWO_SIDED|97.5|8.2|16.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||16.3|8.2|<0.0001
92368852|NCT03985943|184642301|OTHER||Strata-adjusted percentage difference|9.7|||<|0.0001|TWO_SIDED|97.5|5.2|14.2||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||14.2|5.2|<0.0001
92368853|NCT03985943|184642302|OTHER||Strata-adjusted percentage difference|14.6|||<|0.0001|TWO_SIDED|97.5|10.6|18.7||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||18.7|10.6|<0.0001
92368854|NCT03985943|184642303|OTHER||Strata-adjusted percentage difference|16.9|||<|0.0001|TWO_SIDED|97.5|11.5|22.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||22.3|11.5|<0.0001
92226623|NCT02321436|184355141|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|0.8||||0.8754|TWO_SIDED|95.0|-9.5|11.1||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 2 (Week 4).||11.1|-9.5|0.8754
92368855|NCT03985943|184642304|OTHER||Strata-adjusted percentage difference|3.4||||0.0064|TWO_SIDED|97.5|1.1|5.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||5.8|1.1|0.0064
92167998|NCT01616459|184224906|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.02|||||TWO_SIDED|95.8|-2.72|2.64||||||ANTI-9V serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||2.64|-2.72|
92368856|NCT03985943|184642305|OTHER||Strata-adjusted percentage difference|4.3||||0.0177|TWO_SIDED|97.5|0.9|7.7||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for preceding outcome measure was statistically significant at two-sided 2.5% significance level.||7.7|0.9|0.0177
92368857|NCT04075513|184642323|NON_INFERIORITY|Non-inferiority was based on a relative margin of 10%. Since higher time in range means better outcome, non-inferiority was demonstrated if the lower bound of the two-sided 95% confidence interval (CI) of the difference between Toujeo LS mean and 90% of Tresiba LS mean at Week 12 was \> 0.|Least square mean difference|3.16|STANDARD_ERROR_OF_MEAN|1.163||0.0067|TWO_SIDED|95.0|0.88|5.44||Threshold of significance at \<0.05.|ANCOVA||This estimation parameter corresponds to the difference between Toujeo LS mean and 90% of Tresiba LS mean.|Analysis was performed using ANCOVA model including the fixed categorical effect of treatment groups and randomization stratum of screening HbA1c (\<8.0%, \>=8.0%) and the continuous fixed covariate of Baseline percent time in range value.||5.44|0.88|0.0067
92368858|NCT04075513|184642324|NON_INFERIORITY|Non-inferiority was based on a relative margin of 10%. Since lower CV means better outcome, non-inferiority was demonstrated if the upper bound of the two-sided 95% CI of the difference between Toujeo LS mean and 110% of Tresiba LS mean at Week 12 was \< 0.|Least square mean difference|-5.44|STANDARD_ERROR_OF_MEAN|0.542|<|0.0001|TWO_SIDED|95.0|-6.5|-4.38||Threshold of significance at \<0.05.|ANCOVA||This estimation parameter corresponds to the difference between Toujeo LS mean and 110% of Tresiba LS mean.|A hierarchical step-down testing procedure was used to control type I error. The hierarchical testing was then performed sequentially only when the primary endpoint demonstrated non-inferiority. Analysis was performed using ANCOVA model including the fixed categorical effect of treatment groups and randomization stratum of screening HbA1c (\<8.0%, \>=8.0%) and the continuous fixed covariate of Baseline percent time in range value.||-4.38|-6.50|<0.0001
92368859|NCT04075513|184642325|SUPERIORITY|Superiority was demonstrated if the lower bound of the two-sided 95% CI of the adjusted difference estimate of Toujeo and Tresiba at Week 12 was \>0.|Least square mean difference|-2.35|STANDARD_ERROR_OF_MEAN|1.225||0.0548|TWO_SIDED|95.0|-4.75|0.05||Threshold of significance at \<0.05.|ANCOVA|||A hierarchical step-down testing procedure was used to control type I error. The hierarchical testing was then performed sequentially when the primary endpoint and the secondary endpoint of total CV demonstrated non-inferiority. Analysis was performed using ANCOVA model including the fixed categorical effect of treatment groups and randomization stratum of screening HbA1c (\<8.0%, \>=8.0%) and the continuous fixed covariate of Baseline percent time in range value.||0.05|-4.75|0.0548
92368860|NCT00617097|184642374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.94|TWO_SIDED|95.0|-13.7|12.6|||Regression, Linear|||expected level of pain during procedure greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||12.6|-13.7|0.94
92368861|NCT00617097|184642374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.9|TWO_SIDED|95.0|-15.1|13.2|||Regression, Linear|||after speculum insertion greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||13.2|-15.1|0.9
92368862|NCT00617097|184642374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8||||0.49|TWO_SIDED|95.0|-18.6|9.0|||Regression, Linear|||during paracervical block administration greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||9|-18.6|0.49
92368863|NCT00617097|184642374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.0||||0.03|TWO_SIDED|95.0|-28.3|-1.7|||Regression, Linear|||after cervical dilation greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||-1.7|-28.3|0.03
92368864|NCT00617097|184642374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.7|TWO_SIDED|95.0|-12.2|18.0|||Regression, Linear|||immediately after procedure greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||18|-12.2|0.7
92368865|NCT00617097|184642374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.52|TWO_SIDED|95.0|-17.0|8.8|||Regression, Linear|||30 min after procedure greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||8.8|-17|.52
92168783|NCT02528188|184227110|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.04||0.3431|TWO_SIDED|95.0|-0.11|0.04||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.04|-0.11|0.3431
92368866|NCT00617097|184642375|SUPERIORITY_OR_OTHER|||||||0.93|||||||Regression, Linear|||greater number is better (i.e., more satisfaction) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less satisfaction); maximum: 100 mm (greater satisfaction) Measured at end of study (i.e., upon clinic discharge)||||0.93
92167999|NCT01616459|184224906|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|0.0|||||TWO_SIDED|95.8|-1.94|1.9||||||ANTI-14 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||1.90|-1.94|
92368867|NCT00617097|184642376|SUPERIORITY_OR_OTHER|||||||0.07|||||||Chi-squared|||greater number is worse (i.e., more symptoms)||||0.07
92168000|NCT01616459|184224906|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.5|||||TWO_SIDED|95.8|-3.72|2.52||||||ANTI-18C serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||2.52|-3.72|
92168001|NCT01616459|184224906|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.98|||||TWO_SIDED|95.8|-4.38|2.1||||||ANTI-19F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||2.10|-4.38|
92168002|NCT01616459|184224906|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|2.5|||||TWO_SIDED|95.8|-5.07|10.06||||||ANTI-23F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||10.06|-5.07|
92168003|NCT01616459|184224907|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|11.22|||||TWO_SIDED|95.8|7.22|16.49||||||ANTI-6A serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \<10% for at least 10 out of 12 vaccine pneumococcal serotypes.||16.49|7.22|
92168004|NCT01616459|184224907|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|3.75|||||TWO_SIDED|95.8|1.03|7.57||||||ANTI-19A serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \<10% for at least 10 out of 12 vaccine pneumococcal serotypes.||7.57|1.03|
92168005|NCT03237481|184224948|SUPERIORITY||Least Squares Mean Difference (LSMD)|-81.43|STANDARD_ERROR_OF_MEAN|22.592|=|0.0004|TWO_SIDED|95.0|-125.83|-37.02|||ANOVA|||||-37.02|-125.83|= 0.0004
92368868|NCT00617097|184642377|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||minor complications greater number is worse (i.e., more complications)||||1
92368869|NCT00617097|184642377|SUPERIORITY_OR_OTHER|||||||0.15|||||||Chi-squared|||serious complications||||0.15
92368870|NCT02998671|184642475|SUPERIORITY|Comparison at end of Period 1 (P1): CJM112 versus Placebo.|Ratio of geometric means|1.18|||||TWO_SIDED|90.0|0.79|1.81|||Bayesian model for repeated measurements||"Ratio of Geometric Means (CJM112 / Placebo) calculated. A value \> 1 indicates a higher number of lesion counts in the CJM112 group.~Bayesian analysis. The credible interval was calculated and presented under confidence interval."|||1.81|0.79|
92368871|NCT02998671|184642475|SUPERIORITY|Comparison at end of Period 1 (P1): CJM112 versus Placebo.|Ratio of geometric means|1.1|||||TWO_SIDED|90.0|0.66|1.8|||Bayesian model for repeated measurements||"Ratio of Geometric Means (CJM112 / Placebo) calculated. A value \> 1 indicates a higher number of lesion counts in the CJM112 group.~Bayesian analysis. The credible interval was calculated and presented under confidence interval."|||1.80|0.66|
92368872|NCT00434993|184642534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|1.3||0.087|TWO_SIDED|95.0|-4.7|0.3||The p-value was not adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline shock.||The trial had a statistical power of 90.7% to detect a 2.25-day increase in VFDs,assuming a SD of 10.5 days. A group sequential design was used.||0.3|-4.7|0.087
92368873|NCT00434993|184642535|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.3||||0.302|TWO_SIDED|95.0|-4.0|14.7||The p-value was not adjusted for multiple comparisons.|Regression, Logistic|Adjusted for baseline shock.||||14.7|-4.0|0.302
92368874|NCT00434993|184642536|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.9||||0.261|TWO_SIDED|95.0|-3.7|15.4||The p-value was not adjusted for multiple comparisons.|Regression, Logistic|Adjusted for baseline shock.||||15.4|-3.7|0.261
92368875|NCT00434993|184642537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.023|TWO_SIDED|95.0|-4.9|-0.4||The p-value was not adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline shock.||||-0.4|-4.9|0.023
92368876|NCT00434993|184642538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.226|TWO_SIDED|95.0|-4.3|0.9||The p-value was not adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline shock.||||0.9|-4.3|0.226
92368877|NCT00434993|184642539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.13|TWO_SIDED|95.0|-5.3|0.6|||ANCOVA|Adjusted for baseline shock.||||0.6|-5.3|0.130
92368878|NCT00434993|184642540|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.2||||0.176|TWO_SIDED|95.0|-3.1|19.6|||Regression, Logistic|Adjusted for baseline shock.||||19.6|-3.1|0.176
92168006|NCT03237481|184224949|SUPERIORITY||Least Squares Mean Difference (LSMD)|-72.49|STANDARD_ERROR_OF_MEAN|18.23|<|0.0001|TWO_SIDED|95.0|-108.32|-36.65|||ANOVA|||||-36.65|-108.32|< 0.0001
92368879|NCT00434993|184642541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9||||0.048|TWO_SIDED|95.0|-7.8|0.0|||ANCOVA|||||-0.0|-7.8|0.048
92368880|NCT00434993|184642542|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.5||||0.265|TWO_SIDED|95.0|-6.9|25.9|||Regression, Logistic|||||25.9|-6.9|0.265
92368881|NCT03335150|184642544|OTHER|Equality|Mean Difference (Final Values)|0.4856||||0.6662|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated Value = Standard Error (SE) of the interaction term.|||||0.6662
92368882|NCT03335150|184642544|OTHER|Equality|Mean Difference (Final Values)|0.2415||||0.1617|TWO_SIDED||||||Mixed Models Analysis|Mean Matrix Reasoning Total (MRT) difference between two visits while controlling for intervention.|estimated value = SE|||||0.1617
92368883|NCT03335150|184642544|OTHER|Equality|Mean Difference (Final Values)|0.5087||||0.6236|TWO_SIDED||||||Mixed Models Analysis|Mean MRT difference between two interventions while controlling for visit.|estimated value = SE|||||0.6236
92368884|NCT03335150|184642545|OTHER|Equality|Mean Difference (Final Values)|0.58||||0.0496|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated value = SE of interaction term|||||0.0496
92168007|NCT03237481|184224950|SUPERIORITY||||||=|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||= 0.0001
92168008|NCT03237481|184224951|SUPERIORITY||Risk Difference (RD)|0.111|||=|0.0486|TWO_SIDED|95.0|0.003|0.218|||Fisher Exact|||||0.218|0.003|= 0.0486
92168009|NCT03237481|184224952|SUPERIORITY||||||=|0.024|||||||Wilcoxon (Mann-Whitney)|||||||= 0.024
92168010|NCT04201834|184224953|SUPERIORITY|||||||0.27|||||||Paired T-Test|||||||0.27
92368885|NCT03335150|184642546|OTHER|Equality|Mean Difference (Final Values)|1.62||||0.047|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated Value = SE of interaction term|||||0.047
92368886|NCT03335150|184642547|OTHER|Equality|Mean Difference (Final Values)|2.97||||0.001|TWO_SIDED|||||Interaction Term|Mixed Models Analysis||Estimated Value = SE of interaction term|||||0.001
92368887|NCT03335150|184642548|OTHER|Equality|Mean Difference (Final Values)|2.25||||0.02|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated Value = SE of interaction term|||||0.020
92368888|NCT03335150|184642549|OTHER|Equality|Mean Difference (Final Values)|1.26||||0.444|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated Value = SE of interaction term|||||0.444
92368889|NCT03335150|184642549|OTHER|Equality|Mean Difference (Final Values)|1.145||||0.0233|TWO_SIDED||||||Mixed Models Analysis|There is significant difference in MIST between intervention groups controlling for visit and other significant covariates.|estimated value = SE|||||0.0233
92368890|NCT03335150|184642549|OTHER|Equality|Mean Difference (Final Values)|0.6281|||<|0|TWO_SIDED||||||Mixed Models Analysis|There is significant difference in MIST between baseline and week 10 controlling for intervention group and other significant covariates|estimated value = SE|||||<0.000
92368891|NCT03335150|184642550|OTHER|Equality|Mean Difference (Final Values)|2.205||||0.073|TWO_SIDED|||||Interaction term|Mixed Models Analysis||estimated value = SE of interaction term|||||0.073
92368892|NCT03335150|184642551|OTHER|Equality|Mean Difference (Final Values)|2.25||||0.82|TWO_SIDED|||||Interaction Term|Mixed Models Analysis|||||||0.82
92368893|NCT03335150|184642551|OTHER|Equality|Mean Difference (Final Values)|1.1172||||0.0257|TWO_SIDED||||||Mixed Models Analysis|Mean PDQ-39 difference between baseline and week 10 controlling for intervention and covariates.|estimated value = SE|||||0.0257
92368894|NCT03335150|184642551|OTHER|Equality|Mean Difference (Final Values)|3.8649||||0.1101|TWO_SIDED||||||Mixed Models Analysis|Difference in PDQ-39 between two interventions controlling for visit and covariates.|estimated value = SE|||||0.1101
92368895|NCT03335150|184642552|OTHER|Equality|Median Difference (Final Values)|1.784||||0.0263|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated Value = SE of the interaction term.|||||0.0263
92405499|NCT02205736|184701231|SUPERIORITY|||||||0.0026||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 13 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0026
92405796|NCT02085161|184701885|SUPERIORITY_OR_OTHER||LSMean Difference|0.174|STANDARD_ERROR_OF_MEAN|0.071||0.0145|TWO_SIDED|95.0|0.035|0.314||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||0.314|0.035|0.0145
92168011|NCT04201834|184224954|SUPERIORITY|||||||0.92|||||||Paired T-Test|||||||0.92
92168012|NCT04201834|184224955|SUPERIORITY|||||||0.36|||||||Paired T-Test|||||||0.36
92168013|NCT04201834|184224956|SUPERIORITY|||||||0.62|||||||Paired T-Test|||||||0.62
92168014|NCT04201834|184224959|SUPERIORITY|||||||0.11|||||||Paired T-Test|||||||0.11
92168015|NCT04201834|184224960|SUPERIORITY|||||||0.02|||||||Paired T-Test|||||||0.02
92168016|NCT04201834|184224962|SUPERIORITY|||||||0.86|||||||Paired T-Test|||||||0.86
92168017|NCT04201834|184224963|SUPERIORITY|||||||0.27|||||||Paired T-Test|||||||0.27
92168018|NCT04201834|184224964|SUPERIORITY|||||||0.61|||||||Paired T-Test|||||||0.61
92168019|NCT04201834|184224965|SUPERIORITY|||||||0.37|||||||Paired T-Test|||||||0.37
92168020|NCT04201834|184224966|SUPERIORITY|||||||0.3|||||||Paired T-Test|||||||0.30
92168021|NCT04201834|184224967|SUPERIORITY|||||||0.82|||||||Paired t-test|||||||0.82
92168022|NCT01998984|184224976|SUPERIORITY||Relative risk|2.97||||0.18|TWO_SIDED|95.0|0.6|14.74||P-value was adjusted for analysis site using Rubin's pooling methodology after log transformation of RR (relative risk) of each imputation. Complete clearance relative to vehicle group and 2-day group.|Cochran-Mantel-Haenszel||Relative risk and confidence interval were adjusted for analysis site using Rubin's pooling methodology after log transformation of RR of each imputation. Complete clearance relative to vehicle group and 2-day group.|"Treatment comparison based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.~Cochran-Mantel-Haenszel logit estimators were used for comparisons with vehicle due to absence of cleared participant in the vehicle group."||14.74|0.60|0.18
92168023|NCT01998984|184224976|SUPERIORITY||Relative risk|3.51||||0.051|TWO_SIDED|95.0|1.0|12.41||P-value was adjusted for analysis site using Rubin's pooling methodology after log transformation of RR (relative risk) of each imputation. Complete clearance relative to vehicle group and 2-day group.|Cochran-Mantel-Haenszel||Relative risk and confidence interval were adjusted for analysis site using Rubin's pooling methodology after log transformation of RR of each imputation. Complete clearance relative to vehicle group and 2-day group.|"Treatment comparison based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.~Cochran-Mantel-Haenszel logit estimators were used for comparisons with vehicle due to absence of cleared subject in the vehicle group.~Type I error not controlled."||12.41|1.00|0.051
92168024|NCT01998984|184224976|SUPERIORITY||Relative risk|0.47||||0.25|TWO_SIDED|95.0|0.13|1.68||P-value was adjusted for analysis site using Rubin's pooling methodology after log transformation of RR (relative risk) of each imputation. Complete clearance relative to vehicle group and 2-day group.|Mantel Haenszel||Relative risk and confidence interval were adjusted for analysis site using Rubin's pooling methodology after log transformation of RR of each imputation. Complete clearance relative to vehicle group and 2-day group.|"Treatment comparison based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.~Type I error not controlled. Mantel-Haenszel estimators were used."||1.68|0.13|0.25
92168025|NCT01998984|184224977|SUPERIORITY||Ratio of adjusted mean|0.4|||<|0.001|TWO_SIDED|95.0|0.32|0.51||P-value was from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|Negative binomial regression||Estimation parameter and confidence interval were from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|||0.51|0.32|<0.001
92168026|NCT01998984|184224977|SUPERIORITY||Ratio of adjusted mean|0.36|||<|0.001|TWO_SIDED|95.0|0.29|0.45||P-value was from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|Negative binomial regression||Estimation parameter and confidence interval were from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|||0.45|0.29|<0.001
92168027|NCT01998984|184224977|SUPERIORITY||Ratio of adjusted mean|0.89||||0.36|TWO_SIDED|95.0|0.7|1.14||P-value was from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|Negative binomial regression||Estimation parameter and confidence interval were from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|||1.14|0.70|0.36
92368896|NCT02218697|184642568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Control Group / Co-Ad Group) does not exceed 2.0.|Adjusted GMT ratio|1.13|||||TWO_SIDED|95.0|0.88|1.46|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for H1N1 strain at Day 28 post Influsplit™ Tetra vaccination, the GMT ratio of Control group/Co-Ad group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination titer as covariate.||1.46|0.88|
92368897|NCT02218697|184642568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Control Group / Co-Ad Group) does not exceed 2.0.|Adjusted GMT ratio|0.97|||||TWO_SIDED|95.0|0.78|1.21|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for H3N2 strain at Day 28 post Influsplit™ Tetra vaccination, the GMT ratio of Control group/Co-Ad group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination titer as covariate.||1.21|0.78|
92168028|NCT01998984|184224978|SUPERIORITY||Relative risk|32.26|||<|0.001|TWO_SIDED|95.0|4.39|236.8||P value adjusted for analysis site.|Cochran-Mantel-Haenszel||Relative risk and confidence interval were adjusted for analysis site and were Mantel-Haenszel estimators. Relative risk of partial clearance relative to vehicle group.|The treatment comparison was based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.||236.8|4.39|<0.001
92168029|NCT01998984|184224978|SUPERIORITY||Relative risk|25.2||||0.002|TWO_SIDED|95.0|3.39|187.4||Adjusted for analysis site. Relative risk of partial clearance relative to vehicle group.|Cochran-Mantel-Haenszel||Relative risk and confidence interval were adjusted for analysis site and were Mantel-Haenszel estimators. Relative risk of partial clearance relative to vehicle group.|The treatment comparison was based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.||187.4|3.39|0.002
92168030|NCT01998984|184224978|SUPERIORITY||Relative risk|1.2||||0.28|TWO_SIDED|95.0|0.86|1.65||Adjusted for analysis site. Relative risk of partial clearance relative to 2-day group.|Cochran-Mantel-Haenszel||Relative risk and confidence interval were adjusted for analysis site and were Mantel-Haenszel estimators. Relative risk of partial clearance relative to vehicle group.|The treatment comparison was based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.||1.65|0.86|0.28
92168031|NCT05857644|184224993|OTHER||Geometric mean ratio|84.33|||||TWO_SIDED|90.0|50.94|139.59|||||Mild Hepatic Impairment versus No Hepatic Impairment|||139.59|50.94|
92168032|NCT05857644|184224993|OTHER||Geometric mean ratio|90.89|||||TWO_SIDED|90.0|54.91|150.45|||||Moderate Hepatic Impairment versus No Hepatic Impairment|||150.45|54.91|
92168033|NCT05857644|184224993|OTHER||Geometric mean ratio|157.23|||||TWO_SIDED|90.0|84.81|291.49|||||Severe Hepatic Impairment versus No Hepatic Impairment|||291.49|84.81|
92168034|NCT05857644|184224994|OTHER||Geometric mean ratio|82.17|||||TWO_SIDED|90.0|49.24|137.11|||||Mild Hepatic Impairment versus No Hepatic Impairment|||137.11|49.24|
92168035|NCT05857644|184224994|OTHER||Geometric mean ratio|130.82|||||TWO_SIDED|90.0|78.4|218.3|||||Moderate Hepatic Impairment versus No Hepatic Impairment|||218.30|78.40|
92168036|NCT05857644|184224994|OTHER||Geometric mean ratio|385.52|||||TWO_SIDED|90.0|205.92|721.77|||||Severe Hepatic Impairment versus No Hepatic Impairment|||721.77|205.92|
92168037|NCT05857644|184224995|OTHER||Geometric mean ratio|82.99|||||TWO_SIDED|90.0|50.53|136.28|||||Mild Hepatic Impairment versus No Hepatic Impairment|||136.28|50.53|
92168038|NCT05857644|184224995|OTHER||Geometric mean ratio|131.52|||||TWO_SIDED|90.0|80.09|215.99|||||Moderate Hepatic Impairment versus No Hepatic Impairment|||215.99|80.09|
92168039|NCT05857644|184224995|OTHER||Geometric mean ratio|392.1|||||TWO_SIDED|90.0|213.57|719.85|||||Severe Hepatic Impairment versus No Hepatic Impairment|||719.85|213.57|
92168040|NCT01631214|184225100|SUPERIORITY|The primary endpoints were tested at the 5% level (2-sided), accounting for multiplicity using the Hochberg procedure. If the larger of the 2 p-values was significant at the 0.05 level (2-sided), the statistical testing continued to the secondary endpoint in the testing sequence.|Odds Ratio (OR)|0.48|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|0.36|0.64|||Regression, Logistic|Based on a logistic regression model adjusted for age strata, baseline total hip BMD T-score and presence of severe vertebral fracture at baseline.|Values \< 1 for odds ratio favor romosozumab. The standard error (SE) represents the standard error of log(odds ratio).|||0.64|0.36|<0.001
92168041|NCT01631214|184225100|SUPERIORITY||Risk Ratio (RR)|0.5|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.38|0.66|||||SE represents the standard error of log (risk ratio).|"The risk ratio (ratio of percentages, Romosozumab:Alendronate) was based on the Mantel Haenszel method, adjusted for age strata (\<75 vs. ≥75 years), the presence or absence of severe vertebral fracture at baseline, and baseline bone mineral density T-score at the total hip (≤ -2.5, \> -2.5).~Values \< 1 for risk ratio favor romosozumab."||0.66|0.38|
92226624|NCT02321436|184355141|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.9||||0.8805|TWO_SIDED|95.0|-12.8|11.1||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 3 (Week 6).||11.1|-12.8|0.8805
92226625|NCT02321436|184355141|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-2.2||||0.6992|TWO_SIDED|95.0|-14.0|9.6||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 4 (Week 8).||9.6|-14.0|0.6992
92226626|NCT02321436|184355141|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.1||||0.9882|TWO_SIDED|95.0|-13.0|12.8||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 5 (Week 10).||12.8|-13.0|0.9882
92368898|NCT02218697|184642568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Control Group / Co-Ad Group) does not exceed 2.0.|Adjusted GMT ratio|1.17|||||TWO_SIDED|95.0|0.98|1.4|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for Victoria strain at Day 28 post Influsplit™ Tetra vaccination, the GMT ratio of Control group/Co-Ad group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination titer as covariate.||1.40|0.98|
92226627|NCT02321436|184355141|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|4.6||||0.5646|TWO_SIDED|95.0|-11.9|21.2||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 6 (Week 12).||21.2|-11.9|0.5646
92226628|NCT02321436|184355141|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-12.5||||0.2325|TWO_SIDED|95.0|-34.0|9.0||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 7 (Week 16).||9.0|-34.0|0.2325
92226629|NCT02321436|184355141|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-14.1||||0.2441|TWO_SIDED|95.0|-39.4|11.1||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 8 (Week 20).||11.1|-39.4|0.2441
92226630|NCT02321436|184355141|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-9.0||||0.4311|TWO_SIDED|95.0|-33.7|15.7||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 9 (Week 24).||15.7|-33.7|0.4311
92226631|NCT02321436|184355141|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-4.5||||0.731|TWO_SIDED|95.0|-33.3|24.3||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 10 (Week 28).||24.3|-33.3|0.7310
92226632|NCT02321436|184355142|OTHER|||||||0.6128||||||The Cochran-Mantel-Haenszel (CMH) p-value represents the strength of the association between treatment and global assessments of changes at the last visit, adjusted for symptomatic status at baseline.|Cochran-Mantel-Haenszel|p value significance level = 5%||||||0.6128
92368899|NCT02218697|184642568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Control Group / Co-Ad Group) does not exceed 2.0.|Adjusted GMT ratio|0.99|||||TWO_SIDED|95.0|0.84|1.16|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for Yamagata strain at Day 28 post Influsplit™ Tetra vaccination, the GMT ratio of Control group/Co-Ad group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination titer as covariate.||1.16|0.84|
92405500|NCT02205736|184701231|SUPERIORITY|||||||0.1797||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 14 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.1797
92226633|NCT00546052|184355146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.74||0.999||95.0|-0.02|0.06|||t-test, 1 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null hypothesis value is + 0.5%.||0.06|-0.02|0.999
92226634|NCT00546052|184355147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.62||0.999||95.0|0.01|0.07|||t-test, 1 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null hypothesis value is + 0.5mmol/L.||0.07|0.01|0.999
92168042|NCT01631214|184225100|SUPERIORITY||Absolute risk reduction|4.03|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|2.5|5.57||||||"The absolute risk reduction (difference in percentages, Alendronate - Romosozumab) was based on the Mantel-Haenszel method adjusted for age strata, baseline total hip BMD T-score (≤ -2.5, \> -2.5), and presence of severe vertebral fracture at baseline.~Positive values for absolute risk reduction favor romosozumab."||5.57|2.50|
92168043|NCT01631214|184225101|SUPERIORITY|The primary endpoints were tested at the 5% level (2-sided), accounting for multiplicity using the Hochberg procedure. If the larger of the 2 p-values was significant at the 0.05 level (2-sided), the statistical testing continued to the secondary endpoint in the testing sequence.|Hazard Ratio (HR)|0.73|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|0.61|0.88|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)|||0.88|0.61|<0.001
92168044|NCT01631214|184225102|SUPERIORITY|If the 2 primary endpoints and the specified BMD secondary endpoints were all significant, the nonvertebral fracture at the primary analysis was evaluated based on a 1-sided test (overall α=0.025) determined by the Lan-DeMets alpha spending function that approximates a Pocock boundary, 0.0233 (1-sided).|Hazard Ratio (HR)|0.81|STANDARD_ERROR_OF_MEAN|0.1||0.04|TWO_SIDED|95.0|0.66|0.99||The adjusted 2-sided p-value is reported.|Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.99|0.66|0.040
92368900|NCT02218697|184642569|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.14|||||TWO_SIDED|95.0|0.86|1.5|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 01 serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.50|0.86|
92368901|NCT02218697|184642569|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.18|||||TWO_SIDED|95.0|0.96|1.45|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 03 serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.45|0.96|
92168045|NCT01631214|184225103|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.65|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.56|0.76|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.76|0.56|<0.001
92168046|NCT01631214|184225104|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Odds Ratio (OR)|0.49|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|0.37|0.64|||Regression, Logistic|Based on logistic regression model adjusted for age strata, baseline total hip BMD T-score and presence of severe vertebral fracture at baseline.|Values \< 1 for odds ratio favor romosozumab. The standard error (SE) represents the standard error of log(odds ratio).|||0.64|0.37|<0.001
92168047|NCT01631214|184225104|SUPERIORITY||Risk Ratio (RR)|0.52|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.4|0.66|||||SE represents the standard error of log (risk ratio).|"The risk ratio (ratio of percentages, Romosozumab:Alendronate) was based on the Mantel Haenszel method, adjusted for age strata (\<75 vs. ≥75 years), the presence or absence of severe vertebral fracture at baseline, and baseline bone mineral density T-score at the total hip (≤ -2.5, \> -2.5).~Values \< 1 for risk ratio favor romosozumab."||0.66|0.40|
92168048|NCT01631214|184225104|SUPERIORITY||Absolute risk reduction|4.44|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|95.0|2.8|6.08||||||"The absolute risk reduction (difference in percentages, Alendronate - Romosozumab) was based on the Mantel-Haenszel method adjusted for age strata, baseline total hip BMD T-score (≤ -2.5, \> -2.5), and presence of severe vertebral fracture at baseline.~Positive values for absolute risk reduction favor romosozumab."||6.08|2.80|
92168049|NCT01631214|184225105|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.73|STANDARD_ERROR_OF_MEAN|0.11||0.004|TWO_SIDED|95.0|0.59|0.9|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.90|0.59|0.004
92168050|NCT01631214|184225106|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.62|STANDARD_ERROR_OF_MEAN|0.2||0.015|TWO_SIDED|95.0|0.42|0.92|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.92|0.42|0.015
92168051|NCT01631214|184225107|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Odds Ratio (OR)|0.51|STANDARD_ERROR_OF_MEAN|0.25||0.008|TWO_SIDED|95.0|0.31|0.85|||Regression, Logistic|Based on logistic regression model adjusted for age strata, baseline total hip BMD T-score and presence of severe vertebral fracture at baseline.|Values \< 1 for odds ratio favor romosozumab. The standard error (SE) represents the standard error of log(odds ratio).|||0.85|0.31|0.008
92226635|NCT00546052|184355149|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.95|STANDARD_DEVIATION|13.34|<|0.001||95.0|-17.62|-16.27|||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null hypothesis value is 0 mm Hg||-16.27|-17.62|<0.001
92226636|NCT00546052|184355150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.84|STANDARD_DEVIATION|8.39|<|0.001||95.0|-10.29|-9.39|||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null hypothesis value is 0 mm Hg.||-9.39|-10.29|<0.001
92226637|NCT00546052|184355151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3|STANDARD_DEVIATION|5.4|<|0.001|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||<0.001
92226638|NCT00546052|184355152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3|STANDARD_DEVIATION|5.2|<|0.001|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||<0.001
92226639|NCT00546052|184355153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.5|STANDARD_DEVIATION|32.1||0.084|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.084
92226640|NCT00546052|184355154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|18.0||0.654|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.654
92226641|NCT00546052|184355155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|43.5||0.336|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.336
92226642|NCT00546052|184355156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|17.0||0.001|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.001
92226643|NCT00546052|184355157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.2|STANDARD_DEVIATION|63.8||0.001|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.001
92226644|NCT00546052|184355158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|8.7||0.613|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.613
92226645|NCT02851173|184355172|OTHER|||||||0.79|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. CU group.||||0.79
92226646|NCT02851173|184355172|OTHER|||||||0.87|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. MCI group.||||0.87
92168052|NCT01631214|184225107|SUPERIORITY||Risk Ratio (RR)|0.52|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|95.0|0.32|0.85|||||SE represents the standard error of log (risk ratio).|"The risk ratio (ratio of percentages, Romosozumab:Alendronate) was based on the Mantel Haenszel method, adjusted for age strata (\<75 vs. ≥75 years), the presence or absence of severe vertebral fracture at baseline, and baseline bone mineral density T-score at the total hip (≤ -2.5, \> -2.5).~Values \< 1 for risk ratio favor romosozumab."||0.85|0.32|
92226647|NCT02851173|184355172|OTHER|||||||0.16|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. CU group. 3 outliers removed, whose scores were outside 1.5 times the interquartile range.||||0.16
92226648|NCT02851173|184355173|OTHER|||||||0.22|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Left middle frontal gyrus 1.||||0.22
92226649|NCT02851173|184355173|OTHER|||||||0.69|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Left medial frontal/superior frontal gyrus.||||0.69
92226650|NCT02851173|184355173|OTHER|||||||0.25|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Right superior parietal lobule.||||0.25
92226651|NCT02851173|184355173|OTHER|||||||0.86|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Left inferior parietal lobule.||||0.86
92226652|NCT02851173|184355173|OTHER|||||||0.28|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Left middle frontal gyrus 2.||||0.28
92226653|NCT02851173|184355173|OTHER|||||||0.12|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Right superior frontal gyrus.||||0.12
92226654|NCT02851173|184355173|OTHER|||||||0.26|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Right middle frontal gyrus.||||0.26
92226655|NCT02851173|184355173|OTHER|||||||0.83|||||||ANOVA|||The contract of interest was the Time x Treatment Group interaction. Right inferior frontal gyrus.||||0.83
92226656|NCT02851173|184355173|OTHER|||||||0.55|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Left middle frontal gyrus 1.||||0.55
92226657|NCT02851173|184355173|OTHER|||||||0.76|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Left medial frontal/superior frontal gyrus.||||0.76
92226658|NCT02851173|184355173|OTHER|||||||0.38|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Right superior parietal lobule.||||0.38
92405501|NCT02205736|184701231|SUPERIORITY|||||||0.6547||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 15 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.6547
92226659|NCT02851173|184355173|OTHER|||||||0.93|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Left inferior parietal lobule.||||0.93
92226660|NCT02851173|184355173|OTHER|||||||0.41|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Left middle frontal gyrus 2.||||0.41
92226661|NCT02851173|184355173|OTHER|||||||0.06|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Right superior frontal gyrus.||||0.06
92226662|NCT02851173|184355173|OTHER|||||||0.18|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Right middle frontal gyrus.||||0.18
92226663|NCT02851173|184355173|OTHER|||||||0.84|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Right inferior frontal gyrus.||||0.84
92226664|NCT02851173|184355174|OTHER|||||||0.53|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction.||||0.53
92226665|NCT02851173|184355174|OTHER|||||||0.74|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy).||||0.74
92226666|NCT02851173|184355175|OTHER|||||||0.72|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction.||||0.72
92226667|NCT02851173|184355175|OTHER|||||||0.97|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy).||||0.97
92227214|NCT00947531|184356639|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.17|||<|0.0001|TWO_SIDED|95.0|-8.22|-4.13||P-value obtained from the F-test statistic of Cerebrolysin versus Placebo as part of ANCOVA (analysis of covariance). No adjustment for multiple comparisons was needed. The overall significance level alpha was fixed at alpha = 0.05 (two-sided).|ANCOVA|The study was designed to show significant differences in each of the two primary variables. No adjustment for multiple comparisons was needed.||The null-hypothesis stated no difference between the two treatment groups. A sample size of 103 evaluable patients per treatment group was estimated to allow for the detection of a significant group difference of 4.1 points in ADAS-cog+ weak 24 change score (standard deviation \[SD\] 9.0) in favor of Cerebrolysin with a power of 90% and a probability level of alpha-level 0.025 (one-sided).||-4.13|-8.22|< 0.0001
92227215|NCT01400932|184356698|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.0|||<|0.001|TWO_SIDED|95.0|-26.2|-15.8|||ANCOVA|||||-15.8|-26.2|<0.001
92227216|NCT01400932|184356699|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 1|ANCOVA|||||||<0.001
92227217|NCT01400932|184356699|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2|ANCOVA|||||||<0.001
92227218|NCT01400932|184356699|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4|ANCOVA|||||||<0.001
92227219|NCT01400932|184356699|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8|ANCOVA|||||||<0.001
92227220|NCT01400932|184356700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 1; IL|ANCOVA|||||||<0.001
92227221|NCT01400932|184356700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2; IL|ANCOVA|||||||<0.001
92227222|NCT01400932|184356700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4; IL|ANCOVA|||||||<0.001
92227223|NCT01400932|184356700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8; IL|ANCOVA|||||||<0.001
92227224|NCT01400932|184356700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12; IL|ANCOVA|||||||<0.001
92227225|NCT01400932|184356700|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||Week 1; NIL|ANCOVA|||||||0.007
92227226|NCT01400932|184356700|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||Week 2; NIL|ANCOVA|||||||0.008
92227227|NCT01400932|184356700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4; NIL|ANCOVA|||||||<0.001
92227228|NCT01400932|184356700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8; NIL|ANCOVA|||||||<0.001
92227229|NCT01400932|184356700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12; NIL|ANCOVA|||||||<0.001
92227230|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 1; Total|ANCOVA|||||||<0.001
92227231|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2; Total|ANCOVA|||||||<0.001
92227232|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4; Total|ANCOVA|||||||<0.001
92227233|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8; Total|ANCOVA|||||||<0.001
92227234|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12; Total|ANCOVA|||||||<0.001
92227235|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 1; IL|ANCOVA|||||||<0.001
92227236|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2; IL|ANCOVA|||||||<0.001
92368902|NCT02218697|184642569|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.26|||||TWO_SIDED|95.0|0.98|1.62|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 04 serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.62|0.98|
92368903|NCT02218697|184642569|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.24|||||TWO_SIDED|95.0|0.95|1.63|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 7F serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.63|0.95|
92368904|NCT02218697|184642569|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.2|||||TWO_SIDED|95.0|0.91|1.57|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 14 serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.57|0.91|
92368905|NCT02218697|184642569|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.34|||||TWO_SIDED|95.0|1.05|1.7|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 19A serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.70|1.05|
92368906|NCT04776720|184642618|SUPERIORITY||Model based LS mean difference|0.19||||0.743|TWO_SIDED|95.0|-0.95|1.34|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.34|-0.95|0.743
92168053|NCT01631214|184225107|SUPERIORITY||Absolute risk reduction|1.21|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|0.33|2.1||||||"The absolute risk reduction (difference in percentages, Alendronate - Romosozumab) was based on the Mantel-Haenszel method adjusted for age strata, baseline total hip BMD T-score (≤ -2.5, \> -2.5), and presence of severe vertebral fracture at baseline.~Positive values for absolute risk reduction favor romosozumab."||2.10|0.33|
92168054|NCT01631214|184225108|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.74|STANDARD_ERROR_OF_MEAN|0.11||0.005|TWO_SIDED|95.0|0.59|0.91|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.91|0.59|0.005
92226668|NCT01641120|184355197|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon Signed Ranks|||||||<.05
92368907|NCT04776720|184642619|SUPERIORITY||Model based LS mean difference|0.98||||0.043|TWO_SIDED|95.0|0.03|1.93|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.93|0.03|0.043
92168055|NCT01631214|184225109|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.81|STANDARD_ERROR_OF_MEAN|0.12||0.074|TWO_SIDED|95.0|0.64|1.02|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.02|0.64|0.074
92168056|NCT01631214|184225110|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.72|STANDARD_ERROR_OF_MEAN|0.24||0.17|TWO_SIDED|95.0|0.46|1.15|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.15|0.46|0.17
92168057|NCT01631214|184225111|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.41|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|0.24|0.71|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.71|0.24|<0.001
92226669|NCT01641120|184355198|SUPERIORITY_OR_OTHER|||||||0.193|TWO_SIDED||||||Wilcoxon Signed Ranks|||||||0.193
92226670|NCT01641120|184355199|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Wilcoxon Signed Ranks|||||||0.035
92226671|NCT01641120|184355200|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Wilcoxon Signed Ranks|||||||.005
92226672|NCT02324270|184355201|EQUIVALENCE|If the 90% CI for the ratio of mean changes between test and reference products was contained within the interval, \[0.80,1.25\], then the products were considered to be equivalent.|Ratio|1.01|||||TWO_SIDED|90.0|0.94|1.08||||||||1.08|0.94|
92226673|NCT02324270|184355202|SUPERIORITY|||||||0.01|||||||ANCOVA|||||||0.01
92226674|NCT02324270|184355202|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
92226675|NCT03521791|184355203|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.133|||||||Chi-squared, Corrected|||||||0.133
92226676|NCT03521791|184355204|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.045|||||||Wilcoxon (Mann-Whitney)|||||||0.045
92226677|NCT03521791|184355205|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.333|||||||Chi-squared, Corrected|||||||0.333
92226678|NCT03521791|184355206|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.058|||||||Wilcoxon (Mann-Whitney)|||||||0.058
92368908|NCT04776720|184642620|SUPERIORITY||Model based LS mean difference|0.99||||0.689|TWO_SIDED|95.0|-3.87|5.84|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, with variance co-variance matrix||||5.84|-3.87|0.689
92368909|NCT04776720|184642621|SUPERIORITY||Model based LS mean difference|-0.28||||0.685|TWO_SIDED|95.0|-1.63|1.07|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.07|-1.63|0.685
92405502|NCT02205736|184701231|SUPERIORITY|||||||0.1797||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 16 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.1797
92405503|NCT02205736|184701231|SUPERIORITY|||||||0.285||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 17 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.2850
92226679|NCT03521791|184355207|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.394|||||||Fisher Exact|||||||0.394
92226680|NCT03521791|184355208|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.056|||||||t-test, 2 sided|||||||0.056
92226681|NCT03521791|184355210|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.114|||||||Fisher Exact|||||||0.114
92226682|NCT03521791|184355211|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.117|||||||Chi-squared, Corrected|||||||0.117
92226683|NCT03521791|184355212|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.626|||||||Fisher Exact|||||||0.626
92226684|NCT04024501|184355213|OTHER||Geometric Mean ratio|106.2|||||TWO_SIDED|90.0|91.73|122.96|||Mixed Model Analysis|The number of subjects in this analysis: 22||Pairwise comparison: Treatment 2/Treatment 1||122.96|91.73|
92226685|NCT04024501|184355213|OTHER||Geometric mean ratio|50.02|||||TWO_SIDED|90.0|42.34|59.1|||Mixed Model Analysis|The number of subjects in this analysis: 22||Pairwise comparison: Treatment 3/Treatment 1||59.10|42.34|
92226686|NCT04024501|184355213|OTHER||Geometric mean ratio|47.1|||||TWO_SIDED|90.0|39.85|55.68|||Mixed Model Analysis|The number of subjects in this analysis: 15||Pairwise comparison: Treatment 3/Treatment 2||55.68|39.85|
92368910|NCT04776720|184642622|SUPERIORITY||Model based LS mean difference|0.3||||0.764|TWO_SIDED|95.0|-1.69|2.3|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.3|-1.69|0.764
92368911|NCT04776720|184642623|SUPERIORITY||Model based LS mean difference|-0.12||||0.883|TWO_SIDED|95.0|-1.78|1.53|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.53|-1.78|0.883
92226687|NCT04024501|184355213|OTHER||Geometric mean ratio|58.4|||||TWO_SIDED|90.0|49.49|68.92|||Mixed Model Analysis|The number of subjects in this analysis: 15||Pairwise comparison: Treatment 3/Treatment 4||68.92|49.49|
92226688|NCT04024501|184355213|OTHER||Geometric mean ratio|85.65|||||TWO_SIDED|90.0|73.78|99.43|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 4/Treatment 1||99.43|73.78|
92226689|NCT04024501|184355213|OTHER||Geometric mean ratio|80.65|||||TWO_SIDED|90.0|69.48|93.62|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 4/Treatment 2||93.62|69.48|
92226690|NCT04024501|184355213|OTHER||Geometric mean ratio|89.88|||||TWO_SIDED|90.0|77.61|104.09|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 5/Treatment 1||104.09|77.61|
92226691|NCT04024501|184355213|OTHER||Geometric mean ratio|84.64|||||TWO_SIDED|90.0|72.94|98.2|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 5/Treatment 2||98.20|72.94|
92226692|NCT04024501|184355213|OTHER||Geometric mean ratio|179.68|||||TWO_SIDED|90.0|151.57|212.99|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 5/Treatment 3||212.99|151.57|
92227237|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4; IL|ANCOVA|||||||<0.001
92227238|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8; IL|ANCOVA|||||||<0.001
92227239|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12; IL|ANCOVA|||||||<0.001
92227240|NCT01400932|184356701|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Week 1; NIL|ANCOVA|||||||0.002
92226693|NCT04024501|184355213|OTHER||Geometric mean ratio|104.94|||||TWO_SIDED|90.0|90.18|122.11|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 5/Treatment 4||122.11|90.18|
92226694|NCT04024501|184355214|OTHER||Geometric mean ratio|100.39|||||TWO_SIDED|90.0|84.94|118.65|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 2/Treatment 1||118.65|84.94|
92226695|NCT04024501|184355214|OTHER||Geometric mean ratio|41.26|||||TWO_SIDED|90.0|34.74|49.0|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 1||49.00|34.74|
92226696|NCT04024501|184355214|OTHER||Geometric mean ratio|41.1|||||TWO_SIDED|90.0|34.61|48.81|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 2||48.81|34.61|
92226697|NCT04024501|184355214|OTHER||Geometric mean ratio|53.55|||||TWO_SIDED|90.0|45.09|63.59|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 4||63.59|45.09|
92226698|NCT04024501|184355214|OTHER||Geometric mean ratio|77.05|||||TWO_SIDED|90.0|65.19|91.06|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 4/Treatment 1||91.06|65.19|
92226699|NCT04024501|184355214|OTHER||Geometric mean ratio|76.75|||||TWO_SIDED|90.0|64.94|90.71|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 4/Treatment 2||90.71|64.94|
92226700|NCT04024501|184355214|OTHER||Geometric mean ratio|84.23|||||TWO_SIDED|90.0|70.93|100.03|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 1||100.03|70.93|
92226701|NCT04024501|184355214|OTHER||Geometric mean ratio|83.9|||||TWO_SIDED|90.0|70.65|99.64|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 2||99.64|70.65|
92226702|NCT04024501|184355214|OTHER||Geometric mean ratio|204.16|||||TWO_SIDED|90.0|171.22|243.42|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 3||243.42|171.22|
92226703|NCT04024501|184355214|OTHER||Geometric mean ratio|109.32|||||TWO_SIDED|90.0|92.06|129.83|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 4||129.83|92.06|
92226704|NCT04024501|184355215|OTHER||Geometric mean ratio|124.99|||||TWO_SIDED|90.0|101.09|154.54|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 2/Treatment 1||154.54|101.09|
92226705|NCT04024501|184355215|OTHER||Geometric mean ratio|33.77|||||TWO_SIDED|90.0|27.15|42.01|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 1||42.01|27.15|
92226706|NCT04024501|184355215|OTHER||Geometric mean ratio|27.02|||||TWO_SIDED|90.0|21.72|33.61|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 2||33.61|21.72|
92226707|NCT04024501|184355215|OTHER||Geometric mean ratio|36.84|||||TWO_SIDED|90.0|29.61|45.82|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 4||45.82|29.61|
92226708|NCT04024501|184355215|OTHER||Geometric mean ratio|91.69|||||TWO_SIDED|90.0|74.15|113.36|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 4/Treatment 1||113.36|74.15|
92226709|NCT04024501|184355215|OTHER||Geometric mean ratio|73.36|||||TWO_SIDED|90.0|59.33|90.7|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 4/Treatment 2||90.70|59.33|
92226710|NCT04024501|184355215|OTHER||Geometric mean ratio|67.62|||||TWO_SIDED|90.0|54.37|84.12|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 1||84.12|54.37|
92226711|NCT04024501|184355215|OTHER||Geometric mean ratio|54.11|||||TWO_SIDED|90.0|43.5|67.3|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 2||67.30|43.50|
92226712|NCT04024501|184355215|OTHER||Geometric mean ratio|200.23|||||TWO_SIDED|90.0|160.15|250.32|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 3||250.32|160.15|
92226713|NCT04024501|184355215|OTHER||Geometric mean ratio|73.76|||||TWO_SIDED|90.0|59.3|91.75|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 4||91.75|59.30|
92226714|NCT00680836|184355225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.26|TWO_SIDED|95.0|-1.0|0.3|||t-test, 2 sided|||||0.3|-1.0|0.26
92226715|NCT00680836|184355226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.98|TWO_SIDED|95.0|0.0|0.5|||t-test, 2 sided|||||0.5|0.0|0.98
92226716|NCT00680836|184355227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.78|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.78
92226717|NCT00680836|184355228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.64|TWO_SIDED|95.0|-0.2|0.2|||Chi-squared|||||0.2|-0.2|0.64
92226718|NCT00680836|184355229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.72|TWO_SIDED|95.0|-0.7|0.5|||t-test, 2 sided|||||0.5|-0.7|0.72
92226719|NCT00680836|184355230|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.86|TWO_SIDED|95.0|-0.5|0.6|||t-test, 2 sided|||||0.6|-0.5|0.86
92226720|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|0.993||||0.791|TWO_SIDED|95.0|0.946|1.043|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 0 hr.|||1.043|0.946|0.791
92226721|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|1.0|||>|0.999|TWO_SIDED|95.0|0.952|1.05|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 1 hr.|||1.050|0.952|>0.999
92226722|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|1.001||||0.975|TWO_SIDED|95.0|0.953|1.051|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 1 hr 15 min.|||1.051|0.953|0.975
92226723|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|1.0|||>|0.999|TWO_SIDED|95.0|0.952|1.05|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 1 hr 45 min.|||1.050|0.952|>0.999
92226724|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|1.003||||0.908|TWO_SIDED|95.0|0.955|1.053|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 2 hr.|||1.053|0.955|0.908
92226725|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|1.025||||0.312|TWO_SIDED|95.0|0.977|1.077|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 2 hr 45 min.|||1.077|0.977|0.312
92227241|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2; NIL|ANCOVA|||||||<0.001
92227242|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4; NIL|ANCOVA|||||||<0.001
92368912|NCT04776720|184642624|SUPERIORITY||Model based LS mean difference|-0.11||||0.753|TWO_SIDED|95.0|-0.83|0.6|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.6|-0.83|0.753
92368913|NCT04776720|184642625|SUPERIORITY||Model based LS mean difference|-3.4||||0.276|TWO_SIDED|95.0|-9.54|2.74|||Mixed Models Analysis|Adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.74|-9.54|0.276
92368914|NCT04776720|184642626|SUPERIORITY||Model based LS mean difference|-0.29||||0.319|TWO_SIDED|95.0|-0.86|0.28|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.28|-0.86|0.319
92368915|NCT04776720|184642627|SUPERIORITY||Model based LS mean difference|0.1||||0.448|TWO_SIDED|95.0|-0.15|0.34|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.34|-0.15|0.448
92368916|NCT02311881|184642628|SUPERIORITY_OR_OTHER||LS mean difference|-2.51||||0.1626|TWO_SIDED|95.0|-6.037|1.016|||ANCOVA||LS treatment means from mixed model analysis of covariance with treatment, target joint and center pools as fixed effects and baseline as a covariate.|"H0: There is no significant difference in mean change from baseline through week 12 of WOMAC Pain between twice daily Paracetamol 1000 mg SR tablets and placebo.~H1: There is a significant difference in mean change from baseline through week 12 of WOMAC Pain between twice daily Paracetamol 1000 mg SR tablets and placebo."||1.016|-6.037|0.1626
92368917|NCT02311881|184642628|NON_INFERIORITY_OR_EQUIVALENCE|Paracetamol 2000mg BID is non-inferior to Paracetamol 1330mg TID if the upper bound of the 95% confidence Interval is less than 5.3.|LS mean difference|-2.36|||||TWO_SIDED|95.0|-5.894|1.166|||ANCOVA||LS treatment means from mixed model analysis of covariance with treatment, target joint and center pools as fixed effects and baseline as a covariate.|"H0: Difference in mean change from baseline through week 12 of WOMAC Pain between Paracetamol 1000 mg SR tablet and Paracetamol 665 mg SR tablet is ≤ - 5.3 (inferiority).~H1: Difference in mean change from baseline through week 12 of WOMAC Pain between Paracetamol 1000 mg SR tablet and Paracetamol 665 mg SR tablet is \> - 5.3 (noninferiority)."||1.166|-5.894|
92368918|NCT02311881|184642628|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.9352|TWO_SIDED|95.0|-3.687|3.394|||ANCOVA||LS treatment means from mixed model analysis of covariance with treatment, target joint and center pools as fixed effects and baseline as a covariate.|"H0: There is no significant difference in mean change from baseline through week 12 of WOMAC Pain between Paracetamol 665 mg SR tablets and placebo.~H1: There is a significant difference in mean change from baseline through week 12 of WOMAC Pain between Paracetamol 665 mg SR tablets and placebo."||3.394|-3.687|0.9352
92368919|NCT03306433|184642638|EQUIVALENCE|The null hypothesis is that there are no significant paired differences between the groups. The power calculation is based on the observed variation and number of participants|Paired difference t-test|-12.139|STANDARD_DEVIATION|7.101||0.0003|TWO_SIDED|||||Paired difference p value comparing UDMA-K18 vs Adhesive Control|Paired difference test, 2 sided||There are 12 participants (pairs) for this comparison|Paired difference test within each participant.||||0.0003
92405797|NCT02085161|184701885|SUPERIORITY_OR_OTHER||LSMean Difference|0.016|STANDARD_ERROR_OF_MEAN|0.068||0.815|TWO_SIDED|95.0|-0.118|0.151||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||0.151|-0.118|0.8150
92368920|NCT03306433|184642638|EQUIVALENCE|Null hypothesis was that there were no differences between the groups|Paired difference t-test|-7.412|STANDARD_DEVIATION|6.049||0.0063|TWO_SIDED|||||Paired differrnce between UDMA-K18 and UDMA control|Paired difference test, 2 sided||There are 9 participant pairs for this comparison|Paired comparison||||0.0063
92368921|NCT03306433|184642639|EQUIVALENCE|The Null hypothesis was that there would be no differences between the groups|Chi Square on WSL Index frequency|15.77||||0.0033|TWO_SIDED||||||Chi-squared|||WSL Index is non-parametric||||0.0033
92368922|NCT03306433|184642639|EQUIVALENCE|The null hypothesis was that there would not be any differences between the groups|Chi Square on WSL Index frequency|6.8321||||0.145|TWO_SIDED||||||Chi-squared|||||||0.1450
92368923|NCT01575808|184642654|SUPERIORITY_OR_OTHER_LEGACY||Percentage|91.0|||<|0.0001|ONE_SIDED|95.0|86.3||||z-test|One-sided z-test||A literature-based Surgical Bypass Efficacy Goal of 65% was compared to the percentage of subjects maintaining primary assisted patency at 12 months. A one-sided z-test using a Type I error of 5% was performed to test the hypotheses that the 12-month primary assisted patency probability of GP1101 is superior to the SBEG of 65%.|||86.3|<0.0001
92368924|NCT01575808|184642655|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Hypothesis is that the post-procedure hospital stay duration for GP1101 is superior to the post-procedure hospital stay for the retrospective surgical bypass group.||||<0.0001
92368925|NCT01575808|184642656|SUPERIORITY_OR_OTHER_LEGACY||Percentage|100.0|||<|0.0001|TWO_SIDED|95.0|96.5|100.0|||Fisher Exact||Confidence interval calculated with binomial exact method.|The hypothesis is that the rate of avoidance of general anesthesia for GP1101 is superior to the rate of avoidance of general anesthesis for the retrospective surgical bypass group.||100|96.5|<0.0001
92168058|NCT01631214|184225112|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.72|STANDARD_ERROR_OF_MEAN|0.15||0.027|TWO_SIDED|95.0|0.54|0.96|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.96|0.54|0.027
92168059|NCT01631214|184225113|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Odds Ratio (OR)|0.63|STANDARD_ERROR_OF_MEAN|0.18||0.008|TWO_SIDED|95.0|0.44|0.89|||Regression, Logistic|Based on a logistic regression model adjusted for age strata, baseline total hip BMD T-score and presence of severe vertebral fracture at baseline.|Values \< 1 for odds ratio favor romosozumab. The standard error (SE) represents the standard error of log(odds ratio).|||0.89|0.44|0.008
92227243|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8; NIL|ANCOVA|||||||<0.001
92368926|NCT01575808|184642657|SUPERIORITY_OR_OTHER_LEGACY||Percentage|100.0|||||TWO_SIDED|95.0|96.5|100.0|||||Confidence intervals calculated using the binomial exact method.|||100.0|96.5|
92368927|NCT01575808|184642687|OTHER||Percentage|97.1|||||TWO_SIDED|95.0|91.7|99.4||||||||99.4|91.7|
92368928|NCT01575808|184642707|OTHER||Percentage|100.0|||||TWO_SIDED|95.0|96.5|100.0|||||Confidence Interval calculated with binomial exact method.|||100.0|96.5|
92368929|NCT03224403|184642719|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
92368930|NCT03224403|184642719|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
92168060|NCT01631214|184225113|SUPERIORITY||Risk Ratio (RR)|0.64|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|0.46|0.89|||||SE represents the standard error of log (risk ratio).|"The risk ratio (ratio of percentages, Romosozumab:Alendronate) was based on the Mantel Haenszel method, adjusted for age strata (\<75 vs. ≥75 years), the presence or absence of severe vertebral fracture at baseline, and baseline bone mineral density T-score at the total hip (≤ -2.5, \> -2.5).~Values \< 1 for risk ratio favor romosozumab."||0.89|0.46|
92368931|NCT03224403|184642719|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
92368932|NCT03224403|184642719|SUPERIORITY|||||||0.035||||||The significance threshold level was 0.049 (two-sided). P-values are from the comparison of median survival time using the bootstrap re-sampling method.|bootstrap re-sampling method|||||||0.035
92368933|NCT03224403|184642719|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are from the comparison of median survival time using the bootstrap re-sampling method.|bootstrap re-sampling method|||||||<0.001
92368934|NCT03224403|184642720|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
92368935|NCT03224403|184642720|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
92368936|NCT03224403|184642720|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
92368937|NCT03224403|184642720|SUPERIORITY|||||||0.671||||||The significance threshold level was 0.049 (two-sided). P-values are from the comparison of median survival time using the bootstrap re-sampling method.|bootstrap re-sampling method|||||||0.671
92368938|NCT03224403|184642720|SUPERIORITY|||||||0.487||||||The significance threshold level was 0.049 (two-sided). P-values are from the comparison of median survival time using the bootstrap re-sampling method.|bootstrap re-sampling method|||||||0.487
92368939|NCT03224403|184642721|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368940|NCT03224403|184642722|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368941|NCT03224403|184642723|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368942|NCT03224403|184642724|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368943|NCT03224403|184642725|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92168061|NCT01631214|184225113|SUPERIORITY||Absolute risk reduction|1.84|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|0.51|3.17||||||"The absolute risk reduction (difference in percentages, Alendronate - Romosozumab) was based on the Mantel-Haenszel method adjusted for age strata, baseline total hip BMD T-score (≤ -2.5, \> -2.5), and presence of severe vertebral fracture at baseline.~Positive values for absolute risk reduction favor romosozumab."||3.17|0.51|
92227244|NCT01400932|184356701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12; NIL|ANCOVA|||||||<0.001
92368944|NCT03224403|184642726|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368945|NCT03224403|184642727|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368946|NCT03224403|184642728|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368947|NCT03224403|184642729|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368948|NCT03224403|184642730|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368949|NCT03224403|184642731|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368950|NCT03224403|184642732|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92227245|NCT01400932|184356702|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92227246|NCT01400932|184356703|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||Week 1|ANCOVA|||||||0.174
92227247|NCT01400932|184356703|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||Week 2|ANCOVA|||||||0.013
92227248|NCT01400932|184356703|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Week 4|ANCOVA|||||||0.001
92227249|NCT01400932|184356703|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Week 8|ANCOVA|||||||0.001
92227250|NCT01400932|184356703|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12|ANCOVA|||||||<0.001
92368951|NCT03224403|184642733|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368952|NCT03224403|184642734|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368953|NCT03224403|184642735|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368954|NCT03224403|184642736|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368955|NCT03224403|184642737|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92368956|NCT03224403|184642738|SUPERIORITY|||||||0.007|||||||Regression, Logistic|||||||0.007
92368957|NCT03224403|184642739|SUPERIORITY|||||||0.026|||||||Regression, Logistic|||||||0.026
92368958|NCT03224403|184642740|SUPERIORITY|||||||0.08|||||||Regression, Logistic|||||||0.080
92368959|NCT01631747|184642769|SUPERIORITY|||||||0.01||||||p-value is not adjusted for multiple comparisons, and tested at an a priori type I error rate of 0.05.|t-test, 2 sided|||Sample size was based on an independent 2-sample t-test using a two-sided type 1 error rate of 0.05, and 80% power. Assuming a standard deviation (SD) of 15lbs (6.8kg), a clinically meaningful difference of 5lbs (2.4kg) between groups, and 10% attrition, a sample size of 150/group was required.||||0.01
92226726|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|1.008||||0.763|TWO_SIDED|95.0|0.96|1.058|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 3 hr.|||1.058|0.960|0.763
92226727|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|1.095|||<|0.001|TWO_SIDED|95.0|1.043|1.15|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 3 hr 30 min.|||1.150|1.043|<0.001
92226728|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|1.046||||0.07|TWO_SIDED|95.0|0.996|1.098|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 3 hr 45 min.|||1.098|0.996|0.070
92226729|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|0.971||||0.238|TWO_SIDED|95.0|0.925|1.02|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 4 hr 15 min.|||1.020|0.925|0.238
92168062|NCT01631214|184225114|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.71|STANDARD_ERROR_OF_MEAN|0.11||0.002|TWO_SIDED|95.0|0.57|0.88|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.88|0.57|0.002
92168063|NCT01631214|184225115|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.74|STANDARD_ERROR_OF_MEAN|0.16||0.057|TWO_SIDED|95.0|0.54|1.01|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.01|0.54|0.057
92168064|NCT01631214|184225116|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.64|STANDARD_ERROR_OF_MEAN|0.34||0.19|TWO_SIDED|95.0|0.33|1.26|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.26|0.33|0.19
92168065|NCT01631214|184225117|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.72|STANDARD_ERROR_OF_MEAN|0.17||0.053|TWO_SIDED|95.0|0.52|1.01|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.01|0.52|0.053
92168066|NCT01631214|184225118|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.56|STANDARD_ERROR_OF_MEAN|0.39||0.14|TWO_SIDED|95.0|0.26|1.22|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.22|0.26|0.14
92168067|NCT01631214|184225119|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|8.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|7.58|8.57|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an analysis of covariance (ANCOVA) model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||8.57|7.58|<0.001
92168068|NCT01631214|184225120|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|3.42|4.1|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||4.10|3.42|<0.001
92168069|NCT01631214|184225121|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|3.4|4.14|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||4.14|3.40|<0.001
92226730|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|0.975||||0.298|TWO_SIDED|95.0|0.928|1.023|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 4 hr 30 min.|||1.023|0.928|0.298
92226731|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|0.994||||0.821|TWO_SIDED|95.0|0.947|1.044|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 4 hr 45 min.|||1.044|0.947|0.821
92226732|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|0.991||||0.715|TWO_SIDED|95.0|0.944|1.04|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 5 hr.|||1.040|0.944|0.715
92226733|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|1.008||||0.759|TWO_SIDED|95.0|0.96|1.058|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 5 hr 15 min.|||1.058|0.960|0.759
92226734|NCT01475734|184355244|SUPERIORITY_OR_OTHER||Ratio|1.0|||>|0.999|TWO_SIDED|95.0|0.952|1.05|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 5 hr 30 min.|||1.050|0.952|>0.999
92226735|NCT01734655|184355300|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||correlation analysis|||||||<.01
92405504|NCT02205736|184701231|SUPERIORITY|||||||0.0606||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 18 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0606
92405505|NCT02205736|184701231|SUPERIORITY|||||||0.0045||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 19 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0045
92226736|NCT01734655|184355301|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||correlation analysis|||||||<.01
92226737|NCT01734655|184355302|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||correlation analysis|||||||<.01
92226738|NCT00700180|184355336|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8127|TWO_SIDED|95.0|0.63|1.8||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||bFGF (high versus low)||1.80|0.63|0.8127
92226739|NCT00700180|184355336|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.0285|TWO_SIDED|95.0|1.06|3.08||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||E-selectin (high versus low)||3.08|1.06|0.0285
92168070|NCT01631214|184225122|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|8.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|8.31|9.09|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||9.09|8.31|<0.001
92226740|NCT00700180|184355336|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.7478|TWO_SIDED|95.0|0.64|1.85||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||ICAM (high versus low)||1.85|0.64|0.7478
92226741|NCT00700180|184355336|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.6761|TWO_SIDED|95.0|0.58|2.33||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||PlGF (high versus low)||2.33|0.58|0.6761
92226742|NCT00700180|184355336|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.4601|TWO_SIDED|95.0|0.72|2.09||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||VEGF A (high versus low)||2.09|0.72|0.4601
92168071|NCT01631214|184225123|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|3.03|3.6|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||3.60|3.03|<0.001
92168072|NCT01631214|184225124|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|2.9|3.54|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||3.54|2.90|<0.001
92168073|NCT01631214|184225125|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|LS Mean Difference|7.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|6.84|7.89|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||7.89|6.84|<0.001
92226743|NCT00700180|184355336|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.3193|TWO_SIDED|95.0|0.46|1.29||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||VEGFR-1 (high versus low)||1.29|0.46|0.3193
92227251|NCT01400932|184356704|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 1|ANCOVA|||||||<0.001
92227252|NCT01400932|184356704|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2|ANCOVA|||||||<0.001
92227253|NCT01400932|184356704|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4|ANCOVA|||||||<0.001
92368960|NCT01631747|184642769|SUPERIORITY|||||||0.02|||||||Regression, Linear|adjusted for actual gestational age of 36 week weight, gestational age, bmi, and maternal age at randomization, maternal race and paternal race.||||||0.02
92368961|NCT01631747|184642770|SUPERIORITY|||||||0.54|||||||Chi-squared|||||||0.54
92368962|NCT01631747|184642771|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|T-test performed on change in glucose (log scale), but presented as Median and inter-quartile range for interpretability||||||0.89
92368963|NCT01631747|184642772|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|t-test performed on changes in HDL, but presented as median and IQR for ease of interpretation||||||0.30
92368964|NCT01631747|184642773|SUPERIORITY|||||||0.69|||||||t-test, 2 sided|t-test run on changes between groups. Data presented as median and IQR for ease of interpretation||||||0.69
92168074|NCT01631214|184225126|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|LS Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|3.29|4.02|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||4.02|3.29|<0.001
92168075|NCT01631214|184225127|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|LS Mean Difference|3.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|3.18|3.97|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||3.97|3.18|<0.001
92168076|NCT02566902|184225148|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92168077|NCT02566902|184225149|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
92368965|NCT01631747|184642774|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|t-test run on change between groups (log scale), but presented as median and IQR for ease of interpretation||||||0.19
92368966|NCT01631747|184642775|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|t-test used to compare changes between groups (log scale). Median and IQR are presented for ease of interpretation.||||||0.27
92368967|NCT01631747|184642776|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|t-test performed on changes between groups (log scale). Median and IQR are presented for ease of interpretation||||||0.003
92368968|NCT01631747|184642777|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|t-test run on change between groups (log scale), but presented as median and IQR for ease of interpretation||||||0.24
92368969|NCT01631747|184642778|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|t-test run on change between groups (log scale), but presented as median and IQR for ease of interpretation||||||0.32
92368970|NCT01631747|184642779|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|T-test performed on change between groups (log scale). Median and IQR are presented for ease of interpretation||||||0.26
92368971|NCT01631747|184642780|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|||||||0.62
92368972|NCT01631747|184642781|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||||||0.61
92368973|NCT01631747|184642782|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||||||0.42
92368974|NCT01631747|184642783|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.25
92168078|NCT02566902|184225150|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
92168079|NCT02566902|184225151|SUPERIORITY|||||||0.96|||||||Chi-squared|||||||0.96
92168080|NCT02566902|184225152|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||||||0.99
92168081|NCT02566902|184225153|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92168082|NCT01622868|184225164|SUPERIORITY|||||||0.97||||||One-sided significance level = 0.10|Z-test|||The study was designed to see if there is a signal in the 12-week CR rate with the addition of lapatinib to warrant a future phase III trial. Null hypothesis: the 12-week post-WBRT/SRS CR rate is ≤ 5%; alternative hypothesis: the addition of lapatinib will increase that CR rate to at least 20%. 114 eligible participants provide 86% power to detect a 15% absolute increase in CR rate at a significance level of 0.10, using a 1-sided Z-test for the difference of 2 proportions.||||0.97
92168083|NCT01622868|184225165|SUPERIORITY|||||||0.78||||||One-sided significance level = 0.10|Z-test|||||||0.78
92168084|NCT01622868|184225166|SUPERIORITY|||||||0.78||||||One-sided significance level = 0.10|Z-test|||4 weeks post-RT||||0.78
92168085|NCT01622868|184225166|SUPERIORITY|||||||0.97||||||One-sided significance level = 0.10|Z-test|||12 weeks post-RT||||0.97
92168086|NCT01622868|184225172|SUPERIORITY|||||||1||||||One-sided significance level = 0.10|z-test|||||||1.00
92168087|NCT01622868|184225174|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.67|TWO_SIDED|95.0|0.62|1.36||Two-sided significance level = 0.05|Log Rank|||||1.36|0.62|0.67
92168088|NCT03112174|184225221|SUPERIORITY||Hazard Ratio (HR)|0.629||||0.0024|TWO_SIDED|95.0|0.465|0.85||P value is from stratified log-rank test.|Log Rank|||||0.850|0.465|0.0024
92227254|NCT01400932|184356704|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8|ANCOVA|||||||<0.001
92368975|NCT01631747|184642784|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
92368976|NCT01631747|184642785|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||||||0.94
92368977|NCT02908685|184642788|SUPERIORITY|This is the first end point and first family tested in the hierarchical testing. The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.55||||0.0156|TWO_SIDED|95.0|0.3|2.81|||Mixed Model Repeated Measure Analysis|||||2.81|0.30|0.0156
92368978|NCT02908685|184642789|SUPERIORITY|This is the second end point and second family tested in the hierarchical testing. Logistic Regression Model.The variables included in the logistic regression are: baseline total score, treatment and age group.|Odds Ratio (OR)|2.35||||0.0469|TWO_SIDED|95.0|1.01|5.44||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Wald test|||||5.44|1.01|0.0469
92226744|NCT00700180|184355336|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.1758|TWO_SIDED|95.0|0.85|2.45||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||VEGFR-2 (high versus low)||2.45|0.85|0.1758
92405506|NCT02205736|184701231|SUPERIORITY|||||||0.9068||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 20 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.9068
92405507|NCT02205736|184701231|SUPERIORITY|||||||0.4142||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 21 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.4142
92168089|NCT03112174|184225227|SUPERIORITY||Rate Ratio|1.658||||0.0004|TWO_SIDED|95.0|1.24|2.218||Estimate and p-value for rate ratio are based on Cochran-Mantel-Haenszel (CMH) test adjusted for two randomization stratification factors: number of prior lines of therapy (1-2 vs \>=3) and TLS category (low risk vs increased risk) at randomization.|Cochran-Mantel-Haenszel||For rate ratio, numerator is Ibrutinib + Venetoclax arm and denominator is Ibrutinib + Placebo arm.|||2.218|1.240|0.0004
92226745|NCT00700180|184355338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9454|TWO_SIDED|95.0|0.78|1.31|||Log Rank|||||1.31|0.78|0.9454
92368979|NCT02908685|184642790|SUPERIORITY|This is the third end point and third family tested in the hierarchical testing. The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.59||||0.0469|TWO_SIDED|95.0|0.55|2.62||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Mixed Model Repeated Measure Analysis|||||2.62|0.55|0.0469
92368980|NCT02908685|184642791|SUPERIORITY|This is one of the two end points in family four in the hierarchical testing. The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|0.58||||0.3902|TWO_SIDED|95.0|-0.53|1.69||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Mixed Model Repeated Measure Analysis|||||1.69|-0.53|0.3902
92368981|NCT02908685|184642792|SUPERIORITY|This is one of the two end points in family four in the hierarchical testing. The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|-2.05||||0.3902|TWO_SIDED|95.0|-6.67|2.56||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Mixed Model Repeated Measure Analysis|||||2.56|-6.67|0.3902
92168090|NCT03112174|184225228|SUPERIORITY||Rate Ratio|1.101||||0.1279|TWO_SIDED|95.0|0.973|1.247||Estimate and p-value for rate ratio are based on CMH test adjusted for two randomization stratification factors: number of prior lines of therapy (1-2 vs \>=3) and TLS category (low risk vs increased risk) at randomization.|Cochran-Mantel-Haenszel||For rate ratio, numerator is Ibrutinib + Venetoclax arm and denominator is Ibrutinib + Placebo arm.|||1.247|0.973|0.1279
92168091|NCT03112174|184225229|SUPERIORITY|||||||0.2028|||||||Fisher Exact|||Bone marrow aspirate||||0.2028
92168092|NCT03112174|184225229|SUPERIORITY|||||||0.0014|||||||Fisher Exact|||Peripheral blood||||0.0014
92168093|NCT03112174|184225230|SUPERIORITY||Hazard Ratio (HR)|0.832||||0.2669|TWO_SIDED|95.0|0.602|1.151||P value is from stratified log-rank test.|Log Rank||Hazard ratio is estimated using stratified Cox regression model with treatment as the only covariate.|||1.151|0.602|0.2669
92168094|NCT03112174|184225232|SUPERIORITY||Hazard Ratio (HR)|0.541||||0.0013|TWO_SIDED|95.0|0.369|0.792||P value is from stratified log-rank test.|Log Rank||Hazard ratio is estimated using stratified Cox regression model with treatment as the only covariate.|||0.792|0.369|0.0013
92168095|NCT03112174|184225247|SUPERIORITY||Hazard Ratio (HR)|1.169||||0.2861|TWO_SIDED|95.0|0.879|1.554||P value is from stratified log-rank test.|Log Rank|||||1.554|0.879|0.2861
92168096|NCT04425629|184225253|SUPERIORITY||LS Mean|-0.33|STANDARD_ERROR_OF_MEAN|0.1|=|0.0006|TWO_SIDED|95.0|-0.52|-0.14|||ANCOVA|||||-0.14|-0.52|= 0.0006
92168097|NCT04425629|184225253|SUPERIORITY||LS Mean|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.56|-0.19|||ANCOVA|||||-0.19|-0.56|< 0.0001
92168098|NCT04425629|184225254|SUPERIORITY||||||=|0.0024|||||||Cochran-Mantel-Haenszel|||||||= 0.0024
92168099|NCT04425629|184225255|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||< 0.0001
92168100|NCT04425629|184225261|SUPERIORITY||||||=|0.1903|||||||Mixed Models Analysis|||||||= 0.1903
92226746|NCT00700180|184355339|SUPERIORITY_OR_OTHER||Difference in Responses Rates|9.34||||0.1737|TWO_SIDED|95.0|-2.4|21.0|||Cochran-Mantel-Haenszel||Approximate 95% Confidence Interval (CI) for difference of two rates using Hauck-Anderson method.|||21.0|-2.4|0.1737
92368982|NCT02908685|184642793|SUPERIORITY|This is the sixth endpoint and the fifth family tested in the hierarchical testing. The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|2.55||||0.3902|TWO_SIDED|95.0|0.93|4.17||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Mixed Model Repeated Measure Analysis|||||4.17|0.93|0.3902
92368983|NCT02908685|184642794|SUPERIORITY|This is the seventh endpoint and the sixth family tested in the hierarchical testing. Logistic Regression Model. The variables included in the logistic regression are: baseline total score, treatment and age group.|Odds Ratio (OR)|1.38||||0.3902|TWO_SIDED|95.0|0.7|2.74||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Wald-test|||CGI Improved||2.74|0.70|0.3902
92368984|NCT02908685|184642795|SUPERIORITY|Logistic Regression Model. The variables included in the logistic regression are: baseline total score, treatment and age group.|Odds Ratio (OR)|2.0||||0.043|TWO_SIDED|95.0|1.02|3.93|||Wald test|||||3.93|1.02|0.0430
92368985|NCT02908685|184642797|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|0.64||||0.1328|TWO_SIDED|95.0|-0.2|1.47|||Mixed Model Repeated Measure Analysis|||||1.47|-0.20|0.1328
92368986|NCT02908685|184642798|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.97||||0.103|TWO_SIDED|95.0|-0.4|4.34|||Mixed Model Repeated Measure Analysis|||||4.34|-0.40|0.1030
92368987|NCT02908685|184642799|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|2.34||||0.0451|TWO_SIDED|95.0|0.05|4.62|||Mixed Model Repeated Measure Analysis|||||4.62|0.05|0.0451
92368988|NCT02908685|184642800|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.28||||0.0489|TWO_SIDED|95.0|0.01|2.56|||Mixed Model Repeated Measure Analysis|||||2.56|0.01|0.0489
92368989|NCT02908685|184642801|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|2.16||||0.0326|TWO_SIDED|95.0|0.18|4.14|||Mixed Model Repeated Measure Analysis|||||4.14|0.18|0.0326
92368990|NCT02908685|184642802|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|-2.87||||0.3029|TWO_SIDED|95.0|-8.36|2.62|||Mixed Model Repeated Measure Analysis|||||2.62|-8.36|0.3029
92368991|NCT02908685|184642803|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.28||||0.4937|TWO_SIDED|95.0|-2.42|4.99|||Mixed Model Repeated Measure Analysis|||||4.99|-2.42|0.4937
92368992|NCT02908685|184642804|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|2.35||||0.3967|TWO_SIDED|95.0|-3.11|7.8|||Mixed Model Repeated Measure Analysis|||||7.80|-3.11|0.3967
92368993|NCT02908685|184642805|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|2.96||||0.6704|TWO_SIDED|95.0|-10.78|16.7|||Mixed Model Repeated Measure Analysis|||||16.70|-10.78|0.6704
92368994|NCT02908685|184642806|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|-0.43||||0.8856|TWO_SIDED|95.0|-6.3|5.45|||Mixed Model Repeated Measure Analysis|||||5.45|-6.30|0.8856
92368995|NCT02908685|184642807|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.45||||0.1778|TWO_SIDED|95.0|-0.68|3.57|||Mixed Model Repeated Measure Analysis|||||3.57|-0.68|0.1778
92368996|NCT02908685|184642808|SUPERIORITY|Logistic Regression Model. The variables included in the logistic regression are: baseline total score, treatment and age group.|Odds Ratio (OR)|1.21||||0.6636|TWO_SIDED|95.0|0.52|2.83|||Wald-test|||CGI No Change or Improved||2.83|0.52|0.6636
92368997|NCT01691014|184642849|SUPERIORITY_OR_OTHER|||||||0.99|||||||Fisher Exact|||DAS28: Month 3: Continuous variables were compared between treatment groups using one way analysis of variance (ANOVA).||||0.990
92368998|NCT01691014|184642849|SUPERIORITY_OR_OTHER|||||||0.586|||||||Fisher Exact|||DAS28: Month 6: Continuous variables were compared between treatment groups using one way ANOVA.||||0.586
92368999|NCT01691014|184642849|SUPERIORITY_OR_OTHER|||||||0.98|||||||Fisher Exact|||DAS28: Month 12: Continuous variables were compared between treatment groups using one way ANOVA.||||0.980
92369000|NCT01691014|184642850|SUPERIORITY_OR_OTHER|||||||0.945|||||||Fisher Exact|||HAQ: Baseline: Continuous variables were compared between treatment groups using one way ANOVA.||||0.945
92369001|NCT01691014|184642850|SUPERIORITY_OR_OTHER|||||||0.458|||||||Fisher Exact|||HAQ: Month 3: Continuous variables were compared between treatment groups using one way ANOVA.||||0.458
92369002|NCT01691014|184642850|SUPERIORITY_OR_OTHER|||||||0.896|||||||Fisher Exact|||HAQ: Month 6: Continuous variables were compared between treatment groups using one way ANOVA.||||0.896
92369003|NCT01691014|184642850|SUPERIORITY_OR_OTHER|||||||0.39|||||||Fisher Exact|||HAQ: Month 12: Continuous variables were compared between treatment groups using one way ANOVA.||||0.390
92369004|NCT03522246|184642856|SUPERIORITY|Rucaparib vs Placebo|Hazard Ratio (HR)|0.47||||0.0004|TWO_SIDED|95.0|0.31|0.72|||Log Rank||The stratified cox proportional hazard model is adjusted for the randomization strata of HRD classification and timing of surgery.|||0.72|0.31|0.0004
92369005|NCT03522246|184642857|SUPERIORITY|Rucaparib vs Placebo|Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.68|||Log Rank||The stratified cox proportional hazard model is adjusted for the randomization strata of HRD classification, disease status post-chemotherapy, and timing of surgery.|||0.68|0.40|<0.0001
92168101|NCT04425629|184225261|SUPERIORITY||||||=|0.8431|||||||Mixed Models Analysis|||||||= 0.8431
92168102|NCT04425629|184225317|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.06|16.12||||||||16.12|0.06|
92168103|NCT04425629|184225318|SUPERIORITY||Hazard Ratio (HR)|0.33|||||TWO_SIDED|95.0|0.03|3.13||||||||3.13|0.03|
92168104|NCT02374463|184225404|SUPERIORITY||||||<|0.05||||||P value not adjusted for multiple comparisons|t-test, 2 sided|||within group change was assessed||||<0.05
92168105|NCT02374463|184225405|SUPERIORITY||||||=|0.08||||||p value not adjusted for multiple comparisons|ANOVA|||||||=0.08
92168106|NCT02374463|184225406|SUPERIORITY||||||=|0.6|||||||ANOVA|not adjusted for multiple comparisons||||||=0.6
92168107|NCT02374463|184225407|SUPERIORITY|||||||0.84||||||Not adjusted for multiple comparisons|Chi-squared|exploratory aim prespecified.||||||0.84
92168108|NCT02374463|184225407|SUPERIORITY||||||=|0.4|||||||Chi-squared|||||||=0.4
92168109|NCT02374463|184225408|SUPERIORITY||||||=|0.3||||||not adjusted for multiple comparisons|ANOVA|||||||=0.3
92168110|NCT02374463|184225409|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92168111|NCT03538717|184225410|SUPERIORITY|||||||0.113|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.113
92168112|NCT03538717|184225411|SUPERIORITY|||||||0.228|||||||Fisher Exact|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.228
92168113|NCT03538717|184225412|SUPERIORITY|||||||0.02|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.020
92168114|NCT03538717|184225413|SUPERIORITY|||||||0.138|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.138
92168115|NCT03538717|184225414|SUPERIORITY|||||||0.524|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.524
92168116|NCT03538717|184225415|SUPERIORITY|||||||0.265|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.265
92168117|NCT03538717|184225416|SUPERIORITY|||||||0.035|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.035
92168118|NCT03538717|184225417|SUPERIORITY|||||||0.123|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.123
92168119|NCT03538717|184225418|SUPERIORITY|||||||0.327|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.327
92168120|NCT03538717|184225419|SUPERIORITY|||||||0.419|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.419
92168121|NCT03538717|184225420|SUPERIORITY|||||||0.01|||||||Fisher Exact|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.010
92168122|NCT03538717|184225421|SUPERIORITY|||||||0.446|||||||Chi-squared|||100% clear cells||||0.446
92168123|NCT03538717|184225421|SUPERIORITY|||||||0.596|||||||Chi-squared|||100% non-clear cells||||0.596
92168124|NCT03538717|184225421|SUPERIORITY|||||||0.578|||||||Chi-squared|||Majority component of clear cells||||0.578
92168125|NCT03538717|184225421|SUPERIORITY|||||||0.706|||||||Fisher Exact|||Majority component of non-clear cells||||0.706
92168126|NCT03538717|184225422|SUPERIORITY|||||||0.074|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.074
92168127|NCT03538717|184225423|SUPERIORITY|||||||0.07|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.070
92168128|NCT03538717|184225424|SUPERIORITY|||||||0.091|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.091
92168129|NCT03538717|184225425|SUPERIORITY|||||||0.046|||||||Chi-squared|||Lymph nodes||||0.046
92168130|NCT03538717|184225425|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||CNS||||>0.999
92168131|NCT03538717|184225425|SUPERIORITY|||||||0.026|||||||Chi-squared|||Hepatic||||0.026
92168132|NCT03538717|184225425|SUPERIORITY|||||||0.327|||||||Chi-squared|||Pulmonary||||0.327
92168133|NCT03538717|184225425|SUPERIORITY|||||||0.024|||||||Chi-squared|||Bone||||0.024
92168134|NCT03538717|184225425|SUPERIORITY|||||||0.045|||||||Chi-squared|||Another site of metastasis||||0.045
92168135|NCT03538717|184225426|SUPERIORITY|||||||0.555|||||||Chi-squared|||LDH level \>1.5\*ULN||||0.555
92168136|NCT03538717|184225426|SUPERIORITY||||||<|0.001|||||||Chi-squared|||Hgb levels \<=LLN||||<0.001
92168137|NCT03538717|184225426|SUPERIORITY|||||||0.344|||||||Chi-squared|||Corrected Ca levels \>10 mg/dL||||0.344
92168138|NCT03538717|184225426|SUPERIORITY||||||>|0.999|||||||Chi-squared|||Neutrophil levels \>ULN||||>0.999
92168139|NCT03538717|184225426|SUPERIORITY|||||||0.795|||||||Chi-squared|||Platelet levels \>ULN||||0.795
92168140|NCT03538717|184225426|SUPERIORITY|||||||0.184|||||||Chi-squared|||Neutrophil-to-lymphocyte ratio \<=3||||0.184
92168141|NCT03538717|184225427|SUPERIORITY|||||||0.235|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.235
92168142|NCT03628885|184225449|SUPERIORITY||||||<|0.02||||||Adjusted for mother's educational level, which differed across groups. A priori threshold for statistical significance = P\<.05|ANOVA|||||||<.02
92168143|NCT03628885|184225449|SUPERIORITY||||||=|0.07||||||Adjusted for mother's educational level, which differed across groups. A priori threshold for statistical significance = P\<.05|ANOVA|||||||=.07
92227255|NCT01400932|184356704|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12|ANCOVA|||||||<0.001
92227256|NCT03706365|184356712|OTHER||Hazard Ratio (HR)|0.829||||0.2123|TWO_SIDED|95.0|0.619|1.111|||Log Rank|||||1.111|0.619|0.2123
92227257|NCT03706365|184356713|OTHER||Hazard Ratio (HR)|0.637||||0.0026|TWO_SIDED|95.0|0.474|0.856|||Log Rank|||||0.856|0.474|0.0026
92227258|NCT03706365|184356714|OTHER||Hazard Ratio (HR)|0.842||||0.2899|TWO_SIDED|95.0|0.611|1.16|||Log Rank|||||1.160|0.611|0.2899
92227259|NCT03706365|184356716|OTHER||Hazard Ratio (HR)|0.731||||0.3531|TWO_SIDED|95.0|0.377|1.419|||Log Rank|||||1.419|0.377|0.3531
92227260|NCT03706365|184356717|OTHER||Hazard Ratio (HR)|0.927||||0.6507|TWO_SIDED|95.0|0.669|1.285|||Log Rank|||||1.285|0.669|0.6507
92369006|NCT03522246|184642858|SUPERIORITY|Rucaparib + Nivolumab vs Rucaparib + Placebo|Hazard Ratio (HR)|1.29||||0.0038|TWO_SIDED|95.0|1.08|1.53|||Log Rank||The stratified cox proportional hazard model is adjusted for the randomization strata of HRD classification, disease status post-chemotherapy, and timing of surgery.|||1.53|1.08|0.0038
92369007|NCT00814580|184642871|NON_INFERIORITY_OR_EQUIVALENCE|Primary hypothesis test for non-inferiority of tapentadol IR over oxycodone IR required that upper limit of 95% CI for LS mean difference (oxycodone IR minus tapentadol IR) was less than the inferiority margin (\< 72). If the upper limit was less than 0 then tapentadol IR was superior to oxycodone IR for SPID over 3 days at a 5% level of significance.|Least square mean difference|9.0|STANDARD_ERROR_OF_MEAN|14.2||0.5265|TWO_SIDED|95.0|-18.9|36.9||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||Tapentadol IR versus Oxycodone IR||36.9|-18.9|0.5265
92369008|NCT00814580|184642872|SUPERIORITY_OR_OTHER|||||||0.7306||95.0|||||Log Rank|||||||0.7306
92369009|NCT00814580|184642873|SUPERIORITY_OR_OTHER|||||||0.8524||95.0|||||Log Rank|||||||0.8524
92369010|NCT00814580|184642874|SUPERIORITY_OR_OTHER|||||||0.9078||95.0||||Cochran-Mantel-Haenszel test (Row Mean Score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.9078
92369011|NCT00814580|184642875|SUPERIORITY_OR_OTHER|||||||0.2633||95.0||||Cochran-Mantel-Haenszel test (Row Mean Score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.2633
92369012|NCT00814580|184642876|SUPERIORITY_OR_OTHER|||||||0.4498||95.0||||Cochran-Mantel-Haenszel test (Row Mean Score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.4498
92369013|NCT00814580|184642877|SUPERIORITY_OR_OTHER|||||||0.2158||95.0||||Cochran-Mantel-Haenszel test (Row Mean Score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.2158
92369014|NCT00814580|184642878|SUPERIORITY_OR_OTHER||Least square mean difference|6.6|STANDARD_ERROR_OF_MEAN|9.34||0.4811|TWO_SIDED|95.0|-11.8|25.0||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||25.0|-11.8|0.4811
92168144|NCT03628885|184225449|SUPERIORITY||||||<|0.01||||||Adjusted for mother's educational level, which differed across groups. A priori threshold for statistical significance = P\<.05|ANOVA|||Adjusted for mother's educational level, which differed across groups. A priori threshold for statistical significance = P\<.05||||<.01
92369015|NCT00814580|184642879|SUPERIORITY_OR_OTHER||Least square mean difference|-9.3|STANDARD_ERROR_OF_MEAN|28.13||0.7405|TWO_SIDED|95.0|-64.7|46.0||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||46.0|-64.7|0.7405
92369016|NCT00814580|184642880|SUPERIORITY_OR_OTHER||Least square mean difference|-5.6|STANDARD_ERROR_OF_MEAN|5.53||0.3097|TWO_SIDED|95.0|-16.5|5.3||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||5.3|-16.5|0.3097
92369017|NCT00814580|184642881|SUPERIORITY_OR_OTHER||Least square mean difference|-10.3|STANDARD_ERROR_OF_MEAN|8.34||0.2179|TWO_SIDED|95.0|-26.7|6.1||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||6.1|-26.7|0.2179
92369018|NCT00814580|184642882|SUPERIORITY_OR_OTHER||Least square mean difference|-26.3|STANDARD_ERROR_OF_MEAN|16.16||0.1051|TWO_SIDED|95.0|-58.1|5.5||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||5.5|-58.1|0.1051
92168145|NCT00106080|184225453|SUPERIORITY_OR_OTHER_LEGACY||Difference between groups after adjust|5.7||||0.03||||||No multiple comparisons, a priori threshold \< 0.05|GEE regression|Generalized estimating equations (GEE) regression, clustering for provider.||Power calculation: With 60 providers in each group, maintaining the probability of a type I error of 0.05, power of 0.90, provider level mean QOC score of 54.5 and provider level standard deviation in QOC score of 12.0, the minimal detectable difference in QOC score would be 7.5.||||0.03
92168146|NCT01839331|184225455|SUPERIORITY|||||||0.004||||||Adjusted for injection volume (4 mL or 10 mL) and baseline WOMAC score.|ANOVA|||||||0.004
92168147|NCT01839331|184225455|SUPERIORITY|||||||0.017||||||Adjusted for injection volume and baseline WOMAC score.|ANOVA|||||||0.017
92168148|NCT01839331|184225455|SUPERIORITY|||||||0.093||||||Adjusted for injection volume and baseline WOMAC score.|ANOVA|||||||0.093
92168149|NCT01839331|184225456|SUPERIORITY|Adjusted for injection volume (4 mL or 10 mL) and baseline WOMAC score.||||||0.0442|||||||ANOVA|||||||0.0442
92168150|NCT01839331|184225457|SUPERIORITY|||||||0.4133||||||Adjusted for injection volume (4 mL or 10 mL) and baseline WOMAC score.|ANOVA|||||||0.4133
92168151|NCT01839331|184225458|SUPERIORITY|||||||0.0122||||||Adjusted for injection volume (4 mL or 10 mL) and baseline PGA|ANOVA|||||||0.0122
92168152|NCT03074331|184225468|SUPERIORITY|||||||0.009|||||||2-sided exact 1-sample binomial test|||The SVR12 rate was compared to the pre-specified performance goal of 85% by using a two-sided exact one-sample binomial test at the 0.05 significance level.||||0.009
92168153|NCT03811574|184225485|SUPERIORITY||Treatment difference|-7.52|||<|0.0001|TWO_SIDED|95.0|-9.62|-5.43|||ANCOVA|||Treatment policy estimand||-5.43|-9.62|<.0001
92168154|NCT03811574|184225485|SUPERIORITY||Treatment difference|-11.06|||<|0.0001|TWO_SIDED|95.0|-12.88|-9.24|||ANCOVA|||Treatment policy estimand||-9.24|-12.88|<.0001
92168155|NCT03811574|184225486|SUPERIORITY||Odds Ratio (OR)|11.08|||<|0.0001|TWO_SIDED|95.0|5.53|22.22|||Regression, Logistic|||Treatment policy estimand||22.22|5.53|<.0001
92168156|NCT03811574|184225486|SUPERIORITY||Odds Ratio (OR)|21.72|||<|0.0001|TWO_SIDED|95.0|11.27|41.86|||Regression, Logistic|||Treatment policy estimand||41.86|11.27|<.0001
92168157|NCT06243796|184225553|SUPERIORITY||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
92168158|NCT06243796|184225554|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92168159|NCT03631550|184225572|SUPERIORITY|||||||0.018|||||||Chi-squared|||||||0.018
92168160|NCT03631550|184225573|SUPERIORITY|||||||0.0466|||||||Chi-squared|||||||0.0466
92226747|NCT00700180|184355340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.75||||0.6148|TWO_SIDED|95.0|-8.2|11.7|||Cochran-Mantel-Haenszel||Approximate 95% CI for difference of two rates using Hauck-Anderson method|||11.7|-8.2|0.6148
92226748|NCT00700180|184355342|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.7587|TWO_SIDED|95.0|0.68|1.69|||Log Rank|||||1.69|0.68|0.7587
92226749|NCT00700180|184355344|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.312|TWO_SIDED|95.0|0.87|1.53|||Log Rank|||||1.53|0.87|0.3120
92226750|NCT03216382|184355353|SUPERIORITY|||||||0.93||||||The apriori threshold for significance was a = 0.05. The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.93
92226751|NCT03216382|184355354|SUPERIORITY|||||||0.74||||||this value represents the interaction between condition and the intervention time period The apriori threshold for significance was a = 0.05.|Mixed Models Analysis|||HLM piecewise analysis was used to examine linear change from day 1-7 (visit 1 to visit 2) and change from day 7-14 (visit 2 to visit 3) on uncontrollability of worry||||.74
92226752|NCT03216382|184355354|SUPERIORITY|||||||0.44||||||this value represents the interaction between condition and the intervention time period (squared) The apriori threshold for significance was a = 0.05.|Mixed Models Analysis|||HLM piecewise analysis was used to examine quadratic change from day 1-7 (visit 1 to visit 2) and change from day 7-14 (visit 2 to visit 3) on uncontrollability of worry||||.44
92226753|NCT03216382|184355355|SUPERIORITY|||||||0.17||||||the apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.17
92226754|NCT03216382|184355356|SUPERIORITY|||||||0.5||||||The apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time .|Mixed Models Analysis|||HLM piecewise analysis was used to examine linear change from day 1-7 (visit 1 to visit 2) and change from day 7-14 (visit 2 to visit 3) on self-focused attention||||.50
92226755|NCT03216382|184355356|SUPERIORITY|||||||0.02||||||The apriori threshold for significance was a= 0.05. The p value reflects the test of an interaction between condition and intervention period (days 7-14, squared).|Mixed Models Analysis|||HLM piecewise analysis was used to examine quadratic change from day 1-7 (visit 1 to visit 2) and change from day 7-14 (visit 2 to visit 3) on self-focused attention||||.02
92226756|NCT03216382|184355357|SUPERIORITY|||||||0.46||||||the apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.46
92226757|NCT03216382|184355358|SUPERIORITY|||||||0.53||||||the apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.53
92226758|NCT03216382|184355359|SUPERIORITY|||||||0.07||||||the apriori threshold for significance was a = 0.05. The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.07
92226759|NCT03216382|184355360|SUPERIORITY|||||||0.58||||||the apriori threshold for significance was 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.58
92226760|NCT03216382|184355361|SUPERIORITY|||||||0.86||||||the apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.86
92226761|NCT03216382|184355362|SUPERIORITY|||||||0.39||||||the apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.39
92226762|NCT01337973|184355409|SUPERIORITY||Coefficient estimate|0.82|||<|0.001|TWO_SIDED|95.0|0.37|1.84||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z value: -4.65|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall physical aggression % change from baseline||1.84|0.37|<0.001
92226763|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|0.62|||<|0.01|TWO_SIDED|95.0|0.3|1.29||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -2.83|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall injury perpetration % change from baseline||1.29|0.30|<0.01
92226764|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|1.16|||<|0.01|TWO_SIDED|95.0|0.36|3.77||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.31|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner physical aggression % change from baseline||3.77|0.36|<0.01
92226765|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|0.51|||<|0.05|TWO_SIDED|95.0|0.19|1.38||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -2.26|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner injury % change from baseline||1.38|0.19|<0.05
92226766|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|1.22|||<|0.001|TWO_SIDED|95.0|0.66|2.28||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.79|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to non-partner physical aggression % change from baseline||2.28|0.66|<0.001
92226767|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|0.8|||<|0.05|TWO_SIDED|95.0|0.32|1.98||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -2.01|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to non-partner injury % change from baseline||1.98|0.32|<0.05
92226768|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|0.6|||<|0.001|TWO_SIDED|95.0|0.25|1.46||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -4.81|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall physical aggression % change from baseline||1.46|0.25|<0.001
92226769|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|1.05|||<|0.001|TWO_SIDED|95.0|0.45|2.44||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.74|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall injury perpetration % change from baseline||2.44|0.45|<0.001
92226770|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|0.48|||<|0.01|TWO_SIDED|95.0|0.13|1.78||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -2.59|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner physical aggression % change from baseline||1.78|0.13|<0.01
92226771|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|0.48|||>|0.05|TWO_SIDED|95.0|0.16|1.47||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -1.81|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner injury % change from baseline||1.47|0.16|>0.05
92226772|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|1.12|||<|0.001|TWO_SIDED|95.0|0.6|2.08||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -4.10|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to non-partner physical aggression % change from baseline||2.08|0.60|<0.001
92226773|NCT01337973|184355409|SUPERIORITY||Coefficient Estimate|1.09|||<|0.01|TWO_SIDED|95.0|0.4|2.95||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.17|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to non-partner injury % change from baseline||2.95|0.40|<0.01
92168161|NCT03631550|184225574|SUPERIORITY|||||||0.0677|||||||Chi-squared|||||||0.0677
92226774|NCT01337973|184355409|SUPERIORITY||||||<|0.001||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -4.69||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall physical aggression % change from baseline||||<0.001
92226775|NCT01337973|184355409|SUPERIORITY||||||<|0.01||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.32||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall injury % change from baseline||||<0.01
92369019|NCT00814580|184642883|SUPERIORITY_OR_OTHER||Least square mean difference|1.0|STANDARD_ERROR_OF_MEAN|12.09||0.9367|TWO_SIDED|95.0|-22.8|24.8||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||24.8|-22.8|0.9367
92369020|NCT00814580|184642884|SUPERIORITY_OR_OTHER||Least square mean difference|-1.3|STANDARD_ERROR_OF_MEAN|18.53||0.9441|TWO_SIDED|95.0|-37.8|35.2||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||35.2|-37.8|0.9441
92369021|NCT00814580|184642885|SUPERIORITY_OR_OTHER||Least square mean difference|-35.6|STANDARD_ERROR_OF_MEAN|37.45||0.3427|TWO_SIDED|95.0|-109.3|38.1||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||38.1|-109.3|0.3427
92369022|NCT00814580|184642886|SUPERIORITY_OR_OTHER|||||||0.1618||95.0||||Cochran-Mantel-Haenszel test (row mean score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.1618
92168162|NCT03631550|184225575|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<.0001
92168163|NCT03631550|184225576|OTHER|||||||0.0968|||||||Fisher Exact|||||||0.0968
92168164|NCT03631550|184225577|SUPERIORITY|||||||0.0121|||||||ANCOVA|||||||0.0121
92226776|NCT01337973|184355409|SUPERIORITY||||||<|0.01||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -2.90||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner physical aggression % change from baseline||||<0.01
92227261|NCT03706365|184356718|OTHER||Hazard Ratio (HR)|0.768||||0.1807|TWO_SIDED|95.0|0.522|1.131|||Log Rank|||||1.131|0.522|0.1807
92369023|NCT00814580|184642887|SUPERIORITY_OR_OTHER|||||||0.0481||95.0||||Cochran-Mantel-Haenszel test (row mean score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.0481
92168165|NCT06336629|184225663|SUPERIORITY||two-sided|100.0|||||TWO_SIDED|95.0||||||||||||
92168166|NCT06336629|184225664|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92168167|NCT06336629|184225665|SUPERIORITY|||||||0.007|||||||Wilcoxon rank-sum test|||||||0.007
92168168|NCT06336629|184225666|SUPERIORITY|||||||0.009|||||||Wilcoxon rank sum test|||||||0.009
92168169|NCT06336629|184225667|SUPERIORITY|||||||0.037||||||P-value from Baseline at Week 16|Wilcoxon signed rank|P-value from Baseline at Week 16||||||0.037
92168170|NCT06336629|184225669|SUPERIORITY|||||||1||||||P-value from Baseline at Week 16|Wilcoxon signed rank|||||||1
92168171|NCT06336629|184225670|SUPERIORITY|||||||1||||||P-value from Baseline at Week 16|Wilcoxon signed rank|||||||1
92226777|NCT01337973|184355409|SUPERIORITY||||||>|0.05||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z Score: -1.02||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner injury % change from baseline||||>0.05
92226778|NCT01337973|184355409|SUPERIORITY||||||<|0.01||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z Score: -4.01||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to non-partner physical aggression % change from baseline||||<0.01
92226779|NCT01337973|184355409|SUPERIORITY||||||<|0.01||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.21||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall non-partner injury % change from baseline||||<0.01
92226780|NCT01337973|184355410|SUPERIORITY||Coefficient estimate|0.95|||<|0.001|TWO_SIDED|95.0|0.62|1.47||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -3.52|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to heavy drinking % change from baseline"||1.47|0.62|<0.001
92226781|NCT01337973|184355410|SUPERIORITY||coefficient estimate|0.49|||<|0.01|TWO_SIDED|95.0|0.18|1.32||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.98|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to cocaine use % change from baseline"||1.32|0.18|<0.01
92226782|NCT01337973|184355410|SUPERIORITY||coefficient estimate|0.85|||<|0.05|TWO_SIDED|95.0|0.4|1.8||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.13|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to marijuana use % change from baseline"||1.8|0.4|<0.05
92226783|NCT01337973|184355410|SUPERIORITY||coefficient estimate|0.84|||<|0.05|TWO_SIDED|95.0|0.54|1.32||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.48|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to illicit drug use % change from baseline"||1.32|0.54|<0.05
92226784|NCT01337973|184355410|SUPERIORITY||coefficient estimate|1.15|||<|0.001|TWO_SIDED|95.0|0.78|1.71||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -4.94|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to heavy drinking % change from baseline"||1.71|0.78|<0.001
92369024|NCT00814580|184642888|SUPERIORITY_OR_OTHER|||||||0.0109||95.0||||Cochran-Mantel-Haenszel test (row mean score option) controlling for pooled investigator centers|Cochran-Mantel-Haenszel|||||||0.0109
92369025|NCT02482428|184642905|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|p value is provided|Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.07||0.862|TWO_SIDED|90.0|-0.03|0.2|||Posterior mean|||||0.20|-0.03|0.862
92226785|NCT01337973|184355410|SUPERIORITY||coefficient estimate|0.61|||<|0.05|TWO_SIDED|95.0|0.17|2.16||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.56|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to cocaine use % change from baseline"||2.16|0.17|<0.05
92226786|NCT01337973|184355410|SUPERIORITY||coefficient estimate|1.18|||<|0.01|TWO_SIDED|95.0|0.57|2.44||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.86|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to marijuana use % change from baseline"||2.44|0.57|<0.01
92226787|NCT01337973|184355410|SUPERIORITY||coefficient estimate|0.95|||<|0.001|TWO_SIDED|95.0|0.61|1.48||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -3.51|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to illicit drug use % change from baseline"||1.48|0.61|<0.001
92369026|NCT02482428|184642905|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|p value is provided|Mean Difference (Net)|0.02|STANDARD_DEVIATION|0.07||0.541|TWO_SIDED|90.0|-0.07|0.19|||posterior mean|||||0.19|-0.07|0.541
92226788|NCT01337973|184355410|SUPERIORITY||||||<|0.001||||||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -4.65||"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to heavy drinking % change from baseline"||||<0.001
92227262|NCT03706365|184356723|OTHER||Hazard Ratio (HR)|0.935||||0.697|TWO_SIDED|95.0|0.665|1.314|||Log Rank|||||1.314|0.665|0.6970
92227263|NCT01175005|184356752|SUPERIORITY_OR_OTHER|||||||0.001|ONE_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
92369027|NCT05791565|184642968|OTHER||Ratio of Geometric LS Means|1.1609|||||TWO_SIDED|90.0|1.0221|1.3185|||||Ratio of the Geometric LS means = Geometric LS mean of the Salbutamol HFA-152a MDI to the Geometric LS mean of the Salbutamol HFA-134a MDI.|||1.3185|1.0221|
92369028|NCT05791565|184642969|OTHER||Ratio of the Geometric LS Means|1.4081|||||TWO_SIDED|90.0|1.2998|1.5255|||||Ratio of the Geometric LS means = Geometric LS mean of the Salbutamol HFA-152a MDI to the Geometric LS mean of the Salbutamol HFA-134a MDI.|||1.5255|1.2998|
92369029|NCT05791565|184642970|OTHER||Ratio of the Geometric LS Means|1.3885|||||TWO_SIDED|90.0|1.2793|1.507|||||Ratio of the Geometric LS means = Geometric LS mean of the Salbutamol HFA-152a MDI to the Geometric LS mean of the Salbutamol HFA-134a MDI.|||1.5070|1.2793|
92168172|NCT04043455|184225673|SUPERIORITY||Least square mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.407|=|0.65|TWO_SIDED|95.0|-0.99|0.62|||Mixed Models Analysis|||Treatment comparison between Olorinab 10 mg and placebo using least square mean difference and 95% confidence interval (CI) has been presented.||0.62|-0.99|=0.650
92168173|NCT04043455|184225673|SUPERIORITY||Least square mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.409|=|0.439|TWO_SIDED|95.0|-1.12|0.49|||Mixed Models Analysis|||Treatment comparison between Olorinab 25 mg and placebo using least square mean difference and 95% CI has been presented.||0.49|-1.12|=0.439
92168174|NCT04043455|184225673|SUPERIORITY||Least square mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.401|=|0.172|TWO_SIDED|95.0|-1.34|0.24|||Mixed Models Analysis|||Treatment comparison between Olorinab 50 mg and placebo using least square mean difference and 95% CI has been presented.||0.24|-1.34|=0.172
92168175|NCT04043455|184225680|SUPERIORITY||Odds Ratio (OR)|1.156||||0.659|TWO_SIDED|95.0|-0.019|2.331|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 10 mg and placebo using Odds ratio and 95% CI has been presented.||2.331|-0.019|0.659
92168176|NCT04043455|184225680|SUPERIORITY||Odds Ratio (OR)|1.248||||0.557|TWO_SIDED|95.0|-0.04|2.535|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 25 mg and placebo using Odds ratio and 95% CI has been presented.||2.535|-0.040|0.557
92168177|NCT04043455|184225680|SUPERIORITY||Odds Ratio (OR)|1.245||||0.541|TWO_SIDED|95.0|0.027|2.462|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 50 mg and placebo using Odds ratio and 95% CI has been presented.||2.462|0.027|0.541
92168178|NCT04043455|184225681|SUPERIORITY||Odds Ratio (OR)|1.234||||0.529|TWO_SIDED|95.0|-0.001|2.468|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 10 mg and placebo using Odd's ratio and 95% CI has been presented.||2.468|-0.001|0.529
92168179|NCT04043455|184225681|SUPERIORITY||Odds Ratio (OR)|1.123||||0.73|TWO_SIDED|95.0|0.015|2.232|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 25 mg and placebo using Odd's ratio and 95% CI has been presented.||2.232|0.015|0.730
92168180|NCT04043455|184225681|SUPERIORITY||Odds Ratio (OR)|1.226||||0.548|TWO_SIDED|95.0|0.025|2.428|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 50 mg and placebo using Odd's ratio and 95% CI has been presented.||2.428|0.025|0.548
92168181|NCT04043455|184225682|SUPERIORITY||Least square mean difference|-2.42|STANDARD_ERROR_OF_MEAN|6.189||0.696|TWO_SIDED|95.0|-14.61|9.76|||Mixed Models Analysis|||Treatment comparison between Olorinab 10 mg and placebo using least square mean difference and 95% CI has been presented.||9.76|-14.61|0.696
92168182|NCT04043455|184225682|SUPERIORITY||Least square mean difference|-3.25|STANDARD_ERROR_OF_MEAN|6.222||0.602|TWO_SIDED|95.0|-15.51|9.0|||Mixed Models Analysis|||Treatment comparison between Olorinab 25 mg and placebo using least square mean difference and 95% CI has been presented.||9.00|-15.51|0.602
92168183|NCT04043455|184225682|SUPERIORITY||Least square mean difference|-3.96|STANDARD_ERROR_OF_MEAN|6.088||0.516|TWO_SIDED|95.0|-15.95|8.03|||Mixed Models Analysis|||Treatment comparison between Olorinab 50 mg and placebo using least square mean difference and 95% CI has been presented.||8.03|-15.95|0.516
92168184|NCT04043455|184225683|SUPERIORITY||Least square mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.305||0.804|TWO_SIDED|95.0|-0.53|0.68|||Mixed Models Analysis|||Treatment comparison between Olorinab 10 mg and placebo using least square mean difference and 95% CI has been presented.||0.68|-0.53|0.804
92168185|NCT04043455|184225683|SUPERIORITY||Least square mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.308||0.618|TWO_SIDED|95.0|-0.76|0.45|||Mixed Models Analysis|||Treatment comparison between Olorinab 25 mg and placebo using least square mean difference and 95% CI has been presented.||0.45|-0.76|0.618
92168186|NCT04043455|184225683|SUPERIORITY||Least square mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.301||0.687|TWO_SIDED|95.0|-0.47|0.71|||Mixed Models Analysis|||Treatment comparison between Olorinab 50 mg and placebo using least square mean difference and 95% CI has been presented.||0.71|-0.47|0.687
92168187|NCT03422276|184225687|SUPERIORITY||Mean Difference (Net)|-0.78||||0.44|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|t-test, 2 sided|t-test for independent samples, two-tailed, allocation ratio=1|Intervention mean minus control mean|It was calculated that 500 to 900 participants randomized in a 1:1 fashion between the two arms would have practically 100% power to detect an effect size of 0.5, and even a small sample size of 300 would have 80% power to detect a small effect size of 0.3 (800 to 900 would be 100% power).||||0.44
92168188|NCT03422276|184225688|SUPERIORITY||Mean Difference (Net)|1.63||||0.1|TWO_SIDED||||||t-test, 2 sided|||||||0.10
92168189|NCT04922021|184225701|SUPERIORITY|Two-sided hypotheses were tested based on the pre-specified primary analysis for the primary estimand. The primary estimand used a hypothetical strategy evaluating the treatment difference as if all subjects adhered to the treatment regimen, i.e. they did not discontinue IMP permanently, did not initiate rescue treatment, or did not have more than one missed treatment dose related to COVID-19.|Mean Difference (Net)|-11.8||||0.003|TWO_SIDED|95.0|-19.6|-4.1||The type I error rate of the two-sided hypothesis test was controlled at the 5% significance level.|ANCOVA|ANCOVA model: Change in EASI = Treatment + Region + Baseline EASI. Missing values and data 'treated as missing' were imputed using MI assuming MAR.|Estimates of difference in LS-means and associated standard errors from the analyses were combined using Rubin's rule to provide the overall pooled estimate and associated standard error. LS-means was estimated using the observed margins for the FAS.|||-4.1|-19.6|0.003
92168190|NCT02975505|184225714|SUPERIORITY||beta|11.7|||<|0.05|TWO_SIDED|95.0|7.5|16.0|||Mixed Models Analysis|||||16|7.5|<0.05
92168191|NCT02975505|184225717|SUPERIORITY||beta|12.5||||0.05|TWO_SIDED|95.0|8.0|16.0|||Mixed Models Analysis|||||16|8|0.05
92168192|NCT05540535|184225730|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|The Wilcoxon signed-rank test was used for a within-group comparison.||||||<0.05
92168193|NCT05540535|184225731|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92168194|NCT05540535|184225732|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|The Wilcoxon signed-rank test was used for a within-group comparison.||||||<0.05
92168195|NCT05540535|184225733|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92168196|NCT05540535|184225734|SUPERIORITY|||||||0.05|||||||ANOVA|||||||0.05
92168197|NCT05540535|184225735|SUPERIORITY|||||||0.05|||||||ANOVA|||||||0.05
92168198|NCT05540535|184225736|SUPERIORITY|||||||0.05|||||||ANOVA|||||||0.05
92226789|NCT01337973|184355410|SUPERIORITY||||||>|0.05||||||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -1.45||"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to cocaine use % change from baseline"||||>0.05
92226790|NCT01337973|184355410|SUPERIORITY||||||>|0.05||||||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -1.5||"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to marijuana use % change from baseline"||||>0.05
92226791|NCT01337973|184355410|SUPERIORITY||||||<|0.05||||||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.58||"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to illicit drug use % change from baseline"||||<0.05
92226792|NCT03244033|184355418|SUPERIORITY||Odds Ratio (OR)|0.97||||0.91|TWO_SIDED|96.0|0.57|1.64|||Mixed Models Analysis|Adjusted for site (p\<.001) and for whether physician contextualized plan (AOR 2.14, p=.001), and random effects of physician and patient.||Logistic mixed effects regression modeling likelihood of red flag improved/resolved (vs. not) during outcome period with fixed effects of intervention, site, and whether contextual factor was incorporated into care plan, and random effects of patient and provider. Red flags may be clustered in patients; patients are clustered in providers.||1.64|.57|.91
92226793|NCT03244033|184355419|SUPERIORITY||Odds Ratio (OR)|2.09||||0.02|TWO_SIDED|95.0|1.13|3.86|||Mixed Models Analysis|Adjusted for site, source of red flag, visible/concealed recorder, and random effects of physician and patient.|OR\>1 indicates greater likelihood in intervention group vs. control.|Logistic mixed effects regression modeling likelihood of provider probing red flag (vs. not) during visit with fixed effects of intervention, site, \\whether red flag was select on pre-visit questionnaire, and whether audiorecorder was visible to provider, and random effects of patient and provider. Red flags may be clustered in patients; patients are clustered in providers.||3.86|1.13|0.02
92226794|NCT03244033|184355420|SUPERIORITY||Odds Ratio (OR)|2.67||||0.006|TWO_SIDED|95.0|1.32|5.41|||Mixed Models Analysis|Adjusted for site, source of factor, recorder visible/concealed, and random effects of physician and patient.|OR \> 1 indicates greater likelihood in intervention group vs. control.|Logistic mixed effects regression modeling likelihood of provider incorporating contextual factor into care plan (vs. not) at visit with fixed effects of intervention, site, whether red flag was select on pre-visit questionnaire, whether audiorecorder was visible to provider, whether factor was identified by provider probe, whether factor was revealed by patient, and random effects of patient and provider. Red flags may be clustered in patients; patients are clustered in providers.||5.41|1.32|.006
92226795|NCT04428411|184355421|OTHER|||||||0.35|||||||t-test, 2 sided|||||||0.35
92226796|NCT04428411|184355422|OTHER|||||||0.07|||||||t-test, 2 sided|||||||0.07
92226797|NCT04428411|184355423|OTHER|||||||0.41|||||||t-test, 2 sided|||||||0.41
92226798|NCT04428411|184355424|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
92226799|NCT04428411|184355425|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
92226800|NCT04428411|184355426|OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.09
92226801|NCT04428411|184355427|OTHER|||||||0.31|||||||t-test, 2 sided|||||||0.31
92226802|NCT04428411|184355428|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92226803|NCT04428411|184355429|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92226804|NCT04428411|184355430|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 4||||0.0001
92226805|NCT04428411|184355430|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 12||||0.0001
92226806|NCT04428411|184355431|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 4||||0.0001
92226807|NCT04428411|184355431|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 12||||0.0001
92226808|NCT04428411|184355432|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 4||||0.0001
92226809|NCT04428411|184355432|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 12||||0.0001
92226810|NCT02918019|184355451|OTHER||Rate Ratio|0.57||||0.0049|TWO_SIDED|95.0|0.39|0.84|||Poisson regression|||||0.84|0.39|0.0049
92226811|NCT02918019|184355451|OTHER||Rate Ratio|0.78||||0.1838|TWO_SIDED|95.0|0.54|1.12|||Poisson regression|||||1.12|0.54|0.1838
92226812|NCT02918019|184355451|OTHER||Rate Ratio|0.63||||0.0144|TWO_SIDED|95.0|0.44|0.91|||Poisson regression|||||0.91|0.44|0.0144
92226813|NCT01405053|184355487|SUPERIORITY||LS Mean difference|2.601|STANDARD_ERROR_OF_MEAN|6.558||0.6928|TWO_SIDED|95.0|-10.5|15.7|||ANCOVA|||The primary statistical model for comparing the 2 treatment groups was an analysis of covariance (ANCOVA) mixed model for repeated measures with baseline score, age, and sex as covariates, and treatment, week, and treatment by week interaction as factors.||15.7|-10.5|0.6928
92226814|NCT04871711|184355504|SUPERIORITY||Risk Difference (RD)|9.8||||0.006|TWO_SIDED|95.0|3.6|16.1||5% significance level (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||16.1|3.6|0.006
92226815|NCT04871711|184355505|SUPERIORITY||Risk Difference (RD)|24.1|||<|0.001|TWO_SIDED|95.0|15.5|32.6||Evaluated at 5% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||32.6|15.5|<0.001
92369030|NCT05791565|184642971|OTHER||Ratio of the Geometric LS Means|1.3141|||||TWO_SIDED|90.0|1.1816|1.4614|||||Ratio of the Geometric LS means = Geometric LS mean of the Salbutamol HFA-152a MDI to the Geometric LS mean of the Salbutamol HFA-134a MDI.|||1.4614|1.1816|
92369031|NCT00241176|184643005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003|||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)||YGTSS Global Severity score (M=61.8 SD=13.49) declined significantly to end point (M=33.7 SD=15.18; p=0.003).|Group 1 Baseline vs. Endpoint||||<.05
92369032|NCT00241176|184643006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)||Mean (SD) CGI-Tic severity scores reduced significantly from (M=4.45 SD=0.52) (moderate-marked) at baseline to (M=3.18 SD =0.60) (mild) at end point ( p=0.004).|Mean scores baseline to endpoint||||<.05
92369033|NCT02516982|184643007|SUPERIORITY|||||||0.994|||||||Chi-squared, Corrected|||||||0.994
92168199|NCT02652260|184225744|OTHER|The Immediate Switch group will be considered statistically significantly smaller than the Delayed Switch group if the upper bound of the 95% confidence interval for the treatment difference is less than 0.|Estimated Difference|4.65||||0.331|TWO_SIDED|95.0|-15.92|24.85|||Miettinen and Nurminen|||Treatment Difference: Immediate Switch minus Delayed Switch|The 95% confidence interval (CI) was calculated by the method of Miettinen and Nurminen.|24.85|-15.92|0.331
92168200|NCT02652260|184225745|OTHER|The Immediate Switch group will be considered statistically significantly smaller than the Delayed Switch group if the upper bound of the 95% confidence interval for the treatment difference is less than 0.|Estimated Difference|-18.61|||||TWO_SIDED|95.0|-38.14|2.51||||||Treatment Difference: Immediate Switch minus Delayed Switch|The 95% CI was calculated by the method of Miettinen and Nurminen.|2.51|-38.14|
92168201|NCT02652260|184225746|OTHER||Estimated Difference|-2.0|||||TWO_SIDED|95.0|-10.5|6.5||||||Treatment Difference: Immediate Switch minus Delayed Switch|The 95% CI was based on a t-distribution.|6.5|-10.5|
92369034|NCT02516982|184643008|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.7
92369035|NCT02516982|184643009|SUPERIORITY|||||||0.008|||||||Chi-squared, Corrected|||||||0.008
92369036|NCT02516982|184643010|SUPERIORITY|||||||0.919|||||||Chi-squared, Corrected|||||||0.919
92369037|NCT02516982|184643011|SUPERIORITY|||||||0.0001467|||||||Chi-squared, Corrected|||||||0.0001467
92369038|NCT02516982|184643012|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
92369039|NCT02516982|184643013|SUPERIORITY|||||||0.869|||||||Chi-squared, Corrected|||||||0.869
92369040|NCT01129765|184643015|SUPERIORITY_OR_OTHER||Proportion|0.97|||||TWO_SIDED|95.0|0.83|1.0|||Descriptive|||Proportion responding \>=3 on a 5-point likert scale, with exact 95% confidence interval from the binomial distribution.||1.0|0.83|
92369041|NCT01129765|184643016|SUPERIORITY_OR_OTHER||Proportion|0.97|||||TWO_SIDED|95.0|0.83|1.0|||Descriptive|||Descriptive summary of proportion responding \>=3 on 5-point Likert scale, with exact 95% confidnce interval from the binomial distribution.||1.0|0.83|
92369042|NCT01129765|184643017|SUPERIORITY_OR_OTHER||Proportion|0.97||||0.0005|TWO_SIDED|95.0|0.83|1.0|||One-sample proportion|||"Null hypothesis: Pr ≤ 0.7 versus HA: Pr \> 0.7; Pr is proportion using device appropriately. Observed rate calculated with exact 95% confidence interval from the binomial distribution. 2-sided p-value from binomial distribution.~With the proposed sample size of 30 subjects, we will reject the primary null hypothesis if at least 27 are observed to use the device properly. We will have 80% power for this to occur provided that the true rate in the population is at least 92%."||1.0|0.83|0.0005
92369043|NCT01129765|184643018|SUPERIORITY_OR_OTHER||Proportion|1.0|||||TWO_SIDED|95.0|0.88|1.0|||Descriptive|||Descriptive summary of proportion responding \>=3 on a 5-point Likert scale, with exact 95% confidnce interval from the binomial distribution.||1.0|0.88|
92369044|NCT01129765|184643019|SUPERIORITY_OR_OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|0.12|||Descriptive|||Descriptive summary of proportion observed to have a safety issue, with exact 95% confidnce interval from the binomial distribution.||0.12|0|
92369045|NCT01129765|184643020|SUPERIORITY_OR_OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|0.12|||Descriptive|||Descriptive summary of proportion found to have injury, with exact 95% confidnce interval from the binomial distribution.||0.12|0|
92369046|NCT03645421|184643028|OTHER||Least squares (LS) mean difference|-42.11|STANDARD_ERROR_OF_MEAN|4.16|<|0.0001|TWO_SIDED|95.0|-50.47|-33.75|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 100 mcg - Placebo|Pair-wise comparison of MEDI0382 100 mcg versus Placebo.||-33.75|-50.47|<0.0001
92369047|NCT03645421|184643028|OTHER||LS mean difference|-33.61|STANDARD_ERROR_OF_MEAN|4.69|<|0.0001|TWO_SIDED|95.0|-43.04|-24.18|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 200 mcg - Placebo|Pair-wise comparison of MEDI0382 200 mcg versus Placebo.||-24.18|-43.04|<0.0001
92369048|NCT03645421|184643028|OTHER||LS mean difference|-40.3|STANDARD_ERROR_OF_MEAN|4.57|<|0.0001|TWO_SIDED|95.0|-49.49|-31.12|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 300 mcg - Placebo|Pair-wise comparison of MEDI0382 300 mcg versus Placebo.||-31.12|-49.49|<0.0001
92168202|NCT02652260|184225747|OTHER||Estimated Difference|3.6|||||TWO_SIDED|95.0|-4.1|11.3||||||Treatment Difference: Immediate Switch minus Delayed Switch|The 95% CI was calculated by the method of Miettinen and Nurminen.|11.3|-4.1|
92168203|NCT02652260|184225748|OTHER|The 95% CI was calculated by the method of Miettinen and Nurminen.|Difference in Percentage|-38.4|||||TWO_SIDED|95.0|-51.2|-23.8||||||Change from time of switch to 24 weeks post-switch: Treatment difference in percent response|Week 24 Post-switch minus Time of switch|-23.8|-51.2|
92369049|NCT03645421|184643029|OTHER||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.89||0.1476|TWO_SIDED|95.0|-3.08|0.47|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 100 mcg - Placebo|Pair-wise comparison of MEDI0382 100 mcg versus Placebo.||0.47|-3.08|0.1476
92369050|NCT03645421|184643029|OTHER||LS mean difference|-2.53|STANDARD_ERROR_OF_MEAN|0.92||0.008|TWO_SIDED|95.0|-4.37|-0.69|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 200 mcg - Placebo|Pair-wise comparison of MEDI0382 200 mcg versus Placebo.||-0.69|-4.37|0.0080
92226816|NCT04871711|184355506|SUPERIORITY||Risk Difference (RD)|22.8|||<|0.001|TWO_SIDED|95.0|14.0|31.7||Evaluated at 5% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||31.7|14.0|<0.001
92226817|NCT04871711|184355507|SUPERIORITY||Risk Difference (RD)|12.3||||0.001|TWO_SIDED|95.0|5.7|18.9||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||18.9|5.7|0.001
92226818|NCT04871711|184355508|SUPERIORITY||Risk Difference (RD)|10.4|||<|0.001|TWO_SIDED|95.0|5.3|15.6||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||15.6|5.3|<0.001
92226819|NCT04871711|184355509|SUPERIORITY||Risk Difference (RD)|21.0|||<|0.001|TWO_SIDED|95.0|12.6|29.4||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||29.4|12.6|<0.001
92226820|NCT04871711|184355510|SUPERIORITY||Risk Difference (RD)|19.5|||<|0.001|TWO_SIDED|95.0|12.5|26.5||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||26.5|12.5|<0.001
92168204|NCT02652260|184225749|OTHER|The 95% CI was based on a t-distribution.|Mean Difference (Final Values)|-13.4|||||TWO_SIDED|95.0|-16.8|-10.1||||||Change from time of switch to 24 weeks post-switch: Treatment difference in score|Week 24 Post-switch minus Time of switch|-10.1|-16.8|
92168205|NCT02652260|184225750|OTHER|The 95% CI for treatment difference was calculated from an ANCOVA model with terms for baseline lipid level, use of lipid lowering therapy at study Day 1 and treatment|Difference Estimate|-9.02|||||TWO_SIDED|95.0|-15.69|-2.35||||||Difference Estimate: LDL Cholesterol|ISG minus DSG|-2.35|-15.69|
92168206|NCT02652260|184225750|OTHER|The 95% CI for treatment difference was calculated from an ANCOVA model with terms for baseline lipid level, use of lipid lowering therapy at study Day 1 and treatment|Difference Estimate|-13.57|||||TWO_SIDED|95.0|-20.79|-6.35||||||Difference Estimate: Non-HDL Cholesterol|ISG minus DSG|-6.35|-20.79|
92168207|NCT02652260|184225750|OTHER|The 95% CI for treatment difference was calculated from an ANCOVA model with terms for baseline lipid level, use of lipid lowering therapy at study Day 1 and treatment|Difference Estimate|-21.42|||||TWO_SIDED|95.0|-29.63|-13.21||||||Difference Estimate: Cholesterol|ISG minus DSG|-13.21|-29.63|
92168208|NCT02652260|184225750|OTHER|The 95% CI for treatment difference was calculated from an ANCOVA model with terms for baseline lipid level, use of lipid lowering therapy at study Day 1 and treatment|Difference Estimate|-8.18|||||TWO_SIDED|95.0|-11.76|-4.6||||||Difference Estimate: HDL Cholesterol|ISG minus DSG|-4.60|-11.76|
92168209|NCT02652260|184225750|OTHER|The 95% CI for treatment difference was calculated from an ANCOVA model with terms for baseline lipid level, use of lipid lowering therapy at study Day 1 and treatment|Difference Estimate|-22.18|||||TWO_SIDED|95.0|-38.52|-5.84||||||Difference Estimate: Triglyceride|ISG minus DSG|-5.84|-38.52|
92168210|NCT03283371|184225810|SUPERIORITY||LS Mean logarithmic difference|-0.16||||0.5053|TWO_SIDED|95.0|-0.62|0.31|||Mixed Model for Repeated Measures (MMRM)|||Analysis is based on MMRM and adjusted for natural log-transformed baseline seizure frequency, high seizure frequency category (\>=24 seizures and \<24 seizures), structural etiology category (yes and no), visit, treatment and treatment by visit interaction. An unstructured variance-covariance matrix is used in the model.||0.31|-0.62|0.5053
92168211|NCT03283371|184225811|SUPERIORITY||Odds Ratio (OR)|2.09||||0.2231|TWO_SIDED|95.0|0.64|6.85|||Regression, Logistic|||Based on logistic regression with a term for treatment group and with adjustment for natural log-transformed baseline seizure frequency, high seizure frequency category (\>=24 seizures and \<24 seizures) and structural etiology category (yes and no).||6.85|0.64|0.2231
92168212|NCT03283371|184225814|SUPERIORITY||Odds Ratio (OR)|0.67||||0.6854|TWO_SIDED|95.0|0.1|4.57|||Regression, Logistic|||Based on the logistic regression model with a term for treatment group and with adjustment for log-transformed baseline seizure frequency, high seizure frequency category (\>=24 seizures and \<24 seizures) and structural etiology category (yes and no) are considered as covariates.||4.57|0.10|0.6854
92168213|NCT01290341|184225818|SUPERIORITY_OR_OTHER||p-value|0.001|||<|0.025||95.0|||||Cochran-Mantel-Haenszel|The CMH test statistic after stratification by site was used to compare subjects with complete cure between NAFT-600 and Placebo.||"In order to compare complete cure rate in the NAFT-600 group with that of the Placebo group, the following one-sided hypothesis test was carried out:~H0 (null): p1\<=p0 versus Ha (alternate): p1\>p0, where p0 and p1 are the proportions of subjects with complete cure in the placebo and NAFT-600 treatment groups respectively."||||<0.025
92369051|NCT03645421|184643029|OTHER||LS mean difference|-2.52|STANDARD_ERROR_OF_MEAN|0.89||0.0063|TWO_SIDED|95.0|-4.3|-0.74|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 300 mcg - Placebo|Pair-wise comparison of MEDI0382 300 mcg versus Placebo.||-0.74|-4.30|0.0063
92168214|NCT03684044|184225834|SUPERIORITY||Median Difference (Net)|-2.7||||0.4666|TWO_SIDED|95.0|-53.4|25.9|||Gehan Wilcoxon|The Gehan Wilcoxon test was used to analyze the TTCI data because the proportional hazards assumption was violated||||25.9|-53.4|0.4666
92168215|NCT03684044|184225835|SUPERIORITY|||||||0.6326|||||||Cochran-Mantel-Haenszel|Statistic was stratified by region, NEWS2 at baseline (≤7, \>7), and time from symptom onset to study treatment (≤48 hours, \>48 hours)||||||0.6326
92168216|NCT03684044|184225836|SUPERIORITY||Mean Difference (Net)|-6.8||||0.3272|TWO_SIDED|95.0|-50.9|17.7|||Gehan Wilcoxon|The Gehan Wilcoxon test was used to analyze the TTCI data because the proportional hazards assumption was violated||||17.7|-50.9|0.3272
92168217|NCT03703336|184225863|NON_INFERIORITY|If the lower limit of the 95% confidence interval (CI) of the ratio of GMCs between the ROTAVIN and ROTAVIN-M1 groups were to be larger than 1/2, ROTAVIN was considered to be non-inferior to the licensed frozen formulation of the vaccine (ROTAVIN-M1).|GMC Ratio|1.38|||||TWO_SIDED|95.0|1.02|1.86|||||Log10-transformed IgA concentrations were used to construct a 2-sided 95% CI for the mean difference between the arms using t-distribution. The mean difference and 95% CI were exponentiated to obtain the GMC ratio and corresponding 95% CI.|||1.86|1.02|
92168218|NCT03703336|184225865|OTHER||Percentage Difference|6.0|||||TWO_SIDED|95.0|-3.57|15.87||||||||15.87|-3.57|
92168219|NCT03703336|184225866|OTHER||Percentage Difference|0.4|||||TWO_SIDED|95.0|-2.4|2.09||||||Percentage Difference on Day 1||2.09|-2.40|
92168220|NCT03703336|184225866|OTHER||Percentage Difference|6.3|||||TWO_SIDED|95.0|-3.19|16.23||||||Percentage Difference on Day 85||16.23|-3.19|
92168221|NCT04629950|184225883|SUPERIORITY|||||||0.395||||||P value not adjusted for multiple comparisons,|t-test, 2 sided|||||||0.395
92168222|NCT04629950|184225883|SUPERIORITY|||||||0.41||||||P values not adjusted for multiple comparisons.|t-test, 2 sided|||||||0.410
92168223|NCT04629950|184225884|SUPERIORITY|||||||0.691|||||||Fisher Exact|||||||0.691
92168224|NCT04629950|184225884|SUPERIORITY|||||||1||||||P values not adjusted for multiple comparisons.|Fisher Exact|||||||1
92168225|NCT04629950|184225885|SUPERIORITY|||||||0.758|||||||t-test, 2 sided|P value not adjusted for multiple comparisons,||||||0.758
92168226|NCT04629950|184225885|SUPERIORITY|||||||0.247||||||P values not adjusted for multiple comparisons.|Fisher Exact|||Data represent change values.||||0.247
92168227|NCT04629950|184225886|SUPERIORITY|||||||0.316||||||P values were not adjusted for multiple comparisons.|t-test, 2 sided|||||||0.316
92168228|NCT04629950|184225886|SUPERIORITY|||||||0.605||||||P values not adjusted for multiple comparisons.|t-test, 2 sided|||Data represent change values.||||0.605
92168229|NCT04629950|184225887|SUPERIORITY|||||||0.192||||||P value not adjusted for multiple comparisons,|t-test, 2 sided|||Mean Reduction in Average Itch||||0.192
92168230|NCT04629950|184225887|SUPERIORITY|||||||0.392||||||P value not adjusted for multiple comparisons,|t-test, 2 sided|||Mean Reduction in Average Itch. Data represent change values.||||0.392
92168231|NCT04629950|184225887|SUPERIORITY|||||||0.347||||||P values not adjusted for multiple comparisons.|t-test, 2 sided|||Mean Reduction in Maximum Itch||||0.347
92168232|NCT04629950|184225887|SUPERIORITY|||||||0.572||||||P value not adjusted for multiple comparisons,|t-test, 2 sided|||Mean Reduction in Maximum Itch. Data represent change values.||||0.572
92168233|NCT04629950|184225888|OTHER|||||||0.359|||||||Wilcoxon (Mann-Whitney)|||||||0.359
92168234|NCT04629950|184225889|OTHER|||||||0.141|||||||Wilcoxon (Mann-Whitney)|||||||0.141
92168235|NCT04629950|184225890|OTHER|||||||0.582|||||||Wilcoxon (Mann-Whitney)|||||||0.582
92168236|NCT04629950|184225891|OTHER|||||||0.713|||||||Wilcoxon (Mann-Whitney)|||||||0.713
92168237|NCT04629950|184225892|OTHER|||||||0.346|||||||Wilcoxon (Mann-Whitney)|||||||0.346
92168238|NCT04629950|184225893|OTHER|||||||0.149|||||||Wilcoxon (Mann-Whitney)|||||||0.149
92168239|NCT04629950|184225894|OTHER|||||||0.221|||||||Wilcoxon (Mann-Whitney)|||Analysis for Average Itch Over the Preceding 3 Days||||0.221
92168240|NCT04629950|184225894|OTHER|||||||0.286|||||||Wilcoxon (Mann-Whitney)|||Analysis is for the Maximum Itch of the Preceding 7 Days||||0.286
92168241|NCT04629950|184225895|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Analysis for Average Itch Over the Preceding 3 Days||||1
92168242|NCT04629950|184225895|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Analysis is for the Maximum Itch of the Preceding 7 Days||||1
92168243|NCT02708108|184225903|OTHER|Multivariable analysis|Odds Ratio (OR)|0.3||||0.02|TWO_SIDED|95.0|0.09|0.92||Reported as 1-sided p-value.|Regression, Logistic||Multivariable model includes age, BMI category, cytogenetic risk, ethnicity, sex|||0.92|0.09|0.02
92168244|NCT00891436|184225917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.5|>|0.1||95.0|||||t-test, 2 sided|||paired t-test was used for the data analysis||||>0.1
92168245|NCT00891436|184225917|NON_INFERIORITY_OR_EQUIVALENCE|t-test showed no different between the 2 groups.|Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.5|>|0.1||95.0|||||t-test, 2 sided|||||||>0.1
92168246|NCT05113771|184225944|SUPERIORITY||LS Mean Difference|-4.4||||0.0056|TWO_SIDED|95.0|-7.6|-1.3|||MMRM|mixed model for repeated measures (MMRM) with imputation based on the missing at random (MAR) assumption was used.||||-1.3|-7.6|0.0056
92369052|NCT03645421|184643032|OTHER||LS mean difference|-1.09|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.48|-0.7|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 100 mcg - Placebo|Pair-wise comparison of MEDI0382 100 mcg versus Placebo.||-0.70|-1.48|<0.0001
92168247|NCT05113771|184225945|SUPERIORITY|||||||0.0189|||||||MMRM|||||||0.0189
92168248|NCT05113771|184225946|SUPERIORITY|||||||0.0026|||||||Cochran-Mantel-Haenszel|||||||0.0026
92226821|NCT04871711|184355511|SUPERIORITY||Risk Difference (RD)|9.3||||0.004|TWO_SIDED|95.0|3.8|14.7||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||14.7|3.8|0.004
92226822|NCT04871711|184355512|SUPERIORITY||Risk Difference (RD)|22.5|||<|0.001|TWO_SIDED|95.0|14.4|30.6||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||30.6|14.4|<0.001
92226823|NCT04871711|184355513|SUPERIORITY||Risk Difference (RD)|19.5|||<|0.001|TWO_SIDED|95.0|12.5|26.5||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||26.5|12.5|<0.001
92226824|NCT04871711|184355514|SUPERIORITY||Risk Difference (RD)|21.7|||<|0.001|TWO_SIDED|95.0|12.4|30.9||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||30.9|12.4|<0.001
92226825|NCT04871711|184355515|SUPERIORITY||Risk Difference (RD)|23.9|||<|0.001|TWO_SIDED|95.0|15.2|32.7||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||32.7|15.2|<0.001
92226826|NCT04871711|184355516|SUPERIORITY||Risk Difference (RD)|19.6|||<|0.001|TWO_SIDED|95.0|11.8|27.5||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||27.5|11.8|<0.001
92369053|NCT03645421|184643032|OTHER||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.49|-0.71|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 200 mcg - Placebo|Pair-wise comparison of MEDI0382 200 mcg versus Placebo.||-0.71|-1.49|<0.0001
92369054|NCT03645421|184643032|OTHER||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.19||0.0002|TWO_SIDED|95.0|-1.15|-0.38|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 300 mcg - Placebo|Pair-wise comparison of MEDI0382 300 mcg versus Placebo.||-0.38|-1.15|0.0002
92168249|NCT02574455|184225950|OTHER||Hazard Ratio (HR)|0.387|||<|0.0001|TWO_SIDED|95.0|0.305|0.492||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies, presence of known brain metastases at study entry, and region.|Log Rank|||||0.492|0.305|<0.0001
92168250|NCT02574455|184225951|OTHER||Hazard Ratio (HR)|0.413|||<|0.0001|TWO_SIDED|95.0|0.33|0.517||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies, presence of known brain metastases at study entry, and region.|Log Rank|||||0.517|0.330|<0.0001
92168251|NCT02574455|184225952|OTHER||Hazard Ratio (HR)|0.481|||<|0.0001|TWO_SIDED|95.0|0.39|0.592||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies and region.|Log Rank|||||0.592|0.390|<0.0001
92168252|NCT02574455|184225953|OTHER||Hazard Ratio (HR)|0.514|||<|0.0001|TWO_SIDED|95.0|0.422|0.625||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies and region.|Log Rank|||||0.625|0.422|<0.0001
92168253|NCT02574455|184225954|OTHER||Odds Ratio (OR)|10.859|||<|0.0001|TWO_SIDED|95.0|5.59|21.095|||Cochran-Mantel-Haenszel|||ORR by IRC Assessment||21.095|5.590|<0.0001
92168254|NCT02574455|184225954|OTHER||Odds Ratio (OR)|7.363|||<|0.0001|TWO_SIDED|95.0|4.063|13.341|||Cochran-Mantel-Haenszel|||ORR by Investigator Assessment||13.341|4.063|<0.0001
92168255|NCT02574455|184225957|OTHER||Hazard Ratio (HR)|0.407||||0.0683|TWO_SIDED|95.0|0.15|1.107||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies, and region.|Log Rank|||DOR by IRC Assessment||1.107|0.150|0.0683
92369055|NCT03645421|184643033|OTHER||LS mean difference|-56.69|STANDARD_ERROR_OF_MEAN|8.75|<|0.0001|TWO_SIDED|95.0|-74.3|-39.09|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 100 mcg - Placebo|Pair-wise comparison of MEDI0382 100 mcg versus Placebo.||-39.09|-74.30|<0.0001
92168256|NCT02574455|184225957|OTHER||Hazard Ratio (HR)|0.212|||<|0.0001|TWO_SIDED|95.0|0.103|0.435||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies, and region.|Log Rank|||DOR by Investigator Assessment||0.435|0.103|<0.0001
92168257|NCT02574455|184225958|OTHER||Hazard Ratio (HR)|0.317|||<|0.0001|TWO_SIDED|95.0|0.248|0.404||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies and region.|Log Rank|||TTP by Investigator Assessment||0.404|0.248|<0.0001
92369056|NCT03645421|184643033|OTHER||LS mean difference|-60.58|STANDARD_ERROR_OF_MEAN|9.92|<|0.0001|TWO_SIDED|95.0|-80.53|-40.63|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 200 mcg - Placebo|Pair-wise comparison of MEDI0382 200 mcg versus Placebo.||-40.63|-80.53|<0.0001
92369057|NCT03645421|184643033|OTHER||LS mean difference|-55.07|STANDARD_ERROR_OF_MEAN|9.55|<|0.0001|TWO_SIDED|95.0|-74.28|-35.86|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 300 mcg - Placebo|Pair-wise comparison of MEDI0382 300 mcg versus Placebo.||-35.86|-74.28|<0.0001
92369058|NCT03645421|184643034|OTHER||LS mean difference|-0.071|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|-0.094|-0.047|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 100 mcg - Placebo|Pair-wise comparison of MEDI0382 100 mcg versus Placebo.||-0.047|-0.094|<0.0001
92168258|NCT02574455|184225959|OTHER||Hazard Ratio (HR)|0.406|||<|0.0001|TWO_SIDED|95.0|0.315|0.525||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies and region.|Log Rank|||TTP by IRC Assessment||0.525|0.315|<0.0001
92168259|NCT02574455|184225960|OTHER||Odds Ratio (OR)|8.543|||<|0.0001|TWO_SIDED|95.0|5.055|14.437|||Cochran-Mantel-Haenszel|||CBR by IRC Assessment||14.437|5.055|<0.0001
92168260|NCT02574455|184225960|OTHER||Odds Ratio (OR)|7.492|||<|0.0001|TWO_SIDED|95.0|4.54|12.364|||Cochran-Mantel-Haenszel|||CBR by Investigator Assessment||12.364|4.540|<0.0001
92168261|NCT01199705|184226027|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||1.39||||||||1.390||
92168262|NCT01199705|184226027|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.953||||||||0.953||
92168263|NCT01199705|184226027|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.914||||||||0.914||
92168264|NCT01199705|184226029|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||1.204||||||||1.204||
92168265|NCT01199705|184226029|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.834||||||||0.834||
92168266|NCT01199705|184226029|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.802||||||||0.802||
92168267|NCT05505045|184226056|OTHER||Cohen's d effect size|0.44|||||TWO_SIDED|95.0|-0.16|1.05||||||||1.05|-.16|
92168268|NCT05505045|184226057|OTHER||Cohen's d effect size|0.42|||||TWO_SIDED|95.0|-0.19|1.03||||||||1.03|-.19|
92168269|NCT05505045|184226058|OTHER||Cohen's d effect size|0.31|||||TWO_SIDED|95.0|-0.3|0.93||||||||0.93|-.30|
92168270|NCT05505045|184226059|OTHER||Cohen's d effect size|-0.42|||||TWO_SIDED|96.0|-1.04|0.21||||||||0.21|-1.04|
92168271|NCT05505045|184226064|OTHER||Cohen's d effect size|0.01|||||TWO_SIDED|95.0|-0.61|0.64||||||||.64|-.61|
92168272|NCT01643070|184226065|SUPERIORITY||Odds Ratio (OR)|1.5||||0.719|TWO_SIDED|95.0|0.346|6.501|||t-test, 1 sided|||||6.501|0.346|0.719
92168273|NCT02980276|184226076|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-6.9||||0.13|TWO_SIDED|95.0|-15.1|1.4||The primary analysis, as per sample size calculation, was a two-sample comparison of reduction in the proportion of women needing insulin between treatment and control arms using an exact test for a binomial response.|Risk difference||Units are %|The primary analysis, as per sample size calculation, was a two-sample comparison of reduction in the proportion of women needing insulin between treatment and control arms using an exact test for a binomial response.||1.4|-15.1|0.13
92168274|NCT02980276|184226077|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-12.7||||0.004|TWO_SIDED|95.0|-21.2|-4.3|||Risk difference||Units are %|||-4.3|-21.2|0.004
92168275|NCT02980276|184226078|SUPERIORITY|||||||0.001|||||||Log Rank|Median survival times could not be calculated; time to insulin initiation would be censored at delivery in \>50% of participants in treatment group.||||||0.001
92168276|NCT02980276|184226079|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio, log|0.61||||0.005|TWO_SIDED|95.0|0.43|0.86|||Regression, Logistic|Unadjusted|Unadjusted|||0.86|0.43|0.005
92168277|NCT02980276|184226079|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.56||||0.003|TWO_SIDED|95.0|0.38|0.82|||Regression, Logistic|Adjusted|Adjusted|||0.82|0.38|0.003
92168278|NCT02980276|184226080|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.78||||0.178|TWO_SIDED|95.0|0.55|1.12|||Regression, Logistic||Unadjusted|||1.12|0.55|0.178
92168279|NCT02980276|184226080|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.72||||0.105|TWO_SIDED|95.0|0.48|1.07||Two-sided test comparing observed odds ratio to 1.|Regression, Logistic||Adjusted|||1.07|0.48|0.105
92168280|NCT02980276|184226081|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|-3.7||||0.17|TWO_SIDED|95.0|-9.3|1.7|||t-test, 2 sided|||||1.7|-9.3|0.17
92168281|NCT02980276|184226082|EQUIVALENCE|Two-sided test comparing observed mean difference ratio to zero.|Mean Difference (Final Values)|-1.2||||0.003|TWO_SIDED|95.0|-1.99|-0.42|||t-test, 2 sided|||||-0.42|-1.99|0.003
92168282|NCT02980276|184226083|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|1.21||||0.99|TWO_SIDED|95.0|0.65|1.55|||Regression, Logistic|||||1.55|0.65|0.99
92168283|NCT02980276|184226084|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.96||||0.911|TWO_SIDED|95.0|0.46|2.0|||Regression, Logistic|||||2|0.46|0.911
92168284|NCT02980276|184226085|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.82||||0.519|TWO_SIDED|95.0|0.44|1.51|||Regression, Logistic|||||1.51|0.44|0.519
92369059|NCT03645421|184643034|OTHER||LS mean difference|-0.053|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|-0.077|-0.03|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 200 mcg - Placebo|Pair-wise comparison of MEDI0382 200 mcg versus Placebo.||-0.030|-0.077|<0.0001
92369060|NCT03645421|184643034|OTHER||LS mean difference|-0.049|STANDARD_ERROR_OF_MEAN|0.012||0.0002|TWO_SIDED|95.0|-0.074|-0.024|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 300 mcg - Placebo|Pair-wise comparison of MEDI0382 300 mcg versus Placebo.||-0.024|-0.074|0.0002
92369061|NCT00924612|184643070|OTHER||Odds Ratio, log|130.83|STANDARD_ERROR_OF_MEAN|0.0844||0.0025|TWO_SIDED|90.0|113.59|150.7|||t-test, 2 sided|||Comparison of diets based on full crossover model|ANOVA of a multicenter, 4 sequence, 5 treatment crossover model using ln-transformed data. Normal fat diet compared to fasting, very low fat, low fat, and high fat diets as part of the overall analysis. No adjustments for multiplicity made.|150.70|113.59|0.0025
92369062|NCT00924612|184643070|OTHER||Odds Ratio, log|101.84|STANDARD_ERROR_OF_MEAN|0.0954||0.8494|TWO_SIDED|90.0|86.8|119.47|||t-test, 2 sided|||Comparison of diets based on full crossover model||119.47|86.80|0.8494
92168285|NCT02980276|184226086|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|0.0||||0.66|TWO_SIDED|95.0|-0.3|0.2|||t-test, 2 sided|||||0.2|-0.3|0.66
92168286|NCT02980276|184226087|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|1.21||||0.367|TWO_SIDED|95.0|0.8|1.85|||Regression, Logistic|Unadjusted|Unadjusted|||1.85|0.8|0.367
92168287|NCT02980276|184226087|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|1.22||||0.359|TWO_SIDED|95.0|0.8|1.87|||Regression, Logistic|Adjusted|Adjusted|||1.87|0.8|0.359
92168288|NCT02980276|184226088|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-6.5||||1|TWO_SIDED|95.0|-13.9|12.9|||Risk difference||Units are %|||12.9|-13.9|1.0
92168289|NCT02980276|184226089|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.89||||0.603|TWO_SIDED|95.0|0.56|1.39|||Regression, Logistic|Unadjusted|Unadjusted|||1.39|0.56|0.603
92168290|NCT02980276|184226089|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.89||||0.621|TWO_SIDED|95.0|0.57|1.4|||Regression, Logistic|Adjusted|Adjusted|||1.4|0.57|0.621
92168291|NCT02980276|184226090|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.89||||0.739|TWO_SIDED|95.0|0.45|1.76|||Regression, Logistic|Unadjusted|Unadjusted|||1.76|0.45|0.739
92168292|NCT02980276|184226090|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.92||||0.812|TWO_SIDED|95.0|0.46|1.84|||Regression, Logistic|Adjusted|Adjusted|||1.84|0.46|0.812
92369063|NCT00924612|184643070|OTHER||Odds Ratio, log|73.55|STANDARD_ERROR_OF_MEAN|0.0902||0.0013|TWO_SIDED|90.0|63.23|85.55|||t-test, 2 sided|||Comparison of diets based on full crossover model||85.55|63.23|0.0013
92369064|NCT00924612|184643070|OTHER||Odds Ratio, log|62.62|STANDARD_ERROR_OF_MEAN|0.0954|<|0.0001|TWO_SIDED|90.0|53.38|76.46|||t-test, 2 sided|||Comparison of diets based on full crossover model||76.46|53.38|<0.0001
92168293|NCT02980276|184226091|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|1.84||||0.282|TWO_SIDED|95.0|0.63|6.04|||Regression, Logistic|Unadjusted|Unadjusted|Unadjusted||6.04|0.63|0.282
92168294|NCT02980276|184226091|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|2.14||||0.196|TWO_SIDED|95.0|0.7|7.38|||Regression, Logistic||Adjusted|||7.38|0.7|0.196
92168295|NCT02980276|184226092|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.53||||0.058|TWO_SIDED|95.0|0.27|1.01|||Regression, Logistic|Unadjusted||||1.01|0.27|0.058
92168296|NCT02980276|184226092|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.53||||0.061|TWO_SIDED|95.0|0.27|1.02|||Regression, Logistic|Adjusted||||1.02|0.27|0.061
92369065|NCT03249909|184643074|NON_INFERIORITY|Analysis of the change in exudate status (Decrease, Equal/Unchanged, Increase) from baseline to 4 weeks in the treatment groups with the two-sided Sign test on the Intent To Treat (ITT) population at 95% confidence interval.||||||0.0019|||||||Sign test|||||||0.0019
92369066|NCT03517371|184643084|SUPERIORITY||Mean Difference (Final Values)|72.35||||0.89|TWO_SIDED|95.0|-943.34|1088.04|||t-test, 2 sided|||||1088.04|-943.34|.89
92369067|NCT03517371|184643085|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.42|TWO_SIDED|95.0|-3.8|3.1|||t-test, 2 sided|||||3.10|-3.80|.42
92369068|NCT03517371|184643086|SUPERIORITY||Median Difference (Final Values)|2.17||||0.85|TWO_SIDED|95.0|-20.64|24.97|||t-test, 2 sided|Levene's test significant, equal variances not assumed values reported.||||24.97|-20.64|.85
92369069|NCT03517371|184643087|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.824|TWO_SIDED|95.0|-0.081|0.065|||t-test, 2 sided|||||.065|-.081|.824
92168297|NCT02980276|184226093|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-4.5||||0.24|TWO_SIDED|95.0|-11.6|2.5|||Risk difference||Units are %|||2.5|-11.6|0.24
92168298|NCT02980276|184226093|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|0.81||||0.24|TWO_SIDED|95.0|0.59|1.12|||Regression, Logistic||Units are %|||1.12|0.59|0.24
92168299|NCT02980276|184226094|EQUIVALENCE|Regression model that adjusts for the infant's sex and maternal height and weight at randomization.|Median Difference (Final Values)|-113.0||||0.005|TWO_SIDED|95.0|-201.0|-24.0|||Regression, Linear|P value was derived from a statistical model that adjusts for the infant's sex and maternal height and weight at randomization.||||-24|-201|0.005
92168300|NCT02980276|184226095|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|0.0||||0.82|TWO_SIDED|95.0|-0.3|0.3|||t-test, 2 sided|||||0.3|-0.3|0.82
92168301|NCT02980276|184226096|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|-0.7||||0.02|TWO_SIDED|95.0|-1.3|-0.2|||t-test, 2 sided|||||-0.2|-1.3|0.02
92168302|NCT02980276|184226097|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|0.1||||0.72|TWO_SIDED|95.0|-0.5|0.7|||t-test, 2 sided|||||0.7|-0.5|0.72
92369070|NCT01345929|184643089|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower bound of the 2-sided 95% CI was greater than -10%.|Risk Difference (RD)|8.5|||||TWO_SIDED|95.0|2.31|14.57||||||||14.57|2.31|
92369071|NCT01345929|184643090|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower bound of the 2-sided 95% CI was greater than -10%.|Risk Difference (RD)|8.0|||||TWO_SIDED|95.0|1.95|13.97||||||||13.97|1.95|
92369072|NCT02819297|184643091|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92369073|NCT03629223|184643105|EQUIVALENCE|Analysis was performed with Equivalence acceptance range for 90% confidence interval (CI) as 80.00% - 125.00%. In the below, LS-means = least squares mean.|Percentage of Ratio of Geometric LS-Mean|115.35|||||TWO_SIDED|90.0|108.55|122.58||||||||122.58|108.55|
92226827|NCT04871711|184355517|SUPERIORITY||Risk Difference (RD)|17.2|||<|0.001|TWO_SIDED|95.0|10.1|24.3||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||24.3|10.1|<0.001
92226828|NCT04871711|184355518|SUPERIORITY||Risk Difference (RD)|25.7|||<|0.001|TWO_SIDED|95.0|17.2|34.3||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||34.3|17.2|<0.001
92226829|NCT04871711|184355519|SUPERIORITY||Risk Difference (RD)|24.2|||<|0.001|TWO_SIDED|95.0|15.5|33.0||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||33.0|15.5|<0.001
92226830|NCT04871711|184355520|SUPERIORITY||Mean Difference (Net)|-35.2|||<|0.001|TWO_SIDED|95.0|-46.7|-23.8||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HECSI score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-23.8|-46.7|<0.001
92226831|NCT04871711|184355521|SUPERIORITY||Mean Difference (Net)|-3.6|||<|0.001|TWO_SIDED|95.0|-4.7|-2.6||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline DLQI score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-2.6|-4.7|<0.001
92226832|NCT04871711|184355522|SUPERIORITY||Mean Difference (Net)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.2|-1.2||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.2|-2.2|<0.001
92226833|NCT04871711|184355523|SUPERIORITY||Mean Difference (Net)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.3|-1.2||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD itch score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.2|-2.3|<0.001
92226834|NCT04871711|184355524|SUPERIORITY||Mean Difference (Net)|-1.6|||<|0.001|TWO_SIDED|95.0|-2.1|-1.0||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD pain score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.0|-2.1|<0.001
92369074|NCT03629223|184643105|OTHER||Percentage of ratio of Geometric LS-Mean|186.37|||||TWO_SIDED|90.0|163.61|212.28||||||||212.28|163.61|
92369075|NCT03629223|184643105|OTHER||Percentage of ratio of Geometric LS-Mean|163.15|||||TWO_SIDED|90.0|146.17|182.1||||||||182.10|146.17|
92369076|NCT03629223|184643106|EQUIVALENCE|Analysis was performed with Equivalence acceptance range for 90% confidence interval (CI) as 80.00% - 125.00%.|Percentage of ratio of Geometric LS-Mean|115.34|||||TWO_SIDED|90.0|108.51|122.6||||||||122.60|108.51|
92369077|NCT03629223|184643106|OTHER||Percentage of ratio of Geometric LS-Mean|186.67|||||TWO_SIDED|90.0|163.78|212.77||||||||212.77|163.78|
92369078|NCT03629223|184643106|OTHER||Percentage of ratio of Geometric LS-Mean|163.26|||||TWO_SIDED|90.0|146.09|182.46||||||||182.46|146.09|
92369079|NCT03629223|184643107|EQUIVALENCE|Analysis was performed with equivalence acceptance range for 90% confidence interval (CI) as 80.00% - 125.00%.|Percentage of ratio of Geometric LS-Mean|113.57|||||TWO_SIDED|90.0|107.62|119.85||||||||119.85|107.62|
92369080|NCT03629223|184643107|OTHER||Percentage of ratio of Geometric LS-Mean|236.51|||||TWO_SIDED|90.0|215.69|259.34||||||||259.34|215.69|
92369081|NCT03629223|184643107|OTHER||Percentage of ratio of Geometric LS-Mean|199.61|||||TWO_SIDED|90.0|176.44|225.82||||||||225.82|176.44|
92369082|NCT02674464|184643122|SUPERIORITY||Odds Ratio (OR)|0.9||||0.68|TWO_SIDED|95.0|0.62|1.3||The a priori threshold for statistical significance was \<0.05.|Generalized Estimating Equations (GEE)|Assuming an exchangeable correlation structure|CC/SC arm compared to the SCP arm.|||1.30|0.62|0.68
92168303|NCT02980276|184226098|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|0.0||||0.68|TWO_SIDED|95.0|-0.1|0.1|||t-test, 2 sided|||||0.1|-0.1|0.68
92168304|NCT02980276|184226099|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-7.2||||0.02|TWO_SIDED|95.0|-12.6|-1.8|||Regression, Logistic|P value derived from a statistical model that adjusts for the infant's sex, gestational age at birth, and maternal height and weight at randomization.|P value derived from a statistical model that adjusts for the infant's sex, gestational age at birth, and maternal height and weight at randomization.|||-1.8|-12.6|0.02
92168305|NCT02980276|184226100|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-8.4||||0.003|TWO_SIDED|95.0|-13.7|-3.2|||Risk difference|P value derived from a statistical model that adjusts for the infant's sex and maternal height and weight at randomization|Units are %|||-3.2|-13.7|0.003
92168306|NCT02980276|184226101|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|2.7||||0.012|TWO_SIDED|95.0|-1.0|6.3|||Risk difference|Units are %. P value derived from model adjusting for the gestational age at birth, sex and maternal height and weight at randomization.|Units are %. P value was derived from a statistical model that adjusts for the infant's gestational age at birth, sex and maternal height and weight at randomization.|||6.3|-1|.012
92369083|NCT02674464|184643123|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.6|TWO_SIDED|95.0|-1.32|2.3||The a priori threshold for statistical significance was \<0.05.|Mixed Effects Regression||CC/SC arm was compared to the SCP arm.|||2.30|-1.32|0.60
92369084|NCT02674464|184643124|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.38|TWO_SIDED|95.0|-1.04|2.71||The a priori threshold for statistical significance was \<0.05.|Mixed Effects Regression|||||2.71|-1.04|0.38
92369085|NCT02674464|184643125|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.05|TWO_SIDED|95.0|-2.43|0.01||The a priori threshold for statistical significance was \<0.05.|Mixed Effects Regression||CC/SC arm compared to SCP arm.|||0.01|-2.43|0.05
92369086|NCT01262638|184643157|SUPERIORITY||Difference in Least Squares Means|-15.7|||<|0.0001|TWO_SIDED|95.0|-21.8|-9.7|||ANCOVA|||||-9.7|-21.8|<0.0001
92369087|NCT01262638|184643157|SUPERIORITY||Difference in Least Squares Means|-22.9|||<|0.0001|TWO_SIDED|95.0|-28.9|-16.9|||ANCOVA|||||-16.9|-28.9|<0.0001
92369088|NCT01262638|184643157|SUPERIORITY||Difference in Least Squares Means|-24.5|||<|0.0001|TWO_SIDED|95.0|-30.5|-18.4|||ANCOVA|||||-18.4|-30.5|<0.0001
92369089|NCT00260832|184643187|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1079|TWO_SIDED|95.0|||||Kaplan-Meier|||The primary treatment comparison was based on two sided long-rank test stratified by age, cytogenetic risk, ECOG performance status||||0.1079
92369090|NCT00260832|184643188|SUPERIORITY||Odds Ratio (OR)|2.5||||0.0011|TWO_SIDED|95.0|1.4|4.78|||Fisher Exact|||||4.78|1.40|0.0011
92369091|NCT01104545|184643207|OTHER||Geometric mean ratio (GMR)|1.0|||||||||||||GMR = Fed/Fasted|||||
92369092|NCT01104545|184643208|OTHER||GMR|0.73|||||||||||||GMR = Fed/fasted|||||
92369093|NCT01576939|184643217|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.0||||0.9906|TWO_SIDED|95.0|0.979|1.022|||Regression, Cox|This was a Cox proportional hazards model with dose as the single predictor.||||1.022|0.979|0.9906
92369094|NCT01576939|184643218|SUPERIORITY_OR_OTHER||Slope|0.2795||||0.1209|TWO_SIDED|95.0|-0.077|0.634|||Regression, Linear|Linear regression model with dose as the single predictor in the model.||||0.634|-0.077|0.1209
92369095|NCT01576939|184643219|SUPERIORITY_OR_OTHER||Slope|-0.285||||0.9832|TWO_SIDED|95.0|-27.28|26.71|||Regression, Linear|Linear regression model with dose as the single predictor in the model.||||26.71|-27.28|0.9832
92369096|NCT01576939|184643220|SUPERIORITY_OR_OTHER||Slope|0.03795||||0.0263|TWO_SIDED|95.0|0.00483|0.071|||Mixed Models Analysis|A repeated measures model with dose as the single predictor. QoL values were measured for each patient every week.||||0.071|0.00483|0.0263
92369097|NCT01576939|184643221|SUPERIORITY_OR_OTHER||Slope|0.0567||||0.0039|TWO_SIDED|95.0|0.0199|0.0935|||Mixed Models Analysis|A repeated measures model with dose as the single predictor and QoL values measured each week for each patient.||||0.0935|0.0199|0.0039
92369098|NCT02285023|184643275|NON_INFERIORITY_OR_EQUIVALENCE|Principal component analysis with varimax rotation was employed. An eigenvalue ≥ 1 was chosen as the criterion to retain domains. Each item was classified into the domain when loading with a domain loading ≥ 0.5.|||||<|0.01||||||An eigenvalue ≥ 1 was chosen as the criterion to retain domains. Each item was classified into the domain when loading with a domain loading ≥ 0.5|exploratory factor analysis|An eigenvalue ≥ 1 was chosen as the criterion to retain domains. Each item was classified into the domain when loading with a domain loading ≥ 0.5||Exploratory factor analysis||||<0.01
92369099|NCT02285023|184643276|SUPERIORITY_OR_OTHER||Cronbach's alpha|0.94|||<|0.05|TWO_SIDED||||||Crohbach's alpha|||||||<0.05
92369100|NCT00809926|184643279|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.6||||0.295|TWO_SIDED|95.0|-4.61|1.4|||ANCOVA|||||1.40|-4.61|0.295
92369101|NCT00809926|184643280|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.2||||0.79|TWO_SIDED|95.0|-1.93|1.47|||ANCOVA|||||1.47|-1.93|0.790
92405508|NCT02205736|184701231|SUPERIORITY|||||||0.5637||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 22 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.5637
92168307|NCT02980276|184226102|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|3.0||||0.13|TWO_SIDED|95.0|-0.4|6.5||Units are %. P value was derived from a statistical model that adjusts for the infant's gestational age at birth, sex and maternal height and weight at randomization.|Regression, Logistic||Units are %. P value was derived from a statistical model that adjusts for the infant's gestational age at birth, sex and maternal height and weight at randomization.|||6.5|-0.4|0.13
92168308|NCT02980276|184226103|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|3.0||||0.38|TWO_SIDED|95.0|-2.9|9.0|||Risk difference||Units are %.|||9|-2.9|0.38
92168309|NCT02980276|184226104|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|2.8||||0.33|TWO_SIDED|95.0|-2.0|7.3|||Risk difference||Units are %|||7.3|-2.0|0.33
92168310|NCT02980276|184226105|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|2.3||||0.42|TWO_SIDED|95.0|-2.4|6.9|||Risk difference||Units are %|||6.9|-2.4|0.42
92168311|NCT02980276|184226106|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|0.4|||>|0.99|TWO_SIDED|95.0|-0.4|1.1|||Risk difference||Units are %.|||1.1|-0.4|>0.99
92168312|NCT02980276|184226107|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|1.1||||0.62|TWO_SIDED|95.0|-1.9|4.2|||Risk difference||Units are %|||4.2|-1.9|0.62
92168313|NCT02980276|184226108|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|0.0|||>|0.99|TWO_SIDED|95.0|-1.0|1.0|||Risk difference||Units are %|||1|-1|>0.99
92369102|NCT00809926|184643281|SUPERIORITY_OR_OTHER||Difference|8.1||||0.101|TWO_SIDED|95.0|-1.56|17.67|||Cochran-Mantel-Haenszel|||||17.67|-1.56|0.101
92369103|NCT00809926|184643282|SUPERIORITY_OR_OTHER||Difference|11.6||||0.018|TWO_SIDED|95.0|2.0|21.33|||Cochran-Mantel-Haenszel|||||21.33|2.00|0.018
92369104|NCT00809926|184643285|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.4||||0.028|TWO_SIDED|95.0|-6.34|-0.37|||ANCOVA|||||-0.37|-6.34|0.028
92369105|NCT00809926|184643286|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.1||||0.04|TWO_SIDED|95.0|-6.02|-0.14|||GENMOD|Based on a generalized estimating equations using SAS procedure GENMOD.||||-0.14|-6.02|0.040
92369106|NCT00809926|184643287|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-8.7||||0.004|TWO_SIDED|95.0|-14.38|-2.93|||ANCOVA|||||-2.93|-14.38|0.004
92369107|NCT00809926|184643288|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-4.9||||0.006|TWO_SIDED|95.0|-8.37|-1.42|||ANCOVA|||||-1.42|-8.37|0.006
92369108|NCT01108731|184643291|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||General Linear Model (GLM)|||||||<0.05
92369109|NCT01108731|184643292|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||General Linear Model (GLM)|||||||<0.05
92369110|NCT01108731|184643293|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92369111|NCT02227810|184643305|OTHER|||||||0.652|||||||t-test, 2 sided|||||||0.652
92369112|NCT02227810|184643305|SUPERIORITY|||||||0.123|||||||t-test, 2 sided|||||||0.123
92369113|NCT02227810|184643306|SUPERIORITY|||||||0.051|||||||t-test, 2 sided|||||||0.051
92369114|NCT02227810|184643306|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92168314|NCT02980276|184226109|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|0.7||||0.9|TWO_SIDED|95.0|-5.1|6.6|||Risk difference||Units are %|||6.6|-5.1|0.9
92168315|NCT04188379|184226178|SUPERIORITY||Odds Ratio (OR)|4.884||||0.0316|TWO_SIDED|95.0|1.007|43.591|||Cochran-Mantel-Haenszel|||||43.591|1.007|0.0316
92168316|NCT04188379|184226179|SUPERIORITY||Median Difference (Net)|1.0||||0.0009|TWO_SIDED|95.0|0.0|4.0|||Wilcoxon (Mann-Whitney)|||||4.000|0.000|0.0009
92226835|NCT04871711|184355525|SUPERIORITY||Mean Difference (Net)|-0.64|||<|0.001|TWO_SIDED|95.0|-0.83|-0.45||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HEIS score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-0.45|-0.83|<0.001
92226836|NCT04871711|184355526|SUPERIORITY||Mean Difference (Net)|-0.6|||<|0.001|TWO_SIDED|95.0|-0.79|-0.4||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HEIS PDAL score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-0.40|-0.79|<0.001
92369115|NCT02227810|184643307|SUPERIORITY_OR_OTHER|||||||0.051|||||||t-test, 2 sided|||||||0.051
92369116|NCT02227810|184643308|SUPERIORITY_OR_OTHER|||||||0.792|||||||t-test, 2 sided|||||||0.792
92369117|NCT00335283|184643330|SUPERIORITY_OR_OTHER||Odds Ratio, log|3.12||||0.01|TWO_SIDED|95.0|1.28|7.59|||Regression, Logistic|||This applies to the 8 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||7.59|1.28|.01
92369118|NCT00335283|184643330|SUPERIORITY_OR_OTHER||Odds Ratio, log|3.5||||0.006|TWO_SIDED|95.0|1.41|8.67|||Regression, Logistic|||This applies to the 16 week treatment affect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||8.67|1.41|.006
92369119|NCT00335283|184643331|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.01||||0.97|TWO_SIDED|95.0|0.38|2.7|||Regression, Logistic|||This applies to the 8 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||2.70|0.38|.97
92369120|NCT00335283|184643331|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.11||||0.84|TWO_SIDED|95.0|0.4|3.06|||Regression, Logistic|||This applies to the 16 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||3.06|0.40|.84
92369121|NCT00335283|184643332|SUPERIORITY_OR_OTHER||Odds Ratio, log|2.44||||0.06|TWO_SIDED|95.0|0.95|6.31|||Regression, Logistic|||This applies to the 8 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||6.31|.95|.06
92369122|NCT00335283|184643332|SUPERIORITY_OR_OTHER||Odds Ratio, log|4.51||||0.007|TWO_SIDED|95.0|1.5|13.6|||Regression, Logistic|||This applies to the 16 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||13.6|1.5|.007
92369123|NCT00335283|184643333|SUPERIORITY_OR_OTHER||Odds Ratio, log|5.17||||0.006|TWO_SIDED|95.0|2.02|13.2|||Regression, Logistic|||This applies to the 8 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||13.2|2.02|.006
92168317|NCT04188379|184226180|SUPERIORITY||Odds Ratio (OR)|5.224||||0.0108|TWO_SIDED|95.0|1.268|26.268|||Cochran-Mantel-Haenszel|||||26.268|1.268|0.0108
92168318|NCT04188379|184226181|SUPERIORITY||Rate Ratio|0.958||||0.8287|TWO_SIDED|95.0|0.651|1.41|||Wald Test|||||1.41|0.651|0.8287
92168319|NCT04188379|184226182|SUPERIORITY||Odds Ratio (OR)|4.354||||0.0265|TWO_SIDED|95.0|1.048|22.865|||Cochran-Mantel-Haenszel|||||22.865|1.0480|0.0265
92226837|NCT04871711|184355527|SUPERIORITY||Risk Difference (RD)|24.5|||<|0.001|TWO_SIDED|95.0|15.0|33.9||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||33.9|15.0|<0.001
92226838|NCT01665144|184355529|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.0134|TWO_SIDED|95.0|0.65|0.95|||Cox proportional hazards model|||||0.95|0.65|0.0134
92226839|NCT01665144|184355530|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.4398|TWO_SIDED|95.0|0.8|1.1|||Cox proportional hazards model|||||1.10|0.80|0.4398
92226840|NCT01665144|184355531|SUPERIORITY||Mean Difference (Final Values)|-613.1|STANDARD_ERROR_OF_MEAN|95.39|<|0.0001|TWO_SIDED|95.0|-800.2|-426.0|||Mixed model for repeated measures|||Month 12||-426.0|-800.2|<0.0001
92226841|NCT01665144|184355531|SUPERIORITY||Mean Difference (Final Values)|-777.5|STANDARD_ERROR_OF_MEAN|108.62|<|0.0001|TWO_SIDED|95.0|-990.6|-564.4|||Mixed model for repeated measures|||Month 24||-564.4|-990.6|<0.0001
92226842|NCT01665144|184355531|SUPERIORITY||Mean Difference (Final Values)|-695.3|STANDARD_ERROR_OF_MEAN|92.79|<|0.0001|TWO_SIDED|95.0|-877.3|-513.3|||Mixed model for repeated measures|||Average over Month 12 and Month 24||-513.3|-877.3|<0.0001
92226843|NCT01665144|184355532|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0058|TWO_SIDED|95.0|0.6|0.92|||Cox proportional hazards model|||||0.92|0.60|0.0058
92226844|NCT01665144|184355533|SUPERIORITY||ARR ratio|0.445|||<|0.0001|TWO_SIDED|95.0|0.337|0.587|||Negative binomial regression model|||||0.587|0.337|<0.0001
92226845|NCT01665144|184355534|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.41|0.7|||Cox proportional hazards model|||||0.70|0.41|<0.0001
92226846|NCT01665144|184355536|SUPERIORITY||Mean Difference (Final Values)|-1.83|STANDARD_ERROR_OF_MEAN|1.03||0.0764|TWO_SIDED|95.0|-3.85|0.19|||Repeated measures model|||Month 12||0.19|-3.85|0.0764
92226847|NCT01665144|184355536|SUPERIORITY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|1.359||0.3671|TWO_SIDED|95.0|-3.89|1.44|||Repeated measures model|||Month 24||1.44|-3.89|0.3671
92226848|NCT01665144|184355537|SUPERIORITY||Rate ratio|0.126|||<|0.0001|TWO_SIDED|95.0|0.083|0.191|||Negative binomial regression model|||Month 12||0.191|0.083|<0.0001
92226849|NCT01665144|184355537|SUPERIORITY||Rate ratio|0.178|||<|0.0001|TWO_SIDED|95.0|0.087|0.362|||Negative binomial regression model|||Month 24||0.362|0.087|<0.0001
92369124|NCT00335283|184643333|SUPERIORITY_OR_OTHER||Odds Ratio, log|5.31||||0.001|TWO_SIDED|95.0|1.97|14.3|||Regression, Logistic|||This applies to the 16 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||14.3|1.97|.001
92369125|NCT03818607|184643334|NON_INFERIORITY|The clinical similarity of the Week 27 LDH between treatments was assessed by comparing the 1-sided 97.5% upper confidence interval (CI) limit for the geometric mean ratio of LDH at Week 27 between ABP 959 treatment and eculizumab treatment with a non-inferiority margin of 2.873.|Geometric LS mean ratio (GMR)|1.0628|||||ONE_SIDED|97.5||1.1576||||||||1.1576||
92168320|NCT01164098|184226218|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|Using Natural Log Transformed Data||T-test of the natural logarithmic transformed data||||0.18
92168321|NCT01164098|184226219|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||T-test of Natural Log Transformed Data.||||0.49
92168322|NCT01164098|184226220|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||T-test||||0.37
92226850|NCT01665144|184355538|SUPERIORITY||Rate ratio|0.266|||<|0.0001|TWO_SIDED|95.0|0.215|0.328|||Regression model|Repeated measures negative binomial regression model||Month 12||0.328|0.215|<0.0001
92168323|NCT03990649|184226227|SUPERIORITY|||||||0.54||||||The p-values were estimated using a two-sample t-test.|t-test, 2 sided|||||||0.540
92168324|NCT03050814|184226229|OTHER||Hazard Ratio (HR)|1.061||||0.91|TWO_SIDED|95.0|0.38|2.966|||Kaplan Meier|Kaplan-Meier curves and a two-tailed log-rank test||||2.966|0.380|0.91
92226851|NCT01665144|184355538|SUPERIORITY||Rate ratio|0.142|||<|0.0001|TWO_SIDED|95.0|0.103|0.196|||Regression model|Repeated measures negative binomial regression model||Month 24||0.196|0.103|<0.0001
92226852|NCT01665144|184355539|SUPERIORITY||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.0367|<|0.0001|TWO_SIDED|95.0|0.103|0.247|||Repeated measures model|||Month 12||0.247|0.103|<0.0001
92226853|NCT01665144|184355539|SUPERIORITY||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.0549||0.0196|TWO_SIDED|95.0|0.021|0.236|||Repeated measures model|||Month 24||0.236|0.021|0.0196
92226854|NCT01665144|184355540|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.68|1.11|||Cox proportional hazard model|||Without superimposed relapses at baseline||1.11|0.68|
92226855|NCT01665144|184355540|SUPERIORITY||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.49|0.91|||Cox proportional hazard model|||With superimposed relapses at baseline||0.91|0.49|
92226856|NCT01665144|184355540|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.69|1.06|||Cox proportional hazard model|||Without superimposed relapses post-treatment||1.06|0.69|
92226857|NCT01665144|184355540|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.53|1.19|||Cox proportional hazard model|||With superimposed relapses post-treatment||1.19|0.53|
92226858|NCT01665144|184355541|SUPERIORITY||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.46|0.91|||Cox proportional hazard model|||Rapidly evolving patients||0.91|0.46|
92226859|NCT01665144|184355541|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.69|1.09|||Cox proportional hazard model|||Not rapidly evolving patients||1.09|0.69|
92226860|NCT01665144|184355542|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.65|0.99|||Cox proportional hazard model|||With moderate or severe course of disease||0.99|0.65|
92226861|NCT01665144|184355542|SUPERIORITY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.47|1.13|||Cox proportional hazard model|||Without moderate or severe course of disease||1.13|0.47|
92226862|NCT05900115|184355658|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.77|TWO_SIDED||||||Regression, Linear|||||||0.77
92369126|NCT03818607|184643335|OTHER|The clinical similarity of the AUEC between treatments was assessed by comparing 2-sided 90% CI for the GMR of the time-adjusted AUEC of LDH (Week 13 to Week 27, Week 39 to Week 53, and Week 65 to Week 79) between ABP 959 treatment and eculizumab treatment with a similarity margin of (0.77, 1.30).|GMR|0.9812|||||TWO_SIDED|90.0|0.9403|1.0239||||||||1.0239|0.9403|
92369127|NCT03818607|184643343|OTHER||GMR|1.0314|||||ONE_SIDED|97.5||1.1201||||||||1.1201||
92369128|NCT03818607|184643346|OTHER||GMR|0.9122|||||TWO_SIDED|90.0|0.7586|1.0968||||||Total PK AUC GMR (ABP 959/Eculizumab)||1.0968|0.7586|
92369129|NCT03818607|184643346|OTHER||GMR|0.9508|||||TWO_SIDED|90.0|0.7454|1.213||||||Unbound PK AUC GMR (ABP 959/Eculizumab)||1.2130|0.7454|
92369130|NCT01147250|184643360|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of lixisenatide versus placebo was to be claimed if the upper bound of the 2-sided 95% CI of the hazard ratio was \<1.3.|Hazard Ratio (HR)|1.017|||||TWO_SIDED|95.0|0.886|1.168|||||Lixisenatide vs Placebo|Analysis was performed using Cox proportional hazards model with treatment groups, and region (North America, South and Central America, Western Europe, Eastern Europe, Africa/Near East, and Asia/Pacific) as covariates, and the associated two-sided 95% confidence interval (CI).||1.168|0.886|
92168325|NCT01643616|184226232|SUPERIORITY_OR_OTHER||Percentage Difference|33.0|||<|0.05|||||||Fisher Exact||For success rate without supplementation the difference between group US (94.9%) and group NS (61.9%) is 33%.|For sample size calculation we assumed a significance level of 0.05 and a success rate derived from clinical data of 75% in the nerve stimulation group and of 90% in the ultrasound group. With a group ratio of 1:1 and a power of 0.8, the required sample size was at least 226. For statistical analysis we used the exact Fisher test as a distribution-free, non-parametric test method.||||< 0.05
92168326|NCT01643616|184226233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.9|||<|0.05|TWO_SIDED|95.0|13.6|31.1|||Log Rank|||We used the log-rank test to compare the onset times. The significance level was defined with p\<0.05.||31.1|13.6|< 0.05
92168327|NCT01643616|184226234|SUPERIORITY_OR_OTHER||Percentage Difference|26.2||||0.05|||||||Fisher Exact||For success rate with supplementation the difference between group US (98.2%) and group NS (72%) is 26.2%.|For sample size calculation we assumed a significance level of 0.05 and a success rate derived from clinical data of 75% in the nerve stimulation group and of 90% in the ultrasound group. With a group ratio of 1:1 and a power of 0.8, the required sample size was at least 226. For statistical analysis we used the exact Fisher test as a distribution-free, non-parametric test method.||||0.05
92168328|NCT04512482|184226235|SUPERIORITY|||||||0.044|||||||ANOVA|||A power analysis determined that a sample size of forty-five (45) subjects would possess 90% power to detect an effect size of 0.5 between the intervention and control legs of the crossover design. With 43 total subjects the study had between 85 and 90% power.||||.044
92226863|NCT05900115|184355659|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.02|STANDARD_ERROR_OF_MEAN|0.06||0.78|TWO_SIDED||||||Regression, Linear|||||||0.78
92226864|NCT05900115|184355660|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.13|STANDARD_ERROR_OF_MEAN|0.12||0.28|TWO_SIDED||||||Regression, Linear|||||||0.28
92226865|NCT05900115|184355661|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.05|STANDARD_ERROR_OF_MEAN|0.13||0.68|TWO_SIDED||||||Regression, Linear|||||||0.68
92226866|NCT05900115|184355662|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.32|STANDARD_ERROR_OF_MEAN|0.13||0.01|TWO_SIDED||||||Regression, Linear|||||||0.01
92226867|NCT05900115|184355663|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|-0.19|STANDARD_ERROR_OF_MEAN|0.14||0.18|TWO_SIDED||||||Regression, Linear|||||||0.18
92226868|NCT05900115|184355664|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.03|STANDARD_ERROR_OF_MEAN|0.12||0.83|TWO_SIDED||||||Regression, Linear|||||||0.83
92226869|NCT05900115|184355665|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.13||0.56|TWO_SIDED||||||Regression, Linear|||||||0.56
92226870|NCT05900115|184355666|EQUIVALENCE|To examine intervention effects on primary dichotomous outcomes at posttest, we used logistic regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Odds Ratio (OR)|1.11|STANDARD_ERROR_OF_MEAN|0.54||0.85|TWO_SIDED|95.0|0.38|3.2|||Regression, Logistic|||||3.20|.38|0.85
92226871|NCT05900115|184355667|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.0|STANDARD_ERROR_OF_MEAN|0.05||1|TWO_SIDED||||||Regression, Linear|||||||1.00
92226872|NCT03242954|184355699|SUPERIORITY||Cohen's f square|0.011|STANDARD_ERROR_OF_MEAN|0.208||0.5148|TWO_SIDED|95.0|0.001|0.101|||Regression, Linear|||||0.101|0.001|0.5148
92226873|NCT03242954|184355700|SUPERIORITY||Cohen's f square|0.306|STANDARD_ERROR_OF_MEAN|0.149|<|0.0001|TWO_SIDED|95.0|0.169|0.389|||Regression, Linear|||||0.389|0.169|<.0001
92226874|NCT03242954|184355701|SUPERIORITY||Cohen's f square|0.008|STANDARD_ERROR_OF_MEAN|0.213||0.4324|TWO_SIDED|95.0|0.001|0.073|||GEE Linear model|||||0.073|0.001|0.4324
92226875|NCT03242954|184355702|SUPERIORITY||Cohen's f square|0.26|STANDARD_ERROR_OF_MEAN|0.149|<|0.0001|TWO_SIDED|95.0|0.175|0.374|||GEE Linear model|||||0.374|0.175|<.0001
92369131|NCT01147250|184643360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.017||||0.8542|TWO_SIDED|95.0|0.886|1.168|||Log Rank||Lixisenatide vs Placebo|Analysis was performed using Cox proportional hazards model with treatment groups, and region (North America, South and Central America, Western Europe, Eastern Europe, Africa/Near East, and Asia/Pacific) as covariates, and the associated two-sided 95% CI. Superiority of lixisenatide versus placebo was to be claimed if the upper bound of the 2-sided 95% CI of the hazard ratio was \<1.0.||1.168|0.886|0.8542
92369132|NCT03588806|184643364|SUPERIORITY|||||||0.218|||||||ANOVA|Univariate repeated measures ANOVA||||||0.218
92168329|NCT05119855|184226236|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-concomitant Group. GMT Ratio is reported for Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.22|||||TWO_SIDED|95.0|0.92|1.61|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 6||1.61|0.92|
92168330|NCT05119855|184226236|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.33|||||TWO_SIDED|95.0|1.01|1.75|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 11||1.75|1.01|
92168331|NCT05119855|184226236|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.36|||||TWO_SIDED|95.0|1.02|1.82|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 16||1.82|1.02|
92168332|NCT05119855|184226236|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.25|||||TWO_SIDED|95.0|0.92|1.7|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 18||1.70|0.92|
92369133|NCT03588806|184643365|SUPERIORITY|||||||0.268|||||||ANOVA|Univariate repeated measures||||||0.268
92369134|NCT03588806|184643366|SUPERIORITY||||||<|0.001|||||||ANOVA|Univariate repeated measures ANOVA||||||<0.001
92369135|NCT03588806|184643367|SUPERIORITY|||||||0.228|||||||ANOVA|Univariate repeated measures ANOVA||||||0.228
92369136|NCT03588806|184643368|SUPERIORITY|||||||0.043|||||||ANOVA|Univariate repeated measures ANOVA||||||0.043
92369137|NCT03588806|184643369|SUPERIORITY|||||||0.486|||||||ANOVA|Univariate repeated measures ANOVA||PROMIS Social Roles score||||0.486
92369138|NCT03588806|184643369|SUPERIORITY|||||||0.078|||||||ANOVA|Univariate repeated measures ANOVA||PROMIS Sleep Disturbance T-Scores||||0.078
92226876|NCT00880750|184355703|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A standard 90% confidence interval (CI) was constructed for the difference in least square means of the primary pharmacodynamic (PD) variable between the granules formulation and the reference chewable tablet formulation. A critical reference representing +/- 20% of the reference chewable tablet formulation least squares mean was constructed. PD equivalence was to be claimed if the 90% CI was completely contained within the critical reference range of (-3.47, 3.47).|Mean Difference (Final Values)|-1.35|||||TWO_SIDED|90.0|-2.18|-0.51|||Mixed Models Analysis|||||-0.51|-2.18|
92226877|NCT00880750|184355704|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A standard 90% confidence interval (CI) was constructed for the difference in least square means of the primary pharmacodynamic (PD) variable between the granules formulation and the reference chewable tablet formulation. A critical reference representing +/- 20% of the reference chewable tablet formulation least squares mean was constructed. PD equivalence was to be claimed if the 90% CI was completely contained within the critical reference range of (-3.40, 3.40).|Mean Difference (Final Values)|-1.98|||||TWO_SIDED|90.0|-3.17|-0.8|||Mixed Models Analysis|||||-0.80|-3.17|
92226878|NCT00880750|184355705|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric LS means|1.34||||||90.0|1.26|1.42|||Mixed Models Analysis|After application of the log transformation AUC 0-48 was analysed using a mixed effect linear model.||The LS means and associated SEs for granules and tablets as well as the difference between granules and tablets were determined. From the LS mean and SE of the difference, a 90% CI was constructed for the difference of the logs of granules and tablets. An exponential transformation was applied to the lower and upper limits of the CI. This created a point estimate and 90% CI for the ratio of LS means for granules to tablets.||1.42|1.26|
92226879|NCT00880750|184355706|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric LS means|1.26||||||90.0|1.2|1.33|||Mixed Models Analysis|After application of the log transformation Cmax was analysed using a mixed effect linear model.||The LS means and associated SEs for granules and tablets as well as the difference between granules and tablets were determined. From the LS mean and SE of the difference, a 90% CI was constructed for the difference of the logs of granules and tablets. An exponential transformation was applied to the lower and upper limits of the CI. This created a point estimate and 90% CI for the ratio of LS means for granules to tablets.||1.33|1.20|
92226880|NCT00880750|184355707|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.01||||||90.0|0.0|0.5|||Wilcoxon (Hodges-Lehmann)|The median difference and 90% CI for the median difference was then calculated based on Hodges-Lehmann estimate for Wilcoxon's Signed Rank test||||0.50|0.00|
92226881|NCT02265913|184355709|EQUIVALENCE|provides 85% of success|Equivalence ratio|98.0|||||TWO_SIDED|90.0|92.0|105.0|||Fieller's method|||||105|92|
92226882|NCT03106779|184355728|SUPERIORITY||treatment difference in the MMR rate|12.2||||0.029|TWO_SIDED|95.0|2.19|22.3|||Cochran-Mantel-Haenszel|Stratified by the randomization stratification factor, i.e. cytogenetic response status (MCyR vs no MCyR) at screening||||22.30|2.19|0.029
92226883|NCT04233229|184355743|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time In Range (TIR) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|27.4|STANDARD_ERROR_OF_MEAN|6.0|<|0.001|TWO_SIDED|95.0|15.0|39.8||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||39.8|15.0|<.001
92226884|NCT04233229|184355744|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time In Range (TIR) during diurnal period at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|23.0|STANDARD_ERROR_OF_MEAN|6.0|<|0.001|TWO_SIDED|95.0|10.6|35.5||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||35.5|10.6|<.001
92226885|NCT04233229|184355745|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time In Range (TIR) during nocturnal period at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|40.8|STANDARD_ERROR_OF_MEAN|7.2|<|0.001|TWO_SIDED|95.0|25.8|55.8||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||55.8|25.8|<.001
92226886|NCT04233229|184355746|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time Above Range (TAR) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|-27.7|STANDARD_ERROR_OF_MEAN|6.1|<|0.001|TWO_SIDED|95.0|-40.5|-15.0||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||-15.0|-40.5|<.001
92226887|NCT04233229|184355747|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time Above Range (TAR) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|-20.1|STANDARD_ERROR_OF_MEAN|5.9||0.003|TWO_SIDED|95.0|-32.4|-7.9||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||-7.9|-32.4|0.003
92226888|NCT04233229|184355748|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time Below Range (TBR) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|0.1|STANDARD_ERROR_OF_MEAN|0.5||0.79|TWO_SIDED|95.0|-1.0|1.3||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||1.3|-1.0|0.79
92226889|NCT04233229|184355749|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time Below Range (TBR) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.84|TWO_SIDED|95.0|-0.3|0.4||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||0.4|-0.3|0.84
92369139|NCT03588806|184643369|SUPERIORITY|||||||0.874|||||||ANOVA|Univariate repeated measures ANOVA||PROMIS Depression T-Scores||||0.874
92369140|NCT03588806|184643369|SUPERIORITY|||||||0.389|||||||ANOVA|Univariate repeated measures ANOVA||PROMIS Anxiety T-Score||||0.389
92369141|NCT03588806|184643370|SUPERIORITY|||||||0.676|||||||ANOVA|Univariate repeated measures ANOVA||||||0.676
92405509|NCT02205736|184701231|SUPERIORITY|||||||0.0002||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 23 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0002
92168333|NCT05119855|184226236|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.21|||||TWO_SIDED|95.0|0.91|1.61|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 31||1.61|0.91|
92168334|NCT05119855|184226236|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.32|||||TWO_SIDED|95.0|0.98|1.77|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 33||1.77|0.98|
92226890|NCT04233229|184355750|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and glucose variability (% CV Coefficient of Variation) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|3.7|STANDARD_ERROR_OF_MEAN|1.9||0.06|TWO_SIDED|95.0|-0.2|7.6||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||7.6|-0.2|0.060
92226891|NCT04233229|184355751|SUPERIORITY|Analysis of covariance (ANCOVA) model with 2 factors: HbA1c value at baseline and study group|Adjusted means difference|-1.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.9|-0.7||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||-0.7|-1.9|<.001
92226892|NCT04233229|184355752|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and total daily insulin dose at selection|Adjusted means difference|-18.5|STANDARD_ERROR_OF_MEAN|28.5||0.52|TWO_SIDED|95.0|-78.2|41.2||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||41.2|-78.2|0.52
92226893|NCT04233229|184355753|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and body weight at study initiation visit|Adjusted means difference|2.8|STANDARD_ERROR_OF_MEAN|1.6||0.08|TWO_SIDED|95.0|-0.4|6.1||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||6.1|-0.4|0.08
92226894|NCT02288247|184355754|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.027|TWO_SIDED|95.0|0.53|0.96||From the Cox proportional hazards model with covariates for treatment and disease progression in Period 1 (radiographic, nonradiographic).|Cox proportional hazards model|||||0.96|0.53|0.027
92226895|NCT02288247|184355755|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.002|TWO_SIDED|95.0|0.41|0.82||From the Cox proportional hazards model with covariates for treatment and disease progression in Period 1 (radiographic, nonradiographic).|Cox proportional hazards model|||||0.82|0.41|0.002
92226896|NCT02288247|184355757|SUPERIORITY|||||||0.142||||||From the Cochran-Mantel-Haenszel test stratified by disease progression (radiographic, non-radiographic) in Period 1.|Cochran-Mantel-Haenszel|||||||0.142
92226897|NCT02288247|184355760|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.994|TWO_SIDED|95.0|0.47|2.13||From the Cox proportional hazards model with covariates for treatment and disease progression in Period 1 (radiographic, nonradiographic).|Cox proportional hazards model|||||2.13|0.47|0.994
92226898|NCT04652804|184355763|SUPERIORITY||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|1.0|1.19||||||Reference group: Low Intensity Intervention||1.19|1.00|
92226899|NCT04652804|184355763|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.9|1.05||||||Reference Group: Low Intensity Intervention||1.05|0.90|
92226900|NCT04652804|184355763|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.8|1.15||||||Reference group: High Intensity Intervention||1.15|0.80|
92226901|NCT04652804|184355763|SUPERIORITY||Risk Ratio (RR)|0.89|||||TWO_SIDED|95.0|0.77|1.04||||||Reference group: High Intensity Intervention||1.04|0.77|
92226902|NCT00820755|184355784|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.959||||0.1265|TWO_SIDED|95.0|0.736|1.25|||Log Rank|||Exploratory analysis to test the null hypothesis of no difference between maintenance therapy regimen. Model is adjusted by histology (interactive voice response system \[IVRS\]) and tumor response status at the end of combination therapy ('complete response \[CR\] or partial response \[PR\]' versus 'other').||1.250|0.736|0.1265
92226903|NCT00820755|184355786|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.774||||0.0622||95.0|0.613|0.976|||Log Rank|||Exploratory analysis to test the null hypothesis of no difference between maintenance therapy regimen. Model is adjusted by histology (IVRS) and tumor response status at the end of combination therapy ('CR or PR' versus 'other').||0.976|0.613|0.0622
92226904|NCT01486199|184355792|EQUIVALENCE|alpha=0.05||||||0.002|||||||t-test, 2 sided|||Comparing absorptive clearance in CF children vs adult controls||||0.002
92226905|NCT01486199|184355793|EQUIVALENCE|alpha = 0.05||||||0.2|||||||t-test, 2 sided|||Comparison of mucociliary clearance in CF children compared to healthy adults||||0.20
92369142|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Specificity of lesion shape|0.694|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||Null hypothesis is that there is no difference between the two tests.||||<0.001
92226906|NCT01486199|184355794|EQUIVALENCE|alpha=0.05||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Comparing absorptive clearance at t=0 vs t=2 years in pediatric CF subjects||||0.24
92369143|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Lesion homogeneity spec, conservative|0.714|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image specificity of the homogeneity of elasticity with the lesion and surrounding tissue using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if they were not homogeneous on the color overlay SW elastographic image; BIRADS 4a mass downgraded to BIRADS 3' if they were very homogeneous).~Null hypothesis is that there is no difference between the two tests."||||<0.001
92369144|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Lesion homogeneity spec, agressive|0.785|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image specificity of the homogeneity of elasticity with the lesion and surrounding tissue using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if they were not homogeneous on the color overlay SW elastographic image; BIRADS 4a mass downgraded to BIRADS 3' if they were very or reasonably homogeneous).~Null hypothesis is that there is no difference between the two tests."||||<0.001
92226907|NCT01486199|184355795|EQUIVALENCE|alpha=0.05||||||0.87|||||||Wilcoxon (Mann-Whitney)|||Comparing mucociliary clearance at t=0 and t=2yrs in pediatric CF subjects||||0.87
92226908|NCT02063035|184355796|SUPERIORITY|||||||0.1318|||||||Wilcoxon (Mann-Whitney)|||||||0.1318
92369145|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Max. elasticity specificity,conservative|0.657||||0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image specificity of the maximum elasticity using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if maximum elasticity was 160 kiloPascals (kPa) (7.3 m/sec) or more; BIRADS 4a mass downgraded to BIRADS 3' if the maximum elasticity was 30 kPa (3.2 m/sec) or less).~Null hypothesis is that there is no difference between the two tests."||||0.001
92226909|NCT03604445|184355802|OTHER||Probability of DLT rate in [0.16, 0.33)|0.0|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
92168335|NCT05119855|184226236|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.4|||||TWO_SIDED|95.0|1.01|1.93|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 45||1.93|1.01|
92226910|NCT03604445|184355802|OTHER||Probability of DLT rate in [0.16, 0.33)|0.0|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
92226911|NCT03604445|184355802|OTHER||Probability of DLT rate in [0.16, 0.33)|0.0|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
92226912|NCT03604445|184355802|OTHER||Probability of DLT rate in [0.16, 0.33)|0.0|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
92226913|NCT03604445|184355802|OTHER||Probability of DLT rate in [0.16, 0.33)|0.0|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
92226914|NCT03604445|184355802|OTHER||Probability of DLT rate in [0.16, 0.33)|0.003|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
92226915|NCT03604445|184355802|OTHER||Probability of DLT rate in [0.16, 0.33)|0.035|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0.001|||
92369146|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Max. elasticity specificity, aggressive|0.774|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image specificity of the maximum elasticity using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if maximum elasticity was 160 kPa(7.3 m/sec) or more; BIRADS 4a mass downgraded to BIRADS 3' if the maximum elasticity was 80 kPa (5.2 m/sec) or less).~Null hypothesis is that there is no difference between the two tests."||||<0.001
92369147|NCT00716482|184643384|SUPERIORITY_OR_OTHER||median mean elasticity value specificity|0.626||||0.18|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image median mean elasticity value.~Null hypothesis is that there is no difference between the two tests."||||0.18
92369148|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Diameter ratio specificity|0.512||||0.006|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image diameter ratio.~Null hypothesis is that there is no difference between the two tests."||||0.006
92369149|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Median elasticity ratio specificity|0.649||||0.006|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image median elasticity ratio.~Null hypothesis is that there is no difference between the two tests."||||0.006
92369150|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Max.color scale specificity,conservative|0.703|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image specificity of color using a six-point color scale of maximum elasticity in the mass and surrounding parenchyma using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if the max stiffness on the color overlay SW elastographic image was red; BIRADS 4a mass downgraded to BIRADS 3' if the max stiffness on the color overlay SW elastographic image was black to dark blue).~Null hypothesis is that there is no difference between the two tests."||||<0.001
92369151|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Max. color scale specificity, aggressive|0.785|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05~Overall specificity = 78.5%"|McNemar|||"Elastography image specificity of color using a six-point color scale of maximum elasticity in the mass and surrounding parenchyma using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if the max stiffness on the color overlay SW elastographic image was red; BIRADS 4a mass downgraded to BIRADS 3' if the max stiffness on the color overlay SW elastographic image was black to dark blue, or light blue).~Null hypothesis is that there is no difference between the two tests."||||<0.001
92369152|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Lesion shape sensitivity|0.979||||0.48|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image lesion shape.~Null hypothesis is that there is no difference between the two tests."||||0.48
92168336|NCT05119855|184226236|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.45|||||TWO_SIDED|95.0|1.13|1.87|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 52||1.87|1.13|
92369153|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Lesion homogeneity sens, conservative|0.969||||0.74|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image sensitivity of the homogeneity of elasticity with the lesion and surrounding tissue using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if they were not homogeneous on the color overlay SW elastographic image; BIRADS 4a mass downgraded to BIRADS 3' if they were very homogeneous).~Null hypothesis is that there is no difference between the two tests."||||0.74
92369154|NCT00716482|184643384|SUPERIORITY_OR_OTHER||elasticity homogeneity,aggressive,sensit|0.962||||0.37|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image sensitivity of the homogeneity of elasticity with the lesion and surrounding tissue using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if they were not homogeneous on the color overlay SW elastographic image; BIRADS 4a mass downgraded to BIRADS 3' if they were very or reasonably homogeneous).~Null hypothesis is that there is no difference between the two tests."||||0.37
92369155|NCT00716482|184643384|SUPERIORITY_OR_OTHER||elasticity homegeneity,conservative,sens|0.99||||0.025|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05~Overall sensitivity = 99.0%"|McNemar|||"Elastography image sensitivity of the maximum elasticity using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if maximum elasticity was 160 kPa(7.3 m/sec) or more; BIRADS 4a mass downgraded to BIRADS 3' if the maximum elasticity was 30 kPa (3.2 m/sec) or less).~Null hypothesis is that there is no difference between the two tests."||||0.025
92369156|NCT00716482|184643384|SUPERIORITY_OR_OTHER||max. elasticity sensitivity,aggressive|0.972|||>|0.99|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image sensitivity of the maximum elasticity using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if maximum elasticity was 160 kPa(7.3 m/sec) or more; BIRADS 4a mass downgraded to BIRADS 3' if the maximum elasticity was 80 kPa (5.2 m/sec) or less).~Null hypothesis is that there is no difference between the two tests."||||>0.99
92369157|NCT00716482|184643384|SUPERIORITY_OR_OTHER||median mean elasticity value sensitivity|0.986||||0.046|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image median mean elasticity value.~Null hypothesis is that there is no difference between the two tests."||||0.046
92369158|NCT00716482|184643384|SUPERIORITY_OR_OTHER||diameter ratio sensitivity|0.99||||0.025|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image diameter ratio.~Null hypothesis is that there is no difference between the two tests."||||0.025
92369159|NCT00716482|184643384|SUPERIORITY_OR_OTHER||median elasticity ratio sensitivity|0.983||||0.083|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image median elasticity ratio.~Null hypothesis is that there is no difference between the two tests."||||0.083
92168337|NCT05119855|184226236|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.2|||||TWO_SIDED|95.0|0.91|1.58|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 58||1.58|0.91|
92168338|NCT05119855|184226237|OTHER|Geometric Mean Concentration (GMC) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-SARS-CoV-2 concentrations and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMC Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Concentration (GMC) Ratio|1.17|||||TWO_SIDED|95.0|0.99|1.4|||||GMC Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Concentration (GMC) Ratio||1.40|0.99|
92168339|NCT05489484|184226293|OTHER|Paired-sample t-test was used to assess the change in Constant-Murley Score from baseline to 3 months.|Mean Difference (Net)|10.03|STANDARD_ERROR_OF_MEAN|2.124||0.001|TWO_SIDED|95.0|3.63|16.0|||t-test, 2 sided||Mean change from baseline in CMS at 3 months. Higher scores represent better shoulder function. Positive difference indicates clinical improvement.|Statistical analysis was performed on 23 participants with valid Constant-Murley Score (CMS) data at both baseline and 3-month follow-up.||16.00|3.63|0.001
92168340|NCT02706717|184226317|SUPERIORITY||Mean Difference (Net)|-51.3||||0.6|TWO_SIDED|95.0|-246.0|143.9|||t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Visbiome ES mean minus placebo mean.|||143.9|-246|0.60
92168341|NCT02706717|184226323|SUPERIORITY||Mean Difference (Net)|0.042||||0.51|TWO_SIDED|95.0|-0.09|0.17|||t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Visbiome ES mean minus placebo mean.|||0.17|-0.09|0.51
92168342|NCT02706717|184226324|SUPERIORITY||Mean Difference (Net)|28.4||||0.09|TWO_SIDED|95.0|-3.6|71.0|||t-test, 2 sided|2-sample t-test with equal variance|"The estimation parameter is the percent difference between the geometric mean fold changes.~With d-dimer data log10 transformed, this is (exp(Visbiome ES mean minus placebo mean) - 1)\*100."|||71.0|-3.6|0.09
92168343|NCT02706717|184226327|SUPERIORITY||Mean Difference (Net)|-32.7||||0.29|TWO_SIDED|95.0|-93.5|28.2|||t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Visbiome ES mean minus placebo mean.|||28.2|-93.5|0.29
92226916|NCT03604445|184355802|OTHER||Probability of DLT rate in [0.16, 0.33)|0.176|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0.018|||
92226917|NCT03604445|184355802|OTHER||Probability of DLT rate in [0.16, 0.33)|0.129|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0.83|||
92226918|NCT02551159|184355845|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.787|TWO_SIDED|95.0|0.69|1.32||2 sided|Log Rank|||Statistical analysis of number of deaths||1.32|0.69|0.787
92226919|NCT02551159|184355847|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.634|TWO_SIDED|95.0|0.8|1.39||2 sided|Log Rank|||||1.39|0.80|0.634
92226920|NCT02551159|184355849|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.287|TWO_SIDED|95.0|0.94|1.8||2 sided|Log Rank|||||1.80|0.94|0.287
92226921|NCT02551159|184355849|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.028|TWO_SIDED|95.0|0.99|1.76||2 sided|Log Rank|||||1.76|0.99|0.028
92226922|NCT02551159|184355850|SUPERIORITY||Odds Ratio (OR)|0.19|||<|0.001|TWO_SIDED|95.0|0.1|0.37||2 sided|Regression, Logistic|||Statistical analysis of number with a response||0.37|0.10|<0.001
92226923|NCT02551159|184355850|SUPERIORITY||Odds Ratio (OR)|0.34|||<|0.001|TWO_SIDED|95.0|0.2|0.57||2 sided|Regression, Logistic|||Statistical analysis of number with a response||0.57|0.20|<0.001
92226924|NCT02551159|184355852|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.811|TWO_SIDED|95.0|0.83|1.27||2 sided|Log Rank|||Statistical analysis of number of deaths||1.27|0.83|0.811
92226925|NCT02551159|184355852|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.624|TWO_SIDED|95.0|0.87|1.25|||Log Rank|||Statistical analysis of number of deaths||1.25|0.87|0.624
92226926|NCT02551159|184355855|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.006|TWO_SIDED|95.0|1.1|1.68||2 sided|Log Rank|||||1.68|1.10|0.006
92226927|NCT02551159|184355855|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.008|TWO_SIDED|95.0|1.06|1.53||2 sided|Log Rank|||||1.53|1.06|0.008
92369160|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Max.color scale sensitivity,conservative|0.997||||0.008|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image sensitivity of color using a six-point color scale of maximum elasticity in the mass and surrounding parenchyma using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if the max stiffness on the color overlay SW elastographic image was red; BIRADS 4a mass downgraded to BIRADS 3' if the max stiffness on the color overlay SW elastographic image was black to dark blue).~Null hypothesis is that there is no difference between the two tests."||||0.008
92369161|NCT00716482|184643384|SUPERIORITY_OR_OTHER||Max. color scale sensitivity, aggressive|0.986||||0.21|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image sensitivity of color using a six-point color scale of maximum elasticity in the mass and surrounding parenchyma using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if the max stiffness on the color overlay SW elastographic image was red; BIRADS 4a mass downgraded to BIRADS 3' if the max stiffness on the color overlay SW elastographic image was black to dark blue, or light blue).~Null hypothesis is that there is no difference between the two tests."||||0.21
92369162|NCT00716482|184643385|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|Kruskal-Wallis one-way ANOVA. Kruskal-Wallis was performed once to get p-values for all of the 9 categories at once.||Null hypothesis: no variance of similarity exists between the three groups||||<0.001
92369163|NCT04855240|184643404|SUPERIORITY||LSM difference|-10.5|STANDARD_ERROR_OF_MEAN|7.61||0.1683|TWO_SIDED|95.0|-25.4|4.4|||ANOVA|||||4.4|-25.4|0.1683
92369164|NCT04855240|184643404|SUPERIORITY||LSM difference|1.6|STANDARD_ERROR_OF_MEAN|7.64||0.8356|TWO_SIDED|95.0|-13.4|16.6|||ANOVA|||||16.6|-13.4|0.8356
92369165|NCT04855240|184643405|SUPERIORITY||Hazard Ratio (HR)|0.831||||0.228|TWO_SIDED|95.0|0.598|1.155|||Log Rank|||||1.155|0.598|0.2280
92369166|NCT04855240|184643405|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.5604|TWO_SIDED|95.0|0.793|1.527|||Log Rank|||||1.527|0.793|0.5604
92369167|NCT04855240|184643406|SUPERIORITY||Risk Difference (RD)|0.11||||0.2457|TWO_SIDED|95.0|-0.05|0.26|||Cochran-Mantel-Haenszel|||||0.26|-0.05|0.2457
92226928|NCT02551159|184355856|SUPERIORITY||Odds Ratio (OR)|0.21|||<|0.001|TWO_SIDED|95.0|0.13|0.33||2 sided|Regression, Logistic|||||0.33|0.13|<0.001
92226929|NCT02551159|184355856|SUPERIORITY||Odds Ratio (OR)|0.29|||<|0.001|TWO_SIDED|95.0|0.2|0.41||2 sided|Regression, Logistic|||||0.41|0.20|<0.001
92226930|NCT01890421|184355877|SUPERIORITY||Sensitivity Difference|-0.7||||0.8694|ONE_SIDED|95.0|-8.5||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 1 for presence of a myocardial perfusion defect indicating significant cad per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - primary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 1.|||-8.5|0.8694
92226931|NCT01890421|184355877|SUPERIORITY||Sensitivity Difference|29.1|||<|0.0001|ONE_SIDED|95.0|21.7||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 2 for presence of a myocardial perfusion defect indicating significant cad per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - primary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 2.|||21.7|<0.0001
92369168|NCT04855240|184643406|SUPERIORITY||Risk Difference (RD)|-0.06||||0.3997|TWO_SIDED|95.0|-0.22|0.09|||Cochran-Mantel-Haenszel|||||0.09|-0.22|0.3997
92369169|NCT04855240|184643407|SUPERIORITY||Risk Difference (RD)|0.07||||0.4771|TWO_SIDED|95.0|-0.09|0.22|||Cochran-Mantel-Haenszel|||||0.22|-0.09|0.4771
92369170|NCT04855240|184643407|SUPERIORITY||Risk Difference (RD)|-0.09||||0.2925|TWO_SIDED|95.0|-0.24|0.06|||Cochran-Mantel-Haenszel|||||0.06|-0.24|0.2925
92226932|NCT01890421|184355877|SUPERIORITY||Sensitivity Difference|24.1|||<|0.0001|ONE_SIDED|95.0|16.6||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 3 for presence of a myocardial perfusion defect indicating significant cad per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - primary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 3.|||16.6|<0.0001
92226933|NCT01890421|184355878|SUPERIORITY||Sensitivity Difference]|7.4||||0.0455|ONE_SIDED|95.0|0.5||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 1 for presence of a myocardial perfusion defect indicating significant CAD per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - additional secondary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 1.|||0.5|0.0455
92226934|NCT01890421|184355878|SUPERIORITY||Sensitivity Difference]|34.3|||<|0.0001|ONE_SIDED|95.0|25.2||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 2 for presence of a myocardial perfusion defect indicating significant CAD per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - additional secondary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 2.|||25.2|<0.0001
92226935|NCT01890421|184355878|SUPERIORITY||Sensitivity Difference|30.6|||<|0.0001|ONE_SIDED|95.0|21.7||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 3 for presence of a myocardial perfusion defect indicating significant CAD per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - additional secondary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 3.|||21.7|<0.0001
92226936|NCT01890421|184355883|SUPERIORITY||Sensitivity Difference|27.9|||<|0.0001|TWO_SIDED|95.0|18.5|35.8|||McNemar 2-sided test,alpha level of 5%|||Statistical analysis 1 for presence of a myocardial perfusion defect indicating significant CAD per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - secondary analysis of sensitivity comparison based on investigator's assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI. Maximum stenosis severity at least \>=50% by QCA.||35.8|18.5|<0.0001
92226937|NCT01890421|184355883|SUPERIORITY||Sensitivity Difference|27.9|||<|0.0001|TWO_SIDED|95.0|19.9|34.4|||McNemar 2-sided test,alpha level of 10%|||Statistical analysis 2 for presence of a myocardial perfusion defect indicating significant CAD per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - secondary analysis of sensitivity comparison based on investigator's assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI. Maximum stenosis severity at least \>=50% by QCA.||34.4|19.9|<0.0001
92226938|NCT02105415|184355927|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.385|TWO_SIDED|95.0|-6.9|2.7|||ANCOVA|||5 minutes||2.7|-6.9|0.385
92226939|NCT02105415|184355927|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.241|TWO_SIDED|95.0|-10.8|2.8|||ANCOVA|||10 minutes||2.8|-10.8|0.241
92369171|NCT04855240|184643408|SUPERIORITY||Risk Difference (RD)|0.07||||0.4628|TWO_SIDED|95.0|-0.09|0.22|||Cochran-Mantel-Haenszel|||||0.22|-0.09|0.4628
92369172|NCT04855240|184643408|SUPERIORITY||Risk Difference (RD)|-0.09||||0.309|TWO_SIDED|95.0|-0.24|0.06|||Cochran-Mantel-Haenszel|||||0.06|-0.24|0.3090
92369173|NCT04855240|184643409|SUPERIORITY||LSM difference|-17.7|STANDARD_ERROR_OF_MEAN|15.36||0.2494|TWO_SIDED|95.0|-47.8|12.4|||ANOVA|||||12.4|-47.8|0.2494
92226940|NCT02105415|184355927|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.802|TWO_SIDED|95.0|-7.2|5.6|||ANCOVA|||15 minutes||5.6|-7.2|0.802
92226941|NCT02105415|184355928|SUPERIORITY|||||||0.605|||||||ANCOVA|||||||0.605
92226942|NCT02105415|184355929|SUPERIORITY|||||||0.212|||||||ANCOVA|||Pre-treatment||||0.212
92226943|NCT02105415|184355929|SUPERIORITY|||||||0.308|||||||ANCOVA|||New-onset pressors (within 3 minutes)||||0.308
92226944|NCT02105415|184355929|SUPERIORITY|||||||0.691|||||||ANCOVA|||Delayed-onset pressors (within 24 hrs)||||0.691
92226945|NCT02105415|184355931|SUPERIORITY|||||||0.911|||||||ANCOVA|||||||0.911
92226946|NCT02105415|184355932|SUPERIORITY|||||||0.069|||||||ANCOVA|||Red blood cell||||0.069
92226947|NCT02105415|184355932|SUPERIORITY|||||||0.046|||||||ANCOVA|||Non-red blood cell||||0.046
92226948|NCT02105415|184355932|SUPERIORITY|||||||0.502|||||||ANCOVA|||Colloid||||0.502
92369174|NCT04855240|184643409|SUPERIORITY||LSM difference|5.1|STANDARD_ERROR_OF_MEAN|15.42||0.7385|TWO_SIDED|95.0|-25.1|35.4|||ANOVA|||||35.4|-25.1|0.7385
92369175|NCT04855240|184643410|SUPERIORITY||LSM difference|-22.6|STANDARD_ERROR_OF_MEAN|22.91||0.3238|TWO_SIDED|95.0|-67.5|22.3|||ANOVA|||||22.3|-67.5|0.3238
92369176|NCT04855240|184643410|SUPERIORITY||LSM difference|7.8|STANDARD_ERROR_OF_MEAN|22.99||0.7344|TWO_SIDED|95.0|-37.3|52.9|||ANOVA|||||52.9|-37.3|0.7344
92369177|NCT04855240|184643411|SUPERIORITY||LSM difference|-0.3|STANDARD_ERROR_OF_MEAN|1.72||0.8489|TWO_SIDED|95.0|-3.7|3.0|||ANOVA|||||3.0|-3.7|0.8489
92369178|NCT04855240|184643411|SUPERIORITY||LSM difference|1.9|STANDARD_ERROR_OF_MEAN|1.72||0.2768|TWO_SIDED|95.0|-1.5|5.3|||ANOVA|||||5.3|-1.5|0.2768
92369179|NCT04855240|184643412|SUPERIORITY||LSM difference|-1.2|STANDARD_ERROR_OF_MEAN|2.54||0.6291|TWO_SIDED|95.0|-6.2|3.8|||ANOVA|||||3.8|-6.2|0.6291
92369180|NCT04855240|184643412|SUPERIORITY||LSM difference|2.5|STANDARD_ERROR_OF_MEAN|2.55||0.3182|TWO_SIDED|95.0|-2.5|7.5|||ANOVA|||||7.5|-2.5|0.3182
92369181|NCT04855240|184643413|SUPERIORITY||LSM difference|-4.2|STANDARD_ERROR_OF_MEAN|4.35||0.3299|TWO_SIDED|95.0|-12.8|4.3|||ANOVA|||||4.3|-12.8|0.3299
92369182|NCT04855240|184643413|SUPERIORITY||LSM difference|0.6|STANDARD_ERROR_OF_MEAN|4.37||0.8822|TWO_SIDED|95.0|-7.9|9.2|||ANOVA|||||9.2|-7.9|0.8822
92369183|NCT04855240|184643414|SUPERIORITY||LSM difference|-7.1|STANDARD_ERROR_OF_MEAN|8.62||0.4094|TWO_SIDED|95.0|-24.0|9.8|||ANOVA|||||9.8|-24.0|0.4094
92369184|NCT04855240|184643414|SUPERIORITY||LSM difference|3.4|STANDARD_ERROR_OF_MEAN|8.65||0.6901|TWO_SIDED|95.0|-13.5|20.4|||ANOVA|||||20.4|-13.5|0.6901
92168344|NCT02706717|184226328|SUPERIORITY||Mean Difference (Net)|-0.02||||0.41|TWO_SIDED|95.0|-0.08|0.04|||t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Visbiome ES mean minus placebo mean.|||0.04|-0.08|0.41
92168345|NCT02706717|184226345|SUPERIORITY|||||||0.15|||||||Kruskal-Wallis|||||||0.15
92168346|NCT00444600|184226347|SUPERIORITY_OR_OTHER_LEGACY||Difference in mean change|-55.0|||<|0.001|TWO_SIDED|95.0|-78.0|-32.0||Confidence intervals are adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline retinal thickness and visual acuity and correlation between two study eyes.||Difference in central subfield thickness mean change from sham+prompt laser||-32|-78|<0.001
92168347|NCT00444600|184226347|SUPERIORITY_OR_OTHER_LEGACY||Difference in mean change|-49.0|||<|0.001|TWO_SIDED|95.0|-72.0|-26.0||Confidence intervals are adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline retinal thickness and visual acuity and correlation between two study eyes.||Difference in optical coherence tomography central subfield thickness mean change from sham+prompt laser||-26|-72|<0.001
92168348|NCT00444600|184226347|SUPERIORITY_OR_OTHER_LEGACY||Difference in mean change|-52.0|||<|0.001|TWO_SIDED|95.0|-75.0|-29.0||Confidence interval is adjusted for multiple comparisons|ANCOVA|Adjusted for baseline retinal thickness and visual acuity and correlation between two study eyes.||Difference in optical coherence tomography central subfield thickness mean change from sham+prompt laser||-29|-75|<0.001
92168349|NCT00444600|184226349|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.8|||<|0.001|TWO_SIDED|95.0|3.2|8.5||Adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline visual acuity and correlation between 2 study eyes.||||8.5|3.2|<0.001
92168350|NCT00444600|184226349|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.0|||<|0.001|TWO_SIDED|95.0|3.4|8.6||Adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline visual acuity and correlation between 2 study eyes.||||8.6|3.4|<0.001
92168351|NCT00444600|184226349|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.31|TWO_SIDED|95.0|-1.5|3.7||Adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline visual acuity and correlation between 2 study eyes.||||3.7|-1.5|0.31
92226949|NCT02105415|184355933|SUPERIORITY|||||||0.994|||||||ANCOVA|||||||0.994
92226950|NCT02105415|184355934|SUPERIORITY|||||||0.233|||||||ANCOVA|||||||0.233
92226951|NCT00695565|184355997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.168|TWO_SIDED|95.0|||||Mixed Models Analysis|||This analysis does not take into account the subjects' screening capsaicin response (measure of nociceptor function).||||0.168
92226952|NCT00695565|184355997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.014|TWO_SIDED|95.0|||||Mixed Models Analysis|||"Each subject was screened for responsiveness of nociceptors in the skin to a capsaicin stimulus (rated on 0-10 pain scale; 0=no pain and 10=worst possible pain). The interaction term composed of treatment assignment and capsaicin threshold was examined at the prespecified alpha level of 0.1.~This analysis includes subjects with a capsaicin rating of ≥ 2. Thirty (30) subjects in the Placebo group and 33 subjects in the active Clonidine Topical Gel (ARC-4558) group had capsaicin scores ≥ 2."||||0.014
92369185|NCT04855240|184643415|SUPERIORITY||LSM difference|-5.1|STANDARD_ERROR_OF_MEAN|8.59||0.5536|TWO_SIDED|95.0|-21.9|11.7|||ANOVA|||||11.7|-21.9|0.5536
92369186|NCT04855240|184643415|SUPERIORITY||LSM difference|2.4|STANDARD_ERROR_OF_MEAN|8.64||0.7811|TWO_SIDED|95.0|-14.5|19.3|||ANOVA|||||19.3|-14.5|0.7811
92369187|NCT04855240|184643416|SUPERIORITY||LSM difference|-0.2|STANDARD_ERROR_OF_MEAN|0.29||0.5267|TWO_SIDED|95.0|-0.8|0.4|||ANOVA|||||0.4|-0.8|0.5267
92168352|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|23.0|||||TWO_SIDED|95.0|13.0|34.0||Confidence intervals are adjusted for multiple comparisons.|Binomial regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter improvement for sham+prompt laser at 1 year||34|13|
92168353|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|19.0|||||TWO_SIDED|95.0|9.0|29.0||Confidence intervals adjusted for multiple comparisons|Binomial regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter improvement from sham+prompt laser at 1 year||29|9|
92226953|NCT01462266|184356011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.009|TWO_SIDED|95.0|-8.3|-1.2|||Longitudinal data analysis|Adjusting for participant's use of metformin at Visit 1/Screening Visit (i.e., on metformin, or not on metformin)||||-1.2|-8.3|0.009
92226954|NCT01106846|184356016|SUPERIORITY_OR_OTHER|||||||0.947|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.947
92226955|NCT00644787|184356019|NON_INFERIORITY_OR_EQUIVALENCE|Difference of 7.5 mm in VAS score was selected as the threshold value for clinical non-inferiority of Fentanyl 1-day transdermal patch to Fentanyl 3-day transdermal patch.|Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-3.5|6.23||||||||6.23|-3.50|
92226956|NCT01680900|184356033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.06||||0.05|TWO_SIDED|95.0|-2.6|-0.48|||Regression, Linear|||||-0.48|-2.60|0.05
92226957|NCT01680900|184356034|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92226958|NCT01680900|184356035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||<|0.05|TWO_SIDED|95.0|-0.75|-0.08|||Regression, Linear|||||-0.08|-0.75|<0.05
92226959|NCT01680900|184356039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.05|TWO_SIDED|95.0|-0.74|-0.21|||Regression, Linear|||||-0.21|-0.74|0.05
92369188|NCT04855240|184643416|SUPERIORITY||LSM difference|0.3|STANDARD_ERROR_OF_MEAN|0.29||0.3228|TWO_SIDED|95.0|-0.3|0.9|||ANOVA|||||0.9|-0.3|0.3228
92369189|NCT04855240|184643417|SUPERIORITY||LSM difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.7617|TWO_SIDED|95.0|-0.5|0.4|||ANOVA|||||0.4|-0.5|0.7617
92369190|NCT04855240|184643417|SUPERIORITY||LSM difference|0.1|STANDARD_ERROR_OF_MEAN|0.24||0.6241|TWO_SIDED|95.0|-0.4|0.6|||ANOVA|||||0.6|-0.4|0.6241
92369191|NCT04855240|184643418|SUPERIORITY||LSM difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.3442|TWO_SIDED|95.0|-0.5|0.2|||ANOVA|||||0.2|-0.5|0.3442
92369192|NCT04855240|184643418|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.7896|TWO_SIDED|95.0|-0.3|0.4|||ANOVA|||||0.4|-0.3|0.7896
92369193|NCT04855240|184643419|SUPERIORITY||LSM difference|-0.3|STANDARD_ERROR_OF_MEAN|0.49||0.6003|TWO_SIDED|95.0|-1.2|0.7|||ANOVA|||||0.7|-1.2|0.6003
92369194|NCT04855240|184643419|SUPERIORITY||LSM difference|0.4|STANDARD_ERROR_OF_MEAN|0.49||0.4086|TWO_SIDED|95.0|-0.6|1.4|||ANOVA|||||1.4|-0.6|0.4086
92369195|NCT04855240|184643420|SUPERIORITY||LSM difference|-0.4|STANDARD_ERROR_OF_MEAN|0.61||0.4958|TWO_SIDED|95.0|-1.6|0.8|||ANOVA|||||0.8|-1.6|0.4958
92369196|NCT04855240|184643420|SUPERIORITY||LSM difference|0.5|STANDARD_ERROR_OF_MEAN|0.61||0.4595|TWO_SIDED|95.0|-0.8|1.7|||ANOVA|||||1.7|-0.8|0.4595
92226960|NCT03048422|184356040|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|6.5|||||TWO_SIDED|95.0|2.0|10.7||||||Difference in proportions for intention-to-treat analysis.||10.7|2.0|
92369197|NCT04855240|184643421|SUPERIORITY||Risk Difference (RD)|0.08||||0.1686|TWO_SIDED|95.0|-0.04|0.19|||Cochran-Mantel-Haenszel|||||0.19|-0.04|0.1686
92369198|NCT04855240|184643421|SUPERIORITY||Risk Difference (RD)|0.0||||0.8333|TWO_SIDED|95.0|-0.1|0.11|||Cochran-Mantel-Haenszel|||||0.11|-0.10|0.8333
92369199|NCT04855240|184643422|SUPERIORITY||Risk Difference (RD)|0.09||||0.1939|TWO_SIDED|95.0|-0.02|0.2|||Cochran-Mantel-Haenszel|||||0.20|-0.02|0.1939
92369200|NCT04855240|184643422|SUPERIORITY||Risk Difference (RD)|0.0||||0.9595|TWO_SIDED|95.0|-0.1|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.10|0.9595
92369201|NCT04855240|184643423|SUPERIORITY||Risk Difference (RD)|0.09||||0.1894|TWO_SIDED|95.0|-0.02|0.2|||Cochran-Mantel-Haenszel|||||0.20|-0.02|0.1894
92369202|NCT04855240|184643423|SUPERIORITY||Risk Difference (RD)|0.0||||0.9595|TWO_SIDED|95.0|-0.1|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.10|0.9595
92369203|NCT04855240|184643424|SUPERIORITY||Risk Difference (RD)|0.09||||0.7117|TWO_SIDED|95.0|-0.06|0.24|||Cochran-Mantel-Haenszel|||||0.24|-0.06|0.7117
92369204|NCT04855240|184643424|SUPERIORITY||Risk Difference (RD)|-0.04||||0.7599|TWO_SIDED|95.0|-0.19|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.19|0.7599
92369205|NCT04855240|184643425|SUPERIORITY||Risk Difference (RD)|0.0||||0.707|TWO_SIDED|95.0|-0.16|0.16|||Cochran-Mantel-Haenszel|||||0.16|-0.16|0.7070
92369206|NCT04855240|184643425|SUPERIORITY||Risk Difference (RD)|-0.04||||0.6877|TWO_SIDED|95.0|-0.2|0.12|||Cochran-Mantel-Haenszel|||||0.12|-0.20|0.6877
92369207|NCT04855240|184643426|SUPERIORITY||Risk Difference (RD)|-0.07||||0.869|TWO_SIDED|95.0|-0.22|0.07|||Cochran-Mantel-Haenszel|||||0.07|-0.22|0.8690
92369208|NCT04855240|184643426|SUPERIORITY||Risk Difference (RD)|-0.04||||0.379|TWO_SIDED|95.0|-0.19|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.19|0.3790
92369209|NCT04855240|184643427|SUPERIORITY||LSM difference|5.9|STANDARD_ERROR_OF_MEAN|3.49||0.0897|TWO_SIDED|95.0|-0.9|12.8|||ANOVA|||||12.8|-0.9|0.0897
92369210|NCT04855240|184643427|SUPERIORITY||LSM difference|-0.2|STANDARD_ERROR_OF_MEAN|3.5||0.9434|TWO_SIDED|95.0|-7.1|6.7|||ANOVA|||||6.7|-7.1|0.9434
92369211|NCT04855240|184643428|SUPERIORITY||Risk Difference (RD)|0.09||||0.8355|TWO_SIDED|95.0|-0.04|0.21|||Cochran-Mantel-Haenszel|||||0.21|-0.04|0.8355
92369212|NCT04855240|184643428|SUPERIORITY||Risk Difference (RD)|0.02||||0.3561|TWO_SIDED|95.0|-0.12|0.15|||Cochran-Mantel-Haenszel|||||0.15|-0.12|0.3561
92369213|NCT04855240|184643429|SUPERIORITY||Risk Difference (RD)|0.04||||0.9413|TWO_SIDED|95.0|-0.06|0.13|||Cochran-Mantel-Haenszel|||||0.13|-0.06|0.9413
92369214|NCT04855240|184643429|SUPERIORITY||Risk Difference (RD)|-0.04||||0.7819|TWO_SIDED|95.0|-0.15|0.07|||Cochran-Mantel-Haenszel|||||0.07|-0.15|0.7819
92369215|NCT04855240|184643430|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.8461|TWO_SIDED|95.0|-0.5|0.4|||ANOVA|||||0.4|-0.5|0.8461
92369216|NCT04855240|184643430|SUPERIORITY||LSM difference|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1727|TWO_SIDED|95.0|-0.1|0.7|||ANOVA|||||0.7|-0.1|0.1727
92369217|NCT04855240|184643431|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.9022|TWO_SIDED|95.0|-0.4|0.5|||ANOVA|||||0.5|-0.4|0.9022
92226961|NCT03048422|184356040|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|6.0|||||TWO_SIDED|95.0|1.6|10.3||||||Difference in proportions for per-protocol analysis.||10.3|1.6|
92369218|NCT04855240|184643431|SUPERIORITY||LSM difference|0.3|STANDARD_ERROR_OF_MEAN|0.23||0.245|TWO_SIDED|95.0|-0.2|0.7|||ANOVA|||||0.7|-0.2|0.2450
92369219|NCT04855240|184643432|SUPERIORITY||LSM difference|0.2|STANDARD_ERROR_OF_MEAN|0.4205||0.4205|TWO_SIDED|95.0|-0.2|0.6|||ANOVA|||||0.6|-0.2|0.4205
92369220|NCT04855240|184643432|SUPERIORITY||LSM difference|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.4336|TWO_SIDED|95.0|-0.2|0.6|||ANOVA|||||0.6|-0.2|0.4336
92369221|NCT04855240|184643433|SUPERIORITY||LSM difference|0.2|STANDARD_ERROR_OF_MEAN|0.22||0.2718|TWO_SIDED|95.0|-0.2|0.7|||ANOVA|||||0.7|-0.2|0.2718
92226962|NCT03048422|184356040|SUPERIORITY||Risk Difference (RD)|6.5||||0.005|TWO_SIDED|95.0|2.0|10.7|||Wald test of two proportions|||Difference in proportions for superiority and intention-to-treat analysis.||10.7|2.0|0.005
92226963|NCT03048422|184356041|SUPERIORITY||Risk Difference (RD)|-8.8||||0.043|TWO_SIDED|95.0|-17.3|-0.3|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - DTG+FTC/TDF).||-0.3|-17.3|0.043
92226964|NCT03048422|184356041|SUPERIORITY||Risk Difference (RD)|0.2||||0.97|TWO_SIDED|95.0|-8.8|9.1|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TDF - EFV/FTC/TDF).||9.1|-8.8|0.97
92369222|NCT04855240|184643433|SUPERIORITY||LSM difference|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1727|TWO_SIDED|95.0|-0.1|0.7|||ANOVA|||||0.7|-0.1|0.1727
92369223|NCT00244725|184643445|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.45||||0.012|TWO_SIDED|95.0|1.1|1.9|||Fisher Exact|||||1.9|1.1|0.012
92369224|NCT00244725|184643445|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.42||||0.017|TWO_SIDED|95.0|1.1|1.9|||Fisher Exact|||||1.9|1.1|0.017
92369225|NCT00244725|184643445|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.32||||0.08|TWO_SIDED|95.0|1.0|1.8|||Fisher Exact|||||1.8|1.0|0.080
92369226|NCT04004221|184643459|OTHER||||||<|0.0001|||||||Exact Binomial Test|1-sided p-value was based on binomial exact test of Tislelizumab versus historical rate of 0.1||||||< 0.0001
92369227|NCT03423238|184643472|SUPERIORITY|||||||0.388|||||||t-test, 2 sided|||Baseline||||0.388
92369228|NCT03423238|184643473|SUPERIORITY|||||||0.017|||||||ANCOVA|||Month 3||||0.017
92369229|NCT03423238|184643473|SUPERIORITY|||||||0.002|||||||ANCOVA|||Month 6||||0.002
92369230|NCT03423238|184643474|SUPERIORITY|||||||0.653|||||||t-test, 2 sided|||Baseline||||0.653
92369231|NCT03423238|184643475|SUPERIORITY|||||||0.684|||||||ANCOVA|||Month 3||||0.684
92369232|NCT03423238|184643475|SUPERIORITY|||||||0.458|||||||ANCOVA|||Month 6||||0.458
92369233|NCT03423238|184643476|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Baseline||||0.550
92369234|NCT03423238|184643477|SUPERIORITY|||||||0.973|||||||ANCOVA|||Month 3||||0.973
92369235|NCT03423238|184643477|SUPERIORITY|||||||0.432|||||||ANCOVA|||Month 6||||0.432
92168354|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|6.0|||||TWO_SIDED|95.0|-4.0|16.0||Confidence intervals adjusted for multiple comparisons|Binomial regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter improvement from sham+prompt laser at 1 year||16|-4|
92168355|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.84|||<|0.001|TWO_SIDED|95.0|1.4|2.42||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥10 letter improvement comparison with sham+prompt laser at 1 year||2.42|1.40|<0.001
92168356|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.68|||<|0.001|TWO_SIDED|95.0|1.27|2.21||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥10 letter improvement comparison with sham+prompt laser at 1 year||2.21|1.27|<0.001
92168357|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.21||||0.16|TWO_SIDED|95.0|0.88|1.66||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.|Eyes were analyzed.|Relative risk for ≥10 letter improvement comparison with sham+prompt laser at 1 year||1.66|0.88|0.16
92168358|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|-10.0|||||TWO_SIDED|95.0|-16.0|-5.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter worsening from sham+prompt laser at 1 year||-5|-16|
92168359|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|-10.0|||||TWO_SIDED|95.0|-16.0|-4.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter worsening from sham+prompt laser at 1 year||-4|-16|
92168360|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|1.0|||||TWO_SIDED|95.0|-7.0|9.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter worsening from sham+prompt laser at 1 year||9|-7|
92168361|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.24|||<|0.001|TWO_SIDED|95.0|0.09|0.65||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥10 letter worsening comparison with sham+prompt laser at 1 year||0.65|0.09|<0.001
92168362|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.24||||0.001|TWO_SIDED|95.0|0.08|0.68||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥10 letter worsening comparison with sham+prompt laser at 1 year||0.68|0.08|0.001
92168363|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.08||||0.75|TWO_SIDED|95.0|0.62|1.87||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥10 letter worsening comparison with sham+prompt laser at 1 year||1.87|0.62|0.75
92168364|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|16.0|||||TWO_SIDED|95.0|6.0|26.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between to study eyes.||Difference in proportion with ≥15 letter improvement from sham+prompt laser at 1 year||26|6|
92168365|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|13.0|||||TWO_SIDED|95.0|4.0|22.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥15 letter improvement from sham+prompt laser at 1 year||22|4|
92168366|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|6.0|||||TWO_SIDED|95.0|-2.0|15.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥15 letter improvement from sham+prompt laser at 1 year||15|-2|
92168367|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.09|||<|0.001|TWO_SIDED|95.0|1.35|3.22|||Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter improvement comparison with sham+prompt laser at 1 year||3.22|1.35|<0.001
92168368|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.89|||<|0.001|TWO_SIDED|95.0|1.25|2.87||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter improvement comparison with sham+prompt laser at 1 year||2.87|1.25|<0.001
92168369|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.43||||0.07|TWO_SIDED|95.0|0.9|2.29||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter improvement comparison with sham+prompt laser at 1 year||2.29|0.90|0.07
92168370|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|-6.0|||||TWO_SIDED|95.0|-11.0|-2.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥15 letter worsening from sham+prompt laser at 1 year||-2|-11|
92168371|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|-6.0|||||TWO_SIDED|95.0|-10.0|-1.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥15 letter worsening from sham+prompt laser at 1 year||-1|-10|
92168372|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Proportion|0.0|||||TWO_SIDED|95.0|-6.0|6.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥15 letter worsening from sham+prompt laser at 1 year||6|-6|
92168373|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.21||||0.009|TWO_SIDED|95.0|0.05|0.87|||Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter worsening comparison with sham+prompt laser at 1 year||0.87|0.05|0.009
92168374|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.28||||0.01|TWO_SIDED|95.0|0.08|0.97|||Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter worsening comparison with sham+prompt laser at 1 year||0.97|0.08|0.01
92226965|NCT03048422|184356041|SUPERIORITY||Risk Difference (RD)|-8.6||||0.047|TWO_SIDED|95.0|-17.1|-0.1|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - EFV/FTC/TDF).||-0.1|-17.1|0.047
92226966|NCT03048422|184356042|SUPERIORITY||Risk Difference (RD)|-5.6||||0.098|TWO_SIDED|95.0|-14.2|2.9|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TAF - DTG+FTC/TDF).||2.9|-14.2|0.098
92226967|NCT03048422|184356042|SUPERIORITY||Risk Difference (RD)|2.6||||0.26|TWO_SIDED|95.0|-5.9|11.7|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TDF-EFV/FTC/TDF).||11.7|-5.9|0.26
92226968|NCT03048422|184356042|SUPERIORITY||Risk Difference (RD)|-2.8||||0.26|TWO_SIDED|95.0|-11.3|5.8|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TAF-EFV/FTC/TDF).||5.8|-11.3|0.26
92226969|NCT03048422|184356043|SUPERIORITY||Risk Difference (RD)|-3.2||||0.25|TWO_SIDED|95.0|-12.8|6.3|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimated difference of DTG+FTC/TAF - DTG+FTC/TDF.||6.3|-12.8|0.25
92226970|NCT03048422|184356043|SUPERIORITY||Risk Difference (RD)|-2.3||||0.32|TWO_SIDED|95.0|-12.1|7.5|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimate of risk difference DTG+FTC/TDF-EFV/FTC/TDF.||7.5|-12.1|0.32
92226971|NCT03048422|184356043|SUPERIORITY||Risk Difference (RD)|-5.5||||0.11|TWO_SIDED|95.0|-14.3|3.2|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimate of risk difference DTG+FTC/TAF-EFV/FTC/TDF.||3.2|-14.3|0.11
92226972|NCT03048422|184356044|SUPERIORITY||Risk Difference (RD)|15.6|||<|0.0001|TWO_SIDED|95.0|9.3|22.0|||Wald test of two proportions|||Difference in proportions between arms for intention-to-treat analysis with null hypothesis of no difference (DTG groups - EFV/FTC/TDF).||22.0|9.3|< 0.0001
92226973|NCT03048422|184356045|SUPERIORITY||Risk Difference (RD)|-0.1||||0.97|TWO_SIDED|95.0|-3.3|3.2|||Wald test of two proportions|||Difference in proportions for intention-to-treat analysis with null hypothesis of no difference between arms (DTG arms - EFV/FTC/TDF).||3.2|-3.3|0.97
92226974|NCT03048422|184356046|SUPERIORITY||Hazard Ratio (HR)|2.4|||<|0.001|TWO_SIDED|95.0|1.9|3.1|||Kaplan-Meier|||||3.1|1.9|< 0.001
92226975|NCT03048422|184356047|SUPERIORITY||Risk Difference (RD)|3.6||||0.19|TWO_SIDED|95.0|-1.8|9.1|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TAF - DTG+FTC/TDF).||9.1|-1.8|0.19
92226976|NCT03048422|184356047|SUPERIORITY||Risk Difference (RD)|-11.5|||<|0.001|TWO_SIDED|95.0|-17.9|-5.2|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TDF - EFV/FTC/TDF).||-5.2|-17.9|< 0.001
92226977|NCT03048422|184356047|SUPERIORITY||Risk Difference (RD)|-7.9||||0.022|TWO_SIDED|95.0|-14.6|-1.2|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TAF - EFV/FTC/TDF).||-1.2|-14.6|0.022
92226978|NCT03048422|184356048|SUPERIORITY||Risk Difference (RD)|2.1||||0.61|TWO_SIDED|95.0|-5.9|10.1|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TAF - DTG+FTC/TDF).||10.1|-5.9|0.61
92226979|NCT03048422|184356048|SUPERIORITY||Risk Difference (RD)|-1.4||||0.74|TWO_SIDED|95.0|-9.4|6.6|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TDF - EFV/FTC/TDF).||6.6|-9.4|0.74
92226980|NCT03048422|184356048|SUPERIORITY||Risk Difference (RD)|0.7||||0.86|TWO_SIDED|95.0|-7.4|8.8|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TAF - EFV/FTC/TDF).||8.8|-7.4|0.86
92226981|NCT03048422|184356049|SUPERIORITY||Risk Difference (RD)|4.3||||0.27|TWO_SIDED|95.0|-3.4|11.9|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG groups - EFV/FTC/TDF).||11.9|-3.4|0.27
92226982|NCT03048422|184356050|SUPERIORITY||Risk Difference (RD)|-0.1||||0.49|TWO_SIDED|95.0|-7.6|7.5|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimate of risk difference combined DTG arms-EFV/FTC/TDF.||7.5|-7.6|0.49
92226983|NCT03048422|184356051|SUPERIORITY||Risk Difference (RD)|4.1||||0.15|TWO_SIDED|95.0|-3.8|12.0|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimated difference of combined DTG arms - EFV/FTC/TDF.||12.0|-3.8|0.15
92226984|NCT03048422|184356052|SUPERIORITY||Risk Difference (RD)|-8.8||||0.043|TWO_SIDED|95.0|-17.3|-0.3|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - DTG+FTC/TDF).||-0.3|-17.3|0.043
92226985|NCT03048422|184356052|SUPERIORITY||Risk Difference (RD)|-0.3||||0.95|TWO_SIDED|95.0|-9.3|8.6|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TDF - EFV/FTC/TDF).||8.6|-9.3|0.95
92226986|NCT03048422|184356052|SUPERIORITY||Risk Difference (RD)|-9.1||||0.037|TWO_SIDED|95.0|-17.6|-0.6|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - EFV/FTC/TDF).||-0.6|-17.6|0.037
92226987|NCT03048422|184356053|SUPERIORITY||Odds Ratio (OR)|0.73||||0.095|TWO_SIDED|95.0|0.5|1.06|||Regression, Ordinal|||Null hypothesis of odds ratio equal to 1, with odds of experiencing a worse outcome equal between groups (DTG+FTC/TAF - DTG+FTC/TDF).||1.06|0.50|0.095
92226988|NCT03048422|184356053|SUPERIORITY||Odds Ratio (OR)|0.83||||0.3|TWO_SIDED|95.0|0.58|1.19|||Regression, Ordinal|||Null hypothesis of odds ratio equal to 1, with odds of experiencing a worse outcome equal between groups (DTG+FTC/TDF - EFV/FTC/TDF).||1.19|0.58|0.30
92168375|NCT00444600|184226350|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.02||||0.95|TWO_SIDED|95.0|0.47|2.2|||Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter worsening comparison with sham+prompt laser at 1 year||2.20|0.47|0.95
92226989|NCT03048422|184356053|SUPERIORITY||Odds Ratio (OR)|0.6||||0.008|TWO_SIDED|95.0|0.42|0.88|||Regression, Ordinal|||Null hypothesis of odds ratio equal to 1, with odds of experiencing a worse outcome equal between groups (DTG+FTC/TAF - EFV/FTC/TDF).||0.88|0.42|0.008
92226990|NCT03048422|184356054|SUPERIORITY||Risk Difference (RD)|0.5||||0.28|TWO_SIDED|95.0|-1.2|2.1|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TAF - DTG+FTC/TDF).||2.1|-1.2|0.28
92226991|NCT03048422|184356054|SUPERIORITY||Risk Difference (RD)|-0.1||||0.47|TWO_SIDED|95.0|-1.5|1.4|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TDF - EFV/FTC/TDF).||1.4|-1.5|0.47
92226992|NCT03048422|184356054|SUPERIORITY||Risk Difference (RD)|0.4||||0.31|TWO_SIDED|95.0|-1.3|2.2|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TAF - EFV/FTC/TDF).||2.2|-1.3|0.31
92369236|NCT03423238|184643478|SUPERIORITY|||||||0.23063|||||||t-test, 2 sided|||Baseline||||0.23063
92168376|NCT00444600|184226351|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.0|||<|0.001|TWO_SIDED|95.0|1.52|2.64||Confidence intervals are adjusted for multiple comparisons.|Regression, Logistic|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for comparison with sham+prompt laser||2.64|1.52|<0.001
92168377|NCT00444600|184226351|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.55||||0.001|TWO_SIDED|95.0|1.13|2.13||Confidence intervals adjusted for multiple comparisons|Regression, Logistic|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for comparison with sham+prompt laser||2.13|1.13|0.001
92168378|NCT00444600|184226351|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.76|||<|0.001||95.0|1.31|2.36||Confidence intervals adjusted for multiple comparisons.|Regression, Logistic|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for comparison with sham+prompt laser||2.36|1.31|<0.001
92226993|NCT03048422|184356055|SUPERIORITY|The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimated difference of DTG+FTC/TAF - DTG+FTC/TDF.|Risk Difference (RD)|-1.0||||0.2|TWO_SIDED|95.0|-3.4|1.3|||Z-test|||||1.3|-3.4|0.20
92226994|NCT03048422|184356055|SUPERIORITY||Risk Difference (RD)|-4.9||||0.008|TWO_SIDED|95.0|-8.9|-0.9|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimate of risk difference DTG+FTC/TDF-EFV/FTC/TDF.||-0.9|-8.9|0.008
92369237|NCT03423238|184643479|SUPERIORITY|||||||0.854|||||||ANCOVA|||Month 3||||0.854
92168379|NCT00444600|184226361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||95.0|||||GEE repeated measures|||P value for comparison with sham||||0.08
92168380|NCT00444600|184226361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||GEE repeated measures|||P value for comparison with sham||||0.17
92168381|NCT00444600|184226362|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||GEE repeated measures|||P value for comparison with sham||||0.03
92168382|NCT00444600|184226362|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||GEE repeated measures|||P value for comparison with sham||||0.17
92369238|NCT03423238|184643479|SUPERIORITY|||||||0.874|||||||ANCOVA|||Month 6||||0.874
92369239|NCT03423238|184643480|SUPERIORITY|||||||0.563|||||||t-test, 2 sided|||Baseline||||0.563
92369240|NCT03423238|184643481|SUPERIORITY|||||||0.008|||||||ANCOVA|||Month 3||||0.008
92369241|NCT03423238|184643481|SUPERIORITY|||||||0.922|||||||ANCOVA|||Month 6||||0.922
92369242|NCT03423238|184643482|SUPERIORITY|||||||0.667|||||||t-test, 2 sided|||Baseline||||0.667
92168383|NCT00444600|184226366|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.73|||<|0.001|TWO_SIDED|95.0|-1.01|-0.44||Confidence intervals are adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline optical coherence tomography (OCT) retinal volume, OCT retinal thickness and visual acuity and correlation between 2 study eyes.||Difference in mean change from sham+prompt laser||-0.44|-1.01|<0.001
92168384|NCT00444600|184226366|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.68|||<|0.001|TWO_SIDED|95.0|-0.96|-0.41||Confidence intervals adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline optical coherence tomography (OCT) retinal volume, OCT retinal thickness and visual acuity and correlation between 2 study eyes.||Difference in mean change from sham+prompt laser||-0.41|-0.96|<0.001
92168385|NCT00444600|184226366|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.62|||<|0.001|TWO_SIDED|95.0|-0.91|-0.34||Confidence intervals are adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline optical coherence tomography (OCT) retinal volume, OCT retinal thickness and visual acuity and correlation between 2 study eyes.||Difference in mean change from sham+prompt laser||-0.34|-0.91|<0.001
92168386|NCT05132478|184226368|SUPERIORITY|||||||0.72|||||||Regression, Logistic|||||||0.720
92168387|NCT05132478|184226369|SUPERIORITY|||||||0.743|||||||t-test, 2 sided|||||||0.743
92168388|NCT05132478|184226370|SUPERIORITY|||||||0.228|||||||t-test, 2 sided|||baseline||||0.228
92168389|NCT05132478|184226370|SUPERIORITY|||||||0.176|||||||t-test, 2 sided|||Post-Intervention||||0.176
92168390|NCT05132478|184226371|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||baseline||||0.410
92168391|NCT05132478|184226371|SUPERIORITY|||||||0.351|||||||ANOVA|||Post-Intervention||||0.351
92168392|NCT05132478|184226372|SUPERIORITY||||||<|0.001||||||calculated p-value|t-test, 2 sided|||||||<0.001
92168393|NCT05132478|184226373|SUPERIORITY||||||<|0.001||||||calculated p-value|t-test, 2 sided|||||||<0.001
92168394|NCT02549170|184226374|SUPERIORITY||Newcombe confidence interval|-21.8|||=|0.0045|TWO_SIDED|95.0|-34.45|-7.94|||Chi-squared|||||-7.94|-34.45|=0.0045
92168395|NCT02549170|184226376|SUPERIORITY||Newcombe confidence interval|-16.9|||=|0.0896|TWO_SIDED|95.0|-33.02|0.69||The treatment groups were compared using a continuity-corrected chi-square test.|Chi-squared, Corrected|||||0.69|-33.02|=0.0896
92168396|NCT02549170|184226377|SUPERIORITY||||||=|0.002|||||||Wilcoxon Survival Test|||||||=0.002
92168397|NCT02549170|184226378|SUPERIORITY||Least Square Mean|5.2|||=|0.03|TWO_SIDED|95.0|0.5|9.9|||ANCOVA|||||9.9|0.5|=0.030
92168398|NCT00818246|184226468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.94|STANDARD_ERROR_OF_MEAN|2.68|<|0.0001|||||||ANCOVA|analysis of covariance (ANCOVA) was used to assess statistical differences between the LED-treated and untreated sides taking into account Age.||Sample sizes and power calculations were generated according to the primary outcome measures of the study. In order to have a 98% chance of detecting as significant (at the two sided 5% level) a 10% difference between the treated and untreated/control sides in the Ra and Rz post-treatment improvement, with an assumed standard deviation of 10, 33 subjects were required. To account for an 80% per protocol completion rate, the planned number of patients to be enrolled was 40.||||<0.0001
92168399|NCT00818246|184226469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.605|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|||||||ANCOVA|||||||<0.001
92168400|NCT00818246|184226470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.4|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|||||||ANCOVA|analysis of covariance (ANCOVA) was used to assess statistical differences between the LED-treated and untreated sides taking into account Age.||Sample sizes and power calculations were generated according to the primary outcome measures of the study. In order to have a 98% chance of detecting as significant (at the two sided 5% level) a 10% difference between the treated and untreated/control sides in the Ra and Rz post-treatment improvement, with an assumed standard deviation of 10, 33 subjects were required. To account for an 80% per protocol completion rate, the planned number of patients to be enrolled was 40.||||<0.0001
92168401|NCT04247074|184226499|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92168402|NCT04247074|184226500|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92168403|NCT04247074|184226501|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92168404|NCT04247074|184226502|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92168405|NCT03887650|184226525|SUPERIORITY|||||||0.127|||||||Wilcoxon (Mann-Whitney)|||||||0.127
92168406|NCT03887650|184226526|SUPERIORITY|||||||0.975|||||||Wilcoxon (Mann-Whitney)|||||||.975
92168407|NCT03887650|184226527|SUPERIORITY|||||||0.852||||||PACU pain scores|Wilcoxon (Mann-Whitney)|||||||.852
92168408|NCT03887650|184226527|SUPERIORITY|||||||0.661||||||For (PACU-24) minimum pain scores|Wilcoxon (Mann-Whitney)|||||||.661
92168409|NCT03887650|184226527|SUPERIORITY|||||||0.747||||||For (PACU-24 hr.) maximum pain score|Wilcoxon (Mann-Whitney)|||||||.747
92168410|NCT03887650|184226527|SUPERIORITY|||||||0.604||||||For (PACU-24 hr) average pain scores|Wilcoxon (Mann-Whitney)|||||||.604
92168411|NCT03887650|184226527|SUPERIORITY|||||||0.002||||||(24-48 hr) minimum pain scores|Wilcoxon (Mann-Whitney)|||||||.002
92168412|NCT03887650|184226527|SUPERIORITY||||||<|0.01||||||For (24-48 hr) maximum pain scores|Wilcoxon (Mann-Whitney)|||||||<0.01
92168413|NCT03887650|184226527|SUPERIORITY||||||<|0.01||||||For (24-48 hr) average pain scores|Wilcoxon (Mann-Whitney)|||||||<0.01
92168414|NCT03887650|184226527|SUPERIORITY|||||||0.011||||||(48-72 hr) minimum pain scores|Wilcoxon (Mann-Whitney)|||||||.011
92168415|NCT03887650|184226527|SUPERIORITY|||||||0.001||||||(48-72 hr) maximum pain scores|Wilcoxon (Mann-Whitney)|||||||.001
92168416|NCT03887650|184226527|SUPERIORITY|||||||0.003||||||(48-72 hr) average pain scores|Wilcoxon (Mann-Whitney)|||||||.003
92168417|NCT03887650|184226527|SUPERIORITY|||||||0.23||||||For (72-96 hr) minimum pain scores|Wilcoxon (Mann-Whitney)|||||||.230
92168418|NCT03887650|184226527|SUPERIORITY|||||||0.007||||||For (72-96 hr) maximum pain scores|Wilcoxon (Mann-Whitney)|||||||.007
92168419|NCT03887650|184226527|SUPERIORITY|||||||0.011||||||For (72-96 hr) average pain scores|Wilcoxon (Mann-Whitney)|||||||.011
92369243|NCT03423238|184643483|SUPERIORITY|||||||0.692|||||||ANCOVA|||Month 3||||0.692
92369244|NCT03423238|184643483|SUPERIORITY|||||||0.59|||||||ANCOVA|||Month 6||||0.590
92369245|NCT03423238|184643484|SUPERIORITY|||||||0.844|||||||t-test, 2 sided|||Baseline||||0.844
92369246|NCT03423238|184643485|SUPERIORITY|||||||0.721|||||||ANCOVA|||Month 3||||0.721
92369247|NCT03423238|184643485|SUPERIORITY|||||||0.851|||||||ANCOVA|||Month 6||||0.851
92369248|NCT03423238|184643486|SUPERIORITY|||||||0.815|||||||t-test, 2 sided|||Baseline||||0.815
92369249|NCT03423238|184643487|SUPERIORITY|||||||0.488|||||||ANCOVA|||Month 3||||0.488
92369250|NCT03423238|184643487|SUPERIORITY|||||||0.237|||||||ANCOVA|||Month 6||||0.237
92369251|NCT03423238|184643488|SUPERIORITY|||||||0.506|||||||t-test, 2 sided|||||||0.506
92369252|NCT03423238|184643489|SUPERIORITY|||||||0.549|||||||ANCOVA|||Month 3||||0.549
92168420|NCT03887650|184226527|SUPERIORITY|||||||0.378||||||For (postoperative day 60) minimum pain scores|Wilcoxon (Mann-Whitney)|||||||.378
92369253|NCT03423238|184643489|SUPERIORITY|||||||0.303|||||||ANCOVA|||Month 6||||0.303
92369254|NCT03423238|184643490|SUPERIORITY|||||||0.934|||||||t-test, 2 sided|||Baseline||||0.934
92369255|NCT03423238|184643491|SUPERIORITY|||||||0.792|||||||ANCOVA|||Month 3||||0.792
92405510|NCT02205736|184701231|SUPERIORITY|||||||0.0196||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 24 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0196
92168421|NCT03887650|184226527|SUPERIORITY|||||||0.001||||||For (postoperative day 60) maximum pain scores|Wilcoxon (Mann-Whitney)|||||||.001
92168422|NCT03887650|184226527|SUPERIORITY|||||||0.403||||||For (postoperative day 60) average pain scores|Wilcoxon (Mann-Whitney)|||||||.403
92168423|NCT03887650|184226528|SUPERIORITY|||||||0.112|||||||Wilcoxon (Mann-Whitney)|||||||.112
92168424|NCT03887650|184226529|SUPERIORITY|||||||0.096||||||P-Value for POD4|Fisher Exact|Fisher's Exact for POD4||||||0.096
92168425|NCT03887650|184226529|SUPERIORITY|||||||1||||||For POD60|Chi-squared|Chi-squared for POD60||||||1.0
92168426|NCT03887650|184226530|SUPERIORITY|||||||1||||||Any distress on PACU|Chi-squared|||||||1.0
92168427|NCT03887650|184226530|SUPERIORITY|||||||0.947||||||Postoperative day 2|Chi-squared|||||||.947
92168428|NCT03887650|184226531|SUPERIORITY|||||||0.441||||||Full sensation|Fishers Freeman Halton|||||||.441
92168429|NCT03887650|184226531|SUPERIORITY|||||||0.691||||||First sensation|Fishers Freeman Halton|||||||.691
92168430|NCT03887650|184226532|SUPERIORITY|||||||0.876|||||||Wilcoxon (Mann-Whitney)|||||||.876
92168431|NCT03887650|184226533|SUPERIORITY|||||||0.011||||||Any movement|Fisher' Freeman Halton|||||||.011
92168432|NCT03887650|184226533|SUPERIORITY|||||||0.536||||||Full movement|Fishers Freeman Halton|||||||.536
92168433|NCT03887650|184226534|SUPERIORITY|||||||0.648||||||MME 0-24|Wilcoxon (Mann-Whitney)|||||||.648
92168434|NCT03887650|184226534|SUPERIORITY|||||||0.285||||||MME24-48|Wilcoxon (Mann-Whitney)|||||||.285
92168435|NCT03887650|184226534|SUPERIORITY|||||||0.122||||||MME48-72|Wilcoxon (Mann-Whitney)|||||||.122
92168436|NCT03887650|184226534|SUPERIORITY|||||||0.367||||||MME 72-120|Wilcoxon (Mann-Whitney)|||||||.367
92168437|NCT00933400|184226580|EQUIVALENCE|equivalence margin = 0|Percent Difference|0.02|||||TWO_SIDED|95.0|-5.6|5.7||||||Difference in AMI rate. NULL: equal rates of AMI in both Groups.||5.7|-5.6|
92168438|NCT00933400|184226581|EQUIVALENCE|equivalence margin = 0|Difference (rates)|26.8|||||TWO_SIDED|95.0|21.4|32.2||||||Difference in Discharge rates. H0: equal rates of Discharge in both Groups.||32.2|21.4|
92168439|NCT00933400|184226581|EQUIVALENCE|equivalence margin = 0|Difference (percents)|5.6|||||TWO_SIDED|95.0|0.0|11.2|||||exact procedures were used to estimate and compare rates of detection for significant coronary disease|Difference in diagnosis rate of Significant coronary disease at index visit. H0: equal rates in both Groups.||11.2|0.0|
92369256|NCT03423238|184643491|SUPERIORITY|||||||0.417|||||||ANCOVA|||Month 6||||0.417
92369257|NCT03423238|184643492|SUPERIORITY|||||||0.685|||||||t-test, 2 sided|||Baseline||||0.685
92369258|NCT03423238|184643493|SUPERIORITY|||||||0.854|||||||ANCOVA|||Month 3||||0.854
92369259|NCT03423238|184643493|SUPERIORITY|||||||0.903|||||||ANCOVA|||Month 6||||0.903
92369260|NCT03423238|184643494|SUPERIORITY|||||||0.569|||||||t-test, 2 sided|||Baseline||||0.569
92369261|NCT03423238|184643495|SUPERIORITY|||||||0.824|||||||ANCOVA|||Month 3||||0.824
92369262|NCT03423238|184643495|SUPERIORITY|||||||0.401|||||||ANCOVA|||Month 6||||0.401
92369263|NCT03423238|184643496|SUPERIORITY|||||||0.188|||||||t-test, 2 sided|||Baseline||||0.188
92369264|NCT03423238|184643497|SUPERIORITY|||||||0.338|||||||ANCOVA|||Month 3||||0.338
92369265|NCT03423238|184643497|SUPERIORITY|||||||0.484|||||||ANCOVA|||Month 6||||0.484
92369266|NCT03423238|184643498|SUPERIORITY|||||||0.533|||||||t-test, 2 sided|||Baseline||||0.533
92369267|NCT03423238|184643499|SUPERIORITY|||||||0.992|||||||ANCOVA|||Month 3||||0.992
92369268|NCT03423238|184643499|SUPERIORITY|||||||0.639|||||||ANCOVA|||Month 6||||0.639
92369269|NCT03745638|184643508|SUPERIORITY||Odds Ratio (OR)|6.38|||<|0.0001|TWO_SIDED|95.0|3.556|11.923||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||11.923|3.556|< 0.0001
92369270|NCT03745638|184643508|SUPERIORITY||Odds Ratio (OR)|7.5|||<|0.0001|TWO_SIDED|95.0|4.178|14.04||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||14.040|4.178|< 0.0001
92369271|NCT03745638|184643509|SUPERIORITY||Odds Ratio (OR)|4.04|||<|0.0001|TWO_SIDED|95.0|2.441|6.808||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||6.808|2.441|< 0.0001
92369272|NCT03745638|184643509|SUPERIORITY||Odds Ratio (OR)|5.22|||<|0.0001|TWO_SIDED|95.0|3.145|8.831||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||8.831|3.145|< 0.0001
92168440|NCT00933400|184226583|SUPERIORITY||binomial proportion|26.8|||||TWO_SIDED|95.0|21.4|32.2|||||Exact confidence intervals for the difference in proportions|H0: no difference in Patient disposition (Discharge) rates between arms||32.2|21.4|
92168441|NCT00933400|184226585|EQUIVALENCE|The trial was powered to test the principal hypothesis that the major adverse cardiac event (MACE, including myocardial infarction and cardiac death) rate among patients found not to have significant CAD on CCTA exceeds 1%|binomial proportion|-0.4|||||TWO_SIDED|95.0|-6.0|5.2|||||Exact confidence intervals for the difference in proportions|Compare all cause mortality between groups||5.2|-6.0|
92369273|NCT03745638|184643510|SUPERIORITY||Odds Ratio (OR)|3.66||||0.0002|TWO_SIDED|95.0|1.773|8.083||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||8.083|1.773|0.0002
92369274|NCT03745638|184643510|SUPERIORITY||Odds Ratio (OR)|6.01|||<|0.0001|TWO_SIDED|95.0|2.931|13.22||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||13.220|2.931|< 0.0001
92369275|NCT03745638|184643511|SUPERIORITY||Odds Ratio (OR)|2.56||||0.0081|TWO_SIDED|95.0|1.242|5.723||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||5.723|1.242|0.0081
92369276|NCT03745638|184643511|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0039|TWO_SIDED|95.0|1.334|6.083||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||6.083|1.334|0.0039
92168442|NCT00933400|184226585|EQUIVALENCE|The trial was powered to test the principal hypothesis that the major adverse cardiac event (MACE, including myocardial infarction and cardiac death) rate among patients found not to have significant CAD on CCTA exceeds 1%|binomial proportion|0.1|||||TWO_SIDED|95.0|-5.5|5.7|||||Exact confidence intervals for the difference in proportions|Compare Cardiac Death between groups||5.7|-5.5|
92369277|NCT03745638|184643512|SUPERIORITY||Odds Ratio (OR)|1.67||||0.1421|TWO_SIDED|95.0|0.862|3.391||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||3.391|0.862|0.1421
92369278|NCT03745638|184643512|SUPERIORITY||Odds Ratio (OR)|1.82||||0.0746|TWO_SIDED|95.0|0.949|3.665||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||3.665|0.949|0.0746
92369279|NCT03745638|184643522|SUPERIORITY||Least Squares Mean Difference|-35.48|STANDARD_ERROR_OF_MEAN|4.16|<|0.0001|TWO_SIDED|95.0|-43.64|-27.32|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 2||-27.32|-43.64|< 0.0001
92369280|NCT03745638|184643522|SUPERIORITY||Least Squares Method of Mean Difference]|-40.29|STANDARD_ERROR_OF_MEAN|4.15|<|0.0001|TWO_SIDED|95.0|-48.44|-32.13|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 2||-32.13|-48.44|< 0.0001
92369281|NCT03745638|184643522|SUPERIORITY||Least Squares Mean Difference|-45.01|STANDARD_ERROR_OF_MEAN|4.72|<|0.0001|TWO_SIDED|95.0|-54.28|-35.74|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 4||-35.74|-54.28|< 0.0001
92369282|NCT03745638|184643522|SUPERIORITY||Least Squares Mean Difference|-48.05|STANDARD_ERROR_OF_MEAN|4.71|<|0.0001|TWO_SIDED|95.0|-57.3|-38.79|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 4||-38.79|-57.30|< 0.0001
92405511|NCT02205736|184701231|SUPERIORITY||||||<|0.0001||||||This outcome measure for Q25 was tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5% in the analyses of 25 questions.|McNemar|||Patients gave True/False responses to Question 25 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
92168443|NCT00933400|184226585|EQUIVALENCE|The trial was powered to test the principal hypothesis that the major adverse cardiac event (MACE, including myocardial infarction and cardiac death) rate among patients found not to have significant CAD on CCTA exceeds 1%|binomial proportion|0.1|||||TWO_SIDED|95.0|-5.6|5.9|||||Exact confidence intervals for the difference in proportions|Compare AMI between groups||5.9|-5.6|
92168444|NCT00933400|184226585|EQUIVALENCE|The trial was powered to test the principal hypothesis that the major adverse cardiac event (MACE, including myocardial infarction and cardiac death) rate among patients found not to have significant CAD on CCTA exceeds 1%|binomial proportion|3.0|||||TWO_SIDED|95.0|-5.5|6.0|||||Exact confidence intervals for the difference in proportions|Compare MACE between groups||6.0|-5.5|
92168445|NCT00933400|184226585|EQUIVALENCE|The trial was powered to test the principal hypothesis that the major adverse cardiac event (MACE, including myocardial infarction and cardiac death) rate among patients found not to have significant CAD on CCTA exceeds 1%|binomial proportion|1.3|||||TWO_SIDED|95.0|-4.4|7.0|||||Exact confidence intervals for the difference in proportions|Compare Revascularization between groups||7.0|-4.4|
92168446|NCT01849055|184226590|SUPERIORITY||Mean Difference (Final Values)|-1.22|||||TWO_SIDED|90.0|-4.98|2.54||||||SBP||2.54|-4.98|
92168447|NCT01849055|184226590|SUPERIORITY||Mean Difference (Final Values)|-1.09|||||TWO_SIDED|90.0|-4.7|2.53||||||SBP||2.53|-4.70|
92168448|NCT01849055|184226590|SUPERIORITY||Mean Difference (Final Values)|-1.54|||||TWO_SIDED|90.0|-5.3|2.22||||||SBP||2.22|-5.30|
92168449|NCT01849055|184226590|SUPERIORITY||Mean Difference (Final Values)|-1.53|||||TWO_SIDED|90.0|-5.16|2.1||||||SBP||2.10|-5.16|
92369283|NCT03745638|184643522|SUPERIORITY||Least Squares Mean Difference|-33.13|STANDARD_ERROR_OF_MEAN|4.49|<|0.0001|TWO_SIDED|95.0|-41.95|-24.3||The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.|Mixed-Model with Repeated Measures|||Percent change from Baseline in EASI score at Week 8||-24.30|-41.95|< 0.0001
92369284|NCT03745638|184643522|SUPERIORITY||Least Squares Mean Difference|-39.52|STANDARD_ERROR_OF_MEAN|4.48|<|0.0001|TWO_SIDED|95.0|-48.32|-30.72|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 8||-30.72|-48.32|< 0.0001
92369285|NCT03745638|184643523|SUPERIORITY||Least Squares Mean Difference|-25.3|STANDARD_ERROR_OF_MEAN|3.74|<|0.0001|TWO_SIDED|95.0|-32.62|-17.95|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent change from Baseline in SCORAD score at Week 8||-17.95|-32.62|< 0.0001
92168450|NCT01849055|184226590|SUPERIORITY||Mean Difference (Final Values)|-3.84|||||TWO_SIDED|90.0|-7.74|0.07||||||SBP||0.07|-7.74|
92168451|NCT01849055|184226590|SUPERIORITY||Mean Difference (Final Values)|-0.38|||||TWO_SIDED|90.0|-2.95|2.18||||||DBP||2.18|-2.95|
92226995|NCT03048422|184356055|SUPERIORITY||Risk Difference (RD)|-5.9|||<|0.001|TWO_SIDED|95.0|-9.7|-2.2|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimate of risk difference DTG+FTC/TAF-EFV/FTC/TDF.||-2.2|-9.7|<0.001
92226996|NCT03048422|184356056|SUPERIORITY||Mean Difference (Final Values)|-0.093||||0.12|TWO_SIDED|95.0|-0.208|0.023|||Generalized Estimating Equation|||Null hypothesis of no difference in weekly change in creatinine clearance from baseline (DTG+FTC/TAF - DTG+FTC/TDF).||0.023|-0.208|0.12
92226997|NCT03048422|184356056|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.39|TWO_SIDED|95.0|-0.061|0.158|||Generalized Estimating Equation|||Null hypothesis of no difference in weekly change in creatinine clearance from baseline (DTG+FTC/TDF - EFV/FTC/TDF).||0.158|-0.061|0.39
92226998|NCT03048422|184356056|SUPERIORITY||Mean Difference (Final Values)|-0.045||||0.45|TWO_SIDED|95.0|-0.161|0.072|||Generalized Estimating Equation|||Null hypothesis of no difference in weekly change in creatinine clearance from baseline (DTG+FTC/TAF - EFV/FTC/TDF).||0.072|-0.161|0.45
92226999|NCT03048422|184356057|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.94|TWO_SIDED|95.0|-11.3|10.5|||t-test, 2 sided|||Null hypothesis of no difference between arms at delivery (DTG+FTC/TAF - DTG+FTC/TDF).||10.5|-11.3|0.94
92168452|NCT01849055|184226590|SUPERIORITY||Mean Difference (Final Values)|-1.11|||||TWO_SIDED|90.0|-3.69|1.48||||||DBP||1.48|-3.69|
92168453|NCT01849055|184226590|SUPERIORITY||Mean Difference (Final Values)|-0.95|||||TWO_SIDED|90.0|-3.75|1.85||||||DBP||1.85|-3.75|
92227000|NCT03048422|184356057|SUPERIORITY||Mean Difference (Final Values)|4.2||||0.44|TWO_SIDED|95.0|-6.5|14.9|||t-test, 2 sided|||Null hypothesis of no difference between arms at delivery (DTG+FTC/TDF - EFV/FTC/TDF).||14.9|-6.5|0.44
92369286|NCT03745638|184643523|SUPERIORITY||Least Squares Mean Difference|-30.4|STANDARD_ERROR_OF_MEAN|3.72|<|0.0001|TWO_SIDED|95.0|-37.68|-23.06|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent change from Baseline in SCORAD score at Week 8||-23.06|-37.68|< 0.0001
92369287|NCT03745638|184643524|SUPERIORITY||Least Squares Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.87|-0.91|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 2||-0.91|-1.87|<0.0001
92369288|NCT03745638|184643524|SUPERIORITY||Least Squares Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-2.11|-1.16|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 2||-1.16|-2.11|<0.0001
92369289|NCT03745638|184643524|SUPERIORITY||Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.25|-1.15|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 4||-1.15|-2.25|<0.0001
92168454|NCT01849055|184226590|SUPERIORITY||Mean Difference (Final Values)|-1.49|||||TWO_SIDED|90.0|-4.09|1.1||||||DBP||1.10|-4.09|
92168455|NCT01849055|184226590|SUPERIORITY||Mean Difference (Final Values)|-2.51|||||TWO_SIDED|90.0|-5.23|0.2||||||DBP||0.20|-5.23|
92168456|NCT00475501|184226610|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.9|STANDARD_DEVIATION|2.57|<|0.001|TWO_SIDED|95.0|7.86|18.0||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis||mean difference is for subjects reveiving testosterone (groups T and T/F) vs. subjects not receiving testosterone (F and Placebo)|The studies was powered for 1-RM strength based on a 1.18-alpha increase reported in the literature||18.0|7.86|<0.001
92227001|NCT03048422|184356057|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.18|TWO_SIDED|95.0|-1.8|9.3|||t-test, 2 sided|||Null hypothesis of no difference between arms at delivery (DTG+FTC/TAF - EFV/FTC/TDF).||9.3|-1.8|0.18
92227002|NCT03048422|184356057|SUPERIORITY||Mean Difference (Final Values)|11.1||||0.27|TWO_SIDED|95.0|-8.9|31.1|||t-test, 2 sided|||Null hypothesis of no difference between arms at week 26 (DTG+FTC/TAF - DTG+FTC/TDF).||31.1|-8.9|0.27
92227003|NCT03048422|184356057|SUPERIORITY||Mean Difference (Final Values)|-11.4||||0.048|TWO_SIDED|95.0|-22.6|-0.1|||t-test, 2 sided|||Null hypothesis of no difference between arms at week 26 (DTG+FTC/TDF - EFV/FTC/TDF).||-0.1|-22.6|0.048
92227004|NCT03048422|184356057|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.98|TWO_SIDED|95.0|-21.0|20.5|||t-test, 2 sided|||Null hypothesis of no difference between arms at week 26 (DTG+FTC/TAF - EFV/FTC/TDF).||20.5|-21.0|0.98
92227005|NCT03048422|184356058|SUPERIORITY||Risk Difference (RD)|-0.9||||0.4|TWO_SIDED|95.0|-3.1|1.3|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - DTG+FTC/TDF).||1.3|-3.1|0.40
92369290|NCT03745638|184643524|SUPERIORITY||Least Squares Mean Difference|-2.08|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.63|-1.53|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 4||-1.53|-2.63|<0.0001
92369291|NCT03745638|184643524|SUPERIORITY||Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.2|-1.01|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 8||-1.01|-2.20|<0.0001
92369292|NCT03745638|184643524|SUPERIORITY||Least Squares Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.58|-1.4|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 8||-1.40|-2.58|<0.0001
92369293|NCT03745638|184643526|SUPERIORITY||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.74|-0.74|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in Skin Pain NRS score at Week 8||-0.74|-1.74|<0.0001
92168457|NCT00475501|184226611|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77|STANDARD_DEVIATION|0.311||0.015|TWO_SIDED|95.0|0.16|1.31||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered on grip strength. We employed 2x2 analysis to determine effects of testosterone, finasteride and interaction.||1.31|0.16|0.015
92168458|NCT00475501|184226612|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.19|STANDARD_DEVIATION|1.142|<|0.001|TWO_SIDED|95.0|1.95|6.43||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered on lumbar spine bone mineral density. We employed a 2x2 analysis for effects ot testosterone, finasteride and interaction||6.43|1.95|<0.001
92168459|NCT00475501|184226613|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.737|STANDARD_ERROR_OF_MEAN|0.343||0.037|TWO_SIDED|95.0|-1.41|-0.064||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study is was not powered for score on Geriatric Depression Scale||-0.064|-1.41|0.037
92168460|NCT00475501|184226614|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.871|STANDARD_ERROR_OF_MEAN|1.108||0.012|TWO_SIDED|95.0|0.699|5.04||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered for 30-minute recall on Rey figure test||5.04|0.699|0.012
92168461|NCT00475501|184226615|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.642|STANDARD_ERROR_OF_MEAN|2.272||0.779|TWO_SIDED|95.0|-5.095|3.811||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered for score on Trials A test||3.811|-5.095|0.779
92227006|NCT03048422|184356058|SUPERIORITY||Risk Difference (RD)|-4.3||||0.023|TWO_SIDED|95.0|-8.0|-0.6|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TDF - EFV/FTC/TDF).||-0.6|-8.0|0.023
92369294|NCT03745638|184643526|SUPERIORITY||Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-2.11|-1.13|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in Skin Pain NRS score at Week 8||-1.13|-2.11|<0.0001
92405512|NCT01198977|184701232|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.013||||||Baseline and 3-month follow-up for arm 1 and arm 2.|ANOVA|||||||.013
92405513|NCT01198977|184701232|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.005||||||Comparing baseline to 6-month follow-up.|ANOVA|||||||0.005
92405514|NCT01198977|184701232|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.01||||||The interaction effect between the two conditions across time. Baseline, 3-month, 6-month.|ANOVA|||||||0.010
92405515|NCT01198977|184701233|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.009||||||Comparing depression scores for the telephone counseling and education counseling groups at 6 months.|ANOVA|||||||0.009
92227007|NCT03048422|184356058|SUPERIORITY||Risk Difference (RD)|-5.2||||0.003|TWO_SIDED|95.0|-8.7|-1.8|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - EFV/FTC/TDF).||-1.8|-8.7|0.003
92369295|NCT03745638|184643529|SUPERIORITY||Least Squares Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.54||0.0049|TWO_SIDED|95.0|-2.6|-0.47|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 2||-0.47|-2.60|0.0049
92227008|NCT03048422|184356060|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|-3.6||||0.16|TWO_SIDED|95.0|-8.8|1.5|||Wald test of two proportions|||||1.5|-8.8|0.16
92227009|NCT03048422|184356060|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|-2.7||||0.38|TWO_SIDED|95.0|-8.7|3.3|||Wald test of two proportions|||||3.3|-8.7|0.38
92369296|NCT03745638|184643529|SUPERIORITY||Least Squares Mean Difference|-2.31|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-3.37|-1.25|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 2||-1.25|-3.37|<0.0001
92369297|NCT03745638|184643529|SUPERIORITY||Least Squares Mean Difference|-2.33|STANDARD_ERROR_OF_MEAN|0.6||0.0001|TWO_SIDED|95.0|-3.52|-1.15|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 4||-1.15|-3.52|0.0001
92168462|NCT00475501|184226616|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.587|STANDARD_ERROR_OF_MEAN|0.743||0.433|TWO_SIDED|95.0|-0.869|2.043||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered for score on Benton test||2.043|-0.869|0.433
92168463|NCT00475501|184226617|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.13|STANDARD_DEVIATION|0.54|<|0.001|TWO_SIDED|95.0|3.07|5.18||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||This study was powered for hematocrit based on literature report that testosterone \> 2 alpha increase in hematocrit||5.18|3.07|<0.001
92168464|NCT00475501|184226618|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1419|STANDARD_ERROR_OF_MEAN|0.2529||0.6219|TWO_SIDED|95.0|-0.353|6.37||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered for dietary protein intake||6.37|-0.353|0.6219
92227010|NCT03048422|184356060|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|-6.3||||0.023|TWO_SIDED|95.0|-11.8|-0.9|||Wald test of two proportions|||||-0.9|-11.8|0.023
92369298|NCT03745638|184643529|SUPERIORITY||Least Squares Mean Difference|-2.85|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-4.03|-1.67|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 4||-1.67|-4.03|<0.0001
92369299|NCT03745638|184643529|SUPERIORITY||Least Squares Mean Difference|-2.54|STANDARD_ERROR_OF_MEAN|0.71||0.0004|TWO_SIDED|95.0|-3.93|-1.14|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 8||-1.14|-3.93|0.0004
92369300|NCT03745638|184643529|SUPERIORITY||Least Squares Mean Difference|-3.18|STANDARD_ERROR_OF_MEAN|0.71|<|0.0001|TWO_SIDED|95.0|-4.57|-1.79|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 8||-1.79|-4.57|<0.0001
92227011|NCT03048422|184356061|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|-6.2||||0.12|TWO_SIDED|95.0|-13.9|1.5|||Wald test of two proportions|||||1.5|-13.9|0.12
92227012|NCT03048422|184356061|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|2.0||||0.63|TWO_SIDED|95.0|-6.0|10.0|||Wald test of two proportions|||||10.0|-6.0|0.63
92227013|NCT03048422|184356061|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|-4.2||||0.28|TWO_SIDED|95.0|-11.7|3.4|||Wald test of two proportions|||||3.4|-11.7|0.28
92227014|NCT03048422|184356062|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.011|TWO_SIDED|95.0|0.013|0.103|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - DTG+FTC/TDF).||0.103|0.013|0.011
92369301|NCT03745638|184643530|SUPERIORITY||Least Squares Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.6||0.0487|TWO_SIDED|95.0|-2.35|-0.01|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 2||-0.01|-2.35|0.0487
92168465|NCT00475501|184226619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.33|STANDARD_DEVIATION|1.83||0.0051|TWO_SIDED|95.0|1.73|8.94||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was powered for prostate volume based on a literature report that testosterone increases prostate volume 1.85 alpha per year. We employed a 2x2 analysis for effects of testosterone, finasteride and interaction.||8.94|1.73|0.0051
92168466|NCT00475501|184226620|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.868|STANDARD_ERROR_OF_MEAN|0.668||0.196|TWO_SIDED|95.0|-3.434|1.698||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered for score on Lif Satisfaction A test||1.698|-3.434|0.196
92168467|NCT02409667|184226625|NON_INFERIORITY|The statistical null-hypothesis to be rejected in the primary analysis was that the odds ratio of maintaining a PASI 90 response for patients with secukinumab 4-weekly dosing versus patients on secukinumab 6-weekly dosing exceeds the non-inferiority margin of 1+δ.|Odds Ratio (OR)|1.91||||0.1499|TWO_SIDED|95.0|1.44|2.55|||Regression, Logistic|||||2.55|1.44|0.1499
92168468|NCT02409667|184226626|SUPERIORITY||Odds Ratio (OR)|0.62||||0.1013|TWO_SIDED|95.0|0.35|1.1|||Regression, Logistic|||||1.10|0.35|0.1013
92369302|NCT03745638|184643530|SUPERIORITY||Least Squares Mean Difference|-1.68|STANDARD_ERROR_OF_MEAN|0.59||0.0049|TWO_SIDED|95.0|-2.84|-0.51|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 2||-0.51|-2.84|0.0049
92369303|NCT03745638|184643530|SUPERIORITY||Least Squares Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.66||0.0128|TWO_SIDED|95.0|-2.94|-0.35|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 4||-0.35|-2.94|0.0128
92405516|NCT01198977|184701233|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group X Time interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.032||||||Interaction effects between the telephone counseling and education counseling groups over time (baseline, 3 months, 6 months).|ANOVA|||||||.032
92405517|NCT01198977|184701234|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.049||||||Physical Activity Interaction effect between the Telephone Counseling and Education Counseling Group over time (baseline, 3 months, 6 months).|ANOVA|||||||0.049
92405518|NCT01198977|184701234|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.014||||||Comparing physical activity scores for the telephone counseling and education counseling groups at 6 months.|ANOVA|||||||.014
92168469|NCT02409667|184226629|SUPERIORITY||Least square mean (LSM) estimate|-0.09||||0.0489|TWO_SIDED|95.0|-0.18|0.0|||ANCOVA|||Week 28||-0.00|-0.18|0.0489
92168470|NCT02409667|184226629|SUPERIORITY||LSM estimate|-0.09||||0.1073|TWO_SIDED|95.0|-0.19|0.02|||ANCOVA|||Week 32||0.02|-0.19|0.1073
92168471|NCT02409667|184226629|SUPERIORITY||LSM estimate|-0.24||||0.0001|TWO_SIDED|95.0|-0.37|-0.12|||ANCOVA|||Week 36||-0.12|-0.37|0.0001
92168472|NCT02409667|184226629|SUPERIORITY||LSM estimate|-0.25||||0.0005|TWO_SIDED|95.0|-0.38|-0.11|||ANCOVA|||Week 40||-0.11|-0.38|0.0005
92168473|NCT02409667|184226629|SUPERIORITY||LSM estimate|-0.3||||0.0001|TWO_SIDED|95.0|-0.45|-0.15|||ANCOVA|||Week 44||-0.15|-0.45|0.0001
92369304|NCT03745638|184643530|SUPERIORITY||Least Squares Mean Difference|-1.91|STANDARD_ERROR_OF_MEAN|0.66||0.0037|TWO_SIDED|95.0|-3.2|-0.62|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 4||-0.62|-3.20|0.0037
92168474|NCT02409667|184226629|SUPERIORITY||LSM estimate|-0.49||||0|TWO_SIDED|95.0|-0.7|-0.27|||ANCOVA|||Week 48||-0.27|-0.70|0.0000
92168475|NCT02409667|184226629|SUPERIORITY||LSM mean|-0.59||||0|TWO_SIDED|95.0|-0.81|-0.36|||ANCOVA|||||-0.36|-0.81|0.0000
92168476|NCT02409667|184226630|SUPERIORITY||LSM estimate|0.4||||0.174|TWO_SIDED|95.0|-0.18|0.99|||ANCOVA|||Week 28||0.99|-0.18|0.1740
92168477|NCT02409667|184226630|SUPERIORITY||LSM estimate|0.79||||0.0287|TWO_SIDED|95.0|0.08|1.5|||ANCOVA|||Week 32||1.50|0.08|0.0287
92168478|NCT02409667|184226630|SUPERIORITY||LSM estimate|0.62||||0.1202|TWO_SIDED|95.0|-0.16|1.41|||ANCOVA|||Week 36||1.41|-0.16|0.1202
92168479|NCT02409667|184226630|SUPERIORITY||LSM estimate|0.75||||0.1157|TWO_SIDED|95.0|-0.19|1.68|||ANCOVA|||Week 40||1.68|-0.19|0.1157
92168480|NCT02409667|184226630|SUPERIORITY||LSM estimate|0.54||||0.3189|TWO_SIDED|95.0|-0.52|1.59|||ANCOVA|||Week 44||1.59|-0.52|0.3189
92168481|NCT02409667|184226630|SUPERIORITY||LSM estimate|1.17||||0.024|TWO_SIDED|95.0|0.16|2.18|||ANCOVA|||Week 48||2.18|0.16|0.0240
92369305|NCT03745638|184643530|SUPERIORITY||Least Squares Mean Difference|-2.11|STANDARD_ERROR_OF_MEAN|0.75||0.0048|TWO_SIDED|95.0|-3.58|-0.65|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 8||-0.65|-3.58|0.0048
92369306|NCT03745638|184643530|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.74||0.002|TWO_SIDED|95.0|-3.75|-0.84|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 8||-0.84|-3.75|0.0020
92369307|NCT03745638|184643533|SUPERIORITY||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-4.07|-2.18|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in %BSA at Week 8||-2.18|-4.07|<0.0001
92405519|NCT04586205|184701265|OTHER|||||||0.024|||||||ANOVA|||The baseline measurement for this analysis is the Sternberg Sorting Task (SST) at Baseline. This task is designed to assess how individuals store and retrieve random information from short-term memory. This task was administered to all participants before they were randomized into one of two groups (active TMS first then sham TMS or sham TMS first then active TMS).||||0.024
92405520|NCT04586205|184701266|OTHER||Mean Difference (Final Values)|0.02||||0.18|TWO_SIDED||||||t-test, 2 sided||The difference in means between High-Load IAPS (.69) and Low-Load IAPS (.67) in the group that received active then sham TMS.|The baseline measurement for this analysis is the International Affective Picture System (IAPS) at baseline. This is an emotional task using IAPS picture that will also compare low load and high load conditions. The number of images will vary by condition load, but for both the high-load \& low-load conditions, participants will look at IAPS pictures and answer questions about the images. We compare mean High-Load IAPS and Low-Load IAPS scores in the group that received active then sham TMS.||||0.18
92369308|NCT03745638|184643533|SUPERIORITY||Least Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-4.67|-2.79|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in %BSA at Week 8||-2.79|-4.67|<0.0001
92369309|NCT03745638|184643535|SUPERIORITY||Least Squares Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-6.43|-3.8|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in POEM score at Week 8||-3.80|-6.43|<0.0001
92369310|NCT03745638|184643535|SUPERIORITY||Least Squares Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-7.62|-5.0|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in POEM score at Week 8||-5.00|-7.62|<0.0001
92369311|NCT03745638|184643537|SUPERIORITY||Least Squares Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-4.85|-2.68|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total DLQI score at Week 8||-2.68|-4.85|<0.0001
92369312|NCT03745638|184643537|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-5.56|-3.42|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total DLQI score at Week 8||-3.42|-5.56|<0.0001
92405521|NCT04586205|184701267|OTHER|||||||0.19|||||||Chi-squared|||The outcome measure for this analysis was the International Affective Picture System (IAPS).||||0.19
92168482|NCT02409667|184226630|SUPERIORITY||LSM estimate|1.47||||0.009|TWO_SIDED|95.0|0.37|2.57|||ANCOVA|||Week 52||2.57|0.37|0.0090
92369313|NCT03745638|184643539|SUPERIORITY||Least Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|1.01||0.0018|TWO_SIDED|95.0|-5.29|-1.26|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total CDLQI score at Week 8||-1.26|-5.29|0.0018
92369314|NCT03745638|184643539|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.08||0.0378|TWO_SIDED|95.0|-4.43|-0.13|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total CDLQI score at Week 8||-0.13|-4.43|0.0378
92405522|NCT04586205|184701268|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
92405523|NCT04684836|184701270|SUPERIORITY|The analysis leveraged a difference-in-differences research design in an intent-to-treat framework, comparing outcomes for patients receiving care at high-telehealth practices with patients at comparable low-telehealth practices, before relative to after the onset of the pandemic (when telehealth use increased significantly).|Mean Difference (Net)|-0.0255||||0.0793|TWO_SIDED||||||Regression, Linear|All models included practice and year-quarter fixed effects, and clustered standard errors at the practice level.|This is the Unadjusted model, which included only an indicator for high telemedicine practice, post-period, and its two-way interaction.|||||0.0793
92168483|NCT02409667|184226631|SUPERIORITY||LSM estimate|-0.62||||0.0001|TWO_SIDED|95.0|-0.93|-0.31|||ANCOVA|||||-0.31|-0.93|0.0001
92168484|NCT02409667|184226632|SUPERIORITY||LSM estimate|1.17||||0.0675|TWO_SIDED|95.0|-0.09|2.42|||ANCOVA|||||2.42|-0.09|0.0675
92168485|NCT02409667|184226633|SUPERIORITY||LSM estimate|-0.97||||0.2101|TWO_SIDED|95.0|-2.48|0.55|||ANCOVA|||Absenteeism||0.55|-2.48|0.2101
92168486|NCT02409667|184226633|SUPERIORITY||LSM estimate|-0.67||||0.2971|TWO_SIDED|95.0|-1.93|0.59|||ANCOVA|||Presenteeism||0.59|-1.93|0.2971
92168487|NCT02409667|184226633|SUPERIORITY||LSM estimate|-0.61||||0.5499|TWO_SIDED|95.0|-2.59|1.38|||ANCOVA|||Total activity impairment||1.38|-2.59|0.5499
92168488|NCT02409667|184226633|SUPERIORITY||LSM estimate|-1.08||||0.0758|TWO_SIDED|95.0|-2.28|0.11|||ANCOVA|||||0.11|-2.28|0.0758
92168489|NCT02409667|184226634|SUPERIORITY||LSM estimate|1.2||||0.4156|TWO_SIDED|95.0|-1.71|4.11|||ANCOVA|||Absenteeism||4.11|-1.71|0.4156
92369315|NCT03745638|184643543|SUPERIORITY||Odds Ratio (OR)|6.28|||<|0.0001|TWO_SIDED|95.0|3.632|11.018||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||Percentage of participants with a score of either 1 or 2 on the PGIC at Week 8||11.018|3.632|<0.0001
92369316|NCT03745638|184643543|SUPERIORITY||Odds Ratio (OR)|8.39|||<|0.0001|TWO_SIDED|95.0|4.755|15.083||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||Percentage of participants with a score of either 1 or 2 on the PGIC at Week 8||15.083|4.755|<0.0001
92168490|NCT02409667|184226634|SUPERIORITY||LSM estimate|0.63||||0.8619|TWO_SIDED|95.0|-6.59|7.85|||ANCOVA|||Presenteeism||7.85|-6.59|0.8619
92168491|NCT02409667|184226634|SUPERIORITY||LSM estimate|-0.61||||0.6139|TWO_SIDED|95.0|-6.31|10.61|||ANCOVA|||Total activity impairment||10.61|-6.31|0.6139
92168492|NCT02409667|184226634|SUPERIORITY||LSM estimate|1.7||||0.5674|TWO_SIDED|95.0|-4.16|7.56|||ANCOVA|||Work productivity loss||7.56|-4.16|0.5674
92168493|NCT02409667|184226635|SUPERIORITY||LSM estimate|-0.13||||0.1219|TWO_SIDED|95.0|-0.3|0.04|||ANCOVA|||Pain||0.04|-0.30|0.1219
92168494|NCT02409667|184226635|SUPERIORITY||LSM estimate|-0.38||||0.0001|TWO_SIDED|95.0|-0.57|-0.18|||ANCOVA|||Itching||-0.18|-0.57|0.0001
92168495|NCT02409667|184226635|SUPERIORITY||LSM estimate|-0.31||||0.0003|TWO_SIDED|95.0|-0.48|-0.14|||ANCOVA|||Scaling||-0.14|-0.48|0.0003
92168496|NCT02409667|184226636|SUPERIORITY||LSM estimate|0.17||||0.6457|TWO_SIDED|95.0|-0.57|0.92|||ANCOVA|||Pain||0.92|-0.57|0.6457
92168497|NCT02409667|184226636|SUPERIORITY||LSM estimate|0.19||||0.6136|TWO_SIDED|95.0|-0.56|0.94|||ANCOVA|||Itching||0.94|-0.56|0.6136
92168498|NCT02409667|184226636|SUPERIORITY||LSM estimate|0.75||||0.0203|TWO_SIDED|95.0|0.12|1.39|||ANCOVA|||Scaling||1.39|0.12|0.0203
92405524|NCT04684836|184701270|SUPERIORITY|Difference-in-differences model|Mean Difference (Net)|-0.0786||||0.5739|TWO_SIDED|||||This is the fully adjusted regression model, which controlled for patient age group, gender, dual status, race, average percent of 65+ patients, risk score category, rural vs urban, and zip-code level characteristics.|Regression, Linear|||||||0.5739
92168499|NCT02409667|184226637|SUPERIORITY||LSM estimate|2.22||||0.0027|TWO_SIDED|95.0|0.77|3.68|||ANCOVA|||||3.68|0.77|0.0027
92168500|NCT02409667|184226638|SUPERIORITY||LSM estimate|-2.31||||0.2823|TWO_SIDED|95.0|-6.55|1.92|||ANCOVA|||||1.92|-6.55|0.2823
92168501|NCT02409667|184226639|SUPERIORITY||LSM estimate|0.01||||0.0861|TWO_SIDED|95.0|0.0|0.02|||ANCOVA|||Germany||0.02|-0.00|0.0861
92168502|NCT02409667|184226639|SUPERIORITY||LSM estimate|0.02||||0.0117|TWO_SIDED|95.0|0.0|0.04|||ANCOVA|||UK||0.04|0.00|0.0117
92168503|NCT02409667|184226640|SUPERIORITY||LSM estimate|-0.02||||0.1852|TWO_SIDED|95.0|-0.05|0.01|||ANCOVA|||Germany||0.01|-0.05|0.1852
92168504|NCT02409667|184226640|SUPERIORITY||LSM estimate|-0.03||||0.2203|TWO_SIDED|95.0|-0.07|0.02|||ANCOVA|||UK||0.02|-0.07|0.2203
92168505|NCT01827787|184226643|SUPERIORITY|||||||0.42|||||||Fisher Exact|||"Using a one sample binomial design, with 45 patients there was 90% power to detect a null hypothesis 30% overall response rate (historical control) versus an alternative hypothesis of 53% overall response rate assuming a two-sided 10% alpha.~Of note, cohort 2: TNBC did not fully accrue 45 patients so a testing was not done."||||0.42
92168506|NCT02769858|184226652|OTHER|||||||0.001|||||||t-test, 2 sided|||||||.001
92168507|NCT02769858|184226653|OTHER|||||||0.019|||||||t-test, 2 sided|||||||.019
92168508|NCT02769858|184226654|OTHER|||||||0.502|||||||t-test, 2 sided|||||||.502
92168509|NCT05057897|184226808|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|GMT Ratio|0.73|||||TWO_SIDED|95.0|0.18|3.01|||||The GMT ratio was calculated as the ratio of the titer levels in the immunocompromised cohort to the immunocompetent cohort.|Day 57 (28 days post Dose 2)||3.01|0.18|
92168510|NCT05057897|184226809|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|Difference in Seroresponse|-30.36|||||TWO_SIDED|95.0|-62.82|3.69||||The 2-sided 95% CI was calculated using the Newcombe score without continuity correction.|The difference in seroresponse 28 days post Dose 2 of AZD1222 was calculated as (seroresponse rate of immunocompromised cohort) - (seroresponse rate of immunocompetent cohort).|Day 57 (28 days post Dose 2)||3.69|-62.82|
92369512|NCT00281099|184643815|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority analysis was performed, with the hazard ratio as the parameter of interest and the non-inferiority threshold of 1.44. The one-sided upper confidence bound for the hazard ratio had to be less than 1.44 for the null hypothesis to be rejected. The threshold of 1.44 was derived by using a noninferiority threshold of a 5 percentage point difference in 24 month survival rates.|Hazard Ratio (HR)|1.26||||||95.0|1.26|1.75|||||This was a non-inferiority analysis, and so a one-sided 95% confidence interval was performed comparing the MVP arm to the VVI 40 arm.|The time from randomization to all cause mortality or last follow-up visit was determined for each subject. The null hypothesis was that the mortality hazard rate for patients with MVP programming was greater than that of patients with VVI40 programming.||1.75|1.26|
92369513|NCT03206918|184643819|SUPERIORITY||2-side Clopper-Pearson|87.9|||<|0.0001|TWO_SIDED|95.0|79.4|93.81|||Exact Binomial Test|The null hypothesis is ORR = 32%||||93.81|79.40|<0.0001
92369514|NCT00475085|184643833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.013||||0.718|TWO_SIDED|95.0|-0.225|0.2||Response skewed. P-value determined after Box-Cox transformation (lambda=-1.6). Significance level set to 0.017 to account for three tested hypotheses.|ANOVA|Testing and estimation performed using contrasts in the context of an omnibus ANOVA.||Group 1 - Group 2 (palonosetron vs. granisetron)||0.200|-0.225|0.718
92369515|NCT00475085|184643833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.195||||0.01|TWO_SIDED|95.0|-0.017|0.407||Response skewed. P-value determined after Box-Cox transformation (lambda=-1.6). Significance level set to 0.017 to account for three tested hypotheses.|ANOVA|Testing and estimation performed using contrasts in the context of an omnibus ANOVA.||Group 1 - Group 4 (adding dexamethasone)||0.407|-0.017|0.010
92405861|NCT02106390|184702037|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ is \> 0.5 for all serogroup B indicator strains.|GMT ratio|0.89|||||TWO_SIDED|95.0|0.71|1.1|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||"H44/76- The comparison of adjusted GMTs ratio (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ) was performed for the H44/76 serogroup B indicator strain,at one month after the fourth vaccination."||1.10|0.71|
92280371|NCT04543136|184463462|SUPERIORITY||Mean Difference (Final Values)|3.3||||0.787|TWO_SIDED|95.0|-21.2|27.9||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||27.9|-21.2|0.787
92369516|NCT00475085|184643833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025||||0.557|TWO_SIDED|95.0|-0.236|0.186||Response skewed. P-value determined after Box-Cox transformation (lambda=-1.6). Significance level set to 0.017 to account for three tested hypotheses.|ANOVA|Testing and estimation performed using contrasts in the context of an omnibus ANOVA.||Group 3 - Group 4 (aprepitant vs. prochlorperazine)||0.186|-0.236|0.557
92405862|NCT02106390|184702037|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ is \> 0.5 for all serogroup B indicator strains.|GMT ratio|1.03|||||TWO_SIDED|95.0|0.74|1.45|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||5/99-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ) was performed for the 5/99 serogroup B indicator strain,at one month after the fourth vaccination.||1.45|0.74|
92405863|NCT02106390|184702037|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ is \> 0.5 for all serogroup B indicator strains.|GMT ratio|1.01|||||TWO_SIDED|95.0|0.82|1.25|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||NZ98/254-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ) was performed for the NZ98/254 serogroup B indicator strain,at one month after the fourth vaccination.||1.25|0.82|
92369517|NCT06899737|184643840|SUPERIORITY||Mean Difference (Final Values)|-2.55|STANDARD_ERROR_OF_MEAN|2.56||0.32|TWO_SIDED|95.0|-7.64|2.55|||t-test, 2 sided|||||2.55|-7.64|0.32
92369518|NCT06899737|184643841|SUPERIORITY||Mean Difference (Final Values)|4.18|STANDARD_ERROR_OF_MEAN|3.08||0.18|TWO_SIDED|95.0|-1.94|10.3|||t-test, 2 sided|||||10.30|-1.94|0.18
92369519|NCT06899737|184643842|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.5||0.71|TWO_SIDED|95.0|-0.81|1.18|||t-test, 2 sided|||||1.18|-0.81|0.71
92369520|NCT06899737|184643843|SUPERIORITY||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.32||0.32|TWO_SIDED|95.0|-0.03|1.24|||t-test, 2 sided|||||1.24|-0.03|0.32
92369521|NCT06899737|184643844|SUPERIORITY||Median Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.44||0.91|TWO_SIDED|95.0|-0.82|0.92|||t-test, 2 sided|||||0.92|-0.82|0.91
92369522|NCT06899737|184643845|SUPERIORITY||Median Difference (Final Values)|0.69||||0.059|TWO_SIDED|95.0|-0.03|1.42|||t-test, 2 sided|||||1.42|-0.03|0.059
92369523|NCT06899737|184643846|SUPERIORITY||Median Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.41||0.79|TWO_SIDED|95.0|-0.92|0.71|||t-test, 2 sided|||||0.71|-0.92|0.79
92369524|NCT06899737|184643847|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.33||0.14|TWO_SIDED|95.0|-0.16|1.15|||t-test, 2 sided|||||1.15|-0.16|0.14
92369525|NCT06899737|184643848|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.43||0.42|TWO_SIDED|95.0|-1.19|0.5|||t-test, 2 sided|||||0.50|-1.19|0.42
92369526|NCT06899737|184643849|SUPERIORITY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.37||0.37|TWO_SIDED|95.0|-0.4|1.07|||t-test, 2 sided|||||1.07|-0.40|0.37
92369527|NCT06899737|184643851|SUPERIORITY||Mean Difference (Final Values)|6.72|STANDARD_ERROR_OF_MEAN|3.42||0.05|TWO_SIDED|95.0|-0.06|13.51|||t-test, 2 sided|||||13.51|-0.06|0.05
92369528|NCT06899737|184643852|SUPERIORITY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.35||0.23|TWO_SIDED|95.0|-0.26|1.11|||t-test, 2 sided|||||1.11|-0.26|0.23
92369529|NCT06899737|184643853|SUPERIORITY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.37||0.08|TWO_SIDED|95.0|-0.09|1.39|||t-test, 2 sided|||||1.39|-0.09|0.08
92369530|NCT06899737|184643854|SUPERIORITY||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.38||0.11|TWO_SIDED|95.0|-0.15|1.35|||t-test, 2 sided|||||1.35|-0.15|0.11
92369531|NCT06899737|184643855|SUPERIORITY||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|0.34||0.05|TWO_SIDED|95.0|-0.01|1.36|||t-test, 2 sided|||||1.36|-0.01|0.05
92369532|NCT01082081|184643856|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.77||||0.0004|TWO_SIDED|95.0|2.15|7.39|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 1000 mg caplet and Paracetamol 500 mg caplet.||7.39|2.15|0.0004
92369533|NCT01082081|184643856|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.25|||<|0.0001|TWO_SIDED|95.0|4.04|10.45|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 1000 mg caplet and placebo caplet.||10.45|4.04|<0.0001
92369534|NCT01082081|184643856|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.48||||0.1307|TWO_SIDED|95.0|-0.74|5.69|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 500 mg caplet and placebo caplet.||5.69|-0.74|0.1307
92405864|NCT02106390|184702037|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ is \> 0.5 for all serogroup B indicator strains.|GMT ratio|1.03|||||TWO_SIDED|95.0|0.77|1.4|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||M10713-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ) was performed for the M10713 serogroup B indicator strain,at one month after the fourth vaccination.||1.40|0.77|
92405865|NCT02106390|184702038|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMVNZ + MenACWY versus MenACWY) was \> 0.5 for all serogroups A, C, W-135 and Y.|GMT ratio|2.48|||||TWO_SIDED|95.0|1.97|3.11|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||Serogroup A-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + Men ACWY versus MenACWY) was performed for serogroup A at one month after the fourth vaccination.||3.11|1.97|
92227305|NCT00927368|184356881|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating needle minus mean ultrasound alone is greater than 0.5 points).|Mean Difference (Final Values)|-0.28|||<|0.001|TWO_SIDED|95.0|-0.72|0.16||Significance criterion of 0.00347 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing stimulating needle to ultrasound alone on the mean time-weighted average pain score for a patient in the first 48 hours.||0.16|-0.72|< 0.001
92240140|NCT00570739|184383827|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 8 Weeks||||<0.0001
92369535|NCT03159468|184643872|OTHER|||||||0.041||||||This p-value is for the main effect of beverage condition.|ANOVA|||||||.041
92369536|NCT03159468|184643872|OTHER|||||||0.16||||||This p-value is for the main effect of intervention condition.|ANOVA|||||||.160
92369537|NCT03159468|184643872|OTHER|||||||0.462||||||This p-value is for the beverage condition by intervention condition interaction.|ANOVA|||||||.462
92369538|NCT00375674|184643873|SUPERIORITY||Cox Proportional Hazard|0.761||||0.03|TWO_SIDED|95.0|0.594|0.975|||Cox Proportional hazards model|Based on the Cox Proportional hazards model stratified by UISS High-Risk Group.||Superiority analysis||0.975|0.594|0.030
92369539|NCT00375674|184643874|SUPERIORITY||Cox Proportional Hazard|0.811||||0.077|TWO_SIDED|95.0|0.643|1.023|||Cox Proportional hazards model|Based on the Cox Proportional hazards model stratified by UISS High-Risk Group||Superiority analysis||1.023|0.643|0.077
92369540|NCT00375674|184643875|SUPERIORITY||Hazard Ratio (HR)|0.929||||0.661|TWO_SIDED|95.0|0.67|1.289|||Log-rank test|||Hazard ratio was based on the Cox Proportional hazards model stratified by UISS High-Risk Group.||1.289|0.670|0.661
92369541|NCT00301262|184643897|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.13|STANDARD_ERROR_OF_MEAN|3.405|<|0.0001||95.0|11.4|24.86||Since there was only one primary endpoint no multiple comparison adjustments were made for primary analysis. Final stat. model included centre, treatment, smoking status and history of ED as factors, and age, duration of ED (baseline) as covariates.|ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|The primary analysis population was the FAS. The sample size was estimated based on an expected difference of 16.5 with a standard deviation of 28.4, based on previously observed data.||24.86|11.40|<0.0001
92369542|NCT00301262|184643898|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.09|STANDARD_DEVIATION|14.761||0.0028||95.0|1.8|8.37|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||8.370|1.800|0.0028
92369543|NCT00301262|184643898|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|26.02|STANDARD_DEVIATION|22.294|<|0.0001||95.0|20.58|31.455|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||31.455|20.580|<0.0001
92369544|NCT00301262|184643899|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.76|STANDARD_ERROR_OF_MEAN|0.656||0.008||95.0|0.47|3.06|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||3.06|0.47|0.0080
92369545|NCT00301262|184643900|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.94|STANDARD_DEVIATION|2.909||0.0051||95.0|0.29|1.585|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.585|0.290|0.0051
92369546|NCT00301262|184643900|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.79|STANDARD_DEVIATION|4.013|<|0.0001||95.0|1.812|3.77|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||3.770|1.812|<0.0001
92369547|NCT00301262|184643901|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.61|STANDARD_ERROR_OF_MEAN|0.922||0.0054||95.0|0.78|4.43|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||4.43|0.78|0.0054
92369548|NCT00301262|184643902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.368||0.4232||95.0|-0.43|1.02|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||1.02|-0.43|0.4232
92369549|NCT00301262|184643903|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.277||0.0156||95.0|0.13|1.22|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||1.22|0.13|0.0156
92369550|NCT00301262|184643904|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.458||0.0096||95.0|0.3|2.11|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||2.11|0.30|0.0096
92369551|NCT00301262|184643905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.359||0.0135||95.0|0.19|1.61|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||1.61|0.19|0.0135
92369552|NCT00301262|184643906|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.49|STANDARD_DEVIATION|4.392||0.0033||95.0|0.051|2.465|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||2.465|0.0510|0.0033
92227306|NCT00927368|184356881|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean ultrasound alone minus mean stimulating needle is greater than 0.5 points).|Mean Difference (Final Values)|0.28||||0.11|TWO_SIDED|95.0|-0.16|0.72||Significance criterion of 0.02082 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing ultrasound alone to stimulating needle on the mean time-weighted average pain score for a patient in the first 48 hours.||0.72|-0.16|0.11
92369553|NCT00301262|184643906|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.22|STANDARD_DEVIATION|6.346|<|0.0001||95.0|3.676|6.772|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||6.772|3.676|<0.0001
92369554|NCT00301262|184643907|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.57||0.2581||95.0|-0.149|0.549|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||0.549|-0.149|0.2581
92369555|NCT00301262|184643907|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.39|STANDARD_DEVIATION|2.582|<|0.0001||95.0|0.758|2.018|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||2.018|0.758|<0.0001
92369556|NCT00301262|184643908|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.18|STANDARD_DEVIATION|1.456||0.2857||95.0|-0.149|0.499|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||0.499|-0.149|0.2857
92369557|NCT00301262|184643908|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.76|STANDARD_DEVIATION|1.706||0.0005||95.0|0.345|1.177|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.177|0.345|0.0005
92369558|NCT00301262|184643909|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.75|STANDARD_DEVIATION|2.548||0.0102||95.0|0.183|1.317|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.317|0.183|0.0102
92369559|NCT00301262|184643909|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.28|STANDARD_DEVIATION|2.979|<|0.0001||95.0|1.557|3.01|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||3.010|1.557|<0.0001
92369560|NCT00301262|184643910|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.68|STANDARD_DEVIATION|1.847||0.0016||95.0|0.264|1.086|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.086|0.264|0.0016
92369561|NCT00301262|184643910|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.9|STANDARD_DEVIATION|2.297|<|0.0001||95.0|1.335|2.456|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||2.456|1.335|<0.0001
92369562|NCT00301262|184643911|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.78|STANDARD_ERROR_OF_MEAN|1.038||0.0083||95.0|0.73|4.83|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||4.83|0.73|0.0083
92369563|NCT00301262|184643912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.06|STANDARD_DEVIATION|5.193||0.9146||95.0|-1.218|1.093|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.093|-1.218|0.9146
92369564|NCT00301262|184643912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.54|STANDARD_DEVIATION|6.463|<|0.0001||95.0|3.961|7.114|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||7.114|3.961|<0.0001
92369565|NCT00301262|184643913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.42|STANDARD_ERROR_OF_MEAN|4.826||0.0002||95.0|8.88|27.96|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||27.96|8.88|0.0002
92369566|NCT00301262|184643914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.41|STANDARD_DEVIATION|20.444||0.0064||95.0|1.857|10.956|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||10.956|1.857|0.0064
92369567|NCT00301262|184643914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|26.8|STANDARD_DEVIATION|29.384|<|0.0001|TWO_SIDED|95.0|19.636|33.971|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||33.971|19.636|<0.0001
92369568|NCT00301262|184643915|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.491||||0.0001||95.0|3.042|13.851|||Regression, Logistic|||||13.851|3.042|0.0001
92369569|NCT00301262|184643916|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.915|||<|0.0001||95.0|2.396|10.08|||Regression, Logistic|||||10.080|2.396|<0.0001
92369570|NCT00301262|184643917|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.676||||0.0187||95.0|1.242|10.875|||Regression, Logistic|||||10.875|1.242|0.0187
92369571|NCT00301262|184643918|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.9|STANDARD_ERROR_OF_MEAN|4.716||0.0037||95.0|4.59|23.22|||independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||23.22|4.59|0.0037
92369572|NCT00301262|184643919|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.72|STANDARD_ERROR_OF_MEAN|4.496||0.0321||95.0|0.84|18.6|||independent-samples t-test||Mean Difference = Week 8 - Baseline|||18.60|0.84|0.0321
92405866|NCT02106390|184702038|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMVNZ + MenACWY versus MenACWY) was \> 0.5 for all serogroups A, C, W-135 and Y.|GMT ratio|1.07|||||TWO_SIDED|95.0|0.83|1.38|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||Serogroup C-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + Men ACWY versus MenACWY) was performed for the serogroup C at one month after the fourth vaccination.||1.38|0.83|
92405867|NCT02106390|184702038|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMVNZ + MenACWY versus MenACWY) was \> 0.5 for all serogroups A, C, W-135 and Y.|GMT ratio|1.34|||||TWO_SIDED|95.0|1.04|1.74|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||Serogroup W-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + Men ACWY versus MenACWY) was performed for the serogroup W-135 at one month after the fourth vaccination.||1.74|1.04|
92369573|NCT00301262|184643920|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.97|STANDARD_ERROR_OF_MEAN|3.901||0.0427||95.0|-15.68|-0.27|||independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||-0.27|-15.68|0.0427
92369574|NCT00301262|184643921|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.6|STANDARD_ERROR_OF_MEAN|3.903||0.0533||95.0|-15.32|0.11|||independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||0.11|-15.32|0.0533
92369575|NCT00301262|184643922|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.167|STANDARD_ERROR_OF_MEAN|0.3041||0.0002||95.0|0.566|1.768|||2-sample independent t-test||A 2-sample independent t-test was used to test the difference between treatment for the change between baseline and Week 8 (change = Week 8 - baseline).|||1.768|0.566|0.0002
92369576|NCT00301262|184643923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.4454|STANDARD_ERROR_OF_MEAN|0.3638||0.0001||95.0|0.727|2.164|||2-sample independent t-test||A 2-sample independent t-test was used to test the difference between treatment for the change between baseline and Week 8 (change = Week 8 - baseline).|||2.164|0.727|0.0001
92369577|NCT00301262|184643924|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.1821|STANDARD_ERROR_OF_MEAN|0.3946||0.0032||95.0|0.403|1.961|||2-sample independent t-test||A 2-sample independent t-test was used to test the difference between treatment for the change between baseline and Week 8 (change = Week 8 - baseline).|||1.961|0.403|0.0032
92369578|NCT00301262|184643925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.2123|STANDARD_ERROR_OF_MEAN|0.3549||0.0008||95.0|0.511|1.913|||2-sample independent t-test||A 2-sample independent t-test was used to test the difference between treatment for the change between baseline and Week 8 (change = Week 8 - baseline).|||1.913|0.511|0.0008
92369579|NCT00301262|184643926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.39|STANDARD_DEVIATION|1.454||0.0195||95.0|0.064|0.711|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||0.711|0.064|0.0195
92369580|NCT00301262|184643926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.09|STANDARD_DEVIATION|2.207|<|0.0001||95.0|1.551|2.628|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||2.628|1.551|<0.0001
92369581|NCT00301262|184643927|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.4|STANDARD_DEVIATION|1.489||0.0186||95.0|0.069|0.731|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||0.731|0.069|0.0186
92369582|NCT00301262|184643927|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.67|STANDARD_DEVIATION|2.573|<|0.0001||95.0|2.044|3.299|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||3.299|2.044|<0.0001
92369583|NCT00301262|184643928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.65|STANDARD_DEVIATION|1.917||0.0033||95.0|0.223|1.077|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.077|0.223|0.0033
92369584|NCT00301262|184643928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.61|STANDARD_DEVIATION|2.335|<|0.0001||95.0|2.042|3.182|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||3.182|2.042|<0.0001
92369585|NCT00301262|184643929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.45|STANDARD_DEVIATION|1.606||0.0143||95.0|0.093|0.807|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||0.807|0.093|0.0143
92369586|NCT00301262|184643929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.99|STANDARD_DEVIATION|2.178|<|0.0001||95.0|1.454|2.516|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||2.516|1.454|<0.0001
92369587|NCT00301262|184643930|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0325||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||0.0325
92369588|NCT00301262|184643930|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||<0.0001
92369589|NCT00301262|184643931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0196||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||0.0196
92405868|NCT02106390|184702038|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMVNZ + MenACWY versus MenACWY) was \> 0.5 for all serogroups A, C, W-135 and Y.|GMT ratio|1.05|||||TWO_SIDED|95.0|0.82|1.35|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||Serogroup Y-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + Men ACWY versus MenACWY) was performed for the serogroup Y at one month after the fourth vaccination.||1.35|0.82|
92405869|NCT05571605|184702081|OTHER|||||||0.05|||||||ANOVA|||||||0.05
92405870|NCT01285323|184702170|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio (reslizumab vs placebo)|0.4063|||<|0.0001|TWO_SIDED|95.0|0.2819|0.5855||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||0.5855|0.2819|<0.0001
92369590|NCT00301262|184643931|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||<0.0001
92369591|NCT00301262|184643932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||0.3173
92369592|NCT00301262|184643932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||0.0016
92369593|NCT00301262|184643933|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-5.55|STANDARD_ERROR_OF_MEAN|2.958||0.0624||95.0|-11.39|0.29|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||0.29|-11.39|0.0624
92369594|NCT00301262|184643933|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.38|STANDARD_ERROR_OF_MEAN|1.835||0.4523||95.0|-2.24|5.01|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||5.01|-2.24|0.4523
92369595|NCT00301262|184643934|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.48|STANDARD_ERROR_OF_MEAN|1.962||0.2081||95.0|-6.35|1.4|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||1.40|-6.35|0.2081
92369596|NCT00301262|184643934|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.61|STANDARD_ERROR_OF_MEAN|1.958||0.4131||95.0|-2.26|5.48|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||5.48|-2.26|0.4131
92369597|NCT00301262|184643935|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.77|STANDARD_ERROR_OF_MEAN|2.126||0.4069||95.0|-5.97|2.43|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||2.43|-5.97|0.4069
92405871|NCT01285323|184702171|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.0397||0.0109|TWO_SIDED|95.0|0.023|0.179||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active - placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||0.179|0.023|0.0109
92405872|NCT01285323|184702172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.0317||0.0037|TWO_SIDED|95.0|0.03|0.155||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active-placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||0.155|0.030|0.0037
92405873|NCT01285323|184702173|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.937||0.0259|TWO_SIDED|95.0|0.025|0.393||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active - placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||0.393|0.025|0.0259
92405874|NCT01285323|184702174|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.196|STANDARD_ERROR_OF_MEAN|0.0664||0.0032|TWO_SIDED|95.0|-0.327|-0.066||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active - placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||-0.066|-0.327|0.0032
92227307|NCT00927368|184356882|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating catheter minus mean stimulating needle is greater than 0.5 points).|Mean Difference (Final Values)|5.0||||0.04|TWO_SIDED|95.0|-17.0|34.0||Significance criterion of 0.02082 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing stimulating catheter to stimulating needle on the log of cumulative opioid consumption score for a patient in the first 48 hours.||34|-17|0.04
92227308|NCT00927368|184356882|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating needle minus mean stimulating catheter is greater than 0.5 points).|Mean Difference (Final Values)|-5.0||||0.002|TWO_SIDED|95.0|-25.0|21.0||Significance criterion of 0.00347 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing stimulating needle to stimulating catheter on the log of cumulative opioid consumption score for a patient in the first 48 hours.||21|-25|0.002
92227309|NCT00927368|184356882|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating catheter minus mean ultrasound alone is greater than 0.5 points).|Mean Difference (Final Values)|3.0||||0.03|TWO_SIDED|95.0|-25.0|21.0||Significance criterion of 0.01735 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing stimulating catheter to ultrasound alone on the log of cumulative opioid consumption score for a patient in the first 48 hours.||21|-25|0.03
92405875|NCT01285323|184702175|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.486|||<|0.0001|TWO_SIDED|95.0|0.353|0.67|||Regression, Cox|Stratified by baseline usage of oral corticosteroid (yes or no) and geographical region (US or other).|Reslizumab vs placebo|Kaplan-Meier estimate of probability (5) of not experiencing a CAE by week 52. The first CAEs for each patient occurring after randomization and up to 2 weeks after the end of treatment period were analyzed. Patients without a CAE within this time frame were censored at two weeks after the treatment completion date or study discontinuation, whichever came first.||0.670|0.353|<0.0001
92227310|NCT00927368|184356882|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean ultrasound alone minus mean stimulating catheter is greater than 0.5 points).|Mean Difference (Final Values)|-3.0||||0.005|TWO_SIDED|95.0|-24.0|23.0||Significance criterion of 0.00694 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing ultrasound alone to stimulating catheter on the log of cumulative opioid consumption score for a patient in the first 48 hours.||23|-24|0.005
92227311|NCT00927368|184356882|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating needle minus mean ultrasound alone is greater than 0.5 points).|Mean Difference (Final Values)|-2.0||||0.006|TWO_SIDED|95.0|-22.0|25.0||Significance criterion of 0.01041 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing stimulating needle to ultrasound alone on the log of cumulative opioid consumption score for a patient in the first 48 hours.||25|-22|0.006
92227312|NCT00927368|184356882|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean ultrasound alone minus mean stimulating needle is greater than 0.5 points).|Mean Difference (Final Values)|2.0||||0.02|TWO_SIDED|95.0|-20.0|29.0||Significance criterion of 0.01388 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing ultrasound alone to stimulating needle on the log of cumulative opioid consumption score for a patient in the first 48 hours.||29|-20|0.02
92227313|NCT00927368|184356883|SUPERIORITY_OR_OTHER|||||||0.11|||||||ANOVA|||Stimulating needle versus stimulating catheter.||||0.11
92446262|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.141||0.5513|TWO_SIDED|95.0|-0.36|0.2|||MMRM|||Somatic Symptoms General, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.36|0.5513
92369598|NCT00301262|184643935|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.37|STANDARD_ERROR_OF_MEAN|1.489||0.1137||95.0|-0.57|5.31|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||5.31|-0.57|0.1137
92369599|NCT00301262|184643936|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-12.23|STANDARD_ERROR_OF_MEAN|4.829||0.0123||95.0|-21.77|-2.7|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||-2.70|-21.77|0.0123
92369600|NCT00301262|184643936|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|4.883||0.8993||95.0|-10.27|9.03|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||9.03|-10.27|0.8993
92369601|NCT00301262|184643937|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|22.03|STANDARD_ERROR_OF_MEAN|5.458|<|0.0001||95.0|11.25|32.81|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||32.81|11.25|<0.0001
92369602|NCT00301262|184643937|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.74|STANDARD_ERROR_OF_MEAN|5.818||0.4165||95.0|-16.24|6.76|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||6.76|-16.24|0.4165
92369603|NCT00301262|184643938|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.8|STANDARD_ERROR_OF_MEAN|4.351||0.0257||95.0|1.21|18.39|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||18.39|1.21|0.0257
92369604|NCT00301262|184643938|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-5.36|STANDARD_ERROR_OF_MEAN|3.209||0.0971||95.0|-11.7|0.98|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||0.98|-11.70|0.0971
92369605|NCT00301262|184643939|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-3.18|STANDARD_ERROR_OF_MEAN|1.754||0.0726||95.0|-6.66|0.3|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||0.30|-6.66|0.0726
92405876|NCT01285323|184702176|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.012||0.0037|TWO_SIDED|95.0|0.011|0.059||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active - placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||0.059|0.011|0.0037
92369606|NCT00301262|184643939|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.04|STANDARD_ERROR_OF_MEAN|1.798||0.2581||95.0|-5.61|1.52|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||1.52|-5.61|0.2581
92405877|NCT01285323|184702177|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.062|STANDARD_ERROR_OF_MEAN|0.1775||0.7263|TWO_SIDED|95.0|-0.411|0.287||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active - placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||0.287|-0.411|0.7263
92369607|NCT00301262|184643940|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.04|STANDARD_ERROR_OF_MEAN|4.45||0.8158||95.0|-9.86|7.78|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||7.78|-9.86|0.8158
92369608|NCT00301262|184643940|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|1.692||0.8464||95.0|-3.68|3.02|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||3.02|-3.68|0.8464
92227314|NCT00927368|184356883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.0||||0.01|TWO_SIDED|95.0|6.0|75.0|||ANOVA|||Stimulating needle versus ultrasound guidance alone||75|6|0.01
92369609|NCT00301262|184643941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|5.789||0.9529||95.0|-11.82|11.13|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||11.13|-11.82|0.9529
92369610|NCT00301262|184643941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.69|STANDARD_ERROR_OF_MEAN|4.994||0.8899||95.0|-10.59|9.2|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||9.20|-10.59|0.8899
92369611|NCT00301262|184643942|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-10.18|STANDARD_ERROR_OF_MEAN|7.897||0.2001||95.0|-25.83|5.47|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||5.47|-25.83|0.2001
92369612|NCT00301262|184643942|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.68|STANDARD_ERROR_OF_MEAN|6.724||0.1527||95.0|-3.64|23.01|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||23.01|-3.64|0.1527
92405878|NCT01285323|184702180|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio (reslizumab vs placebo)|0.3893|||<|0.0001|TWO_SIDED|95.0|0.2621|0.5782||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||CAE Due to Requiring Systemic Corticosteroids The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||0.5782|0.2621|<0.0001
92405879|NCT01285323|184702180|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio|0.6686||||0.402|TWO_SIDED|95.0|0.2878|1.6479||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||CAE Due to Hospitalization or ER visit The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||1.6479|0.2878|0.4020
92405880|NCT02606643|184702184|SUPERIORITY_OR_OTHER|||||||0.814|||||||Chi-squared|||an alpha level of .05, and a level of power of 80%. These parameters required a sample size of 63 patients per group||||0.814
92405881|NCT02158546|184702189|SUPERIORITY||Least square means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.95||0.782|TWO_SIDED|95.0|-2.1|1.6|||Mixed Models Analysis|||||1.6|-2.1|0.782
92405882|NCT03418714|184702204|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||T test on the change in network activity across all networks, from before to after salvinorin A administration.||||.006
92405883|NCT03418714|184702205|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||T test on the change in within- and between-network connectivity across all values, from before to after salvinorin A administration.||||.001
92405884|NCT00561925|184702206|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of nevirapine XR to nevirapine IR was established if the lower bound of the confidence interval was greater than -10%|Cochran's statistic|4.9|||<|0.0001||95.0|-0.1|10.0|||Cochran's statistic||Weighted treatment difference and corresponding variance were calculated based on Cochran's statistic.|||10.0|-0.1|<0.0001
92405885|NCT00561925|184702208|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of nevirapine XR to nevirapine IR was established if the lower bound of the confidence interval was greater than -2%|Cochran's statistic|4.84|||<|0.0001||95.0|-1.11|10.79|||Cochran's statistic||Weighted treatment difference and corresponding variance were calculated based on Cochran's statistic.|||10.79|-1.11|<0.0001
92405886|NCT00561925|184702210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.7719||95.0|-0.08|0.06|||ANCOVA|Means adjusted for baseline HIV-1 viral load stratum||||0.06|-0.08|0.7719
92405887|NCT00561925|184702211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.87||||0.0078||95.0|8.67|57.06|||ANCOVA|Means adjusted for baseline HIV-1 viral load stratum||||57.06|8.67|0.0078
92405888|NCT00561925|184702219|NON_INFERIORITY_OR_EQUIVALENCE|equivalence test with 80% -125% boundaries|adjusted gMean|79.58|STANDARD_ERROR_OF_MEAN|1.04||0.5542||90.0|74.62|84.86||p-value for ratio outside the interval 80%-125%|ANOVA||Inter-individual gCV = 49.9|adjusted geometric mean ratio NVP XR : NVP IR||84.86|74.62|0.5542
92405889|NCT00684021|184702223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|2.0||0.959|TWO_SIDED|95.0|-4.1|3.9|||t-test, 2 sided|Stem cell treatment arm combined (Day 3 and Day7); placebo group also combined.||||3.9|-4.1|0.959
92405890|NCT00684021|184702224|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96||||0.93|TWO_SIDED|95.0|0.42|2.23|||Fisher Exact|||Clinical and Safety Outcomes including death, reinfarction, repeat revascularization, hospitalization for heart failure and ICD placement. The relative incidences of events are compared between the active and placebo groups.However the paucity of events precluded a reliable time to event analysis.||2.23|0.42|0.93
92405891|NCT00684021|184702225|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|4.8||0.585|TWO_SIDED|95.0|-12.2|6.9|||Regression, Linear|||Day 3 Stem Cell Arm and Day 7 Stem Cell Arm were combined and compared to the combination of Day 3 Placebo and Day 7 Placebo arms.||6.9|-12.2|0.585
92405892|NCT00684021|184702226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|3.7||0.831|TWO_SIDED|95.0|-6.6|8.2|||Regression, Linear|||Day 3 Stem Cell Arm and Day 7 Stem Cell Arm were combined and compared to the combination of Day 3 Placebo and Day 7 Placebo arms.||8.2|-6.6|0.831
92405893|NCT00684021|184702227|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|3.7||0.817|TWO_SIDED|95.0|-5.5|7.0|||Regression, Linear|||Day 3 Stem Cell Arm and Day 7 Stem Cell Arm were combined and compared to the combination of Day 3 Placebo and Day 7 Placebo arms.||7.0|-5.5|0.817
92405894|NCT00684021|184702228|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7|STANDARD_ERROR_OF_MEAN|4.27||0.272|TWO_SIDED|95.0|-13.7|3.67|||Regression, Linear|||Day 3 Stem Cell Arm and Day 7 Stem Cell Arm were combined and compared to the combination of Day 3 Placebo and Day 7 Placebo arms.||3.67|-13.7|0.272
92405895|NCT00684021|184702229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|1.1||0.409|TWO_SIDED|95.0|-3.0|1.2|||t-test, 2 sided|Stem cell treatment arm combined (Day 3 and Day7); placebo group also combined.||||1.2|-3.0|0.409
92405896|NCT00684021|184702229|SUPERIORITY_OR_OTHER||Mean Difference (Net)|100.0|STANDARD_ERROR_OF_MEAN|0.01||0.02|TWO_SIDED|95.0|15.0|1000.0|||Regression, Linear|||||1000|15|0.02
92405897|NCT00684021|184702230|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.7||0.777|TWO_SIDED|95.0|-3.9|2.9|||t-test, 2 sided|Stem cell treatment arm combined (Day 3 and Day7); placebo group also combined.||||2.9|-3.9|0.777
92405898|NCT01208207|184702235|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The etoricoxib dose (90 mg) will be considered non-inferior to naproxen 1000 mg if the upper bound of the two-sided 95% confidence interval of the between-treatment difference in the least squares (LS) mean (etoricoxib minus naproxen 1000 mg) is no larger than 8 mm VAS (non-inferiority margin).|Difference in Least Squares Mean|-0.64|||||TWO_SIDED|95.0|-5.47|4.19|||ANCOVA|||||4.19|-5.47|
92369613|NCT00301262|184643943|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.74|STANDARD_ERROR_OF_MEAN|7.774||0.0606||95.0|-0.67|30.15|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||30.15|-0.67|0.0606
92369614|NCT00301262|184643943|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.62|STANDARD_ERROR_OF_MEAN|7.318||0.3678||95.0|-21.12|7.88|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||7.88|-21.12|0.3678
92369615|NCT00301262|184643944|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.56|STANDARD_ERROR_OF_MEAN|7.474||0.5429||95.0|-10.25|19.37|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||19.37|-10.25|0.5429
92369616|NCT00301262|184643944|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.07|STANDARD_ERROR_OF_MEAN|5.595||0.5849||95.0|-8.02|14.15|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||14.15|-8.02|0.5849
92369617|NCT00301262|184643945|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|18.86|STANDARD_ERROR_OF_MEAN|4.952||0.0002||95.0|9.08|28.64|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||28.64|9.08|0.0002
92369618|NCT00301262|184643945|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.93|STANDARD_ERROR_OF_MEAN|6.212||0.429||95.0|-7.35|17.2|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||17.20|-7.35|0.4290
92369619|NCT01668628|184643952|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||t-test, 2 sided|||Student's t-test: Comparison of baseline physical health score between Normohydration group and Overhydration group.||||0.008
92369620|NCT01668628|184643952|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||t-test, 2 sided|||Student's t test: Comparison of baseline mental health score between Normohydration group and Overhydration group.||||0.008
92369621|NCT01668628|184643952|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||t-test, 2 sided|||Student's t test: Comparison of baseline kidney disease component score between Normohydration group and Overhydration group||||0.008
92369622|NCT01668628|184643952|SUPERIORITY_OR_OTHER|||||||0.157|TWO_SIDED||||||t-test, 2 sided|||Student's t test: Comparison of baseline BDI score between Normohydration group and Overhydration group.||||0.157
92369623|NCT01716039|184643954|OTHER|Comparing the change in the modified Baron score from baseline to week 18 between the treatment groups||||||0.758|||||||Wilcoxon (Mann-Whitney)|||||||0.758
92369624|NCT01716039|184643954|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92369625|NCT01716039|184643955|OTHER|||||||0.908||||||p-value for the overall treatment difference is based on an analysis of covariance adjusting for baseline UCEIS|ANCOVA|||||||0.908
92369626|NCT02150057|184644095|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92369627|NCT02388165|184644096|SUPERIORITY||Vaccine Efficacy (VE)|0.0|||||TWO_SIDED|95.0|-126.3|55.81|||||VE was calculated as 1-(P/\[1-P\]\*100), where P is the number of SA4Ag cases divided by the total number of cases. The confidence interval (CI) was calculated using the Clopper-Pearson method.|||55.81|-126.30|
92369628|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|8.3|||<|0.001|TWO_SIDED|95.0|6.9|9.8|||Miettinen and Nurminen|||Redness: Any||9.8|6.9|<0.001
92369629|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|4.4|||||TWO_SIDED|95.0|3.3|5.6||||||Redness: Mild||5.6|3.3|
92369630|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|3.0|||||TWO_SIDED|95.0|2.3|4.0||||||Redness: Moderate||4.0|2.3|
92369631|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|0.8|||||TWO_SIDED|95.0|0.5|1.4||||||Redness: Severe||1.4|0.5|
92369632|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|7.0|||<|0.001|TWO_SIDED|95.0|5.7|8.4|||Miettinen and Nurminen|||Swelling: Any||8.4|5.7|<0.001
92369633|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|3.9|||||TWO_SIDED|95.0|2.8|5.0||||||Swelling: Mild||5.0|2.8|
92369634|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|2.4|||||TWO_SIDED|95.0|1.7|3.3||||||Swelling: Moderate||3.3|1.7|
92369635|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|0.7|||||TWO_SIDED|95.0|0.4|1.2||||||Swelling: Severe||1.2|0.4|
92369636|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|15.7|||<|0.001|TWO_SIDED|95.0|13.3|18.1|||Miettinen and Nurminen|||Pain at the injection site: Any||18.1|13.3|<0.001
92369637|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|12.2|||||TWO_SIDED|95.0|10.0|14.5||||||Pain at the injection site: Mild||14.5|10.0|
92369638|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|3.0|||||TWO_SIDED|95.0|1.9|4.2||||||Pain at the injection site: Moderate||4.2|1.9|
92369639|NCT02388165|184644097|SUPERIORITY||Difference in percentage of participants|0.5|||||TWO_SIDED|95.0|0.1|1.0||||||Pain at the injection site: Severe||1.0|0.1|
92369640|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.6||||0.146|TWO_SIDED|95.0|-0.2|1.6|||Miettinen and Nurminen|||Fever: Any||1.6|-0.2|0.146
92369641|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.4|||||TWO_SIDED|95.0|-0.3|1.2||||||Fever: 38.0 degree C to 38.4 degree C||1.2|-0.3|
92369642|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.1|||||TWO_SIDED|95.0|-0.4|0.6||||||Fever: 38.5 degree C to 38.9 degree C||0.6|-0.4|
92369643|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.1|||||TWO_SIDED|95.0|-0.2|0.5||||||Fever: 39.0 degree C to 40.0 degree C||0.5|-0.2|
92369644|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.1|||||TWO_SIDED|95.0|-0.2|0.3||||||Fever: \>40.0 degree C||0.3|-0.2|
92369645|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|2.9||||0.093||95.0|-0.5|6.2|||Miettinen and Nurminen|||Fatigue: Any||6.2|-0.5|0.093
92369646|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|1.4|||||TWO_SIDED|95.0|-0.9|3.7||||||Fatigue: Mild||3.7|-0.9|
92369647|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|1.3|||||TWO_SIDED|95.0|-1.6|4.2||||||Fatigue: Moderate||4.2|-1.6|
92369648|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.2|||||TWO_SIDED|95.0|-1.2|1.6||||||Fatigue: Severe||1.6|-1.2|
92369649|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|1.2||||0.443|TWO_SIDED|95.0|-1.9|4.4|||Miettinen and Nurminen|||Headache: Any||4.4|-1.9|0.443
92369650|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|-0.3|||||TWO_SIDED|95.0|-2.9|2.3||||||Headache: Mild||2.3|-2.9|
92369651|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|1.5|||||TWO_SIDED|95.0|-0.7|3.8||||||Headache: Moderate||3.8|-0.7|
92369652|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.0|||||TWO_SIDED|95.0|-0.8|0.8||||||Headache: Severe||0.8|-0.8|
92369653|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|1.0||||0.462|TWO_SIDED|95.0|-1.6|3.4|||Miettinen and Nurminen|||Diarrhea: Any||3.4|-1.6|0.462
92369654|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.8|||||TWO_SIDED|95.0|-1.5|3.0||||||Diarrhea: Mild||3.0|-1.5|
92369655|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.5||||||95.0|-0.7|1.7||||||Diarrhea: Moderate||1.7|-0.7|
92405899|NCT01208207|184702236|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The etoricoxib dose (60 mg) will be considered non-inferior to naproxen 1000 mg if the upper bound of the two-sided 95% confidence interval of the between-treatment difference in the LS mean (etoricoxib minus naproxen 1000 mg) is no larger than 8 mm VAS (non-inferiority margin).|Difference in Least Squares Mean|1.59|||||TWO_SIDED|95.0|-2.19|5.37|||ANCOVA|||||5.37|-2.19|
92369656|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|-0.4|||||TWO_SIDED|95.0|-1.0|0.2||||||Diarrhea: Severe||0.2|-1.0|
92369657|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|-0.6||||0.3||95.0|-1.8|0.5|||Miettinen and Nurminen|||Vomiting: Any||0.5|-1.8|0.300
92405900|NCT01208207|184702237|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-1.58||||0.396|TWO_SIDED|80.0|-3.96|0.81|||ANCOVA|||||0.81|-3.96|0.396
92369658|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|-0.2|||||TWO_SIDED|95.0|-1.3|0.8||||||Vomiting: Mild||0.8|-1.3|
92227315|NCT00927368|184356883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|67.0|||<|0.001|TWO_SIDED|95.0|31.0|102.0|||ANOVA|||Stimulating catheter versus ultrasound guidance alone||102|31|< 0.001
92369659|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|-0.4||||||95.0|-0.9|0.1||||||Vomiting: Moderate||0.1|-0.9|
92369660|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|1.7||||0.276||95.0|-1.3|4.7|||Miettinen and Nurminen|||Muscle pain: Any||4.7|-1.3|0.276
92369661|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.8|||||TWO_SIDED|95.0|-1.2|2.8||||||Muscle pain: Mild||2.8|-1.2|
92369662|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|1.1|||||TWO_SIDED|95.0|-1.4|3.5||||||Muscle pain: Moderate||3.5|-1.4|
92369663|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|-0.2||||||95.0|-1.2|0.8||||||Muscle pain: Severe||0.8|-1.2|
92369664|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|1.7||||0.273|TWO_SIDED|95.0|-1.3|4.6|||Miettinen and Nurminen|||Joint pain: Any||4.6|-1.3|0.273
92369665|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|1.6|||||TWO_SIDED|95.0|-0.2|3.6||||||Joint pain: Mild||3.6|-0.2|
92369666|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.0|||||TWO_SIDED|95.0|-2.6|2.4||||||Joint pain: Moderate||2.4|-2.6|
92369667|NCT02388165|184644098|SUPERIORITY||Difference in percentage of participants|0.1||||||95.0|-0.9|1.0||||||Joint pain: Severe||1.0|-0.9|
92405901|NCT01208207|184702238|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-2.7||||0.112||80.0|-4.88|-0.52|||ANCOVA|||||-0.52|-4.88|0.112
92405902|NCT03060096|184702285|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||0.29
92405903|NCT03060096|184702286|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
92405904|NCT03060096|184702287|OTHER||Rate|0.764|||||ONE_SIDED|95.0|0.6783||||||||||0.6783|
92369668|NCT02388165|184644106|SUPERIORITY||VE|0.0|||||TWO_SIDED|95.0|-126.3|55.81|||||VE was calculated as 1-(P/\[1-P\]\*100), where P is the number of SA4Ag cases divided by the total number of cases. The CI was calculated using the Clopper-Pearson method.|||55.81|-126.30|
92369669|NCT02388165|184644107|SUPERIORITY||VE|-9.09|||||TWO_SIDED|95.0|-104.06|41.41|||||VE was calculated as 1-(P/\[1-P\]\*100), where P is the number of SA4Ag cases divided by the total number of cases. The CI was calculated using the Clopper-Pearson method.|||41.41|-104.06|
92369670|NCT02388165|184644108|SUPERIORITY||VE|-8.7|||||TWO_SIDED|95.0|-100.42|40.8|||||VE was calculated as 1-(P/\[1-P\]\*100), where P is the number of SA4Ag cases divided by the total number of cases. The CI was calculated using the Clopper-Pearson method.|||40.80|-100.42|
92369671|NCT04551963|184644131|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.49|||||TWO_SIDED|90.0|0.42|0.56||||||Arm A: Zanubrutinib alone vs. Zanubrutinib + fluconazole||0.56|0.42|
92369672|NCT04551963|184644131|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.42|||||TWO_SIDED|90.0|0.34|0.51||||||Arm a: Zanubrutinib alone vs. Zanubrutinib + diltiazem||0.51|0.34|
92369673|NCT04551963|184644132|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.81|||||TWO_SIDED|90.0|0.66|0.99||||||Arm B: Zanubrutinib alone vs. zanubrutinib + voriconazole||0.99|0.66|
92405905|NCT01055197|184702297|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.2103|TWO_SIDED|95.0|0.82|2.53|||Log Rank|||The null hypothesis (H0) was that PCI + RT is not effective versus the alternative hypothesis (H1) that PCI + RT is effective. Assumptions were that PCI alone would have hazard rate λc of 1.204 and PCI + RT a hazard rate λc of 0.799 (hazard ratio λt/λc = 0.663). At each planned analysis, the p-value from the log-rank test statistic assessing overall survival was compared to the nominal significance level. The final targeted accrual was 154.||2.53|0.82|0.2103
92405906|NCT01055197|184702298|SUPERIORITY|||||||0.24|||||||Fisher Exact|2-sided significance level of 0.05||||||0.24
92405907|NCT01055197|184702300|SUPERIORITY|||||||0.0102|||||||Log Rank|2-sided significance level of 0.05||||||0.0102
92405908|NCT01782378|184702314|SUPERIORITY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.33|<|0.01|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.01
92405909|NCT01782378|184702315|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.88||0.88|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||0.88
92405910|NCT01782378|184702316|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.59||0.81|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||0.81
92405911|NCT01782378|184702317|SUPERIORITY||Mean Difference (Final Values)|3.52|STANDARD_ERROR_OF_MEAN|2.88||0.23|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||0.23
92405912|NCT01782378|184702318|SUPERIORITY||Mean Difference (Final Values)|11.39|STANDARD_ERROR_OF_MEAN|7.08|<|0.12|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.12
92227316|NCT00927368|184356884|SUPERIORITY_OR_OTHER||incremental cost, measured in dollars|14.0|||||TWO_SIDED||||||||Incremental cost (additional cost of stimulating needle compared to ultrasound alone).|We calculated incremental cost, defined as the additional cost of one strategy to the next less costly strategy.||||
92227317|NCT00927368|184356884|SUPERIORITY_OR_OTHER||incremental cost, measured in dollars|36.0|||||TWO_SIDED||||||||We estimated incremental cost, or additional cost of stimulating needle + catheter stimulation to stimulating needle alone.|We calculated incremental cost, defined as the additional cost of one strategy to the next less costly strategy.||||
92405913|NCT01782378|184702319|SUPERIORITY||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|2.93|<|0.52|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.52
92405914|NCT01782378|184702320|SUPERIORITY||Mean Difference (Final Values)|3.92|STANDARD_ERROR_OF_MEAN|3.51|<|0.27|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.27
92405915|NCT01782378|184702321|SUPERIORITY||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|2.26|<|0.37|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.37
92405916|NCT01782378|184702322|SUPERIORITY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.78|<|0.36|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.36
92405917|NCT01782378|184702323|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.68|<|0.46|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.46
92405918|NCT01782378|184702324|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.83|<|0.84|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.84
92405919|NCT01782378|184702325|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.75|<|0.93|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.93
92405920|NCT01782378|184702326|SUPERIORITY||Mean Difference (Final Values)|0.56|STANDARD_ERROR_OF_MEAN|3.02|<|0.85|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.85
92227318|NCT00927368|184356884|SUPERIORITY_OR_OTHER||incremental cost, measured in dollars|50.0|||||TWO_SIDED||||||||We calculated incremental cost, or the additional cost of stimulating needle + stimulating catheter to ultrasound alone.|We calculated incremental cost, defined as the additional cost of one strategy to the next less costly strategy.||||
92227319|NCT00964431|184356906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.545|STANDARD_ERROR_OF_MEAN|1.8912|<|0.001|TWO_SIDED|95.0|5.816|13.275|||ANCOVA|||||13.275|5.816|<0.001
92227320|NCT00356031|184356914|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<.05
92405921|NCT01782378|184702327|SUPERIORITY|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.|Mean Difference (Final Values)|-14.43|STANDARD_ERROR_OF_MEAN|12.54|<|0.26|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results that were considered credible.||||||<0.26
92369674|NCT04551963|184644132|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.49|||||TWO_SIDED|90.0|0.41|0.58||||||Arm B: Zanubrutinib alone vs zanubrutinib + clarithromycin||0.58|0.41|
92369675|NCT04551963|184644133|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.94|||||TWO_SIDED|90.0|0.82|1.08||||||Arm A: Zanubrutinib alone vs. zanubrutinib + fluconazole||1.08|0.82|
92369676|NCT04551963|184644133|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.81|||||TWO_SIDED|90.0|0.66|0.99||||||Arm A: Zanubrutinib alone vs. zanubrutinib + diltiazem||0.99|0.66|
92369677|NCT04551963|184644134|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.83|||||TWO_SIDED|90.0|0.65|1.06||||||Arm B: Zanubrutinib alone vs. zanubrutinib + voriconazole||1.06|0.65|
92369678|NCT04551963|184644134|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.48|||||TWO_SIDED|90.0|0.4|0.58||||||Arm B: Zanubrutinib alone vs zanubrutinib + clarithromycin||0.58|0.40|
92369679|NCT04551963|184644135|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.45|||||TWO_SIDED|90.0|0.35|0.58||||||Arm A: Zanubrutinib alone vs. zanubrutinib + fluconazole||0.58|0.35|
92405922|NCT01782378|184702328|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|1.7|<|0.45|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.45
92405923|NCT01782378|184702329|SUPERIORITY||Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|1.18|<|0.46|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.46
92369680|NCT04551963|184644135|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.41|||||TWO_SIDED|90.0|0.32|0.51||||||Arm A: Zanubrutinib alone vs. zanubrutinib + diltiazem||0.51|0.32|
92369681|NCT04551963|184644136|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.82|||||TWO_SIDED|90.0|0.68|1.0||||||Arm B: Zanubrutinib alone vs. zanubrutinib + voriconazole||1.00|0.68|
92369682|NCT04551963|184644136|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.5|||||TWO_SIDED|90.0|0.39|0.64||||||Arm B: Zanubrutinib alone vs. zanubrutinib + clarithromycin||0.64|0.39|
92369683|NCT02974855|184644157|SUPERIORITY|Prophylactic treatment with PF-06741086 will be considered superior to On Demand treatment with respect to ABR reduction if 1) the upper limit of the 2-sided 80%CI of the ratio of ABR in PF/historical On Demand is \<1 and 2) the estimate of the ratio of ABR in PF/historical On Demand ≤0.3. Drug will be considered not superior to On Demand treatment if the lower limit of the 2-sided 80%CI of the ratio of PF/historical On Demand \>0.3.|ratio|0.15||||0.0002|TWO_SIDED|80.0|0.08|0.29|||Negative Binomial Model|||The comparator was the Historical on Demand Group||0.29|0.08|0.0002
92369684|NCT02974855|184644157|SUPERIORITY|Prophylactic treatment with PF-06741086 will be considered superior to On Demand treatment with respect to ABR reduction if 1) the upper limit of the 2-sided 80%CI of the ratio of ABR in PF/historical On Demand is \<1 and 2) the estimate of the ratio of ABR in PF/historical On Demand ≤0.3. Drug will be considered not superior to On Demand treatment if the lower limit of the 2-sided 80%CI of the ratio of PF/historical On Demand \>0.3.|ratio|0.05||||0.0001|TWO_SIDED|80.0|0.02|0.14|||Negative Binomial Model|||The comparator was the Historical on Demand Group||0.14|0.02|0.0001
92227321|NCT00356031|184356915|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<.05
92405924|NCT01782378|184702330|SUPERIORITY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|1.44|<|0.64|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.64
92405925|NCT01782378|184702331|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|1.63|<|0.82|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.82
92405926|NCT01782378|184702332|SUPERIORITY||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|2.53|<|0.43|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.43
92405927|NCT01782378|184702333|SUPERIORITY||Mean Difference (Final Values)|0.91|STANDARD_ERROR_OF_MEAN|0.62|<|0.15|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.15
92405928|NCT01782378|184702334|SUPERIORITY||Mean Difference (Final Values)|3.36|STANDARD_ERROR_OF_MEAN|1.86||0.08|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||.08
92405929|NCT01782378|184702335|SUPERIORITY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.83|<|0.7|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.7
92405930|NCT01782378|184702336|SUPERIORITY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.5|<|0.48|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.48
92405931|NCT01782378|184702337|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.16|<|0.02|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.02
92405932|NCT01782378|184702338|SUPERIORITY||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.19|<|0.36|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.36
92405933|NCT01782378|184702339|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.88|<|0.82|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.82
92405934|NCT01782378|184702340|SUPERIORITY||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|0.84|<|0.2|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.2
92405935|NCT01782378|184702341|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.86|<|0.71|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.71
92405936|NCT01782378|184702342|SUPERIORITY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.73|<|0.85|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.85
92405937|NCT01782378|184702343|SUPERIORITY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.94|<|0.44|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.44
92405938|NCT02233517|184702347|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.51||0.84|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.84
92405939|NCT02233517|184702347|SUPERIORITY||Slope|0.23|STANDARD_ERROR_OF_MEAN|0.52|<|0.44|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||<0.44
92405940|NCT02233517|184702347|SUPERIORITY||Slope|0.5|STANDARD_ERROR_OF_MEAN|0.51||0.33|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.33
92227322|NCT01058096|184356953|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.3||||0.0004|TWO_SIDED|95.0|-6.7|-1.9|||Mixed Models Analysis||cariprazine - placebo|||-1.9|-6.7|0.0004
92227323|NCT01058096|184356954|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.4||||0.0027|TWO_SIDED|95.0|-0.7|-0.1|||MMRM analysis||cariprazine - placebo|||-0.1|-0.7|0.0027
92227324|NCT05099640|184356959|OTHER||LS Mean Difference|-395.87|STANDARD_ERROR_OF_MEAN|33.848|<|0.0001|TWO_SIDED|95.0|-463.07|-328.66|||Mixed Models Analysis|||||-328.66|-463.07|<0.0001
92227325|NCT05099640|184356960|OTHER||LS Mean Difference|-64.22|STANDARD_ERROR_OF_MEAN|4.973|<|0.0001|TWO_SIDED|95.0|-74.09|-54.35|||Mixed Models Analysis|||||-54.35|-74.09|<0.0001
92227326|NCT05099640|184356961|OTHER||Odds Ratio (OR)|30.33|||<|0.0001|TWO_SIDED|95.0|5.3|294.24|||Chi-squared|||||294.24|5.30|<0.0001
92227327|NCT05099640|184356962|OTHER||Odds Ratio (OR)|51.54|||<|0.0001|TWO_SIDED|95.0|12.28|245.34|||Chi-squared|||||245.34|12.28|<0.0001
92280372|NCT04543136|184463462|SUPERIORITY||Mean Difference (Final Values)|6.8||||0.576|TWO_SIDED|95.0|-17.6|31.3||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||31.3|-17.6|0.576
92369685|NCT02974855|184644157|SUPERIORITY|Prophylactic treatment with PF-06741086 will be considered superior to On Demand treatment with respect to ABR reduction if 1) the upper limit of the 2-sided 80%CI of the ratio of ABR in PF/historical On Demand is \<1 and 2) the estimate of the ratio of ABR in PF/historical On Demand ≤0.3. Drug will be considered not superior to On Demand treatment if the lower limit of the 2-sided 80%CI of the ratio of PF/historical On Demand \>0.3.|ratio|0.15||||0.0002|TWO_SIDED|80.0|0.08|0.29|||Negative Binomial Model|||The comparator was the Historical on Demand Group||0.29|0.08|0.0002
92369686|NCT02974855|184644157|SUPERIORITY|Prophylactic treatment with PF-06741086 will be considered superior to On Demand treatment with respect to ABR reduction if 1) the upper limit of the 2-sided 80%CI of the ratio of ABR in PF/historical On Demand is \<1 and 2) the estimate of the ratio of ABR in PF/historical On Demand ≤0.3. Drug will be considered not superior to On Demand treatment if the lower limit of the 2-sided 80%CI of the ratio of PF/historical On Demand \>0.3.|ratio|0.03||||0.0005|TWO_SIDED|80.0|0.01|0.1|||Negative Binomial Model|||The comparator was the Historical on Demand Group||0.10|0.01|0.0005
92369687|NCT02974855|184644157|SUPERIORITY|Prophylactic treatment with PF-06741086 will be considered superior to On Demand treatment with respect to ABR reduction if 1) the upper limit of the 2-sided 80%CI of the ratio of ABR in PF/historical On Demand is \<1 and 2) the estimate of the ratio of ABR in PF/historical On Demand ≤0.3. Drug will be considered not superior to On Demand treatment if the lower limit of the 2-sided 80%CI of the ratio of PF/historical On Demand \>0.3.|ratio|0.09|||<|0.0001|TWO_SIDED|80.0|0.05|0.16|||Negative Binomial Model|||The comparator was the Historical on Demand Group||0.16|0.05|<0.0001
92369688|NCT02974855|184644157|SUPERIORITY||ratio|0.18|||<|0.0001|TWO_SIDED|80.0|0.11|0.31|||Negative Binomial Model|||On-Study versus Pre-Treatment||0.31|0.11|<0.0001
92369689|NCT02974855|184644157|SUPERIORITY||ratio|0.1||||0.0002|TWO_SIDED|80.0|0.04|0.22|||Negative Binomial Model|||On-Study versus Pre-Treatment||0.22|0.04|0.0002
92369690|NCT02974855|184644157|SUPERIORITY||ratio|0.2||||0.0154|TWO_SIDED|80.0|0.09|0.47|||Negative Binomial Model|||On-Study versus Pre-Treatment||0.47|0.09|0.0154
92369691|NCT02974855|184644157|SUPERIORITY||ratio|0.04||||0.0005|TWO_SIDED|80.0|0.01|0.14|||Negative Binomial Model|||On-Study versus Pre-Treatment||0.14|0.01|0.0005
92369692|NCT02974855|184644157|SUPERIORITY||ratio|0.12|||<|0.0001|TWO_SIDED|80.0|0.08|0.2|||Negative Binomial Model|||On-Study versus Pre-Treatment||0.20|0.08|<0.0001
92369693|NCT01474772|184644174|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.12||0.0659|TWO_SIDED|95.0|-0.46|0.01||Primary analysis was two-sided and performed at the 0.05 significance level. The study was considered positive only if both co-primary endpoints had p-values that were less than 0.05, hence there was no need for multiplicity adjustment.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline pain, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. Last observation carried forward (LOCF) approach was applied.||0.01|-0.46|0.0659
92227328|NCT05099640|184356963|OTHER||LS Mean Difference|-289.89|STANDARD_ERROR_OF_MEAN|33.44|<|0.0001|TWO_SIDED|95.0|-356.29|-223.5|||Mixed Models Analysis|||Weeks 1 and 2: Sepiapterin vs. Placebo||-223.50|-356.29|<0.0001
92405941|NCT02233517|184702348|SUPERIORITY|Estimation parameter is interaction of session by therapy, or estimate of difference in mean between CBT and PCT per time point. Positive value is less decrease over time in CBT arm (greater decrease in anger over time in PCT).|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.1||0.26|TWO_SIDED||||||Mixed Models Analysis|||Multilevel model of therapy type (1=CBT, 2=PCT), gender, and time on DAR scores, using data from baseline, 12 sessions, post-treatment, 3-month and 6-month follow up.||||0.26
92405942|NCT02233517|184702349|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|1.16||0.9|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.90
92405943|NCT02233517|184702349|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|1.16||0.85|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.85
92405944|NCT02233517|184702349|SUPERIORITY||Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|1.16||0.79|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.79
92405945|NCT02233517|184702350|SUPERIORITY||Mean Difference (Net)|-2.3|STANDARD_DEVIATION|3.2||0.05|TWO_SIDED|95.0|-4.5|-0.002|||t-test, 2 sided|||This is the comparison of change in means for cognitive-behavioral vs. present-centered therapy from baseline to post-treatment for the Extent of Participation scale.||-.002|-4.5|0.05
92405946|NCT02233517|184702350|SUPERIORITY||Mean Difference (Net)|-0.47|STANDARD_DEVIATION|2.09||0.53|TWO_SIDED|95.0|-2.03|1.08|||t-test, 2 sided|||This is the comparison of change in means for cognitive-behavioral vs. present-centered therapy from baseline to post-treatment for the Perceived Limitations scale.||1.08|-2.03|0.53
92369694|NCT01474772|184644175|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.291|STANDARD_ERROR_OF_MEAN|0.128||0.0242|TWO_SIDED|95.0|-0.543|-0.038||Primary analysis was two-sided and performed at the 0.05 significance level. Unstructured covariance structure was used to estimate the within-participant errors.|Repeated measure mixed effects model|The Kenward-Roger method was used to estimate denominator degrees of freedom.||This longitudinal analysis was a sensitivity analysis of the primary endpoint. P-value was based on a repeated measure mixed effects model including pooled center, time point, treatment, an indicator variable for Week 6 as well as interaction terms as fixed effect factors. For analysis purpose, it is assumed that participants were on placebo at Baseline, took the same treatment as in Period 1 during Week 1 of washout, and were on placebo in Week 2 of washout.||-0.038|-0.543|0.0242
92369695|NCT01474772|184644176|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.16||0.412|TWO_SIDED|95.0|-0.44|0.18||Primary analysis was two-sided and performed at the 0.05 significance level. The study was considered positive only if both co-primary endpoints have p-values that are less than 0.05, hence there was no need for multiplicity adjustment.|Mixed-Effect Model Repeated Measures|Satterthwaite's approximation was used to estimate denominator degrees of freedom.||Analysis was done using a repeated measure linear mixed effects model including baseline pain, sequence, period, center, time, treatment, and treatment by time interaction as fixed effect factors and participant within sequence and within-participant error as random factors. The model term 'time' may take 2 values corresponding to Week 3 and Week 6 in each period.||0.18|-0.44|0.4120
92369696|NCT01474772|184644177|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.0847|TWO_SIDED|95.0|0.94|2.55||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Generalized linear mixed model|||Analysis was done overall (period 1 and period 2) using a generalized linear mixed model which included response as the dependent variable, sequence, period, pooled center, treatment as fixed effects, and subject within treatment as random effect. LOCF approach was applied.||2.55|0.94|0.0847
92369697|NCT01474772|184644178|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.38||||0.2459|TWO_SIDED|95.0|0.8|2.39||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Generalized linear mixed model|||Analysis was done overall (period 1 and period 2) using a generalized linear mixed model which included response as the dependent variable, sequence, period, pooled center, treatment as fixed effects, and subject within treatment as random effect. LOCF approach was applied.||2.39|0.80|0.2459
92369698|NCT01474772|184644179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.46||0.0889|TWO_SIDED|95.0|-1.71|0.12||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline pain, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.12|-1.71|0.0889
92369699|NCT01474772|184644180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|0.86||0.1781|TWO_SIDED|95.0|-2.86|0.53||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline pain, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.53|-2.86|0.1781
92369700|NCT01474772|184644181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.17||0.2719|TWO_SIDED|95.0|-0.53|0.15||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline pain, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.15|-0.53|0.2719
92369701|NCT01474772|184644182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|563.39|STANDARD_ERROR_OF_MEAN|4098.74||0.8909|TWO_SIDED|95.0|-7549.82|8676.6||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. LOCF approach was applied.||8676.60|-7549.82|0.8909
92405947|NCT02233517|184702350|SUPERIORITY||Mean Difference (Net)|-0.58|STANDARD_DEVIATION|2.42||0.5|TWO_SIDED|95.0|-2.3|1.14|||t-test, 2 sided|||This is the comparison of change in means for cognitive-behavioral vs. present-centered therapy from baseline to post-treatment for the Satisfaction scale.||1.14|-2.30|0.50
92405948|NCT02233517|184702351|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED||||||Mixed Models Analysis||The estimation parameter of 0.28 indicates that at each of the 16 time points, participants in the CBT arm had 0.28 point less of a decrease in disability than those in PCT arm.|Estimation parameter is interaction of session by therapy, or estimate of difference in mean between CBT and PCT per time point. Positive value is less decrease over time in CBT arm (greater decrease in anger over time in PCT).||||<0.0001
92405949|NCT02233517|184702352|SUPERIORITY||Mean Difference (Net)|1.45|STANDARD_ERROR_OF_MEAN|2.71||0.59|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.59
92227329|NCT05099640|184356963|OTHER||LS Mean Difference|-375.47|STANDARD_ERROR_OF_MEAN|30.424|<|0.0001|TWO_SIDED|95.0|-435.88|-315.06|||Mixed Models Analysis|||Weeks 3 and 4: Sepiapterin vs. Placebo||-315.06|-435.88|<0.0001
92227330|NCT05099640|184356963|OTHER||LS Mean Difference|-395.87|STANDARD_ERROR_OF_MEAN|33.848|<|0.0001|TWO_SIDED|95.0|-463.07|-328.66|||Mixed Models Analysis|||Weeks 5 and 6: Sepiapterin vs. Placebo||-328.66|-463.07|<0.0001
92227331|NCT05099640|184356964|OTHER||LS Mean Difference|-42.52|STANDARD_ERROR_OF_MEAN|6.008|<|0.0001|TWO_SIDED|95.0|-54.45|-30.59|||Mixed Models Analysis|||Weeks 1 and 2: Sepiapterin vs. Placebo||-30.59|-54.45|<0.0001
92227332|NCT05099640|184356964|OTHER||LS Mean Difference|-61.03|STANDARD_ERROR_OF_MEAN|4.531|<|0.0001|TWO_SIDED|95.0|-70.02|-52.03|||Mixed Models Analysis|||Weeks 3 and 4: Sepiapterin vs. Placebo||-52.03|-70.02|<0.0001
92227333|NCT05099640|184356964|OTHER||LS Mean Difference|-64.22|STANDARD_ERROR_OF_MEAN|4.973|<|0.0001|TWO_SIDED|95.0|-74.09|-54.35|||Mixed Models Analysis|||Weeks 5 and 6: Sepiapterin vs. Placebo||-54.35|-74.09|<0.0001
92227334|NCT05099640|184356969|OTHER||LS Mean Difference|-492.23|STANDARD_ERROR_OF_MEAN|55.588|<|0.0001|TWO_SIDED|95.0|-614.59|-369.87|||Mixed Models Analysis|||||-369.87|-614.59|<0.0001
92227335|NCT05099640|184356970|OTHER||LS Mean Difference|-74.73|STANDARD_ERROR_OF_MEAN|10.436|<|0.0001|TWO_SIDED|95.0|-97.72|-51.74|||Mixed Models Analysis|||||-51.74|-97.72|<0.0001
92227336|NCT01552681|184356985|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED|||||P-value is testing for treatment effect using an analysis of covariance with adjustments for screening stimulated salivary flow.|ANCOVA|||Missing Week 24 assessments were imputed by carrying forward the last observed post-baseline value.||||0.33
92227337|NCT00236080|184357026|NON_INFERIORITY_OR_EQUIVALENCE|Number of participants analyzed was determined by those participants who had at least 1 postbaseline efficacy assessment. Sample size requirements were not based on statistical considerations. There were 20 patients in each of the 5 treatment groups, for a total of 100 patients. It is expected that the sample size will provide sufficient information for describing the specified evaluations.||||||0.1236||||||The p-value of Overall Treatment to Placebo|ANCOVA|This analysis adjusted for the difference among the treatment groups at baseline.||Sample size requirements were not based on statistical considerations. The null hypothesis was Ho: μplacebo = μ150 = μ200 = μ250 = μprovigil versus Ha: at least 2 of the means are different, where μ represented the change from baseline to the endpoint.||||0.1236
92227338|NCT00236080|184357027|NON_INFERIORITY_OR_EQUIVALENCE|Using the adjusted p value from Tukey's least significant difference (LSD) test for armodafinil at 200 mg/day. Sample size requirements were not based on statistical considerations. There were 20 patients in each of the 5 treatment groups, for a total of 100 patients.||||||0.0945||||||The p-value of Overall Treatment to Placebo|ANCOVA|||Sample size requirements were not based on statistical considerations. The null hypothesis was Ho: μplacebo = μ150 = μ200 = μ250 = μprovigil versus Ha: at least 2 of the means are different, where μ represented the change from baseline to the endpoint .||||0.0945
92227339|NCT01214044|184357028|OTHER|A paired t-test was done to see if the time of the dim light melatonin onset changed from baseline to post-treatment.||||||0.2||||||A priori threshold for significance was p = 0.05.|t-test, 2 sided|paired t-test||A within subjects comparison was done to compare the time of the dim light melatonin onset before treatment with escitalopram (Study Visit 3) and after treatment with escitalopram (Study Visit 11).||||0.2
92227340|NCT01214044|184357029|OTHER|A paired t-test was done to see if the Hamilton-21 score decreased from baseline to post-treatment.||||||0.01||||||A priori threshold for significance was p = 0.05.|t-test, 1 sided|paired t-test||"We hypothesized that there would be a decrease in the Hamilton-21 score with escitalopram treatment.~A within subjects comparison was done to compare the Hamilton-21 score before treatment with escitalopram (Study Visit 3) and after treatment with escitalopram (Study Visit 11)."||||0.01
92227341|NCT01214044|184357030|OTHER|A paired t-test was done to see if the Beck Depression Inventory-II score decreased from baseline to post-treatment.||||||0.14||||||A priori threshold for significance was p = 0.05.|t-test, 1 sided|paired t-test||"We hypothesized that there would be a decrease in the Beck Depression Inventory-II score with escitalopram treatment.~A within subjects comparison was done to compare the Beck Depression Inventory-II score before treatment with escitalopram (Study Visit 3) and after treatment with escitalopram (Study Visit 11)."||||0.14
92227342|NCT01214044|184357031|OTHER|Spearman's rank-order correlation (non-parametric test) was used.||||||0.06||||||Spearman's rho (rs) = 0.66|Spearman's rank-order correlation|||We hypothesized that there would be a correlation between the change in phase angle difference and the decrease in the Hamilton-21 score with escitalopram treatment. The phase angle difference is the interval, in hours, between the dim light melatonin onset (a marker of biological time) and the average midpoint of sleep during the prior week.||||0.06
92405950|NCT02233517|184702352|SUPERIORITY||Mean Difference (Net)|1.37|STANDARD_ERROR_OF_MEAN|2.71||0.61|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.61
92227343|NCT01214044|184357031|OTHER|Spearman's rank-order correlation (non-parametric test) was used.||||||0.48||||||Spearman's rho (rs) = 0.02|Spearman's rank-order correlation|||We hypothesized that there would be a correlation between the change in phase angle difference and the decrease in the Beck Depression Inventory-II score with escitalopram treatment. The phase angle difference is the interval, in hours, between the dim light melatonin onset (a marker of biological time) and the average midpoint of sleep during the prior week.||||0.48
92227344|NCT04698525|184357039|NON_INFERIORITY|"A new treatment (memantine) that is not much worse or non-inferior to the standard treatment (valproate) may be attractive if, compared to it, it is expected to cause fewer side effects or improve quality of life or if its dosing regimen is easier to tolerate."|Mean Difference (Final Values)|5.3|STANDARD_DEVIATION|14.0||0.9|TWO_SIDED|95.0|0.0|10.0||"Comparison between VPA and Memantine was:~0.9 p-value (two-tailed)"|Wilcoxon (Mann-Whitney)|"Memantine 3.534 z corrected for ties 0.0004 p-value (two-tailed)~VPA 3.418 z corrected for ties 0.0006 p-value (two-tailed)"||Null hypothesis: Memantine is as effective as valproate in treating episodic migraine.|We made also student t|10|0|0.9
92227345|NCT02211261|184357099|OTHER||Percentage of Test relative to Reference|17.66|||||TWO_SIDED|90.0|8.44|36.95|||||PF-06293620 0.3 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||36.95|8.44|
92227346|NCT02211261|184357099|OTHER||Percentage of Test relative to Reference|32.73|||||TWO_SIDED|90.0|21.64|49.51|||||PF-06293620 1.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||49.51|21.64|
92227347|NCT02211261|184357099|OTHER||Percentage of Test relative to Reference|35.02|||||TWO_SIDED|90.0|23.6|51.95|||||PF-06293620 3.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||51.95|23.60|
92405951|NCT02233517|184702352|SUPERIORITY||Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|2.71||0.74|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.74
92405952|NCT02233517|184702353|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.16||0.25|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.25
92405953|NCT02233517|184702353|SUPERIORITY||Mean Difference (Net)|0.006|STANDARD_ERROR_OF_MEAN|0.16||0.97|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.97
92405954|NCT02233517|184702353|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.17||0.69|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.69
92405955|NCT02233517|184702354|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|0.66||0.29|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.29
92405956|NCT02233517|184702354|SUPERIORITY||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.66||0.44|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.44
92405957|NCT02233517|184702354|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|0.66||0.11|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.11
92405958|NCT02233517|184702355|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.12||0.16|TWO_SIDED||||||Mixed Models Analysis||Estimation parameter is interaction of session by therapy, or estimate of difference in mean between CBT and PCT per time point. Positive value is less decrease over time in CBT arm (greater decrease in PTSD in PCT).|Multilevel model of therapy type (1=CBT, 2=PCT), gender, and time on PCL Total scores, using data from baseline, 12 sessions, post-treatment, 3-month and 6-month follow up.||||0.16
92227348|NCT02211261|184357099|OTHER||Percentage of Test relative to Reference|53.18|||||TWO_SIDED|90.0|36.36|77.78|||||PF-06293620 6.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||77.78|36.36|
92227349|NCT02211261|184357101|OTHER||Percentage of Test relative to Reference|7.32|||||TWO_SIDED|90.0|4.7|11.4|||||PF-06293620 0.3 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||11.40|4.70|
92405959|NCT02233517|184702356|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.37||0.45|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.45
92405960|NCT02233517|184702356|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.37||0.55|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.55
92405961|NCT02233517|184702356|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.37||0.87|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.87
92405962|NCT02233517|184702357|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|1.04||0.49|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment.|||||0.49
92405963|NCT02233517|184702357|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|1.04||0.7|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.70
92405964|NCT02233517|184702357|SUPERIORITY||Mean Difference (Net)|-0.78|STANDARD_ERROR_OF_MEAN|1.04||0.45|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.45
92405965|NCT01721044|184702384|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.001
92405966|NCT01721044|184702385|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
92405967|NCT01721044|184702386|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
92405968|NCT01721044|184702387|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14|||||||Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.140
92405969|NCT01721044|184702388|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.001
92405970|NCT01721044|184702389|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
92405971|NCT01721044|184702390|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
92405972|NCT01721044|184702391|SUPERIORITY_OR_OTHER_LEGACY|||||||0.723|||||||Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.723
92405973|NCT01721044|184702392|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided \<=0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.001
92405974|NCT01721044|184702392|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided \<=0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.001
92405975|NCT01721044|184702393|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 12||||0.001
92405976|NCT01721044|184702393|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 12||||0.002
92405977|NCT01721044|184702393|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 24||||0.001
92405978|NCT01721044|184702393|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 24||||0.015
92405979|NCT01721044|184702394|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 12||||0.002
92405980|NCT01721044|184702394|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 12||||0.001
92405981|NCT01721044|184702394|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 24||||0.001
92405982|NCT01721044|184702394|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 24||||0.001
92405983|NCT01721044|184702395|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
92405984|NCT01721044|184702395|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
92405985|NCT01721044|184702396|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
92405986|NCT01721044|184702396|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.009
92227350|NCT02211261|184357101|OTHER||Percentage of Test relative to Reference|32.19|||||TWO_SIDED|90.0|20.67|50.12|||||PF-06293620 1.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||50.12|20.67|
92405987|NCT01721044|184702397|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
92405988|NCT01721044|184702397|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.003
92405989|NCT01721044|184702398|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.012
92405990|NCT01721044|184702398|SUPERIORITY_OR_OTHER_LEGACY|||||||0.104|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.104
92405991|NCT01721044|184702399|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Wilcoxon (Mann-Whitney)|||||||0.002
92405992|NCT01721044|184702399|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Wilcoxon (Mann-Whitney)|||||||0.004
92405993|NCT01721044|184702400|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
92405994|NCT01721044|184702400|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.018
92405995|NCT01721044|184702401|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
92405996|NCT01721044|184702401|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
92405997|NCT01721044|184702402|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12||||0.005
92405998|NCT01721044|184702402|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12||||0.004
92405999|NCT01721044|184702402|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24||||0.002
92406000|NCT01721044|184702402|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24||||0.026
92406001|NCT01721044|184702403|SUPERIORITY_OR_OTHER_LEGACY|||||||0.448|TWO_SIDED||||||ANCOVA|||MCS Week 12||||0.448
92406002|NCT01721044|184702403|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058|TWO_SIDED||||||ANCOVA|||MCS Week 12||||0.058
92406003|NCT01721044|184702403|SUPERIORITY_OR_OTHER_LEGACY|||||||0.446|TWO_SIDED||||||ANCOVA|||MCS Week 24||||0.446
92406004|NCT01721044|184702403|SUPERIORITY_OR_OTHER_LEGACY|||||||0.401|TWO_SIDED||||||ANCOVA|||MCS Week 24||||0.401
92406005|NCT01721044|184702403|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||PCS Week 12||||0.001
92406006|NCT01721044|184702403|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||PCS Week 12||||0.001
92406007|NCT01721044|184702403|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||PCS Week 24||||0.001
92406008|NCT01721044|184702403|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||PCS Week 24||||0.001
92406009|NCT01721044|184702404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12, US Algorithm||||0.001
92406010|NCT01721044|184702404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12, US Algorithm||||0.001
92406011|NCT01721044|184702404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24, US Algorithm||||0.001
92406012|NCT01721044|184702404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24, US Algorithm||||0.003
92406013|NCT01721044|184702404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12, UK Algorithm||||0.001
92406014|NCT01721044|184702404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12, UK Algorithm||||0.001
92227351|NCT02211261|184357101|OTHER||Percentage of Test relative to Reference|34.43|||||TWO_SIDED|90.0|22.57|52.52|||||PF-06293620 3.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||52.52|22.57|
92227352|NCT02211261|184357101|OTHER||Percentage of Test relative to Reference|51.47|||||TWO_SIDED|90.0|34.26|77.31|||||PF-06293620 6.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||77.31|34.26|
92227353|NCT02175680|184357131|SUPERIORITY||||||<|0.0001|||||||Wilcoxon Rank Sum|The time to Virologic Failure for the subjects treated with PRO 140 monotherapy was compared to historical data.|||The median time to Virologic Failure for historical controls was 29 days.|||<0.0001
92239556|NCT01623531|184382999|SUPERIORITY||Mann-Whitney U test|437.0|STANDARD_ERROR_OF_MEAN|60.93||0.455|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.455
92369702|NCT01474772|184644183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|206.37||0.9899|TWO_SIDED|95.0|-411.26|406.01||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. LOCF approach was applied.||406.01|-411.26|0.9899
92369703|NCT01474772|184644184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|1.27||0.2854|TWO_SIDED|95.0|-3.88|1.15||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||1.15|-3.88|0.2854
92369704|NCT01474772|184644185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.46|STANDARD_ERROR_OF_MEAN|1.09||0.1805|TWO_SIDED|95.0|-3.6|0.68||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.68|-3.60|0.1805
92369705|NCT01474772|184644186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.33||0.3028|TWO_SIDED|95.0|-0.99|0.31||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.31|-0.99|0.3028
92369706|NCT01474772|184644187|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.18||0.7542|TWO_SIDED|95.0|-0.41|0.3||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.30|-0.41|0.7542
92369707|NCT01474772|184644188|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|0.68||0.0634|TWO_SIDED|95.0|-2.62|0.07||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.07|-2.62|0.0634
92369708|NCT01474772|184644189|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.19||0.1985|TWO_SIDED|95.0|-0.13|0.62||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.62|-0.13|0.1985
92369709|NCT01474772|184644190|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.9686|TWO_SIDED|95.0|-0.21|0.2||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.20|-0.21|0.9686
92369710|NCT01474772|184644191|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.54||||0.002|TWO_SIDED|95.0|1.3|4.95|||Cochran-Mantel-Haenszel|||Odds ratio is based on the binary response for any improvement while p-value is from the comparison of the original scale of 7 possible outcomes. P-value was calculated by using Cochran Mantel-Haenszel (CMH) test. PGIC values at the end of Period 1 data was compared between treatment groups.||4.95|1.30|0.0020
92406015|NCT01721044|184702404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24, UK Algorithm||||0.001
92406016|NCT01721044|184702404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24, UK Algorithm||||0.002
92406017|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.362|TWO_SIDED||||||ANCOVA|||Absenteeism Week 12||||0.362
92227354|NCT01913483|184357154|SUPERIORITY|||||||0.9458||||||The primary endpoint analysis was to assess the superiority of bivalirudin versus UFH in BARC ≥3 bleeds within the 48 hours post study drug initiation or at hospital discharge, whichever occurred first.|Chi-squared|||Assuming a bleeding event rate of 5.0% in the heparin control treatment group and 3.2% in the bivalirudin group (36% relative risk reduction, a sample size of 3900 participants was to provide more than 80% power with a two-tailed alpha level of 0.05). This estimate took into consideration that the interim efficacy analysis was to be performed when approximately 70% of participants were enrolled using the O'Brien-Fleming alpha spending function.||||0.9458
92227355|NCT00535925|184357164|OTHER||Cox Proportional Hazard|0.48|||<|0.05|TWO_SIDED||||||Regression, Cox|Cox Shared Frailty Model, adjusted for age, sex, SBP, Hb, eGFR, albuminuria, HbA1c, total cholesterol, triglycerides (log-scaled) to reduce bias risk.||||||<0.05
92227356|NCT04506294|184357197|SUPERIORITY|||||||0.536|||||||t-test, 2 sided|||||||.536
92227357|NCT00874250|184357198|SUPERIORITY_OR_OTHER||Proportion|0.98||||0.0024|TWO_SIDED|95.0|0.895|0.996|||Binomial Test|||||0.996|0.895|0.0024
92406018|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17|TWO_SIDED||||||ANCOVA|||Absenteeism Week 12||||0.170
92227358|NCT02986230|184357251|SUPERIORITY||Odds Ratio (OR)|1.07||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with logit link and binomial error distribution were used to test the effect of the intervention on the composite of cancer screening by 1 year post-index for breast, cervical, and colorectal cancer. The model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in the randomization process. Tests of the two contrasts were 2-sided with P-values \< 0.025 considered statistically significant.||||.025
92406019|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.753|TWO_SIDED||||||ANCOVA|||Absenteeism Week 24||||0.753
92406020|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.715|TWO_SIDED||||||ANCOVA|||Absenteeism Week 24||||0.715
92406021|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.077|TWO_SIDED||||||ANCOVA|||Presenteeism Week 12||||0.077
92240141|NCT00570739|184383827|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.23||||0.0018|TWO_SIDED|95.0|2.06|13.58||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||13.58|2.06|0.0018
92406022|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058|TWO_SIDED||||||ANCOVA|||Presenteeism Week 12||||0.058
92406023|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.232|TWO_SIDED||||||ANCOVA|||Presenteeism Week 24||||0.232
92406024|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.534|TWO_SIDED||||||ANCOVA|||Presenteeism Week 24||||0.534
92406025|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.079|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Week 12||||0.079
92406026|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Week 12||||0.070
92406027|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.327|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Week 24||||0.327
92406028|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.479|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Week 24||||0.479
92406029|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||Activity Impairment Week 12||||0.001
92406030|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED||||||ANCOVA|||Activity Impairment Week 12||||0.005
92406031|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||Activity Impairment Week 24||||0.001
92240142|NCT00570739|184383827|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.46||||0.0019|TWO_SIDED|95.0|1.89|10.54||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||10.54|1.89|0.0019
92406032|NCT01721044|184702405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|TWO_SIDED||||||ANCOVA|||Activity Impairment Week 24||||0.030
92406033|NCT02048670|184702419|SUPERIORITY|||||||0.005|||||||Kruskal-Wallis|||Condition 1 - eyes open, visual surround locked, platform locked||||0.005
92406034|NCT02048670|184702419|SUPERIORITY|||||||0.006|||||||Kruskal-Wallis|||Condition 2 - eyes closed, visual surround locked, platform locked||||0.006
92406035|NCT02048670|184702419|SUPERIORITY|||||||0.051|||||||Kruskal-Wallis|||Condition 3 - eyes open, visual surround unlocked, platform locked||||0.051
92406036|NCT02048670|184702419|SUPERIORITY|||||||0.173|||||||Kruskal-Wallis|||Condition 4 - eyes open, visual surround locked, platform unlocked||||0.173
92406037|NCT02048670|184702419|SUPERIORITY|||||||0.985|||||||Kruskal-Wallis|||Condition 5 - eyes closed, visual surround locked, platform unlocked||||0.985
92406038|NCT02048670|184702419|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||Condition 6 - eyes open, visual surround unlocked, platform unlocked||||0.003
92406039|NCT02420821|184702427|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0205|TWO_SIDED|95.0|0.57|0.95|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||0.95|0.57|0.0205
92406040|NCT02420821|184702429|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.2675|TWO_SIDED|95.0|0.76|1.08|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.08|0.76|0.2675
92406041|NCT02420821|184702431|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.263|TWO_SIDED|95.0|0.64|1.13|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.13|0.64|0.263
92406042|NCT02420821|184702433|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1218|TWO_SIDED|95.0|0.74|1.04|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.04|0.74|0.1218
92406043|NCT02420821|184702435|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.6138|TWO_SIDED|95.0|0.72|1.21|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.21|0.72|0.6138
92406044|NCT02420821|184702436|SUPERIORITY||Difference in Response Rates|3.3||||0.2733|TWO_SIDED|95.0|-3.09|9.7|||Cochran-Mantel-Haenszel||95% CI for difference in response rates was constructed using Wald method.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||9.70|-3.09|0.2733
92406045|NCT02420821|184702438|SUPERIORITY||Difference in Response Rates|1.96||||0.5121|TWO_SIDED|95.0|-4.32|8.24|||Cochran-Mantel-Haenszel||95% CI for difference in response rates was constructed using Wald method.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||8.24|-4.32|0.5121
92406046|NCT02420821|184702441|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0606|TWO_SIDED|95.0|0.71|1.01|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.01|0.71|0.0606
92406047|NCT02420821|184702442|SUPERIORITY||Difference in Response Rates|5.09||||0.1011|TWO_SIDED|95.0|-1.4|11.58|||Cochran-Mantel-Haenszel||95% CI for difference in response rates was constructed using Wald method.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||11.58|-1.40|0.1011
92406048|NCT02420821|184702445|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0254|TWO_SIDED|95.0|0.7|0.98|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||0.98|0.70|0.0254
92406049|NCT02420821|184702447|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.002|TWO_SIDED|95.0|0.34|0.79|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||0.79|0.34|0.0020
92406050|NCT02420821|184702449|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0497|TWO_SIDED|95.0|0.43|1.0|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.00|0.43|0.0497
92406051|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.74|||<|0.0001|TWO_SIDED|95.0|-1.06|-0.43|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 1 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.43|-1.06|<0.0001
92406052|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.2||||0.2085|TWO_SIDED|95.0|-0.51|0.11|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 2 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.11|-0.51|0.2085
92240143|NCT00570739|184383827|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.0005
92369711|NCT01474772|184644192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.15||0.0105|TWO_SIDED|95.0|-0.68|-0.09||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. LOCF approach was applied.||-0.09|-0.68|0.0105
92369712|NCT01474772|184644193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.1178|TWO_SIDED|95.0|-0.63|0.07||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.07|-0.63|0.1178
92369713|NCT01474772|184644194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.18||0.199|TWO_SIDED|95.0|-0.6|0.13||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.13|-0.60|0.1990
92240144|NCT00570739|184383827|SUPERIORITY_OR_OTHER|||||||0.0007||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.0007
92406053|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.71|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 2 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.71|-1.33|<0.0001
92406054|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.51||||0.0013|TWO_SIDED|95.0|-0.82|-0.2|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 3 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.20|-0.82|0.0013
92406055|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.34|-0.7|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 3 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.70|-1.34|<0.0001
92406056|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.43||||0.0098|TWO_SIDED|95.0|-0.76|-0.1|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 4 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.10|-0.76|0.0098
92406057|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.32|-0.65|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 4 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.65|-1.32|<0.0001
92406058|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.46||||0.008|TWO_SIDED|95.0|-0.8|-0.12|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 5 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.12|-0.80|0.0080
92406059|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.78|||<|0.0001|TWO_SIDED|95.0|-1.13|-0.44|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 5 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.44|-1.13|<0.0001
92406060|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.21||||0.2512|TWO_SIDED|95.0|-0.56|0.15|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 6 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.15|-0.56|0.2512
92406061|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.65||||0.0005|TWO_SIDED|95.0|-1.01|-0.28|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 6 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.28|-1.01|0.0005
92406062|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.43||||0.0247|TWO_SIDED|95.0|-0.8|-0.05|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 7 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.05|-0.80|0.0247
92406063|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.77|||<|0.0001|TWO_SIDED|95.0|-1.15|-0.39|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 7 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.39|-1.15|<0.0001
92406064|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.29||||0.1411|TWO_SIDED|95.0|-0.68|0.1|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 8 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.10|-0.68|0.1411
92406065|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.65||||0.0014|TWO_SIDED|95.0|-1.05|-0.25|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 8 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.25|-1.05|0.0014
92406066|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.37||||0.0728|TWO_SIDED|95.0|-0.78|0.03|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 9 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.03|-0.78|0.0728
92406067|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.32|-0.49|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 9 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.49|-1.32|<0.0001
92406068|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.62||||0.0041|TWO_SIDED|95.0|-1.05|-0.2|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 10 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.20|-1.05|0.0041
92406069|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.46|-0.55|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 10 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.55|-1.46|<0.0001
92406070|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.5||||0.0353|TWO_SIDED|95.0|-0.96|-0.03|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 11 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.03|-0.96|0.0353
92406071|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.85||||0.0011|TWO_SIDED|95.0|-1.35|-0.34|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 11 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.34|-1.35|0.0011
92406072|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.5||||0.0582|TWO_SIDED|95.0|-1.01|0.02|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 12 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.02|-1.01|0.0582
92240145|NCT00570739|184383828|SUPERIORITY_OR_OTHER|||||||0.0104||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 8 Weeks||||0.0104
92406073|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.76||||0.0089|TWO_SIDED|95.0|-1.32|-0.19|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 12 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.19|-1.32|0.0089
92406074|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|0.02||||0.9575|TWO_SIDED|95.0|-0.57|0.61|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 13 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.61|-0.57|0.9575
92406075|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.36||||0.2745|TWO_SIDED|95.0|-1.01|0.29|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 13 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.29|-1.01|0.2745
92406076|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.13||||0.7088|TWO_SIDED|95.0|-0.81|0.55|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 14 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.55|-0.81|0.7088
92406077|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.39||||0.3077|TWO_SIDED|95.0|-1.13|0.36|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 14 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.36|-1.13|0.3077
92369714|NCT01474772|184644195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.02||0.71107|TWO_SIDED|95.0|-0.025|0.037||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Statistical analysis presented above is for the Index score Dolan 1997. Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.037|-0.025|0.71107
92240146|NCT00570739|184383828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.22||||0.2224|TWO_SIDED|95.0|0.53|9.39||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||9.39|0.53|0.2224
92369715|NCT01474772|184644195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.009|STANDARD_ERROR_OF_MEAN|0.02||0.53965|TWO_SIDED|95.0|-0.021|0.039||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Statistical analysis presented above is for the Index score Dolan 2001. Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.039|-0.021|0.53965
92369716|NCT00365105|184644208|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.844|TWO_SIDED|95.0|0.7|1.54|||Log Rank|||Assuming an exponential distribution, the weighted yearly SRE hazard rate for patients treated with bisphosphonates only is 0.7991 which translates to a median time to SRE of 10.4 months. The study was designed to show a 33% relative reduction in the yearly SRE hazard rate, i.e. 15.6 months median time to SRE. Using a two-sided log-rank test assuming a type I error of 0.05, one planned interim analysis with 90% statistical power, 257 SREs are required with a total of 316 patients.||1.54|0.70|0.844
92369717|NCT00365105|184644209|SUPERIORITY|The power of detecting an improvement from 55% in the control arm to 41% in the experimental arm with a two-sided Fisher's exact test at alpha 0.05 is 66%.||||||0.26|||||||Fisher Exact|||||||0.26
92369718|NCT00365105|184644210|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.37|TWO_SIDED|95.0|0.86|1.52|||Log Rank|||Assuming the disease site distribution is 40%, 40%, and 20% from prostate, breast, and lung cancer populations, respectively, the weighted yearly death rate for patients treated with bisphosphonates only is 0.4390, translating to a median overall survival time of 18.9 months assuming an exponential distribution. Statistical power to detect a relative difference of 33% in the yearly death rate is 70% using a two-sided log-rank test at a 0.05 significance level and 87% to detect 50% difference.||1.52|0.86|0.37
92369719|NCT00365105|184644211|SUPERIORITY|||||||0.96||||||Two-sided significance level of 0.01|Wilcoxon (Mann-Whitney)|||FACT-G Total||||0.96
92369720|NCT00365105|184644211|SUPERIORITY|||||||0.97||||||Two-sided significance level of 0.01|Wilcoxon (Mann-Whitney)|||Physical Well-Being||||0.97
92369721|NCT00365105|184644211|SUPERIORITY|||||||0.57||||||Two-sided significance level of 0.01|Wilcoxon (Mann-Whitney)|||Social/Family Well-Being||||0.57
92369722|NCT00365105|184644211|SUPERIORITY|||||||0.7||||||Two-sided significance level of 0.01|Wilcoxon (Mann-Whitney)|||Emotional Well-Being||||0.70
92239557|NCT01623531|184383000|SUPERIORITY||Mann-Whitney U test|432.5|STANDARD_ERROR_OF_MEAN|60.819||0.5|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.5
92168784|NCT02528188|184227110|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.6332|TWO_SIDED|95.0|-0.09|0.06||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.09|0.6332
92168785|NCT02528188|184227111|SUPERIORITY||Risk Difference (RD)|0.5||||0.4082|TWO_SIDED|95.0|-0.75|2.28|||Exact methods for risk difference|||||2.28|-0.75|0.4082
92168786|NCT02528188|184227111|SUPERIORITY||Risk Difference (RD)|1.7||||0.0238|TWO_SIDED|95.0|0.31|3.63|||Exact methods for risk difference|||||3.63|0.31|0.0238
92168787|NCT02528188|184227112|SUPERIORITY||Rate Difference|4.8||||0.2035|TWO_SIDED|95.0|-2.6|12.2|||Poisson model for rate difference|||||12.2|-2.6|0.2035
92168788|NCT02528188|184227112|SUPERIORITY||Rate Difference|16.9||||0.001|TWO_SIDED|95.0|6.8|27.0|||Poisson model for rate difference|||||27.0|6.8|0.0010
92168789|NCT02528188|184227113|SUPERIORITY||Risk Difference|1.99||||0.0248|TWO_SIDED|95.0|0.31|4.17|||Exact methods for risk difference|||Rapidly progressive OA Type 1 or 2||4.17|0.31|0.0248
92168790|NCT02528188|184227113|SUPERIORITY||Risk difference|5.11|||<|0.0001|TWO_SIDED|95.0|3.16|7.54|||Exact methods for risk difference|||Rapidly Progressive OA Type 1 or 2||7.54|3.16|<0.0001
92168791|NCT02528188|184227113|SUPERIORITY||Risk difference|1.79||||0.0366|TWO_SIDED|95.0|0.16|3.92|||Exact methods for risk difference|||Rapidly Progressive OA Type 1||3.92|0.16|0.0366
92168792|NCT02528188|184227113|SUPERIORITY||Risk difference|3.81||||0.0001|TWO_SIDED|95.0|1.99|6.12|||Exact methods for risk difference|||Rapidly Progressive OA Type 1||6.12|1.99|0.0001
92168793|NCT02528188|184227113|SUPERIORITY||Risk difference|0.2||||0.6168|TWO_SIDED|95.0|-0.76|1.71|||Exact methods for risk difference|||Rapidly Progressive OA Type 2||1.71|-0.76|0.6168
92168794|NCT02528188|184227113|SUPERIORITY||Risk difference|1.3||||0.0388|TWO_SIDED|95.0|0.17|2.97|||Exact methods for risk difference|||Rapidly Progressive OA Type 2||2.97|0.17|0.0388
92227359|NCT02986230|184357251|SUPERIORITY||Odds Ratio (OR)|0.91||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with a logit link and binomial error distribution were used to test the effect of the intervention on the composite of cancer screening by 1 year post-index date for breast, cervical, and colorectal cancer. Model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in randomization process. Tests of the planned contrasts were 2-sided with P-values \< 0.025 considered statistically significant.||||.025
92369723|NCT00365105|184644211|SUPERIORITY|||||||0.46||||||Two-sided significance level of 0.01|Wilcoxon (Mann-Whitney)|||Functional Well-Being||||0.46
92227360|NCT02986230|184357252|SUPERIORITY||Odds Ratio (OR)|1.04||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with a logit link and binomial error distribution were used to test the effect of the intervention on completion of the HPV vaccination series by 12 months post-index date. The model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in the randomization process. Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant.||||.025
92369724|NCT00365105|184644212|SUPERIORITY|||||||0.99||||||2-sided significance level of 0.05|Wilcoxon (Mann-Whitney)|||||||0.99
92369725|NCT00365105|184644213|SUPERIORITY|||||||0.43||||||Significance level of 0.05|t-test, 2 sided|||Index Score||||0.43
92369726|NCT00365105|184644213|SUPERIORITY|||||||0.15||||||Significance level of 0.05|t-test, 2 sided|||VAS Score||||0.15
92369727|NCT03367403|184644342|SUPERIORITY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.56||0.042|TWO_SIDED|95.0|0.12|6.27|||Mixed Models Analysis|||||6.27|0.12|0.042
92369728|NCT03367403|184644343|SUPERIORITY||Mean Difference (Final Values)|-1.86|STANDARD_ERROR_OF_MEAN|0.898||0.04|TWO_SIDED|95.0|-3.63|-0.09|||Mixed Models Analysis|||||-0.09|-3.63|0.040
92369729|NCT03367403|184644344|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.239||0.139|TWO_SIDED|95.0|-0.83|0.12|||Mixed Models Analysis|||||0.12|-0.83|0.139
92369730|NCT03367403|184644345|SUPERIORITY||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.525||0.227|TWO_SIDED|95.0|-0.4|1.67|||Mixed Models Analysis|||||1.67|-0.40|0.227
92369731|NCT03367403|184644346|SUPERIORITY||Mean Difference (Final Values)|1.21|STANDARD_ERROR_OF_MEAN|1.009||0.23|TWO_SIDED|95.0|-0.77|3.2|||Mixed Models Analysis|||||3.20|-0.77|0.230
92406078|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.15||||0.7112|TWO_SIDED|95.0|-0.93|0.63|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 15 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.63|-0.93|0.7112
92406079|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|-0.79||||0.0837|TWO_SIDED|95.0|-1.69|0.11|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 15 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.11|-1.69|0.0837
92369732|NCT03367403|184644347|SUPERIORITY||Mean Difference (Final Values)|-85.06|STANDARD_ERROR_OF_MEAN|3.867|<|0.001|TWO_SIDED|95.0|-92.68|-77.43|||Mixed Models Analysis|||||-77.43|-92.68|<0.001
92369733|NCT03367403|184644348|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.56|TWO_SIDED|95.0|-0.01|0.03|||ANCOVA|||Tau-IQ||0.03|-0.01|0.560
92239558|NCT01623531|184383001|SUPERIORITY|||||||1|||||||Fisher Exact|Significance (2-sided) using Fisher's Exact Test.||||||1.0
92168795|NCT02528188|184227113|SUPERIORITY||Risk difference|0.1||||0.7245|TWO_SIDED|95.0|-0.74|1.51|||Exact methods for risk difference|||Primary osteonecrosis||1.51|-0.74|0.7245
92168796|NCT02528188|184227113|SUPERIORITY||Risk difference|0.1||||0.7182|TWO_SIDED|95.0|-0.74|1.52|||Exact methods for risk difference|||Primary osteonecrosis||1.52|-0.74|0.7182
92168797|NCT02528188|184227113|SUPERIORITY||Risk difference|0.2||||0.6824|TWO_SIDED|95.0|-0.96|1.9|||Exact methods for risk difference|||Subchondral insufficiency fracture||1.90|-0.96|0.6824
92168798|NCT02528188|184227113|SUPERIORITY||Risk difference|0.3||||0.5632|TWO_SIDED|95.0|-0.86|2.03|||Exact methods for risk difference|||Subchondral insufficiency fracture||2.03|-0.86|0.5632
92168799|NCT02528188|184227114|SUPERIORITY||Rate Difference|19.56||||0.0027|TWO_SIDED|95.0|6.78|32.35|||Poisson model for rate difference|||Rapidly Progressive OA Type 1 or 2||32.35|6.78|0.0027
92168800|NCT02528188|184227114|SUPERIORITY||Rate Difference|51.48|||<|0.0001|TWO_SIDED|95.0|34.47|68.5|||Poisson model for rate difference|||Rapidly Progressive OA Type 1 or 2||68.50|34.47|<0.0001
92227361|NCT02986230|184357252|SUPERIORITY||Odds Ratio (OR)|0.71||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with a logit link and binomial error distribution were used to test the effect of the intervention on completion of the HPV vaccination series by 12 months post-index date. The model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in the randomization process. Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant.||||.025
92239559|NCT04705597|184383013|SUPERIORITY||Odds Ratio (OR)|1.366||||0.3312|TWO_SIDED|95.0|0.728|2.562|||Regression, Logistic|||||2.562|0.728|0.3312
92406080|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|0.08||||0.8655|TWO_SIDED|95.0|-0.88|1.04|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 16 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.04|-0.88|0.8655
92406081|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|0.02||||0.9725|TWO_SIDED|95.0|-1.07|1.11|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 16 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.11|-1.07|0.9725
92406082|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|0.38||||0.5285|TWO_SIDED|95.0|-0.8|1.55|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 17 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.55|-0.80|0.5285
92406083|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|0.03||||0.9663|TWO_SIDED|95.0|-1.34|1.4|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 17 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.40|-1.34|0.9663
92406084|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|0.01||||0.9914|TWO_SIDED|95.0|-1.61|1.63|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 18 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.63|-1.61|0.9914
92406085|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|0.22||||0.8345|TWO_SIDED|95.0|-1.85|2.3|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 18 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||2.30|-1.85|0.8345
92406086|NCT02420821|184702450|SUPERIORITY||LS Mean Difference|0.5||||0.7725|TWO_SIDED|95.0|-2.9|3.91|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 19 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||3.91|-2.90|0.7725
92406087|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.49||||0.001|TWO_SIDED|95.0|-0.77|-0.2|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Pain: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.20|-0.77|0.0010
92406088|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.91|-0.34|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Fatigue: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.34|-0.91|<0.0001
92406089|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.91|||<|0.0001|TWO_SIDED|95.0|-1.13|-0.69|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Nausea: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.69|-1.13|<0.0001
92239560|NCT04705597|184383015|SUPERIORITY||Odds Ratio (OR)|0.574||||0.4561|TWO_SIDED|95.0|0.133|2.475|||Regression, Logistic|||Day 14||2.475|0.133|0.4561
92239561|NCT04705597|184383015|SUPERIORITY||Odds Ratio (OR)|0.521||||0.1559|TWO_SIDED|95.0|0.212|1.282|||Regression, Logistic|||Day 28||1.282|0.212|0.1559
92369734|NCT03367403|184644348|SUPERIORITY||Mean Difference (Final Values)|0.035||||0.012|TWO_SIDED|95.0|0.007|0.062|||ANCOVA|||MUBADA-Cerebellum||0.062|0.007|0.012
92369735|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-2.67|STANDARD_ERROR_OF_MEAN|0.631|<|0.001|TWO_SIDED|95.0|-3.92|-1.43|||Mixed Models Analysis|||Bilateral Cortical||-1.43|-3.92|< 0.001
92369736|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.011||0.916|TWO_SIDED|95.0|-0.02|0.02|||Mixed Models Analysis|||Bilateral Entorhinal Cortex||0.02|-0.02|0.916
92369737|NCT03367403|184644349|SUPERIORITY|Bilateral Hippocampus|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.019||0.771|TWO_SIDED|95.0|-0.03|0.04|||Mixed Models Analysis|||||0.04|-0.03|0.771
92406090|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.52||||0.0002|TWO_SIDED|95.0|-0.79|-0.25|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Disturbed sleep: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.25|-0.79|0.0002
92406091|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.84|-0.29|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Feelings of being distressed: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.29|-0.84|<0.0001
92406092|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.81|-0.32|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Shortness of breath: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.32|-0.81|<0.0001
92406093|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.33||||0.0036|TWO_SIDED|95.0|-0.56|-0.11|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Remembering things: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.11|-0.56|0.0036
92446263|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.067||0.0748|TWO_SIDED|95.0|-0.01|0.26|||MMRM|||Genital Symptoms, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.01|0.0748
92168801|NCT02528188|184227114|SUPERIORITY||Rate Difference|17.58||||0.0047|TWO_SIDED|95.0|5.39|29.76|||Poisson model for rate difference|||Rapidly Progressive OA Type 1||29.76|5.39|0.0047
92369738|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.047||0.094|TWO_SIDED|95.0|-0.17|0.01|||Mixed Models Analysis|||Bilateral Inferior Parietal Lobe||0.01|-0.17|0.094
92369739|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.011||0.052|TWO_SIDED|95.0|-0.04|0.0|||Mixed Models Analysis|||Bilateral Isthmuscingulate||0.00|-0.04|0.052
92369740|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.118||0.005|TWO_SIDED|95.0|-0.57|-0.11|||Mixed Models Analysis|||Bilateral Lateral Parietal Lobe||-0.11|-0.57|0.005
92369741|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.036||0.731|TWO_SIDED|95.0|-0.08|0.06|||Mixed Models Analysis|||Bilateral Medial Temporal Lobe||0.06|-0.08|0.731
92369742|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.046|<|0.001|TWO_SIDED|95.0|-0.25|-0.07|||Mixed Models Analysis|||Bilateral Precuneus||-0.07|-0.25|<0.001
92369743|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.114|<|0.001|TWO_SIDED|95.0|-0.62|-0.17|||Mixed Models Analysis|||Bilateral Prefrontal Lobe||-0.17|-0.62|<0.001
92369744|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.044|<|0.001|TWO_SIDED|95.0|-0.3|-0.12|||Mixed Models Analysis|||Bilateral Superior Temporal Lobe||-0.12|-0.30|<0.001
92369745|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|2.28|STANDARD_ERROR_OF_MEAN|0.581|<|0.001|TWO_SIDED|95.0|1.14|3.43|||Mixed Models Analysis|||Bilateral Ventricles||3.43|1.14|< 0.001
92369746|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-4.58|STANDARD_ERROR_OF_MEAN|1.519||0.003|TWO_SIDED|95.0|-7.58|-1.59|||Mixed Models Analysis|||Bilateral Whole Brain||-1.59|-7.58|0.003
92369747|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.178|<|0.001|TWO_SIDED|95.0|-1.03|-0.33|||Mixed Models Analysis|||Bilateral Whole Temporal Lobe||-0.33|-1.03|<0.001
92369748|NCT03367403|184644349|SUPERIORITY||Mean Difference (Final Values)|-2.28|STANDARD_ERROR_OF_MEAN|0.987||0.022|TWO_SIDED|95.0|-4.23|-0.33|||Mixed Models Analysis|||Bilateral White Matter||-0.33|-4.23|0.022
92369749|NCT03497975|184644384|SUPERIORITY||Odds Ratio (OR)|2.1||||0.0309|TWO_SIDED|95.0|1.07|4.13||Logistic regression model includes WI-NRS baseline score as a covariate, treatment and the study site (with pooling) as a fixed effect.|Regression, Logistic|||||4.13|1.07|0.0309
92369750|NCT03497975|184644385|SUPERIORITY||Difference in LS Mean|-7.06|STANDARD_ERROR_OF_MEAN|1.91||0.0002|TWO_SIDED|95.0|-10.82|-3.3||Repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline ItchyQoL value. An unstructured covariance matrix is used.|Mixed Model for Repeated Measurements|||||-3.30|-10.82|0.0002
92406094|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-1.19|||<|0.0001|TWO_SIDED|95.0|-1.46|-0.91|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Lack of appetite: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.91|-1.46|<0.0001
92168802|NCT02528188|184227114|SUPERIORITY||Rate Difference|38.22|||<|0.0001|TWO_SIDED|95.0|23.05|53.4|||Poisson model for rate difference|||Rapidly Progressive OA Type 1||53.40|23.05|<0.0001
92406095|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.54||||0.0001|TWO_SIDED|95.0|-0.81|-0.27|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Drowsy: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.27|-0.81|0.0001
92239562|NCT04705597|184383015|SUPERIORITY||Odds Ratio (OR)|0.498||||0.1293|TWO_SIDED|95.0|0.203|1.226|||Regression, Logistic|||Day 57||1.226|0.203|0.1293
92239563|NCT04705597|184383016|SUPERIORITY|||||||0.2687|||||||Log Rank|||Statistical analysis was only performed for Day 28. This is timeframe used for the primary endpoint||||0.2687
92239564|NCT04705597|184383017|SUPERIORITY|||||||0.3977|||||||Log Rank|||||||0.3977
92239565|NCT04705597|184383018|SUPERIORITY|||||||0.2229|||||||Log Rank|||||||0.2229
92239566|NCT04705597|184383019|SUPERIORITY||Odds Ratio (OR)|1.388||||0.2941|TWO_SIDED|95.0|0.752|2.561|||Regression, Logistic|||||2.561|0.752|0.2941
92369751|NCT03497975|184644386|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0179|TWO_SIDED|95.0|1.11|3.07||Logistic regression model includes PAS (Item 5a) baseline score as a covariate, treatment as a fixed effect and the study site (with pooling) as a fixed effect.|Regression, Logistic|||||3.07|1.11|0.0179
92369752|NCT03497975|184644387|SUPERIORITY||Difference in LS Mean|-4.43|STANDARD_ERROR_OF_MEAN|1.08|<|0.0001|TWO_SIDED|95.0|-6.55|-2.31||Repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline PROMIS value. An unstructured covariance matrix is used.|Mixed Model for Repeated Measurements|||||-2.31|-6.55|<0.0001
92369753|NCT01734395|184644408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19|STANDARD_DEVIATION|4.56|<|0.0001|TWO_SIDED|95.0|-1.4262|-0.9467|||t-test, 2 sided|||||-0.9467|-1.4262|<.0001
92406096|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.28|-0.71|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Dry mouth: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.71|-1.28|<0.0001
92406097|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.87|-0.33|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Feeling sad: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.33|-0.87|<0.0001
92406098|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.58|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.41|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Vomiting: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.41|-0.75|<0.0001
92406099|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.34||||0.0051|TWO_SIDED|95.0|-0.58|-0.1|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Numbness or tingling: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.10|-0.58|0.0051
92406100|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-1.08|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.83|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Rash/Skin Changes: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.83|-1.33|<0.0001
92406101|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-0.05||||0.6541|TWO_SIDED|95.0|-0.26|0.16|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Headache: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||0.16|-0.26|0.6541
92406102|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.28|-0.76|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Mouth/Throat Sores: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.76|-1.28|<0.0001
92406103|NCT02420821|184702451|SUPERIORITY||LS Mean Difference|-1.07|||<|0.0001|TWO_SIDED|95.0|-1.27|-0.88|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Diarrhea: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.88|-1.27|<0.0001
92406104|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.73|||<|0.0001|TWO_SIDED|95.0|0.58|0.87|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 1 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.87|0.58|<0.0001
92239567|NCT04705597|184383020|SUPERIORITY|||||||0.3325|||||||Log Rank|||||||0.3325
92369754|NCT01734395|184644409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.48|STANDARD_DEVIATION|10.69|<|0.0001|TWO_SIDED|95.0|0.9188|2.0438|||t-test, 2 sided|||||2.0438|0.9188|<.0001
92369755|NCT01734395|184644410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_DEVIATION|2.43|<|0.0001|TWO_SIDED|95.0|-0.814|-0.5586|||t-test, 2 sided|||||-0.5586|-0.814|<.0001
92369756|NCT01407952|184644417|SUPERIORITY||Odds Ratio (OR)|2.32||||0.002|TWO_SIDED|95.0|1.36|3.97|||Regression, Logistic|||A intent to treat analysis was performed, using multiple imputation methods.||3.97|1.36|0.002
92369757|NCT01407952|184644417|SUPERIORITY||Odds Ratio (OR)|3.97|||<|0.01|TWO_SIDED|95.0|1.99|7.92||Chi-squared test statistic with one degree of freedom=17.37|Chi-squared|||||7.92|1.99|<0.01
92369758|NCT01407952|184644418|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92369759|NCT01407952|184644419|SUPERIORITY|||||||0.578|||||||Wilcoxon (Mann-Whitney)|||||||0.578
92369760|NCT01407952|184644420|SUPERIORITY|||||||0.352|||||||Chi-squared|Chi-squared test statistic with one degree of freedom = 0.865||||||0.352
92406105|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.42|||<|0.0001|TWO_SIDED|95.0|0.28|0.57|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 2 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.57|0.28|<0.0001
92406106|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.7|||<|0.0001|TWO_SIDED|95.0|0.55|0.84|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 2 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.84|0.55|<0.0001
92406107|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.58|||<|0.0001|TWO_SIDED|95.0|0.44|0.73|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 3 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.73|0.44|<0.0001
92406108|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.77|||<|0.0001|TWO_SIDED|95.0|0.62|0.92|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 3 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.92|0.62|<0.0001
92406109|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.62|||<|0.0001|TWO_SIDED|95.0|0.46|0.78|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 4 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.78|0.46|<0.0001
92406110|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.82|||<|0.0001|TWO_SIDED|95.0|0.66|0.97|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 4 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.97|0.66|<0.0001
92406111|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.65|||<|0.0001|TWO_SIDED|95.0|0.49|0.81|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 5 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.81|0.49|<0.0001
92369761|NCT01407952|184644421|SUPERIORITY|||||||0.769|||||||Cochran-Armitage Trend Test|||||||0.769
92369762|NCT01407952|184644422|SUPERIORITY|||||||0.641|||||||Chi-squared|Chi-square test statistic with one degree of freedom=0.217||||||0.641
92369763|NCT01407952|184644423|SUPERIORITY|||||||0.003|||||||Chi-squared|chi-square test statistic with one degree of freedom=8.82||||||0.003
92369764|NCT01407952|184644424|SUPERIORITY|||||||0.162|||||||Chi-squared|Chi-squared test statistic with one degree of freedom=1.955||||||0.162
92369765|NCT01407952|184644425|SUPERIORITY|||||||0.245|||||||Fisher Exact|||||||0.245
92369766|NCT01407952|184644426|SUPERIORITY||||||<|0.01|||||||Chi-squared|Chi-squared test statistic with one degree of freedom=14.743||||||<0.01
92369767|NCT01407952|184644427|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
92369768|NCT00935493|184644428|SUPERIORITY_OR_OTHER|||||||0.06|||||||Regression, Linear|||||||0.06
92369769|NCT00935493|184644428|SUPERIORITY_OR_OTHER|||||||0.47|||||||Regression, Linear|||||||0.47
92369770|NCT00935493|184644429|SUPERIORITY_OR_OTHER|||||||0.67|||||||Regression, Logistic|||||||0.67
92369771|NCT00935493|184644429|SUPERIORITY_OR_OTHER|||||||0.46|||||||Regression, Logistic|||||||0.46
92369772|NCT00935493|184644430|SUPERIORITY_OR_OTHER|||||||0.65|||||||Regression, Linear|||||||0.65
92369773|NCT00935493|184644430|SUPERIORITY_OR_OTHER|||||||0.46|||||||Regression, Linear|||||||0.46
92369774|NCT03115827|184644435|OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.6
92369775|NCT02027311|184644440|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0||||For two-sided tests, p \< 0.05 was considered statistically significant.|Regression, Logistic|Logistic regression model used to identify the factors related to the presence of intervention (frequency of intervention = 0, vs. ≥ 1).||If the true difference in the experimental and control means is 4, total 26 experimental subjects and 26 control subjects was required to reject the null hypothesis that the means of the primary outcome values of experimental and control groups are equal with probability (power) 0.8. The Type I error probability associated with this test of this null hypothesis is 0.05.||||0.05
92369776|NCT02027311|184644441|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.09||||0.002|TWO_SIDED|95.0|2.41|50.94||Logistic regression model were used in univariate and corrected multivariate analyses to identify the factors related to the primary outcome variables, such as, presence of intervention (frequency of intervention = 0, vs. ≥ 1).|Regression, Logistic|||All the continuous variables were compared using the Mann-Whitney U test and dichotomous categorical variables was used and the Pearson chi-square with Fisher exact test. We used the linear mixed model to compare the differences of paired data, such as mean values of RR, SpO2, MAP, HR, and RSS at different time points of the two different sedation groups. For two-sided tests, p \< 0.05 was considered statistically significant.||50.94|2.41|0.002
92369777|NCT01825512|184644463|NON_INFERIORITY|Deferiprone was declared non inferior to Deferasirox if the lower limit of the 95% confidence interval for the difference in the proportion of successful chelation in the two groups is above -12.5%.|Treatment success rate|-12.5|||||ONE_SIDED|95.0|-12.5||||||||||-12.5|
92369778|NCT01825512|184644464|OTHER|GLM model|Mean Difference (Final Values)|2.128|STANDARD_ERROR_OF_MEAN|1.18||0.074|TWO_SIDED|95.0|-0.213|4.468|||ANCOVA|||||4.468|-0.213|0.074
92369779|NCT01825512|184644465|OTHER|GLM Analysis|Mean Difference (Final Values)|-0.633|STANDARD_ERROR_OF_MEAN|1.741||0.717|TWO_SIDED|95.0|-4.085|2.819|||ANCOVA|||||2.819|-4.085|0.717
92369780|NCT01825512|184644466|NON_INFERIORITY|Non inferiority of Deferiprone to Deferasirox is tested considering a non-inferiority margin of 400 ng/mL.|Mean Difference (Final Values)|0.601|STANDARD_ERROR_OF_MEAN|164.734||0.997|TWO_SIDED|95.0|-323.58|324.781|||GLM|||||324.781|-323.580|0.997
92369781|NCT02091362|184644467|SUPERIORITY_OR_OTHER||LS Mean Difference|2.26|||<|0.001|TWO_SIDED|95.0|1.11|3.4|||Mixed Models Analysis|||||3.40|1.11|<.001
92369782|NCT02091362|184644468|SUPERIORITY_OR_OTHER||LS Mean Difference|1.37|||<|0.01|TWO_SIDED|95.0|0.66|2.08|||Mixed Models Analysis|||||2.08|0.66|<0.01
92369783|NCT02565147|184644475|SUPERIORITY|||||||0.7505|||||||Wilcoxon Rank Sum Test|||||||0.7505
92369784|NCT03122145|184644516|SUPERIORITY|Mann whitney U between groups comparison for voluntary cough parameters between healthy controls and individuals with ALS outcomes: peak expiratory cough flow and cough volume acceleration||||||0.0005|||||||ANOVA|||Hypothesis that voluntary cough \> reflex cough strength and effectiveness in healthy volunteers||||0.0005
92168803|NCT02528188|184227114|SUPERIORITY||Rate Difference|1.94||||0.3214|TWO_SIDED|95.0|-1.89|5.76|||Poisson model for rate difference|||Rapidly Progressive OA Type 2||5.76|-1.89|0.3214
92369785|NCT01456195|184644529|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.122|<|0.001|TWO_SIDED|95.0|-0.72|-0.24||MMRM model with treatment, country, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-0.24|-0.72|<0.001
92369786|NCT01456195|184644529|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.122|<|0.001|TWO_SIDED|95.0|-1.0|-0.52||MMRM model with treatment, country, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-0.52|-1.00|<0.001
92369787|NCT01456195|184644530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.01|TWO_SIDED|95.0|1.2|3.79||P-Value used a logistic model with treatment, country and baseline HbA1c as explanatory variables.|Regression, Logistic|||||3.79|1.20|0.010
92369788|NCT01456195|184644530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.001|TWO_SIDED|95.0|2.48|7.82||P-Value used a logistic model with treatment, country and baseline HbA1c as explanatory variables.|Regression, Logistic|||||7.82|2.48|<0.001
92369789|NCT01456195|184644531|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.7|STANDARD_ERROR_OF_MEAN|4.59||0.003|TWO_SIDED|95.0|-22.7|-4.6||Mixed Model Repeated Measures (MMRM) model with treatment, country, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-4.6|-22.7|0.003
92369790|NCT01456195|184644531|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.3|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|-31.4|-13.2||MMRM model with treatment, country, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-13.2|-31.4|<0.001
92369791|NCT01456195|184644532|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.8|STANDARD_ERROR_OF_MEAN|17.17||0.1|TWO_SIDED|95.0|-63.2|5.7||ANCOVA model with treatment and country as fixed factors and baseline value as covariate.|ANCOVA|||||5.7|-63.2|0.100
92369792|NCT01456195|184644532|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.0|STANDARD_ERROR_OF_MEAN|17.7||0.096|TWO_SIDED|95.0|-65.5|5.5||ANCOVA model with treatment and country as fixed factors and baseline value as covariate.|ANCOVA|||||5.5|-65.5|0.096
92369793|NCT03304054|184644534|OTHER|||||||0.2196||||||P-value for Wilcoxon-Mann-Whitney Test of Equality of change from baseline distributions between the amifampridine phosphate and placebo treatment groups.|Wilcoxon (Mann-Whitney)|||A Wilcoxon-Mann-Whitney Rank Sum Test of equality of change from baseline distributions between subjects diagnosed with MuSK-MG treated with amifampridine and placebo was conducted.||||0.2196
92369794|NCT03304054|184644535|OTHER|||||||0.3736||||||P-value for Wilcoxon-Mann-Whitney Test of Equality of change from baseline distributions between the amifampridine phosphate and placebo treatment groups.|Wilcoxon (Mann-Whitney)|||A Wilcoxon-Mann-Whitney Rank Sum Test of equality of change from baseline distributions between subjects diagnosed with MuSK-MG treated with amifampridine and placebo was conducted.||||0.3736
92369795|NCT04683029|184644560|SUPERIORITY||LS Mean Difference|-12.6|||<|0.001|TWO_SIDED|80.0|-13.8|-11.4|||MMRM model|||||-11.4|-13.8|< 0.001
92369796|NCT04683029|184644561|SUPERIORITY||LS Mean Difference|-12.0|||||TWO_SIDED|80.0|-13.3|-10.7||||||||-10.7|-13.3|
92369797|NCT04683029|184644562|SUPERIORITY||Odds Ratio (OR)|0.1|||||TWO_SIDED|80.0|0.0|0.3||||||Week 24||0.3|0.0|
92168804|NCT02528188|184227114|SUPERIORITY||Rate Difference|12.88||||0.0008|TWO_SIDED|95.0|5.36|20.39|||Poisson model for rate difference|||Rapidly Progressive OA Type 2||20.39|5.36|0.0008
92369798|NCT04683029|184644562|SUPERIORITY||Odds Ratio (OR)|0.1|||||TWO_SIDED|80.0|0.0|0.2||||||Week 52||0.2|0.0|
92369799|NCT04683029|184644563|SUPERIORITY||Odds Ratio (OR)|203.2|||||TWO_SIDED|80.0|42.1|980.6||||||Week 24||980.6|42.1|
92369800|NCT04683029|184644563|SUPERIORITY||Odds Ratio (OR)|130.3|||||TWO_SIDED|80.0|28.2|601.9||||||Week 52||601.9|28.2|
92369801|NCT04683029|184644564|SUPERIORITY||LS Mean Difference|-47.2|||||TWO_SIDED|80.0|-96.8|2.4||||||Week 24||2.4|-96.8|
92369802|NCT04683029|184644564|SUPERIORITY||LS Mean difference|-14.2|||||TWO_SIDED|80.0|-57.2|28.8||||||Week 52||28.8|-57.2|
92369803|NCT04683029|184644565|SUPERIORITY||LS Mean Difference|0.0|||||TWO_SIDED|80.0|-1.7|1.6||||||Week 24||1.6|-1.7|
92369804|NCT04683029|184644565|SUPERIORITY||LS Mean Difference|0.1|||||TWO_SIDED|80.0|-1.4|1.7||||||Week 52||1.7|-1.4|
92406112|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.83|||<|0.0001|TWO_SIDED|95.0|0.66|0.99|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 5 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.99|0.66|<0.0001
92406113|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.63|||<|0.0001|TWO_SIDED|95.0|0.46|0.8|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 6 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.80|0.46|<0.0001
92406114|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.72|||<|0.0001|TWO_SIDED|95.0|0.54|0.89|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 6 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.89|0.54|<0.0001
92406115|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.47|||<|0.0001|TWO_SIDED|95.0|0.3|0.65|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 7 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.65|0.30|<0.0001
92406116|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.68|||<|0.0001|TWO_SIDED|95.0|0.49|0.86|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 7 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.86|0.49|<0.0001
92406117|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.47|||<|0.0001|TWO_SIDED|95.0|0.29|0.66|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 8 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.66|0.29|<0.0001
92369805|NCT04683029|184644566|SUPERIORITY||LS Mean Difference|-0.08|||||TWO_SIDED|80.0|-0.44|0.27||||||Week 24||0.27|-0.44|
92369806|NCT04683029|184644566|SUPERIORITY||LS Mean Difference|0.21|||||TWO_SIDED|80.0|-0.29|0.71||||||Week 52||0.71|-0.29|
92369807|NCT04683029|184644567|SUPERIORITY||LS Mean Difference|-2.08|||||TWO_SIDED|80.0|-3.81|-0.34||||||Week 24||-0.34|-3.81|
92369808|NCT04683029|184644567|SUPERIORITY||LS Mean Difference|0.14|||||TWO_SIDED|80.0|-2.13|2.42||||||Week 52||2.42|-2.13|
92369809|NCT04683029|184644568|SUPERIORITY||LS Mean Difference|-4.9|||||TWO_SIDED|80.0|-5.7|-4.0||||||Week 24||-4.0|-5.7|
92369810|NCT04683029|184644568|SUPERIORITY||LS Mean Difference|-4.3|||||TWO_SIDED|80.0|-5.1|-3.5||||||Week 52||-3.5|-5.1|
92369811|NCT04683029|184644569|SUPERIORITY||LS Mean Difference|-0.4006|||||TWO_SIDED|80.0|-0.5344|-0.2668||||||Week 24||-0.2668|-0.5344|
92369812|NCT04683029|184644569|SUPERIORITY||LS Mean Difference|-0.2355|||||TWO_SIDED|80.0|-0.373|-0.098||||||Week 52||-0.0980|-0.3730|
92369813|NCT00066703|184644613|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.717||||0.0002|TWO_SIDED|95.0|0.602|0.855|||Log Rank||T+OFS is the reference group in the estimation of the hazard ratio.|||0.855|0.602|.0002
92369814|NCT00066703|184644614|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.664|||<|0.0001|TWO_SIDED|95.0|0.548|0.804|||Log Rank||T+OFS is the reference group for the estimation of the hazard ratio.|||.804|.548|<.0001
92369815|NCT00066703|184644615|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.777||||0.02|TWO_SIDED|95.0|0.624|0.967|||Log Rank||T+OFS was the reference group in the estimation of the hazard ratio|||0.967|0.624|0.02
92369816|NCT00066703|184644616|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.84|TWO_SIDED|95.0|0.79|1.22|||Log Rank||T+OFS was the reference group in the estimation of the hazard ratio|||1.22|0.79|0.84
92369817|NCT01696968|184644617|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.91|1.07|||Poisson regression|||||1.07|0.91|
92369818|NCT01696968|184644619|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.95|1.0|||Poisson regression|||||1.00|0.95|
92369819|NCT01696968|184644621|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.98|1.12|||Poisson regression|||||1.12|0.98|
92369820|NCT01696968|184644625|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.91|1.07|||Poisson regression|||||1.07|0.91|
92406118|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.6|||<|0.0001|TWO_SIDED|95.0|0.41|0.79|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 8 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.79|0.41|<0.0001
92406119|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.49|||<|0.0001|TWO_SIDED|95.0|0.29|0.68|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 9 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.68|0.29|<0.0001
92369821|NCT00734604|184644628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.04||0.001|TWO_SIDED|95.0|0.04|0.19||p-value is for difference in LS Means change from baseline between tadalafil OaD and Sildenafil PRN.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.19|0.04|0.001
92369822|NCT00734604|184644629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.872|TWO_SIDED|95.0|-0.06|0.08||p-value is for difference in Pairs Sexual Self-Confidence Domain Score LS Mean and Change from Baseline between Tadalafil OaD and Tadalafil PRN Population|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.|LS Mean difference = Tadalafil OaD-Tadalafil PRN|||0.08|-0.06|0.872
92369823|NCT00734604|184644630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|0.1|0.2||p-value is for difference between Tadalafil OaD and Sildenafil PRN change from baseline in LS Mean.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.20|0.10|<0.001
92369824|NCT00734604|184644630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.395|TWO_SIDED|95.0|-0.03|0.07||p-value is for difference between Tadalafil OaD and Tadalafil PRN in change from baseline in LS Mean.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.07|-0.03|0.395
92369825|NCT00734604|184644631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|-0.36|-0.25||p-value is for the difference between Tadalafil OaD and Sildenafil PRN in Change from Baseline in LS Mean.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-0.25|-0.36|<0.001
92369826|NCT00734604|184644631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|-0.2|-0.08||p-value is for the difference between Tadalafil OaD and Tadalafil PRN in Change from Baseline in LS Mean.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-0.08|-0.20|<0.001
92369827|NCT00734604|184644632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.3||0.004|TWO_SIDED|95.0|-1.43|-0.27||p-value is for the difference between Tadalafil OaD and Sildenafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-0.27|-1.43|0.004
92369828|NCT00734604|184644632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.29||0.007|TWO_SIDED|95.0|-1.37|-0.22||p-value is for the difference between Tadalafil OaD and Tadalafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-0.22|-1.37|0.007
92369829|NCT00734604|184644633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|0.03|0.09||p-value is for difference between Tadalafil OaD and Tadalafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.09|0.03|<0.001
92369830|NCT00734604|184644633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|0.06|0.12||p-value is for difference between Tadalafil OaD and Sildenafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.12|0.06|<0.001
92369831|NCT00734604|184644634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.91|-0.36||p-value is for difference between Tadalafil OaD and Sildenafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-0.36|-0.91|<0.001
92369832|NCT00734604|184644634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.78|-0.23||p-value is for difference between Tadalafil OaD and Tadalafil PRN Change from Baseline in LS Means.|t-test|||||-0.23|-0.78|<0.001
92369833|NCT00734604|184644635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.055|TWO_SIDED|95.0|-0.44|0.0||p-value is for the difference between Tadalafil OaD and Sildenafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.00|-0.44|0.055
92369834|NCT00734604|184644635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.046|TWO_SIDED|95.0|-0.44|0.0||p-value is for the difference between Tadalafil OaD and Tadalafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.00|-0.44|0.046
92406120|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.71|||<|0.0001|TWO_SIDED|95.0|0.52|0.91|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 9 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.91|0.52|<0.0001
92406121|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.53|||<|0.0001|TWO_SIDED|95.0|0.33|0.73|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 10 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.73|0.33|<0.0001
92406122|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.74|||<|0.0001|TWO_SIDED|95.0|0.51|0.96|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 10 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.96|0.51|<0.0001
92406123|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.64|||<|0.0001|TWO_SIDED|95.0|0.41|0.86|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 11 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.86|0.41|<0.0001
92406124|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.74|||<|0.0001|TWO_SIDED|95.0|0.49|0.99|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 11 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.99|0.49|<0.0001
92406125|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.42||||0.001|TWO_SIDED|95.0|0.17|0.68|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 12 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.68|0.17|0.0010
92406126|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.6|||<|0.0001|TWO_SIDED|95.0|0.32|0.89|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 12 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.89|0.32|<0.0001
92406127|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.52||||0.0005|TWO_SIDED|95.0|0.23|0.82|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 13 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.82|0.23|0.0005
92406128|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.56||||0.0008|TWO_SIDED|95.0|0.23|0.88|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 13 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.88|0.23|0.0008
92406129|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.33||||0.0591|TWO_SIDED|95.0|-0.01|0.67|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 14 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.67|-0.01|0.0591
92406130|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.67||||0.0005|TWO_SIDED|95.0|0.29|1.05|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 14 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.05|0.29|0.0005
92406131|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.3||||0.1378|TWO_SIDED|95.0|-0.09|0.68|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 15 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.68|-0.09|0.1378
92369835|NCT00734604|184644636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.66|STANDARD_ERROR_OF_MEAN|1.27||0.004|TWO_SIDED|95.0|1.16|6.17||p-value is for the difference between Tadalafil PRN and Sildenafil PRN change in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||6.17|1.16|0.004
92369836|NCT00734604|184644636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.55|STANDARD_ERROR_OF_MEAN|1.27||0.006|TWO_SIDED|95.0|-6.05|-1.04||p-value is for the difference between Tadalafil OaD and Tadalafil PRN change in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-1.04|-6.05|0.006
92369837|NCT00734604|184644638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|1.05||0.915|TWO_SIDED|95.0|-1.95|2.17||p-value is for the difference between Tadalafil OaD and Sildenafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||2.17|-1.95|0.915
92369838|NCT00734604|184644638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|1.04||0.212|TWO_SIDED|95.0|-3.35|0.74||p-value is for the difference between Tadalafil OaD and Tadalafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.74|-3.35|0.212
92406132|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.43||||0.065|TWO_SIDED|95.0|-0.03|0.89|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 15 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.89|-0.03|0.0650
92406133|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.48||||0.0531|TWO_SIDED|95.0|-0.01|0.96|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 16 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.96|-0.01|0.0531
92369839|NCT00734604|184644639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.403|TWO_SIDED|95.0|-0.09|0.22||p-value is for the difference between Tadalafil OaD and Sildenafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.22|-0.09|0.403
92369840|NCT00734604|184644639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.367|TWO_SIDED|95.0|-0.08|0.23||p-value is for the difference between Tadalafil OaD and Tadalafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.23|-0.08|0.367
92369841|NCT00734604|184644640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.06||0.002|TWO_SIDED|95.0|0.07|0.32||p-value is for the difference between Tadalafil OaD and Sildenafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.32|0.07|0.002
92369842|NCT00734604|184644640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.06||0.722|TWO_SIDED|95.0|-0.15|0.1||p-value is for the difference between Tadalafil OaD and Tadalafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.10|-0.15|0.722
92369843|NCT00734604|184644641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.65|-0.37||p-value is for the difference between Tadalafil OaD and Sildenafil PRN in LS Means.|Generalized Linear Mixed Model|||||-0.37|-0.65|<0.001
92369844|NCT00734604|184644641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.43|-0.16||p-value is for the difference between Tadalafil OaD and Tadalafil PRN in LS Means.|Generalized Linear Mixed Model|||||-0.16|-0.43|<0.001
92369845|NCT00734604|184644642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.07|TWO_SIDED|95.0|-0.01|0.22||p-value is for the difference between Tadalafil OaD and Sildenafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.22|-0.01|0.070
92369846|NCT00734604|184644642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.637|TWO_SIDED|95.0|-0.14|0.09||p-value is for the difference between Tadalafil OaD and Tadalafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.09|-0.14|0.637
92406134|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.93||||0.0011|TWO_SIDED|95.0|0.37|1.49|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 16 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.49|0.37|0.0011
92406135|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.55||||0.0708|TWO_SIDED|95.0|-0.05|1.14|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 17 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.14|-0.05|0.0708
92406136|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.58||||0.1078|TWO_SIDED|95.0|-0.13|1.29|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 17 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.29|-0.13|0.1078
92406137|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.62||||0.1487|TWO_SIDED|95.0|-0.22|1.47|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 18 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.47|-0.22|0.1487
92406138|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.33||||0.5537|TWO_SIDED|95.0|-0.77|1.43|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 18 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.43|-0.77|0.5537
92406139|NCT02420821|184702454|SUPERIORITY||LS Mean Difference|0.52||||0.5743|TWO_SIDED|95.0|-1.29|2.33|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 19 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||2.33|-1.29|0.5743
92406140|NCT04467905|184702461|SUPERIORITY||Mean Difference (Final Values)|-29.9|||<|0.0001|TWO_SIDED|95.0|-40.3|-19.3|||ANCOVA||The mean difference is the difference in adjusted means for the change between baseline value and nadir in the placebo group and the change between baseline and nadir in the etripamil group.|||-19.3|-40.3|<0.0001
92406141|NCT04953728|184702490|SUPERIORITY|||||||0.77306724|||||||t-test, 2 sided|||Change in maximum tolerance in mmHg of the rectum during ST36 100Hz when compared to baseline||||0.77306724
92406142|NCT04953728|184702490|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||Change in maximum tolerance in mmHg of the rectum during ST36 25Hz when compared to baseline||||0.24
92406143|NCT04953728|184702490|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||Change in maximum tolerance in mmHg of the rectum during PC6 100Hz when compared to baseline||||0.45
92406144|NCT04953728|184702490|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||Change in maximum tolerance in mmHg of the rectum during PC6 25Hz when compared to baseline||||0.13
92406145|NCT04953728|184702490|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||Change in maximum tolerance in mmHg of the rectum during Sham when compared to baseline||||0.14
92406146|NCT04953728|184702491|SUPERIORITY|||||||0.81019363|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 100Hz when compared to ST36 25Hz||||0.81019363
92406147|NCT04953728|184702491|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 100Hz when compared to PC6 100Hz||||0.18
92406148|NCT04953728|184702491|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 100Hz when compared to PC6 25Hz||||0.21
92406149|NCT04953728|184702491|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 100Hz when compared to Sham||||0.58
92406150|NCT04953728|184702491|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 25Hz when compared to PC6 100Hz||||0.18
92406151|NCT04953728|184702491|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 25Hz when compared to PC6 25Hz||||0.18
92406152|NCT04953728|184702491|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 25Hz when compared to sham||||0.78
92406153|NCT04953728|184702491|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||Change in average maximum tolerance of PC6 100Hz when compared to PC6 25Hz||||0.89
92406154|NCT04953728|184702491|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||Change in average maximum tolerance of PC6 100Hz when compared to sham||||0.05
92406155|NCT04953728|184702491|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||Change in average maximum tolerance of PC6 25Hz when compared to sham||||0.07
92406156|NCT04953728|184702492|SUPERIORITY|||||||0.00046998|||||||t-test, 2 sided|||ST36 100Hz: Difference of VAS sums between 15 and 50 mmHg between pre and post stimulation||||0.00046998
92406157|NCT04953728|184702492|SUPERIORITY|||||||0.74369428|||||||t-test, 2 sided|||ST36 25Hz: Difference of VAS sums between 15 and 50 mmHg between pre and post stimulation||||0.74369428
92406158|NCT04953728|184702492|SUPERIORITY|||||||0.09854383|||||||t-test, 2 sided|||PC6 100Hz: Difference of VAS sums between 15 and 50 mmHg between pre and post stimulation||||0.09854383
92406159|NCT04953728|184702492|SUPERIORITY|||||||0.24872746|||||||t-test, 2 sided|||PC6 25Hz: Difference of VAS sums between 15 and 50 mmHg between pre and post stimulation||||0.24872746
92406160|NCT04953728|184702492|SUPERIORITY|||||||0.04828889|||||||t-test, 2 sided|||Sham: Difference of VAS sums between 15 and 50 mmHg between pre and post stimulation||||0.04828889
92369847|NCT02222909|184644660|OTHER|The significance of the difference-in-differences statistic was assessed using randomization inference, a non-parametric permutation test. Confidence intervals were determined by inversion of the test statistic.|Difference in differences|0.0182||||0.63|TWO_SIDED|95.0|-0.12|0.11||We calculated the proportion of permuted statistics with values higher in magnitude than that of the observed adjusted difference in differences (the p-value). We inverted the test statistic to determine confidence intervals.|Randomization inference||The estimation parameter is the difference between the average adjusted change in the monthly ED visits and hospital days from the pre- to post- intervention periods for the patients assigned to the iCBOs as compared to the cCBOs.|The difference between the average sum of the number of days spent in the hospital and ED visits in the past month, pre- and post-intervention, adjusted for pre- intervention variables, was calculated for each patients. The average change scores among patients assigned to each CBO defined the CBO-level outcomes. We calculated a weighted average of the CBO outcomes separately for the iCBOs and cCBOs, defining the difference-in-differences statistic as the difference between the two averages.||0.11|-0.12|0.63
92369848|NCT00117715|184644662|OTHER|||||||0.035||||||Post-hoc analysis performed using Tukey's Honestly Significant Difference test.|ANOVA|||Univariate analysis (ANOVA) of the change in log(DM/DX) over time||||0.035
92369849|NCT00117715|184644663|OTHER|||||||0.194||||||Post-hoc analysis performed using Tukey's Honestly Significant Difference test.|ANOVA|||Univariate analysis (ANOVA) of the change in log(3HM/DX) over time||||0.194
92369850|NCT00117715|184644664|OTHER|||||||0.831||||||Post-hoc analysis performed using Tukey's Honestly Significant Difference test.|ANOVA|||Univariate analysis (ANOVA) of the change in log ((AAMU+1MX+1MU)/1,7,U) over time||||0.831
92369851|NCT01460875|184644683|NON_INFERIORITY|The method to be developed will allow us to declare that a response at a lower dose is not inferior to that at the standard dose for a particular patient, using a patient specific inferiority test.||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||.22
92369852|NCT00654745|184644805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.9|||<|0.0001|TWO_SIDED|95.0|-21.5|-18.4|||t-test, 2 sided|||||-18.4|-21.5|<0.0001
92406161|NCT04953728|184702493|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||ST36 100Hz compared to ST36 25Hz||||0.02
92406162|NCT04953728|184702493|SUPERIORITY|||||||0.11|||||||t-test, 1 sided|||ST36 100Hz compared to PC6 100Hz||||0.11
92406163|NCT04953728|184702493|SUPERIORITY|||||||0.01|||||||t-test, 1 sided|||ST36 100Hz compared to PC6 25Hz||||0.01
92168805|NCT02528188|184227114|SUPERIORITY||Rate Difference|1.9||||0.5394|TWO_SIDED|95.0|-4.17|7.96|||Poisson model for rate difference|||Subchondral Insufficiency Fracture||7.96|-4.17|0.5394
92369853|NCT00654745|184644806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.2|||<|0.0001|TWO_SIDED|95.0|-12.2|-10.3||24-hour mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-10.3|-12.2|<0.0001
92369854|NCT00654745|184644806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.7|||<|0.0001|TWO_SIDED|95.0|-12.9|-10.5||daytime mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-10.5|-12.9|<0.0001
92369855|NCT00654745|184644806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.4|||<|0.0001|TWO_SIDED|95.0|-11.7|-9.0||nighttime mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-9.0|-11.7|<0.0001
92369856|NCT00654745|184644806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.9|||<|0.0001|TWO_SIDED|95.0|-12.2|-9.7||last 6 hours mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-9.7|-12.2|<0.0001
92369857|NCT00654745|184644806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.1|||<|0.0001|TWO_SIDED|95.0|-12.4|-9.8||last 4 hours mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-9.8|-12.4|<0.0001
92406164|NCT04953728|184702493|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|||ST36 100Hz compared to Sham||||0.04
92406165|NCT04953728|184702493|SUPERIORITY|||||||0.11|||||||t-test, 1 sided|||ST36 25Hz compared to PC6 100Hz||||0.11
92406166|NCT04953728|184702493|SUPERIORITY|||||||0.23|||||||t-test, 1 sided|||ST36 25Hz compared to PC6 25Hz||||0.23
92406167|NCT04953728|184702493|SUPERIORITY|||||||0.17|||||||t-test, 1 sided|||ST36 25Hz compared to Sham||||0.17
92406168|NCT04953728|184702493|SUPERIORITY|||||||0.15|||||||t-test, 1 sided|||PC6 100Hz compared to PC6 25Hz||||0.15
92406169|NCT04953728|184702493|SUPERIORITY|||||||0.43|||||||t-test, 1 sided|||PC6 100Hz compared to Sham||||0.43
92406170|NCT04953728|184702493|SUPERIORITY|||||||0.19|||||||t-test, 1 sided|||PC6 25Hz compared to Sham||||0.19
92406171|NCT04953728|184702494|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Change in maximum volume in mL of the rectum during ST36 100Hz when compared to baseline||||0.87
92406172|NCT04953728|184702494|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||Change in maximum volume in mL of the rectum during ST36 25Hz when compared to baseline||||0.13
92406173|NCT04953728|184702494|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||Change in maximum volume in mL of the rectum during PC6 100Hz when compared to baseline||||0.17
92406174|NCT04953728|184702494|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||Change in maximum volume in mL of the rectum during PC6 25Hz when compared to baseline||||0.88
92168806|NCT02528188|184227114|SUPERIORITY||Rate Difference|2.98||||0.3636|TWO_SIDED|95.0|-3.44|9.39|||Poisson model for rate difference|||Subchondral Insufficiency Fracture||9.39|-3.44|0.3636
92168807|NCT02528188|184227114|SUPERIORITY||Poisson model for rate difference|1.0|||||||||||||95% CI was not estimable since there were less number of participants with events.|Primary osteonecrosis||||
92369858|NCT00654745|184644806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.5|||<|0.0001|TWO_SIDED|95.0|-13.1|-10.0||last 2 hours mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-10.0|-13.1|<0.0001
92369859|NCT00654745|184644807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.8|||<|0.0001|TWO_SIDED|95.0|-22.6|-18.9||daytime mean SBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-18.9|-22.6|<0.0001
92369860|NCT00654745|184644807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-18.5|||<|0.0001|TWO_SIDED|95.0|-20.4|-16.6||nighttime mean SBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-16.6|-20.4|<0.0001
92369861|NCT00654745|184644807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-18.9|||<|0.0001|TWO_SIDED|95.0|-20.7|-17.0||last 6 hours mean SBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-17.0|-20.7|<0.0001
92406175|NCT04953728|184702494|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||Change in maximum volume in mL of the rectum during sham when compared to baseline||||0.14
92406176|NCT04953728|184702495|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||Change in first sensation in mmHg of the rectum during ST36 100Hz when compared to baseline||||0.007
92406177|NCT04953728|184702495|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||Change in first sensation in mmHg of the rectum during ST36 25Hz when compared to baseline||||0.83
92406178|NCT04953728|184702495|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Change in first sensation in mmHg of the rectum during PC6 100Hz when compared to baseline||||0.87
92406179|NCT04953728|184702495|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||Change in first sensation in mmHg of the rectum during PC6 25Hz when compared to baseline||||0.004
92406180|NCT04953728|184702495|SUPERIORITY|||||||0.056|||||||t-test, 2 sided|||Change in first sensation in mmHg of the rectum during sham when compared to baseline||||0.056
92406181|NCT01732718|184702512|SUPERIORITY|||||||0.51|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.51
92406182|NCT01732718|184702513|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
92406183|NCT01732718|184702515|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
92406184|NCT01732718|184702517|SUPERIORITY|||||||0.57|||||||see comments for explanation|albuminuria examined as continuous variable (linear mixed model to analyze effect) and categorical generalized variable (estimating equation approach)||||||0.57
92406185|NCT01732718|184702521|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
92406186|NCT01732718|184702522|SUPERIORITY|||||||0.1469|||||||t-test, 1 sided|||Comparison of the change in AMC||||0.1469
92406187|NCT01732718|184702522|SUPERIORITY|||||||0.2382|||||||t-test, 1 sided|||Comparison of the change in ALC||||0.2382
92406188|NCT01732718|184702522|SUPERIORITY|||||||0.5833|||||||t-test, 1 sided|||Comparison of the change in ANC||||0.5833
92406189|NCT01732718|184702525|SUPERIORITY|||||||0.5184|||||||Wilcoxon (Mann-Whitney)|||||||0.5184
92406190|NCT03584789|184702615|SUPERIORITY||Odds Ratio (OR)|1.29||||0.08|TWO_SIDED|97.5|0.93|1.8|||Mixed Models Analysis|||||1.80|.93|.08
92406191|NCT03584789|184702615|SUPERIORITY||Odds Ratio (OR)|1.24||||0.18|TWO_SIDED|97.5|0.86|1.79|||Mixed Models Analysis|||||1.79|.86|.18
92406192|NCT03584789|184702616|SUPERIORITY||Odds Ratio (OR)|1.37||||0.71|TWO_SIDED|97.5|0.2|9.44|||Mixed Models Analysis|||||9.44|.20|.71
92406193|NCT03584789|184702616|SUPERIORITY||Odds Ratio (OR)|1.53||||0.62|TWO_SIDED|97.5|0.21|11.0|||Mixed Models Analysis|||||11.00|.21|.62
92406194|NCT03584789|184702617|SUPERIORITY||Median Difference (Net)|-0.07||||0.38|TWO_SIDED|95.0|-0.26|0.12|||Mixed Models Analysis|||||.12|-0.26|.38
92406195|NCT03584789|184702617|SUPERIORITY||Median Difference (Net)|-0.03||||0.7|TWO_SIDED|95.0|-0.24|0.17|||Mixed Models Analysis|||||.17|-0.24|.70
92406196|NCT03584789|184702618|SUPERIORITY||Mean Difference (Net)|-0.14||||0.65|TWO_SIDED|95.0|-0.79|0.5|||Mixed Models Analysis|||||.50|-0.79|.65
92406197|NCT03584789|184702618|SUPERIORITY||Mean Difference (Net)|-0.29||||0.41|TWO_SIDED|95.0|-0.99|0.41|||Mixed Models Analysis|||||.41|-0.99|.41
92406198|NCT01544335|184702654|OTHER||||||<|0.001|||||||Correlation coefficient|The correlation between RVC and ΔL-Dex values was plotted, and the correlation strength was assessed using the Pearson correlation coefficient, r.||||||<0.001
92406199|NCT01532986|184702678|SUPERIORITY||Mean Difference (Final Values)|0.189|||>|0.05|TWO_SIDED|95.0|0.157|0.222|||t-test, 2 sided|||||0.222|0.157|>0.05
92406200|NCT01532986|184702679|SUPERIORITY||Mean Difference (Final Values)|0.02|||>|0.05|TWO_SIDED|95.0|-0.04|0.08|||t-test, 2 sided|||||0.08|-0.04|>0.05
92406201|NCT01532986|184702680|SUPERIORITY||Mean Difference (Final Values)|0.02|||>|0.05|TWO_SIDED|95.0|-0.52|0.57|||t-test, 2 sided|||||0.57|-0.52|>0.05
92406202|NCT01532986|184702681|SUPERIORITY||Mean Difference (Final Values)|-0.12|||>|0.05|TWO_SIDED|95.0|-0.34|0.1|||t-test, 2 sided|||||0.10|-0.34|>0.05
92406203|NCT01532986|184702682|SUPERIORITY||Mean Difference (Final Values)|-0.88|||>|0.05|TWO_SIDED|95.0|-2.04|0.29|||t-test, 2 sided|||||0.29|-2.04|>0.05
92406204|NCT01532986|184702683|SUPERIORITY||Mean Difference (Final Values)|1.22|||>|0.05|TWO_SIDED|95.0|-8.02|10.46|||t-test, 2 sided|||||10.46|-8.02|>0.05
92406205|NCT01532986|184702684|SUPERIORITY||Mean Difference (Final Values)|0.17|||>|0.05|TWO_SIDED|95.0|0.0|0.34|||t-test, 2 sided|||||0.34|0.00|>0.05
92406206|NCT01532986|184702685|SUPERIORITY||Mean Difference (Final Values)|-0.06|||>|0.05|TWO_SIDED|95.0|-1.45|1.33|||t-test, 2 sided|||||1.33|-1.45|>0.05
92406207|NCT01532986|184702686|SUPERIORITY||Mean Difference (Final Values)|-11.52|||<|0.05|TWO_SIDED|95.0|-20.42|-2.62|||t-test, 2 sided|||||-2.62|-20.42|<0.05
92406208|NCT01532986|184702687|SUPERIORITY||Mean Difference (Final Values)|-1.98|||>|0.05|TWO_SIDED|95.0|-4.2|0.24|||t-test, 2 sided|||||0.24|-4.20|>0.05
92406209|NCT03408392|184702695|EQUIVALENCE|Bio-equivalence analysis comparing cefixime test and reference product has been presented.|Percentage ratio|105.38|||||TWO_SIDED|90.0|96.11|115.54||||||||115.54|96.11|
92406210|NCT03408392|184702696|EQUIVALENCE|Bio-equivalence analysis comparing cefixime test and reference product has been presented.|Percentage ratio|101.14|||||TWO_SIDED|90.0|93.37|109.55||||||||109.55|93.37|
92406211|NCT03408392|184702697|EQUIVALENCE|Bio-equivalence analysis comparing cefixime test and reference product has been presented.|Percentage ratio|105.14|||||TWO_SIDED|90.0|96.31|114.78||||||||114.78|96.31|
92406212|NCT00885170|184702719|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|2.67|||<|0.001|TWO_SIDED|95.0|1.17|4.17|||Constrained longitudinal data analysis||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|The primary hypothesis of the study was met if; in postmenopausal women previously treated with alendronate with low BMD, two years of treatment with odanacatib 50 mg significantly increased BMD at the femoral neck site compared to placebo (p-value \< 0.001).||4.17|1.17|<0.001
92406213|NCT00885170|184702720|SUPERIORITY_OR_OTHER||Difference in Percentages vs. Placebo|-5.5|||||TWO_SIDED|95.0|-16.9|6.0|||||Based on Miettinen \& Nurminen method.|||6.0|-16.9|
92406214|NCT00885170|184702721|SUPERIORITY_OR_OTHER||Difference in the Percentage vs. Placebo|5.7|||||TWO_SIDED|95.0|-0.4|12.6|||||Based on Miettinen \& Nurminen method.|||12.6|-0.4|
92168808|NCT02528188|184227114|SUPERIORITY||Rate Difference|1.0|||||||||||||95% CI was not estimable since there were less number of participants with events.|Primary osteonecrosis||||
92168809|NCT02528188|184227115|SUPERIORITY||Risk Difference (RD)|4.87||||0.0002|TWO_SIDED|95.0|2.43|7.74||The event of adjudicated primary osteonecrosis in the tanezumab 2.5 mg treatment group is not included in this analysis. Conclusions for this analysis do not change as the comparison to NSAID is already statistically significant in favor of NSAID.|Exact methods for risk difference|||||7.74|2.43|0.0002
92168810|NCT02528188|184227115|SUPERIORITY||Risk Difference (RD)|9.41|||<|0.0001|TWO_SIDED|95.0|6.73|12.52|||Exact methods for risk difference|||||12.52|6.73|<0.0001
92239568|NCT04705597|184383021|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.0254|TWO_SIDED|95.0|0.08|1.2||Change at Day 14|ANCOVA|||||1.2|0.08|0.0254
92406215|NCT00885170|184702722|SUPERIORITY_OR_OTHER||Difference in the least Squares Means|0.88||||0.166|TWO_SIDED|95.0|-0.37|2.14|||Constrained longitudinal data analysis||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||2.14|-0.37|0.166
92406216|NCT00885170|184702723|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|3.18||||0.002|TWO_SIDED|95.0|1.19|5.17|||Constrained longitudinal data analysis||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||5.17|1.19|0.002
92406217|NCT00885170|184702724|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|1.0||||0.142|TWO_SIDED|95.0|-0.34|2.35|||Constrained longitudinal data analysis||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||2.35|-0.34|0.142
92406218|NCT00885170|184702725|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|2.7|||<|0.001|TWO_SIDED|95.0|1.41|4.0|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||4.00|1.41|<0.001
92406219|NCT00885170|184702726|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|1.06||||0.023|TWO_SIDED|95.0|0.15|1.98|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||1.98|0.15|0.023
92406220|NCT00885170|184702727|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|2.57|||<|0.001|TWO_SIDED|95.0|1.26|3.89|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||3.89|1.26|<0.001
92406221|NCT00885170|184702728|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|0.8||||0.103|TWO_SIDED|95.0|-0.16|1.77|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||1.77|-0.16|0.103
92406222|NCT00885170|184702729|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|0.22||||0.763|TWO_SIDED|95.0|-1.23|1.67|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||1.67|-1.23|0.763
92239569|NCT04705597|184383021|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.1109|TWO_SIDED|95.0|-0.12|1.18|||ANCOVA|||Change at Day 28||1.18|-0.12|0.1109
92406223|NCT00885170|184702730|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|0.38||||0.578|TWO_SIDED|95.0|-0.96|1.72|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||1.72|-0.96|0.578
92406224|NCT00885170|184702731|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|10.16||||0.5|TWO_SIDED|95.0|-19.39|39.72|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||39.72|-19.39|0.500
92406225|NCT00885170|184702732|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-5.82||||0.709|TWO_SIDED|95.0|-36.29|24.65|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||24.65|-36.29|0.709
92406226|NCT00885170|184702733|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-47.04|||<|0.001|TWO_SIDED|95.0|-62.4|-31.67|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||-31.67|-62.40|<0.001
92406227|NCT00885170|184702734|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-46.29|||<|0.001|TWO_SIDED|95.0|-61.43|-31.15|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||-31.15|-61.43|<0.001
92406228|NCT00885170|184702735|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|10.96||||0.186|TWO_SIDED|95.0|-5.29|27.22|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||27.22|-5.29|0.186
92369862|NCT00654745|184644807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.1|||<|0.0001|TWO_SIDED|95.0|-21.1|-17.1||last 4 hours mean SBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-17.1|-21.1|<0.0001
92369863|NCT00654745|184644807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.5|||<|0.0001|TWO_SIDED|95.0|-21.7|-17.4||last 2 hours mean SBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-17.4|-21.7|<0.0001
92406229|NCT00885170|184702736|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|12.82||||0.015|TWO_SIDED|95.0|2.54|23.1|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||23.10|2.54|0.015
92406230|NCT00885170|184702737|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|31.17||||0.011|TWO_SIDED|95.0|7.13|55.21|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||55.21|7.13|0.011
92406231|NCT00885170|184702738|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|24.01||||0.059|TWO_SIDED|95.0|-0.93|48.94|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||48.94|-0.93|0.059
92406232|NCT00885170|184702739|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|0.11||||0.846|TWO_SIDED|95.0|-0.95|1.16|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||1.16|-0.95|0.846
92406233|NCT00885170|184702740|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|1.38||||0.413|TWO_SIDED|95.0|-1.91|4.67|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||4.67|-1.91|0.413
92406234|NCT00885170|184702741|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-5.91||||0.326|TWO_SIDED|95.0|-17.66|5.85|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||5.85|-17.66|0.326
92406235|NCT00885170|184702742|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|1.47||||0.835|TWO_SIDED|95.0|-12.37|15.32|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||15.32|-12.37|0.835
92406236|NCT00885170|184702743|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-3.13||||0.376|TWO_SIDED|95.0|-10.04|3.78|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||3.78|-10.04|0.376
92406237|NCT03771664|184702744|SUPERIORITY||Least Square (LS) Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|2.23||0.1537|TWO_SIDED|95.0|-1.2|7.7||Average change from baseline in SE was analyzed by analysis of covariance (ANCOVA) with explanatory (treatment, baseline antidepressant use, baseline SE) and response variables \[change from baseline in sleep efficiency at Day 14 (EODBT)\].|ANCOVA|||||7.7|-1.2|0.1537
92406238|NCT03771664|184702745|SUPERIORITY||LS Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|8.07||0.1126|TWO_SIDED|95.0|-29.0|3.1||Change from BL in overall WASO was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from baseline (BL) in overall WASO||3.1|-29.0|0.1126
92406239|NCT03771664|184702745|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.63||0.9819|TWO_SIDED|95.0|-3.3|3.2||Change from BL in WASO was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in WASO in quarter 1||3.2|-3.3|0.9819
92406240|NCT03771664|184702745|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|3.19||0.1838|TWO_SIDED|95.0|-10.6|2.1||Change from BL in WASO was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in WASO in quarter 2||2.1|-10.6|0.1838
92406241|NCT03771664|184702745|SUPERIORITY||LS Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|3.97||0.0797|TWO_SIDED|95.0|-15.0|0.9||Change from BL in WASO was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, baseline PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in WASO in quarter 3||0.9|-15.0|0.0797
92406242|NCT03771664|184702745|SUPERIORITY||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|4.24||0.1559|TWO_SIDED|95.0|-14.5|2.4||Change from BL in WASO was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, baseline PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in WASO in quarter 4||2.4|-14.5|0.1559
92406243|NCT03771664|184702746|SUPERIORITY||LS Mean Difference|15.8|STANDARD_ERROR_OF_MEAN|10.67||0.1441|TWO_SIDED|95.0|-5.5|37.0||Change from BL in TST was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in overall TST||37.0|-5.5|0.1441
92406244|NCT03771664|184702746|SUPERIORITY||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|5.47||0.3951|TWO_SIDED|95.0|-6.2|15.6||Change from BL in TST was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in TST in quarter 1||15.6|-6.2|0.3951
92406245|NCT03771664|184702746|SUPERIORITY||LS Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|4.16||0.3705|TWO_SIDED|95.0|-4.5|12.0||Change from BL in TST was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BLPSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in TST in quarter 2||12.0|-4.5|0.3705
92406246|NCT03771664|184702746|SUPERIORITY||LS Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|4.04||0.1412|TWO_SIDED|95.0|-2.0|14.0||Change from BL in TST was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in TST in quarter 3||14.0|-2.0|0.1412
92239570|NCT04705597|184383021|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.864|TWO_SIDED|95.0|-0.1|0.12|||ANCOVA|||Change at Day 57||0.12|-0.10|0.8640
92406247|NCT03771664|184702746|SUPERIORITY||LS Mean Difference|6.5|STANDARD_ERROR_OF_MEAN|4.24||0.1298|TWO_SIDED|95.0|-2.0|15.0||Change from BL in TST was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in TST in quarter 4||15.0|-2.0|0.1298
92406248|NCT03771664|184702747|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|7.87||0.7526|TWO_SIDED|95.0|-18.2|13.2||Change from BL in LPS was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||||13.2|-18.2|0.7526
92406249|NCT03771664|184702748|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.83||0.6769|TWO_SIDED|95.0|-2.0|1.3||Change from BL in NAW was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||||1.3|-2.0|0.6769
92406250|NCT03771664|184702749|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.7||0.0824|TWO_SIDED|95.0|-6.4|0.4||Change from BL in MDA was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in mean duration of awakenings (MDA) in total||0.4|-6.4|0.0824
92369864|NCT00654745|184644808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.3|||<|0.0001|TWO_SIDED|95.0|-12.0|-8.6||Change in mean seated systolic blood pressure from baseline to week 3.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-8.6|-12.0|<0.0001
92369865|NCT00654745|184644808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.9|||<|0.0001|TWO_SIDED|95.0|-19.8|-16.1||Change in mean seated systolic blood pressure from baseline to week 6.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-16.1|-19.8|<0.0001
92369866|NCT00654745|184644808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.0|||<|0.0001|TWO_SIDED|95.0|-22.2|-17.8||Change in mean seated systolic blood pressure from baseline to week 9|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-17.8|-22.2|<0.0001
92406251|NCT03771664|184702749|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.07||0.4269|TWO_SIDED|95.0|-3.0|1.3||Change from BL in MDA was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in MDA in quarter 1||1.3|-3.0|0.4269
92406252|NCT03771664|184702749|SUPERIORITY|Change from BL in MDA was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|3.02||0.2482|TWO_SIDED|95.0|-9.5|2.5|||ANCOVA|||Change from BL in MDA in quarter 2||2.5|-9.5|0.2482
92239571|NCT04705597|184383022|SUPERIORITY||Odds Ratio (OR)|2.046||||0.0919|TWO_SIDED|95.0|0.89|4.706|||Regression, Logistic|||||4.706|0.89|0.0919
92369867|NCT00654745|184644808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.7|||<|0.0001|TWO_SIDED|95.0|-25.7|-21.7||Change in mean seated systolic blood pressure from baseline to week 12|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-21.7|-25.7|<0.0001
92369868|NCT00654745|184644808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.5|||<|0.0001|TWO_SIDED|95.0|-30.8|-26.2||Change in mean seated systolic blood pressure from baseline to week 15|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-26.2|-30.8|<0.0001
92369869|NCT00654745|184644808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.1|||<|0.0001|TWO_SIDED|95.0|-33.3|-28.8||Change in mean seated systolic blood pressure from baseline to week 18|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-28.8|-33.3|<0.0001
92406253|NCT03771664|184702749|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|3.34||0.3076|TWO_SIDED|95.0|-10.1|3.2||Change from BL in MDA was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in MDA in quarter 3||3.2|-10.1|0.3076
92406254|NCT03771664|184702749|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.68||0.4491|TWO_SIDED|95.0|-1.9|0.8||Change from BL in MDA was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in MDA in quarter 4||0.8|-1.9|0.4491
92406255|NCT03771664|184702750|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|2.47||0.8724|TWO_SIDED|95.0|-4.5|5.3||Change from BL in DS N1 sleep was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in duration of stage (DS) N1 sleep||5.3|-4.5|0.8724
92369870|NCT00654745|184644809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1|||<|0.0001|TWO_SIDED|95.0|-5.1|-3.1||Change in mean seated diastolic blood pressure from baseline to week 3.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-3.1|-5.1|<0.0001
92369871|NCT00654745|184644809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.2|||<|0.0001|TWO_SIDED|95.0|-9.4|-7.1||Change in mean seated diastolic blood pressure from baseline to week 6|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-7.1|-9.4|<0.0001
92369872|NCT00654745|184644809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.7|||<|0.0001|TWO_SIDED|95.0|-10.9|-8.4||Change in mean seated diastolic blood pressure from baseline to week 9|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-8.4|-10.9|<0.0001
92369873|NCT00654745|184644809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.2|||<|0.0001|TWO_SIDED|95.0|-12.5|-9.9||Change in mean seated diastolic blood pressure from baseline to week 12|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-9.9|-12.5|<0.0001
92369874|NCT00654745|184644809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.4|||<|0.0001|TWO_SIDED|95.0|-15.7|-13.1||Change in mean seated diastolic blood pressure from baseline to week 15|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-13.1|-15.7|<0.0001
92369875|NCT00654745|184644809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.1|||<|0.0001|TWO_SIDED|95.0|-16.5|-13.6||Change in mean seated diastolic blood pressure from baseline to week 18|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-13.6|-16.5|<0.0001
92369876|NCT03086408|184644834|OTHER||Mean Difference (Final Values)|-4.0||||0.09|TWO_SIDED|95.0|-9.0|1.0|||t-test, 2 sided|||||1.00|-9.00|0.09
92406256|NCT03771664|184702750|SUPERIORITY||LS Mean Difference|18.6|STANDARD_ERROR_OF_MEAN|8.08||0.0238|TWO_SIDED|95.0|2.5|34.7||Change from BL in DS N2 sleep was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in DS N2 sleep||34.7|2.5|0.0238
92227362|NCT02986230|184357253|SUPERIORITY||Odds Ratio (OR)|1.55||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with a logit link and binomial error distribution were used to test the effect of the intervention on completion of lung cancer screening by 12 months post-index date. The model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in the randomization process. Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant.||||.025
92369877|NCT03086408|184644835|OTHER||Mean Difference (Final Values)|0.9||||0.61|TWO_SIDED|95.0|-2.89|4.69|||t-test, 2 sided|||||4.69|-2.89|0.61
92369878|NCT03086408|184644836|OTHER||Mean Difference (Final Values)|-0.07||||0.78|TWO_SIDED|95.0|-0.61|0.47|||t-test, 2 sided|||||0.47|-0.61|0.78
92369879|NCT03086408|184644837|OTHER||Mean Difference (Final Values)|-0.4||||0.3|TWO_SIDED|95.0|-1.3|0.5|||t-test, 2 sided|||||0.50|-1.30|0.30
92369880|NCT03086408|184644838|OTHER||Mean Difference (Final Values)|0.1||||0.98|TWO_SIDED|95.0|-8.62|8.82|||t-test, 2 sided|||||8.82|-8.62|0.98
92369881|NCT03086408|184644839|OTHER||Mean Difference (Final Values)|0.6||||0.61|TWO_SIDED|95.0|-1.64|2.84|||t-test, 2 sided|||||2.84|-1.64|0.61
92369882|NCT03086408|184644840|OTHER||Mean Difference (Final Values)|13.7||||0.04|TWO_SIDED|95.0|0.63|26.77|||t-test, 2 sided|||||26.77|0.63|0.04
92369883|NCT03086408|184644841|OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-2.8|2.8|||t-test, 2 sided|||||2.80|-2.80|1
92369884|NCT03086408|184644842|OTHER||Mean Difference (Final Values)|-0.2||||0.82|TWO_SIDED|95.0|-2.38|1.98|||t-test, 2 sided|||||1.98|-2.38|0.82
92369885|NCT03086408|184644843|OTHER||Mean Difference (Final Values)|-1.5||||0.37|TWO_SIDED|95.0|-5.29|2.29|||t-test, 2 sided|||||2.29|-5.29|0.37
92239572|NCT04705597|184383023|SUPERIORITY||Mean Difference (Final Values)|3.83||||0.749|TWO_SIDED|95.0|-0.42|8.08|||ANCOVA|||||8.08|-0.42|0.749
92369886|NCT03470194|184644845|OTHER||||||=|0.002|||||||Wilcoxon (Mann-Whitney)|||||||=0.002
92369887|NCT01822899|184644846|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08|||<|0.001|TWO_SIDED|95.0|0.046|0.113|||ANCOVA|||||0.113|0.046|<0.001
92369888|NCT01450696|184644878|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.2401|TWO_SIDED|95.0|0.86|1.78|||Log Rank|||Stratified analysis included stratum of creatinine clearance (45 to 59 milliliters per minute \[mL/min\] and greater than or equal to \[≥\] 60 mL/min). Hazard ratio was estimated by Cox regression.||1.78|0.86|0.2401
92369889|NCT01450696|184644878|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.1285|TWO_SIDED|95.0|0.92|1.88|||Log Rank|||Unstratified analysis. Hazard ratio was estimated by Cox regression.||1.88|0.92|0.1285
92280373|NCT04543136|184463462|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.775|TWO_SIDED|95.0|-28.1|21.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||21.0|-28.1|0.775
92369890|NCT01450696|184644880|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9931|TWO_SIDED|95.0|0.49|2.04|||Log Rank|||Stratified analysis included stratum of creatinine clearance (45 to 59 mL/min and ≥60 mL/min). Hazard ratio was estimated by Cox regression.||2.04|0.49|0.9931
92369891|NCT01450696|184644880|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.9458|TWO_SIDED|95.0|0.52|2.02|||Log Rank|||Unstratified analysis. Hazard ratio was estimated by Cox regression.||2.02|0.52|0.9458
92369892|NCT01450696|184644882|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.6759|TWO_SIDED|95.0|0.63|2.02|||Log Rank|||Stratified analysis included stratum of creatinine clearance (45 to 59 mL/min and ≥60 mL/min). Hazard ratio was estimated by Cox regression.||2.02|0.63|0.6759
92369893|NCT01450696|184644882|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.5764|TWO_SIDED|95.0|0.67|2.05|||Log Rank|||Unstratified analysis. Hazard ratio was estimated by Cox regression.||2.05|0.67|0.5764
92369894|NCT01450696|184644883|SUPERIORITY_OR_OTHER||Difference in response rates|-7.58||||0.5402|TWO_SIDED|95.0|-31.75|16.6|||Chi-squared|||The 95% CI for difference in response rates was constructed using the normal approximation to the binomial distribution.||16.60|-31.75|0.5402
92369895|NCT01450696|184644883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.28|1.96||||||||1.96|0.28|
92369896|NCT00853242|184644904|SUPERIORITY_OR_OTHER|||||||0.0249|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||0.0249
92369897|NCT00853242|184644904|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||0.0001
92369898|NCT00853242|184644904|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||<0.0001
92369899|NCT00853242|184644905|SUPERIORITY_OR_OTHER|||||||0.2647|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||0.2647
92369900|NCT00853242|184644905|SUPERIORITY_OR_OTHER|||||||0.7944|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||0.7944
92369901|NCT00853242|184644905|SUPERIORITY_OR_OTHER|||||||0.3724|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||0.3724
92369902|NCT02516098|184644940|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the test and reference product (for Stage 1) was assessed on the basis of the point estimate of the geometric mean ratio for Cmax in relation to the bioequivalence range of 80.00% to 125.00%.|Geometric mean ratio (%): T/REF|87.52|||||TWO_SIDED|92.46|77.18|99.24|||||ANOVA model was used with 'sequence', 'treatment' and 'period' as fixed effects and 'subject within sequence' as a random effect after logarithmic transformation of the data.|The study design is a two-stage Pocock-like group sequential design according to the alpha spending function approach. The alpha level for Stage 1 was 0.0377 (one-sided).||99.24|77.18|
92369903|NCT02516098|184644941|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the test and reference products for Stage 1 was assessed on the basis of the 92.46% confidence intervals for the geometric mean (test/reference) ratio for the AUC0-t in relation to the bioequivalence range of 80.00% to 125.00%, with a one-sided alpha of 0.0377.|Geometric mean ratio (%): T/REF|91.74|||||TWO_SIDED|92.46|83.51|100.78|||||ANOVA model was used with 'sequence', 'treatment' and 'period' as fixed effects and 'subject within sequence' as a random effect after logarithmic transformation of the data.|The study design is a two-stage Pocock-like group sequential design according to the alpha spending function approach. The alpha level for Stage 1 was 0.0377 (one-sided).||100.78|83.51|
92369904|NCT02516098|184644942|SUPERIORITY_OR_OTHER||Geometric mean ratio (%): T/REF|91.66|||||TWO_SIDED|92.46|83.59|100.51|||||ANOVA model was used with 'sequence', 'treatment' and 'period' as fixed effects and 'subject within sequence' as a random effect after logarithmic transformation of the data.|The test product was compared to the reference product by means of statistical analysis.||100.51|83.59|
92369905|NCT02516098|184644943|SUPERIORITY_OR_OTHER||Geometric mean ratio (%): T/REF|92.96|||||TWO_SIDED|92.46|81.94|105.47|||||ANOVA model was used with 'sequence', 'treatment' and 'period' as fixed effects and 'subject within sequence' as a random effect after logarithmic transformation of the data.|The test product was compared to the reference product by means of statistical analysis.||105.47|81.94|
92369906|NCT01092780|184644944|SUPERIORITY_OR_OTHER||Difference in LS means|8.16|||||TWO_SIDED|95.0|6.11|10.2||||||Difference in least squares (LS) means||10.20|6.11|
92369907|NCT01092780|184644944|SUPERIORITY_OR_OTHER||Difference in LS means|8.11|||||TWO_SIDED|95.0|6.07|10.15||||||Difference in LS means||10.15|6.07|
92369908|NCT01092780|184644945|SUPERIORITY_OR_OTHER||Difference in LS means|-0.07|||||TWO_SIDED|95.0|-0.1|-0.05||||||Difference in LS means||-0.05|-0.10|
92369909|NCT01092780|184644945|SUPERIORITY_OR_OTHER||Difference in LS means|-0.07|||||TWO_SIDED|95.0|-0.09|-0.05||||||Difference in LS means||-0.05|-0.09|
92369910|NCT01092780|184644947|SUPERIORITY_OR_OTHER||Difference in LS means|-2.05|||||TWO_SIDED|90.0|-3.76|-0.35||||||Difference in LS means||-0.35|-3.76|
92369911|NCT01092780|184644947|SUPERIORITY_OR_OTHER||Difference in LS means|-2.1|||||TWO_SIDED|90.0|-3.79|-0.4||||||Difference in LS means||-0.40|-3.79|
92369912|NCT01092780|184644948|SUPERIORITY_OR_OTHER||Difference in LS means|10.21|||||TWO_SIDED|90.0|8.49|11.92||||||||11.92|8.49|
92369913|NCT01092780|184644949|SUPERIORITY_OR_OTHER||Difference in LS means|-0.07|||||TWO_SIDED|90.0|-0.08|-0.05||||||Difference in LS means||-0.05|-0.08|
92369914|NCT01257230|184644950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|STANDARD_ERROR_OF_MEAN|0.051||0.0085|TWO_SIDED|95.0|0.034|0.234|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.234|0.034|0.0085
92369915|NCT01257230|184644950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.05||0.0005|TWO_SIDED|95.0|0.076|0.272|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.272|0.076|0.0005
92369916|NCT01257230|184644951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.056||0.1307|TWO_SIDED|95.0|-0.025|0.194|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.194|-0.025|0.1307
92227363|NCT02986230|184357253|SUPERIORITY||Odds Ratio (OR)|1.02||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with a logit link and binomial error distribution were used to test the intervention effect on the completion of lung cancer screening by 12 months post-index. The model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in the randomization process. Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant.||||.025
92406257|NCT03771664|184702750|SUPERIORITY||LS Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|5.62||0.3863|TWO_SIDED|95.0|-6.3|16.1||Change from BL in DS N3 sleep was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in DS N3 sleep||16.1|-6.3|0.3863
92406258|NCT03771664|184702750|SUPERIORITY||LS Mean Difference|-10.2|STANDARD_ERROR_OF_MEAN|4.69||0.032|TWO_SIDED|95.0|-19.6|-0.9||Change from BL in REM sleep duration was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14(EODBT)\].|ANCOVA|||Change from BL in duration of REM sleep||-0.9|-19.6|0.0320
92406259|NCT03771664|184702751|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.8||0.9524|TWO_SIDED|95.0|-1.7|1.6||Change from BL in PS N1 sleep time was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score;Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in percentage of stage (PS) N1 sleep time||1.6|-1.7|0.9524
92406260|NCT03771664|184702751|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.55||0.093|TWO_SIDED|95.0|-0.5|5.7||Change from BL in PS N2 sleep time was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in PS N2 sleep time||5.7|-0.5|0.0930
92406261|NCT03771664|184702751|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.52||0.4427|TWO_SIDED|95.0|-1.9|4.2||Change from BL in PS N3 sleep time was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in PS N3 sleep time||4.2|-1.9|0.4427
92406262|NCT03771664|184702751|SUPERIORITY||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|1.06||0.0006|TWO_SIDED|95.0|-5.9|-1.7||Change from BL in % of REM sleep duration was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||Change from BL in percentage (%) of REM sleep time||-1.7|-5.9|0.0006
92227364|NCT01469000|184357254|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.67||||0.009|TWO_SIDED|95.0|0.48|0.93||1-sided.|Regression, Cox|Adjusted for gender, performance status, previous adjuvant /neoadjuvant treatment, age, smoking history, mutation type, and country.||||0.93|0.48|0.009
92227365|NCT01469000|184357255|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.64||||0.005|TWO_SIDED|95.0|0.46|0.9||1 sided.|Regression, Cox|Adjusted for gender, performance status, previous adjuvant /neoadjuvant treatment, age, smoking history, mutation type, and country.||||0.90|0.46|0.005
92227366|NCT01469000|184357256|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.105|TWO_SIDED|95.0|0.51|1.16||1 sided.|Regression, Cox|Adjusted for gender, performance status, previous adjuvant /neoadjuvant treatment, age, smoking history, mutation type, and country.||||1.16|0.51|0.105
92227367|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.77|1.78||||||Patient-rated Loss of Appetite: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.78|0.77|
92227368|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.6|1.42||||||Patient-rated Fatigue: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.42|0.60|
92227369|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.39|||||TWO_SIDED|95.0|0.84|2.3||||||Patient-rated Cough: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||2.30|0.84|
92227370|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.65|1.71||||||Patient-rated Dyspnea: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.71|0.65|
92227371|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.32|1.02||||||Patient-rated Hemoptysis: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.02|0.32|
92227372|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.64|1.91||||||Patient-rated Pain: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.91|0.64|
92227373|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.68|1.77||||||Patient-rated Overall Symptoms: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.77|0.68|
92239573|NCT04705597|184383024|SUPERIORITY||Mean Difference (Final Values)|3.69||||0.1769|TWO_SIDED|95.0|-1.75|9.13|||ANCOVA|||||9.13|-1.75|0.1769
92239574|NCT04705597|184383025|SUPERIORITY||Odds Ratio (OR)|0.54||||0.2621|TWO_SIDED|95.0|0.184|1.586|||Regression, Logistic|||||1.586|0.184|0.2621
92227374|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.38|||||TWO_SIDED|95.0|0.88|2.17||||||Patient-rated Interference: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||2.17|0.88|
92406263|NCT03771664|184702752|SUPERIORITY||LS Mean Difference|33.7|STANDARD_ERROR_OF_MEAN|12.42||0.0083|TWO_SIDED|95.0|8.9|58.4||Change from BL in latency to first REM period was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||Change from BL in latency to the first REM period||58.4|8.9|0.0083
92227375|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.72|1.74||||||Patient-rated Quality of Life: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.74|0.72|
92227376|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.56|||||TWO_SIDED|95.0|0.97|2.49||||||Observer-rated Loss of Appetite: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||2.49|0.97|
92239575|NCT04705597|184383026|SUPERIORITY||Mean Difference (Final Values)|2.81||||0.2265|TWO_SIDED|95.0|-1.76|7.37|||ANCOVA|||||7.37|-1.76|0.2265
92239576|NCT04705597|184383027|SUPERIORITY||Odds Ratio (OR)|1.223||||0.5497|TWO_SIDED|95.0|0.633|2.364|||Regression, Logistic|||||2.364|0.633|0.5497
92406264|NCT03771664|184702752|SUPERIORITY||LS Mean Difference|43.2|STANDARD_ERROR_OF_MEAN|10.95||0.0002|TWO_SIDED|95.0|21.3|65.0||Change from BL in latency to second REM period was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||Change from BL in latency to the second REM period||65.0|21.3|0.0002
92406265|NCT03771664|184702752|SUPERIORITY||LS Mean Difference|38.2|STANDARD_ERROR_OF_MEAN|10.99||0.0009|TWO_SIDED|95.0|16.2|60.2||Change from BL in latency to third REM period was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||Change from BL in latency to the third REM period||60.2|16.2|0.0009
92406266|NCT03771664|184702752|SUPERIORITY||LS Mean Difference|26.0|STANDARD_ERROR_OF_MEAN|14.84||0.0899|TWO_SIDED|95.0|-4.3|56.3||Change from BL in latency to fourth REM period was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||Change from BL in latency to the fourth REM period||56.3|-4.3|0.0899
92406267|NCT03771664|184702753|SUPERIORITY||LS Mean Difference|-171.1|STANDARD_ERROR_OF_MEAN|46.06||0.0004|TWO_SIDED|95.0|-262.9|-79.4||Change from BL in REM density was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||||-79.4|-262.9|0.0004
92406268|NCT03771664|184702754|SUPERIORITY||LS Mean Difference|-288.0|STANDARD_ERROR_OF_MEAN|68.81|<|0.0001|TWO_SIDED|95.0|-425.1|-151.0||Change from BL in REMA was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, baseline PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||||-151.0|-425.1|<0.0001
92406269|NCT03771664|184702756|SUPERIORITY||LS Mean Difference|10.4|STANDARD_ERROR_OF_MEAN|14.65||0.4814|TWO_SIDED|95.0|-18.8|39.5||Change from BL in sTST was analyzed by Mixed Model Repeated Measures (MMRM) with treatment baseline antidepressant use, baseline CSD-C value, assessment time point, and time point-by-treatment interaction as fixed effects.|MMRM|||Change from BL in sTST||39.5|-18.8|0.4814
92406270|NCT03771664|184702756|SUPERIORITY||LS Mean Difference|-10.9|STANDARD_ERROR_OF_MEAN|6.45||0.0964|TWO_SIDED|95.0|-23.7|2.0||Change from BL in sWASO was analyzed by MMRM with treatment baseline antidepressant use, baseline CSD-C value, assessment time point, and time point-by-treatment interaction as fixed effects.|MMRM|||Change from BL in sWASO||2.0|-23.7|0.0964
92406271|NCT03771664|184702756|SUPERIORITY||LS Mean Difference|6.6|STANDARD_ERROR_OF_MEAN|7.32||0.3672|TWO_SIDED|95.0|-7.9|21.2||Change from BL in sSL was analyzed by MMRM with treatment baseline antidepressant use, baseline CSD-C value, assessment time point, and time point-by-treatment interaction as fixed effects.|MMRM|||Change from BL in sSL||21.2|-7.9|0.3672
92406272|NCT02120898|184702768|EQUIVALENCE|90% CI interval was -0.20 to +0.20 for therapeutic equivalence.|Percentage difference|-1.16||||0.0702|TWO_SIDED|90.0|-7.93|5.62|||Fisher Exact|||Analysis was performed using 90% Wald's confidence interval (CI) with a continuity correction or the difference (generic imiquimod - Zyclara) in complete clearance rates.||5.62|-7.93|0.0702
92406273|NCT02120898|184702769|SUPERIORITY||Percentage difference|0.14||||0.0318|TWO_SIDED|90.0|-6.08|6.35||Threshold for significance at 0.05 level.|Fisher Exact|||Analysis was performed using 90% Wald's CI with a continuity correction or the difference (generic imiquimod - Zyclara) in complete clearance rates.||6.35|-6.08|0.0318
92406274|NCT00643162|184702835|OTHER||Mean Difference (Final Values)|2.3|STANDARD_DEVIATION|6.15||0.68|TWO_SIDED||||||t-test, 2 sided|||||||.68
92406275|NCT00847210|184702855|SUPERIORITY_OR_OTHER|||||||0.095||95.0||||There was no statistical significant difference (p-value \>0.05) in Tmax between the 30 mg and 60 mg dose group. Both age group and site did not have statistically significant effects on Tmax.|ANOVA|||This study was not powered for any hypothesis testing. For Tmax, an analysis of variance (ANOVA) model was fitted that included fixed effect of age group, regimen and interaction of age group and regimen. If the interaction term was not statistically significant, it was not included in the final model. The site effect was also tested in the model, and was not included in the final model if it was not statistically significant (P\>0.05). Pairwise comparisons between regimens were conducted.||||0.095
92406276|NCT00847210|184702856|SUPERIORITY_OR_OTHER||ratio of the central values for Cmax|1.21||||0.289|TWO_SIDED|90.0|0.897|1.63|||ANOVA||Ninety percent confidence intervals for assessing the dose proportionality of dexlansoprazole pharmacokinetics between regimens were computed based on the frame work of ANOVA.|This study was not powered for any hypothesis testing. For natural logarithm of dose-normalized Cmax, an ANOVA model was fitted that included fixed effect of age group, regimen and interaction of age group and regimen. If the interaction term was not statistically significant, it was not included in the final model. Site effect was tested in the model, and was not included in the final model if not statistically significant (P\>0.05). Pairwise comparisons between regimens were conducted.||1.630|0.897|0.289
92406277|NCT00847210|184702857|SUPERIORITY_OR_OTHER||Ratio of the dose-normalized AUC(0-tlqc)|1.158||||0.402|TWO_SIDED|90.0|0.864|1.551|||ANOVA||Ninety percent confidence intervals for assessing the dose proportionality of dexlansoprazole AUC(0-tlqc) between regimens were computed based on the frame work of ANOVA.|This study was not powered for any hypothesis testing. For Tmax, an ANOVA model was fitted that included fixed effect of age group (12-14 years and 15 17 years), regimen and interaction of age group and regimen. If the interaction term was not statistically significant, it was not included in the final model. The site effect was also tested in the model, and was not included in the final model if it was not statistically significant (P\>0.05). Pairwise comparisons between regimens were conducted.||1.551|0.864|0.402
92406278|NCT00847210|184702858|SUPERIORITY_OR_OTHER||Ratio of the central values for dose-nor|1.168||||0.388|TWO_SIDED|90.0|0.864|1.579|||ANOVA||Ninety percent confidence intervals for assessing the dose proportionality of dexlansoprazole AUC(0-24) between regimens were computed based on the frame work of ANOVA.|This study was not powered for any hypothesis testing. For Tmax, an ANOVA model was fitted that included fixed effect of age group (12-14 years and 15 17 years), regimen and interaction of age group and regimen. If the interaction term was not statistically significant, it was not included in the final model. The site effect was also tested in the model, and was not included in the final model if it was not statistically significant (P\>0.05). Pairwise comparisons between regimens were conducted.||1.579|0.864|0.388
92369917|NCT01257230|184644951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.054||0.032|TWO_SIDED|95.0|0.01|0.223|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.223|0.010|0.0320
92369918|NCT01257230|184644952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.057||0.1231|TWO_SIDED|95.0|-0.024|0.2|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.200|-0.024|0.1231
92406279|NCT01656408|184702871|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|3.8||0.978|TWO_SIDED|90.0|-6.4|6.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||6.6|-6.4|0.978
92406280|NCT01656408|184702871|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.9|STANDARD_ERROR_OF_MEAN|3.2||0.005|TWO_SIDED|90.0|-15.4|-4.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-4.5|-15.4|0.005
92369919|NCT01257230|184644952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.072|STANDARD_ERROR_OF_MEAN|0.056||0.195|TWO_SIDED|95.0|-0.037|0.182|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.182|-0.037|0.1950
92406281|NCT01656408|184702871|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.1|STANDARD_ERROR_OF_MEAN|3.3||0|TWO_SIDED|90.0|-19.8|-8.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-8.4|-19.8|0.000
92406282|NCT01656408|184702871|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.4|STANDARD_ERROR_OF_MEAN|3.2||0.03|TWO_SIDED|90.0|-13.0|-1.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-1.9|-13.0|0.030
92406283|NCT01656408|184702871|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|4.9||0.484|TWO_SIDED|90.0|-4.9|11.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||11.9|-4.9|0.484
92406284|NCT01656408|184702871|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|3.0||0.169|TWO_SIDED|90.0|-9.3|0.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||0.9|-9.3|0.169
92406285|NCT01656408|184702871|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.7|STANDARD_ERROR_OF_MEAN|3.6||0.023|TWO_SIDED|90.0|-14.9|-2.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-2.6|-14.9|0.023
92406286|NCT01656408|184702871|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|4.6||0.605|TWO_SIDED|90.0|-10.4|5.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||5.5|-10.4|0.605
92406287|NCT01656408|184702872|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|3.9||0.635|TWO_SIDED|90.0|-4.9|8.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||8.7|-4.9|0.635
92406288|NCT01656408|184702872|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|2.8||0.077|TWO_SIDED|90.0|-10.1|-0.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-0.4|-10.1|0.077
92406289|NCT01656408|184702872|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.4|STANDARD_ERROR_OF_MEAN|2.7||0.001|TWO_SIDED|90.0|-15.0|-5.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-5.7|-15.0|0.001
92406290|NCT01656408|184702872|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|3.5||0.556|TWO_SIDED|90.0|-8.0|3.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||3.9|-8.0|0.556
92406291|NCT01656408|184702872|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|2.3||0.527|TWO_SIDED|90.0|-5.5|2.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||2.5|-5.5|0.527
92406292|NCT01656408|184702872|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.8||0.234|TWO_SIDED|90.0|-8.1|1.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||1.4|-8.1|0.234
92406293|NCT01656408|184702872|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|2.5||0.002|TWO_SIDED|90.0|-12.7|-4.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-4.1|-12.7|0.002
92406294|NCT01656408|184702872|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|3.1||0.726|TWO_SIDED|90.0|-4.2|6.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||6.5|-4.2|0.726
92406295|NCT01656408|184702873|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|4.5||0.855|TWO_SIDED|90.0|-9.0|7.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||7.3|-9.0|0.855
92406296|NCT01656408|184702873|SUPERIORITY_OR_OTHER||LS Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|8.1||0.658|TWO_SIDED|90.0|-10.8|18.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||18.1|-10.8|0.658
92406297|NCT01656408|184702873|SUPERIORITY_OR_OTHER||LS Mean Difference|6.3|STANDARD_ERROR_OF_MEAN|7.1||0.392|TWO_SIDED|90.0|-6.3|18.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||18.9|-6.3|0.392
92406298|NCT01656408|184702874|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|2.5||0.563|TWO_SIDED|90.0|-6.0|3.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||3.0|-6.0|0.563
92406299|NCT01656408|184702874|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.9||0.381|TWO_SIDED|90.0|-0.8|2.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||2.5|-0.8|0.381
92406300|NCT01656408|184702874|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.0||0.387|TWO_SIDED|90.0|-1.7|5.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||5.2|-1.7|0.387
92369920|NCT01257230|184644953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.06||0.2921|TWO_SIDED|95.0|-0.055|0.181|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.181|-0.055|0.2921
92369921|NCT01257230|184644953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.059||0.5495|TWO_SIDED|95.0|-0.08|0.15|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.150|-0.080|0.5495
92369922|NCT01257230|184644954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.049||0.0079|TWO_SIDED|95.0|0.034|0.225|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.225|0.034|0.0079
92369923|NCT01257230|184644954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.048||0.0002|TWO_SIDED|95.0|0.088|0.275|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.275|0.088|0.0002
92369924|NCT01257230|184644955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.054||0.0945|TWO_SIDED|95.0|-0.016|0.196|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.196|-0.016|0.0945
92369925|NCT01257230|184644955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.071|STANDARD_ERROR_OF_MEAN|0.053||0.1755|TWO_SIDED|95.0|-0.032|0.175|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.175|-0.032|0.1755
92369926|NCT01257230|184644957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.092||0.976|TWO_SIDED|95.0|-0.184|0.178|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.178|-0.184|0.9760
92369927|NCT01257230|184644957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.009|STANDARD_ERROR_OF_MEAN|0.09||0.9224|TWO_SIDED|95.0|-0.186|0.168|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.168|-0.186|0.9224
92369928|NCT01257230|184644958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.083||0.7852|TWO_SIDED|95.0|-0.14|0.185|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.185|-0.140|0.7852
92369929|NCT01257230|184644958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.081||0.1649|TWO_SIDED|95.0|-0.046|0.271|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.271|-0.046|0.1649
92369930|NCT01257230|184644959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.032|STANDARD_ERROR_OF_MEAN|0.143||0.8253|TWO_SIDED|95.0|-0.312|0.249|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.249|-0.312|0.8253
92239577|NCT04705597|184383028|SUPERIORITY||Mean Difference (Final Values)|4.89||||0.1172|TWO_SIDED|95.0|-1.27|11.05|||ANCOVA|||||11.05|-1.27|0.1172
92369931|NCT01257230|184644959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.14||0.7559|TWO_SIDED|95.0|-0.232|0.319|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.319|-0.232|0.7559
92369932|NCT01257230|184644960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.087||0.0653|TWO_SIDED|95.0|-0.33|0.01|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.010|-0.330|0.0653
92369933|NCT01257230|184644960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.097|STANDARD_ERROR_OF_MEAN|0.084||0.2516|TWO_SIDED|95.0|-0.263|0.069|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.069|-0.263|0.2516
92369934|NCT01257230|184644962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.147|STANDARD_ERROR_OF_MEAN|0.095||0.12|TWO_SIDED|95.0|-0.333|0.038|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.038|-0.333|0.1200
92369935|NCT01257230|184644962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.092||0.5589|TWO_SIDED|95.0|-0.235|0.127|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.127|-0.235|0.5589
92369936|NCT01257230|184644964|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63||||0.4023|TWO_SIDED|95.0|0.21|1.87|||Regression, Cox|||||1.87|0.21|0.4023
92369937|NCT01257230|184644964|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.23||||0.062|TWO_SIDED|95.0|0.05|1.08|||Regression, Cox|||||1.08|0.05|0.0620
92369938|NCT01257230|184644965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.87|TWO_SIDED|95.0|0.65|1.66|||Regression, Cox|||||1.66|0.65|0.8700
92369939|NCT01257230|184644965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.4198|TWO_SIDED|95.0|0.51|1.33|||Regression, Cox|||||1.33|0.51|0.4198
92239578|NCT04705597|184383029|SUPERIORITY||Odds Ratio (OR)|0.914||||0.853|TWO_SIDED|95.0|0.353|2.368|||Regression, Logistic|||||2.368|0.353|0.853
92369940|NCT01988662|184644998|NON_INFERIORITY_OR_EQUIVALENCE|"H0: There is no difference in the percent change in VEGF level after 3 months for patients with nAMD treated with ranibizumab compared to aflibercept.~HA: There is a difference in the percent change in VEGF level after 3 months for patients with nAMD treated with ranibizumab compared to aflibercept."|Mean Difference (Net)|62.57|STANDARD_ERROR_OF_MEAN|24.639||0.012|TWO_SIDED|95.0|13.96|111.17|||Mixed Models Analysis|||H0: μR = μA versus HA: μR ≠ μA||111.17|13.96|0.012
92369941|NCT02300558|184645000|OTHER|||||||0.0087|||||||paired t- test|||Based on a 2-sided, paired t-test ( α = 0.05), and a standard deviation (SD) of 30 msec, a sample size of 40 participants provided greater than 95% power assuming a difference in mean daytime QTcF interval (AUC0-6/6) as measured by standard 12-lead ECG between baseline and Week 24 of 20 msec. The null hypothesis was that the mean difference between the baseline and Week 24 mean daytime QTcF interval was zero.||||0.0087
92227377|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|0.82|1.93||||||Observer-rated Fatigue: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||1.93|0.82|
92369942|NCT01471028|184645004|SUPERIORITY||Hazard Ratio (HR)|1.027||||0.904|TWO_SIDED|95.0|0.689|1.53|||Log Rank|||The primary endpoint was assessed using a Kaplan-Meier survival analysis of the Intent-to-treat (ITT) population utilizing a log-rank test.||1.53|0.689|0.904
92227378|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|0.72|2.15||||||Observer-rated Cough:Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||2.15|0.72|
92227379|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.64|1.83||||||Observer-rated Dyspnea: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||1.83|0.64|
92227380|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|1.32|||||TWO_SIDED|95.0|0.6|2.91||||||Observer-rated Hemoptysis: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||2.91|0.60|
92227381|NCT01469000|184357260|SUPERIORITY||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.41|1.03||||||Observer-rated Pain: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||1.03|0.41|
92227382|NCT01116544|184357316|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.005|TWO_SIDED|||||A priori threshold = 0.05|Wilcoxon (Mann-Whitney)|||||||<0.005
92280374|NCT04543136|184463463|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.766|TWO_SIDED|95.0|-0.7|0.52||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.52|-0.70|0.766
92369943|NCT01471028|184645005|SUPERIORITY|||||||0.737|||||||Chi-squared|||||||0.737
92369944|NCT01471028|184645006|SUPERIORITY||Hazard Ratio (HR)|1.315||||0.168|TWO_SIDED|95.0|0.886|1.952|||Log Rank|||||1.952|0.886|0.168
92227383|NCT01116544|184357317|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis called for sample sizes of 32 participants in each treatment group. The study was close before reaching this number of participants.|||||<|0.001||||||Hypothesis: significant increase in score (post-tx - pre-tx) for both groups|ANCOVA|FMA scores adjusted for baseline differences.||||||<0.001
92280375|NCT04543136|184463463|SUPERIORITY||Mean Difference (Final Values)|-0.68||||0.032|TWO_SIDED|95.0|-1.3|-0.06||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||-0.06|-1.30|0.032
92369945|NCT01471028|184645007|SUPERIORITY||Hazard Ratio (HR)|0.283||||0.007|TWO_SIDED|95.0|0.109|0.732|||Log Rank|||||0.732|0.109|0.007
92369946|NCT00940290|184645024|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Kruskal-Wallis|||After reading the clinical practice guideline, the median response from the four groups were compared using the Kruskal-Wallis statistic||||0.007
92406301|NCT01656408|184702875|SUPERIORITY_OR_OTHER||LS Mean Difference|4.5|STANDARD_ERROR_OF_MEAN|4.7||0.357|TWO_SIDED|90.0|-3.9|12.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||12.8|-3.9|0.357
92406302|NCT01656408|184702875|SUPERIORITY_OR_OTHER||LS Mean Difference|7.4|STANDARD_ERROR_OF_MEAN|4.8||0.15|TWO_SIDED|90.0|-1.2|15.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||15.9|-1.2|0.150
92406303|NCT01656408|184702875|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|5.2||0.578|TWO_SIDED|90.0|-6.3|12.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||12.3|-6.3|0.578
92406304|NCT01656408|184702876|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|3.0||0.942|TWO_SIDED|90.0|-5.1|5.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||5.5|-5.1|0.942
92406305|NCT01656408|184702876|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|3.7||0.627|TWO_SIDED|90.0|-4.8|8.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||8.5|-4.8|0.627
92406306|NCT01656408|184702876|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3|STANDARD_ERROR_OF_MEAN|1.9||0.046|TWO_SIDED|90.0|0.9|7.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||7.6|0.9|0.046
92406307|NCT01656408|184702877|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.8|STANDARD_ERROR_OF_MEAN|3.8||0.025|TWO_SIDED|90.0|-18.0|-3.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-3.6|-18.0|0.025
92406308|NCT01656408|184702877|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.6||0.055|TWO_SIDED|90.0|-11.0|-1.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||-1.1|-11.0|0.055
92406309|NCT01656408|184702878|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|2.6||0.999|TWO_SIDED|90.0|-4.4|4.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||4.4|-4.4|0.999
92168811|NCT02528188|184227116|SUPERIORITY||Rate Difference|48.25|||<|0.0001|TWO_SIDED|95.0|26.76|69.74||The event of adjudicated primary osteonecrosis in the tanezumab 2.5 mg treatment group is not included in this analysis. Conclusions for this analysis do not change as the comparison to NSAID is already statistically significant in favor of NSAID.|Poisson model for rate difference|||||69.74|26.76|<0.0001
92369947|NCT02016716|184645027|NON_INFERIORITY|Non-inferiority was claimed if the lower bound of the 1-sided 97.5% CI (or the lower bound of 2-sided 95% CI) of the mean difference between the 2 romosozumab groups was \> -2.0%.|Least Squares Mean Difference|-0.4|||||TWO_SIDED|95.0|-1.5|0.7|||||Based on ANCOVA model adjusting for treatment, and baseline lumbar spine BMD T-score.|The primary hypothesis was that the mean percent change from baseline in lumbar spine BMD at month 6 in participants receiving romosozumab 210 mg QM using the 90 mg/mL concentration would not be inferior to that in participants receiving romosozumab 210 mg QM using the 70 mg/mL concentration.||0.7|-1.5|
92369948|NCT02931838|184645032|SUPERIORITY|||||||0.4873||||||Nominal p-value|Chi-squared|P-value is from the Fishers Exact if at least one cell count is \<5. Otherwise, p-value is from the Chi-Square test.||||||0.4873
92168812|NCT02528188|184227116|SUPERIORITY||Rate Difference|95.83|||<|0.0001|TWO_SIDED|95.0|70.25|121.42|||Poisson model for rate difference|||||121.42|70.25|<0.0001
92369949|NCT02931838|184645032|SUPERIORITY|||||||0.0003||||||Nominal p-value|Chi-squared|P-value is from the Fishers Exact if at least one cell count is \<5. Otherwise, p-value is from the Chi-Square test.||||||0.0003
92369950|NCT02931838|184645032|SUPERIORITY||||||<|0.0001||||||Nominal p-value|Chi-squared|P-value is from the Fishers Exact if at least one cell count is \<5. Otherwise, p-value is from the Chi-Square test.||||||<0.0001
92369951|NCT02931838|184645032|SUPERIORITY||||||<|0.0001||||||Nominal p-value|Chi-squared|P-value is from the Fishers Exact if at least one cell count is \<5. Otherwise, p-value is from the Chi-Square test.||||||< 0.0001
92369952|NCT02931838|184645032|SUPERIORITY||||||<|0.0001||||||Nominal p-value|Chi-squared|P-value is from the Fishers Exact if at least one cell count is \<5. Otherwise, p-value is from the Chi-Square test.||||||<0.0001
92369953|NCT01963767|184645040|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANCOVA|||Ancovas were conducted with group as the between subjects factor and performance at baseline as the covariate.||||.03
92369954|NCT01659996|184645041|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% confidence interval (CI) of the difference between the two proportions was \< δ for serogroup A and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|-0.11|||||TWO_SIDED|95.0|-3.11|2.93||||||Meningococcal serogroup A: The null hypothesis (H0: pm - ppm \> δ) was tested against the alternative hypothesis (H1: pm - ppm ≤ δ), where pm and ppm were the proportions of subjects in Group 1 and in Group 2, respectively, who achieved a Menactra vaccine response for meningococcal serogroups A, C, Y and W-135, with δ = 0.10.||2.93|-3.11|
92406310|NCT01656408|184702878|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|3.2||0.934|TWO_SIDED|90.0|-5.7|5.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 8||5.2|-5.7|0.934
92406311|NCT01656408|184702878|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|3.4||0.547|TWO_SIDED|90.0|-3.7|7.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||7.9|-3.7|0.547
92406312|NCT01656408|184702878|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|2.9||0.906|TWO_SIDED|90.0|-5.2|4.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 22||4.5|-5.2|0.906
92406313|NCT01656408|184702878|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|3.1||0.682|TWO_SIDED|90.0|-4.0|6.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||6.6|-4.0|0.682
92168813|NCT02528188|184227117|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.04||0.0979|TWO_SIDED|95.0|-0.15|0.01|||ANCOVA|||Change in medial JSW width at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.01|-0.15|0.0979
92168814|NCT02528188|184227117|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.24|-0.08|||ANCOVA|||Change in medial JSW at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||-0.08|-0.24|<0.0001
92168815|NCT02528188|184227117|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.1162|TWO_SIDED|95.0|-0.17|0.02|||ANCOVA|||Change in medial JSW at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.02|-0.17|0.1162
92168816|NCT02528188|184227117|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0128|TWO_SIDED|95.0|-0.22|-0.03|||ANCOVA|||Change in medial JSW at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||-0.03|-0.22|0.0128
92168817|NCT02528188|184227117|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.09||0.8885|TWO_SIDED|95.0|-0.17|0.2|||ANCOVA|||Change in lateral JSW at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.20|-0.17|0.8885
92168818|NCT02528188|184227117|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.1||0.6345|TWO_SIDED|95.0|-0.24|0.15|||ANCOVA|||Change in lateral JSW at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.15|-0.24|0.6345
92168819|NCT02528188|184227117|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.12||0.4406|TWO_SIDED|95.0|-0.32|0.14|||ANCOVA|||Change in lateral JSW at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.14|-0.32|0.4406
92168820|NCT02528188|184227117|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.12||0.7109|TWO_SIDED|95.0|-0.19|0.28|||ANCOVA|||Change in lateral JSW at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.28|-0.19|0.7109
92168821|NCT02528188|184227118|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.08||0.102|TWO_SIDED|95.0|-0.3|0.03|||ANCOVA|||Change at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.03|-0.30|0.1020
92227384|NCT01116544|184357318|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||Across both groups, whether score increased following completion of intervention|ANCOVA|||||||0.001
92168822|NCT02528188|184227118|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.08||0.023|TWO_SIDED|95.0|-0.35|-0.03|||ANCOVA|||Change at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||-0.03|-0.35|0.0230
92227385|NCT01116544|184357319|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||||||Across both treatment groups|ANCOVA|||||||0.001
92227386|NCT01116544|184357320|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Data combined between 2 treatment groups||||0.001
92227387|NCT01116544|184357321|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Both treatment groups combined||||>0.05
92369955|NCT01659996|184645041|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for serogroup C and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|1.27|||||TWO_SIDED|95.0|-0.84|3.64||||||Meningococcal serogroup C: The null hypothesis (H0: pm - ppm \> δ) was tested against the alternative hypothesis (H1: pm - ppm ≤ δ), where pm and ppm were the proportions of subjects in Group 1 and in Group 2, respectively, who achieved a Menactra vaccine response for meningococcal serogroups A, C, Y and W-135, with δ = 0.10.||3.64|-0.84|
92369956|NCT01659996|184645041|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for serogroup Y and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|2.46|||||TWO_SIDED|95.0|0.14|5.14||||||Meningococcal serogroup Y: The null hypothesis (H0: pm - ppm \> δ) was tested against the alternative hypothesis (H1: pm - ppm ≤ δ), where pm and ppm were the proportions of subjects in Group 1 and in Group 2, respectively, who achieved a Menactra vaccine response for meningococcal serogroups A, C, Y and W-135, with δ = 0.10.||5.14|0.14|
92168823|NCT02528188|184227118|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.1||0.0645|TWO_SIDED|95.0|-0.37|0.01|||ANCOVA|||Change at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.01|-0.37|0.0645
92168824|NCT02528188|184227118|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.1||0.5005|TWO_SIDED|95.0|-0.26|0.13|||ANCOVA|||Change at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.13|-0.26|0.5005
92227388|NCT02419508|184357342|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
92227389|NCT02419508|184357343|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92227390|NCT02419508|184357344|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92227391|NCT02419508|184357345|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92369957|NCT01659996|184645041|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for serogroup W-135 and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|1.28|||||TWO_SIDED|95.0|-0.84|3.67||||||Meningococcal serogroup W-135: The null hypothesis (H0: pm - ppm \> δ) was tested against the alternative hypothesis (H1: pm - ppm ≤ δ), where pm and ppm were the proportions of subjects in Group 1 and in Group 2, respectively, who achieved a Menactra vaccine response for meningococcal serogroups A, C, Y and W-135, with δ = 0.10.||3.67|-0.84|
92406314|NCT01656408|184702879|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|2.8||0.099|TWO_SIDED|90.0|-11.1|0.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||0.0|-11.1|0.099
92406315|NCT01656408|184702879|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|2.1||0.034|TWO_SIDED|90.0|-10.1|-1.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-1.7|-10.1|0.034
92227392|NCT02419508|184357346|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92227393|NCT02419508|184357347|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92227394|NCT02419508|184357348|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92227395|NCT01332071|184357349|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|96.58|||||TWO_SIDED|90.0|93.44|99.83|||||The ratio between the geometric means of the test (T) and reference (R) formulations was calculated.|||99.83|93.44|
92406316|NCT01656408|184702880|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|2.0||0.281|TWO_SIDED|90.0|-6.5|1.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||1.6|-6.5|0.281
92406317|NCT01656408|184702880|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.3||0.333|TWO_SIDED|90.0|-1.2|4.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||4.0|-1.2|0.333
92406318|NCT01656408|184702881|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|3.4||0.279|TWO_SIDED|90.0|-9.7|2.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||2.1|-9.7|0.279
92406319|NCT01656408|184702881|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|3.4||0.817|TWO_SIDED|90.0|-6.9|5.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||5.2|-6.9|0.817
92406320|NCT01656408|184702882|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|2.4||0.756|TWO_SIDED|90.0|-3.2|4.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||4.7|-3.2|0.756
92406321|NCT01656408|184702882|SUPERIORITY_OR_OTHER||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|2.8||0.158|TWO_SIDED|90.0|-0.7|8.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 8||8.6|-0.7|0.158
92406322|NCT01656408|184702882|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|2.8||0.404|TWO_SIDED|90.0|-2.4|7.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||7.1|-2.4|0.404
92406323|NCT01656408|184702882|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|2.4||0.214|TWO_SIDED|90.0|-1.0|7.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 22||7.1|-1.0|0.214
92406324|NCT01656408|184702882|SUPERIORITY_OR_OTHER||LS Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|2.9||0.086|TWO_SIDED|90.0|0.2|10.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||10.0|0.2|0.086
92406325|NCT01656408|184702883|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.3|STANDARD_ERROR_OF_MEAN|3.1||0.003|TWO_SIDED|90.0|-16.8|-5.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-5.9|-16.8|0.003
92406326|NCT01656408|184702883|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|3.5||0.105|TWO_SIDED|90.0|-12.3|0.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||0.1|-12.3|0.105
92406327|NCT01656408|184702884|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|3.6||0.691|TWO_SIDED|90.0|-7.5|4.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||4.6|-7.5|0.691
92280376|NCT04543136|184463463|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.063|TWO_SIDED|95.0|-0.03|1.21||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.21|-0.03|0.063
92406328|NCT01656408|184702884|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|3.9||0.57|TWO_SIDED|90.0|-4.3|8.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 8||8.8|-4.3|0.570
92406329|NCT01656408|184702884|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|3.4||0.666|TWO_SIDED|90.0|-4.2|7.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||7.1|-4.2|0.666
92406330|NCT01656408|184702884|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|4.7||0.534|TWO_SIDED|90.0|-10.9|4.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 22||4.9|-10.9|0.534
92406331|NCT01656408|184702884|SUPERIORITY_OR_OTHER||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|4.0||0.528|TWO_SIDED|90.0|-4.1|9.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||9.2|-4.1|0.528
92406332|NCT01656408|184702909|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|2.0||0.848|TWO_SIDED|90.0|-3.8|3.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||3.0|-3.8|0.848
92406333|NCT01656408|184702909|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|90.0|-8.0|-4.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-4.0|-8.0|<0.0001
92406334|NCT01656408|184702909|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|3.5||0.025|TWO_SIDED|90.0|-14.4|-2.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-2.4|-14.4|0.025
92406335|NCT01656408|184702909|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|1.8||0.044|TWO_SIDED|90.0|-7.0|-0.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-0.8|-7.0|0.044
92406336|NCT01656408|184702909|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|2.0||0.139|TWO_SIDED|90.0|-0.4|6.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||6.6|-0.4|0.139
92406337|NCT01656408|184702909|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|2.5||0.088|TWO_SIDED|90.0|-8.9|-0.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-0.2|-8.9|0.088
92406338|NCT01656408|184702909|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|2.2||0.023|TWO_SIDED|90.0|-9.3|-1.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-1.6|-9.3|0.023
92406339|NCT01656408|184702909|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|2.4||0.878|TWO_SIDED|90.0|-4.5|3.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||3.8|-4.5|0.878
92406340|NCT01656408|184702910|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|3.2||0.512|TWO_SIDED|90.0|-3.4|7.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.7|-3.4|0.512
92406341|NCT01656408|184702910|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|3.0||0.429|TWO_SIDED|90.0|-7.5|2.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.7|-7.5|0.429
92406342|NCT01656408|184702910|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|2.9||0.166|TWO_SIDED|90.0|-9.3|0.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.8|-9.3|0.166
92406343|NCT01656408|184702910|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|3.8||0.591|TWO_SIDED|90.0|-8.6|4.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||4.5|-8.6|0.591
92406344|NCT01656408|184702911|SUPERIORITY_OR_OTHER||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|4.7||0.248|TWO_SIDED|90.0|-2.5|13.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||13.5|-2.5|0.248
92406345|NCT01656408|184702911|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|2.9||0.836|TWO_SIDED|90.0|-5.6|4.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||4.4|-5.6|0.836
92406346|NCT01656408|184702911|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|3.2||0.109|TWO_SIDED|90.0|-10.7|0.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.1|-10.7|0.109
92406347|NCT01656408|184702911|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|3.7||0.785|TWO_SIDED|90.0|-5.4|7.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.5|-5.4|0.785
92406348|NCT01656408|184702912|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|3.2||0.365|TWO_SIDED|90.0|-2.5|8.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||8.3|-2.5|0.365
92406349|NCT01656408|184702912|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|2.9||0.424|TWO_SIDED|90.0|-7.4|2.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.6|-7.4|0.424
92406350|NCT01656408|184702912|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|3.2||0.025|TWO_SIDED|90.0|-13.3|-2.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.2|-13.3|0.025
92406351|NCT01656408|184702912|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|3.1||0.475|TWO_SIDED|90.0|-7.5|3.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.0|-7.5|0.475
92406352|NCT01656408|184702913|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|3.4||0.715|TWO_SIDED|90.0|-7.4|4.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||4.8|-7.4|0.715
92406353|NCT01656408|184702913|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|4.3||0.338|TWO_SIDED|90.0|-11.9|3.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||3.4|-11.9|0.338
92406354|NCT01656408|184702913|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|3.4||0.281|TWO_SIDED|90.0|-10.0|2.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||2.3|-10.0|0.281
92168825|NCT02528188|184227119|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0358|TWO_SIDED|95.0|1.04|3.29|||Regression, Logistic|||Decrease in medial JSW at Week 56: Logistic regression model included treatment, and baseline JSW as covariate.||3.29|1.04|0.0358
92227396|NCT01332071|184357350|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|97.76|||||TWO_SIDED|90.0|93.25|102.5|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||102.50|93.25|
92227397|NCT01332071|184357351|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|96.47|||||TWO_SIDED|90.0|93.32|99.72|||||The ratio between the geometric means of the test (T) and reference (R) formulations was calculated.|||99.72|93.32|
92227398|NCT01332071|184357352|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|95.79|||||TWO_SIDED|90.0|91.67|100.1|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||100.10|91.67|
92239579|NCT04705597|184383030|SUPERIORITY||Mean Difference (Final Values)|3.16||||0.1991|TWO_SIDED|95.0|-1.86|8.18|||ANCOVA|||||8.18|-1.86|0.1991
92168826|NCT02528188|184227119|SUPERIORITY||Odds Ratio (OR)|2.37||||0.0021|TWO_SIDED|95.0|1.37|4.12|||Regression, Logistic|||Decrease in medial JSW at Week 56: Logistic regression model included treatment, and baseline JSW as covariate.||4.12|1.37|0.0021
92168827|NCT02528188|184227119|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0301|TWO_SIDED|95.0|1.07|3.77|||Regression, Logistic|||Decrease in medial JSW at Week 80: Logistic regression model included treatment, and baseline JSW as covariate.||3.77|1.07|0.0301
92227399|NCT01332071|184357353|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|94.86|||||TWO_SIDED|90.0|90.7|99.22|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||99.22|90.70|
92227400|NCT01332071|184357354|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|97.88|||||TWO_SIDED|90.0|93.15|102.86|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||102.86|93.15|
92227401|NCT05523973|184357359|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.66
92227402|NCT05523973|184357360|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
92369958|NCT01659996|184645046|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that the antibodies concentration was log normally distributed, if the upper limit of the two-sided 95% CI of the ratio of the two GMCs is ≤ 1.5 for each antigen, the inferiority assumption was to be rejected.|Mean Difference (Final Values)|0.949|||||TWO_SIDED|95.0|0.852|1.06||||||Pertussis toxoid (PT): The null hypothesis (H0: GMCp / GMCpm \> 1.5) was tested against the alternative hypothesis (H1: GMCp / GMCpm ≤ 1.5), where GMCp and GMCpm were the GMCs of antibodies against the pertussis antigen (PT) in Group 3 and in Group 2, respectively||1.06|0.852|
92227403|NCT05523973|184357361|SUPERIORITY|||||||0.09|||||||Sign test|||||||0.09
92227404|NCT05523973|184357362|SUPERIORITY|||||||0.722|||||||Sign test|||||||.722
92227405|NCT05523973|184357363|SUPERIORITY|||||||0.28|||||||Sign test|||||||.28
92227406|NCT05523973|184357364|SUPERIORITY|||||||0.15|||||||Sign test|||||||.15
92227407|NCT05523973|184357365|SUPERIORITY|||||||0.8|||||||Sign test|||||||.8
92227408|NCT05523973|184357366|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||.12
92227409|NCT05523973|184357367|SUPERIORITY|||||||0.92|||||||Sign test|||||||.92
92369959|NCT01659996|184645046|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that the antibodies concentration was log normally distributed, if the upper limit of the two-sided 95% CI of the ratio of the two GMCs is ≤ 1.5 for each antigen, the inferiority assumption was to be rejected.|Mean Difference (Final Values)|0.968|||||TWO_SIDED|95.0|0.866|1.08||||||Filamentous hemagglutinin (FHA): The null hypothesis (H0: GMCp / GMCpm \> 1.5) was tested against the alternative hypothesis (H1: GMCp / GMCpm ≤ 1.5), where GMCp and GMCpm were the GMCs of antibodies against the pertussis antigen (FHA) in Group 3 and in Group 2, respectively||1.08|0.866|
92227410|NCT01542307|184357375|SUPERIORITY_OR_OTHER|||||||0.674|||||||Wilcoxon (Mann-Whitney)|||||||0.674
92227411|NCT01542307|184357376|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92406355|NCT01656408|184702914|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|2.8||0.317|TWO_SIDED|90.0|-2.1|7.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.9|-2.1|0.317
92406356|NCT01656408|184702915|SUPERIORITY_OR_OTHER||LS Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|3.6||0.09|TWO_SIDED|90.0|0.2|13.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||13.2|0.2|0.090
92406357|NCT01656408|184702916|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|2.0||0.128|TWO_SIDED|90.0|-0.3|6.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||6.8|-0.3|0.128
92227412|NCT01542307|184357377|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
92227413|NCT01542307|184357378|SUPERIORITY_OR_OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
92227414|NCT01542307|184357379|SUPERIORITY_OR_OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
92227415|NCT01542307|184357380|SUPERIORITY_OR_OTHER|||||||0.004|||||||Fisher Exact|||||||0.004
92227416|NCT01542307|184357381|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
92227417|NCT01542307|184357382|SUPERIORITY_OR_OTHER|||||||0.16|||||||Fisher Exact|||||||0.16
92227418|NCT05197803|184357442|SUPERIORITY||Mean Difference (Final Values)|3.32||||0.0001|ONE_SIDED||||||t-test, 1 sided|||The study compared the results between the unaided condition vs. aided condition (BTE)||||0.0001
92227419|NCT05197803|184357442|SUPERIORITY||Mean Difference (Final Values)|3.57||||0.0001|ONE_SIDED||||||t-test, 1 sided|||The study compared the results between the unaided condition vs. aided condition (RIC)||||0.0001
92227420|NCT00132041|184357443|OTHER||Success rate|0.18|||||TWO_SIDED|95.0|0.091|0.317|||||logistic regression model without correcting for the clustering effect|logistic regression was used to estimate the success rate||0.317|0.091|
92227421|NCT00132041|184357443|OTHER||Success rate|0.19|||||TWO_SIDED|95.0|0.136|0.252||||||logistic regression model after specifying site as cluster (using GEE approach).||0.252|0.136|
92227422|NCT00132041|184357444|OTHER||Success rate|0.18|||||TWO_SIDED|95.0|0.091|0.317|||||logistic regression model without correcting for the clustering effect|logistic regression was used to estimate the success rate||0.317|0.091|
92227423|NCT00132041|184357444|OTHER||Slope|-3.7913||||0.0004|TWO_SIDED|95.0|-5.9056|-1.6769|||Generlaized estimating equations|Multivariate logistic model. P-value for number of RFA sessions dichotomized 1: more than 1; using the latter as the reference.|This estimate is for the effect of a single RFA sessions (v multiple sessions) in the multivariate model response:18 mo success/failure; covariates: tumor size,repeated RFA, local tumor recurrence, remote tumor occurrence, and age and gender.|multivariate logistic regression model was fit using GEEs to correct for site clustering effects, in which, the response variable was success/failure at 18 months and the covariates were tumor size, whether or not a patient received repeated RFA, whether or not a local tumor recurrence occurred, whether or not a remote tumor occurrence occurred, and two common confounding factors - age and gender||-1.6769|-5.9056|0.0004
92227424|NCT00132041|184357445|OTHER||GEE|-0.9101||||0.0221|TWO_SIDED|95.0|-1.6894|-0.1308|||Generlaized Estimating Equations|multivariate GEE model using logistic link|Estimation parameter is for tumor size when controlling for other covariates.|Effect of tumor size in the multivariate model with response:18 mo success/failure; covariates: tumor size,repeated RFA, local tumor recurrence, remote tumor occurrence, and age and gender.||-0.1308|-1.6894|0.0221
92227425|NCT00132041|184357447|OTHER||Mean Difference (Final Values)|-0.458|STANDARD_ERROR_OF_MEAN|0.2496||0.06|TWO_SIDED|||||assuming unequal variance (Satterthwaite p)|t-test, 2 sided||Difference represents the size of tumors that do no recur minus those that do.|the mean tumor size in the two groups, recurred and non recurred tumors, will be compared using a t-test assuming H0: recur=non-recurr||||0.06
92227426|NCT00132041|184357449|OTHER||Sensitivity|0.083|||||TWO_SIDED|95.0|0.0|0.38|||||Twelve tumors were detected in the liver specimens, but only one of those was identified by the CT central readers|||0.38|0.00|
92227427|NCT00132041|184357449|OTHER||Specificity|0.75|||||TWO_SIDED|95.0|0.194|0.994|||||The central CT readers correctly identified three out of the four patients without pathologic evidence of tumor|Specificity||0.994|0.194|
92227428|NCT00132041|184357451|OTHER|McNemar's Test to compare success rates after assuming transplants as successes versus after assuming transplants as failures.||||||0.0001|||||||McNemar|||||||0.0001
92369960|NCT01659996|184645046|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that the antibodies concentration was log normally distributed, if the upper limit of the two-sided 95% CI of the ratio of the two GMCs is ≤ 1.5 for each antigen, the inferiority assumption was to be rejected.|Mean Difference (Final Values)|1.11|||||TWO_SIDED|95.0|0.937|1.31||||||Pertactin (PRN): The null hypothesis (H0: GMCp / GMCpm \> 1.5) was tested against the alternative hypothesis (H1: GMCp / GMCpm ≤ 1.5), where GMCp and GMCpm were the GMCs of antibodies against the pertussis antigen (PRN) in Group 3 and in Group 2, respectively||1.31|0.937|
92227429|NCT00167245|184357492|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
92227430|NCT00167245|184357493|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45|||||||Generalized Estimating Equations|||||||0.45
92227431|NCT00167245|184357494|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.4|TWO_SIDED|95.0|-2.1|5.2|||t-test, 2 sided|||||5.2|-2.1|0.4
92227432|NCT01307033|184357537|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares means|0.2|||||TWO_SIDED|95.0|-1.7|2.2|||Constained logitudinal data analysis|Model included treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups||||2.2|-1.7|
92369961|NCT01659996|184645047|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for each antibody and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|-1.22|||||TWO_SIDED|95.0|-5.44|3.19||||||Pertussis toxoid (PT) antigen: The null hypothesis (H0: pp - ppm \> δ) was tested against the alternative hypothesis (H1: pp - ppm ≤ δ), where pp and ppm were the proportions of subjects in Group 3 and Group 2, respectively, who achieved a pertussis vaccine response in antibodies against the pertussis antigen (PT), with δ = 0.10.||3.19|-5.44|
92406358|NCT01656408|184702917|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|3.1||0.477|TWO_SIDED|90.0|-7.9|3.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||3.3|-7.9|0.477
92406359|NCT01656408|184702917|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|3.0||0.09|TWO_SIDED|90.0|-11.0|-0.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||-0.2|-11.0|0.090
92406360|NCT01656408|184702917|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|3.0||0.028|TWO_SIDED|90.0|-13.0|-2.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||-2.2|-13.0|0.028
92406361|NCT01656408|184702918|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|2.5||0.877|TWO_SIDED|90.0|-4.9|4.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||4.1|-4.9|0.877
92406362|NCT01656408|184702919|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|4.6||0.827|TWO_SIDED|90.0|-9.3|7.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.2|-9.3|0.827
92406363|NCT01656408|184702920|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|3.5||0.161|TWO_SIDED|90.0|-11.4|1.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.0|-11.4|0.161
92406364|NCT01656408|184702921|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.5|STANDARD_ERROR_OF_MEAN|4.4||0.046|TWO_SIDED|90.0|-18.8|-2.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-2.3|-18.8|0.046
92227433|NCT01307033|184357538|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares means|-2.3|||||TWO_SIDED|95.0|-5.0|0.5|||Constained longitudinal data analysis|Model included treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups||||0.5|-5.0|
92227434|NCT02274688|184357540|SUPERIORITY||||||=|0.01|||||||Wald Chi-Square=11.29, df=3, P=0.01|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.01
92227435|NCT02274688|184357541|SUPERIORITY||||||=|0.23|||||||Wald Chi-Square=3.01, df=3, p=0.23|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.23
92227436|NCT02274688|184357542|SUPERIORITY||||||=|0.23|||||||Wald Chi-Square=4.25, df=3, p=0.23|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.23
92227437|NCT02274688|184357543|SUPERIORITY||||||=|0.55|||||||Wald Chi-Square=2.12, df=3, p=0.55|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.55
92227438|NCT02274688|184357544|SUPERIORITY||||||=|0.32|||||||Wald Chi-Square=3.52, df=3; p=0.32|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.32
92227439|NCT02274688|184357545|SUPERIORITY||||||=|0.26|||||||Wald Chi-Square=4.02, df=3, p=0.26|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.26
92239580|NCT04705597|184383031|SUPERIORITY||Odds Ratio (OR)|4.103||||0.0166|TWO_SIDED|95.0|1.293|13.027|||Regression, Logistic|||||13.027|1.293|0.0166
92406365|NCT01656408|184702921|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.9|STANDARD_ERROR_OF_MEAN|2.3||0.001|TWO_SIDED|90.0|-17.2|-8.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||-8.6|-17.2|0.001
92227440|NCT02274688|184357546|SUPERIORITY||||||=|0.22|||||||Wald Chi-Square=4.44, df=3, p=0.22|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.22
92227441|NCT02274688|184357547|SUPERIORITY||||||=|0.08||||||F(3,507)=2.24, P=0.08|Regression Poisson|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.08
92227442|NCT02274688|184357548|SUPERIORITY|||||||0.36|||||||Wald Chi-Square=3.24, df=3, p=0.36|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||0.36
92227443|NCT01773421|184357552|EQUIVALENCE|Log-transformed pharmacokinetic parameters were fit using a mixed effects model with sequence, treatment, period and sequence as fixed effects and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed to obtain the treatment estimates.|Geometric Least Square (LS) Mean Ratio|1.06|||||TWO_SIDED|90.0|0.97|1.15||||||||1.15|0.97|
92227444|NCT01773421|184357553|EQUIVALENCE|Log-transformed pharmacokinetic parameters were fit using a mixed effects model with sequence, treatment, period and sequence as fixed effects and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed to obtain the treatment estimates.|Geometric LS Mean Ratio|1.11|||||TWO_SIDED|90.0|1.02|1.2||||||||1.2|1.02|
92227445|NCT01773421|184357554|EQUIVALENCE|Log-transformed pharmacokinetic parameters were fit using a mixed effects model with sequence, treatment, period and sequence as fixed effects and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed to obtain the treatment estimates.|Geometric LS Mean Ratio|1.13|||||TWO_SIDED|90.0|1.0|1.27||||||||1.27|1|
92227446|NCT02804763|184357560|SUPERIORITY||||||=|0.0727||||||The lowest p-value (z-statistic with the highest value) was used to establish proof of dose response.|MCP-Mod|||"Multiple contrast testing (MCP-mod methodology) was used to test for a statistically significant dose-response relationship between the primary endpoint (BICLA at Week 24) and dose, which would indicate a drug effect of DZP over Placebo.~The best fitting statistically significant model could be used to estimate the dose needed to achieve desired treatment effect."||||=0.0727
92227447|NCT02804763|184357561|SUPERIORITY||Odds Ratio (OR)|1.6|||=|0.2699|TWO_SIDED|95.0|0.7|3.8||Generalized linear models with factors for treatment and corticosteroid strata were fit using a logit link function for the odds ratios and p-values.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||3.8|0.7|=0.2699
92227448|NCT02804763|184357561|SUPERIORITY||Odds Ratio (OR)|2.0|||=|0.1036|TWO_SIDED|95.0|0.9|4.8||Generalized linear models with factors for treatment and corticosteroid strata were fit using a logit link function for the odds ratios and p-values.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||4.8|0.9|=0.1036
92227449|NCT02804763|184357561|SUPERIORITY||Odds Ratio (OR)|1.9|||=|0.1518|TWO_SIDED|95.0|0.8|4.3||Generalized linear models with factors for treatment and corticosteroid strata were fit using a logit link function for the odds ratios and p-values.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||4.3|0.8|=0.1518
92239581|NCT04705597|184383032|SUPERIORITY||Mean Difference (Final Values)|4.56||||0.1297|TWO_SIDED|95.0|-1.51|10.64|||ANCOVA|||||10.64|-1.51|0.1297
92239582|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.1916|TWO_SIDED|95.0|-0.35|0.07|||ANCOVA|||Baseline||0.07|-0.35|0.1916
92406366|NCT01656408|184702922|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|2.6||0.91|TWO_SIDED|90.0|-4.6|5.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||5.2|-4.6|0.910
92239583|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.1097|TWO_SIDED|95.0|-0.44|0.05|||ANCOVA|||Treatment Day 2||0.05|-0.44|0.1097
92168828|NCT02528188|184227119|SUPERIORITY||Odds Ratio (OR)|2.65||||0.0016|TWO_SIDED|95.0|1.45|4.85|||Regression, Logistic|||Decrease in medial JSW at Week 80: Logistic regression model included treatment, and baseline JSW as covariate.||4.85|1.45|0.0016
92168829|NCT02528188|184227119|SUPERIORITY||Odds Ratio (OR)|0.55||||0.3002|TWO_SIDED|95.0|0.18|1.7|||Regression, Logistic|||Decrease in lateral JSW at Week 56: Logistic regression model included treatment, and baseline JSW as covariate.||1.70|0.18|0.3002
92168830|NCT02528188|184227119|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8997|TWO_SIDED|95.0|0.39|2.89|||Regression, Logistic|||Decrease in lateral JSW at Week 56: Logistic regression model included treatment, and baseline JSW as covariate.||2.89|0.39|0.8997
92168831|NCT02528188|184227119|SUPERIORITY||Odds Ratio (OR)|1.48||||0.4559|TWO_SIDED|95.0|0.53|4.18|||Regression, Logistic|||Decrease in lateral JSW at Week 80: Logistic regression model included treatment, and baseline JSW as covariate.||4.18|0.53|0.4559
92168832|NCT02528188|184227119|SUPERIORITY||Odds Ratio (OR)|0.71||||0.5996|TWO_SIDED|95.0|0.2|2.54|||Regression, Logistic|||Decrease in lateral JSW at Week 80: Logistic regression model included treatment, and baseline JSW as covariate.||2.54|0.20|0.5996
92369962|NCT01659996|184645047|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for each antibody and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|0.867|||||TWO_SIDED|95.0|-2.54|4.53||||||Filamentous hemagglutinin (FHA) antigen: The null hypothesis (H0: pp - ppm \> δ) was tested against the alternative hypothesis (H1: pp - ppm ≤ δ), where pp and ppm were the proportions of subjects in Group 3 and Group 2, respectively, who achieved a pertussis vaccine response in antibodies against the pertussis antigen (FHA), with δ = 0.10.||4.53|-2.54|
92369963|NCT01659996|184645047|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for each antibody and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|-0.092|||||TWO_SIDED|95.0|-3.62|3.66||||||Pertactin (PRN) antigen: The null hypothesis (H0: pp - ppm \> δ) was tested against the alternative hypothesis (H1: pp - ppm ≤ δ), where pp and ppm were the proportions of subjects in Group 3 and Group 2, respectively, who achieved a pertussis vaccine response in antibodies against the pertussis antigen (PRN), with δ = 0.10.||3.66|-3.62|
92239584|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.0276|TWO_SIDED|95.0|-0.63|-0.04|||ANCOVA|||Treatment Day 3||-0.04|-0.63|0.0276
92239585|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.0463|TWO_SIDED|95.0|-0.71|-0.01|||ANCOVA|||Treatment Day 4||-0.01|-0.71|0.0463
92369964|NCT03823287|184645052|NON_INFERIORITY|If the lower bound of a two-sided 95.03% confidence interval (CI) for the difference in adjusted means of the two treatments (faricimab minus aflibercept) is greater than -4 letters (the non-inferiority margin), then faricimab is considered non-inferior to aflibercept.|Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-1.1|2.5|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The null hypothesis, H0: μ(faricimab) - μ(aflibercept) ≤-4 letters; the alternative hypothesis, Ha: μ(faricimab) - μ(aflibercept) \>-4 letters. A sample size of approximately 320 participants in each arm provided greater than 90% power to show non-inferiority of faricimab to aflibercept in the change from baseline BCVA averaged over Weeks 40, 44, and 48 in the ITT population, using a non-inferiority margin of 4 letters at the one-sided 0.02485 significance level.||2.5|-1.1|
92369965|NCT03823287|184645053|OTHER||Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-1.2|2.7|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 52-60||2.7|-1.2|
92369966|NCT03823287|184645055|OTHER||Difference in CMH Weighted Percentage|4.3|||||TWO_SIDED|95.0|-1.6|10.1|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥15 Letters: Treatment Difference at Weeks 40-48||10.1|-1.6|
92369967|NCT03823287|184645055|OTHER||Difference in CMH Weighted Percentage|5.4|||||TWO_SIDED|95.0|-2.0|12.7|||||The treatment difference in CMH weighted percentage of participants gaining ≥10 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥10 Letters: Treatment Difference at Weeks 40-48||12.7|-2.0|
92369968|NCT03823287|184645055|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-6.6|8.9|||||The treatment difference in CMH weighted percentage of participants gaining ≥5 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥5 Letters: Treatment Difference at Weeks 40-48||8.9|-6.6|
92369969|NCT03823287|184645055|OTHER||Difference in CMH Weighted Percentage|-1.2|||||TWO_SIDED|95.0|-7.9|5.4|||||The treatment difference in CMH weighted percentage of participants gaining ≥0 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥0 Letters: Treatment Difference at Weeks 40-48||5.4|-7.9|
92369970|NCT03823287|184645056|OTHER||Difference in CMH Weighted Percentage|2.7|||||TWO_SIDED|95.0|-3.2|8.5|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 52-60||8.5|-3.2|
92369971|NCT03823287|184645061|OTHER||Difference in CMH Weighted Percentage|1.3|||||TWO_SIDED|95.0|-2.2|4.8|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥15 Letters: Treatment Difference at Weeks 40-48||4.8|-2.2|
92369972|NCT03823287|184645061|OTHER||Difference in CMH Weighted Percentage|-0.4|||||TWO_SIDED|95.0|-4.6|3.9|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥10 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥10 Letters: Treatment Difference at Weeks 40-48||3.9|-4.6|
92369973|NCT03823287|184645061|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-4.0|6.4|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥5 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥5 Letters: Treatment Difference at Weeks 40-48||6.4|-4.0|
92369974|NCT03823287|184645062|OTHER||Difference in CMH Weighted Percentage|-0.2|||||TWO_SIDED|95.0|-3.9|3.6|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 52-60||3.6|-3.9|
92369975|NCT03823287|184645066|OTHER||Difference in CMH Weighted Percentage|3.0|||||TWO_SIDED|95.0|-3.6|9.5|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters or achieving BCVA ≥84 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||9.5|-3.6|
92369976|NCT03823287|184645068|OTHER||Difference in CMH Weighted Percentage|-0.5|||||TWO_SIDED|95.0|-7.7|6.6|||||The treatment difference in CMH weighted percentage of participants achieving BCVA ≥69 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||6.6|-7.7|
92239586|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.0969|TWO_SIDED|95.0|-0.71|0.06|||ANCOVA|||Treatment Day 5||0.06|-0.71|0.0969
92369977|NCT03823287|184645070|OTHER||Difference in CMH Weighted Percentage|-0.5|||||TWO_SIDED|95.0|-4.2|3.3|||||The treatment difference in CMH weighted percentage of participants with BCVA ≤38 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||3.3|-4.2|
92369978|NCT03823287|184645078|OTHER||Adjusted mean difference|-7.4|STANDARD_ERROR_OF_MEAN|4.19|||TWO_SIDED|95.0|-15.7|0.8|||||The treatment difference in adjusted means of change from baseline CST is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 40-48||0.8|-15.7|
92369979|NCT03823287|184645079|OTHER||Adjusted mean difference|1.0|STANDARD_ERROR_OF_MEAN|4.26|||TWO_SIDED|95.0|-7.4|9.4|||||The treatment difference in adjusted means of change from baseline CST is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 52-60||9.4|-7.4|
92369980|NCT01380535|184645170|OTHER|||||||0.373|||||||Fisher Exact|||||||0.373
92168833|NCT02528188|184227120|SUPERIORITY||Odds Ratio (OR)|3.37||||0.0714|TWO_SIDED|95.0|0.9|12.65|||Regression, Logistic|||Decrease at Week 56: Logistic regression model included treatment, and baseline JSW as covariate||12.65|0.90|0.0714
92369981|NCT00394251|184645181|SUPERIORITY_OR_OTHER_LEGACY|||||||0.641|||||||Fisher Exact|||Comparison of percentage of participants with at least one taxane-emergent toxicity||||0.641
92369982|NCT00394251|184645187|SUPERIORITY_OR_OTHER_LEGACY|||||||0.323||95.0|||||Fisher Exact|||Comparison of percentage of participants with at least one taxane-emergent toxicity||||0.323
92369983|NCT01843673|184645290|NON_INFERIORITY_OR_EQUIVALENCE|Statistical significance testing at 5% level of significance, p-value being larger than 0.05 . The p-values for pairwise comparison.||||||1||||||Statistical significance testing at 5% level of significance, p-value being larger than 0.05. The p-values for pairwise comparison lateral and vertical, for OBI and CBCT was 1.00.|t-test, 2 sided|||Pairwise comparison for each direction between each pair of technologies were done using a t test to check if the difference in the recommended shift is more than 2 mm. Clinical significance is based on a 2 mm difference. Statistical significance is determined based on 5% level of significance.||||1.00
92369984|NCT01843673|184645290|NON_INFERIORITY_OR_EQUIVALENCE|Statistical significance testing at 5% level of significance, p-value being larger than 0.05. Those are the p-values for pairwise comparison.||||||1||||||Statistical significance testing at 5% level of significance, p-value being larger than 0.05. The p-values for pairwise comparison lateral and vertical, for OBI and ExacTrac was 1.00.|t-test, 2 sided|||Pairwise comparison for each direction between each pair of technologies were done using a t test to check if the difference in the recommended shift is more than 2 mm. Clinical significance is based on a 2 mm difference. Statistical significance is determined based on 5% level of significance.||||1.00
92369985|NCT03928418|184645338|SUPERIORITY||Mean Difference (Net)|3.5|||<|0.001|TWO_SIDED|95.0|2.1|4.9||p-value comparing live call booster to SOC arm: p \< 0.001 (calculated)|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline # of drinking days, visit, arm, interaction btwn visit and arm|SOC arm minus live call booster arm reported here.|||4.9|2.1|<0.001
92369986|NCT03928418|184645338|SUPERIORITY||Mean Difference (Net)|3.6|||<|0.001|TWO_SIDED|95.0|2.2|5.1||p-value comparing technology booster to SOC arm: p \< 0.001 (calculated)|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline # of drinking days, visit, arm, interaction btwn visit and arm|SOC arm minus technology booster arm reported here.|||5.1|2.2|<0.001
92369987|NCT03928418|184645339|SUPERIORITY||Mean Difference (Net)|36.4||||0.643|TWO_SIDED|95.0|-117.5|190.3||p-value comparing live call booster arm to SOC arm: p = 0.643|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline PEth level, visit, arm, interaction btwn visit and arm|SOC arm minus live call booster arm reported here.|||190.3|-117.5|0.643
92369988|NCT03928418|184645339|SUPERIORITY||Mean Difference (Net)|-30.9||||0.711|TWO_SIDED|95.0|-194.8|132.9||p-value comparing technology booster arm to SOC arm: p = 0.711|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline PEth level, visit, arm, interaction btwn visit and arm|SOC arm minus technology booster arm reported here.|||132.9|-194.8|0.711
92369989|NCT03928418|184645340|SUPERIORITY||Mean Difference (Net)|-2.3||||0.515|TWO_SIDED|95.0|-9.3|4.7||p-value comparing live call booster arm to SOC: p = 0.515|Regression, Logistic||SOC minus live call booster arm presented here.|||4.7|-9.3|0.515
92369990|NCT03928418|184645340|SUPERIORITY||Mean Difference (Net)|-0.9||||0.801|TWO_SIDED|95.0|-8.3|6.4||p-value comparing technology booster arm to SOC: p = 0.801|Regression, Logistic||SOC minus technology booster arm presented here.|||6.4|-8.3|0.801
92369991|NCT03928418|184645341|SUPERIORITY||Mean Difference (Net)|28.9|||<|0.001|TWO_SIDED|95.0|17.0|40.7||p-value comparing live call booster arm to SOC: p \< 0.001 (calculated)|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline alcohol use, visit, arm, interaction btwn visit and arm|SOC minus live call booster arm presented here.|||40.7|17.0|<0.001
92369992|NCT03928418|184645341|SUPERIORITY||Mean Difference (Net)|24.9|||<|0.001|TWO_SIDED|95.0|13.0|36.8||p-value comparing technology booster arm to SOC: p \< 0.001 (calculated)|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline alcohol use, visit, arm, interaction btwn visit and arm|SOC minus technology booster arm presented here.|||36.8|13.0|<0.001
92168834|NCT02528188|184227120|SUPERIORITY||Odds Ratio (OR)|3.42||||0.0681|TWO_SIDED|95.0|0.91|12.84|||Regression, Logistic|||Decrease at Week 56: Logistic regression model included treatment, and baseline JSW as covariate||12.84|0.91|0.0681
92227450|NCT02804763|184357561|SUPERIORITY||Difference vs PBO|11.6|||||TWO_SIDED|95.0|-9.2|32.4||Crude difference in proportion responding and standard Wald asymptotic 95 % CI based on the normal approximation to the binomial distribution.|Chi-squared||Difference and 95 % Wald CI in proportion of responders for SOC + DZP dose 1 iv Q4W (FAS) versus SOC + Placebo iv Q4W (FAS).|Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||32.4|-9.2|
92406367|NCT01656408|184702923|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|3.6||0.906|TWO_SIDED|90.0|-6.6|5.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||5.7|-6.6|0.906
92227451|NCT02804763|184357561|SUPERIORITY||Difference vs PBO|17.3|||||TWO_SIDED|95.0|-3.3|38.0||Crude difference in proportion responding and standard Wald asymptotic 95 % CI based on the normal approximation to the binomial distribution.|Chi-squared||Difference and 95 % Wald CI in proportion of responders for SOC + DZP dose 2 iv Q4W (FAS) versus SOC + Placebo iv Q4W (FAS).|Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||38.0|-3.3|
92239587|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.4367|TWO_SIDED|95.0|-0.57|0.25|||ANCOVA|||Treatment Day 6||0.25|-0.57|0.4367
92239588|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.6685|TWO_SIDED|95.0|-0.54|0.35|||ANCOVA|||Treatment Day 7||0.35|-0.54|0.6685
92406368|NCT01656408|184702924|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|2.4||0.87|TWO_SIDED|90.0|-4.4|3.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.7|-4.4|0.870
92406369|NCT01656408|184702925|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|90.0|-5.0|-3.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-3.7|-5.0|<0.0001
92406370|NCT01656408|184702925|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.2|STANDARD_ERROR_OF_MEAN|1.2||0.001|TWO_SIDED|90.0|-10.7|-5.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-5.7|-10.7|0.001
92406371|NCT01656408|184702926|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|1.0||0.038|TWO_SIDED|90.0|-4.9|-0.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.8|-4.9|0.038
92369993|NCT03928418|184645342|SUPERIORITY||Mean Difference (Net)|4.4||||0.002|TWO_SIDED|95.0|1.6|7.3||p-value comparing live call booster arm to SOC: p = 0.002|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline alcohol use, visit, arm, interaction btwn visit and arm|SOC arm minus live call booster arm presented here.|||7.3|1.6|0.002
92369994|NCT03928418|184645342|SUPERIORITY||Mean Difference (Net)|4.3||||0.003|TWO_SIDED|95.0|1.5|7.2||p-value comparing technology booster arm to SOC: p = 0.003|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline alcohol use, visit, arm, interaction btwn visit and arm|SOC arm minus technology booster arm presented here.|||7.2|1.5|0.003
92369995|NCT03928418|184645344|SUPERIORITY||Mean Difference (Net)|-0.8||||0.61|TWO_SIDED|95.0|-3.8|2.2||p-value comparing live call booster arm to SOC arm: p = 0.610.|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline ART adherence, visit, arm, interaction btwn visit and arm|SOC minus live call booster arm presented here.|||2.2|-3.8|0.610
92369996|NCT03928418|184645344|SUPERIORITY||Mean Difference (Net)|-1.1||||0.474|TWO_SIDED|95.0|-4.1|1.9||p-value comparing technology booster arm to SOC arm: p = 0.474.|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline ART adherence, visit, arm, interaction btwn visit and arm|SOC minus technology booster arm presented here.|||1.9|-4.1|0.474
92369997|NCT05319600|184645351|SUPERIORITY|treatment group as predictor baseline-residualized week 12 scores in linear regression|Slope|129.2|STANDARD_ERROR_OF_MEAN|73.96|<|0.05|TWO_SIDED|95.0|-22.52|280.98|||Regression, Linear||Control coded as 0 and treatment as 1|||280.98|-22.52|<0.05
92406372|NCT01656408|184702927|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.8||0.238|TWO_SIDED|90.0|-6.0|1.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.2|-6.0|0.238
92280377|NCT04543136|184463464|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.213|TWO_SIDED|95.0|-0.12|0.54||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.54|-0.12|0.213
92369998|NCT00904670|184645352|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-12.46|STANDARD_ERROR_OF_MEAN|1.13|<|0.0001|TWO_SIDED|95.0|-14.75|-10.17|||ANOVA|||Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-10.17|-14.75|<0.0001
92369999|NCT00904670|184645353|SUPERIORITY_OR_OTHER||LS mean difference|-6.32|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|95.0|-8.53|-4.11|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-4.11|-8.53|<0.0001
92370000|NCT00904670|184645353|SUPERIORITY_OR_OTHER||LS mean difference|-9.98|STANDARD_ERROR_OF_MEAN|1.02|<|0.0001|TWO_SIDED|95.0|-12.04|-7.91|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-7.91|-12.04|<0.0001
92370001|NCT00904670|184645353|SUPERIORITY_OR_OTHER||LS mean difference|-9.33|STANDARD_ERROR_OF_MEAN|1.28|<|0.0001|TWO_SIDED|95.0|-11.92|-6.75|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-6.75|-11.92|<0.0001
92406373|NCT01656408|184702928|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|1.0||0.048|TWO_SIDED|90.0|-4.7|-0.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.6|-4.7|0.048
92406374|NCT01656408|184702929|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.6||0.83|TWO_SIDED|90.0|-3.2|2.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||2.5|-3.2|0.830
92406375|NCT01656408|184702929|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|2.9||0.063|TWO_SIDED|90.0|-10.8|-0.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||-0.7|-10.8|0.063
92406376|NCT01656408|184702930|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|3.7||0.892|TWO_SIDED|90.0|-7.1|6.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||6.1|-7.1|0.892
92406377|NCT01656408|184702931|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|3.1||0.571|TWO_SIDED|90.0|-3.4|6.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||6.9|-3.4|0.571
92370002|NCT00904670|184645353|SUPERIORITY_OR_OTHER||LS mean difference|-3.79|STANDARD_ERROR_OF_MEAN|1.11||0.0016|TWO_SIDED|95.0|-6.04|-1.54|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.54|-6.04|0.0016
92406378|NCT01656408|184702932|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.8||0.816|TWO_SIDED|90.0|-5.4|4.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||4.0|-5.4|0.816
92406379|NCT01656408|184702933|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|2.2||0.061|TWO_SIDED|90.0|-8.4|-0.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-0.6|-8.4|0.061
92406380|NCT01656408|184702933|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|2.6||0.161|TWO_SIDED|90.0|-8.3|0.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||0.7|-8.3|0.161
92406381|NCT01656408|184702934|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.0||0.786|TWO_SIDED|90.0|-4.0|2.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.9|-4.0|0.786
92370003|NCT00904670|184645353|SUPERIORITY_OR_OTHER||LS mean difference|-4.77|STANDARD_ERROR_OF_MEAN|1.4||0.0016|TWO_SIDED|95.0|-7.61|-1.94|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.94|-7.61|0.0016
92239589|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.2287|TWO_SIDED|95.0|-0.73|0.18|||ANCOVA|||Treatment Day 8||0.18|-0.73|0.2287
92239590|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.1061|TWO_SIDED|95.0|-0.96|0.09|||ANCOVA|||Treatment Day 9||0.09|-0.96|0.1061
92406382|NCT01656408|184702935|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|3.3||0.263|TWO_SIDED|90.0|-9.3|1.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.8|-9.3|0.263
92168835|NCT02528188|184227120|SUPERIORITY||Odds Ratio (OR)|3.12||||0.0967|TWO_SIDED|95.0|0.81|11.95|||Regression, Logistic|||Decrease at Week 80: Logistic regression model included treatment, and baseline JSW as covariate||11.95|0.81|0.0967
92168836|NCT02528188|184227120|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0976|TWO_SIDED|95.0|0.81|11.9|||Regression, Logistic|||Decrease at Week 80: Logistic regression model included treatment, and baseline JSW as covariate||11.90|0.81|0.0976
92168837|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.2212|TWO_SIDED|95.0|-0.27|0.06|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.27|0.2212
92168838|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.08||0.4557|TWO_SIDED|95.0|-0.1|0.23|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.23|-0.10|0.4557
92168839|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.09||0.0029|TWO_SIDED|95.0|-0.45|-0.09|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.09|-0.45|0.0029
92239591|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.54||||0.0415|TWO_SIDED|95.0|-1.06|-0.02|||ANCOVA|||Treatment Day 10||-0.02|-1.06|0.0415
92406383|NCT01656408|184702936|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.0||0.565|TWO_SIDED|90.0|-4.4|2.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.1|-4.4|0.565
92406384|NCT05465317|184702937|OTHER||Hazard Ratio (HR)|0.75|||<|0.001|TWO_SIDED|95.0|0.65|0.86|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.86|0.65|<0.001
92406385|NCT05465317|184702937|OTHER||Hazard Ratio (HR)|0.67||||0.001|TWO_SIDED|95.0|0.52|0.86|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.86|0.52|0.001
92406386|NCT05465317|184702937|OTHER||Hazard Ratio (HR)|0.79||||0.008|TWO_SIDED|95.0|0.67|0.94|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.94|0.67|0.008
92406387|NCT05465317|184702938|OTHER||Hazard Ratio (HR)|0.74||||0.005|TWO_SIDED|95.0|0.6|0.91|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.91|0.60|0.005
92406388|NCT05465317|184702938|OTHER||Hazard Ratio (HR)|0.61||||0.02|TWO_SIDED|95.0|0.41|0.91|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.91|0.41|0.02
92406389|NCT05465317|184702938|OTHER||Hazard Ratio (HR)|0.8||||0.08|TWO_SIDED|95.0|0.63|1.03|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.03|0.63|0.08
92406390|NCT05465317|184702939|OTHER||Hazard Ratio (HR)|0.68||||0.05|TWO_SIDED|95.0|0.46|1.0|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.00|0.46|0.05
92370004|NCT00904670|184645354|SUPERIORITY_OR_OTHER||LS mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.38||0.0051|TWO_SIDED|95.0|-1.88|-0.36|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.36|-1.88|0.0051
92370005|NCT00904670|184645354|SUPERIORITY_OR_OTHER||LS mean difference|-1.59|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-2.23|-0.95|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.95|-2.23|<0.0001
92370006|NCT00904670|184645354|SUPERIORITY_OR_OTHER||LS mean difference|-2.28|STANDARD_ERROR_OF_MEAN|0.54||0.0001|TWO_SIDED|95.0|-3.37|-1.2|||ANOVA|||Hour 4: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.20|-3.37|0.0001
92370007|NCT00904670|184645354|SUPERIORITY_OR_OTHER||LS mean difference|-1.49|STANDARD_ERROR_OF_MEAN|0.51||0.0055|TWO_SIDED|95.0|-2.52|-0.47|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.47|-2.52|0.0055
92370008|NCT00904670|184645354|SUPERIORITY_OR_OTHER||LS mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.41||0.1977|TWO_SIDED|95.0|-1.38|0.29|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||0.29|-1.38|0.1977
92370009|NCT00904670|184645354|SUPERIORITY_OR_OTHER||LS mean difference|-0.88|STANDARD_ERROR_OF_MEAN|0.43||0.0491|TWO_SIDED|95.0|-1.76|0.0|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||0.00|-1.76|0.0491
92370010|NCT00904670|184645355|SUPERIORITY_OR_OTHER||LS mean difference|-1.69|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.36|-1.02|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.02|-2.36|<0.0001
92370011|NCT00904670|184645355|SUPERIORITY_OR_OTHER||LS mean difference|-2.66|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-3.5|-1.82|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.82|-3.50|<0.0001
92370012|NCT00904670|184645355|SUPERIORITY_OR_OTHER||LS mean difference|-2.95|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-3.77|-2.13|||ANOVA|||Hour 4: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-2.13|-3.77|<0.0001
92370013|NCT00904670|184645355|SUPERIORITY_OR_OTHER||LS mean difference|-2.49|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-3.33|-1.66|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.66|-3.33|<0.0001
92370014|NCT00904670|184645355|SUPERIORITY_OR_OTHER||LS mean difference|-1.26|STANDARD_ERROR_OF_MEAN|0.4||0.0035|TWO_SIDED|95.0|-2.07|-0.44|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.44|-2.07|0.0035
92406391|NCT05465317|184702939|OTHER||Hazard Ratio (HR)|0.61||||0.09|TWO_SIDED|95.0|0.35|1.09|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.09|0.35|0.09
92227452|NCT02804763|184357561|SUPERIORITY||Difference vs PBO|15.0|||||TWO_SIDED|95.0|-5.5|35.4||Crude difference in proportion responding and standard Wald asymptotic 95 % CI based on the normal approximation to the binomial distribution.|Chi-squared||Difference and 95 % Wald CI in proportion of responders for SOC + DZP dose 3 iv Q4W (FAS) versus SOC + Placebo iv Q4W (FAS).|Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||35.4|-5.5|
92239592|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.1236|TWO_SIDED|95.0|-1.0|0.12|||ANCOVA|||Treatment Day 11||0.12|-1.00|0.1236
92239593|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.0097|TWO_SIDED|95.0|-1.23|-0.18|||ANCOVA|||Treatment Day 12||-0.18|-1.23|0.0097
92370015|NCT00904670|184645355|SUPERIORITY_OR_OTHER||LS mean difference|-1.43|STANDARD_ERROR_OF_MEAN|0.53||0.0109|TWO_SIDED|95.0|-2.51|-0.35|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.35|-2.51|0.0109
92370016|NCT00904670|184645356|SUPERIORITY_OR_OTHER||LS mean difference|25.61|STANDARD_ERROR_OF_MEAN|4.61|<|0.0001|TWO_SIDED|95.0|16.26|34.96|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||34.96|16.26|<0.0001
92370017|NCT00904670|184645356|SUPERIORITY_OR_OTHER||LS mean difference|37.1|STANDARD_ERROR_OF_MEAN|5.21|<|0.0001|TWO_SIDED|95.0|26.54|47.66|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||47.66|26.54|<0.0001
92370018|NCT00904670|184645356|SUPERIORITY_OR_OTHER||LS mean difference|45.77|STANDARD_ERROR_OF_MEAN|7.35|<|0.0001|TWO_SIDED|95.0|30.89|60.65|||ANOVA|||Hour 4: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||60.65|30.89|<0.0001
92370019|NCT00904670|184645356|SUPERIORITY_OR_OTHER||LS mean difference|35.46|STANDARD_ERROR_OF_MEAN|6.57|<|0.0001|TWO_SIDED|95.0|22.14|48.78|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||48.78|22.14|<0.0001
92370020|NCT00904670|184645356|SUPERIORITY_OR_OTHER||LS mean difference|14.86|STANDARD_ERROR_OF_MEAN|5.86||0.0155|TWO_SIDED|95.0|3.0|26.73|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||26.73|3.00|0.0155
92370021|NCT00904670|184645356|SUPERIORITY_OR_OTHER||LS mean difference|20.69|STANDARD_ERROR_OF_MEAN|6.18||0.0019|TWO_SIDED|95.0|8.17|33.22|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||33.22|8.17|0.0019
92406392|NCT05465317|184702939|OTHER||Hazard Ratio (HR)|0.75||||0.3|TWO_SIDED|95.0|0.43|1.29|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.29|0.43|0.30
92406393|NCT05465317|184702940|OTHER||Hazard Ratio (HR)|0.73||||0.11|TWO_SIDED|95.0|0.49|1.08|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.08|0.49|0.11
92370022|NCT00904670|184645358|SUPERIORITY_OR_OTHER||LS mean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.52||0.0014|TWO_SIDED|95.0|-2.85|-0.74|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.74|-2.85|0.0014
92370023|NCT00904670|184645358|SUPERIORITY_OR_OTHER||LS mean difference|-2.79|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-3.76|-1.82|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.82|-3.76|<0.0001
92370024|NCT00904670|184645358|SUPERIORITY_OR_OTHER||LS mean difference|-3.89|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-5.12|-2.67|||ANOVA|||Hour 4: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-2.67|-5.12|<0.0001
92406394|NCT05465317|184702940|OTHER||Hazard Ratio (HR)|0.63||||0.12|TWO_SIDED|95.0|0.35|1.12|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.12|0.35|0.12
92406395|NCT05465317|184702940|OTHER||Hazard Ratio (HR)|0.84||||0.52|TWO_SIDED|95.0|0.5|1.42|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.42|0.50|0.52
92370025|NCT00904670|184645358|SUPERIORITY_OR_OTHER||LS mean difference|-2.65|STANDARD_ERROR_OF_MEAN|0.65||0.0002|TWO_SIDED|95.0|-3.97|-1.33|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.33|-3.97|0.0002
92370026|NCT00904670|184645358|SUPERIORITY_OR_OTHER||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.45||0.3492|TWO_SIDED|95.0|-1.34|0.49|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||0.49|-1.34|0.3492
92370027|NCT00904670|184645358|SUPERIORITY_OR_OTHER||LS mean difference|-1.34|STANDARD_ERROR_OF_MEAN|0.5||0.0105|TWO_SIDED|95.0|-2.34|-0.33|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.33|-2.34|0.0105
92370028|NCT00904670|184645359|SUPERIORITY_OR_OTHER||LS mean difference|-1.72|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.43|-1.0|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.00|-2.43|<0.0001
92370029|NCT00904670|184645359|SUPERIORITY_OR_OTHER||LS mean difference|-2.94|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-3.78|-2.1|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-2.10|-3.78|<0.0001
92370030|NCT00904670|184645359|SUPERIORITY_OR_OTHER||LS mean difference|-3.34|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|95.0|-4.11|-2.57|||ANOVA|||Hour 4: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-2.57|-4.11|<0.0001
92406396|NCT05465317|184702942|OTHER||Hazard Ratio (HR)|0.84||||0.02|TWO_SIDED|95.0|0.72|0.97|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.97|0.72|0.02
92168840|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09||0.0005|TWO_SIDED|95.0|-0.5|-0.14|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.14|-0.50|0.0005
92370031|NCT00904670|184645359|SUPERIORITY_OR_OTHER||LS mean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001|TWO_SIDED|95.0|-3.64|-1.76|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.76|-3.64|<0.0001
92370032|NCT00904670|184645359|SUPERIORITY_OR_OTHER||LS mean difference|-1.57|STANDARD_ERROR_OF_MEAN|0.41||0.0006|TWO_SIDED|95.0|-2.4|-0.73|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.73|-2.40|0.0006
92406397|NCT05465317|184702942|OTHER||Hazard Ratio (HR)|0.82||||0.12|TWO_SIDED|95.0|0.65|1.05|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.05|0.65|0.12
92239594|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.57||||0.0157|TWO_SIDED|95.0|-1.02|-0.11|||ANCOVA|||Treatment Day 13||-0.11|-1.02|0.0157
92239595|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.001|TWO_SIDED|95.0|-1.32|-0.36|||ANCOVA|||Treatment Day 14||-0.36|-1.32|0.0010
92239596|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.644|TWO_SIDED|95.0|-0.4|0.25|||ANCOVA|||Time of Discharge Visit||0.25|-0.40|0.6440
92239597|NCT04705597|184383033|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9869|TWO_SIDED|95.0|-0.6|0.59|||ANCOVA|||Follow up Day 28||0.59|-0.60|0.9869
92239598|NCT04705597|184383034|SUPERIORITY||Mean Difference (Final Values)|1.69||||0.2399|TWO_SIDED|95.0|-1.14|4.52|||ANCOVA|||||4.52|-1.14|0.2399
92370033|NCT00904670|184645359|SUPERIORITY_OR_OTHER||LS mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.4||0.0087|TWO_SIDED|95.0|-1.94|-0.3|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.30|-1.94|0.0087
92168841|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.09||0.1273|TWO_SIDED|95.0|-0.33|0.04|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.04|-0.33|0.1273
92370034|NCT03231917|184645389|OTHER|||||||0.48|||||||Chi-squared|||||||0.48
92406398|NCT05465317|184702942|OTHER||Hazard Ratio (HR)|0.85||||0.1|TWO_SIDED|95.0|0.7|1.03|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.03|0.70|0.10
92370035|NCT03587428|184645394|SUPERIORITY||Mean Difference (Final Values)|-0.3252||||0.1787|TWO_SIDED|95.0|-0.8101|0.1596|||ANCOVA|ANCOVA for treatment and period as fixed effects and subject as random effect and two baseline terms as covariates.|Difference is first named treatment minus second named treatment; a positive difference favors the first named treatment.|||0.1596|-0.8101|0.1787
92370036|NCT03587428|184645394|SUPERIORITY||Mean Difference (Final Values)|-0.7037||||0.0063|TWO_SIDED|95.0|-1.1886|-0.2187|||ANCOVA|ANCOVA for treatment and period as fixed effects and subject as random effect and two baseline terms as covariates.|Difference is first named treatment minus second named treatment; a positive difference favors the first named treatment.|||-0.2187|-1.1886|0.0063
92370037|NCT00286091|184645398|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.0284|TWO_SIDED|95.0|0.73|0.98|||Wald test||Based on the Cox proportional hazards model stratified by PSA ≥ 8.0 ng/mL, PSA doubling time ≤ 10 months and previous or current chemotherapy for prostate cancer. A hazard ratio \< 1 favors denosumab.|Primary and secondary endpoint analyses were conducted hierarchically. To preserve an overall type I error rate of 0.05, a 0.0488 2-sided test of bone metastasis-free survival was performed. If superiority of denosumab over placebo was established, time to first bone metastasis was tested with a 2-sided significance level of 0.050. If superiority of denosumab over placebo was also established, overall survival time was tested at a 2-sided significance level of 0.050.||0.98|0.73|0.0284
92406399|NCT05465317|184702943|OTHER||Hazard Ratio (HR)|0.9||||0.32|TWO_SIDED|95.0|0.72|1.11|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.11|0.72|0.32
92406400|NCT05465317|184702943|OTHER||Hazard Ratio (HR)|0.9||||0.5|TWO_SIDED|95.0|0.65|1.24|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.24|0.65|0.50
92406401|NCT05465317|184702943|OTHER||Hazard Ratio (HR)|0.91||||0.5|TWO_SIDED|95.0|0.68|1.2|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.20|0.68|0.50
92406402|NCT05465317|184702944|OTHER||Hazard Ratio (HR)|0.75||||0.005|TWO_SIDED|95.0|0.62|0.92|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.92|0.62|0.005
92406403|NCT05465317|184702944|OTHER||Hazard Ratio (HR)|0.69||||0.03|TWO_SIDED|95.0|0.49|0.96|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.96|0.49|0.03
92406404|NCT05465317|184702944|OTHER||Hazard Ratio (HR)|0.8||||0.074|TWO_SIDED|95.0|0.63|1.02|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.02|0.63|0.074
92406405|NCT05465317|184702945|OTHER||Hazard Ratio (HR)|1.03||||0.46|TWO_SIDED|95.0|0.95|1.12|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.12|0.95|0.46
92406406|NCT05465317|184702945|OTHER||Hazard Ratio (HR)|1.04||||0.63|TWO_SIDED|95.0|0.9|1.2|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.20|0.90|0.63
92406407|NCT05465317|184702945|OTHER||Hazard Ratio (HR)|1.03||||0.52|TWO_SIDED|95.0|0.94|1.14|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.14|0.94|0.52
92406408|NCT05465317|184702946|OTHER||Hazard Ratio (HR)|0.81||||0.007|TWO_SIDED|95.0|0.7|0.94|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.94|0.70|0.007
92406409|NCT05465317|184702946|OTHER||Hazard Ratio (HR)|0.74||||0.03|TWO_SIDED|95.0|0.57|0.97|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.97|0.57|0.03
92406410|NCT05465317|184702946|OTHER||Hazard Ratio (HR)|0.85||||0.1|TWO_SIDED|95.0|0.71|1.03|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.03|0.71|0.10
92406411|NCT05465317|184702947|OTHER||Hazard Ratio (HR)|1.37||||0.15|TWO_SIDED|95.0|0.89|2.1|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.10|0.89|0.15
92406412|NCT05465317|184702947|OTHER||Hazard Ratio (HR)|1.05||||0.93|TWO_SIDED|95.0|0.4|2.72|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.72|0.40|0.93
92406413|NCT05465317|184702947|OTHER||Hazard Ratio (HR)|1.47||||0.113|TWO_SIDED|95.0|0.91|2.38|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.38|0.91|0.113
92406414|NCT05465317|184702948|OTHER||Hazard Ratio (HR)|0.9||||0.43|TWO_SIDED|95.0|0.71|1.16|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.16|0.71|0.43
92406415|NCT05465317|184702948|OTHER||Hazard Ratio (HR)|0.8||||0.32|TWO_SIDED|95.0|0.51|1.24|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.24|0.51|0.32
92406416|NCT05465317|184702948|OTHER||Hazard Ratio (HR)|0.96||||0.81|TWO_SIDED|95.0|0.71|1.3|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.30|0.71|0.81
92406417|NCT05465317|184702949|OTHER||Hazard Ratio (HR)|0.93||||0.69|TWO_SIDED|95.0|0.65|1.33|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.33|0.65|0.69
92406418|NCT05465317|184702949|OTHER||Hazard Ratio (HR)|0.93||||0.82|TWO_SIDED|95.0|0.51|1.7|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.70|0.51|0.82
92406419|NCT05465317|184702949|OTHER||Hazard Ratio (HR)|0.93||||0.76|TWO_SIDED|95.0|0.6|1.45|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.45|0.60|0.76
92406420|NCT05465317|184702950|OTHER||Hazard Ratio (HR)|0.68||||0.39|TWO_SIDED|95.0|0.29|1.62|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.62|0.29|0.39
92406421|NCT05465317|184702950|OTHER||Hazard Ratio (HR)|0.46||||0.34|TWO_SIDED|95.0|0.09|2.27|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.27|0.09|0.34
92406422|NCT05465317|184702950|OTHER||Hazard Ratio (HR)|0.82||||0.72|TWO_SIDED|95.0|0.29|2.33|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.33|0.29|0.72
92277689|NCT01412541|184457501|EQUIVALENCE|The statistical analysis is a likelihood ratio chi-square test for inequality of binomial proportions; the test is a two-sided test at α=0.05. The response variable in each subject will be the presence or absence of at least one efficacy event from the time following the index procedure through 12 months. The study evaluable sample size required for 90% power is approximately 405 subjects. After adjustment for 15% censoring through 12 months, the study size is 476.||||||0.05|||||||Chi-squared|The statistical analysis is a likelihood ratio chi-square test for inequality of binomial proportions; the test is a two-sided test.||"To assess whether the proportion of subjects with at least one efficacy event\* in the Test group is equal or not to that of Control group through 12-months post-index procedure.~H0: The proportion of subjects with efficacy events in the Control group through 12-months post-index procedure is equal to that of the Test group.~H1: The proportion of subjects with efficacy events in the Control group through 12-months post-index procedure is not equal to that of the Test group."||||0.05
92277690|NCT03294538|184457518|EQUIVALENCE|If the adjusted 90% confidence interval on the difference between proportions of participants considered Responders in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group was contained within the equivalence range \[-0.20, +0.20\], then treatment with generic estradiol vaginal cream and treatment with Estrace Vaginal Cream were considered therapeutically equivalent.|Odds Ratio (OR)|0.7|||||TWO_SIDED|90.0|-5.8|7.2||||||Therapeutic equivalence of the generic estradiol vaginal cream group to the Estrace Vaginal Cream group based on the primary endpoint was evaluated in the PP population.||7.2|-5.8|
92277691|NCT03294538|184457519|SUPERIORITY|The proportion of participants considered as Responders in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group were each compared to the proportion of Responders in the vehicle vaginal cream group. If both the generic estradiol vaginal cream group and the Estrace Vaginal Cream group demonstrated a statistically significant greater proportion of Responders than the vehicle vaginal cream group, then superiority was concluded.|Odds Ratio (OR)|19.9|||<|0.0001|||||||Cochran-Mantel-Haenszel|||Superiority of the generic estradiol vaginal cream group and the Estrace Vaginal Cream group to the vehicle vaginal cream group based on the primary endpoint was evaluated in the mITT population.||||<0.0001
92277692|NCT03294538|184457519|SUPERIORITY|The proportion of participants considered as Responders in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group were each compared to the proportion of Responders in the vehicle vaginal cream group. If both the generic estradiol vaginal cream group and the Estrace Vaginal Cream group demonstrated a statistically significant greater proportion of Responders than the vehicle vaginal cream group, then superiority was concluded.|Odds Ratio (OR)|20.2|||<|0.0001|||||||Cochran-Mantel-Haenszel|||Superiority of the generic estradiol vaginal cream group and the Estrace Vaginal Cream group to the vehicle vaginal cream group based on the primary endpoint was evaluated in the mITT population.||||<0.0001
92370038|NCT00286091|184645399|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0317|TWO_SIDED|95.0|0.71|0.98|||Wald test||Based on the Cox proportional hazards model stratified by PSA ≥ 8.0 ng/mL, PSA doubling time ≤ 10 months and previous or current chemotherapy for prostate cancer. A hazard ratio \< 1 favors denosumab.|||0.98|0.71|0.0317
92370039|NCT00286091|184645400|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9125|TWO_SIDED|95.0|0.85|1.2|||Wald test||Based on the Cox proportional hazards model stratified by PSA ≥ 8.0 ng/mL, PSA doubling time ≤ 10 months and previous or current chemotherapy for prostate cancer. A hazard ratio \< 1 favors denosumab.|||1.20|0.85|0.9125
92406423|NCT05465317|184702951|OTHER||Hazard Ratio (HR)|0.84||||0.62|TWO_SIDED|95.0|0.43|1.66|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.66|0.43|0.62
92406424|NCT05465317|184702951|OTHER||Hazard Ratio (HR)|0.59||||0.31|TWO_SIDED|95.0|0.21|1.64|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.64|0.21|0.31
92406425|NCT05465317|184702951|OTHER||Hazard Ratio (HR)|1.16||||0.76|TWO_SIDED|95.0|0.46|2.92|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.92|0.46|0.76
92370040|NCT01032603|184645429|SUPERIORITY||Difference in percentage of participants|9.0||||0.24|TWO_SIDED|95.0|-6.0|23.0|||Z test||Proportion of participants meeting criteria was obtained by Kaplan-Meier method. BLR group=46%, RR group=37%. Probability was compared b/w groups using Z test. A group difference and 95% CI were calculated. Positive differences favor the RR group.|||23|-6|0.24
92370041|NCT01032603|184645430|SUPERIORITY||Difference in percentage of participants|8.0||||0.25|TWO_SIDED|95.0|-6.0|21.0|||Z test||Proportion of participants meeting criteria was obtained by Kaplan-Meier method. BLR group=34%, RR group=26%. Probability was compared b/w groups using Z test. A group difference and 95% CI were calculated. Positive differences favor the RR group.|||21|-6|0.25
92370042|NCT01032603|184645431|SUPERIORITY||Difference in percentage of participants|-7.0||||0.06|TWO_SIDED|95.0|-14.0|0.23|||Z test||Proportion of participants meeting criteria was obtained by Kaplan-Meier method. BLR group=3%, RR group=10%. Probability was compared b/w groups using Z test. A group difference and 95% CI were calculated. Positive differences favor the RR group.|||0.23|-14|0.06
92370043|NCT01032603|184645432|SUPERIORITY||Difference in percentage of participants|4.0||||0.36|TWO_SIDED|95.0|-5.0|14.0|||Z test||Proportion of participants meeting criteria by 3 yrs was obtained by KM method. BLR group=14%, RR group=10%. Probability was compared b/w groups using Z test. A group difference and 95% CI were calculated. Positive differences favor the RR group.|||14|-5|0.36
92406426|NCT05465317|184702952|OTHER||Hazard Ratio (HR)|1.72|||<|0.001|TWO_SIDED|95.0|1.58|1.88|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.88|1.58|<0.001
92406427|NCT05465317|184702952|OTHER||Hazard Ratio (HR)|1.84|||<|0.001|TWO_SIDED|95.0|1.48|2.3|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.30|1.48|<0.001
92280378|NCT04543136|184463464|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.291|TWO_SIDED|95.0|-0.16|0.51||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.51|-0.16|0.291
92406428|NCT05465317|184702952|OTHER||Hazard Ratio (HR)|1.7|||<|0.001|TWO_SIDED|95.0|1.54|1.87|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.87|1.54|<0.001
92406429|NCT04634253|184702953|SUPERIORITY||LS Mean|-0.88|STANDARD_ERROR_OF_MEAN|0.361||0.017|TWO_SIDED|95.0|-1.6|-0.16|||Mixed Models Analysis|||||-0.16|-1.60|0.017
92406430|NCT04634253|184702953|SUPERIORITY||LS Mean|-1.09|STANDARD_ERROR_OF_MEAN|0.32|<|0.001|TWO_SIDED|95.0|-1.73|-0.46|||Mixed Models Analysis|||||-0.46|-1.73|<0.001
92406431|NCT04634253|184702954|SUPERIORITY||Odds Ratio (OR)|1.0||||0.997|TWO_SIDED|95.0|0.29|3.44|||Regression, Logistic|||||3.44|0.29|0.997
92406432|NCT04634253|184702954|SUPERIORITY||Odds Ratio (OR)|3.4||||0.032|TWO_SIDED|95.0|1.11|10.4|||Regression, Logistic|||||10.40|1.11|0.032
92406433|NCT04634253|184702955|SUPERIORITY||Odds Ratio (OR)|0.29||||0.235|TWO_SIDED|95.0|0.04|2.25|||Regression, Logistic|||||2.25|0.04|0.235
92406434|NCT04634253|184702955|SUPERIORITY||Odds Ratio (OR)|1.37||||0.661|TWO_SIDED|95.0|0.33|5.61|||Regression, Logistic|||||5.61|0.33|0.661
92406435|NCT04634253|184702956|SUPERIORITY||Odds Ratio (OR)|0.97||||0.965|TWO_SIDED|95.0|0.22|4.28|||Regression, Logistic|||||4.28|0.22|0.965
92406436|NCT04634253|184702956|SUPERIORITY||Odds Ratio (OR)|2.91||||0.098|TWO_SIDED|95.0|0.82|10.33|||Regression, Logistic|||||10.33|0.82|0.098
92406437|NCT04634253|184702957|SUPERIORITY||LS Mean Difference|-11.26|STANDARD_ERROR_OF_MEAN|3.71||0.003|TWO_SIDED|95.0|-18.65|-3.87|||Mixed Models Analysis|||||-3.87|-18.65|0.003
92406438|NCT04634253|184702957|SUPERIORITY||LS Mean Difference|-13.1|STANDARD_ERROR_OF_MEAN|3.265|<|0.001|TWO_SIDED|95.0|-19.61|-6.6|||Mixed Models Analysis|||||-6.60|-19.61|<0.001
92406439|NCT04634253|184702958|SUPERIORITY||LS Mean Difference|-10.3|STANDARD_ERROR_OF_MEAN|3.782||0.008|TWO_SIDED|95.0|-17.83|-2.77|||Mixed Models Analysis|||||-2.77|-17.83|0.008
92406440|NCT04634253|184702958|SUPERIORITY||LS Mean Difference|-11.76|STANDARD_ERROR_OF_MEAN|3.282|<|0.001|TWO_SIDED|95.0|-18.29|-5.22|||Mixed Models Analysis|||||-5.22|-18.29|<0.001
92406441|NCT04634253|184702959|SUPERIORITY||LS Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|2.365||0.218|TWO_SIDED|95.0|-7.63|1.77|||ANCOVA|||Mental Component Score (MCS)||1.77|-7.63|0.218
92406442|NCT04634253|184702959|SUPERIORITY||LS Mean Difference|1.15|STANDARD_ERROR_OF_MEAN|2.065||0.578|TWO_SIDED|95.0|-2.95|5.26|||ANCOVA|||Mental Component Score (MCS)||5.26|-2.95|0.578
92406443|NCT04634253|184702959|SUPERIORITY||LS Mean Difference|2.02|STANDARD_ERROR_OF_MEAN|2.368||0.396|TWO_SIDED|95.0|-2.69|6.73|||ANCOVA|||Physical Component Score (PCS)||6.73|-2.69|0.396
92406444|NCT04634253|184702959|SUPERIORITY||LS Mean Difference|1.42|STANDARD_ERROR_OF_MEAN|2.057||0.493|TWO_SIDED|95.0|-2.67|5.5|||ANCOVA|||Physical Component Score (PCS)||5.50|-2.67|0.493
92406445|NCT00926237|184702969|SUPERIORITY||Mean Difference (Final Values)|-5.74||||0.04|ONE_SIDED|||||t value = -1.40|Mixed Models Analysis||1Hz active rTMS - Sham rTMS|||||.04
92406446|NCT00926237|184702969|SUPERIORITY||Mean Difference (Final Values)|-6.77||||0.02|ONE_SIDED|||||t value = -2.03|Mixed Models Analysis||10 Hz active rTMS - Sham rTMS|||||.02
92406447|NCT00926237|184702969|SUPERIORITY||Mean Difference (Final Values)|-4.73||||0.2|ONE_SIDED|||||t value = -1..28|Mixed Models Analysis||10 Hz washout - sham washout period|||||.20
92406448|NCT00926237|184702969|SUPERIORITY||Mean Difference (Final Values)|-5.19||||0.19|ONE_SIDED|||||t value = -1.29|Mixed Models Analysis||1Hz washout - sham washout|||||.19
92406449|NCT03486834|184702978|OTHER|The incidence rate per 100 person years (100 x number of CMVi cases/total person-years to CMVi or end of follow-up) is presented along with 95% confidence interval (CI).|Incidence Rate Estimate|2.9|||||TWO_SIDED|95.0|1.6|4.9||||||||4.9|1.6|
92406450|NCT03486834|184702978|OTHER|The incidence rate per 100 person years (100 x number of CMVi cases/total person-years to CMVi or end of follow-up) is presented along with 95% CI.|Incidence Rate Estimate|5.1|||||TWO_SIDED|95.0|3.3|7.6||||||||7.6|3.3|
92406451|NCT03486834|184702978|OTHER|The statistical criterion for success requires the lower limit of the 95% CI of vaccine efficacy (VE) to be greater than 0%.|Vaccine Efficacy|42.4|||||TWO_SIDED|95.0|-13.5|71.1||||||||71.1|-13.5|
92406452|NCT03486834|184702979|OTHER||Difference in Percent|59.8|||||TWO_SIDED|95.0|55.8|63.5||||||||63.5|55.8|
92406453|NCT03486834|184702979|OTHER||Difference in Percent|57.6|||||TWO_SIDED|95.0|53.5|61.5||||||||61.5|53.5|
92406454|NCT03486834|184702980|OTHER||Difference in Percent|15.9|||||TWO_SIDED|95.0|11.7|20.1||||||||20.1|11.7|
92406455|NCT03486834|184702980|OTHER||Difference in Percent|17.4|||||TWO_SIDED|95.0|13.3|21.6||||||||21.6|13.3|
92406456|NCT03486834|184702981|OTHER||Difference in Percent|0.0|||||TWO_SIDED|95.0|-0.5|0.5||||||||0.5|-0.5|
92406457|NCT03486834|184702981|OTHER||Difference in Percent|0.0|||||TWO_SIDED|95.0|-0.5|0.5||||||||0.5|-0.5|
92406458|NCT03486834|184702982|OTHER|The incidence rate per 100 person years (100 x number of CMVi cases/total person-years to CMVi or end of follow-up) is presented along with 95% CI.|Incidence Rate Estimate|6.7|||||TWO_SIDED|95.0|4.6|9.5||||||||9.5|4.6|
92406459|NCT03486834|184702982|OTHER|The incidence rate per 100 person years (100 x number of CMVi cases/total person-years to CMVi or end of follow-up) is presented along with 95% CI.|Incidence Rate Estimate|5.1|||||TWO_SIDED|95.0|3.3|7.6||||||||7.6|3.3|
92406460|NCT03486834|184702982|OTHER|The statistical criterion for success requires the lower limit of the 95% CI of vaccine efficacy (VE) to be greater than 0%.|Vaccine Efficacy|-32.0|||||TWO_SIDED|95.0|-135.0|25.0||||||||25.0|-135.0|
92406461|NCT00888940|184702983|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.001
92406462|NCT02379091|184702994|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.351||0.086|TWO_SIDED|95.0|-1.31|0.09||MMRM model with main effects for study site, treatment, visit, and previously failed medication with interactions between visit and treatment, visit and previously failed medication, and visit and baseline value.|ANOVA|Baseline values were used as a covariate and participant as a random effect with an unstructured covariance structure.|Namilumab - Placebo|||0.09|-1.31|0.086
92406463|NCT02379091|184702994|SUPERIORITY_OR_OTHER||LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.366||0.107|TWO_SIDED|95.0|-1.32|0.13||MMRM model with main effects for study site, treatment, visit, and previously failed medication with interactions between visit and treatment, visit and previously failed medication, and visit and baseline value.|ANOVA|Baseline values were used as a covariate and subject as a random effect with an unstructured covariance structure.|Namilumab - Placebo|||0.13|-1.32|0.107
92406464|NCT02379091|184702994|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.347||0.01|TWO_SIDED|95.0|-1.61|-0.23||MMRM model with main effects for study site, treatment, visit, and previously failed medication with interactions between visit and treatment, visit and previously failed medication, and visit and baseline value.|ANOVA|Baseline values were used as a covariate and subject as a random effect with an unstructured covariance structure.|Namilumab - Placebo|||-0.23|-1.61|0.010
92406465|NCT03326713|184703009|SUPERIORITY||Odds Ratio (OR)|6.2|||<|0.0001|TWO_SIDED|95.0|2.5|15.2|||Regression, Logistic|||Logistic Regression Model Results for Intervention Effects on CGRA Within 6 Months (TP vs TCN)||15.2|2.5|<.0001
92406466|NCT03326713|184703009|SUPERIORITY||Odds Ratio (OR)|7.4|||<|0.0001|TWO_SIDED|95.0|2.8|19.4|||Regression, Logistic|||Logistic Regression Model Results for Intervention Effects on CGRA Within 6 Months (UC vs TCN)||19.4|2.8|<.0001
92277693|NCT03294538|184457520|EQUIVALENCE|If the adjusted 90% confidence interval on the difference between proportions of participants considered Treatment Success in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group was contained within the equivalence range \[-0.20, +0.20\], then treatment with generic estradiol vaginal cream and treatment with Estrace Vaginal Cream were considered therapeutically equivalent.|Odds Ratio (OR)|-1.4|||||TWO_SIDED|90.0|-9.0|6.2||||||Therapeutic equivalence of the generic estradiol vaginal cream group to the Estrace Vaginal Cream group based on the secondary endpoint was evaluated in the PP population.||6.2|-9.0|
92277694|NCT03294538|184457521|SUPERIORITY|The proportion of participants considered as Treatment Success in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group were each compared to the proportion of Treatment Success in the vehicle vaginal cream group. If both the generic estradiol vaginal cream group and the Estrace Vaginal Cream group demonstrated a statistically significant greater proportion of Treatment Success than the vehicle vaginal cream group, then superiority was concluded.|Odds Ratio (OR)|4.9||||0.2897|||||||Cochran-Mantel-Haenszel|||Superiority of the generic estradiol vaginal cream group and the Estrace Vaginal Cream group to the vehicle vaginal cream group based on the secondary endpoint was evaluated in the mITT population.||||0.2897
92277695|NCT03294538|184457521|SUPERIORITY|The proportion of participants considered as Treatment Success in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group were each compared to the proportion of Treatment Success in the vehicle vaginal cream group. If both the generic estradiol vaginal cream group and the Estrace Vaginal Cream group demonstrated a statistically significant greater proportion of Treatment Success than the vehicle vaginal cream group, then superiority was concluded.|Odds Ratio (OR)|3.9||||0.4949|||||||Cochran-Mantel-Haenszel|||Superiority of the generic estradiol vaginal cream group and the Estrace Vaginal Cream group to the vehicle vaginal cream group based on the primary endpoint was evaluated in the mITT population.||||0.4949
92277696|NCT01787825|184457542|NON_INFERIORITY|This is McNemar design.|percentage concordance|77.19||||1|TWO_SIDED|95.0|68.68|83.93||The blinded readers assessed concordance of normal versus abnormal and overall concordance of clinically significant abnormal images.|McNemar||Overall concordance of clinically significant abnormal images.|There was a comparison between normal and abnormal images. And detailed analysis of abnormal images that were considered clinical significant.||83.93|68.68|1.0000
92370044|NCT01032603|184645434|SUPERIORITY|||||||0.44|||||||ANOVA|||3-year control outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value (e.g. ANCOVA model of 3-year distance control will adjust for baseline distance control).||||0.44
92370045|NCT01032603|184645437|SUPERIORITY|||||||0.64|||||||ANOVA|||3-year control outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value (e.g. ANCOVA model of 3-year near control will adjust for baseline near control).||||0.64
92370046|NCT01032603|184645440|SUPERIORITY|||||||0.21|||||||ANOVA|||3-year PACT outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value.||||0.21
92406467|NCT03326713|184703009|SUPERIORITY||Odds Ratio (OR)|1.2||||1.2|TWO_SIDED|95.0|0.4|4.0|||Regression, Logistic|||Logistic Regression Model Results for Intervention Effects on CGRA Within 6 Months (UC vs TP)||4.0|0.4|1.2
92406468|NCT00935584|184703071|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||>0.05
92406469|NCT00935584|184703071|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||>0.05
92277697|NCT01787825|184457544|SUPERIORITY_OR_OTHER||percentage concordance|71.93||||0.972|TWO_SIDED|95.0|63.07|79.36|||Bowkers|||||79.36|63.07|0.972
92280379|NCT04543136|184463464|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.868|TWO_SIDED|95.0|-0.31|0.36||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.36|-0.31|0.868
92370047|NCT01032603|184645443|SUPERIORITY|||||||0.38|||||||ANOVA|||3-year PACT outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value.||||0.38
92370048|NCT01032603|184645446|SUPERIORITY|||||||0.93|||||||ANOVA|||3-year stereoacuity outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value.||||0.93
92370049|NCT01032603|184645449|SUPERIORITY|||||||0.82|||||||ANOVA|||3-year stereoacuity outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value.||||0.82
92370050|NCT01032603|184645451|SUPERIORITY|||||||0.3||||||Child 5 to 7 years old|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.30
92370051|NCT01032603|184645451|SUPERIORITY|||||||0.77||||||Child 8 to 13 years old|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores9, 10 at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.77
92406470|NCT00935584|184703072|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that there is no significant change in outcome from pre to post visit.||||>0.05
92406471|NCT00935584|184703072|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wicoxon signed rank test|||The null hypothesis is that there is no significant change in outcome from pre to post visit.||||>0.05
92406472|NCT00935584|184703073|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that there is no significant change in patient engagement from pre to post visit.||||>0.05
92406473|NCT00935584|184703073|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no significant change in patient engagement from pre to post visit.||||>0.05
92370052|NCT01032603|184645451|SUPERIORITY|||||||0.51||||||Parent Proxy IXTQ|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores9, 10 at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.51
92370053|NCT01032603|184645451|SUPERIORITY|||||||0.42||||||Parent Psychosocial|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores9, 10 at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.42
92370054|NCT01032603|184645451|SUPERIORITY|||||||0.68||||||Parent Function|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores9, 10 at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.68
92370055|NCT01032603|184645451|SUPERIORITY|||||||0.64||||||Parent Surgical|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores9, 10 at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.64
92370056|NCT01032603|184645452|SUPERIORITY||Difference in percentage|5.0|||||TWO_SIDED|95.0|-2.0|13.0||||||"The cumulative proportion of participants with re-operation by 3 years was obtained using the Kaplan-Meier (K-M) method.~A treatment-group difference and a corresponding 95% confidence interval were calculated.~Treatment-group differences were calculated as BLR minus RR."||13|-2|
92370057|NCT01032603|184645453|SUPERIORITY||Difference in percentage of participants|-15.0|||||TWO_SIDED|95.0|-30.0|-0.0003||||||All treatment-group differences were calculated as the BLRc group minus the R\&R group. A treatment-group difference and a corresponding 95% confidence interval were calculated.||-.0003|-30|
92370058|NCT01032603|184645454|SUPERIORITY||Difference in percentage of participants|12.0|||||TWO_SIDED|95.0|-1.0|25.0||||||The proportion of participants with suboptimal surgical outcome at 3 years was compared between treatment groups using Barnard's exact test, and an exact 95% CI on the treatment-group difference was calculated using Farrington-Manning scores.||25|-1|
92370059|NCT01813058|184645464|SUPERIORITY||Mean Difference (Final Values)|195.0|||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92370060|NCT00923351|184645492|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||Fisher Exact|||||||0.043
92370061|NCT00182078|184645495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8|STANDARD_DEVIATION|3.4|=|0.017|TWO_SIDED|95.0|||||t-test, 2 sided|||||||=0.017
92370062|NCT00182078|184645496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|STANDARD_DEVIATION|3.9|<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.001
92370063|NCT00182078|184645497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_DEVIATION|4.4|=|0.65|TWO_SIDED|95.0|||||t-test, 2 sided|||||||=0.65
92370064|NCT00361231|184645522|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Kaplan-Meier|||||||<0.05
92370065|NCT00361231|184645523|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Kaplan-Meier|||||||0.05
92370066|NCT01732510|184645528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.82||||0.015|TWO_SIDED|95.0|-16.87|-2.77|||Constrained longitudinal data analysis|||The reduction from baseline in EASI at week 12 for participants receiving MK-8226 3 mg/kg was compared to placebo (MK-8226 3 mg - Placebo). The constrained longitudinal data analysis model used variance component covariance matrix to model correlation among repeated visits, without adjustment for interaction of treatment group by visit.||-2.77|-16.87|0.015
92370067|NCT00313144|184645548|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0|||||Paired t-test|||||||0.044
92370068|NCT00313144|184645550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0|||||Paired t-test|||||||0.009
92370069|NCT00313144|184645551|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||Paired t-test|||||||0.005
92370070|NCT00313144|184645553|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0|||||Paired t-test|||||||0.006
92370071|NCT00313144|184645554|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0|||||Paired t-test|||||||0.044
92370072|NCT00313144|184645555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||95.0|||||Paired t-test|||||||0.046
92370073|NCT02487654|184645574|SUPERIORITY||||||<|0.05|||||||Log Rank|||||||<0.05
92370074|NCT02443116|184645577|SUPERIORITY||Difference in least squares means|-8.84|STANDARD_ERROR_OF_MEAN|1.37|<|0.001|TWO_SIDED|96.0|-12.09|-5.59||p-values are adjusted using a stepdown-Bonferroni method to adjust for multiple testing.|t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-5.59|-12.09|<0.001
92370075|NCT02443116|184645577|SUPERIORITY||Difference in least squares means|-11.06|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|96.0|-14.39|-7.74||p-values are adjusted using a stepdown-Bonferroni method to adjust for multiple testing.|t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-7.74|-14.39|<0.001
92370076|NCT02443116|184645577|SUPERIORITY||Difference in least squares means|-2.22|STANDARD_ERROR_OF_MEAN|1.38||0.112|TWO_SIDED|96.0|-5.11|0.67|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||0.67|-5.11|0.112
92370077|NCT02443116|184645578|SUPERIORITY||Difference in least squares means|-5.73|STANDARD_ERROR_OF_MEAN|1.38|<|0.0001|TWO_SIDED|95.0|-8.48|-2.99|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-2.99|-8.48|<0.0001
92370078|NCT02443116|184645578|SUPERIORITY||Difference in least squares means|-6.6|STANDARD_ERROR_OF_MEAN|1.41|<|0.0001|TWO_SIDED|95.0|-9.41|-3.79|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-3.79|-9.41|<0.0001
92370079|NCT02443116|184645578|SUPERIORITY||Difference in least squares means|-0.87|STANDARD_ERROR_OF_MEAN|1.43||0.5467|TWO_SIDED|95.0|-3.71|1.98|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||1.98|-3.71|0.5467
92370080|NCT02443116|184645578|SUPERIORITY||Difference in least squares means|-5.9|STANDARD_ERROR_OF_MEAN|1.33|<|0.0001|TWO_SIDED|95.0|-8.55|-3.25|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-3.25|-8.55|<0.0001
92370081|NCT02443116|184645578|SUPERIORITY||Difference in least squares means|-0.17|STANDARD_ERROR_OF_MEAN|1.37||0.9037|TWO_SIDED|95.0|-2.89|2.55|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||2.55|-2.89|0.9037
92370082|NCT02443116|184645578|SUPERIORITY||Difference in least squares means|0.7|STANDARD_ERROR_OF_MEAN|1.38||0.6134|TWO_SIDED|95.0|-2.05|3.45|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||3.45|-2.05|0.6134
92370083|NCT02443116|184645579|SUPERIORITY||Difference in least squares means|-4.97|STANDARD_ERROR_OF_MEAN|1.53||0.0018|TWO_SIDED|95.0|-8.03|-1.91|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-1.91|-8.03|0.0018
92370084|NCT01932372|184645586|OTHER||Incidence rate ratio (unadjusted)|4.85|||||TWO_SIDED|95.0|3.34|7.03||||||||7.03|3.34|
92370085|NCT01932372|184645586|OTHER||Hazard ratio (unadjusted)|4.8|||||TWO_SIDED|95.0|3.31|6.96||||||||6.96|3.31|
92370086|NCT01932372|184645586|OTHER||Hazard ratio (adjusted 1)|2.07|||||TWO_SIDED|95.0|0.95|4.51||||||||4.51|0.95|
92370087|NCT01932372|184645586|OTHER||Hazard ratio (adjusted 2)|3.81|||||TWO_SIDED|95.0|2.24|6.47||||||||6.47|2.24|
92370088|NCT01932372|184645586|OTHER||Hazard ratio (adjusted 3)|3.55|||||TWO_SIDED|95.0|2.08|6.09||||||||6.09|2.08|
92370089|NCT01932372|184645586|OTHER||Hazard ratio (adjusted 4)|3.8|||||TWO_SIDED|95.0|2.31|6.25||||||||6.25|2.31|
92406474|NCT00935584|184703074|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||<0.05
92370090|NCT01932372|184645587|OTHER||Incidence rate ratio (unadjusted)|1.6|||||TWO_SIDED|95.0|1.16|2.19||||||||2.19|1.16|
92406475|NCT00935584|184703074|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||<0.05
92406476|NCT00935584|184703075|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that there is no significant change in outcome from pre to post visit.||||<0.05
92406477|NCT00935584|184703075|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no significant change in outcome from pre to post visit.||||<0.05
92406478|NCT00935584|184703076|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||<0.05
92406479|NCT00935584|184703076|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||<0.05
92406480|NCT02873702|184703155|NON_INFERIORITY|Non-inferiority to lansoprazole if the lower bound of confidence interval (CI) for the treatment difference is greater than -10%.|Difference in Percentage|-2.65|||||TWO_SIDED|95.0|-26.59|21.3||||||Healing Period: Dexlansoprazole 60 mg versus Healing Period: Lansoprazole 30 mg||21.30|-26.59|
92406481|NCT03085797|184703183|SUPERIORITY||Difference in Medians|-0.73|||<|0.001|TWO_SIDED|95.0|-1.11|-0.34||p-Value was based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment,region,Baseline score,Baseline eosinophilcount(BEC). Par. with nasal surgery prior to Wk52/withdrew early with no nasal surgery assigned their worst observed score prior to nasal surgery/study withdrawal|||-0.34|-1.11|<0.001
92239599|NCT04705597|184383035|SUPERIORITY||Odds Ratio (OR)|0.869||||0.8081|TWO_SIDED|95.0|0.28|2.695|||Regression, Logistic|||||2.695|0.28|0.8081
92370091|NCT01932372|184645587|OTHER||Hazard ratio (unadjusted)|1.55|||||TWO_SIDED|95.0|1.12|2.13||||||||2.13|1.12|
92370092|NCT01932372|184645587|OTHER||Hazard ratio (adjusted 1)|1.86|||||TWO_SIDED|95.0|1.16|2.99||||||||2.99|1.16|
92370093|NCT01932372|184645587|OTHER||Hazard ratio (adjusted 2)|1.61|||||TWO_SIDED|95.0|1.06|2.43||||||||2.43|1.06|
92370094|NCT01932372|184645587|OTHER||Hazard ratio (adjusted 3)|1.53|||||TWO_SIDED|95.0|1.0|2.35||||||||2.35|1.00|
92370095|NCT01932372|184645587|OTHER||Hazard ratio (adjusted 4)|1.51|||||TWO_SIDED|95.0|1.03|2.22||||||||2.22|1.03|
92370096|NCT01932372|184645588|OTHER||Mortality rate ratio (unadjusted)|3.39|||||TWO_SIDED|95.0|1.99|5.78||||||||5.78|1.99|
92370097|NCT01932372|184645588|OTHER||Hazard ratio (unadjusted)|3.29|||||TWO_SIDED|95.0|1.93|5.61||||||||5.61|1.93|
92370098|NCT05352412|184645591|OTHER|Mann-Whitney U|Mann-Whitney U|0.32||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.32
92370099|NCT05352412|184645591|OTHER|Mann-Whitney U|Mann-Whitney U|0.39||||0.39|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline survey compared with immediate follow-up survey||||0.39
92406482|NCT03085797|184703184|SUPERIORITY||Difference in Medians|-3.14|||<|0.001|TWO_SIDED|95.0|-4.09|-2.18||p-Value was based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment, region, Baseline score, Baseline BEC. Par. with nasal surgery prior to Wks 49-52/withdrew early with no nasal surgery assigned their worst observed 4-wk mean prior to nasal surgery/study withdrawal.|||-2.18|-4.09|<0.001
92370100|NCT05352412|184645591|OTHER|Mann-Whitney U|Mann-Whitney U|0.21||||0.21|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2 weeks post-discharge compared with baseline survey||||0.21
92370101|NCT05352412|184645591|OTHER||Mann-Whitney U|0.19||||0.19|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90 days post-discharge compared with baseline survey||||0.19
92406483|NCT03085797|184703185|SUPERIORITY||Hazard Ratio (Mepolizumab/Placebo)|0.43||||0.003|TWO_SIDED|95.0|0.25|0.76||p-Value was based on Cox Proportional Hazards Model.|Cox Proportional Hazards Model||Analysis using a Cox Proportional Hazards Model with covariates of treatment, geographic region, Baseline total endoscopic score (centrally read), Baseline nasal obstruction VAS, Baseline BEC, number of previous surgeries (1, 2, \>2 as ordinal).|||0.76|0.25|0.003
92370102|NCT05352412|184645591|OTHER||Mann-Whitney U|0.38||||0.38|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline survey versus immediate follow-up||||0.38
92370103|NCT05352412|184645591|OTHER||Mann-Whitney U|0.25||||0.25|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2 weeks post-discharge compared with baseline survey||||0.25
92370104|NCT05352412|184645591|OTHER||Mann-Whitney U|0.07||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90 days post-discharge compared with baseline survey||||0.07
92370105|NCT05352412|184645591|OTHER||Mann-Whitney U|0.03||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up between the two arms||||0.03
92370106|NCT05352412|184645591|OTHER||Mann-Whitney U|0.65||||0.65|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2 weeks post-discharge comparison between the 2 arms||||0.65
92370107|NCT05352412|184645591|OTHER||Mann-Whitney U|0.97||||0.97|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90-days post discharge compared between the 2 arms||||0.97
92370108|NCT05352412|184645592|OTHER||Mann-Whitney U|0.77||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline comparison between the 2 arms||||0.77
92370109|NCT05352412|184645592|OTHER||Mann-Whitney U|0.85||||0.85|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up compared with baseline survey||||0.85
92370110|NCT05352412|184645592|OTHER||Mann-Whitney U|0.38||||0.38|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2-week post-discharge compared with baseline survey||||0.38
92370111|NCT05352412|184645592|OTHER||Mann-Whitney U|0.21||||0.21|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90-day post discharge compared with baseline survey||||0.21
92406484|NCT03085797|184703186|OTHER||Difference in Medians|-3.18||||0.003|TWO_SIDED|95.0|-4.1|-2.26||p-Value was based on Wilcoxon rank-sum test and is adjusted for multiplicity.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment, region, Baseline score, Baseline BEC. Par. with nasal surgery prior to Wks 49-52/withdrew early with no nasal surgery assigned their worst observed 4-wk mean prior to nasal surgery/study withdrawal.|||-2.26|-4.10|0.003
92277698|NCT03979677|184457621|OTHER|HDI and DHI analyzed using linear mixed-effects models with two within-participant factors, Intervention (pre-intervention, post-intervention) and Inventory (DHI, HDI). All models included participant as a random factor. Models constructed using lmer function of the lme package in R and analyzed using anova function in base R. Significant main effects and interactions were evaluated using emmeans . Pairwise comparisons were adjusted to account for false-discovery rates.|||||<|0.0001||||||Multiple comparisons were adjusted.|linear mixed-effects models|||||||<.0001
92277699|NCT03979677|184457622|OTHER|HDI and DHI analyzed using linear mixed-effects models with two within-participant factors, Intervention (pre-intervention, post-intervention) and Inventory (DHI, HDI). All models included participant as a random factor. Models constructed using lmer function of the lme package in R and analyzed using anova function in base R. Significant main effects and interactions were evaluated using emmeans . Pairwise comparisons were adjusted to account for false-discovery rates.|||||<|0.0001||||||Point change in DHI was tests.|linear mixed-effects models|||||||<.0001
92277700|NCT01952574|184457623|SUPERIORITY|To maintain the type I error at ≤ 0.05, the pairwise comparison was tested in a sequential testing procedure in the order of erenumab 70 mg vs placebo, 21 mg vs placebo, and 7 mg vs placebo. The lower dose group was only to be tested when the higher dose group was tested as significant.|LS Mean Difference|-1.12||||0.021|TWO_SIDED|95.0|-2.06|-0.17|||Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||-0.17|-2.06|0.021
92277701|NCT01952574|184457623|SUPERIORITY|To maintain the type I error at ≤ 0.05, the pairwise comparison was tested in a sequential testing procedure in the order of erenumab 70 mg vs placebo, 21 mg vs placebo, and 7 mg vs placebo. The lower dose group was only to be tested when the higher dose group was tested as significant.|LS Mean Difference|-0.1||||0.83|TWO_SIDED|95.0|-1.07|0.86|||Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||0.86|-1.07|0.83
92277702|NCT01952574|184457623|SUPERIORITY|To maintain the type I error at ≤ 0.05, the pairwise comparison was tested in a sequential testing procedure in the order of erenumab 70 mg vs placebo, 21 mg vs placebo, and 7 mg vs placebo. The lower dose group was only to be tested when the higher dose group was tested as significant.|LS Mean Difference|0.11||||0.82|TWO_SIDED|92.0|-0.83|1.05|||Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||1.05|-0.83|0.82
92277703|NCT01952574|184457624|SUPERIORITY||Odds Ratio (OR)|2.0||||0.011|TWO_SIDED|95.0|1.17|3.42|||Generalised Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, stratification factor region, and baseline value as covariates.||The generalized linear mixed model includes data for all participants in the efficacy analysis set with at least one percent change from baseline value in monthly migraine days (152 participants in the placebo group and 104 in the erenumab 70 mg group)||3.42|1.17|0.011
92277704|NCT01952574|184457624|SUPERIORITY||Odds Ratio (OR)|1.25||||0.44|TWO_SIDED|95.0|0.71|2.18|||Generalized Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, stratification factor region, and baseline value as covariates.||The generalized linear mixed model includes data for all participants in the efficacy analysis set with at least one change from baseline value in monthly migraine days (152 participants in the placebo group and 99 in the erenumab 21 mg group)||2.18|0.71|0.44
92277705|NCT01952574|184457624|SUPERIORITY||Odds Ratio (OR)|0.93||||0.8|TWO_SIDED|95.0|0.53|1.63|||Generalized Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, stratification factor region, and baseline value as covariates.||The generalized linear mixed model includes data for all participants in the efficacy analysis set with at least one change from baseline value in monthly migraine days (152 participants in the placebo group and 107 in the erenumab 7 mg group)||1.63|0.53|0.80
92277706|NCT01952574|184457625|SUPERIORITY||LS Mean Difference|-0.4||||0.13|TWO_SIDED|95.0|-0.92|0.12|||Generalized Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||||0.12|-0.92|0.13
92277707|NCT01952574|184457625|SUPERIORITY||LS Mean Difference|0.02||||0.95|TWO_SIDED|95.0|-0.51|0.54|||Generalized Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||||0.54|-0.51|0.95
92370112|NCT05352412|184645592|OTHER||Mann-Whitney U|0.32||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up compared with baseline survey||||0.32
92370113|NCT05352412|184645592|OTHER||Mann-Whitney U|0.09||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2 week post-discharge compared with baseline survey||||0.09
92370114|NCT05352412|184645592|OTHER||Mann-Whitney U|0.07||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90-day post-discharge compared with baseline survey||||0.07
92370115|NCT05352412|184645592|OTHER||Mann-Whitney U|0.26||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2 weeks post-discharge compared between the 2 arms||||0.26
92370116|NCT05352412|184645592|OTHER||Mann-Whitney U|0.69||||0.69|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up compared between the 2 arms||||0.69
92370117|NCT05352412|184645592|OTHER||Mann-Whitney U|0.32||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90-day post-discharge compared between the 2 arms||||0.32
92370118|NCT05352412|184645596|OTHER|Mann-Whitney U|Mann-Whitney U|1.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
92370119|NCT05352412|184645596|OTHER|Mann-Whitney U|Mann-Whitney U|1.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
92370120|NCT05352412|184645596|OTHER|Mann-Whitney U|Mann-Whitney U|0.12||||0.12|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.12
92370121|NCT05352412|184645596|OTHER|Mann-Whitney U|Mann-Whitney U|0.12||||0.12|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up||||0.12
92370122|NCT05352412|184645597|OTHER|Mann-Whitney U|Mann-Whitney U|0.48||||0.48|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.48
92370123|NCT05352412|184645597|OTHER|Mann-Whitney U|Mann-Whitney U|1.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
92370124|NCT05352412|184645597|OTHER|Mann-Whitney U|Mann-Whitney U|0.17||||0.17|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.17
92370125|NCT05352412|184645597|OTHER|Mann-Whitney U|Mann-Whitney U|0.42||||0.42|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up||||0.42
92370126|NCT05352412|184645598|OTHER|Mann-Whitney U|Mann-Whitney U|1.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline||||1.00
92277708|NCT01952574|184457625|SUPERIORITY||LS Mean Difference|0.37||||0.16|TWO_SIDED|95.0|-0.14|0.87|||Generalized Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||||0.87|-0.14|0.16
92277709|NCT02040766|184457638|SUPERIORITY||Mean Difference (Final Values)|2.81||||0.0063|TWO_SIDED|95.0|0.796|4.821||significance at 0.05.|ANCOVA|||ANCOVA model with effects due to baseline trough morning percent predicted FEV1, sex, age, current protocol-allowed asthma therapy (inhaled corticosteroid (ICS) or non-corticosteroid (NCS) therapy) at the time of screening visit, during the run-in period, and during treatment.||4.821|0.796|0.0063
92277710|NCT02040766|184457638|SUPERIORITY||Mean Difference (Final Values)|0.63||||0.5332|TWO_SIDED|95.0|-1.354|2.614||significance at 0.05.|ANCOVA|||ANCOVA model with effects due to baseline trough morning percent predicted FEV1, sex, age, current protocol-allowed asthma therapy (ICS or NCS therapy) at the time of screening visit, during the run-in period, and during treatment.||2.614|-1.354|0.5332
92277711|NCT02040766|184457638|SUPERIORITY||Mean Difference (Final Values)|0.92||||0.3649|TWO_SIDED|95.0|-1.077|2.924||significance at 0.05|ANCOVA|||ANCOVA model with effects due to baseline trough morning percent predicted FEV1, sex, age, current protocol-allowed asthma therapy (ICS or NCS therapy) at the time of screening visit, during the run-in period, and during treatment.||2.924|-1.077|0.3649
92277712|NCT02040766|184457638|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.2823|TWO_SIDED|95.0|-0.902|3.088|||ANCOVA|||||3.088|-0.902|0.2823
92277713|NCT02040766|184457639|SUPERIORITY||Mean Difference (Final Values)|11.3||||0.0001|TWO_SIDED|95.0|5.58|17.06|||Mixed Models Analysis|||||17.06|5.58|0.0001
92370127|NCT05352412|184645598|OTHER|Mann-Whitney U|Mann-Whitney U|0.11||||0.11|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline versus immediate follow-up||||0.11
92277714|NCT02040766|184457639|SUPERIORITY||Mean Difference (Final Values)|8.5||||0.0041|TWO_SIDED|95.0|2.71|14.24|||Mixed Models Analysis|||||14.24|2.71|0.0041
92277715|NCT02040766|184457639|SUPERIORITY||Mean Difference (Final Values)|7.6||||0.0103|TWO_SIDED|95.0|1.79|13.35|||Mixed Models Analysis|||||13.35|1.79|0.0103
92277716|NCT02040766|184457639|SUPERIORITY||Mean Difference (Final Values)|6.5||||0.0278|TWO_SIDED|95.0|0.71|12.23|||Mixed Models Analysis|||||12.23|0.71|0.0278
92277717|NCT02040766|184457640|SUPERIORITY||Mean Difference (Final Values)|11.7|||<|0.0001|TWO_SIDED|95.0|5.96|17.45|||Mixed Models Analysis|||||17.45|5.96|<0.0001
92277718|NCT02040766|184457640|SUPERIORITY||Mean Difference (Final Values)|10.0||||0.0007|TWO_SIDED|95.0|4.2|15.76|||Mixed Models Analysis|||||15.76|4.20|0.0007
92277719|NCT02040766|184457640|SUPERIORITY||Mean Difference (Final Values)|9.9||||0.0008|TWO_SIDED|95.0|4.11|15.68|||Mixed Models Analysis|||||15.68|4.11|0.0008
92277720|NCT02040766|184457640|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.0031|TWO_SIDED|95.0|2.95|14.49|||Mixed Models Analysis|||||14.49|2.95|0.0031
92239600|NCT04705597|184383036|SUPERIORITY||Odds Ratio (OR)|1.436||||0.3193|TWO_SIDED|95.0|0.704|2.929|||Regression, Logistic|||||2.929|0.704|0.3193
92239601|NCT00390780|184383037|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Expected cure rate: 70% Type I error: 2.5% Type II error: 5%"|comparison of proportion clinical cure|0.15|||>|0.025|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025|one-sided test|||"Analyses for ITT and PP populations:~H0: clinical cure rate for miconazole Lauriad minus clinical cure rate for clotrimazole troches is less than or equal to -0.15 H1: clinical cure rate for miconazole Lauriad minus clinical cure rate for Mycelex troches is greater than -0.15"|||-0.15|>0.025
92239602|NCT00390780|184383038|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Expected cure rate: 70% Type I error: 2.5% Type II error: 5%"|comparison of proportion clinical cure|0.15|||>|0.025|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|one-sided noninferiority test|||"Analysis for ITT and PP populations:~H0: clinical cure rate for miconazole Lauriad minus clinical cure rate for clotrimazole troches is less than or equal to -0.15 H1: clinical cure rate for miconazole Lauriad minus clinical cure rate for Mycelex troches is greater than -0.15"|||-0.15|>0.025
92277721|NCT02040766|184457641|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.0002|TWO_SIDED|95.0|-0.548|-0.174|||Mixed Models Analysis|||||-0.174|-0.548|0.0002
92277722|NCT02040766|184457641|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.132|TWO_SIDED|95.0|-0.331|0.044|||Mixed Models Analysis|||||0.044|-0.331|0.1320
92277723|NCT02040766|184457641|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.5866|TWO_SIDED|95.0|-0.24|0.136|||Mixed Models Analysis|||||0.136|-0.240|0.5866
92370128|NCT05352412|184645598|OTHER|Mann-Whitney U|Mann-Whitney U|0.89||||0.89|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline versus immediate follow-up||||0.89
92370129|NCT05352412|184645598|OTHER|Mann-Whitney U|Mann-Whitney U|0.55||||0.55|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up||||0.55
92370130|NCT05352412|184645599|OTHER|Mann-Whitney U|Mann-Whitney U|0.66||||0.66|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline||||0.66
92370131|NCT05352412|184645599|OTHER|Mann-Whitney U|Mann-Whitney U|0.2||||0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline versus immediate follow-up post randomization||||0.20
92370132|NCT05352412|184645599|OTHER|Mann-Whitney U|Mann-Whitney U|0.85||||0.85|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline versus immediate follow-up post randomization||||0.85
92370133|NCT05352412|184645599|OTHER|Mann-Whitney U|Mann-Whitney U|0.07||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up post randomization||||0.07
92370134|NCT03594747|184645600|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.0001|TWO_SIDED|95.0|0.37|0.74|||One-sided stratified log-rank test|||||0.74|0.37|0.0001
92370135|NCT03594747|184645600|SUPERIORITY||Hazard Ratio (HR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.33|0.67|||One-sided stratified log-rank test|||||0.67|0.33|<0.0001
92370136|NCT03594747|184645601|SUPERIORITY||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.32|0.61||||||||0.61|0.32|
92370137|NCT03594747|184645601|SUPERIORITY||Hazard Ratio (HR)|0.42|||||TWO_SIDED|95.0|0.3|0.59||||||||0.59|0.30|
92370138|NCT04382586|184645612|SUPERIORITY||Odds Ratio (OR)|1.61||||0.4099|TWO_SIDED|95.0|0.349|7.391|||Unstratified 1-sided Fisher's exact test|||||7.391|0.349|0.4099
92370139|NCT04382586|184645613|SUPERIORITY||Hazard Ratio (HR)|0.918||||0.7619|TWO_SIDED|95.0|0.511|1.648|||Log Rank|||||1.648|0.511|0.7619
92239603|NCT00390780|184383039|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|compare proportion of clinical success|0.15||||0.0974|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for ITT population:~H0: clinical success rate for miconazole Lauriad minus clinical success rate for clotrimazole troches is less than or equal to -0.15 H1: clinical success rate for miconazole Lauriad minus clinical success rate for Mycelex troches is greater than -0.15"|||-0.15|0.0974
92406485|NCT03085797|184703187|OTHER||Difference in Medians|-16.49||||0.003|TWO_SIDED|95.0|-23.57|-9.42||p-Value was based on Wilcoxon rank-sum test and is adjusted for multiplicity.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment, region, Baseline score, Baseline BEC. Par. with nasal surgery prior to Wk 52/withdrew early with no nasal surgery assigned their worst observed score prior to nasal surgery/study withdrawal.|||-9.42|-23.57|0.003
92406486|NCT03085797|184703188|OTHER||Odds Ratio (OR)|0.58||||0.02|TWO_SIDED|95.0|0.36|0.92||p-Value was based on logistic regression model and is adjusted for multiplicity.|Regression, Logistic||Covariates: treatment group, geographic region, number of oral corticosteroids courses for NP in last 12 months(0,1,\>1 as ordinal), Baseline total endoscopic score(centrally read),Baseline nasal obstruction VAS score,log(e) Baseline eosinophil count.|||0.92|0.36|0.020
92406487|NCT03085797|184703189|OTHER||Difference in Medians|-2.68||||0.02|TWO_SIDED|95.0|-3.44|-1.91||p-Value was based on Wilcoxon rank-sum test and is adjusted for multiplicity.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment, region, Baseline score, Baseline BEC. Par. with nasal surgery prior to Wks 49-52/withdrew early with no nasal surgery assigned their worst observed 4-wk mean prior to nasal surgery/study withdrawal.|||-1.91|-3.44|0.020
92406488|NCT03085797|184703190|OTHER||Difference in Medians|-0.37||||0.02|TWO_SIDED|95.0|-0.65|-0.08||p-Value was based on Wilcoxon rank-sum test and is adjusted for multiplicity.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment, region, Baseline score, Baseline BEC. Par. with nasal surgery prior to Wks 49-52/withdrew early with no nasal surgery assigned their worst observed 4-wk mean prior to nasal surgery/study withdrawal.|||-0.08|-0.65|0.020
92406489|NCT04050202|184703194|OTHER||Mean Difference (Net)|8.45|||<|0.01|TWO_SIDED||||||t-test, 2 sided||The post-intervention score is subtracted from the baseline score.|||||<0.01
92406490|NCT04050202|184703195|OTHER||Mean Difference (Net)|13.97|||<|0.01|TWO_SIDED||||||t-test, 2 sided||The post-intervention score is subtracted from the baseline score|||||<0.01
92406491|NCT01554241|184703196|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Results presented were Bonferonni-corrected for a mid-point safety analysis||Comparisons of concentrations in D3 dosing groups at study end were made by ANOVA. Adherence of 80% was pre-specified for inclusion in analyses. .||||<.0001
92406492|NCT01554241|184703196|SUPERIORITY_OR_OTHER||||||=|0.56|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||=.56
92406493|NCT01554241|184703196|SUPERIORITY_OR_OTHER||||||<|0.0009|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0009
92406494|NCT01554241|184703196|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0001
92406495|NCT01554241|184703196|SUPERIORITY_OR_OTHER||||||<|0.006|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.006
92406496|NCT01554241|184703196|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0001
92406497|NCT01554241|184703196|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0001
92240147|NCT00570739|184383828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21||||0.199|TWO_SIDED|95.0|0.53|9.33||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||9.33|0.53|0.1990
92240148|NCT00570739|184383828|SUPERIORITY_OR_OTHER|||||||0.2778||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.2778
92240149|NCT00570739|184383828|SUPERIORITY_OR_OTHER|||||||0.2785||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.2785
92406498|NCT01554241|184703197|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||analyses were corrected for multiple comparisons (Bonferroni)|ANOVA|||||||<.0001
92406499|NCT01554241|184703197|SUPERIORITY_OR_OTHER||||||=|0.47|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||=0.47
92406500|NCT01554241|184703197|SUPERIORITY_OR_OTHER||||||<|0.002|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.002
92406501|NCT01554241|184703197|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0001
92406502|NCT01554241|184703197|SUPERIORITY_OR_OTHER||||||<|0.02|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.02
92406503|NCT01554241|184703197|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0001
92406504|NCT01554241|184703197|SUPERIORITY_OR_OTHER||||||<|0.0003|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0003
92406505|NCT03198507|184703200|SUPERIORITY|||||||0.0001|TWO_SIDED|95.0||||Statistical testing was 2 sided and performed using a significance (alpha) level of 0.05.|t-test, 2 sided|||||||0.0001
92406506|NCT03198507|184703203|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92406507|NCT01411891|184703211|SUPERIORITY||Risk Ratio (RR)|1.5|||||TWO_SIDED|95.0|0.3|8.4||||||||8.4|0.3|
92406508|NCT01411891|184703212|SUPERIORITY||Risk Ratio (RR)|0.8||||0.65|TWO_SIDED|95.0|0.4|1.6|||Regression, Logistic|||||1.6|0.4|0.65
92406509|NCT04614974|184703213|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
92406510|NCT04614974|184703214|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
92406511|NCT04614974|184703215|OTHER|||||||0.5|||||||McNemar|||Noisy breathing pre/post||||0.5
92406512|NCT04614974|184703215|OTHER|||||||0.01|||||||McNemar|||Noisy breathing pre/post||||0.01
92406513|NCT04614974|184703215|OTHER|||||||0.2|||||||McNemar|||Stridor pre/post||||0.2
92406514|NCT04614974|184703215|SUPERIORITY|||||||0.02|||||||McNemar|||Stridor pre/post||||0.02
92406515|NCT04614974|184703215|OTHER|||||||0.5|||||||McNemar|||Chest wall retractions pre/post||||0.5
92406516|NCT04614974|184703215|OTHER|||||||1|||||||McNemar|||Chest wall retractions pre/post||||1.0
92406517|NCT04614974|184703215|OTHER|||||||1|||||||McNemar|||Apnea pre/post||||1.0
92406518|NCT04614974|184703216|OTHER|||||||0.5|||||||McNemar|||Emesis pre/post||||0.5
92406519|NCT04614974|184703216|OTHER|||||||0.07|||||||McNemar|||Emesis pre/post||||0.07
92406520|NCT04614974|184703216|SUPERIORITY|||||||0.06|||||||McNemar|||Choking pre/post||||0.06
92406521|NCT04614974|184703216|OTHER|||||||1|||||||McNemar|||Choking pre/post||||1.0
92406522|NCT04614974|184703216|OTHER|||||||0.02|||||||McNemar|||Coughing pre/post||||0.02
92406523|NCT04614974|184703216|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Coughing pre/post||||1.0
92406524|NCT04614974|184703216|OTHER|||||||1|||||||McNemar|||Gagging pre/post||||1.0
92406525|NCT04614974|184703217|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
92406526|NCT04614974|184703218|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92370140|NCT00349349|184645650|SUPERIORITY_OR_OTHER||percentage of responders|0.49|||<|0.0001|TWO_SIDED|95.3|0.39|0.6||The p value is testing the hypothesis that the response rate is equal to 15% versus the response rate is not equal to 15%.|Two-sided exact binomial test||Two-sided 95.3% exact confidence intervals were calculated based on the binomial distribution.|||0.60|0.39|<0.0001
92370141|NCT00349349|184645650|SUPERIORITY_OR_OTHER||percentage of responders|0.43|||<|0.0001|TWO_SIDED|95.3|0.33|0.53||The p value is testing the hypothesis that the response rate is equal to 15% versus the response rate is not equal to 15%.|Two-sided exact binomial test||Two sided 95.3% exact confidence intervals were calculated based on the binomial distribution.|||0.53|0.33|<0.0001
92277724|NCT02040766|184457641|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.0587|TWO_SIDED|95.0|-0.369|0.007|||Mixed Models Analysis|||||0.007|-0.369|0.0587
92370142|NCT00349349|184645650|SUPERIORITY_OR_OTHER||percentage of responders|0.63|||<|0.001|TWO_SIDED|95.3|0.35|0.85||The p value is testing the hypothesis that the response rate is equal to 15% versus the response rate is not equal to 15%.|Two-sided exact binomial test||Two-sided 95.3% exact confidence intervals were calculated based on the binomial distribution.|||0.85|0.35|<0.001
92370143|NCT02907216|184645673|NON_INFERIORITY|Criteria for non-inferiority: The Lower Limit (LL) of the standardised asymptotic 95% Confidence Interval (CI) on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective concentrations ≥ 0.1 IU/mL for anti-D antibodies should be ≥ -10%.|Difference-Seroprotective concentration|0.0|||||TWO_SIDED|95.0|-2.66|2.74|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-D antibody concentration ≥ 0.1 IU/mL.||2.74|-2.66|
92370144|NCT02907216|184645673|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective concentrations ≥ 0.1 IU/mL for anti-T antibodies should be ≥ -10%.|Difference-Seroprotective concentration|-0.69|||||TWO_SIDED|95.0|-4.39|2.71|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-T antibody concentration ≥ 0.1 IU/mL.||2.71|-4.39|
92370145|NCT02907216|184645674|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective concentrations ≥ 10 IU/mL for anti-PT antibodies should be ≥ -10%.|Difference-Seroprotective concentration|2.99|||||TWO_SIDED|95.0|-2.7|9.12|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-PT antibody concentration ≥ 10 IU/mL.||9.12|-2.7|
92370146|NCT02907216|184645674|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective concentrations ≥ 10 IU/mL for anti-FHA antibodies should be ≥ -10%.|Difference-Seroprotective concentration|0.0|||||TWO_SIDED|95.0|-2.66|2.72|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-FHA antibody concentration ≥ 10 IU/mL.||2.72|-2.66|
92370147|NCT02907216|184645675|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective titers ≥ 8 ED50 for anti-polio 1 antibodies should be ≥ -10%.|Difference in seroprotective titer|0.0|||||TWO_SIDED|95.0|-2.68|2.74|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-polio 1 seroprotective titres ≥ 8 ED50.||2.74|-2.68|
92370148|NCT02907216|184645675|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective titers ≥ 8 ED50 for anti-polio 2 antibodies should be ≥ -10%.|Difference in seroprotective titer|0.0|||||TWO_SIDED|95.0|-2.92|2.95|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-polio 2 seroprotective titres ≥ 8 ED50.||2.95|-2.92|
92406527|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|2.19|STANDARD_ERROR_OF_MEAN|5.12||0.6694|TWO_SIDED|60.0|-2.12|6.5|||Wald Test||Tofacitinib LI minus CsA. Standard error of the mean refers to standard error of the estimated rate difference|Month 15||6.50|-2.12|0.6694
92406528|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|10.71|STANDARD_ERROR_OF_MEAN|6.26||0.0873|TWO_SIDED|60.0|5.44|15.98|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 15||15.98|5.44|0.0873
92406529|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|3.93|STANDARD_ERROR_OF_MEAN|5.71||0.4912|TWO_SIDED|60.0|-0.87|8.74|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||8.74|-0.87|0.4912
92406530|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|11.06|STANDARD_ERROR_OF_MEAN|6.61||0.0942|TWO_SIDED|60.0|5.5|16.62|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||16.62|5.50|0.0942
92277725|NCT02040766|184457642|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.0011|TWO_SIDED|95.0|-0.261|-0.065|||Mixed Models Analysis|||||-0.065|-0.261|0.0011
92406531|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|7.31|STANDARD_ERROR_OF_MEAN|6.36||0.2499|TWO_SIDED|60.0|1.96|12.66|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||12.66|1.96|0.2499
92406532|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|13.47|STANDARD_ERROR_OF_MEAN|7.1||0.058|TWO_SIDED|60.0|7.49|19.45|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||19.45|7.49|0.0580
92406533|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|12.62|STANDARD_ERROR_OF_MEAN|7.09||0.075|TWO_SIDED|60.0|6.66|18.59|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||18.59|6.66|0.0750
92277726|NCT02040766|184457642|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.0869|TWO_SIDED|95.0|-0.185|0.013|||Mixed Models Analysis|||||0.013|-0.185|0.0869
92277727|NCT02040766|184457642|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.4388|TWO_SIDED|95.0|-0.138|0.06|||Mixed Models Analysis|||||0.060|-0.138|0.4388
92370149|NCT02907216|184645675|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective titers ≥ 8 ED50 for anti-polio 3 antibodies should be ≥ -10%.|Difference in seroprotective titer|0.81|||||TWO_SIDED|95.0|-2.04|4.47|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-polio 3 seroprotective titres ≥ 8 ED50.||4.47|-2.04|
92370150|NCT02374060|184645737|SUPERIORITY||Ratio of the proportion of BL|0.79|||<|0.0001|TWO_SIDED|99.87|0.65|0.96||Two sided type I error threshold was 0.00132 since recruitment was halted after the single pre-planned interim analysis|mixed effects model||Ratio of intravitreal over periocular|||.96|.65|<0.0001
92406534|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|16.66|STANDARD_ERROR_OF_MEAN|7.75||0.0316|TWO_SIDED|60.0|10.14|23.19|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||23.19|10.14|0.0316
92406535|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|13.21|STANDARD_ERROR_OF_MEAN|7.5||0.0783|TWO_SIDED|60.0|6.9|19.53|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||19.53|6.90|0.0783
92406536|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|20.27|STANDARD_ERROR_OF_MEAN|9.14||0.0266|TWO_SIDED|60.0|12.58|27.96|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||27.96|12.58|0.0266
92406537|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|13.21|STANDARD_ERROR_OF_MEAN|7.5||0.0783|TWO_SIDED|60.0|6.9|19.53|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||19.53|6.90|0.0783
92406538|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|20.27|STANDARD_ERROR_OF_MEAN|9.14||0.0266|TWO_SIDED|60.0|12.58|27.96|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||27.96|12.58|0.0266
92406539|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|11.02|STANDARD_ERROR_OF_MEAN|7.74||0.1545|TWO_SIDED|60.0|4.51|17.54|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||17.54|4.51|0.1545
92406540|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|18.08|STANDARD_ERROR_OF_MEAN|9.34||0.0528|TWO_SIDED|60.0|10.22|25.94|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||25.94|10.22|0.0528
92406541|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|14.03|STANDARD_ERROR_OF_MEAN|8.45||0.0968|TWO_SIDED|60.0|6.92|21.14|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||21.14|6.92|0.0968
92406542|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|15.83|STANDARD_ERROR_OF_MEAN|9.53||0.0966|TWO_SIDED|60.0|7.81|23.85|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||23.85|7.81|0.0966
92406543|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|17.07|STANDARD_ERROR_OF_MEAN|8.74||0.0507|TWO_SIDED|60.0|9.72|24.42|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||24.42|9.72|0.0507
92406544|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|15.83|STANDARD_ERROR_OF_MEAN|9.53||0.0966|TWO_SIDED|60.0|7.81|23.85|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||23.85|7.81|0.0966
92406545|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|17.07|STANDARD_ERROR_OF_MEAN|8.74||0.0507|TWO_SIDED|60.0|9.72|24.42|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||24.42|9.72|0.0507
92406546|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|15.83|STANDARD_ERROR_OF_MEAN|9.53||0.0966|TWO_SIDED|60.0|7.81|23.85|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||23.85|7.81|0.0966
92406547|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|18.17|STANDARD_ERROR_OF_MEAN|9.56||0.0574|TWO_SIDED|60.0|10.12|26.22|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||26.22|10.12|0.0574
92406548|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|21.08|STANDARD_ERROR_OF_MEAN|11.84||0.0749|TWO_SIDED|60.0|11.12|31.04|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||31.04|11.12|0.0749
92406549|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|3.65|STANDARD_ERROR_OF_MEAN|4.44||0.4116|TWO_SIDED|60.0|-0.09|7.38|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||7.38|-0.09|0.4116
92406550|NCT00658359|184703223|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.98|STANDARD_ERROR_OF_MEAN|3.69||0.7895|TWO_SIDED|60.0|-4.09|2.12|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||2.12|-4.09|0.7895
92277728|NCT02040766|184457642|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.1041|TWO_SIDED|95.0|-0.18|0.017|||Mixed Models Analysis|||||0.017|-0.180|0.1041
92370151|NCT02374060|184645737|SUPERIORITY||Ratio of the proportion of BL|0.69|||<|0.0001|TWO_SIDED|99.87|0.56|0.86||the 2 sided type 1 error threshold was 0.000132 since recruitment was halted after the single preplanned interim analysis|mixed effects model||ratio of dexamethasone over periocular|||0.86|0.56|<0.0001
92370152|NCT02374060|184645737|NON_INFERIORITY|The non inferiority margin was 1.16|Ratio of the proportion of BL|0.88|||||TWO_SIDED|99.87|0.71|1.08|||||A mixed effects model was used to create the confidence interval for testing non-inferiority. The direction is the ratio of dexamethasone over intravitreal|||1.08|.71|
92370153|NCT02374060|184645738|SUPERIORITY||Ratio of the proportion of BL|0.95||||0.35|TWO_SIDED|99.87|0.77|1.16||Two sided type I error threshold was 0.00132 since recruitment was halted after the single Two sided type I error threshold was 0.00132 since recruitment was halted after the single preplanned interim analysis|mixed effects model||Ratio of intravitreal over periocular|||1.16|0.77|0.35
92370154|NCT02374060|184645738|SUPERIORITY||Ratio of the proportion of BL|0.89||||0.07|TWO_SIDED|99.87|0.72|1.1||the 2 sided type 1 error threshold was 0.000132 since recruitment was halted after the single preplanned interim analysis|mixed effects model||ratio of dexamethasone over periocular|||1.10|0.72|0.07
92370155|NCT02374060|184645738|NON_INFERIORITY|The non inferiority margin was 1.16|Ratio of the proportion of BL|0.94|||||TWO_SIDED|99.87|0.77|1.16|||||A mixed effects model was used to create the confidence interval for testing non-inferiority. The direction is the ratio of dexamethasone over intravitreal|||1.16|0.77|
92370156|NCT02374060|184645739|SUPERIORITY||Difference in proportion|0.39|||<|0.0001|TWO_SIDED|95.0|0.24|0.53|||mixed effects model||Intravitreal - periocular|||0.53|0.24|<0.0001
92370157|NCT02374060|184645739|SUPERIORITY||Difference in proportion|0.44|||<|0.0001|TWO_SIDED|95.0|0.29|0.59|||mixed effects model||Dexamethasone - periocular|||0.59|0.29|<0.0001
92370158|NCT02374060|184645739|SUPERIORITY||Difference in proportion|0.05||||0.45|TWO_SIDED|95.0|-0.09|0.19|||mixed effects model||Dexamethasone - intravitreal|||0.19|-0.09|0.45
92370159|NCT02374060|184645740|SUPERIORITY||Difference in proportion|0.12||||0.1|TWO_SIDED|95.0|-0.03|0.27|||mixed effects model||Intravitreal - Periocular|||0.27|-0.03|0.10
92370160|NCT02374060|184645740|SUPERIORITY||Difference in proportion|0.12||||0.11|TWO_SIDED|95.0|-0.03|0.28|||mixed effects model||Dexamethasone - Periocular|||0.28|-0.03|0.11
92370161|NCT02374060|184645740|SUPERIORITY||Difference in proportion|0.002||||0.98|TWO_SIDED|95.0|-0.16|0.16|||mixed effects model||Dexamethasone - Intravitreal|||0.16|-0.16|0.98
92370162|NCT02374060|184645741|SUPERIORITY||Difference in proportion|0.27||||0.0005|TWO_SIDED|95.0|0.11|0.43|||mixed effects model||Intravitreal - periocular|||0.43|0.11|0.0005
92370163|NCT02374060|184645741|SUPERIORITY||Difference in proportion|0.4|||<|0.0001|TWO_SIDED|95.0|0.25|0.56|||mixed effects model||Dexamethasone - periocular|||0.56|0.25|<0.0001
92277729|NCT02040766|184457643|SUPERIORITY|||||||0.287|||||||Log Rank|||||||0.2870
92277730|NCT02040766|184457643|SUPERIORITY|||||||0.5257|||||||Log Rank|||||||0.5257
92277731|NCT02040766|184457643|SUPERIORITY|||||||0.9982|||||||Log Rank|||||||0.9982
92277732|NCT02040766|184457643|SUPERIORITY|||||||0.7633|||||||Log Rank|||||||0.7633
92370164|NCT02374060|184645741|SUPERIORITY||Difference in proportion|0.13||||0.12|TWO_SIDED|95.0|-0.04|0.3|||mixed effects model||Dexamethasone - intravitreal|||0.30|-0.04|0.12
92370165|NCT02374060|184645742|SUPERIORITY||Difference in proportion|0.004||||0.96|TWO_SIDED|95.0|-0.16|0.17|||mixed effects model||Intravitreal - periocular|||0.17|-0.16|0.96
92370166|NCT02374060|184645742|SUPERIORITY||Difference in proportion|0.06||||0.51|TWO_SIDED|95.0|-0.11|0.23|||mixed effects model||Dexamethasone - periocular|||0.23|-0.11|0.51
92370167|NCT02374060|184645742|SUPERIORITY||Difference in proportion|0.05||||0.54|TWO_SIDED|95.0|-0.12|0.22|||mixed effects model||Dexamethasone - intravitreal|||0.22|-0.12|0.54
92370168|NCT02374060|184645743|SUPERIORITY||Difference in mean change from BL|5.32||||0.003|TWO_SIDED|95.0|1.82|8.82|||mixed effects model||Intravitreal - periocular|||8.82|1.82|0.003
92370169|NCT02374060|184645743|SUPERIORITY||Difference in mean change from BL|5.16||||0.004|TWO_SIDED|95.0|1.6|8.72|||mixed effects model||Dexamethasone - periocular|||8.72|1.60|0.004
92370170|NCT02374060|184645743|SUPERIORITY||Difference in mean change from BL|-0.16||||0.93|TWO_SIDED|95.0|-3.67|3.34|||mixed effects model||Dexamethasone - intravitreal|||3.34|-3.67|0.93
92370171|NCT02374060|184645744|SUPERIORITY||Difference in mean change from BL|5.53||||0.013|TWO_SIDED|95.0|1.14|9.92|||mixed effects model||Intravitreal - periocular|||9.92|1.14|0.013
92370172|NCT02374060|184645744|SUPERIORITY||Difference in mean change from BL|5.14||||0.019|TWO_SIDED|95.0|0.84|9.44|||mixed effects model||Dexamethasone - periocular|||9.44|0.84|0.019
92370173|NCT02374060|184645744|SUPERIORITY||Difference in mean change from BL|-0.4||||0.84|TWO_SIDED|95.0|-4.16|3.37|||mixed effects model||Dexamethasone-intravitreal|||3.37|-4.16|0.84
92370174|NCT02374060|184645748|SUPERIORITY||Hazard Ratio (HR)|0.33||||0.1|TWO_SIDED|95.0|0.09|1.24|||Regression, Cox||Intravitreal/Periocular|||1.24|0.09|0.10
92370175|NCT02374060|184645748|SUPERIORITY||Hazard Ratio (HR)|0.46||||0.2|TWO_SIDED|95.0|0.14|1.5|||Regression, Cox||Dexamethasone/Periocular|||1.50|0.14|0.20
92370176|NCT02374060|184645748|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.62|TWO_SIDED|95.0|0.34|6.26|||Regression, Cox||Dexamethasone/Intravitreal|||6.26|0.34|0.62
92370177|NCT02374060|184645749|SUPERIORITY||Hazard Ratio (HR)|1.92||||0.11|TWO_SIDED|95.0|0.86|4.29|||Regression, Cox||Intravitreal/Periocular|||4.29|0.86|0.11
92370178|NCT02374060|184645749|SUPERIORITY||Hazard Ratio (HR)|2.85||||0.009|TWO_SIDED|95.0|1.3|6.28|||Regression, Cox||Dexamethasone/Intravitreal|||6.28|1.30|0.009
92370179|NCT02374060|184645749|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.3|TWO_SIDED|95.0|0.72|2.81|||Regression, Cox||Dexamethasone/intravitreal|||2.81|0.72|0.30
92370180|NCT02374060|184645750|SUPERIORITY||Hazard Ratio (HR)|1.83||||0.09|TWO_SIDED|95.0|0.91|3.65|||Regression, Cox||Intravitreal/periocular|||3.65|0.91|0.09
92370181|NCT02374060|184645750|SUPERIORITY||Hazard Ratio (HR)|2.52||||0.007|TWO_SIDED|95.0|1.29|4.91|||Regression, Cox||Dexamethasone/periocular|||4.91|1.29|0.007
92370182|NCT02374060|184645750|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.37|TWO_SIDED|95.0|0.72|2.43|||Regression, Cox||Dexamethasone/intravitreal|||2.43|0.72|0.37
92370183|NCT02374060|184645751|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.92|TWO_SIDED|95.0|0.28|4.01|||Regression, Cox||Intravitreal/Periocular|||4.01|0.28|0.92
92370184|NCT02374060|184645751|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.65|TWO_SIDED|95.0|0.16|3.11|||Regression, Cox||Dexamethasone/Periocular|||3.11|0.16|0.65
92370185|NCT02374060|184645751|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.53|TWO_SIDED|95.0|0.16|2.59|||Regression, Cox||Dexamthasone/Intravitreal|||2.59|0.16|0.53
92406551|NCT00658359|184703224|SUPERIORITY_OR_OTHER||Estimated rate difference|2.4|STANDARD_ERROR_OF_MEAN|5.9||0.683|TWO_SIDED|95.0|-9.1|13.9|||Chi-squared||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|||13.9|-9.1|0.683
92406552|NCT00658359|184703224|SUPERIORITY_OR_OTHER||Estimated rate difference|3.9|STANDARD_ERROR_OF_MEAN|6.2||0.529|TWO_SIDED|95.0|-8.3|16.1|||Chi-squared||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|||16.1|-8.3|0.529
92406553|NCT00658359|184703225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.23|STANDARD_ERROR_OF_MEAN|5.04||0.0699|TWO_SIDED|60.0|4.97|13.49|||Mixed Models Analysis||Tofacitinib LI minus CsA|||13.49|4.97|0.0699
92406554|NCT00658359|184703225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.23|STANDARD_ERROR_OF_MEAN|6.32||0.1958|TWO_SIDED|60.0|2.89|13.58|||Mixed Models Analysis||Tofacitinib MI minus CsA|||13.58|2.89|0.1958
92406555|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|2.19|STANDARD_ERROR_OF_MEAN|5.12||0.6694|TWO_SIDED|60.0|-2.12|6.5|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 15||6.50|-2.12|0.6694
92406556|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.41|STANDARD_ERROR_OF_MEAN|4.89||0.934|TWO_SIDED|60.0|-4.52|3.71|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 15||3.71|-4.52|0.9340
92406557|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|0.6|STANDARD_ERROR_OF_MEAN|5.32||0.9106|TWO_SIDED|60.0|-3.88|5.08|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||5.08|-3.88|0.9106
92406558|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.99|STANDARD_ERROR_OF_MEAN|5.1||0.696|TWO_SIDED|60.0|-6.29|2.3|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||2.30|-6.29|0.6960
92406559|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|0.6|STANDARD_ERROR_OF_MEAN|5.32||0.9106|TWO_SIDED|60.0|-3.88|5.08|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||5.08|-3.88|0.9106
92406560|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.99|STANDARD_ERROR_OF_MEAN|5.1||0.696|TWO_SIDED|60.0|-6.29|2.3|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||2.30|-6.29|0.6960
92406561|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|0.6|STANDARD_ERROR_OF_MEAN|5.32||0.9106|TWO_SIDED|60.0|-3.88|5.08|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||5.08|-3.88|0.9106
92406562|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.99|STANDARD_ERROR_OF_MEAN|5.1||0.696|TWO_SIDED|60.0|-6.29|2.3|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||2.30|-6.29|0.6960
92406563|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.18|STANDARD_ERROR_OF_MEAN|5.56||0.8322|TWO_SIDED|60.0|-5.86|3.5|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||3.50|-5.86|0.8322
92406564|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.77|STANDARD_ERROR_OF_MEAN|5.35||0.4809|TWO_SIDED|60.0|-8.27|0.73|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||0.73|-8.27|0.4809
92406565|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||1.62|-8.31|0.5704
92406566|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||-1.14|-10.73|0.2972
92406567|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||1.62|-8.31|0.5704
92370186|NCT01579565|184645760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.049||0.0001||95.0|0.494|0.686||p-value based on the generalized Cochran-Mantel-Haenszel (CMH) test stratified by the randomization strata.|Cochran-Mantel-Haenszel|CMH-weighted mean difference (OMS302 - Placebo) is adjusted for the randomization strata.||||0.686|0.494|0.0001
92370187|NCT01579565|184645761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.58|STANDARD_ERROR_OF_MEAN|1.192||0.0002||95.0|-6.917|-2.244||p-value is based on the generalized CMH test stratified by the randomization strata.|Cochran-Mantel-Haenszel|CMH-weighted mean difference (OMS302 - Placebo) is adjusted for the randomization strata.||||-2.244|-6.917|0.0002
92370188|NCT01579565|184645762|SUPERIORITY_OR_OTHER|||||||0.0001||||||Chi-square test.|Chi-squared|||||||0.0001
92370189|NCT01579565|184645763|SUPERIORITY_OR_OTHER|||||||0.0001||||||Chi-square test|Chi-squared|||||||0.0001
92370190|NCT01579565|184645764|SUPERIORITY_OR_OTHER|||||||0.076||||||Chi-square test|Chi-squared|||||||0.0760
92370191|NCT01579565|184645765|SUPERIORITY_OR_OTHER|||||||0.0806||||||Chi-square test|Chi-squared|||||||0.0806
92370192|NCT01579565|184645766|SUPERIORITY_OR_OTHER|||||||0.0002||||||Generalized CMH test stratified by randomization strata.|Cochran-Mantel-Haenszel|||||||0.0002
92370193|NCT01579565|184645767|SUPERIORITY_OR_OTHER|||||||0.3923||||||Treatment comparisons are based on Cochran-Mantel-Haenszel test adjusting for the randomization strata.|Cochran-Mantel-Haenszel|||||||0.3923
92370194|NCT01579565|184645768|SUPERIORITY_OR_OTHER|||||||0.006||||||Treatment comparisons are based on Cochran-Mantel-Haenszel test adjusting for the randomization strata.|Cochran-Mantel-Haenszel|||||||0.0060
92370195|NCT01579565|184645769|SUPERIORITY_OR_OTHER|||||||0.3286||||||Treatment comparisons are based on generalized CMH test stratified by randomization strata.|Cochran-Mantel-Haenszel|||||||0.3286
92370196|NCT01579565|184645770|SUPERIORITY_OR_OTHER|||||||0.2361||||||Treatment comparisons based on Wilcoxon rank-sum test stratified by randomization strata.|Wilcoxon rank-sum test|||||||0.2361
92370197|NCT05425732|184645781|OTHER|Miettinen \& Nurminen method|Difference in Percent|-0.9|||||TWO_SIDED|96.0|-2.8|1.1|||||V116 minus PCV20|Injection site erythema: estimated difference in percent||1.1|-2.8|
92370198|NCT05425732|184645781|OTHER|Miettinen \& Nurminen method|Difference in Percent|-12.2|||||TWO_SIDED|95.0|-16.2|-8.2|||||V116 minus PCV20|Injection site pain: estimated difference in percent||-8.2|-16.2|
92370199|NCT05425732|184645781|OTHER|Miettinen \& Nurminen method|Difference in Percent|-2.3|||||TWO_SIDED|95.0|-4.4|-0.2|||||V116 minus PCV20|Injection site swelling: estimated difference in percent||-0.2|-4.4|
92406568|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||-1.14|-10.73|0.2972
92406569|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||1.62|-8.31|0.5704
92406570|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||-1.14|-10.73|0.2972
92370200|NCT05425732|184645781|OTHER|Miettinen \& Nurminen method|Difference in Percent|2.5|||||TWO_SIDED|95.0|-6.6|10.3|||||V116 minus PCV20|Injection site erythema: estimated difference in percent||10.3|-6.6|
92370201|NCT05425732|184645781|OTHER|Miettinen \& Nurminen method|Difference in Percent|-2.5|||||TWO_SIDED|95.0|-12.7|8.6|||||V116 minus PCV20|Injection site pain: estimated difference in percent||8.6|-12.7|
92370202|NCT05425732|184645781|OTHER|Miettinen \& Nurminen method|Difference in Percent|0.0|||||TWO_SIDED|95.0|-9.2|7.9|||||V116 minus PCV20|Injection site swelling: estimated difference in percent||7.9|-9.2|
92370203|NCT05425732|184645782|OTHER|Miettinen \& Nurminen method|Difference in Percent|0.6|||||TWO_SIDED|95.0|-2.7|3.8|||||V116 minus PCV20|Fatigue: estimated difference in percent||3.8|-2.7|
92370204|NCT05425732|184645782|OTHER|Miettinen \& Nurminen method|Difference in Percent|-1.5|||||TWO_SIDED|95.0|-4.1|1.2|||||V116 minus PCV20|Headache: estimated difference in percent||1.2|-4.1|
92370205|NCT05425732|184645782|OTHER|Miettinen \& Nurminen method|Difference in Percent|-0.8|||||TWO_SIDED|96.0|-2.8|1.2|||||V116 minus PCV20|Myalgia: estimated difference in percent||1.2|-2.8|
92370206|NCT05425732|184645782|OTHER|Miettinen \& Nurminen method|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.0|1.0|||||V116 minus PCV20|Pyrexia: estimated difference in percent||1.0|-1.0|
92370207|NCT05425732|184645782|OTHER|Miettinen \& Nurminen method|Difference in Percent|6.5|||||TWO_SIDED|95.0|-5.3|17.6|||||V116 minus PCV20|Fatigue: estimated difference in percent||17.6|-5.3|
92370208|NCT05425732|184645782|OTHER|Miettinen \& Nurminen method|Difference in Percent|5.5|||||TWO_SIDED|5.0|-5.5|15.5|||||V116 minus PCV20|Headache: estimated difference in percent||15.5|-5.5|
92370209|NCT05425732|184645782|OTHER|Miettinen \& Nurminen method|Difference in Percent|2.5|||||TWO_SIDED|95.0|-6.8|10.6|||||V116 minus PCV20|Myalgia: estimated difference in percent||10.6|-6.8|
92370210|NCT05425732|184645782|OTHER|Miettinen \& Nurminen method|Difference in Percent|2.5|||||TWO_SIDED|95.0|-2.2|6.2|||||V116 minus PCV20|Pyrexia: estimated difference in percent||6.2|-2.2|
92370211|NCT05425732|184645784|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.55|||<|0.001|TWO_SIDED|95.0|1.4|1.72||1-sided|cLDA model||V116/PCV20|Serotype 3: V116/PCV20 GMT Ratio||1.72|1.40|<0.001
92406571|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||1.62|-8.31|0.5704
92406572|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||-1.14|-10.73|0.2972
92406573|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||1.62|-8.31|0.5704
92370212|NCT05425732|184645784|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.68|0.88|||cLDA model||V116/PCV20|Serotype 6A: V116/PCV20 GMT Ratio||0.88|0.68|<0.001
92370213|NCT05425732|184645784|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.06|||<|0.001|TWO_SIDED|95.0|0.95|1.18|||cLDA model||V116/PCV20|Serotype 7F: V116/PCV20 GMT Ratio||1.18|0.95|<0.001
92370214|NCT05425732|184645784|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.38|||<|0.001|TWO_SIDED|95.0|1.25|1.53|||cLDA model||V116/PCV20|Serotype 8: V116/PCV20 GMT Ratio||1.53|1.25|<0.001
92370215|NCT05425732|184645784|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.75|0.93|||cLDA model||V116/PCV20|Serotype 10A: V116/PCV20 GMT Ratio||0.93|0.75|<0.001
92370216|NCT05425732|184645784|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.54|||<|0.001|TWO_SIDED|95.0|1.39|1.72|||cLDA model||V116/PCV20|Serotype 11A: V116/PCV20 GMT Ratio||1.72|1.39|<0.001
92370217|NCT05425732|184645784|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.06|||<|0.001|TWO_SIDED|95.0|0.92|1.21|||cLDA model||V116/PCV20|Serotype 12F: V116/PCV20 GMT Ratio||1.21|0.92|<0.001
92370218|NCT05425732|184645784|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.76|||<|0.001|TWO_SIDED|95.0|0.69|0.84|||cLDA model||V116/PCV20|Serotype 19A: V116/PCV20 GMT Ratio||0.84|0.69|<0.001
92370219|NCT05425732|184645784|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.81|||<|0.001|TWO_SIDED|95.0|0.72|0.92|||cLDA model||V116/PCV20|Serotype 22F: V116/PCV20 GMT Ratio||0.92|0.72|<0.001
92370220|NCT05425732|184645784|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|1.01|1.32|||cLDA model||V116/PCV20|Serotype 33F: V116/PCV20 GMT Ratio||1.32|1.01|<0.001
92370221|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|4.55|||<|0.001|TWO_SIDED|95.0|4.12|5.04|||cLDA model||V116/PCV20|Serotype 9N: V116/PCV20 GMT Ratio||5.04|4.12|<0.001
92370222|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|3.3|||<|0.001|TWO_SIDED|95.0|2.91|3.74|||cLDA model||V116/PCV20|Serotype 15A: V116/PCV20 GMT Ratio||3.74|2.91|<0.001
92370223|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|2.03|||<|0.001|TWO_SIDED|95.0|1.77|2.34|||cLDA model||V116/PCV20|Serotype 15C: V116/PCV20 GMT Ratio||2.34|1.77|<0.001
92370224|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|5.75|||<|0.001|TWO_SIDED|95.0|5.16|6.41|||cLDA model||V116/PCV20|Serotype 16F: V116/PCV20 GMT Ratio||6.41|5.16|<0.001
92370225|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|16.86|||<|0.001|TWO_SIDED|95.0|14.9|19.09|||cLDA model||V116/PCV20|Serotype 17F: V116/PCV20 GMT Ratio||19.09|14.90|<0.001
92370226|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|9.66|||<|0.001|TWO_SIDED|95.0|8.66|10.79|||cLDA model||V116/PCV20|Serotype 20A: V116/PCV20 GMT Ratio||10.79|8.66|<0.001
92370227|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|8.1|||<|0.001|TWO_SIDED|95.0|6.86|9.55|||cLDA model||V116/PCV20|Serotype 23A: V116/PCV20 GMT Ratio||9.55|6.86|<0.001
92370228|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|10.09|||<|0.001|TWO_SIDED|95.0|8.48|12.0|||cLDA model||V116/PCV20|Serotype 23B: V116/PCV20 GMT Ratio||12.00|8.48|<0.001
92370229|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|38.71|||<|0.001|TWO_SIDED|95.0|33.87|44.25|||cLDA model||V116/PCV20|Serotype 24F: V116/PCV20 GMT Ratio||44.25|33.87|<0.001
92406574|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||-1.14|-10.73|0.2972
92406575|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||1.62|-8.31|0.5704
92406576|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||-1.14|-10.73|0.2972
92406577|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|3.75|STANDARD_ERROR_OF_MEAN|4.91||0.4455|TWO_SIDED|60.0|-0.39|7.89|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||7.89|-0.39|0.4455
92406578|NCT00658359|184703227|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.69|STANDARD_ERROR_OF_MEAN|4.34||0.873|TWO_SIDED|60.0|-4.35|2.96|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||2.96|-4.35|0.8730
92406579|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-10.52|STANDARD_ERROR_OF_MEAN|5.71||0.0654|TWO_SIDED|60.0|-15.33|-5.71|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 15||-5.71|-15.33|0.0654
92406580|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.08|STANDARD_ERROR_OF_MEAN|6.37||0.3398|TWO_SIDED|60.0|-11.43|-0.72|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 15||-0.72|-11.43|0.3398
92406581|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-8.75|STANDARD_ERROR_OF_MEAN|6.23||0.1601|TWO_SIDED|60.0|-13.99|-3.51|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||-3.51|-13.99|0.1601
92406582|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-7.64|STANDARD_ERROR_OF_MEAN|6.49||0.239|TWO_SIDED|60.0|-13.1|-2.18|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||-2.18|-13.10|0.2390
92406583|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-7.08|STANDARD_ERROR_OF_MEAN|6.4||0.2685|TWO_SIDED|60.0|-12.47|-1.7|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||-1.70|-12.47|0.2685
92406584|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-7.64|STANDARD_ERROR_OF_MEAN|6.49||0.239|TWO_SIDED|60.0|-13.1|-2.18|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||-2.18|-13.10|0.2390
92406585|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-8.81|STANDARD_ERROR_OF_MEAN|6.55||0.1785|TWO_SIDED|60.0|-14.32|-3.3|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||-3.30|-14.32|0.1785
92406586|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-9.37|STANDARD_ERROR_OF_MEAN|6.63||0.158|TWO_SIDED|60.0|-14.95|-3.78|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||-3.78|-14.95|0.1580
92406587|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.27|STANDARD_ERROR_OF_MEAN|6.81||0.0718|TWO_SIDED|60.0|-18.0|-6.53|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||-6.53|-18.00|0.0718
92406588|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.83|STANDARD_ERROR_OF_MEAN|6.9||0.0629|TWO_SIDED|60.0|-18.63|-7.02|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||-7.02|-18.63|0.0629
92406589|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate differences|-15.89|STANDARD_ERROR_OF_MEAN|7.07||0.0246|TWO_SIDED|60.0|-21.84|-9.94|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||-9.94|-21.84|0.0246
92406590|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-16.45|STANDARD_ERROR_OF_MEAN|7.15||0.0214|TWO_SIDED|60.0|-22.46|-10.43|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||-10.43|-22.46|0.0214
92406591|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-15.89|STANDARD_ERROR_OF_MEAN|7.07||0.0246|TWO_SIDED|60.0|-21.84|-9.94|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||-9.94|-21.84|0.0246
92406592|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-16.45|STANDARD_ERROR_OF_MEAN|7.15||0.0214|TWO_SIDED|60.0|-22.46|-10.43|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||-10.43|-22.46|0.0214
92406593|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.02|STANDARD_ERROR_OF_MEAN|7.24||0.0128|TWO_SIDED|60.0|-24.12|-11.93|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||-11.93|-24.12|0.0128
92406594|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.58|STANDARD_ERROR_OF_MEAN|7.32||0.0111|TWO_SIDED|60.0|-24.74|-12.42|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||-12.42|-24.74|0.0111
92406595|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.02|STANDARD_ERROR_OF_MEAN|7.24||0.0128|TWO_SIDED|60.0|-24.12|-11.93|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||-11.93|-24.12|0.0128
92406596|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.58|STANDARD_ERROR_OF_MEAN|7.32||0.0111|TWO_SIDED|60.0|-24.74|-12.42|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||-12.42|-24.74|0.0111
92406597|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.02|STANDARD_ERROR_OF_MEAN|7.24||0.0128|TWO_SIDED|60.0|-24.12|-11.93|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||-11.93|-24.12|0.0128
92406598|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.58|STANDARD_ERROR_OF_MEAN|7.32||0.0111|TWO_SIDED|60.0|-24.74|-12.42|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||-12.42|-24.74|0.0111
92406599|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.02|STANDARD_ERROR_OF_MEAN|7.24||0.0128|TWO_SIDED|60.0|-24.12|-11.93|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||-11.93|-24.12|0.0128
92406600|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.58|STANDARD_ERROR_OF_MEAN|7.32||0.0111|TWO_SIDED|60.0|-24.74|-12.42|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||-12.42|-24.74|0.0111
92406601|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-7.4|STANDARD_ERROR_OF_MEAN|5.41||0.1715|TWO_SIDED|60.0|-11.95|-2.84|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||-2.84|-11.95|0.1715
92406602|NCT00658359|184703228|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.8|STANDARD_ERROR_OF_MEAN|5.87||0.4131|TWO_SIDED|60.0|-9.74|0.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||0.14|-9.74|0.4131
92406603|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|2.19|STANDARD_ERROR_OF_MEAN|5.12||0.6694|TWO_SIDED|60.0|-2.12|6.5|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 15||6.50|-2.12|0.6694
92406604|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|1.45|STANDARD_ERROR_OF_MEAN|5.18||0.7799|TWO_SIDED|60.0|-2.91|5.8|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 15||5.80|-2.91|0.7799
92406605|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.99|STANDARD_ERROR_OF_MEAN|5.51||0.8572|TWO_SIDED|60.0|-5.63|3.65|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||3.65|-5.63|0.8572
92406606|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.73|STANDARD_ERROR_OF_MEAN|5.56||0.7555|TWO_SIDED|60.0|-6.41|2.95|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||2.95|-6.41|0.7555
92406607|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.99|STANDARD_ERROR_OF_MEAN|5.51||0.8572|TWO_SIDED|60.0|-5.63|3.65|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||3.65|-5.63|0.8572
92406608|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|3.82|STANDARD_ERROR_OF_MEAN|6.22||0.539|TWO_SIDED|60.0|-1.41|9.06|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||9.06|-1.41|0.5390
92406609|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.64|STANDARD_ERROR_OF_MEAN|5.7||0.6432|TWO_SIDED|60.0|-7.44|2.16|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||2.16|-7.44|0.6432
92406610|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|2.18|STANDARD_ERROR_OF_MEAN|6.39||0.7336|TWO_SIDED|60.0|-3.2|7.55|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||7.55|-3.20|0.7336
92406611|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.74|STANDARD_ERROR_OF_MEAN|6.57||0.9099|TWO_SIDED|60.0|-6.28|4.79|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||4.79|-6.28|0.9099
92406612|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|0.77|STANDARD_ERROR_OF_MEAN|6.87||0.9106|TWO_SIDED|60.0|-5.01|6.56|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||6.56|-5.01|0.9106
92406613|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.4|STANDARD_ERROR_OF_MEAN|6.91||0.5244|TWO_SIDED|60.0|-10.22|1.42|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||1.42|-10.22|0.5244
92406614|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.9|STANDARD_ERROR_OF_MEAN|7.38||0.9029|TWO_SIDED|60.0|-7.11|5.31|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||5.31|-7.11|0.9029
92406615|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.58|STANDARD_ERROR_OF_MEAN|7.38||0.7267|TWO_SIDED|60.0|-8.78|3.63|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||3.63|-8.78|0.7267
92406616|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.73|STANDARD_ERROR_OF_MEAN|7.52||0.7168|TWO_SIDED|60.0|-9.06|3.6|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||3.60|-9.06|0.7168
92406617|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.4|STANDARD_ERROR_OF_MEAN|7.51||0.5574|TWO_SIDED|60.0|-10.72|1.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||1.91|-10.72|0.5574
92406618|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.56|STANDARD_ERROR_OF_MEAN|7.65||0.5515|TWO_SIDED|60.0|-10.99|1.88|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||1.88|-10.99|0.5515
92406619|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.4|STANDARD_ERROR_OF_MEAN|7.51||0.5574|TWO_SIDED|60.0|-10.72|1.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||1.91|-10.72|0.5574
92406620|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.3|STANDARD_ERROR_OF_MEAN|7.87||0.7704|TWO_SIDED|60.0|-8.92|4.33|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||4.33|-8.92|0.7704
92406621|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.4|STANDARD_ERROR_OF_MEAN|7.51||0.5574|TWO_SIDED|60.0|-10.72|1.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||1.91|-10.72|0.5574
92406622|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.3|STANDARD_ERROR_OF_MEAN|7.87||0.7704|TWO_SIDED|60.0|-8.92|4.33|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||4.33|-8.92|0.7704
92406623|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.44|STANDARD_ERROR_OF_MEAN|7.83||0.9551|TWO_SIDED|60.0|-7.03|6.15|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||6.15|-7.03|0.9551
92406624|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.3|STANDARD_ERROR_OF_MEAN|7.87||0.7704|TWO_SIDED|60.0|-8.92|4.33|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||4.33|-8.92|0.7704
92406625|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75|STANDARD_ERROR_OF_MEAN|4.91||0.4455|TWO_SIDED|60.0|-0.39|7.89|||Wald Test|||Month 12||7.89|-0.39|0.4455
92406626|NCT00658359|184703229|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.69|STANDARD_ERROR_OF_MEAN|4.34||0.873|TWO_SIDED|60.0|-4.35|2.96|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 12||2.96|-4.35|0.8730
92406627|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.98|STANDARD_ERROR_OF_MEAN|6.67||0.2957|TWO_SIDED|60.0|-12.6|-1.36|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 15||-1.36|-12.60|0.2957
92406628|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.65|STANDARD_ERROR_OF_MEAN|7.14||0.6097|TWO_SIDED|60.0|-9.66|2.37|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 15||2.37|-9.66|0.6097
92406629|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-8.57|STANDARD_ERROR_OF_MEAN|6.79||0.2064|TWO_SIDED|60.0|-14.28|-2.86|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||-2.86|-14.28|0.2064
92406630|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.24|STANDARD_ERROR_OF_MEAN|7.25||0.4696|TWO_SIDED|60.0|-11.34|0.86|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||0.86|-11.34|0.4696
92406631|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-8.57|STANDARD_ERROR_OF_MEAN|7.04||0.2238|TWO_SIDED|60.0|-14.5|-2.64|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||-2.64|-14.50|0.2238
92406632|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.96|STANDARD_ERROR_OF_MEAN|7.52||0.5093|TWO_SIDED|60.0|-11.29|1.37|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||1.37|-11.29|0.5093
92240150|NCT00570739|184383829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.5353|TWO_SIDED|95.0|-2.84|1.48||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||1.48|-2.84|0.5353
92406633|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-8.57|STANDARD_ERROR_OF_MEAN|7.04||0.2238|TWO_SIDED|60.0|-14.5|-2.64|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||-2.64|-14.50|0.2238
92406634|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.16|STANDARD_ERROR_OF_MEAN|7.89||0.7846|TWO_SIDED|60.0|-8.8|4.48|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||4.48|-8.80|0.7846
92406635|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-10.3|STANDARD_ERROR_OF_MEAN|7.16||0.1501|TWO_SIDED|60.0|-16.33|-4.28|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||-4.28|-16.33|0.1501
92406636|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.89|STANDARD_ERROR_OF_MEAN|8.0||0.6263|TWO_SIDED|60.0|-10.62|2.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||2.84|-10.62|0.6263
92406637|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||-6.25|-18.62|0.0905
92406638|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||0.84|-12.90|0.4604
92406639|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||-6.25|-18.62|0.0905
92406640|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||0.84|-12.90|0.4604
92370230|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|21.69|||<|0.001|TWO_SIDED|95.0|18.68|25.18|||cLDA model||V116/PCV20|Serotype 31: V116/PCV20 GMT Ratio||25.18|18.68|<0.001
92370231|NCT05425732|184645784|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|6.17|||<|0.001|TWO_SIDED|95.0|5.59|6.8|||cLDA model||V116/PCV20|Serotype 35B: V116/PCV20 GMT Ratio||6.80|5.59|<0.001
92370232|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|44.7|||<|0.001|TWO_SIDED|95.0|40.7|48.6||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 9N: V116-PCV20 Percentage Difference||48.6|40.7|<0.001
92370233|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|30.9|||<|0.001|TWO_SIDED|95.0|25.8|35.8||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 15A: V116-PCV20 Percentage Difference||35.8|25.8|<0.001
92370234|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|9.2|||<|0.001|TWO_SIDED|95.0|5.6|12.9||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 15C: V116-PCV20 Percentage Difference||12.9|5.6|<0.001
92370235|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|51.1|||<|0.001|TWO_SIDED|95.0|47.1|54.9||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 16F: V116-PCV20 Percentage Difference||54.9|47.1|<0.001
92370236|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|66.3|||<|0.001|TWO_SIDED|95.0|62.8|69.6||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 17F: V116-PCV20 Percentage Difference||69.6|62.8|<0.001
92370237|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|57.7|||<|0.001|TWO_SIDED|95.0|54.2|61.1||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 20A: V116-PCV20 Percentage Difference||61.1|54.2|<0.001
92370238|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|42.2|||<|0.001|TWO_SIDED|95.0|37.6|46.6||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 23A: V116-PCV20 Percentage Difference||46.6|37.6|<0.001
92370239|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|35.9|||<|0.001|TWO_SIDED|95.0|32.1|39.6||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 23B: V116-PCV20 Percentage Difference||39.6|32.1|<0.001
92370240|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|74.2|||<|0.001|TWO_SIDED|95.0|71.1|77.1||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype24F: V116-PCV20 Percentage Difference||77.1|71.1|<0.001
92370241|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|58.6|||<|0.001|TWO_SIDED|95.0|54.8|62.1||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 31: V116-PCV20 Percentage Difference||62.1|54.8|<0.001
92370242|NCT05425732|184645785|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|53.2|||<|0.001|TWO_SIDED|95.0|49.6|56.6||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype35B: V116-PCV20 Percentage Difference||56.6|49.6|<0.001
92370243|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.9|1.33||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 3: V116 18-49 years/V116 50-64 years GMT Ratio||1.33|0.90|<0.001
92370244|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|2.06|||<|0.001|TWO_SIDED|95.0|1.61|2.62||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 6A: V116 18-49 years/V116 50-64 years GMT Ratio||2.62|1.61|<0.001
92406641|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||-6.25|-18.62|0.0905
92406642|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||0.84|-12.90|0.4604
92406643|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||-6.25|-18.62|0.0905
92277733|NCT00617461|184457658|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-0.29||||0.013|TWO_SIDED|90.0|-0.48|-0.1|||ANCOVA|An ANCOVA (repeated measures mixed model) with body mass index, baseline 24-hr average pain intensity, and grouped center as covariates was used.||||-0.10|-0.48|0.013
92370245|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.51|||<|0.001|TWO_SIDED|5.0|1.23|1.84||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 7F: V116 18-49 years/V116 50-64 years GMT Ratio||1.84|1.23|<0.001
92370246|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.5|||<|0.001|TWO_SIDED|95.0|1.26|1.79||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 8: V116 18-49 years/V116 50-64 years GMT Ratio||1.79|1.26|<0.001
92370247|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.97|||<|0.001|TWO_SIDED|95.0|1.59|2.43||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 9N: V116 18-49 years/V116 50-64 years GMT Ratio||2.43|1.59|<0.001
92370248|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.55|||<|0.001|TWO_SIDED|95.0|1.26|1.92||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 10A: V116 18-49 years/V116 50-64 years GMT Ratio||1.92|1.26|<0.001
92370249|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.55|||<|0.001|TWO_SIDED|95.0|1.26|1.91||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 11A: V116 18-49 years/V116 50-64 years GMT Ratio||1.91|1.26|<0.001
92370250|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.73|||<|0.001|TWO_SIDED|95.0|1.37|2.17||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 12F: V116 18-49 years/V116 50-64 years GMT Ratio||2.17|1.37|<0.001
92370251|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.92|||<|0.001|TWO_SIDED|95.0|1.55|2.37||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 15A: V116 18-49 years/V116 50-64 years GMT Ratio||2.37|1.55|<0.001
92370252|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.79|||<|0.001|TWO_SIDED|95.0|1.36|2.35||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 15C: V116 18-49 years/V116 50-64 years GMT Ratio||2.35|1.36|<0.001
92370253|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.55|||<|0.001|TWO_SIDED|95.0|1.26|1.91||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 16F: V116 18-49 years/V116 50-64 years GMT Ratio||1.91|1.26|<0.001
92370254|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.6|||<|0.001|TWO_SIDED|95.0|1.26|2.02||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 17F: V116 18-49 years/V116 50-64 years GMT Ratio||2.02|1.26|<0.001
92370255|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.17|||<|0.001|TWO_SIDED|95.0|0.97|1.4||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 19A: V116 18-49 years/V116 50-64 years GMT Ratio||1.40|0.97|<0.001
92370256|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.74|||<|0.001|TWO_SIDED|95.0|1.39|2.18||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 20A: V116 18-49 years/V116 50-64 years GMT Ratio||2.18|1.39|<0.001
92370257|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.99|||<|0.001|TWO_SIDED|95.0|1.58|2.49||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 22F: V116 18-49 years/V116 50-64 years GMT Ratio||2.49|1.58|<0.001
92370258|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.87|||<|0.001|TWO_SIDED|95.0|1.43|2.44||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 23A: V116 18-49 years/V116 50-64 years GMT Ratio||2.44|1.43|<0.001
92370259|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.51|||<|0.001|TWO_SIDED|95.0|1.11|2.04||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 23B: V116 18-49 years/V116 50-64 years GMT Ratio||2.04|1.11|<0.001
92370260|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.36|||<|0.001|TWO_SIDED|95.0|1.1|1.67||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 24F: V116 18-49 years/V116 50-64 years GMT Ratio||1.67|1.10|<0.001
92370261|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|2.1|||<|0.001|TWO_SIDED|95.0|1.63|2.69||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 31: V116 18-49 years/V116 50-64 years GMT Ratio||2.69|1.63|<0.001
92370262|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.98|||<|0.001|TWO_SIDED|95.0|1.52|2.57||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 33F: V116 18-49 years/V116 50-64 years GMT Ratio||2.57|1.52|<0.001
92370263|NCT05425732|184645786|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.54|||<|0.001|TWO_SIDED|95.0|1.26|1.87||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 35B: V116 18-49 years/V116 50-64 years GMT Ratio||1.87|1.26|<0.001
92370264|NCT05425732|184645787|OTHER|"A conclusion of acceptability is based on the lower bound of the 95% CI of the percentages of participants with a~≥4-fold rise from baseline to 30 days postvaccination being \> 50 percentage points (one-sided p-value \< 0.025)."||||||0.667||||||1-sided|Clopper-Pearson method.|||Serotype 6C||||0.667
92370265|NCT05425732|184645787|OTHER|"A conclusion of acceptability is based on the lower bound of the 95% CI of the percentages of participants with a~≥4-fold rise from baseline to 30 days postvaccination being \> 50 percentage points (one-sided p-value \< 0.025)."|||||<|0.001||||||1-sided|Clopper-Pearson method.|||Serotype 15B||||<0.001
92370266|NCT05425732|184645788|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|2.05|||||TWO_SIDED|95.0|1.52|2.77|||||V116 18-49 years/V116 50-64 years|Serotype 6C: V116 18-49 years/V116 50-64 years GMT Ratio||2.77|1.52|
92370267|NCT05425732|184645788|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT|2.02|||<|0.001|TWO_SIDED|95.0|1.57|2.6||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 15B: V116 18-49 years/V116 50-64 years GMT ratio||2.60|1.57|<0.001
92370268|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|1.47|||||TWO_SIDED|95.0|1.35|1.6|||||V116/PCV20|Serotype 3: V116/PCV20 GMC Ratio||1.60|1.35|
92370269|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.7|0.89|||||V116/PCV20|Serotype 6A: V116/PCV20 GMC Ratio||0.89|0.70|
92370270|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|1.06|||||TWO_SIDED|95.0|0.95|1.18|||||V116/PCV20|Serotype 7F: V116/PCV20 GMC Ratio||1.18|0.95|
92370271|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|1.43|||||TWO_SIDED|95.0|1.29|1.59|||||V116/PCV20|Serotype 8: V116/PCV20 GMC Ratio||1.59|1.29|
92370272|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|0.82|||||TWO_SIDED|95.0|0.72|0.92|||||V116/PCV20|Serotype 10A: V116/PCV20 GMC Ratio||0.92|0.72|
92406644|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||0.84|-12.90|0.4604
92370273|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|1.23|||||TWO_SIDED|95.0|1.11|1.36|||||V116/PCV20|Serotype 11A: V116/PCV20 GMC Ratio||1.36|1.11|
92370274|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|1.1|||||TWO_SIDED|95.0|0.96|1.26|||||V116/PCV20|Serotype 12F: V116/PCV20 GMC Ratio||1.26|0.96|
92370275|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|0.7|||||TWO_SIDED|95.0|0.63|0.77|||||V116/PCV20|Serotype 19A: V116/PCV20 GMC Ratio||0.77|0.63|
92370276|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|0.8|||||TWO_SIDED|95.0|0.72|0.9|||||V116/PCV20|Serotype 22F: V116/PCV20 GMC Ratio||0.90|0.72|
92370277|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|1.06|||||TWO_SIDED|95.0|0.95|1.18|||||V116/PCV20|Serotype 33F: V116/PCV20 GMC Ratio||1.18|0.95|
92370278|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|5.41|||||TWO_SIDED|95.0|4.82|6.06|||||V116/PCV20|Serotype 9N: V116/PCV20 GMC Ratio||6.06|4.82|
92370279|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|6.79|||||TWO_SIDED|95.0|6.03|7.64|||||V116/PCV20|Serotype 15A: V116/PCV20 GMC Ratio||7.64|6.03|
92370280|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|2.46|||||TWO_SIDED|95.0|2.17|2.79|||||V116/PCV20|Serotype 15C: V116/PCV20 GMC Ratio||2.79|2.17|
92370281|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|8.75|||||TWO_SIDED|95.0|7.95|9.64|||||V116/PCV20|Serotype 16F: V116/PCV20 GMC Ratio||9.64|7.95|
92370282|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|16.75|||||TWO_SIDED|95.0|15.25|18.41|||||V116/PCV20|Serotype 17F: V116/PCV20 GMC Ratio||18.41|15.25|
92370283|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|12.92|||||TWO_SIDED|5.0|11.81|14.13|||||V116/PCV20|Serotype 20A: V116/PCV20 GMC Ratio||14.13|11.81|
92370284|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|6.42|||||TWO_SIDED|95.0|5.69|7.24|||||V116/PCV20|Serotype 23A: V116/PCV20 GMC Ratio||7.24|5.69|
92370285|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|3.25|||||TWO_SIDED|95.0|2.91|3.64|||||V116/PCV20|Serotype 23B: V116/PCV20 GMC Ratio||3.64|2.91|
92370286|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|21.08|||||TWO_SIDED|85.0|18.97|23.43|||||V116/PCV20|Serotype 24F: V116/PCV20 GMC Ratio||23.43|18.97|
92370287|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|11.31|||||TWO_SIDED|95.0|10.36|12.34|||||V116/PCV20|Serotype 31: V116/PCV20 GMC Ratio||12.34|10.36|
92370288|NCT05425732|184645789|OTHER|cLDA model|GMC Ratio|14.13|||||TWO_SIDED|95.0|12.97|15.4|||||V116/PCV20|Serotype 35B: V116/PCV20 GMC Ratio||15.40|12.97|
92406645|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||-6.25|-18.62|0.0905
92370289|NCT01696994|184645827|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.95|1.04|||Poisson regression|Two-sided. Not adjusted for multiple comparisons. A-priori threshold for significance 0.05.||||1.04|0.95|
92370290|NCT01696994|184645829|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.21|||||TWO_SIDED|95.0|0.99|1.48|||Poisson regression|||||1.48|0.99|
92370291|NCT01696994|184645839|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.91|1.54||Two-sided. Not adjusted for multiple comparisons. A-priori threshold for significance 0.05.|Poisson regression|||||1.54|.91|
92370292|NCT04644276|184645844|SUPERIORITY||Median Difference (Final Values)|-37.0|STANDARD_DEVIATION|102.0||0.8125|TWO_SIDED|95.0|-112.6|140.7|||Wilcoxon Signed-Ranks test||Unit is percent change.|Percent change in leak 100% x (\[Mask with mask adhesive\] - \[Mask without mask adhesive\])/ \[Mask without mask adhesive\]. The comparison between the two arms is captured in the reported percentage change.||140.7|-112.6|0.8125
92370293|NCT01667224|184645849|NON_INFERIORITY_OR_EQUIVALENCE|Data are present as the mean±S.E. to detect a 0.3kg(S.D.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.|||||<|0.05|||||||Mixed Models Analysis|||Data are present as the mean±S.E. to detect a 0.3kg(S.D.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.||||<0.05
92370294|NCT01667224|184645850|NON_INFERIORITY_OR_EQUIVALENCE|Data are present as the mean±S.D. to detect a 0.3kg(S.E.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.|||||<|0.05|||||||Mixed Models Analysis|||Data are present as the mean±S.D. to detect a 0.3kg(S.E.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.||||<0.05
92370295|NCT01667224|184645851|NON_INFERIORITY_OR_EQUIVALENCE|Data are present as the mean±S.D. to detect a 0.3kg(S.E.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.|||||<|0.05|||||||Mixed Models Analysis|||Data are present as the mean±S.D. to detect a 0.3kg(S.E.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.||||<0.05
92370296|NCT01667224|184645852|NON_INFERIORITY_OR_EQUIVALENCE|Data are present as the mean±S.E. to detect a 0.3kg(S.D.=0.60kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.|||||<|0.05|||||||Mixed Models Analysis|||Data are present as the mean±S.E. to detect a 0.3kg(S.D.=0.60kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.||||<0.05
92370297|NCT00425698|184645869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_DEVIATION|15.0|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Null hypothesis: Erythopoietin significantly improves kidney graft function. Power calculation: with a difference of at least 4 mL/min in mean eGFR between groups the number of patients enrolled per group (at least 41) would allowed the detection of a significant difference between groups at a 5% level (p\<0.05)||||<0.05
92370298|NCT03831191|184645881|SUPERIORITY||Odds Ratio (OR)|0.55||||0.638|TWO_SIDED|95.0|0.04|6.81|||Regression, Logistic|||||6.81|0.04|0.638
92370299|NCT03831191|184645881|SUPERIORITY||Odds Ratio (OR)|0.69||||0.773|TWO_SIDED|95.0|0.05|8.76|||Regression, Logistic|||||8.76|0.05|0.773
92370300|NCT03831191|184645881|SUPERIORITY||Odds Ratio (OR)|0.58||||0.671|TWO_SIDED|95.0|0.05|7.26|||Regression, Logistic|||||7.26|0.05|0.671
92370301|NCT03831191|184645882|SUPERIORITY||Risk Difference (RD)|-4.0|||>|0.999|TWO_SIDED|95.0|-27.2|19.9|||Fisher Exact|||||19.9|-27.2|>0.999
92370302|NCT03831191|184645882|SUPERIORITY||Risk Difference (RD)|4.5|||>|0.999|TWO_SIDED|95.0|-20.7|30.8|||Fisher Exact|||||30.8|-20.7|>0.999
92370303|NCT03831191|184645882|SUPERIORITY||Risk Difference (RD)|-19.0||||0.107|TWO_SIDED|95.0|-40.0|0.2|||Fisher Exact|||||0.2|-40.0|0.107
92370304|NCT03831191|184645883|SUPERIORITY||Risk Difference (RD)|0.2|||>|0.999|TWO_SIDED|95.0|-18.1|19.3|||Fisher Exact|||||19.3|-18.1|>0.999
92370305|NCT03831191|184645883|SUPERIORITY||Risk Difference (RD)|-4.8|||>|0.999|TWO_SIDED|95.0|-22.7|14.1|||Fisher Exact|||||14.1|-22.7|>0.999
92370306|NCT03831191|184645883|SUPERIORITY||Risk Difference (RD)|-4.8|||>|0.999|TWO_SIDED|95.0|-22.7|11.2|||Fisher Exact|||||11.2|-22.7|>0.999
92370307|NCT03831191|184645884|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.0|0.0|
92370308|NCT03831191|184645884|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.0|0.0|
92370309|NCT03831191|184645884|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.0|0.0|
92370310|NCT03831191|184645885|SUPERIORITY||Median Difference (Net)|6.55||||0.31|TWO_SIDED|95.0|-6.36|19.45|||Mixed Models Analysis|||||19.45|-6.36|0.310
92370311|NCT03831191|184645885|SUPERIORITY||Mean Difference (Net)|5.56||||0.393|TWO_SIDED|95.0|-7.5|18.63|||Mixed Models Analysis|||||18.63|-7.50|0.393
92370312|NCT03831191|184645885|SUPERIORITY||Mean Difference (Net)|3.59||||0.564|TWO_SIDED|95.0|-8.91|16.08|||Mixed Models Analysis|||||16.08|-8.91|0.564
92370313|NCT03831191|184645886|SUPERIORITY||Mean Difference (Net)|7.61||||0.356|TWO_SIDED|95.0|-8.82|24.05|||Mixed Models Analysis|||||24.05|-8.82|0.356
92370314|NCT03831191|184645886|SUPERIORITY||Mean Difference (Net)|2.33||||0.783|TWO_SIDED|95.0|-14.64|19.3|||Mixed Models Analysis|||||19.30|-14.64|0.783
92370315|NCT03831191|184645886|SUPERIORITY||Mean Difference (Net)|6.52||||0.414|TWO_SIDED|95.0|-9.4|22.43|||Mixed Models Analysis|||||22.43|-9.40|0.414
92370316|NCT03525600|184645928|SUPERIORITY||LS Mean Difference|-0.2296||||0.0615|TWO_SIDED|95.0|-0.4703|0.0111|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + presence of choroidal neovascularization (CNV) in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area × analysis visit.||0.0111|-0.4703|0.0615
92370317|NCT03525600|184645928|SUPERIORITY||LS Mean Difference|-0.2077||||0.0854|TWO_SIDED|95.0|-0.4444|0.029|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area × analysis visit.||0.0290|-0.4444|0.0854
92370318|NCT03525600|184645929|SUPERIORITY||LS Mean Difference|-0.7451||||0.0004|TWO_SIDED|95.0|-1.1539|-0.3362|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + baseline presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) × analysis visit.||-0.3362|-1.1539|0.0004
92406646|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||0.84|-12.90|0.4604
92406647|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||-6.25|-18.62|0.0905
92406648|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||0.84|-12.90|0.4604
92406649|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.29|STANDARD_ERROR_OF_MEAN|6.31||0.7166|TWO_SIDED|60.0|-7.61|3.02|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 12||3.02|-7.61|0.7166
92406650|NCT00658359|184703230|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.51|STANDARD_ERROR_OF_MEAN|6.24||0.4692|TWO_SIDED|60.0|-9.76|0.73|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 12||0.73|-9.76|0.4692
92406651|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|1.69|STANDARD_ERROR_OF_MEAN|1.68||0.3132|TWO_SIDED|60.0|0.28|3.11|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||3.11|0.28|0.3132
92370319|NCT03525600|184645929|SUPERIORITY||LS Mean Difference|-0.6331||||0.003|TWO_SIDED|95.0|-1.0508|-0.2153|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + baseline presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) × analysis visit.||-0.2153|-1.0508|0.0030
92370320|NCT03525600|184645930|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.0547||||0.4282|TWO_SIDED|95.0|-0.1899|0.0806|||MMRM model|||Estimates for Baseline to Month 6: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||0.0806|-0.1899|0.4282
92370321|NCT03525600|184645930|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.0793||||0.2457|TWO_SIDED|95.0|-0.2131|0.0546|||MMRM model|||Estimates for Baseline to Month 6: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||0.0546|-0.2131|0.2457
92370322|NCT03525600|184645930|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1722||||0.0292|TWO_SIDED|95.0|-0.327|-0.0174|||MMRM model|||Estimates for Month 6 to Month 12: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0174|-0.3270|0.0292
92370323|NCT03525600|184645930|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1659||||0.0352|TWO_SIDED|95.0|-0.3202|-0.0115|||MMRM model|||Estimates for Month 6 to Month 12: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0115|-0.3202|0.0352
92370324|NCT03525600|184645930|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.145||||0.0514|TWO_SIDED|95.0|-0.2909|0.0009|||MMRM model|||Estimates for Month 12 to Month 18: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||0.0009|-0.2909|0.0514
92370325|NCT03525600|184645930|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.168||||0.0265|TWO_SIDED|95.0|-0.3164|-0.0196|||MMRM model|||Estimates for Month 12 to Month 18: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0196|-0.3164|0.0265
92406652|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|1.69|STANDARD_ERROR_OF_MEAN|1.68||0.3132|TWO_SIDED|60.0|0.28|3.11|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||3.11|0.28|0.3132
92406653|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||5.57|1.46|0.1503
92406654|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||5.57|1.46|0.1503
92406655|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||5.57|1.46|0.1503
92370326|NCT03525600|184645930|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.3532|||<|0.0001|TWO_SIDED|95.0|-0.5245|-0.1819|||MMRM model|||Estimates for Month 18 to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.1819|-0.5245|<0.0001
92370327|NCT03525600|184645930|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.2848||||0.0002|TWO_SIDED|95.0|-0.4336|-0.1361|||MMRM model|||Estimates for Month 18 to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.1361|-0.4336|0.0002
92370328|NCT03525600|184645930|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.7251||||0.0006|TWO_SIDED|95.0|-1.1373|-0.3129|||MMRM model|||Estimates for Baseline to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.3129|-1.1373|0.0006
92370329|NCT03525600|184645930|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.698||||0.001|TWO_SIDED|95.0|-1.1142|-0.2817|||MMRM model|||Estimates for Baseline to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.2817|-1.1142|0.0010
92370330|NCT02168062|184645946|OTHER|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||||||0.109
92370331|NCT02168062|184645948|OTHER|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Systolic Blood Pressure measurement comparison||||0.85
92370332|NCT02168062|184645948|OTHER|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Diastolic Blood Pressure measurement comparison||||0.10
92370333|NCT02168062|184645949|OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Weight measurement comparison||||0.70
92370334|NCT02168062|184645950|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Percentage body fat measurement comparison||||0.11
92370335|NCT02168062|184645951|OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Waist measurement comparison||||0.32
92370336|NCT02168062|184645952|OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Hemoglobin A1C measurement comparison||||0.70
92370337|NCT02168062|184645953|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||Insulin resistance score comparison||||0.46
92370338|NCT02168062|184645954|OTHER|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Total Cholesterol measurement comparison||||0.44
92370339|NCT02168062|184645954|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Total low density lipid measurement comparison||||0.52
92370340|NCT02168062|184645954|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Total high density lipid measurement comparison||||0.40
92370341|NCT02168062|184645954|OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||Total triglyceride measurement comparison||||0.53
92370342|NCT02168062|184645955|OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Non-vigorous physical activity comparison||||0.38
92370343|NCT02168062|184645955|OTHER|||||||0.979|||||||Wilcoxon (Mann-Whitney)|||Moderate physical activity comparison||||0.979
92370344|NCT02168062|184645955|OTHER|||||||0.884|||||||Wilcoxon (Mann-Whitney)|||Moderate-Vigorous physical activity comparison||||0.884
92370345|NCT02168062|184645955|OTHER|||||||0.678|||||||Wilcoxon (Mann-Whitney)|||Vigorous physical activity comparison||||0.678
92370346|NCT02168062|184645955|OTHER|||||||0.464|||||||Wilcoxon (Mann-Whitney)|||Total physical activity comparison||||0.464
92370347|NCT02168062|184645956|OTHER|||||||0.838|||||||Wilcoxon (Mann-Whitney)|||Average MVPA Minutes per Day Comparison||||0.838
92370348|NCT02168062|184645957|OTHER|||||||0.677|||||||Wilcoxon (Mann-Whitney)|||Bone Density at the lumbar spine comparison||||0.677
92370349|NCT02168062|184645957|OTHER|||||||0.493|||||||Wilcoxon (Mann-Whitney)|||Bone Density at the femoral neck comparison||||0.493
92370350|NCT02168062|184645957|OTHER|||||||0.807|||||||Wilcoxon (Mann-Whitney)|||Bone Density of the total hip comparison||||0.807
92370351|NCT02168062|184645958|OTHER|||||||0.403|||||||Wilcoxon (Mann-Whitney)|||Serum 25-(OH) vitamin D level comparison||||0.403
92370352|NCT02168062|184645959|OTHER|||||||0.385|||||||Wilcoxon (Mann-Whitney)|||||||.385
92370353|NCT02168062|184645960|OTHER|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||Attention Function Index (AFI) Score Comparison||||.148
92370354|NCT02168062|184645961|OTHER|||||||0.077|||||||Wilcoxon (Mann-Whitney)|||Mental Composite Score Comparison||||.077
92370355|NCT02168062|184645961|OTHER|||||||0.401|||||||Wilcoxon (Mann-Whitney)|||Physical Composite Score Comparison||||0.401
92370356|NCT02168062|184645962|OTHER|||||||0.085|||||||Wilcoxon (Mann-Whitney)|||||||0.085
92370357|NCT02168062|184645963|OTHER|||||||0.676|||||||Wilcoxon (Mann-Whitney)|||||||0.676
92370358|NCT02168062|184645964|OTHER|||||||0.183|||||||Wilcoxon (Mann-Whitney)|||||||0.183
92370359|NCT02168062|184645965|OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Total Score Comparison||||0.66
92370360|NCT02168062|184645965|OTHER|||||||0.844|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Urinary Incontinence Score Comparison||||0.844
92406656|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||5.57|1.46|0.1503
92406657|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||5.57|1.46|0.1503
92370361|NCT02168062|184645965|OTHER|||||||0.175|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Urinary Irriation Score Comparison||||0.175
92370362|NCT02168062|184645965|OTHER|||||||0.472|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Bowel Function Score Comparison||||0.472
92370363|NCT02168062|184645965|OTHER|||||||0.405|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Sexual Function Score Comparison||||0.405
92370364|NCT02168062|184645965|OTHER|||||||0.749|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Hormonal Function Score Comparison||||0.749
92370365|NCT02168062|184645966|OTHER|||||||0.907|||||||Wilcoxon (Mann-Whitney)|||Fatigue Scale Score Comparison||||0.907
92370366|NCT02168062|184645966|OTHER|||||||0.792|||||||Wilcoxon (Mann-Whitney)|||Energy Scale Score Comparison||||0.792
92370367|NCT00344318|184645989|NON_INFERIORITY_OR_EQUIVALENCE|Standardized asymptotic 95% confidence interval (CI) for the difference \[Synflorix™ minus Prevenar™\] in terms of percentages of subjects reporting rectal fever \>39.0°C after Dose 1 was computed.|Difference in percentage|2.17|||||TWO_SIDED|95.0|-1.51|4.88||||||Analysis aimed to demonstrate that Synflorix™ vaccine administered as a 3-dose primary vaccination course (either at 6-10-14 weeks or at 2-4-6 months of age), is non-inferior to Prevenar™ in terms of the incidence of post-immunization rectal fever \>39.0°C, when co-administered with Tritanrix™-HepB/Hiberix™ and Polio Sabin™ or Poliorix™ vaccines.||4.88|-1.51|
92370368|NCT00344318|184645989|NON_INFERIORITY_OR_EQUIVALENCE|Towards this, standardized asymptotic 95% confidence interval (CI) for the difference \[Synflorix™ minus Prevenar™\] in terms of percentages of subjects reporting rectal fever \>39.0°C after Dose 2 was computed|Difference in percentage|-1.48||||||95.0|-6.05|1.92||||||Analysis aimed to demonstrate that Synflorix™ vaccine administered as a 3-dose primary vaccination course (either at 6-10-14 weeks or at 2-4-6 months of age), is non-inferior to Prevenar™ in terms of the incidence of post-immunization rectal fever \>39.0°C, when co-administered with Tritanrix™-HepB/Hiberix™ and Polio Sabin™ or Poliorix™ vaccines.||1.92|-6.05|
92370369|NCT00344318|184645989|NON_INFERIORITY_OR_EQUIVALENCE|Towards this, standardized asymptotic 95% confidence interval (CI) for the difference \[Synflorix™ minus Prevenar™\] in terms of percentages of subjects reporting rectal fever \>39.0°C after Dose 3 was computed.|Difference in percentage|3.05|||||TWO_SIDED|95.0|-1.02|6.19||||||Analysis aimed to demonstrate that Synflorix™ vaccine administered as a 3-dose primary vaccination course (either at 6-10-14 weeks or at 2-4-6 months of age), is non-inferior to Prevenar™ in terms of the incidence of post-immunization rectal fever \>39.0°C, when co-administered with Tritanrix™-HepB/Hiberix™ and Polio Sabin™ or Poliorix™ vaccines.||6.19|-1.02|
92370370|NCT00344318|184645989|NON_INFERIORITY_OR_EQUIVALENCE|Standardized asymptotic 95% confidence interval (CI) for the difference \[Synflorix™ minus Prevenar™\] in terms of percentages of subjects reporting rectal fever \>39.0°C across doses was computed.|Difference in percentage|3.13|||||TWO_SIDED|95.0|-2.65|8.01||||||Analysis aimed to demonstrate that Synflorix™ vaccine administered as a 3-dose primary vaccination course (either at 6-10-14 weeks or at 2-4-6 months of age), is non-inferior to Prevenar™ in terms of the incidence of post-immunization rectal fever \>39.0°C, when co-administered with Tritanrix™-HepB/Hiberix™ and Polio Sabin™ or Poliorix™ vaccines.||8.01|-2.65|
92370371|NCT00683930|184646023|SUPERIORITY_OR_OTHER||Treatment difference in response rate|5.1||||0.6558||97.5|-17.4|27.6|||Fisher Exact|Alpha = 0.025||||27.6|-17.4|0.6558
92406658|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||5.57|1.46|0.1503
92370372|NCT00893152|184646055|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92370373|NCT01208961|184646123|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|400.36|||<|0.001|TWO_SIDED|90.0|326.87|490.36|||ANOVA|ANOVA on log-trans baseline-adj PK values using sequence, period, and treatments as fixed effects and subject nested within sequence as random effect||Results for the analyses of the High-Fat Periods were not posted because the critical comparison was the response of Lovaza versus Epanova to the clinically relevant low-fat diet to be used as adjunct in hypertriglyceridemia.||490.36|326.87|<0.001
92168842|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.57|-0.2|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.20|-0.57|<0.0001
92370374|NCT01208961|184646124|SUPERIORITY_OR_OTHER||Ratio of Geometric Mans|649.66|||<|0.01|TWO_SIDED|90.0|511.75|824.75||ANOVA model with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors. LSM estimate performed on log-scale|ANOVA|||Results for the analyses of the High-Fat Periods were not posted because the critical comparison was the response of Lovaza versus Epanova to the clinically relevant low-fat diet to be used as adjunct in hypertriglyceridemia.||824.75|511.75|<0.01
92370375|NCT01208961|184646125|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|369.66|||<|0.001|TWO_SIDED|90.0|301.74|452.86|||ANOVA|||Results for the analyses of the High-Fat Periods were not posted because the critical comparison was the response of Lovaza versus Epanova to the clinically relevant low-fat diet to be used as adjunct in hypertriglyceridemia.||452.86|301.74|<0.001
92370376|NCT01262560|184646126|SUPERIORITY_OR_OTHER|||||||0.92||||||Due to the skewed nature of the data, median was reported instead of mean.|Wilcoxon (Mann-Whitney)|Each arm had less than the designed sample size. Therefore the statistical power was reduced (76% instead of 80%).||Null hypothesis: Manuka honey in liquid form is/not effective at reducing esophagitis-related pain, measured by mean change score from 0 to 4 weeks. A 2-sample t-test for difference of means with alpha 0.05 after adjusting for multiple comparisons (1-sided with overall alpha 0.1 before the Bonferroni adjustment) and 80% statistical power for each hypothesis test requires 45 patients per arm to detect \>= 15% relative reduction (absolute difference of mean change score of 3.1; effect size=0.53).||||0.92
92370377|NCT01262560|184646126|SUPERIORITY_OR_OTHER|||||||0.93||||||Due to the skewed nature of the data, median was reported instead of mean.|Wilcoxon (Mann-Whitney)|Each arm had less than the designed sample size. Therefore the statistical power was reduced (76% instead of 80%)||Null hypothesis: Manuka honey in lozenge form is/not effective at reducing esophagitis-related pain, measured by mean change score from 0 to 4 weeks. A 2-sample t-test for difference of means with alpha 0.05 after adjusting for multiple comparisons (1-sided with overall alpha 0.1 before the Bonferroni adjustment) and 80% statistical power for each hypothesis test requires 45 patients per arm to detect \>= 15% relative reduction (absolute difference of mean change score of 3.1; effect size=0.53).||||0.93
92370378|NCT01262560|184646127|SUPERIORITY_OR_OTHER|||||||0.87|||||||Mixed Models Analysis|Explanatory variables are reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with NRPS score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Liquid Honey vs. Supportive Care) is reported here."||||0.87
92370379|NCT01262560|184646127|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with NRPS score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Lozenge Honey vs. Supportive Care) is reported here."||||0.46
92370380|NCT01262560|184646127|SUPERIORITY|||||||0.0023|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with NRPS score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Percentage of esophagus is reported here."||||0.0023
92370381|NCT01262560|184646127|SUPERIORITY|||||||0.0025|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with NRPS score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Opioid use is reported here."||||0.0025
92370382|NCT01262560|184646127|SUPERIORITY||||||<|0.0001||||||Each explanatory variable is reported separately.|Mixed Models Analysis|||"A linear fixed effects model using maximum likelihood estimation was run with NRPS score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Time is reported here."||||<0.0001
92370383|NCT01262560|184646128|SUPERIORITY_OR_OTHER|||||||0.7|||||||Mixed Models Analysis|Explanatory variables are reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with dysphagia score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. Treatment (Liquid Honey vs. Supportive Care) is reported here."||||0.70
92406659|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||5.57|1.46|0.1503
92406660|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||5.57|1.46|0.1503
92370384|NCT01262560|184646128|SUPERIORITY_OR_OTHER|||||||0.71|||||||Mixed Models Analysis|Explanatory variables are reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with dysphagia score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Lozenge Honey vs. Supportive Care) is reported here."||||0.71
92370385|NCT01262560|184646128|SUPERIORITY|||||||0.0002|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with dysphagia score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Percentage of esophagus is reported here."||||0.0002
92370386|NCT01262560|184646128|SUPERIORITY|||||||0.0051|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with dysphagia score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Opioid use is reported here."||||0.0051
92370387|NCT01262560|184646128|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with dysphagia score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Time is reported here."||||<0.0001
92370388|NCT01262560|184646129|SUPERIORITY_OR_OTHER|||||||0.086|||||||Mixed Models Analysis|Explanatory variables are reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC global health status (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Liquid Honey vs. Supportive Care) is reported here."||||0.086
92370389|NCT01262560|184646129|SUPERIORITY_OR_OTHER|||||||0.2|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC global health status (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Lozenge Honey vs. Supportive Care) is reported here."||||0.20
92406661|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||5.57|1.46|0.1503
92406662|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||5.57|1.46|0.1503
92406663|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||5.57|1.46|0.1503
92406664|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||5.57|1.46|0.1503
92406665|NCT00658359|184703231|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||5.57|1.46|0.1503
92406666|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.85|STANDARD_ERROR_OF_MEAN|1.83||0.3128|TWO_SIDED|60.0|-3.4|-0.31|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 15||-0.31|-3.40|0.3128
92406667|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|1.59|STANDARD_ERROR_OF_MEAN|1.57||0.3134|TWO_SIDED|60.0|0.26|2.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||2.91|0.26|0.3134
92406668|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.26|STANDARD_ERROR_OF_MEAN|2.42||0.9129|TWO_SIDED|60.0|-2.3|1.77|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||1.77|-2.30|0.9129
92406669|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|1.59|STANDARD_ERROR_OF_MEAN|1.57||0.3134|TWO_SIDED|60.0|0.26|2.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||2.91|0.26|0.3134
92406670|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.19|STANDARD_ERROR_OF_MEAN|3.61||0.2447|TWO_SIDED|60.0|-7.23|-1.16|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||-1.16|-7.23|0.2447
92406671|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|1.59|STANDARD_ERROR_OF_MEAN|1.57||0.3134|TWO_SIDED|60.0|0.26|2.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||2.91|0.26|0.3134
92406672|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.19|STANDARD_ERROR_OF_MEAN|3.61||0.2447|TWO_SIDED|60.0|-7.23|-1.16|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||-1.16|-7.23|0.2447
92406673|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|1.59|STANDARD_ERROR_OF_MEAN|1.57||0.3134|TWO_SIDED|60.0|0.26|2.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||2.91|0.26|0.3134
92406674|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-7.44|STANDARD_ERROR_OF_MEAN|4.74||0.1164|TWO_SIDED|60.0|-11.43|-3.45|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||-3.45|-11.43|0.1164
92406675|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|3.73|STANDARD_ERROR_OF_MEAN|2.62||0.1545|TWO_SIDED|60.0|1.52|5.93|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||5.93|1.52|0.1545
92406676|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.3|STANDARD_ERROR_OF_MEAN|5.18||0.3061|TWO_SIDED|60.0|-9.66|-0.94|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||-0.94|-9.66|0.3061
92406677|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|3.73|STANDARD_ERROR_OF_MEAN|2.62||0.1545|TWO_SIDED|60.0|1.52|5.93|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||5.93|1.52|0.1545
92406678|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.3|STANDARD_ERROR_OF_MEAN|5.18||0.3061|TWO_SIDED|60.0|-9.66|-0.94|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||-0.94|-9.66|0.3061
92406679|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|5.91|STANDARD_ERROR_OF_MEAN|3.35||0.0774|TWO_SIDED|60.0|3.1|8.73|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||8.73|3.10|0.0774
92406680|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.12|STANDARD_ERROR_OF_MEAN|5.59||0.5772|TWO_SIDED|60.0|-7.82|1.59|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||1.59|-7.82|0.5772
92406681|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|5.91|STANDARD_ERROR_OF_MEAN|3.35||0.0774|TWO_SIDED|60.0|3.1|8.73|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||8.73|3.10|0.0774
92406682|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.12|STANDARD_ERROR_OF_MEAN|5.59||0.5772|TWO_SIDED|60.0|-7.82|1.59|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||1.59|-7.82|0.5772
92406683|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|5.91|STANDARD_ERROR_OF_MEAN|3.35||0.0774|TWO_SIDED|60.0|3.1|8.73|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||8.73|3.10|0.0774
92406684|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.12|STANDARD_ERROR_OF_MEAN|5.59||0.5772|TWO_SIDED|60.0|-7.82|1.59|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||1.59|-7.82|0.5772
92406685|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|5.91|STANDARD_ERROR_OF_MEAN|3.35||0.0774|TWO_SIDED|60.0|3.1|8.73|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||8.73|3.10|0.0774
92406686|NCT00658359|184703232|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.12|STANDARD_ERROR_OF_MEAN|5.59||0.5772|TWO_SIDED|60.0|-7.82|1.59|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||1.59|-7.82|0.5772
92406687|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.35|STANDARD_ERROR_OF_MEAN|8.15||0.0786|TWO_SIDED|60.0|7.49|21.22|||Mixed Models Analysis|||Month 15||21.22|7.49|0.0786
92406688|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.87|STANDARD_ERROR_OF_MEAN|8.5||0.736|TWO_SIDED|60.0|-10.03|4.29|||Mixed Models Analysis|||Month 15||4.29|-10.03|0.7360
92240151|NCT00570739|184383829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.5475|TWO_SIDED|95.0|-2.64|1.4||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||1.40|-2.64|0.5475
92406689|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.16|STANDARD_ERROR_OF_MEAN|8.19||0.1377|TWO_SIDED|60.0|5.27|19.05|||Mixed Models Analysis|||Month 18||19.05|5.27|0.1377
92406690|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.01|STANDARD_ERROR_OF_MEAN|8.56||0.4131|TWO_SIDED|60.0|-14.21|0.2|||Mixed Models Analysis|||Month 18||0.20|-14.21|0.4131
92406691|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.52|STANDARD_ERROR_OF_MEAN|8.35||0.1057|TWO_SIDED|60.0|6.49|20.55|||Mixed Models Analysis|||Month 24||20.55|6.49|0.1057
92406692|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.21|STANDARD_ERROR_OF_MEAN|8.95||0.1402|TWO_SIDED|60.0|-20.75|-5.68|||Mixed Models Analysis|||Month 24||-5.68|-20.75|0.1402
92406693|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.6|STANDARD_ERROR_OF_MEAN|9.13||0.0542|TWO_SIDED|60.0|9.91|25.29|||Mixed Models Analysis|||Month 30||25.29|9.91|0.0542
92406694|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.74|STANDARD_ERROR_OF_MEAN|10.09||0.3866|TWO_SIDED|60.0|0.24|17.24|||Mixed Models Analysis|||Month 30||17.24|0.24|0.3866
92406695|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.52|STANDARD_ERROR_OF_MEAN|9.72||0.1981|TWO_SIDED|60.0|4.33|20.71|||Mixed Models Analysis|||Month 36||20.71|4.33|0.1981
92406696|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.65|STANDARD_ERROR_OF_MEAN|12.07||0.6397|TWO_SIDED|60.0|-15.81|4.51|||Mixed Models Analysis|||Month 36||4.51|-15.81|0.6397
92406697|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.93|STANDARD_ERROR_OF_MEAN|10.19||0.0508|TWO_SIDED|60.0|11.35|28.51|||Mixed Models Analysis|||Month 42||28.51|11.35|0.0508
92406698|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.42|STANDARD_ERROR_OF_MEAN|12.9||0.5143|TWO_SIDED|60.0|-2.45|19.28|||Mixed Models Analysis|||Month 42||19.28|-2.45|0.5143
92406699|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.26|STANDARD_ERROR_OF_MEAN|10.45||0.0021|TWO_SIDED|60.0|23.46|41.06|||Mixed Models Analysis|||Month 48||41.06|23.46|0.0021
92406700|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.73|STANDARD_ERROR_OF_MEAN|13.47||0.5661|TWO_SIDED|60.0|-19.07|3.61|||Mixed Models Analysis|||Month 48||3.61|-19.07|0.5661
92406701|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.2|STANDARD_ERROR_OF_MEAN|10.54||0.0057|TWO_SIDED|60.0|20.33|38.08|||Mixed Models Analysis|||Month 54||38.08|20.33|0.0057
92370390|NCT01262560|184646129|SUPERIORITY|||||||0.44|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC global health status (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Percentage of esophagus is reported here."||||0.44
92370391|NCT01262560|184646129|SUPERIORITY|||||||0.0066|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC global health status (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Opioid use is reported here."||||0.0066
92370392|NCT01262560|184646129|SUPERIORITY|||||||0.36|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC global health status (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Time is reported here."||||0.36
92370393|NCT01262560|184646129|SUPERIORITY_OR_OTHER|||||||0.94|||||||Mixed Models Analysis|Explanatory variables are reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC pain score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Liquid Honey vs. Supportive Care) is reported here."||||0.94
92370394|NCT01262560|184646129|SUPERIORITY_OR_OTHER|||||||0.58|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC pain score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Lozenge Honey vs. Supportive Care) is reported here."||||0.58
92370395|NCT01262560|184646129|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC pain score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Percentage of esophagus is reported here."||||0.28
92370396|NCT01262560|184646129|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each exploratory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC pain score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Opioid use is reported here."||||<0.0001
92370397|NCT01262560|184646129|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC pain score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Time is reported here."||||0.28
92370398|NCT01262560|184646130|SUPERIORITY_OR_OTHER|||||||0.06||||||Significance level = 0.05|Fisher Exact|||||||0.06
92370399|NCT01262560|184646130|SUPERIORITY_OR_OTHER|||||||0.31||||||Significance level = 0.05|Fisher Exact|||||||0.31
92370400|NCT01262560|184646131|SUPERIORITY_OR_OTHER|||||||0.53||||||significance level = 0.05|t-test, 2 sided|||||||0.53
92370401|NCT01262560|184646131|SUPERIORITY_OR_OTHER|||||||0.88||||||significance level = 0.05|t-test, 2 sided|||||||0.88
92370402|NCT01262560|184646132|SUPERIORITY_OR_OTHER|||||||0.2|||||||t-test, 2 sided|||||||0.20
92370403|NCT01262560|184646132|SUPERIORITY_OR_OTHER|||||||0.28|||||||t-test, 2 sided|||||||0.28
92370404|NCT01262560|184646135|SUPERIORITY_OR_OTHER|||||||0.39|||||||Wilcoxon (Mann-Whitney)|Because data was not normally distributed, this test was used instead of the t-test.||Each experimental arm was compared to the control arm (i.e. 2 comparisons) using two-sample t-tests. Forty-five patients with data in each arm, provides 80% power to detect an effect size (in standard deviation units) of 0.60 and 90% power to detect an effect size of 0.69 using a two-sided T-test with a Bonferroni adjusted significance level of 0.05 for each comparison (overall alpha 0.10). Due to the lack of prior data on the PRO-CTCAE, moderate effect sizes were used.||||0.39
92370405|NCT01262560|184646135|SUPERIORITY_OR_OTHER|||||||0.69|||||||Wilcoxon (Mann-Whitney)|Because data was not normally distributed, this test was used instead of the t-test.||Each experimental arm was compared to the control arm (i.e. 2 comparisons) using two-sample t-tests. Forty-five patients with data in each arm, provides 80% power to detect an effect size (in standard deviation units) of 0.60 and 90% power to detect an effect size of 0.69 using a two-sided T-test with a Bonferroni adjusted significance level of 0.05 for each comparison (overall alpha 0.10). Due to the lack of prior data on the PRO-CTCAE, moderate effect sizes were used.||||0.69
92370406|NCT00744380|184646137|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
92370407|NCT00744380|184646138|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||For open label midazolam||||0.25
92370408|NCT00744380|184646138|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||For all midazolam||||0.048
92370409|NCT00744380|184646138|SUPERIORITY_OR_OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||For fentanyl||||0.88
92240152|NCT00570739|184383830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0116||||0.0678|TWO_SIDED|95.0|-0.0241|0.0009||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||0.0009|-0.0241|0.0678
92370410|NCT00744380|184646139|SUPERIORITY_OR_OTHER|||||||0.75|||||||Chi-squared, Corrected|||For Riker scores||||0.75
92370411|NCT00744380|184646139|SUPERIORITY_OR_OTHER|||||||0.17|||||||Chi-squared|||For pain scores||||0.17
92370412|NCT00744380|184646140|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Chi-squared, Corrected|||For hypotension||||>0.1
92370413|NCT00744380|184646140|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Chi-squared, Corrected|||For bradycardia||||>0.1
92370414|NCT00744380|184646140|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Fisher Exact|||For tachycardia||||>0.1
92370415|NCT00744380|184646140|SUPERIORITY_OR_OTHER|||||||0.07|||||||Fisher Exact|||For delirium, new onset||||0.07
92370416|NCT00744380|184646141|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||Median number of experiences remembered||||0.015
92370417|NCT00744380|184646142|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92370418|NCT00744380|184646143|SUPERIORITY_OR_OTHER|||||||0.029|||||||t-test, 2 sided|||||||0.029
92370419|NCT00744380|184646144|SUPERIORITY_OR_OTHER||||||>|0.1|||||||t-test, 2 sided|||For anxiety||||>0.1
92370420|NCT00744380|184646144|SUPERIORITY_OR_OTHER||||||>|0.1|||||||t-test, 2 sided|||For depression||||>0.1
92370421|NCT00810771|184646148|SUPERIORITY_OR_OTHER|||||||0.873|TWO_SIDED||||||Chi-squared|||||||0.873
92370422|NCT00810771|184646149|SUPERIORITY_OR_OTHER|||||||0.671|TWO_SIDED||||||Chi-squared|||||||0.671
92370423|NCT00810771|184646150|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Chi-squared|||||||0.002
92370424|NCT00810771|184646151|SUPERIORITY_OR_OTHER|||||||0.186|TWO_SIDED||||||Chi-squared|||||||0.186
92370425|NCT00810771|184646152|SUPERIORITY_OR_OTHER|||||||0.576|TWO_SIDED||||||Chi-squared|||||||0.576
92370426|NCT00810771|184646153|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Chi-squared|||||||0.35
92370427|NCT02791516|184646178|SUPERIORITY||LS Mean Difference|9.6|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|7.6|11.5|||ANCOVA|ANCOVA model adjusting for treatment, baseline DXA BMD value, machine type, and machine type-by-baseline DXA BMD value.||||11.5|7.6|<0.001
92370428|NCT02791516|184646179|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|1.4|3.7|||ANCOVA|ANCOVA model adjusting for treatment, baseline DXA BMD value, machine type, and machine type-by-baseline DXA BMD value.||||3.7|1.4|<0.001
92370429|NCT02791516|184646180|SUPERIORITY||LS Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|0.7||0.004|TWO_SIDED|95.0|0.7|3.6|||ANCOVA|ANCOVA model adjusting for treatment, baseline DXA BMD value, machine type, and machine type-by-baseline DXA BMD value.||||3.6|0.7|0.004
92370430|NCT03479541|184646254|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.097||||0.013|TWO_SIDED|95.0|-0.173|-0.02||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||-0.020|-0.173|0.013
92370431|NCT03479541|184646255|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.073||||0.013|TWO_SIDED|95.0|-0.13|-0.016||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||-0.016|-0.130|0.013
92370432|NCT03479541|184646256|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.098||||0.01|TWO_SIDED|95.0|0.024|0.173||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.173|0.024|0.010
92370433|NCT03479541|184646257|OTHER|||||||0.5158|||||||Wilcoxon (Mann-Whitney)|||||||0.5158
92370434|NCT03479541|184646258|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0404||||0.45|TWO_SIDED|95.0|-0.0648|0.146||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.146|-0.0648|0.450
92370435|NCT03479541|184646259|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time point (pre-physical therapy and post-physical therapy), and group x time point injury interaction with random intercepts, covariates (age, gender, Initial SCAT symptom severity total score, and days since injury before physical therapy), and inverse probability weights. Later Physical Therapy Group and pre-physical therapy time point served as the reference. Values were log-transformed for model assumptions.|Slope|0.05353||||0.6039|TWO_SIDED|95.0|-0.1503|0.2574||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change from pre-physical therapy to post-physical therapy time points (the interaction effect of the mixed model analysis).|Analysis for Horizontal DVA Lines Lost||0.2574|-0.1503|0.6039
92406702|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.49|STANDARD_ERROR_OF_MEAN|13.89||0.4504|TWO_SIDED|60.0|-22.18|1.21|||Mixed Models Analysis|||Month 54||1.21|-22.18|0.4504
92370436|NCT03479541|184646259|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time point (pre-physical therapy and post-physical therapy), and group x time point injury interaction with random intercepts, covariates (age, gender, Initial SCAT symptom severity total score, and days since injury before physical therapy), and inverse probability weights. Later Physical Therapy Group and pre-physical therapy time point served as the references. Values were log-transformed for model assumptions.|Slope|-0.235||||0.0414|TWO_SIDED|95.0|-0.461|-0.0093||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change from pre-physical therapy to post-physical therapy time points (the interaction effect of the mixed model analysis).|Analysis for Vertical DVA Lines Lost||-0.0093|-0.461|0.0414
92370437|NCT03479541|184646260|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.028||||0.387|TWO_SIDED|95.0|-0.09|0.035||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.035|-0.090|0.387
92370438|NCT03479541|184646261|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.008||||0.135|TWO_SIDED|95.0|-0.003|0.019||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.019|-0.003|0.135
92370439|NCT03479541|184646262|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0107||||0.406|TWO_SIDED|95.0|-0.036|0.0146||a priori threshold p \< 0.05|Mixed Models Analysis||||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|0.0146|-0.0360|0.406
92370440|NCT03479541|184646263|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.00391||||0.083|TWO_SIDED|95.0|-0.00052|0.00835||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.00835|-0.00052|0.083
92370441|NCT03479541|184646264|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.003||||0.24|TWO_SIDED|95.0|-0.007|0.002||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for EcFi condition||0.002|-0.007|0.240
92370442|NCT03479541|184646264|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.005||||0.003|TWO_SIDED|95.0|-0.009|-0.002||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for EcFo condition||-0.002|-0.009|0.003
92370443|NCT03479541|184646265|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0112||||0.042|TWO_SIDED|95.0|-0.0219|-0.0004||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Single Task Average Lap Time||-0.0004|-0.0219|0.042
92370444|NCT03479541|184646265|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0111||||0.0311|TWO_SIDED|95.0|-0.0211|-0.001||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Auditory Stroop Average Lap Time||-0.0010|-0.0211|0.0311
92370445|NCT03479541|184646266|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.00029||||0.3226|TWO_SIDED|95.0|-0.0003|0.00087||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Single Task Gait Speed||0.00087|-0.0003|0.3226
92406703|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.37|STANDARD_ERROR_OF_MEAN|11.39||0.0078|TWO_SIDED|60.0|20.78|39.96|||Mixed Models Analysis|||Month 60||39.96|20.78|0.0078
92406704|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.95|STANDARD_ERROR_OF_MEAN|14.44||0.6802|TWO_SIDED|60.0|-18.11|6.2|||Mixed Models Analysis|||Month 60||6.20|-18.11|0.6802
92370446|NCT03479541|184646266|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.00035||||0.2218|TWO_SIDED|95.0|-0.0002|0.0009||a priori threshold p \< 0.05|Mixed Models Analysis|||Analysis for Auditory Stroop Gait Speed|The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|0.00090|-0.0002|0.2218
92370447|NCT03479541|184646267|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.161||||0.0742|TWO_SIDED|95.0|-0.0159|0.338||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Single Task 180 Degree Turn Velocity||0.338|-0.0159|0.0742
92370448|NCT03479541|184646267|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.217||||0.0121|TWO_SIDED|95.0|0.048|0.385||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Auditory Stroop 180 Degree Turn Velocity||0.385|0.0480|0.0121
92370449|NCT03479541|184646268|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.00063||||0.8906|TWO_SIDED|95.0|-0.0084|0.00961||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Single Task Percentage of Double Support Time of Gait Cycle||0.00961|-0.0084|0.8906
92370450|NCT03479541|184646268|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.001||||0.8447|TWO_SIDED|95.0|-0.0107|0.00874||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Auditory Stroop Percentage of Double Support Time of Gait Cycle||0.00874|-0.0107|0.8447
92370451|NCT03479541|184646269|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0003||||0.013|TWO_SIDED|95.0|-0.0005|-0.0001||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Visual Weight (VS/EO)||-0.0001|-0.0005|0.013
92370452|NCT03479541|184646269|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0001||||0.78|TWO_SIDED|95.0|-0.0003|0.0004||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Vestibular Weight (SS+VS/EO)||0.0004|-0.0003|0.780
92370453|NCT03479541|184646270|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.235|||<|0.001|TWO_SIDED|95.0|-0.361|-0.11||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Time Delay (VS/EO)||-0.110|-0.361|<0.001
92370454|NCT03479541|184646270|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.142||||0.002|TWO_SIDED|95.0|-0.233|-0.052||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Time Delay (SS+VS/EO)||-0.052|-0.233|0.002
92370455|NCT03479541|184646271|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0003||||0.237|TWO_SIDED|95.0|-0.0002|0.0007||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Normalized Stiffness (VS/EO)||0.0007|-0.0002|0.237
92370456|NCT03479541|184646271|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0008||||0.002|TWO_SIDED|95.0|0.0003|0.001||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Normalized Stiffness (SS+VS/EO)||0.001|0.0003|0.002
92370457|NCT03479541|184646272|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0001||||0.247|TWO_SIDED|95.0|-0.0001|0.0004||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Normalized Damping (VS/EO)||0.0004|-0.0001|0.247
92370458|NCT03479541|184646272|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0004||||0.008|TWO_SIDED|95.0|0.0001|0.0007||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Normalized Damping (SS+VSEO)||0.0007|0.0001|0.008
92406705|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.78|STANDARD_ERROR_OF_MEAN|12.08||0.0216|TWO_SIDED|60.0|17.61|37.95|||Mixed Models Analysis|||Month 66||37.95|17.61|0.0216
92240153|NCT00570739|184383830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0112||||0.0585|TWO_SIDED|95.0|-0.0228|0.0004||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||0.0004|-0.0228|0.0585
92370459|NCT03479541|184646273|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.004||||0.003|TWO_SIDED|95.0|-0.006|-0.001||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Evoked Center of Mass (CoM) Sway (VS/EO)||-0.001|-0.006|0.003
92370460|NCT03479541|184646273|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.001||||0.004|TWO_SIDED|95.0|-0.003|-0.0005||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Evoked CoM Sway (SS+VS/EO)||-0.0005|-0.003|0.004
92406706|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|15.12||0.9026|TWO_SIDED|60.0|-14.58|10.88|||Mixed Models Analysis|||Month 66||10.88|-14.58|0.9026
92406707|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.38|STANDARD_ERROR_OF_MEAN|12.91||0.1146|TWO_SIDED|60.0|9.51|31.24|||Mixed Models Analysis|||Month 72||31.24|9.51|0.1146
92406708|NCT00658359|184703234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.14|STANDARD_ERROR_OF_MEAN|15.48||0.6918|TWO_SIDED|60.0|-19.18|6.9|||Mixed Models Analysis|||Month 72||6.90|-19.18|0.6918
92406709|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.62|STANDARD_ERROR_OF_MEAN|6.57||0.3139|TWO_SIDED|60.0|1.09|12.14|||Mixed Models Analysis|||Month 15||12.14|1.09|0.3139
92406710|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.37|STANDARD_ERROR_OF_MEAN|6.75||0.5176|TWO_SIDED|60.0|-10.06|1.31|||Mixed Models Analysis|||Month 15||1.31|-10.06|0.5176
92406711|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.54|STANDARD_ERROR_OF_MEAN|6.56||0.3191|TWO_SIDED|60.0|1.02|12.06|||Mixed Models Analysis|||Month 18||12.06|1.02|0.3191
92406712|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.95|STANDARD_ERROR_OF_MEAN|6.73||0.6608|TWO_SIDED|60.0|-8.62|2.71|||Mixed Models Analysis|||Month 18||2.71|-8.62|0.6608
92406713|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.02|STANDARD_ERROR_OF_MEAN|6.7||0.2319|TWO_SIDED|60.0|2.37|13.66|||Mixed Models Analysis|||Month 24||13.66|2.37|0.2319
92406714|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5|STANDARD_ERROR_OF_MEAN|7.04||0.3554|TWO_SIDED|60.0|-12.43|-0.58|||Mixed Models Analysis|||Month 24||-0.58|-12.43|0.3554
92406715|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.45|STANDARD_ERROR_OF_MEAN|7.27||0.0113|TWO_SIDED|60.0|12.33|24.57|||Mixed Models Analysis|||Month 30||24.57|12.33|0.0113
92277734|NCT01620489|184457695|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.66|||<|0.0001||95.0|-0.9|-0.43||Adjustment for multiple comparisons was not used since there was only one primary endpoint.|Mixed Models Analysis|||The null hypothesis of no treatment difference was tested using a two-sided test based on a mixed model repeated measurement (MMRM) analysis. The model included treatment, country, stratification groups (6 groups from cross-classifying renal function category (2 levels: eGFR\<45 and ≥45 mL/min) and the background insulin treatment category (3 levels: basal, premix or no insulin)) as fixed effects factors and baseline HbA1c as a covariate, all nested within week.||-0.43|-0.90|<0.0001
92406716|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.66|STANDARD_ERROR_OF_MEAN|7.99||0.479|TWO_SIDED|60.0|-1.07|12.39|||Mixed Models Analysis|||Month 30||12.39|-1.07|0.4790
92406717|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.46|STANDARD_ERROR_OF_MEAN|7.75||0.1776|TWO_SIDED|60.0|3.93|16.99|||Mixed Models Analysis|||Month 36||16.99|3.93|0.1776
92406718|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.27|STANDARD_ERROR_OF_MEAN|9.5||0.7307|TWO_SIDED|60.0|-11.27|4.73|||Mixed Models Analysis|||Month 36||4.73|-11.27|0.7307
92406719|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.53|STANDARD_ERROR_OF_MEAN|8.25||0.1625|TWO_SIDED|60.0|4.59|18.48|||Mixed Models Analysis|||Month 42||18.48|4.59|0.1625
92406720|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.77|STANDARD_ERROR_OF_MEAN|10.12||0.2876|TWO_SIDED|60.0|2.25|19.29|||Mixed Models Analysis|||Month 42||19.29|2.25|0.2876
92406721|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.62|STANDARD_ERROR_OF_MEAN|8.41||0.027|TWO_SIDED|60.0|11.54|25.7|||Mixed Models Analysis|||Month 48||25.70|11.54|0.0270
92406722|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|10.54||0.7444|TWO_SIDED|60.0|-12.31|5.44|||Mixed Models Analysis|||Month 48||5.44|-12.31|0.7444
92406723|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.18|STANDARD_ERROR_OF_MEAN|8.44||0.0122|TWO_SIDED|60.0|14.08|28.29|||Mixed Models Analysis|||Month 54||28.29|14.08|0.0122
92406724|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.61|STANDARD_ERROR_OF_MEAN|10.86||0.3288|TWO_SIDED|60.0|-19.75|-1.47|||Mixed Models Analysis|||Month 54||-1.47|-19.75|0.3288
92406725|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.34|STANDARD_ERROR_OF_MEAN|9.15||0.0453|TWO_SIDED|60.0|10.63|26.05|||Mixed Models Analysis|||Month 60||26.05|10.63|0.0453
92406726|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.59|STANDARD_ERROR_OF_MEAN|11.28||0.5016|TWO_SIDED|60.0|-17.09|1.91|||Mixed Models Analysis|||Month 60||1.91|-17.09|0.5016
92406727|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.43|STANDARD_ERROR_OF_MEAN|9.69||0.0453|TWO_SIDED|60.0|11.27|27.59|||Mixed Models Analysis|||Month 66||27.59|11.27|0.0453
92406728|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.87|STANDARD_ERROR_OF_MEAN|11.84||0.8747|TWO_SIDED|60.0|-11.83|8.1|||Mixed Models Analysis|||Month 66||8.10|-11.83|0.8747
92406729|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.98|STANDARD_ERROR_OF_MEAN|10.34||0.4997|TWO_SIDED|60.0|-1.72|15.69|||Mixed Models Analysis|||Month 72||15.69|-1.72|0.4997
92406730|NCT00658359|184703235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.07|STANDARD_ERROR_OF_MEAN|12.1||0.2804|TWO_SIDED|60.0|-23.26|-2.88|||Mixed Models Analysis|||Month 72||-2.88|-23.26|0.2804
92370461|NCT03479541|184646274|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.004||||0.031|TWO_SIDED|95.0|-0.007|-0.0003||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Internal Sensory Noise (VS/EO)||-0.0003|-0.007|0.031
92370462|NCT03479541|184646274|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.003||||0.003|TWO_SIDED|95.0|-0.005|-0.0003||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Internal Sensory Noise (SS+VS/EO)||-0.0003|-0.005|0.003
92370463|NCT03479541|184646275|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age and gender), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0321||||0.3221|TWO_SIDED|95.0|-0.0957|0.0315||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.0315|-0.0957|0.3221
92370464|NCT03479541|184646276|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0136||||0.336|TWO_SIDED|95.0|-0.0413|0.0142||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.0142|-0.0413|0.336
92370465|NCT03479541|184646277|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0406||||0.033|TWO_SIDED|95.0|-0.0779|-0.0032||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||-0.0032|-0.0779|0.033
92370466|NCT03724981|184646314|SUPERIORITY||||||<|0.0001|||||||Prescott test|||||||<0.0001
92370467|NCT03724981|184646315|SUPERIORITY||||||<|0.0001|||||||Prescott test|||||||<0.0001
92370468|NCT03040011|184646379|SUPERIORITY|||||||0.39|||||||Kruskal-Wallis|||||||0.39
92370469|NCT03040011|184646380|SUPERIORITY|||||||0.25|||||||Kruskal-Wallis|||||||0.25
92370470|NCT03040011|184646381|SUPERIORITY|||||||0.17|||||||Kruskal-Wallis|||||||0.17
92370471|NCT03040011|184646382|SUPERIORITY|||||||0.45|||||||Kruskal-Wallis|||||||0.45
92370472|NCT03040011|184646383|SUPERIORITY|||||||0.54|||||||Kruskal-Wallis|||||||0.54
92370473|NCT03040011|184646384|SUPERIORITY|||||||0.8|||||||Chi-squared|||||||0.80
92370474|NCT03040011|184646385|SUPERIORITY|||||||0.72|||||||Chi-squared|||||||0.72
92370475|NCT03040011|184646386|SUPERIORITY|||||||0.64|||||||Chi-squared|||||||0.64
92370476|NCT03040011|184646387|SUPERIORITY|||||||0.41|||||||Kruskal-Wallis|||||||0.41
92370477|NCT03040011|184646389|SUPERIORITY|||||||0.96|||||||Chi-squared|||||||0.96
92370478|NCT03040011|184646390|SUPERIORITY|||||||0.9|||||||Chi-squared|||||||0.90
92370479|NCT03040011|184646391|SUPERIORITY|||||||0.49|||||||Chi-squared|||||||0.49
92406731|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.79|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|60.0|7.68|11.9|||Mixed Models Analysis|||Month 15||11.90|7.68|<0.0001
92406732|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.32|STANDARD_ERROR_OF_MEAN|2.61||0.0418|TWO_SIDED|60.0|3.12|7.52|||Mixed Models Analysis|||Month 15||7.52|3.12|0.0418
92406733|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4|STANDARD_ERROR_OF_MEAN|2.51||0.0002|TWO_SIDED|60.0|7.28|11.51|||Mixed Models Analysis|||Month 18||11.51|7.28|0.0002
92406734|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3|STANDARD_ERROR_OF_MEAN|2.63||0.0437|TWO_SIDED|60.0|3.09|7.51|||Mixed Models Analysis|||Month 18||7.51|3.09|0.0437
92370480|NCT03040011|184646392|SUPERIORITY|||||||0.19|||||||Chi-squared|||||||0.19
92370481|NCT03040011|184646393|SUPERIORITY|||||||0.35|||||||Kruskal-Wallis|||||||0.35
92370482|NCT03040011|184646394|SUPERIORITY|||||||0.32|||||||Kruskal-Wallis|||||||0.32
92370483|NCT03040011|184646395|SUPERIORITY|||||||0.18|||||||Kruskal-Wallis|||||||0.18
92370484|NCT03040011|184646396|SUPERIORITY|||||||0.68|||||||Kruskal-Wallis|||||||0.68
92370485|NCT03040011|184646397|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||||||0.40
92370486|NCT03040011|184646398|SUPERIORITY|||||||0.44|||||||Kruskal-Wallis|||||||0.44
92370487|NCT02791191|184646402|SUPERIORITY|||||||0.418|||||||ANCOVA|||||||0.418
92370488|NCT02791191|184646402|SUPERIORITY|||||||0.231|||||||ANCOVA|||||||0.231
92370489|NCT02791191|184646403|SUPERIORITY|||||||1|||||||Fisher Exact|||White Matter Disease||||1.000
92370490|NCT02791191|184646403|SUPERIORITY|||||||1|||||||Fisher Exact|||White Matter Disease||||1.000
92370491|NCT02791191|184646403|SUPERIORITY|||||||0.404|||||||Fisher Exact|||||||0.404
92370492|NCT02791191|184646403|SUPERIORITY|||||||1|||||||Fisher Exact|||Cortical Superficial Siderous||||1.000
92370493|NCT02791191|184646403|SUPERIORITY|Lacunar Infarct||||||1|||||||Fisher Exact|||||||1.000
92370494|NCT02791191|184646403|SUPERIORITY|||||||0.457|||||||Fisher Exact|||Lacunar Infarct||||0.457
92406735|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.37|STANDARD_ERROR_OF_MEAN|2.56||0.0011|TWO_SIDED|60.0|6.21|10.53|||Mixed Models Analysis|||Month 24||10.53|6.21|0.0011
92370495|NCT02791191|184646403|SUPERIORITY|||||||1|||||||Fisher Exact|||Other Infarct||||1.000
92370496|NCT02791191|184646403|SUPERIORITY|||||||0.457|||||||Fisher Exact|||Other Infarct||||0.457
92370497|NCT02791191|184646404|SUPERIORITY|||||||1|||||||Fisher Exact|||Vasogenic Edema||||1.000
92370498|NCT02791191|184646404|SUPERIORITY|||||||0.457|||||||Fisher Exact|||Vasogenic Edema||||0.457
92370499|NCT02791191|184646404|SUPERIORITY|||||||0.703|||||||Fisher Exact|||Increase in Microhemorrhage||||0.703
92370500|NCT02791191|184646404|SUPERIORITY|||||||1|||||||Fisher Exact|||Increase in Microhemorrhage||||1.000
92370501|NCT02791191|184646405|SUPERIORITY|||||||0.452|||||||Fisher Exact|||Treatment Emergent Suicidal Ideation||||0.452
92370502|NCT02791191|184646405|SUPERIORITY|||||||0.279||||||TE Suicidal Ideation|Fisher Exact|||||||0.279
92370503|NCT02791191|184646405|SUPERIORITY|||||||0.293|||||||Fisher Exact|||Emergence of Suicidal Behavior||||0.293
92370504|NCT02791191|184646405|SUPERIORITY|||||||0.486|||||||Fisher Exact|||Emergence of Suicidal Behavior||||0.486
92370505|NCT02791191|184646407|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Amyloid Beta||||<.001
92370506|NCT02791191|184646407|SUPERIORITY|Amyloid Beta|||||<|0.001|||||||ANCOVA|||||||<.001
92370507|NCT02791191|184646407|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Amyloid Beta 1-40||||<.001
92370508|NCT02791191|184646407|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Amyloid Beta 1-40||||<.001
92370509|NCT02791191|184646407|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Amyloid Beta 1-42||||<.001
92370510|NCT02791191|184646407|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Amyloid Beta 1-42||||<.001
92370511|NCT02791191|184646408|SUPERIORITY|||||||0.97|||||||Mixed Model Repeated Measures|||||||0.970
92370512|NCT02791191|184646408|SUPERIORITY|||||||0.586|||||||Mixed Model Repeated Meausres|||||||0.586
92370513|NCT02791191|184646409|SUPERIORITY|||||||0.088|||||||ANCOVA|||||||0.088
92406736|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.04|STANDARD_ERROR_OF_MEAN|2.75||0.4565|TWO_SIDED|60.0|-0.27|4.36|||Mixed Models Analysis|||Month 24||4.36|-0.27|0.4565
92370514|NCT02791191|184646409|SUPERIORITY|||||||0.15|||||||ANCOVA|||||||0.150
92370515|NCT02791191|184646410|SUPERIORITY|||||||0.153|||||||ANCOVA|||||||0.153
92370516|NCT02791191|184646410|SUPERIORITY|||||||0.176|||||||ANCOVA|||||||0.176
92370517|NCT02370537|184646412|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of least-square means (LSmeans) for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% Confidence Intervals (CIs) by degree of pancreatic exocrine function using level of FEC were exponentiated.|Geometric least-squares (GLS) Mean Ratio|0.75|||||TWO_SIDED|90.0|0.52|1.1|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.10|0.52|
92370518|NCT02370537|184646412|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean ratio|0.48|||||TWO_SIDED|90.0|0.32|0.72|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.72|0.32|
92370519|NCT02370537|184646412|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.6|||||TWO_SIDED|90.0|0.44|0.82|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.82|0.44|
92370520|NCT02370537|184646413|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|1.28|||||TWO_SIDED|90.0|0.84|1.93|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.93|0.84|
92370521|NCT02370537|184646413|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.8|||||TWO_SIDED|90.0|0.51|1.25|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.25|0.51|
92370522|NCT02370537|184646413|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|1.29|||||TWO_SIDED|90.0|0.92|1.82|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.82|0.92|
92406737|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.9|STANDARD_ERROR_OF_MEAN|2.8||0.0001|TWO_SIDED|60.0|8.54|13.26|||Mixed Models Analysis|||Month 30||13.26|8.54|0.0001
92406738|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.29|STANDARD_ERROR_OF_MEAN|3.09||0.1654|TWO_SIDED|60.0|1.69|6.89|||Mixed Models Analysis|||Month 30||6.89|1.69|0.1654
92406739|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.45|STANDARD_ERROR_OF_MEAN|2.98||0.0015|TWO_SIDED|60.0|6.95|11.96|||Mixed Models Analysis|||Month 36||11.96|6.95|0.0015
92406740|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.13|STANDARD_ERROR_OF_MEAN|3.69||0.2636|TWO_SIDED|60.0|1.02|7.23|||Mixed Models Analysis|||Month 36||7.23|1.02|0.2636
92406741|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.08|STANDARD_ERROR_OF_MEAN|3.12||0.052|TWO_SIDED|60.0|3.45|8.71|||Mixed Models Analysis|||Month 42||8.71|3.45|0.0520
92406742|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.35|STANDARD_ERROR_OF_MEAN|3.95||0.176|TWO_SIDED|60.0|2.02|8.67|||Mixed Models Analysis|||Month 42||8.67|2.02|0.1760
92406743|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.08|STANDARD_ERROR_OF_MEAN|3.2||0.0274|TWO_SIDED|60.0|4.38|9.77|||Mixed Models Analysis|||Month 48||9.77|4.38|0.0274
92406744|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|4.13||0.8018|TWO_SIDED|60.0|-4.51|2.44|||Mixed Models Analysis|||Month 48||2.44|-4.51|0.8018
92406745|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.63|STANDARD_ERROR_OF_MEAN|3.23||0.0819|TWO_SIDED|60.0|2.91|8.35|||Mixed Models Analysis|||Month 54||8.35|2.91|0.0819
92406746|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.17|STANDARD_ERROR_OF_MEAN|4.26||0.6103|TWO_SIDED|60.0|-5.75|1.41|||Mixed Models Analysis|||Month 54||1.41|-5.75|0.6103
92406747|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.48|STANDARD_ERROR_OF_MEAN|3.49||0.1168|TWO_SIDED|60.0|2.54|8.41|||Mixed Models Analysis|||Month 60||8.41|2.54|0.1168
92406748|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26|STANDARD_ERROR_OF_MEAN|4.43||0.3357|TWO_SIDED|60.0|0.54|7.99|||Mixed Models Analysis|||Month 60||7.99|0.54|0.3357
92406749|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.42|STANDARD_ERROR_OF_MEAN|3.7||0.0448|TWO_SIDED|60.0|4.31|10.54|||Mixed Models Analysis|||Month 66||10.54|4.31|0.0448
92406750|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|STANDARD_ERROR_OF_MEAN|4.64||0.7642|TWO_SIDED|60.0|-2.51|5.29|||Mixed Models Analysis|||Month 66||5.29|-2.51|0.7642
92406751|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.99|STANDARD_ERROR_OF_MEAN|3.95||0.1295|TWO_SIDED|60.0|2.67|9.32|||Mixed Models Analysis|||Month 72||9.32|2.67|0.1295
92406752|NCT00658359|184703236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.13|STANDARD_ERROR_OF_MEAN|4.75||0.654|TWO_SIDED|60.0|-1.87|6.13|||Mixed Models Analysis|||Month 72||6.13|-1.87|0.6540
92406753|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.11|STANDARD_ERROR_OF_MEAN|19.53||0.7543|TWO_SIDED|60.0|-22.55|10.33|||Mixed Models Analysis|||Month 15||10.33|-22.55|0.7543
92406754|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.95|STANDARD_ERROR_OF_MEAN|20.33||0.6249|TWO_SIDED|60.0|-27.07|7.17|||Mixed Models Analysis|||Month 15||7.17|-27.07|0.6249
92406755|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.66|STANDARD_ERROR_OF_MEAN|19.61||0.3415|TWO_SIDED|60.0|-35.17|-2.15|||Mixed Models Analysis|||Month 18||-2.15|-35.17|0.3415
92406756|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.86|STANDARD_ERROR_OF_MEAN|20.47||0.072|TWO_SIDED|60.0|-54.1|-19.63|||Mixed Models Analysis|||Month 18||-19.63|-54.10|0.0720
92406757|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.0|STANDARD_ERROR_OF_MEAN|19.99||0.2937|TWO_SIDED|60.0|-37.83|-4.17|||Mixed Models Analysis|||Month 24||-4.17|-37.83|0.2937
92406758|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.72|STANDARD_ERROR_OF_MEAN|21.38||0.0512|TWO_SIDED|60.0|-59.72|-23.73|||Mixed Models Analysis|||Month 24||-23.73|-59.72|0.0512
92406759|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-45.43|STANDARD_ERROR_OF_MEAN|21.76||0.037|TWO_SIDED|60.0|-63.75|-27.11|||Mixed Models Analysis|||Month 30||-27.11|-63.75|0.0370
92406760|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.92|STANDARD_ERROR_OF_MEAN|24.0||0.8701|TWO_SIDED|60.0|-24.13|16.28|||Mixed Models Analysis|||Month 30||16.28|-24.13|0.8701
92406761|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.75|STANDARD_ERROR_OF_MEAN|23.15||0.2146|TWO_SIDED|60.0|-48.24|-9.25|||Mixed Models Analysis|||Month 36||-9.25|-48.24|0.2146
92406762|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.03|STANDARD_ERROR_OF_MEAN|28.58||0.462|TWO_SIDED|60.0|-45.09|3.03|||Mixed Models Analysis|||Month 36||3.03|-45.09|0.4620
92406763|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.16|STANDARD_ERROR_OF_MEAN|24.28||0.8639|TWO_SIDED|60.0|-16.28|24.6|||Mixed Models Analysis|||Month 42||24.60|-16.28|0.8639
92370523|NCT02370537|184646414|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.9|||||TWO_SIDED|90.0|0.63|1.28|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.28|0.63|
92370524|NCT02370537|184646414|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.58|||||TWO_SIDED|90.0|0.39|0.85|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.85|0.39|
92370525|NCT02370537|184646414|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.75|||||TWO_SIDED|90.0|0.55|1.0|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.00|0.55|
92370526|NCT02370537|184646415|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.52|||||TWO_SIDED|90.0|0.37|0.73|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.73|0.37|
92370527|NCT02370537|184646415|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.46|||||TWO_SIDED|90.0|0.32|0.67|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.67|0.32|
92370528|NCT02370537|184646415|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.53|||||TWO_SIDED|90.0|0.4|0.7|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.70|0.40|
92370529|NCT02370537|184646416|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of least-squares LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|1.02|||||TWO_SIDED|90.0|0.77|1.36|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.36|0.77|
92370530|NCT02370537|184646416|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS mean Ratio|0.92|||||TWO_SIDED|90.0|0.67|1.25|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.25|0.67|
92406764|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.3|STANDARD_ERROR_OF_MEAN|30.65||0.323|TWO_SIDED|60.0|-56.11|-4.5|||Mixed Models Analysis|||Month 42||-4.50|-56.11|0.3230
92406765|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.49|STANDARD_ERROR_OF_MEAN|24.92||0.2214|TWO_SIDED|60.0|9.51|51.47|||Mixed Models Analysis|||Month 48||51.47|9.51|0.2214
92406766|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.25|STANDARD_ERROR_OF_MEAN|32.08||0.7492|TWO_SIDED|60.0|-37.26|16.75|||Mixed Models Analysis|||Month 48||16.75|-37.26|0.7492
92406767|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.61|STANDARD_ERROR_OF_MEAN|25.15||0.8236|TWO_SIDED|60.0|-15.57|26.79|||Mixed Models Analysis|||Month 54||26.79|-15.57|0.8236
92406768|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.67|STANDARD_ERROR_OF_MEAN|33.1||0.6578|TWO_SIDED|60.0|-13.2|42.54|||Mixed Models Analysis|||Month 54||42.54|-13.20|0.6578
92406769|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.93|STANDARD_ERROR_OF_MEAN|27.12||0.5326|TWO_SIDED|60.0|-5.9|39.76|||Mixed Models Analysis|||Month 60||39.76|-5.90|0.5326
92277735|NCT01620489|184457696|SUPERIORITY_OR_OTHER||Estimated odds ratio|4.48|||<|0.0001||95.0|2.46|8.18||Not adjusted for multiple comparisons|Regression, Logistic|||Analysed by a logistic regression model with treatment, country and stratification groups as fixed effects and HbA1c and body weight at baseline as covariates. No weight gain was defined as change from baseline to Week 26 in body weight ≤0 kg.||8.18|2.46|<0.0001
92370531|NCT02370537|184646416|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|1.11|||||TWO_SIDED|90.0|0.88|1.4|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.40|0.88|
92406770|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.0|STANDARD_ERROR_OF_MEAN|34.44||0.6845|TWO_SIDED|60.0|-42.99|15.0|||Mixed Models Analysis|||Month 60||15.00|-42.99|0.6845
92406771|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.35|STANDARD_ERROR_OF_MEAN|28.73||0.7713|TWO_SIDED|60.0|-15.83|32.54|||Mixed Models Analysis|||Month 66||32.54|-15.83|0.7713
92406772|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.11|STANDARD_ERROR_OF_MEAN|36.06||0.8438|TWO_SIDED|60.0|-37.47|23.26|||Mixed Models Analysis|||Month 66||23.26|-37.47|0.8438
92406773|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.06|STANDARD_ERROR_OF_MEAN|30.7||0.4724|TWO_SIDED|60.0|-3.78|47.91|||Mixed Models Analysis|||Month 72||47.91|-3.78|0.4724
92406774|NCT00658359|184703237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.25|STANDARD_ERROR_OF_MEAN|36.98||0.6218|TWO_SIDED|60.0|-12.89|49.38|||Mixed Models Analysis|||Month 72||49.38|-12.89|0.6218
92406775|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33|STANDARD_ERROR_OF_MEAN|7.93||0.7693|TWO_SIDED|60.0|-9.01|4.35|||Mixed Models Analysis|||Month 15||4.35|-9.01|0.7693
92406776|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.75|STANDARD_ERROR_OF_MEAN|8.28||0.7396|TWO_SIDED|60.0|-4.22|9.73|||Mixed Models Analysis|||Month 15||9.73|-4.22|0.7396
92406777|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.84|STANDARD_ERROR_OF_MEAN|7.92||0.3881|TWO_SIDED|60.0|-13.51|-0.17|||Mixed Models Analysis|||Month 18||-0.17|-13.51|0.3881
92406778|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.44|STANDARD_ERROR_OF_MEAN|8.28||0.5114|TWO_SIDED|60.0|-12.42|1.53|||Mixed Models Analysis|||Month 18||1.53|-12.42|0.5114
92406779|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.43|STANDARD_ERROR_OF_MEAN|8.06||0.5829|TWO_SIDED|60.0|-11.21|2.36|||Mixed Models Analysis|||Month 24||2.36|-11.21|0.5829
92406780|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.76|STANDARD_ERROR_OF_MEAN|8.58||0.2559|TWO_SIDED|60.0|-16.99|-2.53|||Mixed Models Analysis|||Month 24||-2.53|-16.99|0.2559
92406781|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.74|STANDARD_ERROR_OF_MEAN|8.78||0.7548|TWO_SIDED|60.0|-4.65|10.14|||Mixed Models Analysis|||Month 30||10.14|-4.65|0.7548
92406782|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.43|STANDARD_ERROR_OF_MEAN|9.57||0.7998|TWO_SIDED|60.0|-5.63|10.49|||Mixed Models Analysis|||Match 30||10.49|-5.63|0.7998
92406783|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.39|STANDARD_ERROR_OF_MEAN|9.08||0.2531|TWO_SIDED|60.0|2.74|18.03|||Mixed Models Analysis|||Month 36||18.03|2.74|0.2531
92406784|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.14|STANDARD_ERROR_OF_MEAN|11.2||0.365|TWO_SIDED|60.0|0.72|19.57|||Mixed Models Analysis|||Month 36||19.57|0.72|0.3650
92406785|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.33|STANDARD_ERROR_OF_MEAN|9.34||0.4328|TWO_SIDED|60.0|-0.53|15.19|||Mixed Models Analysis|||Month 42||15.19|-0.53|0.4328
92406786|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.94|STANDARD_ERROR_OF_MEAN|11.35||0.2547|TWO_SIDED|60.0|-22.5|-3.38|||Mixed Models Analysis|||Month 42||-3.38|-22.50|0.2547
92406787|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.72|STANDARD_ERROR_OF_MEAN|9.46||0.3572|TWO_SIDED|60.0|0.75|16.69|||Mixed Models Analysis|||Month 48||16.69|0.75|0.3572
92406788|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.94|STANDARD_ERROR_OF_MEAN|11.64||0.8009|TWO_SIDED|60.0|-6.86|12.74|||Mixed Models Analysis|||Month 48||12.74|-6.86|0.8009
92406789|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.88|STANDARD_ERROR_OF_MEAN|9.44||0.6814|TWO_SIDED|60.0|-11.82|4.07|||Mixed Models Analysis|||Month 54||4.07|-11.82|0.6814
92406790|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.88|STANDARD_ERROR_OF_MEAN|11.93||0.2803|TWO_SIDED|60.0|2.84|22.93|||Mixed Models Analysis|||Month 54||22.93|2.84|0.2803
92406791|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.11|STANDARD_ERROR_OF_MEAN|10.23||0.7613|TWO_SIDED|60.0|-11.72|5.5|||Mixed Models Analysis|||Month 60||5.50|-11.72|0.7613
92406792|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.25|STANDARD_ERROR_OF_MEAN|12.35||0.8554|TWO_SIDED|60.0|-12.65|8.15|||Mixed Models Analysis|||Month 60||8.15|-12.65|0.8554
92406793|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|10.7||0.9132|TWO_SIDED|60.0|-10.18|7.84|||Mixed Models Analysis|||Month 66||7.84|-10.18|0.9132
92406794|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.14|STANDARD_ERROR_OF_MEAN|12.79||0.7465|TWO_SIDED|60.0|-6.63|14.9|||Mixed Models Analysis|||Month 66||14.90|-6.63|0.7465
92406795|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.79|STANDARD_ERROR_OF_MEAN|11.34||0.8747|TWO_SIDED|60.0|-11.34|7.76|||Mixed Models Analysis|||Month 72||7.76|-11.34|0.8747
92406796|NCT00658359|184703241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.19|STANDARD_ERROR_OF_MEAN|12.96||0.5793|TWO_SIDED|60.0|-18.1|3.72|||Mixed Models Analysis|||Month 72||3.72|-18.10|0.5793
92406797|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.76|STANDARD_ERROR_OF_MEAN|2.79|<|0.0001|TWO_SIDED|60.0|10.4|15.11|||Mixed Models Analysis|||Month 15||15.11|10.40|<0.0001
92406798|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.39|STANDARD_ERROR_OF_MEAN|2.88|<|0.0001|TWO_SIDED|60.0|10.96|15.82|||Mixed Models Analysis|||Month 15||15.82|10.96|<0.0001
92406799|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.48|STANDARD_ERROR_OF_MEAN|3.0||0.0002|TWO_SIDED|60.0|8.95|14.0|||Mixed Models Analysis|||Month 18||14.00|8.95|0.0002
92406800|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.98|STANDARD_ERROR_OF_MEAN|3.09||0.0002|TWO_SIDED|60.0|9.37|14.59|||Mixed Models Analysis|||Month 18||14.59|9.37|0.0002
92406801|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.86|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|60.0|10.32|15.39|||Mixed Models Analysis|||Month 24||15.39|10.32|<0.0001
92406802|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.71|STANDARD_ERROR_OF_MEAN|3.12|<|0.0001|TWO_SIDED|60.0|11.08|16.35|||Mixed Models Analysis|||Month 24||16.35|11.08|<0.0001
92406803|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.86|STANDARD_ERROR_OF_MEAN|3.35|<|0.0001|TWO_SIDED|60.0|13.03|18.69|||Mixed Models Analysis|||Month 30||18.69|13.03|<0.0001
92406804|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.61|STANDARD_ERROR_OF_MEAN|3.56||0.0002|TWO_SIDED|60.0|10.61|16.61|||Mixed Models Analysis|||Month 30||16.61|10.61|0.0002
92406805|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.17|STANDARD_ERROR_OF_MEAN|3.61||0.001|TWO_SIDED|60.0|9.12|15.21|||Mixed Models Analysis|||Month 36||15.21|9.12|0.0010
92406806|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.56|STANDARD_ERROR_OF_MEAN|3.98||0.0019|TWO_SIDED|60.0|9.2|15.92|||Mixed Models Analysis|||Month 36||15.92|9.20|0.0019
92406807|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.42|STANDARD_ERROR_OF_MEAN|3.38||0.0004|TWO_SIDED|60.0|9.56|15.27|||Mixed Models Analysis|||Month 42||15.27|9.56|0.0004
92406808|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.99|STANDARD_ERROR_OF_MEAN|3.76||0.0182|TWO_SIDED|60.0|5.81|12.16|||Mixed Models Analysis|||Month 42||12.16|5.81|0.0182
92406809|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.4|STANDARD_ERROR_OF_MEAN|3.77||0.0013|TWO_SIDED|60.0|9.22|15.58|||Mixed Models Analysis|||Month 48||15.58|9.22|0.0013
92406810|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.6|STANDARD_ERROR_OF_MEAN|4.29||0.0782|TWO_SIDED|60.0|3.99|11.22|||Mixed Models Analysis|||Month 48||11.22|3.99|0.0782
92406811|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.04|STANDARD_ERROR_OF_MEAN|4.02||0.0007|TWO_SIDED|60.0|10.64|17.43|||Mixed Models Analysis|||Month 54||17.43|10.64|0.0007
92406812|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.23|STANDARD_ERROR_OF_MEAN|4.72||0.0322|TWO_SIDED|60.0|6.24|14.22|||Mixed Models Analysis|||Month 54||14.22|6.24|0.0322
92406813|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.72|STANDARD_ERROR_OF_MEAN|3.7||0.0399|TWO_SIDED|60.0|4.59|10.86|||Mixed Models Analysis|||Month 60||10.86|4.59|0.0399
92406814|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.11|STANDARD_ERROR_OF_MEAN|4.28||0.3391|TWO_SIDED|60.0|0.49|7.73|||Mixed Models Analysis|||Month 60||7.73|0.49|0.3391
92406815|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.75|STANDARD_ERROR_OF_MEAN|4.23||0.0702|TWO_SIDED|60.0|4.17|11.33|||Mixed Models Analysis|||Month 66||11.33|4.17|0.0702
92406816|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.02|STANDARD_ERROR_OF_MEAN|4.89||0.221|TWO_SIDED|60.0|1.89|10.15|||Mixed Models Analysis|||Month 66||10.15|1.89|0.2210
92406817|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.03|STANDARD_ERROR_OF_MEAN|5.25||0.015|TWO_SIDED|60.0|8.59|17.46|||Mixed Models Analysis|||Month 72||17.46|8.59|0.0150
92406818|NCT00658359|184703243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.27|STANDARD_ERROR_OF_MEAN|6.13||0.4875|TWO_SIDED|60.0|-0.91|9.45|||Mixed Models Analysis|||Month 72||9.45|-0.91|0.4875
92406819|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.48|STANDARD_ERROR_OF_MEAN|4.33||0.001|TWO_SIDED|60.0|10.83|18.13|||Mixed Models Analysis|||Month 15||18.13|10.83|0.0010
92406820|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.93|STANDARD_ERROR_OF_MEAN|4.47||0.001|TWO_SIDED|60.0|11.16|18.7|||Mixed Models Analysis|||Month 15||18.70|11.16|0.0010
92406821|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.96|STANDARD_ERROR_OF_MEAN|4.5||0.0023|TWO_SIDED|60.0|10.16|17.76|||Mixed Models Analysis|||Month 18||17.76|10.16|0.0023
92370532|NCT02370537|184646417|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean|0.68|||||TWO_SIDED|90.0|0.49|0.92|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.92|0.49|
92370533|NCT02370537|184646417|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.6|||||TWO_SIDED|90.0|0.42|0.84|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.84|0.42|
92370534|NCT02370537|184646417|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.7|||||TWO_SIDED|90.0|0.54|0.9|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.90|0.54|
92370535|NCT02578680|184646484|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|1e-05|TWO_SIDED|95.0|0.43|0.64|||Log Rank||Based on Cox regression model with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||0.64|0.43|<0.00001
92370536|NCT02578680|184646485|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|1e-05|TWO_SIDED|95.0|0.38|0.64|||Log Rank||Based on Cox regression model with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||0.64|0.38|<0.00001
92370537|NCT02578680|184646486|SUPERIORITY||Difference in Percentage vs. Control|28.5|||<|0.0001|TWO_SIDED|95.0|21.1|35.4||H0:Difference in percentages=0 vs H1:Difference in percentages\>0|Stratified Miettinen and Nurminen||Miettinen and Nurminen method with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||35.4|21.1|<0.0001
92370538|NCT02578680|184646490|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|1e-05|TWO_SIDED|95.0|0.41|0.59|||Log Rank||Based on Cox regression model with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||0.59|0.41|<0.00001
92370539|NCT01559259|184646494|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) Mean difference|26.28|||<|0.001|TWO_SIDED|95.0|20.33|32.22|||ANOVA|||Treatment difference and 95 percent (%) Confidence interval (CI) were based on Least square mean (LSM) from analysis of variance (ANOVA) with treatment, baseline categorical pain severity rating (PSR), gender and treatment-by-baseline categorical PSR terms used as covariates.||32.22|20.33|<0.001
92370540|NCT01559259|184646494|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|24.37|||<|0.001|TWO_SIDED|95.0|18.44|30.29|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||30.29|18.44|<0.001
92370541|NCT01559259|184646494|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|27.48|||<|0.001|TWO_SIDED|95.0|21.53|33.42|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||33.42|21.53|<0.001
92370542|NCT01559259|184646494|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|24.85|||<|0.001|TWO_SIDED|95.0|18.93|30.78|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||30.78|18.93|<0.001
92370543|NCT01559259|184646494|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.42||||0.501|TWO_SIDED|95.0|-2.73|5.58|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.58|-2.73|0.501
92406822|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.57|STANDARD_ERROR_OF_MEAN|4.64||0.0039|TWO_SIDED|60.0|9.65|17.48|||Mixed Models Analysis|||Month 18||17.48|9.65|0.0039
92370544|NCT01559259|184646494|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.49||||0.817|TWO_SIDED|95.0|-4.61|3.64|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.64|-4.61|0.817
92370545|NCT01559259|184646494|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.62||||0.216|TWO_SIDED|95.0|-1.53|6.78|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.78|-1.53|0.216
92370546|NCT01559259|184646495|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|12.69|||<|0.001|TWO_SIDED|95.0|5.52|29.19|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||29.19|5.52|<0.001
92370547|NCT01559259|184646495|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|10.02|||<|0.001|TWO_SIDED|95.0|4.36|23.02|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||23.02|4.36|<0.001
92406823|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.02|STANDARD_ERROR_OF_MEAN|4.72||0.0017|TWO_SIDED|60.0|11.04|19.0|||Mixed Models Analysis|||Month 24||19.00|11.04|0.0017
92406824|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.93|STANDARD_ERROR_OF_MEAN|4.88||0.0026|TWO_SIDED|60.0|10.81|19.04|||Mixed Models Analysis|||Month 24||19.04|10.81|0.0026
92370548|NCT01559259|184646495|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|11.66|||<|0.001|TWO_SIDED|95.0|5.07|26.83|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||26.83|5.07|<0.001
92370549|NCT01559259|184646495|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|8.6|||<|0.001|TWO_SIDED|95.0|3.74|19.77|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||19.77|3.74|<0.001
92370550|NCT01559259|184646495|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.48||||0.014|TWO_SIDED|95.0|1.08|2.02|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||2.02|1.08|0.014
92370551|NCT01559259|184646495|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17||||0.332|TWO_SIDED|95.0|0.86|1.59|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||1.59|0.86|0.332
92370552|NCT01559259|184646495|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.36||||0.056|TWO_SIDED|95.0|0.99|1.85|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||1.85|0.99|0.056
92370553|NCT01559259|184646496|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|12.1|||<|0.001|TWO_SIDED|95.0|5.24|27.91|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||27.91|5.24|<0.001
92370554|NCT01559259|184646496|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|8.88|||<|0.001|TWO_SIDED|95.0|3.86|20.44|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||20.44|3.86|<0.001
92406825|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.54|STANDARD_ERROR_OF_MEAN|5.06||0.0003|TWO_SIDED|60.0|14.27|22.81|||Mixed Models Analysis|||Month 30||22.81|14.27|0.0003
92406826|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.45|STANDARD_ERROR_OF_MEAN|5.29||0.0022|TWO_SIDED|60.0|11.99|20.91|||Mixed Models Analysis|||Month 30||20.91|11.99|0.0022
92406827|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.19|STANDARD_ERROR_OF_MEAN|5.51||0.0065|TWO_SIDED|60.0|10.55|19.84|||Mixed Models Analysis|||Month 36||19.84|10.55|0.0065
92406828|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.93|STANDARD_ERROR_OF_MEAN|6.0||0.0137|TWO_SIDED|60.0|9.87|19.99|||Mixed Models Analysis|||Month 36||19.99|9.87|0.0137
92406829|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.32|STANDARD_ERROR_OF_MEAN|5.12||0.0018|TWO_SIDED|60.0|11.99|20.64|||Mixed Models Analysis|||Month 42||20.64|11.99|0.0018
92406830|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.24|STANDARD_ERROR_OF_MEAN|5.65||0.0316|TWO_SIDED|60.0|7.47|17.01|||Mixed Models Analysis|||Month 42||17.01|7.47|0.0316
92406831|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.33|STANDARD_ERROR_OF_MEAN|5.64||0.0043|TWO_SIDED|60.0|11.57|21.09|||Mixed Models Analysis|||Month 48||21.09|11.57|0.0043
92406832|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.8|STANDARD_ERROR_OF_MEAN|6.31||0.1226|TWO_SIDED|60.0|4.47|15.12|||Mixed Models Analysis|||Month 48||15.12|4.47|0.1226
92406833|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.97|STANDARD_ERROR_OF_MEAN|5.7||0.0034|TWO_SIDED|60.0|12.17|21.78|||Mixed Models Analysis|||Month 54||21.78|12.17|0.0034
92406834|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.79|STANDARD_ERROR_OF_MEAN|6.52||0.0724|TWO_SIDED|60.0|6.29|17.29|||Mixed Models Analysis|||Month 54||17.29|6.29|0.0724
92406835|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.03|STANDARD_ERROR_OF_MEAN|5.92||0.1782|TWO_SIDED|60.0|3.02|13.03|||Mixed Models Analysis|||Month 60||13.03|3.02|0.1782
92406836|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.66|STANDARD_ERROR_OF_MEAN|6.86||0.5947|TWO_SIDED|60.0|-2.14|9.46|||Mixed Models Analysis|||Month 66||9.46|-2.14|0.5947
92406837|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.99|STANDARD_ERROR_OF_MEAN|5.68||0.081|TWO_SIDED|60.0|5.2|14.79|||Mixed Models Analysis|||Month 66||14.79|5.20|0.0810
92406838|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.42|STANDARD_ERROR_OF_MEAN|6.38||0.3965|TWO_SIDED|60.0|0.04|10.81|||Mixed Models Analysis|||Month 66||10.81|0.04|0.3965
92406839|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.16|STANDARD_ERROR_OF_MEAN|6.77||0.0128|TWO_SIDED|60.0|11.44|22.88|||Mixed Models Analysis|||Month 72||22.88|11.44|0.0128
92406840|NCT00658359|184703244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.71|STANDARD_ERROR_OF_MEAN|7.83||0.5487|TWO_SIDED|60.0|-1.91|11.33|||Mixed Models Analysis|||Month 72||11.33|-1.91|0.5487
92406841|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.87|STANDARD_ERROR_OF_MEAN|2.86|<|0.0001|TWO_SIDED|60.0|13.46|18.29|||Mixed Models Analysis|||Month 15||18.29|13.46|<0.0001
92406842|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.97|STANDARD_ERROR_OF_MEAN|2.95|<|0.0001|TWO_SIDED|60.0|11.49|16.46|||Mixed Models Analysis|||Month 15||16.46|11.49|<0.0001
92406843|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.53|STANDARD_ERROR_OF_MEAN|3.33|<|0.0001|TWO_SIDED|60.0|10.71|16.34|||Mixed Models Analysis|||Month 18||16.34|10.71|<0.0001
92406844|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.56|STANDARD_ERROR_OF_MEAN|3.43||0.0009|TWO_SIDED|60.0|8.67|14.45|||Mixed Models Analysis|||Month 18||14.45|8.67|0.0009
92406845|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.63|STANDARD_ERROR_OF_MEAN|3.44|<|0.0001|TWO_SIDED|60.0|12.72|18.53|||Mixed Models Analysis|||Month 24||18.53|12.72|<0.0001
92406846|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.89|STANDARD_ERROR_OF_MEAN|3.54||0.001|TWO_SIDED|60.0|8.91|14.88|||Mixed Models Analysis|||Month 24||14.88|8.91|0.0010
92406847|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.29|STANDARD_ERROR_OF_MEAN|3.86|<|0.0001|TWO_SIDED|60.0|16.03|22.55|||Mixed Models Analysis|||Month 30||22.55|16.03|<0.0001
92406848|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.63|STANDARD_ERROR_OF_MEAN|3.97||0.0082|TWO_SIDED|60.0|7.27|13.98|||Mixed Models Analysis|||Month 30||13.98|7.27|0.0082
92406849|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.72|STANDARD_ERROR_OF_MEAN|4.31||0.0008|TWO_SIDED|60.0|11.09|18.36|||Mixed Models Analysis|||Month 36||18.36|11.09|0.0008
92406850|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|4.43||0.0462|TWO_SIDED|60.0|5.16|12.64|||Mixed Models Analysis|||Month 36||12.64|5.16|0.0462
92406851|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.7|STANDARD_ERROR_OF_MEAN|4.25||0.0007|TWO_SIDED|60.0|11.11|18.28|||Mixed Models Analysis|||Month 42||18.28|11.11|0.0007
92406852|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.55|STANDARD_ERROR_OF_MEAN|4.37||0.0519|TWO_SIDED|60.0|4.87|12.24|||Mixed Models Analysis|||Month 42||12.24|4.87|0.0519
92406853|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.58|STANDARD_ERROR_OF_MEAN|4.65||0.0039|TWO_SIDED|60.0|9.66|17.5|||Mixed Models Analysis|||Month 48||17.50|9.66|0.0039
92406854|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.12|STANDARD_ERROR_OF_MEAN|4.78||0.058|TWO_SIDED|60.0|5.09|13.15|||Mixed Models Analysis|||Month 48||13.15|5.09|0.0580
92406855|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.61|STANDARD_ERROR_OF_MEAN|4.74||0.0006|TWO_SIDED|60.0|12.62|20.61|||Mixed Models Analysis|||Month 54||20.61|12.62|0.0006
92406856|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.15|STANDARD_ERROR_OF_MEAN|4.87||0.0136|TWO_SIDED|60.0|8.04|16.26|||Mixed Models Analysis|||Month 54||16.26|8.04|0.0136
92406857|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.39|STANDARD_ERROR_OF_MEAN|4.74||0.0053|TWO_SIDED|60.0|9.39|17.39|||Mixed Models Analysis|||Month 60||17.39|9.39|0.0053
92406858|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.77|STANDARD_ERROR_OF_MEAN|4.87||0.0736|TWO_SIDED|60.0|4.66|12.88|||Mixed Models Analysis|||Month 60||12.88|4.66|0.0736
92406859|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.63|STANDARD_ERROR_OF_MEAN|4.8||0.005|TWO_SIDED|60.0|9.58|17.67|||Mixed Models Analysis|||Month 66||17.67|9.58|0.0050
92406860|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.77|STANDARD_ERROR_OF_MEAN|4.93||0.0491|TWO_SIDED|60.0|5.61|13.93|||Mixed Models Analysis|||Month 66||13.93|5.61|0.0491
92406861|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.66|STANDARD_ERROR_OF_MEAN|5.04||0.0041|TWO_SIDED|60.0|10.4|18.91|||Mixed Models Analysis|||Month 72||18.91|10.40|0.0041
92406862|NCT00658359|184703245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.59|STANDARD_ERROR_OF_MEAN|5.19||0.066|TWO_SIDED|60.0|5.22|13.97|||Mixed Models Analysis|||Month 72||13.97|5.22|0.0660
92406863|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|1.73||0.2393|TWO_SIDED|95.0|-5.45|1.36|||Mixed Models Analysis|||Month 24: Physical Functioning||1.36|-5.45|0.2393
92406864|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.57|STANDARD_ERROR_OF_MEAN|1.89||0.0595|TWO_SIDED|95.0|-7.29|0.14|||Mixed Models Analysis|||Month 24: Physical Functioning||0.14|-7.29|0.0595
92406865|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|2.1||0.5182|TWO_SIDED|95.0|-2.77|5.49|||Mixed Models Analysis|||Month 24: Role Physical||5.49|-2.77|0.5182
92406866|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.96|STANDARD_ERROR_OF_MEAN|2.3||0.3938|TWO_SIDED|95.0|-6.49|2.56|||Mixed Models Analysis|||Month 24: Role Physical||2.56|-6.49|0.3938
92406867|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|2.12||0.8932|TWO_SIDED|95.0|-3.89|4.46|||Mixed Models Analysis|||Month 24: Bodily Pain||4.46|-3.89|0.8932
92406868|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|2.33||0.9673|TWO_SIDED|95.0|-4.48|4.67|||Mixed Models Analysis|||Month 24: Bodily Pain||4.67|-4.48|0.9673
92406869|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.74|STANDARD_ERROR_OF_MEAN|1.78||0.329|TWO_SIDED|95.0|-1.76|5.23|||Mixed Models Analysis|||Month 24: General Health||5.23|-1.76|0.3290
92406870|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09|STANDARD_ERROR_OF_MEAN|1.95||0.578|TWO_SIDED|95.0|-2.75|4.92|||Mixed Models Analysis|||Month 24: General Health||4.92|-2.75|0.5780
92406871|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|1.87||0.9799|TWO_SIDED|95.0|-3.72|3.62|||Mixed Models Analysis|||Month 24: Vitality||3.62|-3.72|0.9799
92406872|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.76|STANDARD_ERROR_OF_MEAN|2.07||0.396|TWO_SIDED|95.0|-2.31|5.83|||Mixed Models Analysis|||Month 24: Vitality||5.83|-2.31|0.3960
92406873|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|1.98||0.94|TWO_SIDED|95.0|-4.05|3.75|||Mixed Models Analysis|||Month 24: Social Functioning||3.75|-4.05|0.9400
92406874|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|2.2||0.8583|TWO_SIDED|95.0|-3.94|4.72|||Mixed Models Analysis|||Month 24: Social Functioning||4.72|-3.94|0.8583
92406875|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.82|STANDARD_ERROR_OF_MEAN|2.31||0.0997|TWO_SIDED|95.0|-0.73|8.37|||Mixed Models Analysis|||Month 24: Role Emotional||8.37|-0.73|0.0997
92406876|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|2.54||0.852|TWO_SIDED|95.0|-5.47|4.52|||Mixed Models Analysis|||Month 24: Role Emotional||4.52|-5.47|0.8520
92406877|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|STANDARD_ERROR_OF_MEAN|2.01||0.4023|TWO_SIDED|95.0|-5.64|2.27|||Mixed Models Analysis|||Month 24: Mental Health||2.27|-5.64|0.4023
92406878|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.56|STANDARD_ERROR_OF_MEAN|2.22||0.1092|TWO_SIDED|95.0|-0.8|7.92|||Mixed Models Analysis|||Month 24: Mental Health||7.92|-0.80|0.1092
92406879|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.16||0.1754|TWO_SIDED|95.0|-0.1|0.52|||Mixed Models Analysis|||Month 24: TR Scale Score||0.52|-0.10|0.1754
92406880|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.17||0.1802|TWO_SIDED|95.0|-0.11|0.57|||Mixed Models Analysis|||Month 24: TR Scale Score||0.57|-0.11|0.1802
92406881|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|1.68||0.9966|TWO_SIDED|95.0|-3.31|3.29|||Mixed Models Analysis|||Month 24: Physical Component Summary||3.29|-3.31|0.9966
92406882|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.42|STANDARD_ERROR_OF_MEAN|1.84||0.188|TWO_SIDED|95.0|-6.04|1.19|||Mixed Models Analysis|||Month 24: Physical Component Summary||1.19|-6.04|0.1880
92406883|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|1.92||0.6154|TWO_SIDED|95.0|-2.81|4.73|||Mixed Models Analysis|||Month 24: Mental Component Summary||4.73|-2.81|0.6154
92406884|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.26|STANDARD_ERROR_OF_MEAN|2.12||0.1248|TWO_SIDED|95.0|-0.91|7.43|||Mixed Models Analysis|||Month 24: Mental Component Summary||7.43|-0.91|0.1248
92406885|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|2.03||0.4174|TWO_SIDED|95.0|-5.63|2.34|||Mixed Models Analysis|||Month 36: Physical Functioning||2.34|-5.63|0.4174
92406886|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.44|STANDARD_ERROR_OF_MEAN|2.6||0.3486|TWO_SIDED|95.0|-7.54|2.66|||Mixed Models Analysis|||Month 36: Physical Functioning||2.66|-7.54|0.3486
92406887|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|2.47||0.8335|TWO_SIDED|95.0|-4.33|5.37|||Mixed Models Analysis|||Month 36: Role Physical||5.37|-4.33|0.8335
92406888|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|3.18||0.5291|TWO_SIDED|95.0|-8.24|4.24|||Mixed Models Analysis|||Month 36: Role Physical||4.24|-8.24|0.5291
92406889|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09|STANDARD_ERROR_OF_MEAN|2.5||0.4033|TWO_SIDED|95.0|-2.82|7.0|||Mixed Models Analysis|||Month 36: Bodily Pain||7.00|-2.82|0.4033
92406890|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|3.24||0.9078|TWO_SIDED|95.0|-6.74|5.99|||Mixed Models Analysis|||Month 36: Bodily Pain||5.99|-6.74|0.9078
92406891|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|2.08||0.3947|TWO_SIDED|95.0|-2.31|5.86|||Mixed Models Analysis|||Month 36: General Health||5.86|-2.31|0.3947
92406892|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|2.66||0.7165|TWO_SIDED|95.0|-4.26|6.2|||Mixed Models Analysis|||Month 36: General Health||6.20|-4.26|0.7165
92406893|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44|STANDARD_ERROR_OF_MEAN|2.19||0.5112|TWO_SIDED|95.0|-2.87|5.75|||Mixed Models Analysis|||Month 36: Vitality||5.75|-2.87|0.5112
92406894|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.43|STANDARD_ERROR_OF_MEAN|2.86||0.1218|TWO_SIDED|95.0|-1.18|10.04|||Mixed Models Analysis|||Month 36: Vitality||10.04|-1.18|0.1218
92406895|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.47|STANDARD_ERROR_OF_MEAN|2.33||0.2895|TWO_SIDED|95.0|-2.11|7.05|||Mixed Models Analysis|||Month 36: Social Functioning||7.05|-2.11|0.2895
92406896|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|3.03||0.8349|TWO_SIDED|95.0|-6.58|5.32|||Mixed Models Analysis|||Month 36: Social Functioning||5.32|-6.58|0.8349
92406897|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.62|STANDARD_ERROR_OF_MEAN|2.72||0.0393|TWO_SIDED|95.0|0.28|10.97|||Mixed Models Analysis|||Month 36: Role Emotional||10.97|0.28|0.0393
92406898|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|3.52||0.7266|TWO_SIDED|95.0|-5.69|8.16|||Mixed Models Analysis|||Month 36: Role Emotional||8.16|-5.69|0.7266
92406899|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|STANDARD_ERROR_OF_MEAN|2.36||0.4916|TWO_SIDED|95.0|-3.02|6.27|||Mixed Models Analysis|||Month 36: Mental Health||6.27|-3.02|0.4916
92406900|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|3.05||0.9008|TWO_SIDED|95.0|-5.62|6.38|||Mixed Models Analysis|||Month 36: Mental Health||6.38|-5.62|0.9008
92406901|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.18||0.2965|TWO_SIDED|95.0|-0.17|0.55|||Mixed Models Analysis|||Month 36: TR Scale Score||0.55|-0.17|0.2965
92406902|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.24||0.1147|TWO_SIDED|95.0|-0.09|0.84|||Mixed Models Analysis|||Month 36: TR Scale Score||0.84|-0.09|0.1147
92406903|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|1.97||0.7786|TWO_SIDED|95.0|-4.42|3.31|||Mixed Models Analysis|||Month 36: Physical Component Summary||3.31|-4.42|0.7786
92406904|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48|STANDARD_ERROR_OF_MEAN|2.53||0.5582|TWO_SIDED|95.0|-6.45|3.49|||Mixed Models Analysis|||Month 36: Physical Component Summary||3.49|-6.45|0.5582
92406905|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.05|STANDARD_ERROR_OF_MEAN|2.25||0.0727|TWO_SIDED|95.0|-0.37|8.47|||Mixed Models Analysis|||Month 36: Mental Component Summary||8.47|-0.37|0.0727
92406906|NCT00658359|184703246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.86|STANDARD_ERROR_OF_MEAN|2.91||0.3264|TWO_SIDED|95.0|-2.86|8.59|||Mixed Models Analysis|||Month 36: Mental Component Summary||8.59|-2.86|0.3264
92406907|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.11||0.3093|TWO_SIDED|95.0|-0.1|0.33|||Mixed Models Analysis|||Month 24 Limited Physical Capacity||0.33|-0.10|0.3093
92406908|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.12||0.3223|TWO_SIDED|95.0|-0.12|0.36|||Mixed Models Analysis|||Month 24 Limited Physical Capacity||0.36|-0.12|0.3223
92406909|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.11||0.4858|TWO_SIDED|95.0|-0.14|0.3|||Mixed Models Analysis|||Month 24 Limited Cognitive Capacity||0.30|-0.14|0.4858
92406910|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.13||0.3679|TWO_SIDED|95.0|-0.13|0.36|||Mixed Models Analysis|||Month 24 Limited Cognitive Capacity||0.36|-0.13|0.3679
92406911|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.6416|TWO_SIDED|95.0|-0.27|0.17|||Mixed Models Analysis|||Month 24 Cardiac and Renal Dysfunction||0.17|-0.27|0.6416
92406912|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.4241|TWO_SIDED|95.0|-0.34|0.14|||Mixed Models Analysis|||Month 24 Cardiac and Renal Dysfunction||0.14|-0.34|0.4241
92406913|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.12||0.2133|TWO_SIDED|95.0|-0.09|0.39|||Mixed Models Analysis|||Month 24 Side Effects of Corticosteroids||0.39|-0.09|0.2133
92406914|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.13||0.1918|TWO_SIDED|95.0|-0.09|0.44|||Mixed Models Analysis|||Month 24 Side Effects of Corticosteroids||0.44|-0.09|0.1918
92406915|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.55|-0.14|||Mixed Models Analysis|||Month 24 Increased Growth of Gum and Hair||-0.14|-0.55|0.0010
92406916|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.12||0.002|TWO_SIDED|95.0|-0.59|-0.13|||Mixed Models Analysis|||Month 24 Increased Growth of Gum and Hair||-0.13|-0.59|0.0020
92406917|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.12||0.2012|TWO_SIDED|95.0|-0.08|0.4|||Mixed Models Analysis|||Month 24 Transplantation-Associated Psychological Distress||0.40|-0.08|0.2012
92406918|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.14||0.8986|TWO_SIDED|95.0|-0.25|0.29|||Mixed Models Analysis|||Month 24 Transplantation-Associated Psychological Distress||0.29|-0.25|0.8986
92406919|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.08||0.6724|TWO_SIDED|95.0|-0.13|0.2|||Mixed Models Analysis|||Month 24 Global Score||0.20|-0.13|0.6724
92406920|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.09||0.9297|TWO_SIDED|95.0|-0.18|0.19|||Mixed Models Analysis|||Month 24 Global Score||0.19|-0.18|0.9297
92277736|NCT01620489|184457697|SUPERIORITY_OR_OTHER||Estimated odds ratio|3.94|||<|0.0001||95.0|2.12|7.3||Not adjusted for multiple comparisons|Regression, Logistic|||Analysed by a logistic regression model with treatment, country and stratification groups as fixed effects and HbA1c at baseline as covariates.||7.30|2.12|<0.0001
92406921|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.13||0.8682|TWO_SIDED|95.0|-0.28|0.23|||Mixed Models Analysis|||Month 36 Limited Physical Capacity||0.23|-0.28|0.8682
92406922|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.18||0.3392|TWO_SIDED|95.0|-0.18|0.53|||Mixed Models Analysis|||Month 36 Limited Physical Capacity||0.53|-0.18|0.3392
92406923|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.13||0.6545|TWO_SIDED|95.0|-0.2|0.32|||Mixed Models Analysis|||Month 36 Limited Cognitive Capacity||0.32|-0.20|0.6545
92406924|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.19||0.3253|TWO_SIDED|95.0|-0.18|0.55|||Mixed Models Analysis|||Month 36 Limited Cognitive Capacity||0.55|-0.18|0.3253
92406925|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.9698|TWO_SIDED|95.0|-0.26|0.25|||Mixed Models Analysis|||Month 36 Cardiac and Renal Dysfunction||0.25|-0.26|0.9698
92406926|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.18||0.3065|TWO_SIDED|95.0|-0.17|0.54|||Mixed Models Analysis|||Month 36 Cardiac and Renal Dysfunction||0.54|-0.17|0.3065
92406927|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7147|TWO_SIDED|95.0|-0.33|0.23|||Mixed Models Analysis|||Month 36 Side Effects of Corticosteroids||0.23|-0.33|0.7147
92406928|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.2||0.4852|TWO_SIDED|95.0|-0.25|0.53|||Mixed Models Analysis|||Month 36 Side Effects of Corticosteroids||0.53|-0.25|0.4852
92406929|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.13||0.0888|TWO_SIDED|95.0|-0.46|0.03|||Mixed Models Analysis|||Month 36 Increased Growth of Gum and Hair||0.03|-0.46|0.0888
92406930|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.17||0.0719|TWO_SIDED|95.0|-0.65|0.03|||Mixed Models Analysis|||Month 36 Increased Growth of Gum and Hair||0.03|-0.65|0.0719
92406931|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7531|TWO_SIDED|95.0|-0.24|0.33|||Mixed Models Analysis|||Month 36 Transplantation-Associated Psychological Distress||0.33|-0.24|0.7531
92406932|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.2||0.6412|TWO_SIDED|95.0|-0.49|0.3|||Mixed Models Analysis|||Month 36 Transplantation-Associated Psychological Distress||0.30|-0.49|0.6412
92406933|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.1||0.9186|TWO_SIDED|95.0|-0.2|0.18|||Mixed Models Analysis|||Month 36 Global Score||0.18|-0.20|0.9186
92406934|NCT00658359|184703247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.14||0.6629|TWO_SIDED|95.0|-0.21|0.33|||Mixed Models Analysis|||Month 36 Global Score||0.33|-0.21|0.6629
92406935|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|1.72||0.2826|TWO_SIDED|95.0|-5.22|1.53|||Mixed Models Analysis|||Month 24 Pain Intensity Total Converted Score||1.53|-5.22|0.2826
92406936|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.22|STANDARD_ERROR_OF_MEAN|1.97||0.5371|TWO_SIDED|95.0|-2.65|5.09|||Mixed Models Analysis|||Month 24 Pain Intensity Total Converted Score||5.09|-2.65|0.5371
92406937|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.62||0.7503|TWO_SIDED|95.0|-1.41|1.02|||Mixed Models Analysis|||Month 24 Non-Pain Symptoms Converted Score||1.02|-1.41|0.7503
92406938|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|0.72||0.261|TWO_SIDED|95.0|-0.6|2.21|||Mixed Models Analysis|||Month 24 Non-Pain Symptoms Converted Score||2.21|-0.60|0.2610
92406939|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.98||0.3656|TWO_SIDED|95.0|-1.04|2.82|||Mixed Models Analysis|||Month 24 Satisfaction Converted Score||2.82|-1.04|0.3656
92370555|NCT01559259|184646496|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|11.47|||<|0.001|TWO_SIDED|95.0|4.98|26.42|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||26.42|4.98|<0.001
92370556|NCT01559259|184646496|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|8.11|||<|0.001|TWO_SIDED|95.0|3.52|18.68|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||18.68|3.52|<0.001
92370557|NCT01559259|184646496|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.49||||0.012|TWO_SIDED|95.0|1.09|2.04|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||2.04|1.09|0.012
92370558|NCT01559259|184646496|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.09||||0.57|TWO_SIDED|95.0|0.8|1.49|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||1.49|0.80|0.570
92370559|NCT01559259|184646496|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.41||||0.03|TWO_SIDED|95.0|1.03|1.93|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||1.93|1.03|0.030
92370560|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.39||||0.014|TWO_SIDED|95.0|0.08|0.71|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.71|0.08|0.014
92370561|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.33||||0.038|TWO_SIDED|95.0|0.02|0.64|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.64|0.02|0.038
92370562|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.48||||0.003|TWO_SIDED|95.0|0.17|0.79|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.79|0.17|0.003
92370563|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.23||||0.155|TWO_SIDED|95.0|-0.09|0.54|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.54|-0.09|0.155
92370564|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.17||||0.135|TWO_SIDED|95.0|-0.05|0.39|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.39|-0.05|0.135
92370565|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.35|TWO_SIDED|95.0|-0.11|0.32|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.32|-0.11|0.350
92370566|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.25||||0.024|TWO_SIDED|95.0|0.03|0.47|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.47|0.03|0.024
92370567|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.33|||<|0.001|TWO_SIDED|95.0|0.9|1.77|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.77|0.90|<0.001
92370568|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.26|||<|0.001|TWO_SIDED|95.0|0.83|1.7|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.70|0.83|<0.001
92370569|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.35||||0.001|TWO_SIDED|95.0|0.91|1.78|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.78|0.91|0.001
92370570|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.87|||<|0.001|TWO_SIDED|95.0|0.43|1.3|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.30|0.43|<0.001
92370571|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.47||||0.003|TWO_SIDED|95.0|0.16|0.77|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.77|0.16|0.003
92370572|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.4||||0.01|TWO_SIDED|95.0|0.1|0.7|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.70|0.10|0.010
92370573|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.48||||0.002|TWO_SIDED|95.0|0.18|0.79|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.79|0.18|0.002
92370574|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.12|||<|0.001|TWO_SIDED|95.0|1.66|2.58|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.58|1.66|<0.001
92370575|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.96|||<|0.001|TWO_SIDED|95.0|1.5|2.42|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.42|1.50|<0.001
92370576|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.14|||<|0.001|TWO_SIDED|95.0|1.67|2.6|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.60|1.67|<0.001
92370577|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.74|||<|0.001|TWO_SIDED|95.0|1.28|2.2|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.20|1.28|<0.001
92370578|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.38||||0.022|TWO_SIDED|95.0|0.05|0.7|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.70|0.05|0.022
92370579|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.22||||0.181|TWO_SIDED|95.0|-0.1|0.54|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.54|-0.10|0.181
92370580|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.4||||0.016|TWO_SIDED|95.0|0.07|0.72|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.72|0.07|0.016
92370581|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.43|||<|0.001|TWO_SIDED|95.0|1.98|2.88|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.88|1.98|<0.001
92370582|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.17|||<|0.001|TWO_SIDED|95.0|1.72|2.62|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.62|1.72|<0.001
92370583|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.46|||<|0.001|TWO_SIDED|95.0|2.01|2.91|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.91|2.01|<0.001
92370584|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.13|||<|0.001|TWO_SIDED|95.0|1.68|2.58|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.58|1.68|<0.001
92370585|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.3||||0.065|TWO_SIDED|95.0|-0.02|0.61|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.61|-0.02|0.065
92370586|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.04||||0.817|TWO_SIDED|95.0|-0.28|0.35|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.35|-0.28|0.817
92370587|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.33||||0.043|TWO_SIDED|95.0|0.01|0.64|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.64|0.01|0.043
92370588|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.53|||<|0.001|TWO_SIDED|95.0|2.06|3.01|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.01|2.06|<0.001
92370589|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.34|||<|0.001|TWO_SIDED|95.0|1.87|2.82|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.82|1.87|<0.001
92370590|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.63|||<|0.001|TWO_SIDED|95.0|2.15|3.11|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.11|2.15|<0.001
92370591|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.36|||<|0.001|TWO_SIDED|95.0|1.89|2.84|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.84|1.89|<0.001
92370592|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.17||||0.312|TWO_SIDED|95.0|-0.16|0.51|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.51|-0.16|0.312
92370593|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.02||||0.91|TWO_SIDED|95.0|-0.35|0.31|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.31|-0.35|0.910
92406940|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|STANDARD_ERROR_OF_MEAN|1.15||0.4405|TWO_SIDED|95.0|-3.16|1.37|||Mixed Models Analysis|||Month 24 Satisfaction Converted Score||1.37|-3.16|0.4405
92406941|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.96||0.4135|TWO_SIDED|95.0|-5.45|2.25|||Mixed Models Analysis|||Month 36 Pain Intensity Total Converted Score||2.25|-5.45|0.4135
92370594|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.27||||0.113|TWO_SIDED|95.0|-0.06|0.6|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.60|-0.06|0.113
92370595|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.48|||<|0.001|TWO_SIDED|95.0|1.98|2.97|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.97|1.98|<0.001
92406942|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|2.75||0.7272|TWO_SIDED|95.0|-4.45|6.37|||Mixed Models Analysis|||Month 36 Pain Intensity Total Converted Score||6.37|-4.45|0.7272
92406943|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.71||0.8111|TWO_SIDED|95.0|-1.56|1.22|||Mixed Models Analysis|||Month 36 Non-Pain symptoms Converted Score||1.22|-1.56|0.8111
92406944|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|1.02||0.2636|TWO_SIDED|95.0|-0.86|3.13|||Mixed Models Analysis|||Month 36 Non-Pain Symptoms Converted Score||3.13|-0.86|0.2636
92406945|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|1.13||0.689|TWO_SIDED|95.0|-1.77|2.67|||Mixed Models Analysis|||Month 36 Satisfaction Converted Score||2.67|-1.77|0.6890
92168843|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.13||0.6349|TWO_SIDED|95.0|-0.31|0.19|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.19|-0.31|0.6349
92168844|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.13||0.1339|TWO_SIDED|95.0|-0.44|0.06|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.44|0.1339
92406946|NCT00658359|184703248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13|STANDARD_ERROR_OF_MEAN|1.62||0.4853|TWO_SIDED|95.0|-4.31|2.05|||Mixed Models Analysis|||Month 36 Satisfaction Converted Score||2.05|-4.31|0.4853
92406947|NCT01075685|184703251|SUPERIORITY_OR_OTHER|||||||0.0279||95.0|||||Type 3 tests of fixed effects|||||||0.0279
92406948|NCT01075685|184703252|SUPERIORITY_OR_OTHER|||||||0.0189||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0189
92406949|NCT01075685|184703253|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Chi-squared|||||||0.009
92406950|NCT01075685|184703254|SUPERIORITY_OR_OTHER|||||||0.082||95.0|||||Chi-squared|||||||0.082
92406951|NCT00363480|184703286|SUPERIORITY_OR_OTHER||Percentage diffrence|-30.6|||<|0.0001|TWO_SIDED|95.0|-37.89|-23.29|||McNemar|||Comparison between GOAL and ACT response||-23.29|-37.89|<0.0001
92406952|NCT00363480|184703287|SUPERIORITY_OR_OTHER||t-Distribution|50.2|||||TWO_SIDED|95.0|43.15|57.32||||||||57.32|43.15|
92406953|NCT02129699|184703324|SUPERIORITY|Pre-specified analysis|Hazard Ratio (HR)|0.96||||0.355|TWO_SIDED|95.0|0.78|1.19|||Regression, Cox|Cox regression model for treatment effect, analysis adjusted for stratification factors||||1.19|0.78|0.355
92406954|NCT02129699|184703325|SUPERIORITY|Pre-specified analysis|Hazard Ratio (HR)|0.99||||0.459|TWO_SIDED|95.0|0.82|1.19|||Regression, Cox|||||1.19|0.82|0.459
92406955|NCT06482125|184703359|SUPERIORITY||Odds Ratio (OR)|40.955||||0.001|TWO_SIDED|95.0|14.098|118.972|||Chi-squared, Corrected|||||118.972|14.098|0.001
92406956|NCT06482125|184703360|EQUIVALENCE|The threshold for statistical significance is p \< 0.05||||||0.345|||||||Wilcoxon (Mann-Whitney)|||||||0.345
92406957|NCT06482125|184703361|EQUIVALENCE|The threshold for statistical significance is p \< 0.05||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||0.450
92406958|NCT06482125|184703362|EQUIVALENCE|Reject H0 = the means are equivalent|Median Difference (Net)|1.0||||0.356|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.356
92406959|NCT06482125|184703363|EQUIVALENCE|Reject H0 = the means are equivalent|Mean Difference (Final Values)|8.202||||0.07|TWO_SIDED|95.0|2.31|14.095|||t-test, 2 sided|||||14.095|2.310|0.07
92406960|NCT04701762|184703384|SUPERIORITY||Odds Ratio (OR)|0.2|||<|0.001|TWO_SIDED|99.32|0.14|0.29|||GLM cumulative logit GEE model|||||0.29|0.14|<0.001
92406961|NCT04701762|184703385|SUPERIORITY||Risk Ratio (RR)|0.06|||<|0.001|TWO_SIDED|99.32|0.03|0.14|||Wilcoxon (Mann-Whitney)|||||0.14|0.03|<0.001
92406962|NCT04701762|184703386|SUPERIORITY||Risk Ratio (RR)|0.87||||0.53|TWO_SIDED|99.32|0.48|1.58|||GLM log-binomial model (log link)|||||1.58|0.48|0.53
92406963|NCT04701762|184703387|SUPERIORITY||Mean Difference (Final Values)|2.0|||<|0.001|TWO_SIDED|95.0|0.92|3.1|||Mixed Models Analysis|||||3.1|0.92|<0.001
92406964|NCT04701762|184703388|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.27|TWO_SIDED|95.0|-0.34|1.2|||Mixed Models Analysis|||||1.2|-0.34|0.27
92406965|NCT05786651|184703389|EQUIVALENCE|Comparison of conditions|||||<|0.05|||||||ANOVA|||||||<.05
92406966|NCT05786651|184703390|EQUIVALENCE|Comparisons of mean values of conditions|||||<|0.05|||||||ANOVA|||||||<.05
92446264|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.087||0.3545|TWO_SIDED|95.0|-0.09|0.25|||MMRM|||Genital Symptoms, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.09|0.3545
92446265|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.094||0.6531|TWO_SIDED|95.0|-0.14|0.23|||MMRM|||Genital Symptoms, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.14|0.6531
92446266|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.115||0.752|TWO_SIDED|95.0|-0.26|0.19|||MMRM|||Genital Symptoms, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.26|0.7520
92370596|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.25|||<|0.001|TWO_SIDED|95.0|1.76|2.75|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.75|1.76|<0.001
92370597|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.51|||<|0.001|TWO_SIDED|95.0|2.02|3.01|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.01|2.02|<0.001
92370598|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.35|||<|0.001|TWO_SIDED|95.0|1.86|2.85|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.85|1.86|<0.001
92370599|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.12||||0.482|TWO_SIDED|95.0|-0.22|0.47|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.47|-0.22|0.482
92370600|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.1||||0.573|TWO_SIDED|95.0|-0.44|0.24|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.24|-0.44|0.573
92406967|NCT03397966|184703413|SUPERIORITY|||||||0.063||||||The investigators tested the effect of treatment (BNP vs. control) on the primary endpoint using mixed effects modeling, adjusting for treatment sequence, to assess the effect of treatment on each endpoint.|Mixed Models Analysis|||The primary endpoint is change in resting energy expenditure, calculated as final resting energy expenditure adjusted for baseline level, using linear regression. The null hypothesis is that there will be no significant effect of treatment on each endpoint. The investigators adhered to intention-to-treat principles. The test was performed with a significance level of 0.05.||||0.063
92406968|NCT03397966|184703414|SUPERIORITY|||||||0.07||||||Paired t-test.|t-test, 2 sided|||The null hypothesis is that there will be no significant effect of BNP on adipose gene expression of UCP1 compared with placebo. The alternative hypothesis is that UCP1 expression would be significantly higher after BNP treatment compared with placebo.||||0.07
92370601|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.368|TWO_SIDED|95.0|-0.19|0.5|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.50|-0.19|0.368
92370602|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.4|||<|0.001|TWO_SIDED|95.0|1.88|2.91|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.91|1.88|<0.001
92370603|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.17|||<|0.001|TWO_SIDED|95.0|1.66|2.68|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.68|1.66|<0.001
92370604|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.44|||<|0.001|TWO_SIDED|95.0|1.93|2.96|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.96|1.93|<0.001
92370605|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.23|||<|0.001|TWO_SIDED|95.0|1.72|2.74|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.74|1.72|<0.001
92370606|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.17||||0.352|TWO_SIDED|95.0|-0.19|0.53|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.53|-0.19|0.352
92370607|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.771|TWO_SIDED|95.0|-0.41|0.3|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.30|-0.41|0.771
92370608|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.22||||0.235|TWO_SIDED|95.0|-0.14|0.58|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.58|-0.14|0.235
92370609|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.32|||<|0.001|TWO_SIDED|95.0|1.79|2.86|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.86|1.79|<0.001
92370610|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.05|||<|0.001|TWO_SIDED|95.0|1.52|2.58|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.58|1.52|<0.001
92370611|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.37|||<|0.001|TWO_SIDED|95.0|1.83|2.9|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.90|1.83|<0.001
92370612|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.2|||<|0.001|TWO_SIDED|95.0|1.66|2.73|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.73|1.66|<0.001
92406969|NCT02605122|184703420|OTHER||Proportion experiencing TEAE or TESAE|34.3|||||TWO_SIDED|95.0|23.0|47.0||No p-value was performed. Study prematurely discontinued. Clopper-Pearson analysis was used to determine confidence intervals.|Clopper-Pearson|||||47|23|
92406970|NCT02605122|184703421|OTHER||Achievement of ECR|62.1|||||TWO_SIDED|95.0|49.0|74.0||No p-value was performed. Study prematurely discontinued. Clopper-Pearson analysis was used to determine confidence intervals.|Clopper-Pearson|||||74|49|
92168845|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.13||0.6237|TWO_SIDED|95.0|-0.33|0.2|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.20|-0.33|0.6237
92370613|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.13||||0.51|TWO_SIDED|95.0|-0.25|0.5|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.50|-0.25|0.510
92370614|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.15||||0.442|TWO_SIDED|95.0|-0.52|0.23|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.23|-0.52|0.442
92370615|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.17||||0.372|TWO_SIDED|95.0|-0.2|0.54|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.54|-0.20|0.372
92370616|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.97|||<|0.001|TWO_SIDED|95.0|1.39|2.55|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.55|1.39|<0.001
92370617|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.82|||<|0.001|TWO_SIDED|95.0|1.25|2.4|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.40|1.25|<0.001
92370618|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.15|||<|0.001|TWO_SIDED|95.0|1.57|2.72|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.72|1.57|<0.001
92406971|NCT02605122|184703422|OTHER||Achievement of Clinical Improvement|68.7|||||TWO_SIDED|95.0|58.0|78.0||No p-value was performed. Study prematurely discontinued. Clopper-Pearson analysis was used to determine confidence intervals.|Clopper-Pearson|||||78|58|
92370619|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.87|||<|0.001|TWO_SIDED|95.0|1.3|2.45|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.45|1.30|<0.001
92370620|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.639|TWO_SIDED|95.0|-0.31|0.5|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.50|-0.31|0.639
92370621|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.803|TWO_SIDED|95.0|-0.45|0.35|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.35|-0.45|0.803
92370622|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.27||||0.184|TWO_SIDED|95.0|-0.13|0.67|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.67|-0.13|0.184
92370623|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.67|||<|0.001|TWO_SIDED|95.0|1.07|2.26|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.26|1.07|<0.001
92370624|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.58|||<|0.001|TWO_SIDED|95.0|0.99|2.17|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.17|0.99|<0.001
92370625|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.84|||<|0.001|TWO_SIDED|95.0|1.25|2.43|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.43|1.25|<0.001
92370626|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.69|||<|0.001|TWO_SIDED|95.0|1.1|2.28|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.28|1.10|<0.001
92370627|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.02||||0.91|TWO_SIDED|95.0|-0.44|0.39|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.39|-0.44|0.910
92370628|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.11||||0.607|TWO_SIDED|95.0|-0.52|0.3|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.30|-0.52|0.607
92406972|NCT02605122|184703423|OTHER||Achievement of Clinical Cure|62.0|||||TWO_SIDED|95.0|50.0|73.0||No p-value was performed. Study prematurely discontinued. Clopper-Pearson was used to determine confidence intervals.|Clopper-Pearson|||||73|50|
92370629|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.15||||0.484|TWO_SIDED|95.0|-0.27|0.56|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.56|-0.27|0.484
92370630|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.25|||<|0.001|TWO_SIDED|95.0|0.64|1.86|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.86|0.64|<0.001
92370631|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.36|||<|0.001|TWO_SIDED|95.0|0.75|1.97|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.97|0.75|<0.001
92370632|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.38|||<|0.001|TWO_SIDED|95.0|0.77|1.99|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.99|0.77|<0.001
92370633|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.5|||<|0.001|TWO_SIDED|95.0|0.89|2.1|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.10|0.89|<0.001
92406973|NCT01399372|184703430|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.015|TWO_SIDED|95.0|0.27|0.95||One-sided significance level = 0.15|Log Rank||Reference arm = Chemotherapy|Sample size of 89 provided 80% power to detect a hazard ratio of 0.63 at a one-sided alpha level of 0.15.||0.95|0.27|0.015
92406974|NCT01399372|184703431|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.48|TWO_SIDED|95.0|0.38|1.58||Two-sided significance level = 0.05|Log Rank||Reference arm = Chemotherapy|||1.58|0.38|0.48
92240154|NCT00570739|184383831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.7051|TWO_SIDED|95.0|-18.64|12.64||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||12.64|-18.64|0.7051
92370634|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.25||||0.256|TWO_SIDED|95.0|-0.67|0.18|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.18|-0.67|0.256
92370635|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.14||||0.526|TWO_SIDED|95.0|-0.56|0.29|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.29|-0.56|0.526
92370636|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.11||||0.602|TWO_SIDED|95.0|-0.54|0.31|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.31|-0.54|0.602
92370637|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.95||||0.002|TWO_SIDED|95.0|0.34|1.56|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.56|0.34|0.002
92370638|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.98||||0.001|TWO_SIDED|95.0|0.38|1.59|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.59|0.38|0.001
92370639|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.25|||<|0.001|TWO_SIDED|95.0|0.65|1.86|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.86|0.65|<0.001
92370640|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.22|||<|0.001|TWO_SIDED|95.0|0.61|1.82|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.82|0.61|<0.001
92370641|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.26||||0.224|TWO_SIDED|95.0|-0.69|0.16|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.16|-0.69|0.224
92370642|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.23||||0.283|TWO_SIDED|95.0|-0.65|0.19|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.19|-0.65|0.283
92370643|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.04||||0.86|TWO_SIDED|95.0|-0.39|0.46|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.46|-0.39|0.860
92370644|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.63||||0.038|TWO_SIDED|95.0|0.03|1.22|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.22|0.03|0.038
92370645|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.65||||0.031|TWO_SIDED|95.0|0.06|1.24|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.24|0.06|0.031
92406975|NCT01399372|184703433|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||A mixed effects model of EORTC QLQ-C30 GHS was run with independent variables treatment arm, time, baseline Memorial Sloan-Kettering Cancer Center (MSKCC) recursive partitioning analysis (RPA) class, and baseline neurologic symptoms (none/minor vs. moderate/severe), including the interaction of treatment and time, representing difference in the longitudinal trajectory of the scores between the treatment arms. Prospectively, the interaction effect was of most interest and is reported here,||||0.005
92406976|NCT01399372|184703434|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.18|TWO_SIDED|95.0|0.21|1.31|||Gray's test||Reference arm = Chemotherapy arm|||1.31|0.21|0.18
92406977|NCT03284307|184703437|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.043||0.012|TWO_SIDED|||||Statistical significance defined by p \< 0.05.|Mixed Models Analysis||Estimate is a slope from a linear mixed effects model representing the difference in occipital delta power between unconsciousness and disconnected consciousness after adjusting for within-subject effects.|Dexmedetomidine, Unconsciousness vs Disconnected Consciousness||||0.012
92406978|NCT03284307|184703437|SUPERIORITY||Slope|-0.238|STANDARD_ERROR_OF_MEAN|0.199||0.236|TWO_SIDED|||||Statistical significance defined by p \< 0.05.|Mixed Models Analysis||Estimate is a slope from a linear mixed effects model representing the difference in occipital delta power between unconsciousness and disconnected consciousness after adjusting for within-subject effects.|Ketamine, Unconsciousness vs Disconnected Consciousness||||0.236
92406979|NCT03284307|184703437|SUPERIORITY||Slope|0.166|STANDARD_ERROR_OF_MEAN|0.12||0.174|TWO_SIDED|||||Statistical significance defined by p \< 0.05.|Mixed Models Analysis||Estimate is a slope from a linear mixed effects model representing the difference in occipital delta power between unconsciousness and disconnected consciousness after adjusting for within-subject effects.|Propofol, Unconsciousness vs Disconnected Consciousness||||0.174
92406980|NCT03284307|184703437|SUPERIORITY||Slope|0.052|STANDARD_ERROR_OF_MEAN|0.111||0.64|TWO_SIDED|||||Statistical significance defined by p \< 0.05.|Mixed Models Analysis||Estimate is a slope from a linear mixed effects model representing the difference in occipital delta power between unconsciousness and disconnected consciousness after adjusting for within-subject effects.|Sleep, Unconsciousness vs Disconnected Consciousness||||0.640
92406981|NCT03284307|184703439|SUPERIORITY|||||||0.134||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|3 degrees of freedom||NIH Toolbox Card Sorting Score||||0.134
92406982|NCT03284307|184703439|SUPERIORITY|||||||0.012||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|6 degrees of freedom||NIH Toolbox Card Sorting Score||||0.012
92406983|NCT03284307|184703439|SUPERIORITY|||||||0.487||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|1 degree of freedom||NIH Toolbox Card Sorting Score||||0.487
92406984|NCT03284307|184703439|SUPERIORITY|||||||0.046||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|3 degrees of freedom||NIH Toolbox Flanker Score||||0.046
92406985|NCT03284307|184703439|SUPERIORITY|||||||0.01||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|6 degrees of freedom||NIH Toolbox Flanker Score||||0.010
92406986|NCT03284307|184703439|SUPERIORITY|||||||0.356||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|||NIH Toolbox Flanker Score||||0.356
92406987|NCT03284307|184703440|SUPERIORITY||||||<|0.001||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|17 degrees of freedom||Predictive Coding Task Accuracy||||<0.001
92406988|NCT03284307|184703440|SUPERIORITY||||||<|0.001||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|14 degrees of freedom||Predictive Coding Task Accuracy||||<0.001
92406989|NCT03284307|184703440|SUPERIORITY|||||||0.067||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|4 degrees of freedom||Predictive Coding Task Accuracy||||0.067
92406990|NCT03284307|184703441|SUPERIORITY|||||||0.5||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|17 degrees of freedom||Null hypothesis is a 50% recall rate.||||0.5
92406991|NCT03284307|184703441|SUPERIORITY|||||||0.37||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|11 degrees of freedom||Null hypothesis is a 50% recall rate.||||0.37
92406992|NCT03284307|184703441|SUPERIORITY|||||||0.12||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|4 degrees of freedom||Null hypothesis is a 50% recall rate.||||0.12
92406993|NCT00043979|184703469|SUPERIORITY_OR_OTHER|||||||0.0003||||||7 participants who did not receive a transplant compared with 21 participants transplanted.|Kaplan-Meier|||||||.0003
92406994|NCT03096288|184703483|SUPERIORITY||Mean Difference (Final Values)|22.0||||0.169|TWO_SIDED|95.0|-9.0|52.0|||t-test, 2 sided|||||52|-9|0.169
92406995|NCT03096288|184703483|SUPERIORITY||Median Difference (Final Values)|17.0||||0.236|TWO_SIDED|95.0|-11.0|45.0|||t-test, 2 sided|||||45|-11|0.236
92406996|NCT02858362|184703517|OTHER|Difference in least square means. All 23 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|0.023|||||TWO_SIDED|95.0|-0.002|0.048||||||Week 24 Change from Baseline||0.048|-0.002|
92406997|NCT02858362|184703517|OTHER|Difference in least square means. All 16 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|0.006|||||TWO_SIDED|95.0|-0.03|0.042||||||Week 48 Change from Baseline||0.042|-0.03|
92406998|NCT02858362|184703518|OTHER|Difference in least square means. All 24 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|-2.611|||||TWO_SIDED|95.0|-4.324|-0.898||||||Week 24 Change from Baseline||-0.898|-4.324|
92406999|NCT02858362|184703518|OTHER|Difference in least square means. All 16 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|1.166|||||TWO_SIDED|95.0|-1.103|3.435||||||Week 48 Change from Baseline||3.435|-1.103|
92407000|NCT02858362|184703519|OTHER|Difference in least square means. All 24 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|-1.837|||||TWO_SIDED|95.0|-3.989|0.315||||||Week 24 Change from Baseline||0.315|-3.989|
92407001|NCT02858362|184703519|OTHER|Difference in least square means. All 16 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|2.21|||||TWO_SIDED|95.0|0.096|4.324||||||Week 48 Change from Baseline||4.324|0.096|
92407002|NCT01821118|184703548|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.984|STANDARD_ERROR_OF_MEAN|0.112|||TWO_SIDED|90.0|0.82|1.184|||||SE of mean is presented in log e scale.|ROI1: Analysis of the change from baseline in log(slope) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(slope) at baseline was included as a covariate.||1.184|0.820|
92407003|NCT01821118|184703548|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.934|STANDARD_ERROR_OF_MEAN|0.075|||TWO_SIDED|90.0|0.825|1.056|||||SE of mean is presented in log e scale.|ROI2: Analysis of the change from baseline in log(slope) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(slope) at baseline was included as a covariate.||1.056|0.825|
92407004|NCT01821118|184703549|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.852|STANDARD_ERROR_OF_MEAN|0.091|||TWO_SIDED|90.0|0.735|0.989|||||SE of mean is presented on log e scale.|ROI1: Analysis of the change from baseline in log(slope) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(slope) at baseline was included as a covariate.||0.989|0.735|
92407005|NCT01821118|184703549|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.902|STANDARD_ERROR_OF_MEAN|0.082|||TWO_SIDED|90.0|0.788|1.031|||||SE of mean presented on log e scale.|ROI2: Analysis of the change from baseline in log(slope) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(slope) at baseline was included as a covariate.||1.031|0.788|
92407006|NCT01821118|184703550|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.005|STANDARD_ERROR_OF_MEAN|0.046|||TWO_SIDED|90.0|0.933|1.086|||||SE of mean presented on log e scale.|ROI1, Day 2: Analysis of the change from baseline in log(time to peak) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to peak) at baseline was included as a covariate.||1.086|0.933|
92407007|NCT01821118|184703550|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.049|STANDARD_ERROR_OF_MEAN|0.036|||TWO_SIDED|90.0|0.99|1.114|||||SE of mean presented on log e scale.|ROI1, Day 90: Analysis of the change from baseline in log(time to peak) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to peak) at baseline was included as a covariate.||1.114|0.990|
92407008|NCT01821118|184703550|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.998|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|90.0|0.947|1.052|||||SE of mean presented on log e scale.|ROI2, Day 2: Analysis of the change from baseline in log(time to peak) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to peak) at baseline was included as a covariate.||1.052|0.947|
92407009|NCT01821118|184703550|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01|STANDARD_ERROR_OF_MEAN|0.031|||TWO_SIDED|90.0|0.96|1.063|||||SE of mean presented on log e scale.|ROI2, Day 90: Analysis of the change from baseline in log(time to peak) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to peak) at baseline was included as a covariate.||1.063|0.960|
92407010|NCT01821118|184703551|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|0.0602|STANDARD_ERROR_OF_MEAN|0.1281|||TWO_SIDED|90.0|-0.1576|0.2781||||||ROI1, Day 2: Analysis of the change from baseline in log(amplitude) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(amplitude) at baseline was included as a covariate.||0.2781|-0.1576|
92407011|NCT01821118|184703551|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|-0.0859|STANDARD_ERROR_OF_MEAN|0.1165|||TWO_SIDED|90.0|-0.2843|0.1124||||||ROI1, Day 90: Analysis of the change from baseline in log(amplitude) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(amplitude) at baseline was included as a covariate.||0.1124|-0.2843|
92407012|NCT01821118|184703551|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|-0.0488|STANDARD_ERROR_OF_MEAN|0.0902|||TWO_SIDED|90.0|-0.2018|0.1042||||||ROI2, Day 2: Analysis of the change from baseline in log(amplitude) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(amplitude) at baseline was included as a covariate.||0.1042|-0.2018|
92407013|NCT01821118|184703551|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|-0.0888|STANDARD_ERROR_OF_MEAN|0.1061|||TWO_SIDED|90.0|-0.2689|0.0914||||||ROI2, Day 90: Analysis of the change from baseline in log(amplitude) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(amplitude) at baseline was included as a covariate.||0.0914|-0.2689|
92407014|NCT01821118|184703552|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|0.0464|STANDARD_ERROR_OF_MEAN|0.0395|||TWO_SIDED|90.0|-0.0207|0.1136||||||ROI1, Day 2: Analysis of the change from baseline in log(time to return to baseline) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to return to baseline) at baseline was included as a covariate.||0.1136|-0.0207|
92240155|NCT00570739|184383831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8||||0.5267|TWO_SIDED|95.0|-19.72|10.13||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||10.13|-19.72|0.5267
92370646|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.03|||<|0.001|TWO_SIDED|95.0|0.43|1.62|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.62|0.43|<0.001
92370647|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.95||||0.002|TWO_SIDED|95.0|0.36|1.54|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.54|0.36|0.002
92370648|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.32||||0.129|TWO_SIDED|95.0|-0.74|0.09|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.09|-0.74|0.129
92370649|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.3||||0.154|TWO_SIDED|95.0|-0.71|0.11|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.11|-0.71|0.154
92370650|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.08||||0.714|TWO_SIDED|95.0|-0.34|0.49|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.49|-0.34|0.714
92370651|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.37||||0.217|TWO_SIDED|95.0|-0.22|0.96|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.96|-0.22|0.217
92407015|NCT01821118|184703552|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|0.0737|STANDARD_ERROR_OF_MEAN|0.0383|||TWO_SIDED|90.0|0.0084|0.139||||||ROI1, Day 90: Analysis of the change from baseline in log(time to return to baseline) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to return to baseline) at baseline was included as a covariate.||0.1390|0.0084|
92370652|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.45||||0.136|TWO_SIDED|95.0|-0.14|1.03|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.03|-0.14|0.136
92370653|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.78||||0.01|TWO_SIDED|95.0|0.19|1.37|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.37|0.19|0.010
92370654|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.83||||0.006|TWO_SIDED|95.0|0.24|1.41|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.41|0.24|0.006
92370655|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.45||||0.031|TWO_SIDED|95.0|-0.87|-0.04|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||-0.04|-0.87|0.031
92370656|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.38||||0.07|TWO_SIDED|95.0|-0.79|0.03|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.03|-0.79|0.070
92370657|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.822|TWO_SIDED|95.0|-0.46|0.37|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.37|-0.46|0.822
92370658|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.28||||0.327|TWO_SIDED|95.0|-0.28|0.83|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.83|-0.28|0.327
92370659|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.34||||0.224|TWO_SIDED|95.0|-0.21|0.89|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.89|-0.21|0.224
92370660|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.63||||0.025|TWO_SIDED|95.0|0.08|1.19|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.19|0.08|0.025
92370661|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.7||||0.012|TWO_SIDED|95.0|0.15|1.25|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.25|0.15|0.012
92370662|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.43||||0.03|TWO_SIDED|95.0|-0.81|-0.04|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||-0.04|-0.81|0.030
92370663|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.36||||0.064|TWO_SIDED|95.0|-0.75|0.02|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.02|-0.75|0.064
92370664|NCT01559259|184646497|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.721|TWO_SIDED|95.0|-0.46|0.32|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.32|-0.46|0.721
92407016|NCT01821118|184703552|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|0.0219|STANDARD_ERROR_OF_MEAN|0.0337|||TWO_SIDED|90.0|-0.0352|0.079||||||ROI2, Day 2: Analysis of the change from baseline in log(time to return to baseline) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to return to baseline) at baseline was included as a covariate.||0.0790|-0.0352|
92407017|NCT01821118|184703552|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|0.0117|STANDARD_ERROR_OF_MEAN|0.034|||TWO_SIDED|90.0|-0.046|0.0694||||||ROI2, Day 90: Analysis of the change from baseline in log(time to return to baseline) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to return to baseline) at baseline was included as a covariate.||0.0694|-0.0460|
92407018|NCT05038982|184703580|SUPERIORITY||Mean Difference (Net)|78.26|STANDARD_ERROR_OF_MEAN|16.15|<|0.001|TWO_SIDED|95.0|38.09|118.48||Threshold of significance at 0.05.|ANOVA||Percent PP-NRS reduction comparing subject's values at Week 0 to values at Week 12|||118.48|38.09|<0.001
92407019|NCT05038982|184703580|SUPERIORITY||Mean Difference (Net)|53.66|STANDARD_ERROR_OF_MEAN|18.12||0.0142|TWO_SIDED|95.0|8.55|98.76||Threshold of significance at 0.05.|ANOVA||Percent PP-NRS reduction comparing subject's values at Week 0 to values at Week 12|||98.76|8.55|0.0142
92407020|NCT05038982|184703582|SUPERIORITY||Mean Difference (Net)|9.4|STANDARD_ERROR_OF_MEAN|1.37||0.002|TWO_SIDED|95.0|6.3|12.5||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||12.5|6.3|0.002
92407021|NCT05038982|184703582|SUPERIORITY||Mean Difference (Net)|6.1|STANDARD_ERROR_OF_MEAN|1.99||0.0215|TWO_SIDED|95.0|1.6|10.6||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||10.6|1.6|0.0215
92407022|NCT05038982|184703583|SUPERIORITY||Mean Difference (Net)|10.1|STANDARD_ERROR_OF_MEAN|1.86||0.002|TWO_SIDED|95.0|5.9|14.3||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||14.3|5.9|0.002
92407023|NCT05038982|184703583|SUPERIORITY||Mean Difference (Net)|4.7|STANDARD_ERROR_OF_MEAN|1.74||0.02|TWO_SIDED|95.0|0.77|8.6||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||8.6|0.77|0.02
92407024|NCT05038982|184703584|SUPERIORITY||Mean Difference (Net)|5.44|STANDARD_ERROR_OF_MEAN|1.21||0.0078|TWO_SIDED|95.0|2.7|8.18||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||8.18|2.70|0.0078
92407025|NCT05038982|184703585|SUPERIORITY||Mean Difference (Net)|12.73|STANDARD_ERROR_OF_MEAN|3.16||0.0098|TWO_SIDED|95.0|5.57|19.89||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||19.89|5.57|0.0098
92407026|NCT05038982|184703585|SUPERIORITY||Mean Difference (Net)|9.88|STANDARD_ERROR_OF_MEAN|3.0||0.0117|TWO_SIDED|95.0|3.1|16.66||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||16.66|3.10|0.0117
92407027|NCT05038982|184703586|SUPERIORITY||Mean Difference (Net)|10.2|STANDARD_ERROR_OF_MEAN|2.54||0.002|TWO_SIDED|95.0|4.46|15.94||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||15.94|4.46|0.002
92227453|NCT02804763|184357561|SUPERIORITY||LS Mean Difference vs PBO|11.9|||||TWO_SIDED|95.0|-8.7|32.5||Generalized linear models with factors for treatment and corticosteroid strata were fit using an identity link function for the LS mean differences.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||32.5|-8.7|
92407028|NCT05038982|184703587|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|0.23||0.0078|TWO_SIDED|95.0|0.57|1.63||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||1.63|0.57|0.0078
92407029|NCT05038982|184703588|SUPERIORITY||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.055||0.0391|TWO_SIDED|95.0|0.025|0.27||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||0.27|0.025|0.0391
92407030|NCT05038982|184703588|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.086||0.28|TWO_SIDED|95.0|-0.08|0.31||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||0.31|-.080|0.28
92407031|NCT05038982|184703589|SUPERIORITY||Mean Difference (Net)|3.6|STANDARD_ERROR_OF_MEAN|1.607||0.0684|TWO_SIDED|95.0|0.035|7.235||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||7.235|0.035|0.0684
92407032|NCT05038982|184703589|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|1.13||0.375|TWO_SIDED|95.0|-3.656|1.456||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||||1.456|-3.656|0.375
92407033|NCT05038982|184703590|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|1.212||0.207|TWO_SIDED|95.0|-3.44|2.04||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||2.04|-3.44|0.207
92407034|NCT05038982|184703590|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.498||0.8125|TWO_SIDED|95.0|-3.389|3.389||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||3.389|-3.389|0.8125
92370665|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.22||||0.033|TWO_SIDED|95.0|0.02|0.42|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.42|0.02|0.033
92370666|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.13||||0.224|TWO_SIDED|95.0|-0.08|0.33|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.33|-0.08|0.224
92370667|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.23||||0.024|TWO_SIDED|95.0|0.03|0.44|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.44|0.03|0.024
92370668|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.07||||0.501|TWO_SIDED|95.0|-0.13|0.27|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.27|-0.13|0.501
92370669|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.15||||0.036|TWO_SIDED|95.0|0.01|0.29|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.29|0.01|0.036
92370670|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.06||||0.435|TWO_SIDED|95.0|-0.08|0.2|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.20|-0.08|0.435
92168846|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.4224|TWO_SIDED|95.0|-0.37|0.16|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.16|-0.37|0.4224
92370671|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.023|TWO_SIDED|95.0|0.02|0.31|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.31|0.02|0.023
92370672|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.82|||<|0.001|TWO_SIDED|95.0|0.52|1.12|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.12|0.52|<0.001
92370673|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.67|||<|0.001|TWO_SIDED|95.0|0.37|0.97|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.97|0.37|<0.001
92370674|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.74|||<|0.001|TWO_SIDED|95.0|0.45|1.04|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.04|0.45|<0.001
92370675|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.45||||0.003|TWO_SIDED|95.0|0.16|0.75|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.75|0.16|0.003
92370676|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.37|||<|0.001|TWO_SIDED|95.0|0.16|0.58|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.58|0.16|<0.001
92370677|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.22||||0.039|TWO_SIDED|95.0|0.01|0.42|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.42|0.01|0.039
92370678|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.006|TWO_SIDED|95.0|0.08|0.5|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.50|0.08|0.006
92370679|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.33|||<|0.001|TWO_SIDED|95.0|1.01|1.65|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.65|1.01|<0.001
92370680|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.17|||<|0.001|TWO_SIDED|95.0|0.85|1.49|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.49|0.85|<0.001
92370681|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.35|||<|0.001|TWO_SIDED|95.0|1.03|1.67|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.67|1.03|<0.001
92370682|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.04|||<|0.001|TWO_SIDED|95.0|0.72|1.36|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.36|0.72|<0.001
92370683|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.011|TWO_SIDED|95.0|0.07|0.52|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.52|0.07|0.011
92370684|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.13||||0.267|TWO_SIDED|95.0|-0.1|0.35|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.35|-0.10|0.267
92370685|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.31||||0.007|TWO_SIDED|95.0|0.09|0.53|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.53|0.09|0.007
92370686|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.57|||<|0.001|TWO_SIDED|95.0|1.24|1.89|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.89|1.24|<0.001
92370687|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.38|||<|0.001|TWO_SIDED|95.0|1.06|1.7|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.70|1.06|<0.001
92407035|NCT05038982|184703591|SUPERIORITY||Mean Difference (Net)|4.8|STANDARD_ERROR_OF_MEAN|1.009||0.0039|TWO_SIDED|95.0|2.52|7.08||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||7.08|2.52|0.0039
92407036|NCT05038982|184703591|SUPERIORITY||Mean Difference (Net)|2.3|STANDARD_ERROR_OF_MEAN|1.033||0.0547|TWO_SIDED|95.0|-0.0376|4.638||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||4.638|-0.0376|0.0547
92407037|NCT05038982|184703592|SUPERIORITY||Mean Difference (Net)|9.0||||0.0003|TWO_SIDED|95.0|6.93|11.07||Threshold of significance at 0.05.|t-test, 2 sided|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||11.07|6.93|0.0003
92370688|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.57|||<|0.001|TWO_SIDED|95.0|1.25|1.9|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.90|1.25|<0.001
92370689|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.35|||<|0.001|TWO_SIDED|95.0|1.02|1.67|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.67|1.02|<0.001
92370690|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.22||||0.056|TWO_SIDED|95.0|-0.01|0.45|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.45|-0.01|0.056
92370691|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.04||||0.759|TWO_SIDED|95.0|-0.19|0.26|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.26|-0.19|0.759
92370692|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.23||||0.051|TWO_SIDED|95.0|0.0|0.45|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.45|-0.00|0.051
92370693|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.64|||<|0.001|TWO_SIDED|95.0|1.3|1.98|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.98|1.30|<0.001
92370694|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.52|||<|0.001|TWO_SIDED|95.0|1.18|1.85|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.85|1.18|<0.001
92370695|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.71|||<|0.001|TWO_SIDED|95.0|1.37|2.05|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.05|1.37|<0.001
92407038|NCT05038982|184703593|SUPERIORITY||Mean Difference (Net)|6.429|||<|0.0001|TWO_SIDED|95.0|4.011|8.846||Threshold of significance at 0.05.|t-test, 2 sided|||||8.846|4.011|<0.0001
92370696|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.52|||<|0.001|TWO_SIDED|95.0|1.19|1.86|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.86|1.19|<0.001
92370697|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.11||||0.342|TWO_SIDED|95.0|-0.12|0.35|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.35|-0.12|0.342
92370698|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.01||||0.943|TWO_SIDED|95.0|-0.24|0.23|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.23|-0.24|0.943
92370699|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.18||||0.126|TWO_SIDED|95.0|-0.05|0.42|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.42|-0.05|0.126
92370700|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.63|||<|0.001|TWO_SIDED|95.0|1.27|1.98|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.98|1.27|<0.001
92407039|NCT05038982|184703595|SUPERIORITY||Median Difference (Net)|-0.58|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.83|-0.33||Threshold of significance set at 0.05|t-test, 2 sided|||This is a comparison of Th1 GSVA from RNA sequencing (RNASeq) performed on skin biopsies. The comparison is for CPUO patient skin at Week 0 versus Week 12 (end of treatment) The CPUO patients only had one biopsy collected at the timepoints because there are no visible lesions. CPUO patients only had one biopsy taken which will be referred to as Lesional sites. CPUO will compare Lesional biopsies at week 0 to Lesional biopsies at week 12.||-0.33|-0.83|<0.0001
92407040|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|0.091||0.0003|TWO_SIDED|95.0|-0.56|-0.18||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th2 GSVA from RNASeq performed on skin biopsies. The comparison is for CPUO patient skin at Week 0 versus Week 12 (end of treatment) The CPUO patients only had one biopsy collected at the timepoints because there are no visible lesions. CPUO patients only had one biopsy taken which will be referred to as Lesional sites. CPUO will compare Lesional biopsies at week 0 to Lesional biopsies at week 12.||-0.18|-0.56|0.0003
92240156|NCT00570739|184383832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.5882|TWO_SIDED|95.0|0.4|1.83||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||1.83|0.40|0.5882
92370701|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.5|||<|0.001|TWO_SIDED|95.0|1.15|1.86|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.86|1.15|<0.001
92370702|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.64|||<|0.001|TWO_SIDED|95.0|1.29|2.0|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.00|1.29|<0.001
92370703|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.53|||<|0.001|TWO_SIDED|95.0|1.18|1.89|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.89|1.18|<0.001
92370704|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.453|TWO_SIDED|95.0|-0.15|0.34|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.34|-0.15|0.453
92370705|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.03||||0.816|TWO_SIDED|95.0|-0.28|0.22|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.22|-0.28|0.816
92370706|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.11||||0.384|TWO_SIDED|95.0|-0.14|0.36|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.36|-0.14|0.384
92370707|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.55|||<|0.001|TWO_SIDED|95.0|1.19|1.91|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.91|1.19|<0.001
92370708|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.46|||<|0.001|TWO_SIDED|95.0|1.1|1.82|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.82|1.10|<0.001
92370709|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.61|||<|0.001|TWO_SIDED|95.0|1.25|1.97|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.97|1.25|<0.001
92407041|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.12||0.0952|TWO_SIDED|95.0|-0.47|0.039||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th17 GSVA from RNASeq performed on skin biopsies. The comparison is for CPUO patient skin at Week 0 versus Week 12 (end of treatment) The CPUO patients only had one biopsy collected at the timepoints because there are no visible lesions. CPUO patients only had one biopsy taken which will be referred to as Lesional sites. CPUO will compare Lesional biopsies at week 0 to Lesional biopsies at week 12.||0.039|-0.47|0.0952
92407042|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.38|STANDARD_ERROR_OF_MEAN|0.12||0.004|TWO_SIDED|95.0|-0.64|-0.13||Threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th22 GSVA from RNASeq performed on skin biopsies. The comparison is for CPUO patient skin at Week 0 versus Week 12 (end of treatment) The CPUO patients only had one biopsy collected at the timepoints because there are no visible lesions. CPUO patients only had one biopsy taken which will be referred to as Lesional sites. CPUO will compare Lesional biopsies at week 0 to Lesional biopsies at week 12.||-0.13|-0.64|0.004
92407043|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.0277|TWO_SIDED|95.0|-0.81|-0.053||The threshold of significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th1 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 0 versus non lesional PN patient skin at week 0.||-0.053|-0.81|0.0277
92407044|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.077|TWO_SIDED|95.0|-0.85|0.049||The threshold of significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th1 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 12 versus non lesional PN patient skin at week 12.||0.049|-0.85|0.077
92407045|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.15||0.0363|TWO_SIDED|95.0|-0.64|-0.024||The threshold of significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th2 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 0 versus non lesional PN patient skin at Week 0.||-0.024|-0.64|0.0363
92407046|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.17||0.1|TWO_SIDED|95.0|-0.63|0.062||The threshold of significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th2 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 12 versus non lesional PN patient skin at Week 12.||0.062|-0.63|0.10
92407047|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.58|STANDARD_ERROR_OF_MEAN|0.15||0.0009|TWO_SIDED|95.0|-0.89|-0.27||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th17 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 0 versus non lesional PN patient skin at Week 0.||-0.27|-0.89|0.0009
92407048|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|0.23||0.2326|TWO_SIDED|95.0|-0.77|0.2||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th17 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 12 versus non lesional PN patient skin at Week 12.||0.20|-0.77|0.2326
92407049|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.16||0.0047|TWO_SIDED|95.0|-0.85|-0.18||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th22 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 0 versus non lesional PN patient skin at Week 0.||-0.18|-0.85|0.0047
92407050|NCT05038982|184703595|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.2||0.0539|TWO_SIDED|95.0|-0.83|0.0076||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th22 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 12 versus non lesional PN patient skin at Week 12.||0.0076|-0.83|0.0539
92407051|NCT02691507|184703624|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407052|NCT02691507|184703624|SUPERIORITY_OR_OTHER|||||||0.002||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.002
92407053|NCT02691507|184703624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.795||0.616|TWO_SIDED|95.0|-1.196|1.998||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.998|-1.196|0.616
92407054|NCT02691507|184703625|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407055|NCT02691507|184703625|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92370710|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.46|||<|0.001|TWO_SIDED|95.0|1.1|1.82|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.82|1.10|<0.001
92370711|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.09||||0.483|TWO_SIDED|95.0|-0.16|0.34|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.34|-0.16|0.483
92370712|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.0||||0.991|TWO_SIDED|95.0|-0.25|0.25|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.25|-0.25|0.991
92370713|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.228|TWO_SIDED|95.0|-0.1|0.41|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.41|-0.10|0.228
92370714|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.48|||<|0.001|TWO_SIDED|95.0|1.1|1.85|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.85|1.10|<0.001
92407056|NCT02691507|184703625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|STANDARD_ERROR_OF_MEAN|0.803||0.297|TWO_SIDED|95.0|-0.767|2.46||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.460|-0.767|0.297
92407057|NCT02691507|184703626|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407058|NCT02691507|184703626|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92370715|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.32|||<|0.001|TWO_SIDED|95.0|0.94|1.69|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.69|0.94|<0.001
92370716|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.53|||<|0.001|TWO_SIDED|95.0|1.15|1.9|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.90|1.15|<0.001
92370717|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.4|||<|0.001|TWO_SIDED|95.0|1.03|1.78|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.78|1.03|<0.001
92370718|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.07||||0.587|TWO_SIDED|95.0|-0.19|0.33|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.33|-0.19|0.587
92370719|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.09||||0.517|TWO_SIDED|95.0|-0.35|0.17|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.17|-0.35|0.517
92370720|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.12||||0.36|TWO_SIDED|95.0|-0.14|0.38|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.38|-0.14|0.360
92370721|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.2|||<|0.001|TWO_SIDED|95.0|0.81|1.6|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.60|0.81|<0.001
92370722|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.17|||<|0.001|TWO_SIDED|95.0|0.78|1.57|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.57|0.78|<0.001
92370723|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.36|||<|0.001|TWO_SIDED|95.0|0.97|1.76|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.76|0.97|<0.001
92370724|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.17|||<|0.001|TWO_SIDED|95.0|0.77|1.56|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.56|0.77|<0.001
92407059|NCT02691507|184703626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73|STANDARD_ERROR_OF_MEAN|0.846||0.394|TWO_SIDED|95.0|-0.973|2.426||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.426|-0.973|0.394
92407060|NCT02691507|184703627|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407061|NCT02691507|184703627|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407062|NCT02691507|184703627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.708||0.69|TWO_SIDED|95.0|-1.14|1.709||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.709|-1.140|0.690
92407063|NCT02691507|184703628|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407064|NCT02691507|184703628|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407065|NCT02691507|184703628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.735||0.914|TWO_SIDED|95.0|-1.556|1.397||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.397|-1.556|0.914
92370725|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.03||||0.811|TWO_SIDED|95.0|-0.24|0.31|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.31|-0.24|0.811
92370726|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.0||||0.977|TWO_SIDED|95.0|-0.27|0.28|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.28|-0.27|0.977
92370727|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.2||||0.164|TWO_SIDED|95.0|-0.08|0.47|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.47|-0.08|0.164
92370728|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.03|||<|0.001|TWO_SIDED|95.0|0.63|1.43|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.43|0.63|<0.001
92370729|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.0|||<|0.001|TWO_SIDED|95.0|0.6|1.4|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.40|0.60|<0.001
92370730|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.15|||<|0.001|TWO_SIDED|95.0|0.75|1.56|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.56|0.75|<0.001
92370731|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.06|||<|0.001|TWO_SIDED|95.0|0.66|1.46|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.46|0.66|<0.001
92407066|NCT02691507|184703629|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407067|NCT02691507|184703629|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407068|NCT02691507|184703629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.774||0.757|TWO_SIDED|95.0|-1.796|1.314||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.314|-1.796|0.757
92407069|NCT02691507|184703630|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407070|NCT02691507|184703630|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92370732|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.03||||0.846|TWO_SIDED|95.0|-0.31|0.25|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.25|-0.31|0.846
92370733|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.702|TWO_SIDED|95.0|-0.33|0.23|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.23|-0.33|0.702
92407071|NCT02691507|184703630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.798||0.556|TWO_SIDED|95.0|-2.075|1.129||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.129|-2.075|0.556
92407072|NCT02691507|184703631|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92370734|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.496|TWO_SIDED|95.0|-0.18|0.38|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.38|-0.18|0.496
92370735|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.81|||<|0.001|TWO_SIDED|95.0|0.41|1.22|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.22|0.41|<0.001
92370736|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.81|||<|0.001|TWO_SIDED|95.0|0.4|1.21|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.21|0.40|<0.001
92407073|NCT02691507|184703631|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407074|NCT02691507|184703631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|0.772||0.106|TWO_SIDED|95.0|-2.824|0.278||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.278|-2.824|0.106
92407075|NCT02691507|184703632|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407076|NCT02691507|184703632|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407077|NCT02691507|184703632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.83|STANDARD_ERROR_OF_MEAN|6.681|<|0.001|TWO_SIDED|95.0|13.407|40.247||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||40.247|13.407|<0.001
92407078|NCT02691507|184703633|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407079|NCT02691507|184703633|SUPERIORITY_OR_OTHER|||||||0.004||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.004
92407080|NCT02691507|184703633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.33|STANDARD_ERROR_OF_MEAN|3.996|<|0.001|TWO_SIDED|95.0|11.301|27.352||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||27.352|11.301|<0.001
92407081|NCT02691507|184703634|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407082|NCT02691507|184703634|SUPERIORITY_OR_OTHER|||||||0.009||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.009
92407083|NCT02691507|184703634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.01|STANDARD_ERROR_OF_MEAN|4.072|<|0.001|TWO_SIDED|95.0|7.829|24.187||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||24.187|7.829|<0.001
92407084|NCT02691507|184703635|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407085|NCT02691507|184703635|SUPERIORITY_OR_OTHER|||||||0.003||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.003
92407086|NCT02691507|184703635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.25|STANDARD_ERROR_OF_MEAN|3.764|<|0.001|TWO_SIDED|95.0|5.684|20.82||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||20.820|5.684|<0.001
92407087|NCT02691507|184703636|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407088|NCT02691507|184703636|SUPERIORITY_OR_OTHER|||||||0.049||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.049
92407089|NCT02691507|184703636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.08|STANDARD_ERROR_OF_MEAN|4.138||0.001|TWO_SIDED|95.0|5.766|22.387||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||22.387|5.766|0.001
92407090|NCT02691507|184703637|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407091|NCT02691507|184703637|SUPERIORITY_OR_OTHER|||||||0.024||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.024
92407092|NCT02691507|184703637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.26|STANDARD_ERROR_OF_MEAN|4.679||0.004|TWO_SIDED|95.0|4.862|23.66||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||23.660|4.862|0.004
92407093|NCT02691507|184703638|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92407094|NCT02691507|184703638|SUPERIORITY_OR_OTHER|||||||0.015||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.015
92407095|NCT02691507|184703638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.77|STANDARD_ERROR_OF_MEAN|4.222||0.004|TWO_SIDED|95.0|4.291|21.252||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||21.252|4.291|0.004
92407096|NCT02691507|184703639|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
92240157|NCT00570739|184383832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.7098|TWO_SIDED|95.0|0.44|1.96||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||1.96|0.44|0.7098
92370737|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.86|||<|0.001|TWO_SIDED|95.0|0.46|1.26|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.26|0.46|<0.001
92370738|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.92|||<|0.001|TWO_SIDED|95.0|0.52|1.33|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.33|0.52|<0.001
92407097|NCT02691507|184703639|SUPERIORITY_OR_OTHER|||||||0.034||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.034
92407098|NCT02691507|184703639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.71|STANDARD_ERROR_OF_MEAN|5.925||0.037|TWO_SIDED|95.0|0.805|24.621||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||24.621|0.805|0.037
92370739|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.11||||0.441|TWO_SIDED|95.0|-0.39|0.17|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.17|-0.39|0.441
92370740|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.12||||0.408|TWO_SIDED|95.0|-0.4|0.16|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.16|-0.40|0.408
92370741|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.06||||0.652|TWO_SIDED|95.0|-0.35|0.22|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.22|-0.35|0.652
92370742|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.61||||0.003|TWO_SIDED|95.0|0.21|1.02|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.02|0.21|0.003
92407099|NCT00472576|184703687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.291|STANDARD_ERROR_OF_MEAN|0.693||0.001|TWO_SIDED|95.0|0.911|3.671|||Mixed Models Analysis||Mean differences reflect groups differences at end point.|A linear mixed model with restricted maximum likelihood estimation was used to examine the effects of treatment (MK-0657 and placebo) over time (treatment day) with the baseline of each phase as a covariate. A main effect for phase of study was also included. Schwarz's Bayesian criteria was used to determine the best fitting variance-covariance structure which was an autoregressive moving average model. Bonferroni adjusted simple effects tests were used to evaluate significant effects.||3.671|0.911|.001
92370743|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.55||||0.007|TWO_SIDED|95.0|0.15|0.95|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.95|0.15|0.007
92370744|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.69|||<|0.001|TWO_SIDED|95.0|0.29|1.1|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.10|0.29|<0.001
92240158|NCT00570739|184383832|SUPERIORITY_OR_OTHER|||||||0.6835||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.6835
92370745|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.7|||<|0.001|TWO_SIDED|95.0|0.29|1.1|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.10|0.29|<0.001
92370746|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.08||||0.567|TWO_SIDED|95.0|-0.36|0.2|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.20|-0.36|0.567
92370747|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.14||||0.315|TWO_SIDED|95.0|-0.42|0.14|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.14|-0.42|0.315
92370748|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.0||||0.997|TWO_SIDED|95.0|-0.28|0.28|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.28|-0.28|0.997
92370749|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.38||||0.056|TWO_SIDED|95.0|-0.01|0.77|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.77|-0.01|0.056
92370750|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.39||||0.047|TWO_SIDED|95.0|0.01|0.78|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.78|0.01|0.047
92370751|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.56||||0.005|TWO_SIDED|95.0|0.17|0.95|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.95|0.17|0.005
92370752|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.53||||0.007|TWO_SIDED|95.0|0.14|0.92|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.92|0.14|0.007
92370753|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.15||||0.276|TWO_SIDED|95.0|-0.42|0.12|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.12|-0.42|0.276
92407100|NCT00472576|184703688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|2.479||0.272|TWO_SIDED|95.0|-6.981|2.901||This test is a comparison of the MK-0657 condition to the placebo condition.|Mixed Models Analysis||The primary outcome of interest is whether the groups differ at the end of the study, so the means represent values at that point in time.|A linear mixed model with restricted maximum likelihood estimation was used to examine the effects of treatment (MK-0657 and placebo) over time (treatment day) with the baseline of each phase as a covariate. A main effect for phase of study was also included. Schwarz's Bayesian criteria was used to determine the best fitting variance-covariance structure which was an autoregressive moving average model. Bonferroni adjusted simple effects tests were used to evaluate significant effects.||2.901|-6.981|.272
92407101|NCT03739203|184703704|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.88||0.6798|TWO_SIDED|95.0|-2.1|1.37||p-value estimated by Mixed-effects Model for Repeated Measure from test of no difference between cariprazine dose group and placebo at Week 6.|MMRM|MMRM=Fixed effects:treatment group(TG),ADT failure category,visit,TG-by-visit;Covariates:Baseline(BL)value\& BL by-visit interaction.||||1.37|-2.10|0.6798
92407102|NCT03739203|184703704|SUPERIORITY||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.89||0.1245|TWO_SIDED|95.0|-3.11|0.38||p-value estimated by Mixed-effects Model for Repeated Measure from test of no difference between cariprazine dose group and placebo at Week 6.|MMRM|MMRM=Fixed effects:treatment group(TG), ADT failure category,visit,TG-by-visit;Covariates:Baseline(BL)value\& BL by-visit interaction.||||0.38|-3.11|0.1245
92407103|NCT03739203|184703705|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.5152|TWO_SIDED|95.0|-0.29|0.15||p-value estimated by Mixed-effects Model for Repeated Measure from test of no difference between cariprazine dose group and placebo at Week 6.|MMRM|MMRM=Fixed effects:treatment group(TG),ADT failure category,visit,TG-by-visit;Covariates:Baseline(BL)value\& BL by-visit interaction.||||0.15|-0.29|0.5152
92407104|NCT03739203|184703705|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0573|TWO_SIDED|95.0|-0.43|0.01||p-value estimated by Mixed-effects Model for Repeated Measure from test of no difference between cariprazine dose group and placebo at Week 6.|MMRM|MMRM=Fixed effects:treatment group(TG), ADT failure category,visit,TG-by-visit;Covariates:Baseline(BL)value\& BL by-visit interaction.||||0.01|-0.43|0.0573
92370754|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.14||||0.318|TWO_SIDED|95.0|-0.41|0.13|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.13|-0.41|0.318
92370755|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.03||||0.849|TWO_SIDED|95.0|-0.25|0.3|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.30|-0.25|0.849
92370756|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.138|TWO_SIDED|95.0|-0.09|0.66|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.66|-0.09|0.138
92370757|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.31||||0.111|TWO_SIDED|95.0|-0.07|0.68|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.68|-0.07|0.111
92370758|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.42||||0.031|TWO_SIDED|95.0|0.04|0.79|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.79|0.04|0.031
92370759|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.49||||0.011|TWO_SIDED|95.0|0.11|0.87|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.87|0.11|0.011
92370760|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.2||||0.135|TWO_SIDED|95.0|-0.47|0.06|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.06|-0.47|0.135
92370761|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.18||||0.175|TWO_SIDED|95.0|-0.44|0.08|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.08|-0.44|0.175
92370762|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.59|TWO_SIDED|95.0|-0.34|0.19|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.19|-0.34|0.590
92370763|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.15||||0.402|TWO_SIDED|95.0|-0.2|0.49|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.49|-0.20|0.402
92370764|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.2||||0.261|TWO_SIDED|95.0|-0.15|0.54|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.54|-0.15|0.261
92370765|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.26||||0.134|TWO_SIDED|95.0|-0.08|0.61|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.61|-0.08|0.134
92370766|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.38||||0.031|TWO_SIDED|95.0|0.03|0.72|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.72|0.03|0.031
92370767|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.23||||0.061|TWO_SIDED|95.0|-0.47|0.01|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.01|-0.47|0.061
92407105|NCT01216189|184703716|SUPERIORITY||Mean change|-0.138||||0.004|TWO_SIDED|95.0|-0.232|-0.044||The threshold for statistical significance was p = 0.05.|Regression, Linear|Model adjusted for menopausal status.||The change in serum testosterone levels between baseline and 1 year was assessed using longitudinal regression analysis (GEE).||-0.044|-0.232|0.004
92407106|NCT01216189|184703716|SUPERIORITY||Mean change|-0.011||||0.805|TWO_SIDED|95.0|-0.097|0.075||The threshold for statistical significance was p=0.05.|Regression, Linear|Model adjusted for menopausal status.||The change in serum testosterone levels between baseline and 1 year was assessed using longitudinal regression analysis (GEE).||0.075|-0.097|0.805
92407107|NCT01216189|184703717|SUPERIORITY||Mean change in FSFI scores|-9.33||||0.013|TWO_SIDED|95.0|-16.66|-1.99||The threshold for statistical significance was p=0.05.|Regression, Linear|Model adjusted for Age, Psychological General Well-being total score and relationship with partner.||"The association between mean change in total FSFI score and preoperative RT was assessed using longitudinal regression analysis (GEE), using no preoperative radiotherapy as the reference group."||-1.99|-16.66|0.013
92407108|NCT04032093|184703759|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: Before vaccination||1.3|0.9|
92407109|NCT04032093|184703759|OTHER||Geometric Mean Ratio|20.0|||||TWO_SIDED|95.0|16.1|24.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Weeks after vaccination||24.7|16.1|
92407110|NCT04032093|184703759|OTHER||Geometric Mean Ratio|15.6|||||TWO_SIDED|95.0|11.9|20.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after vaccination||20.4|11.9|
92407111|NCT04032093|184703759|OTHER||Geometric Mean Ratio|11.2|||||TWO_SIDED|95.0|8.7|14.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At delivery||14.5|8.7|
92407112|NCT04032093|184703759|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: Before vaccination||1.3|0.9|
92407113|NCT04032093|184703759|OTHER||Geometric Mean Ratio|24.2|||||TWO_SIDED|95.0|18.5|31.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Weeks after vaccination||31.7|18.5|
92407114|NCT04032093|184703759|OTHER||Geometric Mean Ratio|20.4|||||TWO_SIDED|95.0|15.7|26.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after vaccination||26.6|15.7|
92407115|NCT04032093|184703759|OTHER||Geometric Mean Ratio|13.6|||||TWO_SIDED|95.0|10.1|18.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At delivery||18.4|10.1|
92407116|NCT04032093|184703759|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: Before vaccination||1.3|0.9|
92407117|NCT04032093|184703759|OTHER||Geometric Mean Ratio|19.8|||||TWO_SIDED|95.0|15.3|25.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Weeks after vaccination||25.7|15.3|
92407118|NCT04032093|184703759|OTHER||Geometric Mean Ratio|20.0|||||TWO_SIDED|95.0|15.9|25.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after vaccination||25.1|15.9|
92407119|NCT04032093|184703759|OTHER||Geometric Mean Ratio|15.0|||||TWO_SIDED|95.0|11.9|18.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At delivery||18.9|11.9|
92407120|NCT04032093|184703759|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.8|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: Before vaccination||1.3|0.8|
92407121|NCT04032093|184703759|OTHER||Geometric Mean Ratio|22.5|||||TWO_SIDED|95.0|16.9|30.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Weeks after vaccination||30.1|16.9|
92407122|NCT04032093|184703759|OTHER||Geometric Mean Ratio|22.5|||||TWO_SIDED|95.0|17.6|28.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after vaccination||28.7|17.6|
92370768|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.18||||0.138|TWO_SIDED|95.0|-0.42|0.06|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.06|-0.42|0.138
92370769|NCT01559259|184646498|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.11||||0.353|TWO_SIDED|95.0|-0.35|0.13|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.13|-0.35|0.353
92370770|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.88||||0.006|TWO_SIDED|95.0|0.25|1.51|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.51|0.25|0.006
92407123|NCT04032093|184703759|OTHER||Geometric Mean Ratio|16.8|||||TWO_SIDED|95.0|12.7|22.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At delivery||22.3|12.7|
92407124|NCT04032093|184703759|OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.8|1.2|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: Before vaccination||1.2|0.8|
92407125|NCT04032093|184703759|OTHER||Geometric Mean Ratio|21.0|||||TWO_SIDED|95.0|16.6|26.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Weeks after vaccination||26.5|16.6|
92370771|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.69||||0.03|TWO_SIDED|95.0|0.07|1.31|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.31|0.07|0.030
92370772|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.81||||0.012|TWO_SIDED|95.0|0.17|1.44|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.44|0.17|0.012
92370773|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.38||||0.237|TWO_SIDED|95.0|-0.25|1.01|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.01|-0.25|0.237
92370774|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.5||||0.024|TWO_SIDED|95.0|0.07|0.93|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.93|0.07|0.024
92370775|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.31||||0.15|TWO_SIDED|95.0|-0.11|0.73|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.73|-0.11|0.150
92370776|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.43||||0.054|TWO_SIDED|95.0|-0.01|0.86|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.86|-0.01|0.054
92407126|NCT04032093|184703759|OTHER||Geometric Mean Ratio|15.3|||||TWO_SIDED|95.0|11.6|20.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after vaccination||20.1|11.6|
92407127|NCT04032093|184703759|OTHER||Geometric Mean Ratio|10.6|||||TWO_SIDED|95.0|8.1|14.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At delivery||14.0|8.1|
92407128|NCT04032093|184703759|OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.8|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: Before vaccination||1.3|0.8|
92370777|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.89|||<|0.001|TWO_SIDED|95.0|1.92|3.85|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.85|1.92|<0.001
92370778|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.52|||<|0.001|TWO_SIDED|95.0|1.56|3.47|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.47|1.56|<0.001
92370779|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.51|||<|0.001|TWO_SIDED|95.0|1.54|3.47|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.47|1.54|<0.001
92370780|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.76|||<|0.001|TWO_SIDED|95.0|0.79|2.72|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.72|0.79|<0.001
92370781|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.13|||<|0.001|TWO_SIDED|95.0|0.47|1.79|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.79|0.47|<0.001
92407129|NCT04032093|184703759|OTHER||Geometric Mean Ratio|26.6|||||TWO_SIDED|95.0|20.5|34.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Weeks after vaccination||34.6|20.5|
92407130|NCT04032093|184703759|OTHER||Geometric Mean Ratio|18.0|||||TWO_SIDED|95.0|13.5|24.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after vaccination||24.1|13.5|
92407131|NCT04032093|184703759|OTHER||Geometric Mean Ratio|13.5|||||TWO_SIDED|95.0|10.1|18.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At delivery||18.0|10.1|
92407132|NCT04032093|184703759|OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.9|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: Before vaccination||1.3|0.9|
92407133|NCT04032093|184703759|OTHER||Geometric Mean Ratio|25.0|||||TWO_SIDED|95.0|19.9|31.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Weeks after vaccination||31.3|19.9|
92407134|NCT04032093|184703759|OTHER||Geometric Mean Ratio|18.1|||||TWO_SIDED|95.0|14.5|22.8|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after vaccination||22.8|14.5|
92407135|NCT04032093|184703759|OTHER||Geometric Mean Ratio|13.8|||||TWO_SIDED|95.0|10.8|17.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At delivery||17.5|10.8|
92370782|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.76||||0.021|TWO_SIDED|95.0|0.11|1.41|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.41|0.11|0.021
92407136|NCT04032093|184703759|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: Before vaccination||1.4|0.9|
92407137|NCT04032093|184703759|OTHER||Geometric Mean Ratio|34.7|||||TWO_SIDED|95.0|27.0|44.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Weeks after vaccination||44.4|27.0|
92407138|NCT04032093|184703759|OTHER||Geometric Mean Ratio|23.2|||||TWO_SIDED|95.0|18.2|29.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after vaccination||29.6|18.2|
92407139|NCT04032093|184703759|OTHER||Geometric Mean Ratio|16.2|||||TWO_SIDED|95.0|12.0|21.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At delivery||21.7|12.0|
92407140|NCT04032093|184703761|OTHER||Geometric Mean Ratio|10.7|||||TWO_SIDED|95.0|8.1|14.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At birth||14.1|8.1|
92407141|NCT04032093|184703761|OTHER||Geometric Mean Ratio|8.9|||||TWO_SIDED|95.0|5.5|14.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after birth||14.5|5.5|
92370783|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.75||||0.027|TWO_SIDED|95.0|0.09|1.41|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.41|0.09|0.027
92370784|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.75|||<|0.001|TWO_SIDED|95.0|3.65|5.84|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.84|3.65|<0.001
92370785|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.21|||<|0.001|TWO_SIDED|95.0|3.13|5.29|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.29|3.13|<0.001
92370786|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.47|||<|0.001|TWO_SIDED|95.0|3.37|5.56|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.56|3.37|<0.001
92370787|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.92|||<|0.001|TWO_SIDED|95.0|2.83|5.02|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.02|2.83|<0.001
92370788|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.83||||0.031|TWO_SIDED|95.0|0.08|1.58|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.58|0.08|0.031
92370789|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.442|TWO_SIDED|95.0|-0.44|1.02|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.02|-0.44|0.442
92370790|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.55||||0.152|TWO_SIDED|95.0|-0.2|1.3|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.30|-0.20|0.152
92370791|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.62|||<|0.001|TWO_SIDED|95.0|4.52|6.72|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.72|4.52|<0.001
92407142|NCT04032093|184703761|OTHER||Geometric Mean Ratio|15.8|||||TWO_SIDED|95.0|10.7|23.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Months after birth||23.4|10.7|
92407143|NCT04032093|184703761|OTHER||Geometric Mean Ratio|5.6|||||TWO_SIDED|95.0|3.5|9.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 4 Months after birth||9.0|3.5|
92407144|NCT04032093|184703761|OTHER||Geometric Mean Ratio|6.6|||||TWO_SIDED|95.0|4.5|9.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 6 Months after birth||9.6|4.5|
92407145|NCT04032093|184703761|OTHER||Geometric Mean Ratio|14.9|||||TWO_SIDED|95.0|11.1|19.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At birth||19.9|11.1|
92370792|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.04|||<|0.001|TWO_SIDED|95.0|3.96|6.13|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.13|3.96|<0.001
92370793|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.4|||<|0.001|TWO_SIDED|95.0|4.3|6.5|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.50|4.30|<0.001
92370794|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.88|||<|0.001|TWO_SIDED|95.0|3.78|5.98|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.98|3.78|<0.001
92370795|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.74||||0.055|TWO_SIDED|95.0|-0.01|1.49|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.49|-0.01|0.055
92370796|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.666|TWO_SIDED|95.0|-0.57|0.9|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.90|-0.57|0.666
92370797|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.51||||0.181|TWO_SIDED|95.0|-0.24|1.27|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.27|-0.24|0.181
92370798|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.86|||<|0.001|TWO_SIDED|95.0|4.71|7.01|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||7.01|4.71|<0.001
92370799|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.43|||<|0.001|TWO_SIDED|95.0|4.29|6.57|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.57|4.29|<0.001
92407146|NCT04032093|184703761|OTHER||Geometric Mean Ratio|11.0|||||TWO_SIDED|95.0|6.5|18.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after birth||18.6|6.5|
92407147|NCT04032093|184703761|OTHER||Geometric Mean Ratio|19.2|||||TWO_SIDED|95.0|13.1|28.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Months after birth||28.0|13.1|
92407148|NCT04032093|184703761|OTHER||Geometric Mean Ratio|6.9|||||TWO_SIDED|95.0|4.2|11.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 4 Months after birth||11.4|4.2|
92407149|NCT04032093|184703761|OTHER||Geometric Mean Ratio|7.3|||||TWO_SIDED|95.0|4.5|11.8|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 6 Months after birth||11.8|4.5|
92407150|NCT04032093|184703761|OTHER||Geometric Mean Ratio|10.8|||||TWO_SIDED|95.0|8.3|14.2|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At birth||14.2|8.3|
92407151|NCT04032093|184703761|OTHER||Geometric Mean Ratio|9.7|||||TWO_SIDED|95.0|6.5|14.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after birth||14.5|6.5|
92407152|NCT04032093|184703761|OTHER||Geometric Mean Ratio|10.6|||||TWO_SIDED|95.0|7.1|15.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Months after birth||15.9|7.1|
92407153|NCT04032093|184703761|OTHER||Geometric Mean Ratio|8.2|||||TWO_SIDED|95.0|5.2|12.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 4 Months after birth||12.9|5.2|
92407154|NCT04032093|184703761|OTHER||Geometric Mean Ratio|4.8|||||TWO_SIDED|95.0|3.1|7.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 6 Months after birth||7.5|3.1|
92407155|NCT04032093|184703761|OTHER||Geometric Mean Ratio|14.0|||||TWO_SIDED|95.0|10.5|18.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At birth||18.7|10.5|
92407156|NCT04032093|184703761|OTHER||Geometric Mean Ratio|11.8|||||TWO_SIDED|95.0|7.4|18.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after birth||18.7|7.4|
92407157|NCT04032093|184703761|OTHER||Geometric Mean Ratio|11.9|||||TWO_SIDED|95.0|7.7|18.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Months after birth||18.3|7.7|
92407158|NCT04032093|184703761|OTHER||Geometric Mean Ratio|8.9|||||TWO_SIDED|95.0|5.5|14.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 4 Months after birth||14.5|5.5|
92407159|NCT04032093|184703761|OTHER||Geometric Mean Ratio|5.4|||||TWO_SIDED|95.0|3.3|8.8|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 6 Months after birth||8.8|3.3|
92407160|NCT04032093|184703761|OTHER||Geometric Mean Ratio|9.5|||||TWO_SIDED|95.0|7.4|12.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At birth||12.3|7.4|
92407161|NCT04032093|184703761|OTHER||Geometric Mean Ratio|8.4|||||TWO_SIDED|95.0|5.7|12.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after birth||12.4|5.7|
92407162|NCT04032093|184703761|OTHER||Geometric Mean Ratio|9.9|||||TWO_SIDED|95.0|6.4|15.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Months after birth||15.4|6.4|
92407163|NCT04032093|184703761|OTHER||Geometric Mean Ratio|4.5|||||TWO_SIDED|95.0|2.9|6.8|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 4 Months after birth||6.8|2.9|
92407164|NCT04032093|184703761|OTHER||Geometric Mean Ratio|4.0|||||TWO_SIDED|95.0|2.5|6.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 6 Months after birth||6.3|2.5|
92407165|NCT04032093|184703761|OTHER||Geometric Mean Ratio|12.4|||||TWO_SIDED|95.0|9.2|16.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At birth||16.6|9.2|
92407166|NCT04032093|184703761|OTHER||Geometric Mean Ratio|11.3|||||TWO_SIDED|95.0|7.1|17.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after birth||17.9|7.1|
92407167|NCT04032093|184703761|OTHER||Geometric Mean Ratio|10.4|||||TWO_SIDED|95.0|7.0|15.2|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Months after birth||15.2|7.0|
92407168|NCT04032093|184703761|OTHER||Geometric Mean Ratio|5.7|||||TWO_SIDED|95.0|3.7|9.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 4 Months after birth||9.0|3.7|
92407169|NCT04032093|184703761|OTHER||Geometric Mean Ratio|4.3|||||TWO_SIDED|95.0|2.7|7.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 6 Months after birth||7.0|2.7|
92407170|NCT04032093|184703761|OTHER||Geometric Mean Ratio|11.3|||||TWO_SIDED|95.0|8.6|14.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At birth||14.9|8.6|
92407171|NCT04032093|184703761|OTHER||Geometric Mean Ratio|10.2|||||TWO_SIDED|95.0|7.4|14.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after birth||14.0|7.4|
92407172|NCT04032093|184703761|OTHER||Geometric Mean Ratio|15.0|||||TWO_SIDED|95.0|10.2|22.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Months after birth||22.1|10.2|
92407173|NCT04032093|184703761|OTHER||Geometric Mean Ratio|6.1|||||TWO_SIDED|95.0|3.9|9.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 4 Months after birth||9.6|3.9|
92407174|NCT04032093|184703761|OTHER||Geometric Mean Ratio|4.5|||||TWO_SIDED|95.0|2.9|6.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 6 Months after birth||6.9|2.9|
92407175|NCT04032093|184703761|OTHER||Geometric Mean Ratio|16.2|||||TWO_SIDED|95.0|12.5|21.2|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At birth||21.2|12.5|
92240159|NCT00570739|184383832|SUPERIORITY_OR_OTHER|||||||0.8461||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.8461
92407176|NCT04032093|184703761|OTHER||Geometric Mean Ratio|12.8|||||TWO_SIDED|95.0|8.6|19.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after birth||19.1|8.6|
92407177|NCT04032093|184703761|OTHER||Geometric Mean Ratio|17.7|||||TWO_SIDED|95.0|11.9|26.2|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Months after birth||26.2|11.9|
92407178|NCT04032093|184703761|OTHER||Geometric Mean Ratio|9.0|||||TWO_SIDED|95.0|5.7|14.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 4 Months after birth||14.4|5.7|
92407179|NCT04032093|184703761|OTHER||Geometric Mean Ratio|6.2|||||TWO_SIDED|95.0|3.9|9.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 6 Months after birth||9.9|3.9|
92407180|NCT01356277|184703762|SUPERIORITY||Odds Ratio (OR)|1.66||||0.006|TWO_SIDED|95.0|1.15|2.39|||Regression, Logistic|Unadjusted, ordinal logistic regression|An odds ratio greater than 1.0 indicates higher adherence in Intervention participants compared with controls.|We estimated a sample size of 75 participants per group to have 85% power to detect a 20% difference in taking adherence between groups, using 2-sided tests and setting alpha at 0.05, assuming a common standard deviation of 40%. Targeted enrollment of 176 participants accounted for 15% drop-out. Only participants with electronic pillbox data could be included. For participants who withdrew or stopped using the pillbox, all available pillbox data were included.||2.39|1.15|0.006
92407181|NCT01356277|184703763|SUPERIORITY||Odds Ratio (OR)|1.74||||0.003|TWO_SIDED|95.0|1.21|2.5|||Regression, Logistic|Unadjusted ordinal logistic regression|An odds ratio greater than 1.0 indicates higher adherence in Intervention participants compared with controls.|||2.50|1.21|0.003
92407182|NCT01356277|184703764|SUPERIORITY|||||||0.49|||||||Wilcoxon ranksum|||Null hypothesis was that there was no difference in the SD of tacrolimus trough levels between intervention and control.||||0.49
92407183|NCT01356277|184703765|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
92407184|NCT01356277|184703766|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
92407185|NCT01356277|184703767|SUPERIORITY|||||||0.26|||||||Chi-squared|||Rates were compared between intervention and control groups using Chi square||||0.26
92407186|NCT01356277|184703768|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||.45
92407187|NCT02141204|184703810|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% confidence interval (CI) for the ratio of anti-RV IgA antibody GMCs between HRV Liq Group over the HRV Lyo Group should be greater than or equal to (≥) 0.5.|GMC ratio|0.93|||||TWO_SIDED|95.0|0.65|1.34|||ANCOVA|95% CI for the adjusted GMC ratio and the logarithm of baseline concentration were used as fixed effects in this ANCOVA model.||Anti-RV IgA GMCs (non-inferiority): Non-inferiority comparison between GSK Biologicals' HRV liquid vaccine (HRV Liq Group) and GSK Biologicals' HRV lyophilized vaccine (HRV Lyo Group) in terms of geometric mean concentrations (GMCs) for anti-RV antibodies, one month after the administration of the second dose of study vaccine.||1.34|0.65|
92407188|NCT01209325|184703815|SUPERIORITY|||||||0.112||||||Two-sided p-value|Exact poisson test|||||||0.112
92407189|NCT01209325|184703815|SUPERIORITY|||||||0.447||||||One-sided test|Exact Poisson calculation|||This study's Naive to HPV 6 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 6 (NCT00090285), 0.0 events per 100 person years (PY) versus 3.4 events per 100 PY, respectively.||||0.447
92407190|NCT01209325|184703816|SUPERIORITY|||||||0.224||||||Two-sided p-value.|Exact poisson test|||||||0.224
92407191|NCT01209325|184703816|SUPERIORITY|One-sided p-value.||||||0.361|||||||Exact Poisson calculation|||This study's Naive to HPV 11 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 11 (NCT00090285), 0.0 events per 100 person years (PY) versus 2.0 events per 100 PY, respectively.||||0.361
92168847|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7526|TWO_SIDED|95.0|-0.31|0.22|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.22|-0.31|0.7526
92407192|NCT01209325|184703817|SUPERIORITY|||||||0.079||||||Two-sided p-value.|Exact poisson test|||||||0.079
92407193|NCT01209325|184703817|SUPERIORITY|||||||0.35||||||One-sided p-value.|Exact Poisson calculation|||This study's Naive to HPV 16 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 16 (NCT00090285), 0.0 events per 100 person years (PY) versus 1.8 events per 100 PY, respectively.||||0.350
92407194|NCT01209325|184703818|SUPERIORITY|||||||0.162|||||||Exact poisson test|||||||0.162
92407195|NCT01209325|184703818|SUPERIORITY|||||||0.49||||||One-sided p-value|Exact Poisson calculation|||This study's Naive to HPV 18 group was compared to the Merck 020 per-protocol historical placebo group naive to HPV 18 (NCT00090285), 0.0 events per 100 person years (PY) versus 1.0 events per 100 PY, respectively.||||0.490
92407196|NCT01209325|184703819|SUPERIORITY|||||||0.671||||||Two-sided p-value is comparing naive and prior exposure groups for HPV 6.|Exact Poisson calculation|||||||0.671
92407197|NCT01209325|184703819|SUPERIORITY|||||||0.312||||||One-sided p-value.|Exact Poisson calculation|||This study's Naive to HPV 6 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 6 (NCT00090285), 1.8 events per 100 person years (PY) versus 4.5 events per 100 PY, respectively.||||0.312
92407198|NCT01209325|184703820|SUPERIORITY||||||>|0.999||||||Two-sided p-value.|Exact Poisson calculation|||||||>0.999
92407199|NCT01209325|184703820|SUPERIORITY|||||||0.209||||||One-sided p-value.|Exact Poisson calculation|||This study's Naive to HPV 11 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 11 (NCT00090285), 0.0 events per 100 person years (PY) versus 1.7 events per 100 PY, respectively.||||0.209
92407200|NCT01209325|184703821|SUPERIORITY|||||||0.386||||||Two-sided p-value.|Exact Poisson calculation|||||||0.386
92407201|NCT01209325|184703821|SUPERIORITY|||||||0.305||||||One-sided test|Exact Poisson calculation|||This study's Naive to HPV 16 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 16 (NCT00090285), 2.9 events per 100 person years (PY) versus 4.9 events per 100 PY, respectively.||||0.305
92407202|NCT01209325|184703822|SUPERIORITY|||||||0.622||||||Two-sided p-value.|Exact Poisson calculation|||||||0.622
92407203|NCT01209325|184703822|SUPERIORITY|||||||0.15||||||One-sided p-value.|Exact Poisson calculation|||This study's Naive to HPV 18 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 18 (NCT00090285), 0.7 events per 100 person years (PY) versus 2.7 events per 100 PY, respectively.||||0.150
92407204|NCT01209325|184703823|SUPERIORITY|||||||0.064||||||Two-sided p-value.|Exact Poisson calculation|||||||0.064
92407205|NCT01209325|184703824|SUPERIORITY|||||||0.745||||||Two-sided test.|Exact Poisson calculation|||||||0.745
92407206|NCT01209325|184703825|SUPERIORITY|||||||0.014|||||||Exact Poisson calculation|||||||0.014
92240160|NCT00570739|184383833|SUPERIORITY_OR_OTHER|||||||0.2079||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country|Cochran-Mantel-Haenszel|||Baseline to 4 Weeks||||0.2079
92407207|NCT01209325|184703826|SUPERIORITY|||||||0.166||||||Two-sided p-value.|Exact Poisson calculation|||||||0.166
92407208|NCT01209325|184703827|SUPERIORITY|||||||0.789||||||Two-sided p-value.|Exact Poisson calculation|||||||0.789
92407209|NCT01209325|184703828|SUPERIORITY|||||||0.809||||||Two-sided p-value.|0.809|||||||0.809
92407210|NCT01209325|184703829|SUPERIORITY|||||||0.422||||||Two-sided p-value.|Exact Poisson calculation|||||||0.422
92407211|NCT01209325|184703830|SUPERIORITY|||||||0.423||||||Two-sided p-value.|Exact Poisson calculation|||||||0.423
92407212|NCT04922216|184703859|SUPERIORITY||Mean Difference (Net)|0.3||||0.52|TWO_SIDED|95.0|-0.61|1.2|||Mixed Models Analysis|Degrees of freedom (2,622)|Standard dietary monitoring coded as 0 (reference) and simplified dietary monitoring coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 1 (dietary self-monitoring) using linear mixed models comparing the effect of standard dietary monitoring to simplified dietary monitoring on weight change over time (from baseline to 6 months).||1.20|-0.61|0.52
92407213|NCT04922216|184703859|SUPERIORITY||Mean Difference (Net)|-0.28||||0.54|TWO_SIDED|95.0|-1.19|0.63|||Mixed Models Analysis|Degrees of freedom (2,622)|Weekly adaptive goals coded as 0 (reference) and daily adaptive goals coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 2 (adaptive activity goals) using linear mixed models comparing the effect of weekly adaptive activity goals versus daily adaptive activity goals on weight change over time (from baseline to 6 months).||0.63|-1.19|0.54
92407214|NCT04922216|184703859|SUPERIORITY||Mean Difference (Net)|0.4||||0.39|TWO_SIDED|95.0|-0.5|1.31|||Mixed Models Analysis|Degrees of freedom (2,622)|Fixed message decision points coded as 0 (reference) and adaptive message decision points coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 3 (message decision points) using linear mixed models comparing the effect of weekly adaptive activity goals versus daily adaptive activity goals on weight change over time (from baseline to 6 months).||1.31|-0.50|0.39
92407215|NCT04922216|184703859|SUPERIORITY||Mean Difference (Net)|0.39||||0.7|TWO_SIDED|95.0|-0.52|1.3|||Mixed Models Analysis|Degrees of freedom (2,622)|Standard decision rules coded as 0 (reference) and adaptive decision rules coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 4 (message decision rules) using linear mixed models comparing the effect of standard decision rules to adaptive decision rules on weight change over time (from baseline to 6 months).||1.30|-0.52|0.70
92407216|NCT04922216|184703859|SUPERIORITY||Mean Difference (Net)|-0.55||||0.47|TWO_SIDED|95.0|-1.45|0.36|||Mixed Models Analysis|Degrees of freedom (2,622)|No choice points coded as 0 (reference) and Choice coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 5 (participant choice) using linear mixed models comparing the effect of no participant message choice versus participant message choice on weight change over time (from baseline to 6 months).||0.36|-1.45|0.47
92407217|NCT04922216|184703860|SUPERIORITY||Mean Difference (Net)|0.24||||0.43|TWO_SIDED|95.0|-0.36|0.84|||Mixed Models Analysis|DF (2,622)|Standard dietary monitoring coded as 0 (reference) and simplified dietary monitoring coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 1 (dietary self-monitoring) using linear mixed models comparing the effect of standard dietary monitoring to simplified dietary monitoring on weight change over time (from baseline to 3 months).||0.84|-0.36|0.43
92407218|NCT04922216|184703860|SUPERIORITY||Mean Difference (Net)|-0.42||||0.17|TWO_SIDED|95.0|-1.01|0.18|||Mixed Models Analysis|DF (2,622)|Weekly adaptive goals coded as 0 (reference) and daily adaptive goals coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 2 (adaptive activity goals) using linear mixed models comparing the effect of weekly adaptive activity goals versus daily adaptive activity goals on weight change over time (from baseline to 3 months).||0.18|-1.01|0.17
92407219|NCT04922216|184703860|SUPERIORITY||Mean Difference (Net)|0.53||||0.08|TWO_SIDED|95.0|-0.06|1.13|||Mixed Models Analysis|DF (2,622)|Fixed message decision points coded as 0 (reference) and adaptive message decision points coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 3 (message decision points) using linear mixed models comparing the effect of weekly adaptive activity goals versus daily adaptive activity goals on weight change over time (from baseline to 3 months).||1.13|-0.06|0.08
92407220|NCT04922216|184703860|SUPERIORITY||Mean Difference (Net)|0.32||||0.58|TWO_SIDED|95.0|-0.28|0.91|||Mixed Models Analysis|DF (2,622)|Standard decision rules coded as 0 (reference) and adaptive decision rules coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 4 (message decision rules) using linear mixed models comparing the effect of standard decision rules to adaptive decision rules on weight change over time (from baseline to 3 months).||0.91|-0.28|0.58
92407221|NCT04922216|184703860|SUPERIORITY||Mean Difference (Net)|-0.32||||0.55|TWO_SIDED|95.0|-0.91|0.28|||Mixed Models Analysis|DF (2,622)|No choice points coded as 0 (reference) and Choice coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 5 (participant choice) using linear mixed models comparing the effect of no participant message choice versus participant message choice on weight change over time (from baseline to 3 months).||0.28|-0.91|0.55
92407222|NCT04922216|184703861|SUPERIORITY||Odds Ratio (OR)|0.99||||0.95|TWO_SIDED|95.0|0.7|1.39|||Chi-squared|DF (1)|Standard dietary monitoring coded as 0 (reference) and simplified dietary monitoring coded as 1; an odds ratio \> 1 indicates that the odds of achieving 5% weight loss are higher in the group coded as 1.|Chi-square test of the difference in proportion reaching 5% weight loss from baseline to 6 months between standard dietary monitoring and simplified dietary monitoring (factor 1).||1.39|0.70|0.95
92407223|NCT04922216|184703861|SUPERIORITY||Odds Ratio (OR)|1.46||||0.03|TWO_SIDED|95.0|1.03|2.05|||Chi-squared|DF (1)|Weekly adaptive activity goals coded as 0 (reference) and daily adaptive activity goals coded as 1; an odds ratio \> 1 indicates that the odds of achieving 5% weight loss are higher in the group coded as 1.|Chi-square test of the difference in proportion reaching 5% weight loss from baseline to 6 months between weekly adaptive activity goals and daily adaptive activity goals (factor 2).||2.05|1.03|0.03
92407224|NCT04922216|184703861|SUPERIORITY||Odds Ratio (OR)|0.85||||0.36|TWO_SIDED|95.0|0.6|1.2|||Chi-squared|DF (1)|Fixed decision points coded as 0 (reference) and adaptive decision points coded as 1; an odds ratio \> 1 indicates that the odds of achieving 5% weight loss are higher in the group coded as 1.|Chi-square test of the difference in proportion reaching 5% weight loss from baseline to 6 months between fixed message decision points and adaptive message decision points (factor 3).||1.20|0.60|0.36
92407225|NCT04922216|184703861|SUPERIORITY||Odds Ratio (OR)|1.01||||0.95|TWO_SIDED|95.0|0.72|1.42|||Chi-squared|DF (1)|Standard decision rules coded as 0 (reference) and adaptive decision rules coded as 1; an odds ratio \> 1 indicates that the odds of achieving 5% weight loss are higher in the group coded as 1.|Chi-square test of the difference in proportion reaching 5% weight loss from baseline to 6 months between standard message decision rules and adaptive message decision rules (factor 4).||1.42|0.72|0.95
92407226|NCT04922216|184703861|SUPERIORITY||Odds Ratio (OR)|1.2||||0.29|TWO_SIDED|95.0|0.85|1.69|||Chi-squared|DF (1)|No message choice coded as 0 (reference) and message choice coded as 1; an odds ratio \> 1 indicates that the odds of achieving 5% weight loss are higher in the group coded as 1.|Chi-square test of the difference in proportion reaching 5% weight loss from baseline to 6 months between no message choice and message choice (factor 5).||1.69|0.85|0.29
92407227|NCT01136980|184703875|SUPERIORITY||||||<|0.028|||||||Chi-squared|||||||<0.028
92407228|NCT03751657|184703890|OTHER||Treatment difference|-0.18||||0.0818|TWO_SIDED|95.0|-0.38|0.02|||Mixed Models Analysis|||The response and change from baseline in response after 26 weeks are analysed using a linear mixed model for repeated measures (MMRM) with an unstructured covariance matrix and treatment, region, use of DPP-4 inhibitor and visit as fixed factors, and baseline response as covariate. Furthermore, the model includes the interaction between visit and all explanatory variables.||0.02|-0.38|0.0818
92407229|NCT03751657|184703904|OTHER||Treatment difference|-1.97||||0.0818|TWO_SIDED|95.0|-4.19|0.25|||Mixed Models Analysis|||The response and change from baseline in response after 26 weeks are analysed using a linear MMRM with an unstructured covariance matrix and treatment, region, use of DPP-4 inhibitor and visit as fixed factors, and baseline response as covariate.Furthermore, the model includes the interaction between visit and all explanatory variables.||0.25|-4.19|0.0818
92407230|NCT00990704|184703906|SUPERIORITY_OR_OTHER||Difference between arms in percentage|13.6||||0.518|TWO_SIDED|95.0|-22.36|49.63|||Fisher Exact|||||49.63|-22.36|0.518
92407231|NCT04603027|184703914|SUPERIORITY||Posterior Mean difference|-5.99|||||TWO_SIDED|95.0|-20.28|7.12||||||||7.12|-20.28|
92407232|NCT04603027|184703914|SUPERIORITY||Posterior Mean difference|-8.35|||||TWO_SIDED|95.0|-22.07|5.04||||||||5.04|-22.07|
92407233|NCT04603027|184703914|SUPERIORITY||Posterior Mean difference|-9.1|||||TWO_SIDED|95.0|-23.22|4.65||||||||4.65|-23.22|
92407234|NCT04603027|184703915|SUPERIORITY||Posterior Mean difference|-2.6|||||TWO_SIDED|95.0|-13.91|9.9||||||||9.90|-13.91|
92407235|NCT04603027|184703915|SUPERIORITY||Posterior Mean difference|-3.33|||||TWO_SIDED|95.0|-15.21|8.52||||||||8.52|-15.21|
92240161|NCT00570739|184383833|SUPERIORITY_OR_OTHER|||||||0.4053||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country|Cochran-Mantel-Haenszel|||Baseline to 8 Weeks||||0.4053
92407236|NCT04603027|184703915|SUPERIORITY||Posterior Mean difference|0.11|||||TWO_SIDED|95.0|-12.33|11.53||||||||11.53|-12.33|
92407237|NCT04603027|184703916|SUPERIORITY||Posterior Mean difference|-0.69|||||TWO_SIDED|95.0|-1.88|0.46||||||||0.46|-1.88|
92407238|NCT04603027|184703916|SUPERIORITY||Posterior Mean difference|-0.73|||||TWO_SIDED|95.0|-1.82|0.45||||||||0.45|-1.82|
92407239|NCT04603027|184703916|SUPERIORITY||Posterior Mean difference|-0.81|||||TWO_SIDED|95.0|-2.05|0.33||||||||0.33|-2.05|
92407240|NCT04603027|184703917|SUPERIORITY||Odds Ratio (OR)|2.64|||||TWO_SIDED|95.0|1.01|6.94||||||||6.94|1.01|
92407241|NCT04603027|184703917|SUPERIORITY||Odds Ratio (OR)|2.93|||||TWO_SIDED|95.0|1.17|7.37||||||||7.37|1.17|
92240162|NCT00570739|184383833|SUPERIORITY_OR_OTHER|||||||0.5752||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country|Cochran-Mantel-Haenszel|||Baseline to 12 Weeks||||0.5752
92370800|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.79|||<|0.001|TWO_SIDED|95.0|4.64|6.94|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.94|4.64|<0.001
92370801|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.34|||<|0.001|TWO_SIDED|95.0|4.19|6.5|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.50|4.19|<0.001
92370802|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.52||||0.2|TWO_SIDED|95.0|-0.27|1.31|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.31|-0.27|0.200
92370803|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.08||||0.831|TWO_SIDED|95.0|-0.69|0.85|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.85|-0.69|0.831
92370804|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.45||||0.268|TWO_SIDED|95.0|-0.34|1.24|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.24|-0.34|0.268
92370805|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.73|||<|0.001|TWO_SIDED|95.0|4.54|6.91|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.91|4.54|<0.001
92370806|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.31|||<|0.001|TWO_SIDED|95.0|4.13|6.48|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.48|4.13|<0.001
92370807|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.6|||<|0.001|TWO_SIDED|95.0|4.41|6.78|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.78|4.41|<0.001
92370808|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.35|||<|0.001|TWO_SIDED|95.0|4.17|6.54|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.54|4.17|<0.001
92407242|NCT04603027|184703917|SUPERIORITY||Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|0.63|4.7||||||||4.70|0.63|
92407243|NCT04603027|184703918|SUPERIORITY|||||||0.1|||||||nonparametric survival analysis|Method used was a nonparametric survival analysis for interval censored data||||||0.100
92370809|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.37||||0.367|TWO_SIDED|95.0|-0.44|1.19|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.19|-0.44|0.367
92370810|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.908|TWO_SIDED|95.0|-0.84|0.75|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.75|-0.84|0.908
92370811|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.25||||0.553|TWO_SIDED|95.0|-0.57|1.06|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.06|-0.57|0.553
92370812|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.45|||<|0.001|TWO_SIDED|95.0|4.22|6.68|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.68|4.22|<0.001
92370813|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.1|||<|0.001|TWO_SIDED|95.0|3.88|6.31|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.31|3.88|<0.001
92370814|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.42|||<|0.001|TWO_SIDED|95.0|4.19|6.66|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.66|4.19|<0.001
92370815|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.17|||<|0.001|TWO_SIDED|95.0|3.94|6.4|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.40|3.94|<0.001
92370816|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.28||||0.518|TWO_SIDED|95.0|-0.57|1.12|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.12|-0.57|0.518
92370817|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.86|TWO_SIDED|95.0|-0.9|0.75|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.75|-0.90|0.860
92407244|NCT04603027|184703918|SUPERIORITY|||||||0.034|||||||nonparametric survival analysis|Method used was a nonparametric survival analysis for interval censored data||||||0.034
92407245|NCT04603027|184703918|SUPERIORITY|||||||0.094|||||||nonparametric survival analysis|Method used was a nonparametric survival analysis for interval censored data||||||0.094
92407246|NCT04603027|184703922|SUPERIORITY||Posterior Mean Odds Ratio|2.14|||||TWO_SIDED|95.0|0.45|10.96||||||||10.96|0.45|
92407247|NCT04603027|184703922|SUPERIORITY||Posterior Mean Odds Ratio|2.02|||||TWO_SIDED|95.0|0.42|8.78||||||||8.78|0.42|
92407248|NCT04603027|184703922|SUPERIORITY||Posterior Mean Odds Ratio|2.12|||||TWO_SIDED|95.0|0.46|9.51||||||||9.51|0.46|
92370818|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.25||||0.556|TWO_SIDED|95.0|-0.59|1.1|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.10|-0.59|0.556
92370819|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.44|||<|0.001|TWO_SIDED|95.0|4.17|6.71|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.71|4.17|<0.001
92370820|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.93|||<|0.001|TWO_SIDED|95.0|3.68|6.19|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.19|3.68|<0.001
92370821|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.27|||<|0.001|TWO_SIDED|95.0|4.0|6.54|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.54|4.00|<0.001
92370822|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.06|||<|0.001|TWO_SIDED|95.0|3.79|6.34|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.34|3.79|<0.001
92407249|NCT04603027|184703923|SUPERIORITY||||||||||||||||||There were not enough responders to model using GLMM or a Bayesian logistic model, and no treatment difference analysis was conducted.|||
92407250|NCT04603027|184703923|SUPERIORITY||||||||||||||||||There were not enough responders to model using GLMM or a Bayesian logistic model, and no treatment difference analysis was conducted.|||
92407251|NCT04603027|184703923|SUPERIORITY||||||||||||||||||There were not enough responders to model using GLMM or a Bayesian logistic model, and no treatment difference analysis was conducted.|||
92407252|NCT04603027|184703924|SUPERIORITY||Posterior Mean difference|-9.08|||||TWO_SIDED|95.0|-30.22|12.4||||||||12.40|-30.22|
92407253|NCT04603027|184703924|SUPERIORITY||Posterior Mean difference|2.99|||||TWO_SIDED|95.0|-23.41|18.15||||||||18.15|-23.41|
92370823|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.38||||0.392|TWO_SIDED|95.0|-0.49|1.25|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.25|-0.49|0.392
92407254|NCT04603027|184703924|SUPERIORITY||Posterior Mean difference|-17.1|||||TWO_SIDED|95.0|-38.29|3.25||||||||3.25|-38.29|
92407255|NCT04603027|184703925|SUPERIORITY||Posterior Mean difference|-2.66|||||TWO_SIDED|95.0|-6.79|1.52||||||||1.52|-6.79|
92407256|NCT04603027|184703925|SUPERIORITY||Posterior Mean difference|-0.83|||||TWO_SIDED|95.0|-4.7|3.16||||||||3.16|-4.70|
92407257|NCT04603027|184703925|SUPERIORITY||Posterior Mean difference|-3.53|||||TWO_SIDED|95.0|-7.49|0.63||||||||0.63|-7.49|
92407258|NCT04603027|184703926|SUPERIORITY||Posterior Mean difference|-9.08|||||TWO_SIDED|95.0|-30.22|12.4||||||||12.40|-30.22|
92407259|NCT04603027|184703926|SUPERIORITY||Posterior Mean difference|-2.99|||||TWO_SIDED|95.0|-23.41|18.15||||||||18.15|-23.41|
92407260|NCT04603027|184703926|SUPERIORITY||Posterior Mean difference|-17.1|||||TWO_SIDED|95.0|-38.29|3.25||||||||3.25|-38.29|
92407261|NCT04603027|184703927|SUPERIORITY||Posterior Mean difference|-2.66|||||TWO_SIDED|95.0|-6.79|1.52||||||||1.52|-6.79|
92370824|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.13||||0.762|TWO_SIDED|95.0|-0.98|0.72|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.72|-0.98|0.762
92370825|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.21||||0.638|TWO_SIDED|95.0|-0.66|1.08|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.08|-0.66|0.638
92370826|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.55|||<|0.001|TWO_SIDED|95.0|3.2|5.9|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.90|3.20|<0.001
92370827|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.45|||<|0.001|TWO_SIDED|95.0|3.11|5.78|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.78|3.11|<0.001
92370828|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.91|||<|0.001|TWO_SIDED|95.0|3.56|6.26|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.26|3.56|<0.001
92370829|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.39|||<|0.001|TWO_SIDED|95.0|3.04|5.74|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.74|3.04|<0.001
92407262|NCT04603027|184703927|SUPERIORITY||Posterior Mean difference|-0.83|||||TWO_SIDED|95.0|-4.7|3.16||||||||3.16|-4.70|
92407263|NCT04603027|184703927|SUPERIORITY||Posterior Mean difference|-3.53|||||TWO_SIDED|95.0|-7.49|0.63||||||||0.63|-7.49|
92407264|NCT04603027|184703928|SUPERIORITY||Posterior Mean difference|2.99|||||TWO_SIDED|95.0|-19.99|28.84||||||||28.84|-19.99|
92407265|NCT04603027|184703928|SUPERIORITY||Posterior Mean difference|-2.49|||||TWO_SIDED|95.0|-26.47|21.55||||||||21.55|-26.47|
92407266|NCT04603027|184703928|SUPERIORITY||Posterior Mean difference|13.36|||||TWO_SIDED|95.0|-12.03|36.92||||||||36.92|-12.03|
92407267|NCT04603027|184703929|SUPERIORITY||Posterior Mean difference|0.62|||||TWO_SIDED|95.0|-1.1|2.3||||||||2.30|-1.10|
92407268|NCT04603027|184703929|SUPERIORITY||Posterior Mean difference|-0.21|||||TWO_SIDED|95.0|-1.96|1.37||||||||1.37|-1.96|
92407269|NCT04603027|184703929|SUPERIORITY||Posterior Mean difference|-0.08|||||TWO_SIDED|95.0|-1.73|1.75||||||||1.75|-1.73|
92407270|NCT04603027|184703930|SUPERIORITY||Posterior Mean difference|13.71|||||TWO_SIDED|95.0|-50.62|73.35||||||||73.35|-50.62|
92407271|NCT04603027|184703930|SUPERIORITY||Posterior Mean difference|73.69|||||TWO_SIDED|95.0|21.69|126.92||||||||126.92|21.69|
92407272|NCT04603027|184703930|SUPERIORITY||Posterior Mean difference|8.41|||||TWO_SIDED|95.0|-44.58|56.81||||||||56.81|-44.58|
92407273|NCT04603027|184703931|SUPERIORITY||Posterior Mean difference|0.62|||||TWO_SIDED|95.0|-1.1|2.3||||||||2.30|-1.10|
92407274|NCT04603027|184703931|SUPERIORITY||Posterior Mean difference|-0.21|||||TWO_SIDED|95.0|-1.96|1.37||||||||1.37|-1.96|
92407275|NCT04603027|184703931|SUPERIORITY||Posterior Mean difference|-0.08|||||TWO_SIDED|95.0|-1.73|1.75||||||||1.75|-1.73|
92407276|NCT03894813|184703935|NON_INFERIORITY|The relevant parameters were determined as follows: test level α=0.05, test power 1-β=0.80, Pt=0.90, Pc=0.75, Nt:Nc=1:1, boundary value Δ= -0.0.068 (excellent), and Fisher's exact test. As a result, the sample size of each group was calculated as 50 patients, 100 patients in total. Considering a loss to follow-up rate of 20%, a sample size of 120 patients was finally determined, with 60 patients in each group.|||||<|0.01|||||||Chi-squared|||||||<0.01
92407277|NCT03894813|184703936|NON_INFERIORITY|The relevant parameters were determined as follows: test level α=0.05, test power 1-β=0.80, Pt=0.90, Pc=0.75, Nt:Nc=1:1, boundary value Δ= -0.0.068 (excellent), and Fisher's exact test. As a result, the sample size of each group was calculated as 50 patients, 100 patients in total. Considering a loss to follow-up rate of 20%, a sample size of 120 patients was finally determined, with 60 patients in each group.|||||<|0.01|||||||Chi-squared|||||||<0.01
92407278|NCT03894813|184703937|NON_INFERIORITY|The relevant parameters were determined as follows: test level α=0.05, test power 1-β=0.80, Pt=0.90, Pc=0.75, Nt:Nc=1:1, boundary value Δ= -0.0.068 (excellent), and Fisher's exact test. As a result, the sample size of each group was calculated as 50 patients, 100 patients in total. Considering a loss to follow-up rate of 20%, a sample size of 120 patients was finally determined, with 60 patients in each group.|||||<|0.01|||||||Chi-squared|||||||<0.01
92407279|NCT03894813|184703938|NON_INFERIORITY|The relevant parameters were determined as follows: test level α=0.05, test power 1-β=0.80, Pt=0.90, Pc=0.75, Nt:Nc=1:1, boundary value Δ= -0.0.068 (excellent), and Fisher's exact test. As a result, the sample size of each group was calculated as 50 patients, 100 patients in total. Considering a loss to follow-up rate of 20%, a sample size of 120 patients was finally determined, with 60 patients in each group.|||||<|0.01|||||||Chi-squared|||||||<0.01
92407280|NCT03894813|184703939|NON_INFERIORITY|The relevant parameters were determined as follows: test level α=0.05, test power 1-β=0.80, Pt=0.90, Pc=0.75, Nt:Nc=1:1, boundary value Δ= -0.0.068 (excellent), and Fisher's exact test. As a result, the sample size of each group was calculated as 50 patients, 100 patients in total. Considering a loss to follow-up rate of 20%, a sample size of 120 patients was finally determined, with 60 patients in each group.|||||<|0.01|||||||Chi-squared|||||||<0.01
92407281|NCT03249116|184704010|SUPERIORITY||F statistic|0.33||||0.723|TWO_SIDED|||||The threshold for statistical significance was p\<.05|ANOVA|dependent variable: self-reported anxiety between-subjects factors: condition, social anxiety within-subjects factor: time||||||.723
92407282|NCT03249116|184704011|SUPERIORITY||F statistic|1.34||||0.271|TWO_SIDED|||||The threshold for statistical significance was p\<.05|ANOVA|dependent variable: electrodermal activity between-subjects factors: condition, social anxiety within-subjects factor: time||||||.271
92407283|NCT03249116|184704012|SUPERIORITY||F statistic|0.45||||0.638|TWO_SIDED|||||The threshold for statistical significance was p\<.05|ANOVA|dependent variable: heart rate between-subjects factors: condition, social anxiety within-subjects factor: time||||||.638
92407284|NCT03249116|184704013|SUPERIORITY||F statistic|0.14||||0.868|TWO_SIDED|||||The threshold for statistical significance was p\<.05|ANOVA|dependent variable: number of errors between-subjects factors: condition, social anxiety||||||.868
92407285|NCT03249116|184704014|SUPERIORITY||F statistic|0.21||||0.809|TWO_SIDED|||||The threshold for statistical significance was p\<.05|ANOVA|dependent variable: lowest number reached/highest number of correct responses between-subjects factors: condition, social anxiety||||||.809
92407286|NCT00221117|184704021|OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||.015
92407287|NCT00221117|184704022|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||The subject's impairment and demographic characteristics were analyzed using descriptive statistics for parametric and nonparametric data. The baseline outcome data of the intervention and control groups were compared using Fisher exact test (for categorical variables) and Mann-Whitney U test (for continuous variables). Comparisons between the intervention and control groups were carried out using linear regression analysis adjusted for the baseline degree of disability (baseline AIS).||||0.05
92370830|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.741|TWO_SIDED|95.0|-0.77|1.08|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.08|-0.77|0.741
92370831|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.05||||0.907|TWO_SIDED|95.0|-0.85|0.95|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.95|-0.85|0.907
92370832|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.51||||0.274|TWO_SIDED|95.0|-0.41|1.44|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.44|-0.41|0.274
92370833|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.77|||<|0.001|TWO_SIDED|95.0|2.4|5.13|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.13|2.40|<0.001
92370834|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.91|||<|0.001|TWO_SIDED|95.0|2.56|5.26|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.26|2.56|<0.001
92370835|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.12|||<|0.001|TWO_SIDED|95.0|2.75|5.48|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.48|2.75|<0.001
92370836|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.01|||<|0.001|TWO_SIDED|95.0|2.64|5.38|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.38|2.64|<0.001
92370837|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.25||||0.607|TWO_SIDED|95.0|-1.18|0.69|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.69|-1.18|0.607
92370838|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.1||||0.824|TWO_SIDED|95.0|-1.02|0.81|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.81|-1.02|0.824
92370839|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.827|TWO_SIDED|95.0|-0.83|1.04|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.04|-0.83|0.827
92370840|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.98|||<|0.001|TWO_SIDED|95.0|1.58|4.39|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.39|1.58|<0.001
92370841|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.27|||<|0.001|TWO_SIDED|95.0|1.88|4.65|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.65|1.88|<0.001
92370842|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.12|||<|0.001|TWO_SIDED|95.0|1.71|4.52|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.52|1.71|<0.001
92370843|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.57|||<|0.001|TWO_SIDED|95.0|2.16|4.98|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.98|2.16|<0.001
92370844|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.59||||0.232|TWO_SIDED|95.0|-1.55|0.38|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.38|-1.55|0.232
92370845|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.31||||0.522|TWO_SIDED|95.0|-1.24|0.63|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.63|-1.24|0.522
92370846|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.45||||0.356|TWO_SIDED|95.0|-1.41|0.51|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.51|-1.41|0.356
92370847|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.31||||0.001|TWO_SIDED|95.0|0.92|3.69|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.69|0.92|0.001
92370848|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.45|||<|0.001|TWO_SIDED|95.0|1.08|3.82|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.82|1.08|<0.001
92370849|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.7|||<|0.001|TWO_SIDED|95.0|1.31|4.08|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.08|1.31|<0.001
92370850|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.85|||<|0.001|TWO_SIDED|95.0|1.46|4.23|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.23|1.46|<0.001
92370851|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.54||||0.264|TWO_SIDED|95.0|-1.49|0.41|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.41|-1.49|0.264
92370852|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.4||||0.4|TWO_SIDED|95.0|-1.32|0.53|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.53|-1.32|0.400
92370853|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.15||||0.758|TWO_SIDED|95.0|-1.1|0.8|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.80|-1.10|0.758
92370854|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.62||||0.018|TWO_SIDED|95.0|0.27|2.97|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.97|0.27|0.018
92370855|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.88||||0.006|TWO_SIDED|95.0|0.55|3.21|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.21|0.55|0.006
92370856|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.29|||<|0.001|TWO_SIDED|95.0|0.94|3.63|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.63|0.94|<0.001
92370857|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.4|||<|0.001|TWO_SIDED|95.0|1.05|3.75|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.75|1.05|<0.001
92370858|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.78||||0.097|TWO_SIDED|95.0|-1.7|0.14|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.14|-1.70|0.097
92370859|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.52||||0.254|TWO_SIDED|95.0|-1.42|0.38|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.38|-1.42|0.254
92370860|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.11||||0.812|TWO_SIDED|95.0|-1.03|0.81|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.81|-1.03|0.812
92370861|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.32||||0.045|TWO_SIDED|95.0|0.03|2.61|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.61|0.03|0.045
92370862|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.59||||0.015|TWO_SIDED|95.0|0.31|2.87|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.87|0.31|0.015
92370863|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.73||||0.009|TWO_SIDED|95.0|0.43|3.02|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.02|0.43|0.009
92370864|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.08||||0.002|TWO_SIDED|95.0|0.78|3.37|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.37|0.78|0.002
92370865|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.76||||0.094|TWO_SIDED|95.0|-1.64|0.13|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.13|-1.64|0.094
92370866|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.49||||0.269|TWO_SIDED|95.0|-1.35|0.38|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.38|-1.35|0.269
92370867|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.35||||0.437|TWO_SIDED|95.0|-1.23|0.53|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.53|-1.23|0.437
92370868|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.74||||0.218|TWO_SIDED|95.0|-0.44|1.92|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.92|-0.44|0.218
92370869|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.19||||0.046|TWO_SIDED|95.0|0.02|2.35|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.35|0.02|0.046
92370870|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.31||||0.03|TWO_SIDED|95.0|0.13|2.49|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.49|0.13|0.030
92407288|NCT00499616|184704026|OTHER||Log Rank Test Statistic|0.9841||||0.3212|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients between 12-18 months of age with Stage 4 neuroblastoma and favorable biological features on ANBL0531 and patients less than 12 months of age with Stage 4 neuroblastoma on A3961 were compared using the log-rank test.||||.3212
92407289|NCT00499616|184704030|OTHER||Log-Rank Test Statistic|5.0049||||0.0253|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients with complete surgical resection and patients without complete surgical resection were compared using the log-rank test.||||.0253
92370871|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.75||||0.004|TWO_SIDED|95.0|0.57|2.93|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.93|0.57|0.004
92370872|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.01||||0.014|TWO_SIDED|95.0|-1.82|-0.2|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||-0.20|-1.82|0.014
92370873|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.56||||0.16|TWO_SIDED|95.0|-1.35|0.22|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.22|-1.35|0.160
92370874|NCT01559259|184646499|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.44||||0.284|TWO_SIDED|95.0|-1.25|0.37|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.37|-1.25|0.284
92370875|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.62||||0.014|TWO_SIDED|95.0|0.13|1.1|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.10|0.13|0.014
92370876|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.46||||0.066|TWO_SIDED|95.0|-0.03|0.94|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.94|-0.03|0.066
92370877|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.71||||0.004|TWO_SIDED|95.0|0.22|1.2|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.20|0.22|0.004
92370878|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.3||||0.232|TWO_SIDED|95.0|-0.19|0.78|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.78|-0.19|0.232
92370879|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.32||||0.067|TWO_SIDED|95.0|-0.02|0.66|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.66|-0.02|0.067
92370880|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.354|TWO_SIDED|95.0|-0.18|0.5|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.50|-0.18|0.354
92407290|NCT00499616|184704031|OTHER|The overall survival distributions of patients with complete surgical resection and patients without complete surgical resection were compared using the log-rank test.|Log Rank Test Statistic|2.6709||||0.1022|TWO_SIDED|95.0|||||Log Rank|||||||.1022
92407291|NCT00499616|184704032|OTHER||Chi-Square Test Statistic|9.9111||||0.0016|TWO_SIDED|95.0|||||Chi-squared|||The association between extent of surgical resection with occurrence of complications was determined using the chi-square test.||||.0016
92407292|NCT01837823|184704086|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.231||||0.054|TWO_SIDED||||||Regression, Linear|||||||0.054
92407293|NCT01837823|184704087|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.074||||0.5|TWO_SIDED||||||Pearson correlation coefficient|||for minimum lumen area site||||0.50
92407294|NCT04954833|184704143|NON_INFERIORITY|A non-inferiority margin of 0.05 logMAR. A value of 0.05 logMAR is approximately 2.5 letters on the ETDRS chart.|LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|-0.01|0.02|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test - Control|||0.02|-0.01|
92407295|NCT04954833|184704144|NON_INFERIORITY|A non-inferiority margin of 10% was used. A 10% of difference in the rate of lens fit acceptance is considered clinically significant.|Posterior mean difference of proportions|0.0|STANDARD_DEVIATION|0.0048|||TWO_SIDED|95.0|-0.009|0.01|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference between the Test and Control (Test - Control) was used to evaluate non-inferiority.|Interval presented is a 95% Credible interval|||0.010|-0.009|
92407296|NCT05021978|184704156|OTHER|||||||0.1048||||||Change from baseline to Day 7 in TETRAS Upper Limb Score|Mixed Models Analysis|Includes timepoint as fixed effect and baseline TETRAS score as a covariate. Within subject variability modeled using unstructured covariance pattern.||Sample size is a convenience sample determined according to feasibility to provide sufficient and safety data to inform the development of future controlled studies with PRAX-944. In the open-label phase of the trial (Part A ), at least 10 participants would provide an 80% probability of observing at least 1 AE with an underlying incidence of 15% or greater and provide approximately 80% power to detect an effect size of 1.0 on the primary endpoint change from baseline in TETRAS Upper Limb score.||||0.1048
92407297|NCT05021978|184704156|OTHER|||||||0.0028||||||Change from baseline to Day 14 in TETRAS UL score|Mixed Models Analysis|||||||0.0028
92407298|NCT05021978|184704160|OTHER|||||||0.4025|||||||Mixed Models Analysis|Change from baseline to Day 7||||||0.4025
92407299|NCT05021978|184704160|OTHER|||||||0.0766||||||Change from baseline to Day 14|Mixed Models Analysis|||||||0.0766
92407300|NCT05021978|184704161|OTHER|||||||0.2501||||||Change from baseline to Day 7|Mixed Models Analysis|||||||0.2501
92407301|NCT05021978|184704161|OTHER|||||||0.1874||||||Chnage from baseline to Day 14|Mixed Models Analysis|||||||0.1874
92407302|NCT05021978|184704162|OTHER|||||||0.4722||||||Item 6 Archimedes Spiral (right) change from baseline to Day 7|Mixed Models Analysis|||||||0.4722
92407303|NCT05021978|184704162|OTHER|||||||0.6215||||||Item 6 Archimedes Spiral (left) change from baseline to Day 7|Mixed Models Analysis|||||||0.6215
92407304|NCT05021978|184704162|OTHER|||||||0.9648||||||Item 7 Handwriting change from baseline to Day 7|Mixed Models Analysis|||||||0.9648
92407305|NCT05021978|184704162|OTHER|||||||0.2855||||||Item 7 Handwriting change from baseline to Day 14|Mixed Models Analysis|||||||0.2855
92407306|NCT05021978|184704162|OTHER|||||||0.205||||||Item 6 Archimedes Spiral (right) change from baseline to Day 14|Mixed Models Analysis|||||||0.2050
92407307|NCT05021978|184704162|OTHER|||||||0.2364||||||Item 6 Archimedes Spiral (left) change from baseline to Day 14|Mixed Models Analysis|||||||0.2364
92407308|NCT05021978|184704166|OTHER|||||||0.0216|||||||Mixed Models Analysis|||||||0.0216
92407309|NCT05021978|184704167|OTHER|||||||0.1042||||||Change from baseline Day 7|Mixed Models Analysis|||||||0.1042
92407310|NCT05021978|184704167|OTHER|||||||0.0257||||||Change from baseline Day 21|Mixed Models Analysis|||||||0.0257
92407311|NCT05021978|184704168|OTHER|||||||0.2971||||||Change from baseline to Day 7|Mixed Models Analysis|||||||0.2971
92407312|NCT05021978|184704168|OTHER|||||||0.2034||||||Change from baseline Day 21|Mixed Models Analysis|||||||0.2034
92407313|NCT05021978|184704168|OTHER|||||||0.1105||||||Change from baseline to Day 42|Mixed Models Analysis|||||||0.1105
92407314|NCT05021978|184704169|OTHER|||||||0.005||||||Change from baseline to Day 7|Mixed Models Analysis|||||||0.0050
92407315|NCT05021978|184704169|OTHER|||||||0.0018||||||Change from baseline to Day 21|Mixed Models Analysis|||||||0.0018
92407316|NCT05021978|184704169|OTHER|||||||0.0061||||||Change from baseline to Day 42|Mixed Models Analysis|||||||0.0061
92407317|NCT05021978|184704170|OTHER|||||||0.9776||||||Item 6 Archimedes Spiral (right) change from baseline to Day 7|Mixed Models Analysis|||||||0.9776
92407318|NCT05021978|184704170|OTHER|||||||0.1962||||||Item 6 Archimedes Spiral (left) change from baseline to Day 7|Mixed Models Analysis|||||||0.1962
92407319|NCT05021978|184704170|OTHER|||||||0.9419||||||Item 7 Handwriting change from baseline to Day 7|Mixed Models Analysis|||||||0.9419
92407320|NCT05021978|184704170|OTHER|||||||0.0668||||||Item 6 Archimedes Spiral (right) change from baseline to Day 21|Mixed Models Analysis|||||||0.0668
92407321|NCT05021978|184704170|OTHER|||||||0.9191||||||Item 6 Archimedes Spiral (left) change from baseline to Day 21|Mixed Models Analysis|||||||0.9191
92407322|NCT05021978|184704170|OTHER|||||||0.6075||||||Item 7 Handwriting change from baseline to Day 21|Mixed Models Analysis|||||||0.6075
92407323|NCT05021978|184704170|OTHER|||||||0.246||||||Item 6 Archimedes Spiral (right) change from baseline to Day 42|Mixed Models Analysis|||||||0.2460
92407324|NCT05021978|184704170|OTHER|||||||0.6736||||||Item 6 Archimedes Spiral (left) change from baseline to Day 42|Mixed Models Analysis|||||||0.6736
92407325|NCT05021978|184704170|OTHER|||||||0.8511||||||Item 7 Handwriting change from baseline to Day 42|Mixed Models Analysis|||||||0.8511
92407326|NCT05021978|184704171|OTHER|||||||0.1505||||||Change from baseline to Day 7|Mixed Models Analysis|||||||0.1505
92407327|NCT05021978|184704171|OTHER|||||||0.0543||||||Change from baseline to Day 21|Mixed Models Analysis|||||||0.0543
92407328|NCT05021978|184704171|OTHER|||||||0.0015||||||Change from baseline to Day 42|Mixed Models Analysis|||||||0.0015
92407329|NCT05021978|184704172|OTHER|||||||0.8638||||||Change from baseline to Day 7|Mixed Models Analysis|||||||0.8638
92407330|NCT05021978|184704172|OTHER|||||||0.0605||||||Change from baseline to Day 21|Mixed Models Analysis|||||||0.0605
92407331|NCT05021978|184704172|OTHER|||||||0.0871||||||Change from baseline to Day 42|Mixed Models Analysis|||||||0.0871
92407332|NCT00414596|184704245|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Mixed Models Analysis|The primary pain end-point was assessed by a mixed effect model with time (visit) and as fixed effects and subject as random effect.||"Hypothesis: Patients with chronic low back pain who undergo spinal decompression with a standardized 6-week regimen consisting of 20 treatments with the spinal decompression system would experience \>50% reduction in their verbal score of pain intensity.~Power Analysis: Mean pain scores at time of enrollment were assumed to equal 6 with potential reduction in pain of 50%. To obtain 80% power at an alpha level of 0.05, sample size was estimated as 20 patients."||||.0001
92370881|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.42||||0.017|TWO_SIDED|95.0|0.08|0.76|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.76|0.08|0.017
92370882|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.15|||<|0.001|TWO_SIDED|95.0|1.45|2.86|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.86|1.45|<0.001
92370883|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.93|||<|0.001|TWO_SIDED|95.0|1.23|2.64|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.64|1.23|<0.001
92370884|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.09|||<|0.001|TWO_SIDED|95.0|1.39|2.8|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.80|1.39|<0.001
92370885|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.32|||<|0.001|TWO_SIDED|95.0|0.61|2.02|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.02|0.61|<0.001
92407333|NCT02754440|184704260|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 5.0 × 10\^6 for the single platelet product group. The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 450 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.968|
92446267|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.123||0.8861|TWO_SIDED|95.0|-0.26|0.23|||MMRM|||Genital Symptoms, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.26|0.8861
92370886|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.83|||<|0.001|TWO_SIDED|95.0|0.34|1.33|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.33|0.34|<0.001
92370887|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.62||||0.014|TWO_SIDED|95.0|0.12|1.11|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.11|0.12|0.014
92370888|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.77||||0.002|TWO_SIDED|95.0|0.28|1.27|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.27|0.28|0.002
92370889|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.45|||<|0.001|TWO_SIDED|95.0|2.69|4.22|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.22|2.69|<0.001
92370890|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.13|||<|0.001|TWO_SIDED|95.0|2.36|3.89|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.89|2.36|<0.001
92370891|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.49|||<|0.001|TWO_SIDED|95.0|2.72|4.26|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.26|2.72|<0.001
92370892|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.78|||<|0.001|TWO_SIDED|95.0|2.02|3.54|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.54|2.02|<0.001
92370893|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.67||||0.014|TWO_SIDED|95.0|0.14|1.21|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.21|0.14|0.014
92370894|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.35||||0.202|TWO_SIDED|95.0|-0.19|0.88|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.88|-0.19|0.202
92370895|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.71||||0.01|TWO_SIDED|95.0|0.17|1.24|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.24|0.17|0.010
92370896|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.0|||<|0.001|TWO_SIDED|95.0|3.24|4.76|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.76|3.24|<0.001
92370897|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.55|||<|0.001|TWO_SIDED|95.0|2.79|4.31|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.31|2.79|<0.001
92370898|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.03|||<|0.001|TWO_SIDED|95.0|3.27|4.79|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.79|3.27|<0.001
92370899|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.48|||<|0.001|TWO_SIDED|95.0|2.72|4.24|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.24|2.72|<0.001
92370900|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.52||||0.056|TWO_SIDED|95.0|-0.01|1.05|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.05|-0.01|0.056
92370901|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.07||||0.789|TWO_SIDED|95.0|-0.46|0.6|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.60|-0.46|0.789
92370902|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.55||||0.042|TWO_SIDED|95.0|0.02|1.08|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.08|0.02|0.042
92370903|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.17|||<|0.001|TWO_SIDED|95.0|3.37|4.98|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.98|3.37|<0.001
92407334|NCT02754440|184704260|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 8.0 × 10\^6 for the double platelet product group, or \< 5.0 × 10\^6 for each transfusable unit . The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 450 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.968|
92407335|NCT02754440|184704260|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 12.0 × 10\^6 for the triple platelet product group, or \< 5.0 × 10\^6 for each transfusable unit . The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 450 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.968|
92407336|NCT02754440|184704261|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 3.0 × 10\^11 for the single platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|0.957|STANDARD_ERROR_OF_MEAN|0.021|||ONE_SIDED|95.0|0.904|||||||Up to 450 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.904|
92407337|NCT02754440|184704261|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 6.2 × 10\^11 for the double platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 450 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.968|
92407338|NCT02754440|184704261|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 9.3 × 10\^11 for the triple platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 450 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.968|
92407339|NCT02558296|184704262|SUPERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 24 was less than the mean change in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Net)|-0.48|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.39||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the primary endpoint was that the mean change in HbA1c from baseline to Week 24 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.39|-0.56|<0.0001
92370904|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.86|||<|0.001|TWO_SIDED|95.0|3.06|4.66|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.66|3.06|<0.001
92370905|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.34|||<|0.001|TWO_SIDED|95.0|3.54|5.14|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.14|3.54|<0.001
92370906|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.89|||<|0.001|TWO_SIDED|95.0|3.09|4.69|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.69|3.09|<0.001
92370907|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.317|TWO_SIDED|95.0|-0.28|0.85|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.85|-0.28|0.317
92370908|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.03||||0.922|TWO_SIDED|95.0|-0.59|0.53|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.53|-0.59|0.922
92370909|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.45||||0.112|TWO_SIDED|95.0|-0.11|1.02|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.02|-0.11|0.112
92370910|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.1|||<|0.001|TWO_SIDED|95.0|3.27|4.94|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.94|3.27|<0.001
92370911|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.76|||<|0.001|TWO_SIDED|95.0|2.92|4.59|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.59|2.92|<0.001
92240163|NCT00570739|184383833|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.7994|TWO_SIDED|95.0|0.25|2.29||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||2.29|0.25|0.7994
92370912|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.15|||<|0.001|TWO_SIDED|95.0|3.32|4.99|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.99|3.32|<0.001
92370913|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.89|||<|0.001|TWO_SIDED|95.0|3.05|4.72|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.72|3.05|<0.001
92370914|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.22||||0.464|TWO_SIDED|95.0|-0.37|0.81|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.81|-0.37|0.464
92370915|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.13||||0.667|TWO_SIDED|95.0|-0.71|0.45|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.45|-0.71|0.667
92370916|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.27||||0.368|TWO_SIDED|95.0|-0.32|0.86|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.86|-0.32|0.368
92370917|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.94|||<|0.001|TWO_SIDED|95.0|3.08|4.81|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.81|3.08|<0.001
92370918|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.63|||<|0.001|TWO_SIDED|95.0|2.77|4.49|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.49|2.77|<0.001
92370919|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.06|||<|0.001|TWO_SIDED|95.0|3.19|4.92|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.92|3.19|<0.001
92370920|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.68|||<|0.001|TWO_SIDED|95.0|2.82|4.54|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.54|2.82|<0.001
92370921|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.26||||0.397|TWO_SIDED|95.0|-0.34|0.86|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.86|-0.34|0.397
92370922|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.866|TWO_SIDED|95.0|-0.65|0.55|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.55|-0.65|0.866
92240164|NCT00570739|184383833|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.996|TWO_SIDED|95.0|0.32|3.03||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||3.03|0.32|0.9960
92370923|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.37||||0.226|TWO_SIDED|95.0|-0.23|0.97|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.97|-0.23|0.226
92370924|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.8|||<|0.001|TWO_SIDED|95.0|2.9|4.7|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.70|2.90|<0.001
92370925|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.37|||<|0.001|TWO_SIDED|95.0|2.47|4.26|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.26|2.47|<0.001
92370926|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.89|||<|0.001|TWO_SIDED|95.0|2.99|4.79|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.79|2.99|<0.001
92370927|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.6|||<|0.001|TWO_SIDED|95.0|2.7|4.5|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.50|2.70|<0.001
92370928|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.2||||0.536|TWO_SIDED|95.0|-0.43|0.83|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.83|-0.43|0.536
92370929|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.23||||0.467|TWO_SIDED|95.0|-0.86|0.39|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.39|-0.86|0.467
92370930|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.361|TWO_SIDED|95.0|-0.34|0.92|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.92|-0.34|0.361
92370931|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.17|||<|0.001|TWO_SIDED|95.0|2.21|4.13|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.13|2.21|<0.001
92370932|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.99|||<|0.001|TWO_SIDED|95.0|2.04|3.95|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.95|2.04|<0.001
92370933|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.51|||<|0.001|TWO_SIDED|95.0|2.55|4.47|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.47|2.55|<0.001
92370934|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.04|||<|0.001|TWO_SIDED|95.0|2.09|4.0|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.00|2.09|<0.001
92370935|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.13||||0.704|TWO_SIDED|95.0|-0.54|0.8|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.80|-0.54|0.704
92370936|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.89|TWO_SIDED|95.0|-0.71|0.62|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.62|-0.71|0.890
92370937|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.47||||0.17|TWO_SIDED|95.0|-0.2|1.14|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.14|-0.20|0.170
92407340|NCT02558296|184704263|SUPERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 24 was less than the mean change in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Net)|-0.52|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.4||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories, history of heart failure, treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the secondary endpoint was that the mean change in HbA1c from baseline to Week 24 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.40|-0.65|<0.0001
92407341|NCT02558296|184704264|SUPERIORITY|Rejection of the null hypothesis would imply that the mean change in body weight from baseline to Week 48 was less than the mean change in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Net)|-2.65|||<|0.0001|TWO_SIDED|95.0|-3.07|-2.24||P-value is presented based on one-sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline HbA1c and eGFR, history of heart failure, insulin use (Y/N), treatment, visit and baseline body weight as fixed effect covariate.||The null hypothesis for the secondary endpoint was that the mean change in body weight from baseline to Week 48 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-2.24|-3.07|<0.0001
92407342|NCT02558296|184704265|SUPERIORITY|Rejection of the null hypothesis would imply that the mean change in systolic blood pressure from baseline to Week 24 was less than the mean change in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Net)|-2.96||||0.0112|TWO_SIDED|95.0|-5.51|-0.42||P-value is presented based on one-sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline HbA1c, GFR categories, BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline SBP as fixed effect covariate.||The null hypothesis for the secondary endpoint was that the mean change in systolic blood pressure from baseline to Week 24 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.42|-5.51|0.0112
92370938|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.69|||<|0.001|TWO_SIDED|95.0|1.72|3.67|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.67|1.72|<0.001
92370939|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.58|||<|0.001|TWO_SIDED|95.0|1.61|3.56|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.56|1.61|<0.001
92370940|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.99|||<|0.001|TWO_SIDED|95.0|2.01|3.97|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.97|2.01|<0.001
92370941|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.75|||<|0.001|TWO_SIDED|95.0|1.77|3.72|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.72|1.77|<0.001
92370942|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.882|TWO_SIDED|95.0|-0.74|0.63|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.63|-0.74|0.882
92370943|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.16||||0.64|TWO_SIDED|95.0|-0.84|0.52|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.52|-0.84|0.640
92370944|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.24||||0.482|TWO_SIDED|95.0|-0.44|0.93|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.93|-0.44|0.482
92370945|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.06|||<|0.001|TWO_SIDED|95.0|1.07|3.06|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.06|1.07|<0.001
92370946|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.17|||<|0.001|TWO_SIDED|95.0|1.17|3.16|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.16|1.17|<0.001
92370947|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.24|||<|0.001|TWO_SIDED|95.0|1.25|3.24|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.24|1.25|<0.001
92370948|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.42|||<|0.001|TWO_SIDED|95.0|1.43|3.41|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.41|1.43|<0.001
92370949|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.36||||0.314|TWO_SIDED|95.0|-1.05|0.34|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.34|-1.05|0.314
92370950|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.25||||0.469|TWO_SIDED|95.0|-0.95|0.44|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.44|-0.95|0.469
92407343|NCT02558296|184704266|SUPERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 6 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.45|||<|0.0001|TWO_SIDED|95.0|-0.5|-0.39||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 6 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.39|-0.50|<0.0001
92407344|NCT02558296|184704266|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 12 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.63|-0.49||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 12 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.49|-0.63|<0.0001
92407345|NCT02558296|184704266|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 24 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.38||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 24 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.38|-0.56|<0.0001
92407346|NCT02558296|184704266|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 36 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.38||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 36 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.38|-0.56|<0.0001
92407347|NCT02558296|184704266|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 48 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.46|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.37||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 48 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.37|-0.56|<0.0001
92240165|NCT00570739|184383833|SUPERIORITY_OR_OTHER|||||||0.7783||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.7783
92407348|NCT02558296|184704266|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 72 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.54|-0.31||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 72 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.31|-0.54|<0.0001
92407349|NCT02558296|184704266|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 96 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.39|||<|0.0001|TWO_SIDED|95.0|-0.51|-0.27||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 96 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.27|-0.51|<0.0001
92446268|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.127||0.328|TWO_SIDED|95.0|-0.38|0.13|||MMRM|||Genital Symptoms, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.38|0.3280
92446269|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.128||0.1123|TWO_SIDED|95.0|-0.46|0.05|||MMRM|||Genital Symptoms, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.46|0.1123
92446270|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.116||0.2541|TWO_SIDED|95.0|-0.36|0.1|||MMRM|||Genital Symptoms, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.36|0.2541
92370951|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.18||||0.616|TWO_SIDED|95.0|-0.87|0.52|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.52|-0.87|0.616
92407350|NCT02558296|184704266|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 120 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.43|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.3||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 120 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.30|-0.56|<0.0001
92407351|NCT02558296|184704266|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 144 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.38|||<|0.0001|TWO_SIDED|95.0|-0.54|-0.23||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 144 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.23|-0.54|<0.0001
92407352|NCT02558296|184704266|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 168 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.27||||0.0045|TWO_SIDED|95.0|-0.47|-0.07||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 168 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.07|-0.47|0.0045
92407353|NCT02558296|184704267|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 6 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.35|||<|0.0001|TWO_SIDED|95.0|-1.55|-1.15||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 6 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-1.15|-1.55|<0.0001
92407354|NCT02558296|184704267|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 12 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.39|||<|0.0001|TWO_SIDED|95.0|-1.61|-1.18||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 12 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-1.18|-1.61|<0.0001
92407355|NCT02558296|184704267|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 24 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.39|||<|0.0001|TWO_SIDED|95.0|-1.61|-1.16||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 24 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-1.16|-1.61|<0.0001
92370952|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.57||||0.002|TWO_SIDED|95.0|0.57|2.56|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.56|0.57|0.002
92370953|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.54||||0.002|TWO_SIDED|95.0|0.55|2.53|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.53|0.55|0.002
92370954|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.95|||<|0.001|TWO_SIDED|95.0|0.95|2.94|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.94|0.95|<0.001
92370955|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.91|||<|0.001|TWO_SIDED|95.0|0.92|2.9|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.90|0.92|<0.001
92370956|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.34||||0.33|TWO_SIDED|95.0|-1.04|0.35|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.35|-1.04|0.330
92446271|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.143||0.011|TWO_SIDED|95.0|-0.66|-0.09|||MMRM|||Genital Symptoms, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.66|0.0110
92370957|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.37||||0.288|TWO_SIDED|95.0|-1.06|0.32|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.32|-1.06|0.288
92370958|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.04||||0.916|TWO_SIDED|95.0|-0.66|0.73|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.73|-0.66|0.916
92370959|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.01||||0.041|TWO_SIDED|95.0|0.04|1.98|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.98|0.04|0.041
92370960|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.05||||0.034|TWO_SIDED|95.0|0.08|2.01|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.01|0.08|0.034
92370961|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.59||||0.001|TWO_SIDED|95.0|0.62|2.56|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.56|0.62|0.001
92370962|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.48||||0.003|TWO_SIDED|95.0|0.52|2.45|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.45|0.52|0.003
92370963|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.47||||0.171|TWO_SIDED|95.0|-1.15|0.2|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.20|-1.15|0.171
92370964|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.44||||0.201|TWO_SIDED|95.0|-1.11|0.23|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.23|-1.11|0.201
92370965|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.763|TWO_SIDED|95.0|-0.57|0.78|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.78|-0.57|0.763
92370966|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.66||||0.175|TWO_SIDED|95.0|-0.3|1.61|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.61|-0.30|0.175
92370967|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.75||||0.12|TWO_SIDED|95.0|-0.2|1.7|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.70|-0.20|0.120
92370968|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.19||||0.014|TWO_SIDED|95.0|0.24|2.15|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.15|0.24|0.014
92370969|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.31||||0.007|TWO_SIDED|95.0|0.36|2.26|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.26|0.36|0.007
92370970|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.66||||0.054|TWO_SIDED|95.0|-1.32|0.01|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.01|-1.32|0.054
92370971|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.56||||0.096|TWO_SIDED|95.0|-1.22|0.1|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.10|-1.22|0.096
92370972|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.12||||0.724|TWO_SIDED|95.0|-0.79|0.55|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.55|-0.79|0.724
92370973|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.42||||0.345|TWO_SIDED|95.0|-0.46|1.3|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.30|-0.46|0.345
92370974|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.54||||0.228|TWO_SIDED|95.0|-0.34|1.41|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.41|-0.34|0.228
92370975|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.9||||0.045|TWO_SIDED|95.0|0.02|1.78|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.78|0.02|0.045
92370976|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.08||||0.016|TWO_SIDED|95.0|0.21|1.96|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.96|0.21|0.016
92370977|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.66||||0.036|TWO_SIDED|95.0|-1.27|-0.04|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||-0.04|-1.27|0.036
92370978|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.54||||0.081|TWO_SIDED|95.0|-1.15|0.07|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.07|-1.15|0.081
92370979|NCT01559259|184646500|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.18||||0.556|TWO_SIDED|95.0|-0.8|0.43|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.43|-0.80|0.556
92370980|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.53|||<|0.001|TWO_SIDED|95.0|2.01|3.05||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.05|2.01|<0.001
92370981|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.23|||<|0.001|TWO_SIDED|95.0|1.72|2.75||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.75|1.72|<0.001
92370982|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.56|||<|0.001|TWO_SIDED|95.0|2.04|3.08||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.08|2.04|<0.001
92370983|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.09|||<|0.001|TWO_SIDED|95.0|1.57|2.6||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.60|1.57|<0.001
92370984|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.44||||0.016|TWO_SIDED|95.0|0.08|0.81||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||0.81|0.08|0.016
92370985|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.14||||0.428|TWO_SIDED|95.0|-0.21|0.5||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||0.50|-0.21|0.428
92370986|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.47||||0.01|TWO_SIDED|95.0|0.11|0.84||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||0.84|0.11|0.010
92407356|NCT02558296|184704267|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 36 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.41|-0.89||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 36 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.89|-1.41|<0.0001
92370987|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|8.38|||<|0.001|TWO_SIDED|95.0|6.59|10.18||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||10.18|6.59|<0.001
92370988|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|7.68|||<|0.001|TWO_SIDED|95.0|5.89|9.47||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||9.47|5.89|<0.001
92370989|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|8.7|||<|0.001|TWO_SIDED|95.0|6.91|10.5||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||10.50|6.91|<0.001
92370990|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|7.65|||<|0.001|TWO_SIDED|95.0|5.86|9.44||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||9.44|5.86|<0.001
92370991|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.74||||0.25|TWO_SIDED|95.0|-0.52|1.99||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.99|-0.52|0.250
92370992|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.04||||0.956|TWO_SIDED|95.0|-1.21|1.28||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.28|-1.21|0.956
92370993|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.06||||0.099|TWO_SIDED|95.0|-0.2|2.31||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.31|-0.20|0.099
92370994|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|10.22|||<|0.001|TWO_SIDED|95.0|7.78|12.66||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||12.66|7.78|<0.001
92370995|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|9.49|||<|0.001|TWO_SIDED|95.0|7.06|11.92||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||11.92|7.06|<0.001
92407357|NCT02558296|184704267|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 48 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.23|||<|0.0001|TWO_SIDED|95.0|-1.48|-0.98||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 48 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.98|-1.48|<0.0001
92370996|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|10.72|||<|0.001|TWO_SIDED|95.0|8.28|13.15||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||13.15|8.28|<0.001
92370997|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|9.63|||<|0.001|TWO_SIDED|95.0|7.19|12.06||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||12.06|7.19|<0.001
92370998|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.6||||0.492|TWO_SIDED|95.0|-1.11|2.3||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.30|-1.11|0.492
92370999|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.14||||0.873|TWO_SIDED|95.0|-1.83|1.56||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.56|-1.83|0.873
92371000|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.09||||0.21|TWO_SIDED|95.0|-0.62|2.79||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.79|-0.62|0.210
92371001|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|11.65|||<|0.001|TWO_SIDED|95.0|8.1|15.2||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||15.20|8.10|<0.001
92371002|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|10.94|||<|0.001|TWO_SIDED|95.0|7.4|14.48||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||14.48|7.40|<0.001
92371003|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|12.65|||<|0.001|TWO_SIDED|95.0|9.1|16.2||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||16.20|9.10|<0.001
92371004|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|11.72|||<|0.001|TWO_SIDED|95.0|8.18|15.26||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||15.26|8.18|<0.001
92371005|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.957|TWO_SIDED|95.0|-2.55|2.42||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.42|-2.55|0.957
92371006|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.78||||0.534|TWO_SIDED|95.0|-3.25|1.69||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.69|-3.25|0.534
92407358|NCT02558296|184704267|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 72 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.99|||<|0.0001|TWO_SIDED|95.0|-1.27|-0.72||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 72 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.72|-1.27|<0.0001
92407359|NCT02558296|184704267|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 96 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 96 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.90|-1.50|<0.0001
92371007|NCT01559259|184646501|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.93||||0.462|TWO_SIDED|95.0|-1.55|3.41||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.41|-1.55|0.462
92371008|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|9.06|||<|0.001|TWO_SIDED|95.0|7.23|10.89||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||10.89|7.23|<0.001
92371009|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|8.14|||<|0.001|TWO_SIDED|95.0|6.33|9.95||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||9.95|6.33|<0.001
92371010|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|8.66|||<|0.001|TWO_SIDED|95.0|6.83|10.49||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||10.49|6.83|<0.001
92371011|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|7.61|||<|0.001|TWO_SIDED|95.0|5.78|9.44||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||9.44|5.78|<0.001
92407360|NCT02558296|184704267|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 120 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.49|-0.82||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 120 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.82|-1.49|<0.0001
92407361|NCT02558296|184704267|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 144 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.63||||0.0008|TWO_SIDED|95.0|-1.01|-0.24||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 144 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.24|-1.01|0.0008
92407362|NCT02558296|184704267|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 168 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.5||||0.0462|TWO_SIDED|95.0|-1.09|0.08||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 168 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||0.08|-1.09|0.0462
92407363|NCT02558296|184704268|SUPERIORITY||Odds Ratio (OR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.41||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Logistic|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Odds ratio is calculated as the odds ratio of bexagliflozin over placebo.|||0.41|0.22|<0.0001
92407364|NCT02558296|184704269|SUPERIORITY||Hazard Ratio (HR)|0.41|||<|0.0001|TWO_SIDED|95.0|0.35|0.49||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Cox|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Hazard ratio and p-value were estimated using Cox regression model for time to first event in the bexagliflozin arm vs. placebo arm during entire study.|||0.49|0.35|<0.0001
92407365|NCT02558296|184704270|SUPERIORITY||Odds Ratio (OR)|2.04||||0.0005|TWO_SIDED|95.0|1.33|3.11||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Logistic|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Odds ratio is calculated as the ratio of bexagliflozin over placebo.|||3.11|1.33|0.0005
92407366|NCT02558296|184704271|SUPERIORITY||Hazard Ratio (HR)|1.82|||<|0.0001|TWO_SIDED|95.0|1.4|2.38||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Cox|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Hazard ratio and p-value were estimated using Cox regression model for time to first event in the bexagliflozin arm vs. placebo arm during the entire study.|||2.38|1.40|<0.0001
92407367|NCT02558296|184704272|SUPERIORITY||Odds Ratio (OR)|0.63||||0.0803|TWO_SIDED|95.0|0.33|1.2||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Logistic|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Odds ratio is calculated as the odds ratio of bexagliflozin over placebo.|||1.20|0.33|0.0803
92371012|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.45||||0.024|TWO_SIDED|95.0|0.19|2.7||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.70|0.19|0.024
92371013|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.53||||0.392|TWO_SIDED|95.0|-0.69|1.76||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.76|-0.69|0.392
92371014|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.05||||0.101|TWO_SIDED|95.0|-0.21|2.3||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.30|-0.21|0.101
92371015|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|30.23|||<|0.001|TWO_SIDED|95.0|23.97|36.48||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||36.48|23.97|<0.001
92371016|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|27.93|||<|0.001|TWO_SIDED|95.0|21.74|34.11||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||34.11|21.74|<0.001
92371017|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|29.86|||<|0.001|TWO_SIDED|95.0|23.6|36.12||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||36.12|23.60|<0.001
92371018|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|27.59|||<|0.001|TWO_SIDED|95.0|21.33|33.86||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||33.86|21.33|<0.001
92371019|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.63||||0.228|TWO_SIDED|95.0|-1.65|6.92||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||6.92|-1.65|0.228
92371020|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.33||||0.875|TWO_SIDED|95.0|-3.84|4.51||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.51|-3.84|0.875
92371021|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.27||||0.299|TWO_SIDED|95.0|-2.02|6.55||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||6.55|-2.02|0.299
92407368|NCT02558296|184704272|SUPERIORITY||Odds Ratio (OR)|0.47||||0.0272|TWO_SIDED|95.0|0.22|1.01||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Logistic|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Odds ratio is calculated as the odds ratio of bexagliflozin over placebo.|||1.01|0.22|0.0272
92407369|NCT02558296|184704272|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0757|TWO_SIDED|95.0|0.34|1.18||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Cox|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Hazard ratio and p-value were estimated using Cox regression model for treatment comparison vs. placebo.|||1.18|0.34|0.0757
92240166|NCT00570739|184383833|SUPERIORITY_OR_OTHER|||||||0.9774||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.9774
92371022|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|36.98|||<|0.001|TWO_SIDED|95.0|28.48|45.47||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||45.47|28.48|<0.001
92371023|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|35.1|||<|0.001|TWO_SIDED|95.0|26.7|43.5||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||43.50|26.70|<0.001
92371024|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|37.09|||<|0.001|TWO_SIDED|95.0|28.6|45.59||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||45.59|28.60|<0.001
92371025|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|35.17|||<|0.001|TWO_SIDED|95.0|26.67|43.68||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||43.68|26.67|<0.001
92371026|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.8||||0.543|TWO_SIDED|95.0|-4.02|7.63||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.63|-4.02|0.543
92371027|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.979|TWO_SIDED|95.0|-5.75|5.6||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||5.60|-5.75|0.979
92371028|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.92||||0.517|TWO_SIDED|95.0|-3.9|7.74||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.74|-3.90|0.517
92371029|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|42.96|||<|0.001|TWO_SIDED|95.0|30.51|55.41||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||55.41|30.51|<0.001
92371030|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|42.2|||<|0.001|TWO_SIDED|95.0|29.9|54.51||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||54.51|29.90|<0.001
92407370|NCT02558296|184704272|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0273|TWO_SIDED|95.0|0.23|1.01||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Cox|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Hazard ratio and p-value were estimated using Cox regression model for treatment comparison vs. placebo.|||1.01|0.23|0.0273
92407371|NCT01189032|184704274|SUPERIORITY_OR_OTHER|||||||0.004||||||It's the p-value of linear trend. It's adjusted for multiplicity.|maximum contrast method|To confirm dose-response relation, two contrasts were provided; linear trend (-1, 0, 1), and saturated at 1% DE-089 ophthalmic solution (-2, 1, 1).||||||0.004
92407372|NCT01189032|184704274|SUPERIORITY_OR_OTHER|||||||0.006||||||It's the p-value of Saturated at 1% DE-089. It's adjusted for multiplicity.|maximum contrast method|To confirm dose-response relation, two contrasts were provided; linear trend (-1, 0, 1), and saturated at 1% DE-089 ophthalmic solution (-2, 1, 1).||||||0.006
92407373|NCT01995838|184704277|SUPERIORITY||LS Mean Difference|0.51||||0.0651|TWO_SIDED|95.0|-0.03|1.06|||ANCOVA|Baseline value and treatment as covariates.||||1.06|-0.03|0.0651
92407374|NCT01995838|184704277|SUPERIORITY||LS Mean Difference|0.13||||0.649|TWO_SIDED|95.0|-0.44|0.7|||ANCOVA|Baseline value and treatment as covariates.||||0.70|-0.44|0.6490
92240167|NCT00570739|184383834|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 4 Weeks||||<0.0001
92371031|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|45.12|||<|0.001|TWO_SIDED|95.0|32.67|57.57||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||57.57|32.67|<0.001
92371032|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|44.25|||<|0.001|TWO_SIDED|95.0|31.79|56.71||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||56.71|31.79|<0.001
92371033|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.29||||0.767|TWO_SIDED|95.0|-9.82|7.25||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.25|-9.82|0.767
92371034|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-2.04||||0.629|TWO_SIDED|95.0|-10.36|6.27||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||6.27|-10.36|0.629
92371035|NCT01559259|184646502|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.87||||0.841|TWO_SIDED|95.0|-7.66|9.39||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||9.39|-7.66|0.841
92371036|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.97|||<|0.001|TWO_SIDED|95.0|3.22|4.73||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.73|3.22|<0.001
92371037|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.64|||<|0.001|TWO_SIDED|95.0|2.88|4.39||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.39|2.88|<0.001
92371038|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.07|||<|0.001|TWO_SIDED|95.0|3.32|4.83||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.83|3.32|<0.001
92371039|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.39|||<|0.001|TWO_SIDED|95.0|2.64|4.14||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.14|2.64|<0.001
92407375|NCT01995838|184704277|SUPERIORITY||LS Mean Difference|0.43||||0.1059|TWO_SIDED|95.0|-0.09|0.94|||ANCOVA|Baseline value and treatment as covariates.||||0.94|-0.09|0.1059
92407376|NCT01995838|184704277|SUPERIORITY||LS Mean Difference|0.01||||0.9818|TWO_SIDED|95.0||0.55|||ANCOVA|Baseline value and treatment as covariates.||||0.55|-0. 54|0. 9818
92407377|NCT01995838|184704277|SUPERIORITY||LS Mean Difference|0.38||||0.1071|TWO_SIDED|95.0|-0.08|0.85|||ANCOVA|Baseline value and treatment as covariates.||||0.85|-0.08|0. 1071
92407378|NCT01995838|184704277|SUPERIORITY||LS Mean Difference|0.68||||0.0063|TWO_SIDED|95.0|0.19|1.17|||ANCOVA|Baseline value and treatment as covariates.||||1.17|0.19|0.0063
92407379|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|4.57||||0.0083|TWO_SIDED|95.0|1.19|7.94|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||7.94|1.19|0.0083
92407380|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|4.44||||0.0151|TWO_SIDED|95.0|0.86|8.01|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||8.01|0.86|0.0151
92407381|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|5.74||||0.0005|TWO_SIDED|95.0|2.54|8.93|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||8.93|2.54|0.0005
92407382|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|8.09|||<|0.0001|TWO_SIDED|95.0|4.73|11.45|||ANCOVA|||Days 1-2||11.45|4.73|<0.0001
92407383|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|10.06|||<|0.0001|TWO_SIDED|95.0|7.2|12.93|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||12.93|7.20|<0.0001
92407384|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|10.13|||<|0.0001|TWO_SIDED|95.0|7.18|13.08|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||13.08|7.18|<0.0001
92407385|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|0.34||||0.8505|TWO_SIDED|95.0|-3.22|3.9|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||3.90|-3.22|0.8505
92407386|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|3.94||||0.038|TWO_SIDED|95.0|0.22|7.66|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||7.66|0.22|0.0380
92407387|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|5.76||||0.0008|TWO_SIDED|95.0|2.4|9.12|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||9.12|2.40|0.0008
92407388|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|7.78|||<|0.0001|TWO_SIDED|95.0|4.24|11.32|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||11.32|4.24|<0.0001
92371040|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.58||||0.031|TWO_SIDED|95.0|0.05|1.11||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.11|0.05|0.031
92371041|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.24||||0.36|TWO_SIDED|95.0|-0.28|0.77||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||0.77|-0.28|0.360
92371042|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.68||||0.011|TWO_SIDED|95.0|0.15|1.21||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.21|0.15|0.011
92371043|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|13.14|||<|0.001|TWO_SIDED|95.0|10.54|15.73||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||15.73|10.54|<0.001
92371044|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|11.94|||<|0.001|TWO_SIDED|95.0|9.35|14.52||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||14.52|9.35|<0.001
92371045|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|13.54|||<|0.001|TWO_SIDED|95.0|10.95|16.13||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||16.13|10.95|<0.001
92371046|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|12.04|||<|0.001|TWO_SIDED|95.0|9.45|14.63||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||14.63|9.45|<0.001
92371047|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.1||||0.235|TWO_SIDED|95.0|-0.72|2.91||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.91|-0.72|0.235
92407389|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|7.89|||<|0.0001|TWO_SIDED|95.0|4.86|10.92|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||10.92|4.86|<0.0001
92371048|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.1||||0.91|TWO_SIDED|95.0|-1.91|1.7||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.70|-1.91|0.910
92371049|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.5||||0.105|TWO_SIDED|95.0|-0.32|3.31||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.31|-0.32|0.105
92371050|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|16.05|||<|0.001|TWO_SIDED|95.0|12.49|19.61||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||19.61|12.49|<0.001
92407390|NCT01995838|184704278|SUPERIORITY||LS Mean Difference|8.87|||<|0.0001|TWO_SIDED|95.0|5.72|12.02|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||12.02|5.72|<0.0001
92407391|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.77||||0.1407|TWO_SIDED|95.0|0.54|1.09|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||1.09|0.54|0.1407
92407392|NCT01995838|184704279|SUPERIORITY|Days 1-2|Geometric Mean Ratio|0.55||||0.0018|TWO_SIDED|95.0|0.38|0.8|||ANCOVA|Baseline value and treatment as covariates.||||0.80|0.38|0.0018
92407393|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.6||||0.0025|TWO_SIDED|95.0|0.43|0.83|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||0.83|0.43|0.0025
92407394|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.54||||0.0006|TWO_SIDED|95.0|0.38|0.76|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||0.76|0.38|0.0006
92407395|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.52|||<|0.0001|TWO_SIDED|95.0|0.38|0.7|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||0.70|0.38|<0.0001
92407396|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.39|||<|0.0001|TWO_SIDED|95.0|0.29|0.54|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2:||0.54|0.29|<0.0001
92407397|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.73||||0.1158|TWO_SIDED|95.0|0.49|1.08|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||1.08|0.49|0.1158
92371051|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|14.88|||<|0.001|TWO_SIDED|95.0|11.33|18.43||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||18.43|11.33|<0.001
92371052|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|16.76|||<|0.001|TWO_SIDED|95.0|13.2|20.32||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||20.32|13.20|<0.001
92371053|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|15.23|||<|0.001|TWO_SIDED|95.0|11.68|18.78||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||18.78|11.68|<0.001
92371054|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.83||||0.514|TWO_SIDED|95.0|-1.66|3.32||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.32|-1.66|0.514
92371055|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.35||||0.783|TWO_SIDED|95.0|-2.82|2.13||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.13|-2.82|0.783
92371056|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.53||||0.227|TWO_SIDED|95.0|-0.96|4.02||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.02|-0.96|0.227
92371057|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|18.28|||<|0.001|TWO_SIDED|95.0|12.95|23.61||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||23.61|12.95|<0.001
92371058|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|17.3|||<|0.001|TWO_SIDED|95.0|11.99|22.61||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||22.61|11.99|<0.001
92371059|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|20.45|||<|0.001|TWO_SIDED|95.0|15.13|25.78||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||25.78|15.13|<0.001
92371060|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|18.92|||<|0.001|TWO_SIDED|95.0|13.61|24.24||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||24.24|13.61|<0.001
92371061|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.64||||0.736|TWO_SIDED|95.0|-4.37|3.09||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.09|-4.37|0.736
92371062|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.62||||0.39|TWO_SIDED|95.0|-5.32|2.08||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.08|-5.32|0.390
92371063|NCT01559259|184646503|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.53||||0.42|TWO_SIDED|95.0|-2.19|5.26||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||5.26|-2.19|0.420
92240168|NCT00570739|184383834|SUPERIORITY_OR_OTHER|||||||0.4058||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 8 Weeks||||0.4058
92371064|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.5|||<|0.001|TWO_SIDED|95.0|5.25|7.76||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.76|5.25|<0.001
92371065|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.87|||<|0.001|TWO_SIDED|95.0|4.62|7.11||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.11|4.62|<0.001
92371066|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|6.63|||<|0.001|TWO_SIDED|95.0|5.38|7.88||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.88|5.38|<0.001
92371067|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.48|||<|0.001|TWO_SIDED|95.0|4.23|6.73||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||6.73|4.23|<0.001
92371068|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.03||||0.022|TWO_SIDED|95.0|0.15|1.9||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.90|0.15|0.022
92371069|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.39||||0.38|TWO_SIDED|95.0|-0.48|1.26||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.26|-0.48|0.380
92371070|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.15||||0.01|TWO_SIDED|95.0|0.28|2.03||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.03|0.28|0.010
92371071|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|21.52|||<|0.001|TWO_SIDED|95.0|17.17|25.87||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||25.87|17.17|<0.001
92371072|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|19.62|||<|0.001|TWO_SIDED|95.0|15.29|23.95||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||23.95|15.29|<0.001
92371073|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|22.24|||<|0.001|TWO_SIDED|95.0|17.89|26.59||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||26.59|17.89|<0.001
92371074|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|19.69|||<|0.001|TWO_SIDED|95.0|15.35|24.02||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||24.02|15.35|<0.001
92371075|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.83||||0.237|TWO_SIDED|95.0|-1.21|4.88||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.88|-1.21|0.237
92407398|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.49||||0.001|TWO_SIDED|95.0|0.33|0.75|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.75|0.33|0.0010
92407399|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.47|||<|0.0001|TWO_SIDED|95.0|0.32|0.69|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.69|0.32|<0.0001
92407400|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.32|||<|0.0001|TWO_SIDED|95.0|0.21|0.47|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.47|0.21|<0.0001
92407401|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.41|||<|0.0001|TWO_SIDED|95.0|0.29|0.57|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.57|0.29|<0.0001
92407402|NCT01995838|184704279|SUPERIORITY||Geometric Mean Ratio|0.34|||<|0.0001|TWO_SIDED|95.0|0.24|0.48|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.48|0.24|<0.0001
92240169|NCT00570739|184383834|SUPERIORITY_OR_OTHER|||||||0.0254||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 12 Weeks||||0.0254
92371076|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.965|TWO_SIDED|95.0|-3.09|2.95||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.95|-3.09|0.965
92371077|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.56||||0.099|TWO_SIDED|95.0|-0.48|5.6||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||5.60|-0.48|0.099
92371078|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|29.93|||<|0.001|TWO_SIDED|95.0|21.14|38.73||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||38.73|21.14|<0.001
92371079|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|28.24|||<|0.001|TWO_SIDED|95.0|19.48|37.0||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||37.00|19.48|<0.001
92371080|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|33.1|||<|0.001|TWO_SIDED|95.0|24.31|41.89||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||41.89|24.31|<0.001
92371081|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|30.64|||<|0.001|TWO_SIDED|95.0|21.87|39.41||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||39.41|21.87|<0.001
92371082|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.71||||0.821|TWO_SIDED|95.0|-6.86|5.44||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||5.44|-6.86|0.821
92371083|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-2.4||||0.44|TWO_SIDED|95.0|-8.51|3.71||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.71|-8.51|0.440
92371084|NCT01559259|184646504|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.46||||0.432|TWO_SIDED|95.0|-3.69|8.61||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||8.61|-3.69|0.432
92371085|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.08||||0.571|TWO_SIDED|95.0|-1.04|3.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and its associated 95% CI was calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportions and the corresponding standard error.||3.20|-1.04|0.571
92371086|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.98||||0.593|TWO_SIDED|95.0|-0.94|2.9||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.90|-0.94|0.593
92407403|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|-11.08||||0.105|TWO_SIDED|95.0|-24.48|2.33|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||2.33|-24.48|0.1050
92407404|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|-2.29||||0.7501|TWO_SIDED|95.0|-16.46|11.87|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||11.87|-16.46|0.7501
92407405|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|-11.26||||0.0818|TWO_SIDED|95.0|-23.94|1.43|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||1.43|-23.94|0.0818
92407406|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|-19.81||||0.0038|TWO_SIDED|95.0|-33.18|-6.43|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||-6.43|-33.18|0.0038
92407407|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|-29.34|||<|0.0001|TWO_SIDED|95.0|-40.75|17.93|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||17.93|-40.75|<0.0001
92407408|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|-25.84|||<|0.0001|TWO_SIDED|95.0|-37.59|-14.09|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||-14.09|-37.59|<0.0001
92407409|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|0.4642||||0.4642|TWO_SIDED|95.0|-9.6|20.98|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||20.98|-9.60|0.4642
92407410|NCT01995838|184704280|SUPERIORITY|Baseline value and treatment as covariates.|LS Mean Difference|-2.31||||0.7754|TWO_SIDED|95.0|-18.27|13.64|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||13.64|-18.27|0.7754
92407411|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|-10.69||||0.1461|TWO_SIDED|95.0|-25.14|3.75|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||3.75|-25.14|0.1461
92407412|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|-14.73||||0.0581|TWO_SIDED|95.0|-29.97|0.51|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.51|-29.97|0.0581
92407413|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|-20.8||||0.0019|TWO_SIDED|95.0|-33.86|-7.74|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||-7.74|-33.86|0.0019
92407414|NCT01995838|184704280|SUPERIORITY||LS Mean Difference|-21.52||||0.002|TWO_SIDED|95.0|-35.12|-7.91|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||-7.91|-35.12|0.0020
92407415|NCT01995838|184704284|SUPERIORITY||LS Mean Difference|-3.05||||0.1483|TWO_SIDED|95.0|-7.2|1.09|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||1.09|-7.20|0.1483
92407416|NCT01995838|184704284|SUPERIORITY||LS Mean Difference|-0.64||||0.772|TWO_SIDED|95.0|-4.96|3.69|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||3.69|-4.96|0.7720
92407417|NCT01995838|184704284|SUPERIORITY||LS Mean Difference|1.5||||0.4548|TWO_SIDED|95.0|-2.44|5.44|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||5.44|-2.44|0.4548
92407418|NCT01995838|184704284|SUPERIORITY||LS Mean Difference|-2.39||||0.253|TWO_SIDED|95.0|-6.51|1.72|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||1.72|-6.51|0.2530
92407419|NCT01995838|184704284|SUPERIORITY||LS Mean Difference|2.41||||0.1794|TWO_SIDED|95.0|-1.11|5.93|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||5.93|-1.11|0.1794
92407420|NCT01995838|184704284|SUPERIORITY||LS Mean Difference|0.94||||0.6148|TWO_SIDED|95.0|-2.74|4.63|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||4.63|-2.74|0.6148
92407421|NCT02592798|184704324|SUPERIORITY||Mean Difference (Final Values)|-7.7|||||TWO_SIDED|95.0|-46.8|33.3|||||Abatacept - Placebo for Double-Blind Period Day 113|||33.3|-46.8|
92407422|NCT02592798|184704324|SUPERIORITY||Mean Difference (Final Values)|-20.8|||||TWO_SIDED|95.0|-63.3|24.3|||||Abatacept - Placebo for Open Label Period Day 113|||24.3|-63.3|
92407423|NCT02592798|184704325|SUPERIORITY||Mean Difference (Final Values)|0.37|||||TWO_SIDED|95.0|-1.6495|2.3855|||||Abatacept - Placebo for Double-Blind Period Day 113|||2.3855|-1.6495|
92277737|NCT01620489|184457698|SUPERIORITY_OR_OTHER||Estimated treatment difference|-1.08|||<|0.0001||95.0|-1.58|-0.58||Not adjusted for multiple comparisons|Mixed Models Analysis|||Mean change from baseline in the 7-point profile (SMPG) after 26 weeks treatment was analysed using an MMRM model with treatment, country and stratification groups as fixed effects and baseline as a covariate, all nested within visit.||-0.58|-1.58|<0.0001
92407424|NCT02592798|184704325|SUPERIORITY||Mean Difference (Final Values)|1.95|||||TWO_SIDED|95.0|-1.7933|5.6954|||||Abatacept - Placebo for Open Label Period Day 113|||5.6954|-1.7933|
92407425|NCT02592798|184704326|SUPERIORITY||Mean Difference (Final Values)|0.13|||||TWO_SIDED|95.0|-0.1483|0.4119|||||Abatacept - Placebo for Double-Blind Period Day 113|||0.4119|-0.1483|
92407426|NCT02592798|184704326|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.5107|0.7551|||||Abatacept - Placebo for Open Label Period Day 113|||0.7551|-0.5107|
92407427|NCT02592798|184704327|SUPERIORITY||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-44.7|44.7|||||Abatacept - Placebo for Open Label Period Day 113|||44.7|-44.7|
92407428|NCT02592798|184704328|SUPERIORITY||Mean Difference (Final Values)|-0.69|||||TWO_SIDED|95.0|-8.1395|6.7645|||||Abatacept - Placebo for Fatigue|||6.7645|-8.1395|
92407429|NCT02592798|184704328|SUPERIORITY||Mean Difference (Final Values)|-3.7|||||TWO_SIDED|95.0|-13.9402|6.5402|||||Abatacept - Placebo for Pain interference|||6.5402|-13.9402|
92407430|NCT02592798|184704328|SUPERIORITY||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-6.5736|4.5736|||||Abatacept - Placebo for Physical function|||4.5736|-6.5736|
92407431|NCT02592798|184704329|SUPERIORITY||Mean Difference (Final Values)|12.45|||||TWO_SIDED|95.0|-4.595|29.485|||||Abatacept - Placebo for Fatigue|||29.4850|-4.5950|
92407432|NCT02592798|184704329|SUPERIORITY||Mean Difference (Final Values)|7.14|||||TWO_SIDED|95.0|-2.5917|16.8717|||||Abatacept - Placebo for Pain interference|||16.8717|-2.5917|
92407433|NCT02592798|184704329|SUPERIORITY||Mean Difference (Final Values)|-0.88|||||TWO_SIDED|95.0|-12.1068|10.3468|||||Abatacept - Placebo for Mobility|||10.3468|-12.1068|
92407434|NCT01285557|184704380|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9312|TWO_SIDED|95.0|0.76|1.28|||Unstratified Log-rank|||S-1+Cisplatin and 5FU+Cisplatin were compared using the unstratified log-rank test. The hazard ratio was estimated using a Cox's regression approach and survival was summarized using Kaplan Meier estimates along with 2-sided 95% confidence intervals (CI) for the estimates.||1.28|0.76|0.9312
92407435|NCT01285557|184704381|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.3039|TWO_SIDED|95.0|0.65|1.14|||Log Rank|||S-1+Cisplatin and 5FU+Cisplatin were compared using the log-rank test. The hazard ratio was estimated using a Cox's regression approach and survival was summarized using Kaplan Meier estimates along with 2-sided 95% confidence intervals (CI) for the estimates.||1.14|0.65|0.3039
92407436|NCT01285557|184704382|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1683|TWO_SIDED|95.0|0.66|1.08|||Log Rank|||S-1+Cisplatin and 5FU+Cisplatin were compared using the log-rank test. The hazard ratio was estimated using a Cox's regression approach and survival was summarized using Kaplan Meier estimates along with 2-sided 95% confidence intervals (CI) for the estimates.||1.08|0.66|0.1683
92371087|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.65||||0.282|TWO_SIDED|95.0|-0.39|7.68||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||7.68|-0.39|0.282
92371088|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.16||||0.552|TWO_SIDED|95.0|-1.11|3.42||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.42|-1.11|0.552
92371089|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-0.01||||0.994|TWO_SIDED|95.0|-3.13|3.11||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.11|-3.13|0.994
92371090|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-0.23||||0.879|TWO_SIDED|95.0|-3.26|2.8||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.80|-3.26|0.879
92371091|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.33||||0.28|TWO_SIDED|95.0|-1.98|6.64||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||6.64|-1.98|0.280
92371092|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|33.67|||<|0.001|TWO_SIDED|95.0|24.54|42.81||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||42.81|24.54|<0.001
92371093|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|23.34||||0.003|TWO_SIDED|95.0|14.93|31.75||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||31.75|14.93|0.003
92371094|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|22.28||||0.005|TWO_SIDED|95.0|13.55|31.0||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||31.00|13.55|0.005
92371095|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|13.39||||0.035|TWO_SIDED|95.0|6.28|20.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.50|6.28|0.035
92371096|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|20.14||||0.001|TWO_SIDED|95.0|8.67|31.62||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||31.62|8.67|0.001
92371097|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|9.56||||0.088|TWO_SIDED|95.0|-1.39|20.51||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.51|-1.39|0.088
92371098|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|9.36||||0.1|TWO_SIDED|95.0|-1.73|20.45||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.45|-1.73|0.100
92371099|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|62.54|||<|0.001|TWO_SIDED|95.0|50.93|74.15||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.15|50.93|<0.001
92371100|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|51.66|||<|0.001|TWO_SIDED|95.0|39.5|63.82||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||63.82|39.50|<0.001
92407437|NCT02000115|184704388|NON_INFERIORITY|8.0% non-inferiority margin|Difference in percentages between groups|1.5||||0.006|ONE_SIDED|95.0||5.7||p for non-inferiority|Kaplan-Meier estimates|Kaplan-Meier was used as the method for calculating the endpoint rate|Non-inferiority of the Portico valve to commercially available valves was shown if the upper bound of the 95% confidence interval (1-sided) for the difference in event rates between groups was less than the non-inferiority margin (8·0%)|We analysed the primary effectiveness endpoint in the intention-to- treat (ITT) population using the Kaplan-Meier method to estimate event rates, the Greenwood method to calculate the standard error of the Kaplan-Meier estimates, and assuming an asymptotic normal distribution for event rate estimates.||5.7||0.006
92407438|NCT02000115|184704389|NON_INFERIORITY|8.5% non-inferiority margin|Difference in percentages between groups|4.2||||0.03|ONE_SIDED|95.0||8.1||p for non-inferiority|Kaplan-Meier estimates|Kaplan-Meier was used as the method for calculating the endpoint rate|Non-inferiority of the Portico valve to commercially available valves was shown if the upper bound of the 95% confidence interval (1-sided) for the difference in event rates between groups was less than the non-inferiority margin (8·5%)|We analysed the primary safety endpoint in the intention-to-treat (ITT) population using the Kaplan-Meier method to estimate event rates, the Greenwood method to calculate the standard error of the Kaplan-Meier estimates, and assuming an asymptotic normal distribution for event rate estimates.||8.1||0.03
92407439|NCT02000115|184704391|NON_INFERIORITY|non-inferiority margin of 4%|Difference in percentages between groups|0.4||||0.001|ONE_SIDED|95.0||2.3||p for non-inferiority|Farrington-Manning test|The test statistic is based on the Farrington-Manning method of testing non-inferiority of proportions.|If the upper limit of the 95% confidence interval (1-sided) for the difference of proportions (Portico - CAV) is \< 4%, then non inferiority is demonstrated.|||2.3||0.001
92407440|NCT02000115|184704392|NON_INFERIORITY|non-inferiority margin of 10 points|Mean Difference (Final Values)|-0.5|||<|0.0001|ONE_SIDED|95.0|-3.5|||p for non-inferiority|two-sample t-test|The test statistic is based on two sample t-test|If the lower limit of the 95% confidence interval (1-sided) for the difference of (Portico - CAV) is \> -10, then non inferiority is demonstrated.||||-3.5|<0.0001
92407441|NCT02000115|184704393|NON_INFERIORITY|non-inferiority margin of 6%|Difference in percentages between groups|5.6||||0.4|ONE_SIDED|95.0||8.5||p for non-inferiority|Farrington-Manning test|The test statistic is based on the Farrington-Manning method of testing non-inferiority of proportions|If the upper limit of the 95% confidence interval (1-sided) for the difference of proportions (Portico - CAV) is \< 6%, then non inferiority is demonstrated.|||8.5||0.40
92407442|NCT02000115|184704394|NON_INFERIORITY|non-inferiority margin on -36 meters|Mean Difference (Final Values)|3.5||||0.0003|ONE_SIDED|95.0|-15.4|||p for non-inferiority|two sample t-test|The test statistic is based on a two-sample t-test|If the lower limit of the 95% confidence interval (1-sided) for the difference of (Portico - CAV) is \> -36, then non inferiority is demonstrated.||||-15.4|0.0003
92371101|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|64.68|||<|0.001|TWO_SIDED|95.0|52.92|76.43||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||76.43|52.92|<0.001
92371102|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|52.03|||<|0.001|TWO_SIDED|95.0|40.43|63.63||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||63.63|40.43|<0.001
92371103|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|10.66||||0.138|TWO_SIDED|95.0|-3.04|24.35||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||24.35|-3.04|0.138
92371104|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-0.59||||0.935|TWO_SIDED|95.0|-14.71|13.52||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.52|-14.71|0.935
92371105|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|13.3||||0.063|TWO_SIDED|95.0|-0.57|27.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||27.17|-0.57|0.063
92371106|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.68|||<|0.001|TWO_SIDED|95.0|62.82|86.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.53|62.82|<0.001
92371107|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|63.18|||<|0.001|TWO_SIDED|95.0|50.42|75.95||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||75.95|50.42|<0.001
92371108|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.39|||<|0.001|TWO_SIDED|95.0|59.21|83.57||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.57|59.21|<0.001
92371109|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|60.5|||<|0.001|TWO_SIDED|95.0|47.89|73.11||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||73.11|47.89|<0.001
92371110|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|14.43||||0.027|TWO_SIDED|95.0|1.97|26.89||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||26.89|1.97|0.027
92371111|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.35||||0.729|TWO_SIDED|95.0|-10.91|15.61||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.61|-10.91|0.729
92371112|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|11.33||||0.087|TWO_SIDED|95.0|-1.55|24.21||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||24.21|-1.55|0.087
92371113|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|75.6|||<|0.001|TWO_SIDED|95.0|62.5|88.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.70|62.50|<0.001
92371114|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|67.45|||<|0.001|TWO_SIDED|95.0|53.65|81.24||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.24|53.65|<0.001
92371115|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.46|||<|0.001|TWO_SIDED|95.0|61.21|87.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||87.70|61.21|<0.001
92371116|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|64.23|||<|0.001|TWO_SIDED|95.0|50.3|78.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||78.17|50.30|<0.001
92371117|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|11.59||||0.052|TWO_SIDED|95.0|0.12|23.06||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||23.06|0.12|0.052
92371118|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.84||||0.652|TWO_SIDED|95.0|-9.49|15.16||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.16|-9.49|0.652
92407443|NCT02656693|184704402|SUPERIORITY|||||||0.00017|||||||Mixed Models Analysis|||||||0.00017
92407444|NCT02656693|184704404|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
92407445|NCT02656693|184704406|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
92407446|NCT02656693|184704407|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92407447|NCT02656693|184704409|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92407448|NCT02656693|184704410|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
92407449|NCT02656693|184704411|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
92407450|NCT02656693|184704412|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||0.19
92407451|NCT02656693|184704413|SUPERIORITY|||||||0.35|||||||Mixed Models Analysis|||||||0.35
92407452|NCT02656693|184704414|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
92407453|NCT02656693|184704415|SUPERIORITY|||||||0.33|||||||Mixed Models Analysis|||||||0.33
92407454|NCT02656693|184704416|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||||||0.43
92407455|NCT02656693|184704417|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||0.40
92407456|NCT02656693|184704418|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|||||||0.16
92407457|NCT02656693|184704419|SUPERIORITY|||||||0.61|||||||Mixed Models Analysis|||||||0.61
92407458|NCT02656693|184704420|SUPERIORITY|||||||0.61|||||||Mixed Models Analysis|||||||0.61
92407459|NCT02656693|184704421|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|||||||0.46
92407460|NCT02656693|184704422|SUPERIORITY|||||||0.68|||||||Mixed Models Analysis|||||||0.68
92407461|NCT02656693|184704423|SUPERIORITY|||||||0.54|||||||Mixed Models Analysis|||||||0.54
92407462|NCT02656693|184704424|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
92407463|NCT02656693|184704425|SUPERIORITY|||||||0.42|||||||Mixed Models Analysis|||||||0.42
92407464|NCT02656693|184704426|SUPERIORITY|||||||0.23|||||||Mixed Models Analysis|||||||0.23
92407465|NCT02656693|184704427|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
92407466|NCT02223702|184704431|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Friedman Test|All rows were compared to eachother||||||<0.01
92407467|NCT02223702|184704432|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|All rows were compared to eachother||||||<0.01
92407468|NCT02948634|184704435|SUPERIORITY|||||||0.43|||||||ANOVA|||||||0.43
92407469|NCT02948634|184704436|SUPERIORITY|||||||0.32|||||||ANOVA|||||||0.32
92407470|NCT02948634|184704437|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92407471|NCT01255436|184704476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2||||0.06|TWO_SIDED|95.0|-9.4|1.0||p-value\<0.05 is considered significant|t-test, 1 sided|||||1.0|-9.4|0.06
92407472|NCT01255436|184704477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.14|TWO_SIDED|95.0|-4.1|1.3||p-value \< 0.05 considered significant|t-test, 1 sided|||||1.3|-4.1|0.14
92407473|NCT01255436|184704478|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.045|TWO_SIDED|95.0|1.0|1.6|||Fisher Exact||Numerator is Treatment Group (SMS reminders) and Denominator is Control Group (No SMS reminders)|||1.6|1.0|0.045
92407474|NCT01255436|184704479|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.014|TWO_SIDED|95.0|1.04|1.53|||Fisher Exact|||||1.53|1.04|0.014
92407475|NCT04816669|184704480|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR is greater than 0.67.|Geometric mean ratio|0.68|||||TWO_SIDED|95.0|0.6|0.77|||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the concentrations BNT162b2 lyophilized SDV - BNT162b2 frozen-liquid MDV and the corresponding CI (based on the Student t distribution).|||0.77|0.60|
92407476|NCT04816669|184704488|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR is greater than 0.67|Geometric mean ratio|1.14|||||TWO_SIDED|95.0|0.77|1.68|||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the concentrations BNT162b2 frozen-liquid LNP - BNT162b2 frozen-liquid RTU and the corresponding CI (based on the Student t distribution).|||1.68|0.77|
92407477|NCT01229267|184704496|SUPERIORITY||Vaccine Efficacy|0.638|||||TWO_SIDED|95.0|0.484|0.746|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age), and intended duration of antiviral prophylaxis (≤3 versus 3 to 6 months after auto-HCT).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 consistency lot group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% confidence interval (CI) is \>0.25.||0.746|0.484|
92407478|NCT01229267|184704497|OTHER||Vaccine Efficacy|0.695|||||TWO_SIDED|95.0|0.49|0.818|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age), and intended duration of antiviral prophylaxis (≤3 versus 3 to 6 months after auto-HCT).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 consistency lot group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI is \>0.25.||0.818|0.490|
92371119|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|10.28||||0.09|TWO_SIDED|95.0|-1.47|22.03||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||22.03|-1.47|0.090
92407479|NCT01229267|184704498|OTHER||Vaccine Efficacy|0.735|||||TWO_SIDED|95.0|0.498|0.86|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age), and intended duration of antiviral prophylaxis (≤3 versus 3 to 6 months after auto-HCT).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 consistency lot group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI is \>0.25.||0.860|0.498|
92371120|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|79.93|||<|0.001|TWO_SIDED|95.0|67.41|92.46||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||92.46|67.41|<0.001
92371121|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.65|||<|0.001|TWO_SIDED|95.0|58.25|85.05||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.05|58.25|<0.001
92371122|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|78.92|||<|0.001|TWO_SIDED|95.0|66.29|91.56||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||91.56|66.29|<0.001
92371123|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|70.56|||<|0.001|TWO_SIDED|95.0|57.04|84.07||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.07|57.04|<0.001
92371124|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|9.61||||0.069|TWO_SIDED|95.0|-0.59|19.8||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||19.80|-0.59|0.069
92371125|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.65||||0.911|TWO_SIDED|95.0|-10.73|12.03||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.03|-10.73|0.911
92371126|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.27||||0.127|TWO_SIDED|95.0|-2.23|18.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.77|-2.23|0.127
92371127|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|76.55|||<|0.001|TWO_SIDED|95.0|62.37|90.72||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||90.72|62.37|<0.001
92371128|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|70.6|||<|0.001|TWO_SIDED|95.0|55.93|85.28||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.28|55.93|<0.001
92371129|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|76.5|||<|0.001|TWO_SIDED|95.0|62.22|90.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||90.79|62.22|<0.001
92407480|NCT01229267|184704499|OTHER||Vaccine Efficacy|0.837|||||TWO_SIDED|95.0|0.446|0.952|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age), and intended duration of antiviral prophylaxis (≤3 versus 3 to 6 months after auto-HCT).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 consistency lot group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI is \>0.25.||0.952|0.446|
92407481|NCT01229267|184704500|OTHER||Risk Difference (RD)|0.2||||0.942|TWO_SIDED|95.0|-5.1|5.5|||Normal approximation||Miettinen \& Nurminen|||5.5|-5.1|0.942
92407482|NCT02223858|184704503|SUPERIORITY|A sample size of 360 patients (180 non-Hispanic white and 180 non-Hispanic African American) was chosen based on a priori power calculations to detect a 3-way interaction between treatment group, race, and time, assuming a 20% change in baseline, the WOMAC pain subscales, and a 80% power.||||||0.791|||||||Mixed Models Analysis|All models adjusted for site.||||||0.791
92371130|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.05|||<|0.001|TWO_SIDED|95.0|53.02|83.09||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.09|53.02|<0.001
92371131|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.57||||0.098|TWO_SIDED|95.0|-1.47|18.61||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.61|-1.47|0.098
92371132|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.01||||0.721|TWO_SIDED|95.0|-9.02|13.04||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.04|-9.02|0.721
92371133|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.28||||0.115|TWO_SIDED|95.0|-1.85|18.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.41|-1.85|0.115
92371134|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|77.66|||<|0.001|TWO_SIDED|95.0|63.63|91.69||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||91.69|63.63|<0.001
92371135|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.65|||<|0.001|TWO_SIDED|95.0|57.07|86.22||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.22|57.07|<0.001
92371136|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|76.5|||<|0.001|TWO_SIDED|95.0|62.22|90.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||90.79|62.22|<0.001
92371137|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.1|||<|0.001|TWO_SIDED|95.0|54.14|84.06||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.06|54.14|<0.001
92407483|NCT02223858|184704504|SUPERIORITY|A sample size of 360 (180 non-Hispanic white and 180 non-Hispanic African American) was chosen based on a priori power calculations to detect a 3-way interaction between treatment group, race, and time, assuming a 20% change in baseline, the WOMAC pain subscales, and a 80% power.||||||0.88|||||||Mixed Models Analysis|All models adjusted for site.||||||0.880
92407484|NCT02223858|184704505|SUPERIORITY|A sample size of 360 (180 non-Hispanic white and 180 non-Hispanic African American) was chosen based on a priori power calculations to detect a 3-way interaction between treatment group, race, and time, assuming a 20% change in baseline, the WOMAC pain subscale, and a 80% power.||||||0.901|||||||Mixed Models Analysis|All models adjusted for site.||||||0.901
92407485|NCT00241839|184704506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.27|STANDARD_ERROR_OF_MEAN|2.24||0.059|TWO_SIDED|95.0|-0.17|8.7|||t-test, 2 sided|Satterthwaite correction for possibly unequal variance was made|A positive value of the estimated value would favor the allopurinol arm. The analysis is limited to those with both baseline and 8-10 week data on this variable.|We compared the drop in baseline of diastolic BP for the two treatment groups Allopurinol vs. Placebo by a Satterthwaite corrected t-test.||8.7|-0.17|0.059
92407486|NCT00241839|184704507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.16|STANDARD_ERROR_OF_MEAN|1.59||0.47|TWO_SIDED|95.0|-2.0|4.3||Positive numbers indicate a drop. We compared baseline minus value at treatment end for the two treatments.|t-test, 2 sided|Satterthwaite correction was used for potentially unequal variances.|The analysis is limited to those with both baseline and 8-10 week data on this variable.|||4.3|-2.0|0.47
92407487|NCT00241839|184704508|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.76|STANDARD_ERROR_OF_MEAN|2.11||0.002|TWO_SIDED|95.0|-11.0|-2.6|||t-test, 2 sided|Sattherthwaite correction was used|The analysis is limited to those with both baseline and 8-10 week data on this variable. The 24 hour was in the opposite direction of the cuff.|||-2.6|-11.0|0.0020
92407488|NCT00241839|184704509|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.15|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|1.72|2.59|||t-test, 2 sided|Satterthwaite correction was used.|Allopurinol was associated with a significant decrease in uric acid over the treatment period as compared to placebo. The analysis is limited to those with both baseline and 8-10 week data on this variable.|We expected allopurinol to be associated with a decrease in uric acid.||2.59|1.72|<0.001
92407489|NCT06170242|184704510|SUPERIORITY|P-values are from analysis of covariance (ANCOVA) with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in least square (LS) means|-540.56|||<|0.0001|TWO_SIDED|95.0|-680.8|-400.33|||ANCOVA|||High Dose versus (vs) Placebo||-400.33|-680.80|<0.0001
92407490|NCT06170242|184704510|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-523.12|||<|0.0001|TWO_SIDED|95.0|-674.46|-371.78|||ANCOVA|||Low Dose vs Placebo||-371.78|-674.46|<0.0001
92371138|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.56||||0.086|TWO_SIDED|95.0|-1.15|18.27||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.27|-1.15|0.086
92371139|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.01||||0.714|TWO_SIDED|95.0|-8.76|12.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.77|-8.76|0.714
92371140|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|7.21||||0.164|TWO_SIDED|95.0|-2.8|17.22||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.22|-2.80|0.164
92371141|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.38|||<|0.001|TWO_SIDED|95.0|59.56|89.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||89.20|59.56|<0.001
92371142|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.5|||<|0.001|TWO_SIDED|95.0|54.29|84.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.70|54.29|<0.001
92371143|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|73.24|||<|0.001|TWO_SIDED|95.0|58.18|88.3||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.30|58.18|<0.001
92371144|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|67.0|||<|0.001|TWO_SIDED|95.0|51.4|82.61||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||82.61|51.40|<0.001
92371145|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|7.46||||0.129|TWO_SIDED|95.0|-2.12|17.04||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.04|-2.12|0.129
92371146|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.97||||0.712|TWO_SIDED|95.0|-8.5|12.43||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.43|-8.50|0.712
92371147|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|6.12||||0.229|TWO_SIDED|95.0|-3.76|16.0||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.00|-3.76|0.229
92371148|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.38|||<|0.001|TWO_SIDED|95.0|59.56|89.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||89.20|59.56|<0.001
92371149|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|70.54|||<|0.001|TWO_SIDED|95.0|55.45|85.64||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.64|55.45|<0.001
92407491|NCT06170242|184704510|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS means|-536.3|||<|0.0001|TWO_SIDED|95.0|-641.71|-430.89|||ANCOVA|||Pooled EDP-323 vs Placebo||-430.89|-641.71|<0.0001
92277738|NCT01620489|184457699|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.51|||=|0.0022||95.0|-0.83|-0.18|||Mixed Models Analysis|Not adjusted for multiple comparisons||Change from baseline in BMI (kg/m˄2) after 26 weeks treatment was analysed separately using an MMRM analysis model with treatment, country and stratification groups as fixed effects and baseline as a covariate, all nested within visit.||-0.18|-0.83|= 0.0022
92371150|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|73.24|||<|0.001|TWO_SIDED|95.0|58.18|88.3||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.30|58.18|<0.001
92371151|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.05|||<|0.001|TWO_SIDED|95.0|52.53|83.57||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.57|52.53|<0.001
92371152|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|6.38||||0.186|TWO_SIDED|95.0|-3.05|15.81||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.81|-3.05|0.186
92371153|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.97||||0.703|TWO_SIDED|95.0|-8.18|12.12||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.12|-8.18|0.703
92371154|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.06||||0.312|TWO_SIDED|95.0|-4.68|14.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.79|-4.68|0.312
92371155|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.38|||<|0.001|TWO_SIDED|95.0|59.56|89.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||89.20|59.56|<0.001
92371156|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.59|||<|0.001|TWO_SIDED|95.0|56.61|86.57||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.57|56.61|<0.001
92371157|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|73.24|||<|0.001|TWO_SIDED|95.0|58.18|88.3||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.30|58.18|<0.001
92371158|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.21|||<|0.001|TWO_SIDED|95.0|53.86|84.56||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.56|53.86|<0.001
92371159|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371160|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371161|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371162|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.38|||<|0.001|TWO_SIDED|95.0|59.56|89.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||89.20|59.56|<0.001
92371163|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.59|||<|0.001|TWO_SIDED|95.0|56.61|86.57||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.57|56.61|<0.001
92371164|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|73.24|||<|0.001|TWO_SIDED|95.0|58.18|88.3||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.30|58.18|<0.001
92371165|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.21|||<|0.001|TWO_SIDED|95.0|53.86|84.56||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.56|53.86|<0.001
92371166|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371167|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371168|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371169|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371170|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371171|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371172|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371173|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92407492|NCT06170242|184704511|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-3.83|||<|0.0001|TWO_SIDED|95.0|-4.85|-2.81|||ANCOVA|||High Dose vs Placebo||-2.81|-4.85|<0.0001
92280380|NCT04543136|184463465|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.661|TWO_SIDED|95.0|-0.35|0.55||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.55|-0.35|0.661
92371174|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92407493|NCT06170242|184704511|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-4.16|||<|0.0001|TWO_SIDED|95.0|-5.44|-2.89|||ANCOVA|||Low Dose vs Placebo||-2.89|-5.44|<0.0001
92371175|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371176|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371177|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371178|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371179|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371180|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371181|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371182|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371183|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371184|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371185|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371186|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371187|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92280381|NCT04543136|184463465|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.218|TWO_SIDED|95.0|-0.75|0.17||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.17|-0.75|0.218
92407494|NCT06170242|184704512|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-0.29||||0.633|TWO_SIDED|95.0|-1.5|0.92|||ANCOVA|||High Dose vs Placebo||0.92|-1.50|0.6330
92407495|NCT06170242|184704512|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-0.14||||0.8309|TWO_SIDED|95.0|-1.46|1.17|||ANCOVA|||Lose Dose vs Placebo||1.17|-1.46|0.8309
92407496|NCT06170242|184704514|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-1.57||||0.0021|TWO_SIDED|95.0|-2.53|-0.61|||ANCOVA|||High Dose vs Placebo.||-0.61|-2.53|0.0021
92407497|NCT06170242|184704514|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-1.09||||0.0905|TWO_SIDED|95.0|-2.35|0.18|||ANCOVA|||Lose Dose vs Placebo||0.18|-2.35|0.0905
92407498|NCT06170242|184704517|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-203.63|||<|0.0001|TWO_SIDED|95.0|-272.18|-135.07|||ANCOVA|||High Dose vs Placebo||-135.07|-272.18|<0.0001
92407499|NCT06170242|184704517|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-215.03|||<|0.0001|TWO_SIDED|95.0|-288.84|-141.22|||ANCOVA|||Low Dose vs Placebo||-141.22|-288.84|<0.0001
92407500|NCT06170242|184704518|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-3.22|||<|0.0001|TWO_SIDED|95.0|-4.05|-2.4|||ANCOVA|||High Dose vs Placebo||-2.40|-4.05|<0.0001
92407501|NCT06170242|184704518|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-3.23|||<|0.0001|TWO_SIDED|95.0|-4.11|-2.34|||ANCOVA|||Low Dose vs Placebo||-2.34|-4.11|<0.0001
92407502|NCT06170242|184704519|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|1.44||||0.0238|TWO_SIDED|95.0|0.2|2.68|||ANCOVA|||High Dose vs Placebo||2.68|0.20|0.0238
92407503|NCT06170242|184704519|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|1.68||||0.0134|TWO_SIDED|95.0|0.36|2.99|||ANCOVA|||Low Dose vs Placebo||2.99|0.36|0.0134
92407504|NCT06170242|184704521|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-2.18||||0.0389|TWO_SIDED|95.0|-4.23|-0.12|||ANCOVA|||High Dose vs Placebo||-0.12|-4.23|0.0389
92407505|NCT06170242|184704521|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-1.31||||0.2713|TWO_SIDED|95.0|-3.73|1.1|||ANCOVA|||Low Dose vs Placebo||1.10|-3.73|0.2713
92407506|NCT06170242|184704523|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-280.61|||<|0.0001|TWO_SIDED|95.0|-404.44|-156.77|||ANCOVA|||High Dose vs Placebo||-156.77|-404.44|<0.0001
92407507|NCT06170242|184704523|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-301.15|||<|0.0001|TWO_SIDED|95.0|-428.53|-173.76|||ANCOVA|||Low Dose vs Placebo||-173.76|-428.53|<0.0001
92407508|NCT06170242|184704524|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-3.64|||<|0.0001|TWO_SIDED|95.0|-5.26|-2.02|||ANCOVA|||High Dose vs Placebo||-2.02|-5.26|<0.0001
92407509|NCT06170242|184704524|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-3.7|||<|0.0001|TWO_SIDED|95.0|-5.35|-2.05|||ANCOVA|||Low Dose vs Placebo||-2.05|-5.35|<0.0001
92407510|NCT06170242|184704525|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-1.08||||0.0552|TWO_SIDED|95.0|-2.19|0.03|||ANCOVA|||High Dose vs Placebo||0.03|-2.19|0.0552
92407511|NCT06170242|184704525|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-0.38||||0.5599|TWO_SIDED|95.0|-1.69|0.92|||ANCOVA|||Low Dose vs Placebo||0.92|-1.69|0.5599
92407512|NCT06170242|184704526|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-1.04||||0.0307|TWO_SIDED|95.0|-1.97|-0.1|||ANCOVA|||High Dose vs Placebo||-0.10|-1.97|0.0307
92407513|NCT06170242|184704526|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-0.53||||0.4119|TWO_SIDED|95.0|-1.81|0.76|||ANCOVA|||||0.76|-1.81|0.4119
92407514|NCT06170242|184704527|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the biospecimen value at the time of first dose of IMP.|Difference in LS mean|-13.37||||0.0042|TWO_SIDED|95.0|-22.34|-4.4|||ANCOVA|||High Dose vs Placebo||-4.40|-22.34|0.0042
92407515|NCT06170242|184704527|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the biospecimen value at the time of first dose of IMP.|Difference in LS mean|-13.19||||0.0058|TWO_SIDED|95.0|-22.38|-4.0|||ANCOVA|||Low Dose vs Placebo||-4.00|-22.38|0.0058
92407516|NCT06170242|184704528|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the biospecimen value at the time of first dose of IMP.|Difference in LS mean|-18.72||||0.0026|TWO_SIDED|95.0|-30.61|-6.84|||ANCOVA|||High Dose vs Placebo||-6.84|-30.61|0.0026
92407517|NCT06170242|184704528|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the biospecimen value at the time of first dose of IMP.|Difference in LS mean|-19.28||||0.0022|TWO_SIDED|95.0|-31.3|-7.26|||ANCOVA|||||-7.26|-31.30|0.0022
92407518|NCT02919995|184704561|OTHER||Contrast ratio|1.038||||0.0196|TWO_SIDED|95.0|1.007|1.07|||ANCOVA|||||1.07|1.007|0.0196
92407519|NCT02919995|184704561|OTHER||Contrast ratio|1.024||||0.0802|TWO_SIDED|95.0|0.997|1.052|||ANCOVA|||||1.052|0.997|0.0802
92407520|NCT02919995|184704561|OTHER||Contrast ratio|0.986||||0.3487|TWO_SIDED|95.0|0.957|1.017|||ANCOVA|||||1.017|0.957|0.3487
92371188|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371189|NCT01559259|184646505|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92280382|NCT04543136|184463465|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.1|TWO_SIDED|95.0|-0.08|0.85||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.85|-0.08|0.100
92371190|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|23.99||||0.003|TWO_SIDED|95.0|13.32|34.67||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||34.67|13.32|0.003
92371191|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|14.83||||0.048|TWO_SIDED|95.0|4.59|25.07||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||25.07|4.59|0.048
92371192|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|24.98||||0.005|TWO_SIDED|95.0|13.43|36.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||36.53|13.43|0.005
92407521|NCT02919995|184704562|OTHER||Contrast ratio|1.072||||0.0043|TWO_SIDED|95.0|1.026|1.12|||ANCOVA|||||1.12|1.026|0.0043
92407522|NCT02919995|184704562|OTHER||Contrast ratio|1.055||||0.0109|TWO_SIDED|95.0|1.014|1.096|||ANCOVA|||||1.096|1.014|0.0109
92407523|NCT02919995|184704562|OTHER||Contrast ratio|0.984||||0.4306|TWO_SIDED|95.0|0.942|1.027|||ANCOVA|||||1.027|0.942|0.4306
92407524|NCT02919995|184704563|OTHER||Contrast ratio|1.065||||0.0064|TWO_SIDED|95.0|1.021|1.11|||ANCOVA|||||1.11|1.021|0.0064
92407525|NCT02919995|184704563|OTHER||Contrast ratio|1.049||||0.0149|TWO_SIDED|95.0|1.011|1.089|||ANCOVA|||||1.089|1.011|0.0149
92407526|NCT02919995|184704563|OTHER||Contrast ratio|0.945||||0.466|TWO_SIDED|95.0|0.945|1.027|||ANCOVA|||||1.027|0.945|0.466
92407527|NCT02919995|184704564|OTHER||Contrast ratio|1.061||||0.0093|TWO_SIDED|95.0|1.017|1.107|||ANCOVA|||||1.107|1.017|0.0093
92407528|NCT02919995|184704564|OTHER||Contrast ratio|1.042||||0.0333|TWO_SIDED|95.0|1.004|1.082|||ANCOVA|||||1.082|1.004|0.0333
92407529|NCT02919995|184704564|OTHER||Contrast ratio|0.982||||0.3693|TWO_SIDED|95.0|0.941|1.024|||ANCOVA|||||1.024|0.941|0.3693
92407530|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|2.27|||||TWO_SIDED|95.0|-3.96|8.49||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||8.49|-3.96|
92407531|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|0.198|||||TWO_SIDED|95.0|-3.19|3.59||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||3.59|-3.19|
92407532|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|1.55|||||TWO_SIDED|95.0|-2.25|5.35||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.35|-2.25|
92407533|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|20.0|||||TWO_SIDED|95.0|13.7|26.2||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||26.2|13.7|
92371193|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|16.57||||0.03|TWO_SIDED|95.0|6.25|26.88||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||26.88|6.25|0.030
92371194|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|6.86||||0.269|TWO_SIDED|95.0|-4.8|18.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.53|-4.80|0.269
92371195|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-1.95||||0.735|TWO_SIDED|95.0|-13.34|9.43||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.43|-13.34|0.735
92371196|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.58||||0.176|TWO_SIDED|95.0|-3.88|21.04||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||21.04|-3.88|0.176
92371197|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|63.3|||<|0.001|TWO_SIDED|95.0|49.07|77.52||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||77.52|49.07|<0.001
92371198|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|56.81|||<|0.001|TWO_SIDED|95.0|42.28|71.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||71.34|42.28|<0.001
92371199|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|67.57|||<|0.001|TWO_SIDED|95.0|53.58|81.55||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.55|53.58|<0.001
92371200|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|53.31|||<|0.001|TWO_SIDED|95.0|38.62|67.99||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||67.99|38.62|<0.001
92371201|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|10.28||||0.14|TWO_SIDED|95.0|-3.26|23.82||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||23.82|-3.26|0.140
92371202|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.98||||0.674|TWO_SIDED|95.0|-10.94|16.89||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.89|-10.94|0.674
92371203|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|14.58||||0.034|TWO_SIDED|95.0|1.22|27.93||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||27.93|1.22|0.034
92371204|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|72.32|||<|0.001|TWO_SIDED|95.0|58.25|86.39||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.39|58.25|<0.001
92371205|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|67.2|||<|0.001|TWO_SIDED|95.0|52.63|81.78||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.78|52.63|<0.001
92371206|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|72.4|||<|0.001|TWO_SIDED|95.0|58.4|86.4||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.40|58.40|<0.001
92407534|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|6.19|||||TWO_SIDED|95.0|2.8|9.58||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||9.58|2.80|
92407535|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|11.7|||||TWO_SIDED|95.0|7.87|15.5||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||15.5|7.87|
92407536|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-13.9|||||TWO_SIDED|95.0|-18.9|-8.8||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-8.80|-18.9|
92407537|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-4.62|||||TWO_SIDED|95.0|-7.67|-1.56||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-1.56|-7.67|
92407538|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-8.43|||||TWO_SIDED|95.0|-11.5|-5.33||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-5.33|-11.5|
92407539|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|7.8|||||TWO_SIDED|95.0|2.72|12.9||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||12.9|2.72|
92407540|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|4.38|||||TWO_SIDED|95.0|1.3|7.46||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||7.46|1.30|
92407541|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|5.06|||||TWO_SIDED|95.0|1.93|8.18||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||8.18|1.93|
92407542|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|0.905|||||TWO_SIDED|95.0|-5.49|7.3||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 3 where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||7.30|-5.49|
92407543|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-2.71|||||TWO_SIDED|95.0|-6.96|1.54||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 3 where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||1.54|-6.96|
92407544|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|1.66|||||TWO_SIDED|95.0|-2.85|6.16||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||6.16|-2.85|
92407545|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|17.5|||||TWO_SIDED|95.0|11.2|23.8||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 3 where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||23.8|11.2|
92407546|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|6.51|||||TWO_SIDED|95.0|2.32|10.7||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||10.7|2.32|
92407547|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|14.2|||||TWO_SIDED|95.0|9.75|18.7||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||18.7|9.75|
92407548|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-9.98|||||TWO_SIDED|95.0|-14.6|-5.34||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-5.34|-14.6|
92407549|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-3.46|||||TWO_SIDED|95.0|-7.22|0.297||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.297|-7.22|
92407550|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-8.16|||||TWO_SIDED|95.0|-11.6|-4.71||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-4.71|-11.6|
92407551|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|12.1|||||TWO_SIDED|95.0|7.39|16.8||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||16.8|7.39|
92407552|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|6.7|||||TWO_SIDED|95.0|2.91|10.5||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||10.5|2.91|
92407553|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|10.3|||||TWO_SIDED|95.0|6.88|13.8||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||13.8|6.88|
92407554|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-1.06|||||TWO_SIDED|95.0|-7.41|5.3||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.30|-7.41|
92407555|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|2.2|||||TWO_SIDED|95.0|-2.15|6.56||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||6.56|-2.15|
92407556|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|1.12|||||TWO_SIDED|95.0|-3.23|5.47||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.47|-3.23|
92371207|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|64.12|||<|0.001|TWO_SIDED|95.0|49.32|78.91||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||78.91|49.32|<0.001
92371208|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.4||||0.119|TWO_SIDED|95.0|-2.06|18.85||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.85|-2.06|0.119
92371209|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.84||||0.616|TWO_SIDED|95.0|-8.3|13.98||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.98|-8.30|0.616
92371210|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.34||||0.125|TWO_SIDED|95.0|-2.2|18.87||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.87|-2.20|0.125
92371211|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.49|||<|0.001|TWO_SIDED|95.0|60.73|88.25||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.25|60.73|<0.001
92371212|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.38|||<|0.001|TWO_SIDED|95.0|55.05|83.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.71|55.05|<0.001
92371213|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|73.52|||<|0.001|TWO_SIDED|95.0|59.65|87.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||87.38|59.65|<0.001
92371214|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.36|||<|0.001|TWO_SIDED|95.0|54.01|82.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||82.71|54.01|<0.001
92371215|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|6.33||||0.187|TWO_SIDED|95.0|-2.99|15.65||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.65|-2.99|0.187
92371216|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.79||||0.881|TWO_SIDED|95.0|-9.42|10.99||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.99|-9.42|0.881
92371217|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.05||||0.311|TWO_SIDED|95.0|-4.6|14.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.71|-4.60|0.311
92371218|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371219|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371220|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92407557|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|19.4|||||TWO_SIDED|95.0|13.2|25.6||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 5 where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||25.6|13.2|
92371221|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371222|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371223|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371224|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371225|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371226|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371227|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371228|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371229|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371230|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371231|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371232|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371233|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92407558|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|9.04|||||TWO_SIDED|95.0|4.78|13.3||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 5 where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||13.3|4.78|
92371234|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371235|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371236|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371237|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371238|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371239|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371240|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371241|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371242|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371243|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371244|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371245|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371246|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92407559|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|14.7|||||TWO_SIDED|95.0|10.4|18.9||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||18.9|10.4|
92407560|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-10.6|||||TWO_SIDED|95.0|-15.6|-5.52||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-5.52|-15.6|
92407561|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-4.25|||||TWO_SIDED|95.0|-9.26|0.764||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.764|-9.26|
92407562|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|-8.76|||||TWO_SIDED|95.0|-12.6|-4.87||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-4.87|-12.6|
92407563|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|12.3|||||TWO_SIDED|95.0|7.17|17.4||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||17.4|7.17|
92407564|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|5.95|||||TWO_SIDED|95.0|0.917|11.0||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||11.0|0.917|
92407565|NCT01263197|184704611|SUPERIORITY_OR_OTHER||LS mean difference|9.9|||||TWO_SIDED|95.0|5.98|13.8||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||13.8|5.98|
92371247|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371248|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371249|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371250|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92407566|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|1.62|||||TWO_SIDED|95.0|-1.81|5.06||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.06|-1.81|
92407567|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|2.73|||||TWO_SIDED|95.0|-1.38|6.85||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||6.85|-1.38|
92407568|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|2.67|||||TWO_SIDED|95.0|-0.209|5.56||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.56|-0.209|
92407569|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|0.541|||||TWO_SIDED|95.0|-2.94|4.02||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||4.02|-2.94|
92407570|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|5.26|||||TWO_SIDED|95.0|1.09|9.43||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||9.43|1.09|
92407571|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|2.6|||||TWO_SIDED|95.0|-0.322|5.52||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.52|-0.322|
92407572|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-6.46|||||TWO_SIDED|95.0|-11.5|-1.41||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-1.41|-11.5|
92371251|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371252|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92407573|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|0.171|||||TWO_SIDED|95.0|-5.21|5.56||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||5.56|-5.21|
92407574|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-3.09|||||TWO_SIDED|95.0|-6.73|0.557||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.557|-6.73|
92407575|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|1.46|||||TWO_SIDED|95.0|-3.61|6.53||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||6.53|-3.61|
92407576|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|11.4|||||TWO_SIDED|95.0|5.99|16.8||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||16.8|5.99|
92407577|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|7.15|||||TWO_SIDED|95.0|3.49|10.8||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||10.8|3.49|
92407578|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|0.0309|||||TWO_SIDED|95.0|-5.28|5.34||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.34|-5.28|
92407579|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-1.17|||||TWO_SIDED|95.0|-5.93|3.59||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||3.59|-5.93|
92407580|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-0.333|||||TWO_SIDED|95.0|-4.35|3.68||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||3.68|-4.35|
92407581|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-2.11|||||TWO_SIDED|95.0|-7.42|3.2||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||3.20|-7.42|
92407582|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|4.36|||||TWO_SIDED|95.0|-0.404|9.12||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||9.12|-0.404|
92407583|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-0.119|||||TWO_SIDED|95.0|-4.14|3.9||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||3.90|-4.14|
92407584|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-4.16|||||TWO_SIDED|95.0|-9.69|1.37||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||1.37|-9.69|
92407585|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-4.76|||||TWO_SIDED|95.0|-10.2|0.718||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.718|-10.2|
92407586|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-4.2|||||TWO_SIDED|95.0|-8.71|0.32||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.320|-8.71|
92407587|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|3.2|||||TWO_SIDED|95.0|-2.34|8.74||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||8.74|-2.34|
92407588|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|3.95|||||TWO_SIDED|95.0|-1.54|9.43||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||9.43|-1.54|
92407589|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|4.84|||||TWO_SIDED|95.0|0.319|9.37||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||9.37|0.319|
92407590|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|2.34|||||TWO_SIDED|95.0|-3.44|8.12||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||8.12|-3.44|
92407591|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|1.89|||||TWO_SIDED|95.0|-3.22|7.0||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||7.00|-3.22|
92407592|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|1.83|||||TWO_SIDED|95.0|-1.85|5.52||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.52|-1.85|
92407593|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|0.327|||||TWO_SIDED|95.0|-5.45|6.1||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||6.10|-5.45|
92407594|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|3.18|||||TWO_SIDED|95.0|-1.93|8.29||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||8.29|-1.93|
92407595|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|2.12|||||TWO_SIDED|95.0|-1.56|5.81||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.81|-1.56|
92277739|NCT01620489|184457700|SUPERIORITY_OR_OTHER||Estimated treatment ratio|0.98|||=|0.3575||95.0|0.94|1.02||Not adjusted for multiple comparisons|Mixed Models Analysis|||The ratio to baseline in eGFR (mL/min/1.73m˄2) after 26 weeks treatment was estimated based on log-transformed data for changes from baseline. The responses were analysed using an MMRM model with treatment, country and stratification groups as fixed effects and log-transformed baseline as a covariate, all nested within visit. The resulting estimates were back-transformed to the original scale.||1.02|0.94|= 0.3575
92407596|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-1.6|||||TWO_SIDED|95.0|-6.79|3.59||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||3.59|-6.79|
92407597|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-0.163|||||TWO_SIDED|95.0|-5.0|4.68||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||4.68|-5.00|
92407598|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|-0.829|||||TWO_SIDED|95.0|-5.2|3.54||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||3.54|-5.20|
92407599|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|1.95|||||TWO_SIDED|95.0|-3.27|7.17||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||7.17|-3.27|
92407600|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|3.71|||||TWO_SIDED|95.0|-1.17|8.59||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||8.59|-1.17|
92407601|NCT01263197|184704612|SUPERIORITY_OR_OTHER||LS mean difference|4.28|||||TWO_SIDED|95.0|-0.103|8.67||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||8.67|-0.103|
92407602|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-1.23|||||TWO_SIDED|95.0|-3.9|1.44||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||1.44|-3.90|
92407603|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|1.05|||||TWO_SIDED|95.0|-1.91|4.02||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||4.02|-1.91|
92407604|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-0.199|||||TWO_SIDED|95.0|-2.58|2.18||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||2.18|-2.58|
92407605|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|1.37|||||TWO_SIDED|95.0|-1.34|4.07||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||4.07|-1.34|
92407606|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|3.68|||||TWO_SIDED|95.0|0.674|6.69||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||6.69|0.674|
92407607|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|2.4|||||TWO_SIDED|95.0|-0.0178|4.81||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||4.81|-0.0178|
92407608|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-4.22|||||TWO_SIDED|95.0|-7.83|-0.619||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-0.619|-7.83|
92407609|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|0.335|||||TWO_SIDED|95.0|-4.45|5.12||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||5.12|-4.45|
92407610|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-1.92|||||TWO_SIDED|95.0|-4.81|0.969||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.969|-4.81|
92407611|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|2.47|||||TWO_SIDED|95.0|-1.15|6.1||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||6.10|-1.15|
92407612|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|9.12|||||TWO_SIDED|95.0|4.3|13.9||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||13.9|4.30|
92407613|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|6.03|||||TWO_SIDED|95.0|3.12|8.94||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||8.94|3.12|
92407614|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-0.913|||||TWO_SIDED|95.0|-4.65|2.82||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||2.82|-4.65|
92371253|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371254|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371255|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371256|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371257|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371258|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371259|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92407615|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-0.444|||||TWO_SIDED|95.0|-4.33|3.44||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||3.44|-4.33|
92407616|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|0.378|||||TWO_SIDED|95.0|-2.2|2.95||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||2.95|-2.20|
92407617|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|0.878|||||TWO_SIDED|95.0|-2.86|4.62||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||4.62|-2.86|
92371260|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371261|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92407618|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|2.92|||||TWO_SIDED|95.0|-0.966|6.8||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||6.80|-0.966|
92371262|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371263|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371264|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371265|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371266|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371267|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371268|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371269|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371270|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92407619|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|2.94|||||TWO_SIDED|95.0|0.366|5.52||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.52|0.366|
92371271|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371272|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371273|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92407620|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-2.88|||||TWO_SIDED|95.0|-6.84|1.07||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||1.07|-6.84|
92407621|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-0.975|||||TWO_SIDED|95.0|-5.39|3.44||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||3.44|-5.39|
92371274|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371275|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371276|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371277|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371278|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371279|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371280|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371281|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371282|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92407622|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-1.82|||||TWO_SIDED|95.0|-5.3|1.66||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||1.66|-5.30|
92407623|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|5.6|||||TWO_SIDED|95.0|1.63|9.56||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||9.56|1.63|
92407624|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|7.82|||||TWO_SIDED|95.0|3.39|12.3||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||12.3|3.39|
92407625|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|6.6|||||TWO_SIDED|95.0|3.11|10.1||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||10.1|3.11|
92407626|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|0.847|||||TWO_SIDED|95.0|-3.23|4.92||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||4.92|-3.23|
92407627|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-3.48|||||TWO_SIDED|95.0|-8.17|1.21||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||1.21|-8.17|
92407628|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-0.372|||||TWO_SIDED|95.0|-2.88|2.14||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||2.14|-2.88|
92407629|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|1.9|||||TWO_SIDED|95.0|-2.17|5.98||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.98|-2.17|
92407630|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|1.07|||||TWO_SIDED|95.0|-3.62|5.76||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.76|-3.62|
92407631|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|3.03|||||TWO_SIDED|95.0|0.522|5.55||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.55|0.522|
92407632|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|0.737|||||TWO_SIDED|95.0|-3.9|5.38||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||5.38|-3.90|
92407633|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-1.95|||||TWO_SIDED|95.0|-6.36|2.47||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||2.47|-6.36|
92371283|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371284|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371285|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371286|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92407634|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|-1.17|||||TWO_SIDED|95.0|-4.79|2.45||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||2.45|-4.79|
92407635|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|7.25|||||TWO_SIDED|95.0|2.59|11.9||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||11.9|2.59|
92407636|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|5.58|||||TWO_SIDED|95.0|1.13|10.0||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||10.0|1.13|
92407637|NCT01263197|184704613|SUPERIORITY_OR_OTHER||LS mean difference|5.53|||||TWO_SIDED|95.0|1.89|9.16||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||9.16|1.89|
92407638|NCT00346697|184704645|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92280383|NCT04543136|184463466|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.701|TWO_SIDED|95.0|-0.8|0.54||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.54|-0.80|0.701
92407639|NCT00346697|184704646|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||.80
92407640|NCT00346697|184704647|SUPERIORITY_OR_OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
92407641|NCT00346697|184704648|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
92407642|NCT00346697|184704649|SUPERIORITY_OR_OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
92407643|NCT00346697|184704650|SUPERIORITY_OR_OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.70
92407644|NCT00346697|184704651|SUPERIORITY_OR_OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.20
92407645|NCT00346697|184704652|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
92407646|NCT00346697|184704653|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92407647|NCT00346697|184704654|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
92407648|NCT00346697|184704655|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
92407649|NCT00346697|184704656|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
92407650|NCT00346697|184704657|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
92407651|NCT00346697|184704658|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92371287|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371288|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
92371289|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
92371290|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
92371291|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
92371292|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
92371293|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
92371294|NCT01559259|184646506|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
92371295|NCT01559259|184646507|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.28|||<|0.001|TWO_SIDED|95.0|0.17|0.45||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||0.45|0.17|<0.001
92371296|NCT01559259|184646507|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.24|||<|0.001|TWO_SIDED|95.0|0.15|0.39||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||0.39|0.15|<0.001
92371297|NCT01559259|184646507|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|||<|0.001|TWO_SIDED|95.0|0.13|0.35||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||0.35|0.13|<0.001
92371298|NCT01559259|184646507|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.25|||<|0.001|TWO_SIDED|95.0|0.15|0.41||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 400 mg - placebo), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||0.41|0.15|<0.001
92407652|NCT00346697|184704659|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.30
92407653|NCT02557139|184704665|EQUIVALENCE|If the 90% confidence interval for the comparison of fed vs. fasted is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect of food on belumosudil tablets.|Ratio of Adjusted Geometric Means (%)|100.0|||<|0.001|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided|||Cmax null hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability: 48.00%|125.00|80.00|< 0.001
92371299|NCT01559259|184646507|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.12||||0.549|TWO_SIDED|95.0|0.77|1.63||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||1.63|0.77|0.549
92371300|NCT01559259|184646507|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.97||||0.863|TWO_SIDED|95.0|0.66|1.42||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||1.42|0.66|0.863
92371301|NCT01559259|184646507|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.86||||0.454|TWO_SIDED|95.0|0.57|1.28||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||1.28|0.57|0.454
92371302|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-41.07|||<|0.001|TWO_SIDED|95.0|-59.56|-22.58||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-22.58|-59.56|<0.001
92371303|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-40.98|||<|0.001|TWO_SIDED|95.0|-59.41|-22.56||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-22.56|-59.41|<0.001
92371304|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-38.64|||<|0.001|TWO_SIDED|95.0|-57.49|-19.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-19.79|-57.49|<0.001
92371305|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-38.11|||<|0.001|TWO_SIDED|95.0|-56.94|-19.28||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-19.28|-56.94|<0.001
92371306|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-3.13||||0.274|TWO_SIDED|95.0|-8.67|2.4||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.40|-8.67|0.274
92371307|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-2.89||||0.304|TWO_SIDED|95.0|-8.4|2.62||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.62|-8.40|0.304
92371308|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-0.96||||0.769|TWO_SIDED|95.0|-7.41|5.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||5.49|-7.41|0.769
92371309|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-71.19|||<|0.001|TWO_SIDED|95.0|-88.0|-54.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-54.38|-88.00|<0.001
92371310|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-66.99|||<|0.001|TWO_SIDED|95.0|-84.26|-49.72||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-49.72|-84.26|<0.001
92371311|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-67.47|||<|0.001|TWO_SIDED|95.0|-84.75|-50.19||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-50.19|-84.75|<0.001
92277740|NCT00982410|184457708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6489|STANDARD_ERROR_OF_MEAN|0.29|<|0.05|TWO_SIDED|95.0|-1.2255|-0.0722|||Mixed Models Analysis|Adjusted for baseline NRS-1 pain level. Time interval and therapy session block were utilized to model the variance.|EUC (Arm 2) was referent. Estimation parameter = value for Cognitive Behavior Treatment group minus value for Educational Support group.|Ho: There was no difference in average pain level across the follow-up period, between CBT group and Educational support group.||-0.07220|-1.2255|<0.05
92407654|NCT02557139|184704665|EQUIVALENCE|If the 90% confidence interval for the comparison of belumosudil tablet (test drug) vs. the belumosudil capsule (reference drug) is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect on the use of belumosudi tablet compared to belumosudil capsule.|Ratio of Geometric Means (%)|100.0||||0.23|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided|||Cmax null hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability: 48.00%|125.00|80.00|0.23
92407655|NCT02557139|184704666|EQUIVALENCE|If the 90% confidence interval for the comparison of fed vs. fasted is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect of food on belumosudil tablets.|Ratio of Adjusted Geometric Means (%)|100.0|||<|0.001|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided|||AUC(0-inf) Null Hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability: 34.25%|125.00|80.00|<0.001
92407656|NCT02557139|184704666|EQUIVALENCE|If the 90% confidence interval for the comparison of belumosudil tablet (test drug) vs. the belumosudil capsule (reference drug) is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect on the use of belumosudi tablet compared to belumosudil capsule.|Ratio of Adjusted Geometric Means (%)|100.0||||0.16|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided|||AUC(0-inf) Null Hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability;|125.00|80.00|0.16
92407657|NCT02557139|184704666|EQUIVALENCE|If the 90% confidence interval for the comparison of fed vs. fasted is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect of food on belumosudil tablets.|Ratio of Adjusted Geometric Means (%)|100.0|||<|0.001|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided|||AUC(0-last) Null Hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability = 38.16%|125.00|80.00|< 0.001
92407658|NCT02557139|184704666|EQUIVALENCE|If the 90% confidence interval for the comparison of belumosudil tablet (test drug) vs. the belumosudil capsule (reference drug) is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect on the use of belumosudi tablet compared to belumosudil capsule.|Ratio of Adjusted Geometric Means (%)|100.0||||0.18|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided||Intra-subject variability = 38.16%|AUC(0-last) Null Hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability = 38.16%|125.00|80.00|0.18
92407659|NCT02284243|184704673|SUPERIORITY_OR_OTHER|||||||0.018|||||||ANCOVA|||||||0.0180
92407660|NCT02284243|184704674|SUPERIORITY_OR_OTHER||||||<|0.05||||||Applies to SPID 0-6, SPID 0-12, and SPID 0-24|ANCOVA|||||||<0.05
92407661|NCT02284243|184704675|SUPERIORITY_OR_OTHER||||||<|0.05||||||Applies to perceptible and meaningful pain relief|Log Rank|||||||<0.05
92407662|NCT02284243|184704676|SUPERIORITY_OR_OTHER||||||<|0.05||||||Applies to ≥30% and ≥50% reduction in pain|Cochran-Mantel-Haenszel|Test for general association stratified by site||||||<0.05
92407663|NCT02284243|184704678|SUPERIORITY_OR_OTHER|||||||0.0009|||||||Log Rank|||||||0.0009
92407664|NCT02284243|184704679|SUPERIORITY_OR_OTHER|||||||0.7718|||||||Cochran-Mantel-Haenszel|||||||0.7718
92407665|NCT01094119|184704809|SUPERIORITY|||||||0.0069|||||||Regression, Logistic|||||||0.0069
92407666|NCT00357903|184704835|SUPERIORITY_OR_OTHER||Standardized incidence rate|0.0||||||95.0|0.0|53.87||||||||53.87|0.00|
92407667|NCT00357903|184704835|SUPERIORITY_OR_OTHER||Standardized incidence rate|1.3||||||95.0|0.97|1.71||||||||1.71|0.97|
92407668|NCT00606593|184704837|SUPERIORITY_OR_OTHER||Least square means treatment effect|-10.4||||0.0018|TWO_SIDED|95.0|-17.0|-3.9|||Linear model|||||-3.9|-17.0|0.0018
92407669|NCT00606593|184704837|SUPERIORITY_OR_OTHER||Least square means treatment effect|-19.2|||<|0.0001|TWO_SIDED|95.0|-25.7|-12.6|||Linear model|||||-12.6|-25.7|<0.0001
92407670|NCT00606593|184704837|SUPERIORITY_OR_OTHER||Least square means treatment effect|-31.4|||<|0.0001|TWO_SIDED|95.0|-38.0|-24.9|||Linear model|||||-24.9|-38.0|<0.0001
92407671|NCT00606593|184704837|SUPERIORITY_OR_OTHER||Least square means treatment effect|-46.5|||<|0.0001|TWO_SIDED|95.0|-53.3|-39.9|||Linear model|||||-39.9|-53.3|<0.0001
92407672|NCT00606593|184704838|SUPERIORITY_OR_OTHER||Least square means treatment effect|14.3|||<|0.0001|TWO_SIDED|95.0|7.4|21.2|||Linear model|||||21.2|7.4|<0.0001
92407673|NCT00606593|184704838|SUPERIORITY_OR_OTHER||Least square means treatment effect|21.5|||<|0.0001|TWO_SIDED|95.0|14.6|28.4|||Linear model|||||28.4|14.6|<0.0001
92407674|NCT00606593|184704838|SUPERIORITY_OR_OTHER||Least square means treatment effect|34.7|||<|0.0001|TWO_SIDED|95.0|27.8|41.6|||Linear model|||||41.6|27.8|<0.0001
92407675|NCT00606593|184704838|SUPERIORITY_OR_OTHER||Least square means treatment effect|55.1|||<|0.0001|TWO_SIDED|95.0|48.2|62.0|||Linear model|||||62.0|48.2|<0.0001
92407676|NCT00354432|184704890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3455|TWO_SIDED|||||This p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|A mixed effects repeated measures analysis of variance was used with the baseline means constrained to be equal in the four groups.||The null hypothesis was that there was no difference in the hot flash severity score at 12 weeks.||||.3455
92407677|NCT00354432|184704891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2081|TWO_SIDED|||||This p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|||Null hypothesis was that there was no difference in quality of life between the four groups at 12 weeks.||||0.2081
92407678|NCT03863080|184704900|SUPERIORITY||Least square mean difference|-56.33|||<|0.0001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of Total IgG levels has been presented.|||||<0.0001
92407679|NCT03863080|184704900|SUPERIORITY||Least square mean difference|-74.49|||<|0.0001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of Total IgG levels has been presented.|||||<0.0001
92371312|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-62.76|||<|0.001|TWO_SIDED|95.0|-80.45|-45.07||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-45.07|-80.45|<0.001
92371313|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-8.53||||0.021|TWO_SIDED|95.0|-15.55|-1.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-1.50|-15.55|0.021
92371314|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-3.99||||0.337|TWO_SIDED|95.0|-12.05|4.07||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.07|-12.05|0.337
92371315|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-5.26||||0.204|TWO_SIDED|95.0|-13.28|2.76||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.76|-13.28|0.204
92371316|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-77.89|||<|0.001|TWO_SIDED|95.0|-92.29|-63.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-63.49|-92.29|<0.001
92371317|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-71.65|||<|0.001|TWO_SIDED|95.0|-86.71|-56.58||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-56.58|-86.71|<0.001
92371318|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-72.87|||<|0.001|TWO_SIDED|95.0|-88.06|-57.68||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-57.68|-88.06|<0.001
92371319|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-67.2|||<|0.001|TWO_SIDED|95.0|-82.87|-51.52||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-51.52|-82.87|<0.001
92371320|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-10.71||||0.007|TWO_SIDED|95.0|-18.2|-3.21||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-3.21|-18.20|0.007
92371321|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-3.99||||0.385|TWO_SIDED|95.0|-12.86|4.88||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.88|-12.86|0.385
92371322|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-6.29||||0.162|TWO_SIDED|95.0|-14.97|2.4||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.40|-14.97|0.162
92407680|NCT03863080|184704901|SUPERIORITY||Least square mean difference|-62.7|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of IgG 1 subclass has been presented.|||||<0.001
92407681|NCT03863080|184704901|SUPERIORITY||Least square mean difference|-73.0|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of IgG 1 subclass has been presented.|||||<0.001
92407682|NCT03863080|184704901|SUPERIORITY||Least square mean difference|-52.5|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of IgG 2 subclass has been presented.|||||<0.001
92407683|NCT03863080|184704901|SUPERIORITY||Least square mean difference|-61.4|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of IgG 2 subclass has been presented.|||||<0.001
92407684|NCT03863080|184704901|SUPERIORITY||Least square mean difference|-66.1|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of IgG 3 subclass has been presented.|||||<0.001
92407685|NCT03863080|184704901|SUPERIORITY||Least square mean difference|-80.8|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of IgG 3 subclass has been presented.|||||<0.001
92371323|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-76.81|||<|0.001|TWO_SIDED|95.0|-91.35|-62.27||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-62.27|-91.35|<0.001
92371324|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-70.6|||<|0.001|TWO_SIDED|95.0|-85.79|-55.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-55.41|-85.79|<0.001
92371325|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-71.66|||<|0.001|TWO_SIDED|95.0|-87.0|-56.31||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-56.31|-87.00|<0.001
92371326|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-65.19|||<|0.001|TWO_SIDED|95.0|-81.03|-49.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-49.34|-81.03|<0.001
92371327|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-11.7||||0.007|TWO_SIDED|95.0|-19.86|-3.55||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-3.55|-19.86|0.007
92371328|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-4.94||||0.31|TWO_SIDED|95.0|-14.34|4.46||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.46|-14.34|0.310
92371329|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-7.36||||0.126|TWO_SIDED|95.0|-16.63|1.9||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.90|-16.63|0.126
92371330|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-75.64|||<|0.001|TWO_SIDED|95.0|-90.35|-60.93||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-60.93|-90.35|<0.001
92371331|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-66.43|||<|0.001|TWO_SIDED|95.0|-81.99|-50.88||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-50.88|-81.99|<0.001
92371332|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-69.33|||<|0.001|TWO_SIDED|95.0|-84.96|-53.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-53.71|-84.96|<0.001
92371333|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-65.19|||<|0.001|TWO_SIDED|95.0|-81.03|-49.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-49.34|-81.03|<0.001
92371334|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-10.61||||0.016|TWO_SIDED|95.0|-19.02|-2.19||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-2.19|-19.02|0.016
92371335|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-0.69||||0.895|TWO_SIDED|95.0|-10.69|9.32||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.32|-10.69|0.895
92240170|NCT00570739|184383834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.1499|TWO_SIDED|95.0|0.74|3.55||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||3.55|0.74|0.1499
92371336|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-5.09||||0.308|TWO_SIDED|95.0|-14.8|4.62||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.62|-14.80|0.308
92371337|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-71.36|||<|0.001|TWO_SIDED|95.0|-86.58|-56.13||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-56.13|-86.58|<0.001
92371338|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-62.11|||<|0.001|TWO_SIDED|95.0|-78.04|-46.19||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-46.19|-78.04|<0.001
92407686|NCT03863080|184704901|SUPERIORITY||Least square mean difference|-44.9|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of IgG 4 subclass has been presented.|||||<0.001
92407687|NCT03863080|184704901|SUPERIORITY||Least square mean difference|-61.6|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of IgG 4 subclass has been presented.|||||<0.001
92407688|NCT03863080|184704902|SUPERIORITY||Least square mean difference|-62.58||||0.0009|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of Anti-AChR-IgG has been presented.|||||0.0009
92407689|NCT03863080|184704902|SUPERIORITY||Least square mean difference|-101.2|||<|0.0001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of Anti-AChR-IgG has been presented.|||||<0.0001
92407690|NCT02864394|184704943|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.1276|TWO_SIDED|95.0|0.61|1.14|||Log Rank|||Treatment comparison (Hazard Ratio, HR) based on Cox regression model with Efron's method of tie handling with treatment as a covariate. One-sided p-value was based on log-rank test.||1.14|0.61|0.1276
92407691|NCT02864394|184704944|OTHER||Hazard Ratio (HR)|0.75||||0.0076|TWO_SIDED|95.0|0.6|0.95|||Log Rank|||OS was not formally tested. Treatment comparison (HR) based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by PD-L1 expression status (TPS ≥50% vs. TPS 1-49%). A nominal one-sided p-value for testing was based on log-rank test stratified by PD-L1 expression status (TPS ≥50% vs. TPS 1-49%).||0.95|0.60|0.0076
92407692|NCT02864394|184704945|OTHER||Hazard Ratio (HR)|0.76||||0.0534|TWO_SIDED|95.0|0.54|1.07|||Log Rank|||PFS was not formally tested. Treatment comparison (HR) based on Cox regression model with Efron's method of tie handling with treatment as a covariate. A nominal one-sided p-value for testing was based on log-rank test.||1.07|0.54|0.0534
92407693|NCT02864394|184704946|OTHER||Hazard Ratio (HR)|0.84||||0.0847|TWO_SIDED|95.0|0.66|1.08|||Log Rank|||PFS was not formally tested. Treatment comparison (HR) based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by PD-L1 expression status (TPS ≥50% vs. TPS 1-49%). A nominal one-sided p-value for testing was based on log-rank test stratified by PD-L1 expression status (TPS ≥50% vs. TPS 1-49%).||1.08|0.66|0.0847
92407694|NCT02864394|184704947|OTHER||Difference in Percentage|21.0|||<|0.0001|TWO_SIDED|95.0|11.5|30.7|||Miettinen & Nurminen Method|||ORR was not formally tested. Treatment comparison was based on the Miettinen \& Nurminen method. A nominal one-sided p-value for testing was calculated.||30.7|11.5|<0.0001
92407695|NCT02864394|184704948|OTHER||Difference in Percentage|15.0|||<|0.0001|TWO_SIDED|95.0|8.8|21.6|||Miettinen & Nurminen Method|||ORR was not formally tested. Treatment comparison was based on Miettinen \& Nurminen method stratified by PD-L1 expression status (TPS\>=50% vs. TPS 1-49%). If no participants were in one of the treatment arms involved in a comparison for a particular stratum, then that stratum was excluded from the treatment comparison. A nominal one-sided p-value for testing was calculated.||21.6|8.8|<0.0001
92407696|NCT05232682|184704956|OTHER||F-test|2.41||||0.1183|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.1183
92407697|NCT05232682|184704957|OTHER||F-test|0.07||||0.9308|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.9308
92407698|NCT05232682|184704958|OTHER||F-test|2.1||||0.1517|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.1517
92407699|NCT05232682|184704959|OTHER||F-test|0.14||||0.8747|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.8747
92407700|NCT05232682|184704960|OTHER||F-test|1.19||||0.3269|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.3269
92407701|NCT05232682|184704961|OTHER||F-test|1.14||||0.3411|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.3411
92407702|NCT00337675|184705034|SUPERIORITY_OR_OTHER_LEGACY||Rate reduction|5.3|STANDARD_ERROR_OF_MEAN|7.3||0.51||95.0|-11.4|19.6||Multiplicity adjustment across regimens was addressed through step-down testing. Daily montelukast versus placebo was tested first; if this comparison was significant, intermittent montelukast versus placebo was tested. The significance level was 5%.|Regression, Poisson|A Poisson regression model containing factors for treatment, age group, and geographic region, and an offset for number of days in study was used.|Rate reduction = (1 - montelukast-adjusted annual rate/placebo-adjusted annual rate) x 100%|The primary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in a decrease in the number of asthma episodes culminating in asthma attack in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year. A sample size of 450 evaluable patients per arm allowed the detection of a difference in rate of 23% with 90% power.||19.6|-11.4|0.510
92446272|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.158||0.772|TWO_SIDED|95.0|-0.36|0.27|||MMRM|||Genital Symptoms, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.36|0.7720
92371339|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-64.57|||<|0.001|TWO_SIDED|95.0|-80.64|-48.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-48.50|-80.64|<0.001
92371340|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-59.84|||<|0.001|TWO_SIDED|95.0|-76.12|-43.55||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-43.55|-76.12|<0.001
92371341|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-11.49||||0.028|TWO_SIDED|95.0|-21.63|-1.35||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-1.35|-21.63|0.028
92371342|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-1.88||||0.747|TWO_SIDED|95.0|-13.15|9.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.38|-13.15|0.747
92371343|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-5.88||||0.303|TWO_SIDED|95.0|-16.88|5.12||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||5.12|-16.88|0.303
92371344|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-62.49|||<|0.001|TWO_SIDED|95.0|-78.64|-46.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-46.34|-78.64|<0.001
92371345|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-60.09|||<|0.001|TWO_SIDED|95.0|-76.15|-44.02||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-44.02|-76.15|<0.001
92371346|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-63.45|||<|0.001|TWO_SIDED|95.0|-79.64|-47.27||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-47.27|-79.64|<0.001
92371347|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-53.41|||<|0.001|TWO_SIDED|95.0|-70.1|-36.72||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-36.72|-70.10|<0.001
92371348|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-9.14||||0.137|TWO_SIDED|95.0|-21.18|2.9||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.90|-21.18|0.137
92371349|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-6.34||||0.311|TWO_SIDED|95.0|-18.39|5.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||5.71|-18.39|0.311
92371350|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-11.23||||0.067|TWO_SIDED|95.0|-22.97|0.52||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||0.52|-22.97|0.067
92240171|NCT00570739|184383834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.08||||0.042|TWO_SIDED|95.0|0.97|4.45||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||4.45|0.97|0.0420
92371351|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-51.54|||<|0.001|TWO_SIDED|95.0|-68.42|-34.66||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-34.66|-68.42|<0.001
92371352|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-57.01|||<|0.001|TWO_SIDED|95.0|-73.27|-40.76||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-40.76|-73.27|<0.001
92371353|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-53.21|||<|0.001|TWO_SIDED|95.0|-70.16|-36.26||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-36.26|-70.16|<0.001
92371354|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-47.82|||<|0.001|TWO_SIDED|95.0|-64.81|-30.83||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-30.83|-64.81|<0.001
92371355|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-3.52||||0.604|TWO_SIDED|95.0|-16.89|9.85||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.85|-16.89|0.604
92371356|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-8.78||||0.184|TWO_SIDED|95.0|-21.5|3.94||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.94|-21.50|0.184
92371357|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-6.43||||0.34|TWO_SIDED|95.0|-19.56|6.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||6.70|-19.56|0.340
92371358|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-40.27|||<|0.001|TWO_SIDED|95.0|-57.67|-22.88||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-22.88|-57.67|<0.001
92371359|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-47.24|||<|0.001|TWO_SIDED|95.0|-64.21|-30.27||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-30.27|-64.21|<0.001
92371360|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-43.15|||<|0.001|TWO_SIDED|95.0|-60.57|-25.72||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-25.72|-60.57|<0.001
92407703|NCT00337675|184705034|SUPERIORITY_OR_OTHER_LEGACY||Rate reduction|-1.2|STANDARD_ERROR_OF_MEAN|7.8||0.884||95.0|-19.2|14.0||Multiplicity adjustment across regimens was addressed through step-down testing. Daily montelukast versus placebo was tested first; if this comparison was significant, intermittent montelukast versus placebo was tested. The significance level was 5%.|Regression, Poisson|A Poisson regression model containing factors for treatment, age group, and geographic region, and an offset for number of days in study was used.|Rate reduction = (1 - montelukast-adjusted annual rate/placebo-adjusted annual rate) x 100%|The primary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in a decrease in the number of asthma episodes culminating in asthma attack in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year. A sample size of 450 evaluable patients per arm allowed the detection of a difference in rate of 23% with 90% power.||14.0|-19.2|0.884
92407704|NCT00337675|184705035|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.14||0.176||95.0|-0.46|0.09||Multiplicity adjustment across regimens and across primary and secondary endpoints was addressed through step-down testing. Within the 2 endpoints assessing severity, adjustment for multiplicity was performed using Hochberg's method.|ANOVA|An ANOVA model containing factors for treatment, age group, and geographical region was used.||The secondary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in improvement of respiratory symptoms assessed over 3 days prior to asthma attacks, or assessed over the 12-day treatment period of asthma episodes in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year.||0.09|-0.46|0.176
92371361|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-44.45|||<|0.001|TWO_SIDED|95.0|-61.55|-27.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-27.34|-61.55|<0.001
92407705|NCT00337675|184705035|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.202||95.0|-0.44|0.09||Multiplicity adjustment across regimens and across primary and secondary endpoints was addressed through step-down testing. Within the 2 endpoints assessing severity, adjustment for multiplicity was performed using Hochberg's method.|ANOVA|An ANOVA model containing factors for treatment, age group, and geographical region was used.||The secondary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in improvement of respiratory symptoms assessed over 3 days prior to asthma attacks, or assessed over the 12-day treatment period of asthma episodes in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year.||0.09|-0.44|0.202
92240172|NCT00570739|184383834|SUPERIORITY_OR_OTHER|||||||0.224||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.2240
92240173|NCT00570739|184383834|SUPERIORITY_OR_OTHER|||||||0.0593||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.0593
92240174|NCT00570739|184383835|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.4794|TWO_SIDED|95.0|0.31|1.4||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||1.40|0.31|0.4794
92277741|NCT00982410|184457709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||<|0.05|TWO_SIDED|95.0|0.034|0.466|||Mixed Models Analysis|Adjusted for baseline WHY MPI General Activity score. Time interval and therapy session block were utilized to model the variance.|Education Support group was referent. Mean difference = value for CBT group minus value for Educational Support group.|||0.466|0.034|<0.05
92277742|NCT00982410|184457710|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline #days of alcohol use. Time interval and therapy session block were utilized to model the variance.||||||<0.01
92371362|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|4.29||||0.548|TWO_SIDED|95.0|-9.8|18.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.38|-9.80|0.548
92371363|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-2.51||||0.721|TWO_SIDED|95.0|-16.2|11.18||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.18|-16.20|0.721
92371364|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.44||||0.951|TWO_SIDED|95.0|-13.47|14.35||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.35|-13.47|0.951
92371365|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-29.13||||0.005|TWO_SIDED|95.0|-46.66|-11.59||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-11.59|-46.66|0.005
92371366|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-34.3||||0.001|TWO_SIDED|95.0|-51.62|-16.97||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-16.97|-51.62|0.001
92371367|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-36.26|||<|0.001|TWO_SIDED|95.0|-53.8|-18.73||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-18.73|-53.80|<0.001
92371368|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-34.56|||<|0.001|TWO_SIDED|95.0|-51.77|-17.35||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-17.35|-51.77|<0.001
92371369|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.45||||0.455|TWO_SIDED|95.0|-8.89|19.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||19.79|-8.89|0.455
92371370|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.43||||0.953|TWO_SIDED|95.0|-13.8|14.65||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.65|-13.80|0.953
92371371|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-2.48||||0.731|TWO_SIDED|95.0|-16.63|11.66||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.66|-16.63|0.731
92371372|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-22.63||||0.024|TWO_SIDED|95.0|-39.97|-5.29||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-5.29|-39.97|0.024
92371373|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-26.87||||0.009|TWO_SIDED|95.0|-44.12|-9.62||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-9.62|-44.12|0.009
92371374|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-30.76||||0.003|TWO_SIDED|95.0|-48.36|-13.16||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-13.16|-48.36|0.003
92240175|NCT00570739|184383835|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.6667|TWO_SIDED|95.0|0.37|1.55||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||1.55|0.37|0.6667
92371375|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-27.26||||0.007|TWO_SIDED|95.0|-44.51|-10.0||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-10.00|-44.51|0.007
92371376|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|4.66||||0.516|TWO_SIDED|95.0|-9.5|18.82||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.82|-9.50|0.516
92371377|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.55||||0.939|TWO_SIDED|95.0|-13.63|14.72||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.72|-13.63|0.939
92371378|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-4.53||||0.536|TWO_SIDED|95.0|-18.86|9.8||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.80|-18.86|0.536
92371379|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-15.81||||0.107|TWO_SIDED|95.0|-33.02|1.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.41|-33.02|0.107
92371380|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-23.71||||0.019|TWO_SIDED|95.0|-40.91|-6.51||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-6.51|-40.91|0.019
92371381|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-28.44||||0.006|TWO_SIDED|95.0|-45.99|-10.88||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-10.88|-45.99|0.006
92407706|NCT00337675|184705036|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.06||0.045||95.0|-0.24|0.0||Multiplicity adjustment across regimens and across primary and secondary endpoints was addressed through step-down testing. Within the family of secondary endpoints, adjustment for multiplicity was performed using Hochberg's method.|ANOVA|An ANOVA model containing factors for treatment, age group, and geographical region was used.||The secondary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in improvement of respiratory symptoms assessed over 3 days prior to asthma attacks, or assessed over the 12-day treatment period of asthma episodes in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year.||0.00|-0.24|0.045
92277743|NCT00982410|184457711|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline #days illicit drug use. Time interval and therapy session block were utilized to model the variance. EUC group was referent.||||||>0.05
92371382|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-25.04||||0.012|TWO_SIDED|95.0|-42.23|-7.85||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-7.85|-42.23|0.012
92371383|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|9.16||||0.195|TWO_SIDED|95.0|-4.75|23.08||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||23.08|-4.75|0.195
92240176|NCT00570739|184383835|SUPERIORITY_OR_OTHER|||||||0.2768||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.2768
92240177|NCT00570739|184383835|SUPERIORITY_OR_OTHER|||||||0.4395||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.4395
92240178|NCT00570739|184383836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43||||0.1375|TWO_SIDED|95.0|0.89|6.64||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||6.64|0.89|0.1375
92371384|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.48||||0.835|TWO_SIDED|95.0|-12.54|15.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.50|-12.54|0.835
92371385|NCT01559259|184646508|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-4.41||||0.542|TWO_SIDED|95.0|-18.61|9.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.79|-18.61|0.542
92371386|NCT01559259|184646509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.79|1.01||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||1.01|0.79|<0.001
92371387|NCT01559259|184646509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.83|||<|0.001|TWO_SIDED|95.0|0.79|1.01||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||1.01|0.79|< 0.001
92371388|NCT01559259|184646509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.86|||<|0.001|TWO_SIDED|95.0|0.73|0.99||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||0.99|0.73|< 0.001
92371389|NCT01559259|184646509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8|||<|0.001|TWO_SIDED|95.0|0.65|0.95||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||0.95|0.65|< 0.001
92371390|NCT01559259|184646509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15||||0.174|TWO_SIDED|95.0|-0.07|0.37||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||0.37|-0.07|0.174
92371391|NCT01559259|184646509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04||||0.722|TWO_SIDED|95.0|-0.18|0.26||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||0.26|-0.18|0.722
92371392|NCT01559259|184646509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.365|TWO_SIDED|95.0|-0.32|0.11||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||0.11|-0.32|0.365
92407707|NCT00337675|184705036|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.061||95.0|-0.23|0.0||Multiplicity adjustment across regimens and across primary and secondary endpoints was addressed through step-down testing. Within the family of secondary endpoints, adjustment for multiplicity was performed using Hochberg's method.|ANOVA|An ANOVA model containing factors for treatment, age group, and geographical region was used.||The secondary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in improvement of respiratory symptoms assessed over 3 days prior to asthma attacks, or assessed over the 12-day treatment period of asthma episodes in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year.||0.00|-0.23|0.061
92407708|NCT00880919|184705038|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANOVA|||Mean changes were calculated using each groups linear and quadratic effects||||.015
92371393|NCT00306293|184646523|SUPERIORITY_OR_OTHER||Percent change from Placebo|-78.0|||<|0.001||95.0|||||Wilcoxon Rank Sum Test||Percent change in days with Subclinical HSV-2 Viral Shedding after VALTREX 1g treatment from the placebo|||||<0.001
92371394|NCT00306293|184646524|SUPERIORITY_OR_OTHER||Percent change from Baseline|-77.0||||0.014||95.0|||||Wilcoxon Rank Sum||Percent change in 'percentage of days with clinical HSV-2 viral shedding', after VALTREX 1g treatment from the placebo|||||0.014
92371395|NCT01089413|184646532|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.8579|TWO_SIDED|95.0|0.7|1.54|||Regression, Cox|||||1.54|0.70|0.8579
92371396|NCT01089413|184646533|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.1555|TWO_SIDED|95.0|0.3|1.21|||Regression, Cox|||||1.21|0.30|0.1555
92371397|NCT01971463|184646537|SUPERIORITY||||||<|0.05|||||||Wilcoxon signed rank|||Change in oCBF from baseline to post-bolus, ipsilesional hemisphere||||<0.05
92371398|NCT01971463|184646537|SUPERIORITY|Mixed effects regression, modeling the interaction term for time x normal saline bolus in the ipsilesional hemisphere|Slope|0.05|||<|0.001|TWO_SIDED|95.0|0.03|0.07|||Mixed Models Analysis|||||0.07|0.03|<0.001
92371399|NCT01814878|184646538|NON_INFERIORITY_OR_EQUIVALENCE|Study drug treatment group was considered non-inferior to comparator treatment group, if lower limit of the confidence interval was larger than -2.0|Mean Difference (Final Values)|-4.68||||0.1648|TWO_SIDED|95.0|-11.29|1.93||Hour 48: P-value was calculated using Student's t-test|Student's t-test|||Non-inferiority comparison for Tramadol Hydrochloride/Acetaminophen ER to Tramadol HCl/Acetaminophen IR was performed.||1.93|-11.29|0.1648
92371400|NCT01814878|184646539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.4082|TWO_SIDED|95.0|-1.1|0.45||Hour 6: P-value was calculated using Student's t-test|Student's t-test|||||0.45|-1.10|0.4082
92371401|NCT01814878|184646539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.172|TWO_SIDED|95.0|-2.68|0.48||Hour 12: P-value was calculated using Student's t-test|Student's t-test|||||0.48|-2.68|0.1720
92371402|NCT01814878|184646539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.99||||0.0589|TWO_SIDED|95.0|-6.09|0.11||Hour 24: P-value was calculated using Student's t-test|Student's t-test|||||0.11|-6.09|0.0589
92371403|NCT01814878|184646540|SUPERIORITY_OR_OTHER|||||||0.1542||||||Hour 6: P-value was calculated using Student's t-test|Student's t-test|||||||0.1542
92371404|NCT01814878|184646540|SUPERIORITY_OR_OTHER|||||||0.0714||||||Hour 12: P-value was calculated using Student's t-test|Student's t-test|||||||0.0714
92371405|NCT01814878|184646540|SUPERIORITY_OR_OTHER|||||||0.1147||||||Hour 24: P-value was calculated using Student's t-test|Student's t-test|||||||0.1147
92371406|NCT01814878|184646540|SUPERIORITY_OR_OTHER|||||||0.2209||||||Hour 48: P-value was calculated using Student's t-test|Student's t-test|||||||0.2209
92371407|NCT01814878|184646541|SUPERIORITY_OR_OTHER|||||||0.1498||||||Hour 6: P-value was calculated using Student's t-test|Student's t-test|||||||0.1498
92371408|NCT01814878|184646541|SUPERIORITY_OR_OTHER|||||||0.0485||||||Hour 12: P-value was calculated using Student's t-test|Student's t-test|||||||0.0485
92407709|NCT02015637|184705050|NON_INFERIORITY|Two-sided 95% confidence intervals (CIs) using the Wald test was constructed for comparisons between delafloxacin and ceftriaxone. A hierarchical approach was implemented for the primary and secondary analyses to control for the overall type 1 error rate of 0.05 due to multiple comparisons.|Difference in cure rate|-5.9|||||TWO_SIDED|95.0|-13.18|1.36||||||||1.36|-13.18|
92407710|NCT02015637|184705051|NON_INFERIORITY|Two-sided 95% confidence intervals (CIs) using the Wald test was constructed for comparisons between delafloxacin and ceftriaxone. A hierarchical approach was implemented for the primary and secondary analyses to control for the overall type 1 error rate of 0.05 due to multiple comparisons.|Difference in cure rates|-9.9|||||TWO_SIDED|95.0|-16.03|-3.87||||||||-3.87|-16.03|
92407711|NCT02863419|184705060|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand). A value of 0.4% (the non-inferiority margin) was added to imputed values at week 26 for the oral semaglutide treatment arm only.|Mean treatment difference|-0.1|||<|0.0001|TWO_SIDED|95.0|-0.3|0.0||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin. The non-inferiority margin was 0.4%|Pattern mixture model||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.0|-0.3|<0.0001
92371409|NCT01814878|184646541|SUPERIORITY_OR_OTHER|||||||0.0404||||||Hour 24: P-value was calculated using Student's t-test|Student's t-test|||||||0.0404
92371410|NCT01814878|184646541|SUPERIORITY_OR_OTHER|||||||0.121||||||Hour 48: P-value was calculated using Student's t-test|Student's t-test|||||||0.1210
92371411|NCT01814878|184646542|SUPERIORITY_OR_OTHER|||||||0.4216||||||P-value was calculated using Mann-Whitney's U test.|Wilcoxon (Mann-Whitney)|||||||0.4216
92371412|NCT01814878|184646543|SUPERIORITY_OR_OTHER|||||||0.1||||||P-value was calculated using Mann-Whitney's U test.|Wilcoxon (Mann-Whitney)|||||||0.1000
92371413|NCT01814878|184646544|SUPERIORITY_OR_OTHER|||||||0.3255||||||P-value was calculated using Mann-Whitney's U test.|Wilcoxon (Mann-Whitney)|||||||0.3255
92371414|NCT01814878|184646545|SUPERIORITY_OR_OTHER|||||||0.2848||||||Day 3: P-value was calculated using student's t-test|Student's t-test|||||||0.2848
92371415|NCT04115748|184646553|SUPERIORITY||Difference in response rates|32.1||||0.048|TWO_SIDED|95.0|2.6|61.6||The stratification factors (Geographic Region, Concurrent Use of conventional synthetic (cs) DMARD(s) and/or Apremilast at Randomization, Prior Use of biologic (bio) DMARD(s)) and treatment groups were included in the imputation model as covariates.|Multiple imputation method|||||61.6|2.6|0.048
92371416|NCT04115748|184646553|SUPERIORITY||Difference in response rates|18.4||||0.23|TWO_SIDED|95.0|-12.4|49.2||The stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) and treatment groups were included in the imputation model as covariates.|Multiple imputation method|||||49.2|-12.4|0.23
92371417|NCT04115748|184646555|SUPERIORITY||Difference in response rates|16.1||||0.17|TWO_SIDED|95.0|-9.7|41.9||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||41.9|-9.7|0.17
92371418|NCT04115748|184646555|SUPERIORITY||Difference in response rates|11.7||||0.27|TWO_SIDED|95.0|-13.3|36.6||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||36.6|-13.3|0.27
92371419|NCT04115748|184646555|SUPERIORITY||Difference in response rates|10.5||||0.42|TWO_SIDED|95.0|-20.4|41.5||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||41.5|-20.4|0.42
92371420|NCT04115748|184646555|SUPERIORITY||Difference in response rates|15.8||||0.26|TWO_SIDED|95.0|-16.0|47.6||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||47.6|-16.0|0.26
92371421|NCT04115748|184646555|SUPERIORITY||Difference in response rates|28.7||||0.062|TWO_SIDED|95.0|-5.0|62.3||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||62.3|-5.0|0.062
92371422|NCT04115748|184646555|SUPERIORITY||Difference in response rates|31.6||||0.047|TWO_SIDED|95.0|-1.5|64.6||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||64.6|-1.5|0.047
92168848|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.13||0.7328|TWO_SIDED|95.0|-0.31|0.22|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.22|-0.31|0.7328
92371423|NCT04115748|184646555|SUPERIORITY||Difference in response rates|7.8||||0.58|TWO_SIDED|95.0|-24.6|40.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||40.2|-24.6|0.58
92371424|NCT04115748|184646555|SUPERIORITY||Difference in response rates|16.8||||0.27|TWO_SIDED|95.0|-16.2|49.9||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||49.9|-16.2|0.27
92371425|NCT04115748|184646556|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-9.9|20.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||20.4|-9.9|
92371426|NCT04115748|184646556|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-5.3|5.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||5.3|-5.3|
92371427|NCT04115748|184646556|SUPERIORITY||Difference in response rates|-5.3|||||TWO_SIDED|95.0|-27.6|17.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||17.1|-27.6|
92371428|NCT04115748|184646556|SUPERIORITY||Difference in response rates|-10.5|||||TWO_SIDED|95.0|-29.6|8.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||8.5|-29.6|
92371429|NCT04115748|184646556|SUPERIORITY||Difference in response rates|5.8|||||TWO_SIDED|95.0|-17.2|28.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||28.9|-17.2|
92371430|NCT04115748|184646556|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-19.5|19.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||19.5|-19.5|
92371431|NCT04115748|184646556|SUPERIORITY||Difference in response rates|5.6|||||TWO_SIDED|95.0|-10.3|21.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||21.4|-10.3|
92371432|NCT04115748|184646556|SUPERIORITY||Difference in response rates|10.5|||||TWO_SIDED|95.0|-8.4|29.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||29.5|-8.4|
92371433|NCT04115748|184646562|SUPERIORITY||Difference in response rates|16.1|||||TWO_SIDED|95.0|-9.7|41.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||41.9|-9.7|
92371434|NCT04115748|184646562|SUPERIORITY||Difference in response rates|6.1|||||TWO_SIDED|95.0|-16.5|28.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||28.8|-16.5|
92407712|NCT02863419|184705060|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.1||||0.0645|TWO_SIDED|95.0|-0.3|0.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.0|-0.3|0.0645
92371435|NCT04115748|184646562|SUPERIORITY||Difference in response rates|23.9|||||TWO_SIDED|95.0|-8.8|56.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||56.6|-8.8|
92371436|NCT04115748|184646562|SUPERIORITY||Difference in response rates|27.1|||||TWO_SIDED|95.0|-5.2|59.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||59.4|-5.2|
92371437|NCT04115748|184646563|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-5.1|5.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||5.1|-5.1|
92371438|NCT04115748|184646563|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-5.3|5.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||5.3|-5.3|
92371439|NCT04115748|184646563|SUPERIORITY||Difference in response rates|11.7|||||TWO_SIDED|95.0|-13.3|36.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||36.6|-13.3|
92371440|NCT04115748|184646563|SUPERIORITY||Difference in response rates|5.5|||||TWO_SIDED|95.0|-16.4|27.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||27.4|-16.4|
92371441|NCT04115748|184646564|SUPERIORITY||Difference in response rates|15.8||||0.2|TWO_SIDED|95.0|-13.6|45.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||45.2|-13.6|0.20
92371442|NCT04115748|184646564|SUPERIORITY||Difference in response rates|-5.0||||0.6|TWO_SIDED|95.0|-27.8|17.8||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||17.8|-27.8|0.60
92371443|NCT04115748|184646564|SUPERIORITY||Difference in response rates|42.6||||0.008|TWO_SIDED|95.0|11.5|73.8||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||73.8|11.5|0.008
92371444|NCT04115748|184646564|SUPERIORITY||Difference in response rates|17.8||||0.17|TWO_SIDED|95.0|-12.0|47.6||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||47.6|-12.0|0.17
92371445|NCT04115748|184646564|SUPERIORITY||Difference in response rates|42.1||||0.011|TWO_SIDED|95.0|8.1|76.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||76.2|8.1|0.011
92371446|NCT04115748|184646564|SUPERIORITY||Difference in response rates|5.3||||0.69|TWO_SIDED|95.0|-30.1|40.6||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||40.6|-30.1|0.69
92371447|NCT04115748|184646564|SUPERIORITY||Difference in response rates|35.7||||0.033|TWO_SIDED|95.0|0.9|70.4||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||70.4|0.9|0.033
92371448|NCT04115748|184646564|SUPERIORITY||Difference in response rates|21.1||||0.19|TWO_SIDED|95.0|-15.2|57.4||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||57.4|-15.2|0.19
92371449|NCT04115748|184646564|SUPERIORITY||Difference in response rates|43.9||||0.007|TWO_SIDED|95.0|12.4|75.4||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||75.4|12.4|0.007
92371450|NCT04115748|184646564|SUPERIORITY||Difference in response rates|7.6||||0.63|TWO_SIDED|95.0|-28.8|44.1||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||44.1|-28.8|0.63
92371451|NCT04115748|184646565|SUPERIORITY||Difference in response rates|0.0||||0.98|TWO_SIDED|95.0|-19.5|19.5||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||19.5|-19.5|0.98
92371452|NCT04115748|184646565|SUPERIORITY||Difference in response rates|-5.3||||0.5|TWO_SIDED|95.0|-20.7|10.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||10.2|-20.7|0.50
92371453|NCT04115748|184646565|SUPERIORITY||Difference in response rates|5.5||||0.54|TWO_SIDED|95.0|-16.4|27.4||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||27.4|-16.4|0.54
92371454|NCT04115748|184646565|SUPERIORITY||Difference in response rates|0.6||||0.92|TWO_SIDED|95.0|-19.0|20.1||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||20.1|-19.0|0.92
92371455|NCT04115748|184646565|SUPERIORITY||Difference in response rates|21.1||||0.13|TWO_SIDED|95.0|-9.3|51.4||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||51.4|-9.3|0.13
92446273|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.6311|TWO_SIDED|95.0|-0.52|0.32|||MMRM|||Genital Symptoms, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.52|0.6311
92371456|NCT04115748|184646565|SUPERIORITY||Difference in response rates|15.8||||0.22|TWO_SIDED|95.0|-13.6|45.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||45.2|-13.6|0.22
92371457|NCT04115748|184646565|SUPERIORITY||Difference in response rates|45.0||||0.007|TWO_SIDED|95.0|12.8|77.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||77.2|12.8|0.007
92371458|NCT04115748|184646565|SUPERIORITY||Difference in response rates|31.6||||0.039|TWO_SIDED|95.0|0.2|63.0||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||63.0|0.2|0.039
92371459|NCT04115748|184646565|SUPERIORITY||Difference in response rates|12.8||||0.34|TWO_SIDED|95.0|-18.4|44.0||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||44.0|-18.4|0.34
92371460|NCT04115748|184646565|SUPERIORITY||Difference in response rates|32.4||||0.04|TWO_SIDED|95.0|-0.1|64.9||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||64.9|-0.1|0.040
92371461|NCT04115748|184646566|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-10.0|20.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||20.6|-10.0|
92371462|NCT04115748|184646566|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-5.4|5.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||5.4|-5.4|
92371463|NCT04115748|184646566|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-9.9|20.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||20.4|-9.9|
92371464|NCT04115748|184646566|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-5.3|5.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||5.3|-5.3|
92371465|NCT04115748|184646566|SUPERIORITY||Difference in response rates|10.5|||||TWO_SIDED|95.0|-14.0|35.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||35.0|-14.0|
92371466|NCT04115748|184646566|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-17.1|27.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||27.6|-17.1|
92371467|NCT04115748|184646566|SUPERIORITY||Difference in response rates|27.8|||||TWO_SIDED|95.0|1.7|53.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||53.9|1.7|
92371468|NCT04115748|184646566|SUPERIORITY||Difference in response rates|26.3|||||TWO_SIDED|95.0|1.3|51.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||51.4|1.3|
92371469|NCT04115748|184646566|SUPERIORITY||Difference in response rates|12.2|||||TWO_SIDED|95.0|-16.3|40.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||40.8|-16.3|
92371470|NCT04115748|184646566|SUPERIORITY||Difference in response rates|21.6|||||TWO_SIDED|95.0|-8.2|51.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||51.4|-8.2|
92371471|NCT04115748|184646574|SUPERIORITY||Difference in response rates|-10.5|||||TWO_SIDED|95.0|-46.3|25.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||25.2|-46.3|
92371472|NCT04115748|184646574|SUPERIORITY||Difference in response rates|-8.8|||||TWO_SIDED|95.0|-45.3|27.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||27.7|-45.3|
92407713|NCT02863419|184705060|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.9||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.9|-1.2|<0.0001
92371473|NCT04115748|184646574|SUPERIORITY||Difference in response rates|11.8|||||TWO_SIDED|95.0|-22.1|45.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||45.8|-22.1|
92371474|NCT04115748|184646574|SUPERIORITY||Difference in response rates|19.4|||||TWO_SIDED|95.0|-15.6|54.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||54.5|-15.6|
92371475|NCT04115748|184646574|SUPERIORITY||Difference in response rates|10.5|||||TWO_SIDED|95.0|-26.0|47.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||47.0|-26.0|
92371476|NCT04115748|184646574|SUPERIORITY||Difference in response rates|10.5|||||TWO_SIDED|95.0|-26.0|47.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||47.0|-26.0|
92371477|NCT04115748|184646574|SUPERIORITY||Difference in response rates|29.8|||||TWO_SIDED|95.0|-6.3|66.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||66.0|-6.3|
92371478|NCT04115748|184646574|SUPERIORITY||Difference in response rates|31.6|||||TWO_SIDED|95.0|-3.8|67.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||67.0|-3.8|
92371479|NCT04115748|184646574|SUPERIORITY||Difference in response rates|5.0|||||TWO_SIDED|95.0|-32.0|42.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||42.0|-32.0|
92371480|NCT04115748|184646574|SUPERIORITY||Difference in response rates|39.2|||||TWO_SIDED|95.0|6.8|71.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||71.6|6.8|
92371481|NCT04115748|184646575|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-24.8|24.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||24.8|-24.8|
92371482|NCT04115748|184646575|SUPERIORITY||Difference in response rates|0.6|||||TWO_SIDED|95.0|-24.9|26.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||26.0|-24.9|
92371483|NCT04115748|184646575|SUPERIORITY||Difference in response rates|-4.5|||||TWO_SIDED|95.0|-30.5|21.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||21.5|-30.5|
92371484|NCT04115748|184646575|SUPERIORITY||Difference in response rates|12.8|||||TWO_SIDED|95.0|-18.4|44.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||44.0|-18.4|
92371485|NCT04115748|184646575|SUPERIORITY||Difference in response rates|21.1|||||TWO_SIDED|95.0|-14.1|56.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||56.3|-14.1|
92371486|NCT04115748|184646575|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-33.3|33.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||33.3|-33.3|
92371487|NCT04115748|184646575|SUPERIORITY||Difference in response rates|34.5|||||TWO_SIDED|95.0|-0.3|69.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||69.3|-0.3|
92371488|NCT04115748|184646575|SUPERIORITY||Difference in response rates|21.1|||||TWO_SIDED|95.0|-13.0|55.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||55.1|-13.0|
92407714|NCT02863419|184705060|NON_INFERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.2|||<|0.0001|TWO_SIDED|95.0|-0.3|-0.1||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.4%.|MMRM||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.1|-0.3|<0.0001
92371489|NCT04115748|184646575|SUPERIORITY||Difference in response rates|24.4|||||TWO_SIDED|95.0|-9.7|58.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||58.6|-9.7|
92371490|NCT04115748|184646575|SUPERIORITY||Difference in response rates|32.6|||||TWO_SIDED|95.0|-1.0|66.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||66.2|-1.0|
92371491|NCT04115748|184646577|SUPERIORITY||Difference in response rates|-15.8|||||TWO_SIDED|95.0|-47.6|16.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||16.0|-47.6|
92371492|NCT04115748|184646577|SUPERIORITY||Difference in response rates|-20.5|||||TWO_SIDED|95.0|-51.3|10.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||10.4|-51.3|
92371493|NCT04115748|184646577|SUPERIORITY||Difference in response rates|6.6|||||TWO_SIDED|95.0|-26.8|39.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||39.9|-26.8|
92371494|NCT04115748|184646577|SUPERIORITY||Difference in response rates|13.9|||||TWO_SIDED|95.0|-20.8|48.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||48.6|-20.8|
92371495|NCT04115748|184646577|SUPERIORITY||Difference in response rates|15.8|||||TWO_SIDED|95.0|-20.7|52.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||52.3|-20.7|
92371496|NCT04115748|184646577|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-31.0|41.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||41.6|-31.0|
92371497|NCT04115748|184646577|SUPERIORITY||Difference in response rates|24.3|||||TWO_SIDED|95.0|-12.4|60.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||60.9|-12.4|
92371498|NCT04115748|184646577|SUPERIORITY||Difference in response rates|21.1|||||TWO_SIDED|95.0|-15.2|57.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||57.4|-15.2|
92371499|NCT04115748|184646577|SUPERIORITY||Difference in response rates|4.4|||||TWO_SIDED|95.0|-32.3|41.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||41.2|-32.3|
92371500|NCT04115748|184646577|SUPERIORITY||Difference in response rates|23.2|||||TWO_SIDED|95.0|-12.5|58.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||58.8|-12.5|
92371501|NCT04115748|184646578|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-19.5|19.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||19.5|-19.5|
92371502|NCT04115748|184646578|SUPERIORITY||Difference in response rates|-5.3|||||TWO_SIDED|95.0|-20.7|10.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||10.2|-20.7|
92371503|NCT04115748|184646578|SUPERIORITY||Difference in response rates|0.3|||||TWO_SIDED|95.0|-18.7|19.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||19.3|-18.7|
92371504|NCT04115748|184646578|SUPERIORITY||Difference in response rates|0.6|||||TWO_SIDED|95.0|-19.0|20.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||20.1|-19.0|
92371505|NCT04115748|184646578|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-24.8|24.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||24.8|-24.8|
92371506|NCT04115748|184646578|SUPERIORITY||Difference in response rates|-5.3|||||TWO_SIDED|95.0|-27.6|17.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||17.1|-27.6|
92371507|NCT04115748|184646578|SUPERIORITY||Difference in response rates|17.0|||||TWO_SIDED|95.0|-10.1|44.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||44.0|-10.1|
92371508|NCT04115748|184646578|SUPERIORITY||Difference in response rates|26.3|||||TWO_SIDED|95.0|-2.1|54.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||54.8|-2.1|
92371509|NCT04115748|184646578|SUPERIORITY||Difference in response rates|6.7|||||TWO_SIDED|95.0|-20.3|33.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||33.6|-20.3|
92371510|NCT04115748|184646578|SUPERIORITY||Difference in response rates|11.1|||||TWO_SIDED|95.0|-16.6|38.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||38.7|-16.6|
92371511|NCT04115748|184646580|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-34.8|34.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||34.8|-34.8|
92371512|NCT04115748|184646580|SUPERIORITY||Difference in response rates|-14.9|||||TWO_SIDED|95.0|-47.4|17.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||17.6|-47.4|
92371513|NCT04115748|184646580|SUPERIORITY||Difference in response rates|27.9|||||TWO_SIDED|95.0|-7.2|63.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||63.0|-7.2|
92371514|NCT04115748|184646580|SUPERIORITY||Difference in response rates|8.9|||||TWO_SIDED|95.0|-26.6|44.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||44.3|-26.6|
92371515|NCT04115748|184646580|SUPERIORITY||Difference in response rates|21.1|||||TWO_SIDED|95.0|-13.0|55.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||55.1|-13.0|
92371516|NCT04115748|184646580|SUPERIORITY||Difference in response rates|-10.5|||||TWO_SIDED|95.0|-47.4|26.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||26.3|-47.4|
92371517|NCT04115748|184646580|SUPERIORITY||Difference in response rates|24.9|||||TWO_SIDED|95.0|-11.1|60.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||60.8|-11.1|
92371518|NCT04115748|184646580|SUPERIORITY||Difference in response rates|21.1|||||TWO_SIDED|95.0|-14.9|57.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||57.0|-14.9|
92371519|NCT04115748|184646580|SUPERIORITY||Difference in response rates|43.9|||||TWO_SIDED|95.0|12.4|75.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||75.4|12.4|
92371520|NCT04115748|184646580|SUPERIORITY||Difference in response rates|12.9|||||TWO_SIDED|95.0|-23.4|49.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||49.1|-23.4|
92371521|NCT04115748|184646582|SUPERIORITY||Difference in response rates|37.5|||||TWO_SIDED|95.0|-14.8|89.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||89.8|-14.8|
92371522|NCT04115748|184646582|SUPERIORITY||Difference in response rates|40.0|||||TWO_SIDED|95.0|-25.4|100.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||100.0|-25.4|
92371523|NCT04115748|184646582|SUPERIORITY||Difference in response rates|-25.0|||||TWO_SIDED|95.0|-100.0|51.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||51.2|-100.0|
92371524|NCT04115748|184646582|SUPERIORITY||Difference in response rates|-10.0|||||TWO_SIDED|95.0|-97.7|77.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||77.7|-97.7|
92371525|NCT04115748|184646582|SUPERIORITY||Difference in response rates|7.1|||||TWO_SIDED|95.0|-73.7|88.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||88.0|-73.7|
92371526|NCT04115748|184646582|SUPERIORITY||Difference in response rates|-10.0|||||TWO_SIDED|95.0|-97.7|77.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||77.7|-97.7|
92407715|NCT02863419|184705060|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.2||||0.0056|TWO_SIDED|95.0|-0.3|-0.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.1|-0.3|0.0056
92407716|NCT02863419|184705060|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-1.2||||0.0001|TWO_SIDED|95.0|-1.4|-1.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.0|-1.4|0.0001
92407717|NCT02863419|184705061|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-1.2||||0.0003|TWO_SIDED|95.0|-1.9|-0.6||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.6|-1.9|0.0003
92407718|NCT02863419|184705061|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-3.8|||<|0.0001|TWO_SIDED|95.0|-4.7|-3.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-3.0|-4.7|<0.0001
92371527|NCT04115748|184646582|SUPERIORITY||Difference in response rates|37.5|||||TWO_SIDED|95.0|-35.3|100.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||100.0|-35.3|
92371528|NCT04115748|184646582|SUPERIORITY||Difference in response rates|15.0|||||TWO_SIDED|95.0|-67.9|97.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||97.9|-67.9|
92371529|NCT04115748|184646583|SUPERIORITY||Difference in response rates|12.5|||||TWO_SIDED|95.0|-29.2|54.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||54.2|-29.2|
92371530|NCT04115748|184646583|SUPERIORITY||Difference in response rates|20.0|||||TWO_SIDED|95.0|-37.6|77.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||77.6|-37.6|
92371531|NCT04115748|184646583|SUPERIORITY||Difference in response rates|25.0|||||TWO_SIDED|95.0|-23.8|73.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||73.8|-23.8|
92371532|NCT04115748|184646583|SUPERIORITY||Difference in response rates|40.0|||||TWO_SIDED|95.0|-25.4|100.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||100.0|-25.4|
92371533|NCT04115748|184646583|SUPERIORITY||Difference in response rates|42.9|||||TWO_SIDED|95.0|-13.4|99.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||99.2|-13.4|
92371534|NCT04115748|184646583|SUPERIORITY||Difference in response rates|40.0|||||TWO_SIDED|95.0|-25.4|100.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||100.0|-25.4|
92371535|NCT04115748|184646583|SUPERIORITY||Difference in response rates|37.5|||||TWO_SIDED|95.0|-35.3|100.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||100.0|-35.3|
92371536|NCT04115748|184646583|SUPERIORITY||Difference in response rates|-5.0|||||TWO_SIDED|95.0|-82.5|72.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||72.5|-82.5|
92371537|NCT04115748|184646584|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-18.8|18.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||18.8|-18.8|
92371538|NCT04115748|184646584|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.5|22.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||22.5|-22.5|
92371539|NCT04115748|184646584|SUPERIORITY||Difference in response rates|12.5|||||TWO_SIDED|95.0|-29.2|54.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||54.2|-29.2|
92371540|NCT04115748|184646584|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.5|22.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||22.5|-22.5|
92371541|NCT04115748|184646584|SUPERIORITY||Difference in response rates|14.3|||||TWO_SIDED|95.0|-31.3|59.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||59.9|-31.3|
92407719|NCT02863419|184705061|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.2|-0.9||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.9|-2.2|<0.0001
92371542|NCT04115748|184646584|SUPERIORITY||Difference in response rates|20.0|||||TWO_SIDED|95.0|-37.6|77.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||77.6|-37.6|
92371543|NCT04115748|184646584|SUPERIORITY||Difference in response rates|25.0|||||TWO_SIDED|95.0|-23.8|73.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||73.8|-23.8|
92371544|NCT04115748|184646584|SUPERIORITY||Difference in response rates|20.0|||||TWO_SIDED|95.0|-37.6|77.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||77.6|-37.6|
92371545|NCT04115748|184646585|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-18.8|18.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||18.8|-18.8|
92371546|NCT04115748|184646585|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.5|22.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||22.5|-22.5|
92371547|NCT04115748|184646585|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-18.8|18.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||18.8|-18.8|
92371548|NCT04115748|184646585|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.5|22.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||22.5|-22.5|
92371549|NCT04115748|184646585|SUPERIORITY||Difference in response rates|14.3|||||TWO_SIDED|95.0|-31.3|59.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||59.9|-31.3|
92371550|NCT04115748|184646585|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.5|22.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||22.5|-22.5|
92371551|NCT04115748|184646585|SUPERIORITY||Difference in response rates|12.5|||||TWO_SIDED|95.0|-29.2|54.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||54.2|-29.2|
92371552|NCT04115748|184646585|SUPERIORITY||Difference in response rates|20.0|||||TWO_SIDED|95.0|-37.6|77.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||77.6|-37.6|
92371553|NCT04115748|184646589|SUPERIORITY||LS Mean Treatment Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.104||0.94|TWO_SIDED|95.0|-0.22|0.2||P-value was calculated from mixed-effects model for repeated measures (MMRM) including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 2||0.20|-0.22|0.94
92371554|NCT04115748|184646589|SUPERIORITY||LS Mean Treatment Difference|0.03|STANDARD_ERROR_OF_MEAN|0.105||0.81|TWO_SIDED|95.0|-0.18|0.24||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 2||0.24|-0.18|0.81
92371555|NCT04115748|184646589|SUPERIORITY||LS Mean Treatment Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.112||0.13|TWO_SIDED|95.0|-0.39|0.05||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||0.05|-0.39|0.13
92371556|NCT04115748|184646589|SUPERIORITY||LS Mean Treatment Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.113||0.073|TWO_SIDED|95.0|-0.43|0.02||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||0.02|-0.43|0.073
92371557|NCT04115748|184646589|SUPERIORITY||LS Mean Treatment Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.124||0.083|TWO_SIDED|95.0|-0.46|0.03||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 8||0.03|-0.46|0.083
92371558|NCT04115748|184646589|SUPERIORITY||LS Mean Treatment Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.124||0.28|TWO_SIDED|95.0|-0.38|0.11||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 8||0.11|-0.38|0.28
92371559|NCT04115748|184646589|SUPERIORITY||LS Mean Treatment Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.13||0.038|TWO_SIDED|95.0|-0.54|-0.02||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 12||-0.02|-0.54|0.038
92371560|NCT04115748|184646589|SUPERIORITY||LS Mean Treatment Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.129||0.25|TWO_SIDED|95.0|-0.41|0.11||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 12||0.11|-0.41|0.25
92371561|NCT04115748|184646589|SUPERIORITY||LS Mean Treatment Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.139||0.41|TWO_SIDED|95.0|-0.39|0.16||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||0.16|-0.39|0.41
92371562|NCT04115748|184646589|SUPERIORITY||LS Mean Treatment Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.138||0.26|TWO_SIDED|95.0|-0.43|0.12||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||0.12|-0.43|0.26
92371563|NCT04115748|184646590|SUPERIORITY||LS Mean Treatment Difference|3.4|STANDARD_ERROR_OF_MEAN|2.26||0.14|TWO_SIDED|95.0|-1.1|7.9||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||7.9|-1.1|0.14
92371564|NCT04115748|184646590|SUPERIORITY||LS Mean Treatment Difference|3.1|STANDARD_ERROR_OF_MEAN|2.3||0.18|TWO_SIDED|95.0|-1.5|7.7||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||7.7|-1.5|0.18
92371565|NCT04115748|184646590|SUPERIORITY||LS Mean Treatment Difference|3.7|STANDARD_ERROR_OF_MEAN|2.53||0.15|TWO_SIDED|95.0|-1.4|8.7||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||8.7|-1.4|0.15
92371566|NCT04115748|184646590|SUPERIORITY||LS Mean Treatment Difference|4.8|STANDARD_ERROR_OF_MEAN|2.54||0.062|TWO_SIDED|95.0|-0.3|9.9||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||9.9|-0.3|0.062
92371567|NCT04115748|184646592|SUPERIORITY||LS Mean Treatment Difference|5.3|STANDARD_ERROR_OF_MEAN|1.68||0.003|TWO_SIDED|95.0|1.9|8.6||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||8.6|1.9|0.003
92371568|NCT04115748|184646592|SUPERIORITY||LS Mean Treatment Difference|4.9|STANDARD_ERROR_OF_MEAN|1.71||0.006|TWO_SIDED|95.0|1.5|8.3||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||8.3|1.5|0.006
92371569|NCT04115748|184646592|SUPERIORITY||LS Mean Treatment Difference|3.8|STANDARD_ERROR_OF_MEAN|2.09||0.076|TWO_SIDED|95.0|-0.4|8.0||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||8.0|-0.4|0.076
92371570|NCT04115748|184646592|SUPERIORITY||LS Mean Treatment Difference|3.5|STANDARD_ERROR_OF_MEAN|2.1||0.1|TWO_SIDED|95.0|-0.7|7.7||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||7.7|-0.7|0.10
92371571|NCT01200407|184646594|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-35.8||||0|TWO_SIDED|95.0|-37.2|-34.4|||t-test, 2 sided|||SBP with LOCF (Week 12)||-34.4|-37.2|0.000
92371572|NCT01200407|184646594|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-19.4||||0|TWO_SIDED|95.0|-20.3|-18.6|||t-test, 2 sided|||DBP with LOCF (Week 12)||-18.6|-20.3|0.000
92371573|NCT01200407|184646595|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-24.7||||0|TWO_SIDED|95.0|-26.1|-23.4|||t-test, 2 sided|||SBP w/o LOCF (Week 4)||-23.4|-26.1|0.000
92371574|NCT01200407|184646595|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-33.0||||0|TWO_SIDED|95.0|-34.4|-31.6|||t-test, 2 sided|||SBP w/o LOCF (Week 8)||-31.6|-34.4|0.000
92371575|NCT01200407|184646595|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-36.3||||0|TWO_SIDED|95.0|-37.9|-34.7|||t-test, 2 sided|||SBP w/o LOCF (Week 12)||-34.7|-37.9|0.000
92407720|NCT02863419|184705061|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-4.0|||<|0.0001|TWO_SIDED|95.0|-4.8|-3.2||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral sema 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-3.2|-4.8|<0.0001
92407721|NCT02863419|184705082|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.17||||0.4915|TWO_SIDED|95.0|0.75|1.8||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Liraglutide 1.8 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.80|0.75|0.4915
92407722|NCT02863419|184705082|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.32|||<|0.0001|TWO_SIDED|95.0|0.21|0.48||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.48|0.21|<0.0001
92407723|NCT02863419|184705083|SUPERIORITY|This hypothesis was not controlled for multiplicity|Hazard Ratio (HR)|1.17||||0.6252|TWO_SIDED|95.0|0.62|2.22||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Liraglutide 1.8 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||2.22|0.62|0.6252
92407724|NCT02863419|184705083|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.15|||<|0.0001|TWO_SIDED|95.0|0.09|0.26||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.26|0.09|<0.0001
92407725|NCT01317277|184705111|SUPERIORITY|||||||0.68||||||In between-group analyses, overall MEMS adherence was defined as % of doses taken.|Wilcoxon (Mann-Whitney)|Non-parametric methods.||Randomization strategy for target 75 participants of 2:1 \[iTAB(n=50):CTRL(n=25)\], resulting in 80% power to detect effect size of .71 for difference of adherence rates between groups (Wilcoxon-Mann-Whitney critical t=1.99, df=69.6). Final # analyzed: iTAB (n=43) \& CTRL (n=23).||||0.68
92407726|NCT01317277|184705112|SUPERIORITY|||||||0.95||||||MEMS adherence based on dose timing was examined for between-group differences.|Wilcoxon (Mann-Whitney)|Non-parametric methods||Randomization strategy for target 75 participants of 2:1 \[iTAB(n=50):CTRL(n=25)\], resulting in 80% power to detect effect size of .71 for difference of adherence rates between groups (Wilcoxon-Mann-Whitney critical t=1.99, df=69.6). Final # analyzed: iTAB (n=43) \& CTRL (n=23).||||0.95
92407727|NCT01317277|184705113|SUPERIORITY|||||||0.05||||||Z = -1.97|Wilcoxon (Mann-Whitney)|Non-parametric methods; P-Value is calculated.||Text-reported METH use days||||0.05
92407728|NCT02688777|184705114|SUPERIORITY||Hazard Ratio, log|0.6|||||TWO_SIDED|||||||||||||
92407729|NCT02688777|184705115|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.37|TWO_SIDED|||||A priori threshold for significance is p \< 0.05.|t-test, 2 sided|||||||0.37
92407730|NCT02688777|184705116|SUPERIORITY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.02||0.13|TWO_SIDED|||||A priori threshold set for p \< 0.05|t-test, 2 sided|||||||0.13
92407731|NCT02688777|184705117|SUPERIORITY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|1.0||0.4|TWO_SIDED|||||A priori threshold p \< 0.05 for statistical significance.|t-test, 2 sided|||||||0.40
92407732|NCT02688777|184705118|SUPERIORITY||Mean Difference (Final Values)|5.7|STANDARD_ERROR_OF_MEAN|3.4||0.12|TWO_SIDED||||||t-test, 2 sided|||||||0.12
92407733|NCT02688777|184705119|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|1.1||0.43|TWO_SIDED|||||A priori threshold set at p \< 0.05 for statistical significance.|t-test, 2 sided|||||||0.43
92407734|NCT02688777|184705120|SUPERIORITY||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|0.8||0.02|TWO_SIDED|||||A prior threshold for significance set at p \< 0.05|t-test, 2 sided|||||||0.02
92407735|NCT02688777|184705121|SUPERIORITY||Mean Difference (Final Values)|13.95|STANDARD_ERROR_OF_MEAN|8.9||0.28|TWO_SIDED||||||t-test, 2 sided|||||||0.28
92407736|NCT02688777|184705122|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.22|TWO_SIDED||||||t-test, 2 sided|||||||0.22
92407737|NCT02688777|184705123|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.10
92407738|NCT02688777|184705124|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92407739|NCT02688777|184705125|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
92371576|NCT01200407|184646595|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-13.2||||0|TWO_SIDED|95.0|-14.0|-12.4|||t-test, 2 sided|||DBP w/o LOCF (Week 4)||-12.4|-14.0|0.000
92371577|NCT01200407|184646595|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-17.6||||0|TWO_SIDED|95.0|-18.4|-16.7|||t-test, 2 sided|||DBP w/o LOCF (Week 8)||-16.7|-18.4|0.000
92371578|NCT01200407|184646595|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-19.9||||0|TWO_SIDED|95.0|-20.8|-18.9|||t-test, 2 sided|||DBP w/o LOCF (Week 12)||-18.9|-20.8|0.000
92371579|NCT00152477|184646597|SUPERIORITY||Difference of response rate|6.4|||=|0.384|TWO_SIDED|95.0|-7.7|20.5||Two-sided Chi-square test. Fisher's Exact test presented when number of responders in a treatment group is \<5.|Cochran-Mantel-Haenszel|||||20.5|-7.7|=0.384
92371580|NCT00152477|184646597|SUPERIORITY||Difference of response rate|6.4|||=|0.409||95.0|-7.7|20.5||CMH test stratified by country and disease stage (3 levels: Stage IIIb without malignant pleural effusion versus Stage IIIb with malignant pleural effusion or Stage IV or recurrent).|Cochran-Mantel-Haenszel|||||20.5|-7.7|=0.409
92371581|NCT00152477|184646597|SUPERIORITY||Difference of response rate|2.6|||=|0.744|TWO_SIDED|95.0|-13.5|18.8||Two-sided Chi-square test. Fisher's Exact test presented when number of responders in a treatment group is \< 5.|Chi-squared|||||18.8|-13.5|=0.744
92371582|NCT00152477|184646597|SUPERIORITY||Difference of response rate|2.6|||=|0.783|TWO_SIDED|95.0|-13.5|18.8||CMH test stratified by country and disease stage (3 levels: Stage IIIb without malignant pleural effusion versus Stage IIIb with malignant pleural effusion or Stage IV or recurrent).|Cochran-Mantel-Haenszel|||||18.8|-13.5|=0.783
92371583|NCT00152477|184646597|SUPERIORITY||Difference of response rate|10.2|||=|0.234|TWO_SIDED|95.0|-6.8|27.2||Two-sided Chi-square test. Fisher's Exact test presented when number of responders in a treatment group is \< 5.|Chi-squared|||||27.2|-6.8|=0.234
92371584|NCT00152477|184646597|SUPERIORITY||Difference of response rate|10.2|||=|0.228|TWO_SIDED|95.0|-6.8|27.2||CMH test stratified by country and disease stage (3 levels: Stage IIIb without malignant pleural effusion versus Stage IIIb with malignant pleural effusion or Stage IV or recurrent).|Cochran-Mantel-Haenszel|||||27.2|-6.8|=0.228
92407740|NCT02688777|184705126|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.28
92371585|NCT00123162|184646603|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.3|||<|0.001|TWO_SIDED|95.0|2.9|7.6|||ANCOVA|adjusted for baseline pain intensity (Visual Analog Scale (VAS) score).||With 26 subjects per treatment group and an assumed within-group standard deviation of 7 units, the study was designed to have 90% statistical power for a two-sided, 0.05 significance level test to detect a difference of 6.5 units in TOPAR4 between a single dose of 100 mg of sildenafil and placebo. However, we anticipated subject drop-out as high as 15%; therefore, we planned to recruit 31 subjects per treatment group.||7.6|2.9|<0.001
92371586|NCT00123162|184646604|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-42.6|||<|0.001|TWO_SIDED|95.0|-58.3|-26.8|||Mixed Models Analysis||Comparison of the VAS score at hour 4 (Sildenafil Citrate - Placebo)|||-26.8|-58.3|<.001
92407741|NCT02549365|184705127|OTHER||Odds Ratio (OR)|2.89|||||TWO_SIDED|95.0|0.6|13.9|||||Incidence of laboratory confirmed influenza is compared between those vaccinated and household controls. VE will be calculated as 1 - RR with 95% confidence intervals using Poisson regression.|||13.9|0.6|
92407742|NCT00912795|184705130|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.0|||||TWO_SIDED|95.0|0.62|6.3||||||||6.3|0.62|
92407743|NCT00912795|184705131|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3|||||TWO_SIDED|95.0|0.5|3.2||||||||3.2|0.50|
92371587|NCT01467037|184646703|SUPERIORITY_OR_OTHER||Adjusted OR|0.088|||||TWO_SIDED|95.0|0.02|0.384|||||Conditional logistic regression was used. Adjusted VE = (1 - adjusted OR) \*100|||0.384|0.020|
92371588|NCT01467037|184646703|SUPERIORITY_OR_OTHER||Adjusted OR|0.075|||||TWO_SIDED|95.0|0.018|0.307|||||Conditional logistic regression was used. Adjusted VE = (1 - adjusted OR) \*100|||0.307|0.018|
92371589|NCT01194089|184646712|SUPERIORITY_OR_OTHER|||||||0.828|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for the postoperative opioid use during the postanesthesia care unit (PACU) stay, using a one tailed P value.||||0.828
92371590|NCT01194089|184646712|SUPERIORITY_OR_OTHER|||||||0.752|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the arms for the first 24 hours postoperatively, using a one tailed P value.||||0.752
92371591|NCT01194089|184646713|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Chi-squared|||Comparison between the arms for antiemetic medication use in the PACU.||||0.002
92371592|NCT01194089|184646714|SUPERIORITY_OR_OTHER|||||||0.354|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The arms were compared for numeric pain score on admission.||||0.354
92371593|NCT01194089|184646714|SUPERIORITY_OR_OTHER|||||||0.492|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The arms were compared for numeric pain score at 30 minutes.||||0.492
92371594|NCT01194089|184646714|SUPERIORITY_OR_OTHER|||||||0.809|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The arms were compared for numeric pain score at 60 minutes.||||0.809
92371595|NCT01194089|184646714|SUPERIORITY_OR_OTHER|||||||0.381|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The arms were compared for numeric pain score at discharge.||||0.381
92407744|NCT00912795|184705132|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.5|||||TWO_SIDED|95.0|0.81|7.5||||||||7.5|0.81|
92407745|NCT00912795|184705133|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.0|||||TWO_SIDED|95.0|0.62|6.3||||||||6.3|.62|
92407746|NCT00297258|184705134|SUPERIORITY_OR_OTHER||percentage of participants|46.0||||0.653||90.0|11.0|47.6|||binomial exact method||The estimated value represents the percentage of participants with a CR, a PR, or SD.|||47.6|11.0|0.653
92407747|NCT00297258|184705134|SUPERIORITY_OR_OTHER||percentage of participants|41.0||||0.003||90.0|28.4|55.5|||binomial exact method||The estimated value represents the percentage of participants with a CR, a PR, or SD.|||55.5|28.4|0.003
92407748|NCT00297258|184705134|SUPERIORITY_OR_OTHER||percentage of participants|49.0|||<|0.001||90.0|34.3|63.2|||binomial exact method||The estimated value represents the percentage of participants with a CR, a PR, or SD.|||63.2|34.3|<0.001
92407749|NCT00297258|184705134|SUPERIORITY_OR_OTHER||percentage of participants|41.0||||0.003||90.0|28.4|55.5|||binomial exact method||The estimated value represents the percentage of participants with a CR, a PR, or SD.|||55.5|28.4|0.003
92371596|NCT03070171|184646715|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of AUC0-tz of free dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|108.46909|||||TWO_SIDED|90.0|101.44605|115.97833|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||115.97833|101.44605|
92371597|NCT03070171|184646716|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of Cmax of free dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|108.9587|||||TWO_SIDED|90.0|101.78627|116.63654|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||116.63654|101.78627|
92371598|NCT03070171|184646717|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of Cmax of free dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|107.61507|||||TWO_SIDED|90.0|100.61938|115.09714|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||115.09714|100.61938|
92371599|NCT03070171|184646718|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of Cmax of total dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|106.69566|||||TWO_SIDED|90.0|99.50139|114.4101|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||114.41010|99.50139|
92371600|NCT03070171|184646719|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of AUC0-∞ of total dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|107.83324|||||TWO_SIDED|90.0|101.25584|114.8379|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||114.83790|101.25584|
92371601|NCT03070171|184646720|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of AUC0-∞ of free dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|108.43158|||||TWO_SIDED|90.0|101.87254|115.41292|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||115.41292|101.87254|
92371602|NCT01626118|184646738|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|317.612|STANDARD_ERROR_OF_MEAN|149.6694||0.034|TWO_SIDED|95.0|23.297|611.926|||ANCOVA|||The p value was obtained from an analysis of covariance (ANCOVA) model that included treatment effect as the factor and baseline pain intensity as the covariate. This was the primary analysis of the primary efficacy parameter.||611.926|23.297|0.034
92371603|NCT01626118|184646738|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|342.132|STANDARD_ERROR_OF_MEAN|150.0397||0.023|TWO_SIDED|95.0|47.09|637.175|||ANCOVA|||The p value was obtained from an analysis of covariance (ANCOVA) model that included treatment effect as the factor and baseline pain intensity as the covariate. This was the primary analysis of the primary efficacy parameter.||637.175|47.090|0.023
92371604|NCT01626118|184646738|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|61.972|STANDARD_ERROR_OF_MEAN|150.2717||0.68|TWO_SIDED|95.0|-233.527|357.471|||ANCOVA|||The p value was obtained from an analysis of covariance (ANCOVA) model that included treatment effect as the factor and baseline pain intensity as the covariate. This was the primary analysis of the primary efficacy parameter.||357.471|-233.527|0.680
92371605|NCT01626118|184646738|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|503.008|STANDARD_ERROR_OF_MEAN|102.3149|<|0.001|TWO_SIDED|95.0|301.93|704.086|||Mixed Models Analysis|||"The p value was obtained from a mixed-model repeated-measure (MMRM) model that used all available data from all subjects to derive an estimate of pain intensity scores for subjects following study withdrawal, rather than imputing a score for individual subjects. The MMRM analysis was a sensitivity analysis of the primary efficacy parameter."||704.086|301.930|<0.001
92371606|NCT01626118|184646738|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|511.357|STANDARD_ERROR_OF_MEAN|102.5851|<|0.001|TWO_SIDED|95.0|309.749|712.965|||Mixed Models Analysis|||"The p value was obtained from a mixed-model repeated-measure (MMRM) model that used all available data from all subjects to derive an estimate of pain intensity scores for subjects following study withdrawal, rather than imputing a score for individual subjects. The MMRM analysis was a sensitivity analysis of the primary efficacy parameter."||712.965|309.749|<0.001
92371607|NCT01626118|184646738|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|341.232|STANDARD_ERROR_OF_MEAN|102.7761|<|0.001|TWO_SIDED|95.0|139.249|543.215|||Mixed Models Analysis|||"The p value was obtained from a mixed-model repeated-measure (MMRM) model that used all available data from all subjects to derive an estimate of pain intensity scores for subjects following study withdrawal, rather than imputing a score for individual subjects. The MMRM analysis was a sensitivity analysis of the primary efficacy parameter."||543.215|139.249|<0.001
92371608|NCT01626118|184646739|SUPERIORITY_OR_OTHER|||||||0.191|||||||t-test, 2 sided|||||||0.191
92371609|NCT01626118|184646739|SUPERIORITY_OR_OTHER|||||||0.108|||||||t-test, 2 sided|||||||0.108
92240179|NCT00570739|184383836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.22||||0.1996|TWO_SIDED|95.0|0.85|5.82|||Cochran-Mantel-Haenszel|P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.||Baseline to 16 Weeks LOCF||5.82|0.85|0.1996
92407750|NCT00473382|184705144|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|20.8|||<|0.0001|TWO_SIDED|95.0|11.4|30.2||An adjustment was made for multiple treatment comparisons of the ranibizumab dose groups with the control group.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||30.2|11.4|<0.0001
92407751|NCT00473382|184705144|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|33.3|||<|0.0001|TWO_SIDED|95.0|23.8|42.8||An adjustment was made for multiple treatment comparisons of the ranibizumab dose groups with the control group.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||42.8|23.8|<0.0001
92371610|NCT01626118|184646739|SUPERIORITY_OR_OTHER|||||||0.461|||||||t-test, 2 sided|||||||0.461
92371611|NCT01626118|184646740|SUPERIORITY_OR_OTHER|||||||0.079|||||||t-test, 2 sided|||||||0.079
92371612|NCT01626118|184646740|SUPERIORITY_OR_OTHER|||||||0.041|||||||t-test, 2 sided|||||||0.041
92371613|NCT01626118|184646740|SUPERIORITY_OR_OTHER|||||||0.458|||||||t-test, 2 sided|||||||0.458
92371614|NCT01626118|184646741|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.020
92371615|NCT01626118|184646741|SUPERIORITY_OR_OTHER|||||||0.021|||||||t-test, 2 sided|||||||0.021
92371616|NCT01626118|184646741|SUPERIORITY_OR_OTHER|||||||0.441|||||||t-test, 2 sided|||||||0.441
92371617|NCT01626118|184646742|SUPERIORITY_OR_OTHER|||||||0.141|||||||t-test, 2 sided|||||||0.141
92371618|NCT01626118|184646742|SUPERIORITY_OR_OTHER|||||||0.071|||||||t-test, 2 sided|||||||0.071
92371619|NCT01626118|184646742|SUPERIORITY_OR_OTHER|||||||0.716|||||||t-test, 2 sided|||||||0.716
92371620|NCT01626118|184646743|SUPERIORITY_OR_OTHER|||||||0.049|||||||t-test, 2 sided|||||||0.049
92371621|NCT01626118|184646743|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.020
92371622|NCT01626118|184646743|SUPERIORITY_OR_OTHER|||||||0.593|||||||t-test, 2 sided|||||||0.593
92371623|NCT01626118|184646744|SUPERIORITY_OR_OTHER|||||||0.021|||||||t-test, 2 sided|||||||0.021
92371624|NCT01626118|184646744|SUPERIORITY_OR_OTHER|||||||0.012|||||||t-test, 2 sided|||||||0.012
92371625|NCT01626118|184646744|SUPERIORITY_OR_OTHER|||||||0.447|||||||t-test, 2 sided|||||||0.447
92371626|NCT01626118|184646745|SUPERIORITY_OR_OTHER|||||||0.036|||||||t-test, 2 sided|||||||0.036
92371627|NCT01626118|184646745|SUPERIORITY_OR_OTHER|||||||0.017|||||||t-test, 2 sided|||||||0.017
92371628|NCT01626118|184646745|SUPERIORITY_OR_OTHER|||||||0.577|||||||t-test, 2 sided|||||||0.577
92371629|NCT00002540|184646746|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.87|1.36||Two-sided. Not adjusted for multiple comparisons. A-priori threshold for significance 0.05.|Poisson regression|||||1.36|0.87|
92371630|NCT00002540|184646748|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.93|1.0|||Poisson regression|Two-sided. Not adjusted for multiple comparisons. A-priori threshold for significance 0.05.||||1.00|0.93|
92371631|NCT00002540|184646750|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|1.07|1.17|||Poisson regression|Two-sided. Not adjusted for multiple comparisons. A-priori threshold for significance 0.05.||||1.17|1.07|
92371632|NCT00002540|184646760|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.87|1.36|||Poisson regression|||||1.36|0.87|
92371633|NCT01864148|184646778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9584|TWO_SIDED|95.0|0.46|2.07|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||2.07|0.46|0.9584
92371634|NCT01864148|184646778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79||||0.0636|TWO_SIDED|95.0|0.97|3.31|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||3.31|0.97|0.0636
92371635|NCT01864148|184646778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.022|TWO_SIDED|95.0|1.11|3.84|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||3.84|1.11|0.0220
92371636|NCT01864148|184646778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.1771|TWO_SIDED|95.0|0.36|1.21|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||1.21|0.36|0.1771
92371637|NCT01864148|184646778|SUPERIORITY_OR_OTHER|||||||0.8931|||||||Trend test|Trend test p-value is based on a linear contrast in logistic regression.||||||0.8931
92371638|NCT01864148|184646779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.3058|TWO_SIDED|95.0|0.28|1.49|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||1.49|0.28|0.3058
92371639|NCT01864148|184646779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.1873|TWO_SIDED|95.0|0.81|2.89|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||2.89|0.81|0.1873
92371640|NCT01864148|184646779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.2766|TWO_SIDED|95.0|0.76|2.65|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||2.65|0.76|0.2766
92371641|NCT01864148|184646779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.6578|TWO_SIDED|95.0|0.45|1.65|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||1.65|0.45|0.6578
92371642|NCT01864148|184646779|SUPERIORITY_OR_OTHER|||||||0.5255|||||||Trend test|Trend test p-value is based on a linear contrast in logistic regression.||||||0.5255
92371643|NCT01500252|184646786|SUPERIORITY_OR_OTHER_LEGACY|||||||0.59||95.0|||||t-test, 2 sided|||||||0.59
92371644|NCT01500252|184646787|SUPERIORITY_OR_OTHER_LEGACY|||||||0.83||95.0|||||t-test, 2 sided|||||||0.83
92371645|NCT01500252|184646789|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||t-test, 2 sided|||||||0.10
92371646|NCT01500252|184646790|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39||95.0|||||t-test, 2 sided|||||||0.39
92371647|NCT01500252|184646791|SUPERIORITY_OR_OTHER_LEGACY|||||||0.43||95.0|||||t-test, 2 sided|||||||0.43
92371648|NCT01500252|184646792|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||95.0|||||t-test, 2 sided|||||||0.71
92371649|NCT01500252|184646793|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98||95.0|||||t-test, 2 sided|||||||0.98
92371650|NCT01500252|184646794|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||95.0|||||t-test, 2 sided|||||||0.35
92371651|NCT01500252|184646795|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||95.0|||||Chi-squared|||||||0.31
92371652|NCT00712725|184646864|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with PF at 2 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||<0.001
92371653|NCT00712725|184646865|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with binary response PR at 2 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||<0.001
92371654|NCT00712725|184646866|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with Absence of Photophobia at 2 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||<0.001
92371655|NCT00712725|184646867|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with Absence of Phonophobia at 2 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||<0.001
92371656|NCT00712725|184646868|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with Absence of Nausea at 2 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||0.007
92371657|NCT00712725|184646869|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with binary response SPF 2-24 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||<0.001
92371658|NCT05319899|184646870|OTHER||Geometric Mean Ratio (%)|140.63|||||TWO_SIDED|90.0|118.94|166.26||||||Analysis was performed using analysis of variance (ANOVA).||166.26|118.94|
92371659|NCT05319899|184646870|OTHER||Geometric Mean Ratio (%)|77.65|||||TWO_SIDED|90.0|65.67|91.8||||||Analysis was performed using ANOVA.||91.80|65.67|
92371660|NCT05319899|184646871|OTHER||Geometric Mean Ratio (%)|128.23|||||TWO_SIDED|90.0|112.99|145.52||||||Analysis was performed using ANOVA.||145.52|112.99|
92371661|NCT05319899|184646871|OTHER||Geometric Mean Ratio (%)|95.94|||||TWO_SIDED|90.0|84.54|108.88||||||Analysis was performed using ANOVA.||108.88|84.54|
92371662|NCT01901289|184646874|OTHER||Cumulative Probability|0.927|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.881|0.956|||||The estimate of the variance of the Kaplan-Meier estimate used the methods described by Peto et al.|||0.956|0.881|
92371663|NCT01606176|184646940|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.39||||0.332|TWO_SIDED|95.0|-1.18|0.4|||ANCOVA|||"The change was compared between treatment groups using analysis of covariance (ANCOVA). The significance of the treatment effect, after adjusting for baseline pain score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Box Scale-11 Pain Score = Baseline Pain Score + Treatment"||0.40|-1.18|0.332
92371664|NCT01606176|184646941|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-29.55||||0.002|TWO_SIDED|95.0|-48.08|-11.02|||ANOVA|||The proportions were compared between treatment groups using analysis of variance (ANOVA) with treatment as a factor.||-11.02|-48.08|0.002
92371665|NCT01606176|184646942|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.34||||0.052|TWO_SIDED|95.0|-0.68|0.0|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline sleep disturbance score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Sleep Disturbance Score = Baseline Sleep Disturbance Score + Treatment"||0.00|-0.68|0.052
92371666|NCT01606176|184646943|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.79||||0.3|TWO_SIDED|95.0|-8.14|2.56|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Pain Disability Index score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Pain Disability Index Score = Baseline Pain Disability Index Score + Treatment"||2.56|-8.14|0.300
92371667|NCT01606176|184646944|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.66||||0.233|TWO_SIDED|95.0|-4.42|1.1|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Total Brief Pain Inventory (Short Form) score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Total Brief Pain Inventory (Short Form) Score = Baseline Total Brief Pain Inventory (Short Form) Score + Treatment"||1.10|-4.42|0.233
92371668|NCT01606176|184646945|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.28||||0.387|TWO_SIDED|95.0|-0.36|0.91|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Total Spitzer Quality of Life Index score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Total Spitzer Quality of Life Index Score = Baseline Total Spitzer Quality of Life Index Score + Treatment"||0.91|-0.36|0.387
92371669|NCT01606176|184646946|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.47||||1|TWO_SIDED|95.0|-21.56|18.51|||Fisher Exact|||"The proportion of patients who considered their condition Very Much Improved or Much Improved was compared between treatment groups using a Fisher's Exact Test."||18.51|-21.56|1.000
92371670|NCT01606176|184646947|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.86||||0.128|TWO_SIDED|95.0|-1.97|0.26|||ANCOVA|||"The change was compared between treatment groups using analysis of covariance (ANCOVA). The significance of the treatment effect, after adjusting for baseline pain score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Box Scale-11 Pain Score = Baseline Pain Score + Treatment"||0.26|-1.97|0.128
92371671|NCT01606176|184646948|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-31.77||||0.009|TWO_SIDED|95.0|-55.07|-8.47|||ANOVA|||The proportions were compared between treatment groups using ANOVA with treatment as a factor.||-8.47|-55.07|0.009
92371672|NCT01606176|184646949|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.32||||0.184|TWO_SIDED|95.0|-0.8|0.16|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline sleep disturbance score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Sleep Disturbance Score = Baseline Sleep Disturbance Score + Treatment"||0.16|-0.80|0.184
92371673|NCT01606176|184646950|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-5.18||||0.134|TWO_SIDED|95.0|-12.05|1.68|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Pain Disability Index score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Pain Disability Index Score = Baseline Pain Disability Index Score + Treatment"||1.68|-12.05|0.134
92371674|NCT01606176|184646951|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-3.77||||0.031|TWO_SIDED|95.0|-7.17|-0.36|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Total Brief Pain Inventory (Short Form) score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Total Brief Pain Inventory (Short Form) Score = Baseline Total Brief Pain Inventory (Short Form) Score + Treatment"||-0.36|-7.17|0.031
92371675|NCT01606176|184646952|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.04||||0.915|TWO_SIDED|95.0|-0.79|0.88|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Total Spitzer Quality of Life Index score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Total Spitzer Quality of Life Index Score = Baseline Total Spitzer Quality of Life Index Score + Treatment"||0.88|-0.79|0.915
92371676|NCT01606176|184646953|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|3.95||||1|TWO_SIDED|95.0|-21.85|27.47|||Fisher Exact|||"The proportion of patients who considered their condition Very Much Improved or Much Improved was compared between treatment groups using a Fisher's Exact Test."||27.47|-21.85|1.00
92371677|NCT01818258|184646957|SUPERIORITY|||||||0.4|||||||Fisher Exact|||Comparison for number who experienced at least one grade 3 or higher adverse event. Null hypothesis of no difference between cohorts.||||0.40
92371678|NCT01818258|184646958|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||Comparison for number who experienced at least one grade 3 or higher adverse event related to study treatment. Null hypothesis of no difference between cohorts.||||>0.999
92371679|NCT01818258|184646959|SUPERIORITY||Geometric Mean Ratio|0.77||||0.49|TWO_SIDED|95.0|0.4|1.6|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 Comparison of LPV AUC between cohorts. Null hypothesis of no difference between cohorts.||1.6|0.4|0.49
92371680|NCT01818258|184646959|SUPERIORITY||Geometric Mean Ratio|0.64||||0.23|TWO_SIDED|95.0|0.3|1.4|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 Comparison of LPV AUC between cohorts. Null hypothesis of no difference between cohorts.||1.4|0.3|0.23
92240180|NCT00570739|184383836|SUPERIORITY_OR_OTHER|||||||0.0829||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.0829
92371681|NCT01818258|184646959|SUPERIORITY||Geometric Mean Ratio|0.81||||0.63|TWO_SIDED|95.0|0.3|2.0|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 Comparison of LPV AUC between cohorts. Null hypothesis of no difference between cohorts.||2.0|0.3|0.63
92371682|NCT01818258|184646960|SUPERIORITY||Geometric Mean Ratio|1.06||||0.89|TWO_SIDED|95.0|0.5|2.3|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 Comparison of LPV Clearance between cohorts. Null hypothesis of no difference between cohorts.||2.3|0.5|0.89
92371683|NCT01818258|184646960|SUPERIORITY||Geometric Mean Ratio|1.42||||0.37|TWO_SIDED|95.0|0.7|3.1|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 Comparison of LPV clearance between cohorts. Null hypothesis of no difference between cohorts.||3.1|0.7|0.37
92371684|NCT01818258|184646960|SUPERIORITY||Geometric Mean Ratio|1.23||||0.63|TWO_SIDED|95.0|0.5|2.9|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 Comparison of LPV clearance between cohorts. Null hypothesis of no difference between cohorts.||2.9|0.5|0.63
92371685|NCT01818258|184646961|SUPERIORITY||Geometric Mean Ratio|0.76||||0.42|TWO_SIDED|95.0|0.4|1.5|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 Comparison of RTV AUC between cohorts. Null hypothesis of no difference between cohorts.||1.5|0.4|0.42
92371686|NCT01818258|184646961|SUPERIORITY||Geometric Mean Ratio|0.58||||0.11|TWO_SIDED|95.0|0.3|1.1|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of RTV AUC between cohorts. Null hypothesis of no difference between cohorts.||1.1|0.3|0.11
92371687|NCT01818258|184646961|SUPERIORITY||Geometric Mean Ratio|0.77||||0.44|TWO_SIDED|95.0|0.4|1.5|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of RTV AUC between cohorts. Null hypothesis of no difference between cohorts.||1.5|0.4|0.44
92371688|NCT01818258|184646962|SUPERIORITY||Geometric Mean Ratio|1.07||||0.84|TWO_SIDED|95.0|0.5|2.2|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 comparison of RTV clearance between cohorts. Null hypothesis of no difference between cohorts.||2.2|0.5|0.84
92371689|NCT01818258|184646962|SUPERIORITY||Geometric Mean Ratio|1.54||||0.21|TWO_SIDED|95.0|0.8|3.1|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of RTV clearance between cohorts. Null hypothesis of no difference between cohorts.||3.1|0.8|0.21
92371690|NCT01818258|184646962|SUPERIORITY||Geometric Mean Ratio|1.29||||0.44|TWO_SIDED|95.0|0.7|2.5|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of RTV clearance between cohorts. Null hypothesis of no difference between cohorts.||2.5|0.7|0.44
92371691|NCT01818258|184646963|SUPERIORITY||Geometric Mean Ratio|0.77||||0.27|TWO_SIDED|95.0|0.5|1.2|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 comparison of 3TC AUC between cohorts. Null hypothesis of no difference between cohorts.||1.2|0.5|0.27
92371692|NCT01818258|184646963|SUPERIORITY||Geometric Mean Ratio|0.6||||0.047|TWO_SIDED|95.0|0.4|1.0|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of 3TC AUC between cohorts. Null hypothesis of no difference between cohorts.||1.0|0.4|0.047
92371693|NCT01818258|184646963|SUPERIORITY||Geometric Mean Ratio|1.09||||0.76|TWO_SIDED|95.0|0.6|1.9|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of 3TC AUC between cohorts. Null hypothesis of no difference between cohorts.||1.9|0.6|0.76
92371694|NCT01818258|184646964|SUPERIORITY||Geometric Mean Ratio|0.0||||0.89|TWO_SIDED|95.0|-0.4|0.5|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 comparison of 3TC clearance between cohorts. Null hypothesis of no difference between cohorts.||0.5|-0.4|0.89
92371695|NCT01818258|184646964|SUPERIORITY||Geometric Mean Ratio|1.4||||0.18|TWO_SIDED|95.0|0.8|2.3|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of 3TC clearance between cohorts. Null hypothesis of no difference between cohorts.||2.3|0.8|0.18
92371696|NCT01818258|184646964|SUPERIORITY||Geometric Mean Ratio|0.85||||0.53|TWO_SIDED|95.0|0.5|1.4|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of 3TC clearance between cohorts. Null hypothesis of no difference between cohorts.||1.4|0.5|0.53
92371697|NCT01818258|184646965|SUPERIORITY||Geometric Mean Ratio|1.27||||0.39|TWO_SIDED|95.0|0.7|2.2|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 comparison of ZDV AUC between cohorts. Null hypothesis of no difference between cohorts.||2.2|0.7|0.39
92371698|NCT01818258|184646965|SUPERIORITY||Geometric Mean Ratio|1.37||||0.43|TWO_SIDED|95.0|0.6|3.0|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of ZDV AUC between cohorts. Null hypothesis of no difference between cohorts.||3.0|0.6|0.43
92371699|NCT01818258|184646965|SUPERIORITY||Geometric Mean Ratio|1.52||||0.003|TWO_SIDED|95.0|1.2|2.0|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of ZDV AUC between cohorts. Null hypothesis of no difference between cohorts.||2.0|1.2|0.003
92371700|NCT01818258|184646966|SUPERIORITY||Geometric Mean Ratio|0.6||||0.09|TWO_SIDED|95.0|0.3|1.1|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 comparison of ZDV clearance between cohorts. Null hypothesis of no difference between cohorts.||1.1|0.3|0.090
92371701|NCT01818258|184646966|SUPERIORITY||Geometric Mean Ratio|0.6||||0.23|TWO_SIDED|95.0|0.3|1.4|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of ZDV clearance between cohorts. Null hypothesis of no difference between cohorts.||1.4|0.3|0.23
92371702|NCT01818258|184646966|SUPERIORITY||Geometric Mean Ratio|0.64||||0.0003|TWO_SIDED|95.0|0.5|0.8|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of ZDV clearance between cohorts. Null hypothesis of no difference between cohorts.||0.8|0.5|0.0003
92371703|NCT01818258|184646967|SUPERIORITY||Odds Ratio (OR)|0.54||||0.17|TWO_SIDED|95.0|0.22|1.29|||Mixed Models Analysis||Odds Ratio (SAM/non-SAM) for Lopinavir Ctrough \>= 1 ug/mL through 48 weeks|Odds ratio (SAM/non-SAM) of Ctrough \>=1 ug/mL from entry through 48 weeks from repeated measures mixed model, with the null hypothesis that the odds ratio is equal to zero (no difference between cohorts in odds of Ctrough \>=1 ug/mL).||1.29|0.22|0.17
92371704|NCT01818258|184646968|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.003|TWO_SIDED|95.0|-3.9|-0.9|||t-test, 2 sided||Severe Malnutrition Cohort - Normal Nutrition/Mild Malnutrition for Week 1 Free Fraction (%) of LPV|Week 1 comparison of LPV free faction. Null hypothesis of no difference between cohorts.||-0.9|-3.9|0.003
92371705|NCT01818258|184646968|SUPERIORITY||Mean Difference (Final Values)|-3.8||||0.011|TWO_SIDED|95.0|-6.6|-1.1|||t-test, 2 sided||Severe Malnutrition - Normal Nutrition/Mild Malnutrition for Week 12 Free Fraction (%) of LPV|Week 12 comparison of LPV free faction. Null hypothesis of no difference between cohorts.||-1.1|-6.6|0.011
92371706|NCT01818258|184646968|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.46|TWO_SIDED|95.0|-2.4|4.4|||t-test, 2 sided||Severe Malnutrition - Normal Nutrition/Mild Malnutrition for Week 24 Free Fraction (%) of LPV|Week 24 comparison of LPV free faction. Null hypothesis of no difference between cohorts.||4.4|-2.4|0.46
92446274|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.207||0.6877|TWO_SIDED|95.0|-0.5|0.33|||MMRM|||Genital Symptoms, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.50|0.6877
92371707|NCT01818258|184646969|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.15|TWO_SIDED|95.0|-0.3|1.7|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in log10 plasma HIV viral load from baseline to week 12. Null hypothesis of no difference between cohorts.||1.7|-0.3|0.15
92371708|NCT01818258|184646969|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.2|TWO_SIDED|95.0|-0.4|1.8|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in log10 plasma HIV viral load from baseline to week 24. Null hypothesis of no difference between cohorts.||1.8|-0.4|0.20
92371709|NCT01818258|184646969|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.13|TWO_SIDED|95.0|-0.2|1.8|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in log10 plasma HIV viral load from baseline to week 36. Null hypothesis of no difference between cohorts.||1.8|-0.2|0.13
92371710|NCT01818258|184646969|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.089|TWO_SIDED|95.0|-0.1|1.8|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in log10 plasma HIV viral load from baseline to week 48. Null hypothesis of no difference between cohorts.||1.8|-0.1|0.089
92371711|NCT01818258|184646970|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||Baseline Comparison, with null hypothesis of no difference between cohorts.||||>0.999
92371712|NCT01818258|184646970|SUPERIORITY|||||||0.15|||||||Fisher Exact|||Week 12 Comparison, with null hypothesis of no difference between cohorts.||||0.15
92371713|NCT01818258|184646970|SUPERIORITY|||||||0.065|||||||Fisher Exact|||Week 24 Comparison, with null hypothesis of no difference between cohorts.||||0.065
92371714|NCT01818258|184646970|SUPERIORITY|||||||0.065|||||||Fisher Exact|||Week 48 Comparison, with null hypothesis of no difference between cohorts.||||0.065
92371715|NCT01818258|184646971|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.89|TWO_SIDED|95.0|-3.9|4.4|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in CD4 percent from baseline to week 12. Null hypothesis of no difference between cohorts.||4.4|-3.9|0.89
92371716|NCT01818258|184646971|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.31|TWO_SIDED|95.0|-2.5|7.6|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in CD4 percent from baseline to week 24. Null hypothesis of no difference between cohorts.||7.6|-2.5|0.31
92371717|NCT01818258|184646971|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.18|TWO_SIDED|95.0|-1.5|7.8|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in CD4 percent from baseline to week 36. Null hypothesis of no difference between cohorts.||7.8|-1.5|0.18
92371718|NCT01818258|184646971|SUPERIORITY||Mean Difference (Final Values)|6.1||||0.018|TWO_SIDED|95.0|1.1|11.0|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference between cohorts of change in CD4 percent from baseline to week 48. Null hypothesis of no difference between cohorts.||11.0|1.1|0.018
92371719|NCT01818258|184646972|SUPERIORITY||Mean|2.34|||<|0.0001|TWO_SIDED|95.0|1.77|2.91|||t-test, 2 sided|||Null hypothesis: change in WHO weight-for-height Z-score from entry to week 24 equal to 0||2.91|1.77|<0.0001
92371720|NCT01818258|184646972|SUPERIORITY||Mean|2.73|||<|0.0001|TWO_SIDED|95.0|2.09|3.37|||t-test, 2 sided|||Null hypothesis: change in WHO weight-for-height Z-score from entry to week 48 equal to 0||3.37|2.09|<0.0001
92371721|NCT01818258|184646973|SUPERIORITY||Mean|2.63|||<|0.0001|TWO_SIDED|95.0|1.96|3.28|||t-test, 2 sided|||Null hypothesis: change in MUAC from entry to week 24 equal to 0||3.28|1.96|<0.0001
92371722|NCT01818258|184646973|SUPERIORITY||Mean|3.53|||<|0.0001|TWO_SIDED|95.0|2.83|4.24|||t-test, 2 sided|||Null hypothesis: change in MUAC from entry to week 48 equal to 0||4.24|2.83|<0.0001
92371723|NCT00107900|184646983|SUPERIORITY_OR_OTHER|||||||0.238|TWO_SIDED||||||Fisher Exact|||||||0.238
92407752|NCT00473382|184705145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.5|||<|0.0001|TWO_SIDED|95.0|5.4|11.5||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||11.5|5.4|<0.0001
92407753|NCT00473382|184705145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9|||<|0.0001|TWO_SIDED|95.0|6.4|13.3||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||13.3|6.4|<0.0001
92371724|NCT03088930|184646988|OTHER||Summary statistics|0.0|||||TWO_SIDED|||||||||Three subjects enrolled. No statistical analysis completed due to low accrual.|Three subjects enrolled. No statistical analysis completed due to low accrual.|||
92371725|NCT00678535|184647006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.091||||0.3158||95.0|0.92|1.292|||Stratified log rank||Kaplan-Meier method was used to estimate median PFS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.|Primary efficacy analysis: To test equality of progression free survival time between treatment groups, applying the two-sided stratified log-rank test (randomization strata: disease stage, previous oesophagectomy/gastrectomy and prior(neo-) adjuvant(radio) chemotherapy, α=5%).||1.292|0.920|0.3158
92371726|NCT00678535|184647007|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.004||||0.9547||95.0|0.866|1.165|||Stratified log rank||Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.|To test equality of OS time between treatment groups, applying the two-sided stratified log-rank test (randomization strata: disease stage, previous oesophagectomy/gastrectomy and prior (neo-) adjuvant(radio) chemotherapy, α=5%)||1.165|0.866|0.9547
92371727|NCT00678535|184647008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0435||||0.7696||95.0|0.7844|1.3882|||Cochran-Mantel-Haenszel|||The best overall response rate was compared with the Cochran-Mantel-Haenszel test (strata: disease stage, previous oesophagectomy/gastrectomy and prior(neo-) adjuvant(radio) chemotherapy, two-sided with α=5%).||1.3882|0.7844|0.7696
92371728|NCT03817463|184647067|OTHER||Adjusted Hazard Ratio|0.7|||<|0.005|TWO_SIDED|95.0|0.6|0.83|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||HHF-(broad+specific)||0.83|0.60|<0.005
92371729|NCT03817463|184647067|OTHER||Adjusted Hazard Ratio|0.66|||<|0.005|TWO_SIDED|95.0|0.57|0.78|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline||HHF-(broad + specific).||0.78|0.57|<0.005
92371730|NCT03817463|184647068|OTHER||Ajusted hazard ratio|0.75|||<|0.005|TWO_SIDED|95.0|0.69|0.81|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||HHF-broad.||0.81|0.69|<0.005
92371731|NCT03817463|184647068|OTHER||Ajusted hazard ratio|0.78|||<|0.005|TWO_SIDED|95.0|0.69|0.88|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||HHF-broad.||0.88|0.69|<0.005
92168849|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.13||0.5888|TWO_SIDED|95.0|-0.33|0.19|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.19|-0.33|0.5888
92371732|NCT03817463|184647069|OTHER||Adjusted Hazard Ratio|0.68|||<|0.005|TWO_SIDED|95.0|0.56|0.83|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||HHF-specific. Hazards ratios reported include data from all countries with non-missing values.||0.83|0.56|<0.005
92371733|NCT03817463|184647069|OTHER||Adjusted Hazard Ratio|0.64|||<|0.005|TWO_SIDED|95.0|0.51|0.81|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||HHF-specific. Hazards ratios reported include data from all countries with non-missing values.||0.81|0.51|<0.005
92371734|NCT03817463|184647070|OTHER||Adjusted Hazard Ratio|0.55|||<|0.005|TWO_SIDED|95.0|0.48|0.63|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.63|0.48|<0.005
92371735|NCT03817463|184647070|OTHER||Adjusted Hazard Ratio|0.59|||<|0.005|TWO_SIDED|95.0|0.54|0.65|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.65|0.54|<0.005
92407754|NCT00473382|184705146|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|21.4||||0.0002|TWO_SIDED|95.0|10.8|31.9||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||31.9|10.8|0.0002
92371736|NCT03817463|184647071|OTHER||Adjusted Hazard Ratio|0.65|||<|0.05|TWO_SIDED|95.0|0.56|0.76|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.76|0.56|<0.05
92371737|NCT03817463|184647071|OTHER||Adjusted Hazard Ratio|0.66|||<|0.005|TWO_SIDED|95.0|0.61|0.72|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.72|0.61|<0.005
92371738|NCT03817463|184647072|OTHER||Adjusted Hazard Ratio|0.72|||<|0.005|TWO_SIDED|95.0|0.64|0.82|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.82|0.64|<0.005
92168850|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.14||0.9345|TWO_SIDED|95.0|-0.28|0.26|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.26|-0.28|0.9345
92371739|NCT03817463|184647072|OTHER||Adjusted Hazard Ratio|0.72|||<|0.005|TWO_SIDED|95.0|0.66|0.78|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.78|0.66|<0.005
92371740|NCT03817463|184647073|OTHER||Adjusted Hazard Ratio|1.02||||0.816|TWO_SIDED|95.0|0.88|1.18|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.18|0.88|0.816
92371741|NCT03817463|184647073|OTHER||Adjusted Hazard Ratio|0.87||||0.013|TWO_SIDED|95.0|0.78|0.97|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.97|0.78|0.013
92371742|NCT03817463|184647074|OTHER||Adjusted Hazard Ratio|0.82|||<|0.011|TWO_SIDED|95.0|0.71|0.96|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.96|0.71|<0.011
92371743|NCT03817463|184647074|OTHER||Adjusted Hazard Ratio|0.84||||0.064|TWO_SIDED|95.0|0.69|1.01|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.01|0.69|0.064
92371744|NCT03817463|184647075|OTHER||Adjusted Hazard Ratio|0.59|||<|0.005|TWO_SIDED|95.0|0.42|0.84|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.84|0.42|<0.005
92371745|NCT03817463|184647075|OTHER||Adjusted Hazard Ratio|0.6|||<|0.005|TWO_SIDED|95.0|0.49|0.72|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.72|0.49|<0.005
92371746|NCT03817463|184647076|OTHER||Adjusted Hazard Ratio|0.54|||<|0.005|TWO_SIDED|95.0|0.46|0.64|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.64|0.46|<0.005
92407755|NCT00473382|184705146|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|27.1|||<|0.0001|TWO_SIDED|95.0|16.4|37.9||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||37.9|16.4|<0.0001
92371747|NCT03817463|184647076|OTHER||Adjusted Hazard Ratio|0.56|||<|0.005|TWO_SIDED|95.0|0.47|0.66|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.66|0.47|<0.005
92371748|NCT03817463|184647077|OTHER||Adjusted Hazard Ratio|0.95||||0.545|TWO_SIDED|95.0|0.81|1.11|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.11|0.81|0.545
92371749|NCT03817463|184647077|OTHER||Adjusted Hazard Ratio|0.91||||0.036|TWO_SIDED|95.0|0.83|0.99|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.99|0.83|0.036
92371750|NCT03817463|184647078|OTHER||Adjusted Hazard Ratio|0.93||||0.353|TWO_SIDED|95.0|0.79|1.09|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.09|0.79|0.353
92371751|NCT03817463|184647078|OTHER||Adjusted Hazard Ratio|0.9||||0.197|TWO_SIDED|95.0|0.78|1.05|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.05|0.78|0.197
92371752|NCT03817463|184647079|OTHER||Adjusted Hazard Ratio|0.43|||<|0.005|TWO_SIDED|95.0|0.3|0.63|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.63|0.30|<0.005
92371753|NCT03817463|184647079|OTHER||Adjusted Hazard Ratio|0.27|||<|0.005|TWO_SIDED|95.0|0.16|0.44|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.44|0.16|<0.005
92371754|NCT03817463|184647080|OTHER||Adjusted Hazard Ratio|1.05||||0.535|TWO_SIDED|95.0|0.89|1.25|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.25|0.89|0.535
92371755|NCT03817463|184647080|OTHER||Adjusted Hazard Ratio|0.98||||0.85|TWO_SIDED|95.0|0.84|1.15|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.15|0.84|0.850
92371756|NCT03817463|184647081|OTHER||Adjusted Hazard Ratio|1.03||||0.828|TWO_SIDED|95.0|0.81|1.31|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.31|0.81|0.828
92371757|NCT03817463|184647081|OTHER||Adjusted Hazard Ratio|1.01||||0.944|TWO_SIDED|95.0|0.72|1.42|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.42|0.72|0.944
92371758|NCT03817463|184647082|OTHER||Adjusted Hazard Ratio|0.94||||0.642|TWO_SIDED|95.0|0.73|1.22|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.22|0.73|0.642
92371759|NCT03817463|184647082|OTHER||Adjusted Hazard Ratio|0.89||||0.417|TWO_SIDED|95.0|0.66|1.19|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.19|0.66|0.417
92371760|NCT03817463|184647083|OTHER||Adjusted Hazard Ratio|0.89||||0.091|TWO_SIDED|95.0|0.77|1.02|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.02|0.77|0.091
92371761|NCT03817463|184647084|OTHER||Adjusted Hazard Ratio|1.97|||<|0.005|TWO_SIDED|95.0|1.28|3.03|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||3.03|1.28|<0.005
92371762|NCT03817463|184647085|OTHER||Adjusted Hazard Ratio|0.95||||0.654|TWO_SIDED|95.0|0.75|1.2|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.20|0.75|0.654
92371763|NCT03817463|184647086|OTHER||Adjusted Hazard Ratio|0.78||||0.233|TWO_SIDED|95.0|0.52|1.17|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.17|0.52|0.233
92371764|NCT03817463|184647087|OTHER||Adjusted Hazard Ratio|0.56|||<|0.005|TWO_SIDED|95.0|0.38|0.82|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.82|0.38|<0.005
92371765|NCT03817463|184647088|OTHER||Rate Ratio|0.74|||||TWO_SIDED|95.0|0.69|0.8|||||Poisson regression model was used.|Emergency room visits - Finland||0.80|0.69|
92371766|NCT03817463|184647088|OTHER||Rate Ratio|0.9|||||TWO_SIDED|95.0|0.59|1.38|||||Poisson regression model was used.|Emergency room visits - Japan||1.38|0.59|
92446275|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.186||0.2465|TWO_SIDED|95.0|-0.15|0.58|||MMRM|||Genital Symptoms, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.58|-0.15|0.2465
92371767|NCT03817463|184647088|OTHER||Rate Ratio|0.91|||||TWO_SIDED|95.0|0.82|1.0|||||Poisson regression model was used.|Emergency room visits - South Korea||1.00|0.82|
92371768|NCT03817463|184647088|OTHER||Rate Ratio|0.72|||||TWO_SIDED|95.0|0.59|0.87|||||Poisson regression model was used.|Emergency room visit - Spain||0.87|0.59|
92371769|NCT03817463|184647088|OTHER||Rate Ratio|0.94|||||TWO_SIDED|95.0|0.87|1.01|||||Poisson regression model was used.|Emergency room visit - Sweden||1.01|0.87|
92371770|NCT03817463|184647088|OTHER||Rate Ratio|0.86|||||TWO_SIDED|95.0|0.8|0.93|||||Poisson regression model was used.|Emergency room visit - Taiwan||0.93|0.80|
92371771|NCT03817463|184647088|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.75|0.85|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Finland||0.85|0.75|
92371772|NCT03817463|184647088|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.68|0.84|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Japan||0.84|0.68|
92371773|NCT03817463|184647088|OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.69|0.82|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - South Korea||0.82|0.69|
92371774|NCT03817463|184647088|OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.78|0.94|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Norway||0.94|0.78|
92371775|NCT03817463|184647088|OTHER||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.66|0.89|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Spain||0.89|0.66|
92371776|NCT03817463|184647088|OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.81|0.93|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Sweden||0.93|0.81|
92371777|NCT03817463|184647088|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.74|0.86|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Taiwan||0.86|0.74|
92371778|NCT03817463|184647088|OTHER||Rate Ratio|0.68|||||TWO_SIDED|95.0|0.64|0.71|||||Poisson regression model was used.|All-cause hospital admissions||0.71|0.64|
92407756|NCT00473382|184705147|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|7.1||||0.0119|TWO_SIDED|95.0|1.7|12.6||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||12.6|1.7|0.0119
92407757|NCT00473382|184705147|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|4.5||||0.1384|TWO_SIDED|95.0|-1.2|10.1||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||10.1|-1.2|0.1384
92407758|NCT00473382|184705148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.3||||0.0102|TWO_SIDED|95.0|2.0|14.6||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||14.6|2.0|0.0102
92407759|NCT00473382|184705148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.2||||0.0005|TWO_SIDED|95.0|5.1|17.3||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||17.3|5.1|0.0005
92407760|NCT00473382|184705149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-111.8|||<|0.0001|TWO_SIDED|95.0|-151.6|-72.0||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANCOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||-72.0|-151.6|<0.0001
92407761|NCT00473382|184705149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-132.2|||<|0.0001|TWO_SIDED|95.0|-169.7|-94.8||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANCOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||-94.8|-169.7|<0.0001
92407762|NCT00473382|184705150|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|-4.3||||0.0853|TWO_SIDED|95.0|-9.3|0.8||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||0.8|-9.3|0.0853
92446276|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.101||0.1279|TWO_SIDED|95.0|-0.36|0.05|||MMRM|||Hypochondriasis, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.36|0.1279
92407763|NCT00473382|184705150|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|-5.8||||0.0073|TWO_SIDED|95.0|-9.8|-1.7||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||-1.7|-9.8|0.0073
92407764|NCT00473382|184705151|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|14.0||||0.0002|TWO_SIDED|95.0|6.8|21.1||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||21.1|6.8|0.0002
92407765|NCT00473382|184705151|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|28.3|||<|0.0001|TWO_SIDED|95.0|20.2|36.4||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||36.4|20.2|<0.0001
92407766|NCT00473382|184705152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||-0.5|-1.3|<0.0001
92240181|NCT00570739|184383836|SUPERIORITY_OR_OTHER|||||||0.1037||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.1037
92371779|NCT03817463|184647088|OTHER||Rate Ratio|0.69|||||TWO_SIDED|95.0|0.63|0.76|||||Poisson regression model was used.|For all-cause hospital admissions - Japan||0.76|0.63|
92371780|NCT03817463|184647088|OTHER||Rate Ratio|0.7|||||TWO_SIDED|95.0|0.66|0.75|||||Poisson regression model was used.|All-cause hospital admissions - South Korea||0.75|0.66|
92371781|NCT03817463|184647088|OTHER||Rate Ratio|0.81|||||TWO_SIDED|95.0|0.77|0.85|||||Poisson regression model was used.|All-cause hospital admissions - Norway||0.85|0.77|
92371782|NCT03817463|184647088|OTHER||Rate Ratio|0.68|||||TWO_SIDED|95.0|0.6|0.77|||||Poisson regression model was used.|All-cause hospital admissions - Spain||0.77|0.60|
92371783|NCT03817463|184647088|OTHER||Rate Ratio|0.85|||||TWO_SIDED|95.0|0.8|0.89|||||Poisson regression model was used.|All-cause hospital admissions - Sweden||0.89|0.80|
92371784|NCT03817463|184647088|OTHER||Rate Ratio|0.79|||||TWO_SIDED|95.0|0.72|0.87||||||All-cause hospital admissions - Taiwan||0.87|0.72|
92371785|NCT03817463|184647088|OTHER||Rate Ratio|0.78|||||TWO_SIDED|95.0|0.77|0.79|||||Poisson regression model was used.|Outpatient healthcare visits - Finland||0.79|0.77|
92371786|NCT03817463|184647088|OTHER||Rate Ratio|0.95|||||TWO_SIDED|95.0|0.94|0.97|||||Poisson regression model was used.|Outpatient healthcare visits - Japan||0.97|0.94|
92371787|NCT03817463|184647088|OTHER||Rate Ratio|0.97|||||TWO_SIDED|95.0|0.96|0.97|||||Poisson regression model was used.|Outpatient healthcare visits - South Korea||0.97|0.96|
92371788|NCT03817463|184647088|OTHER||Rate Ratio|0.96|||||TWO_SIDED|95.0|0.94|0.97||||||Outpatient healthcare visits - Norway||0.97|0.94|
92371789|NCT03817463|184647088|OTHER||Rate Ratio|0.88|||||TWO_SIDED|95.0|0.85|0.91|||||Poisson regression model was used.|Outpatient healthcare visit - Spain||0.91|0.85|
92371790|NCT03817463|184647088|OTHER||Rate Ratio|0.96|||||TWO_SIDED|95.0|0.94|0.98|||||Poisson regression model was used.|Outpatient healthcare visits - Sweden||0.98|0.94|
92407767|NCT00473382|184705152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||-1.0|-1.6|<0.0001
92407768|NCT01166282|184705190|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-51.17|||=|0.039|TWO_SIDED|95.0|-99.69|-2.66|||ANCOVA|||||-2.66|-99.69|=0.039
92407769|NCT01166282|184705191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.62|||=|0.382|TWO_SIDED|95.0|-5.32|2.08|||1-way ANOVA|||||2.08|-5.32|=0.382
92407770|NCT01166282|184705192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|||=|0.209|TWO_SIDED|95.0|-8.78|1.97|||1-way ANOVA|||||1.97|-8.78|=0.209
92407771|NCT01166282|184705193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.12|||=|0.509|TWO_SIDED|95.0|-4.49|2.26|||1-way ANOVA|||||2.26|-4.49|=0.509
92407772|NCT01166282|184705194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|||=|0.514|TWO_SIDED|95.0|-18.5|40.5|||Fisher Exact|||||40.5|-18.5|=0.514
92371791|NCT03817463|184647088|OTHER||Rate Ratio|0.97|||||TWO_SIDED|95.0|0.94|1.0|||||Poisson regression model was used.|Outpatient healthcare visits - Taiwan||1.00|0.94|
92371792|NCT03817463|184647089|OTHER||Rate Ratio|0.91|||||TWO_SIDED|95.0|0.89|0.94|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different antidiabetic drugs - Japan||0.94|0.89|
92371793|NCT03817463|184647089|OTHER||Rate Ratio|0.86|||||TWO_SIDED|95.0|0.81|0.93|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different antidiabetic drugs - South Korea||0.93|0.81|
92371794|NCT03817463|184647089|OTHER||Rate Ratio|1.09|||||TWO_SIDED|95.0|1.08|1.11|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different antidiabetic drugs - Taiwan||1.11|1.08|
92371795|NCT03817463|184647089|OTHER||Rate Ratio|1.11|||||TWO_SIDED|95.0|1.1|1.12|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - Finland||1.12|1.10|
92371796|NCT03817463|184647089|OTHER||Rate Ratio|0.82|||||TWO_SIDED|95.0|0.81|0.83|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - Japan||0.83|0.81|
92371797|NCT03817463|184647089|OTHER||Rate Ratio|0.99|||||TWO_SIDED|95.0|0.99|1.0|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - South Korea||1.00|0.99|
92371798|NCT03817463|184647089|OTHER||Rate Ratio|1.12|||||TWO_SIDED|95.0|1.11|1.14|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - Norway||1.14|1.11|
92371799|NCT03817463|184647089|OTHER||Rate Ratio|1.26|||||TWO_SIDED|95.0|1.25|1.27|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - Sweden||1.27|1.25|
92407773|NCT01166282|184705195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|27.7|||=|0.111|TWO_SIDED|95.0|-2.0|57.5|||Fisher Exact|||||57.5|-2.0|=0.111
92371800|NCT03817463|184647089|OTHER||Rate Ratio|1.0|||||TWO_SIDED|95.0|0.98|1.02|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - Taiwan||1.02|0.98|
92371801|NCT03817463|184647089|OTHER||Rate Ratio|1.01|||||TWO_SIDED|95.0|1.01|1.02|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - Finland||1.02|1.01|
92371802|NCT03817463|184647089|OTHER||Rate Ratio|0.83|||||TWO_SIDED|95.0|0.82|0.84|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - Japan||0.84|0.82|
92371803|NCT03817463|184647089|OTHER||Rate Ratio|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - South Korea||1.01|0.99|
92371804|NCT03817463|184647089|OTHER||Rate Ratio|0.93|||||TWO_SIDED|95.0|0.92|0.93|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - Norway||0.93|0.92|
92371805|NCT03817463|184647089|OTHER||Rate Ratio|0.86|||||TWO_SIDED|95.0|0.84|0.87|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - Spain||0.87|0.84|
92240182|NCT00739297|184383840|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.04||||||95.0|-0.01|0.08|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.08|-0.01|
92371806|NCT03817463|184647089|OTHER||Rate Ratio|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - Sweden||1.00|1.00|
92371807|NCT03817463|184647090|OTHER||Rate Ratio|0.89|||||TWO_SIDED|95.0|0.83|0.94|||||Poisson regression model was used.|Total cost - Finland||0.94|0.83|
92371808|NCT03817463|184647090|OTHER||Rate Ratio|0.98|||||TWO_SIDED|95.0|0.86|1.12|||||Poisson regression model was used.|Total costs - Norway||1.12|0.86|
92371809|NCT03817463|184647090|OTHER||Rate Ratio|0.98|||||TWO_SIDED|95.0|0.92|1.05|||||Poisson regression model was used.|Total costs - Sweden||1.05|0.92|
92371810|NCT03817463|184647091|OTHER||Rate Ratio|0.84|||||TWO_SIDED|95.0|0.8|0.88|||||Poisson regression model was used.|||0.88|0.80|
92371811|NCT03817463|184647092|OTHER||Rate Ratio|0.76|||||TWO_SIDED|95.0|0.34|1.68|||||Poisson regression model was used.|Total costs - South Korea||1.68|0.34|
92371812|NCT03817463|184647093|OTHER||Rate Ratio|0.97|||||TWO_SIDED|95.0|0.92|1.03|||||Poisson regression model was used.|Total costs - Taiwan||1.03|0.92|
92371813|NCT00218634|184647163|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||HLM|||We used HLM with weekly visit data for the acute outcome. There were, therefore, 11 time points used.||||<.05
92371814|NCT00218634|184647164|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||GLM - CBT-AD would be superior to ETAU at post. HLM - CBT-AD would be superior to CBT-AD at follow ups.|GLM and HLM|||||||<.05
92371815|NCT00218634|184647166|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||CD4 would be more improved in the treatment condition|HLM|||follow up analysis revealed that CD4, over time, significantly improved over control when covarying out baseline levels.||||<.05
92371816|NCT02589665|184647171|SUPERIORITY||Odds Ratio (OR)|2.93|||||TWO_SIDED|95.0|0.7|12.27||||||||12.27|0.70|
92371817|NCT02589665|184647171|SUPERIORITY||Odds Ratio (OR)|7.22|||||TWO_SIDED|95.0|1.88|27.65||||||||27.65|1.88|
92371818|NCT02589665|184647171|SUPERIORITY||Odds Ratio (OR)|3.61|||||TWO_SIDED|95.0|0.92|14.17||||||||14.17|0.92|
92371819|NCT02589665|184647172|SUPERIORITY||Odds Ratio (OR)|3.95|||||TWO_SIDED|95.0|1.73|8.98||||||||8.98|1.73|
92371820|NCT02589665|184647172|SUPERIORITY||Odds Ratio (OR)|6.78|||||TWO_SIDED|95.0|2.94|15.63||||||||15.63|2.94|
92371821|NCT02589665|184647172|SUPERIORITY||Odds Ratio (OR)|2.78|||||TWO_SIDED|95.0|1.23|6.29||||||||6.29|1.23|
92371822|NCT02589665|184647173|SUPERIORITY|||||||0.986|||||||Mantel Haenszel|||||||0.986
92371823|NCT02589665|184647173|SUPERIORITY|||||||0.553|||||||Mantel Haenszel|||||||0.553
92371824|NCT02589665|184647173|SUPERIORITY|||||||0.56|||||||Mantel Haenszel|||||||0.560
92371825|NCT02589665|184647174|SUPERIORITY||Odds Ratio (OR)|2.29|||||TWO_SIDED|95.0|0.8|6.55||||||||6.55|0.80|
92371826|NCT02589665|184647175|SUPERIORITY||Mean Difference (Final Values)|22.9|||||TWO_SIDED|95.0|11.0|34.9||||||||34.9|11.0|
92371827|NCT02589665|184647175|SUPERIORITY||Mean Difference (Final Values)|20.5|||||TWO_SIDED|95.0|8.7|32.3||||||||32.3|8.7|
92371828|NCT02589665|184647175|SUPERIORITY||Mean Difference (Final Values)|10.7|||||TWO_SIDED|95.0|-1.0|22.5||||||||22.5|-1.0|
92371829|NCT02589665|184647177|SUPERIORITY||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-1.39|-0.41||||||||-0.41|-1.39|
92371830|NCT02589665|184647177|SUPERIORITY||Mean Difference (Final Values)|-1.06|||||TWO_SIDED|95.0|-1.54|-0.59||||||||-0.59|-1.54|
92407774|NCT01166282|184705196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|34.8|||=|0.031|TWO_SIDED|95.0|8.1|61.6|||Fisher Exact|||||61.6|8.1|=0.031
92407775|NCT00531661|184705198|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Negative Binomial Regression|||||||0.0002
92371831|NCT02589665|184647177|SUPERIORITY||Mean Difference (Final Values)|-0.59|||||TWO_SIDED|95.0|-1.07|-0.11||||||||-0.11|-1.07|
92371832|NCT02589665|184647180|SUPERIORITY||Odds Ratio (OR)|3.61||||0.003|TWO_SIDED|95.0|1.57|8.31|||Regression, Logistic|||||8.31|1.57|0.003
92371833|NCT02589665|184647180|SUPERIORITY||Odds Ratio (OR)|6.54|||<|0.001|TWO_SIDED|95.0|2.81|15.2|||Regression, Logistic|||||15.20|2.81|<0.001
92371834|NCT02589665|184647180|SUPERIORITY||Odds Ratio (OR)|2.27||||0.054|TWO_SIDED|95.0|0.98|5.22|||Regression, Logistic|||||5.22|0.98|0.054
92371835|NCT02589665|184647181|SUPERIORITY||Odds Ratio (OR)|0.48||||0.131|TWO_SIDED|95.0|0.19|1.24|||Regression, Logistic|||||1.24|0.19|0.131
92371836|NCT02589665|184647182|SUPERIORITY||Odds Ratio (OR)|2.25||||0.215|TWO_SIDED|95.0|0.63|8.07|||Regression, Logistic|||||8.07|0.63|0.215
92407776|NCT00531661|184705199|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||exact test of binomial proportions|P-value from exact test of binomial proportions compared proportion of all implantation cases free from DSRC to OPC of 0.80.||"Analysis of DSRC was based on the following pre-specified objective performance criteria: the lower limit of the two-sided 95.2% confidence interval on the freedom from DSRC rate for all implantation cases was at least 80%. The statistical hypotheses were:~Null: (Freedom from device / system-related complications) ≤ 80%~Alternative: (Freedom from device / system-related complications) \> 80%"||||<0.0001
92407777|NCT00531661|184705200|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||exact test of binomial proportions|P-value from exact test of binomial proportions compared proportion of all implanted patients free from pressure sensor failure to OPC of 0.90.||"Analysis of sensor failures was based on the following pre-specified objective performance criteria: the lower limit of the two-sided 95.2% confidence interval on the freedom from pressure sensor failure rate for all patients implanted was at least 90%. The statistical hypotheses were:~Null: (Freedom from device / system-related complications) ≤ 90%~Alternative: (Freedom from device / system-related complications) \> 90%"||||<0.0001
92407778|NCT00531661|184705201|SUPERIORITY_OR_OTHER|||||||0.0077||95.0|||||ANCOVA|||||||0.0077
92371837|NCT02589665|184647182|SUPERIORITY||Odds Ratio (OR)|7.7|||<|0.001|TWO_SIDED|95.0|2.37|25.0|||Regression, Logistic|||||25.00|2.37|<0.001
92371838|NCT02589665|184647182|SUPERIORITY||Odds Ratio (OR)|4.62||||0.012|TWO_SIDED|95.0|1.41|15.14|||Regression, Logistic|||||15.14|1.41|0.012
92407779|NCT00531661|184705202|SUPERIORITY_OR_OTHER|||||||0.0292||95.0|||||Fisher Exact|||||||0.0292
92407780|NCT00531661|184705203|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0280
92240183|NCT00739297|184383840|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.1||||||95.0|0.04|0.15|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.15|0.04|
92371839|NCT02589665|184647183|SUPERIORITY||Odds Ratio (OR)|0.71||||0.428|TWO_SIDED|95.0|0.31|1.65|||Regression, Logistic|||||1.65|0.31|0.428
92371840|NCT01120236|184647186|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.24||||0.16|TWO_SIDED||||||Fisher Exact||Arm I (Androgen Deprivation and Cixutumumab) represents the numerator and Arm II (Androgen Deprivation Therapy) represents the denominator for relative risk.|An intention-to-treat approach was used in analysis of the primary endpoint. A 45% undetectable PSA \<= 0.2 ng/mL rate at 28 weeks was assumed for (control) arm II , based on data from SWOG 9346. Using a one-sided type I error rate of 0.10, we had 90% statistical power to detect an absolute difference of 20% in the undetectable PSA rate with the addition of cixutumumab using Fisher's exact test.||||0.16
92371841|NCT01120236|184647188|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.82||||0.11|TWO_SIDED||||||Fisher Exact||Arm I (Androgen Deprivation and Cixutumumab) represents the numerator and Arm II (Androgen Deprivation Therapy) represents the denominator for relative risk.|Proportion of patients in each arm with PSA \> 4 ng/mL after seven cycles of protocol treatment were compared.||||0.11
92371842|NCT01751906|184647233|SUPERIORITY|||||||0.9256|||||||Chi-squared|||||||0.9256
92371843|NCT01751906|184647234|SUPERIORITY|||||||0.504|||||||Fisher Exact|||||||0.5040
92371844|NCT01751906|184647235|SUPERIORITY|||||||0.2126|||||||Fisher Exact|||||||0.2126
92371845|NCT01751906|184647262|SUPERIORITY|||||||0.0665|||||||Chi-squared|||||||0.0665
92371846|NCT01018134|184647288|SUPERIORITY_OR_OTHER|||||||0.4261|||||||t-test, 1 sided|||||||0.4261
92371847|NCT01018134|184647288|SUPERIORITY_OR_OTHER|||||||0.4219|||||||t-test, 1 sided|||||||0.4219
92371848|NCT01018134|184647288|SUPERIORITY_OR_OTHER|||||||0.1826|||||||t-test, 1 sided|||||||0.1826
92371849|NCT01018134|184647288|SUPERIORITY_OR_OTHER|||||||0.009||||||Statistically significant difference between treatment groups|t-test, 1 sided|||||||0.0090
92371850|NCT01018134|184647288|SUPERIORITY_OR_OTHER|||||||0.3421|||||||t-test, 1 sided|||||||0.3421
92371851|NCT01018134|184647288|SUPERIORITY_OR_OTHER|||||||0.01||||||Statistically significant difference between treatment groups|t-test, 1 sided|||||||0.0100
92371852|NCT01018134|184647288|SUPERIORITY_OR_OTHER|||||||0.2103|||||||t-test, 1 sided|||||||0.2103
92371853|NCT01018134|184647288|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 1 sided|||||||0.1200
92371854|NCT01018134|184647289|SUPERIORITY_OR_OTHER|||||||0.2631|||||||t-test, 1 sided|||||||0.2631
92371855|NCT01018134|184647289|SUPERIORITY_OR_OTHER|||||||0.2968|||||||t-test, 1 sided|||||||0.2968
92371856|NCT01018134|184647289|SUPERIORITY_OR_OTHER|||||||0.0186||||||statistically significant difference between treatment groups|t-test, 1 sided|||||||0.0186
92371857|NCT01018134|184647289|SUPERIORITY_OR_OTHER|||||||0.0361||||||statistically significant difference between treatment groups|t-test, 1 sided|||||||0.0361
92371858|NCT01018134|184647289|SUPERIORITY_OR_OTHER|||||||0.007||||||statistically significant difference between treatment groups|t-test, 1 sided|||||||0.0070
92371859|NCT01018134|184647289|SUPERIORITY_OR_OTHER|||||||0.1583|||||||t-test, 1 sided|||||||0.1583
92371860|NCT01018134|184647289|SUPERIORITY_OR_OTHER|||||||0.2078|||||||t-test, 1 sided|||||||0.2078
92371861|NCT01018134|184647289|SUPERIORITY_OR_OTHER|||||||0.2878|||||||t-test, 1 sided|||||||0.2878
92371862|NCT01018134|184647290|SUPERIORITY_OR_OTHER|||||||0.2713|||||||Wilcoxon (Mann-Whitney)|||||||0.2713
92371863|NCT01018134|184647290|SUPERIORITY_OR_OTHER|||||||0.2689|||||||Wilcoxon (Mann-Whitney)|||||||0.2689
92407781|NCT00531661|184705204|SUPERIORITY_OR_OTHER|||||||0.0236||95.0|||||t-test, 2 sided|||||||0.0236
92407782|NCT00531661|184705205|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Negative Binomial Regression|||||||<0.0001
92371864|NCT01018134|184647290|SUPERIORITY_OR_OTHER|||||||0.0419|||||||Wilcoxon (Mann-Whitney)|||||||0.0419
92371865|NCT01018134|184647290|SUPERIORITY_OR_OTHER|||||||0.0309|||||||Wilcoxon (Mann-Whitney)|||||||0.0309
92371866|NCT01018134|184647290|SUPERIORITY_OR_OTHER|||||||0.1126|||||||Wilcoxon (Mann-Whitney)|||||||0.1126
92371867|NCT01018134|184647290|SUPERIORITY_OR_OTHER|||||||0.0033|||||||Wilcoxon (Mann-Whitney)|||||||0.0033
92371868|NCT01018134|184647290|SUPERIORITY_OR_OTHER|||||||0.4967|||||||Wilcoxon (Mann-Whitney)|||||||0.4967
92407783|NCT00531661|184705206|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||exact test of binomial proportions|P-value from exact test of binomial proportions compared proportion of all implanted patients free from DSRC to OPC of 0.80.||"Analysis of DSRC was based on the following pre-specified objective performance criteria: the lower limit of the two-sided 95.2% confidence interval on the freedom from DSRC rate for all implanted patients was at least 80%. The statistical hypotheses were:~Null: (Freedom from device / system-related complications) ≤ 80%~Alternative: (Freedom from device / system-related complications) \> 80%"||||<0.0001
92407784|NCT00531661|184705207|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||exact test of binomial proportions|P-value from exact test of binomial proportions compared proportion of all implanted patients free from pressure sensor failure to OPC of 0.90.||"Analysis of sensor failures was based on the following pre-specified objective performance criteria: the lower limit of the two-sided 95.2% confidence interval on the freedom from pressure sensor failure rate for all implanted patients was at least 90%. The statistical hypotheses were:~Null: (Freedom from device / system-related complications) ≤ 90%~Alternative: (Freedom from device / system-related complications) \> 90%"||||<0.0001
92407785|NCT02023697|184705242|OTHER||Hazard Ratio (HR)|1.057||||0.7047|TWO_SIDED|80.0|0.878|1.272|||Log Rank||Arm B / Arm (A+C)|||1.272|0.878|0.7047
92407786|NCT02023697|184705244|OTHER||Hazard Ratio (HR)|1.26||||0.3134|TWO_SIDED|80.0|0.939|1.69|||Log Rank||Arm C /Arm A|||1.690|0.939|0.3134
92407787|NCT02023697|184705248|OTHER||Hazard Ratio (HR)|1.075||||0.6205|TWO_SIDED|80.0|0.892|1.297|||Log Rank||Arm B/Arm (A+C)|||1.297|0.892|0.6205
92371869|NCT01018134|184647290|SUPERIORITY_OR_OTHER|||||||0.0749|||||||Wilcoxon (Mann-Whitney)|||||||0.0749
92371870|NCT01018134|184647291|SUPERIORITY_OR_OTHER|||||||0.2442|||||||Wilcoxon (Mann-Whitney)|||||||0.2442
92371871|NCT01018134|184647291|SUPERIORITY_OR_OTHER|||||||0.2664|||||||Wilcoxon (Mann-Whitney)|||||||0.2664
92407788|NCT02023697|184705250|OTHER||Hazard Ratio (HR)|0.999||||0.9958|TWO_SIDED|80.0|0.744|1.341|||Log Rank||Arm C/Arm A|||1.341|0.744|0.9958
92371872|NCT01018134|184647291|SUPERIORITY_OR_OTHER|||||||0.1328|||||||Wilcoxon (Mann-Whitney)|||||||0.1328
92371873|NCT01018134|184647291|SUPERIORITY_OR_OTHER|||||||0.0528|||||||Wilcoxon (Mann-Whitney)|||||||0.0528
92371874|NCT01018134|184647291|SUPERIORITY_OR_OTHER|||||||0.0297|||||||Wilcoxon (Mann-Whitney)|||||||0.0297
92371875|NCT01018134|184647291|SUPERIORITY_OR_OTHER|||||||0.0093|||||||Wilcoxon (Mann-Whitney)|||||||0.0093
92371876|NCT01018134|184647291|SUPERIORITY_OR_OTHER|||||||0.223|||||||Wilcoxon (Mann-Whitney)|||||||0.2230
92371877|NCT01018134|184647291|SUPERIORITY_OR_OTHER|||||||0.1924|||||||Wilcoxon (Mann-Whitney)|||||||0.1924
92371878|NCT01018134|184647292|SUPERIORITY_OR_OTHER|||||||0.2397|||||||Wilcoxon (Mann-Whitney)|||||||0.2397
92371879|NCT01018134|184647292|SUPERIORITY_OR_OTHER|||||||0.3794|||||||Wilcoxon (Mann-Whitney)|||||||0.3794
92371880|NCT01018134|184647292|SUPERIORITY_OR_OTHER|||||||0.0383|||||||Wilcoxon (Mann-Whitney)|||||||0.0383
92371881|NCT01018134|184647292|SUPERIORITY_OR_OTHER|||||||0.0154|||||||Wilcoxon (Mann-Whitney)|||||||0.0154
92371882|NCT01018134|184647292|SUPERIORITY_OR_OTHER|||||||0.1892|||||||Wilcoxon (Mann-Whitney)|||||||0.1892
92371883|NCT01018134|184647292|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.0010
92371884|NCT01018134|184647292|SUPERIORITY_OR_OTHER|||||||0.0363|||||||Wilcoxon (Mann-Whitney)|||||||0.0363
92371885|NCT01018134|184647292|SUPERIORITY_OR_OTHER|||||||0.2162|||||||Wilcoxon (Mann-Whitney)|||||||0.2162
92371886|NCT02242435|184647293|SUPERIORITY|||||||0.26||||||Adjusted for baseline WOMAC score.|ANCOVA|||||||0.26
92371887|NCT02242435|184647294|SUPERIORITY|||||||0.3||||||Adjustment for baseline WOMAC score.|ANCOVA|||||||0.30
92371888|NCT04925076|184647295|SUPERIORITY|||||||0.92|||||||ANOVA|F(1,108)=.01||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the condition X family history X sex interaction.||||.92
92371889|NCT04925076|184647295|SUPERIORITY|||||||0.92|||||||ANOVA|F(1,108) = .01||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the condition X sex interaction.||||.92
92371890|NCT04925076|184647295|SUPERIORITY|||||||0.61|||||||Chi-squared|F(1,108) = 0.27||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the condition X family history interaction.||||.61
92371891|NCT04925076|184647295|SUPERIORITY|||||||0.01|||||||ANOVA|F(1,108) = 6.75||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the family history X sex interaction.||||.01
92407789|NCT02023697|184705254|OTHER||Hazard Ratio (HR)|1.068||||0.7461|TWO_SIDED|80.0|0.823|1.385|||Log Rank||Arm B/Arm (A+C)|||1.385|0.823|0.7461
92407790|NCT02023697|184705256|OTHER||Hazard Ratio (HR)|1.549||||0.155|TWO_SIDED|80.0|1.041|2.306|||Log Rank||Arm C/Arm A|||2.306|1.041|0.1550
92407791|NCT02023697|184705260|OTHER||Hazard Ratio (HR)|0.969||||0.8284|TWO_SIDED|80.0|0.805|1.167|||Log Rank||Arm B/Arm (A+C)|||1.167|0.805|0.8284
92407792|NCT02023697|184705262|OTHER||Hazard Ratio (HR)|1.059||||0.7896|TWO_SIDED|80.0|0.804|1.396|||Log Rank||Arm C/Arm A|||1.396|0.804|0.7896
92407793|NCT02023697|184705266|OTHER||Hazard Ratio (HR)|0.986||||0.9274|TWO_SIDED|80.0|0.803|1.21|||Log Rank||Arm B/Arm (A+C)|||1.210|0.803|0.9274
92371892|NCT04925076|184647295|SUPERIORITY|||||||0.05|||||||ANOVA|F(1,108) = 3.83||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the main effect of condition.||||.05
92371893|NCT04925076|184647295|SUPERIORITY|||||||0.003|||||||ANOVA|F(1,108) = 9.53||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the main effect of family history.||||.003
92371894|NCT04925076|184647295|SUPERIORITY|||||||0.12|||||||ANOVA|F(1,108) = 2.41||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the main effect of sex.||||.12
92371895|NCT04925076|184647296|SUPERIORITY|||||||0.38|||||||ANOVA|F(1,107) = 0.78||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the condition X family history X sex interaction.||||.38
92371896|NCT04925076|184647296|SUPERIORITY|||||||0.27|||||||ANOVA|F(1,107) = 0.27||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the condition X sex interaction.||||.27
92371897|NCT04925076|184647296|SUPERIORITY|||||||0.7|||||||ANOVA|F(1,107) = 0.15||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the condition X family history interaction.||||.70
92407794|NCT02023697|184705268|OTHER||Hazard Ratio (HR)|1.134||||0.5754|TWO_SIDED|80.0|0.85|1.514|||Log Rank||Arm C/Arm A|||1.514|0.850|0.5754
92407795|NCT02023697|184705274|OTHER||Hazard Ratio (HR)|0.898||||0.6214|TWO_SIDED|80.0|0.678|1.188|||Log Rank||Arm B/Arm (A+C)|||1.188|0.678|0.6214
92407796|NCT02023697|184705276|OTHER||Hazard Ratio (HR)|0.863||||0.7214|TWO_SIDED|80.0|0.505|1.475|||Log Rank||Arm C/Arm A|||1.475|0.505|0.7214
92407797|NCT00541385|184705281|OTHER|"Analysis of the PCR-corrected ACPR response rate on Day 28 for the PA group. Null hypothesis: The PCR-corrected ACPR response rate on Day 28 for the PA group is ≤90%.~Was tested versus the alternative:~Alternative hypothesis: The PCR-corrected ACPR response rate on Day 28 for the PA group is \>90%."|||||<|0.0001||||||The threshold for significance was ≤0.025.|Exact binomial test|||||||<0.0001
92371898|NCT04925076|184647296|SUPERIORITY|||||||0.05|||||||ANOVA|F(1,107) = 3.87||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the family history X sex interaction.||||.05
92371899|NCT04925076|184647296|SUPERIORITY|||||||0.03|||||||ANOVA|F(1,107) = 5.18||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the main effect of condition.||||.03
92371900|NCT04925076|184647296|SUPERIORITY|||||||0.14|||||||ANOVA|F(1,107) = 2.24||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the main effect of family history.||||.14
92371901|NCT04925076|184647296|SUPERIORITY||||||<|0.001|||||||ANOVA|F(1,107) = 17.25||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the main effect of sex.||||<.001
92371902|NCT04925076|184647297|SUPERIORITY|||||||0.83|||||||ANOVA|F(1,107) = 0.05||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the condition X family history X sex interaction.||||.83
92371903|NCT04925076|184647297|SUPERIORITY|||||||0.12|||||||ANOVA|F(1,107) = 2.43||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the condition X sex interaction.||||.12
92371904|NCT04925076|184647297|SUPERIORITY|||||||0.25|||||||ANOVA|F(1,107) = 1.36||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the condition X family history interaction.||||.25
92371905|NCT04925076|184647297|SUPERIORITY|||||||0.58|||||||ANOVA|F(1,107) = 0.31||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the family history X sex interaction.||||.58
92371906|NCT04925076|184647297|SUPERIORITY|||||||0.9|||||||ANOVA|F(1,107) = 0.02||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of condition.||||.90
92371907|NCT04925076|184647297|SUPERIORITY|||||||0.95|||||||ANOVA|F(1,107) = .004||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of family history.||||.95
92371908|NCT04925076|184647297|SUPERIORITY|||||||0.68|||||||ANOVA|F(1,107) = 0.17||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of sex.||||.68
92446277|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.093||0.3946|TWO_SIDED|95.0|-0.26|0.1|||MMRM|||Hypochondriasis, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.26|0.3946
92371909|NCT04925076|184647298|SUPERIORITY|||||||0.36|||||||ANOVA|F(1,107) = 0.83||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the condition X family history X sex interaction.||||.36
92371910|NCT04925076|184647298|SUPERIORITY|||||||0.24|||||||ANOVA|F(1,108) = 1.41||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the condition X sex interaction.||||.24
92407798|NCT00541385|184705281|NON_INFERIORITY|The secondary efficacy analysis tested the non-inferiority of PA compared to the AL group with regard to the PCR-corrected ACPR response rate on Day 28 using a 2-sided 95% confidence interval (Newcombe Wilson score method without continuity correction) and a 10% non-inferiority margin for the EE population. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval for the difference in 28-day PCR-corrected ACPR was not lower than 10%.|ACPR percent difference|-1.2||||0.3728|TWO_SIDED|95.0|-3.6|2.1||If non-inferiority of PA was demonstrated, the p-value associated with a superiority test was calculated based on a 2-sided Chi-Square test. If the calculated p-value was \<0.05, then the superiority of PA over AL was statistically demonstrated.|Chi-squared|||"Null hypothesis: The PCR-corrected ACPR response rate on Day 28 for the PA group is inferior to the PCR-corrected ACPR response rate for the AL group.~Was tested versus the alternative:~Alternative hypothesis: The PCR-corrected ACPR response rate on Day 28 for the PA group is not inferior to the PCR-corrected ACPR response rate for the AL group."||2.1|-3.6|0.3728
92407799|NCT01469377|184705289|SUPERIORITY||Least squares mean difference|-0.9||||0.2404|TWO_SIDED|95.0|-2.4|0.6||p-values were from an mixed-effects model for repeated measures with treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Mixed-effect model for repeated measures|p-values were adjusted for multiple comparisons using the matched parallel gate-keeping procedure.||||0.6|-2.4|0.2404
92407800|NCT01469377|184705289|SUPERIORITY||Least squares mean difference|-2.2||||0.0114|TWO_SIDED|95.0|-3.7|-0.6||p-values were from an mixed-effects model for repeated measures with treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Mixed-effect model for repeated measures|p-values were adjusted for multiple comparisons using the matched parallel gate-keeping procedure.||||-0.6|-3.7|0.0114
92407801|NCT01469377|184705290|SUPERIORITY||Least squares mean difference|-1.1||||0.2404|TWO_SIDED|95.0|-2.5|0.3||p-values were from an mixed-effects model for repeated measures with treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Mixed-effect model for repeated measures|p-values were adjusted for multiple comparisons using the matched parallel gate-keeping procedure.||||0.3|-2.5|0.2404
92407802|NCT01469377|184705290|SUPERIORITY||Least squares mean difference|-1.4||||0.114|TWO_SIDED|95.0|-2.8|0.0||p-values were from an mixed-effects model for repeated measures with treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Mixed-effect model for repeated measures|p-values were adjusted for multiple comparisons using the matched parallel gate-keeping procedure.||||0.0|-2.8|0.1140
92407803|NCT02839200|184705300|OTHER||||||<|0.001|||||||Multiple Comparison Procedure-Model|||"Multiple Comparison Procedure-Modeling (MCP-Mod) was used to assess a dose-response across placebo and all ACT-541468 doses. The null hypothesis of no dose-response was rejected if at least one of the six Multiple Contrasts Tests (MCTs) had a multiplicity adjusted p-value \<0.05. The analysis was performed using the R-package DoseFinding (Bornkamp B, Pinheiro J, Bretz F. Planning and analyzing dose finding experiments. 2016. Available from: cranrprojects.org/web/packages/DoseFinding.)"||||<0.001
92407804|NCT02839200|184705300|OTHER||LS mean difference|-7.0|STANDARD_ERROR_OF_MEAN|5.95||0.241|TWO_SIDED|95.0|-18.7|4.7|||ANCOVA||Parameter Dispersion Type and Dispersion Value: Standard error of the LS mean|||4.7|-18.7|0.241
92407805|NCT02839200|184705300|OTHER||LS Mean difference|-10.8|STANDARD_ERROR_OF_MEAN|6.0||0.072|TWO_SIDED|95.0|-22.6|1.0|||ANCOVA||Parameter Dispersion Type and Dispersion Value: Standard error of the LS mean|||1|-22.6|0.072
92407806|NCT02839200|184705300|OTHER||LS Mean difference|-16.2|STANDARD_ERROR_OF_MEAN|5.95||0.007|TWO_SIDED|95.0|-27.9|-4.5|||ANCOVA||Parameter Dispersion Type and Dispersion Value: Standard error of the LS mean|||-4.5|-27.9|0.007
92407807|NCT02839200|184705300|OTHER||LS Mean difference|-25.6|STANDARD_ERROR_OF_MEAN|5.92|<|0.001|TWO_SIDED|95.0|-37.3|-13.9|||ANCOVA||Parameter Dispersion Type and Dispersion Value: Standard error of the LS mean|||-13.9|-37.3|< 0.001
92407808|NCT02839200|184705300|OTHER||LS Mean difference|-8.5|STANDARD_ERROR_OF_MEAN|5.97||0.155|TWO_SIDED|95.0|-20.4|3.3|||ANCOVA||Parameter Dispersion Type and Dispersion Value: Standard error of the LS mean|||3.3|-20.4|0.155
92371911|NCT04925076|184647298|SUPERIORITY|||||||0.6|||||||ANOVA|F(1,108) = 0.28||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the condition X family history interaction.||||.60
92371912|NCT04925076|184647298|SUPERIORITY|||||||0.99|||||||ANOVA|F(1,108) = 0.00||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the family history X sex interaction.||||.99
92371913|NCT04925076|184647298|SUPERIORITY||||||<|0.001|||||||ANOVA|F(1,108) = 139.63||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of condition.||||<.001
92371914|NCT04925076|184647298|SUPERIORITY|||||||0.84|||||||ANOVA|F(1,108) = 0.04||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of family history.||||.84
92371915|NCT04925076|184647298|SUPERIORITY|||||||0.59|||||||ANOVA|F(1,108) = 0.30||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of sex.||||.59
92371916|NCT04925076|184647299|SUPERIORITY|||||||0.66|||||||ANOVA|F(1,93)=0.19||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.66
92371917|NCT04925076|184647299|SUPERIORITY|||||||0.41|||||||ANOVA|F(1,93)=0.69||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the condition X sex interaction.||||.41
92371918|NCT04925076|184647299|SUPERIORITY|||||||0.39|||||||ANOVA|F(1,93)=0.74||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the condition X family history interaction.||||.39
92371919|NCT04925076|184647299|SUPERIORITY|||||||0.22|||||||ANOVA|F(1,93)=1.54||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the family history X sex interaction.||||.22
92371920|NCT04925076|184647299|SUPERIORITY|||||||0.06|||||||ANOVA|F(1,93)=3.64||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the main effect of condition.||||.06
92371921|NCT04925076|184647299|SUPERIORITY|||||||0.99|||||||ANOVA|F(1,93)=0.000||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the main effect of family history.||||.99
92371922|NCT04925076|184647299|SUPERIORITY|||||||0.09|||||||ANOVA|F(1,93)=2.88||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the main effect of sex.||||.09
92371923|NCT04925076|184647300|SUPERIORITY|||||||0.55|||||||ANOVA|F(1,93)=0.36||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.55
92371924|NCT04925076|184647300|SUPERIORITY|||||||0.36|||||||ANOVA|F(1,93)=0.84||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the condition X sex interaction.||||.36
92371925|NCT04925076|184647300|SUPERIORITY|||||||0.36|||||||ANOVA|F(1,93)=0.84||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the condition X family history interaction.||||.36
92371926|NCT04925076|184647300|SUPERIORITY|||||||0.17|||||||ANOVA|F(1,93)=1.93||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the family history X sex interaction.||||.17
92407809|NCT02952820|184705304|SUPERIORITY||least squares geometric mean (LSGM)ratio|0.732|||<|0.0001|TWO_SIDED|95.0|0.636|0.843|||Mixed Models Analysis|||Analysis was based on mixed effect model repeated measurement analysis (MMRM) model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (missing not at random/complete case missing value \[MNAR/CCMV\]).||0.843|0.636|<.0001
92407810|NCT02952820|184705304|SUPERIORITY||LSGM ratio|0.701|||<|0.0001|TWO_SIDED|95.0|0.607|0.81|||Mixed Models Analysis|||Analysis was based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.810|0.607|<.0001
92240184|NCT00739297|184383840|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.06||||||95.0|0.02|0.11|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.11|0.02|
92371927|NCT04925076|184647300|SUPERIORITY|||||||0.55|||||||ANOVA|F(1,93)=0.36||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the main effect of condition.||||.55
92371928|NCT04925076|184647300|SUPERIORITY|||||||0.43|||||||ANOVA|F(1,93)=0.63||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the main effect of family history.||||.43
92371929|NCT04925076|184647300|SUPERIORITY|||||||0.33|||||||ANOVA|F(1,93)=0.96||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the main effect of sex.||||.33
92371930|NCT04925076|184647301|SUPERIORITY|||||||0.34|||||||ANOVA|F(1,93)=0.34||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.34
92371931|NCT04925076|184647301|SUPERIORITY|||||||0.88|||||||ANOVA|F(1,93)=0.02||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the condition X sex interaction.||||.88
92371932|NCT04925076|184647301|SUPERIORITY|||||||0.56|||||||ANOVA|F(1,93)=0.34||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the condition X family history interaction.||||.56
92371933|NCT04925076|184647301|SUPERIORITY|||||||0.9|||||||ANOVA|F(1,93)=0.02||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the family history X sex interaction.||||.90
92371934|NCT04925076|184647301|SUPERIORITY|||||||0.45|||||||ANOVA|F(1,93)=0.59||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the main effect of condition.||||.45
92371935|NCT04925076|184647301|SUPERIORITY|||||||0.85|||||||ANOVA|F(1,93)=0.04||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the main effect of family history.||||.85
92371936|NCT04925076|184647301|SUPERIORITY|||||||0.64|||||||ANOVA|F(1,93)=0.22||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex. Here we report the results of the analysis of the main effect of sex.||||.64
92371937|NCT04925076|184647302|SUPERIORITY|||||||0.3|||||||ANOVA|F(1,93)=1.07||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.30
92371938|NCT04925076|184647302|SUPERIORITY|||||||0.11|||||||ANOVA|F(1,93)=2.62||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the condition X sex interaction.||||.11
92371939|NCT04925076|184647302|SUPERIORITY|||||||0.39|||||||ANOVA|F(1,93)=0.76||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the condition X family history interaction.||||.39
92371940|NCT04925076|184647302|SUPERIORITY|||||||0.89|||||||ANOVA|F(1,93)=0.02||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the family history X sex interaction.||||.89
92371941|NCT04925076|184647302|SUPERIORITY|||||||0.01|||||||ANOVA|F(1,93)=6.72||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the main effect of condition.||||.01
92371942|NCT04925076|184647302|SUPERIORITY|||||||0.08|||||||ANOVA|F(1,93)=3.15||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the main effect of family history.||||.08
92277744|NCT00982410|184457712|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.66|||>|0.05|TWO_SIDED|95.0|-5.0|14.32|||Mixed Models Analysis|Adjusted for baseline pain tolerance. Time interval and therapy session block were utilized to model the variance.|Educational Support group = referent. Estimation parameter = CBT group minus EUC group, adjusted for BL pain tolerance. Cold tolerance distribution had ceiling and floor effects; and, \~20% of participants refused cold tolerance task in follow-up.|||14.32|-5.00|>0.05
92371943|NCT04925076|184647302|SUPERIORITY|||||||0.06|||||||ANOVA|F(1,93)=3.71||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the main effect of sex.||||.06
92371944|NCT04925076|184647303|SUPERIORITY|||||||0.29|||||||ANOVA|F(1,93)=1.14||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.29
92371945|NCT04925076|184647303|SUPERIORITY|||||||0.1|||||||ANOVA|F(1,93)=2.84||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the condition X sex interaction.||||.10
92371946|NCT04925076|184647303|SUPERIORITY|||||||0.49|||||||ANOVA|F(1,93)=0.47||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the condition X family history interaction.||||.49
92371947|NCT04925076|184647303|SUPERIORITY|||||||0.99|||||||ANOVA|F(1,93)=0.000||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the family history X sex interaction.||||.99
92371948|NCT04925076|184647303|SUPERIORITY|||||||0.13|||||||ANOVA|F(1,93)=2.29||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the main effect of condition.||||.13
92371949|NCT04925076|184647303|SUPERIORITY|||||||0.82|||||||ANOVA|F(1,93)=0.05||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the main effect of family history.||||.82
92371950|NCT04925076|184647303|SUPERIORITY|||||||0.02|||||||ANOVA|F(1,93)=6.09||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the main effect of sex.||||0.02
92371951|NCT04925076|184647304|SUPERIORITY|||||||0.32|||||||ANOVA|F(1,93)=1.01||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.32
92277745|NCT00982410|184457713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.28|||<|0.005|TWO_SIDED|95.0|3.93|16.63|||Mixed Models Analysis|Adjusted for baseline CPSS PSE score. Time interval and therapy session block were utilized to model the variance. EUC group was referent.|Adjusted for baseline CPSS PSE score. EUC group was referent. Mean difference = value for CBT minus value for Educational Support group.|||16.63|3.93|<0.005
92371952|NCT04925076|184647304|SUPERIORITY|||||||0.99|||||||ANOVA|F(1,93)=0.000||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the condition X sex interaction.||||.99
92371953|NCT04925076|184647304|SUPERIORITY|||||||0.83|||||||ANOVA|F(1,93)=0.05||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the condition X family history interaction.||||.83
92277746|NCT01016652|184457717|NON_INFERIORITY_OR_EQUIVALENCE|This is a non-inferiority analysis, with \>=5 CLUE points being the non-inferiority margin.|Mean Difference (Final Values)|-4.14|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-9.86|1.59|||Mixed Models Analysis|||"Ho: There are not significant differences between the two lenses (etafilcon A multifocal (test) vs. etafilcon A sphere (control)for Vision quality.~Ha: The test lens is greater than or equal by 5 CLUE points than the control lense."||1.59|-9.86|
92277747|NCT01016652|184457718|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin will be exceeded if the test lens is greater than or equal to 0.25D over the control lens.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|95.0|-0.09|0.1|||Mixed Models Analysis|||"Ho: There is not a difference between the test lens and the control lens for amplitude of accommodation.~Ha: Monocular amplitude of accommodation of the test lens is significantly better than the control lens"||0.10|-0.09|
92280384|NCT04543136|184463466|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.438|TWO_SIDED|95.0|-0.96|0.42||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.42|-0.96|0.438
92371954|NCT04925076|184647304|SUPERIORITY|||||||0.75|||||||ANOVA|F(1,93)=0.10||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the family history X sex interaction.||||.75
92371955|NCT04925076|184647304|SUPERIORITY|||||||0.62|||||||ANOVA|F(1,93)=0.25||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the main effect of condition.||||.62
92371956|NCT04925076|184647304|SUPERIORITY|||||||0.92|||||||ANOVA|F(1,93)=0.01||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the main effect of family history.||||.92
92371957|NCT04925076|184647304|SUPERIORITY|||||||0.39|||||||ANOVA|F(1,93)=0.76||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the main effect of sex.||||.39
92371958|NCT04925076|184647305|SUPERIORITY|||||||0.5|||||||ANOVA|F(1,93)=0.45||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.50
92371959|NCT04925076|184647305|SUPERIORITY|||||||0.28|||||||ANOVA|F(1,93)=1.20||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the condition X sex interaction.||||.28
92371960|NCT04925076|184647305|SUPERIORITY|||||||0.6|||||||ANOVA|F(1,93)=0.28||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the condition X family history interaction.||||.60
92371961|NCT04925076|184647305|SUPERIORITY|||||||0.04|||||||ANOVA|F(1,93)=4.48||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the family history X sex interaction.||||.04
92371962|NCT04925076|184647305|SUPERIORITY|||||||0.25|||||||ANOVA|F(1,93)=1.37||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the main effect of condition.||||.25
92371963|NCT04925076|184647305|SUPERIORITY|||||||0.89|||||||ANOVA|F(1,93)=0.01||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the main effect of family history.||||.89
92371964|NCT04925076|184647305|SUPERIORITY|||||||0.26|||||||ANOVA|F(1,93)=1.28||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the main effect of sex.||||.26
92371965|NCT04925076|184647306|SUPERIORITY|||||||0.76|||||||ANOVA|F(1,93)=0.09||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.76
92371966|NCT04925076|184647306|SUPERIORITY|||||||0.09|||||||ANOVA|F(1,93)=3.00||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the condition X sex interaction.||||.09
92407811|NCT02952820|184705305|SUPERIORITY||LSGM ratio|0.781|||<|0.0001|TWO_SIDED|95.0|0.725|0.842|||Mixed Models Analysis|||First 7 nights after the first dose (Statistical analysis 1): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.842|0.725|<.0001
92407812|NCT02952820|184705305|SUPERIORITY||LSGM ratio|0.752|||<|0.0001|TWO_SIDED|95.0|0.698|0.811|||Mixed Models Analysis|||First 7 nights after the first dose (Statistical analysis 2): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.811|0.698|<.0001
92407813|NCT02952820|184705305|SUPERIORITY||LSGM ratio|0.81|||<|0.0001|TWO_SIDED|95.0|0.735|0.893|||Mixed Models Analysis|||Month 1 (Statistical analysis 3): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.893|0.735|<.0001
92407814|NCT02952820|184705305|SUPERIORITY||LSGM ratio|0.77|||<|0.0001|TWO_SIDED|95.0|0.698|0.848|||Mixed Models Analysis|||Month 1 (Statistical analysis 4): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.848|0.698|<.0001
92407815|NCT02952820|184705305|SUPERIORITY||LSGM ratio|0.778|||<|0.0001|TWO_SIDED|95.0|0.69|0.878|||Mixed Models Analysis|||Month 3 (Statistical analysis 5): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.878|0.690|<.0001
92407816|NCT02952820|184705305|SUPERIORITY||LSGM ratio|0.77|||<|0.0001|TWO_SIDED|95.0|0.681|0.869|||Mixed Models Analysis|||Month 3 (Statistical analysis 6): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.869|0.681|<.0001
92407817|NCT02952820|184705306|SUPERIORITY||LSM Difference|4.299|STANDARD_ERROR_OF_MEAN|0.848|<|0.0001|TWO_SIDED|95.0|2.638|5.961|||Mixed Models Analysis|||First 7 nights (Statistical analysis 1): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||5.961|2.638|<.0001
92407818|NCT02952820|184705306|SUPERIORITY||LSM Difference|5.793|STANDARD_ERROR_OF_MEAN|0.846|<|0.0001|TWO_SIDED|95.0|4.133|7.452|||Mixed Models Analysis|||First 7 nights (Statistical analysis 2): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||7.452|4.133|<.0001
92407819|NCT02952820|184705306|SUPERIORITY||LSM Difference|2.227|STANDARD_ERROR_OF_MEAN|0.979||0.023|TWO_SIDED|95.0|0.307|4.146|||Mixed Models Analysis|||Month 1 (Statistical analysis 3): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||4.146|0.307|0.0230
92407820|NCT02952820|184705306|SUPERIORITY||LSM Difference|3.615|STANDARD_ERROR_OF_MEAN|1.01||0.0003|TWO_SIDED|95.0|1.635|5.595|||Mixed Models Analysis|||Month 1 (Statistical analysis 4): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||5.595|1.635|0.0003
92407821|NCT02952820|184705306|SUPERIORITY||LSM Difference|4.222|STANDARD_ERROR_OF_MEAN|1.099||0.0001|TWO_SIDED|95.0|2.068|6.377|||Mixed Models Analysis|||Month 3 (Statistical analysis 5): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||6.377|2.068|0.0001
92371967|NCT04925076|184647306|SUPERIORITY|||||||0.76|||||||ANOVA|F(1,93)=0.10||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the condition X family history interaction.||||.76
92371968|NCT04925076|184647306|SUPERIORITY|||||||0.77|||||||ANOVA|F(1,93)=0.09||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the family history X sex interaction.||||.77
92277748|NCT02034799|184457723|NON_INFERIORITY_OR_EQUIVALENCE|The assumed proportion of success for SOC is 0.95 and the proportion of success for the Bioseal group at which the power is calculated is 0.95. A sample size of 112 subjects per group achieves 80% power to detect the non-inferiority margin difference between the group proportions of -0.10. One-sided significance level of 0.025 was used. Using drop-out rate of 10%, 125 subjects per treatment group were randomized for a total of 250 subjects.|Risk Difference (RD)|0.0781|||||TWO_SIDED|95.0|-0.048|0.199||||||H0: Delta \</= -0.1 HA: Delta \> -0.1 Delta is difference in proportion of successes between Bioseal and SOC gropus (Bioseal minus SOC). Success is defined as hemostasis at the TBS at 6 minutes following treatment application||0.199|-0.048|
92277749|NCT01341639|184457764|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|11.37|||<|0.001|TWO_SIDED|95.0|8.44|14.68||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for PRP|PR5I minus INFANRIX™ hexa|14.68|8.44|< 0.001
92277750|NCT01341639|184457764|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.0|||<|0.001|TWO_SIDED|95.0|-0.95|0.96||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Diphtheria|PR5I minus INFANRIX™ hexa|0.96|-0.95|< 0.001
92277751|NCT01341639|184457764|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.0|||<|0.001|TWO_SIDED|95.0|-0.71|0.74|||Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Tetanus|PR5I minus INFANRIX™ hexa|0.74|-0.71|< 0.001
92371969|NCT04925076|184647306|SUPERIORITY|||||||0.52|||||||ANOVA|F(1,93)=0.41||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the main effect of condition.||||.52
92371970|NCT04925076|184647306|SUPERIORITY|||||||0.93|||||||ANOVA|F(1,93)=0.007||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain hippocampus activation. Here we report the results of the analysis of the main effect of family history.||||.93
92371971|NCT04925076|184647306|SUPERIORITY|||||||0.42|||||||ANOVA|F(1,93)=0.64||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the main effect of sex.||||.42
92240185|NCT00739297|184383840|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.05||||||95.0|-0.01|0.11|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.11|-0.01|
92240186|NCT00739297|184383840|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.08||||||95.0|0.04|0.13|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.13|0.04|
92240187|NCT00739297|184383841|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.19||||||95.0|0.04|0.34|||||Repeated measures model with terms for treatment (Albuterol/Placebo), dose, treatment-by-dose interaction and baseline FEV1|||0.34|0.04|
92240188|NCT00739297|184383842|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.06||||||95.0|-0.01|0.12|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.12|-0.01|
92240189|NCT00739297|184383842|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.07||||||95.0|0.0|0.15|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.15|-0.00|
92240190|NCT00739297|184383842|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.05||||||95.0|-0.01|0.11|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.11|-0.01|
92240191|NCT00739297|184383842|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.06||||||95.0|-0.03|0.14|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.14|-0.03|
92240192|NCT00739297|184383842|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.08||||||95.0|0.01|0.15|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.15|0.01|
92240193|NCT00739297|184383843|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.04||||||95.0|-0.03|0.1|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.10|-0.03|
92240194|NCT00739297|184383843|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.09||||||95.0|0.01|0.17|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.17|0.01|
92240195|NCT00739297|184383843|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.05||||||95.0|-0.01|0.1|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.10|-0.01|
92240196|NCT00739297|184383843|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.07||||||95.0|-0.02|0.15|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.15|-0.02|
92240197|NCT00739297|184383843|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.08||||||95.0|0.01|0.15|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.15|0.01|
92240198|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.54|0.92||||||Public insurance||0.92|0.54|
92240199|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|1.92|||||TWO_SIDED|95.0|1.5|2.46||||||Diabetes support service available||2.46|1.50|
92371972|NCT04925076|184647307|SUPERIORITY|||||||0.44|||||||ANOVA|F(1,93)=0.62||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.44
92371973|NCT04925076|184647307|SUPERIORITY|||||||0.27|||||||ANOVA|F(1,93)=1.23||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the condition X sex interaction.||||.27
92371974|NCT04925076|184647307|SUPERIORITY|||||||0.06|||||||ANOVA|F(1,93)=3.66||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the condition X family history interaction.||||.06
92240200|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|1.38|2.49||||||Baseline HbA1c \> 7.80 (reference:HbA1c≤7.80 median)||2.49|1.38|
92240201|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|1.54|||||TWO_SIDED|95.0|1.15|2.07||||||Baseline HbA1c missing (reference:HbA1c≤7.80 median)||2.07|1.15|
92371975|NCT04925076|184647307|SUPERIORITY|||||||0.73|||||||ANOVA|F(1,93)=0.13||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the family history X sex interaction.||||.73
92371976|NCT04925076|184647307|SUPERIORITY|||||||0.047|||||||ANOVA|F(1,93)=4.04||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the main effect of condition.||||.047
92407822|NCT02952820|184705306|SUPERIORITY||LSM Difference|4.361|STANDARD_ERROR_OF_MEAN|1.092|<|0.0001|TWO_SIDED|95.0|2.22|6.501|||Mixed Models Analysis|||Month 3 (Statistical analysis 6): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||6.501|2.220|<.0001
92407823|NCT02952820|184705306|SUPERIORITY||LSM Difference|4.549|STANDARD_ERROR_OF_MEAN|1.179||0.0001|TWO_SIDED|95.0|2.236|6.861|||Mixed Models Analysis|||Month 6 (Statistical analysis 7): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||6.861|2.236|0.0001
92371977|NCT04925076|184647307|SUPERIORITY|||||||0.97|||||||ANOVA|F(1,93)=0.001||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the main effect of family history.||||.97
92407824|NCT02952820|184705306|SUPERIORITY||LSM Difference|4.667|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|2.373|6.96|||Mixed Models Analysis|||Month 6 (Statistical analysis 8): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||6.960|2.373|<.0001
92407825|NCT02952820|184705307|SUPERIORITY||Least square mean (LSM) Difference|-14.328|STANDARD_ERROR_OF_MEAN|3.614|<|0.0001|TWO_SIDED|95.0|-21.411|-7.245|||Mixed Models Analysis|||First 7 nights (Statistical analysis 1): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-7.245|-21.411|<.0001
92407826|NCT02952820|184705307|SUPERIORITY||LSM Difference|-16.72|STANDARD_ERROR_OF_MEAN|3.619|<|0.0001|TWO_SIDED|95.0|-23.813|-9.626|||Mixed Models Analysis|||First 7 nights (Statistical analysis 2): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-9.626|-23.813|<.0001
92407827|NCT02952820|184705307|SUPERIORITY||LSM Difference|-5.514|STANDARD_ERROR_OF_MEAN|4.109||0.1796|TWO_SIDED|95.0|-13.568|2.54|||Mixed Models Analysis|||Month 1 (Statistical analysis 3): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||2.540|-13.568|0.1796
92407828|NCT02952820|184705307|SUPERIORITY||LSM Difference|-7.005|STANDARD_ERROR_OF_MEAN|4.129||0.0898|TWO_SIDED|95.0|-15.098|1.088|||Mixed Models Analysis|||Month 1 (Statistical analysis 4): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||1.088|-15.098|0.0898
92407829|NCT02952820|184705307|SUPERIORITY||LSM Difference|-13.424|STANDARD_ERROR_OF_MEAN|4.486||0.0028|TWO_SIDED|95.0|-22.218|-4.631|||Mixed Models Analysis|||Month 3 (Statistical analysis 5): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-4.631|-22.218|0.0028
92407830|NCT02952820|184705307|SUPERIORITY||LSM Difference|-10.079|STANDARD_ERROR_OF_MEAN|4.578||0.0277|TWO_SIDED|95.0|-19.053|-1.104|||Mixed Models Analysis|||Month 3 (Statistical analysis 6): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-1.104|-19.053|0.0277
92407831|NCT02952820|184705307|SUPERIORITY||LSM Difference|-17.474|STANDARD_ERROR_OF_MEAN|5.014||0.0005|TWO_SIDED|95.0|-27.306|-7.643|||Mixed Models Analysis|||Month 6 (Statistical analysis 7): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-7.643|-27.306|0.0005
92407832|NCT02952820|184705307|SUPERIORITY||LSM Difference|-12.671|STANDARD_ERROR_OF_MEAN|4.951||0.0105|TWO_SIDED|95.0|-22.378|-2.964|||Mixed Models Analysis|||Month 6 (Statistical analysis 8): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-2.964|-22.378|0.0105
92407833|NCT02952820|184705308|SUPERIORITY||LSM Difference|22.034|STANDARD_ERROR_OF_MEAN|4.354|<|0.0001|TWO_SIDED|95.0|13.488|30.579|||Mixed Models Analysis|||First 7 Nights After the First Dose (Statistical analysis 1): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||30.579|13.488|<.0001
92240202|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|1.46|||||TWO_SIDED|95.0|1.13|1.88||||||Diabetes duration \> 11 years||1.88|1.13|
92371978|NCT04925076|184647307|SUPERIORITY|||||||0.82|||||||ANOVA|F(1,93)=0.05||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the main effect of sex.||||.82
92371979|NCT04925076|184647308|SUPERIORITY|||||||0.45|||||||ANOVA|F(1,93)=0.57||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||0.45
92168851|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.14||0.8782|TWO_SIDED|95.0|-0.29|0.25|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.25|-0.29|0.8782
92371980|NCT04925076|184647308|SUPERIORITY|||||||0.59|||||||ANOVA|F(1,93)=0.29||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the condition X sex interaction.||||.59
92371981|NCT04925076|184647308|SUPERIORITY|||||||0.07|||||||ANOVA|F(1,93)=3.41||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the condition X family history interaction.||||.07
92371982|NCT04925076|184647308|SUPERIORITY|||||||0.61|||||||ANOVA|F(1,93)=0.26||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the family history X sex interaction.||||.61
92371983|NCT04925076|184647308|SUPERIORITY|||||||0.82|||||||ANOVA|F(1,93)=0.05||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the main effect of condition.||||.82
92277752|NCT01341639|184457764|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.19|||<|0.001|TWO_SIDED|95.0|-0.51|1.07||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for IPV1|PR5I minus INFANRIX™ hexa|1.07|-0.51|< 0.001
92371984|NCT04925076|184647308|SUPERIORITY|||||||0.63|||||||ANOVA|F(1,93)=0.23||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the main effect of family history.||||.63
92371985|NCT04925076|184647308|SUPERIORITY|||||||0.55|||||||ANOVA|F(1,93)=0.36||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the main effect of sex.||||.55
92371986|NCT04925076|184647309|SUPERIORITY|||||||0.57|||||||ANOVA|F(1,93)=0.32||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.57
92371987|NCT04925076|184647309|SUPERIORITY|||||||0.14|||||||ANOVA|F(1,93)=2.17||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the condition X sex interaction.||||.14
92371988|NCT04925076|184647309|SUPERIORITY|||||||0.69|||||||ANOVA|F(1,93)=0.32||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the condition X family history interaction.||||.69
92407834|NCT02952820|184705308|SUPERIORITY||LSM Difference|31.796|STANDARD_ERROR_OF_MEAN|4.35|<|0.0001|TWO_SIDED|95.0|23.258|40.334|||Mixed Models Analysis|||First 7 nights after the first dose (Statistical analysis 2): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||40.334|23.258|<.0001
92407835|NCT02952820|184705308|SUPERIORITY||LSM Difference|11.76|STANDARD_ERROR_OF_MEAN|5.269||0.0259|TWO_SIDED|95.0|1.418|22.102|||Mixed Models Analysis|||Month 1 (Statistical analysis 3): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||22.102|1.418|0.0259
92371989|NCT04925076|184647309|SUPERIORITY|||||||0.34|||||||ANOVA|F(1,93)=0.92||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the family history X sex interaction.||||.34
92371990|NCT04925076|184647309|SUPERIORITY|||||||0.29|||||||ANOVA|F(1,93)=1.16||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the main effect of condition.||||0.29
92371991|NCT04925076|184647309|SUPERIORITY|||||||0.95|||||||ANOVA|F(1,93)=0.004||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the main effect of family history.||||.95
92371992|NCT04925076|184647309|SUPERIORITY|||||||0.11|||||||ANOVA|F(1,93)=2.65||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the main effect of sex.||||.11
92371993|NCT00420004|184647332|SUPERIORITY_OR_OTHER|||||||0.494|||||||Mixed Models Analysis|||||||0.494
92371994|NCT01610557|184647355|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3||||0.039|TWO_SIDED|95.0|0.07|2.5|||Linear mixed-effects model||The difference represents the estimated difference between ranibizumab and bevacizumab, adjusted for baseline visual acuity, study period, and clinical site and a subject effect for eyes nested within subject.|||2.5|0.07|0.039
92371995|NCT01610557|184647356|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-48.0|||<|0.001|TWO_SIDED|95.0|-65.0|-31.0|||Linear mixed-effects model||The difference represents the estimated difference between ranibizumab and bevacizumab, adjusted for baseline visual acuity, study period, and clinical site and a subject effect for eyes nested within subject.|||-31|-65|<0.001
92371996|NCT01942668|184647357|SUPERIORITY||Mean Difference (Final Values)|-12.81|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-19.29|-6.32||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-6.32|-19.29|<0.001
92371997|NCT01942668|184647357|SUPERIORITY||Mean Difference (Final Values)|-8.07|STANDARD_ERROR_OF_MEAN|3.25||0.013|TWO_SIDED|95.0|-14.46|-1.68||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-1.68|-14.46|0.013
92371998|NCT01942668|184647357|SUPERIORITY||Mean Difference (Final Values)|-4.81|STANDARD_ERROR_OF_MEAN|3.26||0.141|TWO_SIDED|95.0|-11.21|1.59||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||1.59|-11.21|0.141
92371999|NCT01942668|184647357|SUPERIORITY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|3.22||0.001|TWO_SIDED|95.0|-16.73|-4.08||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-4.08|-16.73|0.001
92372000|NCT01942668|184647358|SUPERIORITY||Mean Difference (Final Values)|-16.58|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-23.33|-9.82||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-9.82|-23.33|<0.001
92280385|NCT04543136|184463466|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.689|TWO_SIDED|95.0|-0.55|0.83||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.83|-0.55|0.689
92372001|NCT01942668|184647358|SUPERIORITY||Mean Difference (Final Values)|-15.07|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-21.72|-8.42||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-8.42|-21.72|<0.001
92372002|NCT01942668|184647358|SUPERIORITY||Mean Difference (Final Values)|-10.79|STANDARD_ERROR_OF_MEAN|3.41||0.002|TWO_SIDED|95.0|-17.48|-4.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-4.10|-17.48|0.002
92372003|NCT01942668|184647358|SUPERIORITY||Mean Difference (Final Values)|-11.71|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|-18.31|-5.11||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-5.11|-18.31|<0.001
92407836|NCT02952820|184705308|SUPERIORITY||LSM Difference|22.131|STANDARD_ERROR_OF_MEAN|5.286|<|0.0001|TWO_SIDED|95.0|11.757|32.505|||Mixed Models Analysis|||Month 1 (Statistical analysis 4): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||32.505|11.757|<.0001
92407837|NCT02952820|184705308|SUPERIORITY||LSM Difference|17.374|STANDARD_ERROR_OF_MEAN|5.906||0.0034|TWO_SIDED|95.0|5.781|28.968|||Mixed Models Analysis|||Month 3 (Statistical analysis 5): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||28.968|5.781|0.0034
92277753|NCT01341639|184457764|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.19|||<|0.001|TWO_SIDED|95.0|-0.69|1.21||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for IPV2|PR5I minus INFANRIX™ hexa|1.21|-0.69|< 0.001
92277754|NCT01341639|184457764|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|0.73||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for IPV3|PR5I minus INFANRIX™ hexa|0.73|-0.7|< 0.001
92277755|NCT01341639|184457765|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.58|||<|0.001|TWO_SIDED|95.0|-0.49|1.85||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for HBsAg|PR5I minus INFANRIX™ hexa|1.85|-0.49|< 0.001
92280386|NCT04543136|184463467|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.309|TWO_SIDED|95.0|-0.92|0.3||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.30|-0.92|0.309
92372004|NCT01942668|184647359|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.061||0.031|TWO_SIDED|95.0|-0.25|-0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-0.01|-0.25|0.031
92372005|NCT01942668|184647359|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.005|TWO_SIDED|95.0|-0.28|-0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-0.05|-0.28|0.005
92372006|NCT01942668|184647359|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.401|TWO_SIDED|95.0|-0.17|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||0.07|-0.17|0.401
92372007|NCT01942668|184647359|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.059||0.1|TWO_SIDED|95.0|-0.21|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||0.02|-0.21|0.100
92372008|NCT01942668|184647360|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.77|-0.38||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-0.38|-0.77|<0.001
92372009|NCT01942668|184647360|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.59|-0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-0.20|-0.59|<0.001
92372010|NCT01942668|184647360|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.018|TWO_SIDED|95.0|-0.43|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-0.04|-0.43|0.018
92372011|NCT01942668|184647360|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.098||0.096|TWO_SIDED|95.0|-0.36|0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||0.03|-0.36|0.096
92372012|NCT01942668|184647361|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||1.06||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 1 mg / Progesterone 100 mg.||1.06||
92280387|NCT04543136|184463467|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.109|TWO_SIDED|95.0|-1.1|0.11||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.11|-1.10|0.109
92372013|NCT01942668|184647361|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||0.98||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.5 mg / Progesterone 100 mg.||0.98||
92372014|NCT01942668|184647361|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||0.97||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.5 mg / Progesterone 50 mg.||0.97||
92372015|NCT01942668|184647361|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||1.09||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.25 mg / Progesterone 50 mg.||1.09||
92372016|NCT01942668|184647361|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||3.2||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Placebo.||3.20||
92372017|NCT01942668|184647362|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||1.06||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 1 mg / Progesterone 100 mg.||1.06||
92372018|NCT01942668|184647362|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||0.98||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.5 mg / Progesterone 100 mg.||0.98||
92372019|NCT01942668|184647362|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||0.97||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.5 mg / Progesterone 50 mg.||0.97||
92372020|NCT01942668|184647362|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||1.09||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.25 mg / Progesterone 50 mg.||1.09||
92372021|NCT01942668|184647362|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||3.2||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Placebo.||3.20||
92372022|NCT01942668|184647363|SUPERIORITY||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|2.51||0.588|TWO_SIDED|95.0|-3.57|6.3||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||6.30|-3.57|0.588
92277756|NCT01341639|184457765|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|1.33|||<|0.001|TWO_SIDED|95.0|0.32|2.86||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for PT|PR5I minus INFANRIX™ hexa|2.86|0.32|< 0.001
92372023|NCT01942668|184647363|SUPERIORITY||Mean Difference (Final Values)|1.29|STANDARD_ERROR_OF_MEAN|2.47||0.601|TWO_SIDED|95.0|-3.56|6.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||6.15|-3.56|0.601
92372024|NCT01942668|184647363|SUPERIORITY||Mean Difference (Final Values)|3.17|STANDARD_ERROR_OF_MEAN|2.49||0.202|TWO_SIDED|95.0|-1.71|8.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||8.06|-1.71|0.202
92372025|NCT01942668|184647363|SUPERIORITY||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|2.46||0.431|TWO_SIDED|95.0|-6.76|2.89||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||2.89|-6.76|0.431
92372026|NCT01942668|184647364|SUPERIORITY||Mean Difference (Final Values)|-4.35|STANDARD_ERROR_OF_MEAN|3.05||0.154|TWO_SIDED|95.0|-10.34|1.64||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||1.64|-10.34|0.154
92407838|NCT02952820|184705308|SUPERIORITY||LSM Difference|21.686|STANDARD_ERROR_OF_MEAN|5.946||0.0003|TWO_SIDED|95.0|10.014|33.359|||Mixed Models Analysis|||Month 3 (Statistical analysis 6): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||33.359|10.014|0.0003
92407839|NCT02952820|184705308|SUPERIORITY||LSM Difference|18.555|STANDARD_ERROR_OF_MEAN|6.324||0.0034|TWO_SIDED|95.0|6.14|30.969|||Mixed Models Analysis|||Month 6 (Statistical analysis 7): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be missing at random (MAR).||30.969|6.140|0.0034
92407840|NCT02952820|184705308|SUPERIORITY||LSM Difference|22.686|STANDARD_ERROR_OF_MEAN|6.392||0.0004|TWO_SIDED|95.0|10.137|35.234|||Mixed Models Analysis|||Month 6 (Statistical analysis 8): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||35.234|10.137|0.0004
92407841|NCT02952820|184705309|SUPERIORITY||Difference of percentage|13.67||||0.0004|TWO_SIDED|95.0|6.24|21.1|||Cochran-Mantel-Haenszel|||Sleep onset responders: Statistical analysis 1||21.10|6.24|0.0004
92372027|NCT01942668|184647364|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|3.0||0.956|TWO_SIDED|95.0|-6.06|5.73||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||5.73|-6.06|0.956
92372028|NCT01942668|184647364|SUPERIORITY||Mean Difference (Final Values)|3.54|STANDARD_ERROR_OF_MEAN|3.01||0.24|TWO_SIDED|95.0|-2.37|9.46||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||9.46|-2.37|0.240
92372029|NCT01942668|184647364|SUPERIORITY||Mean Difference (Final Values)|-2.77|STANDARD_ERROR_OF_MEAN|2.98||0.353|TWO_SIDED|95.0|-8.62|3.08||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||3.08|-8.62|0.353
92372030|NCT01942668|184647365|SUPERIORITY||Mean Difference (Final Values)|-8.56|STANDARD_ERROR_OF_MEAN|3.16||0.007|TWO_SIDED|95.0|-14.75|-2.36||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-2.36|-14.75|0.007
92407842|NCT02952820|184705309|SUPERIORITY||Difference of percentage|12.53||||0.0009|TWO_SIDED|95.0|5.2|19.86|||Cochran-Mantel-Haenszel|||Sleep Onset Responders: Statistical analysis 2||19.86|5.20|0.0009
92407843|NCT02952820|184705309|SUPERIORITY||Difference of percentage|14.65||||0.0002|TWO_SIDED|95.0|6.97|22.33|||Cochran-Mantel-Haenszel|||Sleep Maintenance Responders: Statistical analysis 3||22.33|6.97|0.0002
92407844|NCT02952820|184705309|SUPERIORITY||Difference of percentage|9.82||||0.011|TWO_SIDED|95.0|2.29|17.35|||Cochran-Mantel-Haenszel|||Sleep Maintenance Responders: Statistical analysis 4||17.35|2.29|0.0110
92407845|NCT02952820|184705311|SUPERIORITY||LSM Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.287||0.0137|TWO_SIDED|95.0|-1.27|-0.15|||Mixed Models Analysis|||Month 1 (Statistical analysis 1): Based on MMRM model with factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.15|-1.27|0.0137
92407846|NCT02952820|184705311|SUPERIORITY||LSM Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.289||0.0011|TWO_SIDED|95.0|-1.51|-0.38|||Mixed Models Analysis|||Month 1 (Statistical analysis 2): Based on MMRM model with factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.38|-1.51|0.0011
92407847|NCT02952820|184705311|SUPERIORITY||LSM Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.302||0.0001|TWO_SIDED|95.0|-1.75|-0.57|||Mixed Models Analysis|||Month 3 (Statistical analysis 3): Based on MMRM model with factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.57|-1.75|0.0001
92372031|NCT01942668|184647365|SUPERIORITY||Mean Difference (Final Values)|-3.76|STANDARD_ERROR_OF_MEAN|3.11||0.227|TWO_SIDED|95.0|-9.86|2.35||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||2.35|-9.86|0.227
92372032|NCT01942668|184647365|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|3.12||0.597|TWO_SIDED|95.0|-7.77|4.47||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||4.47|-7.77|0.597
92407848|NCT02952820|184705311|SUPERIORITY||LSM Difference|-1.36|STANDARD_ERROR_OF_MEAN|0.305|<|0.0001|TWO_SIDED|95.0|-1.96|-0.76|||Mixed Models Analysis|||Month 3 (Statistical analysis 4): Based on MMRM model with factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.76|-1.96|<.0001
92407849|NCT02952820|184705311|SUPERIORITY||LSM Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.302|<|0.0001|TWO_SIDED|95.0|-1.9|-0.71|||Mixed Models Analysis|||Month 6 (Statistical analysis 5): Based on MMRM model with factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.71|-1.90|<.0001
92407850|NCT02952820|184705311|SUPERIORITY||LSM Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.307|<|0.0001|TWO_SIDED|95.0|-1.92|-0.71|||Mixed Models Analysis|||Month 6 (Statistical analysis 6): Based on MMRM model with factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.71|-1.92|<.0001
92407851|NCT02952820|184705312|SUPERIORITY||LSM Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.905||0.067|TWO_SIDED|95.0|-3.44|0.12|||Mixed Models Analysis|||Month 1 (Statistical analysis 1): Based on MMRM model with factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||0.12|-3.44|0.0670
92407852|NCT02952820|184705312|SUPERIORITY||LSM Difference|-2.04|STANDARD_ERROR_OF_MEAN|0.913||0.0257|TWO_SIDED|95.0|-3.83|-0.25|||Mixed Models Analysis|||Month 1 (Statistical analysis 2): Based on MMRM model with factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.25|-3.83|0.0257
92407853|NCT02952820|184705312|SUPERIORITY||LSM Difference|-2.18|STANDARD_ERROR_OF_MEAN|0.939||0.0206|TWO_SIDED|95.0|-4.02|-0.34|||Mixed Models Analysis|||Month 3 (Statistical analysis 3): Based on MMRM model with factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.34|-4.02|0.0206
92407854|NCT02952820|184705312|SUPERIORITY||LSM Difference|-3.04|STANDARD_ERROR_OF_MEAN|0.95||0.0014|TWO_SIDED|95.0|-4.91|-1.18|||Mixed Models Analysis|||Month 3 (Statistical analysis 4): Based on MMRM model with factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||-1.18|-4.91|0.0014
92407855|NCT02952820|184705312|SUPERIORITY||LSM Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.112||0.0134|TWO_SIDED|95.0|-4.48|-0.52|||Mixed Models Analysis|||Month 6 (Statistical analysis 5): Based on MMRM model with factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.52|-4.48|0.0134
92407856|NCT02952820|184705312|SUPERIORITY||LSM Difference|-2.56|STANDARD_ERROR_OF_MEAN|1.026||0.0128|TWO_SIDED|95.0|-4.57|-0.54|||Mixed Models Analysis|||Month 6 (Statistical analysis 6): Based on MMRM model with factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.54|-4.57|0.0128
92407857|NCT02952820|184705313|SUPERIORITY||LSM Difference|0.205|STANDARD_ERROR_OF_MEAN|0.076||0.0067|TWO_SIDED|95.0|0.057|0.353|||Mixed Models Analysis|||First 7 nights (Statistical analysis): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.353|0.057|0.0067
92407858|NCT02952820|184705313|SUPERIORITY||LSM Difference|0.171|STANDARD_ERROR_OF_MEAN|0.076||0.0237|TWO_SIDED|95.0|0.023|0.32|||Mixed Models Analysis|||First 7 nights (Statistical analysis 2): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.320|0.023|0.0237
92372033|NCT01942668|184647365|SUPERIORITY||Mean Difference (Final Values)|-7.24|STANDARD_ERROR_OF_MEAN|3.08||0.019|TWO_SIDED|95.0|-13.28|-1.19||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-1.19|-13.28|0.019
92372034|NCT01942668|184647366|SUPERIORITY||Mean Difference (Final Values)|-12.81|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-19.29|-6.32||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.32|-19.29|<0.001
92372035|NCT01942668|184647366|SUPERIORITY||Mean Difference (Final Values)|-8.07|STANDARD_ERROR_OF_MEAN|3.25||0.013|TWO_SIDED|95.0|-14.46|-1.68||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-1.68|-14.46|0.013
92372036|NCT01942668|184647366|SUPERIORITY||Mean Difference (Final Values)|-4.81|STANDARD_ERROR_OF_MEAN|3.26||0.141|TWO_SIDED|95.0|-11.21|1.59||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||1.59|-11.21|0.141
92372037|NCT01942668|184647366|SUPERIORITY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|3.22||0.001|TWO_SIDED|95.0|-16.73|-4.08||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.08|-16.73|0.001
92372038|NCT01942668|184647367|SUPERIORITY||Mean Difference (Final Values)|-15.59|STANDARD_ERROR_OF_MEAN|3.35|<|0.001|TWO_SIDED|95.0|-22.16|-9.02||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-9.02|-22.16|<0.001
92372039|NCT01942668|184647367|SUPERIORITY||Mean Difference (Final Values)|-9.88|STANDARD_ERROR_OF_MEAN|3.29||0.003|TWO_SIDED|95.0|-16.34|-3.41||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-3.41|-16.34|0.003
92372040|NCT01942668|184647367|SUPERIORITY||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|3.31||0.075|TWO_SIDED|95.0|-12.4|0.59||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.59|-12.40|0.075
92372041|NCT01942668|184647367|SUPERIORITY||Mean Difference (Final Values)|-12.05|STANDARD_ERROR_OF_MEAN|3.27|<|0.001|TWO_SIDED|95.0|-18.47|-5.64||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.64|-18.47|<0.001
92372042|NCT01942668|184647368|SUPERIORITY||Mean Difference (Final Values)|-17.87|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-24.57|-11.05||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-11.05|-24.57|<0.001
92372043|NCT01942668|184647368|SUPERIORITY||Mean Difference (Final Values)|-11.35|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-18.0|-4.7||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.70|-18.00|<0.001
92372044|NCT01942668|184647368|SUPERIORITY||Mean Difference (Final Values)|-7.82|STANDARD_ERROR_OF_MEAN|3.4||0.022|TWO_SIDED|95.0|-14.5|-1.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-1.14|-14.50|0.022
92407859|NCT02952820|184705313|SUPERIORITY||LSM Difference|0.077|STANDARD_ERROR_OF_MEAN|0.094||0.412|TWO_SIDED|95.0|-0.107|0.261|||Mixed Models Analysis|||Month 1 (Statistical analysis 3): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.261|-0.107|0.4120
92407860|NCT02952820|184705313|SUPERIORITY||LSM Difference|0.073|STANDARD_ERROR_OF_MEAN|0.094||0.4347|TWO_SIDED|95.0|-0.111|0.258|||Mixed Models Analysis|||Month 1 (Statistical analysis 4): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.258|-0.111|0.4347
92240203|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.97|1.0||||||Age (per year increase)||1.00|0.97|
92372045|NCT01942668|184647368|SUPERIORITY||Mean Difference (Final Values)|-12.51|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|-19.11|-5.91||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.91|-19.11|<0.001
92372046|NCT01942668|184647369|SUPERIORITY||Mean Difference (Final Values)|-17.75|STANDARD_ERROR_OF_MEAN|3.41|<|0.001|TWO_SIDED|95.0|-24.45|-11.06||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-11.06|-24.45|<0.001
92372047|NCT01942668|184647369|SUPERIORITY||Mean Difference (Final Values)|-13.29|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|-19.88|-6.7||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.70|-19.88|<0.001
92372048|NCT01942668|184647369|SUPERIORITY||Mean Difference (Final Values)|-10.22|STANDARD_ERROR_OF_MEAN|3.37||0.003|TWO_SIDED|95.0|-16.83|-3.6||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-3.60|-16.83|0.003
92372049|NCT01942668|184647369|SUPERIORITY||Mean Difference (Final Values)|-13.61|STANDARD_ERROR_OF_MEAN|3.33|<|0.001|TWO_SIDED|95.0|-20.15|-7.07||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-7.07|-20.15|<0.001
92372050|NCT01942668|184647370|SUPERIORITY||Mean Difference (Final Values)|-16.63|STANDARD_ERROR_OF_MEAN|3.42|<|0.001|TWO_SIDED|95.0|-23.35|-9.91||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-9.91|-23.35|<0.001
92372051|NCT01942668|184647370|SUPERIORITY||Mean Difference (Final Values)|-12.97|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-19.58|-6.36||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.36|-19.58|<0.001
92372052|NCT01942668|184647370|SUPERIORITY||Mean Difference (Final Values)|-9.63|STANDARD_ERROR_OF_MEAN|3.38||0.005|TWO_SIDED|95.0|-16.27|-2.99||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-2.99|-16.27|0.005
92407861|NCT02952820|184705313|SUPERIORITY||LSM Difference|0.074|STANDARD_ERROR_OF_MEAN|0.109||0.4992|TWO_SIDED|95.0|-0.141|0.289|||Mixed Models Analysis|||Month 3 (Statistical analysis 5): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.289|-0.141|0.4992
92240204|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|10.5|||||TWO_SIDED|95.0|3.3|33.41||||||Baseline insulin therapy: combination||33.41|3.30|
92372053|NCT01942668|184647370|SUPERIORITY||Mean Difference (Final Values)|-11.97|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-18.53|-5.41||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.41|-18.53|<0.001
92372054|NCT01942668|184647371|SUPERIORITY||Mean Difference (Final Values)|-17.12|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-23.79|-10.44||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.44|-23.79|<0.001
92372055|NCT01942668|184647371|SUPERIORITY||Mean Difference (Final Values)|-15.58|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-22.15|-9.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-9.01|-22.15|<0.001
92372056|NCT01942668|184647371|SUPERIORITY||Mean Difference (Final Values)|-11.05|STANDARD_ERROR_OF_MEAN|3.36||0.001|TWO_SIDED|95.0|-17.65|-4.44||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.44|-17.65|0.001
92372057|NCT01942668|184647371|SUPERIORITY||Mean Difference (Final Values)|-13.02|STANDARD_ERROR_OF_MEAN|3.32|<|0.001|TWO_SIDED|95.0|-19.54|-6.5||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.50|-19.54|<0.001
92372058|NCT01942668|184647372|SUPERIORITY||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|3.45|<|0.001|TWO_SIDED|95.0|-23.58|-10.03||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.03|-23.58|<0.001
92372059|NCT01942668|184647372|SUPERIORITY||Mean Difference (Final Values)|-15.66|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-22.32|-8.99||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-8.99|-22.32|<0.001
92372060|NCT01942668|184647372|SUPERIORITY||Mean Difference (Final Values)|-11.2|STANDARD_ERROR_OF_MEAN|3.41||0.001|TWO_SIDED|95.0|-17.9|-4.49||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.49|-17.90|0.001
92407862|NCT02952820|184705313|SUPERIORITY||LSM Difference|0.255|STANDARD_ERROR_OF_MEAN|0.11||0.0208|TWO_SIDED|95.0|0.039|0.471|||Mixed Models Analysis|||Month 3 (Statistical analysis 6): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.471|0.039|0.0208
92407863|NCT02952820|184705313|SUPERIORITY||LSM Difference|0.144|STANDARD_ERROR_OF_MEAN|0.119||0.2248|TWO_SIDED|95.0|-0.089|0.378|||Mixed Models Analysis|||Month 6 (Statistical analysis 7): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.378|-0.089|0.2248
92407864|NCT02952820|184705313|SUPERIORITY||LSM Difference|0.261|STANDARD_ERROR_OF_MEAN|0.12||0.0298|TWO_SIDED|95.0|0.026|0.497|||Mixed Models Analysis|||Month 6 (Statistical analysis 8): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.497|0.026|0.0298
92372061|NCT01942668|184647372|SUPERIORITY||Mean Difference (Final Values)|-12.16|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-18.78|-5.55||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.55|-18.78|<0.001
92372062|NCT01942668|184647373|SUPERIORITY||Mean Difference (Final Values)|-18.11|STANDARD_ERROR_OF_MEAN|3.47|<|0.001|TWO_SIDED|95.0|-24.92|-11.29||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-11.29|-24.92|<0.001
92372063|NCT01942668|184647373|SUPERIORITY||Mean Difference (Final Values)|-16.45|STANDARD_ERROR_OF_MEAN|3.42|<|0.001|TWO_SIDED|95.0|-23.17|-9.74||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-9.74|-23.17|<0.001
92372064|NCT01942668|184647373|SUPERIORITY||Mean Difference (Final Values)|-12.41|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-19.15|-5.66||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.66|-19.15|<0.001
92372065|NCT01942668|184647373|SUPERIORITY||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-20.26|-6.93||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.93|-20.26|<0.001
92372066|NCT01942668|184647374|SUPERIORITY||Mean Difference (Final Values)|-16.58|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-23.33|-9.82||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-9.82|-23.33|<0.001
92372067|NCT01942668|184647374|SUPERIORITY||Mean Difference (Final Values)|-15.07|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-21.72|-8.42||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-8.42|-21.72|<0.001
92372068|NCT01942668|184647374|SUPERIORITY||Mean Difference (Final Values)|-10.79|STANDARD_ERROR_OF_MEAN|3.41||0.002|TWO_SIDED|95.0|-17.48|-4.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.10|-17.48|0.002
92407865|NCT03070964|184705333|SUPERIORITY||Exact binomial estimator|16.7|||||TWO_SIDED|95.0|2.1|48.4||||||||48.4|2.1|
92168852|NCT02528188|184227121|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7076|TWO_SIDED|95.0|-0.22|0.32|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.32|-0.22|0.7076
92372069|NCT01942668|184647374|SUPERIORITY||Mean Difference (Final Values)|-11.71|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|-18.31|-5.11||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.11|-18.31|<0.001
92372070|NCT01942668|184647375|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.034||0.801|TWO_SIDED|95.0|-0.06|0.08||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.08|-0.06|0.801
92407866|NCT02453711|184705341|OTHER||Treatment difference (%-points)|-3.7|STANDARD_ERROR_OF_MEAN|1.13|=|0.0055|TWO_SIDED|95.0|-6.55|-0.85|||ANCOVA||Semaglutide 0.05 mg - placebo pool|J2R-MI: Analysis of in-trial data with missing observations imputed from the pooled placebo arms based on a jump to reference multiple (x1000) imputation (J2R-MI) approach. Week 52 responses were analysed using an analysis of covariance model with treatment, region and sex as factors and baseline body weight as covariate. Dunnett's method was used to adjust for multiple comparisons.||-0.85|-6.55|=0.0055
92407867|NCT02453711|184705341|OTHER||Treatment difference (%-points)|-6.32|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|-9.16|-3.49|||ANCOVA||Semaglutide 0.1 mg - placebo pool|J2R-MI: Analysis of in-trial data with missing observations imputed from the pooled placebo arms based on a jump to reference multiple (x1000) imputation (J2R-MI) approach. Week 52 responses were analysed using an analysis of covariance model with treatment, region and sex as factors and baseline body weight as covariate. Dunnett's method was used to adjust for multiple comparisons.||-3.49|-9.16|<0.0001
92407868|NCT02453711|184705341|OTHER||Treatment difference (%-points)|-9.31|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|-12.15|-6.46|||ANCOVA||Semaglutide 0.2 mg - placebo pool|J2R-MI: Analysis of in-trial data with missing observations imputed from the pooled placebo arms based on a jump to reference multiple (x1000) imputation (J2R-MI) approach. Week 52 responses were analysed using an analysis of covariance model with treatment, region and sex as factors and baseline body weight as covariate. Dunnett's method was used to adjust for multiple comparisons.||-6.46|-12.15|<0.0001
92407869|NCT02453711|184705341|OTHER||Treatment difference (%-points)|-8.88|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|-11.72|-6.03|||ANCOVA||Semaglutide 0.3 mg - placebo pool|J2R-MI: Analysis of in-trial data with missing observations imputed from the pooled placebo arms based on a jump to reference multiple (x1000) imputation (J2R-MI) approach. Week 52 responses were analysed using an analysis of covariance model with treatment, region and sex as factors and baseline body weight as covariate. Dunnett's method was used to adjust for multiple comparisons.||-6.03|-11.72|<0.0001
92407870|NCT02453711|184705341|OTHER||Treatment difference (%-points)|-11.55|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|-14.38|-8.72|||ANCOVA||Semaglutide 0.4 mg - placebo pool|J2R-MI: Analysis of in-trial data with missing observations imputed from the pooled placebo arms based on a jump to reference multiple (x1000) imputation (J2R-MI) approach. Week 52 responses were analysed using an analysis of covariance model with treatment, region and sex as factors and baseline body weight as covariate. Dunnett's method was used to adjust for multiple comparisons.||-8.72|-14.38|<0.0001
92407871|NCT01587924|184705378|SUPERIORITY_OR_OTHER|||||||0.0135||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline Hgb \<10.80 versus modeled Hgb change from baseline in participants with Baseline Hgb \>= 10.80||||0.0135
92407872|NCT01587924|184705378|SUPERIORITY_OR_OTHER|||||||0.5082||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline weight \<= 80.5 Kg versus modeled Hgb change from baseline in participants with Baseline weight \> 80.5||||0.5082
92407873|NCT01587924|184705378|SUPERIORITY_OR_OTHER|||||||0.977||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with ethnicity non-Hispanic or Latino versus modeled Hgb change from baseline in participants with ethnicity non-Hispanic or Latino||||0.9770
92407874|NCT01587924|184705378|SUPERIORITY_OR_OTHER|||||||0.0618||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline geographic ancestry as African American versus modeled Hgb change from baseline in participants with no geographic ancestry as African American||||0.0618
92407875|NCT01587924|184705378|SUPERIORITY_OR_OTHER|||||||0.7495||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline gender as male versus modeled Hgb change from baseline in participants with Baseline gender female||||0.7495
92407876|NCT01587924|184705378|SUPERIORITY_OR_OTHER|||||||0.7865||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline age \<65 years versus modeled Hgb change from baseline in participants with Baseline age \>=65 years||||0.7865
92407877|NCT01587924|184705378|SUPERIORITY_OR_OTHER|||||||0.0622||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline co-ad with food versus modeled Hgb change from baseline in participants with Baseline co-ad without food||||0.0622
92372071|NCT01942668|184647375|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.034||0.991|TWO_SIDED|95.0|-0.07|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.07|0.991
92372072|NCT01942668|184647375|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.034||0.642|TWO_SIDED|95.0|-0.05|0.08||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.08|-0.05|0.642
92372073|NCT01942668|184647375|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.034||0.928|TWO_SIDED|95.0|-0.07|0.06||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.06|-0.07|0.928
92372074|NCT01942668|184647376|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.043||0.231|TWO_SIDED|95.0|-0.14|0.03||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.03|-0.14|0.231
92372075|NCT01942668|184647376|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.042||0.173|TWO_SIDED|95.0|-0.14|0.03||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.03|-0.14|0.173
92372076|NCT01942668|184647376|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.042||0.717|TWO_SIDED|95.0|-0.07|0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.10|-0.07|0.717
92372077|NCT01942668|184647376|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.042||0.849|TWO_SIDED|95.0|-0.09|0.07||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.09|0.849
92372078|NCT01942668|184647377|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.052||0.039|TWO_SIDED|95.0|-0.21|-0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.21|0.039
92372079|NCT01942668|184647377|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.052||0.03|TWO_SIDED|95.0|-0.21|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.21|0.030
92372080|NCT01942668|184647377|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.052||0.946|TWO_SIDED|95.0|-0.1|0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.10|-0.10|0.946
92372081|NCT01942668|184647377|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.051||0.309|TWO_SIDED|95.0|-0.15|0.05||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.05|-0.15|0.309
92372082|NCT01942668|184647378|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.061||0.031|TWO_SIDED|95.0|-0.25|-0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.25|0.031
92372083|NCT01942668|184647378|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.005|TWO_SIDED|95.0|-0.28|-0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.05|-0.28|0.005
92372084|NCT01942668|184647378|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.401|TWO_SIDED|95.0|-0.17|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.17|0.401
92372085|NCT01942668|184647378|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.059||0.1|TWO_SIDED|95.0|-0.21|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.21|0.100
92372086|NCT01942668|184647379|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.071||0.001|TWO_SIDED|95.0|-0.37|-0.09||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.09|-0.37|0.001
92372087|NCT01942668|184647379|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.034|TWO_SIDED|95.0|-0.28|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.28|0.034
92372088|NCT01942668|184647379|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.79|TWO_SIDED|95.0|-0.16|0.12||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.12|-0.16|0.790
92372089|NCT01942668|184647379|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.069||0.086|TWO_SIDED|95.0|-0.25|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.25|0.086
92407878|NCT01587924|184705378|SUPERIORITY_OR_OTHER|||||||0.2044||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline diabetes presence versus modeled Hgb change from baseline in participants with no Baseline diabetes||||0.2044
92240205|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|5.71|||||TWO_SIDED|95.0|1.77|18.37||||||Baseline insulin therapy: prandial only||18.37|1.77|
92372090|NCT01942668|184647380|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.084|<|0.001|TWO_SIDED|95.0|-0.53|-0.2||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.20|-0.53|<0.001
92372091|NCT01942668|184647380|SUPERIORITY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.083||0.03|TWO_SIDED|95.0|-0.34|-0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.02|-0.34|0.030
92372092|NCT01942668|184647380|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.083||0.247|TWO_SIDED|95.0|-0.26|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.26|0.247
92372093|NCT01942668|184647380|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.082||0.022|TWO_SIDED|95.0|-0.35|-0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.03|-0.35|0.022
92372094|NCT01942668|184647381|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.085|<|0.001|TWO_SIDED|95.0|-0.54|-0.2||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.20|-0.54|<0.001
92407879|NCT01587924|184705378|SUPERIORITY_OR_OTHER|||||||0.8537||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline region as the US and Canada versus modeled Hgb change from baseline in participants with Baseline region as not the US and Canada||||0.8537
92407880|NCT00607373|184705410|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p≤0.05|t-test, 2 sided|||Based upon prior clinical study experience with mipomersen, it was estimated that the standard deviation of the percent change in LDL-C is approximately 22%. With 15 patients in the control group and 30 patients in the mipomersen-treated group, this study would have at least 80% power to detect a 20 percentage point difference between the 2 treatment groups. Fifty-one patients were enrolled to allow for patient withdrawals and potential exclusions from analysis sets.||||<0.001
92168853|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.015|TWO_SIDED|95.0|-0.37|-0.04|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.04|-0.37|0.0150
92168854|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.3286|TWO_SIDED|95.0|-0.25|0.08|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.08|-0.25|0.3286
92168855|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09||0.0004|TWO_SIDED|95.0|-0.5|-0.15|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.15|-0.50|0.0004
92168856|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.09||0.0001|TWO_SIDED|95.0|-0.53|-0.17|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.17|-0.53|0.0001
92168857|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.09||0.0517|TWO_SIDED|95.0|-0.37|0.0|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.00|-0.37|0.0517
92168858|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.61|-0.23|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.23|-0.61|<0.0001
92168859|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.13||0.3621|TWO_SIDED|95.0|-0.37|0.13|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.13|-0.37|0.3621
92407881|NCT00607373|184705411|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
92407882|NCT00607373|184705413|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inferential conclusions about this parameter require statistical significance of the previous secondary outcome measure (i.e., percent change from baseline in Apo B at PET).|t-test, 2 sided|||||||<0.001
92407883|NCT00607373|184705416|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inferential conclusions about this parameter require statistical significance of the previous secondary outcome measure (i.e., percent change from baseline in total cholesterol at PET).|t-test, 2 sided|||||||<0.001
92168860|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.13||0.0832|TWO_SIDED|95.0|-0.47|0.03|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.03|-0.47|0.0832
92240206|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|4.16|||||TWO_SIDED|95.0|3.02|5.73||||||Baseline insulin therapy: pre-mixed only||5.73|3.02|
92240207|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy. IPC ranges from 1-5 with higher scores indicating more discrimination.|Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.39|0.65||||||Discrimination domain of the IPC||0.65|0.39|
92407884|NCT00607373|184705418|SUPERIORITY_OR_OTHER|||||||0.013||||||Statistical significance was concluded if p ≤0.05|Wilcoxon rank sum test|||||||0.013
92407885|NCT00607373|184705420|SUPERIORITY_OR_OTHER|||||||0.001||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||0.001
92372095|NCT01942668|184647381|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.083||0.002|TWO_SIDED|95.0|-0.42|-0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.09|-0.42|0.002
92372096|NCT01942668|184647381|SUPERIORITY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.084||0.031|TWO_SIDED|95.0|-0.34|-0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.02|-0.34|0.031
92372097|NCT01942668|184647381|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.083||0.016|TWO_SIDED|95.0|-0.36|-0.04||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.04|-0.36|0.016
92372098|NCT01942668|184647382|SUPERIORITY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.087|<|0.001|TWO_SIDED|95.0|-0.55|-0.21||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.21|-0.55|<0.001
92372099|NCT01942668|184647382|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.086||0.008|TWO_SIDED|95.0|-0.4|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.06|-0.40|0.008
92372100|NCT01942668|184647382|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.086||0.087|TWO_SIDED|95.0|-0.32|0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.32|0.087
92372101|NCT01942668|184647382|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.085||0.092|TWO_SIDED|95.0|-0.31|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.31|0.092
92372102|NCT01942668|184647383|SUPERIORITY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.092|<|0.001|TWO_SIDED|95.0|-0.66|-0.3||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.30|-0.66|<0.001
92372103|NCT01942668|184647383|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.09||0.001|TWO_SIDED|95.0|-0.47|-0.12||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.12|-0.47|0.001
92372104|NCT01942668|184647383|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.091||0.009|TWO_SIDED|95.0|-0.42|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.06|-0.42|0.009
92372105|NCT01942668|184647383|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.007|TWO_SIDED|95.0|-0.42|-0.07||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.07|-0.42|0.007
92372106|NCT01942668|184647384|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.096|<|0.001|TWO_SIDED|95.0|-0.71|-0.33||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.33|-0.71|<0.001
92372107|NCT01942668|184647384|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.094||0.003|TWO_SIDED|95.0|-0.46|-0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.09|-0.46|0.003
92407886|NCT00607373|184705422|SUPERIORITY_OR_OTHER|||||||0.009||||||Statistical significance was concluded if p ≤0.05|Wilcoxon rank sum test|||||||0.009
92407887|NCT00607373|184705424|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||<0.001
92407888|NCT00607373|184705426|SUPERIORITY_OR_OTHER|||||||0.328||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||0.328
92407889|NCT00607373|184705428|SUPERIORITY_OR_OTHER|||||||0.035||||||Statistical significance was concluded if p ≤0.05|Wilcoxon rank sum test|||||||0.035
92407890|NCT04546672|184705449|SUPERIORITY||Mean Difference (Final Values)|12.1||||0.58|TWO_SIDED|95.0|-31.1|55.4|||t-test, 2 sided|||||55.4|-31.1|0.58
92407891|NCT04546672|184705450|SUPERIORITY||Mean Difference (Final Values)|12.3|||<|0.001|TWO_SIDED|95.0|9.2|15.4|||t-test, 2 sided|||||15.4|9.2|<0.001
92407892|NCT04546672|184705451|SUPERIORITY||Odds Ratio (OR)|2.3||||0.087|TWO_SIDED|95.0|0.9|6.2|||Fisher Exact|||||6.2|0.9|0.087
92372108|NCT01942668|184647384|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.095||0.016|TWO_SIDED|95.0|-0.41|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.04|-0.41|0.016
92372109|NCT01942668|184647384|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.094||0.31|TWO_SIDED|95.0|-0.28|0.09||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.09|-0.28|0.310
92372110|NCT01942668|184647385|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-0.72|-0.34||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.34|-0.72|<0.001
92372111|NCT01942668|184647385|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.096|<|0.001|TWO_SIDED|95.0|-0.56|-0.19||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.19|-0.56|<0.001
92372112|NCT01942668|184647385|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.097||0.011|TWO_SIDED|95.0|-0.44|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.06|-0.44|0.011
92372113|NCT01942668|184647385|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.096||0.076|TWO_SIDED|95.0|-0.36|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.36|0.076
92372114|NCT01942668|184647386|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.77|-0.38||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.38|-0.77|<0.001
92372115|NCT01942668|184647386|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.59|-0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.20|-0.59|<0.001
92407893|NCT04546672|184705452|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.48|TWO_SIDED|95.0|-26.4|12.6|||t-test, 2 sided|||||12.6|-26.4|0.48
92407894|NCT04546672|184705453|SUPERIORITY||Mean Difference (Final Values)|16.7||||0.02|TWO_SIDED|95.0|2.3|31.1|||t-test, 2 sided|||||31.1|2.3|0.02
92372116|NCT01942668|184647386|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.018|TWO_SIDED|95.0|-0.43|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.04|-0.43|0.018
92372117|NCT01942668|184647386|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.098||0.096|TWO_SIDED|95.0|-0.36|0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.03|-0.36|0.096
92372118|NCT01942668|184647387|SUPERIORITY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|2.88||0.865|TWO_SIDED|95.0|-5.16|6.14||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||6.14|-5.16|0.865
92407895|NCT04546672|184705454|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.27|TWO_SIDED|95.0|-2.2|8.3|||t-test, 2 sided|||||8.3|-2.2|0.27
92407896|NCT01397968|184705455|SUPERIORITY||||||<|0.0001|||||||Wilcoxon rank sum|||||||<0.0001
92407897|NCT01397968|184705456|SUPERIORITY||||||<|0.0001|||||||Regression, Logistic|||||||<0.0001
92407898|NCT02908672|184705457|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.0224|TWO_SIDED|95.0|0.64|0.97|||Log Rank||Stratified Hazard Ratio|||0.97|0.64|0.0224
92407899|NCT02908672|184705458|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1607|TWO_SIDED|95.0|0.67|1.07|||Log Rank||Stratified Hazard Ratio|||1.07|0.67|0.1607
92407900|NCT02908672|184705459|SUPERIORITY||Difference in response rate|1.63||||0.6997|TWO_SIDED|95.0|-6.9|10.15|||Cochran-Mantel-Haenszel|||||10.15|-6.90|0.6997
92407901|NCT02908672|184705461|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1191|TWO_SIDED|95.0|0.67|1.05|||Log Rank|||||1.05|0.67|0.1191
92407902|NCT02908672|184705462|SUPERIORITY||Difference in Event Free Rate|8.2||||0.0693|TWO_SIDED|95.0|-0.65|17.04|||Z-test|||||17.04|-0.65|0.0693
92407903|NCT01424072|184705471|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||It was verified the normality of data distribution and the homogeneity of variance.|ANOVA|||The main objective was to compare the difference among the control group, seeds and needles and to recognize significant outcomes of auriculotherapy by seeds or needles.||||0.023
92372119|NCT01942668|184647387|SUPERIORITY||Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|2.83||0.847|TWO_SIDED|95.0|-5.01|6.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||6.10|-5.01|0.847
92372120|NCT01942668|184647387|SUPERIORITY||Mean Difference (Final Values)|2.09|STANDARD_ERROR_OF_MEAN|2.85||0.463|TWO_SIDED|95.0|-3.5|7.68||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||7.68|-3.50|0.463
92372121|NCT01942668|184647387|SUPERIORITY||Mean Difference (Final Values)|-3.55|STANDARD_ERROR_OF_MEAN|2.81||0.207|TWO_SIDED|95.0|-9.07|1.97||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||1.97|-9.07|0.207
92372122|NCT01942668|184647388|SUPERIORITY||Mean Difference (Final Values)|-5.07|STANDARD_ERROR_OF_MEAN|3.43||0.14|TWO_SIDED|95.0|-11.8|1.67||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||1.67|-11.80|0.140
92372123|NCT01942668|184647388|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|3.38||0.982|TWO_SIDED|95.0|-6.7|6.55||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||6.55|-6.70|0.982
92372124|NCT01942668|184647388|SUPERIORITY||Mean Difference (Final Values)|2.33|STANDARD_ERROR_OF_MEAN|3.39||0.492|TWO_SIDED|95.0|-4.32|8.98||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||8.98|-4.32|0.492
92372125|NCT01942668|184647388|SUPERIORITY||Mean Difference (Final Values)|-4.14|STANDARD_ERROR_OF_MEAN|3.35||0.216|TWO_SIDED|95.0|-10.72|2.43||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||2.43|-10.72|0.216
92372126|NCT01942668|184647389|SUPERIORITY||Mean Difference (Final Values)|-10.38|STANDARD_ERROR_OF_MEAN|3.5||0.003|TWO_SIDED|95.0|-17.26|-3.5||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-3.50|-17.26|0.003
92372127|NCT01942668|184647389|SUPERIORITY||Mean Difference (Final Values)|-3.75|STANDARD_ERROR_OF_MEAN|3.45||0.277|TWO_SIDED|95.0|-10.53|3.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||3.02|-10.53|0.277
92372128|NCT01942668|184647389|SUPERIORITY||Mean Difference (Final Values)|-2.95|STANDARD_ERROR_OF_MEAN|3.46||0.394|TWO_SIDED|95.0|-9.75|3.84||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||3.84|-9.75|0.394
92372129|NCT01942668|184647389|SUPERIORITY||Mean Difference (Final Values)|-7.86|STANDARD_ERROR_OF_MEAN|3.42||0.022|TWO_SIDED|95.0|-14.58|-1.15||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-1.15|-14.58|0.022
92372130|NCT01942668|184647390|SUPERIORITY||Mean Difference (Final Values)|-15.32|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-22.75|-7.89||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-7.89|-22.75|<0.001
92372131|NCT01942668|184647390|SUPERIORITY||Mean Difference (Final Values)|-8.92|STANDARD_ERROR_OF_MEAN|3.73||0.017|TWO_SIDED|95.0|-16.24|-1.6||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-1.60|-16.24|0.017
92407904|NCT01424072|184705472|SUPERIORITY_OR_OTHER||||||,|0||95.0||||It was verified the normality of data distribution and the homogeneity of variance.|ANOVA|This result was only to the domain Social Support.||It was carried out the analysis of variance (ANOVA) among the groups in the 3rd assessment (after 60 days) and at the follow up (after 75 days). The main objective was to compare the difference among the control group, seeds and needles and to recognize significant outcomes of auriculotherapy by seeds or needles.||||0,022
92372132|NCT01942668|184647390|SUPERIORITY||Mean Difference (Final Values)|-4.56|STANDARD_ERROR_OF_MEAN|3.74||0.223|TWO_SIDED|95.0|-11.9|2.78||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||2.78|-11.90|0.223
92372133|NCT01942668|184647390|SUPERIORITY||Mean Difference (Final Values)|-11.32|STANDARD_ERROR_OF_MEAN|3.69||0.002|TWO_SIDED|95.0|-18.57|-4.07||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.07|-18.57|0.002
92407905|NCT01424072|184705473|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||It was verified the normality of data distribution and the homogeneity of variance.|ANOVA|||It was carried out the analysis of variance (ANOVA) among the groups at the follow up (after 75 days). The main objective was to compare the difference among the control group, seeds and needles and to recognize significant outcomes of auriculotherapy by seeds or needles.||||0.039
92407906|NCT01424072|184705473|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||ANOVA|It was carried out the analysis of variance (ANOVA) among the groups at the follow up and then it was used the post hoc test.||Coping Strategy: Confrontation domain||||0.029
92407907|NCT02876601|184705475|SUPERIORITY|||||||0.408|||||||Wilcoxon (Mann-Whitney)|||||||0.408
92407908|NCT02876601|184705476|SUPERIORITY|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||||||0.148
92407909|NCT02876601|184705477|SUPERIORITY|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
92407910|NCT02876601|184705478|SUPERIORITY|||||||0.642|||||||Wilcoxon (Mann-Whitney)|||||||0.642
92407911|NCT02876601|184705479|SUPERIORITY|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||||||0.026
92407912|NCT02876601|184705480|SUPERIORITY|||||||0.326|||||||Wilcoxon (Mann-Whitney)|||||||0.326
92407913|NCT02876601|184705481|SUPERIORITY|||||||0.796|||||||Wilcoxon (Mann-Whitney)|||||||0.796
92407914|NCT02876601|184705482|SUPERIORITY|||||||0.918|||||||Wilcoxon (Mann-Whitney)|||||||0.918
92407915|NCT02876601|184705483|SUPERIORITY|||||||0.877|||||||Wilcoxon (Mann-Whitney)|||||||0.877
92407916|NCT02876601|184705484|SUPERIORITY|||||||0.423|||||||Wilcoxon (Mann-Whitney)|||||||0.423
92407917|NCT02876601|184705485|SUPERIORITY|||||||0.938|||||||Wilcoxon (Mann-Whitney)|||||||0.938
92407918|NCT05307692|184705502|SUPERIORITY||Difference of Least Square (LS) Means|-1.5|STANDARD_ERROR_OF_MEAN|1.47||0.308|TWO_SIDED|80.0|-3.41|0.39|||Mixed model repeated measures|||||0.39|-3.41|0.308
92407919|NCT05307692|184705503|SUPERIORITY||Difference of Least Square (LS) Means|-1.5|STANDARD_ERROR_OF_MEAN|1.42||0.282|TWO_SIDED|80.0|-3.33|0.29|||Mixed model repeated measures|||||0.29|-3.33|0.282
92407920|NCT05006573|184705532|SUPERIORITY||Risk Ratio (RR)|1.14||||0.5911|TWO_SIDED|95.0|0.71|1.82|||negative binomial model|marginal standardization method|The rate ratio (Benralizumab/Placebo) and its 95% CI are estimated using a negative binomial model. The covariates include treatment arm, baseline blood eosinophil category, and number of exacerbations from previous year.|||1.82|0.71|0.5911
92407921|NCT05006573|184705533|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.6677|TWO_SIDED|95.0|0.67|1.91|||Regression, Cox||The analysis is performed using cox proportional hazards model with covariates of treatment group, number of exacerbations in previous year and baseline eosinophil category.|||1.91|0.67|0.6677
92372134|NCT01942668|184647391|SUPERIORITY||Mean Difference (Final Values)|-17.47|STANDARD_ERROR_OF_MEAN|3.66|<|0.001|TWO_SIDED|95.0|-24.65|-10.28||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.28|-24.65|<0.001
92372135|NCT01942668|184647391|SUPERIORITY||Mean Difference (Final Values)|-10.26|STANDARD_ERROR_OF_MEAN|3.6||0.005|TWO_SIDED|95.0|-17.33|-3.18||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-3.18|-17.33|0.005
92372136|NCT01942668|184647391|SUPERIORITY||Mean Difference (Final Values)|-6.21|STANDARD_ERROR_OF_MEAN|3.62||0.087|TWO_SIDED|95.0|-13.31|0.89||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.89|-13.31|0.087
92372137|NCT01942668|184647391|SUPERIORITY||Mean Difference (Final Values)|-12.66|STANDARD_ERROR_OF_MEAN|3.57|<|0.001|TWO_SIDED|95.0|-19.68|-5.65||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.65|-19.68|<0.001
92407922|NCT01077050|184705562|SUPERIORITY_OR_OTHER||Sensitivity to Melanoma|96.6|||||ONE_SIDED|95.0|94.2|||The point estimate of the observed sensitivity that is based on generalized linear mixed model is equal to that calculated in the usual manner.|Clopper-Pearson 1-sided||||||94.2|
92407923|NCT01077050|184705562|SUPERIORITY_OR_OTHER||Sensitivity to Basal Cell Carcinoma|100.0|||||TWO_SIDED|95.0|92.6|100.0|||Clopper-Pearson 2-sided|Point estimate of the observed sensitivity for Basal Cell Carcinoma||||100|92.6|
92407924|NCT01077050|184705562|SUPERIORITY_OR_OTHER||Observed sensitivity for squamous cell c|93.3|||||TWO_SIDED|95.0|68.1|99.8|||Clopper-Pearson 2-sided|Point estimate of the observed sensitivity for squamous cell carcinoma||||99.8|68.1|
92407925|NCT01077050|184705562|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.0|||<|0.0001|TWO_SIDED|95.0|6.6|25.5|||Mixed Models Analysis|Note that calculating odds ratio adjusting for subjects having multiple lesions, yields similar result.||||25.5|6.6|<0.0001
92407926|NCT00684060|184705564|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|8.6|<|0.05|TWO_SIDED|95.0|-7.05|0.95||Threshold 0.05|t-test, 2 sided|No adjustment for multiple comparisons||Comparison of change in global LVEF in the active group minus change in global LVEF in the control group. 80 percent power based on BOOST results||.95|-7.05|<0.05
92407927|NCT00684060|184705565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3|||<|0.05||95.0|0.08|1.17|||Fisher Exact|||comparison of the proportion of events in patients in the active group to those in patients in the control group||1.17|0.08|<0.05
92407928|NCT00684060|184705566|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|17.2|<|0.05|TWO_SIDED|95.0|-9.3|6.8|||t-test, 2 sided|||Comparison of change in the active group minus change in global LVEF in the control group.||6.8|-9.3|<0.05
92407929|NCT00684060|184705567|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|21.8|<|0.05|TWO_SIDED|95.0|-9.5|10.9|||t-test, 2 sided|||Comparison of change in the active group minus change in global LVEF in the control group.||10.9|-9.5|<0.05
92407930|NCT00684060|184705568|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|14.2|<|0.05|TWO_SIDED|95.0|-4.1|9.2|||t-test, 2 sided|||Comparison of change in the active group minus change in the control group.||9.2|-4.1|<0.05
92372138|NCT01942668|184647392|SUPERIORITY||Mean Difference (Final Values)|-20.32|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-27.77|-12.87||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-12.87|-27.77|<0.001
92372139|NCT01942668|184647392|SUPERIORITY||Mean Difference (Final Values)|-12.61|STANDARD_ERROR_OF_MEAN|3.73|<|0.001|TWO_SIDED|95.0|-19.95|-5.28||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.28|-19.95|<0.001
92372140|NCT01942668|184647392|SUPERIORITY||Mean Difference (Final Values)|-8.33|STANDARD_ERROR_OF_MEAN|3.75||0.027|TWO_SIDED|95.0|-15.7|-0.96||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.96|-15.70|0.027
92372141|NCT01942668|184647392|SUPERIORITY||Mean Difference (Final Values)|-13.85|STANDARD_ERROR_OF_MEAN|3.71|<|0.001|TWO_SIDED|95.0|-21.13|-6.58||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.58|-21.13|<0.001
92407931|NCT00684060|184705569|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|17.7|<|0.05||95.0|-9.9|6.9|||t-test, 2 sided|||Comparison of change in the active group minus change in the control group.||6.9|-9.9|<0.05
92407932|NCT00684060|184705570|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|4.4|<|0.05|TWO_SIDED|95.0|-2.8|1.3||Unadjusted|t-test, 2 sided|||Comparison of change in infarct zone wall motion in the active group minus change in global LVEF in the control group. 80 percent power based on BOOST results||1.3|-2.8|<0.05
92407933|NCT00684060|184705571|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|6.9|<|0.05||95.0|-6.0|0.8|||t-test, 2 sided|||Comparison of change in border zone wall motion in the active group minus change in global LVEF in the control group. 80 percent power based on BOOST results||0.8|-6.0|<0.05
92407934|NCT00702715|184705572|NON_INFERIORITY_OR_EQUIVALENCE|The 95% confidence interval for the estimated median treatment difference in recovery time must have fallen entirely within the pre-specified interval between -60 sec to +60 sec in order to claim equivalence|Median Difference (Final Values)|78.0|||||TWO_SIDED|95.0|36.0|143.0|||Hodges-Lehmann and Moses||Estimated median treatment difference (severe renal impairment minus normal renal function) in recovery time (seconds)|||143.0|36.0|
92407935|NCT00702715|184705573|NON_INFERIORITY_OR_EQUIVALENCE|For the secondary endpoint no equivalence margin was specified (i.e., no formal null-hypothesis was specified); the median difference and associated 95% CI were to further characterize the efficacy of severe renal impaired subjects and controls.|Median Difference (Final Values)|68.0|||||TWO_SIDED|95.0|36.0|120.0|||Hodges-Lehmann and Moses||Estimated median treatment difference (severe renal impairment minus normal renal function) in recovery time (seconds)|||120.0|36.0|
92372142|NCT01942668|184647393|SUPERIORITY||Mean Difference (Final Values)|-21.45|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-28.87|-14.04||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-14.04|-28.87|<0.001
92372143|NCT01942668|184647393|SUPERIORITY||Mean Difference (Final Values)|-16.1|STANDARD_ERROR_OF_MEAN|3.71|<|0.001|TWO_SIDED|95.0|-23.39|-8.8||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-8.80|-23.39|<0.001
92372144|NCT01942668|184647393|SUPERIORITY||Mean Difference (Final Values)|-12.01|STANDARD_ERROR_OF_MEAN|3.73||0.001|TWO_SIDED|95.0|-19.34|-4.68||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.68|-19.34|0.001
92372145|NCT01942668|184647393|SUPERIORITY||Mean Difference (Final Values)|-15.73|STANDARD_ERROR_OF_MEAN|3.69|<|0.001|TWO_SIDED|95.0|-22.97|-8.49||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-8.49|-22.97|<0.001
92372146|NCT01942668|184647394|SUPERIORITY||Mean Difference (Final Values)|-20.52|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|-28.06|-12.97||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-12.97|-28.06|<0.001
92372147|NCT01942668|184647394|SUPERIORITY||Mean Difference (Final Values)|-15.37|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-22.8|-7.95||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-7.95|-22.80|<0.001
92372148|NCT01942668|184647394|SUPERIORITY||Mean Difference (Final Values)|-11.49|STANDARD_ERROR_OF_MEAN|3.8||0.003|TWO_SIDED|95.0|-18.95|-4.03||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.03|-18.95|0.003
92372149|NCT01942668|184647394|SUPERIORITY||Mean Difference (Final Values)|-13.82|STANDARD_ERROR_OF_MEAN|3.75|<|0.001|TWO_SIDED|95.0|-21.19|-6.46||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.46|-21.19|<0.001
92407936|NCT00702715|184705574|NON_INFERIORITY_OR_EQUIVALENCE|For the secondary endpoint no equivalence margin was specified (i.e., no formal null-hypothesis was specified); the median difference and associated 95% CI were to further characterize the efficacy of severe renal impaired subjects and controls.|Median Difference (Final Values)|60.0|||||TWO_SIDED|95.0|31.0|103.0|||Hodges-Lehmann and Moses||Estimated median treatment difference (severe renal impairment minus normal renal function) in recovery time (seconds)|||103.0|31.0|
92407937|NCT02641561|184705594|SUPERIORITY|||||||0.04|||||||Fisher Exact|||||||0.04
92372150|NCT01942668|184647395|SUPERIORITY||Mean Difference (Final Values)|-20.34|STANDARD_ERROR_OF_MEAN|3.87|<|0.001|TWO_SIDED|95.0|-27.93|-12.74||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-12.74|-27.93|<0.001
92372151|NCT01942668|184647395|SUPERIORITY||Mean Difference (Final Values)|-17.92|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-25.39|-10.45||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.45|-25.39|<0.001
92372152|NCT01942668|184647395|SUPERIORITY||Mean Difference (Final Values)|-12.97|STANDARD_ERROR_OF_MEAN|3.82|<|0.001|TWO_SIDED|95.0|-20.49|-5.46||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.46|-20.49|<0.001
92372153|NCT01942668|184647395|SUPERIORITY||Mean Difference (Final Values)|-14.28|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-21.7|-6.87||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.87|-21.70|<0.001
92372154|NCT01942668|184647396|SUPERIORITY||Mean Difference (Final Values)|-21.01|STANDARD_ERROR_OF_MEAN|3.93|<|0.001|TWO_SIDED|95.0|-28.72|-13.29||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-13.29|-28.72|<0.001
92372155|NCT01942668|184647396|SUPERIORITY||Mean Difference (Final Values)|-18.37|STANDARD_ERROR_OF_MEAN|3.87|<|0.001|TWO_SIDED|95.0|-25.96|-10.78||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.78|-25.96|<0.001
92372156|NCT01942668|184647396|SUPERIORITY||Mean Difference (Final Values)|-13.03|STANDARD_ERROR_OF_MEAN|3.89|<|0.001|TWO_SIDED|95.0|-20.66|-5.39||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.39|-20.66|<0.001
92372157|NCT01942668|184647396|SUPERIORITY||Mean Difference (Final Values)|-14.65|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|-22.19|-7.12||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-7.12|-22.19|<0.001
92372158|NCT01942668|184647397|SUPERIORITY||Mean Difference (Final Values)|-21.83|STANDARD_ERROR_OF_MEAN|3.94|<|0.001|TWO_SIDED|95.0|-29.57|-14.08||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-14.08|-29.57|<0.001
92407938|NCT00689260|184705595|SUPERIORITY_OR_OTHER|||||||0.908||95.0|||||Wilcoxon (Mann-Whitney)|||P-Value based on two-sided Wilcoxon rank-sum test for difference in medians between log aware and log unaware||||0.908
92372159|NCT01942668|184647397|SUPERIORITY||Mean Difference (Final Values)|-19.4|STANDARD_ERROR_OF_MEAN|3.88|<|0.001|TWO_SIDED|95.0|-27.02|-11.77||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-11.77|-27.02|<0.001
92372160|NCT01942668|184647397|SUPERIORITY||Mean Difference (Final Values)|-13.98|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-21.65|-6.32||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.32|-21.65|<0.001
92372161|NCT01942668|184647397|SUPERIORITY||Mean Difference (Final Values)|-15.66|STANDARD_ERROR_OF_MEAN|3.85|<|0.001|TWO_SIDED|95.0|-23.23|-8.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-8.10|-23.23|<0.001
92372162|NCT01942668|184647398|SUPERIORITY||Mean Difference (Final Values)|-20.61|STANDARD_ERROR_OF_MEAN|3.93|<|0.001|TWO_SIDED|95.0|-28.32|-12.89||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-12.89|-28.32|<0.001
92372163|NCT01942668|184647398|SUPERIORITY||Mean Difference (Final Values)|-18.24|STANDARD_ERROR_OF_MEAN|3.87|<|0.001|TWO_SIDED|95.0|-25.84|-10.65||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.65|-25.84|<0.001
92407939|NCT02563067|184705623|SUPERIORITY||Rate Ratio|0.69||||0.059|TWO_SIDED|95.0|0.5|0.96|||negative binomial regression model|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.96|0.50|0.059
92372164|NCT01942668|184647398|SUPERIORITY||Mean Difference (Final Values)|-12.62|STANDARD_ERROR_OF_MEAN|3.89||0.001|TWO_SIDED|95.0|-20.26|-4.98||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.98|-20.26|0.001
92372165|NCT01942668|184647398|SUPERIORITY||Mean Difference (Final Values)|-13.97|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|-21.51|-6.43||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.43|-21.51|<0.001
92372166|NCT01942668|184647399|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.027||0.676|TWO_SIDED|95.0|-0.04|0.07||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.04|0.676
92372167|NCT01942668|184647399|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.027||0.436|TWO_SIDED|95.0|-0.03|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.03|0.436
92372168|NCT01942668|184647399|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.027||0.106|TWO_SIDED|95.0|-0.01|0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.10|-0.01|0.106
92372169|NCT01942668|184647399|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.027||0.752|TWO_SIDED|95.0|-0.06|0.04||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.04|-0.06|0.752
92372170|NCT01942668|184647400|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.038||0.193|TWO_SIDED|95.0|-0.12|0.02||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.12|0.193
92372171|NCT01942668|184647400|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.037||0.319|TWO_SIDED|95.0|-0.11|0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.04|-0.11|0.319
92372172|NCT01942668|184647400|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.037||0.239|TWO_SIDED|95.0|-0.03|0.12||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.12|-0.03|0.239
92372173|NCT01942668|184647400|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.037||0.72|TWO_SIDED|95.0|-0.09|0.06||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.06|-0.09|0.720
92372174|NCT01942668|184647401|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.049||0.03|TWO_SIDED|95.0|-0.2|-0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.20|0.030
92407940|NCT02563067|184705623|SUPERIORITY||Rate Ratio|0.72||||0.114|TWO_SIDED|95.0|0.52|1.01|||negative binomial regression model|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||1.01|0.52|0.114
92372175|NCT01942668|184647401|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.048||0.06|TWO_SIDED|95.0|-0.19|0.0||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.00|-0.19|0.060
92372176|NCT01942668|184647401|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.048||0.506|TWO_SIDED|95.0|-0.06|0.13||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.13|-0.06|0.506
92372177|NCT01942668|184647401|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.048||0.232|TWO_SIDED|95.0|-0.15|0.04||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.04|-0.15|0.232
92372178|NCT01942668|184647402|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.058||0.027|TWO_SIDED|95.0|-0.24|-0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.24|0.027
92372179|NCT01942668|184647402|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.057||0.011|TWO_SIDED|95.0|-0.26|-0.03||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.03|-0.26|0.011
92372180|NCT01942668|184647402|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.057||0.71|TWO_SIDED|95.0|-0.13|0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.09|-0.13|0.710
92372181|NCT01942668|184647402|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.057||0.072|TWO_SIDED|95.0|-0.21|0.01||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.01|-0.21|0.072
92372182|NCT01942668|184647403|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.069|<|0.001|TWO_SIDED|95.0|-0.36|-0.09||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.09|-0.36|<0.001
92372183|NCT01942668|184647403|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.068||0.062|TWO_SIDED|95.0|-0.26|0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.01|-0.26|0.062
92372184|NCT01942668|184647403|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.068||0.886|TWO_SIDED|95.0|-0.12|0.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.14|-0.12|0.886
92372185|NCT01942668|184647403|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.067||0.067|TWO_SIDED|95.0|-0.26|0.01||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.01|-0.26|0.067
92372186|NCT01942668|184647404|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.084|<|0.001|TWO_SIDED|95.0|-0.53|-0.2||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.20|-0.53|<0.001
92372187|NCT01942668|184647404|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.082||0.053|TWO_SIDED|95.0|-0.32|0.0||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.00|-0.32|0.053
92372188|NCT01942668|184647404|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.083||0.413|TWO_SIDED|95.0|-0.23|0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.09|-0.23|0.413
92372189|NCT01942668|184647404|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.082||0.018|TWO_SIDED|95.0|-0.35|-0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.03|-0.35|0.018
92372190|NCT01942668|184647405|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.085|<|0.001|TWO_SIDED|95.0|-0.54|-0.2||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.20|-0.54|<0.001
92372191|NCT01942668|184647405|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.083||0.006|TWO_SIDED|95.0|-0.4|-0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.07|-0.40|0.006
92372192|NCT01942668|184647405|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.084||0.072|TWO_SIDED|95.0|-0.32|0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.01|-0.32|0.072
92372193|NCT01942668|184647405|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.083||0.014|TWO_SIDED|95.0|-0.37|-0.04||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.04|-0.37|0.014
92372194|NCT01942668|184647406|SUPERIORITY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.087|<|0.001|TWO_SIDED|95.0|-0.55|-0.21||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.21|-0.55|<0.001
92372195|NCT01942668|184647406|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.085||0.016|TWO_SIDED|95.0|-0.37|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.04|-0.37|0.016
92407941|NCT02563067|184705624|SUPERIORITY||Mean Difference (Net)|0.15||||0.369|TWO_SIDED|95.0|-0.02|0.32|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.32|-0.02|0.369
92372196|NCT01942668|184647406|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.086||0.169|TWO_SIDED|95.0|-0.29|0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.05|-0.29|0.169
92372197|NCT01942668|184647406|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.085||0.081|TWO_SIDED|95.0|-0.31|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.31|0.081
92372198|NCT01942668|184647407|SUPERIORITY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.092|<|0.001|TWO_SIDED|95.0|-0.66|-0.3||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.30|-0.66|<0.001
92372199|NCT01942668|184647407|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.091||0.003|TWO_SIDED|95.0|-0.45|-0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.10|-0.45|0.003
92372200|NCT01942668|184647407|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.091||0.022|TWO_SIDED|95.0|-0.39|-0.03||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.03|-0.39|0.022
92372201|NCT01942668|184647407|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.09||0.006|TWO_SIDED|95.0|-0.43|-0.07||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.07|-0.43|0.006
92372202|NCT01942668|184647408|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.096|<|0.001|TWO_SIDED|95.0|-0.71|-0.33||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.33|-0.71|<0.001
92372203|NCT01942668|184647408|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.095||0.007|TWO_SIDED|95.0|-0.44|-0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.07|-0.44|0.007
92372204|NCT01942668|184647408|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.095||0.038|TWO_SIDED|95.0|-0.39|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.39|0.038
92372205|NCT01942668|184647408|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.094||0.283|TWO_SIDED|95.0|-0.29|0.08||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.08|-0.29|0.283
92407942|NCT02563067|184705624|SUPERIORITY||Mean Difference (Net)|0.13||||0.824|TWO_SIDED|95.0|-0.04|0.3|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.30|-0.04|0.824
92372206|NCT01942668|184647409|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.72|-0.34||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.34|-0.72|<0.001
92372207|NCT01942668|184647409|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.097|<|0.001|TWO_SIDED|95.0|-0.54|-0.16||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.16|-0.54|<0.001
92372208|NCT01942668|184647409|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.098||0.027|TWO_SIDED|95.0|-0.41|-0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.02|-0.41|0.027
92372209|NCT01942668|184647409|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.096||0.071|TWO_SIDED|95.0|-0.36|0.01||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.01|-0.36|0.071
92372210|NCT01942668|184647410|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.101|<|0.001|TWO_SIDED|95.0|-0.77|-0.37||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.37|-0.77|<0.001
92372211|NCT01942668|184647410|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.57|-0.18||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.18|-0.57|<0.001
92372212|NCT01942668|184647410|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.1||0.039|TWO_SIDED|95.0|-0.4|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.40|0.039
92372213|NCT01942668|184647410|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.099||0.088|TWO_SIDED|95.0|-0.36|0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.03|-0.36|0.088
92372214|NCT01942668|184647411|SUPERIORITY|||||||0.85||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.850
92407943|NCT02563067|184705625|SUPERIORITY||Mean Difference (Net)|-0.17||||0.369|TWO_SIDED|95.0|-0.36|0.01|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.01|-0.36|0.369
92372215|NCT01942668|184647411|SUPERIORITY|||||||0.622||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||0.622
92372216|NCT01942668|184647411|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||1.000
92277757|NCT01341639|184457765|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-2.59|||<|0.001|TWO_SIDED|95.0|-4.39|-1.29||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for FHA|PR5I minus INFANRIX™ hexa|-1.29|-4.39|< 0.001
92277758|NCT01341639|184457765|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.03|||<|0.001|TWO_SIDED|95.0|-1.4|1.52||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for PRN|PR5I minus INFANRIX™ hexa|1.52|-1.4|< 0.001
92277759|NCT01341639|184457767|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.26|||<|0.001|TWO_SIDED|95.0|-2.82|2.25||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Measles|PR5I minus INFANRIX™ hexa|2.25|-2.82|< 0.001
92277760|NCT01341639|184457767|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|3.07|||<|0.001|TWO_SIDED|95.0|-0.12|6.4||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Mumps|PR5I minus INFANRIX™ hexa|6.4|-0.12|< 0.001
92277761|NCT01341639|184457767|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.39|||<|0.001|TWO_SIDED|95.0|-1.5|2.34||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Rubella|PR5I minus INFANRIX™ hexa|2.34|-1.5|< 0.001
92277762|NCT01341639|184457767|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.02|||<|0.001|TWO_SIDED|95.0|-2.11|2.06||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Varicella|PR5I minus INFANRIX™ hexa|2.06|-2.11|< 0.001
92277763|NCT01341639|184457768|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-0.7|||||TWO_SIDED|95.0|-1.9|0.4|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: ISRs or systemic AEs|PR5I minus INFANRIX™ hexa|0.4|-1.9|
92277764|NCT01341639|184457768|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-0.3|||||TWO_SIDED|95.0|-1.8|1.1|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: ISRs or vaccine-related systemic AEs|PR5I minus INFANRIX™ hexa|1.1|-1.8|
92277765|NCT01341639|184457768|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|1.1|||||TWO_SIDED|95.0|-2.1|4.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 ISR|PR5I minus INFANRIX™ hexa|4.3|-2.1|
92372217|NCT01942668|184647411|SUPERIORITY|||||||0.374||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||0.374
92407944|NCT02563067|184705625|SUPERIORITY||Mean Difference (Net)|-0.09||||0.824|TWO_SIDED|95.0|-0.28|0.1|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.10|-0.28|0.824
92277766|NCT01341639|184457768|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|0.9|||||TWO_SIDED|95.0|-2.4|4.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 solicited ISR|PR5I minus INFANRIX™ hexa|4.3|-2.4|
92277767|NCT01341639|184457768|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-2.4|0.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 systemic AE|PR5I minus INFANRIX™ hexa|0.3|-2.4|
92277768|NCT01341639|184457768|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-0.9|||||TWO_SIDED|95.0|-3.2|1.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 vaccine-related systemic AE|PR5I minus INFANRIX™ hexa|1.3|-3.2|
92277769|NCT01341639|184457768|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-1.5|||||TWO_SIDED|95.0|-3.3|0.2|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 solicited systemic AE|PR5I minus INFANRIX™ hexa|0.2|-3.3|
92372218|NCT01942668|184647411|SUPERIORITY|||||||0.706||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.706
92372219|NCT01942668|184647411|SUPERIORITY|||||||0.372||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||0.372
92407945|NCT02563067|184705626|SUPERIORITY||Mean Difference (Net)|0.068||||0.369|TWO_SIDED|95.0|-0.018|0.154|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.154|-0.018|0.369
92407946|NCT02563067|184705626|SUPERIORITY||Mean Difference (Net)|0.038||||0.824|TWO_SIDED|95.0|-0.048|0.124|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.124|-0.048|0.824
92277770|NCT01341639|184457768|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-1.3|||||TWO_SIDED|95.0|-3.7|1.1|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 vaccine-related solicited systemic AE|PR5I minus INFANRIX™ hexa|1.1|-3.7|
92372220|NCT01942668|184647411|SUPERIORITY|||||||0.316||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.316
92407947|NCT02563067|184705627|SUPERIORITY||Rate Ratio|0.82||||0.369|TWO_SIDED|95.0|0.62|1.07|||negative binomial regression model|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||1.07|0.62|0.369
92407948|NCT02563067|184705627|SUPERIORITY||Rate Ratio|0.76||||0.348|TWO_SIDED|95.0|0.58|1.0|||negative binomial regression model|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||1.00|0.58|0.348
92407949|NCT02563067|184705628|SUPERIORITY||Mean Difference (Net)|0.07||||0.824|TWO_SIDED|95.0|-0.07|0.21|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.21|-0.07|0.824
92407950|NCT02563067|184705628|SUPERIORITY||Mean Difference (Net)|0.12||||0.824|TWO_SIDED|95.0|-0.02|0.26|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.26|-0.02|0.824
92372221|NCT01942668|184647411|SUPERIORITY|||||||0.221||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||0.221
92372222|NCT01942668|184647412|SUPERIORITY|||||||0.283||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.283
92372223|NCT01942668|184647412|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.004
92372224|NCT01942668|184647412|SUPERIORITY|||||||0.68||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.680
92372225|NCT01942668|184647412|SUPERIORITY|||||||0.232||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.232
92372226|NCT01942668|184647412|SUPERIORITY|||||||0.677||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.677
92372227|NCT01942668|184647412|SUPERIORITY|||||||0.073||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.073
92372228|NCT01942668|184647412|SUPERIORITY|||||||0.301||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.301
92372229|NCT01942668|184647412|SUPERIORITY|||||||0.013||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.013
92372230|NCT01942668|184647413|SUPERIORITY|||||||0.003||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.003
92372231|NCT01942668|184647413|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||<0.001
92407951|NCT02563067|184705629|SUPERIORITY||Mean Difference (Net)|-0.12||||0.824|TWO_SIDED|95.0|-0.28|0.03|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.03|-0.28|0.824
92407952|NCT02563067|184705629|SUPERIORITY||Mean Difference (Net)|-0.07||||0.824|TWO_SIDED|95.0|-0.23|0.08|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.08|-0.23|0.824
92277771|NCT01341639|184457769|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|4.8|||||TWO_SIDED|95.0|-0.5|10.1|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site erythema|PR5I minus INFANRIX™ hexa|10.1|-0.5|
92277772|NCT01341639|184457769|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|1.8|||||TWO_SIDED|95.0|-3.2|6.8|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site pain|PR5I minus INFANRIX™ hexa|6.8|-3.2|
92372232|NCT01942668|184647413|SUPERIORITY|||||||0.135||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.135
92372233|NCT01942668|184647413|SUPERIORITY|||||||0.231||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.231
92407953|NCT02563067|184705630|SUPERIORITY||Mean Difference (Net)|0.05||||0.369|TWO_SIDED|95.0|-0.019|0.119|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.119|-0.019|0.369
92407954|NCT02563067|184705630|SUPERIORITY||Mean Difference (Net)|0.061||||0.595|TWO_SIDED|95.0|-0.008|0.13|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.130|-0.008|0.595
92407955|NCT00826462|184705655|OTHER||||||<|0.01|||||||linear generalized estimating equations||||A linear GEE regression model adjusted for the significant covariates at p \< 0.05 from the univariate GEE logistic regression models calculated for success|||<0.01
92407956|NCT00826462|184705655|OTHER||||||<|0.01|||||||linear generalized estimating equations|||||||<0.01
92407957|NCT00826462|184705659|OTHER||||||||||||||||||linear generalized estimating equations (GEE) regression model adjusted for significant covariates; between groups estimated odds ratio (OR) for no pain on two isometric movements using logistic GEE regression model adjusted for significant covariates; 99 % confidence intervals|||
92407958|NCT02910986|184705680|SUPERIORITY||||||>|0.05|||||||Chi-squared|||The percentage with improved knowledge (defined as having an incorrect response at T0 and a correct response at T1) was compared between study groups with chi-square tests.||||> 0.05
92407959|NCT02910986|184705681|SUPERIORITY|||||||0.56||||||The priori threshold for statistical significance was 0.05|Chi-squared|||||||0.56
92407960|NCT02910986|184705682|SUPERIORITY||||||>|0.05||||||The priori threshold for statistical significance was 0.05.|Chi-squared|||||||> 0.05
92407961|NCT02910986|184705682|OTHER||difference between EC and UC|2.6|||||TWO_SIDED|98.3|-6.0|11.2||||||||11.2|-6.0|
92407962|NCT02910986|184705682|OTHER||difference between INT and UC|5.0|||||TWO_SIDED|98.3|-4.3|14.3||||||||14.3|-4.3|
92407963|NCT02910986|184705682|OTHER||difference between INT and ENH|2.4|||||TWO_SIDED|98.3|-7.0|11.9||||||||11.9|-7.0|
92407964|NCT03682770|184705685|SUPERIORITY||Difference in percentage|20.23||||0.042|TWO_SIDED|95.0|1.266|39.189||The p-value was derived by Cochran-Mantel-Haenszel (CMH) test stratified by screening peanut-specific IgE level and baseline body weight.|Cochran-Mantel-Haenszel||Difference in percentage derived by Mantel-Haenszel (MH) method|||39.189|1.266|0.0420
92372234|NCT01942668|184647413|SUPERIORITY|||||||0.377||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.377
92407965|NCT03682770|184705686|SUPERIORITY||Least Square Mean Difference|0.67||||0.04|TWO_SIDED|95.0|0.031|1.305||P-value is based on treatment difference (dupilumab + AR101 vs placebo + AR101) of the LS mean change using analysis of covariance (ANCOVA) model.|ANCOVA|||||1.305|0.031|0.0400
92407966|NCT03682770|184705687|SUPERIORITY||Difference in percentage|11.91||||0.0806|TWO_SIDED|95.0|-3.612|27.44||P-values were derived by CMH test stratified by screening peanut-specific IgE level (\<=100 kilo allergy unit per liter \[kUA/L\] vs \>100 kUA/L) and body weight (\<30 kg, \>=30 and \<60 kg, or \>=60 kg).|Cochran-Mantel-Haenszel||Difference in percentage derived by MH method|||27.440|-3.612|0.0806
92407967|NCT03682770|184705689|SUPERIORITY||Difference in percentage|10.4||||0.353|TWO_SIDED|95.0|-11.668|32.474||P-values were derived by CMH test stratified by screening peanut-specific IgE level (\<=100 kUA/L vs \>100 kUA/L) and baseline body weight (\<30 kg, \>=30 kg and \<60 kg, or \>=60 kg).|Cochran-Mantel-Haenszel||Difference in percentage derived by MH method|||32.474|-11.668|0.3530
92407968|NCT03682770|184705690|SUPERIORITY||Least Square Mean Difference|0.37||||0.2628|TWO_SIDED|95.0|-0.281|1.029||P-value is based on treatment difference of the LS mean change using ANCOVA model with baseline tolerated cumulative amount of peanut protein DBPCFC (log transformed) as covariate and the treatment screening peanut-specific IgE level and baseline.|ANCOVA|||||1.029|-0.281|0.2628
92407969|NCT03682770|184705691|SUPERIORITY||Difference in percentage|-2.36||||0.814|TWO_SIDED|95.0|-25.004|20.282||P-values were derived by CMH test stratified by screening peanut-specific IgE level (\<=100 kUA/L vs \>100 kUA/L) and baseline body weight (\<30 kg, \>=30 kg and \<60 kg, or \>=60 kg).|Cochran-Mantel-Haenszel||Difference in percentage derived by MH method|||20.282|-25.004|0.8140
92407970|NCT03682770|184705692|SUPERIORITY||Least Square Mean Difference|-0.05||||0.8805|TWO_SIDED|95.0|-0.699|0.599||P-value is based on treatment difference of the LS mean change using ANCOVA model with baseline tolerated cumulative amount of peanut protein DBPCFC (log transformed) as covariate and the treatment screening peanut-specific IgE level and baseline.|ANCOVA|||||0.599|-0.699|0.8805
92407971|NCT03682770|184705694|SUPERIORITY||Difference percentage|-85.55|||<|0.0001|TWO_SIDED|95.0|-99.47|-73.91||P-value was based on treatment difference (vs. Continuously on Placebo + AR101) in percent change from baseline using rank-based ANCOVA model with baseline measurement as covariate,- and stratification factors and the treatment as fixed factors.|ANCOVA||Median difference and its 95% CIs were estimated with the Hodges-Lehmann method.|||-73.91|-99.47|<0.0001
92407972|NCT03682770|184705695|SUPERIORITY||Difference in percentage|-68.78|||<|0.0001|TWO_SIDED|95.0|-86.71|-56.4||P-value was based on treatment difference (vs. Continuously on Placebo + AR101) in percent change from baseline using rank-based ANCOVA model with baseline measurement as covariate, and stratification factors and the treatment as fixed factors.|ANCOVA||Median difference and its 95% CIs were estimated with the Hodges-Lehmann method.|||-56.40|-86.71|<0.0001
92407973|NCT02304367|184705697|OTHER|||||||0.0428|||||||t-test|||The null hypothesis that the mean change from Baseline to Week 48 in osteoid thickness is zero was tested using a t-test.||||0.0428
92407974|NCT02304367|184705698|OTHER|||||||0.977|||||||t-test|||The null hypothesis that the mean change from Baseline to Week 48 in OS/BS is zero was tested using a t-test.||||0.9770
92277773|NCT01341639|184457769|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|4.0|||||TWO_SIDED|95.0|-1.6|9.6|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site swelling|PR5I minus INFANRIX™ hexa|9.6|-1.6|
92277774|NCT01341639|184457770|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-1.8|2.1|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site bruising|PR5I minus INFANRIX™ hexa|2.1|-1.8|
92277775|NCT01341639|184457770|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|0.6|||||TWO_SIDED|95.0|-0.6|2.1|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site haematoma|PR5I minus INFANRIX™ hexa|2.1|-0.6|
92277776|NCT01341639|184457770|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-0.7|||||TWO_SIDED|95.0|-2.3|0.8|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site haemorrhage|PR5I minus INFANRIX™ hexa|0.8|-2.3|
92277777|NCT01341639|184457770|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-3.7|||||TWO_SIDED|95.0|-7.8|0.5|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site induration|PR5I minus INFANRIX™ hexa|0.5|-7.8|
92277778|NCT01341639|184457770|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-0.2|||||TWO_SIDED|95.0|-1.7|1.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site nodule|PR5I minus INFANRIX™ hexa|1.3|-1.7|
92407975|NCT02304367|184705699|OTHER|||||||0.0858|||||||t-test|||The null hypothesis that the mean change from Baseline to Week 48 in OV/BV is zero was tested using a t-test.||||0.0858
92372235|NCT01942668|184647413|SUPERIORITY|||||||0.478||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.478
92372236|NCT01942668|184647413|SUPERIORITY|||||||0.015||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.015
92372237|NCT01942668|184647413|SUPERIORITY|||||||0.1||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.100
92372238|NCT01942668|184647414|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||<0.001
92407976|NCT02304367|184705700|OTHER|||||||0.4077|||||||t-test|||The null hypothesis that the mean change from Baseline to Week 48 in Mlt is zero was tested using a t-test.||||0.4077
92407977|NCT02304367|184705707|OTHER|||||||0.016|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 24||||0.016
92407978|NCT02304367|184705707|OTHER|||||||0.03|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 48||||0.030
92407979|NCT02304367|184705707|OTHER|||||||0.259|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 96||||0.259
92407980|NCT02304367|184705707|OTHER|||||||0.346|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 144||||0.346
92372239|NCT01942668|184647414|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||<0.001
92372240|NCT01942668|184647414|SUPERIORITY|||||||0.009||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||0.009
92372241|NCT01942668|184647414|SUPERIORITY|||||||0.017||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||0.017
92372242|NCT01942668|184647414|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||||||0.001
92372243|NCT01942668|184647414|SUPERIORITY|||||||0.025||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||0.025
92372244|NCT01942668|184647414|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||<0.001
92372245|NCT01942668|184647414|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||<0.001
92372246|NCT01942668|184647415|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||<0.001
92372247|NCT01942668|184647415|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||<0.001
92372248|NCT01942668|184647415|SUPERIORITY|||||||0.066||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.066
92407981|NCT02304367|184705707|OTHER|||||||0.213|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 168||||0.213
92407982|NCT02304367|184705707|OTHER|||||||0.873|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 192||||0.873
92407983|NCT02304367|184705707|OTHER|||||||0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 216||||0.001
92407984|NCT02304367|184705707|OTHER|||||||0.04|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 240||||0.040
92372249|NCT01942668|184647415|SUPERIORITY|||||||0.055||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.055
92372250|NCT01942668|184647415|SUPERIORITY|||||||0.174||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.174
92372251|NCT01942668|184647415|SUPERIORITY|||||||0.319||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.319
92372252|NCT01942668|184647415|SUPERIORITY|||||||0.007||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.007
92372253|NCT01942668|184647415|SUPERIORITY|||||||0.008||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.008
92372254|NCT01942668|184647416|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||<0.001
92372255|NCT01942668|184647416|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||<0.001
92372256|NCT01942668|184647416|SUPERIORITY|||||||0.019||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||0.019
92372257|NCT01942668|184647416|SUPERIORITY|||||||0.061||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.061
92372258|NCT01942668|184647416|SUPERIORITY|||||||0.026||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||0.026
92372259|NCT01942668|184647416|SUPERIORITY|||||||0.104||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.104
92407985|NCT02304367|184705708|OTHER||||||<|0.0001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 24||||<0.0001
92407986|NCT02304367|184705708|OTHER||||||<|0.0001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 48||||<0.0001
92407987|NCT02304367|184705708|OTHER|||||||0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 96||||0.001
92407988|NCT02304367|184705708|OTHER|||||||0.007|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 144||||0.007
92407989|NCT02304367|184705708|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 168||||0.005
92407990|NCT02304367|184705708|OTHER|||||||0.004|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 192||||0.004
92407991|NCT02304367|184705708|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 216||||0.002
92407992|NCT02304367|184705708|OTHER|||||||0.006|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 240||||0.006
92407993|NCT02304367|184705709|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 24||||< 0.001
92407994|NCT02304367|184705709|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 48||||< 0.001
92407995|NCT02304367|184705709|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 96||||<0.001
92407996|NCT02304367|184705709|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 144||||< 0.001
92407997|NCT02304367|184705709|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 168||||< 0.001
92407998|NCT02304367|184705709|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 192||||< 0.001
92407999|NCT02304367|184705709|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 216||||< 0.001
92408000|NCT02304367|184705709|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 240||||< 0.001
92408001|NCT02304367|184705710|OTHER|||||||0.659|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 24||||0.659
92408002|NCT02304367|184705710|OTHER|||||||0.752|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 48||||0.752
92408003|NCT02304367|184705710|OTHER|||||||0.594|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 96||||0.594
92408004|NCT02304367|184705710|OTHER|||||||0.614|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 144||||0.614
92408005|NCT02304367|184705710|OTHER|||||||0.542|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 168||||0.542
92408006|NCT02304367|184705710|OTHER|||||||0.067|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 192||||0.067
92408007|NCT02304367|184705710|OTHER|||||||0.33|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 216||||0.330
92372260|NCT01942668|184647416|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||<0.001
92372261|NCT01942668|184647416|SUPERIORITY|||||||0.018||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.018
92372262|NCT01942668|184647417|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||<0.001
92372263|NCT01942668|184647417|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||<0.001
92372264|NCT01942668|184647417|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||0.006
92372265|NCT01942668|184647417|SUPERIORITY|||||||0.003||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||0.003
92372266|NCT01942668|184647417|SUPERIORITY|||||||0.017||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||0.017
92372267|NCT01942668|184647417|SUPERIORITY|||||||0.025||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||0.025
92408008|NCT02304367|184705710|SUPERIORITY|||||||0.161|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 240||||0.161
92408009|NCT02304367|184705711|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 24||||< 0.001
92408010|NCT02304367|184705711|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 48||||< 0.001
92372268|NCT01942668|184647417|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||0.001
92372269|NCT01942668|184647417|SUPERIORITY|||||||0.037||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||0.037
92372270|NCT01942668|184647418|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||<0.001
92372271|NCT01942668|184647418|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||<0.001
92372272|NCT01942668|184647418|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.001
92372273|NCT01942668|184647418|SUPERIORITY|||||||0.016||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||0.016
92372274|NCT01942668|184647418|SUPERIORITY|||||||0.012||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.012
92372275|NCT01942668|184647418|SUPERIORITY|||||||0.053||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||0.053
92372276|NCT01942668|184647418|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.004
92372277|NCT01942668|184647418|SUPERIORITY|||||||0.074||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||0.074
92372278|NCT01942668|184647419|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||<0.001
92372279|NCT01942668|184647419|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
92372280|NCT01942668|184647419|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||<0.001
92408011|NCT02304367|184705711|OTHER|||||||0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 96||||0.001
92408012|NCT02304367|184705711|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 144||||< 0.001
92408013|NCT02304367|184705711|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 168||||< 0.001
92408014|NCT02304367|184705711|SUPERIORITY||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 192||||< 0.001
92372281|NCT01942668|184647419|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
92372282|NCT01942668|184647419|SUPERIORITY|||||||0.009||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||0.009
92372283|NCT01942668|184647419|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||0.004
92372284|NCT01942668|184647419|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||0.002
92372285|NCT01942668|184647419|SUPERIORITY|||||||0.015||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||0.015
92372286|NCT01942668|184647420|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||0.004
92408015|NCT02304367|184705711|SUPERIORITY||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 216||||< 0.001
92408016|NCT02304367|184705711|SUPERIORITY||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 240||||< 0.001
92372287|NCT01942668|184647420|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||<0.001
92372288|NCT01942668|184647420|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||0.002
92372289|NCT01942668|184647420|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||0.001
92372290|NCT01942668|184647420|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||0.001
92372291|NCT01942668|184647420|SUPERIORITY|||||||0.009||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||0.009
92372292|NCT01942668|184647420|SUPERIORITY|||||||0.018||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||0.018
92372293|NCT01942668|184647420|SUPERIORITY|||||||0.021||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||0.021
92372294|NCT01942668|184647421|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
92372295|NCT01942668|184647421|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
92372296|NCT01942668|184647421|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
92372297|NCT01942668|184647421|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
92408017|NCT02304367|184705712|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR||Week 24||||< 0.001
92408018|NCT02304367|184705712|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR||Week 48||||< 0.001
92408019|NCT02304367|184705712|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR||Week 96||||0.002
92372298|NCT01942668|184647421|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
92372299|NCT01942668|184647421|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
92372300|NCT01942668|184647421|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
92372301|NCT01942668|184647421|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
92372302|NCT01942668|184647422|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
92372303|NCT01942668|184647422|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||<0.001
92372304|NCT01942668|184647422|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
92372305|NCT01942668|184647422|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||<0.001
92408020|NCT02304367|184705712|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR||Week 144||||< 0.001
92168861|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.4072|TWO_SIDED|95.0|-0.38|0.15|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.15|-0.38|0.4072
92372306|NCT01942668|184647422|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||0.006
92372307|NCT01942668|184647422|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||0.001
92372308|NCT01942668|184647422|SUPERIORITY|||||||0.015||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||0.015
92372309|NCT01942668|184647422|SUPERIORITY|||||||0.005||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||0.005
92372310|NCT01942668|184647423|SUPERIORITY|||||||0.523||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.523
92372311|NCT01942668|184647423|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||1.000
92372312|NCT01942668|184647423|SUPERIORITY|||||||0.821||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.821
92372313|NCT01942668|184647423|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||1.000
92372314|NCT01942668|184647423|SUPERIORITY|||||||0.828||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.828
92372315|NCT01942668|184647423|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||1.000
92372316|NCT01942668|184647423|SUPERIORITY|||||||0.239||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.239
92372317|NCT01942668|184647423|SUPERIORITY|||||||0.377||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||0.377
92372318|NCT01942668|184647424|SUPERIORITY|||||||0.036||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.036
92372319|NCT01942668|184647424|SUPERIORITY|||||||0.015||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.015
92372320|NCT01942668|184647424|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||1.000
92408021|NCT02304367|184705712|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR.||Week 168||||< 0.001
92408022|NCT02304367|184705712|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR.||Week 192||||< 0.001
92408023|NCT02304367|184705712|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR.||Week 216||||< 0.001
92408024|NCT02304367|184705712|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR.||Week 240||||< 0.001
92408025|NCT02304367|184705713|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 24||||< 0.001
92408026|NCT02304367|184705713|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 48||||< 0.001
92408027|NCT02304367|184705713|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 96||||< 0.001
92372321|NCT01942668|184647424|SUPERIORITY|||||||0.546||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.546
92372322|NCT01942668|184647424|SUPERIORITY|||||||0.352||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.352
92372323|NCT01942668|184647424|SUPERIORITY|||||||0.261||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.261
92372324|NCT01942668|184647424|SUPERIORITY|||||||0.058||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.058
92372325|NCT01942668|184647424|SUPERIORITY|||||||0.011||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.011
92372326|NCT01942668|184647425|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||<0.001
92372327|NCT01942668|184647425|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||<0.001
92372328|NCT01942668|184647425|SUPERIORITY|||||||0.115||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.115
92372329|NCT01942668|184647425|SUPERIORITY|||||||0.11||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.110
92372330|NCT01942668|184647425|SUPERIORITY|||||||0.089||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.089
92372331|NCT01942668|184647425|SUPERIORITY|||||||0.074||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.074
92372332|NCT01942668|184647425|SUPERIORITY|||||||0.011||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.011
92372333|NCT01942668|184647425|SUPERIORITY|||||||0.008||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.008
92372334|NCT01942668|184647426|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||<0.001
92372335|NCT01942668|184647426|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||<0.001
92372336|NCT01942668|184647426|SUPERIORITY|||||||0.011||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||0.011
92372337|NCT01942668|184647426|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||<0.001
92372338|NCT01942668|184647426|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||0.002
92372339|NCT01942668|184647426|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||0.002
92372340|NCT01942668|184647426|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||<0.001
92372341|NCT01942668|184647426|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||<0.001
92372342|NCT01942668|184647427|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||<0.001
92372343|NCT01942668|184647427|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||<0.001
92372344|NCT01942668|184647427|SUPERIORITY|||||||0.048||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.048
92372345|NCT01942668|184647427|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.006
92372346|NCT01942668|184647427|SUPERIORITY|||||||0.063||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.063
92372347|NCT01942668|184647427|SUPERIORITY|||||||0.058||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.058
92372348|NCT01942668|184647427|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.004
92372349|NCT01942668|184647427|SUPERIORITY|||||||0.003||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.003
92372350|NCT01942668|184647428|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||<0.001
92372351|NCT01942668|184647428|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||<0.001
92372352|NCT01942668|184647428|SUPERIORITY|||||||0.05||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||0.050
92372353|NCT01942668|184647428|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.006
92372354|NCT01942668|184647428|SUPERIORITY|||||||0.048||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||0.048
92372355|NCT01942668|184647428|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.004
92372356|NCT01942668|184647428|SUPERIORITY|||||||0.02||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||0.020
92372357|NCT01942668|184647428|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.001
92372358|NCT01942668|184647429|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||<0.001
92372359|NCT01942668|184647429|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||<0.001
92372360|NCT01942668|184647429|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||0.001
92372361|NCT01942668|184647429|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||<0.001
92372362|NCT01942668|184647429|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||0.006
92372363|NCT01942668|184647429|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||<0.001
92227454|NCT02804763|184357561|SUPERIORITY||LS Mean Difference vs PBO|17.6|||||TWO_SIDED|95.0|-3.2|38.3||Generalized linear models with factors for treatment and corticosteroid strata were fit using an identity link function for the LS mean differences.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||38.3|-3.2|
92372364|NCT01942668|184647429|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||<0.001
92372365|NCT01942668|184647429|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||<0.001
92372366|NCT01942668|184647430|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||<0.001
92372367|NCT01942668|184647430|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||<0.001
92372368|NCT01942668|184647430|SUPERIORITY|||||||0.013||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.013
92372369|NCT01942668|184647430|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||<0.001
92227455|NCT02804763|184357561|SUPERIORITY||LS Mean Difference vs PBO|15.2|||||TWO_SIDED|95.0|-5.2|35.6||Generalized linear models with factors for treatment and corticosteroid strata were fit using an identity link function for the LS mean differences.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||35.6|-5.2|
92227456|NCT00445302|184357618|SUPERIORITY_OR_OTHER||Ratio of least squares means (%)|87.09|||||TWO_SIDED|90.0|63.59|119.26||||||||119.26|63.59|
92227457|NCT00445302|184357618|SUPERIORITY_OR_OTHER||Ratio of least squares means(%)|106.6||||||90.0|78.99|143.87||||||||143.87|78.99|
92227458|NCT00445302|184357618|SUPERIORITY_OR_OTHER||Ratio of least squares means (%)|106.76||||||90.0|79.11|144.08||||||||144.08|79.11|
92227459|NCT00445302|184357621|SUPERIORITY_OR_OTHER||Ratio of least squares means (%)|121.74||||||90.0|91.86|161.43||||||||161.43|91.86|
92227460|NCT00445302|184357621|SUPERIORITY_OR_OTHER||Ratio of least squares means (%)|151.44||||||90.0|115.78|198.09||||||||198.09|115.78|
92372370|NCT01942668|184647430|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.001
92372371|NCT01942668|184647430|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||0.004
92372372|NCT01942668|184647430|SUPERIORITY|||||||0.003||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.003
92372373|NCT01942668|184647430|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||0.001
92372374|NCT01942668|184647431|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||<0.001
92372375|NCT01942668|184647431|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
92372376|NCT01942668|184647431|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||<0.001
92372377|NCT01942668|184647431|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
92372378|NCT01942668|184647431|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||0.001
92372379|NCT01942668|184647431|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
92372380|NCT01942668|184647431|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||0.004
92372381|NCT01942668|184647431|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
92227461|NCT00445302|184357621|SUPERIORITY_OR_OTHER||Ratio of least squares means (%)|169.51||||||90.0|129.59|221.72||||||||221.72|129.59|
92277779|NCT01341639|184457770|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|1.1||||||95.0|-0.6|3.0|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site warmth|PR5I minus INFANRIX™ hexa|3|-0.6|
92372382|NCT01942668|184647432|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||<0.001
92408028|NCT02304367|184705713|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 144||||< 0.001
92372383|NCT01942668|184647432|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||<0.001
92372384|NCT01942668|184647432|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||<0.001
92372385|NCT01942668|184647432|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||<0.001
92372386|NCT01942668|184647432|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||<0.001
92408029|NCT02304367|184705713|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 168||||< 0.001
92408030|NCT02304367|184705713|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 192||||< 0.001
92408031|NCT02304367|184705713|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 216||||< 0.001
92408032|NCT02304367|184705713|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 240||||< 0.001
92408033|NCT02304367|184705714|OTHER|||||||0.878|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 24||||0.878
92408034|NCT02304367|184705714|OTHER|||||||0.081|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 48||||0.081
92408035|NCT02304367|184705714|OTHER|||||||0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 96||||0.001
92408036|NCT02304367|184705714|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 144||||< 0.001
92408037|NCT02304367|184705714|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 168||||< 0.001
92408038|NCT02304367|184705714|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 192||||< 0.001
92408039|NCT02304367|184705714|OTHER|||||||0.055|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 216||||0.055
92408040|NCT02304367|184705714|OTHER|||||||0.041|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 240||||0.041
92408041|NCT02304367|184705715|OTHER|||||||0.817|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 24||||0.817
92408042|NCT02304367|184705715|OTHER|||||||0.042|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 48||||0.042
92408043|NCT02304367|184705715|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 96||||< 0.001
92408044|NCT02304367|184705715|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 144||||< 0.001
92408045|NCT02304367|184705715|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 168||||< 0.001
92408046|NCT02304367|184705715|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 192||||< 0.001
92408047|NCT02304367|184705715|OTHER|||||||0.174|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 216||||0.174
92408048|NCT02304367|184705715|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 240||||< 0.001
92408049|NCT02304367|184705716|OTHER|||||||0.694|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 24||||0.694
92408050|NCT02304367|184705716|OTHER|||||||0.047|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 48||||0.047
92408051|NCT02304367|184705716|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 96||||< 0.001
92408052|NCT02304367|184705716|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 144||||< 0.001
92408053|NCT02304367|184705716|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 168||||< 0.001
92408054|NCT02304367|184705716|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 192||||< 0.001
92408055|NCT02304367|184705716|OTHER|||||||0.17|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 216||||0.170
92372387|NCT01942668|184647432|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||<0.001
92372388|NCT01942668|184647432|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||0.001
92408056|NCT02304367|184705716|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 240||||< 0.001
92408057|NCT02304367|184705717|OTHER|||||||0.09|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 24||||0.090
92408058|NCT02304367|184705717|OTHER|||||||0.226|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 48||||0.226
92408059|NCT02304367|184705717|OTHER|||||||0.918|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 96||||0.918
92408060|NCT02304367|184705717|OTHER|||||||0.616|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 144||||0.616
92372389|NCT01942668|184647432|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||<0.001
92372390|NCT01942668|184647433|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
92372391|NCT01942668|184647433|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
92372392|NCT01942668|184647433|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
92372393|NCT01942668|184647433|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
92372394|NCT01942668|184647433|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
92372395|NCT01942668|184647433|SUPERIORITY|||||||0.003||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||0.003
92277780|NCT01341639|184457771|OTHER|Miettinen \& Nurminen method.|Risk Difference (RD)|-2.5|||||TWO_SIDED|95.0|-6.3|1.4|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Crying|PR5I minus INFANRIX™ hexa|1.4|-6.3|
92372396|NCT01942668|184647433|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
92372397|NCT01942668|184647433|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
92372398|NCT01942668|184647434|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
92372399|NCT01942668|184647434|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||<0.001
92372400|NCT01942668|184647434|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
92372401|NCT01942668|184647434|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||<0.001
92372402|NCT01942668|184647434|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
92408061|NCT02304367|184705717|OTHER|||||||0.041|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 168||||0.041
92372403|NCT01942668|184647434|SUPERIORITY|||||||0.056||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||0.056
92372404|NCT01942668|184647434|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
92372405|NCT01942668|184647434|SUPERIORITY|||||||0.017||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||0.017
92372406|NCT01942668|184647435|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||||||<0.001
92372407|NCT01942668|184647435|SUPERIORITY|||||||0.005||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||||||0.005
92372408|NCT01942668|184647435|SUPERIORITY|||||||0.007||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||||||0.007
92372409|NCT01942668|184647435|SUPERIORITY|||||||0.004||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||||||0.004
92372410|NCT01942668|184647437|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||||||<0.001
92372411|NCT01942668|184647437|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||||||<0.001
92372412|NCT01942668|184647437|SUPERIORITY|||||||0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||||||0.001
92372413|NCT01942668|184647437|SUPERIORITY|||||||0.002||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||||||0.002
92372414|NCT01942668|184647439|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||||||<0.001
92372415|NCT01942668|184647439|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||||||<0.001
92372416|NCT01942668|184647439|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||||||<0.001
92372417|NCT01942668|184647439|SUPERIORITY|||||||0.002||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||||||0.002
92372418|NCT01942668|184647441|SUPERIORITY|||||||0|||||||Fisher Exact|||||||0.000
92372419|NCT01942668|184647441|SUPERIORITY|||||||0.122|||||||Fisher Exact|||||||0.122
92408062|NCT02304367|184705717|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 192||||0.002
92408063|NCT02304367|184705717|OTHER|||||||0.137|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 216||||0.137
92408064|NCT02304367|184705717|OTHER|||||||0.368|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 240||||0.368
92408065|NCT02304367|184705718|OTHER|||||||0.018|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 24||||0.018
92372420|NCT01942668|184647441|SUPERIORITY|||||||0.28|||||||Fisher Exact|||||||0.280
92372421|NCT01942668|184647441|SUPERIORITY|||||||0.692|||||||Fisher Exact|||||||0.692
92408066|NCT02304367|184705718|OTHER|||||||0.133|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 48||||0.133
92408067|NCT02304367|184705718|OTHER|||||||0.321|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 96||||0.321
92408068|NCT02304367|184705718|OTHER|||||||0.218|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 144||||0.218
92408069|NCT02304367|184705718|OTHER|||||||0.788|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 168||||0.788
92372422|NCT01942668|184647442|SUPERIORITY|||||||0|||||||Fisher Exact|||||||0.000
92372423|NCT01942668|184647442|SUPERIORITY|||||||0.069|||||||Fisher Exact|||||||0.069
92372424|NCT01942668|184647442|SUPERIORITY|||||||0.131|||||||Fisher Exact|||||||0.131
92372425|NCT01942668|184647442|SUPERIORITY|||||||0.661|||||||Fisher Exact|||||||0.661
92372426|NCT01942668|184647443|SUPERIORITY|||||||0|||||||Fisher Exact|||||||0.000
92372427|NCT01942668|184647443|SUPERIORITY|||||||0.04|||||||Fisher Exact|||||||0.040
92372428|NCT01942668|184647443|SUPERIORITY|||||||0.082|||||||Fisher Exact|||||||0.082
92372429|NCT01942668|184647443|SUPERIORITY|||||||0.495|||||||Fisher Exact|||||||0.495
92372430|NCT01942668|184647444|SUPERIORITY|||||||0|||||||Fisher Exact|||||||0.000
92372431|NCT01942668|184647444|SUPERIORITY|||||||0.032|||||||Fisher Exact|||||||0.032
92372432|NCT01942668|184647444|SUPERIORITY|||||||0.137|||||||Fisher Exact|||||||0.137
92372433|NCT01942668|184647444|SUPERIORITY|||||||0.792|||||||Fisher Exact|||||||0.792
92372434|NCT01942668|184647445|SUPERIORITY|||||||0|||||||Fisher Exact|||||||0.000
92372435|NCT01942668|184647445|SUPERIORITY|||||||0.067|||||||Fisher Exact|||||||0.067
92372436|NCT01942668|184647445|SUPERIORITY|||||||0.26|||||||Fisher Exact|||||||0.260
92372437|NCT01942668|184647445|SUPERIORITY|||||||0.792|||||||Fisher Exact|||||||0.792
92372438|NCT01942668|184647446|SUPERIORITY|||||||0.001|||||||Fisher Exact|||||||0.001
92372439|NCT01942668|184647446|SUPERIORITY|||||||0.095|||||||Fisher Exact|||||||0.095
92372440|NCT01942668|184647446|SUPERIORITY|||||||0.352|||||||Fisher Exact|||||||0.352
92372441|NCT01942668|184647446|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92372442|NCT01942668|184647447|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
92372443|NCT01942668|184647447|SUPERIORITY|||||||0.075|||||||Fisher Exact|||||||0.075
92372444|NCT01942668|184647447|SUPERIORITY|||||||0.225|||||||Fisher Exact|||||||0.225
92372445|NCT01942668|184647447|SUPERIORITY|||||||0.769|||||||Fisher Exact|||||||0.769
92372446|NCT01942668|184647448|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
92372447|NCT01942668|184647448|SUPERIORITY|||||||0.084|||||||Fisher Exact|||||||0.084
92372448|NCT01942668|184647448|SUPERIORITY|||||||0.183|||||||Fisher Exact|||||||0.183
92372449|NCT01942668|184647448|SUPERIORITY|||||||0.738|||||||Fisher Exact|||||||0.738
92372450|NCT01942668|184647449|SUPERIORITY|||||||0.006|||||||Fisher Exact|||||||0.006
92372451|NCT01942668|184647449|SUPERIORITY|||||||0.125|||||||Fisher Exact|||||||0.125
92372452|NCT01942668|184647449|SUPERIORITY|||||||0.386|||||||Fisher Exact|||||||0.386
92372453|NCT01942668|184647449|SUPERIORITY|||||||0.737|||||||Fisher Exact|||||||0.737
92372454|NCT01942668|184647450|SUPERIORITY|||||||0.009|||||||Fisher Exact|||||||0.009
92372455|NCT01942668|184647450|SUPERIORITY|||||||0.183|||||||Fisher Exact|||||||0.183
92372456|NCT01942668|184647450|SUPERIORITY|||||||0.745|||||||Fisher Exact|||||||0.745
92372457|NCT01942668|184647450|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92372458|NCT01942668|184647451|SUPERIORITY|||||||0.035|||||||Fisher Exact|||||||0.035
92372459|NCT01942668|184647451|SUPERIORITY|||||||0.536|||||||Fisher Exact|||||||0.536
92408070|NCT02304367|184705718|OTHER|||||||0.156|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 192||||0.156
92277781|NCT01341639|184457771|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-8.4|2.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Decreased appetite|PR5I minus INFANRIX™ hexa|2.3|-8.4|
92372460|NCT01942668|184647451|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92372461|NCT01942668|184647451|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92372462|NCT01942668|184647452|SUPERIORITY|||||||0.261|||||||Fisher Exact|||||||0.261
92372463|NCT01942668|184647452|SUPERIORITY|||||||0.536|||||||Fisher Exact|||||||0.536
92372464|NCT01942668|184647452|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92372465|NCT01942668|184647452|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92372466|NCT01942668|184647453|SUPERIORITY|||||||0.463|||||||Fisher Exact|||||||0.463
92408071|NCT02304367|184705718|OTHER|||||||0.155|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 216||||0.155
92408072|NCT02304367|184705718|OTHER|||||||0.58|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 240||||0.580
92408073|NCT02304367|184705719|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 24||||0.002
92408074|NCT02304367|184705719|OTHER|||||||0.273|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 48||||0.273
92408075|NCT02304367|184705719|OTHER|||||||0.469|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 96||||0.469
92408076|NCT02304367|184705719|OTHER|||||||0.828|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 144||||0.828
92408077|NCT02304367|184705719|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 168||||< 0.001
92408078|NCT02304367|184705719|OTHER|||||||0.141|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 192||||0.141
92408079|NCT02304367|184705719|OTHER|||||||0.606|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 216||||0.606
92408080|NCT02304367|184705719|OTHER|||||||0.907|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 240||||0.907
92408081|NCT02304367|184705720|OTHER|||||||0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 24||||0.001
92408082|NCT02304367|184705720|OTHER|||||||0.149|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 48||||0.149
92408083|NCT02304367|184705720|OTHER|||||||0.372|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 96||||0.372
92408084|NCT02304367|184705720|OTHER|||||||0.116|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 144||||0.116
92408085|NCT02304367|184705720|OTHER|||||||0.013|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 168||||0.013
92408086|NCT02304367|184705720|OTHER|||||||0.962|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 192||||0.962
92277782|NCT01341639|184457771|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|2.1|||||TWO_SIDED|95.0|-1.7|6.0|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Irritability|PR5I minus INFANRIX™ hexa|6|-1.7|
92277783|NCT01341639|184457771|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-1.7|||||TWO_SIDED|95.0|-6.7|3.4|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Pyrexia|PR5I minus INFANRIX™ hexa|3.4|-6.7|
92372467|NCT01942668|184647453|SUPERIORITY|||||||0.687|||||||Fisher Exact|||||||0.687
92372468|NCT01942668|184647453|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92372469|NCT01942668|184647453|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92372470|NCT01942668|184647454|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92372471|NCT01942668|184647454|SUPERIORITY|||||||0.048|||||||Fisher Exact|||||||0.048
92372472|NCT01942668|184647454|SUPERIORITY|||||||0.049|||||||Fisher Exact|||||||0.049
92372473|NCT01942668|184647454|SUPERIORITY|||||||0.328|||||||Fisher Exact|||||||0.328
92372474|NCT01942668|184647455|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92372475|NCT01942668|184647455|SUPERIORITY|||||||0.123|||||||Fisher Exact|||||||0.123
92372476|NCT01942668|184647455|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.030
92372477|NCT01942668|184647455|SUPERIORITY|||||||0.649|||||||Fisher Exact|||||||0.649
92372478|NCT01942668|184647456|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92372479|NCT01942668|184647456|SUPERIORITY|||||||0.059|||||||Fisher Exact|||||||0.059
92372480|NCT01942668|184647456|SUPERIORITY|||||||0.023|||||||Fisher Exact|||||||0.023
92372481|NCT01942668|184647456|SUPERIORITY|||||||0.426|||||||Fisher Exact|||||||0.426
92408087|NCT02304367|184705720|OTHER|||||||0.664|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 216||||0.664
92408088|NCT02304367|184705720|OTHER|||||||0.79|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 240||||0.790
92408089|NCT02304367|184705721|OTHER|||||||0.05|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 24||||0.050
92408090|NCT02304367|184705721|OTHER|||||||0.526|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 48||||0.526
92372482|NCT01942668|184647457|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92372483|NCT01942668|184647457|SUPERIORITY|||||||0.044|||||||Fisher Exact|||||||0.044
92372484|NCT01942668|184647457|SUPERIORITY|||||||0.011|||||||Fisher Exact|||||||0.011
92372485|NCT01942668|184647457|SUPERIORITY|||||||0.481|||||||Fisher Exact|||||||0.481
92372486|NCT01942668|184647458|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92372487|NCT01942668|184647458|SUPERIORITY|||||||0.11|||||||Fisher Exact|||||||0.110
92372488|NCT01942668|184647458|SUPERIORITY|||||||0.045|||||||Fisher Exact|||||||0.045
92372489|NCT01942668|184647458|SUPERIORITY|||||||0.853|||||||Fisher Exact|||||||0.853
92372490|NCT01942668|184647459|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92372491|NCT01942668|184647459|SUPERIORITY|||||||0.245|||||||Fisher Exact|||||||0.245
92372492|NCT01942668|184647459|SUPERIORITY|||||||0.145|||||||Fisher Exact|||||||0.145
92372493|NCT01942668|184647459|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92372494|NCT01942668|184647460|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92372495|NCT01942668|184647460|SUPERIORITY|||||||0.163|||||||Fisher Exact|||||||0.163
92372496|NCT01942668|184647460|SUPERIORITY|||||||0.091|||||||Fisher Exact|||||||0.091
92372497|NCT01942668|184647460|SUPERIORITY|||||||0.693|||||||Fisher Exact|||||||0.693
92372498|NCT01942668|184647461|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92372499|NCT01942668|184647461|SUPERIORITY|||||||0.178|||||||Fisher Exact|||||||0.178
92408091|NCT02304367|184705721|OTHER|||||||0.845|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 96||||0.845
92408092|NCT02304367|184705721|OTHER|||||||0.782|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 144||||0.782
92408093|NCT02304367|184705721|OTHER|||||||0.02|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 168||||0.020
92408094|NCT02304367|184705721|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 192||||0.005
92408095|NCT02304367|184705721|OTHER|||||||0.136|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 216||||0.136
92408096|NCT02304367|184705721|OTHER|||||||0.101|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 240||||0.101
92408097|NCT02304367|184705722|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 24||||< 0.001
92408098|NCT02304367|184705722|OTHER|||||||0.238|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 48||||0.238
92408099|NCT02304367|184705722|OTHER|||||||0.286|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 96||||0.286
92408100|NCT02304367|184705722|OTHER|||||||0.093|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 144||||0.093
92408101|NCT02304367|184705722|OTHER|||||||0.89|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 168||||0.890
92408102|NCT02304367|184705722|OTHER|||||||0.059|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 192||||0.059
92408103|NCT02304367|184705722|SUPERIORITY|||||||0.623||||||Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.|GEE model|||Week 216||||0.623
92408104|NCT02304367|184705722|OTHER|||||||0.411|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 240||||0.411
92408105|NCT02304367|184705723|OTHER|||||||0.8209|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.8209
92408106|NCT02304367|184705723|OTHER|||||||0.2851|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.2851
92277784|NCT01341639|184457771|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-3.2|||||TWO_SIDED|95.0|-7.8|1.4|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Somnolence|PR5I minus INFANRIX™ hexa|1.4|-7.8|
92372500|NCT01942668|184647461|SUPERIORITY|||||||0.097|||||||Fisher Exact|||||||0.097
92372501|NCT01942668|184647461|SUPERIORITY|||||||0.522|||||||Fisher Exact|||||||0.522
92372502|NCT01942668|184647462|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92372503|NCT01942668|184647462|SUPERIORITY|||||||0.315|||||||Fisher Exact|||||||0.315
92372504|NCT01942668|184647462|SUPERIORITY|||||||0.181|||||||Fisher Exact|||||||0.181
92372505|NCT01942668|184647462|SUPERIORITY|||||||0.821|||||||Fisher Exact|||||||0.821
92372506|NCT01942668|184647463|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92372507|NCT01942668|184647463|SUPERIORITY|||||||0.387|||||||Fisher Exact|||||||0.387
92372508|NCT01942668|184647463|SUPERIORITY|||||||0.215|||||||Fisher Exact|||||||0.215
92372509|NCT01942668|184647463|SUPERIORITY|||||||0.639|||||||Fisher Exact|||||||0.639
92408107|NCT02304367|184705723|OTHER|||||||0.6689|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.6689
92408108|NCT02304367|184705723|OTHER|||||||0.1612|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.1612
92408109|NCT02304367|184705724|OTHER|||||||0.4093|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.4093
92408110|NCT02304367|184705724|OTHER|||||||0.572|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.5720
92408111|NCT02304367|184705724|OTHER|||||||0.3501|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.3501
92408112|NCT02304367|184705724|OTHER|||||||0.5172|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.5172
92408113|NCT02304367|184705725|OTHER|||||||0.0046|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline STS measurement.||Week 24||||0.0046
92408114|NCT02304367|184705725|OTHER|||||||0.0012|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline STS measurement.||Week 48||||0.0012
92408115|NCT02304367|184705726|OTHER|||||||0.6475|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.6475
92408116|NCT02304367|184705726|OTHER|||||||0.5319|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.5319
92408117|NCT02304367|184705726|OTHER|||||||0.9206|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.9206
92408118|NCT02304367|184705726|OTHER|||||||0.153|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.1530
92168862|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.13||0.3404|TWO_SIDED|95.0|-0.39|0.13|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.13|-0.39|0.3404
92168863|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.6344|TWO_SIDED|95.0|-0.34|0.2|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.20|-0.34|0.6344
92372510|NCT01942668|184647464|SUPERIORITY|||||||0.008|||||||Fisher Exact|||||||0.008
92372511|NCT01942668|184647464|SUPERIORITY|||||||0.643|||||||Fisher Exact|||||||0.643
92372512|NCT01942668|184647464|SUPERIORITY|||||||0.501|||||||Fisher Exact|||||||0.501
92372513|NCT01942668|184647464|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92408119|NCT02304367|184705727|OTHER|||||||0.2125|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.2125
92408120|NCT02304367|184705727|OTHER|||||||0.1241|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.1241
92408121|NCT02304367|184705728|OTHER|||||||0.41|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.410
92408122|NCT02304367|184705728|OTHER|||||||0.21|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.210
92408123|NCT02304367|184705728|OTHER|||||||0.06|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.060
92408124|NCT02304367|184705728|OTHER|||||||0.076|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.076
92408125|NCT02304367|184705728|OTHER|||||||0.171|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.171
92372514|NCT01942668|184647465|SUPERIORITY|||||||0.013|||||||Fisher Exact|||||||0.013
92372515|NCT01942668|184647465|SUPERIORITY|||||||0.616|||||||Fisher Exact|||||||0.616
92372516|NCT01942668|184647465|SUPERIORITY|||||||0.352|||||||Fisher Exact|||||||0.352
92372517|NCT01942668|184647465|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92372518|NCT01942668|184647466|SUPERIORITY|||||||0.023|||||||Fisher Exact|||||||0.023
92372519|NCT01942668|184647466|SUPERIORITY|||||||0.535|||||||Fisher Exact|||||||0.535
92372520|NCT01942668|184647466|SUPERIORITY|||||||0.183|||||||Fisher Exact|||||||0.183
92372521|NCT01942668|184647466|SUPERIORITY|||||||0.738|||||||Fisher Exact|||||||0.738
92372522|NCT01942668|184647467|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 1|Fisher Exact|||||||<0.001
92372523|NCT01942668|184647467|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 1|Fisher Exact|||||||0.004
92372524|NCT01942668|184647467|SUPERIORITY|||||||0.012||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 1|Fisher Exact|||||||0.012
92372525|NCT01942668|184647467|SUPERIORITY|||||||0.032||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 1|Fisher Exact|||||||0.032
92372526|NCT01942668|184647468|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 2|Fisher Exact|||||||<0.001
92372527|NCT01942668|184647468|SUPERIORITY|||||||0.022||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 2|Fisher Exact|||||||0.022
92372528|NCT01942668|184647468|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 2|Fisher Exact|||||||0.004
92408126|NCT02304367|184705728|OTHER|||||||0.141|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.141
92408127|NCT02304367|184705728|OTHER|||||||0.263|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.263
92408128|NCT02304367|184705728|OTHER|||||||0.32|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.320
92408129|NCT02304367|184705729|OTHER|||||||0.407|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.407
92408130|NCT02304367|184705729|OTHER|||||||0.192|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.192
92408131|NCT02304367|184705729|OTHER|||||||0.106|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.106
92408132|NCT02304367|184705729|OTHER|||||||0.02|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.020
92408133|NCT02304367|184705729|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.002
92408134|NCT02304367|184705729|OTHER|||||||0.22|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.220
92408135|NCT02304367|184705729|OTHER|||||||0.23|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.230
92372529|NCT01942668|184647468|SUPERIORITY|||||||0.256||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 2|Fisher Exact|||||||0.256
92372530|NCT01942668|184647469|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 3|Fisher Exact|||||||<0.001
92408136|NCT02304367|184705729|OTHER|||||||0.232|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.232
92372531|NCT01942668|184647469|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 3|Fisher Exact|||||||0.006
92372532|NCT01942668|184647469|SUPERIORITY|||||||0.025||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 3|Fisher Exact|||||||0.025
92372533|NCT01942668|184647469|SUPERIORITY|||||||0.182||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 3|Fisher Exact|||||||0.182
92372534|NCT01942668|184647470|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 4|Fisher Exact|||||||0.002
92372535|NCT01942668|184647470|SUPERIORITY|||||||0.469||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 4|Fisher Exact|||||||0.469
92408137|NCT02304367|184705730|OTHER|||||||0.082|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.082
92408138|NCT02304367|184705730|OTHER|||||||0.176|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.176
92408139|NCT02304367|184705730|OTHER|||||||0.047|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.047
92372536|NCT01942668|184647470|SUPERIORITY|||||||0.188||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 4|Fisher Exact|||||||0.188
92372537|NCT01942668|184647470|SUPERIORITY|||||||0.613||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 4|Fisher Exact|||||||0.613
92372538|NCT01942668|184647475|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 1|Fisher Exact|||||||0.002
92372539|NCT01942668|184647475|SUPERIORITY|||||||0.135||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 1|Fisher Exact|||||||0.135
92372540|NCT01942668|184647475|SUPERIORITY|||||||0.26||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 1|Fisher Exact|||||||0.260
92372541|NCT01942668|184647475|SUPERIORITY|||||||0.257||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 1|Fisher Exact|||||||0.257
92372542|NCT01942668|184647476|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 2|Fisher Exact|||||||<0.001
92277785|NCT01341639|184457771|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|0.8|||||TWO_SIDED|95.0|-4.4|6.0|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Vomiting|PR5I minus INFANRIX™ hexa|6|-4.4|
92227462|NCT00282243|184357631|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of the natural log-transformed pharmacokinetic parameters fell within an 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|88.79|||||TWO_SIDED|90.0|85.42|92.29|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance with repeated measures was used for the comparisons of AUC0-24. Exposure at steady state was used for tacrolimus (steady state was defined as days 14 and 42) and for tacrolimus MR (steady state was defined as days 28 and 56). The natural log (ln) was used to transform AUC0-24 prior to analysis and the results were transformed back to the original scale for the presentation of results.||92.29|85.42|
92277786|NCT01590433|184457772|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92277787|NCT02040428|184457782|SUPERIORITY_OR_OTHER|||||||0.0001|ONE_SIDED||||||Adaptive group sequential design|Whitehead method for triangular test||Superiority||||0.0001
92240208|NCT01400971|184383844|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy. Diabetes Distress Scale ranges from 1-6 with higher scores indicating more distress.|Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.57|0.95||||||Diabetes Distress Scale total score \> 2||0.95|0.57|
92372543|NCT01942668|184647476|SUPERIORITY|||||||0.085||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 2|Fisher Exact|||||||0.085
92372544|NCT01942668|184647476|SUPERIORITY|||||||0.184||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 2|Fisher Exact|||||||0.184
92372545|NCT01942668|184647476|SUPERIORITY|||||||0.681||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 2|Fisher Exact|||||||0.681
92372546|NCT01942668|184647477|SUPERIORITY|||||||0.008||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 3|Fisher Exact|||||||0.008
92372547|NCT01942668|184647477|SUPERIORITY|||||||0.036||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 3|Fisher Exact|||||||0.036
92372548|NCT01942668|184647477|SUPERIORITY|||||||0.138||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 3|Fisher Exact|||||||0.138
92408140|NCT02304367|184705730|OTHER|||||||0.017|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.017
92372549|NCT01942668|184647477|SUPERIORITY|||||||0.685||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 3|Fisher Exact|||||||0.685
92372550|NCT01942668|184647478|SUPERIORITY|||||||0.023||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 4|Fisher Exact|||||||0.023
92372551|NCT01942668|184647478|SUPERIORITY|||||||0.265||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 4|Fisher Exact|||||||0.265
92372552|NCT01942668|184647478|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 4|Fisher Exact|||||||1.000
92372553|NCT01942668|184647478|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 4|Fisher Exact|||||||1.000
92372554|NCT01942668|184647483|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|0.246|<|0.001|TWO_SIDED|95.0|-2.13|-1.17||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.17|-2.13|<0.001
92372555|NCT01942668|184647483|SUPERIORITY||Mean Difference (Final Values)|-1.31|STANDARD_ERROR_OF_MEAN|0.242|<|0.001|TWO_SIDED|95.0|-1.79|-0.84||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.84|-1.79|<0.001
92372556|NCT01942668|184647483|SUPERIORITY||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|0.242|<|0.001|TWO_SIDED|95.0|-1.64|-0.69||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.69|-1.64|<0.001
92372557|NCT01942668|184647483|SUPERIORITY||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.238|<|0.001|TWO_SIDED|95.0|-1.51|-0.58||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.58|-1.51|<0.001
92372558|NCT01942668|184647484|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.258|<|0.001|TWO_SIDED|95.0|-1.91|-0.89||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.89|-1.91|<0.001
92372559|NCT01942668|184647484|SUPERIORITY||Mean Difference (Final Values)|-1.32|STANDARD_ERROR_OF_MEAN|0.253|<|0.001|TWO_SIDED|95.0|-1.81|-0.82||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.82|-1.81|<0.001
92408141|NCT02304367|184705730|OTHER|||||||0|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.000
92408142|NCT02304367|184705730|OTHER|||||||0.057|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.057
92408143|NCT02304367|184705730|OTHER|||||||0.071|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.071
92408144|NCT02304367|184705730|OTHER|||||||0.07|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.070
92408145|NCT02304367|184705731|OTHER|||||||0.014|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.014
92408146|NCT02304367|184705731|OTHER|||||||0.309|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.309
92408147|NCT02304367|184705731|OTHER|||||||0.036|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.036
92408148|NCT02304367|184705731|OTHER|||||||0.096|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.096
92408149|NCT02304367|184705731|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.005
92408150|NCT02304367|184705731|OTHER|||||||0.022|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.022
92408151|NCT02304367|184705731|OTHER|||||||0.022|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.022
92227463|NCT00282243|184357633|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of the natural log-transformed pharmacokinetic parameters fell within an 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|81.4|||||TWO_SIDED|90.0|77.88|85.08|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance with repeated measures was used for the comparisons of Cmin. Exposure at steady state was used for tacrolimus (steady state was defined as days 14 and 42) and for tacrolimus MR (steady state was defined as days 28 and 56). The natural log (ln) was used to transform Cmin prior to analysis and the results were transformed back to the original scale for the presentation of results.||85.08|77.88|
92227464|NCT01070329|184357666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|||<|0.001|TWO_SIDED|95.0|-0.75|-0.22||The P-value is for the main effect of treatment. The a priori threshold for statistical significance is 0.05.|Mixed Models Analysis|||||-0.22|-0.75|<0.001
92227465|NCT01070329|184357667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2|||<|0.001|TWO_SIDED|95.0|-5.77|-2.62||The a priori threshold for statistical significance is 0.05.|Mixed Models Analysis|||||-2.62|-5.77|<0.001
92227466|NCT01070329|184357668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|||<|0.001|TWO_SIDED|95.0|-1.47|-0.42||This is the p-value for the Disrupt Work/School Work score. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||||-0.42|-1.47|<0.001
92227467|NCT01070329|184357668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|||<|0.001|TWO_SIDED|95.0|-1.42|-0.53||This the p-value for the Disrupt Social Life/Leisure score. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||||-0.53|-1.42|<0.001
92227468|NCT01070329|184357668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|||<|0.001|TWO_SIDED|95.0|-1.41|-0.49||This is the p-value for the Disrupt Family Life/Home score. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||||-0.49|-1.41|<0.001
92227469|NCT01070329|184357668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.88|||<|0.001|TWO_SIDED|95.0|-4.16|-1.61||P-value for the SDS Total score. First gated secondary outcome measure. Gatekeeper strategy controlled experiment-wise type I error for 5 secondary outcomes with stepwise comparisons of treatments until outcome failed to be significant (p\>0.05).|Mixed Models Analysis|||||-1.61|-4.16|<0.001
92227470|NCT01070329|184357669|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the second gated secondary outcome measure. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|Cochran-Mantel-Haenszel|||||||<0.001
92227471|NCT01070329|184357670|SUPERIORITY_OR_OTHER|||||||0.173||95.0||||This third gated secondary outcome measure failed to meet statistical significance. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes.|Cochran-Mantel-Haenszel|||||||0.173
92227472|NCT01070329|184357671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.81|||||TWO_SIDED|95.0|-4.13|-1.48|||Mixed Models Analysis|Fourth gated secondary outcome measure. Statistical significance was not evaluated; prior gated secondary outcome measure failed (p\>0.05).||||-1.48|-4.13|
92227473|NCT01070329|184357672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67||||0.05|TWO_SIDED|95.0|0.0|3.34||This is the p-value for the Change at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||3.34|0.00|0.050
92227474|NCT01070329|184357672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39||||0.071|TWO_SIDED|95.0|-0.12|2.9||This is the p-value for the Change up to Week 8. P-values were not adjusted for multiple comparisons; a priori statistical significance was 0.05.|ANCOVA|||||2.90|-0.12|0.071
92227475|NCT01070329|184357673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.91||||0.05|TWO_SIDED|95.0|0.0|3.82||This is the p-value for the Change from Baseline in SBP at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||3.82|0.00|0.050
92227476|NCT01070329|184357673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.007|TWO_SIDED|95.0|0.5|3.1||This is the p-value for the Change from Baseline in DBP at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||3.10|0.50|0.007
92240209|NCT01729598|184383849|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
92240210|NCT01729598|184383850|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
92227477|NCT01070329|184357673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.063|TWO_SIDED|95.0|-0.09|3.5||This is the p-value for the Change from Baseline in SBP up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||3.50|-0.09|0.063
92227478|NCT01070329|184357673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81||||0.004|TWO_SIDED|95.0|0.6|3.02||This is the p-value for the Change from Baseline in DBP up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||3.02|0.60|0.004
92227479|NCT01070329|184357674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.07|||||TWO_SIDED|95.0|-3.18|-0.96|||Mixed Models Analysis|Fifth gated secondary outcome measure. Statistical significance was not evaluated; the third gated secondary outcome measure failed (p\>0.05).||||-0.96|-3.18|
92227480|NCT01070329|184357675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.007|TWO_SIDED|95.0|-0.93|-0.15||This is the p-value for the Change from Baseline at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.15|-0.93|0.007
92227481|NCT01070329|184357675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.002|TWO_SIDED|95.0|-0.93|-0.22||This is the p-value for the Change from Baseline up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||-0.22|-0.93|0.002
92227482|NCT01070329|184357676|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.021
92227483|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|||<|0.001|TWO_SIDED|95.0|-0.85|-0.27||This is the p-value for the main effect of treatment for the BPI Severity for Worst Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.27|-0.85|<0.001
92227484|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.003|TWO_SIDED|95.0|-0.64|-0.13||This is the p-value for main effect of treatment for the BPI Severity for Least Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.13|-0.64|0.003
92227485|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|||<|0.001|TWO_SIDED|95.0|-0.75|-0.22||This is the p-value for the main effect of treatment for the BPI Severity for Average Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.22|-0.75|<0.001
92227486|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|||<|0.001|TWO_SIDED|95.0|-0.86|-0.27||This is the p-value for the main effect of treatment for the BPI Severity for Pain Right Now score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.27|-0.86|<0.001
92227487|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.008|TWO_SIDED|95.0|-0.75|-0.11||This is the p-value for the main effect of treatment for the BPI Pain Interference with General Activity score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.11|-0.75|0.008
92227488|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.004|TWO_SIDED|95.0|-0.8|-0.15||This is the p-value for the main effect of treatment for the BPI Pain Interference with Mood score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.15|-0.80|0.004
92240211|NCT01729598|184383851|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92240212|NCT01729598|184383852|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||||||0.31
92240213|NCT01041573|184383853|SUPERIORITY_OR_OTHER_LEGACY|||||||0.641|||||||Fisher Exact|||||||0.641
92372560|NCT01942668|184647484|SUPERIORITY||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.257|<|0.001|TWO_SIDED|95.0|-1.63|-0.62||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.62|-1.63|<0.001
92372561|NCT01942668|184647484|SUPERIORITY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.254||0.007|TWO_SIDED|95.0|-1.19|-0.19||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.19|-1.19|0.007
92408152|NCT02304367|184705731|OTHER|||||||0.004|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.004
92372562|NCT01942668|184647485|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.276|<|0.001|TWO_SIDED|95.0|-1.75|-0.66||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.66|-1.75|<0.001
92372563|NCT01942668|184647485|SUPERIORITY||Mean Difference (Final Values)|-1.46|STANDARD_ERROR_OF_MEAN|0.265|<|0.001|TWO_SIDED|95.0|-1.98|-0.94||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.94|-1.98|<0.001
92408153|NCT02304367|184705732|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.005
92408154|NCT02304367|184705732|OTHER|||||||0.019|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.019
92408155|NCT02304367|184705732|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||< 0.001
92408156|NCT02304367|184705732|OTHER|||||||0.006|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.006
92408157|NCT02304367|184705732|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||< 0.001
92408158|NCT02304367|184705732|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||< 0.001
92408159|NCT02304367|184705732|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.002
92408160|NCT02304367|184705732|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.002
92408161|NCT02304367|184705733|OTHER|||||||0.016|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.016
92408162|NCT02304367|184705733|OTHER|||||||0.004|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.004
92408163|NCT02304367|184705733|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||< 0.001
92408164|NCT02304367|184705733|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||< 0.001
92408165|NCT02304367|184705733|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||< 0.001
92408166|NCT02304367|184705733|OTHER|||||||0.036|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.036
92408167|NCT02304367|184705733|OTHER|||||||0.008|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.008
92408168|NCT02304367|184705733|OTHER|||||||0.008|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.008
92408169|NCT02304367|184705734|OTHER|||||||0.006|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.006
92408170|NCT02304367|184705734|OTHER|||||||0.003|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.003
92408171|NCT02304367|184705734|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||<0.001
92408172|NCT02304367|184705734|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||< 0.001
92408173|NCT02304367|184705734|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||< 0.001
92408174|NCT02304367|184705734|SUPERIORITY|||||||0.007|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.007
92408175|NCT02304367|184705734|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.005
92408176|NCT02304367|184705734|OTHER|||||||0.006|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.006
92408177|NCT02304367|184705735|OTHER|||||||0.009|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.009
92408178|NCT02304367|184705735|OTHER|||||||0.02|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.020
92408179|NCT02304367|184705735|OTHER|||||||0.044|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.044
92408180|NCT02304367|184705735|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||< 0.001
92408181|NCT02304367|184705735|OTHER|||||||0.015|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.015
92408182|NCT02304367|184705735|OTHER|||||||0.125|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.125
92408183|NCT02304367|184705735|OTHER|||||||0.004|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.004
92408184|NCT02304367|184705735|OTHER|||||||0.018|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.018
92408185|NCT02304367|184705736|OTHER|||||||0.148|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.148
92408186|NCT02304367|184705736|OTHER|||||||0.295|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.295
92408187|NCT02304367|184705736|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.005
92408188|NCT02304367|184705736|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||< 0.001
92408189|NCT02304367|184705736|OTHER|||||||0.014|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.014
92277788|NCT02040428|184457783|SUPERIORITY_OR_OTHER|||||||0.0046|TWO_SIDED||||||Chi-squared|||||||0.0046
92277789|NCT02058628|184457786|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||Data is represented as per CTR.|Wilcoxon (Mann-Whitney)|DUAC versus SKINOREN with a nominal alpha level of 5%, without adjustment for multiple comparisons.||||||0.0004
92277790|NCT03551730|184457811|SUPERIORITY||Least Squares Means (Difference)|-0.23|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92277791|NCT03551730|184457811|SUPERIORITY||Least Squares Means (Difference)|-0.2|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92277792|NCT03551730|184457811|SUPERIORITY||Least Squares Means (Difference)|-0.23|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92277793|NCT03551730|184457812|SUPERIORITY||Least Squares Means (Difference)|53922.58||||0.1529|TWO_SIDED||||||ANCOVA|||||||0.1529
92372564|NCT01942668|184647485|SUPERIORITY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|0.272|<|0.001|TWO_SIDED|95.0|-1.76|-0.69||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.69|-1.76|<0.001
92277794|NCT03551730|184457812|SUPERIORITY||Least Squares Means (Difference)|124993.1|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92277795|NCT03551730|184457812|SUPERIORITY||Least Squares Means (Difference)|96385.09||||0.0032|TWO_SIDED||||||ANCOVA|||||||0.0032
92277796|NCT02363010|184457829|SUPERIORITY|||||||0.68||||||A prior threshold for statistical significance was p \< .05.|ANOVA|Controlling for baseline weight.||Exploring group differences in 12 month weight losses.||||.68
92277797|NCT02363010|184457829|SUPERIORITY|||||||0.11||||||A prior threshold for significance was p\<.05.|ANOVA|Controlling for baseline weight.||Exploring group differences in 18 month weight losses.||||.11
92277798|NCT02363010|184457830|SUPERIORITY|||||||0.41||||||A priori threshold for statistical significance was p \< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 12 month moderator to vigorous physical activity (MVPA).||||.41
92277799|NCT02363010|184457830|SUPERIORITY|||||||0.46||||||A priori threshold for statistical significance was p \< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 12 month MVPA.||||.46
92277800|NCT02363010|184457830|SUPERIORITY|||||||0.82||||||A priori threshold for statistical significance was p\< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 12 month MVPA.||||.82
92277801|NCT02363010|184457830|SUPERIORITY|||||||0.42||||||A priori threshold for statistical significance was p \< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 18 month MVPA.||||.42
92277802|NCT02363010|184457830|SUPERIORITY|||||||0.28||||||A priori threshold for statistical significance was p \< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 18 month MVPA.||||.28
92277803|NCT02363010|184457830|SUPERIORITY|||||||0.82||||||A priori threshold for statistical significance was p \< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 18 month MVPA.||||.82
92277804|NCT02363010|184457831|SUPERIORITY|||||||0.06||||||A priori threshold for statistical significance was p \< .05.|ANOVA|Controlling for baseline half-mile walk time.||Exploring group differences in 12 month cardiorespiratory fitness, measured by half-mile walk time.||||.06
92277805|NCT02363010|184457831|SUPERIORITY|||||||0.3||||||A priori threshold for statistical significance was p \< .05.|ANOVA|Controlling for baseline half-mile walk time.||Exploring group differences in 18 month cardiorespiratory fitness, measured by half-mile walk time.||||.30
92372565|NCT01942668|184647485|SUPERIORITY||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.272||0.008|TWO_SIDED|95.0|-1.26|-0.19||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.19|-1.26|0.008
92372566|NCT01942668|184647486|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.161||0.284|TWO_SIDED|95.0|-0.49|0.14||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.14|-0.49|0.284
92372567|NCT01942668|184647486|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.158||0.732|TWO_SIDED|95.0|-0.36|0.26||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.26|-0.36|0.732
92372568|NCT01942668|184647486|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.159||0.437|TWO_SIDED|95.0|-0.44|0.19||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.19|-0.44|0.437
92372569|NCT01942668|184647486|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.156||0.439|TWO_SIDED|95.0|-0.43|0.19||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.19|-0.43|0.439
92372570|NCT01942668|184647487|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.169||0.04|TWO_SIDED|95.0|-0.68|-0.02||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.02|-0.68|0.040
92277806|NCT02363010|184457832|SUPERIORITY|||||||0.59||||||A priori threshold for statistical significance was p \< .05.|ANOVA|Controlling for baseline waist circumference.||Exploring group differences in 12 month waist circumference.||||.59
92277807|NCT02363010|184457832|SUPERIORITY|||||||0.57||||||A priori threshold for statistical significance was p \< .05.|ANOVA|Controlling for baseline waist circumference.||Exploring group differences in 18 month waist circumference.||||.57
92277808|NCT02363010|184457833|SUPERIORITY|||||||0.978||||||A priori threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that baseline Emotional Overeating would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.978
92277809|NCT02363010|184457833|SUPERIORITY|||||||0.998||||||A priori threshold for statistical significance was p \<.05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that baseline Emotional Overeating would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.998
92372571|NCT01942668|184647487|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.165||0.066|TWO_SIDED|95.0|-0.63|0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.02|-0.63|0.066
92408190|NCT02304367|184705736|OTHER|||||||0.14|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.140
92372572|NCT01942668|184647487|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.168||0.469|TWO_SIDED|95.0|-0.45|0.21||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.21|-0.45|0.469
92408191|NCT02304367|184705736|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||< 0.001
92227489|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.006|TWO_SIDED|95.0|-0.72|-0.12||This is the p-value for the main effect of treatment for the BPI Pain Interference with Walking Ability Score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.12|-0.72|0.006
92372573|NCT01942668|184647487|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.166||0.616|TWO_SIDED|95.0|-0.41|0.24||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.24|-0.41|0.616
92408192|NCT02304367|184705736|OTHER|||||||0.142|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.142
92408193|NCT02304367|184705737|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.005
92227490|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.012|TWO_SIDED|95.0|-0.72|-0.09||This is the p-value for the main effect of treatment for the BPI Pain Interference with Normal Work score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.09|-0.72|0.012
92240214|NCT01041573|184383853|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92372574|NCT01942668|184647488|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.183||0.25|TWO_SIDED|95.0|-0.57|0.15||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.15|-0.57|0.250
92372575|NCT01942668|184647488|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.175||0.002|TWO_SIDED|95.0|-0.88|-0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.20|-0.88|0.002
92372576|NCT01942668|184647488|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.179||0.796|TWO_SIDED|95.0|-0.4|0.31||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.31|-0.40|0.796
92372577|NCT01942668|184647488|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.179||0.955|TWO_SIDED|95.0|-0.36|0.34||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.34|-0.36|0.955
92372578|NCT01942668|184647489|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.143||0.474|TWO_SIDED|95.0|-0.38|0.18||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.18|-0.38|0.474
92372579|NCT01942668|184647489|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.14||0.378|TWO_SIDED|95.0|-0.4|0.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.15|-0.40|0.378
92372580|NCT01942668|184647489|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.141||0.018|TWO_SIDED|95.0|-0.61|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.06|-0.61|0.018
92372581|NCT01942668|184647489|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.138||0.73|TWO_SIDED|95.0|-0.32|0.22||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.22|-0.32|0.730
92372582|NCT01942668|184647490|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.152||0.197|TWO_SIDED|95.0|-0.49|0.1||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.10|-0.49|0.197
92372583|NCT01942668|184647490|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.148||0.308|TWO_SIDED|95.0|-0.44|0.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.14|-0.44|0.308
92408194|NCT02304367|184705737|OTHER|||||||0.077|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.077
92372584|NCT01942668|184647490|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.152||0.117|TWO_SIDED|95.0|-0.54|0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.06|-0.54|0.117
92372585|NCT01942668|184647490|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.149||0.739|TWO_SIDED|95.0|-0.34|0.24||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.24|-0.34|0.739
92372586|NCT01942668|184647491|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.171||0.635|TWO_SIDED|95.0|-0.42|0.26||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.26|-0.42|0.635
92372587|NCT01942668|184647491|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.164||0.01|TWO_SIDED|95.0|-0.75|-0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.10|-0.75|0.010
92372588|NCT01942668|184647491|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.169||0.092|TWO_SIDED|95.0|-0.62|0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.05|-0.62|0.092
92372589|NCT01942668|184647491|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.168||0.243|TWO_SIDED|95.0|-0.53|0.13||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.13|-0.53|0.243
92372590|NCT01942668|184647492|SUPERIORITY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.21||0.049|TWO_SIDED|95.0|-0.83|0.0||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.00|-0.83|0.049
92372591|NCT01942668|184647492|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.206||0.773|TWO_SIDED|95.0|-0.34|0.46||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.46|-0.34|0.773
92372592|NCT01942668|184647492|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.208||0.081|TWO_SIDED|95.0|-0.77|0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.05|-0.77|0.081
92372593|NCT01942668|184647492|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.204||0.625|TWO_SIDED|95.0|-0.5|0.3||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.30|-0.50|0.625
92372594|NCT01942668|184647493|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.221||0.221|TWO_SIDED|95.0|-0.7|0.16||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.16|-0.70|0.221
92372595|NCT01942668|184647493|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.214||0.992|TWO_SIDED|95.0|-0.42|0.42||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.42|-0.42|0.992
92372596|NCT01942668|184647493|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.219||0.181|TWO_SIDED|95.0|-0.72|0.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.14|-0.72|0.181
92408195|NCT02304367|184705737|OTHER|||||||0.046|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.046
92372597|NCT01942668|184647493|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.216||0.846|TWO_SIDED|95.0|-0.47|0.38||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.38|-0.47|0.846
92372598|NCT01942668|184647494|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.257||0.421|TWO_SIDED|95.0|-0.71|0.3||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.30|-0.71|0.421
92372599|NCT01942668|184647494|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.244||0.044|TWO_SIDED|95.0|-0.97|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.01|-0.97|0.044
92372600|NCT01942668|184647494|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.252||0.093|TWO_SIDED|95.0|-0.92|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.07|-0.92|0.093
92372601|NCT01942668|184647494|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.252||0.247|TWO_SIDED|95.0|-0.79|0.2||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.20|-0.79|0.247
92372602|NCT01942668|184647495|SUPERIORITY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.145|<|0.001|TWO_SIDED|95.0|-0.87|-0.29||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.29|-0.87|<0.001
92372603|NCT01942668|184647495|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.143||0.016|TWO_SIDED|95.0|-0.62|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.06|-0.62|0.016
92227491|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.029|TWO_SIDED|95.0|-0.7|-0.04||This is the p-value for the main effect of treatment for the BPI Pain Interference with Relations with Others score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.04|-0.70|0.029
92372604|NCT01942668|184647495|SUPERIORITY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.143|<|0.001|TWO_SIDED|95.0|-0.76|-0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.20|-0.76|<0.001
92408196|NCT02304367|184705737|OTHER|||||||0.049|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.049
92372605|NCT01942668|184647495|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.141||0.023|TWO_SIDED|95.0|-0.6|-0.05||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.05|-0.60|0.023
92372606|NCT01942668|184647496|SUPERIORITY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.84|-0.25||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.25|-0.84|<0.001
92372607|NCT01942668|184647496|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.146||0.004|TWO_SIDED|95.0|-0.71|-0.13||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.13|-0.71|0.004
92372608|NCT01942668|184647496|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.149||0.003|TWO_SIDED|95.0|-0.73|-0.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.14|-0.73|0.003
92372609|NCT01942668|184647496|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.147||0.179|TWO_SIDED|95.0|-0.49|0.09||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.09|-0.49|0.179
92372610|NCT01942668|184647497|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.169||0.012|TWO_SIDED|95.0|-0.76|-0.1||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.10|-0.76|0.012
92372611|NCT01942668|184647497|SUPERIORITY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.162|<|0.001|TWO_SIDED|95.0|-1.05|-0.41||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.41|-1.05|<0.001
92372612|NCT01942668|184647497|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.166||0.004|TWO_SIDED|95.0|-0.81|-0.16||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.16|-0.81|0.004
92372613|NCT01942668|184647497|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.166||0.07|TWO_SIDED|95.0|-0.63|0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.03|-0.63|0.070
92372614|NCT01942668|184647498|SUPERIORITY||Mean Difference (Final Values)|-4.39|STANDARD_ERROR_OF_MEAN|2.059||0.033|TWO_SIDED|95.0|-8.44|-0.35||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.35|-8.44|0.033
92372615|NCT01942668|184647498|SUPERIORITY||Mean Difference (Final Values)|-2.54|STANDARD_ERROR_OF_MEAN|2.015||0.207|TWO_SIDED|95.0|-6.5|1.41||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.41|-6.50|0.207
92372616|NCT01942668|184647498|SUPERIORITY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|2.03||0.024|TWO_SIDED|95.0|-8.58|-0.61||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.61|-8.58|0.024
92408197|NCT02304367|184705737|OTHER|||||||0.003|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.003
92408198|NCT02304367|184705737|OTHER|||||||0.073|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.073
92408199|NCT02304367|184705737|OTHER|||||||0.109|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.109
92408200|NCT02304367|184705737|OTHER|||||||0.006|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.006
92408201|NCT02304367|184705738|OTHER|||||||0.328|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.328
92408202|NCT02304367|184705738|OTHER|||||||0.015|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.015
92408203|NCT02304367|184705738|OTHER|||||||0.02|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.020
92408204|NCT02304367|184705738|OTHER|||||||0.004|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.004
92408205|NCT02304367|184705738|OTHER|||||||0.021|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.021
92168864|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.5756|TWO_SIDED|95.0|-0.35|0.19|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.19|-0.35|0.5756
92408206|NCT02304367|184705738|OTHER|||||||0.08|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.080
92168865|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.14||0.4394|TWO_SIDED|95.0|-0.38|0.16|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.16|-0.38|0.4394
92168866|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7747|TWO_SIDED|95.0|-0.31|0.23|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.23|-0.31|0.7747
92168867|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7305|TWO_SIDED|95.0|-0.32|0.22|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.22|-0.32|0.7305
92168868|NCT02528188|184227123|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.733|TWO_SIDED|95.0|-0.22|0.32|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.32|-0.22|0.7330
92168869|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.03||0.2159|TWO_SIDED|95.0|-0.1|0.02|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.02|-0.10|0.2159
92227492|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.037|TWO_SIDED|95.0|-0.75|-0.02||This is the p-value for the main effect of treatment for the BPI Pain Interference with Sleep score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.02|-0.75|0.037
92227493|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.006|TWO_SIDED|95.0|-0.81|-0.14||This is the p-value for the main effect of treatment for the BPI Pain Interference with Enjoyment of Life score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.14|-0.81|0.006
92227494|NCT01070329|184357677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.004|TWO_SIDED|95.0|-0.74|-0.15||This is the p-value for the main effect of treatment for the BPI Interference score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.15|-0.74|0.004
92227495|NCT01070329|184357678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-0.9|-0.49||P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.49|-0.90|<0.001
92227496|NCT01070329|184357679|SUPERIORITY_OR_OTHER|||||||0.116||95.0||||This is the p-value for Suicidal Ideation. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.116
92227497|NCT06062264|184357684|SUPERIORITY||Adjusted Risk Ratio|1.03|||||TWO_SIDED|95.0|1.0|1.06||||||Comparing the risk of receiving an influenza vaccination|Adjusted risk ratio. These results compare arms which received portal-based PCP video reminder messages to the arm receiving standard health system portal messages (control).|1.06|1.00|
92227498|NCT06062264|184357684|SUPERIORITY||Adjusted Risk Ratio|1.02|||||TWO_SIDED|95.0|0.99|1.06|||||Adjusted risk ratio. These results compare arms which received portal-based PCP video reminder messages to the arm receiving standard health system portal messages (control).|Comparing the risk of receiving an influenza vaccination||1.06|0.99|
92227499|NCT05256888|184357687|SUPERIORITY||Slope|-1.77|STANDARD_ERROR_OF_MEAN|1.08||0.11|TWO_SIDED||||||Regression, Linear|||"In a linear model to assess group effects on fatigue at 12 weeks, adjusting for baseline levels of fatigue:~Effect of group = -1.77±1.08, p=0.11, favoring the TRE group."||||0.11
92227500|NCT02487108|184357690|OTHER||LS Mean Difference|38.9|||<|0.001|TWO_SIDED|95.0|19.931|57.855|||ANCOVA|||Analysis was performed using ANCOVA with treatment and center as factors and the baseline pain intensity score as a covariate.||57.855|19.931|<0.001
92227501|NCT02487108|184357690|OTHER||LS Mean Difference|44.0|||<|0.001|TWO_SIDED|95.0|25.122|62.881|||ANCOVA|||Analysis was performed using ANCOVA with treatment and center as factors and the baseline pain intensity score as a covariate.||62.881|25.122|<0.001
92227502|NCT02487108|184357690|OTHER||LS Mean Difference|53.4|||<|0.001|TWO_SIDED|95.0|34.589|72.282|||ANCOVA|||Analysis was performed using ANCOVA with treatment and center as factors and the baseline pain intensity score as a covariate.||72.282|34.589|<0.001
92227503|NCT02522767|184357729|SUPERIORITY||Odds Ratio (OR)|1.55|||>|0.05|TWO_SIDED|95.0|0.73|3.32||The p-value was based on chi-square test without a continuity correction.|Chi-squared|||Proportions were compared between treatment groups, at a two-sided 0.05 significance level.||3.32|0.73|>0.05
92227504|NCT02522767|184357732|SUPERIORITY||Odds Ratio (OR)|1.78|||>|0.05|TWO_SIDED|95.0|0.96|3.29||The p-value was based on chi-square test without a continuity correction.|Chi-squared|||Proportions were compared between treatment groups at a two-sided 0.05 significance level.||3.29|0.96|>0.05
92227505|NCT02522767|184357733|SUPERIORITY||Odds Ratio (OR)|1.3|||>|0.05|TWO_SIDED|95.0|0.78|2.15|||Generalized estimating equation approach|||Proportions were compared between treatment groups over 8 weeks, at a two-sided 0.05 significance level.||2.15|0.78|>0.05
92227506|NCT02522767|184357734|SUPERIORITY||Hazard Ratio (HR)|1.36|||>|0.05|TWO_SIDED|95.0|0.91|2.02||The p-value was based on log-rank test.|Log Rank||Hazard ratio and its 95% CI were obtained from Cox proportional hazards model with treatment group as a factor.|Times to normal stool pattern were compared between treatment groups, at a two-sided 0.05 significance level.||2.02|0.91|>0.05
92227507|NCT02522767|184357735|SUPERIORITY||Treatment difference|-0.24|||<|0.05|TWO_SIDED|95.0|-0.41|-0.08|||Repeated-measures ANCOVA||A repeated-measures ANCOVA model with an unstructured correlation matrix was used to calculate estimate.|Change from baseline scores were compared between treatment groups over 8 weeks, at a two-sided 0.05 significance level.||-0.08|-0.41|<0.05
92227508|NCT02522767|184357736|SUPERIORITY||Treatment difference|-2.39|||>|0.05|TWO_SIDED|95.0|-5.46|0.67|||Repeated-measures ANCOVA||A repeated-measures ANCOVA model with an unstructured correlation matrix was used to calculate estimate.|Change from baseline scores were compared between treatment groups over 8 weeks, at a two-sided 0.05 significance level.||0.67|-5.46|>0.05
92227509|NCT02522767|184357737|SUPERIORITY||Treatment difference|-289.69|||<|0.05|TWO_SIDED|95.0|-514.96|-64.42|||ANCOVA||An ANCOVA model was used to calculate estimates.|Changes from baseline were compared between treatment groups, at a two-sided 0.05 significance level.||-64.42|-514.96|<0.05
92227510|NCT02522767|184357738|SUPERIORITY||Treatment difference|12.8|||<|0.05|TWO_SIDED|95.0|5.1|20.5|||Repeated-measures ANCOVA||A repeated-measures ANCOVA model with an unstructured correlation matrix was used to calculate estimates.|Change from baseline scores were compared between treatment groups over 8 weeks, at a two-sided 0.05 significance level.||20.50|5.10|<0.05
92227511|NCT01872338|184357763|SUPERIORITY||Incident Rate Ratio|0.5||||0.015|TWO_SIDED|95.0|0.29|0.87|||negative binomial regression|||||.87|.29|.015
92227512|NCT01872338|184357764|SUPERIORITY||Incident Rate Ratio|0.43||||0.01|TWO_SIDED|95.0|0.22|0.82|||negative binomial regression|||||.82|.22|.01
92227513|NCT01872338|184357765|SUPERIORITY|||||||0.34|||||||Regression, Linear|repeated measures, overall time by condition effect||||||.34
92227514|NCT01872338|184357766|SUPERIORITY|||||||0.23||||||repeated measures, overall time by condition effect|Regression, Linear|||||||.23
92227515|NCT03683394|184357770|SUPERIORITY||Mean Difference (Net)|0.15||||0.008|TWO_SIDED|95.0|0.04|0.26||Adjusted for baseline value, sex, race/ethnicity education, comorbidity score and phone assessment.|Mixed Models Analysis|Treatment effects were estimated using linear mixed models (LMMs) for the changes from baseline to each follow-up assessment.||||0.26|0.04|0.008
92227516|NCT03683394|184357771|SUPERIORITY||Mean Difference (Net)|0.11||||0.002|TWO_SIDED|95.0|0.02|0.21||Adjusted for baseline value, sex, race/ethnicity education, comorbidity score and phone assessment.|Mixed Models Analysis|Treatment effects were estimated using linear mixed models (LMMs) for the changes from baseline to each follow-up assessment.||||0.21|0.02|0.002
92227517|NCT03683394|184357772|SUPERIORITY||Mean Difference (Net)|1.11||||0.03|TWO_SIDED|95.0|0.08|2.14||Adjusted for baseline value, sex, race/ethnicity education, comorbidity score and phone assessment.|Mixed Models Analysis|Treatment effects were estimated using linear mixed models (LMMs) for the changes from baseline to each follow-up assessment.||||2.14|0.08|0.03
92227518|NCT03683394|184357773|SUPERIORITY||Odds Ratio (OR)|0.68||||0.52|TWO_SIDED|95.0|0.19|2.19||Adjusted for age and sex.|Fisher Exact|In an exploratory outcome, we examined incidence of a low CASI score or a diagnosis of MCI or dementia by treatment group.||||2.19|0.19|0.52
92227519|NCT01110395|184357793|OTHER|Bland and Altman|Mean + SD|0.05|STANDARD_ERROR_OF_MEAN|1.96|||TWO_SIDED|||||Bland Altman|mean + SD|Bland Altman|We have provided all the information that is available to us. The PI has left the institution and we are unable to contact him. We have no further data to correct the errors.|We are unable to provide any further data that has been requested. We have supplied all the data that we can possibly provide because the PI has left the institution and we are unable to contact him. We have no other data.|There are no other statistical analysis. We have provided all the information that is available to us. We have no other data available to us because the PI has left the institution and we are unable to contact him.|||
92227520|NCT01110395|184357793|OTHER||||||<|0.05|||||||Mean + SD|||||||<0.05
92227521|NCT02769728|184357808|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||The threshold for statistical significance was p = 0.05||||0.001
92227522|NCT02769728|184357809|SUPERIORITY|||||||0.081||||||The threshold for statistical significance was p = 0.05|Friedman test|||||||0.081
92227523|NCT02769728|184357810|SUPERIORITY|||||||0.114||||||The threshold for statistical significance was p = 0.05|Friedman test|||||||0.114
92227524|NCT02769728|184357811|SUPERIORITY|||||||0.021||||||The threshold for statistical significance was p = 0.05|Friedman test|||||||0.021
92227525|NCT02769728|184357812|SUPERIORITY|||||||1||||||The threshold for statistical significance was p = 0.05|Friedman test|||||||1.00
92227526|NCT01925209|184357888|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.59|STANDARD_ERROR_OF_MEAN|14.331||0.221|TWO_SIDED|99.0|-19.63|54.8|||mixed model repeated measures|||||54.80|-19.63|0.2210
92227527|NCT01925209|184357888|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.59|STANDARD_ERROR_OF_MEAN|14.176||0.1909|TWO_SIDED|99.0|-18.21|55.4|||mixed model repeated measure|||||55.40|-18.21|0.1909
92227528|NCT01925209|184357888|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.31|STANDARD_ERROR_OF_MEAN|14.121||0.9263|TWO_SIDED|99.0|-37.97|35.36|||mixed models repeated measures|||||35.36|-37.97|0.9263
92227529|NCT05384041|184357896|SUPERIORITY|||||||0.056|||||||Regression, Linear|||Intent to Treat analyses||||0.056
92227530|NCT05384041|184357897|SUPERIORITY|||||||0.048|||||||t-test, 2 sided|||Difference (Active - Control) at Week 1||||0.048
92227531|NCT05384041|184357898|SUPERIORITY|||||||0.2595|||||||t-test, 2 sided|||Difference (Active-Control) at Week 1||||0.2595
92227532|NCT05384041|184357898|SUPERIORITY|||||||0.1286|||||||t-test, 2 sided|||Difference (Active-Control) at Week 2||||0.1286
92227533|NCT05384041|184357898|SUPERIORITY|||||||0.1449|||||||t-test, 2 sided|||Difference (Active-Control) at Week 4||||0.1449
92227534|NCT05384041|184357899|SUPERIORITY|||||||0.2065|||||||t-test, 2 sided|||Difference (Active-Control) at Week 1||||0.2065
92227535|NCT05384041|184357899|SUPERIORITY|||||||0.1349|||||||t-test, 2 sided|||Difference (Active-Control) at Week 2||||0.1349
92227536|NCT05384041|184357899|SUPERIORITY|||||||0.1142|||||||t-test, 2 sided|||Difference (Active-Control) at Week 4||||0.1142
92227537|NCT05384041|184357900|SUPERIORITY|||||||0.231|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.231
92227538|NCT05384041|184357900|SUPERIORITY|||||||0.192|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.192
92227539|NCT05384041|184357900|SUPERIORITY|||||||0.045|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.045
92227540|NCT05384041|184357902|SUPERIORITY|||||||0.005|||||||Regression, Linear|||||||0.005
92227541|NCT05384041|184357903|SUPERIORITY|||||||0.0026|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.0026
92227542|NCT05384041|184357903|SUPERIORITY|||||||0.4706|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.4706
92227543|NCT05384041|184357903|SUPERIORITY|||||||0.0197|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.0197
92227544|NCT05384041|184357903|SUPERIORITY|||||||0.4858|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.4858
92227545|NCT05384041|184357903|SUPERIORITY|||||||0.0183|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.0183
92227546|NCT05384041|184357903|SUPERIORITY|||||||0.7885|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.7885
92227547|NCT05384041|184357904|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||<0.001
92227548|NCT05384041|184357904|SUPERIORITY|||||||0.45|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.450
92227549|NCT05384041|184357904|SUPERIORITY|||||||0.008|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.008
92227550|NCT05384041|184357904|SUPERIORITY|||||||0.438|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.438
92227551|NCT05384041|184357904|SUPERIORITY|||||||0.016|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.016
92227552|NCT05384041|184357904|SUPERIORITY|||||||0.355|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.355
92227553|NCT05384041|184357905|SUPERIORITY|||||||0.046|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.046
92227554|NCT05384041|184357905|SUPERIORITY|||||||0.351|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.351
92227555|NCT05384041|184357905|SUPERIORITY|||||||0.053|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.053
92227556|NCT05384041|184357905|SUPERIORITY|||||||0.12|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.120
92227557|NCT05384041|184357905|SUPERIORITY|||||||0.17|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.170
92227558|NCT05384041|184357905|SUPERIORITY|||||||0.122|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.122
92227559|NCT05384041|184357906|SUPERIORITY|||||||0.044|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.044
92227560|NCT05384041|184357906|SUPERIORITY|||||||0.751|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.751
92227561|NCT05384041|184357906|SUPERIORITY|||||||0.013|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.013
92227562|NCT05384041|184357906|SUPERIORITY|||||||0.318|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.318
92227563|NCT05384041|184357906|SUPERIORITY|||||||0.173|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.173
92227564|NCT05384041|184357906|SUPERIORITY|||||||0.142|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.142
92227565|NCT05384041|184357907|SUPERIORITY|||||||0.026|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.026
92227566|NCT05384041|184357907|SUPERIORITY|||||||0.241|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.241
92227567|NCT05384041|184357907|SUPERIORITY|||||||0.059|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.059
92227568|NCT05384041|184357907|SUPERIORITY|||||||0.478|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.478
92227569|NCT05384041|184357907|SUPERIORITY|||||||0.009|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.009
92227570|NCT05384041|184357907|SUPERIORITY|||||||0.729|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.729
92227571|NCT05384041|184357908|SUPERIORITY|||||||0.044|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.044
92227572|NCT05384041|184357908|SUPERIORITY|||||||0.067|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.067
92227573|NCT05384041|184357908|SUPERIORITY|||||||0.016|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.016
92227574|NCT05384041|184357908|SUPERIORITY|||||||0.006|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.006
92227575|NCT05384041|184357908|SUPERIORITY|||||||0.036|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.036
92227576|NCT05384041|184357908|SUPERIORITY|||||||0.016|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.016
92372617|NCT01942668|184647498|SUPERIORITY||Mean Difference (Final Values)|-2.53|STANDARD_ERROR_OF_MEAN|2.007||0.207|TWO_SIDED|95.0|-6.47|1.41||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||1.41|-6.47|0.207
92372618|NCT01942668|184647499|SUPERIORITY||Mean Difference (Final Values)|-5.48|STANDARD_ERROR_OF_MEAN|2.138||0.011|TWO_SIDED|95.0|-9.68|-1.28||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.28|-9.68|0.011
92168870|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.03||0.2049|TWO_SIDED|95.0|-0.1|0.02|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.02|-0.10|0.2049
92168871|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.03||0.0002|TWO_SIDED|95.0|-0.19|-0.06|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.19|0.0002
92168872|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.21|-0.08|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||-0.08|-0.21|<0.0001
92168873|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.7799|TWO_SIDED|95.0|-0.08|0.06|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.08|0.7799
92168874|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.0061|TWO_SIDED|95.0|-0.16|-0.03|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||-0.03|-0.16|0.0061
92168875|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.9718|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.10|-0.10|0.9718
92168876|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.3292|TWO_SIDED|95.0|-0.14|0.05|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.05|-0.14|0.3292
92168877|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.983|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.10|-0.10|0.9830
92168878|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.9137|TWO_SIDED|95.0|-0.09|0.11|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.11|-0.09|0.9137
92168879|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8784|TWO_SIDED|95.0|-0.11|0.09|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.09|-0.11|0.8784
92168880|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.9995|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.10|-0.10|0.9995
92168881|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.6648|TWO_SIDED|95.0|-0.13|0.08|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.08|-0.13|0.6648
92227577|NCT05384041|184357908|SUPERIORITY|||||||0.914|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.914
92227578|NCT05384041|184357908|SUPERIORITY|||||||0.887|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.887
92408207|NCT02304367|184705738|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||< 0.001
92408208|NCT02304367|184705738|OTHER|||||||0.003|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.003
92408209|NCT02304367|184705739|OTHER|||||||0.207|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.207
92168882|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.728|TWO_SIDED|95.0|-0.09|0.12|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.12|-0.09|0.7280
92168883|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8856|TWO_SIDED|95.0|-0.09|0.11|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.11|-0.09|0.8856
92168884|NCT02528188|184227125|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.05||0.2814|TWO_SIDED|95.0|-0.05|0.16|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.16|-0.05|0.2814
92168885|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4691|TWO_SIDED|95.0|0.89|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2||1.28|0.89|0.4691
92168886|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|0.95||||0.5451|TWO_SIDED|95.0|0.79|1.13|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2||1.13|0.79|0.5451
92168887|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.29||||0.0059|TWO_SIDED|95.0|1.08|1.54|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4||1.54|1.08|0.0059
92168888|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.29||||0.0057|TWO_SIDED|95.0|1.08|1.55|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4||1.55|1.08|0.0057
92168889|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.14||||0.1584|TWO_SIDED|95.0|0.95|1.38|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8||1.38|0.95|0.1584
92168890|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.3||||0.006||95.0|1.08|1.58|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8||1.58|1.08|0.0060
92168891|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.18||||0.1117|TWO_SIDED|95.0|0.96|1.46|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16||1.46|0.96|0.1117
92168892|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.19||||0.1004|TWO_SIDED|95.0|0.97|1.47|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16||1.47|0.97|0.1004
92168893|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.05||||0.6258|TWO_SIDED|95.0|0.87|1.25|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24||1.25|0.87|0.6258
92168894|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.16||||0.1154|TWO_SIDED|95.0|0.96|1.39|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24||1.39|0.96|0.1154
92168895|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8018|TWO_SIDED|95.0|0.86|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32||1.22|0.86|0.8018
92168896|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.05||||0.5697|TWO_SIDED|95.0|0.88|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32||1.26|0.88|0.5697
92168897|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9557|TWO_SIDED|95.0|0.84|1.2|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40||1.20|0.84|0.9557
92372619|NCT01942668|184647499|SUPERIORITY||Mean Difference (Final Values)|-5.25|STANDARD_ERROR_OF_MEAN|2.093||0.012|TWO_SIDED|95.0|-9.36|-1.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.14|-9.36|0.012
92372620|NCT01942668|184647499|SUPERIORITY||Mean Difference (Final Values)|-5.58|STANDARD_ERROR_OF_MEAN|2.122||0.009|TWO_SIDED|95.0|-9.75|-1.41||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.41|-9.75|0.009
92408210|NCT02304367|184705739|OTHER|||||||0.008|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.008
92408211|NCT02304367|184705739|OTHER|||||||0.598|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.598
92227579|NCT05384041|184357908|SUPERIORITY|||||||0.791|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.791
92227580|NCT02086331|184357912|OTHER||||||||||||||||||Intraclass correlation of repeated measures - 0.96, p=0.08|||
92227581|NCT00510276|184357919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.82||||0.005|TWO_SIDED|95.0|1.44|8.2||A gate-keeper strategy was applied to adjust for multiple tests.|Mixed Models Analysis|||Tested was the null hypothesis that there is no statistically significant difference in AAQOL-29 score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||8.20|1.44|0.005
92227582|NCT00510276|184357920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9||||0.006|TWO_SIDED|95.0|1.68|10.12||A gate-keeper strategy was applied to adjust for multiple tests.|Mixed Models Analysis|||Tested was the null hypothesis that there is no statistically significant difference in AAQOL-29 relationship subscale score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||10.12|1.68|0.006
92227583|NCT00510276|184357921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.73||||0.018|TWO_SIDED|95.0|1.0|10.46||A gate-keeper strategy was applied to adjust for multiple tests.|Mixed Models Analysis|||Tested was the null hypothesis that there is no statistically significant difference in AAQOL-29 relationship subscale score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||10.46|1.00|0.018
92227584|NCT00510276|184357922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.36||||0.034|TWO_SIDED|95.0|0.33|8.39||A gate-keeper strategy was applied to adjust for multiple tests.|Mixed Models Analysis|||Tested was the null hypothesis that there is no statistically significant difference in AAQOL-29 psychological health subscale score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||8.39|0.33|0.034
92227585|NCT00510276|184357923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4||||0.074|TWO_SIDED|95.0|-0.33|7.12||A gate-keeper strategy was applied to adjust for multiple tests.|ANCOVA|||Tested was the null hypothesis that there is no statistically significant difference in AAQOL-29 life outlook subscale score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||7.12|-0.33|0.074
92227586|NCT00510276|184357924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|||<|0.001|TWO_SIDED|95.0|-0.63|-0.24|||ANCOVA|ANCOVA with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in CGI-ADHD-S score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.24|-0.63|<0.001
92227587|NCT00510276|184357925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.04|||<|0.001|TWO_SIDED|95.0|-5.94|-2.15|||Mixed Models Analysis|||Tested was the null hypothesis that there is no statistically significant difference in CAARS-S:SV score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-2.15|-5.94|<0.001
92227588|NCT00510276|184357926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.02|TWO_SIDED|95.0|-0.45|-0.04|||ANCOVA|ANCOVA with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in PGI-I scores at 12-week endpoint between atomoxetine and placebo treatment groups.||-0.04|-0.45|0.020
92227589|NCT00510276|184357927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.282|TWO_SIDED|95.0|-1.19|0.35|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in MADRS score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.35|-1.19|0.282
92227590|NCT00510276|184357928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.556|TWO_SIDED|95.0|-2.21|1.19|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in BAI score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||1.19|-2.21|0.556
92227591|NCT00510276|184357929|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Pearson's Correlation Coefficient|||Tested was the null hypothesis that AAQOL-29 total score and CAARS-Inv:SV total score are not correlated.||||<0.001
92240215|NCT00064662|184383891|SUPERIORITY_OR_OTHER||Other|0.0||||0.01||95.0|||||Log Rank|||Time to event analysis of 24 month success rates. Null hypothesis is that the distributions in the two groups are equal.||||0.01
92372621|NCT01942668|184647499|SUPERIORITY||Mean Difference (Final Values)|-4.99|STANDARD_ERROR_OF_MEAN|2.096||0.018|TWO_SIDED|95.0|-9.11|-0.87||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.87|-9.11|0.018
92372622|NCT01942668|184647500|SUPERIORITY||Mean Difference (Final Values)|-4.61|STANDARD_ERROR_OF_MEAN|2.427||0.058|TWO_SIDED|95.0|-9.38|0.16||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.16|-9.38|0.058
92372623|NCT01942668|184647500|SUPERIORITY||Mean Difference (Final Values)|-7.48|STANDARD_ERROR_OF_MEAN|2.322||0.001|TWO_SIDED|95.0|-12.04|-2.92||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.92|-12.04|0.001
92372624|NCT01942668|184647500|SUPERIORITY||Mean Difference (Final Values)|-7.96|STANDARD_ERROR_OF_MEAN|2.397|<|0.001|TWO_SIDED|95.0|-12.67|-3.25||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.25|-12.67|<0.001
92408212|NCT02304367|184705739|OTHER|||||||0.237|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.237
92372625|NCT01942668|184647500|SUPERIORITY||Mean Difference (Final Values)|-6.78|STANDARD_ERROR_OF_MEAN|2.404||0.005|TWO_SIDED|95.0|-11.5|-2.06||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.06|-11.50|0.005
92372626|NCT01942668|184647501|SUPERIORITY||Mean Difference (Final Values)|-6.48|STANDARD_ERROR_OF_MEAN|2.77||0.02|TWO_SIDED|95.0|-11.92|-1.04||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.04|-11.92|0.020
92372627|NCT01942668|184647501|SUPERIORITY||Mean Difference (Final Values)|-3.36|STANDARD_ERROR_OF_MEAN|2.715||0.216|TWO_SIDED|95.0|-8.69|1.97||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.97|-8.69|0.216
92372628|NCT01942668|184647501|SUPERIORITY||Mean Difference (Final Values)|-5.85|STANDARD_ERROR_OF_MEAN|2.734||0.033|TWO_SIDED|95.0|-11.22|-0.48||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.48|-11.22|0.033
92372629|NCT01942668|184647501|SUPERIORITY||Mean Difference (Final Values)|-2.99|STANDARD_ERROR_OF_MEAN|2.685||0.265|TWO_SIDED|95.0|-8.27|2.28||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||2.28|-8.27|0.265
92372630|NCT01942668|184647502|SUPERIORITY||Mean Difference (Final Values)|-7.54|STANDARD_ERROR_OF_MEAN|2.854||0.008|TWO_SIDED|95.0|-13.14|-1.93||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.93|-13.14|0.008
92372631|NCT01942668|184647502|SUPERIORITY||Mean Difference (Final Values)|-6.72|STANDARD_ERROR_OF_MEAN|2.781||0.016|TWO_SIDED|95.0|-12.18|-1.26||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.26|-12.18|0.016
92372632|NCT01942668|184647502|SUPERIORITY||Mean Difference (Final Values)|-8.69|STANDARD_ERROR_OF_MEAN|2.847||0.002|TWO_SIDED|95.0|-14.28|-3.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-3.10|-14.28|0.002
92372633|NCT01942668|184647502|SUPERIORITY||Mean Difference (Final Values)|-6.18|STANDARD_ERROR_OF_MEAN|2.8||0.028|TWO_SIDED|95.0|-11.68|-0.68||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.68|-11.68|0.028
92408213|NCT02304367|184705739|OTHER|||||||0.899|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.899
92240216|NCT00064662|184383892|SUPERIORITY_OR_OTHER||Chi-square|16.2|||<|0.001||95.0|||||Log Rank|||Time to event analysis of cumulative success rates in the two groups. Null hypothesis is that the distributions are equal in the two groups.||||<0.001
92372634|NCT01942668|184647503|SUPERIORITY||Mean Difference (Final Values)|-6.56|STANDARD_ERROR_OF_MEAN|3.18||0.04|TWO_SIDED|95.0|-12.8|-0.31||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.31|-12.80|0.040
92372635|NCT01942668|184647503|SUPERIORITY||Mean Difference (Final Values)|-10.02|STANDARD_ERROR_OF_MEAN|3.04||0.001|TWO_SIDED|95.0|-15.99|-4.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-4.04|-15.99|0.001
92408214|NCT02304367|184705739|OTHER|||||||0.585|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.585
92372636|NCT01942668|184647503|SUPERIORITY||Mean Difference (Final Values)|-9.96|STANDARD_ERROR_OF_MEAN|3.129||0.002|TWO_SIDED|95.0|-16.11|-3.81||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.81|-16.11|0.002
92372637|NCT01942668|184647503|SUPERIORITY||Mean Difference (Final Values)|-6.85|STANDARD_ERROR_OF_MEAN|3.127||0.029|TWO_SIDED|95.0|-12.99|-0.7||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.70|-12.99|0.029
92372638|NCT01942668|184647504|SUPERIORITY||Mean Difference (Final Values)|3.15|STANDARD_ERROR_OF_MEAN|3.003||0.294|TWO_SIDED|95.0|-2.75|9.05||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||9.05|-2.75|0.294
92372639|NCT01942668|184647504|SUPERIORITY||Mean Difference (Final Values)|2.86|STANDARD_ERROR_OF_MEAN|2.922||0.327|TWO_SIDED|95.0|-2.87|8.6||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||8.60|-2.87|0.327
92372640|NCT01942668|184647504|SUPERIORITY||Mean Difference (Final Values)|-1.39|STANDARD_ERROR_OF_MEAN|2.947||0.637|TWO_SIDED|95.0|-7.18|4.39||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||4.39|-7.18|0.637
92372641|NCT01942668|184647504|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|2.893||0.952|TWO_SIDED|95.0|-5.51|5.86||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||5.86|-5.51|0.952
92372642|NCT01942668|184647505|SUPERIORITY||Mean Difference (Final Values)|1.82|STANDARD_ERROR_OF_MEAN|3.219||0.573|TWO_SIDED|95.0|-4.51|8.14||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||8.14|-4.51|0.573
92372643|NCT01942668|184647505|SUPERIORITY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|3.107||0.769|TWO_SIDED|95.0|-7.01|5.19||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||5.19|-7.01|0.769
92372644|NCT01942668|184647505|SUPERIORITY||Mean Difference (Final Values)|-6.33|STANDARD_ERROR_OF_MEAN|3.176||0.047|TWO_SIDED|95.0|-12.56|-0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.09|-12.56|0.047
92408215|NCT02304367|184705739|OTHER|||||||0.461|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.461
92372645|NCT01942668|184647505|SUPERIORITY||Mean Difference (Final Values)|-2.59|STANDARD_ERROR_OF_MEAN|3.133||0.409|TWO_SIDED|95.0|-8.74|3.56||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||3.56|-8.74|0.409
92372646|NCT01942668|184647506|SUPERIORITY||Mean Difference (Final Values)|1.91|STANDARD_ERROR_OF_MEAN|3.443||0.579|TWO_SIDED|95.0|-4.85|8.67||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||8.67|-4.85|0.579
92372647|NCT01942668|184647506|SUPERIORITY||Mean Difference (Final Values)|-3.99|STANDARD_ERROR_OF_MEAN|3.275||0.223|TWO_SIDED|95.0|-10.43|2.44||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||2.44|-10.43|0.223
92372648|NCT01942668|184647506|SUPERIORITY||Mean Difference (Final Values)|-2.05|STANDARD_ERROR_OF_MEAN|3.367||0.542|TWO_SIDED|95.0|-8.67|4.56||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||4.56|-8.67|0.542
92372649|NCT01942668|184647506|SUPERIORITY||Mean Difference (Final Values)|-2.41|STANDARD_ERROR_OF_MEAN|3.376||0.476|TWO_SIDED|95.0|-9.04|4.23||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||4.23|-9.04|0.476
92372650|NCT01942668|184647507|SUPERIORITY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|2.593||0.631|TWO_SIDED|95.0|-6.34|3.84||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||3.84|-6.34|0.631
92168898|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8553|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40||1.22|0.85|0.8553
92168899|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9901|TWO_SIDED|95.0|0.84|1.2|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48||1.20|0.84|0.9901
92168900|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|0.95||||0.587|TWO_SIDED|95.0|0.8|1.14|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48||1.14|0.80|0.5870
92168901|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8302|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56||1.22|0.85|0.8302
92168902|NCT02528188|184227127|SUPERIORITY||Odds Ratio (OR)|0.94||||0.4823|TWO_SIDED|95.0|0.79|1.12|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56||1.12|0.79|0.4823
92168903|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.11||||0.2938|TWO_SIDED|95.0|0.92|1.33|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=30% reduction||1.33|0.92|0.2938
92168904|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.91||||0.3146|TWO_SIDED|95.0|0.75|1.1|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=30% reduction||1.10|0.75|0.3146
92168905|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.24||||0.0748|TWO_SIDED|95.0|0.98|1.58|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=50% reduction||1.58|0.98|0.0748
92168906|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.14||||0.3|TWO_SIDED|95.0|0.89|1.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=50% reduction||1.45|0.89|0.3000
92168907|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.23||||0.255|TWO_SIDED|95.0|0.86|1.74|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=70% reduction||1.74|0.86|0.2550
92168908|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.14||||0.478|TWO_SIDED|95.0|0.8|1.62|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=70% reduction||1.62|0.80|0.4780
92168909|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.3||||0.4006|TWO_SIDED|95.0|0.7|2.42|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=90% reduction||2.42|0.70|0.4006
92240217|NCT00064662|184383892|SUPERIORITY_OR_OTHER||Other|0.0|||<|0.0001||95.0|||||Kalpan Meier (Wald statistic)|||Kaplan Meier time-to-event analysis of cumulative success rates. Used Wald test of equality of survival distributions.||||<0.0001
92372651|NCT01942668|184647507|SUPERIORITY||Mean Difference (Final Values)|1.15|STANDARD_ERROR_OF_MEAN|2.54||0.651|TWO_SIDED|95.0|-3.84|6.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||6.14|-3.84|0.651
92408216|NCT02304367|184705739|OTHER|||||||0.583|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.583
92372652|NCT01942668|184647507|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|2.578||0.813|TWO_SIDED|95.0|-5.67|4.45||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||4.45|-5.67|0.813
92227592|NCT00510276|184357930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.198|TWO_SIDED|95.0|-0.39|0.08|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in TLFB incidence for use of alcohol score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.08|-0.39|0.198
92227593|NCT00510276|184357931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.825|TWO_SIDED|95.0|-0.33|0.26|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in TLFB incidence for use of caffeine score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.26|-0.33|0.825
92227594|NCT00510276|184357933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82||||0.233|TWO_SIDED|95.0|-0.53|2.17|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in TLFB incidence for use of nicotine score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||2.17|-0.53|0.233
92227595|NCT00510276|184357934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.676|TWO_SIDED|95.0|-0.24|0.37|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in TLFB incidence for use of marijuana score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.37|-0.24|0.676
92227596|NCT00510276|184357935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.382|TWO_SIDED|95.0|-1.0|0.39|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in Fagerstorm Test for Nicotine Dependence score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.39|-1.00|0.382
92227597|NCT00510276|184357936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.656|TWO_SIDED|95.0|-1.24|0.78|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in SASS score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.78|-1.24|0.656
92227598|NCT00510276|184357937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.61||||0.201|TWO_SIDED|95.0|-4.08|0.86|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in Driving Behavior Survey Self-Report score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.86|-4.08|0.201
92227599|NCT00510276|184357938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.06|||<|0.001|TWO_SIDED|95.0|-7.39|-2.72|||Mixed Models Analysis|Adjusted for treatment, investigator, visit, treatment-by-visit interaction, baseline score, baseline score-by-visit interaction.||Tested was the null hypothesis that there is no difference in CAARS-Inv:SV score changes from baseline to 12-week endpoint between the atomoxetine group and the placebo group. With approximately 220 patients per arm, assuming a 68% completion rate and an estimated effect size of atomoxetine over placebo of 0.35, using a 5% significance level, the analysis was expected to have 90% power to detect a difference between atomoxetine and placebo at week 12.||-2.72|-7.39|<0.001
92227600|NCT00510276|184357939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.933|TWO_SIDED|95.0|-16.41|17.63|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in Driving Behavior Survey Other-Report score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||17.63|-16.41|0.933
92227601|NCT00510276|184357940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.95||||0.007|TWO_SIDED|95.0|-5.09|-0.81|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Behavioral regulation score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.81|-5.09|0.007
92227602|NCT00510276|184357941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.219|TWO_SIDED|95.0|-1.5|0.35|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A emotional control section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.35|-1.50|0.219
92227603|NCT00510276|184357942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.58||||0.002|TWO_SIDED|95.0|-12.37|-2.78|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A GEC section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-2.78|-12.37|0.002
92227604|NCT00510276|184357943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.644|TWO_SIDED|95.0|-0.47|0.29|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Inconsistency section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.29|-0.47|0.644
92372653|NCT01942668|184647507|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|2.515||0.869|TWO_SIDED|95.0|-5.35|4.52||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||4.52|-5.35|0.869
92372654|NCT01942668|184647508|SUPERIORITY||Mean Difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|2.79||0.074|TWO_SIDED|95.0|-10.48|0.48||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.48|-10.48|0.074
92372655|NCT01942668|184647508|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|2.722||0.748|TWO_SIDED|95.0|-6.22|4.47||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||4.47|-6.22|0.748
92227605|NCT00510276|184357944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.097|TWO_SIDED|95.0|-0.02|0.25|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEFS-A infrequency score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.25|-0.02|0.097
92227606|NCT00510276|184357945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97||||0.002|TWO_SIDED|95.0|-1.57|-0.37|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Inhibit Section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.37|-1.57|0.002
92227607|NCT00510276|184357946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.044|TWO_SIDED|95.0|-1.33|-0.02|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Initiate section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.02|-1.33|0.044
92227608|NCT00510276|184357947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.49||||0.003|TWO_SIDED|95.0|-7.43|-1.55|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Metacognition section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-1.55|-7.43|0.003
92372656|NCT01942668|184647508|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|2.805||0.987|TWO_SIDED|95.0|-5.46|5.56||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||5.56|-5.46|0.987
92227609|NCT00510276|184357948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.456|TWO_SIDED|95.0|-0.51|0.23|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A negativity section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.23|-0.51|0.456
92227610|NCT00510276|184357949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.051|TWO_SIDED|95.0|-1.31|0.0|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Organization of Materials section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.00|-1.31|0.051
92227611|NCT00510276|184357950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.002|TWO_SIDED|95.0|-2.19|-0.47|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Plan/Organize section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.47|-2.19|0.002
92227612|NCT00510276|184357951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.045|TWO_SIDED|95.0|-1.04|-0.01|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A SHIFT section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.01|-1.04|0.045
92227613|NCT00510276|184357952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.001|TWO_SIDED|95.0|-1.35|-0.32|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Self Monitor Section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.32|-1.35|0.001
92227614|NCT00510276|184357953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.008|TWO_SIDED|95.0|-1.23|-0.19|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Task Monitor section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.19|-1.23|0.008
92372657|NCT01942668|184647508|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|2.741||0.709|TWO_SIDED|95.0|-6.41|4.36||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||4.36|-6.41|0.709
92372658|NCT01942668|184647509|SUPERIORITY||Mean Difference (Final Values)|-2.61|STANDARD_ERROR_OF_MEAN|2.968||0.379|TWO_SIDED|95.0|-8.44|3.22||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||3.22|-8.44|0.379
92227615|NCT00510276|184357954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.001|TWO_SIDED|95.0|-1.98|-0.63|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Working Memory section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.63|-1.98|<0.001
92227616|NCT00510276|184357955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.065|TWO_SIDED|95.0|-1.42|0.04|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in ESS score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.04|-1.42|0.065
92227617|NCT00510276|184357956|SUPERIORITY_OR_OTHER|||||||0.788||95.0|||||Cochran-Mantel-Haenszel|Tested was smoking status across treatment.||Tested was the null hypothesis that smoking status is not a predictor of response to atomoxetine treatment compared with placebo||||0.788
92227618|NCT00510276|184357957|SUPERIORITY_OR_OTHER|||||||0.482||95.0||||Tested was smoking status across treatment.|Cochran-Mantel-Haenszel|||Tested was the null hypothesis that smoking status is not a predictor of strong response to atomoxetine treatment compared with placebo||||0.482
92227619|NCT04025632|184357964|SUPERIORITY||Wilcoxon-Mann-Whitney odds|0.55||||0.464|TWO_SIDED|95.0|0.19|1.57||Conducted using a 2-sided Van Elteren test, which represents an extension of the Wilcoxon rank sum test for comparing 2 treatments in a stratified experiment using within-stratum ranks assigning greater weight to rank sums from smaller strata.|2-sided Van Elteren test||The magnitude of association between treatment groups was expressed as in Wilcoxon-Mann-Whitney odds followed by the 95% confidence intervals.|||1.57|0.19|0.464
92408217|NCT02304367|184705740|OTHER|||||||0.654|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.654
92227620|NCT04025632|184357966|SUPERIORITY||Odds Ratio (OR)|1.088||||0.919|TWO_SIDED|95.0|0.214|5.535||P-value for the comparison of treatment groups was calculated using logistic regression with investigational medicinal product and strata as fixed factors.|Regression, Logistic|||||5.535|0.214|0.919
92408218|NCT02304367|184705740|OTHER|||||||0.579|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.579
92408219|NCT02304367|184705740|OTHER|||||||0.123|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.123
92408220|NCT02304367|184705740|OTHER|||||||0.712|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.712
92408221|NCT02304367|184705740|OTHER|||||||0.258|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.258
92408222|NCT02304367|184705740|OTHER|||||||0.851|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.851
92408223|NCT02304367|184705740|OTHER|||||||0.849|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.849
92408224|NCT02304367|184705740|OTHER|||||||0.153|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.153
92408225|NCT02304367|184705741|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.002
92408226|NCT02304367|184705741|OTHER|||||||0.03|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.030
92227621|NCT04025632|184357967|SUPERIORITY||Least squares (LS) mean difference|-0.688||||0.496|TWO_SIDED|95.0|-2.781|1.404||Based on a linear model with treatment and strata (anti-3-hydroxy-3-methyl-glutaryl-coenzyme A reductase \[HMGCR\]+/anti-signal recognition particle \[SRP\]+) as fixed factors with Baseline 3TUG as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||1.404|-2.781|0.496
92408227|NCT02304367|184705741|OTHER|||||||0.011|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.011
92408228|NCT02304367|184705741|OTHER|||||||0.186|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.186
92408229|NCT02304367|184705741|OTHER|||||||0.027|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.027
92408230|NCT02304367|184705741|OTHER|||||||0.33|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.330
92227622|NCT04025632|184357968|SUPERIORITY||LS mean difference|3.89||||0.431|TWO_SIDED|95.0|-6.18|13.95||Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline proximal MMT as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||13.95|-6.18|0.431
92280388|NCT04543136|184463467|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.555|TWO_SIDED|95.0|-0.43|0.79||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.79|-0.43|0.555
92408231|NCT02304367|184705741|OTHER|||||||0.072|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.072
92408232|NCT02304367|184705741|OTHER|||||||0.045|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.045
92408233|NCT02304367|184705742|OTHER|||||||0.369|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.369
92408234|NCT02304367|184705742|OTHER|||||||0.026|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.026
92408235|NCT02304367|184705742|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||< 0.001
92408236|NCT02304367|184705742|OTHER|||||||0.235|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.235
92408237|NCT02304367|184705742|OTHER|||||||0.009|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.009
92408238|NCT02304367|184705742|OTHER|||||||0.278|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.278
92408239|NCT02304367|184705742|OTHER|||||||0.046|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.046
92408240|NCT02304367|184705742|OTHER|||||||0.035|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.035
92408241|NCT02304367|184705743|OTHER|||||||0.442|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.442
92408242|NCT02304367|184705743|OTHER|||||||0.677|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.677
92372659|NCT01942668|184647509|SUPERIORITY||Mean Difference (Final Values)|-3.07|STANDARD_ERROR_OF_MEAN|2.832||0.279|TWO_SIDED|95.0|-8.64|2.49||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||2.49|-8.64|0.279
92372660|NCT01942668|184647509|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|2.949||0.894|TWO_SIDED|95.0|-6.19|5.4||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||5.40|-6.19|0.894
92372661|NCT01942668|184647509|SUPERIORITY||Mean Difference (Final Values)|-2.98|STANDARD_ERROR_OF_MEAN|2.923||0.308|TWO_SIDED|95.0|-8.72|2.76||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||2.76|-8.72|0.308
92372662|NCT01942668|184647510|SUPERIORITY||Mean Difference (Final Values)|1.81|STANDARD_ERROR_OF_MEAN|3.081||0.558|TWO_SIDED|95.0|-4.24|7.86||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||7.86|-4.24|0.558
92372663|NCT01942668|184647510|SUPERIORITY||Mean Difference (Final Values)|3.61|STANDARD_ERROR_OF_MEAN|3.031||0.233|TWO_SIDED|95.0|-2.34|9.57||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||9.57|-2.34|0.233
92372664|NCT01942668|184647510|SUPERIORITY||Mean Difference (Final Values)|6.16|STANDARD_ERROR_OF_MEAN|3.036||0.043|TWO_SIDED|95.0|0.2|12.13||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||12.13|0.20|0.043
92372665|NCT01942668|184647510|SUPERIORITY||Mean Difference (Final Values)|2.07|STANDARD_ERROR_OF_MEAN|2.99||0.488|TWO_SIDED|95.0|-3.8|7.95||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||7.95|-3.80|0.488
92372666|NCT01942668|184647511|SUPERIORITY||Mean Difference (Final Values)|4.07|STANDARD_ERROR_OF_MEAN|3.206||0.205|TWO_SIDED|95.0|-2.23|10.37||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||10.37|-2.23|0.205
92408243|NCT02304367|184705743|OTHER|||||||0.027|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.027
92408244|NCT02304367|184705743|OTHER|||||||0.42|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.420
92227623|NCT04025632|184357969|SUPERIORITY||LS mean difference|-0.204||||0.8|TWO_SIDED|95.0|-1.855|1.448||Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline Physician Global Activity VAS as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||1.448|-1.855|0.800
92372667|NCT01942668|184647511|SUPERIORITY||Mean Difference (Final Values)|9.58|STANDARD_ERROR_OF_MEAN|3.133||0.002|TWO_SIDED|95.0|3.43|15.74||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||15.74|3.43|0.002
92372668|NCT01942668|184647511|SUPERIORITY||Mean Difference (Final Values)|5.04|STANDARD_ERROR_OF_MEAN|3.193||0.115|TWO_SIDED|95.0|-1.23|11.32||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||11.32|-1.23|0.115
92372669|NCT01942668|184647511|SUPERIORITY||Mean Difference (Final Values)|8.94|STANDARD_ERROR_OF_MEAN|3.152||0.005|TWO_SIDED|95.0|2.75|15.13||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||15.13|2.75|0.005
92372670|NCT01942668|184647512|SUPERIORITY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|3.719||0.796|TWO_SIDED|95.0|-6.34|8.27||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||8.27|-6.34|0.796
92372671|NCT01942668|184647512|SUPERIORITY||Mean Difference (Final Values)|5.14|STANDARD_ERROR_OF_MEAN|3.568||0.15|TWO_SIDED|95.0|-1.87|12.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||12.15|-1.87|0.150
92372672|NCT01942668|184647512|SUPERIORITY||Mean Difference (Final Values)|8.58|STANDARD_ERROR_OF_MEAN|3.657||0.019|TWO_SIDED|95.0|1.39|15.77||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||15.77|1.39|0.019
92372673|NCT01942668|184647512|SUPERIORITY||Mean Difference (Final Values)|7.51|STANDARD_ERROR_OF_MEAN|3.667||0.041|TWO_SIDED|95.0|0.3|14.71||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||14.71|0.30|0.041
92372674|NCT01942668|184647513|SUPERIORITY||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|2.197||0.221|TWO_SIDED|95.0|-7.0|1.62||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.62|-7.00|0.221
92372675|NCT01942668|184647513|SUPERIORITY||Mean Difference (Final Values)|-1.42|STANDARD_ERROR_OF_MEAN|2.154||0.511|TWO_SIDED|95.0|-5.65|2.81||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||2.81|-5.65|0.511
92372676|NCT01942668|184647513|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|2.168||0.761|TWO_SIDED|95.0|-3.6|4.92||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||4.92|-3.60|0.761
92372677|NCT01942668|184647513|SUPERIORITY||Mean Difference (Final Values)|-2.07|STANDARD_ERROR_OF_MEAN|2.128||0.332|TWO_SIDED|95.0|-6.25|2.11||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||2.11|-6.25|0.332
92408245|NCT02304367|184705743|SUPERIORITY|||||||0.027|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.027
92408246|NCT02304367|184705743|OTHER|||||||0.312|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.312
92408247|NCT02304367|184705743|OTHER|||||||0.249|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.249
92372678|NCT01942668|184647514|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|2.474||0.687|TWO_SIDED|95.0|-5.86|3.86||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||3.86|-5.86|0.687
92408248|NCT02304367|184705743|OTHER|||||||0.102|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.102
92168910|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.38||||0.3089|TWO_SIDED|95.0|0.74|2.54|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=90% reduction||2.54|0.74|0.3089
92168911|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.26||||0.0114|TWO_SIDED|95.0|1.05|1.5|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=30% reduction||1.50|1.05|0.0114
92168912|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.23||||0.0239|TWO_SIDED|95.0|1.03|1.47|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=30% reduction||1.47|1.03|0.0239
92168913|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.31||||0.0079|TWO_SIDED|95.0|1.07|1.6|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=50% reduction||1.60|1.07|0.0079
92168914|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0068|TWO_SIDED|95.0|1.08|1.6|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=50% reduction||1.60|1.08|0.0068
92168915|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.24||||0.1037|TWO_SIDED|95.0|0.96|1.62|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=70% reduction||1.62|0.96|0.1037
92168916|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0046|TWO_SIDED|95.0|1.12|1.88|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=70% reduction||1.88|1.12|0.0046
92168917|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.36||||0.1971|TWO_SIDED|95.0|0.85|2.19|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=90% reduction||2.19|0.85|0.1971
92168918|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.59||||0.048|TWO_SIDED|95.0|1.0|2.52|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=90% reduction||2.52|1.00|0.0480
92168919|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4744|TWO_SIDED|95.0|0.89|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=30% reduction||1.28|0.89|0.4744
92168920|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.21||||0.0336|TWO_SIDED|95.0|1.02|1.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=30% reduction||1.45|1.02|0.0336
92168921|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.2||||0.0559|TWO_SIDED|95.0|1.0|1.44|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=50% reduction||1.44|1.00|0.0559
92168922|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0021|TWO_SIDED|95.0|1.11|1.61|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=50% reduction||1.61|1.11|0.0021
92168923|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.26||||0.0535|TWO_SIDED|95.0|1.0|1.59|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=70% reduction||1.59|1.00|0.0535
92168924|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.53||||0.0003|TWO_SIDED|95.0|1.22|1.92|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=70% reduction||1.92|1.22|0.0003
92168925|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.11||||0.6421|TWO_SIDED|95.0|0.72|1.7|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=90% reduction||1.70|0.72|0.6421
92372679|NCT01942668|184647514|SUPERIORITY||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|2.411||0.373|TWO_SIDED|95.0|-6.88|2.58||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||2.58|-6.88|0.373
92408249|NCT02304367|184705744|OTHER|||||||0.856|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.856
92408250|NCT02304367|184705744|OTHER|||||||0.898|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.898
92168926|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0207|TWO_SIDED|95.0|1.07|2.38|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=90% reduction||2.38|1.07|0.0207
92168927|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.15||||0.1635|TWO_SIDED|95.0|0.95|1.39|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=30% reduction||1.39|0.95|0.1635
92168928|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.21||||0.0529|TWO_SIDED|95.0|1.0|1.47|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=30% reduction||1.47|1.00|0.0529
92168929|NCT02528188|184227128|SUPERIORITY|The two key secondary comparisons for 'Participants with \>=50% reduction from baseline in WOMAC Pain at Week 16' (tanezumab 2.5 mg treatment group versus NSAID and tanezumab 5 mg treatment group versus NSAID) could not be considered significant since preceding tests in the graphical testing procedure were not significant.|Odds Ratio (OR)|1.15||||0.1322|TWO_SIDED|95.0|0.96|1.37|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=50% reduction||1.37|0.96|0.1322
92168930|NCT02528188|184227128|SUPERIORITY|The two key secondary comparisons for 'Participants with \>=50% reduction from baseline in WOMAC Pain at Week 16' (tanezumab 2.5 mg treatment group versus NSAID and tanezumab 5 mg treatment group versus NSAID) could not be considered significant since preceding tests in the graphical testing procedure were not significant.|Odds Ratio (OR)|1.22||||0.0262|TWO_SIDED|95.0|1.02|1.46|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=50% reduction||1.46|1.02|0.0262
92168931|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9805|TWO_SIDED|95.0|0.83|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=70% reduction||1.22|0.83|0.9805
92168932|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0033|TWO_SIDED|95.0|1.1|1.61|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=70% reduction||1.61|1.10|0.0033
92168933|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.24||||0.159|TWO_SIDED|95.0|0.92|1.69|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=90% reduction||1.69|0.92|0.1590
92168934|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.57||||0.0024|TWO_SIDED|95.0|1.17|2.11|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=90% reduction||2.11|1.17|0.0024
92168935|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9932|TWO_SIDED|95.0|0.83|1.2|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=30% reduction||1.20|0.83|0.9932
92168936|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4374|TWO_SIDED|95.0|0.9|1.29|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=30% reduction||1.29|0.90|0.4374
92168937|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4406|TWO_SIDED|95.0|0.9|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=50% reduction||1.28|0.90|0.4406
92168938|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.08||||0.4078|TWO_SIDED|95.0|0.9|1.29|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=50% reduction||1.29|0.90|0.4078
92168939|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.08||||0.4071|TWO_SIDED|95.0|0.89|1.31|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=70% reduction||1.31|0.89|0.4071
92227624|NCT04025632|184357970|SUPERIORITY||LS mean difference|-1.281||||0.221|TWO_SIDED|95.0|-3.39|0.829||Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline Patient Global Activity VAS as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||0.829|-3.390|0.221
92408251|NCT02304367|184705744|OTHER|||||||0.785|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.785
92227625|NCT04025632|184357971|SUPERIORITY||LS mean difference|-0.147||||0.508|TWO_SIDED|95.0|-0.601|0.307||Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline HAQ as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||0.307|-0.601|0.508
92227626|NCT04025632|184357972|SUPERIORITY||LS mean difference|-0.143||||0.765|TWO_SIDED|95.0|-1.123|0.837|||Linear Mixed Effect Model|Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline MDAAT as a covariate.|The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||0.837|-1.123|0.765
92227627|NCT04025632|184357973|SUPERIORITY||LS mean difference|5.53||||0.265|TWO_SIDED|95.0|-4.49|15.55||Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline FACIT-Fatigue Scale as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||15.55|-4.49|0.265
92227628|NCT02216695|184357980|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35|||||TWO_SIDED|95.0|1.3|1.4|||Regression, Logistic||This is OR for 65 to 74 years age group with \< 65 years as the reference group|||1.40|1.30|
92227629|NCT02216695|184357980|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72|||||TWO_SIDED|95.0|1.66|1.79|||Regression, Logistic||This is OR for age group 75 to 84 years age group with \< 65 years as reference|||1.79|1.66|
92227630|NCT02216695|184357980|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.03|||||TWO_SIDED|95.0|1.89|2.19|||Regression, Logistic||This is OR for age group equal to greater than 85 years age group with \< 65 years as reference|||2.19|1.89|
92227631|NCT02216695|184357981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|1.1|1.3|||Regression, Logistic||This is the OR for 1998-2003 discharge period with 2003-08 as the reference group|||1.30|1.10|
92227632|NCT02216695|184357981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|1.07|1.18|||Regression, Logistic||This is the OR for 2008-13 discharge period with 2003-08 as the reference group|||1.18|1.07|
92227633|NCT02591615|184357982|SUPERIORITY|||||||0.2176|||||||Fisher Exact|||||||0.2176
92227634|NCT02591615|184357983|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.84|TWO_SIDED|95.0|0.67|1.64|||Log Rank|||||1.64|0.67|0.84
92227635|NCT05195528|184357993|SUPERIORITY||Difference in least square mean|17.1|||<|0.0001|TWO_SIDED|95.0|11.81|22.45||P-values were obtained from the general linear model with treatment group as factor and severity and frequency of heartburn at baseline as covariates.|General linear model|||||22.45|11.81|<0.0001
92227636|NCT05195528|184357993|SUPERIORITY||Least square mean difference|16.7|||<|0.0001|TWO_SIDED|95.0|11.36|22.04||P-values were obtained from the general linear model with treatment group as factor and severity and frequency of heartburn at baseline as covariates.|General linear model|||||22.04|11.36|<0.0001
92227637|NCT05195528|184357994|SUPERIORITY||Least square mean difference|15.8|||<|0.0001|TWO_SIDED|95.0|9.93|21.6||P-values were obtained from the general linear model with treatment group as factor and severity and frequency of heartburn at baseline as covariates.|General linear model|||||21.60|9.93|<0.0001
92227638|NCT05195528|184357994|SUPERIORITY||Least square mean difference|13.7|||<|0.0001|TWO_SIDED|95.0|7.84|19.54||P-values were obtained from the general linear model with treatment group as factor and severity and frequency of heartburn at baseline as covariates.|General linear model|||||19.54|7.84|<0.0001
92227639|NCT01552902|184357995|SUPERIORITY_OR_OTHER_LEGACY||Difference in LSM|-3.4|||=|0.0013|TWO_SIDED|95.0|-5.4|-1.3|||Mixed Models Analysis|||The least squares mean (LSM), the difference in LSM and its 95% confidence interval (CI), and the p-value were from a mixed effects model for repeated measures that included treatment group, visit, interaction of the treatment group with the visit as factors, baseline score as a covariate, and an adjustment for the interaction of the baseline score with the visit. The model was based on Restricted maximum likelihood (REML) method of estimation and utilized an unstructured covariance.||-1.3|-5.4|= 0.0013
92227640|NCT01552902|184357995|SUPERIORITY_OR_OTHER_LEGACY||Difference in LSM|-8.5|||<|0.0001|TWO_SIDED|95.0|-11.0|-6.0|||Mixed Models Analysis|||The LSM, the difference in LSM and its 95% CI, and the p-value were from a mixed effects model for repeated measures that included treatment group, visit, interaction of the treatment group with the visit as factors, baseline score as a covariate, and an adjustment for the interaction of the baseline score with the visit. The model was based on REML method of estimation and utilized an unstructured covariance.||-6|-11|< 0.0001
92227641|NCT01552902|184357995|SUPERIORITY_OR_OTHER_LEGACY||Difference in LSM|-5.1|||<|0.0001|TWO_SIDED|95.0|-7.6|-2.6|||Mixed Models Analysis|||The LSM, the difference in LSM and its 95% CI, and the p-value were from a mixed effects model for repeated measures that includes treatment group, visit, interaction of the treatment group with the visit as factors, baseline score as a covariate, and an adjustment for the interaction of the baseline score with the visit. The model was based on REML method of estimation and utilized an unstructured covariance.||-2.6|-7.6|< 0.0001
92227642|NCT00168831|184358012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value|Tiotropium Respimat 5mcg - Placebo|||||<0.0001
92227643|NCT00168831|184358012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry,centre and baseline value|Tiotropium Respimat 10mcg - Placebo|||||<0.0001
92227644|NCT00168831|184358013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.713|STANDARD_ERROR_OF_MEAN|1.052||0.0004||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|||||0.0004
92227645|NCT00168831|184358013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.445|STANDARD_ERROR_OF_MEAN|1.059||0.0012||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|||||0.0012
92227646|NCT00168831|184358014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.053|STANDARD_ERROR_OF_MEAN|0.165|<|0.0001||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|||||<0.0001
92372680|NCT01942668|184647514|SUPERIORITY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|2.466||0.714|TWO_SIDED|95.0|-5.75|3.94||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||3.94|-5.75|0.714
92227647|NCT00168831|184358014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.075|STANDARD_ERROR_OF_MEAN|0.166|<|0.0001||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|||||<0.0001
92227648|NCT00168831|184358015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.782||||0.0002|TWO_SIDED|95.0|0.687|0.89|||Poisson regression||Tiotropium Respimat 5mcg vs. Placebo|||0.890|0.687|0.0002
92227649|NCT00168831|184358015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.725|||<|0.0001|TWO_SIDED|95.0|0.635|0.828|||Poisson regression||Tiotropium Respimat 10mcg vs. Placebo|||0.828|0.635|<0.0001
92227650|NCT00168831|184358059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92227651|NCT00168831|184358059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.252|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|||||ANCOVA||Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92227652|NCT00168831|184358060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92227653|NCT00168831|184358060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92227654|NCT00168831|184358061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.369|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92227655|NCT00168831|184358061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.393|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92227656|NCT00168831|184358062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.9|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92227657|NCT00168831|184358062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.7|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92227658|NCT00168831|184358063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.0|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
92227659|NCT00168831|184358063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|39.1|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92227660|NCT00168831|184358064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0169||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||0.0169
92227661|NCT00168831|184358064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
92227662|NCT02357420|184358073|SUPERIORITY|||||||0.36|||||||Measures mixed effects model (MMRM)|MMRM analysis used treatment, week, treatment-by-week interaction as fixed factors and baseline values as the covariates.||||||0.36
92227663|NCT02357420|184358073|SUPERIORITY|||||||0.25|||||||MMRM|MMRM analysis used treatment, week, treatment-by-week interaction as fixed factors and baseline values as the covariates.||||||0.25
92227664|NCT02357420|184358073|SUPERIORITY|||||||0.59|||||||MMRM|MMRM analysis used treatment, week, treatment-by-week interaction as fixed factors and baseline values as the covariates.||||||0.59
92227665|NCT01808612|184358139|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73||||0.264|TWO_SIDED|95.0|-0.55|2.0|||Mixed Models Analysis|||Approximately 522 participants were to be enrolled. Randomization was to be 2:1:3 (20 mg fluoxetine:40 mg fluoxetine:placebo). Assuming 5% of participants would have missing post-baseline data, the study had 85% power to detect an effect size of 0.33 (20 mg fluoxetine compared to placebo on HAMD21 total score) based on simulations with a 0.05 two-sided significance level.||2.00|-0.55|0.264
92227666|NCT03072160|184358152|OTHER|||||||0.926||||||CD4|Wilcoxon signed-rank test||||A change is defined as being statistically significant (p\>0.05).|||0.926
92227667|NCT03072160|184358152|OTHER|||||||0.445||||||CD8|Wilcoxon signed-rank test||||A change is defined as being statistically significant (p\>0.05).|||0.445
92227668|NCT03072160|184358152|OTHER|||||||0.21||||||Tregs|Wilcoxon signed-rank test||||A change is defined as being statistically significant (p\>0.05).|||0.210
92277810|NCT02363010|184457833|SUPERIORITY|||||||0.878||||||A priori threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that 6-month Emotional Overeating would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.878
92227669|NCT03072160|184358152|OTHER|||||||0.78||||||Natural Killer (NK) cells|Wilcoxon signed-rank test||||A change is defined as being statistically significant (p\>0.05).|||0.780
92227670|NCT01046695|184358160|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||Decrease in OME use in the TENS Unit during the first and second 24 hours.||||.005
92227671|NCT01046695|184358160|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||t-test, 2 sided|||Decrease in OME use in the Control Arm during the first and second 24 hours.||||.11
92227672|NCT01046695|184358161|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||t-test, 2 sided|||||||.70
92227673|NCT04426695|184358163|SUPERIORITY||Least Square (LS) Mean Difference|-0.25||||0.0663|TWO_SIDED|95.0|-0.51|0.02||P-value for change from baseline on log scale for each treatment group was based on the Analysis of covariance (ANCOVA) model with treatment group.|ANCOVA|||||0.02|-0.51|0.0663
92408252|NCT02304367|184705744|OTHER|||||||0.932|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.932
92227674|NCT04426695|184358163|SUPERIORITY||Least Square (LS) Mean Difference|-0.31||||0.0204||95.0|-0.57|0.05||P-value for change from baseline on log scale for each treatment group was based on the Analysis of covariance (ANCOVA) model with treatment group.|ANCOVA|||||0.05|-0.57|0.0204
92227675|NCT04426695|184358163|SUPERIORITY||Least Square (LS) Mean Difference|-0.28||||0.0172|TWO_SIDED|95.0|-0.51|-0.05||P-value for change from baseline on log scale for each treatment group was based on the Analysis of covariance (ANCOVA) model with treatment group.|ANCOVA|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||-0.05|-0.51|0.0172
92227676|NCT04426695|184358164|SUPERIORITY|||||||0.0431||||||P-value was derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0431
92227677|NCT04426695|184358164|SUPERIORITY|||||||0.7975||||||P-value was derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.7975
92227678|NCT04426695|184358164|SUPERIORITY|||||||0.2048||||||P-value was derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.2048
92227679|NCT04426695|184358165|SUPERIORITY|||||||0.0039||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0039
92227680|NCT04426695|184358165|SUPERIORITY|||||||0.2415||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2415
92227681|NCT04426695|184358165|SUPERIORITY|||||||0.0195||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.0195
92227682|NCT04426695|184358166|SUPERIORITY|||||||0.0085||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0085
92227683|NCT04426695|184358166|SUPERIORITY|||||||0.9902||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.9902
92227684|NCT04426695|184358166|SUPERIORITY|||||||0.1486||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.1486
92227685|NCT04426695|184358167|SUPERIORITY|||||||0.0092||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0092
92227686|NCT04426695|184358167|SUPERIORITY|||||||0.221||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2210
92227687|NCT04426695|184358167|SUPERIORITY|||||||0.0249||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.0249
92277811|NCT02363010|184457833|SUPERIORITY|||||||0.602||||||A priori threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that 6-month Emotional Overeating would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.602
92227688|NCT04426695|184358168|SUPERIORITY|||||||0.0045||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0045
92227689|NCT04426695|184358168|SUPERIORITY|||||||0.0714||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0714
92227690|NCT04426695|184358168|SUPERIORITY|||||||0.0061||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.0061
92277812|NCT02363010|184457834|SUPERIORITY|||||||0.487||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that baseline Disinhibited Eating would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.487
92372681|NCT01942668|184647514|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|2.427||0.711|TWO_SIDED|95.0|-5.67|3.87||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||3.87|-5.67|0.711
92372682|NCT01942668|184647515|SUPERIORITY||Mean Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|2.682||0.415|TWO_SIDED|95.0|-7.46|3.08||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||3.08|-7.46|0.415
92372683|NCT01942668|184647515|SUPERIORITY||Mean Difference (Final Values)|-6.01|STANDARD_ERROR_OF_MEAN|2.564||0.019|TWO_SIDED|95.0|-11.04|-0.97||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.97|-11.04|0.019
92372684|NCT01942668|184647515|SUPERIORITY||Mean Difference (Final Values)|-4.72|STANDARD_ERROR_OF_MEAN|2.639||0.074|TWO_SIDED|95.0|-9.9|0.46||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.46|-9.90|0.074
92372685|NCT01942668|184647515|SUPERIORITY||Mean Difference (Final Values)|-5.75|STANDARD_ERROR_OF_MEAN|2.637||0.03|TWO_SIDED|95.0|-10.94|-0.57||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.57|-10.94|0.030
92227691|NCT04426695|184358169|SUPERIORITY|||||||0.0023||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0023
92227692|NCT04426695|184358169|SUPERIORITY|||||||0.3544||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3544
92227693|NCT04426695|184358169|SUPERIORITY|||||||0.0212||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.0212
92280389|NCT04543136|184463468|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.896|TWO_SIDED|95.0|-0.35|0.31||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.31|-0.35|0.896
92227694|NCT04426695|184358175|SUPERIORITY|||||||0.0575||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0575
92227695|NCT04426695|184358175|SUPERIORITY|||||||0.3133||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3133
92372686|NCT01942668|184647516|SUPERIORITY||Mean Difference (Final Values)|-3.99|STANDARD_ERROR_OF_MEAN|2.109||0.059|TWO_SIDED|95.0|-8.13|0.16||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.16|-8.13|0.059
92408253|NCT02304367|184705744|OTHER|||||||0.545|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.545
92408254|NCT02304367|184705744|OTHER|||||||0.58|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.580
92408255|NCT02304367|184705744|OTHER|||||||0.462|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.462
92227696|NCT04426695|184358175|SUPERIORITY|||||||0.0849||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0849
92227697|NCT04426695|184358176|SUPERIORITY|||||||0.2167||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2167
92372687|NCT01942668|184647516|SUPERIORITY||Mean Difference (Final Values)|-2.57|STANDARD_ERROR_OF_MEAN|2.067||0.215|TWO_SIDED|95.0|-6.63|1.49||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.49|-6.63|0.215
92372688|NCT01942668|184647516|SUPERIORITY||Mean Difference (Final Values)|-5.1|STANDARD_ERROR_OF_MEAN|2.084||0.015|TWO_SIDED|95.0|-9.19|-1.0||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.00|-9.19|0.015
92372689|NCT01942668|184647516|SUPERIORITY||Mean Difference (Final Values)|-3.16|STANDARD_ERROR_OF_MEAN|2.042||0.122|TWO_SIDED|95.0|-7.17|0.85||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.85|-7.17|0.122
92372690|NCT01942668|184647517|SUPERIORITY||Mean Difference (Final Values)|-5.32|STANDARD_ERROR_OF_MEAN|2.135||0.013|TWO_SIDED|95.0|-9.52|-1.13||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.13|-9.52|0.013
92372691|NCT01942668|184647517|SUPERIORITY||Mean Difference (Final Values)|-5.76|STANDARD_ERROR_OF_MEAN|2.08||0.006|TWO_SIDED|95.0|-9.85|-1.68||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.68|-9.85|0.006
92408256|NCT02304367|184705744|OTHER|||||||0.26|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.260
92227698|NCT04426695|184358176|SUPERIORITY|||||||0.4123||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.4123
92227699|NCT04426695|184358176|SUPERIORITY|||||||0.2206||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2206
92408257|NCT01262989|184705747|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|102.95||||||90.0|97.17|109.07|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||109.07|97.17|
92227700|NCT04426695|184358177|SUPERIORITY|||||||0.0383||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0383
92227701|NCT04426695|184358177|SUPERIORITY|||||||0.3296||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3296
92227702|NCT04426695|184358177|SUPERIORITY|||||||0.0766||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0766
92227703|NCT04426695|184358178|SUPERIORITY|||||||0.007||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0070
92227704|NCT04426695|184358178|SUPERIORITY|||||||0.0507||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0507
92227705|NCT04426695|184358178|SUPERIORITY|||||||0.0051||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0051
92227706|NCT04426695|184358179|SUPERIORITY|||||||0.0174||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0174
92227707|NCT04426695|184358179|SUPERIORITY|||||||0.29||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2900
92227708|NCT04426695|184358179|SUPERIORITY|||||||0.0454||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0454
92227709|NCT04426695|184358180|SUPERIORITY|||||||0.004||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0040
92408258|NCT01262989|184705748|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|102.79||||||90.0|96.99|108.93|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||108.93|96.99|
92227710|NCT04426695|184358180|SUPERIORITY|||||||0.0413||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0413
92227711|NCT04426695|184358180|SUPERIORITY|||||||0.0032||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0032
92227712|NCT04426695|184358181|SUPERIORITY|||||||0.0105||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0105
92227713|NCT04426695|184358181|SUPERIORITY|||||||0.0622||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0622
92227714|NCT04426695|184358181|SUPERIORITY|||||||0.0088||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0088
92227715|NCT04426695|184358182|SUPERIORITY|||||||0.0275||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0275
92227716|NCT04426695|184358182|SUPERIORITY|||||||0.0223||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0223
92227717|NCT04426695|184358182|SUPERIORITY|||||||0.0072||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0072
92227718|NCT04426695|184358183|SUPERIORITY|||||||0.1032||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1032
92227719|NCT04426695|184358183|SUPERIORITY|||||||0.335||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3350
92227720|NCT04426695|184358183|SUPERIORITY|||||||0.1314||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1314
92227721|NCT04426695|184358184|SUPERIORITY|||||||0.00024||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.00024
92227722|NCT04426695|184358184|SUPERIORITY|||||||0.0054||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0054
92227723|NCT04426695|184358184|SUPERIORITY|||||||0.0005||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0005
92227724|NCT04426695|184358191|SUPERIORITY|||||||0.0533||||||P-value based on stratified log-rank test with the type of background standard-of-care and baseline serostatus as stratification factors.|Log Rank|||||||0.0533
92227725|NCT04426695|184358191|SUPERIORITY|||||||0.0411||||||P-value based on stratified log-rank test with the type of background standard-of-care and baseline serostatus as stratification factors.|Log Rank|||||||0.0411
92227726|NCT04426695|184358191|SUPERIORITY|||||||0.0229||||||P-value based on stratified log-rank test with the type of background standard-of-care and baseline serostatus as stratification factors.|Log Rank|||||||0.0229
92227727|NCT04426695|184358192|SUPERIORITY|||||||0.0218|||||||Stratified Log Rank Test|||||||0.0218
92227728|NCT04426695|184358192|SUPERIORITY|||||||0.0156|||||||Stratified Log Rank Test|||||||0.0156
92227729|NCT04426695|184358192|SUPERIORITY|||||||0.0067|||||||Stratified Log Rank Test|||||||0.0067
92227730|NCT04426695|184358196|SUPERIORITY|||||||0.2162||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2162
92227731|NCT04426695|184358196|SUPERIORITY|||||||0.8783||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.8783
92227732|NCT04426695|184358196|SUPERIORITY|||||||0.5583||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.5583
92227733|NCT04426695|184358196|SUPERIORITY|||||||0.7189||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.7189
92227734|NCT04426695|184358196|SUPERIORITY|||||||0.0429||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0429
92227735|NCT04426695|184358196|SUPERIORITY|||||||0.2103||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2103
92227736|NCT04426695|184358197|SUPERIORITY|||||||0.0223||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0223
92227737|NCT04426695|184358197|SUPERIORITY|||||||0.1256||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1256
92408259|NCT01262989|184705749|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|94.47||||||90.0|87.59|101.9|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||101.90|87.59|
92227738|NCT04426695|184358197|SUPERIORITY|||||||0.023||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0230
92227739|NCT04426695|184358197|SUPERIORITY|||||||0.1298||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1298
92227740|NCT04426695|184358197|SUPERIORITY|||||||0.2642||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2642
92227741|NCT04426695|184358197|SUPERIORITY|||||||0.097||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0970
92227742|NCT04426695|184358198|SUPERIORITY|||||||0.0147||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0147
92227743|NCT04426695|184358198|SUPERIORITY|||||||0.0669||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0669
92227744|NCT04426695|184358198|SUPERIORITY|||||||0.0094||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0094
92227745|NCT04426695|184358198|SUPERIORITY|||||||0.1306||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1306
92227746|NCT04426695|184358198|SUPERIORITY|||||||0.3576||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3576
92227747|NCT04426695|184358198|SUPERIORITY|||||||0.1476||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1476
92408260|NCT03599089|184705750|SUPERIORITY|||||||0.005|||||||ANOVA|||||||0.005
92408261|NCT03599089|184705751|SUPERIORITY|||||||0.0245|||||||Regression, Logistic|||||||0.0245
92408262|NCT03599089|184705752|SUPERIORITY|||||||0.0019|||||||ANOVA|||||||0.0019
92227748|NCT04426695|184358199|SUPERIORITY|||||||0.0481||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0481
92227749|NCT04426695|184358199|SUPERIORITY|||||||0.0535||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0535
92227750|NCT04426695|184358199|SUPERIORITY|||||||0.0199||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0199
92227751|NCT04426695|184358199|SUPERIORITY|||||||0.2784||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2784
92277813|NCT02363010|184457834|SUPERIORITY|||||||0.262||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that baseline Disinhibited Eating would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.262
92277814|NCT02363010|184457834|SUPERIORITY|||||||0.851||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that 6-month Disinhibited Eating would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.851
92408263|NCT00573144|184705758|SUPERIORITY_OR_OTHER|||||||0.97|||||||t-test, 2 sided|||||||0.97
92408264|NCT00573144|184705759|SUPERIORITY_OR_OTHER|||||||0.35|||||||t-test, 2 sided|||||||0.35
92408265|NCT00573144|184705760|SUPERIORITY_OR_OTHER|||||||0.26|||||||t-test, 2 sided|||||||0.26
92408266|NCT03511937|184705781|SUPERIORITY||Mean Difference (Final Values)|-31.4||||0.02|TWO_SIDED|95.0|-57.9|-5.0||The a priori threshold for statistical significance was \< 0.05.|Two-part regression model with robust SE|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||-5.0|-57.9|0.02
92372692|NCT01942668|184647517|SUPERIORITY||Mean Difference (Final Values)|-5.59|STANDARD_ERROR_OF_MEAN|2.132||0.009|TWO_SIDED|95.0|-9.77|-1.4||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.40|-9.77|0.009
92372693|NCT01942668|184647517|SUPERIORITY||Mean Difference (Final Values)|-5.68|STANDARD_ERROR_OF_MEAN|2.093||0.007|TWO_SIDED|95.0|-9.79|-1.57||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.57|-9.79|0.007
92372694|NCT01942668|184647518|SUPERIORITY||Mean Difference (Final Values)|-3.39|STANDARD_ERROR_OF_MEAN|2.47||0.171|TWO_SIDED|95.0|-8.24|1.47||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||1.47|-8.24|0.171
92227752|NCT04426695|184358199|SUPERIORITY|||||||0.251||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2510
92227753|NCT04426695|184358199|SUPERIORITY|||||||0.1702||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1702
92227754|NCT04426695|184358200|SUPERIORITY|||||||0.05||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0500
92227755|NCT04426695|184358200|SUPERIORITY|||||||0.0663||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0663
92227756|NCT04426695|184358200|SUPERIORITY|||||||0.0229||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0229
92372695|NCT01942668|184647518|SUPERIORITY||Mean Difference (Final Values)|-6.49|STANDARD_ERROR_OF_MEAN|2.364||0.006|TWO_SIDED|95.0|-11.14|-1.85||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.85|-11.14|0.006
92408267|NCT03511937|184705782|SUPERIORITY||Mean Difference (Final Values)|-69.4||||0.55|TWO_SIDED|95.0|-295.5|156.6||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||156.6|-295.5|0.55
92408268|NCT03511937|184705783|SUPERIORITY||Mean Difference (Final Values)|-13.0||||0.006|TWO_SIDED|95.0|-23.0|-4.0||The a priori threshold for statistical significance was \< 0.05.|Regression, Logistic|Analyses controlled for overweight/obesity status and Hispanic ethnicity, which were unbalanced between treatment arms.|Analyses used logistic regression to calculate mean difference in predicted probability of purchasing a sugar-sweetened beverage.|||-4|-23|0.006
92408269|NCT03511937|184705784|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.01|TWO_SIDED|95.0|-0.4|-0.1||The a priori threshold for statistical significance was \< 0.05.|Negative binomial regression|Analyses controlled for overweight/obesity status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||-0.1|-0.4|0.010
92408270|NCT03511937|184705785|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.403|TWO_SIDED|95.0|-0.2|0.5||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for obesity status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust standard errors.||||0.5|-0.2|0.403
92227757|NCT04426695|184358200|SUPERIORITY|||||||0.0208||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0208
92227758|NCT04426695|184358200|SUPERIORITY|||||||0.0388||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0388
92372696|NCT01942668|184647518|SUPERIORITY||Mean Difference (Final Values)|-7.39|STANDARD_ERROR_OF_MEAN|2.434||0.003|TWO_SIDED|95.0|-12.17|-2.61||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.61|-12.17|0.003
92227759|NCT04426695|184358200|SUPERIORITY|||||||0.0092||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0092
92227760|NCT04426695|184358204|SUPERIORITY|||||||0.037|||||||stratified log-rank test|||||||0.0370
92372697|NCT01942668|184647518|SUPERIORITY||Mean Difference (Final Values)|-6.69|STANDARD_ERROR_OF_MEAN|2.429||0.006|TWO_SIDED|95.0|-11.46|-1.92||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.92|-11.46|0.006
92372698|NCT01942668|184647519|SUPERIORITY||Mean Difference (Final Values)|-4.21|STANDARD_ERROR_OF_MEAN|2.037||0.039|TWO_SIDED|95.0|-8.21|-0.21||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.21|-8.21|0.039
92372699|NCT01942668|184647519|SUPERIORITY||Mean Difference (Final Values)|-2.39|STANDARD_ERROR_OF_MEAN|1.997||0.232|TWO_SIDED|95.0|-6.31|1.53||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.53|-6.31|0.232
92372700|NCT01942668|184647519|SUPERIORITY||Mean Difference (Final Values)|-4.37|STANDARD_ERROR_OF_MEAN|2.012||0.03|TWO_SIDED|95.0|-8.32|-0.42||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.42|-8.32|0.030
92227761|NCT04426695|184358204|SUPERIORITY|||||||0.1596|||||||stratified log-rank test|||||||0.1596
92227762|NCT04426695|184358204|SUPERIORITY|||||||0.0444|||||||stratified log-rank test|||||||0.0444
92227763|NCT04426695|184358204|SUPERIORITY|||||||0.1802|||||||stratified log-rank test|||||||0.1802
92227764|NCT04426695|184358204|SUPERIORITY|||||||0.0407|||||||stratified log-rank test|||||||0.0407
92227765|NCT04426695|184358204|SUPERIORITY|||||||0.0523|||||||stratified log-rank test|||||||0.0523
92227766|NCT04426695|184358205|SUPERIORITY|||||||0.0245|||||||ANCOVA|||||||0.0245
92227767|NCT04426695|184358205|SUPERIORITY|||||||0.0554|||||||ANCOVA|||||||0.0554
92227768|NCT04426695|184358205|SUPERIORITY|||||||0.0179|||||||ANCOVA|||||||0.0179
92227769|NCT04426695|184358205|SUPERIORITY|||||||0.0035|||||||ANCOVA|||||||0.0035
92227770|NCT04426695|184358205|SUPERIORITY|||||||0.0003|||||||ANCOVA|||||||0.0003
92227771|NCT04426695|184358205|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
92227772|NCT04426695|184358206|SUPERIORITY|||||||0.0013|||||||ANCOVA|||||||0.0013
92227773|NCT04426695|184358206|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.0010
92227774|NCT04426695|184358206|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
92227775|NCT04426695|184358206|SUPERIORITY|||||||0.025|||||||ANCOVA|||||||0.0250
92227776|NCT04426695|184358206|SUPERIORITY|||||||0.0012|||||||ANCOVA|||||||0.0012
92227777|NCT04426695|184358206|SUPERIORITY|||||||0.0014|||||||ANCOVA|||||||0.0014
92227778|NCT04426695|184358207|SUPERIORITY|||||||0.0623|||||||MMRM|||Difference vs. Placebo by Day 29||||0.0623
92227779|NCT04426695|184358207|SUPERIORITY|||||||0.0203|||||||MMRM|||Difference vs. Placebo by Day 29||||0.0203
92227780|NCT04426695|184358207|SUPERIORITY|||||||0.0193|||||||MMRM|||Difference vs. Placebo by Day 29||||0.0193
92227781|NCT04426695|184358207|SUPERIORITY|||||||0.1206|||||||MMRM|||Difference vs. Placebo by Day 29||||0.1206
92227782|NCT04426695|184358207|SUPERIORITY|||||||0.0911|||||||MMRM|||Difference vs. Placebo by Day 29||||0.0911
92227783|NCT04426695|184358207|SUPERIORITY|||||||0.0645|||||||MMRM|||Difference vs. Placebo by Day 29||||0.0645
92227784|NCT04426695|184358208|SUPERIORITY|||||||0.0623|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.0623
92227785|NCT04426695|184358208|SUPERIORITY|||||||0.0203|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.0203
92227786|NCT04426695|184358208|SUPERIORITY|||||||0.0193|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.0193
92227787|NCT04426695|184358208|SUPERIORITY|||||||0.1206|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.1206
92227788|NCT04426695|184358208|SUPERIORITY|||||||0.0911|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.0911
92227789|NCT04426695|184358208|SUPERIORITY|||||||0.0645|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.0645
92227790|NCT04426695|184358209|SUPERIORITY|||||||0.0481||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0481
92227791|NCT04426695|184358209|SUPERIORITY|||||||0.988||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.9880
92227792|NCT04426695|184358209|SUPERIORITY|||||||0.2498||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2498
92227793|NCT04426695|184358209|SUPERIORITY|||||||1||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||1.0000
92227794|NCT04426695|184358209|SUPERIORITY|||||||0.0457||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0457
92227795|NCT04426695|184358209|SUPERIORITY|||||||0.2153||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2153
92227796|NCT04426695|184358210|SUPERIORITY|||||||0.0811||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0811
92227797|NCT04426695|184358210|SUPERIORITY|||||||0.6701||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.6701
92227798|NCT04426695|184358210|SUPERIORITY|||||||0.2006||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2006
92227799|NCT04426695|184358210|SUPERIORITY|||||||0.3313||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3313
92227800|NCT04426695|184358210|SUPERIORITY|||||||0.5542||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.5542
92227801|NCT04426695|184358210|SUPERIORITY|||||||0.2214||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2214
92227802|NCT04426695|184358211|SUPERIORITY|||||||0.0389||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0389
92227803|NCT04426695|184358211|SUPERIORITY|||||||0.5208||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.5208
92227804|NCT04426695|184358211|SUPERIORITY|||||||0.1079||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1079
92227805|NCT04426695|184358211|SUPERIORITY|||||||0.3315||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3315
92227806|NCT04426695|184358211|SUPERIORITY|||||||0.5797||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.5797
92227807|NCT04426695|184358211|SUPERIORITY|||||||0.3036||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3036
92227808|NCT04426695|184358212|SUPERIORITY|||||||0.0364||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0364
92227809|NCT04426695|184358212|SUPERIORITY|||||||0.2795||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2795
92372701|NCT01942668|184647519|SUPERIORITY||Mean Difference (Final Values)|-2.22|STANDARD_ERROR_OF_MEAN|1.973||0.262|TWO_SIDED|95.0|-6.09|1.66||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||1.66|-6.09|0.262
92372702|NCT01942668|184647520|SUPERIORITY||Mean Difference (Final Values)|-5.41|STANDARD_ERROR_OF_MEAN|2.119||0.011|TWO_SIDED|95.0|-9.57|-1.25||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.25|-9.57|0.011
92372703|NCT01942668|184647520|SUPERIORITY||Mean Difference (Final Values)|-5.54|STANDARD_ERROR_OF_MEAN|2.065||0.008|TWO_SIDED|95.0|-9.6|-1.48||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.48|-9.60|0.008
92372704|NCT01942668|184647520|SUPERIORITY||Mean Difference (Final Values)|-5.74|STANDARD_ERROR_OF_MEAN|2.115||0.007|TWO_SIDED|95.0|-9.9|-1.59||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.59|-9.90|0.007
92372705|NCT01942668|184647520|SUPERIORITY||Mean Difference (Final Values)|-5.32|STANDARD_ERROR_OF_MEAN|2.078||0.011|TWO_SIDED|95.0|-9.4|-1.24||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.24|-9.40|0.011
92227810|NCT04426695|184358212|SUPERIORITY|||||||0.0588||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0588
92227811|NCT04426695|184358212|SUPERIORITY|||||||0.0364||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0364
92227812|NCT04426695|184358212|SUPERIORITY|||||||0.2795||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2795
92227813|NCT04426695|184358212|SUPERIORITY|||||||0.0588||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0588
92227814|NCT04426695|184358213|SUPERIORITY|||||||0.2635||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2635
92227815|NCT04426695|184358213|SUPERIORITY|||||||0.8013||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.8013
92227816|NCT04426695|184358213|SUPERIORITY|||||||0.416||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.4160
92227817|NCT04426695|184358213|SUPERIORITY|||||||0.2194||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2194
92227818|NCT04426695|184358213|SUPERIORITY|||||||0.324||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3240
92227819|NCT04426695|184358213|SUPERIORITY|||||||0.1981||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1981
92227820|NCT00559273|184358229|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||The p-value was the probability that the number of responders is greater than or equal to the observed number, although the true response rate was smaller or equal to 60%. Null hypothesis (H0): p-value \<=0.6; alternate hypothesis (H1): p-value \>0.6.||||<0.0001
92227821|NCT00559273|184358229|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||The p-value was the probability that the number of responders is greater than or equal to the observed number, although the true response rate was smaller or equal to 60%. Null hypothesis (H0): p-value \<=0.6; alternate hypothesis (H1): p-value \>0.6.||||<0.0001
92227822|NCT00559273|184358230|NON_INFERIORITY_OR_EQUIVALENCE|MIRCERA treatment was regarded as non-inferior to the darbepoetin alfa reference group if the lower limit of the CI was greater than -0.75 g/dL.|Adjusted Mean Difference|-0.036|STANDARD_ERROR_OF_MEAN|0.1097|<|0.0001|TWO_SIDED|95.0|-0.252|0.18|||ANCOVA|||||0.180|-0.252|<0.0001
92227823|NCT03653390|184358245|SUPERIORITY||||||<|0.01|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 6 months.||||||<0.01
92227824|NCT03653390|184358245|SUPERIORITY||Mean Difference (Net)|-1.24||||0.11|TWO_SIDED|95.0|-2.71|0.22|||Tukey's HSD test|This test inherently adjusts for multiple comparisons.|Difference is calculated as Wellness Education - EnhanceWellness for Disability|||0.22|-2.71|0.11
92227825|NCT03653390|184358245|SUPERIORITY||Mean Difference (Net)|-2.4|||<|0.01|TWO_SIDED|95.0|-3.85|-0.95|||Tukey's HSD test|This test inherently adjusts for multiple comparisons.|Difference is calculated as Control - EnhanceWellness for Disability|||-0.95|-3.85|<0.01
92227826|NCT03653390|184358245|SUPERIORITY||Mean Difference (Net)|-1.16||||0.16|TWO_SIDED|95.0|-2.64|0.32|||Tukey's HSD test|This test inherently adjusts for multiple comparisons.|Difference is calculated as Control - Wellness Education|||0.32|-2.64|0.16
92227827|NCT03653390|184358246|SUPERIORITY||||||<|0.01|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 6 months.||||||<0.01
92227828|NCT03653390|184358246|SUPERIORITY||Mean Difference (Net)|-2.18||||0.018|TWO_SIDED|95.0|-4.05|-0.3||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Wellness Education - EnhanceWellness for Disability|||-0.30|-4.05|0.018
92280390|NCT04543136|184463468|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.32|TWO_SIDED|95.0|-0.49|0.16||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.16|-0.49|0.320
92372706|NCT01942668|184647521|SUPERIORITY||Mean Difference (Final Values)|-4.21|STANDARD_ERROR_OF_MEAN|2.421||0.083|TWO_SIDED|95.0|-8.96|0.55||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.55|-8.96|0.083
92372707|NCT01942668|184647521|SUPERIORITY||Mean Difference (Final Values)|-7.36|STANDARD_ERROR_OF_MEAN|2.317||0.002|TWO_SIDED|95.0|-11.91|-2.81||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.81|-11.91|0.002
92372708|NCT01942668|184647521|SUPERIORITY||Mean Difference (Final Values)|-7.92|STANDARD_ERROR_OF_MEAN|2.384|<|0.001|TWO_SIDED|95.0|-12.6|-3.23||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.23|-12.60|<0.001
92372709|NCT01942668|184647521|SUPERIORITY||Mean Difference (Final Values)|-6.78|STANDARD_ERROR_OF_MEAN|2.381||0.005|TWO_SIDED|95.0|-11.46|-2.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.10|-11.46|0.005
92227829|NCT03653390|184358246|SUPERIORITY||Mean Difference (Net)|-2.26||||0.012|TWO_SIDED|95.0|-4.12|-0.41||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Control - EnhanceWellness for Disability|||-0.41|-4.12|0.012
92227830|NCT03653390|184358246|SUPERIORITY||Mean Difference (Net)|-0.08||||0.99|TWO_SIDED|95.0|-1.98|1.81||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Control - Wellness Education|||1.81|-1.98|0.99
92227831|NCT03653390|184358247|SUPERIORITY|||||||0.382|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 3 months.||||||0.382
92227832|NCT03653390|184358248|SUPERIORITY|||||||0.29|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 3 months.||||||0.29
92227833|NCT03653390|184358249|SUPERIORITY|||||||0.057|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 3 months.||||||0.057
92227834|NCT03653390|184358250|SUPERIORITY|||||||0.21|||||||ANOVA|The ANOVA was conducted on the change in number of trips from baseline to 12 months.||||||0.21
92227835|NCT03653390|184358251|SUPERIORITY|||||||0.79|||||||ANOVA|The ANOVA was conducted on the change in radius of gyration from baseline to 12 months.||||||0.79
92227836|NCT03653390|184358252|SUPERIORITY|||||||0.26|||||||ANOVA|The ANOVA was conducted on the change in number of trips from baseline to 12 months.||||||0.26
92227837|NCT03653390|184358253|SUPERIORITY||||||<|0.01|||||||ANOVA|The ANOVA was conducted on the change in minutes from baseline to 12 months.||||||<0.01
92227838|NCT03653390|184358253|SUPERIORITY||Mean Difference (Net)|-28.7||||0.57|TWO_SIDED|95.0|-95.7|38.4||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Wellness Education - EnhanceWellness for Disability|||38.4|-95.7|0.57
92372710|NCT01942668|184647522|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.938|TWO_SIDED|95.0|-0.12|0.11||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.11|-0.12|0.938
92372711|NCT01942668|184647522|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.059||0.779|TWO_SIDED|95.0|-0.1|0.13||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.13|-0.10|0.779
92408271|NCT03511937|184705786|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.005|TWO_SIDED|95.0|0.1|0.8||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.8|0.1|0.005
92227839|NCT03653390|184358253|SUPERIORITY||Mean Difference (Net)|66.6||||0.048|TWO_SIDED|95.0|0.56|132.6||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Control - EnhanceWellness for Disability|||132.6|0.56|0.048
92227840|NCT03653390|184358253|SUPERIORITY||Mean Difference (Net)|95.3|||<|0.01|TWO_SIDED|95.0|31.8|158.7||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Control - Wellness Education|||158.7|31.8|<0.01
92227841|NCT03653390|184358254|SUPERIORITY||||||<|0.01|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 12 months.||||||<0.01
92227842|NCT03653390|184358254|SUPERIORITY||Mean Difference (Net)|-1.55||||0.028|TWO_SIDED|95.0|-2.97|-0.13||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Wellness Education - EnhanceWellness for Disability|||-0.13|-2.97|0.028
92227843|NCT03653390|184358254|SUPERIORITY||Mean Difference (Net)|-2.15|||<|0.01|TWO_SIDED|95.0|-3.55|-0.75|||Tukey's HSD test||Difference is calculated as Control - EnhanceWellness for Disability|||-0.75|-3.55|<0.01
92227844|NCT03653390|184358254|SUPERIORITY||Mean Difference (Net)|-0.6||||0.59|TWO_SIDED|95.0|-2.03|0.83||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Control - Wellness Education|||0.83|-2.03|0.59
92227845|NCT00849667|184358256|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.4513|TWO_SIDED|95.0|0.81|1.21|||Log Rank|One-sided log rank test||||1.21|0.81|0.4513
92227846|NCT00849667|184358256|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0761|TWO_SIDED|95.0|0.7|1.06|||Log Rank|One-sided log rank test||||1.06|0.70|0.0761
92227847|NCT00849667|184358257|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.4823|TWO_SIDED|95.0|0.78|1.27|||Log Rank|One-sided log rank test||||1.27|0.78|0.4823
92227848|NCT00849667|184358257|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1616|TWO_SIDED|95.0|0.68|1.13|||Log Rank|One-sided log rank test||||1.13|0.68|0.1616
92372712|NCT01942668|184647522|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.059||0.646|TWO_SIDED|95.0|-0.14|0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.09|-0.14|0.646
92372713|NCT01942668|184647522|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.058||0.421|TWO_SIDED|95.0|-0.07|0.16||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.16|-0.07|0.421
92372714|NCT01942668|184647523|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.063||0.075|TWO_SIDED|95.0|-0.01|0.24||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.24|-0.01|0.075
92372715|NCT01942668|184647523|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.062||0.074|TWO_SIDED|95.0|-0.01|0.23||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.23|-0.01|0.074
92227849|NCT00849667|184358258|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.2938|TWO_SIDED|95.0|0.72|1.21|||Log Rank|One-sided log-rank test||||1.21|0.72|0.2938
92227850|NCT00849667|184358258|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0318|TWO_SIDED|95.0|0.58|1.02|||Log Rank|One-sided log-rank test||||1.02|0.58|0.0318
92227851|NCT00849667|184358259|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5636|TWO_SIDED|95.0|0.85|1.21|||Log Rank|One-sided log-rank test||||1.21|0.85|0.5636
92227852|NCT00849667|184358259|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.156|TWO_SIDED|95.0|0.76|1.09|||Log Rank|One-sided log-rank test||||1.09|0.76|0.1560
92227853|NCT00849667|184358261|SUPERIORITY||Difference in percentage|1.8||||0.6864|TWO_SIDED|95.0|-5.4|9.0|||Cochran-Mantel-Haenszel|||||9.0|-5.4|0.6864
92227854|NCT00849667|184358261|SUPERIORITY||Difference in percentage|2.4||||0.4923|TWO_SIDED|95.0|-4.8|9.6|||Cochran-Mantel-Haenszel|||||9.6|-4.8|0.4923
92372716|NCT01942668|184647523|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.063||0.37|TWO_SIDED|95.0|-0.07|0.18||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.18|-0.07|0.370
92372717|NCT01942668|184647523|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.062||0.851|TWO_SIDED|95.0|-0.11|0.13||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.13|-0.11|0.851
92372718|NCT01942668|184647524|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.067||0.452|TWO_SIDED|95.0|-0.18|0.08||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.08|-0.18|0.452
92372719|NCT01942668|184647524|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.064||0.244|TWO_SIDED|95.0|-0.05|0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.20|-0.05|0.244
92372720|NCT01942668|184647524|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.065||0.354|TWO_SIDED|95.0|-0.19|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.07|-0.19|0.354
92372721|NCT01942668|184647524|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.065||0.527|TWO_SIDED|95.0|-0.17|0.09||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.09|-0.17|0.527
92372722|NCT01942668|184647525|SUPERIORITY||Mean Difference (Final Values)|-1.92|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-2.29|-1.55||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.55|-2.29|<0.001
92372723|NCT01942668|184647525|SUPERIORITY||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|0.189|<|0.001|TWO_SIDED|95.0|-1.81|-1.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.07|-1.81|<0.001
92280391|NCT04543136|184463468|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.39|TWO_SIDED|95.0|-0.19|0.47||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.47|-0.19|0.390
92372724|NCT01942668|184647525|SUPERIORITY||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|0.189|<|0.001|TWO_SIDED|95.0|-1.81|-1.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.07|-1.81|<0.001
92408272|NCT03511937|184705787|SUPERIORITY||Mean Difference (Final Values)|37.0|||<|0.001|TWO_SIDED|95.0|32.0|43.0||The a priori threshold for statistical significance was \< 0.05.|Regression, Logistic|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between treatment arms.|Analyses used logistic regression to calculate mean difference in predicted probability of purchasing a sugar-sweetened beverage.|||43|32|<0.001
92227855|NCT00849667|184358264|SUPERIORITY||Difference in percentage|-0.4||||0.8106|TWO_SIDED|95.0|-4.9|4.1|||Cochran-Mantel-Haenszel|||50% serological response||4.1|-4.9|0.8106
92372725|NCT01942668|184647525|SUPERIORITY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.188|<|0.001|TWO_SIDED|95.0|-1.62|-0.88||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.88|-1.62|<0.001
92372726|NCT01942668|184647526|SUPERIORITY||Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|0.199|<|0.001|TWO_SIDED|95.0|-2.12|-1.34||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.34|-2.12|<0.001
92372727|NCT01942668|184647526|SUPERIORITY||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|0.197|<|0.001|TWO_SIDED|95.0|-1.68|-0.91||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.91|-1.68|<0.001
92372728|NCT01942668|184647526|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.197|<|0.001|TWO_SIDED|95.0|-1.58|-0.81||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.81|-1.58|<0.001
92372729|NCT01942668|184647526|SUPERIORITY||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.198|<|0.001|TWO_SIDED|95.0|-1.34|-0.57||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.57|-1.34|<0.001
92372730|NCT01942668|184647527|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|0.207|<|0.001|TWO_SIDED|95.0|-2.06|-1.25||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.25|-2.06|<0.001
92372731|NCT01942668|184647527|SUPERIORITY||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|0.204|<|0.001|TWO_SIDED|95.0|-1.87|-1.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.07|-1.87|<0.001
92372732|NCT01942668|184647527|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.205|<|0.001|TWO_SIDED|95.0|-1.7|-0.9||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.90|-1.70|<0.001
92372733|NCT01942668|184647527|SUPERIORITY||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|0.207|<|0.001|TWO_SIDED|95.0|-1.48|-0.67||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.67|-1.48|<0.001
92227856|NCT00849667|184358264|SUPERIORITY||Difference in percentage|5.1||||0.0064|TWO_SIDED|95.0|1.4|8.8|||Cochran-Mantel-Haenszel|||50% serological response||8.8|1.4|0.0064
92227857|NCT00849667|184358264|SUPERIORITY||Difference in percentage|4.1||||0.3005|TWO_SIDED|95.0|-2.0|10.2|||Cochran-Mantel-Haenszel|||75% serological response||10.2|-2.0|0.3005
92372734|NCT01942668|184647528|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.131||0.126|TWO_SIDED|95.0|-0.46|0.06||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.06|-0.46|0.126
92372735|NCT01942668|184647528|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.13||0.2|TWO_SIDED|95.0|-0.42|0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.09|-0.42|0.200
92372736|NCT01942668|184647528|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.13||0.222|TWO_SIDED|95.0|-0.41|0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.10|-0.41|0.222
92372737|NCT01942668|184647528|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.13||0.358|TWO_SIDED|95.0|-0.37|0.14||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.14|-0.37|0.358
92372738|NCT01942668|184647529|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.138||0.023|TWO_SIDED|95.0|-0.59|-0.04||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.04|-0.59|0.023
92372739|NCT01942668|184647529|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.138||0.045|TWO_SIDED|95.0|-0.55|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.01|-0.55|0.045
92372740|NCT01942668|184647529|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.137||0.384|TWO_SIDED|95.0|-0.39|0.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.15|-0.39|0.384
92408273|NCT03511937|184705788|SUPERIORITY||Mean Difference (Final Values)|1.7|||<|0.001|TWO_SIDED|95.0|1.4|1.9||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||1.9|1.4|<0.001
92408274|NCT03511937|184705789|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.001|TWO_SIDED|95.0|0.3|0.5||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.5|0.3|<0.001
92227858|NCT00849667|184358264|SUPERIORITY||Difference in percentage|3.7||||0.2445|TWO_SIDED|95.0|-2.5|9.9|||Cochran-Mantel-Haenszel|||75% serological response||9.9|-2.5|0.2445
92227859|NCT00849667|184358264|SUPERIORITY||Difference in percentage|5.3||||0.2797|TWO_SIDED|95.0|-2.8|13.4|||Cochran-Mantel-Haenszel|||Serologic response leading to normalization||13.4|-2.8|0.2797
92372741|NCT01942668|184647529|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.138||0.424|TWO_SIDED|95.0|-0.38|0.16||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.16|-0.38|0.424
92372742|NCT01942668|184647530|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.152||0.153|TWO_SIDED|95.0|-0.52|0.08||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.08|-0.52|0.153
92372743|NCT01942668|184647530|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.151||0.058|TWO_SIDED|95.0|-0.58|0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.01|-0.58|0.058
92372744|NCT01942668|184647530|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.151||0.55|TWO_SIDED|95.0|-0.39|0.21||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.21|-0.39|0.550
92372745|NCT01942668|184647530|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.153||0.854|TWO_SIDED|95.0|-0.33|0.27||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.27|-0.33|0.854
92372746|NCT01942668|184647531|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.116||0.181|TWO_SIDED|95.0|-0.38|0.07||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.07|-0.38|0.181
92372747|NCT01942668|184647531|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.116||0.108|TWO_SIDED|95.0|-0.41|0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.04|-0.41|0.108
92372748|NCT01942668|184647531|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.115||0.014|TWO_SIDED|95.0|-0.51|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.06|-0.51|0.014
92372749|NCT01942668|184647531|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.115||0.323|TWO_SIDED|95.0|-0.34|0.11||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.11|-0.34|0.323
92372750|NCT01942668|184647532|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.124||0.056|TWO_SIDED|95.0|-0.48|0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.01|-0.48|0.056
92372751|NCT01942668|184647532|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.124||0.279|TWO_SIDED|95.0|-0.38|0.11||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.11|-0.38|0.279
92408275|NCT03511937|184705790|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.3||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||1.3|0.9|<0.001
92372752|NCT01942668|184647532|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.123||0.435|TWO_SIDED|95.0|-0.34|0.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.15|-0.34|0.435
92372753|NCT01942668|184647532|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.124||0.607|TWO_SIDED|95.0|-0.31|0.18||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.18|-0.31|0.607
92372754|NCT01942668|184647533|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.138||0.06|TWO_SIDED|95.0|-0.53|0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.01|-0.53|0.060
92372755|NCT01942668|184647533|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.137||0.026|TWO_SIDED|95.0|-0.57|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.04|-0.57|0.026
92372756|NCT01942668|184647533|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.136||0.097|TWO_SIDED|95.0|-0.49|0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.04|-0.49|0.097
92372757|NCT01942668|184647533|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.138||0.23|TWO_SIDED|95.0|-0.44|0.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.10|-0.44|0.230
92372758|NCT01942668|184647534|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.17||0.107|TWO_SIDED|95.0|-0.61|0.06||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.06|-0.61|0.107
92372759|NCT01942668|184647534|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.169||0.302|TWO_SIDED|95.0|-0.51|0.16||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.16|-0.51|0.302
92372760|NCT01942668|184647534|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.169||0.106|TWO_SIDED|95.0|-0.6|0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.06|-0.60|0.106
92408276|NCT03511937|184705791|SUPERIORITY||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.7|1.1||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||1.1|0.7|<0.001
92227860|NCT00849667|184358264|SUPERIORITY||Difference in percentage|4.9||||0.2136|TWO_SIDED|95.0|-3.2|13.0|||Cochran-Mantel-Haenszel|||Serologic response leading to normalization||13.0|-3.2|0.2136
92372761|NCT01942668|184647534|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.169||0.156|TWO_SIDED|95.0|-0.57|0.09||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.09|-0.57|0.156
92372762|NCT01942668|184647535|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.177||0.081|TWO_SIDED|95.0|-0.65|0.04||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.04|-0.65|0.081
92372763|NCT01942668|184647535|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.175||0.212|TWO_SIDED|95.0|-0.56|0.12||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.12|-0.56|0.212
92372764|NCT01942668|184647535|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.175||0.345|TWO_SIDED|95.0|-0.51|0.18||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.18|-0.51|0.345
92372765|NCT01942668|184647535|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.176||0.829|TWO_SIDED|95.0|-0.38|0.31||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.31|-0.38|0.829
92372766|NCT01942668|184647536|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.201||0.029|TWO_SIDED|95.0|-0.84|-0.05||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.05|-0.84|0.029
92372767|NCT01942668|184647536|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.199||0.026|TWO_SIDED|95.0|-0.84|-0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.05|-0.84|0.026
92372768|NCT01942668|184647536|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.199||0.093|TWO_SIDED|95.0|-0.72|0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.06|-0.72|0.093
92372769|NCT01942668|184647536|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.202||0.223|TWO_SIDED|95.0|-0.64|0.15||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.15|-0.64|0.223
92372770|NCT01942668|184647537|SUPERIORITY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.85|-0.4||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.40|-0.85|<0.001
92372771|NCT01942668|184647537|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.71|-0.26||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.26|-0.71|<0.001
92372772|NCT01942668|184647537|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.75|-0.3||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.30|-0.75|<0.001
92372773|NCT01942668|184647537|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.64|-0.2||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.20|-0.64|<0.001
92372774|NCT01942668|184647538|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.85|-0.38||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.38|-0.85|<0.001
92372775|NCT01942668|184647538|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.69|-0.22||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.22|-0.69|<0.001
92372776|NCT01942668|184647538|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.12||0.003|TWO_SIDED|95.0|-0.59|-0.12||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.12|-0.59|0.003
92372777|NCT01942668|184647538|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.12||0.03|TWO_SIDED|95.0|-0.5|-0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.03|-0.50|0.030
92372778|NCT01942668|184647539|SUPERIORITY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.89|-0.36||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.36|-0.89|<0.001
92372779|NCT01942668|184647539|SUPERIORITY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.88|-0.36||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.36|-0.88|<0.001
92372780|NCT01942668|184647539|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.73|-0.21||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.21|-0.73|<0.001
92227861|NCT01262625|184358284|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|the pre-defined non-inferiority margin of 1.25|Hazard Ratio (HR)|1.03||||0.19|TWO_SIDED|95.0|0.61|1.75|||Regression, Cox|||||1.75|0.61|0.19
92372781|NCT01942668|184647539|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.13||0.006|TWO_SIDED|95.0|-0.63|-0.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.10|-0.63|0.006
92408277|NCT03511937|184705792|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.055|TWO_SIDED|95.0|-0.001|0.13||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.13|-0.001|0.055
92227862|NCT01262625|184358285|SUPERIORITY|||||||0.08|||||||DeLong|(DeLong et al 1988)||||||0.08
92227863|NCT01262625|184358285|SUPERIORITY|||||||0.02|||||||DeLong|(DeLong et al 1988)||||||0.02
92372782|NCT01942668|184647540|SUPERIORITY||Mean Difference (Final Values)|-4.88|STANDARD_ERROR_OF_MEAN|1.629||0.003|TWO_SIDED|95.0|-8.08|-1.69||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.69|-8.08|0.003
92372783|NCT01942668|184647540|SUPERIORITY||Mean Difference (Final Values)|-3.61|STANDARD_ERROR_OF_MEAN|1.626||0.027|TWO_SIDED|95.0|-6.8|-0.42||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.42|-6.80|0.027
92372784|NCT01942668|184647540|SUPERIORITY||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|1.618||0.034|TWO_SIDED|95.0|-6.61|-0.26||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.26|-6.61|0.034
92372785|NCT01942668|184647540|SUPERIORITY||Mean Difference (Final Values)|-2.53|STANDARD_ERROR_OF_MEAN|1.621||0.119|TWO_SIDED|95.0|-5.71|0.65||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.65|-5.71|0.119
92372786|NCT01942668|184647541|SUPERIORITY||Mean Difference (Final Values)|-5.39|STANDARD_ERROR_OF_MEAN|1.7||0.002|TWO_SIDED|95.0|-8.73|-2.05||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.05|-8.73|0.002
92372787|NCT01942668|184647541|SUPERIORITY||Mean Difference (Final Values)|-5.39|STANDARD_ERROR_OF_MEAN|1.696||0.002|TWO_SIDED|95.0|-8.72|-2.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.06|-8.72|0.002
92372788|NCT01942668|184647541|SUPERIORITY||Mean Difference (Final Values)|-4.88|STANDARD_ERROR_OF_MEAN|1.685||0.004|TWO_SIDED|95.0|-8.19|-1.58||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.58|-8.19|0.004
92372789|NCT01942668|184647541|SUPERIORITY||Mean Difference (Final Values)|-4.42|STANDARD_ERROR_OF_MEAN|1.698||0.009|TWO_SIDED|95.0|-7.75|-1.09||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.09|-7.75|0.009
92372790|NCT01942668|184647542|SUPERIORITY||Mean Difference (Final Values)|-6.54|STANDARD_ERROR_OF_MEAN|1.855|<|0.001|TWO_SIDED|95.0|-10.18|-2.9||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.90|-10.18|<0.001
92372791|NCT01942668|184647542|SUPERIORITY||Mean Difference (Final Values)|-7.61|STANDARD_ERROR_OF_MEAN|1.843|<|0.001|TWO_SIDED|95.0|-11.23|-4.0||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-4.00|-11.23|<0.001
92372792|NCT01942668|184647542|SUPERIORITY||Mean Difference (Final Values)|-7.44|STANDARD_ERROR_OF_MEAN|1.835|<|0.001|TWO_SIDED|95.0|-11.04|-3.84||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.84|-11.04|<0.001
92372793|NCT01942668|184647542|SUPERIORITY||Mean Difference (Final Values)|-6.76|STANDARD_ERROR_OF_MEAN|1.863|<|0.001|TWO_SIDED|95.0|-10.41|-3.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.10|-10.41|<0.001
92227864|NCT00110994|184358288|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.665||||0.068|TWO_SIDED|95.0|0.428|1.034|||log rank test|||||1.034|0.428|0.068
92227865|NCT00110994|184358289|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.992||||0.973|TWO_SIDED|95.0|0.627|1.57|||log rank test|||||1.570|0.627|0.973
92408278|NCT03511937|184705793|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.258|TWO_SIDED|95.0|-0.27|0.07||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.07|-0.27|0.258
92408279|NCT03511937|184705794|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.416|TWO_SIDED|95.0|-0.3|0.13||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.13|-0.30|0.416
92408280|NCT03511937|184705795|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.609|TWO_SIDED|95.0|-0.14|0.24||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.24|-0.14|0.609
92408281|NCT03511937|184705796|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.002|TWO_SIDED|95.0|0.1|0.5||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.5|0.1|0.002
92408282|NCT03511937|184705797|SUPERIORITY||Mean Difference (Final Values)|2.1|||<|0.001|TWO_SIDED|95.0|1.8|2.3||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||2.3|1.8|<0.001
92408283|NCT03511937|184705798|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.311|TWO_SIDED|95.0|-0.23|0.07||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.07|-0.23|0.311
92408284|NCT03511937|184705799|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.253|TWO_SIDED|95.0|-0.3|0.08||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.08|-0.30|0.253
92372794|NCT01942668|184647543|SUPERIORITY||Mean Difference (Final Values)|-7.34|STANDARD_ERROR_OF_MEAN|2.146|<|0.001|TWO_SIDED|95.0|-11.55|-3.13||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-3.13|-11.55|<0.001
92372795|NCT01942668|184647543|SUPERIORITY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|2.139||0.009|TWO_SIDED|95.0|-9.8|-1.4||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.40|-9.80|0.009
92372796|NCT01942668|184647543|SUPERIORITY||Mean Difference (Final Values)|-5.13|STANDARD_ERROR_OF_MEAN|2.132||0.016|TWO_SIDED|95.0|-9.31|-0.95||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.95|-9.31|0.016
92372797|NCT01942668|184647543|SUPERIORITY||Mean Difference (Final Values)|-3.04|STANDARD_ERROR_OF_MEAN|2.13||0.154|TWO_SIDED|95.0|-7.22|1.14||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||1.14|-7.22|0.154
92372798|NCT01942668|184647544|SUPERIORITY||Mean Difference (Final Values)|-8.38|STANDARD_ERROR_OF_MEAN|2.213|<|0.001|TWO_SIDED|95.0|-12.72|-4.04||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-4.04|-12.72|<0.001
92372799|NCT01942668|184647544|SUPERIORITY||Mean Difference (Final Values)|-7.52|STANDARD_ERROR_OF_MEAN|2.201|<|0.001|TWO_SIDED|95.0|-11.83|-3.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-3.20|-11.83|<0.001
92408285|NCT03511937|184705800|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.658|TWO_SIDED|95.0|-0.22|0.14||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.14|-0.22|0.658
92372800|NCT01942668|184647544|SUPERIORITY||Mean Difference (Final Values)|-7.32|STANDARD_ERROR_OF_MEAN|2.193|<|0.001|TWO_SIDED|95.0|-11.63|-3.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-3.02|-11.63|<0.001
92372801|NCT01942668|184647544|SUPERIORITY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|2.207||0.011|TWO_SIDED|95.0|-9.93|-1.27||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.27|-9.93|0.011
92372802|NCT01942668|184647545|SUPERIORITY||Mean Difference (Final Values)|-8.97|STANDARD_ERROR_OF_MEAN|2.439|<|0.001|TWO_SIDED|95.0|-13.76|-4.19||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-4.19|-13.76|<0.001
92372803|NCT01942668|184647545|SUPERIORITY||Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|2.42|<|0.001|TWO_SIDED|95.0|-14.34|-4.85||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-4.85|-14.34|<0.001
92372804|NCT01942668|184647545|SUPERIORITY||Mean Difference (Final Values)|-9.3|STANDARD_ERROR_OF_MEAN|2.412|<|0.001|TWO_SIDED|95.0|-14.03|-4.56||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-4.56|-14.03|<0.001
92372805|NCT01942668|184647545|SUPERIORITY||Mean Difference (Final Values)|-7.72|STANDARD_ERROR_OF_MEAN|2.442||0.002|TWO_SIDED|95.0|-12.51|-2.93||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.93|-12.51|0.002
92372806|NCT01942668|184647546|SUPERIORITY||Mean Difference (Final Values)|2.02|STANDARD_ERROR_OF_MEAN|2.576||0.434|TWO_SIDED|95.0|-3.03|7.07||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||7.07|-3.03|0.434
92372807|NCT01942668|184647546|SUPERIORITY||Mean Difference (Final Values)|1.97|STANDARD_ERROR_OF_MEAN|2.564||0.442|TWO_SIDED|95.0|-3.06|7.0||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||7.00|-3.06|0.442
92227866|NCT00110994|184358291|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.619||||0.039|TWO_SIDED|95.0|0.391|0.98|||log rank test|||||0.980|0.391|0.039
92372808|NCT01942668|184647546|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|2.558||0.558|TWO_SIDED|95.0|-3.52|6.51||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||6.51|-3.52|0.558
92372809|NCT01942668|184647546|SUPERIORITY||Mean Difference (Final Values)|1.59|STANDARD_ERROR_OF_MEAN|2.555||0.534|TWO_SIDED|95.0|-3.42|6.6||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||6.60|-3.42|0.534
92372810|NCT01942668|184647547|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|2.719||0.927|TWO_SIDED|95.0|-5.08|5.58||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||5.58|-5.08|0.927
92372811|NCT01942668|184647547|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|2.699||0.541|TWO_SIDED|95.0|-6.95|3.64||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||3.64|-6.95|0.541
92372812|NCT01942668|184647547|SUPERIORITY||Mean Difference (Final Values)|-3.68|STANDARD_ERROR_OF_MEAN|2.691||0.171|TWO_SIDED|95.0|-8.96|1.6||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||1.60|-8.96|0.171
92372813|NCT01942668|184647547|SUPERIORITY||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|2.708||0.667|TWO_SIDED|95.0|-6.48|4.15||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||4.15|-6.48|0.667
92372814|NCT01942668|184647548|SUPERIORITY||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|2.863||0.662|TWO_SIDED|95.0|-4.36|6.87||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||6.87|-4.36|0.662
92372815|NCT01942668|184647548|SUPERIORITY||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|2.834||0.635|TWO_SIDED|95.0|-6.91|4.21||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||4.21|-6.91|0.635
92227867|NCT00110994|184358292|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.427||||0.194|TWO_SIDED|95.0|0.114|1.601|||log rank test|||||1.601|0.114|0.194
92227868|NCT00110994|184358294|SUPERIORITY_OR_OTHER|||||||0.908||95.0|||||t-test, 2 sided|||||||0.908
92227869|NCT00110994|184358295|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||t-test, 2 sided|||||||0.890
92277815|NCT02363010|184457834|SUPERIORITY|||||||0.978||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that 6-month Disinhibited Eating would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.978
92372816|NCT01942668|184647548|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|2.827||0.877|TWO_SIDED|95.0|-5.98|5.11||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||5.11|-5.98|0.877
92372817|NCT01942668|184647548|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|2.867||0.893|TWO_SIDED|95.0|-6.01|5.24||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||5.24|-6.01|0.893
92372818|NCT01942668|184647549|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|2.058||0.83|TWO_SIDED|95.0|-4.48|3.59||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||3.59|-4.48|0.830
92372819|NCT01942668|184647549|SUPERIORITY||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|2.05||0.755|TWO_SIDED|95.0|-4.66|3.38||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||3.38|-4.66|0.755
92372820|NCT01942668|184647549|SUPERIORITY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|2.046||0.802|TWO_SIDED|95.0|-3.5|4.53||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||4.53|-3.50|0.802
92372821|NCT01942668|184647549|SUPERIORITY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|2.043||0.823|TWO_SIDED|95.0|-4.46|3.55||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||3.55|-4.46|0.823
92372822|NCT01942668|184647550|SUPERIORITY||Mean Difference (Final Values)|-2.46|STANDARD_ERROR_OF_MEAN|2.166||0.255|TWO_SIDED|95.0|-6.71|1.78||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||1.78|-6.71|0.255
92372823|NCT01942668|184647550|SUPERIORITY||Mean Difference (Final Values)|-2.27|STANDARD_ERROR_OF_MEAN|2.154||0.293|TWO_SIDED|95.0|-6.49|1.96||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||1.96|-6.49|0.293
92372824|NCT01942668|184647550|SUPERIORITY||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|2.148||0.502|TWO_SIDED|95.0|-5.66|2.77||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||2.77|-5.66|0.502
92372825|NCT01942668|184647550|SUPERIORITY||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|2.161||0.495|TWO_SIDED|95.0|-5.71|2.76||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||2.76|-5.71|0.495
92372826|NCT01942668|184647551|SUPERIORITY||Mean Difference (Final Values)|-1.96|STANDARD_ERROR_OF_MEAN|2.274||0.389|TWO_SIDED|95.0|-6.42|2.5||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||2.50|-6.42|0.389
92227870|NCT00110994|184358296|SUPERIORITY_OR_OTHER|||||||0.201||95.0|||||t-test, 2 sided|||||||0.201
92227871|NCT00110994|184358297|SUPERIORITY_OR_OTHER|||||||0.168||95.0|||||t-test, 2 sided|||||||0.168
92372827|NCT01942668|184647551|SUPERIORITY||Mean Difference (Final Values)|-2.43|STANDARD_ERROR_OF_MEAN|2.253||0.281|TWO_SIDED|95.0|-6.85|1.99||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||1.99|-6.85|0.281
92372828|NCT01942668|184647551|SUPERIORITY||Mean Difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|2.25||0.504|TWO_SIDED|95.0|-5.92|2.91||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||2.91|-5.92|0.504
92372829|NCT01942668|184647551|SUPERIORITY||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|2.277||0.46|TWO_SIDED|95.0|-6.15|2.78||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||2.78|-6.15|0.460
92408286|NCT03511937|184705801|SUPERIORITY||Mean Difference (Final Values)|-49.5||||0.661|TWO_SIDED|95.0|-271.3|172.3||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||172.3|-271.3|0.661
92408287|NCT03511937|184705802|SUPERIORITY||Mean Difference (Final Values)|12.5||||0.082|TWO_SIDED|95.0|-1.6|26.6||The a priori threshold for statistical significance was \< 0.05.|Two-part regression model with robust SE|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||26.6|-1.6|0.082
92408288|NCT02983552|184705803|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.71|TWO_SIDED|95.0|-2.2|1.7||a priori threshold for statistical significance: 2-sided type I error rate of 5%|ANOVA|Adjusted for baseline amblyopic-eye visual acuity.|A 2-sided 95% confidence interval was computed on the adjusted treatment group difference evaluating change in amblyopic-eye visual acuity from baseline to the 4 week visit.|A modified intent-to-treat analysis was performed using an ANCOVA model to compare the effectiveness of two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. The primary outcome measure was change in amblyopic-eye VA from baseline to 4 weeks. A 2-sided 95% confidence interval (CI) was computed on the adjusted treatment group difference at 4 weeks. There was no imputation for missing data.||1.7|-2.2|0.71
92408289|NCT02983552|184705805|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|98.3|-2.4|2.1|||||A 2-sided 98.3% confidence interval was computed on the adjusted treatment group difference evaluating change in amblyopic-eye visual acuity from baseline to the 8-week visit.|||2.1|-2.4|
92408290|NCT02983552|184705811|SUPERIORITY||Mean Difference (Final Values)|-2.0|||||TWO_SIDED|98.3|-13.0|9.0||||||Binomial regression was used for the treatment group comparison of the proportion of participants classified as improving 2 or more logMAR lines (10 or more letters if E-ETDRS) from baseline at the 4-week visit, adjusted for visual acuity at randomization.||9|-13|
92408291|NCT02983552|184705812|SUPERIORITY||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|98.3|-15.0|12.0||||||Binomial regression was used for the treatment group comparison of the proportion of participants classified as improving 2 or more logMAR lines (10 or more letters if E-ETDRS) from baseline at the 8-week visit, adjusted for visual acuity at randomization.|For secondary visual acuity outcomes, which included the 8-week treatment group comparison, a Bonferroni adjustment was used to control for multiple testing (3 outcomes tested) to preserve the overall type I error rate at 5% (2-sided alpha=0.017 per test).|12|-15|
92408292|NCT02983552|184705814|SUPERIORITY|||||||0.38||||||The exact Wilcoxon rank-sum test was used to compare the change in stereoacuity levels from baseline to the 4-week visit by treatment group.|Wilcoxon (Mann-Whitney)|||||||0.38
92408293|NCT02983552|184705816|SUPERIORITY|||||||0.53||||||The exact Wilcoxon rank-sum test was used to compare the change in stereoacuity levels from baseline to the 8-week visit by treatment group.|Wilcoxon (Mann-Whitney)|||||||0.53
92408294|NCT02983552|184705818|SUPERIORITY|||||||0.19||||||The exact Wilcoxon rank-sum test was used to compare the change in stereoacuity levels from baseline to the 4-week visit by treatment group for participants without strabismus.|Wilcoxon (Mann-Whitney)|||||||0.19
92408295|NCT02983552|184705820|SUPERIORITY|||||||0.74||||||The exact Wilcoxon rank-sum test was used to compare the change in stereoacuity levels from baseline to the 8-week visit by treatment group for participants without strabismus.|Wilcoxon (Mann-Whitney)|||||||0.74
92408296|NCT02983552|184705825|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|99.0|-2.5|0.4|||||Statistical significance of the treatment group comparison was based on a 2-sided alpha=0.01.|An analysis of covariance (ANCOVA) model was used to compute the treatment group difference in the mean change in fellow-eye visual acuity (letters) from baseline to 4 weeks, adjusting for fellow-eye visual acuity at randomization. A 2-sided 99% confidence interval was computed on the adjusted treatment group difference.||0.4|-2.5|
92408297|NCT02983552|184705826|SUPERIORITY||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|99.0|-2.3|0.3|||||Statistical significance of the treatment group comparison was based on a 2-sided alpha=0.01.|An analysis of covariance (ANCOVA) model was used to compute the treatment group difference in the mean change in fellow-eye visual acuity (letters) from baseline to 8 weeks, adjusting for fellow-eye visual acuity at randomization. A 2-sided 99% confidence interval was computed on the adjusted treatment group difference.||0.3|-2.3|
92408298|NCT02983552|184705827|SUPERIORITY|||||||0.37|||||||Fisher Exact|||Fisher's exact test was used to perform the treatment group comparison of the proportion of participants who developed a new ocular deviation and/or worsening of a pre-existing ocular deviation by 10 prism diopters at the 4-week visit.||||0.37
92372830|NCT01942668|184647552|SUPERIORITY||Mean Difference (Final Values)|4.35|STANDARD_ERROR_OF_MEAN|2.513||0.084|TWO_SIDED|95.0|-0.58|9.28||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||9.28|-0.58|0.084
92372831|NCT01942668|184647552|SUPERIORITY||Mean Difference (Final Values)|2.61|STANDARD_ERROR_OF_MEAN|2.506||0.298|TWO_SIDED|95.0|-2.3|7.53||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||7.53|-2.30|0.298
92372832|NCT01942668|184647552|SUPERIORITY||Mean Difference (Final Values)|3.72|STANDARD_ERROR_OF_MEAN|2.496||0.136|TWO_SIDED|95.0|-1.17|8.62||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||8.62|-1.17|0.136
92372833|NCT01942668|184647552|SUPERIORITY||Mean Difference (Final Values)|3.48|STANDARD_ERROR_OF_MEAN|2.492||0.163|TWO_SIDED|95.0|-1.41|8.37||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||8.37|-1.41|0.163
92372834|NCT01942668|184647553|SUPERIORITY||Mean Difference (Final Values)|5.11|STANDARD_ERROR_OF_MEAN|2.647||0.054|TWO_SIDED|95.0|-0.08|10.31||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||10.31|-0.08|0.054
92372835|NCT01942668|184647553|SUPERIORITY||Mean Difference (Final Values)|7.1|STANDARD_ERROR_OF_MEAN|2.634||0.007|TWO_SIDED|95.0|1.93|12.26||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||12.26|1.93|0.007
92372836|NCT01942668|184647553|SUPERIORITY||Mean Difference (Final Values)|5.9|STANDARD_ERROR_OF_MEAN|2.623||0.025|TWO_SIDED|95.0|0.75|11.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||11.04|0.75|0.025
92372837|NCT01942668|184647553|SUPERIORITY||Mean Difference (Final Values)|8.38|STANDARD_ERROR_OF_MEAN|2.638||0.002|TWO_SIDED|95.0|3.2|13.55||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||13.55|3.20|0.002
92372838|NCT01942668|184647554|SUPERIORITY||Mean Difference (Final Values)|5.02|STANDARD_ERROR_OF_MEAN|2.945||0.089|TWO_SIDED|95.0|-0.76|10.8||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||10.80|-0.76|0.089
92372839|NCT01942668|184647554|SUPERIORITY||Mean Difference (Final Values)|7.56|STANDARD_ERROR_OF_MEAN|2.92||0.01|TWO_SIDED|95.0|1.83|13.29||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||13.29|1.83|0.010
92372840|NCT01942668|184647554|SUPERIORITY||Mean Difference (Final Values)|7.65|STANDARD_ERROR_OF_MEAN|2.911||0.009|TWO_SIDED|95.0|1.94|13.36||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||13.36|1.94|0.009
92372841|NCT01942668|184647554|SUPERIORITY||Mean Difference (Final Values)|7.89|STANDARD_ERROR_OF_MEAN|2.944||0.007|TWO_SIDED|95.0|2.11|13.67||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||13.67|2.11|0.007
92372842|NCT01942668|184647555|SUPERIORITY||Mean Difference (Final Values)|-1.64|STANDARD_ERROR_OF_MEAN|1.749||0.349|TWO_SIDED|95.0|-5.07|1.79||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.79|-5.07|0.349
92408299|NCT02983552|184705828|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Fisher's exact test was used to perform the treatment group comparison of the proportion of participants who developed a new ocular deviation and/or worsening of a pre-existing ocular deviation by 10 prism diopters at the 8-week visit.||||0.99
92372843|NCT01942668|184647555|SUPERIORITY||Mean Difference (Final Values)|-1.18|STANDARD_ERROR_OF_MEAN|1.743||0.499|TWO_SIDED|95.0|-4.6|2.24||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||2.24|-4.60|0.499
92372844|NCT01942668|184647555|SUPERIORITY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|1.737||0.936|TWO_SIDED|95.0|-3.27|3.55||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||3.55|-3.27|0.936
92372845|NCT01942668|184647555|SUPERIORITY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|1.736||0.696|TWO_SIDED|95.0|-4.08|2.72||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||2.72|-4.08|0.696
92372846|NCT01942668|184647556|SUPERIORITY||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|1.924||0.572|TWO_SIDED|95.0|-4.86|2.69||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||2.69|-4.86|0.572
92372847|NCT01942668|184647556|SUPERIORITY||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|1.914||0.553|TWO_SIDED|95.0|-4.89|2.62||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||2.62|-4.89|0.553
92372848|NCT01942668|184647556|SUPERIORITY||Mean Difference (Final Values)|-1.42|STANDARD_ERROR_OF_MEAN|1.907||0.456|TWO_SIDED|95.0|-5.16|2.32||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||2.32|-5.16|0.456
92372849|NCT01942668|184647556|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|1.919||0.949|TWO_SIDED|95.0|-3.89|3.64||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||3.64|-3.89|0.949
92372850|NCT01942668|184647557|SUPERIORITY||Mean Difference (Final Values)|-3.36|STANDARD_ERROR_OF_MEAN|2.026||0.097|TWO_SIDED|95.0|-7.34|0.61||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.61|-7.34|0.097
92372851|NCT01942668|184647557|SUPERIORITY||Mean Difference (Final Values)|-5.34|STANDARD_ERROR_OF_MEAN|2.01||0.008|TWO_SIDED|95.0|-9.28|-1.4||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.40|-9.28|0.008
92372852|NCT01942668|184647557|SUPERIORITY||Mean Difference (Final Values)|-4.94|STANDARD_ERROR_OF_MEAN|2.003||0.014|TWO_SIDED|95.0|-8.87|-1.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.01|-8.87|0.014
92372853|NCT01942668|184647557|SUPERIORITY||Mean Difference (Final Values)|-3.88|STANDARD_ERROR_OF_MEAN|2.029||0.056|TWO_SIDED|95.0|-7.86|0.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.10|-7.86|0.056
92372854|NCT01942668|184647558|SUPERIORITY||Mean Difference (Final Values)|-4.92|STANDARD_ERROR_OF_MEAN|1.665||0.003|TWO_SIDED|95.0|-8.18|-1.65||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.65|-8.18|0.003
92372855|NCT01942668|184647558|SUPERIORITY||Mean Difference (Final Values)|-3.79|STANDARD_ERROR_OF_MEAN|1.66||0.023|TWO_SIDED|95.0|-7.05|-0.53||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.53|-7.05|0.023
92408300|NCT02983552|184705829|SUPERIORITY|||||||0.2|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||0.20
92372856|NCT01942668|184647558|SUPERIORITY||Mean Difference (Final Values)|-3.28|STANDARD_ERROR_OF_MEAN|1.653||0.047|TWO_SIDED|95.0|-6.52|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.04|-6.52|0.047
92372857|NCT01942668|184647558|SUPERIORITY||Mean Difference (Final Values)|-3.41|STANDARD_ERROR_OF_MEAN|1.652||0.039|TWO_SIDED|95.0|-6.65|-0.17||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.17|-6.65|0.039
92372858|NCT01942668|184647559|SUPERIORITY||Mean Difference (Final Values)|-5.69|STANDARD_ERROR_OF_MEAN|1.713|<|0.001|TWO_SIDED|95.0|-9.05|-2.33||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.33|-9.05|<0.001
92372859|NCT01942668|184647559|SUPERIORITY||Mean Difference (Final Values)|-5.58|STANDARD_ERROR_OF_MEAN|1.704||0.001|TWO_SIDED|95.0|-8.93|-2.24||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.24|-8.93|0.001
92372860|NCT01942668|184647559|SUPERIORITY||Mean Difference (Final Values)|-5.12|STANDARD_ERROR_OF_MEAN|1.697||0.003|TWO_SIDED|95.0|-8.45|-1.79||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.79|-8.45|0.003
92372861|NCT01942668|184647559|SUPERIORITY||Mean Difference (Final Values)|-5.11|STANDARD_ERROR_OF_MEAN|1.708||0.003|TWO_SIDED|95.0|-8.46|-1.76||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.76|-8.46|0.003
92372862|NCT01942668|184647560|SUPERIORITY||Mean Difference (Final Values)|-6.01|STANDARD_ERROR_OF_MEAN|1.885||0.001|TWO_SIDED|95.0|-9.71|-2.32||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.32|-9.71|0.001
92372863|NCT01942668|184647560|SUPERIORITY||Mean Difference (Final Values)|-7.22|STANDARD_ERROR_OF_MEAN|1.871|<|0.001|TWO_SIDED|95.0|-10.89|-3.55||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.55|-10.89|<0.001
92372864|NCT01942668|184647560|SUPERIORITY||Mean Difference (Final Values)|-6.92|STANDARD_ERROR_OF_MEAN|1.863|<|0.001|TWO_SIDED|95.0|-10.58|-3.27||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.27|-10.58|<0.001
92372865|NCT01942668|184647560|SUPERIORITY||Mean Difference (Final Values)|-6.42|STANDARD_ERROR_OF_MEAN|1.886|<|0.001|TWO_SIDED|95.0|-10.12|-2.72||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.72|-10.12|<0.001
92372866|NCT01942668|184647561|SUPERIORITY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.609||0.004|TWO_SIDED|95.0|-7.75|-1.44||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.44|-7.75|0.004
92372867|NCT01942668|184647561|SUPERIORITY||Mean Difference (Final Values)|-3.49|STANDARD_ERROR_OF_MEAN|1.605||0.03|TWO_SIDED|95.0|-6.64|-0.34||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.34|-6.64|0.030
92372868|NCT01942668|184647561|SUPERIORITY||Mean Difference (Final Values)|-3.15|STANDARD_ERROR_OF_MEAN|1.598||0.049|TWO_SIDED|95.0|-6.29|-0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.02|-6.29|0.049
92372869|NCT01942668|184647561|SUPERIORITY||Mean Difference (Final Values)|-2.48|STANDARD_ERROR_OF_MEAN|1.597||0.121|TWO_SIDED|95.0|-5.61|0.65||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.65|-5.61|0.121
92372870|NCT01942668|184647562|SUPERIORITY||Mean Difference (Final Values)|-5.44|STANDARD_ERROR_OF_MEAN|1.682||0.001|TWO_SIDED|95.0|-8.74|-2.14||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.14|-8.74|0.001
92372871|NCT01942668|184647562|SUPERIORITY||Mean Difference (Final Values)|-5.53|STANDARD_ERROR_OF_MEAN|1.674|<|0.001|TWO_SIDED|95.0|-8.81|-2.25||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.25|-8.81|<0.001
92372872|NCT01942668|184647562|SUPERIORITY||Mean Difference (Final Values)|-5.12|STANDARD_ERROR_OF_MEAN|1.667||0.002|TWO_SIDED|95.0|-8.39|-1.85||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.85|-8.39|0.002
92372873|NCT01942668|184647562|SUPERIORITY||Mean Difference (Final Values)|-4.64|STANDARD_ERROR_OF_MEAN|1.677||0.006|TWO_SIDED|95.0|-7.93|-1.35||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.35|-7.93|0.006
92372874|NCT01942668|184647563|SUPERIORITY||Mean Difference (Final Values)|-6.28|STANDARD_ERROR_OF_MEAN|1.849|<|0.001|TWO_SIDED|95.0|-9.91|-2.65||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.65|-9.91|<0.001
92372875|NCT01942668|184647563|SUPERIORITY||Mean Difference (Final Values)|-7.58|STANDARD_ERROR_OF_MEAN|1.835|<|0.001|TWO_SIDED|95.0|-11.18|-3.98||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.98|-11.18|<0.001
92372876|NCT01942668|184647563|SUPERIORITY||Mean Difference (Final Values)|-7.43|STANDARD_ERROR_OF_MEAN|1.828|<|0.001|TWO_SIDED|95.0|-11.02|-3.84||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.84|-11.02|<0.001
92408301|NCT02983552|184705830|SUPERIORITY||||||>|0.99|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||>0.99
92408302|NCT02983552|184705831|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||The exact Wilcoxon rank-sum test was used to compare the change in diplopia frequency levels from baseline to the 4-week visit by treatment group.||||0.44
92408303|NCT02983552|184705832|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||The exact Wilcoxon rank-sum test was used to compare the change in diplopia frequency levels from baseline to the 8-week visit by treatment group.||||>0.99
92372877|NCT01942668|184647563|SUPERIORITY||Mean Difference (Final Values)|-6.54|STANDARD_ERROR_OF_MEAN|1.851|<|0.001|TWO_SIDED|95.0|-10.17|-2.91||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.91|-10.17|<0.001
92277816|NCT02363010|184457835|SUPERIORITY|||||||0.796||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that baseline Hedonic Hunger would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.796
92372878|NCT01942668|184647564|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.049||0.225|TWO_SIDED|95.0|-0.04|0.16||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.16|-0.04|0.225
92372879|NCT01942668|184647564|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.049||0.741|TWO_SIDED|95.0|-0.08|0.11||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.11|-0.08|0.741
92372880|NCT01942668|184647564|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.049||0.414|TWO_SIDED|95.0|-0.06|0.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.14|-0.06|0.414
92372881|NCT01942668|184647564|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.049||0.69|TWO_SIDED|95.0|-0.11|0.08||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.08|-0.11|0.690
92372882|NCT01942668|184647565|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.052||0.045|TWO_SIDED|95.0|0.0|0.21||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.21|0.00|0.045
92372883|NCT01942668|184647565|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.052||0.069|TWO_SIDED|95.0|-0.01|0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.20|-0.01|0.069
92372884|NCT01942668|184647565|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.052||0.126|TWO_SIDED|95.0|-0.02|0.18||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.18|-0.02|0.126
92372885|NCT01942668|184647565|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.052||0.907|TWO_SIDED|95.0|-0.1|0.11||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.11|-0.10|0.907
92372886|NCT01942668|184647566|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.055||0.992|TWO_SIDED|95.0|-0.11|0.11||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.11|-0.11|0.992
92372887|NCT01942668|184647566|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.054||0.45|TWO_SIDED|95.0|-0.07|0.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.15|-0.07|0.450
92372888|NCT01942668|184647566|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.054||0.663|TWO_SIDED|95.0|-0.13|0.08||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.08|-0.13|0.663
92372889|NCT01942668|184647566|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.055||0.309|TWO_SIDED|95.0|-0.16|0.05||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.05|-0.16|0.309
92408304|NCT02983552|184705833|SUPERIORITY|||||||0.12|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||0.12
92408305|NCT02983552|184705834|SUPERIORITY||||||>|0.99|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||>0.99
92408306|NCT02983552|184705835|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||The exact Wilcoxon rank-sum test was used to compare the change in diplopia frequency levels from baseline to the 4-week visit by treatment group.||||0.12
92408307|NCT02983552|184705836|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||The exact Wilcoxon rank-sum test was used to compare the change in diplopia frequency levels from baseline to the 8-week visit by treatment group.||||>0.99
92372890|NCT00129701|184647600|SUPERIORITY|||||||0.064|||||||Wilcoxon (Mann-Whitney)|||||||0.064
92372891|NCT00191724|184647632|SUPERIORITY_OR_OTHER|||||||0.528||95.0||||P-value for effect of drotrecogin alfa (activated) dose in right ventricular function at Day 6|Regression, Linear|||||||0.528
92372892|NCT00191724|184647632|SUPERIORITY_OR_OTHER|||||||0.23||95.0||||P-value for effect of drotrecogin alfa (activated) dose on right ventricular function at Day 90|Regression, Linear|||||||0.230
92372893|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||P-value for Dyspnea 90-Day Follow-Up.|Regression, Linear|||||||0.018
92372894|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||P-value for Emotional 90 Day Follow-up.|Regression, Linear|||||||0.720
92372895|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.481||95.0||||P-value for Fatigue 90 Day Follow-Up.|Regression, Linear|||||||0.481
92372896|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value for Mastery 90 Day Follow-Up.|Regression, Linear|||||||0.161
92372897|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.068||95.0||||P-value for Dyspnea 90 Day Follow-Up.|Regression, Linear|||||||0.068
92372898|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.985||95.0||||P-value for Emotional 90 Day Follow-Up.|Regression, Linear|||||||0.985
92408308|NCT02983552|184705839|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||For each Symptom Survey item, the exact Wilcoxon rank-sum test was used to compare the change in symptom frequency level from baseline to the 4-week visit by treatment group.||||0.07
92408309|NCT02983552|184705840|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||For each Symptom Survey item, the exact Wilcoxon rank-sum test was used to compare the change in symptom frequency level from baseline to the 8-week visit by treatment group. This was utilized for each item in the survey.||||0.06
92372899|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.281||95.0||||P-value for Fatigue 90 Day Follow-Up|Regression, Linear|||||||0.281
92372900|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.273||95.0||||P-value for Mastery 90 Day Follow-Up|Regression, Linear|||||||0.273
92372901|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.848||95.0||||P-value for Dyspnea 90 Day Follow-Up.|Regression, Linear|||||||0.848
92372902|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.841||95.0||||P-value for Emotional 90 Day Follow-Up.|Regression, Linear|||||||0.841
92372903|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.797||95.0||||P-value for Fatigue 90 Day Follow-Up.|Regression, Linear|||||||0.797
92372904|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.963||95.0||||P-value for Mastery 90 Day Follow-Up.|Regression, Linear|||||||0.963
92372905|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.149||95.0||||P-value for Dyspnea 90 Day Follow-Up.|Regression, Linear|||||||0.149
92372906|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.141||95.0||||P-value for Emotional 90 Day Follow-Up.|Regression, Linear|||||||0.141
92372907|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.774||95.0||||P-value for Fatigue 90 Day Follow-Up.|Regression, Linear|||||||0.774
92372908|NCT00191724|184647633|SUPERIORITY_OR_OTHER|||||||0.394||95.0||||P-value for Mastery 90 Day Follow-Up.|Regression, Linear|||||||0.394
92372909|NCT00489736|184647642|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.59|||<|0.0001||95.0|1.28|1.98||Cumulative incidence functions in each treatment group were calculated using time-to-event non-parametric Kaplan-Meier estimate. The primary comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It provides the relative hazard of treatment failure for the dronedarone group compared with the amiodarone group.|||1.98|1.28|<0.0001
92372910|NCT00489736|184647643|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.13||95.0|0.6|1.07||Cumulative incidence functions in each treatment group were calculated using time-to-event non-parametric Kaplan-Meier estimate. The comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It provides the relative hazard of main safety event occurrence for the dronedarone group compared with the amiodarone group.|||1.07|0.60|0.13
92372911|NCT00489736|184647644|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.002||95.0|0.44|0.84||Cumulative incidence functions in each treatment group were calculated using time-to-event non-parametric Kaplan-Meier estimate. The comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It provides the relative hazard of MSE occurrence excluding gastrointestinal events, for the dronedarone group compared with the amiodarone group.|||0.84|0.44|0.002
92372912|NCT03458910|184647662|SUPERIORITY|||||||0.782|||||||ANOVA|||A 2 (time: pre, post) X 2 (condition: HRV-increase, HRV-decrease) ANOVA was performed.||||0.782
92372913|NCT03458910|184647663|SUPERIORITY|||||||0.48|||||||ANOVA|||A 2 (time: pre, post) X 2 (condition: HRV-increase, HRV-decrease) ANOVA was performed.||||0.480
92372914|NCT03458910|184647664|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups.||||0.410
92372915|NCT03458910|184647665|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups.||||0.480
92372916|NCT03458910|184647666|SUPERIORITY|||||||0.17|||||||ANOVA|||time x condition x regulation goal interaction in behavioral emotional intensity rating for younger adults||||0.170
92372917|NCT03458910|184647667|SUPERIORITY|||||||0.478|||||||ANOVA|||time x condition x regulation goal interaction in behavioral emotional intensity rating for older adults||||0.478
92372918|NCT03458910|184647668|SUPERIORITY|||||||0.441|||||||ANOVA|||time x condition x regulation goal (2 x 2 x 3) interaction effect in the left amygdala for younger adults||||0.441
92372919|NCT03458910|184647669|SUPERIORITY|||||||0.621|||||||ANOVA|||time x condition x regulation goal (2 x 2 x 3) interaction effect in the left amygdala for older adults||||0.621
92372920|NCT03458910|184647670|SUPERIORITY|||||||0.19|||||||ANOVA|||time x condition x regulation goal (2 x 2 x 3) interaction effect in the right amygdala activity for younger adults||||0.190
92372921|NCT03458910|184647671|SUPERIORITY|||||||0.864|||||||ANOVA|||time x condition x regulation goal (2 x 2 x 3) interaction effect in the right amygdala activity for older adults||||0.864
92372922|NCT03458910|184647672|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Comparing acceptance rate of fair offers||||1.000
92372923|NCT03458910|184647672|SUPERIORITY|||||||0.716|||||||Wilcoxon (Mann-Whitney)|||Comparing acceptance rate of unfair offers||||0.716
92372924|NCT03458910|184647673|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups for dorsal anterior cingulate cortex activation.||||0.014
92372925|NCT03458910|184647673|SUPERIORITY|||||||0.059|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups for anterior insula activation.||||0.059
92227872|NCT04398732|184358298|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from Baseline in percent BSA at Month 12.||||0.0001
92372926|NCT03458910|184647674|SUPERIORITY|||||||0.144|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||.144
92372927|NCT03458910|184647674|SUPERIORITY|||||||0.653||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|||||||0.653
92372928|NCT03458910|184647675|SUPERIORITY|||||||0.288|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||.288
92372929|NCT03458910|184647675|SUPERIORITY|||||||0.191||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.191
92372930|NCT03458910|184647676|SUPERIORITY|||||||0.894|||||||ANOVA|||||||0.894
92372931|NCT03458910|184647676|SUPERIORITY|||||||0.425||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.425
92372932|NCT03458910|184647677|SUPERIORITY|||||||0.916|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.916
92372933|NCT03458910|184647677|SUPERIORITY|||||||0.235||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.235
92372934|NCT03458910|184647678|SUPERIORITY|||||||0.462|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.462
92372935|NCT03458910|184647678|SUPERIORITY|||||||0.468||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.468
92372936|NCT03458910|184647679|SUPERIORITY|||||||0.481|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.481
92372937|NCT03458910|184647679|SUPERIORITY|||||||0.159||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.159
92372938|NCT03458910|184647680|SUPERIORITY|||||||0.602|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.602
92372939|NCT03458910|184647680|SUPERIORITY|||||||0.562||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.562
92372940|NCT03458910|184647681|SUPERIORITY|||||||0.697|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.697
92372941|NCT03458910|184647681|SUPERIORITY|||||||0.901||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.901
92372942|NCT03458910|184647682|SUPERIORITY|||||||0.516|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||0.516
92372943|NCT03458910|184647683|SUPERIORITY|||||||0.944|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||0.944
92372944|NCT03458910|184647684|SUPERIORITY|||||||0.285|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||0.285
92372945|NCT03458910|184647685|SUPERIORITY|||||||0.807|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||0.807
92372946|NCT03458910|184647686|SUPERIORITY||||||<|0.001|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||<0.001
92372947|NCT03458910|184647687|SUPERIORITY|||||||0.74|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||0.740
92372948|NCT03458910|184647688|SUPERIORITY|||||||0.083|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.083
92372949|NCT03458910|184647689|SUPERIORITY|||||||0.176|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.176
92372950|NCT03458910|184647690|SUPERIORITY|||||||0.325|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.325
92372951|NCT03458910|184647691|SUPERIORITY|||||||0.751|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.751
92372952|NCT03458910|184647692|SUPERIORITY|||||||0.011|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.011
92372953|NCT03458910|184647693|SUPERIORITY|||||||0.885|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.885
92372954|NCT03458910|184647694|SUPERIORITY|||||||0.259||||||p-value reflects time x condition interaction|ANOVA|||2 (time) x 2 (condition) ANOVA to test effects of time, condition, and time x condition interaction||||0.259
92372955|NCT03458910|184647695|SUPERIORITY|||||||0.000146||||||p-value reflects time x condition interaction|ANOVA|||2 (time) x 2 (condition) ANOVA to test effects of time, condition, and time x condition interaction||||0.000146
92372956|NCT03458910|184647696|SUPERIORITY|||||||0.463||||||time point x group (2 way) interaction|ANOVA|||||||0.463
92372957|NCT03458910|184647697|SUPERIORITY|||||||0.99||||||time point x group (2 way) interaction|ANOVA|||||||0.990
92372958|NCT03458910|184647698|SUPERIORITY|||||||0.034||||||time point x group (2 way) interaction|ANOVA|||||||0.034
92372959|NCT03458910|184647699|SUPERIORITY|||||||0.398||||||time point x group (2 way) interaction|ANOVA|||||||0.398
92372960|NCT03458910|184647700|SUPERIORITY|||||||0.113||||||time point x group (2 way) interaction|ANOVA|||||||0.113
92372961|NCT03458910|184647701|SUPERIORITY|||||||0.637||||||time point x group (2 way) interaction|ANOVA|||||||0.637
92372962|NCT03458910|184647702|SUPERIORITY|time x condition interaction in CRP for younger adults||||||0.133|||||||ANOVA|||||||0.133
92372963|NCT03458910|184647703|SUPERIORITY|time x condition interaction in CRP for older adults||||||0.402|||||||ANOVA|||||||0.402
92372964|NCT03458910|184647704|SUPERIORITY|time x condition interaction in cytokine IL-1b for younger adults||||||0.236||||||p value for time x condition interaction effect|ANOVA|||||||0.236
92372965|NCT03458910|184647705|SUPERIORITY|time x condition interaction in cytokine IL-1b for older adults||||||0.6||||||p value for time x condition interaction effect|ANOVA|||||||0.600
92372966|NCT03458910|184647706|SUPERIORITY|time x condition interaction in cytokine IL-6 for younger adults||||||0.788||||||p value for time x condition interaction effect|ANOVA|||||||0.788
92372967|NCT03458910|184647707|SUPERIORITY|time x condition interaction in cytokine IL-6 for older adults||||||0.917||||||p value for time x condition interaction effect|ANOVA|||||||0.917
92372968|NCT03458910|184647708|SUPERIORITY|time x condition interaction in cytokine IL-8 for younger adults||||||0.844||||||p value for time x condition interaction effect|ANOVA|||||||0.844
92372969|NCT03458910|184647709|SUPERIORITY|time x condition interaction in cytokine IL-8 for older adults||||||0.75||||||p value for time x condition interaction effect|ANOVA|||||||0.750
92372970|NCT03458910|184647710|SUPERIORITY|time x condition interaction in cytokine TNF-a for younger adults||||||0.074||||||p value for time x condition interaction effect|ANOVA|||||||0.074
92372971|NCT03458910|184647711|SUPERIORITY|time x condition interaction in cytokine TNF-a for older adults||||||0.0505||||||p value for time x condition interaction effect|ANOVA|||||||0.0505
92227873|NCT04398732|184358299|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from baseline in DLQI at Month 12.||||0.0001
92408310|NCT02983552|184705843|SUPERIORITY||||||>|0.01||||||Statistical significance of the interaction term was based on a 2-sided alpha=0.01.|ANCOVA|||An analysis of covariance (ANCOVA) was performed to test the 2-way interaction between treatment group with each factor (baseline age and visual acuity were treated as continuous factors), adjusting for baseline amblyopic-eye visual acuity and the nested terms from the interaction term. Formal subgroup analyses were only performed if there was a minimum of 20 participants in every subgroup category across both treatment groups for factors treated as categorical variables in the model.||||>0.01
92408311|NCT02637037|184705853|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.96|||||TWO_SIDED|90.0|0.93|0.99||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||0.99|0.93|
92408312|NCT02637037|184705853|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.99|||||TWO_SIDED|90.0|0.96|1.01||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.01|0.96|
92408313|NCT02637037|184705853|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.97|||||TWO_SIDED|90.0|0.94|1.0||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||1.00|0.94|
92408314|NCT02637037|184705853|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.98|||||TWO_SIDED|90.0|0.95|1.0||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.00|0.95|
92408315|NCT02637037|184705853|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.01|||||TWO_SIDED|90.0|0.96|1.06||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||1.06|0.96|
92408316|NCT02637037|184705853|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.0|||||TWO_SIDED|90.0|0.93|1.07||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.07|0.93|
92408317|NCT02637037|184705853|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.05|||||TWO_SIDED|90.0|0.99|1.11||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||1.11|0.99|
92408318|NCT02637037|184705853|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.03|||||TWO_SIDED|90.0|0.96|1.1||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.10|0.96|
92408319|NCT02637037|184705854|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.96|||||TWO_SIDED|90.0|0.94|0.99||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||0.99|0.94|
92227874|NCT04398732|184358300|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from baseline in PASI at Month 12.||||0.0001
92227875|NCT04398732|184358301|OTHER|||||||0.036|||||||Student's t-test|||Baseline||||0.036
92227876|NCT04398732|184358301|OTHER|||||||0.0001|||||||Student's t-test|||Month 4||||0.0001
92227877|NCT04398732|184358301|OTHER|||||||0.0001|||||||Student's t-test|||Month 12||||0.0001
92227878|NCT04398732|184358302|OTHER|||||||0.42|||||||Student's t-test|||Baseline||||0.42
92227879|NCT04398732|184358302|OTHER|||||||0.0001|||||||Student's t-test|||Month 4||||0.0001
92227880|NCT04398732|184358302|OTHER|||||||0.0001|||||||Student's t-test|||Month 12||||0.0001
92227881|NCT04398732|184358303|OTHER|||||||0.72|||||||Student's t-test|||Baseline||||0.72
92227882|NCT04398732|184358303|OTHER|||||||0.0001|||||||Student's t-test|||Month 4||||0.0001
92227883|NCT04398732|184358303|OTHER|||||||0.0001|||||||Student's t-test|||Month 12||||0.0001
92227884|NCT04398732|184358304|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from Baseline in percent BSA at Month 4.||||0.0001
92227885|NCT04398732|184358305|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from baseline in DLQI at Month 4.||||0.0001
92227886|NCT04398732|184358306|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from baseline in PASI at Month 4.||||0.0001
92240218|NCT03008590|184383893|SUPERIORITY|||||||0.9||||||Significance pre-specified at P\<0.05|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.90
92408320|NCT02637037|184705854|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.99|||||TWO_SIDED|90.0|0.97|1.02||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.02|0.97|
92408321|NCT02637037|184705854|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.96|||||TWO_SIDED|90.0|0.93|0.98||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||0.98|0.93|
92408322|NCT02637037|184705854|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.97|||||TWO_SIDED|90.0|0.95|1.0||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.00|0.95|
92408323|NCT02637037|184705854|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.02|||||TWO_SIDED|90.0|0.97|1.08||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||1.08|0.97|
92408324|NCT02637037|184705854|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.01|||||TWO_SIDED|90.0|0.95|1.06||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.06|0.95|
92372972|NCT03458910|184647726|SUPERIORITY|||||||0.022|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups.||||0.022
92408325|NCT02637037|184705854|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of geometric means|1.03|||||TWO_SIDED|90.0|0.97|1.09||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||1.09|0.97|
92408326|NCT02637037|184705854|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.01|||||TWO_SIDED|90.0|0.95|1.07||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.07|0.95|
92408327|NCT02637037|184705855|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.98|||||TWO_SIDED|90.0|0.93|1.03||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||1.03|0.93|
92239604|NCT00390780|184383039|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|Compare proportion of clinical success|0.15||||0.1115|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for PP population:~H0: clinical success rate for miconazole Lauriad minus clinical success rate for clotrimazole troches is less than or equal to -0.15 H1: clinical success rate for miconazole Lauriad minus clinical success rate for Mycelex troches is greater than -0.15"|||-0.15|0.1115
92372973|NCT03458910|184647727|SUPERIORITY|||||||0.455|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups.||||0.455
92372974|NCT03458910|184647728|SUPERIORITY|||||||0.022|||||||ANOVA|||A 2 (time: pre, post) X 2 (condition: HRV-increase, HRV-decrease) ANOVA was performed.||||0.022
92372975|NCT03458910|184647729|SUPERIORITY|||||||0.455|||||||ANOVA|||A 2 (time: pre, post) X 2 (condition: HRV-increase, HRV-decrease) ANOVA was performed.||||0.455
92372976|NCT03458910|184647730|SUPERIORITY|||||||0.462||||||time point x group (2 way) interaction|ANOVA|||||||0.462
92372977|NCT03458910|184647731|SUPERIORITY|||||||0.305||||||time point x group (2 way) interaction|ANOVA|||||||0.305
92372978|NCT03458910|184647732|SUPERIORITY|||||||0.804||||||time point x group (2 way) interaction|ANOVA|||||||0.804
92372979|NCT03458910|184647733|SUPERIORITY|||||||0.141||||||time point x group (2 way) interaction|ANOVA|||||||0.141
92372980|NCT03458910|184647734|SUPERIORITY|||||||0.292||||||time point x group(2 way) interaction|ANOVA|||||||0.292
92372981|NCT03458910|184647735|SUPERIORITY|||||||0.905||||||time point x group (2 way) interaction|ANOVA|||||||0.905
92372982|NCT03458910|184647736|SUPERIORITY|||||||0.641||||||p value for time x condition x error type interaction effect|ANOVA|||time x condition x error type interaction in Sustained Attention to Response Task (SART) for younger adults||||0.641
92372983|NCT03458910|184647737|SUPERIORITY|||||||0.813||||||p value for time x condition x error type interaction effect|ANOVA|||time x condition x error type interaction in Sustained Attention to Response Task (SART) for older adults||||0.813
92372984|NCT03458910|184647738|SUPERIORITY|||||||0.695|||||||ANOVA|||Hits during recognition task for younger adults||||.695
92372985|NCT03458910|184647739|SUPERIORITY|||||||0.27|||||||ANOVA|||Hits during recognition task for older adults||||.270
92372986|NCT03458910|184647740|SUPERIORITY|||||||0.102|||||||ANOVA|||False alarms during recognition task for younger adults||||.102
92372987|NCT03458910|184647741|SUPERIORITY|||||||0.257|||||||ANOVA|||False alarms during recognition task for older adults||||.257
92372988|NCT03458910|184647742|SUPERIORITY|||||||0.067|||||||ANOVA|||Group difference for recall for younger adults||||.067
92372989|NCT03458910|184647743|SUPERIORITY|||||||0.117|||||||ANOVA|||Group difference for recall for older adults||||.117
92372990|NCT03458910|184647744|SUPERIORITY|||||||0.558||||||p value for time x condition interaction effect|ANOVA|||time x condition x collection interaction in cortisol levels for younger adults||||0.558
92372991|NCT02752633|184647745|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Data are presented as the urinary DHA excretion (mg/24 hr) and as the DHA-to-creatinine ratio (mg/mmol) in first morning void urine samples. Data are presented as a median (range). Differences in the median urinary DHA excretion and the urinary DHA-to-creatinine ratio between periods off pharmacotherapy and on the two study drugs, febuxostat and allopurinol, were assessed using the Wilcoxon signed rank test.||||<.05
92372992|NCT04478071|184647746|SUPERIORITY||Risk Difference (RD)|-0.036|||||TWO_SIDED|95.0|-0.084|0.009|||||"Risk difference of Vadadustat relative to Placebo. Values under confidence interval reflect Bayesian 95% credible interval rather than frequentist confidence interval."|Trial used Bayesian analysis for superiority. Hypothesis Testing for Primary Outcome: Among adult hospital admissions with lab-confirmed diagnosis of COVID-19, vadadustat 900 mg will demonstrate superiority to placebo as defined by a lower probability, at treatment day 14, of death (8) or hospitalization, on invasive mechanical ventilation or ECMO (7) or hospitalization, on non-invasive ventilation or high flow oxygen devices (6) on the NIAID-OS. See Statistical Analysis Plan for more details.||0.009|-0.084|
92372993|NCT04478071|184647746|SUPERIORITY||Posterior Probability|0.94|||||TWO_SIDED||||||||Posterior probability of the risk difference of Vadadustat relative to Placebo.|||||
92372994|NCT04478071|184647747|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.92|1.1|||||"Risk ratio of Vadadustat relative to Placebo. Values under confidence interval reflect Bayesian 95% credible interval rather than frequentist confidence interval."|Trial used Bayesian analysis for superiority. Hypothesis Testing for Secondary Outcome: Among adult hospital admissions with lab-confirmed diagnosis of COVID-19, vadadustat 900 mg will demonstrate superiority to placebo as defined by a higher probability, at treatment day 14, of recovery on the MSOFA scale (MSOFA = 0).||1.1|0.92|
92372995|NCT04478071|184647747|SUPERIORITY||Posterior probability|0.57|||||TWO_SIDED||||||||Posterior probability of the risk ratio of Vadadustat relative to Placebo.|||||
92372996|NCT06053541|184647759|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.24
92372997|NCT06053541|184647760|OTHER|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.37
92372998|NCT06053541|184647761|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.03
92372999|NCT06053541|184647762|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Beds in the general practice and Pulmonology: For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.11
92373000|NCT06053541|184647762|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Beds in Adults ICU: For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||<0.01
92373001|NCT06053541|184647763|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.01
92373002|NCT06053541|184647764|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.07
92373003|NCT05059301|184647781|EQUIVALENCE|Clinical equivalence is demonstrated if the 2 sided 95% confidence interval (CI) of the GMC ratios (RSV OA\_Lot 1 divided by RSV OA\_Lot 2) is within the pre defined limit of \[0.67, 1.5\].|Adjusted group GMC ratio|1.06|||||TWO_SIDED|95.0|0.94|1.21||||||To demonstrate the clinical equivalence of RSV OA\_Lot 1 versus RSV OA\_Lot 2 in terms of RSV PreF3 IgG concentrations expressed as group GMC ratio at one month post vaccination. The 2-sided 95% CI for group GMC ratio was derived from an ANCOVA model on log10 transformed RSV PreF3 IgG antibody titers. The ANCOVA model included the treatment group and the age category (age at vaccination: 60-69, 70-79 or \>=80 years) and the center as fixed effects and the pre-dose log10 titer as covariate.||1.21|0.94|
92373004|NCT05059301|184647781|EQUIVALENCE|Clinical equivalence is demonstrated if the 2 sided 95% CI of the GMC ratios (RSV OA\_Lot 1 divided by RSV OA\_Lot 3) is within the pre defined limit of \[0.67, 1.5\].|Adjusted group GMC ratio|0.92|||||TWO_SIDED|95.0|0.81|1.04||||||To demonstrate the clinical equivalence of RSV OA\_Lot 1 versus RSV OA\_Lot 3 in terms of RSV PreF3 IgG concentrations expressed as group GMC ratio at one month post vaccination. The 2-sided 95% CI for group GMC ratio was derived from an ANCOVA model on log10 transformed RSV PreF3 IgG antibody titers. The ANCOVA model included the treatment group and the age category (age at vaccination: 60-69, 70-79 or \>=80 years) and the center as fixed effects and the pre-dose log10 titer as covariate.||1.04|0.81|
92373005|NCT05059301|184647781|EQUIVALENCE|Clinical equivalence is demonstrated if the 2 sided 95% CI of the GMC ratios (RSV OA\_Lot 2 divided by RSV OA\_Lot 3) is within the pre defined limit of \[0.67, 1.5\].|Adjusted group GMC ratio|0.87|||||TWO_SIDED|95.0|0.77|0.99||||||To demonstrate the clinical equivalence of RSV OA\_Lot 2 versus RSV OA\_Lot 3 in terms of RSV PreF3 IgG concentrations expressed as group GMC ratio at one month post vaccination. The 2-sided 95% CI for group GMC ratio was derived from an ANCOVA model on log10 transformed RSV PreF3 IgG antibody titers. The ANCOVA model included the treatment group and the age category (age at vaccination: 60-69, 70-79 or \>=80 years) and the center as fixed effects and the pre-dose log10 titer as covariate.||0.99|0.77|
92373006|NCT01106651|184647788|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.069|<|0.001|TWO_SIDED|95.0|-0.708|-0.436|||ANCOVA|||||-0.436|-0.708|<0.001
92373007|NCT01106651|184647788|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.841|-0.566|||ANCOVA|||||-0.566|-0.841|<0.001
92373008|NCT01106651|184647789|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96|||<|0.001||95.0|1.93|4.56|||Regression, Logistic|||||4.56|1.93|<0.001
92408328|NCT02637037|184705855|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.97|||||TWO_SIDED|90.0|0.9|1.06||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.06|0.90|
92408329|NCT02637037|184705855|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.97|||||TWO_SIDED|90.0|0.89|1.05||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||1.05|0.89|
92227887|NCT00464204|184358313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-331.0|STANDARD_DEVIATION|1033.0||0.0185|TWO_SIDED|95.0|-640.0|-21.0||One-sided t-test assuming unequal variances (as variances were significantly different between treatment groups).No multiple comparisons were made. A priori threshold for statistical significance for the confirmatory analysis on FAS: 0.025 one-sided.|t-test, 1 sided||Considered difference: Voluven® minus NaCl 0.9 %|"Null-hypothesis: The amount of study drug required to achieve initial hemodynamic stabilization in patients treated with Voluven® is higher than or equal to this amount in patients treated with NaCl.~Alternative hypothesis: The amount of study drug required to achieve initial hemodynamic stabilization is lower in patients treated with Voluven® than in patients treated with NaCl."||-21|-640|0.0185
92227888|NCT01838044|184358396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.287||0.6012|TWO_SIDED|95.0|-0.72|0.42|||Mixed Models Analysis|||Statistical analysis at Week 5 compared between two study arms.||0.42|-0.72|0.6012
92408330|NCT02637037|184705855|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.95|||||TWO_SIDED|90.0|0.87|1.03||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.03|0.87|
92408331|NCT02637037|184705855|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.01|||||TWO_SIDED|90.0|0.96|1.07||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||1.07|0.96|
92408332|NCT02637037|184705855|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.98|||||TWO_SIDED|90.0|0.92|1.04||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.04|0.92|
92408333|NCT02637037|184705855|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of geometric means|1.0|||||TWO_SIDED|90.0|0.95|1.06||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||1.06|0.95|
92408334|NCT02637037|184705855|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.02|||||TWO_SIDED|90.0|0.94|1.1||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.10|0.94|
92408335|NCT01526733|184705865|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|2.15|||<|0.0001|TWO_SIDED|90.0|1.71|2.71||Comparison of Day 1 Insulin (Aspart or Lispro)-rHuPH20 versus Day 1 Insulin-sham.|Mixed Models Analysis|A mixed model with fixed effects for treatment, day, and interaction of treatment with day was performed using a compound symmetric covariance matrix.||||2.71|1.71|<0.0001
92408336|NCT01526733|184705865|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|2.62|||<|0.0001|TWO_SIDED|90.0|2.08|3.29||Comparison of Day 4 Insulin (Aspart or Lispro)-rHuPH20 versus Day 1 Insulin-sham.|Mixed Models Analysis|A mixed model with fixed effects for treatment, day, and interaction of treatment with day was performed using a compound symmetric covariance matrix.||||3.29|2.08|<0.0001
92408337|NCT01869764|184705888|OTHER|||||||0.93|||||||ANOVA|||||||0.93
92408338|NCT01869764|184705889|OTHER|||||||0.29|||||||ANOVA|||||||0.29
92408339|NCT01600170|184705914|SUPERIORITY|||||||0.39||||||The threshold for statistical significance was p = 0.01|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Primary outcomes were pre-specified to use p\<0.01 for statistical significance. All other analyses used p\<0.05 after adjustment for multiple comparisons.||||0.39
92408340|NCT01600170|184705915|SUPERIORITY||||||<|0.45||||||Threshold of statistical significance was p=0.01|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Primary outcomes were pre-specified to use p\<0.01 for statistical significance. All other analyses used p\<0.05 after adjustment for multiple comparisons.||||<0.45
92408341|NCT01600170|184705916|SUPERIORITY|||||||0.8||||||The threshold for statistical significance was p = 0.01|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Primary outcomes were pre-specified to use p\<0.01 for statistical significance. All other analyses used p\<0.05 after adjustment for multiple comparisons.||||0.80
92227889|NCT01838044|184358397|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.42|||<|0.0001|TWO_SIDED|95.0|1.02|1.83|||Mixed Models Analysis|||Statistical analysis of weekly mean pain NRS score in Arm B at Week 10.||1.83|1.02|<0.0001
92227890|NCT01838044|184358398|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.361||0.5128|TWO_SIDED|95.0|-0.48|0.95|||Mixed Models Analysis|||Statistical analysis of weekly mean pain NRS score in Arm B compared between two study arms at Week 10.||0.95|-0.48|0.5128
92227891|NCT01838044|184358400|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7251|TWO_SIDED|95.0|-0.22|0.32|||Mixed Models Analysis|||Statistical analysis at Week 5 based on comparison between treatment groups.||0.32|-0.22|0.7251
92227892|NCT01838044|184358400|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1255|TWO_SIDED|95.0|-0.06|0.46|||Mixed Models Analysis|||Statistical analysis at Week 10 based on comparison between treatment groups.||0.46|-0.06|0.1255
92227893|NCT01838044|184358402|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.317||0.2856|TWO_SIDED|95.0|-0.97|0.29|||Mixed Models Analysis|||Statistical analysis at Week 5 compared between treatment groups.||0.29|-0.97|0.2856
92227894|NCT01838044|184358402|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.363||0.3987|TWO_SIDED|95.0|-1.02|0.41|||Mixed Models Analysis|||Statistical analysis at Week 10 compared between treatment groups.||0.41|-1.02|0.3987
92227895|NCT00330187|184358410|SUPERIORITY||Odds Ratio (OR)|3.6||||0.07|TWO_SIDED|95.0|0.9|14.4|||Regression, Logistic|||||14.4|0.9|0.07
92227896|NCT01751971|184358411|SUPERIORITY||Mean Difference (Net)|10.5||||0.4|TWO_SIDED|95.0|-16.0|37.1|||t-test, 2 sided||Positive estimated value would represent a greater reduction in AHI with oxygen (% sham) in the high vs low loop gain group.|"Primary statistical comparison was the percent reduction in AHI----\[AHI(sham)-AHI(oxygen)\]/AHI(sham) %----between two phenotypic patient subgroups. Patient subgroups were defined by the loop gain (LG1) measured on the sham night as high or low (a priori cutoff LG1=0.7)."||37.1|-16|0.4
92373009|NCT01106651|184647789|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.48|||<|0.001||95.0|2.89|6.95|||Regression, Logistic|||||6.95|2.89|<0.001
92373010|NCT01106651|184647790|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-25.5|STANDARD_ERROR_OF_MEAN|3.147|<|0.001|TWO_SIDED|95.0|-31.68|-19.32|||ANCOVA|||||-19.32|-31.68|<0.001
92373011|NCT01106651|184647790|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-27.7|STANDARD_ERROR_OF_MEAN|3.179|<|0.001|TWO_SIDED|95.0|-33.97|-21.49|||ANCOVA|||||-21.49|-33.97|<0.001
92408342|NCT01600170|184705917|SUPERIORITY|||||||0.04||||||The threshold of statistical significance was p=0.01|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Primary outcomes were pre-specified to use p\<0.01 for statistical significance. All other analyses used p\<0.05 after adjustment for multiple comparisons.||||0.04
92227897|NCT01751971|184358411|SUPERIORITY||Mean Difference (Final Values)|17.4|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|10.7|24.1|||t-test, 2 sided||Direction of comparison: Positive estimation parameter would indicate lower AHI on oxygen versus sham.|Here we aimed to confirm that there was a difference between AHI on oxygen vs sham (overall, i.e. in unselected patients). This test, however was not part of our primary objective.||24.1|10.7|<0.001
92227898|NCT01751971|184358411|SUPERIORITY||Mean Difference (Net)|42.8||||0.001|TWO_SIDED|95.0|21.0|64.6|||t-test, 2 sided||Direction of comparison: Positive estimated value would indicate a greater percentage reduction in AHI (oxygen vs. sham) in favorable vs. unfavorable subgroups.|"The primary goal of the study was to identify a phenotypic subgroup of patients with sleep apnea that responds preferentially to oxygen (percent reduction in AHI----\[AHI(sham)-AHI(oxygen)\]/AHI(sham) %). We defined patient subgroups (favorable versus unfavorable) based on the four key phenotypic traits (loop gain, collapsibility, arousal threshold, muscle responses) measured on the sham night, with the use of multiple logistic regression and leave-one-out cross validation."||64.6|21.0|0.001
92373012|NCT01106651|184647791|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.8|-1.7|||ANCOVA|||||-1.7|-2.8|<0.001
92373013|NCT01106651|184647791|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.5|-2.4|||ANCOVA|||||-2.4|-3.5|<0.001
92373014|NCT01106651|184647792|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.59|STANDARD_ERROR_OF_MEAN|0.379|<|0.001|TWO_SIDED|95.0|-2.339|-0.842|||ANCOVA|||||-0.842|-2.339|<0.001
92373015|NCT01106651|184647792|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.371|<|0.001|TWO_SIDED|95.0|-2.833|-1.368|||ANCOVA|||||-1.368|-2.833|<0.001
92227899|NCT01649947|184358417|OTHER||Mean Difference (Net)|56.0||||0.01|TWO_SIDED|95.0|8.9|72.0|||t-test, 2 sided|||The analysis is comprised of evaluable patients who had measureable disease and received at least one cycle of therapy and had disease evaluated.||72|8.9|0.01
92227900|NCT01162421|184358427|SUPERIORITY_OR_OTHER||Difference in percentage|-1.3||||0.907|TWO_SIDED|95.0|-23.4|20.8|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||||20.8|-23.4|0.907
92227901|NCT01162421|184358428|SUPERIORITY_OR_OTHER||Difference in percentage|3.2||||0.762|TWO_SIDED|95.0|-17.7|24.1|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||24.1|-17.7|0.762
92373016|NCT01106651|184647793|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.305|<|0.001|TWO_SIDED|95.0|-1.633|-0.428|||ANCOVA|||Region percent total fat||-0.428|-1.633|<0.001
92373017|NCT01106651|184647793|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.772|-0.587|||ANCOVA|||Region percent total fat||-0.587|-1.772|<0.001
92373018|NCT01106651|184647794|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.316||0.001|TWO_SIDED|95.0|-1.677|-0.43|||ANCOVA|||||-0.430|-1.677|0.001
92373019|NCT01106651|184647794|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.311|<|0.001|TWO_SIDED|95.0|-1.812|-0.584|||ANCOVA|||||-0.584|-1.812|<0.001
92227902|NCT01162421|184358428|SUPERIORITY_OR_OTHER||Difference in percentage|-5.3||||0.65|TWO_SIDED|95.0|-28.1|17.5|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||17.5|-28.1|0.650
92373020|NCT01106651|184647795|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-4.63|STANDARD_ERROR_OF_MEAN|1.134|<|0.001|TWO_SIDED|95.0|-6.854|-2.401|||ANCOVA|||||-2.401|-6.854|<0.001
92373021|NCT01106651|184647795|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-7.89|STANDARD_ERROR_OF_MEAN|1.147|<|0.001|TWO_SIDED|95.0|-10.14|-5.641|||ANCOVA|||||-5.641|-10.14|<0.001
92373022|NCT01106651|184647796|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|3.7||0.194|TWO_SIDED|95.0|-12.1|2.5|||ANCOVA|||||2.5|-12.1|0.194
92373023|NCT01106651|184647796|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|3.7||0.846|TWO_SIDED|95.0|-6.6|8.1|||ANCOVA|||||8.1|-6.6|0.846
92373024|NCT01106651|184647797|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|2.6|7.9|||ANCOVA|||||7.9|2.6|<0.001
92373025|NCT01106651|184647797|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|2.0|7.4|||ANCOVA|||||7.4|2.0|<0.001
92373026|NCT01106651|184647798|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.4|0.8|||ANCOVA|||||0.8|-0.4|
92373027|NCT01106651|184647798|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.9|0.3|||ANCOVA|||||0.3|-0.9|
92373028|NCT01106651|184647799|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.9|0.4|||ANCOVA|||||0.4|-0.9|
92373029|NCT01106651|184647799|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-1.0|0.3|||ANCOVA|||||0.3|-1.0|
92373030|NCT01106651|184647800|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.3|1.0|||ANCOVA|||||1.0|-0.3|
92373031|NCT01106651|184647800|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.3|1.1|||ANCOVA|||||1.1|-0.3|
92373032|NCT01106651|184647801|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||||-0.0|-0.8|
92373033|NCT01106651|184647801|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.9|-0.1|||ANCOVA|||||-0.1|-0.9|
92373034|NCT00323960|184647802|SUPERIORITY|||||||0.0228||||||For multiple hypothesis testing, we used Bonferroni's correction (with n=3 posterior comparisons).|Chi-squared|To assess proportions we used the χ² test or Fisher's exact test||We calculated that a sample size of 40 patients would be needed in each study group (total 120 patients) to have 80% power for comparison of combination treatments (prednisone plus methotrexate or prednisone plus ciclosporin) with the reference treatment (prednisone alone).||||0.0228
92373035|NCT00323960|184647803|SUPERIORITY||Relative risk|2.45||||0.012|TWO_SIDED|95.0|1.2|5.0|||Log Rank||RR related to prednisone plus methotrexate arm (group 3) versus prednisone alone (group 1) and prednisone plus ciclosporin (group 2).|We used the Kaplan-Meier method to produce survival curves (groups 1 and 2 versus group 3) and compared them with the Log-Rank test. We judged a p value less than 0·05 significant. We reported in the table the incidence rates with 95% confidence intervals of the 3 groups.||5.0|1.2|0.012
92373036|NCT00323960|184647804|SUPERIORITY||Relative risk|1.95||||0.009|TWO_SIDED|95.0|1.2|3.15|||Log Rank||RR related to prednisone alone (group 1) versus prednisone plus ciclosporin (group 2) and prednisone plus methotrexate arm (group 3).|We used the Kaplan-Meier method to produce survival curves (group 1 versus groups 2 and 3) and compared them with the Log-Rank test. We judged a p value less than 0·05 significant. We reported in the table the incidence rates with 95% confidence intervals of the 3 groups.||3.15|1.2|0.009
92373037|NCT00323960|184647805|SUPERIORITY||Relative risk|1.65||||0.002|TWO_SIDED|95.0|1.24|2.14|||Log Rank||RR related to prednisone+methotrexate arm or prednisone+ciclosporin versus prednisone alone.|We used the Kaplan-Meier method to produce survival curves (groups 2 and 3 versus group 1) and compared them with the Log-Rank test. We judged a p value less than 0·05 significant. We reported in the table the incidence rates with 95% confidence intervals of the 3 groups.||2.14|1.24|0.002
92373038|NCT00323960|184647805|SUPERIORITY||Relative risk|1.65||||0.002|TWO_SIDED|95.0|1.24|2.14|||Log Rank||RR related to prednisone alone (group 1) versus prednisone plus ciclosporin (group 2) and prednisone plus methotrexate arm (group 3).|We used the Kaplan-Meier method to produce survival curves (groups 1 versus groups 2 and 3) and compared them with the Log-Rank test. We judged a p value less than 0·05 significant. We reported in the table the incidence rates with 95% confidence intervals of the 3 groups.||2.14|1.24|0.002
92373039|NCT02466425|184647806|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-9.9|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|-13.0|-6.8|||Mixed-effects model for repeated measure||Between treatment groups|||-6.8|-13.0|<0.001
92373040|NCT00889603|184647808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.92|||||TWO_SIDED|95.0|1.65|2.2|||||Change from baseline in MMSE at LOCF analyzed using single-sample t-test; a 95% confidence interval (CI) was calculated for mean change at LOCF.|||2.20|1.65|
92373041|NCT00889603|184647809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|||||TWO_SIDED|95.0|0.75|1.08|||||LS Mean and 95% CI for change from baseline in MMSE Total to Week 8 from repeated-measures mixed model including terms for baseline MMSE and Week.|||1.08|0.75|
92373042|NCT00889603|184647809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.56|||||TWO_SIDED|95.0|1.32|1.8|||||LS Mean and 95% CI for change from baseline in MMSE Total to Week 16 from a repeated-measures mixed model including terms for baseline MMSE and Week.|||1.80|1.32|
92373043|NCT00889603|184647809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97|||||TWO_SIDED|95.0|1.69|2.25|||||LS Mean and 95% CI for change from baseline in MMSE Total to Week 24 from a repeated-measures mixed model including terms for baseline MMSE and Week.|||2.25|1.69|
92227903|NCT01162421|184358429|SUPERIORITY_OR_OTHER||Least squares (LS) Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.382||0.027|TWO_SIDED|95.0|-1.62|-0.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P= 0.05.||Month 6||-0.10|-1.62|0.027
92227904|NCT01162421|184358429|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.46|STANDARD_ERROR_OF_MEAN|0.667||0.033|TWO_SIDED|95.0|-2.79|-0.12||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P= 0.05.||Month 12||-0.12|-2.79|0.033
92373044|NCT01153711|184647818|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|168.4|STANDARD_DEVIATION|16.4||1|TWO_SIDED|90.0|155.5|182.4||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol||182.4|155.5|1.0000
92373045|NCT01153711|184647819|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|166.1|STANDARD_DEVIATION|16.8||1|TWO_SIDED|90.0|153.6|179.6||P-value for ratio outside 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol for the category Olodaterol||179.6|153.6|1.0000
92373046|NCT01153711|184647819|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|106.63|STANDARD_DEVIATION|14.7||0.0001|TWO_SIDED|90.0|100.211|113.463||P-value for ratio outside 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol for the category Olodaterol glucuronide||113.463|100.211|0.0001
92373047|NCT01153711|184647822|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|144.23|STANDARD_DEVIATION|17.8||0.9986|TWO_SIDED|90.0|133.853|155.417||P-value for ratio outside 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol for the category Olodaterol||155.417|133.853|0.9986
92373048|NCT01153711|184647822|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|132.87|STANDARD_DEVIATION|18.9||0.8991|TWO_SIDED|90.0|122.732|143.843||P-value for ratio outside 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol for the category Olodaterol glucuronide||143.843|122.732|0.8991
92373049|NCT01153711|184647823|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|100.75|STANDARD_DEVIATION|17.9||0.0001|TWO_SIDED|90.0|92.534|109.692||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol||109.692|92.534|0.0001
92373050|NCT01179217|184647841|SUPERIORITY_OR_OTHER_LEGACY||Wilcoxon rank-sum test|0.5||||0.0052|TWO_SIDED|||||"1. The primary analysis was analyzed using a CMH analysis of the number of SCCs using modified ridit scores.~2. P-value (controlling for region and HU use)~3. The null hypothesis of the final analysis was performed at the 0.045 significance level."|Cochran-Mantel-Haenszel|||||||0.0052
92373051|NCT01179217|184647842|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0045|||||||Cochran-Mantel-Haenszel|||||||0.0045
92227905|NCT01162421|184358429|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.22|STANDARD_ERROR_OF_MEAN|1.403||0.12|TWO_SIDED|95.0|-5.05|0.6||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and baseline value as the covariate.|ANCOVA|||Month 24||0.60|-5.05|0.120
92373052|NCT01179217|184647843|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0888|||||||Cochran-Mantel-Haenszel|||||||0.0888
92373053|NCT02152371|184647873|SUPERIORITY_OR_OTHER_LEGACY||LS Means Diff|-0.77|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.97|-0.56|||Mixed Model for Repeated Measures (MMRM)|||||-0.56|-0.97|<.001
92373054|NCT02152371|184647874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-16.73|STANDARD_ERROR_OF_MEAN|4.72|<|0.001|TWO_SIDED|95.0|-26.02|-7.44|||Mixed Models Analysis|||||-7.44|-26.02|<.001
92373055|NCT02152371|184647875|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-8.06|STANDARD_ERROR_OF_MEAN|2.95||0.007|TWO_SIDED|95.0|-13.87|-2.25|||Mixed Models Analysis|||Pre-Morning Meal||-2.25|-13.87|.007
92373056|NCT02152371|184647875|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-17.18|STANDARD_ERROR_OF_MEAN|4.45|<|0.001|TWO_SIDED|95.0|-25.96|-8.4|||Mixed Models Analysis|||Morning Meal 2-Hour Postprandial||-8.40|-25.96|<.001
92373057|NCT02152371|184647875|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-15.55|STANDARD_ERROR_OF_MEAN|4.08|<|0.001|TWO_SIDED|95.0|-23.58|-7.52|||Mixed Models Analysis|||Pre-Midday Meal||-7.52|-23.58|<.001
92373058|NCT02152371|184647875|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-18.15|STANDARD_ERROR_OF_MEAN|4.58|<|0.001|TWO_SIDED|95.0|-27.18|-9.12|||Mixed Models Analysis|||Midday Meal 2-Hour Postprandial||-9.12|-27.18|<.001
92373059|NCT02152371|184647875|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-14.96|STANDARD_ERROR_OF_MEAN|4.55||0.001|TWO_SIDED|95.0|-23.93|-5.99|||Mixed Models Analysis|||Pre-Evening Meal||-5.99|-23.93|.001
92373060|NCT02152371|184647875|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-21.28|STANDARD_ERROR_OF_MEAN|5.68|<|0.001|TWO_SIDED|95.0|-32.46|-10.1|||Mixed Models Analysis|||Evening Meal 2-Hour Postprandial||-10.10|-32.46|<.001
92373061|NCT02152371|184647875|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-19.48|STANDARD_ERROR_OF_MEAN|4.72|<|0.001|TWO_SIDED|95.0|-28.77|-10.18|||Mixed Models Analysis|||3:00AM (Morning)||-10.18|-28.77|<.001
92373062|NCT02152371|184647876|SUPERIORITY_OR_OTHER_LEGACY||LS Means Difference|-2.41|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-3.19|-1.64|||Mixed Models Analysis|||||-1.64|-3.19|<.001
92373063|NCT02152371|184647877|SUPERIORITY_OR_OTHER_LEGACY||LS Means Diff|-13.19|STANDARD_ERROR_OF_MEAN|3.21|<|0.001|TWO_SIDED|95.0|-19.55|-6.84|||MMRM|||||-6.84|-19.55|<.001
92373064|NCT02152371|184647884|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.66|||<|0.001|TWO_SIDED|95.0|3.7|12.0|||Regression, Logistic|||||12.00|3.70|<.001
92373065|NCT02152371|184647884|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio, log|5.71|||<|0.001|TWO_SIDED|95.0|3.35|9.73|||Regression, Logistic|||||9.73|3.35|<.001
92373066|NCT02152371|184647885|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.17|||<|0.001|TWO_SIDED|95.0|2.32|7.47|||Regression, Logistic|||||7.47|2.32|<.001
92373067|NCT02152371|184647886|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.61|||<|0.001|TWO_SIDED|95.0|2.09|6.23|||Regression, Logistic|||||6.23|2.09|<.001
92373068|NCT02152371|184647887|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.6|||<|0.001|TWO_SIDED|95.0|3.26|9.62|||Regression, Logistic|||||9.62|3.26|<.001
92373069|NCT00349921|184647900|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||Null hypothesis is that there is no difference between the groups in proportion of patients meeting the success criterion of \>30% reduction in visual analog scale pain 120 min after intrathecal injection||||>0.05
92408343|NCT01600170|184705918|SUPERIORITY|||||||0.15||||||The threshold of statistical significance was p=0.01|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Primary outcomes were pre-specified to use p\<0.01 for statistical significance. All other analyses used p\<0.05 after adjustment for multiple comparisons.||||0.15
92227906|NCT01162421|184358430|SUPERIORITY_OR_OTHER||Difference in percentage|-11.7||||0.095|TWO_SIDED|95.0|-27.0|1.6||P-value is based on two sided Fisher's exact test.|Fisher Exact||Confidence interval is based on Wilson confidence limits.|||1.6|-27.0|0.095
92227907|NCT01162421|184358431|SUPERIORITY_OR_OTHER||Difference in percentage|12.1||||0.281|TWO_SIDED|95.0|-9.79|33.97|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||33.97|-9.79|0.281
92227908|NCT01162421|184358431|SUPERIORITY_OR_OTHER||Difference in percentage|27.0||||0.021|TWO_SIDED|95.0|4.98|48.93||The a priori threshold for statistical significance is P=0.05.|Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||48.93|4.98|0.021
92373070|NCT05285644|184647904|OTHER|Difference (2-sided)|Difference in Percentages|34.4|||<|0.0001|TWO_SIDED|95.0|26.9|42.0||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|42.0|26.9|<0.0001
92373071|NCT05285644|184647905|OTHER|Difference (2-sided)|Least Squares Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|2.06||0.0138|TWO_SIDED|95.0|-9.1|-1.0||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center.|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||-1.0|-9.1|0.0138
92373072|NCT05285644|184647906|OTHER|Difference (2-sided)|Least Squares Mean Difference|7.2|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|95.0|5.8|8.6||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|8.6|5.8|<0.0001
92373073|NCT05285644|184647907|OTHER|Difference (2-sided)|Difference in Percentages|26.7|||<|0.0001|TWO_SIDED|95.0|19.5|34.0||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|34.0|19.5|<0.0001
92373074|NCT05285644|184647908|OTHER|Difference (2-sided)|Least Squares Mean Difference|6.2|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED|95.0|4.9|7.5||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||7.5|4.9|<0.0001
92408344|NCT01600170|184705919|SUPERIORITY|||||||0.63||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Secondary outcome analyses used p\<0.05 for statistical significance after adjustment for multiple comparisons.||||0.63
92408345|NCT01600170|184705920|SUPERIORITY|||||||0.035||||||Threshold for statistical significance was p = 0.05|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Secondary outcome analyses used p\<0.05 for statistical significance after adjustment for multiple comparisons.||||0.035
92408346|NCT01600170|184705921|SUPERIORITY|||||||0.62||||||The threshold of statistical significance was p = 0.05|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Secondary outcome analyses used p\<0.05 for statistical significance after adjustment for multiple comparisons.||||0.62
92408347|NCT01600170|184705922|SUPERIORITY|||||||0.99||||||The threshold of statistical significance was p = 0.05|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Secondary outcome analyses used p\<0.05 for statistical significance after adjustment for multiple comparisons.||||0.99
92408348|NCT02970162|184705932|SUPERIORITY|||||||0.0004||||||LS means|Least square means|Fixed effects treatment and QMG at Baseline. Between-treatment difference in LS means (95% CI) -6.54 (-9.78, -3.29).||||||0.0004
92408349|NCT02970162|184705933|SUPERIORITY||LS means|2.95||||0.0003|TWO_SIDED|95.0|1.53|4.38||CFB for SGI score was modeled as the response, with fixed effects terms for treatment and SGI at Baseline|Fixed effects linear model|This statistical test applies to the change from baseline SGI scores to Day 4 values row.||||4.38|1.53|0.0003
92408350|NCT02970162|184705934|SUPERIORITY|||||||0.002|||||||Wilcoxon Rank Sum Test|||||||0.0020
92408351|NCT02970162|184705935|SUPERIORITY|||||||0.0112|||||||Fisher Exact|||||||0.0112
92408352|NCT00750438|184705950|SUPERIORITY|||||||0.972|||||||Regression, Linear|||||||0.972
92408353|NCT00750438|184705951|SUPERIORITY|||||||0.559|||||||t-test, 2 sided|||Baseline and 24 weeks||||0.559
92227909|NCT01162421|184358431|SUPERIORITY_OR_OTHER||Difference in percentage|6.7||||0.552|TWO_SIDED|95.0|-15.29|28.63|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||28.63|-15.29|0.552
92227910|NCT01162421|184358431|SUPERIORITY_OR_OTHER||Difference in percentage|-12.2||||0.281|TWO_SIDED|95.0|-34.04|9.72|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||9.72|-34.04|0.281
92408354|NCT00750438|184705951|SUPERIORITY|||||||0.062|||||||t-test, 2 sided|||Baseline to 24 weeks||||0.062
92408355|NCT00750438|184705951|SUPERIORITY|||||||0.099|||||||Regression, Linear|||||||0.099
92408356|NCT00750438|184705952|SUPERIORITY|||||||0.036|||||||Regression, Linear|||||||0.036
92408357|NCT00750438|184705953|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Baseline to 24 weeks||||0.001
92408358|NCT00750438|184705953|SUPERIORITY|||||||0.723|||||||t-test, 2 sided|||Baseline to 24 weeks||||0.723
92408359|NCT00750438|184705953|SUPERIORITY|||||||0.027|||||||Regression, Linear|||||||0.027
92408360|NCT00750438|184705954|SUPERIORITY|||||||0.372|||||||t-test, 2 sided|||||||0.372
92408361|NCT00750438|184705954|SUPERIORITY|||||||0.644|||||||t-test, 2 sided|||||||0.644
92408362|NCT00750438|184705954|SUPERIORITY|||||||0.549|||||||Regression, Linear|||||||0.549
92408363|NCT03848728|184705955|SUPERIORITY||Risk Ratio (RR)|1.1||||0.0019|TWO_SIDED|95.0|1.03|1.16|||TMLE|||||1.16|1.03|0.0019
92408364|NCT01322945|184706000|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||||||0.001
92408365|NCT00905164|184706030|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS mean (test/ref x 100)|99.5|||||TWO_SIDED|90.0|94.27|105.03|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125|||105.03|94.27|
92408366|NCT00905164|184706031|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS mean (test/ref x 100)|100.13||||||90.0|97.6|102.72|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.72|97.60|
92408367|NCT00905164|184706032|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (test/ref x 100)|101.53||||||90.0|99.01|104.12|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.12|99.01|
92408368|NCT05475483|184706041|OTHER||Mean Difference (Final Values)|-1.27|||=|0.045|TWO_SIDED|95.0|-2.51|-0.03|||Mixed Models Analysis|||||-0.03|-2.51|= 0.045
92408369|NCT05475483|184706042|OTHER||Odds Ratio (OR)|2.22|||=|0.078|TWO_SIDED|95.0|0.91|5.37|||Regression, Logistic|||||5.37|0.91|= 0.078
92408370|NCT05475483|184706043|OTHER||Odds Ratio (OR)|1.95||||0.143|TWO_SIDED|95.0|0.8|4.76|||Regression, Logistic|||||4.76|0.80|0.143
92408371|NCT05475483|184706044|OTHER||Mean Difference (Final Values)|-1.78|||=|0.032|TWO_SIDED|95.0|-3.4|-0.16|||Mixed Models Analysis|||||-0.16|-3.40|= 0.032
92373075|NCT05285644|184647909|OTHER|Difference (2 sided)|Difference in Percentages|33.1|||<|0.0001|TWO_SIDED|95.0|24.8|41.4||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|41.4|24.8|<0.0001
92373076|NCT05285644|184647910|OTHER|Difference (2-sided)|Least Squares Mean Difference|7.5|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001|TWO_SIDED|95.0|6.0|9.0||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||9.0|6.0|<0.0001
92373077|NCT05285644|184647911|OTHER|Difference (2-sided)|Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|2.28||0.2184|TWO_SIDED|95.0|-7.3|1.7||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||1.7|-7.3|0.2184
92373078|NCT05285644|184647912|OTHER|Difference (2-sided)|Least Squares Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|2.43||0.266|TWO_SIDED|94.0|-7.5|2.1||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||2.1|-7.5|0.2660
92373079|NCT05285644|184647913|OTHER|Difference (2-sided)|Least Squares Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|2.37||0.2741|TWO_SIDED|95.0|-7.2|2.0||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||2.0|-7.2|0.2741
92373080|NCT05285644|184647914|OTHER|Difference (2-sided)|Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.43||0.159|TWO_SIDED|95.0|-8.2|1.3||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||1.3|-8.2|0.1590
92408372|NCT01193257|184706045|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.875||||0.12085|TWO_SIDED|95.0|0.739|1.036|||Log Rank|||Hazard ratio is based on a stratified Cox's proportional hazard regression model with stratification factors region (North America, Europe and Rest of World) and brief pain inventory-short form (BPI-SF) worst pain score at screening (\[less than or equal to\] \<=4, greater than \[\>\] 4) with treatment as a factor in the model. A hazard ratio less than 1 for the treatment indicates better prevention of the death in the Orteronel arm as compared to placebo arm.||1.036|0.739|0.12085
92408373|NCT01193257|184706046|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.00038|TWO_SIDED|95.0|0.653|0.885|||Log Rank|||Hazard ratio is based on a stratified Cox's proportional hazard regression model with stratification factors region (North America, Europe and Rest of World) and brief pain inventory-short form (BPI-SF) worst pain score at screening (\<=4, \>4) with treatment as a factor in the model. A hazard ratio less than 1 for the treatment indicates better prevention of the death in the Orteronel arm as compared to placebo arm.||0.885|0.653|0.00038
92408374|NCT01193257|184706047|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Regression, Logistic|||P-values test for odds ratio equal to 1.||||< 0.0001
92373081|NCT05285644|184647915|OTHER|Difference (2-sided)|Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|2.67||0.1369|TWO_SIDED|95.0|-9.2|1.3||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||1.3|-9.2|0.1369
92373082|NCT04114071|184647921|EQUIVALENCE|An independent sample t tests was used to examine the difference score for each of the four outcome measures of interest (steps, WC, weight, and HbA1c) between intervention and control groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92373083|NCT01448824|184647923|NON_INFERIORITY_OR_EQUIVALENCE|Up to 12 participants were enrolled in order for 8 to complete the study. The estimated variability in area under the concentration-time curve (AUC) was 20% coefficient of variation following a single dose of 100 mg LY2484595. Assuming that 70% of the total variability is contributed by intra-participant variability, a sample size of 8 participants provides a precision of \~15% for the geometric means ratio in AUC and Cmax of LY2484595 + ketoconazole to LY2484595 alone in log scale.|Ratio of Geometric LS Means|1.94|||||TWO_SIDED|90.0|1.39|2.72||||||||2.72|1.39|
92373084|NCT01448824|184647924|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1|TWO_SIDED|90.0|-0.5|0.5|||Wilcoxon signed rank|||||0.50|-0.50|1.0000
92373085|NCT01448824|184647925|NON_INFERIORITY_OR_EQUIVALENCE|Up to 12 participants were enrolled in order for 8 to complete the study. The estimated variability in area under the concentration-time curve (AUC) was 20% coefficient of variation following a single dose of 100 mg LY2484595. Assuming that 70% of the total variability is contributed by intra-participant variability, a sample size of 8 participants provides a precision of \~15% for the geometric means ratio in AUC and Cmax of LY2484595 + ketoconazole to LY2484595 alone in log scale.|Ratio of Geometric LS means|2.37|||||TWO_SIDED|90.0|1.77|3.18||||||||3.18|1.77|
92373086|NCT01981863|184647937|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.21
92373087|NCT02383420|184647951|SUPERIORITY_OR_OTHER|||||||0.415|TWO_SIDED|||||Level of significance (alpha) = 0.05|t-test, 2 sided|||||||0.415
92373088|NCT02383420|184647952|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||Level of significance (alpha) = 0.05|t-test, 1 sided|||||||0.0000
92373089|NCT02526524|184647953|SUPERIORITY||LS Mean|-0.27|STANDARD_ERROR_OF_MEAN|0.184||0.1449|TWO_SIDED|95.0|-0.63|0.09|||Mixed Models Analysis|Included treatment, visit, and treatment-by-visit interaction as fixed effects, and HbA1c value at Baseline as a covariate.||||0.09|-0.63|0.1449
92373090|NCT02526524|184647953|SUPERIORITY||LS Mean|-0.33|STANDARD_ERROR_OF_MEAN|0.18||0.0643|TWO_SIDED|95.0|-0.69|0.02|||Mixed Models Analysis|Included treatment, visit, and treatment-by-visit interaction as fixed effects, and HbA1c value at Baseline as a covariate.||||0.02|-0.69|0.0643
92373091|NCT02526524|184647953|SUPERIORITY||LS Means|-0.42|STANDARD_ERROR_OF_MEAN|0.184||0.0214|TWO_SIDED|95.0|-0.79|-0.06|||Mixed Models Analysis|Included treatment, visit, and treatment-by-visit interaction as fixed effects, and HbA1c value at Baseline as a covariate.||||-0.06|-0.79|0.0214
92373092|NCT02526524|184647953|SUPERIORITY||LS Mean|-0.55|STANDARD_ERROR_OF_MEAN|0.18||0.0022|TWO_SIDED|95.0|-0.91|-0.2|||Mixed Models Analysis|Included treatment, visit, and treatment-by-visit interaction as fixed effects, and HbA1c value at Baseline as a covariate.||||-0.20|-0.91|0.0022
92373093|NCT02526524|184647953|SUPERIORITY||LS Mean|-1.03|STANDARD_ERROR_OF_MEAN|0.184|<|0.0001|TWO_SIDED|95.0|-1.39|-0.67|||Mixed Models Analysis|Included treatment, visit, and treatment-by-visit interaction as fixed effects, and HbA1c value at Baseline as a covariate.||||-0.67|-1.39|<0.0001
92373094|NCT03002818|184647954|SUPERIORITY||mean change|-108266.0||||0.091|TWO_SIDED|95.0|-235037.0|18504.0|||one-sample t-test|||sdITT (n=26): Change at Day 168 minus Baseline||18504|-235037|0.091
92373095|NCT03002818|184647954|SUPERIORITY||mean change|-98373.0||||0.152|TWO_SIDED|95.0|-235667.0|38921.0|||one-sample t-test|||mITT (n=24): Change at Day 168 minus Baseline||38921|-235667|0.152
92373096|NCT03002818|184647954|SUPERIORITY|||||||0.091|||||||paired t-test|||sdITT (n=26): Baseline vs. Day 168||||0.091
92373097|NCT03002818|184647954|SUPERIORITY|||||||0.152|||||||paired t-test|||mITT (n=24): Baseline vs. Day 168||||0.152
92373098|NCT03002818|184647955|SUPERIORITY|||||||0.461|||||||paired t-test|||sdITT (n=34): Baseline vs. Day 28||||0.461
92373099|NCT03002818|184647955|SUPERIORITY|||||||0.63|||||||paired t-test|||mITT (n=24): Baseline vs. Day 28||||0.630
92373100|NCT03002818|184647955|SUPERIORITY|||||||0.855|||||||paired t-test|||sdITT (n=32): Baseline vs. Day 84||||0.855
92373101|NCT03002818|184647955|SUPERIORITY|||||||0.75|||||||paired t-test|||mITT (n=24): Baseline vs. Day 84||||0.750
92373102|NCT03002818|184647956|SUPERIORITY||mean change|2.6|||||TWO_SIDED|95.0|2.063|3.137||||||sdITT: mean change Baseline minus Day 168||3.137|2.063|
92373103|NCT03002818|184647956|SUPERIORITY||mean change|2.82|||||TWO_SIDED|95.0|2.212|3.428||||||mITT: mean change Baseline minus Day 168||3.428|2.212|
92373104|NCT03002818|184647956|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||sdITT (n=37): Baseline vs. Day 168||||<0.001
92373105|NCT03002818|184647956|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||mITT (n=24): Baseline vs. Day 168||||<0.001
92373106|NCT03002818|184647956|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||sdITT (n=35): Baseline vs. Day 28||||<0.001
92373107|NCT03002818|184647956|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||mITT (n=22): Baseline vs. Day 28||||<0.001
92373108|NCT03002818|184647956|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||sdITT (n=36): Baseline vs. Day 84||||<0.001
92373109|NCT03002818|184647956|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||mITT (n=23): Baseline vs. Day 84||||<0.001
92373110|NCT03002818|184647957|SUPERIORITY||mean change|0.61|||||TWO_SIDED|95.0|-0.651|1.871||||||sdITT: mean change Baseline minus Day 168||1.871|-0.651|
92227911|NCT01162421|184358431|SUPERIORITY_OR_OTHER||Difference in percentage|-14.4||||0.209|TWO_SIDED|95.0|-36.64|7.78|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||7.78|-36.64|0.209
92227912|NCT01162421|184358431|SUPERIORITY_OR_OTHER||Difference in percentage|-19.6||||0.091|TWO_SIDED|95.0|-41.74|2.62|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||2.62|-41.74|0.091
92373111|NCT03002818|184647957|SUPERIORITY||mean change|0.74|||||TWO_SIDED|95.0|-0.608|2.088||||||mITT: mean change Baseline minus Day 168||2.088|-0.608|
92373112|NCT03002818|184647957|SUPERIORITY|||||||0.381|||||||Paired Wilcoxon Test|||sdITT (n=37): Baseline vs. Day 168||||0.381
92373113|NCT03002818|184647957|SUPERIORITY|||||||0.304|||||||Paired Wilcoxon Test|||mITT (n=24): Baseline vs. Day 168||||0.304
92373114|NCT03002818|184647957|SUPERIORITY|||||||0.014|||||||Paired Wilcoxon Test|||sdITT (n=35): Baseline vs. Day 28||||0.014
92373115|NCT03002818|184647957|SUPERIORITY|||||||0.278|||||||Paired Wilcoxon Test|||mITT (n=22): Baseline vs. Day 28||||0.278
92373116|NCT03002818|184647957|SUPERIORITY|||||||0.881|||||||Paired Wilcoxon Test|||sdITT (n=36): Baseline vs. Day 84||||0.881
92373117|NCT03002818|184647957|SUPERIORITY|||||||0.775|||||||Paired Wilcoxon Test|||sdITT (n=23): Baseline vs. Day 84||||0.775
92373118|NCT00473668|184647978|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if upper limit (UL) of the two-sided 95% confidence interval (CI) for the differences between the two groups in terms of anti-PRP seroprotection (SPR) rates was below (\<) 10%.|Difference in anti-PRP SPR rate|-1.18|||||TWO_SIDED|95.0|-6.39|2.84||||||Demonstration of the non-inferiority of Tritanrix™-HepB/Hiberix™ Kft. vaccine compared to Tritanrix™-HepB/Hiberix™ vaccine with respect to the anti-PRP antibody response, after a three-dose primary vaccination course.||2.84|-6.39|
92373119|NCT00473668|184647978|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if upper limit (UL) of the two-sided 95% confidence interval (CI) for the differences between the two groups in terms of anti-PRP seroprotection (SPR) rates was below (\<) 10%.|Difference in anti-PRP SPR rate|0.0|||||TWO_SIDED|95.0|-4.16|3.99||||||Demonstration of the non-inferiority of Tritanrix™-HepB/Hiberix™ Kft. vaccine compared to Tritanrix™-HepB/Hiberix™ vaccine with respect to the anti-PRP antibody response, after a three-dose primary vaccination course.||3.99|-4.16|
92373120|NCT02039219|184647993|SUPERIORITY|The type of statistical test is superiority.|Mean Difference (Net)|1.5|STANDARD_DEVIATION|2.4||0.1758|TWO_SIDED|95.0|||||t-test, 2 sided||Two-sample t-test compared MELD score between OCA and placebo arms at baseline OCA arms had a mean (SD) of 14.9(2.4), Placebo arms had a mean (SD) of 16.4 (2.2).|Baseline||||0.1758
92373121|NCT02039219|184647993|SUPERIORITY|The type of statistical test is superiority.|Mean Difference (Net)|2.4|STANDARD_DEVIATION|6.8||0.3839|TWO_SIDED|95.0|||||t-test, 2 sided||Two-sample t-test compared MELD score between OCA and placebo arms at day 42 OCA arms had a mean (SD) of 11.5 (6.8), Placebo arms had a mean (SD) of 13.9(4.6).|Day 42||||0.3839
92373122|NCT02039219|184648001|SUPERIORITY|The type of statistical test is superiority.|Survival Anaylsis|0.0||||0.3938|ONE_SIDED||||||Log Rank|||Day 42||||.3938
92373123|NCT02039219|184648001|SUPERIORITY|The type of statistical test is superiority.|Survival Anaylsis|0.0||||0.3938|TWO_SIDED||||||Log Rank|||Day 90||||.3938
92373124|NCT02039219|184648001|SUPERIORITY|The type of statistical test is superiority.|Survival Anaylsis|0.0||||0.3938|TWO_SIDED||||||Log Rank|||Day 180||||.3938
92373125|NCT02039219|184648001|SUPERIORITY|The type of statistical test is superiority.|Survival Analysis|0.09||||0.3938|TWO_SIDED||||||Log Rank|||Day 42||||.3938
92227913|NCT01162421|184358432|SUPERIORITY_OR_OTHER||Difference in percentage|15.6||||0.148|TWO_SIDED|95.0|-5.05|36.26|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||36.26|-5.05|0.148
92373126|NCT02039219|184648001|SUPERIORITY|The type of statistical test is superiority.|Survival Analysis|0.09||||0.3938|TWO_SIDED||||||Log Rank|||Day 90||||.3938
92373127|NCT02039219|184648001|SUPERIORITY|The type of statistical test is superiority.|Survival Analysis|0.09||||0.3938|TWO_SIDED||||||Log Rank|||Day 180||||.3938
92373128|NCT02039219|184648005|SUPERIORITY|The type of statistical test is superiority.|Mean Difference (Final Values)|0.4|STANDARD_DEVIATION|2.5||0.8094|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.8094
92373129|NCT02226562|184648025|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.0001|TWO_SIDED|95.0|-1.28|-0.92||The P-value was less than 0.0001|ANCOVA|ANCOVA with a factor for treatment and baseline as covariate||||-0.92|-1.28|0.0001
92373130|NCT01466660|184648047|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.822||||0.0891|TWO_SIDED|95.0|0.655|1.032||p-value was not adjusted for multiple comparisons|Log Rank|Stratified by Epidermal Growth Factor Receptor (EGFR) mutation group and presence of brain metastases at baseline|A Cox proportional hazards model, stratified by EGFR mutation group and presence of baseline brain metastases was used to estimate the hazard ratio calculated as Afatinib divided by Gefitinib.|Exploratory trial, no formal hypotheses were tested.||1.032|0.655|0.0891
92373131|NCT01466660|184648048|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.0136|TWO_SIDED|95.0|0.595|0.944||p-value was not adjusted for multiple comparisons|Log Rank|Stratified by EGFR mutation group and presence of brain metastases at baseline|Ratio calculated as Afatinib divided by Gefitinib|Exploratory trial, no formal hypotheses were tested.||0.944|0.595|0.0136
92373132|NCT01466660|184648049|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.862||||0.2343|TWO_SIDED|95.0|0.674|1.101||p-value was not adjusted for multiple comparisons|Log Rank|Stratified by EGFR mutation group and presence of brain metastases at baseline|A Cox proportional hazards model, stratified by EGFR mutation group and presence of baseline brain metastases was used to estimate the hazard ratio calculated as Afatinib divided by Gefitinib.|Exploratory trial, no formal hypotheses were tested.||1.101|0.674|0.2343
92373133|NCT01466660|184648050|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.307||||0.3235|TWO_SIDED|95.0|0.768|2.223||p-value was not adjusted for multiple comparisons|Regression, Logistic|Stratified for EGFR mutation group and presence of brain metastases at baseline|Ratio calculated as Afatinib divided by Gefitinib|Exploratory trial, no formal hypotheses were tested.||2.223|0.768|0.3235
92408375|NCT01193257|184706048|SUPERIORITY_OR_OTHER|||||||0.12778|||||||Regression, Logistic|||P-values test for odds ratio equal to 1.||||0.12778
92227914|NCT01162421|184358432|SUPERIORITY_OR_OTHER||Difference in percentage|20.7||||0.06|TWO_SIDED|95.0|-0.14|41.61|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||41.61|-0.14|0.060
92227915|NCT01162421|184358432|SUPERIORITY_OR_OTHER||Difference in percentage|8.7||||0.451|TWO_SIDED|95.0|-13.85|31.29|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||31.29|-13.85|0.451
92373134|NCT01466660|184648053|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.138||||0.7856|TWO_SIDED|95.0|0.447|2.896||p-value was not adjusted for multiple comparisons|Regression, Logistic|Stratified for EGFR mutation group and presence of brain metastases at baseline|Ratio calculated as Afatinib divided by Gefitinib|Exploratory trial, no formal hypotheses were tested.||2.896|0.447|0.7856
92227916|NCT01162421|184358432|SUPERIORITY_OR_OTHER||Difference in percentage|9.3||||0.413|TWO_SIDED|95.0|-12.82|31.43|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||31.43|-12.82|0.413
92227917|NCT01162421|184358432|SUPERIORITY_OR_OTHER||Difference in percentage|-7.3||||0.528|TWO_SIDED|95.0|-29.74|15.23|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||15.23|-29.74|0.528
92227918|NCT01162421|184358432|SUPERIORITY_OR_OTHER||Difference in percentage|-9.5||||0.399|TWO_SIDED|95.0|-31.61|12.56|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||12.56|-31.61|0.399
92227919|NCT01162421|184358433|SUPERIORITY_OR_OTHER||Difference in percentage|12.5||||0.111|TWO_SIDED|95.0|-1.7|27.06|||Fisher Exact|||Month 3||27.06|-1.70|0.111
92373135|NCT01466660|184648055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.45|STANDARD_ERROR_OF_MEAN|1.87||0.0657|TWO_SIDED|95.0|-7.13|0.23||p-value was not adjusted for multiple comparisons|ANCOVA|Adjusted for baseline sum of diameters, EGFR mutation group and presence of brain metastases at baseline|Difference calculated as Afatinib minus Gefitinib|Exploratory trial, no formal hypotheses were tested.||0.23|-7.13|0.0657
92373136|NCT01466660|184648056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.017||0.1422|TWO_SIDED|95.0|-0.06|0.01||p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Adjusted for EGFR mutation group and presence of brain metastases at baseline|Difference calculated as Afatinib minus Gefitinib|"EQ-5D UK utility score.~Exploratory trial, no formal hypotheses were tested."||0.01|-0.06|0.1422
92227920|NCT01162421|184358433|SUPERIORITY_OR_OTHER||Difference in percentage|19.6||||0.031|TWO_SIDED|95.0|2.74|36.53||The a priori threshold for statistical significance is P=0.05.|Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||36.53|2.74|0.031
92227921|NCT01162421|184358433|SUPERIORITY_OR_OTHER||Difference in percentage|2.8||||0.78|TWO_SIDED|95.0|-16.74|22.31|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||22.31|-16.74|0.780
92227922|NCT01162421|184358433|SUPERIORITY_OR_OTHER||Difference in percentage|16.5||||0.092|TWO_SIDED|95.0|-2.07|35.04|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||35.04|-2.07|0.092
92227923|NCT01162421|184358433|SUPERIORITY_OR_OTHER||Difference in percentage|10.8||||0.29|TWO_SIDED|95.0|-8.86|30.4|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||30.40|-8.86|0.290
92227924|NCT01162421|184358433|SUPERIORITY_OR_OTHER||Difference in percentage|-16.9||||0.116|TWO_SIDED|95.0|-37.86|4.01|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||4.01|-37.86|0.116
92227925|NCT01162421|184358434|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|1.18||0.004|TWO_SIDED|95.0|-5.9|-1.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.01.||Month 3||-1.2|-5.9|0.004
92227926|NCT01162421|184358434|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|-6.8|-2.3||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.001.||Month 6||-2.3|-6.8|<0.001
92227927|NCT01162421|184358434|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|1.16||0.021|TWO_SIDED|95.0|-5.1|-0.4||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 9||-0.4|-5.1|0.021
92227928|NCT01162421|184358434|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.96||0.037|TWO_SIDED|95.0|-4.0|-0.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 12||-0.1|-4.0|0.037
92227929|NCT01162421|184358434|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.58||0.702|TWO_SIDED|95.0|-3.7|2.5||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||2.5|-3.7|0.702
92227930|NCT01162421|184358434|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.15||0.644|TWO_SIDED|95.0|-2.8|1.8||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||1.8|-2.8|0.644
92227931|NCT01162421|184358435|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.89||0.039|TWO_SIDED|95.0|-3.7|-0.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 3||-0.1|-3.7|0.039
92227932|NCT01162421|184358435|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.79|<|0.001|TWO_SIDED|95.0|-5.0|-1.8||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.001.||Month 6||-1.8|-5.0|<0.001
92227933|NCT01162421|184358435|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.81||0.008|TWO_SIDED|95.0|-3.8|-0.6||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.01.||Month 9||-0.6|-3.8|0.008
92373137|NCT01466660|184648056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.016||0.054|TWO_SIDED|95.0|-0.06|0.0||p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Adjusted for EGFR mutation group and presence of brain metastases at baseline|Difference calculated as Afatinib divided by Gefitinib|"EQ-5D Belgium utility score.~Exploratory trial, no formal hypotheses were tested."||0.00|-0.06|0.0540
92227934|NCT01162421|184358435|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.71||0.028|TWO_SIDED|95.0|-3.0|-0.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 12||-0.2|-3.0|0.028
92227935|NCT01162421|184358435|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.94||0.452|TWO_SIDED|95.0|-2.6|1.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||1.2|-2.6|0.452
92227936|NCT01162421|184358435|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.77||0.343|TWO_SIDED|95.0|-2.3|0.8||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||0.8|-2.3|0.343
92227937|NCT01162421|184358436|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|2.26||0.22|TWO_SIDED|95.0|-7.3|1.7||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 3||1.7|-7.3|0.220
92227938|NCT01162421|184358436|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|1.92|<|0.001|TWO_SIDED|95.0|-11.0|-3.3||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.001.||Month 6||-3.3|-11.0|<0.001
92227939|NCT01162421|184358436|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|1.87||0.05|TWO_SIDED|95.0|-7.5|0.0||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 9||0.0|-7.5|0.050
92373138|NCT01466660|184648056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|1.21||0.2032|TWO_SIDED|95.0|-3.9|0.8||p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Adjusted for EGFR mutation group and presence of brain metastases at baseline|Difference calculated as Afatinib divided by Gefitinib|"EQ-VAS utility score.~Exploratory trial, no formal hypotheses were tested."||0.8|-3.9|0.2032
92373139|NCT03576066|184648057|OTHER|||||||0.6855|||||||Repeated measures analysis|||Least squares (LS) mean difference in HBeAg-positive participants: ABI-H0731 + SOC NUC minus placebo + SOC NUC at Week 24||||0.6855
92373140|NCT03576066|184648057|OTHER|||||||0.175|||||||Repeated measures analysis|||LS mean difference in HBeAg-negative participants: ABI-H0731 + SOC NUC minus placebo + SOC NUC at Week 24||||0.1750
92373141|NCT03576066|184648058|OTHER|||||||0.2916|||||||Repeated measures analysis|||Least squares (LS) mean difference in HBeAg-positive participants: ABI-H0731 + SOC NUC minus placebo + SOC NUC at Week 24||||0.2916
92373142|NCT00608023|184648071|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92373143|NCT00608023|184648072|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||ANCOVA|||||||>0.05
92408376|NCT00839319|184706076|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|Correlations between serum hormone levels and IT hormones, and between IT hormones were performed on 23 subjects in 4 groups using Spearmen technique.||||||<0.05
92408377|NCT00373113|184706154|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.47||||0.002|TWO_SIDED|95.0|1.156|1.869||2-sided log-rank test with the same set of stratification factors. The set of stratification factors included those used in the randomization except study sites.|Log Rank||Hazard ratio was calculated by the stratified Cox proportional hazards model.|Null hypothesis is that PFS (median=4.2 months) for sunitinib arm equals PFS for capecitabine arm. The study was designed to have 90% power to detect statistical difference in PFS between two treatment groups assuming the hazard ratio (sunitinib/capecitabine) is 0.75 and both arms follow exponential distribution.||1.869|1.156|0.002
92408378|NCT00373113|184706155|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.516|||<|0.001|TWO_SIDED|95.0|1.188|1.933||2-sided log-rank test with the same set of stratification factors that was used in the randomization except study sites.|Log Rank||Hazard ratio was calculated by the stratified Cox proportional hazards model.|||1.933|1.188|<0.001
92373144|NCT00608023|184648073|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||ANCOVA|||||||>0.05
92373145|NCT00608023|184648074|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||ANCOVA|||||||>0.05
92373146|NCT00608023|184648075|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||ANCOVA|||||||>0.05
92373147|NCT05275010|184648115|EQUIVALENCE|The null hypothesis will be rejected and bioequivalence will be concluded if the bounds of the 90% CI for the geometric mean ratio of the AUC0-62 values for pertuzumab by administration using OBDS (Arm 2) relative to the handheld syringe (Arm 1) are entirely contained within standard bioequivalence margins (0.8 to 1.25).|Geometric Mean Ratio (GMR)|1.0|||||TWO_SIDED|90.0|0.93|1.08|||||GMR of test treatment group (Arm 2: PH FDC SC using OBDS) to reference treatment group (Arm 1: PH FDC SC using handheld syringe).|||1.08|0.93|
92408379|NCT00373113|184706156|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|11.3|||||TWO_SIDED|95.0|7.6|16.1||||||||16.1|7.6|
92408380|NCT00373113|184706156|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|16.4|||||TWO_SIDED|95.0|12.0|21.6||||||||21.6|12.0|
92408381|NCT00373113|184706156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.049||||0.109|TWO_SIDED|95.0|-11.2|1.1|||Pearson Chi-Square Test|||||1.1|-11.2|0.109
92408382|NCT00373113|184706157|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.788||||0.037|TWO_SIDED|95.0|1.042|7.459|||Log Rank|||||7.459|1.042|0.037
92373148|NCT05275010|184648116|EQUIVALENCE|The null hypothesis will be rejected and bioequivalence will be concluded if the bounds of the 90% CI for the geometric mean ratio of the AUC0-62 values for trastuzumab by administration using OBDS (Arm 2) relative to the handheld syringe (Arm 1) are entirely contained within standard bioequivalence margins (0.8 to 1.25).|Geometric Mean Ratio (GMR)|1.0|||||TWO_SIDED|90.0|0.93|1.09|||||GMR of test treatment group (Arm 2: PH FDC SC using OBDS) to reference treatment group (Arm 1: PH FDC SC using handheld syringe).|||1.09|0.93|
92373149|NCT05275010|184648117|EQUIVALENCE|The null hypothesis will be rejected and bioequivalence will be concluded if the bounds of the 90% CI for the geometric mean ratio of the Cmax values for pertuzumab by administration using OBDS (Arm 2) relative to the handheld syringe (Arm 1) are entirely contained within standard bioequivalence margins (0.8 to 1.25).|Geometric Mean Ratio (GMR)|1.04|||||TWO_SIDED|90.0|0.96|1.12|||||GMR of test treatment group (Arm 2: PH FDC SC using OBDS) to reference treatment group (Arm 1: PH FDC SC using handheld syringe).|||1.12|0.96|
92373150|NCT05275010|184648118|EQUIVALENCE|The null hypothesis will be rejected and bioequivalence will be concluded if the bounds of the 90% CI for the geometric mean ratio of the Cmax values for trastuzumab by administration using OBDS (Arm 2) relative to the handheld syringe (Arm 1) are entirely contained within standard bioequivalence margins (0.8 to 1.25).|Geometric Mean Ratio (GMR)|1.04|||||TWO_SIDED|90.0|0.95|1.13|||||GMR of test treatment group (Arm 2: PH FDC SC using OBDS) to reference treatment group (Arm 1: PH FDC SC using handheld syringe).|||1.13|0.95|
92373151|NCT00967694|184648188|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Mixed Models Analysis|||A linear mixed effects model was used to assess change in IOP over time using time-points as the primary independent variable with significance set at p \< 0.05. Power calculations showed that 20 subjects would allow detection of a 2.8-mmHg difference in IOP between any two time-points with 80% power assuming a standard deviation of 3.5 mmHg for IOP and a correlation between two time- points of 0.25||||>0.05
92408383|NCT00373113|184706159|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.202||||0.219|TWO_SIDED|95.0|0.896|1.611||2-sided log-rank test with the same set of stratification factors that were used in the randomization except study sites.|Log Rank|||||1.611|0.896|0.219
92408384|NCT01499277|184706175|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the observed difference in the primary outcome measures (clinical cure rates) between ceftaroline group and vancomycin plus aztreonam group were calculated in both MITT and CE Populations at the TOC visit. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10% in both MITT and CE Populations.|Risk Difference (RD)|-0.95|||||TWO_SIDED|95.0|-6.9|5.41||||RD is the difference in clinical cure rates (Ceftaroline minus Vancomycin/Aztreonam). CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|The primary objective of this study was to determine the noninferiority in the clinical cure rate for ceftaroline compared vancomycin plus azreonam group at TOC in both MITT and CE populations.||5.41|-6.9|
92408385|NCT01499277|184706176|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the observed difference in the primary outcome measures (clinical cure rates) between ceftaroline group and vancomycin plus aztreonam group were calculated in both MITT and CE Populations at the TOC visit. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10% in both MITT and CE Populations. If non-inferioirity was achieved then a test of superioirty was conducted if lower limit of 95% CI for the difference was \>0%.|Risk Difference (RD)|1.27|||||TWO_SIDED|95.0|-4.32|7.48||||RD is the difference in clinical cure rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|The primary objective of this study was to determine the noninferiority in the clinical cure rate for ceftaroline compared vancomycin plus azreonam group at TOC in both MITT and CE populations.||7.48|-4.32|
92280392|NCT04543136|184463469|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.802|TWO_SIDED|95.0|-0.51|0.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.40|-0.51|0.802
92373152|NCT00245050|184648189|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07|||<|0.05|TWO_SIDED|95.0|0.536|2.16|||Chi-squared|||Based on published literature, it is estimated that the incidence of HFS for all grades is 49%. A decrease of 50% or more in the incidence of HFS in patients receiving pyridoxine would be of clinical significance. A sample size of 27 patients per group was chosen as this would allow us to detect a difference between HFS incidence of 49% and 11.5% (alpha=0.05, two-sided, power=0.80). Interim analysis was conducted after 30 patients were enrolled and had evaluable HFS assessment data.||2.16|0.536|<0.05
92373153|NCT00245050|184648190|SUPERIORITY_OR_OTHER|||||||0.916||95.0|||||t-test, 2 sided|||||||0.916
92373154|NCT02301546|184648200|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
92373155|NCT00729677|184648205|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||.05
92373156|NCT01005316|184648248|SUPERIORITY_OR_OTHER|||||||0.258|||||||Fisher Exact|||The p-value compares Cohort A: Non-Sensitized with Cohort B: Sensitized, Crossmatch Positive.||||0.2580
92373157|NCT03272828|184648274|SUPERIORITY|||||||0.63|||||||Fisher Exact|||||||0.63
92373158|NCT03272828|184648275|SUPERIORITY|||||||0.06|||||||Unequal-variance 2-sample t-test|||||||0.06
92373159|NCT03272828|184648276|SUPERIORITY|||||||0.45|||||||Unequal-variance 2-sample t-test|||||||0.45
92373160|NCT03888235|184648278|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||The null hypothesis assumes that after one month, there is no difference in Oswestry low back pain and disability score improvement between the three treatment groups.||||0.003
92373161|NCT03888235|184648278|SUPERIORITY|||||||0.001||||||SI Exercise versus usual care. Bonferroni alpha correction p\< 0.0167|Wilcoxon (Mann-Whitney)|||||||0.001
92373162|NCT03888235|184648278|SUPERIORITY|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: there is no difference in Oswestry low back pain and disability score between those using a pelvic support belt and those using usual treatment||||0.314
92373163|NCT03888235|184648279|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||Oswestry low back pain and disability (ODI) score change over two months for all participants. This compares the score at initial visit and the score 2 months later after all participants have been using the corrective exercise and sacroiliac stabilization belt for one month. =(ODI time 0 - ODI 2 months). The greater the difference, the better the recovery of back function.||||< 0.001
92373164|NCT03888235|184648280|SUPERIORITY|||||||0.17|||||||Kruskal-Wallis|||The null hypothesis assumes that after one month, there is no difference in brief pain inventory score improvement between the three treatment groups.||||0.17
92373165|NCT03888235|184648280|SUPERIORITY|||||||0.089||||||Bonferroni alpha correction of p\<0.0167.|Wilcoxon (Mann-Whitney)|||The brief pain inventory score at the one month visit, is used to compare the pain levels of those having done one month of corrective exercises to those who continued with conventional treatments for their low back pain.||||0.089
92373166|NCT03888235|184648280|SUPERIORITY|||||||0.092|||||||Wilcoxon (Mann-Whitney)|||The brief pain inventory score is used to compare those using a pelvic support belt for one month and those with delayed treatment||||0.092
92373167|NCT03888235|184648281|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||All participants are assessed as a single group as they receive the same two treatments for one month. Brief pain inventory (BPI) score change over two months for all participants. This compares BPI score at baseline visit and BPI score 2 months later, after all participants have been using the corrective exercise and sacroiliac stabilization belt for one month. The score is between 0 and 10. The higher the change in score the greater the pain relief.||||< 0.001
92408386|NCT01499277|184706177|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.71|||||TWO_SIDED|95.0|-6.21|10.39||||RD is the difference in favorable rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||10.39|-6.21|
92373168|NCT03888235|184648282|SUPERIORITY|||||||0.016||||||The Bonferroni alpha correction is used p\<0.0167|Kruskal-Wallis|||The null hypothesis assumes there is no improvement after one month in posterior superior iliac spine levels (PSISL) measured using the sacroiliac forward flexion test (SIFFT) between the three treatment groups.||||0.016
92373169|NCT03888235|184648282|SUPERIORITY|||||||0.009||||||The Bonferroni alpha correction is used p\<0.0167|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the distance between the posterior sacroiliac spine levels (PSISL) between those who use their usual low back pain treatments and those who are given the corrective exercises (SIFFTE) and use them as needed for one month.||||0.009
92373170|NCT03888235|184648282|SUPERIORITY|||||||0.034||||||Bonferroni correction p\< 0.0167|Wilcoxon (Mann-Whitney)|||The null hypothesis is that that using a pelvic support belt will not help correct sacroiliac joint asymmetry as measured using the distance between the posterior superior iliac spine levels (PSISL), baseline and one month later better than conventional treatment for low back pain.||||0.034
92373171|NCT03888235|184648283|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Since all participants have received the same 2 treatment for one month, we will treat them as a single group. We will measure the distance between their posterior superior iliac spine levels (PSISL) when they enter the study and two months later after they have used the corrective exercise and the sacroiliac belt for one month. Corona prevented some participants from returning for examination, which this test requires. Only 11 participants were present in each group: 33 participants tested.||||< 0.0001
92373172|NCT03888235|184648283|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||< 0.001
92373173|NCT03888235|184648284|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||the null hypothesis is that all participants were as satisfied with the physiotherapy as they were with using the corrective exercises and the pelvic stabilization belt||||<0.00001
92373174|NCT03888235|184648285|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||the null hypothesis is that all participants were as satisfied with the acupuncture as they were with using the corrective exercises and the pelvic stabilization belt||||<0.00001
92373175|NCT03888235|184648286|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||The null hypothesis is that all participants were as satisfied with the yoga exercises as they were with using the corrective exercises and the pelvic stabilization belt||||<0.00001
92408387|NCT01499277|184706178|SUPERIORITY_OR_OTHER||Risk Difference (RD)|4.77|||||TWO_SIDED|95.0|-2.11|12.86||||RD is the difference in favorable rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||12.86|-2.11|
92408388|NCT01499277|184706179|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.25|||||TWO_SIDED|95.0|-4.05|7.06||||RD is the difference in cure rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||7.06|-4.05|
92408389|NCT01499277|184706180|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.92|||||TWO_SIDED|95.0|-2.19|8.73||||RD is the difference in cure rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||8.73|-2.19|
92408390|NCT01499277|184706181|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.79|||||TWO_SIDED|95.0|-3.98|1.18||||RD is the difference in relapse rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||1.18|-3.98|
92227940|NCT01162421|184358436|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.95||0.725|TWO_SIDED|95.0|-4.6|3.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 12||3.2|-4.6|0.725
92227941|NCT01162421|184358436|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.31||0.837|TWO_SIDED|95.0|-5.1|4.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||4.1|-5.1|0.837
92373176|NCT03888235|184648287|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||the null hypothesis is that all participants were as satisfied with the core exercises as they were with using the corrective exercise and the pelvic stabilization belt||||<0.00001
92373177|NCT03888235|184648288|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||the null hypothesis is that all participants were as satisfied with treatments by a chiropractor as they were with using the corrective exercise and the pelvic stabilization belt||||<0.00001
92373178|NCT03888235|184648289|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||The null hypothesis is that all participants were as satisfied with massage therapy as they were with using the corrective exercise and the pelvic stabilization belt.||||<0.00001
92373179|NCT01178944|184648325|OTHER||Mean Difference (Final Values)|1.08||||0.585|TWO_SIDED|95.0|0.78|1.38|||t-test, 2 sided|||Comparison is CR+PR vs stable disease/progression||1.38|0.78|0.585
92373180|NCT03703817|184648349|SUPERIORITY|Effectiveness: Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.3648|||||||Linear mixed model|||||||0.3648
92373181|NCT03703817|184648349|SUPERIORITY|Side effect: Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.1395|||||||Conditional logistic regression|||||||0.1395
92373182|NCT03703817|184648349|SUPERIORITY|Convenience: Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.0349|||||||Linear mixed model|||||||0.0349
92373183|NCT03703817|184648349|SUPERIORITY|Global satisfaction: Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.1546|||||||Linear mixed model|||||||0.1546
92373184|NCT03703817|184648350|SUPERIORITY|Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.1602|||||||Conditional logistic regression model|||||||0.1602
92373185|NCT03703817|184648351|SUPERIORITY|Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.9921|||||||Linear mixed model|||||||0.9921
92373186|NCT03315793|184648356|SUPERIORITY||Least squares mean difference|1.39||||0.5587|TWO_SIDED|98.0|-3.3|6.08|||mixed-effects model repeated measures|||||6.08|-3.30|0.5587
92373187|NCT03315793|184648357|SUPERIORITY||Risk Difference (RD)|5.4||||0.5111|TWO_SIDED|95.0|-10.7|21.5|||Cochran-Mantel-Haenszel|Stratified by age||||21.5|-10.7|0.5111
92373188|NCT03315793|184648358|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-13.5|13.5|||Cochran-Mantel-Haenszel|Stratified by age||||13.5|-13.5|1.0000
92373189|NCT03315793|184648359|SUPERIORITY||Risk Difference (RD)|-4.1||||0.4423|TWO_SIDED|95.0|-14.4|6.3|||Cochran-Mantel-Haenszel|Stratified by age||||6.3|-14.4|0.4423
92373190|NCT03315793|184648360|SUPERIORITY||Least squares mean difference|0.14||||0.3836|TWO_SIDED|95.0|-0.18|0.46|||mixed-effects model repeated measures|||||0.46|-0.18|0.3836
92373191|NCT00100230|184648399|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis: standard power calculation of 20%; used 2-sided t-test||||||0.3|TWO_SIDED|||||Threshold for significance: p\<0.05|Mixed Models Analysis|||||||0.30
92227942|NCT01162421|184358436|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.83||0.661|TWO_SIDED|95.0|-4.5|2.9||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||2.9|-4.5|0.661
92227943|NCT01162421|184358437|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.29||0.156|TWO_SIDED|95.0|-4.4|0.7||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 3||0.7|-4.4|0.156
92227944|NCT01162421|184358437|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.08|<|0.001|TWO_SIDED|95.0|-6.1|-1.9||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.001.||Month 6||-1.9|-6.1|<0.001
92227945|NCT01162421|184358437|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.19||0.04|TWO_SIDED|95.0|-4.9|-0.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 9||-0.1|-4.9|0.040
92373192|NCT00100230|184648400|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis: standard power calculation of 20%; used 2-sided t-test||||||0.27|TWO_SIDED|||||Threshold for significance: p\<0.05|Mixed Models Analysis|||||||0.27
92373193|NCT00100230|184648400|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis: standard power calculation of 20%; used 2-sided t-test||||||0.27|TWO_SIDED||||||Mixed Models Analysis|||||||0.27
92373194|NCT00100230|184648401|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis: standard power calculation of 20%; used 2-sided t-test||||||8e-06|TWO_SIDED|||||Threshold for significance: p\<0.05|Mixed Models Analysis|||||||0.000008
92408391|NCT01499277|184706182|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.86|||||TWO_SIDED|95.0|-6.34|3.15||||RD is the difference in success rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||3.15|-6.34|
92408392|NCT02974543|184706193|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92408393|NCT02974543|184706194|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92408394|NCT00220636|184706197|SUPERIORITY_OR_OTHER||t statistic|4.7|||<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|df=13||Null hypothesis would be no change in the HDRS score pre- to post- treatment with aripiprazole.||||<.001
92373195|NCT03389555|184648402|EQUIVALENCE|Equivalence margin: if confidence interval for mean difference between SOFA scores at 72 hour time-point for two groups overlaps 0 (p-value \> 0.05) scores considered to be equivalent. Note: The model estimates the mean difference in SOFA score at 72 hours between treatment and control groups, for those patient for whom a SOFA score could be calculated at the 72 hour time point (i.e patients that were alive at the 72 hour time point, 90 patients in the treatment and 88 patients in the control).|Mean Difference (Net)|-0.8||||0.12|TWO_SIDED|95.0|-1.7|0.2||A priori threshold for significance, p-value \< 0.05|Mixed Models Analysis|||The primary outcome was analyzed using a linear mixed-effects model where the correlation of within-patient repeated SOFA score measures was accounted for via the use of an unstructured variance-covariance matrix and linear contrasts. Covariates included age, sex, treatment group, time, and the interaction between treatment group and time. Study site was included as a random intercept. The model estimates the mean difference in SOFA score at 72 hours between treatment and control groups.||0.2|-1.7|0.12
92373196|NCT03389555|184648403|EQUIVALENCE|For the key secondary outcome of kidney failure, 200 patients were estimated to provide 94% power, assuming that 30% of participants in the treatment group and 55% in the placebo group would develop kidney failure. If the adjusted risk difference from the logistic regression analysis overlaps 0, there was considered to be no difference between groups|Risk Difference (RD)|3.0||||0.58|TWO_SIDED|95.0|-10.0|20.0|||Regression, Logistic|||Logistic regression analysis evaluating the key secondary outcome of kidney failure in treatment group (intervention versus placebo) controlling for treatment site.||20.0|-10.0|0.58
92373197|NCT03389555|184648404|EQUIVALENCE|If confidence interval for hazard ratio crosses 0, hazard of death assumed to be equivalent in the two groups.|Hazard Ratio (HR)|1.3||||0.05|TWO_SIDED|95.0|0.8|2.2|||Regression, Cox|||Cox Regression controlling for site used to identify hazard ratio for outcome of death for treatment versus intervention group. Null hypothesis is that hazard ratio is 1.||2.2|0.8|0.05
92373198|NCT03389555|184648405|EQUIVALENCE|If the confidence interval for the median difference in ventilator free days between groups crosses 0, the two groups are considered equivalent.|Median Difference (Net)|0.0|||>|0.99|TWO_SIDED|95.0|-1.9|1.9|||Quantile Regression|||Quantile regression controlling for site performed to compare treatment and control group's ventilator free days.||1.9|-1.9|>0.99
92373199|NCT03389555|184648406|EQUIVALENCE|If the confidence interval for the median difference in shock free days between groups crosses 0, the two groups are considered equivalent.|Median Difference (Net)|1.0||||0.02|TWO_SIDED|95.0|0.2|1.8|||Quantile Regression|||Quantile regression controlling for site performed to compare treatment and control group's shock free days.||1.8|0.2|0.02
92373200|NCT03389555|184648407|EQUIVALENCE|If the confidence interval for the median difference in ICU free days between groups crosses 0, the two groups are considered equivalent.|Median Difference (Net)|1.0||||0.69|TWO_SIDED|95.0|-3.0|6.0|||Quantile Regression|||Quantile regression controlling for site performed to compare treatment and control group's ICU free days.||6.0|-3.0|0.69
92373201|NCT03389555|184648408|EQUIVALENCE|If the adjusted risk difference from the logistic regression analysis overlaps 0, there was considered to be no difference between groups|Risk Difference (RD)|3.0||||0.55|TWO_SIDED|95.0|-10.0|20.0|||Regression, Logistic|||Logistic regression analysis evaluating the key secondary outcome of hospital mortality in treatment group (intervention versus placebo) controlling for treatment site..||20.0|-10.0|0.55
92373202|NCT03389555|184648409|EQUIVALENCE|If the adjusted risk difference from the logistic regression analysis overlaps 0, there was considered to be no difference between groups|Risk Difference (RD)|2.0||||0.8|TWO_SIDED|95.0|-10.0|10.0|||Regression, Logistic|||Logistic regression analysis evaluating the key secondary outcome of ICU mortality in treatment group (intervention versus placebo) controlling for treatment site.||10.0|-10.0|0.80
92373203|NCT03389555|184648410|EQUIVALENCE|If the adjusted risk difference from the logistic regression analysis overlaps 0, there was considered to be no difference between groups|Risk Difference (RD)|-12.0||||0.16|TWO_SIDED|95.0|-25.0|4.0|||Regression, Logistic|||Logistic regression analysis evaluating the key secondary outcome of occurrence of delirium in treatment group (intervention versus placebo) controlling for treatment site.||4|-25|0.16
92373204|NCT03389555|184648411|EQUIVALENCE|If the adjusted risk difference from the logistic regression analysis overlaps 0, there was considered to be no difference between groups|Risk Difference (RD)|-1.8||||0.82|TWO_SIDED|95.0|-18.0|14.0|||Regression, Logistic|||Logistic regression analysis evaluating home hospital disposition in survivors to hospital discharge in intervention versus placebo group controlling for treatment site.||14|-18|0.82
92373205|NCT01885208|184648412|NON_INFERIORITY|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated treatment difference between semaglutide 1.0 mg and exenatide ER 2.0 mg was below the pre-specified non-inferiority margin (0.3 %).|Treatment difference|-0.62|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.44|||Mixed Models Analysis|||The post-baseline responses were analysed using a mixed model for repeated measurements with treatment and country as fixed factors and baseline value as covariate, all nested within visit.||-0.44|-0.8|< 0.0001
92373206|NCT01885208|184648412|SUPERIORITY|Superiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated treatment difference between semaglutide 1.0 mg and exenatide ER 2.0 mg was below the pre-specified superiority margin (0 %).|Treatment difference|-0.62|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.44|||Mixed Models Analysis|||The post-baseline responses were analysed using a mixed model for repeated measurements with treatment and country as fixed factors and baseline value as covariate, all nested within visit.||-0.44|-0.8|< 0.0001
92373207|NCT00920218|184648433|SUPERIORITY|Criterion for superiority: The Lower Limit (LL) of the Confidence Interval (CI) of the ratio of geometric means, in terms of ceellular immune (CMI) response for GSK 1437173A F1 Group as compared to Placebo Group, is above (\>) 2.|Fold increase over Control|32.31|||<|0.0001|TWO_SIDED|76.16|20.65|50.54|||Dunnett for multiple comparisons|||The null hypothesis was H0: GSK 1437173A F1 Group/Placebo Group below (\<) 1.||50.54|20.65|<0.0001
92373208|NCT00920218|184648433|SUPERIORITY|Criterion for superiority: The Lower Limit (LL) of the Confidence Interval (CI) of the ratio of geometric means, in terms of CMI response for Placebo-GSK 1437173A F1 Group as compared to Placebo Group, is above (\>) 2.|Fold increase over Control|9.51|||<|0.0001|TWO_SIDED|76.16|6.07|14.9|||Dunnett for multiple comparisons|||The null hypothesis was H0: Placebo-GSK 1437173A F1 Group/Placebo Group \< 2.||14.9|6.07|<0.0001
92408395|NCT00220636|184706199|SUPERIORITY_OR_OTHER||t statistic|-3.1||||0.009|TWO_SIDED|95.0|||||t-test, 2 sided|df=13||Null hypothesis would be no change in the GAFS score pre- to post- treatment with aripiprazole.||||.009
92408396|NCT00220636|184706200|SUPERIORITY_OR_OTHER||t statistic|3.1||||0.008|TWO_SIDED|95.0|||||t-test, 2 sided|df=13||Null hypothesis would be no change in the BDI score pre- to post- treatment with aripiprazole.||||.008
92408397|NCT00539942|184706208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|||<|0.05|||||||Chi-squared|||Unable to analyze data||||<.05
92408398|NCT02362282|184706244|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||||||0.54
92408399|NCT02004093|184706246|SUPERIORITY_OR_OTHER|||||||0.3967|||||||Log Rank|||||||0.3967
92408400|NCT02004093|184706246|SUPERIORITY_OR_OTHER|||||||0.4552|||||||Wilcoxon (Mann-Whitney)|||||||0.4552
92408401|NCT02004093|184706246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.3972|TWO_SIDED|80.0|0.92|1.49||p-value resulting from Wald test of null hypothesis that the hazard ratio equals (=) 1|Wald test|||||1.49|0.92|0.3972
92408402|NCT02004093|184706247|SUPERIORITY_OR_OTHER||Difference in Response Rates|6.32||||0.3943|TWO_SIDED|80.0|-3.9|16.6|||Chi-squared|||||16.6|-3.9|0.3943
92408403|NCT02004093|184706247|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36|||||TWO_SIDED|80.0|0.86|2.17|||||approximate 80% confidence interval (CI) for difference of two rates using Hauck-Anderson method|||2.17|0.86|
92408404|NCT02004093|184706248|SUPERIORITY_OR_OTHER|||||||0.3655|||||||Log Rank|||||||0.3655
92408405|NCT02004093|184706248|SUPERIORITY_OR_OTHER|||||||0.1319|||||||Wilcoxon (Mann-Whitney)|||||||0.1319
92408406|NCT02004093|184706248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.3679|TWO_SIDED|80.0|0.92|1.61|||Wald test|p-value resulting from Wald test of null hypothesis that the hazard ratio=1||||1.61|0.92|0.3679
92408407|NCT02004093|184706251|SUPERIORITY_OR_OTHER|||||||0.8129|||||||Log Rank|||||||0.8129
92408408|NCT02004093|184706251|SUPERIORITY_OR_OTHER|||||||0.692|||||||Wilcoxon (Mann-Whitney)|||||||0.6920
92408409|NCT02004093|184706251|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.8137|TWO_SIDED|80.0|0.82|1.32|||Wald test|p-value resulting from Wald test of null hypothesis that the hazard ratio=1||||1.32|0.82|0.8137
92408410|NCT02004093|184706254|SUPERIORITY_OR_OTHER|||||||0.5726|||||||Log Rank|||||||0.5726
92408411|NCT02004093|184706254|SUPERIORITY_OR_OTHER|||||||0.3903|||||||Wilcoxon (Mann-Whitney)|||||||0.3903
92408412|NCT02004093|184706254|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.587|TWO_SIDED|80.0|0.87|1.43|||Wald test|p-value resulting from Wald test of null hypothesis that the hazard ratio=1||||1.43|0.87|0.5870
92408413|NCT02004093|184706256|SUPERIORITY_OR_OTHER|||||||0.9261|||||||Log Rank|||||||0.9261
92408414|NCT02004093|184706256|SUPERIORITY_OR_OTHER|||||||0.8591|||||||Wilcoxon (Mann-Whitney)|||||||0.8591
92408415|NCT02004093|184706256|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.9262|TWO_SIDED|80.0|0.74|1.41||p-value resulting from Wald test of null hypothesis that the hazard ratio=1|Wald test|||||1.41|0.74|0.9262
92408416|NCT00439517|184706274|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.677||||0.0048|TWO_SIDED|95.0|0.515|0.889|||Stratified log rank|Kaplan-Meier method was used to estimate median PFS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||0.889|0.515|0.0048
92408417|NCT00439517|184706275|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.756||||0.016|TWO_SIDED|95.0|1.11|2.777|||Cochran-Mantel-Haenszel|Stratified odds ratio and Cochran-Mantel- Haenszel (CMH) statistics were calculated considering the randomization strata.||||2.777|1.110|0.016
92408418|NCT00439517|184706276|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.855||||0.3797|TWO_SIDED|95.0|0.603|1.213|||Stratified log rank|Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||1.213|0.603|0.3797
92408419|NCT00439517|184706277|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.977||||0.8575|TWO_SIDED|95.0|0.755|1.263|||Stratified log rank||Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.|||1.263|0.755|0.8575
92408420|NCT00638014|184706317|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||t-test, 2 sided|||||||0.41
92408421|NCT00092443|184706381|SUPERIORITY_OR_OTHER||Efficacy = 1-Relative Risk|72.5|||<|0.001||95.0|50.6|85.6|||Exact Binomial Test||Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group.|||85.6|50.6|<0.001
92408422|NCT00092443|184706382|SUPERIORITY_OR_OTHER||Percent of Participants|56.7||||||95.0|44.0|66.8||||||||66.8|44.0|
92408423|NCT00092443|184706382|SUPERIORITY_OR_OTHER||Percent of Participants|2.7||||||95.0|0.3|9.5||||||||9.5|0.3|
92408424|NCT00092443|184706382|SUPERIORITY_OR_OTHER||Percent of Participants|14.5||||||95.0|6.9|25.8||||||||25.8|6.9|
92408425|NCT00092443|184706382|SUPERIORITY_OR_OTHER||Percent of Participants|0.0||||||95.0|0.0|5.1||||||||5.1|0.0|
92408426|NCT00092443|184706382|SUPERIORITY_OR_OTHER||Percent of Participants|9.0||||||95.0|3.4|18.5||||||||18.5|3.4|
92408427|NCT00092443|184706382|SUPERIORITY_OR_OTHER||Percent of Participants|0.0||||||95.0|0.0|4.8||||||||4.8|0.0|
92408428|NCT00092443|184706382|SUPERIORITY_OR_OTHER||Percent of Participants|39.7||||||95.0|27.6|52.8||||||||52.8|27.6|
92408429|NCT00092443|184706382|SUPERIORITY_OR_OTHER||Percent of Participants|1.4||||||95.0|0.0|7.7||||||||7.7|0.0|
92408430|NCT00092443|184706382|SUPERIORITY_OR_OTHER||Percent of Participants|24.6||||||95.0|14.5|37.3||||||||37.3|14.5|
92408431|NCT00092443|184706382|SUPERIORITY_OR_OTHER||Percent of Participants|2.9||||||95.0|0.4|10.1||||||||10.1|0.4|
92408432|NCT04717336|184706383|SUPERIORITY||Mean of Paired Differences|0.002||||0.98|TWO_SIDED|95.0|-0.22|0.23|||Paired T-Test|A paired t-test was applied across both periods because this is a cross-over study where each participant serves at their own control.||The aim of this analysis is to test whether there is a statistically significant difference in Pulse Wave Velocity when participants are on sodium chloride vs. placebo, regardless of period.||0.23|-0.22|0.98
92408433|NCT01724346|184706388|SUPERIORITY||Hazard Ratio (HR)|0.155|||<|0.0001|TWO_SIDED|95.0|0.11|0.22||P-value is from stratified log-rank test.|Log Rank|||||0.220|0.110|< 0.0001
92408434|NCT01724346|184706391|SUPERIORITY||Hazard Ratio (HR)|0.087|||<|0.0001|TWO_SIDED|95.0|0.054|0.141||P value is from stratified log-rank test.|Log Rank|||||0.141|0.054|< 0.0001
92408435|NCT01724346|184706392|SUPERIORITY||Rate ratio|2.496|||<|0.0001|TWO_SIDED|95.0|1.99|3.131||Rate ratio and p-value are based on Cochran-Mantel-Haenszel chi-square test stratified by Eastern Cooperative Oncology Group (ECOG; 0-1 vs 2) and Rai stage (0/I/II vs III/IV) at baseline.|Cochran-Mantel-Haenszel|||||3.131|1.990|< 0.0001
92408436|NCT00298558|184706413|SUPERIORITY_OR_OTHER||Effect Size|0.06||||0.43|TWO_SIDED|99.0|-0.14|0.27|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.27|-0.14|0.43
92408437|NCT00298558|184706413|SUPERIORITY_OR_OTHER||Effect Size|-0.11||||0.17|TWO_SIDED|99.0|-0.31|0.1|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.10|-0.31|0.17
92408438|NCT00298558|184706413|SUPERIORITY_OR_OTHER||Effect Size|-0.05||||0.52|TWO_SIDED|99.0|-0.25|0.15|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.15|-0.25|0.52
92408439|NCT00298558|184706416|SUPERIORITY_OR_OTHER||Effect Size|-0.02||||0.69|TWO_SIDED|99.0|-0.17|0.12|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.12|-0.17|0.69
92408440|NCT00298558|184706416|SUPERIORITY_OR_OTHER||Effect Size|0.23|||<|0.01|TWO_SIDED|99.0|0.09|0.38|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.38|0.09|<0.01
92408441|NCT00298558|184706416|SUPERIORITY_OR_OTHER||Effect Size|-0.06||||0.27|TWO_SIDED|99.0|-0.2|0.08|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.08|-0.20|0.27
92408442|NCT00298558|184706418|SUPERIORITY_OR_OTHER||Effect Size|-0.07||||0.45|TWO_SIDED|99.0|-0.29|0.16|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.16|-0.29|0.45
92446278|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.095||0.6694|TWO_SIDED|95.0|-0.23|0.15|||MMRM|||Hypochondriasis, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.23|0.6694
92227946|NCT01162421|184358437|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.14||0.492|TWO_SIDED|95.0|-3.1|1.5||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 12||1.5|-3.1|0.492
92446279|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.1113|TWO_SIDED|95.0|-0.36|0.04|||MMRM|||Hypochondriasis, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.36|0.1113
92446280|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.089||0.5811|TWO_SIDED|95.0|-0.13|0.23|||MMRM|||Hypochondriasis, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.13|0.5811
92373209|NCT00920218|184648434|SUPERIORITY|Criterion for superiority: The Lower Limit (LL) of the Confidence Interval (CI) of the ratio of geometric means, in terms of humoral response for GSK 1437173A F1 Group as compared to Placebo Group, is above (\>) 3.|Fold increase over Control|74.41|||<|0.0001|TWO_SIDED|76.16|33.12|167.17|||Dunnett for multiple comparisons|||The null hypothesis was H0: GSK 1437173A 1 Group/Placebo Group \< 1.||167.17|33.12|<0.0001
92373210|NCT00920218|184648434|SUPERIORITY|Criterion for superiority: The Lower Limit (LL) of the Confidence Interval (CI) of the ratio of geometric means, in terms of humoral response for Placebo-GSK 1437173A F1 Group as compared to Placebo Group, is above (\>) 3.|Fold increase over Control|42.2|||<|0.0001|TWO_SIDED|76.16|20.2|88.13|||Dunnett for multiple comparisons|||The null hypothesis was H0: Placebo-GSK 1437173A 1 Group/Placebo Group \< 1.||88.13|20.20|<0.0001
92373211|NCT01709422|184648447|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.2||||0.05||95.0|||||Chi-squared|||||||0.05
92373212|NCT01709422|184648448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.0||||0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.05
92373213|NCT01074463|184648483|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|109.18|||||TWO_SIDED|90.0|99.25|120.12|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||120.12|99.25|
92373214|NCT01074463|184648484|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|104.06|||||TWO_SIDED|90.0|98.73|109.68|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109.68|98.73|
92373215|NCT01074463|184648485|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.34|||||TWO_SIDED|90.0|97.78|107.11|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.11|97.78|
92373216|NCT02449889|184648486|NON_INFERIORITY|Treatment comparisons were done in a sequential manner. First non-inferiority (NI) was tested for HP-hCG IM compared to rhCG SC (lower limit of the 95% confidence interval (CI) \> -3.0). If NI was demonstrated, NI was also to be tested for HP-hCG SC compared to rhCG SC.|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.6|1.8|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Mean number of oocytes retrieved for the treatment comparison of HP-hCG IM versus rhCG SC||1.8|-0.6|
92373217|NCT02449889|184648486|NON_INFERIORITY|As step 2 in the pre-specified sequential testing, NI was tested for HP-hCG SC compared to rhCG SC.|Mean Difference (Final Values)|0.8|||||TWO_SIDED|95.0|-0.5|2.0|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Mean number of oocytes retrieved for the treatment comparison of HP-hCG SC versus rhCG SC||2.0|-0.5|
92373218|NCT02449889|184648487|NON_INFERIORITY|Pre-specified supportive endpoint analyzed in a similar manner as the primary endpoint.|Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.6|1.5|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Number of MII oocytes retrieved for the treatment comparison of HP-hCG IM versus rhCG SC||1.5|-0.6|
92373219|NCT02449889|184648487|NON_INFERIORITY|Pre-specified supportive endpoint analyzed in a similar manner as the primary endpoint.|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.4|1.6|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Number of Mll oocytes retrieved for the treatment comparison of HP-hCG SC versus rhCG SC||1.6|-0.4|
92373220|NCT02449889|184648488|NON_INFERIORITY|Pre-specified supportive endpoint analyzed in a similar manner as the primary endpoint.|Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.6|1.3|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Number of fertilized (2 pronuclei (2PN)) oocytes for the treatment comparison of HP-hCG IM versus rhCG SC||1.3|-0.6|
92373221|NCT02449889|184648488|NON_INFERIORITY|Pre-specified supportive endpoint analyzed in a similar manner as the primary endpoint.|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-0.5|1.4|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Number of fertilized (2 pronuclei (2PN)) oocytes for the treatment comparison of HP-hCG SC versus rhCG SC.||1.4|-0.5|
92227947|NCT01162421|184358437|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.3||0.649|TWO_SIDED|95.0|-3.2|2.0||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||2.0|-3.2|0.649
92373222|NCT00758264|184648493|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.87|||||TWO_SIDED|95.0|0.72|1.05||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 1 antibody concentrations.||1.05|0.72|
92373223|NCT00758264|184648493|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|1.03|||||TWO_SIDED|95.0|0.84|1.26||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 4 antibody concentrations.||1.26|0.84|
92373224|NCT00758264|184648493|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.9|||||TWO_SIDED|95.0|0.74|1.1||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 5 antibody concentrations.||1.10|0.74|
92373225|NCT00758264|184648493|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.84|||||TWO_SIDED|95.0|0.66|1.07||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 6B antibody concentrations.||1.07|0.66|
92373226|NCT00758264|184648493|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|1.0|||||TWO_SIDED|95.0|0.84|1.2||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 7F antibody concentrations.||1.20|0.84|
92373227|NCT00758264|184648493|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.94|||||TWO_SIDED|95.0|0.78|1.14||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 9V antibody concentrations.||1.14|0.78|
92373228|NCT00758264|184648493|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.98|||||TWO_SIDED|95.0|0.78|1.23||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 14 antibody concentrations.||1.23|0.78|
92373229|NCT00758264|184648493|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.52|||||TWO_SIDED|95.0|0.41|0.67||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 18C antibody concentrations.||0.67|0.41|
92373230|NCT00758264|184648493|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.86|||||TWO_SIDED|95.0|0.68|1.08||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 19F antibody concentrations.||1.08|0.68|
92373231|NCT00758264|184648493|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|1.07|||||TWO_SIDED|95.0|0.83|1.38||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 23F antibody concentrations.||1.38|0.83|
92373232|NCT00758264|184648494|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference in percentage of subjects with serum bactericidal antibody using baby rabbit complement against Neisseria meningitides serogroup A (rSBA-MenA) titer ≥ 1:8 (Nimenrix + Synflorix Group minus Nimenrix Group) is ≥ -10%.|Difference in percentage|1.93|||||TWO_SIDED|95.0|-1.09|8.15||||||Demonstration of non-inferiority of Nimenrix conjugate vaccine when co-administered with Synflorix vaccine versus Nimenrix conjugate vaccine given alone (Synflorix vaccine was administered 1 month later) in terms of serum bactericidal assay using rabbit complement against Neisseria meningitides serogroup A (rSBA-MenA).||8.15|-1.09|
92408443|NCT00298558|184706418|SUPERIORITY_OR_OTHER||Effect Size|0.005||||0.95|TWO_SIDED|99.0|-0.22|0.23|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.23|-0.22|0.95
92408444|NCT00298558|184706418|SUPERIORITY_OR_OTHER||Effect Size|0.66|||<|0.01|TWO_SIDED|99.0|0.43|0.88|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.88|0.43|<0.01
92227948|NCT01162421|184358437|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.11||0.464|TWO_SIDED|95.0|-3.0|1.4||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||1.4|-3.0|0.464
92227949|NCT01162421|184358438|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.3|STANDARD_ERROR_OF_MEAN|5.08||0.018|TWO_SIDED|95.0|-22.5|-2.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 3||-2.2|-22.5|0.018
92373233|NCT00758264|184648494|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference in percentage of subjects with serum bactericidal antibody using baby rabbit complement against Neisseria meningitides serogroup C (rSBA-MenC) titer ≥ 1:8 (Nimenrix + Synflorix Group minus Nimenrix Group) is ≥ -10%.|Difference in percentage|0.68|||||TWO_SIDED|95.0|-2.11|6.22||||||Demonstration of non-inferiority of Nimenrix conjugate vaccine when co-administered with Synflorix vaccine versus Nimenrix conjugate vaccine given alone (Synflorix vaccine was administered 1 month later) in terms of serum bactericidal assay using rabbit complement against Neisseria meningitides serogroup C (rSBA-MenC).||6.22|-2.11|
92373234|NCT00758264|184648494|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference in percentage of subjects with serum bactericidal antibody using baby rabbit complement against Neisseria meningitides serogroup W-135 (rSBA-MenW-135) titer ≥ 1:8 (Nimenrix + Synflorix Group minus Nimenrix Group) is ≥ -10%.|Difference in percentage|1.25|||||TWO_SIDED|95.0|-0.94|6.76||||||Demonstration of non-inferiority of Nimenrix conjugate vaccine when co-administered with Synflorix vaccine versus Nimenrix conjugate vaccine given alone (Synflorix vaccine was administered 1 month later) in terms of serum bactericidal assay using rabbit complement against Neisseria meningitides serogroup W-135 (rSBA-MenW-135).||6.76|-0.94|
92373235|NCT00758264|184648494|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference in percentage of subjects with serum bactericidal antibody using baby rabbit complement against Neisseria meningitides serogroup Y (rSBA-MenY) titer ≥ 1:8 (Nimenrix + Synflorix Group minus Nimenrix Group) is ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.18|4.6||||||Demonstration of non-inferiority of Nimenrix conjugate vaccine when co-administered with Synflorix vaccine versus Nimenrix conjugate vaccine given alone (Synflorix vaccine was administered 1 month later) in terms of serum bactericidal assay using rabbit complement against Neisseria meningitides serogroup Y (rSBA-MenY).||4.6|-2.18|
92373236|NCT02163967|184648526|OTHER||||||<|0.02||||||Mixed effects regression model, a nested (within subject) random intercept for dose, fixed effects for age, dose, time and dose x time interaction. Significance level p=.05, Bonferonni correction was used for post-hoc tests.|Regression, Linear|Post-hoc comparisons using least-square means. Kenward-Roger adjustments to denominator degrees of freedom.Increase in HRV at 2Amp compared to sham.||The null hypothesis is that there is no difference in High frequency HRV after 20 minutes of stimulation or 15 minutes after cessation of stimulation at the low (1mAmp) or high (2mAmp) dose compared to sham stimulation||||<.02
92373237|NCT02163967|184648527|OTHER||||||<|0.001|||||||Chi-squared|||The null hypothesis is that there will be no difference in the number of side effects reported during either dose of stimulation compared to sham stimulation. Statistical differences were examined for light flickering in peripheral vision . Other side effects were reported by too few subjects to be analyzed statistically.||||<.001
92373238|NCT02163967|184648528|OTHER|||||||0.81||||||Mixed effects regression model, a nested (within subject) random intercept for dose, fixed effects for age, dose, time and dose x time interaction. Significance level p=.05, Bonferonni correction was used for post-hoc tests.|Regression, Linear|Post-hoc comparisons were made using least-square means. Kenward-Roger adjustments to denominator degrees of freedom.||||||0.81
92373239|NCT02163967|184648529|OTHER|||||||0.47||||||Mixed effects regression model, a nested (within subject) random intercept for dose, fixed effects for age, dose, time and dose x time interaction. Significance level p=.05, Bonferonni correction was used for post-hoc tests.|Regression, Linear|Post-hoc comparisons were made using least-square means. Kenward-Roger adjustments to denominator degrees of freedom.||||||0.47
92373240|NCT04392141|184648546|EQUIVALENCE|equivalence of odds of death between both groups|Odds Ratio (OR)|9.87||||0.0318|TWO_SIDED|95.0|1.16|83.89|||Fisher Exact|||||83.89|1.16|0.0318
92373241|NCT04392141|184648547|EQUIVALENCE|equivalence of SpO2 percentage between admission and discharge phases|Mean Difference (Final Values)|-5.5||||0.0001|TWO_SIDED|95.0|-7.03|-3.96|||t-test, 2 sided|Paired T-test||Statistical comparison of SpO2 (%) between admission and discharge times in standard treatment group||-3.96|-7.03|0.0001
92373242|NCT04392141|184648547|EQUIVALENCE|equivalence of SpO2 percentage between admission and discharge phases|Mean Difference (Final Values)|-2.55||||0.0001|TWO_SIDED|95.0|-3.28|-1.81|||t-test, 2 sided|Paired T-test||Statistical comparison of SpO2 % between admission and discharge times in the Colchicine and Herbal Phenolic Monoterpene Fractions treatment||-1.81|-3.28|0.0001
92227950|NCT01162421|184358438|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.5|STANDARD_ERROR_OF_MEAN|5.9|<|0.001|TWO_SIDED|95.0|-37.3|-13.7||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.001.||Month 6||-13.7|-37.3|<0.001
92227951|NCT01162421|184358438|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|5.84||0.113|TWO_SIDED|95.0|-21.0|2.3||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 9||2.3|-21.0|0.113
92227952|NCT01162421|184358438|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|5.72||0.544|TWO_SIDED|95.0|-14.9|7.9||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 12||7.9|-14.9|0.544
92227953|NCT01162421|184358438|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|5.96||0.916|TWO_SIDED|95.0|-12.5|11.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||11.2|-12.5|0.916
92227954|NCT01162421|184358438|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|5.86||0.983|TWO_SIDED|95.0|-11.8|11.6||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||11.6|-11.8|0.983
92373243|NCT04392141|184648548|EQUIVALENCE|equivalence of means of the length of hospitalization between both groups|Mean Difference (Final Values)|2.22||||0.0001|TWO_SIDED|95.0|1.63|2.8|||Wilcoxon (Mann-Whitney)|||||2.80|1.63|0.0001
92373244|NCT04392141|184648549|EQUIVALENCE|equivalence of mean of lymphocytes count between admission and discharge phases|Mean Difference (Final Values)|0.02||||0.8|TWO_SIDED|95.0|-0.136|0.176|||t-test, 2 sided|Paired T-test||Statistical comparison of lymphocytes count between admission and discharge times in standard treatment||0.176|-0.136|0.80
92373245|NCT04392141|184648549|EQUIVALENCE|equivalence of mean of lymphocytes count between admission and discharge phases|Mean Difference (Final Values)|-0.43||||0.0001|TWO_SIDED|95.0|-0.63|-0.23|||t-test, 2 sided|Paired T-test||Statistical comparison of lymphocytes count between admission and discharge times in Colchicine and Herbal Phenolic Monoterpene Fractions treatment||-0.23|-0.63|0.0001
92373246|NCT04392141|184648550|EQUIVALENCE|equivalence of mean of LDH between admission and discharge phases|Mean Difference (Final Values)|-26.06||||0.602|TWO_SIDED|95.0|-124.76|72.64|||t-test, 2 sided|Paired T-test||Statistical comparison of LDH between admission and discharge times in standard treatment||72.64|-124.76|0.602
92373247|NCT04392141|184648550|EQUIVALENCE|equivalence of mean of LDH between admission and discharge phases|Mean Difference (Final Values)|137.33||||0.006|TWO_SIDED|95.0|38.19|236.46|||t-test, 2 sided|Paired T-test||Statistical comparison of LDH between admission and discharge times in Colchicine and Herbal Phenolic Monoterpene Fractions treatment||236.46|38.19|0.006
92373248|NCT04295681|184648551|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.0006|TWO_SIDED|95.0|0.47|1.7|||t-test, 2 sided||"Estimated value is calculated as MMH-MAP minus Placebo difference in mean MoCA scores changes."|Mean changes of MoCA scores (90th day of treatment minus baseline) were compared.||1.70|0.47|0.0006
92373249|NCT04295681|184648552|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.67|TWO_SIDED|95.0|-0.58|0.37|||t-test, 2 sided||"Estimated value is calculated as MMH-MAP minus Placebo difference in mean MoCA scores changes."|Mean changes of NIHSS scores (baseline minus 12th day of treatment) were compared.||0.37|-0.58|0.67
92373250|NCT04295681|184648552|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.94|TWO_SIDED|95.0|-0.47|0.5|||t-test, 2 sided||"Estimated value is calculated as MMH-MAP minus Placebo difference in mean MoCA scores changes."|Mean changes of NIHSS scores (baseline minus 90th day of treatment) were compared.||0.50|-0.47|0.94
92373251|NCT04295681|184648553|SUPERIORITY|||||||0.89|||||||Fisher Exact|||Test for comparison percentage of patients with no significant disabilities after 90 days of treatment .||||0.89
92373252|NCT04295681|184648554|SUPERIORITY|||||||0.067|||||||Wilcoxon (Mann-Whitney)|||Therapeutic effect score comparison on 90th day of treatment.||||0.067
92373253|NCT04295681|184648554|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Side effects score comparison on 90th day of treatment.||||0.81
92373254|NCT04295681|184648554|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Efficacy index score comparison on 90th day of treatment.||||0.17
92227955|NCT01162421|184358439|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|4.96||0.641|TWO_SIDED|95.0|-12.2|7.6||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||7.6|-12.2|0.641
92227956|NCT01162421|184358439|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|5.61||0.358|TWO_SIDED|95.0|-16.4|6.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||6.0|-16.4|0.358
92227957|NCT01162421|184358439|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|5.58||0.352|TWO_SIDED|95.0|-5.9|16.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||16.4|-5.9|0.352
92373255|NCT04295681|184648555|SUPERIORITY|||||||0.656|||||||Fisher Exact|||The percentage of participants having at least one adverse event were compared.||||0.656
92373256|NCT04295681|184648556|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92373257|NCT04295681|184648558|SUPERIORITY|||||||0.96|||||||ANOVA|"P-value for interaction between factors Treatment and Visit is demonstrated."||"Analysis of variance (ANOVA) for repeated measures has been used. Factors are Treatment, Visit and interaction Treatment-Visit. Significance of interaction as a factor representing difference in outcome value dynamics has been tested."||||0.96
92373258|NCT04295681|184648559|SUPERIORITY|||||||0.96|||||||ANOVA|"P-value for interaction between factors Treatment and Visit is demonstrated."||"Analysis of variance (ANOVA) for repeated measures has been used. Factors are Treatment, Visit and interaction Treatment-Visit. Significance of interaction as a factor representing difference in outcome value dynamics has been tested."||||0.96
92373259|NCT04295681|184648560|SUPERIORITY|||||||0.438|||||||ANOVA|"P-value for interaction between factors Treatment and Visit is demonstrated."||"Systolic blood pressure. Analysis of varience (ANOVA) for repeated measures has been used. Factors are Treatment, Visit and interaction Treatment-Visit. Significance of interaction as a factor representing difference in outcome value dynamics has been tested."||||0.438
92373260|NCT04295681|184648560|SUPERIORITY|||||||0.56|||||||ANOVA|"P-value for interaction between factors Treatment and Visit is demonstrated."||"Diastolic blood pressure. Analysis of variance (ANOVA) for repeated measures has been used. Factors are Treatment, Visit and interaction Treatment-Visit. Significance of interaction as a factor representing difference in outcome value dynamics has been tested."||||0.56
92373261|NCT04295681|184648561|SUPERIORITY|||||||0.72|||||||Fisher Exact|||Comparison at the baseline.||||0.72
92373262|NCT04295681|184648561|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison on 90th day of treatment.||||1
92373263|NCT04295681|184648562|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92373264|NCT02357472|184648563|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample Size to Achieve 0.80 Power to Test Equivalency at the α = 0.05 Significance Level for True Proportions|Mean Difference (Final Values)|1.31|STANDARD_ERROR_OF_MEAN|1.31||0.0003|TWO_SIDED|95.0|0.6216|2.002|||t-test, 2 sided|||It was caculated that 60 paticipants randomized in a 1:1between 2 arms would would have at least 85% power to detect a difference of 1.32 oocytes between the high dose group and standard dose group after 12 weeks.Sample size was determined using 2 sided 2 sample t-test (α = 0.05).Assumptions included a common standard deviation of 1.72.||2.002|0.6216|0.0003
92373265|NCT00803400|184648578|OTHER||Mean Difference (Final Values)|1.0|||<|0.001|ONE_SIDED||||||t-test, 1 sided|||A p-value less than 0.05 (≤ 0.05) is statistically significant. It indicates strong evidence against the null hypothesis, as there is less than a 5% probability the null is correct (and the results are random)||||<0.001
92373266|NCT06359028|184648636|SUPERIORITY||Adjusted Mean Difference|-1.94|STANDARD_ERROR_OF_MEAN|0.113|<|0.0001|TWO_SIDED|95.0|-2.16|-1.72|||Mixed Model with Repeated Measures|||||-1.72|-2.16|<0.0001
92373267|NCT06359028|184648637|SUPERIORITY||Adjusted Mean Difference|57.37|STANDARD_ERROR_OF_MEAN|3.599|<|0.0001|TWO_SIDED|95.0|50.23|64.51|||Mixed Model with Repeated Measures|||||64.51|50.23|<0.0001
92373268|NCT06359028|184648638|SUPERIORITY||Adjusted Mean Difference|-1.65|STANDARD_ERROR_OF_MEAN|0.121|<|0.0001|TWO_SIDED|95.0|-1.89|-1.41|||Mixed Model with Repeated Measures|||||-1.41|-1.89|<0.0001
92373269|NCT06359028|184648639|SUPERIORITY||Adjusted Mean Difference|35.37|STANDARD_ERROR_OF_MEAN|4.28|<|0.0001|TWO_SIDED|95.0|26.88|43.86|||Mixed Model with Repeated Measures|||||43.86|26.88|<0.0001
92373270|NCT06359028|184648640|SUPERIORITY||Adjusted Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.296||0.1268|TWO_SIDED|95.0|-1.04|0.13|||Mixed Model with Repeated Measures|||Q7, Day 28||0.13|-1.04|0.1268
92373271|NCT06359028|184648640|SUPERIORITY||Adjusted Mean Difference|-1.75|STANDARD_ERROR_OF_MEAN|0.316|<|0.0001|TWO_SIDED|95.0|-2.38|-1.13|||Mixed Model with Repeated Measures|||Q7, Day 56||-1.13|-2.38|<0.0001
92373272|NCT06359028|184648640|SUPERIORITY||Adjusted Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.315||0.0245|TWO_SIDED|95.0|-1.35|-0.09|||Mixed Model with Repeated Measures|||Q8, Day 28||-0.09|-1.35|0.0245
92408445|NCT00298558|184706419|SUPERIORITY_OR_OTHER||Effect Size|0.48|||<|0.01|TWO_SIDED|99.0|0.12|0.84|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.84|0.12|<0.01
92168940|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.24||||0.0248|TWO_SIDED|95.0|1.03|1.5|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=70% reduction||1.50|1.03|0.0248
92168941|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.88||||0.3641|TWO_SIDED|95.0|0.66|1.16|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=90% reduction||1.16|0.66|0.3641
92373273|NCT06359028|184648640|SUPERIORITY||Adjusted Mean Difference|-1.81|STANDARD_ERROR_OF_MEAN|0.318|<|0.0001|TWO_SIDED|95.0|-2.44|-1.18|||Mixed Model with Repeated Measures|||Q8, Day 56||-1.18|-2.44|<0.0001
92373274|NCT06359028|184648640|SUPERIORITY||Adjusted Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.337||0.3851|TWO_SIDED|95.0|-0.96|0.37|||Mixed Model with Repeated Measures|||Q9, Day 28||0.37|-0.96|0.3851
92373275|NCT06359028|184648640|SUPERIORITY||Adjusted Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|0.375||0.0002|TWO_SIDED|95.0|-2.22|-0.73|||Mixed Model with Repeated Measures|||Q9, Day 56||-0.73|-2.22|0.0002
92168942|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.17||||0.2497|TWO_SIDED|95.0|0.89|1.53|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=90% reduction||1.53|0.89|0.2497
92168943|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8682|TWO_SIDED|95.0|0.85|1.21|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=30% reduction||1.21|0.85|0.8682
92373276|NCT06359028|184648641|SUPERIORITY||Adjusted Mean Difference|-6.19|STANDARD_ERROR_OF_MEAN|4.674||0.1884|TWO_SIDED|95.0|-15.46|3.08|||Mixed Model with Repeated Measures|||Day 28||3.08|-15.46|0.1884
92373277|NCT06359028|184648641|SUPERIORITY||Adjusted Mean Difference|-24.49|STANDARD_ERROR_OF_MEAN|6.308||0.0002|TWO_SIDED|95.0|-37.0|-11.97|||Mixed Model with Repeated Measures|||Day 56||-11.97|-37.00|0.0002
92373278|NCT06359028|184648642|SUPERIORITY||Adjusted Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.774||0.3003|TWO_SIDED|95.0|-2.34|0.73|||Mixed Model with Repeated Measures|||Day 28||0.73|-2.34|0.3003
92373279|NCT06359028|184648642|SUPERIORITY||Adjusted Mean Difference|-2.77|STANDARD_ERROR_OF_MEAN|0.903||0.0028|TWO_SIDED|95.0|-4.56|-0.97|||Mixed Model with Repeated Measures|||Day 56||-0.97|-4.56|0.0028
92373280|NCT06359028|184648643|SUPERIORITY||Adjusted Mean Difference|-3.78|STANDARD_ERROR_OF_MEAN|2.127||0.0784|TWO_SIDED|95.0|-8.0|0.44|||Mixed Model with Repeated Measures|||Day 28||0.44|-8.00|0.0784
92373281|NCT06359028|184648643|SUPERIORITY||Adjusted Mean Difference|-8.17|STANDARD_ERROR_OF_MEAN|3.074||0.0092|TWO_SIDED|95.0|-14.27|-2.07|||Mixed Model with Repeated Measures|||Day 56||-2.07|-14.27|0.0092
92373282|NCT06359028|184648644|SUPERIORITY||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.846||0.8686|TWO_SIDED|95.0|-1.82|1.54|||Mixed Model with Repeated Measures|||Day 28||1.54|-1.82|0.8686
92373283|NCT06359028|184648644|SUPERIORITY||Adjusted Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|0.976||0.0012|TWO_SIDED|95.0|-5.18|-1.31|||Mixed Model with Repeated Measures|||Day 56||-1.31|-5.18|0.0012
92373284|NCT06359028|184648645|SUPERIORITY||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|1.444||0.9047|TWO_SIDED|95.0|-3.04|2.69|||Mixed Model with Repeated Measures|||Day 28||2.69|-3.04|0.9047
92373285|NCT06359028|184648645|SUPERIORITY||Adjusted Mean Difference|-6.66|STANDARD_ERROR_OF_MEAN|1.656||0.0001|TWO_SIDED|95.0|-9.95|-3.38|||Mixed Model with Repeated Measures|||Day 56||-3.38|-9.95|0.0001
92373286|NCT06359028|184648646|SUPERIORITY||Adjusted Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.84||0.5733|TWO_SIDED|95.0|-2.14|1.19|||Mixed Model with Repeated Measures|||Day 28||1.19|-2.14|0.5733
92168944|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.97||||0.7317|TWO_SIDED|95.0|0.81|1.16|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=30% reduction||1.16|0.81|0.7317
92373287|NCT06359028|184648646|SUPERIORITY||Adjusted Mean Difference|-2.88|STANDARD_ERROR_OF_MEAN|1.026||0.006|TWO_SIDED|95.0|-4.92|-0.84|||Mixed Model with Repeated Measures|||Day 56||-0.84|-4.92|0.0060
92373288|NCT06359028|184648647|SUPERIORITY||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.127||0.2768|TWO_SIDED|95.0|-0.39|0.11|||Mixed Model with Repeated Measures|||Day 28||0.11|-0.39|0.2768
92373289|NCT06359028|184648647|SUPERIORITY||Adjusted Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.113||0.0232|TWO_SIDED|95.0|-0.48|-0.04|||Mixed Model with Repeated Measures|||Day 56||-0.04|-0.48|0.0232
92373290|NCT06359028|184648648|SUPERIORITY||Adjusted Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.403||0.8996|TWO_SIDED|95.0|-0.75|0.85|||Mixed Model with Repeated Measures|||Day 28||0.85|-0.75|0.8996
92373291|NCT06359028|184648648|SUPERIORITY||Adjusted Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.383||0.0204|TWO_SIDED|95.0|-1.66|-0.14|||Mixed Model with Repeated Measures|||Day 56||-0.14|-1.66|0.0204
92373292|NCT05248997|184648652|SUPERIORITY||Difference in least square mean|-0.09||||0.7782|TWO_SIDED|95.0|-0.71|0.53||LM included baseline value as covariate,\& fixed effects for treatment group,stratification factor,scheduled time point(TP),TP by treatment group interaction.Repeated measures:modelled by unstructured covariance structure for within participant error.|Linear model (LM)|||||0.53|-0.71|0.7782
92373293|NCT05248997|184648653|SUPERIORITY||Difference in least square mean|-0.29||||0.7079|TWO_SIDED|95.0|-1.83|1.24||LM included baseline value as covariate, and fixed effects for treatment group,stratification factor,scheduled TP, TP by treatment group interaction.Repeated measures:modelled by unstructured covariance structure for within participant error.|Linear model (LM)|||||1.24|-1.83|0.7079
92373294|NCT05248997|184648654|SUPERIORITY||Difference in least square mean|-0.23||||0.4398|TWO_SIDED|95.0|-0.81|0.36||LM included baseline value as covariate, and fixed effects for treatment group,stratification factor,scheduled TP, TP by treatment group interaction.Repeated measures:modelled by unstructured covariance structure for within participant error.|Linear model (LM)|||||0.36|-0.81|0.4398
92373295|NCT05248997|184648655|SUPERIORITY||Difference in least square mean|0.04||||0.889|TWO_SIDED|95.0|-0.51|0.59||LM included baseline value as covariate, and fixed effects for treatment group,stratification factor,scheduled TP, TP by treatment group interaction.Repeated measures:modelled by unstructured covariance structure for within participant error.|Linear model (LM)|||||0.59|-0.51|0.8890
92373296|NCT05248997|184648656|SUPERIORITY||Percentage difference|3.8||||0.6412|TWO_SIDED|95.0|-12.1|19.7|||Mantel-Haenszel|Stratified by presence of nasal polyps at randomization with Mantel-Haenszel risk estimation.||||19.7|-12.1|0.6412
92373297|NCT05248997|184648657|SUPERIORITY||Percentage difference|-2.7||||0.5001|TWO_SIDED|95.0|-10.6|5.2|||Mantel-Haenszel|Stratified by presence of nasal polyps at randomization with Mantel-Haenszel risk estimation.||||5.2|-10.6|0.5001
92373298|NCT00673231|184648672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.0726|<|0.0001|TWO_SIDED|95.0|-0.59|-0.31||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided)||-0.31|-0.59|<0.0001
92373299|NCT00673231|184648672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.0718|<|0.0001|TWO_SIDED|95.0|-0.66|-0.38||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided)||-0.38|-0.66|<0.0001
92373300|NCT00673231|184648672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.0733|<|0.0001|TWO_SIDED|95.0|-0.74|-0.45||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided)||-0.45|-0.74|<0.0001
92373301|NCT00673231|184648673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.256||0.0001|TWO_SIDED|95.0|-1.5|-0.49||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.49|-1.50|0.0001
92373302|NCT00673231|184648673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2523|<|0.0001|TWO_SIDED|95.0|-1.5|-0.5||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.50|-1.50|<0.0001
92373303|NCT00673231|184648673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|0.2578|<|0.0001|TWO_SIDED|95.0|-2.19|-1.18||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-1.18|-2.19|<0.0001
92373304|NCT00673231|184648674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.87|STANDARD_ERROR_OF_MEAN|1.3195|<|0.0001|TWO_SIDED|95.0|-9.46|-4.28||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-4.28|-9.46|<0.0001
92373305|NCT00673231|184648674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.69|STANDARD_ERROR_OF_MEAN|1.3045|<|0.0001|TWO_SIDED|95.0|-8.25|-3.13||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-3.13|-8.25|<0.0001
92373306|NCT00673231|184648674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.23|STANDARD_ERROR_OF_MEAN|1.3286|<|0.0001|TWO_SIDED|95.0|-8.84|-3.63||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-3.63|-8.84|<0.0001
92373307|NCT00673231|184648675|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.2|STANDARD_ERROR_OF_MEAN|3.536||0.0427|TWO_SIDED|95.0|0.2|14.1||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|Regression, Logistic|Methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, adjustment for stratum (other oral anti-diab med use) and baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||14.1|0.2|0.0427
92373308|NCT00673231|184648675|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.8|STANDARD_ERROR_OF_MEAN|3.434||0.0903|TWO_SIDED|95.0|-0.9|12.5||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|Regression, Logistic|Methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, adjustment for stratum (other oral anti-diab med use) and baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||12.5|-0.9|0.0903
92373309|NCT00673231|184648675|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.7|STANDARD_ERROR_OF_MEAN|3.634||0.0166|TWO_SIDED|95.0|1.6|15.8||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|Regression, Logistic|Methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, adjustment for stratum (other oral anti-diab med use) and baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||15.8|1.6|0.0166
92373310|NCT00673231|184648676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.8|STANDARD_ERROR_OF_MEAN|4.684||0.0008|TWO_SIDED|95.0|-25.0|-6.6||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-6.6|-25.0|0.0008
92373311|NCT00673231|184648676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.1|STANDARD_ERROR_OF_MEAN|4.616|||TWO_SIDED|95.0|-31.2|-13.1||Not significant. Hierarchical closed testing procedure within treatment group stopped at previous endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-13.1|-31.2|
92373312|NCT00673231|184648676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.0|STANDARD_ERROR_OF_MEAN|4.718|<|0.0001|TWO_SIDED|95.0|-34.3|-15.8||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-15.8|-34.3|<0.0001
92373313|NCT02063867|184648684|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.17
92373314|NCT02063867|184648685|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.16
92373315|NCT02063867|184648686|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.43
92168945|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.04||||0.6493|TWO_SIDED|95.0|0.87|1.24|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=50% reduction||1.24|0.87|0.6493
92168946|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.98||||0.7973|TWO_SIDED|95.0|0.82|1.17|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=50% reduction||1.17|0.82|0.7973
92168947|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.19||||0.0757|TWO_SIDED|95.0|0.98|1.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=70% reduction||1.45|0.98|0.0757
92373316|NCT02063867|184648693|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||<0.001
92373317|NCT02063867|184648694|SUPERIORITY|||||||0.0126||||||Remains significant after adjusting for multiple comparisons|Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.0126
92373318|NCT02063867|184648695|SUPERIORITY|||||||0.002||||||Remained significant after adjusting for multiple comparisons|Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.002
92373319|NCT02063867|184648696|SUPERIORITY|||||||0.0032||||||Remained significant after adjusting for multiple comparisons|Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.0032
92227958|NCT01162421|184358439|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|5.28||0.99|TWO_SIDED|95.0|-10.5|10.6||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||10.6|-10.5|0.990
92373320|NCT04470908|184648700|OTHER|Estimate the geometric least square mean ratio of Zanubrutinib vs Zanubrutinib + Rifabutin|Ratio of Geometric Least Squares Means|0.566|||||TWO_SIDED|90.0|0.525|0.61||||||||0.610|0.525|
92373321|NCT04470908|184648701|OTHER|Estimate the geometric least square mean ratio of Zanubrutinib vs Zanubrutinib + Rifabutin|Ratio of Geometric Least Squares Means|0.56|||||TWO_SIDED|90.0|0.532|0.589||||||||0.589|0.532|
92373322|NCT04470908|184648702|OTHER|Estimate the geometric least square mean ratio of Zanubrutinib vs Zanubrutinib + Rifabutin|Ratio of Geometric Least Squares Means|0.518|||||TWO_SIDED|90.0|0.441|0.608||||||||0.608|0.441|
92373323|NCT04376684|184648709|OTHER||Odds Ratio (OR)|1.32||||0.0456|TWO_SIDED|95.0|0.96|1.82||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.82|0.96|0.0456
92227959|NCT01162421|184358439|SUPERIORITY_OR_OTHER||LS Mean Difference|6.4|STANDARD_ERROR_OF_MEAN|5.36||0.238|TWO_SIDED|95.0|-4.3|17.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||17.1|-4.3|0.238
92227960|NCT01162421|184358439|SUPERIORITY_OR_OTHER||LS Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|5.54||0.207|TWO_SIDED|95.0|-4.0|18.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||18.1|-4.0|0.207
92227961|NCT01162421|184358440|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|5.28||0.85|TWO_SIDED|95.0|-11.5|9.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||9.5|-11.5|0.850
92373324|NCT04376684|184648710|OTHER||Odds Ratio (OR)|1.04||||0.8574|TWO_SIDED|95.0|0.67|1.61||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.61|0.67|0.8574
92373325|NCT04376684|184648711|OTHER||Odds Ratio (OR)|0.86||||0.2057|TWO_SIDED|95.0|0.61|1.22||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.22|0.61|0.2057
92373326|NCT04376684|184648712|OTHER||Odds Ratio (OR)|0.79||||0.3061|TWO_SIDED|95.0|0.5|1.24||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.24|0.50|0.3061
92373327|NCT04376684|184648713|OTHER||Odds Ratio (OR)|0.91||||0.6665|TWO_SIDED|95.0|0.59|1.41||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.41|0.59|0.6665
92373328|NCT04376684|184648714|OTHER||Hazard Ratio (HR)|0.88||||0.1942|TWO_SIDED|95.0|0.65|1.18||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.18|0.65|0.1942
92373329|NCT04376684|184648715|OTHER||Hazard Ratio (HR)|0.9||||0.5324|TWO_SIDED|95.0|0.65|1.24||p-value is generated from a two-sided test|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.24|0.65|0.5324
92373330|NCT04376684|184648716|OTHER||Odds Ratio (OR)|1.09||||0.2871|TWO_SIDED|95.0|0.8|1.49||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.49|0.80|0.2871
92373331|NCT04376684|184648717|OTHER||Odds Ratio (OR)|1.16||||0.1754|TWO_SIDED|95.0|0.85|1.58||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.58|0.85|0.1754
92373332|NCT04376684|184648718|OTHER||Odds Ratio (OR)|1.29||||0.0616|TWO_SIDED|95.0|0.93|1.79||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.79|0.93|0.0616
92373333|NCT04376684|184648719|OTHER||Odds Ratio (OR)|1.17||||0.183|TWO_SIDED|95.0|0.84|1.63||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.63|0.84|0.1830
92373334|NCT04376684|184648720|OTHER||Odds Ratio (OR)|1.51||||0.0831|TWO_SIDED|95.0|0.95|2.39||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||2.39|0.95|0.0831
92373335|NCT04376684|184648721|OTHER||Odds Ratio (OR)|1.29||||0.2557|TWO_SIDED|95.0|0.83|2.0||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||2.00|0.83|0.2557
92373336|NCT04376684|184648722|OTHER||Odds Ratio (OR)|1.04||||0.856|TWO_SIDED|95.0|0.67|1.61||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.61|0.67|0.8560
92373337|NCT04376684|184648723|OTHER||Odds Ratio (OR)|1.07||||0.7533|TWO_SIDED|95.0|0.69|1.66||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.66|0.69|0.7533
92373338|NCT04376684|184648724|OTHER||Hazard Ratio (HR)|1.12||||0.0959|TWO_SIDED|95.0|0.95|1.32||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.32|0.95|0.0959
92408446|NCT00298558|184706419|SUPERIORITY_OR_OTHER||Effect Size|0.38|||<|0.01|TWO_SIDED|99.0|0.02|0.74|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.74|0.02|<0.01
92408447|NCT00298558|184706419|SUPERIORITY_OR_OTHER||Effect Size|0.36|||<|0.01|TWO_SIDED|99.0|0.01|0.72|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.72|0.01|<0.01
92408448|NCT00298558|184706420|SUPERIORITY_OR_OTHER||Effect Size|0.004||||0.97|TWO_SIDED|99.0|-0.23|0.24|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.24|-0.23|0.97
92408449|NCT00298558|184706420|SUPERIORITY_OR_OTHER||Effect Size|-0.02||||0.86|TWO_SIDED|99.0|-0.25|0.22|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.22|-0.25|0.86
92408450|NCT00298558|184706420|SUPERIORITY_OR_OTHER||Effect Size|0.008||||0.93|TWO_SIDED|99.0|-0.23|0.24|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.24|-0.23|0.93
92227962|NCT01162421|184358440|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|5.49||0.129|TWO_SIDED|95.0|-19.4|2.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||2.5|-19.4|0.129
92227963|NCT01162421|184358440|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|5.62||0.937|TWO_SIDED|95.0|-10.8|11.6||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||11.6|-10.8|0.937
92373339|NCT04376684|184648725|OTHER||Hazard Ratio (HR)|1.12||||0.4421|TWO_SIDED|95.0|0.84|1.5||p-value is generated from a two-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.50|0.84|0.4421
92227964|NCT01162421|184358440|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|5.59||0.67|TWO_SIDED|95.0|-13.5|8.8||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||8.8|-13.5|0.670
92227965|NCT01162421|184358440|SUPERIORITY_OR_OTHER||LS Mean Difference|5.4|STANDARD_ERROR_OF_MEAN|5.67||0.341|TWO_SIDED|95.0|-5.9|16.7||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||16.7|-5.9|0.341
92373340|NCT04376684|184648726|OTHER||Odds Ratio (OR)|1.14||||0.2814|TWO_SIDED|95.0|0.73|1.8||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.80|0.73|0.2814
92373341|NCT04376684|184648727|OTHER||Odds Ratio (OR)|1.04||||0.3901|TWO_SIDED|95.0|0.77|1.42||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.42|0.77|0.3901
92373342|NCT04376684|184648728|OTHER||Odds Ratio (OR)|1.01||||0.4763|TWO_SIDED|95.0|0.75|1.36||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.36|0.75|0.4763
92373343|NCT04376684|184648729|OTHER||Odds Ratio (OR)|1.14||||0.1973|TWO_SIDED|95.0|0.84|1.56||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.56|0.84|0.1973
92373344|NCT04376684|184648730|OTHER||Odds Ratio (OR)|1.21||||0.1173|TWO_SIDED|95.0|0.88|1.67||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.67|0.88|0.1173
92373345|NCT04376684|184648731|OTHER||Odds Ratio (OR)|3.98||||0.0037|TWO_SIDED|95.0|1.57|10.13||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||10.13|1.57|0.0037
92373346|NCT04376684|184648732|OTHER||Odds Ratio (OR)|1.26||||0.3581|TWO_SIDED|95.0|0.77|2.06||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||2.06|0.77|0.3581
92373347|NCT04376684|184648733|OTHER||Odds Ratio (OR)|0.99||||0.9621|TWO_SIDED|95.0|0.63|1.54||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.54|0.63|0.9621
92373348|NCT04376684|184648734|OTHER||Odds Ratio (OR)|0.83||||0.4167|TWO_SIDED|95.0|0.54|1.29||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.29|0.54|0.4167
92227966|NCT01162421|184358440|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|6.13||0.621|TWO_SIDED|95.0|-9.2|15.3||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||15.3|-9.2|0.621
92227967|NCT01162421|184358441|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|3.29||0.697|TWO_SIDED|95.0|-5.3|7.9||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||7.9|-5.3|0.697
92373349|NCT04376684|184648735|OTHER||Odds Ratio (OR)|0.81||||0.3408|TWO_SIDED|95.0|0.53|1.25||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.25|0.53|0.3408
92373350|NCT04376684|184648736|OTHER||Hazard Ratio (HR)|1.02||||0.425|TWO_SIDED|95.0|0.85|1.23||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.23|0.85|0.4250
92373351|NCT04376684|184648737|OTHER||Hazard Ratio (HR)|1.13||||0.4774|TWO_SIDED|95.0|0.81|1.59||p-value is generated from a two-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.59|0.81|0.4774
92227968|NCT01162421|184358441|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|4.51||0.744|TWO_SIDED|95.0|-10.5|7.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||7.5|-10.5|0.744
92373352|NCT04376684|184648738|OTHER||Odds Ratio (OR)|0.4||||0.0119|TWO_SIDED|95.0|0.18|0.89||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||0.89|0.18|0.0119
92373353|NCT04376684|184648739|OTHER||Hazard Ratio (HR)|1.02||||0.4404|TWO_SIDED|95.0|0.83|1.24||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.24|0.83|0.4404
92373354|NCT04376684|184648740|OTHER||Hazard Ratio (HR)|1.11||||0.6253|TWO_SIDED|95.0|0.72|1.72||p-value is generated from a two-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.72|0.72|0.6253
92408451|NCT00298558|184706421|SUPERIORITY_OR_OTHER||Effect Size|0.02||||0.78|TWO_SIDED|99.0|-0.19|0.23|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.23|-0.19|0.78
92408452|NCT00298558|184706421|SUPERIORITY_OR_OTHER||Effect Size|-0.004||||0.96|TWO_SIDED|99.0|-0.21|0.21|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.21|-0.21|0.96
92408453|NCT00298558|184706421|SUPERIORITY_OR_OTHER||Effect Size|-0.05||||0.56|TWO_SIDED|99.0|-0.26|0.16|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.16|-0.26|0.56
92408454|NCT02260180|184706539|SUPERIORITY|2-tail alpha was set to 0.05 with no adjustment for multiple comparisons.|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92373355|NCT04376684|184648741|OTHER||Hazard Ratio (HR)|1.11||||0.1078|TWO_SIDED|95.0|0.94|1.3||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.30|0.94|0.1078
92373356|NCT04376684|184648742|OTHER||Hazard Ratio (HR)|1.11||||0.114|TWO_SIDED|95.0|0.94|1.31||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.31|0.94|0.1140
92168948|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.21||||0.0578|TWO_SIDED|95.0|0.99|1.47|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=70% reduction||1.47|0.99|0.0578
92373357|NCT04376684|184648743|OTHER||Hazard Ratio (HR)|1.06||||0.7084|TWO_SIDED|95.0|0.8|1.4||p-value is generated from a two-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.40|0.80|0.7084
92408455|NCT02260180|184706539|SUPERIORITY||||||<|0.0001|||||||Chi-squared|2-tail alpha was set to 0.05 with no adjustment for multiple comparisons.||||||<0.0001
92168949|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.02||||0.901|TWO_SIDED|95.0|0.76|1.37|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=90% reduction||1.37|0.76|0.9010
92168950|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0548|TWO_SIDED|95.0|0.99|1.74|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=90% reduction||1.74|0.99|0.0548
92408456|NCT02260180|184706540|SUPERIORITY||||||<|0.0001||||||No adjustment for multiple comparisons were made.|ANCOVA|Baseline PLA was the covariate. Comparisons were performed within the model using least-squares means and the common error term.||||||<0.0001
92408457|NCT02260180|184706540|OTHER||||||<|0.0001||||||No adjustment for multiple comparisons were conducted.|ANCOVA|Baseline PLA was the covariate. Comparisons were performed within the model using least-squares means and the common error term.||The primary efficacy analysis of mean change from baseline to Visit 8 PLA was performed using analysis of covariance (ANCOVA) with baseline PLA as the covariate. Comparisons between vehicle and each A-101 group were performed within the model using least-squares means and the common error term.||||<0.0001
92373358|NCT04376684|184648744|OTHER||Hazard Ratio (HR)|1.13||||0.4085|TWO_SIDED|95.0|0.84|1.52||p-value is generated from a two-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.52|0.84|0.4085
92373359|NCT02470585|184648794|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|0.435|||<|0.001|TWO_SIDED|95.0|0.277|0.683||A 2-sided p-value of ≤ 0.05 was considered statistically significant in the following hierarchical testing sequence: PFS was to be compared first in the BRCA-mutation cohort, then in the HRD cohort, and then in the ITT population.|Log Rank|Stratified according to residual disease status and disease stage.|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The primary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Veliparib group (Arm 3) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||0.683|0.277|<0.001
92373360|NCT02470585|184648795|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|0.572|||<|0.001|TWO_SIDED|95.0|0.433|0.756||A 2-sided p-value of ≤ 0.05 was considered statistically significant in the following hierarchical testing sequence: PFS was to be compared first in the BRCA-mutation cohort, then in the HRD cohort, and then in the ITT population.|Log Rank|Stratified according to residual disease status and disease stage.|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The primary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Veliparib group (Arm 3) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||0.756|0.433|<0.001
92373361|NCT02470585|184648796|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|0.683|||<|0.001|TWO_SIDED|95.0|0.562|0.831||A 2-sided p-value of ≤ 0.05 was considered statistically significant in the following hierarchical testing sequence: PFS was to be compared first in the BRCA-mutation cohort, then in the HRD cohort, and then in the ITT population.|Log Rank|Stratified according to residual disease status and disease stage, choice of the paclitaxel regimen, and BRCA-mutation status|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The primary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Veliparib group (Arm 3) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||0.831|0.562|<0.001
92373362|NCT02470585|184648797|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|1.215||||0.335|TWO_SIDED|95.0|0.821|1.799|||Log Rank|Stratified according to residual disease status and disease stage.|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The secondary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Placebo group (Arm 2) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||1.799|0.821|0.335
92373363|NCT02470585|184648798|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|1.1||||0.462|TWO_SIDED|95.0|0.855|1.414|||Log Rank|Stratified according to residual disease status and disease stage.|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The secondary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Placebo group (Arm 2) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||1.414|0.855|0.462
92408458|NCT00943072|184706543|SUPERIORITY_OR_OTHER||Risk Difference (RD)|44.8|||<|0.0001|TWO_SIDED|95.0|33.0|56.6||P-value for the primary endpoint was calculated using 2-sided Cochran-Mantel-Haenszel test adjusted by regions (North America vs. Rest of World) and baseline BCVA (BCVA \> 20/200 and BCVA ≤ 20/200)|Cochran-Mantel-Haenszel|CMH adjusted difference|The Risk Difference (RD) indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group.|||56.6|33.0|< 0.0001
92408459|NCT00943072|184706544|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.7|||<|0.0001|TWO_SIDED|95.0|17.36|26.04|||ANCOVA||RD is the IAI group minus sham group. 95% confidence interval is for the RD.|||26.04|17.36|< 0.0001
92408460|NCT00943072|184706544|SUPERIORITY_OR_OTHER||Least Square Mean|16.36|||||||||||ANCOVA||LS Mean indicates is the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group.|||||
92408461|NCT00943072|184706545|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-311.9|||<|0.0001|TWO_SIDED|95.0|-389.4|-234.4|||ANCOVA||The Risk Difference (RD) indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group. 95% confidence interval is for the RD.|||-234.4|-389.4|< 0.0001
92408462|NCT00943072|184706545|SUPERIORITY_OR_OTHER||Least Square Mean|-487.1|||||||||||ANCOVA||The Least Square Mean indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group.|||||
92408463|NCT00943072|184706546|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-6.6||||0.0059|TWO_SIDED|95.0|-12.2|-1.1|||Cochran-Mantel-Haenszel|CMH adjusted difference|The Risk Difference (RD) indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group. 95% confidence interval is for the RD.|||-1.1|-12.2|0.0059
92408464|NCT00943072|184706547|SUPERIORITY_OR_OTHER||Risk Difference (RD)|6.26||||0.0009|TWO_SIDED|95.0|2.61|9.91|||ANCOVA||The Risk Difference (RD) indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group. 95% confidence interval is for the RD.|||9.91|2.61|0.0009
92408465|NCT00943072|184706547|SUPERIORITY_OR_OTHER||Least Square Mean|8.8|||||||||||ANCOVA||Least Square Mean indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group.|||||
92408466|NCT00408200|184706569|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
92408467|NCT02289157|184706621|OTHER||Risk Ratio (RR)|0.9||||0.54|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|Ho: There is no difference between number of patients with wound complications between the study (icNPT) and comparison groups.||||1.4|0.5|0.54
92227969|NCT01162421|184358441|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|3.95||0.967|TWO_SIDED|95.0|-7.7|8.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||8.0|-7.7|0.967
92373364|NCT02470585|184648799|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|1.073||||0.45|TWO_SIDED|95.0|0.895|1.287|||Log Rank|Stratified according to residual disease status and disease stage, choice of the paclitaxel regimen, and BRCA-mutation status|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The secondary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Placebo group (Arm 2) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||1.287|0.895|0.450
92408468|NCT02289157|184706622|OTHER|||||||0.31|||||||Chi-squared|Pearson Chi-squared, df (3)||Ho: There is no difference between the types wound morbidity in the study (icNPT) and comparison groups.||||0.31
92408469|NCT02289157|184706623|OTHER|||||||0.54||||||Ho: There is no difference between initial length of stay between the study (icNPT) and comparison groups.|Wilcoxon (Mann-Whitney)|||||||0.54
92408470|NCT02289157|184706624|OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Ho: There is no difference in length of stay after readmission for wound morbidity between the study (icNPT) and comparison groups.||||0.41
92227970|NCT01162421|184358441|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|3.3||0.377|TWO_SIDED|95.0|-3.7|9.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||9.5|-3.7|0.377
92227971|NCT01162421|184358441|SUPERIORITY_OR_OTHER||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|3.5||0.122|TWO_SIDED|95.0|-1.5|12.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||12.4|-1.5|0.122
92227972|NCT01162421|184358441|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|3.42||0.49|TWO_SIDED|95.0|-4.4|9.2||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||9.2|-4.4|0.490
92227973|NCT01162421|184358442|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.102|TWO_SIDED|95.0|-1.0|0.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 3||0.1|-1.0|0.102
92408471|NCT02289157|184706625|OTHER|||||||0.38|||||||Chi-squared|||Ho: There is no difference between the number of ER visits made per person between the study (icNPT) and comparison groups.||||0.38
92408472|NCT02289157|184706626|OTHER|||||||0.48||||||Ho: There is no difference between the number of visits made to the clinic for wound morbidity per patient between the study (icNPT) and comparison groups.|Chi-squared|||||||0.48
92408473|NCT02289157|184706627|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Ho: There is no difference between number of readmissions between the study (icNPT) and comparison groups.||||0.52
92408474|NCT02289157|184706627|OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Ho: There is no difference in the use of post operative antimicrobials between the the study (icNPT) and comparison groups.||||0.45
92408475|NCT02289157|184706627|OTHER|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Ho: There is no difference in the number of patients with Incision and Drainage and/or Extirpation between the study (icNPT) and comparison groups.||||0.44
92408476|NCT02289157|184706628|OTHER|Cochran-Mantel-Haenzel test for interactions between different risk factors: scheduled vs unscheduled cesarean section and icNPT vs Standard dressing||||||0.68||||||Ho: There is no difference between patients with wound morbidity that is significantly affected by the use of icNPT and whether or not the cesarean is scheduled or unscheduled.|Cochran-Mantel-Haenszel|||||||0.68
92408477|NCT02289157|184706629|OTHER|Cochran-Mantel-Haenzel test for interactions between different risk factors: pfannenstiel vs midline abdominal incision and icNPT vs Standard dressing||||||0.27|||||||Cochran-Mantel-Haenszel|||||||0.27
92408478|NCT02289157|184706630|OTHER|Cochran-Mantel-Haenzel test for interactions between different risk factors: ruptured vs unruptured membranes and icNPT vs Standard dressing||||||0.55|||||||Cochran-Mantel-Haenszel|||||||0.55
92408479|NCT02289157|184706631|OTHER|Cochran-Mantel-Haenzel test for interactions between labor vs no labor stratified by icNPT vs Standard dressing||||||0.49|||||||Cochran-Mantel-Haenszel|||||||0.49
92408480|NCT02289157|184706632|OTHER|Cochran-Mantel-Haenzel measure used to estimate interaction between patients with hypertension versus no hypertension stratified by icNPT versus standard dressing in wound morbidity||||||0.92|||||||Cochran-Mantel-Haenszel|||||||0.92
92408481|NCT02289157|184706633|OTHER|Cochran-Mantel-Haenzel measure used to estimate interaction in icNPT and Standard wound dressings stratified by women with insulin requiring diabetes and no insulin requiring Diabetes.||||||0.22|||||||Cochran-Mantel-Haenszel|||||||0.22
92408482|NCT02289157|184706634|OTHER|Cochran-Mantel-Haenzel measure used to estimate interaction between chorioamnionitis and no chorioamnionitis stratified by icNPT and standard dressing, for wound morbidity||||||0.74|||||||Cochran-Mantel-Haenszel|||||||0.74
92408483|NCT01388335|184706636|SUPERIORITY_OR_OTHER_LEGACY||Ratio|0.81|||||TWO_SIDED|90.0|0.691|0.95|||||Ratio of Geometric LS mean is for S-warfarin.|||0.950|0.691|
92227974|NCT01162421|184358442|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.29||0.003|TWO_SIDED|95.0|-1.5|-0.3||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.01.||Month 6||-0.3|-1.5|0.003
92227975|NCT01162421|184358442|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.29||0.214|TWO_SIDED|95.0|-0.9|0.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 9||0.2|-0.9|0.214
92227976|NCT01162421|184358442|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.339|TWO_SIDED|95.0|-0.8|0.3||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 12||0.3|-0.8|0.339
92227977|NCT01162421|184358442|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.973|TWO_SIDED|95.0|-0.6|0.6||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||0.6|-0.6|0.973
92227978|NCT01162421|184358442|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.755|TWO_SIDED|95.0|-0.6|0.5||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||0.5|-0.6|0.755
92227979|NCT01162421|184358443|SUPERIORITY_OR_OTHER||Difference in percentage|9.4||||0.316|TWO_SIDED|95.0|-7.09|25.13|||Fisher Exact|Two-sided Fisher Exact test.||Month 3||25.13|-7.09|0.316
92227980|NCT01162421|184358443|SUPERIORITY_OR_OTHER||Difference in percentage|24.5||||0.014|TWO_SIDED|95.0|6.09|42.85|||Chi-squared|P-value is based on two-sided Pearson's chi-square test. The a priori threshold for statistical significance is P=0.05.||Month 6||42.85|6.09|0.014
92227981|NCT01162421|184358443|SUPERIORITY_OR_OTHER||Difference in percentage|-3.2||||0.762|TWO_SIDED|95.0|-24.1|17.66|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||17.66|-24.10|0.762
92227982|NCT01162421|184358443|SUPERIORITY_OR_OTHER||Difference in percentage|13.0||||0.22|TWO_SIDED|95.0|-7.46|33.54|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||33.54|-7.46|0.220
92227983|NCT01162421|184358443|SUPERIORITY_OR_OTHER||Difference in percentage|-3.5||||0.747|TWO_SIDED|95.0|-24.9|17.86|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||17.86|-24.90|0.747
92227984|NCT01162421|184358443|SUPERIORITY_OR_OTHER||Difference in percentage|-4.4||||0.701|TWO_SIDED|95.0|-26.8|18.01|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||18.01|-26.80|0.701
92408484|NCT01388335|184706636|SUPERIORITY_OR_OTHER_LEGACY||Ratio|0.912|||||TWO_SIDED|90.0|0.815|1.02|||||Ratio of Geometric LS mean is for R-warfarin.|||1.02|0.815|
92227985|NCT01162421|184358444|SUPERIORITY_OR_OTHER||Difference in percentage|10.5||||0.318|TWO_SIDED|95.0|-9.83|30.78|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||30.78|-9.83|0.318
92227986|NCT01162421|184358444|SUPERIORITY_OR_OTHER||Difference in percentage|22.7||||0.047|TWO_SIDED|95.0|1.03|44.39|||Chi-squared|P-value is based on two-sided Pearson's chi-square test. The a priori threshold for statistical significance is P=0.05.||Month 6||44.39|1.03|0.047
92227987|NCT01162421|184358444|SUPERIORITY_OR_OTHER||Difference in percentage|5.0||||0.668|TWO_SIDED|95.0|-17.74|27.71|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||27.71|-17.74|0.668
92227988|NCT01162421|184358444|SUPERIORITY_OR_OTHER||Difference in percentage|7.8||||0.5|TWO_SIDED|95.0|-14.88|30.56|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||30.56|-14.88|0.500
92227989|NCT01162421|184358444|SUPERIORITY_OR_OTHER||Difference in percentage|-2.7||||0.816|TWO_SIDED|95.0|-25.52|20.1|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||20.10|-25.52|0.816
92227990|NCT01162421|184358444|SUPERIORITY_OR_OTHER||Difference in percentage|-10.7||||0.358|TWO_SIDED|95.0|-33.38|11.99|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||11.99|-33.38|0.358
92227991|NCT01162421|184358445|SUPERIORITY_OR_OTHER||Difference in percentage|7.9||||0.444|TWO_SIDED|95.0|-12.17|28.0|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||28.00|-12.17|0.444
92227992|NCT01162421|184358445|SUPERIORITY_OR_OTHER||Difference in percentage|20.1||||0.076|TWO_SIDED|95.0|-1.53|41.83|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||41.83|-1.53|0.076
92408485|NCT01388335|184706637|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.98|||||TWO_SIDED|90.0|0.76|3.5|||||Median Difference (Final Values) is for S-warfarin.|||3.50|0.76|
92227993|NCT01162421|184358445|SUPERIORITY_OR_OTHER||Difference in percentage|2.7||||0.816|TWO_SIDED|95.0|-20.1|25.52|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||25.52|-20.10|0.816
92408486|NCT01388335|184706637|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|2.5|||||TWO_SIDED|90.0|-1.0|6.84|||||Median Difference (Final Values) is for R-warfarin.|||6.84|-1.00|
92408487|NCT01388335|184706638|SUPERIORITY_OR_OTHER_LEGACY||Ratio|1.28|||||TWO_SIDED|90.0|1.14|1.44|||||Ratio of Geometric LS mean is for S-warfarin.|||1.44|1.14|
92408488|NCT01388335|184706638|SUPERIORITY_OR_OTHER_LEGACY||Ratio|1.26|||||TWO_SIDED|90.0|1.08|1.47|||||Ratio of Geometric LS mean is for R-warfarin.|||1.47|1.08|
92408489|NCT01388335|184706643|SUPERIORITY_OR_OTHER_LEGACY||Ratio|0.92|||||TWO_SIDED|90.0|0.86|1.0|||||Ratio of Geometric LS mean.|||1.00|0.86|
92408490|NCT01388335|184706644|SUPERIORITY_OR_OTHER_LEGACY||Ratio|0.98|||||TWO_SIDED|90.0|0.95|1.02|||||Ratio of Geometric LS mean.|||1.02|0.95|
92408491|NCT01388335|184706647|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Geometric LS Mean|1.03||||||90.0|0.99|1.08|||||Ratio of Geometric LS mean for Period 2, Day 14, 0 hours.|||1.08|0.99|
92408492|NCT01388335|184706647|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Geometric LS Means|1.02|||||TWO_SIDED|90.0|0.98|1.06|||||Ratio of Geometric LS mean for Period 2, Day 14, 4 hours.|||1.06|0.98|
92227994|NCT01162421|184358445|SUPERIORITY_OR_OTHER||Difference in percentage|8.1||||0.485|TWO_SIDED|95.0|-14.61|30.87|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||30.87|-14.61|0.485
92227995|NCT01162421|184358445|SUPERIORITY_OR_OTHER||Difference in percentage|-2.7||||0.816|TWO_SIDED|95.0|-25.52|20.1|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||20.10|-25.52|0.816
92227996|NCT01162421|184358445|SUPERIORITY_OR_OTHER||Difference in percentage|-10.7||||0.358|TWO_SIDED|95.0|-33.38|11.99|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||11.99|-33.38|0.358
92373365|NCT02470585|184648800|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.328|TWO_SIDED|95.0|0.567|1.429||Stratified by residual disease (no residual disease after primary surgery versus any residual disease after primary surgery or interval surgery) and stage of disease (stage III versus stage IV)|Log Rank||Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above|Veliparib + Carboplatin + Paclitaxel -\> Veliparib (Arm 3) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.429|0.567|0.328
92373366|NCT02470585|184648800|SUPERIORITY||Hazard Ratio (HR)|1.218||||0.808|TWO_SIDED|95.0|0.78|1.903||Stratified by residual disease (no residual disease after primary surgery versus any residual disease after primary surgery or interval surgery) and stage of disease (stage III versus stage IV)|Log Rank||Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|Veliparib + Carboplatin + Paclitaxel -\> Placebo (Arm 2) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.903|0.780|0.808
92373367|NCT02470585|184648801|SUPERIORITY||Hazard Ratio (HR)|0.844||||0.116|TWO_SIDED|95.0|0.64|1.114||Stratified by residual disease (no residual disease after primary surgery versus any residual disease after primary surgery or interval surgery) and stage of disease (stage III versus stage IV)|Log Rank||Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|Veliparib + Carboplatin + Paclitaxel -\> Veliparib (Arm 3) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.114|0.640|0.116
92373368|NCT02470585|184648801|SUPERIORITY||Hazard Ratio (HR)|0.949||||0.352|TWO_SIDED|95.0|0.726|1.242||Stratified by residual disease (no residual disease after primary surgery versus any residual disease after primary surgery or interval surgery) and stage of disease (stage III versus stage IV)|Log Rank||Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|Veliparib + Carboplatin + Paclitaxel -\> Placebo (Arm 2) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.242|0.726|0.352
92373369|NCT02470585|184648802|SUPERIORITY||Hazard Ratio (HR)|0.946||||0.283|TWO_SIDED|95.0|0.782|1.144||Stratified by residual disease (none after primary surgery vs any residual disease after primary/interval surgery); disease stage (III vs IV); paclitaxel dosing (Q-weekly vs Q3-weekly); BRCA-Deficient status (Deficient vs wildtype or unknown/missing)|Log Rank|||Veliparib + Carboplatin + Paclitaxel -\> Veliparib (Arm 3) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.144|0.782|0.283
92373370|NCT02470585|184648802|SUPERIORITY||Hazard Ratio (HR)|1.034||||0.638|TWO_SIDED|95.0|0.859|1.244||Stratified by residual disease (none after primary surgery vs any residual disease after primary/interval surgery); disease stage (III vs IV); paclitaxel dosing (Q-weekly vs Q3-weekly); BRCA-Deficient status (Deficient vs wildtype or unknown/missing)|Log Rank||Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above|Veliparib + Carboplatin + Paclitaxel -\> Placebo (Arm 2) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.244|0.859|0.638
92373371|NCT02602275|184648806|SUPERIORITY|||||||0.004||||||Significance level is 0.05, corrected for multiple comparisons in the search volume which is anatomically defined by the Automated Anatomical Labelling Atlas (AAL) coordinates.|Paired t-test|||||||0.004
92408493|NCT00976560|184706653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|0.99|||TWO_SIDED|95.0|-2.54|1.35|||BMMRM|Bayesian Mixed Effects Model Repeated Measures (BMMRM)|Prior distribution of N(-4.1, 6.4009) incorporated into the posterior for the treatment difference at Week 6. The presented Confidence Interval is Highest Probability Density (HPD).||Posterior probability of the treatment difference being greater than 1.6 points in favor of GW856553 7.5mg BID as compared to placebo at Week 6 is 15.46 and for 0 is 72.98 and for 2 is 7.87.|1.35|-2.54|
92277817|NCT02363010|184457835|SUPERIORITY|||||||0.481||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that baseline Hedonic Hunger would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.481
92373372|NCT02602275|184648807|SUPERIORITY||||||>|0.05||||||Significance level is 0.05, corrected for multiple comparisons in the search volume which is anatomically defined by the Automated Anatomical Labelling Atlas (AAL) coordinates.|Paired t-test|||||||>0.05
92408494|NCT00125164|184706676|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.79|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001||95.0|1.19|2.39||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||2.39|1.19|<0.0001
92227997|NCT01162421|184358446|SUPERIORITY_OR_OTHER||Difference in percentage|11.6||||0.316|TWO_SIDED|95.0|-10.84|33.99|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||33.99|-10.84|0.316
92227998|NCT01162421|184358446|SUPERIORITY_OR_OTHER||Difference in percentage|5.1||||0.63|TWO_SIDED|95.0|-15.43|25.54|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||25.54|-15.43|0.630
92227999|NCT01162421|184358446|SUPERIORITY_OR_OTHER||Difference in percentage|-0.4||||0.972|TWO_SIDED|95.0|-20.94|20.21|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||20.21|-20.94|0.972
92408495|NCT00125164|184706676|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.58|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001||95.0|1.99|3.16||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||3.16|1.99|< 0.0001
92373373|NCT02602275|184648808|SUPERIORITY||||||<|0.001||||||Significance level was 0.05.|Paired t-test|The outcome was deemed exploratory, as multiplicity was controlled using a priori ordered hypotheses, but the preceding endpoint was not met.||||||<0.001
92228000|NCT01162421|184358446|SUPERIORITY_OR_OTHER||Difference in percentage|-14.1||||0.186|TWO_SIDED|95.0|-34.83|6.7|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||6.70|-34.83|0.186
92373374|NCT02602275|184648809|SUPERIORITY||||||>|0.05||||||Significance level is 0.05, corrected for multiple comparisons in the search volume which is anatomically defined by the Automated Anatomical Labelling Atlas (AAL) coordinates.|Paired t-test|||||||>0.05
92373375|NCT02602275|184648810|SUPERIORITY||||||<|0.05||||||Significance level is 0.05, corrected for multiple comparisons in the search volume which is anatomically defined by the AAL (Automated Anatomical Labelling Atlas) coordinates.|Paired t-test|The outcome was deemed exploratory, as multiplicity was controlled using a priori ordered hypotheses, but a preceding endpoint was not met.||||||<0.05
92373376|NCT02241733|184648832|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||An independent t-test was completed.||||0.94
92373377|NCT02241733|184648833|SUPERIORITY|||||||0.078|||||||t-test, 2 sided|||||||0.078
92373378|NCT02241733|184648834|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.80
92373379|NCT02241733|184648835|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||0.76
92373380|NCT01866111|184648860|SUPERIORITY||||||<|0.001|||||||ANCOVA|||A step down procedure was used for the primary efficacy analyses to ensure the type one error rate for multiple comparisons was controlled at the 5% level using the following hierarchy: 200 mg vs placebo, 400 mg vs placebo, 100 mg vs placebo, in which a statistically significant difference had to be detected in this order for each subsequent comparison to occur.||||<0.001
92373381|NCT01866111|184648860|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92373382|NCT01866111|184648860|SUPERIORITY|||||||0.007|||||||ANCOVA|||||||0.007
92228001|NCT01162421|184358446|SUPERIORITY_OR_OTHER||Difference in percentage|-12.6||||0.142|TWO_SIDED|95.0|-29.46|4.26|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||4.26|-29.46|0.142
92373383|NCT01866111|184648861|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92408496|NCT00125164|184706676|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.79|STANDARD_ERROR_OF_MEAN|0.26||0.0032||95.0|0.27|1.31|||ANCOVA|||The analysis compares the 80 and 120 µg/kg BID groups using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||1.31|0.27|0.0032
92228002|NCT01162421|184358446|SUPERIORITY_OR_OTHER||Difference in percentage|-4.0||||0.727|TWO_SIDED|95.0|-20.34|11.52|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||11.52|-20.34|0.727
92228003|NCT01162421|184358447|SUPERIORITY_OR_OTHER||Difference in percentage|6.8||||0.486|TWO_SIDED|95.0|-9.21|22.22|||Fisher Exact|Two-sided Fisher Exact test.||||22.22|-9.21|0.486
92228004|NCT01162421|184358448|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.13||0.809|TWO_SIDED|95.0|-0.23|0.29||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||0.29|-0.23|0.809
92373384|NCT01866111|184648861|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92373385|NCT01866111|184648861|SUPERIORITY|||||||0.003|||||||Fisher Exact|||||||0.003
92373386|NCT04113018|184648889|SUPERIORITY||Response rate|0.5385||||0.375|TWO_SIDED|95.0|0.3718|0.6991|||Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|A minimax 2-stage design was used to test the hypothesis that the CR+ rate less than or equal to 50%. Twenty-three evaluable subjects were enrolled in the first stage, followed by an additional 16 subjects for a total of 39 subjects. This design provided 90% power to detect a difference of 20% under the alternative hypothesis, assuming a one-sided alpha=0.10 significance level. If at least 24 of 39 participants had achieved CR or better to induction, the null hypothesis would have been rejected.||0.6991|0.3718|0.375
92373387|NCT04113018|184648896|OTHER|Estimation only|Rate|0.0513|||||TWO_SIDED|95.0|0.0063|0.1732|||||Confidence interval estimated using the Clopper Pearson method.|||0.1732|0.0063|
92373388|NCT04113018|184648897|OTHER|Estimation only.|Rate|0.0256|||||TWO_SIDED|95.0|0.0006|0.1348|||||Confidence interval estimated using the Clopper Pearson method.|||0.1348|0.0006|
92373389|NCT03802630|184648904|NON_INFERIORITY|Non-inferiority was considered established if the lower limit of the corresponding 95% CI for the estimated between group difference (brolucizumab vs. aflibercept) on change from baseline in BCVA at Week 24 is greater than -4 letters.|Least Square Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.01||0.018|TWO_SIDED|95.0|-3.9|0.1|||ANOVA|||||0.1|-3.9|0.018
92373390|NCT06099223|184648937|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92373391|NCT06099223|184648938|SUPERIORITY|||||||0.029|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.029
92373392|NCT06099223|184648940|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92373393|NCT06099223|184648941|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
92373394|NCT06099223|184648942|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||||||0.61
92373395|NCT06099223|184648943|SUPERIORITY|||||||0.37|||||||Chi-squared|||||||0.37
92373396|NCT06099223|184648944|SUPERIORITY|||||||0.11|||||||Fisher Exact|||||||0.11
92373397|NCT06099223|184648945|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
92373398|NCT06099223|184648946|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
92373399|NCT06099223|184648947|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||0.087
92373400|NCT06099223|184648948|SUPERIORITY|||||||0.147|||||||t-test, 2 sided|||||||0.147
92373401|NCT06099223|184648949|SUPERIORITY|||||||0.098|||||||t-test, 2 sided|||||||0.098
92373402|NCT06099223|184648950|SUPERIORITY|||||||0.41|||||||Chi-squared|||||||0.41
92373403|NCT06099223|184648951|SUPERIORITY|||||||0.79|||||||Chi-squared|||||||0.79
92373404|NCT06099223|184648952|SUPERIORITY|||||||0.58|||||||Chi-squared|||||||0.58
92373405|NCT06099223|184648954|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
92373406|NCT06099223|184648955|SUPERIORITY|||||||0.919|||||||ANCOVA|||||||0.919
92228005|NCT01162421|184358448|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.132||0.194|TWO_SIDED|95.0|-0.44|0.09||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||0.09|-0.44|0.194
92373407|NCT04283994|184648963|SUPERIORITY||Risk Difference (RD)|0.114||||0.023|TWO_SIDED|95.0|0.03|0.197||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital site and dementia diagnosis. Confidence intervals using robust standard errors.|A total sample size of 600 (200 per arm) would give 80% power to detect a difference in proportions of 0.16 for each of the 3 pairwise comparisons assuming an overall 0.5 significance threshold, a Bonferroni adjustment for the 3 comparisons, and variance based on a proportion of 0.54.||0.197|0.030|0.023
92373408|NCT04283994|184648963|SUPERIORITY||Risk Difference (RD)|0.068||||0.294|TWO_SIDED|95.0|-0.013|0.15||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bidirectional intervention - usual care. Estimated via linear regression after adjusting for hospital site and dementia diagnosis. Confidence intervals using robust standard errors.|A total sample size of 600 (200 per arm) would give 80% power to detect a difference in proportions of 0.16 for each of the 3 pairwise comparisons assuming an overall 0.5 significance threshold, a Bonferroni adjustment for the 3 comparisons, and variance based on a proportion of 0.54.||0.150|-0.013|0.294
92373409|NCT04283994|184648963|SUPERIORITY||Risk Difference (RD)|-0.045||||0.952|TWO_SIDED|95.0|-0.134|0.044||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bidirectional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital site and dementia diagnosis. Confidence intervals using robust standard errors.|A total sample size of 600 (200 per arm) would give 80% power to detect a difference in proportions of 0.16 for each of the 3 pairwise comparisons assuming an overall 0.5 significance threshold, a Bonferroni adjustment for the 3 comparisons, and variance based on a proportion of 0.54.||0.044|-0.134|0.952
92373410|NCT04283994|184648970|SUPERIORITY||Mean Difference (Final Values)|-0.3||||1.65|TWO_SIDED|95.0|-1.3|0.7||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.7|-1.3|1.650
92373411|NCT04283994|184648970|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.985|TWO_SIDED|95.0|-1.6|0.5||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.5|-1.6|0.985
92373412|NCT04283994|184648970|SUPERIORITY||Mean Difference (Final Values)|0.2||||2.155|TWO_SIDED|95.0|-1.0|1.4||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||1.4|-1.0|2.155
92373413|NCT04283994|184648971|SUPERIORITY||Mean Difference (Final Values)|0.7||||2.169|TWO_SIDED|95.0|-3.1|4.4||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis,|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||4.4|-3.1|2.169
92373414|NCT04283994|184648971|SUPERIORITY||Mean Difference (Final Values)|-3.3||||0.391|TWO_SIDED|95.0|-7.5|1.0||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||1.0|-7.5|0.391
92408497|NCT00125164|184706677|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|0.24|0.5||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.50|0.24|< 0.0001
92228006|NCT01162421|184358448|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.132||0.863|TWO_SIDED|95.0|-0.24|0.29||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||0.29|-0.24|0.863
92228007|NCT01162421|184358448|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.129||0.452|TWO_SIDED|95.0|-0.16|0.35||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||0.35|-0.16|0.452
92228008|NCT01162421|184358448|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.141||0.738|TWO_SIDED|95.0|-0.23|0.33||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||0.33|-0.23|0.738
92373415|NCT04283994|184648971|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.21|TWO_SIDED|95.0|-0.3|8.2||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||8.2|-0.3|0.210
92228009|NCT01162421|184358448|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.148||0.572|TWO_SIDED|95.0|-0.21|0.38||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||0.38|-0.21|0.572
92228010|NCT01162421|184358449|SUPERIORITY_OR_OTHER||Difference in percentage|-11.9||||0.299|TWO_SIDED|95.0|-34.05|10.31|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||10.31|-34.05|0.299
92373416|NCT04283994|184648972|SUPERIORITY||Mean Difference (Final Values)|0.8||||1.01|TWO_SIDED|95.0|-0.8|2.4||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||2.4|-0.8|1.010
92373417|NCT04283994|184648972|SUPERIORITY||Mean Difference (Final Values)|0.0||||2.923|TWO_SIDED|95.0|-1.7|1.7||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||1.7|-1.7|2.923
92408498|NCT00125164|184706677|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.47|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|0.34|0.6||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.60|0.34|< 0.0001
92408499|NCT00125164|184706677|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.05||0.0495||95.0|0.0|0.22|||ANCOVA|||The analysis compares the 80 and 120 µg/kg BID groups using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.22|0.00|0.0495
92408500|NCT00125164|184706685|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.83|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001||95.0|1.26|2.4||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||2.40|1.26|<0.0001
92408501|NCT00125164|184706685|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.83|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001||95.0|2.26|3.39||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||3.39|2.26|<0.0001
92408502|NCT00125164|184706685|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.01|STANDARD_ERROR_OF_MEAN|0.25||0.0002||95.0|0.5|1.51|||ANCOVA|||The analysis compares the 80 and 120 µg/kg BID groups using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||1.51|0.50|0.0002
92228011|NCT01162421|184358449|SUPERIORITY_OR_OTHER||Difference in percentage|-3.0||||0.796|TWO_SIDED|95.0|-25.77|19.77|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||19.77|-25.77|0.796
92228012|NCT01162421|184358449|SUPERIORITY_OR_OTHER||Difference in percentage|7.0||||0.54|TWO_SIDED|95.0|-15.3|29.22|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||29.22|-15.30|0.540
92228013|NCT01162421|184358449|SUPERIORITY_OR_OTHER||Difference in percentage|-9.6||||0.392|TWO_SIDED|95.0|-31.39|12.19|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||12.19|-31.39|0.392
92373418|NCT04283994|184648972|SUPERIORITY||Mean Difference (Final Values)|0.8||||1.034|TWO_SIDED|95.0|-0.9|2.5||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||2.5|-0.9|1.034
92408503|NCT00125164|184706686|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|0.25|0.5||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.50|0.25|<0.0001
92373419|NCT04283994|184648973|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.384|TWO_SIDED|95.0|-1.0|7.9||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||7.9|-1.0|0.384
92373420|NCT04283994|184648973|SUPERIORITY||Mean Difference (Final Values)|-1.2||||1.923|TWO_SIDED|95.0|-6.1|3.7||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||3.7|-6.1|1.923
92373421|NCT04283994|184648973|SUPERIORITY||Mean Difference (Final Values)|4.6||||0.166|TWO_SIDED|95.0|-0.1|9.4||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||9.4|-0.1|0.166
92168951|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7331|TWO_SIDED|95.0|0.86|1.23|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=30% reduction||1.23|0.86|0.7331
92168952|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.98||||0.8632|TWO_SIDED|95.0|0.82|1.18|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=30% reduction||1.18|0.82|0.8632
92168953|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.04||||0.6262|TWO_SIDED|95.0|0.88|1.25|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=50% reduction||1.25|0.88|0.6262
92168954|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.96||||0.6817|TWO_SIDED|95.0|0.81|1.15|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=50% reduction||1.15|0.81|0.6817
92168955|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.03||||0.799|TWO_SIDED|95.0|0.85|1.24|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=70% reduction||1.24|0.85|0.7990
92168956|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.04||||0.6786|TWO_SIDED|95.0|0.86|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=70% reduction||1.26|0.86|0.6786
92168957|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.04||||0.8069|TWO_SIDED|95.0|0.78|1.38|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=90% reduction||1.38|0.78|0.8069
92168958|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2951|TWO_SIDED|95.0|0.88|1.54|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=90% reduction||1.54|0.88|0.2951
92168959|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9093|TWO_SIDED|95.0|0.85|1.21|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=30% reduction||1.21|0.85|0.9093
92168960|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.94||||0.5032|TWO_SIDED|95.0|0.79|1.12|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=30% reduction||1.12|0.79|0.5032
92168961|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4382|TWO_SIDED|95.0|0.9|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=50% reduction||1.28|0.90|0.4382
92168962|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.95||||0.5638|TWO_SIDED|95.0|0.79|1.13|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=50% reduction||1.13|0.79|0.5638
92168963|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.05||||0.6436|TWO_SIDED|95.0|0.86|1.27|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=70% reduction||1.27|0.86|0.6436
92228014|NCT01162421|184358449|SUPERIORITY_OR_OTHER||Difference in percentage|-3.3||||0.776|TWO_SIDED|95.0|-25.96|19.37|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||19.37|-25.96|0.776
92228015|NCT01162421|184358449|SUPERIORITY_OR_OTHER||Difference in percentage|-16.1||||0.166|TWO_SIDED|95.0|-38.64|6.4|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||6.40|-38.64|0.166
92228016|NCT01162421|184358450|SUPERIORITY_OR_OTHER||Difference in percentage|-10.9||||0.283|TWO_SIDED|95.0|-30.84|9.01|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||9.01|-30.84|0.283
92373422|NCT04283994|184648974|SUPERIORITY||Risk Difference (RD)|-0.11||||0.16|TWO_SIDED|95.0|-0.23|0.0||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.00|-0.23|0.160
92373423|NCT04283994|184648974|SUPERIORITY||Risk Difference (RD)|-0.07||||0.652|TWO_SIDED|95.0|-0.18|0.04||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.04|-0.18|0.652
92373424|NCT04283994|184648974|SUPERIORITY||Risk Difference (RD)|-0.04||||1.39|TWO_SIDED|95.0|-0.16|0.07||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.07|-0.16|1.390
92373425|NCT04283994|184648975|SUPERIORITY||Risk Difference (RD)|0.05||||1.192|TWO_SIDED|95.0|-0.06|0.16||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.16|-0.06|1.192
92373426|NCT04283994|184648975|SUPERIORITY||Risk Difference (RD)|0.01||||2.698|TWO_SIDED|95.0|-0.11|0.12||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.12|-0.11|2.698
92373427|NCT04283994|184648975|SUPERIORITY||Risk Difference (RD)|0.04||||1.477|TWO_SIDED|95.0|-0.08|0.16||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.16|-0.08|1.477
92373428|NCT04283994|184648976|SUPERIORITY||Mean Difference (Final Values)|-0.57||||2.293|TWO_SIDED|95.0|-4.3|3.16||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||3.16|-4.30|2.293
92408504|NCT00125164|184706686|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.52|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|0.39|0.64||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.64|0.39|<0.0001
92408505|NCT00125164|184706686|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.06||0.0071||95.0|0.04|0.26|||ANCOVA|||The analysis compares the 80 and 120 µg/kg BID groups using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.26|0.04|0.0071
92408506|NCT00670306|184706687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.6|STANDARD_DEVIATION|7.1|<|0.001|||||||t-test, 2 sided|||||||<0.001
92408507|NCT01243580|184706727|EQUIVALENCE|Comparing Ortho-Cyclen to Ag200-15|||||<|0.0001|||||||ANOVA|||||||<0.0001
92408508|NCT01243580|184706728|EQUIVALENCE|Comparison of AG200-15 and Ortho-Cyclen|||||<|0.0001|||||||ANOVA|||||||<0.0001
92228017|NCT01162421|184358450|SUPERIORITY_OR_OTHER||Difference in percentage|7.9||||0.444|TWO_SIDED|95.0|-12.17|28.0|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||28.00|-12.17|0.444
92228018|NCT01162421|184358450|SUPERIORITY_OR_OTHER||Difference in percentage|1.6||||0.885|TWO_SIDED|95.0|-20.16|23.38|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||23.38|-20.16|0.885
92228019|NCT01162421|184358450|SUPERIORITY_OR_OTHER||Difference in percentage|-1.0||||0.931|TWO_SIDED|95.0|-22.54|20.64|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||20.64|-22.54|0.931
92228020|NCT01162421|184358450|SUPERIORITY_OR_OTHER||Difference in percentage|2.2||||0.836|TWO_SIDED|95.0|-18.63|23.03|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||23.03|-18.63|0.836
92228021|NCT01162421|184358450|SUPERIORITY_OR_OTHER||Difference in percentage|2.2||||0.836|TWO_SIDED|95.0|-18.63|23.03|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||23.03|-18.63|0.836
92228022|NCT01162421|184358451|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.25||0.699|TWO_SIDED|95.0|-3.6|5.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||5.4|-3.6|0.699
92228023|NCT01162421|184358451|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|2.45||0.261|TWO_SIDED|95.0|-2.1|7.7||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||7.7|-2.1|0.261
92373429|NCT04283994|184648976|SUPERIORITY||Mean Difference (Final Values)|-0.48||||2.381|TWO_SIDED|95.0|-4.11|3.14||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||3.14|-4.11|2.381
92373430|NCT04283994|184648976|SUPERIORITY||Mean Difference (Final Values)|-0.09||||2.893|TWO_SIDED|95.0|-3.86|3.69||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||3.69|-3.86|2.893
92373431|NCT04283994|184648977|SUPERIORITY||Risk Difference (RD)|0.0||||2.829|TWO_SIDED|95.0|-0.13|0.12||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.12|-0.13|2.829
92373432|NCT04283994|184648977|SUPERIORITY||Risk Difference (RD)|0.11||||0.188|TWO_SIDED|95.0|-0.01|0.24||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.24|-0.01|0.188
92373433|NCT04283994|184648977|SUPERIORITY||Risk Difference (RD)|-0.12||||0.19|TWO_SIDED|95.0|-0.24|0.01||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.01|-0.24|0.190
92373434|NCT04283994|184648978|SUPERIORITY||Risk Difference (RD)|0.03||||1.994|TWO_SIDED|95.0|-0.09|0.14||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.14|-0.09|1.994
92408509|NCT01243580|184706729|EQUIVALENCE|Comparison of AG200-15 and Ortho-Cyclen||||||0.0001|||||||ANOVA|||||||0.0001
92408510|NCT01243580|184706730|EQUIVALENCE|Comparison of Ortho-Cylen and AG200-15||||||0.0532|||||||ANOVA|||||||0.0532
92228024|NCT01162421|184358451|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|2.36||0.514|TWO_SIDED|95.0|-6.2|3.2||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||3.2|-6.2|0.514
92228025|NCT01162421|184358451|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|2.5||0.283|TWO_SIDED|95.0|-7.7|2.3||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||2.3|-7.7|0.283
92408511|NCT01243580|184706731|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0009|||||||ANOVA|||||||0.0009
92408512|NCT01243580|184706732|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0167|||||||ANOVA|||||||0.0167
92408513|NCT01243580|184706733|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0007|||||||ANOVA|||||||0.0007
92408514|NCT01243580|184706734|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0175|||||||ANOVA|||||||0.0175
92408515|NCT01243580|184706735|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0001|||||||ANOVA|||||||0.0001
92408516|NCT01243580|184706736|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0532|||||||ANOVA|||||||0.0532
92408517|NCT01301027|184706740|SUPERIORITY_OR_OTHER|||||||0.047|||||||t-test, 2 sided|||||||0.047
92408518|NCT01301027|184706741|SUPERIORITY_OR_OTHER|||||||0.059|||||||t-test, 2 sided|||||||0.059
92408519|NCT01301027|184706742|SUPERIORITY_OR_OTHER|||||||0.508|||||||t-test, 2 sided|||||||0.508
92408520|NCT01301027|184706743|SUPERIORITY_OR_OTHER|||||||0.984|||||||t-test, 2 sided|||||||0.984
92228026|NCT01162421|184358451|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.75||0.461|TWO_SIDED|95.0|-7.5|3.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||3.4|-7.5|0.461
92228027|NCT01162421|184358451|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.78||0.703|TWO_SIDED|95.0|-6.6|4.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||4.5|-6.6|0.703
92228028|NCT01162421|184358452|SUPERIORITY_OR_OTHER||Difference in percentage|-1.1||||1|TWO_SIDED|95.0|-17.94|15.16|||Fisher Exact|Two-sided Fisher Exact test.||Month 3||15.16|-17.94|1.000
92228029|NCT01162421|184358452|SUPERIORITY_OR_OTHER||Difference in percentage|-6.4||||0.468|TWO_SIDED|95.0|-22.34|8.81|||Fisher Exact|Two-sided Fisher Exact test.||Month 6||8.81|-22.34|0.468
92228030|NCT01162421|184358452|SUPERIORITY_OR_OTHER||Difference in percentage|-11.9||||0.142|TWO_SIDED|95.0|-27.88|3.16|||Fisher Exact|Two-sided Fisher Exact test.||Month 9||3.16|-27.88|0.142
92228031|NCT01162421|184358452|SUPERIORITY_OR_OTHER||Difference in percentage|4.6||||0.712|TWO_SIDED|95.0|-11.08|19.83|||Fisher Exact|Two-sided Fisher Exact test.||Month 12||19.83|-11.08|0.712
92373435|NCT04283994|184648978|SUPERIORITY||Risk Difference (RD)|0.07||||0.771|TWO_SIDED|95.0|-0.05|0.19||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.19|-0.05|0.771
92373436|NCT04283994|184648978|SUPERIORITY||Risk Difference (RD)|-0.04||||1.447|TWO_SIDED|95.0|-0.17|0.08||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.08|-0.17|1.447
92373437|NCT04283994|184648981|SUPERIORITY||Risk Difference (RD)|-0.012||||1.836|TWO_SIDED|95.0|-0.058|0.034||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.034|-0.058|1.836
92373438|NCT04283994|184648981|SUPERIORITY||Risk Difference (RD)|0.021||||1.25|TWO_SIDED|95.0|-0.03|0.073||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.073|-0.030|1.250
92373439|NCT04283994|184648981|SUPERIORITY||Risk Difference (RD)|-0.033||||0.581|TWO_SIDED|95.0|-0.084|0.017||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.017|-0.084|0.581
92373440|NCT04283994|184648982|SUPERIORITY||Risk Difference (RD)|-0.039||||0.692|TWO_SIDED|95.0|-0.102|0.025||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.025|-0.102|0.692
92373441|NCT04283994|184648982|SUPERIORITY||Risk Difference (RD)|0.038||||0.887|TWO_SIDED|95.0|-0.033|0.109||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.109|-0.033|0.887
92373442|NCT04283994|184648982|SUPERIORITY||Risk Difference (RD)|-0.077||||0.08|TWO_SIDED|95.0|-0.145|-0.009||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||-0.009|-0.145|0.080
92373443|NCT04283994|184648983|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.293|TWO_SIDED|95.0|0.9|2.1||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Cox|Wald test adjusting for hospital site and dementia diagnosis.|Hazard ratio = bi-directional intervention / usual care. Estimated via cox proportional hazards regression after adjusting for hospital and dementia diagnosis. Exponentiated Wald confidence intervals.|Censoring by death.||2.1|0.9|0.293
92228032|NCT01162421|184358452|SUPERIORITY_OR_OTHER||Difference in percentage|7.2||||0.482|TWO_SIDED|95.0|-8.92|22.89|||Fisher Exact|Two-sided Fisher Exact test.||Month 18||22.89|-8.92|0.482
92228033|NCT01162421|184358452|SUPERIORITY_OR_OTHER||Difference in percentage|-6.2||||0.418|TWO_SIDED|95.0|-21.18|7.69|||Fisher Exact|Two-sided Fisher Exact test.||Month 24||7.69|-21.18|0.418
92228034|NCT01162421|184358453|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|5.86||0.453|TWO_SIDED|95.0|-16.3|7.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||7.4|-16.3|0.453
92228035|NCT01162421|184358453|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|5.88||0.187|TWO_SIDED|95.0|-19.7|4.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||4.0|-19.7|0.187
92228036|NCT01162421|184358453|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|6.31||0.598|TWO_SIDED|95.0|-16.1|9.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||9.4|-16.1|0.598
92373444|NCT04283994|184648983|SUPERIORITY||Hazard Ratio (HR)|1.7||||0.027|TWO_SIDED|95.0|1.1|2.5||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Cox|Wald test adjusting for hospital site and dementia diagnosis|Hazard ratio = clinician-facing intervention / usual care. Estimated via cox proportional hazards regression after adjusting for hospital and dementia diagnosis. Exponentiated Wald confidence intervals.|Censoring by death.||2.5|1.1|0.027
92373445|NCT04283994|184648983|SUPERIORITY||Hazard Ratio (HR)|0.8||||1.009|TWO_SIDED|95.0|0.6|1.2||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Cox|Wald test adjusting for hospital site and dementia diagnosis.|Hazard ratio = bi-directional intervention / clinician-facing intervention. Estimated via cox proportional hazards regression after adjusting for hospital and dementia diagnosis. Exponentiated Wald confidence intervals.|Censoring by death.||1.2|0.6|1.009
92373446|NCT04283994|184648984|SUPERIORITY||Mean Difference (Final Values)|-0.43||||1.366|TWO_SIDED|95.0|-1.55|0.7||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.70|-1.55|1.366
92373447|NCT04283994|184648984|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.978|TWO_SIDED|95.0|-1.73|0.58||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.58|-1.73|0.978
92373448|NCT04283994|184648984|SUPERIORITY||Mean Difference (Final Values)|0.15||||2.39|TWO_SIDED|95.0|-0.99|1.3||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.30|-0.99|2.390
92373449|NCT04283994|184648985|SUPERIORITY||Mean Difference (Final Values)|0.47||||1.125|TWO_SIDED|95.0|-0.57|1.51||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.51|-0.57|1.125
92373450|NCT04283994|184648985|SUPERIORITY||Mean Difference (Final Values)|0.91||||0.258|TWO_SIDED|95.0|-0.13|1.94||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.94|-0.13|0.258
92373451|NCT04283994|184648985|SUPERIORITY||Mean Difference (Final Values)|-0.44||||1.267|TWO_SIDED|95.0|-1.5|0.63||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.63|-1.5|1.267
92373452|NCT04283994|184648986|SUPERIORITY||Mean Difference (Final Values)|0.32||||1.594|TWO_SIDED|95.0|-0.68|1.32||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.32|-0.68|1.594
92373453|NCT04283994|184648986|SUPERIORITY||Mean Difference (Final Values)|0.29||||1.803|TWO_SIDED|95.0|-0.79|1.36||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.36|-0.79|1.803
92373454|NCT04283994|184648986|SUPERIORITY||Mean Difference (Final Values)|0.03||||2.851|TWO_SIDED|95.0|-1.01|1.07||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.07|-1.01|2.851
92408521|NCT04939415|184706812|SUPERIORITY||ratio of frequencies|0.0||||1|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||1.000
92408522|NCT04939415|184706813|SUPERIORITY||ratio of frequencies|1.023||||1|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||1.000
92408523|NCT04939415|184706815|SUPERIORITY||ratio of frequencies|1.073||||0.488|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||0.488
92408524|NCT04939415|184706816|SUPERIORITY||ratio of frequencies|2.1||||0.488|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||0.488
92373455|NCT04283994|184648987|SUPERIORITY||Mean Difference (Final Values)|-0.28||||1.243|TWO_SIDED|95.0|-0.97|0.4||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.40|-0.97|1.243
92373456|NCT04283994|184648987|SUPERIORITY||Mean Difference (Final Values)|-0.33||||1.032|TWO_SIDED|95.0|-1.0|0.35||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.35|-1.00|1.032
92373457|NCT04283994|184648987|SUPERIORITY||Mean Difference (Final Values)|0.04||||2.742|TWO_SIDED|95.0|-0.7|0.78||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.78|-0.70|2.742
92373458|NCT04283994|184648988|SUPERIORITY||Mean Difference (Final Values)|-0.02||||2.658|TWO_SIDED|95.0|-0.26|0.22||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.22|-0.26|2.658
92373459|NCT04283994|184648988|SUPERIORITY||Mean Difference (Final Values)|0.07||||1.523|TWO_SIDED|95.0|-0.14|0.29||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.29|-0.14|1.523
92373460|NCT04283994|184648988|SUPERIORITY||Mean Difference (Final Values)|-0.09||||1.381|TWO_SIDED|95.0|-0.33|0.15||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.15|-0.33|1.381
92408525|NCT04939415|184706818|SUPERIORITY||ratio of frequencies|3.243||||0.231|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||0.231
92408526|NCT04939415|184706819|SUPERIORITY||ratio of frequencies|0.034||||1|TWO_SIDED||||||Chi-squared, Corrected|The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.||||||1.000
92408527|NCT04939415|184706820|OTHER||ratio of frequencies|0.083||||1|TWO_SIDED||||||Chi-squared, Corrected|The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.||||||1.000
92408528|NCT04939415|184706822|SUPERIORITY||ratio of frequencies|1.213||||0.462|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||0.462
92408529|NCT04939415|184706823|SUPERIORITY||ratio of frequencies|0.153||||1|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||1.000
92408530|NCT04939415|184706824|SUPERIORITY||F value|0.185||||0.668|TWO_SIDED||||||Mixed Models Analysis|Group by Day interaction||||||0.668
92373461|NCT04283994|184648989|SUPERIORITY||Mean Difference (Final Values)|0.04||||2.191|TWO_SIDED|95.0|-0.18|0.25||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.25|-0.18|2.191
92408531|NCT04939415|184706825|SUPERIORITY||F value|0.032||||0.86|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||0.860
92408532|NCT04939415|184706826|SUPERIORITY||F value|0.035||||0.853|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||0.853
92408533|NCT04939415|184706827|SUPERIORITY||F value|0.0||||0.995|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.995
92408534|NCT04939415|184706828|SUPERIORITY||F value|1.27||||0.266|TWO_SIDED||||||Mixed Models Analysis|||||||0.266
92408535|NCT04939415|184706829|SUPERIORITY||F value|4.533||||0.039|TWO_SIDED||||||Mixed Models Analysis||group by day interaction is reported.|||||0.039
92408536|NCT04939415|184706829|SUPERIORITY||F Ratio|13.897|||<|0.001|TWO_SIDED||||||ANOVA|Degrees of freedom: 1,23||day 0 to day 14 for the mQFPD group were examined.||||<0.001
92408537|NCT04939415|184706829|SUPERIORITY||F ratio|0.41||||0.529|TWO_SIDED||||||ANOVA|degrees of freedom: 1,20||day 0 to day 14 for the Placebo Group were examined.||||0.529
92408538|NCT04939415|184706830|SUPERIORITY||ratio of frequencies|0.14||||0.71|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.710
92408539|NCT04939415|184706831|SUPERIORITY||F value|2.855||||0.099|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.099
92408540|NCT04939415|184706832|SUPERIORITY||F value|1.497||||0.228|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.228
92408541|NCT04939415|184706833|SUPERIORITY||F value|2.537||||0.119|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.119
92408542|NCT04939415|184706834|SUPERIORITY||F value|0.219||||0.643|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.643
92408543|NCT04939415|184706835|SUPERIORITY||F value|0.054||||0.817|TWO_SIDED||||||Mixed Models Analysis|||||||0.817
92408544|NCT04939415|184706836|SUPERIORITY||F value|0.315||||0.578|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.578
92408545|NCT04939415|184706837|SUPERIORITY||F value|0.215||||0.643|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||.643
92408546|NCT04939415|184706838|SUPERIORITY||F value|1.987||||0.159|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||.159
92373462|NCT04283994|184648989|SUPERIORITY||Mean Difference (Final Values)|0.04||||2.138|TWO_SIDED|95.0|-0.19|0.27||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.27|-0.19|2.138
92373463|NCT04283994|184648989|SUPERIORITY||Mean Difference (Final Values)|-0.01||||2.879|TWO_SIDED|95.0|-0.23|22.0||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||022|-0.23|2.879
92373464|NCT04091581|184648996|OTHER|||||||0.002|||||||ANOVA|||||||0.002
92373465|NCT04091581|184648996|OTHER|||||||0.022|||||||t-test, 2 sided|||Comparison of the baseline tear evaporation rate of the non-dry eye and dry eye group.||||0.022
92373466|NCT01331837|184648999|NON_INFERIORITY_OR_EQUIVALENCE|In order to reject the null hypothesis and claim non-inferiority of TCZ compared to ETA, a HR point estimate of ≤ 1.278 and upper limit of 95% CI \<1.8 was required.|Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.77|1.43||||||"The analysis assessed in the ITT population the hazard ratio of the primary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.43|0.77|
92408547|NCT04308291|184706843|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|paired t-test||||||<0.0001
92408548|NCT01931566|184706877|OTHER|||||||0.023|||||||Regression, Cox|||||||0.023
92408549|NCT01931566|184706878|SUPERIORITY|||||||0.307|||||||Regression, Cox|||||||0.307
92408550|NCT00611026|184706902|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||"Treatment difference fesoterodine versus (vs) placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the fifth (5th) and ninety-fifth (95th) percentile, respectively).~If normality assumptions were severely violated (proportion of non normal observations \> 5%) a non-parametric analysis was to be conducted using Van Elteren's test stratified by baseline quartile of the diary variable analyzed."||||<0.0001
92228037|NCT01162421|184358453|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|5.75||0.558|TWO_SIDED|95.0|-8.2|15.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||15.0|-8.2|0.558
92373467|NCT01331837|184649001|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis'|Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.76|1.62||||||"The analysis assessed in the OT population the hazard ratio of the primary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.62|0.76|
92408551|NCT00611026|184706902|SUPERIORITY_OR_OTHER|||||||0.0228|TWO_SIDED|||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference tolterodine ER vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0228
92408552|NCT00611026|184706902|SUPERIORITY_OR_OTHER|||||||0.0072|TWO_SIDED|||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference fesoterodine vs tolterodine ER at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0072
92408553|NCT00611026|184706903|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||"Treatment difference fesoterodine vs placebo at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).~If normality assumptions were severely violated (proportion of non normal observations \> 5%) a non-parametric analysis was to be conducted using Van Elteren's test stratified by baseline quartile of the diary variable analyzed."||||0.0020
92228038|NCT01162421|184358453|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|6.4||0.669|TWO_SIDED|95.0|-10.1|15.6||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||15.6|-10.1|0.669
92373468|NCT01331837|184649003|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis and not for the sensitivity analysis.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.73|1.4||||||"The analysis assessed in the ITT population the hazard ratio of the primary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.40|0.73|
92373469|NCT01331837|184649005|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis and not for the sensitivity analysis.|Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.7|1.56||||||"The analysis assessed in the ITT population the hazard ratio of the primary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.56|0.70|
92373470|NCT01331837|184649007|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis.|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.73|1.34||||||"The analysis assessed in the ITT population the hazard ratio of the secondary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.34|0.73|
92373471|NCT01331837|184649009|NON_INFERIORITY_OR_EQUIVALENCE|'The non-inferiority margin was only formally tested for the primary ITT analysis'|Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.54|1.49||||||"The analysis assessed in the ITT population the hazard ratio of the secondary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.49|0.54|
92373472|NCT01331837|184649011|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.64|1.63||||||"The analysis assessed in the ITT population the hazard ratio of the secondary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.63|0.64|
92373473|NCT01331837|184649013|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis.|Hazard Ratio (HR)|1.53|||||TWO_SIDED|95.0|0.8|2.92||||||"The analysis assessed in the ITT population the hazard ratio of the secondary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||2.92|0.80|
92373474|NCT01331837|184649015|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis.|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.7|1.41||||||"The analysis assessed in the ITT population the hazard ratio of the secondary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.41|0.70|
92373475|NCT01263015|184649019|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority could be concluded if the lower bound of a two-sided 95% confidence interval for the difference (DTG + ABC/3TC minus EFV/TDF/FTC) in percentages between the two treatment arms was \> -10%.|Difference in percentage|7.3||||0.003|TWO_SIDED|95.0|2.3|12.2||P-value is for the test of superiority.|Wilcoxon (Mann-Whitney)||The estimated value reflects the percentage on DTG + ABC/3TC minus the percentage on EFV/TDF/FTC.|||12.2|2.3|0.003
92373476|NCT01263015|184649021|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority could be concluded if the lower bound of a two-sided 95% confidence interval for the difference (DTG + ABC/3TC minus EFV/TDF/FTC) in percentages between the two treatment arms was \> -10%.|Difference in percentage|7.1||||0.016|TWO_SIDED|95.0|1.2|13.1||P-value is for the test of superiority.|Wilcoxon (Mann-Whitney)||Week 96:The estimated value reflects the percentage on DTG + ABC/3TC minus the percentage on EFV/TDF/FTC.|||13.1|1.2|0.016
92373477|NCT01263015|184649021|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority could be concluded if the lower bound of a two-sided 95% confidence interval for the difference (DTG + ABC/3TC minus EFV/TDF/FTC) in percentages between the two treatment arms was \>-10%.|Difference in percentage|8.3||||0.01|TWO_SIDED|95.0|1.9|14.6||P-value is for the test of superiority.|Wilcoxon (Mann-Whitney)||Week 144:Estimated value reflects the percentage on DTG + ABC/3TC minus the percentage on EFV/TDF/FTC.|||14.6|1.9|0.010
92228039|NCT01162421|184358453|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|6.16||0.865|TWO_SIDED|95.0|-11.3|13.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||13.5|-11.3|0.865
92228040|NCT01162421|184358454|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.058||0.809|TWO_SIDED|95.0|-0.1|0.13||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||0.13|-0.10|0.809
92373478|NCT01263015|184649024|NON_INFERIORITY_OR_EQUIVALENCE|Adjusted mean is the estimated mean change from baseline (BL) in CD4 + Cell Count at Week 144 in each arm calculated from a repeated measures model including the following covariates: treatment, visit, BL plasma HIV-1 RNA, BL CD4 cell count, treatment\*visit interaction, BL HIV-1 RNA\*visit interaction and BL CD4 cell count\*visit interaction. No assumptions were made about the correlations between a par.'s readings of CD4 i.e. the correlation matrix for within-subject errors is unstructured.||||||0.003||95.0||||P-value is for the test of superiority.|Repeated Measure Mixed Model|||||||0.003
92373479|NCT01461928|184649041|SUPERIORITY||Hazard Ratio (HR)|0.76|||=|0.41|TWO_SIDED|95.0|0.37|1.53||Power at time of final analysis was less than 40%. Final analysis was not able to address its primary objective.|Stratified Long-rank|||The stratified log rank test p-value was derived using the following randomization stratification strata : Follicular Lymphoma International Prognostic Index (FLIPI) risk category (low, intermediate, high) and indolent NHL subtype (follicular lymphoma, non-follicular lymphoma). Power at time of final analysis was less than 40%. Final analysis was not able to address it's primary objective.||1.53|0.37|= 0.410
92373480|NCT02456636|184649076|SUPERIORITY||Mean Difference (Net)|-1.87||||0.025|TWO_SIDED|97.5|-3.51|-0.23|||Mixed Models Analysis|||PCMH (in clinic group counseling) versus FFS (in clinic individual counseling)||-0.23|-3.51|.025
92373481|NCT02456636|184649076|SUPERIORITY||Mean Difference (Net)|-1.36||||0.25|TWO_SIDED|97.5|-3.0|0.29|||Mixed Models Analysis|||DM (phone group counseling) versus FFS (in clinic individual counseling)||0.29|-3.00|0.25
92373482|NCT02456636|184649076|SUPERIORITY||Mean Difference (Net)|-0.51||||0.025|TWO_SIDED|97.5|-2.15|1.13|||Mixed Models Analysis|||PCMH (in clinic group visits) versus DM (phone group visits)||1.13|-2.15|.025
92373483|NCT02456636|184649077|SUPERIORITY||Median Difference (Net)|-1.84||||0.025|TWO_SIDED|97.5|-3.5|-0.18|||Mixed Models Analysis|||PCMH (in clinic group counseling) versus FFS (in clinic individual counseling).||-0.18|-3.50|.025
92373484|NCT02456636|184649077|SUPERIORITY||Median Difference (Net)|-1.34||||0.025|TWO_SIDED|97.5|-2.99|0.32|||Mixed Models Analysis|||DM (phone group counseling) versus FFS (in clinic individual counseling)||0.32|-2.99|.025
92373485|NCT02456636|184649077|SUPERIORITY||Mean Difference (Net)|-0.5||||0.025|TWO_SIDED|97.5|-2.15|1.15|||Mixed Models Analysis|||PCMH (in clinic group counseling) versus DM (phone group counseling)||1.15|-2.15|.025
92373486|NCT05312632|184649096|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
92373487|NCT05312632|184649097|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
92373488|NCT05312632|184649098|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
92373489|NCT05312632|184649099|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
92373490|NCT05312632|184649100|OTHER|||||||0.013|||||||Wilcoxon signed rank test|||||||0.013
92373491|NCT05312632|184649101|OTHER|||||||0.053|||||||Wilcoxon signed rank test|||||||0.053
92373492|NCT05312632|184649102|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
92228041|NCT01162421|184358454|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.062||0.447|TWO_SIDED|95.0|-0.08|0.17||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||0.17|-0.08|0.447
92373493|NCT03130439|184649147|OTHER||Objective Response Rate|0.0|||||TWO_SIDED|95.0|0.0|0.247||||||||0.247|0.000|
92373494|NCT03130439|184649150|OTHER||Disease Control Rate|0.222|||||TWO_SIDED|95.0|0.086|0.423||||||||0.423|0.086|
92373495|NCT03130439|184649151|OTHER||Clinical Benefit Rate|0.148|||||TWO_SIDED|95.0|0.042|0.337||||||||0.337|0.042|
92373496|NCT02731820|184649152|OTHER|||||||0.172|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T3 vs T0||||0.172
92373497|NCT02731820|184649152|OTHER|||||||0.027|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T0||||0.027
92373498|NCT02731820|184649152|OTHER|||||||0.053|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T3||||0.053
92373499|NCT02731820|184649152|OTHER|||||||0.002|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T3 vs T0||||0.002
92373500|NCT02731820|184649152|OTHER|||||||0.006|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T0||||0.006
92373501|NCT02731820|184649152|OTHER|||||||0.139|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T3||||0.139
92373502|NCT02731820|184649152|OTHER|||||||0.967|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T0||||0.967
92373503|NCT02731820|184649152|OTHER|||||||0.446|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T3||||0.446
92373504|NCT02731820|184649152|OTHER|||||||0.869|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T6||||0.869
92373505|NCT02731820|184649153|OTHER|||||||0.954|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T3 vs T0||||0.954
92373506|NCT02731820|184649153|OTHER|||||||0.798|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T0||||0.798
92373507|NCT02731820|184649153|OTHER|||||||0.377|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T3||||0.377
92373508|NCT02731820|184649153|OTHER|||||||0.886|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T3 vs T0||||0.886
92373509|NCT02731820|184649153|OTHER|||||||0.04|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T0||||0.040
92373510|NCT02731820|184649153|OTHER|||||||0.017|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T3||||0.017
92373511|NCT02731820|184649153|OTHER|||||||0.343|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T0||||0.343
92373512|NCT02731820|184649153|OTHER|||||||0.859|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T3||||0.859
92373513|NCT02731820|184649153|OTHER|||||||0.172|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T6||||0.172
92373514|NCT02731820|184649154|OTHER|||||||0.213|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T3 vs T0||||0.213
92373515|NCT02731820|184649154|OTHER|||||||0.191|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T0||||0.191
92373516|NCT02731820|184649154|OTHER|||||||0.234|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T3||||0.234
92373517|NCT02731820|184649154|OTHER|||||||0.37|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T3 vs T0||||0.370
92408554|NCT00611026|184706903|SUPERIORITY_OR_OTHER|||||||0.0519|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference tolterodine ER vs placebo at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0519
92408555|NCT00611026|184706903|SUPERIORITY_OR_OTHER|||||||0.1503|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference fesoterodine vs tolterodine ER at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.1503
92373518|NCT02731820|184649154|OTHER|||||||0.176|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T0||||0.176
92373519|NCT02731820|184649154|OTHER|||||||0.139|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T3||||0.139
92373520|NCT02731820|184649154|OTHER|||||||0.551|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T0||||0.551
92373521|NCT02731820|184649154|OTHER|||||||0.371|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T3||||0.371
92373522|NCT02731820|184649154|OTHER|||||||0.466|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T6||||0.466
92408556|NCT00611026|184706903|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference fesoterodine vs placebo at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
92408557|NCT00611026|184706903|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference tolterodine ER vs placebo at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0002
92168964|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.04||||0.706|TWO_SIDED|95.0|0.85|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=70% reduction||1.26|0.85|0.7060
92168965|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.96||||0.7729|TWO_SIDED|95.0|0.72|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=90% reduction||1.28|0.72|0.7729
92168966|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.07||||0.6405|TWO_SIDED|95.0|0.81|1.42|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=90% reduction||1.42|0.81|0.6405
92168967|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9046|TWO_SIDED|95.0|0.85|1.21|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=30% reduction||1.21|0.85|0.9046
92168968|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.93||||0.4491|TWO_SIDED|95.0|0.78|1.11|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=30% reduction||1.11|0.78|0.4491
92168969|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7429|TWO_SIDED|95.0|0.86|1.23|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=50% reduction||1.23|0.86|0.7429
92168970|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.92||||0.3467|TWO_SIDED|95.0|0.77|1.1|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=50% reduction||1.10|0.77|0.3467
92168971|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7624|TWO_SIDED|95.0|0.85|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=70% reduction||1.26|0.85|0.7624
92168972|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.97||||0.7686|TWO_SIDED|95.0|0.8|1.18|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=70% reduction||1.18|0.80|0.7686
92168973|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9384|TWO_SIDED|95.0|0.74|1.33|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=90% reduction||1.33|0.74|0.9384
92373523|NCT02731820|184649155|OTHER|||||||0.094|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T3 vs T0||||0.094
92373524|NCT02731820|184649155|OTHER|||||||0.0004|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T0||||0.0004
92408558|NCT00611026|184706903|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Van Elteren's|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference fesoterodine vs tolterodine ER at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0130
92408559|NCT00611026|184706903|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference fesoterodine vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
92408560|NCT00611026|184706903|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference tolterodine ER vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0021
92408561|NCT00611026|184706903|SUPERIORITY_OR_OTHER|||||||0.0525|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference fesoterodine vs tolterodine ER at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0525
92408562|NCT00611026|184706904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0161|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 1.||-0.1|-0.5|0.0161
92408563|NCT00611026|184706904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0944|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 1.||0.0|-0.4|0.0944
92408564|NCT00611026|184706904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3613|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 1.||0.1|-0.3|0.3613
92408565|NCT00611026|184706904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 4.||-0.4|-0.9|<0.0001
92228042|NCT01162421|184358454|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.062||0.579|TWO_SIDED|95.0|-0.16|0.09||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||0.09|-0.16|0.579
92408566|NCT00611026|184706904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0043|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 4.||-0.1|-0.6|0.0043
92228043|NCT01162421|184358454|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.057||0.922|TWO_SIDED|95.0|-0.11|0.12||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||0.12|-0.11|0.922
92228044|NCT01162421|184358454|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.064||0.894|TWO_SIDED|95.0|-0.14|0.12||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||0.12|-0.14|0.894
92408567|NCT00611026|184706904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0186|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 4.||-0.0|-0.5|0.0186
92408568|NCT00611026|184706904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 12.||-0.4|-0.9|<0.0001
92408569|NCT00611026|184706904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0407|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 12.||-0.0|-0.6|0.0407
92408570|NCT00611026|184706904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0016|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 12.||-0.1|-0.6|0.0016
92408571|NCT00611026|184706905|SUPERIORITY_OR_OTHER|||||||0.0217|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 1.||||0.0217
92228045|NCT01162421|184358454|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.611|TWO_SIDED|95.0|-0.17|0.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||0.10|-0.17|0.611
92373525|NCT02731820|184649155|OTHER|||||||0.008|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T3||||0.008
92373526|NCT02731820|184649155|OTHER|||||||0.002|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T3 vs T0||||0.002
92373527|NCT02731820|184649155|OTHER||||||<|0.0001|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T0||||<0.0001
92373528|NCT02731820|184649155|OTHER|||||||0.0007|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T3||||0.0007
92373529|NCT02731820|184649155|OTHER|||||||0.458|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T0||||0.458
92373530|NCT02731820|184649155|OTHER|||||||0.434|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T3||||0.434
92373531|NCT02731820|184649155|OTHER|||||||0.555|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T6||||0.555
92373532|NCT04838054|184649159|SUPERIORITY||Mean Difference (Net)|0.27||||0.28|TWO_SIDED|||||p-values \<0.05 means statistically significant|ANCOVA|||||||0.28
92373533|NCT04838054|184649160|SUPERIORITY||Mean Difference (Net)|0.41||||0.011|TWO_SIDED|||||p\<0.05 means statistically significant|ANCOVA|||||||0.011
92373534|NCT04838054|184649161|SUPERIORITY||Mean Difference (Net)|2.99|||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92168974|NCT02528188|184227128|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8495|TWO_SIDED|95.0|0.77|1.38|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=90% reduction||1.38|0.77|0.8495
92168975|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.19||||0.0651|TWO_SIDED|95.0|0.99|1.44|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=30% reduction||1.44|0.99|0.0651
92168976|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9032|TWO_SIDED|95.0|0.84|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=30% reduction||1.22|0.84|0.9032
92228046|NCT01162421|184358455|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|4.42||0.572|TWO_SIDED|95.0|-11.3|6.3||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||6.3|-11.3|0.572
92373535|NCT02447250|184649202|OTHER|||||||0.14|||||||Chi-squared|||comparison of mean birth weights between responders and non-responders||||0.14
92373536|NCT02447250|184649203|OTHER|||||||0.16|||||||Chi-squared|||||||0.16
92373537|NCT02447250|184649204|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92373538|NCT02447250|184649206|OTHER|||||||1|||||||Chi-squared|||||||1.0
92373539|NCT02447250|184649207|OTHER|||||||0.5|||||||Fisher Exact|||||||0.50
92373540|NCT02743949|184649208|SUPERIORITY||Wilcoxon-Mann-Whitney odds estimator|1.0584||||0.748|TWO_SIDED|97.5|0.71|1.5778||P-values were obtained using a Pearson chi-square test for each Vonoprazan treatment compared with Esomeprazole.|Wilcoxon rank-sum test|||||1.5778|0.7100|0.7480
92373541|NCT02743949|184649208|SUPERIORITY||Wilcoxon-Mann-Whitney odds estimator|1.0975||||0.5985|TWO_SIDED|97.5|0.7368|1.6349||P-values were obtained using a Pearson chi-square test for each Vonoprazan treatment compared with Esomeprazole.|Wilcoxon rank-sum test|||||1.6349|0.7368|0.5985
92373542|NCT02743949|184649209|SUPERIORITY||Miettinen-Nurminen|0.91||||0.782|TWO_SIDED|97.5|0.44|1.91||P-values were obtained using a Pearson chi-square test for each Vonoprazan treatment compared with Esomeprazole.|Pearson chi-square|||||1.91|0.44|0.782
92373543|NCT02743949|184649209|SUPERIORITY||Miettinen-Nurminen|0.96||||0.912|TWO_SIDED|97.5|0.46|2.01||P-values were obtained using a Pearson chi-square test for each Vonoprazan treatment compared with Esomeprazole.|Pearson chi-square|||||2.01|0.46|0.912
92373544|NCT01126437|184649253|NON_INFERIORITY_OR_EQUIVALENCE|Three tests were conducted in hierarchical order. Non-inferiority of time to death from any cause was tested on the two Respimat doses: Tio R 5 vs. Tio HH18, then if non-inferiority was achieved Tio R 2.5 vs Tio HH18. If successful, a test of superiority of Tio R5 over Tio HH18 for time to first COPD exacerbation was conducted. The non-inferiority delta for time to death was 1.25. Non-inferiority tests were performed at one-sided α=0.025 level. Superiority test was performed at two sided α=0.05.|Hazard Ratio (HR)|0.957|||||TWO_SIDED|95.0|0.837|1.094|||Regression, Cox|||H0: Hazard Ratio for Respimat/HandiHaler \>= 1.25 Ha: Hazard Ratio for Respimat/HandiHaler \< 1.25||1.094|0.837|
92373545|NCT01126437|184649253|NON_INFERIORITY_OR_EQUIVALENCE|Three tests were conducted in hierarchical order. Non-inferiority of time to death from any cause was tested on the two Respimat doses: Tio R 5 vs. Tio HH18, then if non-inferiority was achieved Tio R 2.5 vs Tio HH18. If successful, a test of superiority of Tio R5 over Tio HH18 for time to first COPD exacerbation was conducted. The non-inferiority delta for time to death was 1.25. Non-inferiority tests were performed at one-sided α=0.025 level. Superiority test was performed at two sided α=0.05.|Hazard Ratio (HR)|0.996|||||TWO_SIDED|95.0|0.872|1.136|||Regression, Cox|||H0: Hazard Ratio for Respimat/HandiHaler \>= 1.25 Ha: Hazard Ratio for Respimat/HandiHaler \< 1.25||1.136|0.872|
92373546|NCT01126437|184649254|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.978||||0.4194|TWO_SIDED|95.0|0.928|1.032|||Regression, Cox|||"H0: Hazard Ratio for Respimat/HandiHaler = 1 Ha: Hazard Ratio for Respimat/HandiHaler ≠ 1~at alpha = 0.05"||1.032|0.928|0.4194
92373547|NCT01126437|184649254|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.016||||0.5593|TWO_SIDED|95.0|0.964|1.07|||Regression, Cox|||"H0: Hazard Ratio for Respimat/HandiHaler = 1 Ha: Hazard Ratio for Respimat/HandiHaler ≠ 1~at alpha = 0.05"||1.070|0.964|0.5593
92373548|NCT01126437|184649254|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.038||||0.1639|TWO_SIDED|95.0|0.985|1.094|||Regression, Cox|||"H0: Hazard Ratio for Respimat/HandiHaler = 1 Ha: Hazard Ratio for Respimat/HandiHaler ≠ 1~at alpha = 0.05"||1.094|0.985|0.1639
92373549|NCT01126437|184649255|NON_INFERIORITY_OR_EQUIVALENCE|The first test performed was to test the main effect for treatment in the mixed model repeated measures (MMRM) model, specifically the 95% CI for the contrast between Tio R 5ug and Tio HH 18ug was compared to the non-inferiority delta of 50 mL. If that test was successful, the second test in the hierarchy was to test the main effect for treatment in the MMRM model, specifically the 95% CI for the contrast between Tio R 2.5 ug and Tio HH 18 ug was compared to the non-inferiority delta of 50 mL.|Adjusted mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.014|||TWO_SIDED|95.0|-0.038|0.018||An autoregression-1 covariance structure modeled the within-subject errors because visits were equally spaced. The Kenward-Roger approximation estimated denominator degrees of freedom.|Mixed Model Repeated Measures||Model included the fixed, categorical effects of treatment, investigative site, visit, and treatment-by-visit interaction, and continuous, fixed covariates of baseline and baseline-by-visit interaction, and a random term of patient.|"FEV1 was analyzed through Week 120 using REML-based repeated measures.~H0: Adjusted mean difference for Respimat/HandiHaler ≥ 50ml Ha: Adjusted mean difference for Respimat/HandiHaler \< 50 ml"||0.018|-.038|
92408572|NCT00611026|184706905|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 4.||||<0.0001
92408573|NCT00611026|184706905|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.0020
92373550|NCT01126437|184649255|NON_INFERIORITY_OR_EQUIVALENCE|The first test performed was to test the main effect for treatment in the mixed model repeated measures (MMRM) model, specifically the 95% CI for the contrast between Tio R 5ug and Tio HH 18ug was compared to the non-inferiority delta of 50 mL. If that test was successful, the second test in the hierarchy was to test the main effect for treatment in the MMRM model, specifically the 95% CI for the contrast between Tio R 2.5 ug and Tio HH 18 ug was compared to the non-inferiority delta of 50 mL.|Adjusted mean difference|-0.037|STANDARD_ERROR_OF_MEAN|0.014|||TWO_SIDED|95.0|-0.065|-0.009||An autoregression-1 covariance structure modeled the within-subject errors because visits were equally spaced. The Kenward-Roger approximation estimated denominator degrees of freedom.|Mixed Model Repeated Measures||Model included the fixed, categorical effects of treatment, investigative site, visit, and treatment-by-visit interaction, and continuous, fixed covariates of baseline and baseline-by-visit interaction, and a random term of patient.|"FEV1 was analyzed through Week 120 using REML-based repeated measures.~H0: Adjusted mean difference for Respimat/HandiHaler ≥ 50ml Ha: Adjusted mean difference for Respimat/HandiHaler \< 50 ml"||-.009|-.065|
92373551|NCT01126437|184649256|SUPERIORITY_OR_OTHER||Rate ratio of events|1.01|STANDARD_ERROR_OF_MEAN|0.03||0.833|TWO_SIDED|95.0|0.95|1.06|||Negative binomial regression|||||1.06|0.95|0.8330
92408574|NCT00611026|184706905|SUPERIORITY_OR_OTHER|||||||0.0217|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference fesoterodine vs Tolterodine ER at Week 4.||||0.0217
92168977|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.36||||0.01|TWO_SIDED|95.0|1.08|1.72|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=50% reduction||1.72|1.08|0.0100
92408575|NCT00611026|184706905|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 12.||||<0.0001
92408576|NCT00611026|184706905|SUPERIORITY_OR_OTHER|||||||0.0421|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 12.||||0.0421
92408577|NCT00611026|184706905|SUPERIORITY_OR_OTHER|||||||0.0023|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference fesoterodine vs Tolterodine ER at Week 12.||||0.0023
92408578|NCT00611026|184706906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.1||0.3823|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 1.||0.1|-0.1|0.3823
92408579|NCT00611026|184706906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.1||0.4802|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 1.||0.1|-0.1|0.4802
92408580|NCT00611026|184706906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.0||0.8355|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 1.||0.1|-0.1|0.8355
92228047|NCT01162421|184358455|SUPERIORITY_OR_OTHER||LS Mean Difference|7.9|STANDARD_ERROR_OF_MEAN|5.15||0.13|TWO_SIDED|95.0|-2.4|18.2||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||18.2|-2.4|0.130
92228048|NCT01162421|184358455|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|5.26||0.649|TWO_SIDED|95.0|-12.9|8.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||8.1|-12.9|0.649
92228049|NCT01162421|184358455|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|4.8||0.579|TWO_SIDED|95.0|-12.3|6.9||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||6.9|-12.3|0.579
92228050|NCT01162421|184358455|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|5.03||0.826|TWO_SIDED|95.0|-11.1|8.9||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||8.9|-11.1|0.826
92228051|NCT01162421|184358455|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|5.72||0.675|TWO_SIDED|95.0|-13.8|9.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||9.0|-13.8|0.675
92228052|NCT01162421|184358456|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.57||0.458|TWO_SIDED|95.0|-2.0|4.3||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||4.3|-2.0|0.458
92228053|NCT01162421|184358456|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|1.76||0.419|TWO_SIDED|95.0|-4.9|2.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||2.1|-4.9|0.419
92408581|NCT00611026|184706906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.1||0.0286|TWO_SIDED|95.0|-0.12|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 4.||-0.0|-0.12|0.0286
92408582|NCT00611026|184706906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.0794|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 4.||0.0|-0.2|0.0794
92408583|NCT00611026|184706906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.0||0.5906|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 4.||0.1|-0.1|0.5906
92408584|NCT00611026|184706906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.1||0.0134|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 12.||-0.0|-0.3|0.0134
92408585|NCT00611026|184706906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.1||0.1759|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 12.||0.0|-0.2|0.1759
92408586|NCT00611026|184706906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.0||0.1661|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 12.||0.0|-0.2|0.1661
92408587|NCT00611026|184706907|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 4.||||0.0021
92408588|NCT00611026|184706907|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 12.||||0.0200
92408589|NCT00611026|184706908|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||"Treatment difference fesoterodine vs placebo at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).~If normality assumptions were severely violated (proportion of non normal observations \> 5%) a non-parametric analysis was to be conducted using Van Elteren's test stratified by baseline quartile of the diary variable analyzed."||||0.0006
92228054|NCT01162421|184358456|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.42||0.692|TWO_SIDED|95.0|-2.3|3.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||3.4|-2.3|0.692
92228055|NCT01162421|184358456|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.69||0.357|TWO_SIDED|95.0|-1.8|5.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||5.0|-1.8|0.357
92228056|NCT01162421|184358456|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.67||0.42|TWO_SIDED|95.0|-2.0|4.7||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||4.7|-2.0|0.420
92373552|NCT01126437|184649256|SUPERIORITY_OR_OTHER||Rate ratio of events|0.99|STANDARD_ERROR_OF_MEAN|0.03||0.8047|TWO_SIDED|95.0|0.94|1.05|||Negative binomial regression|||||1.05|0.94|0.8047
92228057|NCT01162421|184358456|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.58||0.38|TWO_SIDED|95.0|-1.8|4.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||4.5|-1.8|0.380
92408590|NCT00611026|184706908|SUPERIORITY_OR_OTHER|||||||0.0202|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference Tolterodine ER vs placebo at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0202
92228058|NCT01162421|184358457|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.28||0.046|TWO_SIDED|95.0|0.0|1.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 3||1.1|0.0|0.046
92373553|NCT01126437|184649256|SUPERIORITY_OR_OTHER||Rate ratio of events|1.01|STANDARD_ERROR_OF_MEAN|0.03||0.6468|TWO_SIDED|95.0|0.96|1.07|||Negative binomial regression|||||1.07|0.96|0.6468
92408591|NCT00611026|184706908|SUPERIORITY_OR_OTHER|||||||0.2126|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference fesoterodine vs Tolterodine ER at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.2126
92408592|NCT00611026|184706908|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference fesoterodine vs placebo at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
92373554|NCT01126437|184649257|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.068||||0.1762|TWO_SIDED|95.0|0.971|1.176|||Regression, Cox|||||1.176|0.971|0.1762
92373555|NCT01126437|184649257|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.024||||0.6384|TWO_SIDED|95.0|0.929|1.128|||Regression, Cox|||||1.128|0.929|0.6384
92408593|NCT00611026|184706908|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference Tolterodine ER vs placebo at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0019
92408594|NCT00611026|184706908|SUPERIORITY_OR_OTHER|||||||0.0148|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference fesoterodine vs Tolterodine ER at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0148
92408595|NCT00611026|184706909|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 1.||||0.0012
92373556|NCT01126437|184649257|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.044||||0.3784|TWO_SIDED|95.0|0.949|1.148|||Regression, Cox|||||1.148|0.949|0.3784
92373557|NCT01126437|184649258|SUPERIORITY_OR_OTHER||Rate ratio of events|1.09|STANDARD_ERROR_OF_MEAN|0.06||0.1255|TWO_SIDED|95.0|0.98|1.22||p-value from negative binomial regression.|Negative binomial regression|||||1.22|0.98|0.1255
92373558|NCT01126437|184649258|SUPERIORITY_OR_OTHER||Rate ratio of events|1.06|STANDARD_ERROR_OF_MEAN|0.06||0.3441|TWO_SIDED|95.0|0.94|1.18||p-value from negative binomial regression.|Negative binomial regression|||||1.18|0.94|0.3441
92373559|NCT01126437|184649258|SUPERIORITY_OR_OTHER||Rate ratio of events|1.03|STANDARD_ERROR_OF_MEAN|0.06||0.5573|TWO_SIDED|95.0|0.92|1.16||p-value from negative binomial regression.|Negative binomial regression|||||1.16|0.92|0.5573
92373560|NCT01126437|184649259|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.011||||0.6823|TWO_SIDED|95.0|0.959|1.066|||Regression, Cox|||||1.066|0.959|0.6823
92373561|NCT01126437|184649259|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.983||||0.5377|TWO_SIDED|95.0|0.932|1.037|||Regression, Cox|||||1.037|0.932|0.5377
92373562|NCT01126437|184649259|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.028||||0.3048|TWO_SIDED|95.0|0.975|1.084|||Regression, Cox|||||1.084|0.975|0.3048
92373563|NCT01126437|184649260|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.105||||0.3043|TWO_SIDED|95.0|0.913|1.336|||Regression, Cox|||Causes of death from MACE were determined by adjudication.||1.336|0.913|0.3043
92408596|NCT00611026|184706909|SUPERIORITY_OR_OTHER|||||||0.0205|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 1.||||0.0205
92168978|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.12||||0.3728|TWO_SIDED|95.0|0.88|1.42|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=50% reduction||1.42|0.88|0.3728
92168979|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.44||||0.0434|TWO_SIDED|95.0|1.01|2.04|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=70% reduction||2.04|1.01|0.0434
92168980|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.44||||0.0425|TWO_SIDED|95.0|1.01|2.04|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=70% reduction||2.04|1.01|0.0425
92373564|NCT01126437|184649260|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.3263|TWO_SIDED|95.0|0.909|1.331|||Regression, Cox|||Causes of death from MACE were determined by adjudication.||1.331|0.909|0.3263
92373565|NCT01126437|184649260|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.004||||0.9644|TWO_SIDED|95.0|0.834|1.209|||Regression, Cox|||Causes of death from MACE were determined by adjudication.||1.209|0.834|0.9644
92373566|NCT01126437|184649261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.171||||0.2439|TWO_SIDED|95.0|0.898|1.526|||Regression, Cox|||Time to death from MACE was analyzed using the full study duration including vital status follow-up.||1.526|0.898|0.2439
92373567|NCT01126437|184649261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.111||||0.4413|TWO_SIDED|95.0|0.85|1.453|||Regression, Cox|||Time to death from MACE was analyzed using the full study duration including vital status follow-up.||1.453|0.850|0.4413
92373568|NCT01126437|184649261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.054||||0.691|TWO_SIDED|95.0|0.814|1.363|||Regression, Cox|||Time to death from MACE was analyzed using the full study duration including vital status follow-up.||1.363|0.814|0.6910
92373569|NCT01220973|184649265|OTHER||Slope|0.74|||||TWO_SIDED|||||||||||||
92373570|NCT01974206|184649322|OTHER||Common Odds Ratio|0.79||||0.307|TWO_SIDED|90.0|0.43|1.47||P-value (1-sided) of the Exact Cochran-Mantel-Haenszel method adjusted odds ratio stratified by randomization group.|Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) estimate of the common odds ratio (ASP0113 vs placebo) stratified by randomization strata, and the 90% CIs of the CMH odds ratio stratified by randomization group.||1.47|0.43|0.307
92373571|NCT01974206|184649323|OTHER||Common Odds Ratio|0.99||||0.576|TWO_SIDED|90.0|0.46|2.15||P-value (1-sided) of the Exact Cochran-Mantel-Haenszel method adjusted odds ratio stratified by randomization group.|Cochran-Mantel-Haenszel|||The exact Cochran-Mantel-Haenszel (CMH) estimate of the common odds ratio (ASP0113 vs placebo) stratified by randomization group, and the 90% CI of the exact CMH odds ratio stratified by randomization group.||2.15|0.46|0.576
92373572|NCT01974206|184649324|OTHER||Common Odds Ratio|0.88||||0.408|TWO_SIDED|90.0|0.48|1.59||P-value (1-sided) of the Exact Cochran-Mantel-Haenszel method adjusted odds ratio stratified by randomization group.|Cochran-Mantel-Haenszel|||The exact Cochran-Mantel-Haenszel (CMH) estimate of the common odds ratio (ASP0113 vs placebo) stratified by randomization group, and the 90% CI of the exact CMH odds ratio stratified by randomization group.||1.59|0.48|0.408
92373573|NCT01974206|184649325|OTHER||Common Odds Ratio|0.88||||0.419|TWO_SIDED|90.0|0.48|1.61||P-value (1-sided) of the Exact Cochran-Mantel-Haenszel method adjusted odds ratio stratified by randomization group.|Cochran-Mantel-Haenszel|||The exact Cochran-Mantel-Haenszel (CMH) estimate of the common odds ratio (ASP0113 vs placebo) stratified by randomization group, and the 90% CI of the exact CMH odds ratio stratified by randomization group.||1.61|0.48|0.419
92373574|NCT01974206|184649326|OTHER|||||||0.5||||||P-value (1-sided) of the Exact Cochran-Mantel-Haenszel method adjusted odds ratio stratified by randomization group.|Cochran-Mantel-Haenszel|||Exact Cochran-Mantel-Haenszel estimate of the common odds ratio could not be calculated as 100% of ASP0113 group showed graft survival, and this leads to having a value of 0 for the denominator for the ratio thus odds ratio is not estimable. The 90% CI (2-sided) values for the odds ratio are 0.11 to NA, where NA is an infinity value.||||0.5
92373575|NCT02059499|184649331|SUPERIORITY|||||||0.1877||||||The threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||0.1877
92373576|NCT02059499|184649332|SUPERIORITY|||||||0.1068||||||A priori threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||0.1068
92373577|NCT02059499|184649333|SUPERIORITY|||||||0.8071||||||The threshold for statistical significance was p=0.05|Cochran-Mantel-Haenszel|||||||0.8071
92373578|NCT02059499|184649334|SUPERIORITY|||||||0.6562||||||The threshold for statistical significance was p=0.05|Cochran-Mantel-Haenszel|||||||0.6562
92373579|NCT02059499|184649335|SUPERIORITY|||||||0.0141||||||The threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||0.0141
92168981|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5442|TWO_SIDED|95.0|0.64|2.34|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=90% reduction||2.34|0.64|0.5442
92373580|NCT02059499|184649336|SUPERIORITY|||||||0.0141||||||The threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||0.0141
92373581|NCT02059499|184649340|SUPERIORITY|||||||0.1409||||||The threshold for statistical significance was p=0.05|Cochran-Mantel-Haenszel|||||||0.1409
92373582|NCT02059499|184649341|SUPERIORITY|||||||0.0805||||||The threshold for statistical significance was p=0.05|Cochran-Mantel-Haenszel|||||||0.0805
92373583|NCT02059499|184649343|SUPERIORITY|||||||0.5726|||||||Cochran-Mantel-Haenszel|||||||0.5726
92373584|NCT02059499|184649344|SUPERIORITY|||||||0.6184||||||The threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||0.6184
92373585|NCT02059499|184649346|EQUIVALENCE|Comparison of mean between count of hrHPV genotypes observed at baseline vs at week 20 in imiquimod arm||||||0.3||||||A priori threshold for interpreting significance : 0.05|Wilcoxon (Mann-Whitney)|||Comparison of number of hrHPV genotypes in each arm observed at baseline vs at week 20 in imiquimod arm||||0.3
92373586|NCT02059499|184649346|EQUIVALENCE|Comparison of mean number of hrHPV genotypes observed at baseline vs at week 20 in 5FU arm||||||0.3||||||A priori threshold to interpret significance: 0.05|Wilcoxon (Mann-Whitney)|||Comparison of the count of hrHPV genotypes observed at baseline vs at week 20 in 5FU arm||||0.3
92373587|NCT02059499|184649346|EQUIVALENCE|Comparison of mean number of hrHPV genotypes observed at baseline vs at week 20 in observation arm||||||0.26||||||A priori cutoff of significance: 0.05|Wilcoxon (Mann-Whitney)|||Comparison of the count of hrHPV genotypes observed at baseline vs at week 20 in observation arm||||0.26
92373588|NCT03989349|184649354|OTHER||Strata-adjusted percentage difference|12.2||||0.0006|TWO_SIDED|97.5|4.6|19.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||19.8|4.6|0.0006
92373589|NCT03989349|184649355|OTHER||Strata-adjusted percentage difference|14.9||||0.0008|TWO_SIDED|97.5|5.6|24.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||24.3|5.6|0.0008
92373590|NCT03989349|184649356|OTHER||Strata-adjusted percentage difference|12.5||||0.0006|TWO_SIDED|97.5|4.6|20.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||20.3|4.6|0.0006
92373591|NCT03989349|184649357|OTHER||Strata-adjusted percentage difference|16.3||||0.0004|TWO_SIDED|97.5|6.6|26.0||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||26.0|6.6|0.0004
92373592|NCT03989349|184649358|OTHER||Strata-adjusted percentage difference|23.2|||<|0.0001|TWO_SIDED|97.5|16.1|30.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level. Participants with missing data were considered non-responders.||30.3|16.1|<0.0001
92228059|NCT01162421|184358457|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.27||0.003|TWO_SIDED|95.0|0.3|1.3||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.01.||Month 6||1.3|0.3|0.003
92228060|NCT01162421|184358457|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.24||0.204|TWO_SIDED|95.0|-0.2|0.8||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||0.8|-0.2|0.204
92228061|NCT01162421|184358457|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.227|TWO_SIDED|95.0|-0.2|0.7||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||0.7|-0.2|0.227
92228062|NCT01162421|184358457|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.86|TWO_SIDED|95.0|-0.4|0.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||0.5|-0.4|0.860
92228063|NCT01162421|184358457|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.22||0.476|TWO_SIDED|95.0|-0.3|0.6||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||0.6|-0.3|0.476
92373593|NCT03989349|184649358|OTHER||Strata-adjusted percentage difference|27.8|||<|0.0001|TWO_SIDED|97.5|21.2|34.5||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel||The estimates are from 50 complete datasets by MI-MAR assumption.|Nemolizumab 30 mg versus Placebo using multiple imputation (MI) with missing at random (MAR) assumption.||34.5|21.2|<0.0001
92373594|NCT03989349|184649359|OTHER||Strata-adjusted percentage difference|27.1|||<|0.0001|TWO_SIDED|97.5|17.5|36.6||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\].|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level. Participants with missing data were considered non-responders.||36.6|17.5|<0.0001
92228064|NCT01260454|184358485|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 2 sided|||This is open-label, uncontrolled data; the comparison is made between each individual's baseline.||||0.03
92228065|NCT00091832|184358488|SUPERIORITY_OR_OTHER|||||||0.245|||||||ANCOVA|Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)||||||0.245
92228066|NCT00091832|184358489|SUPERIORITY_OR_OTHER|||||||0.848|||||||ANCOVA|Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)||||||0.848
92228067|NCT00091832|184358490|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||||95.0|0.68|4.35|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||4.35|0.68|
92228068|NCT00091832|184358490|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||||95.0|0.51|3.24|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||3.24|0.51|
92277818|NCT02363010|184457835|SUPERIORITY|||||||0.872||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that 6-month Hedonic Hunger would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.872
92228069|NCT00091832|184358490|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||||95.0|0.34|2.29|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||2.29|0.34|
92228070|NCT00091832|184358490|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||||95.0|0.51|3.2|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||3.20|0.51|
92228071|NCT00091832|184358490|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74||||||95.0|0.7|4.34|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||4.34|0.70|
92228072|NCT00091832|184358491|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||||95.0|0.69|4.79|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||4.79|0.69|
92228073|NCT00091832|184358491|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||||95.0|0.25|1.76|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||1.76|0.25|
92228074|NCT00091832|184358491|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||||95.0|0.24|1.77|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||1.77|0.24|
92228075|NCT00091832|184358491|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58||||||95.0|0.22|1.58|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||1.58|0.22|
92373595|NCT03989349|184649359|OTHER||Strata-adjusted percentage difference|33.4|||<|0.0001|TWO_SIDED|97.5|24.5|42.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\].|Cochran-Mantel-Haenszel||The estimates are from 50 complete datasets by MI-MAR assumption.|Nemolizumab 30 mg versus Placebo using MI-MAR assumption.||42.3|24.5|<0.0001
92373596|NCT03989349|184649360|OTHER||Strata-adjusted percentage difference|17.1|||<|0.0001|TWO_SIDED|97.5|10.9|23.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||23.3|10.9|<0.0001
92373597|NCT03989349|184649361|OTHER||Strata-adjusted percentage difference|18.4|||<|0.0001|TWO_SIDED|97.5|11.0|25.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||25.8|11.0|<0.0001
92408597|NCT00611026|184706909|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 4.||||<0.0001
92408598|NCT00611026|184706909|SUPERIORITY_OR_OTHER|||||||0.0038|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.0038
92408599|NCT00611026|184706909|SUPERIORITY_OR_OTHER|||||||0.0219|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||||0.0219
92408600|NCT00611026|184706909|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 12.||||0.0001
92228076|NCT00091832|184358491|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||||95.0|0.25|1.92|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||1.92|0.25|
92228077|NCT00091832|184358492|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||||95.0|0.51|1.31|||||A hazard ratio \>1 indicates that the time to 65% or more reduction in uNTx from baseline was shorter in the Denosumab-treated group than in the control group.|||1.31|0.51|
92228078|NCT00091832|184358492|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||||95.0|0.64|1.65|||||A hazard ratio \>1 indicates that the time to 65% or more reduction in uNTx from baseline was shorter in the Denosumab-treated group than in the control group.|||1.65|0.64|
92228079|NCT00091832|184358492|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||||95.0|0.68|1.74|||||A hazard ratio \>1 indicates that the time to 65% or more reduction in uNTx from baseline was shorter in the Denosumab-treated group than in the control group.|||1.74|0.68|
92228080|NCT00091832|184358492|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||||95.0|0.68|1.74|||||A hazard ratio \>1 indicates that the time to 65% or more reduction in uNTx from baseline was shorter in the Denosumab-treated group than in the control group.|||1.74|0.68|
92228081|NCT00091832|184358492|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||||95.0|0.71|1.83|||||A hazard ratio \>1 indicates that the time to 65% or more reduction in uNTx from baseline was shorter in the Denosumab-treated group than in the control group.|||1.83|0.71|
92228082|NCT00091832|184358503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.543||||||95.0|0.159|1.856|||||A hazard ratio \<1 indicates the time to the first skeletal-related event in the denosumab-treated group was longer than that in the control group.|||1.856|0.159|
92280393|NCT04543136|184463469|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.082|TWO_SIDED|95.0|-0.85|0.05||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.05|-0.85|0.082
92373598|NCT03989349|184649362|OTHER||Strata-adjusted percentage difference|17.5|||<|0.0001|TWO_SIDED|97.5|10.8|24.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||24.3|10.8|< 0.0001
92373599|NCT03989349|184649363|OTHER||Strata-adjusted percentage difference|21.9|||<|0.0001|TWO_SIDED|97.5|12.5|31.4||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||31.4|12.5|<0.0001
92373600|NCT03989349|184649364|OTHER||Strata-adjusted percentage difference|20.9|||<|0.0001|TWO_SIDED|97.5|15.6|26.1||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting the randomized stratification variables (IGA severity and PP NRS).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||26.1|15.6|< 0.0001
92373601|NCT03989349|184649365|OTHER||Strata-adjusted percentage difference|22.5|||<|0.0001|TWO_SIDED|97.5|15.0|29.9||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||29.9|15.0|<0.0001
92408601|NCT00611026|184706909|SUPERIORITY_OR_OTHER|||||||0.0805|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 12.||||0.0805
92408602|NCT00611026|184706909|SUPERIORITY_OR_OTHER|||||||0.0093|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||||0.0093
92408603|NCT00611026|184706910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0374|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 1.||-0.0|-0.7|0.0374
92408604|NCT00611026|184706910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3161|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 1.||0.2|-0.5|0.3161
92408605|NCT00611026|184706910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1817|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 1.||0.1|-0.5|0.1817
92168982|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0349|TWO_SIDED|95.0|1.05|3.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=90% reduction||3.45|1.05|0.0349
92408606|NCT00611026|184706910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.6|-0.8|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 4.||-0.8|-1.6|<0.0001
92408607|NCT00611026|184706910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0054|TWO_SIDED|95.0|-1.0|-0.2|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 4.||-0.2|-1.0|0.0054
92168983|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.26||||0.0108|TWO_SIDED|95.0|1.05|1.51|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=30% reduction||1.51|1.05|0.0108
92168984|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.27||||0.008|TWO_SIDED|95.0|1.07|1.52|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=30% reduction||1.52|1.07|0.0080
92373602|NCT03989349|184649366|OTHER||Strata-adjusted percentage difference|13.2|||<|0.0001|TWO_SIDED|97.5|9.0|17.4||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||17.4|9|< 0.0001
92373603|NCT03989349|184649367|OTHER||Strata-adjusted percentage difference|9.9||||0.0001|TWO_SIDED|97.5|5.5|14.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||14.3|5.5|0.0001
92373604|NCT03989349|184649368|OTHER||Strata-adjusted percentage difference|15.1|||<|0.0001|TWO_SIDED|97.5|11.0|19.2||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level||19.2|11|< 0.0001
92373605|NCT03989349|184649369|OTHER||Strata-adjusted percentage difference|16.3|||<|0.0001|TWO_SIDED|97.5|10.5|22.1||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||22.1|10.5|<0.0001
92373606|NCT03989349|184649370|OTHER||Strata-adjusted percentage difference|6.4|||<|0.0001|TWO_SIDED|97.5|3.8|9.1||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||9.1|3.8|<0.0001
92373607|NCT03989349|184649371|OTHER||Strata-adjusted percentage difference|8.0||||0.0004|TWO_SIDED|97.5|4.2|11.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for preceding outcome measure was statistically significant at two-sided 2.5% significance level.||11.8|4.2|0.0004
92373608|NCT02684058|184649372|SUPERIORITY|one-sided p-value at 2.5% level of significance|Odds Ratio (OR)|7.19|||<|0.001|TWO_SIDED|95.0|2.3|22.4|||Chi-squared|||||22.4|2.3|<0.001
92373609|NCT02684058|184649377|SUPERIORITY||Hazard Ratio (HR)|0.31|||<|0.001|TWO_SIDED|95.0|0.17|0.55||Log-rank test at an overall one-sided 2.5% level of significance|Log Rank|||Up to approx. 3 years||0.55|0.17|<0.001
92373610|NCT01252186|184649448|NON_INFERIORITY_OR_EQUIVALENCE|A conclusion of non-inferiority was reached if the lower limit of the confidence interval for the comparison (active control minus 91-day Levonorgestrel) was greater than -0.13 nmol/L (130 pmol/L).|Treatment Difference|-11.54||||0.958|TWO_SIDED|95.0|-440.1|417.0|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The primary endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||417.0|-440.1|0.958
92373611|NCT01252186|184649448|NON_INFERIORITY_OR_EQUIVALENCE|A conclusion of non-inferiority was reached if the lower limit of the confidence interval for the comparison (active control minus 91-day Levonorgestrel) was greater than -0.13 nmol/L (130 pmol/L).|Treatment Difference|422.76||||0.06|TWO_SIDED|95.0|-18.3|863.8|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The primary endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||863.8|-18.3|0.060
92408608|NCT00611026|184706910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0005|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||-0.3|-0.9|0.0005
92228083|NCT00091832|184358503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.544||||||95.0|0.159|1.859|||||A hazard ratio \<1 indicates the time to the first skeletal-related event in the denosumab-treated group was longer than that in the control group.|||1.859|0.159|
92168985|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.5|||<|0.0001|TWO_SIDED|95.0|1.22|1.83|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=50% reduction||1.83|1.22|<0.0001
92373612|NCT01252186|184649449|SUPERIORITY_OR_OTHER||Treatment Difference|-14.31||||0.745|TWO_SIDED|95.0|-100.8|72.2|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||72.2|-100.8|0.745
92373613|NCT01252186|184649449|SUPERIORITY_OR_OTHER||Treatment Difference|71.31||||0.115|TWO_SIDED|95.0|-17.5|160.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||160.1|-17.5|0.115
92373614|NCT01252186|184649450|SUPERIORITY_OR_OTHER||Treatment Difference|-17.14||||0.782|TWO_SIDED|95.0|-139.4|105.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||105.1|-139.4|0.782
92373615|NCT01252186|184649450|SUPERIORITY_OR_OTHER||Treatment Difference|97.09||||0.131|TWO_SIDED|95.0|-29.2|223.4|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||223.4|-29.2|0.131
92373616|NCT01252186|184649451|SUPERIORITY_OR_OTHER||Treatment Difference|-0.04||||0.428|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.1|-0.1|0.428
92373617|NCT01252186|184649451|SUPERIORITY_OR_OTHER||Treatment Difference|-0.16||||0.002|TWO_SIDED|95.0|-0.3|-0.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||-0.1|-0.3|0.002
92373618|NCT01252186|184649452|SUPERIORITY_OR_OTHER||Treatment Difference|-0.01||||0.868|TWO_SIDED|95.0|-0.2|0.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.1|-0.2|0.868
92373619|NCT01252186|184649452|SUPERIORITY_OR_OTHER||Treatment Difference|0.2||||0.012|TWO_SIDED|95.0|0.0|0.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.3|0.0|0.012
92373620|NCT01252186|184649453|SUPERIORITY_OR_OTHER||Treatment Difference|0.09||||0.317|TWO_SIDED|95.0|-0.1|0.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.3|-0.1|0.317
92373621|NCT01252186|184649453|SUPERIORITY_OR_OTHER||Treatment Difference|-0.16||||0.081|TWO_SIDED|95.0|-0.4|0.0|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.0|-0.4|0.081
92373622|NCT01252186|184649454|SUPERIORITY_OR_OTHER||Treatment Difference|-0.004||||0.331|TWO_SIDED|95.0|-0.013|0.004|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.004|-0.013|0.331
92373623|NCT01252186|184649454|SUPERIORITY_OR_OTHER||Treatment Difference|-0.006||||0.173|TWO_SIDED|95.0|-0.015|0.003|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.003|-0.015|0.173
92408609|NCT00611026|184706910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.5|-0.6|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 12.||-0.6|-1.5|<0.0001
92408610|NCT00611026|184706910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1467|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 12.||0.1|-0.7|0.1467
92228084|NCT00091832|184358503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.791||||||95.0|0.266|2.355|||||A hazard ratio \<1 indicates the time to the first skeletal-related event in the denosumab-treated group was longer than that in the control group.|||2.355|0.266|
92228085|NCT00091832|184358503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.073||||||95.0|0.389|2.963|||||A hazard ratio \<1 indicates the time to the first skeletal-related event in the denosumab-treated group was longer than that in the control group.|||2.963|0.389|
92280394|NCT04543136|184463469|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.137|TWO_SIDED|95.0|-0.11|0.8||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.80|-0.11|0.137
92373624|NCT01252186|184649455|SUPERIORITY_OR_OTHER||Treatment Difference|-0.57||||0.194|TWO_SIDED|95.0|-1.4|0.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.3|-1.4|0.194
92373625|NCT01252186|184649455|SUPERIORITY_OR_OTHER||Treatment Difference|-0.02||||0.967|TWO_SIDED|95.0|-0.9|0.9|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.9|-0.9|0.967
92373626|NCT01252186|184649456|SUPERIORITY_OR_OTHER||Treatment Difference|1.09||||0.648|TWO_SIDED|95.0|-3.6|5.8|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||5.8|-3.6|0.648
92373627|NCT01252186|184649456|SUPERIORITY_OR_OTHER||Treatment Difference|1.68||||0.496|TWO_SIDED|95.0|-3.2|6.6|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||6.6|-3.2|0.496
92373628|NCT01252186|184649457|SUPERIORITY_OR_OTHER||Treatment Difference|8.71||||0.405|TWO_SIDED|95.0|-11.9|29.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||29.3|-11.9|0.405
92373629|NCT01252186|184649457|SUPERIORITY_OR_OTHER||Treatment Difference|28.95||||0.008|TWO_SIDED|95.0|7.7|50.2|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||50.2|7.7|0.008
92373630|NCT01252186|184649458|SUPERIORITY_OR_OTHER||Treatment Difference|3.3||||0.425|TWO_SIDED|195.0|-4.9|11.5|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||11.5|-4.9|0.425
92408611|NCT00611026|184706910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.1|-0.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||-0.4|-1.1|<0.0001
92408612|NCT00611026|184706911|SUPERIORITY_OR_OTHER|||||||0.0828|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 1.||||0.0828
92408613|NCT00611026|184706911|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 4.||||<0.0001
92408614|NCT00611026|184706911|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.0008
92408615|NCT00611026|184706911|SUPERIORITY_OR_OTHER|||||||0.0022|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||||0.0022
92228086|NCT00091832|184358503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54||||||95.0|0.158|1.847|||||A hazard ratio \<1 indicates the time to the first skeletal-related event in the denosumab-treated group was longer than that in the control group.|||1.847|0.158|
92228087|NCT00091832|184358504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||||95.0|0.51|7.17|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||7.17|0.51|
92228088|NCT00091832|184358504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||||95.0|0.36|3.97|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||3.97|0.36|
92373631|NCT01252186|184649458|SUPERIORITY_OR_OTHER||Treatment Difference|8.76||||0.041|TWO_SIDED|95.0|0.3|17.2|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||17.2|0.3|0.041
92373632|NCT01252186|184649459|SUPERIORITY_OR_OTHER||Treatment Difference|-2.4||||0.088|TWO_SIDED|95.0|-5.2|0.4|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.4|-5.2|0.088
92373633|NCT01252186|184649459|SUPERIORITY_OR_OTHER||Treatment Difference|-3.19||||0.028|TWO_SIDED|95.0|-6.0|-0.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||-0.3|-6.0|0.028
92373634|NCT01252186|184649460|SUPERIORITY_OR_OTHER||Treatment Difference|1.75||||0.631|TWO_SIDED|95.0|-5.4|8.9|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||8.9|-5.4|0.631
92373635|NCT01252186|184649460|SUPERIORITY_OR_OTHER||Treatment Difference|3.73||||0.323|TWO_SIDED|95.0|-3.7|11.2|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||11.2|-3.7|0.323
92373636|NCT01252186|184649461|SUPERIORITY_OR_OTHER||Treatment Difference|-0.86||||0.783|TWO_SIDED|595.0|-7.0|5.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||5.3|-7.0|0.783
92373637|NCT01252186|184649461|SUPERIORITY_OR_OTHER||Treatment Difference|-2.83||||0.384|TWO_SIDED|95.0|-9.2|3.6|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||3.6|-9.2|0.384
92373638|NCT01252186|184649462|SUPERIORITY_OR_OTHER||Treatment Difference|1.66||||0.572|TWO_SIDED|95.0|-4.1|7.5|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||7.5|-4.1|0.572
92408616|NCT00611026|184706911|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 12.||||<0.0001
92408617|NCT00611026|184706911|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||||0.0008
92373639|NCT01252186|184649462|SUPERIORITY_OR_OTHER||Treatment Difference|-20.98|||<|0.001|TWO_SIDED|95.0|-27.0|-15.0|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||-15.0|-27.0|<0.001
92228089|NCT00091832|184358504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||||95.0|0.26|2.52|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||2.52|0.26|
92228090|NCT00091832|184358504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88||||||95.0|0.5|7.05|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||7.05|0.5|
92228091|NCT00091832|184358504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88||||||95.0|0.5|7.05|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||7.05|0.5|
92373640|NCT01252186|184649463|SUPERIORITY_OR_OTHER||Treatment Difference|-0.42||||0.841|TWO_SIDED|95.0|-4.6|3.7|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||3.7|-4.6|0.841
92373641|NCT01252186|184649463|SUPERIORITY_OR_OTHER||Treatment Difference|-10.53|||<|0.001|TWO_SIDED|95.0|-14.8|-6.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||-6.3|-14.8|<0.001
92228092|NCT03434379|184358508|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.0006|TWO_SIDED|95.0|0.42|0.79|||Log Rank|||At CCOD 18 months; Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline alpha-fetoprotein (AFP: \<400 vs. \>/= 400 ng/mL).||0.79|0.42|0.0006
92228093|NCT03434379|184358508|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0009|TWO_SIDED|95.0|0.52|0.85|||Log Rank|||At CCOD 30 months; Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline alpha-fetoprotein (AFP: \<400 vs. \>/= 400 ng/mL).||0.85|0.52|0.0009
92228094|NCT03434379|184358509|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.47|0.76|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.76|0.47|<0.0001
92228095|NCT03434379|184358510|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.0026|TWO_SIDED|95.0|0.25|0.76|||Log Rank|||At CCOD 18 months; Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.76|0.25|0.0026
92228096|NCT03434379|184358510|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0019|TWO_SIDED|95.0|0.35|0.8|||Log Rank|||At CCOD 30 months; Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.80|0.35|0.0019
92228097|NCT03434379|184358511|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0117|TWO_SIDED|95.0|0.4|0.9|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.90|0.40|0.0117
92228098|NCT03434379|184358512|SUPERIORITY||Odds Ratio (OR)|2.9|||<|0.0001|TWO_SIDED|95.0|1.68|5.01|||Cochran-Mantel-Haenszel|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||5.01|1.68|<0.0001
92228099|NCT03434379|184358513|SUPERIORITY||Odds Ratio (OR)|3.39|||<|0.0001|TWO_SIDED|95.0|2.02|5.71|||Cochran-Mantel-Haenszel|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||5.71|2.02|<0.0001
92408618|NCT00611026|184706912|SUPERIORITY_OR_OTHER|||||||0.0576|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||"Treatment difference fesoterodine vs placebo at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).~If normality assumptions were severely violated (proportion of non normal observations \> 5%) a non-parametric analysis was to be conducted using Van Elteren's test stratified by baseline quartile of the diary variable analyzed."||||0.0576
92228100|NCT03434379|184358514|SUPERIORITY||Odds Ratio (OR)|6.15|||<|0.0001|TWO_SIDED|95.0|2.99|12.66|||Cochran-Mantel-Haenszel|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||12.66|2.99|<0.0001
92228101|NCT03434379|184358515|SUPERIORITY||Hazard Ratio (HR)|0.23||||0.0051|TWO_SIDED|95.0|0.08|0.7|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.70|0.08|0.0051
92373642|NCT01252186|184649464|SUPERIORITY_OR_OTHER||Treatment Difference|-2.11||||0.227|TWO_SIDED|95.0|-5.6|1.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||1.3|-5.6|0.227
92408619|NCT00611026|184706912|SUPERIORITY_OR_OTHER|||||||0.223|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference Tolterodine ER vs placebo at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.2230
92228102|NCT03434379|184358516|SUPERIORITY||Hazard Ratio (HR)|0.3||||0.0048|TWO_SIDED|95.0|0.12|0.73|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.73|0.12|0.0048
92228103|NCT03434379|184358517|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.4187|TWO_SIDED|95.0|0.16|2.15|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||2.15|0.16|0.4187
92228104|NCT03434379|184358518|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.46|0.74|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.74|0.46|<.0001
92228105|NCT03434379|184358519|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.36|0.57|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.57|0.36|<.0001
92228106|NCT03434379|184358520|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0105|TWO_SIDED|95.0|0.53|0.92|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.92|0.53|0.0105
92228107|NCT03434379|184358521|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0063|TWO_SIDED|95.0|0.52|0.9|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.90|0.52|0.0063
92228108|NCT03434379|184358522|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.35|0.57|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.57|0.35|<.0001
92228109|NCT03434379|184358523|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.0019|TWO_SIDED|95.0|0.32|0.78|||Log Rank|||AFP \<400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||0.78|0.32|0.0019
92228110|NCT03434379|184358523|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0879|TWO_SIDED|95.0|0.42|1.06|||Log Rank|||AFP \>/= 400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||1.06|0.42|0.0879
92228111|NCT03434379|184358524|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.37|0.68|||Log Rank|||AFP\<400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||0.68|0.37|<.0001
92228112|NCT03434379|184358524|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.2159|TWO_SIDED|95.0|0.53|1.15|||Log Rank|||AFP \>/=400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||1.15|0.53|0.2159
92277819|NCT02363010|184457835|SUPERIORITY|||||||0.802||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that 6-month Hedonic Hunger would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.802
92373643|NCT01252186|184649464|SUPERIORITY_OR_OTHER||Treatment Difference|-5.99||||0.001|TWO_SIDED|95.0|-9.6|-2.4|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||-2.4|-9.6|0.001
92373644|NCT01252186|184649465|SUPERIORITY_OR_OTHER||Treatment Difference|0.33||||0.076|TWO_SIDED|95.0|0.0|0.7|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.7|-0.0|0.076
92373645|NCT01252186|184649465|SUPERIORITY_OR_OTHER||Treatment Difference|0.44||||0.021|TWO_SIDED|95.0|0.1|0.8|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.8|0.1|0.021
92373646|NCT01252186|184649466|SUPERIORITY_OR_OTHER||Treatment Difference|44.46||||0.19|TWO_SIDED|95.0|-22.3|111.2|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||111.2|-22.3|0.190
92373647|NCT01252186|184649466|SUPERIORITY_OR_OTHER||Treatment Difference|9.74||||0.781|TWO_SIDED|95.0|-59.4|78.9|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||78.9|-59.4|0.781
92373648|NCT01252186|184649467|SUPERIORITY_OR_OTHER||Treatment Difference|-12.49||||0.843|TWO_SIDED|95.0|-136.4|111.4|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||111.4|-136.4|0.843
92373649|NCT01252186|184649467|SUPERIORITY_OR_OTHER||Treatment Difference|58.3||||0.376|TWO_SIDED|95.0|-71.3|187.9|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||187.9|-71.3|0.376
92373650|NCT01252186|184649468|SUPERIORITY_OR_OTHER||Treatment Difference|-4.01||||0.731|TWO_SIDED|95.0|-27.0|19.0|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||19.0|-27.0|0.731
92373651|NCT01252186|184649468|SUPERIORITY_OR_OTHER||Treatment Difference|130.15|||<|0.001|TWO_SIDED|95.0|106.2|154.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||154.1|106.2|<0.001
92408620|NCT00611026|184706912|SUPERIORITY_OR_OTHER|||||||0.3555|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference fesoterodine vs Tolterodine ER at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.3555
92228113|NCT03434379|184358525|SUPERIORITY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.31|0.57|||Log Rank|||AFP \<400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||0.57|0.31|<0.0001
92228114|NCT03434379|184358525|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0002|TWO_SIDED|95.0|0.35|0.73|||Log Rank|||AFP \>/=400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||0.73|0.35|0.0002
92373652|NCT00778258|184649493|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.77||||0.58|TWO_SIDED|95.0|0.31|1.93|||Regression, Logistic|||||1.93|0.31|0.58
92408621|NCT00611026|184706912|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference fesoterodine vs placebo at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||<0.0001
92373653|NCT00778258|184649494|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.13||||0.78|TWO_SIDED|95.0|0.48|2.68|||Chi-squared|||Progression comparison at 12 Months||2.68|0.48|0.78
92373654|NCT00778258|184649494|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.81||||0.62|TWO_SIDED|95.0|0.34|1.91|||Chi-squared|||Progression comparison at 24 Months||1.91|0.34|0.62
92373655|NCT00778258|184649495|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Chi-squared|||Comparison at 12 Months||||0.14
92373656|NCT00778258|184649495|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||Chi-squared|||Comparison at 24 Months||||0.17
92373657|NCT00778258|184649495|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||Chi-squared|||Comparison at 36 Months||||0.33
92373658|NCT00778258|184649496|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Chi-squared|||||||0.41
92373659|NCT00778258|184649497|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Kruskal-Wallis|||||||0.09
92373660|NCT00778258|184649497|SUPERIORITY_OR_OTHER|||||||0.01||||||Null hypothesis is that correlation = 0|Spearman's Correlation|||||||0.01
92408622|NCT00611026|184706912|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference Tolterodine ER vs placebo at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.0009
92373661|NCT00778258|184649498|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Kruskal-Wallis|||Analysis on Betalactoglobulin||||<0.01
92373662|NCT00778258|184649498|SUPERIORITY_OR_OTHER||||||<|0.01||||||Null hypothesis is that correlation = 0|Spearman Correlation|||Analysis on Betalactoglobulin IgE||||<0.01
92373663|NCT00778258|184649498|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Kruskal-Wallis|||Analysis on Casein IgE||||<0.01
92373664|NCT00778258|184649498|SUPERIORITY_OR_OTHER||||||<|0.01||||||Null hypothesis is that correlation = 0|Spearman Correlation|||Analysis on Casein IgE||||<0.01
92373665|NCT00778258|184649498|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Kruskal-Wallis|||Analysis on Cow's Milk IgE||||<0.01
92408623|NCT00611026|184706912|SUPERIORITY_OR_OTHER|||||||0.0071|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference fesoterodine vs Tolterodine ER at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.0071
92408624|NCT00611026|184706912|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference fesoterodine vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||<0.0001
92373666|NCT00778258|184649498|SUPERIORITY_OR_OTHER||||||<|0.01||||||Null hypothesis is that correlation = 0|Spearman Correlation|||Analysis on Cow's Milk IgE||||<0.01
92373667|NCT00778258|184649499|SUPERIORITY_OR_OTHER|||||||0.01|||||||Kruskal-Wallis|||Analysis on Max Basophil Assessment||||0.01
92373668|NCT00778258|184649499|SUPERIORITY_OR_OTHER|||||||0.22||||||Null hypothesis is that correlation = 0|Spearman Correlation|||Analysis on Max Basophil Assessment||||0.22
92373669|NCT00778258|184649499|SUPERIORITY_OR_OTHER|||||||0.59|||||||Kruskal-Wallis|||Analysis on Tregs||||0.59
92373670|NCT00778258|184649499|SUPERIORITY_OR_OTHER|||||||0.32||||||Null hypothesis is that correlation = 0|Spearman Correlation|||Analysis on Tregs||||0.32
92373671|NCT00778258|184649500|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Kruskal-Wallis|||||||0.50
92373672|NCT00778258|184649501|SUPERIORITY_OR_OTHER|||||||0.033||||||Correlation = -0.18|Spearman Correlation|||Baseline Comparison||||0.033
92373673|NCT00778258|184649501|SUPERIORITY_OR_OTHER|||||||0.002||||||Correlation = -0.34|Spearman Correlation|||Month 12 Comparison||||0.002
92373674|NCT00778258|184649501|SUPERIORITY_OR_OTHER|||||||0.156||||||Correlation = -0.20|Spearman Correlation|||Month 24 Comparison||||0.156
92373675|NCT00778258|184649501|SUPERIORITY_OR_OTHER|||||||0.077||||||Correlation = -0.27|Spearman Correlation|||Month 36 Comparison||||0.077
92373676|NCT00778258|184649502|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||36 Month Comparison||||<0.01
92373677|NCT00661726|184649505|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||<0.01
92373678|NCT00661726|184649507|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.045
92373679|NCT00661726|184649508|SUPERIORITY_OR_OTHER|||||||0.083||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.083
92373680|NCT00661726|184649509|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.039
92373681|NCT00661726|184649510|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.18
92373682|NCT00661726|184649511|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||<0.01
92373683|NCT00661726|184649512|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.069
92408625|NCT00611026|184706912|SUPERIORITY_OR_OTHER|||||||0.1764|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference Tolterodine ER vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.1764
92408626|NCT00611026|184706912|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference fesoterodine vs Tolterodine ER at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.0001
92408627|NCT00611026|184706913|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 4.||||<0.0001
92408628|NCT00611026|184706913|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.0003
92408629|NCT00611026|184706913|SUPERIORITY_OR_OTHER|||||||0.0302|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||||0.0302
92408630|NCT00611026|184706913|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 12.||||<0.0001
92408631|NCT00611026|184706913|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||||0.0007
92228115|NCT03434379|184358526|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.39|0.73|||Log Rank|||Physical Functioning: Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.73|0.39|<.0001
92228116|NCT03434379|184358526|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.0019|TWO_SIDED|95.0|0.46|0.84|||Log Rank|||Role Functioning: Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.84|0.46|0.0019
92228117|NCT03434379|184358526|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0028|TWO_SIDED|95.0|0.46|0.85|||Log Rank|||GHS/QoL: Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.85|0.46|0.0028
92228118|NCT03434379|184358531|SUPERIORITY||Odds Ratio (OR)|4.6||||0.0036|TWO_SIDED|95.0|1.53|13.86|||Cochran-Mantel-Haenszel|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||13.86|1.53|0.0036
92277820|NCT02363010|184457836|SUPERIORITY|||||||0.926||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that baseline Appetitive Response to Exercise would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.926
92408632|NCT00611026|184706914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.0701|TWO_SIDED|95.0|-0.1|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 1.||0.0|-0.1|0.0701
92408633|NCT00611026|184706914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.4823|TWO_SIDED|95.0|-0.1|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 1.||0.0|-0.1|0.4823
92408634|NCT00611026|184706914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.1702|TWO_SIDED|95.0|-0.1|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 1.||0.0|-0.1|0.1702
92228119|NCT03434379|184358532|SUPERIORITY||Odds Ratio (OR)|4.71||||0.0013|TWO_SIDED|95.0|1.72|12.87|||Cochran-Mantel-Haenszel|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||12.87|1.72|0.0013
92408635|NCT00611026|184706914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|TWO_SIDED|95.0|-0.3|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 4.||-0.1|-0.3|<0.0001
92228120|NCT03434379|184358533|SUPERIORITY||Odds Ratio (OR)|5.05||||0.0052|TWO_SIDED|95.0|1.47|17.39|||Cochran-Mantel-Haenszel|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||17.39|1.47|0.0052
92408636|NCT00611026|184706914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.0059|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 4.||-0.0|-0.2|0.0059
92408637|NCT00611026|184706914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.0014|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||-0.0|-0.2|0.0014
92408638|NCT00611026|184706914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|TWO_SIDED|95.0|-0.3|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 12.||-0.1|-0.3|<0.0001
92228121|NCT03434379|184358534|SUPERIORITY||Hazard Ratio (HR)|0.37||||0.4581|TWO_SIDED|95.0|0.02|5.85|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||5.85|0.02|0.4581
92228122|NCT03434379|184358535|SUPERIORITY||Hazard Ratio (HR)|0.08||||0.01|TWO_SIDED|95.0|0.01|0.91|||Log Rank||Lower limit: \<0.01|Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.91|0.01|0.0100
92280395|NCT04543136|184463470|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.525|TWO_SIDED|95.0|-0.89|0.46||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.46|-0.89|0.525
92373684|NCT00661726|184649513|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.18
92408639|NCT00611026|184706914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.311|TWO_SIDED|95.0|-0.1|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 12.||0.0|-0.1|0.3110
92408640|NCT00611026|184706914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.0004|TWO_SIDED|95.0|-0.2|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||-0.1|-0.2|0.0004
92408641|NCT00611026|184706915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.6||0.0136|TWO_SIDED|95.0|-2.7|-0.3|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 1.||-0.3|-2.7|0.0136
92408642|NCT00611026|184706915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.6||0.1918|TWO_SIDED|95.0|-2.0|0.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 1.||0.4|-2.0|0.1918
92228123|NCT03434379|184358536|SUPERIORITY||Hazard Ratio (HR)|0.33||||0.3477|TWO_SIDED|95.0|0.03|3.69|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||3.69|0.03|0.3477
92408643|NCT00611026|184706915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.5||0.1505|TWO_SIDED|95.0|-1.7|0.3|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 1.||0.3|-1.7|0.1505
92228124|NCT03434379|184358537|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0103|TWO_SIDED|95.0|0.4|0.89|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.89|0.40|0.0103
92373685|NCT00661726|184649514|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.022
92408644|NCT00611026|184706915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|95.0|-5.2|-2.6|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 4.||-2.6|-5.2|<0.0001
92373686|NCT00661726|184649515|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.11
92373687|NCT00661726|184649516|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||<0.01
92373688|NCT02644096|184649521|SUPERIORITY_OR_OTHER||||||<|0.05||||||Changes in physical function after 3 months|unpaired t-test|||"Power calculation in this study was based on findings in a previous cross-sectional study.~The physical dimensions in health status was the primary outcome variable. The mean physical score was 49.4, SD was 26.1; alpha in this study was set to 5% and β to 20%. We considered that the intervention could lead to an improvement of 50% in the physical health score and were willing to overlook a difference in score of 12. When the sample size was calculated, 68 patients were needed in both groups."||||<0.05
92373689|NCT02438384|184649538|SUPERIORITY||Mean Difference (Final Values)|1.7|||||TWO_SIDED|95.0|1.2|2.1||||||||2.1|1.2|
92373690|NCT02438384|184649538|SUPERIORITY||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|0.6|1.6||||||||1.6|0.6|
92373691|NCT00303446|184649546|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Generalized estimating equation model|The analysis includes percent change from baseline at 12 and 24 months.||||||0.28
92373692|NCT00303446|184649547|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.86
92373693|NCT00303446|184649548|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||Comparison of changes from baseline in manual muscle testing results.||||0.47
92408645|NCT00611026|184706915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.7||0.0034|TWO_SIDED|95.0|-3.3|-0.7|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 4.||-0.7|-3.3|0.0034
92408646|NCT00611026|184706915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.5||0.0006|TWO_SIDED|95.0|-3.0|-0.8|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||-0.8|-3.0|0.0006
92408647|NCT00611026|184706915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|95.0|-5.0|-2.3|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 12.||-2.3|-5.0|<0.0001
92408648|NCT00611026|184706915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.7||0.0859|TWO_SIDED|95.0|-2.5|0.2|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 12.||0.2|-2.5|0.0859
92408649|NCT00611026|184706915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-3.6|-1.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||-1.4|-3.6|<0.0001
92408650|NCT00611026|184706916|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs placebo at Week 1.||||0.0008
92373694|NCT00303446|184649549|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.13
92408651|NCT00611026|184706916|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for Tolterodine ER vs placebo at Week 1.||||0.0024
92408652|NCT00611026|184706916|SUPERIORITY_OR_OTHER|||||||0.6514|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs Tolterodine ER at Week 1.||||0.6514
92373695|NCT00303446|184649550|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.46
92408653|NCT00611026|184706916|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs placebo at Week 4.||||<0.0001
92408654|NCT00611026|184706916|SUPERIORITY_OR_OTHER|||||||0.0063|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for Tolterodine ER vs placebo at Week 4.||||0.0063
92373696|NCT00303446|184649551|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.11
92373697|NCT00303446|184649552|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.08
92373698|NCT00303446|184649553|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.73
92373699|NCT00303446|184649554|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.37
92373700|NCT00303446|184649555|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.65
92373701|NCT00303446|184649556|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.99
92373702|NCT00303446|184649557|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||1.0
92373703|NCT00303446|184649558|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.014
92373704|NCT00303446|184649559|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||Generalized estimating equation model showed a significant interaction between time and treatment; therefore a two sample t-test was used at each time point. P-value is given for comparison at 24 months.|t-test, 2 sided|||||||0.033
92408655|NCT00611026|184706916|SUPERIORITY_OR_OTHER|||||||0.0494|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs Tolterodine ER at Week 4.||||0.0494
92408656|NCT00611026|184706916|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs placebo at Week 12.||||0.0003
92408657|NCT00611026|184706916|SUPERIORITY_OR_OTHER|||||||0.0991|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for Tolterodine ER vs placebo at Week 12.||||0.0991
92408658|NCT00611026|184706916|SUPERIORITY_OR_OTHER|||||||0.0169|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs Tolterodine ER at Week 12.||||0.0169
92408659|NCT00611026|184706917|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 1.||||0.0009
92408660|NCT00611026|184706917|SUPERIORITY_OR_OTHER|||||||0.0279|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 1.||||0.0279
92408661|NCT00611026|184706917|SUPERIORITY_OR_OTHER|||||||0.2817|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs Fesoterodine at Week 1.||||0.2817
92228125|NCT03434379|184358538|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0002|TWO_SIDED|95.0|0.33|0.71|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.71|0.33|0.0002
92228126|NCT03434379|184358539|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0927|TWO_SIDED|95.0|0.43|1.07|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||1.07|0.43|0.0927
92228127|NCT03434379|184358540|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0861|TWO_SIDED|95.0|0.43|1.06|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||1.06|0.43|0.0861
92408662|NCT00611026|184706917|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 4.||||<0.0001
92408663|NCT00611026|184706917|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.0001
92228128|NCT03434379|184358541|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0004|TWO_SIDED|95.0|0.33|0.74|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.74|0.33|0.0004
92408664|NCT00611026|184706917|SUPERIORITY_OR_OTHER|||||||0.0177|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||||0.0177
92408665|NCT00611026|184706917|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 12.||||<0.0001
92408666|NCT00611026|184706917|SUPERIORITY_OR_OTHER|||||||0.0107|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 12.||||0.0107
92408667|NCT00611026|184706917|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||||0.0005
92408668|NCT00611026|184706918|SUPERIORITY_OR_OTHER|||||||0.0011|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 1.||||0.0011
92408669|NCT00611026|184706918|SUPERIORITY_OR_OTHER|||||||0.0072|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 1.||||0.0072
92408670|NCT00611026|184706918|SUPERIORITY_OR_OTHER|||||||0.3713|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs Tolterodine ER at Week 1.||||0.3713
92408671|NCT00611026|184706918|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 4.||||0.0002
92408672|NCT00611026|184706918|SUPERIORITY_OR_OTHER|||||||0.1485|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.1485
92408673|NCT00611026|184706918|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs Tolterodine ER at Week 4.||||0.0040
92408674|NCT00611026|184706918|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 12.||||<0.0001
92408675|NCT00611026|184706918|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 12.||||0.0060
92408676|NCT00611026|184706918|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs Tolterodine ER at Week 12.||||0.0016
92408677|NCT00611026|184706919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.1|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-9.5|-4.7|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 12.||-4.7|-9.5|<0.0001
92408678|NCT00611026|184706919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|1.2||0.0458|TWO_SIDED|95.0|-4.8|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 12.||-0.0|-4.8|0.0458
92408679|NCT00611026|184706919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-6.6|-2.7|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||-2.7|-6.6|<0.0001
92408680|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.6|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|3.4|7.9|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL scale score total.||7.9|3.4|<0.0001
92408681|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|1.1||0.0429|TWO_SIDED|95.0|0.1|4.6|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs Placebo: HRQL scale score total.||4.6|0.1|0.0429
92408682|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|0.9||0.0003|TWO_SIDED|95.0|1.5|5.2|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER: HRQL scale score total.||5.2|1.5|0.0003
92408683|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|1.3|<|0.0001|TWO_SIDED|95.0|4.0|9.2|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo: HRQL concern domain.||9.2|4.0|<0.0001
92408684|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|1.3||0.0795|TWO_SIDED|95.0|-0.3|4.9|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Placebo vs Tolterodine ER: HRQL concern domain.||4.9|-0.3|0.0795
92408685|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|2.1|6.3|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER: HRQL concern domain.||6.3|2.1|<0.0001
92408686|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|STANDARD_ERROR_OF_MEAN|1.4|<|0.0001|TWO_SIDED|95.0|4.3|9.6|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL coping domain.||9.6|4.3|<0.0001
92408687|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|1.3||0.0229|TWO_SIDED|95.0|0.4|5.7|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs placebo: HRQL coping domain.||5.7|0.4|0.0229
92408688|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|STANDARD_ERROR_OF_MEAN|1.1||0.0004|TWO_SIDED|95.0|1.7|6.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER: HRQL coping domain.||6.0|1.7|0.0004
92408689|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|STANDARD_ERROR_OF_MEAN|1.2||0.0003|TWO_SIDED|95.0|2.0|6.9|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL sleep domain.||6.9|2.0|0.0003
92408690|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|1.2||0.0923|TWO_SIDED|95.0|-0.3|4.5|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs placebo: HRQL sleep domain.||4.5|-0.3|0.0923
92408691|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|1.0||0.018|TWO_SIDED|95.0|0.4|4.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs Fesoterodine: HRQL sleep domain.||4.4|0.4|0.0180
92408692|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.0||0.0011|TWO_SIDED|95.0|1.3|5.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL social interaction domain.||5.1|1.3|0.0011
92408693|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.0||0.2208|TWO_SIDED|95.0|-0.7|3.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs placebo: HRQL social interaction domain.||3.1|-0.7|0.2208
92408694|NCT00611026|184706920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.8||0.0117|TWO_SIDED|95.0|0.4|3.5|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs Fesoterodine: HRQL social interaction domain.||3.5|0.4|0.0117
92408695|NCT04625101|184706944|SUPERIORITY|||||||0.4326|||||||ANCOVA|||||||0.4326
92408696|NCT02817464|184707019|OTHER||Geometric Mean Ratio|1.84|||||TWO_SIDED|90.0|1.44|2.36||||||||2.36|1.44|
92408697|NCT02817464|184707020|OTHER||Geometric Mean Ratio|0.66|||||TWO_SIDED|90.0|0.33|1.33||||||||1.33|0.33|
92228129|NCT03434379|184358542|SUPERIORITY||Hazard Ratio (HR)|0.45||||0.0035|TWO_SIDED|95.0|0.26|0.78|||Log Rank|||Physical Functioning: Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.78|0.26|0.0035
92408698|NCT02817464|184707022|OTHER||Geometric Mean Ratio|1.67|||||TWO_SIDED|90.0|1.33|2.09||||||||2.09|1.33|
92408699|NCT02817464|184707023|OTHER||Geometric Mean Ratio|1.61|||||TWO_SIDED|90.0|1.3|2.01||||||||2.01|1.30|
92408700|NCT02817464|184707024|OTHER||Geometric Mean Ratio|1.21|||||TWO_SIDED|90.0|1.04|1.4||||||||1.40|1.04|
92408701|NCT02817464|184707025|OTHER||Geometric Mean Ratio|0.51|||||TWO_SIDED|90.0|0.23|1.13||||||||1.13|0.23|
92228130|NCT03434379|184358542|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.2214|TWO_SIDED|95.0|0.42|1.23|||Log Rank|||Role Functioning: Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||1.23|0.42|0.2214
92408702|NCT02817464|184707027|OTHER|||||||0.0073|||||||Log Rank|||||||0.0073
92408703|NCT04292899|184707046|SUPERIORITY||Odds Ratio (OR)|0.75||||0.1563|TWO_SIDED|95.0|0.507|1.115||P-value was calculated using a proportional odds model with treatment as the independent variable and baseline clinical status as a continuous covariate.|Proportional odds model|||||1.115|0.507|0.1563
92408704|NCT04292899|184707046|SUPERIORITY||Odds Ratio (OR)|0.67||||0.0368|TWO_SIDED|95.0|0.458|0.976||P-value was calculated using a proportional odds model with treatment as the independent variable.|Proportional odds model|||||0.976|0.458|0.0368
92408705|NCT04292899|184707047|SUPERIORITY||Difference in Percentages|1.3||||0.7678|TWO_SIDED|95.0|-7.4|10.0||P-value for comparison of the percentages between the two groups was calculated using the Cochran-Mantel-Haenszel test stratified on baseline clinical status.|Cochran-Mantel-Haenszel|||||10.0|-7.4|0.7678
92408706|NCT00948441|184707048|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||t-test, 2 sided|||matched pairs T test to compare infection rates during the two study periods||||0.012
92408707|NCT02039843|184707056|SUPERIORITY|||||||0.052||||||Two-sided a priori alpha level was 0.05.|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in WHO-DAS score adjusted for gender, site, baseline score, time \& timeXgroup interaction||||||0.052
92408708|NCT02039843|184707057|SUPERIORITY|||||||0.421||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in PCS score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.421
92408709|NCT02039843|184707058|SUPERIORITY|||||||0.606||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in MCS score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.606
92408710|NCT02039843|184707059|SUPERIORITY|||||||0.21||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in PSQI score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.210
92408711|NCT02039843|184707060|SUPERIORITY|||||||0.036||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in PCL-5 score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.036
92408712|NCT02039843|184707061|SUPERIORITY|||||||0.079||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in PHQ-9 score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.079
92408713|NCT02039843|184707062|SUPERIORITY|||||||0.155||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in DAR score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.155
92408714|NCT02039843|184707063|SUPERIORITY|||||||0.157||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Generalized linear mixed repeated measures analysis on group difference in SBI adjusted for gender, site, baseline SBI, time, and timeXgroup||||||0.157
92408715|NCT02039843|184707064|SUPERIORITY|||||||0.43||||||p-value from random effects regression controlling for month and baseline outcome|Regression, Linear|||||||0.430
92408716|NCT02039843|184707065|SUPERIORITY|||||||0.358||||||p-value from random effects regression controlling for month and baseline outcome|Regression, Linear|||||||0.358
92408717|NCT02039843|184707066|SUPERIORITY|||||||0.39||||||p-value from random effects regression controlling for month and baseline outcome|Regression, Linear|||||||0.39
92408718|NCT02039843|184707076|SUPERIORITY|||||||0.383||||||p-value from random effects regression controlling for month and baseline outcome|Regression, Linear|||||||0.383
92408719|NCT02039843|184707077|SUPERIORITY|||||||0.932|||||||Regression, Linear|||||||0.932
92408720|NCT01958164|184707078|SUPERIORITY_OR_OTHER||Mean Difference (Net)|73.3|||||TWO_SIDED|95.0|23.3|89.3|||||Difference calculated as actilyse minus saline solution|||89.3|23.3|
92408721|NCT01958164|184707079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|66.7|||||TWO_SIDED|95.0|20.7|90.3|||||Difference calculated as actilyse minus saline solution|||90.3|20.7|
92408722|NCT00740857|184707083|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Proportional hazards model|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
92228131|NCT03434379|184358542|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0135|TWO_SIDED|95.0|0.32|0.88|||Log Rank|||GHS/QoL: Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.88|0.32|0.0135
92408723|NCT00740857|184707083|SUPERIORITY_OR_OTHER|||||||0.001|||||||Proportional hazards model|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||0.001
92408724|NCT00740857|184707083|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Proportional hazards model|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
92408725|NCT00740857|184707084|SUPERIORITY_OR_OTHER|||||||0.118|||||||ANOVA|With treatment, baseline Pain Severity Rating (PSR), and gender terms.||15 minutes||||0.118
92408726|NCT00740857|184707084|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|With treatment, baseline Pain Severity Rating (PSR), and gender terms.||The 30, 45, 60....||||<0.001
92408727|NCT00740857|184707085|SUPERIORITY_OR_OTHER|||||||0.041|||||||ANOVA|With treatment, baseline Pain Severity Rating (PSR), and gender terms.||15 minutes||||0.041
92408728|NCT00740857|184707085|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|With treatment, baseline Pain Severity Rating (PSR), and gender terms.||The 30, 45, 60, 90, 120, 180, 240, 300 and 360 minute individual time points all have the same P-value score.||||<0.001
92408729|NCT00740857|184707086|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|With treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
92228132|NCT02022826|184358569|OTHER||percentage of agreement|76.0||||0.0052|TWO_SIDED|95.0|69.0|83.0|||McNemar|||||83|69|0.0052
92228133|NCT02022826|184358570|OTHER||precentage of agreement|92.0||||1|TWO_SIDED|95.0|87.0|96.0|||McNemar|||||96|87|1.00
92408730|NCT00740857|184707087|SUPERIORITY_OR_OTHER|||||||0.056|||||||ANOVA|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||15 minutes||||0.056
92408731|NCT00740857|184707087|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||The 30, 45, 60, 90, 120, 180, 240, 300 and 360 minute individual time points all have the same P-value score.||||<0.001
92408732|NCT00740857|184707088|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
92408733|NCT00740857|184707089|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
92408734|NCT00740857|184707090|SUPERIORITY_OR_OTHER||||||<|0.001|||||||proportional hazards model|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
92408735|NCT02963506|184707091|OTHER||Correlation statistic|17.9|||<|0.001|||||||Cochran-Mantel-Haenszel|||Statistic and p-value were calculated using a Cochran-Mantel-Haenszel test (test for non-zero correlation statistic) based on modified ridit scores and including geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure as stratification factors.||||<0.001
92408736|NCT02963506|184707091|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|2.6|||=|0.04|TWO_SIDED|95.0|1.04|6.48||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior tumor necrosis factor (TNF) inhibitor exposure.||6.48|1.04|=0.040
92228134|NCT03179436|184358574|OTHER||Percent Difference|2.4|||||TWO_SIDED|95.0|-8.7|14.1|||Percent Difference|Comparision based on Miettinen \& Nurminen method||||14.1|-8.7|
92228135|NCT01634555|184358586|SUPERIORITY_OR_OTHER||Ratio of Geo LS means|0.93|||||TWO_SIDED|90.0|0.83|1.05|||Mixed Models Analysis|Ratio of Geo LS mean is AUC(0-∞) of Cycle 2/Cycle 1 for Irinotecan .||||1.05|0.83|
92228136|NCT01634555|184358586|SUPERIORITY_OR_OTHER||Ratio of Geo LS means|0.95|||||TWO_SIDED|90.0|0.88|1.04|||Mixed Models Analysis|Ratio of Geo LS mean is AUC(0-∞) of Cycle 2/Cycle 1 for Metabolite SN-38.||||1.04|0.88|
92408737|NCT02963506|184707091|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|4.5|||=|0.001|TWO_SIDED|95.0|1.83|10.86||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||10.86|1.83|=0.001
92228137|NCT01634555|184358588|SUPERIORITY_OR_OTHER||Ratio of Geo LS means|1.04|||||TWO_SIDED|90.0|0.97|1.12|||Mixed Models Analysis|Ratio of Geo LS mean is Cmax of Cycle 2/Cycle 1 for Irinotecan.||||1.12|0.97|
92228138|NCT01634555|184358588|SUPERIORITY_OR_OTHER||Ratio of Geo LS means|0.97|||||TWO_SIDED|90.0|0.85|1.12|||Mixed Models Analysis|Ratio of Geo LS mean is Cmax of Cycle 2/Cycle 1 for Metabolite SN-38.||||1.12|0.85|
92228139|NCT01506882|184358591|SUPERIORITY_OR_OTHER||Percent|73.8|||||TWO_SIDED|95.0|60.9|84.2||||||"The primary efficacy variable was to be calculated as the proportion p=n/N of subjects (n) staying seizure free for 6 months out of the total number of subjects (N). For this proportion p, an exact 2-sided 95% confidence interval (CI) was computed based on the F distribution.~The hypothesis H0: p=0.4 was to be formally rejected in favor of H1: p\>0.4, if the lower confidence limit for p was greater than 0.4."||84.2|60.9|
92373705|NCT00303446|184649560|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.61
92373706|NCT00450294|184649561|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||That the means at the different timepoints would not all be equal.|ANOVA|||Repeated measures anova with post hoc t-tests using tukey's correction.||||<0.001
92373707|NCT00450294|184649562|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||That the means at the different timepoints would not all be equal.|ANOVA|||Repeated measures anova with post hoc t-tests using tukey's correction.||||<0.001
92373708|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.136||0.499|TWO_SIDED|95.0|-0.36|0.18|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 3||0.18|-0.36|0.4990
92373709|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.135|<|0.0001|TWO_SIDED|95.0|-0.83|-0.29|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 3||-0.29|-0.83|<0.0001
92373710|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.137|<|0.0001|TWO_SIDED|95.0|-1.1|-0.56|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference is calculated as Test value minus Negative Control value.|Change from Baseline at Day 3||-0.56|-1.10|<0.0001
92373711|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.112||0.009|TWO_SIDED|95.0|-0.52|-0.08|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 14||-0.08|-0.52|0.0090
92373712|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.111|<|0.0001|TWO_SIDED|95.0|-0.89|-0.45|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 14||-0.45|-0.89|<0.0001
92373713|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.112|<|0.0001|TWO_SIDED|95.0|-1.66|-1.22|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control value.|Change from Baseline at Day 14||-1.22|-1.66|<0.0001
92373714|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.116||0.0007|TWO_SIDED|95.0|-0.63|-0.17|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 28||-0.17|-0.63|0.0007
92373715|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.116|<|0.0001|TWO_SIDED|95.0|-0.85|-0.39|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 28||-0.39|-0.85|<0.0001
92373716|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-1.62|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.85|-1.38|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control value.|Change from Baseline at Day 28||-1.38|-1.85|<0.0001
92373717|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.112||0.0015|TWO_SIDED|95.0|-0.59|-0.14|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 56||-0.14|-0.59|0.0015
92373718|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.113|<|0.0001|TWO_SIDED|95.0|-1.05|-0.61|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 56||-0.61|-1.05|<0.0001
92373719|NCT05243745|184649582|SUPERIORITY||Adjusted Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|0.115|<|0.0001|TWO_SIDED|95.0|-1.95|-1.49|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control.|Change from Baseline at Day 56||-1.49|-1.95|<0.0001
92373720|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|5.93|STANDARD_ERROR_OF_MEAN|2.572||0.0231|TWO_SIDED|95.0|0.83|11.02|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 3||11.02|0.83|0.0231
92373721|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|18.42|STANDARD_ERROR_OF_MEAN|2.549|<|0.0001|TWO_SIDED|95.0|13.37|23.47|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 3||23.47|13.37|<0.0001
92228140|NCT02863068|184358601|SUPERIORITY|||||||0.2967||||||A matched pairs design was employed to test for changes in methemoglobin at baseline and EOS for all participants between treatment arms using a Wilcoxon signed rank test|Wilcoxon (Mann-Whitney)|||Change in methemoglobin from baseline to end of study (EOS) for all participants.||||0.2967
92408738|NCT02963506|184707091|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|5.5|||<|0.001|TWO_SIDED|95.0|2.27|13.48||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||13.48|2.27|<0.001
92408739|NCT02963506|184707091|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|5.3|||<|0.001|TWO_SIDED|95.0|2.19|12.92||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||12.92|2.19|<0.001
92408740|NCT02963506|184707092|OTHER||LS Mean Difference vs placebo|-0.5|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-0.86|-0.24|||ANCOVA|||Least squares (LS) Mean, standard error, confidence interval and p-value were derived using the analysis of covariance (ANCOVA) model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.24|-0.86|<0.001
92408741|NCT02963506|184707092|OTHER||LS Mean Difference vs placebo|-1.2|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.47|-0.83|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.83|-1.47|<0.001
92408742|NCT02963506|184707092|OTHER||LS Mean Difference vs placebo|-1.0|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.35|-0.72|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.72|-1.35|<0.001
92408743|NCT02963506|184707092|OTHER||LS Mean Difference vs placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.45|-0.82|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.82|-1.45|<0.001
92408744|NCT02963506|184707093|OTHER||Odds Ratio (OR)|1.7|||=|0.163|TWO_SIDED|95.0|0.8|3.67||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||3.67|0.80|=0.163
92408745|NCT02963506|184707093|OTHER||Odds Ratio (OR)|3.9|||<|0.001|TWO_SIDED|95.0|1.84|8.48||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||8.48|1.84|<0.001
92408746|NCT02963506|184707093|OTHER||Odds Ratio (OR)|3.5|||=|0.001|TWO_SIDED|95.0|1.66|7.61||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||7.61|1.66|=0.001
92228141|NCT02863068|184358602|SUPERIORITY|||||||0.2818||||||A matched pairs design was employed to test for changes in total ulcerated surface area at baseline and EOS between treatment arms using a Wilcoxon signed rank test|Wilcoxon (Mann-Whitney)|||Change in total ulcerated surface area from baseline to end of study (EOS)||||0.2818
92408747|NCT02963506|184707093|OTHER||Odds Ratio (OR)|6.5|||<|0.001|TWO_SIDED|95.0|2.92|14.28||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||14.28|2.92|<0.001
92408748|NCT02963506|184707094|OTHER||Odds Ratio (OR)|5.3|||=|0.003|TWO_SIDED|95.0|1.74|15.96||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||15.96|1.74|=0.003
92408749|NCT02963506|184707094|OTHER||Odds Ratio (OR)|11.9|||<|0.001|TWO_SIDED|95.0|4.03|35.38||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||35.38|4.03|<0.001
92408750|NCT02963506|184707094|OTHER||Odds Ratio (OR)|14.3|||<|0.001|TWO_SIDED|95.0|4.81|42.46||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||42.46|4.81|<0.001
92408751|NCT02963506|184707094|OTHER||Odds Ratio (OR)|14.9|||<|0.001|TWO_SIDED|95.0|5.02|44.27||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||44.27|5.02|<0.001
92228142|NCT02863068|184358602|SUPERIORITY|||||||1|||||||Fisher Exact|Fisher's exact test was used to test for differences in frequencies between treatment arms||Difference in frequency of 25% total ulcerated surface area reduction between treatment arms||||1.0
92408752|NCT02963506|184707095|OTHER||LS Mean Difference vs placebo|-0.6|STANDARD_ERROR_OF_MEAN|0.36|=|0.094|TWO_SIDED|95.0|-1.31|0.1|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||0.10|-1.31|=0.094
92408753|NCT02963506|184707095|OTHER||LS Mean Difference vs placebo|-1.6|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.34|-0.91|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.91|-2.34|<0.001
92408754|NCT02963506|184707095|OTHER||LS Mean Difference vs placebo|-1.6|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.35|-0.91|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.91|-2.35|<0.001
92408755|NCT02963506|184707095|OTHER||LS Mean Difference vs placebo|-1.9|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-2.6|-1.18|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-1.18|-2.60|<0.001
92408756|NCT02963506|184707096|OTHER||LS Mean Difference vs placebo|-0.6|STANDARD_ERROR_OF_MEAN|0.36|=|0.075|TWO_SIDED|95.0|-1.35|0.07|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||0.07|-1.35|=0.075
92408757|NCT02963506|184707096|OTHER||LS Mean Difference vs placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.36|=|0.003|TWO_SIDED|95.0|-1.79|-0.37|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.37|-1.79|=0.003
92408758|NCT02963506|184707096|OTHER||LS Mean Difference vs placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.36|=|0.002|TWO_SIDED|95.0|-1.84|-0.42|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.42|-1.84|=0.002
92408759|NCT02963506|184707096|OTHER||LS Mean Difference vs placebo|-1.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-2.22|-0.81|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.81|-2.22|<0.001
92408760|NCT02581410|184707100|NON_INFERIORITY|Non-inferiority will be demonstrated if the upper limit of the two-sided 95% confidence interval of the adjusted geometric mean concentration (GMC) ratio (No prev- Zvax over Prev-Zvax) 1 month post-dose 2 is below 1.5 in terms of anti-gE antibodies.|Adjusted GMC ratio|1.04|||||TWO_SIDED|95.0|0.92|1.17|||ANCOVA|||To compare humoral immune responses at 1 month after dose 2 of GSK1437173A (Month 3) in subjects ≥ 65 years of age who received Zostavax ≥ 5 years earlier (Prev-Zvax) as compared to subjects who have never received Zostavax (No prev-Zvax).||1.17|0.92|
92408761|NCT02819011|184707134|SUPERIORITY|||||||0.04||||||priori threshold for statistical significance= 0.05|Mixed Models Analysis|||Repeated measures to compare changes in two groups from baseline to 6 months||||0.040
92408762|NCT02819011|184707135|SUPERIORITY|||||||0.005||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes in both groups from baseline to 6 months||||0.005
92408763|NCT02819011|184707136|SUPERIORITY|||||||0.019||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes in both groups from baseline to 6 months||||0.019
92408764|NCT02819011|184707138|SUPERIORITY|||||||0.572||||||priori threshold for statistical significance = 0.05|Generalized Estimating Equations|||Repeated measures to compare the changes of both groups from pre-intervention to post-intervention year.||||0.572
92168986|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.51|||<|0.0001|TWO_SIDED|95.0|1.24|1.85|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=50% reduction||1.85|1.24|<0.0001
92408765|NCT02819011|184707139|SUPERIORITY|||||||0.65||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes between groups from baseline to 6 months||||0.650
92408766|NCT02819011|184707140|SUPERIORITY|||||||0.756||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes between groups from baseline to 6 months||||0.756
92408767|NCT02819011|184707143|SUPERIORITY|||||||0.769||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes between groups from baseline to 6 months||||0.769
92408768|NCT02819011|184707144|SUPERIORITY|||||||0.857||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes between groups from baseline to 6 months||||0.857
92408769|NCT02819011|184707145|SUPERIORITY|||||||0.829||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes between groups from baseline to 6 months||||0.829
92408770|NCT02685267|184707146|OTHER|The study was terminated after only 9 patients enrolled, 5 to the standard of care docetaxel/prednisone arm and 4 to experimental docetaxel/prednisone/enzalutamide arm.|log-rank test|0.6761||||0.6761|TWO_SIDED|95.0|||||Chi-squared|||The study was terminated after only 9 patients enrolled, 5 to the standard of care docetaxel/prednisone arm and 4 to experimental docetaxel/prednisone/enzalutamide arm.||||0.6761
92408771|NCT01027806|184707156|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92408772|NCT02923921|184707178|SUPERIORITY||Hazard Ratio (HR)|1.045||||0.6565|TWO_SIDED|95.0|0.863|1.265|||Log Rank|||The primary test to compare overall survival between treatment arms was the two-sided log-rank test, stratified by region and prior therapy. The estimate of the hazard ration (HR) - (Pegilodecakin + FOLFOX Arm / FOLFOX Arm) and the corresponding 95% CI was computed using a Cox proportional hazards model stratified by randomization stratification factors. Randomization stratification factors were based on the data recorded in interactive voice response system (IVRS).||1.265|0.863|0.6565
92408773|NCT02923921|184707179|SUPERIORITY||Hazard Ratio (HR)|0.981||||0.8144|TWO_SIDED|95.0|0.808|1.19|||Log Rank|||The estimate of hazard ratio (HR) was stratified by region and prior therapy.||1.190|0.808|0.8144
92228143|NCT02863068|184358603|SUPERIORITY|||||||0.3754||||||A matched pairs design was employed to test for changes in average pain at baseline and EOS between treatment arms using a Wilcoxon signed rank test|Wilcoxon (Mann-Whitney)|||Change in average pain from baseline to end of study (EOS)||||0.3754
92228144|NCT02863068|184358605|SUPERIORITY|||||||0.1165||||||A matched pairs design was employed to test for changes in methemoglobin at baseline and EOS between treatment arms for participants on Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in methemoglobin from baseline to end of study (EOS) for participants on Hydroxyurea (HU).||||0.1165
92228145|NCT02863068|184358605|SUPERIORITY|||||||0.4583||||||A matched pairs design was employed to test for changes in methemoglobin at baseline and EOS between treatment arms for participants off Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in methemoglobin from baseline to end of study (EOS) for participants off Hydroxyurea (HU).||||0.4583
92228146|NCT02863068|184358606|SUPERIORITY|||||||0.068||||||A matched pairs design was employed to test for changes in total ulcerated surface area at baseline and EOS between treatment arms for participants on Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in total ulcerated surface area from baseline to end of study (EOS) for participants on Hydroxyurea (HU).||||0.068
92228147|NCT02863068|184358606|SUPERIORITY|||||||0.5||||||A matched pairs design was employed to test for changes in total ulcerated surface area at baseline and EOS between treatment arms for participants off Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in total ulcerated surface area from baseline to end of study (EOS) for participants off Hydroxyurea (HU).||||0.5
92228148|NCT02863068|184358606|SUPERIORITY|||||||1|||||||Fisher Exact|Difference in frequency of 25% total ulcerated surface area reduction between treatment arms for participants on Hydroxyurea (HU).||Difference in frequency of 25% total ulcerated surface area reduction between treatment arms for participants on Hydroxyurea (HU).||||1.0
92228149|NCT02863068|184358606|SUPERIORITY|||||||1|||||||Fisher Exact|Fisher's exact test was used to test for differences in frequencies between treatment arms for participants off Hydroxyurea (HU).||Difference in frequency of 25% total ulcerated surface area reduction between treatment arms for participants off Hydroxyurea (HU).||||1.0
92373722|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|23.93|STANDARD_ERROR_OF_MEAN|2.571|<|0.0001|TWO_SIDED|95.0|18.83|29.02|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control.|Change from Baseline at Day 3||29.02|18.83|<0.0001
92373723|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|8.97|STANDARD_ERROR_OF_MEAN|2.293||0.0002|TWO_SIDED|95.0|4.43|13.51|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 14||13.51|4.43|0.0002
92373724|NCT05243745|184649583|SUPERIORITY||Slope|17.71|STANDARD_ERROR_OF_MEAN|2.265|<|0.0001|TWO_SIDED|95.0|13.22|22.2|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 14||22.20|13.22|<0.0001
92373725|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|32.81|STANDARD_ERROR_OF_MEAN|2.288|<|0.0001|TWO_SIDED|95.0|28.27|37.34|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control.|Change from Baseline at Day 14||37.34|28.27|<0.0001
92373726|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|10.2|STANDARD_ERROR_OF_MEAN|2.485|<|0.0001|TWO_SIDED|95.0|5.28|15.13|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 28||15.13|5.28|<0.0001
92373727|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|13.92|STANDARD_ERROR_OF_MEAN|2.46|<|0.0001|TWO_SIDED|95.0|9.05|18.8|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 28||18.80|9.05|<0.0001
92373728|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|36.51|STANDARD_ERROR_OF_MEAN|2.568|<|0.0001|TWO_SIDED|95.0|31.42|41.6|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control.|Change from Baseline at Day 28||41.60|31.42|<0.0001
92373729|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|9.73|STANDARD_ERROR_OF_MEAN|2.761||0.0006|TWO_SIDED|95.0|4.26|15.2|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 56||15.20|4.26|0.0006
92373730|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|19.06|STANDARD_ERROR_OF_MEAN|2.772|<|0.0001|TWO_SIDED|95.0|13.57|24.55|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 56||24.55|13.57|<0.0001
92408774|NCT02923921|184707180|SUPERIORITY||Odds Ratio (OR)|0.8||||0.7044|TWO_SIDED|95.0|0.4|1.7||P-value is calculated by Exact Cochran-Mantel-Haenszel test stratified by the randomization strata Prior Therapy - interactive voice response system (IVRS), Geographic Region - IVRS.|Cochran-Mantel-Haenszel|||||1.7|0.4|0.7044
92228150|NCT02863068|184358607|SUPERIORITY|||||||0.4298||||||A matched pairs design was employed to test for changes in average pain at baseline and EOS between treatment arms for participants on Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in average pain from baseline to end of study (EOS) for participants on Hydroxyurea (HU).||||0.4298
92373731|NCT05243745|184649583|SUPERIORITY||Adjusted Mean Difference|39.33|STANDARD_ERROR_OF_MEAN|2.829|<|0.0001|TWO_SIDED|95.0|33.73|44.94|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control value.|Change from Baseline at Day 56||44.94|33.73|<0.0001
92228151|NCT02863068|184358607|SUPERIORITY|||||||0.2701||||||A matched pairs design was employed to test for changes in average pain at baseline and EOS between treatment arms for participants off Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in average pain from baseline to end of study (EOS) for participants off Hydroxyurea (HU).||||0.2701
92373732|NCT04187144|184649629|NON_INFERIORITY|The difference in success rate between treatment groups (gepotidacin - nitrofurantoin) was calculated using Miettinen-Nurminen Summary Score Method adjusted for age group and acute cystitis recurrence strata combinations. Criteria for non-inferiority is if the Z-statistic for non-inferiority is greater than the 2.098 Z-statistic boundary.|Adjusted Difference in Percent|14.6|||||TWO_SIDED|95.0|6.4|22.8|||||||Observed Z statistic value for Noninferiority was 5.8838.|22.8|6.4|
92373733|NCT04187144|184649629|SUPERIORITY||Adjusted difference in Percent|14.6||||0.0003|TWO_SIDED|95.0|6.4|22.8|||1-sided p-value for Test of Superiority|||The difference in success rate between treatment groups (gepotidacin - nitrofurantoin) was calculated using Miettinen-Nurminen Summary Score Method adjusted for age group and acute cystitis recurrence strata combinations. Criteria for superiority is if the one-sided p-value is less than the 0.018 p-value boundary||22.8|6.4|0.0003
92373734|NCT01159171|184649675|SUPERIORITY_OR_OTHER|||||||0.0047||0.0||||One-sided p-value|One sample exact binomial test|||||||0.0047
92373735|NCT01962987|184649704|EQUIVALENCE|90% confidence interval of the difference in the percentage of patients between Test and Reference to be contained within -20%, + 20%, using the Per-Protocol Population.|(Test-Ref) Difference|0.68|||||TWO_SIDED|90.0|-8.06|9.42|||||Applicable to Percentage of Subjects with Cure (100% complete AK clearance at day 90)|||9.42|-8.06|
92373736|NCT01962987|184649704|SUPERIORITY|||||||0.001|||||||ANOVA|||||||0.0010
92373737|NCT01468207|184649707|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|15.9|||=|0.003|TWO_SIDED|95.0|5.3|26.5||P-value adjusted for baseline Hurley Stage.|Cochran-Mantel-Haenszel|||||26.5|5.3|=0.003
92373738|NCT01468207|184649707|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.8|||=|0.048|TWO_SIDED|95.0|0.3|29.3|||Chi-squared|||||29.3|0.3|=0.048
92373739|NCT01468207|184649707|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|17.1|||=|0.027|TWO_SIDED|95.0|2.2|32.1|||Chi-squared|||||32.1|2.2|=0.027
92373740|NCT01468207|184649708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|||=|0.961|TWO_SIDED|95.0|-13.4|14.1|||Chi-squared|||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||14.1|-13.4|=0.961
92373741|NCT01468207|184649709|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|2.8|||=|0.628|TWO_SIDED|95.0|-8.6|14.2||P-value adjusted for baseline Hurley Stage.|Cochran-Mantel-Haenszel|||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||14.2|-8.6|=0.628
92373742|NCT01468207|184649710|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.7|||=|0.124|TWO_SIDED|95.0|-19.7|2.4|||ANCOVA|P-value calculated from ANCOVA with stratum, baseline, and treatment as covariates.||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||2.4|-19.7|=0.124
92373743|NCT00664560|184649715|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority (NI) margin of 10mm between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|-0.22|||||TWO_SIDED|95.0|-4.76|4.32|||ANCOVA|||||4.32|-4.76|
92408775|NCT02923921|184707181|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1463|TWO_SIDED|95.0|0.9|1.8||P-value is calculated by Exact Cochran-Mantel-Haenszel test stratified by the randomization strata Prior Therapy - interactive voice response system (IVRS), Geographic Region - IVRS.|Cochran-Mantel-Haenszel|||||1.8|0.9|0.1463
92408776|NCT02923921|184707182|SUPERIORITY||Hazard Ratio (HR)|1.008||||0.9952|TWO_SIDED|95.0|0.37|2.741|||Log Rank|||The estimate of hazard ratio (HR) was stratified by region and prior therapy.||2.741|0.370|0.9952
92373744|NCT00664560|184649716|NON_INFERIORITY_OR_EQUIVALENCE|10 mm Non-Inferiority (NI) margin between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|-0.09|||||TWO_SIDED|95.0|-4.57|4.38|||ANCOVA|||||4.38|-4.57|
92373745|NCT00664560|184649717|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority (NI) margin 10 mm between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|-0.47|||||TWO_SIDED|95.0|-5.08|4.14|||ANCOVA|||||4.14|-5.08|
92373746|NCT01328041|184649727|SUPERIORITY_OR_OTHER||T distribution|-1.432|||<|0.001|TWO_SIDED|95.0|-1.52|-1.343||The P value was derived by the null hypothesis testing of no change from Baseline in HIV-1 RNA at Day 8 at the two-sided 5% significance level using a single sample t-test.|t-test, 2 sided|||||-1.343|-1.520|<0.001
92373747|NCT01328041|184649728|SUPERIORITY_OR_OTHER||percentage of participants|69.0|||||TWO_SIDED|95.0|62.0|76.0|||||The estimated value represents the percentage of participants with HIV-1 RNA less than 50 copies/mL at Week 24.|||76|62|
92373748|NCT01328041|184649729|SUPERIORITY_OR_OTHER||percentage of participants|63.0|||||TWO_SIDED|95.0|56.0|70.0|||||The estimated value represents the percentage of participants with HIV-1 RNA less than 50 copies/mL at Week 48.|||70|56|
92373749|NCT03392883|184649749|OTHER|Paired version (T-test for paired sample, Friedman and McNemar tests) was used for contrasting the equality among the variables at different moments of time. In order to adjust our results by potential confounders, ANCOVA analyses was performed. Symmetric 95% confidence intervals will be provided for relevant parameters. All p-values were referred to two-sided hypotheses. P-values below 0.05 were considered statistically significant.|||||<|0.001|TWO_SIDED|95.0||||p\<0.05 is the threshold for statistical significance.|t-test, 2 sided|||We analyzed changes over time for every subscale. This Statistical Analysis describes the Adoption subscale results.||||<0.001
92373750|NCT03392883|184649749|OTHER|||||||0.552||||||p\<0.05 is the threshold for statistical significance.|t-test, 2 sided|||We analyzed changes over time for every subscale in this instrument. This Statistical Analysis describes the Acceptability subscale results.||||0.552
92373751|NCT03392883|184649749|OTHER|||||||0.32||||||p\<0.05 is the threshold for statistical significance.|t-test, 2 sided|||We analyzed changes over time for every subscale in this instrument. This Statistical Analysis describes the Appropriateness subscale results.||||0.320
92373752|NCT03392883|184649749|OTHER|||||||0.879||||||p\<0.05 is the threshold for statistical significance.|t-test, 2 sided|||We analyzed changes over time for every subscale in this instrument. This Statistical Analysis describes the Feasibility subscale results.||||0.879
92373753|NCT03392883|184649749|OTHER|||||||0.242||||||p\<0.05 is the threshold for statistical significance.|t-test, 2 sided|||We analyzed changes over time for every subscale in this instrument. This Statistical Analysis describes the Reach/Access subscale results.||||0.242
92373754|NCT03392883|184649750|OTHER|||||||0.237||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Adoption subscale results.||||0.237
92373755|NCT03392883|184649750|OTHER|||||||0.492||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Accessibility subscale results.||||0.492
92373756|NCT03392883|184649750|OTHER|||||||0.285||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Appropriateness subscale results.||||0.285
92373757|NCT03392883|184649750|OTHER|||||||0.964||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Feasibility subscale results.||||0.964
92373758|NCT03392883|184649750|OTHER|||||||0.942||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Resources subscale results.||||0.942
92373759|NCT03392883|184649750|OTHER|||||||0.366||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Scope subscale results.||||0.366
92373760|NCT03392883|184649750|OTHER|||||||0.021||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Organizational Climate subscale results.||||0.021
92373761|NCT03392883|184649750|OTHER|||||||0.832||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Leadership in Implementing subscale results.||||0.832
92373762|NCT03392883|184649750|OTHER|||||||0.827||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the General Leadership Skills subscale results.||||0.827
92373763|NCT03392883|184649751|OTHER|||||||0.118||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Adoption subscale results.||||0.118
92373764|NCT03392883|184649751|OTHER|||||||0.896||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Accessibility subscale results.||||0.896
92373765|NCT03392883|184649751|OTHER|||||||0.739||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Appropriateness subscale results.||||0.739
92373766|NCT03392883|184649751|OTHER|||||||0.724||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Feasibility subscale results.||||0.724
92408777|NCT02923921|184707183|SUPERIORITY||Mean Difference (Final Values)|-4.4||||0.2298|TWO_SIDED|95.0|-11.6|2.8|||Log Rank|||||2.8|-11.6|0.2298
92168987|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.45||||0.006|TWO_SIDED|95.0|1.11|1.88|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=70% reduction||1.88|1.11|0.0060
92168988|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0031|TWO_SIDED|95.0|1.14|1.93|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=70% reduction||1.93|1.14|0.0031
92168989|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0235|TWO_SIDED|95.0|1.08|2.88|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=90% reduction||2.88|1.08|0.0235
92168990|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0021|TWO_SIDED|95.0|1.31|3.42|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=90% reduction||3.42|1.31|0.0021
92373767|NCT03392883|184649751|OTHER|||||||0.301||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Adoption subscale results.||||0.301
92373768|NCT03392883|184649751|OTHER|||||||0.034||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Organizational Climate subscale results.||||0.034
92373769|NCT03392883|184649751|OTHER|||||||0.015||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Leadership in Implementing subscale results.||||0.015
92373770|NCT03392883|184649751|OTHER|||||||0.081||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the General Leadership Skills subscale results.||||0.081
92373771|NCT03392883|184649751|OTHER|||||||0.79||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Knowledge subscale results.||||0.790
92373772|NCT03392883|184649752|OTHER|||||||0.023||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes in the overall scores over time.||||0.023
92373773|NCT03392883|184649753|OTHER|||||||0.589||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes in the overall scores over time in this data.||||0.589
92228152|NCT00008385|184358628|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.25||||0.294|TWO_SIDED|95.0|0.64|2.37||This p value should be compared to the nominal p value of 0.0035 adjusting for the previous interim analyses|Log Rank||The 95% confidence interval was repeated confidence interval for the risk ratio|||2.37|0.64|0.294
92228153|NCT00008385|184358629|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069|TWO_SIDED||||||Log Rank|||||||0.069
92408778|NCT00479687|184707188|SUPERIORITY|||||||0.038||||||There was a single primary variable and the a-prior threshold for statistical significance was 0.05.|Mixed Models Analysis|mixed effects repeated measure model with baseline VAS, treatment, and week as fixed effects and subject nested within site as a random effect.||||||0.0380
92408779|NCT02840799|184707221|SUPERIORITY||Mean Difference (Final Values)|-0.1309108|STANDARD_ERROR_OF_MEAN|0.2619326||0.6191|TWO_SIDED|95.0|-0.6552259|0.3934043||A two-sided α=0.05 was determined by the power calculation.|t-test, 2 sided|t = -0.49979, df = 58. N=59 due to analyzing participants with complete data for Phase 1 and Phase 2 that crossovered.|Only participants that successfully crossed over were included in the t-test (N=59).|We considered an increase in peak VO2 of \~0.6 ml/kg/min to be the minimum clinically significant change. Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints with a two-sided α=0.05. PASS11157 was used to perform power calculations.||0.3934043|-0.6552259|0.6191
92408780|NCT02840799|184707221|SUPERIORITY||Slope|0.1||||0.711|TWO_SIDED|95.0|-0.043|0.62||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect.||0.62|-.043|0.711
92408781|NCT02840799|184707222|SUPERIORITY||Mean Difference (Final Values)|2.217657|STANDARD_ERROR_OF_MEAN|2.065196||0.2871|TWO_SIDED|95.0|-1.910612|6.3459261|||t-test, 2 sided|t = 1.0738, df = 62, p-value = 0.2871, N=63 due to analyzing participants with complete data for Phase 1 and Phase 2 that crossovered.||A two-sided α=0.05 was determined by the power calculation.||6.3459261|-1.910612|0.2871
92408782|NCT02840799|184707222|SUPERIORITY||Slope|-2.12||||0.2935|TWO_SIDED|95.0|-6.12|1.88||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect. Randomization sequence was not included in the final model due to lack of evidence for a carry over effect. Phase 1 data for participants that did not crossover due to IDS were considered for the model (N=74).||1.88|-6.12|0.2935
92408783|NCT02840799|184707223|SUPERIORITY||Mean Difference (Final Values)|2.1859922|STANDARD_ERROR_OF_MEAN|1.578944||0.171|TWO_SIDED|95.0|-0.9674467|5.3392901||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|t=1.3844, df=65, p=0.171. N=66 due to analyzing participants with complete data for Phase 1 and Phase 2 that crossover correctly.||||5.3392901|-0.9674467|0.171
92408784|NCT02840799|184707223|SUPERIORITY||Slope|-2.51||||0.113|TWO_SIDED|95.0|-5.62|0.61||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect.||0.61|-5.62|0.113
92408785|NCT02840799|184707224|SUPERIORITY||Mean Difference (Final Values)|2.776572|STANDARD_ERROR_OF_MEAN|3.99464||0.4905|TWO_SIDED|95.0|-5.264221|10.817366||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|t = 0.69507, df=46, p=.4905. N=47 due to only analyzed participants that correctly crossovered.||||10.817366|-5.264221|0.4905
92228154|NCT00008385|184358630|SUPERIORITY_OR_OTHER_LEGACY|||||||0.154|TWO_SIDED||||||Log Rank|||||||0.154
92228155|NCT02064764|184358693|OTHER|Log-Rank Test For Comparing Treatment and Control||||||0.28|||||||Log Rank|||||||0.28
92228156|NCT02064764|184358694|OTHER|||||||0.7348|||||||Log Rank|||||||0.7348
92408786|NCT02840799|184707224|SUPERIORITY||Slope|1.088||||0.796|TWO_SIDED|95.0|-7.3|9.48||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect.||9.48|-7.30|0.796
92408787|NCT02840799|184707225|SUPERIORITY||Mean Difference (Final Values)|-38.11189|STANDARD_ERROR_OF_MEAN|43.84245||0.4017|TWO_SIDED|95.0|-133.63637|57.41259|||t-test, 2 sided|t=-0.86929,, df=12, p=0.4017||||57.41259|-133.63637|0.4017
92228157|NCT00600171|184358703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064||||0.208|TWO_SIDED|95.0|-0.036|0.164|||ANCOVA|||||0.164|-0.036|0.208
92228158|NCT00600171|184358703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069||||0.169|TWO_SIDED|95.0|-0.029|0.168|||ANCOVA|||||0.168|-0.029|0.169
92228159|NCT00600171|184358703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.011|TWO_SIDED|95.0|0.03|0.23|||ANCOVA|||||0.230|0.030|0.011
92228160|NCT00600171|184358703|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.121||||0.016|TWO_SIDED|95.0|0.023|0.22|||ANCOVA|||||0.220|0.023|0.016
92228161|NCT00600171|184358703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162||||0.001|TWO_SIDED|95.0|0.062|0.261|||ANCOVA|||||0.261|0.062|0.001
92228162|NCT03990870|184358740|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
92228163|NCT03990870|184358743|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.35
92228164|NCT03990870|184358745|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
92228165|NCT00109473|184358775|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.0||||0.02|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.02
92228166|NCT03213366|184358780|SUPERIORITY||Slope|-0.0095||||0.5783|TWO_SIDED|95.0|-0.04676|0.02776|||Mixed Models Analysis|||At 6 weeks.||0.02776|-0.04676|0.5783
92228167|NCT03213366|184358780|SUPERIORITY||Slope|-0.01692||||0.3185|TWO_SIDED|95.0|-0.05318|0.01933|||Mixed Models Analysis|||At 12 weeks.||0.01933|-0.05318|0.3185
92228168|NCT03213366|184358781|SUPERIORITY||Slope|0.03674||||0.07863|TWO_SIDED|95.0|-0.00516|0.07863|||Mixed Models Analysis|||At 6 weeks.||0.07863|-0.00516|0.07863
92228169|NCT03213366|184358781|SUPERIORITY||Slope|0.02594||||0.1999|TWO_SIDED|95.0|-0.01648|0.06836|||Mixed Models Analysis|||At 12 weeks.||0.06836|-0.01648|0.1999
92228170|NCT03213366|184358782|SUPERIORITY||Slope|0.000443||||0.8963|TWO_SIDED||||||Mixed Models Analysis|||At 6 weeks.||||0.8963
92228171|NCT03213366|184358782|SUPERIORITY||Slope|0.004308||||0.3229|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks||||0.3229
92228172|NCT03213366|184358783|SUPERIORITY||Slope|0.008705||||0.2433|TWO_SIDED|||||This t-test was for the random effects model not for comparing the difference between the arms.|Mixed Models Analysis|||||||0.2433
92228173|NCT03213366|184358783|SUPERIORITY||Slope|0.01358||||0.0839|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks.||||0.0839
92228174|NCT03213366|184358784|SUPERIORITY||Slope|-0.302||||0.2114|TWO_SIDED||||||Mixed Models Analysis|||At 6 weeks.||||0.2114
92228175|NCT03213366|184358784|SUPERIORITY||Slope|-0.03149||||0.2141|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks.||||0.2141
92228176|NCT03213366|184358785|SUPERIORITY||Slope|0.0278||||0.0124|TWO_SIDED||||||Mixed Models Analysis|||At 6 weeks.||||0.0124
92373774|NCT03392883|184649754|OTHER||Mean Difference (Net)|-6.65|||||TWO_SIDED|||||||||We analyzed changes over time by calculating the mean difference of the scores at baseline assessment and at 12-month follow-up assessment.||||
92373775|NCT03392883|184649755|OTHER||Mean Difference (Net)|-4.48|||||TWO_SIDED|||||||||We analyzed changes over time by calculating the mean difference of the total scores (sum of 12 items) at baseline assessment and at 12-month follow-up assessment.||||
92373776|NCT03392883|184649756|OTHER||Mean Difference (Net)|-5.77|||||TWO_SIDED|||||||||We analyzed changes over time by calculating the mean difference of the scores at baseline assessment and at 12-month follow-up assessment.||||
92373777|NCT03392883|184649757|OTHER||Mean Difference (Net)|-2.59|||||TWO_SIDED|||||||||We analyzed changes over time by calculating the mean difference of the number of standard drinks per week at baseline assessment and at 12-month follow-up assessment.||||
92373778|NCT02688088|184649784|SUPERIORITY||Ratio of Geometric LS Means|1.01|||||TWO_SIDED|90.0|0.965|1.06||||||||1.06|0.965|
92373779|NCT02688088|184649785|SUPERIORITY||Ratio of Geometric LS Means|0.935|||||TWO_SIDED|90.0|0.871|1.0||||||||1.00|0.871|
92373780|NCT02688088|184649786|SUPERIORITY||Ratio of Geometric LS Means|1.05|||||TWO_SIDED|90.0|0.898|1.22||||||||1.22|0.898|
92373781|NCT02688088|184649787|SUPERIORITY||Ratio of Geometric LS Means|0.845|||||TWO_SIDED|90.0|0.76|0.94||||||||0.940|0.760|
92373782|NCT02688088|184649788|SUPERIORITY||Ratio of Geometric LS Means|1.56|||||TWO_SIDED|90.0|1.35|1.81||||||||1.81|1.35|
92373783|NCT02688088|184649789|SUPERIORITY||Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|0.956|1.13||||||||1.13|0.956|
92373784|NCT02688088|184649790|SUPERIORITY||Mean Difference (Final Values)|0.976|||||TWO_SIDED|90.0|0.805|1.18||||||||1.18|0.805|
92373785|NCT02688088|184649791|SUPERIORITY||Ratio of Geometric LS Means|0.867|||||TWO_SIDED|90.0|0.775|0.972||||||||0.972|0.775|
92373786|NCT01453205|184649853|SUPERIORITY_OR_OTHER|||||||0.5543|||||||Cochran-Mantel-Haenszel|||||||0.5543
92373787|NCT01453205|184649854|SUPERIORITY_OR_OTHER|||||||0.8567|||||||Log Rank|||||||0.8567
92373788|NCT01453205|184649855|SUPERIORITY_OR_OTHER|||||||0.7412|||||||Log Rank|||||||0.7412
92373789|NCT01453205|184649856|SUPERIORITY_OR_OTHER|||||||0.9996|||||||Log Rank|||||||0.9996
92373790|NCT01453205|184649857|SUPERIORITY_OR_OTHER|||||||0.1686|||||||Log Rank|||||||0.1686
92373791|NCT02333396|184649920|SUPERIORITY||Beta Estimate|3.57|STANDARD_ERROR_OF_MEAN|4.53||0.44|TWO_SIDED|95.0|-5.77|12.9|||Mixed Models Analysis|||||12.9|-5.77|0.44
92373792|NCT02333396|184649921|SUPERIORITY||Beta Estimate|3.62|STANDARD_ERROR_OF_MEAN|2.05||0.09|TWO_SIDED|95.0|-0.61|7.84|||Mixed Models Analysis|||||7.84|-0.61|0.09
92373793|NCT02333396|184649922|SUPERIORITY||Beta Estimate|4.13|STANDARD_ERROR_OF_MEAN|2.05||0.05|TWO_SIDED|95.0|-0.09|8.36|||Mixed Models Analysis|||||8.36|-0.09|0.05
92373794|NCT02333396|184649923|SUPERIORITY||Beta Estimare|3.02|STANDARD_ERROR_OF_MEAN|2.26||0.19|TWO_SIDED|95.0|-1.63|7.67|||Mixed Models Analysis|||||7.67|-1.63|0.19
92373795|NCT02333396|184649924|SUPERIORITY||Beta Estimate|-0.22|STANDARD_ERROR_OF_MEAN|2.47||0.93|TWO_SIDED|95.0|-5.33|4.88|||Mixed Models Analysis|||||4.88|-5.33|0.93
92373796|NCT02333396|184649925|SUPERIORITY||Beta Estimate|-0.35|STANDARD_ERROR_OF_MEAN|1.29||0.79|TWO_SIDED|95.0|-3.02|2.31|||Mixed Models Analysis|||||2.31|-3.02|0.79
92373797|NCT02333396|184649928|SUPERIORITY||Beta Estimate|0.49|STANDARD_ERROR_OF_MEAN|1.03||0.64|TWO_SIDED|95.0|-2.62|1.64|||Mixed Models Analysis|||||1.64|-2.62|0.64
92373798|NCT02333396|184649929|SUPERIORITY||Beta Estimate|-0.9|STANDARD_ERROR_OF_MEAN|1.03||0.39|TWO_SIDED|95.0|-3.02|1.22|||Mixed Models Analysis|||||1.22|-3.02|0.39
92373799|NCT02333396|184649931|SUPERIORITY||Beta Estiamte|1.72|STANDARD_ERROR_OF_MEAN|1.1||0.13|TWO_SIDED|95.0|-0.55|3.98|||Mixed Models Analysis|||||3.98|-0.55|0.13
92373800|NCT02333396|184649932|SUPERIORITY||Beta Estimate|1.72|STANDARD_ERROR_OF_MEAN|1.1||0.13|TWO_SIDED|95.0|-0.55|3.98|||Mixed Models Analysis|||||3.98|-0.55|0.13
92373801|NCT02118766|184649934|SUPERIORITY_OR_OTHER|||||||0.038|||||||Regression, Logistic|||||||0.038
92373802|NCT02248649|184649944|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|covariates: baseline age and years of education||||||0.2
92373803|NCT02248649|184649945|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||0.04
92373804|NCT02248649|184649946|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||||||0.02
92228177|NCT03213366|184358785|SUPERIORITY||Slope|0.03052||||0.0022|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks.||||0.0022
92408788|NCT02840799|184707225|SUPERIORITY||Slope|61.77||||0.183|TWO_SIDED|95.0|-34.15|157.69||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||||157.69|-34.15|0.183
92408789|NCT02840799|184707226|SUPERIORITY||Mean Difference (Final Values)|0.202782|STANDARD_ERROR_OF_MEAN|0.202782||0.5636|TWO_SIDED|95.0|-0.4959279|0.9014918||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|t=0.58074, df=59, p=0.5636||||0.9014918|-0.4959279|0.5636
92408790|NCT02840799|184707226|SUPERIORITY||Slope|-0.3118||||0.361|TWO_SIDED|95.0|-0.99|0.37||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect.||0.37|-0.99|0.361
92228178|NCT03213366|184358786|SUPERIORITY||Slope|-0.05747||||0.1021|TWO_SIDED||||||Mixed Models Analysis|||At 6 weeks.||||0.1021
92228179|NCT03213366|184358786|SUPERIORITY||Slope|-0.05101||||0.133|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks.||||0.133
92228180|NCT03213366|184358787|SUPERIORITY||Slope|-0.0209||||0.0818|TWO_SIDED||||||Mixed Models Analysis|||At 6 weeks.||||0.0818
92228181|NCT03213366|184358787|SUPERIORITY||Slope|0.03103||||0.0334|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks.||||0.0334
92408791|NCT02840799|184707227|SUPERIORITY||Mean Difference (Final Values)|-0.1532142|STANDARD_ERROR_OF_MEAN|-0.1532142||0.7707|TWO_SIDED|95.0|-1.1998786|0.8934502||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|t= -0.29271, df=61, p=0.7707||||0.8934502|-1.1998786|0.7707
92408792|NCT02840799|184707227|SUPERIORITY||Slope|0.18872||||0.724|TWO_SIDED|95.0|-0.88|1.25||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect.||1.25|-0.88|0.724
92408793|NCT02840799|184707228|SUPERIORITY||Mean Difference (Final Values)|0.3262821|STANDARD_ERROR_OF_MEAN|0.2333465||0.1680825|TWO_SIDED|95.0|-0.1421806|0.7947447||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|t=1.3983, df=51, p=0.1681||||0.7947447|-0.1421806|0.1680825
92408794|NCT02840799|184707228|SUPERIORITY||Slope|-0.4082||||0.093|TWO_SIDED|95.0|-0.88|0.07||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||||0.07|-0.88|0.0930
92228182|NCT02532855|184358796|NON_INFERIORITY|For the primary hypothesis, sitagliptin will be considered non-inferior to dapagliflozin if the upper bound of the two-sided 95% confidence interval (CI) of the between-group difference in least squares mean change from baseline in A1C (sitagliptin minus dapagliflozin) is less than 0.3% (the non-inferiority margin). Longitudinal data analysis (LDA), Antihyperglycemic agent (AHA), Least squares means (LSM)|Difference in LSM (Sit. - Dap.)|-0.15|||||TWO_SIDED|95.0|-0.26|-0.04||||LDA model including terms for treatment, time, background AHA, the interaction of time and background AHA, and the interaction of time by treatment.||||-0.04|-0.26|
92228183|NCT02532855|184358796|SUPERIORITY||Difference in LSM (Sit. - Dap.)|-0.15||||0.006|TWO_SIDED|95.0|-0.26|-0.04|||Longitudinal data analysis|LDA model including terms for treatment, time, background AHA, the interaction of time and background AHA, and the interaction of time by treatment.||||-0.04|-0.26|0.006
92228184|NCT02532855|184358797|OTHER||Difference in % (Sit. - Dap.)|-2.8|||||TWO_SIDED|95.0|-10.7|5.1||||Miettinen \& Nurminen method||||5.1|-10.7|
92228185|NCT02532855|184358798|OTHER||Difference in % (Sit. - Dap.)|0.0|||||TWO_SIDED|95.0|-3.0|3.0||||Miettinen \& Nurminen method||||3.0|-3.0|
92228186|NCT02532855|184358799|SUPERIORITY||Difference in LSM (Sit. - Dap.)|-5.7||||0.138|TWO_SIDED|95.0|-13.3|1.8|||LDA|LDA model including terms for treatment, time, background AHA, the interaction of time and background AHA, and the interaction of time by treatment.||||1.8|-13.3|0.138
92408795|NCT02840799|184707229|SUPERIORITY||Mean Difference (Final Values)|-2.116437|STANDARD_ERROR_OF_MEAN|1.176768||0.07984|TWO_SIDED|95.0|-4.4966754|0.2638017||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided||t = -1.7985, df=39, p=0.07984|||0.2638017|-4.4966754|0.07984
92408796|NCT02840799|184707229|SUPERIORITY||Slope|1.68||||0.135|TWO_SIDED|95.0|-0.54|3.9||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||||3.90|-0.54|0.135
92408797|NCT02840799|184707230|SUPERIORITY||Mean Difference (Final Values)|-0.0192733|STANDARD_ERROR_OF_MEAN|0.01295984||0.145|TWO_SIDED|95.0|-0.0454871|0.0069404||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|||||0.00694040|-0.0454871|0.1450
92408798|NCT02840799|184707230|SUPERIORITY||Slope|0.01324||||0.3047|TWO_SIDED|95.0|-0.01|0.04||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||||0.04|-0.01|0.3047
92408799|NCT02840799|184707231|SUPERIORITY||Mean Difference (Final Values)|-3.506681|STANDARD_ERROR_OF_MEAN|4.494971||0.44|TWO_SIDED|95.0|-12.598617|5.585256||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|||||5.585256|-12.598617|0.44
92408800|NCT02840799|184707231|SUPERIORITY||Slope|3.39106||||0.39911|TWO_SIDED|95.0|-4.66|11.44||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||||11.44|-4.66|0.39911
92408801|NCT02642315|184707248|OTHER||Median Difference (Net)|36.0||||0.0131|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0131
92408802|NCT02642315|184707249|OTHER||Median Difference (Net)|36.0||||0.0131|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0131
92408803|NCT03860818|184707300|SUPERIORITY||||||<|0.001|||||||Chi-squared|||Rate of inpatient hospitalization during study||||<.001
92408804|NCT03860818|184707300|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<.0001
92228187|NCT02532855|184358800|SUPERIORITY||Difference in the LSM (Sit. - Dap.)|-3.4|||||TWO_SIDED|95.0|-12.1|5.3||||The ANCOVA model included terms for treatment, background AHA, and the baseline 2-hour PPG value as a covariate.||||5.3|-12.1|
92228188|NCT02532855|184358801|SUPERIORITY||Difference in the LSM (Sit. - Dap.)|-4.4|||||TWO_SIDED|95.0|-10.1|1.4||||The ANCOVA model included terms for treatment, background AHA, and the baseline glucagon AUC value as a covariate.||||1.4|-10.1|
92408805|NCT03860818|184707301|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Statistical analysis applies to all rows.||||||<0.001
92408806|NCT03860818|184707302|SUPERIORITY|||||||0.9064|||||||Chi-squared|||||||0.9064
92408807|NCT03860818|184707303|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
92228189|NCT02532855|184358802|SUPERIORITY||Difference in the LSM (Sit. - Dap.)|4.9|||||TWO_SIDED|95.0|-12.2|22.0||||The ANCOVA model included terms for treatment, background AHA, and the baseline insulin AUC value as a covariate.||||22.0|-12.2|
92228190|NCT02532855|184358803|SUPERIORITY||Difference in the LSM (Sit. - Dap.)|0.6|||||TWO_SIDED|95.0|-0.1|1.3||||The ANCOVA model included terms for treatment, background AHA, and the baseline insulin AUC to glucagon AUC ratio value as a covariate.||||1.3|-0.1|
92373805|NCT03172884|184649947|OTHER||LS means|1.385|||||TWO_SIDED|90.0|0.921|2.081||||||Moderate Hepatic Impairment vs Healthy Subjects||2.081|0.921|
92373806|NCT03172884|184649947|OTHER||LS means|1.445|||||TWO_SIDED|90.0|0.998|2.093||||||Severe hepatic impairment group vs Healthy Subjects||2.093|0.998|
92373807|NCT03172884|184649947|OTHER||LS means|0.646|||||TWO_SIDED|90.0|0.486|0.858||||||Severe renal impairment group vs Healthy Subjects||0.858|0.486|
92373808|NCT03172884|184649948|OTHER||LS Means|1.711|||||TWO_SIDED|90.0|1.148|2.55||||||Moderate Hepatic Impairment group vs Healthy Subjects||2.550|1.148|
92373809|NCT03172884|184649948|OTHER||LS Means|2.705|||||TWO_SIDED|90.0|2.115|3.46||||||Severe hepatic impairment group vs Healthy Subjects||3.460|2.115|
92373810|NCT03172884|184649948|OTHER||LS Means|1.075|||||TWO_SIDED|90.0|0.696|1.659||||||Severe renal impairment group vs Healthy Subjects||1.659|0.696|
92373811|NCT03172884|184649949|OTHER||LS Means|1.768|||||TWO_SIDED|90.0|1.251|2.498||||||Moderate Hepatic Impairment group vs Healthy Subjects||2.498|1.251|
92373812|NCT03172884|184649949|OTHER||LS Means|2.735|||||TWO_SIDED|90.0|2.163|3.459||||||Severe hepatic impairment group vs Healthy Subjects||3.459|2.163|
92373813|NCT03172884|184649949|OTHER||LS Means|1.124|||||TWO_SIDED|90.0|0.815|1.549||||||Severe renal impairment group vs Healthy Subjects||1.549|0.815|
92373814|NCT04621240|184649958|SUPERIORITY|Mean level change from pre- to post-testing|Mean Difference (Net)|10.3|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92373815|NCT04621240|184649958|OTHER|Regression of the change in BrainHealth Index on age|Slope|0.03||||0.55|TWO_SIDED||||||Regression, Linear|||||||0.55
92373816|NCT01221623|184649959|SUPERIORITY_OR_OTHER|||||||0.0059|TWO_SIDED||||||ANOVA|||||||.0059
92373817|NCT01221623|184649960|SUPERIORITY_OR_OTHER|||||||0.0496|TWO_SIDED||||||ANOVA|||||||.0496
92373818|NCT01221623|184649961|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92373819|NCT01221623|184649962|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||ANOVA|||||||.0340
92373820|NCT01221623|184649963|SUPERIORITY_OR_OTHER|||||||0.1168|TWO_SIDED||||||ANOVA|||||||.1168
92373821|NCT01221623|184649964|SUPERIORITY_OR_OTHER|||||||0.0144|TWO_SIDED||||||ANOVA|||||||.0144
92228191|NCT02532855|184358804|OTHER|The percentage of participants was estimated using standard multiple imputation techniques from LDA model including terms for treatment, time, background AHA, the interaction of time and background AHA, and the interaction of time by treatment.|Difference in % (Sit. - Dap.)|15.5|||||TWO_SIDED|95.0|7.7|23.2||||Miettinen and Nurminen (M\&N) method with multiple imputation from a LDA Model.||||23.2|7.7|
92373822|NCT01221623|184649965|SUPERIORITY_OR_OTHER|||||||0.0248|TWO_SIDED||||||ANOVA|||||||.0248
92373823|NCT01221623|184649966|SUPERIORITY_OR_OTHER|||||||0.6949|TWO_SIDED||||||ANOVA|||||||.6949
92373824|NCT01221623|184649967|SUPERIORITY_OR_OTHER|||||||0.0249|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||.0249
92373825|NCT01457014|184650002|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|p values have undergone Bonferroni adjustment for Central Apnea Index (CAI), Obstructive Apnea Index (OAI) and Hypopnea Index (HI)||||||<0.001
92373826|NCT01457014|184650003|SUPERIORITY_OR_OTHER|||||||0.627|TWO_SIDED|||||p value has undergone Bonferroni adjustment. P-Value applies to Av. 02 saturation|Wilcoxon (Mann-Whitney)|p value has undergone Bonferroni adjustment||||||0.627
92373827|NCT01457014|184650004|SUPERIORITY_OR_OTHER|||||||0.161|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.161
92373828|NCT03319953|184650009|SUPERIORITY|||||||0.2079||||||Bayesian method was used to calculate the posterior probability. High posterior probability of a difference between TAK-041 and placebo \>2.0.|Bayesian Normal Linear Model|||||||0.2079
92373829|NCT03319953|184650009|SUPERIORITY|||||||0.0633||||||Bayesian method was used to calculate the posterior probability. High posterior probability of a difference between TAK-041 and placebo \>2.0.|Bayesian Normal Linear Model|||||||0.0633
92373830|NCT03319953|184650010|SUPERIORITY|||||||0.1706||||||Bayesian method was used to calculate the posterior probability. High posterior probability of a difference between TAK-041 and placebo \>0.09.|Bayesian Normal Linear Model|||||||0.1706
92373831|NCT03319953|184650010|SUPERIORITY|||||||0.0373||||||Bayesian method was used to calculate the posterior probability. High posterior probability of a difference between TAK-041 and placebo \>0.09.|Bayesian Normal Linear Model|||||||0.0373
92373832|NCT03895632|184650052|OTHER|A linear mixed-effects model was fit to assess the association between α (the slope of the Power Spectral Density (PSD) plot) and signal segment.|||||<|0.0001||||||p-value obtained form the Wald statistics of the linear mixed-effects model. The threshold for statistical signifiance was p=0.01.|Linear mixed-effects model|||The null hypothesis was that α (the slope of the Power Spectral Density (PSD) plot) is not related to signal segment (off-, approaching- and on-target).||||<0.0001
92373833|NCT03571672|184650078|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.08|STANDARD_DEVIATION|5.98||0.868|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.868
92373834|NCT03571672|184650078|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.23|STANDARD_DEVIATION|5.445||0.606|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.606
92373835|NCT03571672|184650078|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.43|STANDARD_DEVIATION|4.212||0.224|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.224
92373836|NCT03571672|184650079|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|0.32|STANDARD_DEVIATION|6.682||0.715|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.715
92373837|NCT03571672|184650079|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|6.526||0.956|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.956
92373838|NCT03571672|184650079|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.17|STANDARD_DEVIATION|4.584||0.771|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.771
92373839|NCT03571672|184650080|OTHER||Intra-class Correlation Coefficient|0.959|||||TWO_SIDED|95.0|0.944|0.97||||||Inter-Reader Variability Echo Enhanced||0.970|0.944|
92373840|NCT03571672|184650080|OTHER||Intra-class Correlation Coefficient|0.95|||||TWO_SIDED|95.0|0.931|0.964||||||Inter-Reader Variability Echo Unenhanced||0.964|0.931|
92373841|NCT03571672|184650080|OTHER||Intra-class Correlation Coefficient|0.957|||||TWO_SIDED|95.0|0.941|0.969||||||Inter-Reader Variability Echo Enhanced||0.969|0.941|
92373842|NCT03571672|184650080|OTHER||Intra-class Correlation Coefficient|0.934|||||TWO_SIDED|95.0|0.909|0.952||||||Inter-Reader Variability Echo Unenhanced||0.952|0.909|
92373843|NCT03571672|184650080|OTHER||Intra-class Correlation Coefficient|0.961|||||TWO_SIDED|95.0|0.946|0.972||||||Inter-Reader Variability Echo Enhanced||0.972|0.946|
92373844|NCT03571672|184650080|OTHER||Intra-class Correlation Coefficient|0.937|||||TWO_SIDED|95.0|0.913|0.954||||||Inter-Reader Variability Echo Unenhanced||0.954|0.913|
92373845|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.988|||||TWO_SIDED|95.0|0.984|0.992||||||Inter-reader Variability End Diastolic Echo Enhanced||0.992|0.984|
92373846|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.986|||||TWO_SIDED|95.0|0.981|0.99||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.990|0.981|
92373847|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.96|||||TWO_SIDED|95.0|0.945|0.971||||||Inter-reader Variability End Diastolic Echo Enhanced||0.971|0.945|
92373848|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.925|||||TWO_SIDED|95.0|0.897|0.945||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.945|0.897|
92228192|NCT02532855|184358805|SUPERIORITY||Difference in the LSM (Sit. - Dap.)|3.5|||||TWO_SIDED|95.0|-1.2|8.3||||LDA model including terms for treatment, time, background AHA, the interaction of time and background AHA, and the interaction of time by treatment.||||8.3|-1.2|
92228193|NCT00666926|184358819|SUPERIORITY_OR_OTHER||Ratio (percent) test / reference|155.66|||||TWO_SIDED|90.0|109.66|220.95|||||Ratio of adjusted geometric means Day 21 versus Day 1. Values have been transformed from the log scale.|Participants in the PF-00562271 125 mg BID cohort who received MDZ (test) administered prior to PF-00562271 (reference) dosing.||220.95|109.66|
92228194|NCT00666926|184358820|SUPERIORITY_OR_OTHER||Ratio (percent) test / reference|315.72|||||TWO_SIDED|90.0|227.6|437.97|||||Ratio of adjusted geometric means Day 21 versus Day 1. Values have been transformed from the log scale.|Participants in the PF-00562271 125 mg BID cohort who received MDZ (test) administered prior to PF-00562271 (reference) dosing.||437.97|227.60|
92228195|NCT00666926|184358821|SUPERIORITY_OR_OTHER||Ratio (percent) test / reference|496.63|||||TWO_SIDED|90.0|206.24|1195.92|||||Ratio of adjusted geometric means Day 21 versus Day 1. Values have been transformed from the log scale.|Participants in the PF-00562271 125 mg BID cohort who received MDZ (test) administered prior to PF-00562271 (reference) dosing.||1195.92|206.24|
92228196|NCT01960855|184358841|OTHER||||||=|0.033|||||||Chi-squared|||||||= 0.033
92228197|NCT01960855|184358841|OTHER||||||=|0.004|||||||Chi-squared|||||||= 0.004
92228198|NCT01960855|184358841|OTHER||||||<|0.001|||||||Chi-squared|||||||< 0.001
92228199|NCT01960855|184358841|OTHER||||||<|0.001|||||||Chi-squared|||||||< 0.001
92228200|NCT01960855|184358842|OTHER||||||=|0.364|||||||Chi-squared|||||||= 0.364
92228201|NCT01960855|184358842|OTHER||||||=|0.014|||||||Chi-squared|||||||= 0.014
92228202|NCT01960855|184358842|OTHER||||||=|0.003|||||||Chi-squared|||||||= 0.003
92373849|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.97|||||TWO_SIDED|95.0|0.958|0.978||||||Inter-reader Variability End Diastolic Echo Enhanced||0.978|0.958|
92373850|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.909|||||TWO_SIDED|95.0|0.876|0.934||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.934|0.876|
92228203|NCT01960855|184358842|OTHER||||||=|0.008|||||||Chi-squared|||||||= 0.008
92228204|NCT01960855|184358843|OTHER||||||=|0.093|||||||Chi-squared|||||||= 0.093
92228205|NCT01960855|184358843|OTHER||||||<|0.001|||||||Chi-squared|||||||< 0.001
92228206|NCT01960855|184358843|OTHER||||||=|0.004|||||||Chi-squared|||||||= 0.004
92228207|NCT01960855|184358843|OTHER||||||=|0.004|||||||Chi-squared|||||||= 0.004
92228208|NCT01960855|184358844|OTHER||||||=|0.366|||||||Chi-squared|||||||= 0.366
92228209|NCT01960855|184358844|OTHER||||||=|0.17|||||||Chi-squared|||||||= 0.17
92228210|NCT01960855|184358844|OTHER||||||=|0.003|||||||Chi-squared|||||||= 0.003
92373851|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.989|||||TWO_SIDED|95.0|0.984|0.992||||||Inter-reader Variability End Systolic Echo Enhanced||0.992|0.984|
92228211|NCT01960855|184358844|OTHER||||||=|0.028|||||||Chi-squared|||||||= 0.028
92228212|NCT01960855|184358845|OTHER||||||=|0.126|||||||Chi-squared|||||||= 0.126
92228213|NCT01960855|184358845|OTHER||||||=|0.072|||||||Chi-squared|||||||= 0.072
92228214|NCT01960855|184358845|OTHER||||||=|0.012|||||||Chi-squared|||||||= 0.012
92228215|NCT01960855|184358845|OTHER||||||=|0.021|||||||Chi-squared|||||||= 0.021
92228216|NCT01879410|184358846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|||<|0.001|TWO_SIDED|95.0|0.063|0.139|||ANCOVA||Least squares mean difference=UMEC/VI 62.5/25 mcg minus FSC 250/50 mcg.|||0.139|0.063|<0.001
92228217|NCT02058147|184358848|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|95.0|-0.898|-0.665||Threshold for significance ≤0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Lixisenatide|Analysis was performed using Mixed-effect model with repeated measures (MMRM) with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline HbA1c value-by-visit interaction as a covariate.||-0.665|-0.898|<0.0001
92373852|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.985|||||TWO_SIDED|95.0|0.979|0.989||||||Inter-reader Variability End Systolic Echo Unenhanced||0.989|0.979|
92373853|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.973|||||TWO_SIDED|95.0|0.962|0.98||||||Inter-reader Variability End Systolic Echo Enhanced||0.980|0.962|
92373854|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.947|||||TWO_SIDED|95.0|0.927|0.961||||||Inter-reader Variability End Systolic Echo Unenhanced||0.961|0.927|
92373855|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.977|||||TWO_SIDED|95.0|0.969|0.984||||||Inter-reader Variability End Systolic Echo Enhanced||0.984|0.969|
92228218|NCT02058147|184358848|NON_INFERIORITY_OR_EQUIVALENCE|Predefined non-inferiority margin of 0.3%.|LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.048|||TWO_SIDED|95.0|-0.384|-0.194|||Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin glargine|Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline HbA1c value-by-visit interaction as a covariate.||-0.194|-0.384|
92228219|NCT02058147|184358848|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001|TWO_SIDED|95.0|-0.384|-0.194||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin glargine|Test of superiority was also performed as a secondary endpoint according to hierarchical testing procedure. Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline HbA1c value-by-visit interaction, as a covariate.||-0.194|-0.384|<0.0001
92228220|NCT02058147|184358849|SUPERIORITY_OR_OTHER||Difference in percentage|40.61|||<|0.0001|TWO_SIDED|95.0|33.63|47.59||Threshold for significance ≤0.05.|Cochran-Mantel-Haenszel||HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Lixisenatide.|"HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Lixisenatide.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of second OAD use at screening. This analysis was out of testing order."||47.59|33.63|<0.0001
92228221|NCT02058147|184358849|SUPERIORITY_OR_OTHER||Difference in percentage|36.38|||<|0.0001|TWO_SIDED|95.0|29.81|42.95||Threshold for significance ≤ 0.05.|Cochran-Mantel-Haenszel||HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Lixisenatide.|"HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Lixisenatide.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of second OAD use at screening. This analysis was out of testing order."||42.95|29.81|<0.0001
92228222|NCT02058147|184358849|SUPERIORITY_OR_OTHER||Difference in percentage|14.31|||<|0.0001|TWO_SIDED|95.0|8.37|20.25||Threshold for significance ≤ 0.05.|Cochran-Mantel-Haenszel||HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Insulin glargine.|"HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Insulin glargine.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of second OAD use at screening. This analysis was out of testing order."||20.25|8.37|<0.0001
92228223|NCT02058147|184358849|SUPERIORITY_OR_OTHER||Difference in percentage|16.35|||<|0.0001|TWO_SIDED|95.0|10.13|22.58||Threshold for significance ≤ 0.05.|Cochran-Mantel-Haenszel||HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Insulin glargine.|"HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Insulin glargine.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of second OAD use at screening. This analysis was out of testing order."||22.58|10.13|<0.0001
92228224|NCT02058147|184358850|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.13|STANDARD_ERROR_OF_MEAN|0.185|<|0.0001|TWO_SIDED|95.0|-2.498|-1.77||Threshold for significance ≤0.05. The hierarchical testing continued only when primary hypotheses (superiority: FRC to lixisenatide; non-inferiority: FRC to insulin glargine for HbA1c) was statistically significant.|ANCOVA||Insulin Glargine/Lixisenatide FRC vs Insulin glargine.|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0,≥8.0%), randomization strata of second OAD use at screening \& country as fixed effects \& baseline plasma glucose excursion value as a covariate. Hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially per pre-specified order.||-1.77|-2.498|<0.0001
92228225|NCT02058147|184358851|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.891|-0.91||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline body weight value-by-visit interaction as a covariate.||-0.91|-1.891|<0.0001
92228226|NCT02058147|184358852|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.96|STANDARD_ERROR_OF_MEAN|0.144|<|0.0001|TWO_SIDED|95.0|-2.246|-1.682||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Lixisenatide|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline FPG value-by-visit interaction as a covariate.||-1.682|-2.246|<0.0001
92228227|NCT02058147|184358853|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.124|<|0.0001|TWO_SIDED|95.0|-1.645|-1.158||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Lixisenatide|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline 7-point SMPG value-by-visit interaction as a covariate.||-1.158|-1.645|<0.0001
92228228|NCT02058147|184358853|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.101|<|0.0001|TWO_SIDED|95.0|-0.892|-0.495||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline 7-point SMPG value-by-visit interaction, as a covariate.||-0.495|-0.892|<0.0001
92373856|NCT03571672|184650081|OTHER||Intra-class Correlation Coefficient|0.937|||||TWO_SIDED|95.0|0.914|0.954||||||Inter-reader Variability End Systolic Echo Unenhanced||0.954|0.914|
92373857|NCT03571672|184650082|OTHER||Intra-class Correlation Coefficient|0.945|||||TWO_SIDED|95.0|0.909|0.967||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.967|0.909|
92228229|NCT02058147|184358854|SUPERIORITY_OR_OTHER||Difference in percentage|18.08|||<|0.0001|TWO_SIDED|95.0|12.15|24.01||Threshold for significance ≤ 0.05.|Cochran-Mantel-Haenszel||Insulin Glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8%, ≥8%) and randomization strata of second OAD use at screening.||24.01|12.15|<0.0001
92228230|NCT02058147|184358855|SUPERIORITY_OR_OTHER||Difference in percentage|12.98|||<|0.0001|TWO_SIDED|95.0|7.5|18.45||Threshold for significance ≤ 0.05.|Cochran-Mantel-Haenszel||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of second OAD use at screening.||18.45|7.5|< 0.0001
92228231|NCT02058147|184358856|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.99||0.4857|TWO_SIDED|95.0|-2.632|1.252||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects.||1.252|-2.632|0.4857
92228232|NCT00773279|184358868|NON_INFERIORITY_OR_EQUIVALENCE|"A two-sided 95 % Confidence Interval (CI) for the treatment difference, PDS290 minus FlexPen, in HbA1c after 12 weeks of treatment. PDS290 was to be declared non-inferior to FlexPen® if the upper limit of that CI would be less than the non-inferiority margin 0.40 % (absolute)."|Mean Difference (Final Values)|-0.047|STANDARD_ERROR_OF_MEAN|0.04||||95.0|-0.127|0.032|||Linear mixed effect model|Linear mixed effect model with period and delivery systems as fixed effects, and subject as a random effect.||The null hypothesis is that PDS290 be not non-inferior to FlexPen® with respect to HbA1c after 12 weeks of treatment; non-inferiority margin is 0.4 % (absolute).||0.032|-0.127|
92239605|NCT00390780|184383040|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|compare proportion of clinical success|0.15||||0.8787|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for ITT population:~H0: clinical success rate for miconazole Lauriad minus clinical success rate for clotrimazole troches is less than or equal to -0.15 H1: clinical success rate for miconazole Lauriad minus clinical success rate for Mycelex troches is greater than -0.15"|||-0.15|0.8787
92408808|NCT00505778|184707308|NON_INFERIORITY_OR_EQUIVALENCE|To establish non-inferiority for primary efficacy variable at 2-sided upper confidence bound of 95% with 90% power, 442 patients per treatment group were required to be analyzable for primary efficacy analysis. Assuming 10% enrolled would not be analyzable, 1000 patients would be enrolled. If the 95% confidence interval's upper bound interval for the difference between the Asacol BID and Asacol QD group is \<10%, then non-inferiority of Asacol QD is claimed.|BID-QD Difference in Remission Rates|1.3||||0.5016|TWO_SIDED|95.0|-2.3|4.9|||Cochran-Mantel-Haenszel|Stratified by prior Asacol dose Category||Assumed true remission rate is 70% with no difference in remission rates between QD and BID dosing.The non-inferiority margin used in hypothesis testing was set to 10%.||4.9|-2.3|0.5016
92228233|NCT00508391|184358902|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority hypothesis utilized an objective performance criteria of 63% with a clinically significant difference of 12%. For the non-inferiority hypothesis, the one-sided Type I error was set to 0.05 and the statistical power was set to 80%.|Objective Performance Criteria|63.0|||||ONE_SIDED|95.0|54.8||||Non-inferiority comparison|||"Efficacy was assessed in a non-inferiority, responder classification design where the proportion of total subjects classified as not worsened after changing from optimized to simultaneous biventricular pacing was compared to an objective performance criteria.~An effect of gender analysis was performed on the primary efficacy endpoint to compare the proportion of males and females classified as not worsened after changing from optimized to simultaneous biventricular pacing."|||54.8|
92228234|NCT00508391|184358903|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority hypothesis has a one-sided Type I error of 0.05 with an 80% statistical power.|Objective Performance Criteria|100.0|||||ONE_SIDED|95.0|97.6||||Non-inferiority comparison|||Safety will be evaluated in a non-inferiority format. The null hypothesis is the percent of subjects that did not experience an adverse event with an active interventricular delay feature at two months is inferior to 90% with a clinically significant difference of 10%|||97.6|
92228235|NCT02928952|184358922|SUPERIORITY|Assessed group by time differences from week 12 to week 24. Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.153|||||||Mixed Models Analysis|All models adjusted for Age and Duration of Diabetes||The statistical analysis was applied to both groups.||||0.153
92228236|NCT02928952|184358922|SUPERIORITY|Assessed group by time differences from week 12 to week 24. Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.026|||||||Mixed Models Analysis|Adjusted for age and duration of diabetes.||||||0.026
92228237|NCT02928952|184358922|SUPERIORITY|Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.012|||||||Mixed Models Analysis|Models adjusted for age and duration of diabetes.||Within group analysis of intervention effect on Diabetes Distress (Problem Areas in Diabetes, PAID scale) over time stratified by hemoglobin A1c\<8.5% and =/\>8.5.||||0.012
92228238|NCT02928952|184358923|SUPERIORITY|The statistical analysis was applied to both groups.||||||0.604|||||||Mixed Models Analysis|All models adjusted for age and duration of diabetes.||Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||.604
92228239|NCT02928952|184358924|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.911|||||||Mixed Models Analysis|All models adjusted for Age and Duration of Diabetes||The statistical analysis was applied to both groups.||||0.911
92228240|NCT02928952|184358925|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.94|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||||||0.940
92228241|NCT02928952|184358926|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.305|||||||Mixed Models Analysis|All models adjusted for Age and Duration of Diabetes||The statistical analysis was applied to both groups.||||0.305
92228242|NCT02928952|184358927|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.228|||||||Mixed Models Analysis|All models adjusted for age and duration of diabetes.||||||0.228
92228243|NCT02928952|184358928|SUPERIORITY|Statistical Test of hypothesis. Differing sample sizes are due to attrition and missed research visits. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.671|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.671
92228244|NCT02928952|184358929|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.571|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.571
92228245|NCT02928952|184358930|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.003|||||||Mixed Models Analysis|All models adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.003
92228246|NCT02928952|184358931|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.632|||||||Mixed Models Analysis|All models adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.632
92228247|NCT02928952|184358932|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.219|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.219
92228248|NCT02928952|184358933|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.931|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.931
92408809|NCT00505778|184707309|NON_INFERIORITY_OR_EQUIVALENCE|To establish non-inferiority for primary efficacy variable at 2-sided upper confidence bound of 95% with 90% power, 442 patients per treatment group were required to be analyzable for primary efficacy analysis. Assuming 10% enrolled would not be analyzable, 1000 patients would be enrolled. If the 95% confidence interval's upper bound interval for the difference between the Asacol BID and Asacol QD group is \<10%, then non-inferiority of Asacol QD is claimed.|BID-QD Difference in Remission Rates|0.8||||0.5426|TWO_SIDED|95.0|-1.8|3.5|||Cochran-Mantel-Haenszel|Stratified by prior Asacol dose Category||Assumed true remission rate is 70% with no difference in remission rates between QD and BID dosing.The non-inferiority margin used in hypothesis testing was set to 10%.||3.5|-1.8|0.5426
92228249|NCT02928952|184358934|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.627|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.627
92228250|NCT02928952|184358935|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.6|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.60
92228251|NCT02928952|184358936|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.461|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.461
92228252|NCT02928952|184358937|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.906|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.906
92228253|NCT02928952|184358938|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.856|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.856
92228254|NCT02928952|184358939|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.89|||||||Mixed Models Analysis|All models adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.89
92228255|NCT01850615|184358946|SUPERIORITY_OR_OTHER||Treatment difference|-0.94|||||TWO_SIDED|95.0|-1.17|-0.72|||||Superiority was considered confirmed if the upper bound of the two-sided 95% confidence interval (CI) for the estimated treatment difference (faster aspart+basal minus basal only), which was calculated using the FAS, was below 0%.|Change from baseline in HbA1c after 18 weeks of treatment was analysed using a mixed-effect model for repeated measurements (MMRM) where all calculated changes in HbA1c from baseline at visits 16, 22 and 28 were included in the analysis. This model included treatment, region and strata as fixed factors, subject as random effect, baseline HbA1c as covariate and interaction between all fixed effects and visit, and between the covariate and visit.||-0.72|-1.17|
92228256|NCT00706628|184358952|SUPERIORITY_OR_OTHER|||||||0.0577|||||||Fisher Exact|||||||0.0577
92228257|NCT00706628|184358952|SUPERIORITY_OR_OTHER|||||||0.0863|||||||Fisher Exact|||||||0.0863
92228258|NCT00706628|184358954|SUPERIORITY_OR_OTHER||Slope|1.4823|STANDARD_ERROR_OF_MEAN|0.149|||TWO_SIDED|95.0|1.1754|1.7892||||||||1.7892|1.1754|
92228259|NCT02921425|184358966|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||.003
92228260|NCT02921425|184358968|OTHER|||||||0.007|||||||t-test, 2 sided|||||||.007
92228261|NCT02921425|184358969|OTHER|||||||0.026|||||||t-test, 2 sided|||||||.026
92228262|NCT02921425|184358971|OTHER|||||||0.003||||||systolic blood pressure|t-test, 2 sided|||||||.003
92228263|NCT02921425|184358971|OTHER|||||||0.001|||||||t-test, 2 sided|||diastolic blood pressure||||.001
92228264|NCT02921425|184358973|OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||||||.019
92228265|NCT01227967|184358977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.0|STANDARD_ERROR_OF_MEAN|5.0||0.046|TWO_SIDED|95.0|-19.8|-0.2||P-value was not adjusted for multiple interim analyses.|Z-test, 2-sided|Comparison of randomized arms was based on the normal approximation to the binomial distribution.|The difference in percents was calculated as the percent detectable in the Combination Therapy minus the percent detectable in the Oseltamivir Monotherapy.|Assuming that pooled percentage of participants with virus detectable by PCR at Day 3 is 50%, assuming that the Combination Therapy was better than the Oseltamivir Monotherapy and that the detectable rate in the Combination Therapy was 42.5% compared to 57.5% in the Oseltamivir Monotherapy (a 15% reduction), and assuming 10% subjects with missing qPCR at Day 3, in a two-sided, two-sample 0.05-level t- test with 546 participants combined across both arms, there was 90% power.||-0.2|-19.8|0.046
92228266|NCT03403400|184358992|EQUIVALENCE|Comparison of variance|Test Statistics|0.893||||0.64|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between groups in mCTSIB Ha: There is a significant difference between groups in mCTSIB||||.640
92228267|NCT03403400|184358992|EQUIVALENCE|Comparison of variance|Test Statistics|0.196||||0.18|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between the prescribed walking group and the control group in mCTSIB Ha: There is a significant difference between the prescribed walking group and the control group in mCTSIB||||.18
92228268|NCT03403400|184358993|EQUIVALENCE|comparison of variance|Test Statistics|0.803||||0.67|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between the groups in TUG Ha: There is a significant difference between the groups in TUG||||.67
92228269|NCT03403400|184358993|EQUIVALENCE|comparison of variance|Test Statistics|0.14||||0.71|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference in TUG between the prescribed walking and control group Ha: There is a significant difference in TUG between the prescribed walking and control group||||.71
92228270|NCT03403400|184358994|EQUIVALENCE|Comparison of variance|Test Statistics|0.803|STANDARD_DEVIATION|1.79||0.67|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between the groups in DGI Ha: There is a significant difference between the groups in DGI||||.67
92228271|NCT03403400|184358994|EQUIVALENCE|comparison of variance|Test Statistics|0.66||||0.42|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between the prescribed walking group and the control group in DGI Ha: There is a significant difference between the prescribed walking group and control group in DGI||||.42
92228272|NCT03403400|184358995|EQUIVALENCE|comparison of variance|Test Statistics|4.386||||0.11|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between the groups in DHI Ha: There is a significant difference between the groups in DHI||||.11
92228273|NCT03403400|184358995|EQUIVALENCE|comparison of variance|Test Statistics|4.351||||0.04|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference in DHI between the prescribed walking group and the control group Ha: There is a significant difference in DHI between the prescribed walking group and the control group||||.04
92228274|NCT01107444|184359010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.284||||||The t-test was based on the logarithm of the ratio of tumor size at Cycle 2 to that at baseline as this measure follows a normal distribution.|t-test, 1 sided|||||||0.284
92228275|NCT01948830|184359098|NON_INFERIORITY_OR_EQUIVALENCE|The following hypothesis was tested at a one-sided 0.025 level. Non-inferiority with respect to BCVA: H01: μtreat and extend - μmonthly ≤ - Δ versus HA1: μtreat and extend - μmonthly \> - Δ where μtreat and extend and μmonthly are the unknown mean changes from baseline in BCVA to Month 12 in the treat and extend regimen and the monthly regimen, respectively. Δ is the non-inferiority margin and is pre-defined to be 5 letters for the justification of the margin.|||||<|0.001|||||||ANCOVA|||||||<0.001
92228276|NCT01446419|184359135|SUPERIORITY_OR_OTHER|||||||0.019|||||||ANCOVA|P-value from ANCOVA with factors of tx group, analysis center and tx group by analysis center interaction, and a covariate of baseline ODI score.||||||0.019
92228277|NCT01557166|184359138|SUPERIORITY_OR_OTHER||Estimated treatment difference|-6.1||||0.015||95.0|-11.0|-1.19|||ANCOVA|ANCOVA model was used with treatment, country and sex as fixed factors, and the baseline value of AHI, baseline BMI and baseline age as covariates.||Let μ liraglutide 3.0mg and μ placebo denote mean change in AHI for liraglutide 3.0 mg and placebo,respectively. The null-hypothesis and the alternative was H0: μliraglutide 3.0mg = μplacebo against the alternative HA: μliraglutide 3.0mg ≠ μplacebo.||-1.19|-11.0|0.015
92228278|NCT02411747|184359163|NON_INFERIORITY_OR_EQUIVALENCE|Beta: 0.8, p significant if p \> 0.005||||||0.34|||||||t-test, 2 sided|||Independent samples t-test||||0.34
92228279|NCT02149810|184359164|SUPERIORITY||Mean Difference (Net)|0.109||||0.28|TWO_SIDED|95.0|-0.09|0.31||The a priori threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Linear mixed models, controlling for baseline score, were used to compare the SSM and TAU groups' change score from baseline to 12-week on SDNN.||The primary focus of this study was the interaction effect of treatment on heart rate variability at Weeks 0 and 12. On the assumption that this effect size is medium (Cohen's f = .25), calculations (using G\*Power) 23 indicate that a sample size of 80 yield power estimates of .99 for both the interaction and the main effect of time. The study enrolled 95 participants to account for participant attrition.||0.31|-0.09|0.28
92228280|NCT02149810|184359165|SUPERIORITY||Mean Difference (Net)|0.034||||0.89|TWO_SIDED|95.0|-0.44|0.51||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|Linear mixed models, controlling for baseline score, were used to compare the SSM and TAU groups' change score from baseline to 12-week on LF HRV.||||0.51|-0.44|0.89
92228281|NCT02149810|184359166|SUPERIORITY||Mean Difference (Net)|-2.66||||0.03|TWO_SIDED|95.0|-5.05|-0.26||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||-0.26|-5.05|0.030
92228282|NCT02149810|184359167|SUPERIORITY||Mean Difference (Net)|-2.37||||0.021|TWO_SIDED|95.0|-4.37|-0.36||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||-0.36|-4.37|0.021
92228283|NCT02149810|184359168|SUPERIORITY||Mean Difference (Net)|11.0||||0.22|TWO_SIDED|95.0|-7.01|29.01||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||29.01|-7.01|0.22
92228284|NCT02149810|184359169|SUPERIORITY||Mean Difference (Net)|1.91||||0.72|TWO_SIDED|95.0|-8.54|12.37||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||12.37|-8.54|0.72
92228285|NCT02149810|184359170|SUPERIORITY||Mean Difference (Net)|-0.8||||0.018|TWO_SIDED|95.0|-1.46|-0.15||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||-0.15|-1.46|0.018
92228286|NCT02149810|184359171|SUPERIORITY||Mean Difference (Net)|-0.14||||0.99|TWO_SIDED|95.0|-21.94|21.66||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||21.66|-21.94|0.99
92228287|NCT02149810|184359172|SUPERIORITY||Odds Ratio (OR)|3.26||||0.049|TWO_SIDED|95.0|1.01|10.53||The a priori threshold for statistical significance was set at p = 0.05.|Regression, Linear|||Generalised linear models were used to compare the proportion of participants who responded to the intervention (≥50% decrease from baseline on the HRSD, defined a priori) at the end of intervention (week 12).||10.53|1.01|0.049
92228288|NCT02149810|184359173|SUPERIORITY||Odds Ratio (OR)|3.36||||0.04|TWO_SIDED|95.0|1.06|10.64||The a priori threshold for statistical significance was set at p = 0.05.|Regression, Linear|||Generalised linear models were used to compare the proportion of the proportion of participants who achieved remission (scores ≤7 on the HRSD, defined a priori) at the end of intervention (week 12).||10.64|1.06|0.040
92228289|NCT00428597|184359174|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.418||||0.000118|TWO_SIDED|95.0|0.263|0.662||Log-rank test statistic and 2-sided p-value from the unstratified log-rank test|Log Rank||Hazard ratio based on the Cox Proportional hazards model|||0.662|0.263|0.000118
92228290|NCT00428597|184359175|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|9.3|||||TWO_SIDED|95.0|4.1|17.5|||||Confidence interval (CI) using exact method based on binomial distribution.|||17.5|4.1|
92280396|NCT04543136|184463470|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.098|TWO_SIDED|95.0|-1.24|0.11||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.11|-1.24|0.098
92228291|NCT00428597|184359178|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.409||||0.0204|TWO_SIDED|95.0|0.187|0.894||2-sided p-value from the unstratified log-rank test.|Log Rank||Hazard ratio based on the Cox Proportional hazards model.|||0.894|0.187|0.0204
92228292|NCT00428597|184359179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1543||||0.6799|TWO_SIDED|95.0|-4.3|6.6||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||6.6|-4.3|0.6799
92228293|NCT00428597|184359180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4404||||0.6058|TWO_SIDED|95.0|-6.9|4.0||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||4|-6.9|0.6058
92228294|NCT00428597|184359181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5575||||0.3008|TWO_SIDED|95.0|-10.3|3.2||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||3.2|-10.3|0.3008
92228295|NCT00428597|184359182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7911||||0.323|TWO_SIDED|95.0|-2.8|8.3||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||8.3|-2.8|0.3230
92228296|NCT00428597|184359183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5113||||0.7113|TWO_SIDED|95.0|-6.5|9.5||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||9.5|-6.5|0.7113
92228297|NCT00428597|184359184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6672||||0.6487|TWO_SIDED|95.0|-8.9|5.5||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||5.5|-8.9|0.6487
92228298|NCT00428597|184359185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.88||||0.6545|TWO_SIDED|95.0|-6.4|10.1||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||10.1|-6.4|0.6545
92228299|NCT00428597|184359186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0035||||0.1936|TWO_SIDED|95.0|-10.0|2.0||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||2|-10|0.1936
92228300|NCT00428597|184359187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.3801|||<|0.0001|TWO_SIDED|95.0|14.3|28.4||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||28.4|14.3|<0.0001
92228301|NCT00428597|184359188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.23||||0.1339|TWO_SIDED|95.0|-1.6|12.1||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||12.1|-1.6|0.1339
92228302|NCT00428597|184359189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7816||||0.6138|TWO_SIDED|95.0|-5.1|8.7||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||8.7|-5.1|0.6138
92228303|NCT00428597|184359190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2778||||0.9367|TWO_SIDED|95.0|-6.6|7.1||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||7.1|-6.6|0.9367
92228304|NCT00428597|184359191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.753||||0.0372|TWO_SIDED|95.0|0.5|15.0||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||15|0.5|0.0372
92228305|NCT00428597|184359192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1463||||0.6939|TWO_SIDED|95.0|-4.6|6.9||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||6.9|-4.6|0.6939
92228306|NCT00428597|184359193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5128||||0.3711|TWO_SIDED|95.0|-11.2|4.2||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||4.2|-11.2|0.3711
92228307|NCT03219164|184359265|NON_INFERIORITY|Non-inferiority of the 14-day treatment regimen was claimed if the lower bound of 1-sided 97.5% confidence limit of the treatment difference (14-day course group vs 28-day course group) was above the noninferiority margin of -20%.|Difference in percentage|-8.0|||||TWO_SIDED|95.0|-24.6|8.6|||||The difference in percentage between treatment groups, and the associated 95% CIs were constructed based on stratum-adjusted Mantel-Haenszel method using age as stratification factor.|||8.6|-24.6|
92228308|NCT03219164|184359267|OTHER||||||||||||||||||The historical pooled data from published results for the percentage of participants with successful PA eradication at 28 days post-treatment with TNS was estimated to be 77%.|||
92373858|NCT03571672|184650082|OTHER||Intra-class Correlation Coefficient|0.917|||||TWO_SIDED|95.0|0.864|0.95||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.950|0.864|
92373859|NCT03571672|184650082|OTHER||Intra-class Correlation Coefficient|0.939|||||TWO_SIDED|95.0|0.9|0.963||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.963|0.900|
92373860|NCT03571672|184650082|OTHER||Intra-class Correlation Coefficient|0.894|||||TWO_SIDED|95.0|0.827|0.935||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.935|0.827|
92373861|NCT03571672|184650082|OTHER||Intra-class Correlation Coefficient|0.952|||||TWO_SIDED|95.0|0.92|0.971||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.971|0.920|
92373862|NCT03571672|184650082|OTHER||Intra-class Correlation Coefficient|0.9|||||TWO_SIDED|95.0|0.838|0.939||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.939|0.838|
92228309|NCT03932799|184359290|SUPERIORITY|Adjusted for workers' compensation-based covariates: age, gender, urban/rural residence, coronavirus disease (COVID)-19 era injury, days from injury to Report of Accident, injury type, injury complexity/severity, days from injury to first opioid prescription, more than 7 days of opioids in acute phase, and health care utilization during baseline period/acute phase.|Odds Ratio (OR)|0.25|||<|0.001|TWO_SIDED|95.0|0.16|0.38||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Robust variance estimates"||0.38|0.16|<.001
92240219|NCT03008590|184383894|SUPERIORITY|||||||0.22||||||Significance pre-specified at P\<0.05|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.22
92280397|NCT04543136|184463470|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.306|TWO_SIDED|95.0|-0.33|1.02||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.02|-0.33|0.306
92373863|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.976|||||TWO_SIDED|95.0|0.961|0.986||||||Inter-reader Variability End Diastolic Echo Enhanced||0.986|0.961|
92373864|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.984|||||TWO_SIDED|95.0|0.974|0.991||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.991|0.974|
92373865|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.933|||||TWO_SIDED|95.0|0.89|0.96||||||Inter-reader Variability End Diastolic Echo Enhanced||0.960|0.890|
92373866|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.857|||||TWO_SIDED|95.0|0.77|0.912||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.912|0.770|
92373867|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.948|||||TWO_SIDED|95.0|0.914|0.969||||||Inter-reader Variability End Diastolic Echo Enhanced||0.969|0.914|
92373868|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.824|||||TWO_SIDED|95.0|0.721|0.892||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.892|0.721|
92373869|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.982|||||TWO_SIDED|95.0|0.97|0.989||||||Inter-reader Variability End Systolic Echo Enhanced||0.989|0.970|
92373870|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.974|||||TWO_SIDED|95.0|0.957|0.985||||||Inter-reader Variability End Systolic Echo Unenhanced||0.985|0.957|
92373871|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.948|||||TWO_SIDED|95.0|0.915|0.969||||||Inter-reader Variability End Systolic Echo Enhanced||0.969|0.915|
92373872|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.89|||||TWO_SIDED|95.0|0.822|0.933||||||Inter-reader Variability End Systolic Echo Unenhanced||0.933|0.822|
92373873|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.959|||||TWO_SIDED|95.0|0.932|0.975||||||Inter-reader Variability End Systolic Echo Enhanced||0.975|0.932|
92228310|NCT03932799|184359291|SUPERIORITY|Adjusted for workers' compensation-based covariates: age, gender, urban/rural residence, COVID-19 era injury, days from injury to Report of Accident, injury type, injury complexity/severity, days from injury to first opioid prescription, more than 7 days of opioids in acute phase, health care utilization during baseline period/acute phase, and time indicator for each time period (0,1,2).|Odds Ratio (OR)|0.83||||0.43|TWO_SIDED|95.0|0.53|1.31||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Generalized estimating equation|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Outcome modeled longitudinally over the 3 time periods (3-6, 6-9, and 9-12 months)~* Time periods clustered at the individual worker level~* Exchangeable working correlation structure~* Robust variance estimates"||1.31|0.53|.43
92228311|NCT03932799|184359294|SUPERIORITY|Adjusted for workers' compensation-based covariates: age, gender, urban/rural residence, COVID-19 era injury, days from injury to Report of Accident, injury type, injury complexity/severity, days from injury to first opioid prescription, more than 7 days of opioids in acute phase, health care utilization during baseline period/acute phase, and time indicator for each time period (0,1,2).|Odds Ratio (OR)|3.04||||0.002|TWO_SIDED|95.0|1.5|6.14||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Generalized estimating equation|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Outcome modeled longitudinally over the 3 time periods (3-6, 6-9, and 9-12 months)~* Time periods clustered at the individual worker level~* Exchangeable working correlation structure~* Robust variance estimates"||6.14|1.50|.002
92228312|NCT03932799|184359295|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey covariates: days from injury to baseline survey, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and physical therapy (PT) utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, quality of life.|Odds Ratio (OR)|0.97||||0.84|TWO_SIDED|95.0|0.71|1.32||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.32|0.71|.84
92228313|NCT03932799|184359296|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.03||||0.88|TWO_SIDED|95.0|0.71|1.49||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.49|0.71|.88
92228314|NCT03932799|184359297|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|0.74||||0.15|TWO_SIDED|95.0|0.49|1.11||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.11|0.49|.15
92228315|NCT03932799|184359298|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|0.85||||0.38|TWO_SIDED|95.0|0.6|1.21||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.21|0.60|.38
92228316|NCT03932799|184359299|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.44||||0.12|TWO_SIDED|95.0|0.91|2.28||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Leisure or social activities outcome~* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||2.28|0.91|.12
92228317|NCT03932799|184359299|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.23||||0.42|TWO_SIDED|95.0|0.74|2.07||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Getting out with friends or family outcome~* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||2.07|0.74|.42
92277821|NCT02363010|184457836|SUPERIORITY|||||||0.82||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that baseline Appetitive Response to Exercise would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.820
92228318|NCT03932799|184359299|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|0.98||||0.91|TWO_SIDED|95.0|0.63|1.51||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Doing household chores outcome~* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.51|0.63|.91
92228319|NCT03932799|184359299|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.19||||0.59|TWO_SIDED|95.0|0.64|2.21||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Using transportation outcome~* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||2.21|0.64|.59
92228320|NCT03932799|184359300|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.24||||0.22|TWO_SIDED|95.0|0.88|1.75||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.75|0.88|.22
92228321|NCT03932799|184359301|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.97||||0.02|TWO_SIDED|95.0|1.12|3.47||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||3.47|1.12|.02
92228322|NCT03932799|184359302|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.32||||0.1|TWO_SIDED|95.0|0.95|1.83||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.83|0.95|.10
92228323|NCT03932799|184359304|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|beta|-0.01||||0.53|TWO_SIDED|95.0|-0.03|0.01||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||0.01|-0.03|.53
92228324|NCT03932799|184359305|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|beta|0.16||||0.053|TWO_SIDED|95.0|0.0|0.32||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||0.32|-0.00|.053
92373874|NCT03571672|184650083|OTHER||Intra-class Correlation Coefficient|0.872|||||TWO_SIDED|95.0|0.794|0.922||||||Inter-reader Variability End Systolic Echo Unenhanced||0.922|0.794|
92373875|NCT02998203|184650109|OTHER|One-sample t-test|||||<|0.001|||||||One-sample t-test|||A one-sample t-test was used to assess whether the percent change was different than zero.||||<0.001
92373876|NCT02998203|184650110|OTHER|non-parametric Wilcoxon rank sum test|||||<|0.001|||||||Wilcoxon rank sum test|||The overall differences in the medians of biomarkers between the conventional and the organic periods were assessed with the non-parametric Wilcoxon rank sum test||||<0.001
92373877|NCT02998203|184650111|OTHER|Linear mixed-effect regression model|||||<|0.001||||||Multiple testing was accounted for using the Benjamini-Hochberg method, considering 58 regression parameter tests of the aforementioned models. Q-value\<0.05 were considered statistically significant (controlling the false discovery rate at 5%).|Mixed Models Analysis|||||||<0.001
92373878|NCT02998203|184650112|OTHER|Wilcoxon rank sum test||||||0.017|||||||Wilcoxon rank sum test|||The overall differences in the medians of biomarkers between the conventional and the organic periods were assessed with the non-parametric Wilcoxon rank sum test||||0.017
92373879|NCT02998203|184650113|OTHER|Logistic mixed-effect model||||||0.014||||||Multiple testing was accounted for using the Benjamini-Hochberg method, considering 58 regression parameter tests of the aforementioned models. Q-value\<0.05 were considered statistically significant (controlling the false discovery rate at 5%).|Mixed Models Analysis|||||||0.014
92373880|NCT02998203|184650114|OTHER|One-sample t-test||||||0.167|||||||One-sample t-test|||A one-sample t-test was used to assess whether the percent change was different than zero.||||0.167
92228325|NCT03932799|184359306|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|beta|0.22||||0.01|TWO_SIDED|95.0|0.05|0.38||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||0.38|0.05|.01
92239606|NCT00390780|184383040|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|compare proportion of clinical success|0.15||||0.7969|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for PP population:~H0: clinical success rate for miconazole Lauriad minus clinical success rate for clotrimazole troches is less than or equal to -0.15 H1: clinical success rate for miconazole Lauriad minus clinical success rate for Mycelex troches is greater than -0.15"|||-0.15|0.7969
92408810|NCT00505778|184707310|NON_INFERIORITY_OR_EQUIVALENCE|To establish non-inferiority for primary efficacy variable at 2-sided upper confidence bound of 95% with 90% power, 442 patients per treatment group were required to be analyzable for primary efficacy analysis. Assuming 10% enrolled would not be analyzable, 1000 patients would be enrolled. If the 95% confidence interval's upper bound interval for the difference between the Asacol BID and Asacol QD group is \<10%, then non-inferiority of Asacol QD is claimed.|BID-QD Difference in Remission Rates|0.0||||0.977|TWO_SIDED|95.0|-4.6|4.7|||Cochran-Mantel-Haenszel|Stratified by prior Asacol dose Category||Assumed true remission rate is 70% with no difference in remission rates between QD and BID dosing.The non-inferiority margin used in hypothesis testing was set to 10%.||4.7|-4.6|0.9770
92408811|NCT00505778|184707311|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.4726|TWO_SIDED|95.0|0.762|1.796|||Log Rank|Stratified by prior Asacol dose Category||||1.796|0.762|0.4726
92408812|NCT00505778|184707312|SUPERIORITY_OR_OTHER||Difference BID-QD in Least Square Mean|-0.45||||0.1753|TWO_SIDED|95.0|-1.09|0.2|||ANOVA|ANOVA with prior Asacol dose category as factor.||||0.20|-1.09|0.1753
92239607|NCT00390780|184383041|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|compare proportion of partial response|0.15||||0.882|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for ITT population:~H0: partial response rate for miconazole Lauriad minus partial response rate for clotrimazole troches is less than or equal to -0.15 H1: partial response rate for miconazole Lauriad minus partial response rate for Mycelex troches is greater than -0.15"|||-0.15|0.8820
92239608|NCT00390780|184383041|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|compare proportion of partial response|0.15||||0.9033|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for PP population:~H0: partial response rate for miconazole Lauriad minus partial response rate for clotrimazole troches is less than or equal to -0.15 H1: partial response rate for miconazole Lauriad minus partial response rate for Mycelex troches is greater than -0.15"|||-0.15|0.9033
92239609|NCT00390780|184383042|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority statistical analysis for ITT population.|difference in proportion mycologic cure|0.15||||0.5816|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Chi-squared||||||-0.15|0.5816
92239610|NCT00390780|184383042|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority statistical analysis for PP population|difference in proportion mycologic cure|0.15||||0.4439|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Chi-squared||||||-0.15|0.4439
92239611|NCT00390780|184383043|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority statistical analysis for ITT population.|difference in proportion relapsed|0.15||||0.833|ONE_SIDED|95.0|-0.15|||Significance level is \<0.025.|Chi-squared||||||-0.15|0.8330
92239612|NCT00390780|184383043|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority statistical analysis for PP population.|difference in proportion relapsed|0.15||||0.9738|ONE_SIDED|95.0|-0.15|||Significance level is \<0.025.|Chi-squared||||||-0.15|0.9738
92239613|NCT00390780|184383048|SUPERIORITY_OR_OTHER|||||||0.186||95.0|||||Wilcoxon (Mann-Whitney)|||Analysis for Clotrimazole minimum inhibitory concentration (MIC) between treatment groups||||0.1860
92239614|NCT00390780|184383048|SUPERIORITY_OR_OTHER|||||||0.9564||95.0|||||Wilcoxon (Mann-Whitney)|||Analysis for Miconazole minimum inhibitory concentration (MIC) between treatment groups||||0.9564
92239615|NCT00305006|184383050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|1.0|<|0.01|TWO_SIDED|95.0||||ANOVA|ANOVA|||ANOVA||||<0.01
92239616|NCT02606045|184383052|SUPERIORITY||Mean Difference (Final Values)|46.0||||0.039|TWO_SIDED|95.0|2.0|90.0|||Mixed Models Analysis|||||90|2|0.039
92239617|NCT02606045|184383053|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.998|TWO_SIDED|95.0|-0.7|0.7|||Mixed Models Analysis|||||0.7|-0.7|0.998
92239618|NCT02606045|184383054|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.168|TWO_SIDED|95.0|-1.0|5.8|||Mixed Models Analysis|||||5.8|-1.0|0.168
92239619|NCT02606045|184383055|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.055|TWO_SIDED|95.0|-4.9|0.1|||Mixed Models Analysis|||||0.1|-4.9|0.055
92239620|NCT02606045|184383056|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.681|TWO_SIDED|95.0|-4.8|3.2|||Mixed Models Analysis|||||3.2|-4.8|0.681
92239621|NCT02606045|184383056|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.633|TWO_SIDED|95.0|-12.4|7.6|||Mixed Models Analysis|||Role limitations of physical health||7.6|-12.4|0.633
92239622|NCT02606045|184383056|SUPERIORITY||Mean Difference (Final Values)|4.8||||0.362|TWO_SIDED|95.0|-5.7|15.3|||Mixed Models Analysis|||Role limitations of emotional health||15.3|-5.7|0.362
92239623|NCT02606045|184383056|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.375|TWO_SIDED|95.0|-7.4|2.8|||Mixed Models Analysis|||Energy/fatigue||2.8|-7.4|0.375
92228326|NCT03932799|184359307|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|0.76||||0.35|TWO_SIDED|95.0|0.42|1.35||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.35|0.42|.35
92228327|NCT01097629|184359308|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|26.3|||<|1e-05|TWO_SIDED|95.0|18.3|34.3||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 sTSTm, had planned marginal power of 97.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||34.3|18.3|<0.00001
92228328|NCT01097629|184359309|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|25.1|||<|1e-05||95.0|16.0|34.2||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 sTSTm, had planned marginal power of 95.7%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||34.2|16.0|<0.00001
92228329|NCT01097629|184359310|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-29.4|||<|1e-05|TWO_SIDED|95.0|-36.6|-22.3||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 WASO, had planned marginal power of 99.2%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-22.3|-36.6|<0.00001
92228330|NCT01097629|184359311|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-29.4|||<|1e-05|TWO_SIDED|95.0|-36.7|-22.1||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 WASO, had planned marginal power of 98.3%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-22.1|-36.7|<0.00001
92228331|NCT01097629|184359312|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-12.8||||3e-05|TWO_SIDED|95.0|-18.8|-6.9||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 sTSOm, had planned marginal power of 99.9%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-6.9|-18.8|0.00003
92228332|NCT01097629|184359313|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-13.2||||3e-05|TWO_SIDED|95.0|-19.4|-7.0||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 sTSOm, had planned marginal power of 99.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-7.0|-19.4|0.00003
92228333|NCT01097629|184359314|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-12.1||||4e-05|TWO_SIDED|95.0|-17.8|-6.4||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 LPS, had planned marginal power of 81.4%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-6.4|-17.8|0.00004
92239624|NCT02606045|184383056|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.068|TWO_SIDED|95.0|-0.3|7.4|||Mixed Models Analysis|||Emotional well-being||7.4|-0.3|0.068
92239625|NCT02606045|184383056|SUPERIORITY||Mean Difference (Final Values)|4.5||||0.189|TWO_SIDED|95.0|-2.3|11.3|||Mixed Models Analysis|||Social functioning||11.3|-2.3|0.189
92239626|NCT02606045|184383056|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.489|TWO_SIDED|95.0|-9.2|4.5|||Mixed Models Analysis|||Pain||4.5|-9.2|0.489
92239627|NCT02606045|184383056|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.786|TWO_SIDED|95.0|-3.2|4.3|||Mixed Models Analysis|||General Health||4.3|-3.2|0.786
92228334|NCT01097629|184359315|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-3.6||||0.2651|TWO_SIDED|95.0|-10.1|2.8||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 LPS, had planned marginal power of 76.2%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||2.8|-10.1|0.26510
92228335|NCT01097629|184359316|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|26.4|||<|1e-05|TWO_SIDED|95.0|19.8|33.1|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Week 1 sTSTm, had planned marginal power of 98.3%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||33.1|19.8|<0.00001
92228336|NCT01097629|184359317|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-42.0|||<|1e-05|TWO_SIDED|95.0|-48.6|-35.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Night 1 WASO, had planned marginal power of 100.0%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-35.3|-48.6|<0.00001
92228337|NCT01097629|184359318|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-13.1|||<|1e-05|TWO_SIDED|95.0|-17.7|-8.4|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Week 1 sTSOm, had planned marginal power of 99.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-8.4|-17.7|<0.00001
92228338|NCT01097629|184359319|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-21.7|||<|1e-05|TWO_SIDED|95.0|-28.6|-14.9|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Night 1 LPS, had planned marginal power of 100.0%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-14.9|-28.6|<0.00001
92228339|NCT02613208|184359332|OTHER|Correlation analysis|Spearman coefficient|0.392|||<|0.001|||||||Spearman's correlation analysis|||Correlation between CTC and CEA level considering baseline CTC count||||<0.001
92228340|NCT02613208|184359332|OTHER|Correlation analysis|Spearman coefficient|0.088||||0.444|||||||Spearman's correlation analysis|||Correlation between CTC and CEA level considering CTC count at cycle 2||||0.444
92228341|NCT02613208|184359334|OTHER|Correlation analysis|Spearman coefficient|0.373|||<|0.001|||||||Spearman's correlation analysis|||Correlation between CTC and CA 15.3 level considering baseline CTC count||||<0.001
92228342|NCT02613208|184359334|OTHER|Correlation analysis|Spearman coefficient|0.129||||0.241|||||||Spearman's correlation analysis|||Correlation between CTC and CA 15.3 level considering CTC count at cycle 2||||0.241
92228343|NCT04574999|184359342|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92228344|NCT04574999|184359343|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92228345|NCT04574999|184359345|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92228346|NCT04574999|184359346|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92228347|NCT00206726|184359352|SUPERIORITY_OR_OTHER||CR rate|0.0833||||0.014||90.0|0.0334|0.1673||2-sided p-value computed from an exact binomial test comparing the observed rate versus 2% historical rate|exact binomial test|||Comparison of CR rate versus 2 percent (%) historic control (p-value and 90% confidence interval)||0.1673|0.0334|0.014
92228348|NCT05148884|184359364|OTHER|||||||0.0016|||||||Mixed Models Analysis|||Linear mixed model (LMM) of change from baseline with treatment, visit and the interaction treatment\*visit as fixed categorical effects and subject within treatment as a random effect. The baseline value of the dependent variable has been included in the model as a continuous covariate. Kenward-Roger's improved approximation for degrees of freedom (2009) has been used.||||0.0016
92228349|NCT05148884|184359364|OTHER|||||||0.6886|||||||Mixed Models Analysis|||Linear mixed model (LMM) of change from baseline with treatment, visit and the interaction treatment\*visit as fixed categorical effects and subject within treatment as a random effect. The baseline value of the dependent variable has been included in the model as a continuous covariate. Kenward-Roger's improved approximation for degrees of freedom (2009) has been used.||||0.6886
92228350|NCT05148884|184359365|OTHER|||||||0.0281|||||||Mixed Models Analysis|||Linear mixed model (LMM) of change from baseline with treatment, visit and the interaction treatment\*visit as fixed categorical effects and subject within treatment as a random effect. The baseline value of the dependent variable has been included in the model as a continuous covariate. Kenward-Roger's improved approximation for degrees of freedom (2009) has been used.||||0.0281
92239628|NCT02606045|184383057|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.098|TWO_SIDED|95.0|-2.3|0.2|||Mixed Models Analysis|||Physically Unhealthy Days||0.2|-2.3|0.098
92228351|NCT05148884|184359365|OTHER|||||||0.7953|||||||Mixed Models Analysis|||Linear mixed model (LMM) of change from baseline with treatment, visit and the interaction treatment\*visit as fixed categorical effects and subject within treatment as a random effect. The baseline value of the dependent variable has been included in the model as a continuous covariate. Kenward-Roger's improved approximation for degrees of freedom (2009) has been used.||||0.7953
92228352|NCT02162862|184359437|OTHER||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
92228353|NCT02162862|184359437|OTHER||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
92228354|NCT02162862|184359437|OTHER|||||||0.102|||||||t-test, 2 sided|||||||.102
92228355|NCT02162862|184359438|OTHER||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
92228356|NCT02162862|184359438|OTHER|||||||0.646|||||||t-test, 2 sided|||||||.646
92228357|NCT02162862|184359438|OTHER||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
92228358|NCT03116113|184359441|SUPERIORITY||||||=|0.3181|||||||Fisher's Exact-Boschloo test|||||||=0.3181
92228359|NCT03116113|184359441|SUPERIORITY||||||=|0.5177|||||||Fisher's Exact-Boschloo test|||||||=0.5177
92228360|NCT03051633|184359522|SUPERIORITY|Event: Dichotimized self-reported first-time alcohol use in known participant history prior to data-collection, where substance use was not previously reported in prior measurement occasions of this four-wave longitudinal study. Episodes: Episodes represent the period of time between measurement occasions, as such, each episode represents the measured period of time between each wave of assessments. Censoring: If substance use was reported, censoring indicator indicates the risk period|Hazard Ratio (HR)|-0.42||||0.004|TWO_SIDED|95.0|-0.714|-0.126|||Regression, Logistic|Discrete time hazard model represents a survival analysis, with the outcome parameters reflecting a hazard ratio rather than odds.||Discrete time hazard represents the conditional probability that a student will experience first time alcohol use during a given measurement period, given that students did not use alchohol in a previous measurement period. Thus for each model, we tested the following hypothesis: Controlling for age at first-assessment, students attending BUYOI-assigned schools will have a lower risk of substance use uptake by the end of their eighth-grade year, relative to students attending control schools.||-0.126|-0.714|.004
92228361|NCT03051633|184359523|SUPERIORITY|Event: dichotimized self-reported first-time alcohol intoxication in known participant history prior to data collection, where intoxication was not reported in prior measurement occasions. Episodes: Represent the period of time between measurement occasions, thus, each episode represents the measured period of time between each assessment wave. Censoring: Indicates the risk period during which particpants experienced intoxication uptake.|Hazard Ratio, log|-0.39||||0.037|TWO_SIDED|95.0|-0.762|-0.018|||Regression, Logistic|Discrete time hazard model represents a survival analysis, with the outcome parameters reflecting a hazard ration rather than odds.||Discrete time hazard represents the conditional probability that a student will experience first time alcohol initiation during a given measurement period, given that students did not become intoxicated in a previous measurement period. Thus, for each model, we tested the following hypothesis: controlling for age at first assessment, students attending BUYOI-assigned schools will have a lower risk of substance use uptake at the end of their eight grade year||-0.018|-0.762|.037
92228362|NCT03051633|184359524|SUPERIORITY|Event: Dichotimized self-reported first-time marijuana use in known participant history prior to data-collection, where marijuana use was not previously reported in prior measurement occasions of this four-wave longitudinal study. Episodes: Episodes represent the period of time between measurement occasions, as such, each episode represents the measured period of time between each wave of assessments. Censoring: If marijuana use was reported, censoring indicator indicates the risk period.|Hazard Ratio, log|0.17||||0.228|TWO_SIDED|95.0|-0.104|0.444|||Regression, Logistic|Discrete time hazard model represents a survival analysis, with the outcome parameters reflecting a hazard ratio rather than odds.||Discrete time hazard represents the conditional probability that a student will experience first time marijuana use during a given measurement period, given that students did not use marijuana in a previous measurement period. Thus for each model, we tested the following hypothesis: Controlling for age at first-assessment, students attending BUYOI-assigned schools will have a lower risk of marijuana use uptake by the end of their eighth-grade year, relative to students attending control schools.||0.444|-0.104|0.228
92228363|NCT00393718|184359528|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: Upper limit of confidence interval of mean difference(= Liraglutide - Glibenclamide) is less than 0.4%. Superiority criterion: Upper limit of confidence interval of mean difference(= Liraglutide - Glibenclamide) is less than 0.0%.|Least Squares Mean|-0.5|||<|0.0001||95.0|-0.7|-0.3||p-value is for the null hypothesis for superiority. A significance level of a one-sided 2.5% was used for statistical hypothesis testing.|ANOVA|||"ANOVA model included HbA1C at baseline as a covariate and treatment group and pre-trial treatment as fixed effects.~Hypothesis for non-inferiority:~H0: μ0.9 - μG ≥ 0.4, H1: μ0.9 - μG \< 0.4,~Hypothesis for superiority:~H0: μ0.9 - μG ≥ 0.0, H1: μ0.9 - μG \< 0.0, where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively. When non-inferiority was confirmed, superiority was evaluated based on the closed testing procedure."||-0.30|-0.70|<0.0001
92228364|NCT00393718|184359529|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.49||||||95.0|-0.71|-0.27|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-0.27|-0.71|
92277822|NCT02363010|184457836|SUPERIORITY|||||||0.127||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that 6-month Appetitive Response to Exercise would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.127
92373881|NCT02998203|184650115|OTHER|Wilcoxon rank sum test||||||0.07|||||||Wilcoxon rank sum test|||The overall differences in the medians of biomarkers between the conventional and the organic periods were assessed with the non-parametric Wilcoxon rank sum test||||0.07
92446281|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.106||0.6794|TWO_SIDED|95.0|-0.25|0.17|||MMRM|||Hypochondriasis, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.25|0.6794
92373882|NCT02998203|184650116|OTHER|Linear mixed-effect regression model||||||0.014||||||Multiple testing was accounted for using the Benjamini-Hochberg method, considering 58 regression parameter tests of the aforementioned models. Q-value\<0.05 were considered statistically significant (controlling the false discovery rate at 5%).|Mixed Models Analysis|||||||0.014
92373883|NCT02998203|184650117|OTHER|One-sample t-test||||||0.023|||||||One-sample t-test|||A one-sample t-test was used to assess whether the percent change was different than zero.||||0.023
92228365|NCT00393718|184359530|SUPERIORITY_OR_OTHER||Least Squares Mean|-12.9|||<|0.0001||95.0|-18.2|-7.5||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||The analysis was performed based on an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate. The following null hypothesis (H0) was statistically tested against the alternative hypothesis (H1). H0: μ0.9 = μG, H1: μ0.9 ≠ μG where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively.||-7.5|-18.2|<0.0001
92228366|NCT00393718|184359531|SUPERIORITY_OR_OTHER||Least Squares Mean|-11.7||||||95.0|-18.6|-4.9|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-4.9|-18.6|
92228367|NCT00393718|184359532|SUPERIORITY_OR_OTHER||Least Squares Mean|-93.05|||<|0.0001||95.0|-119.61|-66.5||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||The analysis was performed based on an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate. The following null hypothesis (H0) was statistically tested against the alternative hypothesis (H1). H0: μ0.9 = μG, H1: μ0.9 ≠ μG where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively.||-66.50|-119.61|<0.0001
92228368|NCT00393718|184359533|SUPERIORITY_OR_OTHER||Least Squares Mean|-74.51||||||95.0|-105.75|-43.27|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-43.27|-105.75|
92228369|NCT00393718|184359534|SUPERIORITY_OR_OTHER||Least Squares Mean|-17.63|||<|0.0001||95.0|-25.0|-10.27||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||The analysis was performed based on an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate. The following null hypothesis (H0) was statistically tested against the alternative hypothesis (H1). H0: μ0.9 = μG, H1: μ0.9 ≠ μG where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively.||-10.27|-25.00|<0.0001
92228370|NCT00393718|184359535|SUPERIORITY_OR_OTHER||Least Squares Mean|-17.21||||||95.0|-26.32|-8.09|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-8.09|-26.32|
92228371|NCT00393718|184359536|SUPERIORITY_OR_OTHER||Least Squares Mean|-19.97|||<|0.0001||95.0|-27.99|-11.94||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||The analysis was performed based on an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate. The following null hypothesis (H0) was statistically tested against the alternative hypothesis (H1). H0: μ0.9 = μG, H1: μ0.9 ≠ μG where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively.||-11.94|-27.99|<0.0001
92239629|NCT02606045|184383057|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.557|TWO_SIDED|95.0|-1.6|3.0|||Mixed Models Analysis|||Mentally Unhealthy Days||3.0|-1.6|0.557
92239630|NCT02606045|184383058|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.266|TWO_SIDED|95.0|0.8|2.7|||Mixed Models Analysis|||Cycle Severity Rating||2.7|0.8|0.266
92239631|NCT01996319|184383059|SUPERIORITY_OR_OTHER||null hypoth|0.2021|||<|0.0001|TWO_SIDED|95.0|0.1583|0.246|||ANCOVA|||||0.2460|0.1583|<0.0001
92239632|NCT01996319|184383060|SUPERIORITY_OR_OTHER||Null hypoth|36.7126||||0.0399|TWO_SIDED|95.0|1.7241|71.7011|||ANCOVA|||||71.7011|1.7241|0.0399
92239633|NCT01671085|184383077|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-50.49|||<|0.001|TWO_SIDED|90.0|-71.27|-29.7||P-value is for Day 43.|Mixed Effects Model Analysis|||||-29.70|-71.27|<0.001
92239634|NCT01671085|184383077|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-45.11|||<|0.001|TWO_SIDED|90.0|-65.91|-24.31||P-value is for Day 57.|Mixed Effects Models Analysis|||||-24.31|-65.91|<0.001
92239635|NCT00637273|184383078|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.131|<|0.0001|TWO_SIDED|95.0|0.37|0.89||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANOVA|Analysis of Variance (ANOVA) model includes treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors.||Null hypothesis: no difference across treatments. Alternative hypothesis: a difference exists between exenatide once weekly and at least one comparator group (sitagliptin or pioglitazone). Power: Assuming 10% dropout, delta=0.5%, and common SD=1.2%, 450 subjects would provide \>90% power to detect a treatment difference (alpha=0.05, two-sided) in the change in HbA1c between exenatide once weekly and sitagliptin or pioglitazone, with Hochberg's multiplicity adjustment method.||0.89|0.37|<.0001
92239636|NCT00637273|184383078|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.131||0.0165|TWO_SIDED|95.0|0.06|0.57||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANOVA|Analysis of Variance (ANOVA) model includes treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors.||Null hypothesis: no difference across treatments. Alternative hypothesis: a difference exists between exenatide once weekly and at least one comparator group (sitagliptin or pioglitazone). Power: Assuming 10% dropout, delta=0.5%, and common SD=1.2%, 450 subjects would provide \>90% power to detect a treatment difference (alpha=0.05, two-sided) in the change in HbA1c between exenatide once weekly and sitagliptin or pioglitazone, with Hochberg's multiplicity adjustment method.||0.57|0.06|0.0165
92239637|NCT00637273|184383079|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentage of subjects achieving HbA1c target of \<7% at Week 26 were compared between treatments using a Cochran Mantel Haenszel (CMH) test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||<.0001
92228372|NCT00393718|184359537|SUPERIORITY_OR_OTHER||Least Squares Mean|-13.03||||||95.0|-21.46|-4.6|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-4.60|-21.46|
92228373|NCT00393718|184359538|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.91|||<|0.0001||95.0|-2.34|-1.48||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||The analysis was performed based on an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate. The following null hypothesis (H0) was statistically tested against the alternative hypothesis (H1). H0: μ0.9 = μG, H1: μ0.9 ≠ μG where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively.||-1.48|-2.34|<0.0001
92228374|NCT00393718|184359539|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.71||||||95.0|-2.25|-1.18|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-1.18|-2.25|
92228375|NCT00393718|184359540|SUPERIORITY_OR_OTHER||Rate ratio|0.2||||||95.0|0.12|0.35|||Negative binomial regression model|||The relative risk for 'All hypoglycaemic episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||0.35|0.12|
92228376|NCT00393718|184359540|SUPERIORITY_OR_OTHER||Rate ratio|0.18||||||95.0|0.09|0.36|||Negative binomial regression model|||The relative risk for 'Minor episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||0.36|0.09|
92228377|NCT00393718|184359540|SUPERIORITY_OR_OTHER||Rate ratio|0.2||||||95.0|0.11|0.34|||Negative binomial regression model|||The relative risk for 'Symptoms only' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||0.34|0.11|
92228378|NCT03902080|184359558|SUPERIORITY||Least square mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.142|<|0.0001|TWO_SIDED|95.0|-1.02|-0.46|||Mixed Models Analysis|||||-0.46|-1.02|<0.0001
92228379|NCT03902080|184359559|SUPERIORITY||Least Squares Means Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.211|<|0.0001|TWO_SIDED|95.0|-1.37|-0.54|||Mixed Models Analysis|||||-0.54|-1.37|<0.0001
92228380|NCT03902080|184359560|SUPERIORITY||Least Squares Means Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.07|=|0.0015|TWO_SIDED|95.0|-0.36|-0.09|||Mixed Models Analysis|||||-0.09|-0.36|=0.0015
92228381|NCT03902080|184359561|SUPERIORITY||Least Squares Means Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.269|=|0.0034|TWO_SIDED|95.0|-1.33|-0.27|||Mixed Models Analysis|||||-0.27|-1.33|=0.0034
92228382|NCT03902080|184359562|SUPERIORITY||Least Squares Means Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.2|-0.5|||Mixed Models Analysis|||||-0.5|-1.2|<0.0001
92228383|NCT03902080|184359563|SUPERIORITY||Least Squares Means Difference|15.07|STANDARD_ERROR_OF_MEAN|3.03|<|0.0001|TWO_SIDED|95.0|9.13|21.02|||Mixed Models Analysis|||||21.02|9.13|<0.0001
92228384|NCT01279057|184359613|EQUIVALENCE|If the 90% confidence intervals were contained within the interval 80.0% to 125.0%, then the two products were considered to be therapeutically equivalent.|Ratio Test/Ref. Least Squares (LS) Means|104.085|||||TWO_SIDED|90.0|87.421|124.21||||||||124.210|87.421|
92228385|NCT01279057|184359614|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92228386|NCT01279057|184359614|SUPERIORITY|||||||0.0001|||||||ANCOVA|||||||0.0001
92228387|NCT01279057|184359615|EQUIVALENCE|90% confidence intervals within the interval 80.0% to 125.0%.|Ratio Test/Ref. LS Means|106.635|||||TWO_SIDED|90.0|89.256|127.79||||||||127.790|89.256|
92228388|NCT01279057|184359616|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92228389|NCT01279057|184359616|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92228390|NCT01279057|184359617|EQUIVALENCE|90% confidence intervals within the interval 80.0% to 125.0%.|Ratio Test/Ref. LS Means|115.877|||||TWO_SIDED|90.0|94.129|143.949||||||||143.949|94.129|
92228391|NCT01279057|184359618|SUPERIORITY|||||||0.0018|||||||ANCOVA|||||||0.0018
92228392|NCT01279057|184359618|SUPERIORITY|||||||0.0441|||||||ANCOVA|||||||0.0441
92228393|NCT01279057|184359619|EQUIVALENCE|90% confidence intervals within the interval 80.0% to 125.0%.|Ratio Test/Ref. LS Means|117.712|||||TWO_SIDED|90.0|95.41|146.583||||||||146.583|95.410|
92228394|NCT01279057|184359620|SUPERIORITY|||||||0.0018|||||||ANCOVA|||||||0.0018
92228395|NCT01279057|184359620|SUPERIORITY|||||||0.0451|||||||ANCOVA|||||||0.0451
92228396|NCT01014585|184359623|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44||||0.0004|TWO_SIDED|95.0|0.27|0.71|||Log Rank|||||0.71|0.27|0.0004
92228397|NCT01014585|184359623|SUPERIORITY_OR_OTHER||Days until LTR at the 25th percentile|18.0||||||95.0||||||||||||
92228398|NCT01014585|184359623|SUPERIORITY_OR_OTHER||Days until LTR at the 25th percentile|45.0||||||95.0||||||||||||
92228399|NCT01014585|184359624|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.0002|TWO_SIDED|95.0|0.2|0.63|||Log Rank|||||0.63|0.20|0.0002
92228400|NCT01014585|184359624|SUPERIORITY_OR_OTHER||Days until LTR at the 25th percentile|22.0||||||95.0||||||||||||
92228401|NCT01014585|184359625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.4104|TWO_SIDED|95.0|0.46|1.38|||Log Rank|||||1.38|0.46|0.4104
92228402|NCT01014585|184359625|SUPERIORITY_OR_OTHER||Days until LTR at the 25th percentile|18.0||||||95.0||||||||||||
92228403|NCT01014585|184359625|SUPERIORITY_OR_OTHER||Days until LTR at the 25th percentile|30.0||||||95.0||||||||||||
92228404|NCT00364182|184359640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.5|||<|0.0001|TWO_SIDED|95.0|-36.5|-24.5||P-values based on a model including terms for treatment regimen, treatment sequence, and the interaction of these terms with repeated measures on participants.|ANOVA|||||-24.5|-36.5|<0.0001
92228405|NCT00364182|184359640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.5|||<|0.0001|TWO_SIDED|95.0|-38.5|-26.6||P-values based on a model including terms for treatment regimen, treatment sequence, and the interaction of these terms with repeated measures on participants.|ANOVA|||||-26.6|-38.5|<0.0001
92228406|NCT00364182|184359640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.2167|TWO_SIDED|95.0|-1.2|5.2||P-values based on a model including terms for treatment regimen, treatment sequence, and the interaction of these terms with repeated measures on participants.|ANOVA|||||5.2|-1.2|0.2167
92228407|NCT00364182|184359641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.002|TWO_SIDED|95.0|0.1|0.6|||ANOVA|||Mean difference in duration of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||0.6|0.1|0.002
92228408|NCT00364182|184359641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.021|TWO_SIDED|95.0|0.1|0.8|||ANOVA|||Mean difference in duration of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||0.8|0.1|0.021
92228409|NCT00364182|184359641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.004|TWO_SIDED|95.0|0.2|0.9|||ANOVA|||Mean difference in duration of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||0.9|0.2|0.004
92228410|NCT00364182|184359641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.093|TWO_SIDED|95.0|-0.1|0.8|||ANOVA|||Mean difference in duration of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||0.8|-0.1|0.093
92228411|NCT00364182|184359642|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0|TWO_SIDED|95.0|-0.4|-0.1|||ANOVA|||Mean difference in quality of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||-0.1|-0.4|0.000
92228412|NCT00364182|184359642|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0|TWO_SIDED|95.0|-0.5|-0.2|||ANOVA|||Mean difference in quality of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||-0.2|-0.5|0.0000
92228413|NCT00364182|184359642|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.002|TWO_SIDED|95.0|-0.5|-0.1|||ANOVA|||Mean difference in quality of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||-0.1|-0.5|0.002
92228414|NCT00364182|184359642|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.031|TWO_SIDED|95.0|-0.5|0.0|||ANOVA|||Mean difference in quality of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||-0.0|-0.5|0.031
92228415|NCT00364182|184359646|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1||||0.544|TWO_SIDED|95.0|-9.2|4.9|||ANOVA|||||4.9|-9.2|0.544
92228416|NCT00364182|184359646|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.592|TWO_SIDED|95.0|-7.5|4.3|||ANOVA|||||4.3|-7.5|0.592
92228417|NCT00364182|184359646|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.6||||0.131|TWO_SIDED|95.0|-1.1|8.4|||ANOVA|||||8.4|-1.1|0.131
92228418|NCT05032950|184359680|OTHER||Reference/Test Ratio|368.33|||||TWO_SIDED|90.0|318.91|425.41|||Mixed Models Analysis|||Natural log-transformed Cmax of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD) (Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||425.41|318.91|
92228419|NCT05032950|184359681|OTHER||Reference/Test Ratio|1430.02|||||TWO_SIDED|90.0|1204.54|1697.71|||Mixed Models Analysis|||Natural log-transformed AUCinf of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD) (Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||1697.71|1204.54|
92228420|NCT05032950|184359682|OTHER||Test/Reference Ratio|1451.78|||||TWO_SIDED|90.0|1224.42|1721.35|||Mixed Models Analysis|||Natural log-transformed AUClast of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD) (Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||1721.35|1224.42|
92228421|NCT05032950|184359687|OTHER||Test/Reference Ratio|387.2|||||TWO_SIDED|90.0|335.25|447.21|||Mixed Models Analysis|||Natural log-transformed Cmax of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD)(Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||447.21|335.25|
92228422|NCT05032950|184359688|OTHER||Test/Reference Ratio|1645.15|||||TWO_SIDED|90.0|1385.75|1953.11|||Mixed Models Analysis|||Natural log-transformed AUCinf of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD)(Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios||1953.11|1385.75|
92228423|NCT05032950|184359689|OTHER||Test/Reference Ratio|1677.25|||||TWO_SIDED|90.0|1414.59|1988.69|||Mixed Models Analysis|||Natural log-transformed AUClast of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD)(Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||1988.69|1414.59|
92228424|NCT04343651|184359725|SUPERIORITY|||||||0.818|||||||ANCOVA|||||||0.818
92228425|NCT04343651|184359726|SUPERIORITY||Hazard Ratio (HR)|0.781||||0.4138|TWO_SIDED|95.0|0.43|1.41|||Likelihood test-Cox Prop. hazards model|Stratification factors: Baseline NEWS Total score and Age.||||1.41|0.43|0.4138
92373884|NCT02998203|184650118|OTHER|Wilcoxon rank sum test||||||0.259|||||||Wilcoxon rank sum test|||The overall differences in the medians of biomarkers between the conventional and the organic periods were assessed with the non-parametric Wilcoxon rank sum test||||0.259
92228426|NCT01583374|184359750|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-4.1||||0.4383|TWO_SIDED|95.0|-14.3|6.2|||Cochran-Mantel-Haenszel|2 sided p-value was based on CMH test adjusting for C-reactive protein (CRP) category and baseline BASDAI score category|Adjusted difference is the weighted average of the treatment differences across the 4 strata of screening CRP category and baseline BASDAI score category with the Cochran-Mantel-Haenszel (CMH) weights|||6.2|-14.3|0.4383
92228427|NCT01583374|184359750|SUPERIORITY||Risk Difference (RD)|-1.7||||0.7427|TWO_SIDED|95.0|-12.0|8.5|||Cochran-Mantel-Haenszel|2 sided p-value was based on CMH test adjusting for C-reactive protein (CRP) category and baseline BASDAI score category|Adjusted difference in proportions is the weighted average of the treatment differences across the 4 strata of screening CRP category and baseline BASDAI score category with the Cochran-Mantel-Haenszel weights.|||8.5|-12.0|0.7427
92228428|NCT01583374|184359751|SUPERIORITY||LS Mean Difference|-0.05||||0.8032|TWO_SIDED|95.0|-0.41|0.32|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.32|-0.41|0.8032
92228429|NCT01583374|184359751|SUPERIORITY||LS Mean Difference|-0.17||||0.3624|TWO_SIDED|95.0|-0.53|0.19|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.19|-0.53|0.3624
92228430|NCT01583374|184359752|SUPERIORITY||LS Mean Difference|0.03||||0.8618|TWO_SIDED|95.0|-0.33|0.4|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.40|-0.33|0.8618
92228431|NCT01583374|184359752|SUPERIORITY||LS Mean Difference|-0.09||||0.6262|TWO_SIDED|95.0|-0.45|0.27|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.27|-0.45|0.6262
92228432|NCT01583374|184359753|SUPERIORITY||Risk Difference (RD)|2.0||||0.6958|TWO_SIDED|95.0|-8.1|12.2|||Cochran-Mantel-Haenszel|2 sided p-value was based on the CMH test adjusting for C-reactive protein (CRP) category and baseline BASDAI score category.|Adjusted difference is the weighted average of the treatment differences across the 4 strata of screening CRP category and baseline BASDAI score category with the Cochran-Mantel-Haenszel weights.|||12.2|-8.1|0.6958
92228433|NCT01583374|184359753|SUPERIORITY||Risk Difference (RD)|4.4||||0.4051|TWO_SIDED|95.0|-5.8|14.5|||Cochran-Mantel-Haenszel|2 sided p-value was based on the CMH test adjusting for C-reactive protein (CRP) category and baseline BASDAI score category.|Adjusted difference is the weighted average of the treatment differences across the 4 strata of screening CRP category and baseline BASDAI score category with the Cochran-Mantel-Haenszel weights.|||14.5|-5.8|0.4051
92408813|NCT00505778|184707313|NON_INFERIORITY_OR_EQUIVALENCE|To establish non-inferiority for primary efficacy variable at 2-sided upper confidence bound of 95% with 90% power, 442 patients per treatment group were required to be analyzable for primary efficacy analysis. Assuming 10% enrolled would not be analyzable, 1000 patients would be enrolled. If the 95% confidence interval's upper bound interval for the difference between the Asacol BID and Asacol QD group is \<10%, then non-inferiority of Asacol QD is claimed.|Difference BID-QD Remission Rates|3.6||||0.1557|TWO_SIDED|95.0|-1.3|8.5|||Cochran-Mantel-Haenszel|Stratified by prior Asacol dose Category||Assumed true remission rate is 70% with no difference in remission rates between QD and BID dosing.The non-inferiority margin used in hypothesis testing was set to 10%.||8.5|-1.3|0.1557
92408814|NCT03436082|184707314|OTHER|We used Stata version 14.2 (StataCorp LP) to perform chi-square tests to compare syncing of the Fitbit device and response rate for the postprocedure recovery PROMs and disease-specific PROMs between patients in the bariatric surgery and atrial fibrillation ablation groups, using a p value \< 0.05 to denote statistical significance.||||||0.04|||||||Chi-squared|||||||0.04
92408815|NCT03436082|184707316|OTHER|We used Stata version 14.2 (StataCorp LP) to perform chi-square tests to compare syncing of the Fitbit device and response rate for the postprocedure recovery PROMs and disease-specific PROMs between patients in the bariatric surgery and atrial fibrillation ablation groups, using a p value \< 0.05 to denote statistical significance.||||||0.85|||||||Chi-squared|||||||0.85
92408816|NCT02917642|184707318|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the irrigation protocol used after the chemo-mechanical preparation does not influence the reduction of bacteria within the root canal system.||||0.04
92228434|NCT01583374|184359754|SUPERIORITY||LS Mean Difference|0.25||||0.5126|TWO_SIDED|95.0|-0.49|0.99|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.99|-0.49|0.5126
92228435|NCT01583374|184359754|SUPERIORITY||LS Mean Difference|0.28||||0.4624|TWO_SIDED|95.0|-0.46|1.01|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||1.01|-0.46|0.4624
92228436|NCT01583374|184359755|SUPERIORITY||LS Mean Difference|0.29||||0.6997|TWO_SIDED|95.0|-1.18|1.76|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||1.76|-1.18|0.6997
92228437|NCT01583374|184359755|SUPERIORITY||LS Mean Difference|-0.04||||0.9587|TWO_SIDED|95.0|-1.5|1.42|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||1.42|-1.50|0.9587
92228438|NCT01583374|184359756|SUPERIORITY||LS Mean Difference|0.06||||0.3307|TWO_SIDED|95.0|-0.06|0.17|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.17|-0.06|0.3307
92228439|NCT01583374|184359756|SUPERIORITY||LS Mean Difference|0.03||||0.5938|TWO_SIDED|95.0|-0.08|0.14|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.14|-0.08|0.5938
92408817|NCT02917642|184707319|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the irrigation protocol used after the chemo-mechanical preparation does not influence the reduction of endotoxin within the root canal system.||||0.94
92408818|NCT01864603|184707320|OTHER||Risk Ratio (RR)|0.95|||||TWO_SIDED|95.0|0.77|1.17||||||Comparison of Phase 1 arms||1.17|0.77|
92408819|NCT01864603|184707321|OTHER||Rate ratio|0.26|||||TWO_SIDED|95.0|0.09|0.75||||||||0.75|0.09|
92228440|NCT01265524|184359761|NON_INFERIORITY_OR_EQUIVALENCE|The efficacy and the safety analyses were done using the ITT population with Week 8/EOS data for the patients who did not complete the 8-week treatment period excluded. The ITT population included all randomized patients who received at least 1 dose of study drug.||||||0.014|TWO_SIDED|95.0||||Corrections for multiplicity were not performed and P values \< 0.05 were considered statistically significant.|ANCOVA|Continuous or ordinal data were analyzed using RM-ANCOVA using change from baseline values to compare CLP and placebo treatments.||||||0.014
92228441|NCT01265524|184359765|NON_INFERIORITY_OR_EQUIVALENCE|The efficacy and the safety analyses were done using the ITT population with Week 8/EOS data for the patients who did not complete the 8-week treatment period excluded. The ITT population included all randomized patients who received at least 1 dose of study drug.||||||0.0002|TWO_SIDED|95.0||||Corrections for multiplicity were not performed and P values \< 0.05 were considered statistically significant.|ANCOVA|Continuous or ordinal data were analyzed using RM-ANCOVA using change from baseline values to compare CLP and placebo treatments.||||||0.0002
92228442|NCT01265524|184359766|NON_INFERIORITY_OR_EQUIVALENCE|The efficacy and the safety analyses were done using the ITT population with Week 8/EOS data for the patients who did not complete the 8-week treatment period excluded. The ITT population included all randomized patients who received at least 1 dose of study drug.||||||0.072|TWO_SIDED|95.0||||Corrections for multiplicity were not performed and P values \< 0.05 were considered statistically significant.|ANCOVA|Continuous or ordinal data were analyzed using RM-ANCOVA using change from baseline values to compare CLP and placebo treatments.||||||0.072
92228443|NCT02732951|184359787|OTHER||Adjusted Mean|16.45|STANDARD_ERROR_OF_MEAN|16.45||0.3199|TWO_SIDED|95.0|-16.23|49.13|||Mixed model for repeated measurements|Kenward-Roger approximation was used for denominator degrees of freedom.|Fixed effects of treatment, prior anti-diabetic macular oedema treatment status, visit, treatment by visit interaction, baseline, baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within patient errors.|Null hypothesis = The CSFT change from baseline at Week 12 is equal in both groups||49.13|-16.23|0.3199
92228444|NCT00542620|184359818|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.25% or equivalently if the p-value for the one-sided test of H0: D\>0.25% against HA: D=\<0.25%, was less than or equal to 2.5%, where D is the mean treatment difference (mixing injections minus separate injections).|Median Difference (Final Values)|-0.691||||0.001||95.0|-1.049|-0.334||If non-inferiority was confirmed, the superiority of the mixed injection group over separate injection group was to be investigated|ANCOVA|Baseline HbA1c as covariate||||-0.334|-1.049|0.001
92228445|NCT00542620|184359819|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.25% or equivalently if the p-value for the one-sided test of H0: D\>0.25% against HA: D=\<0.25%, was less than or equal to 2.5%, where D is the mean treatment difference (mixing injections minus separate injections).|Mean Difference (Final Values)|-0.594||||0.003||95.0|-0.97|-0.219||If non-inferiority was confirmed, the superiority of the mixed injection group over separate injection group was to be investigated.|ANCOVA|Baseline HbA1c as covariate.||||-0.219|-0.970|0.003
92228446|NCT00542620|184359820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.35|STANDARD_ERROR_OF_MEAN|14.59||0.573||95.0|-38.77|22.08|||ANCOVA|With adjustment on baseline fructosamine and the change in insulin administration mode||||22.08|-38.77|0.573
92228447|NCT00542620|184359821|SUPERIORITY_OR_OTHER|||||||0.063|||||||ANCOVA|With adjustment on baseline value||||||0.063
92228448|NCT00542620|184359822|SUPERIORITY_OR_OTHER|||||||0.389|||||||ANCOVA|With adjustment on baseline value||||||0.389
92228449|NCT00542620|184359823|SUPERIORITY_OR_OTHER|||||||0.856|||||||ANCOVA|With adjustment on baseline value||||||0.856
92228450|NCT00542620|184359824|SUPERIORITY_OR_OTHER|||||||0.917|||||||ANCOVA|With adjustment on baseline value||||||0.917
92228451|NCT00542620|184359825|SUPERIORITY_OR_OTHER|||||||0.209|||||||ANCOVA|With adjustment on baseline value||||||0.209
92228452|NCT00542620|184359826|SUPERIORITY_OR_OTHER|||||||0.22|||||||ANCOVA|With adjustment on baseline value||||||0.220
92228453|NCT00542620|184359827|SUPERIORITY_OR_OTHER|||||||0.234|||||||ANCOVA|With adjustment for baseline value||||||0.234
92228454|NCT00542620|184359828|SUPERIORITY_OR_OTHER|||||||0.534|||||||ANCOVA|With adjustment on baseline value||||||0.534
92228455|NCT00542620|184359829|SUPERIORITY_OR_OTHER|||||||0.722|||||||ANCOVA|With adjustment on baseline value||||||0.722
92228456|NCT00542620|184359830|SUPERIORITY_OR_OTHER|||||||0.727|||||||ANCOVA|With adjustment on baseline value||||||0.727
92228457|NCT00542620|184359831|SUPERIORITY_OR_OTHER|||||||0.411|||||||ANCOVA|With adjustment on baseline value||||||0.411
92228458|NCT00542620|184359832|SUPERIORITY_OR_OTHER|||||||0.471|||||||ANCOVA|With adjustment on baseline value||||||0.471
92228459|NCT00542620|184359835|SUPERIORITY_OR_OTHER|||||||0.127|||||||ANCOVA|With adjustment on baseline value||||||0.127
92228460|NCT00542620|184359836|SUPERIORITY_OR_OTHER|||||||0.1|||||||ANCOVA|With adjustment on baseline value||||||0.1
92228461|NCT00542620|184359837|SUPERIORITY_OR_OTHER|||||||0.166|||||||ANCOVA|With adjustment on baseline value||||||0.166
92228462|NCT00542620|184359838|SUPERIORITY_OR_OTHER|||||||0.023|||||||ANCOVA|With adjustment on baseline value||||||0.023
92228463|NCT00542620|184359839|SUPERIORITY_OR_OTHER|||||||0.439|||||||ANCOVA|With adjustment on baseline value||||||0.439
92228464|NCT00542620|184359840|SUPERIORITY_OR_OTHER|||||||0.202|||||||ANCOVA|With adjustment on baseline value||||||0.202
92228465|NCT00542620|184359841|SUPERIORITY_OR_OTHER|||||||0.665|||||||ANCOVA|With adjustment on baseline value||||||0.665
92228466|NCT00928070|184359849|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.65|STANDARD_ERROR_OF_MEAN|0.21||0.0018|TWO_SIDED|95.0|-1.05|-0.24||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Analysis of covariance (ANCOVA) model with terms for treatment, center, centered baseline, and centered baseline by treatment interaction was used to calculate p-value.||-0.24|-1.05|0.0018
92228467|NCT00928070|184359850|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.23||0.0003|TWO_SIDED|95.0|-1.27|-0.38||Statistical testing, two-sided, was done at 5% significance level.|ANCOVA|||ANCOVA model with terms for treatment, center, centered baseline, and centered baseline by treatment interaction was used to calculate p-value.||-0.38|-1.27|0.0003
92228468|NCT00928070|184359851|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||<0.0001
92228469|NCT00928070|184359851|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0001
92228470|NCT00928070|184359853|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.24||0.0003|TWO_SIDED|95.0|-1.35|-0.4||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline as a covariate was used to calculate p-value.||-0.40|-1.35|0.0003
92373885|NCT02998203|184650119|OTHER|Linear mixed-effect regression model|||||<|0.001||||||Multiple testing was accounted for using the Benjamini-Hochberg method, considering 58 regression parameter tests of the aforementioned models. Q-value\<0.05 were considered statistically significant (controlling the false discovery rate at 5%).|Mixed Models Analysis|||The interaction term for time and treatment was included in the models since it met the threshold of p-value\<0. 05. Specifically, for the interaction term of time and organic treatment b=-0.016, 95% CI=\[-0.023,-0.010\], p-value=\<0.001.||||<0.001
92373886|NCT02998203|184650120|OTHER|One-sample t-test||||||0.913|||||||One-sample t-test|||A one-sample t-test was used to assess whether the percent change was different than zero.||||0.913
92373887|NCT02998203|184650121|OTHER|Wilcoxon rank sum test||||||0.338|||||||Wilcoxon rank sum test|||The overall differences in the medians of biomarkers between the conventional and the organic periods were assessed with the non-parametric Wilcoxon rank sum test||||0.338
92228471|NCT00928070|184359853|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.23||0.0003|TWO_SIDED|95.0|-1.29|-0.39||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline as a covariate was used to calculate p-value.||-0.39|-1.29|0.0003
92228472|NCT00928070|184359854|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||<0.0001
92228473|NCT00928070|184359854|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||<0.0001
92228474|NCT00928070|184359856|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.34||0.0014|TWO_SIDED|95.0|-1.77|-0.43||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.43|-1.77|0.0014
92228475|NCT00928070|184359856|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.1|-0.7||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.70|-2.10|<0.0001
92228476|NCT00928070|184359857|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0002
92228477|NCT00928070|184359857|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||<0.0001
92228478|NCT00928070|184359859|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.2511|TWO_SIDED|95.0|-0.39|0.1||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered Baseline value as a covariate was used to calculate p-value.||0.10|-0.39|0.2511
92228479|NCT00928070|184359859|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.12||0.0189|TWO_SIDED|95.0|-0.53|-0.05||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered Baseline value as a covariate was used to calculate p-value.||-0.05|-0.53|0.0189
92228480|NCT00928070|184359860|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% significance level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0010
92228481|NCT00928070|184359862|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.67|STANDARD_ERROR_OF_MEAN|1.21||0.0001|TWO_SIDED|95.0|-7.04|-2.3||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-2.30|-7.04|0.0001
92228482|NCT00928070|184359862|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.97|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-7.27|-2.66||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-2.66|-7.27|<0.0001
92228483|NCT00928070|184359863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.11||0.0035|TWO_SIDED|95.0|-0.56|-0.11||Statistical testing, two-sided, was done at 5% alpha level.|t-test, 2 sided|||Change at Week 4: =\<3.5 undergarments- Protective undergarment usage was analyzed to compare treatments on separate subsets, based on baseline protective undergarment use (=\<3.5/day and \>3.5/day), using a 2 sample t-test. This method was applied because there was a statistically significant qualitative baseline by treatment interaction.||-0.11|-0.56|0.0035
92228484|NCT00928070|184359863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|1.21||0.7089|TWO_SIDED|95.0|-2.01|2.92||Statistical testing, two-sided, was done at 5% alpha level.|t-test, 2 sided|||Change at Week 4: \>3.5 undergarments- Protective undergarment usage was analyzed to compare treatments on separate subsets, based on baseline protective undergarment use (=\<3.5/day and \>3.5/day), using a 2 sample t-test. This method was applied because there was a statistically significant qualitative baseline by treatment interaction.||2.92|-2.01|0.7089
92277823|NCT02363010|184457836|SUPERIORITY|||||||0.814||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that 6-month Appetitive Response to Exercise would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.814
92277824|NCT04527471|184457858|OTHER|||||||1|TWO_SIDED|95.0|||||Fisher Exact|||||||1
92277825|NCT02884206|184457902|NON_INFERIORITY|To demonstrate non-inferiority that LCZ696 does not lead to a relevant decrease in cognition compared to valsartan at year 3, the lower bound of 95% CI does not include the pre-specified non-inferiority (NI) boundary (Cohen's D) of -0.3. An effect size of 0.3 in Cohen's D is generally considered as small.|LSM|-0.018||||0.7363|TWO_SIDED|95.0|-0.123|0.087|||ANCOVA|||Repeated measure ANCOVA|Cohen's D: -0.0277, 95% CI: -0.1101 to 0.0778|0.0870|-0.1230|0.7363
92373888|NCT02998203|184650122|OTHER|Linear mixed-effect regression model||||||0.001||||||Multiple testing was accounted for using the Benjamini-Hochberg method, considering 58 regression parameter tests of the aforementioned models. Q-value\<0.05 were considered statistically significant (controlling the false discovery rate at 5%).|Mixed Models Analysis|||The interaction term for time and treatment was included in the models since it met the threshold of p-value\<0. 05. Specifically, for the interaction term of time and organic treatment b=-0.016, 95% CI=\[-0.023,-0.010\], p-value=0.01.||||0.001
92373889|NCT02019108|184650234|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.495|TWO_SIDED|95.0|-1.1|0.5||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||0.5|-1.1|0.495
92408820|NCT04661579|184707339|OTHER||Vaccine Efficacy|35.9||||0.009|TWO_SIDED|95.0|10.3|54.2|||Wald test||Vaccine efficacy (VE) is defined as the percent reduction in the hazard, i.e. one minus the hazard ratio (HR, RTS,S/AS01E Vaccine vs. Rabies vaccine).|Vaccine efficacy against the first PCR-positive P. falciparum infection among adults who were P. falciparum positive at baseline was assessed using Cox proportional hazards regression model with a covariate for group assignment to compare Groups 1 and 4. HIV status, Age (tertiles), and sleep under a bednet were included as covariates.||54.2|10.3|0.009
92228485|NCT00928070|184359863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.61|-0.21||Statistical testing, two-sided, was done at 5% alpha level.|t-test, 2 sided|||Change at Week 12: =\<2.5 undergarments- Protective undergarment usage was analyzed to compare treatments on separate subsets, based on baseline protective undergarment use (=\<2.5/day and \>2.5/day), using a 2 sample t-test. This method was applied because there was a statistically significant qualitative baseline by treatment interaction.||-0.21|-0.61|<0.0001
92228486|NCT00928070|184359863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.47||0.7437|TWO_SIDED|95.0|-0.78|1.09||Statistical testing, two-sided, was done at 5% alpha level.|t-test, 2 sided|||Change at Week 12: \>2.5 undergarments- Protective undergarment usage was analyzed to compare treatments on separate subsets, based on baseline protective undergarment use (=\<2.5/day and \>2.5/day), using a 2 sample t-test. This method was applied because there was a statistically significant qualitative baseline by treatment interaction.||1.09|-0.78|0.7437
92277826|NCT02884206|184457903|NON_INFERIORITY|To show that the point estimate of SUVr difference in mean change over 3 years is in favor of LCZ696 and the non-inferiority is demonstrated, with the upper bound of the 95% CI excluding the NI boundary of 0.01.|Least Squares Mean|-0.0292||||0.0579|TWO_SIDED|95.0|-0.0593|0.001|||ANCOVA|||Multiple Imputation ANCOVA in Global cortical composite||0.0010|-0.0593|0.0579
92277827|NCT02884206|184457904|SUPERIORITY||Least Squares Mean|0.0007||||0.9916|TWO_SIDED|95.0|-0.1339|0.1353|||ANCOVA|||Repeated measure ANCOVA for memory domain|Cohen's D: 0.0009; 95% CI: -0.0912 to 0.0922|0.1353|-0.1339|0.9916
92277828|NCT02884206|184457904|SUPERIORITY||Least Squares Mean|0.0327||||0.6348|TWO_SIDED|95.0|-0.1024|0.1677|||ANCOVA|||Repeated measure ANCOVA for executive function domain|Cohen's D: 0.0391, 95% CI: -0.0727 to 0.1192|0.1677|-0.1024|0.6348
92228487|NCT00928070|184359864|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Cochran-Mantel-Haenszel|||Change at Week 4- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for center was used to calculate p-value.||||0.0009
92228488|NCT00928070|184359864|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: CMH test with modified ridit scoring controlling for center was used to calculate p-value.||||0.0021
92228489|NCT00928070|184359866|SUPERIORITY_OR_OTHER||Least squares mean difference|-9.15|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-12.85|-5.45||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-5.45|-12.85|<0.0001
92373890|NCT02019108|184650234|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.079|TWO_SIDED|95.0|-1.6|0.1||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.1|-1.6|0.079
92373891|NCT02019108|184650235|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.117|TWO_SIDED|95.0|-2.6|0.3||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||0.3|-2.6|0.117
92373892|NCT02019108|184650235|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.133|TWO_SIDED|95.0|-2.5|0.3||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.3|-2.5|0.133
92373893|NCT02019108|184650236|SUPERIORITY||Median Difference (Final Values)|-0.14||||0.125|TWO_SIDED|95.0|-0.31|0.04||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks||0.04|-0.31|0.125
92373894|NCT02019108|184650236|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.103|TWO_SIDED|95.0|-0.37|0.03||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks||0.03|-0.37|0.103
92373895|NCT02019108|184650237|SUPERIORITY||Mean Difference (Final Values)|-0.26|||<|0.001|TWO_SIDED|95.0|-0.39|-0.12||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||-0.12|-0.39|<0.001
92373896|NCT02019108|184650237|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.056|TWO_SIDED|95.0|-0.4|0.01||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.01|-0.40|0.056
92228490|NCT00928070|184359866|SUPERIORITY_OR_OTHER||Least squares mean difference|-7.6|STANDARD_ERROR_OF_MEAN|2.03||0.0002|TWO_SIDED|95.0|-11.6|-3.61||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-3.61|-11.60|0.0002
92408821|NCT04661579|184707340|OTHER||Vaccine Efficacy|-24.0||||0.369|TWO_SIDED|95.0|-97.0|22.2|||Wald test||Vaccine efficacy (VE) is defined as the percent reduction in the hazard, i.e. one minus the hazard ratio (HR, RTS,S/AS01E Vaccine vs. Rabies vaccine).|Vaccine efficacy against the first PCR-positive P. falciparum infection among adults who were P. falciparum positive at baseline was assessed using Cox proportional hazards regression model with a covariate for group assignment to compare Groups 2 and 5. HIV status, Age (tertiles), and sleep under a bednet were included as covariates.||22.2|-97|0.369
92408822|NCT04335136|184707357|OTHER|||||||0.5207||||||The level of significance was 5% (2-sided).|Chi-squared|||"Hypothesis tested: H0: pAPN01 = pPlacebo; H1: pAPN01 ≠ pPlacebo (with p=proportion of patients with event).~A total of 186 patients (93 per group) was estimated to yield 80% power to detect a 20% absolute risk reduction in the primary, from 50% in the placebo group to 30% in the APN01 group, at a 2-sided alpha of 0.05. To consider patients who would be randomized but not treated, a total of 200 patients (100 per group) were planned to be enrolled."||||0.5207
92228491|NCT00928070|184359868|SUPERIORITY_OR_OTHER||Least squares mean difference|8.17|STANDARD_ERROR_OF_MEAN|2.08|<|0.0001|TWO_SIDED|95.0|4.09|12.25||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: concern domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||12.25|4.09|<0.0001
92277829|NCT02884206|184457904|SUPERIORITY||Least Squares Mean|-0.1042||||0.2403|TWO_SIDED|95.0|-0.2783|0.07|||ANCOVA|||Repeated measure ANCOVA for attention domain|Cohen's D: -0.0967, 95% CI: -0.1542 to 0.0387|0.0700|-0.2783|0.2403
92277830|NCT02884206|184457905|SUPERIORITY||Least Squares Mean|-0.1105||||0.7081|TWO_SIDED|95.0|-0.6906|0.4696|||ANCOVA|||Repeated measure ANCOVA|Cohen's D: -0.0308, 95% CI: -0.1208 to 0.0820|0.4696|-0.6906|0.7081
92373897|NCT02019108|184650238|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.031|TWO_SIDED|95.0|-0.11|-0.01||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||-0.01|-0.11|0.031
92373898|NCT02019108|184650238|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.058|TWO_SIDED|95.0|-0.12|0.0||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.00|-0.12|0.058
92373899|NCT02019108|184650239|SUPERIORITY||Mean Difference (Final Values)|-9.04|||<|0.001|TWO_SIDED|95.0|-11.22|-6.86||a priori threshold for statistical significance \<0.05.|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||-6.86|-11.22|<0.001
92373900|NCT02019108|184650239|SUPERIORITY||Mean Difference (Final Values)|-6.78|||<|0.001|TWO_SIDED|95.0|-8.82|-4.75||a priori threshold for statistical significance \<0.05.|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||-4.75|-8.82|<0.001
92408823|NCT04335136|184707357|OTHER||Odds Ratio (OR)|0.63||||0.3588|TWO_SIDED|95.0|0.23|1.7|||Regression, Logistic|Degree of freedom: 1||||1.70|0.23|0.3588
92228492|NCT00928070|184359868|SUPERIORITY_OR_OTHER||Least squares mean difference|6.96|STANDARD_ERROR_OF_MEAN|2.13||0.0012|TWO_SIDED|95.0|2.77|11.15||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: coping domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||11.15|2.77|0.0012
92373901|NCT02019108|184650240|SUPERIORITY||Mean Difference (Final Values)|-3.7||||0.111|TWO_SIDED|95.0|-8.3|0.9||a priori threshold for statistical significance \<0.05.|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||0.9|-8.3|0.111
92373902|NCT02019108|184650240|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.232|TWO_SIDED|95.0|-7.3|1.8||a priori threshold for statistical significance \<0.05.|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||1.8|-7.3|0.232
92373903|NCT02019108|184650241|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.462|TWO_SIDED|95.0|-0.36|0.78||a priori threshold for significance \<0.05.|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||0.78|-0.36|0.462
92373904|NCT02019108|184650241|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.737|TWO_SIDED|95.0|-0.76|0.54||a priori threshold for statistical significance \<0.05.|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.54|-0.76|0.737
92228493|NCT00928070|184359868|SUPERIORITY_OR_OTHER||Least squares mean difference|4.0|STANDARD_ERROR_OF_MEAN|2.01||0.0472|TWO_SIDED|95.0|0.05|7.95||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: sleep domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||7.95|0.05|0.0472
92228494|NCT00928070|184359868|SUPERIORITY_OR_OTHER||Least squares mean difference|2.46|STANDARD_ERROR_OF_MEAN|1.53||0.1087|TWO_SIDED|95.0|-0.55|5.46||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: social interaction domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||5.46|-0.55|0.1087
92228495|NCT00928070|184359868|SUPERIORITY_OR_OTHER||Least squares mean difference|5.79|STANDARD_ERROR_OF_MEAN|1.77||0.0012|TWO_SIDED|95.0|2.31|9.28||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: total- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||9.28|2.31|0.0012
92228496|NCT00928070|184359868|SUPERIORITY_OR_OTHER||Least squares mean difference|9.04|STANDARD_ERROR_OF_MEAN|2.19|<|0.0001|TWO_SIDED|95.0|4.75|13.33||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: concern domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||13.33|4.75|<0.0001
92228497|NCT00928070|184359868|SUPERIORITY_OR_OTHER||Least squares mean difference|5.32|STANDARD_ERROR_OF_MEAN|2.22||0.0169|TWO_SIDED|95.0|0.96|9.67||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: coping domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||9.67|0.96|0.0169
92228498|NCT00928070|184359868|SUPERIORITY_OR_OTHER||Least squares mean difference|4.05|STANDARD_ERROR_OF_MEAN|2.1||0.0546|TWO_SIDED|95.0|-0.08|8.17||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: sleep domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||8.17|-0.08|0.0546
92373905|NCT02019108|184650242|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.876|TWO_SIDED|95.0|-0.5|0.43||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||0.43|-0.50|0.876
92408824|NCT01396447|184707374|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.1292|TWO_SIDED|95.0|-4.3|0.5||The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Repeated measures mixed-effects model||Cariprazine 0.75 mg vs Placebo|||0.5|-4.3|0.1292
92228499|NCT00928070|184359868|SUPERIORITY_OR_OTHER||Least squares mean difference|2.35|STANDARD_ERROR_OF_MEAN|1.63||0.1497|TWO_SIDED|95.0|-0.85|5.55||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: social interaction domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||5.55|-0.85|0.1497
92228500|NCT00928070|184359868|SUPERIORITY_OR_OTHER||Least squares mean difference|5.53|STANDARD_ERROR_OF_MEAN|1.88||0.0034|TWO_SIDED|95.0|1.84|9.23||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: total- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||9.23|1.84|0.0034
92228501|NCT00928070|184359869|SUPERIORITY_OR_OTHER||Least squares mean difference|16.25|STANDARD_ERROR_OF_MEAN|2.96|<|0.0001|TWO_SIDED|95.0|10.43|22.08||Statistical testing, two-sided, was done at 5% significance level.|ANOVA|||ANOVA model with treatment and center as factors was used to calculate p-value.||22.08|10.43|<0.0001
92373906|NCT02019108|184650242|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.897|TWO_SIDED|95.0|-0.43|0.49||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.49|-0.43|0.897
92373907|NCT01973387|184650264|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.178|||<|0.0001|TWO_SIDED|95.0|0.109|0.291|||Log Rank|||||0.291|0.109|<0.0001
92408825|NCT01396447|184707374|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.001|TWO_SIDED|95.0|-6.3|-1.6||The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Repeated measures mixed-effects model||Cariprazine 1.5 mg vs Placebo|||-1.6|-6.3|0.0010
92408826|NCT01396447|184707374|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.0374|TWO_SIDED|95.0|-4.9|-0.1||The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Repeated measures mixed-effects model||Cariprazine 3.0 mg vs Placebo|||-0.1|-4.9|0.0374
92228502|NCT00928070|184359870|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Cochran-Mantel-Haenszel|||Not satisfied, neither dissatisfied nor satisfied, satisfied: CMH test with modified ridit scoring controlling for center was used.||||<0.0001
92228503|NCT00928070|184359872|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.17||0.2788|TWO_SIDED|95.0|-0.51|0.15||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||ANCOVA model with terms for treatment, center, centered baseline value, and centered baseline by treatment interaction.||0.15|-0.51|0.2788
92228504|NCT00928070|184359873|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.0||||0.0021|TWO_SIDED|95.0|0.0|8.0||Statistical testing, two-sided, was done at 5% alpha level.|Van Elteren's test|||Change at Week 4: Van Elteren's test adjusted by baseline PVR quartile was used to calculate p-value. The median difference was based on Hodges-Lehmann estimate.||8.00|0.00|0.0021
92228505|NCT00928070|184359873|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|7.0|||<|0.0001|TWO_SIDED|95.0|3.0|11.0||Statistical testing, two-sided, was done at 5% alpha level.|Van Elteren's test|||Change at Week 12: Van Elteren's test adjusted by baseline PVR quartile was used to calculate p-value. The median difference was based on Hodges-Lehmann estimate.||11.00|3.00|<0.0001
92228506|NCT00849017|184359874|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.84|||<|0.0001|TWO_SIDED|95.0|-1.11|-0.58|||ANCOVA|||||-0.58|-1.11|<0.0001
92228507|NCT00849017|184359874|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.31|-0.77|||ANCOVA|||||-0.77|-1.31|<0.0001
92228508|NCT02908100|184359918|SUPERIORITY||Absolute Difference|6.4||||0.373|TWO_SIDED|95.0|-8.5|21.2|||Cochran-Mantel-Haenszel|||||21.2|-8.5|0.373
92373908|NCT02851797|184650271|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in 4SC at Month 18 with baseline values for: 4SC, time to rise from floor, time to run/walk 10 metres, distance walked in 6 minutes and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|generalised least square mean ratio|0.86|||=|0.0345|TWO_SIDED|95.0|0.745|0.989||LS Means, CIs, and p-values are obtained from ANCOVA model on change from baseline in 4SC at Month 18 with baseline values for: the above mentioned parameters as covariates, with steroid use and treatment group as independent classificat factors.|ANCOVA||LS Means, CIs, and p-values are obtained from ANCOVA model on change from baseline in 4SC at Month 18 with baseline values for: the above mentioned parameters as covariates, with steroid use and treatment group as independent classificat factors.|Log transformation applied||0.989|0.745|=0.0345
92228509|NCT02908100|184359918|SUPERIORITY||Absolute Difference|7.5||||0.339|TWO_SIDED|95.0|-7.3|22.4|||Cochran-Mantel-Haenszel|||||22.4|-7.3|0.339
92228510|NCT02908100|184359919|SUPERIORITY||Absolute Difference|8.7||||0.223|TWO_SIDED|95.0|-6.1|23.5|||Cochran-Mantel-Haenszel|||||23.5|-6.1|0.223
92373909|NCT02851797|184650272|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in time to rise from the Floor at Month 18 with baseline values for: 4SC, time to rise from floor, time to run/walk 10 m, distance walked in 6 minutes and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|difference in least square means|-3.28|||=|0.3044|TWO_SIDED|95.0|-9.573|3.018||See comment above|ANCOVA||See comment above|||3.018|-9.573|=0.3044
92408827|NCT01396447|184707375|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.3025|TWO_SIDED|95.0|-0.4|0.1|||Repeated measures mixed-effects model||Cariprazine 0.75 mg vs Placebo|The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.||0.1|-0.4|0.3025
92228511|NCT02908100|184359919|SUPERIORITY||Absolute Difference|3.0||||0.737|TWO_SIDED|95.0|-11.8|17.7|||Cochran-Mantel-Haenszel|||||17.7|-11.8|0.737
92228512|NCT02908100|184359920|SUPERIORITY||Absolute Difference|4.1||||0.614|TWO_SIDED|95.0|-10.7|18.9|||Cochran-Mantel-Haenszel|||||18.9|-10.7|0.614
92228513|NCT02908100|184359920|SUPERIORITY||Absolute Difference|4.1||||0.607|TWO_SIDED|95.0|-10.7|18.9|||Cochran-Mantel-Haenszel|||||18.9|-10.7|0.607
92228514|NCT02908100|184359921|SUPERIORITY||Absolute Difference|6.4||||0.41|TWO_SIDED|95.0|-8.5|21.2|||Cochran-Mantel-Haenszel|||||21.2|-8.5|0.410
92228515|NCT02908100|184359921|SUPERIORITY||Absolute Difference|6.4||||0.418|TWO_SIDED|95.0|-8.5|21.2|||Cochran-Mantel-Haenszel|||||21.2|-8.5|0.418
92228516|NCT02908100|184359922|SUPERIORITY||Absolute Difference|14.9||||0.378|TWO_SIDED|95.0|-14.0|43.7|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q1||43.7|-14|0.378
92228517|NCT02908100|184359922|SUPERIORITY||Absolute Difference|7.5||||0.732|TWO_SIDED|95.0|-21.7|36.7|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q1||36.7|-21.7|0.732
92228518|NCT02908100|184359922|SUPERIORITY||Absolute Difference|-0.4||||0.5|TWO_SIDED|95.0|-29.2|28.4|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q2||28.4|-29.2|0.500
92228519|NCT02908100|184359922|SUPERIORITY||Absolute Difference|8.6||||0.234|TWO_SIDED|95.0|-21.4|38.7|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q2||38.7|-21.4|0.234
92228520|NCT02908100|184359922|SUPERIORITY||Absolute Difference|15.5||||0.364|TWO_SIDED|95.0|-14.9|46.0|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q3||46|-14.9|0.364
92228521|NCT02908100|184359922|SUPERIORITY||Absolute Difference|15.2||||0.134|TWO_SIDED|95.0|-14.1|44.4|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q3||44.4|-14.1|0.134
92228522|NCT02908100|184359922|SUPERIORITY||Absolute Difference|-7.1||||0.83|TWO_SIDED|95.0|-37.6|23.3|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q4||23.3|-37.6|0.830
92228523|NCT02908100|184359922|SUPERIORITY||Absolute Difference|-2.2||||0.963|TWO_SIDED|95.0|-32.1|27.8|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q4||27.8|-32.1|0.963
92228524|NCT02908100|184359923|SUPERIORITY||Absolute Difference|19.0||||0.189|TWO_SIDED|95.0|-9.4|47.5|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q1||47.5|-9.4|0.189
92228525|NCT02908100|184359923|SUPERIORITY||Absolute Difference|6.7||||0.909|TWO_SIDED|95.0|-21.9|35.2|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q1||35.2|-21.9|0.909
92228526|NCT02908100|184359923|SUPERIORITY||Absolute Difference|-0.4||||0.5|TWO_SIDED|95.0|-29.2|28.4|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q2||28.4|-29.2|0.500
92228527|NCT02908100|184359923|SUPERIORITY||Absolute Difference|3.3||||0.234|TWO_SIDED|95.0|-27.1|33.8|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q2||33.8|-27.1|0.234
92228528|NCT02908100|184359923|SUPERIORITY||Absolute Difference|15.5||||0.364|TWO_SIDED|95.0|-14.9|46.0|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q3||46|-14.9|0.364
92373910|NCT02851797|184650273|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in distance walked at the end of the 6-minute walking test (6MWT) at Month 18 with baseline values for: 4SC, time to rise from floor, time to run/walk 10 metres, distance walked in 6 minutes and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|Difference in least square means|9.96|||=|0.3723|TWO_SIDED|95.0|-12.071|31.983||See comment above|ANCOVA|LS means, CIs, p-values were obtained from analysis of covariance model on change from baseline in distance walked at the end of the 6MWT at Month18.|See comment above|||31.983|-12.071|=0.3723
92373911|NCT02851797|184650274|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in total NSAA score at Month 18 with baseline values for: total NSAA score, 4SC, time to rise from floor, time to run/walk 10 metres, distance walked in 6 minutes and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|Difference in least square means|1.91|||=|0.0209|TWO_SIDED|95.0|0.295|3.533||Same comment as above|ANCOVA||Same comment as above.|||3.533|0.295|=0.0209
92373912|NCT02851797|184650275|SUPERIORITY|Estimated cumulative failures, ratio of cumulative failures, CIs, and p-values are obtained from a negative binomial regression on the subject cumulative number of failures across all post-baseline visits. Total failed items at baseline, baseline values for: 4SC, time to rise from floor, time to run/walk 10 metres, distance walked in 6 minutes and re-derived age at first dose were included as independent covariates, with treatment group and steroid use included as indep classification factors.|Ratio of cumulative failures|0.61|||=|0.0202|TWO_SIDED|95.0|0.408|0.927||same comment as above|negative binomial regression model|Estimated cumulative failures, their ratio were obtained from a negative binomial regression on the cumulative N of failures across all visits.|"A lower ratio indicates a greater reduction in cumulative loss of function across 18 months for givinostat compared with placebo.~See also comment above."|||0.927|0.408|=0.0202
92373913|NCT02851797|184650276|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in normalised muscle strength at Month 18 with baseline normalised muscle strength and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|Difference in least square means|0.19|||=|0.0902|TWO_SIDED|95.0|-0.03|0.401||same comment as above|ANCOVA||same comment as above|Overall knee extension||0.401|-0.030|=0.0902
92373914|NCT02851797|184650276|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in normalised muscle strength at Month 18 with baseline normalised muscle strength and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|Difference in least square means|0.09|||=|0.1818|TWO_SIDED|95.0|-0.041|0.213||same comment as above|ANCOVA||same comment as above|Overall elbow flexion||0.213|-0.041|=0.1818
92373915|NCT02851797|184650277|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in VL MFF at Month 18 with baseline VL MFF and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|Difference in least square means|-2.92|||=|0.0354|TWO_SIDED|95.0|-5.641|-0.204||Same comment as above|ANCOVA||Same comment as above|||-0.204|-5.641|=0.0354
92373916|NCT03622112|184650283|SUPERIORITY||Mean Difference (Final Values)|-0.036||||0.437|TWO_SIDED|95.0|-0.126|0.054|||Mixed Models Analysis|||||0.054|-0.126|0.437
92373917|NCT03622112|184650283|SUPERIORITY||Mean Difference (Final Values)|-0.054||||0.236|TWO_SIDED|95.0|-0.143|0.035|||Mixed Models Analysis|||||0.035|-0.143|0.236
92373918|NCT03622112|184650283|SUPERIORITY||Mean Difference (Final Values)|0.039||||0.389|TWO_SIDED|95.0|-0.05|0.128|||Mixed Models Analysis|||||0.128|-0.050|0.389
92408828|NCT01396447|184707375|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.0044|TWO_SIDED|95.0|-0.6|-0.2|||Repeated measures mixed-effects model||Cariprazine 1.5 mg vs Placebo|The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.||-0.2|-0.6|0.0044
92373919|NCT03622112|184650283|SUPERIORITY||Mean Difference (Final Values)|0.076||||0.094|TWO_SIDED|95.0|-0.013|0.165|||Mixed Models Analysis|||||0.165|-0.013|0.094
92408829|NCT01396447|184707375|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.0489|TWO_SIDED|95.0|-0.5|0.0|||Repeated measures mixed-effects model||Cariprazine 3.0 mg vs Placebo|The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.||-0.0|-0.5|0.0489
92408830|NCT02136069|184707393|SUPERIORITY||Adjusted Difference in Remission Rates|-0.9||||0.8114||95.0|-8.7|6.83|||Cochran-Mantel-Haenszel|||||6.83|-8.70|0.8114
92408831|NCT02136069|184707394|NON_INFERIORITY|with margin -12.5%|Adjusted Difference in Remission Rates|-12.0||||0.1293|TWO_SIDED|95.0|-20.5|-3.26||p-values are not multiplicity adjusted|Cochran-Mantel-Haenszel|A Farrington-Manning non-inferiority test was used to determine the nominal p-value.||||-3.26|-20.50|0.1293
92373920|NCT03622112|184650283|SUPERIORITY||Mean Difference (Final Values)|0.082||||0.06|TWO_SIDED|95.0|-0.003|0.167|||Mixed Models Analysis|||||0.167|-0.003|0.060
92373921|NCT03622112|184650283|SUPERIORITY||Mean Difference (Final Values)|0.111||||0.014|TWO_SIDED|95.0|0.023|0.199|||Mixed Models Analysis|||||0.199|0.023|0.014
92373922|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.029||||0.463|TWO_SIDED|95.0|-0.048|0.105|||Mixed Models Analysis|||Week 2||0.105|-0.048|0.463
92228529|NCT02908100|184359923|SUPERIORITY||Absolute Difference|7.2||||0.31|TWO_SIDED|95.0|-22.0|36.3|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q3||36.3|-22|0.310
92228530|NCT02908100|184359923|SUPERIORITY||Absolute Difference|-2.1||||0.922|TWO_SIDED|95.0|-32.5|28.2|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q4||28.2|-32.5|0.922
92228531|NCT02908100|184359923|SUPERIORITY||Absolute Difference|-5.9||||0.701|TWO_SIDED|95.0|-35.4|23.7|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q4||23.7|-35.4|0.701
92228532|NCT02908100|184359924|SUPERIORITY||Absolute Difference|3.1||||0.692|TWO_SIDED|95.0|-10.9|17.1|||Cochran-Mantel-Haenszel|||Week 24||17.1|-10.9|0.692
92228533|NCT02908100|184359924|SUPERIORITY||Absolute Difference|1.9||||0.871|TWO_SIDED|95.0|-12.0|15.9|||Cochran-Mantel-Haenszel|||Week 24||15.9|-12|0.871
92228534|NCT02908100|184359924|SUPERIORITY||Absolute Difference|11.2||||0.105|TWO_SIDED|95.0|-2.8|25.1|||Cochran-Mantel-Haenszel|||Week 48||25.1|-2.8|0.105
92228535|NCT02908100|184359924|SUPERIORITY||Absolute Difference|7.7||||0.286|TWO_SIDED|95.0|-6.1|21.6|||Cochran-Mantel-Haenszel|||Week 48||21.6|-6.1|0.286
92228536|NCT02908100|184359925|SUPERIORITY||Absolute Difference|-1.6||||0.936|TWO_SIDED|95.0|-16.8|13.6|||Cochran-Mantel-Haenszel|||Week 24||13.6|-16.8|0.936
92228537|NCT02908100|184359925|SUPERIORITY||Absolute Difference|-2.9||||0.683|TWO_SIDED|95.0|-18.2|12.4|||Cochran-Mantel-Haenszel|||Week 24||12.4|-18.2|0.683
92228538|NCT02908100|184359925|SUPERIORITY||Absolute Difference|11.7||||0.086|TWO_SIDED|95.0|-3.4|26.8|||Cochran-Mantel-Haenszel|||Week 48||26.8|-3.4|0.086
92228539|NCT02908100|184359925|SUPERIORITY||Absolute Difference|0.9||||0.879|TWO_SIDED|95.0|-14.2|16.1|||Cochran-Mantel-Haenszel|||Week 48||16.1|-14.2|0.879
92228540|NCT02631538|184359948|OTHER||Least square (LS) mean difference|-2.86|STANDARD_ERROR_OF_MEAN|1.758|||TWO_SIDED|95.0|-6.38|0.67|||||Week 12. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||0.67|-6.38|
92228541|NCT02631538|184359948|OTHER||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|1.382|||TWO_SIDED|95.0|-3.75|1.78|||||Week 12. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.78|-3.75|
92228542|NCT02631538|184359948|OTHER||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|1.442|||TWO_SIDED|95.0|-3.52|2.26|||||Week 12. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.26|-3.52|
92228543|NCT02631538|184359948|OTHER||LS mean difference|-1.87|STANDARD_ERROR_OF_MEAN|1.732|||TWO_SIDED|95.0|-5.34|1.6|||||Week 12. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.60|-5.34|
92228544|NCT02631538|184359948|OTHER||LS mean difference|0.35|STANDARD_ERROR_OF_MEAN|1.422|||TWO_SIDED|95.0|-2.5|3.2|||||Week 12. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.20|-2.50|
92228545|NCT02631538|184359948|OTHER||LS mean difference|-2.45|STANDARD_ERROR_OF_MEAN|1.607|||TWO_SIDED|95.0|-5.67|0.77|||||Week 24. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||0.77|-5.67|
92228546|NCT02631538|184359948|OTHER||LS mean difference|-1.46|STANDARD_ERROR_OF_MEAN|1.265|||TWO_SIDED|95.0|-3.99|1.08|||||Week 24. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.08|-3.99|
92228547|NCT02631538|184359948|OTHER||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|1.305|||TWO_SIDED|95.0|-2.68|2.55|||||Week 24. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.55|-2.68|
92228548|NCT02631538|184359948|OTHER||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|1.584|||TWO_SIDED|95.0|-4.17|2.18|||||Week 24. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.18|-4.17|
92228549|NCT02631538|184359948|OTHER||LS mean difference|1.39|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|95.0|-1.2|3.97|||||Week 24. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.97|-1.20|
92228550|NCT02631538|184359948|OTHER||LS mean difference|-0.97|STANDARD_ERROR_OF_MEAN|1.845|||TWO_SIDED|95.0|-4.66|2.73|||||Week 36. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.73|-4.66|
92228551|NCT02631538|184359948|OTHER||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|1.449|||TWO_SIDED|95.0|-2.76|3.05|||||Week 36. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.05|-2.76|
92228552|NCT02631538|184359948|OTHER||LS mean difference|0.85|STANDARD_ERROR_OF_MEAN|1.498|||TWO_SIDED|95.0|-2.15|3.86|||||Week 36. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.86|-2.15|
92228553|NCT02631538|184359948|OTHER||LS mean difference|-1.11|STANDARD_ERROR_OF_MEAN|1.817|||TWO_SIDED|95.0|-4.76|2.53|||||Week 36. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.53|-4.76|
92228554|NCT02631538|184359948|OTHER||LS mean difference|0.71|STANDARD_ERROR_OF_MEAN|1.476|||TWO_SIDED|95.0|-2.25|3.66|||||Week 36. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.66|-2.25|
92228555|NCT02631538|184359948|OTHER||LS mean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.57|||TWO_SIDED|95.0|-5.95|0.34|||||Week 52. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||0.34|-5.95|
92373923|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.576|TWO_SIDED|95.0|-0.055|0.098|||Mixed Models Analysis|||Week 2||0.098|-0.055|0.576
92373924|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.078||||0.047|TWO_SIDED|95.0|0.001|0.154|||Mixed Models Analysis|||Week 2||0.154|0.001|0.047
92228556|NCT02631538|184359948|OTHER||LS mean difference|-0.91|STANDARD_ERROR_OF_MEAN|1.237|||TWO_SIDED|95.0|-3.39|1.56|||||Week 52. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.56|-3.39|
92228557|NCT02631538|184359948|OTHER||LS mean difference|-1.36|STANDARD_ERROR_OF_MEAN|1.275|||TWO_SIDED|95.0|-3.91|1.2|||||Week 52. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.20|-3.91|
92228558|NCT02631538|184359948|OTHER||LS mean difference|-1.89|STANDARD_ERROR_OF_MEAN|1.548|||TWO_SIDED|95.0|-4.99|1.21|||||Week 52. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.21|-4.99|
92228559|NCT02631538|184359948|OTHER||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|1.261|||TWO_SIDED|95.0|-2.97|2.08|||||Week 52. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.08|-2.97|
92228560|NCT02631538|184359948|OTHER||LS mean difference|-3.99|STANDARD_ERROR_OF_MEAN|1.699|||TWO_SIDED|95.0|-7.39|-0.58|||||Week 68. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||-0.58|-7.39|
92228561|NCT02631538|184359948|OTHER||LS mean difference|-1.87|STANDARD_ERROR_OF_MEAN|1.336|||TWO_SIDED|95.0|-4.54|0.81|||||Week 68. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||0.81|-4.54|
92228562|NCT02631538|184359948|OTHER||LS mean difference|-1.35|STANDARD_ERROR_OF_MEAN|1.379|||TWO_SIDED|95.0|-4.12|1.41|||||Week 68. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.41|-4.12|
92228563|NCT02631538|184359948|OTHER||LS mean difference|-2.12|STANDARD_ERROR_OF_MEAN|1.674|||TWO_SIDED|95.0|-5.47|1.23|||||Week 68. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.23|-5.47|
92228564|NCT02631538|184359948|OTHER||LS mean difference|0.51|STANDARD_ERROR_OF_MEAN|1.362|||TWO_SIDED|95.0|-2.21|3.24|||||Week 68. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.24|-2.21|
92228565|NCT00110019|184359971|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.863|TWO_SIDED|95.0|0.87|1.18|||Log Rank|Stratified log rank test is used for overall survival comparison, stratified on AJCC stage, ECOG Performance status and prior therapy status|Arm II is the reference group|||1.18|0.87|0.863
92373925|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.102||||0.009|TWO_SIDED|95.0|0.025|0.179|||Mixed Models Analysis|||Week 2||0.179|0.025|0.009
92228566|NCT00110019|184359972|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.092|TWO_SIDED|95.0|0.78|1.03||priori threshold for statistical significance: P\<0.05|Log Rank|Stratified log rank test is used for progression-free survival comparison, stratified on AJCC stage, ECOG Performance status and prior therapy status|Arm II is the reference group|||1.03|0.78|0.092
92228567|NCT00110019|184359973|SUPERIORITY_OR_OTHER|||||||0.427||95.0||||priori threshold for statistical significance: P\<0.05|Fisher Exact|||||||0.427
92228568|NCT01577238|184359975|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92228569|NCT04276207|184359980|SUPERIORITY||Mean Difference (Final Values)|-0.377||||0.145|TWO_SIDED|95.0|-0.896|0.142|||Mixed Models Analysis|||||0.142|-0.896|0.1450
92228570|NCT04276207|184359981|SUPERIORITY||Mean Difference (Final Values)|-0.262||||0.001|TWO_SIDED|95.0|-0.406|-0.117|||Mixed Models Analysis|||||-0.117|-0.406|0.0010
92228571|NCT04276207|184359982|SUPERIORITY||Mean Difference (Final Values)|-12.61||||0.0173|TWO_SIDED|95.0|-22.73|-2.49|||Mixed Models Analysis|||Day 1||-2.49|-22.73|0.0173
92228572|NCT04276207|184359982|SUPERIORITY||Mean Difference (Final Values)|-5.75||||0.0243|TWO_SIDED|95.0|-10.69|0.81|||Mixed Models Analysis|||Day 2||0.81|-10.69|0.0243
92228573|NCT04276207|184359983|SUPERIORITY|||||||0.945|||||||Mixed Models Analysis|||Day 1||||0.945
92373926|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.104||||0.006|TWO_SIDED|95.0|0.031|0.178|||Mixed Models Analysis|||Week 2||0.178|0.031|0.006
92228574|NCT04276207|184359983|SUPERIORITY|||||||0.888|||||||Mixed Models Analysis|||Day 2||||0.888
92228575|NCT01256177|184359984|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-3.22|STANDARD_ERROR_OF_MEAN|1.1||0.004|TWO_SIDED|95.0|-5.39|-1.04|||Mixed Model Repeated Measures (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 8 in MADRS total score based on observed cases (OC)||-1.04|-5.39|0.004
92228576|NCT01256177|184359985|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.54||||0.001|TWO_SIDED|95.0|1.56|4.13|||Regression, Logistic|Odds ratio was modeled by logistic regression adjusted for centre, baseline score, and bipolar strata.|Quetiapine XR/Placebo|||4.13|1.56|0.001
92228577|NCT01256177|184359986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.37||||0.001|TWO_SIDED|95.0|1.46|3.86|||Regression, Logistic|Odds ratio was modeled by logistic regression adjusted for centre, baseline score, and bipolar strata.|Quetiapine XR/Placebo|||3.86|1.46|0.001
92228578|NCT01256177|184359987|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-1.47|STANDARD_ERROR_OF_MEAN|0.67||0.029|TWO_SIDED|95.0|-2.79|-0.15|||Mixed Model Repeated Measure (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 1 in MADRS total score based on observed cases (OC)||-0.15|-2.79|0.029
92373927|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.118||||0.003|TWO_SIDED|95.0|0.041|0.194|||Mixed Models Analysis|||Week 2||0.194|0.041|0.003
92373928|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.685|TWO_SIDED|95.0|-0.068|0.103|||Mixed Models Analysis|||Week 4||0.103|-0.068|0.685
92373929|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.176|TWO_SIDED|95.0|-0.026|0.144|||Mixed Models Analysis|||Week 4||0.144|-0.026|0.176
92373930|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.098||||0.024|TWO_SIDED|95.0|0.013|0.183|||Mixed Models Analysis|||Week 4||0.183|0.013|0.024
92228579|NCT01256177|184359987|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-2.43|STANDARD_ERROR_OF_MEAN|0.88||0.006|TWO_SIDED|95.0|-4.16|-0.69|||Mixed Model Repeated Measure (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 2 in MADRS total score based on observed cases (OC)||-0.69|-4.16|0.006
92373931|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.106||||0.014|TWO_SIDED|95.0|0.021|0.191|||Mixed Models Analysis|||Week 4||0.191|0.021|0.014
92373932|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.114||||0.006|TWO_SIDED|95.0|0.032|0.196|||Mixed Models Analysis|||Week 4||0.196|0.032|0.006
92373933|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.165|||<|0.001|TWO_SIDED|95.0|0.081|0.249|||Mixed Models Analysis|||Week 4||0.249|0.081|< 0.001
92408832|NCT02136069|184707395|SUPERIORITY||Adjusted Difference in Remission Rates|-3.4||||0.4056|TWO_SIDED|95.0|-11.53|4.74||p-values are not multiplicity adjusted|Cochran-Mantel-Haenszel|||||4.74|-11.53|0.4056
92408833|NCT02136069|184707396|SUPERIORITY||Adjusted Difference in Remission Rates|-2.4||||0.4591|TWO_SIDED|95.0|-8.88|4.14||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||4.14|-8.88|0.4591
92408834|NCT02136069|184707397|SUPERIORITY||Adjusted Difference in Remission Rates|5.3||||0.4196|TWO_SIDED|95.0|-7.54|18.13||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||18.13|-7.54|0.4196
92277831|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.74|||||ONE_SIDED||||||||GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"||||
92373934|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.707|TWO_SIDED|95.0|-0.072|0.106|||Mixed Models Analysis|||Week 8||0.106|-0.072|0.707
92373935|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.005||||0.904|TWO_SIDED|95.0|-0.083|0.094|||Mixed Models Analysis|||Week 8||0.094|-0.083|0.904
92408835|NCT02136069|184707398|SUPERIORITY||Adjusted Difference in Response Rates|-12.4||||0.0118|TWO_SIDED|95.0|-21.84|-2.66||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||-2.66|-21.84|0.0118
92408836|NCT02136069|184707399|SUPERIORITY||Adjusted Difference in Response Rates|-4.9||||0.2845|TWO_SIDED|95.0|-13.76|4.12||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||4.12|-13.76|0.2845
92408837|NCT02136069|184707400|SUPERIORITY||Adjusted Difference in Response Rates|-6.3||||0.1234|TWO_SIDED|95.0|-14.3|1.84||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||1.84|-14.30|0.1234
92408838|NCT02136069|184707401|SUPERIORITY||Adjusted Difference in Remission Rates|-5.0||||0.2168|TWO_SIDED|95.0|-12.84|2.94||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||2.94|-12.84|0.2168
92228580|NCT01256177|184359987|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-3.12|STANDARD_ERROR_OF_MEAN|0.95||0.001|TWO_SIDED|95.0|-5.0|-1.25|||Mixed Model Repeated Measures (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 4 in MADRS total score based on observed cases (OC)||-1.25|-5.00|0.001
92373936|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.121|TWO_SIDED|95.0|-0.018|0.157|||Mixed Models Analysis|||Week 8||0.157|-0.018|0.121
92408839|NCT02136069|184707402|SUPERIORITY||Adjusted Difference in Response Rates|-9.5||||0.0564|TWO_SIDED|95.0|-19.06|0.29||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||0.29|-19.06|0.0564
92408840|NCT02136069|184707403|SUPERIORITY||Adjusted Difference in Response Rates|-6.0||||0.1729|TWO_SIDED|95.0|-14.51|2.7||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||2.70|-14.51|0.1729
92408841|NCT02136069|184707404|SUPERIORITY||Adjusted Difference in Remission Rates|-0.8||||0.8941|TWO_SIDED|95.0|-12.01|10.68||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||10.68|-12.01|0.8941
92373937|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.026|TWO_SIDED|95.0|0.012|0.188|||Mixed Models Analysis|||Week 8||0.188|0.012|0.026
92373938|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.139||||0.001|TWO_SIDED|95.0|0.055|0.224|||Mixed Models Analysis|||Week 8||0.224|0.055|0.001
92373939|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.122||||0.006|TWO_SIDED|95.0|0.035|0.209|||Mixed Models Analysis|||Week 8||0.209|0.035|0.006
92373940|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.007||||0.856|TWO_SIDED|95.0|-0.068|0.081|||Mixed Models Analysis|||Treatment period average||0.081|-0.068|0.856
92373941|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.008||||0.832|TWO_SIDED|95.0|-0.066|0.082|||Mixed Models Analysis|||Treatment period average||0.082|-0.066|0.832
92373942|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.071||||0.06|TWO_SIDED|95.0|-0.003|0.145|||Mixed Models Analysis|||Treatment period average||0.145|-0.003|0.060
92373943|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.096||||0.011|TWO_SIDED|95.0|0.022|0.17|||Mixed Models Analysis|||Treatment period average||0.170|0.022|0.011
92373944|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.003|TWO_SIDED|95.0|0.039|0.181|||Mixed Models Analysis|||Treatment period average||0.181|0.039|0.003
92373945|NCT03622112|184650284|SUPERIORITY||Mean Difference (Final Values)|0.129|||<|0.001|TWO_SIDED|95.0|0.055|0.202|||Mixed Models Analysis|||Treatment period average||0.202|0.055|<0.001
92373946|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.936||||0.322|TWO_SIDED|95.0|0.822|1.067|||Mixed Models Analysis|||Week 2||1.067|0.822|0.322
92228581|NCT01256177|184359987|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-2.08|STANDARD_ERROR_OF_MEAN|1.03||0.045|TWO_SIDED|95.0|-4.12|-0.05|||Mixed Model Repeated Measures (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 6 in MADRS total score based on observed cases (OC)||-0.05|-4.12|0.045
92228582|NCT01256177|184359987|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-3.22|STANDARD_ERROR_OF_MEAN|1.1||0.004|TWO_SIDED|95.0|-5.39|-1.04|||Mixed Model Repeated Measures (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 8 in MADRS total score based on observed cases (OC)||-1.04|-5.39|0.004
92228583|NCT01256177|184359988|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-2.24|STANDARD_ERROR_OF_MEAN|0.83||0.007|TWO_SIDED|95.0|-3.88|-0.61|||Mixed Model Repeated Measures (MMRM)|Baseline HAM-D total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 8 in HAM-D total score based on observed cases (OC)||-0.61|-3.88|0.007
92228584|NCT01256177|184359989|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-0.51|STANDARD_ERROR_OF_MEAN|0.17||0.003|TWO_SIDED|95.0|-0.84|-0.17|||Mixed Model Repeated Measures (MMRM)|Baseline CGI-BP-S score for overall BP illness as covariate, trt, bipolar strata, visit, trt-visit interaction as fixed effect and centre as random.||Change from baseline to Week 8 assessment in the CGI-BP-S score for overall Bipolar (BP) illness based on observed cases (OC)||-0.17|-0.84|0.003
92228585|NCT01256177|184359989|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-0.47|STANDARD_ERROR_OF_MEAN|0.17||0.007|TWO_SIDED|95.0|-0.81|-0.13|||Mixed Model Repeated Measures (MMRM)|Baseline CGI-BP-S score for depression as covariate, trt, Bipolar strata, visit, trt-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 8 assessment in the CGI-BP-S score of depression based on observed cases (OC)||-0.13|-0.81|0.007
92408842|NCT02136069|184707413|SUPERIORITY|Week 10|Difference in Adjusted Means|-3.1||||0.4106|TWO_SIDED|95.0|-10.6|4.3||p-value has not been adjusted for multiplicity|ANCOVA|||||4.3|-10.6|0.4106
92408843|NCT02136069|184707413|SUPERIORITY|Week 30|Difference in Adjusted Means|-5.7||||0.1434|TWO_SIDED|95.0|-13.3|1.9||p-value has not been adjusted for multiplicity|ANCOVA|||||1.9|-13.3|0.1434
92408844|NCT02136069|184707413|SUPERIORITY|Week 54|Difference in Adjusted Means|-6.1||||0.1103|TWO_SIDED|95.0|-13.6|1.4||p-value has not been adjusted for multiplicity|ANCOVA|||||1.4|-13.6|0.1103
92408845|NCT04693234|184707416|SUPERIORITY|||||||0.0054|||||||Binomial Exact Test|The p-value was calculated from the binomial exact test of tislelizumab combined with ociperlimab versus historical rate of 0.15.||||||0.0054
92408846|NCT04693234|184707417|SUPERIORITY|||||||0.0127|||||||Binomial Exact Test|The p-value was calculated from the binomial exact test of tislelizumab combined with ociperlimab versus historical rate of 0.15.||||||0.0127
92408847|NCT05814367|184707436|NON_INFERIORITY|A non-inferiority margin of 0.05 logMAR was used.|Least-square Mean Difference|-0.005|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.025|0.014|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Test minus Control|The sample size of 38 was calculated to provide at least 90% statistical power to test Non-inferiority of the Test lens compared to the Control lens using a paired t-test with a two-sided type I error rate of 5%.||0.014|-0.025|
92408848|NCT04154189|184707503|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.0396|TWO_SIDED|95.0|0.27|1.08||One-sided P value|Log Rank||Hazard ratio was based on Cox Proportional Hazard Model including treatment group as a factor and stratified by Age (less than \[\<\]18 years, more than or equal to \[\>=\]18 years) in interactive response technology (IRT). Efron method was used for ties.|||1.08|0.27|0.0396
92408849|NCT04154189|184707504|OTHER|Difference in PFS rates, and 2-sided 95% confidence intervals (CIs): CI and p-value constructed using the difference of the 2 Kaplan-Meier PFS rates (4 months) and the 2 corresponding Greenwood standard errors.|Difference in Percentage|10.2||||0.1683|TWO_SIDED|95.0|-10.6|31.1||One-sided P value|Kaplan-Meier Method|||||31.1|-10.6|0.1683
92408850|NCT04154189|184707506|OTHER||Hazard Ratio (HR)|0.93||||0.3924|TWO_SIDED|95.0|0.53|1.62||Nominal p-value from stratified log-rank test adjusted for the randomization stratification factor, that is, age.|Stratified Log-rank One-sided Test||Hazard ratio was based on a Cox Proportional Hazard Model including treatment group as a factor and stratified by Age (\<18 years, \>=18 years) in IRT. Efron method was used for ties.|||1.62|0.53|0.3924
92408851|NCT04154189|184707507|OTHER|Difference and 95% CI: difference of 2 Kaplan-Meier OS-1y rates and corresponding Greenwood standard errors.|Difference in Percentage|-22.9||||0.0352|TWO_SIDED|95.0|-47.6|1.9||One-sided P value|Kaplan Meier Method|||||1.9|-47.6|0.0352
92408852|NCT04154189|184707508|OTHER|Difference calculated as Treatment Arm A: Lenvatinib + Ifosfamide + Etoposide minus Treatment Arm B: Ifosfamide + Etoposide. 2-sided 95% CI: Miettinen-Nurminen (Score) confidence limits, stratified by randomization stratification factor age (\<18 and \>=18 years).|Difference in Percentage|7.7|||||TWO_SIDED|95.0|-6.4|22.3||||||||22.3|-6.4|
92408853|NCT04154189|184707509|OTHER|Difference calculated as Treatment Arm A: Lenvatinib + Ifosfamide + Etoposide minus Treatment Arm B: Ifosfamide + Etoposide. 2-sided 95% CI: Miettinen-Nurminen (Score) confidence limits, stratified by randomization stratification factor age (\<18 and \>=18 years).|Difference in Percentage|5.2|||||TWO_SIDED|95.0|-10.3|20.0||||||||20.0|-10.3|
92408854|NCT01056016|184707515|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.4|||=|0.003|TWO_SIDED||||||t-test, 2 sided|||The percentage of patients with whom pediatrician in each group utilized each practice behavior at baseline and 6-months was computed. The reported statistical analysis did not account potential clustering due to the small number of practices in this study.||||=.003
92408855|NCT00478023|184707524|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|18.1|||<|0.0001||95.0|10.9|25.3||Adjusted. The Hochberg procedure used for multiplicity comparisons|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 24 hours (SPID24). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID24.||25.3|10.9|<0.0001
92228586|NCT01256177|184359990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.004|TWO_SIDED|95.0|1.26|3.36|||Regression, Logistic|Odds ratio between treatment groups was modeled by logistic regression adjusted for centre, baseline score and bipolar Strata.|Quetiapine XR/Placebo|||3.36|1.26|0.004
92228587|NCT01256177|184359991|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.005|TWO_SIDED|95.0|-0.38|-0.07|||Mixed Model Repeated Measures (MMRM)|Baseline MADRS item 10 score as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effect and centre as random.||Change from Baseline to Week 8 in MADRS item 10 score for suicidal ideation based on observed cases (OC)||-0.07|-0.38|0.005
92228588|NCT01256177|184359992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.26||||0.233|TWO_SIDED|95.0|0.03|2.38|||Regression, Logistic|Odds ratio between treatment groups was modeled by logistic regression adjusted for centre, strata and baseline score.|Quetiapine XR/Placebo|||2.38|0.03|0.233
92228589|NCT00862251|184360025|SUPERIORITY_OR_OTHER_LEGACY||Percent change in least-square means|-14.76|||<|0.001|TWO_SIDED|95.0|-19.61|-9.91|||Longitudinal data analysis (LDA)|||||-9.91|-19.61|<0.001
92228590|NCT00862251|184360026|SUPERIORITY_OR_OTHER_LEGACY||Percent change in Least Square Means|-13.62|||<|0.001|TWO_SIDED|95.0|-20.44|-6.79|||Longitudinal data analysis (LDA)|||||-6.79|-20.44|<0.001
92228591|NCT00862251|184360027|SUPERIORITY_OR_OTHER_LEGACY||Percent change in least squares mean|-15.73|||<|0.001|TWO_SIDED|95.0|-22.65|-8.81|||Longitudinal Data Analysis (LDA)|||||-8.81|-22.65|<0.001
92228592|NCT00862251|184360028|SUPERIORITY_OR_OTHER_LEGACY||Percent Change in Least Squares Means|-3.81||||0.06|TWO_SIDED|95.0|-7.78|0.17|||Longitudinal Data Analysis|||||0.17|-7.78|0.060
92228593|NCT00862251|184360029|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.9|||<|0.001|TWO_SIDED|95.0|2.5|6.2|||Regression, Logistic|||||6.2|2.5|<0.001
92228594|NCT00862251|184360029|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9|||<|0.001|TWO_SIDED|95.0|1.3|2.6|||Regression, Logistic|||||2.6|1.3|<0.001
92373947|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.876||||0.047|TWO_SIDED|95.0|0.768|0.999|||Mixed Models Analysis|||Week 2||0.999|0.768|0.047
92373948|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.842||||0.01|TWO_SIDED|95.0|0.739|0.959|||Mixed Models Analysis|||Week 2||0.959|0.739|0.010
92228595|NCT00862251|184360030|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.5|||<|0.001|TWO_SIDED|95.0|2.3|8.5|||Regression, Logistic|||||8.5|2.3|<0.001
92228596|NCT00862251|184360031|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.5|||<|0.001|TWO_SIDED|95.0|1.9|6.6|||Regression, Logistic|||||6.6|1.9|<0.001
92228597|NCT00862251|184360032|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-8.33|||<|0.001|TWO_SIDED|95.0|-11.38|-5.28|||Longitudinal data analysis (LDA)|||||-5.28|-11.38|<0.001
92228598|NCT00862251|184360032|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.63||||0.039|TWO_SIDED|95.0|-5.13|-0.13|||Longitudinal data analysis (LDA)|||||-0.13|-5.13|0.039
92228599|NCT00862251|184360033|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.88||||0.316|TWO_SIDED|95.0|-8.53|2.77|||Longitudinal data analysis (LDA)|||||2.77|-8.53|0.316
92228600|NCT00862251|184360033|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.16||||0.356|TWO_SIDED|95.0|-6.75|2.43|||Longitudinal data analysis (LDA)|||||2.43|-6.75|0.356
92228601|NCT00862251|184360034|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.47||||0.756|TWO_SIDED|95.0|-2.5|3.45|||Longitudinal data analysis (LDA)|||||3.45|-2.50|0.756
92228602|NCT00862251|184360034|SUPERIORITY_OR_OTHER_LEGACY||Least Sqares Mean Difference|-0.52||||0.675|TWO_SIDED|95.0|-2.96|1.92|||Longitudinal data analysis (LDA)|||||1.92|-2.96|0.675
92228603|NCT00862251|184360035|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-11.62|||<|0.001|TWO_SIDED|95.0|-15.93|-7.31|||Longitudinal data analysis (LDA)|||||-7.31|-15.93|<0.001
92228604|NCT00862251|184360035|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-3.18||||0.078|TWO_SIDED|95.0|-6.71|0.35|||Longitudinal data analysis (LDA)|||||0.35|-6.71|0.078
92373949|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.825||||0.004|TWO_SIDED|95.0|0.724|0.941|||Mixed Models Analysis|||Week 2||0.941|0.724|0.004
92228605|NCT00862251|184360036|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-14.16|||<|0.001|TWO_SIDED|95.0|-20.23|-8.1|||Longitudinal data analysis (LDA)|||||-8.10|-20.23|<0.001
92228606|NCT00862251|184360036|SUPERIORITY_OR_OTHER_LEGACY||Least Sqares Mean Difference|-2.56||||0.313|TWO_SIDED|95.0|-7.53|2.41|||Longitudinal data analysis (LDA)|||||2.41|-7.53|0.313
92228607|NCT00862251|184360037|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-8.17|||<|0.001|TWO_SIDED|95.0|-12.1|-4.23|||Longitudinal data analysis (LDA)|||||-4.23|-12.10|<0.001
92228608|NCT00862251|184360037|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.83||||0.266|TWO_SIDED|95.0|-5.05|1.4|||Longitudinal data analysis (LDA)|||||1.40|-5.05|0.266
92228609|NCT00862251|184360038|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-11.45|||<|0.001|TWO_SIDED|95.0|-17.16|-5.75|||Longitudinal data analysis (LDA)|||||-5.75|-17.16|<0.001
92228610|NCT00862251|184360038|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.13||||0.371|TWO_SIDED|95.0|-6.81|2.54|||Longitudinal data analysis (LDA)|||||2.54|-6.81|0.371
92228611|NCT00862251|184360039|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-8.01|||<|0.001|TWO_SIDED|95.0|-11.46|-4.56|||Longitudinal data analysis (LDA)|||||-4.56|-11.46|<0.001
92228612|NCT00862251|184360039|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.95||||0.041|TWO_SIDED|95.0|-5.78|-0.12|||Longitudinal data analysis (LDA)|||||-0.12|-5.78|0.041
92228613|NCT00862251|184360040|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.57||||0.218|TWO_SIDED|95.0|-0.93|4.06|||Longitudinal data analysis (LDA)|||||4.06|-0.93|0.218
92228614|NCT00862251|184360040|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.22||||0.832|TWO_SIDED|95.0|-2.27|1.83|||Longitudinal data analysis (LDA)|||||1.83|-2.27|0.832
92228615|NCT00862251|184360041|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-8.91|||<|0.001|TWO_SIDED|95.0|-13.36|-4.47|||Longitudinal data analysis (LDA)|||||-4.47|-13.36|<0.001
92228616|NCT00862251|184360041|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.52||||0.175|TWO_SIDED|95.0|-6.17|1.13|||Longitudinal data analysis (LDA)|||||1.13|-6.17|0.175
92373950|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.687|||<|0.001|TWO_SIDED|95.0|0.606|0.779|||Mixed Models Analysis|||Week 2||0.779|0.606|<0.001
92373951|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.63|||<|0.001|TWO_SIDED|95.0|0.553|0.719|||Mixed Models Analysis|||Week 2||0.719|0.553|<0.001
92228617|NCT00862251|184360042|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.78||||0.749|TWO_SIDED|95.0|-19.88|14.32|||Longitudinal data analysis (LDA)|||||14.32|-19.88|0.749
92408856|NCT00478023|184707524|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|20.8|||<|0.0001||95.0|13.7|28.0||Adjusted. The Hochberg procedure used for multiplicity comparisons|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 24 hours (SPID24). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID24.||28.0|13.7|<0.0001
92228618|NCT00862251|184360042|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|4.69||||0.494|TWO_SIDED|95.0|-8.73|18.1|||Longitudinal data analysis (LDA)|||||18.10|-8.73|0.494
92408857|NCT00478023|184707524|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|23.3|||<|0.0001||95.0|16.3|30.4||Adjusted. The Hochberg procedure used for multiplicity comparisons.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 24 hours (SPID24). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID24.||30.4|16.3|<0.0001
92408858|NCT00478023|184707524|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|20.6|||<|0.0001||95.0|13.4|27.8||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|Null hypothesis of no treatment difference.||27.8|13.4|<0.0001
92408859|NCT00478023|184707525|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|37.1|||<|0.0001||95.0|21.6|52.6||Adjusted. The Hochberg procedure used for multiplicity comparisons.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 48 hours (SPID48). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID48.||52.6|21.6|<0.0001
92408860|NCT00478023|184707525|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|44.0|||<|0.0001||95.0|28.6|59.5||Adjusted. The Hochberg procedure used for multiplicity comparisons.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariates.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 48 hours (SPID48). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID48.||59.5|28.6|<0.0001
92408861|NCT00478023|184707525|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|51.4|||<|0.0001||95.0|36.1|66.7||Adjusted. The Hochberg procedure used for multiplicity comparisons.|ANCOVA||Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 48 hours (SPID48). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID48.||66.7|36.1|<0.0001
92408862|NCT00478023|184707525|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|46.9|||<|0.0001||95.0|31.4|62.4||No multiplicity adjustment.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as a covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|Null hypothesis of no treatment difference.||62.4|31.4|<0.0001
92408863|NCT04674761|184707533|SUPERIORITY||LS mean difference|-0.88|STANDARD_ERROR_OF_MEAN|0.277||0.0012|TWO_SIDED|95.0|-1.44|-0.33|||Mixed Models Analysis|||The analysis is based on a mixed model for repeated measures (MMRM) using a restricted maximum likelihood (REML) with baseline score as a covariate, and baseline age stratification, baseline direct bilirubin, treatment group, time (in months), and treatment-by-time interaction as fixed effects. One-sided p-value was reported.||-0.33|-1.44|0.0012
92408864|NCT04674761|184707534|SUPERIORITY||LS mean difference|-112.74|STANDARD_ERROR_OF_MEAN|32.864||0.0006|TWO_SIDED|95.0|-178.78|-46.69|||Mixed Models Analysis|||The analysis is based on a mixed model for repeated measures (MMRM) using a restricted maximum likelihood (REML) with baseline serum bile acid (sBA) concentration data as a covariate, and baseline age stratification, treatment group, visits (Weeks 4, 8, 12, 16, 20, 24), and treatment-by-visit interaction as fixed effects. The comparison of treatment difference in change from baseline to the average of Week 20 and Week 24 is estimated and tested using contrast. One-sided p-value was reported.||-46.69|-178.78|0.0006
92228619|NCT00624520|184360043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|891.0||||0.18|TWO_SIDED|||||Statistical Analysis presented for comparison groups Cognitive Behavioral Stress Management vs. Patient Education at 6 months post|ANOVA|||"Initial sample size calculation, based on previous published data of effects sizes of anger stress management on heart rate and blood pressure responses in a veteran population, indicated a study population of 138 patients should detect a reduction in Double Product response to mental stress following psychological intervention, with over 90% power, assuming 20% drop-out rate."||||0.18
92228620|NCT00624520|184360044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.02|TWO_SIDED||||||ANOVA|||||||0.02
92373952|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.931||||0.329|TWO_SIDED|95.0|0.805|1.076|||Mixed Models Analysis|||Week 4||1.076|0.805|0.329
92373953|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.911||||0.203|TWO_SIDED|95.0|0.789|1.052|||Mixed Models Analysis|||Week 4||1.052|0.789|0.203
92373954|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.923||||0.273|TWO_SIDED|95.0|0.8|1.065|||Mixed Models Analysis|||Week 4||1.065|0.800|0.273
92373955|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.846||||0.023|TWO_SIDED|95.0|0.734|0.977|||Mixed Models Analysis|||Week 4||0.977|0.734|0.023
92228621|NCT00624520|184360045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.003|TWO_SIDED||||||ANOVA|||||||0.003
92228622|NCT00624520|184360046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.011|TWO_SIDED||||||ANOVA|||||||0.011
92228623|NCT00624520|184360047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.048|TWO_SIDED||||||ANOVA|||||||0.048
92228624|NCT00624520|184360048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
92228625|NCT00624520|184360049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
92228626|NCT00624520|184360050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.02||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
92228627|NCT00624520|184360051|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Fisher Exact|||||||0.21
92228628|NCT00624520|184360052|SUPERIORITY_OR_OTHER||Effect size (Cohen's d)|0.38||||0.025|TWO_SIDED|||||P-value refers to a repeated measures within-group comparison in the CBSM group using ANCOVA with baseline DP elevation as covariate from baseline to 3 months post.|ANCOVA||Range of Cohen's d for small effect is 0.20 - 0.50|||||0.025
92228629|NCT00624520|184360053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|80.0||||0.81|TWO_SIDED|||||Statistical Analysis presented for comparison groups Cognitive Behavioral Stress Management vs. Patient Education at 6 months post|ANOVA|||"Initial sample size calculation, based on previous published data of effects sizes of anger stress management on heart rate and blood pressure responses in a veteran population, indicated a study population of 138 patients should detect a reduction in Double Product response to mental stress following psychological intervention, with over 90% power, assuming 20% drop-out rate."||||0.81
92228630|NCT01570244|184360098|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|140.96|STANDARD_DEVIATION|8.1|||TWO_SIDED|90.0|133.84|148.47|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Ethinylestradiol||148.47|133.84|
92277832|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.76|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92228631|NCT01570244|184360099|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Odds Ratio (OR)|114.82|STANDARD_DEVIATION|13.2|||TWO_SIDED|90.0|105.49|124.97|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Ethinylestradiol||124.97|105.49|
92228632|NCT01570244|184360100|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|171.37|STANDARD_DEVIATION|10.5|||TWO_SIDED|90.0|160.2|183.33|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Ethinylestradiol||183.33|160.20|
92228633|NCT01570244|184360103|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric mean ratio|140.53|STANDARD_DEVIATION|4.6|||TWO_SIDED|90.0|136.4|144.78|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Levonorgestrel||144.78|136.40|
92228634|NCT01570244|184360104|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|115.28|STANDARD_DEVIATION|6.1|||TWO_SIDED|90.0|110.81|119.92|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Levonorgestrel||119.92|110.81|
92228635|NCT01570244|184360105|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|153.85|STANDARD_DEVIATION|8.2|||TWO_SIDED|90.0|145.99|162.14|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Levonorgestrel||162.14|145.99|
92228636|NCT00531960|184360110|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.806|TWO_SIDED|95.0|0.7|1.59|||Log Rank|||||1.59|0.70|0.8060
92228637|NCT00531960|184360112|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.4063|TWO_SIDED|95.0|0.75|2.05|||Log Rank|||||2.05|0.75|0.4063
92228638|NCT00531960|184360113|SUPERIORITY_OR_OTHER||Difference in Response Rates|-17.28||||0.0444|TWO_SIDED|95.0|-34.8|0.3|||Chi-squared||The 95% CI for the difference of 2 rates was determined by using the Hauck-Anderson method.|||0.3|-34.8|0.0444
92228639|NCT00531960|184360114|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|-12.2||||0.0944|TWO_SIDED|95.0|-27.3|2.8|||Chi-squared||The 95% CI for the difference in disease control was determined using the Hauck-Anderson method.|||2.8|-27.3|0.0944
92228640|NCT04258579|184360121|OTHER|Estimation only.|Mean value at 6 weeks|19.13|||||TWO_SIDED|95.0|15.59|22.67||||||||22.67|15.59|
92228641|NCT04258579|184360121|OTHER|Estimation only.|Mean value at 9 weeks|16.87|||||TWO_SIDED|95.0|12.5|21.24||||||||21.24|12.50|
92228642|NCT04258579|184360121|OTHER|Estimation only.|Mean value at 12 weeks|15.0|||||TWO_SIDED|95.0|11.24|18.76||||||||18.76|11.24|
92228643|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 6 weeks, Domain 1|22.1|||||TWO_SIDED|95.0|19.7|24.5||||||||24.50|19.70|
92228644|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 6 weeks, Domain 2|19.9|||||TWO_SIDED|95.0|18.0|21.8||||||||21.80|18.00|
92228645|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 6 weeks, Domain 3|8.93|||||TWO_SIDED|95.0|7.68|10.18||||||||10.18|7.68|
92228646|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 6 weeks, Domain 4|26.63|||||TWO_SIDED|95.0|24.32|28.94||||||||28.94|24.32|
92373956|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.742|||<|0.001|TWO_SIDED|95.0|0.646|0.852|||Mixed Models Analysis|||Week 4||0.852|0.646|<0.001
92373957|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.703|||<|0.001|TWO_SIDED|95.0|0.609|0.81|||Mixed Models Analysis|||Week 4||0.810|0.609|<0.001
92373958|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.917||||0.283|TWO_SIDED|95.0|0.783|1.074|||Mixed Models Analysis|||Week 8||1.074|0.783|0.283
92373959|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.933||||0.386|TWO_SIDED|95.0|0.797|1.092|||Mixed Models Analysis|||Week 8||1.092|0.797|0.386
92373960|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.886||||0.126|TWO_SIDED|95.0|0.758|1.035|||Mixed Models Analysis|||Week 8||1.035|0.758|0.126
92373961|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.855||||0.05|TWO_SIDED|95.0|0.731|1.0|||Mixed Models Analysis|||Week 8||1.000|0.731|0.050
92373962|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.723|||<|0.001|TWO_SIDED|95.0|0.623|0.84|||Mixed Models Analysis|||Week 8||0.840|0.623|<0.001
92373963|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.642|||<|0.001|TWO_SIDED|95.0|0.55|0.749|||Mixed Models Analysis|||Week 8||0.749|0.550|<0.001
92373964|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.927||||0.359|TWO_SIDED|95.0|0.789|1.09|||Mixed Models Analysis|||Week 12||1.090|0.789|0.359
92373965|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.953||||0.556|TWO_SIDED|95.0|0.813|1.118|||Mixed Models Analysis|||Week 12||1.118|0.813|0.556
92373966|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.869||||0.084|TWO_SIDED|95.0|0.742|1.019|||Mixed Models Analysis|||Week 12||1.019|0.742|0.084
92373967|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.813||||0.011|TWO_SIDED|95.0|0.693|0.953|||Mixed Models Analysis|||Week 12||0.953|0.693|0.011
92373968|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.65|||<|0.001|TWO_SIDED|95.0|0.559|0.757|||Mixed Models Analysis|||Week 12||0.757|0.559|<0.001
92373969|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.623|||<|0.001|TWO_SIDED|95.0|0.533|0.729|||Mixed Models Analysis|||Week 12||0.729|0.533|<0.001
92373970|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.928||||0.231|TWO_SIDED|95.0|0.821|1.049|||Mixed Models Analysis|||Treatment period average||1.049|0.821|0.231
92373971|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.918||||0.17|TWO_SIDED|95.0|0.812|1.037|||Mixed Models Analysis|||Treatment period average||1.037|0.812|0.170
92373972|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.879||||0.039|TWO_SIDED|95.0|0.778|0.994|||Mixed Models Analysis|||Treatment period average||0.994|0.778|0.039
92373973|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.835||||0.004|TWO_SIDED|95.0|0.739|0.943|||Mixed Models Analysis|||Treatment period average||0.943|0.739|0.004
92373974|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.7|||<|0.001|TWO_SIDED|95.0|0.622|0.787|||Mixed Models Analysis|||Treatment period average||0.787|0.622|<0.001
92373975|NCT03622112|184650285|SUPERIORITY||Mean Difference (Final Values)|0.649|||<|0.001|TWO_SIDED|95.0|0.575|0.732|||Mixed Models Analysis|||Treatment period average||0.732|0.575|<0.001
92373976|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|-0.034||||0.519|TWO_SIDED|95.0|-0.139|0.07|||Mixed Models Analysis|||Week 12||0.070|-0.139|0.519
92373977|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|-0.078||||0.141|TWO_SIDED|95.0|-0.181|0.026|||Mixed Models Analysis|||Week 12||0.026|-0.181|0.141
92373978|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.772|TWO_SIDED|95.0|-0.088|0.119|||Mixed Models Analysis|||Week 12||0.119|-0.088|0.772
92373979|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.27|TWO_SIDED|95.0|-0.045|0.162|||Mixed Models Analysis|||Week 12||0.162|-0.045|0.270
92373980|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|0.027||||0.592|TWO_SIDED|95.0|-0.072|0.126|||Mixed Models Analysis|||Week 12||0.126|-0.072|0.592
92373981|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|0.057||||0.275|TWO_SIDED|95.0|-0.045|0.158|||Mixed Models Analysis|||Week 12||0.158|-0.045|0.275
92373982|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|-0.002||||0.963|TWO_SIDED|95.0|-0.087|0.083|||Mixed Models Analysis|||Treatment period average||0.083|-0.087|0.963
92228647|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 9 weeks, Domain 1|22.53|||||TWO_SIDED|95.0|19.87|25.23||||||||25.23|19.87|
92228648|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 9 weeks, Domain 2|21.0|||||TWO_SIDED|95.0|18.87|23.13||||||||23.13|18.87|
92228649|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 9 weeks, Domain 3|8.69|||||TWO_SIDED|95.0|7.39|9.99||||||||9.99|7.39|
92228650|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 9 weeks, Domain 4|27.38|||||TWO_SIDED|95.0|25.07|29.69||||||||29.69|25.07|
92228651|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 12 weeks, Domain 1|22.62|||||TWO_SIDED|95.0|20.18|25.06||||||||25.06|20.18|
92373983|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|-0.027||||0.533|TWO_SIDED|95.0|-0.112|0.058|||Mixed Models Analysis|||Treatment period average||0.058|-0.112|0.533
92373984|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|0.041||||0.342|TWO_SIDED|95.0|-0.044|0.126|||Mixed Models Analysis|||Treatment period average||0.126|-0.044|0.342
92373985|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|0.081||||0.061|TWO_SIDED|95.0|-0.004|0.165|||Mixed Models Analysis|||Treatment period average||0.165|-0.004|0.061
92373986|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.278|TWO_SIDED|95.0|-0.037|0.127|||Mixed Models Analysis|||Treatment period average||0.127|-0.037|0.278
92373987|NCT03622112|184650286|SUPERIORITY||Mean Difference (Final Values)|0.075||||0.079|TWO_SIDED|95.0|-0.009|0.159|||Mixed Models Analysis|||Treatment period average||0.159|-0.009|0.079
92373988|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.153||||0.088|TWO_SIDED|95.0|-0.328|0.023|||Mixed Models Analysis|||Week 12||0.023|-0.328|0.088
92373989|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.257||||0.004|TWO_SIDED|95.0|-0.43|-0.084|||Mixed Models Analysis|||Week 12||-0.084|-0.430|0.004
92373990|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.221||||0.012|TWO_SIDED|95.0|-0.393|-0.049|||Mixed Models Analysis|||Week 12||-0.049|-0.393|0.012
92373991|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.193||||0.029|TWO_SIDED|95.0|-0.366|-0.02|||Mixed Models Analysis|||Week 12||-0.020|-0.366|0.029
92373992|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.269||||0.001|TWO_SIDED|95.0|-0.434|-0.104|||Mixed Models Analysis|||Week 12||-0.104|-0.434|0.001
92373993|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.223||||0.01|TWO_SIDED|95.0|-0.393|-0.054|||Mixed Models Analysis|||Week 12||-0.054|-0.393|0.010
92373994|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.125||||0.055|TWO_SIDED|95.0|-0.253|0.003|||Mixed Models Analysis|||Treatment period average||0.003|-0.253|0.055
92373995|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.141||||0.029|TWO_SIDED|95.0|-0.268|-0.014|||Mixed Models Analysis|||Treatment period average||-0.014|-0.268|0.029
92373996|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.044|TWO_SIDED|95.0|-0.257|-0.003|||Mixed Models Analysis|||Treatment period average||-0.003|-0.257|0.044
92168991|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7613|TWO_SIDED|95.0|0.86|1.23|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=30% reduction||1.23|0.86|0.7613
92228652|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 12 weeks, Domain 2|21.58|||||TWO_SIDED|95.0|19.84|23.32||||||||23.32|19.84|
92228653|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 12 weeks, Domain 3|9.19|||||TWO_SIDED|95.0|7.92|10.46||||||||10.46|7.92|
92373997|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.201||||0.002|TWO_SIDED|95.0|-0.328|-0.074|||Mixed Models Analysis|||Treatment period average||-0.074|-0.328|0.002
92373998|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.217|||<|0.001|TWO_SIDED|95.0|-0.339|-0.094|||Mixed Models Analysis|||Treatment period average||-0.094|-0.339|<0.001
92168992|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.19||||0.0548|TWO_SIDED|95.0|1.0|1.43|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=30% reduction||1.43|1.00|0.0548
92168993|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0196|TWO_SIDED|95.0|1.04|1.51|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=50% reduction||1.51|1.04|0.0196
92168994|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.45|||<|0.0001|TWO_SIDED|95.0|1.2|1.75|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=50% reduction||1.75|1.20|<0.0001
92168995|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.39||||0.0077||95.0|1.09|1.77|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=70% reduction||1.77|1.09|0.0077
92168996|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.65|||<|0.0001|TWO_SIDED|95.0|1.3|2.09|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=70% reduction||2.09|1.30|<0.0001
92168997|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.31||||0.1942|TWO_SIDED|95.0|0.87|1.96|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=90% reduction||1.96|0.87|0.1942
92168998|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0122|TWO_SIDED|95.0|1.11|2.43|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=90% reduction||2.43|1.11|0.0122
92168999|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.18||||0.0977|TWO_SIDED|95.0|0.97|1.43|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=30% reduction||1.43|0.97|0.0977
92169000|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.19||||0.0806|TWO_SIDED|95.0|0.98|1.44|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=30% reduction||1.44|0.98|0.0806
92169001|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.12||||0.2097|TWO_SIDED|95.0|0.94|1.34|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=50% reduction||1.34|0.94|0.2097
92169002|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0135|TWO_SIDED|95.0|1.05|1.49|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=50% reduction||1.49|1.05|0.0135
92169003|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.1||||0.3571|TWO_SIDED|95.0|0.9|1.33|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=70% reduction||1.33|0.90|0.3571
92228654|NCT04258579|184360122|OTHER|Estimation only.|Mean value at 12 weeks, Domain 4|27.81|||||TWO_SIDED|95.0|25.53|30.09||||||||30.09|25.53|
92228655|NCT04258579|184360123|OTHER|Estimation only.|Mean value at baseline|22.45|||||TWO_SIDED|95.0|19.56|25.34||||||||25.34|19.56|
92373999|NCT03622112|184650287|SUPERIORITY||Mean Difference (Final Values)|-0.179||||0.005|TWO_SIDED|95.0|-0.305|-0.053|||Mixed Models Analysis|||Treatment period average||-0.053|-0.305|0.005
92374000|NCT03622112|184650288|SUPERIORITY||Mean Difference (Final Values)|7.664||||0.097|TWO_SIDED|95.0|-1.403|16.73|||Mixed Models Analysis|||Treatment period average||16.730|-1.403|0.097
92374001|NCT03622112|184650288|SUPERIORITY||Mean Difference (Final Values)|5.981||||0.19|TWO_SIDED|95.0|-2.98|14.941|||Mixed Models Analysis|||Treatment period average||14.941|-2.980|0.190
92228656|NCT04258579|184360123|OTHER|Estimation only.|Mean value at 6 weeks|20.53|||||TWO_SIDED|95.0|17.65|23.41||||||||23.41|17.65|
92228657|NCT04258579|184360124|OTHER|Estimation only.|Mean value at baseline, Domain 1|19.89|||||TWO_SIDED|95.0|17.24|22.54||||||||22.54|17.24|
92374002|NCT03622112|184650288|SUPERIORITY||Mean Difference (Final Values)|9.123||||0.045|TWO_SIDED|95.0|0.195|18.052|||Mixed Models Analysis|||Treatment period average||18.052|0.195|0.045
92374003|NCT03622112|184650288|SUPERIORITY||Mean Difference (Final Values)|15.444|||<|0.001|TWO_SIDED|95.0|6.443|24.445|||Mixed Models Analysis|||Treatment period average||24.445|6.443|<0.001
92228658|NCT04258579|184360124|OTHER|Estimation only.|Mean value at baseline, Domain 2|22.46|||||TWO_SIDED|95.0|19.72|25.2||||||||25.20|19.72|
92374004|NCT03622112|184650288|SUPERIORITY||Mean Difference (Final Values)|16.599|||<|0.001|TWO_SIDED|95.0|8.031|25.167|||Mixed Models Analysis|||Treatment period average||25.167|8.031|<0.001
92374005|NCT03622112|184650288|SUPERIORITY||Mean Difference (Final Values)|10.491||||0.019|TWO_SIDED|95.0|1.726|19.256|||Mixed Models Analysis|||Treatment period average||19.256|1.726|0.019
92374006|NCT03622112|184650289|SUPERIORITY||Mean Difference (Final Values)|2.398||||0.597|TWO_SIDED|95.0|-6.494|11.29|||Mixed Models Analysis|||Treatment period average||11.290|-6.494|0.597
92374007|NCT03622112|184650289|SUPERIORITY||Mean Difference (Final Values)|2.162||||0.629|TWO_SIDED|95.0|-6.623|10.948|||Mixed Models Analysis|||Treatment period average||10.948|-6.623|0.629
92374008|NCT03622112|184650289|SUPERIORITY||Mean Difference (Final Values)|3.833||||0.389|TWO_SIDED|95.0|-4.907|12.573|||Mixed Models Analysis|||Treatment period average||12.573|-4.907|0.389
92374009|NCT03622112|184650289|SUPERIORITY||Mean Difference (Final Values)|10.258||||0.022|TWO_SIDED|95.0|1.456|19.059|||Mixed Models Analysis|||Treatment period average||19.059|1.456|0.022
92374010|NCT03622112|184650289|SUPERIORITY||Mean Difference (Final Values)|11.994||||0.005|TWO_SIDED|95.0|3.571|20.417|||Mixed Models Analysis|||Treatment period average||20.417|3.571|0.005
92374011|NCT03622112|184650289|SUPERIORITY||Mean Difference (Final Values)|6.129||||0.163|TWO_SIDED|95.0|-2.479|14.737|||Mixed Models Analysis|||Treatment period average||14.737|-2.479|0.163
92374012|NCT03622112|184650290|SUPERIORITY||Mean Difference (Final Values)|-0.243||||0.012|TWO_SIDED|95.0|-0.431|-0.054|||Mixed Models Analysis|||Treatment period average||-0.054|-0.431|0.012
92374013|NCT03622112|184650290|SUPERIORITY||Mean Difference (Final Values)|-0.155||||0.108|TWO_SIDED|95.0|-0.344|0.034|||Mixed Models Analysis|||Treatment period average||0.034|-0.344|0.108
92374014|NCT03622112|184650290|SUPERIORITY||Mean Difference (Final Values)|-0.099||||0.295|TWO_SIDED|95.0|-0.286|0.087|||Mixed Models Analysis|||Treatment period average||0.087|-0.286|0.295
92374015|NCT03622112|184650290|SUPERIORITY||Mean Difference (Final Values)|-0.308||||0.002|TWO_SIDED|95.0|-0.5|-0.116|||Mixed Models Analysis|||Treatment period average||-0.116|-0.500|0.002
92374016|NCT03622112|184650290|SUPERIORITY||Mean Difference (Final Values)|-0.308|||<|0.001|TWO_SIDED|95.0|-0.489|-0.126|||Mixed Models Analysis|||Treatment period average||-0.126|-0.489|<0.001
92374017|NCT03622112|184650290|SUPERIORITY||Mean Difference (Final Values)|-0.177||||0.062|TWO_SIDED|95.0|-0.362|0.009|||Mixed Models Analysis|||Treatment period average||0.009|-0.362|0.062
92374018|NCT03622112|184650291|SUPERIORITY||Mean Difference (Final Values)|-9.993|||<|0.001|TWO_SIDED|95.0|-15.795|-4.191|||Mixed Models Analysis|||Treatment period average||-4.191|-15.795|<0.001
92374019|NCT03622112|184650291|SUPERIORITY||Mean Difference (Final Values)|-7.972||||0.006|TWO_SIDED|95.0|-13.694|-2.251|||Mixed Models Analysis|||Treatment period average||-2.251|-13.694|0.006
92374020|NCT03622112|184650291|SUPERIORITY||Mean Difference (Final Values)|-4.361||||0.133|TWO_SIDED|95.0|-10.051|1.329|||Mixed Models Analysis|||Treatment period average||1.329|-10.051|0.133
92374021|NCT03622112|184650291|SUPERIORITY||Mean Difference (Final Values)|-7.797||||0.008|TWO_SIDED|95.0|-13.555|-2.04|||Mixed Models Analysis|||Treatment period average||-2.040|-13.555|0.008
92374022|NCT03622112|184650291|SUPERIORITY||Mean Difference (Final Values)|-8.729||||0.002|TWO_SIDED|95.0|-14.195|-3.264|||Mixed Models Analysis|||Treatment period average||-3.264|-14.195|0.002
92374023|NCT03622112|184650291|SUPERIORITY||Mean Difference (Final Values)|-11.622|||<|0.001|TWO_SIDED|95.0|-17.211|-6.034|||Mixed Models Analysis|||Treatment period average||-6.034|-17.211|<0.001
92374024|NCT03622112|184650292|SUPERIORITY||Mean Difference (Final Values)|-0.212|||<|0.001|TWO_SIDED|95.0|-0.329|-0.094|||Mixed Models Analysis|||Treatment period average||-0.094|-0.329|<0.001
92374025|NCT03622112|184650292|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.066|TWO_SIDED|95.0|-0.228|0.007|||Mixed Models Analysis|||Treatment period average||0.007|-0.228|0.066
92374026|NCT03622112|184650292|SUPERIORITY||Mean Difference (Final Values)|-0.139||||0.02|TWO_SIDED|95.0|-0.255|-0.022|||Mixed Models Analysis|||Treatment period average||-0.022|-0.255|0.020
92374027|NCT03622112|184650292|SUPERIORITY||Mean Difference (Final Values)|-0.23|||<|0.001|TWO_SIDED|95.0|-0.35|-0.11|||Mixed Models Analysis|||Treatment period average||-0.110|-0.350|<0.001
92374028|NCT03622112|184650292|SUPERIORITY||Mean Difference (Final Values)|-0.185||||0.001|TWO_SIDED|95.0|-0.298|-0.071|||Mixed Models Analysis|||Treatment period average||-0.071|-0.298|0.001
92228659|NCT04258579|184360124|OTHER|Estimation only.|Mean value at baseline, Domain 3|16.0|||||TWO_SIDED|95.0|13.72|18.28||||||||18.28|13.72|
92228660|NCT04258579|184360124|OTHER|Estimation only.|Mean value at baseline, Domain 4|17.79|||||TWO_SIDED|95.0|15.34|20.24||||||||20.24|15.34|
92374029|NCT03622112|184650292|SUPERIORITY||Mean Difference (Final Values)|-0.206|||<|0.001|TWO_SIDED|95.0|-0.321|-0.09|||Mixed Models Analysis|||Treatment period average||-0.090|-0.321|<0.001
92374030|NCT03622112|184650293|SUPERIORITY||Mean Difference (Final Values)|9.611||||0.026|TWO_SIDED|95.0|1.18|18.042|||Mixed Models Analysis|||Treatment period average||18.042|1.180|0.026
92374031|NCT03622112|184650293|SUPERIORITY||Mean Difference (Final Values)|5.503||||0.2|TWO_SIDED|95.0|-2.927|13.933|||Mixed Models Analysis|||Treatment period average||13.933|-2.927|0.200
92374032|NCT03622112|184650293|SUPERIORITY||Mean Difference (Final Values)|6.787||||0.11|TWO_SIDED|95.0|-1.546|15.119|||Mixed Models Analysis|||Treatment period average||15.119|-1.546|0.110
92374033|NCT03622112|184650293|SUPERIORITY||Mean Difference (Final Values)|10.066||||0.022|TWO_SIDED|95.0|1.461|18.672|||Mixed Models Analysis|||Treatment period average||18.672|1.461|0.022
92374034|NCT03622112|184650293|SUPERIORITY||Mean Difference (Final Values)|8.62||||0.038|TWO_SIDED|95.0|0.489|16.75|||Mixed Models Analysis|||Treatment period average||16.750|0.489|0.038
92374035|NCT03622112|184650293|SUPERIORITY||Mean Difference (Final Values)|7.178||||0.09|TWO_SIDED|95.0|-1.112|15.467|||Mixed Models Analysis|||Treatment period average||15.467|-1.112|0.090
92374036|NCT03622112|184650294|SUPERIORITY||Mean Difference (Final Values)|7.936||||0.123|TWO_SIDED|95.0|-2.16|18.031|||Mixed Models Analysis|||Treatment period average||18.031|-2.160|0.123
92374037|NCT03622112|184650294|SUPERIORITY||Mean Difference (Final Values)|0.977||||0.849|TWO_SIDED|95.0|-9.112|11.065|||Mixed Models Analysis|||Treatment period average||11.065|-9.112|0.849
92228661|NCT04258579|184360124|OTHER|Estimation only.|Mean value at 6 weeks, Domain 1|22.79|||||TWO_SIDED|95.0|19.05|26.53||||||||26.53|19.05|
92228662|NCT04258579|184360124|OTHER|Estimation only.|Mean value at 6 weeks, Domain 2|26.7|||||TWO_SIDED|95.0|22.96|30.44||||||||30.44|22.96|
92228663|NCT04258579|184360124|OTHER|Estimation only.|Mean value at 6 weeks, Domain 3|17.45|||||TWO_SIDED|95.0|14.57|20.33||||||||20.33|14.57|
92228664|NCT04258579|184360124|OTHER|Estimation only.|Mean value at 6 weeks, Domain 4|20.69|||||TWO_SIDED|95.0|18.23|23.15||||||||23.15|18.23|
92228665|NCT00331006|184360141|SUPERIORITY_OR_OTHER||Proportion|0.1875||||0.043|ONE_SIDED|95.0|0.053|||the a priori p-value was 0.05 for statistical significance|Exact Binomial|||The null hypothesis is that the proportion of participants in which the inhibitor level falls to less than 5 BU/mL between weeks 6 to 22 and remains below 5 BU/mL at 5-7 days following re-challenge with factor VIII is no more than 0.05|||.053|0.043
92228666|NCT00331006|184360142|SUPERIORITY_OR_OTHER||Proportion|0.25|||||TWO_SIDED|95.0|0.073|0.524|||Exact Binomial|||No hypothesis about the value of this proportion was specified in the study design||0.524|0.073|
92228667|NCT03183128|184360161|SUPERIORITY||Risk Ratio (RR)|0.32|||<|0.001|TWO_SIDED|95.0|0.18|0.58||P-value presented for both hypothesis tests: H0: RR≥1 and H0: RR≥0.833.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by age (\<65 years, ≥65 years) and prior antibiotic regimen (vancomycin, fidaxomicin).|RR defined as the recurrence rates of SER-109 divided by Placebo. Cochran-Mantel-Haenszel estimate of RR, stratified by age group (\<65 years, ≥65 years) and prior antibiotic regimen for the qualifying episode (vancomycin, fidaxomicin), is reported.|||0.58|0.18|<0.001
92228668|NCT03183128|184360162|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.001|TWO_SIDED|95.0|0.19|0.67||P-value presented is for the hypothesis test: H0: RR ≥1.0.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel estimate is stratified by age (\<65 years, ≥65 years) and prior antibiotic regimen (vancomycin, fidaxomicin).|RR defined as the recurrence rates of SER-109 divided by Placebo. Cochran-Mantel-Haenszel estimate of RR, stratified by age group (\<65 years, ≥65 years) and prior antibiotic regimen for the qualifying episode (vancomycin, fidaxomicin), is reported.|CDI recurrence rates at Week 4||0.67|0.19|<0.001
92228669|NCT03183128|184360162|SUPERIORITY||Hazard Ratio (HR)|0.4|||<|0.001|TWO_SIDED|95.0|0.24|0.65||P-value presented is for the hypothesis test: H0: RR ≥1.0.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel estimate is stratified by age (\<65 years, ≥65 years) and prior antibiotic regimen (vancomycin, fidaxomicin).|RR defined as the recurrence rates of SER-109 divided by Placebo. Cochran-Mantel-Haenszel estimate of RR, stratified by age group (\<65 years, ≥65 years) and prior antibiotic regimen for the qualifying episode (vancomycin, fidaxomicin), is reported.|CDI recurrence rates at Week 12||0.65|0.24|<0.001
92374038|NCT03622112|184650294|SUPERIORITY||Mean Difference (Final Values)|-1.242||||0.807|TWO_SIDED|95.0|-11.233|8.748|||Mixed Models Analysis|||Treatment period average||8.748|-11.233|0.807
92374039|NCT03622112|184650294|SUPERIORITY||Mean Difference (Final Values)|11.789||||0.025|TWO_SIDED|95.0|1.488|22.09|||Mixed Models Analysis|||Treatment period average||22.090|1.488|0.025
92228670|NCT03183128|184360162|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.3|0.73||P-value presented is for the hypothesis test: H0: RR ≥1.0.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel estimate is stratified by age (\<65 years, ≥65 years) and prior antibiotic regimen (vancomycin, fidaxomicin).|RR defined as the recurrence rates of SER-109 divided by Placebo. Cochran-Mantel-Haenszel estimate of RR, stratified by age group (\<65 years, ≥65 years) and prior antibiotic regimen for the qualifying episode (vancomycin, fidaxomicin), is reported.|CDI recurrence rates at Week 24||0.73|0.30|<0.001
92228671|NCT01225562|184360220|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.008|TWO_SIDED|95.0|0.75|0.96|||Regression, Cox||The hazard ratio shows ticagrelor 90 mg hazard / placebo hazard|||0.96|0.75|0.0080
92228672|NCT01225562|184360220|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0043|TWO_SIDED|95.0|0.74|0.95|||Regression, Cox||The hazard ratio shows ticagrelor 60 mg hazard / placebo hazard|||0.95|0.74|0.0043
92228673|NCT01225562|184360221|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1547|TWO_SIDED|95.0|0.71|1.06|||Regression, Cox||The hazard ratio shows ticagrelor 90 mg hazard / placebo hazard|||1.06|0.71|0.1547
92228674|NCT01225562|184360221|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0676|TWO_SIDED|95.0|0.68|1.01|||Regression, Cox||The hazard ratio shows ticagrelor 60 mg hazard / placebo hazard|||1.01|0.68|0.0676
92228675|NCT01225562|184360222|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9851|TWO_SIDED|95.0|0.86|1.16|||Regression, Cox||The hazard ratio shows ticagrelor 90 mg hazard / placebo hazard|||1.16|0.86|0.9851
92228676|NCT01225562|184360222|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.135|TWO_SIDED|95.0|0.76|1.04|||Regression, Cox||The hazard ratio shows ticagrelor 60 mg hazard / placebo hazard|||1.04|0.76|0.1350
92228677|NCT01225562|184360223|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.69|||<|0.0001|TWO_SIDED|95.0|1.96|3.7|||Regression, Cox||The hazard ratio shows ticagrelor 90 mg hazard / placebo hazard|||3.70|1.96|<0.0001
92228678|NCT01225562|184360223|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.32|||<|0.0001|TWO_SIDED|95.0|1.68|3.21|||Regression, Cox||The hazard ratio shows ticagrelor 60 mg hazard / placebo hazard|||3.21|1.68|<0.0001
92228679|NCT00348140|184360224|SUPERIORITY||Mean Difference (Net)|0.3||||0.739|TWO_SIDED|95.0|-1.2|1.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||1.8|-1.2|0.739
92374040|NCT03622112|184650294|SUPERIORITY||Mean Difference (Final Values)|7.574||||0.127|TWO_SIDED|95.0|-2.16|17.307|||Mixed Models Analysis|||Treatment period average||17.307|-2.160|0.127
92374041|NCT03622112|184650294|SUPERIORITY||Mean Difference (Final Values)|5.058||||0.318|TWO_SIDED|95.0|-4.874|14.99|||Mixed Models Analysis|||Treatment period average||14.990|-4.874|0.318
92374042|NCT03622112|184650295|SUPERIORITY||Mean Difference (Final Values)|10.45||||0.015|TWO_SIDED|95.0|2.046|18.855|||Mixed Models Analysis|||Treatment period average||18.855|2.046|0.015
92374043|NCT03622112|184650295|SUPERIORITY||Mean Difference (Final Values)|7.192||||0.093|TWO_SIDED|95.0|-1.208|15.592|||Mixed Models Analysis|||Treatment period average||15.592|-1.208|0.093
92374044|NCT03622112|184650295|SUPERIORITY||Mean Difference (Final Values)|8.606||||0.042|TWO_SIDED|95.0|0.298|16.913|||Mixed Models Analysis|||Treatment period average||16.913|0.298|0.042
92374045|NCT03622112|184650295|SUPERIORITY||Mean Difference (Final Values)|11.344||||0.01|TWO_SIDED|95.0|2.773|19.914|||Mixed Models Analysis|||Treatment period average||19.914|2.773|0.010
92374046|NCT03622112|184650295|SUPERIORITY||Mean Difference (Final Values)|10.122||||0.014|TWO_SIDED|95.0|2.021|18.222|||Mixed Models Analysis|||Treatment period average||18.222|2.021|0.014
92374047|NCT03622112|184650295|SUPERIORITY||Mean Difference (Final Values)|10.689||||0.011|TWO_SIDED|95.0|2.424|18.953|||Mixed Models Analysis|||Treatment period average||18.953|2.424|0.011
92408865|NCT02469870|184707535|SUPERIORITY|||||||0.598|||||||ANCOVA|||To address hypotheses predicting differential change in outcome measures between condition over time we used analysis of covariance (ANCOVA) models that allow for examination of cross-sectional effects and mean adjusted outcomes. The ANCOVA models (adjusted for baseline scores) were used for analyses of change in the outcome measures at posttest.||||.598
92408866|NCT02469870|184707536|SUPERIORITY|||||||0.81|||||||ANCOVA|||. To address hypotheses predicting differential change in outcome measures between condition over time we used analysis of covariance (ANCOVA) models that allow for examination of cross-sectional effects and mean adjusted outcomes. The ANCOVA models (adjusted for baseline scores) were used for analyses of change in the outcome measures at posttest.||||.81
92408867|NCT02469870|184707537|SUPERIORITY|||||||0.404|||||||ANCOVA|||. To address hypotheses predicting differential change in outcome measures between condition over time we used analysis of covariance (ANCOVA) models that allow for examination of cross-sectional effects and mean adjusted outcomes. The ANCOVA models (adjusted for baseline scores) were used for analyses of change in the outcome measures at posttest.||||.404
92408868|NCT02469870|184707538|SUPERIORITY|||||||0.246|||||||ANCOVA|||. To address hypotheses predicting differential change in outcome measures between condition over time we used analysis of covariance (ANCOVA) models that allow for examination of cross-sectional effects and mean adjusted outcomes. The ANCOVA models (adjusted for baseline scores) were used for analyses of change in the outcome measures at posttest.||||.246
92408869|NCT02469870|184707539|SUPERIORITY|||||||0.007|||||||ANCOVA|||. To address hypotheses predicting differential change in outcome measures between condition over time we used analysis of covariance (ANCOVA) models that allow for examination of cross-sectional effects and mean adjusted outcomes. The ANCOVA models (adjusted for baseline scores) were used for analyses of change in the outcome measures at posttest.||||.007
92408870|NCT02469870|184707540|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||Two-sample t-test||||.045
92408871|NCT05340478|184707551|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92408872|NCT01032889|184707558|SUPERIORITY_OR_OTHER||Difference from placebo|-0.3||||0.052|TWO_SIDED|95.0|-0.61|0.0|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||0.00|-0.61|0.052
92408873|NCT01032889|184707558|SUPERIORITY_OR_OTHER||Difference from placebo|-0.5||||0.003|TWO_SIDED|95.0|-0.77|-0.16|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||-0.16|-0.77|0.003
92408874|NCT01032889|184707559|SUPERIORITY_OR_OTHER||Difference from placebo|-0.2||||0.117|TWO_SIDED|95.0|-0.55|0.06|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||0.06|-0.55|0.117
92408875|NCT01032889|184707559|SUPERIORITY_OR_OTHER||Difference from placebo|-0.6|||<|0.001|TWO_SIDED|95.0|-0.91|-0.3|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||-0.30|-0.91|<0.001
92408876|NCT01032889|184707560|SUPERIORITY_OR_OTHER||Difference from placebo|-1.4||||0.005|TWO_SIDED|95.0|-2.44|-0.46|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||-0.46|-2.44|0.005
92374048|NCT03622112|184650306|SUPERIORITY||geometric LSMean ratio|1.01||||0.909|TWO_SIDED|95.0|0.851|1.199|||Mixed Models Analysis|||||1.199|0.851|0.909
92374049|NCT03622112|184650306|SUPERIORITY||geometric LSMean ratio|1.118||||0.218|TWO_SIDED|95.0|0.935|1.336|||Mixed Models Analysis|||||1.336|0.935|0.218
92374050|NCT03622112|184650306|SUPERIORITY||geometric LSMean ratio|1.129||||0.181|TWO_SIDED|95.0|0.944|1.349|||Mixed Models Analysis|||||1.349|0.944|0.181
92408877|NCT01032889|184707560|SUPERIORITY_OR_OTHER||Difference from placebo|-2.5|||<|0.001|TWO_SIDED|95.0|-3.48|-1.48|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||-1.48|-3.48|<0.001
92408878|NCT01032889|184707561|SUPERIORITY_OR_OTHER||Difference from placebo|-606.0||||0.166|TWO_SIDED|95.0|-1482.0|269.3|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||||269.3|-1482|0.166
92408879|NCT01032889|184707561|SUPERIORITY_OR_OTHER||Difference from placebo|-110.0||||0.803|TWO_SIDED|95.0|-1013.0|792.6|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||||792.6|-1013|0.803
92408880|NCT01032889|184707562|SUPERIORITY_OR_OTHER||Difference from placebo|-1.5|||<|0.001|TWO_SIDED|95.0|-2.32|-0.69|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||||-0.69|-2.32|<0.001
92408881|NCT01032889|184707562|SUPERIORITY_OR_OTHER||Difference from placebo|-1.7|||<|0.001|TWO_SIDED|95.0|-2.46|-0.85|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||||-0.85|-2.46|<0.001
92374051|NCT03622112|184650306|SUPERIORITY||geometric LSMean ratio|0.984||||0.859|TWO_SIDED|95.0|0.825|1.174|||Mixed Models Analysis|||||1.174|0.825|0.859
92374052|NCT03622112|184650306|SUPERIORITY||geometric LSMean ratio|0.916||||0.285|TWO_SIDED|95.0|0.78|1.077|||Mixed Models Analysis|||||1.077|0.780|0.285
92374053|NCT03622112|184650306|SUPERIORITY||geometric LSMean ratio|0.991||||0.923|TWO_SIDED|95.0|0.831|1.182|||Mixed Models Analysis|||||1.182|0.831|0.923
92374054|NCT01155466|184650370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.87|TWO_SIDED|95.0|-0.62|0.53|||Mixed Models Analysis||"The estimated parameter is the difference in the estimated mean change from baseline in mean off time for preladenant 10 mg - placebo."|||0.53|-0.62|0.8700
92374055|NCT01155466|184650372|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.6||||0.899|TWO_SIDED|95.0|-7.3|1.6|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with diastolic blood pressure \>=105 mm Hg for preladenant 2 mg - placebo|||1.6|-7.3|0.899
92169004|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0025|TWO_SIDED|95.0|1.11|1.63|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=70% reduction||1.63|1.11|0.0025
92374056|NCT01155466|184650372|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.9||||0.815|TWO_SIDED|95.0|-6.8|2.6|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with diastolic blood pressure \>=105 mm Hg for preladenant 5 mg - placebo|||2.6|-6.8|0.815
92374057|NCT01155466|184650372|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.4||||0.295|TWO_SIDED|95.0|-3.9|6.9|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with diastolic blood pressure \>=105 mm Hg for preladenant 10 mg - placebo|||6.9|-3.9|0.295
92374058|NCT01155466|184650375|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.6||||0.629|TWO_SIDED|95.0|-5.1|3.7|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with suicidality for preladenant 2 mg - placebo|||3.7|-5.1|0.629
92374059|NCT01155466|184650375|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.6||||0.625|TWO_SIDED|95.0|-5.1|3.7|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with suicidality for preladenant 5 mg - placebo|||3.7|-5.1|0.625
92374060|NCT01155466|184650375|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.6||||0.948|TWO_SIDED|95.0|-6.8|0.7|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with suicidality for preladenant 10 mg - placebo|||0.7|-6.8|0.948
92374061|NCT01155466|184650376|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1||||0.7044|TWO_SIDED|95.0|-0.61|0.9|||Constrained longitudinal data analysis||The estimated parameter is the difference in the change from baseline in mean ESS score for preladenant 2 mg - placebo|||0.90|-0.61|0.7044
92374062|NCT01155466|184650376|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.4||||0.3439|TWO_SIDED|95.0|-0.4|1.14|||Constrained longitudinal data analysis||The estimated parameter is the difference in the change from baseline in mean ESS score for preladenant 5 mg - placebo|||1.14|-0.4|0.3439
92374063|NCT01155466|184650376|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.3||||0.3941|TWO_SIDED|95.0|-0.43|1.08|||Constrained longitudinal data analysis||The estimated parameter is the difference in the change from baseline in mean ESS score for preladenant 10 mg - placebo|||1.08|-0.43|0.3941
92374064|NCT01155466|184650377|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.994||||0.983|TWO_SIDED|95.0|0.597|1.657|||Mixed Models Analysis|Odds ratio was calculated for all randomized and treated participants with at least 1 post treatment value.|"Confidence intervals and P-values were based on a generalized linear mixed model with baseline average off time as a covariate and treatment-by-time interaction as fixed effect and participant as random effect."|||1.657|0.597|0.983
92374065|NCT01155466|184650378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.6405|TWO_SIDED|95.0|-0.49|0.8|||Mixed Models Analysis||"The estimated parameter is the difference in the estimated change from baseline in on time without troublesome dyskinesias for preladenant 10 mg - placebo."|||0.80|-0.49|0.6405
92374066|NCT02075047|184650379|SUPERIORITY||Difference in least square (LS) mean|-4.23|STANDARD_ERROR_OF_MEAN|1.47||0.005|TWO_SIDED|95.0|-7.14|-1.32|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-1.32|-7.14|0.005
92374067|NCT02075047|184650380|SUPERIORITY||Difference in LS mean|-0.45|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.69|-0.2|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-0.20|-0.69|<0.001
92374068|NCT02075047|184650380|SUPERIORITY||Difference in LS mean|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.174|TWO_SIDED|95.0|-0.53|0.1|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.10|-0.53|0.174
92374069|NCT02075047|184650380|SUPERIORITY||Difference in LS mean|-0.38|STANDARD_ERROR_OF_MEAN|0.17||0.024|TWO_SIDED|95.0|-0.71|-0.05|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-0.05|-0.71|0.024
92374070|NCT02075047|184650380|SUPERIORITY||Difference in LS mean|-0.28|STANDARD_ERROR_OF_MEAN|0.19||0.138|TWO_SIDED|95.0|-0.64|0.09|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.09|-0.64|0.138
92374071|NCT02075047|184650381|SUPERIORITY||Difference in LS mean|-5.85|STANDARD_ERROR_OF_MEAN|1.17|<|0.001|TWO_SIDED|95.0|-8.16|-3.54|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-3.54|-8.16|<0.001
92374072|NCT02075047|184650381|SUPERIORITY||Difference in LS mean|-4.17|STANDARD_ERROR_OF_MEAN|1.3||0.002|TWO_SIDED|95.0|-6.74|-1.59|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-1.59|-6.74|0.002
92374073|NCT02075047|184650381|SUPERIORITY||Difference in LS mean|-5.63|STANDARD_ERROR_OF_MEAN|1.31|<|0.001|TWO_SIDED|95.0|-8.21|-3.04|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-3.04|-8.21|<0.001
92228680|NCT00348140|184360224|SUPERIORITY||Mean Difference (Net)|0.8||||0.343|TWO_SIDED|95.0|-0.8|2.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||2.4|-0.8|0.343
92228681|NCT00348140|184360225|SUPERIORITY||Mean Difference (Net)|-0.1||||0.783|TWO_SIDED|95.0|-1.1|0.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.9|-1.1|0.783
92228682|NCT00348140|184360225|SUPERIORITY||Mean Difference (Net)|0.0||||0.94|TWO_SIDED|95.0|-1.1|1.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||1.1|-1.1|0.940
92228683|NCT00348140|184360226|SUPERIORITY||Mean Difference (Net)|-0.1|||=|0.763|TWO_SIDED|95.0|-1.1|0.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.8|-1.1|=0.763
92228684|NCT00348140|184360226|SUPERIORITY||Mean Difference (Net)|-0.1|||=|0.8|TWO_SIDED|95.0|-1.1|0.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.9|-1.1|=0.800
92374074|NCT02075047|184650382|SUPERIORITY||Difference in LS mean|-0.52|STANDARD_ERROR_OF_MEAN|0.13||0.001|TWO_SIDED|95.0|-0.78|-0.26|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects along with participant as a random effect.||-0.26|-0.78|0.001
92374075|NCT02075047|184650382|SUPERIORITY||Difference in LS mean|-0.15|STANDARD_ERROR_OF_MEAN|0.15||0.349|TWO_SIDED|95.0|-0.45|0.16|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects along with participant as a random effect.||0.16|-0.45|0.349
92374076|NCT02075047|184650382|SUPERIORITY||Difference in LS mean|-0.26|STANDARD_ERROR_OF_MEAN|0.16||0.103|TWO_SIDED|95.0|-0.57|0.05|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects along with participant as a random effect.||0.05|-0.57|0.103
92374077|NCT02075047|184650382|SUPERIORITY||Difference in LS mean|-0.35|STANDARD_ERROR_OF_MEAN|0.17||0.044|TWO_SIDED|95.0|-0.68|-0.01|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects along with participant as a random effect.||-0.01|-0.68|0.044
92228685|NCT00348140|184360227|SUPERIORITY||Mean Difference (Net)|-0.1||||0.611|TWO_SIDED|95.0|-0.7|0.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.4|-0.7|0.611
92228686|NCT00348140|184360227|SUPERIORITY||Mean Difference (Net)|-0.1||||0.741|TWO_SIDED|95.0|-0.6|0.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.4|-0.6|0.741
92374078|NCT02075047|184650396|SUPERIORITY||Difference in LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.05||0.05|TWO_SIDED|95.0|0.0|0.2|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.20|0.00|0.050
92374079|NCT02075047|184650396|SUPERIORITY||Difference in LS mean|0.11|STANDARD_ERROR_OF_MEAN|0.07||0.124|TWO_SIDED|95.0|-0.03|0.25|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.25|-0.03|0.124
92374080|NCT02075047|184650396|SUPERIORITY||Difference in LS mean|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.084|TWO_SIDED|95.0|-0.01|0.23|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.23|-0.01|0.084
92374081|NCT02075047|184650396|SUPERIORITY||Difference in LS mean|0.09|STANDARD_ERROR_OF_MEAN|0.05||0.104|TWO_SIDED|95.0|-0.02|0.2|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.20|-0.02|0.104
92228687|NCT00348140|184360228|SUPERIORITY||Mean Difference (Net)|0.0||||0.913|TWO_SIDED|95.0|-0.4|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.3|-0.4|0.913
92374082|NCT02075047|184650397|SUPERIORITY||Difference in LS mean|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.169|TWO_SIDED|95.0|-0.06|0.01|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.01|-0.06|0.169
92374083|NCT02075047|184650397|SUPERIORITY||Difference in LS mean|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.893|TWO_SIDED|95.0|-0.1|0.08|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.08|-0.10|0.893
92374084|NCT02075047|184650397|SUPERIORITY||Difference in LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.915|TWO_SIDED|95.0|-0.04|0.04|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.04|-0.04|0.915
92374085|NCT02075047|184650397|SUPERIORITY||Difference in LS mean|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.289|TWO_SIDED|95.0|-0.01|0.04|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.04|-0.01|0.289
92374086|NCT02075047|184650398|SUPERIORITY||Difference in LS mean|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.145|TWO_SIDED|95.0|-0.01|0.06|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.06|-0.01|0.145
92374087|NCT02075047|184650398|SUPERIORITY||Difference in LS mean|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.148|TWO_SIDED|95.0|-0.01|0.07|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.07|-0.01|0.148
92374088|NCT02075047|184650398|SUPERIORITY||Difference in LS mean|0.07|STANDARD_ERROR_OF_MEAN|0.04||0.082|TWO_SIDED|95.0|-0.01|0.15|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.15|-0.01|0.082
92374089|NCT02075047|184650398|SUPERIORITY||Difference in LS mean|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.07|TWO_SIDED|95.0|0.0|0.09|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.09|-0.00|0.070
92374090|NCT00075946|184650399|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3||||0.33|TWO_SIDED|95.0|0.9|1.88|||Log Rank||Hazard ratio is for Rituximab Retreatment Arm/Rituximab Scheduled Arm in follicular patients.|The primary analysis is to compare the time to rituximab failure (TTRF) between the retreatment arm and the scheduled arm in follicular patients.||1.88|0.90|0.33
92408882|NCT01500720|184707563|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.169|||<|0.0001|TWO_SIDED|95.0|1.563|3.01||P-value was calculated from stratified two-sided log-rank test, stratifying for brain metastases and lactate dehydrogenase (LDH) level at the time of randomization.|Stratified Two-Sided Log-Rank Test||Hazard ratio was estimated using a COX Proportional Hazards regression model, stratifying for brain metastases and LDH level at the time of randomization.|||3.01|1.563|<0.0001
92408883|NCT03532451|184707612|SUPERIORITY|||||||0.08|||||||Wilcoxon Signed-Rank Test|||Null hypothesis is the change in CD8+ cell density is not significantly different from zero.||||0.08
92408884|NCT03532451|184707612|SUPERIORITY|||||||0.002|||||||Wilcoxon Signed-Rank Test|||||||0.002
92408885|NCT03532451|184707613|SUPERIORITY|||||||0.88|||||||Wilcoxon rank sum test|||||||0.88
92408886|NCT00525161|184707622|SUPERIORITY_OR_OTHER||Clinical Response Rate at 3 months|0.0|||||TWO_SIDED||||||||Defined as complete response/partial response after 3 months of adding sorafenib to endocrine therapy|Based on known historical response rate to sorafenib of no better than 5-10%, the study was designed to test the null hypothesis that the clinical response rate is no better than 10% versus the alternative hypothesis that it is at least 25% when sorafenib is added to endocrine therapy. In the first stage, 18 patients were planned for enrollment, and if two or fewer responses were observed, the trial would be terminated. The study stopped after 11 due to slow accrual and withdrawal of funding.||||
92408887|NCT00525161|184707623|SUPERIORITY_OR_OTHER||Median Progression Free Survival|6.1|||||TWO_SIDED|95.0|2.6|11.3||||||||11.3|2.6|
92228688|NCT00348140|184360228|SUPERIORITY||Mean Difference (Net)|-0.1||||0.481|TWO_SIDED|95.0|-0.5|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.2|-0.5|0.481
92228689|NCT00348140|184360229|SUPERIORITY||Mean Difference (Net)|-0.1||||0.557|TWO_SIDED|95.0|-0.4|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.2|-0.4|0.557
92374091|NCT00075946|184650399|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.75||||0.012|TWO_SIDED|95.0|1.22|6.19|||Log Rank||Hazard ratio is for Rituximab Retreatment Arm/Rituximab Scheduled Arm in non-follicular patients.|||6.19|1.22|0.012
92408888|NCT04845568|184707655|SUPERIORITY||Mean Difference (Net)|1.13|STANDARD_ERROR_OF_MEAN|2.08||0.592|TWO_SIDED|95.0|-3.16|5.43||A priori threshold for statistical significance was set at p\<0.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in Self-Efficacy for Physical Activity. It is an independent samples t test. It is testing the null hypothesis that the mean change in self-efficacy for physical activity does not differ between conditions.||5.43|-3.16|0.592
92374092|NCT00075946|184650400|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|3.21||||0.002|TWO_SIDED|95.0|1.45|7.13|||Log Rank||Hazard ratio is for Rituximab Retreatment Arm/Rituximab Scheduled Arm in follicular patients.|||7.13|1.45|0.002
92169005|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.11||||0.4658|TWO_SIDED|95.0|0.83|1.49|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=90% reduction||1.49|0.83|0.4658
92169006|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.44||||0.0108|TWO_SIDED|95.0|1.09|1.9|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=90% reduction||1.90|1.09|0.0108
92169007|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8393|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=30% reduction||1.22|0.85|0.8393
92169008|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.1||||0.2977|TWO_SIDED|95.0|0.92|1.32|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=30% reduction||1.32|0.92|0.2977
92169009|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.12||||0.1944|TWO_SIDED|95.0|0.94|1.34|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=50% reduction||1.34|0.94|0.1944
92169010|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.05||||0.5714|TWO_SIDED|95.0|0.88|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=50% reduction||1.26|0.88|0.5714
92277833|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|2.15|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92374093|NCT00075946|184650400|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|TWO_SIDED||||||Log Rank|||||||0.0002
92169011|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.12||||0.2472|TWO_SIDED|95.0|0.92|1.36|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=70% reduction||1.36|0.92|0.2472
92169012|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0235|TWO_SIDED|95.0|1.03|1.51|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=70% reduction||1.51|1.03|0.0235
92169013|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.13||||0.4074|TWO_SIDED|95.0|0.85|1.51|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=90% reduction||1.51|0.85|0.4074
92169014|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0296|TWO_SIDED|95.0|1.03|1.81|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=90% reduction||1.81|1.03|0.0296
92169015|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7607|TWO_SIDED|95.0|0.86|1.23|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=30% reduction||1.23|0.86|0.7607
92169016|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.02||||0.7979|TWO_SIDED|95.0|0.86|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=30% reduction||1.22|0.86|0.7979
92169017|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.1||||0.2964|TWO_SIDED|95.0|0.92|1.31|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=50% reduction||1.31|0.92|0.2964
92277834|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.0|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92374094|NCT00075946|184650401|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27|TWO_SIDED||||||t-test, 2 sided|||||||0.270
92374095|NCT03552536|184650404|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. Least squares (LS) mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).|Posterior Mean Difference|-0.6|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8583 and placebo at least 0.5 log10 copies/mL was 64%.|||||
92374096|NCT03639623|184650423|OTHER|||||||0.053|||||||paired t-test|||||||0.053
92374097|NCT03639623|184650424|OTHER|||||||0.958|||||||paired t-test|||||||0.958
92374098|NCT03639623|184650425|OTHER|||||||0.011|||||||paired t-test|||||||0.011
92228690|NCT00348140|184360229|SUPERIORITY||Mean Difference (Net)|-0.1||||0.404|TWO_SIDED|95.0|-0.5|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.2|-0.5|0.404
92277835|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.52|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92228691|NCT00348140|184360230|SUPERIORITY||Mean Difference (Net)|0.1||||0.633|TWO_SIDED|95.0|-0.5|0.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||0.8|-0.5|0.633
92228692|NCT00348140|184360230|SUPERIORITY||Mean Difference (Net)|0.2||||0.575|TWO_SIDED|95.0|-0.4|0.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||0.8|-0.4|0.575
92374099|NCT03639623|184650426|OTHER|||||||0.454|||||||paired t-test|||||||0.454
92374100|NCT03639623|184650427|OTHER|||||||0.154|||||||paired t-test|||||||0.154
92374101|NCT03639623|184650428|OTHER|||||||0.125|||||||paired t-test|||Outcome Variable: ALT||||0.125
92374102|NCT03639623|184650428|OTHER|||||||0.375|||||||paired t-test|||Outcome Variable: AST||||0.375
92374103|NCT03639623|184650428|OTHER||||||<|0.001|||||||paired t-test|||Outcome Variable: ALP||||<0.001
92374104|NCT03639623|184650429|OTHER|||||||0.054|||||||paired t-test|||||||0.054
92374105|NCT03639623|184650430|OTHER|||||||0.378|||||||paired t-test|||Outcome variable: Total Cholesterol||||0.378
92374106|NCT03639623|184650430|OTHER|||||||0.01|||||||paired t-test|||Outcome Variable: Triglyceride||||0.010
92374107|NCT03639623|184650430|OTHER|||||||0.264|||||||paired t-test|||Outcome Variable: Non-HDL-C||||0.264
92374108|NCT03639623|184650430|OTHER|||||||0.954|||||||paired t-test|||Outcome Variable: HDL-C||||0.954
92374109|NCT03639623|184650430|OTHER|||||||0.127|||||||paired t-test|||Outcome Variable: HDL-C Subclass 2||||0.127
92374110|NCT03639623|184650430|OTHER|||||||0.029|||||||paired t-test|||Outcome Variable: HDL-C Subclass 3||||0.029
92374111|NCT03639623|184650430|OTHER|||||||0.63|||||||paired t-test|||Outcome variable: LDL-C||||0.630
92374112|NCT03639623|184650430|OTHER|||||||0.01|||||||paired t-test|||Outcome Variable: VLDL-C||||0.010
92374113|NCT03639623|184650430|OTHER|||||||0.16|||||||paired t-test|||Outcome Variable: VLDL concentration||||0.160
92374114|NCT03639623|184650430|OTHER|||||||0.02|||||||paired t-test|||Small dense LDL-C||||0.020
92374115|NCT03639623|184650431|OTHER|||||||0.529|||||||paired t-test|||||||0.529
92374116|NCT03639623|184650432|OTHER|||||||0.403|||||||paired t-test|||Outcome Variable: LDL Size||||0.403
92374117|NCT03639623|184650433|OTHER|||||||0.669|||||||paired t-test|||||||0.669
92374118|NCT03639623|184650434|OTHER|||||||0.021|||||||paired t-test|||Outcome Variable: VLDL chylomicron particles||||0.021
92374119|NCT03639623|184650434|OTHER|||||||0.011|||||||paired t-test|||Outcome Variable: Large VLDL chylomicron particles||||0.011
92374120|NCT03639623|184650434|OTHER|||||||0.06|||||||paired t-test|||Outcome Variable: Medium VLDL particles||||0.060
92374121|NCT03639623|184650434|OTHER|||||||0.324|||||||paired t-test|||Outcome Variable: Small VLDL particles||||0.324
92374122|NCT03639623|184650435|OTHER|||||||0.01|||||||paired t-test|||||||0.010
92374123|NCT03639623|184650436|OTHER|||||||0.249|||||||paired t-test|||||||0.249
92374124|NCT03639623|184650437|OTHER|||||||0.0193|||||||paired t-test|||Time to peak RQ||||0.0193
92374125|NCT03639623|184650438|OTHER|||||||0.96|||||||paired t-test|||Outcome Variable: Physical component score||||0.960
92374126|NCT03639623|184650438|OTHER|||||||0.249|||||||paired t-test|||Outcome Variable: Mental component score||||0.249
92374127|NCT03709277|184650456|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92374128|NCT03709277|184650457|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92374129|NCT03709277|184650459|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92374130|NCT01229254|184650460|EQUIVALENCE|If the 90% confidence interval was within the pre-specified bounds of \[0.66, 1.50\], the hypothesis of similarity between lower weight and higher weight groups was supported.|Ratio of geometric least-squares means|0.748|||||TWO_SIDED|90.0|0.591|0.948||||||Compared to Betrixaban 90 mg (≥80 kg)||0.948|0.591|
92374131|NCT01191736|184650464|SUPERIORITY_OR_OTHER|||||||0.05|||||||Kruskal-Wallis|Null hypothesis: the medians for all seven arms are equal.||Kruskal-Wallis test for multiple comparisons||||.05
92374132|NCT01191736|184650465|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||Chi-squared|Null hypothesis: the proportions within the seven arms are equal.||Comparison of proportions of subjects who assessed responsiveness||||.05
92374133|NCT03119181|184650466|SUPERIORITY|||||||0.0097|||||||one-sided permutation test|||one-sided permutation test at 2.5% significance||||0.0097
92374134|NCT03655301|184650510|OTHER||Least squares mean|0.9405|||||TWO_SIDED|90.0|0.8093|1.0931||||||Day 8 (with copanlisib) to Day 1 (without copanlisib) ratio of Cmax||1.0931|0.8093|
92374135|NCT03655301|184650511|OTHER||Least squares mean|1.1205|||||TWO_SIDED|90.0|1.0|1.2555||||||Day 8 (with copanlisib) to Day 1 (without copanlisib) ratio of AUC(0-24)||1.2555|1.0000|
92374136|NCT03655301|184650512|OTHER||Least squares mean|1.1147|||||TWO_SIDED|90.0|0.9772|1.2714||||||Day 8 (with copanlisib) to Day 1 (without copanlisib) ratio of AUC||1.2714|0.9772|
92374137|NCT02780856|184650559|SUPERIORITY||||||<|0.0001|||||||exact binomial|An exact binomial test was used and an exact 97.5% Confidence Level using the Clopper-Pearson method was calculated||The null and alternative hypothesis for each tooth population was of chance agreement (50%) and was tested against an exact binomial one-sided 97.5% confidence interval||||<0.0001
92374138|NCT02780856|184650559|SUPERIORITY||||||<|0.0001|||||||exact binomial|An exact binomial test was used and an exact 97.5% Confidence Level using the Clopper-Pearson method was calculated||The null and alternative hypothesis for each tooth population was of chance agreement (50%) and was tested against an exact binomial one-sided 97.5% confidence interval||||<0.0001
92228693|NCT00348140|184360230|SUPERIORITY||Mean Difference (Net)|0.1||||0.82|TWO_SIDED|95.0|-0.6|0.7|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 16||0.7|-0.6|0.820
92228694|NCT00348140|184360230|SUPERIORITY||Mean Difference (Net)|0.0||||0.908|TWO_SIDED|95.0|-0.7|0.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 16||0.6|-0.7|0.908
92374139|NCT02488135|184650577|NON_INFERIORITY|An a priori sample size was calculated using a non-inferiority limit (d) set at 25%, significance level (α) of 5% and power of 80%. We assumed that success in each group would be 93% based on the literature examining anterior nasal packing in ideal conditions and considering our selection criteria in the Floseal® (Baxter, USA) population. Attrition was assumed to be 0% due to the short duration of treatment. This yielded 26 participants with 13 patients in each study arm.||||||1|||||||Fisher Exact|||||||1.000
92374140|NCT02488135|184650578|SUPERIORITY|||||||0.0022|||||||Wilcoxon (Mann-Whitney)|||Comparison between groups for pain during placement.||||0.0022
92374141|NCT02488135|184650578|SUPERIORITY|||||||0.0007|||||||Wilcoxon (Mann-Whitney)|||Comparison between groups for pain during treatment.||||0.0007
92374142|NCT02488135|184650578|SUPERIORITY|||||||0.0021|||||||Wilcoxon (Mann-Whitney)|||Comparison between scores for pain during removal.||||0.0021
92374143|NCT02226198|184650580|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-22.3||||0.005|TWO_SIDED|95.0|-33.5|-9.1||statistical significance set at 0.05|Mixed Models Analysis||Rosuvastatin treatment gives on average a 22.3% lower geometric LS mean than placebo.|cross-over, null hypothesis is no difference between ros and plc. Powered for 90% detection of 15% delta||-9.1|-33.5|0.005
92374144|NCT02226198|184650581|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-22.3||||0.005|TWO_SIDED|95.0|-33.5|-9.1||statistical significance set at 0.05|Mixed Models Analysis||Rosuvastatin treatment gives on average a 22.3% lower geometric LS mean than placebo.|cross-over, null hypothesis is no difference between ros and plc. Powered for 90% detection of 15% delta||-9.1|-33.5|0.005
92374145|NCT02226198|184650582|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-20.1||||0.003|TWO_SIDED|95.0|-29.7|-9.1||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-9.1|-29.7|0.003
92374146|NCT02226198|184650583|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-20.1||||0.003|TWO_SIDED|95.0|-29.7|-9.1||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-9.1|-29.7|0.003
92374147|NCT02226198|184650584|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-22.9||||0.003|TWO_SIDED|95.0|-33.7|-10.3||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-10.3|-33.7|0.003
92374148|NCT02226198|184650585|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-22.9||||0.003|TWO_SIDED|95.0|-33.7|-10.3||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-10.3|-33.7|0.003
92374149|NCT02226198|184650586|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-17.1||||0.024|TWO_SIDED|95.0|-29.2|-2.9||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-2.9|-29.2|0.024
92408889|NCT04845568|184707655|SUPERIORITY||Mean Difference (Net)|-1.19|STANDARD_ERROR_OF_MEAN|1.56||0.453|TWO_SIDED|95.0|-4.39|2.02||A priori threshold for statistical significance was set at p\<0.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in Self-Efficacy for Healthy Eating. It is an independent samples t test. It is testing the null hypothesis that the mean change in self-efficacy for healthy eating does not differ between conditions.||2.02|-4.39|0.453
92408890|NCT04845568|184707656|SUPERIORITY||Mean Difference (Net)|0.275|STANDARD_ERROR_OF_MEAN|0.3||0.368|TWO_SIDED|95.0|-0.342|0.892||A priori threshold for statistical significance set at p\< 0.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in Caregiver Readiness to Change Child's Eating. It is an independent samples t test. It is testing the null hypothesis that the mean change in readiness for healthy eating does not differ between conditions.||.892|-.342|.368
92408891|NCT04845568|184707656|SUPERIORITY||Mean Difference (Net)|0.126|STANDARD_ERROR_OF_MEAN|0.34||0.714|TWO_SIDED|95.0|-0.575|0.827||A priori threshold for statistical significance set at p\< .05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in Caregiver Readiness for Physical Activity. It is an independent samples t test. It is testing the null hypothesis that the mean change in caregiver intentions to help child improve physical activity from baseline to two-week follow up does not differ between conditions.||.827|-.575|.714
92408892|NCT04845568|184707657|SUPERIORITY||Mean Difference (Net)|-0.522|STANDARD_ERROR_OF_MEAN|1.88||0.783|TWO_SIDED|95.0|-4.39|3.34||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child attitudes toward healthy eating. It is an independent samples t test. It is testing the null hypothesis that the mean change in child attitudes toward healthy eating from baseline to post-intervention does not differ between conditions.||3.34|-4.39|.783
92408893|NCT04845568|184707657|SUPERIORITY||Mean Difference (Net)|-1.99|STANDARD_ERROR_OF_MEAN|1.97||0.323|TWO_SIDED|95.0|-6.05|2.07||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child intentions toward healthy eating. It is an independent samples t test. It is testing the null hypothesis that the mean change in child intentions toward healthy eating from baseline to post-intervention does not differ between conditions.||2.07|-6.05|.323
92408894|NCT04845568|184707657|SUPERIORITY||Mean Difference (Net)|2.11|STANDARD_ERROR_OF_MEAN|1.89||0.276|TWO_SIDED|95.0|-1.79|6.01||A priori threshold for statistical significance is set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in caregiver intentions toward helping their child engage in healthy eating. It is an independent samples t test. It is testing the null hypothesis that the mean change in caregiver intentions from baseline to post-intervention does not differ between conditions.||6.01|-1.79|.276
92228695|NCT00348140|184360230|SUPERIORITY||Mean Difference (Net)|0.4||||0.292|TWO_SIDED|95.0|-0.3|1.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||1.1|-0.3|0.292
92228696|NCT00348140|184360230|SUPERIORITY||Mean Difference (Net)|0.0||||0.978|TWO_SIDED|95.0|-0.7|0.7|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.7|-0.7|0.978
92277836|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.48|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92277837|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|2.48|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92277838|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.0|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92374150|NCT02226198|184650587|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-17.1||||0.024|TWO_SIDED|95.0|-29.2|-2.9||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-2.9|-29.2|0.024
92374151|NCT02226198|184650588|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|7.4||||0.314|TWO_SIDED|95.0|-7.4|24.5||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||24.5|-7.4|0.314
92374152|NCT02226198|184650589|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|7.4||||0.314|TWO_SIDED|95.0|-7.4|24.5||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||24.5|-7.4|0.314
92374153|NCT02226198|184650590|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-26.3||||0.08|TWO_SIDED|95.0|-48.7|6.0||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||6.0|-48.7|0.080
92374154|NCT02226198|184650591|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-26.3||||0.08|TWO_SIDED|95.0|-48.7|6.0||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||6.0|-48.7|0.080
92374155|NCT02226198|184650602|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-30.4||||0.004|TWO_SIDED|95.0|-44.2|-13.3||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-13.3|-44.2|0.004
92374156|NCT02226198|184650603|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-30.4||||0.004|TWO_SIDED|95.0|-44.2|-13.3||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-13.3|-44.2|0.004
92374157|NCT02226198|184650604|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-27.6||||0.006|TWO_SIDED|95.0|-41.2|-11.0||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-11.0|-41.2|0.006
92374158|NCT02226198|184650605|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-25.6||||0.005|TWO_SIDED|95.0|-38.1|-10.5||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-10.5|-38.1|0.005
92374159|NCT02226198|184650606|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-28.2||||0.005|TWO_SIDED|95.0|-41.7|-11.4||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-11.4|-41.7|0.005
92374160|NCT02226198|184650607|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-20.4||||0.013|TWO_SIDED|95.0|-32.8|-5.6||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-5.6|-32.8|0.013
92374161|NCT04545047|184650612|SUPERIORITY||Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-2.3|3.6||||||The investigators estimated the 30-day mortality risk difference comparing patients assigned to each group. Adjustment for covariates would be carried out via inverse probability weighting.||3.60|-2.30|
92374162|NCT04545047|184650612|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.64|1.62||||||The investigators estimated the 30-day mortality hazard ratio comparing patients assigned to each group. The hazard ratio was estimated from pooled logistic models with inverse probability weighting to adjust for confounding.||1.62|0.64|
92374163|NCT01288612|184650620|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Chi-squared|||||||0.25
92374164|NCT01288612|184650620|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||Chi-squared|||||||0.42
92374165|NCT01288612|184650620|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Chi-squared|||||||0.27
92374166|NCT01288612|184650620|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||Chi-squared|||||||0.82
92374167|NCT01288612|184650621|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Kruskal-Wallis|||||||0.06
92374168|NCT01288612|184650622|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Fisher Exact|||||||0.08
92374169|NCT01288612|184650623|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Kruskal-Wallis|||||||0.001
92374170|NCT01288612|184650624|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
92374171|NCT01288612|184650625|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
92374172|NCT01288612|184650626|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the arms for pain scale||||<0.001
92228697|NCT00348140|184360230|SUPERIORITY||Mean Difference (Net)|0.2||||0.691|TWO_SIDED|95.0|-0.6|1.0|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||1.0|-0.6|0.691
92228698|NCT00348140|184360230|SUPERIORITY||Mean Difference (Net)|-0.1||||0.849|TWO_SIDED|95.0|-0.9|0.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||0.8|-0.9|0.849
92228699|NCT00348140|184360231|SUPERIORITY||Mean Difference (Net)|0.0||||0.938|TWO_SIDED|95.0|-0.2|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 12||0.2|-0.2|0.938
92228700|NCT00348140|184360231|SUPERIORITY||Mean Difference (Net)|0.0||||0.887|TWO_SIDED|95.0|-0.2|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 12||0.2|-0.2|0.887
92228701|NCT00348140|184360231|SUPERIORITY||Mean Difference (Net)|-0.1||||0.465|TWO_SIDED|95.0|-0.4|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.2|-0.4|0.465
92228702|NCT00348140|184360231|SUPERIORITY||Mean Difference (Net)|0.1||||0.596|TWO_SIDED|95.0|-0.2|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.3|-0.2|0.596
92228703|NCT00348140|184360231|SUPERIORITY||Mean Difference (Net)|-0.1||||0.452|TWO_SIDED|95.0|-0.4|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||0.2|-0.4|0.452
92228704|NCT00348140|184360231|SUPERIORITY||Mean Difference (Net)|-0.1||||0.429|TWO_SIDED|95.0|-0.4|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||0.2|-0.4|0.429
92228705|NCT00348140|184360232|SUPERIORITY||Mean Difference (Net)|-0.3||||0.386|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||||0.3|-0.8|0.386
92228706|NCT00348140|184360232|SUPERIORITY||Mean Difference (Net)|0.0||||0.999|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||||0.6|-0.6|0.999
92374173|NCT01288612|184650626|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the arms for choking scale||||<0.001
92228707|NCT00348140|184360233|SUPERIORITY||Mean Difference (Net)|1.1||||0.09|TWO_SIDED|95.0|-0.2|2.5|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||2.5|-0.2|0.090
92228708|NCT00348140|184360233|SUPERIORITY||Mean Difference (Net)|0.0||||0.957|TWO_SIDED|95.0|-1.3|1.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||1.3|-1.3|0.957
92228709|NCT00348140|184360233|SUPERIORITY||Mean Difference (Net)|0.7||||0.395|TWO_SIDED|95.0|-0.9|2.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 16||2.2|-0.9|0.395
92228710|NCT00348140|184360233|SUPERIORITY||Mean Difference (Net)|-0.9||||0.275|TWO_SIDED|95.0|-2.5|0.7|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 16||0.7|-2.5|0.275
92228711|NCT00348140|184360233|SUPERIORITY||Mean Difference (Net)|1.7||||0.039|TWO_SIDED|95.0|0.1|3.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||3.4|0.1|0.039
92228712|NCT00348140|184360233|SUPERIORITY||Mean Difference (Net)|-0.1||||0.895|TWO_SIDED|95.0|-1.8|1.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||1.6|-1.8|0.895
92228713|NCT00348140|184360233|SUPERIORITY||Mean Difference (Net)|0.1||||0.914|TWO_SIDED|95.0|-2.1|2.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||2.3|-2.1|0.914
92374174|NCT01288612|184650626|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the arms for gagging scale||||<0.001
92374175|NCT01288612|184650626|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the arms for anxiety scale||||<0.001
92374176|NCT01288612|184650626|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||Comparison between arms for overall tolerance scale||||<0.001
92374177|NCT01288612|184650627|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Kruskal-Wallis|||||||0.001
92228714|NCT00348140|184360233|SUPERIORITY||Mean Difference (Net)|-0.9||||0.43|TWO_SIDED|95.0|-3.2|1.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||1.3|-3.2|0.430
92228715|NCT00348140|184360234|SUPERIORITY||Mean Difference (Net)|-0.2||||0.583|TWO_SIDED|95.0|-1.1|0.6|||Mixed model for repeated measures|||For Week 8||0.6|-1.1|0.583
92228716|NCT00348140|184360234|SUPERIORITY||Mean Difference (Net)|-0.2||||0.631|TWO_SIDED|95.0|-1.1|0.6|||Mixed model for repeated measures|||For Week 8||0.6|-1.1|0.631
92228717|NCT00348140|184360234|SUPERIORITY||Mean Difference (Net)|0.1||||0.812|TWO_SIDED|95.0|-0.8|1.1|||Mixed model for repeated measures|||For Week 16||1.1|-0.8|0.812
92228718|NCT00348140|184360234|SUPERIORITY||Mean Difference (Net)|0.0||||0.952|TWO_SIDED|95.0|-0.9|1.0|||Mixed model for repeated measures|||For Week 16||1.0|-0.9|0.952
92374178|NCT00642174|184650628|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Net)|61.6|||<|0.0001||95.0|53.83|69.31||P-value is for 4 Hours After Loading Dose.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (i.e. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: there is no difference between prasugrel and clopidogrel in IPA assessed by Accumetrics VerifyNow™ P2Y12 4 hours after administration of loading dose. Assuming 90% power, 2-sided alpha of 0.05, and a 17.5% difference in IPA between treatment groups with a standard deviation of 20, a total of 15 completed subjects per sequence group (i.e., 15 subject who receive prasugrel first, then clopidogrel; and 15 subjects who receive clopidogrel first, then prasugrel) was determined.||69.31|53.83|<0.0001
92374179|NCT00642174|184650629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|36.5|||<|0.0001||95.0|27.43|45.52||P-value for 1 Hour After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: there was no difference between prasugrel and clopidogrel in IPA assessed by Accumetrics VerifyNow™ P2Y12 1 hour after administration of the loading dose.||45.52|27.43|<0.0001
92374180|NCT00642174|184650629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|57.9|||<|0.0001||95.0|49.56|66.19||P-value for 24 Hour After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: there was no difference between prasugrel and clopidogrel in IPA assessed by Accumetrics VerifyNow™ P2Y12 24 hours after administration of the loading dose.||66.19|49.56|<0.0001
92374181|NCT00642174|184650629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.7|||<|0.0001||95.0|10.27|25.04||P-value for 24 Hours After Last Maintenance Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: there was no difference between prasugrel and clopidogrel in IPA assessed by Accumetrics VerifyNow™ P2Y12 24 hours post-Last Maintenance Dose (LMD).||25.04|10.27|<0.0001
92374182|NCT00642174|184650630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.5466||95.0|-3.66|1.97||P-value for Baseline (5 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||1.97|-3.66|0.5466
92408895|NCT04845568|184707658|SUPERIORITY||Mean Difference (Net)|0.247|STANDARD_ERROR_OF_MEAN|0.4||0.547|TWO_SIDED|95.0|-0.59|1.08||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child intake of fruits. It is an independent samples t test. It is testing the null hypothesis that the mean change in child fruit servings per week from baseline to two-week follow up does not differ between conditions.||1.08|-.59|.547
92408896|NCT04845568|184707658|SUPERIORITY||Mean Difference (Net)|-0.005|STANDARD_ERROR_OF_MEAN|0.42||0.99|TWO_SIDED|95.0|-0.87|0.86||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child intake of vegetables. It is an independent samples t test. It is testing the null hypothesis that the mean change in child vegetable servings per week from baseline to two-week follow up does not differ between conditions.||.86|-.87|.990
92408897|NCT04845568|184707658|SUPERIORITY||Mean Difference (Net)|-0.203|STANDARD_ERROR_OF_MEAN|0.32||0.527|TWO_SIDED|95.0|-0.86|0.45||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child intake of fast food. It is an independent samples t test. It is testing the null hypothesis that the mean change in child fast food servings per week from baseline to two-week follow up does not differ between conditions.||.45|-.86|.527
92408898|NCT04845568|184707659|SUPERIORITY||Mean Difference (Net)|-0.159|STANDARD_ERROR_OF_MEAN|0.55||0.777|TWO_SIDED|95.0|-1.33|1.01||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child weekly intake of breakfast. It is an independent samples t test. It is testing the null hypothesis that the mean change in child breakfast meals per week from baseline to two-week follow up does not differ between conditions.||1.01|-1.33|.777
92408899|NCT04845568|184707659|SUPERIORITY||Mean Difference (Net)|-0.736|STANDARD_ERROR_OF_MEAN|0.74||0.329|TWO_SIDED|95.0|-2.26|0.79||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child intake of family dinners. It is an independent samples t test. It is testing the null hypothesis that the mean change in child family dinners per week from baseline to two-week follow up does not differ between conditions.||.79|-2.26|.329
92408900|NCT04845568|184707660|SUPERIORITY||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|0.26||0.086|TWO_SIDED|95.0|-0.07|0.99||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child screentime. It is an independent samples t test. It is testing the null hypothesis that the mean change in child screentime per week from baseline to two-week follow up does not differ between conditions.||.99|-0.07|.086
92228719|NCT00348140|184360234|SUPERIORITY||Mean Difference (Net)|-0.9||||0.117|TWO_SIDED|95.0|-2.1|0.2|||Mixed model for repeated measures|||For Week 24||0.2|-2.1|0.117
92228720|NCT00348140|184360234|SUPERIORITY||Mean Difference (Net)|-1.0||||0.074|TWO_SIDED|95.0|-2.1|0.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.1|-2.1|0.074
92228721|NCT00348140|184360234|SUPERIORITY||Mean Difference (Net)|-1.0||||0.141|TWO_SIDED|95.0|-2.4|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||0.3|-2.4|0.141
92228722|NCT00348140|184360234|SUPERIORITY||Mean Difference (Net)|-0.7||||0.331|TWO_SIDED|95.0|-2.1|0.7|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||0.7|-2.1|0.331
92228723|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|4.1||||0.251|TWO_SIDED|95.0|-2.9|11.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 12||11.2|-2.9|0.251
92228724|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|5.9||||0.113|TWO_SIDED|95.0|-1.4|13.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 12||13.2|-1.4|0.113
92228725|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|1.6||||0.723|TWO_SIDED|95.0|-7.1|10.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 24||10.2|-7.1|0.723
92374183|NCT00642174|184650630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.0|||<|0.0001||95.0|-28.45|-17.55||P-value for 1 After Post Loading Dose (5 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-17.55|-28.45|<0.0001
92374184|NCT00642174|184650630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.6|||<|0.0001||95.0|-31.18|-22.02||P-value for 4 Hour After Loading Dose (5 uM ADP). A priori threshold for statisitical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-22.02|-31.18|<0.0001
92374185|NCT00642174|184650630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.3|||<|0.0001||95.0|-27.42|-19.17||P-value for 24 Hour After Loading Dose (5 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-19.17|-27.42|<0.0001
92374186|NCT00642174|184650630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.7||||0.0001||95.0|-12.78|-4.58||P-value for 24 Hour After Last Maintenance Dose (5 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-4.58|-12.78|0.0001
92374187|NCT00642174|184650630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.8779||95.0|-2.8|3.26||P-value for Baseline (20 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||3.26|-2.80|0.8779
92374188|NCT00642174|184650630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.2|||<|0.0001||95.0|-32.43|-17.87||P-value for 1 Hour After Loading Dose (20 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-17.87|-32.43|<0.0001
92374189|NCT00642174|184650630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.1|||<|0.0001||95.0|-40.32|-29.78||P-value for 4 Hour After Loading Dose (20 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-29.78|-40.32|<0.0001
92374190|NCT00642174|184650630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.0|||<|0.0001||95.0|-36.32|-25.66||P-value for 24 Hour After Loading Dose (20 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-25.66|-36.32|<0.0001
92408901|NCT04845568|184707660|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.25||0.64|TWO_SIDED|95.0|-0.64|0.4||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child active hours. It is an independent samples t test. It is testing the null hypothesis that the mean change in child active hours per week from baseline to two-week follow up does not differ between conditions.||.40|-.64|.64
92277839|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI GMT ratio|1.23|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92374191|NCT00642174|184650630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.4|||<|0.0001||95.0|-17.19|-7.58||P-value for 24 Hour After Last Maintenance Dose (20 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-7.58|-17.19|<0.0001
92374192|NCT00642174|184650631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9||||0.3692||95.0|-3.6|9.44||P-value for Baseline. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as assessed by VASP.||9.44|-3.60|0.3692
92408902|NCT00630838|184707661|SUPERIORITY_OR_OTHER||||||=|0.897|TWO_SIDED||||||t-test, 2 sided|||||||=0.897
92408903|NCT00256997|184707691|SUPERIORITY_OR_OTHER|||||||0.5498||||||P-value was calculated by Cox proportional hazard model stratified for positive and negative symptom scale.|Cox proportional hazard model|||||||0.5498
92408904|NCT04672655|184707711|OTHER|||||||0.8875||||||The a priori threshold for statistical significance was \< 0.05.|linear mixed effects models|||A linear mixed effects model (LMM) was used to examine outcomes measured at 3, 6, and 12 months. An unstructured covariance matrix was specified to model within-subject correlations across repeated measurements. To address missing data, the LMM utilized a likelihood-based approach under the missing-at-random (MAR) assumption, which incorporates all available data, thereby minimizing bias from incomplete follow-up measurements.||||0.8875
92408905|NCT04672655|184707712|OTHER|||||||0.4811||||||The a priori threshold for statistical significance was \< 0.05.|linear mixed effects models|||A linear mixed effects model (LMM) was used to examine outcomes measured at 3, 6, and 12 months. An unstructured covariance matrix was specified to model within-subject correlations across repeated measurements. To address missing data, the LMM utilized a likelihood-based approach under the missing-at-random (MAR) assumption, which incorporates all available data, thereby minimizing bias from incomplete follow-up measurements.||||0.4811
92408906|NCT04672655|184707713|OTHER|||||||0.754||||||The a priori threshold for statistical significance was \< 0.05.|linear mixed effects models|||A linear mixed effects model (LMM) was used to examine outcomes measured at 3, 6, and 12 months. An unstructured covariance matrix was specified to model within-subject correlations across repeated measurements. To address missing data, the LMM utilized a likelihood-based approach under the missing-at-random (MAR) assumption, which incorporates all available data, thereby minimizing bias from incomplete follow-up measurements.||||0.754
92408907|NCT04672655|184707714|OTHER|||||||0.0406||||||The a priori threshold for statistical significance was \< 0.05.|linear mixed effects models|||A linear mixed effects model (LMM) was used to examine outcomes measured at 3, 6, and 12 months. An unstructured covariance matrix was specified to model within-subject correlations across repeated measurements. To address missing data, the LMM utilized a likelihood-based approach under the missing-at-random (MAR) assumption, which incorporates all available data, thereby minimizing bias from incomplete follow-up measurements.||||0.0406
92408908|NCT04672655|184707715|OTHER|||||||0.9032||||||The a priori threshold for statistical significance was \< 0.05.|linear mixed effects models|||A linear mixed effects model (LMM) was used to examine outcomes measured at 3, 6, and 12 months. An unstructured covariance matrix was specified to model within-subject correlations across repeated measurements. To address missing data, the LMM utilized a likelihood-based approach under the missing-at-random (MAR) assumption, which incorporates all available data, thereby minimizing bias from incomplete follow-up measurements.||||0.9032
92408909|NCT01326104|184707716|SUPERIORITY||comparing two curves|0.286||||0.927|TWO_SIDED|90.0|0.107|0.764||This is the p-value comparing Group A with historical control.|Log Rank|One sample log rank.||Based on published literature, PFS-12 for patients with recurrent disease after initiating treatment with HDC + PBSCT or standard salvage therapy was 33% (95% confidence interval of 10%, 59%). The study was designed to differentiate between a PFS-12 rate of 33% (null hypothesis) and 55% (alternative hypothesis). If 35 patients enrolled, this assessment has 90% power assuming a type I error rate of 0.10. We assume that PFS of historical controls follows exponential distribution.||0.764|0.107|0.927
92408910|NCT01326104|184707716|SUPERIORITY||compare two curves|0.0|||<|0.001|TWO_SIDED|||||This is the p-value comparing Group B with historical control.|Log Rank|||Based on published literature, PFS-12 for patients with recurrent disease after initiating treatment with HDC + PBSCT or standard salvage therapy was 33% (95% confidence interval of 10%, 59%). The study was designed to differentiate between a PFS-12 rate of 33% (null hypothesis) and 55% (alternative hypothesis). If 35 patients enrolled, this assessment has 90% power assuming a type I error rate of 0.10. We assume that PFS of historical controls follows exponential distribution.||||<0.001
92408911|NCT01326104|184707716|SUPERIORITY||Comparing two curves|0.091|||<|0.001|TWO_SIDED|90.0|0.03|0.276||This is the p-value comparing Groups A and B combined with historical control.|Log Rank|||||0.276|0.03|<0.001
92408912|NCT01287741|184707722|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.4753|TWO_SIDED|95.0|0.78|1.12|||Log Rank|Stratified by International Prognostic Index (IPI) score (low/low-intermediate (excluding participants having an IPI score 0 without bulky disease).||||1.12|0.78|0.4753
92228726|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|3.5||||0.482|TWO_SIDED|95.0|-6.3|13.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 24||13.2|-6.3|0.482
92228727|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|1.5||||0.785|TWO_SIDED|95.0|-9.5|12.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 36||12.6|-9.5|0.785
92228728|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|2.2||||0.711|TWO_SIDED|95.0|-9.4|13.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 36||13.8|-9.4|0.711
92228729|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|4.0||||0.484|TWO_SIDED|95.0|-7.2|15.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 48||15.2|-7.2|0.484
92277840|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.12|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92374193|NCT00642174|184650631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-36.2|||<|0.0001||95.0|-47.43|-24.98||P-value for 1 Hour After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as assessed by VASP.||-24.98|-47.43|<0.0001
92277841|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.46|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Men 16-26:~Castellsague X, Giuliano AR, Goldstone S, et al. Immunogenicity and safety of the 9-valent HPV vaccine in men. Vaccine. 2015;33(48):6892-6901. (HM data)."|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92374194|NCT00642174|184650631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-53.0|||<|0.0001||95.0|-61.89|-44.02||P-value for 4 Hours After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as assessed by VASP.||-44.02|-61.89|<0.0001
92228730|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|3.4||||0.572|TWO_SIDED|95.0|-8.5|15.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 48||15.4|-8.5|0.572
92228731|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|6.8||||0.197|TWO_SIDED|95.0|-3.6|17.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 12||17.3|-3.6|0.197
92408913|NCT01287741|184707723|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.2736|TWO_SIDED|95.0|0.72|1.1|||Log Rank|Stratified by International Prognostic Index (IPI) score (low/low-intermediate (excluding participants having an IPI score 0 without bulky disease).||||1.10|0.72|0.2736
92169018|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.04||||0.695|TWO_SIDED|95.0|0.87|1.24|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=50% reduction||1.24|0.87|0.6950
92228732|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|7.4||||0.183|TWO_SIDED|95.0|-3.5|18.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 12||18.4|-3.5|0.183
92169019|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.14||||0.1985|TWO_SIDED|95.0|0.93|1.38|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=70% reduction||1.38|0.93|0.1985
92169020|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.17||||0.1239|TWO_SIDED|95.0|0.96|1.42|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=70% reduction||1.42|0.96|0.1239
92169021|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.18||||0.2762|TWO_SIDED|95.0|0.88|1.58|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=90% reduction||1.58|0.88|0.2762
92169022|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.44||||0.0121|TWO_SIDED|95.0|1.08|1.91|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=90% reduction||1.91|1.08|0.0121
92169023|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8443|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=30% reduction||1.22|0.85|0.8443
92169024|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8472|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=30% reduction||1.22|0.85|0.8472
92277842|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.61|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92169025|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.01||||0.898|TWO_SIDED|95.0|0.85|1.21|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=50% reduction||1.21|0.85|0.8980
92169026|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9385|TWO_SIDED|95.0|0.83|1.19|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=50% reduction||1.19|0.83|0.9385
92169027|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.08||||0.4261|TWO_SIDED|95.0|0.89|1.32|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=70% reduction||1.32|0.89|0.4261
92169028|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.07||||0.525|TWO_SIDED|95.0|0.88|1.3|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=70% reduction||1.30|0.88|0.5250
92169029|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.08||||0.6273|TWO_SIDED|95.0|0.8|1.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=90% reduction||1.45|0.80|0.6273
92228733|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|10.0||||0.121|TWO_SIDED|95.0|-2.6|22.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 24||22.6|-2.6|0.121
92446282|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.099||0.6031|TWO_SIDED|95.0|-0.14|0.25|||MMRM|||Hypochondriasis, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.14|0.6031
92408914|NCT02930018|184707738|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS (Acute Ischemic Stroke) patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|1.146||||0.335|TWO_SIDED|95.0|0.869|1.511||2 sided 0.05 significance level.|Regression, Logistic|||The primary hypothesis was that administration of nerinetide (NA-1) would result in an increase in the proportion of responders. The primary analysis was a Wald test for treatment group difference in the primary outcome from a logistic regression adjusted for the 2 stratification variables (alteplase use, first declared thrombectomy device), and the 6 covariates used in the minimization. The trial was designed to have 80% power to detect an 8.7% absolute difference between groups.||1.511|0.869|0.335
92228734|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|6.8||||0.291|TWO_SIDED|95.0|-5.8|19.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 24||19.3|-5.8|0.291
92228735|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|7.0||||0.389|TWO_SIDED|95.0|-8.9|22.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 36||22.9|-8.9|0.389
92228736|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|-1.2||||0.865|TWO_SIDED|95.0|-15.0|12.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 36||12.6|-15.0|0.865
92228737|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|4.2||||0.596|TWO_SIDED|95.0|-11.3|19.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 48||19.6|-11.3|0.596
92228738|NCT00348140|184360235|SUPERIORITY||Mean Difference (Net)|-0.2||||0.975|TWO_SIDED|95.0|-14.7|14.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 48||14.2|-14.7|0.975
92228739|NCT00348140|184360236|SUPERIORITY||Mean Difference (Net)|-2.4||||0.043|TWO_SIDED|95.0|-4.7|-0.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 12||-0.1|-4.7|0.043
92228740|NCT00348140|184360236|SUPERIORITY||Mean Difference (Net)|-2.2||||0.056|TWO_SIDED|95.0|-4.5|0.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 12||0.1|-4.5|0.056
92228741|NCT00348140|184360236|SUPERIORITY||Mean Difference (Net)|-0.4||||0.758|TWO_SIDED|95.0|-2.8|2.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 36||2.1|-2.8|0.758
92228742|NCT00348140|184360236|SUPERIORITY||Mean Difference (Net)|-2.0||||0.109|TWO_SIDED|95.0|-4.5|0.5|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 36||0.5|-4.5|0.109
92228743|NCT00348140|184360236|SUPERIORITY||Mean Difference (Net)|-2.6||||0.05|TWO_SIDED|95.0|-5.2|0.0|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 48||-0.0|-5.2|0.050
92228744|NCT00348140|184360236|SUPERIORITY||Mean Difference (Net)|-3.4||||0.009|TWO_SIDED|95.0|-6.0|-0.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 48||-0.9|-6.0|0.009
92228745|NCT00348140|184360237|SUPERIORITY||Mean Difference (Net)|0.01||||0.662|TWO_SIDED|95.0|-0.02|0.03|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Ultility score Week 12||0.03|-0.02|0.662
92228746|NCT00348140|184360237|SUPERIORITY||Mean Difference (Net)|-0.01||||0.503|TWO_SIDED|95.0|-0.03|0.02|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Ultility score Week 12||0.02|-0.03|0.503
92228747|NCT00348140|184360237|SUPERIORITY||Mean Difference (Net)|0.0||||0.892|TWO_SIDED|95.0|-0.03|0.03|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Utility score Week 36||0.03|-0.03|0.892
92228748|NCT00348140|184360237|SUPERIORITY||Mean Difference (Net)|-0.03||||0.083|TWO_SIDED|95.0|-0.05|0.0|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Utility score Week 36||0.00|-0.05|0.083
92228749|NCT00348140|184360237|SUPERIORITY||Mean Difference (Net)|-0.01||||0.366|TWO_SIDED|95.0|-0.05|0.02|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Utility score Week 48||0.02|-0.05|0.366
92228750|NCT00348140|184360237|SUPERIORITY||Mean Difference (Net)|0.0||||0.769|TWO_SIDED|95.0|-0.03|0.02|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Utility score Week 48||0.02|-0.03|0.769
92228751|NCT00348140|184360238|SUPERIORITY||Mean Difference (Net)|-0.2||||0.529|TWO_SIDED|95.0|-0.7|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 12||0.3|-0.7|0.529
92228752|NCT00348140|184360238|SUPERIORITY||Mean Difference (Net)|-0.1||||0.62|TWO_SIDED|95.0|-0.7|0.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 12||0.4|-0.7|0.620
92228753|NCT00348140|184360238|SUPERIORITY||Mean Difference (Net)|-0.4||||0.284|TWO_SIDED|95.0|-1.0|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 36||0.3|-1.0|0.284
92374195|NCT00642174|184650631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-42.8|||<|0.0001||95.0|-50.03|-35.55||P-value for 24 Hours After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as assessed by VASP.||-35.55|-50.03|<0.0001
92228754|NCT00348140|184360238|SUPERIORITY||Mean Difference (Net)|0.2||||0.488|TWO_SIDED|95.0|-0.4|0.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 36||0.9|-0.4|0.488
92228755|NCT00348140|184360238|SUPERIORITY||Mean Difference (Net)|0.2||||0.549|TWO_SIDED|95.0|-0.5|1.0|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 48||1.0|-0.5|0.549
92408915|NCT02930018|184707739|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|1.024||||0.866|TWO_SIDED|95.0|0.781|1.342||2 sided 0.05 significance level.|Regression, Logistic|||||1.342|0.781|0.866
92228756|NCT00348140|184360238|SUPERIORITY||Mean Difference (Net)|0.1||||0.78|TWO_SIDED|95.0|-0.6|0.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||0.9|-0.6|0.780
92408916|NCT02930018|184707740|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|0.776||||0.199|TWO_SIDED|95.0|0.527|1.143||2 sided 0.05 significance level.|Regression, Logistic|||||1.143|0.527|0.199
92408917|NCT02930018|184707741|SUPERIORITY||Odds Ratio (OR)|1.657||||0.028|TWO_SIDED|95.0|1.055|2.603|||Regression, Logistic|||||2.603|1.055|0.028
92408918|NCT02930018|184707741|SUPERIORITY||Absolute Risk Difference (%)|9.6|||||TWO_SIDED||||||||The unadjusted absolute risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
92408919|NCT02930018|184707741|SUPERIORITY||Relative Risk Difference (%)|19.3|||||TWO_SIDED||||||||The unadjusted relative risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
92408920|NCT02930018|184707742|SUPERIORITY||Odds Ratio (OR)|1.482||||0.088|TWO_SIDED|95.0|0.943|2.329|||Regression, Logistic|||||2.329|0.943|0.088
92408921|NCT02930018|184707742|SUPERIORITY||Absolute Risk Difference (%)|9.1|||||TWO_SIDED||||||||The unadjusted absolute risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
92228757|NCT00348140|184360239|SUPERIORITY||Mean Difference (Net)|-0.6||||0.106|TWO_SIDED|95.0|-1.3|0.1|||ANCOVA|||||0.1|-1.3|0.106
92228758|NCT00348140|184360239|SUPERIORITY||Mean Difference (Net)|-0.4||||0.229|TWO_SIDED|95.0|-1.2|0.3|||ANCOVA|||||0.3|-1.2|0.229
92228759|NCT00348140|184360240|SUPERIORITY||Mean Difference (Net)|-0.1||||0.324|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.324
92228760|NCT00348140|184360240|SUPERIORITY||Mean Difference (Net)|0.0||||0.987|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|||||0.2|-0.2|0.987
92228761|NCT00348140|184360241|SUPERIORITY||Mean Difference (Net)|0.05||||0.038|TWO_SIDED|95.0|0.0|0.1|||ANCOVA|||||0.10|0.00|0.038
92228762|NCT00348140|184360241|SUPERIORITY||Mean Difference (Net)|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.18|||ANCOVA|||||0.18|0.08|<0.001
92228763|NCT00348140|184360254|SUPERIORITY||Mean Difference (Net)|-0.1||||0.748|TWO_SIDED|95.0|-0.4|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||0.3|-0.4|0.748
92228764|NCT00348140|184360254|SUPERIORITY||Mean Difference (Net)|0.1||||0.617|TWO_SIDED|95.0|-0.3|0.5|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||0.5|-0.3|0.617
92374196|NCT00642174|184650631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.9||||0.0012||95.0|-23.42|-6.37||P-value for 24 Hours After Last Maintenance Dose. A priori threshold for statistical significance was set to p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as assessed by VASP.||-6.37|-23.42|0.0012
92228765|NCT00348140|184360254|SUPERIORITY||Mean Difference (Net)|-0.1||||0.708|TWO_SIDED|95.0|-0.5|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 16||0.3|-0.5|0.708
92228766|NCT00348140|184360254|SUPERIORITY||Mean Difference (Net)|-0.2||||0.4|TWO_SIDED|95.0|-0.5|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 16||0.2|-0.5|0.400
92228767|NCT00348140|184360254|SUPERIORITY||Mean Difference (Net)|0.0||||0.928|TWO_SIDED|95.0|-0.4|0.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.4|-0.4|0.928
92228768|NCT00348140|184360254|SUPERIORITY||Mean Difference (Net)|0.3||||0.178|TWO_SIDED|95.0|-0.1|0.7|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.7|-0.1|0.178
92228769|NCT00348140|184360254|SUPERIORITY||Mean Difference (Net)|0.1||||0.626|TWO_SIDED|95.0|-0.3|0.5|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||0.5|-0.3|0.626
92228770|NCT00348140|184360254|SUPERIORITY||Mean Difference (Net)|0.1||||0.608|TWO_SIDED|95.0|-0.3|0.5|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||0.5|-0.3|0.608
92374197|NCT00642174|184650632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.5238||95.0|-5.35|2.78||P-value for Baseline. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as measured by Thromboelastography (TEG)-Platelet Mapping Maximum Amplitude - Adenosine Diphosphate (ADP).||2.78|-5.35|0.5238
92374198|NCT00642174|184650632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.2|||<|0.0001||95.0|-21.15|-11.33||P-value for 1 Hour After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as measured by Thromboelastography (TEG)-Platelet Mapping Maximum Amplitude - Adenosine Diphosphate (ADP).||-11.33|-21.15|<0.0001
92408922|NCT02930018|184707742|SUPERIORITY||Relative Risk Difference (%)|18.3|||||TWO_SIDED||||||||The unadjusted relative risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
92228771|NCT00348140|184360254|SUPERIORITY||Mean Difference (Net)|0.0||||0.865|TWO_SIDED|95.0|-0.5|0.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||0.4|-0.5|0.865
92228772|NCT00348140|184360254|SUPERIORITY||Mean Difference (Net)|0.3||||0.149|TWO_SIDED|95.0|-0.1|0.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||0.8|-0.1|0.149
92408923|NCT02930018|184707743|SUPERIORITY||Odds Ratio (OR)|0.572||||0.055|TWO_SIDED|95.0|0.323|1.013|||Regression, Logistic|||||1.013|0.323|0.055
92408924|NCT02930018|184707743|SUPERIORITY||Absolute Risk Difference (%)|7.5|||||TWO_SIDED||||||||The unadjusted absolute risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
92408925|NCT02930018|184707743|SUPERIORITY||Relative Risk Difference (%)|39.7|||||TWO_SIDED||||||||The unadjusted relative risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
92408926|NCT02930018|184707744|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|0.887||||0.529|TWO_SIDED|95.0|0.612|1.286|||Regression, Logistic|||||1.286|0.612|0.529
92408927|NCT02930018|184707745|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|0.782||||0.181|TWO_SIDED|95.0|0.545|1.121|||Regression, Logistic|||||1.121|0.545|0.181
92408928|NCT02930018|184707746|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|1.05||||0.869|TWO_SIDED|95.0|0.588|1.874|||Regression, Logistic|||||1.874|0.588|0.869
92228773|NCT01375764|184360255|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.94|STANDARD_ERROR_OF_MEAN|4.11|<|0.001|TWO_SIDED|95.0|-44.08|-27.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-27.80|-44.08|<0.001
92228774|NCT01375764|184360255|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.82|STANDARD_ERROR_OF_MEAN|4.12|<|0.001|TWO_SIDED|95.0|-35.97|-19.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-19.67|-35.97|<0.001
92228775|NCT01375764|184360255|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Tretament Difference|-26.01|STANDARD_ERROR_OF_MEAN|4.08|<|0.001|TWO_SIDED|95.0|-34.08|-17.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-17.93|-34.08|<0.001
92228776|NCT01375764|184360256|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.29|STANDARD_ERROR_OF_MEAN|3.22|<|0.001|TWO_SIDED|95.0|-53.73|-40.84||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab + ezetimibe and ezetimibe alone, and the alternative hypothesis was that a mean difference did exist.||-40.84|-53.73|<0.001
92228777|NCT01375764|184360257|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-76.6|STANDARD_ERROR_OF_MEAN|9.2|<|0.001|TWO_SIDED|95.0|-94.9|-58.3||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-58.3|-94.9|<0.001
92228778|NCT01375764|184360257|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.5|STANDARD_ERROR_OF_MEAN|9.3|<|0.001|TWO_SIDED|95.0|-74.0|-37.1||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-37.1|-74.0|<0.001
92228779|NCT01375764|184360257|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.6|STANDARD_ERROR_OF_MEAN|9.2|<|0.001|TWO_SIDED|95.0|-70.8|-34.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-34.5|-70.8|<0.001
92228780|NCT01375764|184360258|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-91.9|STANDARD_ERROR_OF_MEAN|8.4|<|1|TWO_SIDED|95.0|-108.7|-75.0||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|||-75.0|-108.7|<0001
92228781|NCT01375764|184360259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.6|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-40.93|-26.28||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-26.28|-40.93|<0.001
92228782|NCT01375764|184360259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.66|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-33.99|-19.32||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-19.32|-33.99|<0.001
92228783|NCT01375764|184360259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-24.86|STANDARD_ERROR_OF_MEAN|3.67|<|0.001|TWO_SIDED|95.0|-32.13|-17.59||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-17.59|-32.13|<0.001
92228784|NCT01375764|184360260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.0|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-50.81|-39.18||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|||-39.18|-50.81|<0.001
92228785|NCT01375764|184360261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Teatment Difference|-29.88|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|95.0|-36.84|-22.92||Testing based on a significance level of 0.05|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-22.92|-36.84|<0.001
92408929|NCT00662675|184707750|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|The p-value is from ANCOVA model with treatment as a factor and baseline percent COA-fat as a covariate.||The power calculation was based on the assumption that the true mean difference between the active and the placebo group was 31.2% with a common standard deviation of 22.6% using a 2-sided, 2-sample, t-test with a 5% significance level.||||<0.001
92408930|NCT00662675|184707751|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is from ANCOVA model with treatment as a factor and baseline percent COA-protein(nitrogen) as a covariate.|ANCOVA|||||||<0.001
92408931|NCT01256294|184707761|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.02|||||TWO_SIDED|95.0|0.96|1.09||||||||1.09|0.96|
92408932|NCT01256294|184707761|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.02||||0.486|TWO_SIDED|90.0|0.97|1.08||ANOVA model for the dose-normalized log transformed values with treatment, period and sequence as fixed factors and subjects nested within sequences as a random factor.|ANOVA|||To compare the bioavailability of generic tacrolimus to branded tacrolimus, the 90% confidence intervals of the ratios of geometric means of AUC0-12h were assessed relative to the interval \[80%, 125%\].||1.08|0.97|0.486
92228786|NCT01375764|184360261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.13|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|95.0|-29.1|-15.16||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-15.16|-29.10|<0.001
92228787|NCT01375764|184360261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-21.38|STANDARD_ERROR_OF_MEAN|3.49|<|0.001|TWO_SIDED|95.0|-28.29|-14.48||Testing based on a signficance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-14.48|-28.29|<0.001
92228788|NCT01375764|184360262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.23|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-43.81|-32.64||Testing based on a significance level of 0.05|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|||-32.64|-43.81|<0.001
92228789|NCT01375764|184360263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-30.95|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-37.56|-24.34||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-24.34|-37.56|<0.001
92228790|NCT01375764|184360263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-23.91|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-30.53|-17.29||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-17.29|-30.53|<0.001
92374199|NCT00642174|184650632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.9|||<|0.0001||95.0|-29.67|-18.11||P-value for 4 Hours After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as measured by Thromboelastography (TEG)-Platelet Mapping Maximum Amplitude - Adenosine Diphosphate (ADP).||-18.11|-29.67|<0.0001
92374200|NCT00642174|184650632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.9|||<|0.0001||95.0|-24.97|-14.9||P-value for 24 Hours After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as measured by Thromboelastography (TEG)-Platelet Mapping Maximum Amplitude - Adenosine Diphosphate (ADP).||-14.90|-24.97|<0.0001
92374201|NCT00642174|184650632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.3725||95.0|-8.46|3.26||P-value for 24 Hours After Last Maintenance Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as measured by Thromboelastography (TEG)-Platelet Mapping Maximum Amplitude - Adenosine Diphosphate (ADP).||3.26|-8.46|0.3725
92374202|NCT00896363|184650633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.85|||||TWO_SIDED|90.0|-1.62|3.32|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of HAMD17|Comparison of placebo and GSK163090 1 mg on Day 14||3.32|-1.62|
92374203|NCT00896363|184650633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|||||TWO_SIDED|90.0|-2.12|2.78|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of HAMD17|Comparison of placebo and GSK163090 3 mg on Day 14||2.78|-2.12|
92374204|NCT00896363|184650633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.57|||||TWO_SIDED|90.0|-2.01|5.14|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of HAMD17|Comparison of placebo and GSK163090 1 mg on Day 42||5.14|-2.01|
92408933|NCT01256294|184707766|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.09|||||TWO_SIDED|95.0|1.0|1.2|||||Ratio of geometric means: Generic tacrolimus/Branded tacrolimus|||1.20|1.00|
92408934|NCT01256294|184707766|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.09||||0.057|TWO_SIDED|90.0|1.01|1.18||ANOVA model for the dose-normalized log transformed values with treatment, period and sequence as fixed factors and subjects nested within sequences as a random factor.|ANOVA|||To compare the bioavailability of generic tacrolimus to branded tacrolimus, the 90% confidence intervals of the ratios of geometric means of Cmax were assessed relative to the interval \[80%, 125%\].||1.18|1.01|0.057
92228791|NCT01375764|184360263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.36|STANDARD_ERROR_OF_MEAN|3.31|<|0.001|TWO_SIDED|95.0|-28.92|-15.8||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-15.80|-28.92|<0.001
92228792|NCT01375764|184360264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.92|STANDARD_ERROR_OF_MEAN|2.92|<|0.001|TWO_SIDED|95.0|-43.77|-32.07||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|||-32.07|-43.77|<0.001
92228793|NCT01375764|184360265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.05|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-40.57|-27.52||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-27.52|-40.57|<0.001
92228794|NCT01375764|184360265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.81|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-33.35|-20.27||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-20.27|-33.35|<0.001
92228795|NCT01375764|184360265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.1|STANDARD_ERROR_OF_MEAN|3.27|<|0.001|TWO_SIDED|95.0|-31.57|-18.62||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-18.62|-31.57|<0.001
92228796|NCT01375764|184360266|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.25|STANDARD_ERROR_OF_MEAN|2.87|<|0.001|TWO_SIDED|95.0|-46.99|-35.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|||-35.50|-46.99|<0.001
92228797|NCT00484315|184360268|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the TAXUS Element stent was to be accepted if the Bayesian posterior probability that the difference in 12-month TLF between TAXUS Element and TAXUS Express was \< 4.1%, given the data, was at least 95%. The sample size of 1264 subjects (resulting in 1200 after accounting for 5% attrition) was determined through simulations based on Bayesian modeling.|Median Difference (Final Values)|-0.57|STANDARD_DEVIATION|0.0155||0.9996|ONE_SIDED|95.0||1.85||The p-value is the posterior probability that the difference in 12-month TLF between TAXUS Element and TAXUS Express was \< 4.1%, given the data observed.|Bayesian modeling||Values are based on the posterior distribution of the difference in TLF rates between TAXUS Element and TAXUS Express. The upper limit is the 1-Sided 95% posterior credible interval, based off the 95th percentile of the posterior distribution.|Bayesian modeling was used to determine if the 12-month TLF rate for the TAXUS Element stent was non-inferior to the 12-month TLF rate in the TAXUS Express2 control. The null hypothesis was that the TAXUS Element TLF rate is at least 4.1% greater than the TAXUS Express TLF rate. The alternative hypothesis was that the TAXUS Element TLF rate is less than 4.1% greater than the TAXUS Express TLF rate.||1.85||0.9996
92228798|NCT00484315|184360269|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the TAXUS Element stent was to be accepted if the Bayesian posterior probability that the difference in mean ln(9-month percent diameter stenosis) between TAXUS Element and TAXUS Express was \< 0.20, given the data, was at least 95%. The sample size of 330 subjects (resulting in 280 after accounting for 15% attrition) was determined through simulations based on Bayesian modeling.|Mean Difference (Final Values)|-0.0294|STANDARD_DEVIATION|0.08253||0.997|ONE_SIDED|95.0||0.1078||P-value is posterior probability that the difference in mean ln(9-month percent diameter stenosis) between TAXUS Element and TAXUS Express was \< 0.20, given the data observed. Non-inferiority was concluded, as this probability is greater than 95%.|Bayesian modeling||Based on posterior distribution of the difference in mean ln(9-month percent diameter stenosis) between TAXUS Element and TAXUS Express. Upper limit is 1-Sided 95% posterior credible interval, based off the 95th percentile of posterior distribution.|Natural log (ln) transformation was used to improve normality of the secondary endpoint distribution. Bayesian modeling was used to determine if the mean ln(9-month percent diameter stenosis) for the TAXUS Element stent was non-inferior to the mean ln(9-month %DS) for TAXUS Express. Null hypothesis was that the TAXUS Element mean was at least 0.20 greater than the TAXUS Express mean. Alternative hypothesis was that the TAXUS Element mean is less than 0.20 greater than the TAXUS Express TLF mean.||0.1078||0.9970
92228799|NCT01552343|184360277|SUPERIORITY_OR_OTHER|||||||0.0187||95.0||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Correlation - no adjustments||||0.0187
92228800|NCT01552343|184360277|SUPERIORITY_OR_OTHER|||||||0.0094||95.0||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Partial correlation - baseline # of voids||||0.0094
92374205|NCT00896363|184650633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.66|||||TWO_SIDED|90.0|-1.81|5.13|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of HAMD17|Comparison of placebo and GSK163090 3 mg on Day 42||5.13|-1.81|
92374206|NCT00896363|184650634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.31|||||TWO_SIDED|90.0|-0.93|1.56|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of BECH 6 scale|Comparison of placebo and GSK163090 1 mg on Day 14||1.56|-0.93|
92374207|NCT00896363|184650634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51|||||TWO_SIDED|90.0|-0.73|1.75|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of BECH 6 scale|Comparison of placebo and GSK163090 3 mg on Day 14||1.75|-0.73|
92408935|NCT01621802|184707796|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 1: Lower limit (LL) of the 2-sided 97.5% confidence interval (CI) for group difference (Inv\_MMR\_CO Group minus pooled Com\_MMR\_CO Group) in seroresponse rates to measles, mumps and rubella viruses is ≥ -5%.|Difference in seroresponse rate (%)|0.0|||||TWO_SIDED|97.5|-0.72|1.98|||||Difference in percentage (Inv\_MMR\_CO Group minus Com\_MMR\_CO Group) in percentage of subjects with an anti-measles antibody concentration ≥ 200 mIU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 1 should be at least 94.04% (=100%- the sum of type II errors associated to cohort 1."||1.98|-0.72|
92446283|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.099||0.6673|TWO_SIDED|95.0|-0.24|0.15|||MMRM|||Hypochondriasis, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.24|0.6673
92228801|NCT01552343|184360277|SUPERIORITY_OR_OTHER|||||||0.0383||95.0||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Partial correlation - baseline NI total score||||0.0383
92228802|NCT01552343|184360277|SUPERIORITY_OR_OTHER|||||||0.0133||95.0||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Partial correlation - age category||||0.0133
92374208|NCT00896363|184650634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.66|||||TWO_SIDED|90.0|-1.1|2.42|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of BECH 6 scale|Comparison of placebo and GSK163090 1 mg on Day 42||2.42|-1.10|
92374209|NCT00896363|184650634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77|||||TWO_SIDED|90.0|-0.93|2.48|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of BECH 6 scale|Comparison of placebo and GSK163090 3 mg on Day 42||2.48|-0.93|
92228803|NCT01552343|184360277|SUPERIORITY_OR_OTHER|||||||0.0128||95.0|||||t-test, 2 sided|The a priori threshold for statistical significance was 0.05.||Partial correlation - gender||||0.0128
92374210|NCT00896363|184650635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.72|||||TWO_SIDED|90.0|-0.94|2.37|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of QIDS-SR scale|Comparison of placebo and GSK163090 1 mg on Day 14||2.37|-0.94|
92228804|NCT01552343|184360278|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.7|||||TWO_SIDED|95.0|2.7|18.8|||||Non-Responders - Responders|Nocturia Impact (NI) Total Score (Q1-Q11)||18.8|2.7|
92228805|NCT01552343|184360278|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-9.6|9.6|||||Non-Responders - Responders|Overall Impact Question (Q12)||9.6|-9.6|
92228806|NCT01552343|184360281|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.6||||0.1471|TWO_SIDED|95.0|-20.3|3.1||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Nocturia Impact (NI) Total Score: Screening||3.1|-20.3|0.1471
92228807|NCT01552343|184360281|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.6||||0.0318|TWO_SIDED|95.0|-26.0|-1.2||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Nocturia Impact (NI) Total Score: Baseline||-1.2|-26.0|0.0318
92228808|NCT01552343|184360281|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.8||||0.0463|TWO_SIDED|95.0|-31.2|-0.3||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Overall Impact Question (Q12): Screening||-0.3|-31.2|0.0463
92228809|NCT01552343|184360281|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.7||||0.0413|TWO_SIDED|95.0|-34.6|-0.7||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Overall Impact Question (Q12): Baseline||-0.7|-34.6|0.0413
92228810|NCT01552343|184360282|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.9647|TWO_SIDED|95.0|-6.6|6.3|||ANCOVA|Covariates baseline score, treatment and age stratum (\<65, \>=65).||Treatment effect. NI total scores are transformed to a 0-100 scale where 0 is good and 100 bad.||6.3|-6.6|0.9647
92277843|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.39|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92374211|NCT00896363|184650635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44|||||TWO_SIDED|90.0|-2.1|1.21|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of QIDS-SR scale|Comparison of placebo and GSK163090 3 mg on Day 14||1.21|-2.10|
92169030|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0132|TWO_SIDED|95.0|1.08|1.9|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=90% reduction||1.90|1.08|0.0132
92228811|NCT01078805|184360285|SUPERIORITY_OR_OTHER|||||||0.0177||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 6 to 12 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0177
92228812|NCT01078805|184360285|SUPERIORITY_OR_OTHER|||||||0.0019||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 12 to 18 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0019
92228813|NCT01078805|184360285|SUPERIORITY_OR_OTHER|||||||0.0143||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 18 to 24 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0143
92228814|NCT01078805|184360286|SUPERIORITY_OR_OTHER|||||||0.0689||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 6 to 12 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0689
92228815|NCT01078805|184360286|SUPERIORITY_OR_OTHER|||||||0.0412||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 12 to 18 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0412
92228816|NCT01078805|184360286|SUPERIORITY_OR_OTHER|||||||0.0631||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 18 to 24 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0631
92228817|NCT01078805|184360287|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92228818|NCT01078805|184360288|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92228819|NCT04722991|184360299|OTHER|Bayesian inference with non-informative priors|Point estimate|-0.015|||||TWO_SIDED|95.0|-0.08|0.029|||||Median of posterior distribution|||0.029|-0.080|
92228820|NCT02246621|184360316|SUPERIORITY||Hazard Ratio (HR)|0.54||||2e-06|TWO_SIDED|95.0|0.418|0.698|||Log Rank|||||0.698|0.418|0.000002
92228821|NCT02246621|184360318|SUPERIORITY|||||||0.005|||||||Cochran-Mantel-Haenszel|||||||0.005
92228822|NCT02246621|184360320|SUPERIORITY|||||||0.501|||||||Cochran-Mantel-Haenszel|||||||0.501
92228823|NCT02246621|184360321|SUPERIORITY|||||||0.101|||||||Cochran-Mantel-Haenszel|||||||0.101
92228824|NCT02246621|184360325|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.688|TWO_SIDED||||||Mixed Models Analysis|||||||0.688
92228825|NCT02246621|184360326|SUPERIORITY||Mean Difference (Net)|-1.01|STANDARD_ERROR_OF_MEAN|1.39||0.466|TWO_SIDED||||||Mixed Models Analysis|||||||0.466
92228826|NCT00821678|184360329|SUPERIORITY_OR_OTHER||Slope|-3.81||||0.002|TWO_SIDED|95.0|-6.19|-1.43|||Mixed Models Analysis|||||-1.43|-6.19|0.002
92228827|NCT00821678|184360330|SUPERIORITY_OR_OTHER||Slope|-0.25||||0.001|TWO_SIDED|95.0|-0.4|-0.1|||Mixed Models Analysis|||||-0.1|-0.4|0.001
92228828|NCT00821678|184360331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.48|TWO_SIDED|95.0|-0.33|0.7|||t-test, 2 sided|||||0.70|-0.33|0.48
92228829|NCT00821678|184360332|SUPERIORITY_OR_OTHER||Slope|2.67||||0.02|TWO_SIDED|95.0|0.45|4.91|||Mixed Models Analysis|||||4.91|0.45|0.02
92374212|NCT00896363|184650635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.84|||||TWO_SIDED|90.0|-1.22|2.9|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of QIDS-SR scale|Comparison of placebo and GSK163090 1 mg on Day 42||2.90|-1.22|
92228830|NCT00821678|184360335|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.86||||0.65|TWO_SIDED|95.0|0.46|1.62|||Mixed Models Analysis|||||1.62|0.46|0.65
92228831|NCT00821678|184360336|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.9|||<|0.001|TWO_SIDED|95.0|3.2|19.6|||Mixed Models Analysis|||||19.6|3.2|<0.001
92408936|NCT01621802|184707796|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 2: The LL of the 2-sided 97.5% CI for group difference (Inv\_MMR\_I group minus pooled Com\_MMR\_I group) in seroresponse rates to measles, mumps and rubella viruses was ≥ -5%.|Difference in Seroresponse rate (%)|0.71|||||TWO_SIDED|97.5|0.02|2.97|||||Difference in percentage (Inv\_MMR\_I Group minus Com\_MMR\_I Group) in percentage of subjects with an anti-Measles antibody concentration ≥ 200 mIU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 2 should be at least 98.88% (=100%- the sum of type II error associated to cohort 2."||2.97|0.02|
92408937|NCT01621802|184707797|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 1: The LL of the 2-sided 97.5% CI for group difference (Inv\_MMR\_CO Group minus pooled Com\_MMR\_CO Group) in seroresponse rates to measles, mumps and rubella viruses was ≥ -5%.|Difference in seroresponse rate (%)|0.0|||||TWO_SIDED|97.5|-0.72|1.97|||||Difference in percentage (Inv\_MMR\_CO Group minus Com\_MMR\_CO Group) in percentage of subjects with an anti-mumps antibody concentration ≥ 10 EU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 1 should be at least 94.04% (=100%- the sum of type II errors associated to cohort 1."||1.97|-0.72|
92228832|NCT00110305|184360357|SUPERIORITY_OR_OTHER||Differences in response rate|0.5||||0.92|TWO_SIDED|95.0|-10.4|11.3||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and Nucleoside/tide reverse transcriptase inhibitors (N\[t\]RTIs) used, and baseline viral load as covariate.||||11.3|-10.4|0.92
92228833|NCT00110305|184360357|SUPERIORITY_OR_OTHER||Difference in response rate|-2.3||||0.56|TWO_SIDED|95.0|-13.6|9.0||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||9.0|-13.6|0.56
92228834|NCT00110305|184360357|SUPERIORITY_OR_OTHER||Difference in response rate|-2.8||||0.62|TWO_SIDED|95.0|-14.0|8.4||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||8.4|-14.0|0.62
92228835|NCT00110305|184360357|SUPERIORITY_OR_OTHER||Difference in response rate|-1.5||||0.8|TWO_SIDED|95.0|-10.5|7.5||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||7.5|-10.5|0.80
92374213|NCT00896363|184650635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.81|||||TWO_SIDED|90.0|-1.22|2.85|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of QIDS-SR scale|Comparison of placebo and GSK163090 3 mg on Day 42||2.85|-1.22|
92374214|NCT01730339|184650650|SUPERIORITY_OR_OTHER||Least Square mean difference|0.68|STANDARD_ERROR_OF_MEAN|0.29||0.0219|TWO_SIDED|90.0|0.19|1.16|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||1.16|0.19|0.0219
92374215|NCT01730339|184650650|SUPERIORITY_OR_OTHER||Least Square mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.29||0.4038|TWO_SIDED|90.0|-0.24|0.72|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.72|-0.24|0.4038
92228836|NCT00110305|184360358|SUPERIORITY_OR_OTHER||Difference in response rate|-4.8||||0.45|TWO_SIDED|95.0|-17.1|7.6||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and Nucleoside/tide reverse transcriptase inhibitors (N\[t\]RTIs) used, and baseline viral load as covariate.||||7.6|-17.1|0.45
92408938|NCT01621802|184707797|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 2: The LL of the 2-sided 97.5% CI for group difference (Inv\_MMR\_I group minus pooled Com\_MMR\_I group) in seroresponse rates to measles, mumps and rubella viruses was ≥ -5%.|Difference in Seroresponse rate (%)|0.0|||||TWO_SIDED|97.5|-0.68|1.75|||||Difference in percentage (Inv\_MMR\_I Group minus Com\_MMR\_I Group) in percentage of subjects with an anti-mumps antibody concentration ≥ 10 EU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 2 should be at least 98.88% (=100%- the sum of type II error associated to cohort 2."||1.75|-0.68|
92228837|NCT00110305|184360358|SUPERIORITY_OR_OTHER||Difference in response rate|-4.8||||0.45|TWO_SIDED|95.0|-17.3|7.7||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||7.7|-17.3|0.45
92228838|NCT00110305|184360358|SUPERIORITY_OR_OTHER||Difference in response rate|0.0||||0.99|TWO_SIDED|95.0|-12.9|12.8||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||12.8|-12.9|0.99
92228839|NCT00110305|184360358|SUPERIORITY_OR_OTHER||Differences in response|2.6||||0.63|TWO_SIDED|95.0|-8.1|13.3||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||13.3|-8.1|0.63
92228840|NCT00110305|184360360|SUPERIORITY_OR_OTHER||Difference in response rate|-2.8||||||95.0|-14.7|9.1||||||||9.1|-14.7|
92374216|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.43|0.2||||||Vascularity: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.20|-0.43|
92374217|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|90.0|-0.43|0.11||||||Vascularity: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.11|-0.43|
92374218|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.15|0.52||||||Vascularity: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.52|-0.15|
92408939|NCT01621802|184707798|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 1: The LL of the 2-sided 97.5% CI for group difference (Inv\_MMR\_CO group minus pooled Com\_MMR\_CO group) in seroresponse rates to measles, mumps and rubella viruses was ≥ -5%.|Difference in seroresponse rate (%)|-0.14|||||TWO_SIDED|97.5|-0.98|1.84|||||Difference in percentage (Inv\_MMR\_CO Group minus Com\_MMR\_CO Group) in percentage of subjects with an anti-rubella antibody concentration ≥ 10 IU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 1 should be at least 94.04% (=100%- the sum of type II errors associated to cohort 1."||1.84|-0.98|
92408940|NCT01621802|184707798|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 2: The LL of the 2-sided 97.5% CI for group difference (Inv\_MMR\_I group minus pooled Com\_MMR\_I group) in seroresponse rates to measles, mumps and rubella viruses was ≥ -5%.|Difference in seroresponse rate (%)|0.0|||||TWO_SIDED|97.5|-0.68|1.75|||||Difference in percentage (Inv\_MMR\_I Group minus Com\_MMR\_I Group) in percentage of subjects with an anti-rubella antibody concentration ≥ 10 IU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 2 should be at least 98.88% (=100%- the sum of type II error associated to cohort 2."||1.75|-0.68|
92408941|NCT01621802|184707799|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 1: The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_CO group divided by pooled Com\_MMR\_CO group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|0.99|||||TWO_SIDED|97.5|0.92|1.06|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|||1.06|0.92|
92408942|NCT01621802|184707799|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 2: The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_I group divided by pooled Com\_MMR\_I group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|1.03|||||TWO_SIDED|97.5|0.96|1.1|||ANCOVA|Ancova model: adjustment for baseline concentration country - pooled variance|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|||1.10|0.96|
92408943|NCT01621802|184707800|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_CO group divided by pooled Com\_MMR\_CO group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|0.91|||||TWO_SIDED|97.5|0.83|1.0|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|||1.00|0.83|
92408944|NCT01621802|184707800|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_I group divided by pooled Com\_MMR\_I group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|0.96|||||TWO_SIDED|97.5|0.87|1.06|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance.|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|||1.06|0.87|
92408945|NCT01621802|184707801|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 1: The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_CO group divided by pooled Com\_MMR\_CO group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|1.03|||||TWO_SIDED|97.5|0.97|1.09|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance.|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|Adjusted geometric mean concentration (GMC) ratio (Inv\_MMR\_CO group divided by Com\_MMR\_CO group) for antibodies to rubella virus.||1.09|0.97|
92374219|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.22|0.36||||||Vascularity: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.36|-0.22|
92374220|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|0.07|0.77||||||Vascularity: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.77|0.07|
92374221|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.35|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|0.05|0.65||||||Vascularity: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.65|0.05|
92374222|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|-0.03|0.68||||||Vascularity: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.68|-0.03|
92374223|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.09|0.52||||||Vascularity: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.52|-0.09|
92228841|NCT01252966|184360414|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.14|TWO_SIDED|95.0|0.42|1.13|||Regression, Logistic|||Longitudinal logistic regression with fitted generalized estimating equations (GEE) was used to estimate an overall treatment effect odds ratio including both the EOT and 6-month time points and relevant covariates (e.g., baseline smoking rate, age, Shipley IQ score). The study (n=213) had 80% power to detect small to medium effects on quit rates (corresponding to Cohen's one-sample d=0.38).||1.13|0.42|0.14
92374224|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.18|0.42||||||Pigmentation: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.42|-0.18|
92374225|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.35|0.22||||||Pigmentation: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.22|-0.35|
92374226|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|-0.47|0.24||||||Pigmentation: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.24|-0.47|
92374227|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.6|0.06||||||Pigmentation: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.06|-0.60|
92374228|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.35|0.41||||||Pigmentation: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.41|-0.35|
92374229|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|-0.33|0.37||||||Pigmentation: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.37|-0.33|
92374230|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.24|0.53||||||Pigmentation: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.53|-0.24|
92374231|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|-0.39|0.32||||||Pigmentation: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.32|-0.39|
92408946|NCT01621802|184707801|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 2: The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_I group divided by pooled Com\_MMR\_I group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|1.01|||||TWO_SIDED|97.5|0.95|1.07|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance.|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|||1.07|0.95|
92408947|NCT01149148|184707822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3333|STANDARD_DEVIATION|1.626||0.678|TWO_SIDED|95.0|-1.36|2.02||A prior threshold for statistical significance is p \< 0.05|t-test, 2 sided||The difference between baseline and three months is (baseline - 3 month). The difference in control and intervention is (intervention - control), which in this case is (unblinded - blinded).|The goal was to determine whether cerebral oximetry monitoring during surgery affected cognitive outcomes. Cerebral Oximetry Monitoring unblinded (intervention), and Cerebral Oxymetry Monitoring blinded (control) were given Mini Mental State Exam prior to surgery and three months after surgery. The differences between baseline and 3 month were calculated and compared between the intervention and control groups using t-test.||2.02|-1.36|0.678
92408948|NCT01727024|184707848|SUPERIORITY_OR_OTHER|||||||0.451|||||||Generalized Estimating Equation (GEE)|||||||0.451
92408949|NCT02028208|184707860|OTHER|Concordance between 0.40 mg/cm2 mercury and 1.0% ammoniated mercury in petrolatum|Kappa statistic|0.38|||||TWO_SIDED|95.0|0.08|0.67||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.67|0.08|
92374232|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.22|0.58||||||Thickness: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.58|-0.22|
92374233|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.42|0.35||||||Thickness: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.35|-0.42|
92374234|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-0.05|0.84||||||Thickness: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.84|-0.05|
92374235|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.62|0.23||||||Thickness: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.23|-0.62|
92374236|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.94|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|0.4|1.49||||||Thickness: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.49|0.40|
92374237|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|90.0|-0.3|0.72||||||Thickness: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.72|-0.30|
92374238|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.68|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|0.13|1.24||||||Thickness: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.24|0.13|
92374239|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.38|0.67||||||Thickness: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.67|-0.38|
92408950|NCT02028208|184707860|OTHER|Concordance between 0.40 mercury and 0.5% elemental mercury in petrolatum|Kappa statistic|0.67|||||TWO_SIDED|95.0|0.35|0.99||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.99|0.35|
92408951|NCT02028208|184707860|OTHER|Concordance between 0.36 mg/cm2 mercury and 1.0% ammoniated mercury in petrolatum|Kappa statistic|0.46|||||TWO_SIDED|95.0|0.15|0.76||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.76|0.15|
92408952|NCT02028208|184707860|OTHER|Concordance between 0.36 mg/cm2 mercury and 0.5% elemental mercury in petrolatum|Kappa statistic|0.57|||||TWO_SIDED|95.0|0.21|0.93||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.93|0.21|
92408953|NCT02028208|184707860|OTHER|Concordance between 0.10 mg/cm2 palladium and 3.0% sodium tetrachloropalladate in petrolatum|Kappa statistic|0.48|||||TWO_SIDED|95.0|0.05|0.9||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.90|0.05|
92408954|NCT02028208|184707860|OTHER|Concordance between 0.10 mg/cm2 palladium and 1.0% palladium chloride in petrolatum|Kappa statistic|0.39|||||TWO_SIDED|95.0|0.1|0.68||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.68|0.10|
92408955|NCT02028208|184707860|OTHER||Kappa statistic|0.83|||||TWO_SIDED|95.0|0.5|1.0||||||Concordance between 0.30 mg/cm2 palladium and 3.0% sodium tetrachloropalladate in petrolatum||1.00|0.50|
92408956|NCT02028208|184707860|OTHER|Concordance between 0.30 mg/cm2 palladium and 1.0% palladium chloride in petrolatum|Kappa statistic|0.19|||||TWO_SIDED|95.0|-0.02|0.39||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.39|-0.02|
92408957|NCT02028208|184707860|OTHER|Concordance between 0.60 mg/cm2 palladium and 3.0% sodium tetrachloropalladate in petrolatum|Kappa statistic|0.83|||||TWO_SIDED|95.0|0.5|1.0||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||1.00|0.50|
92408958|NCT02028208|184707860|OTHER||Kappa statistic|0.06|||||TWO_SIDED|95.0|-0.05|0.17||||Concordance between 0.60 mg/cm2 palladium and 1.0 palladium chloride in petrolatum||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.17|-0.05|
92408959|NCT03776812|184707958|OTHER||Hazard Ratio (HR)|0.83||||0.3293|TWO_SIDED|95.0|0.56|1.22|||Cox proportional hazards model|||||1.22|0.56|0.3293
92228842|NCT01252966|184360416|SUPERIORITY_OR_OTHER|||||||0.3|||||||Regression, Linear|||Multiple regression models were used to estimate effects of treatment on change in cognitive performance. Age, Shipley IQ score, number of cigarettes smoked per day at baseline, and EOT smoking status were included as covariates.||||0.30
92228843|NCT01252966|184360417|SUPERIORITY_OR_OTHER|||||||0.3|||||||Regression, Linear|||Multiple regression models were used to estimate effects of treatment on change in cognitive performance. Age, Shipley IQ score, number of cigarettes smoked per day at baseline, and EOT smoking status were included as covariates.||||0.30
92408960|NCT03776812|184707958|OTHER||Hazard Ratio (HR)|0.66||||0.0384|TWO_SIDED|95.0|0.44|0.98|||Cox proportional hazards model|||||0.98|0.44|0.0384
92228844|NCT01252966|184360418|SUPERIORITY_OR_OTHER|||||||0.033||||||Results would not survive correction for multiple hypothesis testing.|Regression, Linear|||Multiple regression models were used to estimate effects of treatment on change in cognitive performance. Age, Shipley IQ score, number of cigarettes smoked per day at baseline, and EOT smoking status were included as covariates.||||0.033
92408961|NCT04758637|184707970|SUPERIORITY||Mean Difference (Final Values)|7.62||||0|TWO_SIDED|95.0|2.4|13.59||The calculated p-value is 7.62E-10.|Zero-inflated Poisson mixed regression|Model estimates were used to derive estimated difference in difference value. Confidence intervals were bootstrapped using 1000 repetitions.||Null hypothesis is the difference in difference in estimated mean pill counts from the last week of baseline (week 26) to the last week of the intervention period (week 53) between control and non-fatal is 0.||13.59|2.4|0
92408962|NCT04758637|184707970|SUPERIORITY||Mean Difference (Final Values)|-14.65||||0|TWO_SIDED|95.0|-25.14|-6.97||The calculated p-value is 2E-16.|Zero-inflated Poisson mixed regression|Model estimates were used to derive estimated difference in difference value. Confidence intervals were bootstrapped using 1000 repetitions.||Null hypothesis is the difference in difference in estimated means from the study start (week 0) to the study end (week 23) between control and fatal is 0.||-6.97|-25.14|0
92408963|NCT04758637|184707971|SUPERIORITY||Slope|0.72||||0.219|TWO_SIDED|95.0|-0.43|1.86|||Regression, Logistic|||||1.86|-0.43|0.219
92408964|NCT04758637|184707971|SUPERIORITY||Slope|-0.72||||0.229|TWO_SIDED|95.0|-1.9|0.46|||Regression, Logistic|||||0.46|-1.9|0.229
92408965|NCT01354314|184707973|SUPERIORITY|||||||0.893|||||||Regression, Linear|||||||0.893
92408966|NCT01354314|184707973|SUPERIORITY|||||||0.594|||||||Regression, Linear|||||||0.594
92408967|NCT01354314|184707973|SUPERIORITY|||||||0.712|||||||Regression, Linear|||||||0.712
92408968|NCT01354314|184707974|SUPERIORITY|||||||0.673|||||||Regression, Linear|||||||0.673
92408969|NCT01354314|184707974|SUPERIORITY|||||||0.153|||||||Regression, Linear|||||||0.153
92408970|NCT01354314|184707974|SUPERIORITY|||||||0.282|||||||Regression, Linear|||||||0.282
92408971|NCT01354314|184707975|SUPERIORITY|||||||0.327|||||||Regression, Linear|||||||0.327
92408972|NCT01354314|184707975|SUPERIORITY|||||||0.178|||||||Regression, Linear|||||||0.178
92408973|NCT01354314|184707975|SUPERIORITY|||||||0.48|||||||Regression, Linear|||||||0.480
92408974|NCT01354314|184707976|SUPERIORITY|||||||0.267|||||||Regression, Linear|||||||0.267
92408975|NCT01354314|184707976|SUPERIORITY|||||||0.368|||||||Regression, Linear|||||||0.368
92408976|NCT01354314|184707976|SUPERIORITY|||||||0.672|||||||Regression, Linear|||||||0.672
92408977|NCT05019521|184708006|SUPERIORITY||Least square (LS) mean difference|0.058|STANDARD_ERROR_OF_MEAN|0.0413||0.9205|TWO_SIDED|90.0|-0.01|0.126|||Mixed Models Analysis|||||0.126|-0.010|0.9205
92228845|NCT03275870|184360428|OTHER|||||||0.042||||||p value \<0.05 used as threshold for significance|t-test, 2 sided|||||||0.042
92228846|NCT03275870|184360429|OTHER|||||||0.213||||||P value of \<0.05 used as threshold for significance|t-test, 2 sided|||||||0.213
92228847|NCT00391599|184360439|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Chi-squared|||||||0.15
92374240|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.39|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.01|0.78||||||Relief: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.78|-0.01|
92374241|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.5|0.28||||||Relief: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.28|-0.50|
92374242|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-0.23|0.67||||||Relief: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.67|-0.23|
92374243|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.63|0.24||||||Relief: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.24|-0.63|
92374244|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.74|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|90.0|0.21|1.26||||||Relief: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.26|0.21|
92374245|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-0.41|0.59||||||Relief: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.59|-0.41|
92374246|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.52|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.02|1.02||||||Relief: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.02|0.02|
92374247|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.33|0.63||||||Relief: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.63|-0.33|
92374248|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.09|0.67||||||Pliability: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.67|-0.09|
92374249|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|-0.39|0.34||||||Pliability: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.34|-0.39|
92374250|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.31|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.12|0.74||||||Pliability: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.74|-0.12|
92374251|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.76|0.05||||||Pliability: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.05|-0.76|
92374252|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.73|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|0.25|1.2||||||Pliability: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.20|0.25|
92374253|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-0.46|0.42||||||Pliability: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.42|-0.46|
92228848|NCT00391599|184360441|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92374254|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|90.0|0.01|1.05||||||Pliability: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.05|0.01|
92374255|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.49|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.0|0.98||||||Pliability: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.98|0.00|
92374256|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-0.29|0.62||||||Surface Area: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.62|-0.29|
92374257|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|-0.28|0.43||||||Surface Area: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.43|-0.28|
92374258|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.51|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.02|1.0||||||Surface Area: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.00|0.02|
92374259|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.53|0.23||||||Surface Area: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.23|-0.53|
92374260|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.64|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|0.08|1.2||||||Surface Area: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.20|0.08|
92374261|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.44|0.42||||||Surface Area : Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.42|-0.44|
92374262|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.69|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|0.09|1.28||||||Surface Area: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.28|0.09|
92374263|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-0.23|0.69||||||Surface Area: week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.69|-0.23|
92374264|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.22||0.2778|TWO_SIDED|90.0|-0.12|0.6|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||Overall Opinion: Week 8 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.60|-0.12|0.2778
92169031|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9095|TWO_SIDED|95.0|0.83|1.18|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=30% reduction||1.18|0.83|0.9095
92374265|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.22||0.6888|TWO_SIDED|90.0|-0.28|0.45|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||Overall Opinion: Weekl 8 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.45|-0.28|0.6888
92374266|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.25||0.3515|TWO_SIDED|90.0|-0.18|0.65|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||Overall Opinion: Weekl 11 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.65|-0.18|0.3515
92374267|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.25||0.3788|TWO_SIDED|90.0|-0.64|0.19|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||Overall Opinion: Weekl 11 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.19|-0.64|0.3788
92374268|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.82|STANDARD_ERROR_OF_MEAN|0.28||0.0044|TWO_SIDED|90.0|0.35|1.29|||Repeated measures model|||Overall Opinion: Weekl 18 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||1.29|0.35|0.0044
92374269|NCT01730339|184650651|SUPERIORITY_OR_OTHER||Least Square mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.28||0.6848|TWO_SIDED|90.0|-0.35|0.58|||Repeated measures model|||Overall Opinion: Weekl 18 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.58|-0.35|0.6848
92374270|NCT01730339|184650652|SUPERIORITY_OR_OTHER||Least Square mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.32||0.7552|TWO_SIDED|90.0|-0.44|0.64|||Repeated measures model|||Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.64|-0.44|0.7552
92374271|NCT01730339|184650652|SUPERIORITY_OR_OTHER||LS mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.25||0.6605|TWO_SIDED|90.0|-0.3|0.52|||Repeated measures model|||Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.52|-0.30|0.6605
92374272|NCT01730339|184650652|SUPERIORITY_OR_OTHER||Least Square mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.33||0.9842|TWO_SIDED|90.0|-0.55|0.56|||Repeated measures model|||Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.56|-0.55|0.9842
92408978|NCT05019521|184708006|SUPERIORITY||LS mean difference|-0.016|STANDARD_ERROR_OF_MEAN|0.0425||0.9205|TWO_SIDED|90.0|-0.086|0.055|||Mixed Models Analysis|||||0.055|-0.086|0.9205
92169032|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|0.94||||0.5098|TWO_SIDED|95.0|0.79|1.12|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=30% reduction||1.12|0.79|0.5098
92169033|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4488|TWO_SIDED|95.0|0.9|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=50% reduction||1.28|0.90|0.4488
92169034|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9757|TWO_SIDED|95.0|0.83|1.19|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=50% reduction||1.19|0.83|0.9757
92169035|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.14||||0.1843|TWO_SIDED|95.0|0.94|1.39|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=70% reduction||1.39|0.94|0.1843
92374273|NCT01730339|184650652|SUPERIORITY_OR_OTHER||Least Square mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.25||0.401|TWO_SIDED|90.0|-0.21|0.63|||Repeated measures model|||Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.63|-0.21|0.4010
92408979|NCT05019521|184708006|SUPERIORITY||LS mean difference|0.037|STANDARD_ERROR_OF_MEAN|0.0422||0.9205|TWO_SIDED|90.0|-0.033|0.106|||Mixed Models Analysis|||||0.106|-0.033|0.9205
92408980|NCT02721966|184708035|SUPERIORITY||Odds Ratio (OR)|4.37|||<|0.0001|TWO_SIDED|95.0|2.72|7.01|||Regression, Logistic|95% confidence interval for odds ratio||"Up to week 12, all participants in the group placebo AIN457 took placebo only"||7.01|2.72|<.0001
92228849|NCT00820573|184360468|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"A general unstructured variance-covariance matrix (ANOVA) was applied for measurements at different periods. Between-group comparisons after 6 wks of treatment were assessed using the ANOVA model at alpha=0.05 (two-sided).~16 subjects provide \~90% power to detect difference in EGP of 0.28 mg/kg.min (95% CI = 0.17 mg/kg.min)."||||<0.05
92228850|NCT00820573|184360469|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||multivariate analysis was performed to compare results amongst all four groups||||<0.05
92228851|NCT00820573|184360470|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||ANOVA||||0.05
92374274|NCT01730339|184650652|SUPERIORITY_OR_OTHER||Least Square mean difference|0.44|STANDARD_ERROR_OF_MEAN|0.38||0.2491|TWO_SIDED|90.0|-0.19|1.07|||Repeated measures model|||Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.07|-0.19|0.2491
92374275|NCT01730339|184650652|SUPERIORITY_OR_OTHER||Least Square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.29||0.998|TWO_SIDED|90.0|-0.47|0.47|||Repeated measures model|||Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.47|-0.47|0.9980
92374276|NCT01730339|184650652|SUPERIORITY_OR_OTHER||Least Square mean difference|0.28|STANDARD_ERROR_OF_MEAN|0.39||0.473|TWO_SIDED|90.0|-0.37|0.93|||Repeated measures model|||Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.93|-0.37|0.4730
92374277|NCT01730339|184650652|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.3||0.5413|TWO_SIDED|90.0|-0.67|0.31|||Repeated measures model|||Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.31|-0.67|0.5413
92374278|NCT01730339|184650653|SUPERIORITY_OR_OTHER||Least Square mean difference|1.32|STANDARD_ERROR_OF_MEAN|2.76|||TWO_SIDED|90.0|-3.28|5.92||||||Appearance: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||5.92|-3.28|
92374279|NCT01730339|184650653|SUPERIORITY_OR_OTHER||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|1.97|||TWO_SIDED|90.0|-3.63|2.91||||||Appearance: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||2.91|-3.63|
92374280|NCT01730339|184650653|SUPERIORITY_OR_OTHER||Least Square mean difference|3.82|STANDARD_ERROR_OF_MEAN|3.85|||TWO_SIDED|90.0|-2.6|10.24||||||Appearance: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||10.24|-2.60|
92374281|NCT01730339|184650653|SUPERIORITY_OR_OTHER||Least Square mean difference|0.16|STANDARD_ERROR_OF_MEAN|2.72|||TWO_SIDED|90.0|-4.37|4.68||||||Appearance: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||4.68|-4.37|
92374282|NCT01730339|184650653|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.7|STANDARD_ERROR_OF_MEAN|2.19|||TWO_SIDED|90.0|-4.34|2.95||||||Symptoms: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||2.95|-4.34|
92408981|NCT02721966|184708035|SUPERIORITY||Odds Ratio (OR)|3.83|||<|0.0001|TWO_SIDED|95.0|2.41|6.1|||Regression, Logistic|95% confidence interval for odds ratio||"Up to week 12, all participants in the group placebo AIN457 took placebo only"||6.10|2.41|<.0001
92408982|NCT02721966|184708036|SUPERIORITY||Odds Ratio (OR)|4.37|||<|0.0001|TWO_SIDED|95.0|2.72|7.01|||Regression, Logistic|95% confidence interval for odds ratio||"Up to week 12, all participants in the group placebo AIN457 took placebo only"||7.01|2.72|<.0001
92408983|NCT02721966|184708037|SUPERIORITY||Odds Ratio (OR)|4.71|||<|0.0001|TWO_SIDED|95.0|2.67|8.33|||Regression, Logistic|95% confidence interval for odds ratio|||Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables|8.33|2.67|<.0001
92408984|NCT02721966|184708037|SUPERIORITY||Odds Ratio (OR)|5.61|||<|0.0001|TWO_SIDED|95.0|3.2|9.84|||Regression, Logistic|95% confidence interval for odds ratio|||Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables|9.84|3.20|<.0001
92228852|NCT00820573|184360471|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
92228853|NCT00754156|184360474|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis|||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92374283|NCT01730339|184650653|SUPERIORITY_OR_OTHER||Least Square mean difference|-1.54|STANDARD_ERROR_OF_MEAN|1.8|||TWO_SIDED|90.0|-4.53|1.45||||||Symptoms: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.45|-4.53|
92374284|NCT01730339|184650653|SUPERIORITY_OR_OTHER||Least Square mean difference|1.75|STANDARD_ERROR_OF_MEAN|2.3|||TWO_SIDED|90.0|-2.07|5.58||||||Symptoms: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||5.58|-2.07|
92374285|NCT01730339|184650653|SUPERIORITY_OR_OTHER||Least Square mean difference|-1.13|STANDARD_ERROR_OF_MEAN|1.87|||TWO_SIDED|90.0|-4.24|1.99||||||Symptoms: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.99|-4.24|
92374286|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.15|0.35||||||Physician: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.35|-0.15|
92374287|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|90.0|-0.22|0.29||||||Physician: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.29|-0.22|
92374288|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.04|0.54||||||Physician: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.54|0.04|
92374289|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.36|0.15||||||Physician: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.15|-0.36|
92374290|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.57|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.32|0.82||||||Physician: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.82|0.32|
92374291|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.21|0.3||||||Physician: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.30|-0.21|
92408985|NCT02721966|184708038|SUPERIORITY||Odds Ratio (OR)|4.5|||<|0.0001|TWO_SIDED|95.0|2.43|8.33|||Regression, Logistic|95% confidence interval for odds ratio||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables|8.33|2.43|<.0001
92408986|NCT02721966|184708038|SUPERIORITY||Odds Ratio (OR)|5.57|||<|0.0001|TWO_SIDED|95.0|3.04|10.21|||Regression, Logistic|95% confidence interval for odds ratio||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables|10.21|3.04|<.0001
92408987|NCT02721966|184708039|SUPERIORITY||LS Mean of Treatment Difference|-14.9|STANDARD_ERROR_OF_MEAN|2.62|<|0.0001|TWO_SIDED|95.0|-20.0|-9.7|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline measurement in VAS as continuous covariate|-9.7|-20.0|<.0001
92408988|NCT02721966|184708039|SUPERIORITY||LS Mean of Treatment Difference|-12.9|STANDARD_ERROR_OF_MEAN|2.59|<|0.0001|TWO_SIDED|95.0|-18.0|-7.8|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline measurement in VAS as continuous covariate|-7.8|-18.0|<.0001
92408989|NCT02721966|184708040|SUPERIORITY||LS Mean of Treatment Difference|-15.1|STANDARD_ERROR_OF_MEAN|2.71|<|0.0001|TWO_SIDED|95.0|-20.4|-9.7|||ANCOVA|||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline measurement in VAS as continuous covariate|-9.7|-20.4|<.0001
92408990|NCT02721966|184708040|SUPERIORITY||LS Mean of Treatment Difference|-15.0|STANDARD_ERROR_OF_MEAN|2.68|<|0.0001|TWO_SIDED|95.0|-20.3|-9.8|||ANCOVA|||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline measurement in VAS as continuous covariate|-9.8|-20.3|<.0001
92408991|NCT02721966|184708041|SUPERIORITY||LS Mean of Treatment Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.0971|TWO_SIDED|95.0|-1.1|0.1|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline SPARCC index as continuous covariate.|0.1|-1.1|0.0971
92408992|NCT02721966|184708041|SUPERIORITY||LS Mean of Treatment Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0207|TWO_SIDED|95.0|-1.3|-0.1|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline measurement in VAS as continuous covariate|-0.1|-1.3|0.0207
92408993|NCT02721966|184708042|SUPERIORITY||LS Mean of Treatment Difference|-0.175|STANDARD_ERROR_OF_MEAN|0.0502||0.0005|TWO_SIDED|95.0|-0.273|-0.076|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline HAQ-DI index as continuous covariate|-0.076|-0.273|0.0005
92408994|NCT02721966|184708042|SUPERIORITY||LS Mean of Treatment Difference|-0.234|STANDARD_ERROR_OF_MEAN|0.0497|<|0.0001|TWO_SIDED|95.0|-0.331|-0.136|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline HAQ-DI index as continuous covariate|-0.136|-0.331|<.0001
92408995|NCT02721966|184708043|SUPERIORITY||LS Mean of Treatment Difference|3.8|STANDARD_ERROR_OF_MEAN|1.01||0.0002|TWO_SIDED|95.0|1.8|5.7|||ANCOVA|||week 12|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline FACIT Fatigue© score as continuous covariate|5.7|1.8|0.0002
92169036|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.08||||0.4356|TWO_SIDED|95.0|0.89|1.32|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=70% reduction||1.32|0.89|0.4356
92169037|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.08||||0.6342|TWO_SIDED|95.0|0.8|1.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=90% reduction||1.45|0.80|0.6342
92169038|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.29||||0.081|TWO_SIDED|95.0|0.97|1.73|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=90% reduction||1.73|0.97|0.0810
92374292|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.43|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.18|0.68||||||Physician: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.68|0.18|
92374293|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.07|STANDARD_DEVIATION|0.15|||TWO_SIDED|90.0|-0.18|0.32||||||Physician: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.32|-0.18|
92374294|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.2|0.39||||||Participant: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.39|-0.20|
92374295|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.28|0.23||||||Participant: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.23|-0.28|
92374296|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.29|0.3||||||Participant: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.30|-0.29|
92374297|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.18|0.33||||||Participant: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.33|-0.18|
92374298|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|0.12|0.72||||||Participant: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.72|0.12|
92374299|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.27|0.24||||||Participant: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.24|-0.27|
92374300|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.09|0.5||||||Participant: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.50|-0.09|
92374301|NCT01730339|184650654|SUPERIORITY_OR_OTHER||Least Square mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.11|0.4||||||Participant: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.40|-0.11|
92374302|NCT02642393|184650666|OTHER||Slope|1.256|STANDARD_ERROR_OF_MEAN|0.943||0.183|TWO_SIDED|95.0|-0.594|3.106|||Mixed Models Analysis|||||3.106|-0.594|0.183
92374303|NCT02642393|184650667|OTHER||Rate Ratio|1.08||||0.124|TWO_SIDED|95.0|0.979|1.192|||Poisson Regression|||||1.192|0.979|0.124
92374304|NCT02642393|184650668|OTHER||Rate Ratio|1.154||||0.004|TWO_SIDED|95.0|1.046|1.273|||Poisson Regression|||||1.273|1.046|0.004
92374305|NCT02642393|184650669|OTHER|||||||0.002|||||||Log Rank|||||||0.002
92374306|NCT02642393|184650670|OTHER|||||||0.497|||||||Log Rank|||||||0.497
92374307|NCT02642393|184650671|OTHER||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.385||0.856|TWO_SIDED|95.0|-0.825|0.685|||Mixed Models Analysis|||||0.685|-0.825|0.856
92374308|NCT02642393|184650672|OTHER||Slope|0.076|STANDARD_ERROR_OF_MEAN|0.226||0.736|TWO_SIDED|95.0|-0.368|0.521|||Mixed Models Analysis|||Anxiety||0.521|-0.368|0.736
92374309|NCT02642393|184650672|OTHER||Slope|0.295|STANDARD_ERROR_OF_MEAN|0.213||0.167|TWO_SIDED|95.0|-0.124|0.714|||Mixed Models Analysis|||Cognitive Function||0.714|-0.124|0.167
92374310|NCT02642393|184650672|OTHER||Slope|0.256|STANDARD_ERROR_OF_MEAN|0.111||0.022|TWO_SIDED|95.0|0.038|0.474|||Mixed Models Analysis|||Communication||0.474|0.038|0.022
92374311|NCT02642393|184650672|OTHER||Slope|0.095|STANDARD_ERROR_OF_MEAN|0.173||0.584|TWO_SIDED|95.0|-0.245|0.435|||Mixed Models Analysis|||Emotional and Behavioral Dyscontrol||0.435|-0.245|0.584
92374312|NCT02642393|184650672|OTHER||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.28||0.973|TWO_SIDED|95.0|-0.56|0.541|||Mixed Models Analysis|||Fatigue||0.541|-0.560|0.973
92374313|NCT02642393|184650672|OTHER||Slope|0.169|STANDARD_ERROR_OF_MEAN|0.136||0.214|TWO_SIDED|95.0|-0.098|0.437|||Mixed Models Analysis|||Lower Extremity Function||0.437|-0.098|0.214
92374314|NCT02642393|184650672|OTHER||Slope|-0.334|STANDARD_ERROR_OF_MEAN|0.304||0.271|TWO_SIDED|95.0|-0.931|0.262|||Mixed Models Analysis|||Positive Affect and Well-Being||0.262|-0.931|0.271
92374315|NCT02642393|184650672|OTHER||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.566|TWO_SIDED|95.0|-0.355|0.194|||Mixed Models Analysis|||Stigma||0.194|-0.355|0.566
92374316|NCT02642393|184650672|OTHER||Slope|0.212|STANDARD_ERROR_OF_MEAN|0.14||0.13|TWO_SIDED|95.0|-0.063|0.487|||Mixed Models Analysis|||Upper Extremity Function||0.487|-0.063|0.130
92374317|NCT02642393|184650672|OTHER||Slope|0.072|STANDARD_ERROR_OF_MEAN|0.202||0.723|TWO_SIDED|95.0|-0.325|0.468|||Mixed Models Analysis|||Sleep Disturbance||0.468|-0.325|0.723
92374318|NCT02642393|184650672|OTHER||Slope|-0.006|STANDARD_ERROR_OF_MEAN|0.298||0.984|TWO_SIDED|95.0|-0.592|0.579|||Mixed Models Analysis|||Satisfaction with Social Roles and Activities||0.579|-0.592|0.984
92374319|NCT02642393|184650672|OTHER||Slope|-0.253|STANDARD_ERROR_OF_MEAN|0.317||0.426|TWO_SIDED|95.0|-0.877|0.371|||Mixed Models Analysis|||Participation in Social Roles and Activities||0.371|-0.877|0.426
92374320|NCT02642393|184650673|OTHER||Slope|-0.106|STANDARD_ERROR_OF_MEAN|0.141||0.454|TWO_SIDED|95.0|-0.382|0.171|||Mixed Models Analysis|||||0.171|-0.382|0.454
92374321|NCT02642393|184650674|OTHER||Slope|0.047|STANDARD_ERROR_OF_MEAN|0.413||0.91|TWO_SIDED|95.0|-0.764|0.858|||Mixed Models Analysis|||||0.858|-0.764|0.910
92374322|NCT02642393|184650675|OTHER||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.13||0.758|TWO_SIDED|95.0|-0.295|0.215|||Mixed Models Analysis|||||0.215|-0.295|0.758
92374323|NCT02642393|184650676|OTHER||Slope|-0.208|STANDARD_ERROR_OF_MEAN|0.803||0.796|TWO_SIDED|95.0|-1.783|1.367|||Mixed Models Analysis|||BL to V01||1.367|-1.783|0.796
92374324|NCT02642393|184650676|OTHER||Slope|-2.4|STANDARD_ERROR_OF_MEAN|3.443||0.486|TWO_SIDED|95.0|-9.156|4.355|||Mixed Models Analysis|||V10 to SV||4.355|-9.156|0.486
92374325|NCT00396006|184650689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0195|||||||Wilcoxon signed rank test|||||||0.0195
92374326|NCT00396006|184650693|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||paired t-tests|||||||<0.0001
92374327|NCT00396006|184650694|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||paired t-tests|||||||<0.0001
92408996|NCT02721966|184708043|SUPERIORITY||LS Mean of Treatment Difference|3.4|STANDARD_ERROR_OF_MEAN|0.99||0.0007|TWO_SIDED|95.0|1.4|5.3|||ANCOVA|||week 12|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline FACIT Fatigue© score as continuous covariate|5.3|1.4|0.0007
92374328|NCT00396006|184650696|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1875|||||||Wilcoxon signed rank test|||||||0.1875
92374329|NCT00396006|184650697|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4375|||||||Wilcoxon signed rank|||||||0.4375
92374330|NCT01562314|184650705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.821||||0.7532|TWO_SIDED|90.0|0.292|2.309|||Regression, Logistic|||||2.309|0.292|0.7532
92374331|NCT01562314|184650706|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.7032|TWO_SIDED|90.0|0.419|4.04|||Regression, Logistic|||||4.040|0.419|0.7032
92374332|NCT01180036|184650736|SUPERIORITY||Risk Difference (RD)|40.0||||0.001|TWO_SIDED|95.0|24.6|55.4|||Chi-squared|||||55.4|24.6|0.001
92374333|NCT01180036|184650737|NON_INFERIORITY|With a non-inferiority margin of 15%. enrollment of 63 evaluable patients per study are is required to achieve 80% power to show that RTX is not inferior.||||||0.009|||||||Chi-squared|||||||0.009
92374334|NCT04243577|184650738|EQUIVALENCE|Margins for this test were calculated as plus or minus half a standard deviation using preliminary data acquired with the conventional electrodes, which were considered as the current gold standard and were ± 3.1.|||||<|0.025||||||Alpha level based on Bonferroni correction was set to .025 to correct for multiple comparisons.|t-test, 2 sided|||For Iteration 1 testing, we hypothesized that normalized amplitude during swallow trials obtained using the conventional sensors and the experimental sensors will be equivalent. Alpha level was set to .025 to correct for multiple comparisons.||||<0.025
92374335|NCT04243577|184650738|EQUIVALENCE|Margins for this test were based on the absolute value of the effect size (Cohen's d) being smaller than 0.5.|||||<|0.025||||||Alpha level based on Bonferroni correction was set to .025 to correct for multiple comparisons.|Bootstrapping CIs|In this 2nd iteration testing, we are accounting for variance uncertainty, and thus bootstrapping a Confidence Interval for Cohen's d.||For Iteration 2 testing again, we hypothesized that normalized amplitude during swallow trials obtained using the conventional sensors and the experimental sensors will be equivalent. Alpha level was set to .025 to correct for multiple comparisons.||||<0.025
92374336|NCT04243577|184650739|NON_INFERIORITY|Margin for this test was calculated as minus half a standard deviation using preliminary data acquired with the conventional electrodes, which were considered as the current gold standard and was -.99.|||||<|0.025||||||Alpha level based on Bonferroni correction was set to .025 to correct for multiple comparisons.|t-test, 1 sided|||For Iteration 1 testing, we hypothesized that Signal to Noise Ratio (SNR) obtained using the experimental sensors will not be inferior to the Signal to Noise Ratio (SNR) obtained using the conventional sensors. Alpha level was set to .025 to correct for multiple comparisons.||||<0.025
92374337|NCT04243577|184650739|NON_INFERIORITY|Margin for this test was based on the effect size (Cohen's d) being larger than -0.5.|||||<|0.025||||||Alpha level based on Bonferroni correction was set to .025 to correct for multiple comparisons.|Bootstrapping CIs|In this 2nd iteration testing, we are accounting for variance uncertainty, and thus bootstrapping a one-sided confidence bound for Cohen's d.||For Iteration 2 testing, we again hypothesized that Signal to Noise Ratio (SNR) obtained using the newer version of the experimental sensors will not be inferior to the Signal to Noise Ratio (SNR) obtained using the conventional sensors. Alpha level was set to .025 to correct for multiple comparisons.||||<0.025
92374338|NCT04243577|184650740|SUPERIORITY||||||<|0.05|||||||t-test, 1 sided|Paired t-test||For Iteration 1 testing, we hypothesized that ease of use/comfort expressed after using the experimental patch will be higher than the one reported using the conventional electrodes. Alpha level was set to .05.||||<0.05
92374339|NCT04243577|184650740|SUPERIORITY||||||<|0.05|||||||t-test, 1 sided|Paired t-test||For Iteration 2 testing, again we hypothesized that ease of use/comfort expressed after using the experimental patch will be higher than the one reported using the conventional electrodes. Alpha level was set to .05.||||<0.05
92374340|NCT03077438|184650742|NON_INFERIORITY|95% confidence interval (CI) of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|7.6|||||TWO_SIDED|95.0|1.1|14.0||||||Serogroup A||14|1.1|
92374341|NCT03077438|184650742|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|47.4|||||TWO_SIDED|95.0|42.2|52.2||||||Serogroup C||52.2|42.2|
92374342|NCT03077438|184650742|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|12.2|||||TWO_SIDED|95.0|7.7|16.7||||||Serogroup Y||16.7|7.7|
92374343|NCT03077438|184650742|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|14.8|||||TWO_SIDED|95.0|8.9|20.5||||||Serogroup W||20.5|8.9|
92408997|NCT02721966|184708044|SUPERIORITY||LS Mean of Treatment Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-2.5|-0.9|||ANCOVA|||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group,visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline ASAS health index as continuous covariate.|-0.9|-2.5|<.0001
92374344|NCT03077438|184650743|OTHER||GMT Ratio|1.09|||||TWO_SIDED|95.0|0.91|1.32||||||Serogroup A||1.32|0.91|
92374345|NCT03077438|184650743|OTHER||GMT Ratio|14.0|||||TWO_SIDED|95.0|11.3|17.3||||||Serogroup C||17.3|11.3|
92374346|NCT03077438|184650743|OTHER||GMT Ratio|1.58|||||TWO_SIDED|95.0|1.31|1.9||||||Serogroup Y||1.9|1.31|
92374347|NCT03077438|184650743|OTHER||GMT Ratio|1.43|||||TWO_SIDED|95.0|1.21|1.69||||||Serogroup W||1.69|1.21|
92374348|NCT03077438|184650744|OTHER||GMT Ratio|1.14|||||TWO_SIDED|95.0|0.883|1.47||||||Serogroup A||1.47|0.883|
92374349|NCT03077438|184650744|OTHER||GMT Ratio|17.4|||||TWO_SIDED|95.0|13.4|22.6||||||Serogroup C||22.6|13.4|
92408998|NCT02721966|184708044|SUPERIORITY||LS Mean of Treatment Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.4|-0.9|||ANCOVA|||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group,visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline ASAS health index as continuous covariate.|-0.9|-2.4|<.0001
92408999|NCT02721966|184708045|SUPERIORITY||Odds Ratio (OR)|5.74|||<|0.0001|TWO_SIDED|95.0|3.31|9.95|||Regression, Logistic|95% confidence interval for odds ratio|||"Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables.~Missing ACR20 response variables were imputed by multiple imputation approach"|9.95|3.31|<.0001
92409000|NCT02721966|184708045|SUPERIORITY||Odds Ratio (OR)|4.8|||<|0.0001|TWO_SIDED|95.0|2.83|8.16|||Regression, Logistic|95% confidence interval for odds ratio|||"Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables.~Missing ACR20 response variables were imputed by multiple imputation approach"|8.16|2.83|<.0001
92409001|NCT02840461|184708055|EQUIVALENCE|Therapeutic equivalence of the Test product to the Reference product based on the primary endpoint was evaluated in the PP population. If the confidence interval is within 80-125% for the primary endpoint, then the Test and Reference treatments are considered therapeutically equivalent.|Mean Difference (Net)|103.51|||||TWO_SIDED|90.0|97.95|110.0||||||||110.00|97.95|
92409002|NCT02840461|184708055|SUPERIORITY||Mean Difference (Net)|-9.83||||0.0027|TWO_SIDED|95.0|-16.24|-3.42|||ANOVA|||||-3.42|-16.24|0.0027
92409003|NCT02840461|184708055|SUPERIORITY||Mean Difference (Net)|-9.83||||0.0028|TWO_SIDED|95.0|-16.25|-3.4|||ANOVA|||||-3.40|-16.25|0.0028
92409004|NCT02840461|184708056|EQUIVALENCE|If the 90% confidence interval (with Yates correction) for the difference between the proportion of patients in the Test and Reference groups considered to be a clinical success was contained within the pre-defined equivalence limits \[-20%, +20%\], the therapeutic equivalence of the Test to Reference product was considered supported.|Mean Difference (Net)|5.8|||||TWO_SIDED|90.0|-2.7|14.2||||||||14.2|-2.7|
92409005|NCT03843541|184708057|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_DEVIATION|0.763|<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the superiority comparisons of NAC vs. placebo, the Bonferroni correction was used.||||<0.001
92409006|NCT03843541|184708058|SUPERIORITY||Mean Difference (Net)|-0.29|STANDARD_DEVIATION|0.783||0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the superiority comparisons of NAC vs. placebo, the Bonferroni correction was used.||||0.002
92409007|NCT03843541|184708059|SUPERIORITY|||||||0.239|||||||Stratified Mann-Whitney U Statistic|||||||0.239
92409008|NCT03843541|184708060|SUPERIORITY|||||||0.037|||||||Stratified Mann-Whitney U Statistic|||For the superiority comparisons of NAC vs. placebo, the Bonferroni correction was used.||||0.037
92409009|NCT03843541|184708061|SUPERIORITY|||||||0.093|||||||Stratified Mann Whitney U Statistic|||||||0.093
92409010|NCT03843541|184708061|SUPERIORITY|||||||0.118|||||||Stratified Mann Whitney U Statistic|||||||0.118
92409011|NCT03843541|184708062|SUPERIORITY|||||||0.022|||||||Stratified Mann Whitney U Statistic|||||||0.022
92409012|NCT03843541|184708062|SUPERIORITY|||||||0.11|||||||Stratified Mann Whitney U Statistic|||||||0.110
92409013|NCT03843541|184708063|SUPERIORITY|||||||0.022|||||||Stratified Mann Whitney U Statistic|||||||0.022
92409014|NCT03843541|184708063|SUPERIORITY|||||||0.402|||||||Stratified Mann Whitney U Statistic|||||||0.402
92409015|NCT03843541|184708064|NON_INFERIORITY|Non-inferiority was declared if the one-sided confidence interval was within the interval.|Probability scale treatment difference|0.5||||0.002|TWO_SIDED|97.5|0.43|1.0|||Modified Mann-Whitney U Statistic||The point estimates of treatment differences in probability scale together with associated one-side confidence interval (97.5% or 98.75%) were computed according to Hochberg if both superiority contrasts were found statistically significant.|||1.00|0.43|0.002
92409016|NCT03843541|184708065|NON_INFERIORITY|Non-inferiority was declared if the one-sided confidence interval was within the interval.|Probability scale treatment difference|0.5|||<|0.001|TWO_SIDED|98.75|0.45|1.0|||Modified Mann-Whitney U Statistic||"The point estimates of treatment differences in probability scale together with associated one-side confidence interval (97.5% or 98.75%) were computed according to Hochberg if both superiority contrasts were found statistically significant.~."|||1.00|0.45|<0.001
92409017|NCT03843541|184708066|SUPERIORITY|||||||0.356|||||||Modified Mann-Whitney U Statistic|||||||0.356
92409018|NCT03843541|184708066|SUPERIORITY|||||||0.007|||||||Modified Mann-Whitney U Statistic|||||||0.007
92409019|NCT03843541|184708067|SUPERIORITY|||||||0.38|||||||Modified Mann-Whitney U Statistic|||||||0.380
92409020|NCT03843541|184708067|SUPERIORITY|||||||0.018|||||||Modified Mann-Whitney U Statistic|||||||0.018
92409021|NCT03843541|184708068|SUPERIORITY|||||||0.366|||||||Modified Mann-Whitney U Statistic|||||||0.366
92409022|NCT03843541|184708068|SUPERIORITY|||||||0.027|||||||Modified Mann-Whitney U Statistic|||||||0.027
92409023|NCT03843541|184708069|SUPERIORITY|||||||0.052|||||||Modified Mann-Whitney U Statistic|||||||0.052
92409024|NCT03843541|184708069|SUPERIORITY|||||||0.058|||||||Modified Mann-Whitney U Statistic|||||||0.058
92409025|NCT03843541|184708070|SUPERIORITY|||||||0.309|||||||Modified Mann-Whitney U Statistic|||||||0.309
92374350|NCT03077438|184650744|OTHER||GMT Ratio|1.38|||||TWO_SIDED|95.0|1.07|1.78||||||Serogroup Y||1.78|1.07|
92374351|NCT03077438|184650744|OTHER||GMT Ratio|1.43|||||TWO_SIDED|95.0|1.12|1.83||||||Serogroup W||1.83|1.12|
92374352|NCT03077438|184650745|OTHER||GMT Ratio|1.06|||||TWO_SIDED|95.0|0.816|1.38||||||Serogroup A||1.38|0.816|
92228854|NCT00516919|184360480|SUPERIORITY_OR_OTHER_LEGACY||F statistic|0.45|||=|0.51||95.0|||||ANCOVA|Covariate = Baseline (pre-treatment) BMI; Degrees of freedom = (1, 76)||Test for group differences in BMI at post-treatment, controlling for baseline BMI.||||=0.51
92228855|NCT00516919|184360480|SUPERIORITY_OR_OTHER_LEGACY||F statistic|0.69|||=|0.41||95.0|||||ANCOVA|Covariate = Baseline (pre-treatment) BMI; Degrees of freedom = (1, 76)||Test for group differences in BMI at 6-month follow-up, controlling for baseline BMI.||||=0.41
92374353|NCT03077438|184650745|OTHER||GMT Ratio|11.5|||||TWO_SIDED|95.0|8.24|16.0||||||Serogroup C||16|8.24|
92374354|NCT03077438|184650745|OTHER||GMT Ratio|1.84|||||TWO_SIDED|95.0|1.41|2.38||||||Serogroup Y||2.38|1.41|
92374355|NCT03077438|184650745|OTHER||GMT Ratio|1.45|||||TWO_SIDED|95.0|1.16|1.82||||||Serogroup W||1.82|1.16|
92374356|NCT03077438|184650746|OTHER||Percentage Difference|7.6|||||TWO_SIDED|95.0|-1.6|16.7||||||Serogroup A||16.7|-1.6|
92374357|NCT03077438|184650746|OTHER||Percentage Difference|51.1|||||TWO_SIDED|95.0|43.5|57.8||||||Serogroup C||57.8|43.5|
92374358|NCT03077438|184650746|OTHER||Percentage Difference|11.2|||||TWO_SIDED|95.0|4.2|18.1||||||Serogroup Y||18.1|4.2|
92374359|NCT03077438|184650746|OTHER||Percentage Difference|12.5|||||TWO_SIDED|95.0|3.9|20.9||||||Serogroup W||20.9|3.9|
92228856|NCT03371355|184360481|SUPERIORITY||Mean Difference in % CFB|-24.0||||0.0343|TWO_SIDED|95.0|-41.0|-2.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|||-2|-41|0.0343
92374360|NCT03077438|184650747|OTHER||Percentage Difference|7.7|||||TWO_SIDED|95.0|-1.3|16.6||||||Serogroup A||16.6|-1.3|
92374361|NCT03077438|184650747|OTHER||Percentage Difference|44.0|||||TWO_SIDED|95.0|36.8|50.6||||||Serogroup C||50.6|36.8|
92374362|NCT03077438|184650747|OTHER||Percentage Difference|13.3|||||TWO_SIDED|95.0|7.6|19.2||||||Serogroup Y||19.2|7.6|
92374363|NCT03077438|184650747|OTHER||Percentage Difference|17.2|||||TWO_SIDED|95.0|9.4|24.7||||||Serogroup W||24.7|9.4|
92374364|NCT02512874|184650751|SUPERIORITY|||||||0.62|||||||Chi-squared|||||||0.62
92374365|NCT03777709|184650785|SUPERIORITY||Mean Difference (Final Values)|1.45|STANDARD_DEVIATION|2.0|<|0.0001|TWO_SIDED|||||unadjusted p-value|Regression, Linear||A recruitment aim of 40 participants per church (16 churches, 8 per arm, mean of 5 participants per church) provides 80% power to detect a difference of 1.45 in mean LS7 score change between groups (effect size 0.73).|Effect size of 1-unit difference in mean LS7 score was based on meta-analysis indicating each unit increase in mean LS7 metrics equates to a 19% and 11% reduction in CVD and all-cause mortality, respectively. Power calculations to estimate sample size: church goal of 16 churches (8/arm), with mean 5 participants/church (40/arm) to provide 80% power to detect 1.45 difference in average LS7 score change between groups (.01 intracluster correlation, and .5 coefficient of variation of church sizes).||||<0.0001
92374366|NCT00744978|184650931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.3873|TWO_SIDED|95.0|-1.37|0.53||ANCOVA model using unstructured covariance structure; Type I error rate for primary hypothesis was 5%; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo. Analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.53|-1.37|0.3873
92374367|NCT00744978|184650932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55||||0.2465|TWO_SIDED|95.0|-0.39|1.49||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo. Analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||1.49|-0.39|0.2465
92409026|NCT03843541|184708070|SUPERIORITY|||||||0.006|||||||Modified Mann-Whitney U Statistic|||||||0.006
92409027|NCT04193189|184708135|NON_INFERIORITY|Pre-specified non-inferiority margin (2-CpG minus 3-alum): -10%.|Common proportion difference|12.5|||||TWO_SIDED|97.5|4.1|20.9|||||Common SPR proportion (expressed as percentage of participants) difference (2-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Primary objective of Group A||20.9|4.1|
92409028|NCT04193189|184708135|SUPERIORITY||Common proportion difference|18.4|||||TWO_SIDED|97.5|10.4|26.2|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 3-alum) with two-sided 97.5% Newcombe repeated confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Primary objective of Group A||26.2|10.4|
92409029|NCT04193189|184708135|SUPERIORITY||Common proportion difference|6.0|||||TWO_SIDED|97.5|-0.2|11.8|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 2-CpG) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Secondary objective of Group A||11.8|-0.2|
92374368|NCT00744978|184650933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.2092|TWO_SIDED|95.0|-0.33|1.5||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||1.50|-0.33|0.2092
92374369|NCT00744978|184650934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.4339|TWO_SIDED|95.0|-1.3|0.56||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.56|-1.30|0.4339
92409030|NCT04193189|184708137|SUPERIORITY||Common proportion difference|9.0|||||TWO_SIDED|97.5|0.1|18.1|||||Common SPR proportion (expressed as percentage of participants) difference (2-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 2-CpG and 3-alum at 4 weeks post last scheduled vaccination (Week 8 in 2-CpG, Week 28 in 3-alum)||18.1|0.1|
92409031|NCT04193189|184708137|SUPERIORITY||Common proportion difference|19.0|||||TWO_SIDED|97.5|10.0|27.9|||||Common SPR proportion (expressed as percentage of participants) difference (2-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 2-CpG and 3-alum at 8 weeks post last scheduled vaccination (Week 12 in 2-CpG, Week 32 in 3-alum)||27.9|10.0|
92409032|NCT04193189|184708137|SUPERIORITY||Common proportion difference|27.8|||||TWO_SIDED|97.5|17.7|37.2|||||Common SP proportion (expressed as percentage of participants) difference (2-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 2-CpG and 3-alum at 24 weeks post last scheduled vaccination (Week 28 in 2-CpG, Week 48 in 3-alum)||37.2|17.7|
92409033|NCT04193189|184708137|SUPERIORITY||Common proportion difference|32.3|||||TWO_SIDED|97.5|21.3|42.3|||||Common SPR proportion (expressed as percentage of participants) difference (2-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 2-CpG and 3-alum at 48 weeks post last scheduled vaccination (Week 52 in 2-CpG, Week 72 in 3-alum)||42.3|21.3|
92409034|NCT04193189|184708137|SUPERIORITY||Common proportion difference|23.8|||||TWO_SIDED|97.5|15.5|32.3|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 3-alum at 8 weeks post last scheduled vaccination (Week 32)||32.3|15.5|
92277844|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.1|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92374370|NCT00744978|184650935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9745|TWO_SIDED|95.0|-0.26|0.27|||ANCOVA|||Difference from placebo analyzed using a mixed effects linear model with subject (nested within sequence) as a random effect, and stratum, site, period, sequence, and treatment as fixed effects.||0.27|-0.26|0.9745
92374371|NCT00744978|184650936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.2852|TWO_SIDED|95.0|-0.57|1.92||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||1.92|-0.57|0.2852
92374372|NCT00744978|184650937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.28||||0.0468|TWO_SIDED|95.0|0.02|2.53||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||2.53|0.02|0.0468
92374373|NCT00744978|184650938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8811|TWO_SIDED|95.0|-0.02|0.03||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.03|-0.02|0.8811
92374374|NCT00744978|184650939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.083|TWO_SIDED|95.0|0.0|0.05||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.05|-0.00|0.0830
92280398|NCT04684524|184463475|SUPERIORITY||Least squares (LS) Mean Difference|-7.36|||<|0.0001|TWO_SIDED|95.0|-9.38|-5.35|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an analysis of covariance (ANCOVA) model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-5.35|-9.38|<0.0001
92374375|NCT00744978|184650940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.7226|TWO_SIDED|95.0|-0.03|0.02||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.02|-0.03|0.7226
92374376|NCT00744978|184650941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53||||0.5588|TWO_SIDED|95.0|-6.68|3.62||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Week 1: difference from placebo. Analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||3.62|-6.68|0.5588
92374377|NCT00744978|184650942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.15||||0.1173|TWO_SIDED|95.0|-9.34|1.05||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||1.05|-9.34|0.1173
92374378|NCT00744978|184650943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31||||0.6251|TWO_SIDED|95.0|-6.58|3.96||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||3.96|-6.58|0.6251
92374379|NCT00744978|184650944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9109|TWO_SIDED|95.0|-0.05|0.05||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.05|-0.05|0.9109
92374380|NCT00744978|184650945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.6632|TWO_SIDED|95.0|-0.06|0.04||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.04|-0.06|0.6632
92374381|NCT00744978|184650946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.545|TWO_SIDED|95.0|-0.07|0.04||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.04|-0.07|0.5450
92374382|NCT00744978|184650947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.2799|TWO_SIDED|95.0|-0.02|0.05||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.05|-0.02|0.2799
92374383|NCT00744978|184650948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9675|TWO_SIDED|95.0|-0.03|0.04||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo aAnalyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.04|-0.03|0.9675
92374384|NCT00744978|184650949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.5008|TWO_SIDED|95.0|-0.05|0.02||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.02|-0.05|0.5008
92374385|NCT00744978|184650950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.2245|TWO_SIDED|95.0|-0.03|0.01||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.01|-0.03|0.2245
92374386|NCT00744978|184650951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.4974|TWO_SIDED|95.0|-0.03|0.01||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.01|-0.03|0.4974
92409035|NCT04193189|184708137|SUPERIORITY||Common proportion difference|32.3|||||TWO_SIDED|97.5|23.2|41.2|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 3-alum at 24 weeks post last scheduled vaccination (Week 48)||41.2|23.2|
92409036|NCT04193189|184708137|SUPERIORITY||Common proportion difference|38.8|||||TWO_SIDED|97.5|28.9|48.1|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 3-alum at 48 weeks post last scheduled vaccination (Week 72)||48.1|28.9|
92228857|NCT03371355|184360481|SUPERIORITY||Mean Difference in % CFB|-44.0|||<|0.0001|TWO_SIDED|95.0|-56.0|-28.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|||-28|-56|<0.0001
92228858|NCT03371355|184360481|SUPERIORITY||Mean Difference in % CFB|-37.0||||0.0009|TWO_SIDED|95.0|-52.0|-17.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|||-17|-52|0.0009
92228859|NCT03371355|184360482|SUPERIORITY||Least Squares Mean Difference|-49.87|||<|0.0001|TWO_SIDED|95.0|-62.68|-37.06|||ANCOVA|||||-37.06|-62.68|<0.0001
92228860|NCT03371355|184360482|SUPERIORITY||Least Squares Mean Difference|-71.66|||<|0.0001|TWO_SIDED|95.0|-84.47|-58.85|||ANCOVA|||||-58.85|-84.47|<0.0001
92228861|NCT03371355|184360482|SUPERIORITY||Least Squares Mean Difference|-59.74|||<|0.0001|TWO_SIDED|95.0|-74.04|-45.44|||ANCOVA|||||-45.44|-74.04|<0.0001
92228862|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-16.5||||0.0327|TWO_SIDED|95.0|-31.59|-1.39|||ANCOVA|||TC||-1.39|-31.59|0.0327
92228863|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-37.0|||<|0.0001|TWO_SIDED|95.0|-52.15|-21.94|||ANCOVA|||TC||-21.94|-52.15|<0.0001
92228864|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-31.6||||0.0003|TWO_SIDED|95.0|-48.23|-15.05|||ANCOVA|||TC||-15.05|-48.23|0.0003
92228865|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|7.5||||0.256|TWO_SIDED|95.0|-5.55|20.54|||ANCOVA|||LDL-C||20.54|-5.55|0.2560
92228866|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-8.6||||0.1795|TWO_SIDED|95.0|-21.26|4.05|||ANCOVA|||LDL-C||4.05|-21.26|0.1795
92409037|NCT04193189|184708137|SUPERIORITY||Common proportion difference|10.0|||||TWO_SIDED|97.5|3.1|16.4|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 2-CpG) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 2-CpG at 4 weeks post last scheduled vaccination (Week 28 in 3-CpG, Week 8 in 2-CpG)||16.4|3.1|
92409038|NCT04193189|184708137|SUPERIORITY||Common proportion difference|4.8|||||TWO_SIDED|97.5|-0.8|10.5|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 2-CpG) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 2-CpG at 8 weeks post last scheduled vaccination (Week 32 in 3-CpG, Week 12 in 2-CpG)||10.5|-0.8|
92228867|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-8.8||||0.2065|TWO_SIDED|95.0|-22.48|4.95|||ANCOVA|||LDL-C||4.95|-22.48|0.2065
92228868|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-2.7||||0.1515|TWO_SIDED|95.0|-6.43|1.01|||ANCOVA|||HDL-C||1.01|-6.43|0.1515
92228869|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-8.6|||<|0.0001|TWO_SIDED|95.0|-12.29|-4.91|||ANCOVA|||HDL-C||-4.91|-12.29|<0.0001
92228870|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-4.1||||0.0436|TWO_SIDED|95.0|-8.18|-0.12|||ANCOVA|||HDL-C||-0.12|-8.18|0.0436
92228871|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-9.1||||0.0224|TWO_SIDED|95.0|-16.94|-1.33|||ANCOVA|||VLDL-C||-1.33|-16.94|0.0224
92228872|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-15.4||||0.0001|TWO_SIDED|95.0|-22.94|-7.84|||ANCOVA|||VLDL-C||-7.84|-22.94|0.0001
92228873|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-10.8||||0.0091|TWO_SIDED|95.0|-18.86|-2.78|||ANCOVA|||VLDL-C||-2.78|-18.86|0.0091
92228874|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-13.9||||0.0748|TWO_SIDED|95.0|-29.12|1.42|||ANCOVA|||Non-HDL-C||1.42|-29.12|0.0748
92228875|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-28.4||||0.0004|TWO_SIDED|95.0|-43.68|-13.18|||ANCOVA|||Non-HDL-C||-13.18|-43.68|0.0004
92228876|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-27.4||||0.0016|TWO_SIDED|95.0|-44.08|-10.64|||ANCOVA|||Non-HDL-C||-10.64|-44.08|0.0016
92228877|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-2.44||||0.6005|TWO_SIDED|95.0|-11.68|6.8|||ANCOVA|||ApoB||6.80|-11.68|0.6005
92228878|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-9.83||||0.0374|TWO_SIDED|95.0|-19.07|-0.59|||ANCOVA|||ApoB||-0.59|-19.07|0.0374
92228879|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-5.28||||0.31|TWO_SIDED|95.0|-15.55|5.0|||ANCOVA|||ApoB||5.00|-15.55|0.3100
92228880|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-1.002||||0.0728|TWO_SIDED|95.0|-2.1|0.09|||ANCOVA|||ApoB-48||0.09|-2.10|0.0728
92228881|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-1.803||||0.0018|TWO_SIDED|95.0|-2.91|-0.69|||ANCOVA|||ApoB-48||-0.69|-2.91|0.0018
92228882|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-1.091||||0.0759|TWO_SIDED|95.0|-2.3|0.12|||ANCOVA|||ApoB-48||0.12|-2.30|0.0759
92228883|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-0.887||||0.8451|TWO_SIDED|95.0|-9.89|8.11|||ANCOVA|||ApoB-100||8.11|-9.89|0.8451
92228884|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-7.59||||0.0973|TWO_SIDED|95.0|-16.59|1.41|||ANCOVA|||ApoB-100||1.41|-16.59|0.0973
92228885|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-3.418||||0.5|TWO_SIDED|95.0|-13.45|6.61|||ANCOVA|||ApoB-100||6.61|-13.45|0.5000
92228886|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-4.753||||0.0008|TWO_SIDED|95.0|-7.47|-2.03|||ANCOVA|||ApoCIII||-2.03|-7.47|0.0008
92228887|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-8.499|||<|0.0001|TWO_SIDED|95.0|-11.18|-5.82|||ANCOVA|||ApoCIII||-5.82|-11.18|<0.0001
92228888|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-6.86|||<|0.0001|TWO_SIDED|95.0|-9.78|-3.93|||ANCOVA|||ApoCIII||-3.93|-9.78|<0.0001
92228889|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-16.8||||0.0003|TWO_SIDED|95.0|-25.8|-7.85|||ANCOVA|||ApoA1||-7.85|-25.80|0.0003
92228890|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-35.2|||<|0.0001|TWO_SIDED|95.0|-44.07|-26.24|||ANCOVA|||ApoA1||-26.24|-44.07|<0.0001
92228891|NCT03371355|184360483|SUPERIORITY||Least Squares Mean Difference|-21.1|||<|0.0001|TWO_SIDED|95.0|-30.89|-11.39|||ANCOVA|||ApoA1||-11.39|-30.89|<0.0001
92228892|NCT03371355|184360484|SUPERIORITY||Least Squares Mean Difference|0.0128||||0.8299|TWO_SIDED|95.0|-0.1|0.13|||ANCOVA|||||0.13|-0.10|0.8299
92228893|NCT03371355|184360484|SUPERIORITY||Least Squares Mean Difference|-0.0144||||0.8102|TWO_SIDED|95.0|-0.13|0.1|||ANCOVA|||||0.10|-0.13|0.8102
92228894|NCT03371355|184360484|SUPERIORITY||Least Squares Mean Difference|-0.0146||||0.8223|TWO_SIDED|95.0|-0.14|0.11|||ANCOVA|||||0.11|-0.14|0.8223
92409039|NCT04193189|184708137|SUPERIORITY||Common proportion difference|4.9|||||TWO_SIDED|97.5|-0.8|11.2|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 2-CpG) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 2-CpG at 24 weeks post last scheduled vaccination (Week 48 in 3-CpG, Week 28 in 2-CpG)||11.2|-0.8|
92409040|NCT04193189|184708137|SUPERIORITY||Common proportion difference|7.2|||||TWO_SIDED|97.5|0.7|14.2|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 2-CpG) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 2-CpG at 48 weeks post last scheduled vaccination (Week 72 in 3-CpG, Week 52 in 2-CpG)||14.2|0.7|
92409041|NCT03036215|184708158|OTHER||Mean Difference (Net)|-7.0|||||TWO_SIDED|||||||||Pilot study, no power analysis applicable; no statistical test||||
92409042|NCT03036215|184708159|OTHER|pilot study; no statistical test performed|Mean Difference (Net)|1.0|||||TWO_SIDED|||||||||Pilot study; no statistical test run||||
92409043|NCT03036215|184708160|OTHER||Mean Difference (Net)|-5.2|||||TWO_SIDED|||||||||Pilot study; no statistical test for significance run||||
92409044|NCT01474239|184708171|SUPERIORITY_OR_OTHER|||||||0.4291|TWO_SIDED|||||Statistical significance was assessed with a one-sided alpha error of 10 percent (%).|Exact Binomial Test|||The 6-month OS rate (OS-6) for bevacizumab was compared to the expected proportion of 0.60 under null hypothesis (ineffective treatment) with the application of the exact binomial test. The one-tailed statistical hypotheses was p0 less than or equal to (≤) 0.60 (null hypothesis) versus pA greater than or equal to (≥) 0.77 (alternative hypothesis), where p is the estimated probability of survival at 6 months.||||0.4291
92228895|NCT03371355|184360485|SUPERIORITY||Least Squares Mean Difference|7.8||||0.0604|TWO_SIDED|95.0|-0.35|16.02|||ANCOVA|||Lp(a)||16.02|-0.35|0.0604
92409045|NCT01243242|184708187|SUPERIORITY_OR_OTHER|||||||0.0093||95.0||||p value for the difference between groups in change from Screening to Termination was calculated using the median test for independent samples|Median|||For the primary endpoint (CAARS change), median test was applied as the primary analysis due to outlier numbers observed ; secondary analysis of the primary endpoint utilized ANCOVA with adjustment to age, gender and site (which is usually expected to influence the endpoint) as well as baseline values. Additional parametric T-test was applied, but was found less effective due to outlier values.||||0.0093
92409046|NCT01243242|184708188|SUPERIORITY_OR_OTHER|||||||0.0195||95.0||||p value for the difference between groups in change from Screening to Termination was calculated using ANCOVA, adjusted for baseline score, gender, site and age|ANCOVA|||Analysis of Covariance (ANCOVA) was applied for comparing the differences in changes from screening/baseline (Visit 1) to termination (Visit 6) and to Visits 3 through 5 in the primary endpoint, CAARS, and secondary endpoint scales, CGI-S, TOVA and AAQoL between the study groups with adjustment to confounders (baseline score, site, age, gender, dose and past exposure to any other ADHD drug).||||0.0195
92409047|NCT01243242|184708189|SUPERIORITY_OR_OTHER|||||||0.0093||95.0||||p value for the difference between groups in change from Screening to Termination was calculated using ANCOVA, adjusted for baseline score, gender, site and age.|ANCOVA|||Analysis of covariance (ANCOVA) was applied for comparing the differences in changes from screening/baseline (Visit 1) to termination (Visit 6) between the study groups with adjustment to confounders (baseline score, site, age, gender, dose and past exposure to any other ADHD drug).||||0.0093
92409048|NCT03983317|184708191|OTHER|We tested if the average drinks consumed was statistically different in Week 2 of the Treatment Phase vs. the Baseline Phase. This was evaluated via a paired t-test.||||||0.026|||||||t-test, 2 sided|Paired t-test||||||0.026
92409049|NCT03983317|184708193|OTHER|We tested if the average craving intensity was statistically different in Week 2 of the Treatment Phase vs. the Baseline Phase. This was evaluated via a paired t-test.||||||0.001|||||||t-test, 2 sided|Paired t-test||||||0.001
92409050|NCT04857320|184708201|SUPERIORITY|||||||1.6e-05|||||||ANOVA|Degrees of Freedom = 5||Glucose was monitored by means of a wearable Continuous Glucose Monitor for several days prior to, during and post dosing. Measurements were gathered for each subject and averaged within-subject data. Our null hypothesis was that post prandial serum glucose would not vary significantly from their baseline values.||||0.000016
92409051|NCT04857320|184708202|SUPERIORITY|||||||0|||||||t-test, 1 sided|Degrees of Freedom = 3||Subject received doses applied to the skin of 0.075, 0.10 and 0.15 IUs / Kilogram on successive days. The Subject's average Serum Glucose for these 3 days were compared against the Subject's baseline unmedicated Serum Glucose on non-dosed days.||||0
92409052|NCT04857320|184708202|SUPERIORITY|||||||3e-06|||||||t-test, 1 sided|||Subject received doses applied to the skin of 0.075, 0.10 and 0.15 IUs / Kilogram on successive days. The Subject's average Serum Glucose for these 3 days were compared against the Subject's baseline unmedicated Serum Glucose on non-dosed days.||||0.000003
92409053|NCT04857320|184708202|SUPERIORITY|||||||2e-06|||||||t-test, 1 sided|Degrees of Freedom = 3||||||0.000002
92228896|NCT03371355|184360485|SUPERIORITY||Least Squares Mean Difference|1.6||||0.7048|TWO_SIDED|95.0|-6.61|9.74|||ANCOVA|||Lp(a)||9.74|-6.61|0.7048
92228897|NCT03371355|184360485|SUPERIORITY||Least Squares Mean Difference|-1.7||||0.7024|TWO_SIDED|95.0|-10.65|7.2|||ANCOVA|||Lp(a)||7.20|-10.65|0.7024
92409054|NCT04857320|184708202|SUPERIORITY|||||||3.5e-05|||||||t-test, 1 sided|Degrees of Freedom = 3||||||0.000035
92409055|NCT04857320|184708202|SUPERIORITY|||||||4e-06|||||||t-test, 1 sided|Degrees of Freedom = 3||||||0.000004
92409056|NCT04857320|184708203|SUPERIORITY|||||||0|||||||ANOVA|||||||0
92409057|NCT02249832|184708215|EQUIVALENCE|A 3x3 repeated measures ANOVA was performed with group (mean gait speed in the low, moderate, and high groups) and time (admission, discharge (week 6), and follow-up (overall week 18) in each condition) as factors. Null hypothesis was that there was no difference in mean gait speed over time across the three groups. A significance level of 0.05 was used (two-sided).|||||<|0.001||||||A significance level of 0.05 was used (two-sided).|ANOVA|||||||<0.001
92374387|NCT00744978|184650952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8525|TWO_SIDED|95.0|-0.02|0.02||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.02|-0.02|0.8525
92374388|NCT02379988|184650962|EQUIVALENCE|The wilcoxon paired signed rank test was used as the primary analysis because of the non-normal distributions|||||=|0.0063||||||P-value for Free breathing and Breath Holding Heart Mean|Wilcoxon (Mann-Whitney)|||||||=0.0063
92228898|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-45.0|||<|0.0001|TWO_SIDED|95.0|-54.0|-33.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ANGPTL3||-33|-54|<0.0001
92228899|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-62.0|||<|0.0001|TWO_SIDED|95.0|-69.0|-54.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ANGPTL3||-54|-69|<0.0001
92228900|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-58.0|||<|0.0001|TWO_SIDED|95.0|-66.0|-47.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ANGPTL3||-47|-66|<0.0001
92277845|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.65|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Men 16-26:~Castellsague X, Giuliano AR, Goldstone S, et al. Immunogenicity and safety of the 9-valent HPV vaccine in men. Vaccine. 2015;33(48):6892-6901. (HM data)."|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92280399|NCT04684524|184463476|SUPERIORITY||LS Mean Difference|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.18|-0.56|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-0.56|-1.18|<0.0001
92374389|NCT02379988|184650962|EQUIVALENCE|The wilcoxon paired signed rank test was used as the primary analysis because of the non-normal distributions.|||||=|0.011||||||P-value for Free breathing and Breath Holding Lung Mean|Wilcoxon (Mann-Whitney)|||||||=0 .0110
92374390|NCT02379988|184650962|EQUIVALENCE|The wilcoxon paired signed rank test was used as the primary analysis because of the non-normal distributions.|||||=|0.5098||||||P-value for Free breathing and Breath Holding LAD Mean|Wilcoxon (Mann-Whitney)|||||||=0.5098
92374391|NCT02379988|184650963|EQUIVALENCE|The wilcoxon paired signed rank test was used as the primary analysis because of the non-normal distributions|||||=|0.001||||||P-value for Heart Max Free breathing and Breath Hold|Wilcoxon (Mann-Whitney)|||||||=0.0010
92374392|NCT02379988|184650963|EQUIVALENCE|The wilcoxon paired signed rank test was used as the primary analysis because of the non-normal distributions.|||||=|0.011||||||P-value for Lung Max Free breathing and Breath Hold|Wilcoxon (Mann-Whitney)|||||||=0.0110
92374393|NCT02379988|184650964|EQUIVALENCE|Paired T-test|||||=|0.01||||||P-value for Large breast volume group|Paired T-test|||||||=0.01
92374394|NCT02379988|184650964|EQUIVALENCE|Paired T-test|||||=|0.1||||||P-value for Small breast volume group|Paired T-test|||||||=0.10
92374395|NCT02379988|184650965|EQUIVALENCE|Wilcoxon test was used due to the non-normal distribution of the data|||||=|0.7776|||||||Wilcoxon (Mann-Whitney)|||||||=0.7776
92374396|NCT02089464|184650968|SUPERIORITY|||||||0.76|||||||Chi-squared|||||||0.76
92374397|NCT02089464|184650969|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.80
92374398|NCT02089464|184650970|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
92374399|NCT02089464|184650971|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
92374400|NCT02089464|184650972|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
92374401|NCT02089464|184650974|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||||||0.95
92374402|NCT02089464|184650975|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
92374403|NCT02089464|184650976|SUPERIORITY|||||||0.63|||||||Chi-squared|||||||0.63
92374404|NCT04262882|184650990|SUPERIORITY||Odds Ratio (OR)|1.67||||0.2|TWO_SIDED|95.0|0.77|3.64|||Regression, Logistic|Adjusted for age and religion. Analysis in GEE to account for dependence in repeated, dyadic data.|Reference group is the comparator arm|||3.64|0.77|0.20
92374405|NCT04262882|184650993|SUPERIORITY||Wald Chi-Square|35.2|||<|0.001|TWO_SIDED||||||Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.|Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints.|||||<0.001
92374406|NCT04262882|184650993|SUPERIORITY||unstandardized beta|0.41|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374407|NCT04262882|184650993|SUPERIORITY||unstandardized beta|0.4|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374408|NCT04262882|184650994|SUPERIORITY||Wald Chi-Square|64.53|||<|0.001|TWO_SIDED|||||Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints.||"Tests of significance for each follow-up time point:~7-months: unstandardized beta=1.08, standard error=0.14, p \< 0.001; 10-months: unstandardized beta=0.79, standard error=0.14, p \< 0.001"|||<0.001
92374409|NCT04262882|184650994|SUPERIORITY||Mean Difference (Final Values)|1.08|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||Adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92169039|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|0.96||||0.6527|TWO_SIDED|95.0|0.8|1.15|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=30% reduction||1.15|0.80|0.6527
92409058|NCT02249832|184708216|EQUIVALENCE|A significance level of 0.05 was used (two-sided).|||||<|0.001|||||||ANOVA|||A 3x3 repeated measures ANOVA was performed with group (mean gait speed in the low, moderate, and high groups) and time (admission, discharge (week 6), and follow-up (overall week 18) in each condition) as factors. Null hypothesis was that there was no difference in mean gait speed over time across the three groups. A significance level of 0.05 was used (two-sided).||||<0.001
92409059|NCT02249832|184708217|EQUIVALENCE|A 3x3 repeated measures ANOVA was performed with group (mean distance walked in the low, moderate, and high groups) and time (admission, discharge (week 6), and follow-up (overall week 18) in each condition) as factors. Null hypothesis was that there was no difference in mean gait speed over time across the three groups. A significance level of 0.05 was used (two-sided).||||||0.001||||||A significance level of 0.05 was used (two-sided).|ANOVA|||||||0.001
92409060|NCT02914301|184708231|OTHER|We compared outcomes between study arms using t-tests for continuous outcomes.|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92409061|NCT04881942|184708279|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|89.44||||0.0184|TWO_SIDED|95.0|15.77|163.11|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham)|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||163.11|15.77|0.0184
92409062|NCT04881942|184708279|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|195.7|||<|0.0001|TWO_SIDED|95.0|122.01|269.38|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||269.38|122.01|<.0001
92409063|NCT04881942|184708279|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|168.83|||<|0.0001|TWO_SIDED|95.0|95.17|242.5|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||242.50|95.17|<.0001
92409064|NCT04881942|184708279|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|182.65|||<|0.0001|TWO_SIDED|95.0|108.63|256.67|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||256.67|108.63|<.0001
92446284|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.102||0.6472|TWO_SIDED|95.0|-0.25|0.16|||MMRM|||Hypochondriasis, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.25|0.6472
92169040|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|0.92||||0.3857|TWO_SIDED|95.0|0.77|1.1|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=30% reduction||1.10|0.77|0.3857
92169041|NCT02528188|184227130|SUPERIORITY||Odds Ratio, log|1.06||||0.528|TWO_SIDED|95.0|0.89|1.27|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=50% reduction||1.27|0.89|0.5280
92169042|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|0.94||||0.5355|TWO_SIDED|95.0|0.79|1.13|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=50% reduction||1.13|0.79|0.5355
92228901|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-9.0||||0.0309|TWO_SIDED|95.0|-16.0|-1.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|TC||-1|-16|0.0309
92228902|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-19.0|||<|0.0001|TWO_SIDED|95.0|-26.0|-12.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|TC||-12|-26|<0.0001
92228903|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-17.0|||<|0.0001|TWO_SIDED|95.0|-25.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|TC||-9|-25|<0.0001
92228904|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|6.0||||0.4016|TWO_SIDED|95.0|-7.0|21.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||21|-7|0.4016
92228905|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-7.0||||0.2589|TWO_SIDED|95.0|-18.0|6.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||6|-18|0.2589
92228906|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-12.0||||0.0616|TWO_SIDED|95.0|-24.0|1.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||1|-24|0.0616
92228907|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-8.0||||0.1918|TWO_SIDED|95.0|-18.0|4.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||4|-18|0.1918
92228908|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-24.0|||<|0.0001|TWO_SIDED|95.0|-32.0|-14.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||-14|-32|<0.0001
92228909|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-10.0||||0.1132|TWO_SIDED|95.0|-21.0|3.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||3|-21|0.1132
92228910|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-24.0||||0.0177|TWO_SIDED|95.0|-40.0|-5.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-5|-40|0.0177
92228911|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-38.0|||<|0.0001|TWO_SIDED|95.0|-51.0|-23.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-23|-51|<0.0001
92228912|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-30.0||||0.0033|TWO_SIDED|95.0|-45.0|-12.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-12|-45|0.0033
92228913|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-10.0||||0.0523|TWO_SIDED|95.0|-18.0|0.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||0|-18|0.0523
92374410|NCT04262882|184650994|SUPERIORITY||unstandardized beta|0.79|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||Adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374411|NCT04262882|184650995|SUPERIORITY||Wald Chi-Square|23.89|||<|0.001|TWO_SIDED||||||Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374412|NCT04262882|184650995|SUPERIORITY||unstandardized beta|0.31|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||P value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374413|NCT04262882|184650995|SUPERIORITY||unstandardized beta|0.19|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374414|NCT04262882|184650996|SUPERIORITY||Wald Chi-Square|48.26|||<|0.001|TWO_SIDED||||||Regression, Linear|Models control for age and religion. Models were run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374415|NCT04262882|184650996|SUPERIORITY||unstandardized beta|0.68|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Cox|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374416|NCT04262882|184650996|SUPERIORITY||unstandardized beta|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.04|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.04
92374417|NCT04262882|184650997|SUPERIORITY||Wald Chi-Square|9.87||||0.007|TWO_SIDED|||||Arm\*Time p value for 10-months follow up overall.|Regression, Linear|Model controls for age and religion. Model was run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.007
92228914|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-18.0||||0.0002|TWO_SIDED|95.0|-26.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||-9|-26|0.0002
92228915|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-19.0||||0.0004|TWO_SIDED|95.0|-28.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||-9|-28|0.0004
92228916|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-3.0||||0.4204|TWO_SIDED|95.0|-12.0|5.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||5|-12|0.4204
92409065|NCT04881942|184708282|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|5972.3|||<|0.0001|TWO_SIDED|95.0|4191.1|7753.6|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||7753.6|4191.1|<.0001
92409066|NCT04881942|184708282|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|6099.5|||<|0.0001|TWO_SIDED|95.0|4317.8|7881.2|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||7881.2|4317.8|<.0001
92409067|NCT04881942|184708282|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|6484.7|||<|0.0001|TWO_SIDED|95.0|4701.7|8267.6|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||8267.6|4701.7|<.0001
92409068|NCT04881942|184708282|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|5366.8|||<|0.0001|TWO_SIDED|95.0|3575.9|7157.7|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||7157.7|3575.9|<.0001
92446285|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.119||0.8654|TWO_SIDED|95.0|-0.26|0.22|||MMRM|||Hypochondriasis, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.26|0.8654
92446286|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.14||0.2101|TWO_SIDED|95.0|-0.48|0.11|||MMRM|||Hypochondriasis, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.48|0.2101
92169043|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7732|TWO_SIDED|95.0|0.84|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=70% reduction||1.26|0.84|0.7732
92169044|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9397|TWO_SIDED|95.0|0.82|1.23|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=70% reduction||1.23|0.82|0.9397
92277846|NCT01492582|184457929|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|-0.44|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
92277847|NCT01492582|184457930|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||Injection site - Pain, any; Injection site - Swelling, any; Injection site - Erythema, any; Systemic - Nausea Historical Healthy Population: Reported from Gardasil Package Insert 04/2015, Tables 1, 2, 5, and 6||||<0.001
92277848|NCT01492582|184457930|SUPERIORITY|||||||0.03|||||||Chi-squared, Corrected|||Systemic - Fever Historical Healthy Population: Reported from Gardasil Package Insert 04/2015, Tables 1, 2, 5, and 6||||0.03
92277849|NCT01492582|184457930|SUPERIORITY|||||||0.48|||||||Chi-squared, Corrected|||Systemic - Dizziness Historical Healthy Population: Reported from Gardasil Package Insert 04/2015, Tables 1, 2, 5, and 6||||0.48
92446287|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.126||0.7128|TWO_SIDED|95.0|-0.3|0.21|||MMRM|||Hypochondriasis, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.30|0.7128
92228917|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-9.0||||0.0441|TWO_SIDED|95.0|-16.0|0.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||0|-16|0.0441
92374418|NCT04262882|184650997|SUPERIORITY|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.|unstandardized beta|-0.16|STANDARD_ERROR_OF_MEAN|0.32||0.6|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|||||||0.60
92374419|NCT04262882|184650997|SUPERIORITY||Slope|-0.53|STANDARD_ERROR_OF_MEAN|0.07||0.07|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.07
92374420|NCT04262882|184650998|SUPERIORITY||Wald Chi-Square|10.42||||0.005|TWO_SIDED||||||Regression, Logistic|Model controls for age and religion. Model was run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.005
92374421|NCT04262882|184650998|SUPERIORITY||Odds Ratio (OR)|1.36||||0.05|TWO_SIDED|95.0|0.99|1.85||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Logistic|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||1.85|0.99|0.05
92374422|NCT04262882|184650998|SUPERIORITY||Odds Ratio (OR)|0.96||||0.71|TWO_SIDED|95.0|0.75|1.22||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Logistic|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||1.22|0.75|0.71
92374423|NCT04262882|184650999|SUPERIORITY||Wald Chi-Square|13.4||||0.001|TWO_SIDED||||||Regression, Linear|Model controls for age and religion. Model was run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.001
92374424|NCT04262882|184650999|SUPERIORITY||unstandardized beta|0.13|STANDARD_ERROR_OF_MEAN|0.07||0.07|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.07
92374425|NCT04262882|184650999|SUPERIORITY||unstandardized beta|0.21|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374426|NCT04262882|184651000|SUPERIORITY||Wald Chi-Square|78.81||||0.001|TWO_SIDED||||||Regression, Linear|Model controls for age and religion. Model was run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.001
92374427|NCT04262882|184651000|SUPERIORITY||unstandardized beta|1.19|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374428|NCT04262882|184651000|SUPERIORITY||unstandardized beta|1.65|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.001
92374429|NCT04262882|184651001|SUPERIORITY||Wald Chi-Square|19.46|||<|0.001|TWO_SIDED||||||Regression, Linear|Model controls for age and religion. Model was run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374430|NCT04262882|184651001|SUPERIORITY||unstandardized beta|-0.13|STANDARD_ERROR_OF_MEAN|0.05||0.008|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.008
92374431|NCT04262882|184651001|SUPERIORITY||unstandardized beta|-0.17|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
92374432|NCT02950155|184651020|SUPERIORITY||probability ratio|2.48||||0.007|TWO_SIDED|95.0|1.2|5.11|||Fisher Exact|||The primary end-point was analyzed as an intention-to-treat analysis, with Fisher's exact test of the difference in proportion, with α=0·05 to indicate statistically significant difference||5.11|1.20|0.007
92374433|NCT02950155|184651021|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.79|TWO_SIDED|95.0|-4.4|2.1|||Wilcoxon (Mann-Whitney)|||Subjects receiving rescue treatment before evaluation being censored (per-protocol analysis)||2.1|-4.4|0.79
92374434|NCT02950155|184651022|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.34|TWO_SIDED|95.0|-3.3|0.8|||Wilcoxon (Mann-Whitney)|||Subjects receiving rescue treatment before evaluation being censored (per-protocol analysis)||0.8|-3.3|0.34
92374435|NCT02950155|184651023|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.47|TWO_SIDED|95.0|-8.2|3.8|||Wilcoxon (Mann-Whitney)|||Subjects receiving rescue treatment before evaluation being censored (per-protocol analysis)||3.8|-8.2|0.47
92374436|NCT02950155|184651024|SUPERIORITY||probability ratio|1.89||||0.036|TWO_SIDED|95.0|1.04|3.44|||Fisher Exact|||||3.44|1.04|0.036
92374437|NCT00468676|184651031|SUPERIORITY_OR_OTHER||scaled marginal model parameter|-1.57|STANDARD_ERROR_OF_MEAN|0.28||0.001|TWO_SIDED|95.0|-2.12|-1.02||Significance of the four outcome composite|Scaled Marginal Model||Intervention group had significantly lower scaled marginal mean scores than usual care|||-1.02|-2.12|.001
92228918|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-7.0||||0.1324|TWO_SIDED|95.0|-16.0|2.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||2|-16|0.1324
92228919|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-29.0||||0.1009|TWO_SIDED|95.0|-53.0|7.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-48||7|-53|0.1009
92409069|NCT04881942|184708285|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.17||||0.915|TWO_SIDED|95.0|-2.92|3.25|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0.|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||3.25|-2.92|0.9150
92409070|NCT04881942|184708285|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.35||||0.8217|TWO_SIDED|95.0|-2.7|3.4|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||3.40|-2.70|0.8217
92409071|NCT04881942|184708285|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|21.11|||<|0.0001|TWO_SIDED|95.0|18.06|24.16|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0.|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||24.16|18.06|<.0001
92409072|NCT04881942|184708285|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|31.01|||<|0.0001|TWO_SIDED|95.0|27.91|34.12|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||34.12|27.91|<.0001
92409073|NCT04881942|184708288|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|1678.4||||0.0031|TWO_SIDED|95.0|592.14|2764.6|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||2764.6|592.14|.0031
92409074|NCT04881942|184708288|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|1199.7||||0.031|TWO_SIDED|95.0|113.74|2285.7|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||2285.7|113.74|.0310
92446288|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.09||0.3297|TWO_SIDED|95.0|-0.27|0.09|||MMRM|||Hypochondriasis, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.27|0.3297
92277850|NCT01492582|184457930|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||Injection site - Pain, any; Injection site - Swelling, any; Injection site - Erythema, any; Systemic - Nausea; Systemic - Fatigue Historical Healthy Population - As reported by Moreira et. al, 2016, Pediatrics, Table 5||||<0.001
92409075|NCT04881942|184708288|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|3354.5|||<|0.0001|TWO_SIDED|95.0|2266.6|4442.3|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||4442.3|2266.6|<.0001
92409076|NCT04881942|184708288|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|2511.0|||<|0.0001|TWO_SIDED|95.0|1416.1|3605.9|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||3605.9|1416.1|<.0001
92409077|NCT04881942|184708291|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.25||||0.0002|TWO_SIDED|95.0|0.12|0.38|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0.|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||0.38|0.12|.0002
92409078|NCT04881942|184708291|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.25||||0.0003|TWO_SIDED|95.0|0.12|0.38|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||0.38|0.12|0.0003
92409079|NCT04881942|184708291|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.34|||<|0.0001|TWO_SIDED|95.0|0.21|0.47|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||0.47|0.21|<.0001
92409080|NCT04881942|184708291|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.3|||<|0.0001|TWO_SIDED|95.0|0.17|0.43|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||0.43|0.17|<.0001
92228920|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-52.0||||0.0005|TWO_SIDED|95.0|-68.0|-28.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-48||-28|-68|0.0005
92228921|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-21.0||||0.3004|TWO_SIDED|95.0|-50.0|24.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-48||24|-50|0.3004
92228922|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-2.0||||0.6135|TWO_SIDED|95.0|-10.0|7.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-100||7|-10|0.6135
92228923|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-7.0||||0.1127|TWO_SIDED|95.0|-15.0|2.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-100||2|-15|0.1127
92228924|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-5.0||||0.2576|TWO_SIDED|95.0|-14.0|4.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-100||4|-14|0.2576
92228925|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-36.0||||0.0017|TWO_SIDED|95.0|-52.0|-16.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoCIII||-16|-52|0.0017
92228926|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-58.0|||<|0.0001|TWO_SIDED|95.0|-68.0|-45.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoCIII||-45|-68|<0.0001
92228927|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-47.0|||<|0.0001|TWO_SIDED|95.0|-61.0|-29.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoCIII||-29|-61|<0.0001
92228928|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-11.0||||0.0193|TWO_SIDED|95.0|-20.0|-2.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoAI||-2|-20|0.0193
92228929|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-26.0|||<|0.0001|TWO_SIDED|95.0|-33.0|-19.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoAI||-19|-33|<0.0001
92374438|NCT00468676|184651032|SUPERIORITY_OR_OTHER||Slope|0.01|||<|0.01||95.0|||||general estimating equations|||Disability outcomes were measured at six and 12 months after randomization using linear regression models adjusted for baseline values. The disability models combined information across time points and were estimated using general estimating equations to account for correlation. All analyses were based on intent to treat principles||||<0.01
92374439|NCT00468676|184651034|SUPERIORITY_OR_OTHER||Estimated Between Group Difference|-0.41|||<|0.001|TWO_SIDED|95.0|-0.56|-0.26|||Generalized-Estimating-Equation Model||Between Group Difference is the difference in the change from Baseline to 12 month data calculated from a generalized-estimating-equation model predicting a 6- and 12-month outcome.|||-0.26|-0.56|<0.001
92228930|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-14.0||||0.0063|TWO_SIDED|95.0|-23.0|-4.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoAI||-4|-23|0.0063
92228931|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-2.0||||0.8873|TWO_SIDED|95.0|-21.0|23.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|FFA||23|-21|0.8873
92228932|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB|-8.0||||0.4404|TWO_SIDED|95.0|-27.0|15.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|FFA||15|-27|0.4404
92374440|NCT00468676|184651035|SUPERIORITY_OR_OTHER||Estimated Between Group Difference|-3.4|||||TWO_SIDED|95.0|-6.9|0.1|||Generalized-Estimating-Equation Model||Between Group Difference is the difference in the change from Baseline to 12 month data calculated from a generalized-estimating-equation model predicting a 6- and 12-month outcome.|||0.1|-6.9|
92374441|NCT00468676|184651036|SUPERIORITY_OR_OTHER||Estimated Between Group Difference|-9.1|||||TWO_SIDED|95.0|-17.5|-0.8|||Regression, Linear||Between Group Difference is the difference in the change from Baseline to 12 month data calculated from a linear-regression model predicting a 12-month outcome.|||-0.8|-17.5|
92374442|NCT00468676|184651037|SUPERIORITY_OR_OTHER||Estimated Between Group Difference|-0.56|||||TWO_SIDED|95.0|-0.85|-0.27|||Generalized-Estimating-Equation Model||Between Group Difference is the difference in the change from Baseline to 12 month data calculated from a generalized-estimating-equation model predicting a 6- and 12-month outcome.|||-0.27|-0.85|
92228933|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB]|-1.0||||0.9665|TWO_SIDED|95.0|-22.0|27.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|FFA||27|-22|0.9665
92374443|NCT03569748|184651038|NON_INFERIORITY|Margin=0.04|Proportion Difference|0.1342||||0.0051|TWO_SIDED|95.0|0.0014|0.2671|||Chi-squared, Corrected|||H0: P1-P2 ≤ -Margin||0.2671|0.0014|0.0051
92374444|NCT03569748|184651039|SUPERIORITY|||||||0.0003|||||||Fisher Exact|||||||0.0003
92374445|NCT03569748|184651040|SUPERIORITY||Percentage Difference|14.2||||0.0003|TWO_SIDED||||||Chi-squared, Corrected|||||||0.0003
92228934|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB]|-7.0||||0.4133|TWO_SIDED|95.0|-21.0|10.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Lp\[a\]||10|-21|0.4133
92228935|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB]|-6.0||||0.475|TWO_SIDED|95.0|-20.0|11.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Lp\[a\]||11|-20|0.4750
92228936|NCT03371355|184360486|SUPERIORITY||Mean Difference in % CFB]|-4.0||||0.6354|TWO_SIDED|95.0|-20.0|15.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Lp\[a\]||15|-20|0.6354
92228937|NCT03371355|184360487|SUPERIORITY||Least Squares Mean Difference|-17.2||||0.1799|TWO_SIDED|95.0|-42.53|8.1|||ANCOVA|||||8.10|-42.53|0.1799
92228938|NCT03371355|184360487|SUPERIORITY||Least Squares Mean Difference|13.8||||0.2867|TWO_SIDED|95.0|-11.83|39.49|||ANCOVA|||||39.49|-11.83|0.2867
92228939|NCT03371355|184360487|SUPERIORITY||Least Squares Mean Difference|2.2||||0.8812|TWO_SIDED|95.0|-26.78|31.14|||ANCOVA|||||31.14|-26.78|0.8812
92228940|NCT03371355|184360488|SUPERIORITY||Least Squares Mean Difference|-0.28||||0.3995|TWO_SIDED|95.0|-0.94|0.38|||ANCOVA|||||0.38|-0.94|0.3995
92228941|NCT03371355|184360488|SUPERIORITY||Least Squares Mean Difference|0.08||||0.8155|TWO_SIDED|95.0|-0.59|0.75|||ANCOVA|||||0.75|-0.59|0.8155
92277851|NCT01492582|184457930|SUPERIORITY|||||||0.07|||||||Chi-squared, Corrected|||Systemic - Headache Historical Healthy Population - As reported by Moreira et. al, 2016, Pediatrics, Table 5||||0.07
92374446|NCT01926041|184651055|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.008|TWO_SIDED|95.0|0.48|0.84||Statistical significance levels were determined by two-tailed tests (P \< 0.05).|Regression, Cox|||||0.84|0.48|0.008
92374447|NCT01926041|184651056|SUPERIORITY||Cox Proportional Hazard|1.85||||0.023|TWO_SIDED|95.0|1.13|3.04||Statistical significance levels were determined by two-tailed tests (P \< 0.05).|Regression, Cox|||||3.04|1.13|0.023
92374448|NCT01926041|184651062|OTHER||Beta Coefficient|-0.1|STANDARD_ERROR_OF_MEAN|0.16|<|0.05|TWO_SIDED||||||Regression, Linear|||||||<0.05
92374449|NCT00147017|184651076|SUPERIORITY|||||||0.05||||||calculated|Kruskal-Wallis|||||||0.05
92374450|NCT00147017|184651077|SUPERIORITY|||||||0.05||||||calculated|Kruskal-Wallis|||||||0.05
92374451|NCT00147017|184651078|SUPERIORITY|||||||0.05||||||calculated|Kruskal-Wallis|||||||0.05
92374452|NCT05032690|184651097|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|99.17|||||TWO_SIDED|90.0|93.72|104.93|||Mixed Models Analysis|||"For comparison of Bosutinib 4\*25 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fed, the model is a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 4\*25 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fed."||104.93|93.72|
92374453|NCT05032690|184651097|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|135.9|||||TWO_SIDED|90.0|109.28|169.01|||Mixed Models Analysis|||"For comparison of Bosutinib 1\*100 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fasted, the model is a mixed effect model with sequence and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 1\*100 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fasted."||169.01|109.28|
92409081|NCT04881942|184708298|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Final Values)|0.035|||<|0.0001|TWO_SIDED|95.0|0.031|0.039|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.039|0.031|<.0001
92409082|NCT04881942|184708298|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.034|||<|0.0001|TWO_SIDED|95.0|0.03|0.038|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.038|0.030|<.0001
92409083|NCT04881942|184708298|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.04|||<|0.0001|TWO_SIDED|95.0|0.036|0.044|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.044|0.036|<.0001
92228942|NCT03371355|184360488|SUPERIORITY||Least Squares Mean Difference|0.16||||0.6466|TWO_SIDED|95.0|-0.54|0.86|||ANCOVA|||||0.86|-0.54|0.6466
92277852|NCT01492582|184457930|SUPERIORITY|||||||0.28|||||||Chi-squared, Corrected|||Systemic - Fever Historical Healthy Population - As reported by Moreira et. al, 2016, Pediatrics, Table 5||||0.28
92374454|NCT05032690|184651098|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|93.77|||||TWO_SIDED|90.0|90.08|97.61|||Mixed Models Analysis|||"For comparison of Bosutinib 4\*25 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fed, the model is a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 4\*25 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fed."||97.61|90.08|
92374455|NCT05032690|184651098|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|162.54|||||TWO_SIDED|90.0|130.25|202.84|||Mixed Models Analysis|||"For comparison of Bosutinib 1\*100 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fasted, the model is a mixed effect model with sequence and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 1\*100 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fasted"||202.84|130.25|
92374456|NCT05032690|184651099|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|98.21|||||TWO_SIDED|90.0|93.83|102.8|||Mixed Models Analysis|||"For comparison of Bosutinib 4\*25 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fed, the model is a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 4\*25 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fed."||102.80|93.83|
92228943|NCT03371355|184360489|SUPERIORITY||Least Squares Mean Difference|1.39||||0.7393|TWO_SIDED|95.0|-9.66|6.89|||ANCOVA|||||6.89|-9.66|0.7393
92228944|NCT03371355|184360489|SUPERIORITY||Least Squares Mean Difference|-0.13||||0.9744|TWO_SIDED|95.0|-8.45|8.18|||ANCOVA|||||8.18|-8.45|0.9744
92228945|NCT03371355|184360489|SUPERIORITY||Least Squares Mean Difference|3.58||||0.4477|TWO_SIDED|95.0|-5.75|12.91|||ANCOVA|||||12.91|-5.75|0.4477
92228946|NCT03371355|184360490|SUPERIORITY||Least Squares Mean Difference|-1.794||||0.471|TWO_SIDED|95.0|-6.72|3.14|||ANCOVA|||||3.14|-6.72|0.4710
92374457|NCT05032690|184651099|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|146.7|||||TWO_SIDED|90.0|117.88|182.58|||Mixed Models Analysis|||"For comparison of Bosutinib 1\*100 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fasted, the model is a mixed effect model with sequence and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 1\*100 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fasted."||182.58|117.88|
92228947|NCT03371355|184360490|SUPERIORITY||Least Squares Mean Difference|0.26||||0.9169|TWO_SIDED|95.0|-4.68|5.2|||ANCOVA|||||5.20|-4.68|0.9169
92228948|NCT03371355|184360490|SUPERIORITY||Least Squares Mean Difference|2.133||||0.4484|TWO_SIDED|95.0|-3.44|7.7|||ANCOVA|||||7.70|-3.44|0.4484
92228949|NCT03371355|184360491|SUPERIORITY||Least Squares Mean Difference|-23.2||||0.0916|TWO_SIDED|95.0|-50.17|3.83|||ANCOVA|||||3.83|-50.17|0.0916
92228950|NCT03371355|184360491|SUPERIORITY||Least Squares Mean Difference|-11.4||||0.4032|TWO_SIDED|95.0|-38.51|15.63|||ANCOVA|||||15.63|-38.51|0.4032
92228951|NCT03371355|184360491|SUPERIORITY||Least Squares Mean Difference|1.9||||0.8959|TWO_SIDED|95.0|-27.56|31.45|||ANCOVA|||||31.45|-27.56|0.8959
92228952|NCT03371355|184360492|SUPERIORITY||Least Squares Mean Difference|-0.052||||0.3202|TWO_SIDED|95.0|-0.16|0.05|||ANCOVA|||||0.05|-0.16|0.3202
92228953|NCT03371355|184360492|SUPERIORITY||Least Squares Mean Difference|-0.01||||0.8485|TWO_SIDED|95.0|-0.11|0.09|||ANCOVA|||||0.09|-0.11|0.8485
92277853|NCT01492582|184457930|SUPERIORITY|||||||0.45|||||||Fisher Exact|||Systemic - Dizziness Historical Healthy Population - As reported by Moreira et. al, 2016, Pediatrics, Table 5||||0.45
92228954|NCT03371355|184360492|SUPERIORITY||Least Squares Mean Difference|0.0314||||0.5812|TWO_SIDED|95.0|-0.08|0.14|||ANCOVA|||||0.14|-0.08|0.5812
92228955|NCT03371355|184360493|SUPERIORITY||Least Squares Mean Difference|0.43||||0.6157|TWO_SIDED|95.0|-1.28|2.15|||ANCOVA|||||2.15|-1.28|0.6157
92228956|NCT03371355|184360493|SUPERIORITY||Least Squares Mean Difference|0.01||||0.9869|TWO_SIDED|95.0|-1.66|1.69|||ANCOVA|||||1.69|-1.66|0.9869
92228957|NCT03371355|184360493|SUPERIORITY||Least Squares Mean Difference|-0.33||||0.7084|TWO_SIDED|95.0|-2.07|1.42|||ANCOVA|||||1.42|-2.07|0.7084
92228958|NCT03371355|184360494|SUPERIORITY||Least Squares Mean Difference|2.79||||0.4431|TWO_SIDED|95.0|-4.41|10.0|||ANCOVA|||SBP||10.00|-4.41|0.4431
92228959|NCT03371355|184360494|SUPERIORITY||Least Squares Mean Difference|2.08||||0.563|TWO_SIDED|95.0|-5.05|9.22|||ANCOVA|||SBP||9.22|-5.05|0.5630
92228960|NCT03371355|184360494|SUPERIORITY||Least Squares Mean Difference|-1.63||||0.6634|TWO_SIDED|95.0|-9.06|5.79|||ANCOVA|||SBP||5.79|-9.06|0.6634
92228961|NCT03371355|184360494|SUPERIORITY||Least Squares Mean Difference|4.11||||0.0937|TWO_SIDED|95.0|-0.71|8.92|||ANCOVA|||DBP||8.92|-0.71|0.0937
92228962|NCT03371355|184360494|SUPERIORITY||Least Squares Mean Difference|3.49||||0.1522|TWO_SIDED|95.0|-1.31|8.28|||ANCOVA|||DBP||8.28|-1.31|0.1522
92228963|NCT03371355|184360494|SUPERIORITY||Least Squares Mean Difference|1.62||||0.5188|TWO_SIDED|95.0|-3.35|6.59|||ANCOVA|||DBP||6.59|-3.35|0.5188
92228964|NCT03371355|184360495|SUPERIORITY||Least Squares Mean Difference|0.57||||0.5299|TWO_SIDED|95.0|-1.24|2.39|||ANCOVA|||Weight||2.39|-1.24|0.5299
92228965|NCT03371355|184360495|SUPERIORITY||Least Squares Mean Difference|-0.12||||0.8919|TWO_SIDED|95.0|-1.89|1.65|||ANCOVA|||Weight||1.65|-1.89|0.8919
92228966|NCT03371355|184360495|SUPERIORITY||Least Squares Mean Difference|-0.4||||0.6653|TWO_SIDED|95.0|-2.25|1.44|||ANCOVA|||Weight||1.44|-2.25|0.6653
92228967|NCT03371355|184360495|SUPERIORITY||Least Squares Mean Difference|2.35||||0.4213|TWO_SIDED|95.0|-3.43|8.14|||ANCOVA|||SBP||8.14|-3.43|0.4213
92374458|NCT00487942|184651106|SUPERIORITY_OR_OTHER||Effect size|-0.04|||||TWO_SIDED|95.0|-0.81|0.73||Inferential statistics were not performed.|ANCOVA|||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.73|-0.81|
92374459|NCT00487942|184651106|SUPERIORITY_OR_OTHER||Effect size|0.09|||||TWO_SIDED|95.0|-0.68|0.86||Inferential statistics were not performed|ANCOVA|||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.86|-0.68|
92374460|NCT00487942|184651106|SUPERIORITY_OR_OTHER||Effect size|0.15|||||TWO_SIDED|95.0|-0.66|0.95||Inferential statistics were not performed.|ANCOVA|||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.95|-0.66|
92409084|NCT04881942|184708298|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.037|||<|0.0001|TWO_SIDED|95.0|0.033|0.041|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.041|0.033|<.0001
92228968|NCT03371355|184360495|SUPERIORITY||Least Squares Mean Difference|1.23||||0.6696|TWO_SIDED|95.0|-4.49|6.96|||ANCOVA|||SBP||6.96|-4.49|0.6696
92228969|NCT03371355|184360495|SUPERIORITY||Least Squares Mean Difference|-1.23||||0.6819|TWO_SIDED|95.0|-7.2|4.73|||ANCOVA|||SBP||4.73|-7.20|0.6819
92228970|NCT03371355|184360495|SUPERIORITY||Least Squares Mean Difference|5.01||||0.1171|TWO_SIDED|95.0|-1.28|11.31|||ANCOVA|||DBP||11.31|-1.28|0.1171
92228971|NCT03371355|184360495|SUPERIORITY||Least Squares Mean Difference|3.94||||0.2155|TWO_SIDED|95.0|-2.33|10.21|||ANCOVA|||DBP||10.21|-2.33|0.2155
92228972|NCT03371355|184360495|SUPERIORITY||Least Squares Mean Difference|1.7||||0.6034|TWO_SIDED|95.0|-4.79|8.2|||ANCOVA|||DBP||8.20|-4.79|0.6034
92409085|NCT04881942|184708299|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.036|||<|0.0001|TWO_SIDED|95.0|0.031|0.04|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.040|0.031|<.0001
92409086|NCT04881942|184708299|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.036|||<|0.0001|TWO_SIDED|95.0|0.032|0.041|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.041|0.032|<.0001
92228973|NCT03371355|184360496|SUPERIORITY||Least Squares Mean Difference|0.98||||0.5752|TWO_SIDED|95.0|-2.48|4.44|||ANCOVA|||||4.44|-2.48|0.5752
92228974|NCT03371355|184360496|SUPERIORITY||Least Squares Mean Difference|4.09||||0.023|TWO_SIDED|95.0|0.58|7.59|||ANCOVA|||||7.59|0.58|0.0230
92228975|NCT03371355|184360496|SUPERIORITY||Least Squares Mean Difference|1.57||||0.3965|TWO_SIDED|95.0|-2.1|5.25|||ANCOVA|||||5.25|-2.10|0.3965
92374461|NCT00487942|184651107|SUPERIORITY_OR_OTHER||Effect size|0.02|||||TWO_SIDED|95.0|-0.8|0.83||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.83|-0.80|
92409087|NCT04881942|184708299|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.041|||<|0.0001|TWO_SIDED|95.0|0.037|0.046|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.046|0.037|<.0001
92409088|NCT04881942|184708299|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.038|||<|0.0001|TWO_SIDED|95.0|0.033|0.042|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.042|0.033|<.0001
92409089|NCT04881942|184708300|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.536|||<|0.0001|TWO_SIDED|95.0|0.407|0.665|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.665|0.407|<.0001
92409090|NCT04881942|184708300|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.408|||<|0.0001|TWO_SIDED|95.0|0.28|0.537|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.537|0.280|<.0001
92409091|NCT04881942|184708300|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.468|||<|0.0001|TWO_SIDED|95.0|0.339|0.596|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.596|0.339|<.0001
92409092|NCT04881942|184708300|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.43|||<|0.0001|TWO_SIDED|95.0|0.301|0.559|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.559|0.301|<.0001
92409093|NCT04881942|184708302|EQUIVALENCE|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0|Mean Difference (Final Values)|277.79|||<|0.0001|TWO_SIDED|95.0|213.62|341.96|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0||341.96|213.62|<.0001
92409094|NCT04881942|184708302|EQUIVALENCE|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0|Mean Difference (Final Values)|241.32|||<|0.0001|TWO_SIDED|95.0|176.99|305.64|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0||305.64|176.99|<.0001
92228976|NCT03371355|184360497|SUPERIORITY||Least Squares Mean Difference|12.44||||0.3023|TWO_SIDED|95.0|-11.39|36.26|||ANCOVA|||||36.26|-11.39|0.3023
92228977|NCT03371355|184360497|SUPERIORITY||Least Squares Mean Difference|26.03||||0.035|TWO_SIDED|95.0|1.87|50.19|||ANCOVA|||||50.19|1.87|0.0350
92228978|NCT03371355|184360497|SUPERIORITY||Least Squares Mean Difference|12.27||||0.3374|TWO_SIDED|95.0|-13.02|37.55|||ANCOVA|||||37.55|-13.02|0.3374
92277854|NCT00096265|184457944|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.43||||0.93|TWO_SIDED|95.0|0.89|2.31||One-sided|Log Rank||WBRT + SRS is the denominator of the hazard ratio.|120 patients per arm required to detect a 33% reduction in hazard rate corresponding to improvement in MST of 5.9 (null hypothesis) to 8.9 months with a one-sided type I error rate of 0.025 and 85% power.||2.31|0.89|0.93
92228979|NCT03371355|184360499|SUPERIORITY||Least Squares Mean Difference|-2.59||||0.4583|TWO_SIDED|95.0|-9.49|4.31|||ANCOVA|||||4.31|-9.49|0.4583
92228980|NCT03371355|184360499|SUPERIORITY||Least Squares Mean Difference|-5.71||||0.0943|TWO_SIDED|95.0|-12.43|1.0|||ANCOVA|||||1.00|-12.43|0.0943
92228981|NCT03371355|184360499|SUPERIORITY||Least Squares Mean Difference|-4.57||||0.1909|TWO_SIDED|95.0|-11.45|2.32|||ANCOVA|||||2.32|-11.45|0.1909
92228982|NCT03371355|184360500|SUPERIORITY||Least Squares Mean Difference|7.1||||0.1294|TWO_SIDED|95.0|-2.1|16.22|||ANCOVA|||ALT||16.22|-2.10|0.1294
92228983|NCT03371355|184360500|SUPERIORITY||Least Squares Mean Difference|14.8||||0.0012|TWO_SIDED|95.0|5.98|23.59|||ANCOVA|||ALT||23.59|5.98|0.0012
92228984|NCT03371355|184360500|SUPERIORITY||Least Squares Mean Difference|8.9||||0.0594|TWO_SIDED|95.0|-0.36|18.11|||ANCOVA|||ALT||18.11|-0.36|0.0594
92374462|NCT00487942|184651107|SUPERIORITY_OR_OTHER||Effect size|0.31|||||TWO_SIDED|95.0|-0.51|1.14||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.14|-0.51|
92374463|NCT00487942|184651107|SUPERIORITY_OR_OTHER||Effect size|0.16|||||TWO_SIDED|95.0|-0.66|0.98||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.98|-0.66|
92374464|NCT00487942|184651108|SUPERIORITY_OR_OTHER||Effect size|0.25|||||TWO_SIDED|95.0|-0.51|1.01||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.01|-0.51|
92374465|NCT00487942|184651108|SUPERIORITY_OR_OTHER||Effect size|-0.1|||||TWO_SIDED|95.0|-0.86|0.66||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.66|-0.86|
92374466|NCT00487942|184651108|SUPERIORITY_OR_OTHER||Effect size|0.49|||||TWO_SIDED|95.0|-0.31|1.28||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.28|-0.31|
92374467|NCT00487942|184651109|SUPERIORITY_OR_OTHER||Effect Size|-0.27|||||TWO_SIDED|95.0|-1.03|0.48||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.48|-1.03|
92374468|NCT00487942|184651109|SUPERIORITY_OR_OTHER||Effect Size|0.11|||||TWO_SIDED|95.0|-0.65|0.88||Inferential Statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.88|-0.65|
92374469|NCT00487942|184651109|SUPERIORITY_OR_OTHER||Effect Size|-0.18|||||TWO_SIDED|95.0|-0.97|0.6||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.60|-0.97|
92374470|NCT00487942|184651110|SUPERIORITY_OR_OTHER||Effect Size|-0.32|||||TWO_SIDED|95.0|-1.08|0.44||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.44|-1.08|
92409095|NCT04881942|184708302|EQUIVALENCE|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0|Mean Difference (Final Values)|248.22|||<|0.0001|TWO_SIDED|95.0|184.01|312.43|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0||312.43|184.01|<.0001
92409096|NCT04881942|184708302|EQUIVALENCE|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0|Mean Difference (Final Values)|257.92|||<|0.0001|TWO_SIDED|95.0|193.58|322.26|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0||322.26|193.58|<.0001
92409097|NCT04881942|184708303|EQUIVALENCE|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0|Mean Difference (Final Values)|2.223|||<|0.0001|TWO_SIDED|95.0|1.915|2.58|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0||2.580|1.915|<.0001
92409098|NCT04881942|184708303|EQUIVALENCE|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0|Mean Difference (Final Values)|2.203|||<|0.0001|TWO_SIDED|95.0|1.897|2.557|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0||2.557|1.897|<.0001
92228985|NCT03371355|184360500|SUPERIORITY||[Least Squares Mean Difference|5.0||||0.073|TWO_SIDED|95.0|-0.47|10.45|||ANCOVA|||AST||10.45|-0.47|0.0730
92228986|NCT03371355|184360500|SUPERIORITY||Least Squares Mean Difference|8.4||||0.002|TWO_SIDED|95.0|3.17|13.7|||ANCOVA|||AST||13.70|3.17|0.0020
92228987|NCT03371355|184360500|SUPERIORITY||Least Squares Mean Difference|6.5||||0.02|TWO_SIDED|95.0|1.05|12.0|||ANCOVA|||AST||12.00|1.05|0.0200
92228988|NCT03371355|184360501|SUPERIORITY||Least Squares Mean Difference|-1.19||||0.4812|TWO_SIDED|95.0|-4.55|2.16|||ANCOVA|||||2.16|-4.55|0.4812
92228989|NCT03371355|184360501|SUPERIORITY||Least Squares Mean Difference|-1.53||||0.3679|TWO_SIDED|95.0|-4.88|1.83|||ANCOVA|||||1.83|-4.88|0.3679
92374471|NCT00487942|184651110|SUPERIORITY_OR_OTHER||Effect Size|-0.02|||||TWO_SIDED|95.0|-0.77|0.74||Inferential Statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.74|-0.77|
92374472|NCT00487942|184651110|SUPERIORITY_OR_OTHER||Effect Size|-0.1|||||TWO_SIDED|95.0|-0.89|0.68||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.68|-0.89|
92374473|NCT00487942|184651111|SUPERIORITY_OR_OTHER||Effect Size|0.15|||||TWO_SIDED|95.0|-0.61|0.9||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.90|-0.61|
92374474|NCT00487942|184651111|SUPERIORITY_OR_OTHER||Effect Size|0.25|||||TWO_SIDED|95.0|-0.5|1.01||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.01|-0.50|
92374475|NCT00487942|184651111|SUPERIORITY_OR_OTHER||Effect Size|0.46|||||TWO_SIDED|95.0|-0.34|1.25||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.25|-0.34|
92228990|NCT03371355|184360501|SUPERIORITY||Least Squares Mean Difference|-4.18||||0.021|TWO_SIDED|95.0|-7.72|-0.65|||ANCOVA|||||-0.65|-7.72|0.0210
92228991|NCT03371355|184360502|SUPERIORITY||Least Squares Mean Difference|-0.15||||0.6227|TWO_SIDED|95.0|-0.73|0.44|||ANCOVA|||||0.44|-0.73|0.6227
92228992|NCT03371355|184360502|SUPERIORITY||Least Squares Mean Difference|-0.38||||0.195|TWO_SIDED|95.0|-0.97|0.2|||ANCOVA|||||0.20|-0.97|0.1950
92228993|NCT03371355|184360502|SUPERIORITY||Least Squares Mean Difference|-0.38||||0.2271|TWO_SIDED|95.0|-1.0|0.24|||ANCOVA|||||0.24|-1.00|0.2271
92228994|NCT03371355|184360503|SUPERIORITY||Least Squares Mean Difference|17.06||||0.8591|TWO_SIDED|95.0|-173.57|207.69|||ANCOVA|||SAT||207.69|-173.57|0.8591
92228995|NCT03371355|184360503|SUPERIORITY||Least Squares Mean Difference|32.92||||0.7404|TWO_SIDED|95.0|-164.11|229.95|||ANCOVA|||SAT||229.95|-164.11|0.7404
92228996|NCT03371355|184360503|SUPERIORITY||Least Squares Mean Difference|-16.3||||0.8711|TWO_SIDED|95.0|-215.5|182.9|||ANCOVA|||SAT||182.90|-215.50|0.8711
92228997|NCT03371355|184360503|SUPERIORITY||Least Squares Mean Difference|4.95||||0.9569|TWO_SIDED|95.0|-176.64|186.53|||ANCOVA|||VAT||186.53|-176.64|0.9569
92228998|NCT03371355|184360503|SUPERIORITY||Least Squares Mean Difference|-24.26||||0.8025|TWO_SIDED|95.0|-216.53|168.02|||ANCOVA|||VAT||168.02|-216.53|0.8025
92228999|NCT03371355|184360503|SUPERIORITY||Least Squares Mean Difference|22.02||||0.8202|TWO_SIDED|95.0|-170.09|214.12|||ANCOVA|||VAT||214.12|-170.09|0.8202
92229000|NCT03371355|184360504|SUPERIORITY||Least Squares Mean Difference|0.11||||0.9734|TWO_SIDED|95.0|-6.47|6.69|||ANCOVA|||||6.69|-6.47|0.9734
92229001|NCT03371355|184360504|SUPERIORITY||Least Squares Mean Difference|-0.7||||0.8333|TWO_SIDED|95.0|-7.25|5.86|||ANCOVA|||||5.86|-7.25|0.8333
92229002|NCT03371355|184360504|SUPERIORITY||Least Squares Mean Difference|1.66||||0.6207|TWO_SIDED|95.0|-4.99|8.31|||ANCOVA|||||8.31|-4.99|0.6207
92277855|NCT00096265|184457944|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.47||||0.95|TWO_SIDED|95.0|0.92|2.36||One-sided|Log Rank||WBRT + SRS is the denominator of the hazard ratio.|120 patients per arm required to detect a 33% reduction in hazard rate corresponding to improvement in MST of 5.9 (null hypothesis) to 8.9 months with a one-sided type I error rate of 0.025 and 85% power.||2.36|0.92|0.95
92277856|NCT00096265|184457945|SUPERIORITY|||||||0.3|||||||Gray's test|||||||0.30
92374476|NCT00487942|184651112|SUPERIORITY_OR_OTHER||Effect Size|0.45|||||TWO_SIDED|95.0|-0.33|1.23||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.23|-0.33|
92374477|NCT00487942|184651112|SUPERIORITY_OR_OTHER||Effect Size|0.34|||||TWO_SIDED|95.0|-0.42|1.1||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.10|-0.42|
92374478|NCT00487942|184651112|SUPERIORITY_OR_OTHER||Effect Size|0.13|||||TWO_SIDED|95.0|-0.68|0.93||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.93|-0.68|
92374479|NCT00487942|184651113|SUPERIORITY_OR_OTHER||Effect Size|0.39|||||TWO_SIDED|95.0|-0.37|1.15||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.15|-0.37|
92374480|NCT00487942|184651113|SUPERIORITY_OR_OTHER||Effect Size|-0.05|||||TWO_SIDED|95.0|-0.81|0.7||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.70|-0.81|
92374481|NCT00487942|184651113|SUPERIORITY_OR_OTHER||Effect Size|-0.01|||||TWO_SIDED|95.0|-0.8|0.77||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.77|-0.80|
92374482|NCT00487942|184651114|SUPERIORITY_OR_OTHER||Effect Size|-0.99|||||TWO_SIDED|95.0|-1.79|-0.19||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||-0.19|-1.79|
92374483|NCT00487942|184651114|SUPERIORITY_OR_OTHER||Effect Size|-0.66|||||TWO_SIDED|95.0|-1.44|0.11||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.11|-1.44|
92229003|NCT03371355|184360505|SUPERIORITY||Least Squares Mean Difference|0.01||||0.8026|TWO_SIDED|95.0|-0.04|0.06|||ANCOVA|||||0.06|-0.04|0.8026
92229004|NCT03371355|184360505|SUPERIORITY||Least Squares Mean Difference|-0.02||||0.4917|TWO_SIDED|95.0|-0.07|0.03|||ANCOVA|||||0.03|-0.07|0.4917
92277857|NCT00096265|184457945|SUPERIORITY|||||||0.48|||||||Gray's test|||||||0.48
92374484|NCT00487942|184651114|SUPERIORITY_OR_OTHER||Effect Size|-0.03|||||TWO_SIDED|95.0|-0.82|0.75||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.75|-0.82|
92229005|NCT03371355|184360505|SUPERIORITY||Least Squares Mean Difference|0.0||||0.8916|TWO_SIDED|95.0|-0.05|0.05|||ANCOVA|||||0.05|-0.05|0.8916
92229006|NCT03371355|184360506|SUPERIORITY||Least Squares Mean Difference|0.11||||0.728|TWO_SIDED|95.0|-0.5|0.71|||ANCOVA|||||0.71|-0.50|0.7280
92229007|NCT03371355|184360506|SUPERIORITY||Least Squares Mean Difference|-0.1||||0.7354|TWO_SIDED|95.0|-0.69|0.49|||ANCOVA|||||0.49|-0.69|0.7354
92229008|NCT03371355|184360506|SUPERIORITY||Least Squares Mean Difference|-0.23||||0.4682|TWO_SIDED|95.0|-0.84|0.39|||ANCOVA|||||0.39|-0.84|0.4682
92229009|NCT00868790|184360508|SUPERIORITY_OR_OTHER||Least Squares Mean (LSM) Difference|-17.2||||0.013|TWO_SIDED|90.0|-28.3|-6.1|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-6.1|-28.3|0.013
92229010|NCT00868790|184360508|SUPERIORITY_OR_OTHER||LSM Difference|-23.4|||<|0.001|TWO_SIDED|90.0|-34.5|-12.4|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-12.4|-34.5|<0.001
92229011|NCT00868790|184360508|SUPERIORITY_OR_OTHER||LSM Difference|-34.9|||<|0.001|TWO_SIDED|95.0|-44.8|-25.0|||LDA Model|Between-group difference (metformin-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-25.0|-44.8|<0.001
92229012|NCT00868790|184360509|SUPERIORITY_OR_OTHER||LSM Difference|-11.5||||0.002|TWO_SIDED|90.0|-17.5|-5.4|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-5.4|-17.5|0.002
92229013|NCT00868790|184360509|SUPERIORITY_OR_OTHER||LSM Difference|-21.8|||<|0.001|TWO_SIDED|90.0|-27.8|-15.8|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-15.8|-27.8|<0.001
92374485|NCT00487942|184651115|SUPERIORITY_OR_OTHER||Effect Size|0.46|||||TWO_SIDED|95.0|-0.3|1.23||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.23|-0.30|
92374486|NCT00487942|184651115|SUPERIORITY_OR_OTHER||Effect Size|0.08|||||TWO_SIDED|95.0|-0.68|0.83||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.83|-0.68|
92374487|NCT00487942|184651115|SUPERIORITY_OR_OTHER||Effect Size|0.81|||||TWO_SIDED|95.0|0.0|1.63||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.63|-0.00|
92409099|NCT04881942|184708303|EQUIVALENCE|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0|Mean Difference (Final Values)|2.101|||<|0.0001|TWO_SIDED|95.0|1.81|2.439|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0||2.439|1.810|<.0001
92409100|NCT04881942|184708303|EQUIVALENCE|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0|Mean Difference (Final Values)|2.052|||<|0.0001|TWO_SIDED|95.0|1.767|2.382|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0||2.382|1.767|<.0001
92229014|NCT00868790|184360509|SUPERIORITY_OR_OTHER||LSM Difference|-36.0|||<|0.001|TWO_SIDED|90.0|-42.0|-30.0|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-30.0|-42.0|<0.001
92280400|NCT04684524|184463477|SUPERIORITY||LS Mean Difference|-2.36|||<|0.0001|TWO_SIDED|95.0|-3.31|-1.41|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-1.41|-3.31|<0.0001
92229015|NCT00868790|184360509|SUPERIORITY_OR_OTHER||LSM Difference|-20.0||||0.001|TWO_SIDED|90.0|-30.0|-10.1|||LDA Model|Between-group difference (metformin-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-10.1|-30.0|0.001
92229016|NCT00868790|184360510|SUPERIORITY_OR_OTHER||LSM Difference|-14.9||||0.174|TWO_SIDED|90.0|-33.0|3.2|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||3.2|-33.0|0.174
92229017|NCT00868790|184360510|SUPERIORITY_OR_OTHER||LSM Difference|-20.4||||0.063|TWO_SIDED|90.0|-38.4|-2.4|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-2.4|-38.4|0.063
92229018|NCT00868790|184360510|SUPERIORITY_OR_OTHER||LSM Difference|-78.1|||<|0.001|TWO_SIDED|90.0|-96.4|-59.8|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-59.8|-96.4|<0.001
92229019|NCT00868790|184360510|SUPERIORITY_OR_OTHER||LSM Difference|-49.4|||<|0.001|TWO_SIDED|90.0|-66.9|-31.8|||LDA Model|Between-group difference (metformin-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-31.8|-66.9|<0.001
92229020|NCT00868790|184360511|SUPERIORITY_OR_OTHER||LSM Difference|-0.8||||0.742|TWO_SIDED|90.0|-4.6|3.1|||LDA Model|||LDL-C values after log transformation were analyzed using a constrained LDA model that included terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). Percentage change from baseline in LDL-C after 4-week treatment was reported, after back-transformation using the delta method with an alpha-level of 0.10 (2-sided).||3.1|-4.6|0.742
92280401|NCT04684524|184463478|SUPERIORITY||LS Mean Difference|-5.45|||<|0.0001|TWO_SIDED|95.0|-7.48|-3.43|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-3.43|-7.48|<0.0001
92374488|NCT00487942|184651116|SUPERIORITY_OR_OTHER||Effect Size|-0.39|||||TWO_SIDED|95.0|-1.16|0.37||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.37|-1.16|
92374489|NCT00487942|184651116|SUPERIORITY_OR_OTHER||Effect Size|-0.45|||||TWO_SIDED|95.0|-1.21|0.31||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.31|-1.21|
92409101|NCT04881942|184708304|EQUIVALENCE|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0|Mean Difference (Final Values)|709.86|||<|0.0001|TWO_SIDED|95.0|549.19|870.54|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0||870.54|549.19|<.0001
92409102|NCT04881942|184708304|EQUIVALENCE|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0|Mean Difference (Final Values)|568.35|||<|0.0001|TWO_SIDED|95.0|407.18|729.51|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0||729.51|407.18|<.0001
92409103|NCT04881942|184708304|EQUIVALENCE|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0|Mean Difference (Final Values)|562.0|||<|0.0001|TWO_SIDED|95.0|401.34|722.67|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0||722.67|401.34|<.0001
92409104|NCT04881942|184708304|EQUIVALENCE|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0|Mean Difference (Final Values)|517.23|||<|0.0001|TWO_SIDED|95.0|356.11|678.34|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0||678.34|356.11|<.0001
92409105|NCT01147627|184708326|NON_INFERIORITY_OR_EQUIVALENCE|108 patients in each group was needed to provide 90% power to detect non-inferiority of exenatide, shown by a mean difference of 0.4% in HbA1c change from baseline.|||||<|0.05||95.0|||||ANCOVA|||||||<0.05
92409106|NCT03328208|184708334|SUPERIORITY||Mean Difference (Final Values)|0.724|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92169045|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9044|TWO_SIDED|95.0|0.75|1.39|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=90% reduction||1.39|0.75|0.9044
92169046|NCT02528188|184227130|SUPERIORITY||Odds Ratio (OR)|1.16||||0.3193|TWO_SIDED|95.0|0.86|1.57|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=90% reduction||1.57|0.86|0.3193
92374490|NCT00487942|184651116|SUPERIORITY_OR_OTHER||Effect Size|-0.2|||||TWO_SIDED|95.0|-0.99|0.58||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.58|-0.99|
92374491|NCT00487942|184651117|SUPERIORITY_OR_OTHER||Effect Size|0.47|||||TWO_SIDED|95.0|-0.3|1.23||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.23|-0.30|
92374492|NCT00487942|184651117|SUPERIORITY_OR_OTHER||Effect Size|0.28|||||TWO_SIDED|95.0|-0.48|1.04||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.04|-0.48|
92374493|NCT00487942|184651117|SUPERIORITY_OR_OTHER||Effect size|0.14|||||TWO_SIDED|95.0|-0.64|0.93||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.93|-0.64|
92374494|NCT00487942|184651118|SUPERIORITY_OR_OTHER||Effect size|-0.23|||||TWO_SIDED|95.0|-0.99|0.52||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.52|-0.99|
92374495|NCT00487942|184651118|SUPERIORITY_OR_OTHER||Effect size|0.34|||||TWO_SIDED|95.0|-0.42|1.1||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.10|-0.42|
92374496|NCT00487942|184651118|SUPERIORITY_OR_OTHER||Effect size|0.06|||||TWO_SIDED|95.0|-0.72|0.85||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.85|-0.72|
92374497|NCT00487942|184651119|SUPERIORITY_OR_OTHER||Effect size|-0.2|||||TWO_SIDED|95.0|-0.95|0.56||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.56|-0.95|
92374498|NCT00487942|184651119|SUPERIORITY_OR_OTHER||Effect size|-0.35|||||TWO_SIDED|95.0|-1.11|0.41||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.41|-1.11|
92169047|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1772|TWO_SIDED|95.0|0.91|1.62|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.62|0.91|0.1772
92374499|NCT00487942|184651119|SUPERIORITY_OR_OTHER||Effect size|-0.16|||||TWO_SIDED|95.0|-0.95|0.62||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.62|-0.95|
92374500|NCT00487942|184651120|SUPERIORITY_OR_OTHER||Effect size|-0.51|||||TWO_SIDED|95.0|-1.3|0.27||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.27|-1.30|
92374501|NCT00487942|184651120|SUPERIORITY_OR_OTHER||Effect size|0.55|||||TWO_SIDED|95.0|-0.25|1.35||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.35|-0.25|
92374502|NCT00487942|184651120|SUPERIORITY_OR_OTHER||Effect size|0.02|||||TWO_SIDED|95.0|-0.78|0.82||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.82|-0.78|
92374503|NCT00487942|184651121|SUPERIORITY_OR_OTHER||Effect size|-0.64|||||TWO_SIDED|95.0|-1.43|0.15||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.15|-1.43|
92374504|NCT00487942|184651121|SUPERIORITY_OR_OTHER||Effect Size|-0.26|||||TWO_SIDED|95.0|-1.05|0.53||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.53|-1.05|
92374505|NCT00487942|184651121|SUPERIORITY_OR_OTHER||Effect size|-0.1|||||TWO_SIDED|95.0|-0.9|0.7||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.70|-0.90|
92374506|NCT00487942|184651122|SUPERIORITY_OR_OTHER||Effect size|-0.15|||||TWO_SIDED|95.0|-0.92|0.63||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.63|-0.92|
92374507|NCT00487942|184651122|SUPERIORITY_OR_OTHER||Effect size|0.25|||||TWO_SIDED|95.0|-0.54|1.04||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.04|-0.54|
92374508|NCT00487942|184651122|SUPERIORITY_OR_OTHER||Effect size|-0.31|||||TWO_SIDED|95.0|-1.12|0.49||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.49|-1.12|
92374509|NCT00487942|184651123|SUPERIORITY_OR_OTHER||Effect size|-0.44|||||TWO_SIDED|95.0|-1.22|0.33||Inferential statistics not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the Trails B Test score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.33|-1.22|
92374510|NCT00487942|184651123|SUPERIORITY_OR_OTHER||Effect size|-0.89|||||TWO_SIDED|95.0|-1.69|-0.08||Inferential statistics not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the Trails B Test score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||-0.08|-1.69|
92409107|NCT03328208|184708335|SUPERIORITY||Mean Difference (Final Values)|0.038|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92409108|NCT03656380|184708387|SUPERIORITY|||||||0.14|||||||ANCOVA|||||||0.14
92409109|NCT03656380|184708388|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
92409110|NCT03656380|184708389|SUPERIORITY|||||||0.2|||||||Chi-squared|||||||0.20
92409111|NCT03656380|184708390|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92409112|NCT03656380|184708391|SUPERIORITY||||||<|0.001|||||||Chi-squared|||\<15 eos/hpf||||<0.001
92409113|NCT03656380|184708391|SUPERIORITY|||||||0.02|||||||Chi-squared|||≤6 eos/hpf||||0.02
92409114|NCT03656380|184708391|SUPERIORITY|||||||0.27|||||||Chi-squared|||≤1 eos/hpf||||0.27
92409115|NCT03656380|184708392|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.03
92409116|NCT03656380|184708393|SUPERIORITY|||||||0.44|||||||ANCOVA|||||||0.44
92409117|NCT05300763|184708398|SUPERIORITY|Superiority was declared if the lower bound of the 2-sided 95% confidence interval is above 1.|Odds Ratio (OR)|2.01|||||TWO_SIDED|95.0|1.25|3.22|||Linear Mixed Model||Odds Ratio was calculated as Test over Control.|||3.22|1.25|
92409118|NCT05300763|184708399|SUPERIORITY|Superiority was declared if the lower bound of the 2-sided adjusted (96.25%) confidence interval is above 1.|Odds Ratio (OR)|2.0|||||TWO_SIDED|96.25|1.18|3.41|||Linear Mixed Model||Odds Ratio was calculated as Test over Control.|||3.41|1.18|
92409119|NCT05300763|184708400|SUPERIORITY|Superiority was declared if the lower bound of the 2-sided adjusted (97.5 %) confidence interval is above 1.|Odds Ratio (OR)|2.17|||||TWO_SIDED|97.5|1.3|3.64|||Linear Mixed Model||Odds Ratio was calculated as Test over Control.|||3.64|1.30|
92409120|NCT05300763|184708401|SUPERIORITY|Superiority was declared if the lower bound of the 2-sided 95% confidence interval is above 1.|Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|1.04|3.02|||Linear Mixed Model||Odds Ratio was calculated as Test over Control.|||3.02|1.04|
92409121|NCT01485172|184708402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.864|TWO_SIDED|95.0|-3.41|4.05||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||4.05|-3.41|0.864
92229021|NCT00868790|184360511|SUPERIORITY_OR_OTHER||LSM Difference|4.5||||0.06|TWO_SIDED|90.0|0.6|8.4|||LDA Model|||LDL-C values after log transformation were analyzed using a constrained LDA model that included terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). Percentage change from baseline in LDL-C after 4-week treatment was reported, after back-transformation using the delta method with an alpha-level of 0.10 (2-sided).||8.4|0.6|0.060
92229022|NCT00868790|184360511|SUPERIORITY_OR_OTHER||LSM Difference|7.8||||0.002|TWO_SIDED|90.0|3.8|11.7|||LDA Model|||LDL-C values after log transformation were analyzed using a constrained LDA model that included terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). Percentage change from baseline in LDL-C after 4-week treatment was reported, after back-transformation using the delta method with an alpha-level of 0.10 (2-sided).||11.7|3.8|0.002
92409122|NCT01485172|184708402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.539|TWO_SIDED|95.0|-3.61|1.9||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||1.90|-3.61|0.539
92409123|NCT01485172|184708402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.091|TWO_SIDED|95.0|-5.21|0.39||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.39|-5.21|0.091
92409124|NCT01485172|184708402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16||||0.124|TWO_SIDED|95.0|-4.93|0.6||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.60|-4.93|0.124
92409125|NCT01485172|184708402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.658|TWO_SIDED|95.0|-5.04|3.19||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||3.19|-5.04|0.658
92409126|NCT01485172|184708402|SUPERIORITY_OR_OTHER|||||||0.439||95.0||||P-values are from nonparametric rank ANCOVA without stratifications.|ANCOVA|||||||0.439
92409127|NCT01485172|184708402|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||P-values are from nonparametric rank ANCOVA without stratifications.|ANCOVA|||||||0.177
92409128|NCT01485172|184708402|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||P-values are from nonparametric rank ANCOVA without stratifications.|ANCOVA|||||||0.060
92409129|NCT01485172|184708402|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-values are from nonparametric rank ANCOVA without stratifications.|ANCOVA|||||||0.047
92409130|NCT01485172|184708402|SUPERIORITY_OR_OTHER|||||||0.407||95.0||||P-values are from nonparametric rank ANCOVA without stratifications.|ANCOVA|||||||0.407
92409131|NCT01485172|184708403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.003||||0.397|TWO_SIDED|95.0|0.4|9.98|||Generalized Estimating Equations model|||||9.98|0.40|0.397
92409132|NCT01485172|184708403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.242||||0.131|TWO_SIDED|95.0|0.79|6.4|||Generalized Estimating Equations model|||||6.40|0.79|0.131
92409133|NCT01485172|184708403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.515||||0.018|TWO_SIDED|95.0|1.25|9.92|||Generalized Estimating Equations model|||||9.92|1.25|0.018
92409134|NCT01485172|184708403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.607||||0.02||95.0|1.22|10.64|||Generalized Estimating Equations model|||||10.64|1.22|0.020
92409135|NCT01485172|184708403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.679||||0.202|TWO_SIDED|95.0|0.59|12.16|||Generalized Estimating Equations model|||||12.16|0.59|0.202
92409136|NCT01485172|184708404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.544||||0.662||95.0|0.22|10.84|||Generalized Estimating Equations model|||||10.84|0.22|0.662
92409137|NCT01485172|184708404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.485||||0.557|TWO_SIDED|95.0|0.4|5.55|||Generalized Estimating Equations model|||||5.55|0.40|0.557
92229023|NCT00868790|184360511|SUPERIORITY_OR_OTHER||LSM Difference|-3.9||||0.248|TWO_SIDED|90.0|-10.2|2.3|||LDA Model|||LDL-C values after log transformation were analyzed using a constrained LDA model that included terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). Percentage change from baseline in LDL-C after 4-week treatment was reported, after back-transformation using the delta method with an alpha-level of 0.10 (2-sided).||2.3|-10.2|0.248
92229024|NCT04666038|184360530|SUPERIORITY||Hazard Ratio (HR)|0.536||||0.0002|TWO_SIDED|95.0|0.385|0.746||The 2-sided nominal p-value was calculated based on a stratified log-rank test.|Log Rank||The Hazard Ratio (HR) \& 95% confidence interval (CI) were estimated from a stratified Cox proportional hazards model.|||0.746|0.385|0.0002
92374511|NCT00487942|184651123|SUPERIORITY_OR_OTHER||Effect size|-0.13|||||TWO_SIDED|95.0|-0.95|0.7||Inferential statistics not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the Trails B Test score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.70|-0.95|
92374512|NCT00487942|184651169|SUPERIORITY_OR_OTHER||Effect size|0.12|||||TWO_SIDED|95.0|-0.76|1.0||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SCoRS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.0|-0.76|
92374513|NCT00487942|184651169|SUPERIORITY_OR_OTHER||Effect size|-0.33|||||TWO_SIDED|95.0|-1.15|0.48||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SCoRS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.48|-1.15|
92374514|NCT00487942|184651169|SUPERIORITY_OR_OTHER||Effect size|0.27|||||TWO_SIDED|95.0|-0.61|1.15||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SCoRS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.15|-0.61|
92374515|NCT00487942|184651170|SUPERIORITY_OR_OTHER||Effect size|0.33|||||TWO_SIDED|95.0|-0.58|1.24||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.24|-0.58|
92374516|NCT00487942|184651170|SUPERIORITY_OR_OTHER||Effect size|-0.05|||||TWO_SIDED|95.0|-0.91|0.81||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.81|-0.91|
92374517|NCT00487942|184651170|SUPERIORITY_OR_OTHER||Effect size|-0.44|||||TWO_SIDED|95.0|-1.33|0.45||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.45|-1.33|
92374518|NCT00487942|184651171|SUPERIORITY_OR_OTHER||Effect size|0.18|||||TWO_SIDED|95.0|-0.75|1.1||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.10|-0.75|
92409138|NCT01485172|184708404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.855||||0.347|TWO_SIDED|95.0|0.51|6.72|||Generalized Estimating Equations model|||||6.72|0.51|0.347
92409139|NCT01485172|184708404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.776||||0.379|TWO_SIDED|95.0|0.49|6.38|||Generalized Estimating Equations model|||||6.38|0.49|0.379
92409140|NCT01485172|184708404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.194||||0.851|TWO_SIDED|95.0|0.19|7.63|||Generalized Estimating Equations model|||||7.63|0.19|0.851
92229025|NCT04666038|184360531|SUPERIORITY||Hazard Ratio (HR)|0.475|||<|0.0001|TWO_SIDED|95.0|0.338|0.669||The 2-sided nominal p-value was calculated based on a stratified log-rank test|Log Rank||The HR and 95% CI were estimated from a stratified Cox proportional hazards model.|||0.669|0.338|<0.0001
92409141|NCT01485172|184708406|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.591||||0.54|TWO_SIDED|95.0|0.36|7.03|||Generalized Estimating Equations model|||||7.03|0.36|0.540
92409142|NCT01485172|184708406|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.473||||0.494|TWO_SIDED|95.0|0.49|4.47|||Generalized Estimating Equations model|||||4.47|0.49|0.494
92409143|NCT01485172|184708406|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.391||||0.115|TWO_SIDED|95.0|0.81|7.06|||Generalized Estimating Equations model|||||7.06|0.81|0.115
92277858|NCT00096265|184457947|SUPERIORITY|||||||0.39|||||||Chi-squared|||With 70 patients per arm, a 0.05 level chi-square test would have 80% power to distinguish between two groups when the proportions in the three categories are as follows for standard vs. experimental arm, respectively: 25% vs. 50% improvement, 55% vs. 40% stable, and 20% vs. 10% deterioration, or any distribution that corresponds to an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.0702.||||0.39
92277859|NCT00096265|184457947|SUPERIORITY|||||||0.28|||||||Chi-squared|||With 70 patients per arm, a 0.05 level chi-square test would have 80% power to distinguish between two groups when the proportions in the three categories are as follows for standard vs. experimental arm, respectively: 25% vs. 50% improvement, 55% vs. 40% stable, and 20% vs. 10% deterioration, or any distribution that corresponds to an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.0702.||||0.28
92277860|NCT00096265|184457948|SUPERIORITY|||||||0.002|||||||Chi-squared|||108 with three month performance status data, per arm, would result in a 0.050 level chi-square test with 90% power to distinguish between the groups when the proportions in the 3 categories are characterized by an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.0586.||||0.002
92409144|NCT01485172|184708406|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96||||0.045|TWO_SIDED|95.0|1.02|8.55|||Generalized Estimating Equations model|||||8.55|1.02|0.045
92277861|NCT00096265|184457948|SUPERIORITY||||||<|0.001|||||||Chi-squared|||108 cases with three month performance status data, per arm, would result in a 0.050 level chi-square test with 90% power to distinguish between the groups when the proportions in the 3 categories are characterized by an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.0586.||||< 0.001
92409145|NCT01485172|184708406|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.506||||0.221|TWO_SIDED|95.0|0.58|10.9|||Generalized Estimating Equations model|||||10.90|0.58|0.221
92409146|NCT01485172|184708407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07||||0.662|TWO_SIDED|95.0|-3.78|5.93||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||5.93|-3.78|0.662
92409147|NCT01485172|184708407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93||||0.621|TWO_SIDED|95.0|-4.63|2.77||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||2.77|-4.63|0.621
92409148|NCT01485172|184708407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.75||||0.15|TWO_SIDED|95.0|-6.5|1.01||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||1.01|-6.50|0.150
92409149|NCT01485172|184708407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.74||||0.048|TWO_SIDED|95.0|-7.43|-0.04||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||-0.04|-7.43|0.048
92277862|NCT00096265|184457949|SUPERIORITY|Assuming the survival rate of the standard arm (MST = 5.9 months), then 49% of patients were expected to be alive at six months. Assuming steroid data would be available for 90% of these patients, results in a projection of 52 cases/arm with steroid data at 6 months. With this sample size, a two-sided 0.050 alpha test will have 90% power to distinguish between the groups when the proportions in the 3 categories are characterized by an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.1217.||||||0.51|||||||Chi-squared|||||||0.51
92409150|NCT01485172|184708407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.715|TWO_SIDED|95.0|-6.32|4.35||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||4.35|-6.32|0.715
92277863|NCT00096265|184457949|SUPERIORITY|||||||0.56|||||||Chi-squared|||Assuming the survival rate of the standard arm (MST = 5.9 months), then 49% of patients were expected to be alive at six months. Assuming steroid data would be available for 90% of these patients, results in a projection of 52 cases/arm with steroid data at 6 months. With this sample size, a two-sided 0.050 alpha test will have 90% power to distinguish between the groups when the proportions in the 3 categories are characterized by an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.1217.||||0.56
92409151|NCT01485172|184708408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17||||0.158|TWO_SIDED|95.0|-0.46|2.81||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||2.81|-0.46|0.158
92409152|NCT01485172|184708408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.446|TWO_SIDED|95.0|-1.71|0.76||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.76|-1.71|0.446
92409153|NCT01485172|184708408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.163|TWO_SIDED|95.0|-2.1|0.36||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.36|-2.10|0.163
92409154|NCT01485172|184708408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.117|TWO_SIDED|95.0|-2.27|0.25||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.25|-2.27|0.117
92277864|NCT00096265|184457950|SUPERIORITY|||||||0.78|||||||Chi-squared|||A two group chi-square test with a 0.05 two-sided significance level would have 89% power to detect the difference between a proportion of 0.50 and a proportion of 0.30, or equivalently, of 0.70, when the sample size in each group is 120.||||0.78
92409155|NCT01485172|184708408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.456|TWO_SIDED|95.0|-2.67|1.2||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||1.20|-2.67|0.456
92409156|NCT01485172|184708409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56||||0.823|TWO_SIDED|95.0|-4.38|5.5||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||5.50|-4.38|0.823
92409157|NCT01485172|184708409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||0.568|TWO_SIDED|95.0|-4.86|2.68||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||2.68|-4.86|0.568
92409158|NCT01485172|184708409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.19||||0.101|TWO_SIDED|95.0|-7.01|0.63||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.63|-7.01|0.101
92409159|NCT01485172|184708409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.94||||0.04|TWO_SIDED|95.0|-7.7|-0.18||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||-0.18|-7.70|0.040
92409160|NCT01485172|184708409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.811|TWO_SIDED|95.0|-6.08|4.77||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||4.77|-6.08|0.811
92409161|NCT01485172|184708410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.102|TWO_SIDED|95.0|-0.86|0.08||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.08|-0.86|0.102
92409162|NCT01485172|184708410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.723|TWO_SIDED|95.0|-0.41|0.29||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.29|-0.41|0.723
92229026|NCT04666038|184360532|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7202|TWO_SIDED|95.0|0.679|1.749||The 2-sided p-value was calculated based on a stratified log-rank test.|Log Rank||The HR and 95% CI were estimated from a stratified Cox proportional hazards model.|||1.749|0.679|0.7202
92229027|NCT04666038|184360533|SUPERIORITY||Hazard Ratio (HR)|0.365|||<|0.0001|TWO_SIDED|95.0|0.254|0.524||The 2-sided nominal p-value was calculated based on a stratified log-rank test.|Log Rank||The HR and 95% CI were estimated from a stratified Cox proportional hazards model.|||0.524|0.254|<0.0001
92277865|NCT00096265|184457950|SUPERIORITY|||||||0.8|||||||Chi-squared|||A two group chi-square test with a 0.05 two-sided significance level would have 89% power to detect the difference between a proportion of 0.50 and a proportion of 0.30, or equivalently, of 0.70, when the sample size in each group is 120.||||0.80
92409163|NCT01485172|184708410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.084|TWO_SIDED|95.0|-0.66|0.04||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.04|-0.66|0.084
92409164|NCT01485172|184708410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.697|TWO_SIDED|95.0|-0.42|0.28||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.28|-0.42|0.697
92229028|NCT04666038|184360534|SUPERIORITY||Hazard Ratio (HR)|0.387|||<|0.0001|TWO_SIDED|95.0|0.28|0.534||The 2-sided nominal p-value was calculated based on a stratified log-rank test.|Log Rank||The HR and 95% CI were estimated from a stratified Cox proportional hazards model.|||0.534|0.280|<0.0001
92229029|NCT01228903|184360549|EQUIVALENCE|(Doehner et al.) CHF patients on allopurinol (n= 14) had improved BA-FMD= 10.6 ± 2.0 (mean ± SE) vs placebo (n= 14, FMD= 6.7 ± 0.1); difference in means= 3.9. Yiginer et al. found a similar difference in metabolic syndrome. A sample size of 34/group will have 80% power to detect a difference in means of 3.9 (common standard deviation=5.6, two group t-test=0.050 two-sided significance). Accounting for a potential drop-out rate17%, n= 40/group was recruited.|Mean Difference (Net)|0.7||||0.47|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The estimated value represents the difference between the change from baseline in both groups.|The null hypothesis was the there will be no difference between the placebo and allopurinol. The power for the study was calculated (as appropriate) based on the prior literature.||||0.47
92229030|NCT02867761|184360561|SUPERIORITY||Odds Ratio (OR)|0.91||||0.65|TWO_SIDED|95.0|0.6|1.37|||Generalized Estimating Equation|||||1.37|0.60|0.65
92229031|NCT02867761|184360565|SUPERIORITY|||||||0.3|||||||Linear Mixed Effects Model|||||||0.30
92229032|NCT02867761|184360566|SUPERIORITY|||||||0.49|||||||Linear Mixed Effects Model|||||||0.49
92229033|NCT02867761|184360567|SUPERIORITY|||||||0.96|||||||Linear Mixed Effects Model|||||||0.96
92229034|NCT02867761|184360568|SUPERIORITY||||||<|0.001|||||||Linear Mixed Effects Model|||||||<0.001
92229035|NCT02867761|184360571|SUPERIORITY|||||||0.35|||||||Linear Mixed Effects Model|||P Value for percentage of days with any symptoms (shortness of breath, chest tightness, wheezing, cough, or sputum)||||0.35
92229036|NCT02867761|184360571|SUPERIORITY|||||||0.61|||||||Linear Mixed Effects Model|||P Value for percentage of days with shortness of breath||||0.61
92229037|NCT02867761|184360571|SUPERIORITY|||||||0.48|||||||Linear Mixed Effects Model|||P Value for percentage of days with chest tightness||||0.48
92229038|NCT02867761|184360571|SUPERIORITY|||||||0.81|||||||Linear Mixed Effects Model|||P Value for percentage of days with wheezing||||0.81
92229039|NCT02867761|184360571|SUPERIORITY|||||||0.17|||||||Linear Mixed Effects Model|||P Value for percentage of days with cough||||0.17
92277866|NCT01172600|184457951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.84|TWO_SIDED|95.0|-1.43|1.17|||Regression, Linear|The analysis adjusted for VAS at baseline (before 1st block), number of epidural blocks received, and imbalanced baseline variables.|This is an intention- to-treat analysis. We assigned missing outcomes to 10 patients.|||1.17|-1.43|0.84
92277867|NCT01172600|184457951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.12|TWO_SIDED|95.0|-2.34|0.28|||Regression, Linear||This is a per-protocol analysis, using 68 patients with completed data.|||0.28|-2.34|0.12
92409165|NCT01485172|184708410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.086|TWO_SIDED|95.0|-0.06|0.97||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.97|-0.06|0.086
92409166|NCT01485172|184708411|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.769||||0.733|TWO_SIDED|95.0|0.17|3.49|||Generalized Estimating Equations model|||||3.49|0.17|0.733
92409167|NCT01485172|184708411|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.411||||0.519|TWO_SIDED|95.0|0.5|4.02|||Generalized Estimating Equations model|||||4.02|0.50|0.519
92409168|NCT01485172|184708411|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.204||||0.008|TWO_SIDED|95.0|1.46|12.07|||Generalized Estimating Equations model|||||12.07|1.46|0.008
92409169|NCT01485172|184708411|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.456||||0.001|TWO_SIDED|95.0|1.93|15.46|||Generalized Estimating Equations model|||||15.46|1.93|0.001
92409170|NCT01485172|184708411|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.281||||0.752|TWO_SIDED|95.0|0.27|5.98|||Generalized Estimating Equations model|||||5.98|0.27|0.752
92229040|NCT02867761|184360571|SUPERIORITY|||||||0.64|||||||Linear Mixed Effects Model|||P Value for percentage of days with sputum||||0.64
92229041|NCT02867761|184360571|SUPERIORITY|||||||0.84|||||||Linear Mixed Effects Model|||P Value for percentage of days with use of albuterol.||||0.84
92229042|NCT03400800|184360607|SUPERIORITY||Mean Difference (Final Values)|-53.5|||<|0.0001|TWO_SIDED|95.0|-56.66|-50.35||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-50.35|-56.66|<0.0001
92229043|NCT03400800|184360608|SUPERIORITY||Mean Difference (Final Values)|-49.17|||<|0.0001|TWO_SIDED|95.0|-51.57|-46.77||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-46.77|-51.57|<0.0001
92229044|NCT03400800|184360609|SUPERIORITY||Median Difference (Final Values)|-51.87|||<|0.0001|TWO_SIDED|95.0|-55.01|-48.72||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-48.72|-55.01|<.0001
92229045|NCT03400800|184360610|SUPERIORITY||Mean Difference (Final Values)|-48.94|||<|0.0001|TWO_SIDED|95.0|-51.39|-46.48||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-46.48|-51.39|<0.0001
92229046|NCT03400800|184360611|SUPERIORITY||Mean Difference (Final Values)|-79.27|||<|0.0001|TWO_SIDED|95.0|-81.97|-76.57||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-76.57|-81.97|<0.0001
92229047|NCT03400800|184360612|SUPERIORITY||Mean Difference (Final Values)|-29.79|||<|0.0001|TWO_SIDED|95.0|-31.78|-27.81||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-27.81|-31.78|<0.0001
92374519|NCT00487942|184651171|SUPERIORITY_OR_OTHER||Effect size|-0.1|||||TWO_SIDED|95.0|-0.98|0.78||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.78|-0.98|
92374520|NCT00487942|184651171|SUPERIORITY_OR_OTHER||Effect size|0.37|||||TWO_SIDED|95.0|-0.54|1.27||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.27|-0.54|
92374521|NCT00487942|184651172|SUPERIORITY_OR_OTHER||Effect size|-0.38|||||TWO_SIDED|95.0|-1.14|0.38||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.38|-1.14|
92374522|NCT00487942|184651172|SUPERIORITY_OR_OTHER||Effect size|-0.13|||||TWO_SIDED|95.0|-0.89|0.63||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.63|-0.89|
92374523|NCT00487942|184651172|SUPERIORITY_OR_OTHER||Effect size|-0.05|||||TWO_SIDED|95.0|-0.84|0.73||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.73|-0.84|
92374524|NCT00487942|184651173|SUPERIORITY_OR_OTHER||Effect size|-0.41|||||TWO_SIDED|95.0|-1.21|0.4||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.40|-1.21|
92374525|NCT00487942|184651173|SUPERIORITY_OR_OTHER||Effect size|-0.29|||||TWO_SIDED|95.0|-1.09|0.52||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.52|-1.09|
92374526|NCT00487942|184651173|SUPERIORITY_OR_OTHER||Effect size|-0.69|||||TWO_SIDED|95.0|-1.51|0.14||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.14|-1.51|
92374527|NCT00487942|184651174|SUPERIORITY_OR_OTHER||Effect size|-0.24|||||TWO_SIDED|95.0|-1.06|0.58||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.58|-1.06|
92409171|NCT03051178|184708419|SUPERIORITY||||||<|0.01||||||All post-hoc comparisons were Bonferroni corrected.|ANOVA|||TRS scores measured across different stimulation conditions were assessed using a mixed model ANOVA with the participant as a random effect. All post-hoc comparisons were Bonferroni corrected.||||<0.01
92409172|NCT03523988|184708446|SUPERIORITY|||||||0.04||||||P-value for pain scores among the three comparison groups with jaw at rest.|ANOVA|||||||0.04
92409173|NCT03523988|184708446|SUPERIORITY|||||||0.63||||||P-value for pain scores among the three comparison groups while lightly biting.|ANOVA|||||||0.63
92229048|NCT03400800|184360613|SUPERIORITY||Mean Difference (Final Values)|-38.94|||<|0.0001|TWO_SIDED|95.0|-41.21|-36.67||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-36.67|-41.21|<0.0001
92229049|NCT03400800|184360614|SUPERIORITY||Mean Difference (Final Values)|-43.32|||<|0.0001|TWO_SIDED|95.0|-46.04|-40.6||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-40.60|-46.04|<0.0001
92374528|NCT00487942|184651174|SUPERIORITY_OR_OTHER||Effect size|-0.05|||||TWO_SIDED|95.0|-0.85|0.75||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.75|-0.85|
92374529|NCT00487942|184651174|SUPERIORITY_OR_OTHER||Effect size|-0.1|||||TWO_SIDED|95.0|-0.9|0.7||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.70|-0.90|
92409174|NCT03523988|184708446|SUPERIORITY|||||||0.41||||||P-value for pain scores among the three comparison groups while chewing paraffin wax.|ANOVA|||||||0.41
92169048|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0154|TWO_SIDED|95.0|1.07|1.89|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.89|1.07|0.0154
92169049|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|1.4||||0.0105|TWO_SIDED|95.0|1.08|1.81|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.81|1.08|0.0105
92169050|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0002|TWO_SIDED|95.0|1.26|2.1|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||2.10|1.26|0.0002
92169051|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|1.11||||0.4007|TWO_SIDED|95.0|0.87|1.43|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.43|0.87|0.4007
92169052|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0116|TWO_SIDED|95.0|1.07|1.75|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.75|1.07|0.0116
92229050|NCT01512264|184360651|OTHER|||||||0.006|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the rTMS group and BNT test was calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -1.58.||||0.006
92229051|NCT01512264|184360651|OTHER|||||||0.015|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the1 week of Sham Treatment + 2 weeks of nerTMS group and BNT test was calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -1.27.||||0.015
92229052|NCT01512264|184360651|OTHER|||||||0.203|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 2 weeks of Sham Treatment + 1 week of nerTMS group and BNT test was calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.54.||||0.203
92229053|NCT01512264|184360651|OTHER|||||||0.01|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the control group and BNT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -1.63.||||0.010
92229054|NCT01512264|184360652|OTHER|||||||0.41|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the rTMS group and BNT test was calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.54.||||0.410
92229055|NCT01512264|184360652|OTHER|||||||0.618|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for 1 week of Sham Treatment + 2 weeks of nerTMS group and BNT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.57.||||0.618
92229056|NCT01512264|184360652|OTHER|||||||1|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for 2 weeks of Sham Treatment + 1 week of nerTMS group and BNT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 1.31.||||1.000
92229057|NCT01512264|184360652|OTHER|||||||0.019|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the control group and BNT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 4.35.||||0.019
92229058|NCT01512264|184360654|OTHER|||||||0.118|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the rTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.69.||||0.118
92229059|NCT01512264|184360654|OTHER|||||||0.482|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.28.||||0.482
92229060|NCT01512264|184360654|OTHER|||||||0.368|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 2 weeks of Sham Treatment +1 week of nerTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.37.||||0.368
92229061|NCT01512264|184360654|OTHER|||||||0.147|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the control group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.70.||||0.147
92229062|NCT01512264|184360655|OTHER|||||||0.41|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the rTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.54.||||0.410
92409175|NCT03523988|184708447|SUPERIORITY|||||||0.65||||||P-value for pain scores among the three comparison groups with jaw at rest.|ANOVA|||||||0.65
92229063|NCT01512264|184360655|OTHER|||||||0.695|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.25.||||0.695
92229064|NCT01512264|184360655|OTHER|||||||0.175|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 2 weeks of Sham Treatment +1 week of nerTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.25.||||0.175
92229065|NCT01512264|184360655|OTHER|||||||0.518|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the control group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.60.||||0.518
92229066|NCT01512264|184360657|OTHER|||||||0.109|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the rTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.71.||||0.109
92229067|NCT01512264|184360657|OTHER|||||||0.485|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.28.||||0.485
92409176|NCT03523988|184708447|SUPERIORITY|||||||0.82||||||P-value for pain scores among the three comparison groups while lightly biting.|ANOVA|||||||0.82
92409177|NCT03523988|184708447|SUPERIORITY|||||||0.69||||||P-value for pain scores among the three comparison groups while chewing paraffin wax.|ANOVA|||||||0.69
92169053|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|0.95||||0.6279|TWO_SIDED|95.0|0.76|1.18|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.18|0.76|0.6279
92169054|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|1.09||||0.4674|TWO_SIDED|95.0|0.87|1.35|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.35|0.87|0.4674
92229068|NCT01512264|184360657|OTHER|||||||0.864|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 2 weeks of Sham Treatment +1 week of nerTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.07.||||0.864
92229069|NCT01512264|184360657|OTHER|||||||0.341|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the control group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.43.||||0.341
92229070|NCT01512264|184360658|OTHER|||||||0.899|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the rTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.12.||||0.899
92229071|NCT01512264|184360658|OTHER|||||||0.519|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.19.||||0.519
92409178|NCT03523988|184708448|SUPERIORITY|||||||0.53||||||P-value for pain scores among the three comparison groups with jaw at rest.|ANOVA|||||||0.53
92409179|NCT03523988|184708448|SUPERIORITY|||||||0.31||||||P-value for pain scores among the three comparison groups while lightly biting.|ANOVA|||||||0.31
92409180|NCT03523988|184708448|SUPERIORITY|||||||0.37||||||P-value for pain scores among the three comparison groups while chewing paraffin wax.|ANOVA|||||||0.37
92229072|NCT01512264|184360658|OTHER|||||||1|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 2 weeks of Sham Treatment +1 week of nerTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.09.||||1.000
92229073|NCT01512264|184360658|OTHER|||||||0.14|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the control group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.84.||||0.140
92229074|NCT01512264|184360660|OTHER|||||||0.52|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the rTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.24.||||0.520
92229075|NCT01512264|184360660|OTHER|||||||0.8|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.97.||||0.800
92229076|NCT01512264|184360660|OTHER|||||||0.148|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 2 weeks of Sham Treatment +1 week of nerTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.68.||||0.148
92409181|NCT00806819|184708516|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0435|TWO_SIDED|95.0|0.7|0.99|||Regression, Cox||HR below 1 favors nintedanib|HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no).||0.99|0.70|0.0435
92409182|NCT00806819|184708517|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.894|TWO_SIDED|95.0|0.85|1.21|||Regression, Cox||HR below 1 favors nintedanib|HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (adenocarcinoma vs non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no).||1.21|0.85|0.8940
92374530|NCT00487942|184651177|SUPERIORITY_OR_OTHER||Effect size|-0.05|||||TWO_SIDED|95.0|-0.8|0.71||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SANS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.71|-0.80|
92374531|NCT00487942|184651177|SUPERIORITY_OR_OTHER||Effect size|-0.31|||||TWO_SIDED|95.0|-1.06|0.45||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SANS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.45|-1.06|
92409183|NCT00806819|184708518|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0506|TWO_SIDED|95.0|0.7|1.0|||Regression, Cox||HR below 1 favors nintedanib|HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)||1.00|0.70|0.0506
92409184|NCT00806819|184708519|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.0865|TWO_SIDED|95.0|0.73|1.02|||Regression, Cox||HR below 1 favors nintedanib|HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)||1.02|0.73|0.0865
92409185|NCT00806819|184708520|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.7279|TWO_SIDED|95.0|0.65|1.85||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the central independent review||1.85|0.65|0.7279
92409186|NCT00806819|184708520|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.518|TWO_SIDED|95.0|0.75|1.76||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the investigator's assessment||1.76|0.75|0.5180
92409187|NCT00806819|184708523|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.0387|TWO_SIDED|95.0|1.02|1.85||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the central independent review||1.85|1.02|0.0387
92409188|NCT00806819|184708523|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.1071|TWO_SIDED|95.0|0.95|1.75||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on investigator's assessment||1.75|0.95|0.1071
92169055|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|0.89||||0.3135|TWO_SIDED|95.0|0.71|1.12|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.12|0.71|0.3135
92169056|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|1.04||||0.7581|TWO_SIDED|95.0|0.83|1.3|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.30|0.83|0.7581
92169057|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|0.92||||0.4504|TWO_SIDED|95.0|0.73|1.15|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.15|0.73|0.4504
92169058|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|0.88||||0.2629|TWO_SIDED|95.0|0.7|1.1|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.10|0.70|0.2629
92169059|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|0.95||||0.6763|TWO_SIDED|95.0|0.75|1.2|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.20|0.75|0.6763
92169060|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9456|TWO_SIDED|95.0|0.8|1.27|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.27|0.80|0.9456
92169061|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|0.96||||0.752|TWO_SIDED|95.0|0.76|1.22|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.22|0.76|0.7520
92169062|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9981|TWO_SIDED|95.0|0.79|1.26|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.26|0.79|0.9981
92169063|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|0.93||||0.5284|TWO_SIDED|95.0|0.74|1.17|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.17|0.74|0.5284
92169064|NCT02528188|184227132|SUPERIORITY||Odds Ratio (OR)|0.89||||0.322|TWO_SIDED|95.0|0.7|1.12|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.12|0.70|0.3220
92409189|NCT00806819|184708525|SUPERIORITY_OR_OTHER|||||||0.1558|TWO_SIDED|||||P-value generated from ANOVA model adjusted for baseline ECOG PS (0 vs. 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|ANOVA|||Analysis based on the central independent review||||0.1558
92229077|NCT01512264|184360660|OTHER|||||||0.787|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the control group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.67.||||0.787
92229078|NCT01512264|184360661|OTHER|||||||0.239|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the rTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -3.12.||||0.239
92229079|NCT01512264|184360661|OTHER|||||||0.212|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 2.71.||||0.212
92374532|NCT00487942|184651177|SUPERIORITY_OR_OTHER||Effect size|0.11|||||TWO_SIDED|95.0|-0.68|0.89||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SANS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.89|-0.68|
92374533|NCT00487942|184651178|SUPERIORITY_OR_OTHER||Effect size|-0.13|||||TWO_SIDED|95.0|-0.88|0.63||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.63|-0.88|
92374534|NCT00487942|184651178|SUPERIORITY_OR_OTHER||Effect size|0.05|||||TWO_SIDED|95.0|-0.72|0.82||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.82|-0.72|
92374535|NCT00487942|184651178|SUPERIORITY_OR_OTHER||Effect size|0.0|||||TWO_SIDED|95.0|-0.8|0.81||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.81|-0.80|
92374536|NCT00487942|184651179|SUPERIORITY_OR_OTHER||Effect size|-0.62|||||TWO_SIDED|95.0|-1.44|0.2||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.20|-1.44|
92374537|NCT00487942|184651179|SUPERIORITY_OR_OTHER||Effect size|-0.18|||||TWO_SIDED|95.0|-0.98|0.62||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.62|-0.98|
92374538|NCT00487942|184651179|SUPERIORITY_OR_OTHER||Effect size|-0.17|||||TWO_SIDED|95.0|-0.97|0.63||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.63|-0.97|
92374539|NCT00487942|184651180|SUPERIORITY_OR_OTHER||Effect size|-0.08|||||TWO_SIDED|95.0|-0.88|0.72||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.72|-0.88|
92374540|NCT00487942|184651180|SUPERIORITY_OR_OTHER||Effect size|-0.08|||||TWO_SIDED|95.0|-0.88|0.72||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.72|-0.88|
92409190|NCT00806819|184708525|SUPERIORITY_OR_OTHER|||||||0.0565|TWO_SIDED|||||P-value generated from ANOVA model adjusted for baseline ECOG PS (0 vs. 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|ANOVA|||Analysis based on the investigator's assessment||||0.0565
92229080|NCT01512264|184360661|OTHER|||||||0.12|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 2 weeks of Sham Treatment +1 week of nerTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -3.10.||||0.120
92229081|NCT01512264|184360661|OTHER|||||||0.263|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the control group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -1.14.||||0.263
92229082|NCT01194440|184360671|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Bonferonni|Adjusting for multiple comparisons in the analyses, a Bonferonni-corrected p-value of 0.05/5 = 0.01 to represent statistical significance was used.||The primary hypothesis of the study is that administration of zoledronic acid with letrozole would result in a significant decline in the percentage of women experiencing AIMSS compared to letrozole treatment alone (historical control).||||<0.001
92374541|NCT00487942|184651180|SUPERIORITY_OR_OTHER||Effect size|0.08|||||TWO_SIDED|95.0|-0.72|0.89||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.89|-0.72|
92229083|NCT00854828|184360675|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92229084|NCT00896532|184360708|SUPERIORITY||LS Mean Difference from Placebo|8.7|||<|0.0001|TWO_SIDED|95.0|7.5|9.9||P-value is adjusted by the Hochberg procedure for comparisons to placebo.|Linear Mixed Effects Model|||A linear mixed effects model was fit with the percent change from baseline to months 3, 6 and 12 in BMD of the lumbar spine as the dependent variable and baseline BMD, machine type, interaction of baseline BMD and machine type, geographic region (Latin America, North America, Europe), visit, treatment regimen (categorical), interaction of treatment regimen and visit as the independent variables.||9.9|7.5|< 0.0001
92229085|NCT00896532|184360708|SUPERIORITY||LS Mean Difference from placebo|5.6|||<|0.0001|TWO_SIDED|95.0|4.3|6.9||P-value is adjusted by the Hochberg procedure for comparisons to placebo.|Linear Mixed Effects Model|||A linear mixed effects model was fit with the percent change from baseline to months 3, 6 and 12 in BMD of the lumbar spine as the dependent variable and baseline BMD, machine type, interaction of baseline BMD and machine type, geographic region (Latin America, North America, Europe), visit, treatment regimen (categorical), interaction of treatment regimen and visit as the independent variables.||6.9|4.3|< 0.0001
92229086|NCT00896532|184360708|SUPERIORITY||LS Mean Difference from Placebo|7.4|||<|0.0001|TWO_SIDED|95.0|6.1|8.7||P-value is adjusted by the Hochberg procedure for comparisons to placebo.|Linear Mixed Effects Model|||A linear mixed effects model was fit with the percent change from baseline to months 3, 6 and 12 in BMD of the lumbar spine as the dependent variable and baseline BMD, machine type, interaction of baseline BMD and machine type, geographic region (Latin America, North America, Europe), visit, treatment regimen (categorical), interaction of treatment regimen and visit as the independent variables.||8.7|6.1|< 0.0001
92374542|NCT00487942|184651181|SUPERIORITY_OR_OTHER||Effect size|0.11|||||TWO_SIDED|95.0|-0.65|0.87||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Negative Scale score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.87|-0.65|
92374543|NCT00487942|184651181|SUPERIORITY_OR_OTHER||Effect size|0.13|||||TWO_SIDED|95.0|-0.63|0.88||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Negative Scale score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.88|-0.63|
92409191|NCT00806819|184708526|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.5068|TWO_SIDED|95.0|0.74|1.16|||Regression, Cox||HR below 1 favors nintedanib|HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no).||1.16|0.74|0.5068
92409192|NCT00806819|184708527|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.1181|TWO_SIDED|95.0|0.66|1.05|||Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of cough. HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>=1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)||1.05|0.66|0.1181
92409193|NCT00806819|184708527|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.4264|TWO_SIDED|95.0|0.77|1.12|||Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of dyspnoea. HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>=1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no).||1.12|0.77|0.4264
92409194|NCT00806819|184708527|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.8929|TWO_SIDED|95.0|0.84|1.23|||Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of pain. HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>= 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no).||1.23|0.84|0.8929
92409195|NCT00912197|184708535|SUPERIORITY|||||||0.135|||||||ANCOVA|||||||0.135
92277868|NCT01172600|184457952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.63|TWO_SIDED|98.3|-1.8|1.21|||Mixed Models Analysis|Mixed model with repeated measures, adjusting for VAS pain score at baseline, number of epidural blocks received, and imbalanced baseline variables.|This analysis was per-protocol, using only patients with completed data.|||1.21|-1.80|0.63
92277869|NCT01172600|184457953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.16|TWO_SIDED|98.3|-3.05|0.82|||Mixed Models Analysis|Mixed model with repeated measures, adjusting for VAS pain score at baseline, number of epidural blocks received, and imbalanced baseline variables.|This analysis was per-protocol, using only patients with completed data.|||0.82|-3.05|0.16
92374544|NCT00487942|184651181|SUPERIORITY_OR_OTHER||Effect size|1.69|||||TWO_SIDED|95.0|0.78|2.6||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Negative Scale score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||2.60|0.78|
92374545|NCT00487942|184651182|SUPERIORITY_OR_OTHER||Effect size|-0.3|||||TWO_SIDED|95.0|-1.06|0.46||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.46|-1.06|
92374546|NCT00487942|184651182|SUPERIORITY_OR_OTHER||Effect size|-0.1|||||TWO_SIDED|95.0|-0.87|0.67||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.67|-0.87|
92374547|NCT00487942|184651182|SUPERIORITY_OR_OTHER||Effect size|0.89|||||TWO_SIDED|95.0|0.05|1.74||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.74|0.05|
92374548|NCT00487942|184651183|SUPERIORITY_OR_OTHER||Effect size|-0.25|||||TWO_SIDED|95.0|-1.05|0.55||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.55|-1.05|
92409196|NCT00912197|184708536|SUPERIORITY|||||||0.688|||||||ANCOVA|||||||0.688
92374549|NCT00487942|184651183|SUPERIORITY_OR_OTHER||Effect size|0.29|||||TWO_SIDED|95.0|-0.52|1.09||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.09|-0.52|
92374550|NCT00487942|184651183|SUPERIORITY_OR_OTHER||Effect size|0.75|||||TWO_SIDED|95.0|-0.08|1.58||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.58|-0.08|
92374551|NCT00487942|184651184|SUPERIORITY_OR_OTHER||Effect size|0.02|||||TWO_SIDED|95.0|-0.78|0.82||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.82|-0.78|
92374552|NCT00487942|184651184|SUPERIORITY_OR_OTHER||Effect size|0.55|||||TWO_SIDED|95.0|-0.27|1.36||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.36|-0.27|
92374553|NCT00487942|184651184|SUPERIORITY_OR_OTHER||Effect size|1.62|||||TWO_SIDED|95.0|0.7|2.55||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||2.55|0.70|
92409197|NCT00912197|184708537|SUPERIORITY|||||||0.715|||||||t-test, 2 sided|||after treatment, 56 days||||0.715
92409198|NCT00912197|184708538|SUPERIORITY|||||||0.578|||||||ANCOVA|||||||0.578
92409199|NCT00912197|184708538|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||baseline to after treatment, at 56 days||||0.007
92409200|NCT00912197|184708538|SUPERIORITY|||||||0.05||||||calculated|t-test, 2 sided|||baseline to after treatment, at 56 days||||0.05
92409201|NCT00912197|184708542|SUPERIORITY|||||||0.024|||||||ANCOVA|||Acetate||||0.024
92229087|NCT00896532|184360708|SUPERIORITY||LS Mean Difference from Placebo|8.5|||<|0.0001|TWO_SIDED|95.0|7.3|9.8||P-value is adjusted by the Hochberg procedure for comparisons to placebo.|Linear Mixed Effects Model|||A linear mixed effects model was fit with the percent change from baseline to months 3, 6 and 12 in BMD of the lumbar spine as the dependent variable and baseline BMD, machine type, interaction of baseline BMD and machine type, geographic region (Latin America, North America, Europe), visit, treatment regimen (categorical), interaction of treatment regimen and visit as the independent variables.||9.8|7.3|< 0.0001
92229088|NCT03158220|184360729|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.63|0.77||Analysis of variance (ANOVA) model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 16||0.77|0.63|< 0.001
92277870|NCT02232074|184457964|SUPERIORITY||Odds Ratio (OR)|0.82||||0.77|TWO_SIDED|95.0|0.21|3.14||a priori threshold for statistical significance p\<0.05|Regression, Logistic|||Compared to the control group, the Breast cancer INTERVENTION group will be more likely to have timely first treatment (i.e. receipt of first treatment within 90 days of diagnosis).||3.14|0.21|0.77
92374554|NCT00487942|184651185|SUPERIORITY_OR_OTHER||Effect size|0.11|||||TWO_SIDED|95.0|-0.64|0.87||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.87|-0.64|
92374555|NCT00487942|184651185|SUPERIORITY_OR_OTHER||Effect size|-0.11|||||TWO_SIDED|95.0|-0.87|0.64||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Negative Scale score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.64|-0.87|
92374556|NCT00487942|184651185|SUPERIORITY_OR_OTHER||Effect size|0.73|||||TWO_SIDED|95.0|-0.08|1.54||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Negative Scale score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.54|-0.08|
92374557|NCT00487942|184651186|SUPERIORITY_OR_OTHER||Effect size|-0.5|||||TWO_SIDED|95.0|-1.27|0.27||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.27|-1.27|
92374558|NCT00487942|184651186|SUPERIORITY_OR_OTHER||Effect size|-0.28|||||TWO_SIDED|95.0|-1.05|0.5||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.50|-1.05|
92374559|NCT00487942|184651186|SUPERIORITY_OR_OTHER||Effect size|0.3|||||TWO_SIDED|95.0|-0.51|1.11||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.11|-0.51|
92374560|NCT00487942|184651187|SUPERIORITY_OR_OTHER||Effect size|-0.12|||||TWO_SIDED|95.0|-0.92|0.68||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.68|-0.92|
92374561|NCT00487942|184651187|SUPERIORITY_OR_OTHER||Effect size|0.07|||||TWO_SIDED|95.0|-0.73|0.87||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.87|-0.73|
92277871|NCT02232074|184457965|SUPERIORITY||Odds Ratio (OR)|4.0||||0.26|TWO_SIDED|95.0|0.35|45.4||a priori threshold for statistical significance p\<0.05|Regression, Logistic|||Compared to the control group, the Lung cancer INTERVENTION group will be more likely to have timely first treatment (i.e. receipt of first treatment within 90 days of diagnosis).||45.4|0.35|0.26
92229089|NCT03158220|184360729|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.71|||<|0.001|TWO_SIDED|95.0|0.64|0.8||Analysis of variance (ANOVA) model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 18||0.80|0.64|< 0.001
92277872|NCT02232074|184457966|SUPERIORITY||Median Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.42||0.53|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|Adjusting for baseline Distress Thermometer scores.||Compared to the control group, the Breast cancer INTERVENTION group will have less distress at 3 months post-enrollment||||0.53
92374562|NCT00487942|184651187|SUPERIORITY_OR_OTHER||Effect size|0.03|||||TWO_SIDED|95.0|-0.77|0.83||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.83|-0.77|
92374563|NCT00487942|184651188|SUPERIORITY_OR_OTHER||Effect size|0.0|||||TWO_SIDED|95.0|-0.8|0.8||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.80|-0.80|
92374564|NCT00487942|184651188|SUPERIORITY_OR_OTHER||Effect size|0.18|||||TWO_SIDED|95.0|-0.62|0.98||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.98|-0.62|
92374565|NCT00487942|184651188|SUPERIORITY_OR_OTHER||Effect size|0.66|||||TWO_SIDED|95.0|-0.16|1.49||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.49|-0.16|
92374566|NCT00487942|184651189|SUPERIORITY_OR_OTHER||Effect size|0.25|||||TWO_SIDED|95.0|-0.51|1.01||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the ESS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.01|-0.51|
92374567|NCT00487942|184651189|SUPERIORITY_OR_OTHER||Effect size|0.03|||||TWO_SIDED|95.0|-0.73|0.78||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the ESS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.78|-0.73|
92374568|NCT00487942|184651189|SUPERIORITY_OR_OTHER||Effect size|-0.23|||||TWO_SIDED|95.0|-1.01|0.56||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the ESS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.56|-1.01|
92409202|NCT00756613|184708548|EQUIVALENCE|We considered a 20% reduction in primary events to be a reasonable goal of intensive glycemic control over the anticipated 15-year study time period. This effect size was chosen by taking into consideration both the probability of observing an effect of that size given the level of achieved A1c separation, and the perceived value to the patient of this level of benefit relative to the risk and burden of intensive glycemic control.|Cox Proportional Hazard|0.91||||0.24|TWO_SIDED|95.0|0.78|1.06|||Regression, Cox|||To determine the long term effects of intensive glycemic control in type 2 diabetes on major cardiovascular events.||1.06|0.78|0.24
92277873|NCT02232074|184457967|SUPERIORITY||Median Difference (Final Values)|-1.32|STANDARD_ERROR_OF_MEAN|1.62||0.43|TWO_SIDED|||||Adjusting for baseline Distress Thermometer scores.|Regression, Linear|||Compared to the control group, the LUNG cancer INTERVENTION group will have less distress at 3 months post-enrollment||||0.43
92374569|NCT00487942|184651190|SUPERIORITY_OR_OTHER||Effect size|0.11|||||TWO_SIDED|95.0|-0.64|0.87||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.87|-0.64|
92409203|NCT00756613|184708549|EQUIVALENCE|The equivalence margin is expected 20% reduction for the intensive treatment group compared to the standard treatment group.|Cox Proportional Hazard|1.02||||0.81|TWO_SIDED|95.0|0.88|1.18|||Regression, Cox|||||1.18|0.88|0.81
92409204|NCT00756613|184708550|EQUIVALENCE|The equivalence margin is 20% reduction of intensive treatment group versus standard treatment group.|Cox Proportional Hazard|0.9||||0.48|TWO_SIDED|95.0|0.67|1.2|||Regression, Cox|||||1.20|0.67|0.48
92229090|NCT03158220|184360729|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.66|||<|0.001|TWO_SIDED|95.0|0.6|0.74||ANOVA model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 31||0.74|0.60|< 0.001
92229091|NCT03158220|184360729|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.73|||<|0.001|TWO_SIDED|95.0|0.67|0.8||ANOVA model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 33||0.80|0.67|< 0.001
92229092|NCT03158220|184360729|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.68|||<|0.001|TWO_SIDED|95.0|0.6|0.76||ANOVA model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 45||0.76|0.60|< 0.001
92229093|NCT03158220|184360729|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.71|||<|0.001|TWO_SIDED|95.0|0.64|0.78||ANOVA model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 52||0.78|0.64|< 0.001
92229094|NCT03158220|184360729|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.69|||<|0.001|TWO_SIDED|95.0|0.63|0.76||ANOVA model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 58||0.76|0.63|< 0.001
92229095|NCT03158220|184360732|OTHER||Difference in Percentages|-2.5||||0.212|TWO_SIDED|95.0|-6.4|1.4|||Miettinen & Nurminen||Difference in percentages calculated as % Women 27-45 Years of Age minus % Women 16-26 Years of Age.|||1.4|-6.4|0.212
92229096|NCT03158220|184360733|OTHER||Difference in Percentages|-1.9|||||TWO_SIDED|95.0|-7.3|3.4|||||Difference in percentages calculated as % Women 27-45 Years of Age minus % Women 16-26 Years of Age.|||3.4|-7.3|
92229097|NCT03158220|184360734|OTHER||Difference in Percentages|-1.0||||0.3|TWO_SIDED|95.0|-3.1|0.9|||Miettinen & Nurminen||Difference in percentages calculated as % Women 27-45 Years of Age minus % Women 16-26 Years of Age.|||0.9|-3.1|0.300
92229098|NCT00996203|184360742|SUPERIORITY_OR_OTHER||||||<|0.001||||||EQ-5D scores at Baseline Versus Week 24|t-test, 2 sided|||||||<0.001
92229099|NCT00996203|184360745|SUPERIORITY_OR_OTHER||||||<|0.001||||||General health at baseline Versus Week 24|t-test, 2 sided|||||||<0.001
92229100|NCT00996203|184360747|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline Versus Week 24 DAS28 scores|t-test, 2 sided|||||||<0.001
92229101|NCT00996203|184360749|SUPERIORITY_OR_OTHER||||||<|0.001||||||Mean HAQ scores at Baseline Versus Week 24|t-test, 2 sided|||||||<0.001
92229102|NCT00848120|184360836|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Week 24 versus baseline||||<0.001
92229103|NCT00848120|184360837|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Week 24 versus baseline||||<0.001
92277874|NCT02232074|184457968|SUPERIORITY||Median Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.45||0.18|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|Adjusting for baseline Distress Thermometer scores.||Compared to the control group, the Breast cancer INTERVENTION group will have less distress at 6 months post-enrollment||||0.18
92277875|NCT02232074|184457969|SUPERIORITY||Median Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|1.29||0.33|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|Adjusting for baseline Distress Thermometer scores.||Compared to the control group, the Lung cancer INTERVENTION group will have less distress at 6 months post-enrollment||||0.33
92409205|NCT00756613|184708552|EQUIVALENCE|T-test comparing between the two groups of treatment using the average score of last two surveys.|Mean Difference (Final Values)|1.61||||0.172|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.172
92229104|NCT00848120|184360838|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|||Week 24 versus baseline||||0.001
92277876|NCT02232074|184457970|SUPERIORITY||Median Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.07||0.68|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.68
92409206|NCT03801044|184708561|OTHER|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
92409207|NCT04901715|184708577|OTHER|||||||0.002|||||||ANOVA|||||||0.002
92409208|NCT04901715|184708577|OTHER|||||||0.054|||||||ANOVA|||||||0.054
92409209|NCT04901715|184708577|OTHER|||||||0.27|||||||ANOVA|||||||0.27
92409210|NCT04901715|184708578|OTHER|||||||0.014|||||||ANOVA|||||||0.014
92409211|NCT04901715|184708578|OTHER|||||||0.066|||||||ANOVA|||||||0.066
92229105|NCT02525549|184360842|NON_INFERIORITY|provides 85% power of success|Equivalence ratio|93.12|||||TWO_SIDED|90.0|88.6|102.0|||Fieller's method|||||102.00|88.6|
92229106|NCT02525549|184360843|NON_INFERIORITY|provides 85% power of success|Equivalence ratio|98.7|||||TWO_SIDED|90.0|92.3|109.4|||Fieller's method|||||109.4|92.3|
92229107|NCT01445678|184360882|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower bound of the 2-sided 95% confidence interval was greater than -10%.|Risk Difference (RD)|-4.2|||||TWO_SIDED|95.0|-8.91|0.54||||||||0.54|-8.91|
92229108|NCT01445678|184360883|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower bound of the 2-sided 95% confidence interval was greater than -10%.|Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-4.52|2.59||||||||2.59|-4.52|
92229109|NCT01445678|184360884|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-7.23|0.89||||||||0.89|-7.23|
92229110|NCT01445678|184360885|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-3.4|2.33||||||||2.33|-3.4|
92229111|NCT01445678|184360886|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.1|||||TWO_SIDED|95.0|-9.09|0.94||||||||0.94|-9.09|
92229112|NCT01445678|184360887|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.7|||||TWO_SIDED|95.0|-0.88|2.37||||||||2.37|-0.88|
92409212|NCT04901715|184708578|OTHER|||||||0.58|||||||ANOVA|||||||0.58
92229113|NCT01565980|184360888|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P-values for the comparison of least square (LS) means represent the effect of the trial arm. The effect sizes are calculated as Cohen's d: difference between LS means divided by the standard deviation.|Mixed Models Analysis|||The outcome measure was analyzed using linear mixed effects models (LME). The main effect of the trial arm was evaluated by averaging time 2 and time 3 values of the outcomes within the LME model. The resulting least square (LS) means and their standard errors are reported.||||<.05
92229114|NCT01565980|184360889|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values below 0.05 are considered statistically significant in this study.|Mixed Models Analysis|||||||<0.05
92229115|NCT01565980|184360890|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values below 0.05 are considered statistically significant in this study.|Mixed Models Analysis|||||||<.05
92229116|NCT01565980|184360891|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values below 0.05 are considered statistically significant in this study.|Mixed Models Analysis|||||||<0.05
92229117|NCT01565980|184360892|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values below 0.05 are considered statistically significant in this study.|Mixed Models Analysis|||||||<0.05
92229118|NCT01565980|184360893|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values below 0.05 are considered statistically significant in this study.|Mixed Models Analysis|||||||<0.05
92229119|NCT01565980|184360894|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values above 0.05 are considered statistically insignificant in this study.|Descriptive statistics for outcomes|||||||<0.05
92229120|NCT02078219|184360895|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.28|||<|0.0001|TWO_SIDED|95.0|-36.99|-21.57|||ANCOVA, LOCF|||||-21.57|-36.99|<0.0001
92229121|NCT02078219|184360895|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-49.25|||<|0.0001|TWO_SIDED|95.0|-56.97|-41.52|||ANCOVA, LOCF|||||-41.52|-56.97|<0.0001
92229122|NCT02078219|184360895|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-53.33|||<|0.0001|TWO_SIDED|95.0|-61.0|-45.67|||ANCOVA, LOCF|||||-45.67|-61.00|<0.0001
92229123|NCT00891202|184360907|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-30.03|STANDARD_ERROR_OF_MEAN|3.35|<|0.0001|TWO_SIDED|95.0|-36.82|-23.24|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model fitted with treatment and baseline spleen severity (low spleen severity: spleen volume less than or equal to \[\<=\] 20 multiples of normal spleen volume, high spleen severity: spleen volume greater than \[\>\] 20 multiples of normal spleen volume).||-23.24|-36.82|<0.0001
92229124|NCT03293654|184360952|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25. The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.28|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.18|1.39|||||For the comparison, MB02 represents the numerator and US Avastin represents the denominator.|||1.39|1.18|
92229125|NCT03293654|184360952|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25. The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.12|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.03|1.22|||||For the comparison, MB02 represents the numerator and EU Avastin represents the denominator.|||1.22|1.03|
92229126|NCT03293654|184360952|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25. The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.14|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.05|1.24|||||Ratio of GLSM, EU is the numerator and US Avastin acts as the denominator|||1.24|1.05|
92229127|NCT03293654|184360953|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.16|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.09|1.22|||||||For the comparison, MB02 represents the numerator and US Avastin represents the denominator|1.22|1.09|
92277877|NCT02232074|184457971|SUPERIORITY||Median Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.15||0.26|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.26
92277878|NCT02232074|184457972|SUPERIORITY||Median Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|1.43||0.62|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||Compared to the control group, the Breast cancer INTERVENTION group will be more satisfied with patient navigation at 6 months post-enrollment||||0.62
92277879|NCT02232074|184457973|SUPERIORITY||Median Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|2.91||0.69|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||Compared to the control group, the Lung cancer INTERVENTION group will be more satisfied with patient navigation at 6 months post-enrollment||||0.69
92277880|NCT02232074|184457974|SUPERIORITY||Median Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.59||0.58|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|adjusting for baseline Case scores.||Compared to the control group, the breast cancer INTERVENTION group would have higher self-efficacy was adjusting for baseline self-efficacy scores.||||0.58
92229128|NCT03293654|184360953|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.16|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.09|1.22|||||MB02 represents the numerator and EU Avastin represents the denominator|||1.22|1.09|
92229129|NCT03293654|184360953|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.07|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.0|1.13|||||EU Avastin corresponds to the numerator and US Avastin corresponds to the denominator|||1.13|1|
92229130|NCT03293654|184360960|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.02|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.962|1.07|||||MB02 in numerator and EU Avastin in denominator|||1.07|0.962|
92229131|NCT03293654|184360960|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.06|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.996|1.13|||||MB02 is numerator and US Avastin is denominator|||1.13|0.996|
92229132|NCT03293654|184360960|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.04|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.983|1.11|||||EU Avastin in the numerator and US Avastin in the denominator|||1.11|0.983|
92229133|NCT03293654|184360961|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.02|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.969|1.07|||||MB02: EU Avastin|||1.07|0.969|
92229134|NCT03293654|184360961|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.06|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.998|1.12|||||MB02: US Avastin|||1.12|0.998|
92169065|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.06||0.112|TWO_SIDED|95.0|-0.02|0.2|||ANCOVA|||Week 1: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.20|-0.02|0.1120
92229135|NCT03293654|184360961|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.04|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.981|1.1|||||EU Avastin: US Avastin|||1.1|0.981|
92229136|NCT03293654|184360962|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|0.986|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.903|1.08|||||MB02: EU Avastin|||1.08|0.903|
92229137|NCT03293654|184360962|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.1|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.01|1.19|||||MB02: US Avastin|||1.19|1.01|
92229138|NCT03293654|184360962|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.12|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.02|1.22|||||EU Avastin: US Avastin|||1.22|1.02|
92229139|NCT01111305|184360991|EQUIVALENCE|Equivalence is defined as p≥0.05||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
92229140|NCT00891995|184361000|SUPERIORITY_OR_OTHER|||||||0.49||||||One-sided p-value.|ANCOVA|Adjusted for baseline C-peptide AUC, age, gender and diabetic ketoacidosis.||||||0.49
92229141|NCT00891995|184361003|SUPERIORITY_OR_OTHER|||||||0.4||||||One-sided p-value|ANCOVA|Adjusted for baseline A1c, age, gender and Diabetic ketoacidosis||||||0.40
92277881|NCT02232074|184457975|SUPERIORITY||Median Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|2.21||0.09|TWO_SIDED||||||Regression, Linear|adjusting for baseline Case scores.||Compared to the control group, the lung cancer INTERVENTION group would have higher self-efficacy was adjusting for baseline self-efficacy scores.||||0.09
92277882|NCT02232074|184457976|SUPERIORITY||Odds Ratio (OR)|0.85||||0.79|TWO_SIDED|95.0|0.28|2.79||a priori threshold for statistical significance p\<0.05|Regression, Logistic|||We hypothesize that compared to the control group, the Breast cancer INTERVENTION group will receive quality care (i.e. receipt of radiation within one year of diagnosis).||2.79|0.28|0.79
92277883|NCT02232074|184457977|SUPERIORITY||Median Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.5||0.71|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||We hypothesize that compared to the control group, the Breast cancer INTERVENTION group will have less distress at 12 months post-enrollment.||||0.71
92409213|NCT04301193|184708615|OTHER||Correlation - R value|0.93|||<|0.05|TWO_SIDED||||||Regression, Linear|||Using standard techniques for estimating sample size, a Delong's test indicated that a total of 61 samples would be sufcient to detect a 0.2 increase in the AUROC from the null hypothesis 0.5, assuming an alpha level of 5% and 90% power \[12\]. The manuscript was referenced against the STROBE checklist for cohort studies. Descriptive statistics were used to present.||||<0.05
92229142|NCT02054702|184361010|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in PANSS total score from baseline to week 6 for brexpiprazole.||||<0.0001
92229143|NCT02054702|184361010|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in PANSS total score from baseline to week 6 for aripiprazole.||||<0.0001
92229144|NCT02054702|184361011|SUPERIORITY_OR_OTHER|||||||0.4244|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test composite battery score from baseline to week 6 for brexpiprazole.||||0.4244
92229145|NCT02054702|184361011|SUPERIORITY_OR_OTHER|||||||0.7623|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test composite battery score from baseline to week 6 for aripiprazole.||||0.7623
92229146|NCT02054702|184361012|SUPERIORITY_OR_OTHER|||||||0.8759|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery of early phase battery score from baseline to week 6 for aripiprazole.||||0.8759
92374570|NCT00487942|184651190|SUPERIORITY_OR_OTHER||Effect size|-0.02|||||TWO_SIDED|95.0|-0.79|0.74||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.74|-0.79|
92229147|NCT02054702|184361012|SUPERIORITY_OR_OTHER|||||||0.2176|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery of early phase battery score from baseline to week 6 for aripiprazole.||||0.2176
92229148|NCT02054702|184361013|SUPERIORITY_OR_OTHER|||||||0.842|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of GML from baseline to week 6 for brexpiprazole.||||0.8420
92229149|NCT02054702|184361013|SUPERIORITY_OR_OTHER|||||||0.3781|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of GML from baseline to week 6 for aripiprazole.||||0.3781
92229150|NCT02054702|184361014|SUPERIORITY_OR_OTHER|||||||0.1807|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of detection task from baseline to week 6 for brexpiprazole.||||0.1807
92277884|NCT02232074|184457978|SUPERIORITY||Median Difference (Final Values)|-1.45|STANDARD_DEVIATION|2.71||0.61|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||We hypothesize that compared to the control group, the Lung cancer INTERVENTION group will have less distress at 12 months post-enrollment||||0.61
92374571|NCT00487942|184651190|SUPERIORITY_OR_OTHER||Effect size|-0.3|||||TWO_SIDED|95.0|-1.11|0.5||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.50|-1.11|
92277885|NCT02232074|184457979|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_DEVIATION|0.08||0.46|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.46
92409214|NCT04301193|184708615|OTHER||Correlation - R value|0.77|||<|0.05|TWO_SIDED||||||Regression, Linear|||||||<0.05
92229151|NCT02054702|184361014|SUPERIORITY_OR_OTHER|||||||0.2802|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of detection task from baseline to week 6 for aripiprazole.||||0.2802
92229152|NCT02054702|184361015|SUPERIORITY_OR_OTHER|||||||0.8622|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of identification task from baseline to week 6 for brexpiprazole.||||0.8622
92277886|NCT02232074|184457980|SUPERIORITY||Median Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.2||0.89|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.89
92277887|NCT02232074|184457981|SUPERIORITY||Mean Difference (Final Values)|2.38|STANDARD_DEVIATION|1.66||0.16|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.16
92409215|NCT00147069|184708617|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||||||0.1
92409216|NCT00147069|184708618|SUPERIORITY|||||||0.05||||||The reported p value was calculated|Kruskal-Wallis|||||||0.05
92409217|NCT00147069|184708619|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|||||||0.05
92409218|NCT00147069|184708620|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|||||||0.05
92409219|NCT00459732|184708621|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED|95.0|||||ANOVA|||||||0.13
92229153|NCT02054702|184361015|SUPERIORITY_OR_OTHER|||||||0.4848|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of identification task from baseline to week 6 for aripiprazole.||||0.4848
92229154|NCT02054702|184361016|SUPERIORITY_OR_OTHER|||||||0.8588|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of one card learning task from baseline to week 6 for brexpiprazole.||||0.8588
92229155|NCT02054702|184361016|SUPERIORITY_OR_OTHER|||||||0.9928|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of one card learning task from baseline to week 6 for aripiprazole.||||0.9928
92229156|NCT02054702|184361017|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in CGI-S from baseline to week 6 for brexpiprazole.||||<0.0001
92229157|NCT02054702|184361017|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in CGI-S from baseline to week 6 were observed for aripiprazole.||||<0.0001
92229158|NCT02054702|184361020|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|The analysis of covariance (ANCOVA) model with treatment group and total score at baseline as covariate was used for change from baseline comparisons.||Statistical analysis is mean change in SLOF total score from baseline to week 6 for brexpiprazole.||||<0.0001
92374572|NCT00487942|184651191|SUPERIORITY_OR_OTHER||Effect size|-0.15|||||TWO_SIDED|95.0|-0.95|0.65||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.65|-0.95|
92229159|NCT02054702|184361020|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|The ANCOVA model, with treatment group as main effect and total score at baseline as covariate, was used for change from baseline comparisons.||Statistical analysis is mean change in SLOF total score from baseline to week 6 for aripiprazole.||||<0.0001
92229160|NCT02054702|184361021|SUPERIORITY_OR_OTHER|||||||0.0392|TWO_SIDED||||||ANCOVA|The ANCOVA model, with treatment group as main effect and total score at baseline as covariate, was used for change from baseline comparisons.||Statistical analysis is mean change in BIS-11 item total score from baseline to week 6 for brexpiprazole.||||0.0392
92229161|NCT02054702|184361021|SUPERIORITY_OR_OTHER|||||||0.9716|TWO_SIDED||||||ANCOVA|The ANCOVA model, with treatment group as main effect and total score at baseline as covariate, was used for change from baseline comparisons.||Statistical analysis is mean change in BIS-11 item total score from baseline to week 6 for aripiprazole.||||0.9716
92229162|NCT03486392|184361022|SUPERIORITY||Difference of least square (LS) Means|-6.75|STANDARD_ERROR_OF_MEAN|1.056|<|0.001|TWO_SIDED|95.0|-9.31|-4.19|||Dunnett's method|||||-4.19|-9.31|< 0.001
92374573|NCT00487942|184651191|SUPERIORITY_OR_OTHER||Effect size|-0.07|||||TWO_SIDED|95.0|-0.87|0.73||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.73|-0.87|
92374574|NCT00487942|184651191|SUPERIORITY_OR_OTHER||Effect size|-0.43|||||TWO_SIDED|95.0|-1.24|0.38||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.38|-1.24|
92409220|NCT00459732|184708622|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44|TWO_SIDED|95.0|||||ANOVA|Repeated measures||||||0.44
92229163|NCT03486392|184361022|SUPERIORITY||Difference of LS Means|-8.07|STANDARD_ERROR_OF_MEAN|0.921|<|0.001|TWO_SIDED|95.0|-10.31|-5.84|||Dunnett's method|||||-5.84|-10.31|< 0.001
92229164|NCT03486392|184361022|SUPERIORITY||Difference of LS Means|-10.04|STANDARD_ERROR_OF_MEAN|0.934|<|0.001|TWO_SIDED|95.0|-12.31|-7.78|||Dunnett's method|||||-7.78|-12.31|< 0.001
92229165|NCT03486392|184361022|SUPERIORITY||Difference of LS Means|-5.78|STANDARD_ERROR_OF_MEAN|0.91|<|0.001|TWO_SIDED|95.0|-7.99|-3.57|||Dunnett's method|||||-3.57|-7.99|< 0.001
92229166|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-3.36|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-21.96|15.24|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 10 mg versus Placebo Day 1||15.24|-21.96|
92409221|NCT00459732|184708623|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|TWO_SIDED|95.0|||||ANCOVA|Repeated measures analysis of variance adjusted for baseline osteocalcin level.||||||0.16
92409222|NCT02082119|184708624|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92409223|NCT00552188|184708626|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED|95.0|||||ANCOVA|||ANCOVA model adjusted for baseline value||||0.34
92229167|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-11.81|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-30.01|6.4|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 50 mg versus Placebo Day 1||6.40|-30.01|
92229168|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-25.65|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-42.99|-8.32|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 125 mg versus Placebo Day 1||-8.32|-42.99|
92277888|NCT02232074|184457982|SUPERIORITY||Mean Difference (Final Values)|-4.83|STANDARD_DEVIATION|2.93||0.16|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.16
92229169|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.74|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-5.06|34.53|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 10 mg versus Placebo Day 28||34.53|-5.06|
92229170|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.22|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-14.64|23.08|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 50 mg vs Placebo Day 28||23.08|-14.64|
92229171|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.65|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-11.18|24.47|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 125 mg versus Placebo Day 28||24.47|-11.18|
92229172|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-12.92|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-28.73|2.9|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|Day 28 versus Day 1 of the Placebo arm||2.90|-28.73|
92229173|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.18|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-11.69|22.05|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|Day 28 versus Day 1 of GSK962040 10 mg arm||22.05|-11.69|
92374575|NCT00487942|184651192|SUPERIORITY_OR_OTHER||Effect size|0.06|||||TWO_SIDED|95.0|-0.75|0.86||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.86|-0.75|
92374576|NCT00487942|184651192|SUPERIORITY_OR_OTHER||Effect size|-0.19|||||TWO_SIDED|95.0|-0.99|0.62||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.62|-0.99|
92374577|NCT00487942|184651192|SUPERIORITY_OR_OTHER||Effect size|-0.47|||||TWO_SIDED|95.0|-1.28|0.34||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.34|-1.28|
92374578|NCT05151445|184651206|OTHER||95% CI|-3.56||||0.002|TWO_SIDED|95.0|-5.65|-1.46|||McNemar|||Week 4 vs. Baseline||-1.46|-5.65|0.002
92409224|NCT00552188|184708627|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|95.0|||||ANCOVA|||ANCOVA model adjusted for baseline||||0.15
92409225|NCT00243269|184708662|SUPERIORITY_OR_OTHER|||||||0.932||95.0|||||ANOVA|||The primary analyses consisted of calculating means and standard deviations on nausea for the four study arms to generate an effect size estimate for a later R01. We also planned to use a 2 x 2 (i.e., two levels of expectancy CDs and two levels of expectancy handouts) full factorial analysis of variance (ANOVA) to examine the efficacy of these two methods of expectancy enhancement in reducing Average Nausea as well as any interaction effects.||||0.932
92277889|NCT02232074|184457983|SUPERIORITY||Mean Difference (Final Values)|1.14|STANDARD_DEVIATION|0.75||0.13|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.13
92277890|NCT02232074|184457984|SUPERIORITY||Mean Difference (Final Values)|0.97|STANDARD_DEVIATION|3.7||0.8|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.80
92280402|NCT04684524|184463479|SUPERIORITY||LS Mean Difference|-2.18|||<|0.0001|TWO_SIDED|95.0|-3.04|-1.32|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-1.32|-3.04|<0.0001
92374579|NCT05151445|184651206|OTHER||95% CI|-3.11||||0.004|TWO_SIDED|95.0|-5.07|-1.15|||McNemar|||Week 8 vs. Baseline||-1.15|-5.07|0.004
92409226|NCT00243269|184708663|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||ANOVA|||ANOVA to compare means of the four groups was used.||||0.84
92374580|NCT05151445|184651206|OTHER||95% CI|-2.53||||0.038|TWO_SIDED|95.0|-4.9|0.16|||McNemar|||Week 12 vs. Baseline||0.16|-4.90|0.038
92374581|NCT05151445|184651207|OTHER||95% CI|9.61||||0.062|TWO_SIDED|95.0|-0.55|19.77|||McNemar|||Week 4 vs. Baseline||19.77|-0.55|0.062
92374582|NCT05151445|184651207|OTHER||95% CI|9.78||||0.098|TWO_SIDED|95.0|-2.01|21.56|||McNemar|||Week 8 vs. Baseline||21.56|-2.01|0.098
92374583|NCT05151445|184651207|OTHER||95% CI|17.06||||0.003|TWO_SIDED|95.0|6.51|27.6|||McNemar|||Week 12 vs. Baseline||27.60|6.51|0.003
92374584|NCT05151445|184651208|OTHER|||||||0.37|||||||McNemar|||Week 4 vs. Baseline||||0.37
92409227|NCT00856518|184708675|SUPERIORITY_OR_OTHER|||||||0.899||||||EMST arm vs. Sham arm baseline MEP value comparison|Wilcoxon (Mann-Whitney)|||||||0.899
92409228|NCT00856518|184708675|SUPERIORITY_OR_OTHER|||||||0.946|||||||Plum Ordinal Regression Test|EMST arm vs. Sham arm group comparison of treatment response||||||0.946
92409229|NCT00856518|184708675|SUPERIORITY_OR_OTHER|||||||0.00042|||||||t-test, 2 sided|EMST arm post vs. pre-MEP comparison||||||0.00042
92374585|NCT05151445|184651208|OTHER|||||||0.724|||||||McNemar|||Week 8 vs. Baseline||||0.724
92374586|NCT05151445|184651208|OTHER|||||||0.289|||||||McNemar|||Week 12 vs. Baseline||||0.289
92374587|NCT05151445|184651209|OTHER|||||||1|||||||McNemar|||Week 4 vs. Baseline||||1.000
92229174|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.11|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-13.13|19.36|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|Day 28 versus Day 1 of GSK962040 50 mg arm||19.36|-13.13|
92229175|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|19.39|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|4.47|34.3|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|Day 28 versus Day 1 of GSK962040 125 mg arm||34.30|4.47|
92229176|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.225|||||TWO_SIDED|95.0|-0.32|-0.129|||Mixed Models Analysis|||Type 1 Diabetes, Day 1|Intercept estimate was 125.45 and between participant standard deviation was 21.63|-0.129|-0.320|
92374588|NCT05151445|184651209|OTHER|||||||1|||||||McNemar|||Week 8 vs. Baseline||||1.000
92374589|NCT05151445|184651209|OTHER|||||||1|||||||McNemar|||Weel 12 vs. Baseline||||1.000
92374590|NCT05151445|184651210|OTHER||95% CI|-1.1||||0.696|TWO_SIDED|95.0|-6.96|4.76|||McNemar|||Week 4 vs. Baseline||4.76|-6.96|0.696
92374591|NCT05151445|184651210|OTHER||95% CI|-1.08||||0.734|TWO_SIDED|95.0|-7.72|5.56|||McNemar|||Week 8 vs. Baseline||5.56|-7.72|0.734
92374592|NCT05151445|184651210|OTHER||95% CI|-4.15||||0.249|TWO_SIDED|95.0|-11.53|3.23|||McNemar|||Week 12 vs. Baseline||3.23|-11.53|0.249
92374593|NCT05151445|184651211|OTHER||95% CI|-0.04||||0.989|TWO_SIDED|95.0|-5.25|5.18|||McNemar|||Week 4 vs. Baseline||5.18|-5.25|0.989
92374594|NCT05151445|184651211|OTHER||95% CI|3.43||||0.263|TWO_SIDED|95.0|-2.83|9.69|||McNemar|||Week 8 vs. Baseline||9.69|-2.83|0.263
92374595|NCT05151445|184651211|OTHER||Slope|0.44||||0.882|TWO_SIDED|95.0|-5.8|6.68|||McNemar|||Week 12 vs. Baseline||6.68|-5.80|0.882
92409230|NCT00856518|184708675|SUPERIORITY_OR_OTHER|||||||0.0019||||||Sham arm post vs. pre-MEP comparison|t-test, 2 sided|||||||0.0019
92409231|NCT00856518|184708677|SUPERIORITY_OR_OTHER||||||>|0.05||||||EMST arm vs. Sham arm baseline total score and subscale score comparison|Wilcoxon (Mann-Whitney)|||||||> 0.05
92409232|NCT00856518|184708677|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Plum Ordinal Regression Test|EMST arm vs. Sham arm group comparison of treatment response for total score and all subscale scores except for Burden and Pharyngeal domains||||||> 0.05
92229177|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.078|||||TWO_SIDED|95.0|-0.171|0.016|||Mixed Models Analysis|||Type 1 Diabetes, Day 28|Intercept estimate was 125.45 and between participant standard deviation was 21.63|0.016|-0.171|
92374596|NCT05151445|184651212|OTHER||95% CI|-0.62||||0.425|TWO_SIDED|95.0|-2.23|0.98|||McNemar|||Week 4 vs. Baseline||0.98|-2.23|0.425
92374597|NCT05151445|184651212|OTHER||95% CI|-4.98||||0.205|TWO_SIDED|95.0|-9.08|-0.88|||McNemar|||Week 8 vs. Baseline||-0.88|-9.08|0.205
92374598|NCT05151445|184651212|OTHER||95% CI|-4.98||||0.02|TWO_SIDED|95.0|-9.08|-0.8|||McNemar|||Week 12 vs. Baseline||-0.8|-9.08|0.020
92409233|NCT00856518|184708677|SUPERIORITY_OR_OTHER|||||||0.014|||||||Plum Ordinal Regression Test|EMST arm vs. Sham arm group comparison of treatment response in Burden domain||||||0.014
92374599|NCT05151445|184651213|OTHER||95% CI|0.429||||0.429|TWO_SIDED|95.0|-4.9|11.01|||McNemar|||Week 4 vs. Baseline||11.01|-4.90|0.429
92374600|NCT05151445|184651213|OTHER||95% CI|-4.39||||0.255|TWO_SIDED|95.0|-12.24|3.46|||McNemar|||Week 8 vs. Baseline||3.46|-12.24|0.255
92374601|NCT05151445|184651213|OTHER||95% CI|-7.0||||0.102|TWO_SIDED|95.0|-15.55|1.55|||McNemar|||Week 12 vs. Baseline||1.55|-15.55|0.102
92374602|NCT05151445|184651214|OTHER||95% CI|-1.94||||0.568|TWO_SIDED|95.0|-8.99|5.1|||McNemar|||Week 4 vs. Baseline||5.10|-8.99|0.568
92374603|NCT05151445|184651214|OTHER||95% CI|-4.11||||0.198|TWO_SIDED|95.0|-10.59|2.37|||McNemar|||Week 8 vs. Baseline||2.37|-10.59|0.198
92374604|NCT05151445|184651214|OTHER||95% CI|-3.76||||0.225|TWO_SIDED|95.0|-10.08|2.55|||McNemar|||Week 12 vs. Baseline||2.55|-10.08|.225
92409234|NCT00856518|184708677|SUPERIORITY_OR_OTHER|||||||0.022|||||||Plum Ordinal Regression test|EMST arm vs. Sham arm group comparison of treatment response in Pharyngeal domain||||||0.022
92409235|NCT00856518|184708677|SUPERIORITY_OR_OTHER||||||>|0.05||||||Sham arm post vs. pre-treatment comparison for the total SWAL-QOL score and subscale scores except for the Burden and Mental Health domains.|Wilcoxon Signed Ranks Test|||||||>0.05
92409236|NCT00856518|184708677|SUPERIORITY_OR_OTHER|||||||0.038|||||||Wilcoxon Signed Ranks Test|Sham arm post vs. pre-treatment comparison in Burden domain||||||0.038
92409237|NCT00856518|184708677|SUPERIORITY_OR_OTHER|||||||0.031|||||||Wilcoxon Signed Ranks Test|Sham arm post vs. pre-treatment comparison in Mental Health domain||||||0.031
92409238|NCT00856518|184708677|SUPERIORITY_OR_OTHER|||||||0.027|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Burden domain||||||0.027
92374605|NCT04098367|184651234|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|30.6|||||TWO_SIDED|97.5|13.34|46.79|||Miettinen-Nurminen||VIVITY minus SYMFONY|||46.79|13.34|
92374606|NCT04098367|184651234|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|30.1|||||TWO_SIDED|97.5|12.54|46.68|||Miettinen-Nurminen||VIVITY minus AT LARA|||46.68|12.54|
92374607|NCT04098367|184651235|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|-2.3|||||TWO_SIDED|97.5|-21.91|17.42|||Miettinen-Nurminen||VIVITY minus SYMFONY|||17.42|-21.91|
92374608|NCT04098367|184651235|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|8.2|||||TWO_SIDED|97.5|-12.0|27.8|||Miettinen-Nurminen||VIVITY minus AT LARA|||27.80|-12.00|
92374609|NCT04098367|184651236|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|23.5|||||TWO_SIDED|97.5|4.66|40.86|||Miettinen-Nurminen||VIVITY minus SYMFONY|||40.86|4.66|
92374610|NCT04098367|184651236|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|40.7|||||TWO_SIDED|97.5|21.16|57.22|||Miettinen-Nurminen||VIVITY minus AT LARA|||57.22|21.16|
92374611|NCT00378599|184651244|SUPERIORITY_OR_OTHER||Binomial Approximation|0.288|||||TWO_SIDED|95.0|0.21|0.38||||||||0.38|0.21|
92229178|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.225|||||TWO_SIDED|95.0|-0.32|-0.129|||Mixed Models Analysis|||Type 2 Diabetes, Day 1|Intercept estimate was 113.23 and between participant standard deviation was 21.63|-0.129|-0.320|
92374612|NCT01106859|184651245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.0174|TWO_SIDED|95.0|0.1|1.5||No p-value adjustment for multiple comparisons.|ANOVA|The degrees of freedom are 114 for the p-value testing the difference between treatment groups.||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDLP (Zolpidem 4 Hours) - LS mean of SDLP (Placebo).||1.5|0.1|0.0174
92374613|NCT01106859|184651245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|||<|0.0001|TWO_SIDED|95.0|0.8|2.1||No p-value adjustment for multiple comparisons.|ANOVA|The degrees of freedom are 114 for the p-value testing the difference between treatment groups||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDLP (Zolpidem 3 Hours) - LS mean of SDLP (Placebo).||2.1|0.8|<0.0001
92374614|NCT01106859|184651245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||<|0.0001|TWO_SIDED|95.0|1.8|3.1||No p-value adjustment for multiple comparisons|ANOVA|The degrees of freedom are 114 for the p-value testing the difference between treatment groups||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDLP (Zopiclone) - LS mean of SDLP (Placebo).||3.1|1.8|<0.0001
92374615|NCT01106859|184651246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.0145|TWO_SIDED|95.0|0.03|0.27||No p-value adjustment for multiple comparisons|ANOVA|The degrees of freedom are 113 for the p-value testing the difference between treatment groups||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDS (Zolpidem 4 hours prior) - LS mean of SDS (Placebo).||0.27|0.03|0.0145
92374616|NCT01106859|184651246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.2179|TWO_SIDED|95.0|-0.05|0.2||No p-value adjustment for multiple comparisons|ANOVA|The degrees of freedom are 113 for the p-value testing the difference between treatment groups||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDS (Zolpidem 3 Hours) - LS mean of SDS (Placebo).||0.20|-0.05|0.2179
92374617|NCT01106859|184651246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.0096|TWO_SIDED|95.0|0.04|0.29||No p-value adjustment for multiple comparisons|ANOVA|The degrees of freedom are 113 for the p-value testing the difference between treatment groups||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDS (Zopiclone) - LS mean of SDS (Placebo).||0.29|0.04|0.0096
92374618|NCT01106859|184651249|SUPERIORITY_OR_OTHER|||||||0.2188||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 4 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.2188
92374619|NCT01106859|184651249|SUPERIORITY_OR_OTHER|||||||0.0117||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 3 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.0117
92374620|NCT01106859|184651249|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zopiclone 9 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||<0.0001
92374621|NCT01106859|184651251|SUPERIORITY_OR_OTHER|||||||0.125||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.0 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 4 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.1250
92409239|NCT00856518|184708677|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Mental Health domain||||||0.016
92409240|NCT00856518|184708677|SUPERIORITY_OR_OTHER|||||||0.007|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Pharyngeal domain||||||0.007
92229179|NCT01262898|184361047|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.078||||||95.0|-0.171|0.016|||Mixed Models Analysis|||Type 2 Diabetes, Day 28|Intercept estimate was 113.23 and between participant standard deviation was 21.63|0.016|-0.171|
92229180|NCT02304926|184361077|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229181|NCT02304926|184361078|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229182|NCT02304926|184361079|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92409241|NCT00856518|184708677|SUPERIORITY_OR_OTHER|||||||0.036|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Saliva domain||||||0.036
92409242|NCT00856518|184708677|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Fear domain||||||0.004
92409243|NCT00856518|184708677|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Total SWAL-QOL score||||||0.016
92409244|NCT02867384|184708678|SUPERIORITY|||||||0.0008|||||||Fisher Exact|||||||0.0008
92409245|NCT02105961|184708689|SUPERIORITY||Rate ratio (Mepolizumab 100/Placebo)|0.8||||0.068|TWO_SIDED|95.0|0.65|0.98||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||0.98|0.65|0.068
92374622|NCT01106859|184651251|SUPERIORITY_OR_OTHER|||||||0.0074||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.0 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 3 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.0074
92409246|NCT02105961|184708689|SUPERIORITY||Rate ratio (Mepolizumab 100/Placebo)|0.8||||0.034|TWO_SIDED|95.0|0.65|0.98||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||0.98|0.65|0.034
92409247|NCT02105961|184708689|SUPERIORITY||Rate ratio (Mepolizumab 300/Placebo)|0.86||||0.14|TWO_SIDED|95.0|0.7|1.05||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period|||1.05|0.70|0.140
92229183|NCT02304926|184361080|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92229184|NCT02304926|184361081|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92409248|NCT02105961|184708689|SUPERIORITY||Rate ratio (Mepolizumab 300/Placebo)|0.86||||0.14|TWO_SIDED|95.0|0.7|1.05||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||1.05|0.70|0.140
92409249|NCT02105961|184708690|SUPERIORITY||Hazard Ratio(Mepolizumab 100/Placebo)|0.82||||0.14|TWO_SIDED|95.0|0.64|1.04||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, number of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||1.04|0.64|0.140
92409250|NCT02105961|184708690|SUPERIORITY||Hazard Ratio (Mepolizumab/Placebo)|0.82||||0.103|TWO_SIDED|95.0|0.64|1.04||Unadjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, number of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||1.04|0.64|0.103
92409251|NCT02105961|184708690|SUPERIORITY||Hazard Ratio (Mepolizumab 300/Placebo)|0.77||||0.14|TWO_SIDED|95.0|0.6|0.97||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, number of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||0.97|0.60|0.140
92229185|NCT02304926|184361082|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229186|NCT02304926|184361083|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229187|NCT02304926|184361084|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229188|NCT02304926|184361085|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229189|NCT02304926|184361086|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229190|NCT02304926|184361087|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229191|NCT02304926|184361088|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229192|NCT02304926|184361089|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229193|NCT02304926|184361090|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229194|NCT02304926|184361091|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229195|NCT02304926|184361092|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92409252|NCT02105961|184708690|SUPERIORITY||Hazard Ratio (Mepolizumab 300/Placebo)|0.77||||0.03|TWO_SIDED|95.0|0.6|0.97||Unadjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, number of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||0.97|0.60|0.030
92409253|NCT02105961|184708691|SUPERIORITY||Rate ratio (Mepolizumab 100/Placebo)|0.59||||0.14|TWO_SIDED|95.0|0.35|0.98||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||0.98|0.35|0.140
92229196|NCT02304926|184361093|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229197|NCT02304926|184361094|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92229198|NCT02304926|184361095|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229199|NCT02304926|184361096|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92229200|NCT02388295|184361106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.24||0.13|ONE_SIDED|||||Not adjusted|ANOVA||larger negative values (powered to detect -0.50)|Change from baseline within treatment arm||||0.13
92229201|NCT02388295|184361106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.25||0.91|ONE_SIDED|||||not adjusted|ANOVA||larger negative values (powered to detect -0.50)|Change from baseline||||0.91
92229202|NCT02388295|184361106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.25||0.68|ONE_SIDED||||||ANOVA|no adjustments|larger negagtive values (powereed to detect -0.50)|Change from baseline||||0.68
92229203|NCT02388295|184361106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.34||0.32|TWO_SIDED|||||no adjustment|ANOVA||Looking for negative direction to indicate treatment better than placebo|Secondary objective - comparison to placebo||||0.32
92229204|NCT02388295|184361106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.36||0.45|TWO_SIDED|||||no adjustment|ANOVA||lookin for negative difference compared to placebo|Secondary objective||||0.45
92229205|NCT02076165|184361109|SUPERIORITY||||||=|0.12|||||||Fisher Exact|||Percentage of participants who completed all 5 treatment sessions, comparing ABC-I to CBT-I.||||=.120
92229206|NCT02076165|184361110|SUPERIORITY||Mean Difference (Final Values)|-0.711|STANDARD_ERROR_OF_MEAN|3.59|=|0.843|TWO_SIDED|95.0|-7.75|6.32|||Mixed Models Analysis||The average deviation, in minutes, between the recommended and actual bed time. Negative values indicate the number of minutes earlier than the recommended bed time that the participant went to bed, indicating greater non-adherence.|||6.32|-7.75|=.843
92280403|NCT04684524|184463480|SUPERIORITY||LS Mean Difference|4.46||||0.0392|TWO_SIDED|95.0|0.22|8.71|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||8.71|0.22|0.0392
92229207|NCT02076165|184361111|SUPERIORITY||Mean Difference (Final Values)|-2.78|STANDARD_ERROR_OF_MEAN|5.17|=|0.59|TWO_SIDED|95.0|-12.91|7.35|||Mixed Models Analysis||The average deviation, in minutes, between the recommended and actual rise time. Positive values indicate the number of minutes later than the recommended rise time that the participant got out of bed, indicating greater non-adherence.|||7.35|-12.91|=0.590
92229208|NCT02076165|184361112|SUPERIORITY||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.048|=|0.979|TWO_SIDED|95.0|-0.093|0.096|||Mixed Models Analysis||The proportion of nights participants who did not follow the recommendation to get out of bed if awake more than 20 minutes. Higher numbers indicate greater non-adherence.|||0.096|-0.093|=0.979
92229209|NCT02076165|184361113|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). For sleep diary estimated sleep efficiency, this represents a difference of 5%.|Mean Difference (Net)|0.409|STANDARD_ERROR_OF_MEAN|2.02|=|0.004|TWO_SIDED|90.0|-2.92|3.74|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency from baseline to post-treatment for ABCI group versus the same improvement in the CBTI group.|||3.74|-2.92|=0.004
92229210|NCT02076165|184361114|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). For sleep diary estimated sleep efficiency, this represents a difference of 5%.|Mean Difference (Net)|0.757|STANDARD_ERROR_OF_MEAN|2.12||0.003|TWO_SIDED|90.0|-2.72|4.23|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency from baseline to 3-month follow-up for ABCI group versus the same improvement in the CBTI group.|||4.23|-2.72|.003
92229211|NCT02076165|184361115|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). For actigraphically-estimated sleep efficiency, this represents a difference of 5%.|Mean Difference (Net)|0.68|STANDARD_ERROR_OF_MEAN|1.15|<|0.001|TWO_SIDED|90.0|-1.21|2.57|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency from baseline to post-treatment for ABCI group versus the same improvement in the CBTI group.|||2.57|-1.21|<0.001
92229212|NCT02076165|184361116|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). For actigraphically-estimated sleep efficiency, this represents a difference of 5%.|Mean Difference (Net)|1.11|STANDARD_ERROR_OF_MEAN|1.37|<|0.001|TWO_SIDED|90.0|-1.14|3.36|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency from baseline to 3-month follow-up for ABCI group versus the same improvement in the CBTI group.|||3.36|-1.14|<.001
92229213|NCT02076165|184361117|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). With respect to ISI, this represents a 2 point difference between the treatment effects.|Mean Difference (Net)|0.501|STANDARD_ERROR_OF_MEAN|0.9|=|0.048|TWO_SIDED|90.0|-0.98|1.98|||Mixed Models Analysis||The parameter estimate is the improvement in the ISI score from baseline to post-treatment for ABCI group versus the same improvement in the CBTI group.|||1.98|-0.98|=0.048
92409254|NCT02105961|184708691|SUPERIORITY||Rate ratio (Mepolizumab 100/Placebo)|0.59||||0.042|TWO_SIDED|95.0|0.35|0.98||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||0.98|0.35|0.042
92409255|NCT02105961|184708691|SUPERIORITY||Rate ratio (Mepolizumab 300/Placebo)|0.83||||0.447|TWO_SIDED|95.0|0.51|1.34||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||1.34|0.51|0.447
92229214|NCT02076165|184361118|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). With respect to ISI, this represents a 2 point difference between the treatment effects.|Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|1.06|=|0.008|TWO_SIDED|90.0|-2.32|1.17|||Mixed Models Analysis||The parameter estimate is the improvement in the ISI score from baseline to 3-month follow-up for ABCI group versus the same improvement in the CBTI group.|||1.17|-2.32|=0.008
92229215|NCT01950819|184361129|NON_INFERIORITY|p vale for non inferiority margin is 10 %|Odds Ratio (OR)|3.0||||0.001|TWO_SIDED|95.0|-1.4|7.3|||Logistic Regression Model|||calculated at month 12||7.3|-1.4|0.001
92229216|NCT01360645|184361169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12||||0.0001|TWO_SIDED|95.0|-4.7|-1.54|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||The primary analysis was performed on the Efficacy Sample by fitting a Mixed Model Repeated Measures (MMRM) analysis with an unstructured variance covariance structure in which the change from the end of Phase A (Week 8) in MADRS Total Score (at Weeks 9 to 14) was the dependent variable. The model included fixed class effect terms for treatment, trial site, visit week, and an interaction term of treatment by visit week.||-1.54|-4.70|0.0001
92229217|NCT01360645|184361170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.21||||0.0002|TWO_SIDED|95.0|-4.87|-1.54|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||||-1.54|-4.87|0.0002
92229218|NCT01360645|184361171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.0372|TWO_SIDED|95.0|-0.86|-0.03|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||||-0.03|-0.86|0.0372
92229219|NCT01360645|184361172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0349|TWO_SIDED|95.0|-0.88|-0.03|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||||-0.03|-0.88|0.0349
92280404|NCT04684524|184463481|SUPERIORITY||LS Mean Difference|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.29|-0.49|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-0.49|-1.29|<0.0001
92409256|NCT02105961|184708691|SUPERIORITY||Rate ratio (Mepolizumab 300/Placebo)|0.83||||0.447|TWO_SIDED|95.0|0.51|1.34||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||1.34|0.51|0.447
92409257|NCT02105961|184708692|SUPERIORITY||Mean difference(Mepolizumab 100-Placebo)|-1.8||||0.447|TWO_SIDED|95.0|-4.5|0.8||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline SGRQ total score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.8|-4.5|0.447
92409258|NCT02105961|184708692|SUPERIORITY||Mean difference(Mepolizumab 100-Placebo)|-1.8||||0.18|TWO_SIDED|95.0|-4.5|0.8||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline SGRQ total score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.8|-4.5|0.180
92409259|NCT02105961|184708692|SUPERIORITY||Mean difference(Mepolizumab 300-Placebo)|-0.1||||0.926|TWO_SIDED|95.0|-2.8|2.6||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline SGRQ total score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||2.6|-2.8|0.926
92409260|NCT02105961|184708692|SUPERIORITY||Mean difference(Mepolizumab 300-Placebo)|-0.1||||0.926|TWO_SIDED|95.0|-2.8|2.6||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline SGRQ total score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||2.6|-2.8|0.926
92409261|NCT02105961|184708693|SUPERIORITY||Mean difference(Mepolizumab 100-Placebo)|-1.1||||0.926|TWO_SIDED|95.0|-2.3|0.0||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.0|-2.3|0.926
92409262|NCT02105961|184708693|SUPERIORITY||Mean difference(Mepolizumab 100-Placebo)|-1.1||||0.055|TWO_SIDED|95.0|-2.3|0.0||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.0|-2.3|0.055
92409263|NCT02105961|184708693|SUPERIORITY||Mean difference(Mepolizumab 300-Placebo)|-0.4||||0.926|TWO_SIDED|95.0|-1.5|0.8||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.8|-1.5|0.926
92229220|NCT01360645|184361173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29||||0.008|TWO_SIDED|95.0|-2.25|-0.34|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.34|-2.25|0.0080
92229221|NCT01360645|184361173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72||||0.0045|TWO_SIDED|95.0|-2.91|-0.54|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||-0.54|-2.91|0.0045
92229222|NCT01360645|184361173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.63||||0.0001|TWO_SIDED|95.0|-3.96|-1.3|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||-1.30|-3.96|0.0001
92229223|NCT01360645|184361173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.59||||0.0004|TWO_SIDED|95.0|-4.01|-1.18|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||-1.18|-4.01|0.0004
92229224|NCT01360645|184361173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.19||||0|TWO_SIDED|95.0|-4.68|-1.7|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||-1.70|-4.68|0.0000
92229225|NCT01360645|184361174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31||||0.0086|TWO_SIDED|95.0|-2.28|-0.34|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.34|-2.28|0.0086
92229226|NCT01360645|184361174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52||||0.0149|TWO_SIDED|95.0|-2.74|-0.3|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||-0.30|-2.74|0.0149
92374623|NCT01106859|184651251|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.0 cm in Standard Deviation of Lateral Position (SDLP) following administration of Zopiclone 9 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||<0.0001
92374624|NCT01106859|184651253|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-3.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 4 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.5000
92374625|NCT01106859|184651253|SUPERIORITY_OR_OTHER|||||||0.0156||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-3.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 3 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.0156
92374626|NCT01106859|184651253|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-3.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zopiclone 9 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.0001
92374627|NCT00322023|184651318|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|These are paired t test baseline vs final for the 30 mg/kg dose||||||<0.0001
92374628|NCT00322023|184651318|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|These are paired t test baseline vs final for the 60 mg/kg dose||||||<0.05
92409264|NCT02105961|184708693|SUPERIORITY||Mean difference(Mepolizumab 300-Placebo)|-0.4||||0.547|TWO_SIDED|95.0|-1.5|0.8||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.8|-1.5|0.547
92409265|NCT04380519|184708701|SUPERIORITY||Risk Ratio (RR)|1.012||||0.434|ONE_SIDED|97.5|0.88|||Hochberg adjustment was applied for p-values|Maximal Likelihood Estimator (MLE) model||||||0.880|0.434
92229227|NCT01360645|184361174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.42||||0.0006|TWO_SIDED|95.0|-3.78|-1.05|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||-1.05|-3.78|0.0006
92409266|NCT04380519|184708701|SUPERIORITY||Risk Ratio (RR)|1.125||||0.073|ONE_SIDED|97.5|0.989|||Hochberg adjustment was applied for p-values|Maximal Likelihood Estimator (MLE) model||||||0.989|0.073
92409267|NCT04380519|184708703|SUPERIORITY||Risk Ratio (RR)|1.019||||0.393|ONE_SIDED|97.5|0.892|||unadjusted|Maximal Likelihood Estimator (MLE) model||||||0.892|0.393
92409268|NCT04380519|184708703|SUPERIORITY||Risk Ratio (RR)|1.098||||0.061|ONE_SIDED|97.5|0.975|||unadjusted|Maximal Likelihood Estimator (MLE) model||||||0.975|0.061
92409269|NCT04380519|184708704|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.31|1.44||||||||1.44|0.31|
92409270|NCT04380519|184708704|SUPERIORITY||Risk Ratio (RR)|0.33|||||TWO_SIDED|95.0|0.12|0.89||||||||0.89|0.12|
92409271|NCT04380519|184708704|SUPERIORITY||Odds Ratio (OR)|0.64|||||TWO_SIDED|95.0|0.28|1.49||||||||1.49|0.28|
92409272|NCT04380519|184708704|SUPERIORITY||Odds Ratio (OR)|0.31|||||TWO_SIDED|95.0|0.11|0.87||||||||0.87|0.11|
92280405|NCT04684524|184463482|SUPERIORITY||LS Mean Difference|-2.77|||<|0.0001|TWO_SIDED|95.0|-3.82|-1.72|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-1.72|-3.82|<0.0001
92374629|NCT00322023|184651318|SUPERIORITY|These are paired t test baseline vs final for the 120 mg/kg dose|||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92374630|NCT00322023|184651319|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39|TWO_SIDED|95.0||||These are paired t test baseline vs final for 30mg/kg|t-test, 2 sided|||||||0.39
92374631|NCT00322023|184651319|SUPERIORITY||||||<|0.001||||||These are paired t test baseline vs final for 60mg/kg|t-test, 2 sided|||||||<0.001
92374632|NCT00322023|184651319|SUPERIORITY|||||||0.01||||||These are paired t test baseline vs final for 120mg/kg|t-test, 2 sided|||||||0.01
92374633|NCT03327220|184651320|SUPERIORITY||Difference in Means|1.3||||0.0841|TWO_SIDED|95.0|-0.6|3.2||p-value was calculated from a one-sided, two-sample t-test.|t-test, 1 sided|||Testing null hypothesis that true iovera° mean was greater than or equal to the true standard of care mean versus the alternative hypothesis that true iovera° mean was less than true standard of care mean.||3.2|-0.6|0.0841
92374634|NCT03327220|184651321|NON_INFERIORITY|The objective met if the t-test for non-inferiority was statistically significant using a one-sided α = 0.025 level of statistical significance.|Difference in Means|1.9|||<|0.0001|TWO_SIDED|95.0|-2.3|6.1||p-value was calculated from a one-sided, two-sample t-test.|t-test, 1 sided|||Testing null hypothesis that Standard of Care mean minus the iovera° mean was greater than or equal to non-inferiority margin of 14 versus alternative hypothesis that difference in means was less than 14.||6.1|-2.3|<0.0001
92374635|NCT03327220|184651322|SUPERIORITY||Difference in Means|0.5||||0.0946|TWO_SIDED|95.0|-0.2|1.2||p-value was calculated from a one-sided, two-sample t-test.|t-test, 1 sided|||Pain in the Past 7 days - Testing the null hypothesis that the iovera° mean was less than or equal to the Standard of Care mean versus the alternative hypothesis that the iovera° mean was greater than the Standard of Care mean.||1.2|-0.2|0.0946
92374636|NCT03327220|184651322|SUPERIORITY|Pain Right Now - Testing the null hypothesis that the iovera° mean was less than or equal to the Standard of Care mean versus the alternative hypothesis that the iovera° mean was greater than the Standard of Care mean.|Difference in Means|0.4||||0.2204|TWO_SIDED|95.0|-0.6|1.3||p-value was calculated from a one-sided, two-sample t-test,|t-test, 1 sided|||||1.3|-0.6|0.2204
92374637|NCT03327220|184651323|SUPERIORITY||Difference in Means|-0.8||||0.3231|TWO_SIDED|95.0|-4.0|2.5||p-value was calculated from a one-sided, two-sample t-test.|t-test, 1 sided|||Testing the null hypothesis that the iovera° mean was less than or equal to the Standard of Care mean versus the alternative hypothesis that the iovera° mean was greater than the Standard of Care mean.||2.5|-4.0|0.3231
92374638|NCT03920293|184651324|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.49|=|0.0009|TWO_SIDED|95.0|-2.6|-0.7||Statistical significance was tested at α=0.05.|MMRM|||||-0.7|-2.6|=0.0009
92374639|NCT00523705|184651330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.57|STANDARD_ERROR_OF_MEAN|4.86||0.467|TWO_SIDED||||||Regression, Linear||estimate of main effect of treatment in a linear mixed effects model.|Pilot data were examined at treatment endpoint for change from baseline. Statistical power was very low due to the small sample size.||||0.467
92374640|NCT01691885|184651347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.83|||<|0.001|TWO_SIDED|95.0|2.74|8.91|||ANCOVA|Analysis was performed using an ANCOVA model with covariates of treatment, baseline, period and subject as a random effect.||||8.91|2.74|<0.001
92374641|NCT03989427|184651382|EQUIVALENCE|The two treatment sequence could be called equivalent if the observed difference and its 95% CI are completely inside the interval of clinical equivalence. A significant result (p \< 0.05) means that the two treatments are equivalent, according the definition of equivalence as defined clinically.|Mean Difference (Net)|1.424||||0.022|TWO_SIDED|95.0|0.221|2.628||The threshold for statistical significance was p \<0.05|ANOVA|Three-way mixed ANOVA was done to determine the effect of Intervention on BPI scores .||"Null hypothesis is that the sequence of brushing first and flossing later has no effect on gingival inflammation.~No previous studies with Mean and SD were available. Hence, a pilot study was done. 30 participants were randomly assigned to Brush first and floss later (BF) group ; and Floss first brush later(FB) group. After 1 week there was cross-over. 80% power is required to detect mean difference in BPI scores."||2.628|0.221|0.022
92409273|NCT04380519|184708705|SUPERIORITY||Risk Ratio (RR)|2.35|||||TWO_SIDED|95.0|0.93|5.92||||||||5.92|0.93|
92409274|NCT04380519|184708705|SUPERIORITY||Risk Ratio (RR)|1.5|||||TWO_SIDED|95.0|0.55|4.09||||||||4.09|0.55|
92409275|NCT04380519|184708705|SUPERIORITY||Odds Ratio (OR)|2.53|||||TWO_SIDED|95.0|0.94|6.81||||||||6.81|0.94|
92409276|NCT04380519|184708705|SUPERIORITY||Odds Ratio (OR)|1.54|||||TWO_SIDED|95.0|0.53|4.46||||||||4.46|0.53|
92374642|NCT03989427|184651383|EQUIVALENCE|The two treatment sequence could be called equivalent if the observed difference and its 95% CI are completely inside the interval of clinical equivalence. A significant result (p \< 0.05) means that the two treatments are equivalent, according the definition of equivalence as defined clinically.|Mean Difference (Net)|-0.058||||0.971|TWO_SIDED|95.0|-3.335|3.219|||ANOVA|Three-way mixed ANOVA was done to determine the effect of Intervention on RMNPI index scores||"Null hypothesis:~The sequence of brushing and flossing has no effect on plaque scores~There were no previous studies with Mean and SD to calculate sample. So a pilot study was conducted. 30 participants were randomly assigned in 1:1 fashion to Brush-floss (GroupA) and Floss brush group (group B). Then after 1 week there was cross-over among the groups.2 groups would have at least 80% power to detect the mean difference in BPI scores."||3.219|-3.335|0.971
92374643|NCT01972308|184651384|SUPERIORITY||Group differences in expected 12 month c|-0.31|||||TWO_SIDED|95.0|-0.64|0.04||||||||0.04|-0.64|
92374644|NCT01972308|184651385|SUPERIORITY||Group differences in expected 12 month c|-0.66|||||TWO_SIDED|95.0|-1.38|-0.01||||||||-0.01|-1.38|
92409277|NCT04173494|184708706|SUPERIORITY||Stratified Cochran-Mantel-Haenszel|15.67||||0.0095|TWO_SIDED|95.0|5.54|25.81|||Cochran-Mantel-Haenszel|||||25.81|5.54|0.0095
92409278|NCT04173494|184708707|NON_INFERIORITY|If the lower bound of the confidence interval (CI) is greater than 0, MMB was to be declared non-inferior to DAN.|Non-inferiority difference|13.58||||0.0116|TWO_SIDED|95.0|1.86|25.3|||Cochran-Mantel-Haenszel||Non-inferiority difference, defined as p(MMB) - (0.8) \*p(DAN) where p(MMB) is percentage of participants with TI status in MMB arm and p(DAN) is percentage of participants with TI status in DAN arm.|||25.30|1.86|0.0116
92229228|NCT01360645|184361174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.52||||0.0009|TWO_SIDED|95.0|-4.0|-1.04|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||-1.04|-4.00|0.0009
92229229|NCT01360645|184361174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.28||||0|TWO_SIDED|95.0|-4.84|-3.28|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||-3.28|-4.84|0.0000
92229230|NCT01360645|184361175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.0022|TWO_SIDED|95.0|-0.38|-0.08|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from Cochran-Mantel-Haenszel (CMH) row mean score differ test controlling for study center.||Statistical analysis for Week 9||-0.08|-0.38|0.0022
92229231|NCT01360645|184361175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.0115|TWO_SIDED|95.0|-0.38|-0.05|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 10||-0.05|-0.38|0.0115
92374645|NCT01972308|184651386|SUPERIORITY||Group differences in expected 12 month c|0.06|||||TWO_SIDED|95.0|-0.33|0.43||||||||0.43|-0.33|
92374646|NCT01972308|184651387|SUPERIORITY||Group differences in expected 12 month c|0.02|||||TWO_SIDED|95.0|-0.42|0.48||||||||0.48|-0.42|
92409279|NCT04173494|184708708|OTHER||Stratified Cochran-Mantel-Haenszel|33.05|||<|0.0001|TWO_SIDED|95.0|22.59|43.51|||Cochran-Mantel-Haenszel|||||43.51|22.59|< 0.0001
92409280|NCT04173494|184708709|OTHER||Least Squares Mean Difference|-6.22||||0.0014|TWO_SIDED|95.0|-10.0|-2.43|||mixed model for repeated measures (MMRM)|||||-2.43|-10.0|0.0014
92409281|NCT04173494|184708710|OTHER||Stratified Cochran-Mantel-Haenszel|18.18||||0.0011|TWO_SIDED|95.0|9.77|26.59|||Cochran-Mantel-Haenszel|||||26.59|9.77|0.0011
92409282|NCT04173494|184708711|OTHER||Stratified Cochran-Mantel-Haenszel|17.2||||0.0012|TWO_SIDED|95.0|7.99|26.4|||Cochran-Mantel-Haenszel|||||26.40|7.99|0.0012
92409283|NCT04173494|184708712|OTHER||Stratified Cochran-Mantel-Haenszel|10.62||||0.1133|TWO_SIDED|95.0|-2.4|23.64|||Cochran-Mantel-Haenszel|||||23.64|-2.40|0.1133
92409284|NCT04173494|184708715|OTHER||Hazard Ratio (HR)|0.556||||0.0006|TWO_SIDED|95.0|0.397|0.778|||Anderson & Gill proportional means model|||||0.778|0.397|0.0006
92409285|NCT04173494|184708716|OTHER||Stratified CMH|-8.26||||0.1602|TWO_SIDED|95.0|-20.18|3.66|||Cochran-Mantel-Haenszel|||||3.66|-20.18|0.1602
92374647|NCT01972308|184651388|SUPERIORITY||Group differences in expected 12 month c|0.04|||||TWO_SIDED|95.0|-0.1|0.19||||||||0.19|-0.10|
92409286|NCT04173494|184708717|OTHER||Stratified CMH|19.0||||0.0124|TWO_SIDED|95.0|4.68|33.32|||Cochran-Mantel-Haenszel||\>=1g/dL Increase in Hemoglobin response|||33.32|4.68|0.0124
92409287|NCT04173494|184708717|OTHER||Stratified CMH|15.68||||0.0282|TWO_SIDED|95.0|2.47|28.9|||Cochran-Mantel-Haenszel||\>=1.5g/dL Increase in Hemoglobin response|||28.90|2.47|0.0282
92409288|NCT04173494|184708717|OTHER||Stratified CMH|6.97||||0.2844|TWO_SIDED|95.0|-5.41|19.35|||Cochran-Mantel-Haenszel||\>=2g/dL Increase in Hemoglobin response|||19.35|-5.41|0.2844
92409289|NCT04173494|184708722|OTHER||Hazard Ratio (HR)|0.89||||0.6879|TWO_SIDED|95.0|0.504|1.572|||Log Rank|||||1.572|0.504|0.6879
92374648|NCT01972308|184651389|SUPERIORITY||Group differences in expected 12 month c|0.12|||||TWO_SIDED|95.0|-0.24|0.6||||||||0.60|-0.24|
92374649|NCT04035564|184651396|SUPERIORITY||Risk Ratio (RR)|0.2||||0.71|TWO_SIDED|95.0|0.026|1.533|||Chi-squared|||||1.533|0.026|0.71
92409290|NCT04173494|184708723|OTHER||Hazard Ratio (HR)|0.804||||0.432|TWO_SIDED|95.0|0.466|1.386|||Log Rank|||||1.386|0.466|0.4320
92409291|NCT04173494|184708724|OTHER||Least Squares Mean Difference|-0.71||||0.0513|TWO_SIDED|95.0|-1.42|0.0|||MMRM|||||0.00|-1.42|0.0513
92409292|NCT04173494|184708725|OTHER||Least Squares Mean Difference|-10.82||||0.0113|TWO_SIDED|95.0|-19.15|-2.48|||MMRM|||||-2.48|-19.15|0.0113
92409293|NCT04173494|184708726|OTHER||Least Squares Mean Difference|1.31||||0.357|TWO_SIDED|95.0|-1.49|4.11|||MMRM|||||4.11|-1.49|0.3570
92409294|NCT00078897|184708749|OTHER|Negative binomial regression|Risk Ratio (RR)|1.03||||0.68|TWO_SIDED|95.0|0.91|1.16|||Negative binomial regression|||||1.16|0.91|0.68
92409295|NCT00048074|184708758|NON_INFERIORITY_OR_EQUIVALENCE|The IV dosing regimen (2mg q 2 mo IV) was considered non-inferior to the 2.5 mg daily regimen if the lower bound of the two-sided 95% CI on the difference in mean percent change in BMD was greater or equal to -1 percentage point.|Mean Difference (Final Values)|1.257|||<|0.001|TWO_SIDED|95.0|0.701|1.814|||ANOVA||Treatment effect is the difference in the mean values of the IV regimen (2mg q 2 mo IV) and the active-control.|The primary hypothesis was that the difference in the effects of daily oral ibandronate and IV ibandronate (2mg q 2 mo IV) on the relative change in lumbar spine BMD (L2 - L4) was small, no more than 1%, the margin of clinical equivalence.||1.814|0.701|<0.001
92409296|NCT00048074|184708758|NON_INFERIORITY_OR_EQUIVALENCE|The IV dosing regimen (3mg q 3 mo IV) was considered non-inferior to the 2.5 mg daily regimen if the lower bound of the two-sided 95% CI on the difference in mean percent change in BMD was greater or equal to -1 percentage point.|Mean Difference (Final Values)|1.025|||<|0.001|TWO_SIDED|95.0|0.471|1.578|||ANOVA||Treatment effect is the difference in the mean values of the IV regimen (3mg q 3 mo IV) and the active-control.|The primary hypothesis was that the difference in the effects of daily oral ibandronate and IV ibandronate (3mg q 3 mo IV) on the relative change in lumbar spine BMD (L2 - L4) was small, no more than 1%, the margin of clinical equivalence.||1.578|0.471|<0.001
92409297|NCT02395081|184708777|SUPERIORITY|||||||0.7||||||SBP wk 16-20|ANOVA|||||||0.70
92409298|NCT02395081|184708779|SUPERIORITY|||||||0.49|||||||Chi-squared|||||||0.49
92409299|NCT02395081|184708780|SUPERIORITY|||||||0.79|||||||Chi-squared|||||||0.79
92409300|NCT02395081|184708782|SUPERIORITY|||||||0.83|||||||Chi-squared|||||||0.83
92409301|NCT02395081|184708783|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
92409302|NCT02395081|184708784|SUPERIORITY|||||||0.24|||||||ANOVA|||||||0.24
92229232|NCT01360645|184361175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.0255|TWO_SIDED|95.0|-0.41|-0.03|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 11||-0.03|-0.41|0.0255
92374650|NCT04035564|184651397|SUPERIORITY||Risk Ratio (RR)|1.21||||0.89|TWO_SIDED|95.0|0.081|18.09|||Chi-squared|||||18.09|0.081|0.89
92374651|NCT04035564|184651398|SUPERIORITY||Mean Difference (Final Values)|-2.861|STANDARD_ERROR_OF_MEAN|1.286||0.032|TWO_SIDED|95.0|-5.461|-0.261|||t-test, 2 sided|||||-0.261|-5.461|0.032
92229233|NCT01360645|184361175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.0005|TWO_SIDED|95.0|-0.57|-0.16|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 12||-0.16|-0.57|0.0005
92229234|NCT01360645|184361175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0001|TWO_SIDED|95.0|-0.62|-0.2|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 13||-0.20|-0.62|0.0001
92229235|NCT01360645|184361175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.0005|TWO_SIDED|95.0|-0.6|-0.17|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 14||-0.17|-0.60|0.0005
92229236|NCT01360645|184361176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.001|TWO_SIDED|95.0|-0.4|-0.1|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 9||-0.10|-0.40|0.0010
92229237|NCT01360645|184361176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.029|TWO_SIDED|95.0|-0.37|-0.02|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 10||-0.02|-0.37|0.0290
92277891|NCT01464827|184458005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.406|TWO_SIDED|95.0|0.09|2.61||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Regression, Logistic||Odds ratio: Group A : Group G|"The primary efficacy endpoint was the comparison of the percentage of treatment-naïve participants with SVR24 after treatment with 3 DAAs (at the 150 mg ABT-450 dose) and ribavirin for 8 weeks (Group A) versus 12 weeks (Group G).~Logistic regression with baseline log10 HCV RNA level, treatment group, Interleukin 28B genotype (CC or non-CC), HCV subgenotype (1a or non-1a), and geographic region (US or non-US) as predictors."||2.61|0.09|0.406
92374652|NCT04035564|184651398|SUPERIORITY||Mean Difference (Final Values)|-2.86|STANDARD_ERROR_OF_MEAN|1.286||0.032|TWO_SIDED|95.0|-5.461|-0.261|||ANOVA|||||-0.261|-5.461|0.032
92229238|NCT01360645|184361176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0422|TWO_SIDED|95.0|-0.4|-0.01|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 11||-0.01|-0.40|0.0422
92229239|NCT01360645|184361176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.0003|TWO_SIDED|95.0|-0.61|-0.18|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 12||-0.18|-0.61|0.0003
92374653|NCT04035564|184651399|SUPERIORITY||Mean Difference (Final Values)|-3.788|STANDARD_ERROR_OF_MEAN|2.299||0.107|TWO_SIDED|95.0|-8.43|0.858|||t-test, 2 sided|||||0.858|-8.43|0.107
92374654|NCT04035564|184651399|SUPERIORITY||Mean Difference (Final Values)|-3.78|STANDARD_ERROR_OF_MEAN|2.299||0.107|TWO_SIDED|95.0|-8.43|0.85|||ANOVA|||||0.85|-8.43|0.107
92374655|NCT04035564|184651400|SUPERIORITY||Mean Difference (Final Values)|-39.38|STANDARD_ERROR_OF_MEAN|17.22||0.028|TWO_SIDED|95.0|-74.18|-4.57|||t-test, 2 sided|||||-4.57|-74.18|0.028
92374656|NCT04035564|184651400|SUPERIORITY||Mean Difference (Final Values)|-39.38|STANDARD_ERROR_OF_MEAN|17.22||0.028|TWO_SIDED|95.0|-74.18|-4.57|||ANOVA|||||-4.57|-74.18|0.028
92374657|NCT04035564|184651401|SUPERIORITY||Risk Ratio (RR)|0.75||||0.55|TWO_SIDED|95.0|0.296|1.932|||Chi-squared|||||1.932|0.296|0.55
92374658|NCT04035564|184651402|SUPERIORITY||Risk Ratio (RR)|1.09||||0.84|TWO_SIDED|95.0|0.169|7.096|||Chi-squared|||||7.096|0.169|0.84
92374659|NCT04035564|184651403|SUPERIORITY||Risk Ratio (RR)|0.8||||0.7|TWO_SIDED|95.0|0.266|2.448|||Chi-squared|||||2.448|0.266|0.70
92374660|NCT04035564|184651404|SUPERIORITY|||||||0.33|||||||Chi-squared|||||||0.33
92374661|NCT04035564|184651404|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.57|TWO_SIDED||||||Regression, Cox|||||||0.57
92374662|NCT00939029|184651415|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7||||0.05|TWO_SIDED|90.0|1.0|7.5||1 tailed p-value|Regression, Logistic|||||7.5|1.0|0.05
92229240|NCT01360645|184361176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0002|TWO_SIDED|95.0|-0.64|-0.2|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 13||-0.20|-0.64|0.0002
92229241|NCT01360645|184361176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0003|TWO_SIDED|95.0|-0.65|-0.19|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 14||-0.19|-0.65|0.0003
92229242|NCT01360645|184361177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.0229|TWO_SIDED|95.0|-0.25|-0.02|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.02|-0.25|0.0229
92229243|NCT01360645|184361177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0459|TWO_SIDED|95.0|-0.28|0.0|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||-0.00|-0.28|0.0459
92229244|NCT01360645|184361177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.0097|TWO_SIDED|95.0|-0.37|-0.05|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||-0.05|-0.37|0.0097
92229245|NCT01360645|184361177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0038|TWO_SIDED|95.0|-0.42|-0.08|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||-0.08|-0.42|0.0038
92229246|NCT01360645|184361177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.0001|TWO_SIDED|95.0|-0.54|-0.18|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||-0.18|-0.54|0.0001
92229247|NCT01360645|184361177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.0004|TWO_SIDED|95.0|-0.52|-0.15|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 14.||-0.15|-0.52|0.0004
92229248|NCT01360645|184361178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.0109|TWO_SIDED|95.0|-0.27|-0.04|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.04|-0.27|0.0109
92229249|NCT01360645|184361178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.1286|TWO_SIDED|95.0|-0.25|0.03|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||0.03|-0.25|0.1286
92229250|NCT01360645|184361178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.0521|TWO_SIDED|95.0|-0.32|0.0|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||0.00|-0.32|0.0521
92229251|NCT01360645|184361178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.0084|TWO_SIDED|95.0|-0.42|-0.06|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||-0.06|-0.42|0.0084
92374663|NCT00939029|184651416|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.014|TWO_SIDED|90.0|1.4|11.6||1 tailed|Regression, Logistic|||||11.6|1.4|0.014
92374664|NCT00939029|184651417|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.087|TWO_SIDED|90.0|0.8|6.0||1 tailed|Regression, Logistic|||||6.0|0.8|0.087
92374665|NCT04686084|184651418|OTHER|Bland-Altman analysis|Median Difference (Final Values)|0.04|||||TWO_SIDED|||||||||||||
92374666|NCT01425359|184651437|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||Angina frequency was compared by fitting a generalized linear model with log link and negative binomial distribution response.|Generalized linear model|||||||0.008
92374667|NCT01425359|184651438|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||Sublingual nitroglycerin use frequency was compared by fitting a generalized linear model with log link and negative binomial distribution response.|Generalized linear model|||||||0.003
92374668|NCT01528891|184651483|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, 1 minute, 2 minutes, 3 minutes, 4 minutes, 5 minutes, and PACU.~P-values are adjusted for multiple comparisons."|t-test, 2 sided|||Heart rate values at each time point were compared between groups.||||<0.01
92374669|NCT01528891|184651483|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to the baseline value: 1 minute, 2 minutes, 3 minutes, 4 minutes, 5 minutes, and PACU.~P-values are adjusted for multiple comparisons."|ANOVA|||Heart rate values were compared over time against the baseline value.||||<0.01
92374670|NCT01528891|184651483|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to the baseline value: 4 minutes, 5 minutes, and PACU.~P-values are adjusted for multiple comparisons."|ANOVA|||Heart rate values were compared over time against the baseline value.||||<0.01
92229252|NCT01360645|184361178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0003|TWO_SIDED|95.0|-0.54|-0.16|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||-0.16|-0.54|0.0003
92229253|NCT01360645|184361178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.0006|TWO_SIDED|95.0|-0.53|-0.15|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 14||-0.15|-0.53|0.0006
92229254|NCT01360645|184361179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.57||||0.0139|TWO_SIDED|95.0|-2.82|-0.32|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.32|-2.82|0.0139
92374671|NCT01528891|184651484|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P\<0.0001 was calculated for both groups.|Fisher Exact|||The incidence of agitated patients in each group was compared.||||<0.0001
92409303|NCT02395081|184708785|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
92409304|NCT02395081|184708786|SUPERIORITY|||||||0.89|||||||Chi-squared|||||||0.89
92229255|NCT01360645|184361179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53||||0.0436|TWO_SIDED|95.0|-3.01|-0.04|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||-0.04|-3.01|0.0436
92229256|NCT01360645|184361179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.1903|TWO_SIDED|95.0|-2.75|0.55|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||0.55|-2.75|0.1903
92229257|NCT01360645|184361179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.47||||0.0951|TWO_SIDED|95.0|-3.21|0.26|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||0.26|-3.21|0.0951
92229258|NCT01360645|184361179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.0626|TWO_SIDED|95.0|-3.59|0.09|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||0.09|-3.59|0.0626
92229259|NCT01360645|184361179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.96||||0.0435|TWO_SIDED|95.0|-3.87|-0.06|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 14||-0.06|-3.87|0.0435
92229260|NCT01360645|184361180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71||||0.0069|TWO_SIDED|95.0|-2.95|-0.47|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.47|-2.95|0.0069
92229261|NCT01360645|184361180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.1322|TWO_SIDED|95.0|-2.68|0.35|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||0.35|-2.68|0.1322
92229262|NCT01360645|184361180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72||||0.4055|TWO_SIDED|95.0|-2.41|0.98|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||0.98|-2.41|0.4055
92229263|NCT01360645|184361180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26||||0.1715|TWO_SIDED|95.0|-3.08|0.55|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||0.55|-3.08|0.1715
92277892|NCT01464827|184458006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.266|TWO_SIDED|95.0|0.08|2.02||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Regression, Logistic||Odds ratio: Group A : Groups \[F + G + K + L\]|The percentage of participants with SVR24 after treatment for 8 weeks versus 12 weeks was compared using logistic regression with treatment group, baseline log10 HCV RNA level, HCV subgenotype (1a or non-1a), geographic region (US or non-US), Interleukin 28B genotype (CC or non-CC), and ABT-450/ritonavir dose and population (treatment-naïve or null-responders) as predictors.||2.02|0.08|0.266
92374672|NCT01528891|184651485|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points: 1 minute, 4 minutes, 5 minutes, and PACU.~P-values are adjusted for multiple comparisons."|t-test, 2 sided|||Systolic blood pressure values were compared between groups at each time point.||||<0.01
92374673|NCT01528891|184651485|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to the baseline value: 1 minute, 3 minutes, 4 minutes, and 5 minutes.~P-values are adjusted for multiple comparisons."|ANOVA|||SBP values were compared against the baseline value within each group over time.||||<0.01
92374674|NCT01528891|184651485|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to the baseline value: 5 minutes and PACU.~P-values were adjusted for multiple comparisons."|ANOVA|||SBP values were compared against the baseline within each group over time.||||<0.01
92374675|NCT01528891|184651486|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points: 1 minute and PACU.~P-values were adjusted for multiple comparisons."|t-test, 2 sided|||DBP values were compared between groups at each time point.||||<0.01
92374676|NCT01528891|184651486|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to baseline: 1 minute, 3 minutes, 4 minutes, 5 minutes, PACU.~P-values were adjusted for multiple comparisons."|ANOVA|||DBP values were compared within each group against the baseline value.||||<0.01
92374677|NCT01528891|184651486|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to baseline: 4 minutes, 5 minutes, PACU.~P-values were adjusted for multiple comparisons."|ANOVA|||DBP values were compared against the baseline value within each group over time.||||<0.01
92374678|NCT04452435|184651487|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.4891|||||||ANCOVA|||||||=0.4891
92229264|NCT01360645|184361180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.42||||0.1424|TWO_SIDED|95.0|-3.33|0.48|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||0.48|-3.33|0.1424
92409305|NCT02395081|184708787|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
92409306|NCT00356304|184708798|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANCOVA|||||||<.05
92409307|NCT02504216|184708802|SUPERIORITY||Hazard Ratio (HR)|0.85|||=|0.0043|TWO_SIDED|95.0|0.76|0.96|||Log Rank|P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.||IxRS: Interactive web/voice response system||0.96|0.76|=0.0043
92409308|NCT02504216|184708803|OTHER||Hazard Ratio (HR)|1.43|||=|0.0695|TWO_SIDED|95.0|0.97|2.1|||Log Rank|P-value (2-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.||||2.10|0.97|=0.0695
92409309|NCT02504216|184708804|SUPERIORITY||Hazard Ratio (HR)|0.8|||=|0.0004|TWO_SIDED|95.0|0.71|0.91||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||0.91|0.71|=0.0004
92409310|NCT02504216|184708805|SUPERIORITY||Hazard Ratio (HR)|0.88|||=|0.014|TWO_SIDED|95.0|0.79|0.99||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||0.99|0.79|=0.0140
92229265|NCT01360645|184361180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54||||0.127|TWO_SIDED|95.0|-3.52|0.44|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 14||0.44|-3.52|0.1270
92229266|NCT01360645|184361181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.3079|TWO_SIDED|95.0|-0.81|0.26|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Work/School: Week 11||0.26|-0.81|0.3079
92229267|NCT01360645|184361181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.4771|TWO_SIDED|95.0|-0.73|0.34|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Work/School: Week 14||0.34|-0.73|0.4771
92229268|NCT01360645|184361181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0195|TWO_SIDED|95.0|-0.92|-0.08|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Social life: Week 11||-0.08|-0.92|0.0195
92229269|NCT01360645|184361181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0323|TWO_SIDED|95.0|-0.96|-0.04|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Social life: Week 14||-0.04|-0.96|0.0323
92229270|NCT01360645|184361181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.0058|TWO_SIDED|95.0|-1.07|-0.18|||Cochran-Mantel-Haenszel|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Family life: Week 11||-0.18|-1.07|0.0058
92229271|NCT01360645|184361181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0129|TWO_SIDED|95.0|-1.07|-0.13|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Family life: Week 14||-0.13|-1.07|0.0129
92277893|NCT01464827|184458006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.525|TWO_SIDED|95.0|0.18|2.4||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Regression, Logistic||Odds ratio: Group A : Groups \[H + I + M + N\]|The percentage of participants with SVR24 after treatment for 8 weeks versus 24 weeks was compared using logistic regression with treatment group, baseline log10 HCV RNA level, HCV subgenotype (1a or non-1a), geographic region (US or non-US), Interleukin 28B genotype (CC or non-CC), ABT-450/ritonavir dose and population (treatment-naïve or null-responders) as predictors.||2.40|0.18|0.525
92229272|NCT01360645|184361182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.5151|TWO_SIDED|95.0|-0.71|0.36|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Work/School Week 11||0.36|-0.71|0.5151
92229273|NCT01360645|184361182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.608|TWO_SIDED|95.0|-0.7|0.41|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Work/School Week 14||0.41|-0.70|0.6080
92374679|NCT04452435|184651487|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.0881|||||||ANCOVA|||A subgroup analyses was performed in subjects with supplemental oxygen use at baseline. A total of 26 subjects in the C21 group and 27 in the placebo group were included in the analysis of change in CRP from baseline to the mean of the last 2 non-missing scheduled assessments during the treatment period by baseline supplemental oxygen use.||||=0.0881
92374680|NCT04452435|184651488|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.0492|||||||ANCOVA|||||||=0.0492
92374681|NCT04452435|184651489|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.9923|||||||ANCOVA|||||||=0.9923
92409311|NCT02504216|184708806|SUPERIORITY||Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|95.0|0.62|0.85||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||0.85|0.62|<0.0001
92409312|NCT02504216|184708807|SUPERIORITY||Hazard Ratio (HR)|0.89|||=|0.0145|TWO_SIDED|95.0|0.79|0.99||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||0.99|0.79|=0.0145
92409313|NCT02504216|184708808|SUPERIORITY||Hazard Ratio (HR)|0.86|||=|0.0051|TWO_SIDED|95.0|0.76|0.96||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||0.96|0.76|=0.0051
92409314|NCT02504216|184708809|SUPERIORITY||Hazard Ratio (HR)|1.08|||=|0.8322|TWO_SIDED|95.0|0.92|1.27||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||1.27|0.92|=0.8322
92409315|NCT02504216|184708810|SUPERIORITY||Hazard Ratio (HR)|0.61|||=|0.0235|TWO_SIDED|95.0|0.37|1.0||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||1.00|0.37|=0.0235
92409316|NCT02504216|184708811|OTHER||Hazard Ratio (HR)|1.42|||=|0.0068|TWO_SIDED|95.0|1.1|1.84|||Log Rank|||||1.84|1.10|=0.0068
92409317|NCT02504216|184708812|OTHER||Hazard Ratio (HR)|1.29|||=|0.0979|TWO_SIDED|95.0|0.95|1.76|||Log Rank|||||1.76|0.95|=0.0979
92409318|NCT03237286|184708840|SUPERIORITY|||||||0.0004|||||||Regression, Linear|||||||.0004
92409319|NCT04421027|184708910|SUPERIORITY||Odds Ratio (OR)|0.85||||0.18|TWO_SIDED|95.0|0.67|1.08|||Regression, Logistic|||||1.08|0.67|0.1800
92409320|NCT04421027|184708911|SUPERIORITY||Odds Ratio (OR)|1.12||||0.728|TWO_SIDED|95.0|0.58|2.16|||Regression, Logistic|||||2.16|0.58|0.7280
92409321|NCT04421027|184708912|SUPERIORITY||Odds Ratio (OR)|1.07||||0.5444|TWO_SIDED|95.0|0.86|1.34|||Regression, Logistic|||||1.34|0.86|0.5444
92409322|NCT04421027|184708913|SUPERIORITY||LS Mean difference (net)|0.75|STANDARD_ERROR_OF_MEAN|0.399||0.0586|TWO_SIDED|95.0|0.0|1.5|||ANOVA|||||1.5|-0.0|0.0586
92409323|NCT04421027|184708914|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.1453|TWO_SIDED|95.0|0.99|1.24|||Log Rank|||||1.24|0.99|0.1453
92409324|NCT04421027|184708915|SUPERIORITY||Odds Ratio (OR)|1.21||||0.0464|TWO_SIDED|95.0|1.0|1.47|||Proportional Odds Model|||Day 4||1.47|1.00|0.0464
92409325|NCT04421027|184708916|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0172|TWO_SIDED|95.0|1.04|1.49|||Proportional Odds Model|||||1.49|1.04|0.0172
92229274|NCT01360645|184361182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0267|TWO_SIDED|95.0|-0.92|-0.06|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Social life-Week 11||-0.06|-0.92|0.0267
92229275|NCT01360645|184361182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0224|TWO_SIDED|95.0|-1.01|-0.08|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Social life-Week 14||-0.08|-1.01|0.0224
92374682|NCT04452435|184651490|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.5355|||||||ANCOVA|||||||=0.5355
92374683|NCT04452435|184651491|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.4738|||||||ANCOVA|||||||=0.4738
92374684|NCT04452435|184651492|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.9418|||||||ANCOVA|||||||=0.9418
92374685|NCT04452435|184651493|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.9733|||||||ANCOVA|||||||=0.9733
92374686|NCT04452435|184651494|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.0568|||||||Regression, Logistic|||||||=0.0568
92374687|NCT04452435|184651495|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.6088|||||||Regression, Logistic|||||||=0.6088
92374688|NCT04452435|184651496|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.5757|||||||Log Rank|||||||=0.5757
92374689|NCT04452435|184651497|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.8588|||||||Wilcoxon (Mann-Whitney)|||||||=0.8588
92374690|NCT04452435|184651499|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.003|||||||Chi-squared|||||||=0.003
92374691|NCT02135029|184651500|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-54.5|STANDARD_ERROR_OF_MEAN|2.82|<|0.001|TWO_SIDED|95.0|-60.1|-49.0|||MMRM|Mixed Model Repeated Measures (MMRM)|LS-mean differences,associated 95% confidence interval (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit,treatment group\*visit interaction,baseline value, baseline value\*visit\*group interaction, country.|||-49.0|-60.1|<0.001
92374692|NCT02135029|184651501|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.4|STANDARD_ERROR_OF_MEAN|2.13|<|0.001|TWO_SIDED|95.0|-42.6|-34.2|||MMRM||LS-mean differences, associated 95% CI, and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-34.2|-42.6|<0.001
92409326|NCT04421027|184708917|SUPERIORITY||Odds Ratio (OR)|1.17||||0.0921|TWO_SIDED|95.0|0.97|1.41|||Proportional Odds Model|||||1.41|0.97|0.0921
92409327|NCT04421027|184708918|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0168|TWO_SIDED|95.0|1.05|1.56|||Proportional Odds Model|||||1.56|1.05|0.0168
92409328|NCT04421027|184708919|SUPERIORITY||LS Mean Difference (Net)|-0.76|STANDARD_ERROR_OF_MEAN|0.408||0.0626|TWO_SIDED|95.0|-1.6|0.0|||ANOVA|||||0.0|-1.6|0.0626
92409329|NCT04421027|184708920|SUPERIORITY||Odds Ratio (OR)|1.15||||0.429|TWO_SIDED|95.0|0.81|1.63|||Regression, Logistic|||||1.63|0.81|0.4290
92229276|NCT01360645|184361182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.0146|TWO_SIDED|95.0|-1.01|-0.11|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Family life-Week 11||-0.11|-1.01|0.0146
92229277|NCT01360645|184361182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.0113|TWO_SIDED|95.0|-1.09|-0.14|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Family life-Week 14||-0.14|-1.09|0.0113
92229278|NCT01360645|184361183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.34||||0.0001|TWO_SIDED|95.0|-3.47|-1.22|||ANCOVA|||ANCOVA\_Last observation carry forward (LOCF) model with treatment and trial site as main effects, and baseline (end of Phase A \[Week 8\]) value as a covariate was used.||-1.22|-3.47|0.0001
92229279|NCT01360645|184361184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.29||||0.0002|TWO_SIDED|95.0|-3.47|-1.12|||ANCOVA|||||-1.12|-3.47|0.0002
92229280|NCT01360645|184361185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17||||0.0219|TWO_SIDED|95.0|-2.17|-0.17|||ANCOVA|||ANCOVA\_LOCF model with treatment and trial site as main effects, and baseline (end of Phase A \[Week 8\]) value as a covariate was used.||-0.17|-2.17|0.0219
92229281|NCT01360645|184361186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||0.0376|TWO_SIDED|95.0|-2.13|-0.06|||ANCOVA|||||-0.06|-2.13|0.0376
92229282|NCT01360645|184361187|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.63||||0.0176|TWO_SIDED|95.0|1.09|2.44|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.44|1.09|0.0176
92229283|NCT01360645|184361188|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.54||||0.0429|TWO_SIDED|95.0|1.01|2.35|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.35|1.01|0.0429
92229284|NCT01360645|184361189|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.68||||0.0586|TWO_SIDED|95.0|0.98|2.86|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.86|0.98|0.0586
92229285|NCT01360645|184361190|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.67||||0.0671|TWO_SIDED|95.0|0.97|2.9|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.90|0.97|0.0671
92229286|NCT01360645|184361191|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.61||||0.0003|TWO_SIDED|95.0|1.23|2.1|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.10|1.23|0.0003
92229287|NCT01360645|184361192|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.69||||0.0002|TWO_SIDED|95.0|1.27|2.27|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.27|1.27|0.0002
92229288|NCT01032629|184361203|SUPERIORITY||Hazard Ratio (HR)|0.93|||=|0.4576|TWO_SIDED|95.0|0.78|1.12|||Cox proportional hazard model|||Comparison for canagliflozin versus placebo is reported here.||1.12|0.78|=0.4576
92229289|NCT01032629|184361203|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.0467|TWO_SIDED|95.0|0.68|1.0|||Cox proportional hazard model|||Comparison for canagliflozin versus placebo is reported here.||1.00|0.68|=0.0467
92229290|NCT01032629|184361203|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.112|TWO_SIDED|95.0|0.75|1.03|||Cox proportional hazard method|||Comparison for canagliflozin versus placebo is reported here.||1.03|0.75|0.1120
92229291|NCT01032629|184361204|SUPERIORITY||Difference of Least Square Mean|2.79|STANDARD_ERROR_OF_MEAN|2.224|=|0.21|TWO_SIDED|95.0|-1.571|7.154|||ANCOVA|||Comparison for canagliflozin versus placebo is reported here.||7.154|-1.571|=0.210
92229292|NCT01032629|184361204|SUPERIORITY||Difference of Least Square Mean|4.07|STANDARD_ERROR_OF_MEAN|2.261|=|0.072|TWO_SIDED|95.0|-0.368|8.504|||ANCOVA|||Comparison for canagliflozin versus placebo is reported here.||8.504|-0.368|=0.072
92229293|NCT01032629|184361205|SUPERIORITY||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.67|0.97|||Regression, Logistic|||Comparison for canagliflozin versus placebo is reported here.||0.97|0.67|
92229294|NCT01032629|184361205|SUPERIORITY||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.58|0.85|||Regression, Logistic|||Comparison for canagliflozin versus placebo is reported here.||0.85|0.58|
92229295|NCT01032629|184361206|OTHER||Difference of Least Square Mean|-0.03|STANDARD_ERROR_OF_MEAN|0.205|||TWO_SIDED|95.0|-0.429|0.374||||||Comparison for canagliflozin versus placebo is reported here.||0.374|-0.429|
92229296|NCT01032629|184361206|OTHER||Difference of Least Square Mean|0.33|STANDARD_ERROR_OF_MEAN|0.206|||TWO_SIDED|95.0|-0.079|0.731||||||Comparison for canagliflozin versus placebo is reported here.||0.731|-0.079|
92229297|NCT01032629|184361207|OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|95.0|0.8|0.94||||||Comparison for canagliflozin versus placebo is reported here.||0.940|0.800|
92374693|NCT02135029|184651501|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.0|STANDARD_ERROR_OF_MEAN|2.47|||TWO_SIDED|95.0|-35.9|-26.2|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-26.2|-35.9|
92229298|NCT01032629|184361207|OTHER||Geometric mean ratio|0.84|||||TWO_SIDED|95.0|0.77|0.91||||||Comparison for canagliflozin versus placebo is reported here.||0.910|0.770|
92229299|NCT01032629|184361208|OTHER||Difference of Least Square Mean|1.68|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|0.599|2.755||||||Comparison for canagliflozin versus placebo is reported here.||2.755|0.599|
92229300|NCT01032629|184361208|OTHER||Difference of Least Square Mean|1.24|STANDARD_ERROR_OF_MEAN|0.553|||TWO_SIDED|95.0|0.16|2.328||||||Comparison for canagliflozin versus placebo is reported here.||2.328|0.160|
92409330|NCT04421027|184708921|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0018|TWO_SIDED|95.0|0.41|0.78|||Log Rank|||||0.78|0.41|0.0018
92229301|NCT01032629|184361209|OTHER||Difference of Least Square Mean|-0.27|STANDARD_ERROR_OF_MEAN|0.045|||TWO_SIDED|95.0|-0.355|-0.177||||||Comparison for canagliflozin versus placebo is reported here.||-0.177|-0.355|
92229302|NCT01032629|184361209|OTHER||Difference of Least Square Mean|-0.32|STANDARD_ERROR_OF_MEAN|0.046|||TWO_SIDED|95.0|-0.405|-0.227||||||Comparison for canagliflozin versus placebo is reported here.||-0.227|-0.405|
92229303|NCT01032629|184361210|OTHER||Difference of Least Square Mean|-0.58|STANDARD_ERROR_OF_MEAN|0.107|||TWO_SIDED|95.0|-0.794|-0.374||||||Comparison for canagliflozin versus placebo is reported here.||-0.374|-0.794|
92229304|NCT01032629|184361210|OTHER||Difference of Least Square Mean|-0.73|STANDARD_ERROR_OF_MEAN|0.108|||TWO_SIDED|95.0|-0.945|-0.523||||||Comparison for canagliflozin versus placebo is reported here.||-0.523|-0.945|
92229305|NCT01032629|184361211|OTHER||Difference of Least Square Mean|-2.96|STANDARD_ERROR_OF_MEAN|0.26||||95.0|-3.472|-2.454||||||Comparison for canagliflozin versus placebo is reported here.||-2.454|-3.472|
92229306|NCT01032629|184361211|OTHER||Difference of Least Square Mean|-3.61|STANDARD_ERROR_OF_MEAN|0.261|||TWO_SIDED|95.0|-4.125|-3.103||||||Comparison for canagliflozin versus placebo is reported here.||-3.103|-4.125|
92409331|NCT04421027|184708922|SUPERIORITY||LS Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.323||0.9526|TWO_SIDED|95.0|-0.62|0.65|||ANOVA|||||0.65|-0.62|0.9526
92409332|NCT04421027|184708923|SUPERIORITY||Hazard Ratio (HR)|0.887||||0.1831|TWO_SIDED|95.0|0.741|1.061|||Log Rank|||||1.061|0.741|0.1831
92409333|NCT04421027|184708924|SUPERIORITY||Hazard Ratio (HR)|1.202||||0.0243|TWO_SIDED|95.0|1.017|1.421|||Log Rank|||||1.421|1.017|0.0243
92229307|NCT01032629|184361212|OTHER||Difference of Least Square Mean|-2.96|STANDARD_ERROR_OF_MEAN|0.532|||TWO_SIDED|95.0|-3.998|-1.914||||||Statistical analysis (Systolic blood pressure) Comparison for canagliflozin versus placebo is reported here.||-1.914|-3.998|
92229308|NCT01032629|184361212|OTHER||Difference of Least Square Mean|-4.53|STANDARD_ERROR_OF_MEAN|0.534|||TWO_SIDED|95.0|-5.579|-3.484||||||Statistical analysis (Systolic blood pressure) Comparison for canagliflozin versus placebo is reported here.||-3.484|-5.579|
92409334|NCT04421027|184708925|SUPERIORITY||LS Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.128||0.191|TWO_SIDED|95.0|-0.42|0.08|||Mixed Models Analysis|||Day 4||0.08|-0.42|0.191
92409335|NCT04421027|184708925|SUPERIORITY||LS Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.161||0.278|TWO_SIDED|95.0|-0.49|0.14|||Mixed Models Analysis|||Day 7||0.14|-0.49|0.278
92229309|NCT01032629|184361212|OTHER||Difference of Least Square Mean|-0.82|STANDARD_ERROR_OF_MEAN|0.314|||TWO_SIDED|95.0|-1.437|-0.205||||||Statistical analysis (Diastolic blood pressure) Comparison for canagliflozin versus placebo is reported here.||-0.205|-1.437|
92409336|NCT04421027|184708925|SUPERIORITY||LS Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.187||0.496|TWO_SIDED|95.0|-0.49|0.24|||Mixed Models Analysis|||Day 10||0.24|-0.49|0.496
92409337|NCT04421027|184708925|SUPERIORITY||LS Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.226||0.263|TWO_SIDED|95.0|-0.7|0.19|||Mixed Models Analysis|||Day 14||0.19|-0.70|0.263
92229310|NCT01032629|184361212|OTHER||Difference of Least Square Mean|-1.63|STANDARD_ERROR_OF_MEAN|0.316|||TWO_SIDED|95.0|-2.245|-1.007||||||Statistical analysis (Diastolic blood pressure) Comparison for canagliflozin versus placebo is reported here.||-1.007|-2.245|
92229311|NCT01032629|184361213|OTHER||Hodges-Lehman Estimate|0.02|||||TWO_SIDED|95.0|-0.04|0.07||||||Comparison for canagliflozin versus placebo is reported here.||0.070|-0.040|
92229312|NCT01032629|184361213|OTHER||Hodges-Lehman Estimate|0.02|||||TWO_SIDED|95.0|-0.03|0.08||||||Comparison for canagliflozin versus placebo is reported here.||0.080|-0.030|
92229313|NCT01032629|184361214|OTHER||Difference of Least Square Mean|0.18|STANDARD_ERROR_OF_MEAN|0.039|||TWO_SIDED|95.0|0.105|0.259||||||Statistical analysis (Cholesterol) Comparison for canagliflozin versus placebo is reported here.||0.259|0.105|
92229314|NCT01032629|184361214|OTHER||Difference of Least Square Mean|0.23|STANDARD_ERROR_OF_MEAN|0.039|||TWO_SIDED|95.0|0.152|0.307||||||Statistical analysis (Cholesterol) Comparison for canagliflozin versus placebo is reported here.||0.307|0.152|
92229315|NCT01032629|184361214|OTHER||Difference of Least Square Mean|0.05|STANDARD_ERROR_OF_MEAN|0.009|||TWO_SIDED|95.0|0.031|0.065||||||Statistical analysis (HDL-C)||0.065|0.031|
92229316|NCT01032629|184361214|OTHER||Difference of Least Square Mean|0.06|STANDARD_ERROR_OF_MEAN|0.009|||TWO_SIDED|95.0|0.04|0.075||||||Statistical analysis (HDL-C) Comparison for canagliflozin versus placebo is reported here.||0.075|0.040|
92229317|NCT01032629|184361214|OTHER||Difference of Least Square Mean|0.11|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|0.046|0.17||||||Statistical analysis (LDL-C) Comparison for canagliflozin versus placebo is reported here.||0.170|0.046|
92409338|NCT04421027|184708927|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.6436|TWO_SIDED||||||Log Rank|||||||0.6436
92409339|NCT04421027|184708928|SUPERIORITY||Hazard Ratio (HR)|1.124||||0.127|TWO_SIDED||||||Log Rank|||||||0.1270
92409340|NCT04421027|184708929|SUPERIORITY||LS Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.228||0.3058|TWO_SIDED|95.0|-0.68|0.21|||ANOVA|||||0.21|-0.68|0.3058
92409341|NCT04421027|184708930|SUPERIORITY||LS Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.306||0.7073|TWO_SIDED|95.0|-0.49|0.72|||ANOVA|||||0.72|-0.49|0.7073
92409342|NCT00122980|184709006|NON_INFERIORITY_OR_EQUIVALENCE|"Based on pilot data, the efficacy of hydroxyurea to reduce secondary stroke rate was not predicted to be equivalent to transfusions. Therefore, an increased stroke rate (non-inferiority margin = 0.20) was allowed by study design. This acceptable stroke margin was predicted to be offset by the likelihood of significantly greater improvement in the management of iron overload through elimination of transfusions along with serial phlebotomy in the Hydroxyurea/Phlebotomy arm."||||||0.214||95.0|||||Log Rank|||Concluding that Hydroxyurea/Phlebotomy group is better than the Transfusion/Chelation group required rejecting the STROKE null hypothesis in favor of the alternative: Hydroxyurea/Phlebotomy recurrent stroke rate is less than Transfusion/Chelation rate plus 0.20, the non-inferiority margin, AND rejecting the IRON null hypothesis in favor of the alternative: Hydroxyurea/Phlebotomy baseline-adjusted mean LIC is less than for Transfusion/Chelation (see next primary endpoint analysis).||||0.214
92409343|NCT00122980|184709007|SUPERIORITY_OR_OTHER|||||||0.144||95.0||||The a priori defined LOCF approach was deemed to be biased due to the study's early termination, and was replaced by this mixed models analysis.|Mixed Models Analysis|Including main effects of age at consent, baseline iron, and treatment group, on observed change from baseline Log10 transformed values only.||Concluding that Hydroxyurea/Phlebotomy group is better than the Transfusion/Chelation group required rejecting the STROKE null hypothesis (see previous primary endpoint analysis) in favor of the alternative: Hydroxyurea/Phlebotomy recurrent stroke rate is less than Transfusion/Chelation rate plus 0.20 AND rejecting the IRON null hypothesis in favor of the alternative: Hydroxyurea/Phlebotomy baseline-adjusted mean log10 transformed LIC is less than for Transfusion/Chelation.||||0.144
92409344|NCT00122980|184709008|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|The change-from-baseline scores for each scale were analyzed with an analysis of variance model (ANOVA) with treatment as stratum.||The change-from-baseline scores were analyzed with an analysis of variance model (ANOVA) with treatment as stratum, testing the hypothesis that the average change from baseline scores do not differ between the treatment groups.||||>0.05
92409345|NCT00122980|184709009|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|The change-from-baseline scores for each scale were analyzed with an analysis of variance model (ANOVA) with treatment as stratum.||The change-from-baseline scores were analyzed with an analysis of variance model (ANOVA) with treatment as stratum.||||>0.05
92409346|NCT00122980|184709010|SUPERIORITY_OR_OTHER|||||||0.841||95.0|||||ANOVA|||The change-from-baseline to endpoint scores were analyzed with an analysis of variance model (ANOVA) with treatment as stratum.||||0.841
92409347|NCT00122980|184709011|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||The change-from-baseline scores were analyzed with an analysis of variance model (ANOVA) with treatment as stratum, testing the hypothesis that the average change from baseline scores do not differ between the treatment groups.||||>0.05
92409348|NCT00122980|184709012|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||ANOVA|||The change-from-baseline scores were analyzed with an analysis of variance model (ANOVA) with treatment as stratum, testing the hypothesis that the average change from baseline scores do not differ between the treatment groups.||||0.039
92409349|NCT00122980|184709013|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||ANCOVA|Analysis controlling for baseline value and time on study.||||||0.033
92409350|NCT00122980|184709014|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|Controlling for baseline value and time on study||||||<0.01
92409351|NCT00724711|184709024|NON_INFERIORITY_OR_EQUIVALENCE|"This study was designed to show noninferiority (change of \< 12%) in regard of proportions of responders (TLOVR) at Week 48.~With 170 subjects in each group, the lower limit of observed one-sided 97.5% confidence interval was expected to be greater than -0.120 with 80% power when the proportion of responders in both treatment groups is 0.820 (82%) at Week 48.~312 subjects were enrolled, representing 8% less than planned (n = 340). As a result, power to claim non-inferiority decreased to 78%."|Difference in percentages between groups|3.0|||||TWO_SIDED|95.0|-5.1|11.2|||Inverted two one-sided tests|Inverted two one-sided tests with the standardized statistic||"Null hypothesis: The TVD group is at least 12% worse than the ABC/3TC group with respect to the percentage of subjects maintaining HIV-1 RNA \< 200 copies/mL through Week 48 (responder rate, as defined by the TLOVR algorithm)~Alternative hypothesis: The TVD group is less than 12% worse than the ABC/3TC group with respect to the percentage of subjects maintaining HIV-1 RNA \< 200 copies/mL through Week 48 (responder rate, as defined by the TLOVR algorithm)"||11.2|-5.1|
92229318|NCT01032629|184361214|OTHER||Difference of Least Square Mean|0.16|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|0.102|0.226||||||Statistical analysis (LDL-C) Comparison for canagliflozin versus placebo is reported here.||0.226|0.102|
92229319|NCT01032629|184361215|OTHER||Difference of Least Square Mean|0.02|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.04|0.076||||||||0.076|-0.040|
92229320|NCT01032629|184361215|OTHER||Difference of Least Square Mean|0.04|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.023|0.094||||||||0.094|-0.023|
92229321|NCT00619957|184361228|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|4.53|||<|0.0001|TWO_SIDED|95.0|3.46|5.6|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||5.60|3.46|<0.0001
92229322|NCT00619957|184361229|SUPERIORITY_OR_OTHER||LS Mean Difference|2.56|||<|0.0001|TWO_SIDED|95.0|1.66|3.47|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||3.47|1.66|<0.0001
92229323|NCT00619957|184361230|SUPERIORITY_OR_OTHER||LS Mean Difference|3.18|||<|0.0001|TWO_SIDED|95.0|2.19|4.16|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||4.16|2.19|<0.0001
92409352|NCT00535288|184709052|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.2|||<|0.01|TWO_SIDED|95.0|-2.2|-0.2||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.2|-2.2|<0.01
92409353|NCT00535288|184709052|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.7|||<|0.01|TWO_SIDED|95.0|-2.7|-0.7||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.7|-2.7|<0.01
92409354|NCT00535288|184709052|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.4|||<|0.01|TWO_SIDED|95.0|-2.4|-0.4||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.4|-2.4|<0.01
92229324|NCT00619957|184361231|SUPERIORITY_OR_OTHER||LS Mean Difference|4.57|||<|0.0001|TWO_SIDED|95.0|3.49|5.66|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||5.66|3.49|<0.0001
92229325|NCT00619957|184361232|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.1856|TWO_SIDED|95.0|-0.19|0.99|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||0.99|-0.19|0.1856
92229326|NCT00619957|184361233|SUPERIORITY_OR_OTHER||LS Mean Difference|0.65||||0.0346|TWO_SIDED|95.0|0.05|1.25|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.25|0.05|0.0346
92229327|NCT00619957|184361234|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|||<|0.0001|TWO_SIDED|95.0|0.98|2.41|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||2.41|0.98|<0.0001
92229328|NCT00619957|184361235|SUPERIORITY_OR_OTHER||LS Mean Difference|1.46|||<|0.0001|TWO_SIDED|95.0|0.76|2.17|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||2.17|0.76|<0.0001
92229329|NCT00619957|184361236|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.2538|TWO_SIDED|95.0|-0.36|1.36|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.36|-0.36|0.2538
92229330|NCT00619957|184361237|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86||||0.0537|TWO_SIDED|95.0|-0.01|1.74|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.74|-0.01|0.0537
92229331|NCT00619957|184361238|SUPERIORITY_OR_OTHER||LS Mean Difference|1.24||||0.0081|TWO_SIDED|95.0|0.32|2.15|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||2.15|0.32|0.0081
92229332|NCT00619957|184361239|SUPERIORITY_OR_OTHER||LS Mean Difference|1.06||||0.0187|TWO_SIDED|95.0|0.18|1.94|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.94|0.18|0.0187
92229333|NCT00619957|184361240|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.1408|TWO_SIDED|95.0|-0.19|1.34|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.34|-0.19|0.1408
92280406|NCT04684524|184463483|SUPERIORITY||LS Mean Difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.77|-1.02|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-1.02|-1.77|<0.0001
92374694|NCT02135029|184651502|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.5|STANDARD_ERROR_OF_MEAN|2.72|<|0.001|TWO_SIDED|95.0|-51.9|-41.1|||MMRM||LS-mean differences, associated 95% CI, and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-41.1|-51.9|<0.001
92374695|NCT02135029|184651502|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-45.4|-33.2|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-33.2|-45.4|
92374696|NCT02135029|184651503|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.2|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-56.3|-46.0|||MMRM||LS-mean differences, associated 95% CI, and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-46.0|-56.3|<0.001
92374697|NCT02135029|184651503|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.8|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|-47.7|-35.8|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-35.8|-47.7|
92409355|NCT00535288|184709052|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.9|||<|0.01|TWO_SIDED|95.0|-2.9|-0.9||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.9|-2.9|<0.01
92229334|NCT00619957|184361241|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07||||0.0129|TWO_SIDED|95.0|0.23|1.92|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.92|0.23|0.0129
92229335|NCT00619957|184361242|SUPERIORITY_OR_OTHER||LS Mean Difference|2.31|||<|0.0001|TWO_SIDED|95.0|1.35|3.26|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||3.26|1.35|<0.0001
92280407|NCT04684524|184463484|SUPERIORITY||LS Mean Difference|-17.3||||0.0004|TWO_SIDED|95.0|-26.86|-7.74|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-7.74|-26.86|0.0004
92374698|NCT02135029|184651504|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.3|STANDARD_ERROR_OF_MEAN|6.32|<|0.001|TWO_SIDED|95.0|-35.7|-10.8|||MMRM||LS-mean differences, associated 95% CI, and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-10.8|-35.7|<0.001
92374699|NCT02135029|184651504|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|6.21|||TWO_SIDED|95.0|-29.6|-5.1|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-5.1|-29.6|
92374700|NCT02135029|184651505|SUPERIORITY_OR_OTHER||LS Mean Difference|12.4|STANDARD_ERROR_OF_MEAN|2.34|<|0.001|TWO_SIDED|95.0|7.8|17.0|||MMRM||LS-mean differences, associated 95% CI, and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||17.0|7.8|<0.001
92374701|NCT02135029|184651505|SUPERIORITY_OR_OTHER||LS Mean Difference|11.5|STANDARD_ERROR_OF_MEAN|2.47|||TWO_SIDED|95.0|6.7|16.4|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||16.4|6.7|
92374702|NCT02135029|184651506|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.8|STANDARD_ERROR_OF_MEAN|3.33|||TWO_SIDED|95.0|-51.3|-38.2|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-38.2|-51.3|
92374703|NCT02135029|184651507|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.3|STANDARD_ERROR_OF_MEAN|4.67|||TWO_SIDED|95.0|-23.5|-5.2|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-5.2|-23.5|
92374704|NCT02135029|184651507|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.7|STANDARD_ERROR_OF_MEAN|5.14|||TWO_SIDED|95.0|-19.8|0.4|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||0.4|-19.8|
92374705|NCT02135029|184651508|SUPERIORITY_OR_OTHER||LS Mean Difference|6.1|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|2.2|10.1|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||10.1|2.2|
92374706|NCT02135029|184651508|SUPERIORITY_OR_OTHER||LS Mean Difference|5.6|STANDARD_ERROR_OF_MEAN|2.09|||TWO_SIDED|95.0|1.5|9.7|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||9.7|1.5|
92374707|NCT02135029|184651509|SUPERIORITY_OR_OTHER||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|2.02|||TWO_SIDED|95.0|0.8|8.7|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||8.7|0.8|
92374708|NCT02135029|184651509|SUPERIORITY_OR_OTHER||LS Mean Difference|6.5|STANDARD_ERROR_OF_MEAN|2.07|||TWO_SIDED|95.0|2.4|10.5|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||10.5|2.4|
92374709|NCT02135029|184651510|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.3|STANDARD_ERROR_OF_MEAN|4.67|||TWO_SIDED|95.0|-23.5|-5.2|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-5.2|-23.5|
92374710|NCT02135029|184651510|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.7|STANDARD_ERROR_OF_MEAN|5.14|||TWO_SIDED|95.0|-19.8|0.4|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||0.4|-19.8|
92374711|NCT02135029|184651511|SUPERIORITY_OR_OTHER||LS Mean Difference|-93.8|STANDARD_ERROR_OF_MEAN|4.93|||TWO_SIDED|95.0|-103.5|-84.1|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-84.1|-103.5|
92374712|NCT02135029|184651512|SUPERIORITY_OR_OTHER||LS Mean Difference|-98.7|STANDARD_ERROR_OF_MEAN|5.67|||TWO_SIDED|95.0|-109.9|-87.5|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-87.5|-109.9|
92374713|NCT02135029|184651513|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|95.0|3.7|8.0|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||8.0|3.7|
92409356|NCT00535288|184709053|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.07|||<|0.01|TWO_SIDED|95.0|-0.12|-0.01||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||-0.01|-0.12|<0.01
92409357|NCT00535288|184709053|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.06||||0.02|TWO_SIDED|95.0|-0.11|-0.01||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||-0.01|-0.11|0.02
92409358|NCT00535288|184709053|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.07|||<|0.01|TWO_SIDED|95.0|-0.13|-0.02||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||-0.02|-0.13|<0.01
92409359|NCT00535288|184709053|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.08|||<|0.01|TWO_SIDED|95.0|-0.14|-0.03||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||-0.03|-0.14|<0.01
92409360|NCT00535288|184709054|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.0||||0.08|TWO_SIDED|95.0|-2.1|0.1||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||0.1|-2.1|0.08
92229336|NCT00619957|184361243|SUPERIORITY_OR_OTHER||LS Mean Difference|2.15|||<|0.0001|TWO_SIDED|95.0|1.22|3.08|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||3.08|1.22|<0.0001
92229337|NCT00619957|184361244|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.6|||<|0.0001|TWO_SIDED|95.0|-51.52|-35.67|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-35.67|-51.52|<0.0001
92409361|NCT00535288|184709054|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.6|||<|0.01|TWO_SIDED|95.0|-2.7|-0.5||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.5|-2.7|<0.01
92169066|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9686|TWO_SIDED|95.0|-0.11|0.11|||ANCOVA|||Week 1: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.11|-0.11|0.9686
92229338|NCT00619957|184361245|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.72|||<|0.0001|TWO_SIDED|95.0|-58.01|-31.43|||ANOVA|Fixed effects for treatment and pooled center||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-31.43|-58.01|<0.0001
92409362|NCT00535288|184709054|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.5|||<|0.01|TWO_SIDED|95.0|-2.7|-0.4||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.4|-2.7|<0.01
92409363|NCT00535288|184709054|SUPERIORITY_OR_OTHER||Difference between least squares means|-2.0|||<|0.01|TWO_SIDED|95.0|-3.1|-0.9||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.9|-3.1|<0.01
92409364|NCT00535288|184709057|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.06||||0.07|TWO_SIDED|95.0|-0.12|0.0||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||0.00|-0.12|0.07
92409365|NCT00535288|184709057|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.05||||0.24|TWO_SIDED|95.0|-0.11|0.02||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||0.02|-0.11|0.24
92409366|NCT00535288|184709057|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.04||||0.29|TWO_SIDED|95.0|-0.11|0.02||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||0.02|-0.11|0.29
92409367|NCT00535288|184709057|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.07||||0.02|TWO_SIDED|95.0|-0.14|-0.01||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||-0.01|-0.14|0.02
92409368|NCT04248491|184709151|SUPERIORITY|||||||0.342|||||||t-test, 2 sided|||||||0.342
92409369|NCT04248491|184709152|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
92229339|NCT00619957|184361246|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.33|||<|0.0001|TWO_SIDED|95.0|-55.99|-28.67|||ANOVA|Fixed effects for treatment and pooled centers.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-28.67|-55.99|<0.0001
92229340|NCT00619957|184361247|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.55|||<|0.0001|TWO_SIDED|95.0|-59.38|-33.72|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-33.72|-59.38|<0.0001
92374714|NCT02135029|184651514|SUPERIORITY_OR_OTHER||LS Mean Difference|-103.6|STANDARD_ERROR_OF_MEAN|5.56|||TWO_SIDED|95.0|-114.6|-92.7|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-92.7|-114.6|
92374715|NCT02135029|184651516|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.2|STANDARD_ERROR_OF_MEAN|3.46|||TWO_SIDED|95.0|-66.0|-52.4|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-52.4|-66.0|
92374716|NCT02135029|184651517|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-8.7|-4.5|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-4.5|-8.7|
92374717|NCT02135029|184651518|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-2.7|-2.1|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-2.1|-2.7|
92374718|NCT02135029|184651518|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-2.4|-1.7|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-1.7|-2.4|
92374719|NCT02135029|184651519|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.5|-0.4|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-0.4|-0.5|
92374720|NCT02135029|184651519|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.4|-0.3|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-0.3|-0.4|
92374721|NCT05898672|184651528|OTHER||Ratio of adjusted geometric means|131.18|||||TWO_SIDED|90.0|115.89|148.48||||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant within sequence as a random effect. Ratio of adjusted geometric means of test to reference was reported; where test treatment is Rosuvastatin 10 mg + Nirmatrelvir 300 mg/ Ritonavir 100 mg and reference treatment is Rosuvastatin 10 mg. Ratio and associated 90% CIs were reported in percentage.||148.48|115.89|
92374722|NCT05898672|184651529|OTHER||Ratio of adjusted geometric means|212.44|||||TWO_SIDED|90.0|174.31|258.9||||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant within sequence as a random effect. Ratio of adjusted geometric means of test to reference was reported; where test treatment is Rosuvastatin 10 mg + Nirmatrelvir 300 mg/ Ritonavir 100 mg and reference treatment is Rosuvastatin 10 mg. Ratio and associated 90% CIs were reported in percentage.||258.90|174.31|
92374723|NCT01778049|184651542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.1||0.0013||95.0|-0.52|-0.13|||Mixed Model Repeated Measure (MMRM)|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the adjusted mean difference calculated as lina5 (E10) minus Plc (E10) value.|Superiority of lina5 (E10) vs. Plc (E10): change in HbA1c using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. The model includes baseline HbA1c as linear covariates \& baseline estimated glomerula filtration rate (eGFR), geographical region, treatment, visit, visit by treatment interaction as fixed effects.||-0.13|-0.52|0.0013
92374724|NCT01778049|184651542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.66|-0.28|||MMRM|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the adjusted mean difference value calculated as lina5 (E25) minus Plc (E25).|Superiority of lina5 (E25) vs. Plc (E25): change in HbA1c using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. The model includes baseline HbA1c as linear covariates \& baseline eGFR, geographical region, treatment, visit, visit by treatment interaction as fixed effects.||-0.28|-0.66|<0.0001
92409370|NCT04248491|184709154|SUPERIORITY|||||||0.098|||||||t-test, 2 sided|||||||0.098
92409371|NCT04248491|184709156|SUPERIORITY|||||||0.192|||||||t-test, 2 sided|||||||0.192
92409372|NCT04248491|184709157|SUPERIORITY|||||||0.157|||||||t-test, 2 sided|||||||0.157
92409373|NCT04248491|184709158|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.00
92409374|NCT04248491|184709159|SUPERIORITY|||||||0.463|||||||t-test, 2 sided|||||||0.463
92409375|NCT04248491|184709160|SUPERIORITY|||||||0.799|||||||t-test, 2 sided|||||||0.799
92409376|NCT04248491|184709161|SUPERIORITY|||||||0.757|||||||t-test, 2 sided|||||||0.757
92409377|NCT04248491|184709162|SUPERIORITY|||||||0.472|||||||t-test, 2 sided|||||||0.472
92409378|NCT04248491|184709164|SUPERIORITY|||||||0.342|||||||t-test, 2 sided|||||||0.342
92446289|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.069||0.4493|TWO_SIDED|95.0|-0.08|0.19|||MMRM|||Loss of weight, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.08|0.4493
92374725|NCT01778049|184651543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.25||0.0103||95.0|-1.15|-0.16|||MMRM|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the adjusted mean difference value calculated as lina5 (E10) minus Plc (E10).|Superiority of lina5 (E10) vs. Plc (E10): change in FPG using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. The model includes baseline HbA1c \& baseline eGFR as linear covariates, geographical region, treatment, visit, visit by treatment interaction as fixed effects.||-0.16|-1.15|0.0103
92374726|NCT01778049|184651543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.22||0.0452||95.0|-0.87|-0.01|||MMRM|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the adjusted mean difference value calculated as lina5 (E25) minus Plc (E25).|Superiority of lina5 (E25) vs. Plc (E25): change in FPG using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. The model includes baseline HbA1c \& baseline eGFR as linear covariates, geographical region, treatment, visit, visit by treatment interaction as fixed effects.||-0.01|-0.87|0.0452
92374727|NCT01218958|184651554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.751||||0.0245|TWO_SIDED|95.0|0.6|0.94||The Hochberg method was used to adjust P-value for multiple comparisons (ie, 380 mg dose vs. placebo and 190 mg dose vs. placebo).|Andersen-Gill recurrent-event Cox|||"The event rate (percentage) is represented by the number of heavy drinking days divided by number of days at risk. For each day, the active groups' results were contrasted with placebo to form the event rate ratio. Thus, a hazard ratio of 0.75 for the 380 mg group indicates a 25% reduction in heavy drinking compared with that of placebo.~The method of analysis estimates the average ratio over time and accounts for discontinuation. Point/interval estimates for pairwise ratios were derived."||0.940|0.600|0.0245
92374728|NCT01218958|184651554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0744|TWO_SIDED|95.0|0.677|1.018|||Andersen-Gill recurrent-event Cox model|||||1.018|0.677|0.0744
92374729|NCT01849575|184651570|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
92374730|NCT03359785|184651631|SUPERIORITY||LS Mean Difference|0.278|STANDARD_ERROR_OF_MEAN|0.376||0.2401|ONE_SIDED|90.0|-0.246||||ANOVA||||||-0.246|0.2401
92374731|NCT03359785|184651631|SUPERIORITY||LS Mean Difference|-0.766|STANDARD_ERROR_OF_MEAN|0.547||0.9053|ONE_SIDED|90.0|-1.513||||ANOVA||||||-1.513|0.9053
92374732|NCT01907321|184651639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.78|STANDARD_DEVIATION|14.98||0.001|TWO_SIDED||||||repeated measures ANOVA|||||||.001
92374733|NCT01907321|184651640|SUPERIORITY_OR_OTHER|||||||0.519|||||||ANOVA|||||||.519
92374734|NCT03650803|184651647|OTHER|Significance (alpha) set to 0.05||||||0.046|||||||t-test, 1 sided|||MRF T1 Changes||||0.046
92374735|NCT03650803|184651647|OTHER|Significance (alpha) set to 0.05||||||0.064|||||||t-test, 2 sided|||MRF T2 Changes||||0.064
92374736|NCT03650803|184651648|OTHER|Significance (alpha) set to 0.05||||||0.82|||||||t-test, 2 sided|||MRF T1 relaxation time||||0.820
92374737|NCT03650803|184651648|OTHER|Significance (alpha) set to 0.05||||||0.605|||||||t-test, 2 sided|||MRF T2 relaxation time||||0.605
92374738|NCT00252694|184651656|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1994|TWO_SIDED|95.0|0.704|1.076|||Log Rank|Generalized||||1.076|0.704|0.1994
92374739|NCT00367744|184651661|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Treatment groups were compared for change in limb fat using a two-sided signed rank test||The primary outcome measure was the change in limb fat at 48 weeks between the rosiglitazone and placebo group.||||0.02
92374740|NCT03664674|184651663|SUPERIORITY||Mean Difference (Net)|-0.221|STANDARD_ERROR_OF_MEAN|0.218||0.312|TWO_SIDED|95.0|-0.648|0.207||Generalized Linear Model - Negative Binomial Regression Model with count data by subject transformed using the log-link function.|Regression, Linear|The parameter estimate + conf. int. results back-transform to the ratio of adjusted mean DVDs (OTO-104/Placebo) to be 0.802 (0.523, 1.230).||||0.207|-0.648|0.312
92374741|NCT04270682|184651764|EQUIVALENCE|The null (H0) hypothesis and the alternative (Ha) hypothesis to be tested for the primary efficacy endpoint are that H0: Δ = 0 versus Ha: Δ ≠ 0 where Δ is the true paired treatment difference between CDCA and placebo for the change from baseline in loge-transformed urine 23S-pentol in the adult cohort.|Mean Difference (Final Values)|-3.06|STANDARD_ERROR_OF_MEAN|0.332|<|0.0001|TWO_SIDED|95.0|-3.794|-2.331|||paired t-test|||||-2.331|-3.794|<0.0001
92374742|NCT04270682|184651765|EQUIVALENCE|The null (H0) hypothesis and the alternative (Ha) hypothesis to be tested for the primary efficacy endpoint are that H0: Δ = 0 versus Ha: Δ ≠ 0 where Δ is the true paired treatment difference between CDCA and placebo for the change from baseline in loge-transformed plasma cholestanol in the adult cohort.|Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.241||0.0083|TWO_SIDED|95.0|-1.64|-0.399|||paired t-test|||||-0.399|-1.640|0.0083
92374743|NCT04270682|184651766|EQUIVALENCE|The null (H0) hypothesis and the alternative (Ha) hypothesis to be tested for the primary efficacy endpoint are that H0: Δ = 0 versus Ha: Δ ≠ 0 where Δ is the true paired treatment difference between CDCA and placebo for the change from baseline in loge-transformed Plasma 7αC4 in the adult cohort.|Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|0.224|<|0.0001|TWO_SIDED|95.0|-4.193|-3.207|||paired t-test|||||-3.207|-4.193|<0.0001
92374744|NCT04270682|184651767|EQUIVALENCE|Exact 2 sided p-value for observing contingency tables of rescue data with equal or more extreme values is calculated using Prescott's method. Rejection of the null hypothesis for no association suggests there is a difference between two treatments.|proportion|0.077||||0.0006|TWO_SIDED|95.0|0.0|0.36|||Prescott's|||||0.36|0.00|0.0006
92409379|NCT01068964|184709166|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 1.5 mmHg was used. That is, if the upper limit of the 95% confidence interval for the difference in the mean diurnal IOP change between the two groups (Group 1 minus Group 2) is less than 1.5 mm Hg, then the null hypothesis will be rejected. The study had an 85% power.|Mean Difference (Final Values)|-0.556|||||TWO_SIDED|95.0|-1.68|0.57||||||A non-inferiority test was performed for comparing the change from baseline in mean diurnal IOP at Week 4 between treatment groups. The null hypothesis was that the mean diurnal IOP change at Week 4 for Group 1 was at least 1.5 mmHg greater than that for Group 2. The hypothesis was tested using a confidence interval approach based on a 2-way analysis of variance (ANOVA) model including factors for treatment and investigator.||0.57|-1.68|
92409380|NCT00621348|184709168|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis|Risk Ratio (RR)|0.12|STANDARD_ERROR_OF_MEAN|0.0|<|0.05|TWO_SIDED|95.0|0.016|0.93||p value was adjusted for multiple comparisons.|Fisher Exact||The risk ratio is for Group A compared with Group C.|The incidence of hospital-acquired hyponatremia with current standard intravenous fluid therapy was approximately 30%. Sample of 72 patients would be needed in each group to demonstrate the decrease in incidence of hyponatremia (defined as plasma sodium\< 130 mEq/L) to 10%, with a power of 80 percent and alpha error of 0.05. In view of short study period and feasibility it was planned a priori to enroll at least 50 patients in each treatment limb.||0.93|0.016|<0.05
92409381|NCT04643158|184709174|SUPERIORITY||Least Square Mean Difference|0.0236||||0.828|TWO_SIDED|95.0|-0.1934|0.2406|||Mixed Models Analysis|||||0.2406|-0.1934|0.828
92409382|NCT04643158|184709174|SUPERIORITY||Least Square Mean Difference|0.196||||0.035|TWO_SIDED|95.0|0.0143|0.3778|||Mixed Models Analysis|||||0.3778|0.0143|0.035
92409383|NCT04643158|184709194|SUPERIORITY||Geometric Least Square Mean Ratio|-38.31||||0.202|TWO_SIDED|95.0|-71.11|31.72|||Mixed Models Analysis||Analyses were done on the natural log scale and the results were back-transformed to linear scale.|||31.72|-71.11|0.202
92409384|NCT04643158|184709194|SUPERIORITY||Geometric Least Square Mean Ratio|-15.43||||0.596|TWO_SIDED|95.0|-55.57|60.96|||Mixed Models Analysis||Analyses were done on the natural log scale and the results were back-transformed to linear scale.|||60.96|-55.57|0.596
92409385|NCT02197078|184709200|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.66|1.03||||||||1.03|0.66|
92409386|NCT02197078|184709200|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.65|1.1||||||||1.10|0.65|
92409387|NCT02197078|184709200|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.49|0.86||||||||0.86|0.49|
92409388|NCT02197078|184709200|OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.83|1.1||||||||1.10|0.83|
92229341|NCT00619957|184361248|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.15|||<|0.0001|TWO_SIDED|95.0|-57.01|-33.29|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-33.29|-57.01|<0.0001
92409389|NCT02197078|184709200|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.85|1.19||||||||1.19|0.85|
92409390|NCT02197078|184709200|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.66|0.96||||||||0.96|0.66|
92409391|NCT02197078|184709201|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.66|1.23||||||||1.23|0.66|
92409392|NCT02197078|184709201|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.57|1.16||||||||1.16|0.57|
92409393|NCT02197078|184709201|OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.48|1.01||||||||1.01|0.48|
92409394|NCT02197078|184709201|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.85|1.28||||||||1.28|0.85|
92409395|NCT02197078|184709201|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.79|1.28||||||||1.28|0.79|
92409396|NCT02197078|184709201|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.62|1.06||||||||1.06|0.62|
92409397|NCT02197078|184709202|OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.51|0.94||||||||0.94|0.51|
92409398|NCT02197078|184709202|OTHER||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.44|0.9||||||||0.90|0.44|
92409399|NCT02197078|184709202|OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.41|0.88||||||||0.88|0.41|
92409400|NCT02197078|184709202|OTHER||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.81|1.17||||||||1.17|0.81|
92409401|NCT02197078|184709202|OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.77|1.19||||||||1.19|0.77|
92409402|NCT02197078|184709202|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.6|0.97||||||||0.97|0.60|
92409403|NCT02197078|184709203|OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.58|1.38||||||||1.38|0.58|
92409404|NCT02197078|184709203|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.6|1.64||||||||1.64|0.60|
92409405|NCT02197078|184709203|OTHER||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.24|0.78||||||||0.78|0.24|
92409406|NCT02197078|184709203|OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.73|1.25||||||||1.25|0.73|
92409407|NCT02197078|184709203|OTHER||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.78|1.52||||||||1.52|0.78|
92409408|NCT02197078|184709203|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.52|1.05||||||||1.05|0.52|
92409409|NCT02197078|184709204|OTHER||Hazard Ratio (HR)|1.55|||||TWO_SIDED|95.0|1.1|2.18||||||||2.18|1.10|
92409410|NCT02197078|184709204|OTHER||Hazard Ratio (HR)|1.9|||||TWO_SIDED|95.0|1.19|3.03||||||||3.03|1.19|
92409411|NCT02197078|184709204|OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.73|1.68||||||||1.68|0.73|
92409412|NCT02197078|184709204|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.76|1.29||||||||1.29|0.76|
92409413|NCT02197078|184709204|OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.77|1.56||||||||1.56|0.77|
92409414|NCT02197078|184709204|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.54|1.14||||||||1.14|0.54|
92409415|NCT02197078|184709205|OTHER||Hazard Ratio (HR)|1.4|||||TWO_SIDED|95.0|0.97|2.0||||||||2.00|0.97|
92409416|NCT02197078|184709205|OTHER||Hazard Ratio (HR)|1.71|||||TWO_SIDED|95.0|1.07|2.72||||||||2.72|1.07|
92409417|NCT02197078|184709205|OTHER||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.75|1.79||||||||1.79|0.75|
92409418|NCT02197078|184709205|OTHER||Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|1.01|1.76||||||||1.76|1.01|
92409419|NCT02197078|184709205|OTHER||Hazard Ratio (HR)|1.52|||||TWO_SIDED|95.0|1.02|2.27||||||||2.27|1.02|
92409420|NCT02197078|184709205|OTHER||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.81|1.71||||||||1.71|0.81|
92409421|NCT02197078|184709206|OTHER||Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|1.04|1.47||||||||1.47|1.04|
92409422|NCT02197078|184709206|OTHER||Hazard Ratio (HR)|1.31|||||TWO_SIDED|95.0|1.06|1.61||||||||1.61|1.06|
92409423|NCT02197078|184709206|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.84|1.29||||||||1.29|0.84|
92409424|NCT02197078|184709206|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.91|1.19||||||||1.19|0.91|
92409425|NCT02197078|184709206|OTHER||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.9|1.27||||||||1.27|0.90|
92409426|NCT02197078|184709206|OTHER||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.75|1.09||||||||1.09|0.75|
92409427|NCT02197078|184709207|OTHER||Hazard Ratio (HR)|1.62|||||TWO_SIDED|95.0|0.64|4.06||||||||4.06|0.64|
92409428|NCT02197078|184709207|OTHER||Hazard Ratio (HR)|1.67|||||TWO_SIDED|95.0|0.61|4.58||||||||4.58|0.61|
92409429|NCT02197078|184709207|OTHER||Hazard Ratio (HR)|1.84|||||TWO_SIDED|95.0|0.62|5.48||||||||5.48|0.62|
92409430|NCT02197078|184709207|OTHER||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.57|2.4||||||||2.40|0.57|
92409431|NCT02197078|184709207|OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.38|2.43||||||||2.43|0.38|
92409432|NCT02197078|184709207|OTHER||Hazard Ratio (HR)|1.65|||||TWO_SIDED|95.0|0.64|4.27||||||||4.27|0.64|
92409433|NCT00622440|184709208|OTHER||Wilcoxon Rank Sum Effect Size|0.275||||0.042|TWO_SIDED|95.0|||||Wilcoxon rank sum||The wilcoxon rank sum effect size ranges in strength of effect from small (0.10 - \< 0.30), to medium (0.30 - \< 0.50), to large (\>=0.50) with a total range of 0 to 1|Estimated Effect Size for Phase 3 Trial||||.042
92409434|NCT02223377|184709212|SUPERIORITY||Odds Ratio (OR)|1.0||||0.997|TWO_SIDED|95.0|0.56|1.78|||Regression, Logistic|||||1.78|0.56|0.997
92374745|NCT04270682|184651767|EQUIVALENCE|Exact 2 sided p-value for observing contingency tables of rescue data with equal or more extreme values is calculated using Prescott's method. Rejection of the null hypothesis for no association suggests there is a difference between two treatments.|proportion|0.62||||0.0006|TWO_SIDED|95.0|0.32|0.86|||Prescott's|||||0.86|0.32|0.0006
92374746|NCT03894969|184651771|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the GMC ratio for anti-PD is \> 0.667. The anti-PD GMC ratio is presented in this test with its 95% CI.|GMC ratio|0.942|||||TWO_SIDED|0.95|0.765|1.159|||ANCOVA|ANCOVA model with treatment group, age category, smoking status and center as fixed effects and pre-Dose 1 log-concentration as a covariate.||To demonstrate the non-inferiority (NI) of the humoral immune response 1 month after Dose 2 of GSK Biologicals' NTHi-Mcat investigational vaccine when administered 1 after Shingrix vaccine versus the humoral immune response 1 month after Dose 2 of GSKBiologicals' NTHi-Mcat investigational vaccine alone.||1.159|0.765|
92374747|NCT03894969|184651771|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the GMC ratio for anti-PE is \> 0.667. The anti-PE GMC ratio is presented in this test with its 95% CI.|GMC ratio|0.887|||||TWO_SIDED|0.95|0.719|1.093|||ANCOVA|ANCOVA model with treatment group, age category, smoking status and center as fixed effects and pre-Dose 1 log-concentration as a covariate.||To demonstrate the non-inferiority (NI) of the humoral immune response 1 month after Dose 2 of GSK Biologicals' NTHi-Mcat investigational vaccine when administered 1 after Shingrix vaccine versus the humoral immune response 1 month after Dose 2 of GSKBiologicals' NTHi-Mcat investigational vaccine alone.||1.093|0.719|
92409435|NCT02223377|184709217|SUPERIORITY||Mean Difference (Final Values)|-0.73||||0.04|TWO_SIDED|95.0|-1.43|-0.03|||ANOVA|||||-0.03|-1.43|0.040
92409436|NCT02474069|184709234|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.087|TWO_SIDED|95.0|0.39|1.07|||ANCOVA|||Logistic regression model: Logit (proportion) = treatment + PASI Score at baseline + PASI score at randomization + error||1.07|0.39|0.087
92409437|NCT02474069|184709235|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.281|TWO_SIDED|95.0|0.43|1.28|||ANCOVA|||Logistic regression model: Logit (proportion) = treatment + PASI Score at baseline + PASI score at randomization + error||1.28|0.43|0.281
92409438|NCT06026124|184709246|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92409439|NCT06026124|184709246|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92409440|NCT06026124|184709247|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92409441|NCT06026124|184709247|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92409442|NCT06026124|184709248|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92409443|NCT06026124|184709248|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92409444|NCT06026124|184709249|SUPERIORITY||||||<|0.0001|||||||LSD test|||||||<0.0001
92409445|NCT06026124|184709249|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
92409446|NCT06026124|184709250|SUPERIORITY||||||=|0.17|||||||LSD test|||||||=0.17
92409447|NCT06026124|184709250|SUPERIORITY||||||=|1|||||||LSD test|||||||=1.00
92409448|NCT06026124|184709251|SUPERIORITY||||||<|0.0001|||||||LSD test|||||||<0.0001
92409449|NCT06026124|184709252|SUPERIORITY||||||=|0.51|||||||LSD test|||||||=0.51
92409450|NCT03023813|184709255|OTHER|||||||0.5|||||||t-test, 2 sided|||||||0.50
92409451|NCT03023813|184709256|OTHER|||||||0.25|||||||t-test, 2 sided|||||||.25
92409452|NCT03023813|184709257|OTHER|||||||0.39|||||||t-test, 2 sided|||||||.39
92409453|NCT03023813|184709258|OTHER|||||||0.59|||||||t-test, 2 sided|||||||0.59
92409454|NCT03023813|184709259|OTHER|||||||0.53|||||||t-test, 2 sided|||||||0.53
92409455|NCT03023813|184709260|OTHER|||||||0.91|||||||t-test, 2 sided|||||||0.91
92409456|NCT03023813|184709261|OTHER|Percent change in weight (lbs.) since the baseline encounter|Mean Difference (Net)|-2.96||||0.27|TWO_SIDED|95.0|-8.18|2.26|||Mixed Models Analysis||Result for intervention arm minus control arm|Among participants whose individualized preventive care recommendations included weight loss||2.26|-8.18|0.27
92409457|NCT03023813|184709261|OTHER|Change in systolic blood pressure since the baseline encounter (mmHg)|Mean Difference (Net)|-6.42||||0.19|TWO_SIDED|95.0|-16.12|3.27|||Mixed Models Analysis||Result for intervention arm minus control arm|Among participants whose individualized preventive care recommendations included blood pressure control||3.27|-16.12|0.19
92409458|NCT03023813|184709261|OTHER|Percentage point change in HbA1c (%) since the baseline encounter|Mean Difference (Net)|-0.68||||0.24|TWO_SIDED|95.0|-1.82|0.45|||Mixed Models Analysis||Result for intervention arm minus control arm|Among participants whose individualized preventive care recommendations included glycemic control||0.45|-1.82|0.24
92277894|NCT01464827|184458006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.375|TWO_SIDED|95.0|0.55|4.92||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Regression, Logistic||Odds ratio: Groups \[F + G + K + L\] : Groups \[H + I + M + N\]|The percentage of participants with SVR24 after treatment for 12 weeks versus 24 weeks was compared using logistic regression with treatment group, baseline log10 HCV RNA level, HCV subgenotype (1a or non-1a), geographic region (US or non-US), Interleukin 28B genotype (CC or non-CC), ABT-450/ritonavir dose and population (treatment-naïve or null-responders) as predictors.||4.92|0.55|0.375
92374748|NCT03894969|184651771|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the GMC ratio for anti-PilA is \> 0.667. The anti-PilA GMC ratio is presented in this test with its 95% CI.|GMC ratio|1.142|||||TWO_SIDED|0.95|0.884|1.474|||ANCOVA|ANCOVA model with treatment group, age category, smoking status and center as fixed effects and pre-Dose 1 log-concentration as a covariate.||To demonstrate the non-inferiority (NI) of the humoral immune response 1 month after Dose 2 of GSK Biologicals' NTHi-Mcat investigational vaccine when administered 1 after Shingrix vaccine versus the humoral immune response 1 month after Dose 2 of GSKBiologicals' NTHi-Mcat investigational vaccine alone.||1.474|0.884|
92409459|NCT03023813|184709261|OTHER|Percentage point change in 10-year atherosclerotic cardiovascular disease risk (%), as estimated by the American College of Cardiology Pooled Cohort Equations, since the baseline encounter|Mean Difference (Net)|-1.2||||0.34|TWO_SIDED|95.0|-3.65|1.26|||Generalized linear mixed regression||Result for intervention arm minus control arm|Among participants whose individualized preventive care recommendations included lipids control||1.26|-3.65|0.34
92169067|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.08||0.1589|TWO_SIDED|95.0|-0.25|0.04|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.04|-0.25|0.1589
92374749|NCT03894969|184651771|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the GMC ratio for anti-UspA2 is \> 0.667. The anti-UspA2 GMC ratio is presented in this test with its 95% CI.|GMC ratio|1.087|||||TWO_SIDED|0.95|0.948|1.245|||ANCOVA|ANCOVA model with treatment group, age category, smoking status and center as fixed effects and pre-Dose 1 log-concentration as a covariate.||To demonstrate the non-inferiority (NI) of the humoral immune response 1 month after Dose 2 of GSK Biologicals' NTHi-Mcat investigational vaccine when administered 1 after Shingrix vaccine versus the humoral immune response 1 month after Dose 2 of GSKBiologicals' NTHi-Mcat investigational vaccine alone.||1.245|0.948|
92374750|NCT02979093|184651785|SUPERIORITY||Mean Difference (Final Values)|0.1697|STANDARD_ERROR_OF_MEAN|0.1025||0.106|TWO_SIDED|||||Unadjusted|Mixed Models Analysis|||This analysis is for Striatum: Happy Own vs. Happy Unknown||||0.106
92374751|NCT02979093|184651785|SUPERIORITY||Mean Difference (Final Values)|0.20458|STANDARD_ERROR_OF_MEAN|0.1101||0.0709|TWO_SIDED|||||Unadjusted|Mixed Models Analysis|||This analysis is for the Amygdala: Happy Own vs. Happy Unknown infant faces.||||0.0709
92374752|NCT02979093|184651785|SUPERIORITY||Mean Difference (Final Values)|-0.14559|STANDARD_ERROR_OF_MEAN|0.08546||0.0964|TWO_SIDED|||||Unadjusted|Mixed Models Analysis|||This analysis is for Striatum: Sad Own vs. Sad Unknown infant faces.||||0.0964
92374753|NCT02979093|184651785|SUPERIORITY||Mean Difference (Final Values)|-0.15755|STANDARD_ERROR_OF_MEAN|0.07914||0.0538|TWO_SIDED|||||Unadjusted|Mixed Models Analysis|||This analysis is for Amygdala: Sad Own vs. Sad Unknown infant faces.||||0.0538
92374754|NCT02979093|184651786|SUPERIORITY||Mean Difference (Final Values)|0.09778|STANDARD_ERROR_OF_MEAN|0.09687||0.319|TWO_SIDED|||||unadjusted|Mixed Models Analysis|||"This is a mixed effects model with group (Addiction vs. Control) and condition (Oxytocin \[OT\] vs Placebo).~Both variables were included in the model. The interaction effect was tested but not included in the model. This result focuses on OT vs. placebo for Ventromedial prefrontal cortex (vmPFC) for happy own vs. happy unknown infant faces."||||0.319
92169068|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.08||0.472|TWO_SIDED|95.0|-0.2|0.09|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.09|-0.20|0.4720
92169069|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.08||0.032|TWO_SIDED|95.0|-0.33|-0.01|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.01|-0.33|0.0320
92169070|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.3336|TWO_SIDED|95.0|-0.24|0.08|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.08|-0.24|0.3336
92169071|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.09||0.0005|TWO_SIDED|95.0|-0.47|-0.13|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.13|-0.47|0.0005
92169072|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.09||0.0001|TWO_SIDED|95.0|-0.5|-0.16|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.16|-0.50|0.0001
92374755|NCT02979093|184651786|SUPERIORITY||Mean Difference (Final Values)|-0.15289|STANDARD_ERROR_OF_MEAN|0.10968||0.171|TWO_SIDED|||||unadjusted|Mixed Models Analysis|||"This is a mixed effects model with group (addiction vs. control) and condition (OT vs Placebo).~Both variables were included in the model. The interaction effect was tested but not included in the model. This result focuses on addiction vs. control for vmPFC for Happy Own vs. Happy Unknown infant faces."||||0.171
92374756|NCT02979093|184651786|SUPERIORITY||Mean Difference (Final Values)|-0.20839|STANDARD_ERROR_OF_MEAN|0.08405||0.0179|TWO_SIDED|||||Unadjusted|Mixed Models Analysis|||"This is a mixed effects model with group (addiction vs. control) and condition (OT vs Placebo).~Both variables were included in the model. The interaction effect was tested but not included in the model. This result focuses on OT vs placebo for Dorsolateral Prefrontal Cortex (dlPFC) for Sad Own vs. Sad Unknown infant faces."||||0.0179
92374757|NCT02979093|184651786|SUPERIORITY||Mean Difference (Final Values)|0.04315|STANDARD_ERROR_OF_MEAN|0.11827||0.7171|TWO_SIDED|||||unadjusted|Mixed Models Analysis|||"This is a mixed effects model with group (addiction vs. control) and condition (OT vs Placebo).~Both variables were included in the model. The interaction effect was tested but not included in the model. This result focuses on addiction vs. control for dlPFC for Sad Own vs. Sad Unknown infant faces."||||0.7171
92374758|NCT02308163|184651787|SUPERIORITY||Odds Ratio (OR)|3.13|||<|0.001|TWO_SIDED|95.0|1.76|5.58||Closed testing procedure was used for multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: ACR20-CRP response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||5.58|1.76|<0.001
92374759|NCT02308163|184651787|SUPERIORITY||Odds Ratio (OR)|6.59|||<|0.001|TWO_SIDED|95.0|3.56|12.2||Closed testing procedure was used for multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: ACR20-CRP response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||12.20|3.56|<0.001
92374760|NCT02308163|184651789|SUPERIORITY||Odds Ratio (OR)|4.79|||<|0.001|TWO_SIDED|95.0|2.14|10.75||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: ACR50-CRP response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||10.75|2.14|<0.001
92374761|NCT02308163|184651789|SUPERIORITY||Odds Ratio (OR)|7.86|||<|0.001|TWO_SIDED|95.0|3.53|17.5||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: ACR50-CRP response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||17.50|3.53|<0.001
92374762|NCT02308163|184651791|SUPERIORITY||Odds Ratio (OR)|39.93|||<|0.001|TWO_SIDED|95.0|5.29|301.61||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: ACR70-CRP response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo. Difference vs. Peficitinib 100mg was not estimable.||301.61|5.29|<0.001
92374763|NCT02308163|184651793|SUPERIORITY||LS mean|-1.06|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.41|-0.71||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: DAS28 Change = Treatment + Baseline DAS28 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-0.71|-1.41|<0.001
92374764|NCT02308163|184651793|SUPERIORITY||LS mean|-1.55|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.86|-1.24||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: DAS28 Change = Treatment + Baseline DAS28 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-1.24|-1.86|<0.001
92374765|NCT02308163|184651795|SUPERIORITY||LS mean|-1.03|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.38|-0.67||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: DAS28 Change = Treatment + Baseline DAS28 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-0.67|-1.38|<0.001
92374766|NCT02308163|184651795|SUPERIORITY||LS mean|-1.64|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.96|-1.31||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: DAS28 Change = Treatment + Baseline DAS28 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-1.31|-1.96|<0.001
92409460|NCT03023813|184709261|OTHER|Change in low-density lipoprotein (LDL) cholesterol (mg/dL) since the baseline encounter|Mean Difference (Net)|-8.46||||0.36|TWO_SIDED|95.0|-26.63|9.7|||Mixed Models Analysis||Result for intervention arm minus control arm|Among participants whose individualized preventive care recommendations included lipids control||9.70|-26.63|0.36
92409461|NCT03023813|184709261|OTHER|Change in smoking intensity (defined as a change in smoking status from Current Every Day to either Current Some Days or Quit; or from Current Some Days to Quit) since the baseline encounter.|Odds Ratio (OR)|1.2||||0.92|TWO_SIDED|95.0|0.03|45.56|||Mixed Models Analysis|Generalized linear mixed regression with logit link|Result for intervention arm relative to control arm. OR \<1 indicates reduction in smoking intensity; OR \>1 indicates increase in smoking intensity.|Among participants whose individualized preventive care recommendations included tobacco cessation||45.56|0.03|0.92
92169073|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.55|-0.18|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.18|-0.55|<0.0001
92374767|NCT02308163|184651797|SUPERIORITY||LS mean|-4.6|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-6.8|-2.4||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: TJC68 Change = Treatment + Baseline TJC68 + the prior biologic - DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-2.4|-6.8|<0.001
92374768|NCT02308163|184651797|SUPERIORITY||LS mean|-6.1|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|-8.1|-4.0||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: TJC68 Change = Treatment + Baseline TJC68 + the prior biologic - DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-4.0|-8.1|<0.001
92374769|NCT02308163|184651799|SUPERIORITY||LS mean|-3.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-4.6|-1.4||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: TJC68 Change = Treatment + Baseline TJC68 + the prior biologic - DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-1.4|-4.6|<0.001
92374770|NCT02308163|184651799|SUPERIORITY||LS mean|-5.3|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-6.8|-3.9||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: TJC68 Change = Treatment + Baseline TJC68 + the prior biologic - DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-3.9|-6.8|<0.001
92374771|NCT02308163|184651801|SUPERIORITY||Odds Ratio (OR)|6.4|||<|0.001|TWO_SIDED|95.0|2.31|17.67||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-CRP score \< 2.6 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||17.67|2.31|<0.001
92374772|NCT02308163|184651801|SUPERIORITY||Odds Ratio (OR)|10.13|||<|0.001|TWO_SIDED|95.0|3.76|27.27||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-CRP score \< 2.6 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||27.27|3.76|<0.001
92374773|NCT02308163|184651803|SUPERIORITY||Odds Ratio (OR)|21.72||||0.003|TWO_SIDED|95.0|2.83|166.66||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-ESR score \< 2.6 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo. Difference vs. Peficitinib 100mg was not estimable.||166.66|2.83|0.003
92374774|NCT02308163|184651805|SUPERIORITY||Odds Ratio (OR)|5.8|||<|0.001|TWO_SIDED|95.0|2.74|12.29||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-CRP score ≤ 3.2 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||12.29|2.74|<0.001
92374775|NCT02308163|184651805|SUPERIORITY||Odds Ratio (OR)|9.66|||<|0.001|TWO_SIDED|95.0|4.57|20.41||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-CRP score ≤ 3.2 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||20.41|4.57|<0.001
92374776|NCT02308163|184651807|SUPERIORITY||Odds Ratio (OR)|3.24||||0.012|TWO_SIDED|95.0|1.29|8.12||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-ESR score ≤ 3.2 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||8.12|1.29|0.012
92374777|NCT02308163|184651807|SUPERIORITY||Odds Ratio (OR)|8.19|||<|0.001|TWO_SIDED|96.0|3.42|19.63||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-ESR score ≤ 3.2 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||19.63|3.42|<0.001
92374778|NCT02308163|184651809|SUPERIORITY||LS Mean|-1.112|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|-1.546|-0.679||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test|Covariance model||Based on analysis of covariance model: CRP Change = Treatment + Baseline CRP + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-0.679|-1.546|<0.001
92280408|NCT04684524|184463485|SUPERIORITY||LS Mean Difference|-36.31|||<|0.0001|TWO_SIDED|95.0|-45.59|-27.03|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-27.03|-45.59|<0.0001
92409462|NCT03023813|184709261|OTHER|Receipt of colorectal cancer screening since the baseline encounter|Odds Ratio (OR)|2.52||||0.99|TWO_SIDED|95.0|0.001|1000.0|||Mixed Models Analysis|Generalized linear mixed regression with logit link|Result for intervention arm relative to control arm. Lower limit estimate was \<0.001 and upper limit estimate was \>1000 (ClinicalTrials.gov does not allow \< or \> to be entered into the confidence interval lower limit or upper limit fields).|Among participants whose individualized preventive care recommendations included colorectal cancer screening||1000|0.001|0.99
92409463|NCT02283762|184709266|SUPERIORITY||Difference of LS means|-2.34||||0.0815|TWO_SIDED|95.0|-4.99|0.3|||MMRM (Method 1)|||||0.30|-4.99|0.0815
92409464|NCT02283762|184709267|SUPERIORITY|The pre-specified test was for superiority but ONLY if the primary endpoint and secondary endpoints were meeting statistical significance (hierarchical testing).|%|0.2||||0.977|TWO_SIDED|95.0|-13.68|14.09|||Mantel Haenszel|||||14.09|-13.68|0.9770
92409465|NCT02283762|184709268|SUPERIORITY|The pre-specified test was for superiority but ONLY if the primary endpoint and secondary endpoints were meeting statistical significance (hierarchical testing).|Difference in LS means|-0.07||||0.3529|TWO_SIDED|95.0|-0.23|0.08|||MMRM (Method 1)|||change from baseline||0.08|-0.23|0.3529
92229342|NCT00619957|184361249|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.88|||<|0.0001|TWO_SIDED|95.0|-23.43|-8.32|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-8.32|-23.43|<0.0001
92409466|NCT02283762|184709269|SUPERIORITY|The pre-specified test was for superiority but ONLY if the primary endpoint and secondary endpoints were meeting statistical significance (hierarchical testing).|Difference in LS means|0.79||||0.0887|TWO_SIDED|95.0|-0.12|1.69|||MMRM (Method 1)|||Change from baseline||1.69|-0.12|0.0887
92409467|NCT02283762|184709270|SUPERIORITY|The pre-specified test was for superiority but ONLY if the primary endpoint and secondary endpoints were meeting statistical significance (hierarchical testing).|Difference in LS means|0.83||||0.0241|TWO_SIDED|95.0|0.11|1.54|||MMRM (Method 1)|||Change from baseline||1.54|0.11|0.0241
92409468|NCT02283762|184709271|SUPERIORITY|The pre-specified test was for superiority but ONLY if the primary endpoint and secondary endpoints were meeting statistical significance (hierarchical testing).|Difference in LS means|-0.2||||0.901|TWO_SIDED|95.0|-3.4|3.0|||MMRM (Method 1)|||change from baseline||3.00|-3.40|0.9010
92409469|NCT00202878|184709282|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.936||||0.016|TWO_SIDED|95.0|0.887|0.988|||Cox proportional hazard model|Covariates of the stratification factors (EARLY ACS trial, chronic prescription lipid-lowering experience, and high-risk ACS diagnosis) and treatment.|Model includes events from randomization to last study visit.|||0.988|0.887|0.016
92409470|NCT00202878|184709283|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.948||||0.035|TWO_SIDED|95.0|0.903|0.996|||Cox proportional hazard model|Covariates of the stratification factors (EARLY ACS trial, chronic prescription lipid-lowering experience, and high-risk ACS diagnosis) and treatment.|Model includes events from randomization to last study visit.|||0.996|0.903|0.035
92409471|NCT00202878|184709284|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.912||||0.016|TWO_SIDED|95.0|0.847|0.983|||Cox proportional hazard model|Covariates of the stratification factors (EARLY ACS trial, chronic prescription lipid-lowering experience, and high-risk ACS diagnosis) and treatment.|Model includes events from randomization to last study visit.|||0.983|0.847|0.016
92409472|NCT00202878|184709285|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.945||||0.035|TWO_SIDED|95.0|0.897|0.996|||Cox proportional hazard model|Covariates of the stratification factors (EARLY ACS trial, chronic prescription lipid-lowering experience, and high-risk ACS diagnosis) and treatment|Model includes events from randomization to last study visit.|||0.996|0.897|0.035
92409473|NCT01594528|184709294|OTHER|||||||0.992||||||comparison between groups for body indicators|Wilcoxon (Mann-Whitney)|||||||0.992
92409474|NCT01594528|184709294|OTHER|||||||0.8||||||comparison between groups facial indicators|Wilcoxon (Mann-Whitney)|||||||0.8
92409475|NCT01594528|184709294|OTHER|||||||0.586||||||comparison between groups for vocal indicators|Wilcoxon (Mann-Whitney)|||||||0.586
92409476|NCT00035932|184709310|NON_INFERIORITY_OR_EQUIVALENCE|The time-averaged difference (TAD) in the reduction of log10 HIV RNA levels from baseline through Week 24 was compared pairwise for each atazanavir regimen to the lopinavir/RTV regimen, and assessed using a two-sided 97.5% confidence interval. The primary efficacy analysis was to declare two treatment regimens similar if the upper limit of this 97.5% confidence interval for the difference (atazanavir-lopinavir/RTV) was less than 0.5 log10.|Time-Averaged Difference|0.14|||||TWO_SIDED|97.5|-0.09|0.37||||||||0.37|-0.09|
92409477|NCT00035932|184709310|NON_INFERIORITY_OR_EQUIVALENCE|The time-averaged difference (TAD) in the reduction of log10 HIV RNA levels from baseline through Week 24 was compared pairwise for each atazanavir regimen to the lopinavir/RTV regimen, and assessed using a two-sided 97.5% confidence interval. The primary efficacy analysis was to declare two treatment regimens similar if the upper limit of this 97.5% confidence interval for the difference (atazanavir-lopinavir/RTV) was less than 0.5 log10.|Time-Averaged Difference|0.31|||||TWO_SIDED|97.5|0.07|0.55||||||||0.55|0.07|
92409478|NCT00035932|184709311|SUPERIORITY_OR_OTHER||Treatment Difference|0.13|||||TWO_SIDED|95.0|-0.04|0.3||||||||0.30|-0.04|
92409479|NCT00035932|184709311|SUPERIORITY_OR_OTHER||Treatment Difference|0.17|||||TWO_SIDED|95.0|-0.01|0.35||||||||0.35|-0.01|
92409480|NCT00035932|184709314|SUPERIORITY_OR_OTHER||Time-Averaged Difference|0.13|||||TWO_SIDED|97.5|-0.12|0.39||||||||0.39|-0.12|
92409481|NCT00035932|184709314|SUPERIORITY_OR_OTHER||Time-Averaged Distance|0.33|||||TWO_SIDED|97.5|0.07|0.6||||||||0.60|0.07|
92409482|NCT00035932|184709315|SUPERIORITY_OR_OTHER||Difference estimate|-0.5|||||TWO_SIDED|95.0|-13.3|12.3|||||ATV 300/RTV - LPV/RTV|Randomized participants||12.3|-13.3|
92409483|NCT00035932|184709316|SUPERIORITY_OR_OTHER||Difference Estimate|3.6|||||TWO_SIDED|95.0|-7.0|14.1||||||||14.1|-7.0|
92409484|NCT00035932|184709316|SUPERIORITY_OR_OTHER||Difference Estimate|-11.3|||||TWO_SIDED|95.0|-22.9|0.4||||||||0.4|-22.9|
92409485|NCT00035932|184709318|SUPERIORITY_OR_OTHER||Difference Estimate|-5.0|||||TWO_SIDED|95.0|-16.9|7.0||||||||7.0|-16.9|
92409486|NCT00035932|184709318|SUPERIORITY_OR_OTHER||Difference Estimate|-16.1|||||TWO_SIDED|95.0|-28.5|-3.7||||||||-3.7|-28.5|
92409487|NCT00035932|184709320|SUPERIORITY_OR_OTHER||Difference Estimate|0.4|||||TWO_SIDED|95.0|-12.5|13.2|||||ATV 300/RTV - LPV/RTV|||13.2|-12.5|
92409488|NCT00035932|184709321|SUPERIORITY_OR_OTHER||Difference Estimate|3.2|||||TWO_SIDED|95.0|-9.1|15.4||||||||15.4|-9.1|
92409489|NCT00035932|184709321|SUPERIORITY_OR_OTHER||Difference Estimate|-16.7|||||TWO_SIDED|95.0|-29.4|-4.0||||||||-4.0|-29.4|
92229343|NCT00619957|184361250|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.0|||<|0.0001|TWO_SIDED|95.0|-31.08|-12.91|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-12.91|-31.08|<0.0001
92280409|NCT04684524|184463486|SUPERIORITY||Risk Difference (RD)|-29.1||||0.001|TWO_SIDED|95.0|-46.42|-11.79|||Mantel Haenszel|||Risk difference was estimated using Mantel-Haenszel estimate and confidence limits, with Mantel-Haenszel stratum weights for time from last surgery (\<=2 years, \>2 years) and region (Americas and Asia) and the Sato variance estimator.||-11.79|-46.42|0.0010
92409490|NCT00035932|184709322|SUPERIORITY_OR_OTHER||Difference Estimate|-1.1|||||TWO_SIDED|95.0|-13.7|11.4||||||||11.4|-13.7|
92169074|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.66|-0.3|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.30|-0.66|<0.0001
92409491|NCT00035932|184709322|SUPERIORITY_OR_OTHER||Difference Estimate|-17.9|||||TWO_SIDED|95.0|-30.6|-5.3||||||||-5.3|-30.6|
92409492|NCT00035932|184709323|SUPERIORITY_OR_OTHER||Difference Estimate|-2.4|||||TWO_SIDED|95.0|-15.0|10.3|||Chi-squared, Corrected||ATV 300/RTV - LPV/RTV|||10.3|-15.0|
92409493|NCT00035932|184709324|SUPERIORITY_OR_OTHER||Difference Estimate|-2.3|||||TWO_SIDED|95.0|-14.6|10.0||||||||10.0|-14.6|
92409494|NCT00035932|184709324|SUPERIORITY_OR_OTHER||Difference Estimate|-18.9|||||TWO_SIDED|95.0|-30.7|-7.1||||||||-7.1|-30.7|
92409495|NCT00035932|184709325|SUPERIORITY_OR_OTHER||Difference Estimate|-6.4|||||TWO_SIDED|95.0|-18.7|5.8||||||||5.8|-18.7|
92169075|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.0115|TWO_SIDED|95.0|-0.42|-0.05|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.05|-0.42|0.0115
92409496|NCT00035932|184709325|SUPERIORITY_OR_OTHER||Difference Estimate|-17.9|||||TWO_SIDED|95.0|-29.9|-5.9||||||||-5.9|-29.9|
92409497|NCT00035932|184709327|SUPERIORITY_OR_OTHER||Time-Averaged Difference|-18.4|||||TWO_SIDED|97.5|-44.3|7.5||||||||7.5|-44.3|
92409498|NCT00035932|184709327|SUPERIORITY_OR_OTHER||Time-Averaged Difference|-44.9|||||TWO_SIDED|97.5|-74.5|-15.3||||||||-15.3|-74.5|
92409499|NCT00035932|184709328|SUPERIORITY_OR_OTHER||Time-Averaged Difference|-17.5|||||TWO_SIDED|97.5|-45.6|10.6||||||||10.6|-45.6|
92409500|NCT00035932|184709328|SUPERIORITY_OR_OTHER||Time-Averaged Difference|-47.6|||||TWO_SIDED|97.5|-79.2|-16.1||||||||-16.1|-79.2|
92409501|NCT00035932|184709330|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||P-value was based on a t-distribution.|t-test, 1 sided|||Correlation between IQ (\<10; \>=10) of ATV 300 mg / RTV and HIV RNA||||<0.05
92409502|NCT00035932|184709330|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||P-value was based on a t-distribution.|t-test, 1 sided|||Correlation between number of PI Mutations at baseline (\<4; \>=4) of ATV 400 mg / SQV and HIV RNA||||<0.05
92409503|NCT00035932|184709332|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||P-value was based on a t-distribution.|t-test, 1 sided|||Correlation between ATV Cmin of ATV 300 mg / RTV and CD4 Cell Count||||<0.05
92409504|NCT00035932|184709332|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||P-value was based on a t-distribution.|t-test, 1 sided|||Correlation between IQ (\<10; \>=10) of ATV 300 mg / RTV and CD4 Cell Count||||<0.05
92409505|NCT00035932|184709332|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||P-value was based on a t-distribution.|t-test, 1 sided|||Correlation between # of PI Mutations at baseline (\<4; \>=4) of ATV 300 mg / RTV and CD4 Cell Count||||<0.05
92409506|NCT00035932|184709334|SUPERIORITY_OR_OTHER||Difference Estimate|-10.9|||||TWO_SIDED|95.0|-15.5|-6.0||||||Total Cholesterol||-6.0|-15.5|
92409507|NCT00035932|184709334|SUPERIORITY_OR_OTHER||Difference Estimate|-12.4|||||TWO_SIDED|95.0|-16.9|-7.6||||||Total Cholesterol||-7.6|-16.9|
92169076|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.63|-0.26|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.26|-0.63|<0.0001
92229344|NCT00619957|184361251|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.96|||<|0.0001|TWO_SIDED|95.0|-30.75|-13.17|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-13.17|-30.75|<0.0001
92229345|NCT00619957|184361252|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.11||||0.0012|TWO_SIDED|95.0|-24.2|-6.02|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-6.02|-24.20|0.0012
92229346|NCT00619957|184361253|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.37||||0.0003|TWO_SIDED|95.0|-25.24|-7.49|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-7.49|-25.24|0.0003
92374779|NCT02308163|184651809|SUPERIORITY||LS mean|-1.677|STANDARD_ERROR_OF_MEAN|0.221|<|0.001|TWO_SIDED|95.0|-2.114|-1.241||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: CRP Change = Treatment + Baseline CRP + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-1.241|-2.114|<0.001
92374780|NCT02308163|184651811|SUPERIORITY||LS mean|-10.9|STANDARD_ERROR_OF_MEAN|2.56|<|0.001|TWO_SIDED|95.0|-15.95|-5.84||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: ESR Change = Treatment + Baseline ESR + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-5.84|-15.95|<0.001
92374781|NCT02308163|184651811|SUPERIORITY||LS mean|-21.14|STANDARD_ERROR_OF_MEAN|2.47|<|0.001|TWO_SIDED|95.0|-26.01|-16.27||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: ESR Change = Treatment + Baseline ESR + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-16.27|-26.01|<0.001
92374782|NCT02308163|184651813|SUPERIORITY||Odds Ratio (OR)|6.64|||<|0.001|TWO_SIDED|95.0|2.98|14.83||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||14.83|2.98|<0.001
92374783|NCT02308163|184651813|SUPERIORITY||Odds Ratio (OR)|10.86|||<|0.001|TWO_SIDED|95.0|4.91|24.03||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||24.03|4.91|<0.001
92374784|NCT02308163|184651815|SUPERIORITY||Odds Ratio (OR)|4.37|||<|0.001|TWO_SIDED|95.0|2.38|8.04||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good or Moderate Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||8.04|2.38|<0.001
92374785|NCT02308163|184651815|SUPERIORITY||Odds Ratio (OR)|16.78|||<|0.001|TWO_SIDED|95.0|7.31|38.51||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good or Moderate Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||38.51|7.31|<0.001
92374786|NCT02308163|184651817|SUPERIORITY||Odds Ratio (OR)|4.29||||0.006|TWO_SIDED|95.0|1.52|12.08||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||12.08|1.52|0.006
92374787|NCT02308163|184651817|SUPERIORITY||Odds Ratio, log|11.01|||<|0.001|TWO_SIDED|95.0|4.07|29.74||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||29.74|4.07|<0.001
92409508|NCT00035932|184709334|SUPERIORITY_OR_OTHER||Difference Estimate|-6.7|||||TWO_SIDED|95.0|-13.6|0.7||||||HDL cholesterol||0.7|-13.6|
92409509|NCT00035932|184709334|SUPERIORITY_OR_OTHER||Difference Estimate|-1.0|||||TWO_SIDED|95.0|-9.3|8.1||||||HDL Cholesterol||8.1|-9.3|
92409510|NCT00035932|184709334|SUPERIORITY_OR_OTHER||Difference Estimate|-6.8|||||TWO_SIDED|95.0|-15.6|3.0||||||Fasting LDL Cholesterol||3.0|-15.6|
92409511|NCT00035932|184709334|SUPERIORITY_OR_OTHER||Difference Estimate|-7.3|||||TWO_SIDED|95.0|-15.5|1.8||||||Fasting LDL Cholesterol||1.8|-15.5|
92409512|NCT00035932|184709334|SUPERIORITY_OR_OTHER||Difference Estimate|-24.9|||||TWO_SIDED|95.0|-35.0|-13.2||||||Fasting Triglycerides||-13.2|-35.0|
92409513|NCT00035932|184709334|SUPERIORITY_OR_OTHER||Difference Estimate|-34.2|||||TWO_SIDED|95.0|-43.4|-23.4||||||Fasting Triglycerides||-23.4|-43.4|
92169077|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.1||0.0002|TWO_SIDED|95.0|-0.56|-0.17|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.17|-0.56|0.0002
92169078|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.67|-0.28|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.28|-0.67|<0.0001
92409514|NCT00035932|184709335|SUPERIORITY_OR_OTHER||Difference Estimate|-12.1|||||TWO_SIDED|95.0|-17.0|-7.2||||||Total Cholesterol||-7.2|-17.0|
92229347|NCT00619957|184361254|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.64|||<|0.0001|TWO_SIDED|95.0|-19.29|-11.99|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-11.99|-19.29|<0.0001
92280410|NCT04684524|184463487|SUPERIORITY||LS Mean Difference|-15.11||||0.0032|TWO_SIDED|95.0|-25.15|-5.07|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-5.07|-25.15|0.0032
92409515|NCT00035932|184709335|SUPERIORITY_OR_OTHER||Difference Estimate|-12.0|||||TWO_SIDED|95.0|-17.4|-6.5||||||Total Cholesterol||-6.5|-17.4|
92409516|NCT00035932|184709335|SUPERIORITY_OR_OTHER||Difference Estimate|-4.4|||||TWO_SIDED|95.0|-12.4|3.5||||||HDL Cholesterol||3.5|-12.4|
92409517|NCT00035932|184709335|SUPERIORITY_OR_OTHER||DIfference Estimate|-0.8|||||TWO_SIDED|95.0|-11.0|9.3||||||HDL Cholesterol||9.3|-11.0|
92409518|NCT00035932|184709335|SUPERIORITY_OR_OTHER||Difference Estimate|-8.9|||||TWO_SIDED|95.0|-19.0|1.2||||||Fasting LDL CHolesterol||1.2|-19.0|
92409519|NCT00035932|184709335|SUPERIORITY_OR_OTHER||Difference Estimate|-7.4|||||TWO_SIDED|95.0|-17.7|3.0||||||Fasting LDL Cholesterol||3.0|-17.7|
92409520|NCT00035932|184709335|SUPERIORITY_OR_OTHER||Difference Estimate|-29.6|||||TWO_SIDED|95.0|-41.6|-17.7||||||Fasting Triglycerides||-17.7|-41.6|
92409521|NCT00035932|184709335|SUPERIORITY_OR_OTHER||Difference Estimate|-38.4|||||TWO_SIDED|95.0|-49.7|-27.1||||||Fasting Triglycerides||-27.1|-49.7|
92409522|NCT00035932|184709336|SUPERIORITY_OR_OTHER||Difference Estimate|-14.4|||||TWO_SIDED|95.0|-20.1|-8.3|||||ATV 300/RTV - LPV/RTV|Observed values, Total Cholesterol||-8.3|-20.1|
92409523|NCT00035932|184709336|SUPERIORITY_OR_OTHER||Difference Estimate|-9.0|||||TWO_SIDED|95.0|-16.1|-1.3|||||ATV 400/SQV - LPV/RTV|observed values, total cholesterol||-1.3|-16.1|
92409524|NCT00035932|184709336|SUPERIORITY_OR_OTHER||Difference Estimate|-11.0|||||TWO_SIDED|95.0|-19.9|-1.2|||||ATV 300/RTV - LPV/RTV|observed values, HDL cholesterol||-1.2|-19.9|
92409525|NCT00035932|184709336|SUPERIORITY_OR_OTHER||Difference Estimate|-4.1|||||TWO_SIDED|95.0|-14.0|7.0|||||ATV 400/SQV - LPV/RTV|Observed values, HDL cholesterol||7.0|-14.0|
92409526|NCT00035932|184709336|SUPERIORITY_OR_OTHER||Difference Estimate|-12.7|||||TWO_SIDED|95.0|-22.3|-1.8|||||ATV 300/RTV - LPV/RTV|observed cases, fasting LDL||-1.8|-22.3|
92409527|NCT00035932|184709336|SUPERIORITY_OR_OTHER||Difference Estimate|-7.9|||||TWO_SIDED|95.0|-19.0|4.8|||||ATV 400/SQV - LPV/RTV|Observed Cases, Fasting LDL cholesterol||4.8|-19.0|
92409528|NCT00035932|184709336|SUPERIORITY_OR_OTHER||Difference Estimate|-24.8|||||TWO_SIDED|95.0|-38.6|-8.0|||||ATV 300/RTV - LPV/RTV|observed cases, fasting triglycerides||-8.0|-38.6|
92409529|NCT00035932|184709336|SUPERIORITY_OR_OTHER||Difference Estimate|-19.8|||||TWO_SIDED|95.0|-36.5|1.3|||||ATV 400/SQV - LPV/RTV|observed cases, fasting triglycerides||1.3|-36.5|
92409530|NCT00035932|184709347|SUPERIORITY_OR_OTHER||time-averaged difference|0.14|||||TWO_SIDED|97.5|-0.13|0.41|||||ATV 300/RTV - LPV/RTV|overall||0.41|-0.13|
92409531|NCT00035932|184709347|SUPERIORITY_OR_OTHER||time-averaged difference|0.11|||||TWO_SIDED|97.5|-0.16|0.38|||||ATV 300/RTV - LPV/RTV|last observation carried forward||0.38|-0.16|
92409532|NCT00104520|184709440|SUPERIORITY_OR_OTHER|||||||0.007||0.0||||Analysis based on 2-sided test with 0.05 a priori threshold for statistical significance. No adjustments were made for multiple comparisons.|Log Rank|||H0: no difference between AZLI and placebo (pooled treatment groups) in time to need for inhaled or IV antibiotics. Assuming 2-sided significance level of 0.05, \~210 subjects (70 in each AZLI group, 35 in each placebo group) provided \>90% power to reject null hypothesis based on Lakatos normal approximation method with weights being one. Therefore, 250 subjects were to be randomized at Visit 2 (Day -28) to ensure at least 210 participants entered double-blind treatment period at Day 0.||||0.0070
92409533|NCT00104520|184709441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.01||||0.0196|TWO_SIDED|95.0|0.81|9.21||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included terms for treatment and baseline value.||Null hypothesis was there is no difference between 75 mg AZLI and placebo (pooled treatment groups) in change from baseline in CFQ-R RSS scores.||9.21|0.81|0.0196
92409534|NCT00104520|184709442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.28||||0.0012|TWO_SIDED|95.0|2.5|10.06||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included terms for treatment and baseline value.||Null hypothesis was there is no difference between 75 mg AZLI and placebo (pooled treatment groups) in percent change from baseline in FEV1 (L).||10.060|2.500|0.0012
92409535|NCT00104520|184709444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.659||||0.0059|TWO_SIDED|95.0|-1.125|-0.193|||ANCOVA|ANCOVA model included terms for treatment and baseline highest MIC of aztreonam for PA (\<=2, 4-8, 16-128 or \>=256 μg/mL) value.||Null hypothesis was there is no difference between 75 mg AZLI and placebo (pooled treatment groups) in mean change from baseline in log10 PA CFUs in sputum.||-0.193|-1.125|0.0059
92409536|NCT00233064|184709475|SUPERIORITY_OR_OTHER||Overall percentage of immune reactivity|0.0||||||95.0|0.0|1.9|||||The number and percentage of subjects with immune reactivity at Study Day 240-300 were constructed using the Clopper-Pearson Method.|The subject number of 200 per treatment group was derived to demonstrate a percentage of immune reactivity in either the liquid or lyophilized formulations of palivizumab of \<2-3% based on 95% confidence intervals \[(0%; 0.00, 1.83), (0.5%; 0.01, 2.75), (1%; 0.12, 3.57)\].||1.9|0.0|
92409537|NCT00233064|184709475|SUPERIORITY_OR_OTHER||Overall percentage of immune reactivity|0.5||||||95.0|0.0|2.9|||||The number and percentage of subjects with immune reactivity at Study Day 240-300 were constructed using the Clopper-Pearson Method.|The subject number of 200 per treatment group was derived to demonstrate a percentage of immune reactivity in either the liquid or lyophilized formulations of palivizumab of \<2-3% based on 95% confidence intervals \[(0%; 0.00, 1.83), (0.5%; 0.01, 2.75), (1%; 0.12, 3.57)\].||2.9|0.0|
92409538|NCT00233064|184709475|SUPERIORITY_OR_OTHER||Overall percentage of immune reactivity|0.3||||||95.0|0.0|1.5|||||The number and percentage of subjects with immune reactivity at Study Day 240-300 were constructed using the Clopper-Pearson Method.|The subject number of 200 per treatment group was derived to demonstrate a percentage of immune reactivity in either the liquid or lyophilized formulations of palivizumab of \<2-3% based on 95% confidence intervals \[(0%; 0.00, 1.83), (0.5%; 0.01, 2.75), (1%; 0.12, 3.57)\].||1.5|0.0|
92409539|NCT00826202|184709484|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Mixed Models Analysis|cohen's d= 0.67||||||0.07
92409540|NCT00826202|184709485|SUPERIORITY_OR_OTHER|||||||0.056|TWO_SIDED||||||t-test, 2 sided|cohen's d=0.84||||||.056
92409541|NCT00826202|184709486|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Mixed Models Analysis|Cohen's d=0.68||||||0.03
92409542|NCT00826202|184709487|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Mixed Models Analysis|cohen's d=0.93||||||0.12
92409543|NCT00494676|184709488|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.2|||=|0.001|TWO_SIDED|95.0|1.8|21.0|||McNemar||The marginal odds ratio based on discordant pairs was computed.|The analysis used a McNemar test for data combined across both periods of the crossover. We estimated that 70% and 35% of participants would say yes to the real and sham prisms, respectively. For a 2-tailed test, the minimum sample size to detect a 35% difference in yes responses to real and sham prisms was 57 participants, assuming 30% overlap (30% said yes to both pairs of glasses), power of 90% and α of 1%. Assuming an attrition rate of 20%, we planned to enroll 68 participants.||21.0|1.8|= 0.001
92409544|NCT00494676|184709489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|2.6|=|0.09|TWO_SIDED|95.0|-0.1|1.3|||t-test, 2 sided|||Mobility improvement scores were normally distributed. A paired t-test was used to conduct a within-subjects comparison of the crossover differences in mobility scores between real and sham prism glasses. An alpha level of 5% was used to indicate statistical significance for secondary analyses||1.3|-0.1|= 0.09
92409545|NCT00494676|184709490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|2.7|=|0.002|TWO_SIDED|95.0|0.7|3.0|||t-test, 2 sided|||||3.0|0.7|= 0.002
92374788|NCT02308163|184651819|SUPERIORITY||Odds Ratio (OR)|3.82|||<|0.001||95.0|2.11|6.93||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good or Moderate Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||6.93|2.11|<0.001
92409546|NCT00494676|184709491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|2.1|=|0.21|TWO_SIDED|95.0|-1.2|0.3|||t-test, 2 sided|||||0.3|-1.2|= 0.21
92409547|NCT04073225|184709492|SUPERIORITY||Mean Difference (Net)|-33.8||||0.323|TWO_SIDED|95.0|-100.9|33.2|||Mixed Models Analysis|||Mixed effects models were fit including fixed effects for intervention arm, visit (baseline, 12 week) and intervention by visit interaction; and random intercepts and slopes for each participant.||33.2|-100.9|.323
92409548|NCT04073225|184709493|SUPERIORITY||Mean Difference (Net)|-81.3||||0.057|TWO_SIDED|95.0|-165.2|2.5|||Mixed Models Analysis|||Mixed effects models were fit including fixed effects for intervention arm, visit (baseline, 12 week) and intervention by visit interaction; and random intercepts and slopes for each participant.||2.5|-165.2|.057
92374789|NCT02308163|184651819|SUPERIORITY||Odds Ratio (OR)|13.65|||<|0.001|TWO_SIDED|95.0|6.39|29.17||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good or Moderate Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||29.17|6.39|<0.001
92169079|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1||0.0002|TWO_SIDED|95.0|-0.57|-0.18|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.18|-0.57|0.0002
92169080|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.64|-0.25|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.25|-0.64|<0.0001
92169081|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.0238|TWO_SIDED|95.0|-0.44|-0.03|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.03|-0.44|0.0238
92169082|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.11||0.0011|TWO_SIDED|95.0|-0.55|-0.14|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.14|-0.55|0.0011
92229348|NCT00619957|184361255|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.1|||<|0.0001|TWO_SIDED|95.0|-25.61|-16.59|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-16.59|-25.61|<0.0001
92229349|NCT00619957|184361256|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.39|||<|0.0001|TWO_SIDED|95.0|-27.8|-16.98|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-16.98|-27.80|<0.0001
92409549|NCT04073225|184709494|SUPERIORITY||Mean Difference (Net)|3.1||||0.047|TWO_SIDED|95.0|0.03|6.08|||Mixed Models Analysis|||Mixed effects models were fit including fixed effects for intervention arm, visit (baseline, 12 week) and intervention by visit interaction; and random intercepts and slopes for each participant.||6.08|0.03|.047
92409550|NCT04073225|184709495|SUPERIORITY||Mean Difference (Net)|0.59||||0.565|TWO_SIDED|95.0|-1.4|2.6|||Mixed Models Analysis|||Mixed effects models were fit including fixed effects for intervention arm, visit (baseline, 12 week) and intervention by visit interaction; and random intercepts and slopes for each participant.||2.6|-1.4|.565
92409551|NCT04073225|184709496|SUPERIORITY||Mean Difference (Net)|1.27|STANDARD_ERROR_OF_MEAN|0.825||0.147|TWO_SIDED|95.0|-0.5|3.03|||t-test, 2 sided|||||3.03|-0.50|0.147
92409552|NCT04073225|184709497|SUPERIORITY||Mean Difference (Net)|99.4||||0.605|TWO_SIDED|95.0|-334.3|533.0|||t-test, 2 sided|||We conducted t-tests of differences in volumetric change comparing intervention to control arms.||533.0|-334.3|.605
92409553|NCT04073225|184709498|SUPERIORITY||Mean Difference (Net)|130.8||||0.59|TWO_SIDED|95.0|-259.7|248.6|||t-test, 2 sided|||We conducted t-tests of differences in volumetric change comparing intervention to control arms.||248.6|-259.7|.590
92409554|NCT04073225|184709499|SUPERIORITY||Mean Difference (Net)|-24.72|STANDARD_ERROR_OF_MEAN|73.85||0.743|TWO_SIDED|95.0|-183.11|133.68|||t-test, 2 sided|||||133.68|-183.11|.743
92409555|NCT04073225|184709500|SUPERIORITY||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|3.13||0.731|TWO_SIDED|95.0|-7.91|5.71|||t-test, 2 sided|||||5.71|-7.91|0.731
92229350|NCT00619957|184361257|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.15|||<|0.0001|TWO_SIDED|95.0|-39.84|-16.47|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-16.47|-39.84|<0.0001
92240220|NCT03008590|184383895|SUPERIORITY|||||||0.02||||||Although significance was pre-specified at P\<0.05, it is suspected that this result is spurious due to multiple comparisons|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.02
92240221|NCT03008590|184383896|SUPERIORITY|||||||0.3||||||Significance pre-specified at P\<0.05|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.3
92374790|NCT02308163|184651825|SUPERIORITY||LS Mean|-9.94|STANDARD_ERROR_OF_MEAN|1.89|<|0.001|TWO_SIDED|95.0|-13.66|-6.22||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SDAI Change = Treatment + Baseline SDAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-6.22|-13.66|<0.001
92374791|NCT02308163|184651825|SUPERIORITY||Odds Ratio (OR)|-14.43|STANDARD_ERROR_OF_MEAN|1.66|<|0.001|TWO_SIDED|95.0|-17.71|-11.15||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SDAI Change = Treatment + Baseline SDAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-11.15|-17.71|<0.001
92374792|NCT02308163|184651829|SUPERIORITY||LS mean|-8.69|STANDARD_ERROR_OF_MEAN|1.77|<|0.001|TWO_SIDED|95.0|-12.19|-5.2||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|ANCOVA||Based on ANCOVA Model: CDAI Change = Treatment + Baseline CDAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-5.20|-12.19|<0.001
92374793|NCT02308163|184651829|SUPERIORITY||LS mean|-12.83|STANDARD_ERROR_OF_MEAN|1.58|<|0.001|TWO_SIDED|95.0|-15.96|-9.71||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|ANCOVA||Based on ANCOVA Model: CDAI Change = Treatment + Baseline CDAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-9.71|-15.96|<0.001
92374794|NCT02308163|184651831|SUPERIORITY||LS mean|-15.2|STANDARD_ERROR_OF_MEAN|3.14|<|0.001|TWO_SIDED|95.0|-21.4|-9.0||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: PGA (100 mm VAS) Change = Treatment + Baseline PGA (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-9.00|-21.40|<0.001
92374795|NCT02308163|184651831|SUPERIORITY||LS mean|-23.14|STANDARD_ERROR_OF_MEAN|2.86|<|0.001|TWO_SIDED|95.0|-28.78|-17.51||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: PGA (100 mm VAS) Change = Treatment + Baseline PGA (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-17.51|-28.78|<0.001
92374796|NCT02308163|184651833|SUPERIORITY||LS mean|-16.88|STANDARD_ERROR_OF_MEAN|3.51|<|0.001|TWO_SIDED|95.0|-23.81|-9.95||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SGA (100 mm VAS) Change = Treatment + Baseline SGA (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-9.95|-23.81|<0.001
92374797|NCT02308163|184651833|SUPERIORITY||LS mean|-23.56|STANDARD_ERROR_OF_MEAN|3.18|<|0.001|TWO_SIDED|95.0|-29.83|-17.28||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SGA (100 mm VAS) Change = Treatment + Baseline SGA (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-17.28|-29.83|<0.001
92374798|NCT02308163|184651835|SUPERIORITY||LS mean|-17.58|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-24.36|-10.81||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SGA of pain (100 mm VAS) Change = Treatment + Baseline SGA of pain (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-10.81|-24.36|<0.001
92240222|NCT03008590|184383897|SUPERIORITY|||||||0.04||||||Although significance was pre-specified at P\<0.05, it is suspected that this result is spurious due to multiple comparisons|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.04
92240223|NCT03008590|184383898|SUPERIORITY|||||||0.78||||||Significance pre-specified at P\<0.05|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.78
92374799|NCT02308163|184651835|SUPERIORITY||LS mean|-23.9|STANDARD_ERROR_OF_MEAN|3.21|<|0.001|TWO_SIDED|95.0|-30.24|-17.57||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SGA of pain (100 mm VAS) Change = Treatment + Baseline SGA of pain (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-17.57|-30.24|<0.001
92409556|NCT05767749|184709566|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.93|TWO_SIDED|95.0|-12.8|14.0|||t-test, 2 sided||Direction = (Lidocaine + epinephrine vs Ropivacaine) minus (Lidocaine + epinephrine vs Bupivacaine)|||14.0|-12.8|0.93
92409557|NCT05767749|184709566|SUPERIORITY||Mean Difference (Final Values)|3.73||||0.54|TWO_SIDED|95.0|-8.3|15.8|||t-test, 2 sided||Direction = (Lidocaine + epinephrine vs Ropivacaine) minus (Ropivacaine vs Bupivacaine)|||15.8|-8.3|0.54
92409558|NCT05767749|184709566|SUPERIORITY||Mean Difference (Final Values)|3.12||||0.6|TWO_SIDED|95.0|-8.7|15.0|||t-test, 2 sided||Direction = (Lidocaine + epinephrine vs Bupivacaine) minus (Ropivacaine vs Bupivacaine)|||15.0|-8.7|0.60
92409559|NCT04236141|184709580|SUPERIORITY||Difference in Response Rates|10.71|||||TWO_SIDED|95.0|-19.0|40.43||||||||40.43|-19.00|
92374800|NCT02308163|184651837|SUPERIORITY|||||||0.033||||||No Multiplicity Adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Fisher Exact|||Treatment Difference vs Placebo||||0.033
92374801|NCT02308163|184651837|SUPERIORITY|||||||0.035||||||No Multiplicity Adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Fisher Exact|||Treatment Difference vs Placebo||||0.035
92374802|NCT02308163|184651838|SUPERIORITY||LS mean|-0.34|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.48|-0.2||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: HAQ-DI Change = Treatment + Baseline HAQ-DI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea., and Taiwan)|Treatment Difference vs Placebo||-0.20|-0.48|<0.001
92374803|NCT02308163|184651838|SUPERIORITY||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.53|-0.26||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: HAQ-DI Change = Treatment + Baseline HAQ-DI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea., and Taiwan)|Treatment Difference vs Placebo||-0.26|-0.53|<0.001
92374804|NCT02308163|184651840|SUPERIORITY||LS mean|6.87|STANDARD_ERROR_OF_MEAN|1.61|<|0.001|TWO_SIDED|95.0|3.69|10.05||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||10.05|3.69|<0.001
92374805|NCT02308163|184651840|SUPERIORITY||LS mean|6.98|STANDARD_ERROR_OF_MEAN|1.45|<|0.001|TWO_SIDED|95.0|4.11|9.85||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||9.85|4.11|<0.001
92374806|NCT02308163|184651842|SUPERIORITY||LS mean|2.89|STANDARD_ERROR_OF_MEAN|1.0||0.004|TWO_SIDED|95.0|0.91|4.87||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||4.87|0.91|0.004
92374807|NCT02308163|184651842|SUPERIORITY||LS mean|3.25|STANDARD_ERROR_OF_MEAN|0.98||0.001|TWO_SIDED|95.0|1.3|5.19||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||5.19|1.30|0.001
92409560|NCT04236141|184709581|SUPERIORITY||Difference in Response Rates|7.14|||||TWO_SIDED|95.0|-22.03|36.31||||||||36.31|-22.03|
92409561|NCT04236141|184709582|SUPERIORITY||Difference in Response Rates|14.29|||||TWO_SIDED|95.0|-15.89|44.46||||||||44.46|-15.89|
92409562|NCT04236141|184709583|SUPERIORITY||Difference in Response Rates|21.43|||||TWO_SIDED|95.0|-9.44|52.3||||||||52.30|-9.44|
92409563|NCT04236141|184709584|SUPERIORITY||Difference in Response Rates|17.86|||||TWO_SIDED|95.0|-1.69|37.4||||||||37.40|-1.69|
92409564|NCT04236141|184709585|SUPERIORITY||Difference in Response Rates|17.86|||||TWO_SIDED|95.0|-1.69|37.4||||||||37.40|-1.69|
92409565|NCT04236141|184709586|SUPERIORITY||Difference in Response Rates|17.86|||||TWO_SIDED|95.0|-12.7|48.42||||||||48.42|-12.70|
92409566|NCT04236141|184709587|SUPERIORITY||Difference in Response Rates|14.29|||||TWO_SIDED|95.0|-15.89|44.46||||||||44.46|-15.89|
92409567|NCT04236141|184709588|SUPERIORITY||Difference in Response Rates|25.0|||||TWO_SIDED|95.0|-10.38|60.38||||||||60.38|-10.38|
92409568|NCT04236141|184709589|SUPERIORITY||Difference in Response Rates|3.57|||||TWO_SIDED|95.0|-33.84|40.98||||||||40.98|-33.84|
92409569|NCT04838977|184709665|SUPERIORITY||Between group difference|-4.2|||||TWO_SIDED|95.0|-7.6|-0.8||||||The null hypothesis is there is no difference in mean CPSS at 10 weeks in the intervention group versus the control group.||-0.8|-7.6|
92409570|NCT05367492|184709675|SUPERIORITY||Odds Ratio (OR)|6.5|||<|0.001|TWO_SIDED|95.0|3.0|14.1|||Regression, Logistic|Model fit to data from varenicline and placebo groups only, adjusted for sex and baseline E-cigarette Dependence Inventory score.|Adjusted odds ratio comparing varenicline (numerator) versus placebo (denominator).|||14.1|3.0|<0.001
92409571|NCT05367492|184709675|SUPERIORITY||||||<|0.001||||||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the primary outcome measure. Effects were deemed significant for p\<0.05.|Regression, Logistic|Omnibus tests for any difference in abstinence rates across study groups, based on χ² Wald statistic and adjusted for sex and baseline ECDI score.||||||<0.001
92229351|NCT00619957|184361258|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.25|||<|0.0001|TWO_SIDED|95.0|-37.63|-16.87|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-16.87|-37.63|<0.0001
92229352|NCT00619957|184361259|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14||||0.8794|TWO_SIDED|95.0|-1.99|1.71|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.71|-1.99|0.8794
92229353|NCT00619957|184361260|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47||||0.6658|TWO_SIDED|95.0|-2.62|1.67|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.67|-2.62|0.6658
92240224|NCT03008590|184383899|SUPERIORITY|||||||0.92||||||Significance pre-specified at P\<0.05|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.92
92240225|NCT01323673|184383934|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||Cochran-Mantel-Haenszel (CMH) test stratified by center was used for analysis.|Cochran-Mantel-Haenszel|||||||0.151
92240226|NCT00051558|184383959|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline lumbar spine bone mineral density (BMD) measurement.||||<0.001
92374808|NCT02308163|184651844|SUPERIORITY||LS mean|2.27|STANDARD_ERROR_OF_MEAN|1.8||0.21|TWO_SIDED|95.0|-1.29|5.83||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||5.83|-1.29|0.210
92374809|NCT02308163|184651844|SUPERIORITY||LS mean|6.23|STANDARD_ERROR_OF_MEAN|1.77|<|0.001|TWO_SIDED|95.0|2.74|9.71||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||9.71|2.74|<0.001
92374810|NCT02308163|184651846|SUPERIORITY||LS mean|-8.55|STANDARD_ERROR_OF_MEAN|3.81||0.027|TWO_SIDED|95.0|-16.11|-1.0||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-1.00|-16.11|0.027
92374811|NCT02308163|184651846|SUPERIORITY||LS mean|-10.17|STANDARD_ERROR_OF_MEAN|3.88||0.01|TWO_SIDED|95.0|-17.88|-2.47||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-2.47|-17.88|0.010
92374812|NCT02308163|184651848|SUPERIORITY||LS mean|-20.67|STANDARD_ERROR_OF_MEAN|4.92|<|0.001|TWO_SIDED|95.0|-30.44|-10.89||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-10.89|-30.44|<0.001
92374813|NCT02308163|184651848|SUPERIORITY||LS mean|-22.01|STANDARD_ERROR_OF_MEAN|5.06|<|0.001|TWO_SIDED|95.0|-32.06|-11.97||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-11.97|-32.06|<0.001
92374814|NCT02308163|184651850|SUPERIORITY||LS mean|-20.22|STANDARD_ERROR_OF_MEAN|5.12|<|0.001|TWO_SIDED|95.0|-30.38|-10.06||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-10.06|-30.38|<0.001
92409572|NCT05367492|184709676|SUPERIORITY||Odds Ratio (OR)|6.1|||<|0.001|TWO_SIDED|95.0|3.1|12.3||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of five secondary analysis results (Varenicline vs Placebo comparisons of secondary abstinence outcomes, and omnibus tests of all three abstinence outcomes).|Regression, Logistic|Model fit to data from varenicline and placebo groups only, adjusted for sex and baseline E-cigarette Dependence Inventory score.|Adjusted odds ratio comparing varenicline (numerator) versus placebo (denominator).|||12.3|3.1|<0.001
92229354|NCT00619957|184361261|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29||||0.784|TWO_SIDED|95.0|-2.39|1.81|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.81|-2.39|0.7840
92229355|NCT00619957|184361262|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Controlled for pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||||<0.0001
92240227|NCT00051558|184383960|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline lumbar spine bone mineral density (BMD) measurement.||||<0.001
92374815|NCT02308163|184651850|SUPERIORITY||LS mean|-23.67|STANDARD_ERROR_OF_MEAN|5.28|<|0.001|TWO_SIDED|95.0|-34.16|-13.17|||Covariance model|No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-13.17|-34.16|<0.001
92374816|NCT02308163|184651852|SUPERIORITY||LS mean|-17.3|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-24.0|-10.61||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-10.61|-24.00|<0.001
92374817|NCT02308163|184651852|SUPERIORITY||LS mean|-20.41|STANDARD_ERROR_OF_MEAN|3.13|<|0.001|TWO_SIDED|95.0|-26.59|-14.24||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-14.24|-26.59|<0.001
92374818|NCT00443053|184651859|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.15|||<|0.001|TWO_SIDED|95.0|0.08|0.26|||Fisher Exact|||||0.26|0.08|<0.001
92374819|NCT00443053|184651860|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.19|||<|0.001|TWO_SIDED|95.0|0.12|0.32|||Fisher Exact|||||0.32|0.12|<0.001
92374820|NCT00522418|184651871|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||F Test|||||||.01
92374821|NCT00522418|184651874|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||F-Test|||||||0.17
92374822|NCT00522418|184651877|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||F-Test|||||||0.17
92240228|NCT00051558|184383961|SUPERIORITY_OR_OTHER|||||||0.058||95.0||||P-value for Month 3|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.058
92374823|NCT00522418|184651878|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||F-Test|||||||0.28
92374824|NCT00522418|184651879|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||F-Test|||||||0.03
92374825|NCT00522418|184651880|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||F-Test|||||||0.26
92374826|NCT02438683|184651893|OTHER||Slope|0.0029|||||TWO_SIDED|95.0|0.0012|0.0046||||The covariance structure is No diagonal Factor Analytic FA0(2).||The regression model with response variable placebo-corrected HR change from baseline (ddHR) and independent variable Plasma concentration includes a fixed slope effect as well as random intercept and slope estimates for each subject. (Primary analysis).||0.0046|0.0012|
92374827|NCT02438683|184651894|OTHER||Mean Difference (Net)|3.85|STANDARD_ERROR_OF_MEAN|1.75|||TWO_SIDED|90.0|0.73|6.97||||For the repeated effect 'time', the covariance structure was chosen to be unstructured.|Mean Difference (Net) is actually the adjusted mean difference calculated as BI 409306 50 mg minus Placebo.|The a repeated measures model included 'period baseline', 'subject baseline' (defined as the arithmetic mean of the 2 period baselines), 'treatment', 'baseline\*time' interaction, 'treatment\*time' interaction and 'time' as fixed effects and subject as random effect (Primary analysis).||6.97|0.73|
92374828|NCT02438683|184651895|OTHER||Mean Difference (Net)|4.93|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|90.0|1.69|8.16||||For the repeated effect 'time', the covariance structure was chosen to be unstructured.|Mean Difference (Net) is actually the adjusted mean difference calculated as BI 409306 200 mg minus Placebo.|The a repeated measures model included 'period baseline', 'subject baseline' (defined as the arithmetic mean of the 2 period baselines), 'treatment', 'baseline\*time' interaction, 'treatment\*time' interaction and 'time' as fixed effects and subject as random effect (Primary analysis).||8.16|1.69|
92240229|NCT00051558|184383961|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 6 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92374829|NCT02438683|184651896|OTHER||Slope|0.0011|||||TWO_SIDED|95.0|-0.0009|0.003||||The covariance structure is No diagonal Factor Analytic FA0(2).||The regression model with response variable placebo-corrected QTcF change from baseline (ddQTcF) and independent variable. Plasma concentration includes a fixed slope effect as well as random intercept and slope estimates for each subject (Primary analysis). The covariance structure is No diagonal Factor Analytic FA0(2).||0.0030|-0.0009|
92409573|NCT05367492|184709676|SUPERIORITY||||||<|0.001||||||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of five secondary analysis results (Varenicline vs Placebo comparisons of secondary abstinence outcomes, and omnibus tests of all three abstinence outcomes).|Regression, Logistic|Omnibus tests for any difference in abstinence rates across study groups, based on χ² Wald statistic and adjusted for sex and baseline ECDI score.||||||<0.001
92409574|NCT05367492|184709677|SUPERIORITY||Odds Ratio (OR)|6.0||||0.001|TWO_SIDED|95.0|2.1|16.9||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of five secondary analysis results (Varenicline vs Placebo comparisons of secondary abstinence outcomes, and omnibus tests of all three abstinence outcomes).|Regression, Logistic|Model fit to data from varenicline and placebo groups only, adjusted for sex and baseline E-cigarette Dependence Inventory score.|Adjusted odds ratio comparing varenicline (numerator) versus placebo (denominator).|||16.9|2.1|0.001
92374830|NCT02438683|184651897|OTHER||Mean Difference (Net)|4.54|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|90.0|3.39|5.7||||For the repeated effect 'time', the covariance structure was chosen to be unstructured.|Mean Difference (Net) is actually the adjusted mean difference calculated as BI 409306 50 mg minus Placebo.|The a repeated measures model included 'period baseline', 'subject baseline' (defined as the arithmetic mean of the 2 period baselines), 'treatment', 'baseline\*time' interaction, 'treatment\*time' interaction and 'time' as fixed effects and subject as random effect (Primary analysis).||5.70|3.39|
92374831|NCT02438683|184651898|OTHER||Mean Difference (Net)|4.73|STANDARD_ERROR_OF_MEAN|1.99|||TWO_SIDED|90.0|1.34|8.13||||For the repeated effect 'time', the covariance structure was chosen to be unstructured.|Mean Difference (Net) is actually the adjusted mean difference calculated as BI 409306 200 mg minus Placebo.|The a repeated measures model included 'period baseline', 'subject baseline' (defined as the arithmetic mean of the 2 period baselines), 'treatment', 'baseline\*time' interaction, 'treatment\*time' interaction and 'time' as fixed effects and subject as random effect (Primary analysis).||8.13|1.34|
92374832|NCT02438683|184651899|OTHER||Slope|0.0054|||||TWO_SIDED|95.0|0.0032|0.0076||||The covariance structure is Unstructured.||The regression model with response variable placebo-corrected max HR (dHR) and independent variable Plasma concentration includes a fixed slope effect as well as random intercept and slope estimates for each subject. (Primary analysis)||0.0076|0.0032|
92374833|NCT02438683|184651900|OTHER||Slope|-0.0014|||||TWO_SIDED|95.0|-0.0036|0.0008||||The covariance structure is Unstructured.||The regression model with response variable placebo-corrected change from max HR to recovery HR (ddHR) and independent variable Plasma concentration includes a fixed slope effect as well as random intercept estimates for each subject (Primary analysis).||0.0008|-0.0036|
92374834|NCT02438683|184651900|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.0029|||||TWO_SIDED|95.0|-0.0052|-0.0007||||The covariance structure is Unstructured.||The regression model with response variable placebo-corrected change from max HR to recovery HR (ddHR) and independent variable Plasma concentration includes a fixed slope effect as well as random intercept estimates for each subject (Primary analysis).||-0.0007|-0.0052|
92374835|NCT02825420|184651908|SUPERIORITY|||||||0.007|||||||Log Rank|||||||0.007
92374836|NCT02825420|184651909|SUPERIORITY|||||||0.58|||||||Log Rank|||||||0.58
92374837|NCT02825420|184651910|SUPERIORITY|||||||0.62|||||||Log Rank|||||||0.62
92374838|NCT02825420|184651912|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.010
92374839|NCT02825420|184651914|SUPERIORITY|||||||0.048|||||||Log Rank|||||||0.048
92374840|NCT02825420|184651915|SUPERIORITY|||||||0.51|||||||Log Rank|||||||0.51
92374841|NCT01007435|184652033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.77|||<|0.0001|TWO_SIDED|95.0|3.19|7.14||A hierarchy of statistical testing was implemented in order to control the type I error rate for multiple comparisons.|Regression, Logistic|The stratification factors, region and serologic status, were included in the model.|"Last observation carried forward was used for TJC and SJC. No imputation was used for ESR and GH. Patients who withdrew prematurely or where a DAS28 could not be calculated were set to non-responder."|The null hypothesis is that there is no difference in the DAS28 remission response at Week 24 between the placebo to tocilizumab + methotrexate and the tocilizumab 8 mg/kg + methotrexate treatment groups.||7.14|3.19|<0.0001
92409575|NCT05367492|184709677|SUPERIORITY||||||<|0.001||||||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of five secondary analysis results (Varenicline vs Placebo comparisons of secondary abstinence outcomes, and omnibus tests of all three abstinence outcomes).|Regression, Logistic|Omnibus tests for any difference in abstinence rates across study groups, based on χ² Wald statistic and adjusted for sex and baseline ECDI score.||||||<0.001
92409576|NCT05367492|184709678|SUPERIORITY||Mean Difference (Net)|-1.88||||0.001|TWO_SIDED|95.0|-2.93|-0.83||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Varenicline vs Placebo comparisons of secondary inventory outcomes).|Regression, Linear|Models fit to data from varenicline and placebo groups only using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic trend of time.|Adjusted mean difference comparing varenicline versus placebo. Negative indicates larger mean in placebo.|||-0.83|-2.93|0.001
92240230|NCT00051558|184383961|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 12 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92409577|NCT05367492|184709678|SUPERIORITY||||||<|0.001||||||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Varenicline vs Placebo comparisons of secondary inventory outcomes).|Regression, Linear|Models fit using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic time. Omnibus Wald test of any difference across study group.||||||<0.001
92409578|NCT05367492|184709679|SUPERIORITY||Mean Difference (Net)|-6.76|||<|0.001|TWO_SIDED|95.0|-9.08|-4.45||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Varenicline vs Placebo comparisons of secondary inventory outcomes).|Regression, Linear|Models fit to data from varenicline and placebo groups only using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic trend of time.|Adjusted mean difference comparing varenicline versus placebo. Negative indicates larger mean in placebo.|||-4.45|-9.08|<0.001
92229356|NCT00619957|184361263|SUPERIORITY_OR_OTHER||Relative Risk|0.771||||0.7284||95.0|0.184|3.226|||Log Rank|||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||3.226|0.184|0.7284
92409579|NCT05367492|184709679|SUPERIORITY||||||<|0.001||||||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Omnibus tests of secondary inventory outcomes).|Regression, Linear|Models fit using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic time. Omnibus Wald test of any difference across study groups.||||||<0.001
92229357|NCT00619957|184361264|SUPERIORITY_OR_OTHER||Relative Risk|0.688||||0.5293|TWO_SIDED|95.0|0.245|1.932|||Log Rank|||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.932|0.245|0.5293
92229358|NCT00723957|184361265|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04|||||ONE_SIDED|90.0||1.41|||Regression, Cox|||||1.41||
92374842|NCT01007435|184652033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.7|||<|0.0001|TWO_SIDED|95.0|2.47|5.55||A hierarchy of statistical testing was implemented in order to control the type I error rate for multiple comparisons.|Regression, Logistic|The stratification factors, region and serologic status, were included in the model.|"Last observation carried forward was used for TJC and SJC. No imputation was used for ESR and GH. Patients who withdrew prematurely or where a DAS28 could not be calculated were set to non-responder."|The null hypothesis is that there is no difference in the DAS28 remission response at Week 24 between the placebo to tocilizumab + methotrexate and the tocilizumab 8 mg/kg + placebo to methotrexate treatment groups.||5.55|2.47|<0.0001
92374843|NCT01007435|184652033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.72|||<|0.0001|TWO_SIDED|95.0|1.8|4.11||A hierarchy of statistical testing was implemented in order to control the type I error rate for multiple comparisons. This comparison came after the break in statistical hierarchy.|Regression, Logistic|The stratification factors, region and serologic status, were included in the model.|"Last observation carried forward was used for TJC and SJC. No imputation was used for ESR and GH. Patients who withdrew prematurely or where a DAS28 could not be calculated were set to non-responder."|The null hypothesis is that there is no difference in the DAS28 remission response at Week 24 between the placebo to tocilizumab + methotrexate and the tocilizumab 4 mg/kg + methotrexate treatment groups.||4.11|1.80|<0.0001
92374844|NCT03520348|184652108|NON_INFERIORITY|It is considered less than 20% of differences between groups to consider non-inferiority||||||0.285|||||||Wilcoxon (Mann-Whitney)|||||||0.285
92374845|NCT03520348|184652109|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.680
92374846|NCT03520348|184652110|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.839|||||||Wilcoxon (Mann-Whitney)|||||||0.839
92374847|NCT03520348|184652111|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.137|||||||Wilcoxon (Mann-Whitney)|||||||0.137
92374848|NCT03520348|184652113|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.667|||||||Chi-squared, Corrected|||||||0.667
92374849|NCT03520348|184652114|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.561|||||||Chi-squared, Corrected|||||||0.561
92374850|NCT03520348|184652115|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||1|||||||Chi-squared|||||||1.000
92374851|NCT03520348|184652116|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.317|||||||Chi-squared, Corrected|||||||0.317
92374852|NCT03520348|184652117|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.414|||||||Chi-squared, Corrected|||||||0.414
92169083|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.11||0.0064|TWO_SIDED|95.0|-0.51|-0.08|||ANCOVA|||Week 20: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.08|-0.51|0.0064
92169084|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.11||0.0025|TWO_SIDED|95.0|-0.54|-0.12|||ANCOVA|||Week 20: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.12|-0.54|0.0025
92229359|NCT00723957|184361265|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5735|||||||Log Rank|||P-value is 1-sided||||0.5735
92229360|NCT00723957|184361266|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78|||||ONE_SIDED|90.0||1.1|||Regression, Cox|||||1.10||
92374853|NCT02292758|184652118|SUPERIORITY||Hazard Ratio (HR)|0.912||||0.7609|TWO_SIDED|95.0|0.431|1.93|||Log Rank||Unadjusted HR; Model stratified by: prior bevacizumab (Y vs N) and prior lines of chemotherapy (1 vs 2+)|||1.930|0.431|0.7609
92374854|NCT02292758|184652118|SUPERIORITY||Hazard Ratio (HR)|0.642|||||TWO_SIDED|95.0|0.249|1.656|||||Adjusted HR; Model adjusted by: age, gender, race (white vs others), number of metastatic sites (1 vs 2 vs 3+), ECOG PS (0 vs 1), tumor site (colon, rectum/rectosigmoid, multiple)|||1.656|0.249|
92374855|NCT02292758|184652121|SUPERIORITY||Hazard Ratio (HR)|0.471||||0.0446|TWO_SIDED|95.0|0.209|1.062|||Log Rank||Unadjusted HR; Model stratified by: prior bevacizumab (Y vs N) and prior lines of chemotherapy (1 vs 2+)|||1.062|0.209|0.0446
92374856|NCT02292758|184652121|SUPERIORITY||Hazard Ratio (HR)|0.406|||||TWO_SIDED|95.0|0.151|1.089|||||Adjusted HR; Model adjusted by: age, gender, race (white vs others), number of metastatic sites (1 vs 2 vs 3+), ECOG PS (0 vs 1), tumor site (colon, rectum/rectosigmoid, multiple)|||1.089|0.151|
92374857|NCT02292758|184652123|SUPERIORITY|||||||0.3415|||||||Chi-squared|||||||0.3415
92374858|NCT02292758|184652124|SUPERIORITY|||||||0.1279|||||||Fisher Exact|||||||0.1279
92374859|NCT02292758|184652125|SUPERIORITY|||||||0.447|||||||Log Rank|||||||0.447
92374860|NCT02292758|184652126|SUPERIORITY||Hazard Ratio (HR)|0.755||||0.3738|TWO_SIDED|95.0|0.345|1.655|||Log Rank||Unadjusted HR; Model stratified by: prior bevacizumab (Y vs N) and prior lines of chemotherapy (1 vs 2+)|||1.655|0.345|0.3738
92374861|NCT02292758|184652127|SUPERIORITY|||||||0.4283|||||||Wilcoxon (Mann-Whitney)|||Cetuximab comparison||||0.4283
92374862|NCT02292758|184652127|SUPERIORITY|||||||0.5262|||||||Wilcoxon (Mann-Whitney)|||Irinotecan comparison||||0.5262
92374863|NCT01437098|184652130|SUPERIORITY_OR_OTHER||Proportion of IF Implanted Subjects|91.7|||<|0.001|TWO_SIDED|95.0|77.5|98.2|||Exact binomial|||||98.2|77.5|<0.001
92280411|NCT04684524|184463488|SUPERIORITY||LS Mean Difference|-80.72|||<|0.0001|TWO_SIDED|95.0|-112.82|-48.61|||ANCOVA|||Each of the imputed complete data were analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, time from last surgery (\<=2 years, \>2 years), and region (Americas and Asia) as covariates.||-48.61|-112.82|<0.0001
92374864|NCT00385944|184652178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.91|||<|0.001|TWO_SIDED|95.0|-17.02|-8.81|||Mixed Models Analysis|||||-8.81|-17.02|<0.001
92374865|NCT00385944|184652179|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.81|||<|0.001|TWO_SIDED|95.0|-10.96|-4.65|||Mixed Models Analysis|||||-4.65|-10.96|<0.001
92374866|NCT00385944|184652180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.98|||<|0.001|TWO_SIDED|95.0|-17.06|-6.9|||Mixed Models Analysis|||||-6.90|-17.06|<0.001
92374867|NCT00385944|184652181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.3||||0.001|TWO_SIDED|95.0|-6.84|-1.76|||Mixed Models Analysis|||||-1.76|-6.84|0.001
92374868|NCT00385944|184652182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.16|||<|0.001|TWO_SIDED|95.0|7.05|23.26|||Mixed Models Analysis|||||23.26|7.05|<0.001
92374869|NCT00385944|184652183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.69||||0.001|TWO_SIDED|95.0|5.56|19.81|||Mixed Models Analysis|||||19.81|5.56|0.001
92374870|NCT00385944|184652184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.26||||0.015|TWO_SIDED|95.0|2.17|18.34|||Mixed Models Analysis|||||18.34|2.17|0.015
92409580|NCT05367492|184709680|SUPERIORITY||Mean Difference (Net)|-1.78||||0.008|TWO_SIDED|95.0|-3.08|-0.48||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Varenicline vs Placebo comparisons of secondary inventory outcomes).|Regression, Linear|Models fit to data from varenicline and placebo groups only using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic trend of time.|Adjusted mean difference comparing varenicline versus placebo. Negative indicates larger mean in placebo.|||-0.48|-3.08|0.008
92409581|NCT05367492|184709680|SUPERIORITY|||||||0.02||||||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Omnibus Wald test of secondary inventory outcomes).|Regression, Linear|Models fit using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic time. Omnibus Wald test of any difference across study groups.||||||0.02
92409582|NCT05367492|184709681|SUPERIORITY|||||||0.16|||||||Fisher Exact|||||||0.16
92409583|NCT05367492|184709681|SUPERIORITY|||||||0.083|||||||Fisher Exact|||||||0.083
92409584|NCT00353470|184709682|SUPERIORITY||shared parameters model|-0.56|STANDARD_ERROR_OF_MEAN|0.29|>|0.16|TWO_SIDED||||||Chi-squared|||Power: to detect a between-group effect size of 0.45, for statistical power of 0.80, 56 patients for PFPP or CBT vs. 28 for ART were required. Response rates at termination were calculated by chi-square in the full ITT sample using LOCF.||||>0.16
92409585|NCT00353470|184709682|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
92409586|NCT00950859|184709690|SUPERIORITY_OR_OTHER||percentage of participants|78.0|||||TWO_SIDED|95.0|58.0|91.0|||||The estimated value represents the percentage of participants with HIV-1 RNA \<400 c/mL or at least 0.7 log10 c/mL below their Baseline value at Day 11.|||91|58|
92374871|NCT00385944|184652185|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.85||||0.123|TWO_SIDED|95.0|-1.13|8.84|||Mixed Models Analysis|||||8.84|-1.13|0.123
92374872|NCT00385944|184652186|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.83|||<|0.001|TWO_SIDED|95.0|-23.05|-10.62|||Mixed Models Analysis|||||-10.62|-23.05|<0.001
92374873|NCT00385944|184652187|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.44|||<|0.001|TWO_SIDED|95.0|-70.87|-38.01|||Mixed Models Analysis|||||-38.01|-70.87|<0.001
92374874|NCT00385944|184652189|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.5|||<|0.001||95.0|||||two-sided paired t-test|||||||<.001
92374875|NCT00385944|184652190|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0||||0.011||95.0|||||two-sided paired t-test|||Paired t-test for each arm separately||||0.011
92374876|NCT00385944|184652190|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.847||95.0|||||two-sided paired t-test|||Paired t-test for each arm separately||||0.847
92374877|NCT00385944|184652191|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.24||||0.008|TWO_SIDED|95.0|-15.99|-2.49|||t-test, 2 sided|||||-2.49|-15.99|0.008
92374878|NCT00385944|184652192|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.52|||<|0.001|TWO_SIDED|95.0|9.22|25.83|||t-test, 2 sided|||||25.83|9.22|<0.001
92374879|NCT00823212|184652196|NON_INFERIORITY_OR_EQUIVALENCE|A 2-group Farrington-Manning test was used to test the 1-sided hypothesis of non-inferiority in differences with a non-inferiority margin of 3.5%. A p value \<0.05 would indicate non-inferiority and correspond to the upper limit of the 1-sided 95% confidence interval of the difference not exceeding 3.5%.|Difference in percent of participants|0.5||||0.001|ONE_SIDED|95.0||2.13|||Farrington-Manning test||The standard error for the difference was estimated according to the Farrington-Manning test.|Study had 89% statistical power to demonstrate non-inferiority for target lesion failure (TLF, accounting for an expected 1-year attrition rate of 5%), assuming a 1-year TLF rate of 5.5% for both stents.||2.13||0.001
92374880|NCT00521599|184652239|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|assume n=240 per group and standard deviation (STD) = 45 L/min for AM Peak Flow Rate at Week 8. If the two actives are the same, 95% CI of their mean difference has 90% probability to be completely within +/- 15 L/min.|Mean Difference (Net)|-1.62|STANDARD_DEVIATION|37.0||0.654|TWO_SIDED|95.0|-8.74|5.49|||ANOVA|||Week 8 End scores||5.49|-8.74|0.654
92374881|NCT00521599|184652239|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0|||||ANOVA|||Week 8 End scores||||0.003
92374882|NCT00521599|184652239|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||ANOVA|||Week 8 End scores||||0.001
92374883|NCT00496197|184652246|SUPERIORITY_OR_OTHER||percentage of participants|83.7|||||TWO_SIDED|95.0|78.7|88.8|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at EOT||88.8|78.7|
92409587|NCT00950859|184709690|SUPERIORITY_OR_OTHER||percentage of participants|96.0||||||95.0|79.0|100.0|||||The estimated value represents the percentage of participants with HIV-1 RNA \<400 c/mL or at least 0.7 log10 c/mL below their Baseline value at Day 11.|||100|79|
92409588|NCT00265148|184709708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1334||||0.1695|TWO_SIDED|95.0|-0.0583|0.3251|||Mixed model for repeated measures|||For Grey matter||0.3251|-0.0583|0.1695
92374884|NCT00496197|184652247|SUPERIORITY_OR_OTHER||percentage of participants|93.0|||||TWO_SIDED|95.0|89.4|96.7|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Clinical response of Success (cure or improvement) at EOT||96.7|89.4|
92374885|NCT00496197|184652248|SUPERIORITY_OR_OTHER||percentage of participants|95.3|||||TWO_SIDED|95.0|92.3|98.3|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Microbiological response of Success (eradication or presumed eradication) at EOT||98.3|92.3|
92374886|NCT00496197|184652249|SUPERIORITY_OR_OTHER||percentage of participants|88.5|||||TWO_SIDED|95.0|84.4|92.6|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at EOIV||92.6|84.4|
92374887|NCT00496197|184652250|SUPERIORITY_OR_OTHER||percentage of participants|93.1|||||TWO_SIDED|95.0|89.8|96.4|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Clinical response of Success (cure or improvement) at EOIV||96.4|89.8|
92374888|NCT00496197|184652251|SUPERIORITY_OR_OTHER||percentage of participants|92.6|||||TWO_SIDED|95.0|89.3|95.9|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Microbiological response of Success (eradication or presumed eradication) at EOIV||95.9|89.3|
92374889|NCT00496197|184652252|SUPERIORITY_OR_OTHER||percentage of participants|76.3|||||TWO_SIDED|95.0|70.3|82.3|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at Week 2 Follow-up||82.3|70.3|
92374890|NCT00496197|184652253|SUPERIORITY_OR_OTHER||percentage of participants|94.8|||||TWO_SIDED|95.0|91.5|98.1|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Clinical response of Success (cure or improvement) at Week 2 Follow-up||98.1|91.5|
92374891|NCT00496197|184652254|SUPERIORITY_OR_OTHER||percentage of participants|95.4|||||TWO_SIDED|95.0|92.2|98.5|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Microbiological response of Success (eradication or presumed eradication) at Week 2 Follow-up||98.5|92.2|
92374892|NCT00496197|184652255|SUPERIORITY_OR_OTHER||percentage of participants|70.1|||||TWO_SIDED|95.0|63.5|76.6|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at Week 6 Follow-up (EOS)||76.6|63.5|
92374893|NCT00496197|184652256|SUPERIORITY_OR_OTHER||percentage of participants|93.6|||||TWO_SIDED|95.0|89.7|97.4|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Clinical response of Success (cure or improvement) at Week 6 Follow-up (EOS)||97.4|89.7|
92409589|NCT00265148|184709708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.175||||0.1057|TWO_SIDED|95.0|-0.038|0.388|||Mixed model for repeated measures|||For posterior cingulate Gyrus||0.3880|-0.0380|0.1057
92409590|NCT00265148|184709708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1426||||0.1833|TWO_SIDED|95.0|-0.0691|0.3543|||Mixed model for repeated measures|||For Frontal lobe||0.3543|-0.0691|0.1833
92409591|NCT00265148|184709708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1366||||0.1644|TWO_SIDED|95.0|-0.0574|0.3307|||Mixed model for repeated measures|||For parietal lobe||0.3307|-0.0574|0.1644
92409592|NCT00265148|184709708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1259||||0.1509|TWO_SIDED|95.0|-0.0471|0.2989|||Mixed model for repeated measures|||For Posterior temporal lobe||0.2989|-0.0471|0.1509
92409593|NCT00265148|184709708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1339||||0.2041|TWO_SIDED|95.0|-0.0747|0.3424|||Mixed model for repeated measures|||For cerebellum||0.3424|-0.0747|0.2041
92374894|NCT00496197|184652257|SUPERIORITY_OR_OTHER||percentage of participants|93.6|||||TWO_SIDED|95.0|89.7|97.4|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Microbiological response of Success (eradication or presumed eradication) at Week 6 Follow-up (EOS)||97.4|89.7|
92374895|NCT00496197|184652258|SUPERIORITY_OR_OTHER||percentage of participants|82.5|||||TWO_SIDED|95.0|75.7|89.3|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at EOT||89.3|75.7|
92374896|NCT00496197|184652259|SUPERIORITY_OR_OTHER||percentage of participants|85.6|||||TWO_SIDED|95.0|79.8|91.4|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at EOIV||91.4|79.8|
92374897|NCT00496197|184652260|SUPERIORITY_OR_OTHER||percentage of participants|76.7|||||TWO_SIDED|95.0|69.0|84.4|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at Week 2 Follow-up||84.4|69.0|
92374898|NCT00496197|184652261|SUPERIORITY_OR_OTHER||percentage of participants|67.6|||||TWO_SIDED|95.0|58.9|76.3|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at Week 6 Follow-up (EOS)||76.3|58.9|
92409594|NCT00265148|184709708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1094||||0.1445|TWO_SIDED|95.0|-0.0385|0.2572|||Mixed model for repeated measures|||For medial temporal lobe||0.2572|-0.0385|0.1445
92229361|NCT00723957|184361266|SUPERIORITY_OR_OTHER_LEGACY|||||||0.175|||||||Log Rank|||P-value is 1-sided||||0.1750
92374899|NCT00934947|184652319|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||.36
92374900|NCT00934947|184652320|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||.32
92374901|NCT00934947|184652321|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||||||.48
92409595|NCT00265148|184709709|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1211||||0.2251|TWO_SIDED|95.0|-0.0763|0.3185|||Mixed model for repeated measures|||At Month 1||0.3185|-0.0763|0.2251
92409596|NCT00265148|184709709|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0893||||0.2497|TWO_SIDED|95.0|-0.0643|0.243|||Mixed model for repeated measures|||For Month 6||0.2430|-0.0643|0.2497
92409597|NCT00265148|184709710|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.11||||0.7618|TWO_SIDED|95.0|-0.59|0.8|||Repeated measure mixed model|||For BSR test , Month 1||0.80|-0.59|0.7618
92409598|NCT00265148|184709710|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.06||||0.835|TWO_SIDED|95.0|-0.53|0.66|||Repeated measure mixed model|||For BSR test, Month 6||0.66|-0.53|0.8350
92229362|NCT00723957|184361267|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92|||||ONE_SIDED|90.0||1.15|||Regression, Cox|||||1.15||
92229363|NCT00723957|184361267|SUPERIORITY_OR_OTHER_LEGACY|||||||0.316|ONE_SIDED||||||Log Rank|||P-value is 1-sided||||0.316
92374902|NCT04077996|184652322|NON_INFERIORITY|The margin of non inferiority analysis was established at 30%.|Risk Ratio (RR)|1.11|STANDARD_DEVIATION|95.0|<|0.05|TWO_SIDED|95.0|0.91|1.3|||Chi-squared, Corrected|||Summary statistics were computed, and a significance level (α) of 5% has been established.||1.3|0.91|<0.05
92374903|NCT04077996|184652322|NON_INFERIORITY|margin 30%|Risk Ratio (RR)|1.0|STANDARD_DEVIATION|95.0|<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||||||<0.05
92374904|NCT04077996|184652323|NON_INFERIORITY|The margin was established at 30%.|Risk Ratio (RR)|1.0|STANDARD_DEVIATION|95.0|<|0.05|TWO_SIDED|1.0|0.14|6.6|||Fisher Exact|||||6.6|0.14|<0.05
92409599|NCT00265148|184709710|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.14||||0.6735|TWO_SIDED|95.0|-0.78|0.51|||Repeated measure mixed model|||For BSR test, Month 12||0.51|-0.78|0.6735
92409600|NCT00265148|184709711|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.07||||0.7045|TWO_SIDED|95.0|-0.44|0.3|||Repetaed measure mixed model|||For Month 1||0.30|-0.44|0.7045
92409601|NCT00265148|184709711|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.04||||0.8181|TWO_SIDED|95.0|-0.4|0.32|||Repeated measure mixed model|||For Month 6||0.32|-0.40|0.8181
92409602|NCT00265148|184709711|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.09||||0.7688|TWO_SIDED|95.0|-0.71|0.53|||Repeated measure mixed model|||AT Month 12||0.53|-0.71|0.7688
92409603|NCT00265148|184709711|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.07||||0.681|TWO_SIDED|95.0|-0.4|0.26|||Repeated measure mixed model|||Overall||0.26|-0.40|0.6810
92374905|NCT04730635|184652378|OTHER||Posterior Probability|46.3||||||||||||||There was a threshold of ≥2 percentage points. A posterior probability value \>55% was required to satisfy the primary hypothesis.||||
92374906|NCT04730635|184652379|OTHER||Posterior Probability|80.67||||||||||||||There was a threshold of ≤ 0.1 for this standard deviation change. A posterior probability value \>70% was required to satisfy this secondary hypothesis.||||
92374907|NCT04730635|184652380|OTHER||Posterior Probability|98.8||||||||||||||||||
92374908|NCT04762043|184652383|SUPERIORITY||Mean Difference (Final Values)|56.55|STANDARD_ERROR_OF_MEAN|1.64|<|0.001|TWO_SIDED|95.0|53.33|59.76|||Mixed Models Analysis|Effect size used for mixed effects model is partial eta-squared (ηp2).||||59.76|53.33|<.001
92374909|NCT03070223|184652384|SUPERIORITY||Mean Difference (Net)|-0.1||||0.31|TWO_SIDED|95.0|-0.3|0.1|||Mixed Models Analysis|P-value is from the time and treatment group interaction.|Treatment effect was estimated as the difference in annualized rate of change (slope) with randomized pitavastatin compared to placebo from linear mixed effects models (0 reflects no difference between treatment groups).|||0.10|-0.30|0.31
92374910|NCT03070223|184652386|SUPERIORITY||Mean Difference (Final Values)|0.58||||0.62|TWO_SIDED|95.0|-1.72|2.88|||Regression, Linear||Treatment group difference was estimated using baseline-adjusted linear regression model.|Comparison of Month 24 values||2.88|-1.72|0.62
92409604|NCT00265148|184709715|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.2||||0.8593|TWO_SIDED|95.0|-2.38|1.99|||Repeated measure mixed model|||At Month 1||1.99|-2.38|0.8593
92409605|NCT00265148|184709715|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.44||||0.3201|TWO_SIDED|95.0|-1.43|4.32|||Repeated measure mixed model|||At Month 6||4.32|-1.43|0.3201
92229364|NCT00723957|184361273|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.6|||||ONE_SIDED|90.0||2.1|||Regression, Cox||β3T+ subgroup|||2.10||
92229365|NCT00723957|184361273|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||ONE_SIDED|90.0||0.9|||Regression, Cox||β3T- subgroup|||0.90||
92229366|NCT00723957|184361273|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.1|||||ONE_SIDED|90.0||1.4|||Regression, Cox||Overall population|||1.40||
92229367|NCT01763164|184361274|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.47|0.8|||Log Rank|||Hazard ratio was obtained from the stratified unadjusted Cox model. P-value was obtained from the one-sided stratified log-rank test.||0.80|0.47|< 0.001
92374911|NCT03070223|184652387|SUPERIORITY||Mean Difference (Net)|-0.001||||0.61|TWO_SIDED|95.0|-0.007|0.004|||Mixed Models Analysis|P-value is from the time and treatment group interaction.|Treatment effect was estimated as the difference in annualized rate of change (slope) with randomized pitavastatin compared to placebo from linear mixed effects models (0 reflects no difference between treatment groups).|||0.004|-0.007|0.61
92409606|NCT00265148|184709715|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.18||||0.2627|TWO_SIDED|95.0|-1.68|6.04|||Repeated measure mixed model|||At Month 12||6.04|-1.68|0.2627
92409607|NCT00265148|184709715|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.14||||0.3633|TWO_SIDED|95.0|-1.35|3.64|||Repeated measure mixed model|||For overall period||3.64|-1.35|0.3633
92374912|NCT03070223|184652388|SUPERIORITY||Mean Difference (Net)|-0.028||||0.8|TWO_SIDED|95.0|-0.25|0.19|||Mixed Models Analysis|P-value is from the time and treatment group interaction.|Treatment effect was estimated as the difference in annualized rate of change (slope) with randomized pitavastatin compared to placebo from linear mixed effects models (0 reflects no difference between treatment groups).|||0.19|-0.25|0.80
92374913|NCT03070223|184652389|SUPERIORITY||Risk Ratio (RR)|1.02||||0.33|TWO_SIDED|95.0|0.98|1.06|||Log-binomial regression using GEE|P-value is from the time and treatment group interaction.|Treatment effect is shown as relative annualized risk of impairment in the pitavastatin group compared to placebo (1 reflects no difference between treatment groups).|||1.06|0.98|0.33
92409608|NCT00265148|184709716|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.11||||0.5647|TWO_SIDED|95.0|-0.48|0.26|||Repetaed measure mixed model|||For overall period||0.26|-0.48|0.5647
92409609|NCT00265148|184709716|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.9935|TWO_SIDED|95.0|-0.46|0.46|||Repeated measure mixed model|||For Month 1||0.46|-0.46|0.9935
92409610|NCT00265148|184709716|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.22||||0.3794|TWO_SIDED|95.0|-0.72|0.28|||Repeated measure mixed model|||At Month 6||0.28|-0.72|0.3794
92409611|NCT00265148|184709716|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.7357|TWO_SIDED|95.0|-0.7|0.49|||Repeated measure mixed model|||At Month 12||0.49|-0.70|0.7357
92409612|NCT00265148|184709719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4971.6||||0.6299|TWO_SIDED|95.0|-255515.6|15572.4|||Repeated measure mixed model|Arithmetic means have been presented; however, statistical analysis is based upon the least square (LS) means||At Month 6||15572.4|-255515.6|0.6299
92409613|NCT00265148|184709719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|12223.0||||0.2184|TWO_SIDED|95.0|-7450.6|31896.5|||Repeated measure mixed model|||At Month 12||31896.5|-7450.6|0.2184
92229368|NCT01763164|184361275|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.499|TWO_SIDED|95.0|0.75|1.33|||Log Rank|||Hazard ratio was obtained from the stratified unadjusted Cox model. P-value was obtained from the one-sided stratified log rank test.||1.33|0.75|0.499
92374914|NCT03070223|184652390|SUPERIORITY||Mean Difference (Net)|-0.005||||0.18|TWO_SIDED|95.0|-0.013|0.002|||Mixed Models Analysis|P-value is from the time and treatment group interaction.|Treatment effect was estimated as the difference in annualized rate of change (slope) with randomized pitavastatin compared to placebo from linear mixed effects models (0 reflects no difference between treatment groups).|||0.002|-0.013|0.18
92374915|NCT03070223|184652391|SUPERIORITY||Risk Ratio (RR)|1.06||||0.47|TWO_SIDED|95.0|0.91|1.24|||Log-binomial regression using GEE|P-value is from the time (before vs. after study treatment initiation) and treatment group interaction.|Treatment effect is shown as relative average risk of impairment over follow-up time in the pitavastatin group compared to placebo (1 reflects no difference between treatment groups).|||1.24|0.91|0.47
92374916|NCT03070223|184652396|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.55|TWO_SIDED|95.0|-2.7|1.4|||Regression, Linear||Treatment group difference at Month 24 (pitavastatin minus placebo) was estimated using baseline-adjusted linear regression model (0 reflects no difference between treatment groups).|Comparison of Month 24 values||1.4|-2.7|0.55
92374917|NCT03070223|184652397|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.67|TWO_SIDED|95.0|-2.8|1.8|||Regression, Linear||Treatment group difference at Month 24 (pitavastatin minus placebo) was estimated using baseline-adjusted linear regression model (0 reflects no difference between treatment groups).|Comparison of Month 24 values||1.8|-2.8|0.67
92374918|NCT03070223|184652398|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.98|TWO_SIDED|95.0|-0.5|0.52|||Regression, Linear||Treatment group difference (pitavastatin minus placebo) at Month 24 was estimated using baseline-adjusted linear regression model (0 reflects no difference between treatment groups).|Comparison of Month 24 values||0.52|-0.50|0.98
92374919|NCT03070223|184652399|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.31|TWO_SIDED|95.0|-0.8|0.3|||Regression, Linear||Treatment group difference at Month 24 (pitavastatin minus placebo) was estimated using baseline-adjusted linear regression model (0 reflects no difference between treatment groups).|Comparison of Month 24 values||0.3|-0.8|0.31
92374920|NCT03070223|184652400|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.21|TWO_SIDED|95.0|-0.2|0.9|||Regression, Linear||Treatment group difference at Month 24 (pitavastatin minus placebo) was estimated using baseline-adjusted linear regression model (0 reflects no difference between treatment groups).|Comparison of Month 24 values||0.9|-0.2|0.21
92374921|NCT03219034|184652427|SUPERIORITY||Median Difference (Final Values)|3.8||||0.152|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Cross-over design: Median differences between oral appliances at the end of the first 4-week leg of the study (T2). The hypothesis tested was that REI would be lowered more with Appliance A than B.||||0.152
92374922|NCT00118846|184652429|SUPERIORITY||Slope|-0.91||||0.35|TWO_SIDED|95.0|-2.86|1.05|||Mixed Models Analysis||Slope = Mean difference in annualized rate of change|||1.05|-2.86|0.35
92374923|NCT00118846|184652430|OTHER||Mean Difference (Net)|0.11||||0.36|TWO_SIDED|95.0|-0.13|0.35|||ANCOVA|||||0.35|-0.13|0.36
92409614|NCT00265148|184709720|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.6||||0.0129|TWO_SIDED|95.0|-1.0|-0.1|||Repeated measure mixed model|||For Month 6||-0.1|-1.0|0.0129
92409615|NCT00265148|184709720|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.2||||0.5607|TWO_SIDED|95.0|-1.0|0.6|||Repeated measure mixed model|||For Month 12||0.6|-1.0|0.5607
92409616|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1154||||0.28|TWO_SIDED|95.0|-0.0967|0.3275|||Repeated measure mixed model|||For Grey matter, APOE Epsilon-4 status positive||0.3275|-0.0967|0.2800
92409617|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1337||||0.4159||95.0|-0.1931|0.4605|||Repeated measure mixed model|||For Grey matter, APOE Epsilon-4 status negative||0.4605|-0.1931|0.4159
92409618|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1491||||0.2158|TWO_SIDED|95.0|-0.0897|0.3878|||Repeated measure mixed model|||For posterior cingulate gyrus, APOE Epsilon-4 status positive||0.3878|-0.0897|0.2158
92409619|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.2346||||0.2087|TWO_SIDED|95.0|-0.135|0.6042|||Repeated measure mixed model|||For posterior cingulate gyrus, APOE Epsilon-4 status negative||0.6042|-0.1350|0.2087
92409620|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1233||||0.3064|TWO_SIDED|95.0|-0.1162|0.3628|||Repeated measure mixed model|||For Frontal lobe, APOE Epsilon-4 status positive||0.3628|-0.1162|0.3064
92409621|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1734||||0.35|TWO_SIDED|95.0|-0.1952|0.542|||Repeated measure mixed model|||For Frontal lobe APOE Epsilon-4 status negative||0.5420|-0.1952|0.3500
92229369|NCT01763164|184361276|SUPERIORITY|||||||0.015|||||||Cochran-Mantel-Haenszel|||Confirmed ORR: The p-value (2-sided) was computed from stratified Cochran-Mantel-Haenszel chi-square test statistic.||||0.015
92229370|NCT01763164|184361276|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|||Confirmed ORR + Unconfirmed ORR: The p-value (2-sided) was computed from stratified Cochran-Mantel-Haenszel chi-square test statistic.||||0.002
92374924|NCT01468233|184652433|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|31.5|||<|0.001|TWO_SIDED|95.0|20.7|42.2||P-value adjusted for baseline Hurley Stage and for baseline antibiotic use (Y/N).|Cochran-Mantel-Haenszel|||||42.2|20.7|<0.001
92374925|NCT01468233|184652433|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|25.5|||<|0.001|TWO_SIDED|95.0|10.5|40.5||P-value adjusted for baseline antibiotic use (Y/N).|Cochran-Mantel-Haenszel|||||40.5|10.5|<0.001
92374926|NCT01468233|184652433|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|38.1|||<|0.001|TWO_SIDED|95.0|22.8|53.3||P-value adjusted for baseline antibiotic use (Y/N).|Cochran-Mantel-Haenszel|||||53.3|22.8|<0.001
92374927|NCT01468233|184652434|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|19.5|||=|0.01|TWO_SIDED|95.0|4.7|34.2||P-value adjusted for baseline antibiotics use (Y/N).|Cochran-Mantel-Haenszel|||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||34.2|4.7|=0.01
92374928|NCT01468233|184652435|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|25.1|||<|0.001|TWO_SIDED|95.0|12.7|37.6||P-value adjusted for baseline Hurley Stage and antibiotics use (Y/N).|Cochran-Mantel-Haenszel|||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||37.6|12.7|<0.001
92409622|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.13||||0.2487|TWO_SIDED|95.0|-0.0937|0.3538|||Repeated measure mixed model|||For parietal lobe, APOE Epsilon-4 status positive||0.3538|-0.0937|0.2487
92409623|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1038||||0.5521|TWO_SIDED|95.0|-0.244|0.4516|||Repeated measure mixed model|||For parietal lobe, APOE Epsilon-4 status negative||0.4516|-0.2440|0.5521
92409624|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1384||||0.176|TWO_SIDED|95.0|-0.064|0.3409|||Repeated measure mixed model|||For posterior temporal lobe, APOE Epsilon-4 status positive||0.3409|-0.0640|0.1760
92409625|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0837||||0.5952|TWO_SIDED|95.0|-0.2303|0.3978|||Repeated measure mixed model|||For posterior temporal lobe, APOE Epsilon-4 status negative||0.3978|-0.2303|0.5952
92409626|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0847||||0.4025|TWO_SIDED|95.0|-0.1169|0.2863|||Repeated measure mixed model|||For Cerebellum, APOE Epsilon-4 status positive||0.2863|-0.1169|0.4025
92409627|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1536||||0.3081|TWO_SIDED|95.0|-0.1458|0.453|||Repeated measure mixed model95|||For Cerebellum, APOE Epsilon-4 status negative||0.4530|-0.1458|0.3081
92409628|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0839||||0.2964|TWO_SIDED|95.0|-0.0758|0.2436|||Repeated measure mixed model|||For medial temporal lobe, APOE Epsilon-4 status positive||0.2436|-0.0758|0.2964
92229371|NCT01763164|184361289|SUPERIORITY||Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|0.96|2.13|||Log Rank|||||2.13|0.96|
92409629|NCT00265148|184709732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1536||||0.2101|TWO_SIDED|95.0|-0.0892|0.3963|||Repeated measure mixed model|||For medial temporal lobe, APOE Epsilon-4 status negative||0.3963|-0.0892|0.2101
92409630|NCT03583385|184709737|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|% Ratio of Geometric Means|103.42|||||TWO_SIDED|90.0|95.18|112.37||||||||112.37|95.18|
92409631|NCT03583385|184709738|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|% Ratio of Geometric Means|106.78|||||TWO_SIDED|90.0|98.99|115.19||||||||115.19|98.99|
92409632|NCT04780919|184709743|SUPERIORITY|||||||0.722||||||p-value is adjusted to comparison between the Group A and Group B at 3 weeks follow-up after the last application.|Two-way ANOVA|||The Group A will have significantly decreased Cross Section Area compared to Group B at 3 weeks follow up after last application.||||0.722
92409633|NCT04780919|184709744|SUPERIORITY|||||||0.096||||||p-value is adjusted to comparison between the Group A and Group B in the timeframe of the last application.|Two-way ANOVA|||The maximum pain will decrease significantly more in Group A compared to Group B in the timeframe of the last application compared to baseline.||||0.096
92409634|NCT04780919|184709745|SUPERIORITY|||||||0.035||||||p-value is adjusted to comparison between the Group A and Group B at the 3 weeks follow up compared to baseline.|Two-way ANOVA|||The maximum pain will decrease significantly more in Group A compared to Group B at the 3 weeks follow up compared to baseline.||||0.035
92409635|NCT04780919|184709746|SUPERIORITY|||||||0.171||||||p-value is adjusted to comparison between the Group A and Group B at the 3 weeks follow up compared to baseline.|Two-way ANOVA|||The maximum of ankle dorsiflexion range of motion will increase significantly more in Group A compared to Group B at the 3 weeks follow up compared to baseline.||||0.171
92409636|NCT04780919|184709749|SUPERIORITY|||||||0.104||||||p-value is adjusted to comparison between the Group A and Group B in 3 weeks follow up after the last application.|Two-way ANOVA|||The VISA-A score will increase significantly more in Group A compared to Group B at the 3 weeks follow up compared to baseline.||||0.104
92229372|NCT01763164|184361292|SUPERIORITY||Hazard Ratio (HR)|2.2||||0.995|TWO_SIDED|95.0|1.19|4.06|||Log Rank|||Log-rank test and Cox PH model were stratified by American joint committee on cancer stage, prior line immunotherapy and ECOG performance status. P-value was one tailed and was based on the log-rank score test. Hazard ratio and 95% CI was based on a Wald test from Cox model.||4.06|1.19|0.995
92229373|NCT01264939|184361295|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.52|||<|0.0001|TWO_SIDED|95.0|-5.97|-3.08||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-3.08|-5.97|<0.0001
92229374|NCT01264939|184361296|SUPERIORITY_OR_OTHER||Least squares mean difference|-10.02|||<|0.0001|TWO_SIDED|95.0|-13.17|-6.86||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-6.86|-13.17|<0.0001
92409637|NCT00918736|184709778|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Previous report using 5 weekly injections, mean AOS score reduction is 2.6 with the SD of 1.8 in 75 patients. To test whether AOS reduction would be \> 1 using pair t-test after 3 weekly injections, investigators need \> 42 patients to give \> 90% power to reject the null hypothesis-mean AOS score reduction \<1 at 6 months, given that both the mean and standard deviation of AOS score reduction equal to 2. Considering possible dropout of participants, investigators decide to include 50 patients||||<0.05
92409638|NCT01474018|184709785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED||||||ANOVA|||||||0.004
92409639|NCT01474018|184709786|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
92409640|NCT01474018|184709786|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED||||||ANOVA|||||||0.009
92409641|NCT00838513|184709823|SUPERIORITY_OR_OTHER||Percent of TMA event-free responders|80.0|||||TWO_SIDED|95.0|56.0|94.0||||||"With a total of 20 patients enrolled between both protocols and, assuming that the true expected probability of TMA Event-Free for eculizumab-treated patients is 40%, then the study had 93.5% power to detect a statistically significant difference. Up to approximately 30 patients were to be enrolled.~All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS."||94|56|
92229375|NCT01264939|184361297|SUPERIORITY_OR_OTHER||Least squares mean difference|-5.9|||<|0.0001|TWO_SIDED|95.0|-7.72|-4.07||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-4.07|-7.72|<0.0001
92239638|NCT00637273|184383079|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentage of subjects achieving HbA1c target of \<7% at Week 26 were compared between treatments using a Cochran Mantel Haenszel (CMH) test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||0.0015
92409642|NCT00838513|184709824|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||99|68|
92409643|NCT00838513|184709825|SUPERIORITY_OR_OTHER||Percent of complete TMA response|25.0|||||TWO_SIDED|95.0|9.0|49.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||49|9|
92409644|NCT00838513|184709826|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.29|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||||<0.0001
92409645|NCT00838513|184709827|SUPERIORITY_OR_OTHER||LS mean change from baseline|6.75||||0.5423|TWO_SIDED|95.0|-15.73|29.23|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||29.23|-15.73|0.5423
92409646|NCT00838513|184709828|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||99|68|
92409647|NCT00838513|184709829|SUPERIORITY_OR_OTHER||Percent of TMA event-free responders|95.0|||||TWO_SIDED|95.0|75.0|100.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||100|75|
92229376|NCT01264939|184361298|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.99|||<|0.0001|TWO_SIDED|95.0|1.47|2.68||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||2.68|1.47|<0.0001
92409648|NCT00838513|184709830|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||99|68|
92409649|NCT00838513|184709831|SUPERIORITY_OR_OTHER||Percent of complete TMA response|55.0|||||TWO_SIDED|95.0|32.0|77.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||77|32|
92409650|NCT00838513|184709832|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.29|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||||<0.0001
92409651|NCT00838513|184709833|SUPERIORITY_OR_OTHER||LS mean change from baseline|-3.68||||0.7307|TWO_SIDED|95.0|-25.15|17.79|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||17.79|-25.15|0.7307
92409652|NCT00838513|184709834|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||99|68|
92409653|NCT03462511|184709847|SUPERIORITY||Mean Difference (Net)|2.4||||0.067|TWO_SIDED|||||Independent variables: study month, study group, their interactions and a person-level random intercept to incorporate clustering.|Regression, Linear|||Based on estimated effect size from our prior feasibility trial, the target enrollment was 87 dyads plus additional 20% to account for attrition before Month 6 or blood transfusions or acute illness rendering HbF levels inaccurate.||||0.067
92409654|NCT03462511|184709848|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||We compared the difference in proportion of days covered by hydroxyurea at two timepoints: (1) from the year prior to study entry to 6 months (the end of the active intervention phase of the trial) and (2) from 6 months to 12 months (the sustainability phase of the trial).||||0.60
92409655|NCT03462511|184709849|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||We hypothesized that, compared to the control group, generic quality of life (QOL) for youth in the intervention group would improve from baseline to 9 months.||||<0.001
92409656|NCT03462511|184709849|NON_INFERIORITY|30% of the standard deviation was used as the non-inferiority margin. For this test generic quality of life (QOL) scores for months 4-9 (efficacy period) were compared to months \>9 (sustainability period).||||||0.04|||||||Regression, Linear|||We hypothesized that the improvement in quality of life experienced by the intervention group would be sustained from month 9 to month 12.||||0.04
92409657|NCT03462511|184709850|SUPERIORITY|||||||0.47|||||||Regression, Linear|||We hypothesized that, compared to the control group, sickle cell disease specific quality of life (SC-QOL) for youth in the intervention group would improve from baseline to 9 months.||||0.47
92409658|NCT03462511|184709850|NON_INFERIORITY|30% of the standard deviation was used as the non-inferiority margin. For this test sickle cell disease specific quality of life (SC-QOL) scores for months 4-9 (efficacy period) were compared to months \>9 (sustainability period).||||||0.045|||||||Regression, Linear|||We hypothesized that the improvement in sickle cell disease specific quality of life (SC-QOL) experienced by the intervention group would be sustained from month 9 to month 12.||||0.045
92409659|NCT03462511|184709851|SUPERIORITY|||||||0.002|||||||Regression, Linear|||We hypothesized that, compared to the control group, responsibility for self-management concordance for youth-caregiver dyads in the intervention group would improve from baseline to 6 months.||||0.002
92409660|NCT03462511|184709851|NON_INFERIORITY|50% of the standard deviation was used as the non-inferiority margin. For this test youth caregiver concordance for self-management responsibility scores for months 0-6 (efficacy period) were compared to months 6-12 (sustainability period).||||||0.23|||||||Regression, Linear|||We hypothesized that the improvement in concordance between youth and caregivers for self-management responsibility experienced by the intervention group would be sustained from month 6 to month 12.||||0.23
92409661|NCT03001817|184709865|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409662|NCT03001817|184709866|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409663|NCT03001817|184709867|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann Method|||||||<0.0001
92409664|NCT03001817|184709868|SUPERIORITY|||||||0.5443|||||||Hodges-Lehmann method|||||||0.5443
92409665|NCT03001817|184709869|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann Method|||||||<0.0001
92409666|NCT03001817|184709870|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409667|NCT03001817|184709871|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409668|NCT03001817|184709872|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409669|NCT03001817|184709873|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409670|NCT03001817|184709874|SUPERIORITY|||||||0.4939|||||||Hodges-Lehmann method|||||||0.4939
92409671|NCT03001817|184709875|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92240231|NCT00051558|184383961|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92240232|NCT00051558|184383961|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92229377|NCT01264939|184361299|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
92229378|NCT01264939|184361300|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
92277895|NCT01464827|184458007|SUPERIORITY_OR_OTHER||Difference|-12.16||||0.068|TWO_SIDED|95.0|-25.2|0.88||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Mantel Haenszel|The Mantel-Haenszel method was used because logistic regression failed due to separation or quasi-separation.|Difference = Group B - Groups \[F + G + K + L\]|The percentage of participants with SVR24 after treatment with 2 DAAs and ribavirin versus 3 DAAs and ribavirin was compared using stratum-adjusted Mantel-Haenszel (MH) method with Interleukin 28B genotype (CC or non-CC) and HCV subgenotype (1a or non-1a).||0.88|-25.20|0.068
92409672|NCT03001817|184709876|SUPERIORITY|||||||0.8371|||||||Hodges-Lehmann method|||||||0.8371
92409673|NCT03001817|184709877|SUPERIORITY|||||||0.3415|||||||Hodges-Lehmann method|||||||0.3415
92409674|NCT03001817|184709878|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409675|NCT03001817|184709879|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409676|NCT03001817|184709880|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409677|NCT03001817|184709881|SUPERIORITY|||||||0.7442|||||||Hodges-Lehmann method|||||||0.7442
92277896|NCT01464827|184458007|SUPERIORITY_OR_OTHER||Difference|-6.75||||0.065|TWO_SIDED|95.0|-13.93|0.43||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Mantel Haenszel|The Mantel-Haenszel method was used because logistic regression failed due to separation or quasi-separation.|Difference = Groups \[C + D + J\] - Groups \[F + G + K + L\]|The percentage of participants with SVR24 after treatment with 2 DAAs and ribavirin versus 3 DAAs and ribavirin was compared using stratum-adjusted Mantel-Haenszel (MH) method with Interleukin 28B genotype (CC or non-CC) and HCV subgenotype (1a or non-1a).||0.43|-13.93|0.065
92280412|NCT03466411|184463522|SUPERIORITY||Least Square (LS) Mean Difference|124.2|||<|0.001|TWO_SIDED|95.0|89.8|158.7|||Mixed Model for Repeated Measure||LS Mean difference between the treatment groups and p-values for the comparisons of each guselkumab treatment group with the placebo group were based on MMRM analysis.|||158.7|89.8|<0.001
92409678|NCT03001817|184709882|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409679|NCT03001817|184709883|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409680|NCT03001817|184709884|SUPERIORITY|||||||0.0374|||||||Hodges-Lehmann method|||||||0.0374
92409681|NCT03001817|184709885|SUPERIORITY|||||||0.7429|||||||Hodges-Lehmann method|||||||0.7429
92409682|NCT03001817|184709886|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409683|NCT03001817|184709887|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409684|NCT03001817|184709888|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409685|NCT03001817|184709889|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409686|NCT03001817|184709890|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409687|NCT03001817|184709891|SUPERIORITY|||||||0.3669|||||||Hodges-Lehmann method|||||||0.3669
92409688|NCT03001817|184709892|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409689|NCT03001817|184709893|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409690|NCT03001817|184709894|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409691|NCT03001817|184709895|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409692|NCT03001817|184709896|SUPERIORITY|||||||0.0509|||||||Hodges-Lehmann method|||||||0.0509
92409693|NCT03001817|184709897|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409694|NCT03001817|184709898|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409695|NCT03001817|184709899|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92229379|NCT01264939|184361301|SUPERIORITY_OR_OTHER||Least squares mean difference|-5.61|||<|0.0001|TWO_SIDED|95.0|-7.25|-3.96||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-3.96|-7.25|<0.0001
92409696|NCT03001817|184709900|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409697|NCT03001817|184709901|SUPERIORITY|||||||0.0647|||||||Hodges-Lehmann method|||||||0.0647
92409698|NCT03001817|184709902|SUPERIORITY|||||||0.0007|||||||Hodges-Lehmann method|||||||0.0007
92409699|NCT03001817|184709903|SUPERIORITY|||||||0.1399|||||||Hodges-Lehmann method|||||||0.1399
92409700|NCT03001817|184709904|SUPERIORITY|||||||0.0122|||||||Hodges-Lehmann method|||||||0.0122
92409701|NCT03001817|184709905|SUPERIORITY|||||||0.0994|||||||Hodges-Lehmann method|||||||0.0994
92409702|NCT03001817|184709906|SUPERIORITY|||||||0.0904|||||||Hodges-Lehmann method|||||||0.0904
92409703|NCT03001817|184709907|SUPERIORITY|||||||0.4346|||||||non-parametric Hodges-Lehmann method|||||||0.4346
92409704|NCT03001817|184709908|SUPERIORITY|||||||0.1474|||||||non-parametric Hodges-Lehmann method|||||||0.1474
92409705|NCT03001817|184709909|SUPERIORITY|||||||0.0054|||||||non-parametric Hodges-Lehmann method|||||||0.0054
92409706|NCT03001817|184709910|SUPERIORITY|||||||0.0002|||||||Hodges-Lehmann method|||||||0.0002
92409707|NCT03001817|184709911|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409708|NCT03001817|184709912|SUPERIORITY|||||||0.0118|||||||Hodges-Lehmann method|||||||0.0118
92409709|NCT03001817|184709913|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92409710|NCT03001817|184709914|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92374929|NCT01468233|184652436|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-19.4|||<|0.001|TWO_SIDED|95.0|-28.6|-10.1||P-value calculated from ANCOVA with stratum (baseline Hurley Stage and antibiotics use), baseline value, and treatment as covariates.|ANCOVA|||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||-10.1|-28.6|<0.001
92409711|NCT03001817|184709915|SUPERIORITY|||||||0.2049|||||||Hodges-Lehmann method|||||||0.2049
92374930|NCT01574157|184652439|SUPERIORITY||Mean Difference (Final Values)|12.6|||||TWO_SIDED|95.0|-9.6|40.1||||||The primary analysis compared the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||40.1|-9.6|
92169085|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.12||0.0589|TWO_SIDED|95.0|-0.48|0.01|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.01|-0.48|0.0589
92169086|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.12||0.018|TWO_SIDED|95.0|-0.53|-0.05|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.05|-0.53|0.0180
92374931|NCT01574157|184652440|SUPERIORITY||Mean Difference (Final Values)|-10.1|||||TWO_SIDED|95.0|-38.2|30.8||||||The main analytic strategy for this secondary outcome was a comparison of the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||30.8|-38.2|
92374932|NCT01574157|184652441|SUPERIORITY||Mean Difference (Final Values)|-32.5|||||TWO_SIDED|95.0|-56.3|4.2||||||The main analytic strategy for this secondary outcome was a comparison of the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||4.2|-56.3|
92374933|NCT01574157|184652442|SUPERIORITY||Mean Difference (Final Values)|7.7|||||TWO_SIDED|95.0|-15.1|36.5||||||The main analytic strategy for this secondary outcome was a comparison of the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||36.5|-15.1|
92374934|NCT01574157|184652443|SUPERIORITY||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|-24.6|35.9||||||The main analytic strategy for this secondary outcome was a comparison of the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||35.9|-24.6|
92409712|NCT03001817|184709916|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409713|NCT03001817|184709917|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409714|NCT03001817|184709918|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409715|NCT03001817|184709919|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409716|NCT03001817|184709920|SUPERIORITY|||||||0.9117|||||||Hodges-Lehmann method|||||||0.9117
92409717|NCT03001817|184709921|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92409718|NCT02100696|184709996|SUPERIORITY||Adjusted difference in response rates|12.2||||0.0033|TWO_SIDED|95.0|3.95|17.67|||Cochran-Mantel-Haenszel|||||17.67|3.95|0.0033
92169087|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.13||0.0944|TWO_SIDED|95.0|-0.47|0.04|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.04|-0.47|0.0944
92169088|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1198|TWO_SIDED|95.0|-0.45|0.05|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.05|-0.45|0.1198
92169089|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.13||0.1837|TWO_SIDED|95.0|-0.43|0.08|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.08|-0.43|0.1837
92280413|NCT03466411|184463522|SUPERIORITY||LS Mean Difference|102.7|||<|0.001|TWO_SIDED|95.0|68.5|136.9|||Mixed Model for Repeated Measure||LS Mean difference between the treatment groups and p-values for the comparisons of each guselkumab treatment group with the placebo group were based on MMRM analysis.|||136.9|68.5|<0.001
92374935|NCT01574157|184652444|SUPERIORITY||Mean Difference (Final Values)|3.37|||||TWO_SIDED|95.0|-0.05|6.79||||||The main analytic strategy for this secondary outcome was a comparison of the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||6.79|-0.05|
92374936|NCT01632241|184652473|SUPERIORITY||Odds Ratio (OR)|1.4||||0.1068|TWO_SIDED|95.0|0.93|2.11|||Regression, Logistic|||||2.11|0.93|0.1068
92374937|NCT01632241|184652482|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0937|TWO_SIDED|95.0|0.94|2.15||Nominal p-value due to step-down sequential testing procedure.|Regression, Logistic|||||2.15|0.94|0.0937
92374938|NCT01632241|184652484|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.2264|TWO_SIDED|95.0|0.51|1.17||Nominal p-value due to step-down sequential testing procedure.|Cox proportional hazards model|||||1.17|0.51|0.2264
92374939|NCT01632241|184652486|SUPERIORITY||Odds Ratio (OR)|1.3||||0.4996|TWO_SIDED|95.0|0.61|2.8||Nominal p-value due to step-down sequential testing procedure.|Regression, Logistic|||||2.80|0.61|0.4996
92409719|NCT02100696|184709997|SUPERIORITY||Treatment Difference|3.8||||0.4956|TWO_SIDED|95.0|-7.13|14.56|||Cochran-Mantel-Haenszel|||||14.56|-7.13|0.4956
92409720|NCT02100696|184709998|SUPERIORITY||Adjusted Difference in Remission Rates|12.5||||0.0028|TWO_SIDED|95.0|4.19|17.94||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||17.94|4.19|0.0028
92409721|NCT02100696|184709999|SUPERIORITY||Adjusted Difference in Response Rates|14.3||||0.0241|TWO_SIDED|95.0|3.21|24.14||Multiplicity P-value reported (adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||24.14|3.21|0.0241
92409722|NCT02100696|184710000|SUPERIORITY||Adjusted Difference in Response Rates|8.1||||0.1605|TWO_SIDED|95.0|-2.54|17.22||Multiplicity P-value reported (adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||17.22|-2.54|0.1605
92409723|NCT02100696|184710001|SUPERIORITY||Adjusted Difference in Remission Rates|7.6||||0.3881|TWO_SIDED|95.0|-1.22|13.66||Multiplicity P-value reported (adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||13.66|-1.22|0.3881
92409724|NCT02100696|184710002|SUPERIORITY||Adjusted Difference in Remission Rates|4.9||||0.5879|TWO_SIDED|95.0|-6.78|14.69||Multiplicity P-value reported (adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||14.69|-6.78|0.5879
92409725|NCT02100696|184710003|SUPERIORITY||Difference in Unadjusted Means|-0.2||||0.0351|TWO_SIDED|95.0|-0.5|0.0||Multiplicity P-value reported (adjusted for multiplicity)|ANCOVA|||||-0.0|-0.5|0.0351
92409726|NCT02100696|184710004|SUPERIORITY||Difference in Unadjusted Means|-0.2||||0.2698|TWO_SIDED|95.0|-0.4|0.1||Multiplicity P-value reported (adjusted for multiplicity)|ANCOVA|||||0.1|-0.4|0.2698
92409727|NCT02100696|184710005|SUPERIORITY||Difference in Least Square Means|-1.6||||0.2698|TWO_SIDED|95.0|-2.9|-0.3||Multiplicity P-value reported (adjusted for multiplicity)|Mixed Models Analysis|||||-0.3|-2.9|0.2698
92409728|NCT02100696|184710006|SUPERIORITY||Difference in Least Square Means|-0.5||||0.3881|TWO_SIDED|95.0|-1.0|0.0||Multiplicity P-value reported (adjusted for multiplicity)|Mixed Models Analysis|||||0.0|-1.0|0.3881
92409729|NCT02100696|184710007|SUPERIORITY||Difference in Adjusted Means|9.1||||0.0445|TWO_SIDED|95.0|0.2|17.9||Nominal P-value reported (not adjusted for multiplicity)|ANCOVA|||||17.9|0.2|0.0445
92169090|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.13||0.317|TWO_SIDED|95.0|-0.39|0.13|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.13|-0.39|0.3170
92409730|NCT02100696|184710008|SUPERIORITY||Adjusted Difference in Remission Rates|0.1||||0.9959|TWO_SIDED|95.0|-19.67|19.88||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||19.88|-19.67|0.9959
92409731|NCT02100696|184710009|SUPERIORITY||Adjusted Difference in Remission Rates|3.8||||0.5014|TWO_SIDED|95.0|-7.26|14.7||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||14.70|-7.26|0.5014
92409732|NCT02100696|184710010|SUPERIORITY||Adjusted Difference in Remission Rates|0.6||||0.9538|TWO_SIDED|95.0|-19.08|20.35||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||20.35|-19.08|0.9538
92409733|NCT02100696|184710011|SUPERIORITY||Adjusted Difference in Response Rates|14.5||||0.0153|TWO_SIDED|95.0|2.66|25.78||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||25.78|2.66|0.0153
92409734|NCT02100696|184710012|SUPERIORITY||Adjusted Difference in Remission Rates|16.8||||0.0073|TWO_SIDED|95.0|4.44|28.41||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||28.41|4.44|0.0073
92169091|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.13||0.1873|TWO_SIDED|95.0|-0.43|0.08|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.08|-0.43|0.1873
92409735|NCT02100696|184710013|SUPERIORITY||Adjusted Difference in Remission Rates|11.9||||0.0174|TWO_SIDED|95.0|1.87|21.71||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||21.71|1.87|0.0174
92409736|NCT02100696|184710014|SUPERIORITY||Adjusted Difference in Remission Rates|7.3||||0.3015|TWO_SIDED|95.0|-6.83|21.6||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||21.60|-6.83|0.3015
92409737|NCT02100696|184710015|SUPERIORITY||Adjusted Difference in Remission Rates|7.4||||0.2787|TWO_SIDED|95.0|-6.23|21.17||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||21.17|-6.23|0.2787
92409738|NCT02100696|184710016|SUPERIORITY||Difference in Least Square Means|-1.5||||0.0763|TWO_SIDED|95.0|-3.1|0.2||Nominal P-value reported (not adjusted for multiplicity)|Mixed Models Analysis|||||0.2|-3.1|0.0763
92409739|NCT02100696|184710017|SUPERIORITY||Difference in Least Square Means|-0.2||||0.5329|TWO_SIDED|95.0|-1.0|0.5||Nominal P-value reported (not adjusted for multiplicity)|Mixed Models Analysis|||||0.5|-1.0|0.5329
92409740|NCT02100696|184710018|SUPERIORITY||Difference in Adjusted Means|-4.9||||0.2228|TWO_SIDED|95.0|-12.7|3.0||Nominal P-value reported (not adjusted for multiplicity)|ANCOVA|||||3.0|-12.7|0.2228
92409741|NCT01009619|184710033|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared, Corrected|||The frequency or rate of specific events (i.e. acute rejection, cytomegalovirus (CMV) and non-CMV infections) was calculated by determining the number of events per year of study time for each subject, correcting for CMV-mismatch status.||||<0.05
92409742|NCT01009619|184710034|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared, Corrected|||The frequency or rate of specific events (i.e. acute rejection, cytomegalovirus (CMV) and non-CMV infections) was calculated by determining the number of events per year of study time for each subject, correcting for CMV-mismatch status.||||<0.05
92409743|NCT01640834|184710072|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.84||||0.0542|TWO_SIDED|95.0|-11.82|0.14|||t-test, 1 sided|||The mean change on Day 2 from Day 1 in the 24-hour insulin dose for the placebo group was subtracted from each participant's change on Day 2 from Day 1 in the 24-hour insulin dose. This placebo adjusted 24-hour insulin dose was compared within the 100-mg LY2409021 dose group using a 1 sample t-test.||0.14|-11.82|0.0542
92409744|NCT01640834|184710072|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.89||||0.0826|TWO_SIDED|95.0|-14.95|1.16|||t-test, 1 sided|||The mean change on Day 2 from Day 1 in the 24-hour insulin dose for the placebo group was subtracted from each participant's change on Day 2 from Day 1 in the 24-hour insulin dose. This placebo adjusted 24-hour insulin dose was compared within the 300-mg LY2409021 dose group.||1.16|-14.95|0.0826
92374940|NCT03111550|184652500|SUPERIORITY|Compare if study AE rate is significantly higher than ISO SPE rate (0.3% for corneal edema)||||||0.02041|ONE_SIDED||||||Exact test on binomial distribution|||||||0.02041
92374941|NCT03111550|184652501|SUPERIORITY|Compare if study AE rate is significantly higher than ISO SPE rate (0.3% for retinal detachment)||||||0.1969|ONE_SIDED|||||For ZQR00 retinal detachment|Exact test on binomial distribution|||||||0.1969
92374942|NCT03111550|184652501|SUPERIORITY|Compare if study AE rate is significantly higher than ISO SPE rate (0.8% for secondary surgical intervention)||||||0.4655|ONE_SIDED|||||For ZHR00 secondary surgical intervention|Exact test of binomial distribution|||||||0.4655
92374943|NCT03111550|184652501|SUPERIORITY|Compare if study AE rate is significantly higher than ISO SPE rate (0.8% for secondary surgical intervention)||||||0.021|ONE_SIDED|||||For ZQR00 secondary surgical intention|Exact test on binomial distribution|||||||0.0210
92374944|NCT03111550|184652501|SUPERIORITY|Compare if study AE rate is significantly higher than ISO SPE rate (0.8% for secondary surgical intervention)||||||0.4698|ONE_SIDED|||||For ZXR00 secondary surgical intervention|Exact test on binomial distribution|||||||0.4698
92374945|NCT01846299|184652516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.78|STANDARD_ERROR_OF_MEAN|1.203||0.0111|TWO_SIDED|95.0|0.4|5.16|||Mixed Models Analysis|||||5.16|0.40|0.0111
92374946|NCT01686750|184652561|SUPERIORITY||Risk Ratio (RR)|1.31||||0.09|TWO_SIDED|95.0|0.95|1.81|||Prevalence ratio||Therefore, the exponentiated coefficients for intervention status represent the prevalence ratio with 95% confidence interval (CI) and are interpreted as the relative percentage difference in the outcome associated with the intervention.|We compared the sampling-weighted prevalence of outcomes at Integrated Care Centers (ICCs) and usual care from the evaluation survey. We used linear regression models that had terms for intervention status (integrated care vs usual care), stratum (PWID and MSM), and the baseline proportion of the outcome being assessed. Site-level proportions from both evaluation and baseline respondent-driven sampling were log transformed before being entered into the regression model.||1.81|0.95|0.09
92374947|NCT01686750|184652562|SUPERIORITY||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.8|1.5||||||||1.50|0.80|
92374948|NCT01686750|184652563|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.61|1.81||||||||1.81|0.61|
92374949|NCT01686750|184652564|SUPERIORITY||Risk Ratio (RR)|1.36|||||TWO_SIDED|95.0|0.77|2.41||||||||2.41|0.77|
92374950|NCT01686750|184652566|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.65|1.28||||||||1.28|0.65|
92374951|NCT01686750|184652568|SUPERIORITY||Risk Ratio, log|1.44|||||TWO_SIDED|95.0|0.42|4.93||||||||4.93|0.42|
92169092|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.13||0.5719|TWO_SIDED|95.0|-0.33|0.18|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.18|-0.33|0.5719
92169093|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.13||0.3571|TWO_SIDED|95.0|-0.39|0.14|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.14|-0.39|0.3571
92374952|NCT01686750|184652569|SUPERIORITY||Risk Ratio, log|1.87|||||TWO_SIDED|95.0|0.49|7.16||||||||7.16|0.49|
92374953|NCT01686750|184652570|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.53|1.56||||||||1.56|0.53|
92374954|NCT01686750|184652571|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-4.2|4.2||||||||4.2|-4.2|
92374955|NCT01686750|184652573|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.47|1.52||||||||1.52|0.47|
92374956|NCT01686750|184652575|SUPERIORITY||Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-3.0|-0.6||||||||-0.6|-3.0|
92374957|NCT01686750|184652576|SUPERIORITY||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.64|1.36||||||||1.36|0.64|
92374958|NCT02956044|184652578|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|108.73|||||TWO_SIDED|95.0|94.35|125.3|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric Least Square (LS) Mean was used as PK parameters||125.30|94.35|
92374959|NCT02956044|184652578|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|95.05|||||TWO_SIDED|90.0|84.73|106.63|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||106.63|84.73|
92374960|NCT02956044|184652578|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|89.44|||||TWO_SIDED|90.0|70.39|113.65|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||113.65|70.39|
92374961|NCT02956044|184652578|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|111.95|||||TWO_SIDED|90.0|97.02|129.19|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||129.19|97.02|
92374962|NCT02956044|184652578|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|126.68|||||TWO_SIDED|90.0|112.08|143.17|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||143.17|112.08|
92374963|NCT02956044|184652578|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|98.48|||||TWO_SIDED|90.0|84.9|114.23|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||114.23|84.90|
92374964|NCT02956044|184652581|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|87.36|||||TWO_SIDED|90.0|80.02|95.38|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||95.38|80.02|
92374965|NCT02956044|184652581|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|103.24|||||TWO_SIDED|90.0|94.59|112.68|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||112.68|94.59|
92374966|NCT02956044|184652581|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|94.46|||||TWO_SIDED|90.0|80.34|111.06|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||111.06|80.34|
92374967|NCT02956044|184652581|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|[Ratio of Geometric LSM]|127.19|||||TWO_SIDED|90.0|110.33|146.62|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||146.62|110.33|
92374968|NCT02956044|184652581|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|[Ratio of Geometric LSM]|113.09|||||TWO_SIDED|90.0|107.61|118.86|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||118.86|107.61|
92374969|NCT02956044|184652581|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|[Ratio of Geometric LSM]|103.16|||||TWO_SIDED|90.0|99.3|107.17||||||Geometric LS Mean was used as PK parameters|Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|107.17|99.30|
92374970|NCT03832114|184652583|OTHER|Log Ratio to Baseline|Mean Difference (Final Values)|0.55||||0.0003|TWO_SIDED|80.0|0.46|0.65|||Mixed Model Repeated Measures (MMRM)|||||0.65|0.46|0.0003
92374971|NCT03832114|184652584|OTHER||Median Difference (Final Values)|-2.5||||0.0313|TWO_SIDED|80.0|-3.75|-0.75|||Wilcoxon (Mann-Whitney)|||||-0.75|-3.75|0.0313
92374972|NCT03832114|184652585|OTHER||Mean Difference (Final Values)|0.55||||0.0003|TWO_SIDED|80.0|0.46|0.65|||Mixed Model Repeated Measures (MMRM)|||Day 84||0.65|0.46|0.0003
92374973|NCT03832114|184652585|OTHER||Mean Difference (Final Values)|0.79||||0.4766|TWO_SIDED|80.0|0.49|1.28|||Mixed Model Repeated Measures (MMRM)|||Day 84||1.28|0.49|0.4766
92374974|NCT03832114|184652585|OTHER||Mean Difference (Final Values)|0.59||||0.0002|TWO_SIDED|80.0|0.51|0.69|||Mixed Model of Repeated Measures (MMRM)|||Overall- Day 84||0.69|0.51|0.0002
92374975|NCT03832114|184652586|OTHER||Mean Difference (Final Values)|0.57||||0.0011|TWO_SIDED|80.0|0.47|0.68|||Mixed Model Repeated Measures (MMRM|||Day 84||0.68|0.47|0.0011
92374976|NCT03832114|184652586|OTHER||Mean Difference (Final Values)|1.0||||0.9998|TWO_SIDED|80.0|0.75|1.33|||Mixed Model Repeated Measures (MMRM)|||Day 84||1.33|0.75|0.9998
92374977|NCT03832114|184652586|OTHER||Mean Difference (Final Values)|0.66||||0.0016|TWO_SIDED|80.0|0.56|0.77|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 84||0.77|0.56|0.0016
92374978|NCT03832114|184652587|OTHER||Mean Difference (Final Values)|0.55|||<|0.0001|TWO_SIDED|80.0|0.47|0.64|||Mixed Model Repeated Measures (MRM)|||Day 84||0.64|0.47|<0.0001
92374979|NCT03832114|184652587|OTHER||Mean Difference (Final Values)|0.61||||0.3707|TWO_SIDED|80.0|0.3|1.27|||Mixed Model Repeated Measures (MMRM)|||Day 84||1.27|0.30|0.3707
92374980|NCT03832114|184652587|OTHER||Mean Difference (Final Values)|0.6||||0.0002|TWO_SIDED|80.0|0.51|0.71|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 84||0.71|0.51|0.0002
92374981|NCT03832114|184652588|OTHER||Mean Difference (Final Values)|0.57||||0.0018|TWO_SIDED|80.0|0.47|0.7|||Mixed Model Repeated Measures (MMRM)|||Day 84||0.70|0.47|0.0018
92374982|NCT03832114|184652588|OTHER||Mean Difference (Final Values)|0.81||||0.1632|TWO_SIDED|80.0|0.67|0.98|||Mixed Model Repeated Measures (MMRM)|||Day 84||0.98|0.67|0.1632
92374983|NCT03832114|184652588|OTHER||Mean Difference (Final Values)|0.67||||0.004|TWO_SIDED|80.0|0.57|0.79|||Mixed Model Repeated Measure (MMRM)|||Overall- Day 84||0.79|0.57|0.0040
92374984|NCT03832114|184652589|OTHER||Mean Difference (Final Values)|2.59||||0.1795|TWO_SIDED|80.0|0.12|5.06|||Mixed Model of Repeated Measures (MMRM)|||Day 84||5.06|0.12|0.1795
92169094|NCT02528188|184227133|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.14||0.9072|TWO_SIDED|95.0|-0.25|0.28|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.28|-0.25|0.9072
92169095|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.09||0.0004|TWO_SIDED|95.0|-0.49|-0.14|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.14|-0.49|0.0004
92169096|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.09||0.0134|TWO_SIDED|95.0|-0.4|-0.05|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.40|0.0134
92239639|NCT00637273|184383080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target of \<=6.5% at Week 26 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||<.0001
92240233|NCT00051558|184383961|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92374985|NCT03832114|184652589|OTHER||Mean Difference (Final Values)|-0.61||||0.7763|TWO_SIDED|0.7763|-3.36|2.15|||Mixed Model Repeated Measures (MMRM)|||Day 84||2.15|-3.36|0.7763
92277897|NCT01464827|184458008|SUPERIORITY_OR_OTHER||Difference|-7.13||||0.106|TWO_SIDED|95.0|-15.77|1.51||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Mantel Haenszel|The Mantel-Haenszel method was used because logistic regression failed due to separation or quasi-separation.|Difference = Group E - Groups \[F + G + K + L\]|The percentage of participants with SVR24 after treatment with 3 DAAs with and without ribavirin was compared using a stratum-adjusted Mantel-Haenszel (MH) method with Interleukin 28B genotype (CC or non-CC) and HCV subgenotype (1a or non-1a).||1.51|-15.77|0.106
92277898|NCT01464827|184458009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.616|TWO_SIDED|95.0|0.37|5.34||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Regression, Logistic||Odds ratio: Groups \[F + G + H + I\] : Groups \[K + L + M + N\]|The percentage of participants with SVR24 after treatment with 3 DAAs and ribavirin in treatment-naïve versus null-responders was compared using logistic regression with treatment group, baseline log10 HCV RNA level, HCV subgenotype (1a or non-1a), geographic region (US or non-US), Interleukin 28B genotype (CC or non-CC), and ABT-450/ritonavir dose as predictors.||5.34|0.37|0.616
92409745|NCT01640834|184710073|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.0||||0.046|TWO_SIDED|95.0|-33.7|-0.4|||t-test, 1 sided|||Analysis was performed using the percent change in insulin dose, which takes into account absolute differences in individual insulin doses. The mean percent change on Day 2 from Day 1 in the 24-hour insulin dose for the placebo group was subtracted from each participant's percent change on Day 2 from Day 1 in the 24-hour insulin dose. This placebo adjusted 24-hour insulin dose was compared within the 100-mg LY2409021 dose group using a 1 sample t-test.||-0.4|-33.7|0.0460
92409746|NCT01640834|184710073|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.6||||0.0192|TWO_SIDED|95.0|-35.0|-4.3|||t-test, 1 sided|||Analysis was performed using the percent change in insulin dose, which takes into account absolute differences in individual insulin doses. The mean percent change on Day 2 from Day 1 in the 24-hour insulin dose for the placebo group was subtracted from each participant's percent change on Day 2 from Day 1 in the 24-hour insulin dose. This placebo adjusted 24-hour insulin dose was compared within the 300-mg LY2409021 dose group using a 1 sample t-test.||-4.3|-35.0|0.0192
92409747|NCT01640834|184710078|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.0||||0.0187|TWO_SIDED|95.0|-82.0|-9.0|||t-test, 2 sided|||Statistical analysis of the effect of LY2409021 treatment on peak glucose concentration after an intramuscular injection of glucagon (1 milligram).||-9|-82|0.0187
92409748|NCT01640834|184710078|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-59.0||||0.0048|TWO_SIDED|95.0|-96.0|-23.0|||t-test, 2 sided|||Statistical analysis of the effect of LY2409021 treatment on peak glucose concentration after an intramuscular injection of glucagon (1 milligram).||-23|-96|0.0048
92169097|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.56|-0.19|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.19|-0.56|<0.0001
92169098|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.67|-0.29|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.29|-0.67|<0.0001
92169099|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.1||0.0031|TWO_SIDED|95.0|-0.49|-0.1|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.10|-0.49|0.0031
92169100|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.82|-0.43|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.43|-0.82|<0.0001
92169101|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.0425|TWO_SIDED|95.0|-0.43|-0.01|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.01|-0.43|0.0425
92240234|NCT00051558|184383962|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||P-value for 3 Months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.120
92240235|NCT00051558|184383962|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 6 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92240236|NCT00051558|184383962|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 12 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92409749|NCT01640834|184710079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4423.0||||0.0278|TWO_SIDED|95.0|-8256.0|-590.0|||t-test, 2 sided|||Statistical analysis of the effect of LY2409021 treatment on area under the glucose concentration curve from time 0 to 2 hours postdose following an intramuscular injection of glucagon (1 milligram).||-590|-8256|0.0278
92409750|NCT01640834|184710079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5187.0||||0.0046|TWO_SIDED|95.0|-8371.0|-2004.0|||t-test, 2 sided|||Statistical analysis of the effect of LY2409021 treatment on area under the glucose concentration curve from time 0 to 2 hours postdose following an intramuscular injection of glucagon (1 milligram).||-2004|-8371|0.0046
92409751|NCT01387542|184710080|SUPERIORITY_OR_OTHER|||||||0|||||||Friedman test|||||||0.000
92229380|NCT01264939|184361302|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.67|||<|0.0001|TWO_SIDED|95.0|-6.28|-3.06||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-3.06|-6.28|<0.0001
92277899|NCT01075763|184458010|SUPERIORITY_OR_OTHER|||||||0.64|||||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.64
92277900|NCT01075763|184458010|SUPERIORITY_OR_OTHER|||||||0.92|||||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.92
92277901|NCT01075763|184458011|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||t-test, 2 sided|||For Week 12: the difference between the two groups was analyzed using t-test.||||0.63
92409752|NCT01387542|184710081|SUPERIORITY_OR_OTHER|||||||0.009|||||||Paired t-test|||||||0.009
92409753|NCT01387542|184710082|SUPERIORITY_OR_OTHER|||||||0.001|||||||Paired t-test|||||||0.001
92409754|NCT01387542|184710083|SUPERIORITY_OR_OTHER|||||||0|||||||Paired t-test|||||||0.000
92409755|NCT03601117|184710088|OTHER|This is to test for the antidepressant effect of LDLPFC stimulation. Test is change in score from baseline to approximately 48 hours after the final session.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<.001
92409756|NCT02954172|184710126|EQUIVALENCE|the equivalence margin of the ORR ratio was set at (0.75, 1.33).|Odds Ratio (OR)|0.9|||||TWO_SIDED|90.0|0.756|1.077||||||||1.077|0.756|
92409757|NCT02954172|184710127|EQUIVALENCE|||||||0.7066|||||||Log Rank|||||||0.7066
92277902|NCT01075763|184458011|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.74
92277903|NCT01075763|184458012|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.45
92277904|NCT01075763|184458012|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||t-test, 2 sided|||For Week 12: the difference between the two groups was analyzed using t-test.||||0.88
92277905|NCT01075763|184458012|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.68
92277906|NCT01075763|184458012|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.81
92409758|NCT02954172|184710128|EQUIVALENCE|||||||0.3497|||||||Log Rank|||||||0.3497
92409759|NCT01120964|184710146|OTHER|Analyses presented herein are for re-intubation time included.|Mean Difference (Final Values)|32.0||||0.0222|TWO_SIDED|95.0|-9.5|73.4||The threshold for statistical significance was p\<0.05|Wilcoxon (Mann-Whitney)|||"Total duration of postoperative invasive mechanical ventilation was analyzed by treatment group using summary statistics, and was compared between citrulline and placebo groups using an ANOVA.~Kaplan-Meier analyses were performed for: 1) zero durations censored, 2) zero durations uncensored, 3) patients with zero duration excluded. The same analyses were performed with re-intubation time removed."||73.4|-9.5|0.0222
92409760|NCT01120964|184710147|OTHER||Mean Difference (Final Values)|32.0||||0.0222|TWO_SIDED|95.0|-9.5|73.4||Re-intubation time included. Threshold for significance was p\<0.05|t-test, 2 sided|||Analyses presented herein are for re-intubation time included.||73.4|-9.5|0.0222
92409761|NCT01120964|184710148|OTHER||Mean Difference (Final Values)|50.7||||0.0418|TWO_SIDED|95.0|5.4|96.0||The threshold for significance was P\<0.05|Wilcoxon (Mann-Whitney)|||||96.0|5.4|0.0418
92409762|NCT01120964|184710149|OTHER||Mean Difference (Final Values)|12.7||||0.0727|TWO_SIDED|95.0|-2.6|28.1||The threshold for significance was p\<0.05|Wilcoxon (Mann-Whitney)|||||28.1|-2.6|0.0727
92409763|NCT01120964|184710150|OTHER||Mean Difference (Final Values)|559.8||||0.1271|TWO_SIDED|95.0|-193.5|1313.2|||Wilcoxon (Mann-Whitney)|||||1313.2|-193.5|0.1271
92409764|NCT01120964|184710151|OTHER||Mean Difference (Final Values)|3.5||||0.972|TWO_SIDED|95.0|-7.0|14.1|||Wilcoxon (Mann-Whitney)|||||14.1|-7.0|0.9720
92409765|NCT01120964|184710152|OTHER||Mean Difference (Final Values)|5.2||||0.8884|TWO_SIDED|95.0|-7.7|18.0|||Wilcoxon (Mann-Whitney)|||||18.0|-7.7|0.8884
92409766|NCT01120964|184710153|OTHER|Total number of postoperative hours spent in PICU|Mean Difference (Final Values)|69.14||||0.1891|TWO_SIDED|95.0|-49.39|187.67||The threshold for significance was p\<0.05|Wilcoxon (Mann-Whitney)|||||187.67|-49.39|0.1891
92409767|NCT01120964|184710154|OTHER||Mean Difference (Final Values)|30.2||||0.0479|TWO_SIDED|95.0|-10.8|71.1||Duration including re-intubation time. Threshold for significance was p\<0.05|Wilcoxon (Mann-Whitney)|||||71.1|-10.8|0.0479
92409768|NCT01120964|184710155|OTHER||Mean Difference (Final Values)|3.7||||0.2637|TWO_SIDED|95.0|-2.2|9.7|||Wilcoxon (Mann-Whitney)|||||9.7|-2.2|0.2637
92409769|NCT01120964|184710157|OTHER||Mean Difference (Final Values)|7.5||||0.6431|TWO_SIDED|95.0|-25.9|41.0|||t-test, 2 sided|||||41.0|-25.9|0.6431
92409770|NCT01120964|184710158|OTHER||Mean Difference (Final Values)|39.5||||0.6408|TWO_SIDED|95.0|-134.2|213.1|||ANOVA|||||213.1|-134.2|0.6408
92409771|NCT04976192|184710226|OTHER||LS Mean Difference|-0.31|||||TWO_SIDED|95.0|-1.56|0.94||||||||0.94|-1.56|
92409772|NCT04976192|184710227|OTHER||LS Mean Difference|-0.39|||||TWO_SIDED|90.0|-1.37|0.58||||||||0.58|-1.37|
92409773|NCT04976192|184710227|OTHER||Relative Potency|0.89|||||||||||||Relative potency of TEV-45779 and XOLAIR is a co-primary efficacy endpoint for FDA submission.|The relative potency of the test drug to the reference drug was defined as the dose of the test drug that produced the same biological response as 1 unit of the dose of the reference drug. Relative potency was demonstrated if the 90% confidence interval (CI) for relative potency fell entirely within the equivalence margins.||||
92277907|NCT01075763|184458013|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.29
92409774|NCT05407064|184710254|SUPERIORITY|Mean change from baseline and mean difference between MM120 dose groups and placebo were estimated using model averaging method (of 3 models). The minimally efficacious dose was defined as a placebo-adjusted improvement of 2.5 points on the HAM-A, with a statistical significance set at an alpha level of 0.05.||||||||||||||||The primary endpoint was evaluated by determining if there was a dose-response relationship between the change from baseline to Week 4 in total HAM-A score and the dose administered using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed, and multiple comparison techniques were used to choose the model(s) likely to present the true underlying dose-response curve.|A test statistic was derived from the data using an ANCOVA model with change from Baseline to Week 4 for the HAM-A Total Score as a response variable, treatment arm and Baseline value of HAM-A Total Score as covariates. The ANCOVA model was repeated for each imputed dataset, which resulted in a set of LS mean estimates for all dose groups and the related covariance matrices. Rubin's rule was used to combine the multiple sets of LS mean estimates and the related covariance matrices to a single set of LS mean estimates of change from Baseline to Week 4 for HAM-A Total Score for all dose groups and the related covariance matrix. The SAS procedure PROC MIANALYZE was used to combine the results from imputed datasets.|||
92409775|NCT05407064|184710255|SUPERIORITY|Mean change from baseline and mean difference between MM120 dose groups and placebo were estimated using model averaging method (of 3 models). The minimally efficacious dose was defined as a placebo-adjusted improvement of 2.5 points on the HAM-A, with a statistical significance set at an alpha level of 0.05.||||||||||||||||The primary endpoint was evaluated by determining if there was a dose-response relationship between the change from baseline to Week 8 in total HAM-A score and the dose administered using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed, and multiple comparison techniques were used to choose the model(s) likely to present the true underlying dose-response curve.|A test statistic was derived from the data using an ANCOVA model with change from Baseline to Week 8 for the HAM-A Total Score as a response variable, treatment arm and Baseline value of HAM-A Total Score as covariates. The ANCOVA model was repeated for each imputed dataset, which resulted in a set of LS mean estimates for all dose groups and the related covariance matrices. Rubin's rule was used to combine the multiple sets of LS mean estimates and the related covariance matrices to a single set of LS mean estimates of change from Baseline to Week 8 for HAM-A Total Score for all dose groups and the related covariance matrix. The SAS procedure PROC MIANALYZE was used to combine the results from imputed datasets.|||
92409776|NCT05407064|184710256|SUPERIORITY|||||||0.1157|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.1157
92409777|NCT05407064|184710256|SUPERIORITY|||||||0.663|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.6630
92409778|NCT05407064|184710256|SUPERIORITY|||||||0.0004|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0004
92409779|NCT05407064|184710256|SUPERIORITY|||||||0.01|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0100
92409780|NCT05407064|184710257|SUPERIORITY|||||||0.2309|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.2309
92409781|NCT05407064|184710257|SUPERIORITY|||||||0.7218|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.7218
92409782|NCT05407064|184710257|SUPERIORITY|||||||0.0637|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0637
92409783|NCT05407064|184710257|SUPERIORITY|||||||0.0216|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0216
92409784|NCT05407064|184710258|SUPERIORITY|||||||0.1006|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.1006
92409785|NCT05407064|184710258|SUPERIORITY|||||||0.2225|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.2225
92409786|NCT05407064|184710258|SUPERIORITY|||||||0.0025|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0025
92409787|NCT05407064|184710258|SUPERIORITY|||||||0.0042|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0042
92409788|NCT05407064|184710259|SUPERIORITY|||||||0.6258|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.6258
92409789|NCT05407064|184710259|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.95
92409790|NCT05407064|184710259|SUPERIORITY|||||||0.0174|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0174
92409791|NCT05407064|184710259|SUPERIORITY|||||||0.0206|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0206
92409792|NCT05407064|184710260|SUPERIORITY|||||||0.5538|||||||t-test, 2 sided|||Assessment of change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.5538
92277908|NCT01075763|184458013|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||t-test, 2 sided|||For Week 12: the difference between the two groups was analyzed using t-test.||||0.36
92277909|NCT01075763|184458013|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.68
92277910|NCT01075763|184458013|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.41
92409793|NCT05407064|184710260|SUPERIORITY|||||||0.665|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.6650
92409794|NCT05407064|184710260|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0190
92409795|NCT05407064|184710260|SUPERIORITY|||||||0.0034|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0034
92409796|NCT05407064|184710261|SUPERIORITY|||||||0.7236|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.7236
92409797|NCT05407064|184710261|SUPERIORITY|||||||0.9738|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.9738
92409798|NCT05407064|184710261|SUPERIORITY|||||||0.0338|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0338
92409799|NCT05407064|184710261|SUPERIORITY|||||||0.0282|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0282
92409800|NCT05407064|184710262|SUPERIORITY|||||||0.9302|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.9302
92409801|NCT05407064|184710262|SUPERIORITY|||||||0.6763|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.6763
92409802|NCT05407064|184710262|SUPERIORITY|||||||0.0816|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0816
92409803|NCT05407064|184710262|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0190
92409804|NCT05407064|184710263|SUPERIORITY|||||||0.5647|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.5647
92409805|NCT05407064|184710263|SUPERIORITY|||||||0.3497|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.3497
92409806|NCT05407064|184710263|SUPERIORITY|||||||0.0229|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0229
92409807|NCT05407064|184710263|SUPERIORITY|||||||0.0073|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0073
92409808|NCT05407064|184710264|SUPERIORITY|||||||0.0158|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0158
92409809|NCT05407064|184710264|SUPERIORITY|||||||0.0429|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0429
92409810|NCT05407064|184710264|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0001
92409811|NCT05407064|184710264|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0000
92409812|NCT05407064|184710265|SUPERIORITY|||||||0.0804|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0804
92409813|NCT05407064|184710265|SUPERIORITY|||||||0.0532|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0532
92409814|NCT05407064|184710265|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0001
92409815|NCT05407064|184710265|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0000
92409816|NCT05407064|184710266|SUPERIORITY|||||||0.2152|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.2152
92409817|NCT05407064|184710266|SUPERIORITY|||||||0.3369|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.3369
92409818|NCT05407064|184710266|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0010
92409819|NCT05407064|184710266|SUPERIORITY|||||||0.0046|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0046
92409820|NCT05407064|184710267|SUPERIORITY|||||||0.4489|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.4489
92409821|NCT05407064|184710267|SUPERIORITY|||||||0.7326|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.7326
92409822|NCT05407064|184710267|SUPERIORITY|||||||0.0492|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0492
92409823|NCT05407064|184710267|SUPERIORITY|||||||0.0131|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0131
92409824|NCT05407064|184710268|SUPERIORITY|||||||0.333|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.3330
92409825|NCT05407064|184710268|SUPERIORITY|||||||0.1193|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.1193
92409826|NCT05407064|184710268|SUPERIORITY|||||||0.0032|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0032
92409827|NCT05407064|184710268|SUPERIORITY|||||||0.0127|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0127
92409828|NCT05407064|184710269|SUPERIORITY|||||||0.0046|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0046
92277911|NCT01075763|184458014|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.86
92409829|NCT05407064|184710269|SUPERIORITY|||||||0.0052|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0052
92409830|NCT05407064|184710269|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0000
92409831|NCT05407064|184710269|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0000
92409832|NCT05407064|184710270|SUPERIORITY|||||||0.0567|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0567
92229381|NCT01264939|184361303|SUPERIORITY_OR_OTHER|||||||0.0006||95.0||||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||0.0006
92409833|NCT05407064|184710270|SUPERIORITY|||||||0.0235|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0235
92409834|NCT05407064|184710270|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0000
92409835|NCT05407064|184710270|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0000
92409836|NCT05407064|184710271|SUPERIORITY|||||||0.2632|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.2632
92409837|NCT05407064|184710271|SUPERIORITY|||||||0.2962|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.2962
92409838|NCT05407064|184710271|SUPERIORITY|||||||0.0013|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0013
92409839|NCT05407064|184710271|SUPERIORITY|||||||0.0547|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0547
92409840|NCT05407064|184710272|SUPERIORITY|||||||0.0937|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0937
92409841|NCT05407064|184710272|SUPERIORITY|||||||0.823|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.8230
92409842|NCT05407064|184710272|SUPERIORITY|||||||0.0032|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0032
92409843|NCT05407064|184710272|SUPERIORITY|||||||0.0129|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0129
92409844|NCT05407064|184710273|SUPERIORITY|||||||0.1889|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1889
92409845|NCT05407064|184710273|SUPERIORITY|||||||0.1589|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1589
92409846|NCT05407064|184710273|SUPERIORITY|||||||0.0008|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0008
92409847|NCT05407064|184710273|SUPERIORITY|||||||0.0194|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0194
92409848|NCT05407064|184710274|SUPERIORITY|||||||0.0057|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0057
92409849|NCT05407064|184710274|SUPERIORITY|||||||0.0168|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0168
92409850|NCT05407064|184710274|SUPERIORITY|||||||0|||||||t-test, 2 sided|||||||0.0000
92409851|NCT05407064|184710274|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0000
92409852|NCT05407064|184710275|SUPERIORITY|||||||0.0958|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0958
92409853|NCT05407064|184710275|SUPERIORITY|||||||0.0544|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0544
92409854|NCT05407064|184710275|SUPERIORITY|||||||0.0029|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0029
92409855|NCT05407064|184710275|SUPERIORITY|||||||0.0006|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0006
92409856|NCT05407064|184710276|SUPERIORITY|||||||0.2038|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test)||||0.2038
92409857|NCT05407064|184710276|SUPERIORITY|||||||0.1977|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test)||||0.1977
92409858|NCT05407064|184710276|SUPERIORITY|||||||0.0357|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test)||||0.0357
92409859|NCT05407064|184710276|SUPERIORITY|||||||0.0302|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test)||||0.0302
92277912|NCT01075763|184458014|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.62
92277913|NCT01075763|184458014|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.21
92409860|NCT05407064|184710277|SUPERIORITY|||||||0.2165|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.2165
92409861|NCT05407064|184710277|SUPERIORITY|||||||0.6868|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.6868
92409862|NCT05407064|184710277|SUPERIORITY|||||||0.135|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.1350
92409863|NCT05407064|184710277|SUPERIORITY|||||||0.0273|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0273
92409864|NCT05407064|184710278|SUPERIORITY|||||||0.245|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.2450
92409865|NCT05407064|184710278|SUPERIORITY|||||||0.3461|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.3461
92409866|NCT05407064|184710278|SUPERIORITY|||||||0.111|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.1110
92409867|NCT05407064|184710278|SUPERIORITY|||||||0.2386|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.2386
92409868|NCT05407064|184710279|SUPERIORITY|||||||0.1475|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1475
92277914|NCT01075763|184458015|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.95
92409869|NCT05407064|184710279|SUPERIORITY|||||||0.0308|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0308
92409870|NCT05407064|184710279|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0000
92409871|NCT05407064|184710279|SUPERIORITY|||||||0.0004|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0004
92409872|NCT05407064|184710280|SUPERIORITY|||||||0.0873|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0873
92409873|NCT05407064|184710280|SUPERIORITY|||||||0.1702|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1702
92409874|NCT05407064|184710280|SUPERIORITY|||||||0.0007|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0007
92409875|NCT05407064|184710280|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0001
92409876|NCT05407064|184710281|SUPERIORITY|||||||0.4193|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.4193
92409877|NCT05407064|184710281|SUPERIORITY|||||||0.1663|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1663
92409878|NCT05407064|184710281|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0002
92409879|NCT05407064|184710281|SUPERIORITY|||||||0.0306|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0306
92409880|NCT05407064|184710282|SUPERIORITY|||||||0.0534|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test||||0.0534
92409881|NCT05407064|184710282|SUPERIORITY|||||||0.6551|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test||||0.6551
92409882|NCT05407064|184710282|SUPERIORITY|||||||0.0079|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test||||0.0079
92409883|NCT05407064|184710282|SUPERIORITY|||||||0.1133|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test||||0.1133
92277915|NCT01075763|184458015|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.73
92409884|NCT05407064|184710283|SUPERIORITY|||||||0.1248|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1248
92409885|NCT05407064|184710283|SUPERIORITY|||||||0.1788|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1788
92409886|NCT05407064|184710283|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0030
92409887|NCT05407064|184710283|SUPERIORITY|||||||0.0534|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0534
92409888|NCT02160899|184710354|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
92409889|NCT02160899|184710354|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
92409890|NCT02160899|184710354|SUPERIORITY|||||||0.044|||||||Exact Wilcoxon Rank Sum Test|||||||0.044
92409891|NCT04473235|184710360|SUPERIORITY||Mean Difference (Final Values)|-0.799|STANDARD_ERROR_OF_MEAN|1.3||0.531|TWO_SIDED||||||t-test, 2 sided|||||||0.531
92409892|NCT04473235|184710361|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.627|TWO_SIDED||||||t-test, 2 sided|||Difference in the connectivity between the left hippocampus and left prefrontal cortex.||||0.627
92409893|NCT04473235|184710361|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.12|TWO_SIDED||||||t-test, 2 sided|||Difference in the connectivity between the right hippocampus and right prefrontal cortex.||||0.120
92409894|NCT00745849|184710388|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||0.45
92409895|NCT02785770|184710392|SUPERIORITY_OR_OTHER||LS mean difference|0.96||||0.454|TWO_SIDED|90.0|-1.15|3.07|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||3.07|-1.15|0.4540
92409896|NCT02785770|184710392|SUPERIORITY_OR_OTHER||LS mean difference|7.88|||<|0.0001|TWO_SIDED|90.0|5.77|9.99|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||9.99|5.77|< 0.0001
92409897|NCT02785770|184710392|SUPERIORITY_OR_OTHER||LS mean difference|11.33|||<|0.0001|TWO_SIDED|90.0|9.22|13.44|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||13.44|9.22|< 0.0001
92409898|NCT02785770|184710392|SUPERIORITY_OR_OTHER||LS mean difference|8.59|||<|0.0001|TWO_SIDED|90.0|6.48|10.7|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||10.70|6.48|< 0.0001
92169102|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.65|-0.23|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.23|-0.65|<0.0001
92409899|NCT02785770|184710392|SUPERIORITY_OR_OTHER||LS mean difference|8.96|||<|0.0001|TWO_SIDED|90.0|6.85|11.07|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||11.07|6.85|< 0.0001
92409900|NCT02785770|184710392|SUPERIORITY_OR_OTHER||LS mean difference|8.07|||<|0.0001|TWO_SIDED|90.0|5.96|10.18|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||10.18|5.96|< 0.0001
92409901|NCT02785770|184710392|SUPERIORITY_OR_OTHER||LS mean difference|5.53|||<|0.0001|TWO_SIDED|90.0|3.42|7.64|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||7.64|3.42|< 0.0001
92409902|NCT02785770|184710392|SUPERIORITY_OR_OTHER||LS mean difference|3.74||||0.0036|TWO_SIDED|90.0|1.64|5.85|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||5.85|1.64|0.0036
92409903|NCT02785770|184710393|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-0.29||||0.8195|TWO_SIDED|90.0|-2.38|1.8|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.80|-2.38|0.8195
92409904|NCT02785770|184710393|SUPERIORITY_OR_OTHER||LS Mean Difference|4.54||||0.0004|TWO_SIDED|90.0|2.44|6.64|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||6.64|2.44|0.0004
92409905|NCT02785770|184710394|SUPERIORITY_OR_OTHER||LS mean difference|0.14||||0.9146|TWO_SIDED|90.0|-1.95|2.22|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.22|-1.95|0.9146
92409906|NCT02785770|184710394|SUPERIORITY_OR_OTHER||LS mean difference|5.04|||<|0.0001|TWO_SIDED|90.0|2.95|7.14|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||7.14|2.95|<0.0001
92409907|NCT02785770|184710395|SUPERIORITY_OR_OTHER||LS mean difference|1.24||||0.3272|TWO_SIDED|90.0|-0.84|3.33|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||3.33|-0.84|0.3272
92409908|NCT02785770|184710395|SUPERIORITY_OR_OTHER||LS mean difference|4.26||||0.0009|TWO_SIDED|90.0|2.16|6.36|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||6.36|2.16|0.0009
92169103|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.298|TWO_SIDED|95.0|-0.4|0.12|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.12|-0.40|0.2980
92409909|NCT02785770|184710396|SUPERIORITY_OR_OTHER||LS mean difference|-0.48||||0.7024|TWO_SIDED|90.0|-2.57|1.6|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.60|-2.57|0.7024
92409910|NCT02785770|184710396|SUPERIORITY_OR_OTHER||LS mean difference|2.26||||0.0768|TWO_SIDED|90.0|0.16|4.36|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||4.36|0.16|0.0768
92409911|NCT02785770|184710397|SUPERIORITY_OR_OTHER||LS mean difference|-1.97||||0.1201|TWO_SIDED|90.0|-4.06|0.12|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.12|-4.06|0.1201
92409912|NCT02785770|184710397|SUPERIORITY_OR_OTHER||LS mean difference|1.21||||0.3424|TWO_SIDED|90.0|-0.89|3.31|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||3.31|-0.89|0.3424
92409913|NCT02785770|184710398|SUPERIORITY_OR_OTHER||LS mean difference|-1.35||||0.287|TWO_SIDED|90.0|-3.44|0.74|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.74|-3.44|0.2870
92240237|NCT00051558|184383962|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92409914|NCT02785770|184710398|SUPERIORITY_OR_OTHER||LS mean difference|-0.11||||0.9334|TWO_SIDED|90.0|-2.21|1.99|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.99|-2.21|0.9334
92409915|NCT02785770|184710399|SUPERIORITY_OR_OTHER||LS mean difference|-2.16||||0.0893|TWO_SIDED|90.0|-4.24|-0.07|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.07|-4.24|0.0893
92409916|NCT02785770|184710399|SUPERIORITY_OR_OTHER||LS mean difference|-2.61||||0.0412|TWO_SIDED|90.0|-4.71|-0.51|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.51|-4.71|0.0412
92277916|NCT01075763|184458015|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.30
92409917|NCT02785770|184710400|SUPERIORITY_OR_OTHER||LS mean difference|-1.34||||0.2892|TWO_SIDED|90.0|-3.43|0.74|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.74|-3.43|0.2892
92409918|NCT02785770|184710400|SUPERIORITY_OR_OTHER||LS mean difference|-2.78||||0.0294|TWO_SIDED|90.0|-4.88|-0.68|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.68|-4.88|0.0294
92409919|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|1.28||||0.16|TWO_SIDED|90.0|-0.22|2.78|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.78|-0.22|0.1600
92409920|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|2.38||||0.0092|TWO_SIDED|90.0|0.88|3.87|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||3.87|0.88|0.0092
92409921|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|0.91||||0.3174|TWO_SIDED|90.0|-0.59|2.41|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.41|-0.59|0.3174
92409922|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|-0.31||||0.7344|TWO_SIDED|90.0|-1.81|1.19|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.19|-1.81|0.7344
92409923|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|0.49||||0.5881|TWO_SIDED|90.0|-1.0|1.99|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.99|-1.00|0.5881
92409924|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|-0.82||||0.368|TWO_SIDED|90.0|-2.32|0.68|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.68|-2.32|0.3680
92277917|NCT01075763|184458017|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.80
92409925|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|-0.73||||0.42|TWO_SIDED|90.0|-2.23|0.76|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.76|-2.23|0.4200
92409926|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|-3.03||||0.0009|TWO_SIDED|90.0|-4.53|-1.53|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-1.53|-4.53|0.0009
92409927|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|4.46|||<|0.0001|TWO_SIDED|90.0|2.96|5.97|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||5.97|2.96|< 0.0001
92409928|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|5.83|||<|0.0001|TWO_SIDED|90.0|4.32|7.33|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||7.33|4.32|< 0.0001
92409929|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|4.09|||<|0.0001|TWO_SIDED|90.0|2.58|5.59|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||5.59|2.58|< 0.0001
92277918|NCT01075763|184458017|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.74
92277919|NCT01075763|184458017|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.12
92409930|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|2.53||||0.0059|TWO_SIDED|90.0|1.02|4.03|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||4.03|1.02|0.0059
92409931|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|2.5||||0.0063|TWO_SIDED|90.0|1.0|4.01|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||4.01|1.00|0.0063
92409932|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|1.45||||0.1138|TWO_SIDED|90.0|-0.06|2.95|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.95|-0.06|0.1138
92409933|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|-0.36||||0.6976|TWO_SIDED|90.0|-1.86|1.15|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.15|-1.86|0.6976
92409934|NCT02785770|184710401|SUPERIORITY_OR_OTHER||LS mean difference|-2.12||||0.0208|TWO_SIDED|90.0|-3.62|-0.61|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.61|-3.62|0.0208
92169104|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.13||0.0179|TWO_SIDED|95.0|-0.58|-0.05|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.58|0.0179
92169105|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.13||0.2328|TWO_SIDED|95.0|-0.42|0.1|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.10|-0.42|0.2328
92277920|NCT01075763|184458018|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.53
92277921|NCT01075763|184458018|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.85
92277922|NCT01075763|184458018|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.85
92409935|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-0.64||||0.576|TWO_SIDED|90.0|-2.53|1.25|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.25|-2.53|0.5760
92409936|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-0.94||||0.4126|TWO_SIDED|90.0|-2.83|0.95|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.95|-2.83|0.4126
92409937|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-1.17||||0.3085|TWO_SIDED|90.0|-3.06|0.72|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.72|-3.06|0.3085
92409938|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-0.99||||0.3889|TWO_SIDED|90.0|-2.88|0.9|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.90|-2.88|0.3889
92409939|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-0.57||||0.6192|TWO_SIDED|90.0|-2.46|1.32|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.32|-2.46|0.6192
92409940|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-2.45||||0.0332|TWO_SIDED|90.0|-4.34|-0.56|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.56|-4.34|0.0332
92409941|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-0.41||||0.7224|TWO_SIDED|90.0|-2.3|1.48|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.48|-2.30|0.7224
92409942|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|0.52||||0.6507|TWO_SIDED|90.0|-1.37|2.41|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.41|-1.37|0.6507
92409943|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-1.72||||0.1366|TWO_SIDED|90.0|-3.62|0.18|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.18|-3.62|0.1366
92409944|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-2.81||||0.0153|TWO_SIDED|90.0|-4.71|-0.91|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.91|-4.71|0.0153
92409945|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-1.88||||0.104|TWO_SIDED|90.0|-3.78|0.02|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.02|-3.78|0.1040
92409946|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-1.51||||0.1924|TWO_SIDED|90.0|-3.41|0.4|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.40|-3.41|0.1924
92409947|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-1.94||||0.0928|TWO_SIDED|90.0|-3.84|-0.04|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.04|-3.84|0.0928
92229382|NCT01264939|184361304|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
92277923|NCT00586521|184458019|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The primary outcome measure was analyzed by paired t-test and Wilcoxon test (number of joint bleeds prophylaxis treatment compared to number of joint bleeds on-demand treatment) at 6 months of treatment.||||<0.001
92409948|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-2.06||||0.0745|TWO_SIDED|90.0|-3.96|-0.16|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.16|-3.96|0.0745
92409949|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-1.01||||0.3836|TWO_SIDED|90.0|-2.91|0.9|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.90|-2.91|0.3836
92229383|NCT01171612|184361337|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.086||||0.479|TWO_SIDED|95.0|0.513|2.299|||Chi-squared|||Reference group were patients who maintained antiplatelet drugs (aspirin and/or clopidogrel) during the 4 days before surgery||2.299|0.513|0.479
92409950|NCT02785770|184710402|SUPERIORITY_OR_OTHER||LS mean difference|-2.07||||0.0734|TWO_SIDED|90.0|-3.97|-0.17|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.17|-3.97|0.0734
92409951|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|0.8||||0.2588|TWO_SIDED|90.0|-0.36|1.96|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.96|-0.36|0.2588
92409952|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|0.14||||0.8465|TWO_SIDED|90.0|-1.03|1.3|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.30|-1.03|0.8465
92409953|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|1.02||||0.1502|TWO_SIDED|90.0|-0.15|2.18|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.18|-0.15|0.1502
92229384|NCT01171612|184361337|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.638||||0.479|TWO_SIDED|95.0|0.733|3.662|||Chi-squared|||||3.662|0.733|0.479
92409954|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|-0.03||||0.97|TWO_SIDED|90.0|-1.19|1.14|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.14|-1.19|0.9700
92169106|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.14||0.1019|TWO_SIDED|95.0|-0.49|0.04|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.04|-0.49|0.1019
92169107|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.14||0.4002|TWO_SIDED|95.0|-0.38|0.15|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.15|-0.38|0.4002
92229385|NCT00565617|184361340|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED||||||ANOVA|||||||0.009
92229386|NCT01173653|184361355|SUPERIORITY_OR_OTHER||Chi square|23.02|||<|0.05|||||||Chi-squared|||||||<0.05
92374986|NCT03832114|184652589|OTHER||Mean Difference (Final Values)|1.32||||0.3754|TWO_SIDED|80.0|-0.59|3.22|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 84||3.22|-0.59|0.3754
92374987|NCT03832114|184652590|OTHER||Mean Difference (Final Values)|-5.04||||0.1364|TWO_SIDED|80.0|-9.36|-0.72|||Mixed Model Repeated Measuers (MMRM)|||Day 84||-0.72|-9.36|0.1364
92374988|NCT03832114|184652590|OTHER||Mean Difference (Final Values)|7.17||||0.3038|TWO_SIDED|80.0|-1.79|16.13|||Mixed Model Repeated Measures (MMRM)|||Day 84||16.13|-1.79|0.3038
92374989|NCT03832114|184652590|OTHER||Mean Difference (Final Values)|-0.77||||0.8352|TWO_SIDED|80.0|-5.56|4.01|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 84||4.01|-5.56|0.8352
92374990|NCT03832114|184652591|OTHER||Mean Difference (Final Values)|1.07||||0.2752|TWO_SIDED|80.0|0.99|1.17|||Mixed Model Repeated Measures (MMRM)|||Day 84||1.17|0.99|0.2752
92374991|NCT03832114|184652591|OTHER||Mean Difference (Final Values)|1.2||||0.476|TWO_SIDED|80.0|0.83|1.72|||Mixed Model Repeated Measures (MMRM)|||Day 84||1.72|0.83|0.476
92374992|NCT03832114|184652591|OTHER||Mean Difference (Final Values)|1.1||||0.1963|TWO_SIDED|80.0|1.0|1.2|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 84||1.20|1.00|0.1963
92374993|NCT03832114|184652593|OTHER||Mean Difference (Final Values)|0.56|||<|0.0001|TWO_SIDED|80.0|0.48|0.65|||Mixed Model Repeated Measures (MMRM)|||Day 64||0.65|0.48|<0.0001
92374994|NCT03832114|184652593|OTHER||Mean Difference (Final Values)|0.99||||0.9544|TWO_SIDED|80.0|0.76|1.28|||Mixed Model Repeated Measures (MMRM)|||Day 64||1.28|0.76|0.9544
92374995|NCT03832114|184652593|OTHER||Mean Difference (Final Values)|0.64|||<|0.0001|TWO_SIDED|80.0|0.56|0.72|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 64||0.72|0.56|<.0001
92374996|NCT03832114|184652594|OTHER||Mean Difference (Final Values)|0.59|||<|0.0001|TWO_SIDED|80.0|0.5|0.69|||Mixed Model Repeated Measures (MMRM)|||Day 64||0.69|0.50|<.0001
92374997|NCT03832114|184652594|OTHER||Median Difference (Final Values)|0.87||||0.6209|TWO_SIDED|80.0|0.6|1.26|||Mixed Model Repeated Measures (MMRM)|||Day 64||1.26|0.60|0.6209
92374998|NCT03832114|184652594|OTHER||Mean Difference (Final Values)|0.63||||0.0002|TWO_SIDED|80.0|0.54|0.73|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 64||0.73|0.54|0.0002
92374999|NCT01939002|184652614|SUPERIORITY_OR_OTHER||||||<|0.0001||||||1-sample Chi-square test comparing to Null hypotheses at 25%.|Chi-squared|||||||<0.0001
92375000|NCT01939002|184652615|SUPERIORITY_OR_OTHER|||||||0.2037||||||Chi-square test between 2 treatment arms.|Chi-squared|||||||0.2037
92375001|NCT01939002|184652617|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|McNemar tests the null hypothesis of no difference in FLS between 4WRI and F8W.||||||1.00
92375002|NCT01939002|184652617|SUPERIORITY_OR_OTHER|||||||0.5078|||||||McNemar|||||||0.5078
92375003|NCT01939002|184652617|SUPERIORITY_OR_OTHER|||||||0.5811|||||||McNemar|||||||0.5811
92375004|NCT01939002|184652618|SUPERIORITY_OR_OTHER|||||||0.0525|||||||McNemar|||||||0.0525
92375005|NCT01939002|184652618|SUPERIORITY_OR_OTHER|||||||0.0654|||||||McNemar|||||||0.0654
92375006|NCT01939002|184652618|SUPERIORITY_OR_OTHER|||||||0.5488|||||||McNemar|||||||0.5488
92375007|NCT01939002|184652619|SUPERIORITY_OR_OTHER|||||||0.0945|||||||paired t-test within 1 arm|||||||0.0945
92375008|NCT01939002|184652619|SUPERIORITY_OR_OTHER|||||||0.8246|||||||paired t-test within 1 arm|||||||0.8246
92375009|NCT01939002|184652619|SUPERIORITY_OR_OTHER|||||||0.2533|||||||paired t-test within 1 arm|||||||0.2533
92375010|NCT01939002|184652619|SUPERIORITY_OR_OTHER|||||||0.1631|||||||2-sample t-test between 2 arms|||||||0.1631
92375011|NCT01939002|184652620|SUPERIORITY_OR_OTHER|||||||0.3189|||||||paired t-test within 1 arm|||||||0.3189
92375012|NCT01939002|184652620|SUPERIORITY_OR_OTHER|||||||0.3582|||||||paired t-test within 1 arm|||||||0.3582
92375013|NCT01939002|184652620|SUPERIORITY_OR_OTHER|||||||0.8484|||||||paired t-test within 1 arm|||||||0.8484
92375014|NCT01939002|184652620|SUPERIORITY_OR_OTHER|||||||0.1771|||||||2-sample t-test between 2 arms|||||||0.1771
92375015|NCT01939002|184652621|SUPERIORITY_OR_OTHER|||||||0.0009|||||||paired t-test within 1 arm|||||||0.0009
92375016|NCT01939002|184652621|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||||||<0.0001
92375017|NCT01939002|184652621|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||||||<0.0001
92375018|NCT01939002|184652621|SUPERIORITY_OR_OTHER|||||||0.3792|||||||2-sample t-test between 2 arms|||||||0.3792
92375019|NCT01939002|184652622|SUPERIORITY_OR_OTHER|||||||0.0019|||||||paired t-test within 1 arm|||||||0.0019
92375020|NCT01939002|184652622|SUPERIORITY_OR_OTHER|||||||0.0009|||||||paired t-test within 1 arm|||||||0.0009
92375021|NCT01939002|184652622|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||||||<0.0001
92375022|NCT01939002|184652623|SUPERIORITY_OR_OTHER|||||||0.0105|||||||paired t-test within 1 arm|||||||0.0105
92375023|NCT01939002|184652623|SUPERIORITY_OR_OTHER|||||||0.0789|||||||paired t-test within 1 arm|||||||0.0789
92409955|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|-1.18||||0.0947|TWO_SIDED|90.0|-2.34|-0.02|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.02|-2.34|0.0947
92409956|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|0.2||||0.7759|TWO_SIDED|90.0|-0.96|1.36|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.36|-0.96|0.7759
92375024|NCT01939002|184652623|SUPERIORITY_OR_OTHER|||||||0.0027|||||||paired t-test within 1 arm|||||||0.0027
92409957|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|0.03||||0.9649|TWO_SIDED|90.0|-1.13|1.19|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.19|-1.13|0.9649
92409958|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|0.09||||0.9034|TWO_SIDED|90.0|-1.08|1.25|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.25|-1.08|0.9034
92409959|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|-0.68||||0.3391|TWO_SIDED|90.0|-1.85|0.49|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.49|-1.85|0.3391
92409960|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|-1.19||||0.0948|TWO_SIDED|90.0|-2.35|-0.02|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.02|-2.35|0.0948
92409961|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|-0.74||||0.2959|TWO_SIDED|90.0|-1.91|0.43|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.43|-1.91|0.2959
92409962|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|-0.07||||0.9161|TWO_SIDED|90.0|-1.24|1.09|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.09|-1.24|0.9161
92409963|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|-2.07||||0.0036|TWO_SIDED|90.0|-3.24|-0.91|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.91|-3.24|0.0036
92409964|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|-0.73||||0.3063|TWO_SIDED|90.0|-1.89|0.44|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.44|-1.89|0.3063
92409965|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|-0.49||||0.4918|TWO_SIDED|90.0|-1.65|0.68|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.68|-1.65|0.4918
92240238|NCT00051558|184383963|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for 36 month endpoint|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline lumbar spine bone mineral density (BMD) measurement.||||<0.001
92375025|NCT01939002|184652623|SUPERIORITY_OR_OTHER|||||||0.838|||||||2-sample t-test between 2 arms|||||||0.8380
92409966|NCT02785770|184710403|SUPERIORITY_OR_OTHER||LS mean difference|-0.61||||0.3862|TWO_SIDED|90.0|-1.78|0.55|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.55|-1.78|0.3862
92375026|NCT01939002|184652624|SUPERIORITY_OR_OTHER|||||||0.1407|||||||paired t-test within 1 arm|||||||0.1407
92375027|NCT01939002|184652624|SUPERIORITY_OR_OTHER|||||||0.7805|||||||paired t-test within 1 arm|||||||0.7805
92375028|NCT01939002|184652624|SUPERIORITY_OR_OTHER|||||||0.2186|||||||paired t-test within 1 arm|||||||0.2186
92375029|NCT01939002|184652624|SUPERIORITY_OR_OTHER|||||||0.4234|||||||2-sample t-test between 2 arms|||||||0.4234
92375030|NCT01939002|184652625|SUPERIORITY_OR_OTHER|||||||0.009|||||||paired t-test within 1 arm|||||||0.0090
92375031|NCT01939002|184652625|SUPERIORITY_OR_OTHER|||||||0.0075|||||||paired t-test within 1 arm|||||||0.0075
92375032|NCT01939002|184652625|SUPERIORITY_OR_OTHER|||||||0.0002|||||||paired t-test within 1 arm|||||||0.0002
92375033|NCT01939002|184652625|SUPERIORITY_OR_OTHER|||||||0.7497|||||||2-sample t-test between 2 arms|||||||0.7497
92375034|NCT01939002|184652626|SUPERIORITY_OR_OTHER|||||||0.0545|||||||paired t-test within 1 arm|||||||0.0545
92375035|NCT01939002|184652626|SUPERIORITY_OR_OTHER|||||||0.3377|||||||paired t-test within 1 arm|||||||0.3377
92409967|NCT00813943|184710417|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.686||||0.0328|TWO_SIDED|95.0|0.484|0.972||P-value is not adjusted for multiple testing.|Log Rank|||||0.972|0.484|0.0328
92409968|NCT00813943|184710417|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.858||||0.3771|TWO_SIDED|95.0|0.612|1.204||P-value is not adjusted for multiple testing.|Log Rank|||||1.204|0.612|0.3771
92409969|NCT04075734|184710507|SUPERIORITY|||||||0.59|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.59
92409970|NCT04075734|184710507|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.003
92409971|NCT04075734|184710508|SUPERIORITY|||||||0.03|TWO_SIDED|95.0|||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.03
92409972|NCT04075734|184710509|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.07
92409973|NCT04075734|184710510|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.2
92409974|NCT04075734|184710511|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.006
92409975|NCT04075734|184710512|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.86
92409976|NCT04075734|184710513|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.14
92409977|NCT04075734|184710514|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of intervention over time.||||||0.02
92409978|NCT04075734|184710515|SUPERIORITY|||||||0.29|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.29
92277924|NCT00586521|184458019|SUPERIORITY_OR_OTHER||||||<|0.001|||||||paired t-test|||The maximum individual reduction in the actual number of joint bleeds after the switch to prophylactic treatment was analyzed by a paired t-test of the individual difference between prophylaxis treatment bleed compared to on-demand treatment bleeds.||||<0.001
92375036|NCT01939002|184652626|SUPERIORITY_OR_OTHER|||||||0.0391|||||||paired t-test within 1 arm|||||||0.0391
92375037|NCT01939002|184652626|SUPERIORITY_OR_OTHER|||||||0.4861|||||||2-sample t-test between 2 arms|||||||0.4861
92375038|NCT01939002|184652627|SUPERIORITY_OR_OTHER|||||||0.0834|||||||Fisher Exact|||first 8 weeks||||0.0834
92375039|NCT01939002|184652627|SUPERIORITY_OR_OTHER|||||||0.0767|||||||Fisher Exact|||Weeks 0-2||||0.0767
92375040|NCT01939002|184652627|SUPERIORITY_OR_OTHER|||||||0.732|||||||Fisher Exact|||Weeks 3-4||||0.7320
92375041|NCT01939002|184652627|SUPERIORITY_OR_OTHER|||||||0.5008|||||||Fisher Exact|||Weeks 5-6||||0.5008
92375042|NCT01939002|184652627|SUPERIORITY_OR_OTHER|||||||0.6422|||||||Fisher Exact|||Weeks 7-8||||0.6422
92375043|NCT01939002|184652628|SUPERIORITY_OR_OTHER|||||||0.2123|||||||paired t-test within 1 arm|||change at Week 4||||0.2123
92375044|NCT01939002|184652628|SUPERIORITY_OR_OTHER|||||||0.5834|||||||paired t-test within 1 arm|||change at Week 12||||0.5834
92375045|NCT01939002|184652628|SUPERIORITY_OR_OTHER|||||||0.8723|||||||paired t-test within 1 arm|||change at Week 24||||0.8723
92375046|NCT01939002|184652628|SUPERIORITY_OR_OTHER|||||||0.4173|||||||paired t-test within 1 arm|||change at Week 36||||0.4173
92375047|NCT01939002|184652628|SUPERIORITY_OR_OTHER|||||||0.2267|||||||paired t-test within 1 arm|||change at Week 48||||0.2267
92375048|NCT01939002|184652628|SUPERIORITY_OR_OTHER|||||||0.0171|||||||paired t-test within 1 arm|||change at Early Term||||0.0171
92375049|NCT01939002|184652629|SUPERIORITY_OR_OTHER|||||||0.0001|||||||paired t-test within 1 arm|||change at Week 4||||0.0001
92375050|NCT01939002|184652629|SUPERIORITY_OR_OTHER|||||||0.0007|||||||paired t-test within 1 arm|||change at Week 12||||0.0007
92375051|NCT01939002|184652629|SUPERIORITY_OR_OTHER|||||||0.0365|||||||paired t-test within 1 arm|||change at Week 24||||0.0365
92375052|NCT01939002|184652629|SUPERIORITY_OR_OTHER|||||||0.0197|||||||paired t-test within 1 arm|||change at Week 36||||0.0197
92375053|NCT01939002|184652629|SUPERIORITY_OR_OTHER|||||||0.4031|||||||paired t-test within 1 arm|||change at Week 48||||0.4031
92375054|NCT01939002|184652629|SUPERIORITY_OR_OTHER|||||||0.006|||||||paired t-test within 1 arm|||change at Early Termination||||0.0060
92375055|NCT01939002|184652630|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 4||||<0.0001
92375056|NCT01939002|184652630|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 12||||<0.0001
92375057|NCT01939002|184652630|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 24||||<0.0001
92375058|NCT01939002|184652630|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 36||||<0.0001
92375059|NCT01939002|184652630|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 48||||<0.0001
92375060|NCT01939002|184652630|SUPERIORITY_OR_OTHER|||||||0.1789|||||||paired t-test within 1 arm|||change at Early Termination||||0.1789
92375061|NCT01939002|184652630|SUPERIORITY_OR_OTHER|||||||0.2248||||||p-value on slope is based on general linear model with repeat measures over all visits.|general linear model|||||||0.2248
92375062|NCT01939002|184652631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 4||||<0.0001
92375063|NCT01939002|184652631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 12||||<0.0001
92409979|NCT04075734|184710516|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.13
92409980|NCT04075734|184710517|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.14
92409981|NCT04075734|184710518|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.03
92375064|NCT01939002|184652631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 24||||<0.0001
92229387|NCT00125034|184361356|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.516||||0.064|TWO_SIDED|95.0|0.975|2.335|||stratified Cochran-Mantel-Haenszel test|Stratified odds ratio and Cochran-Mantel-Haenszel (CMH) statistics were calculated considering the randomization strata.||Assuming a difference in rate of best confirmed response of at least 20% between the 2 treatments, ie an approximately 70% response rate under cetuximab plus FOLFOX-4 \& 50% under FOLFOX-4 alone for the stratum with ECOG PS0-1 \& 66% and 45% respectively for the ECOG PS2 stratum, the common OddsR over the strata was expected to be 2.33. A sample size of approximately 146/group was calculated as necessary to detect a significant overall response of at least 2.33 at level α=0.05 with a power of 90%||2.335|0.975|0.064
92277925|NCT00586521|184458020|SUPERIORITY_OR_OTHER||||||<|0.001|||||||paired t-test|||paired t-test (prophylaxis compared to on-demand) at 6 months of treatment.||||<0.001
92409982|NCT04075734|184710519|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.66
92409983|NCT04075734|184710520|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.15
92375065|NCT01939002|184652631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 36||||<0.0001
92375066|NCT01939002|184652631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 48||||<0.0001
92375067|NCT01939002|184652631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Early Termination||||<0.0001
92375068|NCT01939002|184652631|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value on slope is based on general linear model with repeat measures over all visits.|general linear model|||||||<0.0001
92375069|NCT01939002|184652632|SUPERIORITY_OR_OTHER|||||||0.7012|||||||paired t-test within 1 arm|||change at Week 4||||0.7012
92409984|NCT02433080|184710524|OTHER||Mean Difference (Net)|6.4||||0.05|TWO_SIDED|95.0|-3.6|16.5|||ANCOVA|||This statistical analysis applies for the outcomes 2-8.||16.5|-3.6|0.05
92409985|NCT03563183|184710538|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the confimed herpes zoster for Herpes Zoster subunit vaccine Group compared to Placebo Group.|Vaccine Efficacy rate|95.81|||<|0.0001|TWO_SIDED|95.0|91.58|98.22|||Poisson exact test|||Efficacy analysis aimed at comparing the confimed herpes zoster for Herpes Zoster incidence rate between Non-Frail-HZ/su vs Non-Frail-Placebo groups.||98.22|91.58|<0.0001
92409986|NCT03563183|184710538|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the confimed herpes zoster for Herpes Zoster subunit vaccine group compared to placebo people.|Vaccine Efficacy rate|90.4|||<|0.0001|TWO_SIDED|95.0|84.41|94.43|||Poisson exact test|||Efficacy analysis aimed at comparing the confimed herpes zoster for Herpes Zoster incidence rate between Pre-Frail-HZ/su vs Pre-Frail-Placebo groups.||94.43|84.41|<0.0001
92409987|NCT03563183|184710538|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the confimed herpes zoster for Herpes Zoster subunit vaccine group compared to placebo people.|Vaccine Efficacy rate|90.17|||<|0.0001|TWO_SIDED|95.0|75.36|96.65|||Poisson exact test|||Efficacy analysis aimed at comparing the confimed herpes zoster for Herpes Zoster incidence rate between Frail-HZ/su vs Frail-Placebo groups.||96.65|75.36|<0.0001
92409988|NCT03563183|184710538|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the confimed herpes zoster for Herpes Zoster subunit vaccine group compared to placebo people.|Vaccine Efficacy rate|100.0||||0.069|TWO_SIDED|95.0|14.61|100.0|||Poisson exact test|||Efficacy analysis aimed at comparing the confimed herpes zoster for Herpes Zoster incidence rate between Unknown-HZ/su vs Unknown-Placebo groups.||100|14.61|0.069
92409989|NCT03563183|184710539|OTHER|VE against the BOI due to HZ (VE BOI ) was defined as the relative reduction in the BOI score in the vaccine group as compared with that in the placebo group and calculated as 1 - relative risk (i.e., 1- the HZ BOI score in the vaccine group divided by the HZ BOI score in the placebo group).|Vaccine Efficacy rate|98.6|||||TWO_SIDED|95.0|97.1|100.0||||||VE against confirmed HZ BOI and 95% confidence intervals (CIs) are presented by frailty status in the mTVC.||100|97.1|
92409990|NCT03563183|184710539|OTHER|VE against the BOI due to HZ (VE BOI ) was defined as the relative reduction in the BOI score in the vaccine group as compared with that in the placebo group and calculated as 1 - relative risk (i.e., 1- the HZ BOI score in the vaccine group divided by the HZ BOI score in the placebo group).|Vaccine Efficacy rate|92.6|||||TWO_SIDED|95.0|86.6|98.7||||||VE against confirmed HZ BOI and 95% confidence intervals (CIs) are presented by frailty status in the mTVC.||98.7|86.6|
92409991|NCT03563183|184710539|OTHER|VE against the BOI due to HZ (VE BOI ) was defined as the relative reduction in the BOI score in the vaccine group as compared with that in the placebo group and calculated as 1 - relative risk (i.e., 1- the HZ BOI score in the vaccine group divided by the HZ BOI score in the placebo group).|Vaccine Efficacy rate|85.2|||||TWO_SIDED|95.0|62.6|100.0||||||VE against confirmed HZ BOI and 95% confidence intervals (CIs) are presented by frailty status in the mTVC.||100|62.6|
92409992|NCT03563183|184710539|OTHER|VE against the BOI due to HZ (VE BOI ) was defined as the relative reduction in the BOI score in the vaccine group as compared with that in the placebo group and calculated as 1 - relative risk (i.e., 1- the HZ BOI score in the vaccine group divided by the HZ BOI score in the placebo group).|Vaccine Efficacy rate|100.0||||||||||||||VE against the BOI due to confirmed HZ. The 95% Confidence Interval was not calculated as there were no subjects reported with a confirmed Zoster episode in the Unknown-HZ/su Group.||||
92277926|NCT00586521|184458021|SUPERIORITY_OR_OTHER||||||<|0.001|||||||paired t-test|||The Gilbert Score was the sum of 3 scores: pain (0=no pain to 3=severe pain); bleeding score (0=none to 3=3 or more major bleeds or 7 or more minor bleeds); and physical score (based on swelling, muscle atrophy; and axial deformity (at knee or ankle), range of motion, crepitus on motion, flexion contracture, instability.||||<0.001
92277927|NCT00586521|184458022|SUPERIORITY_OR_OTHER|||||||0.314||||||The alpha level for a significant P-value was pre-defined at 5%.|paired t-test|||"The Haemo-QoL A questionnaire measures the subject's self-assessment of disease impact on physical functioning, role functioning, worry, consequences, positive affect, and treatment concern."||||0.314
92409993|NCT02268175|184710550|SUPERIORITY|||||||0.151||||||1-sided|Fisher Exact|||The hypothesis was that treatment with ARM 1 will have a pCR/MRD rate of 35% compared with Arm 2 rate of 10%. Given 75 men randomized in 2:1 ratio to Arm 1 (N=50) or Arm 2 (N=25), there was 84% power to detect this difference, using Fisher's exact test with one-sided type I error of 0.1.||||0.151
92409994|NCT05487196|184710577|NON_INFERIORITY|The noninferiority margin δ was set as the median of fentanyl group + 30 representing a 1-point pain numeric rating scale difference per unit time across the 30-minute initiation period. A conventional 1-sided 95% confidence interval (CI) was constructed using normal distribution assumptions. Analysis was by intent to treat. Comparisons of PI-AUC30 between the three agents were made by one-way ANOVA.||||||0.226|||||||ANOVA|||||||0.226
92409995|NCT05487196|184710578|SUPERIORITY|||||||0.16|||||||ANOVA|||||||0.16
92409996|NCT05487196|184710579|SUPERIORITY|||||||0.03|||||||ANOVA|||||||0.03
92409997|NCT05487196|184710580|SUPERIORITY|||||||0.07|||||||ANOVA|||||||0.07
92409998|NCT05487196|184710581|SUPERIORITY|||||||0.22|||||||ANOVA|||||||0.22
92409999|NCT05487196|184710582|SUPERIORITY|||||||0.28|||||||Fisher Exact|||||||0.28
92410000|NCT05487196|184710583|SUPERIORITY|||||||0.83|||||||Fisher Exact|||||||0.83
92410001|NCT05487196|184710584|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.01
92410002|NCT05487196|184710585|SUPERIORITY|||||||0.36|||||||Fisher Exact|||||||0.36
92410003|NCT05487196|184710586|SUPERIORITY|||||||0.36|||||||Fisher Exact|||||||0.36
92375070|NCT01939002|184652632|SUPERIORITY_OR_OTHER|||||||0.0548|||||||paired t-test within 1 arm|||change at Week 4||||0.0548
92375071|NCT01939002|184652632|SUPERIORITY_OR_OTHER|||||||0.0782|||||||2-sample t-test between 2 arms|||change at Week 4||||0.0782
92375072|NCT01939002|184652633|SUPERIORITY_OR_OTHER|||||||0.0006|||||||paired t-test within 1 arm|||change at Week 4||||0.0006
92375073|NCT01939002|184652633|SUPERIORITY_OR_OTHER|||||||0.0792|||||||paired t-test within 1 arm|||change at Week 4||||0.0792
92375074|NCT01939002|184652633|SUPERIORITY_OR_OTHER|||||||0.0961|||||||2-sample t-test between 2 arms|||change at Week 4||||0.0961
92375075|NCT01939002|184652634|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 4||||<0.0001
92375076|NCT01939002|184652634|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 4||||<0.0001
92375077|NCT01939002|184652634|SUPERIORITY_OR_OTHER|||||||0.4973|||||||2-sample t-test between 2 arms|||change at Week 4||||0.4973
92375078|NCT01939002|184652635|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 4||||<0.0001
92375079|NCT01939002|184652635|SUPERIORITY_OR_OTHER|||||||0.0464|||||||paired t-test within 1 arm|||change at Week 4||||0.0464
92375080|NCT01939002|184652635|SUPERIORITY_OR_OTHER|||||||0.1905|||||||2-sample t-test between 2 arms|||change at Week 4||||0.1905
92375081|NCT01939002|184652636|SUPERIORITY_OR_OTHER|||||||0.6569|||||||paired t-test within 1 arm|||change at Week 12||||0.6569
92375082|NCT01939002|184652636|SUPERIORITY_OR_OTHER|||||||0.1584|||||||paired t-test within 1 arm|||change at Week 24||||0.1584
92375083|NCT01939002|184652636|SUPERIORITY_OR_OTHER|||||||0.5106|||||||paired t-test within 1 arm|||change at Week 36||||0.5106
92375084|NCT01939002|184652636|SUPERIORITY_OR_OTHER|||||||0.5927|||||||paired t-test within 1 arm|||change at Week 48||||0.5927
92375085|NCT01939002|184652636|SUPERIORITY_OR_OTHER|||||||0.384|||||||paired t-test within 1 arm|||change at Early Termination||||0.3840
92375086|NCT01939002|184652636|SUPERIORITY_OR_OTHER|||||||0.4182||||||p-value on slope is based on general linear model with repeat measures over all visits.|general linear model|||||||0.4182
92277928|NCT01633827|184458029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92410004|NCT05487196|184710587|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||0.54
92375087|NCT01939002|184652637|SUPERIORITY_OR_OTHER|||||||0.2588|||||||paired t-test within 1 arm|||change at Week 12||||0.2588
92375088|NCT01939002|184652637|SUPERIORITY_OR_OTHER|||||||0.1092|||||||paired t-test within 1 arm|||change at Week 24||||0.1092
92375089|NCT01939002|184652637|SUPERIORITY_OR_OTHER|||||||1|||||||paired t-test within 1 arm|||change at Week 36||||1.0000
92375090|NCT01939002|184652637|SUPERIORITY_OR_OTHER|||||||0.219|||||||paired t-test within 1 arm|||change at Week 48||||0.2190
92375091|NCT01939002|184652637|SUPERIORITY_OR_OTHER|||||||0.6402||||||p-value on slope is based on general linear model with repeat measures over all visits.|general linear model|||||||0.6402
92375092|NCT01939002|184652638|SUPERIORITY_OR_OTHER|||||||0.4821|||||||paired t-test within 1 arm|||change at Week 12||||0.4821
92375093|NCT01939002|184652638|SUPERIORITY_OR_OTHER|||||||0.5298|||||||paired t-test within 1 arm|||change at Week 24||||0.5298
92375094|NCT01939002|184652638|SUPERIORITY_OR_OTHER|||||||0.1584|||||||paired t-test within 1 arm|||change at Week 36||||0.1584
92375095|NCT01939002|184652638|SUPERIORITY_OR_OTHER|||||||0.2547|||||||paired t-test within 1 arm|||change at Week 48||||0.2547
92375096|NCT01939002|184652638|SUPERIORITY_OR_OTHER|||||||0.0824|||||||paired t-test within 1 arm|||change at Early Termination||||0.0824
92375097|NCT01939002|184652638|SUPERIORITY_OR_OTHER|||||||0.3148||||||p-value on slope is based GLM with repeat measures over all visits.|general linear model|||||||0.3148
92375098|NCT01939002|184652639|SUPERIORITY_OR_OTHER|||||||0.6508|||||||paired t-test within 1 arm|||change at Week 12||||0.6508
92375099|NCT01939002|184652639|SUPERIORITY_OR_OTHER|||||||0.0315|||||||paired t-test within 1 arm|||change at Week 48||||0.0315
92375100|NCT01939002|184652639|SUPERIORITY_OR_OTHER|||||||0.119|||||||paired t-test within 1 arm|||change at Early Termination||||0.1190
92375101|NCT01939002|184652639|SUPERIORITY_OR_OTHER|||||||0.152||||||p-value on slope is based GLM with repeat measures over all visits.|general linear model|||||||0.1520
92375102|NCT01939002|184652641|SUPERIORITY_OR_OTHER|||||||0.0049|||||||paired t-test within 1 arm|||Change from 4WRI to L4W||||0.0049
92375103|NCT01939002|184652641|SUPERIORITY_OR_OTHER|||||||0.223|||||||paired t-test within 1 arm|||Change from 4WRI to L4W||||0.2230
92375104|NCT01939002|184652641|SUPERIORITY_OR_OTHER|||||||0.0031|||||||paired t-test within 1 arm|||Change from 4WRI to L4W||||0.0031
92375105|NCT01939002|184652641|SUPERIORITY_OR_OTHER|||||||0.1624|||||||2-sample t-test between 2 arms|||Change from 4WRI to L4W||||0.1624
92375106|NCT00098748|184652653|NON_INFERIORITY_OR_EQUIVALENCE|For hypothesis of superiority, if upper bound of 97.5% confidence interval (CI) of TX difference was \<0 log10 copies/mL, it was concluded that MVC regimen was superior to PBO meaning that MVC added to Optimized Background Therapy (OBT) provides an additional reduction in plasma HIV-1 RNA compared to OBT alone. If superiority could not be concluded, then a hypothesis of noninferiority was tested. If upper bound of CI is \<0.25 log10 copies/mL, noninferiority of MVC regimen to placebo was claimed.|Least squares mean|0.055|STANDARD_ERROR_OF_MEAN|0.2575|||TWO_SIDED|97.5|-0.528|0.638|||ANCOVA|TX difference adjusted for randomization strata. Bonferroni adjustment for multiple comparisons by use of 2-sided 97.5% CI to maintain alpha=0.05.|Negative values for change from baseline=benefit of TX; negative values for MVC versus (vs) PBO=advantage of MVC.|Maraviroc (MVC) QD versus placebo (PBO) treatment (TX) difference at Week 24. If upper bound of 97.5% confidence interval is \<0, it is concluded that dose is superior to PBO. If upper bound is \<0.25, it is concluded that MVC is non-inferior to PBO. Assumption: 79% of subjects are dual-tropic; total N=192 needed to be randomized to get N=150 dual-tropic. Standard deviation=0.8 with 2-sided p-value=0.025: 80% power for TX difference of 0.5 for change from baseline in log10-transformed viral load.||0.638|-0.528|
92410005|NCT05487196|184710588|SUPERIORITY|||||||0.58|||||||Kruskal-Wallis|||||||0.58
92410006|NCT05487196|184710589|SUPERIORITY|||||||0.98|||||||Kruskal-Wallis|||||||0.98
92375107|NCT00098748|184652653|SUPERIORITY_OR_OTHER||Least squares mean|-0.232|STANDARD_ERROR_OF_MEAN|0.2637|||TWO_SIDED|97.5|-0.829|0.364|||ANCOVA|TX difference adjusted for randomization strata. Bonferroni adjustment for multiple comparisons by use of 2-sided 97.5% CI to maintain alpha=0.05.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 24.||0.364|-0.829|
92410007|NCT05188053|184710590|OTHER|"Sample size calculations were performed to estimate the number of subjects needed to detect a 30% difference in NRS pain AUC scores between the study groups.~30% reduction in pain was considered the minimal clinically important difference in pain control based off previous pain research.~A 30% reduction in pain would correspond with a difference of approximately 136 in area under the curve of mean pain over time."||||||0.17||||||a priori threshold p \<0.05|t-test, 2 sided|assuming unequal variance||Two-sample t-test with unequal variance. The null hypothesis is that there was no statistically significant difference between the two treatment groups based on a standard alpha value of 0.05.||||0.170
92410008|NCT05126225|184710658|OTHER|Single group|Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.224||0.05|TWO_SIDED|95.0|0.032|0.96|||t-test, 2 sided|||||0.960|0.032|0.05
92410009|NCT05126225|184710659|OTHER|Single group|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.067||0.05|TWO_SIDED|95.0|0.16|0.44|||t-test, 2 sided|||||0.440|0.160|0.05
92410010|NCT00130247|184710814|NON_INFERIORITY_OR_EQUIVALENCE|This two-sided equivalence trial compared the efficacy of 4 and 6 months of treatment. We assumed that the risk of relapse for patients in the 6 month arm was 3.5% and that an absolute difference of 5% (i.e. relapse rate of 8.5%) was clinically meaningful. For a level of significance of 0.05 and 80% power (two sided), we estimated that 284 evaluable subjects per arm were required.|Risk Difference (RD)|0.051||||||95.0|0.01|0.09|||Regression, Cox||Confidence interval for difference of binomial proportions adjusted with Hauck Anderson continuity correction.|Comparison of binomial proportion of relapse: Intention-to-treat||0.09|0.01|
92410011|NCT00130247|184710817|SUPERIORITY_OR_OTHER||Incidence rate ratio|3.43||||||95.0|0.94|12.5|||Regression, Linear|||Rate of relapse at 1 year. All patients adherent with treatment and remaining in follow-up at 1 year were included in the calculation of the relapse incidence rate.||12.5|0.94|
92410012|NCT00130247|184710817|SUPERIORITY_OR_OTHER||Incident rate ratio|4.52||||||95.0|1.29|15.9|||Regression, Linear|||Rate of relapse at 2 years. All patients adherent with treatment and remaining in follow-up at 2 years were included in the calculation of the relapse incidence rate.||15.9|1.29|
92410013|NCT00130247|184710823|NON_INFERIORITY_OR_EQUIVALENCE|This two-sided equivalence trial compared the efficacy of 4 and 6 months of treatment. We assumed that the risk of relapse for patients in the 6 month arm was 3.5% and that an absolute difference of 5% (i.e. relapse rate of 8.5%) was clinically meaningful. For a level of significance of 0.05 and 80% power (two sided), we estimated that 284 evaluable subjects per arm were required.|Risk Difference (RD)|0.054||||||95.0|0.01|0.1|||Regression, Cox||Confidence interval for difference of binomial proportions adjusted with Hauck Anderson continuity correction.|||0.10|0.01|
92375108|NCT00098748|184652653|SUPERIORITY_OR_OTHER||Least squares mean|0.229|STANDARD_ERROR_OF_MEAN|0.2567|||TWO_SIDED|97.5|-0.351|0.81|||ANCOVA|TX difference adjusted for randomization strata. Bonferroni adjustment for multiple comparisons by use of 2-sided 97.5% CI to maintain alpha=0.05.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC QD vs PBO treatment difference at Week 48.||0.810|-0.351|
92375109|NCT00098748|184652653|SUPERIORITY_OR_OTHER||Least squares mean|-0.261|STANDARD_ERROR_OF_MEAN|0.2628|||TWO_SIDED|97.5|-0.856|0.333|||ANCOVA|TX difference adjusted for randomization strata. Bonferroni adjustment for multiple comparisons by use of 2-sided 97.5% CI to maintain alpha=0.05.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 48.||0.333|-0.856|
92375110|NCT00098748|184652654|SUPERIORITY_OR_OTHER||difference in proportions|0.03|||||TWO_SIDED|95.0|-0.12|0.18|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 24.||0.18|-0.12|
92375111|NCT00098748|184652654|SUPERIORITY_OR_OTHER||difference in proportions|0.07|||||TWO_SIDED|95.0|-0.08|0.23|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 24.||0.23|-0.08|
92375112|NCT00098748|184652654|SUPERIORITY_OR_OTHER||difference in proportions|0.02|||||TWO_SIDED|95.0|-0.12|0.17|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 48.||0.17|-0.12|
92410014|NCT03844945|184710825|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92410015|NCT05111301|184710827|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.004
92410016|NCT05111301|184710828|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.004
92410017|NCT05111301|184710829|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.54
92410018|NCT05111301|184710830|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.03
92410019|NCT05111301|184710831|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.001
92410020|NCT05111301|184710832|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.01
92410021|NCT05111301|184710833|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.80
92410022|NCT00220779|184710840|SUPERIORITY_OR_OTHER|||||||0.221||||||0.2g/kg IGIV Group versus Placebo|Cochran-Mantel-Haenszel|||The primary efficacy comparison was the comparison of the proportions of relapse free subjects (relapse defined as reported, not necessarily confirmed relapse). The multiple test procedure (hierarchical procedure) was to be stopped as soon as one of the statistical tests resulted in a non-significant P value \> 0.05.||||0.221
92410023|NCT00220779|184710840|SUPERIORITY_OR_OTHER|||||||0.471||||||0.4 g/kg IGIV Group versus Placebo|Cochran-Mantel-Haenszel|||The primary efficacy comparison was the comparison of the proportions of relapse free subjects (relapse defined as reported, not necessarily confirmed relapse). The multiple test procedure (hierarchical procedure) was to be stopped as soon as one of the statistical tests resulted in a non-significant P value \> 0.05.||||0.471
92410024|NCT04518995|184710841|SUPERIORITY||Risk Difference (RD)|0.28|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.23|0.33||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.33|0.23|<0.0001
92410025|NCT04518995|184710841|SUPERIORITY||Risk Difference (RD)|0.39|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.32|0.46||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.46|0.32|<0.0001
92375113|NCT00098748|184652654|SUPERIORITY_OR_OTHER||difference in proportions|0.09|||||TWO_SIDED|95.0|-0.07|0.25|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 48.||0.25|-0.07|
92375114|NCT00098748|184652655|SUPERIORITY_OR_OTHER||difference in proportions|0.03|||||TWO_SIDED|95.0|-0.15|0.2|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 24.||0.20|-0.15|
92375115|NCT00098748|184652655|SUPERIORITY_OR_OTHER||difference in proportions|0.08|||||TWO_SIDED|95.0|-0.1|0.26|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 24.||0.26|-0.10|
92410026|NCT04518995|184710842|SUPERIORITY||Risk Difference (RD)|0.25|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.17|0.32||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.32|0.17|<0.0001
92410027|NCT04518995|184710842|SUPERIORITY||Risk Difference (RD)|0.35|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|0.26|0.43||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.43|0.26|<0.0001
92229388|NCT00125034|184361357|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.551||||0.0027|TWO_SIDED|95.0|1.38|4.717|||stratified Cochran-Mantel-Haenszel test|Stratified odds ratio and Cochran-Mantel-Haenszel (CMH) statistics were calculated considering the randomization strata.||||4.717|1.380|0.0027
92229389|NCT00125034|184361358|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.459||||0.029|TWO_SIDED|95.0|0.228|0.924|||stratified Cochran-Mantel-Haenszel test|Stratified odds ratio and Cochran-Mantel-Haenszel (CMH) statistics were calculated considering the randomization strata.||||0.924|0.228|0.0290
92229390|NCT00125034|184361359|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.931||||0.617|TWO_SIDED|95.0|0.705|1.23|||Stratified Log Rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||1.230|0.705|0.6170
92375116|NCT00098748|184652655|SUPERIORITY_OR_OTHER||difference in proportions|-0.06|||||TWO_SIDED|95.0|-0.22|0.1|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 48.||0.10|-0.22|
92375117|NCT00098748|184652655|SUPERIORITY_OR_OTHER||difference in proportions|0.11|||||TWO_SIDED|95.0|-0.07|0.28|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 48.||0.28|-0.07|
92375118|NCT00098748|184652656|SUPERIORITY_OR_OTHER||difference in proportions|-0.05|||||TWO_SIDED|95.0|-0.21|0.12|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 24.||0.12|-0.21|
92410028|NCT04518995|184710842|SUPERIORITY||Risk Difference (RD)|0.31|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|0.24|0.38||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.38|0.24|<0.0001
92410029|NCT04518995|184710842|SUPERIORITY||Risk Difference (RD)|0.43|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.35|0.51||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.51|0.35|<0.0001
92410030|NCT04518995|184710842|SUPERIORITY||Risk Difference (RD)|0.32|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.26|0.39||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.39|0.26|<0.0001
92410031|NCT04518995|184710842|SUPERIORITY||Risk Difference (RD)|0.47|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.39|0.55||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.55|0.39|<0.0001
92410032|NCT04518995|184710842|SUPERIORITY||Risk Difference (RD)|0.38|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.31|0.44||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.44|0.31|<0.0001
92229391|NCT00125034|184361360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.567||||0.0064|TWO_SIDED|95.0|0.375|0.856|||Stratified Log Rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||0.856|0.375|0.0064
92375119|NCT00098748|184652656|SUPERIORITY_OR_OTHER||difference in proportions|0.08|||||TWO_SIDED|95.0|-0.1|0.26|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 24.||0.26|-0.10|
92410033|NCT04518995|184710842|SUPERIORITY||Risk Difference (RD)|0.47|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|0.39|0.55||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.55|0.39|<0.0001
92410034|NCT04518995|184710843|SUPERIORITY||Risk Difference (RD)|0.01|STANDARD_ERROR_OF_MEAN|0.005||0.0816|TWO_SIDED|95.0|0.0|0.02||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 4||0.02|-0.00|0.0816
92410035|NCT04518995|184710843|SUPERIORITY||Risk Difference (RD)|0.03|STANDARD_ERROR_OF_MEAN|0.01||0.0005|TWO_SIDED|95.0|0.01|0.05||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 8||0.05|0.01|0.0005
92410036|NCT04518995|184710843|SUPERIORITY||Risk Difference (RD)|0.06|STANDARD_ERROR_OF_MEAN|0.016||0.0002|TWO_SIDED|95.0|0.03|0.09||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 8||0.09|0.03|0.0002
92277929|NCT01633827|184458030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.025||||0.025|TWO_SIDED||||||t-test, 2 sided|||||||0.025
92375120|NCT00098748|184652656|SUPERIORITY_OR_OTHER||difference in proportions|-0.02|||||TWO_SIDED|95.0|-0.18|0.13|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 48.||0.13|-0.18|
92410037|NCT04518995|184710843|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.06|0.14||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.14|0.06|<0.0001
92229392|NCT00125034|184361361|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.72||||0.0153|TWO_SIDED|95.0|1.104|2.679|||Stratified Log Rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||2.679|1.104|0.0153
92375121|NCT00098748|184652656|SUPERIORITY_OR_OTHER||difference in proportions|0.12|||||TWO_SIDED|95.0|-0.04|0.29|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 48.||0.29|-0.04|
92375122|NCT00098748|184652657|SUPERIORITY_OR_OTHER||difference in proportions|0.07|||||TWO_SIDED|95.0|-0.07|0.2|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 24.||0.20|-0.07|
92410038|NCT04518995|184710843|SUPERIORITY||Risk Difference (RD)|0.17|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.12|0.22||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.22|0.12|<0.0001
92410039|NCT04518995|184710843|SUPERIORITY||Risk Difference (RD)|0.14|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.1|0.19||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.19|0.10|<0.0001
92277930|NCT01633827|184458031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
92277931|NCT01633827|184458032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
92410040|NCT04518995|184710843|SUPERIORITY||Risk Difference (RD)|0.27|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.2|0.33||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.33|0.20|<0.0001
92410041|NCT04518995|184710843|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.19|0.28||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.28|0.19|<0.0001
92410042|NCT04518995|184710843|SUPERIORITY||Risk Difference (RD)|0.35|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.28|0.41||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.41|0.28|<0.0001
92375123|NCT00098748|184652657|SUPERIORITY_OR_OTHER||difference in proportions|0.11|||||TWO_SIDED|95.0|-0.03|0.26|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO difference in proportions at Week 24.||0.26|-0.03|
92375124|NCT00098748|184652657|SUPERIORITY_OR_OTHER||difference in proportions|-0.04|||||TWO_SIDED|95.0|-0.18|0.1|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 48.||0.10|-0.18|
92375125|NCT00098748|184652657|SUPERIORITY_OR_OTHER||difference in proportions|0.06|||||TWO_SIDED|95.0|-0.1|0.21|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 48.||0.21|-0.10|
92375126|NCT00098748|184652658|SUPERIORITY_OR_OTHER||Least squares mean|23.927|STANDARD_ERROR_OF_MEAN|12.8025|||TWO_SIDED|95.0|-1.359|49.213|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC QD vs PBO treatment difference at Week 24.||49.213|-1.359|
92375127|NCT00098748|184652658|SUPERIORITY_OR_OTHER||Least squares mean|26.679|STANDARD_ERROR_OF_MEAN|13.0678|||TWO_SIDED|95.0|0.869|52.49|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 24.||52.490|0.869|
92375128|NCT00098748|184652658|SUPERIORITY_OR_OTHER||Least squares mean|14.61|STANDARD_ERROR_OF_MEAN|16.412|||TWO_SIDED|95.0|-17.8|47.03|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC QD vs PBO treatment difference at Week 48.||47.03|-17.80|
92375129|NCT00098748|184652658|SUPERIORITY_OR_OTHER||Least squares mean|27.71|STANDARD_ERROR_OF_MEAN|16.754|||TWO_SIDED|95.0|-5.38|60.8|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 48.||60.80|-5.38|
92410043|NCT04518995|184710844|SUPERIORITY||Least Square (LS) Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|1.13||0.0564|TWO_SIDED|95.0|-4.4|0.1||P-value was calculated by mixed model repeated measures (MMRM) analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 4||0.1|-4.4|0.0564
92375130|NCT00098748|184652659|SUPERIORITY_OR_OTHER||Least squares mean|234.499|STANDARD_ERROR_OF_MEAN|80.799|||TWO_SIDED|95.0|74.913|394.084|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC QD vs PBO treatment difference at Week 24.||394.084|74.913|
92375131|NCT00098748|184652659|SUPERIORITY_OR_OTHER||Least squares mean|188.817|STANDARD_ERROR_OF_MEAN|83.4484|||TWO_SIDED|95.0|23.999|353.635|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 24.||353.635|23.999|
92375132|NCT00098748|184652659|SUPERIORITY_OR_OTHER||Least squares mean|155.94|STANDARD_ERROR_OF_MEAN|87.304|||TWO_SIDED|95.0|-16.49|328.37|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC QD vs PBO treatment difference at Week 48.||328.37|-16.49|
92375133|NCT00098748|184652659|SUPERIORITY_OR_OTHER||Least squares mean|182.91|STANDARD_ERROR_OF_MEAN|90.174|||TWO_SIDED|95.0|4.81|361.02|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 48.||361.02|4.81|
92375134|NCT00098748|184652660|SUPERIORITY_OR_OTHER|||||||0.7524||95.0|||||Log Rank|||MVC QD vs PBO at Week 24. Kaplan-Meier survival estimates. TX difference evaluated by log-rank test.||||0.7524
92375135|NCT00098748|184652660|SUPERIORITY_OR_OTHER|||||||0.254||95.0|||||Log Rank|||MVC BID vs PBO at Week 24. Kaplan-Meier survival estimates. TX difference evaluated by log-rank test.||||0.2540
92375136|NCT00098748|184652660|SUPERIORITY_OR_OTHER|||||||0.8243||95.0|||||Log Rank|||MVC QD vs PBO at Week 48. Kaplan-Meier survival estimates. TX difference evaluated by log-rank test.||||0.8243
92375137|NCT00098748|184652660|SUPERIORITY_OR_OTHER|||||||0.6657||95.0|||||Log Rank|||MVC BID vs PBO at Week 48. Kaplan-Meier survival estimates. TX difference evaluated by log-rank test.||||0.6657
92375138|NCT00098748|184652661|SUPERIORITY_OR_OTHER||Least squares mean|0.069|STANDARD_ERROR_OF_MEAN|0.2356|||TWO_SIDED|95.0|-0.396|0.535|||ANCOVA|TX difference adjusted for randomization strata.||MVC QD vs PBO treatment difference at Week 24.||0.535|-0.396|
92375139|NCT00098748|184652661|SUPERIORITY_OR_OTHER||Least squares mean|-0.218|STANDARD_ERROR_OF_MEAN|0.2413|||TWO_SIDED|95.0|-0.694|0.258|||ANCOVA|TX difference adjusted for randomization strata.||MVC BID vs PBO treatment difference at Week 24.||0.258|-0.694|
92375140|NCT00098748|184652661|SUPERIORITY_OR_OTHER||Least squares mean|0.209|STANDARD_ERROR_OF_MEAN|0.2388|||TWO_SIDED|95.0|-0.262|0.681|||ANCOVA|TX difference adjusted for randomization strata.||MVC QD vs PBO treatment difference at Week 48.||0.681|-0.262|
92375141|NCT00098748|184652661|SUPERIORITY_OR_OTHER||Least squares mean|-0.284|STANDARD_ERROR_OF_MEAN|0.2445|||TWO_SIDED|95.0|-0.767|0.199|||ANCOVA|TX difference adjusted for randomization strata.||MVC BID vs PBO treatment difference at Week 48.||0.199|-0.767|
92375142|NCT03095027|184652669|NON_INFERIORITY|The pre-specified non-inferiority margin is 0.05. With a sample size of 10, there was approximately 80% power to reject the null hypothesis of inferiority in visual acuity with assumed standard deviation of 0.0474 (one-sided alpha=0.05)|LSM Difference|0.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0||0.01||||||||0.01||
92410044|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.23||0.0054|TWO_SIDED|95.0|-5.9|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 4||-1.0|-5.9|0.0054
92410045|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-8.5|STANDARD_ERROR_OF_MEAN|2.16|<|0.0001|TWO_SIDED|95.0|-12.7|-4.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 8||-4.3|-12.7|<0.0001
92169108|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.2149|TWO_SIDED|95.0|-0.45|0.1|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.10|-0.45|0.2149
92410046|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-14.9|STANDARD_ERROR_OF_MEAN|2.34|<|0.0001|TWO_SIDED|95.0|-19.5|-10.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 8||-10.3|-19.5|<0.0001
92410047|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-21.7|STANDARD_ERROR_OF_MEAN|2.94|<|0.0001|TWO_SIDED|95.0|-27.5|-16.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-16.0|-27.5|<0.0001
92410048|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-30.0|STANDARD_ERROR_OF_MEAN|3.19|<|0.0001|TWO_SIDED|95.0|-36.3|-23.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-23.8|-36.3|<0.0001
92375143|NCT00132691|184652707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.79|STANDARD_ERROR_OF_MEAN|2.03||0.16|TWO_SIDED|95.0|-1.16|6.68||unadjusted|Generalized estimating equations, linear||The treatment effect is a model-based comparison of within group treatment change from enrollment to 24 months (the difference of the differences - implant minus systemic).|"Null hypothesis: There will be no difference in change in visual acuity between treatment groups.~Assuming 67% bilateral disease, between eye correlation of 0.4, SD of 16 letters' change over 2 years and two-sided type 1 error rate of .05, a sample size of 250 provided 91% power (assuming 10% crossover) to detect a treatment difference of 7.5 standard ETDRS letters' change in visual acuity from baseline to 24 months."||6.68|-1.16|0.16
92375144|NCT00132691|184652708|SUPERIORITY_OR_OTHER||Ratio of odds ratios|0.61||||0.071|TWO_SIDED|95.0|0.34|1.03||unadjusted|GEE, logistic||For each treatment group the odds of macular edema at 2 yrs as compared to baseline was computed. The treatment effect is the ratio of these odds (implant divided by systemic).|||1.03|0.34|0.071
92410049|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-28.4|STANDARD_ERROR_OF_MEAN|3.38|<|0.0001|TWO_SIDED|95.0|-35.1|-21.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-21.8|-35.1|<0.0001
92410050|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-38.5|STANDARD_ERROR_OF_MEAN|3.66|<|0.0001|TWO_SIDED|95.0|-45.7|-31.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-31.3|-45.7|<0.0001
92410051|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-34.9|STANDARD_ERROR_OF_MEAN|3.66|<|0.0001|TWO_SIDED|95.0|-42.1|-27.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-27.7|-42.1|<0.0001
92410052|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-44.6|STANDARD_ERROR_OF_MEAN|3.96|<|0.0001|TWO_SIDED|95.0|-52.3|-36.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-36.8|-52.3|<0.0001
92229393|NCT00125034|184361362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.015||||0.905|TWO_SIDED|95.0|0.791|1.303|||Stratified log rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||1.303|0.791|0.9050
92375145|NCT00132691|184652709|SUPERIORITY_OR_OTHER||Ratio of odds ratios|0.29||||0.001|TWO_SIDED|95.0|0.13|0.6||unadjusted|GEE, logistic||For each treatment group the odds of uveitis activity at 2 years as compared to baseline was computed. The treatment effect represents the ratio of these odds (implant divided by systemic).|||.60|.13|0.001
92375146|NCT00132691|184652710|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.08|||<|0.0001|TWO_SIDED|95.0|3.32|11.15||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of experiencing an IOP of 30 mmHg or greater. The systemic arm was the reference group.|||11.15|3.32|<.0001
92410053|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-39.3|STANDARD_ERROR_OF_MEAN|3.79|<|0.0001|TWO_SIDED|95.0|-46.7|-31.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-31.8|-46.7|<0.0001
92410054|NCT04518995|184710844|SUPERIORITY||LS Mean Difference|-47.0|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001|TWO_SIDED|95.0|-55.1|-39.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-39.0|-55.1|<0.0001
92410055|NCT04518995|184710845|SUPERIORITY||||||<|0.0001||||||P-value was calculated by cochran mantel haenszel (CMH) test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||<0.0001
92410056|NCT04518995|184710845|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||<0.0001
92410057|NCT04518995|184710845|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||<0.0001
92410058|NCT04518995|184710845|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||<0.0001
92410059|NCT04518995|184710845|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||<0.0001
92410060|NCT04518995|184710845|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||<0.0001
92410061|NCT04518995|184710845|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||<0.0001
92277932|NCT01633827|184458033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
92375147|NCT00132691|184652711|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.59|||<|0.0001|TWO_SIDED|95.0|2.34|5.5||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of experiencing an IOP of 24 mmHg or greater. The systemic arm was the reference group|||5.50|2.34|<.0001
92375148|NCT00132691|184652712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.28|||<|0.0001|TWO_SIDED|95.0|2.78|6.58||unadjusted|Cox proportional hazards with RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of experiencing an IOP that was 10mmHg or greater than the baseline value. The systemic arm was the reference group.|||6.58|2.78|<.0001
92375149|NCT00132691|184652713|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.19||||0.0008|TWO_SIDED|95.0|1.82|9.63||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of developing glaucoma. The systemic arm was the reference group.|||9.63|1.82|0.0008
92375150|NCT00132691|184652714|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.16|||<|0.0001|TWO_SIDED|95.0|2.67|6.47||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of using an IOP-lowering therapy. The systemic arm was the reference group.|||6.47|2.67|<.0001
92375151|NCT00132691|184652715|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|8.4|||<|0.0001|TWO_SIDED|95.0|3.39|20.82||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of having surgery to lower IOP. The systemic arm was the reference group.|||20.82|3.39|<0.0001
92375152|NCT00132691|184652716|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.12|||<|0.0001|TWO_SIDED|95.0|2.21|7.67||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of developing a cataract. The systemic arm was the reference group.|||7.67|2.21|<0.0001
92375153|NCT00132691|184652717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.64|STANDARD_ERROR_OF_MEAN|2.3||0.043|TWO_SIDED|95.0|0.14|9.15||unadjusted|GEE, linear||The treatment effect is a model-based comparison of within group treatment change from enrollment to 24 months (the difference of the differences - implant minus systemic).|||9.15|0.14|0.043
92375154|NCT00132691|184652718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.62|STANDARD_ERROR_OF_MEAN|1.6||0.023|TWO_SIDED|95.0|0.49|6.76||unadjusted|GEE, linear||The treatment effect is a model-based comparison of within group treatment change from enrollment to 24 months (the difference of the differences - implant minus systemic)|||6.76|0.49|0.023
92375155|NCT00132691|184652719|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.95|STANDARD_ERROR_OF_MEAN|1.23||0.016|TWO_SIDED|95.0|0.54|5.36||unadjusted|Generalized Estimating Equations||The treatment effect is a model-based comparison of within group treatment change from enrollment to 24 months (the difference of the differences - implant minus systemic).|||5.36|0.54|0.016
92410062|NCT04518995|184710845|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||<0.0001
92410063|NCT04518995|184710846|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||<0.0001
92410064|NCT04518995|184710846|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||<0.0001
92375156|NCT00132691|184652720|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.84|TWO_SIDED|95.0|0.39|2.15||unadjusted|Regression, Cox||A Cox proportional hazards model was used to evaluate the relative hazard of hyperlipidemia for the implant and systemic treatments. The systemic treatment is the reference group.|||2.15|0.39|0.84
92375157|NCT00132691|184652721|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.13|TWO_SIDED|95.0|0.13|1.29||unadjusted|Regression, Cox||A Cox proportional hazards model was used to evaluate the relative hazard of hypertension for the implant and systemic treatments. The systemic treatment is the reference group.|||1.29|0.13|0.13
92375158|NCT00132691|184652722|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26||||0.24|TWO_SIDED|95.0|0.03|2.44||unadjusted|Regression, Cox||A Cox proportional hazards model was used to evaluate the relative hazard of diabetes mellitus for the implant and systemic treatments. The systemic treatment is the reference group.|||2.44|0.03|0.24
92375159|NCT01545232|184652728|SUPERIORITY_OR_OTHER||Adjusted Relative Risk|0.75||||0.12|TWO_SIDED|95.0|0.52|1.08|||Mantel Haenszel|The critical level for significance (p\<0.044) was adjusted for two interim analyses, and all tests were conducted using two-sided tests.||Initial sample size (580) planned to detect a clinically meaningful 10% difference in 24-hour mortality (11% vs. 21%) supported by prior data. Data Safety Monitoring Board (DSMB) increased sample size to 680 according to trial's adaptive design. With 680 pts. \& given the final observed mortality proportions in 1:1:1 group, PROPPR had 95% power to detect the pre-specified 10% difference at 24 hours if such differences existed.||1.08|0.52|0.12
92375160|NCT01545232|184652729|SUPERIORITY_OR_OTHER||Adjusted Relative Risk|0.86||||0.26|TWO_SIDED|95.0|0.65|1.12|||Mantel Haenszel|The critical level for significance (p\<0.044) was adjusted for two interim analyses, and all tests were conducted using two-sided tests.||Initial sample size of 580 planned to detect clinically meaningful a 12% difference in 30-day mortality (23% vs. 35%),supported by prior data. DSMB increased sample size to 680 according to trial's adaptive design. With 680 patients \& given final observed mortality proportions in the 1:1:1 group, PROPPR had 92% power to detect the pre-specified 12% difference at 30 days, if such differences existed.||1.12|0.65|0.26
92410065|NCT04518995|184710846|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||<0.0001
92410066|NCT04518995|184710846|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||<0.0001
92229394|NCT00125034|184361363|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.855||||0.3854|TWO_SIDED|95.0|0.599|1.219|||Stratified log rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||1.219|0.599|0.3854
92375161|NCT01545232|184652731|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||van Elteren's test for medians|||||||0.83
92375162|NCT01545232|184652732|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||van Elteren's test for medians|||||||0.44
92375163|NCT01545232|184652734|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||van Elteren's test for medians|||||||0.11
92375164|NCT01545232|184652735|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-2.8|8.3||||||||8.3|-2.8|
92169109|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.14||0.2442|TWO_SIDED|95.0|-0.43|0.11|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.11|-0.43|0.2442
92169110|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.4609|TWO_SIDED|95.0|-0.37|0.17|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.17|-0.37|0.4609
92169111|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8129|TWO_SIDED|95.0|-0.31|0.24|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.31|0.8129
92375165|NCT01545232|184652736|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-0.8|1.7||||||||1.7|-0.8|
92375166|NCT01545232|184652737|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||generalized logit model regression|||||||0.37
92375167|NCT01545232|184652738|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||van Elteren's test for medians|||||||0.14
92375168|NCT01545232|184652739|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||van Elteren's test for medians|||||||0.10
92375169|NCT00798317|184652741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.13|||<|0.001|TWO_SIDED|95.0|1.97|17.0||Comparing placebo and ocriplasmin|Fisher Exact|||||17.00|1.97|<0.001
92375170|NCT03575065|184652780|SUPERIORITY|||||||0.021||||||p-value was based on an exact binomial test with historic control ORR=0.25|Exact Binomial Test|||||||0.0210
92375171|NCT03344549|184652790|SUPERIORITY||Mean Difference (Final Values)|-1.76|STANDARD_DEVIATION|0.8||0.37|TWO_SIDED|95.0||||The threshoid for statistical significance was p \<0.05|t-test, 2 sided|||U Mann Whitney was used for inter-group comparison||||0.37
92375172|NCT03344549|184652791|SUPERIORITY||Mean Difference (Final Values)|-1.76|STANDARD_DEVIATION|0.8||0.46|TWO_SIDED|95.0||||The threshold for statistical significance was p\<0.05|t-test, 2 sided|U Mann Whitney was used for inter-group comparison||||||0.46
92375173|NCT03344549|184652792|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
92375174|NCT01679600|184652812|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||F1-LD-F1 model by Brunner and Langer|||||||0.53
92375175|NCT00108303|184652813|SUPERIORITY_OR_OTHER||Log (odd ratio)|5.2|||||TWO_SIDED|||||||||||||
92375176|NCT00108303|184652813|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||This parameter was estimated by simulating 1000 samples with random genotypes and finding no value equal to or greater than 5.2.|Simulation|||||||<0.001
92169112|NCT02528188|184227135|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7883|TWO_SIDED|95.0|-0.32|0.24|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.32|0.7883
92229395|NCT00125034|184361364|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.2004|TWO_SIDED|95.0|0.873|1.906|||Stratified log rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||1.906|0.873|0.2004
92375177|NCT00108303|184652814|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Firsher's transform r to Z|||The coefficient of segregation versus no segregation of the P50 sensory gating percent in families with schizophrenia.||||0.001
92375178|NCT01685801|184652816|SUPERIORITY_OR_OTHER||Posterior Mean|2.251|STANDARD_DEVIATION|0.961|||TWO_SIDED|95.0|0.383|4.144|||||The posterior distribution of overall treatment difference was obtained using the Bayesian hierarchical model and 95% credible interval of the treatment effect (posterior mean) was calculated.|"This statistical analysis is for Overall category."||4.144|0.383|
92375179|NCT00834990|184652867|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|103.41||||||90.0|97.13|110.08|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||110.08|97.13|
92375180|NCT00834990|184652868|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|101.68||||||90.0|96.79|106.83|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106.83|96.79|
92375181|NCT00834990|184652869|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|103.17||||||90.0|98.5|108.05|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.05|98.5|
92375182|NCT00791479|184652872|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
92410067|NCT04518995|184710846|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||<0.0001
92410068|NCT04518995|184710846|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||<0.0001
92410069|NCT04518995|184710846|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||<0.0001
92229396|NCT01988090|184361382|SUPERIORITY|||||||0.7635|||||||Chi-squared|||||||0.7635
92375183|NCT00791479|184652872|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||<0.001
92375184|NCT00791479|184652872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.069||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.069
92410070|NCT04518995|184710846|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||<0.0001
92410071|NCT04518995|184710847|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-0.7|-1.2|<0.0001
92229397|NCT01988090|184361384|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92375185|NCT00791479|184652872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
92375186|NCT00791479|184652872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
92375187|NCT00791479|184652872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
92375188|NCT00791479|184652873|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 4. A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
92375189|NCT00791479|184652873|SUPERIORITY_OR_OTHER|||||||0.023||||||Treatment comparison at Week 4. A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||0.023
92375190|NCT00791479|184652873|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 8. A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
92375191|NCT00791479|184652873|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 8. A priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||<0.001
92410072|NCT04518995|184710847|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-0.9|-1.5|<0.0001
92410073|NCT04518995|184710847|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-0.9|-1.4|<0.0001
92410074|NCT04518995|184710847|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.9|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.3|-1.9|<0.0001
92229398|NCT02238847|184361386|NON_INFERIORITY|The prespecified non-inferiority margin was set at 20%. This was chosen to support a practical study size while still able to identify major differences if this were the case.|||||<|0.01||||||Reported p-value of \<0.01 is calculated p-value. (p\<0.05 was considered significant)|Exact Non-inferiority|||||||<0.01
92229399|NCT02238847|184361387|SUPERIORITY|||||||0.66|||||||Fisher Exact|||||||0.66
92277933|NCT05431153|184458044|OTHER||Ratio of adjusted geometric means|98.83|||||TWO_SIDED|90.0|94.0|103.91|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||103.91|94.00|
92410075|NCT04518995|184710847|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.8|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.2|-1.8|<0.0001
92410076|NCT04518995|184710847|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.3|-1.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.6|-2.3|<0.0001
92410077|NCT04518995|184710847|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.0|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.3|-2.0|<0.0001
92410078|NCT04518995|184710847|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-2.5|-1.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.7|-2.5|<0.0001
92410079|NCT04518995|184710848|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-0.9|-0.3||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-0.3|-0.9|<0.0001
92410080|NCT04518995|184710848|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.3|-0.6||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-0.6|-1.3|<0.0001
92410081|NCT04518995|184710848|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-0.9|-1.6|<0.0001
92410082|NCT04518995|184710848|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.1|-1.4||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.4|-2.1|<0.0001
92410083|NCT04518995|184710848|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.7|-1.0||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.0|-1.7|<0.0001
92229400|NCT01439945|184361413|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANOVA|Weekly hot flash score was treated as a repeated measure for each patient.||||||0.13
92410084|NCT04518995|184710848|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-2.3|-1.5||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.5|-2.3|<0.0001
92410085|NCT04518995|184710848|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-2.0|-1.3||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.3|-2.0|<0.0001
92229401|NCT01439945|184361413|SUPERIORITY_OR_OTHER|||||||0.67|||||||ANOVA|Weekly hot flash score was treated as a repeated measure for each patient.||||||0.67
92229402|NCT01439945|184361414|SUPERIORITY_OR_OTHER|||||||0.25|||||||ANOVA|Weekly number of hot flashes were treated as a repeated measure for each patient.||||||0.25
92229403|NCT01439945|184361414|SUPERIORITY_OR_OTHER|||||||0.55||||||Weekly number of hot flashes were treated as a repeated measure for each patient.|ANOVA|||||||0.55
92229404|NCT01439945|184361417|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92229405|NCT01439945|184361418|SUPERIORITY_OR_OTHER|||||||0.47|||||||Kruskal-Wallis|||||||0.47
92229406|NCT01439945|184361418|SUPERIORITY_OR_OTHER|||||||0.09|||||||Kruskal-Wallis|||||||0.09
92229407|NCT03529409|184361430|SUPERIORITY||Mean Difference (Net)|-0.287||||0.01|TWO_SIDED|95.0|-0.507|-0.066|||Mixed Models Analysis|||||-.066|-.507|.01
92410086|NCT04518995|184710848|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-2.6|-1.8||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.8|-2.6|<0.0001
92410087|NCT04518995|184710849|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.06|0.12||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 12||0.12|0.06|<0.0001
92410088|NCT04518995|184710849|SUPERIORITY||Risk Difference (RD)|0.17|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.12|0.22||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 12||0.22|0.12|<0.0001
92410089|NCT04518995|184710849|SUPERIORITY||Risk Difference (RD)|0.28|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.23|0.33||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 24||0.33|0.23|<0.0001
92410090|NCT04518995|184710849|SUPERIORITY||Risk Difference (RD)|0.38|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.32|0.45||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 24||0.45|0.32|<0.0001
92277934|NCT05431153|184458044|OTHER||Ratio of adjusted geometric means|98.02|||||TWO_SIDED|90.0|93.88|102.35|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||102.35|93.88|
92277935|NCT05431153|184458044|OTHER||Ratio of adjusted geometric means|98.51|||||TWO_SIDED|90.0|91.79|105.73|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||105.73|91.79|
92169113|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.0119|TWO_SIDED|95.0|-0.37|-0.05|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.37|0.0119
92169114|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.3073|TWO_SIDED|95.0|-0.24|0.08|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.08|-0.24|0.3073
92169115|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.09||0.0002|TWO_SIDED|95.0|-0.5|-0.15|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.15|-0.50|0.0002
92169116|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.56|-0.22|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.22|-0.56|<0.0001
92375192|NCT00791479|184652874|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
92375193|NCT00791479|184652874|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||<0.001
92375194|NCT00791479|184652874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.81||||0.456||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.456
92375195|NCT00791479|184652874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.53|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
92375196|NCT00791479|184652874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.96|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
92375197|NCT00791479|184652874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.71|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
92375198|NCT00791479|184652875|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of glycosylated hemoglobin (HbA1c) levels \<7.0%.|Cochran-Armitage trend test|The Cochran-Armitage trend test included the placebo arm.||||||<0.001
92375199|NCT00791479|184652875|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of glycosylated hemoglobin (HbA1c) levels ≤6.5%.|Cochran-Armitage trend test|The Cochran-Armitage trend test included the placebo arm.||||||<0.001
92375200|NCT00791479|184652876|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
92375201|NCT00791479|184652876|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||<0.001
92375202|NCT00791479|184652876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.65||||0.378||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.378
92375203|NCT00791479|184652876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.09|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
92375204|NCT00791479|184652876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.34|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
92375205|NCT00791479|184652876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-38.67|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
92375206|NCT00791479|184652877|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
92375207|NCT00791479|184652877|SUPERIORITY_OR_OTHER|||||||0.036||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||0.036
92375208|NCT00791479|184652878|SUPERIORITY_OR_OTHER|||||||0.45||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||0.450
92375209|NCT00791479|184652878|SUPERIORITY_OR_OTHER|||||||0.329||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||0.329
92229408|NCT03529409|184361431|SUPERIORITY||Mean Difference (Net)|1.95||||0.28|TWO_SIDED|95.0|-1.61|5.5||The overall omnibus test of the time by treatment interaction was p=.55. The estimate below is for post-treatment, comparing TAU to Khanya.|Mixed Models Analysis|||||5.50|-1.61|.28
92375210|NCT00791479|184652886|SUPERIORITY_OR_OTHER|||||||0.969||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||0.969
92375211|NCT00791479|184652886|SUPERIORITY_OR_OTHER|||||||0.009||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||0.009
92410091|NCT04518995|184710849|SUPERIORITY||Risk Difference (RD)|0.04|STANDARD_ERROR_OF_MEAN|0.01||0.0006|TWO_SIDED|95.0|0.02|0.06||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 12||0.06|0.02|0.0006
92410092|NCT04518995|184710849|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.06|0.14||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 12||0.14|0.06|<0.0001
92169117|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.09||0.0251|TWO_SIDED|95.0|-0.39|-0.03|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.03|-0.39|0.0251
92229409|NCT03529409|184361432|SUPERIORITY||Mean Difference (Net)|157.0||||0.16|TWO_SIDED|95.0|-67.0|382.0||The overall omnibus test of the time by treatment interaction was p=.38. The estimate below is for post-treatment, comparing TAU to Khanya.|Mixed Models Analysis|||||382|-67|.16
92410093|NCT04518995|184710849|SUPERIORITY||Risk Difference (RD)|0.19|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.15|0.23||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 24||0.23|0.15|<0.0001
92410094|NCT04518995|184710849|SUPERIORITY||Risk Difference (RD)|0.3|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.24|0.37||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 24||0.37|0.24|<0.0001
92410095|NCT04518995|184710850|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.22||0.001|TWO_SIDED|95.0|0.3|1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.2|0.3|0.0010
92229410|NCT03529409|184361433|SUPERIORITY||Mean Difference (Net)|0.25||||0.77|TWO_SIDED|95.0|-1.51|2.0||The overall omnibus test of the time by treatment interaction was p=.90. The estimate below is for post-treatment, comparing TAU to Khanya.|Mixed Models Analysis|||||2.00|-1.51|.77
92375212|NCT00791479|184652886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19||||0.14||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.140
92410096|NCT04518995|184710850|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|0.6|1.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.6|0.6|<0.0001
92410097|NCT04518995|184710850|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|1.2|2.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.2|1.2|<0.0001
92375213|NCT00791479|184652886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04||||0.247||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.247
92410098|NCT04518995|184710850|SUPERIORITY||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|1.4|2.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.4|1.4|<0.0001
92410099|NCT04518995|184710851|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|0.5|1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.3|0.5|<0.0001
92410100|NCT04518995|184710851|SUPERIORITY||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|1.0|1.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.8|1.0|<0.0001
92410101|NCT04518995|184710851|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|1.0|2.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.0|1.0|<0.0001
92410102|NCT04518995|184710851|SUPERIORITY||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|1.4|2.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.4|1.4|<0.0001
92375214|NCT00791479|184652886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.975||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.975
92375215|NCT00791479|184652886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||1||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||1.00
92375216|NCT01774097|184652925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.8||0.238|TWO_SIDED|95.0|-0.6|2.5||Threshold 0.05; no adjustment for multiple comparisons per protocol.|t-test, 2 sided|||||2.5|-0.6|0.238
92375217|NCT01774097|184652926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.6||0.116|TWO_SIDED|95.0|-0.2|2.1||Threshold 0.05; no adjustment for multiple comparisons per protocol.|t-test, 2 sided|||||2.1|-0.2|0.116
92375218|NCT01774097|184652927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.978|TWO_SIDED|95.0|-0.8|0.8||Threshold 0.05; no adjustment for multiple comparisons per protocol.|t-test, 2 sided|||||0.8|-0.8|0.978
92375219|NCT01774097|184652928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.55||0.752|TWO_SIDED|95.0|-1.26|0.91||Threshold 0.05; no adjustment for multiple comparisons per protocol.|t-test, 2 sided|||||0.91|-1.26|0.752
92375220|NCT01774097|184652929|SUPERIORITY_OR_OTHER||interaction term|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.871|TWO_SIDED|95.0|-0.02|0.03||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||0.03|-0.02|0.871
92410103|NCT04518995|184710852|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.0|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-0.5|-1.0|< 0.0001
92229411|NCT03529409|184361434|SUPERIORITY||Mean Difference (Net)|0.71||||0.63|TWO_SIDED|95.0|-2.24|3.67||The overall omnibus test of the time by treatment interaction was p=.55. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||3.67|-2.24|.63
92375221|NCT01774097|184652930|SUPERIORITY_OR_OTHER||interaction term|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.256|TWO_SIDED|95.0|-0.06|0.02||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||0.02|-0.06|0.256
92375222|NCT01774097|184652931|SUPERIORITY_OR_OTHER||interaction term|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.241|TWO_SIDED|95.0|-0.2|0.6|||Regression, Linear|||||0.6|-0.2|0.241
92375223|NCT01774097|184652933|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.1|STANDARD_ERROR_OF_MEAN|1.4||0.131|TWO_SIDED|95.0|-0.6|4.8||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||4.8|-0.6|0.131
92375224|NCT01774097|184652934|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|1.7||0.626|TWO_SIDED|95.0|-2.6|4.2||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||4.2|-2.6|0.626
92375225|NCT01774097|184652935|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|1.6||0.591|TWO_SIDED|95.0|-4.1|2.3||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||2.3|-4.1|0.591
92375226|NCT01774097|184652936|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|2.0||0.722|TWO_SIDED|95.0|-3.3|4.7||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||4.7|-3.3|0.722
92375227|NCT03061721|184652972|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
92375228|NCT03061721|184652972|SUPERIORITY|||||||0.0001|||||||ANCOVA|||||||0.0001
92375229|NCT03061721|184652972|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92375230|NCT03061721|184652973|SUPERIORITY|||||||0.5681|||||||ANCOVA|||||||0.5681
92410104|NCT04518995|184710852|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-0.8|-1.3|< 0.0001
92375231|NCT03061721|184652973|SUPERIORITY|||||||0.4487|||||||ANCOVA|||||||0.4487
92375232|NCT03061721|184652973|SUPERIORITY|||||||0.0021|||||||ANCOVA|||||||0.0021
92375233|NCT03061721|184652974|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||0.0070
92375234|NCT03061721|184652974|SUPERIORITY|||||||0.0031|||||||Chi-squared|||||||0.0031
92375235|NCT03061721|184652974|SUPERIORITY|||||||0.0001|||||||Chi-squared|||||||0.0001
92375236|NCT03061721|184652975|SUPERIORITY|||||||0.2241|||||||ANCOVA|||||||0.2241
92375237|NCT03061721|184652975|SUPERIORITY|||||||0.0304|||||||ANCOVA|||||||0.0304
92375238|NCT03061721|184652975|SUPERIORITY|||||||0.0595|||||||ANCOVA|||||||0.0595
92375239|NCT03061721|184652976|SUPERIORITY|||||||0.0449|||||||ANCOVA|||||||0.0449
92375240|NCT03061721|184652976|SUPERIORITY|||||||0.0053|||||||ANCOVA|||||||0.0053
92375241|NCT03061721|184652976|SUPERIORITY|||||||0.0036|||||||ANCOVA|||||||0.0036
92375242|NCT03061721|184652977|SUPERIORITY|||||||0.0045|||||||ANCOVA|||||||0.0045
92375243|NCT03061721|184652977|SUPERIORITY|||||||0.0026|||||||ANCOVA|||||||0.0026
92375244|NCT03061721|184652977|SUPERIORITY|||||||0.0004|||||||ANCOVA|||||||0.0004
92375245|NCT03061721|184652986|SUPERIORITY|||||||0.2387|||||||ANCOVA|||||||0.2387
92375246|NCT03061721|184652986|SUPERIORITY|||||||0.1496|||||||ANCOVA|||||||0.1496
92375247|NCT03061721|184652986|SUPERIORITY|||||||0.0445|||||||ANCOVA|||||||0.0445
92375248|NCT01920568|184653045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.316|||<|0.0001|TWO_SIDED|95.0|-0.44|-0.192|||ANCOVA||Primary analysis evaluated the log transformed chg from BL, i.e. log\[(Wk 13 uNTx/Cr) / (BL uNTx/Cr)\] by ANCOVA model with trt group as main effect and the stratification factor (breast cancer, yes or no) and log transformed BL value as covariates.|||-0.192|-0.440|<0.0001
92410105|NCT04518995|184710852|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-0.8|-1.2|< 0.0001
92410106|NCT04518995|184710852|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-1.1|-1.6|< 0.0001
92410107|NCT04518995|184710852|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-0.8|-1.3|< 0.0001
92375249|NCT01920568|184653046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.316|||<|0.0001|TWO_SIDED|95.0|-0.444|-0.188|||ANCOVA||Secondary analysis evaluated the log transformed chg from BL, ie log\[(Wk 13 uNTx/Cr)/(BL uNTx/Cr)\] by ANCOVA model with trt group as main effect and the stratification factor (Chinese participants, yes or no) and log transformed BL value|||-0.188|-0.444|<0.0001
92375250|NCT01920568|184653047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.366|||<|0.0001|TWO_SIDED|95.0|-0.539|-0.193|||ANCOVA||Secondary analysis evaluated the log transformed chg from BL, i.e. log\[(Wk 13 uNTx/Cr) / (BL uNTx/Cr)\] by ANCOVA model with trt group as main effect, stratification factor (Breast cancer, yes or no) and log transformed BL value as covariates.|||-0.193|-0.539|<0.0001
92375251|NCT04049266|184653061|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept participants to be considered non-inferior is 4 ETDRS letters, i.e. the non-inferiority margin (NI) is 4 letters.|Adjusted mean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.01|>|0.9999|TWO_SIDED|95.03|-8.0|-4.0|||Mixed Models Analysis|MMRM model with treatment, visit, treatment by visit interaction, categories for baseline BCVA, BCVA-low luminance VA baseline, geographical location.||||-4|-8|> 0.9999
92375252|NCT01703208|184653069|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.77|1.29|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.29|0.77|
92375253|NCT01703208|184653070|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.43|||||TWO_SIDED|95.0|-0.48|-0.37||||||||-0.37|-0.48|
92375254|NCT01703208|184653071|SUPERIORITY_OR_OTHER||Difference in the LS Means vs Placebo|-0.39|||<|0.001|TWO_SIDED|95.0|-0.5|-0.27|||Longitudinal data analysis|Longitudinal data analysis model including terms for treatment, time and the interaction of time by treatment.||||-0.27|-0.50|<0.001
92375255|NCT01703208|184653072|SUPERIORITY_OR_OTHER||Difference in Percent vs. Placebo|-1.1|||||TWO_SIDED|95.0|-7.2|4.9|||||Based on Miettinen \& Nurminen method. The 95% CI was computed only for those endpoints with at least 4 participants having events in one or more treatment groups.|||4.9|-7.2|
92375256|NCT01703208|184653073|SUPERIORITY_OR_OTHER||Difference in Percentage vs. Placebo|0.3|||||TWO_SIDED|95.0|-1.0|1.7|||||Based on Miettinen \& Nurminen method. The 95% CI was computed only for those endpoints with at least 4 participants having events in one or more treatment groups.|||1.7|-1.0|
92375257|NCT01703208|184653075|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.66|1.68|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.68|0.66|
92375258|NCT01703208|184653077|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.6|1.26|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.26|0.60|
92375259|NCT01703208|184653079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.58|1.52|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.52|0.58|
92375260|NCT01703208|184653081|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.88|1.85|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.85|0.88|
92375261|NCT01703208|184653082|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.3|||||TWO_SIDED|95.0|-0.46|-0.14|||||Longitudinal Data Analysis (LDA) model including terms for treatment, time, and the interaction of time by treatment.|||-0.14|-0.46|
92375262|NCT01703208|184653088|SUPERIORITY_OR_OTHER||Difference in the least squares means|-3.1||||0.421|TWO_SIDED|95.0|-10.8|4.5|||Longitudinal constrained data analysis||Based on a LDA model including terms for treatment, time and the interaction of time by treatment.|||4.5|-10.8|0.421
92375263|NCT01703208|184653089|SUPERIORITY_OR_OTHER||Between group rate difference|11.9|||<|0.001|TWO_SIDED|95.0|6.9|16.8||Estimated using standard multiple imputation techniques.|Miettinen & Nurminen method|||||16.8|6.9|<0.001
92375264|NCT01703208|184653091|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.35|1.05|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.05|0.35|
92410108|NCT04518995|184710852|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.7|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-1.2|-1.7|< 0.0001
92410109|NCT04518995|184710852|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-1.0|-1.5|< 0.0001
92375265|NCT01639339|184653106|OTHER||Odds Ratio (OR)|1.55||||0.0311|TWO_SIDED|95.0|1.04|2.32||P-value was calculated using logistic regression model. Test 1 of 5 in a step-down sequential testing procedure.|Regression, Logistic||Treatment comparison between Belimumab 10 mg/kg and placebo using odds ratio and its corresponding 95% confidence interval has been presented.|||2.32|1.04|0.0311
92410110|NCT04518995|184710852|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.8|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-1.3|-1.8|< 0.0001
92375266|NCT01639339|184653107|OTHER||Odds Ratio (OR)|1.74||||0.0167|TWO_SIDED|95.0|1.11|2.74||P-value was calculated using logistic regression model. Test 2 of 5 in a step-down sequential testing procedure.|Regression, Logistic||Treatment comparison between Belimumab 10 mg/kg and placebo using odds ratio and its corresponding 95% confidence interval has been presented.|||2.74|1.11|0.0167
92375267|NCT01639339|184653108|OTHER||Odds Ratio (OR)|1.59||||0.0245|TWO_SIDED|95.0|1.06|2.38||P-value was calculated using logistic regression model. Test 3 of 5 in a step-down sequential testing procedure.|Regression, Logistic||Treatment comparison between Belimumab 10 mg/kg and placebo using odds ratio and its corresponding 95% confidence interval has been presented.|||2.38|1.06|0.0245
92375268|NCT01639339|184653109|OTHER||Cox Proportional Hazard|0.51||||0.0014|TWO_SIDED|95.0|0.34|0.77||P-value was calculated using Cox proportional hazards model. Test 4 of 5 in a step-down sequential testing procedure.|Cox proportional hazards model||Treatment comparison between Belimumab 10 mg/kg and placebo using Cox proportional hazards ratio and its corresponding 95% confidence interval has been presented.|||0.77|0.34|0.0014
92375269|NCT01639339|184653110|OTHER|||||||0.0096||||||P-value is rank analysis of covariance model comparing Belimumab and Placebo with covariates for treatment group, induction regimen(CYC vs MMF),race(Black vs Non-black), Baseline uPCR, and eGFR. Test 5 of 5 in step-down sequential testing procedure.|Rank ANCOVA|||||||0.0096
92375270|NCT01271712|184653128|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-06|||||||Log Rank|stratified||The two treatment groups were compared using a stratified log rank test with a one-sided alpha of 0.01 stratified by (3rd vs 4th-line; and geographical region). The null hypothesis that both treatment arms have the same PFS distribution was tested against the alternative hypothesis that the distribution of PFS in the regorafenib arm is different from the control arm according to a proportional hazards relation between the treatment arms.||||<0.000001
92375271|NCT01271712|184653128|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.268|||||TWO_SIDED|95.0|0.185|0.388|||Regression, Cox|stratified|regorafenib over placebo|Hazard ratio and its 95% CI (Confidence Interval) was based on stratified Cox Regression Model||0.388|0.185|
92375272|NCT01271712|184653129|SUPERIORITY_OR_OTHER_LEGACY|||||||0.285777|||||||Log Rank|stratified||||||0.285777
92375273|NCT01271712|184653129|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.909|||||TWO_SIDED|95.0|0.653|1.265|||Regression, Cox|stratified|regorafenib over control. 58 (87.9%) patients in placebo group and 91 (68.4%) patients in regorafenib had started open-label treatment with regorafenib before time of final database cutoff 08 Jun 2015.|Hazard ratio and its 95% CI was based on stratified Cox Regression Model||1.265|0.653|
92375274|NCT01271712|184653130|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-06|||||||Log Rank|stratified||||||<0.000001
92375275|NCT01271712|184653130|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.248|||||TWO_SIDED|95.0|0.17|0.364|||Regression, Cox|stratified||||0.364|0.170|
92375276|NCT01431014|184653135|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||>0.05
92375277|NCT02685748|184653136|OTHER||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|0.444||0.863|TWO_SIDED|95.0|-0.969|0.815|||t-test, 2 sided|||||0.815|-0.969|0.863
92375278|NCT02685748|184653137|OTHER|T test for independent samples|Mean Difference (Final Values)|3.616|STANDARD_ERROR_OF_MEAN|2.364||0.133|TWO_SIDED|95.0|-1.147|8.379|||t-test, 2 sided|||||8.379|-1.147|0.133
92375279|NCT02685748|184653138|OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.43||1.607|TWO_SIDED|95.0|-1.1553|0.172|||t-test, 2 sided|||||0.172|-1.1553|1.607
92375280|NCT02685748|184653139|OTHER||Mean Difference (Final Values)|-1.282|STANDARD_ERROR_OF_MEAN|1.754||0.468|TWO_SIDED|95.0|-4.807|2.241|||t-test, 2 sided|||||2.241|-4.807|0.468
92375281|NCT02685748|184653140|OTHER||Mean Difference (Final Values)|-0.051|STANDARD_ERROR_OF_MEAN|0.406||0.899|TWO_SIDED|95.0|-0.869|0.765|||t-test, 2 sided|||||0.765|-0.869|0.899
92375282|NCT02685748|184653141|OTHER||Mean Difference (Final Values)|7.05|STANDARD_DEVIATION|6.797||0.305|TWO_SIDED|95.0|-6.602|20.703|||t-test, 2 sided|||||20.703|-6.602|0.305
92375283|NCT02685748|184653142|OTHER||Mean Difference (Final Values)|160.298|STANDARD_ERROR_OF_MEAN|159.525||0.32|TWO_SIDED|95.0|-160.118|480.714|||t-test, 2 sided|||||480.714|-160.118|0.320
92375284|NCT02685748|184653143|OTHER||Mean Difference (Final Values)|-1.495|STANDARD_ERROR_OF_MEAN|3.558||0.676|TWO_SIDED|95.0|-8.642|5.651|||t-test, 2 sided|||||5.651|-8.642|0.676
92375285|NCT02136680|184653152|SUPERIORITY||Regression Coefficient|0.046||||0.4|TWO_SIDED||||||Regression, Linear|||Change in Self-Esteem from Baseline to First Follow-up: Intervention Group vs. Control Group||||0.400
92375286|NCT02136680|184653152|SUPERIORITY||Regression Coefficient|0.119||||0.022|TWO_SIDED||||||Regression, Linear|||Change in Self-Esteem from Baseline to Second Follow-up: Intervention Group vs. Control Group||||0.022
92375287|NCT02136680|184653152|SUPERIORITY||Regression Coefficient|-0.003||||0.347|TWO_SIDED||||||Regression, Linear|||Change in Self-Esteem from First Follow-up to Second Follow-up: Intervention Group vs. Control Group||||0.347
92375288|NCT02136680|184653153|SUPERIORITY||Regression Coefficient|-0.003||||0.959|TWO_SIDED||||||Regression, Linear|||Change in Global QOL from Baseline to First Follow-up: Intervention Group vs. Control Group||||0.959
92410111|NCT04518995|184710853|SUPERIORITY||Risk Difference (RD)|0.25|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|0.17|0.34||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.34|0.17|< 0.0001
92410112|NCT04518995|184710853|SUPERIORITY||Risk Difference (RD)|0.32|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|0.23|0.42||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.42|0.23|< 0.0001
92410113|NCT04518995|184710853|SUPERIORITY||Risk Difference (RD)|0.35|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.27|0.42||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.42|0.27|< 0.0001
92410114|NCT04518995|184710853|SUPERIORITY||Risk Difference (RD)|0.39|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|0.3|0.48||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.48|0.30|< 0.0001
92410115|NCT04518995|184710853|SUPERIORITY||Risk Difference (RD)|0.34|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.26|0.42||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.42|0.26|< 0.0001
92410116|NCT04518995|184710853|SUPERIORITY||Risk Difference (RD)|0.42|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|0.34|0.51||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.51|0.34|< 0.0001
92410117|NCT04518995|184710853|SUPERIORITY||Risk Difference (RD)|0.37|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|0.29|0.44||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.44|0.29|< 0.0001
92410118|NCT04518995|184710853|SUPERIORITY||Risk Difference (RD)|0.44|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|0.35|0.53||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.53|0.35|< 0.0001
92410119|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 12||-0.5|-0.9|<0.0001
92410120|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score|MMRM|||Satisfied Thickness Hair Coverage: Week 12||-0.7|-1.2|<0.0001
92410121|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score|MMRM|||Satisfied Thickness Hair Coverage: Week 16||-0.6|-1.1|<0.0001
92410122|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.4|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score|MMRM|||Satisfied Thickness Hair Coverage: Week 16||-1.0|-1.4|<0.0001
92410123|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 20||-0.8|-1.2|<0.0001
92410124|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 20||-1.1|-1.6|<0.0001
92410125|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 24||-0.8|-1.3|<0.0001
92229412|NCT03529409|184361435|SUPERIORITY||Mean Difference (Net)|84.0||||0.44|TWO_SIDED|95.0|-136.0|304.0||The overall omnibus test of the time by treatment interaction was p=.38. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||304|-136|.44
92375289|NCT02136680|184653153|SUPERIORITY||Regression Coefficient|0.143||||0.021|TWO_SIDED||||||Regression, Linear|||Change in Global QOL from Baseline to Second Follow-up: Intervention Group vs. Control Group||||0.021
92375290|NCT02136680|184653153|SUPERIORITY||Regression Coefficient|0.048||||0.454|TWO_SIDED||||||Regression, Linear|||Change in Global QOL from First Follow-up to Second Follow-up: Intervention Group vs. Control Group||||0.454
92375291|NCT02136680|184653153|SUPERIORITY||Regression Coefficient|-0.015||||0.774|TWO_SIDED||||||Regression, Linear|||Change in Summary QOL from Baseline to First Follow-up||||0.774
92375292|NCT02136680|184653153|SUPERIORITY||Regression Coefficient|0.137||||0.018|TWO_SIDED||||||Regression, Linear|||Change in Summary QOL from Baseline to Second Follow-up: Intervention Group vs. Control Group||||0.018
92375293|NCT02136680|184653153|SUPERIORITY||Regression Coefficient|0.051||||0.362|TWO_SIDED||||||Regression, Linear|||Change in Summary QOL from First Follow-up to Second Follow-up: Intervention Group vs. Control Group||||0.362
92410126|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.7|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 24||-1.2|-1.7|<0.0001
92375294|NCT02136680|184653154|SUPERIORITY||Regression Coefficient|-0.072||||0.213|TWO_SIDED||||||Regression, Linear|||Change in Palliative Outcomes from Baseline to First Follow-up: Intervention Group vs. Control Group||||0.213
92375295|NCT02136680|184653154|SUPERIORITY||Regression Coefficient|0.037||||0.561|TWO_SIDED||||||Regression, Linear|||Change in Palliative Outcomes from Baseline to Second Follow-up: Intervention Group vs. Control Group||||0.561
92375296|NCT02136680|184653154|SUPERIORITY|Change in Palliative Outcomes from First Follow-up to Second Follow-up: Intervention Group vs. Control Group|Regression Coefficient|0.165||||0.008|TWO_SIDED||||||Regression, Linear|||||||0.008
92375297|NCT03397134|184653157|SUPERIORITY|All statistical tests will be 2-sided hypothesis tests performed at the 5% level of significance. All confidence intervals will be 2-sided 95% confidence intervals||||||0.043||||||The p-values must be ≤0.025 to allow for rejecting the null hypothesis for the representative dose.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom.||To evaluate the efficacy of 2 fixed doses (32 mg and 64 mg) of MIN-101 compared to placebo in improving the negative symptoms of schizophrenia as measured by the change from Baseline in the PANSS Marder negative symptoms factor score (NSFS) over 12 weeks of double-blind treatment. Approximation 501 eligible patients will be randomized in a 2:2:1:1 ratio at baseline to 1 of 4 treatment arms.||||0.043
92375298|NCT03397134|184653158|SUPERIORITY|All statistical tests will be 2-sided hypothesis tests performed at the 5% level of significance. All confidence intervals will be 2-sided 95% confidence intervals.||||||0.016||||||The p-values must be ≤0.025 to allow for rejecting the null hypothesis for the representative dose.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom.||The PSP involves four subscale domains: (a) socially useful activities, (b) personal and social relationships, (c) self-care, and (d) disturbing and aggressive behaviors. After each of these four areas is scored on an anchored Likert-type scale (0-5), raters are instructed to select a 10-point range within a 100-point scale, guided by the area scores assigned during assessment.||||0.016
92375299|NCT00557310|184653182|SUPERIORITY_OR_OTHER|||||||0.363||95.0|||||Mixed Model Repeated Measurements|||||||0.363
92375300|NCT00557310|184653183|SUPERIORITY_OR_OTHER|||||||0.837||95.0|||||Mixed Model Repeated Measurements|||||||0.837
92375301|NCT00557310|184653184|SUPERIORITY_OR_OTHER|||||||0.816||95.0||||P-value is for the percent change from baseline at 18 months.|Mixed Model Repeated Measurements|||||||0.816
92375302|NCT00557310|184653184|SUPERIORITY_OR_OTHER|||||||0.934||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measurements|||||||0.934
92375303|NCT00557310|184653185|SUPERIORITY_OR_OTHER|||||||0.324||95.0||||P-value is for the percent change from baseline at 18 months.|Mixed Model Repeated Measures|||||||0.324
92375304|NCT00557310|184653185|SUPERIORITY_OR_OTHER|||||||0.089||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measures|||||||0.089
92375305|NCT00557310|184653186|SUPERIORITY_OR_OTHER|||||||0.847||95.0|||||Mixed Model Repeated Measurements|P-value is for the percent change from baseline at 18 months.||||||0.847
92375306|NCT00557310|184653186|SUPERIORITY_OR_OTHER|||||||0.212||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measurements|||||||0.212
92375307|NCT00557310|184653187|SUPERIORITY_OR_OTHER|||||||0.335||95.0|||||Mixed Model Repeated Measurements|P-value is for the percent change from baseline at 3 months.||||||0.335
92375308|NCT00557310|184653187|SUPERIORITY_OR_OTHER|||||||0.916||95.0||||P-value is for the percent change from baseline at 6 months.|Mixed Model Repeated Measurements|||||||0.916
92375309|NCT00557310|184653187|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||P-value is for the percent change from baseline at 12 months.|Mixed Model Repeated Measurements|||||||0.610
92375310|NCT00557310|184653187|SUPERIORITY_OR_OTHER|||||||0.363||95.0|||||Mixed Model Repeated Measurements|P-value is for the percent change from baseline at 18 months.||||||0.363
92410127|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.8|-0.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 12||-0.4|-0.8|<0.0001
92410128|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 12||-0.7|-1.1|<0.0001
92410129|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 16||-0.5|-0.9|<0.0001
92410130|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 16||-0.8|-1.3|<0.0001
92410131|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 20||-0.7|-1.1|<0.0001
92410132|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 20||-1.0|-1.5|<0.0001
92375311|NCT00557310|184653187|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measurements|||||||0.837
92375312|NCT00557310|184653188|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92410133|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 24||-0.7|-1.2|<0.0001
92410134|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 24||-1.0|-1.5|<0.0001
92169118|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.66|-0.3|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.30|-0.66|<0.0001
92169119|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.0625|TWO_SIDED|95.0|-0.39|0.01|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.01|-0.39|0.0625
92410135|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 12||-0.5|-0.9|< 0.0001
92410136|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 12||-0.6|-1.1|< 0.0001
92169120|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.54|-0.14|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.14|-0.54|0.0010
92169121|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.4005|TWO_SIDED|95.0|-0.36|0.14|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.14|-0.36|0.4005
92169122|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.13||0.053|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.00|-0.50|0.0530
92169123|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.4074|TWO_SIDED|95.0|-0.37|0.15|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.15|-0.37|0.4074
92229413|NCT03529409|184361436|SUPERIORITY||Mean Difference (Net)|-0.16||||0.87|TWO_SIDED|95.0|-1.85|1.58||The overall omnibus test of the time by treatment interaction was p=.90. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||1.58|-1.85|.87
92375313|NCT00557310|184653189|SUPERIORITY_OR_OTHER|||||||0.021||95.0|||||ANOVA|||||||0.021
92375314|NCT00557310|184653190|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92375315|NCT00557310|184653191|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||ANOVA|||||||0.045
92375316|NCT00557310|184653192|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the percent change from baseline at 18 months.|ANOVA|||||||<0.001
92375317|NCT00557310|184653192|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the percent change from baseline at 24 months.|ANOVA|||||||<0.001
92410137|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 16||-0.7|-1.1|< 0.0001
92410138|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 16||-0.9|-1.4|< 0.0001
92375318|NCT00557310|184653193|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value is for the percent change from baseline at 18 months.|ANOVA|||||||0.011
92375319|NCT00557310|184653193|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||P-value is for the percent change from baseline at 24 months.|ANOVA|||||||0.049
92375320|NCT00557310|184653194|SUPERIORITY_OR_OTHER|||||||0.7||95.0||||P-value is for the percent change from baseline at 18 months.|ANOVA|||||||0.700
92375321|NCT00557310|184653194|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value is for the percent change from baseline at 24 months.|ANOVA|||||||0.092
92375322|NCT00557310|184653195|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value is for the percent change from baseline at 18 months.|ANOVA|||||||0.013
92375323|NCT00557310|184653195|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value is for the percent change from baseline at 24 months.|ANOVA|||||||0.005
92375324|NCT00557310|184653196|SUPERIORITY_OR_OTHER|||||||0.106||95.0||||P-value is for the percent change from baseline at 18 months.|ANOVA|||||||0.106
92375325|NCT00557310|184653196|SUPERIORITY_OR_OTHER|||||||0.436||95.0||||P-value is for the percent change from baseline at 24 months.|ANOVA|||||||0.436
92410139|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 20||-0.7|-1.1|< 0.0001
92410140|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 20||-0.9|-1.3|< 0.0001
92169124|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.2629|TWO_SIDED|95.0|-0.41|0.11|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.11|-0.41|0.2629
92169125|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.13||0.5582|TWO_SIDED|95.0|-0.34|0.18|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.18|-0.34|0.5582
92169126|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.13||0.4907|TWO_SIDED|95.0|-0.35|0.17|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.17|-0.35|0.4907
92169127|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.14||0.4043|TWO_SIDED|95.0|-0.38|0.15|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.15|-0.38|0.4043
92375326|NCT00557310|184653197|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the percent change from baseline at 3 months.|Mixed Model Repeated Measurements|||||||<0.001
92375327|NCT00557310|184653197|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the percent change from baseline at 6 months.|Mixed Model Repeated Measurements|||||||<0.001
92375328|NCT00557310|184653197|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measurements|||||||<0.001
92375329|NCT00557310|184653198|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value is for the percent change from baseline at 3 months.|Mixed Model Repeated Measurements|||||||0.012
92375330|NCT00557310|184653198|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value is for the percent change from baseline at 6 months.|Mixed Model Repeated Measurements|||||||0.012
92375331|NCT00557310|184653198|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measurements|||||||0.016
92375332|NCT02351349|184653202|OTHER|paired t test pre compared to post readings||||||0.0143|||||||t-test, 2 sided|||||||0.0143
92375333|NCT02351349|184653203|OTHER|as above||||||0.1416|||||||t-test, 2 sided|||pre and post comparison of time up and go in intervention group||||0.1416
92375334|NCT02351349|184653204|OTHER|||||||0.9013|||||||t-test, 2 sided|||pre and post value comparison with paired t test was carried out||||0.9013
92375335|NCT01509677|184653251|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7922||||||"This is p-value testing significance of treatment effect"|Poisson regression model|||2-sided test at 5% significant level||||0.7922
92375336|NCT01509677|184653251|SUPERIORITY||Risk Ratio (RR)|1.03|STANDARD_ERROR_OF_MEAN|0.12||0.7917|TWO_SIDED|95.0|0.82|1.3|||Poisson regression model|||||1.30|0.82|0.7917
92375337|NCT01509677|184653252|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7145||||||"This is p-value testing significance of treatment effect"|Poisson regression model|||2-sided, 5% test||||0.7145
92410141|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 24||-0.8|-1.2|< 0.0001
92375338|NCT01509677|184653253|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.04|STANDARD_ERROR_OF_MEAN|0.119||0.7136|TWO_SIDED|95.0|0.83|1.3|||Poisson regression model|||2-sided 5% test||1.30|0.83|0.7136
92375339|NCT01509677|184653254|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.4|STANDARD_ERROR_OF_MEAN|15.45||0.4606||95.0|-19.2|42.1|||ANCOVA|||2-sided 5% test||42.1|-19.2|0.4606
92229414|NCT03529409|184361441|SUPERIORITY||Mean Difference (Net)|-0.47||||0.65|TWO_SIDED|95.0|-2.49|1.55||The overall omnibus test of the time by treatment interaction was p=.89. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||1.55|-2.49|.65
92375340|NCT01509677|184653255|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.19|STANDARD_ERROR_OF_MEAN|0.194||0.2744|TWO_SIDED|95.0|0.87|1.64|||Poisson regression model|||2-sided 5% test||1.64|0.87|0.2744
92375341|NCT01509677|184653256|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.85|STANDARD_ERROR_OF_MEAN|0.086||0.1128|TWO_SIDED|95.0|0.7|1.04|||Poisson regression model|||2-sided 5% test||1.04|0.70|0.1128
92375342|NCT01509677|184653257|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.93|STANDARD_ERROR_OF_MEAN|0.164||0.674|TWO_SIDED|95.0|0.66|1.31|||Regression, Linear|Poisson regression model||2-sided 5% test||1.31|0.66|0.6740
92375343|NCT01509677|184653258|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.84|STANDARD_ERROR_OF_MEAN|0.082||0.0677|TWO_SIDED|95.0|0.69|1.01|||Poisson regression model|||2-sided 5% test||1.01|0.69|0.0677
92375344|NCT01509677|184653259|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.82|STANDARD_ERROR_OF_MEAN|0.177||0.3566|TWO_SIDED|95.0|0.54|1.25|||Poisson regression model|||2-sided 5% test||1.25|0.54|0.3566
92375345|NCT01509677|184653260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6354|STANDARD_ERROR_OF_MEAN|2.30185||0.4794|TWO_SIDED|95.0|-2.9429|6.2137|||ANCOVA|||2 sided 5% test||6.2137|-2.9429|0.4794
92375346|NCT01509677|184653261|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4727|STANDARD_ERROR_OF_MEAN|0.32866||0.1541|TWO_SIDED|95.0|-0.181|1.1264|||ANCOVA|||2 sided 5% test||1.1264|-0.1810|0.1541
92375347|NCT01509677|184653262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.0626|STANDARD_ERROR_OF_MEAN|0.03681||0.0927|TWO_SIDED|95.0|-0.1358|0.0106|||ANCOVA|||2 sided 5% test||0.0106|-0.1358|0.0927
92375348|NCT01509677|184653263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.0107|STANDARD_ERROR_OF_MEAN|0.01647||0.5175|TWO_SIDED|95.0|-0.0435|0.022|||ANCOVA|||2 sided 5% test||0.0220|-0.0435|0.5175
92375349|NCT01509677|184653264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.146|STANDARD_ERROR_OF_MEAN|3.3253||0.5205|TWO_SIDED|95.0|-4.466|8.757|||ANCOVA|||2-sided 5 % test||8.757|-4.466|0.5205
92375350|NCT01509677|184653265|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.141|STANDARD_ERROR_OF_MEAN|3.0057||0.7052|TWO_SIDED|95.0|-4.835|7.117|||ANCOVA|||2-sided 5 % test||7.117|-4.835|0.7052
92410142|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 24||-0.9|-1.4|< 0.0001
92375351|NCT01509677|184653266|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.867|STANDARD_ERROR_OF_MEAN|0.7331||0.0127|TWO_SIDED|95.0|-3.324|-0.409|||ANCOVA|||2-sided 5 % test||-0.409|-3.324|0.0127
92375352|NCT01509677|184653267|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.051|STANDARD_ERROR_OF_MEAN|0.1871||0.7862|TWO_SIDED|95.0|-0.423|0.321|||ANCOVA|||2-sided 5 % test||0.321|-0.423|0.7862
92375353|NCT01509677|184653268|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|1.005||0.8769|TWO_SIDED|95.0|-1.84|2.15|||ANCOVA|||2-sided 5% test||2.15|-1.84|0.8769
92375354|NCT01509677|184653269|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|711.1|STANDARD_ERROR_OF_MEAN|2768.79||0.7978|TWO_SIDED|95.0|-4778.3|6200.5|||ANCOVA|||2-sided 5% test||6200.5|-4778.3|0.7978
92375355|NCT01509677|184653270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|88.5|STANDARD_ERROR_OF_MEAN|79.26||0.2669|TWO_SIDED|95.0|-68.6|245.6|||ANCOVA|||2-sided 5% test||245.6|-68.6|0.2669
92375356|NCT01509677|184653271|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-25.9|STANDARD_ERROR_OF_MEAN|67.78||0.7033|TWO_SIDED|95.0|-160.3|108.5|||ANCOVA|||2-sided 5% test||108.5|-160.3|0.7033
92375357|NCT01509677|184653272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|27.79|STANDARD_ERROR_OF_MEAN|18.039||0.1264|TWO_SIDED|95.0|-7.97|63.55|||ANCOVA|||2-sided 5% test||63.55|-7.97|0.1264
92375358|NCT01509677|184653273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|296.8|STANDARD_ERROR_OF_MEAN|124.07||0.0185|TWO_SIDED|95.0|50.9|542.7|||ANCOVA|||2-sided 5% test||542.7|50.9|0.0185
92375359|NCT01509677|184653274|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.086||0.9989|TWO_SIDED|95.0|-0.17|0.17|||ANCOVA|||2-sided 5% test||0.17|-0.17|0.9989
92375360|NCT01509677|184653275|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|1.309||0.6701|TWO_SIDED|95.0|-3.15|2.03|||ANCOVA|||2-sided 5% test||2.03|-3.15|0.6701
92375361|NCT01509677|184653276|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|1.1||0.1105|TWO_SIDED|95.0|-0.4|3.9|||ANCOVA|||2-sided 5% test||3.9|-0.4|0.1105
92277936|NCT05431153|184458045|OTHER||Ratio of adjusted geometric means|96.35|||||TWO_SIDED|90.0|87.48|106.12|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||106.12|87.48|
92375362|NCT01509677|184653277|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|15.62||0.9261|TWO_SIDED|95.0|-32.4|29.5|||ANCOVA|||2-sided 5% test||29.5|-32.4|0.9261
92375363|NCT01509677|184653278|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.1|STANDARD_ERROR_OF_MEAN|4.49||0.0257|TWO_SIDED|95.0|1.2|19.0|||ANCOVA|||2-sided 5% test||19.0|1.2|0.0257
92410143|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.7|-0.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 12||-0.3|-0.7|< 0.0001
92375364|NCT01509677|184653279|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|32.8|STANDARD_ERROR_OF_MEAN|18.11||0.0728|TWO_SIDED|95.0|-3.0|168.6|||ANCOVA|||2-sided 5% test||168.6|-3.0|0.0728
92375365|NCT01509677|184653280|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.03||0.038|TWO_SIDED|95.0|0.004|0.122|||ANCOVA|||2-sided 5% test||0.122|0.004|0.0380
92375366|NCT01509677|184653281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.064|STANDARD_ERROR_OF_MEAN|0.0552||0.2482|TWO_SIDED|95.0|-0.045|0.173|||ANCOVA|||2-sided 5% test||0.173|-0.045|0.2482
92375367|NCT01509677|184653282|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-1.0||||0.2629|TWO_SIDED|95.0|-2.0|1.0|||Wilcoxon (Mann-Whitney)|Between treatment difference||2 sided 5 % test||1.00|-2.00|0.2629
92375368|NCT01960998|184653433|SUPERIORITY|||||||0.22||||||P value not adjusted for multiple comparisons|Log Rank||||Data were not collected beyond the 12-month follow up, at which point fewer than 50% of participants in both groups had achieved continence. Thus, their time to continence could not be determined and the medians could not be calculated.|||0.22
92375369|NCT01960998|184653434|SUPERIORITY|||||||0.7||||||P values were not corrected for multiple testing|ANCOVA|Baseline score was included as a covariate in analysis.|||Mean values for the telehealth and no telehealth groups on the ICIQ-SF are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean ICIQ-SF score in the no telehealth group at 6 months was 7.0 (standard deviation 4.4) and in the telehealth group was 7.1 (SD 4.3). Analysis of covariance (ANCOVA) was performed with each of the 10 imputations, adjusting for baseline ICIQ-SF score, and p values were combined using the Rubin-Licht method.|||0.70
92375370|NCT01960998|184653435|SUPERIORITY|||||||0.7||||||P values were not adjusted for multiple comparisons.|ANCOVA||||Mean values for the telehealth and no telehealth groups on the EPIC-UI are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean EPIC-UI score in the no telehealth group at 6 months was 63.5 (standard deviation 24.1) and in the telehealth group was 63.9 (SD 22.1). Analysis of covariance (ANCOVA) was performed with each of the 10 imputations, adjusting for baseline EPIC-UI score, and p values were combined using the Rubin-Licht method.|||0.70
92375371|NCT01960998|184653436|SUPERIORITY|||||||0.46||||||P values not adjusted for multiple comparisons.|t-test, 2 sided||||Mean values for the telehealth and no telehealth groups on the IIQ are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean IIQ score in the no telehealth group at 6 months was 22.3 (standard deviation 24.1) and in the telehealth group was 19.4 (SD 22.4). Two-sample t-tests were performed with each of the 10 imputations, and p values were combined using the Rubin-Licht method.|||0.46
92375372|NCT01960998|184653437|SUPERIORITY|||||||0.63||||||P values were not corrected for multiple comparisons|Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Quality of Life question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 31.4% (Delighted/Pleased), 22.8% (Mostly Satisfied), 19.4% (Mixed), 12.0% (Mostly Dissatisfied), and 14.4% (Unhappy/Terrible) and in the telehealth group were 20.8%, 26.3%, 26.3%, 12.6%, and 14.0%, respectively. Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 5 levels of the IPSS Quality of Life question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.63
92410144|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.8|-0.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 12||-0.4|-0.8|< 0.0001
92410145|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 16||-0.5|-0.9|< 0.0001
92410146|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 16||-0.7|-1.1|< 0.0001
92410147|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 20||-0.5|-0.9|< 0.0001
92410148|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.0|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 20||-0.5|-1.0|< 0.0001
92410149|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 24||-0.6|-1.1|< 0.0001
92410150|NCT04518995|184710854|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 24||-0.7|-1.2|< 0.0001
92410151|NCT04518995|184710855|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.2489|TWO_SIDED|95.0|-0.2|0.9||P-value was calculated by analysis of covariance (ANCOVA) analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Anxiety||0.9|-0.2|0.2489
92410152|NCT04518995|184710855|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.32||0.1235|TWO_SIDED|95.0|-0.1|1.1||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Anxiety||1.1|-0.1|0.1235
92410153|NCT04518995|184710855|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.9765|TWO_SIDED|95.0|-0.5|0.5||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Depression||0.5|-0.5|0.9765
92410154|NCT04518995|184710855|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.3559|TWO_SIDED|95.0|-0.3|0.8||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Depression||0.8|-0.3|0.3559
92410155|NCT04518995|184710856|SUPERIORITY||Risk Difference (RD)|0.21|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.16|0.25||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.25|0.16|<0.0001
92410156|NCT04518995|184710856|SUPERIORITY||Risk Difference (RD)|0.33|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.27|0.39||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.39|0.27|<0.0001
92169128|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7663|TWO_SIDED|95.0|-0.31|0.23|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.23|-0.31|0.7663
92229415|NCT03529409|184361442|SUPERIORITY||Mean Difference (Net)|3.3||||0.63|TWO_SIDED|95.0|-10.5|17.1||The overall omnibus test of the time by treatment interaction was p=.66. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||17.1|-10.5|.63
92410157|NCT01235598|184710892|SUPERIORITY_OR_OTHER||Median difference within group changes|-1.5||||0.049|TWO_SIDED|95.0|-3.0|0.0||Two-sided p-value is presented, with p \< 0.05 as the threshold for statistical significance.|Permutation test with general scores||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses. Hypotheses were ordered and tested in that order, beginning with change from Baseline at Week 16, and continuing to earlier time points (Week 8, 4, 2, 1 in that order) only if the previous null hypothesis of zero difference was rejected (p \<0.05). Hypothesis testing was stopped if and when a non-significant result was obtained.||0.0|-3.0|0.049
92410158|NCT01235598|184710893|SUPERIORITY_OR_OTHER||Median Difference within group changes|-1.0||||0.206|TWO_SIDED|95.0|-3.0|1.0||Two-sided p-value is presented, with p \< 0.05 as the threshold for statistical significance. A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses.|Permutation test with general scores||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses. Hypotheses were ordered and tested in that order, beginning with change from Baseline at Week 16, and continuing to earlier time points (Week 8, 4, 2, 1 in that order) only if the previous null hypothesis of zero difference was rejected (p \< 0.05). Hypothesis testing was stopped if and when a non-significant result was obtained. Testing was stopped in the next step.||1.0|-3.0|0.206
92410159|NCT01235598|184710897|SUPERIORITY_OR_OTHER||Median difference within group changes|-0.0035||||0.164|TWO_SIDED|95.0|-0.012|0.0025||Two-sided p-value is presented, with p \<0.05 as the threshold for statistical significance. A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses.|Permutation test with general scores||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses. Hypotheses were ordered and tested in that order, beginning with change from Baseline at Week 16, and continuing to earlier time points (Week 8, 4, 2, 1 in that order) only if the previous null hypothesis of zero difference was rejected (p \<0.05). Hypothesis testing was stopped if and when a non-significant result was obtained.||0.0025|-0.0120|0.164
92410160|NCT01235598|184710898|SUPERIORITY_OR_OTHER||Median difference within group changes|-0.069||||0.865|TWO_SIDED|95.0|-0.201|0.138||Two-sided p-value is presented, with p \<0.05 as the threshold for statistical significance. A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses.|Permutation test with general scores||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses. Hypotheses were ordered and tested in that order, beginning with change from Baseline at Week 16, and continuing to earlier time points (Week 8, 4, 2, 1 in that order) only if the previous null hypothesis of zero difference was rejected (p \<0.05). Hypothesis testing was stopped if and when a non-significant result was obtained.||0.1380|-0.2010|0.865
92169129|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7415|TWO_SIDED|95.0|-0.31|0.22|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.22|-0.31|0.7415
92229416|NCT03529409|184361443|SUPERIORITY||Mean Difference (Net)|-0.03||||0.85|TWO_SIDED|95.0|-0.34|0.28||The overall omnibus test of the time by treatment interaction was p=.94. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||.28|-.34|.85
92277937|NCT05431153|184458045|OTHER||Ratio of adjusted geometric means|93.47|||||TWO_SIDED|90.0|85.65|102.0|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||102.00|85.65|
92277938|NCT05431153|184458045|OTHER||Ratio of adjusted geometric means|98.01|||||TWO_SIDED|90.0|89.86|106.9|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||106.90|89.86|
92375373|NCT01960998|184653438|SUPERIORITY|||||||0.04||||||P values were not corrected for multiple comparisons|Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Patient Satisfaction question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 51.0% (Completely Satisfied), 40.2% (Somewhat Satisfied), and 8.7% (Not at All Satisfied) and in the telehealth group were 34.8%, 59.9%, and 5.3%, respectively (frequencies to not add to exactly 100% due to rounding). Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 3 levels of the Patient Satisfaction question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.04
92375374|NCT01960998|184653439|SUPERIORITY|||||||0.67||||||P values not adjusted for multiple comparisons|t-test, 2 sided||||Mean values for the telehealth and no telehealth groups on the Estimated Percent Improvement (EPI) are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean EPI score in the no telehealth group at 6 months was 65.1 (standard deviation 34.5) and in the telehealth group was 69.6 (SD 29.6). Two-sample t-tests were performed with each of the 10 imputations, and p values were combined using the Rubin-Licht method.|||0.67
92375375|NCT01960998|184653440|SUPERIORITY|||||||0.65|||||||Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Global Perception of Improvement (GPI) question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 46.3% (Much Better), 30.7% (Better), 16.7% (About the Same), 2.3% (Worse), and 3.9% (Much Worse) and in the telehealth group were 38.3%, 41.1%, 15.3%, 2.9%, and 2.5%, respectively (frequencies to not add to exactly 100% due to rounding). Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 5 levels of the Global Perception of Improvement question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.65
92446290|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.081||0.0717|TWO_SIDED|95.0|-0.01|0.31|||MMRM|||Loss of weight, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.01|0.0717
92229417|NCT02440581|184361503|OTHER|T-tests||||||0.443|||||||t-test, 2 sided|||||||.443
92229418|NCT02440581|184361504|OTHER|T-tests||||||0.49|||||||t-test, 2 sided|||||||.490
92229419|NCT02440581|184361505|OTHER|T-tests|||||<|0.001|||||||t-test, 2 sided|||||||<.001
92229420|NCT02440581|184361506|OTHER|T-Tests||||||0.083|||||||t-test, 2 sided|||||||.083
92229421|NCT02440581|184361507|OTHER|T-tests||||||0.283|||||||t-test, 2 sided|||||||.283
92229422|NCT00654498|184361508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.52|STANDARD_ERROR_OF_MEAN|1.05|<|0.0001|TWO_SIDED|95.0|-6.58|-2.46|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-2.46|-6.58|<0.0001
92229423|NCT00654498|184361509|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|test stratified by centre||||||<0.0001
92229424|NCT00654498|184361510|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|test stratified by centre||||||<0.0001
92277939|NCT05431153|184458046|OTHER||Ratio of adjusted geometric means|111.52|||||TWO_SIDED|90.0|99.55|124.93|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||124.93|99.55|
92375376|NCT01960998|184653441|SUPERIORITY|||||||0.37||||||P values were not corrected for multiple comparisons|Chi-squared, Corrected||||"Frequencies for the telehealth and no telehealth groups on the How Disturbing is the Urine Leakage? question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 43.5% (Not at All), 44.4% (Somewhat), and 12.1% (Extremely) and in the telehealth group were 38.9%, 53.2%, and 7.9% respectively. Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 3 levels of the How Disturbing is the Urine Leakage? question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method."|||0.37
92375377|NCT01960998|184653442|SUPERIORITY|||||||0.63||||||P values were not adjusted for multiple comparisons|Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Activity Restriction question relative to the expected frequencies question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 51.0% (Not at all), 36.5% (Some of the time), 7.2% (Most of the time), and 5.3% (All of the time) and in the telehealth group were 56.5%, 33.5%, 4.2%, and 5.8% respectively (frequencies to not add to exactly 100% due to rounding). Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 4 levels of the Activity Restriction question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.63
92375378|NCT01960998|184653443|SUPERIORITY|||||||0.71||||||P values not adjusted for multiple comparisons|Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Return to Work question relative to the expected frequencies question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 52.3% (Yes), 5.0% (No, not yet recovered from surgery), 1.9% (No, other reason), and 40.7% (Retired or disabled) and in the telehealth group were 62.3%, 3.5%, 0.8%, and 33.5% respectively (frequencies to not add to exactly 100% due to rounding). Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 4 levels of the Return to Work question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.71
92375379|NCT01960998|184653444|SUPERIORITY|||||||0.41||||||P values not corrected for multiple comparisons|Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Resumption of Normal Activities question relative to the expected frequencies question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 7.4% (None), 29.8% (Some), 62.8% (All) and in the telehealth group were 4.9%, 23.0%, and 72.2% respectively (frequencies to not add to exactly 100% due to rounding). Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 3 levels of the Resumption of Normal Activities question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.41
92375380|NCT01357161|184653459|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.08|TWO_SIDED|80.0|0.45|0.89|||Cox proportional hazards model|||A stratified \[number of prior platinum based regimens (1 vs. 2 and 3), time since last platinum based therapy (\<12 months vs. ≥12 months)\] Cox proportional hazards model, with Efron method of tie handling, was used to assess the magnitude of the treatment difference between the treatment arms. The p-value from the score test was used in the significance test and the hazard ratio (MK-1775 versus Placebo) and its 95% confidence interval from the same Cox model was reported.||0.89|0.45|0.080
92410161|NCT01235598|184710899|SUPERIORITY_OR_OTHER||Median difference within group changes|-421.5||||0.015|TWO_SIDED|95.0|-1542.5|-47.0||Two-sided p-value is presented, with p \<0.05 as the threshold for statistical significance. A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses.|Permutation test with general scores||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses. Hypotheses were ordered and tested in that order, beginning with change from Baseline at Week 16, and continuing to earlier time points (Week 8, 4, 2, 1 in that order) only if the previous null hypothesis of zero difference was rejected (p \<0.05). Hypothesis testing was stopped if and when a non-significant result was obtained.||-47.0|-1542.5|0.015
92410162|NCT01235598|184710911|SUPERIORITY_OR_OTHER|||||||0.394|||||||Spearman rank correlation|||||||0.394
92410163|NCT01235598|184710912|SUPERIORITY_OR_OTHER|||||||0.625|TWO_SIDED||||||Spearman rank correlation|||||||0.625
92277940|NCT05431153|184458046|OTHER||Ratio of adjusted geometric means|98.38|||||TWO_SIDED|90.0|90.68|106.73|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||106.73|90.68|
92229425|NCT00654498|184361511|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|test stratified by centre||||||<0.0001
92229426|NCT00654498|184361512|SUPERIORITY_OR_OTHER|||||||0.1386||95.0|||||Chi-squared|||||||0.1386
92229427|NCT00654498|184361513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.14|-0.83|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-0.83|-2.14|<0.0001
92277941|NCT05431153|184458047|OTHER||Ratio of adjusted geometric means|111.52|||||TWO_SIDED|90.0|96.46|128.93|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||128.93|96.46|
92375381|NCT01357161|184653461|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.55||||0.03|TWO_SIDED|80.0|0.39|0.79|||Cox proportional hazards model|||A stratified \[number of prior platinum based regimens (1 vs. 2 and 3), time since last platinum based therapy (\<12 months vs. ≥12 months)\] Cox proportional hazards model, with Efron method of tie handling, was used to assess the magnitude of the treatment difference between the treatment arms. The p-value from the score test was used in the significance test and the hazard ratio (MK-1775 versus Placebo) and its 95% confidence interval from the same Cox model was reported.||0.79|0.39|0.030
92375382|NCT01357161|184653463|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|3.3|||||TWO_SIDED|95.0|-2.9|11.4||||||P-values and 95% confidence intervals were calculated using the Miettinen and Nurminen method for between-treatment differences (MK-1775 vs. placebo) in the percentage of participants with events.||11.4|-2.9|
92375383|NCT01357161|184653464|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|-1.3|||||TWO_SIDED|95.0|-16.2|13.6||||||P-values and 95% confidence intervals were calculated using the Miettinen and Nurminen method for between-treatment differences (MK-1775 vs. placebo) in the percentage of participants with events.||13.6|-16.2|
92410164|NCT01235598|184710913|SUPERIORITY_OR_OTHER|||||||0.128|TWO_SIDED||||||Spearman rank correlation|||||||0.128
92410165|NCT01235598|184710914|SUPERIORITY_OR_OTHER|||||||0.732|TWO_SIDED||||||Spearman rank correlation|||||||0.732
92410166|NCT01235598|184710915|SUPERIORITY_OR_OTHER|||||||0.411|TWO_SIDED||||||Spearman rank correlation|||||||0.411
92410167|NCT01235598|184710916|SUPERIORITY_OR_OTHER|||||||0.208|TWO_SIDED||||||Spearman rank correlation|||||||0.208
92410168|NCT01235598|184710917|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.254|TWO_SIDED|95.0|-1.0|0.0||Two-sided p-value is presented, with p \<0.05 as the threshold for statistical significance.|Wilcoxon Rank-Sum Test||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|||0.0|-1.0|0.254
92410169|NCT01235598|184710918|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.472|TWO_SIDED|95.0|-2.0|1.0||Two-sided p-value is presented, with p \<0.05 as the threshold for statistical significance.|Wilcoxon Rank-Sum Test||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|||1.0|-2.0|0.472
92410170|NCT00395343|184710919|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56|||<|0.001||95.0|-0.7|-0.42|||ANCOVA|Model terms: treatment; baseline; metformin stratum (on vs. not on metformin); insulin stratum (pre-mixed vs. intermediate or long-acting)||||-0.42|-0.70|<0.001
92410171|NCT00395343|184710920|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.0|||<|0.001||95.0|-23.4|-6.5|||ANCOVA|Model terms: treatment; baseline; metformin stratum; insulin stratum||||-6.5|-23.4|<0.001
92410172|NCT00395343|184710921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-36.1|||<|0.001||95.0|-47.1|-25.1|||ANCOVA|Model terms: treatment; baseline; metformin stratum; insulin stratum||||-25.1|-47.1|<0.001
92410173|NCT00395343|184710922|SUPERIORITY_OR_OTHER||Geometric Mean Difference|36.5||||0.01||95.0|8.9|64.7|||ANCOVA|Model terms: treatment; log-scaled baseline value; metformin stratum; insulin stratum||||64.7|8.9|0.01
92410174|NCT00395343|184710923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.6|||<|0.001||95.0|1.89|6.85||Based on a test of the odds ratio = 1, comparing the odds of having A1C \<7.0% at Week 24 in the Sitagliptin 100 mg q.d. group vs. the Placebo group.|Logistic Regression|Model terms: treatment; baseline; Metformin stratum; and insulin stratum||||6.85|1.89|<0.001
92410175|NCT00395343|184710924|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.584||95.0|0.45|4.18||Based on a test of the odds ratio = 1, comparing the odds of having A1C \<7.0% at Week 24 in the Sitagliptin 100 mg q.d. group vs. the Placebo group.|Logistic Regression|Model terms: treatment; baseline; Metformin stratum; and insulin stratum|This parameter estimate and 95% confidence interval correspond to the odds of having A1C \<6.5% at Week 24 in the Sitagliptin 100 mg q.d. group vs. the Placebo group.|||4.18|0.45|0.584
92410176|NCT00395343|184710925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56|||<|0.001||95.0|-0.72|-0.4|||ANCOVA|Model terms: treatment; baseline; metformin stratum; insulin stratum, treatment by insulin stratum interaction||||-0.40|-0.72|<0.001
92410177|NCT00606905|184710935|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37|||<|0.05|TWO_SIDED|95.0|0.41|4.61|||Chi-squared|||||4.61|0.41|<0.05
92410178|NCT04657666|184710936|SUPERIORITY||Combined least mean square difference|0.04|STANDARD_ERROR_OF_MEAN|0.1||0.7152|TWO_SIDED|95.0|-0.16|0.23||Based on a combination of 300 linear mixed models for crossover data on the response variable change from baseline in LLMT-6 with period level LLMT-6 baseline covariate, treatment group, period, and sequence as fixed effects.|Mixed Models Analysis|Pattern mixture model (PMM) control-based imputation, mixed model repeated measures (MMRM)||||0.23|-0.16|0.7152
92410179|NCT02386189|184710995|SUPERIORITY||Mean Difference (Net)|-4.65|STANDARD_DEVIATION|7.3||0.02|TWO_SIDED||||||t-test, 2 sided|||The t-test was conducted on change between baseline and 12-month follow-up.||||0.02
92410180|NCT02386189|184710996|SUPERIORITY||Mean Difference (Net)|2.91|STANDARD_DEVIATION|5.5||0.06|TWO_SIDED||||||t-test, 2 sided|||||||0.06
92410181|NCT02386189|184710997|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_DEVIATION|2.7||0.71|TWO_SIDED||||||t-test, 2 sided|||||||0.71
92410182|NCT02386189|184710998|SUPERIORITY|||||||0.17|||||||Fisher Exact|||||||0.17
92410183|NCT02386189|184710999|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_DEVIATION|0.15||0.75|TWO_SIDED||||||t-test, 2 sided|||||||0.75
92410184|NCT02386189|184711000|SUPERIORITY||Mean Difference (Final Values)|-3.6|STANDARD_DEVIATION|7.1||0.18|TWO_SIDED||||||t-test, 2 sided|||||||0.18
92410185|NCT02386189|184711001|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|8.9||0.89|TWO_SIDED||||||t-test, 2 sided|||||||0.89
92410186|NCT03120351|184711002|SUPERIORITY||Mean Difference (Net)|-2.5||||0.28|TWO_SIDED|95.0|-7.11|2.06|||Mixed Models Analysis|||||2.06|-7.11|0.28
92410187|NCT01667419|184711024|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.001|TWO_SIDED|95.0|0.37|0.78|||Log Rank|||||0.78|0.37|0.0010
92410188|NCT01667419|184711024|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.2598|TWO_SIDED|95.0|0.54|1.18|||Log Rank|||||1.18|0.54|0.2598
92410189|NCT01667419|184711025|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.0133|TWO_SIDED|95.0|0.37|0.9|||Log Rank|||||0.90|0.37|0.0133
92375384|NCT01357161|184653465|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rat|5.2||||0.5247|TWO_SIDED|95.0|-10.9|21.1|||Miettinen and Nurminen's Method|||Stratified Miettinen and Nurminen's method with a two-sided p-Value for testing was used for comparison of the ORRs between the treatment groups in Part 2 portion of the study. A 95% confidence interval (CI) for the difference in response rates was provided.||21.1|-10.9|0.5247
92375385|NCT01357161|184653466|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.15||||0.8|TWO_SIDED|95.0|0.4|3.34|||Cox proportional hazards model|||A stratified \[number of prior platinum based regimens (1 vs. 2 and 3), time since last platinum based therapy (\<12 months vs. ≥12 months)\] Cox proportional hazards model, with Efron method of tie handling, was used to assess the magnitude of the treatment difference between the treatment arms. The p-value from the score test was used in the significance test and the hazard ratio (MK-1775 versus Placebo) and its 95% confidence interval from the same Cox model was reported.||3.34|0.40|0.800
92375386|NCT00433160|184653480|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Last Measurement Point. No adjustments for multiplicity was performed.|t-test, 2 sided|||Null hypothesis: there is no difference in the percent change in bone mineral density at lumbar spine (L2-L4) after 52-week treatment between the two treatment groups.||||<0.001
92375387|NCT00433160|184653484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 4. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in PINP after 4-week treatment between the two treatment groups.||||<0.001
92375388|NCT00433160|184653484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 12. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in PINP after 12-week treatment between the two treatment groups.||||<0.001
92375389|NCT00433160|184653484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 24. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in PINP after 24-week treatment between the two treatment groups.||||<0.001
92375390|NCT00433160|184653484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 52. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in PINP after 52-week treatment between the two treatment groups.||||<0.001
92375391|NCT00433160|184653484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Last Measurement. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in PINP from baseline to the last measurement point between the two treatment groups.||||<0.001
92375392|NCT00433160|184653485|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 4. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in BAP after 4-week treatment between the two treatment groups.||||<0.001
92375393|NCT00433160|184653485|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 12. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in BAP after 12-week treatment between the two treatment groups.||||<0.001
92375394|NCT00433160|184653485|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 24. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in BAP after 24-week treatment between the two treatment groups.||||<0.001
92375395|NCT00433160|184653485|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||P-value for Percent Change to Week 52. No adjustment for multiplicity was performed.|Wicoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in BAP after 52-week treatment between the two treatment groups.||||0.060
92375396|NCT00433160|184653485|SUPERIORITY_OR_OTHER|||||||0.13||95.0||||P-value for Percent Change to Last Measurement. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in BAP from baseline to the last measurement point between the two treatment groups.||||0.130
92375397|NCT00433160|184653486|SUPERIORITY_OR_OTHER|||||||0.976||95.0||||P-value for Percent Change to Week 4. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in CTX after 4-week treatment between the two treatment groups.||||0.976
92375398|NCT00433160|184653486|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 12. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in CTX after 12-week treatment between the two treatment groups.||||<0.001
92375399|NCT00433160|184653486|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 24. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in CTX after 24-week treatment between the two treatment groups.||||<0.001
92375400|NCT00433160|184653486|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 52. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in CTX after 52-week treatment between the two treatment groups.||||<0.001
92375401|NCT00433160|184653486|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Last Measurement. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in CTX from baseline to the last measurement point between the two treatment groups.||||<0.001
92375402|NCT02240368|184653509|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||bootstrap|||||||<0.01
92375403|NCT02240368|184653510|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||bootstrap|||||||<0.01
92375404|NCT02240368|184653511|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92375405|NCT02240368|184653512|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92375406|NCT02793817|184653534|SUPERIORITY||Difference in percentage of responders|8.3||||0.0105|TWO_SIDED|95.0|2.0|14.7||To account for multiplicity, a step-down testing procedure was applied, whereby inference for a test in the pre-defined hierarchy was dependent upon statistical significance having been demonstrated for the previous test in the hierarchy.|Chi-squared|Without adjustment for any covariates|Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|P-values were based on 2-sided chi-squared tests (unadjusted) wherein the a priori significance level was 0.05.||14.7|2.0|0.0105
92375407|NCT02793817|184653535|SUPERIORITY||Difference in percentage of responders|20.0|||<|0.0001|TWO_SIDED|95.0|11.6|28.4||To account for multiplicity, a step-down closed testing procedure was applied, whereby inference for a test in the pre-defined hierarchy was dependent upon statistical significance having been demonstrated for the previous test in the hierarchy.|Chi-squared|Without adjustment for any covariates|Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|P-values were based on 2-sided chi-squared test (unadjusted), wherein a priori significance level was 0.05||28.4|11.6|<0.0001
92375408|NCT02793817|184653536|SUPERIORITY||Difference in percentage of responders|17.1|||<|0.0001|TWO_SIDED|95.0|9.1|25.0||P-value was based on a 2-sided chi-squared test (unadjusted) wherein the a priori significance level was 0.0167 for each secondary endpoint. Overall alpha for all secondary endpoints was controlled at 0.05.|Chi-squared|Without adjustment for any covariates|Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|||25.0|9.1|<0.0001
92410190|NCT01667419|184711025|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.6815|TWO_SIDED|95.0|0.57|1.44|||Log Rank|||||1.44|0.57|0.6815
92410191|NCT01667419|184711026|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0274|TWO_SIDED|95.0|0.3|0.94|||Log Rank|||||.94|0.30|0.0274
92410192|NCT01667419|184711026|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.8597|TWO_SIDED|95.0|0.55|1.66|||Log Rank|||||1.66|0.55|0.8597
92410193|NCT03869216|184711033|SUPERIORITY||Mean Difference (Final Values)|0.395|STANDARD_ERROR_OF_MEAN|1.916||0.8388|TWO_SIDED|95.0|-3.4|4.19|||t-test, 2 sided||Intervention - Control|H0:muI = muC||4.19|-3.40|0.8388
92410194|NCT03869216|184711034|SUPERIORITY||Mean Difference (Final Values)|1.781|STANDARD_ERROR_OF_MEAN|2.588||0.4929|TWO_SIDED|95.0|-3.35|6.91|||t-test, 2 sided|||H0:muI = muC||6.91|-3.35|0.4929
92410195|NCT03869216|184711035|SUPERIORITY|Intervention - Control|Mean Difference (Final Values)|-0.735|STANDARD_ERROR_OF_MEAN|0.932||0.4312|TWO_SIDED|95.0|-2.58|1.11|||t-test, 2 sided|||H0:muI = muC||1.11|-2.58|0.4312
92375409|NCT02793817|184653537|SUPERIORITY||Difference in percentage of responders|19.0|||<|0.0001|TWO_SIDED|95.0|11.0|26.9||P-value was based on a 2-sided chi-squared test (unadjusted) wherein the a priori significance level was 0.0167 for each secondary endpoint. Overall alpha for all secondary endpoints was controlled at 0.05.|Chi-squared|Without adjustment for any covariates|Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|||26.9|11.0|<0.0001
92375410|NCT02793817|184653538|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.0078|TWO_SIDED|95.0|-0.31|-0.05|||Chi-squared|Without adjustment for any covariates|Estimated Value is the between-group difference for change from BL.|P-value was based on a 2-sided chi-squared test (unadjusted) wherein the a priori significance level was 0.0167 for each secondary endpoint. Overall alpha for all secondary endpoints was controlled at 0.05.||-0.05|-0.31|0.0078
92410196|NCT03869216|184711036|SUPERIORITY||Difference in Proportions|-0.1548|STANDARD_ERROR_OF_MEAN|0.087||0.1216|TWO_SIDED|95.0|-0.342|0.033|||t-test, 2 sided|Chi Square Test gives same results|Intervention - Control|H0: piI = piC||0.033|-0.342|0.1216
92410197|NCT03860259|184711054|SUPERIORITY|||||||0.1771||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||24 hrs||||0.1771
92375411|NCT02793817|184653539|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.0005|TWO_SIDED|95.0|-0.38|-0.11||P-values have no inferential value for post hoc evaluations.|Chi-squared|Without any adjustment for covariates|Estimated Value is the between-group difference in change from BL|||-0.11|-0.38|0.0005
92375412|NCT02793817|184653540|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.0169|TWO_SIDED|95.0|-0.28|-0.03||P-values have no inferential value for post hoc evaluations.|Chi-squared|Without adjustments for any covariates.|Estimated Value is the between-group difference for change from BL|||-0.03|-0.28|0.0169
92410198|NCT03860259|184711054|SUPERIORITY|||||||0.2833||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||48 hrs||||0.2833
92410199|NCT03860259|184711054|SUPERIORITY|||||||0.0909||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||72 hrs||||0.0909
92410200|NCT03860259|184711054|SUPERIORITY|||||||0.231||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||96 hrs||||0.2310
92410201|NCT03860259|184711054|SUPERIORITY|||||||0.0801|||||||t-test, 1 sided|||120 hrs||||0.0801
92410202|NCT03860259|184711054|SUPERIORITY|||||||0.0307||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Total||||0.0307
92410203|NCT03860259|184711055|SUPERIORITY|||||||0.1956||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||24 hrs||||0.1956
92410204|NCT03860259|184711055|SUPERIORITY|||||||0.2274||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||48 hrs||||0.2274
92410205|NCT03860259|184711055|SUPERIORITY|||||||0.109||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||72 hrs||||0.1090
92410206|NCT03860259|184711055|SUPERIORITY|||||||0.1618||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||96 hrs||||0.1618
92410207|NCT03860259|184711055|SUPERIORITY|||||||0.1264||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||120 hrs||||0.1264
92410208|NCT03860259|184711055|SUPERIORITY|||||||0.0394||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 14||||0.0394
92410209|NCT03860259|184711055|SUPERIORITY|||||||0.3968||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 30||||0.3968
92410210|NCT03860259|184711055|SUPERIORITY|||||||0.3407||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 60||||0.3407
92410211|NCT03860259|184711055|SUPERIORITY|||||||0.4033||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 90||||0.4033
92410212|NCT03860259|184711056|SUPERIORITY|||||||0.1707||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Time of discharge||||0.1707
92229428|NCT00654498|184361514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-1.99|-0.73|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-0.73|-1.99|<0.0001
92375413|NCT03995680|184653555|SUPERIORITY||Difference in Egg Reduction Rate (%)|2.3|||||TWO_SIDED|95.0|-7.8|12.6|||Regression, Logistic|Adjusted for age, sex, weight and baseline hookworm infection intensity (light or moderate/heavy)||The 95% confidence intervals (CIs) for ERRs and the difference between ERRs were estimated via bootstrap resampling. Superiority was claimed if the 95% confidence interval of the difference in ERRs did not include unity. Logistic regression models were used to assess efficacy in terms of CRs. In a subsequent analysis an adjusted logistic regression (adjustment for age, sex, weight and baseline infection intensity) was performed.||12.6|-7.8|
92375414|NCT00871117|184653562|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% confidence interval (CI) for the between-group differences in booster response to diphtheria was greater than or equal to (≥)-10%.|Difference in booster response rates|0.01|||||TWO_SIDED|95.0|-2.54|2.58||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of diphtheria (D) booster response one month after vaccination with DTaP-IPV vaccine.||2.58|-2.54|
92375415|NCT00871117|184653562|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the between-group differences in booster response to tetanus was ≥ -10%.|Difference in booster response rates|0.98|||||TWO_SIDED|95.0|-1.99|4.26||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of tetanus (T) booster response one month after vaccination with DTaP-IPV vaccine.||4.26|-1.99|
92375416|NCT00871117|184653563|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the between-group differences in booster response to PT was ≥ -10%|Difference in booster response rates|-0.76|||||TWO_SIDED|95.0|-5.07|3.51||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of pertussis toxoid (PT) booster response one month after vaccination with DTaP-IPV vaccine.||3.51|-5.07|
92375417|NCT00871117|184653563|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the between-group differences in booster response to FHA was ≥ -10%.|Difference in booster response rates|-0.91|||||TWO_SIDED|95.0|-3.59|1.39||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of filamentous hemagglutinin (FHA) booster response one month after vaccination with DTaP-IPV vaccine.||1.39|-3.59|
92375418|NCT00871117|184653563|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the between-group differences in booster response to PRN, was ≥ -10%.|Difference in booster response rates|1.42|||||TWO_SIDED|95.0|-0.32|4.08||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of pertactin (PRN) booster response one month after vaccination with DTaP-IPV vaccine.||4.08|-0.32|
92375419|NCT00871117|184653564|NON_INFERIORITY|Lower limit of the 95% CI for the GMT ratios for poliovirus type 1 antigens was ≥ 0.67.|Adjusted GMT ratio|0.91|||||TWO_SIDED|95.0|0.76|1.1||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of poliovirus type 1 geometric mean titers (GMTs), one month after vaccination with DTaP-IPV vaccine.||1.1|0.76|
92375420|NCT00871117|184653564|NON_INFERIORITY|Lower limit of the 95% CI for the GMT ratios of poliovirus type 2 antigens was ≥ 0.67.|Adjusted GMT ratio|0.83|||||TWO_SIDED|95.0|0.7|0.99||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of poliovirus type 2 geometric mean titers (GMTs), one month after vaccination with DTaP-IPV vaccine.||0.99|0.7|
92375421|NCT00871117|184653564|NON_INFERIORITY|Lower limit of the 95% CI for the GMT ratios of poliovirus type 3 antigens was ≥ 0.67.|Adjusted GMT ratio|0.84|||||TWO_SIDED|95.0|0.71|1.01||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of poliovirus type 3 geometric mean titers (GMTs), one month after vaccination with DTaP-IPV vaccine.||1.01|0.71|
92375422|NCT03222973|184653576|SUPERIORITY||Treatment Difference|0.15||||0.1479|TWO_SIDED|95.0|-0.05|0.35||P-values are based on the Mixed Model for Repeated Measures (MMRM) adjusted for background DMT group, baseline magnetization transfer ratio (MTR)/diffusion tensor imaging (DTI) category and baseline component assessments.|MMRM|||Over 72 weeks: Overall Response Score||0.35|-0.05|0.1479
92375423|NCT03222973|184653578|SUPERIORITY||Odds Ratio (OR)|1.08||||0.7682|TWO_SIDED|95.0|0.65|1.79||Odds ratio (active vs. placebo), 95% CI and p-value are based on logistic regression adjusted for background DMT group, baseline MTR/DTI category and baseline component assessments.|Regression, Logistic|||||1.79|0.65|0.7682
92375424|NCT03222973|184653579|SUPERIORITY||Odds Ratio (OR)|0.71||||0.2131|TWO_SIDED|95.0|0.41|1.22||Odds ratio (active vs. placebo), 95% CI and p-value are based on logistic regression adjusted for background DMT group, baseline MTR/DTI category and baseline component assessments.|Regression, Logistic|||||1.22|0.41|0.2131
92375425|NCT03222973|184653580|SUPERIORITY||Odds Ratio (OR)|0.81||||0.4654|TWO_SIDED|95.0|0.47|1.41||Odds ratio (active vs. placebo), 95% CI and p-value are based on logistic regression adjusted for background DMT group, baseline MTR/DTI category and baseline component assessments.|Regression, Logistic|||||1.41|0.47|0.4654
92410213|NCT03860259|184711056|SUPERIORITY|||||||0.3446||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||24 hrs||||0.3446
92229429|NCT00654498|184361515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.0|-0.72|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-0.72|-2.00|<0.0001
92410214|NCT03860259|184711056|SUPERIORITY|||||||0.431|||||||t-test, 1 sided|||48 hrs||||0.4310
92229430|NCT00654498|184361516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.26||0.0402|TWO_SIDED|95.0|-1.06|-0.02|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-0.02|-1.06|0.0402
92410215|NCT03860259|184711056|SUPERIORITY|||||||0.3143||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||72 hrs||||0.3143
92229431|NCT00654498|184361517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.18||0.0771|TWO_SIDED|95.0|-0.69|0.04|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||0.04|-0.69|0.0771
92229432|NCT00654498|184361518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.25||0.0048|TWO_SIDED|95.0|-1.2|-0.22|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-0.22|-1.20|0.0048
92229433|NCT00654498|184361519|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||||<0.0001
92375426|NCT03222973|184653581|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0417|TWO_SIDED|95.0|1.02|3.11||Odds ratio (active vs. placebo), 95% CI and p-value are based on logistic regression adjusted for background DMT group, baseline MTR/DTI category and baseline component assessments.|Regression, Logistic|||||3.11|1.02|0.0417
92375427|NCT03222973|184653582|SUPERIORITY||Odds Ratio (OR)|1.35||||0.2908|TWO_SIDED|95.0|0.78|2.33||Odds ratio (active vs. placebo), 95% CI and p-value are based on logistic regression adjusted for background DMT group, baseline MTR/DTI category and baseline component assessments.|Regression, Logistic|||||2.33|0.78|0.2908
92375428|NCT02080481|184653594|SUPERIORITY_OR_OTHER||ratio of geometric means|0.68|||<|0.001|TWO_SIDED|95.0|0.61|0.76|||Regression, Linear|intraoperative management strategy was imbalanced between randomized groups and was adjusted for in the linear regression model.||||0.76|0.61|< 0.001
92375429|NCT02080481|184653595|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.56|TWO_SIDED|98.3|0.25|9.6|||Regression, Logistic|intraoperative management strategy was imbalanced between randomized groups and was adjusted for in the logistic regression model.|Odds ratio for Infiniti Plus versus conventional needle patients|||9.6|0.25|0.56
92375430|NCT02080481|184653596|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.13||||0.06|TWO_SIDED|98.3|0.01|1.78||Intraoperative management strategy was imbalanced between groups and adjusted for in the logistic regression model.|Regression, Logistic|||||1.78|0.01|0.06
92375431|NCT02080481|184653597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4||||0.74|TWO_SIDED|98.3|-7.7|14.6|||Regression, Linear|Intraoperative management strategy was imbalanced between randomized groups and adjusted for in the linear regression model.||||14.6|-7.7|0.74
92375432|NCT03998670|184653602|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.5|1.1|||||Difference in mean control and 95% confidence interval (CI) are from ANCOVA model adjusting for corresponding baseline control score. Prism group minus Non-Prism group (positive difference indicates Prism group worse than Non-Prism group).|The primary analysis was the treatment group difference (and 95% CI) in mean distance control at the 8-week outcome visit using an ANCOVA adjusted for baseline distance control. The planned convenience sample size of 64 was expected to provide outcome data for at least 60 participants (30 per group).||1.1|-0.5|
92375433|NCT03998670|184653603|SUPERIORITY||Mean Difference (Final Values)|8.0|||||TWO_SIDED|95.0|-17.0|32.0|||||Difference between Prism minus Non-Prism group (positive difference indicates Prism group better than Non-Prism group).|||32|-17|
92410216|NCT03860259|184711056|SUPERIORITY|||||||0.4749||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||96 hrs||||0.4749
92410217|NCT03860259|184711056|SUPERIORITY|||||||0.3728||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||120 hrs||||0.3728
92410218|NCT03860259|184711056|SUPERIORITY|||||||0.1628|||||||t-test, 1 sided|||Day 14||||0.1628
92410219|NCT03860259|184711056|SUPERIORITY|||||||0.0731||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 30||||0.0731
92229434|NCT03532100|184361595|SUPERIORITY|||||||0.029|||||||Regression, Linear|||Hypothesis testing for the association between outcome and coupling ratio was carried out using conditional F-tests with degrees of freedom estimated using the Kenward-Roger method.||||0.029
92229435|NCT03532100|184361595|SUPERIORITY|||||||0.047||||||Pairwise hypothesis testing was carried out with adjustments for multiple comparisons using Tukey's method.|Regression, Linear|||6:1 versus 3:1||||0.047
92277942|NCT05431153|184458047|OTHER||Ratio of adjusted geometric means|81.39|||||TWO_SIDED|90.0|75.06|88.26|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||88.26|75.06|
92375434|NCT03998670|184653604|SUPERIORITY||Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-27.0|19.0|||||Difference between Prism minus Non-Prism group (positive difference indicates Prism group better than Non-Prism group).|||19|-27|
92410220|NCT03860259|184711056|SUPERIORITY|||||||0.4909||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 60||||0.4909
92410221|NCT03860259|184711056|SUPERIORITY|||||||0.4411||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 90||||0.4411
92229436|NCT03532100|184361595|SUPERIORITY|||||||0.016||||||Pairwise hypothesis testing was carried out with adjustments for multiple comparisons using Tukey's method.|Regression, Linear|||6:1 versus 2:1||||0.016
92410222|NCT03860259|184711057|SUPERIORITY|||||||0.1786||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Acetaminophen||||0.1786
92410223|NCT03860259|184711057|SUPERIORITY|||||||0.1876||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Ibuprofen||||0.1876
92410224|NCT03860259|184711058|SUPERIORITY|||||||0.3638||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Baseline PCS||||0.3638
92410225|NCT03860259|184711058|SUPERIORITY|||||||0.0856||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 14 PCS||||0.0856
92410226|NCT03860259|184711058|SUPERIORITY|||||||0.4428||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 30 PCS||||0.4428
92410227|NCT03860259|184711058|SUPERIORITY|||||||0.3378||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 60 PCS||||0.3378
92410228|NCT03860259|184711058|SUPERIORITY|||||||0.3942||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 90 PCS||||0.3942
92410229|NCT03860259|184711058|SUPERIORITY|||||||0.219||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Baseline MCS||||0.2190
92410230|NCT03860259|184711058|SUPERIORITY|||||||0.1112||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 14 MCS||||0.1112
92410231|NCT03860259|184711058|SUPERIORITY|||||||0.1737||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 30 MCS||||0.1737
92375435|NCT03998670|184653606|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.7|0.7|||||Difference in mean control and 95% confidence interval (CI) are from ANCOVA model adjusting for corresponding baseline control score. Prism group minus Non-Prism group (positive difference indicates Prism group worse than Non-Prism group).|The secondary analysis was the treatment group difference (and 95% CI) in mean near control at the 8-week outcome visit using an ANCOVA adjusted for baseline near control.||0.7|-0.7|
92375436|NCT03730961|184653633|SUPERIORITY|Drug - placebo|Mean Difference (Net)|-448.0||||0.0021|TWO_SIDED|95.0|-714.0|-183.0|||t-test, 2 sided|||||-183|-714|0.0021
92375437|NCT03730961|184653633|SUPERIORITY|Percent change Drug - placebo|Mean Difference (Net)|-22.1||||0.0222|TWO_SIDED|95.0|-40.7|-3.51|||t-test, 2 sided|||||-3.51|-40.7|0.0222
92375438|NCT03730961|184653634|SUPERIORITY|Drug - placebo, 0-4 hours after furosemide|Mean Difference (Net)|-4.25||||0.0163|TWO_SIDED|95.0|-7.63|-0.876|||t-test, 2 sided|||||-0.876|-7.63|0.0163
92375439|NCT03730961|184653634|SUPERIORITY|Percent change Drug - placebo, 0-4 hours after furosemide|Mean Difference (Net)|-15.0||||0.2018|TWO_SIDED|95.0|-38.8|8.77|||t-test, 2 sided|||||8.77|-38.8|0.2018
92375440|NCT03730961|184653634|SUPERIORITY|Drug - placebo, 0-8 hours after start of infusion|Mean Difference (Net)|-3.61||||0.0526|TWO_SIDED|95.0|-7.27|0.0446|||t-test, 2 sided|||||0.0446|-7.27|0.0526
92375441|NCT03730961|184653634|SUPERIORITY|Percent change Drug - placebo, 0-8 hours after start of infusion|Mean Difference (Net)|-14.9||||0.2076|TWO_SIDED|95.0|-38.8|9.0|||t-test, 2 sided|||||9|-38.8|0.2076
92375442|NCT03730961|184653635|SUPERIORITY|Drug - placebo, 0-4 hours after furosemide|Mean Difference (Net)|0.431||||0.1621|TWO_SIDED|95.0|-0.189|1.05|||t-test, 2 sided|||||1.05|-0.189|0.1621
92375443|NCT03730961|184653635|SUPERIORITY|Percent change Drug - placebo, 0-4 hours after furosemide|Mean Difference (Net)|32.0||||0.0338|TWO_SIDED|95.0|2.72|61.3|||t-test, 2 sided|||||61.3|2.72|0.0338
92375444|NCT03730961|184653635|SUPERIORITY|Drug - placebo, 0-8 hours after start of infusion|Mean Difference (Net)|0.766||||0.06|TWO_SIDED|95.0|-0.0353|1.57|||t-test, 2 sided|||||1.57|-0.0353|0.0600
92375445|NCT03730961|184653635|SUPERIORITY|Percent change Drug - placebo, 0-8 hours after start of infusion|Mean Difference (Net)|33.5||||0.028|TWO_SIDED|95.0|4.02|63.0|||t-test, 2 sided|||||63|4.02|0.0280
92375446|NCT03730961|184653638|SUPERIORITY||Difference between drug and placebo|-4.0|STANDARD_DEVIATION|4.74||||||||||||||||
92375447|NCT00901511|184653675|SUPERIORITY||Median Difference (Final Values)|12.0||||0.0078|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the median time to rescue WLL in the GM-CSF Group minus the median the time to rescue WLL in the Control Group|||||0.0078
92375448|NCT00901511|184653676|SUPERIORITY||Risk Ratio (RR)|7.0||||0.0152|TWO_SIDED|95.0|1.6|39.9|||Fisher Exact||Calculated as risk ratio of rescue WLL in the Control Group compared to the risk ratio of rescue WLL in the GM-CSF Group|||39.9|1.60|0.0152
92375449|NCT00901511|184653677|SUPERIORITY||Mean Difference (Final Values)|9.5|||<|0.0001|TWO_SIDED|95.0|5.7|13.3|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the mean PaO2 in the GM-CSF Group minus the between group difference in mean PaO2 in the Control Group|||13.3|5.7|<0.0001
92375450|NCT00901511|184653677|SUPERIORITY||Mean Difference (Final Values)|15.1|STANDARD_ERROR_OF_MEAN|6.16||0.0261|TWO_SIDED|95.0|2.04|28.16|||t-test, 2 sided||Calculated as the difference at the pre-WLL visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the pre-WLL visit after imputation of missing data using a last observation carried forward method.||28.16|2.04|0.0261
92375451|NCT00901511|184653677|SUPERIORITY||Mean Difference (Final Values)|9.56|STANDARD_ERROR_OF_MEAN|6.36||0.1521|TWO_SIDED|95.0|3.92|23.03|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||23.03|3.92|0.1521
92375452|NCT00901511|184653677|SUPERIORITY||Mean Difference (Final Values)|18.04|STANDARD_ERROR_OF_MEAN|5.56||0.0051|TWO_SIDED|95.0|6.26|29.82|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||29.82|6.26|0.0051
92410232|NCT03860259|184711058|SUPERIORITY|||||||0.2408||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 60 MCS||||0.2408
92410233|NCT03860259|184711058|SUPERIORITY|||||||0.038||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 90 MCS||||0.0380
92410234|NCT03860259|184711059|SUPERIORITY|||||||0.222||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||||||0.2220
92410235|NCT03860259|184711060|SUPERIORITY|||||||0.2856||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||||||0.2856
92410236|NCT03860259|184711063|SUPERIORITY|||||||0.2241|||||||t-test, 1 sided|||||||0.2241
92410237|NCT03860259|184711064|SUPERIORITY|||||||0.2714||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Time of discharge||||0.2714
92410238|NCT03860259|184711064|SUPERIORITY|||||||0.3749||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||24 hrs||||0.3749
92410239|NCT03860259|184711064|SUPERIORITY|||||||0.3862||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||48 hrs||||0.3862
92410240|NCT03860259|184711064|SUPERIORITY|||||||0.1735||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||72 hrs||||0.1735
92410241|NCT03860259|184711064|SUPERIORITY|||||||0.4304||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||96 hrs||||0.4304
92410242|NCT03860259|184711064|SUPERIORITY|||||||0.4902||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||120 hrs||||0.4902
92410243|NCT03860259|184711064|SUPERIORITY|||||||0.4371||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 14||||0.4371
92410244|NCT03860259|184711064|SUPERIORITY|||||||0.195||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 30||||0.1950
92410245|NCT03860259|184711064|SUPERIORITY|||||||0.4124|||||||t-test, 1 sided|||Day 60||||0.4124
92410246|NCT03860259|184711064|SUPERIORITY|||||||0.0268||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 90||||0.0268
92410247|NCT00332722|184711068|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired t test|||||||<0.05
92410248|NCT00332722|184711069|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired t test|||||||<0.05
92410249|NCT00486291|184711091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0007|TWO_SIDED|95.0|-0.9|-0.2|||ANCOVA|||It is anticipated that the pooled standard deviation (SD) of the change from baseline in HbA1c will be between 1.0 and 1.5. With 90 subjects per treatment group the study will have 90% power (two-sided alpha=0.05) to detect a mean difference between groups of 0.486 for SD=1.0, and a mean difference between groups of 0.729 for SD=1.5.||-0.2|-0.9|0.0007
92410250|NCT00486291|184711092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-8.1|-4.9|||ANCOVA|||||-4.9|-8.1|<0.0001
92410251|NCT01015638|184711100|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Kruskal-Wallis|||||||>0.05
92410252|NCT01015638|184711101|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Dunn's Multiple Comparisons Test|||||||>0.05
92410253|NCT01015638|184711102|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Kruskal-Wallis|||||||>0.05
92410254|NCT01015638|184711103|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Tukey-Kramer Multiple Comparisons Test|||||||> 0.05
92410255|NCT00984620|184711112|SUPERIORITY_OR_OTHER||Adjusted percent difference|-1.25||||0.855|TWO_SIDED|95.0|-14.3|11.8|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||11.8|-14.3|0.855
92410256|NCT00984620|184711113|SUPERIORITY_OR_OTHER||Adjusted percent difference|9.02||||0.229|TWO_SIDED|95.0|-5.3|23.3|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||23.3|-5.3|0.229
92410257|NCT00984620|184711114|SUPERIORITY_OR_OTHER||Adjusted percent difference|5.48||||0.417|TWO_SIDED|95.0|-7.3|18.3|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||18.3|-7.3|0.417
92410258|NCT00984620|184711115|SUPERIORITY_OR_OTHER||Adjusted percent difference|2.99||||0.676|TWO_SIDED|95.0|-10.6|16.6|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||16.6|-10.6|0.676
92410259|NCT00984620|184711116|SUPERIORITY_OR_OTHER||Adjusted percent difference|3.24||||0.588|TWO_SIDED|95.0|-8.1|14.6|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||14.6|-8.1|0.588
92410260|NCT00984620|184711117|SUPERIORITY_OR_OTHER||Adjusted percent difference|4.78||||0.512|TWO_SIDED|95.0|-9.0|18.6|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||18.6|-9.0|0.512
92410261|NCT00984620|184711119|SUPERIORITY_OR_OTHER|||||||0.1397||||||Compare 120 MG Faldaprevir 120mg (24 Weeks) over 120 MG Faldaprevir 120mg (12 Weeks) using log-rank test.|Log Rank|||||||0.1397
92410262|NCT06011759|184711153|SUPERIORITY|T-test to evaluate the effect of the intervention compared to control sites on reported suicide behavior events in the past 4 quarters that had an SP 2.0 Consult submitted.||||||0.5747|||||||t-test, 2 sided|degrees of freedom = 6||We compared participating sites with similar non-participating sites. Four non-participating sites were selected as matched controls, one for each participating site. Control sites were matched to participating sites on number of suicide behavior events and prevalence of Suicide Prevention Telehealth Program consults submitted at baseline.||||0.5747
92410263|NCT06011759|184711154|SUPERIORITY|T-test to evaluate the effect of the intervention compared to control sites on referrals to the SP 2.0 Clinic.||||||0.8057|||||||t-test, 2 sided|Degrees of freedom = 6||We compared participating sites with similar non-participating sites. Four non-participating sites were selected as matched controls, one for each participating site. Control sites were matched to participating sites on number of suicide behavior events and prevalence of Suicide Prevention Telehealth Program consults submitted at baseline.||||0.8057
92410264|NCT02578095|184711174|SUPERIORITY||Mean Difference (Final Values)|4.75||||0.0032|TWO_SIDED|95.0|1.7|7.8|||ANCOVA|||||7.80|1.70|0.0032
92410265|NCT02578095|184711174|SUPERIORITY||Mean Difference (Final Values)|7.15|||<|0.0001|TWO_SIDED|95.0|3.76|10.54|||ANCOVA|||||10.54|3.76|<0.0001
92410266|NCT02578095|184711174|SUPERIORITY||Mean Difference (Final Values)|9.08|||<|0.0001|TWO_SIDED|95.0|5.55|12.6|||ANCOVA|||||12.60|5.55|<0.0001
92410267|NCT00109590|184711190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was two-sided P\<0.05.|wilcoxon Signed Rank Test|||The null hypothesis was that there was no difference in within-subject Cpredose LPV/r plasma drug concentrations within 72 hours after delivery versus at 30 days postpartum.||||0.009
92410268|NCT00109590|184711190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.048||95.0||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was two-sided P\<0.05.|Wilcoxon Signed Rank Test|||The null hypothesis was that there was no difference in within-subject C4hour LPV/r plasma drug concentrations within 72 hours after delivery versus at 30 days postpartum||||0.048
92410269|NCT01129583|184711224|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||t-test, 2 sided|||||||0.06
92410270|NCT01129583|184711225|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||||||0.01
92410271|NCT01129583|184711226|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||||||0.02
92375453|NCT00901511|184653677|SUPERIORITY||Mean Difference (Final Values)|20.26|STANDARD_ERROR_OF_MEAN|4.54||0.0004|TWO_SIDED|95.0|10.63|29.88|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||29.88|10.63|0.0004
92375454|NCT00901511|184653677|SUPERIORITY||Mean Difference (Final Values)|19.91|STANDARD_ERROR_OF_MEAN|5.89||0.0038|TWO_SIDED|95.0|7.43|32.4|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||32.40|7.43|0.0038
92375455|NCT00901511|184653677|SUPERIORITY||Mean Difference (Final Values)|16.92|STANDARD_ERROR_OF_MEAN|6.15||0.0149|TWO_SIDED|95.0|3.81|30.03|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||30.03|3.81|0.0149
92375456|NCT00901511|184653677|SUPERIORITY||Mean Difference (Final Values)|19.02|STANDARD_ERROR_OF_MEAN|6.97||0.0148|TWO_SIDED|95.0|4.26|33.79|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||33.79|4.26|0.0148
92375457|NCT00901511|184653677|SUPERIORITY||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|6.62||0.1158|TWO_SIDED|95.0|-3.02|25.02|||t-test, 2 sided|||The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.|Calculated as the difference at the 30-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|25.02|-3.02|0.1158
92375458|NCT00901511|184653678|SUPERIORITY||Mean Difference (Final Values)|-10.1|||<|0.0001|TWO_SIDED|95.0|-14.8|-5.4|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the mean value of A-aDO2 in the GM-CSF Group minus the mean value of A-aDO2 in the Control Group|Primary analysis||-5.4|-14.8|<0.0001
92375459|NCT00901511|184653678|SUPERIORITY||Mean Difference (Final Values)|-12.46|STANDARD_ERROR_OF_MEAN|6.0||0.0545|TWO_SIDED|95.0|-25.19|0.27|||t-test, 2 sided||Calculated as the difference at the pre-WLL visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the pre-WLL visit after imputation of missing data using a last observation carried forward method.||0.27|-25.19|0.0545
92375460|NCT00901511|184653678|SUPERIORITY||Mean Difference (Final Values)|-7.08|STANDARD_ERROR_OF_MEAN|6.34||0.2802|TWO_SIDED|95.0|-20.52|6.35|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||6.35|-20.52|0.2802
92375461|NCT00901511|184653678|SUPERIORITY||Mean Difference (Final Values)|-16.81|STANDARD_ERROR_OF_MEAN|6.16||0.0148|TWO_SIDED|95.0|-29.85|-3.76|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||-3.76|-29.85|0.0148
92375462|NCT00901511|184653678|SUPERIORITY||Mean Difference (Final Values)|-18.77|STANDARD_ERROR_OF_MEAN|4.91||0.0015|TWO_SIDED|95.0|-29.18|-8.36|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 3 -month visit after imputation of missing data using a last observation carried forward method.||-8.36|-29.18|0.0015
92375463|NCT00901511|184653678|SUPERIORITY||Mean Difference (Final Values)|-19.09|STANDARD_ERROR_OF_MEAN|5.85||0.0049|TWO_SIDED|95.0|-31.49|-6.7|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||-6.70|-31.49|0.0049
92375464|NCT00901511|184653678|SUPERIORITY||Mean Difference (Final Values)|-15.85|STANDARD_ERROR_OF_MEAN|5.84||0.0152|TWO_SIDED|95.0|-28.23|-3.48|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||-3.48|-28.23|0.0152
92229437|NCT03532100|184361595|SUPERIORITY|||||||0.34|||||||Regression, Linear|||Hypothesis testing for the association between outcome and coupling ratio was carried out using conditional F-tests with degrees of freedom estimated using the Kenward-Roger method.||||0.340
92410272|NCT04672954|184711232|OTHER||Ratio|1.29||||0.3941|TWO_SIDED|90.0|0.78|2.13|||ANCOVA||Ratio = BI / Placebo. Geometric standard error = 1.34|The difference between the expected means for ln(T) - ln(R) was estimated by the difference in the corresponding least square means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were back-transformed to the original scale to give the point estimator and interval estimates.||2.13|0.78|0.3941
92410273|NCT04672954|184711232|OTHER||Ratio|1.66||||0.1089|TWO_SIDED|90.0|0.99|2.79|||ANCOVA||Ratio = BI / Placebo. Geometric standard error = 1.35|The difference between the expected means for ln(T) - ln(R) was estimated by the difference in the corresponding least square means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were back-transformed to the original scale to give the point estimator and interval estimates.||2.79|0.99|0.1089
92410274|NCT04672954|184711232|OTHER||Ratio|1.14||||0.6308|TWO_SIDED|90.0|0.71|1.85|||ANCOVA||Ratio = BI / Placebo. Geometric standard error = 1.32|The difference between the expected means for ln(T) - ln(R) was estimated by the difference in the corresponding least square means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were back-transformed to the original scale to give the point estimator and interval estimates.||1.85|0.71|0.6308
92410275|NCT04672954|184711232|OTHER||Ratio|1.75||||0.069|TWO_SIDED|90.0|1.06|2.89|||ANCOVA||Ratio = BI / Placebo. Geometric standard error = 1.33|The difference between the expected means for ln(T) - ln(R) was estimated by the difference in the corresponding least square means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were back-transformed to the original scale to give the point estimator and interval estimates.||2.89|1.06|0.0690
92410276|NCT01904773|184711247|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.42|STANDARD_ERROR_OF_MEAN|0.9||0.0087||||||Bonferroni-Holm adjustment, compared with 0.025|ANCOVA|Each subject received each treatment multiple times in a crossover design||Comparison with placebo||||0.0087
92410277|NCT01904773|184711247|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.34|STANDARD_ERROR_OF_MEAN|0.85||0.1198||||||Bonferroni-Holm compared with 0.025|ANCOVA|Each subject received each treatment multiple times in a crossover design||||||0.1198
92410278|NCT02891070|184711265|NON_INFERIORITY|To demonstrate non-inferiority (NI) of Tisseel to DuraSeal for the primary endpoint, the lower limit of the 95% CI (based on normal approximation) for the difference in average predicted proportions had to be greater than -10%.|Mean Difference (Net)|-9.29|||||TWO_SIDED|95.0|-21.11|2.54|||Regression, Logistic||Difference in Average Predicted Proportion (Tisseel - Duraseal)|||2.54|-21.11|
92410279|NCT02891070|184711267|OTHER||Mean Difference (Net)|-9.29|||||TWO_SIDED|95.0|-21.11|2.54|||Regression, Logistic||Difference in Average Predicted Proportion (Tisseel - Duraseal)|||2.54|-21.11|
92410280|NCT02891070|184711268|OTHER|||||||0.0241|||||||Wilcoxon (Mann-Whitney)|||||||0.0241
92410281|NCT02891070|184711269|OTHER|||||||0.1015|||||||Wilcoxon (Mann-Whitney)|||||||0.1015
92410282|NCT02891070|184711270|OTHER|||||||0.9943|||||||Wilcoxon (Mann-Whitney)|||||||0.9943
92410283|NCT02891070|184711271|OTHER||Mean Difference (Net)|-5.11|||||TWO_SIDED|95.0|-13.6|3.39|||Regression, Logistic|||||3.39|-13.60|
92410284|NCT02191865|184711343|SUPERIORITY_OR_OTHER||ratio of the geometric means|215.39|STANDARD_DEVIATION|73.5|||TWO_SIDED|90.0|120.71|384.32|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh A (Test): Healthy Child Pugh A (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of AUC (0-inf) was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||384.32|120.71|
92410285|NCT02191865|184711343|SUPERIORITY_OR_OTHER||Ratio of geometric means|867.13|STANDARD_DEVIATION|45.9|||TWO_SIDED|90.0|572.93|1312.41|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh B (Test): Healthy Child Pugh B (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of AUC (0-inf) was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||1312.41|572.93|
92410286|NCT02191865|184711344|SUPERIORITY_OR_OTHER||ratio of the geometric means|221.76|STANDARD_DEVIATION|61.4|||TWO_SIDED|90.0|134.73|365.01|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh A (Test): Healthy Child Pugh A (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of Cmax was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||365.01|134.73|
92410287|NCT02191865|184711344|SUPERIORITY_OR_OTHER||Ratio of geometric means|761.01|STANDARD_DEVIATION|69.1|||TWO_SIDED|90.0|439.01|1319.18|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh B (Test): Healthy Child Pugh B (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of Cmax was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||1319.18|439.01|
92375465|NCT00901511|184653678|SUPERIORITY||Mean Difference (Final Values)|-17.01|STANDARD_ERROR_OF_MEAN|6.27||0.0154|TWO_SIDED|95.0|-30.31|-3.71|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||-3.71|-30.31|0.0154
92229438|NCT03532100|184361595|SUPERIORITY|||||||0.04|||||||Regression, Linear|||Hypothesis testing for the association between outcome and coupling ratio was carried out using conditional F-tests with degrees of freedom estimated using the Kenward-Roger method.||||0.040
92375466|NCT00901511|184653678|SUPERIORITY||Mean Difference (Final Values)|-11.01|STANDARD_ERROR_OF_MEAN|6.15||0.0921|TWO_SIDED|95.0|-24.05|2.02|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||2.02|-24.05|0.0921
92375467|NCT00901511|184653679|SUPERIORITY||Mean Difference (Final Values)|11.6||||0.022|TWO_SIDED|95.0|1.9|21.3|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the mean value of the DLCO in the GM-CSF Group minus the mean value of the DLCO in the Control Group|Primary Analysis||21.3|1.9|0.0220
92375468|NCT00901511|184653679|SUPERIORITY||Mean Difference (Final Values)|8.29|STANDARD_ERROR_OF_MEAN|7.96||0.3186|TWO_SIDED|95.0|-9.06|25.63|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||25.63|-9.06|0.3186
92375469|NCT00901511|184653679|SUPERIORITY||Mean Difference (Final Values)|5.56|STANDARD_ERROR_OF_MEAN|6.58||0.4111|TWO_SIDED|95.0|-8.4|19.51|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||19.51|-8.40|0.4111
92375470|NCT00901511|184653679|SUPERIORITY||Mean Difference (Final Values)|12.89|STANDARD_ERROR_OF_MEAN|6.53||0.0658|TWO_SIDED|95.0|-0.95|26.73|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||26.73|-0.95|0.0658
92229439|NCT03532100|184361595|SUPERIORITY|||||||0.036||||||Pairwise hypothesis testing was carried out with adjustments for multiple comparisons using Tukey's method.|Regression, Linear|||6:1 versus 3:1||||0.036
92375471|NCT00901511|184653679|SUPERIORITY||Mean Difference (Final Values)|9.78|STANDARD_ERROR_OF_MEAN|7.81||0.2287|TWO_SIDED|95.0|-6.78|26.34|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||26.34|-6.78|0.2287
92410288|NCT02191865|184711345|SUPERIORITY_OR_OTHER||ratio of the geometric means|216.79|STANDARD_DEVIATION|75.0|||TWO_SIDED|90.0|120.37|390.45|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh A (Test): Healthy Child Pugh A (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of AUC (0-tz) was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||390.45|120.37|
92410289|NCT02191865|184711345|SUPERIORITY_OR_OTHER||Ratio of geometric means|870.74|STANDARD_DEVIATION|45.7|||TWO_SIDED|90.0|576.36|1315.49|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh B (Test): Healthy Child Pugh B (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of AUC (0-tz) was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||1315.49|576.36|
92410290|NCT01523275|184711347|EQUIVALENCE|Analysis of 44 subjects (22 in each arm) would provide 90% power to detect a difference in the time interval to reoperation of 6 months between the two treatment arms, at an alpha level of 0.05. This difference of 6 months is clinically meaningful and is smaller than previous case series studies would suggest. However, due to poor patient accrual, the study was closed prior to reaching the desired study size.||||||0.95|||||||t-test, 2 sided|||||||0.95
92375472|NCT00901511|184653679|SUPERIORITY||Mean Difference (Final Values)|12.86|STANDARD_ERROR_OF_MEAN|8.37||0.1432|TWO_SIDED|95.0|-4.86|30.64|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||30.64|-4.86|0.1432
92375473|NCT00901511|184653679|SUPERIORITY||Mean Difference (Final Values)|11.78|STANDARD_ERROR_OF_MEAN|8.47||0.1833|TWO_SIDED|95.0|-6.17|29.73|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||29.73|-6.17|0.1833
92375474|NCT00901511|184653679|SUPERIORITY||Mean Difference (Final Values)|12.67|STANDARD_ERROR_OF_MEAN|9.23||0.1888|TWO_SIDED|95.0|-6.9|32.23|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||32.23|-6.90|0.1888
92375475|NCT00901511|184653679|SUPERIORITY||Mean Difference (Final Values)|4.22|STANDARD_ERROR_OF_MEAN|8.79||0.6374|TWO_SIDED|95.0|-14.41|22.85|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||22.85|-14.41|0.6374
92375476|NCT00901511|184653680|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.532|TWO_SIDED|95.0|-5.3|9.9|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the mean value of VC in the GM-CSF Group minus the mean value of VC in the Control Group|Primary Analysis||9.90|-5.30|0.5320
92375477|NCT00901511|184653680|SUPERIORITY||Mean Difference (Final Values)|3.21|STANDARD_ERROR_OF_MEAN|7.55||0.6772|TWO_SIDED|95.0|-13.09|19.52|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||19.52|-13.09|0.6772
92375478|NCT00901511|184653680|SUPERIORITY||Mean Difference (Final Values)|1.44|STANDARD_ERROR_OF_MEAN|6.7||0.832|TWO_SIDED|95.0|-12.52|15.64|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||15.64|-12.52|0.8320
92410291|NCT01523275|184711348|EQUIVALENCE|A difference of 6 months to symptom progression is clinically meaningful.||||||0.52|||||||t-test, 2 sided|||||||0.52
92375479|NCT00901511|184653680|SUPERIORITY||Mean Difference (Final Values)|1.47|STANDARD_ERROR_OF_MEAN|7.82||0.8532|TWO_SIDED|95.0|-15.19|18.14|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||18.14|-15.19|0.8532
92410292|NCT01523275|184711349|EQUIVALENCE|0.5 liters per second is clinically significant.||||||0.64|||||||t-test, 2 sided|||||||0.64
92410293|NCT00689117|184711461|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||0.063
92410294|NCT00689117|184711461|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||0.003
92410295|NCT00689117|184711461|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||<0.001
92375480|NCT00901511|184653680|SUPERIORITY||Mean Difference (Final Values)|2.22|STANDARD_ERROR_OF_MEAN|7.66||0.7752|TWO_SIDED|95.0|-14.0|18.44|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||18.44|-14.00|0.7752
92375481|NCT00901511|184653680|SUPERIORITY||Mean Difference (Final Values)|5.74|STANDARD_ERROR_OF_MEAN|8.65||0.5174|TWO_SIDED|95.0|-12.7|24.18|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean value of VC in the GM-CSF Group minus the mean value of VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||24.18|-12.70|0.5174
92375482|NCT00901511|184653680|SUPERIORITY||Mean Difference (Final Values)|3.67|STANDARD_ERROR_OF_MEAN|7.68||0.6393|TWO_SIDED|95.0|-12.61|19.94|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||19.94|-12.61|0.6393
92375483|NCT00901511|184653680|SUPERIORITY||Mean Difference (Final Values)|5.22|STANDARD_ERROR_OF_MEAN|8.26||0.5361|TWO_SIDED|95.0|-12.28|22.73|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||22.73|-12.28|0.5361
92375484|NCT00901511|184653680|SUPERIORITY||Mean Difference (Final Values)|1.67|STANDARD_ERROR_OF_MEAN|7.04||0.8159|TWO_SIDED|95.0|-13.26|16.6|||t-test, 2 sided|||The secondary analysis includes evaluation of the difference in mean VC between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.|Calculated as the difference at the 30-month visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|16.60|-13.26|0.8159
92375485|NCT00901511|184653681|SUPERIORITY||Mean Difference (Final Values)|-0.822||||0.053|TWO_SIDED|95.0|-1.7|0.01|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the median value of the GGO Score in the GM-CSF Group minus the median value of the GGO Score in the Control Group|Primary Analysis||0.01|-1.70|0.0530
92375486|NCT00901511|184653681|SUPERIORITY||Median Difference (Final Values)|0.0|||>|0.9999|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the Pre-WLL visit in the median GGO Score in the GM-CSF Group minus the median GGO Score in the Control Group|The secondary analysis includes evaluation of the difference in median GGO Score between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||||>0.9999
92375487|NCT00901511|184653681|SUPERIORITY||Median Difference (Final Values)|-1.0||||0.0332|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 3-month visit in the median GGO Score in the GM-CSF Group minus the median GGO Score in the Control Group|The secondary analysis includes evaluation of the difference in median GGO Score between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||||0.0332
92375488|NCT00901511|184653681|SUPERIORITY||Median Difference (Final Values)|-1.0||||0.0676|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 10-month visit in the median GGO Score in the GM-CSF Group minus the median GGO Score in the Control Group|The secondary analysis includes evaluation of the difference in median GGO Score between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||||0.0676
92410296|NCT00689117|184711461|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||0.004
92410297|NCT00689117|184711461|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||0.550
92375489|NCT00901511|184653681|SUPERIORITY||Median Difference (Final Values)|-1.0||||0.0629|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 18-month visit in the median GGO Score in the GM-CSF Group minus the median GGO Score in the Control Group|The secondary analysis includes evaluation of the difference in median GGO Score between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||||0.0629
92375490|NCT00901511|184653681|SUPERIORITY||Median Difference (Final Values)|0.0|||>|0.9999|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 30-month visit in the median GGO Score in the GM-CSF Group minus the median GGO Score in the Control Group|The secondary analysis includes evaluation of the difference in median GGO Score between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||||>0.9999
92375491|NCT00901511|184653682|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.001|TWO_SIDED|95.0|-0.71|-0.22|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the CEA levels in the GM-CSF Group minus the CEA levels in the Control Group|Primary Analysis||-0.22|-0.71|0.0010
92410298|NCT00689117|184711461|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||<0.001
92410299|NCT00689117|184711461|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total lesion count|Ranked ANCOVA|||||||<0.001
92410300|NCT00689117|184711461|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||Total lesion count|Ranked ANCOVA|||||||0.016
92410301|NCT00689117|184711461|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total lesion count|Ranked ANCOVA|||||||<0.001
92410302|NCT00689117|184711462|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Data based on Data on File documenting FDA reanalysis request|Cochran-Mantel-Haenszel|||||||0.001
92410303|NCT00689117|184711462|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Data based on Data on File documenting FDA reanalysis request|Cochran-Mantel-Haenszel|||||||<0.001
92410304|NCT00689117|184711462|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Data based on Data on File documenting FDA reanalysis request|Cochran-Mantel-Haenszel|||||||<0.001
92410305|NCT00689117|184711463|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||0.065
92375492|NCT00901511|184653682|SUPERIORITY||Median Difference (Final Values)|-12.0||||0.0059|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the Pre-WLL visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||||0.0059
92410306|NCT00689117|184711463|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||0.002
92375493|NCT00901511|184653682|SUPERIORITY||Median Difference (Final Values)|-3.45||||0.0382|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the baseline visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||||0.0382
92375494|NCT00901511|184653682|SUPERIORITY||Median Difference (Final Values)|-3.2||||0.077|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 1-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||||0.0770
92375495|NCT00901511|184653682|SUPERIORITY||Median Difference (Final Values)|-4.0||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 3-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||||0.0400
92375496|NCT00901511|184653682|SUPERIORITY||Median Difference (Final Values)|-7.9||||0.0142|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 6-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||||0.0142
92375497|NCT00901511|184653682|SUPERIORITY||Median Difference (Final Values)|-6.5||||0.0071|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 10-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||||0.0071
92375498|NCT00901511|184653682|SUPERIORITY||Median Difference (Final Values)|-5.6||||0.0137|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 18-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||||0.0137
92375499|NCT00901511|184653682|SUPERIORITY||Median Difference (Final Values)|-3.2||||0.0315|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 30-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||||0.0315
92375500|NCT00901511|184653683|SUPERIORITY||Mean Difference (Final Values)|-3689.0||||0.03|TWO_SIDED|95.0|-6972.0|-406.0|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the KL-6 levels in the GM-CSF Group minus the KL-6 levels in the Control Group|Primary Analysis||-406|-6972|0.0300
92375501|NCT00901511|184653683|SUPERIORITY||Median Difference (Final Values)|-3265.0||||0.077|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the Pre-WLL visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||||0.0770
92375502|NCT00901511|184653683|SUPERIORITY||Median Difference (Final Values)|-5018.0||||0.0745|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the baseline visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||||0.0745
92410307|NCT00689117|184711463|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||<0.001
92410308|NCT00689117|184711463|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||<0.001
92410309|NCT00689117|184711463|SUPERIORITY_OR_OTHER|||||||0.284||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||0.284
92410310|NCT00689117|184711463|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||<0.001
92410311|NCT00689117|184711463|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total lesion count|Ranked ANCOVA|||||||<0.001
92410312|NCT00689117|184711463|SUPERIORITY_OR_OTHER|||||||0.028||95.0||||Total lesion count|Ranked ANCOVA|||||||0.028
92410313|NCT00689117|184711463|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total lesion count|Ranked ANCOVA|||||||<0.001
92169130|NCT02528188|184227137|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.13||0.8688|TWO_SIDED|95.0|-0.24|0.29|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.29|-0.24|0.8688
92375503|NCT00901511|184653683|SUPERIORITY||Median Difference (Final Values)|-6343.0||||0.2581|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 1-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||||0.2581
92375504|NCT00901511|184653683|SUPERIORITY||Median Difference (Final Values)|-4102.0||||0.4894|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 3-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||||0.4894
92375505|NCT00901511|184653683|SUPERIORITY||Median Difference (Final Values)|-6818.0|||>|0.9999|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 6-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||||>0.9999
92375506|NCT00901511|184653683|SUPERIORITY||Median Difference (Final Values)|-1570.0||||0.8633|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 10-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||||0.8633
92375507|NCT00901511|184653683|SUPERIORITY||Median Difference (Final Values)|-4200.0||||0.3401|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 18-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||||0.3401
92375508|NCT00901511|184653683|SUPERIORITY||Median Difference (Final Values)|-4307.0||||0.2973|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 30-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||||0.2973
92375509|NCT00901511|184653684|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.22|TWO_SIDED|95.0|-0.44|-0.04|||Repeated measures ANOVA||Calculated as the between group difference in the serum Cyfra21.1 levels in the GM-CSF Group minus the serum Cyfra21.1 levels in the Control Group|Primary Analysis||-0.04|-0.44|0.220
92375510|NCT00901511|184653684|SUPERIORITY||Mean Difference (Final Values)|-14.19|STANDARD_ERROR_OF_MEAN|6.76||0.056|TWO_SIDED|95.0|-28.8|0.42|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|•The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||0.42|-28.80|0.0560
92375511|NCT00901511|184653684|SUPERIORITY||Mean Difference (Final Values)|-4.26|STANDARD_ERROR_OF_MEAN|2.15||0.0648|TWO_SIDED|95.0|-8.8|0.29|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||0.29|-8.80|0.0648
92375512|NCT00901511|184653684|SUPERIORITY||Mean Difference (Final Values)|-6.27|STANDARD_ERROR_OF_MEAN|2.36||0.0175|TWO_SIDED|95.0|-11.28|-1.25|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||-1.25|-11.28|0.0175
92375513|NCT00901511|184653684|SUPERIORITY||Mean Difference (Final Values)|-16.81|STANDARD_ERROR_OF_MEAN|6.16||0.0148|TWO_SIDED|95.0|-29.85|-3.76|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||-3.76|-29.85|0.0148
92375514|NCT00901511|184653684|SUPERIORITY||Mean Difference (Final Values)|-5.41|STANDARD_ERROR_OF_MEAN|1.82||0.0089|TWO_SIDED|95.0|-9.27|-1.56|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||-1.56|-9.27|0.0089
92375515|NCT00901511|184653684|SUPERIORITY||Mean Difference (Final Values)|-5.18|STANDARD_ERROR_OF_MEAN|2.24||0.0343|TWO_SIDED|95.0|-9.92|-0.43|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||-0.43|-9.92|0.0343
92410314|NCT00689117|184711464|SUPERIORITY_OR_OTHER|||||||0.671||95.0|||||Cochran-Mantel-Haenszel|||||||0.671
92229440|NCT03532100|184361595|SUPERIORITY|||||||0.028||||||Pairwise hypothesis testing was carried out with adjustments for multiple comparisons using Tukey's method.|Regression, Linear|||6:1 versus 2:1||||0.028
92375516|NCT00901511|184653684|SUPERIORITY||Mean Difference (Final Values)|-4.26|STANDARD_ERROR_OF_MEAN|2.33||0.0871|TWO_SIDED|95.0|-9.21|0.69|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||0.69|-9.21|0.0871
92375517|NCT00901511|184653684|SUPERIORITY||Mean Difference (Final Values)|-3.01|STANDARD_ERROR_OF_MEAN|2.4||0.2265|TWO_SIDED|95.0|-8.09|2.06|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||2.06|-8.09|0.2265
92375518|NCT00901511|184653685|SUPERIORITY||Median Difference (Final Values)|8.78||||0.3865|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the Pre-WLL visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||||0.3865
92375519|NCT00901511|184653685|SUPERIORITY||Median Difference (Final Values)|7.82||||0.1672|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the baseline visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||||0.1672
92375520|NCT00901511|184653685|SUPERIORITY||Median Difference (Final Values)|4.24||||0.4363|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 1-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||||0.4363
92375521|NCT00901511|184653685|SUPERIORITY||Median Difference (Final Values)|7.34||||0.1615|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 3-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||||0.1615
92375522|NCT00901511|184653685|SUPERIORITY||Median Difference (Final Values)|13.71||||0.1615|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 6-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||||0.1615
92375523|NCT00901511|184653685|SUPERIORITY||Median Difference (Final Values)|11.1||||0.3865|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 10-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||||0.3865
92375524|NCT00901511|184653685|SUPERIORITY||Median Difference (Final Values)|5.4||||0.6475|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||• Calculated as the difference at the 18-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||||0.6475
92375525|NCT00901511|184653685|SUPERIORITY||Median Difference (Final Values)|-7.0||||0.6481|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 30-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||||0.6481
92229441|NCT03896581|184361597|SUPERIORITY||Odds Ratio (OR)|11.139|||<|0.001|TWO_SIDED|95.0|5.402|22.969|||Regression, Logistic|||||22.969|5.402|<0.001
92375526|NCT00901511|184653686|SUPERIORITY||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|0.78||0.0582|TWO_SIDED|95.0|-3.17|0.06|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||0.06|-3.17|0.0582
92375527|NCT00901511|184653686|SUPERIORITY||Mean Difference (Final Values)|1.15|STANDARD_ERROR_OF_MEAN|1.09||0.3068|TWO_SIDED|95.0|-1.17|3.48|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||3.48|-1.17|0.3068
92410315|NCT00689117|184711464|SUPERIORITY_OR_OTHER|||||||0.919||95.0|||||Cochran-Mantel-Haenszel|||||||0.919
92410316|NCT00689117|184711464|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Cochran-Mantel-Haenszel|||||||0.002
92410317|NCT00689117|184711465|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Cochran-Mantel-Haenszel|||||||0.002
92410318|NCT00689117|184711465|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92410319|NCT00689117|184711465|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92410320|NCT02204124|184711466|SUPERIORITY|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
92410321|NCT02204124|184711467|SUPERIORITY|||||||0.513|||||||Chi-squared|||||||0.513
92410322|NCT02204124|184711470|SUPERIORITY|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
92410323|NCT02204124|184711471|SUPERIORITY|||||||0.132|||||||Chi-squared|||||||0.132
92410324|NCT02204124|184711472|SUPERIORITY|||||||0.975|||||||Chi-squared|||Statistical analysis #1 is for readmission||||0.975
92375528|NCT00901511|184653686|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.75||0.5647|TWO_SIDED|95.0|-2.04|1.15|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||1.15|-2.04|0.5647
92277943|NCT00678392|184458053|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.665|||<|0.0001|TWO_SIDED|95.0|0.544|0.812||P-value was obtained from 1-sided log rank test, stratified by eastern cooperative oncology group (ECOG) and prior treatment. One-sided log-rank test at 0.025 level of significance was used to compare PFS between the 2 treatment arms.|Log Rank|||||0.812|0.544|<0.0001
92375529|NCT00901511|184653686|SUPERIORITY||Mean Difference (Final Values)|-0.86|STANDARD_ERROR_OF_MEAN|0.59||0.1669|TWO_SIDED|95.0|-2.11|0.4|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||0.40|-2.11|0.1669
92375530|NCT00901511|184653686|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_DEVIATION|0.69||0.453|TWO_SIDED|95.0|-1.99|0.93|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||0.93|-1.99|0.4530
92375531|NCT00901511|184653686|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.71||0.4594|TWO_SIDED|95.0|-2.04|0.97|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||0.97|-2.04|0.4594
92375532|NCT00901511|184653686|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.62||0.6302|TWO_SIDED|95.0|-1.61|1.0|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||1.00|-1.61|0.6302
92375533|NCT00901511|184653686|SUPERIORITY||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.72||0.33|TWO_SIDED|95.0|-2.24|0.8|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||0.80|-2.24|0.3300
92375534|NCT00901511|184653687|SUPERIORITY||Mean Difference (Final Values)|-53.72|STANDARD_ERROR_OF_MEAN|38.79||0.1864|TWO_SIDED|95.0|-136.4|28.96|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||28.96|-136.4|0.1864
92375535|NCT00901511|184653687|SUPERIORITY||Mean Difference (Final Values)|-21.17|STANDARD_ERROR_OF_MEAN|46.3||0.6541|TWO_SIDED|95.0|-119.8|77.51|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||77.51|-119.8|0.6541
92410325|NCT02204124|184711472|SUPERIORITY|||||||0.401|||||||Chi-squared|||Statistical analysis #2 is for wound infection.||||0.401
92410326|NCT02204124|184711472|SUPERIORITY|||||||0.975|||||||Chi-squared|||Statistical analysis #3 is for gastroparesis.||||0.975
92375536|NCT00901511|184653687|SUPERIORITY||Mean Difference (Final Values)|-18.78|STANDARD_ERROR_OF_MEAN|24.58||0.456|TWO_SIDED|95.0|-70.89|33.33|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||33.33|-70.89|0.4560
92375537|NCT00901511|184653687|SUPERIORITY||Mean Difference (Final Values)|-28.44|STANDARD_ERROR_OF_MEAN|30.98||0.3721|TWO_SIDED|95.0|-94.12|37.23|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||37.23|-94.12|0.3721
92410327|NCT02204124|184711472|SUPERIORITY|||||||0.401|||||||Chi-squared|||Statistical analysis #4 is for pancreatic fistula.||||0.401
92410328|NCT02204124|184711472|SUPERIORITY|||||||0.219|||||||Chi-squared|||Statistical analysis #5 is for intraabdominal abscess.||||0.219
92410329|NCT02204124|184711472|SUPERIORITY|||||||0.401|||||||Chi-squared|||Statistical analysis #6 is for anastomotic leakage.||||0.401
92410330|NCT02204124|184711472|SUPERIORITY|||||||0.219|||||||Chi-squared|||Statistical analysis #7 is for blood product transfusion (anemia).||||0.219
92410331|NCT03364270|184711484|OTHER||Mean Difference (Final Values)|0.58||||0.001|TWO_SIDED|95.0|0.33|0.84||Threshold p\<0.05|t-test, 2 sided|||Null hypothesis: There is no difference in mean 18F-RGD uptake (expressed as a target to background ratio) in the culprit artery (carotid artery implicated in stroke or transient ischemic attack \[TIA\]) when compared to mean 18F-RGD uptake in the contralateral carotid artery. A paired t-test was used to compare 18F-RGD uptake in culprit plaque to plaque in the contralateral artery.||0.84|0.33|.001
92410332|NCT02280408|184711516|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
92410333|NCT02280408|184711516|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
92410334|NCT02280408|184711516|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
92410335|NCT02280408|184711516|OTHER|||||||0.01|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.010
92410336|NCT02280408|184711516|OTHER|||||||0.011|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.011
92410337|NCT02280408|184711516|OTHER|||||||0.969|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||0.969
92229442|NCT03896581|184361598|SUPERIORITY||Least square (LS) mean difference|-0.326|||<|0.001|TWO_SIDED|95.0|-0.42|-0.233|||ANCOVA|||||-0.233|-0.420|<0.001
92229443|NCT03896581|184361600|SUPERIORITY||Odds Ratio (OR)|30.237|||<|0.001|TWO_SIDED|95.0|12.365|73.94|||Regression, Logistic|||||73.940|12.365|<0.001
92410338|NCT02280408|184711517|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||<0.001
92410339|NCT02280408|184711517|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||<0.001
92410340|NCT02280408|184711517|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||<0.001
92410341|NCT02280408|184711517|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||<0.001
92410342|NCT02280408|184711517|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||<0.001
92410343|NCT02280408|184711517|OTHER|||||||0.733|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||0.733
92410344|NCT02280408|184711518|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
92229444|NCT03896581|184361601|SUPERIORITY||LS mean difference|6.037|||<|0.001|TWO_SIDED|95.0|4.386|7.688|||ANCOVA|||||7.688|4.386|<0.001
92229445|NCT03896581|184361602|SUPERIORITY||Odds Ratio (OR)|13.089|||<|0.001|TWO_SIDED|95.0|6.119|27.999|||Regression, Logistic|||||27.999|6.119|<0.001
92410345|NCT02280408|184711518|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
92410346|NCT02280408|184711518|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
92410347|NCT02280408|184711518|OTHER|||||||0.132|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.132
92410348|NCT02280408|184711518|OTHER|||||||0.07|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.070
92410349|NCT02280408|184711518|OTHER|||||||0.743|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.743
92410350|NCT02280408|184711519|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
92410351|NCT02280408|184711519|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
92410352|NCT02280408|184711519|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
92410353|NCT02280408|184711519|OTHER|||||||0.014|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.014
92410354|NCT02280408|184711519|OTHER|||||||0.011|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.011
92410355|NCT02280408|184711519|OTHER|||||||0.923|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.923
92410356|NCT04413617|184711556|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.163||0.0158|TWO_SIDED|90.0|-0.62|-0.08|||Mixed Model Repeated Measures|||The primary clinical hypothesis is that mean decrease at Week 12 in DAS28-CRP score in one or both combo arms exceeds the mean decrease in the reference (tofacitinib) treatment arm, regardless of occurrence of intercurrent events. The null hypothesis is that the mean decrease in DAS28-CRP score at Week 12 is identical in the control (tofacitinib arm) and combination arms.||-0.08|-0.62|0.0158
92410357|NCT04413617|184711556|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.164||0.3933|TWO_SIDED|90.0|-0.32|0.23|||Mixed Model Repeated Measures|||The primary clinical hypothesis is that mean decrease at Week 12 in DAS28-CRP score in one or both combo arms exceeds the mean decrease in the reference (tofacitinib) treatment arm, regardless of occurrence of intercurrent events. The null hypothesis is that the mean decrease in DAS28-CRP score at Week 12 is identical in the control (tofacitinib arm) and combination arms.||0.23|-0.32|0.3933
92375538|NCT00901511|184653687|SUPERIORITY||Mean Difference (Final Values)|-28.78|STANDARD_ERROR_OF_MEAN|20.58||0.1812|TWO_SIDED|95.0|-72.41|14.86|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||14.86|-72.41|0.1812
92410358|NCT00312195|184711570|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79|STANDARD_ERROR_OF_MEAN|0.2544||0.0217|TWO_SIDED|95.0|1.09|2.95||P value is from a logistic regression analysis with terms for treatment effect, country and pain site (hip, knee, back and other).|Regression, Logistic||Primary variable was defined as: ratio of the probability of having ineffective treatment divided by the probability of having effective treatment.|H0: the odds of ineffective treatment is the same for subjects receiving placebo as for those receiving BTDS versus the alternative H1: the odds of ineffective treatment is different for subjects receiving placebo from those receiving BTDS.||2.95|1.09|.0217
92375539|NCT00901511|184653687|SUPERIORITY||Mean Difference (Final Values)|-26.11|STANDARD_ERROR_OF_MEAN|23.38||0.2805|TWO_SIDED|95.0|-75.67|23.44|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||23.44|-75.67|0.2805
92375540|NCT00901511|184653687|SUPERIORITY||Mean Difference (Final Values)|-27.33|STANDARD_ERROR_OF_MEAN|22.75||0.247|TWO_SIDED|95.0|-75.56|20.89|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||20.89|-75.56|0.2470
92375541|NCT00901511|184653687|SUPERIORITY||Mean Difference (Final Values)|-31.0|STANDARD_ERROR_OF_MEAN|23.57||0.207|TWO_SIDED|95.0|-80.97|18.97|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||18.97|-80.97|0.2070
92410359|NCT04145219|184711583|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.0001|TWO_SIDED|95.0|0.5|1.4||This endpoint was controlled for multiplicity using hierarchical testing|Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average daily TCRS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||1.4|0.5|<0.0001
92410360|NCT04145219|184711584|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.0001|TWO_SIDED|95.0|0.2|0.6||This endpoint was controlled for multiplicity using hierarchical testing|Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average rhinitis DSS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.6|0.2|<0.0001
92375542|NCT00901511|184653688|SUPERIORITY||Mean Difference (Final Values)|4.72||||0.149|TWO_SIDED|95.0|-1.88|11.33|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the difference in the mean value of the SF-36 General Health Score in the GM-CSF Group minus the Control Group|Primary analysis||11.33|-1.88|0.1490
92375543|NCT00901511|184653688|SUPERIORITY||Mean Difference (Final Values)|-4.31|STANDARD_ERROR_OF_MEAN|12.07||0.7263|TWO_SIDED|95.0|-30.04|21.43|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in mean SF-36 General Health Score between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||21.43|-30.04|0.7263
92410361|NCT04145219|184711585|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.0016|TWO_SIDED|95.0|0.2|0.8||This endpoint was controlled for multiplicity using hierarchical testing|Mixed Models Analysis|||The average rhinitis DMS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.8|0.2|0.0016
92169131|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.09||0.3622|TWO_SIDED|95.0|-0.25|0.09|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.09|-0.25|0.3622
92229446|NCT04533711|184361612|SUPERIORITY||Mean Difference (Final Values)|8.35||||0.3086|TWO_SIDED|95.0|-7.68|24.38|||Mixed Models Analysis|||||24.38|-7.68|0.3086
92375544|NCT00901511|184653688|SUPERIORITY||Mean Difference (Final Values)|8.33|STANDARD_ERROR_OF_MEAN|8.29||0.3298|TWO_SIDED|95.0|-9.24|25.91|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in SF-36 General Health Score between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||25.91|-9.24|0.3298
92375545|NCT00901511|184653688|SUPERIORITY||Mean Difference (Final Values)|13.89|STANDARD_ERROR_OF_MEAN|6.48||0.0478|TWO_SIDED|95.0|-0.15|27.62|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in SF-36 General Health Score between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||27.62|-0.15|0.0478
92375546|NCT00901511|184653688|SUPERIORITY||Mean Difference (Final Values)|17.78|STANDARD_ERROR_OF_MEAN|7.37||0.0281|TWO_SIDED|95.0|2.16|33.39|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in mean SF-36 General Health Score between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||33.39|2.16|0.0281
92375547|NCT00901511|184653688|SUPERIORITY||Mean Difference (Final Values)|11.67|STANDARD_ERROR_OF_MEAN|10.07||0.2634|TWO_SIDED|95.0|-9.67|33.0|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in mean SF-36 General Health Score between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||33.00|-9.67|0.2634
92375548|NCT00901511|184653688|SUPERIORITY||Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|10.49||0.3548|TWO_SIDED|95.0|-12.24|32.24|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in mean SF-36 General Health Score between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||32.24|-12.24|0.3548
92375549|NCT00901511|184653688|SUPERIORITY||Mean Difference (Final Values)|16.67|STANDARD_ERROR_OF_MEAN|9.68||0.1043|TWO_SIDED|95.0|-3.85|37.18|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in mean SF-36 General Health Score between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||37.18|-3.85|0.1043
92375550|NCT02880514|184653689|SUPERIORITY|||||||0.0391||||||P-value not adjusted for multiplicity.|McNemar|McNemar's exact binomial test was employed to obtain the two-sided p-value at alpha level of 0.05.||||||0.0391
92375551|NCT02880514|184653690|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.68
92375552|NCT02436668|184653691|SUPERIORITY||Hazard Ratio (HR)|1.525|||<|0.0001|TWO_SIDED|95.0|1.241|1.873||P-value is from log-rank test stratified by the three randomization stratification factors \[KPS (70-80 vs. 90-100), liver metastasis (present vs. absent), and age (≤65 vs. \>65)\].|Log Rank|||The treatment effect was tested with an stratified log rank test. Hazard ratio is estimated using Cox regression model stratified by the three randomization stratification factors \[KPS (70 80 vs. 90-100), liver metastasis (present vs. absent), and age (≤65 vs. \>65)\] and with treatment as the only covariate.||1.873|1.241|<0.0001
92375553|NCT02436668|184653692|SUPERIORITY|P-value is based on log-rank test stratified by the three randomization stratification factors \[KPS (70-80 vs. 90-100), liver metastasis (present vs. absent), and age (≤65 vs. \>65)\].|Hazard Ratio (HR)|1.109||||0.3225|TWO_SIDED|95.0|0.903|1.363|||Log Rank|||The treatment effect was tested with an stratified log rank test. Hazard ratio is estimated using Cox regression model stratified by the three randomization stratification factors \[KPS (70 80 vs. 90-100), liver metastasis (present vs. absent), and age (≤65 vs. \>65)\] and with treatment as the only covariate.||1.363|0.903|0.3225
92375554|NCT02436668|184653694|SUPERIORITY||Risk Ratio (RR)|0.695||||0.0058|TWO_SIDED|95.0|0.535|0.903|||Cochran-Mantel-Haenszel|||For rate ratio, numerator is Ibr+Gem/Abr arm and denominator is Pbo + Gem/Abr arm. P-value for rate ratio is based on Cochran-Mantel-Haenszel (CMH) test adjusted for the three randomization stratification factors. Two-sided 95% confidence interval for rate ratio is based on Mantel-Haenszel method.||0.903|0.535|0.0058
92410362|NCT04145219|184711586|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.0001|TWO_SIDED|95.0|0.6|1.7||This endpoint was controlled for multiplicity using hierarchical testing|Mixed Models Analysis||Placebo vs.12 SQ-HDM|||1.7|0.6|<0.0001
92229447|NCT04533711|184361613|SUPERIORITY||Mean Difference (Final Values)|10.93||||0.182|TWO_SIDED|95.0|-5.06|26.92|||Mixed Models Analysis|||||26.92|-5.06|0.1820
92229448|NCT04533711|184361614|SUPERIORITY||Mean Difference (Final Values)|308.4||||0.094|TWO_SIDED|95.0|-50.2|667.1|||Mixed Models Analysis|||||667.1|-50.2|0.094
92375555|NCT02436668|184653696|SUPERIORITY||Risk Ratio (RR)|0.85||||0.0488|TWO_SIDED|95.0|0.722|1.0|||Cochran-Mantel-Haenszel||This 0.85 (0.722 to 1.0) with CI is referring to risk ratio not proportional/percentage of patients.|For rate ratio, numerator is Ibr+Gem/Abr arm and denominator is Pbo+Gem/Abr arm. P-value for rate ratio is based on Cochran-Mantel-Haenszel (CMH) test adjusted for the three randomization stratification factors. Two-sided 95% confidence interval for rate ratio is based on Mantel-Haenszel method.||1.0|0.722|0.0488
92375556|NCT02436668|184653697|SUPERIORITY||Hazard Ratio (HR)|1.265||||0.0782|TWO_SIDED|95.0|0.975|1.642||P-value is from log-rank test stratified by the three randomization stratification factors.|Log Rank|||\[1\] Hazard ratio is based on a Cox proportional hazards model stratified by the three randomization stratification factors for time until definitive deterioration (TUDD1), a hazard ratio \< 1 favors Ibr + Gem/Abr. TUDD1 is defined as the time interval between randomization and the first occurrence of a decrease in score by \>= 10 points without any further improvement in score by \>= 10 points or any further available QoL data due to dropout after deterioration.||1.642|0.975|0.0782
92375557|NCT02436668|184653698|SUPERIORITY|||||||0.3343|||||||Chi-squared|||"For rate of VTEs, denominator is number of subjects in the Intent-to-Treat population and numerator is number of Intent-to-Treat subjects with at least one VTE observed any time on study. Confidence interval for rate of VTEs is based on Clopper-Pearson method.~\[1\] P value is based on Chi-square test."||||0.3343
92375558|NCT01444027|184653712|SUPERIORITY|||||||0.002||||||Bonferroni adjusted p-value for 3 pairwise comparisons|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status||||||0.002
92375559|NCT01444027|184653712|SUPERIORITY|||||||0.9||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|||||||0.90
92375560|NCT01444027|184653712|SUPERIORITY|||||||0.002||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.002
92375561|NCT01444027|184653713|SUPERIORITY|||||||0.001||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for the baseline value of the measure, hospice agency, and bereaved status.||||||0.001
92375562|NCT01444027|184653713|SUPERIORITY|||||||0.48||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.48
92375563|NCT01444027|184653713|SUPERIORITY|||||||0.01||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||.01
92410363|NCT04145219|184711587|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.0001|TWO_SIDED|95.0|0.3|0.7|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average rhinoconjunctivitis DSS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.7|0.3|<0.0001
92375564|NCT01444027|184653714|SUPERIORITY|||||||0.001||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.001
92375565|NCT01444027|184653714|SUPERIORITY|||||||0.83|||||||Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.83
92410364|NCT04145219|184711588|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.0018|TWO_SIDED|95.0|0.2|1.0|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average rhinoconjunctivitis DMS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||1.0|0.2|0.0018
92229449|NCT04533711|184361615|SUPERIORITY||Mean Difference (Final Values)|352.0||||0.0691|TWO_SIDED|95.0|-25.2|729.2|||Mixed Models Analysis|||||729.2|-25.2|0.0691
92375566|NCT01444027|184653714|SUPERIORITY|||||||0.001||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.001
92375567|NCT01444027|184653715|SUPERIORITY|||||||0.003||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.003
92375568|NCT01444027|184653715|SUPERIORITY|||||||0.16||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.16
92375569|NCT01444027|184653715|SUPERIORITY|||||||0.17||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.17
92375570|NCT01444027|184653716|SUPERIORITY|||||||0.001||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.001
92375571|NCT01444027|184653716|SUPERIORITY|||||||0.78||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.78
92375572|NCT01444027|184653716|SUPERIORITY|||||||0.004||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.004
92375573|NCT03551665|184653718|OTHER||Mean Difference (Final Values)|0.029||||0.036|TWO_SIDED|95.0|0.002|0.056|||Regression, Linear|||These data are the immediate improvements (base 2 - post 1) in the MS group.||0.056|.002|0.036
92375574|NCT03551665|184653719|OTHER||Spearman's Rho|0.019||||0.92|||||||Spearman Correlation|||We correlated cognition (SDMT; above) to the improvement in performance (margin of stability) to to determine whether cognition predicted improvement in stepping outcomes.||||.92
92375575|NCT03551665|184653720|OTHER||Mean Difference (Final Values)|0.026||||0.119||95.0|-0.007|0.059|||Regression, Linear|||We assessed the change in reactive step length before (Baseline 2) to immediately after (post 1) training in the MS group||0.059|-0.007|0.119
92375576|NCT03551665|184653721|OTHER||Mean Difference (Final Values)|-0.041||||0.012||95.0|-0.073|-0.009|||Regression, Linear|||We assessed the change in reactive step latency before (Baseline 2) to immediately after (post 1) training in the MS group||-0.009|-0.073|0.012
92375577|NCT05538312|184653722|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|168.9|||||TWO_SIDED|90.0|157.66|180.94|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed AUCinf was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||180.94|157.66|
92375578|NCT05538312|184653723|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|152.19|||||TWO_SIDED|90.0|136.9|169.18|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed Cmax was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||169.18|136.90|
92410365|NCT04145219|184711589|SUPERIORITY||Mean Difference (Final Values)|0.2|||<|0.0001|TWO_SIDED|95.0|0.1|0.2||This endpoint was controlled for multiplicity using hierarchical testing|Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The overall PRQLQ score was analysed using a linear mixed effect (LME) model. The model includes the overall PRQLQ score as response variable, treatment and cohort as fixed factors, the baseline overall PRQLQ score as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.2|0.1|<0.0001
92410366|NCT04145219|184711590|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.0259|TWO_SIDED|95.0|0.0|0.2|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average asthma DSS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.2|0.0|0.0259
92410367|NCT04145219|184711591|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0527|TWO_SIDED|95.0|1.0|3.3|||Generalised linear mixed model (GLMM)||Odds ratio is (odds 12 SQ-HDM / odds Placebo)|The odds of having a SABA free day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model included SABA free day (yes/no) as response variable, treatment and cohort as fixed effects, the baseline average asthma DSS as a covariate, the combined (country/region) variable within cohort and subject as random effects. Proportion is the estimated probability of having a day where a subject with asthma did not use SABA, odds ratio is (odds active/odds Placebo).||3.3|1.0|0.0527
92410368|NCT04145219|184711592|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.1256|TWO_SIDED|95.0|-0.1|1.0|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The endpoint was analysed using a linear mixed effect (LME) model. The model includes the endpoint as response variable, treatment and cohort as fixed factors, the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||1.0|-0.1|0.1256
92410369|NCT04145219|184711593|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0008|TWO_SIDED|95.0|1.3|2.5|||Generalised linear mixed model (GLMM)||Odds ratio is (odds 12 SQ-HDM / odds Placebo)|The odds of having a rhinitis mild day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model included the endpoint (yes/no) as response variable, treatment and cohort as fixed effects, the baseline average rhinitis TCRS as a covariate, the combined (country/region) variable within cohort and subject as random effects. Proportion is the estimated probability of having a day with no or mild rhinitis symptoms, odds ratio is (odds 12 SQ-HDM / odds Placebo).||2.5|1.3|0.0008
92410370|NCT04145219|184711594|SUPERIORITY||Odds Ratio (OR)|0.6|||<|0.0001|TWO_SIDED|95.0|0.4|0.7|||Generalised linear mixed model (GLMM)||Odds ratio is (odds 12 SQ-HDM / odds Placebo)|The odds of having a rhinitis exacerbation day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model included the endpoint (yes/no) as response variable, treatment and cohort as fixed effects, the baseline average rhinitis DSS as a covariate, the combined (country/region) variable within cohort and subject as random effects. Proportion is the estimated probability of having a rhinitis exacerbation day, odds ratio is (odds 12 SQ-HDM / odds Placebo).||0.7|0.4|<0.0001
92410371|NCT04145219|184711595|SUPERIORITY||Mean Difference (Final Values)|0.2|||<|0.0001|TWO_SIDED|95.0|0.1|0.3|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average rhinitis CSMS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.3|0.1|<0.0001
92410372|NCT04145219|184711596|SUPERIORITY||Mean Difference (Final Values)|0.2|||<|0.0001|TWO_SIDED|95.0|0.1|0.3|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average rhinoconjunctivitis CSMS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.3|0.1|<0.0001
92375579|NCT05538312|184653724|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|161.99|||||TWO_SIDED|90.0|148.7|176.47|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed AUC120 was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||176.47|148.70|
92375580|NCT05538312|184653725|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|153.13|||||TWO_SIDED|90.0|138.51|169.3|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed Cmax was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||169.30|138.51|
92169132|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.09||0.3894|TWO_SIDED|95.0|-0.09|0.24|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.09|0.3894
92169133|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.09||0.0137|TWO_SIDED|95.0|-0.42|-0.05|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.42|0.0137
92375581|NCT05538312|184653726|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|171.63|||||TWO_SIDED|90.0|159.96|184.15|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed AUClast was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||184.15|159.96|
92375582|NCT05538312|184653727|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|157.8|||||TWO_SIDED|90.0|146.51|169.95|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed AUC120 was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||169.95|146.51|
92375583|NCT05538312|184653732|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|192.86|||||TWO_SIDED|90.0|178.86|207.94|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed AUClast was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||207.94|178.86|
92375584|NCT01514240|184653744|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 90% CI for the observed difference in the primary outcome measure (remission rate) between the D9421-C 9mg group and the Mesalazine 3 g group was calculated at week 8 using the Newcombe-Wilson score method without continuity correction. Noninferiority was concluded if the lower limit of the 90% CI was higher than -10% in FAS Population.|Difference of proportion|5.4||||0.526|TWO_SIDED|90.0|-8.49|18.94|||Chi-squared|||The primary objective of this study was to determine non-inferiority in the differences in remission rates at Week 8 for D9421-C 9 mg as compared to Mesalazine 3 g.||18.94|-8.49|0.526
92375585|NCT01514240|184653745|SUPERIORITY_OR_OTHER||Difference of proportion|1.8||||0.768|TWO_SIDED|90.0|-8.54|12.15|||Chi-squared||Differences in remission rate at Week 2 between D9421-C 9 mg and Mesalazine 3 g along with their 2-sided 90% CIs calculated by the Newcombe-Wilson score method without continuity correction|||12.15|-8.54|0.768
92410373|NCT05871450|184711629|SUPERIORITY|||||||0.05|||||||Regression, Linear|||||||0.05
92410374|NCT00947882|184711630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.0911||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 3. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 30 mg and Placebo at Month 3."|Analysis of Covariance (ANCOVA) of the change from baseline in IPSS at Month 3 in the FAS population using the Last Observation Carried Forward (LOCF) method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.0911
92169134|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.0106|TWO_SIDED|95.0|-0.43|-0.06|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.43|0.0106
92229450|NCT04533711|184361616|SUPERIORITY||Mean Difference (Final Values)|-5.85||||0.4953|TWO_SIDED|95.0|-22.6|10.94|||Mixed Models Analysis|||||10.94|-22.6|0.4953
92229451|NCT04533711|184361617|SUPERIORITY||Mean Difference (Final Values)|-2.25||||0.8041|TWO_SIDED|95.0|-20.0|15.49|||Mixed Models Analysis|||||15.49|-20.0|0.8041
92375586|NCT01514240|184653746|SUPERIORITY_OR_OTHER||Difference of proportion|8.9||||0.208|TWO_SIDED|90.0|-2.87|20.58|||Chi-squared||Differences in remission rate at Week 4 between D9421-C 9 mg and Mesalazine 3 g along with their 2-sided 90% CIs calculated by the Newcombe-Wilson score method without continuity correction|||20.58|-2.87|0.208
92375587|NCT01514240|184653747|SUPERIORITY_OR_OTHER||LS mean difference between group|-22.8|STANDARD_ERROR_OF_MEAN|11.89||0.058|TWO_SIDED|90.0|-42.55|-3.09|||Mixed Models Analysis||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||-3.09|-42.55|0.058
92229452|NCT04533711|184361618|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.9645|TWO_SIDED|95.0|-2.86|2.99|||Mixed Models Analysis|||||2.99|-2.86|0.9645
92375588|NCT01514240|184653748|SUPERIORITY_OR_OTHER||LS mean difference between group|-30.0|STANDARD_ERROR_OF_MEAN|12.05||0.014|TWO_SIDED|90.0|-49.95|-9.96|||Mixed Models Analysis||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||-9.96|-49.95|0.014
92375589|NCT01514240|184653749|SUPERIORITY_OR_OTHER||LS mean difference between group|-21.4|STANDARD_ERROR_OF_MEAN|14.53||0.144|TWO_SIDED|90.0|-45.47|2.74|||Mixed Models Analysis||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||2.74|-45.47|0.144
92375590|NCT01514240|184653753|SUPERIORITY_OR_OTHER||Difference of proportions|14.3|||||TWO_SIDED|90.0|0.5|27.4|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||27.40|0.50|
92375591|NCT01514240|184653754|SUPERIORITY_OR_OTHER||Difference of proportions|16.1|||||TWO_SIDED|90.0|1.66|29.61|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||29.61|1.66|
92375592|NCT01514240|184653755|SUPERIORITY_OR_OTHER||Difference of proportions|16.1|||||TWO_SIDED|90.0|0.85|30.29|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||30.29|0.85|
92375593|NCT01514240|184653756|SUPERIORITY_OR_OTHER||Difference of proportions|7.1|||||TWO_SIDED|90.0|-5.67|19.71|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||19.71|-5.67|
92375594|NCT01514240|184653757|SUPERIORITY_OR_OTHER||Difference of proportions|14.3|||||TWO_SIDED|90.0|0.5|27.4|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||27.40|0.50|
92375595|NCT01514240|184653758|SUPERIORITY_OR_OTHER||Difference of proportions|12.5|||||TWO_SIDED|90.0|-2.44|26.68|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||26.68|-2.44|
92375596|NCT01514240|184653759|SUPERIORITY_OR_OTHER||LS mean difference between group|10.5|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|90.0|4.86|16.14|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||16.14|4.86|
92375597|NCT01514240|184653760|SUPERIORITY_OR_OTHER||LS mean difference between group|12.6|STANDARD_ERROR_OF_MEAN|3.93|||TWO_SIDED|90.0|6.07|19.11|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||19.11|6.07|
92375598|NCT01514240|184653761|SUPERIORITY_OR_OTHER||LS mean difference between group|12.6|STANDARD_ERROR_OF_MEAN|4.31|||TWO_SIDED|90.0|5.4|19.72|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||19.72|5.40|
92375599|NCT01514240|184653762|SUPERIORITY_OR_OTHER||LS mean difference between group|14.1|STANDARD_ERROR_OF_MEAN|4.32|||TWO_SIDED|90.0|6.9|21.23|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||21.23|6.90|
92375600|NCT01514240|184653763|SUPERIORITY_OR_OTHER||LS mean difference between group|3.4|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|1.49|5.29|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||5.29|1.49|
92229453|NCT04533711|184361619|SUPERIORITY||Mean Difference (Final Values)|-2.68||||0.0989|TWO_SIDED|95.0|-5.85|0.49|||Mixed Models Analysis|||||0.49|-5.85|0.0989
92229454|NCT04533711|184361620|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.7667|TWO_SIDED|95.0|-0.77|1.05|||Mixed Models Analysis|||||1.05|-0.77|0.7667
92375601|NCT01514240|184653764|SUPERIORITY_OR_OTHER||LS mean difference between group|3.8|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|90.0|1.64|5.97|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||5.97|1.64|
92229455|NCT04533711|184361621|SUPERIORITY||Mean Difference (Final Values)|-0.87||||0.0894|TWO_SIDED|95.0|-1.87|0.13|||Mixed Models Analysis|||||0.13|-1.87|0.0894
92229456|NCT02689492|184361624|OTHER||Intercept|68.5027|STANDARD_DEVIATION|8.0355|||||||||||Standard deviation is actually standard error.|||||
92229457|NCT02689492|184361625|OTHER||Intercept|95.4051|STANDARD_DEVIATION|6.9951|||||||||||Standard deviation is actually standard error.|||||
92375602|NCT01514240|184653765|SUPERIORITY_OR_OTHER||LS mean difference between group|4.1|STANDARD_ERROR_OF_MEAN|1.53|||TWO_SIDED|90.0|1.58|6.64|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||6.64|1.58|
92375603|NCT01514240|184653766|SUPERIORITY_OR_OTHER||LS mean difference between group|3.3|STANDARD_ERROR_OF_MEAN|1.47|||TWO_SIDED|90.0|0.9|5.76|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||5.76|0.90|
92375604|NCT01514240|184653767|SUPERIORITY_OR_OTHER||LS mean difference between group|2.0|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|90.0|0.89|3.17|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||3.17|0.89|
92229458|NCT02689492|184361626|OTHER||Intercept|74.8895|STANDARD_DEVIATION|8.0048|||||||||||Standard deviation is actually standard error.|||||
92229459|NCT02338843|184361681|SUPERIORITY||Odds Ratio (OR)|7.95|||<|0.001|TWO_SIDED|95.0|4.76|13.3|||Regression, Logistic|Stratified logistic regression model. Adjusted by baseline MAP and APACHE II, vasopressin use and average NED 6 hours prior to randomization.||||13.3|4.76|<0.001
92229460|NCT02660580|184361687|EQUIVALENCE|MSB11022 was considered equivalent to EU-Humira if the 95% CI for the treatment difference was included in the equivalence interval \[-15%, 15%\]).|Least Square (LS) Mean difference|0.88|||||TWO_SIDED|95.0|-1.21|2.98||||||||2.98|-1.21|
92229461|NCT02660580|184361703|EQUIVALENCE|MSB11022 was considered equivalent to EU-Humira if the 95% stratified Newcombe Confidence Interval (CI) for the difference in percentage was included in the equivalence interval (-18, 18).|Percentage difference|-1.9|||||TWO_SIDED|95.0|-7.82|4.07||||||||4.07|-7.82|
92375605|NCT01514240|184653768|SUPERIORITY_OR_OTHER||LS mean difference between group|2.0|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|90.0|0.73|3.19|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||3.19|0.73|
92375606|NCT01514240|184653769|SUPERIORITY_OR_OTHER||LS mean difference between group|2.4|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|90.0|0.96|3.76|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||3.76|0.96|
92375607|NCT01514240|184653770|SUPERIORITY_OR_OTHER||LS mean difference between group|2.6|STANDARD_ERROR_OF_MEAN|0.89|||TWO_SIDED|90.0|1.15|4.09|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||4.09|1.15|
92375608|NCT01514240|184653771|SUPERIORITY_OR_OTHER||LS mean difference between group|3.8|STANDARD_ERROR_OF_MEAN|1.43|||TWO_SIDED|90.0|1.44|6.19|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||6.19|1.44|
92375609|NCT01514240|184653772|SUPERIORITY_OR_OTHER||LS mean difference between group|4.9|STANDARD_ERROR_OF_MEAN|1.66|||TWO_SIDED|90.0|2.14|7.65|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||7.65|2.14|
92375610|NCT01514240|184653773|SUPERIORITY_OR_OTHER||LS mean difference between group|4.3|STANDARD_ERROR_OF_MEAN|1.76|||TWO_SIDED|90.0|1.4|7.25|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||7.25|1.40|
92375611|NCT01514240|184653774|SUPERIORITY_OR_OTHER||LS mean difference between group|6.6|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|90.0|3.56|9.72|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||9.72|3.56|
92375612|NCT01514240|184653775|SUPERIORITY_OR_OTHER||LS mean difference between group|1.2|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|90.0|0.01|2.43|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||2.43|0.01|
92375613|NCT01514240|184653776|SUPERIORITY_OR_OTHER||LS mean difference between group|1.8|STANDARD_ERROR_OF_MEAN|0.81|||TWO_SIDED|90.0|0.42|3.12|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||3.12|0.42|
92375614|NCT01514240|184653777|SUPERIORITY_OR_OTHER||LS mean difference between group|1.6|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|90.0|0.19|3.04|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||3.04|0.19|
92375615|NCT01514240|184653778|SUPERIORITY_OR_OTHER||LS mean difference between group|1.3|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|90.0|-0.15|2.76|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||2.76|-0.15|
92375616|NCT01103063|184653786|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.11|STANDARD_DEVIATION|0.0647||0.12237|TWO_SIDED|95.0|0.97|1.25||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint)|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.25|0.97|0.12237
92229462|NCT00951821|184361728|SUPERIORITY_OR_OTHER||Slope|-3.3||||0.46|TWO_SIDED|95.0|-12.1|5.5||Effect sizes were also calculated due to small sample size|Mixed Models Analysis||The reported statistic (-3.3) is the difference in the change from baseline to follow-up between the two treatment arms, estimated in a mixed effect regression model.|||5.5|-12.1|.46
92410375|NCT00947882|184711630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44||||0.0865|TWO_SIDED|||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 3. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 20 mg and Placebo at Month 3."|Analysis of Covariance (ANCOVA) of the change from baseline in IPSS at Month 3 in the FAS population using the Last Observation Carried Forward (LOCF) method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.0865
92229463|NCT00951821|184361729|SUPERIORITY_OR_OTHER||Slope|0.4||||0.75|TWO_SIDED|95.0|-2.36|3.06|||Mixed Models Analysis||The statistic provided (0.4) is the difference in the change in BDI score from baseline to follow-up by treatment group.|||3.06|-2.36|.75
92375617|NCT01103063|184653787|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03|STANDARD_DEVIATION|0.1243||0.84117|TWO_SIDED|95.0|0.8|1.31||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint)|Mantel Haenszel||The estimated risk ratio is presented along with its SE, with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.31|0.80|0.84117
92375618|NCT01103063|184653788|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87|STANDARD_DEVIATION|0.1745||0.4428|TWO_SIDED|95.0|0.62|1.23||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.23|0.62|0.4428
92375619|NCT01103063|184653789|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.91|STANDARD_DEVIATION|0.1882||0.6086|TWO_SIDED|95.0|0.63|1.31||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.31|0.63|0.6086
92375620|NCT01103063|184653790|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9|STANDARD_DEVIATION|0.2866||0.7035|TWO_SIDED|95.0|0.51|1.57||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.57|0.51|0.7035
92375621|NCT01103063|184653791|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03|STANDARD_DEVIATION|0.04||0.4605|TWO_SIDED|95.0|0.95|1.11||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.11|0.95|0.4605
92375622|NCT01103063|184653792|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93|STANDARD_DEVIATION|0.1817||0.7105|TWO_SIDED|95.0|0.65|1.33||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.33|0.65|0.7105
92375623|NCT01103063|184653793|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84|STANDARD_DEVIATION|0.1842||0.3468|TWO_SIDED|95.0|0.59|1.21||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.21|0.59|0.3468
92375624|NCT01103063|184653794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.02||0.0011|TWO_SIDED|95.0|-0.08|-0.02||Analysis based on an ANOVA model with model terms for treatment group and randomization stratification variable. A negative mean difference between treatment groups favors Azithromycin + Chloroquine (reduction in number of STIs).|ANOVA|||The 2-sided P-value tests the null hypothesis that the mean difference is 0 (treatment group equality) versus not equal 0.||-0.02|-0.08|0.0011
92375625|NCT01103063|184653795|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08|STANDARD_DEVIATION|0.0604||0.2265|TWO_SIDED|95.0|0.96|1.21||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.21|0.96|0.2265
92375626|NCT01103063|184653796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.05||0.0131|TWO_SIDED|95.0|-0.24|-0.03||Analysis based on an ANCOVA model with model terms for baseline value, treatment group and randomization stratification variable.|ANCOVA|||The 2-sided P-value tests the null hypothesis that the mean difference is 0 (treatment group equality) versus not equal 0.||-0.03|-0.24|0.0131
92375627|NCT01103063|184653797|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9|STANDARD_DEVIATION|0.2694||0.6978|TWO_SIDED|95.0|0.53|1.53||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its SE, with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.53|0.53|0.6978
92229464|NCT01993888|184361744|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92229465|NCT03124459|184361755|SUPERIORITY||Mean Difference (Final Values)|13.5|STANDARD_ERROR_OF_MEAN|5.2||0.01|TWO_SIDED|90.0|4.9|22.1|||ANCOVA|||||22.1|4.9|0.01
92229466|NCT03124459|184361756|SUPERIORITY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|2.2||0.16|TWO_SIDED|90.0|-6.8|0.6|||ANCOVA|||||0.6|-6.8|0.16
92375628|NCT01103063|184653798|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.14|STANDARD_DEVIATION|0.2908||0.6542|TWO_SIDED|95.0|0.64|2.01||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its SE, with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||2.01|0.64|0.6542
92375629|NCT01103063|184653799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|19.71||0.9145|TWO_SIDED|95.0|-36.5|40.8||Analysis based on an ANOVA model with model terms for treatment group and randomization stratification variable.|ANOVA|||The 2-sided P-value tests the null hypothesis that the mean difference is 0 (treatment group equality) versus not equal 0.||40.8|-36.5|0.9145
92375630|NCT01103063|184653800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.09|-0.04||Analysis based on an ANOVA model with model terms for treatment group and randomization stratification variable. A negative mean difference between treatment groups favors Azithromycin + Chloroquine (reduction in number of symptomatic malaria).|ANOVA|||The 2-sided P-value tests the null hypothesis that the mean difference is 0 (treatment group equality) versus not equal 0.||-0.04|-0.09|<0.0001
92375631|NCT01103063|184653801|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49|STANDARD_DEVIATION|0.1221|<|0.0001|TWO_SIDED|95.0|0.38|0.62||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.62|0.38|<0.0001
92375632|NCT01103063|184653802|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62|STANDARD_DEVIATION|0.2295||0.036|TWO_SIDED|95.0|0.39|0.97||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its SE, with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.97|0.39|0.0360
92375633|NCT01103063|184653803|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81|STANDARD_DEVIATION|0.163||0.1975|TWO_SIDED|95.0|0.59|1.12||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.12|0.59|0.1975
92375634|NCT01103063|184653804|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66|STANDARD_DEVIATION|0.5675||0.4655|TWO_SIDED|95.0|0.22|2.01||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its SE, with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||2.01|0.22|0.4655
92375635|NCT01103063|184653805|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75|STANDARD_DEVIATION|0.0918||0.0016|TWO_SIDED|95.0|0.62|0.9||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.90|0.62|0.0016
92375636|NCT01103063|184653806|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.34|STANDARD_DEVIATION|0.5338||0.1113|TWO_SIDED|95.0|0.82|6.66||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||6.66|0.82|0.1113
92375637|NCT01103063|184653807|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.25|STANDARD_DEVIATION|0.6386||0.0284|TWO_SIDED|95.0|0.07|0.86||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.86|0.07|0.0284
92375638|NCT01103063|184653808|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.46|STANDARD_DEVIATION|0.3291||0.0188|TWO_SIDED|95.0|0.24|0.88||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.88|0.24|0.0188
92446291|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.066||0.1054|TWO_SIDED|95.0|-0.02|0.24|||MMRM|||Loss of Weight, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.02|0.1054
92375639|NCT01103063|184653809|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77|STANDARD_DEVIATION|0.1336||0.0527|TWO_SIDED|95.0|0.59|1.0||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.00|0.59|0.0527
92375640|NCT01103063|184653810|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.73|STANDARD_DEVIATION|0.1536||0.0384|TWO_SIDED|95.0|0.54|0.98||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.98|0.54|0.0384
92375641|NCT01103063|184653811|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.09|STANDARD_DEVIATION|0.8648||0.3942|TWO_SIDED|95.0|0.38|11.38||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||11.38|0.38|0.3942
92375642|NCT01103063|184653812|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.39|STANDARD_DEVIATION|0.4439||0.0332|TWO_SIDED|95.0|0.16|0.93||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.93|0.16|0.0332
92375643|NCT01103063|184653813|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.61|STANDARD_DEVIATION|0.4195||0.2321|TWO_SIDED|95.0|0.27|1.38||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.38|0.27|0.2321
92375644|NCT01103063|184653814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.76||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for Visit 6 presented above.||||1.0000
92375645|NCT01103063|184653814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for Visit 7 presented above.||||1.0000
92375646|NCT01103063|184653815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for Visit 6 presented above.||||1.0000
92375647|NCT01103063|184653815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for Visit 7 presented above.||||1.0000
92375648|NCT05858450|184653816|OTHER||Weighted Hazard Ratio|1.108|||||TWO_SIDED|95.0|1.018|1.205||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an inverse probability of treatment weights (IPTW) was applied. Analysis performed using IPTW method.||1.205|1.018|
92375649|NCT05858450|184653816|OTHER||Weighted Hazard Ratio|0.634|||||TWO_SIDED|95.0|0.606|0.664||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.664|0.606|
92169135|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.1||0.7179|TWO_SIDED|95.0|-0.23|0.16|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.16|-0.23|0.7179
92375650|NCT05858450|184653817|OTHER||Weighted Hazard Ratio|1.061|||||TWO_SIDED|95.0|1.016|1.107||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.107|1.016|
92229467|NCT03124459|184361757|SUPERIORITY||Mean Difference (Final Values)|35.4|STANDARD_ERROR_OF_MEAN|23.5||0.13|TWO_SIDED|90.0|-3.2|74.0|||ANCOVA|||||74|-3.2|0.13
92229468|NCT03124459|184361758|SUPERIORITY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|5.5||0.73|TWO_SIDED|90.0|-7.1|10.9|||ANCOVA|||||10.9|-7.1|0.73
92375651|NCT05858450|184653817|OTHER||Weighted Hazard Ratio|0.897|||||TWO_SIDED|95.0|0.875|0.919||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.919|0.875|
92375652|NCT05858450|184653818|OTHER||Weighted Hazard Ratio|1.543|||||TWO_SIDED|95.0|1.133|2.1||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||2.1|1.133|
92375653|NCT05858450|184653818|OTHER||Weighted Hazard Ratio|1.106|||||TWO_SIDED|95.0|1.014|1.206||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.206|1.014|
92375654|NCT05858450|184653819|OTHER||Weighted Hazard Ratio|1.048|||||TWO_SIDED|95.0|0.903|1.217||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.217|0.903|
92375655|NCT05858450|184653819|OTHER||Weighted Hazard Ratio|0.908|||||TWO_SIDED|95.0|0.846|0.973||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.973|0.846|
92446292|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.088||0.0408|TWO_SIDED|95.0|0.01|0.36|||MMRM|||Loss of Weight, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.36|0.01|0.0408
92375656|NCT05858450|184653820|OTHER||Weighted Hazard Ratio|1.137|||||TWO_SIDED|95.0|1.068|1.211||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.211|1.068|
92375657|NCT05858450|184653820|OTHER||Weighted Hazard Ratio|1.057|||||TWO_SIDED|95.0|1.007|1.11||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.11|1.007|
92375658|NCT05858450|184653821|OTHER||Weighted Hazard Ratio|0.761|||||TWO_SIDED|95.0|0.718|0.807||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.807|0.718|
92375659|NCT05858450|184653821|OTHER||Weighted Hazard Ratio|0.858|||||TWO_SIDED|95.0|0.811|0.907||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.907|0.811|
92375660|NCT05858450|184653822|OTHER||Weighted Hazard Ratio|1.55|||||TWO_SIDED|95.0|0.88|2.731||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||2.731|0.88|
92375661|NCT05858450|184653822|OTHER||Weighted Hazard Ratio|1.035|||||TWO_SIDED|95.0|0.865|1.238||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.238|0.865|
92375662|NCT05858450|184653823|OTHER||Weighted Hazard Ratio|0.921|||||TWO_SIDED|95.0|0.687|1.233||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.233|0.687|
92375663|NCT05858450|184653823|OTHER||Weighted Hazard Ratio|0.826|||||TWO_SIDED|95.0|0.722|0.945||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.945|0.722|
92410376|NCT00947882|184711630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.2342||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 3. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 10 mg and Placebo at Month 3."|Analysis of Covariance (ANCOVA) of the change from baseline in IPSS at Month 3 in the FAS population using the Last Observation Carried Forward (LOCF) method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.2342
92446293|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.088||0.0233|TWO_SIDED|95.0|0.03|0.38|||MMRM|||Loss of Weight, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.38|0.03|0.0233
92229469|NCT03124459|184361759|SUPERIORITY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|4.7||0.51|TWO_SIDED|90.0|-4.6|10.9|||ANCOVA|||||10.9|-4.6|0.51
92375664|NCT05858450|184653824|OTHER||Weighted Hazard Ratio|1.569|||||TWO_SIDED|95.0|1.088|2.264||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||2.264|1.088|
92375665|NCT05858450|184653824|OTHER||Weighted Hazard Ratio|1.118|||||TWO_SIDED|95.0|1.015|1.233||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.233|1.015|
92375666|NCT05858450|184653825|OTHER||Weighted Hazard Ratio|1.082|||||TWO_SIDED|95.0|0.911|1.286||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.286|0.911|
92375667|NCT05858450|184653825|OTHER||Weighted Hazard Ratio|0.932|||||TWO_SIDED|95.0|0.859|1.01||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.01|0.859|
92375668|NCT02868034|184653880|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.025|TWO_SIDED|97.5|-0.26|0.22|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in stiffness when the component was used|SMT Component Main Effects at 4 weeks||0.22|-0.26|0.025
92375669|NCT02868034|184653880|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.025|TWO_SIDED|97.5|-0.43|0.09|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in stiffness when the component was used|SMT Component Main Effects after 12 weeks||0.09|-0.43|0.025
92375670|NCT02868034|184653880|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.025|TWO_SIDED|97.5|-0.11|0.38|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in stiffness when the component was used|Mobilizing Exercise Treatment Component Main Effects at 4 weeks||0.38|-0.11|0.025
92375671|NCT02868034|184653880|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.025|TWO_SIDED|97.5|-0.23|0.29|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in stiffness when the component was used|Mobilizing Exercise Component Main Effects at 12 weeks||0.29|-0.23|0.025
92375672|NCT02868034|184653880|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.025|TWO_SIDED|97.5|-0.45|0.04|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in stiffness when the component was used|Activating Exercise Component Main Effect at 4 weeks||0.04|-0.45|0.025
92375673|NCT02868034|184653880|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.025|TWO_SIDED|97.5|-0.45|0.07|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater change when the component was used|Activating Exercise Component Main Effect at 12 weeks||0.07|-0.45|0.025
92375674|NCT02868034|184653880|SUPERIORITY||interaction relative mean difference|-0.17||||0.025|TWO_SIDED|97.5|-0.66|0.32|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 4 weeks||0.32|-0.66|0.025
92375675|NCT02868034|184653880|SUPERIORITY||interaction relative mean difference|-0.1||||0.025|TWO_SIDED|97.5|-0.62|0.42|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 12 weeks||0.42|-0.62|0.025
92375676|NCT02868034|184653880|SUPERIORITY||interaction relative mean difference|0.13||||0.025|TWO_SIDED|97.5|-0.36|0.62|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 4 weeks||0.62|-0.36|0.025
92375677|NCT02868034|184653880|SUPERIORITY||interaction relative mean difference|0.5||||0.025|TWO_SIDED|97.5|-0.02|1.02|||Mixed Models Analysis|||||1.02|-0.02|0.025
92375678|NCT02868034|184653880|SUPERIORITY||interaction relative mean difference|-0.17||||0.025|TWO_SIDED|97.5|-0.66|0.32|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 4 weeks||0.32|-0.66|0.025
92375679|NCT02868034|184653880|SUPERIORITY||interaction relative mean difference|0.39||||0.025|TWO_SIDED|97.5|-0.13|0.91|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 12 weeks||0.91|-0.13|0.025
92375680|NCT02868034|184653880|SUPERIORITY||3-way interaction relative mean dif.|0.25||||0.025|TWO_SIDED|97.5|-0.24|0.74|||Mixed Models Analysis|||Three-way interaction effect of SMT, activating exercise and mobilizing exercise components after 4 weeks||0.74|-0.24|0.025
92375681|NCT02868034|184653880|SUPERIORITY||3-way interaction relative mean dif.|0.4||||0.025|TWO_SIDED|97.5|-0.12|0.92|||Mixed Models Analysis|||Three-way interaction effect of SMT, activating exercise and mobilizing exercise components after 12 weeks||0.92|-0.12|0.025
92375682|NCT02868034|184653881|SUPERIORITY||Mean Difference (Final Values)|-0.57||||0.025|TWO_SIDED|97.5|-2.67|1.52|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.||SMT Component Main Effects at 4 weeks|A positive value indicates greater improvement in muscle activation when the component was used|1.52|-2.67|0.025
92375683|NCT02868034|184653881|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.025|TWO_SIDED|97.5|-2.76|2.02|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A positive value indicates greater improvement in muscle activation when the component was used|SMT Component Main Effects at 12 weeks||2.02|-2.76|0.025
92375684|NCT02868034|184653881|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.025|TWO_SIDED|97.5|-2.03|2.16|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A positive value indicates greater improvement in muscle activation when the component was used|Mobilizing Component Main Effects at 4 weeks||2.16|-2.03|0.025
92375685|NCT02868034|184653881|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.025|TWO_SIDED|97.5|-1.68|3.11|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A positive value indicates greater improvement in muscle activation when the component was used|Mobilizing Component Main Effects at 12 weeks||3.11|-1.68|0.025
92169136|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.1||0.012|TWO_SIDED|95.0|-0.44|-0.05|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.44|0.0120
92375686|NCT02868034|184653881|SUPERIORITY||Mean Difference (Final Values)|-0.85||||0.025|TWO_SIDED|97.5|-2.94|1.25|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A positive value indicates greater improvement in muscle activation when the component was used|Activating Exercise Component at 4 weeks||1.25|-2.94|0.025
92375687|NCT02868034|184653881|SUPERIORITY||Mean Difference (Final Values)|-0.57||||0.025|TWO_SIDED|97.5|-2.97|1.82|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A positive value indicates greater improvement in muscle activation when the component was used|Activating Exercise Component at 12 weeks||1.82|-2.97|0.025
92375688|NCT02868034|184653881|SUPERIORITY||interaction relative mean difference|0.8||||0.025|TWO_SIDED|97.5|-3.39|4.99|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 4 weeks||4.99|-3.39|0.025
92375689|NCT02868034|184653881|SUPERIORITY||interaction relative mean difference|-0.68||||0.025|TWO_SIDED|97.5|-5.47|4.11|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 12 weeks||4.11|-5.47|0.025
92375690|NCT02868034|184653881|SUPERIORITY||interaction relative mean difference|-1.56||||0.025|TWO_SIDED|97.5|-5.75|2.63|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 4 weeks||2.63|-5.75|0.025
92375691|NCT02868034|184653881|SUPERIORITY||interaction relative mean difference|1.42||||0.025|TWO_SIDED|97.5|-3.37|6.21|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 12 weeks||6.21|-3.37|0.025
92375692|NCT02868034|184653881|SUPERIORITY||interaction relative mean difference|-0.44||||0.025|TWO_SIDED|97.5|-4.63|3.75|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 4 weeks||3.75|-4.63|0.025
92375693|NCT02868034|184653881|SUPERIORITY||interaction relative mean difference|2.01||||0.025|TWO_SIDED|97.5|-2.77|6.8|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 12 weeks||6.80|-2.77|0.025
92375694|NCT02868034|184653881|SUPERIORITY||3-way interaction relative mean dif.|-0.18||||0.025|TWO_SIDED|97.5|-4.37|4.01|||Mixed Models Analysis|||Three-way interaction effect of SMT, activating exercise and mobilizing exercise components after 4 weeks||4.01|-4.37|0.025
92375695|NCT02868034|184653881|SUPERIORITY||3-way interaction relative mean dif.|0.56||||0.025|TWO_SIDED|97.5|-4.22|5.35|||Mixed Models Analysis|||Three-way interaction effect of SMT, activating exercise and mobilizing exercise components after 12 weeks||5.35|-4.22|0.025
92229470|NCT03124459|184361764|SUPERIORITY||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|3.9||0.63|TWO_SIDED|90.0|-8.4|4.6|||ANCOVA|||||4.6|-8.4|0.63
92229471|NCT01903876|184361767|NON_INFERIORITY_OR_EQUIVALENCE|equivalence||||||0.044|||||||ANCOVA|||||||.044
92229472|NCT01903876|184361768|NON_INFERIORITY_OR_EQUIVALENCE|equivalence||||||0.042|||||||ANCOVA|||||||.042
92229473|NCT02300129|184361791|SUPERIORITY_OR_OTHER|||||||0.742|TWO_SIDED|||||P value associated to treatment effect in the model. Study design with a power of 80% and a type I error at 5% (two-sided).|ANOVA|Analysis of variance including sequence, subject (sequence), period and treatment as factors in the model||||||0.7420
92229474|NCT02747927|184361807|OTHER||VE|80.2|||<|0.001|TWO_SIDED|95.0|73.3|85.3||Statistical significance was concluded if the lower bound of the 95% CI for the VE was above 25%. Since the hypotheses was tested in a confirmatory manner at a 2-sided significance level of 5%, the calculated p-value was compared with 0.025.|Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Assuming true VE of 60% and, virologically confirmed cases of dengue fever induced by any dengue serotype occurring from 30 days post 2nd vaccination (Day 120) until end of Part 1 would provide at least 90% power to rule out vaccine effect of ≤25%.||85.3|73.3|<0.001
92229475|NCT02747927|184361808|OTHER||VE|90.4|||<|0.001|TWO_SIDED|95.0|82.6|94.7||Statistical significance was concluded if the lower bound of the 95% CI for the VE was above 0%. Since the hypotheses was tested in a confirmatory manner at a 2-sided significance level of 5%, the calculated p-value was compared with 0.025.|Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||94.7|82.6|<0.001
92229476|NCT02747927|184361809|OTHER||VE|69.8|||||TWO_SIDED|95.0|54.8|79.9|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||79.9|54.8|
92229477|NCT02747927|184361809|OTHER||VE|95.1|||||TWO_SIDED|95.0|89.9|97.6|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||97.6|89.9|
92229478|NCT02747927|184361809|OTHER||VE|48.8|||||TWO_SIDED|95.0|27.1|64.1|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||64.1|27.1|
92375696|NCT02868034|184653882|SUPERIORITY||Mean Difference (Final Values)|-1.16||||0.025|TWO_SIDED|97.5|-4.0|1.68|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|SMT Treatment Component Main Effect at 4-weeks||1.68|-4.0|0.025
92375697|NCT02868034|184653882|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.025|TWO_SIDED|97.5|-3.46|3.07|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|SMT Treatment Component Main Effect at 12-weeks||3.07|-3.46|0.025
92375698|NCT02868034|184653882|SUPERIORITY||Mean Difference (Final Values)|-1.36||||0.025|TWO_SIDED|97.5|-4.2|1.48|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|Mobilizing Exercise Treatment Component main effect after 4-weeks||1.48|-4.2|0.025
92410377|NCT00947882|184711631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.62||||0.0367||||||P-values based on Williams' extended trend test of comparison vs. placebo at Month 4. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 30 mg and Placebo at Month 4."|ANCOVA of the change from baseline in IPSS at Months 4 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.0367
92229479|NCT02747927|184361809|OTHER||VE|50.9|||||TWO_SIDED|95.0|-69.7|85.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||85.8|-69.7|
92229480|NCT02747927|184361810|OTHER||VE|66.2|||||TWO_SIDED|95.0|49.1|77.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||77.5|49.1|
92375699|NCT02868034|184653882|SUPERIORITY||Mean Difference (Final Values)|-1.72||||0.025|TWO_SIDED|97.5|-4.99|1.55|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|Mobilizing Exercise Treatment Component main effect after 12-weeks||1.55|-4.99|0.025
92375700|NCT02868034|184653882|SUPERIORITY||Mean Difference (Final Values)|-2.34||||0.025|TWO_SIDED|97.5|-5.18|0.5|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|Activating Exercise Treatment Component main effect after 4-weeks||0.50|-5.18|0.025
92229481|NCT02747927|184361811|OTHER||VE|76.1|||||TWO_SIDED|95.0|68.5|81.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||81.9|68.5|
92229482|NCT02747927|184361812|OTHER||VE|2.2|||||TWO_SIDED|95.0|-978.5|91.1|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||91.1|-978.5|
92229483|NCT02747927|184361821|OTHER||VE|47.4|||||TWO_SIDED|95.0|37.1|56.0|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region|||56.0|37.1|
92169137|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.11||0.5372|TWO_SIDED|95.0|-0.28|0.15|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.15|-0.28|0.5372
92169138|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.11||0.0899|TWO_SIDED|95.0|-0.4|0.03|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.03|-0.40|0.0899
92169139|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.13||0.7646|TWO_SIDED|95.0|-0.3|0.22|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.22|-0.30|0.7646
92229484|NCT02747927|184361822|OTHER||VE|55.7|||||TWO_SIDED|95.0|34.5|70.0|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||70.0|34.5|
92229485|NCT02747927|184361823|OTHER||VE|73.5|||||TWO_SIDED|95.0|56.3|83.9|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||83.9|56.3|
92229486|NCT02747927|184361824|OTHER||VE|93.7|||||TWO_SIDED|95.0|72.4|98.6|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||98.6|72.4|
92229487|NCT02747927|184361825|OTHER||VE|79.4|||||TWO_SIDED|95.0|70.1|85.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||85.9|70.1|
92229488|NCT02747927|184361826|OTHER||VE|76.8|||||TWO_SIDED|95.0|57.1|87.4|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||87.4|57.1|
92229489|NCT02747927|184361826|OTHER||VE|85.7|||||TWO_SIDED|95.0|69.9|93.2|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||93.2|69.9|
92229490|NCT02747927|184361826|OTHER||VE|62.0|||||TWO_SIDED|95.0|-69.7|91.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||91.5|-69.7|
92375701|NCT02868034|184653882|SUPERIORITY||Mean Difference (Final Values)|-3.62||||0.025|TWO_SIDED|97.5|-6.89|-0.35|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|Activating Treatment Component Main Effect after 12-weeks||-0.35|-6.89|0.025
92375702|NCT02868034|184653882|SUPERIORITY||interaction relative mean difference|3.24||||0.025|TWO_SIDED|97.5|-2.45|8.92|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 4 weeks||8.92|-2.45|0.025
92375703|NCT02868034|184653882|SUPERIORITY||interaction relative mean difference|4.34||||0.025|TWO_SIDED|97.5|-2.19|10.87|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 12 weeks||10.87|-2.19|0.025
92375704|NCT02868034|184653882|SUPERIORITY||interaction relative mean difference|0.57||||0.025|TWO_SIDED|97.5|-5.12|6.25|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 4 weeks||6.25|-5.12|0.025
92375705|NCT02868034|184653882|SUPERIORITY||interaction relative mean difference|-0.67||||0.025|TWO_SIDED|97.5|-7.2|5.87|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 12 weeks||5.87|-7.20|0.025
92375706|NCT02868034|184653882|SUPERIORITY||interaction relative mean difference|4.64||||0.025|TWO_SIDED|97.5|-1.04|10.32|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 4 weeks||10.32|-1.04|0.025
92375707|NCT02868034|184653882|SUPERIORITY||interaction relative mean difference|1.49||||0.025|TWO_SIDED|97.5|-5.04|8.02|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 12 weeks||8.02|-5.04|0.025
92375708|NCT02868034|184653882|SUPERIORITY||3-way interaction relative mean dif.|-0.86||||0.025|TWO_SIDED|97.5|-6.54|4.82|||Mixed Models Analysis|||3-way interaction effect of SMT, activating exercise and mobilizing exercise components after 4 weeks||4.82|-6.54|0.025
92375709|NCT02868034|184653882|SUPERIORITY||3-way interaction relative mean dif.|0.04||||0.025|TWO_SIDED|97.5|-6.5|6.57|||Mixed Models Analysis|||3-way interaction effect of SMT, activating exercise and mobilizing exercise components after 12 weeks||6.57|-6.50|0.025
92375710|NCT02868034|184653883|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.025|TWO_SIDED|97.5|-0.6|0.32|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|SMT Treatment Component Main Effect at 4-weeks||0.32|-0.60|0.025
92375711|NCT02868034|184653883|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.025|TWO_SIDED|97.5|-0.44|0.61|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|SMT Treatment Component Main Effects at 12 weeks||0.61|-0.44|0.025
92375712|NCT02868034|184653883|SUPERIORITY||Mean Difference (Final Values)|-0.46||||0.025|TWO_SIDED|97.5|-0.92|0.0|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|Mobilizing Exercise Component Main Effects at 4 weeks||0.0|-0.92|0.025
92375713|NCT02868034|184653883|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.025|TWO_SIDED|97.5|-0.7|0.34|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|Mobilizing Exercise Component Main Effects at 12 weeks||0.34|-0.70|0.025
92375714|NCT02868034|184653883|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.025|TWO_SIDED|97.5|-0.62|0.3|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|Activating Exercise Component Main Effects at 4 weeks||0.30|-0.62|0.025
92375715|NCT02868034|184653883|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.025|TWO_SIDED|97.5|-0.71|0.33|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|Activating Exercise Component Main Effects at 12 weeks||0.33|-0.71|0.025
92375716|NCT02868034|184653883|SUPERIORITY||interaction relative mean difference|0.38||||0.025|TWO_SIDED|97.5|-0.54|1.3|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 4 weeks||1.30|-0.54|0.025
92375717|NCT02868034|184653883|SUPERIORITY||interaction relative mean difference|0.45||||0.025|TWO_SIDED|97.5|-0.6|1.49|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 12 weeks||1.49|-0.60|0.025
92375718|NCT02868034|184653883|SUPERIORITY||interaction relative mean difference|0.12||||0.025|TWO_SIDED|97.5|-0.8|1.04|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 4 weeks||1.04|-0.80|0.025
92375719|NCT02868034|184653883|SUPERIORITY||interaction relative mean difference|0.23||||0.025|TWO_SIDED|97.5|-0.81|1.28|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 12 weeks||1.28|-0.81|0.025
92375720|NCT02868034|184653883|SUPERIORITY||interaction relative mean difference|0.89||||0.025|TWO_SIDED|97.5|-0.03|1.81|||Mixed Models Analysis|||||1.81|-0.03|0.025
92375721|NCT02868034|184653883|SUPERIORITY||interaction relative mean difference|-0.02||||0.025|TWO_SIDED|97.5|-1.07|1.02|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 12 weeks||1.02|-1.07|0.025
92375722|NCT02868034|184653883|SUPERIORITY||3-way interaction relative mean dif.|0.71||||0.025|TWO_SIDED|97.5|-0.21|1.63|||Mixed Models Analysis|||3-way interaction effect of SMT, activating exercise and mobilizing exercise components after 4 weeks||1.63|-0.21|0.025
92375723|NCT02868034|184653883|SUPERIORITY||3-way interaction relative mean dif.|0.0||||0.025|TWO_SIDED|97.5|-1.05|1.04|||Mixed Models Analysis|||3-way interaction effect of SMT, activating exercise and mobilizing exercise components after 12 weeks||1.04|-1.05|0.025
92375724|NCT01035346|184653885|SUPERIORITY_OR_OTHER||Least-squares (LS) mean difference|8.33||||0.228|TWO_SIDED|95.0|-7.94|24.6||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95 percent (%) confidence interval (CI) were calculated based on Least-squares (LS) means from the Analysis of Variance (ANOVA) model.||24.60|-7.94|0.228
92375725|NCT01035346|184653886|SUPERIORITY_OR_OTHER||LS mean difference|5.99||||0.171|TWO_SIDED|95.0|-3.99|15.97||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||STEMPD 0-4: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||15.97|-3.99|0.171
92375726|NCT01035346|184653886|SUPERIORITY_OR_OTHER||LS mean difference|8.96||||0.354|TWO_SIDED|95.0|-14.78|32.69||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||STEMPD 0-8: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||32.69|-14.78|0.354
92375727|NCT01035346|184653887|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.576|TWO_SIDED|95.0|-0.84|0.54||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.54|-0.84|0.576
92410378|NCT00947882|184711631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97||||0.0231||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 4. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 20 mg and Placebo at Month 4."|ANCOVA of the change from baseline in IPSS at Month 4 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.0231
92375728|NCT01035346|184653887|SUPERIORITY_OR_OTHER||LS mean difference|0.18||||0.502|TWO_SIDED|95.0|-0.5|0.87||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.87|-0.50|0.502
92375729|NCT01035346|184653887|SUPERIORITY_OR_OTHER||LS mean difference|1.31||||0.116|TWO_SIDED|95.0|-0.51|3.12||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.12|-0.51|0.116
92229491|NCT02747927|184361826|OTHER||VE|77.2|||||TWO_SIDED|95.0|54.8|88.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||88.5|54.8|
92229492|NCT02747927|184361827|OTHER||VE|79.2|||||TWO_SIDED|95.0|57.8|89.7|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||89.7|57.8|
92229493|NCT02747927|184361827|OTHER||VE|86.0|||||TWO_SIDED|95.0|57.6|95.4|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||95.4|57.6|
92229494|NCT02747927|184361827|OTHER||VE|89.9|||||TWO_SIDED|95.0|13.5|98.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||98.8|13.5|
92229495|NCT02747927|184361827|OTHER||VE|42.7|||||TWO_SIDED|95.0|-307.5|92.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||92.0|-307.5|
92229496|NCT02747927|184361827|OTHER||VE|61.0|||||TWO_SIDED|95.0|-45.1|89.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||89.5|-45.1|
92229497|NCT02747927|184361828|OTHER||VE|79.6|||||TWO_SIDED|95.0|68.3|86.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||86.9|68.3|
92229498|NCT02747927|184361828|OTHER||VE|69.9|||||TWO_SIDED|95.0|36.4|85.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||85.8|36.4|
92229499|NCT02747927|184361828|OTHER||VE|84.9|||||TWO_SIDED|95.0|66.6|93.2|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||93.2|66.6|
92229500|NCT02747927|184361828|OTHER||VE|75.6|||||TWO_SIDED|95.0|-168.8|97.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||97.8|-168.8|
92229501|NCT02747927|184361828|OTHER||VE|81.0|||||TWO_SIDED|95.0|57.2|91.6|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||91.6|57.2|
92229502|NCT02747927|184361829|OTHER||VE|93.8|||||TWO_SIDED|95.0|79.3|98.1|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||98.1|79.3|
92229503|NCT02747927|184361830|OTHER||VE|100.0|||||TWO_SIDED|95.0|-849.4|100.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||100.0|-849.4|
92229504|NCT02747927|184361831|OTHER||VE|67.2|||||TWO_SIDED|95.0|52.1|77.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||77.5|52.1|
92229505|NCT02747927|184361832|OTHER||VE|56.5|||||TWO_SIDED|95.0|16.2|77.4|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||77.4|16.2|
92375730|NCT01035346|184653887|SUPERIORITY_OR_OTHER||LS mean difference|1.58||||0.161|TWO_SIDED|95.0|-0.98|4.14||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.14|-0.98|0.161
92375731|NCT01035346|184653887|SUPERIORITY_OR_OTHER||LS mean difference|1.87||||0.215|TWO_SIDED|95.0|-1.66|5.41||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||5.41|-1.66|0.215
92229506|NCT02747927|184361832|OTHER||VE|86.6|||||TWO_SIDED|95.0|63.8|95.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||95.0|63.8|
92229507|NCT02747927|184361832|OTHER||VE|51.5|||||TWO_SIDED|95.0|9.9|73.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||73.9|9.9|
92229508|NCT02747927|184361832|OTHER||VE|85.5|||||TWO_SIDED|95.0|47.4|96.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||96.0|47.4|
92229509|NCT02747927|184361833|OTHER||VE|70.3|||||TWO_SIDED|95.0|39.1|85.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||85.5|39.1|
92229510|NCT02747927|184361833|OTHER||VE|57.3|||||TWO_SIDED|95.0|-27.2|85.7|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||85.7|-27.2|
92229511|NCT02747927|184361833|OTHER||VE|90.0|||||TWO_SIDED|95.0|14.0|98.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||98.8|14.0|
92410379|NCT00947882|184711631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.1638||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 4. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 10 mg and Placebo at Month 4."|ANCOVA of the change from baseline in IPSS at Month 4 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.1638
92229512|NCT02747927|184361833|OTHER||VE|36.1|||||TWO_SIDED|95.0|-138.1|82.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||82.9|-138.1|
92375732|NCT01035346|184653887|SUPERIORITY_OR_OTHER||LS mean difference|1.17||||0.388|TWO_SIDED|95.0|-2.18|4.52||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.52|-2.18|0.388
92375733|NCT01035346|184653887|SUPERIORITY_OR_OTHER||LS mean difference|0.31||||0.849|TWO_SIDED|95.0|-3.98|4.61||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.61|-3.98|0.849
92229513|NCT02747927|184361833|OTHER||VE|100.0|||||TWO_SIDED|95.0|43.1|100.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||100.0|43.1|
92229514|NCT02747927|184361834|OTHER||VE|65.7|||||TWO_SIDED|95.0|46.4|78.1|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||78.1|46.4|
92229515|NCT02747927|184361834|OTHER||VE|56.2|||||TWO_SIDED|95.0|0.8|80.7|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||80.7|0.8|
92229516|NCT02747927|184361834|OTHER||VE|85.1|||||TWO_SIDED|95.0|54.4|95.2|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||95.2|54.4|
92375734|NCT01035346|184653889|SUPERIORITY_OR_OTHER||difference in proportion|11.11||||0.378|TWO_SIDED|95.0|-10.67|32.89||p-value was calculated using CMH general association test using table scores. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen sodium-Placebo) and its associated CI were calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportion and the corresponding standard errors.||32.89|-10.67|0.378
92410380|NCT00947882|184711631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.1941||||||P-values based on Williams' extended trend test of comparisons vs. placebo at Month 5. No adjustment for multiple comparison was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 30 mg and Placebo at Month 5."|ANCOVA of the change from baseline in IPSS at Month 5 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.1941
92410381|NCT00947882|184711631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54||||0.1083||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 5. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 20 mg and Placebo at Month 5."|ANCOVA of the change from baseline in IPSS at Month 5 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.1083
92229517|NCT02747927|184361834|OTHER||VE|54.7|||||TWO_SIDED|95.0|8.3|77.6|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||77.6|8.3|
92229518|NCT02747927|184361834|OTHER||VE|75.5|||||TWO_SIDED|95.0|2.2|93.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||93.9|2.2|
92229519|NCT02747927|184361835|OTHER||VE|84.9|||||TWO_SIDED|95.0|53.7|95.1|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||95.1|53.7|
92229520|NCT02747927|184361837|OTHER||VE|74.3|||||TWO_SIDED|95.0|66.6|80.3|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||80.3|66.6|
92229521|NCT02747927|184361838|OTHER||VE|69.0|||||TWO_SIDED|95.0|51.7|80.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||80.0|51.7|
92375735|NCT01035346|184653890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.324|TWO_SIDED|95.0|-0.3|1.27||p-value was calculated using CMH test with modified ridit scores. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Ibuprofen sodium-Placebo) and the associated CI were calculated based on the weighted Gamma statistic.||1.27|-0.30|0.324
92410382|NCT00947882|184711631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95||||0.2782||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 5. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 10 mg and Placebo at Month 5."|ANCOVA of the change from baseline in IPSS at Month 5 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.2782
92410383|NCT00947882|184711631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15||||0.1562||||||P-values based on Williams' extended trend test of comparison vs. placebo at Month 6. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 30 mg and Placebo at Month 6."|ANCOVA of the change from baseline in IPSS at Month 6 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.1562
92375736|NCT01035346|184653891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53||||0.21|TWO_SIDED|95.0|-0.12|1.18||p-value was calculated using CMH test with modified ridit scores. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Ibuprofen sodium-Placebo) and the associated CI were calculated based on the weighted Gamma statistic.||1.18|-0.12|0.210
92375737|NCT01459653|184653897|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.884||||0.3038|TWO_SIDED|95.0|0.6989|1.1182|||Chi-squared|||||1.1182|0.6989|0.3038
92375738|NCT01459653|184653898|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1897||||0.1432|TWO_SIDED|95.0|0.9428|1.5012|||Chi-squared|||||1.5012|0.9428|0.1432
92375739|NCT01459653|184653899|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8794||||0.6483|TWO_SIDED|95.0|0.5063|1.5276|||Chi-squared|||||1.5276|0.5063|0.6483
92375740|NCT01459653|184653909|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2989|||<|0.0001|TWO_SIDED|95.0|1.8113|2.9177|||Chi-squared|||||2.9177|1.8113|<0.0001
92375741|NCT01459653|184653910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4963|||<|0.0001|TWO_SIDED|95.0|0.373|0.6605|||Chi-squared|||||0.6605|0.3730|<0.0001
92375742|NCT01459653|184653911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9451||||0.7509|TWO_SIDED|95.0|0.6671|1.3391|||Chi-squared|||||1.3391|0.6671|0.7509
92375743|NCT01459653|184653912|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2683||||0.0067|TWO_SIDED|95.0|1.068|1.5061|||Chi-squared|||||1.5061|1.0680|0.0067
92375744|NCT01459653|184653920|SUPERIORITY_OR_OTHER||Slope|1.0628|||<|0.0001|TWO_SIDED|95.0|0.6382|1.4874|||ANOVA|degrees of freedom: 4507||||1.4874|0.6382|<0.0001
92375745|NCT01459653|184653921|SUPERIORITY_OR_OTHER||Slope|-0.2739||||0.0103|TWO_SIDED|95.0|-0.4832|-0.0646|||ANOVA|degrees of freedom: 4507||||-0.0646|-0.4832|0.0103
92375746|NCT01459653|184653922|SUPERIORITY_OR_OTHER||Slope|0.3812|||<|0.0001|TWO_SIDED|95.0|0.233|0.5295|||ANOVA|degrees of freedom: 4495||||0.5295|0.2330|<0.0001
92375747|NCT01459653|184653930|SUPERIORITY_OR_OTHER||Slope|0.1031||||0.0677|TWO_SIDED|95.0|-0.0075|0.2136|||ANOVA|degrees of freedom: 4516||||0.2136|-0.0075|0.0677
92375748|NCT01459653|184653931|SUPERIORITY_OR_OTHER||Slope|0.0018||||0.8968|TWO_SIDED|95.0|-0.0259|0.0295|||ANOVA|degrees of freedom: 4516||||0.0295|-0.0259|0.8968
92375749|NCT01459653|184653932|SUPERIORITY_OR_OTHER||Slope|0.0741|||<|0.0001|TWO_SIDED|95.0|-0.0452|0.1029|||ANOVA|degrees of freedom: 4505||||0.1029|-0.0452|<0.0001
92375750|NCT01459653|184653940|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.735||||0.2698|TWO_SIDED|95.0|0.4255|1.2698|||Chi-squared|||||1.2698|0.4255|0.2698
92375751|NCT01459653|184653941|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Chi-squared|||||||<0.0001
92375752|NCT01459653|184653958|SUPERIORITY_OR_OTHER|||||||0.5977|TWO_SIDED||||||Log Rank|||||||0.5977
92375753|NCT01459653|184653959|SUPERIORITY_OR_OTHER|||||||0.2435|TWO_SIDED||||||Log Rank|||||||0.2435
92375754|NCT01459653|184653960|SUPERIORITY_OR_OTHER|||||||0.763|TWO_SIDED||||||Log Rank|||||||0.7630
92375755|NCT01459653|184653961|SUPERIORITY_OR_OTHER|||||||0.383|TWO_SIDED||||||Log Rank|||||||0.3830
92375756|NCT01459653|184653962|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Log Rank|||||||0.0002
92375757|NCT01459653|184653963|SUPERIORITY_OR_OTHER|||||||0.0301|TWO_SIDED||||||Log Rank|||||||0.0301
92375758|NCT01459653|184653964|SUPERIORITY_OR_OTHER||Slope|0.92||||0.0683|TWO_SIDED|95.0|0.84|1.01|||Regression, Logistic|degrees of freedom: 3181||GCSF treatment decision (under vs correct) as predictor for ANC||1.01|0.84|0.0683
92375759|NCT01459653|184653964|SUPERIORITY_OR_OTHER||Slope|0.89||||0.0019|TWO_SIDED|95.0|0.82|0.96|||Regression, Logistic|degrees of freedom: 3181||GCSF decision (Over vs correct) as predictor for ANC||0.96|0.82|0.0019
92375760|NCT01459653|184653964|SUPERIORITY_OR_OTHER||Slope|1.04||||0.4469|TWO_SIDED|95.0|0.94|1.15|||Regression, Logistic|degrees of freedom: 3181||GCSF decision (Under vs over) as predictor for ANC||1.15|0.94|0.4469
92375761|NCT01459653|184653964|SUPERIORITY_OR_OTHER||Slope|1.11||||0.0079|TWO_SIDED|95.0|1.03|1.19|||Regression, Logistic|||Study drug dose (higher vs lower) as predictor for ANC||1.19|1.03|0.0079
92375762|NCT01459653|184653964|SUPERIORITY_OR_OTHER||Slope|0.81||||0.0004|TWO_SIDED|95.0|0.72|0.91|||Regression, Logistic|||Tumor type (hematological vs solid) as predictor for ANC||0.91|0.72|0.0004
92375763|NCT01459653|184653964|SUPERIORITY_OR_OTHER||Slope|0.86|||<|0.0001|TWO_SIDED|95.0|0.8|0.92|||Regression, Logistic|||Patient gender (female vs male) as predictor for ANC||0.92|0.80|<0.0001
92375764|NCT01459653|184653964|SUPERIORITY_OR_OTHER||Slope|1.04||||0.0235|TWO_SIDED|95.0|1.01|1.08|||Regression, Linear|||ECOG (per 1 point) as predictor for ANC||1.08|1.01|0.0235
92375765|NCT01459653|184653964|SUPERIORITY_OR_OTHER||Slope|1.03|||<|0.0001|TWO_SIDED|95.0|1.02|1.05|||Regression, Linear|||Hb (per g/dL) as predictor for ANC||1.05|1.02|<0.0001
92229522|NCT02747927|184361838|OTHER||VE|85.9|||||TWO_SIDED|95.0|74.5|92.2|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||92.2|74.5|
92375766|NCT01459653|184653965|SUPERIORITY_OR_OTHER||Intra-class correlation coefficient|0.09||||0.0003|TWO_SIDED||||||ANCOVA||The intra-class correlation coefficient (ICC) was computed to quantify the variability in patient outcome attributable to within-center variability before any patient-level determinants are considered.|ANCOVA model was used taking into account center, patient within center-level and within-patient level (over time). This appendix describes the center-level.||||0.0003
92229523|NCT02747927|184361838|OTHER||VE|54.1|||||TWO_SIDED|95.0|19.1|73.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||73.9|19.1|
92229524|NCT02747927|184361838|OTHER||VE|79.4|||||TWO_SIDED|95.0|62.4|88.7|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||88.7|62.4|
92229525|NCT02747927|184361839|OTHER||VE|75.3|||||TWO_SIDED|95.0|59.3|85.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||85.0|59.3|
92375767|NCT01459653|184653965|SUPERIORITY_OR_OTHER||Intra-class correlation coefficient|0.41|||<|0.0001|TWO_SIDED||||||ANCOVA|||ANCOVA model was used taking into account center, patient within center-level and within-patient level (over time). This appendix describes the patient within center-level.||||<0.0001
92375768|NCT01459653|184653965|SUPERIORITY_OR_OTHER||Intra-class correlation coefficient|0.5|||<|0.0001|TWO_SIDED||||||ANCOVA|||ANCOVA model was used taking into account center, patient within center-level and within-patient level (over time). This appendix describes the within-patient level.||||<0.0001
92375769|NCT01459653|184653970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.544||||0.003|TWO_SIDED|95.0|0.365|0.812|||Regression, Logistic|||GIS (1 vs. 0) as cycle-level predictor for CIN grade 4 episode||0.812|0.365|0.003
92375770|NCT01459653|184653970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.795|||<|0.001|TWO_SIDED|95.0|3.242|7.092|||Regression, Logistic|||Concomitant antibiotic prophylaxis as cycle-level predictor for CIN grade 4 episode||7.092|3.242|<0.001
92375771|NCT01459653|184653970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.083|||<|0.001|TWO_SIDED|95.0|3.242|7.092|||Regression, Logistic|||CIN1/4 in previous cycle as cycle-level predictor for CIN grade 4 episode||7.092|3.242|<0.001
92375772|NCT01459653|184653970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.46|||<|0.001|TWO_SIDED|95.0|1.542|3.925|||Regression, Logistic|||History of CIN Grade 4 at enrollment as patient-level predictor for CIN grade 4 episode||3.925|1.542|<0.001
92375773|NCT01459653|184653970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.452||||0.003|TWO_SIDED|95.0|0.267|0.766|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for CIN grade 4 episode||0.766|0.267|0.003
92375774|NCT01459653|184653971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.925||||0.001|TWO_SIDED|95.0|1.592|5.374|||Regression, Logistic|||History of CIN Grade 4 at enrollment as patient-level predictor for CIN grade 4 episode||5.374|1.592|0.001
92375775|NCT01459653|184653971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.572||||0.005|TWO_SIDED|95.0|1.331|4.969|||Regression, Logistic|||Concomitant antibiotic prophylaxis as patient-level predictor for CIN grade 4 episode||4.969|1.331|0.005
92375776|NCT01459653|184653971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.328|||<|0.001|TWO_SIDED|95.0|0.193|0.557|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for CIN grade 4 episode||0.557|0.193|<0.001
92375777|NCT01459653|184653972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.673|||<|0.001|TWO_SIDED|95.0|1.284|2.179|||Regression, Logistic|||ECOG score (per 1 point) as cycle-level predictor for FN episode||2.179|1.284|<0.001
92375778|NCT01459653|184653972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.704|||<|0.001|TWO_SIDED|95.0|2.777|7.968|||Regression, Logistic|||Concomitant antibiotic prophylaxis as cycle-level predictor for FN episode||7.968|2.777|<0.001
92375779|NCT01459653|184653972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.002|TWO_SIDED|95.0|1.342|3.574|||Regression, Logistic|||CIN1/4 in previous cycle as cycle-level predictor for FN episode||3.574|1.342|0.002
92375780|NCT01459653|184653972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.215||||0.01|TWO_SIDED|95.0|0.067|0.687|||Regression, Logistic|||History of anaemia at enrollment as patient-level predictor for FN episode||0.687|0.067|0.010
92375781|NCT01459653|184653972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.501||||0.025|TWO_SIDED|95.0|1.169|10.487|||Regression, Logistic|||Under- vs. over-prophylacted as patient-level predictor for FN episode||10.487|1.169|0.025
92375782|NCT01459653|184653973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.975||||0.003|TWO_SIDED|95.0|0.958|0.991|||Regression, Logistic|||Patient age (per 1 year) as patient-level predictor for FN episode||0.991|0.958|0.003
92375783|NCT01459653|184653973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.398|||<|0.001|TWO_SIDED|95.0|1.61|3.57|||Regression, Logistic|||ECOG ≥2 during study as patient-level predictor for FN episode||3.570|1.610|<0.001
92375784|NCT01459653|184653973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.562||||0.001|TWO_SIDED|95.0|1.45|4.527|||Regression, Logistic|||Concomitant antibiotic prophylaxis as patient-level predictor for FN episode||4.527|1.450|0.001
92375785|NCT01459653|184653973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.232|||<|0.001|TWO_SIDED|95.0|0.108|0.499|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for FN episode||0.499|0.108|<0.001
92375786|NCT01459653|184653973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.261||||0.011|TWO_SIDED|95.0|1.315|8.084|||Regression, Logistic|||Under- vs. over-prophylacted as patient-level predictor for FN episode||8.084|1.315|0.011
92375787|NCT01459653|184653974|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.814|||<|0.001|TWO_SIDED|95.0|1.397|2.355|||Regression, Logistic|||ECOG score (per 1 point) as cycle-level predictor for CIN/FN-related hospitalization||2.355|1.397|<0.001
92375788|NCT01459653|184653974|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.296|||<|0.001|TWO_SIDED|95.0|1.791|6.065|||Regression, Logistic|||Concomitant antibiotic prophylaxis as cycle-level predictor for CIN/FN-related hospitalization||6.065|1.791|<0.001
92375789|NCT01459653|184653974|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.205||||0.001|TWO_SIDED|95.0|1.38|3.524|||Regression, Logistic|||CIN1/4 in previous cycles as cycle-level predictor for CIN/FN-related hospitalization||3.524|1.380|0.001
92375790|NCT01459653|184653974|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.863||||0.032|TWO_SIDED|95.0|1.054|3.293|||Regression, Logistic|||Under- vs. correctly prophylacted as patient-level predictor for CIN/FN-related hospitalization||3.293|1.054|0.032
92375791|NCT01459653|184653974|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.385||||0.024|TWO_SIDED|95.0|0.168|0.879|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for CIN/FN-related hospitalization||0.879|0.168|0.024
92229526|NCT02747927|184361839|OTHER||VE|76.5|||||TWO_SIDED|95.0|50.0|88.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||88.9|50.0|
92375792|NCT01459653|184653974|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.843||||0.001|TWO_SIDED|95.0|1.964|11.942|||Regression, Logistic|||Under- vs. over-prophylacted as patient-level predictor for CIN/FN-related hospitalization||11.942|1.964|0.001
92375793|NCT01459653|184653975|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.473|||<|0.001|TWO_SIDED|95.0|1.55|3.946|||Regression, Logistic|||ECOG ≥2 during study as patient-level predictor for CIN/FN-related hospitalization||3.946|1.550|<0.001
92375794|NCT01459653|184653975|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.382||||0.002|TWO_SIDED|95.0|0.21|0.695|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for CIN/FN-related hospitalization||0.695|0.210|0.002
92375795|NCT01459653|184653975|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.108||||0.001|TWO_SIDED|95.0|1.56|6.192|||Regression, Logistic|||Under- vs. over-prophylacted as patient-level predictor for CIN/FN-related hospitalization||6.192|1.560|0.001
92375796|NCT01459653|184653976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.931|||<|0.001|TWO_SIDED|95.0|5.426|14.699|||Regression, Logistic|||CIN1/4 in previous cycle as cycle-level predictor for CIN/FN-related chemotherapy disturbance||14.699|5.426|<0.001
92375797|NCT01459653|184653976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.336||||0.007|TWO_SIDED|95.0|0.152|0.74|||Regression, Logistic|||Hematological cancer (vs. oncologic) as patient-level predictor for CIN/FN-related chemotherapy disturbance||0.740|0.152|0.007
92375798|NCT01459653|184653976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.999||||0.006|TWO_SIDED|95.0|0.999|1.0|||Regression, Logistic|||Cancer patients seen in 2009 (per 1 patient) as center-level predictor for CIN/FN-related chemotherapy disturbance||1.000|0.999|0.006
92375799|NCT01459653|184653976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.001|||<|0.001|TWO_SIDED|95.0|1.0|1.001|||Regression, Logistic|||Chemotherapy-treated cancer patients in 2009 (per 1 patient) as center-level predictor for CIN/FN-related chemotherapy disturbance||1.001|1.000|<0.001
92375800|NCT01459653|184653976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.456||||0.024|TWO_SIDED|95.0|1.127|5.353|||Regression, Logistic|||Center type: academic vs non-academic as center-level predictor for CIN/FN-related chemotherapy disturbance||5.353|1.127|0.024
92375801|NCT01459653|184653976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.344||||0.01|TWO_SIDED|95.0|1.342|8.331|||Regression, Logistic|||Center type: academic-affiliated vs non-academic as center-level predictor for CIN/FN-related chemotherapy disturbance||8.331|1.342|0.010
92375802|NCT01459653|184653977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.965||||0.006|TWO_SIDED|95.0|1.218|3.172|||Regression, Logistic|||Female gender as patient-level predictor for CIN/FN-related chemotherapy disturbance||3.172|1.218|0.006
92375803|NCT01459653|184653977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.594||||0.001|TWO_SIDED|95.0|1.469|4.581|||Regression, Logistic|||History of CIN4 at enrollment as patient-level predictor for CIN/FN-related chemotherapy disturbance||4.581|1.469|0.001
92375804|NCT01459653|184653978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.002|TWO_SIDED|95.0|0.424|0.821|||Regression, Logistic|||GIS (1 vs. 0) as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||0.821|0.424|0.002
92375805|NCT01459653|184653978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.644||||0.003|TWO_SIDED|95.0|0.489|0.859|||Regression, Logistic|||Zarzio duration: 4-5 days vs. 6 or more as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||0.859|0.489|0.003
92375806|NCT01459653|184653978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.579||||0.004|TWO_SIDED|95.0|0.398|0.842|||Regression, Logistic|||Zarzio duration: 1-3 days vs. 6 or more as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||0.842|0.398|0.004
92375807|NCT01459653|184653978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.369||||0.001|TWO_SIDED|95.0|1.14|1.643|||Regression, Logistic|||ECOG score (per 1 point) as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||1.643|1.140|0.001
92375808|NCT01459653|184653978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.499|||<|0.001|TWO_SIDED|95.0|2.456|4.985|||Regression, Logistic|||Concomitant antibiotic prophylaxis as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||4.985|2.456|<0.001
92410384|NCT00947882|184711631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.1736||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 6. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 20 mg and Placebo at Month 6."|ANCOVA of the change from baseline in IPSS at Month 6 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.1736
92375809|NCT01459653|184653978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.064|||<|0.001|TWO_SIDED|95.0|3.096|5.336|||Regression, Logistic|||CIN1/4 in previous cycle as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||5.336|3.096|<0.001
92169140|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.2547|TWO_SIDED|95.0|-0.41|0.11|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.11|-0.41|0.2547
92169141|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.14||0.8806|TWO_SIDED|95.0|-0.29|0.25|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.25|-0.29|0.8806
92169142|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8416|TWO_SIDED|95.0|-0.3|0.24|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.30|0.8416
92169143|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.9981|TWO_SIDED|95.0|-0.28|0.28|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.28|-0.28|0.9981
92375810|NCT01459653|184653978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.545||||0.002|TWO_SIDED|95.0|1.175|2.033|||Regression, Logistic|||Female gender as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||2.033|1.175|0.002
92410385|NCT00947882|184711631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84||||0.3132||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 6. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 10 mg and Placebo at Month 6."|ANCOVA of the change from baseline in IPSS at Month 6 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.3132
92169144|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.14||0.6485|TWO_SIDED|95.0|-0.21|0.34|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.34|-0.21|0.6485
92169145|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8317|TWO_SIDED|95.0|-0.3|0.24|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.30|0.8317
92229527|NCT02747927|184361839|OTHER||VE|89.9|||||TWO_SIDED|95.0|53.7|97.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||97.8|53.7|
92229528|NCT02747927|184361839|OTHER||VE|37.9|||||TWO_SIDED|95.0|-84.9|79.2|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||79.2|-84.9|
92229529|NCT02747927|184361839|OTHER||VE|78.4|||||TWO_SIDED|95.0|29.7|93.3|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||93.3|29.7|
92229530|NCT02747927|184361840|OTHER||VE|73.9|||||TWO_SIDED|95.0|64.4|80.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||80.9|64.4|
92229531|NCT02747927|184361840|OTHER||VE|64.1|||||TWO_SIDED|95.0|37.8|79.3|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||79.3|37.8|
92375811|NCT01459653|184653978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.596||||0.017|TWO_SIDED|95.0|1.088|2.34|||Regression, Logistic|||History of CIN Grade 4 at enrollment as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||2.340|1.088|0.017
92375812|NCT01459653|184653979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.621||||0.006|TWO_SIDED|95.0|1.152|2.281|||Regression, Logistic|||Female gender as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||2.281|1.152|0.006
92375813|NCT01459653|184653979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.898||||0.005|TWO_SIDED|95.0|1.209|2.979|||Regression, Logistic|||History of CIN4 at enrollment as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||2.979|1.209|0.005
92375814|NCT01459653|184653979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.68||||0.016|TWO_SIDED|95.0|1.2|5.984|||Regression, Logistic|||History of repeated infections at enrollment as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||5.984|1.200|0.016
92375815|NCT01459653|184653979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.438|||<|0.001|TWO_SIDED|95.0|0.291|0.66|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||0.660|0.291|<0.001
92375816|NCT01459653|184653979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.053||||0.002|TWO_SIDED|95.0|1.295|3.256|||Regression, Logistic|||Under- vs. over-prophylacted as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||3.256|1.295|0.002
92229532|NCT02747927|184361840|OTHER||VE|84.9|||||TWO_SIDED|95.0|71.1|92.1|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||92.1|71.1|
92229533|NCT02747927|184361840|OTHER||VE|58.1|||||TWO_SIDED|95.0|18.5|78.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||78.5|18.5|
92375817|NCT01459653|184653979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.558||||0.028|TWO_SIDED|95.0|0.332|0.939|||Regression, Logistic|||GIS at enrollment (1 vs. 0) as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||0.939|0.332|0.028
92375818|NCT01459653|184653980|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2064||||0.0116|TWO_SIDED|95.0|1.1931|4.0803|||Regression, Logistic|||Patient level predictor: History of anemia at enrollment||4.0803|1.1931|0.0116
92375819|NCT01459653|184653980|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3049||||0.0057|TWO_SIDED|95.0|1.2754|4.1656|||Regression, Logistic|||Liver/renal/cardiac comorbidity as patient level predictor||4.1656|1.2754|0.0057
92375820|NCT01459653|184653980|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.535|||<|0.0001|TWO_SIDED|95.0|8.2159|37.4243|||Regression, Logistic|||Poor performance (ECOG \>=2) during study as patient level predictor||37.4243|8.2159|<0.0001
92375821|NCT01459653|184653984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.8703|||<|0.0001|TWO_SIDED|95.0|5.9567|37.1225|||Regression, Logistic|||Female gender as patient-level predictor for cancer-related mortality||37.1225|5.9567|<0.0001
92410386|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.2034|TWO_SIDED|95.0|0.814|2.628||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 3."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 30 mg and Placebo at Month 3."|||2.628|0.814|0.2034
92410387|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.1748|TWO_SIDED|95.0|0.834|2.71||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 3."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 20 mg and Placebo at Month 3."|||2.710|0.834|0.1748
92410388|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.0658|TWO_SIDED|95.0|0.964|3.195||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 3."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 10 mg and Placebo at Month 3."|||3.195|0.964|0.0658
92410389|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77||||0.0587|TWO_SIDED|95.0|0.979|3.184||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 4."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 30 mg and Placebo at Month 4."|||3.184|0.979|0.0587
92229534|NCT02747927|184361840|OTHER||VE|79.7|||||TWO_SIDED|95.0|59.1|89.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||89.9|59.1|
92229535|NCT02747927|184361841|OTHER||VE|90.6|||||TWO_SIDED|95.0|78.8|95.8|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||95.8|78.8|
92277944|NCT00678392|184458054|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.969||||0.3744|TWO_SIDED|95.0|0.8|1.174|||Log Rank|P-value was obtained from a 1-sided log-rank test of treatment stratified by ECOG performance status and prior treatment.||||1.174|0.800|0.3744
92410390|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.049|TWO_SIDED|95.0|1.003|3.283||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 4."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 20 mg and Placebo at Month 4."|||3.283|1.003|0.0490
92410391|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.2742|TWO_SIDED|95.0|0.774|2.464||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 4."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 10 mg and Placebo at Month 4."|||2.464|0.774|0.2742
92410392|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.4206|TWO_SIDED|95.0|0.706|2.304||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 5."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 30 mg and Placebo at Month 5."|||2.304|0.706|0.4206
92410393|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.5494|TWO_SIDED|95.0|0.664|2.16||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 5."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 20 mg and Placebo at Month 5."|||2.160|0.664|0.5494
92410394|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.7586|TWO_SIDED|95.0|0.609|1.975||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 5."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 10 mg and Placebo at Month 5."|||1.975|0.609|0.7586
92229536|NCT02747927|184361842|OTHER||VE|100.0|||||TWO_SIDED|95.0|-849.4|100.0|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||100.0|-849.4|
92277945|NCT00678392|184458055|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.056||||0.0001|TWO_SIDED|95.0|1.408|3.003|||Cochran-Mantel-Haenszel|P-value was obtained from a 1-sided Cochran-Mantel-Haenszel test of treatment stratified by ECOG performance status and prior treatment.||||3.003|1.408|0.0001
92277946|NCT00782509|184458088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.116|0.185|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.185|0.116|<0.0001
92410395|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.1946|TWO_SIDED|95.0|0.816|2.717||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 6."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 30 mg and Placebo at Month 6."|||2.717|0.816|0.1946
92410396|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.538|TWO_SIDED|95.0|0.667|2.174||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 6."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 20 mg and Placebo at Month 6."|||2.174|0.667|0.5380
92410397|NCT00947882|184711632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.4263|TWO_SIDED|95.0|0.702|2.308||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 6."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 10 mg and Placebo at Month 6."|||2.308|0.702|0.4263
92410398|NCT00947882|184711633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.76||||0.4607|TWO_SIDED|95.0|-10.113|4.59||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 30 mg and Placebo at Month 3."|||4.590|-10.113|0.4607
92229537|NCT00450580|184361867|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority can be concluded if the lower bound of a two-sided 95% confidence interval for the difference in response rates between the two treatment arms is greater than -12%.|Risk Difference (RD)|-0.9||||||95.0|-11.4|9.5||||||||9.5|-11.4|
92229538|NCT00522392|184361878|SUPERIORITY_OR_OTHER|||||||0.092|TWO_SIDED||||||Log Rank|||Stratified log rank test was used to compare progression-free survival between the two arms.||||0.092
92410399|NCT00947882|184711633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.24||||0.3876|TWO_SIDED|95.0|-10.614|4.128||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 20 mg and Placebo at Month 3."|||4.128|-10.614|0.3876
92410400|NCT00947882|184711633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.28||||0.2548|TWO_SIDED|95.0|-11.65|3.096||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 10 mg and Placebo at Month 3."|||3.096|-11.650|0.2548
92410401|NCT00947882|184711633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.5652|TWO_SIDED|95.0|-9.729|5.322||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 30 mg and Placebo at Month 6."|||5.322|-9.729|0.5652
92277947|NCT00782509|184458088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.11|0.177|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.177|0.110|<0.0001
92410402|NCT00947882|184711633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22||||0.7502|TWO_SIDED|95.0|-8.768|6.322||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 20 mg and Placebo at Month 6."|||6.322|-8.768|0.7502
92410403|NCT00947882|184711633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97||||0.6089|TWO_SIDED|95.0|-9.513|5.581||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 10 mg and Placebo at Month 6."|||5.581|-9.513|0.6089
92229539|NCT00522392|184361879|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Fisher Exact|||Fisher's exact test was used to compare the response rates between the two arms.||||0.029
92229540|NCT00522392|184361880|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED||||||Log Rank|||Stratified log-rank test was used to compare overall survival between the two arms.||||0.48
92277948|NCT00782509|184458089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.019||0.0116||95.0|0.011|0.084|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.084|0.011|0.0116
92277949|NCT00782509|184458089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.019||0.0095||95.0|0.012|0.085|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.085|0.012|0.0095
92375822|NCT01459653|184653984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.8703|||<|0.0001|TWO_SIDED|95.0|5.9567|37.1225|||Regression, Logistic|||Poor performance (ECOG \>=2) during study as patient-level predictor||37.1225|5.9567|<0.0001
92375823|NCT00457821|184653995|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Within-dose group and between-dose group analyses were performed, using a linear mixed effect model with baseline, dose, and period as fixed effects and subject as a random effect.||||<0.05
92375824|NCT00457821|184653996|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Within-dose group and between-dose group analyses were performed, using a linear mixed effect model with baseline, dose, and period as fixed effects and subject as a random effect.||||<0.05
92375825|NCT00457821|184653998|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Within-dose group and between-dose group analyses were performed, using a linear mixed effect model with baseline, dose, and period as fixed effects and subject as a random effect.||||<0.05
92375826|NCT02139878|184654001|SUPERIORITY_OR_OTHER||||||=|0.088|||||||ANCOVA|||||||=0.088
92375827|NCT02139878|184654002|SUPERIORITY_OR_OTHER||||||=|0.98|||||||ANCOVA|||||||=0.980
92375828|NCT00027378|184654028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39|STANDARD_DEVIATION|0.702||0.05||95.0|||||ANOVA|repeated measures||Repeated measures ANOVA||||.05
92375829|NCT03549871|184654038|SUPERIORITY||ABR ratio|0.389|||=|0.0008|TWO_SIDED|95.0|0.224|0.675||The threshold for significance was \<0.05.|Repeated measures NB regression model|||Analyzed using repeated measures NB model with fixed effect of treatment period (fitusiran efficacy period or factor/BPA prophylaxis period) and robust sandwich covariance matrix was constructed to account for within participant dependence, logarithm of duration (in years) that each participant spends in each study period matching BE data being analyzed as an offset variable.||0.675|0.224|=0.0008
92410404|NCT00947882|184711634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.8511|TWO_SIDED|95.0|-1.068|1.294||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 30 mg and Placebo at Month 3."|||1.294|-1.068|0.8511
92410405|NCT00947882|184711634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.6331|TWO_SIDED|95.0|-0.9|1.477||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 20 mg and Placebo at Month 3."|||1.477|-0.900|0.6331
92410406|NCT00947882|184711634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.909|TWO_SIDED|95.0|-1.113|1.25||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 10 mg and Placebo at Month 3."|||1.250|-1.113|0.9090
92229541|NCT03932812|184361882|SUPERIORITY||Mean Difference (Net)|1.128|STANDARD_ERROR_OF_MEAN|1.622||0.206|TWO_SIDED||||||Regression, Linear|We used generalized estimating equations to fit linear regression model for longitudinal data under the unstructured correlation matrix.|Estimated value: presented value is mean difference at month 6 from BL. Information from month 3 is included in the linear regression model. The reported p-value is the significance of the interaction effect between time and the intervention.|||||0.206
92375830|NCT03549871|184654040|SUPERIORITY||ABR ratio|0.444|||||TWO_SIDED|95.0|0.234|0.842||||||||0.842|0.234|
92375831|NCT03549871|184654042|SUPERIORITY||ABR ratio|0.485|||||TWO_SIDED|95.0|0.259|0.91||||||||0.910|0.259|
92375832|NCT00737568|184654054|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||The p-value for the two-sided Cochran-Mantel-Haenszel test was controlled for strata (HBeAg status and ALT level).|Cochran-Mantel-Haenszel|||The null hypothesis is that there is no difference between the FTC/TDF and TDF treatment groups. The alternative hypothesis is that there is a difference between the FTC/TDF and TDF treatment groups. These hypotheses were evaluated using a Cochran-Mantel-Haenszel (CMH) test, controlling for randomization strata, with the missing = failure method in which participants with missing data were considered to have failed to achieve the endpoint.||||0.43
92375833|NCT01133626|184654067|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be demonstrated if the lower limit of a two-sided 95% CI for the geometric mean ratio of BDP HFA 320 mcg/day to placebo was greater than 0.80.|geometric mean ratio|0.96|||||TWO_SIDED|95.0|0.87|1.06|||ANCOVA|||||1.06|0.87|
92375834|NCT00835640|184654074|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|81.33||||||90.0|||||||To establish bioequivalence, the ratio of the mean must fall within 80-125.|||||
92375835|NCT00835640|184654075|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|87.87||||||90.0|||||||To establish bioequivalence, the ratio of the mean must fall within 80-125.|||||
92375836|NCT00835640|184654076|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|88.45||||||90.0|||||||To establish bioequivalence, the ratio of the mean must fall within 80-125.|||||
92375837|NCT00350272|184654077|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-13.5|||||TWO_SIDED|95.0|-35.2|8.2||||||The difference in proportions between the group of participants who received lamivudine 300 mg/day (in combination with efavirenz and tenofovir) over 12 weeks and the group of participants who received elvucitabine 10 mg/day (in combination with efavirenz and tenofovir) over 12 weeks along with corresponding 2-sided 95% confidence interval for risk difference using asymptotic normal theory.||8.2|-35.2|
92375838|NCT03955250|184654096|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92375839|NCT03955250|184654097|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|time||||||<0.05
92375840|NCT03955250|184654097|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|condition||||||>0.05
92375841|NCT03955250|184654098|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|time||||||>0.05
92229542|NCT03932812|184361883|SUPERIORITY||Mean Difference (Final Values)|2.376|STANDARD_ERROR_OF_MEAN|1.793||0.101|TWO_SIDED||||||Regression, Linear|We used generalized estimating equations to fit linear regression model for longitudinal data under the unstructured correlation matrix.|Estimated value: presented value is mean difference at month 6 from BL. Information from month 3 is included in the linear regression model. The reported p-value is the significance of the interaction effect between time and the intervention.|||||0.101
92229543|NCT03932812|184361884|SUPERIORITY||Mean Difference (Net)|-0.201|STANDARD_ERROR_OF_MEAN|1.174||0.836|TWO_SIDED||||||Regression, Linear|We used generalized estimating equations to fit linear regression model for longitudinal data under the unstructured correlation matrix.|Estimated value: presented value is mean difference at month 6 from BL. Information from month 3 is included in the linear regression model. The reported p-value is the significance of the interaction effect between time and the intervention.|||||0.836
92229544|NCT03932812|184361885|SUPERIORITY||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.414||0.567|TWO_SIDED||||||Chi-squared||Estimated value: presented value is for month 6. Since the outcome measure is count data, a log link function is used. The reported p-value is the significance of the interaction effect between time and intervention.|The outcome for this analyses is use of emergency care.||||0.567
92375842|NCT03955250|184654098|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|condition||||||>0.05
92375843|NCT03955250|184654099|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|time||||||<0.05
92375844|NCT03955250|184654099|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|condition||||||>0.05
92375845|NCT05894538|184654124|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.92|1.12|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.12|0.92|
92375846|NCT05894538|184654125|SUPERIORITY|Due to the low event rate, a posterior probability was not estimated.|Hazard Ratio (HR)|3.57|||||TWO_SIDED|95.0|0.74|17.18|||||Low event rate precluded covariate adjustment.|||17.18|0.74|
92375847|NCT05894538|184654128|SUPERIORITY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.6|1.45|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.45|0.60|
92229545|NCT03932812|184361886|SUPERIORITY||Mean Difference (Final Values)|-0.363|STANDARD_ERROR_OF_MEAN|0.165||0.014|TWO_SIDED||||||Chi-squared||Estimated value: presented value is for month 6. Since the outcome measure is count data, a log link function is used. The reported p-value is the significance of the interaction effect between time and intervention.|||||0.014
92229546|NCT03932812|184361887|SUPERIORITY||Mean Difference (Final Values)|0.467|STANDARD_ERROR_OF_MEAN|0.301||0.01|TWO_SIDED||||||Chi-squared||Estimated value: presented value is for month 6. Since the outcome measure is count data, a log link function is used. The reported p-value is the significance of the interaction effect between time and intervention.|||||0.010
92277950|NCT00782509|184458090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.057|0.162|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 5 mcg qd minus Placebo|||0.162|0.057|<0.0001
92277951|NCT00782509|184458090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.027||0.0011||95.0|0.036|0.143|||Mixed Models Analysis|Treatment, tiotropium stratum and baseline as fixed effects|Olo 10 mcg qd minus Placebo|||0.143|0.036|0.0011
92375848|NCT05894538|184654132|OTHER||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.61|0.96|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||0.96|0.61|
92375849|NCT05894538|184654132|OTHER||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.49|0.85|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||0.85|0.49|
92375850|NCT05894538|184654132|OTHER||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.52|0.92|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||0.92|0.52|
92375851|NCT05894538|184654132|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.72|1.36|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.36|0.72|
92375852|NCT05894538|184654133|OTHER||Odds Ratio (OR)|1.27|||||TWO_SIDED|95.0|1.03|1.56|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.56|1.03|
92375853|NCT05894538|184654133|OTHER||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|1.0|1.51|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.51|1.00|
92375854|NCT05894538|184654133|OTHER||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.87|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.35|0.87|
92375855|NCT05894538|184654133|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.86|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.32|0.86|
92375856|NCT05894538|184654134|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.81|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.26|0.81|
92229547|NCT03932812|184361888|SUPERIORITY||Mean Difference (Net)|2.11|STANDARD_ERROR_OF_MEAN|2.682||0.188|TWO_SIDED||||||Regression, Linear|We used generalized estimating equations to fit linear regression model for longitudinal data under the unstructured correlation matrix.|Estimated value: presented value is mean difference at month 6 from BL. Information from month 3 is included in the linear regression model. The reported p-value is the significance of the interaction effect between time and the intervention.|||||0.188
92375857|NCT05894538|184654134|OTHER||Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|1.0|1.66|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.66|1.00|
92375858|NCT05894538|184654134|OTHER||Odds Ratio (OR)|1.52|||||TWO_SIDED|95.0|1.15|2.02|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||2.02|1.15|
92375859|NCT05894538|184654134|OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.86|1.47|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.47|0.86|
92375860|NCT05894538|184654135|OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.76|1.24|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.24|0.76|
92375861|NCT05894538|184654135|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.75|1.3|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.30|0.75|
92375862|NCT05894538|184654135|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.72|1.25|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.25|0.72|
92375863|NCT05894538|184654135|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.75|1.28|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.28|0.75|
92375864|NCT05894538|184654136|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.84|1.33|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.33|0.84|
92375865|NCT05894538|184654136|OTHER||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.87|1.43|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.43|0.87|
92375866|NCT05894538|184654136|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.91|1.55|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.55|0.91|
92375867|NCT05894538|184654136|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.75|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.26|0.75|
92410407|NCT00947882|184711634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.5469|TWO_SIDED|95.0|-0.956|1.802||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 30 mg and Placebo at Month 6."|||1.802|-0.956|0.5469
92375868|NCT05894538|184654137|OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.79|1.2|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.20|0.79|
92375869|NCT05894538|184654137|OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.63|1.02|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.02|0.63|
92375870|NCT05894538|184654137|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.69|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.14|0.69|
92375871|NCT05894538|184654137|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.84|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.35|0.84|
92375872|NCT05894538|184654138|OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.78|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.19|0.78|
92410408|NCT00947882|184711634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.7906|TWO_SIDED|95.0|-1.576|1.2||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 20 mg and Placebo at Month 6."|||1.200|-1.576|0.7906
92375873|NCT05894538|184654138|OTHER||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.92|1.39|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.39|0.92|
92375874|NCT05894538|184654138|OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.91|1.36|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.36|0.91|
92375875|NCT05894538|184654138|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.82|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.21|0.82|
92375876|NCT05894538|184654139|SUPERIORITY||Difference in model estimate time unwell|-0.04|||||TWO_SIDED|95.0|-0.39|0.32|||||The interval is a highest-density credible interval.|||0.32|-0.39|
92375877|NCT04962230|184654141|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|specify in comments|56.82||||0.05|TWO_SIDED|90.0|47.04|68.62|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||68.62|47.04|0.05
92375878|NCT04962230|184654142|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|Specified in comments|44.5||||0.05|TWO_SIDED|90.0|33.77|58.65|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||58.65|33.77|0.05
92375879|NCT04962230|184654143|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|Specified in comments|25.59||||0.05|TWO_SIDED|90.0|18.76|34.91|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||34.91|18.76|0.05
92375880|NCT04962230|184654144|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|Specified in comments|16.57||||0.05|TWO_SIDED|90.0|13.32|20.6|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||20.60|13.32|0.05
92375881|NCT04962230|184654150|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|Specified in comments|44.59||||0.05|TWO_SIDED|90.0|33.99|58.5|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||58.50|33.99|0.05
92375882|NCT04962230|184654155|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|Specified in comments|12.92||||0.05|TWO_SIDED|90.0|9.28|17.99|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||17.99|9.28|0.05
92375883|NCT02275117|184654165|SUPERIORITY|75% Migraine Responder Rate - Week 1-12 (Modified Full Analysis Population)|Mean Difference (Final Values)|12.6||||0.033|TWO_SIDED|95.0|1.3|24.0|||Cochran-Mantel-Haenszel|||||24.0|1.3|0.0330
92375884|NCT02275117|184654165|SUPERIORITY|75% Migraine Responder Rate - Week 1-12 (Modified Full Analysis Population)|Mean Difference (Final Values)|10.7||||0.0715|TWO_SIDED|95.0|-0.5|21.8|||Cochran-Mantel-Haenszel|||||21.8|-0.5|0.0715
92375885|NCT02275117|184654165|SUPERIORITY|75% Migraine Responder Rate - Week 1-12 (Modified Full Analysis Population)|Mean Difference (Final Values)|7.5||||0.2013|TWO_SIDED|95.0|-3.5|18.5|||Cochran-Mantel-Haenszel|||||18.5|-3.5|0.2013
92375886|NCT02275117|184654165|SUPERIORITY|75% Migraine Responder Rate - Week 1-12 (Modified Full Analysis Population)|Mean Difference (Final Values)|6.1||||0.2938|TWO_SIDED|95.0|-4.6|16.9|||Cochran-Mantel-Haenszel|||||16.9|-4.6|0.2938
92375887|NCT01327274|184654187|OTHER|Pre-treatment and post-treatment Pectus Severity Indices were compared using the Wilcoxon matched-pairs signed rank test.||||||0.486|||||||Wilcoxon (Mann-Whitney)|||||||0.486
92375888|NCT00386477|184654189|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.55||||0.11||95.0|0.26|1.11|||Chi-squared, Corrected|||||1.11|0.26|0.11
92375889|NCT01081301|184654190|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value were not adjusted for multiple comparisons and a p-value of 0.05 was used for statistical significance.|ANOVA|Modified version of ANOVA as it overcomes the shortcoming of the ANOVA model by taking into account unbalanced data and repeated measures.||Generalized estimating equations were used to determine change in patterns of the Herth Hope Index over time (Day 7, 14 and 3, 6, and 12 months) compared to baseline. The advantage of utilizing general estimating equations was that it effectively increases the sample size (increasing power) and estimated more robust standard errors by taking into account the repeated measures and adjusting for covariates.||||<0.05
92375890|NCT01081301|184654191|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value were not adjusted for multiple comparisons and a p-value of 0.05 was used for statistical significance.|ANOVA|Modified version of ANOVA as it overcomes the shortcoming of the ANOVA model by taking into account unbalanced data and repeated measures.||Generalized estimating equations were used to determine change in patterns of SF-12v2 Mental health scores over time (Day 7, 14 and 3, 6, and 12 months) compared to baseline. The advantage of utilizing general estimating equations was that it effectively increases the sample size (increasing power) and estimated more robust standard errors by taking into account the repeated measures and adjusting for covariates.||||<0.05
92375891|NCT01081301|184654192|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value were not adjusted for multiple comparisons and a p-value of 0.05 was used for statistical significance.|ANOVA|Modified version of ANOVA as it overcomes the shortcoming of the ANOVA model by taking into account unbalanced data and repeated measures||Generalized estimating equations were used to determine change in patterns of General Self Efficacy Scale scores over time (Day 7, 14 and 3, 6, and 12 months) compared to baseline. The advantage of utilizing general estimating equations was that it effectively increases the sample size (increasing power) and estimated more robust standard errors by taking into account the repeated measures and adjusting for covariates.||||<0.05
92375892|NCT01081301|184654193|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The p-value were not adjusted for multiple comparisons and a p-value of 0.05 was used for statistical significance.|ANOVA|Modified version of ANOVA as it overcomes the shortcoming of the ANOVA model by taking into account unbalanced data and repeated measures.||Generalized estimating equations were used to determine change in patterns of Non Death Revised Grief Experience Inventory scores over time (Day 7, 14 and 3, 6, and 12 months) compared to baseline. The advantage of utilizing general estimating equations was that it effectively increases the sample size (increasing power) and estimated more robust standard errors by taking into account the repeated measures and adjusting for covariates.||||>0.05
92375893|NCT01081301|184654194|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value were not adjusted for multiple comparisons and a p-value of 0.05 was used for statistical significance.|ANOVA|Modified version of ANOVA as it overcomes the shortcoming of the ANOVA model by taking into account unbalanced data and repeated measures.||Generalized estimating equations were used to determine change in patterns of SF-12v2 Physical health scores over time (Day 7, 14 and 3, 6, and 12 months) compared to baseline. The advantage of utilizing general estimating equations was that it effectively increases the sample size (increasing power) and estimated more robust standard errors by taking into account the repeated measures and adjusting for covariates.||||<0.05
92375894|NCT02266277|184654195|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio (OR)|1.3||||0.0001|TWO_SIDED|95.0|1.15|1.47||Adjusted for age, sex, race and utilization|Regression, Logistic|||||1.47|1.15|0.0001
92375895|NCT02266277|184654195|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio (OR)|1.2||||0.0026|TWO_SIDED|95.0|1.07|1.36|||Regression, Logistic|||||1.36|1.07|.0026
92375896|NCT02266277|184654195|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio (OR)|1.16||||0.0206|TWO_SIDED|95.0|1.02|1.31|||Regression, Logistic|||||1.31|1.02|.0206
92375897|NCT02266277|184654195|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio (OR)|1.07||||0.233|TWO_SIDED|95.0|0.96|1.21|||Regression, Logistic|||||1.21|.96|.2330
92375898|NCT02266277|184654195|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio, log|1.12||||0.0579|TWO_SIDED|95.0|0.996|1.26|||Regression, Logistic|||||1.26|.996|.0579
92375899|NCT02266277|184654195|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio (OR)|0.99||||0.87|TWO_SIDED|95.0|0.86|1.14|||Regression, Logistic|||||1.14|.86|.87
92375900|NCT02266277|184654196|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio (OR)|1.03||||0.82|TWO_SIDED|95.0|0.81|1.31|||Regression, Logistic|||||1.31|.81|.82
92375901|NCT02266277|184654196|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio, log|0.9||||0.36|TWO_SIDED|95.0|0.71|1.13|||Regression, Logistic|||||1.13|.71|.36
92375902|NCT02266277|184654196|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio (OR)|0.89||||0.33|TWO_SIDED|95.0|0.71|1.13|||Regression, Logistic|||||1.13|.71|.33
92410409|NCT00947882|184711634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.5757|TWO_SIDED|95.0|-1.773|0.987||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 10 mg and Placebo at Month 6."|||0.987|-1.773|0.5757
92410410|NCT02447302|184711637|SUPERIORITY||Difference in least square mean|-0.99|STANDARD_ERROR_OF_MEAN|0.42|=|0.0091|TWO_SIDED|90.0|-1.68|-0.3||The analysis was performed using an analysis of covariance (ANCOVA) model that incorporated treatment, current oral corticosteroid use, prior exposure to tumor necrosis factor alpha (TNFα) antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the adapted MCS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 2 mg from placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||-0.30|-1.68|= 0.0091
92229548|NCT03575104|184361915|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-11.62||||0.0001|TWO_SIDED|95.0|-17.604|-5.633||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.025; statistically significant = YES||Between-treatment analysis for change from baseline in WASO (min) to Month 1 (Daridorexant 25 mg vs placebo).||-5.633|-17.604|0.0001
92229549|NCT03575104|184361915|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-2.74||||0.3669|TWO_SIDED|95.0|-8.693|3.215||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00977; statistically significant = NO||Between-treatment analysis for change from baseline in WASO (min) to Month 1 (Daridorexant 10 mg vs placebo).||3.215|-8.693|0.3669
92229550|NCT03575104|184361916|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS Mean difference to placebo|-10.25||||0.0028|TWO_SIDED|95.0|-16.95|-3.548||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.01563; statistically significant = YES||Between-treatment analysis for change from baseline in WASO (min) to Month 3 (Daridorexant 25 mg vs placebo).||-3.548|-16.95|0.0028
92229551|NCT03575104|184361916|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS Mean difference to placebo|-1.95||||0.5686|TWO_SIDED|95.0|-8.666|4.764||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in WASO (min) to Month 3 (Daridorexant 10 mg vs placebo).||4.764|-8.666|0.5686
92240239|NCT00051558|184383963|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92375903|NCT02266277|184654196|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio (OR)|0.87||||0.23|TWO_SIDED|95.0|0.69|1.09|||Regression, Logistic|||||1.09|.69|.23
92375904|NCT02266277|184654196|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio (OR)|0.99||||0.96|TWO_SIDED|95.0|0.79|1.25|||Regression, Logistic|||||1.25|.79|.96
92375905|NCT02266277|184654196|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio (OR)|1.04||||0.76|TWO_SIDED|95.0|0.82|1.31|||Regression, Logistic|||||1.31|.82|.76
92375906|NCT00395291|184654266|SUPERIORITY_OR_OTHER||||||<|0.001||||||The IGF-1 data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.|ANCOVA|||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in IGF-1 is the same for both the MK-0677 and placebo interventions.~Power calculation: We assumed that the IGF-I data will be lognormally distributed and thus the parameter of interest will be the IGF-1 geometric mean. If n=22 individuals complete the study and the intervention effect is 48% greater for one intervention than the other we will have at least 0.80 power to reject the null hypothesis."||||<0.001
92375907|NCT00395291|184654267|SUPERIORITY_OR_OTHER|||||||0.169|||||||ANCOVA|The Acyl-Ghrelin data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in Acyl-Ghrelin is the same for both the MK-0677 and placebo interventions.~Because Acyl-Ghrelin is considered as a secondary outcome, no power analysis was conducted."||||0.169
92239640|NCT00637273|184383080|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target of \<=6.5% at Week 26 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||0.0120
92375908|NCT00395291|184654268|SUPERIORITY_OR_OTHER|||||||0.063|||||||ANCOVA|The Leptin data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in leptin is the same for both the MK-0677 and placebo interventions.~Because Leptin is considered a secondary outcome, no power analysis was conducted."||||0.063
92375909|NCT00395291|184654269|SUPERIORITY_OR_OTHER|||||||0.075|||||||ANCOVA|The insulin data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in serum-insulin is the same for both the MK-0677 and placebo interventions.~Because serum-insulin is considered a secondary outcome, no power analysis was conducted."||||0.075
92375910|NCT00395291|184654270|SUPERIORITY_OR_OTHER|||||||0.782||95.0|||||ANCOVA|||||||.782
92375911|NCT00395291|184654271|SUPERIORITY_OR_OTHER|||||||0.385|||||||ANCOVA|The TNF-a data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in TNF-a is the same for both the MK-0677 and placebo interventions.~Because Acyl-Ghrelin is considered as a secondary outcome, no power analysis was conducted."||||0.385
92375912|NCT00395291|184654272|SUPERIORITY_OR_OTHER|||||||0.929|||||||ANCOVA|The CRPs data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in CRPs is the same for both the MK-0677 and placebo interventions.~Because CRPs is considered as a secondary outcome, no power analysis was conducted."||||0.929
92375913|NCT00395291|184654273|SUPERIORITY_OR_OTHER|||||||0.905|||||||ANCOVA|The IL-1 data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in IL-1 is the same for both the MK-0677 and placebo interventions.~Because IL-1 is considered as a secondary outcome, no power analysis was conducted"||||0.905
92375914|NCT00395291|184654274|SUPERIORITY_OR_OTHER|||||||0.233||95.0|||||ANCOVA|||||||0.233
92375915|NCT00395291|184654275|SUPERIORITY_OR_OTHER|||||||0.277|||||||ANCOVA|The IL-10 data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in IL-10 is the same for both the MK-0677 and placebo interventions.~Because IL-10 is considered as a secondary outcome, no power analysis was conducted."||||0.277
92375916|NCT00395291|184654276|SUPERIORITY_OR_OTHER|||||||0.875|||||||ANCOVA|The esterase data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in esterase is the same for both the MK-0677 and placebo interventions.~Because Acyl-Ghrelin is considered as a secondary outcome, no power analysis was conducted."||||0.875
92375917|NCT00395291|184654277|SUPERIORITY_OR_OTHER|||||||0.545|||||||ANCOVA|The adiponectin data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in adiponectin is the same for both the MK-0677 and placebo interventions.~Because Acyl-Ghrelin is considered as a secondary outcome, no power analysis was conducted."||||0.545
92375918|NCT00395291|184654278|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANCOVA|Total ghrelin data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in Total-Ghrelin is the same for both the MK-0677 and placebo interventions.~Because Acyl-Ghrelin is considered as a secondary outcome, no power analysis was conducted."||||0.900
92375919|NCT02210832|184654279|SUPERIORITY|38.27% vs. 9.09%|||||<|0.001||||||p value is not adjusted for multiple comparisons. A priori threshold for significance was P \< 0.05.|Chi-squared|chi square test statistic = 20.23, df = 1||Hypothesized that women assigned to Best practices plus financial incentives would achieve greater abstinence than women assigned to Best practices only.||||<0.001
92375920|NCT02210832|184654280|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Chi-squared|Used generalized estimating equation utilizing a logistic link function with treatment condition and assessment time adjusting for covariates.||||||<0.05
92375921|NCT02210832|184654280|SUPERIORITY|||||||0.003||||||chi square test statistic = 21.93, df=7|Mixed Models Analysis|Conducted a generalized estimating equation utilizing a logistic link function with treatment condition and assessment time adjusting for covariates.||Trial condition by assessment time interaction||||0.003
92375922|NCT02210832|184654281|SUPERIORITY|||||||0.48||||||chi square test statistic = 9.52, df = 10|Mixed Models Analysis|Conducted a generalized estimating equation utilizing a logistic link function with treatment condition and assessment time adjusting for covariates.||Interaction of trial condition and time||||0.48
92375923|NCT02210832|184654282|SUPERIORITY||||||<|0.0001||||||chi square test statistic = 33.51, df = 2|Mixed Models Analysis|Conducted a generalized estimating equation utilizing a logistic link function with treatment condition and assessment time adjusting for covariates.||Examining main effect of treatment condition.||||<0.0001
92375924|NCT02210832|184654282|SUPERIORITY|||||||0.89||||||chi square test statistic = 5.00, df = 10.|Mixed Models Analysis|||Testing interaction of treatment condition and assessment time||||0.89
92375925|NCT02210832|184654283|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Method was mixed model repeated measures analysis of covariance.||||||<0.001
92375926|NCT02210832|184654284|SUPERIORITY||||||<|0.001||||||F\[7,922\]=3.62|ANCOVA|Repeated measures analysis of covariance was conducted with Bonferroni corrections for post-doc tests and across repeated assessments.||Examine interaction of treatment condition and assessment time.||||<0.001
92375927|NCT02210832|184654284|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Method was mixed model repeated measures analysis of covariance.||||||<0.001
92375928|NCT02210832|184654285|SUPERIORITY|||||||0.009|||||||Mixed Models Analysis|Method was mixed model repeated measures analysis of covariance.||||||0.009
92375929|NCT02210832|184654286|SUPERIORITY|||||||0.01|||||||Regression, Logistic|Method is logistic regression adjusted for covariates.||||||0.01
92277952|NCT00782509|184458091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.131|0.197|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.197|0.131|<0.0001
92375930|NCT02210832|184654287|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92375931|NCT02210832|184654288|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92375932|NCT02210832|184654290|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92375933|NCT02210832|184654294|SUPERIORITY|||||||0.006|||||||ANCOVA|All comparisons adjusted for infant gestational age at time of delivery.||||||0.006
92375934|NCT03710876|184654327|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.284|TWO_SIDED|95.0|0.43|1.59||1-sided|Log Rank|||||1.59|0.43|0.2840
92375935|NCT03710876|184654329|SUPERIORITY||Risk Difference (RD)|2.9||||1|TWO_SIDED|95.0|-17.3|24.3||2-sided|Fisher Exact||Risk difference is proportion achieving objective response in r+C+G group minus the proportion achieving objective response in C+ G group. The confidence interval was calculated by the exact conditional method of Chan and Zhang.|||24.3|-17.3|1.0000
92375936|NCT03710876|184654330|SUPERIORITY||Risk Difference (RD)|2.2||||1|TWO_SIDED|95.0|-25.2|29.2|||Fisher Exact||Risk difference is proportion achieving response in r+C+G group minus the proportion achieving response in C+ G group. The confidence interval was calculated by the exact conditional method of Chan and Zhang.|||29.2|-25.2|1.0000
92375937|NCT03710876|184654331|SUPERIORITY||Risk Difference (RD)|-7.6||||0.7665|TWO_SIDED|95.0|-34.9|20.3|||Fisher Exact||Risk difference is proportion achieving response in r+C+G group minus the proportion achieving response in C+ G group. The confidence interval was calculated by the exact conditional method of Chan and Zhang.|||20.3|-34.9|0.7665
92375938|NCT03710876|184654332|SUPERIORITY||Risk Difference (RD)|-4.4||||0.7537|TWO_SIDED|95.0|-31.7|23.0||2-sided.|Chi-squared|Variance calculated by Greenwood's method.|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||23.0|-31.7|0.7537
92375939|NCT03710876|184654333|SUPERIORITY||Risk Difference (RD)|18.4||||0.1855|TWO_SIDED|95.0|-8.8|45.6||2-sided|Chi-squared|Variance calculated by Greenwood's method|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||45.6|-8.8|0.1855
92375940|NCT03710876|184654334|SUPERIORITY||Risk Difference (RD)|12.2||||0.357|TWO_SIDED|95.0|-13.8|38.3||2-sided|Chi-squared|Variance calculated by Greenwood's method|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||38.3|-13.8|0.3570
92375941|NCT03710876|184654335|SUPERIORITY||Risk Difference (RD)|13.5||||0.2856|TWO_SIDED|95.0|-11.3|38.3||2-sided|Chi-squared|Variance calculated by Greenwood's method.|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||38.3|-11.3|0.2856
92375942|NCT03710876|184654336|SUPERIORITY||Risk Difference (RD)|6.1||||0.6173|TWO_SIDED|95.0|-17.8|30.0||2-sided|Chi-squared|Variance calculated by Greenwood's method.|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||30.0|-17.8|0.6173
92375943|NCT03710876|184654337|SUPERIORITY||Risk Difference (RD)|6.1||||0.6173|TWO_SIDED|95.0|-17.8|30.0||2-sided|Chi-squared|Variance calculated by Greenwood's method.|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||30.0|-17.8|0.6173
92277953|NCT00782509|184458091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.138|0.204|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.204|0.138|<0.0001
92277954|NCT00782509|184458092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.13|0.197|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.197|0.130|<0.0001
92375944|NCT01460719|184654364|OTHER|The statistical criterion for significance requires that the lower bound of the 2-sided 90% confidence interval of the GMFR is \>1.0.|||||<|0.001|||||||Single longitudinal regression model|Adjustments made for pre-vaccination values||||||<0.001
92375945|NCT01151761|184654372|SUPERIORITY_OR_OTHER||months|8.5|||||TWO_SIDED|95.0|7.0|10.0|||||There were only two patients in the study. Both died without having any local failure. One patient died at 10 months, the other at 7 months. The range for the 95%CI is both the full range and the 95%CI.|The median Progression Free Survival (PFS) time as calculated using Kaplan Meier methodology. For PFS both death and progression are counted as events.||10|7|
92375946|NCT01151761|184654377|SUPERIORITY_OR_OTHER||proportion of participants|0.0|||||TWO_SIDED||||||||None of the two patients who participated had a local recurrence before they died.|||||
92375947|NCT02838901|184654391|OTHER|This was a descriptive analysis, and was based on the overall assessment of feasibility of the intervention.||||||0.058||||||The p value is not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||The null hypothesis was used, and the assumption was there would be no difference in adherence between the Active Juice and the Placebo Juice, and therefore a two-sided t approximation was reported. Since this was a pilot study, power calculations were not performed. The adherence in the two groups was compared using the Wilcoxon two-sample test.||||0.058
92229552|NCT03575104|184361917|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-6.45||||0.0303|TWO_SIDED|95.0|-12.282|-0.614||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.025; statistically significant = NO||Between-treatment analysis for change from baseline in LPS (min) to Month 1 (Daridorexant 25 mg vs placebo).||-0.614|-12.282|0.0303
92229553|NCT03575104|184361917|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-2.61||||0.3782|TWO_SIDED|95.0|-8.41|3.197||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00195; statistically significant = NO||Between-treatment analysis for change from baseline in LPS (min) to Month 1 (Daridorexant 10 mg vs placebo).||3.197|-8.41|0.3782
92239641|NCT00637273|184383081|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target of \<=6.0% at Week 26 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||0.1700
92280414|NCT03466411|184463522|SUPERIORITY||LS Mean Difference|108.7|||<|0.001|TWO_SIDED|95.0|73.9|143.5|||Mixed Model for Repeated Measure||LS Mean difference between the treatment groups and p-values for the comparisons of each guselkumab treatment group with the placebo group were based on MMRM analysis.|||143.5|73.9|<0.001
92375948|NCT02838901|184654392|OTHER|This was a descriptive analysis and was under the goal of assessing safety of the intervention.||||||1|||||||Fisher Exact|||Null hypothesis was assumed, no power calculation was done since this was a pilot study.||||1.00
92375949|NCT02838901|184654393|OTHER|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was assumed, and no power calculation was performed since this was a pilot study.||||0.0003
92375950|NCT02838901|184654394|OTHER|This was a descriptive analysis for a pilot study, and no power calculations were performed.||||||0.1023|||||||Wilcoxon (Mann-Whitney)|||||||0.1023
92375951|NCT02838901|184654395|OTHER|This was a descriptive analysis for a pilot study to gather preliminary data for a larger trial. No power calculations were performed for this outcome.||||||0.9581|||||||Wilcoxon (Mann-Whitney)|||||||.9581
92375952|NCT02838901|184654395|OTHER|||||||0.6678|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was assumed, and no power calculation was performed since this was a pilot study and the purpose was to collect preliminary data for a larger trial.||||.6678
92375953|NCT02838901|184654397|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92375954|NCT02838901|184654397|OTHER|||||||0.876|||||||Wilcoxon (Mann-Whitney)|||||||.876
92375955|NCT02838901|184654398|OTHER|||||||0.889|||||||Wilcoxon (Mann-Whitney)|||||||.889
92410411|NCT02447302|184711637|SUPERIORITY||Difference in least square mean|-0.43|STANDARD_ERROR_OF_MEAN|0.41|=|0.1457|TWO_SIDED|90.0|-1.11|0.24||The analysis was performed using an ANCOVA model that incorporated treatment, current oral corticosteroid use, prior exposure to TNFα antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the adapted MCS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 1 mg from placebo|||0.24|-1.11|= 0.1457
92375956|NCT02838901|184654398|OTHER|||||||0.532|||||||Wilcoxon (Mann-Whitney)|||||||0.532
92375957|NCT02838901|184654399|OTHER|||||||0.888|||||||Wilcoxon (Mann-Whitney)|||||||0.888
92375958|NCT02838901|184654400|OTHER|||||||0.475|||||||Wilcoxon (Mann-Whitney)|||||||0.475
92375959|NCT02838901|184654401|OTHER|||||||0.135|||||||Wilcoxon (Mann-Whitney)|||||||0.135
92375960|NCT02838901|184654402|OTHER|||||||0.185|||||||Wilcoxon (Mann-Whitney)|||||||0.185
92375961|NCT01007123|184654403|SUPERIORITY_OR_OTHER||||||<|0.2|TWO_SIDED|0.0|||||ANCOVA|||||||<0.2
92375962|NCT01007123|184654403|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|0.0|||||ANCOVA|||||||0.002
92375963|NCT01007123|184654403|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||ANCOVA|||||||<0.001
92375964|NCT01007123|184654404|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|0.0|||||Fisher Exact|||||||0.03
92375965|NCT01007123|184654404|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|0.0|||||Fisher Exact|||||||0.008
92375966|NCT01007123|184654404|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||Fisher Exact|||||||<0.001
92375967|NCT01007123|184654405|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED|0.0|||||Fisher Exact|||||||0.06
92375968|NCT01007123|184654405|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|0.0|||||Fisher Exact|||||||0.03
92375969|NCT01007123|184654405|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|0.0|||||Fisher Exact|||||||0.04
92375970|NCT01007123|184654406|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED|0.0|||||ANCOVA|||||||0.44
92375971|NCT01007123|184654406|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||ANCOVA|||||||<0.001
92375972|NCT01007123|184654406|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||ANCOVA|||||||<0.001
92375973|NCT01007123|184654407|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|0.0|||||ANCOVA|||Comparison vs placebo||||0.01
92375974|NCT01007123|184654407|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|0.0|||||ANCOVA|||Comparison vs placebo||||<0.05
92229554|NCT03575104|184361918|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-9.01||||0.0053|TWO_SIDED|95.0|-15.339|-2.684||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00313; statistically significant = NO||Between-treatment analysis for change from baseline in LPS (min) to Month 3 (Daridorexant 25 mg vs placebo).||-2.684|-15.339|0.0053
92229555|NCT03575104|184361918|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-3.19||||0.3233|TWO_SIDED|95.0|-9.528|3.146||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in LPS (min) to Month 3 (Daridorexant 10 mg vs placebo).||3.146|-9.528|0.3233
92229556|NCT03575104|184361919|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|16.13|||<|0.0001|TWO_SIDED|95.0|8.224|24.035||Hypothesis testing result: threshold for significance p = 0.0125; statistically significant = YES|Mixed Models Analysis|||Between-treatment analysis for change from baseline in sTST (min) to Month 1 (Daridorexant 25 mg vs placebo).||24.035|8.224|<.0001
92229557|NCT03575104|184361919|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|13.37|||=|0.0009|TWO_SIDED|95.0|5.507|21.226||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in sTST (min) to Month 1 (Daridorexant 10 mg vs placebo).||21.226|5.507|= 0.0009
92229558|NCT03575104|184361920|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|19.06|||<|0.0001|TWO_SIDED|95.0|10.125|27.994||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00781; statistically significant = YES||Between-treatment analysis for change from baseline in sTST (min) to Month 3 (Daridorexant 25 mg vs placebo).||27.994|10.125|<.0001
92229559|NCT03575104|184361920|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|13.58|||=|0.0028|TWO_SIDED|95.0|4.691|22.475||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in sTST (min) to Month 3 (Daridorexant 10 mg vs placebo).||22.475|4.691|= 0.0028
92229560|NCT03575104|184361921|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-0.75|||=|0.0733|TWO_SIDED|95.0|-1.581|0.071||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00625; statistically significant = NO||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 1 (Daridorexant 25 mg vs placebo).||0.071|-1.581|= 0.0733
92277955|NCT00782509|184458092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.119|0.186|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.186|0.119|<0.0001
92375975|NCT01007123|184654408|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|0.0|||||ANCOVA|||||||0.17
92375976|NCT01007123|184654408|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||ANCOVA|||||||<0.001
92375977|NCT01007123|184654408|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||ANCOVA|||||||<0.001
92375978|NCT04699032|184654488|OTHER|Analysis of variance (ANOVA) was used to compare the natural log transformed Cmax for apraglutide between normal renal function group (Reference) and the severe impaired renal group (Test). Estimates of the mean differences and corresponding 90% confidence intervals (CIs) were obtained from the model. The mean differences and 90% CIs for the mean differences were exponentiated to provide estimates of the geometric least-square mean ratio (Test/Reference) and 90% CIs for the ratios.|Geometric least-square mean ratio|0.62|||||TWO_SIDED|90.0|0.423|0.909||||||||0.909|0.423|
92375979|NCT04699032|184654489|OTHER|ANOVA was used to compare the natural log transformed AUCinf for apraglutide between normal renal function group (Reference) and the severe impaired renal group (Test). Estimates of the mean differences and corresponding 90% CIs were obtained from the model. The mean differences and 90% CIs for the mean differences were exponentiated to provide estimates of the geometric least-square mean ratio (Test/Reference) and 90% CIs for the ratios.|Geometric least-square mean ratio|0.694|||||TWO_SIDED|90.0|0.458|1.05||||||||1.050|0.458|
92375980|NCT03022097|184654492|SUPERIORITY||Least squares mean difference|0.092|STANDARD_ERROR_OF_MEAN|0.016|<|0.001|TWO_SIDED|95.0|0.06|0.124||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|Screening pre- and post-bronchodilator FEV1, age, baseline FEV1 as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||0.124|0.060|<0.001
92375981|NCT03022097|184654493|SUPERIORITY||Least squares mean difference|0.085|STANDARD_ERROR_OF_MEAN|0.016|<|0.001|TWO_SIDED|95.0|0.053|0.117||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|Screening pre- and post-bronchodilator FEV1, age, baseline FEV1 as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||0.117|0.053|<0.001
92375982|NCT03022097|184654494|SUPERIORITY||Least squares mean difference|0.134|STANDARD_ERROR_OF_MEAN|0.016|<|0.001|TWO_SIDED|95.0|0.103|0.166||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|Screening pre- and post-bronchodilator FEV1, age, baseline FEV1 as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||0.166|0.103|<0.001
92375983|NCT03022097|184654495|SUPERIORITY||Least squares mean difference|0.217|STANDARD_ERROR_OF_MEAN|0.017|<|0.001|TWO_SIDED|95.0|0.184|0.25||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|Screening pre- and post-bronchodilator FEV1, age, baseline FEV1 as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||0.250|0.184|<0.001
92375984|NCT03022097|184654496|SUPERIORITY||Least squares mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.3||0.005|TWO_SIDED|95.0|0.2|1.3||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|BDI, age as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||1.3|0.2|0.005
92375985|NCT03022097|184654496|SUPERIORITY||Least squares mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.3||0.132|TWO_SIDED|95.0|-0.1|1.0||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|BDI, age as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||1.0|-0.1|0.132
92375986|NCT03022097|184654497|SUPERIORITY||Least squares mean difference|-4.0|STANDARD_ERROR_OF_MEAN|1.3||0.003|TWO_SIDED|95.0|-6.7|-1.4||Pre-specified hierarchical sequence of testing used to adjust for multiplicity. P-value is nominal.|Mixed Models Analysis|Baseline SGRQ, age as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||-1.4|-6.7|0.003
92375987|NCT03022097|184654497|SUPERIORITY||Least squares mean difference|-2.9|STANDARD_ERROR_OF_MEAN|1.3||0.031|TWO_SIDED|95.0|-5.5|-0.3||Pre-specified hierarchical sequence of testing used to adjust for multiplicity. P-value is nominal.|Mixed Models Analysis|Baseline SGRQ, age as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||-0.3|-5.5|0.031
92375988|NCT03640052|184654517|SUPERIORITY||Mean Difference (Final Values)|3.6|||>|0.5|TWO_SIDED||||||Mixed Models Analysis|||mean difference vs Placebo||||>0.5
92375989|NCT03640052|184654517|SUPERIORITY||Mean Difference (Net)|-2.0|||>|0.5|TWO_SIDED||||||Mixed Models Analysis|||mean difference vs Placebo||||>0.5
92375990|NCT03640052|184654517|SUPERIORITY||Mean Difference (Net)|-6.8|||>|0.5|TWO_SIDED||||||Mixed Models Analysis|||mean difference vs Placebo||||>0.5
92375991|NCT03640052|184654517|SUPERIORITY||Mean Difference (Net)|-11.7||||0.33|TWO_SIDED||||||Mixed Models Analysis|||mean difference vs Placebo||||0.33
92375992|NCT03640052|184654518|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|||||||0.12
92375993|NCT00623545|184654519|SUPERIORITY_OR_OTHER||Mean Difference (Net)|185.0|STANDARD_DEVIATION|240.0||0.001|TWO_SIDED|95.0||||The a prior threshold for statistical significance was p\< 0.05|ANOVA||units are kcal/d|Previously published literature showed an average weight loss of 1.8 kg at 12 weeks of exenatide treatment. This was converted to differ- ence in TEE, estimating an average imbalance of 2 kg × 7800 kcal·kg-1 divided by 84 days or 185 kcal·day-1.We demonstrated an average reproducibility of the DLW method of 6% or 240 kcal·day-1. For a 5% probability of finding this difference with a power of 80%, we determined a need for 14 subjects to complete the study.||||0.001
92375994|NCT00623545|184654519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92375995|NCT00623545|184654520|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis was that energy intake was unchanged between the period before treatment and at the end of treatment.||||< 0.05
92375996|NCT00623545|184654520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92410412|NCT02447302|184711638|SUPERIORITY||MH estimate for difference in percentage|24.4|STANDARD_ERROR_OF_MEAN|8.87|=|0.003|TWO_SIDED|90.0|9.8|39.0||Mantel-Haenszel (MH) estimated common risk difference adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 2 mg from Placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||39.0|9.8|= 0.003
92239642|NCT00637273|184383081|SUPERIORITY_OR_OTHER|||||||0.0091|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target of \<=6.0% at Week 26 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||0.0091
92410413|NCT02447302|184711638|SUPERIORITY||MH estimate for difference in percentage|4.1|STANDARD_ERROR_OF_MEAN|7.98|=|0.3059|TWO_SIDED|90.0|-9.1|17.2||MH estimated common risk difference adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 1 mg from Placebo|||17.2|-9.1|= 0.3059
92410414|NCT02447302|184711639|SUPERIORITY||Difference in least square mean|-0.84|STANDARD_ERROR_OF_MEAN|0.29|=|0.002|TWO_SIDED|90.0|-1.32|-0.36||The analysis was performed using an ANCOVA model that incorporated treatment, current oral corticosteroid use, prior exposure to TNFα antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the 2-component MCS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 2 mg from placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||-0.36|-1.32|= 0.0020
92410415|NCT02447302|184711639|SUPERIORITY||Difference in least square mean|-0.39|STANDARD_ERROR_OF_MEAN|0.28|=|0.0858|TWO_SIDED|90.0|-0.85|0.08||The analysis was performed using an ANCOVA model that incorporated treatment, current oral corticosteroid use, prior exposure to TNFα antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the 2-component MCS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 1 mg from placebo|||0.08|-0.85|= 0.0858
92375997|NCT05479097|184654540|SUPERIORITY||Median Difference (Net)|-7.5||||0.03232|TWO_SIDED|95.0|-12.0|-1.0||A priori threshold for statistical significance was P \<0.05.|Wilcoxon signed rank test|Systolic blood pressure was not normally distributed in the study sample, so nonparametric analysis was used.||The null hypothesis was that there was no change in systolic blood pressure.||-1.0|-12.0|0.03232
92375998|NCT05479097|184654541|SUPERIORITY||Mean Difference (Net)|-3.1||||0.045|TWO_SIDED|95.0|-6.1|-0.1||The a priori threshold for statistical significance was P \<0.05.|t-test, 2 sided|As diastolic blood pressure was normally distributed in our sample, we used a paired t-test to evaluate the mean difference in measurements.||The null hypothesis was that there was no change in diastolic blood pressure.||-0.1|-6.1|0.045
92375999|NCT05479097|184654542|SUPERIORITY|||||||0.7237||||||The a priori threshold for statistical significance was P \<0.05|McNemar|||The null hypothesis was no change in the proportion of patients with systolic blood pressure well-controlled (\<=140 mmHg) from baseline to 6 months.||||0.7237
92410416|NCT02447302|184711640|SUPERIORITY||Difference in least square mean|-1.27|STANDARD_ERROR_OF_MEAN|0.55|=|0.01|TWO_SIDED|90.0|-2.17|-0.37||The analysis was performed using an ANCOVA model that incorporated treatment, current oral corticosteroid use, prior exposure to TNFα antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the TMS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 2 mg from placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||-0.37|-2.17|= 0.0100
92410417|NCT02447302|184711640|SUPERIORITY||Difference in least square mean|-0.6|STANDARD_ERROR_OF_MEAN|0.53|=|0.1277|TWO_SIDED|90.0|-1.48|0.27||The analysis was performed using an ANCOVA model that incorporated treatment, current oral corticosteroid use, prior exposure to TNFα antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the TMS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 1 mg from placebo|||0.27|-1.48|= 0.1277
92376000|NCT05479097|184654543|SUPERIORITY|||||||0.7237||||||The a priori threshold for statistical significance was P \<0.05|McNemar|||The null hypothesis was that there was no difference in the proportion of patients with systolic blood pressure less than or equal to their personalized goal from baseline to 6 months.||||0.7237
92169146|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.14||0.5819|TWO_SIDED|95.0|-0.19|0.35|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.35|-0.19|0.5819
92169147|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8538|TWO_SIDED|95.0|-0.26|0.31|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.31|-0.26|0.8538
92169148|NCT02528188|184227139|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.15||0.1981|TWO_SIDED|95.0|-0.1|0.47|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.47|-0.10|0.1981
92169149|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.0846|TWO_SIDED|95.0|-0.33|0.02|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.02|-0.33|0.0846
92169150|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.9749|TWO_SIDED|95.0|-0.18|0.17|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.17|-0.18|0.9749
92169151|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.1||0.0076|TWO_SIDED|95.0|-0.45|-0.07|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.07|-0.45|0.0076
92169152|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.1||0.0003|TWO_SIDED|95.0|-0.54|-0.16|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.16|-0.54|0.0003
92169153|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.1||0.4402|TWO_SIDED|95.0|-0.27|0.12|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.12|-0.27|0.4402
92169154|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.61|-0.21|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.21|-0.61|<0.0001
92169155|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.11||0.1543|TWO_SIDED|95.0|-0.38|0.06|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.38|0.1543
92239643|NCT00637273|184383082|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.54|STANDARD_ERROR_OF_MEAN|0.416||0.0002|TWO_SIDED|95.0|0.72|2.35||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in body weight from baseline (Day 1) to Week 26 was analyzed by an analysis of covariance (ANCOVA) model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of body weight as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||2.35|0.72|0.0002
92376001|NCT00445848|184654565|OTHER||proportion of participants|0.78|||||TWO_SIDED|95.0|0.67|0.85||||||The overall survival rate at year 1 was estimated using Kaplan-Meier.||0.85|0.67|
92376002|NCT00445848|184654565|OTHER||proportion of participants|0.57|||||TWO_SIDED|95.0|0.46|0.67||||||The overall survival rate at year 2 was estimated using Kaplan-Meier.||0.67|0.46|
92410418|NCT02447302|184711641|SUPERIORITY||Odds Ratio (OR)|2.78|||=|0.0071|TWO_SIDED|90.0|1.4|5.51||The analysis was performed using an ordered logistic regression model with terms for treatment, current oral corticosteroid use, and prior exposure to TNFα antagonists.|ANCOVA|The analysis compared the odds of achieving higher trichotomous composite score between the groups using 1-sided test at 0.05 level of significance.||The primary comparison in the study was between etrasimod 2 mg versus placebo.||5.51|1.40|= 0.0071
92239644|NCT00637273|184383082|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|0.415|<|0.0001|TWO_SIDED|95.0|4.28|5.91||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in body weight from baseline (Day 1) to Week 26 was analyzed by an analysis of covariance (ANCOVA) model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of body weight as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||5.91|4.28|<.0001
92240240|NCT00051558|184383963|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92376003|NCT00445848|184654565|OTHER||proportion of participants|0.43|||||TWO_SIDED|95.0|0.32|0.53||||||The overall survival rate at year 3 was estimated using Kaplan-Meier.||0.53|0.32|
92376004|NCT00855933|184654594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.066||0.126|TWO_SIDED|95.0|-0.03|0.24||a priori threshold for statistical significance = 0.05|ANCOVA||2-sided with the significance level set at 5%|||0.24|-0.03|0.126
92376005|NCT05463744|184654595|NON_INFERIORITY|0.4% noninferiority margin (NIM)|LS Mean Difference|0.052|||||TWO_SIDED|95.0|-0.077|0.181|||ANCOVA|||||0.181|-0.077|
92410419|NCT02447302|184711641|SUPERIORITY||Odds Ratio (OR)|1.61|||=|0.1192|TWO_SIDED|90.0|0.83|3.14||The analysis was performed using an ordered logistic regression model with terms for treatment, current oral corticosteroid use, and prior exposure to TNFα antagonists.|ANCOVA|The analysis compared the odds of achieving higher trichotomous composite score between the groups using 1-sided test at 0.05 level of significance.||||3.14|0.83|= 0.1192
92410420|NCT02447302|184711642|SUPERIORITY||MH estimate for difference in percentage|25.8|STANDARD_ERROR_OF_MEAN|7.47|=|0.0003|TWO_SIDED|90.0|13.5|38.1||The analysis was performed using MH method that was adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 2 mg from Placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||38.1|13.5|= 0.0003
92410421|NCT02447302|184711642|SUPERIORITY||MH estimate for difference in percentage|7.1|STANDARD_ERROR_OF_MEAN|6.46|=|0.136|TWO_SIDED|90.0|-3.5|17.7||The analysis was performed using MH method that was adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 1 mg from Placebo|||17.7|-3.5|= 0.1360
92410422|NCT02447302|184711643|SUPERIORITY||MH estimate for difference in percentage|18.9|STANDARD_ERROR_OF_MEAN|9.92|=|0.0282|TWO_SIDED|90.0|2.6|35.3||The analysis was performed using MH method that was adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 2 mg from Placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||35.3|2.6|= 0.0282
92410423|NCT02447302|184711643|SUPERIORITY||MH estimate for difference in percentage|11.4|STANDARD_ERROR_OF_MEAN|10.14|=|0.1309|TWO_SIDED|90.0|-5.3|28.1||The analysis was performed using MH method that was adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 1 mg from Placebo|||28.1|-5.3|= 0.1309
92410424|NCT01742286|184711668|OTHER||MTD/RDE|510.0||||||||||||||||||
92376006|NCT05463744|184654596|SUPERIORITY||LS Mean Difference|0.052||||0.432|TWO_SIDED|95.0|-0.077|0.181|||ANCOVA|||||0.181|-0.077|0.432
92376007|NCT05463744|184654597|SUPERIORITY||LS Mean Difference|-0.31||||0.751|TWO_SIDED|95.0|-2.22|1.6|||ANCOVA|||||1.60|-2.22|0.751
92376008|NCT05463744|184654598|SUPERIORITY||Relative Rate|1.02||||0.9|TWO_SIDED|95.0|0.79|1.31|||Negative binomial model|||||1.31|0.79|0.900
92410425|NCT01742286|184711668|OTHER||MTD/RDE|500.0||||||||||||||||||
92410426|NCT05091567|184711718|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.43|0.67|||Log Rank|||Stratified Analysis: The stratification factors were Eastern Cooperative Oncology Group performance status (ECOG PS) at randomization (0 vs. 1); Lactate Dehydrogenase (LDH) at randomization (\<=upper limit of normal (ULN) vs \>ULN) via local laboratory test; Presence of liver metastases at enrollment (yes vs. no); Prior receipt of prophylactic cranial irradiation (PCI) (yes vs. no).||0.67|0.43|< .0001
92410427|NCT05091567|184711719|SUPERIORITY||Hazard Ratio (HR)|0.73|||=|0.0174|TWO_SIDED|95.0|0.57|0.95|||Log Rank|||Stratified Analysis: The stratification factors were ECOG PS at randomization (0 vs. 1); LDH at randomization (\<=ULN vs \>ULN) via local laboratory test; Presence of liver metastases at enrollment (yes vs. no); Prior receipt of PCI (yes vs. no).||0.95|0.57|= 0.0174
92410428|NCT05091567|184711720|SUPERIORITY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.45|0.68||||||Stratified Analysis: The stratification factors were ECOG PS at randomization (0 vs. 1); LDH at randomization (\<=ULN vs \>ULN) via local laboratory test; Presence of liver metastases at enrollment (yes vs. no); Prior receipt of PCI (yes vs. no).||0.68|0.45|
92410429|NCT05091567|184711721|SUPERIORITY||Difference in Overall Response Rates|8.99|||||TWO_SIDED|95.0|1.07|16.9||||||Stratified Analysis: The stratification factors were ECOGPS at randomization (0 vs. 1);LDH at randomization (\<=ULN vs \>ULN) via local laboratory test; Presence of liver metastases at enrollment (yes vs. no); Prior receipt of PCI (yes vs. no).||16.90|1.07|
92376009|NCT05463744|184654599|NON_INFERIORITY|0.4% noninferiority margin (NIM)|LS Mean Difference|0.024|STANDARD_ERROR_OF_MEAN|0.0682|||TWO_SIDED|95.0|-0.11|0.157|||ANCOVA|||||0.157|-0.110|
92376010|NCT05463744|184654600|SUPERIORITY||LS Mean Difference|-1.22||||0.697|TWO_SIDED|95.0|-7.38|4.93|||ANCOVA|||Week 26||4.93|-7.38|0.697
92376011|NCT05463744|184654600|SUPERIORITY||LS Mean Difference|-4.84||||0.163|TWO_SIDED|95.0|-11.64|1.96|||ANCOVA|||Week 52||1.96|-11.64|0.163
92376012|NCT05463744|184654601|SUPERIORITY||LS Mean Difference|0.02||||0.939|TWO_SIDED|95.0|-0.61|0.66|||Mixed Models Analysis|||Week 23 to Week 26||0.66|-0.61|0.939
92376013|NCT05463744|184654601|SUPERIORITY||LS Mean Difference|0.52||||0.116|TWO_SIDED|95.0|-0.13|1.17|||Mixed Models Analysis|||Week 49 to Week 52||1.17|-0.13|0.116
92229561|NCT03575104|184361921|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-0.43|||=|0.3048|TWO_SIDED|95.0|-1.251|0.392||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 1 (Daridorexant 10 mg vs placebo).||0.392|-1.251|= 0.3048
92229562|NCT03575104|184361922|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-1.25|||=|0.012|TWO_SIDED|95.0|-2.23|-0.276||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00391; statistically significant = NO||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 3 (Daridorexant 25 mg vs placebo).||-0.276|-2.230|= 0.0120
92240241|NCT00051558|184383964|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36-month endpoint|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline femoral neck bone mineral density (BMD) measurement.||||<0.001
92376014|NCT05463744|184654602|SUPERIORITY||LS Mean Difference|0.54||||0.61|TWO_SIDED|95.0|-1.54|2.62|||ANCOVA|||||2.62|-1.54|0.610
92376015|NCT05463744|184654603|SUPERIORITY||LS Mean Difference|-8.96||||0.155|TWO_SIDED|95.0|-21.3|3.38|||Mixed Models Analysis|||Week 26||3.38|-21.30|0.155
92376016|NCT05463744|184654603|SUPERIORITY||LS Mean Difference|-6.88||||0.278|TWO_SIDED|95.0|-19.31|5.55|||Mixed Models Analysis|||Week 52||5.55|-19.31|0.278
92376017|NCT05463744|184654604|SUPERIORITY||LS Mean Difference|-3.77|||<|0.001|TWO_SIDED|95.0|-5.52|-2.03|||Mixed Models Analysis|||Week 26||-2.03|-5.52|<0.001
92376018|NCT05463744|184654604|SUPERIORITY||LS Mean Difference|-3.49|||<|0.001|TWO_SIDED|95.0|-5.26|-1.71|||Mixed Models Analysis|||Week 52||-1.71|-5.26|<0.001
92376019|NCT05463744|184654605|SUPERIORITY||LS Mean Difference|-39.28|||<|0.001|TWO_SIDED|95.0|-57.59|-20.98|||Mixed Models Analysis|||Week 26||-20.98|-57.59|<0.001
92376020|NCT05463744|184654605|SUPERIORITY||LS Mean Difference|-35.94|||<|0.001|TWO_SIDED|95.0|-54.44|-17.43|||Mixed Models Analysis|||Week 52||-17.43|-54.44|<0.001
92376021|NCT05463744|184654606|SUPERIORITY||LS Mean Difference|3.19|||<|0.001|TWO_SIDED|95.0|1.32|5.06|||Mixed Models Analysis|||Week 26||5.06|1.32|<0.001
92376022|NCT05463744|184654606|SUPERIORITY||LS Mean Difference|2.8||||0.004|TWO_SIDED|95.0|0.91|4.7|||Mixed Models Analysis|||Week 52||4.70|0.91|0.004
92376023|NCT05463744|184654607|SUPERIORITY||Relative Rate|1.21||||0.016|TWO_SIDED|95.0|1.04|1.41|||Negative binomial model|||||1.41|1.04|0.016
92376024|NCT05463744|184654608|SUPERIORITY||LS Mean Difference|0.086||||0.702|TWO_SIDED|95.0|-0.35|0.53|||Mixed Models Analysis|||Week 26||0.53|-0.35|0.702
92376025|NCT05463744|184654608|SUPERIORITY||LS Mean Difference|0.12||||0.609|TWO_SIDED|95.0|-0.33|0.56|||Mixed Models Analysis|||Week 52||0.56|-0.33|0.609
92376026|NCT05463744|184654609|SUPERIORITY||LS Mean Difference|0.03||||0.681|TWO_SIDED|95.0|-0.13|0.19|||ANCOVA|||Week 23 to Week 26||0.19|-0.13|0.681
92376027|NCT05463744|184654609|SUPERIORITY||LS Mean Difference|0.1||||0.182|TWO_SIDED|95.0|-0.05|0.24|||ANCOVA|||Week 49 to Week 52||0.24|-0.05|0.182
92376028|NCT05463744|184654610|SUPERIORITY||LS Mean Difference|0.0||||0.999|TWO_SIDED|95.0|-2.06|2.05|||ANCOVA|||Week 23 to Week 26||2.05|-2.06|0.999
92376029|NCT05463744|184654611|SUPERIORITY||LS Mean Difference|-0.83||||0.468|TWO_SIDED|95.0|-3.06|1.41|||ANCOVA|||||1.41|-3.06|0.468
92376030|NCT05463744|184654612|OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92376031|NCT05463744|184654613|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92376032|NCT05463744|184654614|SUPERIORITY||LS Mean Difference|0.43||||0.27|TWO_SIDED|95.0|-0.33|1.19|||Mixed Models Analysis|||Physical Component Score: Week 26||1.19|-0.33|0.270
92376033|NCT05463744|184654614|SUPERIORITY||LS Mean Difference|0.73||||0.05|TWO_SIDED|95.0|0.0|1.45|||Mixed Models Analysis|||Physical Component Score: Week 52||1.45|0.000|0.050
92376034|NCT05463744|184654614|SUPERIORITY||LS Mean Difference|0.22||||0.71|TWO_SIDED|95.0|-0.94|1.38|||Mixed Models Analysis|||Mental Component Score: Week 26||1.38|-0.94|0.710
92410430|NCT05091567|184711722|SUPERIORITY||Difference in Overall Response Rates|3.9|||||TWO_SIDED|95.0|-3.51|11.32||||||Stratified Analysis: The stratification factors were ECOGPS at randomization (0 vs. 1);LDH at randomization (\<=ULNvs \>ULN) via local laboratory test; Presence of liver metastases at enrollment (yes vs. no); Prior receipt of PCI (yes vs. no).||11.32|-3.51|
92410431|NCT05091567|184711725|SUPERIORITY||Difference in Event Free Rate|22.56|||||TWO_SIDED|95.0|14.12|31.0||||||||31.00|14.12|
92229563|NCT03575104|184361922|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-0.73|||=|0.1393|TWO_SIDED|95.0|-1.706|0.239||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 3 (Daridorexant 10 mg vs placebo).||0.239|-1.706|= 0.1393
92229564|NCT03575104|184361923|OTHER||LS mean difference to placebo|0.93||||0.2506|TWO_SIDED|95.0|0.82|1.05||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 1 (Daridorexant 10 mg vs placebo).||1.05|0.82|0.2506
92376035|NCT05463744|184654614|SUPERIORITY||LS Mean Difference|0.45||||0.447|TWO_SIDED|95.0|-0.71|1.61|||Mixed Models Analysis|||Mental Component Score: Week 52||1.61|-0.71|0.447
92376036|NCT00812006|184654661|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Generalized Linear Mixed Model|An unstructured covariance matrix was used to model the correlation among repeated measurements within a patient.||||||<0.001
92376037|NCT00812006|184654662|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Nominal p-value was adjusted under Benjamini and Hochberg's false discovery rate procedure for the multiple secondary endpoints at α=0.1 significance level.|Generalized Linear Mixed Model|A compound-symmetry covariance matrix was used to model the correlation among repeated measurements within a patient, due to a convergence issue.||||||<0.001
92376038|NCT00812006|184654663|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Nominal p-value was adjusted under Benjamini and Hochberg's false discovery rate procedure for the multiple secondary endpoints at α=0.1 significance level.|Generalized Linear Mixed Model|An unstructured covariance matrix was used to model the correlation among repeated measurements within a patient.||||||<0.001
92376039|NCT00812006|184654664|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Nominal p-value was adjusted under Benjamini and Hochberg's falsediscovery rate procedure for the multiple secondary endpoints at α=0.1 significance level.|Generalized Linear Mixed Model|An unstructured covariance matrix was used to model the correlation among repeated measurements within a patient.||||||<0.001
92376040|NCT00812006|184654665|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Nominal p-value was adjusted under Benjamini and Hochberg's false discovery rate procedure for the multiple secondary endpoints at α=0.1 significance level.|Generalized Linear Mixed Model|A compound-symmetry covariance matrix was used to model the correlation among repeated measurements within a patient, due to a convergence issue.||||||<0.001
92376041|NCT00068250|184654666|OTHER||||||||||||||||||Dose escalation followed the standard 3+3 design, although up to six patients could be accrued per dose level before suspending accrual for toxicity evaluation. If none of the first three patients (0/3), or one of the first three and none of the second three (1/3 and 0/3), experience a DLT, then the current dose level would be considered acceptable, and the next dose opened. Otherwise, the current dose level would be considered too toxic. The highest dose achieved with an acceptable level of toxicity was to considered the Maximum Tolerable Dose (MTD). If at any time a grade 5 toxicity was observed, accrual will be suspended, and the Study Chair would review the event. Furthermore, if the cumulative incidence (obtained by time to event analysis), at any time, of combined acute/late DLTs estimated the toxicity rate to be greater than 30% at any dose level, then the Executive Committee will be notified, and the committee would determine whether to stop accrual.|||
92376042|NCT00068250|184654667|SUPERIORITY|||||||0.006|||||||One-sample z-test|||Null hypothesis: Two-year survival rate \<= 64%; Alternative hypothesis: Two-year survival rate \> 64%. The fixed survival rate for comparison comes from Radiation Therapy Oncology Group (RTOG) trial 9310. (RTOG 9310 does not fall within ClinicalTrials.gov registration/reporting requirements.)||||0.006
92376043|NCT00068250|184654668|OTHER|||||||0.82|||||||Chi-squared|One-sample test of proportions||RTOG 93-10 reported a pre-irradiation chemotherapy complete response rate of 59%. A chi-square test with a 0.20 one-sided significance level provides 81% power to detect the difference between a null hypothesis complete response rate of 59% and the alternative rate of 71% (a 20% increase) for the planned sample size of 52 patients.||||0.82
92376044|NCT03242772|184654671|OTHER|||||||0.2664||||||Significance at \<0.05|95% confidence interval|confidence interval (CI) = -3.5729 - 11.6929|||Presentation of results will include p-values and 95% confidence intervals for the least mean square values at weeks 0, 10, 24 (week 24 is exploratory).|||0.2664
92376045|NCT03242772|184654672|OTHER|||||||0.3721||||||Significance at \<0.05|95% confidence interval|confidence interval (CI) = -17.7698 - 7.2698|||Presentation of results will include p-values and 95% confidence intervals for the least mean square values at weeks 0, 10, 24 (week 24 is exploratory).|||0.3721
92410432|NCT05091567|184711725|SUPERIORITY||Difference in Event Free Rate|8.51|||||TWO_SIDED|95.0|0.72|16.31||||||||16.31|0.72|
92410433|NCT05091567|184711726|SUPERIORITY||Difference in Event Free Rate|23.65|||||TWO_SIDED|95.0|15.09|32.2||||||||32.20|15.09|
92410434|NCT05091567|184711726|SUPERIORITY||Difference in Event Free Rate|7.53|||||TWO_SIDED|95.0|-0.11|15.16||||||||15.16|-0.11|
92410435|NCT03054129|184711738|SUPERIORITY|||||||0.866|||||||Wilcoxon (Mann-Whitney)|||||||0.866
92410436|NCT03054129|184711739|SUPERIORITY|||||||0.361|||||||Wilcoxon (Mann-Whitney)|||||||0.361
92410437|NCT03054129|184711740|SUPERIORITY|||||||0.565|||||||Wilcoxon (Mann-Whitney)|||||||0.565
92410438|NCT03054129|184711741|OTHER|||||||0|||||||Wilcoxon (Mann-Whitney)|||||||0.000
92410439|NCT03054129|184711742|OTHER|||||||0|||||||Wilcoxon (Mann-Whitney)|||||||0.000
92410440|NCT03054129|184711743|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|||||||0.357
92229565|NCT03575104|184361923|OTHER||LS mean difference to placebo|0.8||||0.0004|TWO_SIDED|95.0|0.71|0.91||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 1 (Daridorexant 25 mg vs placebo).||0.91|0.71|0.0004
92229566|NCT03575104|184361924|OTHER||LS mean difference to placebo|0.96||||0.5037|TWO_SIDED|95.0|0.84|1.09||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 3 (Daridorexant 10 mg vs placebo).||1.09|0.84|0.5037
92229567|NCT03575104|184361924|OTHER||LS mean difference to placebo|0.81||||0.0021|TWO_SIDED|95.0|0.71|0.93||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in LPS (min) to Month 3 (Daridorexant 25 mg vs placebo).||0.93|0.71|0.0021
92229568|NCT01355289|184361955|SUPERIORITY_OR_OTHER||Difference in % of Responders|31.62||||0.0236|TWO_SIDED|95.0|5.39|57.84|||Cochran-Mantel-Haenszel|||||57.84|5.39|0.0236
92229569|NCT01355289|184361955|SUPERIORITY_OR_OTHER||Difference in % of Responders|60.78||||0.0003|TWO_SIDED|95.0|36.3|85.27|||Cochran-Mantel-Haenszel|||||85.27|36.30|0.0003
92229570|NCT01355289|184361955|SUPERIORITY_OR_OTHER||Difference in % of Responders|58.4||||0.0003|TWO_SIDED|95.0|30.92|85.88|||Cochran-Mantel-Haenszel|||||85.88|30.92|0.0003
92229571|NCT03618030|184362003|OTHER|||||||0.0003|||||||ANOVA|||The primary efficacy analysis used a mixed-model repeated measures (MMRM) analysis on the full day laboratory classroom PERMP-T scores.||||.0003
92229572|NCT00860470|184362004|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.95||||0.36|TWO_SIDED|95.0|0.86|1.06|||Regression, Logistic|Bonferroni-adjusted alpha=0.01 (for 5 comparisons)|GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||1.06|0.86|0.36
92376046|NCT02499900|184654698|SUPERIORITY||Mean Difference (Final Values)|0.321|||<|0.001|TWO_SIDED|95.0|0.1615|0.4814||0.05 level of significance|Repeated Measures ANCOVA|||Estimates and p-value are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: MSQ=baseline MSQ score+treatment+visit+treatment by visit interaction. Treatment-naïve patients are not included in this analysis as MSQ is not measured at baseline for these patients.||0.4814|0.1615|<0.001
92376047|NCT02499900|184654699|SUPERIORITY||Mean Difference (Final Values)|9.448|||<|0.001|TWO_SIDED|95.0|6.9538|11.9429||0.05 level of significance|Repeated Measures ANCOVA|||Estimates and p-value are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: TSQM-9 convenience score=baseline TSQM-9 convenience score+treatment+CGR+treatment by visit interaction. Treatment-naïve patients are not included in this analysis as TSQM-9 is not measured at baseline for these patients.||11.9429|6.9538|<0.001
92376048|NCT02499900|184654700|SUPERIORITY||Mean Difference (Final Values)|-0.802||||0.208|TWO_SIDED|95.0|-2.05|0.4461||0.05 level of significance|Repeated Measures ANCOVA|||MFIS Total Score Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MFIS score=baseline MFIS score+treatment+visit +CGR+treatment by visit interaction.||0.4461|-2.0500|0.208
92376049|NCT02499900|184654700|SUPERIORITY||Mean Difference (Final Values)|-0.231||||0.47|TWO_SIDED|95.0|-0.8588|0.3962||0.05 level of significance|Repeated Measures ANCOVA|||MFIS Physical Subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MFIS score=baseline MFIS score+treatment+visit +CGR+treatment by visit interaction.||0.3962|-0.8588|0.470
92376050|NCT02499900|184654700|SUPERIORITY||Mean Difference (Final Values)|-0.639||||0.043|TWO_SIDED|95.0|-1.2564|-0.0214||0.05 level of significance|Repeated Measures ANCOVA|||MFIS Cognitive Subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MFIS score=baseline MFIS score+treatment+visit +CGR+treatment by visit interaction.||-0.0214|-1.2564|0.043
92376051|NCT02499900|184654700|SUPERIORITY||Mean Difference (Final Values)|0.102||||0.237|TWO_SIDED|95.0|-0.0672|0.2711||0.05 level of significance|Repeated Measures ANCOVA|||MFIS Psychosocial Subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MFIS score=baseline MFIS score+treatment+visit +CGR+treatment by visit interaction.||0.2711|-0.0672|0.237
92376052|NCT02499900|184654701|SUPERIORITY||Mean Difference (Final Values)|0.706||||0.287|TWO_SIDED|95.0|-0.5947|1.0074||0.05 level of significance|Repeated Measures ANCOVA|||Total Score Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MHI score=baseline MHI Total Score +treatment +visit +country/geographic region +treatment by visit interaction.||1.0074|-0.5947|0.287
92376053|NCT02499900|184654701|SUPERIORITY||Mean Difference (Final Values)|0.141||||0.868|TWO_SIDED|95.0|-1.5179|1.7991||0.05 level of significance|Repeated Measures ANCOVA|||Anxiety subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MHI score=baseline MHI Total Score +treatment +visit +country/geographic region +treatment by visit interaction.||1.7991|-1.5179|0.868
92410441|NCT03054129|184711744|SUPERIORITY|||||||0.715|||||||Wilcoxon (Mann-Whitney)|||||||0.715
92410442|NCT03054129|184711745|SUPERIORITY|||||||0.978|||||||Wilcoxon (Mann-Whitney)|||||||0.978
92410443|NCT03054129|184711746|SUPERIORITY|||||||0.191|||||||Wilcoxon (Mann-Whitney)|||||||0.191
92410444|NCT03054129|184711747|SUPERIORITY|||||||0.097|||||||Wilcoxon (Mann-Whitney)|||||||0.097
92410445|NCT03054129|184711748|SUPERIORITY|||||||0.339|||||||Wilcoxon (Mann-Whitney)|||||||0.339
92410446|NCT03054129|184711749|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
92410447|NCT03054129|184711750|SUPERIORITY|||||||0.933|||||||Wilcoxon (Mann-Whitney)|||||||0.933
92410448|NCT03054129|184711751|SUPERIORITY|||||||0.136|||||||Wilcoxon (Mann-Whitney)|||||||0.136
92410449|NCT03054129|184711752|SUPERIORITY|||||||0.673|||||||Wilcoxon (Mann-Whitney)|||||||0.673
92410450|NCT03054129|184711753|SUPERIORITY|||||||0.715|||||||Wilcoxon (Mann-Whitney)|||||||0.715
92410451|NCT03054129|184711754|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.040
92410452|NCT03054129|184711755|SUPERIORITY|||||||0.779|||||||Wilcoxon (Mann-Whitney)|||||||0.779
92410453|NCT03054129|184711756|SUPERIORITY|||||||0.152|||||||Wilcoxon (Mann-Whitney)|||||||0.152
92229573|NCT00860470|184362005|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.98||||0.78|TWO_SIDED|95.0|0.88|1.2|||Regression, Logistic||GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||1.20|0.88|0.78
92229574|NCT00860470|184362006|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.81||||0.11|TWO_SIDED|95.0|0.63|1.04|||Regression, Logistic||GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||1.04|0.63|0.11
92410454|NCT03054129|184711757|SUPERIORITY|||||||0.129|||||||Wilcoxon (Mann-Whitney)|||||||0.129
92410455|NCT03054129|184711758|SUPERIORITY|||||||0.384|||||||Wilcoxon (Mann-Whitney)|||||||0.384
92410456|NCT03054129|184711759|SUPERIORITY|||||||0.978|||||||Wilcoxon (Mann-Whitney)|||||||0.978
92410457|NCT03054129|184711760|SUPERIORITY|||||||0.715|||||||Wilcoxon (Mann-Whitney)|||||||0.715
92410458|NCT03054129|184711761|SUPERIORITY|||||||0.546|||||||Wilcoxon (Mann-Whitney)|||||||0.546
92410459|NCT03054129|184711762|SUPERIORITY|||||||0.933|||||||Wilcoxon (Mann-Whitney)|||||||0.933
92410460|NCT03054129|184711763|SUPERIORITY|||||||0.684|||||||Wilcoxon (Mann-Whitney)|||||||0.684
92277956|NCT00782509|184458093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.135|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.203|0.135|<0.0001
92410461|NCT03054129|184711764|SUPERIORITY|||||||0.112|||||||Wilcoxon (Mann-Whitney)|||||||0.112
92410462|NCT03054129|184711765|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
92410463|NCT03054129|184711766|SUPERIORITY|||||||0.633|||||||Wilcoxon (Mann-Whitney)|||||||0.633
92410464|NCT03054129|184711767|SUPERIORITY|||||||0.736|||||||Wilcoxon (Mann-Whitney)|||||||0.736
92410465|NCT03054129|184711768|SUPERIORITY|||||||0.227|||||||Wilcoxon (Mann-Whitney)|||||||0.227
92410466|NCT03054129|184711769|SUPERIORITY|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||||||0.109
92410467|NCT03054129|184711770|SUPERIORITY|||||||0.844|||||||Wilcoxon (Mann-Whitney)|||||||0.844
92277957|NCT00782509|184458093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.127|0.195|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.195|0.127|<0.0001
92277958|NCT00782509|184458094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.131|0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.200|0.131|<0.0001
92277959|NCT00782509|184458094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.102|0.171|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.171|0.102|<0.0001
92410468|NCT03054129|184711771|SUPERIORITY|||||||0.122|||||||Wilcoxon (Mann-Whitney)|||||||0.122
92410469|NCT03054129|184711772|SUPERIORITY|||||||0.715|||||||Wilcoxon (Mann-Whitney)|||||||0.715
92410470|NCT03054129|184711773|SUPERIORITY|||||||0.593|||||||Wilcoxon (Mann-Whitney)|||||||0.593
92410471|NCT03054129|184711774|SUPERIORITY|||||||0.508|||||||Wilcoxon (Mann-Whitney)|||||||0.508
92410472|NCT00843284|184711776|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.16|STANDARD_DEVIATION|2.52|<|0.0001||95.0|-4.35|-3.97|||t-test, 2 sided|One sample t-test||Change from Baseline; observational study||-3.97|-4.35|<0.0001
92410473|NCT00843284|184711777|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.02|STANDARD_DEVIATION|2.9|<|0.0001||95.0|-4.24|-3.8|||t-test, 2 sided|One sample t-test.||Change from baseline||-3.80|-4.24|<0.0001
92410474|NCT01954927|184711806|SUPERIORITY|||||||0.227||||||1-sided p-value|z-test Proportion|z-test of proportions without continuity correction||||||0.227
92410475|NCT01954927|184711807|SUPERIORITY|||||||0.897|||||||Wilcoxon (Mann-Whitney)|||||||0.897
92410476|NCT01954927|184711808|SUPERIORITY|||||||0.181|||||||Chi-squared|||||||0.181
92410477|NCT01954927|184711809|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.730
92410478|NCT01954927|184711810|SUPERIORITY|||||||0.713|||||||Chi-squared|||||||0.713
92410479|NCT01954927|184711811|SUPERIORITY|||||||0.739|||||||Wilcoxon (Mann-Whitney)|||||||0.739
92410480|NCT01954927|184711812|SUPERIORITY|||||||0.388|||||||Wilcoxon (Mann-Whitney)|||||||0.388
92410481|NCT02617485|184711827|EQUIVALENCE|Equivalence met if the 90% CI of the Geo LS Means ratio is contained with the pre-specified equivalence margin of 70% - 143%.|Ratio of Geo LS-means|1.0406|||||TWO_SIDED|90.0|0.9565|1.1321||||||Estimated Geo LS-means ratio.||1.1321|0.9565|
92410482|NCT02617485|184711828|EQUIVALENCE|Equivalence met if the 90% CI of the Geo LS Means ratio is contained with the pre-specified equivalence margin of 70% - 143%.|Ratio of Geo LS-means|1.0611|||||TWO_SIDED|90.0|0.9822|1.1464||||||Estimated Geo LS-means ratio.||1.1464|0.9822|
92410483|NCT03861988|184711839|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||||||0.13
92410484|NCT00669409|184711860|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-17.8|13.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.8|-17.8|
92410485|NCT00669409|184711860|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.5|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-34.3|-2.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.8|-34.3|
92410486|NCT00669409|184711860|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-18.5|13.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.1|-18.5|
92410487|NCT00669409|184711860|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.8|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-29.4|1.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.8|-29.4|
92410488|NCT00669409|184711860|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-34.5|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-55.2|-13.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-13.7|-55.2|
92410489|NCT00669409|184711861|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-19.4|12.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.2|-19.4|
92410490|NCT00669409|184711861|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.0|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-30.8|0.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.8|-30.8|
92410491|NCT00669409|184711861|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|4.1|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-11.7|19.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||19.9|-11.7|
92376054|NCT02499900|184654701|SUPERIORITY||Mean Difference (Final Values)|0.481||||0.544|TWO_SIDED|95.0|-1.0734|2.0348||0.05 level of significance|Repeated Measures ANCOVA|||Depression subscale estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MHI score=baseline MHI Total Score +treatment +visit +country/geographic region +treatment by visit interaction.||2.0348|-1.0734|0.544
92376055|NCT02499900|184654701|SUPERIORITY||Mean Difference (Final Values)|1.867||||0.014|TWO_SIDED|95.0|0.3843|3.3487||0.05 level of significance|Repeated Measures ANCOVA|||Behavioral Control subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MHI score=baseline MHI Total Score +treatment +visit +country/geographic region +treatment by visit interaction.||3.3487|0.3843|0.014
92376056|NCT02499900|184654701|SUPERIORITY||Mean Difference (Final Values)|-0.092||||0.919|TWO_SIDED|95.0|-1.8565|1.6728||0.05 level of significance|Repeated Measures ANCOVA|||MHI Positive Affect subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MHI score=baseline MHI Total Score +treatment +visit +country/geographic region +treatment by visit interaction.||1.6728|-1.8565|0.919
92376057|NCT02499900|184654702|SUPERIORITY||Mean Difference (Final Values)|-0.059||||0.851|TWO_SIDED|95.0|-0.6777|0.5592||0.05 level of significance|Repeated Measures ANCOVA|||Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline BDI-II total score=baseline BDI-II total score+treatment+visit+country/geographic region +treatment by visit interaction.||0.5592|-0.6777|0.851
92376058|NCT03385265|184654709|SUPERIORITY||partial eta squared|0.02|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92376059|NCT03385265|184654710|SUPERIORITY||partial eta squared|0.12|||||TWO_SIDED||||||repeated measures ANOVA|CESD-R = within subject variable; group = between subject variable||||||
92376060|NCT03385265|184654711|SUPERIORITY||partial eta squared|0.03|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92376061|NCT03385265|184654712|SUPERIORITY||partial eta squared|0.06|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92376062|NCT03385265|184654713|SUPERIORITY||partial eta squared|0.04|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92376063|NCT03385265|184654714|SUPERIORITY||partial eta squared|0.04|||<|0.05|TWO_SIDED||||||repeated measures ANOVA|||||||<0.05
92376064|NCT03385265|184654715|SUPERIORITY||partial eta squared|0.24|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92376065|NCT03385265|184654716|SUPERIORITY||partial eta squared|0.03|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92376066|NCT03385265|184654717|SUPERIORITY||partial eta squared|0.04|||||TWO_SIDED||||||repeated measures ANOVA|||||||
92376067|NCT01089023|184654725|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value measures the significance between each visit using analysis of variance|ANOVA|||||||<0.0001
92376068|NCT01089023|184654726|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value measures the significance between each visit using analysis of variance|ANOVA|||||||<0.0001
92376069|NCT03410797|184654728|OTHER|Due to small sample size, nonparametric Wilcoxon signed-rank tests were used to compare VHI-10 before and after therapy.|Median Difference (Net)|7.0||||0.0076|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Descriptive statistics characterized this patient perception measurement.||||.0076
92376070|NCT03410797|184654729|OTHER|Descriptive statistics characterized acoustic and aerodynamic measures, and patient perception measurements.|Median Difference (Final Values)|-1.53||||0.0329|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.0329
92376071|NCT03410797|184654730|OTHER|Descriptive statistics characterized acoustic and aerodynamic measures, and patient perception measurements.|Median Difference (Net)|15.39||||0.0164|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.0164
92376072|NCT03410797|184654731|OTHER|Descriptive statistics characterized acoustic and aerodynamic measures, and patient perception measurements.|Median Difference (Net)|-52.0||||0.1141|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1141
92376073|NCT03410797|184654732|OTHER|Descriptive statistics characterized acoustic and aerodynamic measures, and patient perception measurements.|Median Difference (Net)|-1.7||||0.3329|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.3329
92376074|NCT01185964|184654734|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.672||||0.0615|TWO_SIDED|95.0|0.442|1.021|||Log Rank|||||1.021|0.442|0.0615
92376075|NCT01185964|184654737|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.463||||0.0003|TWO_SIDED|95.0|0.301|0.71|||Log Rank|||||0.710|0.301|0.0003
92376076|NCT04465877|184654748|SUPERIORITY||Mean Difference (Final Values)|-2.12||||0.956|TWO_SIDED|95.0|-79.67|75.42|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 5 mg and placebo on Day 1||75.42|-79.67|0.956
92376077|NCT04465877|184654748|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.995|TWO_SIDED|95.0|-105.41|106.07|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 5 mg and placebo on Day 14||106.07|-105.41|0.995
92376078|NCT04465877|184654748|SUPERIORITY||Mean Difference (Final Values)|-59.35||||0.366|TWO_SIDED|95.0|-191.15|72.45|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 5 mg and placebo on Day 28||72.45|-191.15|0.366
92376079|NCT04465877|184654748|SUPERIORITY||Mean Difference (Final Values)|-100.02||||0.016|TWO_SIDED|95.0|-179.96|-20.08|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 10 mg and placebo on Day 1||-20.08|-179.96|0.016
92376080|NCT04465877|184654748|SUPERIORITY||Mean Difference (Final Values)|-137.85||||0.014|TWO_SIDED|95.0|-245.28|-30.43|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 10 mg and placebo on Day 14||-30.43|-245.28|0.014
92410492|NCT00669409|184711861|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-26.6|4.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.6|-26.6|
92410493|NCT00669409|184711861|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-30.5|10.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.9|-30.5|
92229575|NCT00860470|184362007|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.89||||0.02|TWO_SIDED|95.0|0.81|0.99|||Regression, Logistic|Bonferroni-adjusted alpha=0.01 (for 5 comparisons)|GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.99|0.81|0.02
92229576|NCT00860470|184362008|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.85|||<|0.001|TWO_SIDED|95.0|0.8|0.91|||Regression, Logistic|Bonferroni-adjusted alpha=0.01 (for 5 comparisons)|GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.91|0.80|<0.001
92229577|NCT00860470|184362009|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.75||||0.03|TWO_SIDED|95.0|0.57|0.97|||Regression, Logistic||GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.97|0.57|0.03
92229578|NCT00860470|184362010|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.73|||<|0.001|TWO_SIDED|95.0|0.62|0.86|||Regression, Logistic||GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.86|0.62|<0.001
92229579|NCT00860470|184362011|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.87||||0.87|TWO_SIDED|95.0|0.81|0.93|||Regression, Logistic||GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.93|0.81|0.87
92229580|NCT00860470|184362012|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.88|||<|0.001|TWO_SIDED|95.0|0.85|0.91|||Regression, Logistic|Bonferroni-adjusted alpha=0.01 (for 5 comparisons)|GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.91|0.85|<0.001
92229581|NCT00860470|184362013|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.98||||0.13|TWO_SIDED|95.0|0.96|1.01|||Regression, Logistic|Bonferroni-adjusted alpha=0.01 (for 5 comparisons)|GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||1.01|0.96|0.13
92229582|NCT00888238|184362018|SUPERIORITY_OR_OTHER||Least Squares Mean|1.7|||<|0.001||90.0|1.47|1.93|||ANOVA|||||1.93|1.47|<0.001
92229583|NCT00888238|184362019|SUPERIORITY_OR_OTHER||Least Squares Mean|1.3|||<|0.001||90.0|1.08|1.52|||ANOVA|||||1.52|1.08|<0.001
92277960|NCT00782509|184458095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.127|0.196|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.196|0.127|<0.0001
92410494|NCT00669409|184711862|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-19.4|12.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.2|-19.4|
92410495|NCT00669409|184711862|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.5|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-34.3|-2.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.8|-34.3|
92229584|NCT00988247|184362053|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo]|-0.97|||<|0.001|TWO_SIDED|95.0|-1.5|-0.5|||ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, treatment, week and the treatment by week interaction.||||-0.5|-1.5|<0.001
92229585|NCT00988247|184362054|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo]|-0.96|||<|0.001|TWO_SIDED|95.0|-1.4|-0.5|||ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, treatment, week and the treatment by week interaction.||||-0.5|-1.4|<0.001
92229586|NCT00988247|184362055|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo]|-1.09|||<|0.001|TWO_SIDED|95.0|-1.6|-0.6|||ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, treatment, week and the treatment by week interaction.||||-0.6|-1.6|<0.001
92229587|NCT00988247|184362056|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo]|-1.1|||<|0.001|TWO_SIDED|95.0|-1.6|-0.6|||ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, treatment, week and the treatment by week interaction.||||-0.6|-1.6|<0.001
92229588|NCT00988247|184362057|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-0.3||||0.143|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|ANCOVA with treatment, baseline and pooled center in the model.||||0.1|-0.7|0.143
92229589|NCT00988247|184362058|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-0.49||||0.13|TWO_SIDED|95.0|-1.1|0.1|||ANCOVA|ANCOVA with treatment, baseline and pooled center in the model.||||0.1|-1.1|0.130
92229590|NCT01169779|184362067|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.099||0.0004|TWO_SIDED|95.0|-0.551|-0.162||Statistical testing:2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0,\>=8.0%), sulfonylurea use (Yes,No), country as fixed effects, baseline HbA1c as covariate.|ANCOVA|||To detect a difference of 0.5% in change in HbA1c at Week 24 between lixisenatide arm and placebo arm, 190 patients per group would provide a power of 96% assuming common standard deviation of 1.3% with 2-sided test at 5% significance level.||-0.162|-0.551|0.0004
92229591|NCT00432237|184362078|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92229592|NCT00432237|184362078|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92229593|NCT00432237|184362079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92229594|NCT00432237|184362079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92229595|NCT00432237|184362080|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92229596|NCT00432237|184362080|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92376081|NCT04465877|184654748|SUPERIORITY||Mean Difference (Final Values)|-229.04||||0.001|TWO_SIDED|95.0|-362.17|-95.91|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 10 mg and placebo on Day 28||-95.91|-362.17|0.001
92376082|NCT04465877|184654748|SUPERIORITY||Mean Difference (Final Values)|-89.98||||0.025|TWO_SIDED|95.0|-167.62|-12.33|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 20 mg and placebo on Day 1||-12.33|-167.62|0.025
92277961|NCT00782509|184458095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001||95.0|0.123|0.193|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.193|0.123|<0.0001
92376083|NCT04465877|184654748|SUPERIORITY||Mean Difference (Final Values)|-222.02|||<|0.001|TWO_SIDED|95.0|-326.54|-117.51|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 20 mg and placebo on Day 14||-117.51|-326.54|<0.001
92376084|NCT04465877|184654748|SUPERIORITY||Mean Difference (Final Values)|-248.82|||<|0.001|TWO_SIDED|95.0|-379.35|-118.28|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 20 mg and placebo on Day 28||-118.28|-379.35|<0.001
92376085|NCT04346108|184654791|SUPERIORITY||Poisson Estimate|1.65|||||TWO_SIDED|95.0|0.73|3.15||||||||3.15|0.73|
92376086|NCT04346108|184654791|SUPERIORITY||Poisson Estimate|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.00|0.00|
92376087|NCT04346108|184654791|SUPERIORITY||Poisson Estimate|2.48|||||TWO_SIDED|95.0|1.34|4.13||||||||4.13|1.34|
92376088|NCT04346108|184654792|SUPERIORITY||Poisson Estimate|2.6|||||TWO_SIDED|95.0|1.02|5.3||||||||5.30|1.02|
92376089|NCT04346108|184654792|SUPERIORITY||Poisson Estimate|9.82|||||TWO_SIDED|95.0|2.82|23.82||||||||23.82|2.82|
92376090|NCT04346108|184654792|SUPERIORITY||Poisson Estimate|2.87|||||TWO_SIDED|95.0|1.37|5.18||||||||5.18|1.37|
92376091|NCT04346108|184654793|SUPERIORITY||Poisson Estimate|4.01||||||95.0|1.46|8.54||||||||8.54|1.46|
92376092|NCT04346108|184654793|SUPERIORITY||Poisson Estimate|3.07|||||TWO_SIDED|95.0|0.37|10.74||||||||10.74|0.37|
92376093|NCT04346108|184654793|SUPERIORITY||Poisson Estimate|5.87|||||TWO_SIDED|95.0|2.32|11.93||||||||11.93|2.32|
92376094|NCT04346108|184654794|SUPERIORITY||Poisson Estimate|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.0|0.0|
92376095|NCT04346108|184654794|SUPERIORITY||Poisson Estimate|0.13|||||TWO_SIDED|95.0|0.03|0.35||||||||0.35|0.03|
92376096|NCT04346108|184654794|SUPERIORITY||Poisson Estimate|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.00|0.00|
92376097|NCT04346108|184654795|SUPERIORITY||Poisson Estimate|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.00|0.00|
92376098|NCT04346108|184654795|SUPERIORITY||Poisson Estimate|1.04|||||TWO_SIDED|95.0|0.25|2.76||||||||2.76|0.25|
92376099|NCT04346108|184654796|SUPERIORITY||Poisson Estimate|1.18|||||TWO_SIDED|95.0|0.38|2.68||||||||2.68|0.38|
92376100|NCT04346108|184654796|SUPERIORITY||Poisson Estimate|2.35|||||TWO_SIDED|95.0|0.91|4.82||||||||4.82|0.91|
92376101|NCT04346108|184654796|SUPERIORITY||Poisson Estimate|0.61|||||TWO_SIDED|95.0|0.07|2.15||||||||2.15|0.07|
92376102|NCT02014480|184654803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108|||<|0.001|TWO_SIDED|95.0|0.065|0.151||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to UMEC=responders to UMEC or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 milliliters (mL) at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.151|0.065|<0.001
92376103|NCT02014480|184654803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.107|||<|0.001|TWO_SIDED|95.0|0.064|0.149||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to UMEC=responders to UMEC or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.149|0.064|<0.001
92376104|NCT02014480|184654803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|||<|0.001|TWO_SIDED|95.0|0.086|0.171||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to VI=responders to VI or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.171|0.086|<0.001
92376105|NCT02014480|184654803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|||<|0.001|TWO_SIDED|95.0|0.04|0.125||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to VI=responders to VI or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.125|0.040|<0.001
92376106|NCT02014480|184654803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|||<|0.001|TWO_SIDED|95.0|0.036|0.12||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to Neither=responders to neither UMEC nor VI, as defined by a participant with at least one FEV1 assessment over 0-6 hours post-dose on Day 1 but no increase from Baseline of \>=12% and 200 mL at any assessment(s).|||0.120|0.036|<0.001
92376107|NCT02014480|184654803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057||||0.008|TWO_SIDED|95.0|0.015|0.099||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to Neither=responders to neither UMEC nor VI, as defined by a participant with at least one FEV1 assessment over 0-6 hours post-dose on Day 1 but no increase from Baseline of \>=12% and 200 mL at any assessment(s).|||0.099|0.015|0.008
92376108|NCT01865812|184654813|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-0.51|-0.24||||||||-0.24|-0.51|
92376109|NCT01865812|184654814|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.44|||||TWO_SIDED|95.0|-0.63|-0.25||||||||-0.25|-0.63|
92376110|NCT01865812|184654815|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-1.58|1.46||||||||1.46|-1.58|
92376111|NCT01865812|184654866|SUPERIORITY_OR_OTHER_LEGACY|||||||0.852|||||||ANCOVA|||||||0.852
92376112|NCT01865812|184654867|SUPERIORITY_OR_OTHER_LEGACY|||||||0.549|||||||ANCOVA|||||||0.549
92376113|NCT01865812|184654868|SUPERIORITY_OR_OTHER_LEGACY|||||||0.912|||||||ANCOVA|||||||0.912
92376114|NCT00090233|184654894|NON_INFERIORITY_OR_EQUIVALENCE|Relative Risk ≤10.0 (non-inferiority margin).|relative risk|1.6||||0.006||95.0|0.4|6.4||"p≤ 10/11, where p is proportion of participants with intussusception in vaccine group relative to total number of participants with intussusception. Based on conditional binomial approach.~Adjusted for group-sequential design."|Exact binomial test|Exact binomial test adjusted for group-sequential design.||||6.4|0.4|0.006
92376115|NCT00090233|184654895|SUPERIORITY_OR_OTHER||Proportion|81.2|||<|0.001||95.0|72.9|87.8||p≥42%, where p is proportion of participants with ≥3-fold rise in antibody titer from Predose 1 to Postdose 3 in vaccine group. Based on binomial approach.|Exact binomial test|||||87.8|72.9|<0.001
92376116|NCT00090233|184654896|SUPERIORITY_OR_OTHER||Efficacy=1-Relative Risk|74.0|||<|0.001||95.0|66.8|79.9||"Efficacy≥35%. Based on p≤.65/(.65+k), where p is proportion of participants with outcome in vaccine group relative to total number of participants with outcome, k is ratio of follow-up time; placebo/vaccine.~Based on conditional binomial approach."|Exact binomial test|Exact binomial test.|Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group.|||79.9|66.8|<0.001
92410496|NCT00669409|184711862|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-12.6|19.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||19.0|-12.6|
92410497|NCT00669409|184711862|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-25.0|6.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.2|-25.0|
92410498|NCT00669409|184711862|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-25.4|16.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.1|-25.4|
92410499|NCT00669409|184711863|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-18.1|13.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.5|-18.1|
92410500|NCT00669409|184711863|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.8|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-33.6|-2.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.1|-33.6|
92410501|NCT00669409|184711863|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-17.2|14.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.4|-17.2|
92410502|NCT00669409|184711863|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.2|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-26.7|4.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.4|-26.7|
92410503|NCT00669409|184711863|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-25.8|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-46.5|-5.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-5.0|-46.5|
92410504|NCT00669409|184711864|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-16.6|15.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||15.0|-16.6|
92410505|NCT00669409|184711864|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.1|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-32.8|-1.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.3|-32.8|
92410506|NCT00669409|184711864|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-21.0|10.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.6|-21.0|
92410507|NCT00669409|184711864|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.7|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-28.3|2.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.9|-28.3|
92410508|NCT00669409|184711864|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-28.9|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-49.6|-8.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-8.2|-49.6|
92410509|NCT00669409|184711865|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-16.8|14.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.8|-16.8|
92410510|NCT00669409|184711865|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.3|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-35.0|-3.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.5|-35.0|
92410511|NCT00669409|184711865|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-21.8|9.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.8|-21.8|
92410512|NCT00669409|184711865|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-28.0|3.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.2|-28.0|
92410513|NCT00669409|184711865|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-29.9|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-50.6|-9.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-9.1|-50.6|
92410514|NCT00669409|184711866|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-11.9|19.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||19.7|-11.9|
92229597|NCT00432237|184362081|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92410515|NCT00669409|184711866|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.3|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-35.1|-3.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.6|-35.1|
92410516|NCT00669409|184711866|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-21.3|10.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.3|-21.3|
92410517|NCT00669409|184711866|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-27.8|3.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.4|-27.8|
92410518|NCT00669409|184711866|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-25.0|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-45.8|-4.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-4.3|-45.8|
92410519|NCT00669409|184711867|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-9.1|22.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||22.5|-9.1|
92410520|NCT00669409|184711867|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-31.7|-0.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.2|-31.7|
92410521|NCT00669409|184711867|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-18.5|13.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.2|-18.5|
92410522|NCT00669409|184711867|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-10.3|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-25.9|5.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.3|-25.9|
92410523|NCT00669409|184711867|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-23.5|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-44.2|-2.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.7|-44.2|
92410524|NCT00669409|184711868|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|11.2|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-4.6|27.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||27.0|-4.6|
92410525|NCT00669409|184711868|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.2|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-30.0|1.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.5|-30.0|
92410526|NCT00669409|184711868|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-14.3|17.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.3|-14.3|
92410527|NCT00669409|184711868|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-21.9|9.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.3|-21.9|
92410528|NCT00669409|184711868|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.8|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-40.5|1.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.0|-40.5|
92410529|NCT00669409|184711869|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|10.8|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-5.0|26.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||26.6|-5.0|
92410530|NCT00669409|184711869|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.2|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-30.0|1.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.6|-30.0|
92410531|NCT00669409|184711869|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-14.6|17.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.0|-14.6|
92229598|NCT00432237|184362081|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92410532|NCT00669409|184711869|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-21.0|10.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.2|-21.0|
92410533|NCT00669409|184711869|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.6|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-35.3|6.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.2|-35.3|
92410534|NCT00669409|184711870|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|10.3|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-5.5|26.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||26.1|-5.5|
92410535|NCT00669409|184711870|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.3|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-27.0|4.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.5|-27.0|
92410536|NCT00669409|184711870|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-13.3|18.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||18.3|-13.3|
92229599|NCT00432237|184362082|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92376117|NCT00090233|184654897|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|94.5|||<|0.001||95.0|91.2|96.6||Rate Reduction\>0%|Poisson regression|"Poisson regression with generalized estimating equations.~Validated with Van Elteren's extension of Wilcoxon Rank Sum test."|Risk ratio of rate of hospitalizations and emergency department visits between treatment groups. Reported here are results after 12 additional emergency department visits were identified among placebo recipients and data were re-analyzed.|||96.6|91.2|<0.001
92376118|NCT00090233|184654898|SUPERIORITY_OR_OTHER||Efficacy=1-Relative Risk|81.5|||<|0.001||95.0|74.9|86.7||Efficacy\>0%. Based on p\< 1/(1+k), where p is proportion of participants with outcome in vaccine group relative to total number of participants with outcome, and k is ratio of follow-up time; placebo / vaccine. Based on conditional binomial approach.|Exact binomial test||Estimated value is based on the worst episode scores.|||86.7|74.9|<0.001
92376119|NCT00090233|184654899|SUPERIORITY_OR_OTHER||Efficacy=1-Relative Risk|98.0|||<|0.001||95.0|88.3|100.0||Efficacy\>0%. Based on p\< 1/(1+k), where p is proportion of participants with outcome in vaccine group relative to total number of participants with outcome, and k is ratio of follow-up time; placebo/vaccine. Based on conditional binomial approach.|Exact binomial test|||||100|88.3|<0.001
92376120|NCT00090233|184654900|NON_INFERIORITY_OR_EQUIVALENCE|Difference (vaccine-placebo) in seroprotection rates was greater than -.10 (non-inferiority margin).|||||<|0.001||95.0||||p\<0.001 was obtained for all comparisons. pv - pp ≥-.10, where p is proportion of participants who achieved seroprotection in the vaccine and placebo groups, respectively.|Miettenen and Nurminen|||||||<0.001
92376121|NCT00090233|184654901|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for Pertussis PT|0.9|||<|0.001|TWO_SIDED|95.0|0.7|1.1|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for Pertussis PT was used for analysis.||1.1|0.7|<0.001
92376122|NCT00090233|184654901|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for Pertussis FHA|0.9|||<|0.001|TWO_SIDED|95.0|0.7|1.1|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for Pertussis FHA was used for analysis.||1.1|0.7|<0.001
92376123|NCT00090233|184654901|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for Pertussis Pertactin|0.6||||0.193|TWO_SIDED|95.0|0.4|0.8|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for Pertussis Pertactin was used for analysis.||0.8|0.4|0.193
92229600|NCT00432237|184362082|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92229601|NCT00432237|184362083|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92229602|NCT00432237|184362083|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92229603|NCT00432237|184362084|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92229604|NCT00432237|184362084|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92376124|NCT00090233|184654902|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 4|1.2|||<|0.001||95.0|1.0|1.4|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 4 was used for analysis.||1.4|1.0|<0.001
92376125|NCT00090233|184654902|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 6B|1.4|||<|0.001|TWO_SIDED|95.0|1.0|1.9|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 6B was used for analysis.||1.9|1.0|<0.001
92410537|NCT00669409|184711870|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-19.2|11.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.9|-19.2|
92410538|NCT00669409|184711870|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.7|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-34.4|7.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.0|-34.4|
92410539|NCT00669409|184711871|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|11.0|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-4.8|26.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||26.8|-4.8|
92410540|NCT00669409|184711871|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-8.1|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-23.9|7.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.6|-23.9|
92410541|NCT00669409|184711871|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|1.8|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-14.0|17.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.6|-14.0|
92410542|NCT00669409|184711871|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-3.6|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-19.2|12.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.0|-19.2|
92410543|NCT00669409|184711871|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-12.8|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-33.5|8.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.0|-33.5|
92410544|NCT00669409|184711872|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|11.4|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-4.4|27.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||27.2|-4.4|
92410545|NCT00669409|184711872|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-5.4|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-21.2|10.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.3|-21.2|
92410546|NCT00669409|184711872|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|4.6|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-11.2|20.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.4|-11.2|
92410547|NCT00669409|184711872|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-4.7|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-20.3|10.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.9|-20.3|
92410548|NCT00669409|184711872|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-4.1|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-24.9|16.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.6|-24.9|
92410549|NCT00669409|184711873|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-4.2|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-20.7|12.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.3|-20.7|
92229605|NCT00432237|184362085|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92410550|NCT00669409|184711873|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-19.3|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-35.6|-3.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.0|-35.6|
92410551|NCT00669409|184711873|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-4.2|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-20.5|12.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.1|-20.5|
92229606|NCT00432237|184362085|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
92229607|NCT01354132|184362086|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
92229608|NCT01354132|184362087|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||||||0.39
92410552|NCT00669409|184711873|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-15.8|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-31.9|0.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.3|-31.9|
92410553|NCT00669409|184711873|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-35.1|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-56.4|-13.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-13.8|-56.4|
92410554|NCT00669409|184711874|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.7|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-21.2|11.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.8|-21.2|
92410555|NCT00669409|184711874|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-33.0|-0.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.4|-33.0|
92410556|NCT00669409|184711874|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-13.5|19.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||19.1|-13.5|
92410557|NCT00669409|184711874|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.1|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-29.2|3.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.0|-29.2|
92410558|NCT00669409|184711874|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.5|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-32.8|9.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.7|-32.8|
92410559|NCT00669409|184711875|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-22.9|10.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.1|-22.9|
92410560|NCT00669409|184711875|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.4|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-35.7|-3.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.1|-35.7|
92410561|NCT00669409|184711875|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-15.0|17.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.6|-15.0|
92410562|NCT00669409|184711875|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-27.1|5.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.1|-27.1|
92410563|NCT00669409|184711875|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-26.0|16.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.5|-26.0|
92410564|NCT00669409|184711876|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-21.1|11.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.9|-21.1|
92410565|NCT00669409|184711876|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.6|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-35.9|-3.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.3|-35.9|
92410566|NCT00669409|184711876|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-20.4|12.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.2|-20.4|
92410567|NCT00669409|184711876|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.8|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-30.0|2.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.3|-30.0|
92410568|NCT00669409|184711876|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-27.5|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-48.8|-6.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-6.2|-48.8|
92410569|NCT00669409|184711877|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-19.6|13.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.4|-19.6|
92410570|NCT00669409|184711877|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-35.8|-3.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.1|-35.8|
92410571|NCT00669409|184711877|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.1|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-25.4|7.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.2|-25.4|
92410572|NCT00669409|184711877|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-32.8|-0.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.5|-32.8|
92410573|NCT00669409|184711877|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-32.6|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-53.9|-11.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-11.4|-53.9|
92410574|NCT00669409|184711878|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-20.1|12.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.9|-20.1|
92229609|NCT01354132|184362088|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||||||0.52
92410575|NCT00669409|184711878|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-21.5|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-37.9|-5.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-5.2|-37.9|
92229610|NCT01354132|184362089|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
92229611|NCT01354132|184362090|SUPERIORITY|||||||0.022|||||||t-test, 2 sided|||Speed of Processing||||0.022
92229612|NCT01354132|184362091|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||||||0.270
92229613|NCT01354132|184362092|SUPERIORITY|||||||0.153|||||||t-test, 2 sided|||||||0.153
92229614|NCT01354132|184362093|SUPERIORITY|||||||0.876|||||||t-test, 2 sided|||||||0.876
92229615|NCT01354132|184362094|SUPERIORITY|||||||0.464|||||||t-test, 2 sided|||||||0.464
92277962|NCT00782509|184458096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.018||0.0043||95.0|0.017|0.089|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.089|0.017|0.0043
92376126|NCT00090233|184654902|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 9V|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.3|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 9V was used for analysis.||1.3|0.9|<0.001
92376127|NCT00090233|184654902|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 14|1.0|||<|0.001|TWO_SIDED|95.0|0.7|1.3|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 14 was used for analysis.||1.3|0.7|<0.001
92376128|NCT00090233|184654902|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 18C|1.3|||<|0.001|TWO_SIDED|95.0|1.1|1.6|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 18C was used for analysis.||1.6|1.1|<0.001
92410576|NCT00669409|184711878|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-25.7|6.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.9|-25.7|
92410577|NCT00669409|184711878|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-31.5|0.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.7|-31.5|
92410578|NCT00669409|184711878|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-32.5|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-53.7|-11.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-11.2|-53.7|
92229616|NCT01354132|184362095|SUPERIORITY|||||||0.741|||||||t-test, 2 sided|||||||0.741
92229617|NCT01354132|184362096|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92229618|NCT01354132|184362097|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||||||0.33
92229619|NCT01354132|184362098|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||||||0.90
92229620|NCT01354132|184362099|SUPERIORITY|||||||0.6732|||||||t-test, 1 sided|||||||0.6732
92229621|NCT01354132|184362100|SUPERIORITY|||||||0.8786|||||||t-test, 2 sided|||||||0.8786
92410579|NCT00669409|184711879|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-17.0|16.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.0|-17.0|
92410580|NCT00669409|184711879|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-21.3|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-37.6|-4.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-4.9|-37.6|
92410581|NCT00669409|184711879|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-24.1|8.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.5|-24.1|
92410582|NCT00669409|184711879|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.1|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-32.2|0.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.0|-32.2|
92410583|NCT00669409|184711879|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-26.8|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-48.1|-5.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-5.5|-48.1|
92229622|NCT01354132|184362101|SUPERIORITY|||||||0.5622|||||||t-test, 2 sided|||||||0.5622
92229623|NCT01354132|184362102|SUPERIORITY|||||||0.9574|||||||t-test, 2 sided|||||||0.9574
92229624|NCT01354132|184362103|SUPERIORITY|||||||0.0043|||||||t-test, 2 sided|||||||0.0043
92229625|NCT01354132|184362104|SUPERIORITY|||||||0.3804|||||||t-test, 2 sided|||||||0.3804
92229626|NCT01354132|184362105|SUPERIORITY|||||||0.9403|||||||t-test, 2 sided|||||||0.9403
92229627|NCT01354132|184362106|SUPERIORITY|||||||0.9215|||||||t-test, 2 sided|||||||0.9215
92229628|NCT00956930|184362107|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.122||||0.007|TWO_SIDED|95.0|0.027|0.557|||Log Rank|||||0.557|0.027|0.007
92229629|NCT04355013|184362115|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Bland-Altman for repeated measures|-0.16|STANDARD_DEVIATION|0.47|||TWO_SIDED|95.0|-1.1|0.77||||||Arterial outlet-nasopharyngeal temperatures||0.77|-1.10|
92229630|NCT04355013|184362115|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|0.4|||TWO_SIDED|95.0|-0.63|0.95|||Bland-Altman|||Arterial-venous inflow temperatures||0.95|-0.63|
92229631|NCT04355013|184362115|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Mean Difference (Final Values)|-0.62|STANDARD_DEVIATION|0.69|||TWO_SIDED|95.0|-1.98|0.74|||Bland-Altman|||Arterial outlet-bladder||0.74|-1.98|
92229632|NCT04355013|184362115|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Mean Difference (Final Values)|0.08|STANDARD_DEVIATION|0.74|||TWO_SIDED|95.0|-1.38|1.54|||Bland-Altman|||Arterial outlet- Tcore||1.54|-1.38|
92229633|NCT04355013|184362115|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Mean Difference (Final Values)|0.32|STANDARD_DEVIATION|0.53|||TWO_SIDED|95.0|-0.73|1.38||||||Nasopharyngeal-venous inflow temperatures||1.38|-0.73|
92229634|NCT04355013|184362115|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Mean Difference (Final Values)|-0.46|STANDARD_DEVIATION|0.52|||TWO_SIDED|95.0|-1.5|0.59||||||Nasopharyngeal-bladder temperatures||0.59|-1.50|
92229635|NCT04355013|184362115|OTHER|Bland-Altman for repeated measures|Bland-Altman for repeated measures|0.24|STANDARD_DEVIATION|0.58|||TWO_SIDED|95.0|-0.9|1.39||||||Nasopharyngeal-Tcore temperatures||1.39|-0.90|
92229636|NCT02348099|184362116|OTHER|"A student's paired t-test will be used to determine the difference if any in CV of Glucose between injection sites. In the third phase, area under the curve will be measured to determine differences between insulin absorption levels. Statistical analysis will be performed using SPSS version 15.0.0 and SAS version 8.2 A power calculation is a statistical method used to determine the minimum sample size needed to detect a statistically significant effect of a certain size."|Odds Ratio (OR)|95.0|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||"A student's paired t-test will be used to determine the difference if any in CV of glucose between injection sited.~If the null hypothesis is true, it suggests that any changes witnessed in an experiment are because of random chance and not because of changes made to variables in the experiment. A power calculation is a statistical method used to determine the minimum sample size needed to detect a statistically significant effect of a certain size."|a P-Value is \<0.01|||<0.01
92229637|NCT02354833|184362117|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 2 sided|||||||0.12
92229638|NCT02354833|184362118|SUPERIORITY_OR_OTHER|||||||0.28|||||||Chi-squared|||This analysis is comparing the percentage of participants with Nausea||||0.28
92229639|NCT02354833|184362118|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||This analysis is comparing the percentage of participants with Emesis||||< 0.001
92229640|NCT02354833|184362119|SUPERIORITY_OR_OTHER|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.10
92229641|NCT02354833|184362120|SUPERIORITY_OR_OTHER|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
92229642|NCT01933932|184362121|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.4355|TWO_SIDED|95.0|0.77|1.12|||Log Rank|Analysis stratified by WHO performance status at randomisation.||||1.12|0.77|0.4355
92229643|NCT01933932|184362122|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.05||||0.6431|TWO_SIDED|95.0|0.85|1.3|||Log Rank|Analysis stratified by WHO performance status at randomisation.||||1.30|0.85|0.6431
92229644|NCT01933932|184362123|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.61||||0.0515|TWO_SIDED|95.0|1.0|2.62|||Regression, Logistic|Analysis stratified by WHO performance status at randomisation||||2.62|1.00|0.0515
92229645|NCT01933932|184362125|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.5007|TWO_SIDED|95.0|0.74|1.86|||Regression, Logistic|Analysis stratified by WHO performance status at randomisation||||1.86|0.74|0.5007
92229646|NCT01933932|184362126|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.3438|TWO_SIDED|95.0|0.74|1.11|||Log Rank|Analysis stratified by WHO performance status at randomisation.||||1.11|0.74|0.3438
92240242|NCT00051558|184383964|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92376129|NCT00090233|184654902|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 19F|1.1|||<|0.001|TWO_SIDED|95.0|0.8|1.4|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 19F was used for analysis.||1.4|0.8|<0.001
92376130|NCT00090233|184654902|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 23F|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.5|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 23F was used for analysis.||1.5|0.9|<0.001
92376131|NCT01030874|184654969|OTHER||Odds Ratio (OR)|1.16||||0.6|TWO_SIDED|95.0|0.67|1.99|||Regression, Logistic|Adjusted for whether patient had orthostatic hypotension at baseline.|Arm 2 is in the numerator of OR calculation.|||1.99|0.67|0.6
92376132|NCT01030874|184654970|OTHER||Odds Ratio (OR)|1.53||||0.3|TWO_SIDED|95.0|0.74|3.24|||Regression, Logistic|Adjusted for whether patient had orthostatic hypotension at discharge.|Arm 2 is in the numerator of OR calculation.|||3.24|0.74|0.3
92376133|NCT05257148|184654980|SUPERIORITY||Mean Difference (Final Values)|-9.3|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92376134|NCT03541187|184654981|SUPERIORITY|The comparison between arms will be conducted using an analysis of covariance (ANCOVA) model, in which the change from the baseline to the 12-month TNSS mean serves as the outcome. The ANCOVA model will incorporate factors for treatment while adjusting for both the baseline TNSS mean and site.|Least Square Mean Difference|-0.23||||0.63|TWO_SIDED|95.0|-1.15|0.7|||ANCOVA|||||0.70|-1.15|0.63
92376135|NCT03541187|184654983|SUPERIORITY||Least Square Means Difference|-0.17||||0.69|TWO_SIDED|95.0|-0.99|0.66|||ANCOVA|||||0.66|-0.99|0.69
92376136|NCT03541187|184654984|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.51|TWO_SIDED|95.0|0.42|1.54|||Regression, Cox||At the reactive dose of 15.4 mcg/mL after 12 months, there were 11 participants who were right-censored in the Cockroach SCIT arm and 8 participants who were right-censored in the Placebo arm.|||1.54|0.42|.51
92376137|NCT03541187|184654985|SUPERIORITY||Least Square Means Difference|-0.03||||0.91|TWO_SIDED|95.0|-0.54|0.49|||ANCOVA|||||0.49|-0.54|0.91
92376138|NCT03541187|184654986|SUPERIORITY||Least Square Means Difference|5.32|||<|0.001|TWO_SIDED|95.0|4.77|5.87|||ANCOVA|||||5.87|4.77|<0.001
92376139|NCT03199053|184655025|SUPERIORITY||Adjusted mean difference|-1.03|STANDARD_ERROR_OF_MEAN|0.274|<|0.001|TWO_SIDED|95.0|-1.57|-0.49|||ANCOVA|||||-0.49|-1.57|< 0.001
92376140|NCT03199053|184655026|SUPERIORITY||Adjusted mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.251||0.078|TWO_SIDED|95.0|-0.93|0.05|||ANCOVA|||||0.05|-0.93|0.078
92229647|NCT02157883|184362137|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Upper bound of the 90% CIs below 200%.|Geometric mean ratio|79.87|||||TWO_SIDED|90.0|73.15|87.21|||||AZD9291+itraconazole / AZD9291 alone. Results based on linear mixed-effects model with treatment as fixed effect and patient as a random effect.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||87.21|73.15|
92229648|NCT02157883|184362138|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Upper bound of the 90% CIs below 200%.|Geometric mean ratio|124.17|||||TWO_SIDED|90.0|114.61|134.53|||||AZD9291+itraconazole / AZD9291 alone. Results based on linear mixed-effects model with treatment as fixed effect and patient as a random effect.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||134.53|114.61|
92229649|NCT02157883|184362145|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|75.87|||||TWO_SIDED|90.0|64.18|89.69|||||AZD9291+itraconazole / AZD9291 alone. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||89.69|64.18|
92229650|NCT02157883|184362146|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|108.25|||||TWO_SIDED|90.0|94.36|124.19|||||AZD9291+itraconazole / AZD9291 alone. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||124.19|94.36|
92229651|NCT02157883|184362147|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|44.33|||||TWO_SIDED|90.0|39.94|49.21|||||AZD9291+itraconazole / AZD9291 alone. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||49.21|39.94|
92229652|NCT02157883|184362148|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|49.02|||||TWO_SIDED|90.0|43.7|54.99|||||AZD9291+itraconazole / AZD9291 alone. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||54.99|43.70|
92229653|NCT05617521|184362168|SUPERIORITY|Sample size was assessed over the primary outcome of the study based on pre-experimental data estimation. It was calculated that 142 participants were needed to detect a 60-second difference in CIT, with 90% power and two-side alpha 0.05. It was found that 186 participants were needed to detect a 20% reduction in the use of ancillary maneuvers. As a preventive measure in case of withdrawal or exclusion, the sample was expanded by 10%, a total of 206 patients||||||0.008||||||The comparative analysis of the CIT was previously subjected to normality evaluation by the Shapiro-Wilk test. According to the rejection of normal distribution, comparative data analysis has been performed with a two-way Mann-Whitney U test|Wilcoxon (Mann-Whitney)|||||||0.008
92229654|NCT05617521|184362169|SUPERIORITY|Sample size was assessed over the primary outcome of the study based on pre-experimental data estimation. It was calculated that 142 participants were needed to detect a 60-second difference in CIT, with 90% power and two-side alpha 0.05. It was found that 186 participants were needed to detect a 20% reduction in the use of ancillary maneuvers. As a preventive measure in case of withdrawal or exclusion, the sample was expanded by 10%, a total of 206 patients.|||||<|0.001||||||For the comparison of abdominal pressure, Pearson chi-square test was used. The statistical significance level was accepted as p \<0.05|Chi-squared|||||||<0.001
92229655|NCT05617521|184362170|SUPERIORITY||||||<|0.001||||||The comparative analysis of the CIL was previously subjected to normality evaluation by the Shapiro-Wilk test. According to the rejection of normal distribution, comparative data analysis has been performed with a two-way Mann-Whitney U test|Wilcoxon (Mann-Whitney)|||||||<0.001
92229656|NCT05617521|184362171|SUPERIORITY|||||||0.321|||||||Chi-squared|||||||0.321
92229657|NCT05617521|184362172|SUPERIORITY|||||||0.75|||||||Fisher Exact|||||||0.75
92229658|NCT05617521|184362173|SUPERIORITY|||||||0.005|||||||Chi-squared|||||||0.005
92410584|NCT00669409|184711880|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-12.8|20.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.2|-12.8|
92410585|NCT00669409|184711880|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.5|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-34.8|-2.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.2|-34.8|
92229659|NCT05617521|184362174|OTHER|||||||0.8|||||||Fisher Exact|||||||0.8
92229660|NCT05617521|184362176|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
92229661|NCT05617521|184362177|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92229662|NCT05617521|184362178|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92229663|NCT05617521|184362179|SUPERIORITY|Sample size was assessed over the primary outcome of the study based on pre-experimental data estimation. It was calculated that 142 participants were needed to detect a 60-second difference in CIT, with 90% power and two-side alpha 0.05. It was found that 186 participants were needed to detect a 20% reduction in the use of ancillary maneuvers. As a preventive measure in case of withdrawal or exclusion, the sample was expanded by 10%, a total of 206 patients.||||||0.01||||||For the comparison of position change, Pearson chi-square test was used. The statistical significance level was accepted as p \<0.05|Chi-squared|||||||0.01
92229664|NCT05617521|184362180|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92410586|NCT00669409|184711880|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-21.7|11.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.0|-21.7|
92376141|NCT03199053|184655027|SUPERIORITY||Adjusted mean difference|-0.86|STANDARD_ERROR_OF_MEAN|0.3||0.004|TWO_SIDED|95.0|-1.44|-0.27|||ANCOVA|||||-0.27|-1.44|0.004
92376142|NCT03199053|184655028|SUPERIORITY||Adjusted mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.277||0.067|TWO_SIDED|95.0|-1.05|0.04|||ANCOVA|||||0.04|-1.05|0.067
92229665|NCT00792298|184362182|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|12.9|||<|0.001|TWO_SIDED|95.0|9.5|16.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||16.3|9.5|<0.001
92229666|NCT00792298|184362182|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|7.6|||<|0.001|TWO_SIDED|95.0|4.4|10.9|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||10.9|4.4|<0.001
92229667|NCT00792298|184362182|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|10.8|||<|0.001|TWO_SIDED|95.0|7.4|14.2|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||14.2|7.4|<0.001
92229668|NCT00792298|184362182|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|7.8|||<|0.001|TWO_SIDED|95.0|4.6|10.9|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||10.9|4.6|<0.001
92229669|NCT00792298|184362182|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|7.6|||<|0.001|TWO_SIDED|95.0|4.2|11.0|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||11.0|4.2|<0.001
92229670|NCT00792298|184362182|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|10.4|||<|0.001|TWO_SIDED|95.0|7.2|13.6|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||13.6|7.2|<0.001
92229671|NCT00792298|184362182|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|5.2||||0.002|TWO_SIDED|95.0|1.9|8.6|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||8.6|1.9|0.002
92277963|NCT00782509|184458096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.018||0.0005||95.0|0.028|0.101|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.101|0.028|0.0005
92277964|NCT00782509|184458097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.037|0.11|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.110|0.037|<0.0001
92376143|NCT03199053|184655029|SUPERIORITY||Adjusted mean difference|-1.19|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.76|-0.62|||ANCOVA|||||-0.62|-1.76|< 0.001
92376144|NCT03199053|184655030|SUPERIORITY||Adjusted mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.27||0.146|TWO_SIDED|95.0|-0.92|0.14|||ANCOVA|||||0.14|-0.92|0.146
92376145|NCT03199053|184655031|SUPERIORITY||Adjusted mean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.479||0.024|TWO_SIDED|95.0|-2.02|-0.14|||ANCOVA|||||-0.14|-2.02|0.024
92376146|NCT03199053|184655032|SUPERIORITY||Adjusted mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.528||0.833|TWO_SIDED|95.0|-1.15|0.92|||ANCOVA|||||0.92|-1.15|0.833
92376147|NCT03199053|184655033|SUPERIORITY||Adjusted mean difference|-1.04|STANDARD_ERROR_OF_MEAN|0.525||0.047|TWO_SIDED|95.0|-2.07|-0.01|||ANCOVA|||||-0.01|-2.07|0.047
92376148|NCT03199053|184655034|SUPERIORITY||Adjusted mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.49||0.268|TWO_SIDED|95.0|-1.5|0.42|||ANCOVA|||||0.42|-1.50|0.268
92376149|NCT03199053|184655035|SUPERIORITY||Adjusted mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.505||0.026|TWO_SIDED|95.0|-2.11|-0.13|||ANCOVA|||||-0.13|-2.11|0.026
92376150|NCT03199053|184655036|SUPERIORITY||Adjusted mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.618||0.644|TWO_SIDED|95.0|-0.92|1.5|||ANCOVA|||||1.50|-0.92|0.644
92376151|NCT03199053|184655037|SUPERIORITY||Adjusted Odds Ratio|3.8||||0.019|TWO_SIDED|95.0|1.2|11.7|||Regression, Logistic|||||11.7|1.2|0.019
92229672|NCT00792298|184362182|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|4.7||||0.003|TWO_SIDED|95.0|1.6|7.8|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||7.8|1.6|0.003
92229673|NCT00792298|184362183|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-36.8|||<|0.001|TWO_SIDED|95.0|-49.4|-24.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-24.3|-49.4|<0.001
92229674|NCT00792298|184362183|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-28.9|||<|0.001|TWO_SIDED|95.0|-42.1|-15.7|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-15.7|-42.1|<0.001
92277965|NCT00782509|184458097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.049|0.121|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.121|0.049|<0.0001
92277966|NCT00782509|184458098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.019||0.0002||95.0|0.032|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.106|0.032|0.0002
92277967|NCT00782509|184458098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.019||0.0186||95.0|0.007|0.081|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.081|0.007|0.0186
92277968|NCT00782509|184458099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.019||0.0003||95.0|0.032|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.106|0.032|0.0003
92277969|NCT00782509|184458099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.019||0.002||95.0|0.021|0.095|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.095|0.021|0.0020
92277970|NCT00782509|184458100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.019||0.0024||95.0|0.02|0.095|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.095|0.020|0.0024
92277971|NCT00782509|184458100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027|STANDARD_ERROR_OF_MEAN|0.019||0.1614||95.0|-0.011|0.064|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.064|-0.011|0.1614
92376152|NCT03199053|184655037|SUPERIORITY||Adjusted Odds Ratio|2.6||||0.114|TWO_SIDED|95.0|0.8|8.6|||Regression, Logistic|||||8.6|0.8|0.114
92376153|NCT03199053|184655038|SUPERIORITY||Adjusted Odds Ratio|3.5||||0.042|TWO_SIDED|95.0|1.0|11.4|||Weighted Logistic Regression|||||11.4|1.0|0.042
92277972|NCT00782509|184458101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.019||0.0012||95.0|0.025|0.099|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.099|0.025|0.0012
92277973|NCT00782509|184458101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.072|STANDARD_ERROR_OF_MEAN|0.019||0.0002||95.0|0.034|0.109|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.109|0.034|0.0002
92277974|NCT00782509|184458102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.019||0.0004||95.0|0.031|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.106|0.031|0.0004
92277975|NCT00782509|184458102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.071|STANDARD_ERROR_OF_MEAN|0.019||0.0002||95.0|0.033|0.108|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.108|0.033|0.0002
92277976|NCT00782509|184458103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.168|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.132|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.203|0.132|<0.0001
92376154|NCT03199053|184655038|SUPERIORITY||Adjusted Odds Ratio|2.3||||0.175|TWO_SIDED|95.0|0.7|7.4|||Weighted Logistic Regression|||||7.4|0.7|0.175
92376155|NCT03199053|184655039|SUPERIORITY||Adjusted Odds Ratio|4.4||||0.009|TWO_SIDED|95.0|1.4|13.2|||Weighted Logistic Regression|||||13.2|1.4|0.009
92376156|NCT03199053|184655039|SUPERIORITY||Adjusted Odds Ratio|3.8||||0.042|TWO_SIDED|95.0|1.1|13.5|||Weighted Logistic Regression|||||13.5|1.1|0.042
92277977|NCT00782509|184458103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.142|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.212|0.142|<0.0001
92277978|NCT00782509|184458104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.119|0.19|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.190|0.119|<0.0001
92277979|NCT00782509|184458104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.111|0.182|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.182|0.111|<0.0001
92277980|NCT00782509|184458105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.136|0.209|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.209|0.136|<0.0001
92277981|NCT00782509|184458105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.13|0.202|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.202|0.130|<0.0001
92277982|NCT00782509|184458106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.108|0.18|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.180|0.108|<0.0001
92229675|NCT00792298|184362183|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-33.9|||<|0.001|TWO_SIDED|95.0|-46.4|-21.5|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-21.5|-46.4|<0.001
92229676|NCT00792298|184362183|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-33.2|||<|0.001|TWO_SIDED|95.0|-46.3|-20.2|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-20.2|-46.3|<0.001
92277983|NCT00782509|184458106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.094|0.166|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.166|0.094|<0.0001
92277984|NCT00782509|184458107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.128|0.201|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.201|0.128|<0.0001
92376157|NCT03199053|184655040|SUPERIORITY||Adjusted mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.496||0.955|TWO_SIDED|95.0|-1.0|0.94|||ANCOVA|||||0.94|-1.00|0.955
92376158|NCT03199053|184655040|SUPERIORITY||Adjusted mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.495||0.64|TWO_SIDED|95.0|-1.2|0.74|||ANCOVA|||||0.74|-1.20|0.640
92376159|NCT03199053|184655041|SUPERIORITY||Adjusted mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.896||0.476|TWO_SIDED|95.0|-2.39|1.12|||ANCOVA|||||1.12|-2.39|0.476
92376160|NCT03199053|184655041|SUPERIORITY||Adjusted mean difference|-1.81|STANDARD_ERROR_OF_MEAN|1.017||0.075|TWO_SIDED|95.0|-3.81|0.18|||ANCOVA|||||0.18|-3.81|0.075
92277985|NCT00782509|184458107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.098|0.171|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.171|0.098|<0.0001
92277986|NCT00782509|184458108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.118|0.192|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.192|0.118|<0.0001
92277987|NCT00782509|184458108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.12|0.194|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.194|0.120|<0.0001
92277988|NCT00782509|184458109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.331|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.263|0.399|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.399|0.263|<0.0001
92376161|NCT03199053|184655042|SUPERIORITY||Unadjusted Difference in Percentage|-19.7||||0.182|TWO_SIDED|95.0|-44.5|5.7|||Fisher Exact|||||5.7|-44.5|0.182
92376162|NCT03199053|184655043|SUPERIORITY||Unadjusted Difference in Percentage|-6.3||||0.65|TWO_SIDED|95.0|-29.8|16.5|||Fisher Exact|||||16.5|-29.8|0.650
92376163|NCT03883113|184655094|OTHER|||||||0.1711|||||||Wilcoxon (Mann-Whitney)|||||||0.1711
92376164|NCT03883113|184655094|OTHER|||||||0.1654|||||||Wilcoxon (Mann-Whitney)|||||||0.1654
92376165|NCT03883113|184655094|OTHER|||||||0.1711|||||||Wilcoxon (Mann-Whitney)|||||||0.1711
92376166|NCT03883113|184655095|OTHER|||||||1|||||||Fisher Exact|||The statistical analysis applies to participants with Virologically confirmed Influenza-like Illness versus participants without Virologically confirmed Influenza-like Illness||||1.000
92229677|NCT00792298|184362183|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-24.7|||<|0.001|TWO_SIDED|95.0|-37.1|-12.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-12.3|-37.1|<0.001
92229678|NCT00792298|184362183|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-28.1|||<|0.001|TWO_SIDED|95.0|-41.0|-15.1|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-15.1|-41.0|<0.001
92229679|NCT00792298|184362183|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-21.2|||<|0.001|TWO_SIDED|95.0|-33.5|-8.8|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-8.8|-33.5|<0.001
92229680|NCT00792298|184362183|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-21.4||||0.001|TWO_SIDED|95.0|-34.2|-8.7|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-8.7|-34.2|0.001
92229681|NCT00792298|184362184|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-25.4|||<|0.001|TWO_SIDED|95.0|-37.7|-13.1|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-13.1|-37.7|<0.001
92229682|NCT00792298|184362184|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-9.5||||0.068|TWO_SIDED|95.0|-19.7|0.7|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||0.7|-19.7|0.068
92229683|NCT00792298|184362184|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-23.1|||<|0.001|TWO_SIDED|95.0|-35.3|-10.9|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-10.9|-35.3|<0.001
92229684|NCT00792298|184362184|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-3.8||||0.459|TWO_SIDED|95.0|-13.8|6.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||6.3|-13.8|0.459
92229685|NCT00792298|184362184|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-9.4||||0.13|TWO_SIDED|95.0|-21.5|2.8|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||2.8|-21.5|0.130
92229686|NCT00792298|184362184|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-22.3|||<|0.001|TWO_SIDED|95.0|-32.3|-12.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-12.3|-32.3|<0.001
92240243|NCT00051558|184383964|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.002
92376167|NCT03883113|184655096|OTHER|||||||0.143|||||||Fisher Exact|||This statistical analysis applies to participants with qPCR confirmed Influenza versus participants with no qPCR confirmed Influenza||||0.143
92376168|NCT03883113|184655097|OTHER|||||||0.3504|||||||Fisher Exact|||This statistical analysis applies to participants with qCulture confirmed Influenza versus participants without qCulture confirmed Influenza||||0.3504
92376169|NCT03883113|184655098|OTHER|||||||0.5558|||||||Log Rank|||||||0.5558
92376170|NCT03883113|184655099|OTHER|||||||0.6534|||||||Log Rank|||||||0.6534
92376171|NCT03883113|184655100|OTHER|||||||0.5485|||||||Wilcoxon (Mann-Whitney)|||||||0.5485
92410587|NCT00669409|184711880|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.0|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-30.1|2.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.1|-30.1|
92229687|NCT00792298|184362184|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-3.4||||0.577|TWO_SIDED|95.0|-15.6|8.7|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||8.7|-15.6|0.577
92229688|NCT00792298|184362184|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-2.3||||0.644|TWO_SIDED|95.0|-12.2|7.5|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||7.5|-12.2|0.644
92229689|NCT00792298|184362185|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-22.3||||0.007|TWO_SIDED|95.0|-38.3|-6.2|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-6.2|-38.3|0.007
92229690|NCT00792298|184362185|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-19.6||||0.024|TWO_SIDED|95.0|-36.6|-2.6|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-2.6|-36.6|0.024
92229691|NCT00792298|184362185|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-31.0|||<|0.001|TWO_SIDED|95.0|-46.9|-15.2|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-15.2|-46.9|<0.001
92229692|NCT00792298|184362185|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-15.7||||0.063|TWO_SIDED|95.0|-32.3|0.8|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||0.8|-32.3|0.063
92229693|NCT00792298|184362185|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-17.4||||0.03|TWO_SIDED|95.0|-33.1|-1.7|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-1.7|-33.1|0.030
92229694|NCT00792298|184362185|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-24.6||||0.003|TWO_SIDED|95.0|-41.0|-8.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-8.3|-41.0|0.003
92240244|NCT00051558|184383964|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for 18 month endpoint|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline femoral neck bone mineral density (BMD) measurement.||||0.011
92376172|NCT03883113|184655101|OTHER|||||||0.6753|||||||Wilcoxon (Mann-Whitney)|||||||0.6753
92376173|NCT03883113|184655102|OTHER|||||||0.711|||||||Log Rank|||||||0.711
92376174|NCT03883113|184655103|OTHER|||||||0.4689|||||||Log Rank|||||||0.4689
92376175|NCT03883113|184655106|OTHER|||||||0.5001|||||||Wilcoxon (Mann-Whitney)|||||||0.5001
92376176|NCT03883113|184655107|OTHER|||||||0.6799|||||||zero-inflated poisson model|||||||0.6799
92376177|NCT03883113|184655108|OTHER|||||||0.5911|||||||Wilcoxon (Mann-Whitney)|||||||0.5911
92376178|NCT02323204|184655116|OTHER|||||||0.6298|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.6298
92376179|NCT02323204|184655116|OTHER|||||||0.2341|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.2341
92229695|NCT00792298|184362185|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-19.1||||0.02|TWO_SIDED|95.0|-35.1|-3.0|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-3.0|-35.1|0.020
92229696|NCT00792298|184362185|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-20.2||||0.019|TWO_SIDED|95.0|-37.0|-3.4|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-3.4|-37.0|0.019
92229697|NCT00670709|184362186|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-07||95.0|||||t-test, 2 sided|||||||<0.0000001
92229698|NCT00670709|184362187|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.005||95.0|||||t-test, 2 sided|||HD subjects vs control subjects||||<0.005
92229699|NCT02649634|184362205|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05.|Mixed Models Analysis|||Linear mixed modelling (LMM) was used||||>.05
92229700|NCT02649634|184362206|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used||||>.05
92229701|NCT02649634|184362207|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.||||||0.65|||||||t-test, 2 sided|||Treatment adherence was analyzed via an independent sample t-test comparing the groups on mean number of TrymGym sessions missed.||||.65
92229702|NCT02649634|184362208|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used||||>.05
92229703|NCT02649634|184362209|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used||||>.05
92229704|NCT02649634|184362210|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92229705|NCT02649634|184362211|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92376180|NCT02323204|184655117|OTHER|||||||0.7893|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.7893
92229706|NCT02649634|184362212|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92410588|NCT00669409|184711880|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-24.8|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-46.0|-3.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.5|-46.0|
92376181|NCT02323204|184655117|OTHER|||||||0.2951|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.2951
92376182|NCT02323204|184655118|OTHER|||||||0.7166|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.7166
92376183|NCT02323204|184655118|OTHER|||||||0.4501|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.4501
92376184|NCT02323204|184655119|OTHER|||||||0.6756|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.6756
92410589|NCT00669409|184711881|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-7.5|25.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||25.5|-7.5|
92410590|NCT00669409|184711881|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.7|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-32.0|0.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.6|-32.0|
92229707|NCT02649634|184362213|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92229708|NCT02649634|184362214|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92229709|NCT02649634|184362215|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92229710|NCT02649634|184362216|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92229711|NCT02649634|184362217|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92229712|NCT02649634|184362218|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92229713|NCT02649634|184362219|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92240245|NCT00051558|184383964|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.015
92229714|NCT02649634|184362220|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
92229715|NCT02649634|184362221|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Self-efficacy was analyzed via an independent sample t-test comparing the groups on mean global self efficacy rating on the WEL.||||>.05
92229716|NCT02649634|184362222|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Self-efficacy was analyzed via an independent sample t-test comparing the groups on mean self efficacy rating on the ESE.||||>.05
92229717|NCT02649634|184362223|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Self-efficacy was analyzed via an independent sample t-test comparing the groups on mean global self efficacy rating on the WEL.||||>.05
92229718|NCT02649634|184362224|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Self-efficacy was analyzed via an independent sample t-test comparing the groups on mean self efficacy rating on the ESE.||||>.05
92229719|NCT02649634|184362225|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Importance of Change ratings were analyzed via an independent sample t-test comparing the groups on mean Importance of Change ratings on the 11-point visual analogue scales||||>.05
92229720|NCT02649634|184362226|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Readiness for Change ratings were analyzed via an independent sample t-test comparing the groups on mean Readiness for Change ratings on the 11-point visual analogue scales||||>.05
92376185|NCT02323204|184655119|OTHER|||||||0.5381|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.5381
92229721|NCT02649634|184362227|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Confidence for Change ratings were analyzed via an independent sample t-test comparing the groups on mean Confidence for Change ratings on the 11-point visual analogue scales||||>.05
92229722|NCT02649634|184362228|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Importance of Change ratings were analyzed via an independent sample t-test comparing the groups on mean Importance of Change ratings on the 11-point visual analogue scales||||>.05
92229723|NCT02649634|184362229|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Readiness for Change ratings were analyzed via an independent sample t-test comparing the groups on mean Readiness for Change ratings on the 11-point visual analogue scales||||>.05
92229724|NCT02649634|184362230|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Confidence for Change ratings were analyzed via an independent sample t-test comparing the groups on mean Confidence for Change ratings on the 11-point visual analogue scales||||>.05
92229725|NCT01360996|184362262|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||||||<.0001
92229726|NCT01360996|184362263|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92229727|NCT01360996|184362264|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92229728|NCT01360996|184362265|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92229729|NCT01360996|184362266|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||McNemar|||||||<0.0001
92229730|NCT01360996|184362267|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92229731|NCT01360996|184362268|SUPERIORITY_OR_OTHER||||||<|0.04|||||||ANOVA|||||||<0.04
92229732|NCT03377634|184362269|OTHER|Analysis of covariance on change in PROMIS Pain intensity, with group as fixed effect and controlling for baseline pain intensity||||||0.11|||||||ANCOVA|||||||0.11
92229733|NCT03377634|184362270|OTHER|Analysis of covariance on change in PROMIS pain interference, with group as fixed effect and controlling for baseline pain interference||||||0.99|||||||ANCOVA|||||||.99
92410591|NCT00669409|184711881|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-16.7|15.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||15.9|-16.7|
92410592|NCT00669409|184711881|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-25.5|6.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.7|-25.5|
92410593|NCT00669409|184711881|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-20.8|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-42.0|0.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.5|-42.0|
92229734|NCT03377634|184362271|OTHER|Analysis of covariance on change in SPPB, with group as fixed effect and controlling for baseline SPPB||||||0.14|||||||ANCOVA|||||||.14
92229735|NCT03377634|184362272|OTHER|Analysis of covariance on change in weight, with group as fixed effect and controlling for baseline weight||||||0.11|||||||ANCOVA|||||||.11
92277989|NCT00782509|184458109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.333|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.265|0.4|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.400|0.265|<0.0001
92277990|NCT00782509|184458110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.242|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.174|0.31|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.310|0.174|<0.0001
92277991|NCT00782509|184458110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.159|0.294|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.294|0.159|<0.0001
92277992|NCT00782509|184458111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.263|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.195|0.332|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.332|0.195|<0.0001
92410594|NCT00669409|184711882|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|8.1|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-8.4|24.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||24.6|-8.4|
92410595|NCT00669409|184711882|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.3|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-32.6|0.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.0|-32.6|
92410596|NCT00669409|184711882|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-17.1|15.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||15.5|-17.1|
92410597|NCT00669409|184711882|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-24.4|7.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.8|-24.4|
92410598|NCT00669409|184711882|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-38.0|4.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.5|-38.0|
92410599|NCT00669409|184711883|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|8.8|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-7.7|25.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||25.3|-7.7|
92410600|NCT00669409|184711883|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.9|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-29.2|3.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.5|-29.2|
92229736|NCT03377634|184362273|OTHER|Analysis of covariance on change in activity time, with group as fixed effect and controlling for baseline stepping time||||||0.65|||||||ANCOVA|||||||.65
92229737|NCT03377634|184362274|OTHER|Analysis of covariance on change in sitting time, with group as fixed effect and controlling for baseline sitting time||||||0.41|||||||ANCOVA|||||||.41
92229738|NCT03377634|184362275|OTHER|Analysis of covariance on change in sit to stand transitions, with group as fixed effect and controlling for baseline transitions||||||0.28|||||||ANCOVA|||||||.28
92229739|NCT00584870|184362310|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|0.39||0.001|TWO_SIDED|80.0|-1.67|-0.67||p-value was based on repeated measures model from pairwise comparisons, and statistical test was 1-sided with 0.1 significance level.|Repeated Measures Model|||LS mean difference was estimated from the repeated measures model with baseline, center, treatment, week and treatment-by-week interaction as fixed main effects and participant as random effect.||-0.67|-1.67|0.001
92229740|NCT01015833|184362380|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.24|TWO_SIDED|95.0|0.8|1.4|||t-test, 1 sided|||||1.4|0.8|0.24
92229741|NCT01015833|184362382|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.98|TWO_SIDED|95.0|0.72|1.2|||t-test, 1 sided|||||1.2|0.72|0.98
92229742|NCT02730260|184362388|SUPERIORITY_OR_OTHER|||||||0.41|||||||Chi-squared|||Test of the null hypothesis that directive and nondirective coaching have equal smoking cessation rates.||||0.41
92277993|NCT00782509|184458111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.246|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.178|0.315|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.315|0.178|<0.0001
92277994|NCT00782509|184458112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.239|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.17|0.308|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.308|0.170|<0.0001
92376186|NCT02323204|184655120|OTHER|||||||0.1507|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.1507
92376187|NCT02323204|184655120|OTHER|||||||0.0769|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0769
92376188|NCT02323204|184655121|OTHER|||||||0.0654|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0654
92376189|NCT02323204|184655121|OTHER|||||||0.7957|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.7957
92376190|NCT02323204|184655122|OTHER|||||||0.0286|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0286
92376191|NCT02323204|184655122|OTHER|||||||0.0201|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0201
92376192|NCT02323204|184655123|OTHER|||||||0.9928|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.9928
92410601|NCT00669409|184711883|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-15.8|16.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.8|-15.8|
92229743|NCT02730260|184362388|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||<|0.03|TWO_SIDED||||||Regression, Logistic|||Odds ratio based on the parameter estimate for the variable, IncomeAboveMedian (0=false, 1=true), from the logistic regression model representing the a priori hypothesis, which specified income, race, and intervention as independent and interacting variables, and smoking cessation at last contact as the dependent variable. An unbalanced variable, PriorQuit (0-=none in the past year, 1=at least one in the past year) was added to the a priori model.||||<0.03
92410602|NCT00669409|184711883|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-23.6|8.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.6|-23.6|
92410603|NCT00669409|184711883|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.7|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-37.0|5.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.5|-37.0|
92277995|NCT00782509|184458112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.245|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.176|0.314|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.314|0.176|<0.0001
92277996|NCT00782509|184458113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.241|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.171|0.311|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.311|0.171|<0.0001
92410604|NCT00669409|184711884|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-7.4|25.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||25.5|-7.4|
92229744|NCT02730260|184362388|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||<|0.03|TWO_SIDED||||||Regression, Logistic|||Odds ratio for PriorQuit, from the logistic regression model representing the a priori hypothesis, which specified income, race, and intervention as independent and interacting variables, and smoking cessation at last contact as the dependent variable. This variable, PriorQuit (0-=none in the past year, 1=at least one in the past year) was added to the a priori model because it was not balanced after randomization.||||<0.03
92410605|NCT00669409|184711884|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-10.8|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-27.1|5.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.5|-27.1|
92410606|NCT00669409|184711884|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-16.9|15.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||15.7|-16.9|
92410607|NCT00669409|184711884|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-23.9|8.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.4|-23.9|
92277997|NCT00782509|184458113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.219|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.15|0.289|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.289|0.150|<0.0001
92376193|NCT02323204|184655123|OTHER|||||||0.0982|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0982
92376194|NCT02323204|184655124|OTHER|||||||0.0325|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0325
92376195|NCT02323204|184655124|OTHER|||||||0.2568|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.2568
92376196|NCT02323204|184655125|OTHER|||||||0.5824|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.5824
92376197|NCT02323204|184655125|OTHER|||||||0.4635|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.4635
92376198|NCT02323204|184655126|OTHER|||||||0.7949|||||||Wald 2-sided t-test|||A Generalized Linear Mixed Model (GLMM) with cumulative logit link and multinomial distribution was fit to the data. A comparison of implementation over time between interventions was made through the intervention-time interaction effect included in the model. Significance in the interaction effect is indicative of a difference in the rate of change in implementation between interventions over time.||||0.7949
92376199|NCT02323204|184655126|OTHER|||||||0.0003|||||||Wald 2-sided t-test|||A Generalized Linear Mixed Model (GLMM) with cumulative logit link and multinomial distribution was fit to the data. A comparison of implementation between interventions was made through the intervention main effect included in the model. The model at hand does not contain an interaction between intervention and time. Significance in the main intervention effect is indicative of a difference in implementation between intervention groups.||||0.0003
92376200|NCT00395135|184655127|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.6|||<|0.0001|TWO_SIDED|95.0|3.0|4.2|||ANCOVA|||||4.2|3.0|<0.0001
92376201|NCT00395135|184655129|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion (%)|-3.67|||<|0.001|TWO_SIDED|95.0|-4.09|-3.25|||ANCOVA|||||-3.25|-4.09|<0.001
92277998|NCT00782509|184458114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.217|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.147|0.288|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.288|0.147|<0.0001
92376202|NCT00395135|184655130|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion (%)|-2.58|||<|0.001|TWO_SIDED|95.0|-3.29|-1.88|||ANCOVA|||||-1.88|-3.29|<0.001
92376203|NCT00395135|184655130|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion (%)|1.64|||<|0.001|TWO_SIDED|95.0|1.1|2.19|||ANCOVA|||||2.19|1.10|<0.001
92376204|NCT01095653|184655133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.0975|<|0.0001|TWO_SIDED|95.0|-0.94|-0.56||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||-0.56|-0.94|<0.0001
92376205|NCT01095653|184655133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.0962|<|0.0001|TWO_SIDED|95.0|-1.01|-0.63||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||-0.63|-1.01|<0.0001
92376206|NCT01095653|184655134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.7|STANDARD_ERROR_OF_MEAN|3.203|<|0.0001|TWO_SIDED|95.0|-34.0|-21.4||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-21.4|-34.0|<0.0001
92376207|NCT01095653|184655134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-34.2|STANDARD_ERROR_OF_MEAN|3.174|<|0.0001|TWO_SIDED|95.0|-40.4|-27.9||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-27.9|-40.4|<0.0001
92376208|NCT01095653|184655135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.9|STANDARD_ERROR_OF_MEAN|6.5667|<|0.0001|TWO_SIDED|95.0|-60.8|-34.96||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-34.96|-60.80|<0.0001
92376209|NCT01095653|184655135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-56.0|STANDARD_ERROR_OF_MEAN|6.4489|<|0.0001|TWO_SIDED|95.0|-68.66|-43.28||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-43.28|-68.66|<0.0001
92376210|NCT01095653|184655136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|0.3259|<|0.0001|TWO_SIDED|95.0|-2.01|-0.73||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-0.73|-2.01|<0.0001
92376211|NCT01095653|184655136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|0.3242|<|0.0001|TWO_SIDED|95.0|-2.62|-1.34||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-1.34|-2.62|<0.0001
92376212|NCT01095653|184655137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.3|STANDARD_ERROR_OF_MEAN|5.238|<|0.0001|TWO_SIDED|95.0|11.1|31.6||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|Modified logistic regression|||||31.6|11.1|<0.0001
92410608|NCT00669409|184711884|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.8|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-37.1|5.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.4|-37.1|
92410609|NCT00669409|184711885|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|11.4|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-5.1|27.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||27.9|-5.1|
92410610|NCT00669409|184711885|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.1|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-24.4|8.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.2|-24.4|
92229745|NCT03430986|184362389|SUPERIORITY||Least Squares (LS) Mean Difference|2.037|STANDARD_ERROR_OF_MEAN|0.1578|<|0.0001|TWO_SIDED|95.0|1.726|2.349|||MMRM|MMRM included treatment, timepoint, treatment-by-timepoint interaction as fixed effect using an unstructured covariance matrix.||||2.349|1.726|<0.0001
92229746|NCT03430986|184362390|SUPERIORITY||Percentage difference|68.4|||<|0.0001|TWO_SIDED|95.0|50.0|82.4|||Fisher Exact|2-sided test comparing responder rate between treatment group and control group.||||82.4|50.0|<0.0001
92280415|NCT03466411|184463523|SUPERIORITY||Adjusted treatment difference|38.1|||<|0.001|TWO_SIDED|95.0|27.3|48.9|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||48.9|27.3|<0.001
92376213|NCT01095653|184655137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.5|STANDARD_ERROR_OF_MEAN|5.022|<|0.0001|TWO_SIDED|95.0|18.6|38.3||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|Modified logistic regression|||||38.3|18.6|<0.0001
92376214|NCT01819129|184655164|NON_INFERIORITY_OR_EQUIVALENCE|The assessment was done by comparing the difference of faster aspart vs. NovoRapid®/NovoLog® in change from baseline in HbA1c after 26 weeks of randomized treatment to a non-inferiority limit of 0.4%.|Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.15|0.1|||||The estimated parameter i.e mean difference is the estimated treatment difference for Faster aspart vs. NovoRapid (Faster aspart - NovoRapid).|Change from baseline in HbA1c is analysed using a mixed-effect model for repeated measurements including changes from baseline in HbA1c at visit 14, 18, 22, 26, 30 and 36. The model includes treatment, region and continuous glucose monitoring (CGM) strata as fixed effects, subject as random effect, HbA1c at baseline as covariate and interaction between all fixed effects and visit, and between the covariate and visit.||0.10|-0.15|
92410611|NCT00669409|184711885|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-14.2|18.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||18.4|-14.2|
92410612|NCT00669409|184711885|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.1|STANDARD_ERROR_OF_MEAN|8.16|||TWO_SIDED|95.0|-24.3|8.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.0|-24.3|
92410613|NCT00669409|184711885|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-27.6|14.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.9|-27.6|
92410614|NCT00669409|184711886|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-21.6|11.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.8|-21.6|
92410615|NCT00669409|184711886|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-36.1|-2.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.9|-36.1|
92410616|NCT00669409|184711886|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-21.8|11.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.4|-21.8|
92410617|NCT00669409|184711886|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.2|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-31.6|1.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.2|-31.6|
92229747|NCT01412957|184362411|SUPERIORITY_OR_OTHER||Normal score|-2.59||||0.0096|||||||Log Rank|Log-rank test stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|A normal score \< 0 indicates fewer than expected events for the panitumumab plus BSC arm and therefore a longer time to event.|The primary hypothesis was that panitumumab plus BSC would improve overall survival compared to BSC alone. A comparison between treatments was performed using the log-rank test stratified by the randomization factors at a 5% significance level.||||0.0096
92229748|NCT01412957|184362412|SUPERIORITY_OR_OTHER||Normal score|-6.08|||<|0.0001|||||||Log Rank|Log-rank test stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|A normal score \< 0 indicates fewer than expected events for the panitumumab plus BSC arm and therefore a longer time to event.|PFS in the ITT Analysis Set was tested at a significance level of 5% conditional on a significant treatment effect on overall survival in the ITT Analysis Set.||||<0.0001
92240246|NCT00051558|184383965|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 month endpoint|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline total hip bone mineral density (BMD) measurement.||||<0.001
92240247|NCT00051558|184383965|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92229749|NCT01412957|184362413|SUPERIORITY_OR_OTHER||Normal score|-2.47||||0.0135|||||||Log Rank|Log-rank test stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|A normal score \< 0 indicates fewer than expected events for the panitumumab plus BSC arm and therefore a longer time to event.|Overall survival in the Wild-type RAS Efficacy Analysis Set was compared at a significance level of 5% conditional on a significant treatment effect for progression-free survival in the ITT Analysis Set.||||0.0135
92229750|NCT01412957|184362414|SUPERIORITY_OR_OTHER||Normal score|-5.98|||<|0.0001|||||||Log Rank|Log-rank test stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|A normal score \< 0 indicates fewer than expected events for the panitumumab plus BSC arm and therefore a longer time to event.|PFS in the Wild-type RAS Efficacy Analysis Set was to be compared at a significance level of 5% if overall survival in the wild-type RAS Efficacy Anaysis Set demonstrated a significant treatment effect.||||<0.0001
92229751|NCT01412957|184362415|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.89|||<|0.0001|TWO_SIDED|95.0|7.47|123.77|||Stratified exact test|Stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|The odds ratio is defined as the odds of having an objective response in the panitumumab plus BSC arm relative to the odds in BSC alone arm.|ORR was not formally tested and the p-values are descriptive only. An exact test was used to test the hypothesis that the common odds ratio for panitumumab plus BSC relative to BSC alone for the objective response is equal to 1.0 stratified by the randomization factors.||123.77|7.47|<0.0001
92277999|NCT00782509|184458114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.148|0.288|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.288|0.148|<0.0001
92278000|NCT00782509|184458115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.037||0.104||95.0|-0.012|0.131|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.131|-0.012|0.1040
92278001|NCT00782509|184458115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.036||0.0172||95.0|0.015|0.158|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.158|0.015|0.0172
92376215|NCT02825966|184655168|EQUIVALENCE|The two one-sided t-test (TOST) was used to test equivalence. Using TOST, equivalence was established at α = 0.05 significance level if a (1-2α)\*100% confidence interval for the average difference in EMAT (WCD-AUDICOR) was contained within the interval \[-12, 12\].|Mean Difference (Final Values)|1.01|||<|0.001|TWO_SIDED|90.0|-2.89|4.69|||two one-sided test (TOST)|||First, the difference in EMAT between the LifeVest and AUDICOR device (first wear) was calculated for each subject. Then the mean and standard deviation of the differences in EMAT were calculated. The 2 devices were considered equivalent if the 90% confidence interval for mean difference in EMAT was within the pre-specified margin of \[-12, 12\] ms.||4.69|-2.89|< 0.001
92376216|NCT02752958|184655169|OTHER||Mean Difference (Final Values)|5.89||||0.0944|TWO_SIDED|95.0|-1.018|12.8|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus Week 4 score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 (Baseline ) versus (vs.) Week 4||12.80|-1.018|0.0944
92376217|NCT02752958|184655170|OTHER||Mean Difference (Final Values)|16.99|||<|0.0001|TWO_SIDED|95.0|10.128|23.849|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 (baseline) vs. Week 8||23.849|10.128|<0.0001
92410618|NCT00669409|184711886|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-40.8|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-62.6|-19.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-19.0|-62.6|
92410619|NCT00669409|184711887|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-20.9|12.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.5|-20.9|
92410620|NCT00669409|184711887|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.9|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-32.6|0.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.7|-32.6|
92410621|NCT00669409|184711887|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-13.2|20.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.1|-13.2|
92229752|NCT01412957|184362416|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.0|||<|0.0001|TWO_SIDED|95.0|5.89|101.62|||Stratified exact test|Stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|The odds ratio is defined as the odds of having an objective response in the panitumumab plus BSC arm relative to the odds in BSC alone arm.|ORR was not formally tested and the p-values are descriptive only. An exact test was used to test the hypothesis that the common odds ratio for panitumumab plus BSC relative to BSC alone for the objective response is equal to 1.0 stratified by the randomization factors.||101.62|5.89|<0.0001
92229753|NCT00954109|184362460|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
92229754|NCT00954109|184362461|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
92410622|NCT00669409|184711887|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-28.4|4.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.5|-28.4|
92410623|NCT00669409|184711887|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-38.8|4.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.8|-38.8|
92410624|NCT00669409|184711888|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-22.2|11.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.2|-22.2|
92410625|NCT00669409|184711888|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-36.1|-2.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.9|-36.1|
92376218|NCT02752958|184655171|OTHER||Mean Difference (Final Values)|22.7|||<|0.0001|TWO_SIDED|95.0|15.87|29.539|||ANOVA|From ANOVA model with visit and site as fixed effect and participant as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 (baseline) vs. Week 12||29.539|15.870|<0.0001
92376219|NCT02752958|184655172|OTHER||Mean Difference (Final Values)|27.21|||<|0.0001|TWO_SIDED|95.0|20.245|34.165|||ANOVA|From ANOVA model with visit and site as fixed effect and participant as random effect. Visit\*site interaction included where significant at 10% level|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 (baseline) vs. Week 16||34.165|20.245|<0.0001
92376220|NCT02752958|184655173|OTHER||Mean Difference (Final Values)|31.42|||<|0.0001|TWO_SIDED|95.0|24.464|38.385|||ANOVA|From ANOVA model with visit and site as fixed effect and participant as random effect. Visit\*site interaction included where significant at 10% level.||Week 0 Vs Week 20||38.385|24.464|<.0001
92376221|NCT02752958|184655174|OTHER||Mean Difference (Final Values)|32.55|||<|0.0001|TWO_SIDED|95.0|25.585|39.506|||ANOVA|From ANOVA model with visit and site as fixed effect and participant as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 (baseline) vs. Week 24||39.506|25.585|<.0001
92410626|NCT00669409|184711888|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-15.6|17.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.7|-15.6|
92410627|NCT00669409|184711888|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.6|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-28.0|4.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.8|-28.0|
92169156|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.11||0.0053|TWO_SIDED|95.0|-0.53|-0.09|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.09|-0.53|0.0053
92169157|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.14||0.6445|TWO_SIDED|95.0|-0.33|0.2|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.20|-0.33|0.6445
92169158|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1439|TWO_SIDED|95.0|-0.47|0.07|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.07|-0.47|0.1439
92410628|NCT00669409|184711888|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-30.1|13.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.5|-30.1|
92410629|NCT00669409|184711889|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-20.6|12.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.8|-20.6|
92410630|NCT00669409|184711889|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.0|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-35.6|-2.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.3|-35.6|
92410631|NCT00669409|184711889|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-19.6|13.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.7|-19.6|
92410632|NCT00669409|184711889|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.5|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-30.9|1.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.9|-30.9|
92410633|NCT00669409|184711889|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-29.4|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-51.2|-7.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-7.6|-51.2|
92376222|NCT02752958|184655175|OTHER||Mean Difference (Final Values)|1.18||||0.0312|TWO_SIDED|95.0|0.108|2.262|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 4||2.262|0.108|0.0312
92376223|NCT02752958|184655176|OTHER||Mean Difference (Final Values)|2.8|||<|0.0001|TWO_SIDED|95.0|1.728|3.866|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 8||3.866|1.728|<.0001
92376224|NCT02752958|184655177|OTHER||Mean Difference (Final Values)|3.26|||<|0.0001|TWO_SIDED|95.0|2.192|4.322|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 12||4.322|2.192|<.0001
92376225|NCT02752958|184655178|OTHER||Mean Difference (Final Values)|3.93|||<|0.0001|TWO_SIDED|95.0|2.844|5.012|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|||5.012|2.844|<.0001
92376226|NCT02752958|184655179|OTHER||Mean Difference (Final Values)|4.15|||<|0.0001|TWO_SIDED|95.0|3.063|5.232|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 20||5.232|3.063|<.0001
92376227|NCT02752958|184655180|OTHER||Mean Difference (Final Values)|4.74|||<|0.0001|TWO_SIDED|95.0|3.654|5.823|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||5.823|3.654|<.0001
92376228|NCT02752958|184655181|OTHER||Mean Difference (Final Values)|1.11||||0.4185|TWO_SIDED|95.0|-1.592|3.821|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline|Week 0 Vs Week 4||3.821|-1.592|0.4185
92376229|NCT02752958|184655182|OTHER||Mean Difference (Final Values)|7.08|||<|0.0001|TWO_SIDED|95.0|4.391|9.764|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 8||9.764|4.391|<.0001
92410634|NCT00669409|184711890|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-16.3|17.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.1|-16.3|
92410635|NCT00669409|184711890|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.8|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-35.4|-2.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.2|-35.4|
92410636|NCT00669409|184711890|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-24.1|9.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.1|-24.1|
92410637|NCT00669409|184711890|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.5|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-31.9|0.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.9|-31.9|
92410638|NCT00669409|184711890|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-31.3|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-53.1|-9.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-9.5|-53.1|
92410639|NCT00669409|184711891|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-16.9|16.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.5|-16.9|
92410640|NCT00669409|184711891|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-20.0|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-36.7|-3.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.4|-36.7|
92410641|NCT00669409|184711891|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-24.2|9.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.0|-24.2|
92169159|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8402|TWO_SIDED|95.0|-0.3|0.25|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.25|-0.30|0.8402
92376230|NCT02752958|184655183|OTHER||Mean Difference (Final Values)|8.35|||<|0.0001|TWO_SIDED|95.0|5.674|11.026|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Valu|Week 0 Vs Week 12||11.026|5.674|<.0001
92410642|NCT00669409|184711891|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.4|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-29.8|3.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.0|-29.8|
92410643|NCT00669409|184711891|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-33.8|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-55.6|-12.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-12.0|-55.6|
92410644|NCT00669409|184711892|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-12.9|20.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.4|-12.9|
92410645|NCT00669409|184711892|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.9|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-36.5|-3.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.3|-36.5|
92410646|NCT00669409|184711892|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-23.3|10.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.0|-23.3|
92169160|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.14||0.4439|TWO_SIDED|95.0|-0.38|0.17|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.17|-0.38|0.4439
92169161|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.14||0.9376|TWO_SIDED|95.0|-0.27|0.29|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.29|-0.27|0.9376
92169162|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7614|TWO_SIDED|95.0|-0.33|0.24|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.33|0.7614
92169163|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.15||0.8081|TWO_SIDED|95.0|-0.32|0.25|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.25|-0.32|0.8081
92169164|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.15||0.8078|TWO_SIDED|95.0|-0.25|0.33|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.33|-0.25|0.8078
92169165|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.15||0.9705|TWO_SIDED|95.0|-0.28|0.29|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.29|-0.28|0.9705
92169166|NCT02528188|184227141|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.15||0.5785|TWO_SIDED|95.0|-0.21|0.38|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.38|-0.21|0.5785
92169167|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.74||0.4303|TWO_SIDED|95.0|-0.87|2.04|||ANCOVA|||Week 16: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.04|-0.87|0.4303
92169168|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.75||0.5656|TWO_SIDED|95.0|-1.9|1.04|||ANCOVA|||Week 16: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.04|-1.90|0.5656
92169169|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.92||0.976|TWO_SIDED|95.0|-1.78|1.83|||ANCOVA|||Week 24: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.83|-1.78|0.9760
92229755|NCT00288574|184362469|SUPERIORITY|||||||0.57|||||||Chi-squared|||The proportion of patients successfully completing the trial in the fluoxetine and placebo groups was compared using the chi-squared statistic.||||0.57
92229756|NCT00288574|184362470|SUPERIORITY|||||||0.75||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in body weight, in fluoxetine vs placebo groups.||||0.75
92229757|NCT00288574|184362471|SUPERIORITY|||||||0.007||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment of BDI in fluoxetine versus placebo groups||||0.007
92410647|NCT00669409|184711892|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.8|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-31.2|1.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.6|-31.2|
92410648|NCT00669409|184711892|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-28.2|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-50.0|-6.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-6.4|-50.0|
92410649|NCT00669409|184711893|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|7.3|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-9.4|24.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||24.0|-9.4|
92410650|NCT00669409|184711893|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.8|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-34.4|-1.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.2|-34.4|
92410651|NCT00669409|184711893|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-20.0|13.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.2|-20.0|
92410652|NCT00669409|184711893|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.5|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-29.9|2.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.9|-29.9|
92410653|NCT00669409|184711893|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-28.5|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-50.3|-6.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-6.7|-50.3|
92229758|NCT00288574|184362472|SUPERIORITY|||||||0.79||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in BDI, in fluoxetine vs placebo groups.||||0.79
92410654|NCT00669409|184711894|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|12.4|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-4.3|29.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||29.1|-4.3|
92410655|NCT00669409|184711894|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.8|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-31.4|1.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.9|-31.4|
92410656|NCT00669409|184711894|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-14.6|18.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||18.6|-14.6|
92410657|NCT00669409|184711894|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.6|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-25.0|7.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.8|-25.0|
92410658|NCT00669409|184711894|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-23.1|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-44.9|-1.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.3|-44.9|
92410659|NCT00669409|184711895|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|11.6|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-5.1|28.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||28.3|-5.1|
92410660|NCT00669409|184711895|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-32.1|1.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.1|-32.1|
92229759|NCT00288574|184362473|SUPERIORITY|||||||0.69||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in RSES, in fluoxetine vs placebo groups.||||0.69
92410661|NCT00669409|184711895|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-13.5|19.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||19.7|-13.5|
92410662|NCT00669409|184711895|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-23.1|9.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.7|-23.1|
92410663|NCT00669409|184711895|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.9|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-40.7|2.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.9|-40.7|
92229760|NCT00288574|184362474|SUPERIORITY|||||||0.78||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in Q-LES-Q, in fluoxetine vs placebo groups.||||0.78
92229761|NCT00288574|184362475|SUPERIORITY|||||||0.19||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in Drive for Thinness subscale, in fluoxetine vs placebo groups.||||0.19
92229762|NCT00288574|184362476|SUPERIORITY|||||||0.46||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in Bulimia subscale, in fluoxetine vs placebo groups.||||0.46
92410664|NCT00669409|184711896|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|12.3|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-4.4|29.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||29.0|-4.4|
92410665|NCT00669409|184711896|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.2|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-27.8|5.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.4|-27.8|
92410666|NCT00669409|184711896|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-13.2|20.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.1|-13.2|
92410667|NCT00669409|184711896|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-23.9|9.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.0|-23.9|
92410668|NCT00669409|184711896|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.6|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-40.4|3.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.2|-40.4|
92410669|NCT00669409|184711897|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|11.2|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-5.5|27.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||27.9|-5.5|
92410670|NCT00669409|184711897|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.6|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-26.3|7.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.0|-26.3|
92410671|NCT00669409|184711897|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-14.7|18.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||18.5|-14.7|
92278002|NCT00782509|184458116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.037||0.0106||95.0|0.022|0.166|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.166|0.022|0.0106
92410672|NCT00669409|184711897|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-23.6|9.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.2|-23.6|
92410673|NCT00669409|184711897|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-20.4|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-42.2|1.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.4|-42.2|
92410674|NCT00669409|184711898|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|13.5|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-3.2|30.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||30.2|-3.2|
92410675|NCT00669409|184711898|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-23.3|9.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.9|-23.3|
92410676|NCT00669409|184711898|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-11.5|21.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||21.7|-11.5|
92410677|NCT00669409|184711898|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|8.31|||TWO_SIDED|95.0|-24.1|8.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.8|-24.1|
92410678|NCT00669409|184711898|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-31.6|12.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.0|-31.6|
92410679|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.2|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-24.7|6.4||||||Change at Week 1, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.4|-24.7|
92410680|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-20.4|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-36.0|-4.9||||||Change at Week 1, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-4.9|-36.0|
92410681|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|7.92|||TWO_SIDED|95.0|-19.9|11.4||||||Change at Week 1, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.4|-19.9|
92410682|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.7|STANDARD_ERROR_OF_MEAN|7.73|||TWO_SIDED|95.0|-30.9|-0.4||||||Change at Week 1, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.4|-30.9|
92410683|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-29.1|STANDARD_ERROR_OF_MEAN|10.25|||TWO_SIDED|95.0|-49.4|-8.9||||||Change at Week 1, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-8.9|-49.4|
92410684|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-16.9|14.3||||||Change at Week 1, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.3|-16.9|
92229763|NCT00288574|184362477|SUPERIORITY|||||||0.86||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment on Body Dissatisfaction subscale, in fluoxetine vs placebo groups.||||0.86
92229764|NCT00288574|184362478|SUPERIORITY|||||||0.25||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment on Perfectionism subscale, in fluoxetine vs placebo groups.||||0.25
92229765|NCT00288574|184362479|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.||Random effects regression analysis of change during treatment on the YBC-EDS, in fluoxetine vs placebo groups.||||0.26
92229766|NCT02292771|184362511|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.3797|TWO_SIDED|95.0|-8.879|6.479|||Finite mixture model|||||6.479|-8.879|0.3797
92229767|NCT02292771|184362512|SUPERIORITY||Odds Ratio (OR)|1.0||||0.952|TWO_SIDED|95.0|0.44|2.18|||Regression, Logistic|||||2.18|0.44|0.9520
92229768|NCT02292771|184362513|SUPERIORITY||Odds Ratio (OR)|1.0||||0.952|TWO_SIDED|95.0|0.46|2.29|||Regression, Logistic|||||2.29|0.46|0.9520
92278003|NCT00782509|184458116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.037||0.0013||95.0|0.046|0.19|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.190|0.046|0.0013
92410685|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.9|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-29.5|1.7||||||Change at Week 1, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.7|-29.5|
92410686|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|95.0|-15.4|16.5||||||Change at Week 1, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.5|-15.4|
92229769|NCT02292771|184362514|SUPERIORITY||Ratio|1.14|STANDARD_ERROR_OF_MEAN|0.222||0.5672|TWO_SIDED|95.0|0.73|1.76|||ANCOVA|||||1.76|0.73|0.5672
92229770|NCT02292771|184362515|SUPERIORITY||Odds Ratio (OR)|1.9||||0.5066|TWO_SIDED|95.0|0.3|11.71|||Regression, Logistic|||||11.71|0.30|0.5066
92229771|NCT02292771|184362521|SUPERIORITY||Odds Ratio (OR)|0.8||||0.779|TWO_SIDED|95.0|0.12|4.84|||Regression, Logistic|||||4.84|0.12|0.7790
92229772|NCT02292771|184362522|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6646|TWO_SIDED|95.0|0.51|2.9|||Regression, Logistic|||||2.90|0.51|0.6646
92229773|NCT02292771|184362523|SUPERIORITY||Odds Ratio (OR)|2.3||||0.1432|TWO_SIDED|95.0|0.75|7.24|||Regression, Logistic|||||7.24|0.75|0.1432
92229774|NCT02292771|184362524|SUPERIORITY||Odds Ratio (OR)|1.5||||0.525|TWO_SIDED|95.0|0.43|5.15|||Regression, Logistic|||||5.15|0.43|0.5250
92229775|NCT02292771|184362525|SUPERIORITY||Odds Ratio (OR)|0.6||||0.4682|TWO_SIDED|95.0|0.13|2.58|||Regression, Logistic|||||2.58|0.13|0.4682
92229776|NCT04596891|184362553|OTHER|Repeated measures ANOVA|F ratio|20.62|||<|0.001|TWO_SIDED|95.0|||||ANOVA||The F ratio is used to evaluate the main effect of time in the ANOVA in relation to the critical F ratio.|No control group, open trial for feasibility/safety||||<0.001
92229777|NCT04596891|184362553|OTHER|Paired-samples t-test (baseline to post-treatment)|paired-samples t-test|5.2||||0.002|TWO_SIDED|95.0|-1.79|12.93|||t-test, 2 sided|||||12.93|-1.79|0.002
92229778|NCT04596891|184362558|OTHER|ANOVA|F ratio|8.46|||<|0.001|TWO_SIDED|95.0|||||ANOVA||The F ratio is used to evaluate the main effect of time in the ANOVA in relation to the critical F ratio. If it exceeds the critical F ratio, the null hypothesis (no effect of time) is rejected.|||||<0.001
92229779|NCT00961532|184362588|SUPERIORITY_OR_OTHER|||||||0.014|||||||t-test, 2 sided|||We tested the hypothesis that there would be a change from baseline to 60 minutes after the start of the desmopressin (DDAVP) infusion.||||0.014
92229780|NCT02511522|184362595|SUPERIORITY|||||||0.004|||||||Cochran-Mantel-Haenszel|Adjusting for stratification factor (Hepatocellular carcinoma versus liver metastases)||||||0.004
92229781|NCT02511522|184362596|SUPERIORITY|||||||0.068|||||||Log Rank|Stratified Log Rank test adjusting for the stratification factor (Hepatocellular carcinoma versus liver metastases)||||||0.068
92229782|NCT02511522|184362597|SUPERIORITY|||||||0.45|||||||Cochran-Mantel-Haenszel|adjusting for the stratification factor (Hepatocellular carcinoma versus liver metastases)||||||0.45
92229783|NCT02511522|184362598|SUPERIORITY|||||||0.07|||||||Cochran-Mantel-Haenszel|adjusting for the stratification factor (Hepatocellular carcinoma versus liver metastases)||||||0.07
92229784|NCT04854499|184362615|SUPERIORITY||Hazard Ratio (HR)|1.314|||||TWO_SIDED|95.0|0.809|2.136|||||HR along with its 2-sided 95% confidence interval (CI) were estimated using the Cox proportional hazards regression model stratified by the stratification factors at randomization.|||2.136|0.809|
92229785|NCT04854499|184362619|SUPERIORITY||Hazard Ratio (HR)|1.094|||||TWO_SIDED|95.0|0.603|1.985||||||||1.985|0.603|
92229786|NCT04854499|184362620|OTHER||Odds Ratio (OR)|0.982|||||TWO_SIDED|95.0|0.449|2.147|||||The 2-sided 95% CI is based on Clopper-Pearson method.|||2.147|0.449|
92229787|NCT04854499|184362620|OTHER||Odds Ratio (OR)|0.943|||||TWO_SIDED|95.0|0.383|2.321|||||The 2-sided 95% CI is based on Clopper-Pearson method.|||2.321|0.383|
92229788|NCT05067127|184362661|SUPERIORITY||Difference in least squares (LS) mean|-1.143|||<|0.0001|TWO_SIDED|95.0|-1.436|-0.85|||MMRM|||An mixed-effect model for repeated measures (MMRM) including fixed categorical effect for treatment group, visit, disease type, baseline immunosuppressants use, stratification factors, and the visit-by-treatment group interactions as well as the continuous, fixed covariate of baseline log-transformed uPCR, was utilized to analyze the log-transformed ratio of uPCR at Week 26 compared to baseline.||-0.85|-1.436|<0.0001
92229789|NCT05067127|184362662|SUPERIORITY||Odds Ratio (OR)|27.516|||<|0.0001|TWO_SIDED|95.0|6.105|124.026|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline eGFR values, baseline log-transformed uPCR values, disease type, and stratification factors.||124.026|6.105|<0.0001
92229790|NCT05067127|184362663|SUPERIORITY||Odds Ratio (OR)|30.932|||<|0.0001|TWO_SIDED|95.0|8.401|113.897|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline log-transformed uPCR values, disease type, and stratification factors.||113.897|8.401|<0.0001
92278004|NCT00782509|184458117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032|STANDARD_ERROR_OF_MEAN|0.037||0.3821||95.0|-0.04|0.105|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.105|-0.040|0.3821
92278005|NCT00782509|184458117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.037||0.1917||95.0|-0.024|0.12|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.120|-0.024|0.1917
92278006|NCT00782509|184458118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.037||0.1808||95.0|-0.023|0.123|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.123|-0.023|0.1808
92278007|NCT00782509|184458118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.037||0.37||95.0|-0.039|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.106|-0.039|0.3700
92278008|NCT00782509|184458119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.037||0.2312||95.0|-0.029|0.118|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.118|-0.029|0.2312
92278009|NCT00782509|184458119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.037||0.0596||95.0|-0.003|0.144|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.144|-0.003|0.0596
92278010|NCT00782509|184458120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.037||0.311||95.0|-0.036|0.111|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.111|-0.036|0.3110
92278011|NCT00782509|184458120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.038||0.9426||95.0|-0.076|0.071|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.071|-0.076|0.9426
92410687|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.8|STANDARD_ERROR_OF_MEAN|7.83|||TWO_SIDED|95.0|-27.3|3.7||||||Change at Week 1, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.7|-27.3|
92410688|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-22.7|STANDARD_ERROR_OF_MEAN|10.3|||TWO_SIDED|95.0|-43.1|-2.4||||||Change at Week 1, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.4|-43.1|
92278012|NCT00782509|184458121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.038||0.268||95.0|-0.032|0.115|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.115|-0.032|0.2680
92278013|NCT00782509|184458121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.038||0.0662||95.0|-0.005|0.143|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.143|-0.005|0.0662
92278014|NCT00782509|184458122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.038||0.2249||95.0|-0.028|0.12|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.120|-0.028|0.2249
92278015|NCT00782509|184458122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.038||0.0994||95.0|-0.012|0.136|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.136|-0.012|0.0994
92278016|NCT00782509|184458123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.332|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.261|0.403|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.403|0.261|<0.0001
92278017|NCT00782509|184458123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.333|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.263|0.403|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.403|0.263|<0.0001
92278018|NCT00782509|184458124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.225|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.153|0.296|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.296|0.153|<0.0001
92278019|NCT00782509|184458124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.139|0.281|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.281|0.139|<0.0001
92410689|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-33.2|-0.3||||||Change at Week 1, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.3|-33.2|
92410690|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-27.2|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-43.7|-10.8||||||Change at Week 1, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-10.8|-43.7|
92410691|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-23.4|9.9||||||Change at Week 1, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.9|-23.4|
92410692|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.4|STANDARD_ERROR_OF_MEAN|8.22|||TWO_SIDED|95.0|-35.6|-3.2||||||Change at Week 1, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.2|-35.6|
92410693|NCT00669409|184711899|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-24.4|STANDARD_ERROR_OF_MEAN|10.86|||TWO_SIDED|95.0|-45.8|-2.9||||||Change at Week 1, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.9|-45.8|
92410694|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-18.5|12.6||||||Change at Week 2, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.6|-18.5|
92229791|NCT05067127|184362664|SUPERIORITY||Difference in LS mean|-1.002||||0.2753|TWO_SIDED|95.0|-2.803|0.798|||ANCOVA|||Analysis of covariance (ANCOVA) model included treatment as fixed effect, adjusted for baseline C3G histologic index activity score, disease type, and stratification factors.||0.798|-2.803|0.2753
92229792|NCT05067127|184362665|SUPERIORITY||Odds Ratio (OR)|27.392|||<|0.0001|TWO_SIDED|95.0|6.477|115.852|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline C3c staining, disease type, and stratification factors.||115.852|6.477|<0.0001
92410695|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.7|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-30.3|0.8||||||Change at Week 2, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.8|-30.3|
92410696|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|12.4|STANDARD_ERROR_OF_MEAN|7.92|||TWO_SIDED|95.0|-3.2|28.1||||||Change at Week 2, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||28.1|-3.2|
92410697|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|7.73|||TWO_SIDED|95.0|-23.1|7.4||||||Change at Week 2, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.4|-23.1|
92410698|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|10.25|||TWO_SIDED|95.0|-23.3|17.2||||||Change at Week 2, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.2|-23.3|
92410699|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-14.9|16.3||||||Change at Week 2, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.3|-14.9|
92410700|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.9|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-25.5|5.7||||||Change at Week 2, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.7|-25.5|
92229793|NCT05067127|184362666|SUPERIORITY||Difference in LS mean|6.312||||0.0333|TWO_SIDED|95.0|0.501|12.122|||MMRM|||An MMRM model included fixed categorical effect for treatment group, visit, disease type, stratification factors, and the visit-by-treatment group interactions as well as the continuous, fixed covariate of baseline eGFR, was utilized to analyze the mean change from baseline to Week 26 in eGFR.||12.122|0.501|0.0333
92229794|NCT05067127|184362667|SUPERIORITY||Odds Ratio (OR)|5.753||||0.0006|TWO_SIDED|95.0|2.106|15.716|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline proteinuria values, disease type, and stratification factors.||15.716|2.106|0.0006
92229795|NCT05067127|184362668|SUPERIORITY||Odds Ratio (OR)|88.341||||0.0001|TWO_SIDED|95.0|8.863|880.544|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline albumin values, disease type, and stratification factors.||880.544|8.863|0.0001
92229796|NCT05067127|184362669|SUPERIORITY||Odds Ratio (OR)|999.999||||0.0094|TWO_SIDED|95.0|12.175|9999.999|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline C3 levels, stratification factors and disease type.||9999.999|12.175|0.0094
92229797|NCT05067127|184362670|SUPERIORITY||Difference in LS mean|0.562||||0.7384|TWO_SIDED|95.0|-2.739|3.863|||ANCOVA|||The ANCOVA model included treatment as fixed effect, adjusted for baseline, disease type, and stratification factors.||3.863|-2.739|0.7384
92229798|NCT05067127|184362671|SUPERIORITY||Difference in LS mean|1.345||||0.5648|TWO_SIDED|95.0|-3.237|5.927|||ANCOVA|||The ANCOVA model included treatment as fixed effect, adjusted for baseline, disease type, and stratification factors.||5.927|-3.237|0.5648
92229799|NCT01499173|184362673|SUPERIORITY||||||<|0.01||||||Actual p value shown here; not threshold.|multilevel linear regression|||||||<0.01
92229800|NCT01499173|184362674|SUPERIORITY|||||||0.34|||||||multilevel linear regression|||||||0.34
92229801|NCT01499173|184362675|OTHER|odds ratio|Odds Ratio (OR)|-0.5|||||TWO_SIDED|||||||||Odds ratio was calculated for each question comparing 1 week data with 1 month data||||
92376231|NCT02752958|184655184|OTHER|Week 0 Vs Week 16|Mean Difference (Final Values)|10.43|||<|0.0001|TWO_SIDED|95.0|7.708|13.158|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 16||13.158|7.708|<.0001
92376232|NCT02752958|184655185|OTHER||Mean Difference (Final Values)|11.73|||<|0.0001|TWO_SIDED|95.0|9.008|14.459|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 20||14.459|9.008|<.0001
92376233|NCT02752958|184655186|OTHER||Mean Difference (Final Values)|11.96|||<|0.0001|TWO_SIDED|95.0|9.235|14.686|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||14.686|9.235|<.0001
92376234|NCT02752958|184655187|OTHER||Mean Difference (Final Values)|0.57||||0.3415|TWO_SIDED|95.0|-0.604|1.738|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 vs Week 4||1.738|-0.604|0.3415
92376235|NCT02752958|184655188|OTHER||Mean Difference (Final Values)|1.77||||0.0029|TWO_SIDED|95.0|0.61|2.935|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline|Week 0 Vs Week 8||2.935|0.610|0.0029
92376236|NCT02752958|184655189|OTHER||Mean Difference (Final Values)|2.42|||<|0.0001|TWO_SIDED|95.0|1.266|3.582|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 12||3.582|1.266|<0.0001
92376237|NCT02752958|184655190|OTHER||Mean Difference (Final Values)|3.55|||<|0.0001|TWO_SIDED|95.0|2.371|4.729|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 vs Week 16||4.729|2.371|<.0001
92376238|NCT02752958|184655191|OTHER||Mean Difference (Final Values)|4.39|||<|0.0001|TWO_SIDED|95.0|3.21|5.568|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 20||5.568|3.210|<0.0001
92410701|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|12.5|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|95.0|-3.4|28.5||||||Change at Week 2, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||28.5|-3.4|
92229802|NCT03304522|184362688|SUPERIORITY||Least Squares (LS) Mean Difference|-1.085|||<|0.0001|TWO_SIDED|95.0|-1.876|-0.293|||Mixed-effects Model for Repeated Measure|||||-0.293|-1.876|<0.0001
92410702|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|7.83|||TWO_SIDED|95.0|-21.9|9.0||||||Change at Week 2, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.0|-21.9|
92229803|NCT03304522|184362691|SUPERIORITY||LS Mean Difference|-1.111|||<|0.0001|TWO_SIDED|95.0|-1.911|-0.312|||Mixed-effects Model for Repeated Measure|||||-0.312|-1.911|<0.0001
92229804|NCT03304522|184362693|SUPERIORITY||LS Mean Difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-1.5|0.3|||Mixed-effects Model for Repeated Measure|||||0.3|-1.5|<0.0001
92229805|NCT00885365|184362719|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority is shown if the lower limit of the two-sided 95% confidence interval is above the non-inferiority margin set at -4.5%.|difference of least square means|-0.5||||0.64|TWO_SIDED|95.0|-2.58|1.59|||ANCOVA|||Based on previous studies, the difference between reference and placebo after 4-week treatment is assumed to be about 12% and the non-inferiority margin safely placed at 4.5%. With a between-patient SD of 13.5% and estimated difference between treatments of zero, sample size of 143 per group allows a 80% power to show the non-inferiority of Bramitob® versus TOBI®. Accounting for an expected dropout rate of 11%, a minimum of 160 participants per group is required.||1.59|-2.58|0.640
92376239|NCT02752958|184655192|OTHER||Mean Difference (Final Values)|4.3|||<|0.0001|TWO_SIDED|95.0|3.119|5.477|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||5.477|3.119|<0.0001
92376240|NCT02752958|184655193|OTHER||Mean Difference (Final Values)|2.42||||0.0145|TWO_SIDED|95.0|0.483|4.352|||ANOVA||Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 4||4.352|0.483|0.0145
92376241|NCT02752958|184655194|OTHER||Mean Difference (Final Values)|4.42|||<|0.0001|TWO_SIDED|95.0|2.498|6.339|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 8||6.339|2.498|<0.0001
92410703|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|10.3|||TWO_SIDED|95.0|-25.2|15.5||||||Change at Week 2, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||15.5|-25.2|
92229806|NCT00885365|184362721|SUPERIORITY_OR_OTHER||difference of least square means|-0.01||||0.634|TWO_SIDED|95.0|-0.08|0.05|||ANCOVA|||Analysis for Week 4||0.05|-0.08|0.634
92229807|NCT00885365|184362722|SUPERIORITY_OR_OTHER||difference of least square means|-0.55||||0.63|TWO_SIDED|95.0|-2.78|1.69|||ANCOVA|||Analysis for Week 4||1.69|-2.78|0.630
92229808|NCT00885365|184362723|SUPERIORITY_OR_OTHER||difference of least square means|-0.02||||0.693|TWO_SIDED|95.0|-0.09|0.06|||ANCOVA|||Analysis for Week 4||0.06|-0.09|0.693
92229809|NCT00885365|184362724|SUPERIORITY_OR_OTHER||difference of least square means|0.51||||0.777|TWO_SIDED|95.0|-3.06|4.09|||ANCOVA|||Analysis for Week 4||4.09|-3.06|0.777
92229810|NCT00885365|184362725|SUPERIORITY_OR_OTHER||difference of least square means|0.04||||0.505|TWO_SIDED|95.0|-0.08|0.15|||ANCOVA|||Analysis for Week 4||0.15|-0.08|0.505
92229811|NCT00885365|184362726|SUPERIORITY_OR_OTHER||difference of least square means|0.04|STANDARD_ERROR_OF_MEAN|0.18||0.82|TWO_SIDED|95.0|-0.31|0.39||A priori threshold for statistical significance is \<= 0.050.|ANCOVA|treatment and country are fixed effects and baseline log10 bacterial load (CFU/g) value is a covariate||Analysis of Week 4 data||0.39|-0.31|0.820
92410704|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-21.4|11.5||||||Change at Week 2, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.5|-21.4|
92410705|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.8|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-30.3|2.7||||||Change at Week 2, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.7|-30.3|
92410706|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|16.1|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-0.6|32.7||||||Change at Week 2, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||32.7|-0.6|
92229812|NCT00885365|184362729|SUPERIORITY_OR_OTHER|||||||0.692||||||A priori threshold for statistical significance is \<= 0.050.|Cochran-Mantel-Haenszel|Test controlling for country.||Week 4||||0.692
92229813|NCT00885365|184362729|SUPERIORITY_OR_OTHER|||||||0.128||||||A priori threshold for statistical significance is \<= 0.050.|Cochran-Mantel-Haenszel|Test controlling for country.||Week 8||||0.128
92229814|NCT01756456|184362760|SUPERIORITY|Each of the comparisons was conducted on the data for the Phase II segment of the study using a 2 × 2 chi-square test, based on the null hypothesis that there is no association between treatment (rhNGF or Vehicle Control) and response (Complete Healing at Week 4 \[Yes/No\]).|Difference in percentage|35.3|||<|0.001|TWO_SIDED|97.06|15.88|54.71|||Chi-squared|||Phase II||54.71|15.88|<0.001
92229815|NCT01756456|184362760|SUPERIORITY|Each of the comparisons was conducted on the data for the Phase II segment of the study using a 2 × 2 chi-square test, based on the null hypothesis that there is no association between treatment (rhNGF or Vehicle Control) and response (Complete Healing at Week 4 \[Yes/No\]).|Difference in percentage|38.4|||=|0.001|TWO_SIDED|97.06|18.96|57.83|||Chi-squared|||||57.83|18.96|=0.001
92229816|NCT01756456|184362761|SUPERIORITY||Difference in percentage|25.8|||=|0.016|TWO_SIDED|97.06|3.66|47.87|||Chi-squared|||||47.87|3.66|=0.016
92229817|NCT01756456|184362761|SUPERIORITY||Difference in percentage|34.7|||=|0.002|TWO_SIDED|97.06|11.91|57.41|||Chi-squared|||||57.41|11.91|=0.002
92229818|NCT01756456|184362762|SUPERIORITY||difference in percentage|2.4|||=|0.818|TWO_SIDED|97.06|-20.3|25.08|||Chi-squared|||At week 6 - reading center||25.08|-20.30|=0.818
92229819|NCT01756456|184362762|SUPERIORITY||difference in percentage|-6.3|||=|0.571|TWO_SIDED|97.06|-30.62|17.96|||Chi-squared|||at week 6 - central reading center||17.96|-30.62|=0.571
92229820|NCT01756456|184362762|SUPERIORITY||Difference in percentage|20.3|||=|0.064|TWO_SIDED|97.06|-3.11|43.79|||Chi-squared|||week 6 - investigator||43.79|-3.11|=0.064
92229821|NCT01756456|184362762|SUPERIORITY||Difference in percentage|23.1|||=|0.041|TWO_SIDED|97.06|-0.89|47.04|||Chi-squared|||week 6 - investigator||47.04|-0.89|=0.041
92229822|NCT01756456|184362762|SUPERIORITY||Difference in percentage|21.9|||=|0.031|TWO_SIDED|97.06|0.07|43.64|||Chi-squared|||week 8 - central reading center||43.64|0.07|=0.031
92229823|NCT01756456|184362762|SUPERIORITY||difference in percentage|26.9|||=|0.008|TWO_SIDED|97.06|5.57|48.28|||Chi-squared|||week 8 - central reading center||48.28|5.57|=0.008
92229824|NCT01756456|184362762|SUPERIORITY||Difference in percentage|26.1|||=|0.011|TWO_SIDED|97.06|4.18|48.01|||Chi-squared|||week 8 - investigator||48.01|4.18|=0.011
92229825|NCT01756456|184362762|SUPERIORITY||Difference in percentage|25.9|||=|0.014|TWO_SIDED|97.06|3.55|48.33|||Chi-squared|||week 8 - investigator||48.33|3.55|=0.014
92229826|NCT01756456|184362763|SUPERIORITY||difference in percentage|13.7|||=|0.065|TWO_SIDED|95.0|-0.19|27.57|||Chi-squared|||week 4||27.57|-0.19|=0.065
92229827|NCT01756456|184362763|SUPERIORITY||difference in percentage|12.4|||=|0.097|TWO_SIDED|95.0|-2.05|26.78|||Chi-squared|||week 4||26.78|-2.05|=0.097
92229828|NCT01756456|184362763|SUPERIORITY||difference in percentage|16.9|||=|0.036|TWO_SIDED|95.0|1.97|31.92|||Chi-squared|||week 6||31.92|1.97|=0.036
92229829|NCT01756456|184362763|SUPERIORITY||difference in percentage|15.6|||=|0.054|TWO_SIDED|95.0|0.04|31.12|||Chi-squared|||week 6||31.12|0.04|=0.054
92229830|NCT01756456|184362763|SUPERIORITY||difference in percentage|17.1|||=|0.043|TWO_SIDED|95.0|1.45|32.72|||Chi-squared|||week 8||32.72|1.45|=0.043
92229831|NCT01756456|184362763|SUPERIORITY||difference in percentage|11.4|||=|0.157|TWO_SIDED|95.0|-4.08|26.93|||Chi-squared|||week 8||26.93|-4.08|=0.157
92229832|NCT01756456|184362764|SUPERIORITY||least square mean difference|8.9|||=|0.022|TWO_SIDED|95.0|1.33|16.5|||ANCOVA|||||16.50|1.33|=0.022
92229833|NCT01756456|184362764|SUPERIORITY||least square mean difference|5.0|||=|0.213|TWO_SIDED|95.0|-2.9|12.88|||ANCOVA|||||12.88|-2.90|=0.213
92229834|NCT01756456|184362765|SUPERIORITY||difference in percentage|5.5|||=|0.592|TWO_SIDED|95.0|-14.53|25.48|||Chi-squared|||week 4||25.48|-14.53|=0.592
92229835|NCT01756456|184362765|SUPERIORITY|week 4|difference in percentage|-2.3|||=|0.835|TWO_SIDED|95.0|-24.01|19.4|||Chi-squared|||||19.40|-24.01|=0.835
92229836|NCT01756456|184362765|SUPERIORITY||difference in percentage|27.7|||=|0.008|TWO_SIDED|95.0|8.1|47.22|||Chi-squared|||week 6||47.22|8.10|=0.008
92229837|NCT01756456|184362765|SUPERIORITY||difference in percentage|12.4|||=|0.282|TWO_SIDED|95.0|-9.91|34.68|||Chi-squared|||week 6||34.68|-9.91|=0.282
92278020|NCT00782509|184458125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.268|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.196|0.34|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.340|0.196|<0.0001
92278021|NCT00782509|184458125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.179|0.323|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.323|0.179|<0.0001
92278022|NCT00782509|184458126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.154|0.298|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.298|0.154|<0.0001
92410707|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|8.22|||TWO_SIDED|95.0|-22.9|9.5||||||Change at Week 2, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.5|-22.9|
92410708|NCT00669409|184711900|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|10.86|||TWO_SIDED|95.0|-25.5|17.4||||||Change at Week 2, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.4|-25.5|
92410709|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-22.9|8.2||||||Change at Week 4, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.2|-22.9|
92410710|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.9|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-34.4|-3.3||||||Change at Week 4, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.3|-34.4|
92410711|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.6|STANDARD_ERROR_OF_MEAN|7.92|||TWO_SIDED|95.0|-25.2|6.1||||||Change at Week 4, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.1|-25.2|
92410712|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.5|STANDARD_ERROR_OF_MEAN|7.73|||TWO_SIDED|95.0|-30.8|-0.2||||||Change at Week 4, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.2|-30.8|
92229838|NCT01756456|184362765|SUPERIORITY||difference in percentage|10.2|||=|0.303|TWO_SIDED|95.0|-9.15|29.45|||Chi-squared|||||29.45|-9.15|=0.303
92229839|NCT01756456|184362765|SUPERIORITY||difference in percentage|7.9|||=|0.442|TWO_SIDED|95.0|-12.13|27.92|||Chi-squared|||week 8||27.92|-12.13|=0.442
92229840|NCT01756456|184362766|SUPERIORITY||difference in percentage|-2.6|||=|0.597|TWO_SIDED|95.0|-22.87|17.71|||Chi-squared|||week 4||17.71|-22.87|=0.597
92229841|NCT01756456|184362766|SUPERIORITY||difference in percentage|-2.3|||>|0.999|TWO_SIDED|95.0|-23.26|18.71|||Chi-squared|||week 4||18.71|-23.26|>0.999
92229842|NCT01756456|184362766|SUPERIORITY||difference in percentage|-7.8|||=|0.183|TWO_SIDED|95.0|-28.7|13.76|||Chi-squared|||week 6||13.76|-28.70|=0.183
92229843|NCT01756456|184362766|SUPERIORITY||difference in percentage|-10.0|||=|0.116|TWO_SIDED|95.0|-31.41|11.88|||Chi-squared|||week 6||11.88|-31.41|=0.116
92229844|NCT01756456|184362766|SUPERIORITY||difference in percentage|-10.8|||=|0.134|TWO_SIDED|95.0|-31.3|10.35|||Chi-squared|||week 8||10.35|-31.30|=0.134
92229845|NCT01756456|184362766|SUPERIORITY||difference in percentage|-7.9|||=|0.307|TWO_SIDED|95.0|-29.51|13.52|||Chi-squared|||week 8||13.52|-29.51|=0.307
92229846|NCT01756456|184362768|SUPERIORITY||Odds Ratio (OR)|2.18|||=|0.041|TWO_SIDED|95.0|1.03|4.62|||Chi-squared|||week 4||4.62|1.03|=0.041
92229847|NCT01756456|184362768|SUPERIORITY||Odds Ratio (OR)|1.95|||=|0.081|TWO_SIDED|95.0|0.92|4.11|||Chi-squared|||week 4||4.11|0.92|=0.081
92229848|NCT01756456|184362768|SUPERIORITY||Odds Ratio (OR)|2.47|||=|0.04|TWO_SIDED|95.0|1.04|5.88|||Chi-squared|||week 8||5.88|1.04|=0.040
92229849|NCT01756456|184362768|SUPERIORITY||Odds Ratio (OR)|1.93|||=|0.132|TWO_SIDED|95.0|0.82|4.52|||Chi-squared|||week 8||4.52|0.82|=0.132
92229850|NCT01756456|184362773|SUPERIORITY||difference in percentage|15.8|||=|0.097|TWO_SIDED|95.0|-2.36|33.97|||Chi-squared|||week 4||33.97|-2.36|=0.097
92229851|NCT01756456|184362773|SUPERIORITY||difference in percentage|13.2|||=|0.175|TWO_SIDED|95.0|-5.72|32.15|||Chi-squared|||week 4||32.15|-5.72|=0.175
92229852|NCT01756456|184362773|SUPERIORITY||difference in percentage|16.9|||=|0.105|TWO_SIDED|95.0|-3.11|37.0|||Chi-squared|||week 6||37.00|-3.11|=0.105
92278023|NCT00782509|184458126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.137|0.281|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.281|0.137|<0.0001
92280416|NCT03466411|184463523|SUPERIORITY||Adjusted treatment difference|42.8|||<|0.001|TWO_SIDED|95.0|31.6|53.9|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel-Haenszel stratum weights and the Sato variance estimator.|||53.9|31.6|<0.001
92229853|NCT01756456|184362773|SUPERIORITY||difference in percentage|11.0|||=|0.3|TWO_SIDED|95.0|-9.64|31.57|||Chi-squared|||week 6||31.57|-9.64|=0.300
92229854|NCT01756456|184362773|SUPERIORITY||difference in percentage|27.5|||=|0.008|TWO_SIDED|95.0|8.33|46.67|||Chi-squared|||week 8||46.67|8.33|=0.008
92229855|NCT01756456|184362773|SUPERIORITY||difference in percentage|19.0|||=|0.068|TWO_SIDED|95.0|-0.91|38.83|||Chi-squared|||week 8||38.83|-0.91|=0.068
92229856|NCT02706938|184362774|OTHER|One tail paired t test.|Mean Difference (Final Values)|1.3267|STANDARD_DEVIATION|2.1604||0.0002|TWO_SIDED|95.0|0.6263|2.027||A priori threshold for statistical significance was 0.05|t-test, 1 sided|||||2.0270|0.6263|0.0002
92229857|NCT02706938|184362774|OTHER|McNemar's chi squared statistic|Risk Difference (RD)|-0.359||||0.0082|TWO_SIDED|95.0|-0.6255|-0.0924||A priori threshold for statistical significance was 0.05|McNemar|||||-0.0924|-0.6255|0.0082
92278024|NCT00782509|184458127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.153|0.299|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.299|0.153|<0.0001
92278025|NCT00782509|184458127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.133|0.279|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.279|0.133|<0.0001
92278026|NCT00782509|184458128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.133|0.28|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.280|0.133|<0.0001
92278027|NCT00782509|184458128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.211|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.138|0.285|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.285|0.138|<0.0001
92410713|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-27.9|STANDARD_ERROR_OF_MEAN|10.25|||TWO_SIDED|95.0|-48.1|-7.6||||||Change at Week 4, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-7.6|-48.1|
92229858|NCT02706938|184362775|OTHER|One tail paired t test.|Mean Difference (Final Values)|-6.9131|STANDARD_DEVIATION|32.5093||0.099|TWO_SIDED|95.0|-17.5987|3.7724||A priori threshold for statistical significance was 0.05|t-test, 1 sided|||||3.7724|-17.5987|0.099
92229859|NCT02706938|184362775|OTHER|McNemar's chi squared statistic|Risk Difference (RD)|-0.0263||||0.8084|TWO_SIDED|95.0|-0.2651|0.2125||A priori threshold for statistical significance was 0.05|McNemar|||||0.2125|-0.2651|0.8084
92229860|NCT00813995|184362777|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparison|ANCOVA|||||||<.001
92229861|NCT01261559|184362786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.2|STANDARD_DEVIATION|10.0||0.003|TWO_SIDED|95.0|4.0|25.0|||Regression, Linear|A multivariate linear regression model was fitted for the main outcome of percent relative dose, with age, BMI, and bra cup size as covariates.||Powered to detect difference of 10% at 80% power if 66 or more subjects enrolled.||25|4|0.003
92229862|NCT01656772|184362820|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin d = -0.05. The null hypothesis was to be rejected if Z \> 1.645 or, equivalently, if the corresponding p-value was less than 0.05.||||||0.0405|TWO_SIDED|||||Adjusted to take into account the correlation between multiple PVs on the same subject. The sample estimate of the intraclass correlation coefficient was calculated as the Pearson sample correlation coefficient for all pairs of observations.|Farrington and Manning|||The primary effectiveness endpoint is the successful navigation and EGM recording of each pre-specified pulmonary vein (PV). The RF ablation treatment was not part of the investigational procedure. The null hypothesis was to be tested at the α = 0.05 significance level using a test statistic Z based on the Farrington and Manning likelihood score statistic with adjustment to take into account the correlation between multiple observations (PVs) on the same subject.||||0.0405
92229863|NCT01656772|184362821|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin d= 0.07. The one-sided null hypothesis was to be tested at the α = 0.05 significance level using a standard unpooled asymptotically normal test statistic. The null hypothesis was to be rejected if Z \< -1.7046 or, equivalently, if the corresponding p-value was less than 0.05.||||||0.0441|TWO_SIDED||||||Z-statistic|||||||.0441
92229864|NCT04743856|184362839|OTHER|||||||0.63||||||Apriori p-value for significance was \<0.05. Models were not adjusted for additional covariates and multiple comparisons adjustment was not performed.|Mixed Models Analysis|Mixed models for binomial outcomes were run to determine if there were significant differences in meeting goal over time.||||||0.63
92229865|NCT04743856|184362840|OTHER||Mean Difference (Final Values)|-1106.28|STANDARD_ERROR_OF_MEAN|592.76||0.0665||||||Apriori significance level was p\<0.05. No adjustment for multiple comparisons was made.|Mixed Models Analysis|Models were not adjusted for additional variables.||||||0.0665
92229866|NCT04696861|184362856|SUPERIORITY|||||||0.961||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||Generalized linear mixed models were conducted and odds ratios (ORs) were reported||||0.961
92229867|NCT04696861|184362857|SUPERIORITY|||||||0.961||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||Generalized linear mixed models were conducted and odds ratios (ORs) were reported||||0.961
92278028|NCT00782509|184458129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.047||0.0028||95.0|0.049|0.235|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 5 mcg qd minus Placebo|||0.235|0.049|0.0028
92278029|NCT00782509|184458129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.048||0.0013||95.0|0.061|0.25|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 10 mcg qd minus Placebo|||0.250|0.061|0.0013
92278030|NCT00782509|184458130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.36|STANDARD_ERROR_OF_MEAN|4.959||0.0072|TWO_SIDED|95.0|3.622|23.099|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||23.099|3.622|0.0072
92229868|NCT04696861|184362858|SUPERIORITY|||||||0.368||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||Generalized linear mixed models were conducted and odds ratios (ORs) were reported||||0.368
92229869|NCT04696861|184362860|SUPERIORITY|||||||0.634||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.634
92376242|NCT02752958|184655195|OTHER||Mean Difference (Final Values)|6.85|||<|0.0001|TWO_SIDED|95.0|4.933|8.759|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 12||8.759|4.933|<0.0001
92376243|NCT02752958|184655196|OTHER||Mean Difference (Final Values)|7.17|||<|0.0001|TWO_SIDED|95.0|5.219|9.115|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 16||9.115|5.219|<.0001
92376244|NCT02752958|184655197|OTHER||Mean Difference (Final Values)|8.39|||<|0.0001|TWO_SIDED|95.0|6.438|10.335|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 20||10.335|6.438|<0.0001
92376245|NCT02752958|184655198|OTHER||Mean Difference (Final Values)|8.67|||<|0.0001|TWO_SIDED|95.0|6.726|10.623|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 24||10.623|6.726|<0.0001
92376246|NCT02752958|184655199|OTHER||Mean Difference (Final Values)|0.63||||0.3676|TWO_SIDED|95.0|-0.738|1.989|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 4||1.989|-0.738|0.3676
92410714|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-21.3|9.9||||||Change at Week 4, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.9|-21.3|
92410715|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-32.6|-1.4||||||Change at Week 4, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.4|-32.6|
92410716|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|95.0|-24.3|7.5||||||Change at Week 4, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.5|-24.3|
92410717|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.8|STANDARD_ERROR_OF_MEAN|7.83|||TWO_SIDED|95.0|-32.2|-1.3||||||Change at Week 4, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.3|-32.2|
92278031|NCT00782509|184458130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.934|STANDARD_ERROR_OF_MEAN|4.894|<|0.0001|TWO_SIDED|95.0|11.323|30.545|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||30.545|11.323|<0.0001
92410718|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-27.5|STANDARD_ERROR_OF_MEAN|10.3|||TWO_SIDED|95.0|-47.8|-7.1||||||Change at Week 4, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-7.1|-47.8|
92410719|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-25.5|7.4||||||Change at Week 4, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.4|-25.5|
92410720|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.7|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-36.1|-3.2||||||Change at Week 4, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.2|-36.1|
92278032|NCT00782509|184458131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.456|STANDARD_ERROR_OF_MEAN|5.201||0.0169|TWO_SIDED|95.0|2.242|22.67|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||22.670|2.242|0.0169
92376247|NCT02752958|184655200|OTHER||Mean Difference (Final Values)|0.9||||0.1907|TWO_SIDED|95.0|-0.451|2.255|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 8||2.255|-0.451|0.1907
92376248|NCT02752958|184655201|OTHER||Mean Difference (Final Values)|1.81||||0.0085|TWO_SIDED|95.0|0.467|3.162|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 12||3.162|0.467|0.0085
92410721|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-22.1|11.3||||||Change at Week 4, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.3|-22.1|
92410722|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.7|STANDARD_ERROR_OF_MEAN|8.22|||TWO_SIDED|95.0|-30.9|1.6||||||Change at Week 4, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.6|-30.9|
92376249|NCT02752958|184655202|OTHER||Mean Difference (Final Values)|2.12||||0.0026|TWO_SIDED|95.0|0.744|3.489|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 16||3.489|0.744|0.0026
92229870|NCT04696861|184362861|SUPERIORITY|||||||0.832||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.832
92229871|NCT04696861|184362863|SUPERIORITY|||||||0.624||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||Generalized linear mixed models were conducted and odds ratios (ORs) were reported||||0.624
92229872|NCT04696861|184362864|SUPERIORITY|||||||0.833||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.833
92229873|NCT04696861|184362865|SUPERIORITY|||||||0.7||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.7
92229874|NCT04696861|184362866|SUPERIORITY|||||||0.79||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.79
92229875|NCT04696861|184362867|SUPERIORITY|||||||0.55||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.55
92229876|NCT04696861|184362868|SUPERIORITY|||||||0.823|||||||Mixed Models Analysis|||||||.823
92229877|NCT04696861|184362869|SUPERIORITY|||||||0.942|||||||Mixed Models Analysis|||||||.942
92229878|NCT04696861|184362870|SUPERIORITY|||||||0.207||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.207
92376250|NCT02752958|184655203|OTHER||Mean Difference (Final Values)|2.74||||0.0001|TWO_SIDED|95.0|1.371|4.116|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.||Week 0 Vs Week 20||4.116|1.371|0.0001
92410723|NCT00669409|184711901|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-23.0|STANDARD_ERROR_OF_MEAN|10.86|||TWO_SIDED|95.0|-44.4|-1.5||||||Change at Week 4, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.5|-44.4|
92229879|NCT04696861|184362871|SUPERIORITY|||||||0.594||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.594
92229880|NCT04696861|184362872|SUPERIORITY|||||||0.738||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.738
92229881|NCT04696861|184362873|SUPERIORITY|||||||0.845||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.845
92229882|NCT01870739|184362881|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.0616||||0.7324|TWO_SIDED|95.0|-0.4178|0.2947|||Linear Model|Treatment as fixed effect and corresponding baseline as covariate.||||0.2947|-0.4178|0.7324
92229883|NCT01870739|184362882|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.0371||||0.8614|TWO_SIDED|95.0|-0.4582|0.3839|||Linear Model|Treatment as a fixed effect and corresponding baseline as a covariate||||0.3839|-0.4582|0.8614
92229884|NCT01870739|184362883|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.0812||||0.7946|TWO_SIDED|95.0|-0.6987|0.5362|||Linear Model|Treatment as a fixed effect and corresponding baseline as a covariate||||0.5362|-0.6987|0.7946
92229885|NCT01986062|184362891|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92229886|NCT01986062|184362892|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92229887|NCT01986062|184362893|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92229888|NCT01986062|184362894|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92229889|NCT01986062|184362895|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92229890|NCT01986062|184362896|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92229891|NCT02587338|184362908|SUPERIORITY|||||||0.74|||||||ANOVA|||||||0.74
92229892|NCT02587338|184362909|SUPERIORITY|||||||0.062|||||||t-test, 2 sided|||||||0.062
92376251|NCT02752958|184655204|OTHER||Mean Difference (Final Values)|2.85|||<|0.0001|TWO_SIDED|95.0|1.477|4.222|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 vs Week 24||4.222|1.477|<.0001
92410724|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-12.2|18.8||||||Change at Week 8, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||18.8|-12.2|
92376252|NCT02752958|184655205|OTHER||Mean Difference (Final Values)|0.09||||0.2326|TWO_SIDED|95.0|-0.059|0.243|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Valu|Week 0 Vs Week 4||0.243|-0.059|0.2326
92376253|NCT02752958|184655206|OTHER||Mean Difference (Final Values)|0.07||||0.3934|TWO_SIDED|95.0|-0.085|0.216||From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|ANOVA||Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 8||0.216|-0.085|0.3934
92376254|NCT02752958|184655207|OTHER||Mean Difference (Final Values)|0.13||||0.0795|TWO_SIDED|95.0|-0.016|0.284|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 12||0.284|-0.016|0.0795
92376255|NCT02752958|184655208|OTHER||Mean Difference (Final Values)|0.14||||0.0682|TWO_SIDED|95.0|-0.011|0.294|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 vs Week 16||0.294|-0.011|0.0682
92376256|NCT02752958|184655209|OTHER||Mean Difference (Final Values)|0.13||||0.0844|TWO_SIDED|95.0|-0.018|0.287|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 20||0.287|-0.018|0.0844
92376257|NCT02752958|184655210|OTHER||Mean Difference (Final Values)|0.18||||0.0211|TWO_SIDED|95.0|0.027|0.332|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 24||0.332|0.027|0.0211
92376258|NCT02752958|184655211|OTHER||Mean Difference (Final Values)|0.6||||0.0493|TWO_SIDED|95.0|0.002|1.194|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 4||1.194|0.002|0.0493
92376259|NCT02752958|184655212|OTHER||Mean Difference (Final Values)|1.42|||<|0.0001|TWO_SIDED|95.0|0.83|2.013|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 8||2.013|0.830|<0.0001
92410725|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.4|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-27.0|4.1||||||Change at Week 8, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.1|-27.0|
92410726|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|7.92|||TWO_SIDED|95.0|-17.4|13.9||||||Change at Week 8, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.9|-17.4|
92410727|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|7.73|||TWO_SIDED|95.0|-24.8|5.8||||||Change at Week 8, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.8|-24.8|
92410728|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.0|STANDARD_ERROR_OF_MEAN|10.25|||TWO_SIDED|95.0|-39.2|1.3||||||Change at Week 8, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.3|-39.2|
92410729|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-10.6|20.6||||||Change at Week 8, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.6|-10.6|
92410730|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-24.0|7.1||||||Change at Week 8, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.1|-24.0|
92410731|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|95.0|-17.1|14.8||||||Change at Week 8, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.8|-17.1|
92376260|NCT02752958|184655213|OTHER||Mean Difference (Final Values)|1.87|||<|0.0001|TWO_SIDED|95.0|1.278|2.457||From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|ANOVA||Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 12||2.457|1.278|<0.0001
92376261|NCT02752958|184655214|OTHER||Mean Difference (Final Values)|2.03|||<|0.0001|TWO_SIDED|95.0|1.429|2.629|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 16||2.629|1.429|<.0001
92376262|NCT02752958|184655215|OTHER||Mean Difference (Final Values)|2.34|||<|0.0001|TWO_SIDED|95.0|1.743|2.943|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 20||2.943|1.743|<.0001
92410732|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.2|STANDARD_ERROR_OF_MEAN|7.83|||TWO_SIDED|95.0|-24.6|6.3||||||Change at Week 8, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.3|-24.6|
92376263|NCT02752958|184655216|OTHER||Mean Difference (Final Values)|2.34|||<|0.0001|TWO_SIDED|95.0|1.743|2.943|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||2.943|1.743|<.0001
92376264|NCT02752958|184655217|OTHER||Mean Difference (Final Values)|0.88|||<|0.0001|TWO_SIDED|95.0|0.474|1.295|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 4||1.295|0.474|<.0001
92376265|NCT02752958|184655218|OTHER||Mean Difference (Final Values)|1.28|||<|0.0001|TWO_SIDED|95.0|0.875|1.69|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 8||1.690|0.875|<.0001
92376266|NCT02752958|184655219|OTHER||Mean Difference (Final Values)|1.74|||<|0.0001|TWO_SIDED|95.0|1.333|2.145|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 12||2.145|1.333|<.0001
92376267|NCT02752958|184655220|OTHER||Mean Difference (Final Values)|1.96|||<|0.0001|TWO_SIDED|95.0|1.545|2.371|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 16||2.371|1.545|<.0001
92376268|NCT02752958|184655221|OTHER||Mean Difference (Final Values)|2.06|||<|0.0001|TWO_SIDED|95.0|1.643|2.469|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 20||2.469|1.643|<.0001
92376269|NCT02752958|184655222|OTHER||Mean Difference (Final Values)|2.21|||<|0.0001|TWO_SIDED|95.0|1.794|2.62||From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|ANOVA||Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||2.620|1.794|<.0001
92376270|NCT02752958|184655223|OTHER||Mean Difference (Final Values)|1.18|||<|0.0001|TWO_SIDED|95.0|0.703|1.66|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 4||1.660|0.703|<0.0001
92376271|NCT02752958|184655224|OTHER||Mean Difference (Final Values)|1.45|||<|0.0001|TWO_SIDED|95.0|0.977|1.926|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 8||1.926|0.977|<.0001
92410733|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.8|STANDARD_ERROR_OF_MEAN|10.3|||TWO_SIDED|95.0|-38.2|2.5||||||Change at Week 8, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.5|-38.2|
92410734|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-18.3|14.6||||||Change at Week 8, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.6|-18.3|
92410735|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-20.1|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-36.5|-3.6||||||Change at Week 8, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.6|-36.5|
92410736|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-19.5|13.9||||||Change at Week 8, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.9|-19.5|
92410737|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-10.9|STANDARD_ERROR_OF_MEAN|8.22|||TWO_SIDED|95.0|-27.1|5.4||||||Change at Week 8, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.4|-27.1|
92410738|NCT00669409|184711902|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-10.5|STANDARD_ERROR_OF_MEAN|10.86|||TWO_SIDED|95.0|-32.0|10.9||||||Change at Week 8, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.9|-32.0|
92376272|NCT02752958|184655225|OTHER||Mean Difference (Final Values)|1.95|||<|0.0001|TWO_SIDED|95.0|1.473|2.418|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 12||2.418|1.473|<.0001
92376273|NCT02752958|184655226|OTHER||Mean Difference (Final Values)|2.33|||<|0.0001|TWO_SIDED|95.0|1.848|2.81|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week16||2.810|1.848|<.0001
92410739|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|13.0|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-2.5|28.6||||||Change at Week 13, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||28.6|-2.5|
92229893|NCT00630331|184362913|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|83.8|||<|0.001|ONE_SIDED|97.5|61.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||61.0|<0.001
92229894|NCT00630331|184362913|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|88.2|||<|0.001|ONE_SIDED|97.5|67.4|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||67.4|<0.001
92376274|NCT02752958|184655227|OTHER||Mean Difference (Final Values)|2.21|||<|0.0001|TWO_SIDED|95.0|1.732|2.694|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 20||2.694|1.732|<.0001
92376275|NCT02752958|184655228|OTHER||Mean Difference (Final Values)|2.5|||<|0.0001|TWO_SIDED|95.0|2.02|2.982|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||2.982|2.020|<.0001
92410740|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-21.0|10.0||||||Change at Week 13, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.0|-21.0|
92229895|NCT00630331|184362913|SUPERIORITY_OR_OTHER_LEGACY|||||||0.999||97.5||||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|For strain A/H3N2, the vaccine efficacy of the CCI vaccine vs. placebo was not evaluable since no influenza case was observed in the placebo group.||Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H3N2 strain. Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks.||||0.999
92376276|NCT02752958|184655229|OTHER||Mean Difference (Final Values)|0.43||||0.0786|TWO_SIDED|95.0|-0.05|0.919|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 4||0.919|-0.050|0.0786
92376277|NCT02752958|184655230|OTHER||Mean Difference (Final Values)|0.69||||0.005|TWO_SIDED|95.0|0.21|1.171|||ANOVA|\[1\] From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 8||1.171|0.210|0.0050
92376278|NCT02752958|184655231|OTHER||Mean Difference (Final Values)|1.4|||<|0.0001|TWO_SIDED|95.0|0.918|1.875|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 12||1.875|0.918|<.0001
92376279|NCT02752958|184655232|OTHER||Mean Difference (Final Values)|1.44|||<|0.0001|TWO_SIDED|95.0|0.951|1.926|||ANOVA|\[From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|||1.926|0.951|<.0001
92376280|NCT02752958|184655233|OTHER||Mean Difference (Final Values)|1.17|||<|0.0001|TWO_SIDED|95.0|0.678|1.653||From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|ANOVA||Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 20||1.653|0.678|<.0001
92376281|NCT02752958|184655234|OTHER||Mean Difference (Final Values)|1.56|||<|0.0001|TWO_SIDED|95.0|1.072|2.047|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|||2.047|1.072|<.0001
92410741|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|7.92|||TWO_SIDED|95.0|-10.4|20.9||||||Change at Week 13, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.9|-10.4|
92410742|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|7.73|||TWO_SIDED|95.0|-23.1|7.5||||||Change at Week 13, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.5|-23.1|
92229896|NCT00630331|184362913|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|100.0||||0.394|ONE_SIDED|97.5|-410.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||-410|0.394
92229897|NCT00630331|184362913|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|78.4||||0.004|ONE_SIDED|97.5|52.1|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||52.1|0.004
92229898|NCT00630331|184362913|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|80.3||||0.002|ONE_SIDED|97.5|54.7|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||54.7|0.002
92229899|NCT00630331|184362913|SUPERIORITY_OR_OTHER_LEGACY|||||||0.992||97.5||||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|For strain A/H3N2, the vaccine efficacy of the IVV vaccine vs. placebo was not evaluable since no influenza case was observed in the placebo group.||Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H3N2 strain. Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks.||||0.992
92229900|NCT00630331|184362913|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|100.0||||0.4|ONE_SIDED|97.5|-429.4|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||-429.4|0.400
92229901|NCT00630331|184362914|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|58.7||||0.078|ONE_SIDED|97.5|33.5|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||33.5|0.078
92229902|NCT00630331|184362914|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|87.3||||0.104|ONE_SIDED|97.5|4.6|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||4.6|0.104
92240248|NCT00051558|184383965|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92376282|NCT02836873|184655238|SUPERIORITY||Difference of LS Means|-0.28||||0.0026|TWO_SIDED|95.0|-0.46|-0.1|||Mixed-effects repeated measures|Region, screening anti-diabetic treatment, baseline eGFR, treatment, visit, treatment-by-visit and baseline HbA1c value as fixed effect covariates.||This is a mixed-effects repeated measures analysis including region, screening anti-diabetic treatment regimen, baseline eGFR, treatment, visit, treatment-by-visit interaction and baseline HbA1c as a fixed effect covariate. Data from Weeks 6, 12, and 24 are used in the model.||-0.10|-0.46|0.0026
92376283|NCT02836873|184655239|SUPERIORITY||Difference of LS Means|-1.76|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.03|||Mixed-effects repeated measures|Region, screening anti-diabetic treatment, baseline eGFR, treatment, visit, treatment-by-visit and baseline HbA1c value as fixed effect covariates.||||-1.03|-2.50|< 0.0001
92376284|NCT02836873|184655240|SUPERIORITY||Difference of LS Means|-2.63||||0.2035|TWO_SIDED|95.0|-6.7|1.44|||Mixed-effects repeated measures|Region, screening anti-diabetic treatment, baseline eGFR, treatment, visit, treatment-by-visit and baseline HbA1c value as fixed effect covariates.||||1.44|-6.70|0.2035
92376285|NCT02836873|184655241|SUPERIORITY||Difference of LS Means|-0.2||||0.1156|TWO_SIDED|95.0|-0.44|0.05|||Mixed-effects repeated measures|Region, screening anti-diabetic treatment, baseline eGFR, treatment, visit, treatment-by-visit and baseline HbA1c value as fixed effect covariates.||||0.05|-0.44|0.1156
92410743|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|10.25|||TWO_SIDED|95.0|-29.7|10.8||||||Change at Week 13, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.8|-29.7|
92410744|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|14.3|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-1.3|29.8||||||Change at Week 13, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||29.8|-1.3|
92410745|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-19.2|12.0||||||Change at Week 13, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.0|-19.2|
92410746|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|6.8|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|95.0|-9.1|22.8||||||Change at Week 13, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||22.8|-9.1|
92229903|NCT00630331|184362914|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|100.0||||0.03|ONE_SIDED|97.5|36.3|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H3N2 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||36.3|0.030
92229904|NCT00630331|184362914|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|50.0||||0.376|ONE_SIDED|97.5|17.5|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||17.5|0.376
92376286|NCT02836873|184655242|SUPERIORITY||Difference of LS Means|-0.37||||0.0078|TWO_SIDED|95.0|-0.65|-0.1|||Mixed-effects repeated measures|Region, screening anti-diabetic treatment, baseline eGFR, treatment, visit, treatment-by-visit and baseline HbA1c value as fixed effect covariates.||||-0.10|-0.65|0.0078
92376287|NCT00977938|184655284|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.001|TWO_SIDED|95.0|0.59|0.85||P-value was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine received at the time of randomization, and presence or absence of risk factors for ST; P-value was adjudsted using the Benjamini Hochberg approach.|Log Rank||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis.|The primary efficacy analysis was a superiority analysis. We controlled the two-sided family-wise error rate of 0.05 across the two coprimary end points using the Hochberg-Benjamini method. With this method, the null hypothesis of randomized treatment equivalence is rejected if significance is achieved for both end points at a two-sided alpha level of 0.05 or for one end point at a two-sided alpha level of 0.025.||0.85|0.59|<0.001
92376288|NCT00977938|184655285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29|||<|0.001|TWO_SIDED|95.0|0.17|0.48||P-value was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine received at the time of randomization, and presence or absence of risk factors for ST; P-value was adjudsted using the Benjamini Hochberg approach.|Log Rank||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis.|The primary efficacy analysis was a superiority analysis. We controlled the two-sided family-wise error rate of 0.05 across the two coprimary end points using the Hochberg-Benjamini method. With this method, the null hypothesis of randomized treatment equivalence is rejected if significance is achieved for both end points at a two-sided alpha level of 0.05 or for one end point at a two-sided alpha level of 0.025.||0.48|0.17|<0.001
92376289|NCT00977938|184655286|NON_INFERIORITY_OR_EQUIVALENCE|The primary safety analysis was a noninferiority analysis performed with the use of the Farrington-Manning risk-difference approach. Assuming an annualized rate for moderate or severe bleeding of 1.9% and an absolute noninferiority margin of 0.8%, at a one-sided alpha level of significance of 0.025, we calculated that a sample size of 9960 patients would give the study 80% power to detect noninferiority.|Risk Difference (RD)|0.96||||0.704|TWO_SIDED|95.0|0.38|1.53||One-sided P-value for non-inferiority|Farrington-Manning||30-month DAPT vs. 12-month DAPT|||1.53|0.38|0.704
92376290|NCT00977938|184655287|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 2.28% (0.0228)|Risk Difference (RD)|-1.82|||<|0.001|ONE_SIDED|97.5||0.03||One-sided P-value for non-inferiority|Nam and Kwon|P-value was computed for clustered matched pairs based on Nam and Kwon (2009).|Weighted RD and 1-sided 97.5% upper CL were computed for clustered matched pairs based on Nam and Kwon (2009).|The null hypothesis was that DAPT patients treated with DES would have MACCE rate between 0 and 33 months post-index procedure that exceeds that of the control arm (patients treated with BMS) by at least a pre-specified absolute margin of δ.||0.03||<0.001
92376291|NCT00977938|184655288|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.97% (0.0097)|Risk Difference (RD)|-1.05|||<|0.001|ONE_SIDED|97.5||-0.27||One-sided P-value for non-inferiority|Nam and Kwon|P-value was computed for clustered matched pairs based on Nam and Kwon (2009).|Weighted RD and 1-sided 95% upper CL were computed for clustered matched pairs based on Nam and Kwon (2009).|The null hypothesis was that DAPT patients treated with DES would have stent thrombosis rate between 0 and 33 months post-index procedure that exceeds that of the control arm (patients treated with BMS) by at least a pre-specified absolute margin of δ.||-0.27||<0.001
92376292|NCT00977938|184655289|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.7|0.97|||||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis|||0.97|0.70|
92376293|NCT00977938|184655290|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.29|0.69|||||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis|||0.69|0.29|
92376294|NCT00977938|184655291|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.86|||||TWO_SIDED|95.0|0.24|1.48|||||30-month DAPT vs. 12-month DAPT|||1.48|0.24|
92410747|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-10.3|STANDARD_ERROR_OF_MEAN|7.83|||TWO_SIDED|95.0|-25.8|5.1||||||Change at Week 13, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.1|-25.8|
92410748|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|10.3|||TWO_SIDED|95.0|-28.8|12.0||||||Change at Week 13, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.0|-28.8|
92229905|NCT00630331|184362914|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|58.6||||0.085|ONE_SIDED|97.5|32.9|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||32.9|0.085
92376295|NCT00977938|184655292|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.722|TWO_SIDED|95.0|0.57|1.47||This analysis was not powered. P-value was stratified according to geographic region, thienopyridine received at the time of randomization, and presence or absence of risk factors for ST; P-value was adjudsted using the Benjamini Hochberg approach.|Log Rank||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis.|This analysis was not powered.||1.47|0.57|0.722
92376296|NCT00977938|184655293|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49||||0.478|TWO_SIDED|95.0|0.15|1.64||This analysis was not powered. P-value was stratified according to geographic region, thienopyridine received at the time of randomization, and presence or absence of risk factors for ST; P-value was adjudsted using the Benjamini Hochberg approach.|Log Rank||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis.|This analysis was not powered.||1.64|0.15|0.478
92376297|NCT00977938|184655294|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.12||||0.706|TWO_SIDED|95.0|-0.06|2.31|||Farrington-Manning|No formal hypothesis testing was done.|30-month DAPT vs. 12-month DAPT|||2.31|-0.06|0.706
92376298|NCT00977938|184655295|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.58|1.4|||||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis|||1.40|0.58|
92376299|NCT00977938|184655296|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||||TWO_SIDED|95.0|0.15|1.64|||||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis.|||1.64|0.15|
92376300|NCT00977938|184655297|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.03|||||TWO_SIDED|95.0|-0.21|2.28|||||30-month DAPT vs. 12-month DAPT|||2.28|-0.21|
92376301|NCT00747344|184655413|SUPERIORITY_OR_OTHER||||||<|0.001||||||The study was designed to maintain a Type I error of 0.05 or less for the primary analysis.|Cochran-Mantel-Haenszel|Stratified by baseline weight (≤ 65 kg vs \> 65 kg).||Null Hypothesis: No difference between ustekinumab 45 mg and placebo for the primary endpoint at a significance level of 0.05. With 120 subjects (60 in each treatment group), simulation studies were conducted to calculate the power to detect a treatment difference in the primary endpoint between ustekinumab 45 mg group and placebo using a CMH test stratified by baseline weight (\<=65kg vs \> 65 kg). For all the scenarios evaluated, the power was \> 99% at a significance level of 0.05.||||<0.001
92376302|NCT00747344|184655414|SUPERIORITY_OR_OTHER||||||<|0.001||||||No multiplicity adjustment was made and nominal p-value was reported.|Cochran-Mantel-Haenszel|Stratified by baseline weight (≤ 65 kg vs \> 65 kg).||Null Hypothesis: No difference between ustekinumab 45 mg and placebo at a significance level of 0.05.||||<0.001
92376303|NCT00747344|184655415|SUPERIORITY_OR_OTHER||||||<|0.001||||||No multiplicity adjustment was made and nominal p-value was reported.|ANOVA|Analysis of variance on van der Waerden normal scores (Conover, 1980) with treatment and baseline weight (≤ 65kg vs \> 65 kg) as factors in the model.||Null Hypothesis: No difference between ustekinumab 45 mg and placebo at a significance level of 0.05.||||<0.001
92410749|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-9.5|23.4||||||Change at Week 13, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||23.4|-9.5|
92410750|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-22.4|10.6||||||Change at Week 13, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.6|-22.4|
92410751|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|12.2|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-4.5|28.9||||||Change at Week 13, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||28.9|-4.5|
92410752|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|8.22|||TWO_SIDED|95.0|-25.2|7.2||||||Change at Week 13, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.2|-25.2|
92376304|NCT00884039|184655428|SUPERIORITY_OR_OTHER|||||||0.57|||||||Fisher Exact|||||||0.57
92376305|NCT02648022|184655444|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.91||||0.07|TWO_SIDED|95.0|0.92|9.27|||Regression, Linear|Multivariable Regression Analysis||||9.27|0.92|0.07
92376306|NCT02182440|184655447|SUPERIORITY||Difference in LS means|-16.53|STANDARD_ERROR_OF_MEAN|19.243||0.949|TWO_SIDED|95.0|-62.57|29.5|||ANOVA|||Analysis for Part 1||29.50|-62.57|0.949
92410753|NCT00669409|184711903|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|10.86|||TWO_SIDED|95.0|-22.4|20.5||||||Change at Week 13, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.5|-22.4|
92229906|NCT00630331|184362914|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|100.0||||0.033|ONE_SIDED|97.5|33.9|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||33.9|0.033
92229907|NCT00630331|184362914|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|73.6||||0.265|ONE_SIDED|97.5|-30.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H3N2 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||-30.0|0.265
92229908|NCT00630331|184362914|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|51.7||||0.319|ONE_SIDED|97.5|19.4|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||19.4|0.319
92229909|NCT00630331|184362915|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|69.5|||<|0.001|ONE_SIDED|97.5|55.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||55.0|<0.001
92376307|NCT02182440|184655447|SUPERIORITY||Difference in LS means|-4.65|STANDARD_ERROR_OF_MEAN|9.305||0.691|TWO_SIDED|95.0|-23.09|13.8|||ANOVA|||Analysis for Part 2||13.80|-23.09|0.691
92376308|NCT02182440|184655447|SUPERIORITY||Combined p-value|0.896||||0.896|TWO_SIDED||||||Inverse normal method||The p-values from Part 1 (see Statistical Analysis 1) and Part 2 (see Statistical Analysis 2) were combined to an overall p-value using the inverse normal method.|Combination of analysis results from Part 1 (see statistical Analysis 1) and Part 2 (see Statistical analysis 2)||||0.896
92376309|NCT02182440|184655448|SUPERIORITY||Odds Ratio (OR)|1.4||||0.28|TWO_SIDED|95.0|0.8|2.4|||Chi-squared|||||2.4|0.8|0.28
92376310|NCT02182440|184655449|SUPERIORITY||Mean Difference (Net)|0.12||||0.02|TWO_SIDED|95.0|0.02|0.23|||Cochran-Mantel-Haenszel|||||0.23|0.02|0.02
92376311|NCT02182440|184655450|SUPERIORITY||Mean Difference (Net)|0.12||||0.03|TWO_SIDED|95.0|0.01|0.23|||Cochran-Mantel-Haenszel|||||0.23|0.01|0.03
92376312|NCT02182440|184655451|SUPERIORITY||Hazard Ratio (HR)|1.77||||0.045|TWO_SIDED|95.0|1.0|3.1|||Regression, Logistic|||||3.1|1.0|0.045
92376313|NCT02182440|184655452|SUPERIORITY||Hazard Ratio (HR)|1.85||||0.03|TWO_SIDED|95.0|1.06|3.26|||Regression, Logistic|||||3.26|1.06|0.03
92376314|NCT00072293|184655463|NON_INFERIORITY_OR_EQUIVALENCE|As originally designed, target accrual was 1960 patients with analysis planned after 558 events. These targets were based on having 90% power to detect non-inferiority of no axillary dissection with a one-sided statistical signifi cance level of 10% (ie, α=0·10) under the assumption that 5-year disease-free survival with axillary dissection was 70% and defining non-inferiority as a hazard ratio (HR) of less than 1·25 (no axillary dissection relative to axillary dissection).|Hazard Ratio (HR)|0.78||||0.004|TWO_SIDED|95.0|0.55|1.11||Test for non-inferiority of no axillary dissection. Stratified logrank test compared groups. HR (no-AD vs AD) estimated from test statistic and variance as HR=exp(\[O-E\]/V), compared to 1.25 in 1-sided test of non-inferiority.|1-sided non-inferiority test||Hazard Ratio is no axillary dissection/axillary dissection.|||1.11|0.55|0.004
92376315|NCT00072293|184655464|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.73|TWO_SIDED|90.0|0.52|1.54|||Log Rank||Hazard Ratio is no axillary dissection/axillary dissection.|||1.54|0.52|0.73
92410754|NCT04491604|184711923|EQUIVALENCE|The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data.|responder rate difference|45.8||||0.00192|TWO_SIDED|95.0|23.6|68.0|||McNemar|The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data. A multiple imputation approach was used for missing data.|The difference is the treatment/discordance difference in percentage of responders (primary wounds with complete healing), which is the same as the difference in the percentage of treatment responders and the percentage of placebo responders.|The null hypothesis of interest was the absence of a treatment effect on wound healing and the alternative hypothesis is the presence of a treatment effect on wound healing. The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data. For subjects with missing primary wound healing data, a multiple imputation approach was used.||68.0|23.6|0.00192
92229910|NCT00630331|184362915|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|89.3|||<|0.001|ONE_SIDED|97.5|73.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||73.0|<0.001
92229911|NCT00630331|184362915|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|75.6||||0.04|ONE_SIDED|97.5|35.1|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H3N2 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||35.1|0.040
92240249|NCT00051558|184383965|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value for 18 month endpoint|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline total hip bone mineral density (BMD) measurement.||||0.006
92376316|NCT01605227|184655478|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9||||0.213|TWO_SIDED|95.0|0.76|1.06|||Log Rank|The Log-Rank test was stratified by prior cabazitaxel, baseline pain severity and baseline ECOG performance status.||||1.06|0.76|0.213
92376317|NCT01605227|184655479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel (CMH) Test was stratified by prior cabazitaxel, baseline pain severity and baseline ECOG performance status.||||||<0.001
92229912|NCT00630331|184362915|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|49.9||||0.37|ONE_SIDED|97.5|18.2|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||18.2|0.37
92410755|NCT04491604|184711924|EQUIVALENCE|The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data.|responder rate difference|51.0||||0.00047|TWO_SIDED|95.0|29.3|72.6||There is no multiplicity adjustment needed since the hypothesis testing are hierarchical.|McNemar|The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data. A multiple imputation approach was used for missing data.|The difference is the treatment/discordance difference in percentage of responders (complete wound healing), which is the same as the difference in the percentage of treatment responders and the percentage of placebo responders.|The null hypothesis of interest was the absence of a treatment effect on wound healing and the alternative hypothesis is the presence of a treatment effect on wound healing. The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data. For subjects with missing primary wound healing data, a multiple imputation approach was used.||72.6|29.3|0.00047
92410756|NCT00966875|184711946|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||A log transformed dose was used in the model.|Regression, Logistic|||||||0.031
92410757|NCT00966875|184711947|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||Fisher Exact|||||||0.033
92229913|NCT00630331|184362915|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|63.0||||0.003|ONE_SIDED|97.5|46.7|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||46.7|0.003
92376318|NCT01605227|184655480|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.4|0.57|||Log Rank|The Log-Rank Test was stratified by prior cabazitaxel, baseline pain severity, and baseline Eastern Cooperative Oncology Group Performance Status.||||0.57|0.40|<0.001
92376319|NCT02847858|184655481|SUPERIORITY||Slope|1.16||||0.011|TWO_SIDED|95.0|0.26|2.07||Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Arm comparison is Arm 1 (Intervention) minus Arm2 (Control); Time comparison is Post-visit Follow-up minus Baseline|Null hypothesis: No difference between study arms in change in mean self-efficacy from Baseline to Post-visit Follow-up||2.07|0.26|0.011
92376320|NCT02847858|184655481|SUPERIORITY||Slope|1.64|||<|0.001|TWO_SIDED|95.0|1.01|2.07||Post hoc comparison pursuant to significant Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Time comparison is Post-visit Follow-up minus Baseline|Null hypothesis: No Time difference (Post-visit Follow-up vs. Baseline) in outcome||2.07|1.01|<0.001
92376321|NCT02847858|184655481|SUPERIORITY||Slope|0.48||||0.108|TWO_SIDED|95.0|-0.1|1.05||Post hoc comparison pursuant to significant Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Time comparison is Post-visit Follow-up minus Baseline|Null hypothesis: No Time difference (Post-visit Follow-up vs. Baseline) in outcome||1.05|-0.10|0.108
92376322|NCT02847858|184655482|SUPERIORITY||F statistic:Time X Arm Interaction|3.23||||0.04|TWO_SIDED|||||Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|df=2,1611; Arm comparison is Intervention - Control; Time comparisons are 3 months - Baseline and 6 months - Baseline and 6 months - 3 months|Null hypothesis: No difference between study arms in change in mean self-efficacy from Baseline to 3 months or from Baseline to 6 months||||0.04
92376323|NCT02847858|184655482|SUPERIORITY||Slope|0.82||||0.218|TWO_SIDED|95.0|-0.48|2.11||Post hoc comparison pursuant to significant Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site||Null hypothesis: No difference between study arms in change in mean self-efficacy from Baseline to 3 months|Arm comparison is Intervention - Control; Time comparison is 3 months - Baseline|2.11|-0.48|.218
92376324|NCT02847858|184655482|SUPERIORITY||Slope|1.58||||0.008|TWO_SIDED|95.0|0.38|2.77||Post hoc comparison pursuant to significant Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Arm comparison is Intervention - Control; Time comparison is 6 months - Baseline|Null hypothesis: No difference between study arms in change in mean self-efficacy from Baseline to 6 months||2.77|0.38|0.008
92376325|NCT02847858|184655483|SUPERIORITY||F statistic:Time X Arm Interaction|3.72||||0.025|TWO_SIDED|||||Arm by Time Interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|df=2, 1007; Arm comparison is Intervention/Control; Time comparisons are 3 months/Baseline and 6 months/Baseline and 6 months/3 months|Null hypothesis: No difference between arms in change in percentage of participants using non-barrier method from Baseline to 3 months or to 6 months||||0.025
92410758|NCT00966875|184711947|SUPERIORITY_OR_OTHER|||||||0.047|||||||Fisher Exact|||||||0.047
92410759|NCT00966875|184711951|SUPERIORITY_OR_OTHER|||||||0.013||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.013
92229914|NCT00630331|184362915|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|81.5|||<|0.001|ONE_SIDED|97.5|60.9|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||60.9|<0.001
92229915|NCT00630331|184362915|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|49.3||||0.53|ONE_SIDED|97.5|-9.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H3N2 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||-9.0|0.53
92229916|NCT00630331|184362915|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|53.2||||0.26|ONE_SIDED|97.5|22.2|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||22.2|0.26
92376326|NCT02847858|184655483|SUPERIORITY||Odds Ratio (OR)|3.29||||0.042|TWO_SIDED|95.0|1.04|10.36||Post hoc comparison pursuant to significant Arm by Time Interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Arm comparison is Intervention / Control; Time comparison is 3 months / Baseline|Null hypothesis: No difference between arms in change in percentage of participants using non-barrier method from Baseline to 3 months||10.36|1.04|0.042
92376327|NCT02847858|184655483|SUPERIORITY||Odds Ratio (OR)|5.54||||0.005|TWO_SIDED|95.0|1.7|18.06||Post hoc comparison pursuant to significant Arm by Time Interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Arm comparison is Intervention / Control; Time comparison is 6 months / Baseline|Null hypothesis: No difference between arms in change in percentage of participants using non-barrier method from Baseline to 6 months||18.06|1.7|0.005
92376328|NCT02847858|184655484|SUPERIORITY||Slope|1.62|||<|0.001|TWO_SIDED|95.0|1.43|1.82||Time main effect; a priori threshold for statistical significance p \<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Time comparison is post-app minus pre-app|Null hypothesis: No change in contraception knowledge from immediate pre-app to immediate post-app among Intervention group participants||1.82|1.43|<0.001
92376329|NCT02847858|184655485|SUPERIORITY||Odds Ratio (OR)|2.22||||0.055|TWO_SIDED|95.0|0.98|5.01||Arm main effect; a priori threshold for statistical significance p\<.05|Regression, Logistic|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; clustering by recruitment site|Arm comparison is Arm 1 (Intervention) / Arm2 (Control)|Null hypothesis: No difference between study arms in percentage of participants who discussed birth control with health care provider at visit||5.01|0.98|0.055
92376330|NCT02847858|184655486|SUPERIORITY||Odds Ratio (OR)|1.66||||0.227|TWO_SIDED|95.0|0.73|3.78||Arm main effect; a priori threshold for statistical significance p\<.05|Regression, Logistic|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; clustering by recruitment site|Arm comparison is Arm 1 (Intervention) / Arm2 (Control)|Null hypothesis: No difference between study arms in percentage of participants who receive/make appointment/get prescription for a non-barrier method||3.78|0.73|0.227
92376331|NCT02210221|184655612|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No corrections for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum in 6-month mortality||||<0.0001
92376332|NCT02210221|184655612|OTHER||observed to expected ratio|0.7|||||TWO_SIDED|95.0|0.62|0.76|||||numerator: 6-month mortality observed denominator: 6-month mortality expected 95% CIs estimated according to a Poisson distribution|||0.76|0.62|
92410760|NCT00966875|184711951|SUPERIORITY_OR_OTHER|||||||0.004||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.004
92410761|NCT00966875|184711951|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92410762|NCT00966875|184711951|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92229917|NCT01302808|184362936|OTHER||Maximum Tolerated Dose|8.0|||||TWO_SIDED|||||||||||||
92229918|NCT02761967|184362972|EQUIVALENCE|The statistical power of the study for the temporal variables was 82%. Multiple linear regression models were obtained for the first and second stages and for the total duration of delivery.||||||0.776|||||||Chi-squared|||||||0.776
92376333|NCT02210221|184655613|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No corrections for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum in SF-12v2 mental component summary||||<0.0001
92376334|NCT02210221|184655613|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No corrections for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum in SF-12v2 physical component summary||||<0.0001
92376335|NCT02210221|184655614|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No corrections for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum in Qolibri Overall Scale||||<0.0001
92410763|NCT00966875|184711951|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92410764|NCT00966875|184711951|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92410765|NCT00966875|184711951|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92376336|NCT02210221|184655615|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No correlations for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
92410766|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.227|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.227
92410767|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.306|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.306
92410768|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.001
92410769|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.070
92410770|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.058|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.058
92410771|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.033
92410772|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.047
92410773|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.191|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.191
92410774|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.019
92410775|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.013
92410776|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.017
92376337|NCT02210221|184655616|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No correlations for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
92376338|NCT02210221|184655617|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No correlations for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
92376339|NCT02210221|184655618|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
92376340|NCT02210221|184655619|NON_INFERIORITY|non-inferiority margin = 0||||||0.169|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||0.169
92376341|NCT02210221|184655620|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||Fisher Exact|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
92410777|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.026
92410778|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.039
92376342|NCT02210221|184655621|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
92376343|NCT02210221|184655622|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
92376344|NCT02210221|184655623|NON_INFERIORITY|non-inferiority margin = 0||||||0.637|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||0.637
92376345|NCT02210221|184655624|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
92376346|NCT02210221|184655625|NON_INFERIORITY|non-inferiority margin = 0||||||0.48|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||0.480
92410779|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.102|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.102
92410780|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.388|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.388
92410781|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.033
92410782|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.039
92410783|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.199|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.199
92410784|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.039
92410785|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.696|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.696
92410786|NCT00966875|184711953|SUPERIORITY_OR_OTHER|||||||0.112|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.112
92410787|NCT00966875|184711955|SUPERIORITY_OR_OTHER|||||||0.017||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.017
92410788|NCT00966875|184711955|SUPERIORITY_OR_OTHER|||||||0.042||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.042
92410789|NCT00966875|184711955|SUPERIORITY_OR_OTHER|||||||0.004||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.004
92410790|NCT00966875|184711955|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92410791|NCT00966875|184711955|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92410792|NCT00966875|184711955|SUPERIORITY_OR_OTHER|||||||0.008||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.008
92410793|NCT00966875|184711955|SUPERIORITY_OR_OTHER|||||||0.007||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.007
92410794|NCT00966875|184711957|SUPERIORITY_OR_OTHER|||||||0.093||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.093
92410795|NCT00966875|184711957|SUPERIORITY_OR_OTHER|||||||0.023||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.023
92410796|NCT00966875|184711957|SUPERIORITY_OR_OTHER|||||||0.006||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.006
92410797|NCT00966875|184711957|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.001
92410798|NCT00966875|184711957|SUPERIORITY_OR_OTHER|||||||0.028||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.028
92376347|NCT02210221|184655626|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
92376348|NCT02210221|184655627|NON_INFERIORITY|non-inferiority margin = 0||||||0.024|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||0.024
92376349|NCT02210221|184655628|NON_INFERIORITY|non-inferiority margin = 0||||||0.064|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||0.064
92376350|NCT02210221|184655629|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
92376351|NCT00405964|184655644|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Determined for site. P-value of \<.001 for treatment as well.|ANOVA|||||||<.001
92376352|NCT00405964|184655645|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035||95.0||||Determined for site. Treatment p-value \<.001|ANOVA|||||||0.035
92376353|NCT00405964|184655646|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Same p-value for treatment and site.|ANOVA|||||||<.001
92376354|NCT01300819|184655654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.58||||0.147|TWO_SIDED|95.0|-8.43|1.26||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysing was performed with ANCOVA model, adjusted for several terms.||Null hypothesis: mean change in the total Nonmotor Symptoms Scale (NMSS) score is the same for rotigotine- and placebo-treated group.||1.26|-8.43|0.147
92376355|NCT01300819|184655655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.002|TWO_SIDED|95.0|-4.27|-0.92||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||-0.92|-4.27|0.002
92376356|NCT01300819|184655656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.79||||0.024|TWO_SIDED|95.0|-5.21|-0.37||Two-sided p-values are presented.|ANCOVA|Testing was performed using an ANCOVA model, adjusted for several terms.||||-0.37|-5.21|0.024
92376357|NCT01300819|184655657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.773|TWO_SIDED|95.0|-0.67|0.5||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.50|-0.67|0.773
92376358|NCT01300819|184655658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.06||||0.122|TWO_SIDED|95.0|-2.41|0.29||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.29|-2.41|0.122
92376359|NCT01300819|184655659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81||||0.047|TWO_SIDED|95.0|-3.59|-0.02||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||-0.02|-3.59|0.047
92376360|NCT01300819|184655660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.601|TWO_SIDED|95.0|-0.22|0.37||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.37|-0.22|0.601
92410799|NCT00966875|184711957|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92376361|NCT01300819|184655661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.997|TWO_SIDED|95.0|-0.99|0.99||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.99|-0.99|0.997
92376362|NCT01300819|184655662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.584|TWO_SIDED|95.0|-0.87|0.49||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.49|-0.87|0.584
92376363|NCT01300819|184655663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.536|TWO_SIDED|95.0|-0.84|1.6||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||1.60|-0.84|0.536
92376364|NCT01300819|184655664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.889|TWO_SIDED|95.0|-0.81|0.94||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.94|-0.81|0.889
92376365|NCT01300819|184655665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04||||0.043|TWO_SIDED|95.0|-2.06|-0.03||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||-0.03|-2.06|0.043
92376366|NCT00438854|184655688|SUPERIORITY_OR_OTHER||Estimating proportion of responders|0.2||||||||||||||The primary measures of efficacy of tumor response were: complete remission (CR), nodular partial remission (nPR), or partial remission (PR), as per NCI-WG criteria. The true ORR is reported as percentage and 90% CI calculated using the binomial exact test. Time to treatment failure (TTF) was defined from the date on study to date of progression, death in remission, initiation of non-protocol therapy in the absence of progression, or censored on the last visit.||||
92376367|NCT04948307|184655692|SUPERIORITY|||||||0.7326|||||||Chi-squared|||||||0.7326
92376368|NCT04948307|184655693|SUPERIORITY|||||||0.7396|||||||Kolmogorov-Smirnoff|||||||0.7396
92376369|NCT04948307|184655694|SUPERIORITY|||||||0.871|||||||Kolmogorov-Smirnoff|||||||0.8710
92376370|NCT04948307|184655695|SUPERIORITY|||||||0.8816|||||||Kolmogorov-Smirnoff|||||||0.8816
92376371|NCT04948307|184655696|SUPERIORITY|||||||0.5281|||||||Chi-squared|||||||0.5281
92376372|NCT04948307|184655697|SUPERIORITY|||||||0.2996|||||||Chi-squared|||||||0.2996
92376373|NCT04948307|184655701|SUPERIORITY|||||||0.7201|||||||Kolmogorov-Smirnoff|||||||0.7201
92376374|NCT04948307|184655703|OTHER|||||||||||||||||Summary statistics are presented.|Summary statistics are presented|||
92376375|NCT04948307|184655705|OTHER||||||||||||||||||Summary statistics are presented.|||
92376376|NCT03131596|184655715|SUPERIORITY|||||||0.012||||||The p-value is not adjusted and a p-value of \< 0.05 is considered statistically significant.|Chi-squared|||200 patients were eligible and randomised in a 1:1 fashion. 9 patients did not complete the full protocol, resulting in 94 cases in the balloon group and 97 cases in the control group included in the final analysis. Intention-to-treat analysis was conducted.The null hypothesis is the percentage of the patients with reformed uterine adhesion in balloon group will less than the percentage of the patients with reformed uterine adhesion in control group. A Chi-squared analysis was used.||||0.012
92410800|NCT00966875|184711957|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92229919|NCT01955707|184362975|SUPERIORITY_OR_OTHER||adjusted mean difference (log-scale)|0.08|||||TWO_SIDED|90.0|-0.09|0.26||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to baseline using an autoregressive variance-covariance matrix structure. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, and tissue plasminogen activator (tPA) use.||0.26|-0.09|
92410801|NCT00966875|184711959|SUPERIORITY_OR_OTHER|||||||0.247||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.247
92410802|NCT00966875|184711959|SUPERIORITY_OR_OTHER|||||||0.315||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.315
92229920|NCT01955707|184362975|SUPERIORITY_OR_OTHER||ratio of relative growth|1.09||||0.779|TWO_SIDED|90.0|0.91|1.3||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.30|0.91|0.779
92240250|NCT00051558|184383965|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.009
92376377|NCT03131596|184655716|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92376378|NCT03131596|184655717|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92376379|NCT03131596|184655718|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
92376380|NCT00734071|184655719|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.911||0.518|TWO_SIDED|95.0|-1.2|2.38||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.05, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|||P-values were tested at the 5% level of significance (ie, statistical significance if P\<0.05). To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.05, the testing procedure stopped for all subsequent endpoints.||2.38|-1.20|0.518
92376381|NCT00734071|184655720|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.542||0.685|TWO_SIDED|95.0|-1.29|0.85||Hierarchical testing stopped at the primary endpoint in the testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|||Statistical tests were 2-sided and results were presented with 95% confidence intervals with the estimated P-values at the 5% level of significance (ie, statistical significance if P\<0.05).||0.85|-1.29|0.685
92376382|NCT00734071|184655721|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.141||0.984|TWO_SIDED|95.0|-0.27|0.28||Statistical tests were 2-sided and results were presented with 95% confidence intervals with the estimated P-values at the 5% level of significance (ie, statistical significance if P\<0.05). No adjustments for multiplicity were made.|Mixed model for repeated measurements|||||0.28|-0.27|0.984
92376383|NCT00734071|184655722|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.866||0.703|TWO_SIDED|95.0|-1.38|2.04||Statistical tests were 2-sided and results were presented with 95% confidence intervals with the estimated P-values at the 5% level of significance (ie, statistical significance if P\<0.05). No adjustments for multiplicity were made.|Mixed model for repeated measurements|||||2.04|-1.38|0.703
92376384|NCT00734071|184655723|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.131||||0.602|TWO_SIDED|95.0|0.713|1.795|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||1.795|0.713|0.602
92376385|NCT00734071|184655724|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|1.558||0.995|TWO_SIDED|95.0|-3.09|3.07||Statistical tests were 2-sided and results were presented with 95% confidence intervals with the estimated P-values at the 5% level of significance (ie, statistical significance if P\<0.05). No adjustments for multiplicity were made.|Mixed model for repeated measurements|||||3.07|-3.09|0.995
92376386|NCT00734071|184655725|SUPERIORITY_OR_OTHER||LS Mean Difference|1.02|STANDARD_ERROR_OF_MEAN|2.951||0.731|TWO_SIDED|95.0|-4.79|6.83||Statistical tests were 2-sided and results were presented with 95% confidence intervals with the estimated P-values at the 5% level of significance (ie, statistical significance if P\<0.05). No adjustments for multiplicity were made.|Mixed model for repeated measurements|||||6.83|-4.79|0.731
92376387|NCT03654885|184655744|NON_INFERIORITY|By assuming the margin of non-inferiority at 24%, the null hypothesis for this non-inferiority testing was to be set up as XEN implanted group (P1)-Trabeculectomy group (P2) ≤-0.24 versus the alternative hypothesis as P1-P2 \>-0.24. Equivalently, non-inferiority of P1 to P2 was to be declared if the lower limit of the 2-sided confidence interval (CI) of the difference of the above endpoint between the two treatment groups computed using normal approximation was found to be greater than -24%.|Percentage Difference|-6.1||||0.487|TWO_SIDED|95.0|-22.9|10.8|||Chi-squared|||||10.8|-22.9|0.487
92376388|NCT03654885|184655746|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-5.81|STANDARD_ERROR_OF_MEAN|1.155|<|0.001|TWO_SIDED|95.0|-8.074|-3.538||Mixed Model for Repeated Measures (MMRM) model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Day 1||-3.538|-8.074|<0.001
92376389|NCT03654885|184655746|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-0.22|STANDARD_ERROR_OF_MEAN|1.163||0.851|TWO_SIDED|95.0|-2.503|2.066||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Week 1||2.066|-2.503|0.851
92410803|NCT00966875|184711959|SUPERIORITY_OR_OTHER|||||||0.006||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.006
92410804|NCT00966875|184711959|SUPERIORITY_OR_OTHER|||||||0.042||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.042
92410805|NCT00966875|184711959|SUPERIORITY_OR_OTHER|||||||0.055||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.055
92410806|NCT00966875|184711959|SUPERIORITY_OR_OTHER|||||||0.365||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.365
92410807|NCT00966875|184711959|SUPERIORITY_OR_OTHER|||||||0.005||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.005
92229921|NCT01955707|184362976|SUPERIORITY_OR_OTHER||adjusted mean difference (log-scale)|0.09|||||TWO_SIDED|90.0|-0.09|0.27||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to baseline using an autoregressive variance-covariance matrix structure. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, and tPA use.||0.27|-0.09|
92376390|NCT03654885|184655746|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|2.03|STANDARD_ERROR_OF_MEAN|1.162||0.081|TWO_SIDED|95.0|-0.253|4.309||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Week 2||4.309|-0.253|0.081
92376391|NCT03654885|184655746|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|2.21|STANDARD_ERROR_OF_MEAN|1.157||0.056|TWO_SIDED|95.0|-0.059|4.484||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Month 1||4.484|-0.059|0.056
92376392|NCT03654885|184655746|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|4.74|STANDARD_ERROR_OF_MEAN|1.181|<|0.001|TWO_SIDED|95.0|2.416|7.054||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Month 3||7.054|2.416|<0.001
92376393|NCT03654885|184655746|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|3.01|STANDARD_ERROR_OF_MEAN|1.197||0.012|TWO_SIDED|95.0|0.657|5.358||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Month 6||5.358|0.657|0.012
92376394|NCT03654885|184655746|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|3.53|STANDARD_ERROR_OF_MEAN|1.197||0.003|TWO_SIDED|95.0|1.182|5.883||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Month 9||5.883|1.182|0.003
92376395|NCT03654885|184655746|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|2.77|STANDARD_ERROR_OF_MEAN|1.229||0.024|TWO_SIDED|95.0|0.358|5.183||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Month 12||5.183|0.358|0.024
92376396|NCT03654885|184655748|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.505|TWO_SIDED|95.0|-0.36|0.18||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Day 1||0.18|-0.36|0.505
92376397|NCT03654885|184655748|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.949|TWO_SIDED|95.0|-0.28|0.26||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Week 1||0.26|-0.28|0.949
92410808|NCT00966875|184711961|SUPERIORITY_OR_OTHER|||||||0.778||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.778
92410809|NCT00966875|184711961|SUPERIORITY_OR_OTHER|||||||0.865||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.865
92229922|NCT01955707|184362976|SUPERIORITY_OR_OTHER||ratio of relative growth|1.09||||0.797|TWO_SIDED|90.0|0.92|1.31||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.31|0.92|0.797
92229923|NCT01955707|184362977|SUPERIORITY_OR_OTHER||Adjusted mean difference (log-scale)|0.05|||||TWO_SIDED|90.0|-0.13|0.24||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to baseline using an autoregressive variance-covariance matrix structure. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, and tPA use.||0.24|-0.13|
92376398|NCT03654885|184655748|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.581|TWO_SIDED|95.0|-0.19|0.34||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Week 2||0.34|-0.19|0.581
92376399|NCT03654885|184655748|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.302|TWO_SIDED|95.0|-0.13|0.41||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Month 1||0.41|-0.13|0.302
92410810|NCT00966875|184711961|SUPERIORITY_OR_OTHER|||||||0.03||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.030
92410811|NCT00966875|184711961|SUPERIORITY_OR_OTHER|||||||0.331||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.331
92410812|NCT00966875|184711961|SUPERIORITY_OR_OTHER|||||||0.039||||||P-value is for Week 12..|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.039
92410813|NCT00966875|184711961|SUPERIORITY_OR_OTHER|||||||0.292||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.292
92410814|NCT00966875|184711961|SUPERIORITY_OR_OTHER|||||||0.003||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.003
92410815|NCT00966875|184711963|SUPERIORITY_OR_OTHER|||||||0.09||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.090
92229924|NCT01955707|184362977|SUPERIORITY_OR_OTHER||ratio of relative growth|1.05||||0.684|TWO_SIDED|90.0|0.88|1.27||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.27|0.88|0.684
92229925|NCT01955707|184362978|SUPERIORITY_OR_OTHER||Adjusted mean difference (log-scale)|0.0|||||TWO_SIDED|90.0|-0.12|0.11||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to 24 hours using an autoregressive variance-covariance matrix structure. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, and tPA use.||0.11|-0.12|
92376400|NCT03654885|184655748|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.4|STANDARD_ERROR_OF_MEAN|0.14||0.005|TWO_SIDED|95.0|0.12|0.66||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Month 3||0.66|0.12|0.005
92376401|NCT03654885|184655748|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.3|STANDARD_ERROR_OF_MEAN|0.14||0.026|TWO_SIDED|95.0|0.04|0.59||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Month 6||0.59|0.04|0.026
92376402|NCT03654885|184655748|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.4|STANDARD_ERROR_OF_MEAN|0.14||0.01|TWO_SIDED|95.0|0.09|0.64||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Month 9||0.64|0.09|0.010
92410816|NCT00966875|184711963|SUPERIORITY_OR_OTHER|||||||0.131||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.131
92410817|NCT00966875|184711963|SUPERIORITY_OR_OTHER|||||||0.008||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.008
92410818|NCT00966875|184711963|SUPERIORITY_OR_OTHER|||||||0.013||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.013
92410819|NCT00966875|184711963|SUPERIORITY_OR_OTHER|||||||0.01||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.010
92410820|NCT00966875|184711963|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92410821|NCT00966875|184711963|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92410822|NCT00966875|184711965|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92410823|NCT00966875|184711965|SUPERIORITY_OR_OTHER|||||||0.012||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.012
92410824|NCT00966875|184711965|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92229926|NCT01955707|184362978|SUPERIORITY_OR_OTHER||ratio of relative growth|1.0||||0.487|TWO_SIDED|90.0|0.89|1.12||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.12|0.89|0.487
92410825|NCT00966875|184711965|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92410826|NCT00966875|184711965|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92376403|NCT03654885|184655748|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.3|STANDARD_ERROR_OF_MEAN|0.14||0.052|TWO_SIDED|95.0|0.0|0.54||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Month 12||0.54|0.00|0.052
92376404|NCT03654885|184655749|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|2.77|STANDARD_ERROR_OF_MEAN|1.229||0.024|TWO_SIDED|95.0|0.358|5.183||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables was used for analysis.|Mixed Model for Repeated Measures|||||5.183|0.358|0.024
92410827|NCT00966875|184711965|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
92410828|NCT00966875|184711965|SUPERIORITY_OR_OTHER|||||||0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.001
92410829|NCT00966875|184711967|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||P-value is for Week 12 LOCF.|Fisher Exact|||||||0.013
92410830|NCT00966875|184711967|SUPERIORITY_OR_OTHER|||||||0.076|TWO_SIDED|||||P-value is for Week 12 LOCF.|Fisher Exact|||||||0.076
92410831|NCT00966875|184711967|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-value is for Week 12 LOCF.|Fisher Exact|||||||0.002
92410832|NCT00966875|184711967|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12 LOCF.|Fisher Exact|||||||<0.001
92410833|NCT00966875|184711967|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-value is for Week 12.|Fisher Exact|||||||0.002
92410834|NCT00966875|184711967|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||P-value is for Week 12 LOCF.|Fisher Exact|||||||0.006
92410835|NCT00966875|184711967|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for Week 12.|Fisher Exact|||||||0.001
92410836|NCT00966875|184711969|SUPERIORITY_OR_OTHER|||||||0.307||||||P-value is for Week 12.|ANCOVA|||||||0.307
92410837|NCT00966875|184711969|SUPERIORITY_OR_OTHER|||||||0.104||||||P-value is for Week 12.|ANCOVA|||||||0.104
92410838|NCT00966875|184711969|SUPERIORITY_OR_OTHER|||||||0.139||||||P-value is for Week 12.|ANCOVA|||||||0.139
92410839|NCT00966875|184711969|SUPERIORITY_OR_OTHER|||||||0.056||||||P-value is for Week 12.|ANCOVA|||||||0.056
92410840|NCT00966875|184711969|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|||||P-value is for Week 12.|ANCOVA|||||||0.048
92410841|NCT00966875|184711969|SUPERIORITY_OR_OTHER|||||||0.16||||||P-value is for Week 12.|ANCOVA|||||||0.160
92410842|NCT00966875|184711969|SUPERIORITY_OR_OTHER|||||||0.029||||||P-value is for Week 12.|ANCOVA|||||||0.029
92410843|NCT00966875|184711971|SUPERIORITY_OR_OTHER|||||||0.272||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.272
92229927|NCT01955707|184362979|SUPERIORITY_OR_OTHER||Adjusted mean difference (log-scale)|-0.02|||||TWO_SIDED|90.0|-0.14|0.1||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to 24 hours using an autoregressive variance-covariance matrix structure. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, and tPA use.||0.10|-0.14|
92229928|NCT01955707|184362979|SUPERIORITY_OR_OTHER||ratio of relative growth|0.98||||0.402|TWO_SIDED|90.0|0.87|1.11||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.11|0.87|0.402
92229929|NCT01955707|184362980|SUPERIORITY_OR_OTHER||Adjusted mean difference (log-scale)|-0.02|||||TWO_SIDED|90.0|-0.18|0.13||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to Day 5 using an autoregressive variance-covariance matrix structure. The model adjusts for for treatment, log baseline DWI volume, treatment time window, and tPA use.||0.13|-0.18|
92229930|NCT01955707|184362980|SUPERIORITY_OR_OTHER||ratio of relative growth|0.98||||0.394|TWO_SIDED|90.0|0.84|1.14||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.14|0.84|0.394
92229931|NCT01955707|184362981|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|-0.25||||0.427|TWO_SIDED|90.0|-2.48|1.98||one-sided p-value|repeated measures mixed effects model|||Analysis of NIHSS score and change from Baseline at 24 hours. The repeated measures mixed effects model is modeling absolute change in NIHSS score relative to baseline and using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, baseline NIHSS score and location of stroke.||1.98|-2.48|0.427
92229932|NCT01955707|184362981|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|1.71||||0.896|TWO_SIDED|90.0|-0.52|3.94||one-sided p-value|repeated measures mixed effects model|||Analysis of NIHSS score and change from Baseline at Day 5. The repeated measures mixed effects model is modeling absolute change in NIHSS score relative to baseline and using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, baseline NIHSS score and location of stroke.||3.94|-0.52|0.896
92229933|NCT01955707|184362981|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|3.15||||0.989|TWO_SIDED|90.0|0.89|5.4||one-sided p-value|repeated measures mixed effects model|||Analysis of NIHSS score and change from Baseline at Day 30. The repeated measures mixed effects model is modeling absolute change in NIHSS score relative to baseline and using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, baseline NIHSS score and location of stroke.||5.40|0.89|0.989
92410844|NCT00966875|184711971|SUPERIORITY_OR_OTHER|||||||0.962||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.962
92410845|NCT00966875|184711971|SUPERIORITY_OR_OTHER|||||||0.236||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.236
92410846|NCT00966875|184711971|SUPERIORITY_OR_OTHER|||||||0.316||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.316
92229934|NCT01955707|184362981|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|1.93||||0.915|TWO_SIDED|90.0|-0.38|4.25||one-sided p-value|repeated measures mixed effects model|||Analysis of NIHSS score and change from Baseline at Day 90. The repeated measures mixed effects model is modeling absolute change in NIHSS score relative to baseline and using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, baseline NIHSS score and location of stroke.||4.25|-0.38|0.915
92239645|NCT00637273|184383083|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|15.5|STANDARD_ERROR_OF_MEAN|4.95||0.0038|TWO_SIDED|95.0|5.7|25.2||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting plasma glucose from baseline (Day 1) to Week 26 was analyzed using an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting plasma glucose as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||25.2|5.7|0.0038
92239646|NCT00637273|184383083|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.4|STANDARD_ERROR_OF_MEAN|4.98||0.3729|TWO_SIDED|95.0|-5.3|14.2||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting plasma glucose from baseline (Day 1) to Week 26 was analyzed using an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting plasma glucose as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||14.2|-5.3|0.3729
92410847|NCT00966875|184711971|SUPERIORITY_OR_OTHER|||||||0.138||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.138
92410848|NCT00966875|184711971|SUPERIORITY_OR_OTHER|||||||0.975||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.975
92410849|NCT00966875|184711971|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED|||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.079
92410850|NCT00966875|184711973|SUPERIORITY_OR_OTHER|||||||0.982||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.982
92410851|NCT00966875|184711973|SUPERIORITY_OR_OTHER|||||||0.276||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.276
92376405|NCT03654885|184655750|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.14||0.052|TWO_SIDED|95.0|0.0|0.54||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables was used for analysis.|Mixed Model for Repeated Measures|||||0.54|0.00|0.052
92376406|NCT03654885|184655751|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|1.79|STANDARD_ERROR_OF_MEAN|2.214||0.421|TWO_SIDED|95.0|-2.579|6.151||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables was used for analysis.|Mixed model repeated measures|||||6.151|-2.579|0.421
92410852|NCT00966875|184711973|SUPERIORITY_OR_OTHER|||||||0.05||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.050
92410853|NCT00966875|184711973|SUPERIORITY_OR_OTHER|||||||0.01||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.010
92410854|NCT00966875|184711973|SUPERIORITY_OR_OTHER|||||||0.046||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.046
92410855|NCT00966875|184711973|SUPERIORITY_OR_OTHER|||||||0.017||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.017
92229935|NCT01955707|184362982|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.564|TWO_SIDED|90.0|0.55|1.45||One sided p-value based on Van Elteren's test, adjusting for baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).|Van Elteren's test|||Analysis of distribution of mRS scores at Day 5. Odds ratio from a proportional-odds logistic regression model assuming a common odds ratio across all cut points of the mRS score. Covariates include baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).||1.45|0.55|0.564
92229936|NCT01955707|184362982|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.077|TWO_SIDED|90.0|0.8|2.1||One-sided p-value based on Van Elteren's test, adjusting for baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).|Van Elteren's test|||Analysis of distribution of mRS scores at Day 30. Odds ratio from a proportional-odds logistic regression model assuming a common odds ratio across all cut points of the mRS score. Covariates include baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).||2.10|0.80|0.077
92229937|NCT01955707|184362982|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.243|TWO_SIDED|90.0|0.71|1.86||One -sided p-value based on Van Elteren's test, adjusting for baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).|Van Elteren's test|||Analysis of the distribution of mRS scores at Day 90. Odds ratio from a proportional-odds logistic regression model assuming a common odds ratio across all cut points of the mRS score. Covariates include baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).||1.86|0.71|0.243
92240251|NCT00051558|184383966|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 12 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92410856|NCT00966875|184711973|SUPERIORITY_OR_OTHER|||||||0.066||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.066
92410857|NCT00966875|184711975|SUPERIORITY_OR_OTHER|||||||0.538||||||P-value is for Week 12.|Fisher Exact|||||||0.538
92410858|NCT00966875|184711975|SUPERIORITY_OR_OTHER|||||||0.515||||||P-value is for Week 12.|Fisher Exact|||||||0.515
92410859|NCT00966875|184711975|SUPERIORITY_OR_OTHER|||||||0.03||||||P-value is for Week 12.|Fisher Exact|||||||0.030
92410860|NCT00966875|184711975|SUPERIORITY_OR_OTHER|||||||0.053||||||P-value is for Week 12.|Fisher Exact|||||||0.053
92410861|NCT00966875|184711975|SUPERIORITY_OR_OTHER|||||||0.393||||||P-value is for Week 12.|Fisher Exact|||||||0.393
92410862|NCT00966875|184711975|SUPERIORITY_OR_OTHER|||||||0.077||||||P-value is for Week 12.|Fisher Exact|||||||0.077
92410863|NCT00966875|184711975|SUPERIORITY_OR_OTHER|||||||0.105||||||P-value is for Week 12.|Fisher Exact|||||||0.105
92410864|NCT01305577|184712008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.73|||<|0.001|TWO_SIDED|95.0|2.7|8.28|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|The odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 1 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||8.28|2.70|<0.001
92376407|NCT03654885|184655752|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.25||0.18|TWO_SIDED|95.0|-0.16|0.84||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables was used for analysis.|Mixed Model for Repeated Measures|||||0.84|-0.16|0.180
92376408|NCT03654885|184655753|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-15.7||||0.064|TWO_SIDED|95.0|-33.0|2.3|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤18 mmHg||2.3|-33.0|0.064
92376409|NCT03654885|184655753|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-15.3||||0.078|TWO_SIDED|95.0|-32.7|2.5|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤17 mmHg||2.5|-32.7|0.078
92410865|NCT01305577|184712008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.21|||<|0.001|TWO_SIDED|95.0|3.52|10.94|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|The odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|The null hypothesis was there was no difference between deoxycholic acid 2 mg/cm² and placebo. An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme.||10.94|3.52|<0.001
92410866|NCT01305577|184712009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.58||||0.028|TWO_SIDED|95.0|1.2|25.87|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|Odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|||25.87|1.20|0.028
92410867|NCT01305577|184712009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.05|||<|0.001|TWO_SIDED|95.0|2.75|52.9|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|Odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|||52.90|2.75|<0.001
92410868|NCT01305577|184712010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.99|||<|0.001|TWO_SIDED|95.0|1.74|5.14|||Regression, Logistic|Logistic regression analysis with treatment and Baseline SSRS value in the model|Odds ratio was based on a logistic regression model adjusted for Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 1 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||5.14|1.74|<0.001
92229938|NCT01955707|184362983|SUPERIORITY_OR_OTHER||Adjusted mean|0.68||||0.455|TWO_SIDED|90.0|-9.19|10.56||one-sided p-value|repeated measures mixed effects model|||Analysis of Barthel Index at Day 5. The repeated measures mixed effects model is modeling Barthel Index using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, and location of stroke.||10.56|-9.19|0.455
92229939|NCT01955707|184362983|SUPERIORITY_OR_OTHER||Adjusted mean|1.21||||0.42|TWO_SIDED|90.0|-8.76|11.19||one-sided p-value|repeated measures mixed effects model|||Analysis of Barthel Index at Day 30. The repeated measures mixed effects model is modeling Barthel Index using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, and location of stroke.||11.19|-8.76|0.420
92229940|NCT01955707|184362983|SUPERIORITY_OR_OTHER||Adjusted mean|3.56||||0.283|TWO_SIDED|90.0|-6.64|13.75|||repeated measures mixed effects model|||Analysis of Barthel Index at Day 90/Final Visit. The repeated measures mixed effects model is modeling Barthel Index using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, and location of stroke.||13.75|-6.64|0.283
92376410|NCT03654885|184655753|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-17.4||||0.051|TWO_SIDED|95.0|-34.7|0.4|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤16 mmHg||0.4|-34.7|0.051
92229941|NCT01817790|184362996|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.36||||0.0024|TWO_SIDED|95.0|-0.59|-0.13||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in Daily rTOSS between the Fluticasone nasal spray and the placebo nasal spray.||-0.13|-0.59|0.0024
92376411|NCT03654885|184655753|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-16.9||||0.064|TWO_SIDED|95.0|-34.1|1.0|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤15 mmHg||1.0|-34.1|0.064
92376412|NCT03654885|184655753|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-13.1||||0.2|TWO_SIDED|95.0|-30.5|4.8|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤14 mm Hg||4.8|-30.5|0.200
92410869|NCT01305577|184712010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.22|||<|0.001|TWO_SIDED|95.0|2.99|9.11|||Regression, Logistic|Logistic regression analysis with treatment and baseline SSRS value in the model|Odds ratio was based on a logistic regression model adjusted for Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 2 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||9.11|2.99|<0.001
92376413|NCT03654885|184655753|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-20.0||||0.042|TWO_SIDED|95.0|-37.1|-2.0|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤13 mm Hg||-2.0|-37.1|0.042
92410870|NCT01305577|184712011|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51|||<|0.001|TWO_SIDED|95.0|-0.68|-0.35|||Mixed Models Repeated Measures|The model included the fixed effect factors visit and treatment, the visit\*treatment interaction, and the baseline CR-SMFRS values as covariate.||||-0.35|-0.68|<0.001
92229942|NCT01817790|184362997|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.33||||0.0057|TWO_SIDED|95.0|-0.56|-0.1||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in AM rTOSS between the Fluticasone nasal spray and the placebo nasal spray.||-0.10|-0.56|0.0057
92376414|NCT03654885|184655753|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-12.7||||0.18|TWO_SIDED|95.0|-30.1|5.2|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤12 mm Hg||5.2|-30.1|0.180
92410871|NCT01305577|184712011|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.84|-0.5|||Mixed Models Repeated Measures|The model included the fixed effect factors visit and treatment, the visit\*treatment interaction, and the baseline CR-SMFRS values as covariate.||||-0.50|-0.84|<0.001
92376415|NCT03654885|184655754|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-3.6||||0.712|TWO_SIDED|95.0|-21.3|14.2|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥25% IOP Reduction||14.2|-21.3|0.712
92240252|NCT00051558|184383966|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.015
92376416|NCT03654885|184655754|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-12.9||||0.201|TWO_SIDED|95.0|-30.3|5.0|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥30% IOP Reduction||5.0|-30.3|0.201
92376417|NCT03654885|184655754|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-20.3||||0.03|TWO_SIDED|95.0|-37.3|-2.3|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥35% IOP Reduction||-2.3|-37.3|0.030
92376418|NCT03654885|184655754|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-18.8||||0.043|TWO_SIDED|95.0|-36.0|-0.8|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥40% IOP Reduction||-0.8|-36.0|0.043
92376419|NCT03654885|184655754|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-17.9||||0.048|TWO_SIDED|95.0|-35.1|0.0|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥45% IOP Reduction||0.0|-35.1|0.048
92376420|NCT03654885|184655754|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-21.1||||0.015|TWO_SIDED|95.0|-38.1|-3.2|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥50% IOP Reduction||-3.2|-38.1|0.015
92376421|NCT03654885|184655755|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-11.7||||0.252|TWO_SIDED|95.0|-29.0|6.3|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤18 mm Hg||6.3|-29.0|0.252
92376422|NCT03654885|184655755|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-11.5||||0.258|TWO_SIDED|95.0|-28.9|6.5|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤17 mmHg||6.5|-28.9|0.258
92410872|NCT01305577|184712012|SUPERIORITY_OR_OTHER||LS Mean Difference|1.04|||<|0.001|TWO_SIDED|95.0|0.61|1.47|||ANCOVA|The model includes the fixed effect factor treatment and the Baseline values as covariate.||||1.47|0.61|<0.001
92376423|NCT03654885|184655755|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-13.6||||0.139|TWO_SIDED|95.0|-30.9|4.4|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤16 mm Hg||4.4|-30.9|0.139
92376424|NCT03654885|184655755|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-14.7||||0.136|TWO_SIDED|95.0|-32.0|3.3|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤15 mm Hg||3.3|-32.0|0.136
92376425|NCT03654885|184655755|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.%.|Percentage Difference|-10.8||||0.274|TWO_SIDED|95.0|-28.2|7.1|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤14 mm Hg||7.1|-28.2|0.274
92376426|NCT03654885|184655755|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-17.7||||0.065|TWO_SIDED|95.0|-35.0|0.3|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤13 mm Hg||0.3|-35.0|0.065
92410873|NCT01305577|184712012|SUPERIORITY_OR_OTHER||LS Mean Difference|1.41|||<|0.001|TWO_SIDED|95.0|0.99|1.84|||ANCOVA|The model includes the fixed effect factor treatment and the Baseline values as covariate.||||1.84|0.99|<0.001
92410874|NCT01305577|184712013|SUPERIORITY_OR_OTHER||LS mean Difference|-1.68|||<|0.001|TWO_SIDED|95.0|-2.5|-0.87|||Mixed Models Repeated Measures|The model includes the fixed effect factors visit and treatment, the visit\*treatment interaction, and the Baseline values as covariate.||||-0.87|-2.50|<0.001
92229943|NCT01817790|184362998|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.41||||0.0009||95.0|-0.65|-0.17||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in PM rTOSS between the Fluticasone nasal spray and the placebo nasal spray.||-0.17|-0.65|0.0009
92229944|NCT01817790|184362999|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.1||||0.0117|TWO_SIDED|95.0|-0.19|-0.02||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in AM reflective symptom scores for Eye itching/burning between the Fluticasone nasal spray and the placebo nasal spray.||-0.02|-0.19|0.0117
92229945|NCT01817790|184363000|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.15||||0.0005||95.0|-0.23|-0.06||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in PM reflective symptom scores for Eye itching/burning between the Fluticasone nasal spray and the placebo nasal spray.||-0.06|-0.23|0.0005
92376427|NCT03654885|184655755|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-12.7||||0.18|TWO_SIDED|95.0|-30.1|5.2|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤12 mmHg||5.2|-30.1|0.180
92376428|NCT03654885|184655758|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|1.8||||1|TWO_SIDED|95.0|-41.6|44.1|||Fisher Exact|||||44.1|-41.6|1.000
92410875|NCT01305577|184712013|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.97|||<|0.001|TWO_SIDED|95.0|-2.79|-1.15|||Mixed Models Repeated Measures|The model includes the fixed effect factors visit and treatment, the visit\*treatment interaction, and the baseline values as covariate.||||-1.15|-2.79|<0.001
92410876|NCT01305577|184712014|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Pearson's chi-square test|||||||<0.001
92410877|NCT01305577|184712014|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Pearson's chi-square test|||||||<0.001
92410878|NCT01256190|184712049|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
92410879|NCT01256190|184712050|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||t-test, 2 sided|||||||0.31
92410880|NCT01256190|184712051|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Fisher Exact|||intent-to-treat analysis||||.022
92410881|NCT01256190|184712052|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||Fisher Exact|||intent-to treat analysis||||0.113
92410882|NCT01256190|184712053|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Fisher Exact|||intent-to-treat analysis||||.025
92410883|NCT02834793|184712054|SUPERIORITY||Median Difference (Net)|-19.3|||=|0.107|TWO_SIDED|95.0|-49.2|4.8||The p-value was based on a rank analysis of covariance (ANCOVA) with treatment, region, and age-group as factors, and prerandomization drop seizure frequency as a covariate.|ANCOVA||The median difference to placebo and the 95 percent (%) confidence interval (CI) were based on the Hodges-Lehmann method.|||4.8|-49.2|= 0.107
92410884|NCT03255629|184712088|OTHER|||||||0.103|||||||McNemar|||||||0.103
92229946|NCT01817790|184363001|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.13||||0.0023||95.0|-0.22|-0.06||p-value was not adjusted for multiple comparisons.|ANCOVA|||Null hypothesis was that no difference exists in the mean change from baseline in AM reflective symptom scores for Eye Tearing/Watering between the Fluticasone nasal spray and the placebo nasal spray.||-0.06|-0.22|0.0023
92240253|NCT00051558|184383966|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.002
92376429|NCT03654885|184655759|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-32.1||||0.215|TWO_SIDED|95.0|-66.8|10.0|||Fisher Exact|||||10.0|-66.8|0.215
92376430|NCT03654885|184655761|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-14.9||||0.144|TWO_SIDED|95.0|-32.2|3.1|||Fisher Exact|||||3.1|-32.2|0.144
92410885|NCT03255629|184712089|OTHER|||||||0.18|||||||McNemar|||||||0.180
92410886|NCT03255629|184712091|OTHER|||||||0.317|||||||McNemar|||||||0.317
92410887|NCT03255629|184712092|OTHER|||||||0.008|||||||McNemar|||||||0.008
92410888|NCT03255629|184712093|OTHER|||||||0.083|||||||McNemar|||||||0.083
92410889|NCT03255629|184712094|OTHER|||||||0.025|||||||McNemar|||||||0.025
92410890|NCT03255629|184712096|OTHER|||||||0.049|||||||Mixed Models Analysis|Linear mixed effects models to account for correlation within subjects over time||||||0.049
92410891|NCT03255629|184712097|OTHER|||||||0.056|||||||Mixed Models Analysis|Linear mixed effects models to account for correlation within subjects over time||||||0.056
92410892|NCT03255629|184712098|OTHER|||||||0.004|||||||Mixed Models Analysis|||||||0.004
92410893|NCT03255629|184712099|OTHER|||||||0.059|||||||Mixed Models Analysis|||||||0.059
92410894|NCT03255629|184712100|OTHER|||||||0.195|||||||Mixed Models Analysis|||||||0.195
92410895|NCT03255629|184712101|OTHER|||||||0.043|||||||Mixed Models Analysis|||||||0.043
92410896|NCT03255629|184712102|OTHER|||||||0.659|||||||Mixed Models Analysis|||||||0.659
92410897|NCT03255629|184712103|OTHER|||||||0.406|||||||Mixed Models Analysis|||||||0.406
92410898|NCT03255629|184712104|OTHER|||||||0.611|||||||Mixed Models Analysis|||||||0.611
92410899|NCT03255629|184712105|OTHER|||||||0.183|||||||Mixed Models Analysis|||||||0.183
92410900|NCT03255629|184712106|OTHER|||||||0.009|||||||Mixed Models Analysis|||||||0.009
92410901|NCT03255629|184712107|OTHER|||||||0.789|||||||Mixed Models Analysis|||||||0.789
92410902|NCT03255629|184712108|OTHER|||||||0.865|||||||McNemar|||||||0.865
92410903|NCT03255629|184712109|OTHER|||||||0.875|||||||McNemar|||||||0.875
92410904|NCT01086358|184712149|SUPERIORITY||Mean Difference (Final Values)|-1.71||||0.007|TWO_SIDED|95.0|-2.92|-0.49|||Mixed Models Analysis|As noted above, results are adjusted for study period and treatment order||Analysis is a superiority comparison based on the use of linear mixed effect model with subject as a random effect, with treatment as the primary fixed effect and including study period and treatment order as other fixed effects.||-0.49|-2.92|0.007
92376431|NCT03654885|184655762|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-10.6||||0.254|TWO_SIDED|95.0|-28.0|7.3|||Fisher Exact|||||7.3|-28.0|0.254
92376432|NCT03654885|184655763|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-7.4||||0.563|TWO_SIDED|95.0|-28.6|14.2|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤18 mm Hg||14.2|-28.6|0.563
92376433|NCT03654885|184655763|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-12.5||||0.188|TWO_SIDED|95.0|-33.5|9.1|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤17 mm Hg||9.1|-33.5|0.188
92376434|NCT03654885|184655763|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-15.9||||0.118|TWO_SIDED|95.0|-36.7|5.6|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤16 mmHg||5.6|-36.7|0.118
92376435|NCT03654885|184655763|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-19.5||||0.085|TWO_SIDED|95.0|-40.2|2.1|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤15 mm Hg||2.1|-40.2|0.085
92376436|NCT03654885|184655763|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-21.3||||0.059|TWO_SIDED|95.0|-42.0|0.4|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤14 mm Hg||0.4|-42.0|0.059
92376437|NCT03654885|184655763|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-23.5||||0.045|TWO_SIDED|95.0|-43.9|-1.4|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤13 mm Hg||-1.4|-43.9|0.045
92376438|NCT03654885|184655763|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-20.8||||0.076|TWO_SIDED|95.0|-41.3|1.1|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤12 mm Hg||1.1|-41.3|0.076
92376439|NCT03654885|184655764|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-9.6||||0.464|TWO_SIDED|95.0|-31.0|12.1|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥ 25% IOP Reduction||12.1|-31.0|0.464
92376440|NCT03654885|184655764|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-19.8||||0.069|TWO_SIDED|95.0|-40.6|2.1|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥30% IOP Reduction||2.1|-40.6|0.069
92376441|NCT03654885|184655764|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-26.6||||0.023|TWO_SIDED|95.0|-46.9|-4.7|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥35% IOP Reduction||-4.7|-46.9|0.023
92376442|NCT03654885|184655764|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-23.7||||0.046|TWO_SIDED|95.0|-43.9|-1.6|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥40% IOP Reduction||-1.6|-43.9|0.046
92376443|NCT03654885|184655764|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-27.6||||0.014|TWO_SIDED|95.0|-47.6|-5.9|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥45% IOP Reduction||-5.9|-47.6|0.014
92376444|NCT03654885|184655764|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-30.9||||0.006|TWO_SIDED|95.0|-50.8|-9.5|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥50% IOP Reduction||-9.5|-50.8|0.006
92410905|NCT01086358|184712150|SUPERIORITY||Mean Difference (Final Values)|-1.03||||0.01|TWO_SIDED|95.0|-1.79|-0.27|||Mixed Models Analysis|As noted above, results are adjusted for study period and treatment order||Analysis is a superiority comparison based on the use of linear mixed effect model with subject as a random effect, with treatment as the primary fixed effect and including study period and treatment order as other fixed effects.||-0.27|-1.79|0.010
92410906|NCT01086358|184712151|SUPERIORITY||Mean Difference (Final Values)|-0.68||||0.059|TWO_SIDED|95.0|-1.39|0.03|||Mixed Models Analysis|As noted above, results are adjusted for study period and treatment order.||Analysis is a superiority comparison based on the use of linear mixed effect model with subject as a random effect, with treatment as the primary fixed effect and including study period and treatment order as other fixed effects.||0.03|-1.39|0.059
92376445|NCT03654885|184655771|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.35||0.004|TWO_SIDED|95.0|0.33|1.72|||Mixed Model for Repeated Measures|MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses: Day 1||1.72|0.33|0.004
92376446|NCT03654885|184655771|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.36||0.001|TWO_SIDED|95.0|0.47|1.88||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Week 1||1.88|0.47|0.001
92376447|NCT03654885|184655771|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.36||0.162|TWO_SIDED|95.0|-0.2|1.2||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Week 2||1.20|-0.20|0.162
92229947|NCT01817790|184363002|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.18|||<|0.0001||95.0|-0.26|-0.09||p-value was nor adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in PM reflective symptom scores for Eye Tearing/watering between the Fluticasone nasal spray and the placebo nasal spray.||-0.09|-0.26|<0.0001
92376448|NCT03654885|184655771|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.36||0.185|TWO_SIDED|95.0|-0.23|1.19||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Month 1||1.19|-0.23|0.185
92376449|NCT03654885|184655771|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.36||0.846|TWO_SIDED|95.0|-0.64|0.79||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Month 3||0.79|-0.64|0.846
92376450|NCT03654885|184655771|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.36||0.965|TWO_SIDED|95.0|-0.73|0.7||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Month 6||0.70|-0.73|0.965
92376451|NCT03654885|184655771|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.37||0.096|TWO_SIDED|95.0|-0.11|1.33||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Month 9||1.33|-0.11|0.096
92376452|NCT03654885|184655771|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.37||0.063|TWO_SIDED|95.0|-0.04|1.43||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Month 12||1.43|-0.04|0.063
92376453|NCT03654885|184655772|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.027||0.048|TWO_SIDED|95.0|-0.105|0.0|||Mixed Model for Repeated Measures|||Mean Change From Baseline in Manifest Refraction - Mean Visual Acuity Using Snellen in LogMAR Scale: Month 1||0.000|-0.105|0.048
92376454|NCT03654885|184655772|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.027||0.742|TWO_SIDED|95.0|-0.062|0.045|||Mixed Model for Repeated Measures|||Mean Change From Baseline in Manifest Refraction - Mean Visual Acuity Using Snellen in LogMAR Scale: Month 3||0.045|-0.062|0.742
92376455|NCT03654885|184655772|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.027||0.925|TWO_SIDED|95.0|-0.056|0.051|||Mixed Model for Repeated Measures|||Mean Change From Baseline in Manifest Refraction - Mean Visual Acuity Using Snellen in LogMAR Scale: Month 6||0.051|-0.056|0.925
92376456|NCT03654885|184655772|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.028||0.021|TWO_SIDED|95.0|-0.118|-0.01|||Mixed Model for Repeated Measures|||Mean Change From Baseline in Manifest Refraction - Mean Visual Acuity Using Snellen in LogMAR Scale: Month 12||-0.010|-0.118|0.021
92376457|NCT03654885|184655775|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.562|STANDARD_ERROR_OF_MEAN|0.3231||0.087|TWO_SIDED|95.0|-1.2082|0.0851|||Mixed Model for Repeated Measures|||Mean Change from Baseline in Surgically Induced Astigmatism - Topography at Selected Sites at Week 1||0.0851|-1.2082|0.087
92410907|NCT01086358|184712152|SUPERIORITY||Odds Ratio (OR)|2.89||||0.016|TWO_SIDED|95.0|1.22|6.84|||Regression, Logistic|As noted above, results are adjusted for study period and treatment order.||Logistic regression models with generalized estimating equations were used. In these models, a logit link function was used for a favorable response (yes/no) with treatment as the primary fixed effect and including study period and treatment order as other fixed effects..||6.84|1.22|0.016
92229948|NCT01817790|184363003|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.1||||0.0304||95.0|-0.18|-0.01||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in AM reflective symptom scores for Eye Redness between the Fluticasone nasal spray and the placebo nasal spray.||-0.01|-0.18|0.0304
92410908|NCT03530124|184712265|SUPERIORITY|The number of infants with ≥1 apneic event for each group and compared using a Mantel-Haenszel statistic in a stratified analysis by study site and gestational age group (\< 28 weeks versus ≥ 28 weeks) to control for the randomization blocks at the two-sided alpha 0.05 level and corresponding 95% confidence interval for the occurrence of apnea.|Odds Ratio (OR)|2.7||||0.0104|TWO_SIDED|95.0|1.27|5.73|||Mantel Haenszel||No adjustments were made to the alpha level (two-sided alpha=0.05) for the primary objective.|||5.73|1.27|0.0104
92376458|NCT03654885|184655775|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.138|STANDARD_ERROR_OF_MEAN|0.3355||0.682|TWO_SIDED|95.0|-0.809|0.5324|||Mixed Model for Repeated Measures|||Mean Change from Baseline in Surgically Induced Astigmatism - Topography at Selected Sites at Month 1||0.5324|-0.8090|0.682
92376459|NCT03654885|184655775|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.452|STANDARD_ERROR_OF_MEAN|0.3484||0.199|TWO_SIDED|95.0|-1.1483|0.2434|||Mixed Model for Repeated Measures|||Mean Change from Baseline in Surgically Induced Astigmatism - Topography at Selected Sites at Month 12||0.2434|-1.1483|0.199
92410909|NCT03530124|184712266|OTHER|The number of apnea events were compared using a linear regression model (assuming a Poisson distribution) with study site and gestational age group covariates to control for the randomization blocks.||||||0.11|||||||Regression, Linear|No adjustments were made to the alpha level (two-sided alpha=0.05) for the secondary objectives.||||||0.11
92410910|NCT03530124|184712267|OTHER|Average duration of apnea episodes between groups were compared using a mixed effects model with a random intercept for each infant with one or more events and study site and gestational age group as covariates to control for the randomization blocks.||||||0.36|||||||Mixed Effects Model|No adjustments were made to the alpha level (two-sided alpha=0.05) for the secondary objectives.||||||0.36
92410911|NCT03530124|184712268|SUPERIORITY|The proportion of infants requiring an increase in respiratory support for each group were compared using a Mantel-Haenszel statistic in a stratified analysis by study site and gestational age group to control for the randomization blocks at the two-sided alpha 0.05 level and corresponding 95% confidence interval for the occurrence of apnea.|Odds Ratio (OR)|2.07||||0.3555|TWO_SIDED|95.0|0.59|7.23|||Mantel Haenszel||No adjustments were made to the alpha level (two-sided alpha=0.05) for the secondary objectives.|||7.23|0.59|0.3555
92410912|NCT03530124|184712269|SUPERIORITY|The proportion of infants with ≥1 cardiorespiratory event using a Mantel-Haenszel statistic in at the two-sided alpha 0.05 level and corresponding 95% confidence interval.|Odds Ratio (OR)|0.89||||1|TWO_SIDED|95.0|0.29|2.77|||Mantel Haenszel||No adjustments were made to the alpha level (two-sided alpha=0.05) for the secondary objectives.|Only Duke University had viable monitoring data to analyze this compound outcome objective.||2.77|0.29|1.0000
92410913|NCT03530124|184712270|SUPERIORITY||Odds Ratio (OR)|1.93||||1|TWO_SIDED|95.0|0.17|21.63|||Mantel Haenszel||No adjustments were made to the alpha level (two-sided alpha=0.05) for the secondary objectives.|The proportion of infants requiring positive pressure ventilation for each group were compared using a Mantel-Haenszel statistic in a stratified analysis by study site and gestational age group to control for the randomization blocks at the two-sided alpha 0.05 level and corresponding 95% confidence interval for the occurrence of apnea during the 48-hour monitoring period.||21.63|0.17|1.0000
92410914|NCT02445794|184712289|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||.008
92410915|NCT01057589|184712298|SUPERIORITY_OR_OTHER|||||||0.697||||||P-value is for Change at End of Triplet Combination Therapy. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.697
92229949|NCT01817790|184363004|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.1||||0.0361||95.0|-0.19|-0.01||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in PM reflective symptom scores for Eye Redness between the Fluticasone nasal spray and the placebo nasal spray.||-0.01|-0.19|0.0361
92229950|NCT01817790|184363005|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.28||||0.0129|TWO_SIDED|95.0|-0.5|-0.06||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in AM iTOSS between the Fluticasone nasal spray and the placebo nasal spray.||-0.06|-0.50|0.0129
92229951|NCT01817790|184363006|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.14||||0.0002|TWO_SIDED|95.0|-0.22|-0.07||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in rNCSS between the Fluticasone nasal spray and the placebo nasal spray.||-0.07|-0.22|0.0002
92229952|NCT01817790|184363007|SUPERIORITY_OR_OTHER|||||||0.0118||95.0||||p-value was not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Using this test controlling for investigative site. The response variable lied on ordinal scale of measurement.||Null hypothesis was that no difference exists in the end of treatment assessment of response between the Fluticasone nasal spray and the placebo nasal spray.||||0.0118
92229953|NCT01817790|184363008|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.01||||0.8586|TWO_SIDED|95.0|-0.12|0.1|||ANCOVA|||Null hypothesis was that no difference exists in the mean change from baseline in objective assessment of conjunctival redness between the Fluticasone nasal spray and the placebo nasal spray.||0.10|-0.12|0.8586
92410916|NCT01057589|184712298|SUPERIORITY_OR_OTHER|||||||0.132||||||P-value is for Change at End of Maintenance Therapy. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.132
92410917|NCT01057589|184712299|SUPERIORITY_OR_OTHER|||||||0.223||||||P-value is for Change at End of Triplet Combination Therapy. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.223
92410918|NCT01057589|184712299|SUPERIORITY_OR_OTHER|||||||0.788||||||P-value is for Change at End of Maintenance Therapy. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.788
92410919|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.9||||||P-value is for NOD, Triplicate Combination Therapy Cycle 2. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.90
92410920|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.31||||||P-value is for NOD, Triplicate Combination Therapy Cycle 4. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.31
92410921|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.49||||||P-value is for NOD, Triplicate Combination Therapy Cycle 6. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.49
92410922|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.95||||||P-value is for NOD, Maintenance Cycle 1. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.95
92410923|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.89||||||P-value is for NOD, Maintenance Cycle 3. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.89
92410924|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.36||||||P-value is for NOD, Maintenance Cycle 5. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.36
92410925|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.18||||||P-value is for NOD, Maintenance Cycle 7. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.18
92410926|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.47||||||P-value is for EIP, Triplicate Combination Cycle 2. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.47
92410927|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.17||||||P-value is for EIP, Triplicate Combination Cycle 4. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.17
92410928|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.45||||||P-value is for EIP, Triplicate Combination Cycle 6. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.45
92376460|NCT03654885|184655776|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.001|STANDARD_ERROR_OF_MEAN|0.2026||0.997|TWO_SIDED|95.0|-0.4103|0.4086|||Mixed Model for Repeated Measures|||Mean Change in Optical Biometry - Anterior Chamber Depth at Day 1||0.4086|-0.4103|0.997
92376461|NCT03654885|184655776|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.222|STANDARD_ERROR_OF_MEAN|0.2124||0.302|TWO_SIDED|95.0|-0.2068|0.6506|||Mixed Model for Repeated Measures|||Mean Change in Optical Biometry - Anterior Chamber Depth at Week 2||0.6506|-0.2068|0.302
92376462|NCT03654885|184655777|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.343|STANDARD_ERROR_OF_MEAN|0.3336||0.309|TWO_SIDED|95.0|-0.3289|1.0154|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - K1 at Day 1||1.0154|-0.3289|0.309
92376463|NCT03654885|184655777|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.261|STANDARD_ERROR_OF_MEAN|0.3278||0.43|TWO_SIDED|95.0|-0.3993|0.922|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - K1 at Week 2||0.9220|-0.3993|0.430
92376464|NCT03654885|184655777|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.409|STANDARD_ERROR_OF_MEAN|0.4457||0.363|TWO_SIDED|95.0|-1.3071|0.4882|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - K2 at Day 1||0.4882|-1.3071|0.363
92376465|NCT03654885|184655777|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.488|STANDARD_ERROR_OF_MEAN|0.4383||0.272|TWO_SIDED|95.0|-1.3709|0.3954|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - K2 at Week 2||0.3954|-1.3709|0.272
92376466|NCT03654885|184655777|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.765|STANDARD_ERROR_OF_MEAN|0.4502||0.096|TWO_SIDED|95.0|-1.6722|0.142|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - Delta D at Day 1||0.1420|-1.6722|0.096
92376467|NCT03654885|184655777|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.576|STANDARD_ERROR_OF_MEAN|0.4411||0.198|TWO_SIDED|95.0|-1.4655|0.3129|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - Delta D at Week 2||0.3129|-1.4655|0.198
92376468|NCT03654885|184655788|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-3.031|STANDARD_ERROR_OF_MEAN|4.3331||0.485|TWO_SIDED|95.0|-11.5597|5.4973|||Mixed Model for Repeated Measures|||PRO: Change From Baseline in Symptom and Health Problem Checklist (SHPC-18)- Local Eye Symptoms Score||5.4973|-11.5597|0.485
92376469|NCT03654885|184655788|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-10.507|STANDARD_ERROR_OF_MEAN|4.5666||0.022|TWO_SIDED|95.0|-19.5|-1.5144|||Mixed Model for Repeated Measures|||PRO: Change From Baseline in Symptom and Health Problem Checklist (SHPC-18)- Vision Function Problem Score||-1.5144|-19.5000|0.022
92376470|NCT03654885|184655788|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-7.528|STANDARD_ERROR_OF_MEAN|4.0382||0.064|TWO_SIDED|95.0|-15.4841|0.4275|||Mixed Model for Repeated Measures|||PRO: Change From Baseline in Symptom and Health Problem Checklist (SHPC-18)- Total Bothersome Score||0.4275|-15.4841|0.064
92410929|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.29||||||P-value is for EIP, Maintenance Cycle 1. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.29
92376471|NCT03654885|184655788|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.42||0.278|TWO_SIDED|95.0|-1.28|0.37|||Mixed Model for Repeated Measures|||PRO: Change From Baseline in Symptom and Health Problem Checklist (SHPC-18)- Local Eye Symptoms Frequency Score||0.37|-1.28|0.278
92376472|NCT03654885|184655788|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.63||0.007|TWO_SIDED|95.0|-2.96|-0.47|||Mixed Model for Repeated Measures|||PRO: Change From Baseline in Symptom and Health Problem Checklist (SHPC-18)- Vision Function Problem Frequency Score||-0.47|-2.96|0.007
92376473|NCT03654885|184655789|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||0.534|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Not at all||||0.534
92410930|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.17||||||P-value is for EIP, Maintenance Cycle 3. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.17
92376474|NCT03654885|184655789|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||0.263|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Somewhat||||0.263
92376475|NCT03654885|184655789|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||1|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Moderately so||||1.000
92410931|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.7||||||P-value is for EIP, Maintenance Cycle 5. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.70
92410932|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.21||||||P-value is for EIP, Maintenance Cycle 7. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.21
92410933|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.85||||||P-value is for UOS, Triplicate Combination Cycle 2. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.85
92410934|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.13||||||P-value is for UOS, Triplicate Combination Cycle 4. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.13
92229954|NCT01817790|184363009|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.29||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in MiniRQLQ scores between the Fluticasone nasal spray and the placebo nasal spray.||-0.29|-0.65|<0.0001
92229955|NCT01817790|184363010|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.49|||<|0.0001|TWO_SIDED|95.0|-0.68|-0.3||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in 'Activities' domain of MiniRQLQ scores between the Flutical sone nasal spray and placebo nasal spray||-0.30|-0.68|<0.0001
92229956|NCT01817790|184363011|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.44|||<|0.0001|TWO_SIDED|95.0|-0.64|-0.24||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in 'Practical Problems' domain of MiniRQLQ scores between the Flutical sone nasal spray and placebo nasal spray.||-0.24|-0.64|<0.0001
92229957|NCT01817790|184363012|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.73|-0.33||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in 'Nose Symptoms' domain of MiniRQLQ scores between the Flutical sone nasal spray and placebo nasal spray.||-0.33|-0.73|<0.0001
92229958|NCT01817790|184363013|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.44|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.23||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in 'Eye Symptoms' domain of MiniRQLQ scores between the Flutical sone nasal spray and placebo nasal spray.||-0.23|-0.65|<0.0001
92229959|NCT01817790|184363014|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.64|-0.21||p-value was not adjusted for multiple comparisons.|ANCOVA|||Null hypothesis was that no difference exists in the mean change from baseline in 'Other Symptoms' domain of MiniRQLQ scores between the Flutical sone nasal spray and placebo nasal spray.||-0.21|-0.64|<0.0001
92229960|NCT02847598|184363041|SUPERIORITY||Least squares (LS) mean Difference|-3.4||||0.037|TWO_SIDED|95.0|-6.7|-0.2|||MMRM|||A Mixed Effect Model Repeat Measurement (MMRM) model is performed, using treatment group, study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region, study visit-by-treatment interaction, baseline value of the outcome measure, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||-0.2|-6.7|0.037
92229961|NCT02847598|184363042|SUPERIORITY||LS mean difference|-24.29||||0.015|TWO_SIDED|95.0|-43.7|-4.88|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-4.88|-43.70|0.015
92376476|NCT03654885|184655789|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||0.018|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Mostly||||0.018
92376477|NCT03654885|184655789|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||0.35|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Completely||||0.350
92376478|NCT03654885|184655789|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||0.264|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Missing||||0.264
92376479|NCT03654885|184655790|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-8.303|STANDARD_ERROR_OF_MEAN|16.1445||0.61|TWO_SIDED|95.0|-40.8681|24.2624|||Mixed Model for Repeated Measures|||PRO: Percent Change From Baseline in Work Productivity and Activity Impairment- Percent Overall Work Impairment Due to Health||24.2624|-40.8681|0.610
92376480|NCT03654885|184655791|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-13.9|STANDARD_ERROR_OF_MEAN|8.33||0.097|TWO_SIDED|95.0|-30.32|2.52|||Mixed Model for Repeated Measures|||PRO: Percent Change From Baseline in Work Productivity and Activity Impairment-Percent Activity Impairment Due to Health||2.52|-30.32|0.097
92376481|NCT05693922|184655826|SUPERIORITY|||||||0.34|||||||ANOVA|||||||0.34
92376482|NCT05693922|184655827|SUPERIORITY|||||||0.54|||||||ANOVA|||||||0.54
92376483|NCT05693922|184655828|SUPERIORITY|||||||0.865|||||||ANOVA|||||||0.865
92376484|NCT04239222|184655869|SUPERIORITY|A sample size of 22 subjects was required to provide 80% power to detect a difference of 5 points on the PLUS-M scale using Wilcoxon's matched pairs signed ranks test and alpha of 0.05. A standard deviation of 7.7 was used to calculate the sample size.|Mean Difference (Final Values)|1.02|STANDARD_DEVIATION|4.17||0.286|TWO_SIDED||||||Wilcoxon Signed Rank Test||Difference represents Revo-M - Everyday Foot,|HO: μRevo-M ≤ μEveryday, μRevo-M is the mean PLUS-M score using the Revo-M and μEveryday is the mean PLUS-M score using the Everyday foot at baseline.|2-sided Wilcoxon matched pairs signed ranks test, n=23 (11 negative, 8 positive and 4 null), Z=-1.066.|||0.286
92376485|NCT04239222|184655870|SUPERIORITY|A sample size of 21 subjects was required to provide 80% power to detect a difference of 0.2 points in the TAPES-AR score using Wilcoxon's matched pairs signed ranks test and alpha of 0.05. A standard deviation of 0.3 was used to calculate the sample size.|Mean Difference (Final Values)|-0.094|STANDARD_DEVIATION|0.212||0.031|TWO_SIDED||||||Wilcoxon Signed Rank Test||Difference represents Revo-M - Everyday Foot.|HO: μRevo-M ≥ μEveryday, μRevo-M is the mean TAPES-AR score using the Revo-M and μEveryday is the mean TAPES-AR score using the Everyday foot at baseline.|2-sided Wilcoxon matched pairs signed ranks test, n=23 (5 negative, 13 positive and 5 null), Z=-2.156|||0.031
92410935|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.03||||||P-value is for UOS, Triplicate Combination Cycle 6. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.03
92410936|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.71||||||P-value is for UOS, Maintenance Cycle 1. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.71
92229962|NCT02847598|184363042|SUPERIORITY||LS mean difference|-33.42|||<|0.001|TWO_SIDED|95.0|-52.71|-14.12|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-14.12|-52.71|<0.001
92229963|NCT02847598|184363042|SUPERIORITY||LS mean difference|-27.99||||0.001|TWO_SIDED|95.0|-44.55|-11.42|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-11.42|-44.55|0.001
92376486|NCT04239222|184655872|SUPERIORITY||Mean Difference (Final Values)|0.331|STANDARD_DEVIATION|8.29||0.421|TWO_SIDED||||||Wilcoxon Signed Rank Test||Difference represents Revo-M - Everyday Foot.|HO: μRevo-M ≤ μEveryday, μRevo-M is the mean ABC score using the Revo-M and μEveryday is the mean ABC score using the Everyday foot at baseline.|2-sided Wilcoxon matched pairs signed ranks test, n=23 (12 negative, 7 positive and 4 null), Z=-0.805.|||0.421
92376487|NCT04239222|184655873|SUPERIORITY||Mean Difference (Final Values)|0.087|STANDARD_DEVIATION|0.844||0.443|TWO_SIDED||||||Wilcoxon Signed Rank Test||Difference represents Revo-M - Everyday Foot.|HO: μRevo-M ≤ μEveryday, μRevo-M is the mean TAPES-FUN score using the Revo-M and μEveryday is the mean TAPES-FUN score using the Everyday foot at baseline.|2-sided Wilcoxon matched pairs signed ranks test, n=23 (6 negative, 9 positive and 8 null), Z=-0.767.|||0.443
92376488|NCT01779869|184655878|SUPERIORITY|Accuracy was assessed compared to an imaging reference standard.||||||0.35|||||||Chi-squared|||Significance testing between the diagnostic accuracy of SPECT and PET, and SPECT and MR, and SPECT and PET/MR was performed by using chi square test. A P value \< 0.05 was considered significant.||||0.35
92376489|NCT04754230|184655879|OTHER|||||||0.8|||||||two sided Z-test|This estimate uses two sided Z-test while assuming type I error=0.05||Comparison of bleeding at day 1||||0.8
92376490|NCT00957944|184655909|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|1.0302||||||90.0|0.9693|1.0951|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0951|0.9693|
92376491|NCT00957944|184655910|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|1.0571||||||90.0|0.9903|1.1284|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.1284|0.9903|
92376492|NCT00957944|184655911|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|1.0289||||||90.0|0.9714|1.0899|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0899|0.9714|
92376493|NCT01323270|184655932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.6|1.5||||||Diphtheria: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.5|-1.6|
92376494|NCT01323270|184655932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Tetanus: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
92376495|NCT01323270|184655932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|-1.3|||||TWO_SIDED|95.0|-4.7|1.9||||||Pertussis toxoid: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.9|-4.7|
92376496|NCT01323270|184655932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Pertussis filamentous hemagglutinin: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
92229964|NCT02847598|184363045|SUPERIORITY||LS Mean Difference|-9.93||||0.22|TWO_SIDED|95.0|-25.94|6.08|||MMRM|||Week 12: A MMRM model is performed, using treatment group study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region, study visit-by-treatment interaction, baseline value of the outcome measure, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||6.08|-25.94|0.220
92278033|NCT00782509|184458131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.653|STANDARD_ERROR_OF_MEAN|5.132|<|0.0001|TWO_SIDED|95.0|10.574|30.731|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||30.731|10.574|<0.0001
92376497|NCT01323270|184655932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Pertussis pertactin: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
92376498|NCT01323270|184655932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|-1.2|||||TWO_SIDED|95.0|-3.6|0.8||||||Pertussis fimbrial agglutinogens types 2+3: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||0.8|-3.6|
92410937|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.34||||||P-value is for UOS, Maintenance Cycle 3. Threshold for statistical significance was 0.05|t-test, 2 sided|||||||0.34
92410938|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.41||||||P-value is for UOS, Maintenance Cycle 5. Threshold for statistical significance was 0.05|t-test, 2 sided|||||||0.41
92410939|NCT01057589|184712300|SUPERIORITY_OR_OTHER|||||||0.37||||||P-value is for UOS, Maintenance Cycle 7. Threshold for statistical significance was 0.05|t-test, 2 sided|||||||0.37
92376499|NCT01323270|184655932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Poliovirus type 1: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
92229965|NCT02847598|184363045|SUPERIORITY||LS Mean Difference|-8.96||||0.293|TWO_SIDED|95.0|-25.82|7.9|||MMRM|||Week 16: A MMRM model is performed, using treatment group (BIIB059 450 mg vs. placebo), study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region study visit-by-treatment interaction, baseline value of the endpoint, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||7.90|-25.82|0.293
92229966|NCT02847598|184363045|SUPERIORITY||LS Mean Difference|-15.74||||0.062|TWO_SIDED|95.0|-32.28|0.79|||MMRM|||Week 24: A MMRM model is performed, using treatment group, study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region study visit-by-treatment interaction, baseline value of the outcome measure, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||0.79|-32.28|0.062
92376500|NCT01323270|184655932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Poliovirus type 2: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
92376501|NCT01323270|184655932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Poliovirus type 3: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
92376502|NCT01057225|184655950|SUPERIORITY_OR_OTHER||Dose Level|1.0|||||TWO_SIDED||||||||Using a cohort of 3 design, it was determined the maximum tolerated dose of carfilzomib is Dose Level 1: 20 mg/m\^2 for the first cycle and 36 mg/m\^2 for subsequent cycles.|||||
92376503|NCT00246025|184655961|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-16.8||||0.0155||95.0|-30.2|-3.4||Multiplicity was not adjusted because of hierarchical testing from highest to lowest dose.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.|The risk differences are calculated as risk in the dabigatran groups minus risk in the placebo group.|Superiority of dabigatran etexilate to placebo was tested by means of hierarchical tests. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||-3.4|-30.2|0.0155
92376504|NCT00246025|184655961|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-23.7||||0.0006||95.0|-37.0|-10.5||Multiplicity was not adjusted because of hierarchical testing from highest to lowest dose.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.|The risk differences are calculated as risk in the dabigatran groups minus risk in the placebo group.|Superiority of dabigatran etexilate to placebo was tested by means of hierarchical tests. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||-10.5|-37.0|0.0006
92376505|NCT00246025|184655961|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-32.5|||<|0.0001||95.0|-45.4|-19.6||Multiplicity was not adjusted because of hierarchical testing from highest to lowest dose.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.|The risk differences are calculated as risk in the dabigatran groups minus risk in the placebo group.|Superiority of dabigatran etexilate to placebo was tested by means of hierarchical tests. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||-19.6|-45.4|<0.0001
92376506|NCT00246025|184655962|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.1124||95.0|-9.1|1.0||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||1.0|-9.1|0.1124
92229967|NCT02847598|184363046|SUPERIORITY||LS mean difference|-30.36||||0.001|TWO_SIDED|95.0|-48.75|-11.97|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-11.97|-48.75|0.001
92229968|NCT02847598|184363046|SUPERIORITY||LS mean difference|-37.17|||<|0.001|TWO_SIDED|95.0|-55.46|-18.87|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-18.87|-55.46|<0.001
92376507|NCT00246025|184655962|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.1183||95.0|-9.1|1.1||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||1.1|-9.1|0.1183
92229969|NCT02847598|184363046|SUPERIORITY||LS mean difference|-26.05||||0.001|TWO_SIDED|95.0|-41.71|-10.4|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-10.40|-41.71|0.001
92376508|NCT00246025|184655962|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-5.8||||0.0138||95.0|-10.3|-1.3||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||-1.3|-10.3|0.0138
92240254|NCT00051558|184383966|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92229970|NCT02847598|184363052|SUPERIORITY||LS Mean Difference|-1.7||||0.007|TWO_SIDED|95.0|-3.0|-0.5|||MMRM|||A MMRM model is performed, using treatment group, study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region, study visit-by-treatment interaction, baseline value of the outcome measure, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||-0.5|-3.0|0.007
92229971|NCT02847598|184363054|SUPERIORITY||LS mean difference|-0.16||||0.667|TWO_SIDED|95.0|-0.9|0.58|||MMRM|||A MMRM model is performed, using treatment group (BIIB059 450 mg vs. placebo), study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region, study visit-by-treatment interaction, baseline value of the endpoint, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||0.58|-0.90|0.667
92229972|NCT03797001|184363100|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.60
92376509|NCT00246025|184655963|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.1124||95.0|-9.1|1.0||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||1.0|-9.1|0.1124
92376510|NCT00246025|184655963|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.1183||95.0|-9.1|1.1||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||1.1|-9.1|0.1183
92376511|NCT00246025|184655963|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-5.8||||0.0138||95.0|-10.3|-1.3||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||-1.3|-10.3|0.0138
92376512|NCT00246025|184655964|SUPERIORITY_OR_OTHER|||||||0.6107||95.0||||Multiplicity was not adjusted.|Fisher Exact|||"Superiority of dabigatran etexilate to placebo was tested based on Fisher's exact test.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||||0.6107
92376513|NCT00246025|184655964|SUPERIORITY_OR_OTHER|||||||1||95.0||||Multiplicity was not adjusted.|Fisher Exact|||"Superiority of dabigatran etexilate to placebo was tested based on Fisher's exact test.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||||1.0000
92376514|NCT00246025|184655964|SUPERIORITY_OR_OTHER|||||||0.6162||95.0||||Multiplicity was not adjusted.|Fisher Exact|||"Superiority of dabigatran etexilate to placebo was tested based on Fisher's exact test.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||||0.6162
92376515|NCT00246025|184655965|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-16.8||||0.0155|TWO_SIDED|95.0|-30.2|-3.4||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||-3.4|-30.2|0.0155
92410940|NCT01497366|184712333|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be demonstrated if the lower bound of the 2-sided 95% confidence interval (CI) for the difference in SVR12 rates was greater than -15%.|Difference in percentages|0.3|||||TWO_SIDED|95.0|-7.5|8.0|||||The difference in percentages between treatment groups and the 95% CI calculated were based on stratum adjusted Mantel-Haenszel proportions.|||8.0|-7.5|
92410941|NCT02745080|184712352|SUPERIORITY||Odds Ratio (OR)|1.3||||0.0719|TWO_SIDED|95.0|0.98|1.72|||Regression, Logistic||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment as a factor and baseline weight as a covariate|||1.72|0.98|0.0719
92229973|NCT00960076|184363101|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.108|||TWO_SIDED|95.0|-0.73|-0.31||||||||-0.31|-0.73|
92229974|NCT00960076|184363102|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.32|STANDARD_ERROR_OF_MEAN|7.128|||TWO_SIDED|95.0|-37.36|-9.28||||||||-9.28|-37.36|
92278034|NCT00782509|184458132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.416|STANDARD_ERROR_OF_MEAN|0.127||0.0011|TWO_SIDED|95.0|-0.665|-0.167|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.167|-0.665|0.0011
92229975|NCT00960076|184363103|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.18|STANDARD_ERROR_OF_MEAN|4.409|||TWO_SIDED|95.0|-21.86|-4.5||||||||-4.50|-21.86|
92229976|NCT00960076|184363104|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.2||||0.0459|TWO_SIDED|95.0|0.2|22.0|||ANCOVA|||||22.0|0.2|0.0459
92278035|NCT00782509|184458132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.513|STANDARD_ERROR_OF_MEAN|0.125|<|0.0001|TWO_SIDED|95.0|-0.76|-0.267|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.267|-0.760|<0.0001
92376516|NCT00246025|184655965|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-23.7||||0.0006|TWO_SIDED|95.0|-37.0|-10.5||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||-10.5|-37.0|0.0006
92376517|NCT00246025|184655965|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-32.5|||<|0.0001|TWO_SIDED|95.0|-45.4|-19.6||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||-19.6|-45.4|<.0001
92376518|NCT00246025|184655968|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Placebo for the category major bleeding events||||1.0000
92376519|NCT00246025|184655968|SUPERIORITY_OR_OTHER|||||||0.496||95.0|||||Fisher Exact|||Comparison versus Placebo for the category major bleeding events||||0.4960
92376520|NCT00246025|184655968|SUPERIORITY_OR_OTHER|||||||0.6223||95.0|||||Fisher Exact|||Comparison versus Placebo for the category major bleeding events||||0.6223
92376521|NCT00246025|184655968|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|-2.5||||0.1513|TWO_SIDED|95.0|-5.9|1.0|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category major and clinically relevant bleeding events||1.0|-5.9|0.1513
92376522|NCT00246025|184655968|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|-2.4||||0.1696|TWO_SIDED|95.0|-5.9|1.0|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category major and clinically relevant bleeding events||1.0|-5.9|0.1696
92376523|NCT00246025|184655968|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|0.7||||0.7802|TWO_SIDED|95.0|-3.9|5.2|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category major and clinically relevant bleeding events||5.2|-3.9|0.7802
92410942|NCT02745080|184712353|SUPERIORITY||Odds Ratio (OR)|2.49|||<|0.0001|TWO_SIDED|95.0|1.67|3.71|||Regression, Logistic||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment as a factor and baseline weight as a covariate|||3.71|1.67|<0.0001
92376524|NCT00246025|184655968|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|1.7||||0.6313|TWO_SIDED|95.0|-5.3|8.7|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category any bleeding events||8.7|-5.3|0.6313
92376525|NCT00246025|184655968|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|2.3||||0.5377|TWO_SIDED|95.0|-4.9|9.4|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category any bleeding events||9.4|-4.9|0.5377
92376526|NCT00246025|184655968|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|2.8||||0.4493|TWO_SIDED|95.0|-4.4|10.0|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category any bleeding events||10.0|-4.4|0.4493
92376527|NCT02437305|184655983|SUPERIORITY_OR_OTHER|||||||0.048||||||P-value compares the increase in skin self-exams from pre-intervention to 2-months follow-up between the 2 groups.|McNemar|||||||0.048
92376528|NCT02437305|184655984|SUPERIORITY_OR_OTHER||||||>|0.5||||||P-value compares the increase in knowledge from pre-intervention to 2-months follow-up between the 2 groups.|McNemar|||||||>0.50
92376529|NCT01118520|184655985|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|||||||0.78
92376530|NCT01118520|184655985|SUPERIORITY|||||||0.89|||||||Mixed Models Analysis|||||||0.89
92376531|NCT03220581|184655996|SUPERIORITY||F|9.026||||0.004|TWO_SIDED||||||ANCOVA|Baseline number of days of game play in the past week was included as a covariate.||||||.004
92376532|NCT03220581|184655997|SUPERIORITY||F|7.922||||0.007|TWO_SIDED||||||ANCOVA|Covariate = number of days of gaming in the past week at baseline, reported by the parent.||||||.007
92376533|NCT03220581|184655998|SUPERIORITY||F|3.73||||0.059|TWO_SIDED||||||ANCOVA|Controlled for number of symptoms of Internet gaming disorder at baseline - assessed through clinical interview with child||||||.059
92376534|NCT03220581|184655999|SUPERIORITY||F|2.91||||0.095|TWO_SIDED||||||ANCOVA|Controlled for baseline number of symptoms of Internet gaming disorder, assessed through clinical interview with the parent||||||.095
92376535|NCT01071200|184656003|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Wilcoxon two sample test|||Change at hCG day : Wilcoxon two sample test was used to calculate p-value.||||0.07
92410943|NCT02745080|184712354|SUPERIORITY||Odds Ratio (OR)|1.18||||0.2251|TWO_SIDED|95.0|0.9|1.55|||Regression, Logistic||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment as a factor and baseline weight as a covariate|||1.55|0.90|0.2251
92410944|NCT02745080|184712355|SUPERIORITY||least squares (LS) mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.038||0.5465|TWO_SIDED|95.0|-0.1|0.05|||Mixed Models Analysis||Mixed model repeated measures (MMRM) with treatment group, analysis visit as factors, weight/baseline score as covariates, treatment by analysis visit, baseline score by analysis visit as interation terms and unstructured covariance structure|||0.05|-0.10|0.5465
92410945|NCT02745080|184712356|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1498|TWO_SIDED|95.0|0.91|1.87|||Regression, Logistic||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment as a factor and baseline weight as a covariate|||1.87|0.91|0.1498
92229977|NCT01552057|184363145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.0988|TWO_SIDED|95.0|-0.7|0.06||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||0.06|-0.70|0.0988
92376536|NCT01527513|184656014|NON_INFERIORITY_OR_EQUIVALENCE|"A 121ms non-inferiority margin was selected based on a previous study with Cognitive Drug Research (CDR) system comparing newly diagnosed patients to a healthy normative sample.~Assuming a Standard Deviation (SD) of 202.3 for the Power of Attention score, a total of 102 patients in the PP population would provide 80% power to reject the null hypothesis that the mean increase from baseline Power of Attention was at least 121 ms smaller in the placebo group."|Mean Difference (Final Values)|33.2001||||0.7|TWO_SIDED|95.0|-137.593|203.993|||95% CI lower bound vs non-inf margin|||||203.993|-137.593|0.700
92376537|NCT01527513|184656015|NON_INFERIORITY_OR_EQUIVALENCE|"A 121ms non-inferiority margin was selected based on a previous study with Cognitive Drug Research (CDR) system comparing newly diagnosed patients to a healthy normative sample.~Assuming a Standard Deviation (SD) of 202.3 for the Power of Attention score, a total of 102 patients in the PP population would provide 80% power to reject the null hypothesis that the mean increase from baseline Power of Attention was at least 121 ms smaller in the placebo group."|95% CI lower bound vs non-inf margin|33.2001|||<|0.7|TWO_SIDED|95.0|-137.593|203.993|||ANCOVA||The predefined non-inferiority margin was -121ms.|||203.993|-137.593|<0.700
92376538|NCT01920893|184656017|SUPERIORITY||Least Square (LS) mean difference|-1.55||||0.0009|TWO_SIDED|95.0|-2.43|-0.67||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 300 mg QW vs Placebo|Analysis was performed by a mixed model repeated measures (MMRM) model.||-0.67|-2.43|0.0009
92376539|NCT01396265|184656028|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|66.2|STANDARD_DEVIATION|16.1|||TWO_SIDED|90.0|60.815|72.057|||ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||72.057|60.815|
92376540|NCT01396265|184656029|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|66.18|STANDARD_DEVIATION|16.5|||TWO_SIDED|90.0|60.656|72.213|||ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||72.213|60.656|
92376541|NCT01396265|184656030|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|78.41|STANDARD_DEVIATION|15.6|||TWO_SIDED|90.0|72.363|84.968|||ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||84.968|72.363|
92376542|NCT02446418|184656039|NON_INFERIORITY|Non-inferiority of fixed combination FF/VI to usual ICS/LABA in inhalation powder was assessed assuming a non-inferiority margin of -1.5.|Mean Difference (Net)|0.8||||0.033|TWO_SIDED|95.0|0.1|1.5|||Mixed model repeated measures (MMRM)||||The analysis method was an MMRM adjusted for randomized treatment, visit (Week 6 and Week 12), Baseline ACT total score, randomized treatment-by-visit interaction, Baseline ACT total score-by-visit interaction, gender, age, country and participant fitted as a random factor. The Restricted Maximum Likelihood (REML) estimation approach was used with a default covariance structure of unstructured.|1.5|0.1|0.033
92376543|NCT02446418|184656040|NON_INFERIORITY|Non-inferiority of fixed combination FF/VI to usual ICS/LABA in inhalation powder was assessed assuming a non-inferiority margin of -1.5.|Mean Difference (Net)|0.4||||0.224|TWO_SIDED|95.0|-0.3|1.1|||Mixed model repeated measures (MMRM)||||The analysis method was an MMRM adjusted for randomized treatment, visit (Week 6, Week 12, Week 18 and Week 24), Baseline ACT total score, randomized treatment-by-visit interaction, Baseline ACT total score-by visit interaction, gender, age, country and participant fitted as a random factor. The REML estimation approach was used with a default covariance structure of unstructured.|1.1|-0.3|0.224
92376544|NCT02446418|184656041|SUPERIORITY||Adjusted Odds Ratio|1.11||||0.82|TWO_SIDED|95.0|0.47|2.62|||Regression, Logistic|||Week 12|The analysis method was logistic regression adjusted for randomized treatment, correct use of inhaler device at Baseline, gender, age and country.|2.62|0.47|0.820
92229978|NCT01552057|184363146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0003|TWO_SIDED|95.0|-0.76|-0.22||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.22|-0.76|0.0003
92229979|NCT01552057|184363147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.0012|TWO_SIDED|95.0|-0.71|-0.18||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.18|-0.71|0.0012
92229980|NCT01552057|184363148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.35||||0.0073|TWO_SIDED|95.0|-9.26|-1.45||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-1.45|-9.26|0.0073
92376545|NCT02446418|184656041|SUPERIORITY||Adjusted Odds Ratio|1.41||||0.566|TWO_SIDED|95.0|0.43|4.6|||Regression, Logistic|||Week 24|The analysis method was logistic regression adjusted for randomized treatment, correct use of inhaler device at Baseline, gender, age and country.|4.60|0.43|0.566
92376546|NCT02230761|184656061|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||||||0.020
92376547|NCT02230761|184656062|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
92376548|NCT02230761|184656063|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||||||0.002
92376549|NCT03093974|184656066|SUPERIORITY|The number of NCFB pulmonary exacerbations was compared between treatment groups using a negative binomial model including treatment, pooled site (country) and baseline use of stable concomitant therapy with oral macrolides as fixed effects and log-time on treatment as an offset.|LS Mean rate ratio|0.612||||0.00101|TWO_SIDED|95.0|0.457|0.82|||two-sided Wald chi-square test|||||0.820|0.457|0.00101
92376550|NCT02863523|184656091|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92376551|NCT02863523|184656092|SUPERIORITY||||||<|0.03|||||||t-test, 2 sided|||||||<0.03
92376552|NCT02863523|184656093|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92376553|NCT00882908|184656113|SUPERIORITY_OR_OTHER||Difference in proportions of SVRW72|13.0||||0.051|TWO_SIDED|97.5|-1.9|28.0|||Regression, Logistic||Difference in percentages of participants in the TMC435 75mg and placebo groups with undetectable plasma Hepatitis C virus ribonucleic acid levels at end of treatment (EOT) and at Week 72 estimated from the logistic regression model.|TMC435 75 mg 12 and 24 week treatment groups were pooled and the percentage of participants acheiving SVRW72 were compared with the percentage of participants acheiving SVRW72 in the placebo treatment group.||28.0|-1.9|0.051
92376554|NCT00882908|184656113|SUPERIORITY_OR_OTHER||Difference in proportions of SVRW72|18.9||||0.004|TWO_SIDED|97.5|4.4|33.5|||Regression, Logistic||Difference in percentages of participants in the TMC435 150mg and placebo groups with undetectable plasma Hepatitis C virus ribonucleic acid levels at end of treatment (EOT) and at Week 72 estimated from the logistic regression model.|TMC/PR 150 mg 12 and 24 week treatment groups were pooled and the percentage of participants achieving SVRW72 was compared the percentage of participants achieving SVRW72 in the placebo treatment group.||33.5|4.4|0.004
92376555|NCT02084238|184656175|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparing the data between baseline and week 10.||||<0.01
92376556|NCT02818036|184656180|OTHER|difference in neural activity to social task when taking naltrexone as compared to placebo|||||<|0.01||||||a priori threshold for significance was p\<.05|t-test, 1 sided|degrees of freedom = 75||||||<.01
92376557|NCT02818036|184656181|OTHER|differences in feelings of social connection between those who took naltrexone and those who took placebo||||||0.338||||||a priori threshold for statistical significance was p\<.05|t-test, 2 sided|||||||.338
92376558|NCT01038713|184656182|SUPERIORITY_OR_OTHER|||||||0.22||||||Analysis comparing the number of patients who had stent occlusion|Chi-squared|3 x 2 contingency table comparing all three groups||||||0.22
92229981|NCT01552057|184363149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.34||||0.0049|TWO_SIDED|95.0|1.32|7.35||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Physical Functioning||7.35|1.32|0.0049
92229982|NCT01552057|184363149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.76||||0.0003|TWO_SIDED|95.0|3.57|11.94||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Role-Physical||11.94|3.57|0.0003
92376559|NCT01038713|184656182|SUPERIORITY_OR_OTHER|||||||0.14|||||||Chi-squared|3 x 2 contingency table comparing all three groups||Analysis comparing the rate of attempted surgical resection||||0.14
92376560|NCT01038713|184656182|SUPERIORITY_OR_OTHER|||||||0.96|||||||Chi-squared|3 x 2 contingency table comparing all three groups||Analysis comparing the rate of death between groups||||0.96
92376561|NCT01038713|184656183|SUPERIORITY_OR_OTHER|||||||1|||||||ANOVA|||||||1.00
92376562|NCT03777917|184656187|SUPERIORITY||Difference in Response Rates|72.1|||<|0.0001|TWO_SIDED|95.0|47.5|83.5|||Fisher Exact|The Fisher's exact test was used to test for the superiority of treatment (Belotero Balance®) over control.|Two-sided Newcombe confidence interval (CI) for the difference in response rates.|||83.5|47.5|< 0.0001
92376563|NCT04063787|184656197|EQUIVALENCE|The null hypothesis is the difference is zero. Thus the equivalence margin equals zero.|Mean Difference (Final Values)|0.408|STANDARD_DEVIATION|1.05||0.012|TWO_SIDED||||||t-test, 2 sided|Paired t-test||Compare before and after use of Fist Assist||||0.012
92376564|NCT00320372|184656201|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|38.1|||||TWO_SIDED|95.0|36.3|39.9|||||Mixed Model Repeated Measure analysis on MADRS responders (binary variable with 1=yes, 0=no) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|Null Hypothesis: Percentage of responders across groups is the same. Alternate Hypothesis: Percentage of responders across groups is different.||39.9|36.3|
92410946|NCT01303224|184712357|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||Multiplicity was adjusted by using the Hochberg Procedure.|Mantel Haenszel|||Mantel-Haenszel-Test was used to compare separately each of the 3 active treatment groups with placebo using a two-sided overall significance level of 5%. The proportion of responders was tested with the following hypotheses: H0 (placebo) vs H1(Ibodutant:1mg/3mg/10mg). Approximately 80% power based on the assumptions: rate placebo 40%, expected mean therapeutic gain over placebo 15% for at least one dose of Ibodutant.||||<0.05
92376565|NCT00320372|184656201|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|17.0|||||TWO_SIDED|95.0|15.2|19.0|||||Mixed Model Repeated Measure analysis on MADRS responders (binary variable with 1=yes, 0=no) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|Null Hypothesis: Percentage of responders across groups is the same. Alternate Hypothesis: Percentage of responders across groups is different.||19.0|15.2|
92376566|NCT00320372|184656201|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Null Hypothesis: Percentage of responders across groups is the same. Alternate Hypothesis: Percentage of responders across groups is different.||||<.0001
92376567|NCT00320372|184656202|SUPERIORITY_OR_OTHER|||||||0.1015|TWO_SIDED|||||Comparison for Kaplan Meier Median Time until recurrence|Log Rank|Null hypothesis: median TUR between 2 groups is not different. Alternate hypothesis: median TUR between 2 groups is different.||||||0.1015
92410947|NCT01303224|184712358|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||Multiplicity was adjusted using the Hochberg procedure.|Mantel Haenszel|||||||<0.05
92229983|NCT01552057|184363149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.67||||0.0002|TWO_SIDED|95.0|2.76|8.59||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Bodily Pain||8.59|2.76|0.0002
92229984|NCT01552057|184363149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.25||||0.0192|TWO_SIDED|95.0|0.53|5.96||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||General Health||5.96|0.53|0.0192
92229985|NCT01552057|184363149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7||||0.0002|TWO_SIDED|95.0|3.15|10.25||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Vitality||10.25|3.15|0.0002
92229986|NCT01552057|184363149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.04||||0.0014|TWO_SIDED|95.0|2.74|11.34||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Social Functioning||11.34|2.74|0.0014
92229987|NCT01552057|184363149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.12||||0.0002|TWO_SIDED|95.0|4.41|13.83||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Role-Emotional||13.83|4.41|0.0002
92410948|NCT01888432|184712362|NON_INFERIORITY|HO: πT - πC ≥ 0.12 vs. HA: πT - πC \< 0.12, where πT and πC are the true proportions of composite efficacy failure of tBPAR, GL, or D, (tBPAR/GL/D) at 12 months post-transplant for the respective treatment groups. The proportion of 0.12, or 12%, was pre-determined as the non-inferiority (NI) margin for composite efficacy failure.|Kaplan-Meier|-0.7|||<|0.001|TWO_SIDED|90.0|-5.2|3.7||Z-test p-value for non-inferiority test (non-inferiority margin = 12%) is for one-sided test and should be compared to 0.05 significance level.|Z-test|||non-inferior efficacy failure of the reduced tacrolimus regimen to control by rejecting the null hypothesis.||3.7|-5.2|< 0.001
92229988|NCT01552057|184363149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.91|||<|0.0001|TWO_SIDED|95.0|4.39|11.43||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Mental Health||11.43|4.39|<0.0001
92229989|NCT01552057|184363150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.85||||0.0002|TWO_SIDED|95.0|-4.32|-1.38||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-1.38|-4.32|0.0002
92229990|NCT01552057|184363151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.0029|TWO_SIDED|95.0|-2.12|-0.44||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||WPI||-0.44|-2.12|0.0029
92376568|NCT00320372|184656203|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|19.8|||||TWO_SIDED|95.0|18.4|21.3|||||Mixed Model Repeated Measure analysis on MADRS remitters (binary variable with 1=yes, 0=no) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|Null Hypothesis: Percentage of remitters across groups is the same. Alternate Hypothesis: Percentage of remitters across groups is different.||21.3|18.4|
92376569|NCT00320372|184656203|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|8.1|||||TWO_SIDED|95.0|6.9|9.5|||||Mixed Model Repeated Measure analysis on MADRS remitters (binary variable with 1=yes, 0=no) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|Null Hypothesis: Percentage of remitters across groups is the same. Alternate Hypothesis: Percentage of remitters across groups is different.||9.5|6.9|
92376570|NCT00320372|184656203|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Null Hypothesis: Percentage of responders across groups is the same. Alternate Hypothesis: Percentage of responders across groups is different.||||<.0001
92376571|NCT00320372|184656209|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficients|0.34997|||<|0.0001|TWO_SIDED|||||"Null hypothesis: There is a correlation between MADRS follow-up suicidal thoughts and baseline suicidal thoughts.~Alternate hypothesis: There is no correlation between MADRS follow-up suicidal thoughts and baseline suicidal thoughts."|Pearson Correlation Coefficients|||The statistical modeling of predictors of suicide attempts and suicidal ideations considered 15 variables, defined in the protocol a priori to determine which ones were predictive of suicide attempts and suicidal ideations. Four variables representing the baseline disease and patient factors were considered predictors of suicidality. This outcome measure presents the underlying data collected and the corresponding correlation coefficient for one of the 4 variables identified.||||<0.0001
92376572|NCT00320372|184656210|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||3 Month Time point||||<.0001
92376573|NCT00320372|184656210|SUPERIORITY_OR_OTHER|||||||0.0068|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||6 Month Time point||||.0068
92376574|NCT00320372|184656210|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||9 Month Time point||||.0008
92376575|NCT00320372|184656210|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||12 Month Time point||||.0003
92376576|NCT00320372|184656210|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||18 Month Time point||||<.0001
92376577|NCT00320372|184656210|SUPERIORITY_OR_OTHER|||||||0.0059|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||24 Month Time point||||.0059
92376578|NCT00320372|184656210|SUPERIORITY_OR_OTHER|||||||0.0028|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||30 Month Time point||||.0028
92376579|NCT00320372|184656210|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||36 Month Time point||||.0002
92376580|NCT00320372|184656210|SUPERIORITY_OR_OTHER|||||||0.0051|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||42 Month Time point||||.0051
92376581|NCT00320372|184656210|SUPERIORITY_OR_OTHER|||||||0.0363|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||48 Month Time point||||.0363
92376582|NCT00320372|184656210|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||54 Month Time point||||.0048
92376583|NCT00320372|184656210|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||60 Month Time point||||.0009
92229991|NCT01552057|184363151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.0906|TWO_SIDED|95.0|-0.79|0.06||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Symptom Severity||0.06|-0.79|0.0906
92229992|NCT01552057|184363152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.0755|TWO_SIDED|95.0|-0.7|0.03||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Average Pain||0.03|-0.70|0.0755
92376584|NCT00320372|184656210|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|12.1009|||||TWO_SIDED|95.0|10.8979|13.3039|||||Mixed Model Repeated Measure analysis on Q-LES-Q change from baseline score (continuous var) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."||13.3039|10.8979|
92376585|NCT00320372|184656210|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|7.5964|||||TWO_SIDED|95.0|6.1327|9.0602|||||Mixed Model Repeated Measure analysis on Q-LES-Q change from baseline score (continuous var) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."||9.0602|6.1327|
92376586|NCT00320372|184656210|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."||||<.0001
92229993|NCT01552057|184363152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.0232|TWO_SIDED|95.0|-0.88|-0.06||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Worst Pain||-0.06|-0.88|0.0232
92229994|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.0126|TWO_SIDED|95.0|-0.99|-0.12||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Worst Pain||-0.12|-0.99|0.0126
92229995|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0092|TWO_SIDED|95.0|-0.87|-0.12||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Least Pain||-0.12|-0.87|0.0092
92229996|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0083|TWO_SIDED|95.0|-1.0|-0.15||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Pain Right Now||-0.15|-1.00|0.0083
92376587|NCT00320372|184656211|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficients|0.14837|||<|0.0001|TWO_SIDED|||||"Null hypothesis: There is a correlation between MADRS follow-up suicidal thoughts and baseline medical threat to life.~Alternate hypothesis: There is no correlation between MADRS follow-up suicidal thoughts and baseline medical threat to life."|Pearson Correlation Coefficients|||The statistical modeling of predictors of suicide attempts and suicidal ideations considered 15 variables, defined in the protocol a priori to determine which ones were predictive of suicide attempts and suicidal ideations. Four variables representing the baseline disease and patient factors were considered predictors of suicidality. This outcome measure presents the underlying data collected and the corresponding correlation coefficient for one of the 4 variables identified.||||<.0001
92376588|NCT00320372|184656212|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficients|0.14819|||<|0.0001|TWO_SIDED|||||"Null hypothesis: There is a correlation between MADRS f/u suicidal thoughts and baseline intent of suicidal gesture.~Alternate hypothesis: There is no correlation between MADRS f/u suicidal thoughts and baseline intent of suicidal gesture."|Pearson Correlation Coefficients|||The statistical modeling of predictors of suicide attempts and suicidal ideations considered 15 variables, defined in the protocol a priori to determine which ones were predictive of suicide attempts and suicidal ideations. Four variables representing the baseline disease and patient factors were considered predictors of suicidality. This outcome measure presents the underlying data collected and the corresponding correlation coefficient for one of the 4 variables identified.||||<.0001
92410949|NCT01888432|184712363|NON_INFERIORITY|the null hypothesis below was tested at the one-sided α = 0.05 level: H0: μT - μC ≤ -6 mL/min/1.73 m2 vs. HA: μT - μC \> -6 mL/min/1.73 m\^2, where μT and μC are the true means of change in eGFR (MDRD-4) from randomization to Month 12 post-transplant for the reduced tacrolimus group and control group, respectively.|Mean Difference (Net)|4.15|STANDARD_ERROR_OF_MEAN|2.574|<|0.001|TWO_SIDED|90.0|-0.09|8.4|||ANCOVA|||||8.40|-0.09|< 0.001
92410950|NCT01888432|184712364|OTHER||Mean Difference (Final Values)|3.25|STANDARD_ERROR_OF_MEAN|2.699|<|0.001|TWO_SIDED|90.0|-1.21|7.7|||ANCOVA|||||7.70|-1.21|<0.001
92229997|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0807|TWO_SIDED|95.0|-0.98|0.06||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With General Activity||0.06|-0.98|0.0807
92229998|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.0057|TWO_SIDED|95.0|-1.29|-0.22||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Mood||-0.22|-1.29|0.0057
92229999|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.1114|TWO_SIDED|95.0|-0.84|0.09||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Walking Ability||0.09|-0.84|0.1114
92230000|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.1081|TWO_SIDED|95.0|-0.94|0.09||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Normal Work||0.09|-0.94|0.1081
92230001|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0264|TWO_SIDED|95.0|-1.04|-0.07||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Relationships With Other People||-0.07|-1.04|0.0264
92230002|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.3959|TWO_SIDED|95.0|-0.81|0.32||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Sleep||0.32|-0.81|0.3959
92230003|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0119|TWO_SIDED|95.0|-1.18|-0.15||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Enjoyment of Life||-0.15|-1.18|0.0119
92230004|NCT01552057|184363153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.0222|TWO_SIDED|95.0|-0.96|-0.07||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Average Interference||-0.07|-0.96|0.0222
92230005|NCT01552057|184363154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.0113|TWO_SIDED|95.0|-0.71|-0.09||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.09|-0.71|0.0113
92230006|NCT01552057|184363155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.0005|TWO_SIDED|95.0|-0.94|-0.27||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.27|-0.94|0.0005
92376589|NCT00320372|184656213|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficients|0.04625||||0.0012|TWO_SIDED|||||"Null hypothesis: There is a correlation between MADRS follow-up suicidal thoughts and baseline primary diagnosis of MDE.~Alternate hypothesis: There is no correlation between MADRS follow-up suicidal thoughts and baseline primary diagnosis of MDE."|Pearson Correlation Coefficients|||The statistical modeling of predictors of suicide attempts and suicidal ideations considered 15 variables, defined in the protocol a priori to determine which ones were predictive of suicide attempts and suicidal ideations. Four variables representing the baseline disease and patient factors were considered predictors of suicidality. This outcome measure presents the underlying data collected and the corresponding correlation coefficient for one of the 4 variables identified.||||.0012
92376590|NCT04030247|184656260|OTHER|||||||0.03|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.03
92230007|NCT01552057|184363156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|||<|0.0001|TWO_SIDED|95.0|-1.07|-0.37||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.37|-1.07|<0.0001
92230008|NCT01552057|184363157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.0226|TWO_SIDED|95.0|-0.82|-0.06||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.06|-0.82|0.0226
92230009|NCT01552057|184363158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.0408|TWO_SIDED|95.0|-0.74|-0.02||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||||-0.02|-0.74|0.0408
92230010|NCT03895203|184363159|SUPERIORITY||Odds Ratio (OR)|7.082|||<|0.001|TWO_SIDED|95.0|4.583|10.943|||Regression, Logistic|||||10.943|4.583|<0.001
92230011|NCT03895203|184363160|SUPERIORITY||Least square (LS) mean difference|-0.187|||<|0.001|TWO_SIDED|95.0|-0.249|-0.125|||ANCOVA|||||-0.125|-0.249|<0.001
92230012|NCT03895203|184363162|SUPERIORITY||Odds Ratio (OR)|63.039|||<|0.001|TWO_SIDED|95.0|22.211|178.918|||Regression, Logistic|||||178.918|22.211|<0.001
92230013|NCT03895203|184363163|SUPERIORITY||LS mean difference|4.337|||<|0.001|TWO_SIDED|95.0|3.229|5.444|||ANCOVA|||||5.444|3.229|<0.001
92230014|NCT03895203|184363164|SUPERIORITY||Odds Ratio (OR)|5.447|||<|0.001|TWO_SIDED|95.0|3.668|8.088|||Regression, Logistic|||||8.088|3.668|<0.001
92230015|NCT03895203|184363165|SUPERIORITY||LS mean difference|-0.327||||0.001|TWO_SIDED|95.0|-0.524|-0.13|||ANOVA|||||-0.130|-0.524|0.001
92376591|NCT04030247|184656261|OTHER|||||||0.16|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.16
92376592|NCT04030247|184656262|OTHER|||||||0.03|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.03
92376593|NCT04030247|184656263|OTHER|||||||0.9|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.9
92376594|NCT04030247|184656264|OTHER|||||||0.5|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.5
92376595|NCT04030247|184656265|OTHER|||||||0.4|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.4
92376596|NCT04030247|184656267|OTHER|||||||0.6|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.6
92376597|NCT03809910|184656276|SUPERIORITY||Adjusted Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|-0.09|-0.04||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.04|-0.09|<.0001
92376598|NCT03809910|184656277|SUPERIORITY||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|-0.17|-0.07||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.07|-0.17|<0.0001
92376599|NCT03809910|184656278|SUPERIORITY||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|-0.16|-0.06||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.06|-0.16|<0.0001
92376600|NCT03809910|184656279|SUPERIORITY||Adjusted Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|-0.25|-0.19||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.19|-0.25|<0.0001
92376601|NCT03809910|184656280|SUPERIORITY||Adjusted Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|-0.43|-0.33||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.33|-0.43|<0.0001
92230016|NCT03895203|184363166|SUPERIORITY||Odds Ratio (OR)|1.904||||0.008|TWO_SIDED|95.0|1.18|3.074|||Regression, Logistic|||||3.074|1.180|0.008
92230017|NCT03895203|184363167|SUPERIORITY||Odds Ratio (OR)|3.437||||0.002|TWO_SIDED|95.0|1.559|7.574|||Regression, Logistic|||||7.574|1.559|0.002
92376602|NCT03809910|184656281|SUPERIORITY||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|-0.39|-0.29||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.29|-0.39|<0.0001
92376603|NCT03809910|184656282|SUPERIORITY||Adjusted Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.13|0.18||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.18|0.13|<0.0001
92376604|NCT03809910|184656283|SUPERIORITY||Adjusted Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.21|0.31||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.31|0.21|<0.0001
92376605|NCT03809910|184656284|SUPERIORITY||Adjusted Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.18|0.28||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.28|0.18|<0.0001
92376606|NCT03809910|184656285|SUPERIORITY||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.09|0.15||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.15|0.09|<0.0001
92376607|NCT03809910|184656285|SUPERIORITY||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.014||0.0214|TWO_SIDED|95.0|-0.06|0.0||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.00|-0.06|0.0214
92376608|NCT03809910|184656286|SUPERIORITY||Adjusted Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.13|0.23||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.23|0.13|<0.0001
92376609|NCT03809910|184656286|SUPERIORITY||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.025||0.001|TWO_SIDED|95.0|-0.14|-0.04||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.04|-0.14|0.0010
92376610|NCT03809910|184656287|SUPERIORITY||Adjusted Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.15|0.25||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.25|0.15|<0.0001
92376611|NCT03809910|184656287|SUPERIORITY||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.026||0.1652|TWO_SIDED|95.0|-0.09|0.01||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.01|-0.09|0.1652
92376612|NCT03880838|184656299|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.391|TWO_SIDED||||||Regression, Linear|||In this contrast, letter was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.391
92376613|NCT03880838|184656299|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.861|TWO_SIDED||||||Regression, Linear|||In this contrast, no contact control was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.861
92376614|NCT03880838|184656299|SUPERIORITY||Slope|-0.02|STANDARD_DEVIATION|0.01||0.835|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.835
92376615|NCT03880838|184656299|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.877|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.877
92376616|NCT03880838|184656299|SUPERIORITY||Slope|0.004|STANDARD_ERROR_OF_MEAN|0.01||0.969|TWO_SIDED||||||Regression, Logistic|||In this contrast, both nudge conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.969
92230018|NCT03895203|184363169|SUPERIORITY||LS mean difference|-0.281||||0.001|TWO_SIDED|95.0|-0.452|-0.111|||ANCOVA|||||-0.111|-0.452|0.001
92230019|NCT04572633|184363179|OTHER||Wilson Score|95.5|||||TWO_SIDED|95.0|83.72|100.0|||||Bootstrap sampling with replacement method to account for potential within-subject lesion correlations. Subject is the bootstrap sampling unit, 1,000,000 iterations for bootstrap resampling, and the bias-corrected and accelerated method was used.|||100|83.72|
92230020|NCT04572633|184363180|OTHER||Wilson Score|6.8|||||TWO_SIDED|95.0|2.35|18.23||||||||18.23|2.35|
92230021|NCT03155997|184363187|SUPERIORITY||Hazard Ratio (HR)|0.747||||0.00957|TWO_SIDED|95.0|0.598|0.932|||Log Rank|Stratified by Interactive Web Response Systems (IWRS) Geographical Region, IWRS Prior Treatment, IWRS Menopausal Status|Stratified by IWRS Geographical Region, IWRS Prior Treatment, IWRS Menopausal Status|||0.932|0.598|0.00957
92376617|NCT03880838|184656299|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.09||0.893|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.893
92376618|NCT03880838|184656299|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.1||0.689|TWO_SIDED||||||Regression, Linear|||In this contrast, In this contrast, prevention conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.689
92376619|NCT03880838|184656299|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.1||0.427|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.427
92376620|NCT03880838|184656299|SUPERIORITY||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.1||0.504|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.504
92376621|NCT03880838|184656299|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.09||0.893|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.893
92376622|NCT03880838|184656299|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.09||0.918|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.918
92376623|NCT03880838|184656299|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.755|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.755
92376624|NCT03880838|184656299|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.09||0.858|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.858
92376625|NCT03880838|184656300|SUPERIORITY||Slope|0.36|STANDARD_ERROR_OF_MEAN|0.46||0.436|TWO_SIDED||||||Regression, Linear|||In this contrast, letter was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.436
92410951|NCT01888432|184712366|OTHER|Month 12|Kaplan-Meier|-1.4|||||TWO_SIDED|90.0|-4.7|2.0|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||2.0|-4.7|
92410952|NCT01888432|184712366|OTHER|tBPAR - month 24|Kaplan-Meier|-1.2|||||TWO_SIDED|90.0|-5.1|2.6|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||2.6|-5.1|
92376626|NCT03880838|184656300|SUPERIORITY||Slope|-0.27|STANDARD_ERROR_OF_MEAN|0.45||0.539|TWO_SIDED||||||Regression, Linear|||In this contrast, no contact control was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.539
92376627|NCT03880838|184656300|SUPERIORITY||Slope|0.005|STANDARD_ERROR_OF_MEAN|0.66||0.994|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.994
92410953|NCT01888432|184712366|OTHER|On-treatment tBPAR - month 24|Kaplan-Meier|-2.1|||||TWO_SIDED|90.0|-5.7|1.4|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||1.4|-5.7|
92376628|NCT03880838|184656300|SUPERIORITY||Slope|-0.25|STANDARD_ERROR_OF_MEAN|0.66||0.7|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.700
92376629|NCT03880838|184656300|SUPERIORITY||Slope|0.75|STANDARD_ERROR_OF_MEAN|0.66||0.258|TWO_SIDED||||||Regression, Logistic|||In this contrast, both nudge conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.258
92376630|NCT03880838|184656300|SUPERIORITY||Slope|-0.49|STANDARD_ERROR_OF_MEAN|0.62||0.428|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.428
92376631|NCT03880838|184656300|SUPERIORITY||Slope|-0.48|STANDARD_ERROR_OF_MEAN|0.62||0.434|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.434
92376632|NCT03880838|184656300|SUPERIORITY||Slope|-0.74|STANDARD_ERROR_OF_MEAN|0.62||0.228|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.228
92376633|NCT03880838|184656300|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.62||0.674|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.674
92376634|NCT03880838|184656300|SUPERIORITY||Slope|0.15|STANDARD_ERROR_OF_MEAN|0.61||0.799|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.799
92410954|NCT01888432|184712367|OTHER|Month 12|Kaplan-Meier|0.9|||||TWO_SIDED|90.0|-3.4|5.1|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||5.1|-3.4|
92376635|NCT03880838|184656300|SUPERIORITY||Slope|0.16|STANDARD_ERROR_OF_MEAN|0.61||0.794|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.794
92410955|NCT01888432|184712367|OTHER|Month 24|Kaplan-Meier|1.0|||||TWO_SIDED|90.0|-3.6|5.6|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||5.6|-3.6|
92410956|NCT01888432|184712368|OTHER|graft loss at month 24|Kaplan-Meier|-0.8|||||TWO_SIDED|90.0|-2.1|0.5|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||0.5|-2.1|
92230022|NCT03155997|184363189|SUPERIORITY||Hazard Ratio (HR)|0.717|||||TWO_SIDED|95.0|0.559|0.92|||||Stratified by IWRS Geographical Region, IWRS Prior Treatment, IWRS Menopausal Status|||0.920|0.559|
92230023|NCT00004054|184363201|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.81|TWO_SIDED|95.0|0.76|1.43|||Log Rank|||The original target sample size was 1440 patients with a requirement of 340 deaths to test the hypothesis of overall survival (OS) efficacy of the hormones and RT plus chemotherapy arm; the design is based on detecting a 6% absolute improvement in 5-year OS from 79% to 85%, or a 33% relative reduction in the yearly hazard rate, with 90% power and a 2-sided significance level of 0.05.||1.43|0.76|0.81
92230024|NCT00004054|184363202|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.82|TWO_SIDED|95.0|0.74|1.27|||Gray's test|2-sided significance level of 0.05|Fine-Gray regression model was used to obtain the hazard ratio. Reference level = Hormones and RT.|||1.27|0.74|0.82
92230025|NCT00004054|184363203|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.09|TWO_SIDED|95.0|0.28|1.1|||Gray's test|2-sided significance level = 0.05|Fine-Gray regression model was used to obtain the hazard ratio. Reference level = Hormones and RT.|||1.10|0.28|0.09
92230026|NCT00004054|184363204|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.42|TWO_SIDED|95.0|0.48|1.36|||Gray's test|2-sided significance level = 0.05|Fine-Gray regression model was used to obtain the hazard ratio. Reference level = Hormones and RT.|||1.36|0.48|0.42
92230027|NCT00004054|184363205|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.61|TWO_SIDED|95.0|0.75|1.19|||Log Rank|2-sided significance level = 0.05|Cox proportional hazards model was used to obtain the hazard ratio. Reference level = Hormones and RT.|||1.19|0.75|0.61
92230028|NCT02507349|184363213|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Time-by-treatment interaction||||<0.0001
92230029|NCT02507349|184363213|SUPERIORITY|||||||0.0033|||||||Mixed Models Analysis|||Three-way interaction effect (treatment, polynomial time, and age group 1) where age group 1 is defined by 0 (reference) if \<=35; 1 if (35\<age\<=49); 2 if age \>49.||||0.0033
92230030|NCT02507349|184363213|SUPERIORITY|||||||0.3164|||||||Mixed Models Analysis|||Three-way interaction effect (treatment, polynomial time, and SMI group). Participants with a diagnosis of major depression, schizoaffective or schizophrenia were classified into the SMI group and the reference group (Non-SMI) included diagnosis of anxiety, PTSD, depression/dysthymia/depression nos.||||0.3164
92230031|NCT02507349|184363213|SUPERIORITY|||||||0.0482|||||||Mixed Models Analysis|||Three-way interaction effect of time, treatment, and the basis subgroups (no symptoms =group 1; at least 1 severe symptom = group 2)||||0.0482
92230032|NCT02507349|184363213|SUPERIORITY|||||||0.9928|||||||Mixed Models Analysis|||Three-way interaction of Treatment, time, and subgroup of side effects. Subgroup of side effect= 0 if the response to the medication side effects question at baseline is 1, 2, or 3 (i.e. subgroup of participants who are minimally bothered by medication side effects at baseline); Subgroup of side effect= 1 if the response to the medication side effects question at baseline is 4-10 (i.e. subgroup of participants who are moderately or very bothered by medication side effects at baseline)||||0.9928
92230033|NCT02507349|184363214|SUPERIORITY|||||||0.6243|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.6243
92230034|NCT02507349|184363214|SUPERIORITY|||||||0.1969|||||||Mixed Models Analysis|||Test for change over time from baseline (Marginal Effect of Time)||||0.1969
92230035|NCT02507349|184363214|SUPERIORITY|||||||0.0042|||||||Mixed Models Analysis|||Three-way interaction effect (treatment, polynomial time, and age group 1) where age group 1 is defined by 0 (reference) if \<=35; 1 if (35\<age\<=49); 2 if age \>49||||0.0042
92376636|NCT03880838|184656300|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.61||0.871|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.871
92376637|NCT03880838|184656300|SUPERIORITY||Slope|0.9|STANDARD_ERROR_OF_MEAN|0.62||0.139|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.139
92376638|NCT03880838|184656301|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.29||0.357|TWO_SIDED||||||Regression, Linear|||In this contrast, letter was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.357
92230036|NCT02507349|184363214|SUPERIORITY|||||||0.0002|||||||Mixed Models Analysis|||Three-way interaction effect (treatment, polynomial time, and SMI group). Participants with a diagnosis of major depression, schizoaffective or schizophrenia were classified into the SMI group and the reference group (Non-SMI) included diagnosis of anxiety, PTSD, depression/dysthymia/depression nos.||||0.0002
92230037|NCT02507349|184363214|SUPERIORITY|||||||0.7254|||||||Mixed Models Analysis|||Three-way interaction effect of time, treatment, and the basis subgroups (no symptoms =group 1; at least 1 severe symptom = group 2)||||0.7254
92230038|NCT02507349|184363214|SUPERIORITY|||||||0.058|||||||Mixed Models Analysis|||Three-way interaction of Treatment, time, and subgroup of side effects. Subgroup of side effect= 0 if the response to the medication side effects question at baseline is 1, 2, or 3 (i.e. subgroup of participants who are minimally bothered by medication side effects at baseline); Subgroup of side effect= 1 if the response to the medication side effects question at baseline is 4-10 (i.e. subgroup of participants who are moderately or very bothered by medication side effects at baseline)||||0.0580
92230039|NCT02507349|184363215|SUPERIORITY|||||||0.4677|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.4677
92230040|NCT02507349|184363215|SUPERIORITY|||||||0.094|||||||Mixed Models Analysis|||Test for change over time from baseline (Marginal Effect of Time)||||0.0940
92230041|NCT02507349|184363216|SUPERIORITY|||||||0.8733|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.8733
92230042|NCT02507349|184363216|SUPERIORITY|||||||0.0113|||||||Mixed Models Analysis|||Test for change over time from baseline (Marginal Effect of Time)||||0.0113
92230043|NCT02507349|184363217|SUPERIORITY|||||||0.2328|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.2328
92230044|NCT02507349|184363217|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|||Test for change over time from baseline (Marginal Effect of Time)||||0.0005
92230045|NCT02507349|184363218|SUPERIORITY|||||||0.0033|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.0033
92230046|NCT02507349|184363219|SUPERIORITY|||||||0.1649|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.1649
92410957|NCT01888432|184712369|OTHER|Month 12|Kaplan-Meier|0.7|||||TWO_SIDED|90.0|-2.5|3.8|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||3.8|-2.5|
92230047|NCT02507349|184363219|SUPERIORITY|||||||0.0016|||||||Mixed Models Analysis|||Test for change over time from baseline (Marginal Effect of Time)||||0.0016
92230048|NCT02507349|184363220|SUPERIORITY|||||||0.008|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.0080
92230049|NCT02507349|184363221|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92230050|NCT02507349|184363222|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||||||0.0003
92230051|NCT00473876|184363243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.38||||0.08||95.0|||||t-test, 1 sided|The differences between baseline and post-intervention (4 months) was analyzed using independent t-test, comparing metformin and placebo.||Null hypothesis: Metformin has no effect on peak VO2. We targetted 66 subjects and power calculation based on our previous observational study of CHF with insulin resistance with mean peak VO2 of 11.||||0.08
92376639|NCT03880838|184656301|SUPERIORITY||Slope|-0.29|STANDARD_ERROR_OF_MEAN|0.28||0.294|TWO_SIDED||||||Regression, Linear|||In this contrast, no contact control was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.294
92376640|NCT03880838|184656301|SUPERIORITY||Slope|-0.28|STANDARD_ERROR_OF_MEAN|0.4||0.496|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.496
92376641|NCT03880838|184656301|SUPERIORITY||Slope|-0.14|STANDARD_ERROR_OF_MEAN|0.4||0.722|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.722
92376642|NCT03880838|184656301|SUPERIORITY||Slope|0.31|STANDARD_ERROR_OF_MEAN|0.4||0.445|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.445
92376643|NCT03880838|184656301|SUPERIORITY||Slope|-0.24|STANDARD_ERROR_OF_MEAN|0.38||0.531|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.531
92376644|NCT03880838|184656301|SUPERIORITY||Slope|-0.51|STANDARD_ERROR_OF_MEAN|0.38||0.177|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.177
92376645|NCT03880838|184656301|SUPERIORITY||Slope|-0.38|STANDARD_ERROR_OF_MEAN|0.38||0.314|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.314
92376646|NCT03880838|184656301|SUPERIORITY||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.38||0.85|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.850
92376647|NCT03880838|184656301|SUPERIORITY||Slope|0.32|STANDARD_ERROR_OF_MEAN|0.37||0.391|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.391
92376648|NCT03880838|184656301|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.37||0.906|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.906
92376649|NCT03880838|184656301|SUPERIORITY||Slope|0.18|STANDARD_ERROR_OF_MEAN|0.37||0.635|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.635
92230052|NCT00473876|184363244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.45|STANDARD_DEVIATION|10.72||0.034||95.0|||||t-test, 1 sided|Compare between metformin and placebo arm.||Null hypothesis: Metformin has no effect on the ratio between VCO2 (production of CO2) and VE (ventilation), it is also called the VE/VCO2 slope||||0.034
92230053|NCT03094195|184363259|SUPERIORITY||least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.56||0.689|TWO_SIDED|95.0|-1.3|0.9|||ANCOVA|Multiplicity adjustment for the pairwise comparisons has been performed using the Hochberg procedure. Adjusted p-value 0.689||||0.9|-1.3|0.689
92230054|NCT03094195|184363259|SUPERIORITY||LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.54||0.35|TWO_SIDED|95.0|-1.6|0.6|||ANCOVA|Multiplicity adjustment for the pairwise comparisons has been performed using the Hochberg procedure. Adjusted p-value 0.689||||0.6|-1.6|0.350
92230055|NCT03094195|184363263|SUPERIORITY||Odds Ratio (OR)|0.9||||0.908|TWO_SIDED|95.0|0.3|3.2|||Regression, Logistic|||||3.2|0.3|0.908
92230056|NCT03094195|184363263|SUPERIORITY||Odds Ratio (OR)|1.4||||0.609|TWO_SIDED|95.0|0.4|4.5|||Regression, Logistic|||||4.5|0.4|0.609
92376650|NCT03880838|184656301|SUPERIORITY||Slope|0.63|STANDARD_ERROR_OF_MEAN|0.37||0.093|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||0.093
92376651|NCT05320393|184656376|OTHER|This study was not powered for formal hypothesis testing; analyses were intended for interpretation purposes only. Analysis was performed using the modified Intent-to-Treat population and regardless of responder status.||||||0.0109|TWO_SIDED|95.0|||||Log Rank|||The primary effectiveness endpoint was a measure of duration of effect, described by Kaplan-Meier curves and the median times, with associated 2-sided 95% confidence intervals for each treatment group.||||0.0109
92376652|NCT04411420|184656378|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.169|TWO_SIDED|97.5|-1.55|0.37||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway 3-month change minus Coordinated Care Management Pathway 3-month change.|||0.37|-1.55|0.169
92376653|NCT04411420|184656379|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.139|TWO_SIDED|97.5|-0.33|1.52||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway 3-month change minus Coordinated Care Management Pathway 3-month change.|||1.52|-0.33|0.139
92410958|NCT01888432|184712369|OTHER|Month 24|Kaplan-Meier|2.3|||||TWO_SIDED|90.0|-2.1|6.6|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||6.6|-2.1|
92230057|NCT03094195|184363264|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8|TWO_SIDED|95.0|0.3|3.2|||Regression, Logistic|||||3.2|0.3|0.800
92230058|NCT03094195|184363264|SUPERIORITY||Odds Ratio (OR)|1.4||||0.653|TWO_SIDED|95.0|0.4|4.5|||Regression, Logistic|||||4.5|0.4|0.653
92376654|NCT04411420|184656380|SUPERIORITY||Mean Difference (Final Values)|-0.48||||0.417|TWO_SIDED|95.0|-1.69|0.72||P-value is not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.||||0.72|-1.69|0.417
92376655|NCT04411420|184656381|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.409|TWO_SIDED|95.0|-1.37|0.57||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.57|-1.37|0.409
92376656|NCT04411420|184656381|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.899|TWO_SIDED|95.0|-1.04|0.91||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.91|-1.04|0.899
92410959|NCT01888432|184712370|OTHER|Month 12|Kaplan-Meier|0.7|||||TWO_SIDED|90.0|-2.5|3.8|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||3.8|-2.5|
92410960|NCT01888432|184712370|OTHER|Month 24|Kaplan-Meier|3.0|||||TWO_SIDED|90.0|-1.1|7.2|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||7.2|-1.1|
92410961|NCT01888432|184712370|OTHER|Month 24 (On-treatment death)|Kaplan-Meier|0.7|||||TWO_SIDED|90.0|-2.5|3.9|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||3.9|-2.5|
92230059|NCT03094195|184363266|SUPERIORITY||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.49||0.225|TWO_SIDED|95.0|-0.4|1.6|||ANCOVA|||||1.6|-0.4|0.225
92410962|NCT01888432|184712371|OTHER||Risk Difference (RD)|0.7|||||TWO_SIDED|90.0|-3.9|5.3|||||Month 12|||5.3|-3.9|
92230060|NCT03094195|184363266|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.53||0.914|TWO_SIDED|95.0|-1.0|1.1|||ANCOVA|||||1.1|-1.0|0.914
92230061|NCT01651780|184363270|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Relative Risk|0.77||||0.2692|TWO_SIDED|95.0|0.48|1.23|||Chi-squared|||||1.23|0.48|0.2692
92230062|NCT01651780|184363271|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Relative Risk|0.89||||0.4967|TWO_SIDED|95.0|0.64|1.24|||Chi-squared|||||1.24|0.64|0.4967
92410963|NCT01888432|184712371|OTHER||Risk Difference (RD)|2.1|||||TWO_SIDED|90.0|-3.0|7.2|||||Month 24|||7.2|-3.0|
92410964|NCT01888432|184712372|OTHER||Risk Ratio (RR)|-0.7|||||TWO_SIDED|90.0|-4.5|3.1|||||Month 12|||3.1|-4.5|
92410965|NCT01888432|184712372|OTHER||Risk Ratio (RR)|0.0|||||TWO_SIDED|90.0|-4.2|4.2|||||Month 24|||4.2|-4.2|
92410966|NCT01888432|184712376|OTHER||Difference in Kaplan-Meier estimate|5.4|||||TWO_SIDED|95.0|-19.9|30.6|||||Composite endpoint|||30.6|-19.9|
92230063|NCT04373460|184363342|SUPERIORITY||Risk Difference (RD)|3.4||||0.005|TWO_SIDED|95.0|1.0|5.8|||Fisher Exact|||||5.8|1.0|0.005
92230064|NCT04373460|184363343|SUPERIORITY||Risk Difference (RD)|-0.05||||0.16|TWO_SIDED|95.0|-0.11|0.02|||Rate per person-years|||||0.02|-0.11|0.16
92230065|NCT04373460|184363344|SUPERIORITY||Incidence rate difference|0.18||||0.02|TWO_SIDED|95.0|0.03|0.32|||Rate per person-years|||||0.32|0.03|0.02
92230066|NCT04373460|184363345|SUPERIORITY||Risk Difference (RD)|0.01||||0.32|TWO_SIDED|95.0|-0.01|0.02|||Rate per person-years|||||0.02|-0.01|0.32
92230067|NCT04373460|184363350|SUPERIORITY|||||||0.65|||||||Fisher Exact|||||||0.65
92230068|NCT04373460|184363354|SUPERIORITY||Risk Ratio (RR)|0.525|||||TWO_SIDED|95.0|0.192|1.425||||||||1.425|0.192|
92230069|NCT03359902|184363408|SUPERIORITY||beta|1.4||||0.11|TWO_SIDED||||||Mixed Models Analysis|||"A linear mixed effects model was conducted to account for carryover and order effects in this crossover trial.~Assuming α = 0.05, two-sided test, and 60 participants in total. If the carryover effect is negligible, we will have 90% power to detect an effect size of 0.604 for memory improvement"||||0.11
92410967|NCT01888432|184712376|OTHER||Difference in Kaplan-Meier estimate|6.7|||||TWO_SIDED|95.0|-6.0|19.3|||||On-treatment composite endpoint|||19.3|-6.0|
92410968|NCT01888432|184712376|OTHER||Difference in Kaplan-Meier estimate|2.0|||||TWO_SIDED|95.0|-24.6|28.7|||||Graft loss/death|||28.7|-24.6|
92410969|NCT01888432|184712376|OTHER||Difference in Kaplan-Meier estimate|14.4|||||TWO_SIDED|95.0|-4.2|33.1|||||tBPAR|||33.1|-4.2|
92410970|NCT01888432|184712376|OTHER||Difference in Kaplan-Meier estimate|11.1|||||TWO_SIDED|95.0|-9.4|31.6|||||Death|||31.6|-9.4|
92410971|NCT01888432|184712376|OTHER||Difference in Kaplan-Meier estimate|3.2|||||TWO_SIDED|95.0|-28.9|35.2|||||AR|||35.2|-28.9|
92410972|NCT01888432|184712376|OTHER||Difference in Kaplan-Meier estimate|14.4|||||TWO_SIDED|95.0|-4.2|33.1|||||tAR|||33.1|-4.2|
92410973|NCT01888432|184712376|OTHER||Difference in Kaplan-Meier estimate|14.9|||||TWO_SIDED|95.0|-22.3|52.1|||||BPR|||52.1|-22.3|
92410974|NCT01888432|184712376|OTHER||Difference in Kaplan-Meier estimate|3.2|||||TWO_SIDED|95.0|-28.9|35.2|||||BPAR|||35.2|-28.9|
92410975|NCT01888432|184712377|OTHER||Mean Difference (Final Values)|-10.01|STANDARD_ERROR_OF_MEAN|22.059|||TWO_SIDED|95.0|-59.91|39.89||||||||39.89|-59.91|
92410976|NCT00955305|184712402|SUPERIORITY_OR_OTHER|||||||0.33||||||one-sided p-value using stratified logrank test stratified on the randomization stratification factors|Log Rank|Stratified log rank test stratified on the randomization stratification factors||||||0.33
92410977|NCT00955305|184712403|SUPERIORITY_OR_OTHER|||||||0.95||||||two-sided p-value by stratified log rank test stratified on the randomization stratification factors|Log Rank|Stratified log rank test stratified on the randomization stratification factors||||||0.95
92410978|NCT00955305|184712404|SUPERIORITY_OR_OTHER|||||||0.15||||||two sided p-value by Fisher's exact test|Fisher Exact|||||||0.15
92376657|NCT04411420|184656381|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.946|TWO_SIDED|95.0|-1.01|1.08||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||1.08|-1.01|0.946
92376658|NCT04411420|184656382|SUPERIORITY||Odds Ratio, log|-0.004||||0.992|TWO_SIDED|95.0|-4.62|4.61||P-value is not adjusted for multiple comparisons. Threshold for significance is 0.05.|Regression, Logistic|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Odds Ratio calculated for Integrated Sequenced Care Pathway relative to Coordinated Care Management Pathway.|||4.61|-4.62|0.992
92376659|NCT04411420|184656383|SUPERIORITY||Median Difference (Final Values)|-2.67||||0.262|TWO_SIDED|95.0|-7.52|2.18||P-value is not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|||2.18|-7.52|0.262
92376660|NCT04411420|184656384|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.37|TWO_SIDED|97.5|-1.31|0.5||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.50|-1.31|0.37
92376661|NCT04411420|184656384|SUPERIORITY||Mean Difference (Final Values)|-0.57||||0.24|TWO_SIDED|97.5|-1.54|0.39||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.39|-1.54|0.24
92376662|NCT04411420|184656384|SUPERIORITY||Mean Difference (Final Values)|-0.45||||0.37|TWO_SIDED|97.5|-1.43|0.54|||Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.54|-1.43|0.37
92376663|NCT04411420|184656385|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.727|TWO_SIDED|97.5|-0.51|0.72||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.72|-0.51|0.727
92376664|NCT04411420|184656385|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.478|TWO_SIDED|97.5|-0.43|0.91||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.91|-0.43|0.478
92410979|NCT01221285|184712407|SUPERIORITY_OR_OTHER||Fold change|1.8||||0.02|TWO_SIDED|95.0|1.1|2.8|||Fold change||Numerator is geometric mean post-baseline IgE. Denominator is baseline IgE.|||2.8|1.1|0.02
92410980|NCT01221285|184712408|SUPERIORITY_OR_OTHER||Fold change|2.5|||<|0.0001|TWO_SIDED|95.0|1.8|3.4|||Fold change||Numerator is geometric mean post-baseline IgG. Denominator is baseline IgG.|||3.4|1.8|<0.0001
92410981|NCT01221285|184712409|SUPERIORITY_OR_OTHER||Fold change|12.9|||<|0.0001|TWO_SIDED|95.0|7.5|22.5|||Fold Change||Numerator is geometric mean post-baseline IgG4. Denominator is baseline IgG4.|||22.5|7.5|<0.0001
92410982|NCT01221285|184712410|SUPERIORITY_OR_OTHER||Change|-42.8|||<|0.0001|TWO_SIDED|95.0|-59.4|-26.2|||Change||Numerator is geometric mean post-baseline FAB. Denominator is baseline FAB.|||-26.2|-59.4|<0.0001
92239647|NCT00637273|184383084|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|1.26||0.0055|TWO_SIDED|95.0|1.3|6.3||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in systolic blood pressure from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of systolic blood pressure as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||6.3|1.3|0.0055
92410983|NCT02123251|184712411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.2139||0.0553|TWO_SIDED|95.0|-0.0092|0.8293|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, race, gender, and baseline hypertension.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||0.8293|-0.0092|0.0553
92446294|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.088||0.361|TWO_SIDED|95.0|-0.09|0.26|||MMRM|||Loss of Weight, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.09|0.3610
92446295|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.1||0.2358|TWO_SIDED|95.0|-0.08|0.32|||MMRM|||Loss of Weight, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.08|0.2358
92376665|NCT04411420|184656385|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.894|TWO_SIDED|97.5|-0.75|0.66||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.66|-0.75|0.894
92230070|NCT01795547|184363411|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the primary endpoint was considered confirmed if the lower bound of the 2-sided 95% CI at Week 28 was \> -5 or equivalently if the p-value for the 1-sided test of H0: D ≤ -5 against H1: D \> -5 was ≤2.5%, where D was the mean treatment difference (aripiprazole minus paliperidone). Superiority was then tested as pre-specified with the FAS and demonstrated for aripiprazole over paliperidone, since the lower bound of the 95% CI was \>0.|Least Squares Mean Difference|4.666||||0.036|TWO_SIDED|95.0|0.316|9.015|||Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||Comparison of aripiprazole versus paliperidone was made using estimates from a mixed model for repeated measurements (MMRM) using an unstructured covariance matrix.||9.015|0.316|0.036
92230071|NCT01795547|184363412|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.492||||0.043|TWO_SIDED|95.0|-2.935|-0.049||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||-0.049|-2.935|0.043
92230072|NCT01795547|184363413|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.283||||0.004|TWO_SIDED|95.0|-0.477|-0.09||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||-0.090|-0.477|0.004
92230073|NCT01795547|184363414|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.331||||0.149|TWO_SIDED|95.0|-0.12|0.782||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||0.782|-0.120|0.149
92230074|NCT01795547|184363415|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.753||||0.039|TWO_SIDED|95.0|0.093|3.412||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||3.412|0.093|0.039
92230075|NCT01795547|184363416|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.764||||0.07|TWO_SIDED|95.0|-0.143|3.672||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||3.672|-0.143|0.070
92230076|NCT01795547|184363417|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.922||||0.13|TWO_SIDED|95.0|-0.275|2.119||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||2.119|-0.275|0.130
92230077|NCT01795547|184363418|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.007||||0.561|TWO_SIDED|95.0|-2.402|4.417||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||4.417|-2.402|0.561
92278036|NCT00782509|184458133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.157||0.0077|TWO_SIDED|95.0|-0.729|-0.111|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.111|-0.729|0.0077
92278037|NCT00782509|184458133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|0.155|<|0.0001||95.0|-1.065|-0.456|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.456|-1.065|<0.0001
92376666|NCT04411420|184656386|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.222|TWO_SIDED|95.0|-0.15|0.04||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.04|-0.15|0.222
92230078|NCT01795547|184363419|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.695||||0.095|TWO_SIDED|95.0|-1.511|0.121||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||0.121|-1.511|0.095
92230079|NCT00642642|184363421|SUPERIORITY_OR_OTHER|||||||0.0109||95.0||||a priori threshold for statistical significance was 0.05|McNemar|Paired test of proportions||"Null hypothesis: no difference in the response rates between the two treatment arms.~Statistical test: McNemar's paired test of proportions Significance level: two sided alpha of 0.05 for each of the two co-primary endpoints.~Assumptions for power calculations:~Response rate for azficel-T treated cheek = 40% Response rate for placebo treated cheek = 20% 10% dropout rate; dropouts counted as failures. Low correlation between cheeks \& 50% correlation between endpoints"||||0.0109
92230080|NCT00642642|184363422|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||a priori threshold for statistical significance = 0.05|McNemar|paired test of proportions||"Null hypothesis: no difference in the response rates between the two treatment arms.~Statistical test: McNemar's paired test of proportions Significance level: two sided alpha of 0.05 for each of the two co-primary endpoints.~Assumptions for power calculations:~Response rate for azficel-T treated cheek = 40% Response rate for placebo treated cheek = 20% 10% dropout rate; dropouts counted as failures. Low correlation between cheeks \& 50% correlation between endpoints"||||<0.0001
92230081|NCT02116621|184363425|SUPERIORITY||Adjusted difference in differences|-1.36|||||TWO_SIDED|95.0|-2.91|0.19|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|||0.19|-2.91|
92278038|NCT00782509|184458134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.837|STANDARD_ERROR_OF_MEAN|0.252||0.001|TWO_SIDED|95.0|-1.333|-0.342|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.342|-1.333|0.0010
92230082|NCT02116621|184363426|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: -0.79 (-2.37 to 0.80); baseline to 26 weeks: -1.36 (-2.91 to 0.19); baseline to 52 weeks: 0.16 (-1.47 to 1.79)|||0.21
92376667|NCT04411420|184656386|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.988|TWO_SIDED|95.0|-0.1|0.09||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.09|-0.10|0.988
92410984|NCT02123251|184712412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2916|STANDARD_ERROR_OF_MEAN|1.9571||0.2416|TWO_SIDED|95.0|-6.1274|1.5442|||Generalized Estimating Equation Model||The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||1.5442|-6.1274|0.2416
92410985|NCT02123251|184712413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0893|STANDARD_ERROR_OF_MEAN|1.2622||0.3881|TWO_SIDED|95.0|-3.5632|1.3846|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, gender, race, and hypertension at baseline.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||1.3846|-3.5632|0.3881
92230083|NCT02116621|184363427|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 0.31 (-1.18 to 1.81); baseline to 26 weeks: -1.41 (-2.87 to 0.06); baseline to 52 weeks: -1.24 (-2.77 to 0.30)|||0.06
92230084|NCT02116621|184363428|SUPERIORITY|||||||0.35|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks:-0.66 (-2.55 to 1.24); baseline to 26 weeks: 0.93 (-0.92 to 2.79); baseline to 52 weeks: 0.76 (-1.19 to 2.70)|||0.35
92230085|NCT02116621|184363429|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 0.30 (-1.01 to 1.61); baseline to 26 weeks: -0.17 (-1.45 to 1.12); baseline to 52 weeks: -0.26 (-1.61 to 1.09)|||0.86
92230086|NCT02116621|184363430|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 1.05 (-2.54 to 4.64); baseline to 26 weeks: 1.90 (-1.66 to 5.47); baseline to 52 weeks: 0.08 (-3.61 to 3.77).|||0.70
92230087|NCT02116621|184363431|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 4.24 (-2.73 to 11.20); baseline to 26 weeks: 4.64 (-2.25 to 11.54); baseline to 52 weeks: -1.91 (-9.07 to 5.26).|||0.20
92230088|NCT02116621|184363432|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 1.76 (-2.37 to 5.89); baseline to 26 weeks: 2.55 (-1.50 to 6.60); baseline to 52 weeks: 1.53 (-2.70 to 5.77).|||0.66
92410986|NCT02123251|184712414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3432|STANDARD_ERROR_OF_MEAN|7.7086||0.8617|TWO_SIDED|95.0|-16.4517|13.7653|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, gender, race, and hypertension at baseline.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||13.7653|-16.4517|0.8617
92230089|NCT02116621|184363433|SUPERIORITY|||||||0.44|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 7.77 (-2.87 to 18.42); baseline to 26 weeks: 7.29 (-3.16 to 17.75); baseline to 52 weeks: 4.13 (-6.81 to 15.07).|||0.44
92230090|NCT02116621|184363434|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 2.15 (-2.84 to 7.13); baseline to 26 weeks: 3.31 (-1.57 to 8.19); baseline to 52 weeks: 1.00 (-4.11 to 6.11).|||0.58
92230091|NCT02116621|184363435|SUPERIORITY|||||||0.73|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 1.81 (-4.41 to 8.02); baseline to 26 weeks: -1.57 (-7.68 to 4.54); baseline to 52 weeks: 1.11 (-5.27 to 7.48).|||0.73
92230092|NCT02116621|184363436|SUPERIORITY||Adjusted difference in differences|-1.41|||||TWO_SIDED|95.0|-2.87|0.06|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|||0.06|-2.87|
92230093|NCT02116621|184363437|SUPERIORITY||Adjusted difference in differences|0.93|||||TWO_SIDED|95.0|-0.92|2.79|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|2.79|-0.92|
92230094|NCT02116621|184363438|SUPERIORITY||Adjusted difference in differences|-0.17|||||TWO_SIDED|95.0|-1.45|1.12|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|1.12|-1.45|
92230095|NCT02116621|184363439|SUPERIORITY||Adjusted difference in differences|1.9|||||TWO_SIDED|95.0|-1.66|5.47|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|5.47|-1.66|
92230096|NCT02116621|184363440|SUPERIORITY||Adjusted difference in differences|4.64|||||TWO_SIDED|95.0|-2.25|11.54|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|11.54|-2.25|
92230097|NCT02116621|184363441|SUPERIORITY||Adjusted difference in differences|2.55|||||TWO_SIDED|95.0|-1.5|6.6|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|6.60|-1.50|
92230098|NCT02116621|184363442|SUPERIORITY||Adjusted difference in differences|7.29|||||TWO_SIDED|95.0|-3.16|17.75|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|17.75|-3.16|
92230099|NCT02116621|184363443|SUPERIORITY||Adjusted difference in differences|3.31|||||TWO_SIDED|95.0|-1.57|8.19|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|8.19|-1.57|
92230100|NCT02116621|184363444|SUPERIORITY||Adjusted difference in differences|-1.57|||||TWO_SIDED|95.0|-7.68|4.54|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|4.54|-7.68|
92376668|NCT04411420|184656386|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.269|TWO_SIDED|95.0|-0.16|0.05||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.05|-0.16|0.269
92376669|NCT04411420|184656387|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.477|TWO_SIDED|95.0|-0.22|0.1||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.10|-0.22|0.477
92376670|NCT04411420|184656387|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.877|TWO_SIDED|95.0|-0.19|0.17||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.17|-0.19|0.877
92376671|NCT04411420|184656387|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.36|TWO_SIDED|95.0|-0.29|0.11|||Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.11|-0.29|0.360
92376672|NCT04411420|184656388|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.858|TWO_SIDED|95.0|-0.23|0.28||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.28|-0.23|0.858
92376673|NCT04411420|184656388|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.688|TWO_SIDED|95.0|-0.32|0.21||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.21|-0.32|0.688
92376674|NCT04411420|184656388|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.833|TWO_SIDED|95.0|-0.32|0.26||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.26|-0.32|0.833
92230101|NCT02116621|184363445|SUPERIORITY||Mean Difference (Final Values)|11.9||||0.01|TWO_SIDED|95.0|2.59|21.24|||Regression, Linear|||||21.24|2.59|0.01
92230102|NCT02116621|184363446|SUPERIORITY||Adjusted difference in differences|-0.79|||||TWO_SIDED|95.0|-2.37|0.8|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||0.80|-2.37|
92230103|NCT02116621|184363447|SUPERIORITY||Adjusted difference in differences|0.31|||||TWO_SIDED|95.0|-1.18|1.81|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||1.81|-1.18|
92230104|NCT02116621|184363448|SUPERIORITY||Adjusted difference in differences|0.3|||||TWO_SIDED|95.0|-1.01|1.61|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||1.61|-1.01|
92230105|NCT02116621|184363449|SUPERIORITY||Adjusted difference in differences|-0.66|||||TWO_SIDED|95.0|-2.55|1.24|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||1.24|-2.55|
92230106|NCT02116621|184363450|SUPERIORITY||Adjusted difference in differences|1.05|||||TWO_SIDED|95.0|-2.54|4.64|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||4.64|-2.54|
92230107|NCT02116621|184363451|SUPERIORITY||Adjusted difference in differences|4.24|||||TWO_SIDED|95.0|-2.73|11.2|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||11.20|-2.73|
92230108|NCT02116621|184363452|SUPERIORITY||Adjusted difference in differences|1.76|||||TWO_SIDED|95.0|-2.37|5.89|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||5.89|-2.37|
92376675|NCT04411420|184656389|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.259|TWO_SIDED|95.0|-0.18|0.64||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.64|-0.18|0.259
92376676|NCT04411420|184656389|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.068|TWO_SIDED|95.0|-0.03|0.81||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.81|-0.03|0.068
92410987|NCT02123251|184712415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.787|STANDARD_ERROR_OF_MEAN|28.5519||0.5333|TWO_SIDED|95.0|-73.7478|38.1737|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, gender, race, and hypertension at baseline.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||38.1737|-73.7478|0.5333
92410988|NCT02123251|184712416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9097|STANDARD_ERROR_OF_MEAN|5.2351||0.862|TWO_SIDED|95.0|-9.3509|11.1702|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, gender, race, and hypertension at baseline.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||11.1702|-9.3509|0.8620
92410989|NCT02123251|184712417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7177|STANDARD_ERROR_OF_MEAN|1.0433||0.4915|TWO_SIDED|95.0|-1.3272|2.7626|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, gender, race, and hypertension at baseline.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||2.7626|-1.3272|0.4915
92410990|NCT02123251|184712418|SUPERIORITY_OR_OTHER||||||>|0.05|||||||standard diffs-in-diffs model|||A standard diffs-in-diffs model was utilized to estimate the causal effect of the intervention on medical costs per patient/day. The average change in cost over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no difference in the cost per patient per day from baseline to endpoint between groups.||||>0.05
92410991|NCT02123251|184712419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6403|STANDARD_ERROR_OF_MEAN|0.3148||0.042|TWO_SIDED|95.0|0.0233|1.2572|||Generalized Estimating Equation Model||The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|The average change in scores over time for the intervention group was compared to that for the control group. The difference in these average changes is referred to as the difference-in-differences values which was assessed for significance at p = 0.05. Null hypothesis assumed no difference in the General Diet subscale from baseline to endpoint between groups. Generalized estimating equation modeling was used to examine changes in SDSCA between groups at different time points.||1.2572|0.0233|0.0420
92410992|NCT02123251|184712420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1188|STANDARD_ERROR_OF_MEAN|1.031||0.0399|TWO_SIDED|95.0|0.0981|4.1395|||Generalized Estimating Equation Model|The effect of age and gender is adjusted in the GEE model.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|The average change in scores over time for the intervention group was compared to that of the control group. The difference in the average changes is referred to as the difference-in-differences values which was assessed for significance at p=0.05. Null assumed no group difference in the Physical Component Summary measure of SF-36v2 from baseline to midpoint. Generalized estimating equation (GEE) modeling was used to examine changes in health measures between groups at different time points.||4.1395|0.0981|.0399
92230109|NCT02116621|184363453|SUPERIORITY||Adjusted difference in differences|7.77|||||TWO_SIDED|95.0|-2.87|18.42|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||18.42|-2.87|
92376677|NCT04411420|184656389|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.514|TWO_SIDED|95.0|-0.29|0.57||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.57|-0.29|0.514
92376678|NCT04411420|184656390|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.895|TWO_SIDED|95.0|-0.22|0.2||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.20|-0.22|0.895
92376679|NCT04411420|184656390|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.438|TWO_SIDED|95.0|-0.13|0.3||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.30|-0.13|0.438
92376680|NCT04411420|184656390|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.89|TWO_SIDED|95.0|-0.24|0.21||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.21|-0.24|0.890
92376681|NCT04411420|184656391|SUPERIORITY||Median Difference (Final Values)|-0.01||||0.508|TWO_SIDED|95.0|-0.04|0.02||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.02|-0.04|0.508
92376682|NCT04411420|184656391|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.992|TWO_SIDED|95.0|-0.03|0.03||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.03|-0.03|0.992
92376683|NCT04411420|184656391|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.389|TWO_SIDED|95.0|-0.05|0.02||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.02|-0.05|0.389
92376684|NCT01344538|184656411|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92376685|NCT00929773|184656438|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92376686|NCT00929773|184656439|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<.0001
92376687|NCT00929773|184656440|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92376688|NCT00929773|184656441|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92376689|NCT00929773|184656442|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92376690|NCT00929773|184656443|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92376691|NCT00328653|184656455|SUPERIORITY|Comparisons of NOVA22007 0.05% to vehicle|M-H Chi-square|1.2187||||0.2699|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.2699
92376692|NCT00328653|184656455|SUPERIORITY|Comparisons of NOVA22007 0.1% to vehicle|M-H Chi-square|1.2359||||0.2719|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.2719
92376693|NCT00328653|184656458|SUPERIORITY|Comparisons of NOVA22007 0.05% to vehicle|M-H-Chi-square|4.2925||||0.0386|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0386
92376694|NCT00328653|184656458|SUPERIORITY|Comparisons of NOVA22007 0.1% to vehicle|M-H-Chi-square|5.3007||||0.0208|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0208
92376695|NCT03315104|184656481|SUPERIORITY|A median estimated value of 0.000 indicates no difference between groups.|Median Difference (Net)|0.0||||0.174|TWO_SIDED|95.0|0.0|1.0||No adjustment for multiple comparisons, two-sided significance level of 0.05|Wilcoxon (Mann-Whitney)|Exact test|FLU-IGIV High Dose (450 mL) - Placebo|Pairwise Wilcoxon rank-sum test for a location shift||1.000|0.000|0.174
92376696|NCT03315104|184656481|SUPERIORITY|A median estimated value of 0.000 indicates no difference between groups.|Mean Difference (Net)|0.0||||0.572|TWO_SIDED|95.0|0.0|1.0||No adjustment for multiple comparisons, two-sided significance level of 0.05|Wilcoxon (Mann-Whitney)|Exact test||Pairwise Wilcoxon rank-sum test for a location shift||1.000|0.000|0.572
92376697|NCT03315104|184656481|SUPERIORITY|A median estimated value of 0.000 indicates no difference between groups.|Median Difference (Net)|0.0||||0.534|TWO_SIDED|95.0|0.0|1.0||No adjustment for multiple comparisons. two-sided significance level of 0.05|Wilcoxon (Mann-Whitney)|Exact test||Pairwise Wilcoxon rank-sum test for a location shift||1.000|0.000|0.534
92376698|NCT03315104|184656481|SUPERIORITY|A median estimated value of 0.000 indicates no difference between groups.|Median Difference (Net)|0.0||||0.534|TWO_SIDED|95.0|0.0|1.0||No adjustment for multiple comparisons, two-sided significance level of 0.05|Wilcoxon (Mann-Whitney)|Exact test|FLU-IGIV pooled (450 mL + 250 mL) - Placebo|Pairwise Wilcoxon rank-sum test for a location shift where the two active dose groups were pooled and compared to placebo.||1.000|0.000|0.534
92376699|NCT05074888|184656500|SUPERIORITY|||||||0.0016|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 4 weeks later row.||||0.0016
92376700|NCT05074888|184656501|SUPERIORITY|||||||0.3183|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 4 weeks later row.||||0.3183
92376701|NCT05074888|184656502|SUPERIORITY|||||||0.5805|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 4 weeks later row.||||0.5805
92376702|NCT05074888|184656503|SUPERIORITY|||||||0.2143|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 4 weeks later row.||||0.2143
92376703|NCT05074888|184656504|SUPERIORITY|||||||0.8156|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between value after 4 weeks and after 8 weeks row.||||0.8156
92376704|NCT05074888|184656505|SUPERIORITY|||||||0.1049|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between value after 4 weeks and after 8 weeks row.||||0.1049
92376705|NCT05074888|184656506|SUPERIORITY|||||||0.726|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between value after 4 weeks and after 8 weeks row.||||0.7260
92230110|NCT02116621|184363454|SUPERIORITY||Adjusted difference in differences|2.15|||||TWO_SIDED|95.0|-2.84|7.13|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||7.13|-2.84|
92410993|NCT02248675|184712454|SUPERIORITY_OR_OTHER|||||||0.153|||||||Regression, Linear|multiple regression controlling for baseline values of the dependent variable was used to examine between group effects at post-treatment||||||.153
92410994|NCT02248675|184712455|SUPERIORITY_OR_OTHER|||||||0.627|||||||Regression, Linear|||||||.627
92410995|NCT02248675|184712456|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Linear|multiple regression controlling for baseline values of the dependent variable was used to examine between group effects at post-treatment||||||<.001
92410996|NCT02248675|184712457|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Linear|multiple regression controlling for baseline values of the dependent variable was used to examine between group effects at post-treatment||||||<.001
92410997|NCT00926029|184712473|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92230111|NCT02116621|184363455|SUPERIORITY||Adjusted difference in differences|1.81|||||TWO_SIDED|95.0|-4.41|8.02|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||8.02|-4.41|
92410998|NCT00926029|184712474|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92410999|NCT02250703|184712475|SUPERIORITY_OR_OTHER|||||||0.025||||||Difference in proportions in satisfactory sedation on separation from parents and on induction between M and D groups (Primary Outcome variables)|Chi-squared|||A sample size of at least 33 patients in each group would detect at least 30% difference in proportion of children who achieve satisfactory sedation between the M and D groups at 0.05 level of significance and 80% power||||0.025
92411000|NCT02250703|184712476|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92411001|NCT02250703|184712477|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92411002|NCT02250703|184712478|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92411003|NCT01776307|184712500|OTHER|Descriptive analysis for investigational arms; no comparator analysis|||||||||||||||||The exact 95% confidence interval is based on the Clopper-Pearson method.|||
92411004|NCT01776307|184712501|OTHER|Estimates provided for investigational arms; no comparator analysis|||||||||||||||||Estimated from Kaplan Meier Curve|||
92411005|NCT01776307|184712502|OTHER|Estimates provided for investigational arms; no comparator analysis|||||||||||||||||Estimated from Kaplan Meier Curve|||
92411006|NCT00567255|184712515|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.56|||<|0.001||95.0|-5.19|-3.93|||ANCOVA|||||-3.93|-5.19|<0.001
92411007|NCT00567255|184712516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.16|||<|0.001|TWO_SIDED|95.0|-5.95|-4.38|||ANCOVA|||||-4.38|-5.95|<0.001
92411008|NCT00567255|184712517|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.61|||<|0.001||95.0|4.95|8.84|||Regression, Logistic|||||8.84|4.95|<0.001
92411009|NCT00567255|184712518|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.5|||<|0.001|TWO_SIDED|95.0|4.05|7.47|||Regression, Logistic|||||7.47|4.05|<0.001
92411010|NCT00567255|184712519|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.36|||<|0.001|TWO_SIDED|95.0|3.6|7.98|||Regression, Logistic|||||7.98|3.60|<0.001
92411011|NCT00567255|184712520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.43|||<|0.001|TWO_SIDED|95.0|-4.33|-2.53|||ANCOVA|||||-2.53|-4.33|<0.001
92411012|NCT00567255|184712521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.59|||<|0.001|TWO_SIDED|95.0|1.61|3.57|||ANCOVA|||||3.57|1.61|<0.001
92411013|NCT00567255|184712522|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.96||||0.007|TWO_SIDED||||||ANCOVA|||||||0.007
92411014|NCT00567255|184712523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.77|||<|0.001|TWO_SIDED|95.0|2.46|5.09|||ANCOVA|||||5.09|2.46|<0.001
92411015|NCT00567255|184712524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.24||||0.091|TWO_SIDED||||||ANCOVA|||||||0.091
92411016|NCT00567255|184712525|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.64|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
92230112|NCT02116621|184363456|SUPERIORITY||Adjusted difference in differences|0.16|||||TWO_SIDED|95.0|-1.47|1.79|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||1.79|-1.47|
92230113|NCT02116621|184363457|SUPERIORITY||Adjusted difference in differences|-1.24|||||TWO_SIDED|95.0|-2.77|0.3|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||0.30|-2.77|
92376706|NCT05074888|184656507|SUPERIORITY|||||||0.6808|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between value after 4 weeks and after 8 weeks row.||||0.6808
92376707|NCT05074888|184656508|SUPERIORITY|||||||0.54||||||"The p-value associated with treatment\*visit interaction of pulse rate (heart rate) from Visit 1 to 3 between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.54
92376708|NCT05074888|184656509|SUPERIORITY|||||||0.49||||||"The p-value associated with treatment\*visit interaction of respiration rate (breathing rate) from Visit 1 to 3 between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.49
92411017|NCT00567255|184712526|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-1.6|0.85||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.85|-1.60|
92376709|NCT05074888|184656510|SUPERIORITY|||||||0.87||||||"The p-value associated with treatment\*visit interaction of systolic blood pressure from Visit 1 to 3 between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to SBP/Visit1, SBP/Visit2 and SBP/Visit3 rows.||||0.87
92376710|NCT05074888|184656510|SUPERIORITY|||||||0.22||||||"The p-value associated with treatment\*visit interaction of diastolic blood pressure from Visit 1 to 3 between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to DBP/Visit1, DBP/Visit2 and DBP/Visit3 rows.||||0.22
92376711|NCT05074888|184656511|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92376712|NCT05074888|184656512|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92376713|NCT05074888|184656513|SUPERIORITY|||||||0.17|||||||Fisher Exact|||||||0.17
92376714|NCT05074888|184656514|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
92411018|NCT00567255|184712527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.29|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
92230114|NCT02116621|184363458|SUPERIORITY||Adjusted difference in differences|-0.26|||||TWO_SIDED|95.0|-1.61|1.09|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||1.09|-1.61|
92376715|NCT00759356|184656521|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|Mean ratio|109.8||||||90.0|95.3|126.5|||ANOVA|||||126.5|95.3|
92376716|NCT00759356|184656523|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|101.5||||||90.0|95.6|107.9|||ANOVA|||||107.9|95.6|
92376717|NCT00759356|184656524|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|101.7||||||90.0|95.9|107.9|||ANOVA|log-transformation||||107.9|95.9|
92376718|NCT03554772|184656565|SUPERIORITY||||||<|0.0001||||||p-value for each dose group vs placebo comparison|ANCOVA|ANCOVA model included treatment as main effect , baseline NPRS and basline BMI as covariates P-value is Dunnett adjusted (individual treatment arms)||||||<0.0001
92376719|NCT04600505|184656571|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|111.7|||||TWO_SIDED|90.0|91.01|137.1||||||Statistical Comparison of Budesonide PK Parameters for Treatment A (test) versus Treatment C (reference)||137.1|91.01|
92376720|NCT04600505|184656571|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|98.78|||||TWO_SIDED|90.0|78.67|124.0||||||Statistical Comparison of Budesonide PK Parameters for Treatment B (test) versus Treatment C (reference)||124.0|78.67|
92411019|NCT00567255|184712528|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.23|||||TWO_SIDED|95.0|-9.92|-4.54||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-4.54|-9.92|
92230115|NCT02116621|184363459|SUPERIORITY||Adjusted difference in differences|0.76|||||TWO_SIDED|95.0|-1.19|2.7|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||2.70|-1.19|
92376721|NCT04600505|184656571|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|108.3|||||TWO_SIDED|90.0|85.5|137.3||||||Statistical Comparison of Glycopyrronium PK Parameters for Treatment A (test) versus Treatment C (reference)||137.3|85.50|
92376722|NCT04600505|184656571|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|94.88|||||TWO_SIDED|90.0|74.69|120.5||||||Statistical Comparison of Glycopyrronium PK Parameters for Treatment B (test) versus Treatment C (reference)||120.5|74.69|
92376723|NCT04600505|184656571|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|109.1|||||TWO_SIDED|90.0|97.02|122.7||||||Statistical Comparison of Formoterol PK Parameters for Treatment A (test) versus Treatment C (reference)||122.7|97.02|
92376724|NCT04600505|184656571|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|100.1||||||90.0|83.78|119.5||||||Statistical Comparison of Formoterol PK Parameters for Treatment B (test) versus Treatment C (reference)||119.5|83.78|
92376725|NCT04600505|184656572|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|104.7|||||TWO_SIDED|90.0|91.95|119.2||||||Statistical Comparison of Budesonide PK Parameters for Treatment A (test) versus Treatment C (reference)||119.2|91.95|
92376726|NCT04600505|184656572|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|98.03|||||TWO_SIDED|90.0|83.33|115.3||||||Statistical Comparison of Budesonide PK Parameters for Treatment B (test) versus Treatment C (reference)||115.3|83.33|
92376727|NCT04600505|184656572|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|96.0||||||90.0|70.33|131.0||||||Statistical Comparison of Formoterol PK Parameters for Treatment A (test) versus Treatment C (reference)||131.0|70.33|
92376728|NCT04600505|184656572|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|116.7||||||90.0|86.31|157.8||||||Statistical Comparison of Formoterol PK Parameters for Treatment B (test) versus Treatment C (reference)||157.8|86.31|
92376729|NCT04600505|184656573|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|107.3|||||TWO_SIDED|90.0|94.53|121.9||||||Statistical Comparison of Budesonide PK Parameters for Treatment A (test) versus Treatment C (reference)||121.9|94.53|
92411020|NCT00567255|184712529|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.36|||||TWO_SIDED|95.0|-7.29|-1.44||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-1.44|-7.29|
92411021|NCT00567255|184712530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-0.7|1.3||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.30|-0.70|
92376730|NCT04600505|184656573|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|98.8|||||TWO_SIDED|90.0|84.59|115.4||||||Statistical Comparison of Budesonide PK Parameters for Treatment B (test) versus Treatment C (reference)||115.4|84.59|
92376731|NCT04600505|184656573|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|106.1|||||TWO_SIDED|90.0|86.18|130.6||||||Statistical Comparison of Glycopyrronium PK Parameters for Treatment A (test) versus Treatment C (reference)||130.6|86.18|
92230116|NCT02116621|184363460|SUPERIORITY||Adjusted difference in differences|0.08|||||TWO_SIDED|95.0|-3.61|3.77|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||3.77|-3.61|
92376732|NCT04600505|184656573|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|99.71|||||TWO_SIDED|90.0|80.84|123.0||||||Statistical Comparison of Glycopyrronium PK Parameters for Treatment B (test) versus Treatment C (reference)||123.0|80.84|
92376733|NCT04600505|184656573|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|98.13|||||TWO_SIDED|90.0|86.44|111.4||||||Statistical Comparison of Formoterol PK Parameters for Treatment A (test) versus Treatment C (reference)||111.4|86.44|
92411022|NCT00567255|184712531|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.87|||||TWO_SIDED|95.0|0.16|1.58||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.58|0.16|
92411023|NCT00567255|184712532|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|||||TWO_SIDED|95.0|-0.49|0.6||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.60|-0.49|
92411024|NCT00567255|184712533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.56|0.52||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.52|-0.56|
92411025|NCT00567255|184712534|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48|||||TWO_SIDED|95.0|-0.98|0.02||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.02|-0.98|
92411026|NCT02657408|184712537|EQUIVALENCE|confirmatory statistical hypothesis tested|Geometric mean ratio (%)|1.27||||0.3043|TWO_SIDED|90.0|0.86|1.87|||ANOVA|||The statistical model used for the primary analysis of primary endpoints was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.87|0.86|0.3043
92230117|NCT02116621|184363461|SUPERIORITY||Adjusted difference in differences|-1.91|||||TWO_SIDED|95.0|-9.07|5.26|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||5.26|-9.07|
92411027|NCT02657408|184712538|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.01|||||TWO_SIDED|90.0|0.88|1.16||||||The statistical model used for the analysis was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.16|0.88|
92230118|NCT02116621|184363462|SUPERIORITY||Adjusted difference in differences|1.53|||||TWO_SIDED|95.0|-2.7|5.77|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||5.77|-2.70|
92230119|NCT02116621|184363463|SUPERIORITY||Adjusted difference in differences|4.13|||||TWO_SIDED|95.0|-6.81|15.07|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||15.07|-6.81|
92230120|NCT02116621|184363464|SUPERIORITY||Adjusted difference in differences|1.0|||||TWO_SIDED|95.0|-4.11|6.11|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||6.11|-4.11|
92230121|NCT02116621|184363465|SUPERIORITY||Adjusted difference in differences|1.11|||||TWO_SIDED|95.0|-5.27|7.48|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||7.48|-5.27|
92376734|NCT04600505|184656573|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|107.0|||||TWO_SIDED|90.0|88.82|128.9||||||Statistical Comparison of Formoterol PK Parameters for Treatment B (test) versus Treatment C (reference)||128.9|88.82|
92376735|NCT00241631|184656579|SUPERIORITY|||||||0.012|||||||Mixed Models Analysis|||||||0.012
92376736|NCT00241631|184656580|SUPERIORITY||||||<|0.05||||||calculated|Mixed Models Analysis|||||||<0.05
92376737|NCT00241631|184656581|SUPERIORITY||||||<|0.05||||||calculated|Mixed Models Analysis|||||||<0.05
92411028|NCT02657408|184712539|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.54|||||TWO_SIDED|90.0|0.59|4.03||||||The statistical model used for the primary analysis of primary endpoints was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||4.03|0.59|
92411029|NCT02657408|184712540|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.17|||||TWO_SIDED|90.0|0.49|2.85||||||The statistical model used for the analysis was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||2.85|0.49|
92411030|NCT02657408|184712541|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.29|||||TWO_SIDED|90.0|0.91|1.83||||||The statistical model used for the primary analysis of primary endpoints was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.83|0.91|
92411031|NCT02657408|184712542|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.03|||||TWO_SIDED|90.0|0.9|1.18||||||The statistical model used for the analysis was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.18|0.90|
92411032|NCT02657408|184712543|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.18|||||TWO_SIDED|90.0|0.91|1.53||||||The statistical model used for the primary analysis of primary endpoints was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.53|0.91|
92411033|NCT02657408|184712544|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|0.94|||||TWO_SIDED|90.0|0.8|1.09||||||The statistical model used for the analysis was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.09|0.80|
92230122|NCT02116621|184363466|SUPERIORITY||Mean Difference (Final Values)|9.41||||0.054|TWO_SIDED|95.0|-0.15|18.96|||Regression, Linear|||||18.96|-0.15|0.054
92376738|NCT00435162|184656584|SUPERIORITY_OR_OTHER||Slope|-1.05||||0.099|TWO_SIDED|95.0|-2.31|0.2|||Regression, Linear|||Slope change across all 3 active treatment groups.||0.20|-2.31|0.0990
92376739|NCT02042534|184656600|SUPERIORITY_OR_OTHER|||||||0.6765|||||||Chi-squared|||||||0.6765
92376740|NCT02042534|184656601|SUPERIORITY_OR_OTHER|||||||0.3753|||||||Chi-squared|||||||0.3753
92411034|NCT02657408|184712545|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|0.81|||||TWO_SIDED|90.0|0.51|1.28||||||The statistical model used for the primary analysis of primary endpoints was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.28|0.51|
92376741|NCT02042534|184656602|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test||||||<.0001
92376742|NCT02042534|184656603|SUPERIORITY_OR_OTHER|||||||0.3301|||||||Cochran-Mantel-Haenszel|||||||0.3301
92376743|NCT02133664|184656637|SUPERIORITY||Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|1.57||0.05|TWO_SIDED|95.0|-2.03|4.32|||t-test, 2 sided|||With the initial sample size plan of 53 subjects, we expect an 80% power to detect a significant difference in PASAT score with a mean difference of 8.3 points between the treatment and placebo group.||4.32|-2.03|0.05
92376744|NCT03906656|184656641|SUPERIORITY||Mean Difference (Final Values)|3.5|STANDARD_DEVIATION|8.1||0.0002|TWO_SIDED|||||Adjusted p-values based on Holm-Bonferroni method. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided||Mean difference is for paired data (n=73). This explains the discrepancy between the mean difference and the difference between the KAFO and C-Brace means (n=86 and n=77, respectively).|H0: the mean difference (C-Brace - KAFO) \<= 0.||||0.0002
92376745|NCT03906656|184656641|SUPERIORITY||Mean Difference (Final Values)|6.8|STANDARD_DEVIATION|9.7|<|1e-05|TWO_SIDED|||||Adjusted p-values based on Holm-Bonferroni method. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided||Mean difference is for paired data (n=77). This explains the discrepancy between the mean difference and the difference between the KAFO and C-Brace means (n=86 and n=77, respectively).|H0: the mean difference (C-Brace - Baseline) \<= 0.||||<0.00001
92376746|NCT03906656|184656641|SUPERIORITY||Mean Difference (Final Values)|3.3|STANDARD_DEVIATION|6.3|<|1e-05|TWO_SIDED||||||t-test, 2 sided||Mean difference is for paired data (n=86). This explains the discrepancy between the mean difference and the difference between the Baseline and KAFO means (n=102 and n=86, respectively).|KAFO vs. Baseline -- H0: the mean difference (KAFO - Baseline) \<= 0.||||<0.00001
92376747|NCT03906656|184656642|SUPERIORITY||Mean Difference (Final Values)|7.05|STANDARD_DEVIATION|26.3||0.005|TWO_SIDED|||||P-value not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|63.6 degrees of freedom.||H0: the mean difference (C-Brace - KAFO) \<= 0||||0.005
92376748|NCT03906656|184656643|SUPERIORITY|P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|3.7||0.005|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|74.4 degrees of freedom||H0: the mean difference (C-Brace - KAFO) \<= 0.||||0.005
92376749|NCT03906656|184656644|SUPERIORITY||Mean Difference (Final Values)|0.185|STANDARD_DEVIATION|53.6||0.583|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||H0: the median of the population differences (C-Brace - KAFO) \<= 0.|Wilcoxon Signed Rank Test. V=1207.5, effect size r = 0.026, p=0.583.|||0.583
92376750|NCT03906656|184656645|SUPERIORITY||Mean Difference (Final Values)|1.28|STANDARD_DEVIATION|4.37||0.0078|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||H0: the median of the population differences (C-Brace - KAFO) \<= 0. (SAI - Down)|Wilcoxon Signed Rank Test V=438, effect size r = 0.21, p=0.008|||0.0078
92230123|NCT00151892|184363467|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A 2-sided 95% confidence interval (CI) for the difference in the percentages of subjects in remission at 6 months of the two treatment groups will be computed. Non-inferiority of SPD476 to Asacol will be concluded if the lower limit of the 95% CI lies above the non-inferiority margin of -10%.|Difference in proportions|0.02||||||95.0|-0.04|0.08||||||The null hypothesis to be tested is that the true difference in proportions is less than or equal to -10%.||0.08|-0.04|
92230124|NCT01272583|184363472|SUPERIORITY_OR_OTHER|||||||1||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||1.0
92230125|NCT01272583|184363473|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||GLP-1 intact|ANOVA|The Friedman Test was used for ANOVA||||||<0.001
92376751|NCT03906656|184656646|SUPERIORITY||Mean Difference (Final Values)|-3.41|STANDARD_DEVIATION|17.0||0.002|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test||||Wilcoxon Signed Rank Test V=267, effect size r = 0.32, p=0.002|||0.0020
92376752|NCT03906656|184656647|SUPERIORITY||Mean Difference (Final Values)|-1.11|STANDARD_DEVIATION|3.178||0.0023|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||H0: the median of the population differences (C-Brace - KAFO) \<= 0. (Fear of falling - indoors)|Wilcoxon Signed Rank Test V=433, effect size r = 0.33, p=0.002|||0.0023
92411035|NCT02657408|184712546|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|0.64|||||TWO_SIDED|90.0|0.43|0.97||||||The statistical model used for the analysis was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||0.97|0.43|
92230126|NCT01272583|184363473|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||GLP-1 Total|ANOVA|The Friedman Test was used for ANOVA.||||||0.98
92376753|NCT03906656|184656647|SUPERIORITY||Mean Difference (Final Values)|-0.973|STANDARD_DEVIATION|3.43||0.0066|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test||||Wilcoxon Signed Rank Test V=557.5, effect size r = 0.265, p=0.0066|||0.0066
92230127|NCT01272583|184363473|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||GIP intact|ANOVA|The Friedman Test was used for ANOVA.||||||0.049
92376754|NCT03906656|184656648|SUPERIORITY|||||||0.006||||||P-value not adjusted for multiple comparisons|McNemar|||Paired dataset. H0: The probability of fallers wearing C-Brace becoming non-fallers wearing KAFO is the same as the probability of non-fallers wearing C-Brace becoming fallers wearing KAFO.||||0.006
92376755|NCT03906656|184656649|SUPERIORITY||Mean Difference (Final Values)|2.82|STANDARD_DEVIATION|16.4||0.08|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||H0: the median of the population differences (C-Brace - KAFO) \<= 0.|Wilcoxon Signed Rank Test. V=1325.5, effect size r = 0.181, p=0.08.|||0.08
92376756|NCT03906656|184656650|SUPERIORITY||Mean Difference (Final Values)|0.009|STANDARD_DEVIATION|0.184||0.151|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test||Wilcoxon Signed Rank Test V=1124.5, effect size r = 0.125 p=0.151|H0: the median of the population differences (C-Brace - KAFO) \<= 0||||0.151
92230128|NCT01272583|184363473|SUPERIORITY_OR_OTHER|||||||0.44||95.0||||GIP total|ANOVA|The Friedman Test was used for ANOVA||||||0.44
92230129|NCT01272583|184363474|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||0.14
92230130|NCT01272583|184363475|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||0.98
92230131|NCT01272583|184363476|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||0.22
92376757|NCT03906656|184656651|SUPERIORITY|H0: the mean of the population differences (C-Brace - KAFO) \>= 0|Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|21.5||0.281|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|16.7 degrees of freedom||WLQ-25 - Physical||||0.281
92376758|NCT03906656|184656652|SUPERIORITY||Mean Difference (Final Values)|1.99|STANDARD_DEVIATION|5.18||0.00019|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|48.4 degrees of freedom||OPUS - Low Extremity Functional Status. H0: the mean difference (C-Brace - KAFO) \<= 0||||0.00019
92376759|NCT03906656|184656653|SUPERIORITY||Mean Difference (Final Values)|3.19|STANDARD_DEVIATION|15.0||0.0226|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|22.1 degrees of freedom||Emotional well-being. H0: the mean difference (C-Brace - KAFO) \<= 0.||||0.0226
92230132|NCT01272583|184363477|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||0.01
92230133|NCT01272583|184363477|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Dunn's Multiple Comparison Test|Post Hoc testing||||||<0.05
92230134|NCT01272583|184363478|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||0.76
92230135|NCT04672083|184363517|OTHER||||||<|0.05|||||||ANOVA|||"CPT31 dose proportionality will be examined across dose groups using a power model approach or ANOVA model, as appropriate.PK parameters will be analyzed using a power model that will have the following form: parameter = intercept × dose\^slope + random error.~Using the natural log (ln) transformation, a power model can be expressed as a linear regression equation: ln(parameter) = intercept + slope × ln(dose) + random error. For dose proportionality, the slope = 1; for dose independence, = 0."||||<0.05
92230136|NCT04672083|184363518|OTHER||||||<|0.05|||||||ANOVA|||"CPT31 dose proportionality will be examined across dose groups using a power model approach or ANOVA model, as appropriate.PK parameters will be analyzed using a power model that will have the following form: parameter = intercept × dose\^slope + random error.~Using the natural log (ln) transformation, a power model can be expressed as a linear regression equation: ln(parameter) = intercept + slope × ln(dose) + random error. For dose proportionality, the slope = 1; for dose independence, = 0."||||<0.05
92230137|NCT04672083|184363519|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% confidence interval for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
92230138|NCT04672083|184363520|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% CI for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
92230139|NCT04672083|184363521|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% CI for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
92376760|NCT03906656|184656653|SUPERIORITY||Mean Difference (Final Values)|6.79|STANDARD_DEVIATION|21.1||0.002|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|||Energy/Fatigue. H0: the mean difference (C-Brace - KAFO) \<= 0.||||0.0020
92376761|NCT03906656|184656653|SUPERIORITY||Mean Difference (Final Values)|10.1|STANDARD_DEVIATION|29.528||0.0049|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||Health change. H0: the median of the population differences (C-Brace - KAFO) \<= 0.|Wilcoxon Signed Rank Test. V=649, effect size r = 0.285, p=0.00493|||0.0049
92376762|NCT03906656|184656653|SUPERIORITY||Mean Difference (Final Values)|12.6|STANDARD_DEVIATION|29.2||6.47e-05|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|37.35 degrees of freedom||Physical Functioning Score. H0: the mean difference (C-Brace - KAFO) \<= 0||||0.0000647
92376763|NCT03906656|184656654|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_DEVIATION|0.843||0.301|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||Device. H0: the median of the population differences (C-Brace - KAFO) \<= 0|Wilcoxon Signed Rank Test V=1018.5, effect size r = 0.056, p=0.301|||0.301
92376764|NCT01853072|184656683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|1.5|3.0|||Regression, Logistic||Parameter dispersion is the standard error for the odds ratio.|This endpoint was considered primary for United States (US) registration and secondary for European Union (EU) registration.||3.0|1.5|<0.001
92376765|NCT01853072|184656684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.1|0.3|||Regression, Logistic||Parameter dispersion is the standard error for the odds ratio.|This endpoint was considered primary for EU registration and secondary for US registration.||0.3|0.1|<0.001
92376766|NCT01287221|184656694|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.82
92376767|NCT01287221|184656695|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.62
92376768|NCT01287221|184656696|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.23
92376769|NCT01287221|184656697|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.31
92376770|NCT01287221|184656698|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.65
92376771|NCT01287221|184656699|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.61
92376772|NCT01287221|184656700|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.22
92376773|NCT04883528|184656701|SUPERIORITY|||||||0.29|||||||Mixed Models Analysis|||||||0.29
92376774|NCT04883528|184656702|SUPERIORITY|||||||0.88|||||||Mixed Models Analysis|||||||0.88
92376775|NCT04883528|184656703|SUPERIORITY|||||||0.76|||||||Mixed Models Analysis|||||||0.76
92376776|NCT04883528|184656704|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||||||0.85
92376777|NCT04883528|184656705|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|||||||0.80
92376778|NCT04883528|184656706|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92376779|NCT04883528|184656707|SUPERIORITY|||||||0.23|||||||Mixed Models Analysis|||||||0.23
92376780|NCT04883528|184656708|SUPERIORITY|||||||0.95|||||||Mixed Models Analysis|||||||0.95
92376781|NCT04883528|184656709|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92376782|NCT04883528|184656713|SUPERIORITY||Least squares mean difference|-0.01||||0.64|TWO_SIDED|95.0|-0.07|0.04|||Mixed Models Analysis|||||0.04|-0.07|0.64
92376783|NCT04883528|184656714|SUPERIORITY||Least squares mean difference|-7.55||||0.04|TWO_SIDED|95.0|-14.59|0.52|||Mixed Models Analysis|||||0.52|-14.59|0.04
92376784|NCT03559699|184656717|OTHER|||||||0.0002|TWO_SIDED|95.0||||1-sided P-value|Binomial exact test|||||||0.0002
92376785|NCT02080260|184656731|SUPERIORITY||16-week PFS Rate|0.1||||0.824|TWO_SIDED|95.0|0.012|0.317||This p-value is only based on partial enrollment of the study. The study enrollment was stopped early due to futility.|Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|The null hypothesis assumes a median PFS of 6 weeks, corresponding to a 16-week PFS rate of approximately 0.15. A single-stage design will be used to test that the 16-week PFS rate is less than or equal to 0.15. If at least 8 of the 32 subjects are alive and progression free at 16 weeks, the null hypothesis will be rejected. Assuming a one-sided alpha = 0.10 significance level, this will provide at least 90% power to reject the null hypothesis, assuming the true 16-week PFS rate is 0.35.||0.317|0.012|0.824
92376786|NCT02080260|184656732|OTHER|Estimation only.|Median|6.1|||||TWO_SIDED|95.0|2.9|7.1|||||The Kaplan Meier method was used to estimate the median PFS(in weeks) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||7.1|2.9|
92376787|NCT02080260|184656733|OTHER|Estimation only.|Median|9.4|||||TWO_SIDED|95.0|8.1|17.0|||||The Kaplan Meier method was used to estimate the median OS(in weeks) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||17.0|8.1|
92376788|NCT02080260|184656734|OTHER|Estimation only|Overall Response Rate|0.05|||||TWO_SIDED|95.0|0.001|0.249|||||Confidence interval estimated using the Clopper Pearson method.|||0.249|0.001|
92376789|NCT02080260|184656735|OTHER|Estimation only.|Disease Control Rate|0.3|||||TWO_SIDED|95.0|0.119|0.543|||||Confidence interval estimated using the Clopper Pearson method.|||0.543|0.119|
92376790|NCT02091284|184656757|OTHER||||||<|0.01||||||Two-way ANOVA with repeated measures followed by Bonferroni's multiple comparisons as post-hoc test and linear regression analyses. Additional comparisons between initial and final OCDS scores were done by paired t tests for each group.|ANOVA|||||||< 0.01
92376791|NCT02091284|184656757|OTHER||||||<|0.05|||||||t-test, 2 sided|||Additional comparisons between initial and final OCDS scores were done by paired t tests for each group, and differences between final and initial scores were compared between sham-tDCS and tDCS groups with unpaired t tests.||||<0.05
92376792|NCT02853435|184656764|OTHER||Ratio of geometric LS means|1.0417|||||TWO_SIDED|90.0|0.9809|1.1063|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters AUC(0-inf).|||1.1063|0.9809|
92376793|NCT02853435|184656764|OTHER||Ratio of geometric LS means|1.1108|||||TWO_SIDED|90.0|1.0459|1.1797|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters AUC(0-inf).|||1.1797|1.0459|
92376794|NCT02853435|184656765|OTHER||Ratio of geometric LS means|1.0408|||||TWO_SIDED|90.0|0.9792|1.1062|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters AUC(0-t).|||1.1062|0.9792|
92230140|NCT04672083|184363522|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% CI for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
92376795|NCT02853435|184656765|OTHER||Ratio of geometric LS means|1.1138|||||TWO_SIDED|90.0|1.0479|1.1838|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters AUC(0-t).|||1.1838|1.0479|
92376796|NCT02853435|184656767|OTHER||Ratio of geometric LS means|0.9586|||||TWO_SIDED|90.0|0.844|1.0888|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters Cmax.|||1.0888|0.8440|
92376797|NCT02853435|184656767|OTHER||Ratio of geometric LS means|1.1487|||||TWO_SIDED|90.0|1.0113|1.3047|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters Cmax.|||1.3047|1.0113|
92376798|NCT02853435|184656768|OTHER||Median Difference (Final Values)|-0.233||||0.309|TWO_SIDED|90.0|-0.267|0.0||The p-value is from Wilcoxon signed-rank test.|Wilcoxon signed-rank test.||The median, median difference and 90% CI of the median difference are from Hodge-Lehmann estimate.|||0.000|-0.267|0.309
92376799|NCT02853435|184656768|OTHER||Median Difference (Final Values)|-0.492|||<|0.001|TWO_SIDED|90.0|-0.5|-0.25||The p-value is from Wilcoxon signed-rank test.|Wilcoxon signed-rank test.||The median, median difference and 90% CI of the median difference are from Hodge-Lehmann estimate.|||-0.250|-0.500|<0.001
92411036|NCT02184572|184712554|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The upper limit of the 2-sided standardised asymptotic 95% Confidence Interval (CI) for the group difference (INV\_MMR minus COM\_MMR) in incidence of fever ≥ 39.0°C (≥ 102.2°F) should be equal to or below 5%.|Difference in incidence of fever|1.11|||||TWO_SIDED|95.0|-0.93|2.89||||||Difference between groups (INV\_MMR Group minus COM\_MMR Group) in incidence of fever \> 39.0°C.||2.89|-0.93|
92411037|NCT02184572|184712554|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The upper limit of the 2-sided standardised asymptotic 95% CI for the group difference (INV\_MMR minus COM\_MMR) in incidence of fever ≥ 38.0°C (≥ 100.4°F) should be equal to or below 10%.|Difference in incidence of fever|1.09|||||TWO_SIDED|95.0|-2.89|4.85||||||Difference between groups (INV\_MMR Group minus COM\_MMR Group) in incidence of fever \> 38.0°C.||4.85|-2.89|
92376800|NCT02209948|184656890|OTHER|Log Rank (Mantel-Cox)||||||0.943||||||Threshold P-value of 0.05|Log Rank|||||||0.943
92376801|NCT02209948|184656891|OTHER||Hazard Ratio (HR)|1.3||||0.16|TWO_SIDED|95.0|0.9|1.88||Threshold of significance P-value 0.05|Regression, Cox|||||1.88|0.90|0.16
92376802|NCT02209948|184656892|OTHER||Hazard Ratio (HR)|1.0||||0.99|TWO_SIDED|95.0|0.65|1.5||Threshold for significance P-value 0.05|Regression, Cox|||||1.5|0.65|0.99
92376803|NCT02209948|184656893|OTHER||Hazard Ratio (HR)|1.45||||0.13|TWO_SIDED|95.0|0.89|2.33||threshold for significance 0.05|Regression, Cox|||||2.33|0.89|0.13
92376804|NCT00297102|184656899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|39.0|STANDARD_ERROR_OF_MEAN|11.0||0.0003|TWO_SIDED|95.0|18.0|60.0||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||60|18|0.0003
92376805|NCT00297102|184656900|SUPERIORITY_OR_OTHER||Rate ratio|0.851|STANDARD_ERROR_OF_MEAN|0.062||0.0278|TWO_SIDED|95.0|0.737|0.982||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|Poisson regression|||||0.982|0.737|0.0278
92376806|NCT00297102|184656901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.0|STANDARD_ERROR_OF_MEAN|11.0|<|0.0001|TWO_SIDED|95.0|26.0|71.0||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||71|26|<0.0001
92411038|NCT00763698|184712575|SUPERIORITY_OR_OTHER||Objective Performance Criteria|80.0|||||ONE_SIDED|95.0|5.0||||Kaplan-Meier Survival Analysis|||The objective performance criteria established for freedom from left ventricular lead related complications at 3 months was greater than 80%. At least 80% of the patients were required to be free from left venticular lead related complications at 3 months.|||5|
92411039|NCT00763698|184712576|SUPERIORITY_OR_OTHER||Objective Performance Criteria|80.0|||||ONE_SIDED|97.5|2.5||||Wilson score interval method||||||2.5|
92230141|NCT04672083|184363523|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% CI for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
92230142|NCT04672083|184363524|OTHER||||||<|0.05|||||||Regression, Linear|||Concentrations for all subjects in Cohorts 1-3 were below the limit of quantification.||||<0.05
92230143|NCT04672083|184363525|OTHER||||||<|0.05|||||||Regression, Linear|||Concentrations for all subjects in Cohorts 1-3 were below the limit of quantitation||||<0.05
92230144|NCT04672083|184363526|OTHER||||||<|0.05|||||||Regression, Linear|||Concentrations for all subjects in Cohorts 1-3 were below the limit of quantitation||||<0.05
92230145|NCT04672083|184363527|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% CI for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
92230146|NCT02764541|184363542|EQUIVALENCE|The hypothesis is that there is no difference in anti-proliferative activity of Letrozole vs Tamoxifen by measuring the fold-change in percent Ki67 from baseline to day15 in log scale within hormone receptor positive breast cancer patients with invasive ductal carcinoma||||||0.0045|||||||Wilcoxon (Mann-Whitney)|||||||0.0045
92376807|NCT00297102|184656902|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.035|STANDARD_ERROR_OF_MEAN|0.357||0.9212|TWO_SIDED|95.0|0.526|2.034||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|Cox proportional hazards regression||The statistical analysis is based on the ITT Analysis Set (n= 765 in the roflumilast group, n= 758 in the placebo group).|||2.034|0.526|0.9212
92376808|NCT00297102|184656903|SUPERIORITY_OR_OTHER||Mean Difference calculated as ratio|0.9521||||0.4089|TWO_SIDED|95.0|0.8472|1.0699||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|ANCOVA model including last observation carried forward (LOCF) method||||1.0699|0.8472|0.4089
92376809|NCT00297102|184656904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.233|STANDARD_ERROR_OF_MEAN|0.111||0.0356|TWO_SIDED|95.0|0.016|0.449||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||0.449|0.016|0.0356
92376810|NCT03054350|184657013|SUPERIORITY||Least squares mean difference|1.19|STANDARD_ERROR_OF_MEAN|0.314||0.0004|TWO_SIDED|95.0|0.56|1.82|||ANCOVA|The analysis of covariance (ANCOVA) model includes treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||1.82|0.56|0.0004
92376811|NCT03054350|184657013|SUPERIORITY||Least squares mean difference|1.56|STANDARD_ERROR_OF_MEAN|0.315|<|0.0001|TWO_SIDED|95.0|0.93|2.19|||ANCOVA|The ANCOVA model includes treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||2.19|0.93|<0.0001
92411040|NCT02791763|184712641|NON_INFERIORITY|Non-inferiority was to be established as the lower limit of the 95% confidence interval (CI) for the treatment difference was greater than the pre-specified non-inferiority margin (-1.0 g/dL).|Median Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.07|0.28||The p value on this table is one-sided and calculated for the non-inferiority assessment.|Mixed model repeated measures (MMRM)||Analysis was performed by a MMRM with covariates of treatment, Baseline Hgb, visit, treatment-by-visit interaction and Baseline-by-visit interaction.|||0.28|-0.07|<.0001
92230147|NCT02764541|184363542|EQUIVALENCE|The hypothesis is that there is no difference in anti-proliferative activity of Letrozole vs Tamoxifen by measuring the fold-change in percent Ki67 from baseline to day15 in log scale within hormone receptor positive breast cancer patients with invasive lobular carcinoma||||||0.0161|||||||Wilcoxon (Mann-Whitney)|||||||0.0161
92230148|NCT02764541|184363543|EQUIVALENCE|The hypothesis is that there is no difference of pathologic response measured by RCB index between Arm C and Arm D||||||0.9288|||||||Wilcoxon (Mann-Whitney)|||||||0.9288
92376812|NCT03054350|184657013|SUPERIORITY||Least squares mean difference|1.89|STANDARD_ERROR_OF_MEAN|0.326|<|0.0001|TWO_SIDED|95.0|1.23|2.54|||ANCOVA|The ANCOVA model includes treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||2.54|1.23|<0.0001
92376813|NCT03054350|184657019|SUPERIORITY||Least squares mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.122||0.0232|TWO_SIDED|95.0|0.04|0.54|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups;1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.54|0.04|0.0232
92376814|NCT03054350|184657019|SUPERIORITY||Least squares mean difference|0.38|STANDARD_ERROR_OF_MEAN|0.121||0.0033|TWO_SIDED|95.0|0.13|0.62|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.62|0.13|0.0033
92376815|NCT03054350|184657019|SUPERIORITY||Least squares mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.12||0.0002|TWO_SIDED|95.0|0.26|0.74|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.74|0.26|0.0002
92376816|NCT03054350|184657019|SUPERIORITY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.008||0.3289|TWO_SIDED|94.0|-0.01|0.02|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.02|-0.01|0.3289
92411041|NCT02791763|184712642|SUPERIORITY||Odds Ratio (OR)|1.01||||0.4941|TWO_SIDED|95.0|0.33|3.04||The p value on this table is one-sided and calculated for the superiority assessment.|Regression, Logistic||Analysis was performed by logistic regression with covariates of treatment, Baseline Hgb, and Baseline ESA use.|||3.04|0.33|0.4941
92230149|NCT02764541|184363545|EQUIVALENCE|The hypothesis is that there is no difference of pathologic response measured by RCB index between Arm C and Arm D|Mean Difference (Final Values)|0.02||||0.92|TWO_SIDED|95.0|-0.29|0.32|||Regression, Linear|||||0.32|-0.29|0.920
92230150|NCT02764541|184363546|EQUIVALENCE|The hypothesis is that there is no difference of RCB response rate between Arm C and Arm D||||||0.758|||||||Fisher Exact|||||||0.758
92230151|NCT01813890|184363557|SUPERIORITY_OR_OTHER||Mean Difference (Net)|105.61||||0.006|TWO_SIDED|95.0|32.0|179.2||P-value adjusted for multiple treatment group comparisons using the Hochberg method.|ANCOVA|ANCOVA model with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID48 in tapentadol IR group minus SPID48 in placebo group|Based on participant availability in Taiwan it was expected that 60 subjects (20 per group) would be enrolled. In consultation with the Taiwan health authority, the overall two-sided significance level was set at 0.20 (0.10 for each tapentadol versus placebo comparison). Assuming a standard deviation of 134.4, this sample size would provide 71.5% power to detect a between-group difference in SPID48 of 94.1 and 81.2% power to detect a between-group difference of 107.52.||179.2|32.0|0.006
92230152|NCT01813890|184363557|SUPERIORITY_OR_OTHER||Median Difference (Net)|126.58||||0.004|TWO_SIDED|95.0|49.5|203.7||P-value adjusted for multiple treatment group comparisons using the Hochberg method.|ANCOVA|ANCOVA model with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID48 in tapentadol IR group minus SPID48 in placebo group.|Based on participant availability in Taiwan it was expected that 60 subjects (20 per group) would be enrolled. In consultation with the Taiwan health authority, the overall two-sided significance level was set at 0.20 (0.10 for each tapentadol versus placebo comparison). Assuming a standard deviation of 134.4, this sample size would provide 71.5% power to detect a between-group difference in SPID48 of 94.1 and 81.2% power to detect a between-group difference of 107.52.||203.7|49.5|0.004
92376817|NCT03054350|184657019|SUPERIORITY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.007||0.2607|TWO_SIDED|95.0|-0.01|0.02|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.02|-0.01|0.2607
92376818|NCT03054350|184657019|SUPERIORITY||Least squares mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.007||0.0252|TWO_SIDED|95.0|0.0|0.03|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.03|0.00|0.0252
92376819|NCT03054350|184657021|SUPERIORITY||Least squares mean difference|3.31|STANDARD_ERROR_OF_MEAN|1.303||0.0154|TWO_SIDED|95.0|0.67|5.94|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||5.94|0.67|0.0154
92376820|NCT03054350|184657021|SUPERIORITY||Least squares mean difference|4.61|STANDARD_ERROR_OF_MEAN|1.261||0.0008|TWO_SIDED|95.0|2.06|7.16|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||7.16|2.06|0.0008
92376821|NCT03054350|184657021|SUPERIORITY||Least squares mean difference|5.93|STANDARD_ERROR_OF_MEAN|1.296|<|0.0001|TWO_SIDED|95.0|3.31|8.56|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||8.56|3.31|<0.0001
92376822|NCT03054350|184657021|SUPERIORITY||Least squares mean difference|0.25|STANDARD_ERROR_OF_MEAN|0.273||0.3572|TWO_SIDED|95.0|-0.3|0.81|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.81|-0.30|0.3572
92376823|NCT03054350|184657021|SUPERIORITY||Least squares mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.252||0.4758|TWO_SIDED|95.0|-0.33|0.69|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.69|-0.33|0.4758
92230153|NCT03952559|184363571|SUPERIORITY||Odds Ratio (OR)|1.13||||0.7261|TWO_SIDED|95.0|0.58|2.21|||Regression, Logistic|||||2.21|0.58|0.7261
92230154|NCT03952559|184363571|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0718|TWO_SIDED|95.0|0.95|3.41|||Regression, Logistic|||||3.41|0.95|0.0718
92230155|NCT03952559|184363571|SUPERIORITY||Odds Ratio (OR)|3.73|||<|0.0001|TWO_SIDED|95.0|2.02|6.89|||Regression, Logistic|||||6.89|2.02|<0.0001
92376824|NCT03054350|184657021|SUPERIORITY||Least squares mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.254||0.2048|TWO_SIDED|95.0|-0.19|0.84|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.84|-0.19|0.2048
92376825|NCT03054350|184657023|SUPERIORITY|||||||0.9373|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.9373
92376826|NCT03054350|184657023|SUPERIORITY|||||||0.6623|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.6623
92376827|NCT03054350|184657023|SUPERIORITY|||||||0.9374|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.9374
92376828|NCT03054350|184657023|SUPERIORITY|||||||0.2085|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||0.2085
92376829|NCT03054350|184657023|SUPERIORITY|||||||0.0016|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||0.0016
92376830|NCT03054350|184657023|SUPERIORITY|||||||0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||0.0001
92376831|NCT03054350|184657025|SUPERIORITY|||||||0.2708|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.2708
92376832|NCT03054350|184657025|SUPERIORITY|||||||0.0966|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.0966
92376833|NCT03054350|184657025|SUPERIORITY|||||||0.0424|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.0424
92376834|NCT03054350|184657027|SUPERIORITY|||||||0.0207|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||0.0207
92376835|NCT03054350|184657027|SUPERIORITY|||||||0.0022|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||0.0022
92376836|NCT03054350|184657027|SUPERIORITY||||||<|0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||<0.0001
92376837|NCT03054350|184657027|SUPERIORITY|||||||0.0062|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Hepcidin||||0.0062
92411042|NCT02791763|184712643|SUPERIORITY||Odds Ratio (OR)|1.01||||0.4941|TWO_SIDED|95.0|0.33|3.04||The p value on this table is one-sided and calculated for the superiority assessment.|Regression, Logistic||Analysis was performed by logistic regression with covariates of treatment, Baseline Hgb, and Baseline ESA use.|||3.04|0.33|0.4941
92411043|NCT01400880|184712750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.98|STANDARD_DEVIATION|3.28|||TWO_SIDED|95.0|1.7|4.27||||||All subjects were monitored with the electrode sensor, TOCO and IUPC. Measurements were taken with the electrode sensor vs. IUPC and were also taken with TOCO vs. IUPC and those measurements were compared to each other. These results are for TOCO and IUPC. Agreement between TOCO and IUPC. Null hypothesis: the mean peak difference between TOCO and IUPC is equal to 0. Alternative hypothesis: the mean peak difference is not equal to 0.||4.27|1.70|
92411044|NCT01400880|184712750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95|STANDARD_DEVIATION|2.65|||TWO_SIDED|95.0|2.98|4.92||||||All subjects were monitored with the electrode sensor, TOCO and IUPC. Measurements were taken with the electrode sensor vs. IUPC and were also taken with TOCO vs. IUPC and those measurements were compared to each other. These results are for the electrode sensor and IUPC. Agreement between electrode sensor and IUPC. Null hypothesis: the mean peak difference between TOCO and IUPC is equal to 0. Alternative hypothesis: the mean peak difference is not equal to 0.||4.92|2.98|
92411045|NCT04530136|184712802|SUPERIORITY|||||||0.0346|||||||Wilcoxon rank test|||||||0.0346
92411046|NCT04530136|184712803|SUPERIORITY|||||||0.4441|||||||WHO Ordinal Scale|||||||0.4441
92411047|NCT04530136|184712804|SUPERIORITY|||||||0.1021|||||||WHO Ordinal Scale for Clin Improvement|||||||0.1021
92411048|NCT04530136|184712805|SUPERIORITY|||||||0.1615|||||||WHO Ordinal Scale|||||||0.1615
92230156|NCT03952559|184363574|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9615|TWO_SIDED|95.0|0.59|1.74|||Regression, Logistic|||||1.74|0.59|0.9615
92230157|NCT03952559|184363574|SUPERIORITY||Odds Ratio (OR)|1.42||||0.201|TWO_SIDED|95.0|0.83|2.41|||Regression, Logistic|||||2.41|0.83|0.2010
92411049|NCT02878798|184712806|OTHER|Non-inferiority and superiority tests were completed|Slope|0.2105|||||ONE_SIDED|95.0|-0.4328||||||||||-0.4328|
92230158|NCT03952559|184363574|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0017|TWO_SIDED|95.0|1.38|3.95|||Regression, Logistic|||||3.95|1.38|0.0017
92230159|NCT03952559|184363575|SUPERIORITY||Odds Ratio (OR)|0.93||||0.8544|TWO_SIDED|95.0|0.43|2.01|||Regression, Logistic|||||2.01|0.43|0.8544
92411050|NCT02878798|184712807|OTHER|Non-inferiority and superiority tests were done|Slope|-1.5219|||||ONE_SIDED|95.0||1.1933||||||||1.1933||
92411051|NCT02878798|184712808|SUPERIORITY||Slope|-0.02322|||||TWO_SIDED|95.0|-0.6337|0.5872|||Mixed Models Analysis|||||0.5872|-0.6337|
92411052|NCT02878798|184712809|SUPERIORITY||Slope|-0.168||||0.261|TWO_SIDED|95.0|-0.4612|0.1253|||Mixed Models Analysis|||||0.1253|-0.4612|0.261
92411053|NCT02878798|184712810|SUPERIORITY||Slope|-0.061||||0.9007|TWO_SIDED|95.0|-1.0213|0.8992|||Mixed Models Analysis|||||0.8992|-1.0213|0.9007
92411054|NCT02878798|184712811|SUPERIORITY||Slope|0.0106||||0.8174|TWO_SIDED|95.0|-0.0793|0.1005|||Hurdle model|||||0.1005|-0.0793|0.8174
92411055|NCT02878798|184712812|SUPERIORITY||Slope|-0.7394||||0.0233|TWO_SIDED|95.0|-1.3775|-0.1013|||Mixed Models Analysis|||||-0.1013|-1.3775|0.0233
92411056|NCT02878798|184712813|SUPERIORITY||Slope|-0.1328||||0.7586|TWO_SIDED|95.0|-0.982|0.7164|||Mixed Models Analysis|||||0.7164|-0.982|0.7586
92411057|NCT02878798|184712814|SUPERIORITY||Slope|-0.0021||||0.9604|TWO_SIDED|95.0|-0.084|0.0799|||Mixed Models Analysis|||||0.0799|-0.084|0.9604
92411058|NCT02878798|184712815|SUPERIORITY||Slope|-0.0396||||0.2365|TWO_SIDED|95.0|-0.1053|0.0261|||Mixed Models Analysis|||||0.0261|-0.1053|0.2365
92411059|NCT02878798|184712816|SUPERIORITY||Slope|2.3848||||0.5813|TWO_SIDED|95.0|-6.1336|10.9032|||Mixed Models Analysis|||||10.9032|-6.1336|0.5813
92411060|NCT02878798|184712817|SUPERIORITY||Slope|-1.0547||||0.4092|TWO_SIDED|95.0|-3.5705|1.4611|||Mixed Models Analysis|||||1.4611|-3.5705|0.4092
92411061|NCT02692391|184712818|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
92411062|NCT02692391|184712819|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92411063|NCT02692391|184712820|SUPERIORITY|||||||0.71|||||||Fisher Exact|||||||0.71
92411064|NCT02692391|184712821|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92411065|NCT02762370|184712822|SUPERIORITY|||||||0.0452|||||||t-test, 2 sided|||||||0.0452
92411066|NCT01708902|184712849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.12||0.0587|TWO_SIDED|95.0|-0.45|0.01|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Metformin 1000mg BID'.|"The model includes treatment as a fixed effect and baseline HbA1c as a linear covariate.~The null and alternative hypotheses were tested in a hierarchical sequence. The next null hypothesis was tested in a confirmatory way only if all prior null-hypotheses were rejected. 'Greater effect' refers to a greater reduction in HbA1c."||0.01|-0.45|0.0587
92411067|NCT01708902|184712849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.23|-0.78|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Linagliptin 5mg QD'.|"The model includes treatment as a fixed effect and baseline HbA1c as a linear covariate.~The null and alternative hypotheses were tested in a hierarchical sequence. The next null hypothesis was tested in a confirmatory way only if all prior null-hypotheses were rejected. 'Greater effect' refers to a greater reduction in HbA1c."||-0.78|-1.23|<0.0001
92411068|NCT01708902|184712849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.73|-0.29|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' minus 'Main: Metformin 500mg BID'.|"The model includes treatment as a fixed effect and baseline HbA1c as a linear covariate.~The null and alternative hypotheses were tested in a hierarchical sequence. The next null hypothesis was tested in a confirmatory way only if all prior null-hypotheses were rejected. 'Greater effect' refers to a greater reduction in HbA1c."||-0.29|-0.73|<0.0001
92411069|NCT01708902|184712849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.09|-0.64|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' minus 'Main: Linagliptin 5mg QD'.|"The model includes treatment as a fixed effect and baseline HbA1c as a linear covariate.~The null and alternative hypotheses were tested in a hierarchical sequence. The next null hypothesis was tested in a confirmatory way only if all prior null-hypotheses were rejected. 'Greater effect' refers to a greater reduction in HbA1c."||-0.64|-1.09|<0.0001
92230160|NCT03952559|184363575|SUPERIORITY||Odds Ratio (OR)|1.96||||0.0561|TWO_SIDED|95.0|0.98|3.91|||Regression, Logistic|||||3.91|0.98|0.0561
92230161|NCT03952559|184363575|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0012|TWO_SIDED|95.0|1.54|5.82|||Regression, Logistic|||||5.82|1.54|0.0012
92230162|NCT03952559|184363576|SUPERIORITY||LS Mean difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|1.349||0.2627|TWO_SIDED|95.0|-4.16|1.14|||Mixed Models Analysis|||||1.14|-4.16|0.2627
92376838|NCT03054350|184657027|SUPERIORITY|||||||0.0002|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Hepcidin||||0.0002
92376839|NCT03054350|184657027|SUPERIORITY||||||<|0.0001||||||test of treatment group difference based on ANCOVA model|ANCOVA|||Hepcidin||||<0.0001
92376840|NCT01643850|184657038|SUPERIORITY||Mean Difference (Net)|0.98||||0.915|TWO_SIDED|95.0|0.71|1.36|||ANCOVA|||||1.36|0.71|0.915
92376841|NCT01643850|184657038|SUPERIORITY||Median Difference (Net)|0.78||||0.117|TWO_SIDED|95.0|0.57|1.07|||ANCOVA|||||1.07|0.57|0.117
92411070|NCT01708902|184712850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.673|STANDARD_ERROR_OF_MEAN|0.487||0.0771|TWO_SIDED|95.0|0.946|2.961|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Metformin 1000mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||2.961|0.946|0.0771
92411071|NCT01708902|184712850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.489|STANDARD_ERROR_OF_MEAN|1.543|<|0.0001|TWO_SIDED|95.0|3.164|9.522|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||9.522|3.164|<0.0001
92411072|NCT01708902|184712850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.829|STANDARD_ERROR_OF_MEAN|0.753|<|0.0001|TWO_SIDED|95.0|1.678|4.767|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Metformin 500mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||4.767|1.678|<0.0001
92230163|NCT03952559|184363576|SUPERIORITY||LS Mean difference (Final Values)|-1.67|STANDARD_ERROR_OF_MEAN|1.342||0.2135|TWO_SIDED|95.0|-4.31|0.97|||Mixed Models Analysis|||||0.97|-4.31|0.2135
92411073|NCT01708902|184712850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.818|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|95.0|2.259|6.454|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||6.454|2.259|<0.0001
92411074|NCT01708902|184712851|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.169|STANDARD_ERROR_OF_MEAN|1.565||0.0001|TWO_SIDED|95.0|1.997|8.701|||Regression, Logistic|||"Comparison of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' / 'APG: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||8.701|1.997|0.0001
92230164|NCT03952559|184363576|SUPERIORITY||LS Mean difference (Final Values)|-2.72|STANDARD_ERROR_OF_MEAN|1.347||0.0443|TWO_SIDED|95.0|-5.36|-0.07|||Mixed Models Analysis|||||-0.07|-5.36|0.0443
92230165|NCT03952559|184363577|SUPERIORITY||Odds Ratio (OR)|0.73||||0.4943|TWO_SIDED|95.0|0.3|1.78|||Regression, Logistic|||||1.78|0.30|0.4943
92230166|NCT03952559|184363577|SUPERIORITY||Odds Ratio (OR)|1.72||||0.1677|TWO_SIDED|95.0|0.8|3.7|||Regression, Logistic|||||3.70|0.80|0.1677
92230167|NCT03952559|184363577|SUPERIORITY||Odds Ratio (OR)|2.24||||0.0336|TWO_SIDED|95.0|1.06|4.7|||Regression, Logistic|||||4.70|1.06|0.0336
92376842|NCT01643850|184657038|SUPERIORITY||Mean Difference (Net)|0.69||||0.01|TWO_SIDED|95.0|0.52|0.91|||ANCOVA|||||0.91|0.52|0.010
92376843|NCT04612842|184657124|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92376844|NCT02419131|184657135|SUPERIORITY|Superiority of the experimental arms (CBTH and CPT) compared to usual care (TAU)|Aggregated contrast CBTH to TAU|-3.4|||<|0.001|TWO_SIDED|95.0|-5.4|-1.4||p-value represents an aggregate of post-treatment outcomes (i.e., post-treatment, 3-month, and 6-month outcomes entered simultaneously into the GLMM to represent a single metric of all post-treatment assessment intervals into one estimate).|Mixed Models Analysis|Outcome observations at posttreatment, 3-month and 6-month follow-ups were entered simultaneously into the mixed model to provide a single inference.|Contrast of aggregated post-treatment outcomes of HIT-6 total score for CBTH compared to TAU|Sample size based on 2-tailed specified joint superiority testing of 2 primary outcomes at α = .025 and power of 0.80 to detect an effect size (d) of 0.52 for both primary outcomes (representing a clinically significant change of 2.8 points on the HIT-6). The primary analysis set was intention to treat (ITT). multiple imputation accounted for missing data in ITT. Missing outcome scores at posttreatment, 3-month, and 6-month follow-ups were multiply imputed (m = 100) using multilevel models.||-1.4|-5.4|<0.001
92376845|NCT02419131|184657135|SUPERIORITY|See previous section for analysis|Aggregated contrast CPT to TAU|-1.4||||0.21|TWO_SIDED|95.0|-3.7|0.8||For comparison of post-treatment HIT-6 total score between CPT and TAU|Mixed Models Analysis|See above for details.|See above.|See previous section for power||0.8|-3.7|0.21
92411075|NCT01708902|184712852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.661|STANDARD_ERROR_OF_MEAN|0.426||0.048|TWO_SIDED|95.0|1.004|2.746|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Metformin 1000mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||2.746|1.004|0.0480
92411076|NCT01708902|184712852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.923|STANDARD_ERROR_OF_MEAN|1.632|<|0.0001|TWO_SIDED|95.0|3.452|10.164|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||10.164|3.452|<0.0001
92411077|NCT01708902|184712852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.574|STANDARD_ERROR_OF_MEAN|0.655||0.0002|TWO_SIDED|95.0|1.563|4.239|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Metformin 500mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||4.239|1.563|0.0002
92411078|NCT01708902|184712852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.682|STANDARD_ERROR_OF_MEAN|1.27|<|0.0001|TWO_SIDED|95.0|2.751|7.968|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||7.968|2.751|<0.0001
92411079|NCT01708902|184712853|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.135|STANDARD_ERROR_OF_MEAN|1.31||0.0062|TWO_SIDED|95.0|1.383|7.11|||Regression, Logistic|||"Comparison of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' / 'APG: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||7.110|1.383|0.0062
92411080|NCT01708902|184712854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0109|TWO_SIDED|95.0|-0.53|-0.07|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Metformin 1000mg BID'.|"Sensitivity analysis: Mixed Model for repeated measurements~The model includes baseline HbA1c as a linear covariate; visit, treatment and visit by treatment interaction as fixed classification effects and patient as a random effect with unstructured covariance structure to model within-patients errors."||-0.07|-0.53|0.0109
92411081|NCT01708902|184712854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.27|-0.81|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Linagliptin 5mg QD'.|"Sensitivity analysis: Mixed Model for repeated measurements~The model includes baseline HbA1c as a linear covariate; visit, treatment and visit by treatment interaction as fixed classification effects and patient as a random effect with unstructured covariance structure to model within-patients errors."||-0.81|-1.27|<0.0001
92411082|NCT01708902|184712854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.7|-0.24|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID ' minus 'Main: Metformin 500mg BID' .|"Sensitivity analysis: Mixed Model for repeated measurements~The model includes baseline HbA1c as a linear covariate; visit, treatment and visit by treatment interaction as fixed classification effects and patient as a random effect with unstructured covariance structure to model within-patients errors."||-0.24|-0.70|<0.0001
92411083|NCT01708902|184712854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.04|-0.58|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' minus 'Main: Linagliptin 5mg QD'.|"Sensitivity analysis: Mixed Model for repeated measurements~The model includes baseline HbA1c as a linear covariate; visit, treatment and visit by treatment interaction as fixed classification effects and patient as a random effect with unstructured covariance structure to model within-patients errors."||-0.58|-1.04|<0.0001
92411084|NCT01708902|184712855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.32||0.0001|TWO_SIDED|95.0|-1.87|-0.63|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'APG: Linagliptin 5mg QD'.|"The treatment effect of the 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' was compared with 'APG: Linagliptin 5mg QD'.~The model includes treatment as a fixed effect and baseline HbA1c as a linear covariate."||-0.63|-1.87|0.0001
92411085|NCT01708902|184712856|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.986|STANDARD_ERROR_OF_MEAN|0.387||0.9705|TWO_SIDED|95.0|0.456|2.13|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Metformin 1000mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||2.130|0.456|0.9705
92411086|NCT01708902|184712856|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.093|STANDARD_ERROR_OF_MEAN|1.029||0.0007|TWO_SIDED|95.0|1.612|5.938|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||5.938|1.612|0.0007
92411087|NCT01708902|184712856|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.19|STANDARD_ERROR_OF_MEAN|1.243||0.0029|TWO_SIDED|95.0|1.486|6.849|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Metformin 500mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||6.849|1.486|0.0029
92411088|NCT01708902|184712856|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.871|STANDARD_ERROR_OF_MEAN|1.846|<|0.0001|TWO_SIDED|95.0|2.318|10.238|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||10.238|2.318|<0.0001
92411089|NCT01708902|184712857|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.865|STANDARD_ERROR_OF_MEAN|1.015||0.2523|TWO_SIDED|95.0|0.642|5.42|||Regression, Logistic|||"Comparison of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' / 'APG: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||5.420|0.642|0.2523
92230168|NCT03952559|184363578|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8866|TWO_SIDED|95.0|0.42|2.77|||Regression, Logistic|||||2.77|0.42|0.8866
92411090|NCT01708902|184712858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.37|STANDARD_ERROR_OF_MEAN|3.23||0.0971|TWO_SIDED|95.0|-11.72|0.98|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Metformin 1000mg BID'.|The model includes continuous baseline HbA1c, continuous baseline FPG and treatment group.||0.98|-11.72|0.0971
92411091|NCT01708902|184712858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.42|STANDARD_ERROR_OF_MEAN|3.19|<|0.0001|TWO_SIDED|95.0|-38.67|-26.16|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Linagliptin 5mg QD'.|The model includes continuous baseline HbA1c, continuous baseline FPG and treatment group.||-26.16|-38.67|<0.0001
92411092|NCT01708902|184712858|SUPERIORITY_OR_OTHER||Median Difference (Net)|-9.47|STANDARD_ERROR_OF_MEAN|3.16||0.0028|TWO_SIDED|95.0|-15.66|-3.27|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' minus 'Main: Metformin 500mg BID'.|The model includes continuous baseline HbA1c, continuous baseline FPG and treatment group.||-3.27|-15.66|0.0028
92411093|NCT01708902|184712858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.31|STANDARD_ERROR_OF_MEAN|3.17|<|0.0001|TWO_SIDED|95.0|-30.54|-18.08|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' minus 'Main: Linagliptin 5mg QD'.|The model includes continuous baseline HbA1c, continuous baseline FPG and treatment group.||-18.08|-30.54|<0.0001
92411094|NCT01708902|184712859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.21|STANDARD_ERROR_OF_MEAN|9.23||0.0002|TWO_SIDED|95.0|-53.48|-16.95|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'APG: Linagliptin 5mg QD'.|The model includes continuous baseline HbA1c, continuous baseline FPG and treatment group.||-16.95|-53.48|0.0002
92230169|NCT03952559|184363578|SUPERIORITY||Odds Ratio (OR)|1.73||||0.2316|TWO_SIDED|95.0|0.7|4.26|||Regression, Logistic|||||4.26|0.70|0.2316
92230170|NCT03952559|184363578|SUPERIORITY||Odds Ratio, log|2.59||||0.0328|TWO_SIDED|95.0|1.08|6.22|||Regression, Logistic|||||6.22|1.08|0.0328
92230171|NCT03952559|184363579|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5361|TWO_SIDED|95.0|0.7|1.98|||Regression, Logistic|||||1.98|0.70|0.5361
92230172|NCT03952559|184363579|SUPERIORITY||Odds Ratio (OR)|1.23||||0.4417|TWO_SIDED|95.0|0.73|2.06|||Regression, Logistic|||||2.06|0.73|0.4417
92230173|NCT03952559|184363579|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0121|TWO_SIDED|95.0|1.16|3.43|||Regression, Logistic|||||3.43|1.16|0.0121
92376846|NCT02419131|184657136|SUPERIORITY|Key parameters and details the same as HIT-6 described above.|Aggregated contrast CBTH to TAU|-6.5||||0.04|TWO_SIDED|95.0|-12.7|-0.3||Contrast of aggregate post-treatment outcomes between CBTH and TAU|Mixed Models Analysis|Contrast of aggregate post-treatment outcomes between CBTH and TAU||Same sample size calculation as HIT-6 analyses, powered to detect a difference of 8.2 points on the PCL-5 total score.||-0.3|-12.7|0.04
92230174|NCT03952559|184363580|SUPERIORITY||Odds Ratio (OR)|1.19||||0.7706|TWO_SIDED|95.0|0.37|3.78|||Regression, Logistic|||||3.78|0.37|0.7706
92230175|NCT03952559|184363580|SUPERIORITY||Odds Ratio (OR)|1.22||||0.7409|TWO_SIDED|95.0|0.38|3.86|||Regression, Logistic|||||3.86|0.38|0.7409
92230176|NCT03952559|184363580|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0253|TWO_SIDED|95.0|1.15|8.63|||Regression, Logistic|||||8.63|1.15|0.0253
92230177|NCT03952559|184363581|SUPERIORITY||LS Mean difference (Final Values)|-3.89|STANDARD_ERROR_OF_MEAN|2.576||0.1317|TWO_SIDED|95.0|-8.95|1.17|||Mixed Models Analysis|||||1.17|-8.95|0.1317
92376847|NCT02419131|184657136|SUPERIORITY|Contrast of aggregate post-treatment outcomes between CPT and TAU|Aggregated contrast CPT to TAU|-8.9||||0.01|TWO_SIDED|95.0|-15.9|-1.9||Contrast of aggregate post-treatment outcomes between CPT and TAU|Mixed Models Analysis|Contrast of aggregate post-treatment outcomes between CPT and TAU||See above.||-1.9|-15.9|0.01
92411095|NCT01708902|184712860|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.209|STANDARD_ERROR_OF_MEAN|0.148||0.0271|TWO_SIDED|95.0|0.052|0.838|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c. The validity of the model is questionable as there is possibly a quasi-complete separation of data points, the results shown are based on the last maximum likelihood iteration."||0.838|0.052|0.0271
92411096|NCT01708902|184712860|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.965|STANDARD_ERROR_OF_MEAN|0.916||0.9699|TWO_SIDED|95.0|0.15|6.202|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Metformin 500mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c. The validity of the model is questionable as there is possibly a quasi-complete separation of data points, the results shown are based on the last maximum likelihood iteration."||6.202|0.150|0.9699
92411097|NCT01708902|184712860|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.183|STANDARD_ERROR_OF_MEAN|0.147||0.0343|TWO_SIDED|95.0|0.038|0.882|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c. The validity of the model is questionable as there is possibly a quasi-complete separation of data points, the results shown are based on the last maximum likelihood iteration."||0.882|0.038|0.0343
92230178|NCT03952559|184363581|SUPERIORITY||LS Mean difference (Final Values)|-5.15|STANDARD_ERROR_OF_MEAN|2.564||0.0451|TWO_SIDED|95.0|-10.19|-0.11|||Mixed Models Analysis|||||-0.11|-10.19|0.0451
92411098|NCT01708902|184712861|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.114|STANDARD_ERROR_OF_MEAN|0.125||0.0474|TWO_SIDED|95.0|0.013|0.976|||Regression, Logistic|||"Comparison of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' / 'APG: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||0.976|0.013|0.0474
92411099|NCT01136785|184712875|SUPERIORITY_OR_OTHER|||||||0.01|||||||t-test, 2 sided|||two-sided t test for the change from baseline between the treated and untreated groups.||||0.01
92230179|NCT03952559|184363581|SUPERIORITY||LS Mean difference (Final Values)|-7.62|STANDARD_ERROR_OF_MEAN|2.566||0.0031|TWO_SIDED|95.0|-12.66|-2.58|||Mixed Models Analysis|||||-2.58|-12.66|0.0031
92230180|NCT03952559|184363582|SUPERIORITY||Odds Ratio (OR)|0.53||||0.4238|TWO_SIDED|95.0|0.11|2.49|||Regression, Logistic|||||2.49|0.11|0.4238
92230181|NCT03952559|184363582|SUPERIORITY||Odds Ratio (OR)|1.5||||0.5118|TWO_SIDED|95.0|0.44|5.08|||Regression, Logistic|||||5.08|0.44|0.5118
92230182|NCT03952559|184363582|SUPERIORITY||Odds Ratio (OR)|3.92||||0.0129|TWO_SIDED|95.0|1.34|11.52|||Regression, Logistic|||||11.52|1.34|0.0129
92230183|NCT03952559|184363583|SUPERIORITY||LS Mean difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|2.168||0.4852|TWO_SIDED|95.0|-5.77|2.75|||Mixed Models Analysis|||||2.75|-5.77|0.4852
92230184|NCT03952559|184363583|SUPERIORITY||LS Mean difference (Final Values)|-1.74|STANDARD_ERROR_OF_MEAN|2.16||0.4205|TWO_SIDED|95.0|-5.98|2.5|||Mixed Models Analysis|||||2.50|-5.98|0.4205
92230185|NCT03952559|184363583|SUPERIORITY||LS Mean difference (Final Values)|-5.34|STANDARD_ERROR_OF_MEAN|2.161||0.0138|TWO_SIDED|95.0|-9.59|-1.1|||Mixed Models Analysis|||||-1.10|-9.59|0.0138
92230186|NCT03952559|184363584|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92230187|NCT03952559|184363584|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||0.540
92230188|NCT03952559|184363584|SUPERIORITY|||||||0.302|||||||Fisher Exact|||||||0.302
92230189|NCT03952559|184363585|SUPERIORITY||LS Mean difference (Final Values)|4.47|STANDARD_ERROR_OF_MEAN|5.03||0.375|TWO_SIDED|95.0|-5.41|14.35|||ANOVA|||||14.35|-5.41|0.375
92230190|NCT03952559|184363585|SUPERIORITY||LS Mean difference (Final Values)|3.12|STANDARD_ERROR_OF_MEAN|5.03||0.536|TWO_SIDED|95.0|-6.76|13.0|||ANOVA|||||13.00|-6.76|0.536
92230191|NCT03952559|184363585|SUPERIORITY||LS Mean difference (Final Values)|12.17|STANDARD_ERROR_OF_MEAN|5.03||0.016|TWO_SIDED|95.0|2.29|22.05|||ANOVA|||||22.05|2.29|0.016
92230192|NCT03952559|184363586|SUPERIORITY||LS Mean difference (Final Values)|-49.19|STANDARD_ERROR_OF_MEAN|27.28||0.073|TWO_SIDED|95.0|-102.81|4.42|||ANOVA|||||4.42|-102.81|0.073
92230193|NCT03952559|184363586|SUPERIORITY||LS Mean difference (Final Values)|-37.38|STANDARD_ERROR_OF_MEAN|27.29||0.172|TWO_SIDED|95.0|-91.0|16.23|||ANOVA|||||16.23|-91.00|0.172
92230194|NCT03952559|184363586|SUPERIORITY||LS Mean difference (Final Values)|-80.37|STANDARD_ERROR_OF_MEAN|27.28||0.004|TWO_SIDED|95.0|-133.98|-26.75|||ANOVA|||||-26.75|-133.98|0.004
92376848|NCT03060512|184657138|OTHER|||||||0.9239|||||||Prescott's test|||Assessment of the difference in preference for the two treatments (Prefer Movantik, No Preference, Prefer PEG 3350) in subjects who completed the entire treatment sequence.||||0.9239
92376849|NCT03060512|184657138|OTHER|||||||0.8874|||||||Prescott's test|||Assessment of the difference between preference for treatment in Period 1, preference for treatment in Period 2, no preference||||0.8874
92230195|NCT03952559|184363587|SUPERIORITY||LS Mean difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.372||0.0829|TWO_SIDED|95.0|-1.38|0.08|||Mixed Models Analysis|||||0.08|-1.38|0.0829
92230196|NCT03952559|184363587|SUPERIORITY||LS Mean difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.368||0.1752|TWO_SIDED|95.0|-1.22|0.22|||Mixed Models Analysis|||||0.22|-1.22|0.1752
92230197|NCT03952559|184363587|SUPERIORITY||LS Mean difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.366||0.0029|TWO_SIDED|95.0|-1.82|-0.38|||Mixed Models Analysis|||||-0.38|-1.82|0.0029
92230198|NCT03952559|184363588|SUPERIORITY||LS Mean difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.193||0.2688|TWO_SIDED|95.0|-0.6|0.17|||Mixed Models Analysis|||||0.17|-0.60|0.2688
92230199|NCT03952559|184363588|SUPERIORITY||LS Mean difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.193||0.0166|TWO_SIDED|95.0|-0.85|-0.09|||Mixed Models Analysis|||||-0.09|-0.85|0.0166
92230200|NCT03952559|184363588|SUPERIORITY||LS Mean difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.202||0.0908|TWO_SIDED|95.0|-0.75|0.06|||Mixed Models Analysis|||||0.06|-0.75|0.0908
92230201|NCT03952559|184363589|SUPERIORITY||LS Mean difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.956||0.3409|TWO_SIDED|95.0|-2.79|0.97|||Mixed Models Analysis|||||0.97|-2.79|0.3409
92230202|NCT03952559|184363589|SUPERIORITY||LS Mean difference (Final Values)|-1.56|STANDARD_ERROR_OF_MEAN|0.952||0.1022|TWO_SIDED|95.0|-3.43|0.31|||Mixed Models Analysis|||||0.31|-3.43|0.1022
92230203|NCT03952559|184363589|SUPERIORITY||LS Mean difference (Final Values)|-1.56|STANDARD_ERROR_OF_MEAN|0.953||0.1024|TWO_SIDED|95.0|-3.43|0.31|||Mixed Models Analysis|||||0.31|-3.43|0.1024
92230204|NCT03952559|184363590|SUPERIORITY||LS Mean difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.157||0.1436|TWO_SIDED|95.0|-0.54|0.08|||Mixed Models Analysis|||||0.08|-0.54|0.1436
92376850|NCT03060512|184657141|OTHER||Least Squares (LS) Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.3|0.3||||||Analysis of variance (ANOVA) model assessing treatment difference in PGIC at Visits 3 and 5 between Movantik and PEG 3350 treatment. Adjustments were performed for treatment, period and sequence.||0.3|-0.3|
92376851|NCT03060512|184657143|OTHER||LS Means difference|-0.9|STANDARD_ERROR_OF_MEAN|1.95|||TWO_SIDED|95.0|-4.7|3.0||||||Analysis of Covariance (ANCOVA) model assessing treatment difference in BFI change from baseline at Visits 3/5 between Movantik and PEG 3350. Adjustments were performed for for baseline BFI score, treatment, period and sequence.||3.0|-4.7|
92230205|NCT03952559|184363590|SUPERIORITY||LS Mean difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.154||0.0483|TWO_SIDED|95.0|-0.61|0.0|||Mixed Models Analysis|||||-0.00|-0.61|0.0483
92230206|NCT03952559|184363590|SUPERIORITY||LS Mean difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.154||0.0012|TWO_SIDED|95.0|-0.8|-0.2|||Mixed Models Analysis|||||-0.20|-0.80|0.0012
92230207|NCT03952559|184363591|SUPERIORITY||LS Mean difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|1.755||0.9183|TWO_SIDED|95.0|-3.27|3.63|||Mixed Models Analysis|||for 8 to \<18 years old||3.63|-3.27|0.9183
92230208|NCT03952559|184363591|SUPERIORITY||LS Mean difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|1.529||0.4805|TWO_SIDED|95.0|-4.09|1.93|||Mixed Models Analysis|||for 8 to \<18 years old||1.93|-4.09|0.4805
92230209|NCT03952559|184363591|SUPERIORITY||LS Mean difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|1.812||0.3488|TWO_SIDED|95.0|-5.26|1.86|||Mixed Models Analysis|||for 8 to \<18 years old||1.86|-5.26|0.3488
92230210|NCT03952559|184363591|SUPERIORITY||LS Mean difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|3.12||0.2388|TWO_SIDED|95.0|-4.85|7.66|||Mixed Models Analysis|||for 5 to \<8 years old||7.66|-4.85|0.2388
92230211|NCT03952559|184363591|SUPERIORITY||LS Mean difference (Final Values)|-3.13|STANDARD_ERROR_OF_MEAN|3.542||0.0098|TWO_SIDED|95.0|-10.23|3.98|||Mixed Models Analysis|||for 5 to \<8 years old||3.98|-10.23|0.0098
92230212|NCT03952559|184363591|SUPERIORITY||LS Mean difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|3.14||0.1698|TWO_SIDED|95.0|-5.18|7.42|||Mixed Models Analysis|||for 5 to \<8 years old||7.42|-5.18|0.1698
92230213|NCT03952559|184363592|SUPERIORITY||LS Mean difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|1.813||0.8611|TWO_SIDED|95.0|-3.24|3.88|||Mixed Models Analysis|||for 8 to \<18 years old||3.88|-3.24|0.8611
92230214|NCT03952559|184363592|SUPERIORITY||LS Mean difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|1.571||0.5098|TWO_SIDED|95.0|-4.12|2.05|||Mixed Models Analysis|||for 8 to \<18 years old||2.05|-4.12|0.5098
92230215|NCT03952559|184363592|SUPERIORITY||LS Mean difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|1.87||0.1997|TWO_SIDED|95.0|-6.08|1.27|||Mixed Models Analysis|||for 8 to \<18 years old||1.27|-6.08|0.1997
92230216|NCT03952559|184363592|SUPERIORITY||LS Mean difference (Final Values)|1.62|STANDARD_ERROR_OF_MEAN|3.351||0.1957|TWO_SIDED|95.0|-5.11|8.35|||Mixed Models Analysis|||for 5 to \<8 years old||8.35|-5.11|0.1957
92230217|NCT03952559|184363592|SUPERIORITY||LS Mean difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|3.864||0.0881|TWO_SIDED|95.0|-8.19|7.32|||Mixed Models Analysis|||for 5 to \<8 years old||7.32|-8.19|0.0881
92230218|NCT03952559|184363592|SUPERIORITY||LS Mean difference (Final Values)|1.51|STANDARD_ERROR_OF_MEAN|3.379||0.1604|TWO_SIDED|95.0|-5.27|8.28|||Mixed Models Analysis|||for 5 to \<8 years old||8.28|-5.27|0.1604
92230219|NCT03952559|184363593|SUPERIORITY||LS Mean difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.647||0.2987|TWO_SIDED|95.0|-1.93|0.59|||Mixed Models Analysis|||||0.59|-1.93|0.2987
92230220|NCT03952559|184363593|SUPERIORITY||LS Mean difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.632||0.3096|TWO_SIDED|95.0|-1.88|0.6|||Mixed Models Analysis|||||0.60|-1.88|0.3096
92230221|NCT03952559|184363593|SUPERIORITY||LS Mean difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.635||0.6341|TWO_SIDED|95.0|-1.55|0.95|||Mixed Models Analysis|||||0.95|-1.55|0.6341
92230222|NCT03952559|184363594|SUPERIORITY||LS Mean difference (Final Values)|5.27|STANDARD_ERROR_OF_MEAN|4.323||0.2871|TWO_SIDED|95.0|-6.54|17.09|||Mixed Models Analysis|||||17.09|-6.54|0.2871
92230223|NCT03952559|184363594|SUPERIORITY||LS Mean difference (Final Values)|4.73|STANDARD_ERROR_OF_MEAN|3.835||0.3093|TWO_SIDED|95.0|-7.83|17.29|||Mixed Models Analysis|||||17.29|-7.83|0.3093
92376852|NCT00904618|184657145|SUPERIORITY_OR_OTHER|||||||0.0087||95.0|||||Fisher Exact|||The test applies to the number of participants improved.||||0.0087
92376853|NCT03373890|184657204|OTHER|Independent samples Mann Whitney U||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||.39
92376854|NCT03373890|184657205|OTHER|Independent samples Mann Whitney U||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||.39
92376855|NCT03373890|184657206|OTHER|Independent samples Mann Whitney U||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||.03
92376856|NCT03373890|184657207|OTHER|Independent samples Mann Whitney U||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||.39
92376857|NCT03373890|184657208|OTHER|Independent samples Mann Whitney U||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||.06
92376858|NCT03373890|184657209|OTHER|Independent samples Mann Whitney U||||||0.99|||||||Wilcoxon (Mann-Whitney)|||||||.99
92376859|NCT03373890|184657210|OTHER|LInear mixed model||||||0.008|||||||Regression, Logistic|||||||.008
92376860|NCT03373890|184657211|OTHER|Linear mixed model regression||||||0.34|||||||Regression, Linear|||||||.34
92376861|NCT02680574|184657213|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change of hemoglobin: Vadadustat minus Darbepoetin alfa|Least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.042|||TWO_SIDED|95.0|-0.09|0.07||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||0.07|-0.09|
92376862|NCT02680574|184657214|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per Food and Drug Administration \[FDA\]) and 1.3 (per European Medicines Agency \[EMA\]).|Hazard Ratio (HR)|1.16|||=|0.2015|TWO_SIDED|95.0|0.93|1.446|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0015 has been reported in this section.||1.446|0.930|=0.2015
92376863|NCT02680574|184657214|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.17|||=|0.0725|TWO_SIDED|95.0|1.012|1.355|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 382 and 344 respectively; median time to first event (Q1, Q3) = 50.07 (23.00, 82.86) weeks versus 51.93 (27.79, 91.00) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.355|1.012|=0.0725
92376864|NCT02680574|184657215|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.1|0.09||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||0.09|-0.10|
92411100|NCT01136785|184712876|SUPERIORITY_OR_OTHER|||||||0.011|||||||2-sided Paired t-test|||comparing pre and post Interstitial Glucose levels in the active CPAP group||||0.011
92376865|NCT02680574|184657216|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.04|||=|0.777|TWO_SIDED|95.0|0.851|1.268|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0015 has been reported in this section.||1.268|0.851|=0.7770
92411101|NCT01136785|184712877|SUPERIORITY_OR_OTHER|||||||0.071|||||||t-test, 2 sided|||||||0.071
92230224|NCT03952559|184363594|SUPERIORITY||LS Mean difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|3.788||0.2912|TWO_SIDED|95.0|-18.22|8.21|||Mixed Models Analysis|||||8.21|-18.22|0.2912
92376866|NCT02680574|184657216|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.11|||=|0.2305|TWO_SIDED|95.0|0.972|1.267|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first MACE plus hospitalization for heart failure or thromboembolic events excluding vascular access thrombosis for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 451 and 424 respectively; median time to first event (Q1, Q3) = 42.86 (19.71, 73.43) weeks versus 43.86 (21.36, 80.43) weeks, respectively.||1.267|0.972|=0.2305
92376867|NCT02680574|184657217|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.11|||=|0.5509|TWO_SIDED|95.0|0.817|1.501|||Gray's Test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0015 has been reported in this section.||1.501|0.817|=0.5509
92411102|NCT01136785|184712878|SUPERIORITY_OR_OTHER|||||||0.754|||||||two-sided paired t-test|||Plasma cortisol pre and post 1-week of active CPAP||||0.754
92411103|NCT01136785|184712879|SUPERIORITY_OR_OTHER|||||||0.308|||||||two-sided paired t-test|||comparing pre and post levels in the active CPAP group||||0.308
92411104|NCT01136785|184712880|SUPERIORITY_OR_OTHER|||||||0.036|||||||two-sided paired t-test|||comparing pre and post levels in the active CPAP group||||0.036
92230225|NCT03952559|184363595|SUPERIORITY|Absenteeism Change from Baseline|LS Mean difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|3.119||0.6079|TWO_SIDED|95.0|-7.74|4.54|||Mixed Models Analysis|||||4.54|-7.74|0.6079
92230226|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|3.092||0.5492|TWO_SIDED|95.0|-7.94|4.24|||Mixed Models Analysis|||Absenteeism Change from Baseline||4.24|-7.94|0.5492
92376868|NCT02680574|184657217|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.16|||=|0.2531|TWO_SIDED|95.0|0.947|1.42|||Gray's Test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first cardiovascular MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 198 and 178 respectively; median time to first event (Q1, Q3) = 45.57 (21.71, 73.29) weeks versus 47.36 (20.00, 88.43) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.420|0.947|=0.2531
92376869|NCT02680574|184657218|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|0.88|||=|0.4184|TWO_SIDED|95.0|0.61|1.258|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0015 has been reported in this section.||1.258|0.610|=0.4184
92411105|NCT00612807|184712884|NON_INFERIORITY_OR_EQUIVALENCE|Testing whether slope of change over time varied by identified patient status and treatment condition.|Interaction term|-0.56|STANDARD_ERROR_OF_MEAN|0.29||0.056||95.0||||Interaction indicates that slope of change varied by identified patient status and tx condition. Slope of change in depression was significantly negative for everyone but identified patients in the control condition.|Fixed effect in multi-level model|||Utilized a hierarchical linear model with time nested within individual and individual nested within couple. Given the small sample size, we chose to include participants' baseline depression scores as a covariate, and model the trajectory of change in depression scores beginning with the second assessment, which occurred one month into the study. Additional fixed effect predictors included status as identified patient or spouse, treatment condition, time, and all possible interactions.||||0.056
92230227|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-4.93|STANDARD_ERROR_OF_MEAN|3.281||0.1338|TWO_SIDED|95.0|-11.39|1.53|||Mixed Models Analysis|||Absenteeism Change from Baseline||1.53|-11.39|0.1338
92446296|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.085||0.9492|TWO_SIDED|95.0|-0.16|0.17|||MMRM|||Loss of Weight, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.16|0.9492
92230228|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|3.566||0.7928|TWO_SIDED|95.0|-7.96|6.08|||Mixed Models Analysis|||Presenteeism Change from Baseline||6.08|-7.96|0.7928
92230229|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|3.553||0.1366|TWO_SIDED|95.0|-12.3|1.69|||Mixed Models Analysis|||Presenteeism Change from Baseline||1.69|-12.30|0.1366
92230230|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-6.75|STANDARD_ERROR_OF_MEAN|3.792||0.076|TWO_SIDED|95.0|-14.21|0.71|||Mixed Models Analysis|||Presenteeism Change from Baseline||0.71|-14.21|0.0760
92230231|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-4.18|STANDARD_ERROR_OF_MEAN|4.561||0.3602|TWO_SIDED|95.0|-13.16|4.8|||Mixed Models Analysis|||Overall Work Impairment Change from Baseline||4.80|-13.16|0.3602
92230232|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-6.25|STANDARD_ERROR_OF_MEAN|4.516||0.1678|TWO_SIDED|95.0|-15.14|2.65|||Mixed Models Analysis|||Overall Work Impairment Change from Baseline||2.65|-15.14|0.1678
92230233|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-11.54|STANDARD_ERROR_OF_MEAN|4.808||0.017|TWO_SIDED|95.0|-21.0|-2.08|||Mixed Models Analysis|||Overall Work Impairment Change from Baseline||-2.08|-21.00|0.0170
92230234|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-4.42|STANDARD_ERROR_OF_MEAN|3.174||0.1645|TWO_SIDED|95.0|-10.66|1.82|||Mixed Models Analysis|||Activity Impairment Change from Baseline||1.82|-10.66|0.1645
92230235|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-4.87|STANDARD_ERROR_OF_MEAN|3.158||0.124|TWO_SIDED|95.0|-11.07|1.34|||Mixed Models Analysis|||Activity Impairment Change from Baseline||1.34|-11.07|0.1240
92230236|NCT03952559|184363595|SUPERIORITY||LS Mean difference (Final Values)|-7.02|STANDARD_ERROR_OF_MEAN|3.163||0.027|TWO_SIDED|95.0|-13.23|-0.8|||Mixed Models Analysis|||Activity Impairment Change from Baseline||-0.80|-13.23|0.0270
92230237|NCT03952559|184363596|SUPERIORITY||LS Mean difference (Final Values)|1.97|STANDARD_ERROR_OF_MEAN|2.778||0.4778|TWO_SIDED|95.0|-3.49|7.43|||Mixed Models Analysis|||||7.43|-3.49|0.4778
92376870|NCT02680574|184657218|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.01|||=|0.8613|TWO_SIDED|95.0|0.792|1.293|||Gray's test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first cardiovascular death for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 127 and 131 respectively; median time to first event (Q1, Q3) = 48.29 (28.86, 76.14) weeks versus 48.43 (21.29, 92.29) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.293|0.792|=0.8613
92376871|NCT02680574|184657219|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.04|||=|0.8041|TWO_SIDED|95.0|0.82|1.315|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0015 has been reported in this section.||1.315|0.820|=0.8041
92230238|NCT03952559|184363596|SUPERIORITY||LS Mean difference (Final Values)|2.01|STANDARD_ERROR_OF_MEAN|2.743||0.4649|TWO_SIDED|95.0|-3.38|7.39|||Mixed Models Analysis|||||7.39|-3.38|0.4649
92230239|NCT03952559|184363596|SUPERIORITY||LS Mean difference (Final Values)|4.52|STANDARD_ERROR_OF_MEAN|2.755||0.1013|TWO_SIDED|95.0|-0.89|9.94|||Mixed Models Analysis|||||9.94|-0.89|0.1013
92230240|NCT03952559|184363597|SUPERIORITY||LS Mean difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.174||0.6574|TWO_SIDED|95.0|-0.27|0.42|||Mixed Models Analysis|||||0.42|-0.27|0.6574
92230241|NCT03952559|184363597|SUPERIORITY||LS Mean difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.172||0.9488|TWO_SIDED|95.0|-0.35|0.33|||Mixed Models Analysis|||||0.33|-0.35|0.9488
92230242|NCT03952559|184363597|SUPERIORITY||LS Mean difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.172||0.4546|TWO_SIDED|95.0|-0.47|0.21|||Mixed Models Analysis|||||0.21|-0.47|0.4546
92230243|NCT03952559|184363598|SUPERIORITY||LS Mean difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.36||0.8133|TWO_SIDED|95.0|-0.79|0.62|||Mixed Models Analysis|||||0.62|-0.79|0.8133
92230244|NCT03952559|184363598|SUPERIORITY||LS Mean difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.355||0.2517|TWO_SIDED|95.0|-1.11|0.29|||Mixed Models Analysis|||||0.29|-1.11|0.2517
92230245|NCT03952559|184363598|SUPERIORITY||LS Mean difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.354||0.0803|TWO_SIDED|95.0|-1.32|0.08|||Mixed Models Analysis|||||0.08|-1.32|0.0803
92230246|NCT04167345|184363652|SUPERIORITY||Mean Difference|1.7|||<|0.0001|TWO_SIDED|95.0|1.1|2.3|||t-test, 2 sided|||||2.3|1.1|<.0001
92230247|NCT04167345|184363652|SUPERIORITY||Mean Difference|2.0|||<|0.0001|TWO_SIDED|95.0|1.1|2.9|||t-test, 2 sided|||||2.9|1.1|<.0001
92230248|NCT04167345|184363654|SUPERIORITY||Mean Difference|2.0||||0.0114|TWO_SIDED|95.0|0.5|3.4|||t-test, 2 sided|||||3.4|0.5|0.0114
92230249|NCT04167345|184363654|SUPERIORITY||Mean Difference|2.3||||0.0009|TWO_SIDED|95.0|1.1|3.5|||t-test, 2 sided|||||3.5|1.1|0.0009
92376872|NCT02680574|184657219|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.09|||=|0.4577|TWO_SIDED|95.0|0.93|1.274|||Log Rank|||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first all-cause mortality for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 319 and 307 respectively; median time to first event (Q1, Q3) = 52.14 (28.71, 84.71) weeks versus 53.00 (30.71, 94.14) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.274|0.930|=0.4577
92376873|NCT02370641|184657241|OTHER||Mean Difference (Final Values)|-4.0||||0.012|TWO_SIDED|||||p\<0.05 is defined as significant|Wilcoxon (Mann-Whitney)|||Comparison was made to week 4 minus baseline change of phylum Firmicutes abundance between urolithin excretors and non excretors||||0.012
92376874|NCT02370641|184657241|OTHER||Mean Difference (Final Values)|2.6||||0.009|TWO_SIDED|||||p\<0.05 was defined as significant|Wilcoxon (Mann-Whitney)|||Comparison was made to week 4 minus baseline change of phylum Proteobacteria abundance between urolithin excretors and non excretors||||0.009
92230250|NCT03804671|184363656|OTHER|Absolute bioavailability. The statistical model was an ANOVA on the logarithmic scale including the fixed effect for 'formulation' and 'subject' as a random effect.|Ratio of the geometric means (T/R) %|70.32|||||TWO_SIDED|90.0|56.69|87.23|||||The geometric coefficient of variation (gCV) = 18.7. Ratio was calculated as (AUC0-∞/dose) oral /(AUC0-∞/dose) intravenous multiplied by 100.|||87.23|56.69|
92230251|NCT02073487|184363678|SUPERIORITY||||||<|0.01|||||||Fisher Exact|||||||<0.01
92230252|NCT02886702|184363694|EQUIVALENCE|90% confidence interval on the difference between the proportions to be within \[-20%, +20%\].|Risk Difference (RD)|-4.5||||||90.0|-12.6|3.6||p-value not calculated|Yates' corrected confidence interval|||||3.6|-12.6|
92230253|NCT02886702|184363694|SUPERIORITY|Last Observation Carried Forward (LOCF) for missing efficacy values||||||0.352|||||||Cochran-Mantel-Haenszel|stratified by clinical site||||||0.3520
92230254|NCT02886702|184363695|SUPERIORITY|||||||0.8105|||||||Cochran-Mantel-Haenszel|stratified by clinical site||||||0.8105
92230255|NCT02886702|184363695|SUPERIORITY|||||||0.0613|||||||Cochran-Mantel-Haenszel|stratified by clinical site||||||0.0613
92230256|NCT02886702|184363696|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|stratified by clinical site||||||1.0000
92230257|NCT02886702|184363696|SUPERIORITY|||||||0.0712|||||||Cochran-Mantel-Haenszel|stratified by clinical site||||||0.0712
92230258|NCT00054847|184363703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.82|TWO_SIDED|95.0|0.62|1.84||Multiple logistic regression analysis was used to adjust for stratification factors and characteristics that were potentially predictive of graft patency. We also performed prespecified subgroup analyses and assessed treatment subgroup interaction.|Chi-squared|We performed as-treated and per-protocol analyses \& multiple imputations as sensitivity analyses to the intent-to-treat analysis on primary end point.||The study was designed to have 90% power to detect 1-year patency rates of 92% in radial artery vs 83% in saphenous vein grafts, with a 2-sided type I error of 5%and an expected 1-year catheterization completion rate of 65%.||1.84|.62|.82
92230259|NCT00054847|184363704|SUPERIORITY_OR_OTHER|||||||0.61|||||||Chi-squared|||||||.61
92230260|NCT00054847|184363705|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Chi-squared|||||||>.99
92230261|NCT01025635|184363730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017|||||||Cochran-Mantel-Haenszel|study center adjusted||||||0.017
92230262|NCT01025635|184363731|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|with factors treatment group, study center, and baseline lesion count as covariate||||||<0.001
92230263|NCT00929240|184363772|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.383|||<|0.0001|TWO_SIDED|95.0|0.266|0.551||Stratified by interactive voice/Web response system (IVRS), estrogen receptor (ER) status, visceral metastasis (yes/no), response to initial phase, and lactate dehydrogenase (LDH) level.|Log Rank||Stratified by IVRS, ER status, visceral metastasis (yes/no), response to initial phase, and LDH level.|||0.551|0.266|<0.0001
92230264|NCT00929240|184363772|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.429|||<|0.0001|TWO_SIDED|95.0|0.309|0.597|||Log Rank|Unstratified analysis||||0.597|0.309|<0.0001
92230265|NCT00929240|184363773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.1||||0.113|TWO_SIDED|95.0|-2.1|20.3|||Chi-squared||CIs with Hauck-Anderson adjustment for difference in rates of bevacizumab + capecitabine arm to bevacizumab alone arm.|||20.3|-2.1|0.113
92230266|NCT00929240|184363774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.58|TWO_SIDED|95.0|-2.6|4.6|||Chi-squared||CIs with Hauck-Anderson adjustment for difference in rates of Bevacizumab+Capecitabine group to Bevacizumab only group.|||4.6|-2.6|0.580
92230267|NCT00929240|184363776|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.425|||<|0.0003|TWO_SIDED|95.0|0.263|0.685||Stratified by IVRS, ER status, visceral metastasis (yes/no), response to initial phase, and LDH level.|Log Rank|||||0.685|0.263|<0.0003
92230268|NCT00929240|184363776|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.516||||0.002|TWO_SIDED|95.0|0.334|0.798||Unstratified analysis|Log Rank|||||0.798|0.334|0.002
92230269|NCT00929240|184363779|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.383|||<|0.0001|TWO_SIDED|95.0|0.266|0.551||Stratified by IVRS, ER status, visceral metastasis (yes/no), response to initial phase, and LDH level.|Log Rank||Stratification variables are randomisation stratification parameters as of IVRS: ER status, Visceral metastasis (yes/no), Response to initial phase, LDH concentration level.|||0.551|0.266|<0.0001
92230270|NCT00929240|184363779|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.425|||<|0.0001|TWO_SIDED|95.0|0.305|0.591||Unstratified analysis|Log Rank||Hazard ratio was determined using the cox regression model.|||0.591|0.305|<0.0001
92230271|NCT01834404|184363804|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED||||||ANCOVA|||||||0.057
92230272|NCT01834404|184363805|SUPERIORITY_OR_OTHER|||||||0.052|TWO_SIDED||||||ANCOVA|||||||0.052
92230273|NCT01834404|184363806|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||ANCOVA|||||||0.36
92230274|NCT01834404|184363807|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||ANCOVA|||||||0.99
92230275|NCT01834404|184363808|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||ANCOVA|||||||0.45
92230276|NCT01834404|184363809|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||ANCOVA|||||||0.22
92230277|NCT01834404|184363810|SUPERIORITY_OR_OTHER|||||||0.032|TWO_SIDED||||||ANCOVA|||||||0.032
92230278|NCT01834404|184363811|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||ANCOVA|||This p-value was based on a rank transformation.||||0.030
92230279|NCT01834404|184363812|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||ANCOVA|||||||0.35
92230280|NCT01834404|184363813|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||ANCOVA|||||||0.72
92230281|NCT01834404|184363814|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||ANCOVA|||||||0.90
92230282|NCT01834404|184363815|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.54
92230283|NCT01834404|184363816|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.26
92230284|NCT01276288|184363838|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|107.08|STANDARD_DEVIATION|11.8||0.0092|TWO_SIDED|90.0|97.11|118.07||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa plus HCT divided by Empa"|ANOVA|Model was adjusted for sequence, period and treatment as fixed effects while subjects within sequences as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+HCT were included||118.07|97.11|0.0092
92230285|NCT01276288|184363838|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|107.83|STANDARD_DEVIATION|8.9||0.003|TWO_SIDED|90.0|100.14|116.11||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa plus TOR divided by Empa"|ANOVA|Model was adjusted for sequence, period and treatment as fixed effects while subjects within sequences as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||116.11|100.14|0.0030
92230286|NCT01276288|184363839|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|102.78|STANDARD_DEVIATION|18.3||0.0199|TWO_SIDED|90.0|88.55|119.29||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ HCT divided by Empa"|ANOVA|Model was adjusted for sequence, period and treatment as fixed effects while subjects within sequences as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+HCT were included||119.29|88.55|0.0199
92376875|NCT01719003|184657252|SUPERIORITY_OR_OTHER||Adjusted mean|-0.33|STANDARD_ERROR_OF_MEAN|0.12||0.0056|TWO_SIDED|95.0|-0.56|-0.1|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.10|-0.56|0.0056
92230287|NCT01276288|184363839|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|107.5|STANDARD_DEVIATION|11.3||0.0086|TWO_SIDED|90.0|97.9|118.04||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR divided by Empa"|ANOVA|Model was adjusted for sequence, period and treatment as fixed effects while subjects within sequences as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||118.04|97.90|0.0086
92230288|NCT01276288|184363840|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|96.27|STANDARD_DEVIATION|9.6||0.0008|TWO_SIDED|90.0|89.08|104.05||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa plus HCT divided by HCT"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+HCT were included||104.05|89.08|0.0008
92230289|NCT01276288|184363841|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|101.77|STANDARD_DEVIATION|17.1||0.0114|TWO_SIDED|90.0|88.63|116.85||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ HCT divided by HCT"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+HCT were included||116.85|88.63|0.0114
92376876|NCT01719003|184657252|SUPERIORITY_OR_OTHER||Adjusted mean|-0.72|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.95|-0.48|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 1000 mg bid minus Empagliflozin 25 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.48|-0.95|<0.0001
92376877|NCT01719003|184657252|SUPERIORITY_OR_OTHER||Adjusted Mean|-0.75|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.98|-0.51|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.51|-0.98|<0.0001
92376878|NCT01719003|184657252|SUPERIORITY_OR_OTHER||Adjusted mean|-0.57|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.81|-0.34|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 500 mg bid minus Empagliflozin 25 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.34|-0.81|<0.0001
92230290|NCT01276288|184363842|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|101.44|STANDARD_DEVIATION|2.9|<|0.0001|TWO_SIDED|90.0|99.06|103.88||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa plus TOR divided by TOR"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||103.88|99.06|<0.0001
92230291|NCT01276288|184363842|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|104.42|STANDARD_DEVIATION|4.8|<|0.0001|TWO_SIDED|90.0|100.39|108.62||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR-M1 divided by TOR-M1"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||108.62|100.39|<0.0001
92230292|NCT01276288|184363842|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|103.19|STANDARD_DEVIATION|8.9||0.0005|TWO_SIDED|90.0|95.93|111.01||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR-M3 divided by TOR-M3"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||111.01|95.93|0.0005
92240255|NCT00051558|184383967|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for 12 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.011
92230293|NCT01276288|184363843|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|104.43|STANDARD_DEVIATION|13.1||0.0066|TWO_SIDED|90.0|93.81|116.25||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR divided by TOR"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||116.25|93.81|0.0066
92230294|NCT01276288|184363843|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|102.67|STANDARD_DEVIATION|10.6||0.0012|TWO_SIDED|90.0|94.13|111.97||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR-M1 divided by TOR-M1"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||111.97|94.13|0.0012
92230295|NCT01276288|184363843|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|102.42|STANDARD_DEVIATION|5.8|<|0.0001|TWO_SIDED|90.0|97.65|107.42||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR-M3 divided by TOR-M3"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||107.42|97.65|<0.0001
92278039|NCT00782509|184458134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.278|STANDARD_ERROR_OF_MEAN|0.249|<|0.0001|TWO_SIDED|95.0|-1.767|-0.789|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.789|-1.767|<0.0001
92376879|NCT01719003|184657252|SUPERIORITY_OR_OTHER||Adjusted mean|-0.33|STANDARD_ERROR_OF_MEAN|0.12||0.0062|TWO_SIDED|95.0|-0.56|-0.09|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment||-0.09|-0.56|0.0062
92376880|NCT01719003|184657252|SUPERIORITY_OR_OTHER||Adjusted Mean|-0.72|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.95|-0.49|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 1000 mg bid minus Empagliflozin 10 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.49|-0.95|<0.0001
92376881|NCT01719003|184657252|SUPERIORITY_OR_OTHER||Adjusted Mean|-0.79|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.03|-0.56|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.56|-1.03|<0.0001
92376882|NCT01719003|184657252|SUPERIORITY_OR_OTHER||Adjusted mean|-0.63|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.86|-0.4|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 500 mg bid minus Empagliflozin 10 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.40|-0.86|<0.0001
92376883|NCT01719003|184657252|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority of empagliflozin 10 mg qd against metformin 1000 mg bid were to be tested for HbA1c change from baseline to Week 24 at the level of α=0.025 (one-sided), through application of a non-inferiority margin of 0.35%.|Adjusted mean|0.39|STANDARD_ERROR_OF_MEAN|0.12||0.6246|TWO_SIDED|95.0|0.15|0.62|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 25 mg qd minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||0.62|0.15|0.6246
92411106|NCT00612807|184712885|NON_INFERIORITY_OR_EQUIVALENCE|Testing whether slope of change over time varied by identified patient status and treatment condition.|Interaction term|0.64|STANDARD_ERROR_OF_MEAN|0.65||0.32||95.0|||||Fixed effect in multi-level model|||Utilized a hierarchical linear model with time nested within individual and individual nested within couple. Given the small sample size, we chose to include participants' baseline depression scores as a covariate, and model the trajectory of change in depression scores beginning with the second assessment, which occurred one month into the study. Additional fixed effect predictors included status as identified patient or spouse, treatment condition, time, and all possible interactions.||||0.32
92376884|NCT01719003|184657252|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority of empagliflozin 10 mg qd against metformin 1000 mg bid were to be tested for HbA1c change from baseline to Week 24 at the level of α=0.025 (one-sided), through application of a non-inferiority margin of 0.35%.|Adjusted mean|0.4|STANDARD_ERROR_OF_MEAN|0.12||0.6558|TWO_SIDED|95.0|0.16|0.63|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 10 mg qd minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||0.63|0.16|0.6558
92376885|NCT01719003|184657253|SUPERIORITY_OR_OTHER||Adjusted mean|-18.8|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-25.5|-12.2||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-12.2|-25.5|<0.0001
92230296|NCT01478958|184363861|SUPERIORITY_OR_OTHER|||||||0.238||||||Overall diet effect. No post-hoc analyses required. Adjusted for multiple comparisons.|General Linear Model Univariate Analysis|Baseline values for %FMD, BMI, age, gender and intervention diet used as prognostic factors in model.||To detect a 2% inter-group difference in FMD (primary outcome) using a SD of 2.3, 90% power and 5% significance level, n=171 participants were required (n=57 per group), increasing to n=228 to include a 25% dropout rate.||||0.238
92230297|NCT01478958|184363861|SUPERIORITY_OR_OTHER|||||||0.021||||||Effect of the SFA-rich diet relative to baseline.|General Linear Model Univariate Analysis|Baseline values for %FMD, BMI and age, gender and intervention diet were used as prognostic factors in the model.||||||0.021
92230298|NCT01478958|184363861|SUPERIORITY_OR_OTHER||||||>|0.05||||||Effect of MUFA-rich diet relative to baseline.|General Linear Model Univariate Analysis|Baseline values for %FMD, BMI and age, gender and intervention diet were used as prognostic factors in the model.||||||>0.05
92230299|NCT01478958|184363861|SUPERIORITY_OR_OTHER||||||>|0.05||||||Effect of n-6 PUFA-rich diet relative to baseline.|General Linear Model Univariate Analysis|Baseline values for %FMD, BMI and age, gender and intervention diet were used as prognostic factors in the model.||||||>0.05
92230300|NCT05003115|184363873|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-6.36||||0.101|TWO_SIDED|95.0|-14.17|1.44|||Regression, Linear|||||1.44|-14.17|0.101
92230301|NCT05003115|184363874|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-0.1||||0.78|TWO_SIDED|95.0|-0.79|0.59|||Regression, Linear|||||0.59|-0.79|0.78
92230302|NCT05003115|184363875|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-0.95||||0.314|TWO_SIDED|95.0|-2.83|0.94|||Regression, Linear|||||0.94|-2.83|0.314
92230303|NCT05003115|184363876|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-1.04||||0.679|TWO_SIDED|95.0|-6.0|3.92|||Regression, Linear|||||3.92|-6.00|0.679
92230304|NCT05003115|184363877|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|0.01||||0.994|TWO_SIDED|95.0|-2.23|2.25|||Regression, Linear|||||2.25|-2.23|0.994
92230305|NCT05003115|184363878|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-1.22||||0.258|TWO_SIDED|95.0|-3.33|0.89|||Regression, Linear|||||0.89|-3.33|0.258
92230306|NCT05003115|184363879|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-0.4||||0.857|TWO_SIDED|95.0|-4.75|3.96|||Regression, Linear|||||3.96|-4.75|0.857
92230307|NCT01147809|184363886|SUPERIORITY_OR_OTHER||Percent difference|21.1||||0.103|TWO_SIDED|95.0|-3.9|52.5|||ANCOVA|||||52.5|-3.9|0.103
92230308|NCT01147809|184363908|SUPERIORITY_OR_OTHER||Percent difference|12.9||||0.407|TWO_SIDED|95.0|-15.6|51.1|||ANCOVA|||||51.1|-15.6|0.407
92230309|NCT01147809|184363909|SUPERIORITY_OR_OTHER||Percent difference|-4.4||||0.802|TWO_SIDED|95.0|-33.5|37.4|||ANCOVA|||||37.4|-33.5|0.802
92230310|NCT01307423|184363917|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|12.1||||0.0062|TWO_SIDED|95.0|3.5|20.7|||Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||20.7|3.5|0.0062
92230311|NCT01307423|184363917|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|14.8||||0.001|TWO_SIDED|95.0|6.1|23.5|||Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||23.5|6.1|0.0010
92230312|NCT01307423|184363918|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.168||||0.0008|TWO_SIDED|95.0|-0.265|-0.071|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group as a factor, and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.071|-0.265|0.0008
92230313|NCT01307423|184363918|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.217|||<|0.0001|TWO_SIDED|95.0|-0.314|-0.12|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group as a factor, and the baseline value as a covariate||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.120|-0.314|<.0001
92230314|NCT01307423|184363919|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.1||||0.0002|TWO_SIDED|95.0|7.7|24.4||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||24.4|7.7|0.0002
92230315|NCT01307423|184363919|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.4||||0.0063|TWO_SIDED|95.0|3.3|19.4||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||19.4|3.3|0.0063
92230316|NCT01307423|184363920|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.168||||0.0014|TWO_SIDED|95.0|-0.271|-0.065||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA|Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and baseline value as a covariate||||-0.065|-0.271|0.0014
92376886|NCT01719003|184657253|SUPERIORITY_OR_OTHER||Adjusted mean|-23.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-29.7|-16.3||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 1000 mg bid minus Empagliflozin 25 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-16.3|-29.7|<0.0001
92376887|NCT01719003|184657253|SUPERIORITY_OR_OTHER||Adjusted Mean|-26.7|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-33.5|-20.0||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-20.0|-33.5|<0.0001
92376888|NCT01719003|184657253|SUPERIORITY_OR_OTHER||Adjusted mean|-16.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-22.8|-9.2||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 500 mg bid minus Empagliflozin 25 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-9.2|-22.8|<0.0001
92376889|NCT01719003|184657253|SUPERIORITY_OR_OTHER||Adjusted mean|-15.6|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-22.3|-8.9||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG of double-blind treatment||-8.9|-22.3|<0.0001
92376890|NCT01719003|184657253|SUPERIORITY_OR_OTHER||Adjusted Mean|-14.8|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-21.4|-8.2||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 1000 mg bid minus Empagliflozin 10 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-8.2|-21.4|<0.0001
92376891|NCT01719003|184657253|SUPERIORITY_OR_OTHER||Adjusted Mean|-28.2|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-35.0|-21.5||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-21.5|-35.0|<0.0001
92376892|NCT01719003|184657253|SUPERIORITY_OR_OTHER||Adjusted mean|-12.6|STANDARD_ERROR_OF_MEAN|3.4||0.0002|TWO_SIDED|95.0|-19.1|-6.0||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 500 mg bid minus Empagliflozin 10 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-6.0|-19.1|0.0002
92411107|NCT00612807|184712885|NON_INFERIORITY_OR_EQUIVALENCE|Testing whether means at each timepoint varied by identified patient status and treatment condition.|Interaction term|-12.97|STANDARD_ERROR_OF_MEAN|4.52||0.005||95.0||||We probed this interaction and discovered that at each assessment, spouses in the couple therapy + medication treatment group reported greater dyadic adjustment than did spouses in the medication alone condition (b = 10.53, z = 2.72, p = 0.006).|Fixed effect in multi-level model|||Utilized a hierarchical linear model with time nested within individual and individual nested within couple. Given the small sample size, we chose to include participants' baseline depression scores as a covariate, and model the trajectory of change in depression scores beginning with the second assessment, which occurred one month into the study. Additional fixed effect predictors included status as identified patient or spouse, treatment condition, time, and all possible interactions.||||0.005
92411108|NCT00829504|184712918|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.16||||||90.0|95.5|105.04|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||105.04|95.5|
92411109|NCT00829504|184712919|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.76||||||90.0|95.45|108.49|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.49|95.45|
92230317|NCT01307423|184363920|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.219|||<|0.0001|TWO_SIDED|95.0|-0.322|-0.117||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA|Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and baseline value as a covariate||||-0.117|-0.322|<.0001
92376893|NCT01719003|184657254|SUPERIORITY_OR_OTHER||Adjusted mean|-2.5|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-3.33|-1.68||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of body weight after 24 weeks of double-blind treatment.||-1.68|-3.33|<0.0001
92230318|NCT01307423|184363921|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.38||||0.0043|TWO_SIDED|95.0|0.75|4.01||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and baseline value as a covariate||||4.01|0.75|0.0043
92230319|NCT01307423|184363921|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.18||||0.0002|TWO_SIDED|95.0|1.55|4.82||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA|Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and baseline value as a covariate||||4.82|1.55|0.0002
92376894|NCT01719003|184657254|SUPERIORITY_OR_OTHER||Adjusted Mean|-2.52|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-3.35|-1.69||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of body weight after 24 weeks of double-blind treatment.||-1.69|-3.35|<0.0001
92376895|NCT01719003|184657254|SUPERIORITY_OR_OTHER||Adjusted mean|-2.2|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-3.03|-1.37||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of body weight after 24 weeks of double-blind treatment||-1.37|-3.03|<0.0001
92376896|NCT01719003|184657254|SUPERIORITY_OR_OTHER||Adjusted Mean|-2.26|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-3.09|-1.43||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of body weight after 24 weeks of double-blind treatment.||-1.43|-3.09|<0.0001
92376897|NCT02370095|184657255|SUPERIORITY|||||||0.2416|||||||Wilcoxon (Mann-Whitney)|||Only one placebo subject had data to allow for change from baseline to be calculated||||0.2416
92376898|NCT02370095|184657256|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|The change in S/F ratio over time was evaluated using a mixed model for repeated measures||||||0.06
92376899|NCT02370095|184657257|SUPERIORITY|||||||0.0679|||||||Wilcoxon (Mann-Whitney)|||||||0.0679
92376900|NCT02370095|184657262|SUPERIORITY|||||||0.567|||||||Mixed Models Analysis|Measurement of MAP were evaluated from baseline to end of treatment||||||0.567
92376901|NCT02370095|184657263|SUPERIORITY|||||||0.2507||||||The threshold for statistical significance was 0.05|Fisher Exact|||||||0.2507
92376902|NCT02370095|184657265|SUPERIORITY|||||||0.5055|||||||Fisher Exact|||||||0.5055
92376903|NCT00700102|184657268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0062|TWO_SIDED|95.0|0.69|0.94|||Log Rank|||||0.94|0.69|0.0062
92376904|NCT00700102|184657269|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.1713|TWO_SIDED|95.0|0.77|1.05|||Log Rank|||Kaplan Meier Estimate||1.05|0.77|0.1713
92376905|NCT00700102|184657271|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.0|0.59|0.78|||Log Rank|||||0.78|0.59|<.0001
92376906|NCT00700102|184657272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.3113|TWO_SIDED|95.0|-1.5|4.5|||Chi-squared|||||4.5|-1.5|0.3113
92376907|NCT00700102|184657272|SUPERIORITY_OR_OTHER|||||||0.4315|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.4315
92411110|NCT00829504|184712920|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.1||||||90.0|95.64|109.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109|95.64|
92411111|NCT03745820|184712937|SUPERIORITY||Least Squares (LS) Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|1.328|=|0.8472|TWO_SIDED|95.0|-2.88|2.37|||MMRM|||Mixed Model Repeated Measures(MMRM)model was used to analyze change from baseline of outcome measure(OM)using fixed effects of treatment group,region,study visit,study visit-by-treatment interaction,baseline value of OM,baseline-by-visit interaction.||2.37|-2.88|=0.8472
92411112|NCT03745820|184712937|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|1.323|=|0.8053|TWO_SIDED|95.0|-2.94|2.29|||MMRM|||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.||2.29|-2.94|=0.8053
92230320|NCT01307423|184363922|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|14.4||||0.0037|TWO_SIDED|95.0|4.8|24.0||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||24.0|4.8|0.0037
92376908|NCT02525939|184657280|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.12|TWO_SIDED|95.0|0.75|1.03||The estimated HR was presented with a 95% CI and a p-value. The primary analysis was conducted at the 0.05 significance level.|Stratified Cox proportional hazard model|||A stratified Cox proportional hazards model was used to analyze the primary endpoint. This model included treatment as a main effect, and region and acute coronary syndrome (ACS) index event type as stratification factors. The null and alternative hypotheses tested with the above Cox model were: H0: λ = 1 vs HA: λ ≠ 1, where λ is the, assumed constant, hazard ratio (HR) for the time to occurrence of the composite events of the primary endpoint for the dalcetrapib and placebo treated groups.||1.03|0.75|0.12
92376909|NCT02525939|184657281|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.95|TWO_SIDED|95.0|0.88|1.13|||Stratified Cox proportional hazard model|||Secondary endpoints were expressed as time to event and an analysis similar to that for the primary endpoint was conducted. In order to control the family-wise Type I error that results from the multiplicity of endpoints, the secondary endpoints were formally tested using the Hochberg's step-up procedure only if the primary analysis results in significant treatment effect at p\<0.05. Otherwise, statistical tests for the secondary endpoints were presented solely for illustrative purposes.||1.13|0.88|0.95
92376910|NCT02525939|184657282|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.27|TWO_SIDED|95.0|0.79|1.07|||Stratified Cox proportional hazard model|||Secondary endpoints were expressed as time to event and an analysis similar to that for the primary endpoint was conducted. In order to control the family-wise Type I error that results from the multiplicity of endpoints, the secondary endpoints were formally tested using the Hochberg's step-up procedure only if the primary analysis results in significant treatment effect at p\<0.05. Otherwise, statistical tests for the secondary endpoints were presented solely for illustrative purposes.||1.07|0.79|0.27
92376911|NCT02130986|184657295|SUPERIORITY||Mean Difference (Net)|-0.05||||0.87|TWO_SIDED||||||t-test, 2 sided|||||||0.87
92376912|NCT02130986|184657296|NON_INFERIORITY|Procalcitonin algorithm implementation increases or does not change the proportion of subjects who experience a composite endpoint of adverse outcomes by Day 30. The prespecified noninferiority margin is 4.5 percentage.|Risk Difference (RD)|-0.015|||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92376913|NCT02130986|184657297|SUPERIORITY||Risk Difference (RD)|-4.6|||||TWO_SIDED|95.0|-12.2|30.0||||||||30|-12.2|
92376914|NCT03849690|184657303|OTHER|Analysis of variance (ANOVA) performed on natural log(ln)-transformed TAK-906 Cmax which exponentiated to provide estimates on original scale. ANOVA model included treatment as fixed effect and participant as random effect. Each ANOVA included calculation of least-squares means(LSM) and difference between treatment LSM. Geometric mean ratios and 90% confidence interval (CI) were determined by exponentiation of appropriate estimates for difference between treatments in log-transformed parameters.|Geometric mean ratio|0.87||||0.3011|TWO_SIDED|90.0|0.7|1.09|||ANOVA|||||1.09|0.70|0.3011
92376915|NCT03849690|184657304|OTHER|ANOVA was performed on ln-transformed TAK-906 AUClast which were exponentiated to provide estimates on original scale. ANOVA model included treatment as fixed effect and participant as a random effect. Each ANOVA included calculation of LSM and difference between treatment LSM. Geometric mean ratios and 90 percent (%) CI were determined by exponentiation of appropriate estimates for difference between treatments in log-transformed parameters.|Geometric mean ratio|0.88||||0.0865|TWO_SIDED|90.0|0.77|0.99|||ANOVA|||||0.99|0.77|0.0865
92376916|NCT03849690|184657305|OTHER|ANOVA was performed on ln-transformed TAK-906 AUC∞ which were exponentiated to provide estimates on original scale. ANOVA model included treatment as fixed effect and participant as a random effect. Each ANOVA included calculation of LSM and difference between treatment LSM. Geometric mean ratios and 90% CI were determined by exponentiation of appropriate estimates for difference between treatments in log-transformed parameters.|Geometric mean ratio|0.88||||0.3011|TWO_SIDED|90.0|0.78|1.0|||ANOVA|||||1.00|0.78|0.3011
92376917|NCT01319721|184657310|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92411113|NCT03745820|184712941|SUPERIORITY||LS Mean Difference|3.43|STANDARD_ERROR_OF_MEAN|1.835|=|0.0637|TWO_SIDED|95.0|-0.2|7.06|||ANCOVA|||An analysis of covariance (ANCOVA) model was applied adjusting for treatment group and baseline value of the OM.||7.06|-0.20|=0.0637
92411114|NCT03745820|184712941|SUPERIORITY||LS Mean Difference|3.42|STANDARD_ERROR_OF_MEAN|1.844|=|0.0659|TWO_SIDED|95.0|-0.23|7.06|||ANCOVA|||An ANCOVA model was applied adjusting for treatment group and baseline value of the OM.||7.06|-0.23|=0.0659
92411115|NCT03745820|184712942|SUPERIORITY||LS Mean Difference|0.208|STANDARD_ERROR_OF_MEAN|0.09|=|0.6653|TWO_SIDED|95.0|-0.32|0.5|||ANCOVA|||An ANCOVA model was applied adjusting for treatment group and baseline value of the OM.||0.50|-0.32|=0.6653
92411116|NCT03745820|184712942|SUPERIORITY||LS Mean Difference|0.206|STANDARD_ERROR_OF_MEAN|0.1|=|0.614|TWO_SIDED|95.0|-0.3|0.51|||ANCOVA|||An ANCOVA model was applied adjusting for treatment group and baseline value of the OM.||0.51|-0.30|=0.6140
92376918|NCT01319721|184657311|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92376919|NCT01319721|184657312|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.05
92376920|NCT01319721|184657313|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92376921|NCT01319721|184657314|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92376922|NCT03840525|184657320|EQUIVALENCE|To estimate precision, 95%CI will be calculated using Wilson's score method, which uses asymptotic variance and is appropriate for small sample sizes100. The formula is as follows: (2np + z2 ± √(z2 + 4npq)) / 2(n+ z2). If the proportion of participants who rate the intervention as acceptable is 80% or greater, we will consider the intervention acceptable.|||||||||||||||||Descriptive statistics were conducted. No group comparisons were done due to the fact that this was a feasibility trial and not an efficacy trial. 80% was used as the benchmark for acceptability.|||
92230321|NCT01307423|184363922|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|21.0|||<|0.0001|TWO_SIDED|95.0|11.3|30.7||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||30.7|11.3|<.0001
92230322|NCT01307423|184363923|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.0||||0.0485|TWO_SIDED|95.0|-10.0|0.0||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group as a factor, and the baseline value as a covariate||||-0.0|-10.0|0.0485
92230323|NCT01307423|184363923|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.8||||0.0022|TWO_SIDED|95.0|-12.8|-2.8||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group as a factor, and the baseline value as a covariate||||-2.8|-12.8|0.0022
92230324|NCT01307423|184363924|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.7696|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||0.6|-0.8|0.7696
92376923|NCT03840525|184657321|EQUIVALENCE|To estimate precision, 95%CI will be calculated using Wilson's score method, which uses asymptotic variance and is appropriate for small sample sizes100. The formula is as follows: (2np + z2 ± √(z2 + 4npq)) / 2(n+ z2). If the proportion of participants who rate the intervention as acceptable is 80% or greater, we will consider the intervention acceptable.|||||||||||||||||Descriptive statistics was conducted to determine acceptability for both the qigong and sham qigong group. No between group comparisons were conducted. A benchmark of 80% was used to determine acceptability.|||
92376924|NCT03840525|184657322|EQUIVALENCE|To estimate precision, 95%CI will be calculated using Wilson's score method, which uses asymptotic variance and is appropriate for small sample sizes100. The formula is as follows: (2np + z2 ± √(z2 + 4npq)) / 2(n+ z2). If the proportion of participants who rate the intervention as acceptable is 80% or greater, we will consider the intervention acceptable.|||||||||||||||||Descriptive statistics were conducted to determine acceptability. Benchmark for acceptability was set at 80% of participant attending at least 70% of the classes.|||
92411117|NCT03745820|184712943|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.033|=|0.2886|TWO_SIDED|95.0|-3.14|0.94|||MMRM|||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.||0.94|-3.14|=0.2886
92411118|NCT03745820|184712943|SUPERIORITY||LS Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|1.032|=|0.6349|TWO_SIDED|95.0|-1.55|2.53|||MMRM|||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.||2.53|-1.55|=0.6349
92411119|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|1.345|=|0.7372|TWO_SIDED|95.0|-2.21|3.11||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Verbal Learning: Change From Baseline at Week 12||3.11|-2.21|=0.7372
92230325|NCT01307423|184363924|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0||||0.0038|TWO_SIDED|95.0|-1.7|-0.3||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-0.3|-1.7|0.0038
92230326|NCT01307423|184363925|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|||||TWO_SIDED|95.0|-1.6|-0.2|||||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-0.2|-1.6|
92230327|NCT01307423|184363925|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|||||TWO_SIDED|95.0|-1.4|0.0|||||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-0.0|-1.4|
92376925|NCT00953680|184657384|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|0.993||||||90.0|0.95|1.039||||||Least-Squares Mean Ratio (A/B); A= Single dose losartan 100 mg-HCTZ 12.5 mg combination tablet; B= Single dose losartan 100 mg tablet + HCTZ 12.5 mg capsule||1.039|0.950|
92376926|NCT00953680|184657385|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|0.835||||||90.0|0.749|0.931||||||Least-Squares Mean Ratio (A/B); A= Single dose losartan 100 mg-HCTZ 12.5 mg combination tablet; B= Single dose losartan 100-mg tablet + HCTZ 12.5 mg capsule||0.931|0.749|
92411120|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|1.346|=|0.6894|TWO_SIDED|95.0|-3.2|2.12||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Verbal Learning: Change From Baseline at Week 12||2.12|-3.20|=0.6894
92411121|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|-2.14|STANDARD_ERROR_OF_MEAN|1.162|=|0.0674|TWO_SIDED|95.0|-4.44|0.16||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Speed of Processing: Change From Baseline at Week 12||0.16|-4.44|=0.0674
92230328|NCT01307423|184363926|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.91|||||TWO_SIDED|95.0|-7.04|-2.78|||||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-2.78|-7.04|
92230329|NCT01307423|184363926|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.65|||||TWO_SIDED|95.0|-7.78|-3.51|||||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-3.51|-7.78|
92230330|NCT01307423|184363927|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|||<|0.0001|TWO_SIDED|95.0|-0.67|-0.25|||ANCOVA||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-0.25|-0.67|<0.0001
92230331|NCT01307423|184363927|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.32|||ANCOVA||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-0.32|-0.74|<0.0001
92230332|NCT01307423|184363928|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|1.12|||||TWO_SIDED|95.0|-0.63|2.87|||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||2.87|-0.63|
92169170|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.93||0.5678|TWO_SIDED|95.0|-1.3|2.36|||ANCOVA|||Week 24: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.36|-1.30|0.5678
92230333|NCT01307423|184363928|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|2.55|||||TWO_SIDED|95.0|0.8|4.31|||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||4.31|0.80|
92230334|NCT01307423|184363929|SUPERIORITY_OR_OTHER_LEGACY||LS Means Difference|1.97|||||TWO_SIDED|95.0|0.28|3.65|||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||3.65|0.28|
92230335|NCT01307423|184363929|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.72|||||TWO_SIDED|95.0|2.02|5.41|||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||5.41|2.02|
92376927|NCT00953680|184657386|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|0.924||||||90.0|0.825|1.035||||||Least-Squares Mean Ratio (A/B); A= Single dose losartan 100 mg-HCTZ 12.5 mg combination tablet; B= Single dose losartan 100 mg tablet + HCTZ 12.5 mg capsule||1.035|0.825|
92230336|NCT01307423|184363930|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|19.5|||||TWO_SIDED|95.0|10.5|28.6|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||28.6|10.5|
92230337|NCT01307423|184363930|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|18.2|||||TWO_SIDED|95.0|9.2|27.2|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||27.2|9.2|
92376928|NCT00953680|184657387|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|0.931||||||90.0|0.836|1.037||||||Least-Squares Mean Ratio (A/B); A= Single dose losartan 100 mg-HCTZ 12.5 mg combination tablet; B= Single dose losartan 100 mg tablet + HCTZ 12.5 mg capsule||1.037|0.836|
92376929|NCT00628589|184657480|SUPERIORITY|LS mean was used in the primary efficacy analysis||||||0.0004|||||||ANCOVA|p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model||||||0.0004
92230338|NCT01307423|184363931|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.6|||||TWO_SIDED|95.0|-10.6|-0.5|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||-0.5|-10.6|
92230339|NCT01307423|184363931|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.7|||||TWO_SIDED|95.0|-10.8|-0.7|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||-0.7|-10.8|
92230340|NCT01307423|184363932|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|||||TWO_SIDED|95.0|-1.0|0.4|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||0.4|-1.0|
92230341|NCT01307423|184363932|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|||||TWO_SIDED|95.0|-1.6|-0.2|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-0.2|-1.6|
92376930|NCT00628589|184657480|SUPERIORITY||||||<|0.0001|||||||ANCOVA|p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model||||||<0.0001
92376931|NCT00628589|184657481|SUPERIORITY|||||||0.0015|||||||Fisher Exact|||||||0.0015
92230342|NCT01307423|184363933|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|||||TWO_SIDED|95.0|-1.7|-0.3|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-0.3|-1.7|
92376932|NCT00628589|184657481|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92376933|NCT00628589|184657482|SUPERIORITY|||||||0.0015|||||||Fisher Exact|||||||0.0015
92376934|NCT00628589|184657482|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92376935|NCT01688739|184657501|OTHER||Ratio of Geometric Means|1.1||||0.7595|TWO_SIDED|90.0|0.8|1.4|||ANCOVA||Migraine participants / Healthy Participants|||1.4|0.8|0.7595
92376936|NCT01688739|184657503|OTHER||Ratio of Geometric Means|1.1||||0.5481|TWO_SIDED|90.0|0.9|1.4|||ANCOVA||Migraine participants / Healthy participants|||1.4|0.9|0.5481
92376937|NCT01688739|184657504|OTHER||Ratio of Geometric Means|1.1||||0.5506|TWO_SIDED|90.0|0.9|1.4|||ANCOVA||Migraine participants / Healthy participants|||1.4|0.9|0.5506
92376938|NCT02406443|184657506|SUPERIORITY||Mean Difference (Final Values)|46.0|||=|0.012|TWO_SIDED||||||Regression, Linear|||||||=0.012
92376939|NCT02406443|184657507|SUPERIORITY||Median Difference (Final Values)|5.7||||0.4|TWO_SIDED||||||Regression, Linear|||||||0.40
92376940|NCT02406443|184657508|SUPERIORITY||Mean Difference (Final Values)|22.0||||0.15|TWO_SIDED||||||Regression, Linear|||||||0.15
92230343|NCT01307423|184363933|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6|||||TWO_SIDED|95.0|-1.4|0.1|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||0.1|-1.4|
92376941|NCT02406443|184657509|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
92230344|NCT01307423|184363934|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.07|||||TWO_SIDED|95.0|-7.31|-2.84|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-2.84|-7.31|
92230345|NCT01307423|184363934|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.14|||||TWO_SIDED|95.0|-7.38|-2.89|||||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-2.89|-7.38|
92230346|NCT01307423|184363935|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.23|||ANCOVA||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-0.23|-0.70|<0.0001
92230347|NCT01307423|184363935|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46||||0.0001|TWO_SIDED|95.0|-0.69|-0.22|||ANCOVA||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-0.22|-0.69|0.0001
92411122|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|1.161|=|0.7132|TWO_SIDED|95.0|-2.72|1.87||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Speed of Processing: Change From Baseline at Week 12||1.87|-2.72|=0.7132
92230348|NCT01307423|184363936|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.12|||||TWO_SIDED|95.0|-0.68|2.93|||||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||2.93|-0.68|
92230349|NCT01307423|184363936|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.33|||||TWO_SIDED|95.0|0.52|4.15|||||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||4.15|0.52|
92230350|NCT01307423|184363937|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.6|||||TWO_SIDED|95.0|-10.2|15.5|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||15.5|-10.2|
92230351|NCT01307423|184363937|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|17.0|||||TWO_SIDED|95.0|4.2|29.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||29.8|4.2|
92230352|NCT01307423|184363938|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.3|||||TWO_SIDED|95.0|-7.8|20.4|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||20.4|-7.8|
92230353|NCT01307423|184363938|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|1.9|||||TWO_SIDED|95.0|-12.6|16.4|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||16.4|-12.6|
92230354|NCT01307423|184363939|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.1|||||TWO_SIDED|95.0|6.4|25.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||25.8|6.4|
92230355|NCT01307423|184363939|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|19.3|||||TWO_SIDED|95.0|9.6|29.1|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||29.1|9.6|
92230356|NCT01307423|184363940|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.0|||||TWO_SIDED|95.0|-6.8|18.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||18.8|-6.8|
92411123|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|1.203|=|0.9428|TWO_SIDED|95.0|-2.46|2.29||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Attention/Vigilance: Change From Baseline at Week 12||2.29|-2.46|=0.9428
92230357|NCT01307423|184363940|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|18.0|||||TWO_SIDED|95.0|5.3|30.6|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||30.6|5.3|
92230358|NCT01307423|184363941|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.9|||||TWO_SIDED|95.0|-2.1|25.9|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||25.9|-2.1|
92230359|NCT01307423|184363941|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|5.3|||||TWO_SIDED|95.0|-9.2|19.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||19.8|-9.2|
92230360|NCT01307423|184363942|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|17.8|||||TWO_SIDED|95.0|8.8|26.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||26.8|8.8|
92230361|NCT01307423|184363942|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.4|||||TWO_SIDED|95.0|2.7|20.0|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||20.0|2.7|
92230362|NCT01307423|184363943|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.9|||||TWO_SIDED|95.0|1.3|12.5|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||12.5|1.3|
92230363|NCT01307423|184363943|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.8|||||TWO_SIDED|95.0|1.2|12.4|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||12.4|1.2|
92376942|NCT02406443|184657510|SUPERIORITY||Mean Difference (Final Values)|2.4|||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
92376943|NCT02406443|184657511|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.42|TWO_SIDED||||||Regression, Linear|||||||0.42
92376944|NCT06276881|184657532|SUPERIORITY|||||||0.37|||||||t-test, 1 sided||||Multiple regression analysis|||.37
92376945|NCT06276881|184657533|SUPERIORITY|||||||0.07|||||||ANOVA|||||||.07
92376946|NCT02583230|184657535|SUPERIORITY|||||||0.0005|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was used to evaluate the change in PHQ-9 total scores over the eight-week study period.||||||.0005
92230364|NCT01307423|184363944|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.9|||||TWO_SIDED|95.0|-0.4|6.2|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||6.2|-0.4|
92230365|NCT01307423|184363944|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-0.4|6.1|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||6.1|-0.4|
92278040|NCT00782509|184458135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0122||95.0|-0.5|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.1|-0.5|0.0122
92230366|NCT01307423|184363945|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.8|||||TWO_SIDED|95.0|3.2|16.3|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||16.3|3.2|
92230367|NCT01307423|184363945|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.3|||||TWO_SIDED|95.0|0.2|12.3|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||12.3|0.2|
92230368|NCT01307423|184363946|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-4.1|4.1|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||4.1|-4.1|
92230369|NCT01307423|184363946|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.6|||||TWO_SIDED|95.0|-3.7|4.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||4.8|-3.7|
92278041|NCT00782509|184458135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0008||95.0|-0.6|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.1|-0.6|0.0008
92376947|NCT02583230|184657536|SUPERIORITY|||||||0.0008|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was used to evaluate the change in QIDS total scores over the eight-week study period.||||||.0008
92230370|NCT01307423|184363947|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.2|||||TWO_SIDED|95.0|-8.1|12.6|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||12.6|-8.1|
92230371|NCT01307423|184363947|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|17.8|||||TWO_SIDED|95.0|6.3|29.3|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||29.3|6.3|
92230372|NCT01307423|184363948|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.4|||||TWO_SIDED|95.0|-4.8|23.5|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||23.5|-4.8|
92230373|NCT01307423|184363948|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|7.1|||||TWO_SIDED|95.0|-7.2|21.5|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||21.5|-7.2|
92376948|NCT01340937|184657537|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the Geometric Mean Concentration (GMC) ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.91|||||TWO_SIDED|95.0|0.77|1.08|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.08|0.77|
92376949|NCT01340937|184657537|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.86|||||TWO_SIDED|95.0|0.72|1.02|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.02|0.72|
92376950|NCT01340937|184657537|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|0.94|||||TWO_SIDED|95.0|0.79|1.12|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.12|0.79|
92411124|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|0.93|STANDARD_ERROR_OF_MEAN|1.202|=|0.4425|TWO_SIDED|95.0|-1.45|3.3||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Attention/Vigilance: Change From Baseline at Week 12||3.30|-1.45|=0.4425
92230374|NCT01307423|184363949|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.5|||||TWO_SIDED|95.0|-4.8|17.7|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||17.7|-4.8|
92376951|NCT01340937|184657537|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.63|||<|0.001|TWO_SIDED|95.0|1.35|1.98|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.98|1.35|<0.001
92376952|NCT01340937|184657538|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|-0.48|||||TWO_SIDED|95.0|-4.31|3.35|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|Equivalence for titer \>=1 µg/mL||3.35|-4.31|
92278042|NCT00782509|184458136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0028||95.0|-0.5|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.1|-0.5|0.0028
92376953|NCT01340937|184657538|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|-1.62|||||TWO_SIDED|95.0|-5.38|2.12|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|Equivalence for titer \>=1 µg/mL||2.12|-5.38|
92376954|NCT01340937|184657538|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-1.16|||||TWO_SIDED|95.0|-4.89|2.58|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|Equivalence for titer \>=1 µg/mL||2.58|-4.89|
92376955|NCT01340937|184657538|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|7.93|||<|0.001|TWO_SIDED|95.0|3.38|13.17|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||Non-inferiority for titer \>=1 µg/mL||13.17|3.38|<0.001
92230375|NCT01307423|184363949|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|15.2|||||TWO_SIDED|95.0|3.4|27.1|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||27.1|3.4|
92230376|NCT01307423|184363950|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|10.5|||||TWO_SIDED|95.0|-3.8|24.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||24.8|-3.8|
92230377|NCT01307423|184363950|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|4.9|||||TWO_SIDED|95.0|-9.5|19.3|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||19.3|-9.5|
92230378|NCT00805207|184363990|OTHER|||||||0.85|||||||t-test, 2 sided|||||||0.85
92230379|NCT00805207|184363990|OTHER|||||||0.7|||||||t-test, 2 sided|||||||0.70
92230380|NCT00805207|184363990|OTHER|||||||0.88||||||P-value is the main effect of treatment (i.e., Before vs. After) from ANOVA|ANOVA|VLDL-TG secretion rates were skewed and log transformed prior to performing ANOVA||||||0.88
92230381|NCT00805207|184363990|OTHER|||||||0.26||||||P-value is the main effect of group (i.e., Testosterone, Progesterone, Estrogen and Control) from ANOVA|ANOVA|VLDL-TG secretion rates were skewed and log transformed prior to performing ANOVA||||||0.26
92230382|NCT00805207|184363990|OTHER|||||||0.98||||||P value is the group by treatment interaction from the ANOVA|ANOVA|VLDL-TG secretion rates were skewed and log transformed prior to performing ANOVA||||||0.98
92230383|NCT00805207|184363991|OTHER|||||||0.31|||||||t-test, 2 sided|||||||0.31
92230384|NCT00805207|184363991|OTHER|||||||0.82|||||||t-test, 2 sided|||||||0.82
92230385|NCT00805207|184363991|OTHER||||||<|0.05|||||||ANCOVA|||||||<0.05
92230386|NCT00805207|184363991|OTHER|||||||0.87|||||||ANCOVA|||||||0.87
92230387|NCT00805207|184363991|OTHER|||||||0.57|||||||ANCOVA|||||||0.57
92230388|NCT00805207|184363992|OTHER|||||||0.94|||||||t-test, 2 sided|||||||0.94
92230389|NCT00805207|184363992|OTHER||||||<|0.05|||||||ANCOVA|||||||<0.05
92230390|NCT00805207|184363992|OTHER|||||||0.53|||||||ANCOVA|||||||0.53
92230391|NCT00805207|184363992|OTHER|||||||0.23|||||||ANCOVA|||||||0.23
92230392|NCT00805207|184363993|OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.80
92230393|NCT00805207|184363994|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92230394|NCT00805207|184363994|OTHER||||||<|0.01||||||P-value is the main effect of treatment (i.e., Before vs. After) from ANOVA|ANOVA|||||||<0.01
92230395|NCT00805207|184363994|OTHER|||||||0.96||||||P-value is the main effect of group (i.e., Testosterone, Progesterone, Estrogen and Control) from ANOVA|ANOVA|||||||0.96
92230396|NCT00805207|184363994|OTHER||||||<|0.05||||||P value is the group by treatment interaction from the ANOVA|ANOVA|||||||<0.05
92230397|NCT00805207|184363994|OTHER||||||<|0.01|||||||Tukey test|||||||<0.01
92230398|NCT00805207|184363994|OTHER||||||<|0.01|||||||Tukey test|||||||<0.01
92230399|NCT00805207|184363994|OTHER||||||>|0.1|||||||Tukey test|||||||>0.10
92230400|NCT00805207|184363994|OTHER||||||>|0.1|||||||Tukey test|||||||>0.10
92230401|NCT00064701|184363995|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|-1.9|||||TWO_SIDED|95.2|-8.9|5.2||||||||5.2|-8.9|
92230402|NCT00064701|184363995|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|-3.0|||||TWO_SIDED|95.2|-9.9|4.0||||||||4.0|-9.9|
92230403|NCT00064701|184363996|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|-3.3|||||TWO_SIDED|95.0|-7.2|0.6||||||||0.6|-7.2|
92230404|NCT00064701|184363996|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|0.0|||||TWO_SIDED|95.0|-3.1|3.2||||||||3.2|-3.1|
92230405|NCT00064701|184363997|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|-3.8|||||TWO_SIDED|95.0|-8.5|0.9||||||||0.9|-8.5|
92230406|NCT00064701|184363997|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|0.0|||||TWO_SIDED|95.0|-4.0|4.1||||||||4.1|-4.0|
92230407|NCT00064701|184363998|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference at 6 Months|-8.0|||||TWO_SIDED|95.0|-13.1|-3.0||||||Comparison of tacrolimus with cyclosporine at 6 months||-3.0|-13.1|
92230408|NCT00064701|184363998|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference at 6 Months|-3.8|||||TWO_SIDED|95.0|-9.5|1.8||||||Comparison of Tacrolimus Modified Release with Cyclosporine at 6 months||1.8|-9.5|
92230409|NCT00064701|184363998|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference at 12 Months|-6.1|||||TWO_SIDED|95.0|-12.0|-0.3||||||Comparison of tacrolimus with cyclosporine at 12 months||-0.3|-12.0|
92230410|NCT00064701|184363998|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference at 12 months|-3.4|||||TWO_SIDED|95.0|-9.6|2.8||||||Comparison of Tacrolimus Modified Release with Cyclosporine at 12 months||2.8|-9.6|
92230411|NCT00064701|184364008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-6.5|5.5||||||||5.5|-6.5|
92230412|NCT00064701|184364008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0|-3.9|6.9||||||||6.9|-3.9|
92230413|NCT00064701|184364009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-9.1|6.6||||||||6.6|-9.1|
92230414|NCT00064701|184364009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|||||TWO_SIDED|95.0|-7.1|8.6||||||||8.6|-7.1|
92239648|NCT00637273|184383084|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.25||0.1117|TWO_SIDED|95.0|-0.5|4.5||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in systolic blood pressure from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of systolic blood pressure as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||4.5|-0.5|0.1117
92411125|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|-1.51|STANDARD_ERROR_OF_MEAN|1.597|=|0.3455|TWO_SIDED|95.0|-4.66|1.64||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Visual Learning: Change From Baseline at Week 12||1.64|-4.66|=0.3455
92411126|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|1.595|=|0.9686|TWO_SIDED|95.0|-3.09|3.21||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Visual Learning: Change From Baseline at Week 12||3.21|-3.09|=0.9686
92411127|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|1.18|STANDARD_ERROR_OF_MEAN|1.351|=|0.3832|TWO_SIDED|95.0|-1.49|3.85||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Social Cognition: Change From Baseline at Week 12||3.85|-1.49|=0.3832
92411128|NCT03745820|184712944|SUPERIORITY||LS Mean DIfference|1.07|STANDARD_ERROR_OF_MEAN|1.357|=|0.4297|TWO_SIDED|95.0|-1.61|3.75||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Social Cognition: Change From Baseline at Week 12||3.75|-1.61|=0.4297
92411129|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|1.438|=|0.6245|TWO_SIDED|95.0|-3.55|2.14||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Reasoning and Problem Solving: Change From Baseline at Week 12||2.14|-3.55|=0.6245
92230415|NCT01818297|184364010|SUPERIORITY||Risk Difference (RD)|11.5|STANDARD_ERROR_OF_MEAN|10.5||0.14|ONE_SIDED|95.0|-5.8|||Due to early termination, the study was insufficiently powered to test the primary objective. This analysis is exploratory and descriptive in nature and cannot be considered conclusive.|Z-test|The Z-test (using an unpooled standard deviation, without continuity correction) was used to test the difference in responder rates between groups.|The Estimation Parameter is the difference between the responder rates in the Treatment and Control groups. The difference is calculated as Treatment - Control. A positive number represents a higher responder rate in the Treatment group.|The original sample size estimate for the primary objective was based on the following assumptions: 109 subjects in each arm with a responder rate of 22% in the Control group and 40% in the Treatment group, and a one-sided α= 0.05 using a Z test with unpooled variance, would result in 90% power. Because the study terminated early, the actual sample size (32 in Treatment, 30 in Control) resulted in 47% power under the same assumptions.|||-5.8|0.14
92411130|NCT03745820|184712944|SUPERIORITY||LS Mean Difference|1.59|STANDARD_ERROR_OF_MEAN|1.436|=|0.2698|TWO_SIDED|95.0|-1.25|4.43||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Reasoning and Problem Solving: Change From Baseline at Week 12||4.43|-1.25|=0.2698
92411131|NCT03745820|184712945|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.61|=|0.4654|TWO_SIDED|95.0|-1.65|0.76||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Positive Symptoms Subscale: Change From Baseline at Week 12||0.76|-1.65|=0.4654
92411132|NCT03745820|184712945|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.608|=|0.5886|TWO_SIDED|95.0|-1.53|0.87||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Positive Symptoms Subscale: Change From Baseline at Week 12||0.87|-1.53|=0.5886
92411133|NCT03745820|184712945|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.655|=|0.9079|TWO_SIDED|95.0|-1.37|1.22||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Negative Symptoms Subscale: Change From Baseline at Week 12||1.22|-1.37|=0.9079
92411134|NCT03745820|184712945|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.65|=|0.4441|TWO_SIDED|95.0|-1.78|0.79||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Negative Symptoms Subscale: Change From Baseline at Week 12||0.79|-1.78|=0.4441
92411135|NCT03745820|184712945|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.017|=|0.5537|TWO_SIDED|95.0|-5.18|2.79||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Total Score: Change From Baseline at Week 12||2.79|-5.18|=0.5537
92411136|NCT03745820|184712945|SUPERIORITY||LS Mean Difference|-1.96|STANDARD_ERROR_OF_MEAN|2.018|=|0.332|TWO_SIDED|95.0|-5.95|2.02||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Total Score: Change From Baseline at Week 12||2.02|-5.95|=0.3320
92411137|NCT03745820|184712946|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.128|=|0.8517|TWO_SIDED|95.0|-0.23|0.28|||MMRM|||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.||0.28|-0.23|=0.8517
92376956|NCT01340937|184657538|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (Comb - Ctrl)|2.2|||<|0.001|TWO_SIDED|95.0|0.39|5.12|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||Non-inferiority for titer \>=0.15 µg/mL||5.12|0.39|<0.001
92376957|NCT01340937|184657539|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.87|||||TWO_SIDED|95.0|0.76|0.98|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.98|0.76|
92376958|NCT01340937|184657539|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.85|||||TWO_SIDED|95.0|0.74|0.96|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.96|0.74|
92411138|NCT03745820|184712946|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.128|=|0.9952|TWO_SIDED|95.0|-0.25|0.25|||MMRM|||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.||0.25|-0.25|=0.9952
92411139|NCT01248104|184712952|SUPERIORITY_OR_OTHER_LEGACY|Continuous variables were compared by multivariate linear regression analysis to adjust for possible covariates of intraoperative fluids, age, bypass time, and procedure time. Tukey-Kramer test was then used to compare for specific differences between groups for each variable. Categorical data were compared using Fisher's exact test. All comparisons were made at a significance level of 0.05, and analysis was performed with Minitab version 17).||||||0.35||||||The primary outcome measure showed that there was no difference in PRBC transfusion frequency or amounts in the operating room or the in ICU up to POD 2|ANOVA|||A power analysis based on the comparison of a 15% difference in total transfusion amounts up to POD 2 between the treatment groups indicated a total sample size of 80 with a power of 0.8, confidence interval 0.9, and p= 0.05.||||0.35
92230416|NCT00749190|184364020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.0226|TWO_SIDED|95.0|-0.44|-0.03||P-values are regarded as descriptive, adjustment for multiple testing was not necessary.|ANCOVA|Based on ANCOVA with terms for treatment, number of previously used anti-diabetic medications, country and baseline.|Difference calculated as empagliflozin 1 mg minus placebo|||-0.03|-0.44|0.0226
92230417|NCT00749190|184364020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.1||0.0002|TWO_SIDED|95.0|-0.59|-0.18||P-values are regarded as descriptive, adjustment for multiple testing was not necessary.|ANCOVA|Based on ANCOVA with terms for treatment, number of previously used anti-diabetic medications, country and baseline.|Difference calculated as empagliflozin 5 mg minus placebo|||-0.18|-0.59|0.0002
92230418|NCT00749190|184364020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.91|-0.51||P-values are regarded as descriptive, adjustment for multiple testing was not necessary.|ANCOVA|Based on ANCOVA with terms for treatment, number of previously used anti-diabetic medications, country and baseline.|Difference calculated as empagliflozin 10 mg minus placebo|||-0.51|-0.91|<0.0001
92411140|NCT01410357|184712965|SUPERIORITY|||||||0.785||||||Bonferroni corrections were conducted to adjust for multiple comparisons.|Mixed Models Analysis|||||||.785
92411141|NCT01410357|184712966|SUPERIORITY|||||||0.016|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||.016
92376959|NCT01340937|184657539|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|0.98|||||TWO_SIDED|95.0|0.86|1.11|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.11|0.86|
92240256|NCT00051558|184383967|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.009
92376960|NCT01340937|184657540|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.95|||||TWO_SIDED|95.0|0.84|1.07|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.07|0.84|
92376961|NCT01340937|184657540|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.97|||||TWO_SIDED|95.0|0.86|1.09|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.09|0.86|
92376962|NCT01340937|184657540|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|1.02|||||TWO_SIDED|95.0|0.9|1.14|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.14|0.90|
92411142|NCT01410357|184712967|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||<0.001
92411143|NCT01410357|184712968|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||.003
92411144|NCT01410357|184712969|SUPERIORITY|||||||0.086|||||||Mixed Models Analysis|||||||.086
92411145|NCT01410357|184712970|SUPERIORITY|||||||0.872|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||.872
92411146|NCT01410357|184712971|SUPERIORITY|||||||0.662|||||||Mixed Models Analysis|||||||.662
92411147|NCT01410357|184712972|SUPERIORITY|||||||0.633|||||||Mixed Models Analysis|||||||.633
92411148|NCT01410357|184712973|SUPERIORITY|||||||0.175|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||.175
92411149|NCT01410357|184712974|SUPERIORITY|||||||0.68|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||.680
92230419|NCT00749190|184364020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.91|-0.5||P-values are regarded as descriptive, adjustment for multiple testing was not necessary.|ANCOVA|Based on ANCOVA with terms for treatment, number of previously used anti-diabetic medications, country and baseline.|Difference calculated as empagliflozin 25 mg minus placebo|||-0.50|-0.91|<0.0001
92230420|NCT00749190|184364020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.84|-0.43||P-values are regarded as descriptive, adjustment for multiple testing was not necessary.|ANCOVA|Based on ANCOVA with terms for treatment, number of previously used anti-diabetic medications, country and baseline.|Difference calculated as empagliflozin 50 mg minus placebo|||-0.43|-0.84|<0.0001
92230421|NCT03726268|184364084|OTHER|||||||0.97|||||||Negative binomial regression|||||||0.970
92376963|NCT01340937|184657541|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.97|||||TWO_SIDED|95.0|0.91|1.04|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.04|0.91|
92230422|NCT03726268|184364084|OTHER|||||||0.631|||||||Negative binomial regression|||||||0.631
92376964|NCT01340937|184657541|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|1.02|||||TWO_SIDED|95.0|0.95|1.09|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.09|0.95|
92376965|NCT01340937|184657541|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|1.05|||||TWO_SIDED|95.0|0.98|1.13|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.13|0.98|
92376966|NCT01340937|184657542|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|1.03|||||TWO_SIDED|95.0|0.96|1.1|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.10|0.96|
92376967|NCT01340937|184657542|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|1.02|||||TWO_SIDED|95.0|0.95|1.09|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.09|0.95|
92230423|NCT03726268|184364085|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92230424|NCT03726268|184364085|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92376968|NCT01340937|184657542|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|0.99|||||TWO_SIDED|95.0|0.92|1.06|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.06|0.92|
92376969|NCT01340937|184657542|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.2|||<|0.001|TWO_SIDED|95.0|1.11|1.29|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Secondary analysis||1.29|1.11|<0.001
92230425|NCT03726268|184364086|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92230426|NCT03726268|184364086|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92230427|NCT03726268|184364087|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92411150|NCT01410357|184712975|SUPERIORITY|||||||0.407|||||||Mixed Models Analysis|||||||.407
92230428|NCT03726268|184364087|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92230429|NCT03726268|184364088|OTHER|||||||0.105|||||||Negative binomial regression|||||||0.105
92230430|NCT03726268|184364088|OTHER|||||||0.531|||||||Negative binomial regression|||||||0.531
92376970|NCT01340937|184657543|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.89|||||TWO_SIDED|95.0|0.83|0.96|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.96|0.83|
92411151|NCT01410357|184712976|SUPERIORITY|||||||0.87|||||||Mixed Models Analysis|||||||.870
92411152|NCT01410357|184712977|SUPERIORITY|||||||0.707|||||||Mixed Models Analysis|||||||.707
92230431|NCT00490542|184364089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4|||||TWO_SIDED|95.0|0.6|10.2||||||||10.2|0.6|
92230432|NCT03136107|184364108|EQUIVALENCE|Statistical criterion defined in ISO 24444:2010 is that the 95 %CI is within ±17 % of the mean SPF||||||||||||||||CI % values (which is the percentage that half the 95 % CI represents of the mean values).|Test product CI of ±16.4% and reference product CI of ±16.6% of the mean SPF.|||
92411153|NCT01410357|184712978|SUPERIORITY|||||||0.838|||||||Mixed Models Analysis|||||||.838
92411154|NCT01410357|184712979|SUPERIORITY|||||||0.853|||||||Mixed Models Analysis|||||||.853
92230433|NCT01707992|184364113|SUPERIORITY||Hazard Ratio (HR)|0.937|||=|0.7057|TWO_SIDED|95.0|0.668|1.313||Threshold for significance at 0.05 level.|Cox proportional hazards model|||The primary analysis for the comparison between laquinimod 0.6 mg versus placebo was conducted using the baseline adjusted Cox proportional hazards model. Categorical EDSS at baseline (less than or equal to \[\<=\] 4 or greater than \[\>\] 4), country/geographical region (CGR), categorical age at baseline (\<=38 or \>38), and T2 volume at baseline were included as covariates in the model.||1.313|0.668|= 0.7057
92230434|NCT03498521|184364137|SUPERIORITY||Stratified Cox proportional hazard|0.75||||0.0177|TWO_SIDED|95.0|0.59|0.95|||Stratified log-rank|||||0.95|0.59|0.0177
92230435|NCT02848833|184364165|OTHER||||||<|0.0001||||||Difference before administration versus after administration was analyzed using a paired t-test.|paired t-test|||||||<0.0001
92230436|NCT02848833|184364168|OTHER||||||<|0.0001||||||Difference before administration versus after administration was analyzed using a paired t-test.|paired t-test|||||||<0.0001
92230437|NCT02848833|184364169|OTHER|Difference before administration versus after administration was analyzed using a paired t-test.|||||<|0.0001|||||||paired t-test|||||||<0.0001
92230438|NCT02848833|184364170|OTHER||||||<|0.0001||||||Difference before administration versus after administration was analyzed using a paired t-test.|paired t-test|||||||<0.0001
92411155|NCT01410357|184712980|SUPERIORITY|||||||0.853|||||||Mixed Models Analysis|||||||.853
92230439|NCT02848833|184364171|OTHER||||||<|0.0001||||||Difference before administration versus after administration was analyzed using a paired t-test.|paired t-test|||||||<0.0001
92230440|NCT00824564|184364207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-55.5|STANDARD_ERROR_OF_MEAN|58.63||0.348|TWO_SIDED|95.0|-172.7|61.7|||t-test, 2 sided|||The mean difference with associated standard error (SE), and corresponding 95% confidence interval (CI) for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||61.7|-172.7|0.348
92230441|NCT00824564|184364208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.0|STANDARD_ERROR_OF_MEAN|32.78||0.466|TWO_SIDED|95.0|-41.3|89.3|||t-test, 2 sided|||The mean difference with associated SE and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||89.3|-41.3|0.466
92278043|NCT00782509|184458136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0169||95.0|-0.5|0.0|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.0|-0.5|0.0169
92376971|NCT01340937|184657543|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.78|||||TWO_SIDED|95.0|0.72|0.83|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.83|0.72|
92376972|NCT01340937|184657543|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|0.87|||||TWO_SIDED|95.0|0.81|0.94|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.94|0.81|
92376973|NCT01340937|184657543|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.67||||0.419|TWO_SIDED|95.0|0.62|0.73|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Secondary analysis||0.73|0.62|0.419
92376974|NCT01340937|184657544|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.97|||||TWO_SIDED|95.0|0.87|1.09|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.09|0.87|
92376975|NCT01340937|184657544|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.93|||||TWO_SIDED|95.0|0.83|1.05|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.05|0.83|
92376976|NCT01340937|184657544|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|0.96|||||TWO_SIDED|95.0|0.85|1.08|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.08|0.85|
92376977|NCT01340937|184657544|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.03|||<|0.001|TWO_SIDED|95.0|0.9|1.17|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Secondary analysis||1.17|0.90|<0.001
92376978|NCT01340937|184657545|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.78|||||TWO_SIDED|95.0|0.72|0.85|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.85|0.72|
92376979|NCT01340937|184657545|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.8|||||TWO_SIDED|95.0|0.73|0.87|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.87|0.73|
92376980|NCT01340937|184657545|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|1.02|||||TWO_SIDED|95.0|0.93|1.11|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.11|0.93|
92376981|NCT01340937|184657545|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.51|||<|0.001|TWO_SIDED|95.0|1.37|1.66|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Secondary analysis||1.66|1.37|<0.001
92376982|NCT01340937|184657546|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the Geometric Mean Titer (GMT) ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot B)|0.86|||||TWO_SIDED|95.0|0.76|0.96|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.96|0.76|
92376983|NCT01340937|184657546|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot C)|0.88|||||TWO_SIDED|95.0|0.79|0.99|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.99|0.79|
92376984|NCT01340937|184657546|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot B/Lot C)|1.03|||||TWO_SIDED|95.0|0.92|1.15|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.15|0.92|
92230442|NCT00824564|184364209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.3|STANDARD_ERROR_OF_MEAN|5.57||0.109|TWO_SIDED|95.0|-20.7|2.2|||t-test, 2 sided|||For 1 hour post-surgery, the mean difference with associated SE and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||2.2|-20.7|0.109
92230443|NCT00824564|184364209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|3.24||0.045|TWO_SIDED|95.0|-13.4|-0.1|||t-test, 2 sided|||For 4 hour post-surgery, the mean difference with associated SE, and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||-0.1|-13.4|0.045
92230444|NCT00824564|184364209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|4.2||0.119|TWO_SIDED|95.0|-15.4|1.8|||t-test, 2 sided|||For 8 hour post-surgery, the mean difference with associated SE, and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||1.8|-15.4|0.119
92230445|NCT00824564|184364209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7|STANDARD_ERROR_OF_MEAN|15.16||0.139|TWO_SIDED|95.0|-52.9|7.5|||t-test, 2 sided|||For 24 hour post-surgery, the mean difference with associated SE, and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||7.5|-52.9|0.139
92230446|NCT00824564|184364210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.2|STANDARD_ERROR_OF_MEAN|132.1||0.849|TWO_SIDED|95.0|-238.2|288.6|||t-test, 2 sided|||The mean difference with associated SE, and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||288.6|-238.2|0.849
92230447|NCT00824564|184364211|SUPERIORITY_OR_OTHER|||||||0.714|TWO_SIDED||||||Chi-squared|||Chi-square test was used at 5% level of significance.||||0.714
92230448|NCT00824564|184364212|SUPERIORITY_OR_OTHER||Least square means difference|0.37|STANDARD_ERROR_OF_MEAN|0.295||0.208|TWO_SIDED|95.0|-0.21|0.96|||Mixed Models Analysis|||For change at end of surgery, a Mixed Model Repeated Measures (MMRM) approach was used to relate the dependent (outcome) variable and independent (treatment, time point, and treatment-by-time point interaction as factors and baseline value as co-variate) variables taking into account the within-participant correlation arising from the repeated measurements.||0.96|-0.21|0.208
92230449|NCT00824564|184364212|SUPERIORITY_OR_OTHER||Least square means difference|0.1|STANDARD_ERROR_OF_MEAN|0.255||0.682|TWO_SIDED|95.0|-0.4|0.61|||Mixed Models Analysis|||For change at 1 hour post-surgery, a MMRM approach was used to relate the dependent (outcome) variable and independent (treatment, time point, and treatment-by-time point interaction as factors and baseline value as co-variate) variables taking into account the within-participant correlation arising from the repeated measurements.||0.61|-0.40|0.682
92376985|NCT01340937|184657547|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot B)|0.94|||||TWO_SIDED|95.0|0.84|1.05|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.05|0.84|
92230450|NCT00824564|184364212|SUPERIORITY_OR_OTHER||Least square means difference|0.14|STANDARD_ERROR_OF_MEAN|0.244||0.569|TWO_SIDED|95.0|-0.35|0.63|||Mixed Models Analysis|||For change at day 1 post-surgery, a MMRM approach was used to relate the dependent (outcome) variable and independent (treatment, time point, and treatment-by-time point interaction as factors and baseline value as co-variate) variables taking into account the within-participant correlation arising from the repeated measurements.||0.63|-0.35|0.569
92230451|NCT00824564|184364212|SUPERIORITY_OR_OTHER||Least square means difference|0.2|STANDARD_ERROR_OF_MEAN|0.249||0.413|TWO_SIDED|95.0|-0.29|0.7|||Mixed Models Analysis|||For change at day 2 post-surgery, a MMRM approach was used to relate the dependent (outcome) variable and independent (treatment, time point, and treatment-by-time point interaction as factors and baseline value as co-variate) variables taking into account the within-participant correlation arising from the repeated measurements.||0.70|-0.29|0.413
92376986|NCT01340937|184657547|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot C)|0.91|||||TWO_SIDED|95.0|0.82|1.02|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.02|0.82|
92376987|NCT01340937|184657547|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot B/Lot C)|0.98|||||TWO_SIDED|95.0|0.87|1.09|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.09|0.87|
92376988|NCT01340937|184657548|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot B)|1.06|||||TWO_SIDED|95.0|0.92|1.22|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.22|0.92|
92376989|NCT01340937|184657548|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot C)|1.09|||||TWO_SIDED|95.0|0.95|1.26|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.26|0.95|
92376990|NCT01340937|184657548|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot B/Lot C)|1.03|||||TWO_SIDED|95.0|0.9|1.19|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.19|0.90|
92411156|NCT01410357|184712981|SUPERIORITY|||||||0.51|||||||Mixed Models Analysis|||||||.510
92411157|NCT01410357|184712982|SUPERIORITY|||||||0.573|||||||Mixed Models Analysis|||||||.573
92411158|NCT01410357|184712983|SUPERIORITY|||||||0.758|||||||Mixed Models Analysis|||||||.758
92411159|NCT01410357|184712984|SUPERIORITY|||||||0.156|||||||Mixed Models Analysis|||||||.156
92411160|NCT01410357|184712985|SUPERIORITY|||||||0.156|||||||Mixed Models Analysis|||||||.156
92411161|NCT01410357|184712986|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92411162|NCT01410357|184712987|SUPERIORITY|||||||0.878|||||||Mixed Models Analysis|||||||.878
92411163|NCT01410357|184712988|SUPERIORITY|||||||0.014|||||||Mixed Models Analysis|||||||.014
92411164|NCT01410357|184712989|SUPERIORITY|||||||0.227|||||||Mixed Models Analysis|||||||.227
92411165|NCT04250077|184713002|SUPERIORITY||proportion|0.36923076|STANDARD_ERROR_OF_MEAN|0.16518156||0.02578184|TWO_SIDED|95.0|-0.0021812|0.64531855|||Agresti Caffo proportion comparison|||||0.64531855|-0.0021812|0.02578184
92411166|NCT04250077|184713003|SUPERIORITY||Mean Difference (Net)|20.0454545|STANDARD_ERROR_OF_MEAN|7.62386242||0.00787297|TWO_SIDED|95.0|4.18213496|35.9087741|||t-test, 1 sided|||||35.9087741|4.18213496|0.00787297
92411167|NCT04250077|184713004|SUPERIORITY||Mean Difference (Net)|-39.183333|STANDARD_ERROR_OF_MEAN|15.8274398||0.01387108|TWO_SIDED|95.0|-73.356073|-5.0105927|||t-test, 1 sided|||||-5.0105927|-73.356073|0.01387108
92411168|NCT04250077|184713005|SUPERIORITY||Mean Difference (Net)|8.43728901|STANDARD_ERROR_OF_MEAN|3.28323704||0.00908118|TWO_SIDED|95.0|1.59437702|15.280201|||t-test, 1 sided|||||15.2802010|1.59437702|0.00908118
92411169|NCT04250077|184713006|SUPERIORITY||Mean Difference (Net)|1.47698833|STANDARD_ERROR_OF_MEAN|3.68529034||0.34633293|TWO_SIDED|95.0|-6.1910435|9.14502026|||t-test, 1 sided|||||9.14502026|-6.1910435|0.34633293
92230452|NCT00824564|184364212|SUPERIORITY_OR_OTHER||Least square means difference|0.11|STANDARD_ERROR_OF_MEAN|0.276||0.686|TWO_SIDED|95.0|-0.44|0.66|||Mixed Models Analysis|||For change at day 4/ET post-surgery, a MMRM approach was used to relate the dependent (outcome) variable and independent (treatment, time point, and treatment-by-time point interaction as factors and baseline value as co-variate) variables taking into account the within-participant correlation arising from the repeated measurements.||0.66|-0.44|0.686
92230453|NCT00824564|184364213|SUPERIORITY_OR_OTHER|||||||0.241|TWO_SIDED||||||Fisher Exact|||Fisher's exact test at 5% level of significance was used as the event rate was low and the expected count for any cell in the (unstratified) 2\*2 contingency table was less than 5.||||0.241
92239649|NCT00637273|184383085|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.75||0.1685|TWO_SIDED|95.0|-0.4|2.5||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in diastolic blood pressure from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of diastolic blood pressure as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||2.5|-0.4|0.1685
92411170|NCT04250077|184713007|SUPERIORITY||Mean Difference (Final Values)|-0.4285714|STANDARD_ERROR_OF_MEAN|2.07315199||0.57872623|TWO_SIDED|95.0|-5.4078121|4.55066924|||t-test, 1 sided|||||4.55066924|-5.4078121|0.57872623
92411171|NCT04250077|184713008|SUPERIORITY||Median Difference (Net)|1.29230769|STANDARD_ERROR_OF_MEAN|0.81588207||0.06283641|TWO_SIDED|95.0|-0.3873203|2.97193574|||t-test, 1 sided|||||2.97193574|-0.3873203|0.06283641
92411172|NCT04250077|184713009|SUPERIORITY||proportion|0.11794871|STANDARD_ERROR_OF_MEAN|0.16796576||0.26422281|TWO_SIDED|95.0|-0.2233244|0.43508919|||Agresti Caffo proportion comparison|||||0.43508919|-0.2233244|0.26422281
92411173|NCT02471612|184713020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.665||||||Comparing the sensitivity of APACHE-II and P-POSSUM|McNemar|||"Area under the curve (AUC) is used to measure the size of the prediction composed by the graphic display between the 'sensitivity' and the '1-specificity' relationship. AUC can range from 0.5 to 1.0 and a result of 1.0 indicates a perfect discriminatory ability. An AUC value \> 0.8 is considered good, a range between 0.60-0.80 is considered as moderate, and an AUC value \< 0.60 is regarded as poor."||||0.665
92411174|NCT00647270|184713036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.074|TWO_SIDED|95.0|-13.3|7.4|||Chi-squared||Treatment difference between adalimumab 80 mg monthly and placebo divided by the difference between adalimumab 40 mg eow and placebo.|Adalimumab 80 mg monthly versus placebo: The null hypothesis associated with this comparison stated that adalimumab 80 mg monthly would be inferior to placebo with respect to ACR20 response percentage; the alternative hypothesis was that adalimumab 80 mg monthly would be superior to placebo with respect to ACR20 response.||7.4|-13.3|0.074
92411175|NCT00647270|184713036|NON_INFERIORITY_OR_EQUIVALENCE|A sensitivity analysis was proposed for the non-inferiority comparison. If the lower confidence limit of θ80 - θ40 was greater than -0.1, then the non-inferiority of adalimumab 80 mg monthly to adalimumab 40 mg eow would be claimed||||||0.74||95.0||||Non - inferiority of adalimumab 80 mg monthly compared with 40 mg eow could not be tested because the null hypothesis of the first comparison was not rejected.|Chi-squared|||The non-inferiority of adalimumab 80 mg monthly to adalimumab 40 mg every other week (eow) was to be claimed if at least 50% of the treatment effect of adalimumab 40 mg eow over placebo was to be achieved by adalimumab 80 mg monthly over placebo.||||0.74
92411176|NCT00647270|184713037|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||Using a fixed-sequence multiple-testing approach at an alpha level of 0.05 to test the secondary endpoints, the testing of the null-hypothesis began with the first endpoint and stopped as soon as failure to reject a hypothesis occurred (i.e., P value \> 0.05). Using this procedure, testing stopped after secondary endpoint number 1, change from Baseline in HAQ at Week 12.||||0.002
92411177|NCT00647270|184713038|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANCOVA|||Using a fixed-sequence multiple-testing approach at an alpha level of 0.05 to test the secondary endpoints, the testing of the null-hypothesis began with the first endpoint and stopped as soon as failure to reject a hypothesis occurred (i.e., P value \> 0.05). Using this procedure, testing stopped after secondary endpoint number 1, change from Baseline in HAQ at Week 12.||||0.005
92411178|NCT00647270|184713038|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||Using a fixed-sequence multiple-testing approach at an alpha level of 0.05 to test the secondary endpoints, the testing of the null-hypothesis began with the first endpoint and stopped as soon as failure to reject a hypothesis occurred (i.e., P value \> 0.05). Using this procedure, testing stopped after secondary endpoint number 1, change from Baseline in HAQ at Week 12.||||0.002
92230454|NCT03464045|184364222|OTHER||Hazard Ratio (HR)|0.8||||0.122|TWO_SIDED|95.0|0.61|1.06|||Regression, Cox||Crude hazard ratio of empagliflozin/DPP-4i|Crude HRs were calculated using a Cox proportional hazards model with as-treated exposure (continuous exposure to the study drugs, defined as having consecutive treatment episodes separated by a grace period of 30 days, starting from index date) as the only included variable. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.06|0.61|0.122
92230455|NCT03464045|184364222|OTHER||Hazard Ratio (HR)|0.89||||0.417|TWO_SIDED|95.0|0.67|1.18|||Regression, Cox||Base hazard ratio of empagliflozin/DPP-4i|"Base HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level to avoid converge failure.~Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes."||1.18|0.67|0.417
92230456|NCT03464045|184364222|OTHER||Hazard Ratio (HR)|0.88||||0.376|TWO_SIDED|95.0|0.66|1.17|||Regression, Cox||Adjusted hazard ratio of empagliflozin/DPP-4i|Adjusted HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching, and pre-specified time-varying covariates. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.17|0.66|0.376
92240257|NCT00051558|184383967|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92376991|NCT01340937|184657549|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|-0.34|||||TWO_SIDED|95.0|-1.23|0.3|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.30|-1.23|
92376992|NCT01340937|184657549|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|-0.34|||||TWO_SIDED|95.0|-1.23|0.32|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.32|-1.23|
92376993|NCT01340937|184657549|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|0.0|||||TWO_SIDED|95.0|-0.64|0.66|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.66|-0.64|
92376994|NCT01340937|184657549|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|0.92|||<|0.001|TWO_SIDED|95.0|0.2|2.9|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.90|0.20|<0.001
92376995|NCT01340937|184657550|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|0.25|||||TWO_SIDED|95.0|-3.74|4.24|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||4.24|-3.74|
92376996|NCT01340937|184657550|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|-1.35|||||TWO_SIDED|95.0|-5.26|2.57|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||2.57|-5.26|
92376997|NCT01340937|184657550|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-1.64|||||TWO_SIDED|95.0|-5.56|2.28|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||2.28|-5.56|
92376998|NCT01340937|184657550|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|-2.35|||<|0.001|TWO_SIDED|95.0|-6.02|2.09|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.09|-6.02|<0.001
92376999|NCT01340937|184657551|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot B)|-0.16|||||TWO_SIDED|95.0|-0.91|0.47|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.47|-0.91|
92377000|NCT01340937|184657551|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot C)|-0.16|||||TWO_SIDED|95.0|-0.9|0.47|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.47|-0.90|
92377001|NCT01340937|184657551|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot B - Lot C)|0.0|||||TWO_SIDED|95.0|-0.63|0.62|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.62|-0.63|
92377002|NCT01340937|184657551|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (Comb - Ctrl)|1.28|||<|0.001|TWO_SIDED|95.0|0.46|3.33|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||3.33|0.46|<0.001
92377003|NCT01340937|184657552|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|1.73|||||TWO_SIDED|95.0|0.37|3.4|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||3.40|0.37|
92377004|NCT01340937|184657552|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|0.36|||||TWO_SIDED|95.0|-0.77|1.63|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||1.63|-0.77|
92377005|NCT01340937|184657552|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-1.36|||||TWO_SIDED|95.0|-3.03|0.15|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.15|-3.03|
92377006|NCT01340937|184657552|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|0.72|||<|0.001|TWO_SIDED|95.0|-0.59|3.14|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||3.14|-0.59|<0.001
92377007|NCT01340937|184657553|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|-1.35|||||TWO_SIDED|95.0|-5.17|2.47|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||2.47|-5.17|
92377008|NCT01340937|184657553|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|-3.06|||||TWO_SIDED|95.0|-6.79|0.67|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.67|-6.79|
92377009|NCT01340937|184657553|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-1.71|||||TWO_SIDED|95.0|-5.37|1.94|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||1.94|-5.37|
92377010|NCT01340937|184657553|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|-4.7|||<|0.001|TWO_SIDED|95.0|-7.73|-0.86|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||-0.86|-7.73|<0.001
92377011|NCT01340937|184657554|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|2.77|||||TWO_SIDED|95.0|-1.83|7.39|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||7.39|-1.83|
92377012|NCT01340937|184657554|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|2.41|||||TWO_SIDED|95.0|-2.21|7.06|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||7.06|-2.21|
92377013|NCT01340937|184657554|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-0.36|||||TWO_SIDED|95.0|-5.14|4.42|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||4.42|-5.14|
92377014|NCT01340937|184657554|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|3.28|||<|0.001|TWO_SIDED|95.0|-1.7|8.85|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||8.85|-1.70|<0.001
92377015|NCT01340937|184657555|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|-4.12|||||TWO_SIDED|95.0|-7.69|-0.63|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||-0.63|-7.69|
92377016|NCT01340937|184657555|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|-4.17|||||TWO_SIDED|95.0|-7.75|-0.66|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||-0.66|-7.75|
92377017|NCT01340937|184657555|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-0.07|||||TWO_SIDED|95.0|-3.32|3.2|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||3.20|-3.32|
92377018|NCT01340937|184657555|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|2.85|||<|0.001|TWO_SIDED|95.0|-0.85|7.36|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||7.36|-0.85|<0.001
92411179|NCT00647270|184713039|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||The ANCOVA Model was adjusted for the Baseline Measure.|ANCOVA|||Using a fixed-sequence multiple-testing approach at an alpha level of 0.05 to test the secondary endpoints, the testing of the null-hypothesis began with the first endpoint and stopped as soon as failure to reject a hypothesis occurred (i.e., P value \> 0.05). Using this procedure, testing stopped after secondary endpoint number 1, change from Baseline in HAQ at Week 12.||||0.002
92240258|NCT00051558|184383967|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
92377019|NCT01340937|184657556|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot B)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
92230457|NCT03464045|184364223|OTHER||Hazard Ratio (HR)|0.79||||0.22|TWO_SIDED|95.0|0.55|1.15|||Regression, Cox||Crude hazard ratio of empagliflozin/DPP-4i|Crude HRs were calculated using a Cox proportional hazards model with as-treated exposure (continuous exposure to the study drugs, defined as having consecutive treatment episodes separated by a grace period of 30 days, starting from index date) as the only included variable. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.15|0.55|0.220
92230458|NCT03464045|184364223|OTHER||Hazard Ratio (HR)|0.91||||0.628|TWO_SIDED|95.0|0.63|1.32|||Regression, Cox||Base hazard ratio of empagliflozin/DPP-4i|"Base HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level to avoid converge failure.~Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes."||1.32|0.63|0.628
92230459|NCT03464045|184364223|OTHER||Hazard Ratio (HR)|0.91||||0.632|TWO_SIDED|95.0|0.63|1.33|||Regression, Cox||Adjusted hazard ratio of empagliflozin/DPP-4i|Adjusted HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching, and pre-specified time-varying covariates. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.33|0.63|0.632
92377020|NCT01340937|184657556|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
92377021|NCT01340937|184657556|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot B - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
92377022|NCT01340937|184657556|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (Comb - Ctrl)|0.66|||<|0.001|TWO_SIDED|95.0|0.18|2.36|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.36|0.18|<0.001
92377023|NCT01340937|184657557|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot B)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
92377024|NCT01340937|184657557|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.6|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.60|-0.61|
92377025|NCT01340937|184657557|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot B - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.6|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.60|-0.61|
92240259|NCT00051558|184383968|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 1|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92240260|NCT00051558|184383968|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 6|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92377026|NCT01340937|184657557|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (Comb - Ctrl)|0.0|||<|0.001|TWO_SIDED|95.0|-0.2|1.24|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.24|-0.20|<0.001
92377027|NCT01340937|184657558|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot B)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
92377028|NCT01340937|184657558|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
92377029|NCT01340937|184657558|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot B - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
92377030|NCT01340937|184657558|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (Comb - Ctrl)|0.33|||<|0.001|TWO_SIDED|95.0|0.05|1.85|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.85|0.05|<0.001
92377031|NCT01340937|184657559|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.07|||<|0.001|TWO_SIDED|95.0|0.98|1.17|||Analysis of Covariance|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.17|0.98|<0.001
92377032|NCT01340937|184657560|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.86|||<|0.001|TWO_SIDED|95.0|0.79|0.95|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||0.95|0.79|<0.001
92377033|NCT01340937|184657561|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.74||||0.035|TWO_SIDED|95.0|0.66|0.83|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||0.83|0.66|0.035
92230460|NCT03464045|184364224|OTHER||Hazard Ratio (HR)|0.84||||0.42|TWO_SIDED|95.0|0.54|1.29|||Regression, Cox||Crude hazard ratio of empagliflozin/DPP-4i|Crude HRs were calculated using a Cox proportional hazards model with as-treated exposure (continuous exposure to the study drugs, defined as having consecutive treatment episodes separated by a grace period of 30 days, starting from index date) as the only included variable. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.29|0.54|0.420
92230461|NCT03464045|184364224|OTHER||Hazard Ratio (HR)|0.89||||0.606|TWO_SIDED|95.0|0.57|1.38|||Regression, Cox||Base hazard ratio of empagliflozin/DPP-4i|"Base HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level to avoid converge failure.~Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes."||1.38|0.57|0.606
92377034|NCT01340937|184657562|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.31|||<|0.001|TWO_SIDED|95.0|1.17|1.46|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.46|1.17|<0.001
92377035|NCT01340937|184657563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|0.12|||<|0.001|TWO_SIDED|95.0|-1.11|2.58|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.58|-1.11|<0.001
92377036|NCT01340937|184657564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|-0.16|||<|0.001|TWO_SIDED|95.0|-2.41|3.22|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||3.22|-2.41|<0.001
92377037|NCT01340937|184657565|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|1.15|||<|0.001|TWO_SIDED|95.0|-2.13|5.47|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||5.47|-2.13|<0.001
92377038|NCT01340937|184657566|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|3.0|||<|0.001|TWO_SIDED|95.0|-0.39|7.4|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||7.40|-0.39|<0.001
92377039|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.92|||<|0.001|TWO_SIDED|95.0|0.82|1.04|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 1||1.04|0.82|<0.001
92377040|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.95|||<|0.001|TWO_SIDED|95.0|0.84|1.06|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 3||1.06|0.84|<0.001
92377041|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.0|||<|0.001|TWO_SIDED|95.0|0.89|1.12|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 4||1.12|0.89|<0.001
92377042|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.93|||<|0.001|TWO_SIDED|95.0|0.8|1.07|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 5||1.07|0.80|<0.001
92377043|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.87|||<|0.001|TWO_SIDED|95.0|0.77|0.99|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 6A||0.99|0.77|<0.001
92377044|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.79||||0.055|TWO_SIDED|95.0|0.64|0.96|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 6B||0.96|0.64|0.055
92230462|NCT03464045|184364224|OTHER||Hazard Ratio (HR)|0.89||||0.609|TWO_SIDED|95.0|0.57|1.38|||Regression, Cox||Adjusted hazard ratio of empagliflozin/DPP-4i|Adjusted HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching, and pre-specified time-varying covariates. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.38|0.57|0.609
92377045|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.89|||<|0.001|TWO_SIDED|95.0|0.8|0.99|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 7F||0.99|0.80|<0.001
92411180|NCT00647270|184713040|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||The ANCOVA Model was adjusted for Baseline Measure.|ANCOVA|The ANCOVA Model was adjusted for Baseline Measure.||Using a fixed-sequence multiple-testing approach at an alpha level of 0.05 to test the secondary endpoints, the testing of the null-hypothesis began with the first endpoint and stopped as soon as failure to reject a hypothesis occurred (i.e., P value \> 0.05). Using this procedure, testing stopped after secondary endpoint number 1, change from Baseline in HAQ at Week 12.||||0.005
92411181|NCT03615040|184713041|SUPERIORITY||Incidence Rate Ratio|0.78|STANDARD_ERROR_OF_MEAN|0.15||0.195|TWO_SIDED|95.0|0.53|1.14|||t-test, 2 sided|||A generalised linear model (assuming neg. binomial distribution) was used. The model includes the number of exacerbations during the 48 week treatment as an outcome with explanatory variables of treatment arm \& number of exacerbations in the 12 months prior to the trial (stratification factor), and log-time on trial (in weeks) as an offset. The offset, allows for different lengths of time in the trial. Only observed exacerbations were used alongside the corresponding time period in the offset.||1.14|0.53|0.195
92411182|NCT03615040|184713044|SUPERIORITY||Mean Difference (Net)|-3.3||||0.039|TWO_SIDED|95.0|-6.4|-0.2|||Mixed Models Analysis|||Calculated using mixed effect linear model with dependent variable of the outcome at baseline and follow-up time points (Week 4, 12, 24, 36, 48); explanatory variables of treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), visit time point (as categorical variable), baseline score; an interaction term between treatment and visit as fixed effects; and patient identification as a random effect.||-0.2|-6.4|0.039
92411183|NCT03615040|184713045|SUPERIORITY||Mean Difference (Net)|0.53||||0.469|TWO_SIDED|95.0|-0.91|2.0|||Mixed Models Analysis|||Calculated using mixed effect linear model with dependent variable of the outcome at baseline and follow-up time points (Week 4, 12, 24, 36, 48); explanatory variables of treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), visit time point (as categorical variable), baseline score; an interaction term between treatment and visit as fixed effects; and patient identification as a random effect.||2.00|-0.91|0.469
92411184|NCT03615040|184713046|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank sum test of mMRC dyspnoea Week 4||||0.90
92411185|NCT03615040|184713046|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank sum test of mMRC dyspnoea Week 12||||0.95
92411186|NCT03615040|184713046|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank sum test of mMRC dyspnoea Week 24||||0.78
92411187|NCT03615040|184713046|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank sum test of mMRC dyspnoea Week 36||||0.88
92411188|NCT03615040|184713046|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank sum test of mMRC dyspnoea Week 48||||0.78
92411189|NCT03615040|184713047|SUPERIORITY||Mean Difference (Net)|-9.4||||0.236|TWO_SIDED|95.0|-24.9|6.2||Using mixed effect linear model with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and baseline score as fixed effects.|Mixed Models Analysis|||VAS total||6.2|-24.9|0.236
92411190|NCT03615040|184713047|SUPERIORITY||Mean Difference (Net)|-4.9||||0.083|TWO_SIDED|95.0|-10.6|0.7||Using mixed effect linear model with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and baseline score as fixed effects.|Mixed Models Analysis|||VAS Dyspnoea||0.7|-10.6|0.083
92230463|NCT02148029|184364237|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|1.0||0.34|TWO_SIDED|95.0|-1.1|3.1|||t-test, 2 sided||Mean difference = Exercise - Control|||3.1|-1.1|0.34
92411191|NCT03615040|184713047|SUPERIORITY||Mean Difference (Net)|-2.1||||0.546|TWO_SIDED|95.0|-8.9|4.7||Using mixed effect linear model with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and baseline score as fixed effects.|Mixed Models Analysis|||VAS Cough||4.7|-8.9|0.546
92411192|NCT03615040|184713047|SUPERIORITY||Mean Difference (Net)|-1.9||||0.527|TWO_SIDED|95.0|-7.8|4.0||Using mixed effect linear model with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and baseline score as fixed effects.|Mixed Models Analysis|||VAS Sputum production||4.0|-7.8|0.527
92411193|NCT03615040|184713048|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||sputum purulence colour card Week 12||||0.84
92411194|NCT03615040|184713048|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||sputum purulence colour card Week 24||||0.52
92411195|NCT03615040|184713048|SUPERIORITY|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||sputum purulence colour card Week 36||||0.82
92411196|NCT03615040|184713048|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||sputum purulence colour card Week 48||||0.95
92411197|NCT03615040|184713049|SUPERIORITY||Mean Difference (Final Values)|9.06||||0.069|TWO_SIDED|95.0|-0.83|18.97|||ANCOVA|||Pre BD FEV1/FVC ratio: Analysis of covariance (ANCOVA) adjusting for the baseline value||18.97|-0.83|0.069
92411198|NCT03615040|184713050|SUPERIORITY||Mean Difference (Net)|0.04||||0.094|TWO_SIDED|95.0|-0.01|0.09|||Mixed Models Analysis|||mixed effect linear model with explanatory variables of treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), visit time point (as categorical variable), baseline score and patient identification as a random effect to account for repeated measures over time was fitted for each outcome. Adjusted mean difference between treatment arms with 95% confidence interval and p-value were reported. In the modified ITT population.||0.09|-0.01|0.094
92411199|NCT03615040|184713051|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.905|TWO_SIDED|95.0|-0.46|0.52||To compare change from baseline to 48 weeks (pre and post treatment measurements), analysis of covariance (ANCOVA) model with baseline value as a covariate was fitted. Adjusted mean difference with 95% confidence interval and p-value were reported.|ANCOVA|||Total Lung Capacity||0.52|-0.46|0.905
92411200|NCT03615040|184713051|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.775|TWO_SIDED|95.0|-0.62|0.47||To compare change from baseline to 48 weeks (pre and post treatment measurements), analysis of covariance (ANCOVA) model with baseline value as a covariate was fitted. Adjusted mean difference with 95% confidence interval and p-value were reported.|ANCOVA|||Residual Volume||0.47|-0.62|0.775
92411201|NCT03615040|184713052|SUPERIORITY||Geometric mean ratio|1.01||||0.736|TWO_SIDED|95.0|0.95|1.07||"Outcome was log transformed~Explanatory variables:~treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), log BL value, visit time point (categorical) and patient identification (random effect)."|Mixed Models Analysis|||White blood cell count||1.07|0.95|0.736
92411202|NCT03615040|184713052|SUPERIORITY||Geometric mean ratio|0.59|||<|0.001|TWO_SIDED|95.0|0.51|0.69||"Outcome was log transformed~Explanatory variables:~treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), log BL value, visit time point (categorical) and patient identification (random effect)."|Mixed Models Analysis|||Eosinophil Count||0.69|0.51|<0.001
92411203|NCT03615040|184713052|SUPERIORITY||Geometric mean ratio|1.02||||0.678|TWO_SIDED|95.0|0.93|1.13||"Outcome was log transformed~Explanatory variables:~treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), log BL value, visit time point (categorical) and patient identification (random effect)."|Mixed Models Analysis|||Neutrophil Count||1.13|0.93|0.678
92230464|NCT02148029|184364238|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|3.5||0.89|TWO_SIDED|95.0|-7.1|8.0|||t-test, 2 sided||Mean difference = Exercise - Control|||8.0|-7.1|0.89
92230465|NCT02148029|184364239|SUPERIORITY||Mean Difference (Net)|-5.8|STANDARD_ERROR_OF_MEAN|7.2||0.43|TWO_SIDED|95.0|-20.3|8.4|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Physical Functioning (PF) domain score.||8.4|-20.3|0.43
92230466|NCT02148029|184364239|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|3.3||0.13|TWO_SIDED|95.0|-1.6|11.6|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Role limitations due to Physical health problems (RP) domain score.||11.6|-1.6|0.13
92230467|NCT02148029|184364239|SUPERIORITY||Mean Difference (Net)|2.7|STANDARD_ERROR_OF_MEAN|2.8||0.33|TWO_SIDED|95.0|-2.8|8.2|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Role limitations due to mental health or Emotional problems (RE) domain score.||8.2|-2.8|0.33
92230468|NCT02148029|184364239|SUPERIORITY||Mean Difference (Net)|5.6|STANDARD_ERROR_OF_MEAN|7.1||0.43|TWO_SIDED|95.0|-8.7|20.0|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the energy/fatigue/Vitality (VT) domain score.||20.0|-8.7|0.43
92230469|NCT02148029|184364239|SUPERIORITY||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|5.6||0.64|TWO_SIDED|95.0|-13.8|8.6|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Mental Health/emotional well-being (MH) domain score.||8.6|-13.8|0.64
92377046|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.0|||<|0.001|TWO_SIDED|95.0|0.88|1.13|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 9V||1.13|0.88|<0.001
92230470|NCT02148029|184364239|SUPERIORITY||Mean Difference (Net)|-3.9|STANDARD_ERROR_OF_MEAN|8.3||0.64|TWO_SIDED|95.0|-20.5|12.8|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Social Functioning (SF) domain score.||12.8|-20.5|0.64
92230471|NCT02148029|184364239|SUPERIORITY||Mean Difference (Net)|9.5|STANDARD_ERROR_OF_MEAN|10.1||0.35|TWO_SIDED|95.0|-10.7|29.7|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Bodily Pain (BP) domain score.||29.7|-10.7|0.35
92377047|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.95|||<|0.001|TWO_SIDED|95.0|0.82|1.1|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 14||1.10|0.82|<0.001
92377048|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.89|||<|0.001|TWO_SIDED|95.0|0.79|1.0|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 18C||1.00|0.79|<0.001
92377049|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.91|||<|0.001|TWO_SIDED|95.0|0.8|1.03|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 19A||1.03|0.80|<0.001
92230472|NCT02148029|184364239|SUPERIORITY||Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|5.3||0.5|TWO_SIDED|95.0|-14.1|7.0|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the General Health (GH) domain score.||7.0|-14.1|0.50
92230473|NCT02148029|184364240|SUPERIORITY||Mean Difference (Net)|-33.9|STANDARD_ERROR_OF_MEAN|30.1||0.27|TWO_SIDED|95.0|-95.5|27.7|||t-test, 2 sided||Mean difference = Exercise - Control|||27.7|-95.5|0.27
92230474|NCT02148029|184364241|SUPERIORITY||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|0.9||0.07|TWO_SIDED|95.0|-3.4|0.1|||t-test, 2 sided||Mean difference = Reflux - No reflux|||0.1|-3.4|0.07
92230475|NCT02148029|184364242|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.4||0.91|TWO_SIDED|95.0|-0.8|0.9|||t-test, 2 sided||Mean difference = PTS - No PTS|||0.9|-0.8|0.91
92230476|NCT05424276|184364243|SUPERIORITY||Mean Difference (Net)|-0.77|STANDARD_ERROR_OF_MEAN|1.895||0.686|TWO_SIDED|95.0|-4.522|2.985||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo from baseline to 12 weeks of treatment||2.985|-4.522|0.686
92230477|NCT05424276|184364243|SUPERIORITY||Mean Difference (Net)|0.97|STANDARD_ERROR_OF_MEAN|1.876||0.606|TWO_SIDED|95.0|-2.745|4.687||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo from baseline to 12 weeks of treatment||4.687|-2.745|0.606
92411204|NCT03615040|184713053|SUPERIORITY||Geometric mean ratio|0.25|||<|0.001|TWO_SIDED|95.0|0.19|0.33||A mixed effect linear model of the log outcome with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and log baseline score as fixed effects.|Mixed Models Analysis|||Eosinophil count||0.33|0.19|<0.001
92230478|NCT05424276|184364243|SUPERIORITY||Mean Difference (Net)|1.27|STANDARD_ERROR_OF_MEAN|1.925||0.509|TWO_SIDED|95.0|-2.539|5.086||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo from baseline to 12 weeks of treatment||5.086|-2.539|0.509
92230479|NCT05424276|184364244|SUPERIORITY||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|1.093||0.683|TWO_SIDED|95.0|-1.717|2.611||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo after 12 weeks of treatment||2.611|-1.717|0.683
92230480|NCT05424276|184364244|SUPERIORITY||Mean Difference (Net)|1.36|STANDARD_ERROR_OF_MEAN|1.08||0.212|TWO_SIDED|95.0|-0.783|3.495||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo after 12 weeks of treatment||3.495|-0.783|0.212
92230481|NCT05424276|184364244|SUPERIORITY||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|1.112||0.685|TWO_SIDED|95.0|-1.749|2.654||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo after 12 weeks of treatment||2.654|-1.749|0.685
92230482|NCT05424276|184364245|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.112||0.463|TWO_SIDED|95.0|-0.139|0.304||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of treatment||0.304|-0.139|0.463
92230483|NCT05424276|184364245|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.11||0.133|TWO_SIDED|95.0|-0.051|0.383||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.383|-0.051|0.133
92230484|NCT05424276|184364245|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.112||0.575|TWO_SIDED|95.0|-0.159|0.286||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.286|-0.159|0.575
92377050|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.97|||<|0.001|TWO_SIDED|95.0|0.87|1.08|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 19F||1.08|0.87|<0.001
92377051|NCT01340937|184657567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.9|||<|0.001|TWO_SIDED|95.0|0.77|1.06|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 23F||1.06|0.77|<0.001
92411205|NCT03615040|184713069|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.362|TWO_SIDED|95.0|-0.14|0.35|||ANCOVA|||Pre BD FVC (litres): Analysis of covariance (ANCOVA) adjusting for the baseline value||0.35|-0.14|0.362
92230485|NCT05424276|184364246|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.146||0.178|TWO_SIDED|95.0|-0.488|0.092||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 week of dosing||0.092|-0.488|0.178
92230486|NCT05424276|184364246|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.145||0.931|TWO_SIDED|95.0|-0.274|0.3||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.300|-0.274|0.931
92411206|NCT03615040|184713069|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.713|TWO_SIDED|95.0|-0.61|0.44|||ANCOVA|||Pre BD FVC (litre):Analysis of covariance (ANCOVA) adjusting for the baseline value||0.44|-0.61|0.713
92230487|NCT05424276|184364246|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.149||0.38|TWO_SIDED|95.0|-0.426|0.163||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.163|-0.426|0.380
92230488|NCT05424276|184364247|SUPERIORITY||Mean Difference (Net)|-0.98|STANDARD_ERROR_OF_MEAN|0.669||0.144|TWO_SIDED|95.0|-2.308|0.342||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.342|-2.308|0.144
92230489|NCT05424276|184364247|SUPERIORITY||Mean Difference (Net)|-1.41|STANDARD_ERROR_OF_MEAN|0.662||0.036|TWO_SIDED|95.0|-2.72|-0.096||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||-0.096|-2.720|0.036
92230490|NCT05424276|184364247|SUPERIORITY||Mean Difference (Net)|-1.17|STANDARD_ERROR_OF_MEAN|0.68||0.089|TWO_SIDED|95.0|-2.514|0.18||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.180|-2.514|0.089
92230491|NCT05424276|184364248|SUPERIORITY||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|1.668||0.916|TWO_SIDED|95.0|-3.127|3.477||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||3.477|-3.127|0.916
92230492|NCT05424276|184364248|SUPERIORITY||Mean Difference (Net)|2.35|STANDARD_ERROR_OF_MEAN|1.652||0.158|TWO_SIDED|95.0|-0.921|5.621||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||5.621|-0.921|0.158
92230493|NCT05424276|184364248|SUPERIORITY||Mean Difference (Net)|2.41|STANDARD_ERROR_OF_MEAN|1.694||0.157|TWO_SIDED|95.0|-0.941|5.768||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||5.768|-0.941|0.157
92230494|NCT05424276|184364249|SUPERIORITY||Mean Difference (Net)|-0.67|STANDARD_ERROR_OF_MEAN|0.645||0.297|TWO_SIDED|95.0|-1.952|0.602||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.602|-1.952|0.297
92230495|NCT05424276|184364249|SUPERIORITY||Mean Difference (Net)|-0.77|STANDARD_ERROR_OF_MEAN|0.639||0.233|TWO_SIDED|95.0|-2.032|0.5||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.500|-2.032|0.233
92240261|NCT00051558|184383968|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 18|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92411207|NCT03615040|184713070|SUPERIORITY||Mean Difference (Final Values)|1.78||||0.711|TWO_SIDED|95.0|-8.63|12.2|||ANCOVA|||Pre FEV1 predicted: Analysis of covariance (ANCOVA) adjusting for the baseline value||12.20|-8.63|0.711
92411208|NCT03615040|184713070|SUPERIORITY||Mean Difference (Final Values)|-10.4||||0.214|TWO_SIDED|95.0|-27.9|7.1|||ANCOVA|||Pre BD FVC predicted (%): Analysis of covariance (ANCOVA) adjusting for the baseline value||7.1|-27.9|0.214
92411209|NCT03615040|184713071|SUPERIORITY||Mean Difference (Final Values)|-2.95||||0.201|TWO_SIDED|95.0|-7.53|1.65||To compare change from baseline to 48 weeks (pre and post treatment measurements), analysis of covariance (ANCOVA) model with baseline value as a covariate was fitted. Adjusted mean difference with 95% confidence interval and p-value were reported.|ANCOVA|||Residual Volume/Total Lung Capacity ratio.||1.65|-7.53|0.201
92230496|NCT05424276|184364249|SUPERIORITY||Mean Difference (Net)|0.48|STANDARD_ERROR_OF_MEAN|0.657||0.464|TWO_SIDED|95.0|-0.818|1.783||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||1.783|-0.818|0.464
92377052|NCT01340937|184657569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||||TWO_SIDED|95.0|-18.8|-8.4|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, all routes \<38.0°C||-8.4|-18.8|
92377053|NCT01340937|184657569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|||||TWO_SIDED|95.0|-0.9|8.3|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, all routes \>=38°C and \<38.5°||8.3|-0.9|
92377054|NCT01340937|184657569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.7|||||TWO_SIDED|95.0|4.8|11.9|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, all routes \>=38.5°C and \<39.5°||11.9|4.8|
92377055|NCT01340937|184657569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-0.7|2.2|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, all routes \>=39.5°C||2.2|-0.7|
92377056|NCT01340937|184657569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.3|||||TWO_SIDED|95.0|-16.6|-5.9|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference; rectal \<38.0°C||-5.9|-16.6|
92377057|NCT01340937|184657569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|||||TWO_SIDED|95.0|-1.4|7.8|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference; rectal \>=38.0°C and \<38.5°C||7.8|-1.4|
92377058|NCT01340937|184657569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4|||||TWO_SIDED|95.0|4.6|11.6|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, rectal \>=38.5°C and \<39.5°C||11.6|4.6|
92377059|NCT01340937|184657569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-0.7|2.1|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, rectal \>=39.5°C||2.1|-0.7|
92377060|NCT00046930|184657570|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28||95.0|||||Log Rank|Stratified on age (\< 70 vs. \>=70) and type of leukemia (de novo AML, secondary RAEB-t, or secondary RAEB AML)||The study was designed to have 80% power to detect a non-proportional hazards difference in OS at the one-sided 0.025 significance level of 30.2% vs 39.6%, 12.8% vs 27.1% and 7.0% vs 14.0% at 1 years, 2 years, and full information for zosuquidar and placebo, respectively.||||0.28
92230497|NCT05424276|184364250|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|3.845||0.943|TWO_SIDED|95.0|-7.346|7.898||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||7.898|-7.346|0.943
92230498|NCT05424276|184364250|SUPERIORITY||Mean Difference (Net)|0.93|STANDARD_ERROR_OF_MEAN|3.769||0.806|TWO_SIDED|95.0|-6.547|8.402||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||8.402|-6.547|0.806
92230499|NCT05424276|184364250|SUPERIORITY||Mean Difference (Net)|1.02|STANDARD_ERROR_OF_MEAN|3.884||0.794|TWO_SIDED|95.0|-6.686|8.719||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||8.719|-6.686|0.794
92230500|NCT05424276|184364251|SUPERIORITY||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|0.654||0.173|TWO_SIDED|95.0|-2.193|0.4||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.400|-2.193|0.173
92377061|NCT00046930|184657571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16||95.0|||||Log Rank|Stratified on age and type of leukemia||||||0.16
92377062|NCT00046930|184657572|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.617|TWO_SIDED|95.0|0.77|1.65||Test was stratified on age and type of leukemia.|Mantel Haenszel||Zosuquidar/Placebo|Test of difference in the CR (complete remission) rate between the arms.||1.65|0.77|0.617
92377063|NCT01694108|184657597|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Mann-Whitney-test comparing the decisional conflict scores of participating mothers vs. declining mothers.||||||<0.001
92377064|NCT01657760|184657600|EQUIVALENCE|80% power to detect difference p\<0.05 two tailed|Mean Difference (Final Values)|0.01|STANDARD_DEVIATION|0.03||0.87|TWO_SIDED|||||ANOVA, uncorrected for MC.|ANOVA|||||||0.87
92377065|NCT02124512|184657623|SUPERIORITY||||||>|0.05||||||The p-value was calculated to be \>0.05.|ANOVA|||Comparison of the pre- and post-treatment timecourse between untreated and rifaximin-treated participants.||||>0.05
92377066|NCT02124512|184657624|SUPERIORITY|||||||0.12||||||unpaired Student's t-test|t-test, 2 sided|||Treatment difference (change in placebo pre- and post-treatment versus change in rifaximin pre- and post-treatment).||||0.12
92377067|NCT01974752|184657663|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.3195|TWO_SIDED|95.0|0.48|1.27|||Log Rank|Factor for treatment and liver metastases|A hazard ratio \< 1 favours Selumetinib in combination with Dacarbazine|||1.27|0.48|0.3195
92377068|NCT01974752|184657665|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.94||||0.1284|TWO_SIDED|95.0|0.88|1.02|||ANCOVA|ANCOVA of log (W6/BL) tumour assessments with a factor for trt, and covariates for liver mets, log BL tumour size, and time from BL scan to rand.|A geometric least squares mean ratio \< 1 favours Selumetinib in combination with Dacarbazine|||1.02|0.88|0.1284
92377069|NCT01974752|184657666|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.4011|TWO_SIDED|95.0|0.39|1.46|||Log Rank|||||1.46|0.39|0.4011
92377070|NCT02317809|184657667|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Geometric least squares (LS) mean ratio|114.45|||||TWO_SIDED|90.0|110.87|118.15|||||Percentage of geometric LS mean ratio was presented.|Mixed model analysis was used.||118.15|110.87|
92230501|NCT05424276|184364251|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.644||0.393|TWO_SIDED|95.0|-1.828|0.725||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.725|-1.828|0.393
92230502|NCT05424276|184364251|SUPERIORITY||Mean Difference (Net)|-0.96|STANDARD_ERROR_OF_MEAN|0.648||0.141|TWO_SIDED|95.0|-2.246|0.323||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.323|-2.246|0.141
92230503|NCT05424276|184364252|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.578||0.704|TWO_SIDED|95.0|-0.925|1.366||Study not sized for efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||1.366|-0.925|0.704
92230504|NCT05424276|184364252|SUPERIORITY||Mean Difference (Net)|0.38|STANDARD_ERROR_OF_MEAN|0.564||0.506|TWO_SIDED|95.0|-0.742|1.494||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||1.494|-0.742|0.506
92230505|NCT05424276|184364252|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.578||0.888|TWO_SIDED|95.0|-1.227|1.063||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||1.063|-1.227|0.888
92230506|NCT05424276|184364253|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.014||0.004|TWO_SIDED|95.0|0.013|0.067||Study was not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.067|0.013|0.004
92230507|NCT05424276|184364253|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.013||0.125|TWO_SIDED|95.0|-0.006|0.047||Study was not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.047|-0.006|0.125
92377071|NCT02317809|184657668|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|106.99|||||TWO_SIDED|90.0|101.42|112.86|||||Percentage of geometric LS mean ratio was presented.|Mixed model analysis was used.||112.86|101.42|
92230508|NCT05424276|184364253|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.014||0.179|TWO_SIDED|95.0|-0.009|0.046||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.046|-0.009|0.179
92230509|NCT05424276|184364254|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.095||0.321|TWO_SIDED|95.0|-0.283|0.094||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.094|-0.283|0.321
92230510|NCT05424276|184364254|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.094||0.444|TWO_SIDED|95.0|-0.259|0.114||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.114|-0.259|0.444
92230511|NCT05424276|184364254|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.097||0.154|TWO_SIDED|95.0|-0.332|0.053||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.053|-0.332|0.154
92230512|NCT05424276|184364255|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.104||0.95|TWO_SIDED|95.0|-0.199|0.212||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.212|-0.199|0.950
92230513|NCT05424276|184364255|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.102||0.189|TWO_SIDED|95.0|-0.338|0.067||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.067|-0.338|0.189
92230514|NCT05424276|184364255|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.105||0.374|TWO_SIDED|95.0|-0.301|0.114|||Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.114|-0.301|0.374
92230515|NCT05424276|184364256|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.058||0.803|TWO_SIDED|95.0|-0.101|0.131||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.131|-0.101|0.803
92230516|NCT05424276|184364256|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.058||0.935|TWO_SIDED|95.0|-0.11|0.12||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.120|-0.110|0.935
92230517|NCT05424276|184364256|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.968|TWO_SIDED|95.0|-0.116|0.121||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.121|-0.116|0.968
92230518|NCT03619213|184364303|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0008|TWO_SIDED|95.0|0.73|0.92|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization.||Comparison Group: Placebo||0.92|0.73|0.0008
92230519|NCT03619213|184364304|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0085|TWO_SIDED|95.0|0.73|0.95|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization.||Comparison Group: Placebo||0.95|0.73|0.0085
92230520|NCT03619213|184364305|SUPERIORITY||Rate Ratio (RR)|0.77||||0.0003|TWO_SIDED|95.0|0.67|0.89|||LWYY proportional rates model|Stratified by Type 2 Diabetes status at randomization||Comparison Group: Placebo||0.89|0.67|0.0003
92240262|NCT00051558|184383968|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 36|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92377072|NCT02317809|184657669|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|112.67|||||TWO_SIDED|90.0|106.44|119.27|||||Percentage of geometric LS mean ratio was presented.|Mixed model analysis was used.||119.27|106.44|
92377073|NCT02317809|184657670|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Geometric least squares (LS) mean ratio|103.27|||||TWO_SIDED|90.0|93.16|114.47|||||Percentage of geometric LS mean ratio was presented.|Mixed model analysis was used.||114.47|93.16|
92377074|NCT00294645|184657798|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Modified Peto-Peto|A one-sided test was used.||Null hypothesis: control rate = remote rate||||<0.0001
92377075|NCT00909545|184657844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|2.03||0.9834|TWO_SIDED|95.0|-3.99|4.07||P-values for efficacy outcomes will be one-sided test with alpha = 0.05|ANCOVA|Analysis of covariance is used, with terms representing assigned treatment group and baseline value of the measure in the model.|Least square mean(standard error) and 95% confidence intervals of the difference between Isradipine CR 5mg and placebo groups is estimated.|Change in UPDRS total score of Isradipine CR 5mg/day arm is compared to placebo group.||4.07|-3.99|0.9834
92230521|NCT03619213|184364306|SUPERIORITY||Rate Ratio (RR)|0.77||||0.0017|TWO_SIDED|95.0|0.65|0.9|||LWYY proportional rates model|Stratified by Type 2 Diabetes status at randomization||Comparison Group: Placebo||0.90|0.65|0.0017
92377076|NCT00909545|184657844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|1.97||0.5761|TWO_SIDED|95.0|-5.01|2.8||P-values for efficacy outcomes will be one-sided test with alpha = 0.05|ANCOVA|Analysis of covariance is used, with terms representing assigned treatment group and baseline value of the measure in the model.|Least square mean(standard error) and 95% confidence intervals of the difference between Isradipine CR 10mg and placebo groups is estimated.|Change in UPDRS total score of Isradipine CR 10mg/day arm is compared to placebo group.||2.80|-5.01|0.5761
92377077|NCT00909545|184657844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|2.01||0.322|TWO_SIDED|95.0|-5.98|1.99||P-values for efficacy outcomes will be one-sided test with alpha = 0.05|ANCOVA|Analysis of covariance is used, with terms representing assigned treatment group and baseline value of the measure in the model|Least square mean(standard error) and 95% confidence intervals of the difference between Isradipine CR 20mg and placebo groups is estimated.|Change in UPDRS total score of Isradipine CR 20mg/day arm is compared to placebo group.||1.99|-5.98|0.322
92377078|NCT00909545|184657845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.19|STANDARD_ERROR_OF_MEAN|1.1587||0.1383|TWO_SIDED|95.0|0.0196|1.8411|||Fisher Exact|||The tolerability of 5mg/day dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.||1.8411|0.0196|0.1383
92377079|NCT00909545|184657845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1086|STANDARD_ERROR_OF_MEAN|0.1114||0.0248|TWO_SIDED|95.0|0.0123|0.9591|||Fisher Exact|||The tolerability of 10mg/day dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.||0.9591|0.0123|0.0248
92377080|NCT00909545|184657845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.024|STANDARD_ERROR_OF_MEAN|1.1035|<|0.0001|TWO_SIDED|95.0|0.0028|0.2087|||Fisher Exact|||The tolerability of 20mg/day dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.||0.2087|0.0028|<0.0001
92377081|NCT00909545|184657846|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|0.38||0.2324|TWO_SIDED|95.0|-0.3|1.22|||ANCOVA|||Change in Mental UPDRS subscale of Isradipine CR 5mg/day arm is compared to placebo group.||1.22|-0.30|0.2324
92377082|NCT00909545|184657846|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.37||1|TWO_SIDED|95.0|-0.73|0.73|||ANCOVA|||Change in Mental UPDRS subscale of Isradipine CR 10mg/day arm is compared to placebo group.||0.73|-0.73|1
92377083|NCT00909545|184657846|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.37||0.4675|TWO_SIDED|95.0|-1.02|0.47|||ANCOVA|||Change in Mental UPDRS subscale of Isradipine CR 20mg/day arm is compared to placebo group.||0.47|-1.02|0.4675
92377084|NCT00909545|184657847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.82||0.4648|TWO_SIDED|95.0|-1.03|2.23|||ANCOVA|||Change in ADL UPDRS subscale of Isradipine CR 5mg/day arm is compared to placebo group.||2.23|-1.03|0.4648
92377085|NCT00909545|184657847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.8||0.525|TWO_SIDED|95.0|-2.09|1.07|||ANCOVA|||Change in ADL UPDRS subscale of Isradipine CR 10mg/day arm is compared to placebo group.||1.07|-2.09|0.525
92377086|NCT00909545|184657847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|0.81||0.3674|TWO_SIDED|95.0|-2.36|0.88|||ANCOVA|||Change in ADL UPDRS subscale of Isradipine CR 20mg/day arm is compared to placebo group.||0.88|-2.36|0.3674
92377087|NCT00909545|184657848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.83|STANDARD_ERROR_OF_MEAN|1.5||0.579|TWO_SIDED|95.0|-3.8|2.14|||ANCOVA|||Change in Motor UPDRS subscale of Isradipine CR 5mg/day arm is compared to placebo group.||2.14|-3.80|0.579
92411210|NCT03615040|184713072|SUPERIORITY||Geometric mean ratio|0.75||||0.114|TWO_SIDED|95.0|0.52|1.07||A mixed effect linear model of the log outcome with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and log baseline score as fixed effects|Mixed Models Analysis|||Macrophage count||1.07|0.52|0.114
92411211|NCT03615040|184713073|SUPERIORITY||Geometric mean ratio|0.79||||0.215|TWO_SIDED|95.0|0.54|1.15||A mixed effect linear model of the log outcome with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and log baseline score as fixed effects.|Mixed Models Analysis|||Epithelium count||1.15|0.54|0.215
92377088|NCT00909545|184657848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|1.46||0.7778|TWO_SIDED|95.0|-3.3|2.48|||ANCOVA|||Change in Motor UPDRS subscale of Isradipine CR 10mg/day arm is compared to placebo group.||2.48|-3.30|0.7778
92230522|NCT03619213|184364307|SUPERIORITY||Rate Ratio (RR)|1.11||||0.0086|TWO_SIDED|95.0|1.03|1.21||The p-value is obtained from a rank ANCOVA adjusted for baseline KCCQ score, stratified by T2DM status at randomisation.|Win Ratio|Stratified by Type 2 Diabetes status at randomization and including baseline score as a covariate.|The composite of change from baseline in KCCQ Total Symptom Score at 8 months, or death before 8 months.|Comparison Group: Placebo||1.21|1.03|0.0086
92230523|NCT03619213|184364308|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1678|TWO_SIDED|95.0|0.74|1.05|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization.||Comparison Group: Placebo||1.05|0.74|0.1678
92240263|NCT00051558|184383969|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 1|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92377089|NCT00909545|184657848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64|STANDARD_ERROR_OF_MEAN|1.48||0.669|TWO_SIDED|95.0|-3.58|2.31|||ANCOVA|||Change in Motor UPDRS subscale of Isradipine CR 20mg/day arm is compared to placebo group.||2.31|-3.58|0.669
92377090|NCT00909545|184657849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.6677|TWO_SIDED|95.0|-0.27|0.17|||ANCOVA|||Change in Modified Hoehn \& Yahr Scale of Isradipine CR 5mg/day arm is compared to placebo group.||0.17|-0.27|0.6677
92377091|NCT00909545|184657849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.1755|TWO_SIDED|95.0|-0.36|0.07|||ANCOVA|||Change in Modified Hoehn \& Yahr Scale of Isradipine CR 10mg/day arm is compared to placebo group.||0.07|-0.36|0.1755
92411212|NCT01024309|184713080|SUPERIORITY_OR_OTHER|||||||0.04||||||Apriori level of significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum was used||||||.04
92230524|NCT03619213|184364309|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.3425|TWO_SIDED|95.0|0.83|1.07|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization.||Comparison Group: Placebo||1.07|0.83|0.3425
92230525|NCT01147926|184364315|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92230526|NCT02207907|184364454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.491|||<|0.0001|TWO_SIDED|95.0|-20.317|-14.664|||ANCOVA|From ANCOVA analysis with treatment group and smoking status as factors and baseline MGI and BI as covariates|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||-14.664|-20.317|<0.0001
92230527|NCT02207907|184364455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.201|||<|0.0001|TWO_SIDED|95.0|-0.237|-0.165|||ANCOVA|From ANCOVA analysis with treatment group and smoking status as factors and baseline MGI and BI as covariates|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||-0.165|-0.237|<0.0001
92230528|NCT00432809|184364475|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0|||||Chi-squared|||||||0.002
92230529|NCT00432809|184364475|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Chi-squared|||||||0.008
92278044|NCT00782509|184458137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.018||95.0|-0.5|0.0|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.0|-0.5|0.0180
92230530|NCT00432809|184364475|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||Not adjusted for multiple comparisons|Chi-squared|||||||0.59
92230531|NCT00432809|184364479|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92230532|NCT00432809|184364479|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92230533|NCT00432809|184364479|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANOVA|||||||0.85
92230534|NCT00432809|184364480|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.004
92230535|NCT00432809|184364480|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.003
92230536|NCT00432809|184364480|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.86
92230537|NCT00432809|184364481|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92377092|NCT00909545|184657849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.11||0.1463|TWO_SIDED|95.0|-0.38|0.06|||ANCOVA|||Change in Modified Hoehn \& Yahr Scale of Isradipine CR 20mg/day arm is compared to placebo group.||0.06|-0.38|0.1463
92377093|NCT00909545|184657850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|1.4||0.7111|TWO_SIDED|95.0|-3.3|2.26|||ANCOVA|||Change in Modified Schwab \& England Independence Scale of Isradipine CR 5mg/day arm is compared to placebo group.||2.26|-3.30|0.7111
92377094|NCT00909545|184657850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.35|STANDARD_ERROR_OF_MEAN|1.36||0.3237|TWO_SIDED|95.0|-1.35|4.04|||ANCOVA|||Change in Modified Schwab \& England Independence Scale of Isradipine CR 10mg/day arm is compared to placebo group.||4.04|-1.35|0.3237
92377095|NCT00909545|184657850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.27|STANDARD_ERROR_OF_MEAN|1.4||0.3658|TWO_SIDED|95.0|-1.51|4.05|||ANCOVA|||Change in Modified Schwab \& England Independence Scale of Isradipine CR 20mg/day arm is compared to placebo group.||4.05|-1.51|0.3658
92377096|NCT00909545|184657851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|1.32||0.0608|TWO_SIDED|95.0|-0.12|5.13|||ANCOVA|||Change in BDI-II of Isradipine CR 5mg/day arm is compared to placebo group.||5.13|-0.12|0.0608
92377097|NCT00909545|184657851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.63|STANDARD_ERROR_OF_MEAN|1.36||0.6445|TWO_SIDED|95.0|-2.07|3.33|||ANCOVA|||Change in BDI-II of Isradipine CR 10mg/day arm is compared to placebo group.||3.33|-2.07|0.6445
92377098|NCT00909545|184657851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.02|STANDARD_ERROR_OF_MEAN|1.52||0.1336|TWO_SIDED|95.0|-0.63|4.67|||ANCOVA|||Change in BDI-II of Isradipine CR 20mg/day arm is compared to placebo group.||4.67|-0.63|0.1336
92377099|NCT00909545|184657852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.56||0.3533|TWO_SIDED|95.0|-1.64|0.59|||ANCOVA|||Change in Montreal Cognitive Assessment of Isradipine CR 5mg/day arm is compared to placebo group.||0.59|-1.64|0.3533
92377100|NCT00909545|184657852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47|STANDARD_ERROR_OF_MEAN|0.56||0.4045|TWO_SIDED|95.0|-1.59|0.65|||ANCOVA|||Change in Montreal Cognitive Assessment of Isradipine CR 10mg/day arm is compared to placebo group.||0.65|-1.59|0.4045
92377101|NCT00909545|184657852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.57||0.7049|TWO_SIDED|95.0|-1.36|0.92|||ANCOVA|||Change in Montreal Cognitive Assessment of Isradipine CR 20mg/day arm is compared to placebo group.||0.92|-1.36|0.7049
92377102|NCT00909545|184657853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.19|STANDARD_ERROR_OF_MEAN|1.8||0.2278|TWO_SIDED|95.0|-1.4|5.79|||ANCOVA|||Change in PDQ-39 of Isradipine CR 5mg/day arm is compared to placebo group.||5.79|-1.40|0.2278
92377103|NCT00909545|184657853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.72|STANDARD_ERROR_OF_MEAN|1.86||0.356|TWO_SIDED|95.0|-1.97|5.42|||ANCOVA|||Change in PDQ-39 of Isradipine CR 5mg/day arm is compared to placebo group.||5.42|-1.97|0.356
92377104|NCT00909545|184657853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.07|STANDARD_ERROR_OF_MEAN|1.83||0.26|TWO_SIDED|95.0|-1.56|5.71|||ANCOVA|||Change in PDQ-39 of Isradipine CR 20mg/day arm is compared to placebo group.||5.71|-1.56|0.2600
92377105|NCT00909545|184657860|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.2632|STANDARD_ERROR_OF_MEAN|1.159||0.1384|TWO_SIDED|95.0|0.5432|50.9977||The analysis of common AE of each active dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.|Fisher Exact|||The analyses is to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Oedema Peripheral.||50.9977|0.5432|0.1384
92377106|NCT00909545|184657860|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|15.625|STANDARD_ERROR_OF_MEAN|1.097||0.0024|TWO_SIDED|95.0|1.8214|134.0403||The analysis of common AE of each active dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.|Fisher Exact|||Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Oedema Peripheral.||134.0403|1.8214|0.0024
92230538|NCT00432809|184364481|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANOVA|||||||0.003
92230539|NCT00432809|184364481|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||ANOVA|||||||0.23
92230540|NCT00432809|184364482|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Medical Therapy vs. Gastric Bypass||||<0.001
92377107|NCT00909545|184657860|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|50.0|STANDARD_ERROR_OF_MEAN|1.108|<|0.0001|TWO_SIDED|95.0|5.7004|438.5694||The analysis of common AE of each active dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.|Fisher Exact|||Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Oedema Peripheral.||438.5694|5.7004|<.0001
92377108|NCT00909545|184657861|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.754|STANDARD_ERROR_OF_MEAN|0.6715||0.7735|TWO_SIDED|95.0|0.2022|2.812|||Fisher Exact|||one-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dizziness.||2.8120|0.2022|0.7735
92377109|NCT00909545|184657861|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8143|STANDARD_ERROR_OF_MEAN|0.6419||0.7385|TWO_SIDED|95.0|0.2314|2.8658|||Fisher Exact|||one-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dizziness.||2.8658|0.2314|0.7385
92377110|NCT00909545|184657861|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9048|STANDARD_ERROR_OF_MEAN|0.6463||0.6823|TWO_SIDED|95.0|0.2549|3.2112|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dizziness.||3.2112|0.2549|0.6823
92377111|NCT00909545|184657862|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5263|STANDARD_ERROR_OF_MEAN|0.9188||0.2756|TWO_SIDED|95.0|0.4172|15.2975|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nasopharyngitis.||15.2975|0.4172|0.2756
92377112|NCT00909545|184657862|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4211|STANDARD_ERROR_OF_MEAN|0.8584||0.07|TWO_SIDED|95.0|0.8217|23.7875|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nasopharyngitis.||23.7875|0.8217|0.07
92377113|NCT00909545|184657862|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|STANDARD_ERROR_OF_MEAN|0.9174||0.2953|TWO_SIDED|95.0|0.3975|14.4919|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nasopharyngitis.||14.4919|0.3975|0.2953
92411213|NCT01024309|184713081|SUPERIORITY_OR_OTHER|||||||0.08||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test||||||0.08
92411214|NCT01024309|184713082|SUPERIORITY_OR_OTHER|||||||0.04||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test was used||||||0.04
92377114|NCT00909545|184657863|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15|STANDARD_ERROR_OF_MEAN|0.8719||0.6049|TWO_SIDED|95.0|0.2082|6.3508|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Headache.||6.3508|0.2082|0.6049
92411215|NCT01024309|184713083|SUPERIORITY_OR_OTHER|||||||0.22||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test was used||||||0.22
92230541|NCT00432809|184364482|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92278045|NCT00782509|184458137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0015||95.0|-0.6|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.1|-0.6|0.0015
92278046|NCT00782509|184458138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1313||95.0|-0.4|0.0|||Mixed Models Analysis|Model included treatment, tiotropium stratum,visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||0.0|-0.4|0.1313
92230542|NCT00432809|184364482|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Chi-squared|||||||0.10
92230543|NCT00432809|184364483|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92230544|NCT00432809|184364483|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92230545|NCT00432809|184364483|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||||||0.02
92230546|NCT00432809|184364484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92230547|NCT00432809|184364484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92230548|NCT00432809|184364484|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||||||0.02
92230549|NCT00432809|184364485|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92230550|NCT00432809|184364485|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92230551|NCT00432809|184364485|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||ANOVA|||||||0.61
92230552|NCT00432809|184364486|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92230553|NCT00432809|184364486|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92230554|NCT00432809|184364486|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|||||||0.03
92230555|NCT00432809|184364487|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||ANOVA|||||||0.87
92411216|NCT01024309|184713084|SUPERIORITY_OR_OTHER|||||||0.0029||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test was used||||||.0029
92411217|NCT01024309|184713085|SUPERIORITY_OR_OTHER|||||||0.13||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test was used||||||0.13
92411218|NCT01024309|184713086|SUPERIORITY_OR_OTHER|||||||0.29||||||a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum||||||0.29
92411219|NCT01024309|184713087|SUPERIORITY_OR_OTHER|||||||0.23||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test was used||||||0.23
92411220|NCT01024309|184713088|SUPERIORITY_OR_OTHER|||||||0.49||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcox Rank Sum Test||||||0.49
92230556|NCT00432809|184364487|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||ANOVA|||||||0.67
92411221|NCT00435045|184713098|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the non-HDL-C response was assessed by calculating the 2-sided 90% and 95% confidence intervals (CIs)for each difference in response based on comparing the effects of increases in atorvastatin dose on the percent changes from baseline to the end of each atorvastatin period, a repeated-ANOVA model was used.||||||0.0002||95.0|||||ANOVA|||||||0.0002
92230557|NCT00432809|184364487|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANOVA|||||||0.46
92377115|NCT00909545|184657863|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|STANDARD_ERROR_OF_MEAN|0.7704||0.2327|TWO_SIDED|95.0|0.5081|10.4105|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Headache.||10.4105|0.5081|0.2327
92377116|NCT00909545|184657863|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5333|STANDARD_ERROR_OF_MEAN|0.8227||0.4534|TWO_SIDED|95.0|0.3057|7.6897|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Headache.||7.6897|0.3057|0.4534
92230558|NCT00432809|184364488|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|||||||0.001
92377117|NCT00909545|184657864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7302|STANDARD_ERROR_OF_MEAN|0.9616||0.7852|TWO_SIDED|95.0|0.1109|4.8065|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Constipation.||4.8065|0.1109|0.7852
92377118|NCT00909545|184657864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|0.8681||0.666|TWO_SIDED|95.0|0.1824|5.482|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Constipation.||5.4820|0.1824|0.666
92377119|NCT00909545|184657864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5333|STANDARD_ERROR_OF_MEAN|0.8227||0.4534|TWO_SIDED|95.0|0.3057|7.6897|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Constipation.||7.6897|0.3057|0.4534
92377120|NCT00909545|184657865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5455|STANDARD_ERROR_OF_MEAN|1.2596||0.8589|TWO_SIDED|95.0|0.0462|6.4433|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Fatigue.||6.4433|0.0462|0.8589
92377121|NCT00909545|184657865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5652|STANDARD_ERROR_OF_MEAN|0.9584||0.5|TWO_SIDED|95.0|0.2392|10.241|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Fatigue.||10.2410|0.2392|0.5000
92411222|NCT01743001|184713123|SUPERIORITY||least-square (LS) mean difference|-4.7||||0.612|TWO_SIDED|95.0|-22.8|13.5||To control for multiplicity across the primary and secondary endpoints, all secondary endpoints were analyzed hierarchically according to order and significance as pre-specified in the protocol eliminating further adjustment for multiple comparisons.|ANCOVA|ANCOVA model included treatment group, presence of DS (yes/no), and WHO FC (II vs III/IV) as categorical factors, and baseline 6MWD value as covariate||The null hypothesis was that there was no difference between macitentan and placebo for the mean change from baseline to Week 16 in 6MWD. Null hypothesis was tested by an analysis of covariance (ANCOVA).||13.5|-22.8|0.6120
92411223|NCT01743001|184713124|SUPERIORITY||Odds Ratio (OR)|0.53||||0.145|TWO_SIDED|95.0|0.23|1.24||The secondary efficacy endpoints were analyzed hierarchically as this approach eliminated the requirement for further adjustment for multiple comparisons.|Regression, Logistic|Logistic regression model adjusted for randomized treatment group and location of cardiac defect (pre-tricupsid / post-tricupsid ) as factors.||For this secondary endpoint of WHO functional class, the improvement from baseline to Week 16 in WHO functional class was evaluated. The null hypothesis is the odds of improvement are the same in the placebo and the macitentan group.||1.24|0.23|0.1450
92230559|NCT00432809|184364488|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|||||||0.001
92377122|NCT00909545|184657865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7143|STANDARD_ERROR_OF_MEAN|0.9605||0.4609|TWO_SIDED|95.0|0.2609|11.2639|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Fatigue.||11.2639|0.2609|0.4609
92230560|NCT00432809|184364488|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||ANOVA|||||||0.98
92230561|NCT00432809|184364489|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92230562|NCT00432809|184364489|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.08
92230563|NCT00432809|184364489|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.17
92230564|NCT00432809|184364490|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92230565|NCT00432809|184364490|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92230566|NCT00432809|184364490|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.59
92230567|NCT00432809|184364491|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230568|NCT00432809|184364491|SUPERIORITY_OR_OTHER|||||||1.001||95.0|||||Chi-squared|||||||1.001
92230569|NCT00432809|184364491|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||Chi-squared|||||||0.68
92230570|NCT00432809|184364492|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230571|NCT00432809|184364492|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230572|NCT00432809|184364492|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||||||0.05
92377123|NCT00909545|184657866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7302|STANDARD_ERROR_OF_MEAN|0.9616||0.7852|TWO_SIDED|95.0|0.1109|4.8065|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nausea.||4.8065|0.1109|0.7852
92230573|NCT00432809|184364493|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92377124|NCT00909545|184657866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3067|STANDARD_ERROR_OF_MEAN|1.1912||0.9448|TWO_SIDED|95.0|0.0297|3.1612|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nausea.||3.1612|0.0297|0.9448
92377125|NCT00909545|184657866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.697|STANDARD_ERROR_OF_MEAN|0.9604||0.7996|TWO_SIDED|95.0|0.1061|4.5779|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nausea.||4.5779|0.1061|0.7996
92377126|NCT00909545|184657867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.381|STANDARD_ERROR_OF_MEAN|1.2599||0.4532|TWO_SIDED|95.0|0.2015|28.1366|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Tract Infection.||28.1366|0.2015|0.4532
92377127|NCT00909545|184657867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.9524|STANDARD_ERROR_OF_MEAN|1.1347||0.0953|TWO_SIDED|95.0|0.6439|55.0272|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Tract Infection.||55.0272|0.6439|0.0953
92377128|NCT00909545|184657868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|STANDARD_ERROR_OF_MEAN|0.9617||0.4402||95.0|0.2733|11.8558|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Depression.||11.8558|0.2733|0.4402
92377129|NCT00909545|184657868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48|STANDARD_ERROR_OF_MEAN|1.2577||0.8824|TWO_SIDED|95.0|0.0408|5.6461|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Depression.||5.6461|0.0408|0.8824
92377130|NCT00909545|184657868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0909|STANDARD_ERROR_OF_MEAN|1.0428||0.6641|TWO_SIDED|95.0|0.1413|8.4197|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Depression.||8.4197|0.1413|0.6641
92377131|NCT00909545|184657869|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|STANDARD_ERROR_OF_MEAN|0.9617||0.4402|TWO_SIDED|95.0|0.2733|11.8558|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Somnolence.||11.8558|0.2733|0.4402
92411224|NCT01743001|184713125|SUPERIORITY||least-square (LS) mean difference|0.08||||0.6818||95.0|-0.29|0.44||The secondary efficacy endpoints were analyzed hierarchically as this approach eliminated the requirement for further adjustment for multiple comparisons.|ANCOVA|Adjusted for randomized treatment group, location of cardiac defect(pre-tricupsid/post-tricupsid) as factors, baseline Borg dyspnea index as covariate||The null hypothesis was that the mean change from baseline to Week 16 in the Borg dyspnea index is the same in the macitentan and in the placebo group.||0.44|-0.29|0.6818
92411225|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-1.0||||0.6431|TWO_SIDED|95.0|-5.0|3.1|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Physical Functioning.||3.1|-5.0|0.6431
92411226|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-1.4||||0.5988|TWO_SIDED|95.0|-6.7|3.9|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Role-Physical.||3.9|-6.7|0.5988
92230574|NCT00432809|184364493|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92377132|NCT00909545|184657869|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|1.0409||0.6951|TWO_SIDED|95.0|0.13|7.6906|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Somnolence.||7.6906|0.1300|0.6951
92377133|NCT00909545|184657870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|STANDARD_ERROR_OF_MEAN|0.9617||0.4402|TWO_SIDED|95.0|0.2733|11.8558|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Insomnia .||11.8558|0.2733|0.4402
92377134|NCT00909545|184657870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48|STANDARD_ERROR_OF_MEAN|1.2577||0.8824|TWO_SIDED|95.0|0.0408|5.6461|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Insomnia .||5.6461|0.0408|0.8824
92377135|NCT00909545|184657870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5217|STANDARD_ERROR_OF_MEAN|1.2594||0.8673|TWO_SIDED|95.0|0.0442|6.1537|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Insomnia .||6.1537|0.0442|0.8673
92411227|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|0.1||||0.9642|TWO_SIDED|95.0|-5.9|6.2|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Pain Index.||6.2|-5.9|0.9642
92411228|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|3.1||||0.1542|TWO_SIDED|95.0|-1.2|7.3|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of General Health Perceptions.||7.3|-1.2|0.1542
92230575|NCT00432809|184364493|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
92230576|NCT00432809|184364494|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230577|NCT00432809|184364494|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Chi-squared|||||||0.005
92230578|NCT00432809|184364494|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||||||0.004
92411229|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|1.1||||0.602|TWO_SIDED|95.0|-3.1|5.3|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Vitality.||5.3|-3.1|0.6020
92411230|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-1.4||||0.634|TWO_SIDED|95.0|-7.2|4.4|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Social Functioning.||4.4|-7.2|0.6340
92411231|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-2.8||||0.3384|TWO_SIDED|95.0|-8.7|3.0|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Role-Emotional.||3.0|-8.7|0.3384
92411232|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-2.3||||0.2704|TWO_SIDED|95.0|-6.4|1.8|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Mental Health Index.||1.8|-6.4|0.2704
92411233|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-0.4||||0.6431|TWO_SIDED|95.0|-2.1|1.3|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Physical Functioning (norm-based).||1.3|-2.1|0.6431
92230579|NCT00432809|184364495|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230580|NCT00432809|184364495|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
92230581|NCT00432809|184364495|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Chi-squared|||||||0.20
92377136|NCT00909545|184657871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3485|STANDARD_ERROR_OF_MEAN|1.1919||0.9294|TWO_SIDED|95.0|0.0337|3.6084|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dyspepsia .||3.6084|0.0337|0.9294
92377137|NCT00909545|184657871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3067|STANDARD_ERROR_OF_MEAN|1.1912||0.9448|TWO_SIDED|95.0|0.0297|3.1612|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dyspepsia .||3.1612|0.0297|0.9448
92411234|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-0.6||||0.5988|TWO_SIDED|95.0|-2.6|1.5|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Role-Physical (norm-based).||1.5|-2.6|0.5988
92377138|NCT00909545|184657871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3333|STANDARD_ERROR_OF_MEAN|1.1924||0.9351|TWO_SIDED|95.0|0.0322|3.4459|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dyspepsia .||3.4459|0.0322|0.9351
92411235|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|0.1||||0.9642|TWO_SIDED|95.0|-2.5|2.6|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Pain Index (norm-based).||2.6|-2.5|0.9642
92230582|NCT00432809|184364496|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230583|NCT00432809|184364496|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230584|NCT00432809|184364496|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Chi-squared|||||||0.20
92377139|NCT00909545|184657872|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5455|STANDARD_ERROR_OF_MEAN|1.2596||0.8589|TWO_SIDED|95.0|0.0462|6.4433|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Diarrhoea.||6.4433|0.0462|0.8589
92377140|NCT00909545|184657872|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|1.0409||0.6951|TWO_SIDED|95.0|0.13|7.6906|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Diarrhoea.||7.6906|0.1300|0.6951
92377141|NCT00909545|184657872|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5217|STANDARD_ERROR_OF_MEAN|1.2594||0.8673|TWO_SIDED|95.0|0.0442|6.1537|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Diarrhoea.||6.1537|0.0442|0.8673
92230585|NCT00432809|184364497|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Chi-squared|||||||0.48
92230586|NCT00432809|184364497|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Chi-squared|||||||0.46
92230587|NCT00432809|184364497|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
92230588|NCT00432809|184364498|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230589|NCT00432809|184364498|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230590|NCT00432809|184364498|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Chi-squared|||||||0.62
92230591|NCT00432809|184364499|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230592|NCT00432809|184364499|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92230593|NCT00432809|184364499|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Chi-squared|||||||0.03
92240264|NCT00051558|184383969|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 6|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92230594|NCT01499290|184364500|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was determined by comparing the lower limit of the 95% confidence interval for risk difference (corresponding to a 97.5% 1-sided lower bound) to the non-inferiority marging of -12.5%|Risk Difference (RD)|-3.5|||||TWO_SIDED|95.0|-8.64|1.58||||||The primary objective of this study (FDA agreed) was to determine the noninferiority in the clinical cure rate for CAZ-AVI compared to that for Meropenem at TOC in the mMITT in adult subjects with cIAI.||1.58|-8.64|
92230595|NCT01499290|184364501|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was determined by comparing the lower limit of the 95% confidence interval for risk difference (corresponding to a 97.5% 1-sided lower bound) to the non-inferiority marging of -12.5%|Risk Difference (RD)|-2.4|||||TWO_SIDED|95.0|-6.9|2.1||||||The co-primary objective of this study (ROW agreed) was to determine the noninferiority in the clinical cure rate for CAZ-AVI compared to that for Meropenem at TOC in the MITT in adult subjects with cIAI.||2.10|-6.90|
92230596|NCT01499290|184364502|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was determined by comparing the lower limit of the 95% confidence interval for risk difference (corresponding to a 97.5% 1-sided lower bound) to the non-inferiority marging of -12.5%|Risk Difference (RD)|-0.8|||||TWO_SIDED|95.0|-4.61|2.89||||||The co-primary objective of this study (ROW agreed) was to determine the noninferiority in the clinical cure rate for CAZ-AVI compared to that for Meropenem at TOC in the CE in adult subjects with cIAI.||2.89|-4.61|
92230597|NCT02630953|184364563|SUPERIORITY||Median Difference (Final Values)|-6.22||||0.24|TWO_SIDED|95.0|-41.15|28.7||Significance level was set at .05 a priori.|quantile regression|Bootstrapped standard errors (10,000 replications)||Using a series of quantile regression models with bootstrapped standard errors (10,000 replications) we examined the potential treatment effects on MVPA at follow-ups, controlling for baseline. Quantile regression models the median outcome instead of the mean, and are appropriate when data is skewed (as was the case in both self-reported and objectively measured MVPA).||28.70|-41.15|0.24
92230598|NCT02630953|184364564|SUPERIORITY||Median Difference (Final Values)|7.5||||0.73|TWO_SIDED|95.0|-32.37|47.37||Significance was set at .05 a priori|quantile regression|||Using a series of quantile regression models with bootstrapped standard errors (10,000 replications) we examined the potential treatment effects on MVPA at follow-up, controlling for baseline||47.37|-32.37|0.73
92230599|NCT02630953|184364565|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.035|>|0.06|TWO_SIDED|||||Significance level set at .05 a priori|Regression, Linear|||Using a series of generalized linear models with identity link, we examined treatment effects on biomarkers at 6 months controlling for baseline and potential confounders.||||>.06
92230600|NCT01957137|184364601|SUPERIORITY_OR_OTHER|||||||0.3773|||||||Mixed Models Analysis|The final model included cycling, period and the interaction between cycling and period.||||||0.3773
92230601|NCT01957137|184364602|SUPERIORITY_OR_OTHER|||||||0.2396|||||||Mixed Models Analysis|The final model included cycling and period.||||||0.2396
92230602|NCT01957137|184364603|SUPERIORITY_OR_OTHER|||||||0.8874|||||||Mixed Models Analysis|The final model included cycling and period.||||||0.8874
92230603|NCT00700804|184364659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7|STANDARD_DEVIATION|2.5||0.05|||||||Mixed Models Analysis|Effects of calcium (Ca), protein \& their interaction were tested using repeated measures analysis of variance (subjects nested under High or Low Ca)|Reported analysis is the main effect of Calcium (High vs Low) from the Mixed Model Analysis which averages across the two levels of dietary protein. The main effect of protein and the calcium x protein interaction were not statistically significant.|||||0.05
92230604|NCT02901431|184364660|SUPERIORITY||Difference in Adjusted LSMeans|-0.16||||0.911|TWO_SIDED|90.0|-2.56|2.23|||Mixed Models Analysis|||||2.23|-2.56|0.911
92230605|NCT02901431|184364661|SUPERIORITY||Difference in adjused LSMean|0.29|||||TWO_SIDED|90.0|-1.85|2.43||||||Week 12||2.43|-1.85|
92230606|NCT02901431|184364661|SUPERIORITY||Difference in adjusted LSMean|-0.23|||||TWO_SIDED|90.0|-2.67|2.22||||||Week 24||2.22|-2.67|
92230607|NCT02901431|184364662|SUPERIORITY||Difference in adjusted LSMean|-0.22|||||TWO_SIDED|90.0|-2.36|1.92||||||Communication Domain Standard Score, Week 12||1.92|-2.36|
92230608|NCT02901431|184364662|SUPERIORITY||Difference in adjusted LSMean|0.71|||||TWO_SIDED|90.0|-1.6|3.02||||||Communication Domain Standard Score, Week 24||3.02|-1.60|
92230609|NCT02901431|184364662|SUPERIORITY||Difference in adjusted LSMean|0.51|||||TWO_SIDED|90.0|-2.1|3.12||||||Socialization Domain Standard Score, Week 12||3.12|-2.10|
92230610|NCT02901431|184364662|SUPERIORITY|Socialization Domain Standard Score, Week 24|Difference in adjusted LSMean|-0.61|||||TWO_SIDED|90.0|-3.74|2.51||||||||2.51|-3.74|
92230611|NCT02901431|184364662|SUPERIORITY|Daily Living Skills Domain Standard Score, Week 12|Difference in adjusted LSMean|2.14|||||TWO_SIDED|90.0|-0.63|4.9||||||||4.90|-0.63|
92230612|NCT02901431|184364662|SUPERIORITY|Daily Living Skills Domain Standard Score, Week 24|Differences in adjusted LSMean|0.18|||||TWO_SIDED|90.0|-2.87|3.22||||||||3.22|-2.87|
92230613|NCT02901431|184364668|SUPERIORITY||Difference of Adjusted LS Means|3.74|||||TWO_SIDED|90.0|0.78|6.7|||Mixed Models Analysis|||Week 12||6.70|0.78|
92230614|NCT02901431|184364668|SUPERIORITY||Difference of Adjusted LS means|2.28|||||TWO_SIDED|90.0|-0.73|5.29||||||Week 24||5.29|-0.73|
92230615|NCT02901431|184364670|SUPERIORITY||Difference in Adjusted LS Means|0.01||||0.992|TWO_SIDED|90.0|-1.99|2.01|||Mixed Models Analysis|||||2.01|-1.99|0.992
92230616|NCT05775289|184364700|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9705|TWO_SIDED|95.0|0.63|1.56|||Log Rank|||||1.56|0.63|0.9705
92230617|NCT05775289|184364701|SUPERIORITY||Odds Ratio (OR)|0.77||||0.4056|TWO_SIDED|95.0|0.42|1.43|||Cochran-Mantel-Haenszel|||||1.43|0.42|0.4056
92230618|NCT04336397|184364729|SUPERIORITY||Odds Ratio (OR)|1.2||||0.04|TWO_SIDED|95.0|1.0|1.5|||Chi-squared|||||1.5|1.0|0.04
92230619|NCT04336397|184364729|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
92230620|NCT00046228|184364738|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.551||95.0|0.67|1.23||The null hypothesis was tested at the significance level of 0.049. If it is significant, the significance level of null hypotheses tested in the analyses 2 and 3 will be adjusted according to the modified Hochberg approach.|Log Rank|Independent Clinical Endpoints Committee confirmed components of primary endpoint except for death \& resuscitated v fib assessed by the investigator)||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the primary PCI in terms of the primary efficacy outcome. Assuming the relative risk reduction for the reteplase/abciximab facilitated PCI group versus the Primary PCI group is 15% in lower risk, 25% in medium risk, and 35% in high risk, the power of this comparison (1,000 subjects per group) is 83.4 %.||1.23|0.67|0.551
92230621|NCT00046228|184364738|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.858||95.0|0.72|1.31|||Log Rank|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in terms of the primary efficacy outcome. Assuming the relative risk reduction for the Abciximab facilitated PCI versus the Primary PCI group is 12.7%, in lower risk, 17.9% in medium risk, and 25.0% in high risk, the power of this comparison (1000 subjects per group) is 54.1%||1.31|0.72|0.858
92230622|NCT00046228|184364738|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.676||95.0|0.69|1.27|||Log Rank|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in terms of the primary efficacy outcome. Assuming the relative risk reduction for the reteplase/abciximab facilitated PCI versus the abciximab facilitated PCI group is 2.6% in lower risk, 8.7% in medium risk, and 13.3% in high risk, the power of this comparison (1,000 subjects per group) is 13.5%.||1.27|0.69|0.676
92377142|NCT00909545|184657873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7302|STANDARD_ERROR_OF_MEAN|0.9616||0.7852|TWO_SIDED|95.0|0.1109|4.8065|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Sinusitis.||4.8065|0.1109|0.7852
92377143|NCT00909545|184657873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3067|STANDARD_ERROR_OF_MEAN|1.1912||0.9448|TWO_SIDED|95.0|0.0297|3.1612|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Sinusitis.||3.1612|0.0297|0.9448
92377144|NCT00909545|184657874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0833|STANDARD_ERROR_OF_MEAN|1.2576||0.5|TWO_SIDED|95.0|0.1771|24.5057|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Back Pain.||24.5057|0.1771|0.5000
92377145|NCT00909545|184657874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.5714|STANDARD_ERROR_OF_MEAN|1.192||0.2746|TWO_SIDED|95.0|0.3453|36.9408|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Back Pain.||36.9408|0.3453|0.2746
92377146|NCT00909545|184657875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1364|STANDARD_ERROR_OF_MEAN|1.4444||0.7236|TWO_SIDED|95.0|0.067|19.264|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Hypotension.||19.2640|0.0670|0.7236
92377147|NCT00909545|184657875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0833|STANDARD_ERROR_OF_MEAN|1.2576||0.5|TWO_SIDED|95.0|0.1771|24.5057|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Hypotension.||24.5057|0.1771|0.5000
92377148|NCT00909545|184657875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2727|STANDARD_ERROR_OF_MEAN|1.2592||0.4694|TWO_SIDED|95.0|0.1926|26.8124|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Hypotension.||26.8124|0.1926|0.4694
92377149|NCT00089986|184657881|SUPERIORITY_OR_OTHER||Rate difference|1.1||||0.329|ONE_SIDED|90.0|-2.1||||Chi-squared||||||-2.1|0.329
92377150|NCT00089986|184657881|SUPERIORITY_OR_OTHER||Rate Difference|-4.4||||0.879|ONE_SIDED|90.0|-9.4||||Chi-squared||||||-9.4|0.879
92377151|NCT01310400|184657885|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|4.5||||0.0036|TWO_SIDED|95.0|1.4|7.5||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.5 mL Inflexal V vs. 0.25 mL Agrippal for the A/H1N1 strain.||7.5|1.4|0.0036
92411236|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|1.5||||0.1542|TWO_SIDED|95.0|-0.6|3.5|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of General Health Perceptions (norm-based).||3.5|-0.6|0.1542
92411237|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|0.6||||0.602|TWO_SIDED|95.0|-1.5|2.6|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Vitality (norm-based).||2.6|-1.5|0.6020
92411238|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-0.6||||0.634|TWO_SIDED|95.0|-3.1|1.9|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Social Functioning (norm-based).||1.9|-3.1|0.6340
92230623|NCT00046228|184364739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.247||95.0|0.57|1.16|||Chi-squared|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the primary PCI in complications of MI within 90 days.||1.16|0.57|0.247
92230624|NCT00046228|184364739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.278||95.0|0.58|1.17|||Chi-squared|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in complications of MI within 90 days.||1.17|0.58|0.278
92240265|NCT00051558|184383969|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for Month 18|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||0.004
92377152|NCT01310400|184657885|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|-3.0||||0.1465|TWO_SIDED|95.0|-7.0|1.0||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.25 mL Inflexal V vs. 0.25 mL Agrippal for the A/H1N1 strain.||1.0|-7.0|0.1465
92377153|NCT01310400|184657885|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|8.0|||<|0.001|TWO_SIDED|95.0|3.3|12.7||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.5 mL Inflexal V vs. 0.25 mL Agrippal for the A/H3N2 strain.||12.7|3.3|<0.001
92377154|NCT01310400|184657885|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|0.9||||0.7493|TWO_SIDED|95.0|-4.5|6.2||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.25 mL Inflexal V vs. 0.25 mL Agrippal for the A/H3N2 strain.||6.2|-4.5|0.7493
92377155|NCT01310400|184657885|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|20.2||||0|TWO_SIDED|95.0|13.5|27.0||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.5 mL Inflexal V vs. 0.25 mL Agrippal for the B-strain.||27.0|13.5|0.0000
92377156|NCT01310400|184657885|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|10.7||||0.0029|TWO_SIDED|95.0|3.7|17.6||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.25 mL Inflexal V vs. 0.25 mL Agrippal for the B-strain.||17.6|3.7|0.0029
92377157|NCT04065074|184657889|OTHER|Proportion of Successful Administrations|Proportion of Successful Administrations|0.75|||||TWO_SIDED|90.0|0.51|0.9||||||||0.90|0.51|
92377158|NCT01062841|184657893|SUPERIORITY_OR_OTHER||Rate Ratio|0.77|||<|0.05|TWO_SIDED|95.0|0.62|0.94||The model was adjusted for participant-specific covariates (participant-level baseline colonization with the specific MDRO, age, sex, race, and length of stay before enrollment), and NH quality ratings.|Regression, Poisson|||A mixed-effects multilevel Poisson regression model was used to predict MDRO prevalence density as a function of the intervention (primary outcome), including facility as a random effect and offset by the number of anatomic sites sampled. Because we expected participants colonized at baseline to have a greater likelihood of subsequent colonization, we included participant-level baseline MDRO colonization as a fixed effect.||0.94|0.62|<0.05
92377159|NCT01062841|184657894|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.54||||0.04|TWO_SIDED|95.0|0.3|0.97|||Regression, Cox|||A Cox proportional hazards model using the cluster option with robust standard errors was used to predict time to the first and recurrent infections, adjusting for participant-level and facility-level covariates.||0.97|0.30|0.04
92377160|NCT01062841|184657895|SUPERIORITY_OR_OTHER||Rate Ratio|0.78|||<|0.05|TWO_SIDED|95.0|0.64|0.96||The model was adjusted for participant-specific covariates (participant-level baseline colonization with the specific MDRO, age, sex, race, and length of stay before enrollment), and NH quality ratings.|Regression, Poisson|||A mixed-effects multilevel Poisson regression model was used to predict MDRO prevalence density as a function of the intervention (primary outcome), including facility as a random effect and offset by the number of anatomic sites sampled. Because we expected participants colonized at baseline to have a greater likelihood of subsequent colonization, we included participant-level baseline MDRO colonization as a fixed effect.||0.96|0.64|<0.05
92377161|NCT01062841|184657896|SUPERIORITY_OR_OTHER||Rate Ratio|1.2|||>|0.05|TWO_SIDED|95.0|0.82|1.75||The model was adjusted for participant-specific covariates (participant-level baseline colonization with the specific MDRO, age, sex, race, and length of stay before enrollment), and NH quality ratings.|Regression, Poisson|||A mixed-effects multilevel Poisson regression model was used to predict MDRO prevalence density as a function of the intervention (primary outcome), including facility as a random effect and offset by the number of anatomic sites sampled. Because we expected participants colonized at baseline to have a greater likelihood of subsequent colonization, we included participant-level baseline MDRO colonization as a fixed effect.||1.75|0.82|>0.05
92230625|NCT00046228|184364739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.944||95.0|0.68|1.43|||Chi-squared|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in complications of MI within 90 days.||1.43|0.68|0.944
92230626|NCT00046228|184364740|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.494||95.0|0.74|1.84|||Chi-squared|||The null hypothesis is if retaplase/abciximab facilitated PCI is the same as the primary PCI in 90-day all cause mortality.||1.84|0.74|0.494
92411239|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-1.3||||0.3384|TWO_SIDED|95.0|-4.1|1.4|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Role-Emotional (norm-based).||1.4|-4.1|0.3384
92230627|NCT00046228|184364740|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.338||95.0|0.79|1.95|||Chi-squared|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in 90-day all cause mortality.||1.95|0.79|0.338
92377162|NCT01062841|184657897|SUPERIORITY_OR_OTHER||Rate Ratio|0.94|||>|0.05|TWO_SIDED|95.0|0.61|1.44||The model was adjusted for participant-specific covariates (participant-level baseline colonization with the specific MDRO, age, sex, race, and length of stay before enrollment), and NH quality ratings.|Regression, Poisson|||A mixed-effects multilevel Poisson regression model was used to predict MDRO prevalence density as a function of the intervention (primary outcome), including facility as a random effect and offset by the number of anatomic sites sampled. Because we expected participants colonized at baseline to have a greater likelihood of subsequent colonization, we included participant-level baseline MDRO colonization as a fixed effect.||1.44|0.61|>0.05
92377163|NCT01062841|184657898|SUPERIORITY_OR_OTHER||Rate Ratio|0.75|||<|0.05|TWO_SIDED|95.0|0.58|0.97||The model was adjusted for participant-specific covariates (participant-level baseline colonization with the specific MDRO, age, sex, race, and length of stay before enrollment), and NH quality ratings.|Regression, Poisson|||A mixed-effects multilevel Poisson regression model was used to predict MDRO prevalence density as a function of the intervention (primary outcome), including facility as a random effect and offset by the number of anatomic sites sampled. Because we expected participants colonized at baseline to have a greater likelihood of subsequent colonization, we included participant-level baseline MDRO colonization as a fixed effect.||0.97|0.58|<0.05
92377164|NCT01062841|184657900|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.09||||0.92|TWO_SIDED|95.0|0.22|5.45|||Regression, Cox|||A Cox proportional hazards model using the cluster option with robust standard errors was used to predict time to the first and recurrent infections, adjusting for participant-level and facility-level covariates.||5.45|0.22|0.92
92377165|NCT01062841|184657901|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.83||||0.34|TWO_SIDED|95.0|0.53|6.31|||Regression, Cox|||A Cox proportional hazards model using the cluster option with robust standard errors was used to predict time to the first and recurrent infections, adjusting for participant-level and facility-level covariates.||6.31|0.53|0.34
92377166|NCT01062841|184657902|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.78||||0.01|TWO_SIDED|95.0|0.65|0.95|||Regression, Cox|||A Cox proportional hazards model was used to evaluate the effect of this intervention on an individual's risk of new MDRO acquisition, defined as the number of residents with new acquisitions per 1000 device-days at risk after adjusting for resident-level and facility-level covariates, as well as clustering by facility. Residents colonized with the specific MDRO at baseline were excluded from these analyses.||0.95|0.65|0.01
92377167|NCT01062841|184657903|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.85||||0.61|TWO_SIDED|95.0|0.45|1.6|||Regression, Cox|||A Cox proportional hazards model was used to evaluate the effect of this intervention on an individual's risk of new MDRO acquisition, defined as the number of residents with new acquisitions per 1000 device-days at risk after adjusting for resident-level and facility-level covariates, as well as clustering by facility. Residents colonized with the specific MDRO at baseline were excluded from these analyses.||1.60|0.45|0.61
92377168|NCT01062841|184657904|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9||||0.59|TWO_SIDED|95.0|0.6|1.33|||Regression, Cox|||||1.33|0.60|0.59
92377169|NCT03831880|184657911|SUPERIORITY||Mean Difference (Final Values)|-15.49|||<|0.0001|TWO_SIDED|95.0|-19.71|-11.27||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-11.27|-19.71|<0.0001
92377170|NCT03831880|184657913|SUPERIORITY||Mean Difference (Final Values)|-5.39||||0.0017|TWO_SIDED|95.0|-8.69|-2.09||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-2.09|-8.69|0.0017
92377171|NCT03831880|184657915|SUPERIORITY||Mean Difference (Final Values)|-13.6|||<|0.0001|TWO_SIDED|95.0|-19.74|-7.45||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-7.45|-19.74|<0.0001
92377172|NCT03831880|184657917|SUPERIORITY||Mean Difference (Final Values)|-24.34|||<|0.0001|TWO_SIDED|95.0|-30.1|-18.57||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-18.57|-30.10|<0.0001
92411240|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-1.3||||0.2704|TWO_SIDED|95.0|-3.6|1.0|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Mental Health Index.||1.0|-3.6|0.2704
92230628|NCT00046228|184364740|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.781||95.0|0.61|1.45|||Chi-squared|||The null hypothesis is if retaplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in 90-day all cause mortality.||1.45|0.61|0.781
92377173|NCT03831880|184657919|SUPERIORITY||Mean Difference (Final Values)|-7.83||||0.0739|TWO_SIDED|95.0|-16.42|0.77||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||0.77|-16.42|0.0739
92230629|NCT00046228|184364741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.016||95.0|1.08|2.1|||Chi-squared|||The null hypothesis is if retaplase/abciximab facilitated PCI is the same as the primary PCI in ST-segment resolution \>70% from baseline.||2.10|1.08|0.016
92411241|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|0.7||||0.4332|TWO_SIDED|95.0|-1.0|2.3|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the Physical Component Summary Score.||2.3|-1.0|0.4332
92230630|NCT00046228|184364741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.67||95.0|0.76|1.52|||Chi-squared|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in ST-segment resolution \>70% from baseline.||1.52|0.76|0.670
92411242|NCT01743001|184713126|SUPERIORITY||least-square (LS) mean difference|-1.1||||0.3416|TWO_SIDED|95.0|-3.4|1.2|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the Mental Component Summary Score.||1.2|-3.4|0.3416
92411243|NCT03052426|184713127|SUPERIORITY|||||||0.9327||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSqaure 0.1394, DF 2 for aches||Wilcoxon/Kruskal-Wallis Tests and ChiSqaure analysis were completed for aches/pains at the three month time frame||||0.9327
92411244|NCT03052426|184713127|SUPERIORITY|||||||0.7523||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSquare 0.5693, DF 2||Wilcoxon/Kruskal-Wallis Tests and ChiSqaure analysis were completed for discomfort at the three month time frame||||0.7523
92411245|NCT03052426|184713127|SUPERIORITY|||||||0.9196||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSquare 0.1676, DF 2||Wilcoxon/Kruskal-Wallis Tests and ChiSqaure analysis were completed for interference at the three month time frame.||||0.9196
92411246|NCT03052426|184713128|SUPERIORITY|||||||0.6316||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSqaure 0.9190, DF 2||Wilcoxon/Kruskal-Wallis Tests and ChiSquare Analysis were completed||||0.6316
92411247|NCT03052426|184713128|SUPERIORITY|||||||0.2595||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSqaure 2.6983, DF||Wilcoxon/Kruskal-Wallis Tests and ChiSqaure analysis were completed for discomfort at the six month time frame.||||0.2595
92411248|NCT03052426|184713128|SUPERIORITY|||||||0.4495||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSquare 1.5991, DF 2||Wilcoxon/Kruskal-Wallis Tests and ChiSqaure analysis were completed for interference at the six month time frame||||0.4495
92411249|NCT03052426|184713129|SUPERIORITY||||||<|0.0001||||||Aches (F-test G-G Epsilon (1.26, 15.18) = 34.70, p \< 0.0001)|MANOVA|||Three and six month results were combined and compared to baseline data for each of the outcome variables. Repeated measures MANOVAs with pairwise comparisons were used to examine the decrease of variables over time from time 1 to times 2 and 3.||||<0.0001
92411250|NCT03052426|184713129|SUPERIORITY||||||=|0.0006||||||Uncomfortable (F-test G-G Epsilon (1.43, 17.15) = 14.39, p = 0.0006), from time 1 to times 2 and 3|MANOVA|||Three and six month results were combined and compared to baseline data for each of the outcome variables. Repeated measures MANOVAs with pairwise comparisons were used to examine the decrease of variables over time from time 1 to times 2 and 3.||||=0.0006
92230631|NCT00046228|184364741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.042||95.0|1.01|1.93|||Chi-squared|||The null hypothesis is if retaplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in ST-segment resolution \>70% from baseline.||1.93|1.01|0.042
92230632|NCT00046228|184364742|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.603||95.0|0.62|1.32|||Log Rank|||||1.32|0.62|0.603
92230633|NCT00046228|184364742|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.765||95.0|0.73|1.52|||Log Rank|||||1.52|0.73|0.765
92230634|NCT00046228|184364742|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.415||95.0|0.59|1.24|||Log Rank|||||1.24|0.59|0.415
92411251|NCT03052426|184713129|SUPERIORITY||||||<|0.0001||||||Interference (F-test G-G Epsilon (1.55, 18.66) = 34.09, p \< 0.0001), from time 1 to times 2 and 3.|MANOVA|||We used repeated measures MANOVAs with pairwise comparisons to examine the decrease of the variables over time. Significant differences for within subjects by time were found||||<0.0001
92411252|NCT05498701|184713135|OTHER||Ratios of Adjusted Geometric Means|93.19|||||TWO_SIDED|90.0|87.1|99.7||||||Bioequivalence of the Test treatment (Tafamidis free acid 12.2 mg oral tablet \[Fasted\]) to Reference treatment (Tafamidis meglumine 20 mg oral capsule \[Fasted\]) was concluded if the 90% confidence intervals for the ratios of adjusted geometric means for tafamidis AUCinf fell entirely within the acceptance region of (80%,125%).||99.70|87.10|
92411253|NCT05498701|184713136|OTHER||Ratio of Adjusted Geometric Means|81.0||||||90.0|76.25|86.04||||||Bioequivalence of the Test treatment (Tafamidis free acid 12.2 mg oral tablet \[Fasted\]) to Reference treatment (Tafamidis meglumine 20 mg oral capsule \[Fasted\]) was concluded if the 90% confidence intervals for the ratios of adjusted geometric means for tafamidis Cmax fell entirely within the acceptance region of (80%,125%).||86.04|76.25|
92411254|NCT01864005|184713137|SUPERIORITY_OR_OTHER|||||||0.0021||||||not adjusted for multiple comparisons. statistical significance level: 0.05|Wilcoxon (Mann-Whitney)|||||||0.0021
92411255|NCT01864005|184713137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.421||||0.0003|TWO_SIDED|95.0|18.559|58.283|||ANOVA|||||58.283|18.559|0.0003
92411256|NCT01864005|184713138|SUPERIORITY_OR_OTHER|||||||0.0828|||||||Wilcoxon (Mann-Whitney)|||||||0.0828
92411257|NCT01864005|184713139|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92411258|NCT01864005|184713140|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92411259|NCT01864005|184713141|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92411260|NCT03679754|184713157|OTHER||||||||||||||||||Subjects in the Expansion trial did not have biopsies analyzed for cellular responses.|||
92446297|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.102||0.4352|TWO_SIDED|95.0|-0.28|0.12|||MMRM|||Loss of Weight, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.28|0.4352
92230635|NCT00046228|184364743|SUPERIORITY_OR_OTHER|||||||0.218||95.0|||||Fisher Exact|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the primary PCI in the risk of ICH.||||0.218
92230636|NCT00046228|184364743|SUPERIORITY_OR_OTHER|||||||0.497||95.0|||||Fisher Exact|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in the risk of ICH.||||0.497
92230637|NCT00046228|184364743|SUPERIORITY_OR_OTHER|||||||0.062||95.0|||||Fisher Exact|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in the risk of ICH.||||0.062
92230638|NCT00046228|184364744|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.28|||<|0.001||95.0|1.63|3.19|||Fisher Exact|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the primary PCI in the risk of non-ICH TIMI bleeding events.||3.19|1.63|<0.001
92230639|NCT00046228|184364744|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.025||95.0|1.05|2.15|||Fisher Exact|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in the risk of non-ICH TIMI bleeding events.||2.15|1.05|0.025
92278047|NCT00782509|184458138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0089||95.0|-0.5|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.1|-0.5|0.0089
92377174|NCT03831880|184657921|SUPERIORITY||Mean Difference (Final Values)|-17.6|||<|0.0001|TWO_SIDED|95.0|-25.15|-10.06||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-10.06|-25.15|<0.0001
92377175|NCT03831880|184657923|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.6137|TWO_SIDED|95.0|-2.09|3.51||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||3.51|-2.09|0.6137
92377176|NCT03831880|184657925|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.8404|TWO_SIDED|95.0|-5.29|6.41||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||6.41|-5.29|0.8404
92377177|NCT03831880|184657927|SUPERIORITY||Mean Difference (Final Values)|-13.47|||<|0.0001|TWO_SIDED|95.0|-17.59|-9.35||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-9.35|-17.59|<0.0001
92377178|NCT03831880|184657929|SUPERIORITY||Mean Difference (Final Values)|-2.76||||0.0245|TWO_SIDED|95.0|-5.16|-0.36||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-0.36|-5.16|0.0245
92377179|NCT03831880|184657941|SUPERIORITY||Mean Difference (Final Values)|-14.58|||<|0.0001|TWO_SIDED|95.0|-18.72|-10.44||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-10.44|-18.72|<0.0001
92377180|NCT02081638|184657948|OTHER||||||>|0.05||||||Threshold for statistical significance was a priori set to \<0.05|Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the change of sCD14 from baseline and month 12 measurement within each arm.||||>0.05
92411261|NCT01247272|184713167|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|113.36|||||TWO_SIDED|90.0|108.03|118.96|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||118.96|108.03|
92411262|NCT01247272|184713168|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|107.78|||||TWO_SIDED|90.0|102.18|113.69|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||113.69|102.18|
92230640|NCT00046228|184364744|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.008||95.0|1.12|2.05|||Fisher Exact|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in the risk of non-ICH TIMI bleeding events.||2.05|1.12|0.008
92230641|NCT00046228|184364745|SUPERIORITY_OR_OTHER|||||||0.439||95.0|||||Fisher Exact|||||||0.439
92230642|NCT00046228|184364745|SUPERIORITY_OR_OTHER|||||||0.438||95.0|||||Fisher Exact|||||||0.438
92230643|NCT00046228|184364745|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.000
92230644|NCT00046228|184364746|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92230645|NCT00046228|184364746|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Fisher Exact|||||||0.020
92230646|NCT00046228|184364746|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92230647|NCT00046228|184364747|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.434||95.0|0.69|1.18|||Chi-squared|||||1.18|0.69|0.434
92230648|NCT00046228|184364747|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.589||95.0|0.71|1.22|||Chi-squared|||||1.22|0.71|0.589
92230649|NCT00046228|184364747|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.809||95.0|0.74|1.27|||Chi-squared|||||1.27|0.74|0.809
92230650|NCT01587989|184364755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.327||||0.188|TWO_SIDED|95.0|-0.165|0.82|||t-test, 2 sided|||||0.820|-0.165|0.188
92411263|NCT01247272|184713169|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.99|||||TWO_SIDED|90.0|102.09|112.12|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||112.12|102.09|
92377181|NCT02081638|184657948|OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the change of sCD14 from baseline and month 12 measurement within each arm.||||0.022
92377182|NCT02081638|184657949|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the change of sCD14 from baseline and month 12 measurement within each arm.||||0.13
92377183|NCT02081638|184657949|OTHER|||||||0.097|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the change of sCD14 from baseline and month 12 measurement within each arm.||||0.097
92377184|NCT02081638|184657949|OTHER|||||||0.0269|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the change of sCD14 from baseline and month 12 measurement within each arm.||||0.0269
92377185|NCT02081638|184657949|OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
92377186|NCT02081638|184657949|OTHER||||||||||||||||||Plasma biomarkers (CRP, sCD14, TF, IL-6) were log(e) transformed and a linear mixed effect model with the biomarker as outcome and with random slope per participant was used to calculate the percentage of change from baseline.|||
92377187|NCT01874275|184657959|SUPERIORITY_OR_OTHER|||||||0.2413|TWO_SIDED||||||Mixed Models Analysis|||||||0.2413
92377188|NCT00681564|184657972|SUPERIORITY_OR_OTHER|||||||0.98||||||A P value of 0.05 was used as a cut-off for statistical significance.|Kruskal-Wallis|Non-parametric test appropriate for the analysis of non-normally distributed data.||Analyzed variable: Brachial Artery Flow-mediated Dilation (baseline). Note: data analysis of patients who completed the study protocol (n=86). Intention-to-treat analysis analysis was not used because its application for the evaluation of continuous data would imply imputing missing data for patients lost to follow-up. Mean and standard deviation of flow-mediated dilatation, including data from all patients randomized in this study, is reported in the field of baseline characteristics.||||0.98
92411264|NCT01247272|184713170|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.57|||||TWO_SIDED|90.0|99.54|107.76|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||107.76|99.54|
92230651|NCT01587989|184364755|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||ANCOVA|||At Week 12.||||0.015
92230652|NCT01587989|184364755|SUPERIORITY_OR_OTHER|||||||0.304|TWO_SIDED||||||ANCOVA|||Adjusted change in DAS28 score from Weeks 12-24.||||0.304
92230653|NCT01587989|184364756|SUPERIORITY_OR_OTHER|||||||0.732|TWO_SIDED||||||Fisher Exact|||||||0.732
92230654|NCT01587989|184364757|SUPERIORITY_OR_OTHER|||||||0.207|TWO_SIDED||||||Fisher Exact|||||||0.207
92230655|NCT01587989|184364758|SUPERIORITY_OR_OTHER|||||||0.453|TWO_SIDED||||||Fisher Exact|||||||0.453
92230656|NCT01587989|184364759|SUPERIORITY_OR_OTHER|||||||0.084|TWO_SIDED||||||Fisher Exact|||||||0.084
92377189|NCT00681564|184657972|SUPERIORITY_OR_OTHER|||||||0.005||||||A P value of 0.05 was used as a cut-off for statistical significance.|Kruskal-Wallis|Non-parametric test appropriate for the analysis of non-normally distributed data.||Analyzed variable: Brachial Artery Flow-mediated Dilation (24 hours).||||0.005
92377190|NCT00681564|184657972|SUPERIORITY_OR_OTHER|||||||0.43||||||A P value of 0.05 was used as a cut-off for statistical significance.|Kruskal-Wallis|Non-parametric test appropriate for the analysis of non-normally distributed data.||"Statistical analysis: Brachial Artery Flow-mediated Dilation (12 weeks). Intention-to-treat analysis was not used because input of values for patients lost at follow-up will artificially amplify the precision of outcome measures.~Higgins JPT, Deeks JJ, Altman DG (editors). Chapter 16: Special topics in statistics. In: Higgins JPT, Green S (editors). Cochrane Handbook for Systematic Reviews of Interventions. Version 5.0.1. The Cochrane Collaboration, 2008. www.cochrane-handbook.org."||||0.43
92377191|NCT00762996|184657986|NON_INFERIORITY_OR_EQUIVALENCE|"margin +/- 0.5 logMar lines~The range of non-inferiority for this value is 0.50 thus +/- 0.50 is considered non-inferior to the 0.0 mark.~logarithm of the minimum angle of resolution (logMar) ideal is 0.0 and represents 20/20 Snellen acuity. logMar values \> 0.00 indicate vision poorer than the ideal and values \<0.00 indicate vision greater than the ideal."|Mean Difference (Final Values)|0.005287|STANDARD_ERROR_OF_MEAN|0.00976||||95.0|-0.01389|0.2447|||Mixed Models Analysis||logarithm of the minimum angle of resolution (logMar) ideal is 0.0 and represents 20/20 Snellen acuity. logMar values \> 0.00 indicate vision poorer than the ideal and values \<0.00 indicate vision greater than the ideal.|Null Hypothesis: etafilcon A is greater than or equal to omafilcon A.||0.2447|-0.01389|
92377192|NCT00762996|184657987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4757|STANDARD_ERROR_OF_MEAN|0.2505||||95.0|0.05563|0.4757|||Mixed Models Analysis||Mean difference is etafilcon A minus omafilcon A.|||0.4757|0.05563|
92377193|NCT00657150|184657988|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 7.7%|Risk Difference (Percentage)|-1.08|||<|0.0001||95.0|-3.79|1.64||Superiority p-value = 0.4367|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.64|-3.79|< 0.0001
92377194|NCT00657150|184657989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.91||||0.029||95.0|-3.64|-0.19|||Normal approximation|Normal approximation of independent binomial distribution without stratification||||-0.19|-3.64|0.029
92377195|NCT00657150|184657990|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-1.79||||0.0358||95.0|-3.47|-0.12|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||-0.12|-3.47|0.0358
92411265|NCT01247272|184713171|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.8|||||TWO_SIDED|90.0|101.66|110.12|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||110.12|101.66|
92411266|NCT01247272|184713172|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.83|||||TWO_SIDED|90.0|101.27|110.61|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||110.61|101.27|
92411267|NCT00711477|184713185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|||||TWO_SIDED|90.0|0.5|0.9||||||||0.90|0.50|
92377196|NCT00657150|184657991|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.96||||0.4839|TWO_SIDED|95.0|-3.65|1.73|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.73|-3.65|0.4839
92377197|NCT00657150|184657992|SUPERIORITY_OR_OTHER|||||||0.0612||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0612
92377198|NCT00657150|184657993|SUPERIORITY_OR_OTHER|||||||0.6231||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.6231
92377199|NCT00657150|184657994|SUPERIORITY_OR_OTHER|||||||0.4977||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.4977
92377200|NCT00657150|184657995|SUPERIORITY_OR_OTHER|||||||0.687||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.6870
92377201|NCT00657150|184657996|SUPERIORITY_OR_OTHER|||||||0.4022||95.0|||||Fisher Exact|||Comparison versus Enoxaparin for the category major bleeding events||||0.4022
92377202|NCT00657150|184657996|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|0.8||||0.3305|TWO_SIDED|95.0|-0.8|2.3|||Normal approximation|Normal approximation of independent binomial distribution||Absolute difference versus Enoxaparin for the category major and clinically relevant bleeding events||2.3|-0.8|0.3305
92377203|NCT00657150|184657996|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|1.4||||0.2626|TWO_SIDED|95.0|-1.1|3.9|||Normal approximation|Normal approximation of independent binomial distribution||Absolute difference versus Enoxaparin for the category any bleeding events||3.9|-1.1|0.2626
92377204|NCT02649192|184658001|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG1 at day 56 in 2015-16 season||||0.90
92377205|NCT02649192|184658001|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG1 at day 56 in 2016-17 season||||0.49
92377206|NCT02649192|184658001|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG1 at day 56 in 2017-18 season||||0.50
92411268|NCT00711477|184713186|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.38|TWO_SIDED|95.0|-1.83|0.72|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||0.72|-1.83|0.380
92377207|NCT02649192|184658001|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG2 at day 56 in 2015-16 season||||0.90
92377208|NCT02649192|184658001|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG2 at day 56 in 2016-17 season||||0.76
92411269|NCT00711477|184713187|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.744|TWO_SIDED|95.0|-2.87|2.07|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||2.07|-2.87|0.744
92411270|NCT00711477|184713188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.64||||0.139|TWO_SIDED|95.0|-3.84|0.56|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||0.56|-3.84|0.139
92230657|NCT01587989|184364760|SUPERIORITY_OR_OTHER|||||||0.842|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.842
92377209|NCT02649192|184658001|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG2 at day 56 in 2017-18 season||||0.65
92377210|NCT02649192|184658001|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG3 at day 56 in 2015-16 season||||0.90
92377211|NCT02649192|184658001|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG3 at day 56 in 2016-17 season||||0.76
92377212|NCT02649192|184658001|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG3 at day 56 in 2017-18 season||||0.54
92377213|NCT02649192|184658001|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgM at day 56 in 2015-16 season||||0.90
92377214|NCT02649192|184658001|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgM at day 56 in 2016-17 season||||0.95
92377215|NCT02649192|184658001|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgM at day 56 in 2017-18 season||||0.34
92377216|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Treatment group minus placebo|H1N1||0|0|
92377217|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|-23.6|||||TWO_SIDED|95.0|-51.7|6.2|||||Treatment group minus placebo|H1N1||6.2|-51.7|
92377218|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|-13.0|||||TWO_SIDED|95.0|-49.4|26.5|||||Treatment group minus placebo|H1N1||26.5|-49.4|
92411271|NCT00711477|184713189|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.36||||0.094|TWO_SIDED|95.0|-2.96|0.24|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||0.24|-2.96|0.094
92230658|NCT01587989|184364761|SUPERIORITY_OR_OTHER|||||||0.417|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Physical standardized value||||0.417
92230659|NCT01587989|184364761|SUPERIORITY_OR_OTHER|||||||0.112|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Mental standardized value||||0.112
92230660|NCT01587989|184364762|SUPERIORITY_OR_OTHER|||||||0.655|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Fatigue||||0.655
92230661|NCT01587989|184364762|SUPERIORITY_OR_OTHER|||||||0.839|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Pain||||0.839
92230662|NCT01587989|184364763|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Effectiveness||||0.580
92230663|NCT01587989|184364763|SUPERIORITY_OR_OTHER|||||||0.975|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Side-effects||||0.975
92230664|NCT01587989|184364763|SUPERIORITY_OR_OTHER|||||||0.421|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Convenience||||0.421
92230665|NCT01587989|184364763|SUPERIORITY_OR_OTHER|||||||0.277|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Global satisfaction||||0.277
92230666|NCT05818124|184364809|OTHER||Difference in Least Squares Mean|-0.48||||0.783|TWO_SIDED|95.0|-3.97|3.0|||ANOVA|||||3.00|-3.97|0.783
92230667|NCT05818124|184364810|OTHER||Difference in Least Squares Mean|-2.21||||0.032|TWO_SIDED|95.0|-4.21|-0.21|||ANOVA|||||-0.21|-4.21|0.032
92411272|NCT00711477|184713190|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.48||||0.102|TWO_SIDED|95.0|-5.48|0.51|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||0.51|-5.48|0.102
92411273|NCT00711477|184713191|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.4||||0.16||95.0|-22.7|3.89|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||3.89|-22.7|0.160
92230668|NCT05818124|184364811|OTHER||Difference in Least Squares Mean|0.2||||0.756|TWO_SIDED|95.0|-1.07|1.47|||ANOVA|||||1.47|-1.07|0.756
92230669|NCT05818124|184364812|OTHER|Clopper and Pearson exact binomial method|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-23.21|23.21||||||||23.21|-23.21|
92411274|NCT00711477|184713192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|90.0|0.4|0.8||||||||0.80|0.40|
92411275|NCT00711477|184713193|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.75|||||TWO_SIDED|90.0|0.5|1.0||||||||1.00|0.50|
92230670|NCT05818124|184364813|OTHER|Clopper and Pearson binomial method|Difference in percentage|-2.86|||||TWO_SIDED|95.0|-25.78|20.27||||||||20.27|-25.78|
92230671|NCT05818124|184364814|OTHER|Clopper and Pearson exact binomial method|Difference in Percentage|-8.57|||||TWO_SIDED|95.0|-30.26|13.38||||||||13.38|-30.26|
92230672|NCT05818124|184364815|OTHER|Clopper and Pearson binomial method|Difference in percentage|-5.71|||||TWO_SIDED|95.0|-25.18|13.97||||||||13.97|-25.18|
92230673|NCT05818124|184364816|OTHER|Clopper and Pearson binomial method|Difference in percentage|-5.71|||||TWO_SIDED|95.0|-25.18|13.97||||||||13.97|-25.18|
92230674|NCT05818124|184364817|OTHER|Clopper and Pearson binomial method|Difference in percentage|-8.57|||||TWO_SIDED|95.0|-27.63|10.5||||||||10.50|-27.63|
92230675|NCT05818124|184364820|OTHER||Hazard Ratio (HR)|0.82||||0.3102|TWO_SIDED|95.0|0.51|1.33|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||1.33|0.51|0.3102
92230676|NCT05818124|184364821|OTHER||Hazard Ratio (HR)|0.55||||0.0779|TWO_SIDED|95.0|0.27|1.14|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||1.14|0.27|0.0779
92230677|NCT05818124|184364824|OTHER||Difference in Least Squares Mean|-3.79||||0.045|TWO_SIDED|95.0|-7.47|-0.1|||ANOVA|||||-0.10|-7.47|0.045
92230678|NCT05818124|184364825|OTHER||Difference in Least Squares Mean|-2.56||||0.226|TWO_SIDED|95.0|-6.81|1.69|||ANOVA|||||1.69|-6.81|0.226
92230679|NCT05818124|184364826|OTHER||Difference in Least Squares Mean|-1.6||||0.09|TWO_SIDED|95.0|-3.47|0.27|||ANOVA|||||0.27|-3.47|0.090
92230680|NCT05818124|184364827|OTHER||Difference in Least Squares Mean|0.74||||0.609|TWO_SIDED|95.0|-2.19|3.66|||ANOVA|||||3.66|-2.19|0.609
92230681|NCT05818124|184364828|OTHER|Difference in Least Squares Mean|Difference in Least Squares Mean|0.34||||0.614|TWO_SIDED|95.0|-1.04|1.72|||ANOVA|||||1.72|-1.04|0.614
92230682|NCT05818124|184364829|OTHER||Difference in Least Squares Mean|0.37||||0.608|TWO_SIDED|95.0|-1.09|1.83|||ANOVA|||||1.83|-1.09|0.608
92230683|NCT05818124|184364830|OTHER||Difference in Least Squares Mean|0.43||||0.288|TWO_SIDED|95.0|-0.39|1.25|||ANOVA|||||1.25|-0.39|0.288
92230684|NCT05818124|184364831|OTHER||Difference in Least Squares Mean|0.09||||0.842|TWO_SIDED|95.0|-0.8|0.97|||ANOVA|||||0.97|-0.80|0.842
92230685|NCT05818124|184364834|OTHER||Hazard Ratio (HR)|0.31||||0.0042|TWO_SIDED|95.0|0.14|0.71|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||0.71|0.14|0.0042
92230686|NCT05818124|184364835|OTHER||Hazard Ratio (HR)|0.69||||0.329|TWO_SIDED|95.0|0.33|1.46|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||1.46|0.33|0.3290
92230687|NCT05818124|184364836|OTHER||Hazard Ratio (HR)|0.6||||0.1502|TWO_SIDED|95.0|0.27|1.34|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||1.34|0.27|0.1502
92230688|NCT05818124|184364837|OTHER||Hazard Ratio (HR)|1.32||||0.4865|TWO_SIDED|95.0|0.59|2.92|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||2.92|0.59|0.4865
92230689|NCT05818124|184364840|OTHER||Difference in Least Squares Mean|-4.79||||0.313|TWO_SIDED|95.0|-14.36|4.78|||ANOVA|||||4.78|-14.36|0.313
92230690|NCT05818124|184364841|OTHER||Difference in Least Squares Mean|-6.87||||0.138|TWO_SIDED|95.0|-16.11|2.36|||ANOVA|||||2.36|-16.11|0.138
92411276|NCT00711477|184713194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|||||TWO_SIDED|90.0|0.74|1.24||||||||1.24|0.74|
92411277|NCT00711477|184713195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||||TWO_SIDED|90.0|0.95|1.65||||||||1.65|0.95|
92230691|NCT05818124|184364842|OTHER||Difference in LS mean|0.74||||0.706|TWO_SIDED|95.0|-3.26|4.74|||ANOVA|||||4.74|-3.26|0.706
92230692|NCT05818124|184364843|OTHER||Difference in LS mean|-1.58||||0.367|TWO_SIDED|95.0|-5.1|1.95|||ANOVA|||||1.95|-5.10|0.367
92230693|NCT05818124|184364849|OTHER||Difference in LS Mean|-4.14||||0.177|TWO_SIDED|95.0|-10.2|1.92|||ANOVA|||||1.92|-10.20|0.177
92377219|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|-10.0|||||TWO_SIDED|95.0|-70.1|56.1|||||Treatment group minus placebo|H3N2||56.1|-70.1|
92377220|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|-8.6|||||TWO_SIDED|95.0|-38.8|20.6|||||Treatment group minus placebo|H3N2||20.6|-38.8|
92377221|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|22.7|||||TWO_SIDED|95.0|-17.5|57.9|||||Treatment group minus placebo|H3N2||57.9|-17.5|
92377222|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Treatment group minus placebo|B/Phuket||0|0|
92377223|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|-26.4|||||TWO_SIDED|95.0|-54.1|5.8|||||Treatment group minus placebo|B/Phuket||5.8|-54.1|
92377224|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|16.9|||||TWO_SIDED|95.0|-23.1|53.3|||||Treatment group minus placebo|B/Phuket||53.3|-23.1|
92377225|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Treatment group minus placebo|B/Brisbane||0|0|
92377226|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|-26.4|||||TWO_SIDED|95.0|-54.1|5.8|||||Treatment group minus placebo|B/Brisbane||5.8|-54.1|
92377227|NCT02649192|184658002|SUPERIORITY||Treatment Difference in Seroconversion R|-8.4|||||TWO_SIDED|95.0|-45.4|30.5|||||Treatment group minus placebo|B/Brisbane||30.5|-45.4|
92377228|NCT00468845|184658006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1378||95.0||||Weighted Z-score test method of Fisher (1998) and Cui et al (1999)applied to maintain alpha level. A step down procedure for multiple comparisons to control the maximum experiment wise type I error rate at 0.05 level. 300mg tested prior to 150mg.|ANOVA|||||||0.1378
92377229|NCT00468845|184658006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.471||95.0||||Weighted Z-score test method of Fisher (1998) and Cui et al (1999)applied to maintain alpha level. A step down procedure for multiple comparisons to control the maximum experiment wise type I error rate at 0.05 level. 300mg tested prior to 150mg.|ANOVA|||||||0.4710
92377230|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7752||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.7752
92377231|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3375||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.3375
92377232|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7029||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.7029
92377233|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8618||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.8618
92377234|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2117||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.2117
92377235|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6255||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.6255
92377236|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0942||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.0942
92377237|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9907||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.9907
92230694|NCT05818124|184364850|OTHER||Difference in LS mean|-0.97||||0.395|TWO_SIDED|95.0|-3.24|1.29|||ANOVA|||||1.29|-3.24|0.395
92377238|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4678||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.4678
92230695|NCT05818124|184364862|OTHER|Difference in least squares mean|Difference in least squares means|-0.94||||0.11|TWO_SIDED|95.0|-2.1|0.22|||ANOVA|||||0.22|-2.10|0.110
92230696|NCT05818124|184364863|OTHER||Difference in least squares mean|-1.6||||0.09|TWO_SIDED|95.0|-3.47|0.27|||ANOVA|||||0.27|-3.47|0.090
92230697|NCT00215150|184364869|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||Wilcoxon Signed Rank Test|||Results are from a Wilcoxon signed rank test on the difference from endpoint to baseline for the intent to treat sample from the open label phase of the project.||||< 0.001
92230698|NCT00215150|184364869|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0|||||Kruskal-Wallis|||Results are from a Kruskal Wallis test on the ziprasidone/placebo groups from the randomization phase of the project.||||> .05
92377239|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.5500
92377240|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9333||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||144 hours PS||||0.9333
92377241|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7396||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||144 hours PS||||0.7396
92377242|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2932||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.2932
92377243|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0164||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.0164
92377244|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2468||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.2468
92377245|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7022||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.7022
92377246|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7257||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.7257
92411278|NCT00711477|184713196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|||||TWO_SIDED|90.0|0.31|0.57||||||||0.57|0.31|
92411279|NCT02695420|184713201|SUPERIORITY||Treatment Difference|22.1|STANDARD_ERROR_OF_MEAN|6.3||0.0008|TWO_SIDED|95.0|9.6|34.7|||Repeated Measures Model|||||34.7|9.6|0.0008
92411280|NCT02695420|184713201|SUPERIORITY||Treatment Difference|29.3|STANDARD_ERROR_OF_MEAN|6.5|<|0.0001|TWO_SIDED|95.0|16.3|42.3|||Repeated measures model|||||42.3|16.3|< 0.0001
92411281|NCT02695420|184713201|SUPERIORITY||Treatment Difference|25.5|STANDARD_ERROR_OF_MEAN|6.5||0.0002|TWO_SIDED|95.0|12.6|38.4|||Repeated measures model|||||38.4|12.6|0.0002
92411282|NCT02448641|184713203|SUPERIORITY||Odds Ratio (OR)|1.33||||0.6743|TWO_SIDED|95.0|0.35|5.09||GLMM: Generalized Linear Mixed Model|Mixed Models Analysis|A GLMM with FMMS responder as outcome, treatment, visit, treatment-visit interaction, pooled site, Baseline FMMS and Baseline mRS scores as covariates||Combined SB623 Implant Vs Sham Surgery group at Month 6||5.09|0.35|0.6743
92411283|NCT02448641|184713204|SUPERIORITY||Odds Ratio (OR)|0.43||||0.1|TWO_SIDED|95.0|0.15|1.18||GLMM: Generalized Linear Mixed Model|Mixed Models Analysis|A GLMM with mRS responder as outcome, treatment, visit, treatment-visit interaction, pooled site and Baseline mRS scores as covariates||Combined SB623 Implant Vs Sham Surgery group at Month 6||1.18|0.15|0.1000
92411284|NCT02448641|184713207|SUPERIORITY||Mean Difference (Net)|-0.36||||0.7788|TWO_SIDED|95.0|-2.9|2.17||Combined SB623 vs. Sham at month 6 MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|MMRM included treatment, visit, pooled site, corresponding Baseline sub-domain T-score, Baseline mRS score, and the treatment-by-visit interaction|LSMD (Least square mean difference) (SE): -0.36 (1.283)|Statistical analysis: NeuroQOL score for the Upper Extremity Function (Represents Mean Change from Baseline in T-Scores at Month 6)||2.17|-2.90|0.7788
92411285|NCT02448641|184713207|SUPERIORITY||Mean Difference (Net)|0.58||||0.5347|TWO_SIDED|95.0|-1.26|2.43||Combined SB623 vs. Sham at month 6 MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|MMRM included treatment, visit, pooled site, corresponding Baseline sub-domain T-score, Baseline mRS score, and the treatment-by-visit interaction|LSMD (Least square mean difference) (SE): 0.58 (0.934)|Statistical Analysis: NeuroQOL score for Lower Extremity Function (Represents Mean Change from Baseline in T-Scores at Month 6)||2.43|-1.26|0.5347
92411286|NCT02448641|184713209|SUPERIORITY||Mean Difference (Net)|1.2||||0.2959|TWO_SIDED|95.0|-1.1|3.6||MMRM: Mixed effect Model Repeat Measurement|Mixed Models Analysis|MMRM included treatment, visit, pooled site, corresponding Baseline sub-domain T-score, Baseline mRS score, and the treatment-by-visit interaction|LSMD (Least square mean difference) (SE): 1.2 (1.18)|"Change from Baseline at Month 6~Between-group Effect size is calculated as the LS mean difference divided by the model estimate of the pooled SD, obtained from the square root of the diagonal element, associated with the analysis visit summarized, from the covariance matrix."||3.6|-1.1|0.2959
92411287|NCT02448641|184713210|SUPERIORITY||Odds Ratio (OR)|1.36||||0.6854|TWO_SIDED|95.0|0.31|5.92||GLMM: Generalized Linear Mixed Model|Mixed Models Analysis|A GLMM with FMMS responder as outcome, treatment, visit, treatment-visit interaction, pooled site, Baseline FMMS and Baseline mRS scores as covariates||Combined SB623 Implant Vs Sham Surgery group at Month 6||5.92|0.31|0.6854
92230699|NCT05224258|184364895|NON_INFERIORITY|The overall mean change in HbA1c from baseline to end of 3-month study period. The mean change will be estimated and compared to a threshold of -0.38% with a margin of 0.4%.|Mean difference from baseline to exit|-0.2|||<|0.001|TWO_SIDED|95.0|-0.4|-0.1|||t-test, 1 sided||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint|||-0.1|-0.4|<0.001
92411288|NCT00916929|184713223|SUPERIORITY_OR_OTHER||rate per patient year of follow up|1.5||||||95.0|||||exact method|95% Upper Confidence Limit of objective performance criteria||"For each patient cohort, the hypothesis is formally expressed as follows:~H0: Expected False Positive Rate ≥1.5 per patient-year of follow-up Ha: Expected False Positive Rate \<1.5 per patient-year of follow-up~The null hypothesis is rejected at the 5% significance level if the 95% upper confidence limit (UCL) for expected FPR is less than 1.5 per patient-year of follow-up."||||
92411289|NCT00916929|184713224|SUPERIORITY_OR_OTHER||sensitivity|50.0|STANDARD_ERROR_OF_MEAN|5.0|||ONE_SIDED|95.0|50.0||||exact method|||"For each patient cohort, the hypothesis is formally expressed as follows:~H0: Sensitivity ≤ 50% Ha: Sensitivity \> 50%~The desired outcome was to reject the null hypothesis at the 5% significance level. The null hypothesis is rejected at the 5% significance level if the 95% lower confidence limit (LCL) for sensitivity is greater than 50%."|||50|
92411290|NCT01309282|184713241|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0078
92411291|NCT01309282|184713242|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0078
92411292|NCT01309282|184713243|SUPERIORITY_OR_OTHER|||||||0.01403|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.01403
92411293|NCT01309282|184713244|SUPERIORITY_OR_OTHER|||||||0.0355|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0355
92411294|NCT01309282|184713245|SUPERIORITY_OR_OTHER|||||||0.5469|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.5469
92411295|NCT01309282|184713246|SUPERIORITY_OR_OTHER|||||||0.0225|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0225
92411296|NCT01309282|184713247|SUPERIORITY_OR_OTHER|||||||0.0225|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0225
92411297|NCT01309282|184713248|SUPERIORITY_OR_OTHER|||||||0.0904|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0904
92411298|NCT01309282|184713249|SUPERIORITY_OR_OTHER|||||||0.2969|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.2969
92411299|NCT01980485|184713264|NON_INFERIORITY_OR_EQUIVALENCE|This study had 87% power to detect a 40% increase in 28-dayabstinence rates (i.e., from 50% to 70%) based on a two-tailed chi-squared test and alpha = 0.05. We selected this effect size as being at the lower end of the effect size continuum that would be clinically meaningful at 28 days and have the potential to still be meaningful in the longer term even with similar relapse rates in both groups over subsequent months.||||||0.65|||||||Chi-squared|||||||.65
92377247|NCT00468845|184658007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3854||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.3854
92377248|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5997||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.5997
92377249|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8582||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.8582
92377250|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3704||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.3704
92377251|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9747||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.9747
92377252|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2033||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.2033
92377253|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2752||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.2752
92377254|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0183||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.0183
92377255|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6906||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.6906
92411300|NCT02633020|184713267|SUPERIORITY||LS Mean Difference|-4.85|STANDARD_ERROR_OF_MEAN|14.7||0.7451|TWO_SIDED|90.0|-30.26|20.56|||ANCOVA|Analysis of covariance (ANCOVA) with baseline % aberrant IELs vs total IELs as a covariate and treatment group as a fixed effect.||||20.56|-30.26|0.7451
92411301|NCT02633020|184713268|SUPERIORITY||LS Mean Difference|-38.22|STANDARD_ERROR_OF_MEAN|27.48||0.1803|TWO_SIDED|95.0|-95.73|19.29|||ANCOVA|ANCOVA model with baseline % aberrant IELs vs intestinal epithelial cells as a covariate and treatment group as a fixed effect.||||19.29|-95.73|0.1803
92377256|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5446||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.5446
92377257|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4852||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.4852
92377258|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5879||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||144 hours PS||||0.5879
92411302|NCT02633020|184713269|SUPERIORITY||LS Mean Difference|10.67|STANDARD_ERROR_OF_MEAN|24.0||0.6607|TWO_SIDED|95.0|-38.97|60.31|||ANCOVA|ANCOVA model with baseline VH:CD ratio as a covariate and treatment group as a fixed effect.||||60.31|-38.97|0.6607
92377259|NCT00468845|184658008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7699||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||144 hours PS||||0.7699
92377260|NCT00468845|184658009|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9676||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.9676
92377261|NCT00468845|184658009|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4944||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.4944
92377262|NCT00468845|184658010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4801||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.4801
92411303|NCT02633020|184713270|SUPERIORITY||Odds Ratio (OR)|1.09||||0.9204|TWO_SIDED|95.0|0.2|6.01|||Regression, Logistic|||||6.01|0.20|0.9204
92411304|NCT02633020|184713271|SUPERIORITY||LS Mean Difference|-12.73|STANDARD_ERROR_OF_MEAN|31.34||0.6885|TWO_SIDED|95.0|-77.57|52.12|||ANCOVA|ANCOVA) model with baseline total IEL counts as a covariate and treatment group as a fixed effect.||||52.12|-77.57|0.6885
92377263|NCT00468845|184658010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8832||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.8832
92377264|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2125||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||8 Hours PS||||0.2125
92377265|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7602||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||8 Hour PS||||0.7602
92377266|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4053||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||16 Hours PS||||0.4053
92377267|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4147||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||16 Hours PS||||0.4147
92377268|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5556||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 Hours PS||||0.5556
92377269|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.482||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 Hours PS||||0.4820
92377270|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5088||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||32 Hours PS||||0.5088
92377271|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||32 Hours PS||||0.3900
92377272|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9659||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||40 Hours PS||||0.9659
92377273|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3968||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||40 Hours PS||||0.3968
92230700|NCT05224258|184364895|NON_INFERIORITY|The overall mean change in HbA1c from baseline to end of 3-month study period. The mean change will be estimated and compared to a threshold of -0.5% with a margin of 0.4%.|Mean difference from baseline to exit|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||Wilcoxon (Mann-Whitney)||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint.|||-0.2|-0.5|<0.001
92230701|NCT05224258|184364896|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) will be estimated and compared to a threshold of 65.3% with a margin of 7.5% and a significance level of 0.025 (one-sided).|Mean of Final Value|65.7|||<|0.001|TWO_SIDED|95.0|63.5|67.9|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||67.9|63.5|<0.001
92377274|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8308||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 Hours PS||||0.8308
92377275|NCT00468845|184658011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0902||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 Hours PS||||0.0902
92377276|NCT00468845|184658012|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4388||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.4388
92377277|NCT00468845|184658012|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3364||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.3364
92377278|NCT00468845|184658013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2409||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.2409
92377279|NCT00468845|184658013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1654||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.1654
92377280|NCT00468845|184658013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.1110
92377281|NCT00468845|184658013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0598||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.0598
92377282|NCT00468845|184658013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0398||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.0398
92411305|NCT02633020|184713272|SUPERIORITY||Ratio of LS Means|1.17|STANDARD_ERROR_OF_MEAN|0.24||0.4469|TWO_SIDED|95.0|0.77|1.8|||Generalized Linear Mixed Model|Generalized linear mixed model with subject as a random effect and treatment group, time (week) and their interaction as fixed effects.||||1.8|0.77|0.4469
92377283|NCT00468845|184658013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0623||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.0623
92377284|NCT00468845|184658014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.273||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||0-24 Hours PS||||0.2730
92240266|NCT00051558|184383969|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Month 36|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||0.013
92377285|NCT00468845|184658014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1015||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||0-24 Hours PS||||0.1015
92377286|NCT00468845|184658014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2438||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24-48 Hours PS||||0.2438
92377287|NCT00468845|184658014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0102||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24-48 Hours PS||||0.0102
92377288|NCT00468845|184658014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2063||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48-72 Hours PS||||0.2063
92377289|NCT00468845|184658014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0387||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48-72 Hours PS||||0.0387
92377290|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5995||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.5995
92377291|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9104||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 Hours PS||||0.9104
92377292|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2177||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 Hours PS||||0.2177
92377293|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.177||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.1770
92377294|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1229||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.1229
92377295|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1274||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.1274
92377296|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0568||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||1st Week PS||||0.0568
92377297|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0354||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||1st Week PS||||0.0354
92377298|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4269||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS||||0.4269
92411306|NCT02633020|184713274|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.19||0.4832|TWO_SIDED|95.0|-0.53|0.26|||Linear mixed effects repeated measures|Linear mixed effects repeated measures model with baseline value, treatment group, time point and time point-by-treatment group as fixed effects.||||0.26|-0.53|0.4832
92230702|NCT05224258|184364896|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) will be estimated and compared to a threshold of 73.7% with a margin of 7.5% and a significance level of 0.025 (one-sided).|Mean of Final Value|77.1|||<|0.001|TWO_SIDED|95.0|75.4|78.9|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||78.9|75.4|<0.001
92230703|NCT05224258|184364897|NON_INFERIORITY|The mean % of time in hypoglycemia (\< 54 mg/dL \[3.0 mmol/L\]) will be estimated and compared to a threshold of 0.71% with a margin of 2% and a significance level of 0.025 (one-sided).|Mean of Final Value|0.3|||<|0.001|TWO_SIDED|95.0|0.3|0.4|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL \[3.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||0.4|0.3|<0.001
92377299|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2058||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS||||0.2058
92377300|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8215||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS||||0.8215
92230704|NCT05224258|184364897|NON_INFERIORITY|The mean % of time in hypoglycemia (\< 54 mg/dL \[3.0 mmol/L\]) will be estimated and compared to a threshold of 0.86% with a margin of 2% and a significance level of 0.025 (one-sided).|Mean of Final Value|0.3|||<|0.001|TWO_SIDED|95.0|0.2|0.4|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL \[3.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||0.4|0.2|<0.001
92377301|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5331||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS||||0.5331
92377302|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7365||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS||||0.7365
92411307|NCT02633020|184713275|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.24||0.5561|TWO_SIDED|95.0|-0.64|0.35|||Linear mixed effects repeated measures|Linear mixed effects repeated measures model with baseline value, treatment group, time point and a time point-by-treatment group as fixed effects.||||0.35|-0.64|0.5561
92411308|NCT05661851|184713301|NON_INFERIORITY|Non-inferiority margin of -20 was used.|Least-square Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|3.79|||TWO_SIDED|95.0|-1.67|13.38|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control.|A sample size of 104 subjects provides at least 90% statistical power to test non-inferiority of the Test eyedrop compared to the Control eyedrop using a two sample t-test with a two-sided type I error rate of 0.05.||13.38|-1.67|
92411309|NCT05661851|184713302|NON_INFERIORITY|Non-inferiority margin of -20 was used.|Mean Population Difference Estimate|5.843|STANDARD_ERROR_OF_MEAN|4.456|||TWO_SIDED|95.0|-2.8904|14.5768|||Bootstrapping methods||Bootstrap Mean Difference was calculated as Test minus Control|A sample size of 104 subjects provides at least 90% statistical power to test non-inferiority of the Test eyedrop compared to the Control eyedrop using a two sample t-test with a two-sided type I error rate of 0.05.||14.5768|-2.8904|
92446298|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.125||0.1176|TWO_SIDED|95.0|-0.05|0.44|||MMRM|||Loss of Weight, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.05|0.1176
92230705|NCT05224258|184364898|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) will be estimated and compared to a threshold of 65.3% and a significance level of 0.025 (one-sided).|Mean of Final Value|65.7||||0.208|TWO_SIDED|95.0|63.5|67.9|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||67.9|63.5|0.208
92377303|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9989||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS||||0.9989
92377304|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2501||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.2501
92377305|NCT00468845|184658015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6021||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.6021
92377306|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6613||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day (prior to first dose)||||0.6613
92377307|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1311||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day (prior to first dose)||||0.1311
92377308|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6574||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day (1 hour after dosing)||||0.6574
92377309|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6949||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day (1 hour after dosing)||||0.6949
92377310|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2008||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS||||0.2008
92377311|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3022||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS||||0.3022
92377312|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6382||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.6382
92377313|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8624||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.8624
92230706|NCT05224258|184364898|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) will be estimated and compared to a threshold of 73.7% and a significance level of 0.025 (one-sided).|Mean of Final Value|77.1|||<|0.001|TWO_SIDED|95.0|75.4|78.9|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||78.9|75.4|<0.001
92230707|NCT01381094|184364923|SUPERIORITY||Mean Difference (Net)|0.8|||||TWO_SIDED|95.0|0.24|1.35||||||||1.35|0.24|
92230708|NCT01381094|184364923|SUPERIORITY||Mean Difference (Net)|0.76|||||TWO_SIDED|95.0|0.2|1.33||||||||1.33|0.20|
92230709|NCT01381094|184364923|SUPERIORITY||Mean Difference (Net)|1.28|||||TWO_SIDED|95.0|0.73|1.83||||||||1.83|0.73|
92230710|NCT01381094|184364923|SUPERIORITY||Mean Difference (Net)|1.45|||||TWO_SIDED|95.0|0.91|2.0||||||||2.00|0.91|
92230711|NCT01381094|184364923|SUPERIORITY||||||<|0.0001|TWO_SIDED||||||ANOVA|||||||<0.0001
92230712|NCT01381094|184364924|SUPERIORITY||||||=|0.9355|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.9355
92230713|NCT01381094|184364924|SUPERIORITY||||||=|0.6594|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.6594
92377314|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3858||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.3858
92411310|NCT01014910|184713303|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|||||Based on a previously-identified mean LOS of 65.3 hours, we estimated we would need to enroll 80 patients in each study arm to provide adequate sample size to detect a difference in mean LOS of 18 hours with 80% power and alpha=0.05.|Wilcoxon (Mann-Whitney)|Sample size calculations were performed using Power and Sample Size Calculator, version 3.0 (by developers William D. Dupont and Walton D. Plummer Jr)||Differences in LOS were compared between study arms using the Mann-Whitney U-test and the Kaplan-Meier method. Statistical analyses were performed using Stata version 13.1 for Windows (StataCorp). All patients enrolled in the study, including those who subsequently had consent for the intervention withdrawn, were included for analysis (intention to treat).||||<0.05
92411311|NCT01014910|184713304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||Chi-squared, Corrected|||The proportion of patients transferred to the intensive care unit in each study arm was compared between study arms using the Pearson χ2 test. All patients enrolled in the study, including those who subsequently had consent for the intervention withdrawn, were included for analysis (intention to treat).||||0.05
92411312|NCT00800254|184713305|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92230714|NCT01381094|184364924|SUPERIORITY||||||=|0.0203|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0203
92230715|NCT01381094|184364924|SUPERIORITY||||||=|0.0369|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0369
92411313|NCT00800254|184713307|SUPERIORITY_OR_OTHER||||||<|0.003|TWO_SIDED||||||ANCOVA|||||||<0.003
92230716|NCT01381094|184364924|SUPERIORITY|p-value was based on the comparison within treatment group (Change from Baseline to Week 1).|||||=|0.3713|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||=0.3713
92230717|NCT01381094|184364924|SUPERIORITY||||||=|0.163|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.1630
92230718|NCT01381094|184364924|SUPERIORITY||||||=|0.7615|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.7615
92230719|NCT01381094|184364924|SUPERIORITY||||||=|0.004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0040
92230720|NCT01381094|184364924|SUPERIORITY||||||=|0.0003|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0003
92230721|NCT01381094|184364924|SUPERIORITY||||||=|0.3978|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.3978
92230722|NCT01381094|184364924|SUPERIORITY||||||=|0.0083|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0083
92377315|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4814||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.4814
92377316|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.952||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.9520
92377317|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2315||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.2315
92377318|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7061||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.7061
92230723|NCT01381094|184364924|SUPERIORITY||||||=|0.0323|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0323
92230724|NCT01381094|184364924|SUPERIORITY||||||=|0.0003|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0003
92230725|NCT01381094|184364924|SUPERIORITY||||||=|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0001
92230726|NCT01381094|184364924|SUPERIORITY||||||=|0.423|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.4230
92230727|NCT01381094|184364924|SUPERIORITY||||||=|0.0023|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0023
92230728|NCT01381094|184364924|SUPERIORITY||||||=|0.0009|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0009
92230729|NCT01381094|184364924|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
92230730|NCT01381094|184364924|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
92230731|NCT01381094|184364924|SUPERIORITY||||||=|0.5291|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.5291
92230732|NCT01381094|184364924|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0002
92377319|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2908||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.2908
92377320|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4782||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.4782
92230733|NCT01381094|184364924|SUPERIORITY||||||=|0.0222|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0222
92230734|NCT01381094|184364924|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0002
92230735|NCT01381094|184364924|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0002
92230736|NCT01381094|184364924|SUPERIORITY||||||=|0.9314|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9314
92230737|NCT01381094|184364925|SUPERIORITY||||||=|0.5219|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.5219
92240267|NCT00051558|184383970|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 1|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92377321|NCT00468845|184658016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.813||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.8130
92377322|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.894||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.8940
92377323|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5938||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.5938
92377324|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4306||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.4306
92377325|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5899||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.5899
92377326|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2209||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.2209
92230738|NCT01381094|184364925|SUPERIORITY||||||=|0.6743|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.6743
92230739|NCT01381094|184364925|SUPERIORITY||||||=|0.0078|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0078
92230740|NCT01381094|184364925|SUPERIORITY||||||=|0.0301|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0301
92230741|NCT01381094|184364925|SUPERIORITY||||||=|0.4502|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.4502
92230742|NCT01381094|184364925|SUPERIORITY||||||=|0.6967|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.6967
92230743|NCT01381094|184364925|SUPERIORITY||||||=|0.7385|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.7385
92411314|NCT00744042|184713313|SUPERIORITY_OR_OTHER|||||||0.0039|TWO_SIDED|||||Testing whether median change in rickets severity from Baseline to Week 24, measured by RGI-C at Week 24, is from zero.|Wilcoxon signed-rank test|The last post-baseline observation carry forward method is used; patients with no post-baseline assessments were imputed as having no change.||One treatment group||||0.0039
92230744|NCT01381094|184364925|SUPERIORITY||||||=|0.0176|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0176
92230745|NCT01381094|184364925|SUPERIORITY||||||=|0.0057|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0057
92411315|NCT01043939|184713343|SUPERIORITY_OR_OTHER||Difference of least square means|-0.16||||0.25|TWO_SIDED|95.0|-0.42|0.11||24 participants required to achieve 80% power to detect mean difference of 0.3 in RH-PAT index score between juice groups, assuming standard deviation of the difference was 0.25, using a two-sided significance level of 0.05|Mixed Models Analysis|Mixed effects ANCOVA model with baseline included as a covariate, subject as a random effect; juice, period \& group as fixed effects.|The a priori threshold for statistical significance was 0.05.|||0.11|-0.42|0.25
92411316|NCT01043939|184713344|SUPERIORITY_OR_OTHER||Difference of least square means|3.09||||0.29|TWO_SIDED|95.0|-2.73|8.91|||Mixed Models Analysis|Mixed effects ANCOVA model with baseline included as a covariate, subject as a random effect; juice, period \& group as fixed effects.||||8.91|-2.73|0.29
92230746|NCT01381094|184364925|SUPERIORITY||||||=|0.5551|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.5551
92230747|NCT01381094|184364925|SUPERIORITY||||||=|0.0086|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0086
92230748|NCT01381094|184364925|SUPERIORITY||||||=|0.2385|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.2385
92230749|NCT01381094|184364925|SUPERIORITY||||||=|0.0007|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0007
92230750|NCT01381094|184364925|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0002
92230751|NCT01381094|184364925|SUPERIORITY||||||=|0.8895|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.8895
92230752|NCT01381094|184364925|SUPERIORITY||||||=|0.0127|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0127
92230753|NCT01381094|184364925|SUPERIORITY||||||=|0.0076|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0076
92230754|NCT01381094|184364925|SUPERIORITY||||||=|0.0007|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0007
92377327|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7145||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.7145
92377328|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1022||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||1st Week PS||||0.1022
92377329|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7243||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||1st Week PS||||0.7243
92377330|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.231||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS||||0.2310
92377331|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9192||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS||||0.9192
92377332|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3214||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS||||0.3214
92377333|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8641||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS||||0.8641
92377334|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3024||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS||||0.3024
92377335|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7359||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS||||0.7359
92377336|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4303||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.4303
92377337|NCT00468845|184658017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2133||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.2133
92377338|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5682||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||8 hours PS||||0.5682
92377339|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1005||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||8 hours PS||||0.1005
92411317|NCT01043939|184713345|SUPERIORITY_OR_OTHER||Ratio of means|0.92||||0.15|TWO_SIDED|95.0|0.82|1.03|||Mixed Models Analysis|Mixed effects ANCOVA model with baseline included as a covariate, subject as a random effect; juice, period \& group as fixed effects.|MPO was log transformed prior to analyses; the difference of log-transformed least square means (95% CI) were back-transformed to obtain the ratio of the means (95% CI).|||1.03|0.82|0.15
92240268|NCT00051558|184383970|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 6|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92377340|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8261||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||16 hours PS||||0.8261
92377341|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9981||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||16 hours PS||||0.9981
92377342|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8884||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.8884
92377343|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4507||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.4507
92377344|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2994||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||32 hours PS||||0.2994
92377345|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4371||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||32 hours PS||||0.4371
92377346|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8295||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||40 hours PS||||0.8295
92377347|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8783||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||40 hours PS||||0.8783
92377348|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2161||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.2161
92377349|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.0440
92377350|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3855||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||56 hours PS||||0.3855
92377351|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.201||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||56 hours PS||||0.2010
92377352|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7104||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||64 hours PS||||0.7104
92377353|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6107||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||64 hours PS||||0.6107
92377354|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6705||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.6705
92377355|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2083||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.2083
92377356|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3234||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||80 hours PS||||0.3234
92377357|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5938||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||80 hours PS||||0.5938
92377358|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9711||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||88 hours PS||||0.9711
92377359|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4869||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||88 hours PS||||0.4869
92377360|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7439||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.7439
92377361|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8045||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.8045
92377362|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5925||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||104 hours PS||||0.5925
92377363|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.683||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||104 hours PS||||0.6830
92377364|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8266||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||112 hours PS||||0.8266
92377365|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1929||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||112 hours PS||||0.1929
92377366|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7071||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.7071
92377367|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9367||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.9367
92377368|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6046||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||128 hours PS||||0.6046
92377369|NCT00468845|184658018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5119||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||128 hours PS||||0.5119
92377370|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6966||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS||||0.6966
92377371|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1808||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS||||0.1808
92411318|NCT01043939|184713346|SUPERIORITY_OR_OTHER||Ratio of means|1.34||||0.37|TWO_SIDED|95.0|0.69|2.62|||Mixed Models Analysis|Mixed effects ANCOVA model with baseline included as a covariate, subject as a random effect; juice, period \& group as fixed effects.|hs-CRP was log transformed prior to analyses; the difference of log-transformed least square means (95% CI) were back-transformed to obtain the ratio of the means (95% CI).|||2.62|0.69|0.37
92377372|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2616||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.2616
92377373|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1014||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.1014
92377374|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4401||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.4401
92377375|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5615||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.5615
92377376|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7615||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.7615
92377377|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6204||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.6204
92377378|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8766||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.8766
92377379|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1717||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.1717
92377380|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4065||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.4065
92377381|NCT00468845|184658019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0746||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.0746
92377382|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2201||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.2201
92377383|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0606||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.0606
92377384|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5303||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.5303
92377385|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2227||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.2227
92377386|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8237||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.8237
92377387|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7476||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.7476
92377388|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6882||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.6882
92377389|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9689||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.9689
92377390|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.501||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 6 PS||||0.5010
92377391|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9143||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 6 PS||||0.9143
92377392|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7381||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7 PS||||0.7381
92377393|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5336||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7 PS||||0.5336
92377394|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6479||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS (Average)||||0.6479
92377395|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1133||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS (Average)||||0.1133
92377396|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7637||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS (Average)||||0.7637
92377397|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1056||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS (Average)||||0.1056
92377398|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8079||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS (Average)||||0.8079
92411319|NCT00281658|184713356|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.0062|TWO_SIDED|95.0|0.58|0.94||Stratified Log-Rank (one-sided)|Log Rank||The treatment hazard ratio based on the proportional hazard model stratifying for metastatic disease sites and hormonal status. A hazard ratio \<1 indicates a lower risk with Lapatinib 1500mg + Paclitaxel compared with Placebo + Paclitaxel.|Primary OS analysis cut-off date = 18-Jun-2010||0.94|0.58|0.0062
92411320|NCT00281658|184713357|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.64|0.98|||||The treatment hazard ratio based on the proportional hazard model stratifying for metastatic disease sites and hormonal status. A hazard ratio \<1 indicates a lower risk with Lapatinib 1500mg + Paclitaxel compared with Placebo + Paclitaxel.|Final OS analysis cut-0ff date = 23-Nov-2021||0.98|0.64|
92377399|NCT00468845|184658020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0917||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS (Average)||||0.0917
92377400|NCT00468845|184658021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7511||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.7511
92377401|NCT00468845|184658021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6742||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.6742
92377402|NCT00468845|184658021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3808||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.3808
92377403|NCT00468845|184658021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7021||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.7021
92411321|NCT00281658|184713358|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.44|0.66|||||The Pike estimator of the treatment hazard ratio based on the log rank test stratifying for metastatic disease sites and hormonal status. A hazard ratio \<1 indicates a lower risk with Lapatinib 1500mg + Paclitaxel compared with Placebo + Paclitaxel.|||0.66|0.44|
92411322|NCT00281658|184713359|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.3|||||TWO_SIDED|95.0|1.54|3.47||||||||3.47|1.54|
92411323|NCT00281658|184713360|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.34|||||TWO_SIDED|95.0|1.54|3.58||||||||3.58|1.54|
92377404|NCT00468845|184658021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0045||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.0045
92377405|NCT00468845|184658021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7916||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.7916
92377406|NCT00468845|184658021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3682||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.3682
92377407|NCT00468845|184658021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1419||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.1419
92377408|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3323||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.3323
92377409|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5662||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.5662
92377410|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9538||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.9538
92377411|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4592||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.4592
92377412|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4793||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.4793
92377413|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8517||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.8517
92377414|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1829||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.1829
92377415|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3544||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.3544
92377416|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1718||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 6 PS||||0.1718
92411324|NCT00281658|184713365|OTHER||Odds Ratio (OR)|2.78|||||TWO_SIDED|95.0|1.07|7.57||||||Participants with PIK3CA wild-type||7.57|1.07|
92411325|NCT00281658|184713366|OTHER||Odds Ratio (OR)|2.42|||||TWO_SIDED|95.0|1.28|4.63||||||Participants with PTEN low||4.63|1.28|
92411326|NCT00281658|184713366|OTHER||Odds Ratio (OR)|2.21|||||TWO_SIDED|95.0|1.04|4.82||||||Participants without PTEN low||4.82|1.04|
92411327|NCT00281658|184713368|OTHER||Odds Ratio (OR)|3.15|||||TWO_SIDED|95.0|1.58|6.49||||||Participants with PTEN low||6.49|1.58|
92411328|NCT00281658|184713368|OTHER||Odds Ratio (OR)|2.49|||||TWO_SIDED|95.0|1.13|5.66||||||Participants without PTEN low||5.66|1.13|
92411329|NCT00730028|184713369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.7688|TWO_SIDED|95.0|-7.6|5.1||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Primary null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess at the Test of Cure (TOC) visit.||5.1|-7.6|0.7688
92411330|NCT00730028|184713369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||1|TWO_SIDED|95.0|-5.4|5.1||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||5.1|-5.4|1.0000
92230755|NCT01381094|184364925|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
92377417|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5078||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 6 PS||||0.5078
92377418|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2443||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7 PS||||0.2443
92377419|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8296||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7 PS||||0.8296
92377420|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3243||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS (Average)||||0.3243
92377421|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3755||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS (Average)||||0.3755
92411331|NCT00730028|184713369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||<|0.0001|TWO_SIDED|95.0|-19.2|-5.6||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||-5.6|-19.2|<0.0001
92411332|NCT00730028|184713369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.2||||0.0002|TWO_SIDED|95.0|-19.1|-5.4||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||-5.4|-19.1|0.0002
92411333|NCT00730028|184713372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.52|TWO_SIDED|95.0|-10.2|4.9||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Primary null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess at the Test of Cure (TOC) visit.||4.9|-10.2|0.5200
92411334|NCT00730028|184713372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.7324|TWO_SIDED|95.0|-8.4|5.7||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||5.7|-8.4|0.7324
92411335|NCT00730028|184713372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.2||||0.0001|TWO_SIDED|95.0|-22.0|-6.4||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||-6.4|-22.0|0.0001
92411336|NCT00730028|184713372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.9||||0.0008|TWO_SIDED|95.0|-20.8|-5.0||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||-5.0|-20.8|0.0008
92411337|NCT00730028|184713373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.7707|TWO_SIDED|95.0|-7.1|5.3||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess.||5.3|-7.1|0.7707
92230756|NCT01381094|184364925|SUPERIORITY||||||=|0.5522|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.5522
92240269|NCT00051558|184383970|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 18|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92377422|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9584||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS (Average)||||0.9584
92377423|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1187||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS (Average)||||0.1187
92377424|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7915||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS (Average)||||0.7915
92230757|NCT01381094|184364925|SUPERIORITY||||||=|0.0031|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0031
92230758|NCT01381094|184364925|SUPERIORITY||||||=|0.2188|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.2188
92230759|NCT01381094|184364925|SUPERIORITY||||||=|0.0054|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0054
92230760|NCT01381094|184364925|SUPERIORITY||||||=|0.0037|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0037
92230761|NCT01381094|184364925|SUPERIORITY||||||=|0.9521|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9521
92230762|NCT01381094|184364926|SUPERIORITY||||||=|0.3943|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.3943
92230763|NCT01381094|184364926|SUPERIORITY||||||=|0.2096|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.2096
92230764|NCT01381094|184364926|SUPERIORITY||||||=|0.0637|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0637
92230765|NCT01381094|184364926|SUPERIORITY||||||=|0.5016|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.5016
92230766|NCT01381094|184364926|SUPERIORITY||||||=|0.7549|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.7549
92230767|NCT01381094|184364926|SUPERIORITY||||||=|0.5991|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.5991
92377425|NCT00468845|184658022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0703||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS (Average)||||0.0703
92377426|NCT00468845|184658023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1975||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge;||||0.1975
92377427|NCT00468845|184658023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2784||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge;||||0.2784
92411338|NCT00730028|184713373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.2141|TWO_SIDED|95.0|-2.0|8.5||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||8.5|-2.0|0.2141
92230768|NCT01381094|184364926|SUPERIORITY||||||=|0.4258|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.4258
92230769|NCT01381094|184364926|SUPERIORITY||||||=|0.0336|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0336
92230770|NCT01381094|184364926|SUPERIORITY||||||=|0.0258|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0258
92230771|NCT01381094|184364926|SUPERIORITY||||||=|0.2412|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.2412
92240270|NCT00051558|184383970|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 36|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92377428|NCT00468845|184658023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0271||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.0271
92377429|NCT00468845|184658023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0881||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.0881
92377430|NCT00468845|184658023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0159||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.0159
92230772|NCT01381094|184364926|SUPERIORITY||||||=|0.0031|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0031
92377431|NCT00468845|184658023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.187||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.1870
92377432|NCT00468845|184658023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1752||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.1752
92377433|NCT00468845|184658023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6923||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.6923
92377434|NCT00468845|184658026|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6295||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.6295
92377435|NCT00468845|184658026|SUPERIORITY_OR_OTHER_LEGACY|||||||0.689||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.6890
92377436|NCT00468845|184658026|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5094||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.5094
92377437|NCT00468845|184658026|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8741||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.8741
92377438|NCT00468845|184658026|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0214||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.0214
92377439|NCT00468845|184658026|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9366||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.9366
92377440|NCT00468845|184658026|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7833||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.7833
92411339|NCT00730028|184713373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0||||0.0593|TWO_SIDED|95.0|-12.4|0.5||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||0.5|-12.4|0.0593
92377441|NCT00468845|184658026|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2983||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.2983
92230773|NCT01381094|184364926|SUPERIORITY||||||=|0.7705|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.7705
92230774|NCT01381094|184364926|SUPERIORITY||||||=|0.0024|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0024
92240271|NCT00051558|184383971|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 1|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92377442|NCT00468845|184658029|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6861||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers and salpingo-oophorectomy strata.||Surgery Day||||0.6861
92377443|NCT00468845|184658029|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9905||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Surgery Day||||0.9905
92377444|NCT00468845|184658030|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4264||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 1 PS||||0.4264
92377445|NCT00468845|184658030|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3045||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 1 PS||||0.3045
92377446|NCT00468845|184658031|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0714||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 2 PS||||0.0714
92377447|NCT00468845|184658031|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4455||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 2 PS||||0.4455
92377448|NCT00468845|184658032|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7418||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 3 PS||||0.7418
92377449|NCT00468845|184658032|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5154||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 3 PS||||0.5154
92377450|NCT00468845|184658033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6715||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 4 PS||||0.6715
92377451|NCT00468845|184658033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9013||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 4 PS||||0.9013
92377452|NCT00468845|184658034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9126||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 5 PS||||0.9126
92377453|NCT00468845|184658034|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 5 PS||||1.0000
92377454|NCT00468845|184658035|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1233||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Discharge||||0.1233
92377455|NCT00468845|184658035|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1666||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Discharge||||0.1666
92377456|NCT00468845|184658036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0361||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 7||||0.0361
92377457|NCT00468845|184658036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0797||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 7||||0.0797
92377458|NCT00468845|184658037|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0206||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 14||||0.0206
92377459|NCT00468845|184658037|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 14||||0.0011
92377460|NCT00468845|184658039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3506||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours||||0.3506
92377461|NCT00468845|184658040|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0287||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 28||||0.0287
92411340|NCT00730028|184713373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2||||0.0017|TWO_SIDED|95.0|-15.3|-3.1||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||-3.1|-15.3|0.0017
92377462|NCT00468845|184658040|SUPERIORITY_OR_OTHER_LEGACY|||||||0.227||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 28||||0.2270
92377463|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1872||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Medication Subscale at Discharge||||0.1872
92377464|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3994||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Medication Subscale at Discharge||||0.3994
92377465|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0422||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Medication Subscale at Day 28||||0.0422
92377466|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3647||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Medication Subscale at Day 28||||0.3647
92377467|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1729||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Characteristics at Discharge||||0.1729
92377468|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2234||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Characteristics at Discharge||||0.2234
92411341|NCT00730028|184713374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.1381|TWO_SIDED|95.0|-13.1|1.8||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess.||1.8|-13.1|0.1381
92411342|NCT00730028|184713374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.8302|TWO_SIDED|95.0|-6.4|8.2||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||8.2|-6.4|0.8302
92230775|NCT01381094|184364926|SUPERIORITY||||||=|0.0006|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0006
92377469|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.095||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Characteristics at Day 28||||0.0950
92377470|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4345||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Characteristics at Day 28||||0.4345
92377471|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.284||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Efficacy at Discharge||||0.2840
92230776|NCT01381094|184364926|SUPERIORITY||||||=|0.6189|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.6189
92230777|NCT01381094|184364926|SUPERIORITY||||||=|0.0075|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0075
92230778|NCT01381094|184364926|SUPERIORITY||||||=|0.0259|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0259
92377472|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6404||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Efficacy at Discharge||||0.6404
92377473|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.055||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Efficacy at Day 28||||0.0550
92377474|NCT00468845|184658041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4531||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Efficacy at Day 28||||0.4531
92377475|NCT00468845|184658042|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9712||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.9712
92377476|NCT00468845|184658042|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0112||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.0112
92411343|NCT00730028|184713374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.0838|TWO_SIDED|95.0|-14.3|1.1||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||1.1|-14.3|0.0838
92411344|NCT00730028|184713374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5||||0.0507|TWO_SIDED|95.0|-15.2|0.2||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||0.2|-15.2|0.0507
92411345|NCT00730028|184713375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.1505|TWO_SIDED|95.0|-13.3|1.9||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess.||1.9|-13.3|0.1505
92411346|NCT00730028|184713375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.1666|TWO_SIDED|95.0|-10.9|2.2||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||2.2|-10.9|0.1666
92411347|NCT00730028|184713375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.5|||<|0.0001|TWO_SIDED|95.0|-23.0|-8.0||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||-8.0|-23.0|<0.0001
92230779|NCT01381094|184364926|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
92230780|NCT01381094|184364926|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
92230781|NCT01381094|184364926|SUPERIORITY||||||=|0.8898|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.8898
92230782|NCT01381094|184364926|SUPERIORITY||||||=|0.001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0010
92230783|NCT01381094|184364926|SUPERIORITY||||||=|0.2864|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.2864
92230784|NCT01381094|184364926|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0002
92230785|NCT01381094|184364926|SUPERIORITY||||||=|0.0016|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0016
92240272|NCT00051558|184383971|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 6|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92411348|NCT00730028|184713375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1||||0.0046|TWO_SIDED|95.0|-19.0|-3.2||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||-3.2|-19.0|0.0046
92411349|NCT00730028|184713376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.4||||0.1815|TWO_SIDED|95.0|-13.6|2.8||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess.||2.8|-13.6|0.1815
92411350|NCT00730028|184713376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6||||0.1552|TWO_SIDED|95.0|-13.2|2.1||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||2.1|-13.2|0.1552
92411351|NCT00730028|184713376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.9|||<|0.0001|TWO_SIDED|95.0|-24.0|-7.8||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||-7.8|-24.0|<0.0001
92377477|NCT00468845|184658042|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.0090
92377478|NCT00468845|184658042|SUPERIORITY_OR_OTHER_LEGACY|||||||0.865||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.8650
92377479|NCT00468845|184658043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8914||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 1997 Discharge||||0.8914
92377480|NCT00468845|184658043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2214||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 1997 Discharge||||0.2214
92377481|NCT00468845|184658043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1008||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 1997 Day 28||||0.1008
92377482|NCT00468845|184658043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9135||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 1997 Day 28||||0.9135
92377483|NCT00468845|184658043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5609||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 2001 Discharge||||0.5609
92377484|NCT00468845|184658043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4047||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 2001 Discharge||||0.4047
92377485|NCT00468845|184658043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1663||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 2001 Day 28||||0.1663
92377486|NCT00468845|184658043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8364||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 2001 Day 28||||0.8364
92377487|NCT00468845|184658044|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7218||95.0|||||Log Rank|||Kaplan-Meier method was used for survival distribution estimation;||||0.7218
92377488|NCT00468845|184658044|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4425||95.0|||||Log Rank|||Kaplan-Meier method was used for survival distribution estimation;||||0.4425
92377489|NCT00468845|184658045|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7889||95.0|||||Log Rank|||Kaplan-Meier method was used for survival distribution estimation;||||0.7889
92230786|NCT01381094|184364926|SUPERIORITY||||||=|0.9697|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9697
92230787|NCT01381094|184364927|SUPERIORITY||||||=|1|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=1.0000
92230788|NCT01381094|184364927|SUPERIORITY||||||=|0.0055|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0055
92377490|NCT00468845|184658045|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1565||95.0|||||Log Rank|||Kaplan-Meier method was used for survival distribution estimation;||||0.1565
92377491|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6211||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Total subscale||||0.6211
92377492|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3687||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Total subscale||||0.3687
92377493|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7078||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Burning Spontaneous subscale||||0.7078
92377494|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8696||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Burning Spontaneous subscale||||0.8696
92377495|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.432||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Pressing Spontaneous subscale||||0.4320
92377496|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8843||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Pressing Spontaneous subscale||||0.8843
92377497|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6215||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Paroxysmal pain subscale||||0.6215
92377498|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2722||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Paroxysmal pain subscale||||0.2722
92377499|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Evoked Pain subscale||||0.5500
92377500|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9942||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Evoked Pain subscale||||0.9942
92377501|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0075||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Paresthesia/dysesthesia||||0.0075
92377502|NCT00468845|184658046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1464||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Paresthesia/dysesthesia||||0.1464
92377503|NCT00468845|184658047|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9877||95.0|||||Cochran-Mantel-Haenszel|p-values are derived from CMH test adjusted for pooled centers and salpingo-oophorectomy strata||Incidence of chronic PS pain at Month 3 PS.||||0.9877
92377504|NCT00468845|184658047|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1334||95.0|||||Cochran-Mantel-Haenszel|p-values are derived from CMH test adjusted for pooled centers and salpingo-oophorectomy strata||Incidence of chronic PS pain at Month 3 PS.||||0.1334
92377505|NCT00468845|184658047|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3566||95.0|||||Cochran-Mantel-Haenszel|p-values are derived from CMH test adjusted for pooled centers and salpingo-oophorectomy strata||Incidence of chronic PS pain at Month 6 PS.||||0.3566
92230789|NCT01381094|184364927|SUPERIORITY||||||=|0.0009|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0009
92377506|NCT00468845|184658047|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6262||95.0|||||Cochran-Mantel-Haenszel|p-values are derived from CMH test adjusted for pooled centers and salpingo-oophorectomy strata||Incidence of chronic PS pain at Month 6 PS.||||0.6262
92377507|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9463||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day;||||0.9463
92377508|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7347||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day;||||0.7347
92377509|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4132||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS;||||0.4132
92411352|NCT00730028|184713376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4||||0.0145|TWO_SIDED|95.0|-18.7|-2.0||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||-2.0|-18.7|0.0145
92411353|NCT01250496|184713402|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.45||||0.04|TWO_SIDED|95.0|0.2|0.98||No adjustment for multiple comparisons was performed. The threshold for statistical significance was \< 0.05|Chi-squared|||null hypothesis: aminophylline administration does not reduce the incidence of the primary endpoint as compared to placebo. The chi-square test was used to compare event rate between the study arm.||0.98|0.2|0.04
92411354|NCT01250496|184713403|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.39|||<|0.001|TWO_SIDED|95.0|0.2|0.7||P value is not adjusted for multiple comparisons.|Chi-squared|||"null hypothesis: the rate of regadenoson adverse effects (global symptomatic burden) in the aminophylline and placebo group are not statistically different.~The chi-square test was used for comparison."||0.7|0.2|< 0.001
92411355|NCT01589653|184713413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be considered confirmed if the upper bound of the two-sided 95% CI was below or equal to 0.4% or equivalently when the p-value for the one-sided test of H0: D \> 0.4% against HA: D ≤ 0.4%, was less than or equal to 2.5%, where D is the mean treatment difference (subject-driven titration minus investigator-driven titration).|Treatment difference|-0.23|||<|0.001|TWO_SIDED|95.0|-0.54|0.08|||Regression, Linear|Analyses were adjusted for treatment, strata, country and baseline HbA1c||The null-hypothesis was tested against the alternative hypothesis of non-inferiority as given by: H0: D \> 0.4% against HA: D ≤ 0.4% where D is the mean treatment difference for change in HbA1c (subject-driven titration minus investigator-driven titration).||0.08|-0.54|<0.001
92377510|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4929||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS;||||0.4929
92411356|NCT01425463|184713447|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of the investigational drug (Ferrous (II) Glycine Sulphate Complex) to the reference drug (Polyferose) was concluded if the lower limit of the two-sided 95 % confidence interval was greater than -7.0 g/L.|LS-Mean of ANCOVA|-2.19|||||TWO_SIDED|95.0|-8.47|4.09||||||||4.09|-8.47|
92230790|NCT01381094|184364927|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0002
92230791|NCT01381094|184364927|SUPERIORITY||||||=|0.9722|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.9722
92377511|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6003||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS;||||0.6003
92240273|NCT00051558|184383971|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 18|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92377512|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9343||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS;||||0.9343
92377513|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3838||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS;||||0.3838
92377514|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1351||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS;||||0.1351
92377515|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3343||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS;||||0.3343
92377516|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7948||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS;||||0.7948
92377517|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.809||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS;||||0.8090
92411357|NCT03467152|184713459|SUPERIORITY|||||||0.6909||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.6909
92230792|NCT01381094|184364927|SUPERIORITY||||||=|1|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=1.0000
92230793|NCT01381094|184364927|SUPERIORITY||||||=|0.0008|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0008
92377518|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4035||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS;||||0.4035
92377519|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6009||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.6009
92377520|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7597||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.7597
92377521|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7804||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.7804
92377522|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0463||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.0463
92377523|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4951||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.4951
92377524|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.303||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.3030
92377525|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0104||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.0104
92230794|NCT01381094|184364927|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0002
92230795|NCT01381094|184364927|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||<0.0001
92230796|NCT01381094|184364927|SUPERIORITY||||||=|0.6579|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.6579
92278048|NCT00782509|184458139|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.993|STANDARD_ERROR_OF_MEAN|0.187||0.9853|TWO_SIDED|95.0|0.687|1.436|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.436|0.687|0.9853
92377526|NCT00468845|184658048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6978||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.6978
92377527|NCT00787930|184658049|SUPERIORITY_OR_OTHER||||||>|0.05||||||a priori threshold for significance was 0.05|Chi-squared|||||||>0.05
92377528|NCT00787930|184658050|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|df=1||||||1.00
92377529|NCT00787930|184658051|SUPERIORITY_OR_OTHER|||||||0.6056||||||No adjustment for multiple comparisons|Chi-squared|df=1||||||0.6056
92377530|NCT00787930|184658052|NON_INFERIORITY_OR_EQUIVALENCE|Exploratory hypothesis|t-stat estimated value|1.52|STANDARD_DEVIATION|8.2||0.081|ONE_SIDED|95.0|0.0||||t-test, 1 sided|missing values: 6 df=7|||||0|0.081
92377531|NCT00787930|184658053|NON_INFERIORITY_OR_EQUIVALENCE|Exploratory analyses|t-stat estimated value|1.47|STANDARD_DEVIATION|6.56||0.091|ONE_SIDED|95.0|0.0|||no adjustment for multiple analyses|t-test, 1 sided|missing values: 5 df=7|||||0|0.091
92377532|NCT01400243|184658058|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||ANCOVA|||||||.05
92377533|NCT01400243|184658059|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92377534|NCT01710527|184658096|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Treatment T-Metformin 500 mg with Treatment R- Glucophage 500 mg was concluded if the 90% confidence intervals for the ratio of log transformed Cmax fell within the acceptance range of 80 to 125%.|Ratio (%)|96.85||||0.3125|TWO_SIDED|90.0|91.86|102.11|||ANOVA||Analysis was performed on log transformed geometric least square means.|||102.11|91.86|0.3125
92377535|NCT01710527|184658097|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Treatment T-Metformin 500 mg with Treatment R- Glucophage 500 mg was concluded if the 90% confidence intervals for the ratio of log transformed AUC0-t fell within the acceptance range of 80 to 125%.|Ratio (%)|102.52||||0.2701|TWO_SIDED|90.0|98.74|106.45|||ANOVA|||Comparison of Treatment T-Metformin 500 mg and Treatment R- Glucophage 500 mg for AUC0-t||106.45|98.74|0.2701
92411358|NCT03467152|184713460|SUPERIORITY||Odds Ratio (OR)|1.018||||0.8251|TWO_SIDED|95.0|0.695|1.492||Generalized Linear Mixed Models Analysis (GLMM)|GLMM|||||1.492|0.695|0.8251
92411359|NCT03467152|184713461|SUPERIORITY||Odds Ratio (OR)|0.853||||0.3003|TWO_SIDED|95.0|0.584|1.247||Generalized Linear Mixed Models Analysis (GLMM)|GLMM|||||1.247|0.584|0.3003
92411360|NCT03467152|184713462|SUPERIORITY|||||||0.9198||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.9198
92411361|NCT03467152|184713463|SUPERIORITY|||||||0.2909|||||||ANCOVA|||||||0.2909
92411362|NCT03467152|184713464|SUPERIORITY|||||||0.6127||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.6127
92411363|NCT03467152|184713465|SUPERIORITY|||||||0.878||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.8780
92377536|NCT01710527|184658097|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Treatment T-Metformin 500 mg with Treatment R- Glucophage 500 mg was concluded if the 90% confidence intervals for the ratio of log transformed AUC0-infinity fell within the acceptance range of 80 to 125%.|Ratio (%)|102.44||||0.2702|TWO_SIDED|90.0|98.78|106.23|||ANOVA||Analysis was performed on log transformed geometric least square means.|Comparison of Treatment T-Metformin 500 mg and Treatment R- Glucophage 500 mg for AUC0-infinity.||106.23|98.78|0.2702
92377537|NCT02370004|184658116|OTHER|||||||0.1|||||||t-test, 2 sided|||Paired T-tests were used to evaluate changes in spirometry results||||.10
92377538|NCT01187004|184658120|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||<|0.05|TWO_SIDED|95.0|||||Regression, Logistic|significant level for inclusion at the univariate analysis was p\<0.05.||Our hypothesis was that mechanical ventilation with large tidal volume might represent a risk factor for acute lung injury in patients undergoing cardiopulmonary bypass.||||<0.05
92377539|NCT01187004|184658121|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.199|||<|0.001|TWO_SIDED|95.0|1.129|1.272|||Wilcoxon (Mann-Whitney)|||||1.272|1.129|<0.001
92377540|NCT01891344|184658134|SUPERIORITY||Cox Proportional Hazard|0.273|||||TWO_SIDED|95.0|0.17|0.437||||||||0.437|0.170|
92377541|NCT01891344|184658134|SUPERIORITY||Cox Proportional Hazard|0.61|||||TWO_SIDED|95.0|0.428|0.871||||||||0.871|0.428|
92377542|NCT01852825|184658142|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.355||||0.003|TWO_SIDED|90.0|1.515|3.661|||Constrained Longitudinal Data Analysis||MK-8237 treatment divided by Placebo treatment|The hypothesis is supported if the lower bound of the two-sided 90% confidence interval for the Week 12 geometric mean fold difference is \>1.0.||3.661|1.515|0.003
92377543|NCT01852825|184658143|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.182||||0.01|TWO_SIDED|90.0|1.364|3.49|||Constrained Longitudinal Data Analysis||MK-8237 treatment divided by Placebo treatment|The hypothesis is supported if the lower bound of the two-sided 90% confidence interval for the Week 12 geometric mean fold difference is \>1.0.||3.490|1.364|0.010
92377544|NCT01852825|184658144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238||||0.027|TWO_SIDED|90.0|0.066|0.41|||Constrained Longitudinal Data Analysis||MK-8237 treatment minus Placebo treatment|The hypothesis is supported if the lower bound of the 1-tailed 95% CI around the mean difference in change from baseline excludes zero||0.410|0.066|0.027
92377545|NCT01852825|184658145|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.068||||0.935|TWO_SIDED|90.0|0.272|4.19|||Constrained Longitudinal Data Analysis||MK-8237 treatment divided by Placebo treatment|||4.190|0.272|0.935
92377546|NCT01852825|184658146|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.21||||0.296|TWO_SIDED|90.0|0.605|8.066|||Constrained Longitudinal Data Analysis||MK-8237 treatment divided by Placebo treatment|||8.066|0.605|0.296
92377547|NCT01852825|184658147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-61.115||||0.014|TWO_SIDED|90.0|-100.185|-22.045|||Constrained Longitudinal Data Analysis||MK-8237 treatment minus Placebo treatment|||-22.045|-100.185|0.014
92377548|NCT01414205|184658148|SUPERIORITY_OR_OTHER||Difference (Hauck-Anderson)|17.89||||0.0779|TWO_SIDED|95.0|-4.95|40.72|||Cochran-Mantel-Haenszel|P-values based on stratified Cochran-Mantel-Haenszel test by the randomization stratification factors as supportive analyses.||||40.72|-4.95|0.0779
92377549|NCT02498067|184658187|OTHER|||||||0.177||||||a priori threshold for statistical significance: p\<0.05|t-test, 2 sided|||Paired samples t-test comparison of whether participants' mean reported scores for frequency of dual method use differ between baseline (pre-rPlan) and 3-month follow-up (post-rPlan)||||.177
92377550|NCT02498067|184658188|OTHER|||||||0.318||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of whether participants' mean reported scores for frequency of condom use alone (without another method) differ between baseline (pre-rPlan) and 3-month follow-up (post-rPlan)||||.318
92377551|NCT02498067|184658189|OTHER|||||||0||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of whether participants reported more consistent contraceptive use (i.e., using contraception every time they had sex) between baseline (pre-rPlan) and 3-month follow-up (post-rPlan)||||.000
92377552|NCT02498067|184658191|OTHER|||||||0.03||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported likelihood to use an IUD in the future (on a scale ranging from 1- very unlikely, to 5- very likely) before and directly after using the rPlan app||||.030
92377553|NCT02498067|184658192|OTHER|||||||0.14||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported likelihood to use an implant in the future (on a scale ranging from 1- very unlikely, to 5- very likely) before and directly after using the rPlan app||||.140
92377554|NCT02498067|184658193|OTHER|||||||0.315||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported likelihood to use condoms in the future (on a scale ranging from 1- very unlikely, to 5- very likely) before and directly after using the rPlan app||||.315
92377555|NCT02498067|184658194|OTHER|||||||0.028||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported contraceptive self-efficacy (on a scale ranging from 1- not at all confident, to 5- extremely confident) before and 3 months after engaging in rPlan||||.028
92377556|NCT02498067|184658195|OTHER|||||||0.918||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported condom use self-efficacy (on a scale ranging from 1- not at all confident, to 5- extremely confident) before and 3 months after engaging in rPlan||||.918
92377557|NCT02498067|184658197|OTHER|||||||0.209||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' self-reported number of sexual partners in the past 3 months (for those were sexually active) between baseline and 3-month follow-up||||.209
92377558|NCT02498067|184658198|OTHER|||||||0.652||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported degree to which they endorse negative condom attitudes (on a scale ranging from 1- strongly disagree, to 5- strongly agree) before and 3 months after engaging in rPlan||||.652
92411364|NCT03467152|184713466|SUPERIORITY|||||||0.409||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.4090
92411365|NCT03467152|184713467|SUPERIORITY|||||||0.8736||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.8736
92411366|NCT01236547|184713486|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.2831|TWO_SIDED|95.0|0.52|1.43||One-sided significance level = 0.1379|Log Rank||Reference arm = placebo|Assuming hazard ratio (pazopanib/placebo) of 0.625 (1-year 19% vs. 35.4%), 1-sided alpha 0.15, logrank test, 80% power, 1 interim analysis, required 71 deaths in 79 eligible patients (88 allowing 10% ineligible) in original design. The protocol was amended for phase II final analysis to be performed after all phase II eligible participants were potentially followed for 3 years with 1-sided alpha 0.1379, providing 77% power. See Limitations and Caveats||1.43|0.52|0.2831
92230797|NCT01381094|184364927|SUPERIORITY||||||=|0.4102|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.4102
92230798|NCT01381094|184364927|SUPERIORITY||||||=|0.0023|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0023
92230799|NCT01381094|184364927|SUPERIORITY||||||=|0.0052|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0052
92230800|NCT01381094|184364927|SUPERIORITY||||||=|0.0017|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0017
92377559|NCT02498067|184658199|OTHER|||||||0.498||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported degree to which they endorse positive motivators for condom use (on a scale ranging from 1- strongly disagree, to 5- strongly agree) before and 3 months after engaging in rPlan||||.498
92377560|NCT02498067|184658200|OTHER|||||||0.977||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' rated importance of negative contraceptive attitudes on their decision to use contraception (on a scale ranging from 1- not at all important, to 5- extremely important) before and 3 months after engaging in rPlan||||.977
92377561|NCT02498067|184658201|OTHER|||||||0.673||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' rated importance of positive motivators for contraceptive use on their decision to use contraception (on a scale ranging from 1- not at all important, to 5- extremely important) before and 3 months after engaging in rPlan||||.673
92377562|NCT02498067|184658202|OTHER|||||||0.049||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of proportion of participants who provided correct answers to whether pills or condoms are more effective at preventing pregnancy, before and 3 months after engaging in rPlan||||.049
92377563|NCT02498067|184658202|OTHER|||||||0.265||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of proportion of participants who provided correct answers to whether the IUD or shot is more effective at preventing pregnancy, before and 3 months after engaging in rPlan||||.265
92377564|NCT02214225|184658205|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H1N1)|0.92|||||TWO_SIDED|95.0|0.87|0.98||||||For A/H1N1 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.98|0.87|
92377565|NCT02214225|184658205|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H3N2)|0.93|||||TWO_SIDED|95.0|0.88|0.98||||||For A/H3N2 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.98|0.88|
92411367|NCT01236547|184713488|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.688|TWO_SIDED|95.0|0.55|2.67|||Log Rank|One-sided significance level = 0.15|Reference arm = placebo|||2.67|0.55|0.6880
92230801|NCT01381094|184364927|SUPERIORITY||||||=|0.7378|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.7378
92230802|NCT01381094|184364927|SUPERIORITY||||||=|0.3371|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.3371
92230803|NCT01381094|184364927|SUPERIORITY||||||=|0.0916|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0916
92411368|NCT01236547|184713489|SUPERIORITY|||||||0.1921||||||Two-sided significance level = 0.05|Fisher Exact|||||||0.1921
92411369|NCT01236547|184713490|SUPERIORITY|||||||1||||||Two-sided significance level = 0.05|Fisher Exact|||||||1.00
92411370|NCT01236547|184713491|SUPERIORITY|||||||1|||||||Fisher Exact|Two-sided significance level = 0.05||||||1.00
92240274|NCT00051558|184383971|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 36|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92411371|NCT01767142|184713517|OTHER||sucess proportion|83.9|||||TWO_SIDED|95.0|74.8|90.7||||||||90.7|74.8|
92377566|NCT02214225|184658205|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/YAM)|0.87|||||TWO_SIDED|95.0|0.81|0.93||||||For B/Yamagata strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.93|0.81|
92377567|NCT02214225|184658205|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/VIC)|0.94|||||TWO_SIDED|95.0|0.86|1.01||||||For B/Victoria strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||1.01|0.86|
92377568|NCT02214225|184658206|NON_INFERIORITY_OR_EQUIVALENCE|For A/H1N1. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H1N1)|-1.1|||||TWO_SIDED|95.0|-4.4|2.2||||||||2.2|-4.4|
92377569|NCT02214225|184658206|NON_INFERIORITY_OR_EQUIVALENCE|For A/H3N2. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H3N2)|-1.7|||||TWO_SIDED|95.0|-5.0|1.6||||||||1.6|-5.0|
92377570|NCT02214225|184658206|NON_INFERIORITY_OR_EQUIVALENCE|For B/Yamagata. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/YAM)|-3.2|||||TWO_SIDED|95.0|-7.0|0.5||||||||0.5|-7.0|
92377571|NCT02214225|184658206|NON_INFERIORITY_OR_EQUIVALENCE|For B/Victoria. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/VIC)|-1.6|||||TWO_SIDED|95.0|-5.6|2.4||||||||2.4|-5.6|
92377572|NCT02214225|184658207|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H1N1)|0.93|||||TWO_SIDED|95.0|0.85|1.02||||||For A/H1N1 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||1.02|0.85|
92377573|NCT02214225|184658207|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H3N2)|0.91|||||TWO_SIDED|95.0|0.83|0.99||||||For A/H3N2 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.99|0.83|
92377574|NCT02214225|184658207|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/YAM)|0.86|||||TWO_SIDED|95.0|0.76|0.97||||||For B/YAM strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.97|0.76|
92377575|NCT02214225|184658207|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/VIC)|0.86|||||TWO_SIDED|95.0|0.76|0.98||||||For B/VIC strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.98|0.76|
92377576|NCT02214225|184658207|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H1N1)|0.95|||||TWO_SIDED|95.0|0.88|1.02||||||For A/H1N1 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||1.02|0.88|
92411372|NCT00635219|184713524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|1.13||0.1321|TWO_SIDED|95.0|-3.92|0.51||Since p-value \>0.025, hierarchically testing stopped here.|ANCOVA||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||0.51|-3.92|0.1321
92230804|NCT01381094|184364927|SUPERIORITY||||||=|0.4656|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.4656
92230805|NCT01381094|184364927|SUPERIORITY||||||=|0.1629|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.1629
92230806|NCT01381094|184364927|SUPERIORITY||||||=|0.7032|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.7032
92230807|NCT01381094|184364927|SUPERIORITY||||||=|0.5194|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.5194
92230808|NCT01381094|184364927|SUPERIORITY||||||=|0.8516|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.8516
92230809|NCT01381094|184364927|SUPERIORITY||||||=|0.0017|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0017
92377577|NCT02214225|184658207|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H3N2)|0.95|||||TWO_SIDED|95.0|0.89|1.02||||||For A/H3N2 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||1.02|0.89|
92377578|NCT02214225|184658207|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/YAM)|0.9|||||TWO_SIDED|95.0|0.84|0.97||||||For B/YAM strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.97|0.84|
92377579|NCT02214225|184658207|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/VIC)|1.03|||||TWO_SIDED|95.0|0.94|1.14||||||For B/VIC strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||1.14|0.94|
92377580|NCT02214225|184658208|NON_INFERIORITY_OR_EQUIVALENCE|For A/H1N1. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H1N1)|-2.1|||||TWO_SIDED|95.0|-6.9|2.6||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||2.6|-6.9|
92377581|NCT02214225|184658208|NON_INFERIORITY_OR_EQUIVALENCE|For A/H3N2. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H3N2)|-4.6|||||TWO_SIDED|95.0|-9.3|0.2||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||0.2|-9.3|
92377582|NCT02214225|184658208|NON_INFERIORITY_OR_EQUIVALENCE|For B/YAM. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/YAM)|-4.5|||||TWO_SIDED|95.0|-10.3|1.3||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||1.3|-10.3|
92377583|NCT02214225|184658208|NON_INFERIORITY_OR_EQUIVALENCE|For B/VIC. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/VIC)|-4.6|||||TWO_SIDED|95.0|-10.5|1.2||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||1.2|-10.5|
92377584|NCT02214225|184658208|NON_INFERIORITY_OR_EQUIVALENCE|For A/H1N1. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H1N1)|-0.2|||||TWO_SIDED|95.0|-4.4|4.0||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||4.0|-4.4|
92411373|NCT00635219|184713524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|1.13||0.1847|TWO_SIDED|95.0|-3.73|0.72||Since p-value \>0.025, hierarchically testing stopped here.|ANCOVA||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||0.72|-3.73|0.1847
92411374|NCT00635219|184713524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|1.12||0.2187|TWO_SIDED|95.0|-3.59|0.82||This dose was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||0.82|-3.59|0.2187
92411375|NCT00635219|184713524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|1.14||0.0741|TWO_SIDED|95.0|-4.27|0.2||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||0.20|-4.27|0.0741
92411376|NCT00635219|184713525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.79|STANDARD_ERROR_OF_MEAN|1.13||0.112|TWO_SIDED|95.0|-4.01|0.42||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.42|-4.01|0.1120
92411377|NCT00635219|184713525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63|STANDARD_ERROR_OF_MEAN|1.13||0.1487|TWO_SIDED|95.0|-3.85|0.59||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.59|-3.85|0.1487
92411378|NCT00635219|184713525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11|STANDARD_ERROR_OF_MEAN|1.12||0.3246|TWO_SIDED|95.0|-3.31|1.1||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.10|-3.31|0.3246
92411379|NCT00635219|184713525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.47|STANDARD_ERROR_OF_MEAN|1.13||0.0298|TWO_SIDED|95.0|-4.7|-0.24||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||-0.24|-4.70|0.0298
92411380|NCT00635219|184713526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.137|TWO_SIDED|95.0|0.9|2.23||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||2.23|0.90|0.1370
92230810|NCT01381094|184364927|SUPERIORITY||||||=|0.0656|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0656
92411381|NCT00635219|184713526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.0664|TWO_SIDED|95.0|0.97|2.43||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||2.43|0.97|0.0664
92411382|NCT00635219|184713526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.2023|TWO_SIDED|95.0|0.85|2.12||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||2.12|0.85|0.2023
92230811|NCT01381094|184364927|SUPERIORITY||||||=|0.6495|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.6495
92411383|NCT00635219|184713526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.0765|TWO_SIDED|95.0|0.96|2.4||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||2.40|0.96|0.0765
92411384|NCT00635219|184713527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1436|TWO_SIDED|95.0|-0.47|0.07||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.07|-0.47|0.1436
92411385|NCT00635219|184713527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.2114|TWO_SIDED|95.0|-0.44|0.1||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.10|-0.44|0.2114
92411386|NCT00635219|184713527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1389|TWO_SIDED|95.0|-0.47|0.07||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.07|-0.47|0.1389
92411387|NCT00635219|184713527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.14||0.1271|TWO_SIDED|95.0|-0.48|0.06||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.06|-0.48|0.1271
92411388|NCT00635219|184713528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|1.49||0.4421|TWO_SIDED|95.0|-4.08|1.79||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.79|-4.08|0.4421
92411389|NCT00635219|184713528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|1.49||0.4399|TWO_SIDED|95.0|-4.07|1.77||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.77|-4.07|0.4399
92411390|NCT00635219|184713528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|1.54||0.8093|TWO_SIDED|95.0|-2.65|3.4||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||3.40|-2.65|0.8093
92411391|NCT00635219|184713528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|STANDARD_ERROR_OF_MEAN|1.53||0.0897|TWO_SIDED|95.0|-5.61|0.41||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.41|-5.61|0.0897
92411392|NCT00635219|184713529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.98||0.6748|TWO_SIDED|95.0|-2.35|1.52||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.52|-2.35|0.6748
92411393|NCT00635219|184713529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.99||0.0871|TWO_SIDED|95.0|-3.64|0.25||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.25|-3.64|0.0871
92411394|NCT00635219|184713529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99|STANDARD_ERROR_OF_MEAN|0.99||0.3186|TWO_SIDED|95.0|-2.94|0.96||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.96|-2.94|0.3186
92411395|NCT00635219|184713529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|1.01||0.0768|TWO_SIDED|95.0|-3.79|0.19||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.19|-3.79|0.0768
92411396|NCT00635219|184713530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.6258|TWO_SIDED|95.0|0.7|1.81||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||1.81|0.70|0.6258
92411397|NCT00635219|184713530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.7178|TWO_SIDED|95.0|0.68|1.76||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||1.76|0.68|0.7178
92411398|NCT00635219|184713530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8651|TWO_SIDED|95.0|0.59|1.55||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||1.55|0.59|0.8651
92411399|NCT00635219|184713530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8563|TWO_SIDED|95.0|0.65|1.69||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||1.69|0.65|0.8563
92411400|NCT00635219|184713531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.86||0.1925|TWO_SIDED|95.0|-2.82|0.57||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.57|-2.82|0.1925
92411401|NCT00635219|184713531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|0.87||0.2434|TWO_SIDED|95.0|-2.72|0.69||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.69|-2.72|0.2434
92411402|NCT00635219|184713531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.86||0.7246|TWO_SIDED|95.0|-2.0|1.39||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.39|-2.00|0.7246
92411403|NCT00635219|184713531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.87||0.0981|TWO_SIDED|95.0|-3.16|0.27||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.27|-3.16|0.0981
92230812|NCT01381094|184364928|SUPERIORITY||||||=|0.2065|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.2065
92411404|NCT00635219|184713532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.2285|TWO_SIDED|95.0|-0.46|0.11||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.11|-0.46|0.2285
92411405|NCT00635219|184713532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.1794|TWO_SIDED|95.0|-0.48|0.09||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.09|-0.48|0.1794
92411406|NCT00635219|184713532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1741|TWO_SIDED|95.0|-0.48|0.09||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.09|-0.48|0.1741
92411407|NCT00635219|184713532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.15||0.2247|TWO_SIDED|95.0|-0.46|0.11||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.11|-0.46|0.2247
92169171|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|0.68|STANDARD_ERROR_OF_MEAN|1.76||0.6974|TWO_SIDED|95.0|-2.77|4.14|||ANCOVA|||Week 56: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||4.14|-2.77|0.6974
92169172|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|2.64|STANDARD_ERROR_OF_MEAN|1.72||0.1261|TWO_SIDED|95.0|-0.75|6.04|||ANCOVA|||Week 56: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||6.04|-0.75|0.1261
92169173|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|1.78||0.406|TWO_SIDED|95.0|-4.96|2.01|||ANCOVA|||Week 16: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.01|-4.96|0.4060
92169174|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|1.78||0.848|TWO_SIDED|95.0|-3.84|3.15|||ANCOVA|||Week 16: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.15|-3.84|0.8480
92169175|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|1.94||0.923|TWO_SIDED|95.0|-4.0|3.63|||ANCOVA|||Week 24: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.63|-4.00|0.9230
92169176|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-1.51|STANDARD_ERROR_OF_MEAN|1.96||0.4421|TWO_SIDED|95.0|-5.36|2.34|||ANCOVA|||Week 24: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.34|-5.36|0.4421
92411408|NCT00635219|184713533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.86||0.7789|TWO_SIDED|95.0|-1.93|1.45||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.45|-1.93|0.7789
92411409|NCT00635219|184713533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.87||0.8121|TWO_SIDED|95.0|-1.91|1.5||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.50|-1.91|0.8121
92411410|NCT00635219|184713533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.87||0.8918|TWO_SIDED|95.0|-1.82|1.59||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.59|-1.82|0.8918
92411411|NCT00635219|184713533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.87||0.972|TWO_SIDED|95.0|-1.69|1.75||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.75|-1.69|0.9720
92411412|NCT04093024|184713540|OTHER||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.9858|TWO_SIDED|95.0|-0.8|0.8|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||0.8|-0.8|0.9858
92411413|NCT04093024|184713541|OTHER||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.8||0.9769|TWO_SIDED|95.0|-1.7|1.6|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||1.6|-1.7|0.9769
92377585|NCT02214225|184658208|NON_INFERIORITY_OR_EQUIVALENCE|For A/H3N2. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H3N2)|1.1|||||TWO_SIDED|95.0|-3.1|5.2||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||5.2|-3.1|
92377586|NCT02214225|184658208|NON_INFERIORITY_OR_EQUIVALENCE|For B/YAM. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/YAM)|-2.2|||||TWO_SIDED|95.0|-6.3|2.0||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||2.0|-6.3|
92377587|NCT02214225|184658208|NON_INFERIORITY_OR_EQUIVALENCE|For B/VIC. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/VIC)|1.2|||||TWO_SIDED|95.0|-3.7|6.2||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||6.2|-3.7|
92377588|NCT02214225|184658209|SUPERIORITY_OR_OTHER||GMT ratio (B/YAM) overall|1.47|||||TWO_SIDED|95.0|1.38|1.57|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT ratio was greater than 1.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||1.57|1.38|
92377589|NCT02214225|184658209|SUPERIORITY_OR_OTHER||GMT ratio (B/VIC) overall|1.57|||||TWO_SIDED|95.0|1.45|1.7|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT ratio was greater than 1.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||1.70|1.45|
92377590|NCT02214225|184658209|SUPERIORITY_OR_OTHER||GMT ratio (B/YAM) 18 through 64 years|1.67|||||TWO_SIDED|95.0|1.5|1.87|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT was greater than 1|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||1.87|1.50|
92377591|NCT02214225|184658209|SUPERIORITY_OR_OTHER||GMT ratio (B/VIC) 18 through 64 years|1.76|||||TWO_SIDED|95.0|1.55|2.01|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT was greater than 1|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||2.01|1.55|
92377592|NCT02214225|184658209|SUPERIORITY_OR_OTHER||GMT ratio (B/YAM) ≥ 65 years|1.3|||||TWO_SIDED|95.0|1.21|1.4|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT was greater than 1|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||1.40|1.21|
92377593|NCT02214225|184658209|SUPERIORITY_OR_OTHER||GMT ratio (B/VIC) ≥ 65 years|1.38|||||TWO_SIDED|95.0|1.27|1.51|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT was greater than 1|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||1.51|1.27|
92377594|NCT02214225|184658210|SUPERIORITY_OR_OTHER||Difference in SCR (B/YAM) overall|15.3|||||TWO_SIDED|95.0|12.1|18.6|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage||18.6|12.1|
92411414|NCT04093024|184713543|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.4||0.4442|TWO_SIDED|95.0|-1.8|4.0|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||4.0|-1.8|0.4442
92377595|NCT02214225|184658210|SUPERIORITY_OR_OTHER||Difference in SCR (B/VIC) overall|20.1|||||TWO_SIDED|95.0|16.5|23.6|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage||23.6|16.5|
92377596|NCT02214225|184658210|SUPERIORITY_OR_OTHER||Difference in SCR (B/YAM) 18 through 64y|22.9|||||TWO_SIDED|95.0|17.7|28.2|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage||28.2|17.7|
92377597|NCT02214225|184658210|SUPERIORITY_OR_OTHER||Difference in SCR (B/VIC) 18 through 64y|28.6|||||TWO_SIDED|95.0|23.1|34.1|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage||34.1|23.1|
92377598|NCT02214225|184658210|SUPERIORITY_OR_OTHER||Difference in SCR (B/YAM) ≥ 65 years|8.0|||||TWO_SIDED|95.0|4.3|11.6|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage||11.6|4.3|
92377599|NCT02214225|184658210|SUPERIORITY_OR_OTHER||Difference in SCR (B/VIC) ≥ 65 years|11.9|||||TWO_SIDED|95.0|7.7|16.0|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage.||16.0|7.7|
92377600|NCT01394614|184658228|SUPERIORITY_OR_OTHER||Incidence-rate difference|0.41|||||TWO_SIDED||||||||Difference between the incidence rate of exposed-to-vaccine cases (0.52) and that of unexposed cases (0.11) is 0.41 per 100,000 persons-years|||||
92377601|NCT01394614|184658228|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|4.32|||||TWO_SIDED|95.0|1.5|11.12|||||Risk of developing narcolepsy if exposed to H1N1 vaccination (using the 16-week post-vaccination period as reference).|||11.12|1.5|
92377602|NCT01669421|184658229|OTHER|Data was analyzed with multiple repeat ANOVA for all visits and paired samples were also evaluated.|||||<|0.05|||||||Kruskal-Wallis|||IL-2||||<0.05
92377603|NCT01669421|184658229|OTHER|Kruskal-Wallis||||||0.035|||||||Kruskal-Wallis|||IL-4||||0.035
92377604|NCT01669421|184658229|OTHER|||||||0.33|||||||Kruskal-Wallis|||IL-8||||0.33
92377605|NCT01669421|184658229|OTHER|||||||0.68|||||||Kruskal-Wallis|||IL-9||||0.68
92377606|NCT01669421|184658229|OTHER|||||||0.02|||||||Kruskal-Wallis|||IL-17||||0.020
92377607|NCT01669421|184658229|OTHER|||||||0.021|||||||Kruskal-Wallis|||FGF||||0.021
92377608|NCT01669421|184658229|OTHER|||||||0.02|||||||Kruskal-Wallis|||Eotaxin||||0.02
92411415|NCT04093024|184713546|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.8||0.882|TWO_SIDED|95.0|-1.5|1.8|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||1.8|-1.5|0.8820
92377609|NCT01669421|184658229|OTHER|||||||0.045|||||||Kruskal-Wallis|||GM-CSF||||0.045
92377610|NCT01669421|184658229|OTHER|||||||0.47|||||||Kruskal-Wallis|||IL15||||0.47
92377611|NCT01669421|184658229|OTHER|||||||0.9|||||||Kruskal-Wallis|||IL-1a||||0.90
92377612|NCT01669421|184658229|OTHER|||||||0.8|||||||Kruskal-Wallis|||IL18||||0.80
92377613|NCT01669421|184658229|OTHER|||||||0.027|||||||Kruskal-Wallis|||M-CSF||||0.027
92377614|NCT01669421|184658230|OTHER|||||||0.07|||||||Kruskal-Wallis|||No power calculation and this is an exploratory pilot analysis We expected cytokines to decrease after subjects receive double dose and a rebound after administering standard dose.||||0.07
92377615|NCT01669421|184658232|OTHER|between Week 4 and Week 8||||||0.03|||||||t-test, 2 sided|||Desmosine (DES) and isodesmosine (IDES) are used as indicator of elastin degradation. Levels of DES/IDES were measured using high-performance liquid chromatography and tandem mass spectrometry.||||0.03
92377616|NCT01669421|184658232|OTHER|||||||0.33|||||||t-test, 2 sided|||between Week 8 and Week 12||||0.33
92377617|NCT01669421|184658232|OTHER|||||||0.029|||||||Kruskal-Wallis|||between Week 4 and Week 12||||0.029
92377618|NCT02961790|184658251|SUPERIORITY|||||||0.0041|||||||Kruskal-Wallis|||||||0.0041
92377619|NCT02961790|184658251|SUPERIORITY|||||||0.0001|||||||Kruskal-Wallis|||||||0.0001
92377620|NCT02961790|184658252|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Adjusted for effects specified in outcome measure description.||||||<0.0001
92377621|NCT02961790|184658253|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Adjusted for effects specified in outcome measure description.||||||<0.0001
92377622|NCT02961790|184658254|SUPERIORITY|||||||0.0174|||||||Kruskal-Wallis|||||||0.0174
92377623|NCT02961790|184658254|SUPERIORITY|||||||0.0279|||||||Kruskal-Wallis|||||||0.0279
92377624|NCT02961790|184658255|SUPERIORITY|||||||0.0011|||||||Kruskal-Wallis|||||||0.0011
92411416|NCT04093024|184713547|OTHER||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|1.6||0.9652|TWO_SIDED|95.0|-3.2|3.3|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||3.3|-3.2|0.9652
92411417|NCT04093024|184713548|OTHER||Adjusted mean difference|-2.6|STANDARD_ERROR_OF_MEAN|3.1||0.4084|TWO_SIDED|95.0|-9.3|4.0|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||4.0|-9.3|0.4084
92411418|NCT04093024|184713549|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.8||0.9928|TWO_SIDED|95.0|-1.6|1.6|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||1.6|-1.6|0.9928
92230813|NCT01381094|184364928|SUPERIORITY||||||=|0.1807|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.1807
92230814|NCT01381094|184364928|SUPERIORITY||||||=|0.7869|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.7869
92377625|NCT02961790|184658255|SUPERIORITY|||||||0.0025|||||||Kruskal-Wallis|||||||0.0025
92377626|NCT00300482|184658323|SUPERIORITY_OR_OTHER||||||<|0.001||||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide \>99% power to detect a 17% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
92377627|NCT00300482|184658323|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide \>99% power to detect a 17% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
92377628|NCT00300482|184658324|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide 92% power to detect a 5% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
92377629|NCT00300482|184658324|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide 92% power to detect a 5% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
92377630|NCT00300482|184658325|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide 99% power to detect a 43% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
92377631|NCT00300482|184658325|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide 99% power to detect a 43% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
92377632|NCT00434759|184658354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.82|||<|0.05||95.0||||priori threshold for statistical significance is 0.05 p-value is not adjusted for multiple comparisons|ANOVA|We report the interaction effect.|The reported interaction effect is significant (p\< .05) in favour of standard therapy.|||||<0.05
92377633|NCT00434759|184658355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24|||<|0.05||95.0||||priori threshold for statistical significance is 0.05 p-value ist not adjusted for multiple comparisons|ANOVA|we report the interaction effect|The reported interaction effect is not significant.|||||<0.05
92377634|NCT00434759|184658356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|||<|0.05||95.0||||p-value is not adjusted for multiple comparisons|ANOVA|we report the interaction effect|The reported interaction effect is not significant.|||||<0.05
92377635|NCT00434759|184658357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.43|||<|0.05||95.0||||priori threshold for statistical significance is 0.05 p-value ist not adjusted for multiple comparisons|ANOVA|we report the interaction effect|The reported interaction is not significant.|||||<0.05
92377636|NCT00434759|184658358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.86|||<|0.05||95.0||||priori threshold for statistical significance ist 0.05 p-value ist nor adjusted for multiple comparisons|ANOVA|we report the interaction effect|The reported interaction effect is significant (p \< .05) in favour of standard therapy|||||<0.05
92377637|NCT01318070|184658368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.179|||||TWO_SIDED|95.0|-0.224|-0.135||||||||-0.135|-0.224|
92377638|NCT01318070|184658368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-0.225|-0.135||||||||-0.135|-0.225|
92377639|NCT01318070|184658369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.363|||||TWO_SIDED|95.0|-0.434|-0.292||||||||-0.292|-0.434|
92377640|NCT01318070|184658369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.359|||||TWO_SIDED|95.0|-0.432|-0.287||||||||-0.287|-0.432|
92377641|NCT01318070|184658370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.588|||||TWO_SIDED|95.0|-0.692|-0.484||||||||-0.484|-0.692|
92230815|NCT01381094|184364928|SUPERIORITY||||||=|0.4743|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.4743
92230816|NCT01381094|184364928|SUPERIORITY||||||=|0.6407|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.6407
92230817|NCT01381094|184364929|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
92377642|NCT01318070|184658370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.635|||||TWO_SIDED|95.0|-0.743|-0.526||||||||-0.526|-0.743|
92377643|NCT01318070|184658371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.83|||||TWO_SIDED|95.0|-13.2|-4.47||||||||-4.47|-13.20|
92377644|NCT01318070|184658371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.06|||||TWO_SIDED|95.0|-17.86|-8.26||||||||-8.26|-17.86|
92377645|NCT01318070|184658372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.24|||||TWO_SIDED|95.0|-16.22|-6.25||||||||-6.25|-16.22|
92377646|NCT01318070|184658372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.82|||||TWO_SIDED|95.0|-20.0|-9.63||||||||-9.63|-20.00|
92377647|NCT01318070|184658373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.88|||||TWO_SIDED|95.0|-18.09|-7.68||||||||-7.68|-18.09|
92377648|NCT01318070|184658373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.08|||||TWO_SIDED|95.0|-22.64|-11.53||||||||-11.53|-22.64|
92377649|NCT01318070|184658374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.46|||||TWO_SIDED|95.0|-18.51|-6.4||||||||-6.40|-18.51|
92377650|NCT01318070|184658374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.49|||||TWO_SIDED|95.0|-22.78|-10.19||||||||-10.19|-22.78|
92377651|NCT01318070|184658375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.31|||||TWO_SIDED|95.0|-21.51|-3.1||||||||-3.10|-21.51|
92377652|NCT01318070|184658375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.19|||||TWO_SIDED|95.0|-30.43|-11.95||||||||-11.95|-30.43|
92377653|NCT01318070|184658376|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.717|||||TWO_SIDED|95.0|-0.848|-0.586||||||||-0.586|-0.848|
92377654|NCT01318070|184658376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.773|||||TWO_SIDED|95.0|-0.913|-0.634||||||||-0.634|-0.913|
92411419|NCT04093024|184713550|OTHER||Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|1.4||0.6366|TWO_SIDED|95.0|-2.3|3.6|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||3.6|-2.3|0.6366
92411420|NCT04093024|184713551|OTHER||Adjusted mean difference|0.4|STANDARD_ERROR_OF_MEAN|2.3||0.8823|TWO_SIDED|95.0|-5.2|5.9|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||5.9|-5.2|0.8823
92411421|NCT04093024|184713552|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|1.2052|STANDARD_ERROR_OF_MEAN|2.2491||0.5962|TWO_SIDED|95.0|-3.3966|5.807|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||5.8070|-3.3966|0.5962
92411422|NCT04093024|184713553|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|1.7733|STANDARD_ERROR_OF_MEAN|3.1424||0.5776|TWO_SIDED|95.0|-4.7015|8.2481|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||8.2481|-4.7015|0.5776
92377655|NCT00042432|184658377|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.67||||0.006||95.0|1.6|20.06|||Cochran-Mantel-Haenszel|Adjusted for baseline glomenular filtration rate (GFR) strata|Logit estimates|||20.06|1.60|0.006
92377656|NCT00042432|184658378|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|Adusted for baseline glomerular filtration rate (GFR) strata||||||<0.001
92377657|NCT00432744|184658396|SUPERIORITY_OR_OTHER||Kendall's Tau B|0.015|STANDARD_ERROR_OF_MEAN|0.23||0.95|TWO_SIDED|95.0|-0.44|0.48||Two-sided Test|Wilcoxon (Mann-Whitney)||Positive value of Tau-B would favor CoQ.|Study intended to accrue 40 subjects, but only obtained 14 evaluable on this endpoint.||0.48|-0.44|0.95
92377658|NCT00432744|184658397|SUPERIORITY_OR_OTHER||Kendall's Tau B|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.18|TWO_SIDED|95.0|-0.12|0.72|||Wilcoxon (Mann-Whitney)||A positive value would favor CoQ.|Study intended to accrue 40 subjects, but only obtained 14 evaluable on this endpoint.||0.72|-0.12|0.18
92377659|NCT00432744|184658398|SUPERIORITY_OR_OTHER|||||||0.42||||||The Hotelling T-sq=1.74 and 42% of the rerandomizations to groups of 7 and 8 had Hotelling T-sq of at least 1.74. This is the standard method for permutation tests. The large sample null is chi-sq with 2 df, which has a mean=2.|Non-parametric Hotelling T-square|||The actual study was powered to have 40 participants but only 24 participated and of these only 15 had outcome data.||||0.42
92377660|NCT01735708|184658399|SUPERIORITY|ITT analysis using multiple imputation by chained equation with 50 fully populated data sets.|Mean Difference (Net)|-1.31|STANDARD_ERROR_OF_MEAN|0.493||0.008|TWO_SIDED|95.0|-2.28|-0.34||A priori threshold for significance was two-tailed p = .05.|Mixed Models Analysis|Standard errors were based on robust Huber-White variance estimator.|standard error of difference in means|||-0.34|-2.28|0.008
92377661|NCT01735708|184658400|SUPERIORITY|Intent to treat analysis using multiple imputation by chained equations with 50 fully populated data sets.|Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|0.495||0.251|TWO_SIDED|95.0|-1.53|0.4||A priori threshold for significance was two-tailed p = .05.|Mixed Models Analysis|Standard errors were based on robust Huber-White variance estimator.||||0.40|-1.53|0.251
92377662|NCT01735708|184658401|SUPERIORITY|Intent to treat analysis using multiple imputation by chained equations with 50 fully populated data sets.|Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.75||0.844|TWO_SIDED|95.0|-1.32|1.61||A priori threshold for significance was two-tailed p = .05.|Mixed Models Analysis|Standard errors were based on robust Huber-White variance estimator.|Standard error of difference in means.|||1.61|-1.32|0.844
92230818|NCT01381094|184364929|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0002
92230819|NCT01381094|184364929|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
92230820|NCT01381094|184364929|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
92230821|NCT01381094|184364929|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
92230822|NCT01381094|184364930|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0002
92377663|NCT01735708|184658402|SUPERIORITY|Intent to treat analysis using multiple imputation by chained equations with 50 fully populated data sets.|Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.836||0.545|TWO_SIDED|95.0|-2.18|1.15||A priori threshold for significance was two-tailed p = .05.|Mixed Models Analysis|Standard errors were based on robust Huber-White variance estimator.|Standard error of difference in means.|||1.15|-2.18|0.545
92377664|NCT00461305|184658403|SUPERIORITY_OR_OTHER||Incidence on one treatment arm|13.4|||||TWO_SIDED|95.0|9.73|17.77|||Binominal parameter by exact method||No group comparison were planned. Binomial parameter on each treatment arm was estimated by exact method.|Exact 95% confident intervals were calculated using F-distribution by treatment group. If the upper confidence limit is lower than 27.56% (threshold incidence), the treatment arm will be concluded to be acceptable. No group comparison was planned.||17.77|9.73|
92230823|NCT01381094|184364930|SUPERIORITY||||||=|0.0004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0004
92377665|NCT00461305|184658403|SUPERIORITY_OR_OTHER||Incidence on one treatment arm|7.1||||||95.0|1.98|17.29|||Binominal parameter by exact method|||Exact 95% confident intervals were calculated using F-distribution by treatment group.||17.29|1.98|
92377666|NCT01294462|184658456|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|0.94|2.53||No P-value provided since the objective was not to perform formal statistical comparison.|Regression, Cox|Analyzed based on proportional hazards model including treatment group only.|Ticagrelor/Placebo|No formal statistical comparison.||2.53|0.94|
92377667|NCT01294462|184658457|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.47|||||TWO_SIDED|95.0|0.88|2.44||No P-value provided since the objective was not to perform formal statistical comparison.|Regression, Cox|Analyzed based on proportional hazards model including treatment group only.|Ticagrelor/Placebo|No formal statistical comparison based on hypothesis test.||2.44|0.88|
92377668|NCT01294462|184658458|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.72|||||TWO_SIDED|95.0|1.23|2.4||No P-value provided since the objective was not to perform formal statistical comparison.|Regression, Cox|Analyzed based on proportional hazards model including treatment group only.|Ticagrelor/Placebo|No formal statistical comparison.||2.40|1.23|
92377669|NCT01294462|184658459|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51|||||TWO_SIDED|95.0|0.91|2.5||No P-value provided since the objective was not to perform formal statistical comparison.|Regression, Cox|Analyzed based on proportional hazards model including treatment group only.|Ticagrelor/Placebo|No formal statistical comparison based on hypothesis test.||2.50|0.91|
92230824|NCT01381094|184364930|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0002
92230825|NCT01381094|184364930|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
92411423|NCT04093024|184713554|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|-0.134|STANDARD_ERROR_OF_MEAN|4.316||0.9755|TWO_SIDED|95.0|-8.975|8.707|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||8.707|-8.975|0.9755
92411424|NCT04093024|184713555|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|3.453|STANDARD_ERROR_OF_MEAN|5.225||0.514|TWO_SIDED|95.0|-7.25|14.157|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||14.157|-7.250|0.5140
92230826|NCT01381094|184364930|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0002
92230827|NCT01381094|184364931|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
92230828|NCT01381094|184364931|SUPERIORITY||||||=|0.0043|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0043
92240275|NCT00051558|184383972|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 1|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92230829|NCT01381094|184364931|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
92230830|NCT01381094|184364931|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
92230831|NCT01381094|184364931|SUPERIORITY||||||=|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0001
92230832|NCT01381094|184364932|SUPERIORITY||||||=|0.0027|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0027
92230833|NCT01381094|184364932|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
92230834|NCT01381094|184364932|SUPERIORITY||||||=|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0001
92230835|NCT01381094|184364932|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
92230836|NCT01381094|184364932|SUPERIORITY||||||=|0.0005|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0005
92230837|NCT01381094|184364938|SUPERIORITY||||||=|0.6051|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.6051
92230838|NCT01381094|184364938|SUPERIORITY||||||=|0.5197|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.5197
92377670|NCT00085254|184658462|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.4|TWO_SIDED|95.0|0.5|1.3|||Regression, Cox|||||1.3|0.5|0.4
92230839|NCT01381094|184364938|SUPERIORITY||||||=|0.1073|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.1073
92230840|NCT01381094|184364938|SUPERIORITY||||||=|0.1321|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.1321
92411425|NCT04093024|184713556|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|1.03|STANDARD_ERROR_OF_MEAN|3.358||0.7613|TWO_SIDED|95.0|-5.848|7.908|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||7.908|-5.848|0.7613
92230841|NCT01381094|184364938|SUPERIORITY||||||=|0.4358|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.4358
92411426|NCT04093024|184713557|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|5.049||0.9468|TWO_SIDED|95.0|-10.026|10.707|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||10.707|-10.026|0.9468
92411427|NCT04093024|184713558|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|2.31|STANDARD_ERROR_OF_MEAN|1.33||0.0908|TWO_SIDED|95.0|-0.39|5.02|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||5.02|-0.39|0.0908
92230842|NCT01381094|184364938|SUPERIORITY||||||=|0.8109|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.8109
92230843|NCT01381094|184364938|SUPERIORITY||||||=|0.2575|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.2575
92230844|NCT01381094|184364938|SUPERIORITY||||||=|0.8361|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.8361
92230845|NCT01381094|184364938|SUPERIORITY||||||=|0.0294|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0294
92240276|NCT00051558|184383972|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value at Month 6|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92230846|NCT01381094|184364938|SUPERIORITY||||||=|0.8809|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.8809
92377671|NCT00085254|184658464|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39||||0.0001|TWO_SIDED|95.0|0.3|0.5||adjusted for age: p=.0003, kps: p=.004; and surgical procedure: p=.003|Log Rank|||Primary endpoint death - defined from histological diagnosis to death. we assume pt in the study will have overall failure rate of 0.56 per person-year of f/up, a 30% reduction compared to hazard rate of 0.8 per person-year in historical NABTT database. Expected hazard ratio is 0.7 and cohort will produce 63 events among total of 94 pt planned f/up. One-sided test, have 95% power to detect observed ratio of 0.7 at alpha level of 0.1, or we have 88% power at alpha of 0.5 statistical significant||0.5|0.3|0.0001
92230847|NCT01381094|184364938|SUPERIORITY||||||=|0.4971|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.4971
92230848|NCT01381094|184364938|SUPERIORITY||||||=|0.3994|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.3994
92230849|NCT01381094|184364938|SUPERIORITY||||||=|0.5022|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.5022
92230850|NCT01381094|184364938|SUPERIORITY||||||=|0.9916|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.9916
92230851|NCT01381094|184364938|SUPERIORITY||||||=|0.2292|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.2292
92230852|NCT01381094|184364938|SUPERIORITY||||||=|0.1331|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.1331
92230853|NCT01381094|184364938|SUPERIORITY||||||=|0.5518|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.5518
92278049|NCT00782509|184458139|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.241|STANDARD_ERROR_OF_MEAN|0.222||0.2344|TWO_SIDED|95.0|0.873|1.763|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.763|0.873|0.2344
92377672|NCT04342689|184658465|SUPERIORITY|||||||0.99|||||||Chi-squared|||||||0.99
92377673|NCT04342689|184658466|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||||||0.52
92411428|NCT04093024|184713559|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|2.28|STANDARD_ERROR_OF_MEAN|1.39||0.1222|TWO_SIDED|95.0|-0.69|5.25|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||5.25|-0.69|0.1222
92230854|NCT01381094|184364938|SUPERIORITY||||||=|0.9032|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9032
92230855|NCT01381094|184364938|SUPERIORITY||||||=|0.2387|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.2387
92230856|NCT01381094|184364938|SUPERIORITY||||||=|0.4251|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.4251
92230857|NCT01381094|184364939|SUPERIORITY||||||=|0.0448|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0448
92230858|NCT01381094|184364939|SUPERIORITY||||||=|0.0004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0004
92230859|NCT01381094|184364939|SUPERIORITY||||||=|0.0813|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0813
92278050|NCT00782509|184458140|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|STANDARD_ERROR_OF_MEAN|0.438||0.9035|TWO_SIDED|95.0|0.463|2.38|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||2.380|0.463|0.9035
92377674|NCT04342689|184658467|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
92377675|NCT01460407|184658468|SUPERIORITY_OR_OTHER||Ratio of geometric LS mean|1.28|||||TWO_SIDED|90.0|1.16|1.42|||||Ratio of LY2216684 and Clarithromycin to LY2216684|||1.42|1.16|
92230860|NCT01381094|184364939|SUPERIORITY||||||=|0.0038|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0038
92230861|NCT01381094|184364939|SUPERIORITY||||||=|0.6861|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.6861
92230862|NCT01381094|184364939|SUPERIORITY||||||=|0.0553|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0553
92230863|NCT01381094|184364939|SUPERIORITY||||||=|0.0004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0004
92230864|NCT01381094|184364939|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||<0.0001
92230865|NCT01381094|184364939|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||<0.0001
92230866|NCT01381094|184364939|SUPERIORITY||||||=|0.7379|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.7379
92230867|NCT01381094|184364939|SUPERIORITY||||||=|0.072|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0720
92230868|NCT01381094|184364939|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0002
92230869|NCT01381094|184364939|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
92230870|NCT01381094|184364939|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
92230871|NCT01381094|184364939|SUPERIORITY||||||=|0.6781|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.6781
92411429|NCT04093024|184713560|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|7.2|STANDARD_ERROR_OF_MEAN|28.2||0.8012|TWO_SIDED|95.0|-50.7|65.0|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||65.0|-50.7|0.8012
92230872|NCT01381094|184364939|SUPERIORITY||||||=|0.0524|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0524
92230873|NCT01381094|184364939|SUPERIORITY||||||=|0.0367|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0367
92230874|NCT01381094|184364939|SUPERIORITY||||||=|0.6671|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.6671
92230875|NCT01381094|184364939|SUPERIORITY||||||=|0.6861|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.6861
92230876|NCT01381094|184364939|SUPERIORITY||||||=|0.9012|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9012
92230877|NCT01381094|184364940|SUPERIORITY||||||=|0.3953|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.3953
92230878|NCT01381094|184364940|SUPERIORITY||||||=|0.085|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0850
92240277|NCT00051558|184383972|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value at Month 18|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92230879|NCT01381094|184364940|SUPERIORITY||||||=|0.6045|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.6045
92377676|NCT01460407|184658469|SUPERIORITY_OR_OTHER||Ratio of geometric LS mean|1.21|||||TWO_SIDED|90.0|1.12|1.31|||||Ratio of LY2216684 and Clarithromycin to LY2216684|||1.31|1.12|
92377677|NCT01460407|184658470|SUPERIORITY_OR_OTHER||Median of paired differences|0.0||||0.7656|TWO_SIDED|90.0|-0.5|0.5|||Wilcoxon (Mann-Whitney)||LY2216684 and Clarithromycin minus (-) LY2216684|||0.50|-0.50|0.7656
92377678|NCT02818114|184658472|OTHER|Assessment of number of PE sessions attended, review of direction of change in PTSD Checklist scores||||||||||||||||This is a single-arm feasibility study. With N=8, formal hypothesis testing is not possible. We were assessing the extent to which veterans would be willing to engage in the intervention, and if the direction of change in symptoms is still in the expected direction when peer support services are added. Outcomes are reported more qualitatively.|As a feasibility trial, tests of statistical significance are not appropriate.|||
92377679|NCT00844805|184658480|SUPERIORITY_OR_OTHER||Difference in Percentages|14.9|||=|0.0884|TWO_SIDED|95.0|-1.7|31.5|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||31.5|-1.7|=0.0884
92377680|NCT00844805|184658481|SUPERIORITY_OR_OTHER||Difference in Percentages|21.7|||=|0.0013|TWO_SIDED|95.0|11.0|32.5|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||32.5|11.0|=0.0013
92377681|NCT00844805|184658482|SUPERIORITY_OR_OTHER||Difference in Percentages|18.1|||=|0.0004|TWO_SIDED|95.0|10.7|25.5|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||25.5|10.7|=0.0004
92377682|NCT00844805|184658483|SUPERIORITY_OR_OTHER||Difference in Percentages|10.0|||=|0.5005|TWO_SIDED|95.0|-11.7|31.7|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||31.7|-11.7|=0.5005
92377683|NCT00844805|184658484|SUPERIORITY_OR_OTHER||Difference in Percentages|-2.5|||=|1|TWO_SIDED|95.0|-14.9|9.9|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||9.9|-14.9|=1.0000
92377684|NCT00844805|184658485|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0|||=|1|TWO_SIDED|95.0|-6.8|6.8|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||6.8|-6.8|=1.0000
92377685|NCT00844805|184658486|SUPERIORITY_OR_OTHER||||||=|0.3802||95.0|||||Log Rank|||||||=0.3802
92377686|NCT00844805|184658487|SUPERIORITY_OR_OTHER||Difference in Percentages|-5.0|||=|0.6153|TWO_SIDED|95.0|-14.5|4.5|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||4.5|-14.5|=0.6153
92377687|NCT00844805|184658488|SUPERIORITY_OR_OTHER||Difference in Percentages|18.4|||=|0.0263|TWO_SIDED|95.0|2.5|34.3|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||34.3|2.5|=0.0263
92377688|NCT00844805|184658489|SUPERIORITY_OR_OTHER||Difference in Percentages|8.4|||=|0.3011|TWO_SIDED|95.0|-6.0|22.8|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||22.8|-6.0|=0.3011
92411430|NCT04093024|184713561|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|-32.9|STANDARD_ERROR_OF_MEAN|33.8||0.3401|TWO_SIDED|95.0|-103.1|37.2|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||37.2|-103.1|0.3401
92230880|NCT01381094|184364940|SUPERIORITY||||||=|0.7743|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.7743
92230881|NCT01381094|184364940|SUPERIORITY||||||=|0.5326|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.5326
92377689|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the skull from baseline to 3 months.||||0.0078
92377690|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the skull from baseline to 18 months.||||0.0078
92377691|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0313||95.0||||p-value is for skull, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the skull from baseline to 24 months.||||0.0313
92377692|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the skull from 3 months to 18 months.||||0.0078
92377693|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0156||95.0||||p-value is for skull, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the skull from 18 months to 24 months.||||0.0156
92377694|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0156||95.0||||p-value is for mandible, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the mandible from baseline to 3 months.||||0.0156
92411431|NCT00329797|184713602|SUPERIORITY|||||||0.95|||||||Log Rank|||The study is designed to show a 40% relative reduction in the yearly ABF hazard rate, equivalent to an improvement in a 3-year FABF rate from 88% to 92.6%. A sample size of 1030 analyzable patients with a one-sided log-rank test at α = 0.05, was calculated to provide 80% statistical power, with one interim analysis and a final analysis for efficacy using Haybittle-Peto boundaries.||||0.95
92230882|NCT01381094|184364940|SUPERIORITY||||||=|0.3465|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.3465
92230883|NCT01381094|184364940|SUPERIORITY||||||=|0.2756|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.2756
92230884|NCT01381094|184364940|SUPERIORITY||||||=|0.1414|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.1414
92230885|NCT01381094|184364940|SUPERIORITY||||||=|0.6941|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.6941
92230886|NCT01381094|184364940|SUPERIORITY||||||=|0.9403|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.9403
92230887|NCT01381094|184364940|SUPERIORITY||||||=|0.831|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.8310
92230888|NCT01381094|184364940|SUPERIORITY||||||=|0.0654|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0654
92230889|NCT01381094|184364940|SUPERIORITY||||||=|0.4169|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.4169
92230890|NCT01381094|184364940|SUPERIORITY||||||=|0.0103|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0103
92230891|NCT01381094|184364940|SUPERIORITY||||||=|0.3968|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.3968
92230892|NCT01381094|184364940|SUPERIORITY||||||=|0.0325|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0325
92377695|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for mandible, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the mandible from baseline to 18 months.||||0.0078
92377696|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.1563||95.0||||p-value is for mandible, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the mandible from baseline to 24 months.||||0.1563
92230893|NCT01381094|184364940|SUPERIORITY||||||=|0.2151|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.2151
92377697|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.4375||95.0||||p-value is for mandible, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the mandible from 3 months to 18 months.||||0.4375
92377698|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0781||95.0||||p-value is for mandible, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the mandible from 18 months to 24 months.||||0.0781
92230894|NCT01381094|184364940|SUPERIORITY||||||=|0.8436|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.8436
92230895|NCT01381094|184364940|SUPERIORITY||||||=|0.5962|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.5962
92230896|NCT01381094|184364940|SUPERIORITY||||||=|0.3957|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.3957
92230897|NCT01381094|184364941|SUPERIORITY||||||=|0.0294|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0294
92230898|NCT01381094|184364941|SUPERIORITY||||||=|0.0021|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0021
92411432|NCT00329797|184713603|SUPERIORITY||||||<|0.0001||||||significance level = 0.05|t-test, 2 sided|||Lumbar||||<0.0001
92240278|NCT00051558|184383972|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value at Month 36|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
92411433|NCT00329797|184713603|SUPERIORITY|||||||0.47||||||significance level = 0.05|t-test, 2 sided|||Hip - right||||0.47
92411434|NCT00329797|184713603|SUPERIORITY|||||||0.0002||||||significance level = 0.05|t-test, 2 sided|||Hip - left||||0.0002
92411435|NCT00329797|184713603|SUPERIORITY|||||||0.076||||||significance level = 0.05|t-test, 2 sided|||Femoral - right||||0.076
92411436|NCT00329797|184713603|SUPERIORITY|||||||0.0007||||||significance level = 0.05|t-test, 2 sided|||Femoral - left||||0.0007
92411437|NCT00329797|184713604|SUPERIORITY|||||||0.33||||||significance level = 0.01|t-test, 2 sided|||Physical subscale||||0.33
92411438|NCT00329797|184713604|SUPERIORITY|||||||0.82||||||significance level = 0.01|t-test, 2 sided|||Social subscale||||0.82
92411439|NCT00329797|184713604|SUPERIORITY|||||||0.51||||||significance level = 0.01|t-test, 2 sided|||Emotional subscale||||0.51
92411440|NCT00329797|184713604|SUPERIORITY|||||||0.25||||||significance level = 0.01|t-test, 2 sided|||Functional subscale||||0.25
92411441|NCT00329797|184713604|SUPERIORITY|||||||0.63||||||significance level = 0.01|t-test, 2 sided|||Total||||0.63
92411442|NCT00776919|184713606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92230899|NCT01381094|184364941|SUPERIORITY||||||=|0.0004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0004
92377699|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0371||95.0||||p-value is for spine, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the spine from baseline to 3 months.||||0.0371
92230900|NCT01381094|184364941|SUPERIORITY||||||=|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0001
92230901|NCT01381094|184364941|SUPERIORITY||||||=|0.0925|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0925
92377700|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0137||95.0||||p-value is for spine, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the spine from baseline to 18 months.||||0.0137
92377701|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0547||95.0||||p-value is for spine, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the spine from baseline to 24 months.||||0.0547
92377702|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0488||95.0||||p-value is for spine, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the spine from 3 months to 18 months.||||0.0488
92377703|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.3594||95.0||||p-value is for spine, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the spine from 18 months to 24 months.||||0.3594
92377704|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0488||95.0||||p-value is for pelvis, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the pelvis from baseline to 3 months.||||0.0488
92377705|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.1055||95.0||||p-value is for pelvis, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the pelvis from baseline to 18 months.||||0.1055
92377706|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.9102||95.0||||p-value is for pelvis, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the pelvis from baseline to 24 months.||||0.9102
92377707|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.1934||95.0||||p-value is for pelvis, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the pelvis from 3 months to 18 months.||||0.1934
92377708|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.1641||95.0||||p-value is for pelvis, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the pelvis from 18 months to 24 months.||||0.1641
92377709|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0137||95.0||||p-value is for upper extremities, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the upper extremities from baseline to 3 months.||||0.0137
92377710|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value is for upper extremities, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the upper extremities from baseline to 18 months.||||0.0020
92377711|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value is for upper extremities, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the upper extremities from baseline to 24 months.||||0.0039
92377712|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||p-value is for upper extremities, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the upper extremities from 3 months to 18 months.||||0.0273
92377713|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0547||95.0||||p-value is for upper extremities, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the upper extremities from 18 months to 24 months.||||0.0547
92230902|NCT01381094|184364941|SUPERIORITY||||||=|0.0433|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0433
92377714|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0195||95.0||||p-value is for lower extremities, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the lower extremities from baseline to 3 months.||||0.0195
92377715|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0059||95.0||||p-value is for lower extremities, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the lower extremities from baseline to 18 months.||||0.0059
92411443|NCT00776919|184713606|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||Cochran-Mantel-Haenszel|||||||0.016
92411444|NCT00776919|184713606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92240279|NCT00051558|184383973|SUPERIORITY_OR_OTHER|||||||0.212||95.0||||p-value for Any Fracture|Cochran-Mantel-Haenszel|||||||0.212
92240280|NCT00051558|184383973|SUPERIORITY_OR_OTHER|||||||0.843||95.0||||p-value for Nonvertebral Fracture|Cochran-Mantel-Haenszel|||||||0.843
92230903|NCT01381094|184364941|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||<0.0001
92230904|NCT01381094|184364941|SUPERIORITY||||||=|0.0005|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0005
92230905|NCT01381094|184364941|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||<0.0001
92230906|NCT01381094|184364941|SUPERIORITY||||||=|0.1626|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.1626
92230907|NCT01381094|184364941|SUPERIORITY||||||=|0.0366|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0366
92230908|NCT01381094|184364941|SUPERIORITY||||||=|0.0004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0004
92230909|NCT01381094|184364941|SUPERIORITY||||||=|0.0012|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0012
92230910|NCT01381094|184364941|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
92230911|NCT01381094|184364941|SUPERIORITY||||||=|0.1779|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.1779
92230912|NCT01381094|184364941|SUPERIORITY||||||=|0.5867|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.5867
92230913|NCT01381094|184364941|SUPERIORITY||||||=|0.1306|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.1306
92230914|NCT01381094|184364941|SUPERIORITY||||||=|0.9889|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9889
92230915|NCT01381094|184364941|SUPERIORITY||||||=|0.2026|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.2026
92230916|NCT01381094|184364941|SUPERIORITY||||||=|0.5703|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.5703
92230917|NCT01381094|184364942|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||<0.0001
92230918|NCT01381094|184364942|SUPERIORITY||||||=|0.0092|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0092
92230919|NCT01381094|184364942|SUPERIORITY||||||=|0.0012|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0012
92230920|NCT01381094|184364942|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||<0.0001
92230921|NCT01381094|184364942|SUPERIORITY||||||=|0.1157|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.1157
92230922|NCT01381094|184364942|SUPERIORITY||||||=|0.0069|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0069
92230923|NCT01381094|184364942|SUPERIORITY||||||=|0.0034|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0034
92230924|NCT01381094|184364942|SUPERIORITY||||||=|0.0067|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0067
92230925|NCT01381094|184364942|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||<0.0001
92230926|NCT01381094|184364942|SUPERIORITY||||||=|0.0401|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0401
92230927|NCT01381094|184364942|SUPERIORITY||||||=|0.0042|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0042
92230928|NCT01381094|184364942|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
92230929|NCT01381094|184364942|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0002
92230930|NCT01381094|184364942|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
92230931|NCT01381094|184364942|SUPERIORITY||||||=|0.0422|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0422
92230932|NCT01381094|184364942|SUPERIORITY||||||=|0.0232|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0232
92230933|NCT01381094|184364942|SUPERIORITY||||||=|0.0243|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0243
92230934|NCT01381094|184364942|SUPERIORITY||||||=|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0001
92230935|NCT01381094|184364942|SUPERIORITY||||||=|0.1089|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.1089
92230936|NCT01381094|184364942|SUPERIORITY||||||=|0.0833|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0833
92230937|NCT01381094|184364944|SUPERIORITY||||||=|0.5456|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||=0.5456
92230938|NCT01381094|184364944|SUPERIORITY||||||=|0.0053|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||=0.0053
92230939|NCT01381094|184364944|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||<0.0001
92230940|NCT01381094|184364944|SUPERIORITY||||||=|0.004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||=0.0040
92230941|NCT01381094|184364944|SUPERIORITY||||||=|0.2017|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||=0.2017
92230942|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.562|STANDARD_ERROR_OF_MEAN|0.228|||TWO_SIDED|95.0|0.357|0.885||||||Comparison at 6 h post first dose||0.885|0.357|
92230943|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.612|STANDARD_ERROR_OF_MEAN|0.281|||TWO_SIDED|95.0|0.349|1.072||||||Comparison at 12 h post first dose||1.072|0.349|
92230944|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.518|STANDARD_ERROR_OF_MEAN|0.319|||TWO_SIDED|95.0|0.274|0.981||||||Comparison at 18 h post first dose||0.981|0.274|
92230945|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.416|STANDARD_ERROR_OF_MEAN|0.326|||TWO_SIDED|95.0|0.217|0.796||||||Comparison at 24 h post first dose||0.796|0.217|
92230946|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.517|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|0.262|1.021||||||Comparison at 48 h post first dose||1.021|0.262|
92230947|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.661|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|0.291|1.503||||||Comparison at 72 h post first dose||1.503|0.291|
92230948|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.908|STANDARD_ERROR_OF_MEAN|0.454|||TWO_SIDED|95.0|0.366|2.254||||||Comparison at 96 h post first dose||2.254|0.366|
92230949|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.768|STANDARD_ERROR_OF_MEAN|0.195|||TWO_SIDED|95.0|0.52|1.134||||||Comparison at 6 h post first dose||1.134|0.520|
92230950|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.701|STANDARD_ERROR_OF_MEAN|0.248|||TWO_SIDED|95.0|0.427|1.15||||||Comparison at 12 h post first dose||1.150|0.427|
92230951|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.578|STANDARD_ERROR_OF_MEAN|0.282|||TWO_SIDED|95.0|0.329|1.015||||||Comparison at 18 h post first dose||1.015|0.329|
92230952|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.41|STANDARD_ERROR_OF_MEAN|0.287|||TWO_SIDED|95.0|0.231|0.728||||||Comparison at 24 h post first dose||0.728|0.231|
92230953|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.896|STANDARD_ERROR_OF_MEAN|0.308|||TWO_SIDED|95.0|0.484|1.657||||||Comparison at 48 h post first dose||1.657|0.484|
92230954|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.739|STANDARD_ERROR_OF_MEAN|0.374|||TWO_SIDED|95.0|0.35|1.563||||||Comparison at 72 h post first dose||1.563|0.350|
92230955|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.56|STANDARD_ERROR_OF_MEAN|0.431|||TWO_SIDED|95.0|0.659|3.697||||||Comparison at 96 h post first dose||3.697|0.659|
92230956|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.608|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|0.433|0.853||||||Comparison at 6 h post first dose||0.853|0.433|
92230957|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.674|STANDARD_ERROR_OF_MEAN|0.217|||TWO_SIDED|95.0|0.437|1.039||||||Comparison at 12 h post first dose||1.039|0.437|
92230958|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.613|STANDARD_ERROR_OF_MEAN|0.247|||TWO_SIDED|95.0|0.374|1.004||||||Comparison at 18 h post first dose||1.004|0.374|
92230959|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.558|STANDARD_ERROR_OF_MEAN|0.251|||TWO_SIDED|95.0|0.338|0.921||||||Comparison at 24 h post first dose||0.921|0.338|
92230960|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.725|STANDARD_ERROR_OF_MEAN|0.264|||TWO_SIDED|95.0|0.427|1.23||||||Comparison at 48 h post first dose||1.230|0.427|
92230961|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.73|STANDARD_ERROR_OF_MEAN|0.321|||TWO_SIDED|95.0|0.384|1.386||||||Comparison at 72 h post first dose||1.386|0.384|
92230962|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.147|STANDARD_ERROR_OF_MEAN|0.359|||TWO_SIDED|95.0|0.559|2.353||||||Comparison at 96 h post first dose||2.353|0.559|
92230963|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.776|STANDARD_ERROR_OF_MEAN|0.167|||TWO_SIDED|95.0|0.556|1.082||||||Comparison at 6 h post first dose||1.082|0.556|
92230964|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.602|STANDARD_ERROR_OF_MEAN|0.212|||TWO_SIDED|95.0|0.394|0.919||||||Comparison at 12 h post first dose||0.919|0.394|
92230965|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.623|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|0.386|1.007||||||Comparison at 18 h post first dose||1.007|0.386|
92230966|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.429|STANDARD_ERROR_OF_MEAN|0.245|||TWO_SIDED|95.0|0.263|0.7||||||Comparison at 24 h post first dose||0.700|0.263|
92230967|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.502|STANDARD_ERROR_OF_MEAN|0.259|||TWO_SIDED|95.0|0.299|0.842||||||Comparison at 48 h post first dose||0.842|0.299|
92230968|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.479|STANDARD_ERROR_OF_MEAN|0.317|||TWO_SIDED|95.0|0.255|0.903||||||Comparison at 72 h post first dose||0.903|0.255|
92230969|NCT00996840|184365021|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.579|STANDARD_ERROR_OF_MEAN|0.361|||TWO_SIDED|95.0|0.281|1.192||||||Comparison at 96 h post first dose||1.192|0.281|
92230970|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.484|STANDARD_ERROR_OF_MEAN|0.219|||TWO_SIDED|95.0|0.312|0.75||||||Comparison at 6 h post first dose||0.750|0.312|
92230971|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.7|STANDARD_ERROR_OF_MEAN|0.282|||TWO_SIDED|95.0|0.399|1.229||||||Comparison at 12 h post first dose||1.229|0.399|
92230972|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.681|STANDARD_ERROR_OF_MEAN|0.305|||TWO_SIDED|95.0|0.37|1.254||||||Comparison at 18 h post first dose||1.254|0.370|
92230973|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.673|STANDARD_ERROR_OF_MEAN|0.302|||TWO_SIDED|95.0|0.368|1.231||||||Comparison at 24 h post first dose||1.231|0.368|
92230974|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.92|STANDARD_ERROR_OF_MEAN|0.351|||TWO_SIDED|95.0|0.456|1.857||||||Comparison at 48 h post first dose||1.857|0.456|
92230975|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.944|STANDARD_ERROR_OF_MEAN|0.376|||TWO_SIDED|95.0|0.445|2.002||||||Comparison at 72 h post first dose||2.002|0.445|
92230976|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.905|STANDARD_ERROR_OF_MEAN|0.321|||TWO_SIDED|95.0|0.476|1.723||||||Comparison at 96 h post first dose||1.723|0.476|
92230977|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.726|STANDARD_ERROR_OF_MEAN|0.199|||TWO_SIDED|95.0|0.488|1.08||||||Comparison at 6 h post first dose||1.080|0.488|
92230978|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.791|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|95.0|0.476|1.317||||||Comparison at 12 h post first dose||1.317|0.476|
92230979|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.725|STANDARD_ERROR_OF_MEAN|0.277|||TWO_SIDED|95.0|0.417|1.26||||||Comparison at 18 h post first dose||1.260|0.417|
92230980|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.655|STANDARD_ERROR_OF_MEAN|0.273|||TWO_SIDED|95.0|0.379|1.13||||||Comparison at 24 h post first dose||1.130|0.379|
92230981|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.111|STANDARD_ERROR_OF_MEAN|0.323|||TWO_SIDED|95.0|0.583|2.12||||||Comparison at 48 h post first dose||2.120|0.583|
92230982|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.075|STANDARD_ERROR_OF_MEAN|0.346|||TWO_SIDED|95.0|0.539|2.146||||||Comparison at 72 h post first dose||2.146|0.539|
92230983|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.375|STANDARD_ERROR_OF_MEAN|0.313|||TWO_SIDED|95.0|0.735|2.574||||||Comparison at 96 h post first dose||2.574|0.735|
92230984|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.559|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|95.0|0.4|0.783||||||Comparison at 6 h post first dose||0.783|0.400|
92230985|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.83|STANDARD_ERROR_OF_MEAN|0.216|||TWO_SIDED|95.0|0.539|1.277||||||Comparison at 12 h post first dose||1.277|0.539|
92230986|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.987|STANDARD_ERROR_OF_MEAN|0.238|||TWO_SIDED|95.0|0.613|1.589||||||Comparison at 18 h post first dose||1.589|0.613|
92230987|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.924|STANDARD_ERROR_OF_MEAN|0.231|||TWO_SIDED|95.0|0.582|1.467||||||Comparison at 24 h post first dose||1.467|0.582|
92230988|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.23|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|0.716|2.11||||||Comparison at 48 h post first dose||2.110|0.716|
92230989|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.289|STANDARD_ERROR_OF_MEAN|0.292|||TWO_SIDED|95.0|0.719|2.312||||||Comparison at 72 h post first dose||2.312|0.719|
92230990|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.752|STANDARD_ERROR_OF_MEAN|0.254|||TWO_SIDED|95.0|1.053|2.916||||||Comparison at 96 h post first dose||2.916|1.053|
92377716|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.5703||95.0||||p-value is for lower extremities, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the lower extremities from baseline to 24 months.||||0.5703
92377717|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.1934||95.0||||p-value is for lower extremities, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the lower extremities from 3 months to 18 months.||||0.1934
92411445|NCT00776919|184713607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
92230991|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.58|STANDARD_ERROR_OF_MEAN|0.163|||TWO_SIDED|95.0|0.419|0.803||||||Comparison at 6 h post first dose||0.803|0.419|
92230992|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.657|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|95.0|0.433|0.996||||||Comparison at 12 h post first dose||0.996|0.433|
92230993|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.747|STANDARD_ERROR_OF_MEAN|0.225|||TWO_SIDED|95.0|0.477|1.171||||||Comparison at 18 h post first dose||1.171|0.477|
92230994|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.657|STANDARD_ERROR_OF_MEAN|0.222|||TWO_SIDED|95.0|0.421|1.024||||||Comparison at 24 h post first dose||1.024|0.421|
92230995|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.759|STANDARD_ERROR_OF_MEAN|0.261|||TWO_SIDED|95.0|0.451|1.279||||||Comparison at 48 h post first dose||1.279|0.451|
92230996|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.968|STANDARD_ERROR_OF_MEAN|0.282|||TWO_SIDED|95.0|0.55|1.701||||||Comparison at 72 h post first dose||1.701|0.550|
92230997|NCT00996840|184365022|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.744|STANDARD_ERROR_OF_MEAN|0.251|||TWO_SIDED|95.0|0.45|1.229||||||Comparison at 96 h post first dose||1.229|0.450|
92230998|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.773|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|0.607|0.985||||||Comparison at 6 h post first dose||0.985|0.607|
92230999|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.795|STANDARD_ERROR_OF_MEAN|0.155|||TWO_SIDED|95.0|0.583|1.084||||||Comparison at 12 h post first dose||1.084|0.583|
92231000|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.778|STANDARD_ERROR_OF_MEAN|0.189|||TWO_SIDED|95.0|0.533|1.135||||||Comparison at 18 h post first dose||1.135|0.533|
92231001|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.633|STANDARD_ERROR_OF_MEAN|0.193|||TWO_SIDED|95.0|0.43|0.931||||||Comparison at 24 h post first dose||0.931|0.430|
92231002|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.662|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|95.0|0.397|1.103||||||Comparison at 48 h post first dose||1.103|0.397|
92231003|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.465|STANDARD_ERROR_OF_MEAN|0.243|||TWO_SIDED|95.0|0.286|0.756||||||Comparison at 72 h post first dose||0.756|0.286|
92231004|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.525|STANDARD_ERROR_OF_MEAN|0.287|||TWO_SIDED|95.0|0.295|0.935||||||Comparison at 96 h post first dose||0.935|0.295|
92231005|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.952|STANDARD_ERROR_OF_MEAN|0.107|||TWO_SIDED|95.0|0.768|1.18||||||Comparison at 6 h post first dose||1.180|0.768|
92231006|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.965|STANDARD_ERROR_OF_MEAN|0.137|||TWO_SIDED|95.0|0.733|1.269||||||Comparison at 12 h post first dose||1.269|0.733|
92231007|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.992|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|95.0|0.71|1.387||||||Comparison at 18 h post first dose||1.387|0.710|
92231008|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.913|STANDARD_ERROR_OF_MEAN|0.171|||TWO_SIDED|95.0|0.649|1.285||||||Comparison at 24 h post first dose||1.285|0.649|
92231009|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.66|STANDARD_ERROR_OF_MEAN|0.233|||TWO_SIDED|95.0|0.415|1.051||||||Comparison at 48 h post first dose||1.051|0.415|
92231010|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.69|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|0.445|1.072||||||Comparison at 72 h post first dose||1.072|0.445|
92411446|NCT00776919|184713607|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||0.015
92231011|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.724|STANDARD_ERROR_OF_MEAN|0.268|||TWO_SIDED|95.0|0.423|1.239||||||Comparison at 96 h post first dose||1.239|0.423|
92231012|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.95|STANDARD_ERROR_OF_MEAN|0.093|||TWO_SIDED|95.0|0.789|1.144||||||Comparison at 6 h post first dose||1.144|0.789|
92231013|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.985|STANDARD_ERROR_OF_MEAN|0.119|||TWO_SIDED|95.0|0.777|1.249||||||Comparison at 12 h post first dose||1.249|0.777|
92231014|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.067|STANDARD_ERROR_OF_MEAN|0.146|||TWO_SIDED|95.0|0.797|1.428||||||Comparison at 18 h post first dose||1.428|0.797|
92231015|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.922|STANDARD_ERROR_OF_MEAN|0.148|||TWO_SIDED|95.0|0.686|1.239||||||Comparison at 24 h post first dose||1.239|0.686|
92231016|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.866|STANDARD_ERROR_OF_MEAN|0.198|||TWO_SIDED|95.0|0.583|1.287||||||Comparison at 48 h post first dose||1.287|0.583|
92231017|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.649|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|0.444|0.95||||||Comparison at 72 h post first dose||0.950|0.444|
92231018|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.722|STANDARD_ERROR_OF_MEAN|0.228|||TWO_SIDED|95.0|0.457|1.14||||||Comparison at 96 h post first dose||1.140|0.457|
92377718|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value is for lower extremities, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the lower extremities from 18 months to 24 months.||||0.0039
92231019|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.897|STANDARD_ERROR_OF_MEAN|0.091|||TWO_SIDED|95.0|0.748|1.075||||||Comparison at 6 h post first dose||1.075|0.748|
92231020|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.887|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|0.703|1.119||||||Comparison at 12 h post first dose||1.119|0.703|
92231021|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.846|STANDARD_ERROR_OF_MEAN|0.142|||TWO_SIDED|95.0|0.638|1.123||||||Comparison at 18 h post first dose||1.123|0.638|
92377719|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value is for whole body, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the whole body from baseline to 3 months.||||0.0039
92377720|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.5703||95.0||||p-value is for whole body, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the whole body from baseline to 24 months.||||0.5703
92231022|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.812|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|95.0|0.609|1.084||||||Comparison at 24 h post first dose||1.084|0.609|
92231023|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.58|STANDARD_ERROR_OF_MEAN|0.194|||TWO_SIDED|95.0|0.394|0.855||||||Comparison at 48 h post first dose||0.855|0.394|
92231024|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.439|STANDARD_ERROR_OF_MEAN|0.188|||TWO_SIDED|95.0|0.301|0.639||||||Comparison at 72 h post first dose||0.639|0.301|
92231025|NCT00996840|184365023|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.451|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|0.285|0.714||||||Comparison at 96 h post first dose||0.714|0.285|
92231026|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.85|STANDARD_ERROR_OF_MEAN|0.137|||TWO_SIDED|95.0|0.646|1.119||||||Comparison at 6 h post first dose||1.119|0.646|
92231027|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.072|STANDARD_ERROR_OF_MEAN|0.138|||TWO_SIDED|95.0|0.814|1.411||||||Comparison at 12 h post first dose||1.411|0.814|
92231028|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.08|STANDARD_ERROR_OF_MEAN|0.157|||TWO_SIDED|95.0|0.79|1.478||||||Comparison at 18 h post first dose||1.478|0.790|
92231029|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.951|STANDARD_ERROR_OF_MEAN|0.143|||TWO_SIDED|95.0|0.715|1.266||||||Comparison at 24 h post first dose||1.266|0.715|
92231030|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.918|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|95.0|0.655|1.285||||||Comparison at 48 h post first dose||1.285|0.655|
92231031|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.012|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|0.735|1.395||||||Comparison at 72 h post first dose||1.395|0.735|
92231032|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.168|STANDARD_ERROR_OF_MEAN|0.169|||TWO_SIDED|95.0|0.831|1.64||||||Comparison at 96 h post first dose||1.640|0.831|
92231033|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.912|STANDARD_ERROR_OF_MEAN|0.124|||TWO_SIDED|95.0|0.713|1.167||||||Comparison at 6 h post first dose||1.167|0.713|
92231034|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.963|STANDARD_ERROR_OF_MEAN|0.123|||TWO_SIDED|95.0|0.753|1.233||||||Comparison at 12 h post first dose||1.233|0.753|
92231035|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.917|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.693|1.214||||||Comparison at 18 h post first dose||1.214|0.693|
92231036|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.87|STANDARD_ERROR_OF_MEAN|0.128|||TWO_SIDED|95.0|0.673|1.123||||||Comparison at 24 h post first dose||1.123|0.673|
92231037|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.141|STANDARD_ERROR_OF_MEAN|0.153|||TWO_SIDED|95.0|0.84|1.55||||||Comparison at 48 h post first dose||1.550|0.840|
92231038|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.122|STANDARD_ERROR_OF_MEAN|0.146|||TWO_SIDED|95.0|0.837|1.505||||||Comparison at 72 h post first dose||1.505|0.837|
92231039|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.474|STANDARD_ERROR_OF_MEAN|0.164|||TWO_SIDED|95.0|1.063|2.045||||||Comparison at 96 h post first dose||2.045|1.063|
92231040|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.833|STANDARD_ERROR_OF_MEAN|0.107|||TWO_SIDED|95.0|0.672|1.031||||||Comparison at 6 h post first dose||1.031|0.672|
92240281|NCT00051558|184383973|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||p-value for Vertebral Fracture|Cochran-Mantel-Haenszel|||||||0.007
92231041|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.879|STANDARD_ERROR_OF_MEAN|0.109|||TWO_SIDED|95.0|0.707|1.092||||||Comparison at 12 h post first dose||1.092|0.707|
92231042|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.023|STANDARD_ERROR_OF_MEAN|0.123|||TWO_SIDED|95.0|0.8|1.307||||||Comparison at 18 h post first dose||1.307|0.800|
92231043|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.95|STANDARD_ERROR_OF_MEAN|0.111|||TWO_SIDED|95.0|0.761|1.187||||||Comparison at 24 h post first dose||1.187|0.761|
92231044|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.968|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|0.743|1.262||||||Comparison at 48 h post first dose||1.262|0.743|
92231045|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.926|STANDARD_ERROR_OF_MEAN|0.127|||TWO_SIDED|95.0|0.718|1.193||||||Comparison at 72 h post first dose||1.193|0.718|
92231046|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.229|STANDARD_ERROR_OF_MEAN|0.136|||TWO_SIDED|95.0|0.936|1.613||||||Comparison at 96 h post first dose||1.613|0.936|
92231047|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.923|STANDARD_ERROR_OF_MEAN|0.102|||TWO_SIDED|95.0|0.753|1.131||||||Comparison at 6 h post first dose||1.131|0.753|
92231048|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.768|STANDARD_ERROR_OF_MEAN|0.103|||TWO_SIDED|95.0|0.625|0.943||||||Comparison at 12 h post first dose||0.943|0.625|
92377721|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||p-value is for whole body, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the whole body from 3 months to 18 months.||||0.0273
92231049|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.826|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|0.655|1.042||||||Comparison at 18 h post first dose||1.042|0.655|
92231050|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.761|STANDARD_ERROR_OF_MEAN|0.106|||TWO_SIDED|95.0|0.615|0.942||||||Comparison at 24 h post first dose||0.942|0.615|
92231051|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.781|STANDARD_ERROR_OF_MEAN|0.125|||TWO_SIDED|95.0|0.608|1.003||||||Comparison at 48 h post first dose||1.003|0.608|
92231052|NCT00996840|184365024|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.668|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|0.524|0.851||||||Comparison at 72 h post first dose||0.851|0.524|
92231053|NCT00996840|184365024|OTHER||Ratio (Treatment/Placebo)|0.86|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|0.659|1.122||||||Comparison at 96 h post first dose||1.122|0.659|
92231054|NCT00603239|184365029|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No adjustments were made (alpha = 0.05).|ANCOVA|No adjustments for multiplicity were made.||Null hypothesis = Change from baseline in HbA1c is equal between the two treatment groups. Greater than 99% power to detect a difference between treatment groups of 0.88% in change in HbA1c from baseline using a 2-sided t-test at a significance level of 0.05.||||<0.001
92231055|NCT00603239|184365030|SUPERIORITY_OR_OTHER|||||||0.113||95.0||||No adjustments (alpha = 0.05).|CMH test|No adjustment for multiplicity.||Null hypothesis = Proportion of subjects with HbA1c \<= 7% is equal between the two treatment groups.||||0.113
92231056|NCT00603239|184365031|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||No adjustments (alpha = 0.05).|CMH test|No adjustment for multiplicity.||Null hypothesis = Proportion of subjects achieving HbA1c \<= 6.5% is equal between the two treatment groups.||||0.004
92231057|NCT00603239|184365032|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||No adjustments (alpha = 0.05).|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change from baseline in FSG is equal between the two treatment groups.||||0.009
92231058|NCT00603239|184365033|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||No adjustments (alpha = 0.05).|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change from baseline to endpoint in body weight is equal between the two treatment groups.||||0.176
92231059|NCT00603239|184365035|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||No adjustments (alpha = 0.05).|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change form baseline in HOMA-B is equal between the two treatment groups.||||0.009
92231060|NCT00603239|184365036|SUPERIORITY_OR_OTHER|||||||0.794||95.0||||No adjustments (alpha = 0.05).|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change from baseline in HOMA-S is equal between the two treatment groups.||||0.794
92231061|NCT00603239|184365037|SUPERIORITY_OR_OTHER|||||||1||95.0||||No adjustments (alpha = 0.05).|Fisher Exact|No adjustment for multiplicity.||Null hypothesis = Incidence of minor hypoglycemia episodes is equal between the two treatment groups.||||1.00
92231062|NCT00603239|184365038|SUPERIORITY_OR_OTHER|||||||0.342||95.0||||No adjustments (alpha = 0.05).|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change from baseline in IWQOL-Lite Total Score is equal between the two treatment groups. This statistical analysis is for the Total Score only.||||0.342
92231063|NCT00603239|184365039|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||No adjustments (alpha = 0.05)|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change from baseline in EQ-5D score is equal between the two treatment groups. This statistical analysis is for the EQ-5D Health State Score only.||||0.186
92231064|NCT02210780|184365049|SUPERIORITY||Percentage Difference|34.0|||<|0.0001|TWO_SIDED|90.0|24.29|43.75|||Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using Cochran-Mantel-Haenszel test stratified by randomization strata (moderate \[IGA=3\] vs. severe \[IGA=4\] AD).||43.75|24.29|<0.0001
92231065|NCT02210780|184365050|SUPERIORITY||Percentage Difference|40.2|||<|0.0001|TWO_SIDED|90.0|29.4|51.01|||Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using Cochran-Mantel-Haenszel test stratified by randomization strata (moderate \[IGA=3\] vs. severe \[IGA=4\] AD).||51.01|29.40|<0.0001
92231066|NCT02210780|184365051|SUPERIORITY||Percentage Difference|34.0|||<|0.0001|TWO_SIDED|90.0|23.38|44.66|||Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using Cochran-Mantel-Haenszel test stratified by randomization strata (moderate \[IGA=3\] vs. severe \[IGA=4\] AD).||44.66|23.38|<0.0001
92231067|NCT02210780|184365052|SUPERIORITY||LS Mean Difference|-2.13|STANDARD_ERROR_OF_MEAN|0.354|<|0.0001|TWO_SIDED|90.0|-2.72|-1.55|||ANCOVA||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using ANCOVA model which includes treatment, randomization strata, and baseline value as covariates.||-1.55|-2.72|<0.0001
92231068|NCT02210780|184365053|SUPERIORITY||LS Mean Difference|-17.8|STANDARD_ERROR_OF_MEAN|2.84|<|0.0001|TWO_SIDED|90.0|-22.5|-13.1|||ANCOVA||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using ANCOVA model that includes treatment, randomization strata and baseline value as covariates.||-13.1|-22.5|<0.0001
92240282|NCT00051558|184383973|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||p-value for Clinical Vertebral Fracture|Cochran-Mantel-Haenszel|||||||0.037
92231069|NCT02210780|184365055|SUPERIORITY||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|90.0|-3.0|-1.7|||ANCOVA||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using the ANCOVA model which includes treatment, randomization strata, and baseline values as covariates.||-1.7|-3.0|<0.0001
92231070|NCT02210780|184365056|SUPERIORITY||LS Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|0.99|<|0.0001|TWO_SIDED|90.0|-9.9|-6.6|||ANCOVA||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using the ANCOVA model which included treatment, randomization strata, and baseline value as covariates.||-6.6|-9.9|<0.0001
92231071|NCT00775021|184365107|NON_INFERIORITY_OR_EQUIVALENCE|Margin = -0.5|Mean Difference (Final Values)|0.2334|STANDARD_ERROR_OF_MEAN|0.1618|||TWO_SIDED|95.0|-0.03501|0.2334|||Mixed Models Analysis||The mean difference is calculated as etafilconA minus nelfilcon A. Analysis is adjusted for lens type, period, lens type by period interaction, gender, lens type by gender interaction as fixed effects, subject nested within site as random effect.|The alternative hypothesis is that etafilcon A contact lenses will have equal to ro higher ratings of overall comfort than nelfilcon A contact lenses.||0.2334|-0.03501|
92231072|NCT00775021|184365108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.108|STANDARD_ERROR_OF_MEAN|0.07768|||TWO_SIDED|98.7|-0.108|0.06501|||Mixed Models Analysis||Mean difference calculated etafilcon A minus nelfilcon A. Analysis adjusted for lens type, period, lens by period interaction, gender, lens by gender interaction as fixed effects, subject nested within site and eye within subject as random effect.|The alternative hypothesis is that eyes that wore etafilcon A contact lenses will have less inferior region corneal staining than eyes that wore nelfilcon A contact lenses.||0.06501|-0.1080|
92231073|NCT00775021|184365109|NON_INFERIORITY_OR_EQUIVALENCE|Margin = -0.5|Mean Difference (Final Values)|0.4001|STANDARD_ERROR_OF_MEAN|0.1799|||TWO_SIDED|98.7|-0.0055|0.4001|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus nelfilcon A.|The alternative hypothesis is that etafilcon A contact lenses have equal to or higher comfort ratings at the end of the day than nelfilcon A.||0.4001|-0.0055|
92231074|NCT00775021|184365110|NON_INFERIORITY_OR_EQUIVALENCE|Margin = -0.5|Mean Difference (Final Values)|-0.1088|STANDARD_ERROR_OF_MEAN|0.1741|||TWO_SIDED|98.7|-0.5016|-0.1088|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus nelfilcon A.|The alternative hypothesis is that etafilcon A contact lenses will have equal or higher ratings of initial comfort than nelfilcon A contact lenses.||-0.1088|-0.5016|
92231075|NCT00775021|184365111|NON_INFERIORITY_OR_EQUIVALENCE|Margin = -0.5|Mean Difference (Final Values)|0.2489|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|98.7|-0.1301|0.2489|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus nelfilcon A.|The alternative hypothesis is that etaflicon A contact lenses have equal to or higher ratings of ease of handling than nelfilcon A contact lenses.||0.2489|-0.1301|
92377722|NCT00259298|184658490|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value if for whole body, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the whole body from 18 months to 24 months.||||0.0039
92377723|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0098||95.0||||p-value is for whole skeleton, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the whole skeleton from baseline to 3 months.||||0.0098
92377724|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value is for whole skeleton, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the whole skeleton from baseline to 18 months.||||0.0039
92377725|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.6523||95.0||||p-value is for whole skeleton, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the whole skeleton from baseline to 24 months.||||0.6523
92377726|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.1641||95.0||||p-value is for whole skeleton, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the whole skeleton from 3 months to 18 months.||||0.1641
92231076|NCT00363415|184365112|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.56|||<|0.01||95.0|1.27|1.92|||Log Rank|||||1.92|1.27|<0.01
92231077|NCT00363415|184365113|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Sex: Male|Log Rank|||||||<0.001
92231078|NCT00363415|184365113|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value for Sex: Female|Log Rank|||||||0.023
92231079|NCT00363415|184365113|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Race: Caucasian.|Log Rank|||||||<0.001
92231080|NCT00363415|184365113|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value for Race: Non-Caucasian.|Log Rank|||||||0.030
92231081|NCT00363415|184365113|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for ECOG (Eastern Cooperative Oncology Group) Performance Status: 0 or 1.|Log Rank|||||||<0.001
92231082|NCT00363415|184365113|SUPERIORITY_OR_OTHER|||||||0.519||95.0||||P-value for ECOG (Eastern Cooperative Oncology Group) Performance Status: 2.|Log Rank|||||||0.519
92231083|NCT00363415|184365113|SUPERIORITY_OR_OTHER|||||||0.084||95.0||||P-value for Region: United States.|Log Rank|||||||0.084
92231084|NCT00363415|184365113|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Region: European Union.|Log Rank|||||||0.001
92231085|NCT00363415|184365113|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Region: Intercontinental Region.|Log Rank|||||||0.003
92231086|NCT00363415|184365113|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for LDH (lactate dehydrogenase): \>Upper Limit of Normal.|Log Rank|||||||0.005
92231087|NCT00363415|184365113|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Age: \<=65 years.|Log Rank|||||||<0.001
92231088|NCT00363415|184365113|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Age: \>65 years.|Log Rank|||||||0.013
92231089|NCT00363415|184365113|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value for Number Metastatic Sites: \<=2.|Log Rank|||||||0.092
92231090|NCT00363415|184365113|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Number Metastatic Sites: \>=3.|Log Rank|||||||<0.001
92231091|NCT00363415|184365113|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for History of Brain Metastases: No.|Log Rank|||||||<0.001
92240283|NCT00051558|184383973|SUPERIORITY_OR_OTHER|||||||0.256||95.0||||p-value for Nonvertebral Fragility Fracture|Cochran-Mantel-Haenszel|||||||0.256
92240284|NCT02163993|184383979|SUPERIORITY||Posterior Mean Difference|-0.57|STANDARD_DEVIATION|0.42|||TWO_SIDED|95.0|-1.4|0.24|||Bayesian Dose Response Model|||||0.24|-1.40|
92240285|NCT02163993|184383979|SUPERIORITY||Posterior Mean Difference|-0.25|STANDARD_DEVIATION|0.41|||TWO_SIDED|95.0|-1.06|0.56|||Bayesian Dose Response Model|||||0.56|-1.06|
92231092|NCT03193866|184365119|SUPERIORITY||Difference in proportion|1.5|||||TWO_SIDED|95.0|-1.8|4.9||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.9|-1.8|
92231093|NCT03193866|184365119|SUPERIORITY||Difference in proportion|-0.2|||||TWO_SIDED|95.0|-6.8|6.5||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||6.5|-6.8|
92231094|NCT03193866|184365119|SUPERIORITY||Difference in proportion|1.3|||||TWO_SIDED|95.0|-1.7|4.3||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.3|-1.7|
92231095|NCT03193866|184365119|SUPERIORITY||Difference in proportion|-0.9|||||TWO_SIDED|95.0|-4.3|2.4||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||2.4|-4.3|
92377727|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for whole skeleton, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the whole skeleton from 18 months to 24 months.||||0.0078
92377728|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the skull from baseline to 3 months.||||0.0078
92377729|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the skull from baseline to 18 months.||||0.0078
92411447|NCT00776919|184713607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
92411448|NCT00776919|184713608|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
92231096|NCT03193866|184365119|SUPERIORITY||Difference in proportion|1.7|||||TWO_SIDED|95.0|-1.3|4.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.6|-1.3|
92231097|NCT03193866|184365119|SUPERIORITY||Difference in proportion|0.3|||||TWO_SIDED|95.0|-2.7|3.3||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.3|-2.7|
92411449|NCT00776919|184713608|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||0.102
92231098|NCT03193866|184365119|SUPERIORITY||Difference in proportion|1.2|||||TWO_SIDED|95.0|-2.0|4.4||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.4|-2.0|
92411450|NCT00776919|184713608|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
92411451|NCT00776919|184713609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
92411452|NCT00776919|184713609|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||0.032
92231099|NCT03193866|184365119|SUPERIORITY||Difference in proportion|2.0|||||TWO_SIDED|95.0|-3.2|7.1||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||7.1|-3.2|
92231100|NCT03193866|184365120|SUPERIORITY||Difference in proportion|0.7|||||TWO_SIDED|95.0|-7.5|8.8||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||8.8|-7.5|
92240286|NCT02163993|184383979|SUPERIORITY||Posterior Mean Difference|-1.14|STANDARD_DEVIATION|0.44|||TWO_SIDED|95.0|-2.02|-0.29|||Bayesian Dose Response Model|||||-0.29|-2.02|
92377730|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0781||95.0||||p-value is for skull, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal uptake of 99m Tc-MDP in the skull from baseline to 24 months.||||0.0781
92377731|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the skull from 3 months to 18 months.||||0.0078
92377732|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0156||95.0||||p-value is for skull, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the skull from 18 months to 24 months.||||0.0156
92377733|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0391||95.0||||p-value is for mandible, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the mandible from baseline to 3 months.||||0.0391
92377734|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0313||95.0||||p-value is for mandible, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the mandible from baseline to 18 months.||||0.0313
92377735|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.2969||95.0||||p-value is for mandible, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the mandible from baseline to 24 months.||||0.2969
92377736|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.5625||95.0||||p-value is for mandible, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the mandible from 3 months to 18 months.||||0.5625
92377737|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0469||95.0||||p-value is for mandible, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the mandible from 18 months to 24 months.||||0.0469
92411453|NCT00776919|184713609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
92411454|NCT02093819|184713625|SUPERIORITY_OR_OTHER||Slope|1.1313|STANDARD_ERROR_OF_MEAN|0.0633|||TWO_SIDED|90.0|1.0249|1.2376|||||Evaluation of dose proportionality - all dose groups. Number of subjects included in the analysis=44.|A power model was used to describe functional relationship between dose and Pk parameters. For the evaluation of dose proportionality,slope parameter (B), a two-sided 90% confidence interval of the slope was calculated. Perfect dose proportionality would correspond to a slope of 1.||1.2376|1.0249|
92377738|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.1934||95.0||||p-value is for spine, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the spine from 3 months to 18 months.||||0.1934
92377739|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.2324||95.0||||p-value is for spine, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the spine from baseline to 3 months.||||0.2324
92377740|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0645||95.0||||p-value is for spine, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the spine from baseline to 18 months.||||0.0645
92377741|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||p-value is for spine, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal uptake of 99m Tc-MDP in the spine from baseline to 24 months.||||0.0273
92377742|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.7344||95.0||||p-value is for spine, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the spine from 18 months to 24 months.||||0.7344
92377743|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.1934||95.0||||p-value is for pelvis, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the pelvis from baseline to 3 months.||||0.1934
92377744|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.7695||95.0||||p-value is for pelvis, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the pelvis from baseline to 18 months.||||0.7695
92377745|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.6523||95.0||||p-value is for pelvis, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the pelvis from baseline to 24 months.||||0.6523
92411455|NCT02093819|184713625|SUPERIORITY_OR_OTHER||Slope|0.9568|STANDARD_ERROR_OF_MEAN|0.1019|||TWO_SIDED|90.0|0.783|1.1307|||||Evaluation of dose proportionality - dose groups 50mg to 600mg. Number of subjects included in the analysis=28.|A power model was used to describe functional relationship between dose and Pk parameters. For the evaluation of dose proportionality,slope parameter (B), a two-sided 90% confidence interval of the slope was calculated. Perfect dose proportionality would correspond to a slope of 1.||1.1307|0.7830|
92231101|NCT03193866|184365120|SUPERIORITY||Difference in proportion|-2.9|||||TWO_SIDED|95.0|-18.5|12.8||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||12.8|-18.5|
92231102|NCT03193866|184365120|SUPERIORITY||Difference in proportion|-0.1|||||TWO_SIDED|95.0|-8.8|8.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||8.6|-8.8|
92231103|NCT03193866|184365120|SUPERIORITY||Difference in proportion|-0.5|||||TWO_SIDED|95.0|-8.1|7.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||7.2|-8.1|
92231104|NCT03193866|184365120|SUPERIORITY||Difference in proportion|1.6|||||TWO_SIDED|95.0|-5.7|8.9||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||8.9|-5.7|
92231105|NCT03193866|184365120|SUPERIORITY||Difference in proportion|1.6|||||TWO_SIDED|95.0|-4.7|8.0||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||8.0|-4.7|
92231106|NCT03193866|184365120|SUPERIORITY||Difference in proportion|0.9|||||TWO_SIDED|95.0|-6.2|7.9||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||7.9|-6.2|
92231107|NCT03193866|184365120|SUPERIORITY||Difference in proportion|-1.6|||||TWO_SIDED|95.0|-10.8|7.5||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||7.5|-10.8|
92231108|NCT03193866|184365121|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-2.5|3.3||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.3|-2.5|
92377746|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.2324||95.0||||p-value is for pelvis, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the pelvis from 3 months to 18 months.||||0.2324
92377747|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.6523||95.0||||p-value is for pelvis, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the pelvis from 18 months to 24 months.||||0.6523
92377748|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0098||95.0||||p-value is for upper extremities, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the upper extremities from baseline to 3 months.||||0.0098
92411456|NCT02093819|184713626|SUPERIORITY_OR_OTHER||Slope|1.0732|STANDARD_ERROR_OF_MEAN|0.0468|||TWO_SIDED|90.0|0.9946|1.1518|||||Evaluation of dose proportionality - all dose groups. Number of subjects included in the analysis=44.|A power model was used to describe functional relationship between dose and Pk parameters. For the evaluation of dose proportionality,slope parameter (B), a two-sided 90% confidence interval of the slope was calculated. Perfect dose proportionality would correspond to a slope of 1.||1.1518|0.9946|
92377749|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value is for upper extremities, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the upper extremities from baseline to 18 months.||||0.0020
92377750|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value is for upper extremities, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the upper extremities from baseline to 24 months.||||0.0039
92377751|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||p-value is for upper extremities, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the upper extremities from 3 months to 18 months.||||0.0273
92231109|NCT03193866|184365121|SUPERIORITY||Mean Difference (Net)|-4.5|||||TWO_SIDED|95.0|-12.5|3.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.4|-12.5|
92231110|NCT03193866|184365121|SUPERIORITY||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-2.5|1.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.8|-2.5|
92231111|NCT03193866|184365121|SUPERIORITY||Mean Difference (Net)|-2.5|||||TWO_SIDED|95.0|-4.9|-0.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-0.1|-4.9|
92231112|NCT03193866|184365121|SUPERIORITY||Mean Difference (Net)|-0.7|||||TWO_SIDED|95.0|-2.6|1.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.1|-2.6|
92231113|NCT03193866|184365121|SUPERIORITY||Mean Difference (Net)|-1.9|||||TWO_SIDED|95.0|-4.2|0.3||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.3|-4.2|
92231114|NCT03193866|184365121|SUPERIORITY||Mean Difference (Net)|-1.8|||||TWO_SIDED|95.0|-4.0|0.3||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.3|-4.0|
92231115|NCT03193866|184365121|SUPERIORITY||Mean Difference (Net)|2.6|||||TWO_SIDED|95.0|-0.6|5.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||5.8|-0.6|
92231116|NCT03193866|184365122|SUPERIORITY||Mean Difference (Net)|2.3|||||TWO_SIDED|95.0|-2.2|6.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||6.8|-2.2|
92231117|NCT03193866|184365122|SUPERIORITY||Mean Difference (Net)|-8.3|||||TWO_SIDED|95.0|-20.3|3.7||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.7|-20.3|
92231118|NCT03193866|184365122|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-2.6|3.5||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.5|-2.6|
92231119|NCT03193866|184365122|SUPERIORITY||Mean Difference (Net)|-2.4|||||TWO_SIDED|95.0|-5.8|0.9||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.9|-5.8|
92240287|NCT02163993|184383979|SUPERIORITY||Posterior Mean Difference|-0.62|STANDARD_DEVIATION|0.45|||TWO_SIDED|95.0|-1.5|0.27|||Bayesian Dose Response Model|||||0.27|-1.50|
92411457|NCT02093819|184713626|SUPERIORITY_OR_OTHER||Slope|0.9603|STANDARD_ERROR_OF_MEAN|0.0838|||TWO_SIDED|90.0|0.8174|1.1032|||||Evaluation of dose proportionality - dose groups 50 mg to 600 mg. Number of subjects included in the analysis 28.|A power model was used to describe functional relationship between dose and Pk parameters. For the evaluation of dose proportionality,slope parameter (B), a two-sided 90% confidence interval of the slope was calculated. Perfect dose proportionality would correspond to a slope of 1.||1.1032|0.8174|
92411458|NCT01901250|184713628|SUPERIORITY_OR_OTHER|||||||0.25|||||||Permutation test|Adjusted for child's gender, caries burden at study entry, surface-years at risk, and study cohort.||||||0.25
92377752|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.3594||95.0||||p-value is for upper extremities, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the upper extremities from 18 months to 24 months.||||0.3594
92231120|NCT03193866|184365122|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-2.9|2.7||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||2.7|-2.9|
92377753|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0371||95.0||||p-value is for lower extremities, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the lower extremities from baseline to 3 months.||||0.0371
92377754|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0098||95.0||||p-value is for lower extremities, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the lower extremities from baseline to 18 months.||||0.0098
92231121|NCT03193866|184365122|SUPERIORITY||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-4.5|1.6||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.6|-4.5|
92231122|NCT03193866|184365122|SUPERIORITY||Mean Difference (Net)|-1.6|||||TWO_SIDED|95.0|-4.7|1.5||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.5|-4.7|
92377755|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.4609||95.0||||p-value is for lower extremities, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the lower extremities from baseline to 24 months.||||0.4609
92377756|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.1934||95.0||||p-value is for lower extremities, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the lower extremities from 3 months to 18 months.||||0.1934
92377757|NCT00259298|184658491|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||p-value is for lower extremities, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the lower extremities from 18 months to 24 months.||||0.0273
92377758|NCT00259298|184658492|SUPERIORITY_OR_OTHER|||||||1||95.0||||p-value is for focal change, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in focal skeletal uptake of 99m Tc-MDP from baseline to 3 months.||||1.0
92377759|NCT00259298|184658492|SUPERIORITY_OR_OTHER|||||||1||95.0||||p-value is for focal change, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in focal skeletal uptake of 99m Tc-MDP from baseline to 18 months.||||1.0
92411459|NCT02969655|184713643|NON_INFERIORITY|Non-inferiority was established if the lower limit of the 95% CI was greater than -1.0 g/dL. Even if the 95% CI for the difference was completely negative (i.e. lied fully within the range -1.0 to \<0 g/dL) non-inferiority was concluded on condition that the mean Hgb estimated in the daprodustat group was within the target range.|Mean Difference (Final Values)|0.06|||<|0.0001|TWO_SIDED|95.0|-0.11|0.23||The p value on this table is one-sided and calculated for the non-inferiority assessment.|Mixed model repeated measures (MMRM)||Analysis was performed by a MMRM with covariates of treatment, Baseline Hgb, visit, treatment-by-visit interaction, Baseline-by-visit interaction.|||0.23|-0.11|<.0001
92411460|NCT02969655|184713644|SUPERIORITY||Odds Ratio (OR)|0.76||||0.7442|TWO_SIDED|95.0|0.34|1.71||The p value on this table is one-sided and calculated for the superiority assessment.|Regression, Logistic||Analysis was performed by logistic regression with covariates of treatment and Baseline Hgb.|||1.71|0.34|0.7442
92411461|NCT02654769|184713681|EQUIVALENCE|Difference (Generic- Picato)|90% Wald's confidence interval|-1.87|||<|0.0001|TWO_SIDED|90.0|-12.37|8.63|||Fisher Exact|||||8.63|-12.37|<0.0001
92377760|NCT00259298|184658494|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value is for change at 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in whole skeletal plasma clearance of 99m Tc-MDP from baseline to 18 months.||||0.0020
92377761|NCT02726880|184658514|SUPERIORITY||F|1.13||||0.296|TWO_SIDED||||||ANCOVA|Number of days of gaming in the past week, measured at baseline, is included as a covariate in the model.||||||.296
92377762|NCT01822535|184658526|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||Between-group differences in percent changes in core body temperature from baseline values to after cool exposure were analyzed. Because individuals with tetraplegia have impaired thermoregulatory mechanisms, we hypothesized that their percent change in core body temperature would be significantly larger than that of able-bodied controls.||||<0.01
92377763|NCT01822535|184658527|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||ANOVA|||"Between-group comparisons of percent changes in Stroop Interference T-scores from baseline values to after cool exposure were analyzed.~We hypothesized that subjects with tetraplegia would have greater declines in cognitive performance after cool exposure than able-bodied controls."||||0.018
92411462|NCT02654769|184713682|EQUIVALENCE|Difference (Generic - Picato)|90% Wald's confidence interval|-2.64|||<|0.0001|TWO_SIDED|90.0|-13.14|7.86|||Fisher Exact|||Partial Clearance at Week 8||7.86|-13.14|<0.0001
92377764|NCT01822535|184658528|SUPERIORITY_OR_OTHER|||||||0.0431|TWO_SIDED||||||ANOVA|||"Between-group comparisons of percent changes in Delayed Recall from baseline values to after cool exposure were analyzed.~We hypothesized that subjects with tetraplegia would have greater declines in cognitive performance after cool exposure than able-bodied controls."||||0.0431
92377765|NCT01822535|184658529|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||ANOVA|||"We hypothesized that administration of midodrine would attenuate the fall in core body temperature.~Within-group percent changes in core body temperature were analyzed to compare data from visit 1 (no drug) to visit 2 (drug)."||||0.30
92377766|NCT01071356|184658530|SUPERIORITY_OR_OTHER||Time averaged post-bline diff in diff|-0.006||||0.47|TWO_SIDED|95.0|-0.023|0.011|||Random Effects modeling||Stat Mixed Model: MI9 (Post - Bline) - MI1 (Post - Bline) taken across 2, 4, and 6 month follow-ups adjusted for gender, age, and # sessions attended.|Stat Mixed Model Estimated was: MI9 (Post - Bline) - MI1 (Post - Bline) taken across 2, 4, and 6 month follow-ups adjusted for gender, age, and # sessions attended. This was done because a statistical test of trend of the post-baseline effect across the 3 post interviews indicated a homogeneous post-baseline treatment effect across time for both MI1 and MI9 conditions.||.011|-.023|.47
92377767|NCT01071356|184658531|SUPERIORITY_OR_OTHER||Time averaged post-bline diff in diff|0.007||||0.034|TWO_SIDED|95.0|0.001|0.013|||Random effects model||Stat Mixed Model: MI9 (Post - Bline) - MI1 (Post - Bline) taken across 2, 4, and 6 month follow-ups adjusted for gender, age, and # sessions attended.|Stat Mixed Model Estimated was: MI9 (Post - Bline) - MI1 (Post - Bline) taken across 2, 4, and 6 month follow-ups adjusted for gender, age, and # sessions attended. This was done because a statistical test of trend of the post-baseline effect across the 3 post interviews indicated a homogeneous post-baseline treatment effect across time for both MI1 and MI9 conditions.||.013|.001|.034
92231123|NCT03193866|184365122|SUPERIORITY||Mean Difference (Net)|2.3|||||TWO_SIDED|95.0|-1.7|6.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||6.4|-1.7|
92377768|NCT02278614|184658532|OTHER|The change from baseline in mean IOP on Day 84 for the contralateral eye,|Adjusted mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.57|0.43|||Mixed Models Analysis|||||0.43|-0.57|
92377769|NCT02278614|184658532|OTHER|The change from baseline in mean IOP on D42 for the worse eye|Adjusted mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|95.0|-0.69|0.31|||Mixed Models Analysis|||||0.31|-0.69|
92377770|NCT00737711|184658536|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Paired t-test was used to estimation of p-value.|t-test, 2 sided|||||||<0.0001
92411463|NCT02055118|184713683|SUPERIORITY||Least squares mean|3.0|STANDARD_ERROR_OF_MEAN|5.12||0.5669|TWO_SIDED|95.0|-7.3|13.3|||Mixed model repeated measures|||The Mixed model repeated measures included fixed categorical effects for treatment, visit week, treatment by visit week interaction, baseline GCA classification factor (less than or equal to \[\<=\] 70 or \>70), baseline age group (\<6 years or \>=6 years), treatment by baseline GCA classification factor interaction, treatment by baseline age group interaction, interaction between baseline GCA classification factor and baseline age group, genotype, and the baseline GCA score as a continuous covariate.||13.3|-7.3|0.5669
92411464|NCT00329524|184713741|NON_INFERIORITY_OR_EQUIVALENCE|Power analysis based on paired t-test.|||||<|0.05||95.0|||||t-test, 2 sided|||||||<.05
92411465|NCT00329524|184713742|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||test for order effect|||||||.05
92411466|NCT01001325|184713743|SUPERIORITY_OR_OTHER|||||||0.685||95.0|||||Fisher Exact|||"Null hypothesis: There is no difference in incidence of pandemic strain influenza infection for people given seasonal influenza vaccine compared to those given a placebo.~Power to detect a 2-fold difference if attack rate in non-vaccinated participants is 10%: 86%"||||0.685
92377771|NCT02739321|184658564|NON_INFERIORITY|Hypothesized benchmark of 30%|Risk Difference (RD)|25.6|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
92377772|NCT02739321|184658565|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||.001
92377773|NCT02739321|184658566|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||0.001
92377774|NCT02739321|184658567|SUPERIORITY||Median Difference (Final Values)|4.09||||0.268|TWO_SIDED||||||Mixed Models Analysis|||||||.268
92377775|NCT02739321|184658568|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.058|TWO_SIDED||||||Mixed Models Analysis|||||||.058
92377776|NCT02739321|184658569|SUPERIORITY||Mean Difference (Final Values)|2.82||||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||.001
92377777|NCT02739321|184658570|SUPERIORITY|||||||0.232|||||||Mixed Models Analysis|||||||.232
92377778|NCT02739321|184658571|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.100
92377779|NCT02739321|184658572|SUPERIORITY|||||||0.285|||||||Mixed Models Analysis|||||||0.285
92411467|NCT02758184|184713744|OTHER||Mean Difference (Final Values)|1031.2|STANDARD_ERROR_OF_MEAN|681.7||0.15|TWO_SIDED||||||ANOVA|||||||0.15
92411468|NCT01584440|184713758|SUPERIORITY||Ordinary Least Squares (OLS) Z-statistic|-1.5|||<=|0.001|TWO_SIDED||||||ANCOVA|Sequential Parallel Comparison Design (SPCD): data from the Stages 1 and 2 are analyzed together using the mITT Population||||||<=0.001
92411469|NCT01584440|184713758|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.5|||||TWO_SIDED||||||||Day 36|||||
92411470|NCT01584440|184713758|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.59|||||TWO_SIDED||||||||Day 70|||||
92411471|NCT01584440|184713760|SUPERIORITY||OLS Z-statistic|-2.46||||0.014|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.014
92411472|NCT01584440|184713760|SUPERIORITY||ANCOVA Least Squares Mean Difference|-4.2|||||TWO_SIDED||||||||||Day 36|||
92411473|NCT01584440|184713760|SUPERIORITY||ANCOVA Least Squares Mean Difference|-3.78|||||TWO_SIDED||||||||Day 70|||||
92411474|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|0.77||||0.444|TWO_SIDED||||||ANCOVA|Delusions Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.444
92411475|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.27|||||TWO_SIDED||||||||Delusions Domain; Day 36|||||
92411476|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.78|||||TWO_SIDED||||||||Delusions Domain; Day 70|||||
92411477|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|-0.18||||0.861|TWO_SIDED||||||ANCOVA|Hallucinations Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.861
92231124|NCT03193866|184365123|SUPERIORITY||Difference in proportion|0.39|||||TWO_SIDED|95.0|0.3|0.48||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.48|0.30|
92240288|NCT01808118|184383992|OTHER||||||<|0.001||||||2-sided Pearson's chi-square test|Chi-squared|||||||<0.001
92377780|NCT02739321|184658573|SUPERIORITY|||||||0.089|||||||Mixed Models Analysis|||||||0.089
92377781|NCT02739321|184658574|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||0.040
92377782|NCT02739321|184658575|SUPERIORITY|||||||0.471|||||||Mixed Models Analysis|||||||0.471
92377783|NCT02739321|184658576|SUPERIORITY|||||||0.015|||||||Mixed Models Analysis|||||||0.015
92377784|NCT02739321|184658577|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92377785|NCT02739321|184658578|NON_INFERIORITY|Non-inferiority compared to the median rating of four on the seven point scale (1 = extremely poor, 7 = exceptional) that was used to rate tolerance.|||||||||||||||||The mean rating of parent reported tolerance of mattress technology was 5.61 (SE = 0.25).|||
92377786|NCT02739321|184658579|NON_INFERIORITY|Non-inferiority compared to the median rating of four on the seven point scale (1 = extremely poor, 7 = exceptional) that was used to rate tolerance.|||||||||||||||||The mean rating of parent reported tolerance of actigraph watch was 5.51 (SE = 0.13).|||
92377787|NCT02739321|184658580|NON_INFERIORITY|Non-inferiority compared to the median rating of four on the seven point scale (1 = extremely difficult, 7 = extremely easy) that was used to rate ease of use.|||||||||||||||||The mean rating of parent reported ease of us of the mattress technology was 6.04 (SE = 0.15).|||
92377788|NCT02739321|184658581|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||.001
92377789|NCT02558400|184658582|SUPERIORITY|To claim superiority PG324 had to be statistically superior to netarsudil and to latanoprost at all 9 of 9 primary efficacy timepoints|||||<|0.0001|||||||t-test, 2 sided|PG324 vs. netarsudil||||||<0.0001
92377790|NCT02558400|184658582|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|PG324 vs. latanoprost||||||<0.0001
92377791|NCT02230683|184658590|SUPERIORITY_OR_OTHER||within group change|-1.14|STANDARD_DEVIATION|4.57||0.257|TWO_SIDED|95.0|-3.16|0.89|||Paired t-test||within group change|Statistical Analysis for the mean change of the Hepatic Venous Pressure Gradient from Baseline to Day 28/EOT for the overall evaluable population treated with IDN-6556 25 mg twice daily||0.89|-3.16|0.257
92377792|NCT02230683|184658590|SUPERIORITY_OR_OTHER||within group change|1.9|STANDARD_DEVIATION|3.15||0.1174|TWO_SIDED|95.0|-0.52|4.32|||ANCOVA||within group change|Statistical Analysis for the mean change of the Hepatic Venous Pressure Gradient from Baseline to Day 28/EOT in the HVPG \< 12 mmHg subgroup||4.32|-0.52|0.1174
92377793|NCT02230683|184658590|SUPERIORITY_OR_OTHER||within group change|-3.67|STANDARD_DEVIATION|4.05||0.0025|TWO_SIDED|95.0|-5.88|-1.46|||ANCOVA||within group change|Statistical Analysis for the mean change of the Hepatic Venous Pressure Gradient from Baseline to Day 28/EOT in the HVPG ≥ 12 mmHg subgroup||-1.46|-5.88|0.0025
92377794|NCT02230683|184658591|SUPERIORITY_OR_OTHER||within group change|-0.22||||0.026|TWO_SIDED|95.0|-0.42|-0.03|||ANCOVA|||Statistical Analysis for the mean change in log-transformed caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT for the overall evaluable population treated with IDN-6556 25 mg twice daily||-0.03|-0.42|0.026
92377795|NCT02230683|184658591|SUPERIORITY_OR_OTHER||within group change|-0.46||||0.001|TWO_SIDED|95.0|-0.72|-0.21|||ANCOVA|||Statistical Analysis for the mean change in log-transformed caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT in the HVPG \< 12 mmHg subgroup population treated with IDN-6556 25 mg twice daily||-0.21|-0.72|0.001
92377796|NCT02230683|184658591|SUPERIORITY_OR_OTHER||within group change|-0.04||||0.72|TWO_SIDED|95.0|-0.26|0.18|||ANCOVA|||Statistical Analysis for the median change in log-transformed caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT in the HVPG ≥ 12 mmHg subgroup population treated with IDN-6556 25 mg twice daily||0.18|-0.26|0.72
92377797|NCT02230683|184658592|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-21.0||||0.105|TWO_SIDED|95.0|-60.0|13.0|||Wilcoxon (Mann-Whitney)|||Statistical Analysis for the median change of caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT for the overall evaluable population treated with IDN-6556 25 mg twice daily||13|-60|0.105
92377798|NCT02230683|184658592|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-52.5||||0.016|TWO_SIDED|95.0|-109.0|-6.0|||Wilcoxon (Mann-Whitney)|||Statistical Analysis for the median change of caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT in the HVPG \< 12 mmHg subgroup population treated with IDN-6556 25 mg twice daily||-6|-109|0.016
92377799|NCT02230683|184658592|SUPERIORITY_OR_OTHER||Hodges-Lehmann|12.0||||0.839|TWO_SIDED|95.0|-60.0|13.0|||Wilcoxon (Mann-Whitney)|||Statistical Analysis for the median change of caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT in the HVPG ≥ 12 mmHg subgroup population treated with IDN-6556 25 mg twice daily||13|-60|0.839
92377800|NCT02230683|184658593|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-4.0||||0.0084|TWO_SIDED|95.0|-7.0|0.0|||Wilcoxon (Mann-Whitney)|||Statistical Analysis for the median change in Alanine Aminotransferase (ALT) from Baseline to Day 28/EOT||0|-7|0.0084
92411478|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.29|||||TWO_SIDED||||||||Hallucinations Domain; Day 36|||||
92411479|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.22|||||TWO_SIDED||||||||Hallucinations Domain; Day 70|||||
92411480|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|-0.32||||0.749|TWO_SIDED||||||ANCOVA|Depression/Dysphoria Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.749
92411481|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.07|||||TWO_SIDED||||||||Depression/Dysphoria Domain; Day 36|||||
92240289|NCT01808118|184384011|OTHER||||||<|0.001|||||||Log Rank|||The statistical test was performed at a 2-sided significance level of 0.05. Time to flare analysis showed statistically significant lower risk of flare in the adalimumab group than in the placebo group.||||<0.001
92240290|NCT02369835|184384015|OTHER|||||||0.8872|||||||Chi-squared|||||||.8872
92240291|NCT03041116|184384027|SUPERIORITY||Difference in LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.8|=|0.9115|TWO_SIDED|95.0|-1.69|1.51||p-value was derived from test of contrast between treatment effects using LSM estimate, adjusted for baseline score and age group from Type III analysis. The test of contrast at Week 24 was considered the primary comparison.|Mixed Models Analysis|||||1.51|-1.69|=0.9115
92377801|NCT02230683|184658594|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-4.0||||0.0131|TWO_SIDED|95.0|-7.0|-1.0|||Wilcoxon (Mann-Whitney)|||Statistical Analysis for the median change in Aspartate Aminotransferase (AST) from Baseline to Day 28/EOT||-1|-7|0.0131
92377802|NCT02230683|184658595|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-772.0||||0.003|TWO_SIDED|95.0|-1188.0|-19.0|||Wilcoxon (Mann-Whitney)||The estimated value is the ratio for the difference from baseline.|Statistical Analysis for the median change in concentration of Caspase 3/7 Relative Light Units from baseline to Day 28/EOT||-19|-1188|0.003
92377803|NCT02936284|184658691|SUPERIORITY||Mean Difference (Net)|0.196||||0.016|TWO_SIDED||||||Mixed Models Analysis|mixed effect regression model including covariates: child sex, child birth weight, breastfeeding duration, percent class attendance and covid grouping|difference between music and play group change|||||0.016
92411482|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.1|||||TWO_SIDED||||||||Depression/Dysphoria Domain; Day 70|||||
92411483|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|-0.81||||0.416|TWO_SIDED||||||ANCOVA|Anxiety Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.416
92231125|NCT03193866|184365123|SUPERIORITY||Difference in proportion|0.27|||||TWO_SIDED|95.0|0.11|0.42||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.42|0.11|
92240292|NCT03041116|184384029|SUPERIORITY||Difference in LS Mean|2.0|STANDARD_ERROR_OF_MEAN|1.38|=|0.1421|TWO_SIDED|95.0|-0.7|4.78||p-value was derived from the test of contrast between treatment effects using the LSM estimate, adjusted for baseline score and age group from the Type III analysis. The test of contrast at week 24 was considered the primary comparison.|Mixed Models Analysis|||||4.78|-0.7|=0.1421
92377804|NCT02936284|184658692|SUPERIORITY||Mean Difference (Net)|29.9||||0.7|TWO_SIDED||||||Mixed Models Analysis||music group vs. play group baseline to 24 months|mixed effect regression analysis, unstructured covariance, no covariates. Reporting group x time interaction||||0.70
92377805|NCT02936284|184658693|SUPERIORITY||Mean Difference (Net)|0.073||||0.54|TWO_SIDED||||||Mixed Models Analysis||increase in weight for length z-score for music group|mixed-effect regression analysis with covariates: child sex, birth weight, breastfeeding duration, percent class attendance and covid categories||||0.540
92411484|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.28|||||TWO_SIDED||||||||Anxiety Domain; Day 36|||||
92411485|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.81|||||TWO_SIDED||||||||Anxiety Domain|||||
92377806|NCT01610596|184658694|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92377807|NCT01149486|184658805|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|93.45|||||TWO_SIDED|90.0|80.2|108.88|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.88|80.20|
92377808|NCT01149486|184658806|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.45|||||TWO_SIDED|90.0|93.15|106.18|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||106.18|93.15|
92411486|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|-1.07||||0.287|TWO_SIDED||||||ANCOVA|Euphoria/Elation Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.287
92411487|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.04|||||TWO_SIDED||||||||Euphoria/Elation Domain; Day 36|||||
92411488|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.34|||||TWO_SIDED||||||||Euphoria/Elation Domain; Day 70|||||
92411489|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|-1.31||||0.191|TWO_SIDED||||||ANCOVA|Apathy/Indifference Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.191
92411490|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.16|||||TWO_SIDED||||||||Apathy/Indifference Domain; Day 36|||||
92411491|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.77|||||TWO_SIDED||||||||Apathy/Indifference Domain; Day 36|||||
92411492|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|-1.1||||0.271|TWO_SIDED||||||ANCOVA|Disinhibition Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.271
92411493|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.22|||||TWO_SIDED||||||||Disinhibition Domain; Day 36|||||
92411494|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.37|||||TWO_SIDED||||||||Disinhibition Domain; Day 70|||||
92411495|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|-2.18||||0.029|TWO_SIDED||||||ANCOVA|Irritability/Lability Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.029
92411496|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.7|||||TWO_SIDED||||||||Irritability/Lability Domain; Day 36|||||
92411497|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.93|||||TWO_SIDED||||||||Irritability/Lability Domain; Day 70|||||
92411498|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|-2.21||||0.027|TWO_SIDED||||||ANCOVA|Aberrant Motor Behavior Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.027
92411499|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.38|||||TWO_SIDED||||||||Aberrant Motor Behavior Domain; Day 36|||||
92411500|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.22|||||TWO_SIDED||||||||Aberrant Motor Behavior Domain; Day 70|||||
92411501|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|-1.09||||0.274|TWO_SIDED||||||ANCOVA|Sleep/Nighttime Behavior Disorders Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.274
92231126|NCT03193866|184365123|SUPERIORITY||Difference in proportion|0.17|||||TWO_SIDED|95.0|0.1|0.23||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.23|0.10|
92231127|NCT03193866|184365123|SUPERIORITY||Difference in proportion|0.05|||||TWO_SIDED|95.0|-0.03|0.13||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.13|-0.03|
92231128|NCT03193866|184365123|SUPERIORITY||Difference in proportion|0.14|||||TWO_SIDED|95.0|0.08|0.19||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.19|0.08|
92231129|NCT03193866|184365123|SUPERIORITY||Difference in proportion|0.09|||||TWO_SIDED|95.0|0.01|0.16||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.16|0.01|
92278051|NCT00782509|184458140|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.958|STANDARD_ERROR_OF_MEAN|0.408||0.9304|TWO_SIDED|95.0|0.415|2.209|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||2.209|0.415|0.9304
92278052|NCT00782509|184458141|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09|STANDARD_ERROR_OF_MEAN|0.233||0.669|TWO_SIDED|95.0|0.717|1.657|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.657|0.717|0.6690
92278053|NCT00782509|184458141|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.344|STANDARD_ERROR_OF_MEAN|0.273||0.1437|TWO_SIDED|95.0|0.902|2.002|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||2.002|0.902|0.1437
92278054|NCT00782509|184458142|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.188|STANDARD_ERROR_OF_MEAN|0.2251||0.3637|TWO_SIDED|95.0|0.8188|1.7234|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.7234|0.8188|0.3637
92377809|NCT01149486|184658807|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.4|||||TWO_SIDED|90.0|93.1|106.12|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||106.12|93.10|
92377810|NCT01149486|184658808|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|111.62|||||TWO_SIDED|90.0|101.47|122.79|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||122.79|101.47|
92377811|NCT01149486|184658809|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.8|||||TWO_SIDED|90.0|99.58|112.41|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||112.41|99.58|
92411502|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.57|||||TWO_SIDED||||||||Sleep/Nighttime Behavior disorders Domain; Day 36|||||
92411503|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.08|||||TWO_SIDED||||||||Sleep/Nighttime Behavior disorders Domain; Day 70|||||
92411504|NCT01584440|184713761|SUPERIORITY||OLS Z-statistic|-0.65||||0.513|TWO_SIDED||||||ANCOVA|Appetite/Eating Changes Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.513
92169177|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|2.44||0.2049|TWO_SIDED|95.0|-1.7|7.91|||ANCOVA|||Week 56: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||7.91|-1.70|0.2049
92231130|NCT03193866|184365123|SUPERIORITY||Difference in proportion|0.14|||||TWO_SIDED|95.0|0.06|0.21||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.21|0.06|
92231131|NCT03193866|184365123|SUPERIORITY||Difference in proportion|0.23|||||TWO_SIDED|95.0|0.13|0.33||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.33|0.13|
92231132|NCT03193866|184365124|SUPERIORITY||Difference in proportion|-71.6|||||TWO_SIDED|95.0|-76.6|-66.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-66.6|-76.6|
92231133|NCT03193866|184365124|SUPERIORITY||Difference in proportion|-66.3|||||TWO_SIDED|95.0|-76.3|-56.4||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-56.4|-76.3|
92231134|NCT03193866|184365124|SUPERIORITY||Difference in proportion|-47.3|||||TWO_SIDED|95.0|-53.0|-41.7||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-41.7|-53.0|
92231135|NCT03193866|184365124|SUPERIORITY||Difference in proportion|-43.1|||||TWO_SIDED|95.0|-49.6|-36.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-36.6|-49.6|
92231136|NCT03193866|184365124|SUPERIORITY||Difference in proportion|-41.3|||||TWO_SIDED|95.0|-46.4|-36.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-36.2|-46.4|
92231137|NCT03193866|184365124|SUPERIORITY||Difference in proportion|-33.9|||||TWO_SIDED|95.0|-39.8|-28.0||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-28.0|-39.8|
92240293|NCT01984346|184384055|SUPERIORITY||Mean Difference (Net)|16.7||||0.0472|TWO_SIDED|95.0|0.1|33.2||A prior threshold for statistical significance was 0.05|Chi-square test|||||33.2|0.1|0.0472
92377812|NCT01149486|184658810|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.55|||||TWO_SIDED|90.0|99.64|111.82|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||111.82|99.64|
92377813|NCT01149486|184658811|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.78|||||TWO_SIDED|90.0|98.96|115.23|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||115.23|98.96|
92377814|NCT01149486|184658812|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.37|||||TWO_SIDED|90.0|98.75|106.14|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||106.14|98.75|
92377815|NCT01149486|184658813|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.3|||||TWO_SIDED|90.0|98.72|106.01|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||106.01|98.72|
92377816|NCT00598078|184658814|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||ANOVA|||||||0.013
92377817|NCT00598078|184658814|SUPERIORITY_OR_OTHER|||||||0.713||95.0|||||ANOVA|||||||0.713
92377818|NCT00598078|184658814|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||ANOVA|||||||0.038
92377819|NCT01479595|184658818|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.514||||0.005|TWO_SIDED|90.0|-0.811|-0.217|||Mixed Models Analysis|||||-0.217|-0.811|0.005
92231138|NCT03193866|184365124|SUPERIORITY||Difference in proportion|-33.9|||||TWO_SIDED|95.0|-39.7|-28.0||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-28.0|-39.7|
92231139|NCT03193866|184365124|SUPERIORITY||Difference in proportion|-49.8|||||TWO_SIDED|95.0|-58.0|-41.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-41.6|-58.0|
92231140|NCT03193866|184365125|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.1|0.3||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.3|-0.1|
92231141|NCT03193866|184365125|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.3|0.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.4|-0.3|
92231142|NCT03193866|184365125|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.2|0.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.1|-0.2|
92231143|NCT03193866|184365125|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.3|0.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.1|-0.3|
92240294|NCT03100942|184384066|SUPERIORITY||Difference in Response Rates|15.6||||0.1597|TWO_SIDED|95.0|-6.3|37.6||P-values were obtained from Cochran-Mantel-Haenszel (CMH) test stratified by randomization stratification factors.|Cochran-Mantel-Haenszel||For the analysis of the difference in response rates, the data with missing response values were imputed by multiple imputation method with logistic regression.|||37.6|-6.3|0.1597
92377820|NCT02120365|184658829|SUPERIORITY||Mean Difference (Final Values)|0.729|STANDARD_ERROR_OF_MEAN|1.986||0.867|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|Medication dose was a within-subjects factor (crossover design)||||0.867
92377821|NCT02120365|184658830|SUPERIORITY||Mean Difference (Final Values)|5.514|STANDARD_ERROR_OF_MEAN|3.038||0.071|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|mixed models, medication was a within-subjects factor||||0.071
92377822|NCT02120365|184658831|SUPERIORITY||Mean Difference (Final Values)|0.729|STANDARD_ERROR_OF_MEAN|2.905||0.667|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|mixed models||||0.667
92377823|NCT02120365|184658832|SUPERIORITY||Mean Difference (Final Values)|2.242|STANDARD_ERROR_OF_MEAN|1.393||0.285|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|||||0.285
92377824|NCT02120365|184658833|SUPERIORITY||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|0.408||0.843|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|Mixed Models||||.843
92240295|NCT03100942|184384066|SUPERIORITY||Difference in Response Rates|16.6||||0.1694|TWO_SIDED|95.0|-5.1|38.3||P-values were obtained from CMH test stratified by randomization stratification factors.|Cochran-Mantel-Haenszel||For the analysis of the difference in response rates, the data with missing response values were imputed by multiple imputation method with logistic regression.|||38.3|-5.1|0.1694
92240296|NCT03100942|184384066|SUPERIORITY||Difference in Response Rates|8.1||||0.3309|TWO_SIDED|95.0|-13.2|29.4||P-values were obtained from CMH test stratified by randomization stratification factors.|Cochran-Mantel-Haenszel||For the analysis of the difference in response rates, the data with missing response values were imputed by multiple imputation method with logistic regression.|||29.4|-13.2|0.3309
92240297|NCT03100942|184384067|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|1.05||0.2066|TWO_SIDED|95.0|-0.7|3.4|||MMRM|||Least Squares (LS) Means, 95% confidence interval (CI), and P-values were obtained from Mixed Effects Model for Repeated Measures (MMRM) with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||3.4|-0.7|0.2066
92240298|NCT03100942|184384067|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.04||0.3998|TWO_SIDED|95.0|-2.9|1.2|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||1.2|-2.9|0.3998
92240299|NCT03100942|184384067|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.04||0.5113|TWO_SIDED|95.0|-1.4|2.7|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||2.7|-1.4|0.5113
92240300|NCT03100942|184384068|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.47||0.9446|TWO_SIDED|95.0|-0.9|1.0|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||1.0|-0.9|0.9446
92231144|NCT03193866|184365125|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.1|-0.1|
92231145|NCT03193866|184365125|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.2|0.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.1|-0.2|
92231146|NCT03193866|184365125|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.1|0.2||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.2|-0.1|
92231147|NCT03193866|184365125|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.1|0.3||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.3|-0.1|
92231148|NCT03193866|184365126|SUPERIORITY||Difference in proportion|4.8|||||TWO_SIDED|95.0|-2.2|11.9||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||11.9|-2.2|
92377825|NCT02120365|184658834|SUPERIORITY||Mean Difference (Final Values)|0.369|STANDARD_ERROR_OF_MEAN|2.07||0.691|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|We report the main effect of dose on the outcome measure||||.691
92377826|NCT01726673|184658835|EQUIVALENCE|Statistical analysis of median change from baseline to DC immediately following 12 weeks of training was assessed with the upper extremity fugl meyer score in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in upper extremity fugl meyer score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|302.0||||0.256|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in upper extremity fugl meyer score from baseline to 12 weeks (discharge) across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U test|||||||0.256
92377827|NCT01726673|184658835|EQUIVALENCE|Statistical analysis of median change from baseline to week 36 (6 month follow-up) was assessed with upper extremity fugl meyer score for the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in upper extremity fugl meyer score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|222.0||||0.222|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in upper extremity fugl meyer score from baseline to 36 weeks (follow-up) across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U test|||||||0.222
92411505|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.16|||||TWO_SIDED||||||||Appetite/Eating Changes Domain; Day 36|||||
92231149|NCT03193866|184365126|SUPERIORITY||Difference in proportion|9.0|||||TWO_SIDED|95.0|-2.6|20.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||20.6|-2.6|
92231150|NCT03193866|184365126|SUPERIORITY||Difference in proportion|-0.7|||||TWO_SIDED|95.0|-7.6|6.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||6.2|-7.6|
92231151|NCT03193866|184365126|SUPERIORITY||Difference in proportion|-2.6|||||TWO_SIDED|95.0|-9.4|4.1||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.1|-9.4|
92411506|NCT01584440|184713761|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.24|||||TWO_SIDED||||||||Appetite/Eating Changes Domain; Day 70|||||
92411507|NCT01584440|184713762|SUPERIORITY||OLS Z-statistic|-3.53|||<=|0.001|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||<=0.001
92411508|NCT01584440|184713762|SUPERIORITY||ANCOVA Least Squares Mean Difference|-3.01|||||TWO_SIDED||||||||Day 36|||||
92411509|NCT01584440|184713762|SUPERIORITY||ANCOVA Least Squares Mean Difference|-3.49|||||TWO_SIDED||||||||Day 70|||||
92411510|NCT01584440|184713763|SUPERIORITY||OLS Z-statistic|-3.34||||0.001|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.001
92411511|NCT01584440|184713763|SUPERIORITY||ANCOVA Least Squares Mean Difference|-2.41|||||TWO_SIDED||||||||Day 36|||||
92411512|NCT01584440|184713763|SUPERIORITY||ANCOVA Least Squares Mean Difference|-3.94|||||TWO_SIDED||||||||Day 70|||||
92231152|NCT03193866|184365126|SUPERIORITY||Difference in proportion|-2.6|||||TWO_SIDED|95.0|-8.6|3.4||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.4|-8.6|
92231153|NCT03193866|184365126|SUPERIORITY||Difference in proportion|3.8|||||TWO_SIDED|95.0|-4.7|12.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||12.2|-4.7|
92377828|NCT01726673|184658836|EQUIVALENCE|Statistical analysis of median change from baseline to DC immediately following 12 weeks of training was assessed with the WOLF Motor Function test time score (out of 1800 seconds) in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in WMFT time score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U Value|251.5||||1|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in the WMFT time score from baseline to 12 weeks (discharge) across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U Test|||||||1.0
92411513|NCT01584440|184713764|SUPERIORITY||OLS Z-statistic|-2.46||||0.014|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.014
92411514|NCT01584440|184713764|SUPERIORITY||ANCOVA Least Squares Mean Difference|-2.65|||||TWO_SIDED||||||||Day 36|||||
92231154|NCT03193866|184365126|SUPERIORITY||Difference in proportion|0.6|||||TWO_SIDED|95.0|-6.9|8.1||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||8.1|-6.9|
92231155|NCT03193866|184365126|SUPERIORITY||Difference in proportion|3.9|||||TWO_SIDED|95.0|-6.3|14.1||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||14.1|-6.3|
92231156|NCT03193866|184365127|SUPERIORITY||Difference in proportion|-34.1|||||TWO_SIDED|95.0|-40.3|-27.9||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-27.9|-40.3|
92377829|NCT01726673|184658836|EQUIVALENCE|Statistical analysis of median change from baseline to week 36 (6 month follow-up) was assessed with the WOLF Motor Function test time score (out of 1800 seconds) in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in WMFT time score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|208.5||||0.592|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in the WMFT time score from baseline to 36 weeks ( 6 month follow-up) across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U Test|||||||0.592
92377830|NCT01726673|184658837|EQUIVALENCE|Statistical analysis of median change from baseline to DC immediately following 12 weeks of training was assessed with the Motor Power Manual Muscle Test Score for the upper extremity (out of 100 points) in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in MRC score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|270.5||||0.68|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in the MRC score from baseline to 12 weeks (discharge) across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U test|||||||0.680
92377831|NCT01726673|184658837|EQUIVALENCE|Statistical analysis of median change from baseline to week 36 (6 month FU) was assessed with the Motor Power Manual Muscle Test Score for the upper extremity (out of 100 points) in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in MRC score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|187.5||||0.837|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in the MRC score from baseline to 6 month FU across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U Test|||||||0.837
92411515|NCT01584440|184713764|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.01|||||TWO_SIDED||||||||||Day 70|||
92411516|NCT01584440|184713765|SUPERIORITY||OLS Z-statistic|-2.57||||0.01|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.010
92411517|NCT01584440|184713765|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.68|||||TWO_SIDED||||||||Day 36|||||
92411518|NCT01584440|184713765|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.2|||||TWO_SIDED||||||||Day 70|||||
92411519|NCT01584440|184713766|SUPERIORITY||OLS Z-statistic|-3.08||||0.002|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.002
92411520|NCT01584440|184713766|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.56|||||TWO_SIDED||||||||Day 36|||||
92411521|NCT01584440|184713766|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.9|||||TWO_SIDED||||||||Day 70|||||
92411522|NCT01584440|184713767|SUPERIORITY||OLS Z-statistic|-2.66||||0.008|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.008
92411523|NCT01584440|184713767|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.43|||||TWO_SIDED||||||||Day 36|||||
92411524|NCT01584440|184713767|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.75|||||TWO_SIDED||||||||Day 70|||||
92411525|NCT01584440|184713768|SUPERIORITY||OLS Z-statistic|-1.96||||0.05|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.050
92411526|NCT01584440|184713768|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.62|||||TWO_SIDED||||||||Day 36|||||
92411527|NCT01584440|184713768|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.3|||||TWO_SIDED||||||||Day 70|||||
92231157|NCT03193866|184365127|SUPERIORITY||Difference in proportion|-32.2|||||TWO_SIDED|95.0|-43.0|-21.5||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-21.5|-43.0|
92377832|NCT01344629|184658838|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|100.9||||||90.0|97.7|104.2||No statistical test|ANOVA|||||104.2|97.7|
92377833|NCT01344629|184658839|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|97.2||||||90.0|87.2|108.3||No statistical test|ANOVA|||||108.3|87.2|
92231158|NCT03193866|184365127|SUPERIORITY||Difference in proportion|-21.8|||||TWO_SIDED|95.0|-27.9|-15.7||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-15.7|-27.9|
92231159|NCT03193866|184365127|SUPERIORITY||Difference in proportion|-7.8|||||TWO_SIDED|95.0|-14.5|-1.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-1.2|-14.5|
92231160|NCT03193866|184365127|SUPERIORITY||Difference in proportion|-23.6|||||TWO_SIDED|95.0|-28.9|-18.3||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-18.3|-28.9|
92377834|NCT01344629|184658840|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|101.7||||||90.0|98.3|105.2||No statistical test|ANOVA|||||105.2|98.3|
92411528|NCT01584440|184713769|SUPERIORITY||OLS Z-statistic|-2.33||||0.02|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.020
92377835|NCT01344629|184658841|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|110.1||||||90.0|95.8|124.4||No statistical test|ANOVA|||||124.4|95.8|
92377836|NCT01344629|184658842|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|91.4||||||90.0|85.6|97.6||No statistical test|ANOVA|||||97.6|85.6|
92377837|NCT01344629|184658843|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|109.4||||||90.0|102.4|116.8||No statistical test|ANOVA|||||116.8|102.4|
92169178|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|4.68|STANDARD_ERROR_OF_MEAN|2.4||0.0527|TWO_SIDED|95.0|-0.05|9.41|||ANCOVA|||Week 56: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||9.41|-0.05|0.0527
92377838|NCT01344629|184658844|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|109.0||||||90.0|101.5|117.1||No statistical test|ANOVA|||||117.1|101.5|
92411529|NCT01584440|184713769|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.57|||||TWO_SIDED||||||||Day 36|||||
92411530|NCT01584440|184713769|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.18|||||TWO_SIDED||||||||Day 70|||||
92411531|NCT01584440|184713770|SUPERIORITY||OLS Z-statistic|1.94||||0.053|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.053
92411532|NCT01584440|184713770|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.52|||||TWO_SIDED||||||||Day 36|||||
92411533|NCT01584440|184713770|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.84|||||TWO_SIDED||||||||Day 70|||||
92411534|NCT01584440|184713771|SUPERIORITY||OLS Z-statistic|-0.72||||0.469|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population|Caregiver|||||0.469
92411535|NCT01584440|184713771|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.28|||||TWO_SIDED||||||||Caregiver: Day 36|||||
92411536|NCT01584440|184713771|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.06|||||TWO_SIDED||||||||Caregiver: Day 70|||||
92411537|NCT01584440|184713771|SUPERIORITY||OLS Z-statistic|1.41||||0.159|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population|Participant|||||0.159
92411538|NCT01584440|184713771|SUPERIORITY||ANCOVA Least Squares Mean Difference|1.09|||||TWO_SIDED||||||||Participant: Day 36|||||
92411539|NCT01584440|184713771|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.7|||||TWO_SIDED||||||||Participant: Day 70|||||
92411540|NCT01584440|184713772|SUPERIORITY||OLS Z-statistic|-1.4||||0.163|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.163
92377839|NCT02305849|184658866|SUPERIORITY||Percent Difference|36.9|||<|0.001|TWO_SIDED|95.0|26.7|47.0||Closed testing procedure was used for multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution.|Treatment Difference vs Placebo||47.0|26.7|<0.001
92377840|NCT02305849|184658866|SUPERIORITY||Percent difference|42.6|||<|0.001|TWO_SIDED|95.0|32.6|52.6||Closed testing procedure was used for multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution.|Treatment Difference vs Placebo||52.6|32.6|<0.001
92377841|NCT02305849|184658867|SUPERIORITY||||||<|0.001||||||Closed testing procedure was used for multiplicity adjustment.|RANCOVA|Based on Rank Analysis of Covariance (RANCOVA) Model: Rank of mTSS Change = Treatment + Baseline Rank of mTSS.||Treatment Difference vs Placebo||||<0.001
92377842|NCT02305849|184658867|SUPERIORITY||||||<|0.001||||||Closed testing procedure was used for multiplicity adjustment.|RANCOVA|Based on RANCOVA Model: Rank of mTSS Change = Treatment + Baseline Rank of mTSS.||Treatment Difference vs Placebo||||<0.001
92377843|NCT02305849|184658869|SUPERIORITY||Percent Difference|22.2|||<|0.001|TWO_SIDED|95.0|13.8|30.7||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||30.7|13.8|<0.001
92377844|NCT02305849|184658869|SUPERIORITY||Percent Difference|38.3|||<|0.001|TWO_SIDED|95.0|29.3|47.3||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||47.3|29.3|<0.001
92377845|NCT02305849|184658871|SUPERIORITY||Percent Difference|9.7|||<|0.001|TWO_SIDED|95.0|3.8|15.6||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||15.6|3.8|<0.001
92411541|NCT01584440|184713772|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.07|||||TWO_SIDED||||||||Day 36|||||
92231161|NCT03193866|184365127|SUPERIORITY||Difference in proportion|-12.7|||||TWO_SIDED|95.0|-18.9|-6.5||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-6.5|-18.9|
92231162|NCT03193866|184365127|SUPERIORITY||Difference in proportion|-26.5|||||TWO_SIDED|95.0|-32.8|-20.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-20.2|-32.8|
92411542|NCT01584440|184713772|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.39|||||TWO_SIDED||||||||Day 70|||||
92411543|NCT01584440|184713773|SUPERIORITY||OLS Z-statistic|-1.08||||0.279|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.279
92377846|NCT02305849|184658871|SUPERIORITY||Percent Difference|21.2|||<|0.001|TWO_SIDED|95.0|13.9|28.5||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||28.5|13.9|<0.001
92377847|NCT02305849|184658873|SUPERIORITY||||||<|0.001||||||Based on RANCOVA Model: Rank of mTSS Change = Treatment + Baseline Rank of mTSS.|RANCOVA|||Treatment Difference vs Placebo||||<0.001
92377848|NCT02305849|184658873|SUPERIORITY||||||<|0.001||||||Based on RANCOVA Model: Rank of mTSS Change = Treatment + Baseline Rank of mTSS.|RANCOVA|||Treatment Difference vs Placebo||||<0.001
92377849|NCT02305849|184658874|SUPERIORITY|||||||0.018|||||||RANCOVA|Based on RANCOVA Model: Rank of JSN Score Change = Treatment + Baseline Rank of JSN score.||Week 28/ET: Treatment Difference vs Placebo||||0.018
92411544|NCT01584440|184713773|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.76|||||TWO_SIDED||||||||Day 8|||||
92411545|NCT01584440|184713773|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.02|||||TWO_SIDED||||||||Day 22|||||
92377850|NCT02305849|184658874|SUPERIORITY|||||||0.002|||||||RANCOVA|Based on RANCOVA Model: Rank of JSN Score Change = Treatment + Baseline Rank of JSN score.||Week 28/ET: Treatment Difference vs Placebo||||0.002
92411546|NCT01584440|184713773|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.74|||||TWO_SIDED||||||||Day 43|||||
92377851|NCT02305849|184658874|SUPERIORITY|||||||0.039|||||||RANCOVA|Based on RANCOVA Model: Rank of JSN Score Change = Treatment + Baseline Rank of JSN Score.||Week 52/ET: Treatment Difference vs Placebo||||0.039
92377852|NCT02305849|184658874|SUPERIORITY|||||||0.006|||||||RANCOVA|Based on RANCOVA Model: Rank of JSN Score Change = Treatment + Baseline Rank of JSN Score.||Week 52/ET: Treatment Difference vs Placebo||||0.006
92377853|NCT02305849|184658875|SUPERIORITY|||||||0.036|||||||RANCOVA|Based on RANCOVA Model: Rank of Erosion Score Change = Treatment + Baseline Rank of Erosion Score.||Week 28/ET: Treatment Difference vs Placebo||||0.036
92411547|NCT01584440|184713773|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.05|||||TWO_SIDED||||||||Day 57|||||
92411548|NCT01584440|184713774|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0001|TWO_SIDED|95.0|1.62|4.5|||ANCOVA||Day 36|||4.50|1.62|0.0001
92411549|NCT01584440|184713774|SUPERIORITY||Odds Ratio (OR)|1.61||||0.2184|TWO_SIDED|95.0|0.75|3.43|||ANCOVA||Day 70|||3.43|0.75|0.2184
92411550|NCT01584440|184713775|SUPERIORITY||Odds Ratio (OR)|2.45||||0.0266|TWO_SIDED|95.0|1.11|5.42|||ANCOVA|||||5.42|1.11|0.0266
92411551|NCT01584440|184713776|SUPERIORITY||Odds Ratio (OR)|2.16||||0.002|TWO_SIDED|95.0|1.31|3.55|||ANCOVA||Day 36|||3.55|1.31|0.002
92411552|NCT01584440|184713776|SUPERIORITY||Odds Ratio (OR)|2.32||||0.031|TWO_SIDED|95.0|1.08|5.0|||ANCOVA||Day 70|||5.00|1.08|0.031
92411553|NCT01584440|184713777|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0048|TWO_SIDED|95.0|1.31|4.46|||ANCOVA|||||4.46|1.31|0.0048
92411554|NCT00531427|184713787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.0853|TWO_SIDED|95.0|-0.8|0.05|||Mixed Models Analysis|Statistics are based on a mixed effect general linear model||"\[Week 12 analysis\] The null hypothesis was no group differences. The alternative hypothesis was that BTDS arm was superior to the placebo arm.~Pain scale is 11 points (0 = no pain to 10 = pain as bad as you can imagine)."||0.05|-0.80|0.0853
92231163|NCT03193866|184365127|SUPERIORITY||Difference in proportion|-31.7|||||TWO_SIDED|95.0|-40.1|-23.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-23.2|-40.1|
92231164|NCT03193866|184365128|SUPERIORITY||Difference in proportion|-33.2|||||TWO_SIDED|95.0|-39.4|-27.0||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-27.0|-39.4|
92231165|NCT03193866|184365128|SUPERIORITY||Difference in proportion|-30.6|||||TWO_SIDED|95.0|-41.4|-19.8||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-19.8|-41.4|
92231166|NCT03193866|184365128|SUPERIORITY||Difference in proportion|-20.8|||||TWO_SIDED|95.0|-27.0|-14.7||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-14.7|-27.0|
92231167|NCT03193866|184365128|SUPERIORITY||Difference in proportion|-7.0|||||TWO_SIDED|95.0|-13.6|-0.3||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-0.3|-13.6|
92231168|NCT03193866|184365128|SUPERIORITY||Difference in proportion|-23.7|||||TWO_SIDED|95.0|-29.2|-18.3||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-18.3|-29.2|
92377854|NCT02305849|184658875|SUPERIORITY||||||<|0.001|||||||RANCOVA|Based on RANCOVA Model: Rank of Erosion Score Change = Treatment + Baseline Rank of Erosion Score.||Week 28/ET: Treatment Difference vs Placebo||||<0.001
92231169|NCT03193866|184365128|SUPERIORITY||Difference in proportion|-12.3|||||TWO_SIDED|95.0|-18.6|-6.1||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-6.1|-18.6|
92231170|NCT03193866|184365128|SUPERIORITY||Difference in proportion|-25.3|||||TWO_SIDED|95.0|-31.7|-19.0||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-19.0|-31.7|
92231171|NCT03193866|184365128|SUPERIORITY||Difference in proportion|-29.5|||||TWO_SIDED|95.0|-38.2|-20.8||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-20.8|-38.2|
92231172|NCT03193866|184365129|SUPERIORITY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.07|0.0||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.00|-0.07|
92240301|NCT03100942|184384068|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.47||0.3977|TWO_SIDED|95.0|-1.3|0.5|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.5|-1.3|0.3977
92377855|NCT02305849|184658875|SUPERIORITY|||||||0.013|||||||RANCOVA|Based on RANCOVA Model: Rank of Erosion Score Change = Treatment + Baseline Rank of Erosion Score.||Week 52/ET: Treatment Difference vs Placebo||||0.013
92377856|NCT02305849|184658875|SUPERIORITY||||||<|0.001|||||||RANCOVA|Based on RANCOVA Model: Rank of Erosion Score Change = Treatment + Baseline Rank of Erosion Score.||Week 52/ET: Treatment Difference vs Placebo||||<0.001
92377857|NCT02305849|184658876|SUPERIORITY||Percent Difference|21.3|||<|0.001|TWO_SIDED|95.0|10.0|32.6||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Week 28/ET: Treatment Difference vs Placebo||32.6|10.0|<0.001
92231173|NCT03193866|184365129|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.09|0.06||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.06|-0.09|
92231174|NCT03193866|184365129|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.03|0.03||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.03|-0.03|
92231175|NCT03193866|184365129|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.03|0.05||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.05|-0.03|
92231176|NCT03193866|184365129|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.02|0.04||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.04|-0.02|
92231177|NCT03193866|184365129|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.01|0.06||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.06|-0.01|
92231178|NCT03193866|184365129|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|0.0|0.06||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.06|0.00|
92411555|NCT00531427|184713788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.037||||0.7098|TWO_SIDED|95.0|-0.233|0.159||To control multiplicity and family-wise error rate, a gate-keeping strategy (stepwise approach) was used to evaluate the statistical significance of the secondary variables. If the primary is negative, the secondary P values are descriptive only.|ANCOVA|with treatment as a factor and screening and pre-randomization mean pain as covariates.||Categorical analysis P value is based on a Fisher's exact test. Mean daily number of tablets for subjects who took \<=1 dose of supplemental analgesia||0.159|-0.233|0.7098
92411556|NCT00531427|184713789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.46||||0.0034|TWO_SIDED|95.0|-7.44|-1.48||To control multiplicity and family-wise error rate, a gate-keeping strategy (stepwise approach) was used to evaluate the statistical significance of the secondary variables. If the primary is negative, the secondary P values are descriptive only.|Mixed Models Analysis|||Weeks 4, 8, 12 analysis The sleep disturbance subscale was analyzed using the mixed effect linear model with fixed effects for treatment (BTDS or placebo) and time (weeks 1, 2, 4, 8, 12) as categorical, screening mean and prerandomization mean value as covariates, and subject as a random effect.||-1.48|-7.44|0.0034
92411557|NCT05688670|184713790|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.001|TWO_SIDED|95.0|-0.59|-0.18|||t-test, 2 sided|||||-0.18|-0.59|0.001
92231179|NCT03193866|184365129|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.06|0.03||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.03|-0.06|
92411558|NCT05688670|184713791|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.41|TWO_SIDED|95.0|-0.2|0.08|||t-test, 2 sided|||12-24 hour postoperative opioid use||0.08|-0.20|0.41
92411559|NCT05688670|184713791|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.14|TWO_SIDED|95.0|-0.37|0.06|||t-test, 2 sided|||24-48 hour postoperative opioid use||0.06|-0.37|0.14
92231180|NCT03193866|184365130|SUPERIORITY||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-3.3|5.2||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||5.2|-3.3|
92411560|NCT05688670|184713791|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.16|TWO_SIDED|95.0|-0.52|0.09|||t-test, 2 sided|||12-48 hours hours after surgery||0.09|-0.52|0.16
92411561|NCT05688670|184713792|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.004|TWO_SIDED|95.0|-1.02|-0.22|||t-test, 2 sided|||||-0.22|-1.02|0.004
92411562|NCT05688670|184713793|SUPERIORITY||Mean Difference (Final Values)|-49.5||||0.002|TWO_SIDED|95.0|-78.9|-20.1|||t-test, 2 sided|||||-20.1|-78.9|0.002
92411563|NCT00488683|184713794|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.06||||0.69||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup A||||0.69
92231181|NCT03193866|184365130|SUPERIORITY||Mean Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-9.4|6.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||6.4|-9.4|
92231182|NCT03193866|184365130|SUPERIORITY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-4.2|1.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.4|-4.2|
92231183|NCT03193866|184365130|SUPERIORITY||Mean Difference (Final Values)|-2.6|||||TWO_SIDED|95.0|-5.9|0.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.8|-5.9|
92231184|NCT03193866|184365130|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.9|2.5||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||2.5|-2.9|
92231185|NCT03193866|184365130|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-4.0|1.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.8|-4.0|
92377858|NCT02305849|184658876|SUPERIORITY||Percent Difference|26.8|||<|0.001|TWO_SIDED|95.0|15.7|37.9||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Week 28/ET: Treatment Difference vs Placebo||37.9|15.7|<0.001
92377859|NCT02305849|184658876|SUPERIORITY||Percent Difference|21.5|||<|0.001|TWO_SIDED|95.0|10.2|32.9||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Week 52/ET: Treatment Difference vs Placebo||32.9|10.2|<0.001
92377860|NCT02305849|184658876|SUPERIORITY||Percent Difference|26.4|||<|0.001|TWO_SIDED|95.0|15.2|37.6||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Week 52/ET: Treatment Difference vs Placebo||37.6|15.2|<0.001
92377861|NCT02305849|184658877|SUPERIORITY||LS Mean difference|-1.21|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.46|-0.97||No multiplicity adjustment.|ANCOVA|Based on ANCOVA (analysis of covariance) Model: DAS28 Change = Treatment + Baseline DAS28.||Treatment Difference vs Placebo||-0.97|-1.46|<0.001
92377862|NCT02305849|184658877|SUPERIORITY||LS Mean difference|-1.59|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.85|-1.33||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: DAS28 Change = Treatment + Baseline DAS28.||Treatment Difference vs Placebo||-1.33|-1.85|<0.001
92377863|NCT02305849|184658879|SUPERIORITY||LS Mean difference|-1.19|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.44|-0.94||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: DAS28 Change = Treatment + Baseline DAS28.||Treatment Difference vs Placebo||-0.94|-1.44|<0.001
92377864|NCT02305849|184658879|SUPERIORITY||LS Mean difference|-1.63|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.89|-1.36||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: DAS28 Change = Treatment + Baseline DAS28.||Treatment Difference vs Placebo||-1.36|-1.89|<0.001
92377865|NCT02305849|184658881|SUPERIORITY||LS Mean difference|-5.2|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-6.9|-3.5||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: TJC68 Change = Treatment + Baseline TJC68.||Treatment Difference vs Placebo||-3.5|-6.9|<0.001
92377866|NCT02305849|184658881|SUPERIORITY||LS Mean difference|-7.2|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-8.9|-5.6||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: TJC68 Change = Treatment + Baseline TJC68.||Treatment Difference vs Placebo||-5.6|-8.9|<0.001
92377867|NCT02305849|184658883|SUPERIORITY||LS Mean difference|-3.9|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-5.3|-2.6||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SJC66 Change = Treatment + Baseline SJC66.||Treatment Difference vs Placebo||-2.6|-5.3|<0.001
92231186|NCT03193866|184365130|SUPERIORITY||Mean Difference (Final Values)|-3.1|||||TWO_SIDED|95.0|-7.0|0.9||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.9|-7.0|
92231187|NCT03193866|184365130|SUPERIORITY||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-2.9|5.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||5.4|-2.9|
92377868|NCT02305849|184658883|SUPERIORITY||LS Mean difference|-5.6|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-6.9|-4.3||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SJC66 Change = Treatment + Baseline SJC66.||Treatment Difference vs Placebo||-4.3|-6.9|<0.001
92231188|NCT03193866|184365131|SUPERIORITY||Mean Difference (Final Values)|-5.5|||||TWO_SIDED|95.0|-8.1|-2.9||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-2.9|-8.1|
92231189|NCT03193866|184365131|SUPERIORITY||Mean Difference (Final Values)|-5.9|||||TWO_SIDED|95.0|-10.9|-1.0||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-1.0|-10.9|
92231190|NCT03193866|184365131|SUPERIORITY||Mean Difference (Final Values)|-2.4|||||TWO_SIDED|95.0|-4.0|-0.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-0.8|-4.0|
92231191|NCT03193866|184365131|SUPERIORITY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-2.1|1.5||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.5|-2.1|
92231192|NCT03193866|184365131|SUPERIORITY||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-2.2|0.6||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.6|-2.2|
92231193|NCT03193866|184365131|SUPERIORITY||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-0.3|2.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||2.8|-0.3|
92231194|NCT03193866|184365131|SUPERIORITY||Mean Difference (Final Values)|2.7|||||TWO_SIDED|95.0|0.9|4.6||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.6|0.9|
92231195|NCT03193866|184365131|SUPERIORITY||Mean Difference (Final Values)|2.1|||||TWO_SIDED|95.0|0.2|4.0||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.0|0.2|
92278055|NCT00782509|184458142|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.2822|STANDARD_ERROR_OF_MEAN|0.2403||0.1853|TWO_SIDED|95.0|0.8874|1.8527|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.8527|0.8874|0.1853
92278056|NCT00782509|184458143|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0314|STANDARD_ERROR_OF_MEAN|0.4664||0.9455|TWO_SIDED|95.0|0.4244|2.5063|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||2.5063|0.4244|0.9455
92377869|NCT02305849|184658885|SUPERIORITY||Percent Difference|23.7|||<|0.001|TWO_SIDED|95.0|15.1|32.3||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||32.3|15.1|<0.001
92377870|NCT02305849|184658885|SUPERIORITY||Percent Difference|27.4|||<|0.001|TWO_SIDED|95.0|18.6|36.2||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||36.2|18.6|<0.001
92377871|NCT02305849|184658887|SUPERIORITY||Percent Difference|10.4|||<|0.001|TWO_SIDED|95.0|4.3|16.5||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected)|Treatment Difference vs Placebo||16.5|4.3|<0.001
92377872|NCT02305849|184658887|SUPERIORITY||Percent Difference|16.9|||<|0.001|TWO_SIDED|95.0|10.0|23.9||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected)|Treatment Difference vs Placebo||23.9|10.0|<0.001
92377873|NCT02305849|184658889|SUPERIORITY||Percent Difference|34.7|||<|0.001|TWO_SIDED|95.0|25.1|44.2||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||44.2|25.1|<0.001
92377874|NCT02305849|184658889|SUPERIORITY||Percent Difference|45.5|||<|0.001|TWO_SIDED|95.0|36.0|55.0||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||55.0|36.0|<0.001
92377875|NCT02305849|184658891|SUPERIORITY||Percent Difference|20.3|||<|0.001|TWO_SIDED|95.0|12.5|28.1||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||28.1|12.5|<0.001
92169179|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-1.63|STANDARD_ERROR_OF_MEAN|1.82||0.3699|TWO_SIDED|95.0|-5.21|1.94|||ANCOVA|||Week 16: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.94|-5.21|0.3699
92231196|NCT03878147|184365160|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Mean Difference (Final Values)|2.39|STANDARD_ERROR_OF_MEAN|0.82|<|0.01|TWO_SIDED|95.0|0.78|4.01||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||4.01|0.78|<.01
92377876|NCT02305849|184658891|SUPERIORITY||Percent Difference|31.5|||<|0.001|TWO_SIDED|95.0|23.1|40.0||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||40.0|23.1|<0.001
92377877|NCT02305849|184658893|SUPERIORITY||LS Mean Difference|-1.597|STANDARD_ERROR_OF_MEAN|0.178|<|0.001|TWO_SIDED|95.0|-1.948|-1.247||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: CRP Change = Treatment + Baseline CRP.||Treatment Difference vs Placebo||-1.247|-1.948|<0.001
92377878|NCT02305849|184658893|SUPERIORITY||LS Mean Difference|-1.458|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.852|-1.065||No multiplicity adjustment.|ANCOVA|||Treatment Difference vs Placebo||-1.065|-1.852|<0.001
92377879|NCT02305849|184658895|SUPERIORITY||LS Mean Difference|-17.89|STANDARD_ERROR_OF_MEAN|1.89|<|0.001|TWO_SIDED|95.0|-21.61|-14.17||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: ESR Change = Treatment + Baseline ESR.||Treatment Difference vs Placebo||-14.17|-21.61|<0.001
92377880|NCT02305849|184658895|SUPERIORITY||LS Mean Difference|-20.61|STANDARD_ERROR_OF_MEAN|2.06|<|0.001|TWO_SIDED|95.0|-24.67|-16.56||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: ESR Change = Treatment + Baseline ESR.||Treatment Difference vs Placebo||-16.56|-24.67|<0.001
92377881|NCT02305849|184658897|SUPERIORITY||Percent Difference|33.0|||<|0.001|TWO_SIDED|95.0|23.7|42.2||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||42.2|23.7|<0.001
92377882|NCT02305849|184658897|SUPERIORITY||Percent Difference|45.5|||<|0.001|TWO_SIDED|95.0|36.2|54.8||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||54.8|36.2|<0.001
92377883|NCT02305849|184658899|SUPERIORITY||Percent Difference|42.4|||<|0.001|TWO_SIDED|95.0|32.3|52.5||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected|Treatment Difference vs Placebo||52.5|32.3|<0.001
92377884|NCT02305849|184658899|SUPERIORITY||Percent Difference|49.3|||<|0.001|TWO_SIDED|95.0|39.7|58.9||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected|Treatment Difference vs Placebo||58.9|39.7|<0.001
92377885|NCT02305849|184658901|SUPERIORITY||Percent Difference|19.7|||<|0.001|TWO_SIDED|95.0|12.1|27.3|||Fisher Exact|No multiplicity adjustment.|CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||27.3|12.1|<0.001
92377886|NCT02305849|184658901|SUPERIORITY||Percent Difference|30.4|||<|0.001|TWO_SIDED|95.0|22.0|38.7||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||38.7|22.0|<0.001
92377887|NCT02305849|184658903|SUPERIORITY||Percent Difference|42.5|||<|0.001|TWO_SIDED|95.0|32.3|52.6||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||52.6|32.3|<0.001
92377888|NCT02305849|184658903|SUPERIORITY||Percent Difference|47.0|||<|0.001|TWO_SIDED|95.0|37.1|56.9||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||56.9|37.1|<0.001
92377889|NCT02305849|184658905|SUPERIORITY||Percent Difference|5.2||||0.011|TWO_SIDED|95.0|1.0|9.5||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||9.5|1.0|0.011
92377890|NCT02305849|184658905|SUPERIORITY||Percent Difference|9.3|||<|0.001|TWO_SIDED|95.0|4.1|14.6||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||14.6|4.1|<0.001
92239650|NCT00637273|184383085|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.75||0.1685|TWO_SIDED|95.0|-2.6|0.4||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in diastolic blood pressure from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of diastolic blood pressure as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||0.4|-2.6|0.1685
92377891|NCT02305849|184658907|SUPERIORITY|No multiplicity adjustment.|Percent Difference|6.4||||0.003|TWO_SIDED|95.0|1.8|11.0|||Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||11.0|1.8|0.003
92377892|NCT02305849|184658907|SUPERIORITY||Percent Difference|13.4|||<|0.001|TWO_SIDED|95.0|7.5|19.4||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||19.4|7.5|<0.001
92231197|NCT03878147|184365160|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 6.|Mean Difference (Final Values)|0.82|STANDARD_ERROR_OF_MEAN|0.82||0.32|TWO_SIDED|95.0|-0.8|2.44||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||2.44|-0.80|.32
92239651|NCT00637273|184383086|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|3.31||0.2686|TWO_SIDED|95.0|-2.8|10.2||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting total cholesterol from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting total cholesterol as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||10.2|-2.8|0.2686
92377893|NCT02305849|184658909|SUPERIORITY||LS Mean Difference|-11.22|STANDARD_ERROR_OF_MEAN|1.33|<|0.001|TWO_SIDED|95.0|-13.84|-8.6||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SDAI Change = Treatment + Baseline SDAI.||Treatment Difference vs Placebo||-8.60|-13.84|<0.001
92377894|NCT02305849|184658909|SUPERIORITY||LS Mean Difference|-14.67|STANDARD_ERROR_OF_MEAN|1.36|<|0.001|TWO_SIDED|95.0|-17.35|-11.98||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SDAI Change = Treatment + Baseline SDAI.||Treatment Difference vs Placebo||-11.98|-17.35|<0.001
92377895|NCT02305849|184658911|SUPERIORITY||LS Mean difference|-17.67|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|-22.11|-13.22||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: PGA (100 mm VAS) Change = Treatment + Baseline PGA (100 mm VAS).||Treatment Difference vs Placebo||-13.22|-22.11|<0.001
92377896|NCT02305849|184658911|SUPERIORITY||LS Mean Difference|-24.09|STANDARD_ERROR_OF_MEAN|2.33|<|0.001||95.0|-28.66|-19.51||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: PGA (100 mm VAS) Change = Treatment + Baseline PGA (100 mm VAS).||Treatment Difference vs Placebo||-19.51|-28.66|<0.001
92411564|NCT00488683|184713794|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.14||||0.3||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup C||||0.30
92411565|NCT00488683|184713794|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.81|||<|0.0001||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup W-135||||<0.0001
92169180|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|1.83||0.7945|TWO_SIDED|95.0|-4.06|3.11|||ANCOVA|||Week 16: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.11|-4.06|0.7945
92377897|NCT02305849|184658913|SUPERIORITY||LS Mean Difference|-16.64|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|-21.09|-12.19||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SGA (100 mm VAS) Change = Treatment + Baseline SGA (100 mm VAS)||Treatment Difference vs Placebo||-12.19|-21.09|<0.001
92377898|NCT02305849|184658913|SUPERIORITY||LS Mean difference|-20.34|STANDARD_ERROR_OF_MEAN|2.4|<|0.001|TWO_SIDED|95.0|-25.07|-15.61||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SGA (100 mm VAS) Change = Treatment + Baseline SGA (100 mm VAS).||Treatment Difference vs Placebo||-15.61|-25.07|<0.001
92169181|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|2.03||0.941|TWO_SIDED|95.0|-4.13|3.83|||ANCOVA|||Week 24: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.83|-4.13|0.9410
92240302|NCT03100942|184384068|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.4966|TWO_SIDED|95.0|-1.2|0.6|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.6|-1.2|0.4966
92377899|NCT02305849|184658915|SUPERIORITY||LS Mean Difference|-17.19|STANDARD_ERROR_OF_MEAN|2.44|<|0.001|TWO_SIDED|95.0|-22.0|-12.38||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SGAP (100 mm VAS) Change = Treatment + Baseline SGAP (100 mm VAS).||Treatment Difference vs Placebo||-12.38|-22.00|<0.001
92377900|NCT02305849|184658915|SUPERIORITY||LS Mean difference|-20.89|STANDARD_ERROR_OF_MEAN|2.5|<|0.001|TWO_SIDED|95.0|-25.8|-15.98||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SGAP (100 mm VAS) Change = Treatment + Baseline SGAP (100 mm VAS).||Treatment Difference vs Placebo||-15.98|-25.80|<0.001
92377901|NCT02305849|184658918|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.36|-0.17||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: HAQ-DI Change = Treatment + Baseline HAQ-DI.||Treatment Difference vs Placebo||-0.17|-0.36|<0.001
92377902|NCT02305849|184658918|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.48|-0.29||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: HAQ-DI Change = Treatment + Baseline HAQ-DI.||Treatment Difference vs Placebo||-0.29|-0.48|<0.001
92377903|NCT02305849|184658920|SUPERIORITY||LS Mean Difference|6.41|STANDARD_ERROR_OF_MEAN|1.18|<|0.001|TWO_SIDED|95.0|4.09|8.74||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||8.74|4.09|<0.001
92377904|NCT02305849|184658920|SUPERIORITY||LS Mean Difference|8.61|STANDARD_ERROR_OF_MEAN|1.14|<|0.001|TWO_SIDED|95.0|6.36|10.86||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||10.86|6.36|<0.001
92377905|NCT02305849|184658922|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.76|<|0.001|TWO_SIDED|95.0|1.21|4.18||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||4.18|1.21|<0.001
92377906|NCT02305849|184658922|SUPERIORITY||LS Mean Difference|1.65|STANDARD_ERROR_OF_MEAN|0.78||0.036|TWO_SIDED|95.0|0.11|3.19||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||3.19|0.11|0.036
92377907|NCT02305849|184658924|SUPERIORITY||LS Mean Difference|2.29|STANDARD_ERROR_OF_MEAN|1.39||0.099|TWO_SIDED|95.0|-0.44|5.02||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||5.02|-0.44|0.099
92377908|NCT02305849|184658924|SUPERIORITY||LS Mean Difference|4.22|STANDARD_ERROR_OF_MEAN|1.37||0.002|TWO_SIDED|95.0|1.53|6.91||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||6.91|1.53|0.002
92377909|NCT02305849|184658926|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|2.43||0.879|TWO_SIDED|95.0|-5.16|4.42||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||4.42|-5.16|0.879
92377910|NCT02305849|184658926|SUPERIORITY||LS Mean Difference|-1.81|STANDARD_ERROR_OF_MEAN|2.05||0.377|TWO_SIDED|95.0|-5.86|2.23||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||2.23|-5.86|0.377
92377911|NCT02305849|184658928|SUPERIORITY||LS Mean Difference|-9.63|STANDARD_ERROR_OF_MEAN|3.5||0.007|TWO_SIDED|95.0|-16.54|-2.73||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-2.73|-16.54|0.007
92411566|NCT00488683|184713794|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.67||||0.001||95.0||||Values from Groups I, II and III were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup Y||||0.001
92169182|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-1.43|STANDARD_ERROR_OF_MEAN|2.05||0.486|TWO_SIDED|95.0|-5.44|2.59|||ANCOVA|||Week 24: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.59|-5.44|0.4860
92377912|NCT02305849|184658928|SUPERIORITY||LS Mean Difference|-14.17|STANDARD_ERROR_OF_MEAN|3.58|<|0.001|TWO_SIDED|95.0|-21.24|-7.1||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-7.10|-21.24|<0.001
92377913|NCT02305849|184658930|SUPERIORITY||LS Mean Difference|-9.43|STANDARD_ERROR_OF_MEAN|3.63||0.01|TWO_SIDED|95.0|-16.6|-2.25||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-2.25|-16.60|0.010
92377914|NCT02305849|184658930|SUPERIORITY||LS Mean Difference|-14.61|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-21.92|-7.31||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-7.31|-21.92|<0.001
92411567|NCT00488683|184713794|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.08||||0.61||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup A||||0.61
92377915|NCT02305849|184658932|SUPERIORITY||LS Mean Difference|-13.19|STANDARD_ERROR_OF_MEAN|2.56|<|0.001|TWO_SIDED|95.0|-18.23|-8.16||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-8.16|-18.23|<0.001
92377916|NCT02305849|184658932|SUPERIORITY||LS Mean Difference|-17.61|STANDARD_ERROR_OF_MEAN|2.52|<|0.001|TWO_SIDED|95.0|-22.57|-12.66||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-12.66|-22.57|<0.001
92169183|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|3.05|STANDARD_ERROR_OF_MEAN|2.62||0.2448|TWO_SIDED|95.0|-2.1|8.2|||ANCOVA|||Week 56: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||8.20|-2.10|0.2448
92231198|NCT03878147|184365160|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Mean Difference (Final Values)|-1.79|STANDARD_ERROR_OF_MEAN|0.99||0.07|TWO_SIDED|95.0|-3.74|0.16||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.16|-3.74|.07
92377917|NCT00355342|184658937|EQUIVALENCE|The null hypothesis for the primary measure is that the difference between the effects of fluticasone propionate/salmeterol combination product 250/50mcg BID and salmeterol 50mcg BID on the change in BMD assessed at the L1-L4 region of the spine is greater than 1 %/year.|Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|0.06|1.49|||||Analysis Model: Percent change from baseline BMD = treatment + time (years) + treatment\*time + baseline BMD + sex + investigator + age + BMI + FEV1 severity + b/l activity level + b/l calcium supp. use + smoking status.|The analysis is presented for slope estimate calculated for the percent change from Baseline values at Week 26, 52, 78, 104, 130, and 156.|Age split by category (40-64 years old, 65 or older). FEV1 severity based on GOLD Stage (Mild/Moderate, Severe/Very Severe). Activity based on 0-10 Physical Activity Scale (split by median, \<7, \>=7). Slope estimates based on treatment\*time via repeated measures model with unstructured covariance.|1.49|0.06|
92377918|NCT00355342|184658938|EQUIVALENCE|The null hypothesis for the primary measure is that the difference between the effects of fluticasone propionate/salmeterol combination product 250/50mcg BID and salmeterol 50mcg BID on the change in BMD assessed at the L1-L4 region of the spine is greater than 1 %/year.|Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.78|0.24|||||Analysis Model: Percent change from baseline BMD = treatment + time (years) + treatment\*time + baseline BMD + sex + investigator + age + BMI + FEV1 severity + b/l activity level + b/l calcium supp. use + smoking status|The analysis is presented for slope estimate calculated for the percent change from Baseline values at Week 26, 52, 78, 104, 130, and 156.|Age split by category (40-64 years old, 65 or older). FEV1 severity based on GOLD Stage (Mild/Moderate, Severe/Very Severe). Activity based on 0-10 Physical Activity Scale (split by median, \<7, \>=7). Slope estimates based on treatment\*time via repeated measures model with unstructured covariance.|0.24|-0.78|
92377919|NCT00997425|184658950|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED|||||values above 0.05 are considered statistically not significant in this study|paired t-test|statistical analysis applies to door approach behavior||||||0.098
92377920|NCT00997425|184658950|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED|||||P values above 0.05 are considered statistically not significant in this study|paired t-test|statistical analysis applies to door pass through behavior||||||0.045
92377921|NCT02312765|184658964|SUPERIORITY|||||||0.72|||||||Chi-squared|||||||0.72
92377922|NCT02481713|184658978|NON_INFERIORITY|All analyses were two-tailed with alpha set at 0.05||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
92377923|NCT02481713|184658979|SUPERIORITY||Risk Ratio (RR)|1.46||||0.0001|TWO_SIDED|95.0|1.25|1.69|||Regression, zero-inflated Poisson|||||1.69|1.25|.0001
92377924|NCT01527383|184658980|OTHER||||||<|0.0001|||||||Longitudinal regression|Visit and stratification factor (biologic or non-biologic autoimmune therapy) were covariates|||The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|||<0.0001
92377925|NCT01527383|184658981|OTHER||||||<|0.0001|||||||Longitudinal regression|Visit and stratification factor (biologic or non-biologic autoimmune therapy) were covariates|||The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|||<0.0001
92377926|NCT02575118|184659033|OTHER||||||<|0.05|||||||linear mixed-effects regression models|All available data, and hence data for participants with missing observations at some time points, were included in the model.||In one saliva sample collected before treatment, the BPA concentration was more than 100 times higher (11.6 ng/ml) than the mean value and more than 100 SD from the mean of the remaining 19 samples. This saliva sample was excluded from the statistical analysis because it was probably contaminated. One participant had breakfast before the sample time point 1 wk after treatment, and thus the samples collected from this participant at this time point were not included in the statistical analysis.|We used mixed effects models and all available data (also data for participants with missing observations at some time points) were included in the model. Using mixed effects models is a recognized method when there are missing data. Thus, data from all 20 individuals were used for estimations at all time points (see: Rabe-Hesketh and Skrondal. Multilevel and Longitudinal Modeling Using Stata, Volume I, Third Edition. 2012, page 279).|||<0.05
92411568|NCT00488683|184713794|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.31||||0.02||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup C||||0.02
92411569|NCT00488683|184713794|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.45||||0.002||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup W-135||||0.002
92411570|NCT00488683|184713794|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.4||||0.08||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup Y||||0.08
92240303|NCT03100942|184384069|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.1||0.9564|TWO_SIDED|95.0|-2.2|2.1|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||2.1|-2.2|0.9564
92411571|NCT00488683|184713794|SUPERIORITY_OR_OTHER||R-square|0.004||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup A||||
92411572|NCT00488683|184713794|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup C||||
92411573|NCT00488683|184713794|SUPERIORITY_OR_OTHER||R-square|0.66||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup W-135||||
92411574|NCT00488683|184713794|SUPERIORITY_OR_OTHER||R-square|0.45||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup Y||||
92411575|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.07||||0.7||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup A||||0.70
92411576|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.13||||0.37||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup C||||0.37
92231199|NCT03878147|184365160|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 6.|Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.96||0.83|TWO_SIDED|95.0|-2.1|1.68||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||1.68|-2.10|.83
92240304|NCT03100942|184384069|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|1.07||0.2788|TWO_SIDED|95.0|-3.3|0.9|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.9|-3.3|0.2788
92411577|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.66|||<|0.0001||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup W-135||||<0.0001
92411578|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.9|||<|0.0001||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup Y||||<0.0001
92411579|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.01||||0.94||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup A||||0.94
92411580|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.05||||0.7||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup C||||0.70
92411581|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.3||||0.04||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup W-135||||0.04
92411582|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.46||||0.004||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup Y||||0.004
92411583|NCT00488683|184713795|SUPERIORITY_OR_OTHER||R-square|0.005||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup A||||
92411584|NCT00488683|184713795|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup C||||
92411585|NCT00488683|184713795|SUPERIORITY_OR_OTHER||R-square|0.43||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup W-135||||
92411586|NCT00488683|184713795|SUPERIORITY_OR_OTHER||R-square|0.82||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup Y||||
92411587|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.05||||0.68||95.0||||Values from Group 1, 2 and 2 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup A||||0.68
92411588|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.08||||0.46||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup C||||0.46
92377927|NCT02575118|184659034|OTHER||||||<|0.05|||||||linear mixed-effects regression models|All available data, and hence data for participants with missing observations at some time points, were included in the model.||One participant had breakfast before the sample time point 1 wk after treatment, and thus the samples collected from this participant at this time point were not included in the statistical analysis.|We used mixed effects models and all available data (also data for participants with missing observations at some time points), were included in the model. Using mixed effects models is a recognized method when there are missing data. Thus, data from all 20 individuals were used for estimations at all time points (see: Rabe-Hesketh and Skrondal. Multilevel and Longitudinal Modeling Using Stata, Volume I, Third Edition. 2012, page 279).|||<0.05
92377928|NCT01689350|184659035|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.99|||<|0.01|TWO_SIDED|95.0|1.76|14.14|||Chi-squared|||Null hypothesis: there is no difference between the control group and experimental group in terms of frequency of leucopenia.(α=0.05） Chi-square test was applied to test the difference. The Chi-square value was 10.08 and the P-value was 0.0015, which indicated that the null hypothesis could be rejected.||14.14|1.76|<0.01
92377929|NCT01689350|184659036|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.69|||<|0.05|TWO_SIDED|95.0|1.01|7.13|||Chi-squared|||||7.13|1.01|<0.05
92377930|NCT00554099|184659037|SUPERIORITY_OR_OTHER||Mean Difference vs. Placebo|-3.0|STANDARD_ERROR_OF_MEAN|1.69||0.3781|ONE_SIDED|90.0||-0.809|||ANCOVA|Fixed effects for treatment, number of diverticulitis attacks and baseline value as covariate.||It was assumed that the placebo treatment group and mesalamine treatment group would have an average composite score of 8.4 and 5.88 at Week 12, respectively. The common standard deviation was set to 4.5 based on the 2 standard deviation rule. Based on these assumptions, 60 patients per treatment group required to detect 30% treatment difference at 1-sided, 0.1 level of significance, with 80% power.||-0.809||0.3781
92377931|NCT00554099|184659037|SUPERIORITY_OR_OTHER||Mean Difference vs. Placebo|-1.4|STANDARD_ERROR_OF_MEAN|1.74||0.6285|ONE_SIDED|90.0||0.815|||ANCOVA|Fixed effects for treatment, number of diverticulitis attacks and baseline value as covariate.||It was assumed that the placebo treatment group and mesalamine treatment group would have an average composite score of 8.4 and 5.88 at Week 12, respectively. The common standard deviation was set to 4.5 based on the 2 standard deviation rule. Based on these assumptions, 60 patients per treatment group required to detect 30% treatment difference at 1-sided, 0.1 level of significance, with 80% power.||0.815||0.6285
92377932|NCT00554099|184659037|SUPERIORITY_OR_OTHER||Mean Difference vs. Asacol|1.6|STANDARD_ERROR_OF_MEAN|1.58||0.4365|ONE_SIDED|90.0||3.573|||ANCOVA|Fixed effects for treatment, number of diverticulitis attacks and baseline value as covariate.||It was assumed that the placebo treatment group and mesalamine treatment group would have an average composite score of 8.4 and 5.88 at Week 12, respectively. The common standard deviation was set to 4.5 based on the 2 standard deviation rule. Based on these assumptions, 60 patients per treatment group required to detect 30% treatment difference at 1-sided, 0.1 level of significance, with 80% power.||3.573||0.4365
92231200|NCT03878147|184365161|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.28||0.65|TWO_SIDED|95.0|-0.71|0.42||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.42|-0.71|.65
92377933|NCT00554099|184659038|SUPERIORITY_OR_OTHER||Difference vs. Placebo|21.1|STANDARD_ERROR_OF_MEAN|12.53||0.0576|ONE_SIDED|90.0|5.1||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||5.1|0.0576
92411589|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.2||||0.08||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||0.08
92411590|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.45|||<|0.001||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||<0.001
92240305|NCT03100942|184384069|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.06||0.8047|TWO_SIDED|95.0|-1.8|2.3|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||2.3|-1.8|0.8047
92377934|NCT00554099|184659038|SUPERIORITY_OR_OTHER||Difference vs. Placebo|6.8|STANDARD_ERROR_OF_MEAN|13.27||0.3248|ONE_SIDED|90.0|-10.2||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||-10.2|0.3248
92377935|NCT00554099|184659038|SUPERIORITY_OR_OTHER||Difference vs. Mesalamine|-14.4|STANDARD_ERROR_OF_MEAN|12.87||0.8596|ONE_SIDED|90.0|-30.8||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||-30.8|0.8596
92411591|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.04||||0.75||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup A||||0.75
92411592|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.11||||0.27||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup C||||0.27
92411593|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.2||||0.07||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||0.07
92231201|NCT03878147|184365161|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 6.|Median Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.29||0.95|TWO_SIDED|95.0|-0.54|0.58||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.58|-0.54|.95
92231202|NCT03878147|184365161|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Median Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.27||0.34|TWO_SIDED|95.0|-0.92|0.13||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.13|-0.92|.34
92231203|NCT03878147|184365161|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 6.|Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.33||0.81|TWO_SIDED|95.0|-0.73|0.58||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.58|-0.73|.81
92231204|NCT03878147|184365162|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Median Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.01|TWO_SIDED|95.0|0.004|0.043||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.043|0.004|.01
92231205|NCT03878147|184365162|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 6.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.02|TWO_SIDED|95.0|0.003|0.04||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.040|0.003|.02
92231206|NCT03878147|184365162|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.19|TWO_SIDED|95.0|-0.01|0.05||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.05|-0.01|.19
92231207|NCT03878147|184365162|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.19|TWO_SIDED|95.0|-0.01|0.04||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.04|-0.01|.19
92231208|NCT05817045|184365169|SUPERIORITY|adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score|Hazard Ratio (HR)|1.01||||0.948|TWO_SIDED|95.0|0.777|1.31|||NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|NPANCOVA analysis for time to sustained resolution of COVID-19 signs and symptoms without subsequent recurrence or disease progression (until the end of the study) Full Analysis Set (FAS)||1.310|0.777|0.948
92377936|NCT00554099|184659039|SUPERIORITY_OR_OTHER||Difference vs. Placebo|16.7|STANDARD_ERROR_OF_MEAN|14.0||0.1266|ONE_SIDED|90.0|-1.3||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||-1.3|0.1266
92377937|NCT00554099|184659039|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-20.8|STANDARD_ERROR_OF_MEAN|14.13||0.9288|ONE_SIDED|90.0|-38.9||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||-38.9|0.9288
92377938|NCT00554099|184659039|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-37.5|STANDARD_ERROR_OF_MEAN|12.98||0.9962|ONE_SIDED|90.0|-54.1||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||-54.1|0.9962
92377939|NCT00554099|184659040|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Placebo|-1.4|STANDARD_ERROR_OF_MEAN|2.784||0.3082|ONE_SIDED|90.0||2.196|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||2.196||0.3082
92231209|NCT05817045|184365169|SUPERIORITY|Per-Protocol Population|Hazard Ratio (HR)|1.02||||0.902|TWO_SIDED|95.0|0.774|1.337||adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score.|NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|NPANCOVA analysis for time to sustained resolution of COVID-19 signs and symptoms without subsequent symptom recurrence or disease progression (until the end of the study) Per-Protocol Population||1.337|0.774|0.902
92231210|NCT05817045|184365169|SUPERIORITY|adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score|Hazard Ratio (HR)|1.02||||0.859|TWO_SIDED|95.0|0.782|1.342|||NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19;|NPANCOVA analysis for time to sustained resolution of COVID-19 signs and symptoms without subsequent symptom recurrence or disease progression (until the end of the study) - Secondary Analysis (FAS excluding subjects that were qPCR negative at baseline)||1.342|0.782|0.859
92231211|NCT05817045|184365171|SUPERIORITY|adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score|Hazard Ratio (HR)|1.29||||0.017|TWO_SIDED|95.0|1.047|1.596|||NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|NPANCOVA analysis for time to first of two negative SARS-CoV-2 antigen tests (with a minimum time between tests of six hours) without subsequent virologic rebound (during the subject's remaining time on study) Full Analysis Set (FAS)||1.596|1.047|0.017
92231212|NCT05817045|184365171|SUPERIORITY|adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score|Hazard Ratio (HR)|1.33||||0.014|TWO_SIDED|95.0|1.059|1.665|||NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19;|NPANCOVA analysis for time to first of two negative SARS-CoV-2 antigen tests (with a minimum time between tests of six hours) without subsequent virological rebound (during the subject's remaining time on study) (Per-Protocol population)||1.665|1.059|0.014
92231213|NCT05817045|184365171|SUPERIORITY|adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score|Hazard Ratio (HR)|1.35||||0.007|TWO_SIDED|95.0|1.086|1.69|||NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|NPANCOVA analysis for time to first of two negative SARS-CoV-2 antigen tests (with a minimum time between tests of six hours) without subsequent virological rebound (during the subject's remaining time on study) - Secondary analysis - (FAS excluding subjects that were qPCR negative at baseline)||1.690|1.086|0.007
92231214|NCT05817045|184365171|SUPERIORITY|SARS-CoV-2 rapid antigen test type: Flowflex|Cox Proportional Hazard|1.46|||||TWO_SIDED|95.0|1.064|1.997|||||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|Cox proportional hazards model for time to first of two negative SARS-CoV-2 antigen tests (with a minimum time between tests of six hours) without subsequent virological rebound (during the subject's remaining time on study) (FAS)||1.997|1.064|
92231215|NCT05817045|184365171|SUPERIORITY|SARS-CoV-2 rapid antigen test type: BinaxNOW|Cox Proportional Hazard|1.12|||||TWO_SIDED|95.0|0.801|1.561|||||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|Subgroup Analysis - Cox proportional hazards model for time to first of two negative SARS-CoV-2 antigen tests (with a minimum time between tests of six hours) without subsequent virological rebound (during the subject's remaining time on study) (FAS)||1.561|0.801|
92231216|NCT03905928|184365242|SUPERIORITY|||||||||||||||||This was a whole-brain, voxel-wise general linear model conducted in FSL software using a one-sample t-test on the tobacco\>strawberry condition contrasts conducted at the subject-level.|A whole-brain, one-sample t-test was used with a voxel threshold p \<.001 and cluster threshold p\<.05. This method results in unique p-values for each cluster identified.|||
92231217|NCT03905928|184365243|SUPERIORITY|||||||||||||||||This was a whole-brain, voxel-wise repeated measures ANOVA conducted using FSL software on activation from baseline to post-intervention that differ by the nicotine groups (18 mg/ml vs. 0 mg/ml) for the tobacco\>strawberry condition contrasts calculated at the subject-level. The means and standard deviations presented are the average post-pre scan difference scores of the BOLD percentage signal change of tobacco \> strawberry contrasts for each group.|A whole-brain, repeated measures ANOVA was used with a voxel threshold p \<.025 and cluster threshold p\<.05. This method results in unique p-values for each cluster identified.|||
92231218|NCT03905928|184365244|SUPERIORITY|||||||||||||||||This was a whole-brain, voxel-wise repeated measures ANOVA conducted using FSL software on activation from baseline to post-intervention between the flavor groups (tobacco vs. strawberry) for the tobacco\>strawberry condition contrasts calculated at the subject-level. The means and standard deviations presented are the average post-pre scan difference scores of the BOLD percentage signal change of tobacco \> strawberry contrasts for each group.|A whole-brain, repeated measures ANOVA was used with a voxel threshold p \<.025 and cluster threshold p\<.05. This method results in unique p-values for each cluster identified.|||
92231219|NCT03905928|184365245|SUPERIORITY|||||||0.573|||||||ANOVA|||We conducted a one-way ANOVA to compare the change in e-cigarette dependence (week 4 - week 2 PSECDI difference score) between the four e-cigarette groups.||||0.573
92231220|NCT03905928|184365247|SUPERIORITY|||||||0.022|||||||ANOVA|||We conducted a one-way ANOVA to compare changes in self-reported craving across all groups.||||.022
92377940|NCT00554099|184659040|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Placebo|0.083|STANDARD_ERROR_OF_MEAN|2.903||0.5113|ONE_SIDED|90.0||3.832|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||3.832||0.5113
92377941|NCT00554099|184659040|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Mesalamine|1.483|STANDARD_ERROR_OF_MEAN|2.836||0.6988|ONE_SIDED|90.0||5.145|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||5.145||0.6988
92377942|NCT00554099|184659041|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Placebo|-0.428|STANDARD_ERROR_OF_MEAN|3.067||0.4448|ONE_SIDED|90.0||3.541|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||3.541||0.4448
92377943|NCT00554099|184659041|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Placebo|0.825|STANDARD_ERROR_OF_MEAN|3.151||0.6029|ONE_SIDED|90.0||4.903|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||4.903||0.6029
92377944|NCT00554099|184659041|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Mesalamine|1.253|STANDARD_ERROR_OF_MEAN|2.996||0.6615|ONE_SIDED|90.0||5.129|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||5.129||0.6615
92231221|NCT00331760|184365281|SUPERIORITY|||||||0.12|||||||Chi-squared|||A sample size of 42 patients provides 64% power to detect a reduction in short-term grade 2 or higher bowel AEs from historical rate of 40% to 25%.||||0.12
92231222|NCT00331760|184365281|SUPERIORITY|||||||0.043|||||||Chi-squared|||A sample size of 42 patients provides 88% power to detect a reduction in short-term grade 2 or higher bowel AEs from historical rate of 40% to 20%.||||0.043
92231223|NCT00461175|184365289|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a two group test of equivalence in proportions. These calculations are based on the following assumptions: 1) one sided α of 0.025; 2) power (1-β) of 0.80; 3) non-inferiority limit on hazard ratio of 2; and 4) an incidence of 0.5 and 1.0 per 1000 insertions.|Hazard Ratio (HR)|1.61|||||TWO_SIDED|95.0|0.96|2.7|||||Hazard ratio was adjusted for the following prognostic factors: age, BMI, breastfeeding at time of insertion and parity status.|The null hypothesis to be tested was: The perforation incidence ratio for LNG IUS vs. copper IUD is higher than or equal to 2.||2.70|0.96|
92231224|NCT00461175|184365289|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a two group test of equivalence in proportions. These calculations are based on the following assumptions: 1) one sided α of 0.025; 2) power (1-β) of 0.80; 3) non-inferiority limit on hazard ratio of 2; and 4) an incidence of 0.5 and 1.0 per 1000 insertions.|Hazard Ratio (HR)|1.65|||||TWO_SIDED|95.0|0.99|2.78|||||Hazard ratio was adjusted for the following prognostic factors: age, BMI, time since last delivery, experience of the inserting health care provider.|The null hypothesis to be tested was: The perforation incidence ratio for LNG IUS vs. copper IUD is higher than or equal to 2.||2.78|0.99|
92231225|NCT00461175|184365290|SUPERIORITY_OR_OTHER||Pearl Index|0.06|||||TWO_SIDED|95.0|0.04|0.09||||||||0.09|0.04|
92377945|NCT00554099|184659042|SUPERIORITY_OR_OTHER||Difference vs. Placebo|2.6|STANDARD_ERROR_OF_MEAN|4.2||0.7165|ONE_SIDED|90.0||7.9|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||7.9||0.7165
92377946|NCT00554099|184659042|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-2.4|STANDARD_ERROR_OF_MEAN|2.41||0.1708|ONE_SIDED|90.0||0.6|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||0.6||0.1708
92377947|NCT00554099|184659042|SUPERIORITY_OR_OTHER||Difference vs. Mesalamine|-5.0|STANDARD_ERROR_OF_MEAN|3.45||0.1039|ONE_SIDED|90.0||-0.6|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||-0.6||0.1039
92377948|NCT00554099|184659043|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-7.5|STANDARD_ERROR_OF_MEAN|8.21||0.1907|ONE_SIDED|90.0||3.0|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||3.0||0.1907
92377949|NCT00554099|184659043|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-8.2|STANDARD_ERROR_OF_MEAN|8.4||0.173|ONE_SIDED|90.0||2.5|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||2.5||0.1730
92377950|NCT00554099|184659043|SUPERIORITY_OR_OTHER||Difference vs. Mesalamine|-0.7|STANDARD_ERROR_OF_MEAN|7.61||0.4613|ONE_SIDED|90.0||9.0|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||9.0||0.4613
92377951|NCT00554099|184659044|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-2.9|STANDARD_ERROR_OF_MEAN|11.7||0.3983|ONE_SIDED|90.0||12.1|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||12.1||0.3983
92231226|NCT00461175|184365290|SUPERIORITY_OR_OTHER||Pearl Index|0.52|||||TWO_SIDED|95.0|0.42|0.64||||||||0.64|0.42|
92231227|NCT00461175|184365290|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.16|||||TWO_SIDED|95.0|0.1|0.25|||||Hazard ratio was adjusted for the following prognostic factors: age, BMI, and parity.|||0.25|0.10|
92231228|NCT02514044|184365291|OTHER|"We also performed normalization by calculating the dependent variable as the percentage of change (proportional change) as it follows; (1) (post-active values - pre-active values)/ (pre-active values) and (2) (post-placebo values - pre-placebo values)/ (pre-placebo series). We compared the percentage of change in Bedside WAB-R® aphasia and language quotients and blood pressures for the experiments with active- and placebo drugs combined active tDCS with MIT using a two-tailed paired t-test."||||||0.008|||||||t-test, 2 sided|||We tested normality using the Kolmogorov-Smirnov (KS) test for all reported measures. We compared scores of Bedside WAB-R® subtests Bedside WAB-R® AQ and LQ from before the study intervention and after the intervention in both experiments by using a two-tailed and paired t-test.||||0.008
92240306|NCT03100942|184384070|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.46||0.6782|TWO_SIDED|95.0|-1.1|0.7|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.7|-1.1|0.6782
92377952|NCT00554099|184659044|SUPERIORITY_OR_OTHER||Difference vs. Placebo|6.0|STANDARD_ERROR_OF_MEAN|12.66||0.6721|ONE_SIDED|90.0||22.2|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||22.2||0.6721
92411594|NCT00488683|184713795|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.23||||0.06||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||0.06
92377953|NCT00554099|184659044|SUPERIORITY_OR_OTHER||Difference vs. Mesalamine|8.9|STANDARD_ERROR_OF_MEAN|12.23||0.7703|ONE_SIDED|90.0||24.6|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||24.6||0.7703
92377954|NCT04240093|184659045|SUPERIORITY|This is a pilot intervention trial and was not powered to detect statistical significance.|Beta coefficient|-0.46|STANDARD_ERROR_OF_MEAN|0.33||0.17|TWO_SIDED|95.0|-1.11|0.2||a priori alpha p\<0.05|Generalized estimating equations (GEE)|Generalized estimating equations (GEE) with a poisson distribution controlling for baseline values.||Hypothesis: The CoMBAT intervention arm would be superior to the Standard of Care control arm with regard to reductions in missed medication doses in the past 30 days at follow-up.||0.20|-1.11|0.17
92411595|NCT00488683|184713795|SUPERIORITY_OR_OTHER||R-square|0.0029||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup A||||
92411596|NCT00488683|184713795|SUPERIORITY_OR_OTHER||R-square|0.0059||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup C||||
92411597|NCT00488683|184713795|SUPERIORITY_OR_OTHER||R-square|0.04||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||
92411598|NCT00488683|184713795|SUPERIORITY_OR_OTHER||R-square|0.21||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||
92231229|NCT02514044|184365292|OTHER|"We also performed normalization by calculating the dependent variable as the percentage of change (proportional change) as it follows; (1) (post-active values - pre-active values)/ (pre-active values) and (2) (post-placebo values - pre-placebo values)/ (pre-placebo series). We compared the percentage of change in Bedside WAB-R® aphasia and language quotients and blood pressures for the experiments with active- and placebo drugs combined active tDCS with MIT using a two-tailed paired t-test."||||||0.02|TWO_SIDED|95.0|||||t-test, 2 sided|||We tested normality using the Kolmogorov-Smirnov (KS) test for all reported measures. We compared scores of Bedside WAB-R® subtests Bedside WAB-R® AQ and LQ from before the study intervention and after the intervention in both experiments by using a two-tailed and paired t-test.||||0.02
92231230|NCT00619229|184365302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94||||0.122|TWO_SIDED|95.0|-0.674|2.55||The criterion for significance (α) was set at one-sided α = 0.025, which means that only an effect in the expected direction was interpreted.|ANCOVA||For exploratory testing an Analysis of Variance-Covariance (ANCOVA) F-test with dependent variable 'difference in visual acuity', fixed factors 'treatment' and 'centre' and Baseline value as a covariate was used.|"The primary goal of the study was to test the following null hypothesis:~H0: μAlprostadil ≤ μPlacebo, against the alternative hypothesis H1: μAlprostadil \> μPlacebo, where μ denotes the mean differences in visual acuity between measurements at 3 months after the end of study drug infusion minus measurements at baseline as assessed as line difference on the standard ETDRS charts."||2.55|-0.674|0.1220
92231231|NCT03417440|184365313|SUPERIORITY||Estimated mean change|-898.0||||0.37|TWO_SIDED|95.0|-2884.82|1088.82||A single model was run including variables indicating Proof Positive (yes/no), Coach Me (yes/no), and On Your Feet (yes/no) and their interaction terms.|Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||1088.82|-2884.82|.37
92231232|NCT03417440|184365313|SUPERIORITY||Estimated mean change|-2602.1||||0.02|TWO_SIDED|95.0|-4687.44|-516.69||A single model was run including variables indicating Proof Positive (yes/no), Coach Me (yes/no), and On Your Feet (yes/no) and their interaction terms.|Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||-516.69|-4687.44|.02
92231233|NCT03417440|184365313|SUPERIORITY||Estimated mean change|-1244.9||||0.23|TWO_SIDED|95.0|-3287.6|797.85|||Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||797.85|-3287.60|.23
92231234|NCT03417440|184365313|SUPERIORITY||Estimated mean change|1468.5||||0.31|TWO_SIDED|95.0|-1368.93|4306.02|||Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||4306.02|-1368.93|0.31
92377955|NCT04240093|184659046|SUPERIORITY|This pilot feasibility and acceptability study was not powered to detect a statistically significant effect.|Beta coefficient|-0.18|STANDARD_ERROR_OF_MEAN|1.48||0.9|TWO_SIDED|95.0|-3.09|2.72||a priori alpha p\<0.05|Generalized estimating equation (GEE)|Generalized estimating equations (GEE) with a Poisson distribution controlling for baseline values.||Hypothesis: The CoMBAT intervention arm would be superior to the Standard of Care control arm with regard to reductions in missed medication-related visits in the past 30 days at follow-up.||2.72|-3.09|0.90
92411599|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.26||||0.46||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||0.46
92411600|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.14||||0.59||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||0.59
92411601|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.006||||0.98||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||0.98
92411602|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.24||||0.2||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||0.20
92411603|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.43||||0.08||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||0.08
92411604|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.08||||0.68||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||0.68
92411605|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.77||||0.006||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||0.006
92411606|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.16||||0.48||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||0.48
92411607|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.26||||0.46||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||0.46
92411608|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.21||||0.4||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||0.40
92411609|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.12||||0.6||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||0.60
92411610|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.4||||0.03||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||0.03
92169184|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|4.96|STANDARD_ERROR_OF_MEAN|2.58||0.0551|TWO_SIDED|95.0|-0.11|10.04|||ANCOVA|||Week 56: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||10.04|-0.11|0.0551
92169185|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-1.21|STANDARD_ERROR_OF_MEAN|1.05||0.247|TWO_SIDED|95.0|-3.26|0.84|||ANCOVA|||Week 16: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.84|-3.26|0.2470
92169186|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-1.98|STANDARD_ERROR_OF_MEAN|1.04||0.057|TWO_SIDED|95.0|-4.01|0.06|||ANCOVA|||Week 16: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.06|-4.01|0.0570
92169187|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|1.14||0.917|TWO_SIDED|95.0|-2.36|2.12|||ANCOVA|||Week 24: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.12|-2.36|0.9170
92169188|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|1.14||0.4991|TWO_SIDED|95.0|-3.0|1.46|||ANCOVA|||Week 24: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.46|-3.00|0.4991
92169189|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|1.44||0.2377|TWO_SIDED|95.0|-1.12|4.52|||ANCOVA|||Week 56: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||4.52|-1.12|0.2377
92169190|NCT02528188|184227143|SUPERIORITY||LS Mean Difference|3.26|STANDARD_ERROR_OF_MEAN|1.44||0.0238|TWO_SIDED|95.0|0.43|6.08|||ANCOVA|||Week 56: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||6.08|0.43|0.0238
92169191|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|2.66|STANDARD_ERROR_OF_MEAN|1.08||0.0142|TWO_SIDED|95.0|0.53|4.78|||ANCOVA|||TSQM Effectiveness; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||4.78|0.53|0.0142
92169192|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|4.67|STANDARD_ERROR_OF_MEAN|1.08|<|0.0001|TWO_SIDED|95.0|2.56|6.78|||ANCOVA|||TSQM Effectiveness; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||6.78|2.56|<0.0001
92169193|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|2.15|STANDARD_ERROR_OF_MEAN|1.45||0.1371|TWO_SIDED|95.0|-0.69|4.99|||ANCOVA|||TSQM Effectiveness; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||4.99|-0.69|0.1371
92169194|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|1.46||0.8524|TWO_SIDED|95.0|-2.6|3.14|||ANCOVA|||TSQM Effectiveness; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||3.14|-2.60|0.8524
92169195|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|-2.42|STANDARD_ERROR_OF_MEAN|3.8||0.5253|TWO_SIDED|95.0|-9.93|5.09|||ANCOVA|||TSQM Side Effects; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||5.09|-9.93|0.5253
92169196|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|2.29|STANDARD_ERROR_OF_MEAN|3.71||0.5381|TWO_SIDED|95.0|-5.04|9.62|||ANCOVA|||TSQM Side Effects; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||9.62|-5.04|0.5381
92169197|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|7.27|STANDARD_ERROR_OF_MEAN|6.44||0.2694|TWO_SIDED|95.0|-5.99|20.54|||ANCOVA|||TSQM Side Effects; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||20.54|-5.99|0.2694
92231235|NCT03417440|184365313|SUPERIORITY||Estimated mean change|388.1||||0.78|TWO_SIDED|95.0|-2397.51|3173.62|||Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||3173.62|-2397.51|0.78
92231236|NCT03417440|184365313|SUPERIORITY||Estimated mean change|1991.2||||0.17|TWO_SIDED|95.0|-865.52|4847.86|||Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||4847.86|-865.52|0.17
92231237|NCT03417440|184365313|SUPERIORITY||Estimated mean change|-590.7||||0.77|TWO_SIDED|95.0|-4591.17|3409.75|||Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||3409.75|-4591.17|0.77
92377956|NCT04240093|184659047|SUPERIORITY|As a pilot feasibility and acceptability trial, this study was not powered to detect a statistically significant effect.|Beta coefficient|-4.71|STANDARD_ERROR_OF_MEAN|2.05||0.02|TWO_SIDED|95.0|-8.72|-0.7||A priori alpha p\<0.05|Generalized estimating equations (GEE)|Generalized estimating equation (GEE) modeling with a binomial distribution, controlling for baseline values.||Hypothesis: Fewer participants in the CoMBAT experimental arm will have a positive opioid toxicology screen at the 6-month follow-up compared to participants in the SOC control arm.||-0.70|-8.72|0.02
92377957|NCT02839902|184659048|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|-17.147||||0.0004|TWO_SIDED|95.0|-26.344|-7.95|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with cholesterol concentration in sd LDL fraction at Week 8 using an ANCOVA model.||-7.950|-26.344|0.0004
92377958|NCT02839902|184659048|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|-9.774||||0.1141|TWO_SIDED|95.0|-21.986|2.439|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with triglycerides concentration in sd LDL fraction at Week 8 using an ANCOVA model.||2.439|-21.986|0.1141
92377959|NCT02839902|184659048|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|-10.246||||0.0248|TWO_SIDED|95.0|-19.143|-1.349|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with free cholesterol concentration in sd LDL fraction at Week 8 using an ANCOVA model.||-1.349|-19.143|0.0248
92377960|NCT02839902|184659048|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|-11.511||||0.0047|TWO_SIDED|95.0|-19.34|-3.682|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with phospholipid concentration in sd LDL fraction at Week 8 using an ANCOVA model.||-3.682|-19.340|0.0047
92377961|NCT02839902|184659049|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|9.499||||0.1826|TWO_SIDED|95.0|-4.623|23.622|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with TG to cholesterol ratio in sd LDL fraction at Week 8 using an ANCOVA model.||23.622|-4.623|0.1826
92377962|NCT02839902|184659050|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|1.066||||0.004|TWO_SIDED|95.0|0.356|1.776|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with particle size (nm) of LDL at Week 8 monitored by cholesterol using an ANCOVA model.||1.776|0.356|0.0040
92377963|NCT02839902|184659050|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|1.553||||0.4428|TWO_SIDED|95.0|-2.884|5.991|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with particle size (nm) of LDL at Week 8 monitored by triglycerides using an ANCOVA model.||5.991|-2.884|0.4428
92377964|NCT02839902|184659050|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|0.76||||0.057|TWO_SIDED|95.0|-0.024|1.544|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with particle size (nm) of LDL at Week 8 monitored by free cholesterol using an ANCOVA model.||1.544|-0.024|0.0570
92411611|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.72||||0.001||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||0.001
92231238|NCT03417440|184365314|SUPERIORITY||Mean Difference (Net)|-23.0|STANDARD_DEVIATION|118.7||0.17|ONE_SIDED|90.0||8.3||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||8.3||0.17
92231239|NCT03417440|184365314|SUPERIORITY||Mean Difference (Net)|37.7|STANDARD_DEVIATION|117.8||0.94|ONE_SIDED|90.0||68.8||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||68.8||0.94
92231240|NCT03417440|184365314|SUPERIORITY||Mean Difference (Net)|52.0|STANDARD_DEVIATION|116.4||0.99|ONE_SIDED|90.0||82.7||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||82.7||0.99
92231241|NCT03417440|184365315|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_DEVIATION|51.0||0.47|ONE_SIDED|90.0|-12.5|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-12.5|0.47
92231242|NCT03417440|184365315|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_DEVIATION|51.0||0.315|ONE_SIDED|90.0|-8.3|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-8.3|0.315
92240307|NCT03100942|184384070|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.45||0.9171|TWO_SIDED|95.0|-0.8|0.9|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.9|-0.8|0.9171
92231243|NCT03417440|184365315|SUPERIORITY||Mean Difference (Net)|3.9|STANDARD_DEVIATION|51.0||0.355|ONE_SIDED|90.0|-9.4|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-9.4|0.355
92231244|NCT03417440|184365316|SUPERIORITY||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|1.0||0.86|ONE_SIDED|90.0|-1.3|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.3|0.86
92231245|NCT03417440|184365316|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.0||0.38|ONE_SIDED|90.0|-0.6|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.6|0.38
92231246|NCT03417440|184365316|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|1.0||0.66|ONE_SIDED|90.0|-1.1|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.1|0.66
92231247|NCT03417440|184365317|SUPERIORITY||Mean Difference (Net)|-1.9|STANDARD_DEVIATION|19.2||0.69|ONE_SIDED|90.0|-6.9|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-6.9|0.69
92377965|NCT02839902|184659050|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|0.838||||0.036|TWO_SIDED|95.0|0.057|1.62|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with particle size (nm) of LDL at Week 8 monitored by phospholipid using an ANCOVA model.||1.620|0.057|0.0360
92377966|NCT03688555|184659070|SUPERIORITY||LS means difference|0.76|STANDARD_ERROR_OF_MEAN|0.301|=|0.062|TWO_SIDED|95.0|-0.06|1.59||All Nasal Polyp Score (NPS) values observed between baseline and Week 12 were included in the analysis. Changes from baseline to post-baseline visits in NPS were analyzed using a Mixed Model for Repeated Measurement (MMRM).|Mixed model for repeated measurements|||||1.59|-0.06|= 0.062
92377967|NCT03688555|184659071|SUPERIORITY||LS means difference|-3.98|STANDARD_ERROR_OF_MEAN|2.316|=|0.161|TWO_SIDED|95.0|-10.41|2.45|||ANCOVA|||||2.45|-10.41|= 0.161
92377968|NCT03553498|184659087|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
92377969|NCT03553498|184659088|SUPERIORITY|||||||0.989|||||||Chi-squared|||||||0.989
92231248|NCT03417440|184365317|SUPERIORITY||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|19.2||0.6|ONE_SIDED|90.0|-6.0|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-6.0|0.60
92231249|NCT03417440|184365317|SUPERIORITY||Mean Difference (Net)|4.8|STANDARD_DEVIATION|19.0||0.11|ONE_SIDED|90.0|-0.2|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.2|0.11
92231250|NCT03417440|184365318|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|1.0||0.94|ONE_SIDED|90.0|-0.7|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.7|0.94
92231251|NCT03417440|184365318|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|1.1||0.73|ONE_SIDED|90.0|-0.4|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.4|0.73
92231252|NCT03417440|184365318|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.1||0.22|ONE_SIDED|90.0|-0.1|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.1|0.22
92231253|NCT03417440|184365319|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_DEVIATION|1.3||0.46|ONE_SIDED|90.0|-0.3|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.3|0.46
92240308|NCT03100942|184384070|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.45||0.4641|TWO_SIDED|95.0|-1.2|0.5|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.5|-1.2|0.4641
92377970|NCT03553498|184659089|SUPERIORITY|||||||0.414|||||||Chi-squared|||||||0.414
92377971|NCT03553498|184659090|SUPERIORITY|||||||0.153|||||||Chi-squared|||||||0.153
92377972|NCT01498185|184659091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|18.5425|||TWO_SIDED|95.0|-40.85|35.86||No formal statistical testing was performed to compare between treatment groups.|Descriptive statistics|||||35.86|-40.85|
92377973|NCT01498185|184659091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|16.7228|||TWO_SIDED|95.0|-35.36|33.82||No formal statistical testing was performed to compare between treatment groups.|Descriptive statistics|||||33.82|-35.36|
92377974|NCT01498185|184659091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.88|STANDARD_ERROR_OF_MEAN|17.1548|||TWO_SIDED|95.0|-42.21|28.45||No formal statistical testing was performed to compare between treatment groups.|Descriptive statistics|||||28.45|-42.21|
92377975|NCT01498185|184659091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|18.4617|||TWO_SIDED|95.0|-39.22|37.16||No formal statistical testing was performed to compare between treatment groups.|Descriptive statistics|||||37.16|-39.22|
92377976|NCT02032641|184659100|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05|t-test, 1 sided|||||||<0.05
92377977|NCT02032641|184659100|SUPERIORITY_OR_OTHER||||||>|0.1||||||The threshold for significance is p\<0.05|t-test, 1 sided|||||||>0.10
92231254|NCT03417440|184365319|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|1.2||0.96|ONE_SIDED|90.0|-0.7|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.7|0.96
92231255|NCT03417440|184365319|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_DEVIATION|1.3||0.495|ONE_SIDED|90.0|-0.3|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.3|0.495
92231256|NCT03417440|184365320|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_DEVIATION|4.5||0.445|ONE_SIDED|90.0|-1.1|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.1|0.445
92377978|NCT02827500|184659113|SUPERIORITY||Odds Ratio, log|5.19||||0.002|TWO_SIDED|95.0|1.88|14.33|||Regression, Logistic|||||14.33|1.88|0.002
92411612|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.0||||1||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||1.00
92411613|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.39||||0.24||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||0.24
92411614|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.22||||0.34||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for the analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||0.34
92231257|NCT03417440|184365320|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_DEVIATION|4.4||0.92|ONE_SIDED|90.0|-2.5|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-2.5|0.92
92231258|NCT03417440|184365320|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_DEVIATION|4.5||0.23|ONE_SIDED|90.0|-0.5|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.5|0.23
92231259|NCT03417440|184365321|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|1.1||0.78|ONE_SIDED|90.0|-0.5|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.5|0.78
92231260|NCT03417440|184365321|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|1.1||0.98|ONE_SIDED|90.0|-0.7|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.7|0.98
92231261|NCT03417440|184365321|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.1||0.13|ONE_SIDED|90.0|-0.1|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.1|0.13
92231262|NCT03417440|184365322|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|4.3||0.285|ONE_SIDED|90.0||0.6||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||0.6||0.285
92411615|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.07||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||
92411616|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||
92411617|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||
92411618|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.06||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||
92411619|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.19||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||
92411620|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.007||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||
92411621|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.59||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||
92240309|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.047||||||"P- value for social function"|Wilcoxon signed-rank test|||||||0.047
92377979|NCT02827500|184659114|SUPERIORITY|||||||0.011|||||||Regression, Linear|||||||0.011
92377980|NCT02827500|184659115|SUPERIORITY|||||||0.011|||||||Regression, Linear|||The null hypothesis tested was that there is no difference in change in heart rate between the treatment arms.||||0.011
92231263|NCT03417440|184365322|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_DEVIATION|4.3||0.5|ONE_SIDED|90.0||1.1||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||1.1||0.50
92231264|NCT03417440|184365322|SUPERIORITY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|4.3||0.92|ONE_SIDED|90.0||2.3||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||2.3||0.92
92231265|NCT03417440|184365323|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|4.2||0.42|ONE_SIDED|90.0|-0.9|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.9|0.42
92231266|NCT03417440|184365323|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|4.2||0.82|ONE_SIDED|90.0|-1.9|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.9|0.82
92231267|NCT03417440|184365323|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|4.2||0.58|ONE_SIDED|90.0|-1.2|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.2|0.58
92231268|NCT03417440|184365324|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_DEVIATION|4.0||0.45|ONE_SIDED|90.0|-0.9|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.9|0.45
92231269|NCT03417440|184365324|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_DEVIATION|3.9||0.49|ONE_SIDED|90.0|-1.0|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.0|0.49
92231270|NCT03417440|184365324|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|3.9||0.61|ONE_SIDED|90.0|-1.2|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.2|0.61
92231271|NCT03417440|184365325|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||.84
92231272|NCT03417440|184365325|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||.96
92231273|NCT03417440|184365325|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||.41
92231274|NCT03417440|184365326|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||.13
92231275|NCT03417440|184365326|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.20
92231276|NCT03417440|184365326|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||||||0.39
92231277|NCT03417440|184365327|OTHER||Spearman Correlation|-0.10435||||0.3116|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Self-efficacy for Physical Activity change and Daily Steps change across 4 months.||||0.3116
92231278|NCT03417440|184365327|OTHER||Spearman Correlation|0.17742||||0.0838|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Correlation between Self-regulation of Physical Activity change and Daily Steps change across 4 months.||||0.0838
92231279|NCT03417440|184365327|OTHER||Spearman Correlation|-0.09834||||0.351|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Family Social Support for Physical Activity change and Daily Steps change across 4 months.||||0.3510
92231280|NCT03417440|184365327|OTHER||Spearman Correlation|-0.04562||||0.6659|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Outcome Expectation for Physical Activity change and Daily Steps change across 4 months.||||0.6659
92231281|NCT03417440|184365327|OTHER||Spearman Correlation|-0.04831||||0.6402|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Aging Self-perceptions (Attitude Toward Own Aging) change and Daily Steps change across 4 months.||||0.6402
92411622|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.03||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||
92231282|NCT03417440|184365327|OTHER||Spearman Correlation|0.13128||||0.2048|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Views of Aging--Psychosocial Loss change and Daily Steps change across 4 months.||||0.2048
92231283|NCT03417440|184365327|OTHER||Spearman Correlation|0.10022||||0.3445|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Views of Aging--Physical Change change and Daily Steps change across 4 months.||||0.3445
92231284|NCT03417440|184365327|OTHER||Spearman Correlation|-0.00866||||0.934|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Views of Aging--Psychological Growth change and Daily Steps change across 4 months.||||0.9340
92231285|NCT01053312|184365362|NON_INFERIORITY_OR_EQUIVALENCE|The level of association between SUVR and the amyloid levels was analyzed using a regression model.|R²|0.688||||0.098|TWO_SIDED||||||Regression, Linear|||Contralateral to the biopsy Site||||0.098
92231286|NCT01053312|184365362|NON_INFERIORITY_OR_EQUIVALENCE|The level of association between SUVR and the amyloid levels was analyzed using a regression model.|R²|0.482||||0.268|||||||Regression, Linear|||Ipsilateral to the biopsy Site||||0.268
92231287|NCT01053312|184365362|NON_INFERIORITY_OR_EQUIVALENCE|The level of association between SUVR and the amyloid levels was analyzed using a regression model.|R²|0.685||||0.099|||||||Regression, Linear|||Composite Region||||0.099
92231288|NCT02203149|184365388|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.8|||||TWO_SIDED|95.0|-14.5|10.0|||Miettinen and Nurminen Method|||95% confidence intervals were provided for between-treatment differences in the percentage of participants with events, comparing participants in the Part 2 Immediate Treatment (Grazoprevir + Elbasvir) Arm with the Part 2 Deferred Treatment (Placebo) Arm during the double blinded period through FUWK4. These analyses were performed using the Miettinen and Nurminen method, an unconditional, asymptotic method.||10.0|-14.5|
92231289|NCT02203149|184365389|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-6.0|2.8|||Miettinen and Nurminen Method|||95% confidence intervals were provided for between-treatment differences in the percentage of participants with events, comparing participants in the Part 2 Immediate Treatment (Grazoprevir + Elbasvir) Arm with the Part 2 Deferred Treatment (Placebo) Arm during the double blinded period through FUWK4. These analyses were performed using the Miettinen and Nurminen method, an unconditional, asymptotic method.||2.8|-6.0|
92231290|NCT02537678|184365392|NON_INFERIORITY|We planned 0.41 standard deviation (SD) as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|1.43||0.006|ONE_SIDED|97.5|-3.26||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 SD units.|Treatment difference = standard Trauma Focused -CBT - stepped care Trauma Focused-CBT||-3.26|.006
92231291|NCT02537678|184365393|NON_INFERIORITY|We planned 0.41 standard deviation (SD) as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|1.49||0.004|ONE_SIDED|97.5|-3.47||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 SD units.|Treatment difference = standard Trauma Focused -CBT - stepped care Trauma Focused-CBT||-3.47|.004
92231292|NCT02537678|184365394|NON_INFERIORITY|We planned 0.41standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied 12-month assessment.|Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|1.2||0.001|ONE_SIDED|97.5|-2.5||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 standard deviation units.|Treatment difference = standard TF-CBT - stepped care TF-CBT||-2.50|.001
92231293|NCT02537678|184365395|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|1.89|<|0.001|ONE_SIDED|97.5|-2.94||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 standard deviation units.|Treatment difference = standard TF-CBT - stepped care TF-CBT||-2.94|<0.001
92231294|NCT02537678|184365396|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-1.89|STANDARD_ERROR_OF_MEAN|2.25||0.044|ONE_SIDED|97.5|-6.33||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 standard deviation units.|Treatment difference = standard TF-CBT - stepped care TF-CBT||-6.33|.044
92231295|NCT02537678|184365397|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|1.75||0.002|ONE_SIDED|97.5|-3.07||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 standard deviation units.|Treatment difference = standard TF-CBT - stepped care TF-CBT||-3.07|0.002
92231296|NCT02537678|184365398|NON_INFERIORITY|We planned 0.41 standard deviation (SD) as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|1.52||0.016|ONE_SIDED|97.5|-4.06||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-4.06|0.016
92231297|NCT02537678|184365399|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|1.77||0.003|ONE_SIDED|97.5|-3.72||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 standard deviation units.|Treatment difference = standard TF-CBT - stepped care TF-CBT||-3.72|0.003
92377981|NCT02827500|184659116|SUPERIORITY|||||||0.054||||||The apriori threshold for statistical significance is alpha=0.05.|Chi-squared, Corrected|The p-value is obtained using the F-test (combination of Chi-Squared tests) due to multiple imputation.||The null hypothesis tested was that there is no difference between the treatment arms in the proportion of patients with heart rate \< 70 BPM.||||0.054
92411623|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.77||||0.0002||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||0.0002
92231298|NCT02537678|184365400|NON_INFERIORITY|We planned 0.41 standard deviation the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|1.89||0.007|ONE_SIDED|97.5|-3.89||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-3.89|0.007
92377982|NCT02827500|184659117|SUPERIORITY|||||||0.717|||||||Regression, Linear|||||||0.717
92377983|NCT02827500|184659118|SUPERIORITY|||||||0.784|||||||Regression, Linear|||||||0.784
92377984|NCT03343080|184659120|SUPERIORITY|||||||0.776|||||||Wilcoxon (Mann-Whitney)|||||||0.776
92377985|NCT03343080|184659121|SUPERIORITY|||||||0.296|||||||t-test, 2 sided|||4 hours post-extubation||||0.296
92377986|NCT03697993|184659122|OTHER||Risk Difference (RD)|-18.0||||0.264|TWO_SIDED|95.0|-43.4|8.7|||Multiple imputation using Wald method|||||8.7|-43.4|0.264
92377987|NCT03697993|184659126|OTHER||Risk Difference (RD)|-1.0||||1|TWO_SIDED|95.0|-26.2|24.3|||Fisher Exact|||||24.3|-26.2|1.000
92377988|NCT03697993|184659127|OTHER||Odds Ratio (OR)|0.9||||0.894|TWO_SIDED|95.0|0.3|2.5|||Proportional odds model using Wald test|||||2.5|0.3|0.894
92377989|NCT03697993|184659128|OTHER||Risk Difference (RD)|0.0||||0.973|TWO_SIDED|95.0|-26.3|25.3|||Multiple imputation using Wald method|||||25.3|-26.3|0.973
92377990|NCT04384107|184659129|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-1.1|||=|0.641|TWO_SIDED|95.0|-5.9|3.6|||Miettinen & Nurminen|||Injection site erythema||3.6|-5.9|= 0.641
92411624|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.03||||0.9||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||0.90
92411625|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.47||||0.02||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||0.02
92411626|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.29||||0.12||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||0.12
92411627|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.31||||0.22||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||0.22
92411628|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.81|||<|0.0001||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||<0.0001
92411629|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.15||||0.82||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||0.82
92411630|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.15||||0.66||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||0.66
92411631|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.51||||0.03||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||0.03
92411632|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.14||||0.53||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||0.53
92377991|NCT04384107|184659129|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-0.2|||=|0.937|TWO_SIDED|95.0|-6.1|5.6|||Miettinen & Nurminen|||Injection site induration||5.6|-6.1|= 0.937
92377992|NCT04384107|184659129|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|7.1|||=|0.036|TWO_SIDED|95.0|0.5|13.8|||Miettinen & Nurminen|||Injection site pain||13.8|0.5|= 0.036
92377993|NCT04384107|184659129|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-4.0|||=|0.208|TWO_SIDED|95.0|-10.2|2.2|||Miettinen & Nurminen|||Injection site swelling||2.2|-10.2|= 0.208
92377994|NCT04384107|184659130|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-0.4|||=|0.912|TWO_SIDED|95.0|-6.7|6.0|||Miettinen & Nurminen|||Decreased appetite||6.0|-6.7|= 0.912
92377995|NCT04384107|184659130|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|5.9|||=|0.108|TWO_SIDED|95.0|-1.3|13.0|||Miettinen & Nurminen|||Irritability||13.0|-1.3|= 0.108
92377996|NCT04384107|184659130|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|1.0|||=|0.792|TWO_SIDED|95.0|-6.4|8.4|||Miettinen & Nurminen|||Somnolence||8.4|-6.4|= 0.792
92377997|NCT04384107|184659130|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-0.3|||=|0.843|TWO_SIDED|95.0|-3.5|2.8|||Miettinen & Nurminen|||Urticaria||2.8|-3.5|= 0.843
92377998|NCT04384107|184659131|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.4|1.3||||||||1.3|-1.4|
92377999|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.3|||<|0.001|TWO_SIDED|95.0|-1.7|0.8|||Miettinen and Nurminen|||Serotype 1: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|< 0.001
92231299|NCT02537678|184365401|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.64||0.008|ONE_SIDED|97.5|-4.24||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-4.24|0.008
92231300|NCT02537678|184365402|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|1.78||0.015|ONE_SIDED|97.5|-4.88||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-4.88|0.015
92231301|NCT02537678|184365403|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|-1.75|STANDARD_ERROR_OF_MEAN|1.99||0.024|ONE_SIDED|97.5|-5.68||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-5.68|0.024
92231302|NCT02537678|184365404|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.001|ONE_SIDED|97.5|-0.39||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.39|0.001
92231303|NCT02537678|184365405|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.22||0.003|ONE_SIDED|97.5|-0.47||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.47|0.003
92231304|NCT02537678|184365406|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|ONE_SIDED|97.5|-0.3||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.30|<0.001
92231305|NCT02537678|184365407|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.14||0.001|ONE_SIDED|97.5|-0.29||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.29|0.001
92378000|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|2.3|||<|0.001|TWO_SIDED|95.0|1.0|4.5|||Miettinen and Nurminen|||Serotype 3: Participants With IgG ≥0.35 μg/mL||4.5|1.0|< 0.001
92378001|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|0.0|||<|0.001|TWO_SIDED|95.0|-1.1|1.1|||Miettinen and Nurminen|||Serotype 4: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|< 0.001
92378002|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-1.2|||<|0.001|TWO_SIDED|95.0|-3.0|-0.1|||Miettinen and Nurminen|||Serotype 5: Participants With IgG ≥0.35 μg/mL||-0.1|-3.0|< 0.001
92411633|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.2||||0.35||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||0.35
92411634|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.47||||0.09||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||0.09
92411635|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.51||||0.04||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||0.04
92231306|NCT02537678|184365408|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.16||0.004|ONE_SIDED|97.5|-0.38||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.38|0.004
92231307|NCT02537678|184365409|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|ONE_SIDED|97.5|-0.19||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.19|<0.001
92231308|NCT02537678|184365410|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|1.47||0.005|ONE_SIDED|97.5|-3.33||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-3.33|0.005
92240310|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.688||||||"P- value of  symptom/problem list "|Wilcoxon signed-rank test|||||||0.688
92240311|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.772||||||"P- value of  effects of kidney disease "|Wilcoxon signed-rank test|||||||0.772
92378003|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.9|||<|0.001|TWO_SIDED|95.0|-2.6|0.2|||Miettinen and Nurminen|||Serotype 6A: Participants With IgG ≥0.35 μg/mL||0.2|-2.6|< 0.001
92231309|NCT02537678|184365411|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|1.78||0.028|ONE_SIDED|97.5|-4.99||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-4.99|0.028
92231310|NCT02537678|184365412|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|1.62||0.009|ONE_SIDED|97.5|-3.64||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-3.64|0.009
92231311|NCT02537678|184365413|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.9||0.006|ONE_SIDED|97.5|-2.82||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-2.82|0.006
92231312|NCT02537678|184365414|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.88||0.001|ONE_SIDED|97.5|-2.31||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-2.31|0.001
92231313|NCT02537678|184365415|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Median Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.83|<|0.001|ONE_SIDED|97.5|-1.43||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-1.43|<0.001
92378004|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-3.9|||<|0.001|TWO_SIDED|95.0|-6.9|-1.3|||Miettinen and Nurminen|||Serotype 6B: Participants With IgG ≥0.35 μg/mL||-1.3|-6.9|< 0.001
92378005|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.3|||<|0.001|TWO_SIDED|95.0|-1.7|0.8|||Miettinen and Nurminen|||Serotype 7F: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|< 0.001
92411636|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.35||||0.1||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||0.10
92411637|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.35||||0.56||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||0.56
92411638|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.07||||0.84||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||0.84
92411639|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.59||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||
92411640|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.001||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||
92411641|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.22||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||
92411642|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||
92411643|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.1||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||
92411644|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.66||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||
92411645|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||
92411646|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||
92411647|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.29||||0.08||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.08
92411648|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.05||||0.74||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.74
92378006|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.3|||<|0.001|TWO_SIDED|95.0|-1.7|0.8|||Miettinen and Nurminen|||Serotype 9V: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|< 0.001
92378007|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.3|||<|0.001|TWO_SIDED|95.0|-1.9|1.1|||Miettinen and Nurminen|||Serotype 14: Participants With IgG ≥0.35 μg/mL||1.1|-1.9|< 0.001
92378008|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-1.2|||<|0.001|TWO_SIDED|95.0|-3.0|-0.1|||Miettinen and Nurminen|||Serotype 18C: Participants With IgG ≥0.35 μg/mL||-0.1|-3.0|< 0.001
92411649|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.01||||0.94||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.94
92411650|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.09||||0.51||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.51
92411651|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.27||||0.12||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.12
92411652|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.25||||0.09||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.09
92411653|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.05||||0.81||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.81
92411654|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.28||||0.07||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.07
92411655|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.36||||0.02||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.02
92378009|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.3|||<|0.001|TWO_SIDED|95.0|-1.7|0.8|||Miettinen and Nurminen|||Serotype 19A: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|< 0.001
92378010|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|0.0|||<|0.001|TWO_SIDED|95.0|-1.1|1.1|||Miettinen and Nurminen|||Serotype 19F: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|< 0.001
92378011|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-1.8|||<|0.001|TWO_SIDED|95.0|-4.0|-0.2|||Miettinen and Nurminen|||Serotype 23F: Participants With IgG ≥0.35 μg/mL||-0.2|-4.0|< 0.001
92378012|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|2.0|||<|0.001|TWO_SIDED|95.0|0.4|4.3|||Miettinen and Nurminen|||Serotype 22F: Participants With IgG ≥0.35 μg/mL||4.3|0.4|<0.001
92411656|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.08||||0.59||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.59
92411657|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.1||||0.51||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.51
92411658|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.02||||0.9||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.9
92411659|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.39||||0.02||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.02
92378013|NCT04384107|184659132|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-6.8|||=|0.048|TWO_SIDED|95.0|-10.6|-3.5|||Miettinen and Nurminen|||Serotype 33F: Participants With IgG ≥0.35 μg/mL||-3.5|-10.6|= 0.048
92411660|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.19||||0.2||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.20
92411661|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.18||||0.34||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.34
92240312|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.301||||||"P-value of  burden of kidney disease "|Wilcoxon signed-rank test|||||||0.301
92411662|NCT00488683|184713796|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.33||||0.04||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.04
92411663|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||
92231314|NCT02537678|184365416|NON_INFERIORITY|For the non-inferiority margin for the PCL-5, the clinically significant change threshold is 10 points although adult PTSD trials have used -5 to -10 points. We used -8.8 as the margin which was based on an expert panel and prior studies with adults. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|2.16|<|0.001|ONE_SIDED|97.5|-5.04||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-5.04|<0.001
92378014|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.61|||<|0.001|TWO_SIDED|95.0|0.55|0.67|||Linear model|||Serotype 1: IgG GMC Ratio||0.67|0.55|< 0.001
92378015|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.85|||<|0.001|TWO_SIDED|95.0|1.67|2.05|||Linear model|||Serotype 3: IgG GMC Ratio||2.05|1.67|< 0.001
92378016|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.84|||<|0.001|TWO_SIDED|95.0|0.76|0.93|||Linear model|||Serotype 4: IgG GMC Ratio||0.93|0.76|< 0.001
92378017|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.69|0.87|||Linear model|||Serotype 5: IgG GMC Ratio||0.87|0.69|< 0.001
92378018|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.56|||=|0.019|TWO_SIDED|95.0|0.5|0.63|||Linear model|||Serotype 6A: IgG GMC Ratio||0.63|0.50|= 0.019
92378019|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.59|||=|0.015|TWO_SIDED|95.0|0.51|0.68|||Linear model|||Serotype 6B: IgG GMC Ratio||0.68|0.51|= 0.015
92378020|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.84|||<|0.001|TWO_SIDED|95.0|0.75|0.94|||Linear model|||Serotype 7F: IgG GMC Ratio||0.94|0.75|< 0.001
92378021|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.87|||<|0.001|TWO_SIDED|95.0|0.78|0.97|||Linear model|||Serotype 9V: IgG GMC Ratio||0.97|0.78|< 0.001
92378022|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.66|0.85|||Linear model|||Serotype 14: IgG GMC Ratio||0.85|0.66|< 0.001
92411664|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.0027||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||
92411665|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.0002||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||
92378023|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.67|0.82|||Linear model|||Serotype 18C: IgG GMC Ratio||0.82|0.67|< 0.001
92411666|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.0077||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||
92411667|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.07||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||
92411668|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.06||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||
92411669|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.0023||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||
92240313|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.25||||||"P-value of  work status "|Wilcoxon signed-rank test|||||||0.250
92240314|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.895||||||"P-value of  cognitive function "|Wilcoxon signed-rank test|||||||0.895
92378024|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.65|||<|0.001|TWO_SIDED|95.0|0.59|0.72|||Linear model|||Serotype 19A: IgG GMC Ratio||0.72|0.59|< 0.001
92411670|NCT00488683|184713796|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||
92411671|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.25||||0.59||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||0.59
92378025|NCT04384107|184659133|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.69|0.82|||Linear model|||Serotype 19F: IgG GMC Ratio||0.82|0.69|< 0.001
92411672|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.12||||0.68||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||0.68
92411673|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.36||||0.12||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||0.12
92411674|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.22||||0.26||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||0.26
92411675|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.43||||0.08||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.08
92411676|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.17||||0.42||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.42
92411677|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.77||||0.02||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.02
92411678|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.12||||0.65||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.65
92411679|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.25||||0.58||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||0.58
92411680|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.19||||-0.51||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||-0.51
92411681|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.28||||0.24||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||0.24
92411682|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.36||||0.06||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||0.06
92378026|NCT04384107|184659134|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|107.45|||||TWO_SIDED|95.0|96.18|120.03||||||Serotype 22F: IgG GMC Ratio||120.03|96.18|
92411683|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.72||||0.001||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.001
92411684|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.32||||0.12||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.12
92411685|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.49||||0.18||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.18
92231315|NCT02537678|184365417|NON_INFERIORITY|For the non-inferiority margin for the PCL-5, the clinically significant change threshold is 10 points although adult PTSD trials have used -5 to -10 points. We used -8.8 as the margin which was based on an expert panel and prior studies with adults. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|2.27||0.003|ONE_SIDED|97.5|-6.87||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-6.87|0.003
92231316|NCT02537678|184365418|NON_INFERIORITY|For the non-inferiority margin for the PCL-5, the clinically significant change threshold is 10 points although adult PTSD trials have used -5 to -10 points. We used -8.8 as the margin which was based on an expert panel and prior studies with adults.Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|-1.74|STANDARD_ERROR_OF_MEAN|2.06|<|0.001|ONE_SIDED|97.5|-5.8||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-5.80|<0.001
92378027|NCT04384107|184659134|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|32.48|||||TWO_SIDED|95.0|27.72|38.05||||||Serotype 33F: IgG GMC Ratio||38.05|27.72|
92378028|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|-0.3|||||TWO_SIDED|95.0|-1.7|0.8||||||Serotype 1: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|
92378029|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|3.3|||||TWO_SIDED|95.0|1.8|5.8||||||Serotype 3: Participants With IgG ≥0.35 μg/mL||5.8|1.8|
92378030|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|-0.3|||||TWO_SIDED|95.0|-1.7|0.8||||||Serotype 4: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|
92378031|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 5: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
92378032|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 6A: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
92378033|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 6B: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
92378034|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 7F: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
92378035|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 9V: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
92378036|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 14: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
92378037|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 18C: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
92378038|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 19A: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
92378039|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 19F: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
92378040|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.3|||||TWO_SIDED|95.0|-1.1|1.9||||||Serotype 23F: Participants With IgG ≥0.35 μg/mL||1.9|-1.1|
92378041|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|94.8|||||TWO_SIDED|95.0|91.8|96.7||||||Serotype 22F: Participants With IgG ≥0.35 μg/mL||96.7|91.8|
92411686|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.25||||0.34||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.34
92411687|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.06||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||
92411688|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||
92411689|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.13||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||
92411690|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.05||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||
92378042|NCT04384107|184659135|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|88.5|||||TWO_SIDED|95.0|84.5|91.6||||||Serotype 33F: Participants With IgG ≥0.35 μg/mL||91.6|84.5|
92378043|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.53|||||TWO_SIDED|95.0|0.47|0.59||||||Serotype 1: IgG GMC Ratio||0.59|0.47|
92378044|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|1.71|||||TWO_SIDED|95.0|1.53|1.9||||||Serotype 3: IgG GMC Ratio||1.90|1.53|
92378045|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.92|||||TWO_SIDED|95.0|0.8|1.05||||||Serotype 4: IgG GMC Ratio||1.05|0.80|
92378046|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.67|||||TWO_SIDED|95.0|0.59|0.75||||||Serotype 5: IgG GMC Ratio||0.75|0.59|
92378047|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.64|||||TWO_SIDED|95.0|0.56|0.73||||||Serotype 6A: IgG GMC Ratio||0.73|0.56|
92378048|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.74|||||TWO_SIDED|95.0|0.65|0.84||||||Serotype 6B: IgG GMC Ratio||0.84|0.65|
92378049|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.71|0.92||||||Serotype 7F: IgG GMC Ratio||0.92|0.71|
92378050|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.73|0.94||||||Serotype 9V: IgG GMC Ratio||0.94|0.73|
92378051|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.74|0.96||||||Serotype 14: IgG GMC Ratio||0.96|0.74|
92378052|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.14||||||Serotype 18C: IgG GMC Ratio||1.14|0.87|
92378053|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.82|||||TWO_SIDED|95.0|0.73|0.92||||||Serotype 19A: IgG GMC Ratio||0.92|0.73|
92378054|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.75|0.94||||||Serotype 19F: IgG GMC Ratio||0.94|0.75|
92411691|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.19||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||
92411692|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.03||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||
92378055|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.6|||||TWO_SIDED|95.0|0.52|0.7||||||Serotype 23F: IgG GMC Ratio||0.70|0.52|
92378056|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|86.74|||||TWO_SIDED|95.0|77.61|96.95||||||Serotype 22F: IgG GMC Ratio||96.95|77.61|
92378057|NCT04384107|184659136|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|45.44|||||TWO_SIDED|95.0|40.07|51.54||||||Serotype 33F: IgG GMC Ratio||51.54|40.07|
92378058|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.66|||||TWO_SIDED|95.0|0.55|0.78||||||Serotype 1: OPA GMT Ratio||0.78|0.55|
92378059|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.23|1.59||||||Serotype 3: OPA GMT Ratio||1.59|1.23|
92378060|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.1||||||Serotype 4: OPA GMT Ratio||1.10|0.85|
92378061|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.91|||||TWO_SIDED|95.0|0.8|1.04||||||Serotype 5: OPA GMT Ratio||1.04|0.80|
92378062|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.89||||||Serotype 6A: OPA GMT Ratio||0.89|0.65|
92378063|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.69|0.95||||||Serotype 6B: OPA GMT Ratio||0.95|0.69|
92378064|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.7|0.95||||||Serotype 7F: OPA GMT Ratio||0.95|0.70|
92411693|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.6||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||
92411694|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||
92411695|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.83||||0.001||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||0.001
92411696|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.14||||0.57||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||0.57
92411697|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.65||||0.001||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||0.001
92411698|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.31||||0.11||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||0.11
92411699|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.02||||0.94||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.94
92411700|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.0003||||1||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||1.00
92411701|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.004||||1||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||1.00
92411702|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.3||||0.37||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.37
92231317|NCT00552110|184365437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Multiplicity for multiple treatment comparisons was not adjusted.|ANCOVA|Analysis of Covariance (ANCOVA); classification variables: treatment, center, dosing sequence (stratification variable); covariate: baseline score||"Null hypothesis: the concurrent administration of MFNS and OXY once daily has the same mean change from baseline in AM/PM NOW TNSS as that of OXY twice daily.~Power calculation: The target randomization of 875 subjects (175 subjects per treatment arm) was needed to detect a treatment difference of 0.8 point or more in change from baseline in AM/PM NOW TNSS, with a two-sided alpha of 0.05 and 90% power, assuming a pooled standard deviation of 2.3 points."||||0.002
92411703|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.52||||0.09||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||0.09
92411704|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.21||||0.4||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||0.40
92411705|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.28||||0.2||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||0.20
92411706|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.41||||0.03||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||0.03
92411707|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.48||||0.07||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.07
92411708|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.22||||0.3||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.30
92411709|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.26||||0.74||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.74
92411710|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.378||||0.25||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.25
92378065|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.82|||||TWO_SIDED|95.0|0.71|0.94||||||Serotype 9V: OPA GMT Ratio||0.94|0.71|
92378066|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.15|||||TWO_SIDED|95.0|0.97|1.38||||||Serotype 14: OPA GMT Ratio||1.38|0.97|
92378067|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.9|1.11||||||Serotype 18C: OPA GMT Ratio||1.11|0.90|
92378068|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.68|||||TWO_SIDED|95.0|0.61|0.77||||||Serotype 19A: OPA GMT Ratio||0.77|0.61|
92378069|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.84|1.04||||||Serotype 19F: OPA GMT Ratio||1.04|0.84|
92411711|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.69||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||
92411712|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||
92411713|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.42||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||
92411714|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.1||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||
92411715|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.0004||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||
92411716|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||
92411717|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||
92411718|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.9||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||
92411719|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.04||||0.86||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.86
92240315|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.281||||||"P-value of  quality of social interaction "|Wilcoxon signed-rank test|||||||0.281
92378070|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.63|||||TWO_SIDED|95.0|0.53|0.74||||||Serotype 23F: OPA GMT Ratio||0.74|0.53|
92378071|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|560.46|||||TWO_SIDED|95.0|474.05|662.63||||||Serotype 22F: OPA GMT Ratio||662.63|474.05|
92378072|NCT04384107|184659137|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|196.14|||||TWO_SIDED|95.0|141.85|271.21||||||Serotype 33F: OPA GMT Ratio||271.21|141.85|
92378073|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.53|||||TWO_SIDED|95.0|0.38|0.75||||||Serotype 1: OPA GMT Ratio||0.75|0.38|
92378074|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.62|||||TWO_SIDED|95.0|1.28|2.03||||||Serotype 3: OPA GMT Ratio||2.03|1.28|
92378075|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.72|||||TWO_SIDED|95.0|0.57|0.93||||||Serotype 4: OPA GMT Ratio||0.93|0.57|
92378076|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.86|||||TWO_SIDED|95.0|0.66|1.13||||||Serotype 5: OPA GMT Ratio||1.13|0.66|
92378077|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.72|||||TWO_SIDED|95.0|0.57|0.91||||||Serotype 6A: OPA GMT Ratio||0.91|0.57|
92378078|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.66|||||TWO_SIDED|95.0|0.52|0.83||||||Serotype 6B: OPA GMT Ratio||0.83|0.52|
92378079|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.86|||||TWO_SIDED|95.0|0.68|1.07||||||Serotype 7F: OPA GMT Ratio||1.07|0.68|
92378080|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.65|||||TWO_SIDED|95.0|0.5|0.84||||||Serotype 9V: OPA GMT Ratio||0.84|0.50|
92378081|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.48|||||TWO_SIDED|95.0|1.16|1.9||||||Serotype 14: OPA GMT Ratio||1.90|1.16|
92378082|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.19|||||TWO_SIDED|95.0|0.95|1.48||||||Serotype 18C: OPA GMT Ratio||1.48|0.95|
92411720|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.08||||0.7||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.7
92411721|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.11||||0.58||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.58
92411722|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.13||||0.44||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.44
92411723|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.07||||0.75||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.75
92411724|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.04||||0.84||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.84
92278057|NCT00782509|184458143|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.1273|STANDARD_ERROR_OF_MEAN|0.5028||0.7883|TWO_SIDED|95.0|0.4696|2.7064|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||2.7064|0.4696|0.7883
92378083|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.78|||||TWO_SIDED|95.0|0.6|1.01||||||Serotype 19A: OPA GMT Ratio||1.01|0.60|
92378084|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.23|||||TWO_SIDED|95.0|1.0|1.52||||||Serotype 19F: OPA GMT Ratio||1.52|1.00|
92378085|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.37|||||TWO_SIDED|95.0|0.28|0.49||||||Serotype 23F: OPA GMT Ratio||0.49|0.28|
92411725|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.11||||0.67||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.67
92411726|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.002||||0.99||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.99
92411727|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.11||||0.62||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.62
92411728|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.17||||0.36||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.36
92411729|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.003||||0.99||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.99
92231318|NCT00552110|184365437|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||Null hypothesis: the concurrent administration of MFNS and OXY once daily has the same mean change from baseline in AM/PM NOW TNSS as that of OXY twice daily.||||<0.001
92231319|NCT00552110|184365437|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||Null hypothesis: the administration of MFNS once daily has the same mean change from baseline in AM/PM NOW TNSS as that of placebo.||||<0.001
92378086|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|155.88|||||TWO_SIDED|95.0|101.84|238.59||||||Serotype 22F: OPA GMT Ratio||238.59|101.84|
92378087|NCT04384107|184659138|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|16.81|||||TWO_SIDED|95.0|11.74|24.08||||||Serotype 33F: OPA GMT Ratio||24.08|11.74|
92411730|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.2||||0.24||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.24
92411731|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.11||||0.62||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.62
92411732|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.08||||0.69||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for the analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.69
92411733|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.13||||0.6||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.60
92411734|NCT00488683|184713797|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.01||||0.95||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.95
92411735|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.0015||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||
92411736|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.0057||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||
92240316|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||1||||||"P-value of  sleep "|Wilcoxon signed-rank test|||||||1.00
92240317|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||1||||||"P-value of  social support "|Wilcoxon signed-rank test|||||||1.00
92240318|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.943||||||"P-value of  dialysis staff encouragement "|Wilcoxon signed-rank test|||||||0.943
92378088|NCT03474081|184659171|SUPERIORITY||Mean Difference (Net)|0.095|STANDARD_ERROR_OF_MEAN|0.0167|<|0.001|TWO_SIDED|95.0|0.062|0.128||The MMRM model included Baseline FEV1, visit, geographical region, and treatment as covariates and visit-by-Baseline FEV1 and visit-by-treatment interaction terms.|Mixed model repeated measures (MMRM)|||||0.128|0.062|<0.001
92231320|NCT00552110|184365438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021||95.0||||Multiplicity for multiple treatment comparisons was not adjusted.|ANCOVA|ANCOVA; classification variables: treatment, center, dosing sequence (stratification variable); covariate: baseline score||Null hypothesis: the concurrent administration of MFNS and OXY once daily has the same standardized AUC(0-4 hr) of the change from baseline in nasal congestion score as that of MFNS once daily.||||0.021
92231321|NCT00552110|184365438|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||Null hypothesis: the concurrent administration of MFNS and OXY once daily has the same standardized AUC (0-4hr) of the change from baseline in nasal congestion score as that of MFNS once daily||||<0.001
92231322|NCT00552110|184365438|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||Null hypothesis: the administration of OXY twice daily has the same standardized AUC(0-4 hr) of the change from baseline in nasal congestion score as that of placebo||||<0.001
92231323|NCT00963807|184365441|SUPERIORITY_OR_OTHER|||||||0.336|||||||t-test, 2 sided|||||||0.336
92378089|NCT03474081|184659172|SUPERIORITY||Mean Difference (Net)|0.122|STANDARD_ERROR_OF_MEAN|0.0144|<|0.001|TWO_SIDED|95.0|0.094|0.15||The MMRM model included Baseline FEV1, visit, geographical region, and treatment as covariates and visit-by-Baseline FEV1 and visit-by-treatment interaction terms.|Mixed model repeated measures (MMRM)|||||0.150|0.094|<0.001
92378090|NCT03474081|184659173|SUPERIORITY||Mean Difference (Net)|0.087|STANDARD_ERROR_OF_MEAN|0.0159|<|0.001|TWO_SIDED|95.0|0.056|0.118||The MMRM model included Baseline FEV1, visit, geographical region, and treatment as covariates and visit-by-Baseline FEV1 and visit-by-treatment interaction terms.|Mixed model repeated measures (MMRM)|||||0.118|0.056|<0.001
92378091|NCT00131456|184659195|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||Regression, Logistic|||Logistic regression was used to analyze all dichotomous outcomes. The dichotomous primary outcome marijuana abstinence was modeled using independent predictors: treatment(Venlafaxine vs. Placebo) and baseline urine THC level. The initial analysis included an interaction between treatment and baseline urine THC levels which was deemed not significant and omitted from the final logistic model.||||<0.01
92378092|NCT01307462|184659218|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based physical functioning score||||.81
92378093|NCT01307462|184659218|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based role-physical score||||.18
92411737|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||
92411738|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Groups 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||
92411739|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.0048||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||
92411740|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.0018||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||
92231324|NCT04211337|184365444|SUPERIORITY||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.165|0.475|||Log Rank|Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).|Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).|||0.475|0.165|<0.0001
92378094|NCT01307462|184659218|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based bodily pain score||||.48
92378095|NCT01307462|184659218|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based general health score||||.26
92378096|NCT01307462|184659218|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based vitality score||||.23
92378097|NCT01307462|184659218|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based social functioning score||||.36
92378098|NCT01307462|184659218|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based role-emotional score||||.41
92378099|NCT01307462|184659218|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based mental health score||||.80
92378100|NCT01307462|184659218|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||SF-36 standardized physical component score||||.80
92378101|NCT01307462|184659218|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||SF-36 standardized mental component score||||.23
92378102|NCT01307462|184659219|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||FACT physical well-being||||0.28
92378103|NCT01307462|184659219|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||FACT social/family well-being||||0.1
92378104|NCT01307462|184659219|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||FACT emotional well-being||||0.63
92378105|NCT01307462|184659219|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||FACT functional well-being||||0.78
92378106|NCT01307462|184659219|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||FACT BMT subscale||||.84
92378107|NCT01307462|184659219|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||FACT trial outcome index||||.37
92378108|NCT01307462|184659219|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||FACT-G||||.71
92378109|NCT01307462|184659219|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||FACT-BMT total||||.54
92411741|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||
92411742|NCT00488683|184713797|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||
92378110|NCT01307462|184659220|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||HAP maximum activity score - highest item still doing||||.37
92378111|NCT01307462|184659220|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||HAP adjusted activity score - MAS minus stopped||||.39
92378112|NCT01307462|184659220|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Modified HAP adjusted activity score||||.39
92378113|NCT01307462|184659221|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Lee symptom skin scale||||.11
92378114|NCT01307462|184659221|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||Lee symptom energy scale||||.007
92411743|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.14||||0.68||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup A||||0.68
92411744|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.44||||0.09||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup C||||0.09
92411745|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.11||||0.69||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup W-135||||0.69
92411746|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.38||||0.2||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup Y||||0.20
92411747|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.05||||0.88||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup A||||0.88
92378115|NCT01307462|184659221|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Lee symptom lung scale||||.20
92378116|NCT01307462|184659221|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Lee symptom eye scale||||.002
92378117|NCT01307462|184659221|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Lee symptom nutrition scale||||.52
92378118|NCT01307462|184659221|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||Lee symptom psychological scale||||.22
92378119|NCT01307462|184659221|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Lee symptom mouth scale||||.002
92378120|NCT01307462|184659221|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Lee symptom overall summary scale||||<0.001
92378121|NCT00996801|184659232|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.96||||0.012|TWO_SIDED|95.0|-3.58|-0.35||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.35|-3.58|0.012
92378122|NCT00996801|184659232|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.81||||0.019|TWO_SIDED|95.0|-3.37|-0.25||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.25|-3.37|0.019
92378123|NCT00996801|184659232|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.82||||0.019|TWO_SIDED|95.0|-3.23|-0.41||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.41|-3.23|0.019
92378124|NCT00996801|184659233|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-2.64|||<|0.001|TWO_SIDED|95.0|-3.9|-1.38||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.38|-3.90|<0.001
92378125|NCT00996801|184659233|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-2.62|||<|0.001|TWO_SIDED|95.0|-3.83|-1.4||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.40|-3.83|<0.001
92378126|NCT00996801|184659233|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-2.12|||<|0.001|TWO_SIDED|95.0|-3.22|-1.02||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.02|-3.22|<0.001
92378127|NCT00996801|184659233|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-0.74||||0.376|TWO_SIDED|95.0|-1.99|0.52||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.52|-1.99|0.376
92411748|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.41||||0.12||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup C||||0.12
92411749|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.25||||0.37||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup W-135||||0.37
92411750|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.28||||0.36||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup Y||||0.36
92231325|NCT04211337|184365445|SUPERIORITY||Hazard Ratio (HR)|0.254|||<|0.0001|TWO_SIDED|95.0|0.153|0.423|||Log Rank|Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).|Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).|||0.423|0.153|<0.0001
92378128|NCT00996801|184659233|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.71||||0.376|TWO_SIDED|95.0|-1.93|0.5||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.50|-1.93|0.376
92378129|NCT00996801|184659233|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.22||||0.699|TWO_SIDED|95.0|-1.32|0.88||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.88|-1.32|0.699
92378130|NCT00996801|184659234|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-2.04||||0.002|TWO_SIDED|95.0|-3.43|-0.64||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.64|-3.43|0.002
92378131|NCT00996801|184659234|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.29||||0.035|TWO_SIDED|95.0|-2.48|-0.09||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.09|-2.48|0.035
92378132|NCT00996801|184659234|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.76||||0.009|TWO_SIDED|95.0|-3.14|-0.38||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.38|-3.14|0.009
92378133|NCT00996801|184659234|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.86||||0.335|TWO_SIDED|95.0|-2.26|0.54||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.54|-2.26|0.335
92378134|NCT00996801|184659234|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.11||||0.857|TWO_SIDED|95.0|-1.3|1.08||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.08|-1.30|0.857
92378135|NCT00996801|184659234|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.59||||0.542|TWO_SIDED|95.0|-1.96|0.79||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.79|-1.96|0.542
92378136|NCT00996801|184659235|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-3.24|||<|0.001|TWO_SIDED|95.0|-4.91|-1.57||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.57|-4.91|<0.001
92378137|NCT00996801|184659235|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-3.18|||<|0.001|TWO_SIDED|95.0|-4.78|-1.57||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.57|-4.78|<0.001
92378138|NCT00996801|184659235|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-3.2|||<|0.001|TWO_SIDED|95.0|-4.66|-1.74||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.74|-4.66|<0.001
92378139|NCT00996801|184659235|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.27||||0.18|TWO_SIDED|95.0|-2.93|0.4||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.40|-2.93|0.180
92378140|NCT00996801|184659235|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.2||||0.18|TWO_SIDED|95.0|-2.81|0.4||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.40|-2.81|0.180
92378141|NCT00996801|184659235|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.22||||0.18|TWO_SIDED|95.0|-2.68|0.23||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.23|-2.68|0.180
92378142|NCT00996801|184659236|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.36||||0.001|TWO_SIDED|95.0|-2.18|-0.54||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.54|-2.18|0.001
92378143|NCT00996801|184659236|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.51||||0.001|TWO_SIDED|95.0|-2.46|-0.55||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.55|-2.46|0.001
92378144|NCT00996801|184659236|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.92|||<|0.001|TWO_SIDED|95.0|-2.93|-0.91||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.91|-2.93|<0.001
92378145|NCT00996801|184659236|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.37||||0.383|TWO_SIDED|95.0|-1.21|0.46||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.46|-1.21|0.383
92411751|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup A||||
92378146|NCT00996801|184659236|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.52||||0.383|TWO_SIDED|95.0|-1.49|0.45||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.45|-1.49|0.383
92378147|NCT00996801|184659236|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.94||||0.084|TWO_SIDED|95.0|-1.96|0.09||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.09|-1.96|0.084
92378148|NCT00996801|184659237|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.47||||0.68|TWO_SIDED|95.0|-1.88|0.94||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.94|-1.88|0.680
92378149|NCT00996801|184659237|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.01||||0.993|TWO_SIDED|95.0|-1.3|1.28||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.28|-1.30|0.993
92378150|NCT00996801|184659237|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.1||||0.23|TWO_SIDED|95.0|-2.67|0.46||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.46|-2.67|0.230
92378151|NCT00996801|184659237|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.84||||0.333|TWO_SIDED|95.0|-2.29|0.61||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.61|-2.29|0.333
92378152|NCT00996801|184659237|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.37||||0.577|TWO_SIDED|95.0|-1.69|0.94||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.94|-1.69|0.577
92411752|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.2||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup C||||
92411753|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup W-135||||
92378153|NCT00996801|184659237|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.47||||0.078|TWO_SIDED|95.0|-3.07|0.12||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.12|-3.07|0.078
92378154|NCT00996801|184659238|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.99||||0.094|TWO_SIDED|95.0|-4.22|0.25||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.25|-4.22|0.094
92378155|NCT00996801|184659238|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.66||||0.157|TWO_SIDED|95.0|-3.82|0.5||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.50|-3.82|0.157
92378156|NCT00996801|184659238|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.57||||0.157|TWO_SIDED|95.0|-3.53|0.38||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.38|-3.53|0.157
92378157|NCT00996801|184659238|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.43||||0.937|TWO_SIDED|95.0|-2.61|1.76||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.76|-2.61|0.937
92378158|NCT00996801|184659238|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.1||||0.992|TWO_SIDED|95.0|-2.21|2.01||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.01|-2.21|0.992
92378159|NCT00996801|184659238|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.01||||0.992|TWO_SIDED|95.0|-1.93|1.9||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.90|-1.93|0.992
92378160|NCT00996801|184659239|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.47||||0.824|TWO_SIDED|95.0|-2.5|1.56||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.56|-2.50|0.824
92411754|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.15||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup Y||||
92411755|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|1.0||||||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one week after booster vaccination for the serogroup C||||
92411756|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|1.0||||||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one week after booster vaccination for the serogroup C||||
92378161|NCT00996801|184659239|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.42||||0.824|TWO_SIDED|95.0|-2.28|1.43||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.43|-2.28|0.824
92378162|NCT00996801|184659239|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.96||||0.624|TWO_SIDED|95.0|-3.23|1.31||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.31|-3.23|0.624
92378163|NCT00996801|184659239|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.78||||0.7|TWO_SIDED|95.0|-1.25|2.82||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.82|-1.25|0.700
92378164|NCT00996801|184659239|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.83||||0.7|TWO_SIDED|95.0|-1.39|3.06||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||3.06|-1.39|0.700
92378165|NCT00996801|184659239|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.3||||0.759|TWO_SIDED|95.0|-1.6|2.19||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.19|-1.60|0.759
92378166|NCT00996801|184659240|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-16.22||||0.227|TWO_SIDED|95.0|-39.15|6.72||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||6.72|-39.15|0.227
92378167|NCT00996801|184659240|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.85||||0.853|TWO_SIDED|95.0|-17.9|21.61||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||21.61|-17.90|0.853
92378168|NCT00996801|184659240|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-13.14||||0.327|TWO_SIDED|95.0|-35.67|9.39||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||9.39|-35.67|0.327
92378169|NCT00996801|184659240|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-2.74||||0.94|TWO_SIDED|95.0|-23.91|18.43||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||18.43|-23.91|0.940
92378170|NCT00996801|184659240|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|15.33||||0.273|TWO_SIDED|95.0|-7.86|38.52||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||38.52|-7.86|0.273
92378171|NCT00996801|184659240|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.33||||0.973|TWO_SIDED|95.0|-19.23|19.9||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||19.90|-19.23|0.973
92378172|NCT00996801|184659241|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.48||||0.01|TWO_SIDED|95.0|-2.66|-0.29||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.29|-2.66|0.010
92378173|NCT00996801|184659241|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.14||||0.053|TWO_SIDED|95.0|-2.29|0.01||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.01|-2.29|0.053
92378174|NCT00996801|184659241|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.15||||0.053|TWO_SIDED|95.0|-2.19|-0.11||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.11|-2.19|0.053
92378175|NCT00996801|184659241|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.58||||0.509|TWO_SIDED|95.0|-1.77|0.6||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.60|-1.77|0.509
92378176|NCT00996801|184659241|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.25||||0.843|TWO_SIDED|95.0|-1.27|0.77||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.77|-1.27|0.843
92411757|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|1.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one week after booster vaccination for the serogroup C||||
92411758|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one week after booster vaccination for the serogroup W-135||||
92240319|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||1||||||"P-value of  overall health "|Wilcoxon signed-rank test|||||||1.00
92231326|NCT04211337|184365446|SUPERIORITY||Odds Ratio (OR)|3.7|||<|0.0001|TWO_SIDED|95.0|2.2|6.3||Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib)|Clopper-Pearson method|||||6.3|2.2|<0.0001
92378177|NCT00996801|184659241|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.26||||0.843|TWO_SIDED|95.0|-1.43|0.92||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.92|-1.43|0.843
92378178|NCT00996801|184659242|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|86.33|||<|0.001|TWO_SIDED|95.0|64.87|108.29||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||108.29|64.87|<0.001
92378179|NCT00996801|184659242|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|82.14|||<|0.001|TWO_SIDED|95.0|63.0|101.66||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||101.66|63.00|<0.001
92378180|NCT00996801|184659242|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|107.26|||<|0.001|TWO_SIDED|95.0|82.03|133.23||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||133.23|82.03|<0.001
92378181|NCT00996801|184659242|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|22.87||||0.104|TWO_SIDED|95.0|-3.8|49.68||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||49.68|-3.80|0.104
92378182|NCT00996801|184659242|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|18.68||||0.123|TWO_SIDED|95.0|-5.11|42.56||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||42.56|-5.11|0.123
92378183|NCT00996801|184659242|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|43.8||||0.003|TWO_SIDED|95.0|12.85|75.06||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||75.06|12.85|0.003
92378184|NCT00996801|184659243|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|187.31|||<|0.001|TWO_SIDED|95.0|154.44|221.25||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||221.25|154.44|<0.001
92231327|NCT04211337|184365447|SUPERIORITY||Hazard Ratio (HR)|0.275||||0.0004|TWO_SIDED|95.0|0.129|0.587|||Log Rank|Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).||||0.587|0.129|0.0004
92378185|NCT00996801|184659243|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|200.29|||<|0.001|TWO_SIDED|95.0|161.21|240.91||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||240.91|161.21|<0.001
92378186|NCT00996801|184659243|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|224.3|||<|0.001|TWO_SIDED|95.0|180.19|270.39||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||270.39|180.19|<0.001
92378187|NCT00996801|184659243|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|48.29||||0.034|TWO_SIDED|95.0|3.75|93.11||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||93.11|3.75|0.034
92378188|NCT00996801|184659243|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|61.27||||0.019|TWO_SIDED|95.0|8.8|114.22||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||114.22|8.80|0.019
92378189|NCT00996801|184659243|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|85.28||||0.002|TWO_SIDED|95.0|26.7|144.63||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||144.63|26.70|0.002
92378190|NCT00996801|184659244|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|133.03|||<|0.001|TWO_SIDED|95.0|110.01|156.75||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||156.75|110.01|<0.001
92378191|NCT00996801|184659244|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|133.03||||0.001|TWO_SIDED|95.0|110.01|156.75||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||156.75|110.01|0.001
92378192|NCT00996801|184659244|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|131.53|||<|0.001|TWO_SIDED|95.0|110.7|152.94||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||152.94|110.70|<0.001
92378193|NCT00996801|184659244|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|169.8|||<|0.001|TWO_SIDED|95.0|141.59|199.11||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||199.11|141.59|<0.001
92240320|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.09||||||"P-value of  patient satisfaction "|Wilcoxon signed-rank test|||||||0.090
92378194|NCT00996801|184659244|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|58.57|||<|0.001|TWO_SIDED|95.0|29.42|88.04||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||88.04|29.42|<0.001
92378195|NCT00996801|184659244|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|57.07|||<|0.001|TWO_SIDED|95.0|30.76|83.64||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||83.64|30.76|<0.001
92378196|NCT00996801|184659244|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|95.34|||<|0.001|TWO_SIDED|95.0|60.4|130.91||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||130.91|60.40|<0.001
92378197|NCT00996801|184659245|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|53.86|||<|0.001|TWO_SIDED|95.0|39.31|68.6||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||68.60|39.31|<0.001
92378198|NCT00996801|184659245|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|53.81|||<|0.001|TWO_SIDED|95.0|41.37|66.38||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||66.38|41.37|<0.001
92378199|NCT00996801|184659245|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|55.47|||<|0.001|TWO_SIDED|95.0|41.19|69.94||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||69.94|41.19|<0.001
92378200|NCT00996801|184659245|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|20.53||||0.009|TWO_SIDED|95.0|5.96|35.03||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||35.03|5.96|0.009
92378201|NCT00996801|184659245|SUPERIORITY_OR_OTHER||Difference in Least Mean Squares|20.47||||0.009|TWO_SIDED|95.0|5.96|35.03||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||35.03|5.96|0.009
92378202|NCT00996801|184659245|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|22.13||||0.009|TWO_SIDED|95.0|4.47|39.89||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||39.89|4.47|0.009
92378203|NCT00289198|184659250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.256|||<|0.001|TWO_SIDED|95.0|-1.73|-0.78||Change from Baseline (Day 1) in reflective total nasal symptom scores for Placebo versus that for fluticasone furoate|ANCOVA|||||-0.78|-1.73|<0.001
92378204|NCT00289198|184659251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.459|||<|0.001|TWO_SIDED|95.0|-1.93|-0.99||Mean change from Baseline in AM pre-dose instantaneous TNSS over entire period for Placebo versus that for Fluticasone furoate|ANCOVA|||||-0.99|-1.93|<0.001
92378205|NCT00289198|184659252|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|Based on logistic regression adjusting for age, gender and country||||||<0.001
92411759|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one week after booster vaccination for the serogroup Y||||
92411760|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.08||||0.79||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup A||||0.79
92378206|NCT00289198|184659253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.274|||<|0.001|TWO_SIDED|95.0|-1.74|-0.81|||ANCOVA|||||-0.81|-1.74|<0.001
92378207|NCT00289198|184659254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.291|||<|0.001|TWO_SIDED|95.0|-1.77|-0.81|||ANCOVA|||||-0.81|-1.77|<0.001
92378208|NCT00289198|184659255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.118|||<|0.001|TWO_SIDED|95.0|-20.03|-8.21|||ANCOVA|||||-8.21|-20.03|<0.001
92378209|NCT00289198|184659256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.033|||<|0.001|TWO_SIDED|95.0|-27.13|-12.94|||ANCOVA|||||-12.94|-27.13|<0.001
92378210|NCT00289198|184659257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.277|||<|0.001|TWO_SIDED|95.0|-0.41|-0.14|||ANCOVA|||Rhinorrhea score, Placebo vs Fluticasone furoate||-0.14|-0.41|<0.001
92378211|NCT00289198|184659257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.277|||<|0.001|TWO_SIDED|95.0|-0.42|-0.14|||ANCOVA|||Nasal Congestion, Placebo vs Fluticasone furoate||-0.14|-0.42|<0.001
92411761|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.35||||0.16||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup C||||0.16
92378212|NCT00289198|184659257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.331|||<|0.001|TWO_SIDED|95.0|-0.47|-0.2|||ANCOVA|||Nasal Itching, Placebo vs Fluticasone furoate||-0.20|-0.47|<0.001
92378213|NCT00289198|184659257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.001|TWO_SIDED|95.0|-0.52|-0.27|||ANCOVA|||Sneezing score, Placebo vs Fluticasone furoate||-0.27|-0.52|<0.001
92378214|NCT00289198|184659258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.357||||0.001|TWO_SIDED|95.0|-0.5|-0.22|||ANCOVA|||Rhinorrhea score, Placebo versus fluticasone furoate||-0.22|-0.50|0.001
92378215|NCT00289198|184659258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.001|TWO_SIDED|95.0|-0.51|-0.23|||ANCOVA|||Nasal Congestion score, Placebo versus fluticasone furoate||-0.23|-0.51|0.001
92378216|NCT00289198|184659258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.372||||0.001|TWO_SIDED|95.0|-0.5|-0.24|||ANCOVA|||Nasal itching score, Placebo versus fluticasone furoate||-0.24|-0.50|0.001
92378217|NCT00289198|184659258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.372||||0.001|TWO_SIDED|95.0|-0.5|-0.24|||ANCOVA|||Sneezing score, Placebo versus fluticasone furoate||-0.24|-0.50|0.001
92378218|NCT00289198|184659259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.281||||0.001|TWO_SIDED|95.0|-0.42|-0.14|||ANCOVA|||Rhinorrhea score,Placebo versus fluticasone furoate||-0.14|-0.42|0.001
92378219|NCT00289198|184659259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.314||||0.001|TWO_SIDED|95.0|-0.45|-0.17|||ANCOVA|||Nasal Congestion score, Placebo versus fluticasone furoate||-0.17|-0.45|0.001
92378220|NCT00289198|184659259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.324||||0.001|TWO_SIDED|95.0|-0.45|-0.19|||ANCOVA|||Nasal itching score, Placebo versus fluticasone furoate||-0.19|-0.45|0.001
92378221|NCT00289198|184659259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.374||||0.001|TWO_SIDED|95.0|-0.5|-0.25|||ANCOVA|||Sneezing score, Placebo versus fluticasone furoate||-0.25|-0.50|0.001
92378222|NCT00289198|184659260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.292|||<|0.001||95.0|-0.43|-0.15|||ANCOVA|||Rhinorrhea score, Placebo vs Fluticasone furoate||-0.15|-0.43|<0.001
92378223|NCT00289198|184659260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.264|||<|0.001|TWO_SIDED|95.0|-0.4|-0.12|||ANCOVA|||Nasal Congestion score, Placebo vs Fluticasone furoate||-0.12|-0.40|<0.001
92378224|NCT00289198|184659260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.336|||<|0.001|TWO_SIDED|95.0|-0.48|-0.2|||ANCOVA|||Nasal Itching score, Placebo vs Fluticasone furoate||-0.20|-0.48|<0.001
92378225|NCT00289198|184659260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.412|||<|0.001|TWO_SIDED|95.0|-0.54|-0.28|||ANCOVA|||Sneezing score, Placebo vs Fluticasone furoate||-0.28|-0.54|<0.001
92378226|NCT00289198|184659261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.506||||0.004|TWO_SIDED|95.0|-0.85|-0.16|||ANCOVA|||||-0.16|-0.85|0.004
92378227|NCT00289198|184659262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.491||||0.007||95.0|-0.85|-0.13|||ANCOVA|||||-0.13|-0.85|0.007
92378228|NCT00289198|184659263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.531||||0.003|TWO_SIDED|95.0|-0.88|-0.19|||ANCOVA|||||-0.19|-0.88|0.003
92378229|NCT00289198|184659264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.496||||0.005|TWO_SIDED|95.0|-0.84|-0.15|||ANCOVA|||||-0.15|-0.84|0.005
92378230|NCT00289198|184659265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.216||||0.001|TWO_SIDED|95.0|-0.34|-0.09|||ANCOVA|||Eye itching/burning score, Placebo vs fluticasone furoate||-0.09|-0.34|0.001
92378231|NCT00289198|184659265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.137||||0.028|TWO_SIDED|95.0|-0.26|-0.02|||ANCOVA|||Eye tearing/watering score, Placebo vs fluticasone furoate||-0.02|-0.26|0.028
92411762|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.48||||0.1||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup W-135||||0.10
92378232|NCT00289198|184659265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.156||||0.01|TWO_SIDED|95.0|-0.27|-0.04|||ANCOVA|||Eye redness, Placebo vs fluticasone furoate||-0.04|-0.27|0.010
92378233|NCT00289198|184659266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.215||||0.002|TWO_SIDED|95.0|-0.35|-0.08|||ANCOVA|||Eye itching/burning score, Placebo vs fluticasone furoate||-0.08|-0.35|0.002
92378234|NCT00289198|184659266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.161||||0.016||95.0|-0.29|-0.03|||ANCOVA|||Eye tearing or watering, Placebo vs fluticasone furoate||-0.03|-0.29|0.016
92378235|NCT00289198|184659266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.113||||0.076|TWO_SIDED|95.0|-0.24|-0.01|||ANCOVA|||Eye redness score, Placebo vs fluticasone furoate||-0.01|-0.24|0.076
92378236|NCT00289198|184659267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.211||||0.001|TWO_SIDED|95.0|-0.34|-0.08|||ANCOVA|||Eye itching/burning score, Placebo vs Fluticasone furoate||-0.08|-0.34|0.001
92378237|NCT00289198|184659267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.145||||0.023|TWO_SIDED|95.0|-0.27|-0.02|||ANCOVA|||Eye tearing/watering, Placebo vs Fluticasone furoate||-0.02|-0.27|0.023
92378238|NCT00289198|184659267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.176||||0.005|TWO_SIDED|95.0|-0.3|-0.05|||ANCOVA|||Eye Redness score, Placebo vs Fluticasone furoate||-0.05|-0.30|0.005
92378239|NCT00289198|184659268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.223||||0.001|TWO_SIDED|95.0|-0.35|-0.09|||ANCOVA|||Eye itching/burning, Placebo vs fluticasone furoate||-0.09|-0.35|0.001
92378240|NCT00289198|184659268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.04|TWO_SIDED|95.0|-0.25|-0.01|||ANCOVA|||Eye Tearing/Watering score, Placebo vs fluticasone furoate||-0.01|-0.25|0.040
92378241|NCT00289198|184659268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.142||||0.022|TWO_SIDED|95.0|-0.26|-0.02|||ANCOVA|||Eye Redness score, Placebo vs fluticasone furoate||-0.02|-0.26|0.022
92378242|NCT00289198|184659269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.376||||0.004|TWO_SIDED|95.0|2.71|14.04|||ANCOVA|||||14.04|2.71|0.004
92378243|NCT00289198|184659270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.28||||0.002|TWO_SIDED|95.0|3.52|15.04|||ANCOVA|||||15.04|3.52|0.002
92378244|NCT00289198|184659271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.638||||0.009|TWO_SIDED|95.0|1.89|13.39|||ANCOVA|||||13.39|1.89|0.009
92378245|NCT04332614|184659272|SUPERIORITY||Odds Ratio (OR)|0.8791371||||0.0248|TWO_SIDED|95.0|0.7856042|0.9838058||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.9838058|0.7856042|0.0248
92411763|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.98||||0.003||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup Y||||0.003
92378246|NCT04332614|184659272|SUPERIORITY||Odds Ratio (OR)|0.5980109|||<|0.0001|TWO_SIDED|95.0|0.5159511|0.6931219||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.6931219|0.5159511|<0.0001
92378247|NCT04332614|184659272|SUPERIORITY||Odds Ratio (OR)|0.8380003||||0.0133|TWO_SIDED|95.0|0.7285712|0.9638653||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.9638653|0.7285712|0.0133
92378248|NCT04332614|184659273|SUPERIORITY||Odds Ratio (OR)|0.3700794|||<|0.0001|TWO_SIDED|95.0|0.2870513|0.4771231||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.4771231|0.2870513|<0.0001
92378249|NCT04332614|184659273|SUPERIORITY||Odds Ratio (OR)|0.285144|||<|0.0001|TWO_SIDED|95.0|0.1881589|0.4321194||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.4321194|0.1881589|<0.0001
92378250|NCT04332614|184659273|SUPERIORITY||Odds Ratio (OR)|0.5565905||||0.0003|TWO_SIDED|95.0|0.4059477|0.7631354||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.7631354|0.4059477|0.0003
92378251|NCT04332614|184659274|SUPERIORITY||Odds Ratio (OR)|0.72429741||||0.103|TWO_SIDED|95.0|0.49167734|1.0669736||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.0669736|0.49167734|0.103
92378252|NCT04332614|184659274|SUPERIORITY||Odds Ratio (OR)|0.63578603||||0.12|TWO_SIDED|95.0|0.35943749|1.1246013||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.1246013|0.35943749|0.120
92378253|NCT04332614|184659274|SUPERIORITY||Odds Ratio (OR)|1.06482385||||0.789|TWO_SIDED|95.0|0.67282661|1.6852036||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.6852036|0.67282661|0.789
92378254|NCT04332614|184659275|SUPERIORITY||Odds Ratio (OR)|0.8837908||||0.0286|TWO_SIDED|95.0|0.7912382|0.9871694||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.9871694|0.7912382|0.0286
92378255|NCT04332614|184659275|SUPERIORITY||Odds Ratio (OR)|0.6000149|||<|0.0001|TWO_SIDED|95.0|0.5193168|0.6932528||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.6932528|0.5193168|<0.0001
92231328|NCT04211337|184365450|SUPERIORITY||Mean Difference (Final Values)|-0.16|||<|0.0001|TWO_SIDED|95.0|-0.23|-0.1||Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).|Wilcoxon (Mann-Whitney)|||||-0.10|-0.23|<0.0001
92240321|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.391||||||"P-value of  physical functioning "|Wilcoxon signed-rank test|||||||0.391
92378256|NCT04332614|184659275|SUPERIORITY||Odds Ratio (OR)|0.8225743||||0.0055|TWO_SIDED|95.0|0.7167043|0.9440832|||Regression, Logistic|||||0.9440832|0.7167043|0.0055
92378257|NCT04332614|184659276|SUPERIORITY||Odds Ratio (OR)|0.3948795|||<|0.0001|TWO_SIDED|95.0|0.310437|0.5022914||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.5022914|0.3104370|<0.0001
92378258|NCT04332614|184659276|SUPERIORITY||Odds Ratio (OR)|0.2790595|||<|0.0001|TWO_SIDED|95.0|0.1875017|0.4153254||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.4153254|0.1875017|<0.0001
92378259|NCT04332614|184659276|SUPERIORITY||Odds Ratio (OR)|0.6097538||||0.0011|TWO_SIDED|95.0|0.4528751|0.8209762||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.8209762|0.4528751|0.0011
92378260|NCT04332614|184659277|SUPERIORITY||Odds Ratio (OR)|1.0049587||||0.976|TWO_SIDED|95.0|0.72693253|1.3893201||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.3893201|0.72693253|0.976
92378261|NCT04332614|184659277|SUPERIORITY||Odds Ratio (OR)|0.7576895||||0.246|TWO_SIDED|95.0|0.4741259|1.2108458||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.2108458|0.47412590|0.246
92378262|NCT04332614|184659277|SUPERIORITY||Odds Ratio (OR)|1.1728665||||0.428|TWO_SIDED|95.0|0.79090107|1.7393021||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.7393021|0.79090107|0.428
92378263|NCT04332614|184659278|SUPERIORITY||Odds Ratio (OR)|0.9980487||||1|TWO_SIDED|95.0|0.8680298|1.147543||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.147543|0.8680298|1
92378264|NCT04332614|184659278|SUPERIORITY||Odds Ratio (OR)|0.8953032||||0.276|TWO_SIDED|95.0|0.7771682|1.031395||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.031395|0.7771682|0.276
92378265|NCT04332614|184659278|SUPERIORITY||Odds Ratio (OR)|0.8970536||||0.289|TWO_SIDED|95.0|0.7785981|1.033531||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.033531|0.7785981|0.289
92378266|NCT04332614|184659279|SUPERIORITY||Odds Ratio (OR)|0.9313889||||0.94591|TWO_SIDED|95.0|0.6003591|1.444944||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.444944|0.6003591|0.94591
92378267|NCT04332614|184659279|SUPERIORITY||Odds Ratio (OR)|1.8998642||||0.0041|TWO_SIDED|95.0|1.2809137|2.817898||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.817898|1.2809137|0.0041
92411764|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.03||||0.91||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup A||||0.91
92411765|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.57||||0.01||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup C||||0.01
92411766|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.39||||0.19||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup W-135||||0.19
92231329|NCT01431287|184365473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.108|0.157||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.157|0.108|<0.0001
92231330|NCT01431287|184365473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.103|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.078|0.127||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.127|0.078|<0.0001
92231331|NCT01431287|184365473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.121|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.096|0.145||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.145|0.096|< 0.0001
92231332|NCT01431287|184365473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.131|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.106|0.155||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.155|0.106|<0.0001
92378268|NCT04332614|184659279|SUPERIORITY||Odds Ratio (OR)|2.0398184||||0.0015|TWO_SIDED|95.0|1.3648075|3.048678||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||3.048678|1.3648075|0.0015
92378269|NCT04332614|184659280|SUPERIORITY||Odds Ratio (OR)|1.180837||||0.829|TWO_SIDED|95.0|0.6750639|2.065546||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.065546|0.6750639|0.829
92378270|NCT04332614|184659280|SUPERIORITY||Odds Ratio (OR)|1.432003||||0.404|TWO_SIDED|95.0|0.8279689|2.476702||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.476702|0.8279689|0.404
92378271|NCT04332614|184659280|SUPERIORITY||Odds Ratio (OR)|1.212702||||0.753|TWO_SIDED|95.0|0.7161724|2.05348||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.053480|0.7161724|0.753
92378272|NCT04332614|184659281|SUPERIORITY||Odds Ratio (OR)|0.9747188||||0.9284|TWO_SIDED|95.0|0.8501783|1.1175028||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.1175028|0.8501783|0.9284
92378273|NCT04332614|184659281|SUPERIORITY||Odds Ratio (OR)|0.8518974||||0.0612|TWO_SIDED|95.0|0.741461|0.9787827||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||0.9787827|0.7414610|0.0612
92378274|NCT04332614|184659281|SUPERIORITY||Odds Ratio (OR)|0.873993||||0.1407|TWO_SIDED|95.0|0.7602296|1.0047804||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.0047804|0.7602296|0.1407
92378275|NCT04332614|184659282|SUPERIORITY||Odds Ratio (OR)|0.9089673||||0.8848|TWO_SIDED|95.0|0.6109603|1.352333||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.352333|0.6109603|0.8848
92378276|NCT04332614|184659282|SUPERIORITY||Odds Ratio (OR)|1.6914929||||0.0127|TWO_SIDED|95.0|1.1762411|2.43245||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.432450|1.1762411|0.0127
92378277|NCT04332614|184659282|SUPERIORITY||Odds Ratio (OR)|1.8608951||||0.0033|TWO_SIDED|95.0|1.2800275|2.705356||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.705356|1.2800275|0.0033
92378278|NCT04332614|184659283|SUPERIORITY||Odds Ratio (OR)|0.8619131||||0.759|TWO_SIDED|95.0|0.5709078|1.301251||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.301251|0.5709078|0.759
92378279|NCT04332614|184659283|SUPERIORITY||Odds Ratio (OR)|1.0950508||||0.897|TWO_SIDED|95.0|0.7331329|1.635633||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.635633|0.7331329|0.897
92378280|NCT04332614|184659283|SUPERIORITY||Odds Ratio (OR)|1.2704886||||0.498|TWO_SIDED|95.0|0.8377249|1.926816||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.926816|0.8377249|0.498
92378281|NCT03369431|184659289|SUPERIORITY|||||||0.784|||||||t-test, 2 sided|||"Null hypothesis is that there is no difference in the percentage change from baseline in the ATEC Total between Vivomixx and Placebo.~A sample size of 72 participants was needed to determine an effect size of 0.50 with 80% power, with a type 1 error of 5% using a two-sided test. This calculation is based on the assumed effect size of the primary outcome measure, the ATEC. The minimally clinically important difference based on the primary outcome measure with this instrument was 15 points."||||0.784
92411767|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.89||||0.04||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup Y||||0.04
92411768|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup A||||
92411769|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.12||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup C||||
92411770|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.23||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup W-135||||
92411771|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.96||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup Y||||
92411772|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.18||||0.46||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup A||||0.46
92411773|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.03||||0.9||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup C||||0.90
92411774|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.51||||0.008||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup W-135||||0.008
92411775|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.42||||0.08||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup Y||||0.08
92411776|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.15||||0.52||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup A||||0.52
92411777|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.27||||0.18||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup C||||0.18
92411778|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.37||||0.07||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup W-135||||0.07
92411779|NCT00488683|184713798|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.14||||0.55||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup Y||||0.55
92411780|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.03||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup A||||
92240322|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.438||||||"P-value of  role-physical "|Wilcoxon signed-rank test|||||||0.438
92240323|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.424||||||"P-value of  pain "|Wilcoxon signed-rank test|||||||0.424
92411781|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.0007||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup C||||
92411782|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.27||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup W-135||||
92411783|NCT00488683|184713798|SUPERIORITY_OR_OTHER||R-square|0.17||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup Y||||
92411784|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.45||||0.0006||95.0|||||Parametric correlation||Values from Group 1, 2 and 3 were combined for this analysis.|Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells at 12 months of age||||0.0006
92411785|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.41||||0.0021||95.0|||||Non-parametric correlation||Values from Group 1, 2 and 3 were combined for this analysis.|Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells at 12 months of age||||0.0021
92411786|NCT00488683|184713799|SUPERIORITY_OR_OTHER||R-square|0.21||||||95.0|||||Regression, Linear||Values from Group 1, 2 and 3 were combined for this analysis.|Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells at 12 months of age||||
92411787|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.15||||0.53||95.0|||||Parametric correlation|||Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells 1 month after booster vaccination||||0.53
92411788|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.21||||0.26||95.0|||||Parametric correlation||Values from Groups 1, 2 and 3 were combined for this analysis.|Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells one month after booster vaccination||||0.26
92411789|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.05||||0.84||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells one month after booster vaccination||||0.84
92378282|NCT03369431|184659290|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Abdominal Pain between Vivomixx and Placebo.||||0.357
92378283|NCT03369431|184659290|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Gaseousness between Vivomixx and Placebo.||||0.290
92411790|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Spearman Correlation Coefficient|0.22||||0.26||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells one month after booster vaccination||||0.26
92411791|NCT00488683|184713799|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear|||Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells one month after booster vaccination||||
92411792|NCT00488683|184713799|SUPERIORITY_OR_OTHER||R-square|0.05||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells one month after booster vaccination||||
92411793|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.33|||<|0.001||95.0|||||Parametric correlation||Values from Group 1, 2 and 3 were combined for this analysis.|Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration at 12 months of age||||<0.001
92411794|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.46|||<|0.001||95.0|||||Non-parametric correlation||Values from Group 1, 2 and 3 were combined for this analysis.|Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration at 12 months of age||||<0.001
92411795|NCT00488683|184713799|SUPERIORITY_OR_OTHER||R-square|0.11|||<|0.001||95.0|||||Regression, Linear||Values from Group 1, 2 and 3 were combined for this analysis.|Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration at 12 months of age||||<0.001
92411796|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.24||||0.06||95.0|||||Parametric correlation|||Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||0.06
92411797|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.5|||<|0.001||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||<0.001
92411798|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.31||||0.01||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||0.01
92411799|NCT00488683|184713799|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.2||||0.1||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||0.10
92378284|NCT03369431|184659290|SUPERIORITY|||||||0.418|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Diarrhoea between Vivomixx and Placebo.||||0.418
92378285|NCT03369431|184659290|SUPERIORITY|||||||0.734|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Constipation between Vivomixx and Placebo.||||0.734
92411800|NCT00488683|184713799|SUPERIORITY_OR_OTHER||R-square|0.06||||||95.0|||||Regression, Linear|||Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||
92411801|NCT00488683|184713799|SUPERIORITY_OR_OTHER||R-square|0.25||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||
92411802|NCT00488683|184713805|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.04||||0.7||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup A||||0.70
92411803|NCT00488683|184713805|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.04||||0.63||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup C||||0.63
92411804|NCT00488683|184713805|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.03||||0.74||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup W-135||||0.74
92231333|NCT01431287|184365473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.091|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.066|0.115||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.115|0.066|<0.0001
92231334|NCT01431287|184365473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.012||0.3394|TWO_SIDED|95.0|-0.013|0.036||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.036|-0.013|0.3394
92378286|NCT03369431|184659290|SUPERIORITY|||||||0.362|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Pain on Stooling between Vivomixx and Placebo.||||0.362
92378287|NCT03369431|184659290|SUPERIORITY|||||||0.705|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Difficulty Swallowing between Vivomixx and Placebo.||||0.705
92378288|NCT03369431|184659290|SUPERIORITY|||||||0.589|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in change from baseline in frequency of vomiting between Vivomixx and placebo||||0.589
92378289|NCT03369431|184659290|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon signed rank||Null hypothesis is that there is no difference in change from baseline in frequency of blood in stool between Vivomixx and placebo||||1.0
92378290|NCT03369431|184659290|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon signed rank||Null hypothesis is that there is no difference in change from baseline in frequency of blood in vomit between Vivomixx and placebo||||1.0
92378291|NCT03369431|184659291|SUPERIORITY|||||||0.635|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline of ABC Irritability score between Vivomixx and Placebo||||0.635
92378292|NCT03369431|184659291|SUPERIORITY|||||||0.367|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||The null hypothesis is that there is no difference in the change from baseline of ABC Lethargy/social withdrawal score between Vivomixx and Placebo.||||0.367
92378293|NCT03369431|184659291|SUPERIORITY|||||||0.609|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in the ABC Stereotypic behaviour between Vivomixx and Placebo.||||0.609
92378294|NCT03369431|184659291|SUPERIORITY|||||||0.805|||||||t-test, 2 sided|Paired samples t-test||Null hypothesis is that there is no difference in the change from baseline of the ABC Hyperactivity/Noncompliance between Vivomixx and Placebo.||||0.805
92378295|NCT03369431|184659291|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank test used.||Null hypothesis is that there is no difference in the change from baseline of the ABC Inappropriate Speech between Vivomixx and Placebo.||||0.985
92378296|NCT03369431|184659292|SUPERIORITY|||||||0.661|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||||||0.661
92378297|NCT02937766|184659334|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.25||0.093|TWO_SIDED|95.0|-0.1|0.9|||t-test, 2 sided|The t-test tested the hypothesis of no treatment difference between treatment groups.||||0.9|-0.1|0.093
92378298|NCT02937766|184659335|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.234|TWO_SIDED|95.0|-0.2|0.7||The t-test tested the hypothesis of no treatment difference between treatment groups.|t-test, 2 sided|||||0.7|-0.2|0.234
92411805|NCT00488683|184713805|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.03||||0.74||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup Y||||0.74
92240324|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.169||||||"P-value of  general health "|Wilcoxon signed-rank test|||||||0.169
92378299|NCT02753127|184659336|SUPERIORITY||Hazard Ratio (HR)|0.976||||0.3629|TWO_SIDED|95.0|0.854|1.117||1-sided|Log Rank|Based on stratified log-rank test stratified by actual stratification factors. P-value is nominal p-value without multiplicity adjustment.|"Based on Cox Proportional hazards model stratified by actual stratification factors including Time to progression on 1st line therapy, RAS mutation, and Bev as part of study treatment.~A HR \<1 indicates a lower risk with Arm 1 compared with Arm 2."|General population||1.117|0.854|0.3629
92378300|NCT02753127|184659336|SUPERIORITY||Hazard Ratio (HR)|0.969||||0.3782|TWO_SIDED|95.0|0.797|1.179||1-sided|Log Rank|Based on unstratified log-rank test. P-value is nominal p value without multiplicity adjustment.|Hazard Ratio is for Napabucasin + FOLFIRI ± bev vs FOLFIRI ± bev. Based on unstratified Cox proportional hazards model. A hazard ratio \<1 indicates a lower risk with Napabucasin+ FOLFIRI ± bev compared with FOLFIRI ± bev.|activated signal transducers and activators of transcription 3 (pSTAT3)-positive (pSTAT3(+)) Subpopulation patients||1.179|0.797|0.3782
92378301|NCT02753127|184659337|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7307|TWO_SIDED|95.0|0.917|1.18||1-sided|Log Rank|"Based on stratified log rank test stratified by actual stratification factors~. P-value is nominal p-value without multiplicity adjustment."|"Based on Cox Proportional hazards model stratified by actual stratification~. A HR \<1 indicates a lower risk with Arm 1 compared with Arm 2."|General population||1.180|0.917|0.7307
92378302|NCT02753127|184659337|SUPERIORITY||Hazard Ratio (HR)|1.064||||0.7434|TWO_SIDED|95.0|0.883|1.283||1-sided|Log Rank|Based on unstratified log-rank test. P-value is nominal p-value without multiplicity adjustment.|Hazard ratio is for Napabucasin + FOLFIRI ± bev vs FOLFIRI ± bev. Based on unstratified Cox Proportional hazards model. A hazard ratio \<1 indicates a lower risk with Napabucasin + FOLFIRI ± bev compared with FOLFIRI ± bev.|activated signal transducers and activators of transcription 3 (pSTAT3)-positive (pSTAT3(+)) Subpopulation patients||1.283|0.883|0.7434
92411806|NCT00488683|184713805|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.18||||0.05||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup A||||0.05
92231335|NCT01431287|184365473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.143|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.118|0.167||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.167|0.118|<0.0001
92378303|NCT02753127|184659338|SUPERIORITY||rate difference|0.1||||0.4797|TWO_SIDED|95.0|-4.9|5.2||1-sided|Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test stratified by actual stratification factors. P-value is nominal p-value without multiplicity adjustment .|Treatment difference and 95% CI is based on Harmonic Means method adjusting stratification factor|General population||5.2|-4.9|0.4797
92378304|NCT02753127|184659338|SUPERIORITY||rate difference|-3.1||||0.783|TWO_SIDED|95.0|-11.0|4.7||1-sided|Z test|Based on one-sided Z test. P-value is nominal p-value without multiplicity adjustment.|Treatment difference and 95% CI is based on normal approximation method.|activated signal transducers and activators of transcription 3 (pSTAT3)-positive (pSTAT3(+)) Subpopulation patients||4.7|-11.0|0.783
92378305|NCT02753127|184659339|SUPERIORITY||rate difference|-0.9||||0.6776|TWO_SIDED|95.0|-4.8|3.0||1-sided|Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test stratified by actual stratification factors. P-value is nominal p-value without multiplicity adjustment.|Treatment difference and 95% CI is based on Harmonic Means method adjusting stratification factor|General population||3.0|-4.8|0.6776
92378306|NCT02753127|184659339|SUPERIORITY||rate difference|-2.0||||0.7513|TWO_SIDED|95.0|-7.7|3.7||1-sided|Z test|Based on one-sided Z test. P-value is nominal p-value without multiplicity adjustment.|Treatment difference and 95% CI is based on normal approximation method.|activated signal transducers and activators of transcription 3 (pSTAT3)-positive (pSTAT3(+)) Subpopulation patients||3.7|-7.7|0.7513
92378307|NCT01519674|184659354|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.24||||0.011||95.0|0.06|0.43||No corrections for multiplicity were performed.|Regression, Linear|||"The null-hypothesis (H0) was tested against the alternative hypothesis (HA) in each of the comparisons as given by:~H0: D = 0% against HA: D ≠ 0% D being the mean treatment difference for change from baseline in HbA1c after 24 weeks of treatment between the two treatment group comparisons (BID+Met and BID+Sita+Met)."||0.43|0.06|0.011
92378308|NCT01519674|184659354|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.11||||0.231||95.0|-0.3|0.07|||Regression, Linear|||The null-hypothesis (H0) was tested against the alternative hypothesis (HA) in each of the comparisons as given by: H0: D = 0% against HA: D ≠ 0% D being the mean treatment difference for change from baseline in HbA1c after 24 weeks of treatment between the two treatment group comparisons (BID+Sita+Met and OD+Sita+Met).||0.07|-0.30|0.231
92378309|NCT01519674|184659354|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.36|||<|0.001||95.0|-0.54|-0.17|||Regression, Linear|||The null-hypothesis (H0) was tested against the alternative hypothesis (HA) in each of the comparisons as given by: H0: D = 0% against HA: D ≠ 0% D being the mean treatment difference for change from baseline in HbA1c after 24 weeks of treatment between the two treatment group comparisons (BID+Sita+Met and OD+Sita+Met).||-0.17|-0.54|<0.001
92378310|NCT01519674|184659355|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.022||95.0|0.39|0.93|||Regression, Logistic|||||0.93|0.39|0.022
92378311|NCT01519674|184659355|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.618||95.0|0.73|1.71|||Regression, Logistic|||||1.71|0.73|0.618
92231336|NCT01431287|184365473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.012||0.0173|TWO_SIDED|95.0|0.005|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.054|0.005|0.0173
92240325|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.858||||||"P-value of  emotional well-being "|Wilcoxon signed-rank test|||||||0.858
92240326|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.156||||||"P-value of  role-emotional "|Wilcoxon signed-rank test|||||||0.156
92378312|NCT01519674|184659355|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.005||95.0|1.2|2.85|||Regression, Logistic|||||2.85|1.20|0.005
92378313|NCT01519674|184659356|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.02||95.0|0.38|0.92|||Regression, Logistic|||||0.92|0.38|0.020
92378314|NCT01519674|184659356|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.286||95.0|0.81|2.07|||Regression, Logistic|||||2.07|0.81|0.286
92378315|NCT01519674|184659356|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2|||<|0.001||95.0|1.39|3.47|||Regression, Logistic|||||3.47|1.39|<0.001
92378316|NCT01519674|184659357|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.13||||0.52||95.0|-0.26|0.52|||Regression, Linear|||||0.52|-0.26|0.520
92378317|NCT01519674|184659357|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.05||||0.788||95.0|-0.34|0.45|||Regression, Linear|||||0.45|-0.34|0.788
92378318|NCT01519674|184659357|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.07||||0.708||95.0|-0.46|0.31|||Regression, Linear|||||0.31|-0.46|0.708
92378319|NCT01519674|184659358|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.28||||0.291||95.0|-0.24|0.81|||Regression, Linear|||||0.81|-0.24|0.291
92378320|NCT01519674|184659358|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.88||||0.001||95.0|-1.41|-0.35|||Regression, Linear|||||-0.35|-1.41|0.001
92378321|NCT01519674|184659358|SUPERIORITY_OR_OTHER||Estimated treatment difference|-1.16|||<|0.001||95.0|-1.69|-0.64|||Regression, Linear|||||-0.64|-1.69|<0.001
92378322|NCT01519674|184659359|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.85||||0.005||95.0|0.26|1.45|||Regression, Linear|||||1.45|0.26|0.005
92378323|NCT01519674|184659359|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.52||||0.085||95.0|-0.07|1.12|||Regression, Linear|||||1.12|-0.07|0.085
92378324|NCT01519674|184659359|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.33||||0.275||95.0|-0.92|0.26|||Regression, Linear|||||0.26|-0.92|0.275
92378325|NCT01519674|184659360|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.12||||0.674||95.0|-0.7|0.45|||Regression, Linear|||||0.45|-0.70|0.674
92378326|NCT01519674|184659360|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.72||||0.015||95.0|0.14|1.3|||Regression, Linear|||||1.30|0.14|0.015
92378327|NCT01519674|184659360|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.84||||0.004||95.0|0.27|1.41|||Regression, Linear|||||1.41|0.27|0.004
92378328|NCT01519674|184659361|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.31||||0.08||95.0|-0.04|0.65|||Regression, Linear|||||0.65|-0.04|0.080
92231337|NCT01431287|184365473|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.013||0.421|TWO_SIDED|95.0|-0.035|0.014||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.014|-0.035|0.4210
92231338|NCT01431287|184365473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.012||0.0014|TWO_SIDED|95.0|0.015|0.064||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.064|0.015|0.0014
92378329|NCT01519674|184659361|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.09||||0.613||95.0|-0.26|0.43|||Regression, Linear|||||0.43|-0.26|0.613
92378330|NCT01519674|184659361|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.22||||0.213||95.0|-0.56|0.13|||Regression, Linear|||||0.13|-0.56|0.213
92378331|NCT01519674|184659364|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.29||||0.8||95.0|-1.97|2.56|||Regression, Linear|||||2.56|-1.97|0.800
92378332|NCT01519674|184659364|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.02||||0.989||95.0|-2.26|2.29|||Regression, Linear|||||2.29|-2.26|0.989
92411807|NCT00488683|184713805|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.07||||0.36||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup C||||0.36
92411808|NCT00488683|184713805|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.11||||0.18||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup W-135||||0.18
92411809|NCT00488683|184713805|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.02||||0.82||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup Y||||0.82
92411810|NCT00488683|184713805|SUPERIORITY_OR_OTHER||R-square|0.0013||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup A||||
92411811|NCT00488683|184713805|SUPERIORITY_OR_OTHER||R-square|0.0014||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup C||||
92411812|NCT00488683|184713805|SUPERIORITY_OR_OTHER||R-square|0.0008||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup W-135||||
92411813|NCT00488683|184713805|SUPERIORITY_OR_OTHER||R-square|0.0009||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup Y||||
92411814|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.34||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup A||||
92411815|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.14||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup A||||
92411816|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.09||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells at 5 months of age and hSBA titers at 12 months of age after a 2, 4-month course of MenACWY-CRM vaccination for the serogroup C||||
92411817|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.16||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup C||||
92411818|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.22||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup W-135||||
92240327|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.084||||||"P-value of  energy/fatigue "|Wilcoxon signed-rank test|||||||0.084
92378333|NCT01519674|184659364|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.28||||0.809||95.0|-2.52|1.97|||Regression, Linear|||||1.97|-2.52|0.809
92411819|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.33||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup W-135||||
92378334|NCT00733135|184659382|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||GEE|||||||<0.05
92378335|NCT01854632|184659391|SUPERIORITY_OR_OTHER|||||||0.996|TWO_SIDED||||||Log Rank|||||||0.996
92240328|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.583||||||"P-value of  SF-12 physical composite "|Wilcoxon signed-rank test|||||||0.583
92378336|NCT03180398|184659402|SUPERIORITY|It was hoped to compare radiomics features, using non-parametric tests, but this was not possible because of the small number of patients accrued.|||||||||||||||||Not enough patients were accrued for radiomics analysis. PI left institution and country. Analysis could not be completed.|||
92378337|NCT03180398|184659403|OTHER|Analysis could not be completed.|||||||||||||||||PI left institution and country. Analysis could not be completed.|||
92378338|NCT00610441|184659444|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.6996||||0.0147|TWO_SIDED|97.5|-10.911|-0.4881||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|Mixed Model for Repeated Measurements||Mixed Model for Repeated Measurements (MMRM) with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline AISRS score as covariate.|The treatment difference between 100 mg MK-8777 fixed dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||-0.4881|-10.911|0.0147
92378339|NCT00610441|184659444|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9926||||0.591|TWO_SIDED|97.5|-3.2961|5.2814||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline AISRS score as covariate.|The treatment difference between 100-300 mg MK-8777 rising dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||5.2814|-3.2961|0.5910
92378340|NCT00610441|184659445|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.8506|||||TWO_SIDED|95.0|1.799|26.0878|||||Logistic regression with fixed effects for treatment and period, and baseline AISRS score as covariate.|||26.0878|1.7990|
92378341|NCT00610441|184659445|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9461|||||TWO_SIDED|95.0|0.3119|2.8701|||||Logistic regression with fixed effects for treatment and period, and baseline AISRS score as covariate.|||2.8701|0.3119|
92378342|NCT00610441|184659446|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.2468|||||TWO_SIDED|95.0|0.6712|58.1395|||||Since no participants in the Placebo group achieved a 50% reduction, the comparison was done using a Cochran-Mantel-Haenszel method and 0.5 was added to both groups.|||58.1395|0.6712|
92378343|NCT00610441|184659446|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1453|||||TWO_SIDED|95.0|0.0152|1.388|||||Logistic regression with fixed effects for treatment and period, and baseline AISRS score as covariate.|||1.3880|0.0152|
92378344|NCT00610441|184659449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2074|||||TWO_SIDED|95.0|0.5654|2.5785|||||Proportional odds model with fixed effects for treatment and period.|||2.5785|0.5654|
92378345|NCT00610441|184659449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8548|||||TWO_SIDED|95.0|0.6951|4.9494|||||Proportional odds model with fixed effects for treatment and period.|||4.9494|0.6951|
92378346|NCT00610441|184659450|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3149|||||TWO_SIDED|95.0|0.5402|3.2008|||||Proportional odds model with fixed effects for treatment and period.|||3.2008|0.5402|
92378347|NCT00610441|184659450|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3982|||||TWO_SIDED|95.0|0.524|3.7309|||||Proportional odds model with fixed effects for treatment and period.|||3.7309|0.5240|
92378348|NCT00610441|184659451|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3163||||0.6155|TWO_SIDED|97.5|-1.8138|1.1812||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline ESS score as covariate. For statistical analyses, the average score from Days 14 and 21 was used.|The treatment difference between 100 mg MK-8777 fixed dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||1.1812|-1.8138|0.6155
92378349|NCT00610441|184659451|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2934||||0.133|TWO_SIDED|97.5|-0.7449|3.3317||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline ESS score as covariate. For statistical analyses, the average score from Days 14 and 21 was used.|The treatment difference between 100-300 mg MK-8777 rising dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||3.3317|-0.7449|0.1330
92378350|NCT00610441|184659452|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5501||||0.3907|TWO_SIDED|97.5|-0.9427|2.0429||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline PSQI score as covariate.|The treatment difference between 100 mg MK-8777 fixed dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||2.0429|-0.9427|0.3907
92378351|NCT00610441|184659452|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0065||||0.9872|TWO_SIDED|97.5|-0.9486|0.9357||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline PSQI score as covariate.|The treatment difference between 100-300 mg MK-8777 rising dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||0.9357|-0.9486|0.9872
92378352|NCT00610441|184659453|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1543||||0.7828|TWO_SIDED|97.5|-1.4898|1.1811||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline QIDS-C score as covariate. Scores from Days 14 and 21 were averaged for statistical analyses.|The treatment difference between 100 mg MK-8777 fixed dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||1.1811|-1.4898|0.7828
92411820|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.74||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup Y||||
92411821|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.53||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup Y||||
92378353|NCT00610441|184659453|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4222||||0.2883|TWO_SIDED|97.5|-0.5187|1.363||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline QIDS-C score as covariate. Scores from Days 14 and 21 were averaged for statistical analyses.|The treatment difference between 100-300 mg MK-8777 rising dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||1.3630|-0.5187|0.2883
92411822|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.37||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup A||||
92240329|NCT01876732|184384072|SUPERIORITY_OR_OTHER|||||||0.358||||||"p-value of  SF-12 mental composite "|Wilcoxon signed-rank test|||||||0.358
92378354|NCT00610441|184659454|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9685||||0.6532|TWO_SIDED|97.5|-5.9599|4.0229|||MMRM|To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline TASS score as covariate.|The treatment difference between 100 mg MK-8777 fixed dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||4.0229|-5.9599|0.6532
92378355|NCT00610441|184659454|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1022||||0.5247|TWO_SIDED|97.5|-2.8951|5.0996||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline TASS score as covariate.|The treatment difference between 100-300 mg MK-8777 rising dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||5.0996|-2.8951|0.5247
92378356|NCT00334282|184659466|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46||||1e-07||95.0|0.34|0.62||stratified log-rank test|Log Rank||The estimated value is the hazard ratio comparing pazopanib to placebo.|||0.62|0.34|.0000001
92378357|NCT00130923|184659510|SUPERIORITY||difference in treatment slopes|-0.043|STANDARD_ERROR_OF_MEAN|0.021||0.054|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment slopes in a mixed model and its standard error.|||||0.054
92378358|NCT00130923|184659511|SUPERIORITY||Difference in treatment means|-0.62|STANDARD_ERROR_OF_MEAN|0.29||0.035|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.035
92378359|NCT00130923|184659512|SUPERIORITY||difference in treatment means|0.056|STANDARD_ERROR_OF_MEAN|0.099||0.57|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.57
92378360|NCT00130923|184659513|SUPERIORITY||difference in treatment means|2.65|STANDARD_ERROR_OF_MEAN|2.68||0.32|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient difference in treatment means in a mixed model and its standard error.|||||.32
92378361|NCT00130923|184659514|SUPERIORITY||difference in treatment means|0.93|STANDARD_ERROR_OF_MEAN|1.19||0.44|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.44
92378362|NCT00130923|184659515|SUPERIORITY|||||||0.003|||||||Chi-squared|Statistical test of hypothesis. Value of the Chi-squared statistic is 9.08||||||.003
92378363|NCT01370837|184659532|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||Kruskal-Wallis|||Arm||||0.84
92378364|NCT01370837|184659532|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Kruskal-Wallis|||Foot||||0.76
92378365|NCT01370837|184659532|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Kruskal-Wallis|||Arm||||0.53
92378366|NCT01370837|184659532|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Kruskal-Wallis|||Foot||||0.07
92378367|NCT01370837|184659532|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Arm vs foot||||0.25
92378368|NCT01370837|184659532|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Arm vs foot||||0.27
92411823|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.14||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup A||||
92411824|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.13||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup C||||
92411825|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.17||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup C||||
92411826|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.9||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup W-135||||
92411827|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.78||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup W-135||||
92411828|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.94||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup Y||||
92378369|NCT01370837|184659532|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Arm vs foot||||< 0.01
92378370|NCT00740714|184659536|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.59|STANDARD_ERROR_OF_MEAN|0.85|>|0.025|TWO_SIDED|97.5|-1.33|2.51||The primary analysis compares each active treatment arm to the placebo arm. P-values for efficacy outcomes will be 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|||ANCOVA is used with the change in total UPDRS of Coenzyme Q10 1200 mg/day arm compared to placebo group.||2.51|-1.33|>0.025
92378371|NCT00740714|184659536|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.09|STANDARD_ERROR_OF_MEAN|0.86|>|0.025|TWO_SIDED|95.0|-0.85|3.03||The primary analysis compares each active treatment arm to the placebo arm. P-values for efficacy outcomes will be 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|||ANCOVA is used with the change in total UPDRS of Coenzyme Q10 2400 mg/day arm compared to placebo group.||3.03|-0.85|>0.025
92378372|NCT00740714|184659537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.84||0.7943|TWO_SIDED|97.5|-2.12|1.68||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on Modified Schwab \& England will be analyzed using ANCOVA in the same way as for the primary outcome variable.||1.68|-2.12|0.7943
92411829|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.85||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup Y||||
92411830|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.03||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup A||||
92411831|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup A||||
92411832|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.007||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup C||||
92411833|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.04||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup C||||
92378373|NCT00740714|184659537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87|STANDARD_ERROR_OF_MEAN|0.85||0.306||95.0|-2.79|1.04||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month on Modified Schwab \& England will be analyzed using ANCOVA in the same way as for the primary outcome variable.||1.04|-2.79|0.306
92378374|NCT00740714|184659538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.06|<|0.1615|TWO_SIDED|97.5|-0.25|0.06||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on Modified Rankin Scale will be analyzed using ANCOVA in the same way as for the primary outcome variable.||0.06|-0.25|<0.1615
92378375|NCT00740714|184659538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.7627|TWO_SIDED|95.0|-0.17|0.13||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-Adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plats and ITT.||Change from Baseline Visit to 16-month visit on Modified Rankin will be analyzed using ANCOVA in the same way as for the primary outcome variable.||0.13|-0.17|0.7627
92378376|NCT00740714|184659539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6383|STANDARD_ERROR_OF_MEAN|1.18||0.6383|TWO_SIDED|97.5|-2.1|3.21||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on PD Quality of Life Scale will be analyzed using ANCOVA in the same way as for the primary outcome variable.||3.21|-2.10|0.6383
92378377|NCT00740714|184659539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|1.19||0.667|TWO_SIDED|95.0|-3.2|2.17||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on PD Quality of Life Scale will be analyzed using ANCOVA in the same way as for the primary outcome variable.||2.17|-3.20|0.667
92378378|NCT00740714|184659540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.49|STANDARD_ERROR_OF_MEAN|1.14||0.671|TWO_SIDED|97.5|-2.09|3.06||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on Symbol Digit Modalities Test will be analyzed using ANCOVA in the same way as for the primary outcome variable.||3.06|-2.09|0.671
92378379|NCT00740714|184659540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|1.16||0.671|TWO_SIDED|95.0|-3.34|1.87||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on Symbol Digit Modalities Test will be analyzed using ANCOVA in the same way as for the primary outcome variable||1.87|-3.34|0.671
92240330|NCT01883440|184384095|SUPERIORITY_OR_OTHER||||||<|0.037|TWO_SIDED||||||Mixed Models Analysis|Linear mixed model||||||<0.037
92378380|NCT00740714|184659541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.04||0.3445|TWO_SIDED|97.5|-0.04|0.13||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on Hoehn \& Yahr Score will be analyzed using ANCOVA in the same way as for the primary outcome variable.||0.13|-0.04|0.3445
92378381|NCT00740714|184659541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.05||0.239||95.0|-0.04|0.14||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided. with a Bonferroni-adjustd significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assess with scatter and residual plots and ITT.||Change from Baseline visit to 16-month visit on Hoehn \& Yahr will be analyzed using ANCOVA in the same way as for the primary outcome variable.||0.14|-0.04|.239
92378382|NCT00740714|184659542|SUPERIORITY_OR_OTHER||Slope|0.536|STANDARD_ERROR_OF_MEAN|0.282||0.0577|TWO_SIDED|95.0|-0.018|1.091|||ANOVA|The ANOVA is using UPDRS worsening as outcome, Change of CoQ10 level as predictor, adjusting for site and baseline UPDRS score.||The analysis will be using the actual change of plasma levels of CoQ10(from final visit to baseline) as predictors of UPDRS worsening. Correlation of UPDRS worsening with plasma levels of CoQ10 will be calculated for all treatment groups.||1.091|-0.018|0.0577
92378383|NCT00740714|184659542|SUPERIORITY_OR_OTHER||Slope|0.245|STANDARD_ERROR_OF_MEAN|0.451||0.5889|TWO_SIDED|95.0|-0.647|1.136|||ANOVA|The ANOVA is using UPDRS worsening as outcome, Change of CoQ10 level as predictor, adjusting for site and baseline UPDRS score.||The analysis will be using the actual change of plasma levels of CoQ10(from final to baseline) as predictors of UPDRS worsening. Correlation of UPDRS worsening with plasma levels of CoQ10 will be calculated for the treatment group of Coenzyme Q10 2400 mg/day.||1.136|-0.647|0.5889
92378384|NCT00740714|184659542|SUPERIORITY_OR_OTHER||Slope|0.631|STANDARD_ERROR_OF_MEAN|0.608||0.3006|TWO_SIDED|95.0|-0.569|1.831|||ANOVA|The ANOVA is using UPDRS worsening as outcome, Change of CoQ10 level as predictor, adjusting for site and baseline UPDRS score.||The analysis will be using the actual change of plasma levels of CoQ10(from final to baseline) as predictors of UPDRS worsening. Correlation of UPDRS worsening with plasma levels of CoQ10 will be calculated for the treatment group of Coenzyme Q10 1200 mg/day.||1.831|-0.569|0.3006
92378385|NCT00740714|184659542|SUPERIORITY_OR_OTHER||Slope|2.126|STANDARD_ERROR_OF_MEAN|1.269||0.096|TWO_SIDED|95.0|-0.382|4.633|||ANOVA|The ANOVA is using UPDRS worsening as outcome, Change of CoQ10 level as predictor, adjusting for site and baseline UPDRS score.||The analysis will be using the actual change of plasma levels of CoQ10(from final to baseline) as predictors of UPDRS worsening. Correlation of UPDRS worsening with plasma levels of CoQ10 will be calculated for the placebo group.||4.633|-0.382|0.096
92411834|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||
92411835|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||
92411836|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.13||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||
92411837|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.28||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||
92411838|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.3||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup A||||
92378386|NCT00740714|184659543|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26|STANDARD_ERROR_OF_MEAN|0.0199|<|0.05|TWO_SIDED|95.0|0.57|2.8|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||2.80|0.57|<0.05
92411839|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.1||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup A||||
92411840|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.11||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup C||||
92411841|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.06||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup C||||
92411842|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.17||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||
92378387|NCT00740714|184659544|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49|STANDARD_ERROR_OF_MEAN|0.0198|<|0.05|TWO_SIDED|95.0|0.62|3.57|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subject experiencing a particular adverse experience||3.57|0.62|<0.05
92378388|NCT00740714|184659545|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65|STANDARD_ERROR_OF_MEAN|0.0198|<|0.05|TWO_SIDED|95.0|0.65|4.2|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||4.20|0.65|<0.05
92378389|NCT00740714|184659546|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED|95.0|0.46|1.79|||ANCOVA||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||1.79|0.46|<0.05
92378390|NCT00740714|184659547|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5|STANDARD_ERROR_OF_MEAN|0.0199|<|0.05|TWO_SIDED|95.0|0.66|3.41|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||3.41|0.66|<0.05
92378391|NCT00740714|184659548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.81|9.72|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||9.72|0.81|<0.05
92378392|NCT00740714|184659549|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.31|1.52|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||1.52|0.31|<0.05
92411843|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.21||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||
92411844|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.39||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||
92378393|NCT00740714|184659550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.36|1.7|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||1.70|0.36|<0.05
92378394|NCT00740714|184659551|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.44|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.69|8.58|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||8.58|0.69|<0.05
92378395|NCT00740714|184659552|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.31|1.62|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||1.62|0.31|<0.05
92411845|NCT00488683|184713806|SUPERIORITY_OR_OTHER||R-square|0.33||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||
92231339|NCT01431287|184365474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.088|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.063|0.113||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.113|0.063|<0.0001
92231340|NCT01431287|184365474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.013||0.0001|TWO_SIDED|95.0|0.024|0.075||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.075|0.024|0.0001
92231341|NCT01431287|184365474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.067|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.042|0.092||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.092|0.042|<0.0001
92231342|NCT01431287|184365474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.062|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.037|0.087||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.087|0.037|<0.0001
92378396|NCT00740714|184659553|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9999.98|STANDARD_ERROR_OF_MEAN|0.0196|<|0.05|TWO_SIDED|95.0|2.77|9999.99|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||9999.99|2.77|<0.05
92378397|NCT00740714|184659554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.25|1.12|||Fisher Exact||Odds ration \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||1.12|0.25|<0.05
92378398|NCT00740714|184659555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.26|STANDARD_ERROR_OF_MEAN|0.0196|<|0.05|TWO_SIDED|95.0|0.64|8.01|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||8.01|0.64|<0.05
92378399|NCT00740714|184659556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33|STANDARD_ERROR_OF_MEAN|0.0198|<|0.05|TWO_SIDED|95.0|0.55|3.24|||Fisher Exact||Odds ratio of \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||3.24|0.55|<0.05
92378400|NCT00740714|184659557|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9999.98|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.48|9999.99|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||9999.99|0.48|<0.05
92411846|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.24||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup A||||
92411847|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.19||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup A||||
92411848|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.52||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup C||||
92411849|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.07||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup C||||
92411850|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|1.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup W-135||||
92411851|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.29||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup W-135||||
92240331|NCT01883440|184384096|SUPERIORITY_OR_OTHER|||||||0.381|TWO_SIDED||||||Mixed Models Analysis|||In the material when all were included, there were a lot of persons with few symptoms in both Groups, which means that a larger study would be needed in order to detect significant differences.||||0.381
92378401|NCT00740714|184659558|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9999.98|STANDARD_ERROR_OF_MEAN|0.0196|<|0.05|TWO_SIDED|95.0|2.51|9999.99|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||9999.99|2.51|<0.05
92378402|NCT00394901|184659578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31||||0.262||95.0|-0.85|0.23|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.23|-0.85|0.262
92378403|NCT00394901|184659578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.86||||0.002||95.0|-1.39|-0.32|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.32|-1.39|0.002
92378404|NCT00394901|184659578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63||||0.019||95.0|-1.15|-0.1|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.10|-1.15|0.019
92378405|NCT00394901|184659579|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64||||0.016||95.0|-1.16|-0.12|||ANCOVA|The model included treatment group modified based on the expected pregabalin exposure as a factor, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.12|-1.16|0.016
92378406|NCT00394901|184659579|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66||||0.008||95.0|-1.14|-0.17|||ANCOVA|The model included treatment group modified based on the expected pregabalin exposure as a factor, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.17|-1.14|0.008
92378407|NCT00394901|184659580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Proportion of responders were used for the statistical analyses. Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.1160
92378408|NCT00394901|184659580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0015||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Proportion of responders were used for the statistical analyses. Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0015
92411852|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.19||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup Y||||
92378409|NCT00394901|184659580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0107||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Proportion of responders were used for the statistical analyses. Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0107
92378410|NCT00394901|184659581|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51||||0.038||95.0|-0.99|-0.03|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.03|-0.99|0.038
92378411|NCT00394901|184659581|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75||||0.002||95.0|-1.22|-0.27|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.27|-1.22|0.002
92378412|NCT00394901|184659581|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.72||||0.002||95.0|-1.19|-0.26|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.26|-1.19|0.002
92378413|NCT00394901|184659582|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48||||0.048||95.0|-0.97|0.0|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.00|-0.97|0.048
92378414|NCT00394901|184659582|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.99|||<|0.001||95.0|-1.47|-0.52|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.52|-1.47|<0.001
92378415|NCT00394901|184659582|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.03|||<|0.001||95.0|-1.49|-0.56|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.56|-1.49|<0.001
92411853|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.05||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup Y||||
92378416|NCT00394901|184659583|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41||||0.096||95.0|-0.89|0.07|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.07|-0.89|0.096
92378417|NCT00394901|184659583|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96|||<|0.001||95.0|-1.44|-0.48|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.48|-1.44|<0.001
92411854|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.7||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup A||||
92411855|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.21||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup A||||
92231343|NCT01431287|184365474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.029|STANDARD_ERROR_OF_MEAN|0.013||0.0231|TWO_SIDED|95.0|0.004|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.054|0.004|0.0231
92378418|NCT00394901|184659583|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.99|||<|0.001||95.0|-1.46|-0.52|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.52|-1.46|<0.001
92378419|NCT00394901|184659584|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55||||0.505||95.0|-2.16|1.06|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||1.06|-2.16|0.505
92378420|NCT00394901|184659584|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.86||||0.023||95.0|-3.46|-0.26|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.26|-3.46|0.023
92378421|NCT00394901|184659584|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.012||95.0|-3.56|-0.44|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.44|-3.56|0.012
92411856|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.5||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup C||||
92411857|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.16||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup C||||
92231344|NCT01431287|184365474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.013||0.1073|TWO_SIDED|95.0|-0.004|0.046||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.046|-0.004|0.1073
92378422|NCT00394901|184659585|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29||||0.349||95.0|-0.91|0.32|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.32|-0.91|0.349
92378423|NCT00394901|184659585|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71||||0.024||95.0|-1.32|-0.1|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.10|-1.32|0.024
92411858|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|1.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup W-135||||
92411859|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.3||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup W-135||||
92411860|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.21||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup Y||||
92411861|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.12||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup Y||||
92411862|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.0015||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup A||||
92378424|NCT00394901|184659585|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61||||0.045||95.0|-1.21|-0.01|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.01|-1.21|0.045
92240332|NCT01405313|184384097|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Mean Difference (Final Values)|2.5||||0.022|TWO_SIDED|80.0|||||t-test, 1 sided|||||||0.022
92378425|NCT00394901|184659586|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.83||||0.441||95.0|-2.93|1.28|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||1.28|-2.93|0.441
92411863|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.0057||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup A||||
92411864|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup C||||
92411865|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup C||||
92411866|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.0048||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup W-135||||
92231345|NCT01431287|184365474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.083|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.058|0.108||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.108|0.058|<0.0001
92378426|NCT00394901|184659586|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.55||||0.017||95.0|-4.64|-0.46|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.46|-4.64|0.017
92378427|NCT00394901|184659586|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.61||||0.012||95.0|-4.65|-0.56|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.56|-4.65|0.012
92378428|NCT00394901|184659587|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.23||||0.47||95.0|-8.28|3.83|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.83|-8.28|0.470
92378429|NCT00394901|184659587|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.04||||0.008||95.0|-14.0|-2.06|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-2.06|-14.0|0.008
92378430|NCT00394901|184659587|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.43||||0.013||95.0|-13.3|-1.59|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-1.59|-13.3|0.013
92378431|NCT00394901|184659588|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.178||95.0|-0.48|0.09|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.09|-0.48|0.178
92378432|NCT00394901|184659588|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43||||0.003||95.0|-0.72|-0.15|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.15|-0.72|0.003
92378433|NCT00394901|184659588|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31||||0.03||95.0|-0.59|-0.03|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.03|-0.59|0.030
92378434|NCT00394901|184659589|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.76||||0.001||95.0|-1.23|-0.3|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.30|-1.23|0.001
92378435|NCT00394901|184659589|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81||||0.001||95.0|-1.27|-0.34|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.34|-1.27|0.001
92378436|NCT00394901|184659589|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94|||<|0.001||95.0|-1.4|-0.49|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.49|-1.40|<0.001
92378437|NCT00394901|184659590|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.9||||0.001||95.0|-14.2|-3.61|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-3.61|-14.2|0.001
92378438|NCT00394901|184659590|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.24||||0.002||95.0|-13.5|-2.99|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-2.99|-13.5|0.002
92378439|NCT00394901|184659590|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.3|||<|0.001||95.0|-16.5|-6.22|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-6.22|-16.5|<0.001
92378440|NCT00394901|184659591|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.29||||0.245||95.0|-2.95|11.54|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||11.54|-2.95|0.245
92378441|NCT00394901|184659591|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.95||||0.417||95.0|-4.2|10.11|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||10.11|-4.20|0.417
92378442|NCT00394901|184659591|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.7||||0.007||95.0|2.67|16.74|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||16.74|2.67|0.007
92378443|NCT00394901|184659592|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71||||0.76||95.0|-3.83|5.24|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.24|-3.83|0.760
92378444|NCT00394901|184659592|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71||||0.754||95.0|-3.75|5.18|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.18|-3.75|0.754
92378445|NCT00394901|184659592|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.04||||0.641||95.0|-5.43|3.35|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.35|-5.43|0.641
92240333|NCT01405313|184384098|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Mean Difference (Final Values)|3.0||||0.016|TWO_SIDED|80.0|||||t-test, 1 sided|||||||0.016
92411867|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.0018||||||95.0|||||Regression, Linear||Values from Groups 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup W-135||||
92231346|NCT01431287|184365474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.038|STANDARD_ERROR_OF_MEAN|0.013||0.0029|TWO_SIDED|95.0|0.013|0.063||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.063|0.013|0.0029
92378446|NCT00394901|184659593|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01||||0.955||95.0|-0.3|0.32|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.32|-0.30|0.955
92378447|NCT00394901|184659593|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27||||0.084||95.0|-0.04|0.58|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.58|-0.04|0.084
92378448|NCT00394901|184659593|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21||||0.17||95.0|-0.09|0.52|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.52|-0.09|0.170
92378449|NCT00394901|184659594|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.01||||0.296||95.0|-3.52|11.55|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||11.55|-3.52|0.296
92378450|NCT00394901|184659594|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.3||||0.007||95.0|2.87|17.73|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||17.73|2.87|0.007
92378451|NCT00394901|184659594|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.0||||0.106||95.0|-1.29|13.3|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||13.30|-1.29|0.106
92378452|NCT00394901|184659595|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.93||||0.191||95.0|-1.97|9.83|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.83|-1.97|0.191
92378453|NCT00394901|184659595|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.21|||<|0.001||95.0|5.41|17.02|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||17.02|5.41|<0.001
92378454|NCT00394901|184659595|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.23|||<|0.001||95.0|8.5|19.95|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||19.95|8.50|<0.001
92378455|NCT00394901|184659596|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.03||||0.061||95.0|-8.25|0.18|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.18|-8.25|0.061
92231347|NCT01431287|184365474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.005|STANDARD_ERROR_OF_MEAN|0.013||0.6939|TWO_SIDED|95.0|-0.02|0.03||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.030|-0.020|0.6939
92378456|NCT00394901|184659596|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2||||0.133||95.0|-7.37|0.98|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.98|-7.37|0.133
92378457|NCT00394901|184659596|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.44||||0.24||95.0|-6.52|1.64|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||1.64|-6.52|0.240
92378458|NCT00394901|184659597|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.68||||0.2842||95.0|0.34|1.37|||Regression, Logistic|treatment, CLcr stratum, and the optimal sleep score at baseline as covariate||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||1.37|0.34|0.2842
92378459|NCT00394901|184659597|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.89||||0.0577||95.0|0.98|3.66|||Regression, Logistic|treatment, CLcr stratum, and the optimal sleep score at baseline as covariate||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.66|0.98|0.0577
92411868|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup Y||||
92411869|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup Y||||
92378460|NCT00394901|184659597|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.54||||0.1893||95.0|0.81|2.95|||Regression, Logistic|treatment, CLcr stratum, and the optimal sleep score at baseline as covariate||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||2.95|0.81|0.1893
92411870|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.27||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup A||||
92411871|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.19||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup A||||
92378461|NCT00394901|184659598|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0466||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0466
92378462|NCT00394901|184659598|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||<0.001
92378463|NCT00394901|184659598|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||<0.001
92378464|NCT00394901|184659599|SUPERIORITY_OR_OTHER_LEGACY|||||||0.344||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.3440
92378465|NCT00394901|184659599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||<0.001
92378466|NCT00394901|184659599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||<0.001
92378467|NCT00394901|184659600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.51||||0.057||95.0|-0.1|7.13|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.13|-0.10|0.057
92378468|NCT00394901|184659600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.77||||0.67||95.0|-2.78|4.32|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||4.32|-2.78|0.670
92231348|NCT01431287|184365474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.013||0.0097|TWO_SIDED|95.0|0.008|0.058||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.058|0.008|0.0097
92378469|NCT00394901|184659600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.04||||0.559||95.0|-2.45|4.53|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||4.53|-2.45|0.559
92378470|NCT00394901|184659601|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.4||||0.004||95.0|3.01|15.78|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||15.78|3.01|0.004
92411872|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup C||||
92411873|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup C||||
92378471|NCT00394901|184659601|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.67||||0.037||95.0|0.39|12.95|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.95|0.39|0.037
92378472|NCT00394901|184659601|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.46||||0.643||95.0|-4.74|7.66|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.66|-4.74|0.643
92378473|NCT00394901|184659602|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62||||0.811||95.0|-4.5|5.75|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.75|-4.50|0.811
92378474|NCT00394901|184659602|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.07||||0.006||95.0|2.03|12.12|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.12|2.03|0.006
92378475|NCT00394901|184659602|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.03||||0.047||95.0|0.06|10.0|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||10.00|0.06|0.047
92378476|NCT00394901|184659603|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.3||||0.013||95.0|1.1|9.5|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.50|1.10|0.013
92378477|NCT00394901|184659603|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.82||||0.07||95.0|-0.31|7.96|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.96|-0.31|0.070
92378478|NCT00394901|184659603|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.93||||0.058||95.0|-0.13|8.0|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||8.00|-0.13|0.058
92378479|NCT00394901|184659604|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.43||||0.443||95.0|-3.79|8.65|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||8.65|-3.79|0.443
92378480|NCT00394901|184659604|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.41||||0.018||95.0|1.28|13.54|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||13.54|1.28|0.018
92411874|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.45||||0.0436||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup W-135||||0.0436
92378481|NCT00394901|184659604|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.83||||0.549||95.0|-4.18|7.85|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.85|-4.18|0.549
92378482|NCT00394901|184659605|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.15||||0.075||95.0|-0.63|12.92|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.92|-0.63|0.075
92378483|NCT00394901|184659605|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.41||||0.111||95.0|-1.25|12.08|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.08|-1.25|0.111
92378484|NCT00394901|184659605|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.02||||0.366||95.0|-3.55|9.6|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.60|-3.55|0.366
92378485|NCT00394901|184659606|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.64||||0.039||95.0|0.29|11.0|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||11.00|0.29|0.039
92378486|NCT00394901|184659606|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.42||||0.006||95.0|2.14|12.69|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.69|2.14|0.006
92378487|NCT00394901|184659606|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.15||||0.117||95.0|-1.05|9.34|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.34|-1.05|0.117
92411875|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.17||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup W-135||||
92411876|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.37||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup Y||||
92411877|NCT00488683|184713807|SUPERIORITY_OR_OTHER||R-square|0.07||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup Y||||
92411878|NCT00538785|184713891|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.746|||||TWO_SIDED|95.0|0.344|1.586|||Guess method|Exact conditional binomial method conditioning on the total number of cases with mid-probability adjustment||Relative risk and confidence interval adjusted for the stratification factor of CHD stratum (cyanotic or other) specified on the CRF||1.586|0.344|
92411879|NCT00538785|184713892|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.495|||||TWO_SIDED|95.0|0.101|1.989|||Guess method|Exact conditional binomial method conditioning on the total number of cases with mid-probability adjustment||Relative risk and confidence interval adjusted for the stratification factor of CHD stratum (cyanotic or other) specified on the CRF||1.989|0.101|
92411880|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.216|||||TWO_SIDED|95.0|-1.0|0.57||||||Placebo vs GSK1292263 75 mg: Day 7, pre-breakfast||0.57|-1.00|
92411881|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.29|||||TWO_SIDED|95.0|-0.53|1.11||||||Placebo vs GSK1292263 300 mg: Day 7, pre-breakfast||1.11|-0.53|
92378488|NCT00394901|184659607|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.99||||0.154||95.0|-1.5|9.49|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05||9.49|-1.50|0.154
92378489|NCT00394901|184659607|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.99||||0.012||95.0|1.58|12.4|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.40|1.58|0.012
92378490|NCT00394901|184659607|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.76||||0.079||95.0|-0.56|10.08|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||10.08|-0.56|0.079
92378491|NCT00394901|184659608|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.28||||0.6451||95.0|0.45|3.59|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.59|0.45|0.6451
92378492|NCT00394901|184659608|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.56||||0.0745||95.0|0.91|7.19|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.19|0.91|0.0745
92378493|NCT00394901|184659608|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.01||||0.1787||95.0|0.73|5.58|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.58|0.73|0.1787
92411882|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.748|||||TWO_SIDED|95.0|-0.02|1.52||||||Placebo vs GSK1292263 600 mg: Day 7, pre-breakfast||1.52|-0.02|
92411883|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.207|||||TWO_SIDED|95.0|-2.01|-0.41||||||Placebo vs Sitagliptin 50 mg: Day 7, pre-breakfast||-0.41|-2.01|
92411884|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.991|||||TWO_SIDED|95.0|0.18|1.81||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 7 , pre-breakfast||1.81|0.18|
92411885|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.497|||||TWO_SIDED|95.0|0.66|2.34||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 7, pre-breakfast||2.34|0.66|
92378494|NCT00394901|184659609|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.26||||0.0732||95.0|0.93|5.52|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.52|0.93|0.0732
92378495|NCT00394901|184659609|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.64||||0.0353||95.0|1.07|6.53|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||6.53|1.07|0.0353
92378496|NCT00394901|184659609|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.5||||0.0393||95.0|1.05|5.96|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.96|1.05|0.0393
92378497|NCT00394901|184659610|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.227||95.0|-0.78|0.18|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.18|-0.78|0.227
92378498|NCT00394901|184659610|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.86|||<|0.001||95.0|-1.34|-0.38|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.38|-1.34|<0.001
92378499|NCT00394901|184659610|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.93|||<|0.001||95.0|-1.4|-0.46|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.46|-1.40|<0.001
92378500|NCT00394901|184659611|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14||||0.577||95.0|-0.62|0.35|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.35|-0.62|0.577
92378501|NCT00394901|184659611|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.87|||<|0.001||95.0|-1.35|-0.39|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.39|-1.35|<0.001
92378502|NCT00394901|184659611|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74||||0.002||95.0|-1.22|-0.27|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.27|-1.22|0.002
92411886|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.955|||||TWO_SIDED|95.0|1.16|2.75||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 7, pre-breakfast||2.75|1.16|
92411887|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.78|||||TWO_SIDED|95.0|-1.74|0.18||||||Placebo vs GSK1292263 75 mg: Day 14, pre-breakfast||0.18|-1.74|
92411888|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.188|||||TWO_SIDED|95.0|-0.81|1.19||||||Placebo vs GSK1292263 300 mg: Day 14, pre-breakfast||1.19|-0.81|
92378503|NCT00394901|184659612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27||||0.275||95.0|-0.75|0.21|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.21|-0.75|0.275
92378504|NCT00394901|184659612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.98|||<|0.001||95.0|-1.46|-0.5|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.50|-1.46|<0.001
92378505|NCT00394901|184659612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75||||0.002||95.0|-1.22|-0.28|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.28|-1.22|0.002
92378506|NCT00394901|184659613|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24||||0.334||95.0|-0.72|0.25|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.25|-0.72|0.334
92378507|NCT00394901|184659613|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9|||<|0.001||95.0|-1.38|-0.42|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.42|-1.38|<0.001
92378508|NCT00394901|184659613|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66||||0.006||95.0|-1.14|-0.19|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.19|-1.14|0.006
92411889|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|-0.35|1.55||||||Placebo vs GSK1292263 600 mg: Day 14, pre-breakfast||1.55|-0.35|
92411890|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.069|||||TWO_SIDED|95.0|-2.05|-0.08||||||Placebo vs Sitagliptin 50 mg: Day 14, pre-breakfast||-0.08|-2.05|
92411891|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.289|||||TWO_SIDED|95.0|-0.71|1.29||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||1.29|-0.71|
92411892|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.257|||||TWO_SIDED|95.0|0.22|2.29||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||2.29|0.22|
92411893|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.669|||||TWO_SIDED|95.0|0.68|2.65||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||2.65|0.68|
92411894|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.556|||||TWO_SIDED|95.0|-1.65|0.54||||||Placebo vs GSK1292263 75 mg: Day 14, 24 hours||0.54|-1.65|
92231349|NCT01431287|184365475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.693|STANDARD_ERROR_OF_MEAN|0.553||0.0022|TWO_SIDED|95.0|-2.778|-0.608||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||-0.608|-2.778|0.0022
92378509|NCT00394901|184659614|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15||||0.53||95.0|-0.64|0.33|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.33|-0.64|0.530
92378510|NCT00394901|184659614|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.82||||0.001||95.0|-1.3|-0.33|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.33|-1.30|0.001
92378511|NCT00394901|184659614|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.58||||0.017||95.0|-1.05|-0.1|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.10|-1.05|0.017
92378512|NCT00394901|184659615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21||||0.392||95.0|-0.7|0.27|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.27|-0.70|0.392
92378513|NCT00394901|184659615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|||<|0.001||95.0|-1.35|-0.38|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.38|-1.35|<0.001
92378514|NCT00394901|184659615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.58||||0.016||95.0|-1.06|-0.11|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.11|-1.06|0.016
92378515|NCT00394901|184659616|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22||||0.364||95.0|-0.71|0.26|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.26|-0.71|0.364
92378516|NCT00394901|184659616|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.91|||<|0.001||95.0|-1.39|-0.42|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.42|-1.39|<0.001
92378517|NCT00394901|184659616|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.52||||0.031||95.0|-1.0|-0.05|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.05|-1.00|0.031
92378518|NCT00394901|184659617|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24||||0.326||95.0|-0.73|0.24|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.24|-0.73|0.326
92378519|NCT00394901|184659617|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94|||<|0.001||95.0|-1.43|-0.46|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.46|-1.43|<0.001
92411895|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.745|||||TWO_SIDED|95.0|-0.4|1.89||||||Placebo vs GSK1292263 300 mg: Day 14, 24 hours||1.89|-0.40|
92411896|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.711|||||TWO_SIDED|95.0|-0.36|1.78||||||Placebo vs GSK1292263 600 mg: Day 14, 24 hours||1.78|-0.36|
92411897|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.03|||||TWO_SIDED|95.0|-2.15|0.09||||||Placebo vs Sitagliptin 50 mg: Day 14, 24 hours||0.09|-2.15|
92411898|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.474|||||TWO_SIDED|95.0|-0.66|1.61||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 14, 24 hours||1.61|-0.66|
92378520|NCT00394901|184659617|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.65||||0.007||95.0|-1.13|-0.18|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.18|-1.13|0.007
92378521|NCT00394901|184659618|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29||||0.241||95.0|-0.78|0.2|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.20|-0.78|0.241
92378522|NCT00394901|184659618|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85||||0.001||95.0|-1.34|-0.37|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.37|-1.34|0.001
92411899|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.775|||||TWO_SIDED|95.0|0.6|2.95||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 14, 24 hours||2.95|0.60|
92411900|NCT01128621|184713955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.741|||||TWO_SIDED|95.0|0.63|2.86||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 14, 24 hours||2.86|0.63|
92411901|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.195|||||TWO_SIDED|95.0|-17.17|17.56||||||Placebo vs GSK1292263 75 mg: Day 7, pre-breakfast||17.56|-17.17|
92411902|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.863|||||TWO_SIDED|95.0|-34.7|0.98||||||Placebo vs GSK1292263 300 mg: Day 7, pre-breakfast||0.98|-34.70|
92411903|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.46|||||TWO_SIDED|95.0|-23.04|12.12||||||Placebo vs GSK1292263 600 mg: Day 7, pre-breakfast||12.12|-23.04|
92411904|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.85|||||TWO_SIDED|95.0|-13.89|21.58||||||Placebo vs Sitagliptin 50 mg: Day 7, pre-breakfast||21.58|-13.89|
92411905|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.655|||||TWO_SIDED|95.0|-21.7|14.39||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 7, pre-breakfast||14.39|-21.70|
92378523|NCT00394901|184659618|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63||||0.01||95.0|-1.1|-0.15|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.15|-1.10|0.010
92378524|NCT00394901|184659619|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27||||0.281||95.0|-0.76|0.22|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.22|-0.76|0.281
92378525|NCT00394901|184659619|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.82||||0.001||95.0|-1.3|-0.33|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.33|-1.30|0.001
92378526|NCT00394901|184659619|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62||||0.012||95.0|-1.09|-0.14|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.14|-1.09|0.012
92378527|NCT02076399|184659633|SUPERIORITY||Risk Difference (RD)|17.6||||0.0261|TWO_SIDED|95.0|7.2|28.1|||Fisher Exact|||||28.1|7.2|0.0261
92378528|NCT02076399|184659638|SUPERIORITY||Risk Difference (RD)|-0.01||||0.6642|TWO_SIDED|95.0|-0.01|0.0||P-value from a two-sided two-sample t-test, testing for a difference in means between fostamatinib and placebo.|t-test, 2 sided|||||0.0|-0.01|0.6642
92378529|NCT02076399|184659639|SUPERIORITY||Risk Difference (RD)|0.15||||0.3365|TWO_SIDED|95.0|-0.2|0.5||P-value from a two-sided two-sample t-test, testing for a difference in means between fostamatinib and placebo.|t-test, 2 sided|||||0.5|-0.2|0.3365
92378530|NCT05260333|184659640|OTHER||correlation coefficient|0.81||||0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.0001
92378531|NCT01049802|184659654|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92378532|NCT01049802|184659655|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92378533|NCT01049802|184659656|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92378534|NCT01049802|184659657|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92378535|NCT01049802|184659658|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92411906|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.712|||||TWO_SIDED|95.0|-39.25|-2.17||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 7, pre-breakfast||-2.17|-39.25|
92411907|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.31|||||TWO_SIDED|95.0|-27.63|9.01||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 7, pre-breakfast||9.01|-27.63|
92411908|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.649|||||TWO_SIDED|95.0|-19.43|12.14||||||Placebo vs GSK1292263 75 mg: Day 14, pre-breakfast||12.14|-19.43|
92378536|NCT02008357|184659686|SUPERIORITY||LS Mean difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.26|TWO_SIDED|95.0|-0.816|0.22|||Natural Cubic Spline (NCS) method|||||0.220|-0.816|0.260
92378537|NCT02008357|184659688|SUPERIORITY||LS Mean difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.28||0.1|TWO_SIDED|95.0|-0.089|1.02|||Natural Cubic Spline (NCS) method|||||1.020|-0.089|0.100
92378538|NCT02008357|184659690|SUPERIORITY||LS Mean difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.34||0.082|TWO_SIDED|95.0|-1.265|0.076|||Natural Cubic Spline (NCS) method|||||0.076|-1.265|0.082
92378539|NCT02008357|184659692|SUPERIORITY||LS Mean difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.0073|<|0.001|TWO_SIDED|95.0|-0.057|-0.028|||ANCOVA|||||-0.028|-0.057|<0.001
92378540|NCT02008357|184659693|SUPERIORITY||LS Mean difference (Final Values)|3.239|STANDARD_ERROR_OF_MEAN|32.8719||0.922|TWO_SIDED|95.0|-62.02|68.498|||ANCOVA|||Cerebrospinal fluid Tau Protein Immunoassay||68.498|-62.020|0.922
92378541|NCT02008357|184659693|SUPERIORITY||LS Mean difference (Final Values)|-0.965|STANDARD_ERROR_OF_MEAN|2.6535||0.717|TWO_SIDED|95.0|-6.241|4.311|||ANCOVA|||Cerebrospinal Fluid Phosphorylated Tau Protein Immunoassay||4.311|-6.241|0.717
92378542|NCT02008357|184659694|SUPERIORITY||LS Mean difference (Final Values)|12738.449|STANDARD_ERROR_OF_MEAN|998.7048|<|0.001|TWO_SIDED|95.0|10757.047|14719.851|||ANCOVA|||Cerebrospinal Fluid Amyloid Beta 1-40 Modified ELISA - INNOTEST||14719.851|10757.047|<0.001
92378543|NCT02008357|184659694|SUPERIORITY||LS Mean difference (Final Values)|996.411|STANDARD_ERROR_OF_MEAN|60.7404|<|0.001|TWO_SIDED|95.0|875.873|1116.948||p-value using ANCOVA model for endpoint measures: CHG = Baseline + APOE4 + AGE + Treatment.|ANCOVA|||Cerebrospinal Fluid Amyloid Beta 1-42 Mod Modified ELISA - INNOTEST||1116.948|875.873|<0.001
92378544|NCT02008357|184659695|SUPERIORITY||LS Mean difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.0388||0.161|TWO_SIDED|95.0|-0.131|0.022|||ANCOVA|||Total hippocampal volume||0.022|-0.131|0.161
92378545|NCT02008357|184659695|SUPERIORITY||LS Mean difference (Final Values)|0.351|STANDARD_ERROR_OF_MEAN|0.4513||0.437|TWO_SIDED|95.0|-0.535|1.236|||ANCOVA|||Total Lateral Ventricular Volume||1.236|-0.535|0.437
92378546|NCT02741570|184659704|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0469|TWO_SIDED|97.51|0.59|1.03|||Log Rank|stratified regular log-rank test||||1.03|0.59|0.0469
92378547|NCT02741570|184659705|SUPERIORITY||Cox Proportional Hazard|0.95||||0.4951|TWO_SIDED|97.9|0.8|1.13|||Log Rank|stratified regular log-rank test||||1.13|0.80|0.4951
92378548|NCT02741570|184659706|SUPERIORITY||Cox Proportional Hazard|0.8|||||TWO_SIDED|95.0|0.68|0.95||||||||0.95|0.68|
92378549|NCT02741570|184659707|SUPERIORITY||Cox Proportional Hazard|1.4|||||TWO_SIDED|95.0|1.19|1.63|||||All Randomized Participants|||1.63|1.19|
92378550|NCT02741570|184659707|SUPERIORITY||Cox Proportional Hazard|1.0|||||TWO_SIDED|95.0|0.77|1.3|||||All Randomized PD-L1 CPS \>= 20 Participants|||1.30|0.77|
92378551|NCT02741570|184659710|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.6|0.97||||||||0.97|0.60|
92411909|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.66|||||TWO_SIDED|95.0|-32.72|-0.6||||||Placebo vs GSK1292263 300 mg: Day 14, pre-breakfast||-0.60|-32.72|
92411910|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.251|||||TWO_SIDED|95.0|-38.34|-6.16||||||Placebo vs GSK1292263 600 mg: Day 14, pre-breakfast||-6.16|-38.34|
92411911|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.59|||||TWO_SIDED|95.0|-20.69|11.51||||||Placebo vs Sitagliptin 50 mg: Day 14, pre-breakfast||11.51|-20.69|
92411912|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.941|||||TWO_SIDED|95.0|-15.4|17.28||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||17.28|-15.40|
92378552|NCT02741570|184659711|SUPERIORITY||Cox Proportional Hazard|0.94|||||TWO_SIDED|95.0|0.82|1.08||||||||1.08|0.82|
92378553|NCT00946322|184659718|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.028
92378554|NCT00946322|184659719|SUPERIORITY_OR_OTHER|||||||0.022|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-tests were used. Due to variable skewness, variables were logarithm-transformed to improve their distributions.||||.022
92378555|NCT00946322|184659720|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.043
92378556|NCT00946322|184659721|SUPERIORITY_OR_OTHER|||||||0.482|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.482
92231350|NCT01431287|184365475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.233|STANDARD_ERROR_OF_MEAN|0.551||0.0252|TWO_SIDED|95.0|-2.313|-0.153||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||-0.153|-2.313|0.0252
92231351|NCT01431287|184365475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.031|STANDARD_ERROR_OF_MEAN|0.552||0.062|TWO_SIDED|95.0|-2.113|0.052||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.052|-2.113|0.0620
92231352|NCT01431287|184365475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.456|STANDARD_ERROR_OF_MEAN|0.548||0.4051|TWO_SIDED|95.0|-1.531|0.618||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.618|-1.531|0.4051
92378557|NCT00946322|184659722|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.009
92378558|NCT00946322|184659723|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.001
92378559|NCT00946322|184659724|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.027
92378560|NCT00946322|184659725|SUPERIORITY_OR_OTHER|||||||0.177|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.177
92378561|NCT01075971|184659726|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.77|||<|0.0001|TWO_SIDED|95.0|1.35|2.19||Analysis of variance with repeated measurements (daily scores from day 1 to day 5) for the whole set of patients was performed adjusted on the formulation (SL vs. FDT). Other independent factors were the subject and the day.|Analysis of variance|||||2.19|1.35|<0.0001
92378562|NCT01688921|184659761|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was defined as the upper bound of the two-sided 95% CI of the GMT ratio (GMT with NS / GMT with PJ Stratis) for each antigen did not exceed 1.5 fold.|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.88|1.12||||||For a sample size of 550 per group each test has an individual power of \> 99% to rule out the 1.5-fold difference using a two-sided α = 0.05, assuming equal GMTs between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||1.12|0.88|
92378563|NCT01688921|184659762|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was defined as the upper bound of the two-sided 95% CI of the GMT ratio (GMT with NS / GMT with PJ Stratis) for each antigen did not exceed 1.5 fold.|Geometric Mean Ratio|1.08|||||TWO_SIDED|95.0|0.96|1.21||||||For a sample size of 550 per group each test has an individual power of \> 99% to rule out the 1.5-fold difference using a two-sided α = 0.05, assuming equal GMTs between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||1.21|0.96|
92378564|NCT01688921|184659763|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was defined as the upper bound of the two-sided 95% CI of the GMT ratio (GMT with NS / GMT with PJ Stratis) for each antigen did not exceed 1.5 fold.|Geometric Mean Ratio|0.94|||||TWO_SIDED|95.0|0.83|1.06||||||For a sample size of 550 per group each test has an individual power of \> 99% to rule out the 1.5-fold difference using a two-sided α = 0.05, assuming equal GMTs between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||1.06|0.83|
92378565|NCT01688921|184659764|NON_INFERIORITY_OR_EQUIVALENCE|Seroconversion rate defined as the proportion of subjects with either a pre-vaccination titer of \<10 achieving a post-vaccination antibody of HI titer of ≥ 40 or with a pre-vaccination HI titer of ≥ 10 achieving a four-fold or greater increase in post-vaccination HI titer. The non-inferiority margin was defined as the upper bound of the two-sided 95% CI on the difference between the seroconversion rates (rate with NS - with PJ Stratis) for each vaccine strain did not exceed 10 percentage points.|Seroconversion Rate Difference|0.8|||||TWO_SIDED|95.0|-4.8|6.5||||||For a sample size of 550 per group each test has an individual power of \> 95% to rule out the 10 percentage points difference using a one-sided α = 0.025, assuming equal seroconversion rates between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||6.5|-4.8|
92411913|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.07|||||TWO_SIDED|95.0|-28.82|4.68||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||4.68|-28.82|
92411914|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.662|||||TWO_SIDED|95.0|-34.72|-0.6||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||-0.60|-34.72|
92411915|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.101|||||TWO_SIDED|95.0|-44.0|5.8||||||Placebo vs GSK1292263 75 mg: Day 14, 24 hours||5.80|-44.00|
92411916|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-27.976|||||TWO_SIDED|95.0|-53.56|-2.39||||||Placebo vs GSK1292263 300 mg: Day 14, 24 hours||-2.39|-53.56|
92411917|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.609|||||TWO_SIDED|95.0|-48.82|1.6||||||Placebo vs GSK1292263 600 mg: Day 14, 24 hours||1.60|-48.82|
92411918|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.094|||||TWO_SIDED|95.0|-22.34|28.53||||||Placebo vs Sitagliptin 50 mg: Day 14, 24 hours||28.53|-22.34|
92411919|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.194|||||TWO_SIDED|95.0|-48.07|3.69||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 14, 24 hours||3.69|-48.07|
92378566|NCT01688921|184659765|NON_INFERIORITY_OR_EQUIVALENCE|Seroconversion rate defined as the proportion of subjects with either a pre-vaccination titer of \<10 achieving a post-vaccination antibody of HI titer of ≥ 40 or with a pre-vaccination HI titer of ≥ 10 achieving a four-fold or greater increase in post-vaccination HI titer. The non-inferiority margin was defined as the upper bound of the two-sided 95% CI on the difference between the seroconversion rates(rate with NS - with PJ Stratis) for each vaccine strain did not exceed 10 percentage points|Seroconversion Rate Difference|1.3|||||TWO_SIDED|95.0|-4.5|7.1||||||For a sample size of 550 per group each test has an individual power of \> 95% to rule out the 10 percentage points difference using a one-sided α = 0.025, assuming equal seroconversion rates between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||7.1|-4.5|
92378567|NCT01688921|184659766|NON_INFERIORITY_OR_EQUIVALENCE|"Seroconversion rate was defined as the proportion of subjects with either a pre-vaccination titer of \<10 achieving a post-vaccination antibody of HI titer of ≥ 40 or with a pre-vaccination HI titer of ≥ 10 achieving a four-fold or greater increase in post-vaccination HI titer.~The upper-bound of the two-sided 95% CI on the difference in seroconversion rates for the A/H1N1, A/H3N2, and B strains did not exceed 10 percentage points (6.5, 7.1, and 5.9 respectively)."|Seroconversion Rate Difference|0.3|||||TWO_SIDED|95.0|-5.2|5.9||||||For a sample size of 550 per group each test has an individual power of \> 91% to rule out the 10 percentage points difference using a one-sided α = 0.025, assuming equal seroconversion rates between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||5.9|-5.2|
92378568|NCT01688921|184659767|NON_INFERIORITY_OR_EQUIVALENCE|Immediate adverse events were reported within 30 minutes of receiving the vaccination; therefore, they are all considered related to study treatment.|||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92378569|NCT01688921|184659768|NON_INFERIORITY_OR_EQUIVALENCE|The safety population included subjects who received the vaccination and for whom follow-up data were available for a specific safety analysis. Therefore, the denominators for different safety tables vary, depending on the availability of the data.|||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92378570|NCT01048866|184659814|SUPERIORITY_OR_OTHER||least-square means difference|-196.6||||0.0021|TWO_SIDED|95.0|-321.0|-72.2||The a priori threshold for statistical significance is 0.05.|ANOVA|||||-72.2|-321.0|0.0021
92378571|NCT01048866|184659815|SUPERIORITY_OR_OTHER||least-square means difference|-19.0||||0.0002|TWO_SIDED|95.0|-28.7|-9.3||The a priori threshold for statistical significance is 0.05.|ANOVA|Baseline DSS fitted as a covariate and centre as a fixed effect.||||-9.3|-28.7|0.0002
92411920|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.07|||||TWO_SIDED|95.0|-57.66|-4.48||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 14, 24 hours||-4.48|-57.66|
92231353|NCT01431287|184365475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.571|STANDARD_ERROR_OF_MEAN|0.55||0.2988|TWO_SIDED|95.0|-1.649|0.507||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.507|-1.649|0.2988
92378572|NCT01048866|184659816|SUPERIORITY_OR_OTHER||least-square means difference|-179.7||||0.0054|TWO_SIDED|95.0|-305.7|-53.8||The a priori threshold for statistical significance is 0.05.|ANOVA|||||-53.8|-305.7|0.0054
92378573|NCT01048866|184659817|SUPERIORITY_OR_OTHER||least-square means difference|-16.4||||0.0008|TWO_SIDED|95.0|-25.9|-7.0||The a priori threshold for statistical significance is 0.05.|ANOVA|||||-7.0|-25.9|0.0008
92411921|NCT01128621|184713956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.703|||||TWO_SIDED|95.0|-52.98|-0.42||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 14, 24 hours||-0.42|-52.98|
92411922|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.5|0.5||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-12), Day 7||0.50|-1.50|
92378574|NCT01048866|184659818|SUPERIORITY_OR_OTHER||least-square means difference|-168.4||||0.0087|TWO_SIDED|95.0|-293.7|-43.1|||ANOVA|||||-43.1|-293.7|0.0087
92378575|NCT01048866|184659819|SUPERIORITY_OR_OTHER||least-square means difference|-19.0|||<|0.0001|TWO_SIDED|95.0|-28.0|-10.0|||ANOVA|Baseline STPIS fitted as a covariate and centre as a fixed effect.||||-10.0|-28.0|<0.0001
92378576|NCT01048866|184659820|SUPERIORITY_OR_OTHER||least-square means difference|-118.9||||0.1844|TWO_SIDED|95.0|-295.3|57.5|||ANOVA|Baseline STPIS fitted as a covariate and centre as a fixed effect.||||57.5|-295.3|0.1844
92378577|NCT01048866|184659821|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92378578|NCT01048866|184659822|SUPERIORITY_OR_OTHER|||||||0.8827|||||||Wilcoxon (Mann-Whitney)|||||||0.8827
92378579|NCT01048866|184659823|SUPERIORITY_OR_OTHER|||||||0.0105|||||||Wilcoxon (Mann-Whitney)|Stratified by centre||||||0.0105
92378580|NCT01048866|184659825|SUPERIORITY_OR_OTHER||least-square means difference|-5.9||||0.0743|TWO_SIDED|95.0|-12.4|0.6|||ANOVA|Repeated measures ANOVA model with participant as a random effect.||||0.6|-12.4|0.0743
92411923|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.513|||||TWO_SIDED|95.0|-0.51|1.54||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-12), Day 7||1.54|-0.51|
92411924|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.03|||||TWO_SIDED|95.0|0.05|2.01||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-12), Day 7||2.01|0.05|
92411925|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.955|||||TWO_SIDED|95.0|-1.98|0.07||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||0.07|-1.98|
92411926|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.454|||||TWO_SIDED|95.0|-0.59|1.5||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||1.50|-0.59|
92378581|NCT01048866|184659826|SUPERIORITY_OR_OTHER||least-square means difference|-5.5||||0.0871|TWO_SIDED|95.0|-11.7|0.8|||ANOVA|Repeated measures ANOVA model with patient as a random effect.||||0.8|-11.7|0.0871
92378582|NCT01048866|184659827|SUPERIORITY_OR_OTHER||least-square means difference|-6.0||||0.0595|TWO_SIDED|95.0|-12.3|0.2|||ANOVA|Repeated measures ANOVA model with participant as a random effect.||||0.2|-12.3|0.0595
92378583|NCT01048866|184659828|SUPERIORITY_OR_OTHER||least-square means difference|0.5||||0.0195|TWO_SIDED|95.0|0.1|0.9|||ANOVA|Repeated measures ANOVA model with participant as a random effect.||||0.9|0.1|0.0195
92378584|NCT01048866|184659829|SUPERIORITY_OR_OTHER|||||||0.0322|||||||Regression, Logistic|Effect for centre||||||0.0322
92378585|NCT01048866|184659830|SUPERIORITY_OR_OTHER|||||||0.0276|||||||Log Rank|||||||0.0276
92378586|NCT01048866|184659831|SUPERIORITY_OR_OTHER||least-square means difference|-0.2||||0.0288|TWO_SIDED|95.0|-0.4|0.0|||ANOVA|||||-0.0|-0.4|0.0288
92411927|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.468|||||TWO_SIDED|95.0|0.39|2.55||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||2.55|0.39|
92411928|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.985|||||TWO_SIDED|95.0|0.96|3.01||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||3.01|0.96|
92411929|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.312|||||TWO_SIDED|95.0|-1.38|0.76||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-12), Day 14||0.76|-1.38|
92411930|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.394|||||TWO_SIDED|95.0|-0.7|1.49||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-12), Day 14||1.49|-0.70|
92411931|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.875|||||TWO_SIDED|95.0|-0.18|1.93||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-12), Day 14||1.93|-0.18|
92411932|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.854|||||TWO_SIDED|95.0|-1.95|0.25||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||0.25|-1.95|
92378587|NCT01048866|184659832|SUPERIORITY_OR_OTHER||least-square means difference|-0.1||||0.4274|TWO_SIDED|95.0|-0.3|0.1|||ANOVA|||||0.1|-0.3|0.4274
92378588|NCT03582813|184659833|SUPERIORITY||MIXREG Estimate|4.27|STANDARD_ERROR_OF_MEAN|1.61|<|0.01|TWO_SIDED||||||Mixed Effects Random Regression|||This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in self-perceived Recovery and that this effect would be maintained overtime;||||<.01
92378589|NCT03582813|184659834|SUPERIORITY||MIXREG Estimate|0.9|STANDARD_ERROR_OF_MEAN|0.42||0.031|TWO_SIDED||||||Mixed Effects Random Regression|||This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in self-esteem that would be maintained longitudinally||||.031
92378590|NCT03582813|184659835|SUPERIORITY||MIXREG Estimate|0.12|STANDARD_ERROR_OF_MEAN|0.04|<|0.01|TWO_SIDED||||||Mixed Effects Random Regression|||This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in coping mastery that would be maintained longitudinally||||<0.01
92378591|NCT03582813|184659836|SUPERIORITY||MIXREG Estimate|0.29|STANDARD_ERROR_OF_MEAN|0.13||0.03|TWO_SIDED||||||Mixed Effects Random Regression|||This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in perceived autonomy support that would be maintained longitudinally||||0.030
92378592|NCT03582813|184659837|SUPERIORITY||Odds Ratio (OR)|2.19||||0.046|TWO_SIDED|95.0|1.01|4.74|||Regression, Logistic|||This mixed effects random regression analysis tested whether intervention participants would report greater likelihood of employment that would be maintained longitudinally||4.74|1.01|0.046
92378593|NCT03582813|184659838|SUPERIORITY||Odds Ratio (OR)|4.14|||<|0.01|TWO_SIDED|95.0|1.5|11.44|||Regression, Logistic|||This mixed effects random regression analysis tested whether intervention participants would report greater likelihood of enrollment in educational classes that would be maintained longitudinally||11.44|1.50|<0.01
92411933|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.542|||||TWO_SIDED|95.0|-0.58|1.66||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||1.66|-0.58|
92411934|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.248|||||TWO_SIDED|95.0|0.09|2.4||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||2.40|0.09|
92411935|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.729|||||TWO_SIDED|95.0|0.63|2.83||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||2.83|0.63|
92411936|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.148|||||TWO_SIDED|95.0|-1.21|0.91||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-24), Day 14||0.91|-1.21|
92411937|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.737|||||TWO_SIDED|95.0|-0.34|1.81||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-24), Day 14||1.81|-0.34|
92411938|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.245|||||TWO_SIDED|95.0|0.21|2.28||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-24), Day 14||2.28|0.21|
92411939|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.623|||||TWO_SIDED|95.0|-1.71|0.46||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||0.46|-1.71|
92411940|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.475|||||TWO_SIDED|95.0|-0.62|1.57||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||1.57|-0.62|
92411941|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.36|||||TWO_SIDED|95.0|0.23|2.49||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||2.49|0.23|
92231354|NCT01431287|184365475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.662|STANDARD_ERROR_OF_MEAN|0.545||0.2249|TWO_SIDED|95.0|-1.731|0.407||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.407|-1.731|0.2249
92378594|NCT00316524|184659840|NON_INFERIORITY|The non-inferiority margin to show that Group 4 (vaccinia experienced subjects receiving a single vaccination) is non-inferior to Group 1 (vaccinia naive subjects receiving 2 vaccinations) in terms of seroconversion rate 2 weeks after the last vaccination was predefined as -5% for the difference in seroconversion rates|Difference in seroconversion rates (%)|-3.4|||||ONE_SIDED|97.5|-7.36||||||||||-7.36|
92231355|NCT01431287|184365475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.118|STANDARD_ERROR_OF_MEAN|0.549||0.0418|TWO_SIDED|95.0|-2.195|-0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||-0.042|-2.195|0.0418
92378595|NCT02525094|184659851|SUPERIORITY||Odds Ratio (OR)|1.97|||||TWO_SIDED|95.0|0.9|4.33||||||||4.33|0.90|
92411942|NCT01128621|184713959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.869|||||TWO_SIDED|95.0|0.79|2.95||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||2.95|0.79|
92411943|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.619|||||TWO_SIDED|95.0|-59.25|2.01||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-12), Day 7||2.01|-59.25|
92411944|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-47.898|||||TWO_SIDED|95.0|-79.23|-16.56||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-12), Day 7||-16.56|-79.23|
92411945|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.665|||||TWO_SIDED|95.0|-55.53|6.2||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-12), Day 7||6.20|-55.53|
92411946|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.438|||||TWO_SIDED|95.0|-36.76|25.89||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||25.89|-36.76|
92411947|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.181|||||TWO_SIDED|95.0|-55.0|8.63||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||8.63|-55.00|
92411948|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-42.46|||||TWO_SIDED|95.0|-75.18|-9.74||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||-9.74|-75.18|
92411949|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.227|||||TWO_SIDED|95.0|-51.83|13.37||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||13.37|-51.83|
92411950|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-18.435|||||TWO_SIDED|95.0|-49.15|12.28||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-12), Day 14||12.28|-49.15|
92378596|NCT02789410|184659863|SUPERIORITY|||||||0.132|||||||Wilcoxon (Mann-Whitney)|||||||0.132
92378597|NCT02789410|184659864|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||0.590
92378598|NCT02789410|184659865|SUPERIORITY|||||||0.971|||||||Wilcoxon (Mann-Whitney)|||||||0.971
92378599|NCT01751776|184659866|SUPERIORITY_OR_OTHER_LEGACY||Slope|2.0506|STANDARD_ERROR_OF_MEAN|0.4242|||TWO_SIDED|95.0|1.1843|2.9168|||||Dose proportionality was explored using a regression model. Based on the estimate for the slope parameter, a 2-sided 95% CI was computed. Perfect dose proportionality would correspond to a slope of 1. PK endpoints on the log-transformed scale.|Dose proportionality for Cmax was explored after the first adminstration of BI 65564 on Day 1.||2.9168|1.1843|
92411951|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-58.658|||||TWO_SIDED|95.0|-90.08|-27.24||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-12), Day 14||-27.24|-90.08|
92411952|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-37.006|||||TWO_SIDED|95.0|-67.96|-6.05||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-12), Day 14||-6.05|-67.96|
92411953|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.896|||||TWO_SIDED|95.0|-41.31|21.52||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||21.52|-41.31|
92411954|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.539|||||TWO_SIDED|95.0|-40.44|23.36||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||23.36|-40.44|
92411955|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-48.762|||||TWO_SIDED|95.0|-81.58|-15.95||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||-15.95|-81.58|
92411956|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-27.11|||||TWO_SIDED|95.0|-59.8|5.58||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||5.58|-59.80|
92411957|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.359|||||TWO_SIDED|95.0|-48.95|8.23||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-24), Day 14||8.23|-48.95|
92411958|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-53.712|||||TWO_SIDED|95.0|-82.92|-24.5||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-24), Day 14||-24.50|-82.92|
92411959|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-37.552|||||TWO_SIDED|95.0|-66.24|-8.86||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-24), Day 14||-8.86|-66.24|
92411960|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.963|||||TWO_SIDED|95.0|-37.2|21.27||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||21.27|-37.20|
92411961|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.397|||||TWO_SIDED|95.0|-42.1|17.3||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||17.30|-42.10|
92411962|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-45.749|||||TWO_SIDED|95.0|-76.2|-15.3||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||-15.30|-76.20|
92411963|NCT01128621|184713960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.59|||||TWO_SIDED|95.0|-59.82|0.64||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||0.64|-59.82|
92411964|NCT04074161|184713989|SUPERIORITY|Responses were analysed using an analysis of covariance model with randomized treatment as factor and baseline body weight as covariate.|Treatment difference|-9.38|||<|0.0001|TWO_SIDED|95.0|-11.97|-6.8|||ANCOVA|||||-6.80|-11.97|<0.0001
92411965|NCT03083990|184714036|EQUIVALENCE|Geometric mean ratio and its 90%CI are obtained after anti-logarithmic transformation.If 90% CI for the geometric mean ratio of AUC 0-t and AUC 0-∞ (trial/control) ranges between 0.8-1.25, then it is considered that IBI305 and Bevacizumab are bioequivalent.|Odds Ratio (OR)|0.9502|||>|0.05|TWO_SIDED|90.0|0.8921|1.012|||ANOVA|||||1.0120|0.8921|>0.05
92411966|NCT03083990|184714037|EQUIVALENCE|Geometric mean ratio and its 90%CI are obtained after anti-logarithmic transformation.If 90% CI for the geometric mean ratio of AUC 0-t and AUC 0-∞ (trial/control) ranges between 0.8-1.25, then it is considered that IBI305 and Bevacizumab are bioequivalent.|Odds Ratio (OR)|0.9483|||>|0.05|TWO_SIDED|90.0|0.8896|1.0108|||ANOVA|||||1.0108|0.8896|>0.05
92411967|NCT03083990|184714038|EQUIVALENCE||Odds Ratio (OR)|0.9749|||>|0.05|TWO_SIDED|90.0|0.9123|1.0418|||ANOVA|||||1.0418|0.9123|>0.05
92411968|NCT00835211|184714073|NON_INFERIORITY_OR_EQUIVALENCE|Analyses of Variance (ANOVA) were performed on the log-transformed AUC0-t, AUCinf and Cmax. These analyses were performed using the SAS® procedure.|Test/Ref Ratio of LS Means x 100|97.5||||||90.0|87.8|108.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108.3|87.8|
92411969|NCT00835211|184714074|NON_INFERIORITY_OR_EQUIVALENCE|Analyses of Variance (ANOVA) were performed on the log-transformed AUC0-t, AUCinf and Cmax. These analyses were performed using the SAS® procedure.|Test/Ref Ratio of LS Means x 100|95.6||||||90.0|86.9|105.2|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.2|86.9|
92411970|NCT00835211|184714075|NON_INFERIORITY_OR_EQUIVALENCE|Analyses of Variance (ANOVA) were performed on the log-transformed AUC0-t, AUCinf and Cmax. These analyses were performed using the SAS® procedure.|Test/Ref Ratio of LS Means x 100|96.5||||||90.0|87.7|106.1|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.1|87.7|
92411971|NCT02343549|184714082|SUPERIORITY||12-Month Survival Rate|0.333||||0.537|TWO_SIDED|95.0|0.075|0.701||This p-value is only based on partial enrollment of Stage 1. As enrollment was halted early, this p-value is descriptive in nature and cannot determine the success/failure of the trial.|Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|Assuming the true 12-month survival rate is 0.30 under the null hypothesis, then this design will provide 90% power to detect a difference of 0.20 under the alternative hypothesis, assuming a one-sided alpha = 0.10 significance level. A Simon optimal 2-stage design with Stage 1 n=22 and a total of n=46 subjects was determined with the following rejection regions: For n = 22, the rejection region in number of subjects alive at 12 months is 0 - 7, and for n = 46 it is 8 - 17.||0.701|0.075|0.537
92411972|NCT02343549|184714083|OTHER|Estimation Only|Median|9.9|||||TWO_SIDED|95.0|4.8|12.8|||||The Kaplan Meier method was used to estimate median OS(in months). The Greenwood method was used to estimate confidence limits of median overall survival.|||12.8|4.8|
92411973|NCT02343549|184714084|OTHER|Estimation Only|Median|7.9|||||TWO_SIDED|95.0|4.8|10.4|||||The Kaplan Meier method was used to estimate median PFS (in months). The Greenwood method was used to estimate confidence limits of median progression free survival.|||10.4|4.8|
92411974|NCT02343549|184714085|OTHER|Estimation only|Response Rate|0.333|||||TWO_SIDED|95.0|0.075|0.701|||||Confidence interval estimated using the Clopper Pearson method.|||0.701|0.075|
92411975|NCT02343549|184714086|OTHER|Estimation only|Disease Control Rate|1.0|||||TWO_SIDED|95.0|0.664|1.0||||||||1.000|0.664|
92411976|NCT02343549|184714087|OTHER|Estimation only.|Median|8.1|||||TWO_SIDED|95.0|3.7|8.6|||||The Kaplan Meier method was used to estimate median duration of response (in months). The Greenwood method was used to estimate confidence limits of median duration of response.|||8.6|3.7|
92411977|NCT02343549|184714088|OTHER|Estimation Only|Median|7.9|||||TWO_SIDED|95.0|4.8|10.4|||||The Kaplan Meier method was used to estimate median duration of disease control (in months). The Greenwood method was used to estimate confidence limits of median duration of disease control.|||10.4|4.8|
92411978|NCT04343235|184714115|SUPERIORITY|||||||0.21|||||||Fisher Exact|||||||0.21
92411979|NCT04343235|184714116|SUPERIORITY|||||||0.7||||||Main effect for Randomization group|ANOVA|||||||0.70
92411980|NCT04343235|184714117|SUPERIORITY|||||||0.77|||||||ANOVA|Main effect for randomization group||||||0.77
92411981|NCT04343235|184714118|SUPERIORITY|||||||0.54|||||||ANOVA|Main effect for randomization group||||||0.54
92411982|NCT04343235|184714119|SUPERIORITY||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|1.0||0.47|TWO_SIDED|95.0|-1.5|3.1|||t-test, 2 sided|||||3.1|-1.5|0.47
92411983|NCT04343235|184714120|SUPERIORITY|||||||0.57|||||||Fisher Exact|||||||0.57
92378600|NCT01751776|184659866|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.4227|STANDARD_ERROR_OF_MEAN|0.1644|||TWO_SIDED|95.0|1.0869|1.7584|||||Dose proportionality was explored using a regression model. Based on the estimate for the slope parameter, a 2-sided 95% CI was computed. Perfect dose proportionality would correspond to a slope of 1. PK endpoints on the log-transformed scale.|Dose proportionality for Cmax was explored after the last (fourth) adminstration of BI 65564 on Day 22.||1.7584|1.0869|
92378601|NCT01751776|184659867|SUPERIORITY_OR_OTHER_LEGACY||Slope|2.0091|STANDARD_ERROR_OF_MEAN|0.1706|||TWO_SIDED|95.0|1.6607|2.3575|||||Dose proportionality was explored using a regression model. Based on the estimate for the slope parameter, a 2-sided 95% CI was computed. Perfect dose proportionality would correspond to a slope of 1. PK endpoints on the log-transformed scale.|Dose proportionality for AUC 0-infinity was explored after the last adminstration of BI 65564 on Day 22.||2.3575|1.6607|
92378602|NCT01751776|184659868|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.4225|STANDARD_ERROR_OF_MEAN|0.164|||TWO_SIDED|95.0|1.0876|1.7574|||||Dose proportionality was explored using a regression model. Based on the estimate for the slope parameter, a 2-sided 95% CI was computed. Perfect dose proportionality would correspond to a slope of 1. PK endpoints on the log-transformed scale.|Dose proportionality for AUCtau was explored after the last administration of BI 65564 on Day 22.||1.7574|1.0876|
92378603|NCT01751776|184659870|OTHER||Mean Difference (Net)|22.7|||||||||||||Mean Difference in percentage|Observed difference of ACR20 response for BI 120mg - Placebo||||
92378604|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Mean Difference (Net)|33.0|||||||||||||Mean Difference in percentage|Expected difference of ACR20 response for BI 120mg - Placebo||||
92378605|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|99.9||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 0%||||
92378606|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|99.7||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 5%||||
92378607|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|98.7||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 10%||||
92378608|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|96.0||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 15%||||
92378609|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|90.0||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 20%||||
92378610|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|79.0||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 25%||||
92411984|NCT04343235|184714121|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92411985|NCT01763996|184714127|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8||||0.756|TWO_SIDED|95.0|-10.1|13.76||0.05 level of significance|ANOVA|Analysis of variance (ANOVA) model that includes sequence, period, and treatment as fixed factors and subjects within sequence as a random factor.||||13.76|-10.10|0.756
92411986|NCT00865280|184714138|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-2.0|||||TWO_SIDED|95.0|-12.4|8.5|||||The 95% confidence interval (CI) was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||8.5|-12.4|
92231356|NCT01431287|184365475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.557||0.4097|TWO_SIDED|95.0|-1.552|0.633||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.633|-1.552|0.4097
92231357|NCT01431287|184365475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.575|STANDARD_ERROR_OF_MEAN|0.556||0.3013|TWO_SIDED|95.0|-1.664|0.515||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.515|-1.664|0.3013
92231358|NCT01431287|184365475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.115|STANDARD_ERROR_OF_MEAN|0.554||0.8355|TWO_SIDED|95.0|-0.97|1.2||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||1.200|-0.970|0.8355
92231359|NCT01431287|184365476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.135||0.0019|TWO_SIDED|95.0|0.155|0.684||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.684|0.155|0.0019
92231360|NCT01431287|184365476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.356|STANDARD_ERROR_OF_MEAN|0.135||0.0082|TWO_SIDED|95.0|0.092|0.619||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.619|0.092|0.0082
92231361|NCT01431287|184365476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.416|STANDARD_ERROR_OF_MEAN|0.135||0.002|TWO_SIDED|95.0|0.152|0.681||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.681|0.152|0.0020
92278058|NCT00782509|184458144|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.2846|STANDARD_ERROR_OF_MEAN|0.2803||0.2514|TWO_SIDED|95.0|0.837|1.9717|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.9717|0.8370|0.2514
92378611|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|62.5||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 30%||||
92378612|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|42.9||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 35%||||
92411987|NCT00865280|184714139|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-3.6|||||TWO_SIDED|95.0|-15.5|8.3|||||The 95% CI was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||8.3|-15.5|
92231362|NCT01431287|184365476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.134||0.0307|TWO_SIDED|95.0|0.027|0.554||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.554|0.027|0.0307
92278059|NCT00782509|184458144|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.3373|STANDARD_ERROR_OF_MEAN|0.2901||0.1807|TWO_SIDED|95.0|0.8735|2.0474|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||2.0474|0.8735|0.1807
92411988|NCT00865280|184714140|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|7.7|||||TWO_SIDED|95.0|-11.2|26.6|||||The 95% CI was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||26.6|-11.2|
92231363|NCT01431287|184365476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.352|STANDARD_ERROR_OF_MEAN|0.135||0.0088|TWO_SIDED|95.0|0.089|0.616||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.616|0.089|0.0088
92280417|NCT03466411|184463524|SUPERIORITY||Adjusted treatment difference|33.7|||<|0.001|TWO_SIDED|95.0|24.1|43.2|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||43.2|24.1|<0.001
92378613|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|24.5||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 40%||||
92231364|NCT01431287|184365476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.003|STANDARD_ERROR_OF_MEAN|0.134||0.9801|TWO_SIDED|95.0|-0.259|0.266||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.266|-0.259|0.9801
92231365|NCT01431287|184365476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.294|STANDARD_ERROR_OF_MEAN|0.134||0.0289|TWO_SIDED|95.0|0.03|0.557||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.557|0.030|0.0289
92378614|NCT01751776|184659870|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|11.1||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 45%||||
92378615|NCT01751776|184659871|SUPERIORITY_OR_OTHER_LEGACY||Risk difference, unadjusted|18.2||||0.0754|TWO_SIDED|95.0|-6.6|38.6|||One-sided exact test (see description)|One-sided exact test for superiority testing|The exact 95% confidence interval was calculated by Clopper and Pearson.|unadjusted||38.6|-6.6|0.0754
92378616|NCT01751776|184659871|SUPERIORITY_OR_OTHER_LEGACY||risk difference, adjusted|20.0|||||TWO_SIDED|95.0|-4.6|39.0|||||The 95 % confidence interval was determined by root method to determine the cumulative distribution function. Adjusted for treatment, region and anti-Tumour Necrosis Factor (TNF)|adjusted||39.0|-4.6|
92378617|NCT01751776|184659872|SUPERIORITY_OR_OTHER_LEGACY||risk difference, unadjusted|4.5||||0.3938|TWO_SIDED|95.0|-18.4|22.3|||one-sided exact test (see description)|one-sided exact test for superiority testing.|The exact 95% confidence interval was calculated by Clopper and Pearson.|unadjusted||22.3|-18.4|0.3938
92378618|NCT01751776|184659872|SUPERIORITY_OR_OTHER_LEGACY||risk difference, adjusted|4.0|||||TWO_SIDED|95.0|-18.9|21.1|||||The 95 % confidence interval was determined by root method to determine the cumulative distribution function. Adjusted for treatment, region and anti-TNF history|adjusted||21.1|-18.9|
92378619|NCT01751776|184659875|SUPERIORITY_OR_OTHER_LEGACY||Risk difference|6.8|||||TWO_SIDED|95.0|-17.6|32.7|||||The exact 95% confidence interval was calculated by Clopper and Pearson.|unadjusted||32.7|-17.6|
92378620|NCT01751776|184659875|SUPERIORITY_OR_OTHER_LEGACY||risk difference, adjusted|8.9|||||TWO_SIDED|95.0|-15.9|34.2|||||The 95 % confidence interval was determined by root method to determine the cumulative distribution function. Adjusted for treatment, region and anti-TNF history|adjusted||34.2|-15.9|
92378621|NCT01751776|184659876|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean|-0.14|STANDARD_ERROR_OF_MEAN|0.266|||TWO_SIDED|95.0|-0.67|0.39|||||difference calculated as BI 655064 120mg minus placebo. The ANCOVA model was used. In this model the mean was adjusted for region, anti-TNF history and baseline DAS28-CRP.|difference calculated as BI 655064 120mg minus placebo.||0.39|-0.67|
92378622|NCT01800318|184659897|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||RM Anova of effects of treatment groups on PIPP scores: .|ANOVA|||||||0.07
92378623|NCT01800318|184659897|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|Bonferroni correction||t test comparing baseline PIPP score with heel stick PIPP scores in group with 24% sucrose and sham NESAP.||||<0.05
92378624|NCT01800318|184659897|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|Bonferroni correction||t test comparing baseline PIPP score with heel stick PIPP scores in group with NESAP and oral water.||||<0.01
92378625|NCT01800318|184659897|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|Bonferroni correction||t test comparing baseline PIPP score with heel stick PIPP scores in group with 24% sucrose and NESAp combined.||||<0.05
92378626|NCT01800318|184659897|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|Bonferroni||t test comparing baseline PIPP score with heel stick PIPP scores in standard care group (Sham NESAP with oral water).||||<0.01
92378627|NCT01800318|184659898|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||ANOVA|||||||0.9
92378628|NCT01800318|184659899|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||ANOVA|||||||0.9
92378629|NCT01800318|184659901|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||ANOVA|F4.048||||||0.008
92378630|NCT00262847|184659902|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.954||||0.448||95.0|0.844|1.078|||Regression, Cox|Proportional Hazards model stratified by stage of disease and size of residual disease following initial staging surgery.||||1.078|0.844|0.448
92378631|NCT00262847|184659902|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.765|||<|0.001||95.0|0.676|0.866|||Regression, Cox|Proportional Hazards model stratified by stage of disease and size of residual disease following initial staging surgery.||||0.866|0.676|<0.001
92378632|NCT00262847|184659903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.069||||0.41||95.0|0.912|1.255|||Regression, Cox|Proportional Hazards model stratified by stage of disease and size of residual disease following initial staging surgery.||||1.255|0.912|0.410
92378633|NCT00262847|184659903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.131||95.0|0.746|1.039|||Regression, Cox|Proportional Hazards model stratified by stage of disease and size of residual disease following initial staging surgery.||||1.039|0.746|0.131
92378634|NCT03495102|184659941|SUPERIORITY||Mean Difference (Net)|-0.17||||0.003|TWO_SIDED|95.0|-0.29|-0.06|||Mixed Models Analysis|||||-0.06|-0.29|0.003
92378635|NCT03495102|184659941|SUPERIORITY||Mean Difference (Net)|-0.34|||<|0.001|TWO_SIDED|95.0|-0.45|-0.22|||Mixed Models Analysis|||||-0.22|-0.45|<0.001
92378636|NCT03495102|184659942|SUPERIORITY||Mean Difference (Net)|-0.9||||0.001|TWO_SIDED|95.0|-1.4|-0.4|||Mixed Models Analysis|||||-0.4|-1.4|0.001
92378637|NCT03495102|184659942|SUPERIORITY||Mean Difference (Net)|-1.6|||<|0.001|TWO_SIDED|95.0|-2.1|-1.1|||Mixed Models Analysis|||||-1.1|-2.1|<0.001
92378638|NCT03495102|184659943|SUPERIORITY||Odds Ratio (OR)|1.49||||0.006|TWO_SIDED|95.0|1.12|1.98|||Regression, Logistic|||||1.98|1.12|0.006
92378639|NCT03495102|184659943|SUPERIORITY||Odds Ratio (OR)|2.23|||<|0.001|TWO_SIDED|95.0|1.65|3.01|||Regression, Logistic|||||3.01|1.65|<0.001
92378640|NCT03495102|184659944|SUPERIORITY||Mean Difference (Net)|-3.7||||0.084|TWO_SIDED|95.0|-7.8|0.5|||Mixed Models Analysis|||||0.5|-7.8|0.084
92378641|NCT03495102|184659944|SUPERIORITY||Mean Difference (Net)|-8.1|||<|0.001|TWO_SIDED|95.0|-12.3|-3.9|||Mixed Models Analysis|||||-3.9|-12.3|<0.001
92411989|NCT00865280|184714141|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-0.3|||||TWO_SIDED|95.0|-8.3|7.6|||||The 95% CI was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||7.6|-8.3|
92378642|NCT03938324|184659948|SUPERIORITY|||||||0.0034||||||The two-tailed significance set at 0.05 was not adjusted for multiple outcomes or comparisons. No adjustments for pairwise comparisons were required for the model.|Multi-level mixed effects|Fixed effects were treatment, time, treatment-by time; whereas, random effects were participant and participant-by-time.||Multi-level mixed effects model for longitudinal data to compare treatment group difference in trajectory across 12 months. Group sizes provided at least 80% power to detect a true difference in change trajectories (treatment-by-time interaction effect), assuming a medium effect size, two-tailed tests, and statistical significance set at 0.05. Null hypothesis was no treatment group difference in the trajectory from baseline to 12 months (no significant treatment-by-time effect).||||0.0034
92411990|NCT00865280|184714142|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|7.7|||||TWO_SIDED|95.0|-11.2|26.6|||||The 95% CI was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||26.6|-11.2|
92411991|NCT00865280|184714143|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-0.3|||||TWO_SIDED|95.0|-8.3|7.6|||||The 95% CI was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||7.6|-8.3|
92411992|NCT02428478|184714155|OTHER|||||||0.01||||||P\<0.05 considered statistically significant|Wilcoxon Matched-Pairs Signed-Rank Test|||Tonic analysis||||0.01
92240334|NCT01005719|184384145|SUPERIORITY_OR_OTHER|||||||0.0242||95.0||||p-value for 10-15 mins Post-dose on Day 7. No adjustments were made for multiple comparisons. P-values \<= 0.05 were reported as statistically significant.|Wilcoxon (Mann-Whitney)|||||||0.0242
92378643|NCT03938324|184659949|SUPERIORITY|||||||0.5137||||||The two-tailed significance set at 0.05 was not adjusted for multiple outcomes or comparisons. No adjustments for pairwise comparisons were required for the model.|Multi-level mixed effects|Fixed effects were treatment, time, treatment-by time; whereas, random effects were participant and participant-by-time.||Multi-level mixed effects model for longitudinal data to compare treatment group difference in trajectory across 12 months. Group sizes provided at least 80% power to detect a true difference in change trajectories (treatment-by-time interaction effect), assuming a medium effect size, two-tailed tests, and statistical significance set at 0.05. Null hypothesis was no treatment group difference in the trajectory from baseline to 12 months (no significant treatment-by-time effect).||||0.5137
92378644|NCT03938324|184659950|SUPERIORITY|||||||0.4107||||||The two-tailed significance set at 0.05 was not adjusted for multiple outcomes or comparisons. No adjustments for pairwise comparisons were required for the model.|Multi-level mixed effects|Fixed effects were treatment, time, treatment-by time; whereas, random effects were participant and participant-by-time.||Multi-level mixed effects model for longitudinal data to compare treatment group difference in trajectory across 12 months. Group sizes provided at least 80% power to detect a true difference in change trajectories (treatment-by-time interaction effect), assuming a medium effect size, two-tailed tests, and statistical significance set at 0.05. Null hypothesis was no treatment group difference in the trajectory from baseline to 12 months (no significant treatment-by-time effect).||||0.4107
92378645|NCT03938324|184659951|SUPERIORITY|||||||0.1708||||||The two-tailed significance set at 0.05 was not adjusted for multiple outcomes or comparisons. No adjustments for pairwise comparisons were required for the model.|Multi-level mixed effects|Fixed effects were treatment, time, treatment-by time; whereas, random effects were participant and participant-by-time.||Multi-level mixed effects model for longitudinal data to compare treatment group difference in trajectory across 12 months. Group sizes provided at least 80% power to detect a true difference in change trajectories (treatment-by-time interaction effect), assuming a medium effect size, two-tailed tests, and statistical significance set at 0.05. Null hypothesis was no treatment group difference in the trajectory from baseline to 12 months (no significant treatment-by-time effect).||||0.1708
92411993|NCT02428478|184714155|OTHER|||||||0.38||||||P\<0.05 considered statistically significant|Wilcoxon Matched-Pairs Signed-Rank Test|||Phasic analysis||||0.38
92411994|NCT02428478|184714156|OTHER||Median Change|-0.6||||0.037|TWO_SIDED||||||Wilcoxon Matched-Pairs Signed-Rank Test|||Passive Pcrit||||0.037
92411995|NCT02428478|184714156|OTHER||||||>|0.5|||||||Wilcoxon Matched-Pairs Signed-Rank Test|||Active Pcrit||||>0.5
92446299|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.174||0.7812|TWO_SIDED|95.0|-0.3|0.4|||MMRM|||Loss of Weight, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.40|-0.30|0.7812
92411996|NCT00884741|184714157|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.13||||0.11|TWO_SIDED|95.0|0.93|1.37||To control for type I error in testing the co-primary endpoints, the significance criterion for OS was 0.023 (one-sided) and for PFS was 0.002 (one-sided).|Log Rank|||The trial was designed to concurrently provide 80% power for the detection of a 25% relative reduction in mortality hazard (hazard ratio .75) and 30% reduction in progression hazard (hazard ratio .70) for the addition of bevacizumab to temozolomide and radiation. To control for type I error in testing the co-primary endpoints, the significance criterion for OS was 0.023 (one-sided) and for PFS was 0.002 (one-sided).||1.37|0.93|0.11
92411997|NCT00884741|184714158|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.79||||0.004|TWO_SIDED|95.0|0.66|0.94||To control for type I error in testing the co-primary endpoints, the significance criterion for OS was 0.023 (one-sided) and for PFS was 0.002 (one-sided).|Log Rank|||The trial was designed to concurrently provide 80% power for the detection of a 25% relative reduction in mortality hazard (hazard ratio .75) and 30% reduction in progression hazard (hazard ratio .70) for the addition of bevacizumab to temozolomide and radiation. To control for type I error in testing the co-primary endpoints, the significance criterion for OS was 0.023 (one-sided) and for PFS was 0.002 (one-sided).||0.94|0.66|0.004
92411998|NCT00884741|184714159|SUPERIORITY_OR_OTHER|||||||0.42||||||Two-sided|Chi-squared|||||||0.42
92411999|NCT01578850|184714164|SUPERIORITY_OR_OTHER||Difference in Proportions|26.3|||<|0.001|TWO_SIDED|95.0|16.78|35.81|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).|Participants who took rescue therapy had the final value taken before rescue used for analysis at all ensuing time points.|||35.81|16.78|<0.001
92412000|NCT01578850|184714165|SUPERIORITY_OR_OTHER||Difference in proportions|23.7||||0.019|TWO_SIDED|95.0|6.83|40.61|||Cochran-Mantel-Haenszel|The p-value from CMH test of general association was stratified by geographic region.||||40.61|6.83|0.019
92412001|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|-0.6||||0.371|TWO_SIDED|95.0|-1.76|0.57|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Baseline||0.57|-1.76|0.371
92412002|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|0.6||||0.358|TWO_SIDED|95.0|-0.59|1.81|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Baseline||1.81|-0.59|0.358
92412003|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|2.6||||0.667|TWO_SIDED|95.0|-4.76|9.98|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 24||9.98|-4.76|0.667
92412004|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|21.5||||0.001|TWO_SIDED|95.0|10.99|32.02|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 28||32.02|10.99|0.001
92412005|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|19.0||||0.004|TWO_SIDED|95.0|8.81|29.1|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 28||29.10|8.81|0.004
92412006|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|30.8|||<|0.001|TWO_SIDED|95.0|20.79|40.83|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 36||40.83|20.79|<0.001
92412007|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|27.2|||<|0.001|TWO_SIDED|95.0|16.89|37.54|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 36||37.54|16.89|<0.001
92412008|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|31.3|||<|0.001|TWO_SIDED|95.0|21.51|41.08|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 44||41.08|21.51|<0.001
92412009|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|30.2|||<|0.001|TWO_SIDED|95.0|19.95|40.47|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 44||40.47|19.95|<0.001
92412010|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|26.3|||<|0.001|TWO_SIDED|95.0|16.78|35.81|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 52||35.81|16.78|<0.001
92412011|NCT01578850|184714167|SUPERIORITY_OR_OTHER||Difference in proportions|27.1|||<|0.001|TWO_SIDED|95.0|16.67|37.47|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 52||37.47|16.67|<0.001
92412012|NCT01578850|184714169|SUPERIORITY_OR_OTHER||Difference in proportions|1.3||||0.774|TWO_SIDED|95.0|-9.03|11.68|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 24||11.68|-9.03|0.774
92412013|NCT01578850|184714169|SUPERIORITY_OR_OTHER||Difference in proportions|12.3||||0.034|TWO_SIDED|95.0|2.86|21.69|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 28||21.69|2.86|0.034
92412014|NCT01578850|184714169|SUPERIORITY_OR_OTHER||Difference in proportions|16.9||||0.02|TWO_SIDED|95.0|6.33|27.54|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 28||27.54|6.33|0.020
92378646|NCT03938324|184659952|SUPERIORITY|||||||0.7982||||||The two-tailed significance set at 0.05 was not adjusted for multiple outcomes or comparisons. No adjustments for pairwise comparisons were required for the model.|Multi-level mixed effects|Fixed effects were treatment, time, treatment-by time; whereas, random effects were participant and participant-by-time.||Multi-level mixed effects model for longitudinal data to compare treatment group difference in trajectory across 12 months. Group sizes provided at least 80% power to detect a true difference in change trajectories (treatment-by-time interaction effect), assuming a medium effect size, two-tailed tests, and statistical significance set at 0.05. Null hypothesis was no treatment group difference in the trajectory from baseline to 12 months (no significant treatment-by-time effect).||||0.7982
92412015|NCT01578850|184714169|SUPERIORITY_OR_OTHER||Difference in proportions|14.6||||0.007|TWO_SIDED|95.0|5.48|23.8|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 36||23.80|5.48|0.007
92378647|NCT05160766|184659954|OTHER||Difference of means in percent|12.557|STANDARD_ERROR_OF_MEAN|5.661||0.03143|TWO_SIDED|95.0|1.168|23.946|||ANCOVA|||The statistical analysis reflects Part A of the study.||23.946|1.168|0.03143
92378648|NCT05160766|184659954|OTHER||Difference of means in percent|4.331|STANDARD_ERROR_OF_MEAN|1.671||0.0101|TWO_SIDED|95.0|1.04|7.621|||ANCOVA|||This statistical analysis reflects Part B of the study.||7.621|1.04|0.0101
92378649|NCT05160766|184659955|OTHER||Difference of means in percent|12.168|STANDARD_ERROR_OF_MEAN|5.88||0.04405|TWO_SIDED|95.0|0.338|23.998|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.1.7 (alpha)."|23.998|0.338|0.04405
92378650|NCT05160766|184659955|OTHER||Difference of means in percent|14.212|STANDARD_ERROR_OF_MEAN|5.767||0.01744|TWO_SIDED|95.0|2.61|25.814|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.351 (beta)."|25.814|2.61|0.01744
92378651|NCT05160766|184659955|OTHER||Difference of means in percent|14.239|STANDARD_ERROR_OF_MEAN|5.932||0.02039|TWO_SIDED|95.0|2.305|26.173|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant P.1 (gamma)."|26.173|2.305|0.02039
92378652|NCT05160766|184659955|OTHER||Difference of means in percent|9.331|STANDARD_ERROR_OF_MEAN|4.636||0.04989|TWO_SIDED|95.0|0.005|18.656|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.1 (omicron)."|18.656|0.005|0.04989
92378653|NCT05160766|184659955|OTHER||Difference of means in percent|10.312|STANDARD_ERROR_OF_MEAN|4.373||0.02259|TWO_SIDED|95.0|1.514|19.111|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.4 (omicron)."|19.111|1.514|0.02259
92378654|NCT05160766|184659955|OTHER||Difference of means in percent|11.601|STANDARD_ERROR_OF_MEAN|4.634||0.01583|TWO_SIDED|95.0|2.279|20.924|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.4.6 (omicron)."|20.924|2.279|0.01583
92412016|NCT01578850|184714169|SUPERIORITY_OR_OTHER||Difference in proportions|24.9|||<|0.001|TWO_SIDED|95.0|14.72|34.98|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 36||34.98|14.72|<0.001
92378655|NCT05160766|184659955|OTHER||Difference of means in percent|11.863|STANDARD_ERROR_OF_MEAN|4.323||0.00856|TWO_SIDED|95.0|3.166|20.56|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.5 (omicron)."|20.56|3.166|0.00856
92378656|NCT05160766|184659955|OTHER||Difference of means in percent|6.83|STANDARD_ERROR_OF_MEAN|2.244||0.00258|TWO_SIDED|95.0|2.41|11.249|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.1.7 (alpha)."|11.249|2.41|0.00258
92378657|NCT05160766|184659955|OTHER||Difference of means in percent|6.048|STANDARD_ERROR_OF_MEAN|2.244||0.00748|TWO_SIDED|95.0|1.63|10.466|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.351 (beta)."|10.466|1.63|0.00748
92378658|NCT05160766|184659955|OTHER||Difference of means in percent|7.302|STANDARD_ERROR_OF_MEAN|2.782||0.00922|TWO_SIDED|95.0|1.821|12.782|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant P.1 (gamma)."|12.782|1.821|0.00922
92378659|NCT05160766|184659955|OTHER||Difference of means in percent|4.791|STANDARD_ERROR_OF_MEAN|2.646||0.07136|TWO_SIDED|95.0|-0.419|10.001|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.1 (omicron)."|10.001|-0.419|0.07136
92378660|NCT05160766|184659955|OTHER||Difference of means in percent|3.965|STANDARD_ERROR_OF_MEAN|2.196||0.07218|TWO_SIDED|95.0|-0.36|8.29|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.4 (omicron)."|8.29|-0.36|0.07218
92231366|NCT01431287|184365476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.136||0.6382|TWO_SIDED|95.0|-0.202|0.33||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.330|-0.202|0.6382
92231367|NCT01431287|184365476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.126|STANDARD_ERROR_OF_MEAN|0.135||0.3525|TWO_SIDED|95.0|-0.14|0.391||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.391|-0.140|0.3525
92378661|NCT05160766|184659955|OTHER||Difference of means in percent|4.82|STANDARD_ERROR_OF_MEAN|2.202||0.02949|TWO_SIDED|95.0|0.484|9.155|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.4.6 (omicron)."|9.155|0.484|0.02949
92378662|NCT05160766|184659955|OTHER||Difference of means in percent|3.926|STANDARD_ERROR_OF_MEAN|2.263||0.08403|TWO_SIDED|95.0|-0.531|8.382|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.5 (omicron)."|8.382|-0.531|0.08403
92378663|NCT05160766|184659958|OTHER||Difference of means in percent|8.835|STANDARD_ERROR_OF_MEAN|11.03||0.42797|TWO_SIDED|95.0|-13.475|31.145|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.1.7 (alpha)."|31.145|-13.475|0.42797
92378664|NCT05160766|184659958|OTHER||Difference of means in percent|3.54|STANDARD_ERROR_OF_MEAN|10.575||0.73961|TWO_SIDED|95.0|-17.85|24.929|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.351 (beta)."|24.929|-17.85|0.73961
92378665|NCT05160766|184659958|OTHER||Difference of means in percent|8.086|STANDARD_ERROR_OF_MEAN|10.683||0.4537|TWO_SIDED|95.0|-13.524|29.695|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant P.1 (gamma)."|29.695|-13.524|0.45370
92378666|NCT05160766|184659958|OTHER||Difference of means in percent|1.636|STANDARD_ERROR_OF_MEAN|10.187||0.87323|TWO_SIDED|95.0|-18.969|22.241|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.1 (omicron)."|22.241|-18.969|0.87323
92378667|NCT05160766|184659958|OTHER||Difference of means in percent|0.81|STANDARD_ERROR_OF_MEAN|9.848||0.93489|TWO_SIDED|95.0|-19.109|20.728|||ANCOVA|||This statistical analysis relfects Part A of the study.|"The above provided values refer to the variant BA.4 (omicron)."|20.728|-19.109|0.93489
92378668|NCT05160766|184659958|OTHER||Difference of means in percent|3.511|STANDARD_ERROR_OF_MEAN|10.845||0.74784|TWO_SIDED|95.0|-18.425|25.448|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.4.6 (omicron)."|25.448|-18.425|0.74784
92378669|NCT05160766|184659958|OTHER||Difference of means in percent|2.088|STANDARD_ERROR_OF_MEAN|10.409||0.84202|TWO_SIDED|95.0|-18.966|23.143|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.5 (omicron)."|23.143|-18.966|0.84202
92378670|NCT05160766|184659958|OTHER||Difference of means in percent|5.807|STANDARD_ERROR_OF_MEAN|4.068||0.15477|TWO_SIDED|95.0|-2.207|13.821|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.1.7 (alpha)."|13.821|-2.207|0.15477
92378671|NCT05160766|184659958|OTHER||Difference of means in percent|3.52|STANDARD_ERROR_OF_MEAN|3.984||0.37773|TWO_SIDED|95.0|-4.327|11.368|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.351 (beta)."|11.368|-4.327|0.37773
92378672|NCT05160766|184659958|OTHER||Difference of means in percent|4.413|STANDARD_ERROR_OF_MEAN|4.18||0.29212|TWO_SIDED|95.0|-3.821|12.647|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant P.1 (gamma)."|12.647|-3.821|0.29212
92378673|NCT05160766|184659958|OTHER||Difference of means in percent|5.961|STANDARD_ERROR_OF_MEAN|4.04||0.1414|TWO_SIDED|95.0|-1.998|13.919|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.1 (omicron)."|13.919|-1.998|0.14140
92378674|NCT05160766|184659958|OTHER||Difference of means in percent|2.199|STANDARD_ERROR_OF_MEAN|3.875||0.5709|TWO_SIDED|95.0|-5.434|9.832|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.4 (omicron)."|9.832|-5.434|0.57090
92378675|NCT05160766|184659958|OTHER||Difference of means in percent|6.528|STANDARD_ERROR_OF_MEAN|4.071||0.11012|TWO_SIDED|95.0|-1.491|14.548|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.4.6 (omicron)."|14.548|-1.491|0.11012
92378676|NCT05160766|184659958|OTHER||Difference of means in percent|4.239|STANDARD_ERROR_OF_MEAN|4.06||0.29755|TWO_SIDED|95.0|-3.759|12.237|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.5 (omicron)."|12.237|-3.759|0.29755
92378677|NCT05160766|184659963|OTHER||Difference of means in percent|9.64|STANDARD_ERROR_OF_MEAN|11.191||0.39426|TWO_SIDED|95.0|-12.995|32.275|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant P.2 (gamma)."|32.275|-12.995|0.39426
92378678|NCT05160766|184659963|OTHER||Difference of means in percent|8.764|STANDARD_ERROR_OF_MEAN|10.765||0.42055|TWO_SIDED|95.0|-13.011|30.539|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.617."|30.539|-13.011|0.42055
92231368|NCT01431287|184365476|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.062|STANDARD_ERROR_OF_MEAN|0.135||0.6457|TWO_SIDED|95.0|-0.327|0.203||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.203|-0.327|0.6457
92231369|NCT01431287|184365477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.013||0.0095|TWO_SIDED|95.0|0.008|0.058||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.058|0.008|0.0095
92231370|NCT01431287|184365477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.04|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.090|0.040|<0.0001
92231371|NCT01431287|184365477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.013||0.0112|TWO_SIDED|95.0|0.007|0.058||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.058|0.007|0.0112
92378679|NCT05160766|184659963|OTHER||Difference of means in percent|8.472|STANDARD_ERROR_OF_MEAN|10.953||0.44391|TWO_SIDED|95.0|-13.683|30.627|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.617.1 (kappa)."|30.627|-13.683|0.44391
92378680|NCT05160766|184659963|OTHER||Difference of means in percent|8.483|STANDARD_ERROR_OF_MEAN|10.82||0.43775|TWO_SIDED|95.0|-13.402|30.368|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant AY.3 (delta)."|30.368|-13.402|0.43775
92378681|NCT05160766|184659963|OTHER||Difference of means in percent|6.19|STANDARD_ERROR_OF_MEAN|9.892||0.53511|TWO_SIDED|95.0|-13.819|26.2|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant AY.4.2 (delta)."|26.2|-13.819|0.53511
92412017|NCT01578850|184714169|SUPERIORITY_OR_OTHER||Difference in proportions|18.8|||<|0.001|TWO_SIDED|95.0|10.16|27.38|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 44||27.38|10.16|<0.001
92412018|NCT01578850|184714169|SUPERIORITY_OR_OTHER||Difference in proportions|30.9|||<|0.001|TWO_SIDED|95.0|21.03|40.76|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 44||40.76|21.03|<0.001
92231372|NCT01431287|184365477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.093|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.068|0.119||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.119|0.068|<0.0001
92231373|NCT01431287|184365477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.039|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.090|0.039|<0.0001
92231374|NCT01431287|184365477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.013||0.9514|TWO_SIDED|95.0|-0.024|0.026||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.026|-0.024|0.9514
92378682|NCT05160766|184659963|OTHER||Difference of means in percent|4.552|STANDARD_ERROR_OF_MEAN|10.801||0.67576|TWO_SIDED|95.0|-17.295|26.399|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.617.3."|26.399|-17.295|0.67576
92378683|NCT05160766|184659963|OTHER||Difference of means in percent|8.438|STANDARD_ERROR_OF_MEAN|11.168||0.45443|TWO_SIDED|95.0|-14.15|31.027|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.526.1 (iota)."|31.027|-14.15|0.45443
92378684|NCT05160766|184659963|OTHER||Difference of means in percent|8.901|STANDARD_ERROR_OF_MEAN|10.218||0.38904|TWO_SIDED|95.0|-11.768|29.569|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.2+L452M (omicron)."|29.569|-11.768|0.38904
92378685|NCT05160766|184659963|OTHER||Difference of means in percent|7.302|STANDARD_ERROR_OF_MEAN|10.11||0.47466|TWO_SIDED|95.0|-13.147|27.751|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.2+L452R (omicron)."|27.751|-13.147|0.47466
92378686|NCT05160766|184659963|OTHER||Difference of means in percent|2.878|STANDARD_ERROR_OF_MEAN|9.824||0.7711|TWO_SIDED|95.0|-16.993|22.749|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.2.12.1 (omicron)."|22.749|-16.993|0.77110
92412019|NCT01578850|184714169|SUPERIORITY_OR_OTHER||Difference in proportions|20.6|||<|0.001|TWO_SIDED|95.0|11.78|29.52|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 52||29.52|11.78|<0.001
92412020|NCT01578850|184714169|SUPERIORITY_OR_OTHER||Difference in proportions|27.2|||<|0.001|TWO_SIDED|95.0|17.38|36.93|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 52||36.93|17.38|<0.001
92412021|NCT01578850|184714171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.73|-0.2|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 28||-0.20|-0.73|<0.001
92412022|NCT01578850|184714171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.006|TWO_SIDED|95.0|-0.61|-0.11|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 28||-0.11|-0.61|0.006
92412023|NCT01578850|184714171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|||<|0.001|TWO_SIDED|95.0|-0.96|-0.39|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 36||-0.39|-0.96|<0.001
92412024|NCT01578850|184714171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|||<|0.001|TWO_SIDED|95.0|-0.82|-0.28|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 36||-0.28|-0.82|<0.001
92231375|NCT01431287|184365477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.069|0.119||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.119|0.069|<0.0001
92378687|NCT05160766|184659963|OTHER||Difference of means in percent|1.753||||0.86646|TWO_SIDED|95.0|-19.195|22.701|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.2.75 (omicron)."|22.701|-19.195|0.86646
92378688|NCT05160766|184659963|OTHER||Difference of means in percent|5.42|STANDARD_ERROR_OF_MEAN|9.705||0.57972|TWO_SIDED|95.0|-14.21|25.049|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.2.75.2 (omicron)."|25.049|-14.21|0.57972
92378689|NCT05160766|184659963|OTHER||Difference of means in percent|1.17|STANDARD_ERROR_OF_MEAN|9.408||0.90166|TWO_SIDED|95.0|-17.859|20.199|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.3 (omicron)."|20.199|-17.859|0.90166
92378690|NCT05160766|184659963|OTHER||Difference of means in percent|1.018|STANDARD_ERROR_OF_MEAN|10.44||0.92279|TWO_SIDED|95.0|-20.099|22.136|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BF.7 (omicron)."|22.136|-20.099|0.92279
92378691|NCT05160766|184659963|OTHER||Difference of means in percent|3.532|STANDARD_ERROR_OF_MEAN|9.496||0.71191|TWO_SIDED|95.0|-15.675|22.74|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BQ.1 (omicron)."|22.74|-15.675|0.71191
92231376|NCT01431287|184365477|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.032|STANDARD_ERROR_OF_MEAN|0.013||0.0131|TWO_SIDED|95.0|-0.057|-0.007||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.007|-0.057|0.0131
92378692|NCT05160766|184659963|OTHER||Difference of means in percent|2.995|STANDARD_ERROR_OF_MEAN|8.755||0.73415|TWO_SIDED|95.0|-14.714|20.703|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BQ.1.1 (omicron)."|20.703|-14.714|0.73415
92240335|NCT01005719|184384145|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||p-value for 15-20 mins Post-dose on Day 7. No adjustments were made for multiple comparisons. P-values \<= 0.05 were reported as statistically significant.|Wilcoxon (Mann-Whitney)|||||||0.0270
92378693|NCT05160766|184659963|OTHER||Difference of means in percent|7.157|STANDARD_ERROR_OF_MEAN|9.548||0.45798|TWO_SIDED|95.0|-12.155|26.469|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant XBB.1 (omicron)."|26.469|-12.155|0.45798
92378694|NCT05160766|184659963|OTHER||Difference of means in percent|4.819|STANDARD_ERROR_OF_MEAN|4.055||0.23582|TWO_SIDED|95.0|-3.169|12.808|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant P.2 (gamma)."|12.808|-3.169|0.23582
92378695|NCT05160766|184659963|OTHER||Difference of means in percent|5.312|STANDARD_ERROR_OF_MEAN|4.074||0.19354|TWO_SIDED|95.0|-2.713|13.337|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.617."|13.337|-2.713|0.19354
92378696|NCT05160766|184659963|OTHER||Difference of means in percent|5.714|STANDARD_ERROR_OF_MEAN|4.155||0.17033|TWO_SIDED|95.0|-2.471|13.899|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.617.1 (kappa)."|13.899|-2.471|0.17033
92378697|NCT05160766|184659963|OTHER||Difference of means in percent|5.934|STANDARD_ERROR_OF_MEAN|3.997||0.13895|TWO_SIDED|95.0|-1.94|13.808|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant AY.3 (delta)."|13.808|-1.94|0.13895
92412025|NCT01578850|184714171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|||<|0.001|TWO_SIDED|95.0|-1.03|-0.46|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 44||-0.46|-1.03|<0.001
92412026|NCT01578850|184714171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|||<|0.001|TWO_SIDED|95.0|-0.92|-0.37|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 44||-0.37|-0.92|<0.001
92231377|NCT01431287|184365477|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.061|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|-0.086|-0.036||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.036|-0.086|<0.0001
92231378|NCT01431287|184365477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.029|STANDARD_ERROR_OF_MEAN|0.013||0.0243|TWO_SIDED|95.0|0.004|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.054|0.004|0.0243
92378698|NCT05160766|184659963|OTHER||Difference of means in percent|4.222|STANDARD_ERROR_OF_MEAN|3.812||0.26924|TWO_SIDED|95.0|-3.288|11.732|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant AY.4.2 (delta)."|11.732|-3.288|0.26924
92378699|NCT05160766|184659963|OTHER||Difference of means in percent|5.49|STANDARD_ERROR_OF_MEAN|3.996||0.1708|TWO_SIDED|95.0|-2.382|13.362|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.617.3."|13.362|-2.382|0.17080
92378700|NCT05160766|184659963|OTHER||Difference of means in percent|5.567|STANDARD_ERROR_OF_MEAN|4.188||0.18502|TWO_SIDED|95.0|-2.683|13.818|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.526.1 (iota)."|13.818|-2.683|0.18502
92378701|NCT05160766|184659963|OTHER||Difference of means in percent|3.438|STANDARD_ERROR_OF_MEAN|3.938||0.38344|TWO_SIDED|95.0|-4.318|11.195|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.2+L452M (omicron)."|11.195|-4.318|0.38344
92412027|NCT01578850|184714171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|||<|0.001|TWO_SIDED|95.0|-0.98|-0.4|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 52||-0.40|-0.98|<0.001
92412028|NCT01578850|184714171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|||<|0.001|TWO_SIDED|95.0|-0.91|-0.36|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 52||-0.36|-0.91|<0.001
92412029|NCT01578850|184714172|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||||||<0.001
92412030|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|1.4||||0.961|TWO_SIDED|95.0|-6.13|8.9|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-CRP Week 24||8.90|-6.13|0.961
92412031|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|21.5||||0.001|TWO_SIDED|95.0|10.99|32.02|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-ESR Week 28||32.02|10.99|0.001
92412032|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|18.3||||0.007|TWO_SIDED|95.0|8.08|28.53|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-CRP Week 28||28.53|8.08|0.007
92412033|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|31.4|||<|0.001|TWO_SIDED|95.0|21.42|41.39|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-ESR Week 36||41.39|21.42|<0.001
92412034|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|27.2|||<|0.001|TWO_SIDED|95.0|16.83|37.54|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-CRP Week 36||37.54|16.83|<0.001
92412035|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|31.3|||<|0.001|TWO_SIDED|95.0|21.53|41.02|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-ESR Week 44||41.02|21.53|<0.001
92378702|NCT05160766|184659963|OTHER||Difference of means in percent|3.279|STANDARD_ERROR_OF_MEAN|3.982||0.411|TWO_SIDED|95.0|-4.565|11.124|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.2+L452R (omicron)."|11.124|-4.565|0.41100
92378703|NCT05160766|184659963|OTHER||Difference of means in percent|2.67|STANDARD_ERROR_OF_MEAN|4.014||0.5066|TWO_SIDED|95.0|-5.237|10.577|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.2.12.1 (omicron)."|10.577|-5.237|0.50660
92378704|NCT05160766|184659963|OTHER||Difference of means in percent|4.535|STANDARD_ERROR_OF_MEAN|4.242||0.28604|TWO_SIDED|95.0|-3.82|12.891|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.2.75 (omicron)."|12.891|-3.82|0.28604
92378705|NCT05160766|184659963|OTHER||Difference of means in percent|6.259|STANDARD_ERROR_OF_MEAN|3.98||0.11715|TWO_SIDED|95.0|-1.582|14.1|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.2.75.2 (omicron)."|14.1|-1.582|0.11715
92412036|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|30.8|||<|0.001|TWO_SIDED|95.0|20.54|41.05|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-CRP Week 44||41.05|20.54|<0.001
92412037|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|26.3|||<|0.001|TWO_SIDED|95.0|16.82|35.74|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-ESR Week 52||35.74|16.82|<0.001
92412038|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|27.0|||<|0.001|TWO_SIDED|95.0|16.63|37.44|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-CRP Week 52||37.44|16.63|<0.001
92231379|NCT01431287|184365478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.145|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.119|0.17||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.170|0.119|<0.0001
92231380|NCT01431287|184365478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.111|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.085|0.136||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.136|0.085|<0.0001
92231381|NCT01431287|184365478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.119|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.094|0.144||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.144|0.094|<0.0001
92231382|NCT01431287|184365478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.106|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.081|0.132||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.132|0.081|<0.0001
92231383|NCT01431287|184365478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.085|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.059|0.11||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.110|0.059|<0.0001
92240336|NCT01005719|184384145|SUPERIORITY_OR_OTHER|||||||0.0067||95.0||||p-value for 20-25 mins Post-dose on Day 7. No adjustments were made for multiple comparisons. P-values \<= 0.05 were reported as statistically significant.|Wilcoxon (Mann-Whitney)|||||||0.0067
92378706|NCT05160766|184659963|OTHER||Difference of means in percent|3.818|STANDARD_ERROR_OF_MEAN|3.957||0.33567|TWO_SIDED|95.0|-3.978|11.613|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.3 (omicron)."|11.613|-3.978|0.33567
92378707|NCT05160766|184659963|OTHER||Difference of means in percent|5.775|STANDARD_ERROR_OF_MEAN|4.022||0.15232|TWO_SIDED|95.0|-2.147|13.697|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BF.7 (omicron)."|13.697|-2.147|0.15232
92378708|NCT05160766|184659963|OTHER||Difference of means in percent|4.808|STANDARD_ERROR_OF_MEAN|3.845||0.21234|TWO_SIDED|95.0|-2.766|12.383|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BQ.1 (omicron)."|12.383|-2.766|0.21234
92378709|NCT05160766|184659963|OTHER||Difference of means in percent|4.58|STANDARD_ERROR_OF_MEAN|3.78||0.22687|TWO_SIDED|95.0|-2.866|12.026|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BQ.1.1 (omicron)."|12.026|-2.866|0.22687
92378710|NCT05160766|184659963|OTHER||Difference of means in percent|3.498|STANDARD_ERROR_OF_MEAN|4.047||0.38832|TWO_SIDED|95.0|-4.475|11.47|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant XBB.1 (omicron)."|11.47|-4.475|0.38832
92378711|NCT02408523|184659979|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.001|TWO_SIDED|95.0|0.377|0.774||Wald's method was used to calculate the p-value, Hazard Ratio (HR) and confidence intervals (CIs).|Regression, Cox|||Comparison of LCM versus Placebo was based on a Cox proportional hazards regression model with an effect for treatment, stratifying for the following combinations of study participants' Baseline PGTCS frequency and Development from interactive response technology (IRT) (\<= 2 per 28 days in the Combined Baseline Period and Pediatric, \<= 2 per 28 days in the Combined Baseline Period and Adult, and \> 2 per 28 days in the Combined Baseline Period). The reference group was Placebo.||0.774|0.377|<0.001
92378712|NCT02408523|184659980|SUPERIORITY||KM seizure free of LCM vs Placebo|14.1|||=|0.011|TWO_SIDED|95.0|3.2|25.1||Superiority of LCM vs Placebo p-value was based on a chi-square test on 1 degree of freedom.|Mantel Haenszel||Stratified difference in proportion of subjects who are seizure-free from PGTCS on Lacosamide (FAS) vs Placebo (FAS).|The key secondary efficacy variable was evaluated using an extended Mantel-Haenszel testing procedure. Baseline PGTCS Frequency from Combined Baseline and development (age from interactive response technology (IRT)) were calculated from IRT.||25.1|3.2|=0.011
92378713|NCT02408523|184659981|SUPERIORITY||Hazard Ratio (HR)|0.683|||=|0.012|TWO_SIDED|95.0|0.507|0.921||Wald's method was used to calculate the p-value, Hazard Ratio (HR) and confidence intervals (CIs).|Regression, Cox|||Comparison of LCM versus Placebo was based on a Cox proportional hazards regression model with an effect for treatment, stratifying for the following combinations of study participants' Baseline PGTCS frequency and Development from interactive response technology (IRT) (\<= 2 per 28 days in the Combined Baseline Period and Pediatric, \<= 2 per 28 days in the Combined Baseline Period and Adult, and \> 2 per 28 days in the Combined Baseline Period). The reference group was Placebo.||0.921|0.507|=0.012
92412039|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0||||0.766|TWO_SIDED|95.0|-1.69|1.65|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-ESR Week 24||1.65|-1.69|0.766
92412040|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in Proportions|8.2||||0.091|TWO_SIDED|95.0|2.32|14.1|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-ESR Week 28||14.10|2.32|0.091
92412041|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|6.5||||0.227|TWO_SIDED|95.0|1.28|11.75|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-CRP Week 28||11.75|1.28|0.227
92231384|NCT01431287|184365478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.026|STANDARD_ERROR_OF_MEAN|0.013||0.047|TWO_SIDED|95.0|0.0|0.051||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.051|0.000|0.0470
92231385|NCT01431287|184365478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.107|0.158||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.158|0.107|<0.0001
92240337|NCT01005719|184384146|SUPERIORITY_OR_OTHER|||||||0.0465||95.0||||p-value for 10-15 mins Post-dose on Day 1|Wilcoxon (Mann-Whitney)|||||||0.0465
92378714|NCT04172467|184659997|OTHER|To estimate the relevance of guideline adherent treatment (GLAD) for the susceptibility to infection, full GLAD is taken as reference category.|Hazard Ratio (HR)|4.49|||<|0.001|TWO_SIDED|95.0|3.72|5.42||For effect estimation, hazard ratios are reported with 95% confidence interval. The significance level is set to two-sided ≤ 5% (p ≤ 0.05).|Regression, Cox|The Model developed by Anderson and Gill (1982) is an extension to the proportional hazard model (Cox model) for time to recurrent event analysis.||For the analysis of susceptibility to infection, the time to next infection was examined using the Andersen-Gill model. This model is an extension to the proportional hazard model (Cox model) for time to recurrent event analysis. The null hypothesis is that the GLAD-Score has no effect on susceptibility to infection.||5.42|3.72|<0.001
92378715|NCT04172467|184659997|OTHER|To estimate the relevance of guideline adherent treatment (GLAD) for the susceptibility to infection, full GLAD is taken as reference category.|Hazard Ratio (HR)|2.52|||<|0.001|TWO_SIDED|95.0|1.98|3.21||For effect estimation, hazard ratios are reported with 95% confidence interval. The significance level is set to two-sided ≤ 5% (p ≤ 0.05).|Regression, Cox|The Model developed by Anderson and Gill (1982) is an extension to the proportional hazard model (Cox model) for time to recurrent event analysis.||For the analysis of susceptibility to infection, the time to next infection was examined using the Andersen-Gill model. This model is an extension to the proportional hazard model (Cox model) for time to recurrent event analysis. The null hypothesis is that the GLAD-Score has no effect on susceptibility to infection.||3.21|1.98|<0.001
92378716|NCT01062061|184659999|SUPERIORITY_OR_OTHER|||||||0.9733||95.0|||||Chi-squared|||||||0.9733
92378717|NCT01062061|184660000|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Chi-squared|||||||0.0001
92378718|NCT00098722|184660012|SUPERIORITY_OR_OTHER||LS mean difference|-1.021|STANDARD_ERROR_OF_MEAN|0.1802|||TWO_SIDED|97.5|-1.426|-0.616||||||The difference between the treatment least square means (LS means) adjusted for randomization strata was presented in addition to 2-sided 97.5% confidence interval (CI) as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.616|-1.426|
92378719|NCT00098722|184660012|SUPERIORITY_OR_OTHER||LS mean difference|-1.042|STANDARD_ERROR_OF_MEAN|0.1786|||TWO_SIDED|97.5|-1.444|-0.64||||||The difference between the treatment LS means adjusted for randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.640|-1.444|
92378720|NCT00098722|184660013|SUPERIORITY_OR_OTHER||LS mean difference|-0.961|STANDARD_ERROR_OF_MEAN|0.1856|||TWO_SIDED|97.5|-1.379|-0.544||||||The difference between the treatment LS means adjusted for randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.544|-1.379|
92378721|NCT00098722|184660013|SUPERIORITY_OR_OTHER||LS mean difference|-1.109|STANDARD_ERROR_OF_MEAN|0.184|||TWO_SIDED|97.5|-1.523|-0.695||||||The difference between the treatment LS means adjusted for randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.695|-1.523|
92378722|NCT00098722|184660014|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.59|||<|0.0001|TWO_SIDED|95.0|2.56|8.23|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (less than \[\<\] 100,000 or greater than or equal to \[\>=\] 100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio greater than (\>) 1 favors maraviroc.||8.23|2.56|<0.0001
92378723|NCT00098722|184660014|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.01|||<|0.0001|TWO_SIDED|95.0|3.35|10.78|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||10.78|3.35|<0.0001
92378724|NCT00098722|184660014|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.03|||<|0.0001|TWO_SIDED|95.0|2.25|7.2|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.20|2.25|<0.0001
92231386|NCT01431287|184365478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.034|STANDARD_ERROR_OF_MEAN|0.013||0.0083|TWO_SIDED|95.0|0.009|0.06||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.060|0.009|0.0083
92231387|NCT01431287|184365478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.013|STANDARD_ERROR_OF_MEAN|0.013||0.3329|TWO_SIDED|95.0|-0.013|0.038||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.038|-0.013|0.3329
92378725|NCT00098722|184660014|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.41|||<|0.0001|TWO_SIDED|95.0|2.47|7.85|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.85|2.47|<0.0001
92378726|NCT00098722|184660015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.69|||<|0.0001|TWO_SIDED|95.0|2.72|8.1|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.10|2.72|<0.0001
92378727|NCT00098722|184660015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.01|||<|0.0001|TWO_SIDED|95.0|2.91|8.62|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.62|2.91|<0.0001
92378728|NCT00098722|184660015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.67|||<|0.0001|TWO_SIDED|95.0|2.13|6.32|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||6.32|2.13|<0.0001
92378729|NCT00098722|184660015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.64|||<|0.0001|TWO_SIDED|95.0|2.69|8.02|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.02|2.69|<0.0001
92378730|NCT00098722|184660016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.58|||<|0.0001|TWO_SIDED|95.0|2.64|7.92|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.92|2.64|<0.0001
92378731|NCT00098722|184660016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.42|||<|0.0001|TWO_SIDED|95.0|3.13|9.39|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||9.39|3.13|<0.0001
92378732|NCT00098722|184660016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.01|||<|0.0001|TWO_SIDED|95.0|2.29|7.0|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.00|2.29|<0.0001
92378733|NCT00098722|184660016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.08|||<|0.0001|TWO_SIDED|95.0|2.91|8.89|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.89|2.91|<0.0001
92378734|NCT00098722|184660017|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.55|||<|0.0001|TWO_SIDED|95.0|1.95|6.48|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||6.48|1.95|<0.0001
92378735|NCT00098722|184660017|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.88||||0.0005|TWO_SIDED|95.0|1.59|5.23|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odd ratio \>1 favors maraviroc.||5.23|1.59|0.0005
92378736|NCT00098722|184660017|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.23|||<|0.0001|TWO_SIDED|95.0|2.26|7.92|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.92|2.26|<0.0001
92412042|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|9.9||||0.072|TWO_SIDED|95.0|3.27|16.6|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-ESR Week 36||16.60|3.27|0.072
92240338|NCT01005719|184384146|SUPERIORITY_OR_OTHER|||||||0.0012||95.0||||p-value for 15-20 mins Post-dose on Day 1|Wilcoxon (Mann-Whitney)|||||||0.0012
92378737|NCT00098722|184660017|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1|||<|0.0001|TWO_SIDED|95.0|2.2|7.64|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.64|2.20|<0.0001
92378738|NCT00098722|184660019|SUPERIORITY_OR_OTHER||LS mean difference|47.94|STANDARD_ERROR_OF_MEAN|13.383|||TWO_SIDED|95.0|21.64|74.25||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||74.25|21.64|
92378739|NCT00098722|184660019|SUPERIORITY_OR_OTHER||LS mean difference|38.12|STANDARD_ERROR_OF_MEAN|13.313|||TWO_SIDED|95.0|11.96|64.28||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||64.28|11.96|
92378740|NCT00098722|184660019|SUPERIORITY_OR_OTHER||LS mean difference|52.15|STANDARD_ERROR_OF_MEAN|14.803|||TWO_SIDED|95.0|23.06|81.25||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||81.25|23.06|
92378741|NCT00098722|184660019|SUPERIORITY_OR_OTHER||LS mean difference|58.46|STANDARD_ERROR_OF_MEAN|14.725|||TWO_SIDED|95.0|29.53|87.4||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||87.40|29.53|
92378742|NCT00098722|184660020|SUPERIORITY_OR_OTHER||LS mean difference|218.57|STANDARD_ERROR_OF_MEAN|71.225|||TWO_SIDED|95.0|78.59|358.54||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||358.54|78.59|
92378743|NCT00098722|184660020|SUPERIORITY_OR_OTHER||LS mean difference|133.22|STANDARD_ERROR_OF_MEAN|70.855|||TWO_SIDED|95.0|-6.03|272.47||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||272.47|-6.03|
92378744|NCT00098722|184660020|SUPERIORITY_OR_OTHER||LS mean difference|136.93|STANDARD_ERROR_OF_MEAN|57.85|||TWO_SIDED|95.0|23.24|250.62||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||250.62|23.24|
92378745|NCT00098722|184660020|SUPERIORITY_OR_OTHER||LS mean difference|140.25|STANDARD_ERROR_OF_MEAN|57.55|||TWO_SIDED|95.0|27.15|253.35||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||253.35|27.15|
92378746|NCT00098722|184660021|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||<|0.0001|TWO_SIDED|95.0|0.29|0.56|||Log Rank|||P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio calculated by fitting a Cox proportional hazards model including treatment group and randomization strata. Hazard ratio \<1 favors maraviroc.||0.56|0.29|<0.0001
92378747|NCT00098722|184660021|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.23|0.46|||Log Rank|||P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio calculated by fitting a Cox proportional hazards model including treatment group and randomization strata. Hazard ratio \<1 favors maraviroc.||0.46|0.23|<0.0001
92378748|NCT00098722|184660022|SUPERIORITY_OR_OTHER||LS mean difference|-0.876|STANDARD_ERROR_OF_MEAN|0.1534|||TWO_SIDED|95.0|-1.177|-0.575||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.575|-1.177|
92378749|NCT00098722|184660022|SUPERIORITY_OR_OTHER||LS mean difference|-0.882|STANDARD_ERROR_OF_MEAN|0.1521|||TWO_SIDED|95.0|-1.181|-0.584||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.584|-1.181|
92378750|NCT00098722|184660022|SUPERIORITY_OR_OTHER||LS mean difference|-0.855|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-1.189|-0.521||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.521|-1.189|
92378751|NCT00098722|184660022|SUPERIORITY_OR_OTHER||LS mean difference|-1.033|STANDARD_ERROR_OF_MEAN|0.1685|||TWO_SIDED|95.0|-1.364|-0.701||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.701|-1.364|
92378752|NCT02046070|184660032|OTHER|||||||0.4859|||||||Chi-squared|||P-value tests the null hypothesis: CR+VGPR rate=27% in treatment arms obtained using the one-sided Chi-Square test with alpha=0.10.||||0.4859
92412043|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|8.8||||0.108|TWO_SIDED|95.0|2.43|15.2|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-CRP Week 36||15.20|2.43|0.108
92231388|NCT01431287|184365478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.022|STANDARD_ERROR_OF_MEAN|0.013||0.0958|TWO_SIDED|95.0|-0.004|0.047||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.047|-0.004|0.0958
92378753|NCT02046070|184660032|OTHER|||||||0.6757|||||||Chi-squared|||P-value tests the null hypothesis: CR+VGPR rate=27% in treatment arms obtained using the one-sided Chi-Square test with alpha=0.10.||||0.6757
92378754|NCT02046070|184660033|OTHER|||||||0.9688|||||||Chi-squared|||P-value tests the null hypothesis: CR+VGPR+PR rate=60% obtained using the one-sided Chi-Square test with alpha=0.10.||||0.9688
92378755|NCT05601102|184660062|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.41|||||||t-test, 2 sided|||||||.41
92378756|NCT05601102|184660063|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.01|||||||t-test, 2 sided|||Anxiety subscale analysis||||.01
92378757|NCT05601102|184660063|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.42|||||||t-test, 2 sided|||Depression subscale||||.42
92378758|NCT05601102|184660064|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.04|||||||t-test, 2 sided|||||||.04
92378759|NCT05601102|184660065|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.15|||||||t-test, 2 sided|||||||.15
92378760|NCT05601102|184660066|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.02|||||||t-test, 2 sided|||||||.02
92378761|NCT05601102|184660067|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.22|||||||t-test, 2 sided|||||||.22
92378762|NCT05601102|184660068|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.29|||||||t-test, 2 sided|||||||.29
92378763|NCT05601102|184660069|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||1|||||||t-test, 2 sided|||||||1.00
92378764|NCT05601102|184660070|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.6|||||||t-test, 2 sided|||||||.60
92378765|NCT05601102|184660071|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||1|||||||t-test, 2 sided|||||||1.00
92378766|NCT05601102|184660072|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed|||||<|0.001|||||||t-test, 2 sided|||||||<.001
92378767|NCT06504524|184660085|OTHER||Hazard Ratio (HR)|1.128|||=|0.615|TWO_SIDED|95.0|0.705|1.804|||Regression, Cox||IPTW hazard ratio (HR) were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||1.804|0.705|=0.615
92378768|NCT06504524|184660086|OTHER||Hazard Ratio (HR)|1.18|||=|0.4429|TWO_SIDED|95.0|0.85|1.64|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||1.64|0.85|=0.4429
92378769|NCT06504524|184660087|OTHER||Hazard Ratio (HR)|0.66|||=|0.12|TWO_SIDED|95.0|0.39|1.115|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||1.115|0.390|=0.120
92378770|NCT06504524|184660088|OTHER||Hazard Ratio (HR)|0.52|||=|0.0011|TWO_SIDED|95.0|0.38|0.71|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||0.71|0.38|=0.0011
92378771|NCT06504524|184660089|OTHER||Hazard Ratio (HR)|0.759|||=|0.503|TWO_SIDED|95.0|0.337|1.71|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||1.710|0.337|=0.503
92378772|NCT06504524|184660090|OTHER||Hazard Ratio (HR)|0.38|||<|0.0001|TWO_SIDED|95.0|0.26|0.57|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||0.57|0.26|<0.0001
92378773|NCT06504524|184660091|OTHER||Hazard Ratio (HR)|0.918|||=|0.706|TWO_SIDED|95.0|0.587|1.436|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||1.436|0.587|=0.706
92378774|NCT06504524|184660092|OTHER||Hazard Ratio (HR)|0.68|||=|0.0182|TWO_SIDED|95.0|0.52|0.88|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||0.88|0.52|=0.0182
92378775|NCT03859739|184660097|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-0.79|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8558 and placebo ≤ -1.4 copies/mL was 2.44 %.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK-8558 and placebo is ≥ 1.4 log10 copies/mL.||||
92378776|NCT03859739|184660097|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-0.97|||||||||||||PP of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8558 and placebo ≤ -1.4 copies/mL was 7.60%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK-8558 and placebo is ≥ 1.4 log10 copies/mL.||||
92378777|NCT03859739|184660097|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-1.58|||||||||||||PP of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8558 and placebo ≤ -1.4 copies/mL was 74.99%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK-8558 and placebo is ≥ 1.4 log10 copies/mL.||||
92412044|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|11.7||||0.035|TWO_SIDED|95.0|4.69|18.72|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-ESR Week 44||18.72|4.69|0.035
92412045|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|10.6||||0.03|TWO_SIDED|95.0|4.2|17.06|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-ESR Week 44||17.06|4.20|0.030
92240339|NCT01005719|184384146|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value for 20-25 mins Post-dose on Day 1|Wilcoxon (Mann-Whitney)|||||||<0.0001
92240340|NCT01005719|184384147|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The statistical analysis is for Day 1 (0-5 mins).|Wilcoxon (Mann-Whitney)|||||||<0.05
92240341|NCT01005719|184384147|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The statistical analysis is for Day 1 (0-5 mins).|Wilcoxon (Mann-Whitney)|||||||<0.05
92240342|NCT01005719|184384147|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The statistical analysis is for Day 7 (0-5 mins).|Wilcoxon (Mann-Whitney)|||||||<0.05
92412046|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|11.1||||0.048|TWO_SIDED|95.0|4.15|18.06|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-ESR Week 52||18.06|4.15|0.048
92412047|NCT01578850|184714174|SUPERIORITY_OR_OTHER||Difference in proportions|11.2||||0.016|TWO_SIDED|95.0|4.92|17.58|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-CRP Week 52||17.58|4.92|0.016
92412048|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|0.6||||0.358|TWO_SIDED|95.0|-0.59|1.81|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA Baseline||1.81|-0.59|0.358
92412049|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|3.4||||0.341|TWO_SIDED|95.0|-2.38|9.16|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA: Week 24||9.16|-2.38|0.341
92412050|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|18.3||||0.004|TWO_SIDED|95.0|8.4|28.27|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA: Week 28||28.27|8.40|0.004
92412051|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|24.1|||<|0.001|TWO_SIDED|95.0|13.88|34.4|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA: Week 36||34.40|13.88|<0.001
92412052|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|27.1|||<|0.001|TWO_SIDED|95.0|16.85|37.35|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA: Week 44||37.35|16.85|<0.001
92412053|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|24.0|||<|0.001|TWO_SIDED|95.0|13.61|34.42|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA: Week 52||34.42|13.61|<0.001
92412054|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|2.3||||0.774|TWO_SIDED|95.0|-5.5|10.06|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Remission: Week 24||10.06|-5.50|0.774
92412055|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|0.4||||0.645|TWO_SIDED|95.0|-7.15|8.03|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Remission: Week 28||8.03|-7.15|0.645
92412056|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|8.4||||0.08|TWO_SIDED|95.0|0.36|16.35|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Remission: Week 36||16.35|0.36|0.080
92231389|NCT01431287|184365479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.105|0.158||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.158|0.105|<0.0001
92240343|NCT01005719|184384147|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The statistical analysis is for Day 7 (0-5 mins).|Wilcoxon (Mann-Whitney)|||||||<0.05
92240344|NCT01753076|184384163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.0||||0.12|TWO_SIDED|95.0|-67.9|7.9|||ANCOVA||A negative mean difference means that the direction of effect is in favor of placebo.|||7.9|-67.9|0.120
92412057|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|9.6||||0.025|TWO_SIDED|95.0|1.49|17.68|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Remission: Week 44||17.68|1.49|0.025
92412058|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|9.0||||0.088|TWO_SIDED|95.0|1.02|16.88|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Remission: Week 52||16.88|1.02|0.088
92412059|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|0.6||||0.358|TWO_SIDED|95.0|-0.59|1.81|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Baseline||1.81|-0.59|0.358
92412060|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|3.3||||0.258|TWO_SIDED|95.0|-3.57|10.13|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Week 24||10.13|-3.57|0.258
92412061|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|17.7||||0.005|TWO_SIDED|95.0|7.49|27.92|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Week 28||27.92|7.49|0.005
92412062|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|27.2|||<|0.001|TWO_SIDED|95.0|16.93|37.55|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Week 36||37.55|16.93|<0.001
92412063|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|32.0|||<|0.001|TWO_SIDED|95.0|21.83|42.23|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Week 44||42.23|21.83|<0.001
92231390|NCT01431287|184365479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.112|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.086|0.139||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.139|0.086|<0.0001
92231391|NCT01431287|184365479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.118|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.092|0.144||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.144|0.092|<0.0001
92378778|NCT03859739|184660097|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-1.78|||||||||||||PP of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8558 and placebo ≤ -1.4 copies/mL was 87.41%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK-8558 and placebo is ≥ 1.4 log10 copies/mL.||||
92378779|NCT03859739|184660105|OTHER||Standard Error (SE)|0.146|||||||||||||PP that the true C168hr in plasma MK-8558 is ≥ 9.0 μM was 0.25%.|The posterior probability (PP) that the true GM C168hr is ≥ 9.0 μM was calculated using a non-informative (Jeffrey's) prior under an assumption of normality of log C168hr.||||
92378780|NCT03859739|184660105|OTHER||SE|0.146|||||||||||||PP that the true C168hr in plasma MK-8558 is ≥ 9.0 μM was 65.41%.|The PP that the true GM C168hr is ≥ 9.0 μM was calculated using a non-informative (Jeffrey's) prior under an assumption of normality of log C168hr.||||
92378781|NCT03859739|184660105|OTHER||SE|0.133|||||||||||||PP that the true C168hr in plasma MK-8558 is ≥ 9.0 μM was 99.99%.|The PP that the true GM C168hr is ≥ 9.0 μM was calculated using a non-informative (Jeffrey's) prior under an assumption of normality of log C168hr.||||
92378782|NCT03859739|184660105|OTHER||SE|0.163|||||||||||||PP that the true C168hr in plasma MK-8558 is ≥ 9.0 μM was 99.98%.|The PP that the true GM C168hr is ≥ 9.0 μM was calculated using a non-informative (Jeffrey's) prior under an assumption of normality of log C168hr.||||
92378783|NCT03523273|184660191|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92378784|NCT03523273|184660192|SUPERIORITY|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||||||0.033
92412064|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|28.3|||<|0.001|TWO_SIDED|95.0|18.0|38.69|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Week 52||38.69|18.00|<0.001
92412065|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|3.0||||0.672|TWO_SIDED|95.0|-5.51|11.51|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Remission: Week 24||11.51|-5.51|0.672
92412066|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|0.0||||0.556|TWO_SIDED|95.0|-8.03|8.0|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Remission: Week 28||8.00|-8.03|0.556
92412067|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|10.3||||0.022|TWO_SIDED|95.0|2.07|18.45|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Remission: Week 36||18.45|2.07|0.022
92412068|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|9.0||||0.047|TWO_SIDED|95.0|0.85|17.25|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Remission: Week 44||17.25|0.85|0.047
92240345|NCT01753076|184384164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.139|TWO_SIDED|95.0|-3.1|0.4|||Mixed Models Analysis|||||0.4|-3.1|0.139
92240346|NCT01753076|184384165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.173|TWO_SIDED|95.0|-0.3|0.05|||Random coefficients analysis|||||0.05|-0.30|0.173
92378785|NCT02590562|184660242|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||F test|||||||<0.0001
92378786|NCT02590562|184660243|SUPERIORITY_OR_OTHER|||||||0.0108|TWO_SIDED||||||F test|||||||0.0108
92378787|NCT01457950|184660249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.21|||<|0.0001|TWO_SIDED|95.0|2.06|4.36|||ANCOVA|||||4.36|2.06|<0.0001
92378788|NCT02963987|184660286|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92378789|NCT02963987|184660287|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|||||||0.006
92378790|NCT02963987|184660288|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92412069|NCT01578850|184714176|SUPERIORITY_OR_OTHER||Difference in proportions|12.1||||0.031|TWO_SIDED|95.0|3.7|20.57|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Remission: Week 52||20.57|3.70|0.031
92412070|NCT01578850|184714178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.049|TWO_SIDED|95.0|-4.19|-0.01|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Week 28||-0.01|-4.19|0.049
92412071|NCT01578850|184714178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.38||||0.005|TWO_SIDED|95.0|-5.72|-1.05|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Week 36||-1.05|-5.72|0.005
92412072|NCT01578850|184714178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.02|||<|0.001|TWO_SIDED|95.0|-6.37|-1.67|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Week 44||-1.67|-6.37|<0.001
92412073|NCT01578850|184714178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.02|||<|0.001|TWO_SIDED|95.0|-6.36|-1.68|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Week 52||-1.68|-6.36|<0.001
92378791|NCT02337530|184660294|SUPERIORITY||Odds Ratio (OR)|1.37||||0.73|TWO_SIDED|95.0|0.28|7.01|||Fisher Exact|||||7.01|0.28|0.73
92378792|NCT02337530|184660294|SUPERIORITY||Odds Ratio (OR)|6.4||||0.01|TWO_SIDED|95.0|1.65|24.8|||Fisher Exact|||||24.8|1.65|0.01
92378793|NCT02337530|184660295|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.56|TWO_SIDED|95.0|0.42|1.6|||Log Rank|||||1.60|0.42|0.56
92378794|NCT02337530|184660295|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.44|TWO_SIDED|95.0|0.4|1.49|||Log Rank|||||1.49|0.40|0.44
92378795|NCT03249935|184660296|SUPERIORITY|||||||||||||||||Assumptions were that 20% of enrolled chlamydia-infected males will have urethral symptoms and azithromycin treatment failures will occur in 10% of symptomatic men vs. 2% of asymptomatic men. At a one-sided 0.05 significance level with power of 0.80, a sample size of 357 evaluable males would be needed, or approximately 72 symptomatic and 285 asymptomatic males. Assuming 20% of males enrolled would be unevaluable, a total of 446 males was targeted for enrollment.|Given that the study closed early and there were only 4 treatment failures, formal hypothesis testing was not performed.|||
92378796|NCT03249935|184660297|SUPERIORITY||Odds Ratio (OR)|0.75||||0.656|TWO_SIDED|95.0|0.22|2.62|||Regression, Logistic|||Unadjusted odds ratio for age in years as a continuous variable in a logistic regression model predicting treatment failure at day 28||2.62|0.22|0.656
92378797|NCT03249935|184660297|SUPERIORITY||Odds Ratio (OR)|4.65||||0.197|TWO_SIDED|95.0|0.45|47.89|||Regression, Logistic|||Unadjusted odds ratio for reporting at baseline new partners in the last 30 days (reference group=no new partners) from a logistic model predicting treatment failure at day 28.||47.89|0.45|0.197
92378798|NCT03249935|184660297|SUPERIORITY||Odds Ratio (OR)|0.68||||0.058|TWO_SIDED|95.0|0.45|1.01|||Regression, Logistic|||Unadjusted odds ratio for Chlamydia viral load at baseline as a continuous variable in a logistic model predicting treatment failure at day 28.||1.01|0.45|0.058
92240347|NCT01753076|184384166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.127||||0.265|TWO_SIDED|95.0|-0.351|0.097|||Mixed Models Analysis|||||0.097|-0.351|0.265
92412074|NCT01578850|184714178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.22||||0.047|TWO_SIDED|95.0|-4.4|-0.03|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Week 28||-0.03|-4.40|0.047
92412075|NCT01578850|184714178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.54||||0.004|TWO_SIDED|95.0|-5.97|-1.12|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Week 36||-1.12|-5.97|0.004
92378799|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted difference|0.18|||||TWO_SIDED|95.0|-0.11|0.46|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 29||0.46|-0.11|
92378800|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.09|||||TWO_SIDED|95.0|-0.34|0.17|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 57||0.17|-0.34|
92240348|NCT01753076|184384167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2||||0.125|TWO_SIDED|95.0|-18.7|2.3|||Mixed Models Analysis|||||2.3|-18.7|0.125
92378801|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.08|||||TWO_SIDED|95.0|-0.37|0.2|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 85||0.20|-0.37|
92378802|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.23|||||TWO_SIDED|95.0|-0.5|0.04|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 113||0.04|-0.50|
92378803|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|0.03|||||TWO_SIDED|95.0|-0.26|0.32|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 141||0.32|-0.26|
92378804|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.13|||||TWO_SIDED|95.0|-0.41|0.15|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 169||0.15|-0.41|
92412076|NCT01578850|184714178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.33|||<|0.001|TWO_SIDED|95.0|-6.78|-1.88|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Week 44||-1.88|-6.78|<0.001
92412077|NCT01578850|184714178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.27|||<|0.001|TWO_SIDED|95.0|-6.7|-1.84|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Week 52||-1.84|-6.70|<0.001
92412078|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|-0.2||||0.742|TWO_SIDED|95.0|-4.21|3.9|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 20: Week 24||3.90|-4.21|0.742
92412079|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|9.8||||0.143|TWO_SIDED|95.0|2.45|17.06|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 20: Week 28||17.06|2.45|0.143
92240349|NCT01753076|184384168|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.393|TWO_SIDED|95.0|0.36|1.49|||Regression, Logistic|||||1.49|0.36|0.393
92378805|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.12|||||TWO_SIDED|95.0|-0.38|0.13|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 197||0.13|-0.38|
92378806|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.04|||||TWO_SIDED|95.0|-0.32|0.25|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 225||0.25|-0.32|
92378807|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|0.08|||||TWO_SIDED|95.0|-0.19|0.36|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 253||0.36|-0.19|
92378808|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|0.13|||||TWO_SIDED|95.0|-0.12|0.38|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 281||0.38|-0.12|
92412080|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|11.4||||0.111|TWO_SIDED|95.0|3.31|19.51|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 20: Week 36||19.51|3.31|0.111
92412081|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|10.1||||0.175|TWO_SIDED|95.0|1.8|18.49|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 20: Week 44||18.49|1.80|0.175
92412082|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|10.8||||0.088|TWO_SIDED|95.0|2.49|19.05|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 20: Week 52||19.05|2.49|0.088
92412083|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|2.5||||0.584|TWO_SIDED|95.0|-4.78|9.75|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 50: Week 24||9.75|-4.78|0.584
92412084|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|11.5||||0.226|TWO_SIDED|95.0|1.59|21.34|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 50: Week 28||21.34|1.59|0.226
92412085|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|17.2||||0.012|TWO_SIDED|95.0|6.76|27.56|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 50: Week 36||27.56|6.76|0.012
92378809|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.03|||||TWO_SIDED|95.0|-0.27|0.22|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 309||0.22|-0.27|
92378810|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.03|||||TWO_SIDED|95.0|-0.37|0.31|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 337||0.31|-0.37|
92378811|NCT00989235|184660300|SUPERIORITY_OR_OTHER||Adjusted Difference|0.23|||||TWO_SIDED|95.0|-0.09|0.55|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 365||0.55|-0.09|
92378812|NCT00989235|184660301|SUPERIORITY_OR_OTHER||estimate of difference|0.4|||||TWO_SIDED|95.0|-17.2|18.0|||normal approximation|For 95% CI: normal approximation with continuity correction.||||18.0|-17.2|
92412086|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|19.0||||0.006|TWO_SIDED|95.0|8.59|29.35|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 50: Week 44||29.35|8.59|0.006
92412087|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in Proportions|17.7||||0.014|TWO_SIDED|95.0|7.3|28.16|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 50: Week 52||28.16|7.30|0.014
92412088|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in Proportions|-2.7||||0.702|TWO_SIDED|95.0|-13.49|8.11|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 70: Week 24||8.11|-13.49|0.702
92412089|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|7.1||||0.378|TWO_SIDED|95.0|-3.37|17.5|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 70: Week 28||17.50|-3.37|0.378
92412090|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|17.3||||0.004|TWO_SIDED|95.0|7.12|27.56|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 70: Week 36||27.56|7.12|0.004
92412091|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|18.5||||0.001|TWO_SIDED|95.0|8.4|28.55|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 70: Week 44||28.55|8.40|0.001
92240350|NCT01753076|184384169|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.986|TWO_SIDED|95.0|0.34|2.89|||Regression, Cox||Week 48|||2.89|0.34|0.986
92231392|NCT01431287|184365479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.118|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.092|0.144||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.144|0.092|<0.0001
92231393|NCT01431287|184365479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.098|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.072|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.125|0.072|<0.0001
92378813|NCT00989235|184660302|SUPERIORITY_OR_OTHER||estimate of difference|-8.6|||||TWO_SIDED|95.0|-20.3|3.2|||normal approximation|For 95% CI: normal approximation with continuity correction.||||3.2|-20.3|
92240351|NCT01753076|184384169|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.923|TWO_SIDED|95.0|0.53|2.01|||Chi-squared||Week 60|||2.01|0.53|0.923
92378814|NCT00989235|184660304|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.45|1.69|||Cox proportional hazards model||Hazard ratio determined by a Cox proportional hazards model with treatment as the only covariate.|Through Month 12||1.69|0.45|
92378815|NCT00989235|184660305|SUPERIORITY_OR_OTHER||estimate of difference|-1.1|||||TWO_SIDED|95.0|-12.9|10.7|||normal approximation|For 95% CI: normal approximation with continuity correction.||||10.7|-12.9|
92231394|NCT01431287|184365479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.014|STANDARD_ERROR_OF_MEAN|0.013||0.3008|TWO_SIDED|95.0|-0.012|0.04||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.040|-0.012|0.3008
92378816|NCT00989235|184660306|SUPERIORITY_OR_OTHER||estimate of difference|-7.7|||||TWO_SIDED|95.0|-22.6|7.3|||normal approximation|95% CI: normal approximation with continuity correction.||||7.3|-22.6|
92378817|NCT00989235|184660307|SUPERIORITY_OR_OTHER||estimate of difference|-10.6|||||TWO_SIDED|95.0|-31.1|10.0|||normal approximation|95% CI: normal approximation with continuity correction.||||10.0|-31.1|
92378818|NCT01229943|184660318|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.12|TWO_SIDED|95.0|0.55|1.17||Tests were stratified by: prior treatment with cytotoxic chemotherapy (no vs yes), prior use of octreotide (no vs yes), and prior therapy with sunitinib (no vs yes).|Log Rank|||Based on the log rank test, with 130 patients enrolled over 22 months and followed an additional 24 months, the difference in median PFS between 9 months and 14 months can be detected with approximately 90% power (1-sided, α=0.15).||1.17|0.55|0.12
92378819|NCT03461406|184660417|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% confidence interval (CI) exceeds 0.8.|Relative risk|1.0|||<|0.001|TWO_SIDED|95.0|0.92|1.09|||Cochran-Mantel-Haenszel|||Hemostasis by 4 Minutes (Parenchymous)||1.09|0.92|< 0.001
92378820|NCT03461406|184660417|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% CI exceeds 0.8|Relative risk|1.03|||<|0.001|TWO_SIDED|95.0|0.91|1.16|||Cochran-Mantel-Haenszel|||Hemostasis by 4 Minutes (Soft Tissue)||1.16|0.91|< 0.001
92378821|NCT03461406|184660418|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% confidence interval (CI) exceeds 0.8.|Relative risk|1.0|||<|0.001|TWO_SIDED|95.0|0.92|1.09|||Cochran-Mantel-Haenszel|||Hemostasis by 7 Minutes (Parenchymous)||1.09|0.92|< 0.001
92378822|NCT03461406|184660418|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% confidence interval (CI) exceeds 0.8.|Relative risk|1.0|||<|0.001|TWO_SIDED|95.0|0.92|1.09|||Cochran-Mantel-Haenszel|||Hemostasis by 7 Minutes (Soft tissue)||1.09|0.92|< 0.001
92378823|NCT03461406|184660419|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% CI exceeds 0.8.|Relative risk|0.98|||<|0.001|TWO_SIDED|95.0|0.94|1.02|||Cochran-Mantel-Haenszel|||Hemostasis by 10 Minutes (Parenchymous)||1.02|0.94|< 0.001
92378824|NCT03461406|184660419|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% CI exceeds 0.8.|Relative risk|1.0|||<|0.001|TWO_SIDED|95.0|0.92|1.09|||Cochran-Mantel-Haenszel|||Hemostasis by 10 Minutes (Soft tissue)||1.09|0.92|< 0.001
92378825|NCT01969500|184660424|SUPERIORITY||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|3.81||0.85|TWO_SIDED|95.0|-8.37|6.96|||Linear mixed effects model||Mean difference (Intervention Arm - TAU) in change from baseline to 12 weeks|||6.96|-8.37|.85
92378826|NCT01969500|184660425|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|1.67||0.44|TWO_SIDED|95.0|-4.66|2.06|||Linear mixed effects model||Mean difference (Intervention Arm - TAU) in change from baseline to 12 weeks|||2.06|-4.66|.44
92378827|NCT02193087|184660428|NON_INFERIORITY_OR_EQUIVALENCE|Based on the Two One-Sided Tests (TOST) with α=0.05, if the 90% CI for the ratio of GMT for a given dengue serotype for the comparison was within the range of 0.67 and 1, then the 2 formulations were deemed equivalent.|LS Mean Ratio|0.29|||||TWO_SIDED|90.0|0.23|0.36||||||DEN-1||0.36|0.23|
92412092|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|16.0||||0.005|TWO_SIDED|95.0|5.96|26.02|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 70: Week 52||26.02|5.96|0.005
92412093|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|-0.3||||0.921|TWO_SIDED|95.0|-6.19|5.67|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 90: Week 24||5.67|-6.19|0.921
92412094|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|3.3||||0.41|TWO_SIDED|95.0|-2.19|8.86|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 90: Week 28||8.86|-2.19|0.410
92412095|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|6.4||||0.073|TWO_SIDED|95.0|0.41|12.48|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 90: Week 36||12.48|0.41|0.073
92412096|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|4.6||||0.219|TWO_SIDED|95.0|-0.97|10.08|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 90: Week 44||10.08|-0.97|0.219
92412097|NCT01578850|184714180|SUPERIORITY_OR_OTHER||Difference in proportions|5.9||||0.196|TWO_SIDED|95.0|-0.6|12.4|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 90: Week 52||12.40|-0.60|0.196
92412098|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.062|TWO_SIDED|95.0|-1.84|0.05|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Tender Joint Count: Week 28||0.05|-1.84|0.062
92412099|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.015|TWO_SIDED|95.0|-2.41|-0.27|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Tender Joint Count: Week 36||-0.27|-2.41|0.015
92412100|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.65||||0.003|TWO_SIDED|95.0|-2.72|-0.57|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Tender Joint Count: Week 44||-0.57|-2.72|0.003
92412101|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.002|TWO_SIDED|95.0|-2.85|-0.66|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Tender Joint Count: Week 52||-0.66|-2.85|0.002
92412102|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.68|TWO_SIDED|95.0|-0.77|0.5|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Swollen Joint Count: Week 28||0.50|-0.77|0.680
92412103|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.437|TWO_SIDED|95.0|-1.04|0.45|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Swollen Joint Count: Week 36||0.45|-1.04|0.437
92412104|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.131|TWO_SIDED|95.0|-1.31|0.17|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Swollen Joint Count: Week 44||0.17|-1.31|0.131
92412105|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.199|TWO_SIDED|95.0|-1.22|0.25|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Swollen Joint Count: Week 52||0.25|-1.22|0.199
92231395|NCT01431287|184365479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.105|0.158||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.158|0.105|<0.0001
92378828|NCT02193087|184660428|NON_INFERIORITY_OR_EQUIVALENCE|Based on the Two One-Sided Tests (TOST) with α=0.05, if the 90% CI for the ratio of GMT for a given dengue serotype for the comparison was within the range of 0.67 and 1, then the 2 formulations were deemed equivalent.|LS Mean Ratio|1.06|||||TWO_SIDED|90.0|0.9|1.26||||||DEN-2||1.26|0.90|
92412106|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.115|TWO_SIDED|95.0|-2.6|0.28|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Tender Joint Count: Week 28||0.28|-2.60|0.115
92231396|NCT01431287|184365479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.014||0.1484|TWO_SIDED|95.0|-0.007|0.046||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.046|-0.007|0.1484
92412107|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88||||0.017|TWO_SIDED|95.0|-3.42|-0.35|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Tender Joint Count: Week 36||-0.35|-3.42|0.017
92412108|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.34||||0.004|TWO_SIDED|95.0|-3.91|-0.76|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Tender Joint Count: Week 44||-0.76|-3.91|0.004
92412109|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.58||||0.002|TWO_SIDED|95.0|-4.19|-0.97|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Tender Joint Count: Week 52||-0.97|-4.19|0.002
92412110|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.368|TWO_SIDED|95.0|-1.13|0.42|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Swollen Joint Count: Week 28||0.42|-1.13|0.368
92412111|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.208|TWO_SIDED|95.0|-1.46|0.32|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Swollen Joint Count: Week 36||0.32|-1.46|0.208
92412112|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84||||0.064|TWO_SIDED|95.0|-1.73|0.05|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Swollen Joint Count: Week 44||0.05|-1.73|0.064
92412113|NCT01578850|184714182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.081|TWO_SIDED|95.0|-1.66|0.1|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Swollen Joint Count: Week 52||0.10|-1.66|0.081
92412114|NCT01578850|184714184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.005|TWO_SIDED|95.0|-0.9|-0.16|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 28||-0.16|-0.90|0.005
92240352|NCT01753076|184384170|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.642|TWO_SIDED|95.0|0.81|1.42|||Regression, Cox|||||1.42|0.81|0.642
92378829|NCT02193087|184660428|NON_INFERIORITY_OR_EQUIVALENCE|Based on the Two One-Sided Tests (TOST) with α=0.05, if the 90% CI for the ratio of GMT for a given dengue serotype for the comparison was within the range of 0.67 and 1, then the 2 formulations were deemed equivalent.|LS Mean Ratio|1.46|||||TWO_SIDED|90.0|1.13|1.89||||||DEN-3||1.89|1.13|
92378830|NCT02193087|184660428|NON_INFERIORITY_OR_EQUIVALENCE|Based on the Two One-Sided Tests (TOST) with α=0.05, if the 90% CI for the ratio of GMT for a given dengue serotype for the comparison was within the range of 0.67 and 1, then the 2 formulations were deemed equivalent.|LS Mean Ratio|0.74|||||TWO_SIDED|90.0|0.57|0.95||||||DEN-4||0.95|0.57|
92378831|NCT01241760|184660441|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% confidence interval of the difference in proportions was above the pre-determined non-inferiority margin of -11%, non-inferiority was established.|Difference in proportion of response, %|1.5||||||95.0|-4.9|12.0|||Regression, Logistic|The 95% confidence interval of the difference in proportions was estimated using a logistic regression model.|Observed data|||12|-4.9|
92378832|NCT01636713|184660450|SUPERIORITY_OR_OTHER||Least squares mean difference|0.151|||<|0.001|TWO_SIDED|95.0|0.11|0.191|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.191|0.110|<0.001
92378833|NCT01636713|184660450|SUPERIORITY_OR_OTHER||Least squares mean difference|0.216|||<|0.001|TWO_SIDED|95.0|0.175|0.257|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference= UMEC/VI 125/25 µg minus Placebo.|||0.257|0.175|<0.001
92378834|NCT02117349|184660458|OTHER||Odds Ratio (OR)|42.8|||=|0.001|TWO_SIDED|95.0|4.58|401.0||Study was terminated early at 55 randomized subjects, therefore p-value is considered nominal|Regression, Logistic|||Odds Ratio (OR) and Wald-based 95% Confidence intervals (CIs) are from logistic regression model comparing the response between treatment arms.||401.0|4.58|= 0.0010
92378835|NCT02033213|184660461|SUPERIORITY_OR_OTHER|||||||0.41||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement was assessed at 10 minutes time point.||||0.410
92378836|NCT02033213|184660461|SUPERIORITY_OR_OTHER|||||||0.621||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement was assessed at 6 hours time point.||||0.621
92378837|NCT02033213|184660462|SUPERIORITY_OR_OTHER|||||||0.791||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement was assessed at 10 minutes time point.||||0.791
92378838|NCT02033213|184660462|SUPERIORITY_OR_OTHER|||||||0.41||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement was assessed at 6 hours time point.||||0.410
92378839|NCT02033213|184660463|SUPERIORITY_OR_OTHER|||||||0.322||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement aws assessed at 10 minutes time point.||||0.322
92378840|NCT02033213|184660463|SUPERIORITY_OR_OTHER|||||||0.574||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement was assessed at 6 hours time point.||||0.574
92378841|NCT02033213|184660464|SUPERIORITY_OR_OTHER|||||||0.03||||||P \< 0.05 was considered significant.|t-test, 1 sided|||||||0.030
92412115|NCT01578850|184714184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.001|TWO_SIDED|95.0|-1.18|-0.38|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 36||-0.38|-1.18|<0.001
92412116|NCT01578850|184714184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|||<|0.001|TWO_SIDED|95.0|-1.35|-0.54|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 44||-0.54|-1.35|<0.001
92231397|NCT01431287|184365479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.014||0.9981|TWO_SIDED|95.0|-0.026|0.027||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.027|-0.026|0.9981
92378842|NCT02033213|184660464|SUPERIORITY_OR_OTHER|||||||0.096||||||P \< 0.05 was considered significant.|t-test, 1 sided|||||||0.096
92378843|NCT02033213|184660465|SUPERIORITY_OR_OTHER|||||||0.362|||||||t-test, 1 sided|||||||0.362
92378844|NCT02033213|184660466|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 1 sided|||||||0.020
92378845|NCT00260065|184660477|SUPERIORITY_OR_OTHER||Percentage of Participants|33.0||||||95.0|24.2|43.5||||||||43.5|24.2|
92378846|NCT00260065|184660478|SUPERIORITY_OR_OTHER||Percentage of Participants|52.0||||||95.0|41.3|61.7||||||||61.7|41.3|
92378847|NCT03780959|184660488|SUPERIORITY|||||||0.003|||||||Mantel Haenszel|Stratified by study center and the number of active joints at randomization||||||0.0030
92378848|NCT03780959|184660489|SUPERIORITY|||||||0.0001|||||||Log Rank|||||||0.0001
92378849|NCT03875664|184660516|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92378850|NCT05065190|184660529|OTHER||Adjusted difference|106.57|STANDARD_ERROR_OF_MEAN|76.84|||TWO_SIDED|95.0|-47.13|260.28|||||Adjusted difference between treatment groups was based on a random slope and intercept model with fixed effects for treatment, HRCT pattern, and baseline FVC \[mL\], and including treatment-by-time and baseline-by-time interactions.|||260.28|-47.13|
92378851|NCT04253587|184660570|EQUIVALENCE|The null hypothesis was no difference between mean change scores for time-points X conditions.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.03|=|0.016|TWO_SIDED|95.0|-0.06|0.06||Mixed effects ANOVA applied family wise error for post-hoc tests according to a priori hypothesis|ANOVA|||||0.06|-0.06|= 0.016
92378852|NCT04253587|184660571|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.035|=|0.22|TWO_SIDED|95.0|-0.03|0.03|||ANOVA|effect of condition (F1,20 = 1.616, p = 0.22), effect of time (F1,20 = 0.613, p = 0.44)||||0.03|-0.03|= 0.22
92378853|NCT04732949|184660576|OTHER||Hazard Ratio (HR)|1.06||||0.509|TWO_SIDED|95.0|0.89|1.27|||Cox proportional hazard model|||Hazard Ratio for time to hospital discharge - SNG001 vs Placebo||1.27|0.89|0.509
92378854|NCT04732949|184660577|OTHER||Hazard Ratio (HR)|1.02||||0.888|TWO_SIDED|95.0|0.81|1.28|||Cox proportional hazard model|||Hazard Ratio for time to OSCI recovery - SNG001 vs Placebo||1.28|0.81|0.888
92378855|NCT04732949|184660578|OTHER||Odds Ratio (OR)|0.71||||0.161|TWO_SIDED|95.0|0.44|1.15|||Regression, Logistic|||Odds Ratio for progression to severe disease or death - SNG001 vs Placebo||1.15|0.44|0.161
92378856|NCT04732949|184660579|OTHER||Odds Ratio (OR)|0.85||||0.61|TWO_SIDED|95.0|0.45|1.61|||Regression, Logistic|||Odds Ratio for intubation or death - SNG001 vs Placebo||1.61|0.45|0.610
92378857|NCT04732949|184660580|OTHER||Odds Ratio (OR)|0.79||||0.544|TWO_SIDED|95.0|0.38|1.67|||Regression, Logistic|||Odds Ratio for death - SNG001 vs Placebo||1.67|0.38|0.544
92378858|NCT04732949|184660581|OTHER||Odds Ratio (OR)|1.18||||0.323|TWO_SIDED|95.0|0.85|1.64|||Regression, Logistic|||Odds Ratio for hospital discharge (Day 7) - SNG001 vs Placebo||1.64|0.85|0.323
92378859|NCT04732949|184660581|OTHER||Odds Ratio (OR)|1.17||||0.406|TWO_SIDED|95.0|0.81|1.7|||Regression, Logistic|||Odds Ratio for hospital discharge (Day 14) - SNG001 vs Placebo||1.70|0.81|0.406
92378860|NCT04732949|184660581|OTHER||Odds Ratio (OR)|0.96||||0.828|TWO_SIDED|95.0|0.64|1.43|||Regression, Logistic|||Odds Ratio for hospital discharge (Day 21) - SNG001 vs Placebo||1.43|0.64|0.828
92231398|NCT01431287|184365479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.013||0.148|TWO_SIDED|95.0|-0.007|0.046||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.046|-0.007|0.1480
92231399|NCT01431287|184365480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.04|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.090|0.040|<0.0001
92231400|NCT01431287|184365480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.036|STANDARD_ERROR_OF_MEAN|0.013||0.005|TWO_SIDED|95.0|0.011|0.061||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.061|0.011|0.0050
92231401|NCT01431287|184365480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.039|0.089||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.089|0.039|<0.0001
92231402|NCT01431287|184365480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.037|0.088||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.088|0.037|<0.0001
92231403|NCT01431287|184365480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.036|STANDARD_ERROR_OF_MEAN|0.013||0.0057|TWO_SIDED|95.0|0.01|0.061||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.061|0.010|0.0057
92231404|NCT01431287|184365480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.013||0.9633|TWO_SIDED|95.0|-0.025|0.026||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.026|-0.025|0.9633
92231405|NCT01431287|184365480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.038|0.088||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.088|0.038|<0.0001
92231406|NCT01431287|184365480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.029|STANDARD_ERROR_OF_MEAN|0.013||0.025|TWO_SIDED|95.0|0.004|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.054|0.004|0.0250
92231407|NCT01431287|184365480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.002|STANDARD_ERROR_OF_MEAN|0.013||0.8949|TWO_SIDED|95.0|-0.023|0.027||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.027|-0.023|0.8949
92231408|NCT01431287|184365480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.027|STANDARD_ERROR_OF_MEAN|0.013||0.0351|TWO_SIDED|95.0|0.002|0.052||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.052|0.002|0.0351
92231409|NCT01431287|184365481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.055|0.105||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.105|0.055|<0.0001
92240353|NCT01753076|184384171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|||||TWO_SIDED|95.0|-0.062|0.053||||||||0.053|-0.062|
92240354|NCT01753076|184384172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-2.8|5.5||||||||5.5|-2.8|
92378861|NCT04732949|184660581|OTHER||Odds Ratio (OR)|0.92||||0.706|TWO_SIDED|95.0|0.61|1.4|||Regression, Logistic|||Odds Ratio for hospital discharge (Day 28) - SNG001 vs Placebo||1.40|0.61|0.706
92378862|NCT04732949|184660582|OTHER||Odds Ratio (OR)|1.71||||0.101|TWO_SIDED|95.0|0.9|3.22|||Regression, Logistic|||Odds Ratio for OSCI recovery (Day 7) - SNG001 vs Placebo||3.22|0.90|0.101
92378863|NCT04732949|184660582|OTHER||Odds Ratio (OR)|0.99||||0.942|TWO_SIDED|95.0|0.67|1.45|||Regression, Logistic|||Odds Ratio for OSCI recovery (Day 14) - SNG001 vs Placebo||1.45|0.67|0.942
92378864|NCT04732949|184660582|OTHER||Odds Ratio (OR)|0.96||||0.824|TWO_SIDED|95.0|0.68|1.35|||Regression, Logistic|||Odds Ratio for OSCI recovery (Day 21) - SNG001 vs Placebo||1.35|0.68|0.824
92378865|NCT04732949|184660582|OTHER||Odds Ratio (OR)|0.92||||0.613|TWO_SIDED|95.0|0.66|1.28|||Regression, Logistic|||Odds Ratio for OSCI recovery (Day 28) - SNG001 vs Placebo||1.28|0.66|0.613
92412117|NCT01578850|184714184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|||<|0.001|TWO_SIDED|95.0|-1.33|-0.53|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 52||-0.53|-1.33|<0.001
92378866|NCT04732949|184660584|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.41|TWO_SIDED|95.0|-0.1|0.3|||Mixed Models Analysis|||SNG001 vs Placebo||0.3|-0.1|0.410
92378867|NCT01023672|184660594|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||The analysis was done per protocol (n=17)||||0.003
92378868|NCT02905006|184660626|SUPERIORITY||||||<|0.0001||||||P-value evaluating dose response excludes the BKZ Dose 3 group; is based on a logistic regression model with fixed effects for region, prior biologic exposure, continuous treatment variable with values of -2, -1, 0, 1, 2 for the remaining groups.|Regression, Logistic|||||||<0.0001
92378869|NCT02905006|184660626|SUPERIORITY||||||<|0.0001||||||P-value evaluating dose response excludes the BKZ Dose 3 group; is based on a logistic regression model with fixed effects for region, prior biologic exposure, continuous treatment variable with values of -2, -1, 0, 1, 2 for the remaining groups.|Regression, Logistic|||||||<0.0001
92378870|NCT02905006|184660626|SUPERIORITY||||||<|0.0001||||||P-value evaluating dose response excludes the BKZ Dose 3 group; is based on a logistic regression model with fixed effects for region, prior biologic exposure, continuous treatment variable with values of -2, -1, 0, 1, 2 for the remaining groups.|Regression, Logistic|||||||<0.0001
92378871|NCT02905006|184660626|SUPERIORITY||||||<|0.0001||||||P-value evaluating dose response excludes the BKZ Dose 3 group; is based on a logistic regression model with fixed effects for region, prior biologic exposure, continuous treatment variable with values of -2, -1, 0, 1, 2 for the remaining groups.|Regression, Logistic|||||||<0.0001
92378872|NCT02905006|184660627|SUPERIORITY||Odds Ratio (OR)|21.43|||=|0.0001|TWO_SIDED|95.0|4.51|101.88|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||101.88|4.51|=0.0001
92378873|NCT02905006|184660627|SUPERIORITY||Odds Ratio (OR)|63.21|||<|0.0001|TWO_SIDED|95.0|12.9|309.83|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||309.83|12.90|<0.0001
92378874|NCT02905006|184660627|SUPERIORITY||Odds Ratio (OR)|62.35|||<|0.0001|TWO_SIDED|95.0|12.61|308.29|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||308.29|12.61|<0.0001
92378875|NCT02905006|184660627|SUPERIORITY||Odds Ratio (OR)|130.35|||<|0.0001|TWO_SIDED|95.0|24.5|693.51|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||693.51|24.50|<0.0001
92378876|NCT02905006|184660627|SUPERIORITY||Odds Ratio (OR)|69.4|||<|0.0001|TWO_SIDED|95.0|14.07|342.4|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||342.40|14.07|<0.0001
92378877|NCT02905006|184660628|SUPERIORITY||Odds Ratio (OR)|18.23|||=|0.0003|TWO_SIDED|95.0|3.79|87.76|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||87.76|3.79|=0.0003
92378878|NCT02905006|184660628|SUPERIORITY||Odds Ratio (OR)|39.6|||<|0.0001|TWO_SIDED|95.0|8.19|191.59|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||191.59|8.19|<0.0001
92378879|NCT02905006|184660628|SUPERIORITY||Odds Ratio (OR)|77.27|||<|0.0001|TWO_SIDED|95.0|15.19|392.93|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||392.93|15.19|<0.0001
92378880|NCT02905006|184660628|SUPERIORITY||Odds Ratio (OR)|141.99|||<|0.0001|TWO_SIDED|95.0|26.26|767.72|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||767.72|26.26|<0.0001
92378881|NCT02905006|184660628|SUPERIORITY||Odds Ratio (OR)|58.52|||<|0.0001|TWO_SIDED|95.0|11.89|288.0|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||288.00|11.89|<0.0001
92378882|NCT02905006|184660629|SUPERIORITY||||||<|0.0001||||||The placebo treatment group contained no PASI90 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.|Fisher Exact|||||||<0.0001
92378883|NCT02905006|184660629|SUPERIORITY||||||<|0.0001||||||The placebo treatment group contained no PASI90 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.|Fisher Exact|||||||<0.0001
92378884|NCT02905006|184660629|SUPERIORITY||||||<|0.0001||||||The placebo treatment group contained no PASI90 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.|Fisher Exact|||||||<0.0001
92378885|NCT02905006|184660629|SUPERIORITY||||||<|0.0001||||||The placebo treatment group contained no PASI90 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.|Fisher Exact|||||||<0.0001
92378886|NCT02905006|184660629|SUPERIORITY||||||<|0.0001||||||The placebo treatment group contained no PASI90 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.|Fisher Exact|||||||<0.0001
92378887|NCT02905006|184660630|SUPERIORITY||Odds Ratio (OR)|32.65|||<|0.0001|TWO_SIDED|95.0|6.82|156.38|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||156.38|6.82|<0.0001
92412118|NCT01578850|184714186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.048|TWO_SIDED|95.0|-1.0|-0.01|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 28||-0.01|-1.00|0.048
92412119|NCT01578850|184714186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|||<|0.001|TWO_SIDED|95.0|-1.44|-0.43|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 36||-0.43|-1.44|<0.001
92412120|NCT01578850|184714186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.001|TWO_SIDED|95.0|-1.33|-0.33|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 44||-0.33|-1.33|0.001
92378888|NCT02905006|184660630|SUPERIORITY||Odds Ratio (OR)|94.51|||<|0.0001|TWO_SIDED|95.0|18.54|481.86|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||481.86|18.54|<0.0001
92378889|NCT02905006|184660630|SUPERIORITY||Odds Ratio (OR)|117.66|||<|0.0001|TWO_SIDED|95.0|22.08|626.89|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||626.89|22.08|<0.0001
92378890|NCT02905006|184660630|SUPERIORITY||Odds Ratio (OR)|280.76|||<|0.0001|TWO_SIDED|95.0|44.06|1789.24|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||1789.24|44.06|<0.0001
92412121|NCT01578850|184714186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.002|TWO_SIDED|95.0|-1.33|-0.31|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 52||-0.31|-1.33|0.002
92412122|NCT01578850|184714188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.11||||0.033|TWO_SIDED|95.0|-27.07|-1.16|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 28||-1.16|-27.07|0.033
92412123|NCT01578850|184714188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.04||||0.013|TWO_SIDED|95.0|-30.39|-3.68|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 36||-3.68|-30.39|0.013
92412124|NCT01578850|184714188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.54||||0.019|TWO_SIDED|95.0|-30.35|-2.73|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 44||-2.73|-30.35|0.019
92412125|NCT01578850|184714188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.66||||0.007|TWO_SIDED|95.0|-33.78|-5.54|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 52||-5.54|-33.78|0.007
92412126|NCT01578850|184714190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.21||||0.078|TWO_SIDED|95.0|-8.91|0.48|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||General Health VAS: Week 28||0.48|-8.91|0.078
92412127|NCT01578850|184714190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.54||||0.003|TWO_SIDED|95.0|-12.49|-2.59|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||General Health VAS: Week 36||-2.59|-12.49|0.003
92412128|NCT01578850|184714190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.19||||0.001|TWO_SIDED|95.0|-13.2|-3.18|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||General Health VAS: Week 44||-3.18|-13.20|0.001
92412129|NCT01578850|184714190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6|||<|0.001|TWO_SIDED|95.0|-13.64|-3.55|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||General Health VAS: Week 52||-3.55|-13.64|<0.001
92412130|NCT01578850|184714190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.91||||0.017|TWO_SIDED|95.0|-10.75|-1.06|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Pain VAS: Week 28||-1.06|-10.75|0.017
92412131|NCT01578850|184714190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6||||0.001|TWO_SIDED|95.0|-13.85|-3.34|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Pain VAS: Week 36||-3.34|-13.85|0.001
92412132|NCT01578850|184714190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.49|||<|0.001|TWO_SIDED|95.0|-14.72|-4.26|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Pain VAS: Week 44||-4.26|-14.72|<0.001
92412133|NCT01578850|184714190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.29|||<|0.001|TWO_SIDED|95.0|-14.6|-3.99|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Pain VAS: Week 52||-3.99|-14.60|<0.001
92378891|NCT02905006|184660630|SUPERIORITY||Odds Ratio (OR)|107.83|||<|0.0001|TWO_SIDED|95.0|20.82|558.57|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||558.57|20.82|<0.0001
92412134|NCT01578850|184714192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.22||||0.014|TWO_SIDED|95.0|-9.39|-1.05|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CRP: Week 28||-1.05|-9.39|0.014
92412135|NCT01578850|184714192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.27||||0.011|TWO_SIDED|95.0|-11.09|-1.46|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CRP: Week 36||-1.46|-11.09|0.011
92412136|NCT01578850|184714192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.75|||<|0.001|TWO_SIDED|95.0|-12.06|-3.44|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CRP: Week 44||-3.44|-12.06|<0.001
92412137|NCT01578850|184714192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.16||||0.001|TWO_SIDED|95.0|-11.48|-2.85|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CRP: Week 52||-2.85|-11.48|0.001
92231410|NCT01431287|184365481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.013||0.0002|TWO_SIDED|95.0|0.022|0.073||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.073|0.022|0.0002
92231411|NCT01431287|184365481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.051|0.101||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.101|0.051|<0.0001
92231412|NCT01431287|184365481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.061|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.036|0.086||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.086|0.036|<0.0001
92231413|NCT01431287|184365481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.044|STANDARD_ERROR_OF_MEAN|0.013||0.0007|TWO_SIDED|95.0|0.018|0.069||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.069|0.018|0.0007
92378892|NCT02905006|184660631|SUPERIORITY||||||=|0.0001|||||||Fisher Exact|||The placebo treatment group contained no PASI100 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.||||=0.0001
92378893|NCT02905006|184660631|SUPERIORITY||||||=|0.0002|||||||Fisher Exact|||The placebo treatment group contained no PASI100 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.||||=0.0002
92412138|NCT01578850|184714192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.86|||<|0.001|TWO_SIDED|95.0|-9.23|-2.49|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ESR: Week 28||-2.49|-9.23|<0.001
92412139|NCT01578850|184714192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.69|||<|0.001|TWO_SIDED|95.0|-12.33|-5.05|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ESR: Week 36||-5.05|-12.33|<0.001
92378894|NCT02905006|184660631|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||The placebo treatment group contained no PASI100 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.||||<0.0001
92378895|NCT02905006|184660631|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||The placebo treatment group contained no PASI100 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.||||<0.0001
92412140|NCT01578850|184714192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.59|||<|0.001|TWO_SIDED|95.0|-11.38|-3.8|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ESR: Week 44||-3.80|-11.38|<0.001
92412141|NCT01578850|184714192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.32|||<|0.001|TWO_SIDED|95.0|-10.03|-2.6|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ESR: Week 52||-2.60|-10.03|<0.001
92412142|NCT01818752|184714195|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.906||||0.159|TWO_SIDED|95.0|0.746|1.101||The p-value boundary for PFS analysis was 0.02141.|Log Rank|Log-rank p-value (1-sided) stratified by ISS stage, choice of route of bortezomib administration, region and age.|The hazard ratio (Carfilzomib/Bortezomib) was estimated using a Cox proportional hazards model stratified by ISS stage, choice of route of bortezomib administration, region and age.|The inferential test associated with the primary analysis of PFS was assessed against an overall 1-sided significance level of α=0.025.||1.101|0.746|0.1590
92231414|NCT01431287|184365481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.004|STANDARD_ERROR_OF_MEAN|0.013||0.7755|TWO_SIDED|95.0|-0.022|0.029||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.029|-0.022|0.7755
92240355|NCT02985450|184384191|OTHER||Mean Difference (Final Values)|513.5|STANDARD_DEVIATION|73.6||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Anti-HBs levels difference: high risk obesity group - low risk obesity group NAFLD patients|||||0.02
92412143|NCT01818752|184714196|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.211||||0.8934|TWO_SIDED|95.0|0.896|1.637||Based on the pre-specified multiplicity adjustment method, secondary endpoints were to be tested only if the results of the primary endpoint were significant. The p-values for all secondary endpoints are descriptive only.|Log Rank|Log-rank p-value (1-sided) stratified by ISS stage, choice of route of bortezomib administration, region and age.|The hazard ratio (Carfilzomib/Bortezomib) was estimated using a Cox proportional hazards model stratified by ISS stage, choice of route of bortezomib administration, region and age.|||1.637|0.896|0.8934
92231415|NCT01431287|184365481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.039|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.090|0.039|<0.0001
92231416|NCT01431287|184365481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.032|STANDARD_ERROR_OF_MEAN|0.013||0.0118|TWO_SIDED|95.0|0.007|0.058||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.058|0.007|0.0118
92231417|NCT01431287|184365481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.015|STANDARD_ERROR_OF_MEAN|0.013||0.2416|TWO_SIDED|95.0|-0.01|0.04||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.040|-0.010|0.2416
92231418|NCT01431287|184365481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.013||0.1792|TWO_SIDED|95.0|-0.008|0.043||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.043|-0.008|0.1792
92231419|NCT01431287|184365482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.074|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.125|0.074|<0.0001
92231420|NCT01431287|184365482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.059|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.033|0.084||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.084|0.033|<0.0001
92378896|NCT02905006|184660631|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||The placebo treatment group contained no PASI100 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.||||<0.0001
92378897|NCT04375397|184660731|SUPERIORITY||Adjusted risk difference (%)|5.8|||=|0.599|TWO_SIDED|80.0|-9.2|20.4|||Miettinen-Nurminen method||Ibrutinib 420 mg + SOC - Placebo + SOC Miettinen-Nurminen (MN) CI for the adjusted risk difference across strata|The difference in response rates between the experimental arm and the control arm were analyzed using the Miettinen-Nurminen (MN) method, adjusting for the stratification factor of prescription for remdesivir. The MN test p-value for testing the rate difference = 0 at two-sided alpha = 0.2.||20.4|-9.2|=0.599
92231421|NCT01431287|184365482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.082|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.057|0.107||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.107|0.057|<0.0001
92231422|NCT01431287|184365482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.013||0.0002|TWO_SIDED|95.0|0.023|0.073||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.073|0.023|0.0002
92231423|NCT01431287|184365482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.041|STANDARD_ERROR_OF_MEAN|0.013||0.0014|TWO_SIDED|95.0|0.016|0.067||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.067|0.016|0.0014
92240356|NCT00069576|184384193|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87||||0.14|TWO_SIDED|97.0|0.72|1.07|||Chi-squared|||For Total Composite End Point||1.07|0.72|0.14
92378898|NCT04375397|184660731|SUPERIORITY||Adjusted risk difference (%)|5.8|||=|0.599|TWO_SIDED|95.0|-18.1|28.7|||Miettinen-Nurminen method||Ibrutinib 420 mg + SOC - Placebo + SOC Miettinen-Nurminen (MN) CI for the adjusted risk difference across strata|The difference in response rates between the experimental arm and the control arm were analyzed using the Miettinen-Nurminen (MN) method, adjusting for the stratification factor of prescription for remdesivir. The MN test p-value for testing the rate difference = 0 at twosided alpha = 0.2.||28.7|-18.1|=0.599
92231424|NCT01431287|184365482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.013||0.1747|TWO_SIDED|95.0|-0.008|0.043||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.043|-0.008|0.1747
92231425|NCT01431287|184365482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.04|0.091||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.091|0.040|<0.0001
92378899|NCT04375397|184660732|SUPERIORITY||Odds Ratio (OR)|1.17|||=|0.886|TWO_SIDED|95.0|0.13|10.44|||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = -3~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"||10.44|0.13|=0.886
92378900|NCT04375397|184660732|SUPERIORITY||Odds Ratio (OR)|0.64|||=|0.705|TWO_SIDED|95.0|0.06|6.43|||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = -2~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"||6.43|0.06|=0.705
92378901|NCT04375397|184660732|SUPERIORITY||Odds Ratio (OR)|0.0|||=|0.996|TWO_SIDED|95.0|0.0||The upper limit of this 95% CI is infinite.||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = -1~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"|||0.00|=0.996
92378902|NCT04375397|184660732|SUPERIORITY||Odds Ratio (OR)|1.07|||=|0.969|TWO_SIDED|95.0|0.04|32.18|||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = 0~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"||32.18|0.04|=0.969
92378903|NCT04375397|184660732|SUPERIORITY||Odds Ratio (OR)|1.07|||=|0.969|TWO_SIDED|95.0|0.04|32.18|||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = 1~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"||32.18|0.04|=0.969
92378904|NCT04375397|184660732|SUPERIORITY||Odds Ratio (OR)|1.07|||=|0.969|TWO_SIDED|95.0|0.04|32.18|||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = 3~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"||32.18|0.04|=0.969
92231426|NCT01431287|184365482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.041|STANDARD_ERROR_OF_MEAN|0.013||0.0016|TWO_SIDED|95.0|0.016|0.066||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.066|0.016|0.0016
92378905|NCT04375397|184660733|SUPERIORITY||Difference in Medians|-1.5|||=|0.801|TWO_SIDED||||||Van Elteren's test||Ibrutinib 420 mg + SOC - Placebo + SOC|Median days spent on supplemental oxygen was compared between treatment groups using Van Elteren's test with the stratification factor of prescription for remdesivir.||||=0.801
92378906|NCT04375397|184660734|SUPERIORITY||Mortality rate difference|0.0|||=|1|TWO_SIDED|80.0|-6.7|7.3|||Miettinen-Nurminen|||"At Day 7-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||7.3|-6.7|=1.000
92378907|NCT04375397|184660734|SUPERIORITY||Mortality rate difference|0.0|||=|1|TWO_SIDED|95.0|-14.4|15.5|||Miettinen-Nurminen|||"At Day 7-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||15.5|-14.4|=1.000
92240357|NCT00069576|184384193|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06||||0.75|TWO_SIDED|97.0|0.73|1.53|||Chi-squared|||Analysis for Hypoglycemia||1.53|0.73|0.75
92378908|NCT04375397|184660734|SUPERIORITY||Mortality rate difference|0.0|||=|1|TWO_SIDED|80.0|-6.7|7.3|||Miettinen-Nurminen|||"At Day 14-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||7.3|-6.7|=1.000
92378909|NCT04375397|184660734|SUPERIORITY||Mortality rate difference|0.0|||=|1|TWO_SIDED|95.0|-14.4|15.5|||Miettinen-Nurminen|||"At Day 14-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||15.5|-14.4|=1.000
92378910|NCT04375397|184660734|SUPERIORITY||Mortality rate difference|4.8|||=|0.267|TWO_SIDED|80.0|-1.7|14.8|||Miettinen-Nurminen|||"At Day 21-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||14.8|-1.7|=0.267
92412144|NCT01818752|184714197|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.412||||0.0218|TWO_SIDED|95.0|1.01|1.973||Based on the pre-specified multiplicity adjustment method, secondary endpoints were to be tested only if the results of the primary endpoint were significant. The p-values for all secondary endpoints are descriptive only.|Stratified Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Chi-square test stratified by ISS stage, choice of route of bortezomib administration, region and age.|Odds ratio (Carfilzomib/Bortezomib) was estimated using the Mantel-Haenszel method stratified by ISS stage, choice of route of bortezomib administration, region and age.|||1.973|1.010|0.0218
92412145|NCT01818752|184714198|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.179||||0.1388|TWO_SIDED|95.0|0.875|1.589||Based on the pre-specified multiplicity adjustment method, secondary endpoints were to be tested only if the results of the primary endpoint were significant. The p-values for all secondary endpoints are descriptive only.|Stratified Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Chi-square test stratified by ISS stage, choice of route of bortezomib administration, region and age.|Odds ratio (Carfilzomib/Bortezomib) was estimated using the Mantel-Haenszel method stratified by ISS stage, choice of route of bortezomib administration, region and age.|||1.589|0.875|0.1388
92412146|NCT01818752|184714199|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.048|||<|0.0001|TWO_SIDED|95.0|0.026|0.088||Based on the pre-specified multiplicity adjustment method, secondary endpoints were to be tested only if the results of the primary endpoint were significant. The p-values for all secondary endpoints are descriptive only.|Pearson Chi-Square test||Unstratified odds ratio (Carfilzomib/Bortezomib) was estimated.|||0.088|0.026|< 0.0001
92412147|NCT01818752|184714200|SUPERIORITY_OR_OTHER||Least squares mean difference|4.99|STANDARD_ERROR_OF_MEAN|0.773|<|0.0001|TWO_SIDED|95.0|3.48|6.51||Based on the pre-specified multiplicity adjustment method, secondary endpoints were to be tested only if the results of the primary endpoint were significant. The p-values for all secondary endpoints are descriptive only.|Mixed Effects Model for Repeated Measure|||Treatment groups were compared using a linear mixed model for repeated measures (MMRM). The model included the fixed, categorical effects of treatment (all baseline responses were modeled with a dummy treatment), the randomization stratification factors - ISS stage, choice of route of bortezomib administration, region, age, and random effects of subject intercept and coefficient on time.||6.51|3.48|< 0.0001
92240358|NCT00069576|184384193|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.74||||0.12|TWO_SIDED|97.0|0.49|1.12|||Chi-squared|||Analysis for hyperbilirubinemia||1.12|0.49|0.12
92378911|NCT04375397|184660734|SUPERIORITY||Mortality rate difference|4.8|||=|0.267|TWO_SIDED|95.0|-9.6|22.8|||Miettinen-Nurminen|||"At Day 21-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||22.8|-9.6|=0.267
92378912|NCT04375397|184660734|SUPERIORITY||Mortality rate difference|4.8|||=|0.267|TWO_SIDED|80.0|-1.7|14.8|||Miettinen-Nurminen|||"At Day 28-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||14.8|-1.7|=0.267
92378913|NCT04375397|184660734|SUPERIORITY||Mortality rate difference|4.8|||=|0.267|TWO_SIDED|95.0|-9.6|22.8|||Miettinen-Nurminen|||"At Day 28-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||22.8|-9.6|=0.267
92378914|NCT04375397|184660735|SUPERIORITY||Adjusted risk difference (%)|-10.7|||=|0.314|TWO_SIDED|80.0|-24.8|3.3|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 7~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||3.3|-24.8|=0.314
92378915|NCT04375397|184660735|SUPERIORITY||Adjusted risk difference (%)|-10.7|||=|0.314|TWO_SIDED|95.0|-32.8|12.0|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 7~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||12.0|-32.8|=0.314
92378916|NCT04375397|184660735|SUPERIORITY||Adjusted risk difference (%)|-10.7|||=|0.314|TWO_SIDED|80.0|-24.8|3.3|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 14~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||3.3|-24.8|=0.314
92378917|NCT04375397|184660735|SUPERIORITY||Adjusted risk difference (%)|-10.7|||=|0.314|TWO_SIDED|95.0|-32.8|12.0|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 14~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||12.0|-32.8|=0.314
92412148|NCT03508908|184714215|OTHER||US dollars per DALY averted|3098.0|||||TWO_SIDED||||||||Cost (in US dollars) per DALY averted (Intervention referenced to Observation)|Cost (in US dollars) per DALY averted (Intervention referenced to Observation)||||
92412149|NCT02872285|184714263|SUPERIORITY||Mean Difference (Final Values)|-12.8||||0.2205|TWO_SIDED|95.0|-33.793|8.199||ANCOVA was used to compare mean percent change in PASI score between baseline and Week 12 between LYC-30937 and placebo treatment groups with treatment as a factor and baseline as a covariate.|ANCOVA|||Subjects included in this analysis had to have both a baseline and Week 12 PASI scores.||8.199|-33.793|0.2205
92412150|NCT02872285|184714264|SUPERIORITY|||||||0.4712|||||||Chi-squared|2-sided p-value.||||||0.4712
92412151|NCT02872285|184714265|SUPERIORITY||Mean Difference (Final Values)|-5.34||||0.6695|TWO_SIDED|95.0|-30.87|20.18|||ANCOVA|||||20.18|-30.87|0.6695
92412152|NCT02872285|184714266|SUPERIORITY|||||||0.4712||||||2-sided p-value|Chi-squared|||||||0.4712
92412153|NCT02872285|184714267|SUPERIORITY|||||||0.4712||||||2-sided p-value|Chi-squared|||||||0.4712
92240359|NCT00069576|184384193|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.78||||0.07|TWO_SIDED|97.0|0.57|1.05|||Chi-squared|||Analysis for elevated cord-blood C-peptide level||1.05|0.57|0.07
92412154|NCT05477108|184714268|EQUIVALENCE|For Cmax, the intra-participant CV% in Treatment B (reference arm) was 42.91. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.1028 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|104.24|||||TWO_SIDED|90.0|95.78|113.44|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Budesonide Pharmacokinetic Parameters (US approach)||113.44|95.78|
92412155|NCT05477108|184714268|EQUIVALENCE|For Cmax, the intra-participant CV% in Treatment B (reference arm) was 40.85. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.0831 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|93.45|||||TWO_SIDED|90.0|84.31|103.58|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Glycopyrronium Pharmacokinetic Parameters (US approach)||103.58|84.31|
92412156|NCT05477108|184714268|EQUIVALENCE|For Cmax, the intra-participant CV% in Treatment B (reference arm) was 40.66. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.0971 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|100.14|||||TWO_SIDED|90.0|91.9|109.11|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Formoterol Pharmacokinetic Parameters (US approach)||109.11|91.90|
92412157|NCT05477108|184714268|EQUIVALENCE|For Cmax, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. The intra-participant CV% in Treatment B (reference arm) was 42.66. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were within the expanded equivalence limits of 73.29% to 136.44% and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|103.12|||||TWO_SIDED|90.0|94.44|112.6|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Budesonide Pharmacokinetic Parameters (EU approach)||112.60|94.44|
92412158|NCT05477108|184714268|EQUIVALENCE|For Cmax, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. The intra-participant CV% in Treatment B (reference arm) was 40.75. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were within the expanded equivalence limits of 74.24% to 134.70% and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|93.39|||||TWO_SIDED|90.0|85.29|102.26|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Glycopyrronium Pharmacokinetic Parameters (EU approach)||102.26|85.29|
92412159|NCT05477108|184714268|EQUIVALENCE|For Cmax, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. The intra-participant CV% in Treatment B (reference arm) was 40.81. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were within the expanded equivalence limits of 74.21% to 134.75% and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|99.7|||||TWO_SIDED|90.0|91.44|108.71|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Formoterol Pharmacokinetic Parameters (EU approach)||108.71|91.44|
92412160|NCT05477108|184714269|EQUIVALENCE|For AUCinf, the intra-participant CV% in Treatment B (reference arm) was 34.29. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.0593 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|107.76|||||TWO_SIDED|90.0|100.35|115.72|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Budesonide Pharmacokinetic Parameters (US approach)||115.72|100.35|
92412161|NCT05477108|184714269|EQUIVALENCE|For AUCinf, the intra-participant CV% in Treatment B (reference arm) was 86.08. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.2925 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Ratio Mean (%)|112.22|||||TWO_SIDED|90.0|92.27|136.49|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Glycopyrronium Pharmacokinetic Parameters (US approach)||136.49|92.27|
92412162|NCT05477108|184714269|EQUIVALENCE|For AUCinf, the intra-participant CV% in Treatment B (reference arm) was 47.07. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.1250 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|101.45|||||TWO_SIDED|90.0|91.76|112.15|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Formoterol Pharmacokinetic Parameters (US approach)||112.15|91.76|
92231427|NCT01431287|184365482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.034|STANDARD_ERROR_OF_MEAN|0.013||0.0081|TWO_SIDED|95.0|0.009|0.06||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.060|0.009|0.0081
92240360|NCT00069576|184384193|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.48||||0.33|TWO_SIDED|97.0|0.1|2.2|||Chi-squared|||Analysis for birth trauma||2.20|0.10|0.33
92412163|NCT05477108|184714270|EQUIVALENCE|For AUClast, the intra-participant CV% in Treatment B (reference arm) was 35.68. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.0668 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|106.87|||||TWO_SIDED|90.0|99.3|115.01|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Budesonide Pharmacokinetic Parameters (US approach)||115.01|99.30|
92240361|NCT00069576|184384194|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.68|1.28||||||||1.28|0.68|
92412164|NCT05477108|184714270|EQUIVALENCE|For AUClast, the intra-participant CV% in Treatment B (reference arm) was 74.17. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.2735 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|102.02|||||TWO_SIDED|90.0|89.12|116.79|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Glycopyrronium Pharmacokinetic Parameters (US approach)||116.79|89.12|
92231428|NCT01431287|184365482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.007|STANDARD_ERROR_OF_MEAN|0.013||0.611|TWO_SIDED|95.0|-0.019|0.032||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.032|-0.019|0.6110
92378918|NCT04375397|184660735|SUPERIORITY||Adjusted risk difference (%)|-5.8|||=|0.599|TWO_SIDED|80.0|-20.4|9.2|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 21~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||9.2|-20.4|=0.599
92378919|NCT04375397|184660735|SUPERIORITY||Adjusted risk difference (%)|-5.8|||=|0.599|TWO_SIDED|95.0|-28.7|18.1|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 21~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||18.1|-28.7|=0.599
92378920|NCT04375397|184660735|SUPERIORITY||Adjusted risk difference (%)|-5.8|||=|0.599|TWO_SIDED|80.0|-20.4|9.2|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 28~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||9.2|-20.4|=0.599
92378921|NCT04375397|184660735|SUPERIORITY||Adjusted risk difference (%)|-5.8|||=|0.599|TWO_SIDED|95.0|-28.7|18.1|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 28~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||18.1|-28.7|=0.599
92378922|NCT04375397|184660736|SUPERIORITY||||||=|0.851|||||||Log Rank|||For the analysis of mechanical ventilation-free survival, the distribution of time to event was estimated by treatment group using Kaplan-Meier methodology and compared between the experimental arm and the control arm using the log-rank test stratified by prescription for remdesivir.||||=0.851
92412165|NCT05477108|184714270|EQUIVALENCE|For AUClast, the intra-participant CV% in Treatment B (reference arm) was 66.88. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.2210 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|107.76|||||TWO_SIDED|90.0|94.91|122.36|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Formoterol Pharmacokinetic Parameters (US approach)||122.36|94.91|
92231429|NCT01431287|184365483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.085|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.059|0.111||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.111|0.059|<0.0001
92378923|NCT04375397|184660737|SUPERIORITY||Difference in Medians|0.0|||=|0.745|TWO_SIDED||||||Van Elteren's test||Ibrutinib 420 mg + SOC - Placebo + SOC|Median days spent on mechanical ventilation were compared between treatment groups using Van Elteren's test with the stratification factor of prescription for remdesivir.||||=0.745
92240362|NCT00069576|184384195|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49|||<|0.001|TWO_SIDED|97.0|0.32|0.76|||Chi-squared|||||0.76|0.32|<0.001
92412166|NCT05477108|184714270|EQUIVALENCE|For AUClast, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were fully contained within the predefined equivalence limits of 80% to 125%.|Geometric Mean ratio (%)|106.1|||||TWO_SIDED|90.0|98.39|114.41|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Budesonide Pharmacokinetic Parameters (EU approach)||114.41|98.39|
92412167|NCT05477108|184714270|EQUIVALENCE|For AUClast, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were fully contained within the predefined equivalence limits of 80% to 125%.|Geometric Mean Ratio (%)|97.02|||||TWO_SIDED|90.0|84.18|111.82|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Glycopyrronium Pharmacokinetic Parameters (EU approach)||111.82|84.18|
92240363|NCT00069576|184384196|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.41|||<|0.001|TWO_SIDED|97.0|0.26|0.66|||Chi-squared|||||0.66|0.26|<0.001
92378924|NCT04375397|184660738|SUPERIORITY||Difference in Medians|-0.5|||=|0.977|TWO_SIDED||||||Van Elteren's test]||Ibrutinib 420 mg + SOC - Placebo + SOC|Median duration of hospitalization was compared between treatment groups using Van Elteren's test with the stratification factor of prescription for remdesivir.||||=0.977
92412168|NCT05477108|184714270|EQUIVALENCE|For AUClast, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were fully contained within the predefined equivalence limits of 80% to 125%.|Geometric Mean Ratio (%)|105.74|||||TWO_SIDED|90.0|92.59|120.75|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Formoterol Pharmacokinetic Parameters (EU approach)||120.75|92.59|
92412169|NCT01253577|184714278|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||McNemar|||||||0.0280
92412170|NCT01253577|184714279|SUPERIORITY_OR_OTHER||||||<|0.0001|ONE_SIDED|95.0|||||Fisher Exact|||||||<0.0001
92412171|NCT01253577|184714280|SUPERIORITY_OR_OTHER|||||||0.0023|TWO_SIDED|95.0|||||McNemar|||||||0.0023
92412172|NCT01065454|184714372|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-2.71||||0.1044|TWO_SIDED|95.0|-5.99|0.057||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||0.057|-5.99|0.1044
92412173|NCT01065454|184714372|SUPERIORITY_OR_OTHER_LEGACY||LSMEANS Difference|-1.38||||0.5292|TWO_SIDED|95.0|-5.71|2.94||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||2.94|-5.71|0.5292
92412174|NCT01065454|184714372|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-4.51||||0.0278|TWO_SIDED|95.0|-8.52|-0.5||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||-0.50|-8.52|0.0278
92412175|NCT01065454|184714372|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|1.8||||0.3821|TWO_SIDED|95.0|-2.25|5.84||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||5.84|-2.25|0.3821
92412176|NCT01065454|184714372|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|3.13||||0.2084|TWO_SIDED|95.0|-1.76|8.02||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||8.02|-1.76|0.2084
92412177|NCT01065454|184714372|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-1.33||||0.5442|TWO_SIDED|95.0|-5.66|3.0||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||3.00|-5.66|0.5442
92412178|NCT01065454|184714373|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|1.87|||||TWO_SIDED|95.0|-0.83|4.56||||||||4.56|-0.83|
92412179|NCT01065454|184714373|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.2|||||TWO_SIDED|95.0|-3.12|3.51||||||||3.51|-3.12|
92412180|NCT01065454|184714373|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.23|||||TWO_SIDED|95.0|-3.31|3.77||||||||3.77|-3.31|
92412181|NCT01065454|184714374|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-46.59|||||TWO_SIDED|95.0|-89.4|-3.8||||||||-3.8|-89.4|
92412182|NCT01065454|184714374|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-32.26|||||TWO_SIDED|95.0|-84.9|20.4||||||||20.4|-84.9|
92412183|NCT01065454|184714374|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-26.52|||||TWO_SIDED|95.0|-83.0|30.0||||||||30.0|-83.0|
92412184|NCT01065454|184714375|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-89.17|||||TWO_SIDED|95.0|-172.9|5.5||||||||5.5|-172.9|
92412185|NCT01065454|184714375|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-58.22|||||TWO_SIDED|95.0|-162.1|45.6||||||||45.6|-162.1|
92412186|NCT01065454|184714375|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-43.22|||||TWO_SIDED|95.0|-153.7|67.1||||||||67.1|-153.7|
92412187|NCT01065454|184714376|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-239.31|||||TWO_SIDED|95.0|-363.4|-115.3||||||||-115.3|-363.4|
92412188|NCT01065454|184714376|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-120.89|||||TWO_SIDED|95.0|-274.4|32.6||||||||32.6|-274.4|
92412189|NCT01065454|184714376|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-25.54|||||TWO_SIDED|95.0|-189.3|138.2||||||||138.2|-189.3|
92412190|NCT01065454|184714377|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-446.49|||||TWO_SIDED|95.0|-687.4|-205.6||||||||-205.6|-687.4|
92412191|NCT01065454|184714377|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-231.57|||||TWO_SIDED|95.0|-530.4|67.2||||||||67.2|-530.4|
92412192|NCT01065454|184714377|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-34.97|||||TWO_SIDED|95.0|-353.7|283.7||||||||283.7|-353.7|
92412193|NCT01065454|184714378|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-1.27|||||TWO_SIDED|95.0|-3.1|0.5||||||||0.5|-3.1|
92412194|NCT01065454|184714378|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.88|||||TWO_SIDED|95.0|-3.1|1.3||||||||1.3|-3.1|
92412195|NCT01065454|184714378|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.84|||||TWO_SIDED|95.0|-3.2|1.5||||||||1.5|-3.2|
92412196|NCT01065454|184714379|SUPERIORITY_OR_OTHER_LEGACY||LSS-MEANS Difference|-2.07|||||TWO_SIDED|95.0|-5.0|0.8||||||||0.8|-5.0|
92412197|NCT01065454|184714379|SUPERIORITY_OR_OTHER_LEGACY||LS_MEANS|1.39|||||TWO_SIDED|95.0|-2.1|4.9||||||||4.9|-2.1|
92412198|NCT01065454|184714379|SUPERIORITY_OR_OTHER_LEGACY||LS_MEANS Difference|-1.13|||||TWO_SIDED|95.0|-4.9|2.7||||||||2.7|-4.9|
92412199|NCT01065454|184714380|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.28|||||TWO_SIDED|95.0|-0.58|1.14||||||||1.14|-0.58|
92412200|NCT01065454|184714380|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.82|||||TWO_SIDED|95.0|-0.23|1.87||||||||1.87|-0.23|
92412201|NCT01065454|184714380|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.03|||||TWO_SIDED|95.0|-1.11|1.06||||||||1.06|-1.11|
92412202|NCT01065454|184714381|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-3.84|||||TWO_SIDED|95.0|-8.76|1.09||||||||1.09|-8.76|
92412203|NCT01065454|184714381|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANs Difference|-0.02|||||TWO_SIDED|95.0|-6.05|6.01||||||||6.01|-6.05|
92412204|NCT01065454|184714381|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-2.43|||||TWO_SIDED|95.0|-8.93|4.06||||||||4.06|-8.93|
92412205|NCT01065454|184714382|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.51|||||TWO_SIDED|95.0|-0.21|1.24||||||||1.24|-0.21|
92412206|NCT01065454|184714382|SUPERIORITY_OR_OTHER_LEGACY||LS_MEANS Difference|0.81|||||TWO_SIDED|95.0|-0.07|1.69||||||||1.69|-0.07|
92412207|NCT01065454|184714382|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.2|||||TWO_SIDED|95.0|-0.74|1.15||||||||1.15|-0.74|
92412208|NCT01065454|184714383|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-5.06|||||TWO_SIDED|95.0|-17.33|7.22||||||||7.22|-17.33|
92412209|NCT01065454|184714383|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.28|||||TWO_SIDED|95.0|-14.55|15.11||||||||15.11|-14.55|
92412210|NCT01065454|184714383|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-5.18|||||TWO_SIDED|95.0|-21.05|10.69||||||||10.69|-21.05|
92412211|NCT01065454|184714384|SUPERIORITY_OR_OTHER_LEGACY||LS_MEANS Difference|-4.27|||||TWO_SIDED|95.0|-21.13|12.6||||||||12.60|-21.13|
92412212|NCT01065454|184714384|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|2.78|||||TWO_SIDED|95.0|-17.59|23.16||||||||23.16|-17.59|
92412213|NCT01065454|184714384|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-4.61|||||TWO_SIDED|95.0|-26.43|17.2||||||||17.20|-26.43|
92412214|NCT01065454|184714385|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|5.29|||||TWO_SIDED|95.0|-7.38|17.95||||||||17.95|-7.38|
92412215|NCT01065454|184714385|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|6.47|||||TWO_SIDED|95.0|-9.79|22.73||||||||22.73|-9.79|
92412216|NCT01065454|184714385|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|10.35|||||TWO_SIDED|95.0|-6.14|26.84||||||||26.84|-6.14|
92412217|NCT01065454|184714386|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.15|||||TWO_SIDED|95.0|-0.55|0.24||||||||0.24|-0.55|
92412218|NCT01065454|184714386|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.17|||||TWO_SIDED|95.0|-0.34|0.67||||||||0.67|-0.34|
92412219|NCT01065454|184714386|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.06|||||TWO_SIDED|95.0|-0.45|0.56||||||||0.56|-0.45|
92231430|NCT01431287|184365483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.013||0.0001|TWO_SIDED|95.0|0.025|0.076||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.076|0.025|0.0001
92231431|NCT01431287|184365483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.077|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.051|0.102||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.102|0.051|<0.0001
92231432|NCT01431287|184365483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.069|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.044|0.095||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.095|0.044|<0.0001
92240364|NCT00069576|184384197|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||0.27|TWO_SIDED|97.0|0.53|1.23|||Chi-squared|||||1.23|0.53|0.27
92412220|NCT01065454|184714387|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|10.17|||||TWO_SIDED|95.0|-18.48|38.81||||||||38.81|-18.48|
92412221|NCT01065454|184714387|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|7.92|||||TWO_SIDED|95.0|-26.76|42.59||||||||42.59|-26.76|
92412222|NCT01065454|184714387|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-6.15|||||TWO_SIDED|95.0|-44.08|31.78||||||||31.78|-44.08|
92412223|NCT01065454|184714389|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.62|||||TWO_SIDED|95.0|-13.36|14.61||||||||14.61|-13.36|
92412224|NCT01065454|184714389|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-9.46|||||TWO_SIDED|95.0|-24.32|5.39||||||||5.39|-24.32|
92412225|NCT01065454|184714389|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-6.07|||||TWO_SIDED|95.0|-22.26|10.13||||||||10.13|-22.26|
92240365|NCT00069576|184384198|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92412226|NCT01065454|184714391|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.03|||||TWO_SIDED|95.0|-0.04|0.1||||||||0.10|-0.04|
92412227|NCT01065454|184714391|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.01|||||TWO_SIDED|95.0|-0.07|0.09||||||||0.09|-0.07|
92412228|NCT01065454|184714391|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.02|||||TWO_SIDED|95.0|-0.07|0.11||||||||0.11|-0.07|
92412229|NCT01065454|184714392|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-6.8|||||TWO_SIDED|95.0|-12.81|-0.78||||||||-0.78|-12.81|
92412230|NCT01065454|184714392|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-6.81|||||TWO_SIDED|95.0|-13.96|0.35||||||||0.35|-13.96|
92412231|NCT01065454|184714392|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-7.5|||||TWO_SIDED|95.0|-15.29|0.28||||||||0.28|-15.29|
92412232|NCT01065454|184714393|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-24.62|||||TWO_SIDED|95.0|-117.58|68.33||||||||68.33|-117.58|
92412233|NCT01065454|184714393|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-53.29|||||TWO_SIDED|95.0|-162.46|55.88||||||||55.88|-162.46|
92412234|NCT01065454|184714393|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-8.36|||||TWO_SIDED|95.0|-135.78|119.06||||||||119.06|-135.78|
92412235|NCT01065454|184714394|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-407.34|||||TWO_SIDED|95.0|-1055.23|240.54||||||||240.54|-1055.23|
92412236|NCT01065454|184714394|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-447.26|||||TWO_SIDED|95.0|-1212.74|318.22||||||||318.22|-1212.74|
92412237|NCT01065454|184714394|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-517.48|||||TWO_SIDED|95.0|-1369.48|334.53||||||||334.53|-1369.48|
92412238|NCT01065454|184714395|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.01||||||||0.01|-0.01|
92412239|NCT01065454|184714395|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.01|||||TWO_SIDED|95.0|-0.02|0.0||||||||0.00|-0.02|
92412240|NCT01065454|184714395|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.01|||||TWO_SIDED|95.0|-0.02|0.01||||||||0.01|-0.02|
92412241|NCT01065454|184714396|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.0|||||TWO_SIDED|95.0|-0.04|0.03||||||||0.03|-0.04|
92412242|NCT01065454|184714396|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.0|||||TWO_SIDED|95.0|-0.04|0.05||||||||0.05|-0.04|
92412243|NCT01065454|184714396|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.02|||||TWO_SIDED|95.0|-0.07|0.03||||||||0.03|-0.07|
92412244|NCT01065454|184714397|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANSA Difference|-14.13|||||TWO_SIDED|95.0|-30.79|2.53||||||||2.53|-30.79|
92412245|NCT01065454|184714397|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-12.73|||||TWO_SIDED|95.0|-32.89|7.43||||||||7.43|-32.89|
92412246|NCT01065454|184714397|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-18.27|||||TWO_SIDED|95.0|-41.53|5.0||||||||5.00|-41.53|
92412247|NCT03630770|184714430|OTHER||Rate Ratio|0.98||||0.9|TWO_SIDED|95.0|0.55|1.7||p-values underwent generalized estimating equations adjustment for multiple measures per individuals within time.|Negative binomial regression|||Stool fungal counts (cfu/g) were compared between groups using negative binomial regression within time period (before, during, after). Rate ratio was calculated to reflect the direction and magnitude of change in stool colony counts between time periods (before v. during supplementation) for the control group.||1.7|0.55|0.9
92412248|NCT03630770|184714430|OTHER||Rate Ratio|8.1|||<|0.001|TWO_SIDED|95.0|2.6|25.0||p-values underwent generalized estimating equations adjustment for multiple measures per individuals within time.|Negative binomial regression|||Stool fungal counts (cfu/g) were compared between groups using negative binomial regression within time period (before, during, after). Rate ratio was calculated to reflect the direction and magnitude of change in stool colony counts between time periods (during v. after supplementation) for the control group.||25|2.6|<0.001
92412249|NCT03630770|184714430|OTHER||Rate Ratio|0.15||||0.02|TWO_SIDED|95.0|0.03|0.75||p-values underwent generalized estimating equations adjustment for multiple measures per individuals within time.|Negative binomial regression|||Stool fungal counts (cfu/g) were compared between groups using negative binomial regression within time period (before, during, after). Rate ratio was calculated to reflect the direction and magnitude of change in stool colony counts between time periods (before v. during supplementation) for the MCT group.||0.75|0.03|0.02
92240366|NCT00069576|184384199|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.18||||0.49|TWO_SIDED|97.0|0.7|1.99|||Chi-squared|||||1.99|0.70|0.49
92378925|NCT04375397|184660739|SUPERIORITY||||||=|0.969|||||||Log Rank|||For the analysis of time to discharge from hospital, the distribution of time to event was estimated by treatment group using Kaplan-Meier methodology and compared between the experimental arm and the control arm using the log-rank test stratified by prescription for remdesivir.||||=0.969
92378926|NCT00086502|184660743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|0.73|<|0.001||95.0|-0.85|-0.54||"Model terms: treatment; baseline; prior antihyperglycemic~agent (AHA) therapy \[not on AHA, monotherapy with oral AHA, peroxisome proliferator-activated receptor (PPAR)-based combination therapy\]"|ANCOVA|||||-0.54|-0.85|<0.001
92378927|NCT00086502|184660744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.7|STANDARD_DEVIATION|30.9|<|0.001||95.0|-24.3|-11.0||Model terms: treatment; baseline; prior antihyperglycemic agent (AHA) therapy \[not on AHA, monotherapy with oral AHA, peroxisome proliferator-activated receptor (PPAR)-based combination therapy\]|ANCOVA|||||-11.0|-24.3|<0.001
92378928|NCT01304329|184660745|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|102.05|STANDARD_DEVIATION|5.4|||TWO_SIDED|90.0|98.9|105.29|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|Considered characteristic is empa plus simvastatin divided by empa alone||105.29|98.90|
92378929|NCT01304329|184660746|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|101.26|STANDARD_DEVIATION|40.4|||TWO_SIDED|90.0|80.06|128.07|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"AUC of simvastatin~Considered characteristic is empa plus simvastatin divided by simvastatin alone"||128.07|80.06|
92378930|NCT01304329|184660746|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|104.87|STANDARD_DEVIATION|25.5|||TWO_SIDED|90.0|90.09|122.07|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"AUC of simvastatin acid~Considered characteristic is empa plus simvastatin divided by simvastatin alone."||122.07|90.09|
92378931|NCT01304329|184660747|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|109.49|STANDARD_DEVIATION|21.1|||TWO_SIDED|90.0|96.91|123.69|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|Considered characteristic is empa plus simvastatin divided by empa alone||123.69|96.91|
92378932|NCT01304329|184660748|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|97.18|STANDARD_DEVIATION|41.7|||TWO_SIDED|90.0|76.3|123.77|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"Cmax of simvastatin.~Considered characteristic is empa plus simvastatin divided by simvastatin alone."||123.77|76.30|
92378933|NCT01304329|184660748|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|97.27|STANDARD_DEVIATION|22.7|||TWO_SIDED|90.0|84.9|111.44|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"Cmax of simvastatin acid.~Considered characteristic is empa plus simvastatin divided by simvastatin alone."||111.44|84.90|
92378934|NCT01304329|184660749|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|102.52|STANDARD_DEVIATION|5.8|||TWO_SIDED|90.0|99.1|106.06|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|Considered characteristic is empa plus simvastatin divided by empa alone.||106.06|99.10|
92378935|NCT01304329|184660750|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|102.34|STANDARD_DEVIATION|41.7|||TWO_SIDED|90.0|80.39|130.29|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"AUC of simvastatin.~Considered characteristic is empa plus simvastatin divided by simvastatin alone."||130.29|80.39|
92412250|NCT03630770|184714430|OTHER||Rate Ratio|61.0|||<|0.001|TWO_SIDED|95.0|6.9|533.0||p-values underwent generalized estimating equations adjustment for multiple measures per individuals within time.|Negative binomial regression|||Stool fungal counts (cfu/g) were compared between groups using negative binomial regression within time period (before, during, after). Rate ratio was calculated to reflect the direction and magnitude of change in stool colony counts between time periods (during v. after supplementation) for the MCT group.||533|6.9|<0.001
92412251|NCT00505076|184714460|SUPERIORITY_OR_OTHER|||||||0.21|||||||ANCOVA|||An analysis of covariance (ANCOVA), adjusting for baseline scores, was used to compare treatment groups on cognitive and functional measures. The predefined primary cognition outcome measure was the MCCB (MATRICS (Measurement and Treatment Research to Improve Cognition in Schizophrenia Research) Consensus Cognitive Battery) composite T-score, tested at overall two-sided alpha=0.05.||||0.21
92240367|NCT00069576|184384200|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92240368|NCT00069576|184384201|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77||||0.19|TWO_SIDED|97.0|0.51|1.18|||Chi-squared|||||1.18|0.51|0.19
92378936|NCT01304329|184660750|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|111.25|STANDARD_DEVIATION|24.8|||TWO_SIDED|90.0|95.93|129.02|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"AUC of simvastatin acid.~Considered characteristic is empa plus simvastatin divided by simvastatin alone."||129.02|95.93|
92378937|NCT05545644|184660758|SUPERIORITY||Hedges g|0.48|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|||||Given the small sample size, we relied more heavily on effect size calculations (Hedges g adjusted for small sample bias).||||||||
92378938|NCT05545644|184660759|SUPERIORITY||Hedges g|0.37|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|||||Given the small sample size, we relied more heavily on effect size calculations (Hedges g adjusted for small sample bias).||||||||
92378939|NCT05545644|184660760|SUPERIORITY||Hedges g|0.04|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|||||Given the small sample size, we relied more heavily on effect size calculations (Hedges g adjusted for small sample bias).||||||||
92378940|NCT05545644|184660760|SUPERIORITY|Given the small sample size, we relied more heavily on effect size calculations (Hedges g adjusted for small sample bias).|Mean Difference (Final Values)|0.19|||||TWO_SIDED||||||||||Hedges g = .04; SE = .42|||
92378941|NCT05545644|184660761|SUPERIORITY||Hedges g|0.44|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|||||Given the small sample size, we relied more heavily on effect size calculations (Hedges g adjusted for small sample bias).||||||||
92378942|NCT01643876|184660763|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.5|||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: in individuals with denture stomatitis, there are no difference in the extent of palatal inflammation before and 3 months after palatal brushing. Assuming that the minimal practically important pre/post difference in the mean change score is 20 percent and the standard deviation of the distribution of the change in score is 0.8, a sample size of 44 participants is required to ensure a power of 90 % of rejecting the null hypothesis if it is indeed false.||||<0.0001
92378943|NCT01643876|184660764|SUPERIORITY_OR_OTHER||Median Difference (Net)|-57.5|||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: in individuals with denture stomatitis, there are no difference in the number of Candida Colony-Forming Units (CFUs), before and 3 months after palatal brushing.||||<0.05
92378944|NCT01945775|184660765|SUPERIORITY||Hazard Ratio, log|0.542|||<|0.0001|TWO_SIDED|95.0|0.413|0.711|||Log Rank|||Hazard ratio was based on stratified Cox regression model with treatment as the only covariate (stratification factors: number of prior cytotoxic chemotherapy regimens, triple negative status, history of central nervous system metastasis status).||0.711|0.413|<0.0001
92378945|NCT01945775|184660766|SUPERIORITY||Odds Ratio (OR)|4.99|||<|0.0001|TWO_SIDED|95.0|2.93|8.83|||Cochran-Mantel-Haenszel|||p-value was based on stratified Cochran-Mantel-Haenszel method. Stratification factors: number of prior cytotoxic chemotherapy regimens, triple negative status, history of central nervous system metastasis status.||8.83|2.93|<0.0001
92378946|NCT01945775|184660767|SUPERIORITY||Hazard Ratio (HR)|0.848||||0.1693|TWO_SIDED|95.0|0.67|1.073|||Log Rank|||Hazard ratio was based on stratified Cox regression model with treatment as the only covariate (stratification factors: number of prior cytotoxic chemotherapy regimens, triple negative status, history of central nervous system metastasis status).||1.073|0.670|0.1693
92378947|NCT01945775|184660775|SUPERIORITY||Mean Difference (Final Values)|8.4|||<|0.0001|TWO_SIDED|95.0|4.6|12.3|||Mixed Models Analysis|||Analysis was based on repeated measures mixed-effect model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate. Analysis was based on restricted maximum likelihood using unstructured covariance matrix.||12.3|4.6|<0.0001
92378948|NCT01945775|184660776|SUPERIORITY||Hazard Ratio (HR)|0.376|||<|0.0001|TWO_SIDED|95.0|0.257|0.549|||Log Rank|||Hazard ratio is based on stratified Cox regression model with treatment as the only covariate (stratification factors: number of prior cytotoxic chemotherapy regimens, triple negative status, history of central nervous system metastasis status).||0.549|0.257|<0.0001
92378949|NCT01945775|184660777|SUPERIORITY||Hazard Ratio (HR)|0.392||||0.0053|TWO_SIDED|95.0|0.198|0.775|||Log Rank|||Hazard ratio is based on stratified Cox regression model with treatment as the only covariate (stratification factors: number of prior cytotoxic chemotherapy regimens, triple negative status, history of central nervous system).||0.775|0.198|0.0053
92378950|NCT02876328|184660778|SUPERIORITY||||||<|0.001||||||Each active group is compared to placebo using a 2-sided .0167 significance level.|Cochran-Mantel-Haenszel|Analyses are stratified by site.||Analysis applies to both adults and children.||||<.001
92378951|NCT02068118|184660785|SUPERIORITY||rate ratio|0.97|||=|0.8|TWO_SIDED|95.0|0.77|1.23|||negative binomial regression|||"Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up).~Deaths that occurred during hospitalization with an overnight stay were counted as two events."||1.23|0.77|=0.80
92378952|NCT02068118|184660786|SUPERIORITY||rate ratio|0.82|||=|0.18|TWO_SIDED|95.0|0.62|1.1|||negative binomial regression|||"Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up).~Deaths that occurred during hospitalization with an overnight stay were counted as two events."||1.10|0.62|=0.18
92378953|NCT02068118|184660787|SUPERIORITY||rate ratio|0.6|||=|0.02|TWO_SIDED|95.0|0.39|0.92|||negative binomial regression|||"Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up).~Deaths that occurred during hospitalization with an overnight stay were counted as two events."||0.92|0.39|=0.02
92378954|NCT02068118|184660788|SUPERIORITY||||||=|0.68|||||||Log Rank|||Time to first event compared using the log-rank test||||=0.68
92378955|NCT02068118|184660790|SUPERIORITY||||||=|0.85|||||||Log Rank|||Time to death from any cause compared using the log-rank test||||=0.85
92240369|NCT00069576|184384202|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77||||0.32|TWO_SIDED|97.0|0.44|1.36|||Chi-squared|||||1.36|0.44|0.32
92240370|NCT00069576|184384203|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66||||0.33|TWO_SIDED|97.0|0.26|1.67|||Chi-squared|||||1.67|0.26|0.33
92240371|NCT00069576|184384204|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02||||0.86|TWO_SIDED|97.0|0.81|1.29|||Chi-squared|||||1.29|0.81|0.86
92231433|NCT01431287|184365483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.042|STANDARD_ERROR_OF_MEAN|0.013||0.0013|TWO_SIDED|95.0|0.016|0.068||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.068|0.016|0.0013
92231434|NCT01431287|184365483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.008|STANDARD_ERROR_OF_MEAN|0.013||0.5274|TWO_SIDED|95.0|-0.017|0.034||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.034|-0.017|0.5274
92231435|NCT01431287|184365483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.078|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.052|0.103||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.103|0.052|<0.0001
92240372|NCT00069576|184384205|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79||||0.02|TWO_SIDED|97.0|0.64|0.99|||Chi-squared|||||0.99|0.64|0.02
92378956|NCT02068118|184660791|SUPERIORITY||rate ratio|0.97|||=|0.77|TWO_SIDED|95.0|0.78|1.21|||negative binomial regression|||Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up).||1.21|0.78|=0.77
92378957|NCT02068118|184660792|SUPERIORITY||rate ratio|0.97|||=|0.83|TWO_SIDED|95.0|0.74|1.27|||negative binomial regression|||"Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up).~Deaths from cardiovascular cause that occurred during a hospitalization for cardiovascular cause with an overnight stay were counted as two events."||1.27|0.74|=0.83
92378958|NCT02068118|184660793|SUPERIORITY||rate ratio|0.84|||=|0.28|TWO_SIDED|95.0|0.62|1.15|||negative binomial regression|||Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up)||1.15|0.62|=0.28
92378959|NCT02068118|184660794|SUPERIORITY||rate ratio|0.71|||=|0.078|TWO_SIDED|95.0|0.48|1.04|||negative binomial regression|||Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up)||1.04|0.48|=0.078
92378960|NCT02068118|184660795|SUPERIORITY||rate ratio|0.5|||=|0.023|TWO_SIDED|95.0|0.28|0.91|||negative binomial regression|||Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up)||0.91|0.28|=0.023
92378961|NCT02068118|184660796|SUPERIORITY||Hazard Ratio (HR)|0.79|||=|0.044|TWO_SIDED|95.0|0.62|0.99|||Regression, Cox|||Time to first unplanned hospital readmission for heart failure compared using multivariable Cox regression model||0.99|0.62|=0.044
92378962|NCT02068118|184660797|SUPERIORITY||Adjusted Means Difference|1.06|||=|0.17|TWO_SIDED|95.0|-2.48|4.61||Study group effect over time|Mixed Models Analysis|||ANCOVA Physical Functioning score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with physical functioning score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||4.61|-2.48|=0.17
92378963|NCT02068118|184660797|SUPERIORITY||Adjusted Means Difference|1.8|||=|0.23|TWO_SIDED|95.0|-2.61|6.21||Study group effect over time|Mixed Models Analysis|||ANCOVA Role Physical score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with role physical score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||6.21|-2.61|=0.23
92378964|NCT02068118|184660797|SUPERIORITY||Adjusted Means Difference|4.46|||=|0.5|TWO_SIDED|95.0|0.59|8.33||Study group effect over time|Mixed Models Analysis|||ANCOVA Bodily Pain score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with bodily pain score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||8.33|0.59|=0.50
92378965|NCT02068118|184660797|SUPERIORITY||Adjusted Means Difference|2.52|||=|0.19|TWO_SIDED|95.0|-0.07|5.12||Study group effect over time|Mixed Models Analysis|||ANCOVA General Health score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with general health score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||5.12|-0.07|=0.19
92378966|NCT02068118|184660797|SUPERIORITY||Adjusted Means Difference|2.38|||=|0.034|TWO_SIDED|95.0|-0.09|4.85||Study group effect over time|Mixed Models Analysis|||ANCOVA Vitality score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with vitality score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||4.85|-0.09|=0.034
92378967|NCT02068118|184660797|SUPERIORITY||Adjusted Means Difference|4.03|||=|0.025|TWO_SIDED|95.0|0.6|7.47||Study group effect over time|Mixed Models Analysis|||ANCOVA Social Functioning score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with social functioning score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||7.47|0.60|=0.025
92378968|NCT02068118|184660797|SUPERIORITY||Adjusted Means Difference|1.01|||=|0.9|TWO_SIDED|95.0|-2.79|4.81||Study group effect over time|Mixed Models Analysis|||ANCOVA Role Emotional score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with role emotional score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||4.81|-2.79|=0.90
92378969|NCT02068118|184660797|SUPERIORITY||Adjusted Means Difference|2.26|||=|0.19|TWO_SIDED|95.0|0.16|4.37||Study group effect over time|Mixed Models Analysis|||ANCOVA Mental Health score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with mental health score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||4.37|0.16|=0.19
92378970|NCT02068118|184660797|SUPERIORITY||Adjusted Means Difference|0.9|||=|0.26|TWO_SIDED|95.0|-0.48|2.28||Study group effect over time|Mixed Models Analysis|||ANCOVA Physical Component Summary (PCS) score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with PCS score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||2.28|-0.48|=0.26
92378971|NCT02068118|184660797|SUPERIORITY||Adjusted Means Difference|1.2|||=|0.17|TWO_SIDED|95.0|0.08|2.31||Study group effect over time|Mixed Models Analysis|||ANCOVA Mental Component Summary (MCS) score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with MCS score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||2.31|0.08|=0.17
92378972|NCT02068118|184660802|SUPERIORITY||||||=|0.03|||||||Log Rank|||Time to first event compared using the log-rank test||||=0.03
92378973|NCT02068118|184660803|SUPERIORITY||||||=|0.15|||||||Log Rank|||Time to first event compared using the log-rank test||||=0.15
92378974|NCT02068118|184660804|SUPERIORITY||Hazard Ratio (HR)|0.71|||=|0.02|TWO_SIDED|95.0|0.53|0.95|||Regression, Cox|||Time to first unplanned hospital readmission for heart failure compared using multivariable Cox regression model||0.95|0.53|=0.02
92378975|NCT02068118|184660805|SUPERIORITY||Hazard Ratio (HR)|0.62|||=|0.043|TWO_SIDED|95.0|0.39|0.98|||Regression, Cox|||Time to first unplanned hospital readmission for heart failure compared using multivariable Cox regression model||0.98|0.39|=0.043
92378976|NCT00353873|184660811|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested using a one-sided significance level of 2.5%. If the lower confidence interval for the difference SFC-FP falls above -12 L/min the once daily SFC treatment combination was deemed to be statistically non-inferior. In the event that the lower confidence limit (2.5% 1-sided significance) exceeded 0, and using a separate closed testing procedure, superiority could be established.|Mean Difference (Net)|7.6|STANDARD_ERROR_OF_MEAN|3.01||0.012|TWO_SIDED|95.0|1.7|13.5|||ANCOVA|||||13.5|1.7|0.012
92378977|NCT00353873|184660812|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested using a one-sided significance level of 2.5%. If the lower confidence interval for the difference SFC-FP falls above -12 L/min the once daily SFC treatment combination was deemed to be statistically non-inferior. In the event that the lower confidence limit (2.5% 1-sided significance) exceeded 0, and using a separate closed testing procedure, superiority could be established.|Mean Difference (Net)|9.3|STANDARD_ERROR_OF_MEAN|3.08||0.003|TWO_SIDED|95.0|3.2|15.3|||ANCOVA|||||15.3|3.2|0.003
92412252|NCT00505076|184714461|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||ANCOVA|||The sample size was determined using the analysis of covariance power formula, n=2\[za+zβ\]2s2 (1-R2)/d2, with za=2.24, zβ=0.842 (corresponding to power=0.80), R=the correlation between baseline and end of study measures of the outcome, d the difference between groups, and s the standard deviation of the outcome. Actual recruitment was only about 20 participants per group, but the observed R≅0.9, suggesting power to detect an effect size of 0.49.||||0.47
92412253|NCT00505076|184714462|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||ANCOVA|||The sample size was determined using the analysis of covariance power formula, n=2\[za+zβ\]2s2 (1-R2)/d2, with za=2.24, zβ=0.842 (corresponding to power=0.80), R=the correlation between baseline and end of study measures of the outcome, d the difference between groups, and s the standard deviation of the outcome. Actual recruitment was only about 20 participants per group, but the observed R≅0.9, suggesting power to detect an effect size of 0.49.||||0.84
92240373|NCT00069576|184384206|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.37||||0.02|TWO_SIDED|97.0|0.14|0.97|||Chi-squared|||||0.97|0.14|0.02
92378978|NCT00353873|184660813|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.389|TWO_SIDED|95.0|0.7|2.4|||Regression, Logistic|||||2.4|0.7|0.389
92378979|NCT00353873|184660814|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.535|TWO_SIDED|95.0|0.7|1.9|||Regression, Logistic|||||1.9|0.7|0.535
92378980|NCT03743064|184660825|SUPERIORITY|The Multiple Imputation process (N=100) was performed leading to least squares mean (LSM) and standard error (SE) estimates using the ANOVA model (including treatment group and the 3 stratification factors at randomization as categorical covariates). The estimates were pooled using Rubin rule, with corresponding p-value for difference between treatment groups. The 95% confidence interval (CI) was calculated for each treatment group and for the pooled difference between the groups.|Mean Difference (Final Values)|1.284|STANDARD_ERROR_OF_MEAN|0.289|<|0.0001|TWO_SIDED|95.0|0.718|1.851|||ANOVA|||"To declare anamorelin superior to placebo, both co-primary endpoints had to be significant.~The null hypothesis for mean change in body weight from baseline over 12 weeks (H0w) and the corresponding alternative hypothesis (H1w) were:~H0w: MWa = MWp H1w: MWa ≠ MWp~Where MWa is the mean change in body weight from baseline over 12 weeks for the anamorelin arm and MWp is the mean change in body weight from baseline over 12 weeks for the placebo arm."||1.851|0.718|<0.0001
92412254|NCT03232333|184714513|SUPERIORITY||||||=|0.71|||||||t-test, 1 sided|||||||=0.71
92412255|NCT03232333|184714514|SUPERIORITY||||||=|0.63|||||||t-test, 1 sided|||||||=0.63
92412256|NCT03232333|184714515|SUPERIORITY||||||=|0.01|||||||t-test, 1 sided|||||||=.01
92412257|NCT01816945|184714516|SUPERIORITY|||||||0.15|||||||Fisher Exact|||||||0.15
92412258|NCT01816945|184714519|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Two-sample t-test for PHQ-9 at 12 months||||0.96
92412259|NCT01816945|184714520|SUPERIORITY|||||||0.043|||||||t-test, 2 sided|||Two-sample t-test for Social Network Score at 12 month||||0.043
92231436|NCT01431287|184365483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.035|STANDARD_ERROR_OF_MEAN|0.013||0.0083|TWO_SIDED|95.0|0.009|0.06||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.060|0.009|0.0083
92378981|NCT03743064|184660826|SUPERIORITY|The Multiple Imputation process (N=100) was performed leading to least squares mean (LSM) and standard error (SE) estimates using the ANOVA model (including treatment group and the 3 stratification factors at randomization as categorical covariates). The estimates were pooled using Rubin rule, with corresponding p-value for difference between treatment groups. The 95% confidence interval (CI) was calculated for each treatment group and for the pooled difference between the groups.|Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.399||0.7241|TWO_SIDED|95.0|-0.641|0.923|||ANOVA|||"To declare anamorelin superior to the placebo, both co-primary endpoints had to be significant. The null hypothesis for mean change from baseline over 12 weeks in patient 5-IASS (H0A) and the corresponding alternative (H1A) were:~H0A: MAa = MAp; H1A: MAa ≠ MAp~Where MAa is the mean change from baseline over 12 weeks in 5-IASS for the anamorelin arm and MAp is the mean change from baseline over 12 weeks in 5-IASS for the placebo arm."||0.923|-0.641|0.7241
92378982|NCT03743064|184660827|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|2.081|STANDARD_ERROR_OF_MEAN|0.579||0.0003|TWO_SIDED|95.0|0.946|3.216|||ANOVA|||||3.216|0.946|0.0003
92378983|NCT03743064|184660828|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|2.404|STANDARD_ERROR_OF_MEAN|0.476|<|0.0001|TWO_SIDED|95.0|1.471|3.337|||ANOVA|||||3.337|1.471|<0.0001
92378984|NCT03743064|184660829|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|0.629|STANDARD_ERROR_OF_MEAN|0.431||0.1443|TWO_SIDED|95.0|-0.215|1.472|||ANOVA|||||1.472|-0.215|0.1443
92378985|NCT03743064|184660830|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.452||0.7376|TWO_SIDED|95.0|-0.734|1.036|||ANOVA|||||1.036|-0.734|0.7376
92378986|NCT00870194|184660844|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority Margin of 0.4%||||||0.012||95.0|||||Mixed Model Repeated Measures|||||||.012
92378987|NCT00870194|184660844|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.4%|Least Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.12||0.012|TWO_SIDED|95.0|0.07|0.53|||Mixed Model Repeated Measures||Standard Error of the Least Square Mean|Power calculation: 80% assuming 200 patients (100 in each arm), no true difference and 1.0% standard deviation.||0.53|0.07|.012
92412260|NCT01087736|184714524|SUPERIORITY_OR_OTHER||Incidence Rate Ratio (IRR)|0.89||||0.019|TWO_SIDED|95.0|0.89|0.98||We tested our Primary hypothesis with a random-intercept repeated subject negative binomial model, modeling week (baseline - week 12) as a continuous variable. All analyses were intent-to-treat and used all observations from all weeks.|negative binomial regression|||Our primary protocol-defined analysis was to examine the within-group efficacy of topiramate to reduce percent drinking days (%DD).||0.98|0.89|0.019
92231437|NCT01431287|184365483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.007|STANDARD_ERROR_OF_MEAN|0.013||0.5744|TWO_SIDED|95.0|-0.018|0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.033|-0.018|0.5744
92240374|NCT00069576|184384207|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.46||||0.02|TWO_SIDED|97.0|0.22|0.97|||Chi-squared|||||0.97|0.22|0.02
92240375|NCT00069576|184384208|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.63||||0.01|TWO_SIDED|97.0|0.42|0.96|||Chi-squared|||||0.96|0.42|0.01
92378988|NCT00870194|184660845|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||Fisher's Exact Test|||||||.038
92378989|NCT00870194|184660846|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||Fisher's Exact Test|||||||.027
92378990|NCT00870194|184660847|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Fisher's Exact Test|||||||.480
92378991|NCT00870194|184660848|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||ANCOVA|||||||.038
92378992|NCT00870194|184660849|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||Mixed Model Repeated Measures|||||||.266
92378993|NCT00870194|184660850|SUPERIORITY_OR_OTHER|||||||0.095||95.0|||||Mixed Model Repeated Measures|||||||.095
92378994|NCT00870194|184660851|SUPERIORITY_OR_OTHER|||||||0.567||95.0|||||Mixed Model Repeated Measures|||||||.567
92378995|NCT00870194|184660852|SUPERIORITY_OR_OTHER|||||||0.207||95.0|||||Mixed Model Repeated Measures|||||||.207
92378996|NCT00870194|184660853|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||ANCOVA|||||||.055
92378997|NCT00870194|184660854|SUPERIORITY_OR_OTHER|||||||0.269||95.0|||||ANCOVA|||||||.269
92378998|NCT00870194|184660855|SUPERIORITY_OR_OTHER|||||||0.622||95.0|||||ANCOVA|||||||.622
92378999|NCT00870194|184660856|SUPERIORITY_OR_OTHER|||||||0.888||95.0|||||ANCOVA|||||||.888
92379000|NCT00870194|184660857|SUPERIORITY_OR_OTHER|||||||0.287||95.0|||||Fisher's Exact Test|||||||.287
92379001|NCT00870194|184660858|SUPERIORITY_OR_OTHER|||||||0.498||95.0|||||Fisher's Exact Test|||||||.498
92379002|NCT00870194|184660859|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||Fisher's Exact Test|||||||.247
92412261|NCT01087736|184714524|SUPERIORITY_OR_OTHER|||||||0|||||||Other|||There were no pre hoc hypothesis regarding change within placebo group. We were only tested change within the topiramate condition.||||0.00
92412262|NCT01087736|184714524|SUPERIORITY_OR_OTHER||Incidence Rate Ratio (IRR)|0.38||||0.036|TWO_SIDED|95.0|0.15|0.94|||Negative binomial model|||"A secondary analysis was powered to detect a Signal or statistical trend (p\<0.10) for a difference between the topiramate and placebo condition. We compared percent drinking days per week between groups averaged over the active phase of the trial (weeks 1-12). The negative binomial model included fixed effect for week, treatment group, and the interaction between treatment group and week. We covaried for baseline %DD averages to control for prestudy and study enrollment effects."||0.94|0.15|0.036
92379003|NCT00870194|184660860|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher's Exact Test|||||||1.00
92379004|NCT01831817|184660932|SUPERIORITY_OR_OTHER||Mean change difference|-0.1||||0.4321|TWO_SIDED|95.0|-0.35|0.15|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference was First named treatment-second named treatment that a negative difference implied the mean of the second named treatment was larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||0.15|-0.35|0.4321
92379005|NCT01831817|184660932|SUPERIORITY_OR_OTHER||Mean change difference|-0.48||||0.0002|TWO_SIDED|95.0|-0.73|-0.23|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is First named treatment - second named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||-0.23|-0.73|0.0002
92379006|NCT01831817|184660932|SUPERIORITY_OR_OTHER||Mean change difference|-0.49||||0.0002|TWO_SIDED|95.0|-0.74|-0.24|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is First named treatment - second named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||-0.24|-0.74|0.0002
92379007|NCT01831817|184660932|SUPERIORITY_OR_OTHER||Mean change difference|0.38||||0.0028|TWO_SIDED|95.0|0.13|0.63|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is second named treatment - first named treatment that a negative difference implies the mean of the first named treatment is larger than that of the second named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||0.63|0.13|0.0028
92379008|NCT01831817|184660932|SUPERIORITY_OR_OTHER||Mean change difference|0.39||||0.0022|TWO_SIDED|95.0|0.14|0.63|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is Second named treatment - first named treatment that a negative difference implies the mean of the first named treatment is larger than that of the second named treatment|Principal null hypothesis to be tested was- H0: The change from baseline waas the same for both treatments in all pairwise comparisons||0.63|0.14|0.0022
92379009|NCT01831817|184660932|SUPERIORITY_OR_OTHER||Mean change difference|-0.01||||0.9606|TWO_SIDED|95.0|-0.25|0.24|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is Second named treatment - first named treatment that a negative difference implies the mean of the first named treatment is larger than that of the second named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||0.24|-0.25|0.9606
92379010|NCT01831817|184660933|SUPERIORITY_OR_OTHER||Mean change difference|0.04||||0.803|TWO_SIDED|95.0|-0.3|0.38|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is First named treatment - second named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||0.38|-0.30|0.8030
92379011|NCT01831817|184660933|SUPERIORITY_OR_OTHER||Mean change difference|-0.82|||<|0.0001|TWO_SIDED|95.0|-1.16|-0.48|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is First named treatment - second named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||-0.48|-1.16|<0.0001
92379012|NCT01831817|184660933|SUPERIORITY_OR_OTHER||Mean change difference|-0.86|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.53|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is First named treatment - second named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||-0.53|-1.20|<0.0001
92379013|NCT01831817|184660933|SUPERIORITY_OR_OTHER||Mean change difference|0.86|||<|0.0001|TWO_SIDED|95.0|0.53|1.19|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is Second named treatment - first named treatment that a negative difference implies the mean of the first named treatment is larger than that of the second named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||1.19|0.53|<0.0001
92379014|NCT01831817|184660933|SUPERIORITY_OR_OTHER||Mean change difference|0.91|||<|0.0001|TWO_SIDED|95.0|0.58|1.23|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is Second named treatment - first named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||1.23|0.58|<0.0001
92379015|NCT01831817|184660933|SUPERIORITY_OR_OTHER||Mean change difference|-0.04||||0.7872|TWO_SIDED|95.0|-0.37|0.28|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is Second named treatment - first named treatment that a negative difference implies the mean of the first named treatment is larger than that of the second named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||0.28|-0.37|0.7872
92379016|NCT01831817|184660934|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.9642|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||0.00|0.00|0.9642
92379017|NCT01831817|184660934|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.0016|TWO_SIDED|95.0|0.0|5.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||5.00|0.00|0.0016
92379018|NCT01831817|184660934|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.01|TWO_SIDED|95.0|0.0|5.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||5.00|0.00|0.0100
92231438|NCT01431287|184365483|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.027|STANDARD_ERROR_OF_MEAN|0.013||0.0381|TWO_SIDED|95.0|0.001|0.053||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.053|0.001|0.0381
92412263|NCT01087736|184714525|SUPERIORITY_OR_OTHER||||||<|0.026|||||||Mixed Models Analysis|||We planned to explore the efficacy of topiramate in reducing PTSD symptom severity. We used random-intercept linear mixed models to explore the efficacy for topiramate related reduction in PTSD symptomatology. We looked for an effect of week within TOP. Baseline scores for PTSD symptoms were used as covariates in group comparisons. All analyses were intent-to-treat and used all observations from all weeks.||||<0.026
92412264|NCT01087736|184714525|SUPERIORITY_OR_OTHER|||||||0|||||||Other|||There was not a pre hoc hypothesis regarding change within placebo group. We only examined within group change in the topiramate condition.||||0.00
92412265|NCT00759564|184714542|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|124.71|||||TWO_SIDED|90.0|106.57|145.94||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||145.94|106.57|
92412266|NCT00759564|184714542|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|163.51|||||TWO_SIDED|90.0|139.72|191.34||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||191.34|139.72|
92231439|NCT01431287|184365484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.081|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.055|0.108||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.108|0.055|<0.0001
92231440|NCT01431287|184365484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.053|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.027|0.079||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.079|0.027|<0.0001
92231441|NCT01431287|184365484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.039|0.091||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.091|0.039|<0.0001
92231442|NCT01431287|184365484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.055|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.029|0.081||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.081|0.029|<0.0001
92231443|NCT01431287|184365484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.037|STANDARD_ERROR_OF_MEAN|0.013||0.0052|TWO_SIDED|95.0|0.011|0.063||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.063|0.011|0.0052
92240376|NCT00069576|184384209|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92412267|NCT00759564|184714542|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|58.4|||||TWO_SIDED|90.0|48.16|70.83||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||70.83|48.16|
92412268|NCT00759564|184714544|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|167.59|||||TWO_SIDED|90.0|137.27|204.61||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||204.61|137.27|
92412269|NCT00759564|184714544|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|246.76|||||TWO_SIDED|90.0|202.11|301.27||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||301.27|202.11|
92412270|NCT00759564|184714544|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|107.13|||||TWO_SIDED|90.0|88.06|130.32||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||130.32|88.06|
92240377|NCT00069576|184384210|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92231444|NCT01431287|184365484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.016|STANDARD_ERROR_OF_MEAN|0.013||0.2273|TWO_SIDED|95.0|-0.01|0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.042|-0.010|0.2273
92231445|NCT01431287|184365484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.045|0.097||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.097|0.045|<0.0001
92231446|NCT01431287|184365484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.028|STANDARD_ERROR_OF_MEAN|0.013||0.033|TWO_SIDED|95.0|0.002|0.055||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.055|0.002|0.0330
92231447|NCT01431287|184365484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.013||0.4327|TWO_SIDED|95.0|-0.016|0.037||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.037|-0.016|0.4327
92231448|NCT01431287|184365484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.013||0.1764|TWO_SIDED|95.0|-0.008|0.044||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.044|-0.008|0.1764
92231449|NCT01431287|184365485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.056|STANDARD_ERROR_OF_MEAN|0.025||0.0241|TWO_SIDED|95.0|0.007|0.105||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.105|0.007|0.0241
92379019|NCT01831817|184660934|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.002|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the second named treatment|||0.00|0.00|0.0020
92379020|NCT01831817|184660934|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.0122|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the second named treatment|||0.00|0.00|0.0122
92379021|NCT01831817|184660934|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.7138|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||0.00|0.00|0.7138
92379022|NCT01831817|184660935|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.9834|TWO_SIDED|95.0|-5.0|5.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||5.00|-5.00|0.9834
92379023|NCT01831817|184660935|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|5.0||||0.0001|TWO_SIDED|95.0|0.0|15.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||15.00|0.00|0.0001
92379024|NCT01831817|184660935|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|2.5||||0.0003|TWO_SIDED|95.0|0.0|15.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||15.00|0.00|0.0003
92379025|NCT01831817|184660935|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|-5.0|||<|0.0001|TWO_SIDED|95.0|-10.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the second named treatment|||0.00|-10.00|<0.0001
92379026|NCT01831817|184660935|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|-5.0||||0.0002|TWO_SIDED|95.0|-10.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the second named treatment|||0.00|-10.00|0.0002
92379027|NCT01831817|184660935|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.2894|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||0.00|0.00|0.2894
92379028|NCT01831817|184660936|SUPERIORITY_OR_OTHER||Mean change difference|-0.24||||0.5555|TWO_SIDED|95.0|-1.03|0.56|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.56|-1.03|0.5555
92379029|NCT01831817|184660936|SUPERIORITY_OR_OTHER||Mean change difference|-0.06||||0.8769|TWO_SIDED|95.0|-0.86|0.73|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.73|-0.86|0.8769
92379030|NCT01831817|184660936|SUPERIORITY_OR_OTHER||Mean change difference|-0.76||||0.0562|TWO_SIDED|95.0|-1.55|0.02|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.02|-1.55|0.0562
92379031|NCT01831817|184660936|SUPERIORITY_OR_OTHER||Mean change difference|-0.18||||0.6562|TWO_SIDED|95.0|-0.95|0.6|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.60|-0.95|0.6562
92379032|NCT01831817|184660936|SUPERIORITY_OR_OTHER||Mean change difference|0.53||||0.1788|TWO_SIDED|95.0|-0.24|1.3|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||1.30|-0.24|0.1788
92412271|NCT00759564|184714545|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|168.14|||||TWO_SIDED|90.0|137.4|205.75||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||205.75|137.40|
92412272|NCT00759564|184714545|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|248.38|||||TWO_SIDED|90.0|202.98|303.94||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||303.94|202.98|
92412273|NCT00759564|184714545|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|110.12|||||TWO_SIDED|90.0|89.84|134.98||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||134.98|89.84|
92412274|NCT00759564|184714547|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|134.86|||||TWO_SIDED|90.0|109.88|165.52||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||165.52|109.88|
92412275|NCT00759564|184714547|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|226.28|||||TWO_SIDED|90.0|184.36|277.72||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||277.72|184.36|
92412276|NCT00759564|184714547|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|285.05|||||TWO_SIDED|90.0|221.8|366.33||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||366.33|221.80|
92412277|NCT00759564|184714549|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|209.31|||||TWO_SIDED|90.0|158.81|275.87||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||275.87|158.81|
92412278|NCT00759564|184714549|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|353.0|||||TWO_SIDED|90.0|267.83|465.25||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||465.25|267.83|
92231450|NCT01431287|184365485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.051|0.148||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.148|0.051|<0.0001
92412279|NCT00759564|184714549|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|742.68|||||TWO_SIDED|90.0|529.59|1041.5||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||1041.50|529.59|
92412280|NCT00759564|184714550|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|209.55|||||TWO_SIDED|90.0|158.72|276.66||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||276.66|158.72|
92412281|NCT00759564|184714550|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|353.26|||||TWO_SIDED|90.0|267.57|466.39||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||466.39|267.57|
92231451|NCT01431287|184365485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.025||0.0049|TWO_SIDED|95.0|0.021|0.119||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.119|0.021|0.0049
92412282|NCT00759564|184714550|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|735.77|||||TWO_SIDED|90.0|523.56|1034.0||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||1034.00|523.56|
92412283|NCT01565343|184714579|SUPERIORITY_OR_OTHER||ICC|0.9893||||||95.0|||||ICC|||Intra-class Correlation Coefficient (ICC) of AD subjects 50-70 min test vs. retest values||||
92231452|NCT01431287|184365485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.147|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.098|0.196||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.196|0.098|<0.0001
92231453|NCT01431287|184365485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.113|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.064|0.162||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.162|0.064|<0.0001
92240378|NCT00069576|184384211|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.71|1.1||||||||1.10|0.71|
92379033|NCT01831817|184660936|SUPERIORITY_OR_OTHER||Mean change difference|-0.7||||0.0734|TWO_SIDED|95.0|-1.47|0.07|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.07|-1.47|0.0734
92379034|NCT01831817|184660937|SUPERIORITY_OR_OTHER||Mean change difference|0.19||||0.6727|TWO_SIDED|95.0|-0.71|1.1|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||1.10|-0.71|0.6727
92379035|NCT01831817|184660937|SUPERIORITY_OR_OTHER||Mean change difference|-1.24||||0.0072|TWO_SIDED|95.0|-2.14|-0.34|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||-0.34|-2.14|0.0072
92379036|NCT01831817|184660937|SUPERIORITY_OR_OTHER||Mean change difference|-1.27||||0.0056|TWO_SIDED|95.0|-2.16|-0.38|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||-0.38|-2.16|0.0056
92379037|NCT01831817|184660937|SUPERIORITY_OR_OTHER||Mean change diference|1.43||||0.0016|TWO_SIDED|95.0|0.56|2.31|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||2.31|0.56|0.0016
92379038|NCT01831817|184660937|SUPERIORITY_OR_OTHER||Mean change difference|1.46||||0.0011|TWO_SIDED|95.0|0.59|2.33|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||2.33|0.59|0.0011
92379039|NCT01831817|184660937|SUPERIORITY_OR_OTHER||Mean change difference|-0.03||||0.9413|TWO_SIDED|95.0|-0.9|0.84|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.84|-0.90|0.9413
92412284|NCT01565343|184714579|SUPERIORITY_OR_OTHER||ICC|0.9574||||||95.0|||||ICC|||Intra-class Correlation Coefficient of Control subjects 50-70 min test vs. retest values||||
92412285|NCT01565343|184714579|SUPERIORITY_OR_OTHER||Mean % difference|2.35|STANDARD_DEVIATION|1.413||||95.0||||||||Intra-subject variability (% difference) of AD subjects 50-70 min test vs. retest values||||
92412286|NCT01565343|184714579|SUPERIORITY_OR_OTHER||Mean % difference|1.49|STANDARD_DEVIATION|0.839||||95.0||||||||Intra-subject variability (% difference) of control subjects 50-70 min test vs. retest values||||
92412287|NCT02059291|184714586|SUPERIORITY||||||<|0.0001|||||||Fisher's exact test|||||||<0.0001
92412288|NCT02059291|184714586|SUPERIORITY|||||||0.002|||||||Fisher's exact test|||||||0.0020
92412289|NCT02059291|184714586|SUPERIORITY|||||||0.005|||||||Fisher's exact test|||||||0.0050
92379040|NCT00958217|184660940|SUPERIORITY_OR_OTHER||2nd order effects of time (2 slope|33.0|||<|0.05|TWO_SIDED|95.0||||P-values based on likelihood ratio tests for the significance of the first and second order trajectory parameters. Primary tests compared curvilinear trajectories of the two treatment groups.|Linear Mixed Effects Models||We gauged sampling error with 95% confidence bands.|Data analyses included comparison of mean scores and linear mixed effects models used to ascertain trajectories for depression symptoms.||||<.05
92379041|NCT00958217|184660941|SUPERIORITY_OR_OTHER||Second order effect of time (2 slopes)|57.0|||<|0.05|TWO_SIDED|95.0|||||Linear Mixed Effects Models||We gauged sampling error with 95% confidence bands.|||||<.05
92379042|NCT00958217|184660942|SUPERIORITY_OR_OTHER||Second order effect of time (2 slopes)|0.43|||<|0.05|TWO_SIDED|95.0|||||Linear Mixed Effects Model|A logit link was used in this model.|We gauged sampling error with 95% confidence bands.|Analysis of substance use was conducted using trajectories modeled as a dichotomous outcome using logit links to predict the probability of substance use (any alcohol or drug use) on a particular day.||||<.05
92379043|NCT00958217|184660942|SUPERIORITY_OR_OTHER||Second order effect of time (2 slopes)|0.26|||<|0.05|TWO_SIDED||||||Linear Mixed Effects Model|A logit link was used in this model|We gauged sampling error with 95% confidence bands.|Second statistical analysis evaluates trajectories of heavy drinking (\<5 drinks on a given day) Analysis of heavy drinking was conducted using trajectories modeled as a dichotomous outcome using logit links to predict the probability of heavy drinking (5 or more drinks) on a particular day.||||<.05
92379044|NCT02440789|184660955|OTHER|||||||0.56|||||||t-test, 2 sided|paired t-test||||||0.56
92379045|NCT02440789|184660957|OTHER|||||||0.11|||||||t-test, 2 sided|paired t-test||||||0.11
92379046|NCT02440789|184660959|OTHER|||||||0.93|||||||t-test, 2 sided|paired t-test; results less than the analysis lower limit (0.7 cp/mL) were imputed to a value of one half the analysis lower limit.||||||0.93
92379047|NCT02440789|184660961|OTHER|||||||0.041|||||||t-test, 2 sided|paired t-test||||||0.041
92379048|NCT02440789|184660964|OTHER|||||||0.008|||||||t-test, 2 sided|paired t-test||||||0.008
92412290|NCT02059291|184714587|SUPERIORITY||Odds Ratio (OR)|16.96|||<|0.0001|TWO_SIDED|95.0|4.15|69.21|||Regression, Logistic|||||69.21|4.15|<0.0001
92412291|NCT02059291|184714587|SUPERIORITY||Odds Ratio (OR)|13.63||||0.0006|TWO_SIDED|95.0|2.83|65.59|||Regression, Logistic|||||65.59|2.83|0.0006
92231454|NCT01431287|184365485|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.014|STANDARD_ERROR_OF_MEAN|0.025||0.5831|TWO_SIDED|95.0|-0.063|0.035||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.035|-0.063|0.5831
92379049|NCT02440789|184660966|OTHER|||||||0.26|||||||t-test, 2 sided|paired t-test||||||0.26
92412292|NCT02059291|184714587|SUPERIORITY||Odds Ratio (OR)|23.79||||0.0028|TWO_SIDED|95.0|2.52|224.86|||Regression, Logistic|||||224.86|2.52|0.0028
92379050|NCT02440789|184660968|OTHER|||||||0.75|||||||t-test, 2 sided|paired t-test||||||0.75
92379051|NCT02440789|184660970|OTHER|||||||0.97|||||||t-test, 2 sided|paired t-test||||||0.97
92379052|NCT02440789|184660972|OTHER|||||||0.7|||||||t-test, 2 sided|paired t-test||||||0.7
92379053|NCT02440789|184660974|OTHER|||||||0.47|||||||t-test, 2 sided|paired t-test||||||0.47
92379054|NCT02440789|184660976|OTHER|||||||0.72|||||||t-test, 2 sided|paired t-test||||||0.72
92379055|NCT02440789|184660978|OTHER|||||||0.28|||||||t-test, 2 sided|paired t-test||||||0.28
92379056|NCT02440789|184660980|OTHER|||||||0.7|||||||t-test, 2 sided|paired t-test||||||0.7
92231455|NCT01431287|184365485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.133|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.084|0.182||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.182|0.084|<0.0001
92379057|NCT02440789|184660982|OTHER|||||||0.28|||||||t-test, 2 sided|paired t-test||||||0.28
92379058|NCT02440789|184660984|OTHER|||||||0.77|||||||t-test, 2 sided|paired t-test||||||0.77
92379059|NCT02440789|184660986|OTHER|||||||0.93|||||||t-test, 2 sided|paired t-test||||||0.93
92379060|NCT02440789|184660988|OTHER|||||||0.65|||||||t-test, 2 sided|paired t-test||||||0.65
92379061|NCT02440789|184660990|OTHER|||||||0.22|||||||t-test, 2 sided|paired t-test||||||0.22
92379062|NCT02440789|184660992|OTHER|||||||0.031|||||||t-test, 2 sided|paired t-test||||||0.031
92412293|NCT02059291|184714588|SUPERIORITY||Odds Ratio (OR)|29.78|||<|0.0001|TWO_SIDED|95.0|5.86|151.31|||Regression, Logistic|||||151.31|5.86|<0.0001
92412294|NCT02059291|184714588|SUPERIORITY||Odds Ratio (OR)|12.71||||0.001|TWO_SIDED|95.0|2.53|63.89|||Regression, Logistic|||||63.89|2.53|0.0010
92240379|NCT00069576|184384212|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.65|1.69||||||||1.69|0.65|
92379063|NCT02440789|184660994|OTHER|||||||0.005|||||||t-test, 2 sided|paired t-test||||||0.005
92379064|NCT02440789|184660996|OTHER|||||||0.69|||||||t-test, 2 sided|paired t-test||||||0.69
92379065|NCT02440789|184660998|OTHER|||||||0.008|||||||t-test, 2 sided|paired t-test||||||0.008
92379066|NCT01999218|184660999|NON_INFERIORITY|Non-inferiority is declared if the upper bound of the two-sided 95% confidence interval (CI) for the mean difference is less than 0.3%.|Difference in the Least Squares Means|0.1|||||TWO_SIDED|95.0|-0.02|0.22|||||Constrained Longitudinal Data Analysis (cLDA) model with fixed effects for treatment, time, prior antihyperglycemic medication (monotherapy or dual therapy), baseline eGFR (continuous) and the interaction of time by treatment.|||0.22|-0.02|
92379067|NCT01999218|184660999|NON_INFERIORITY|Non-inferiority is declared if the upper bound of the two-sided 95% confidence interval (CI) for the mean difference is less than 0.3%.|Difference in the Least Squares means|0.18|||||TWO_SIDED|95.0|0.06|0.3|||||"Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (monotherapy or dual therapy), baseline eGFR (continuous) and the interaction of time by treatment.~Time was treated as a categorical variable."|||0.30|0.06|
92379068|NCT01999218|184661000|OTHER|Based on Miettinen \& Nurminen method|Difference in % vs. Glimepiride|1.6|||||TWO_SIDED|95.0|-4.5|7.7||||||||7.7|-4.5|
92379069|NCT01999218|184661000|OTHER|Based on Miettinen \& Nurminen method|Difference in % vs. Glimepiride|0.5|||||TWO_SIDED|95.0|-5.6|6.5||||||||6.5|-5.6|
92379070|NCT01999218|184661001|OTHER||Difference in % vs. Glimepiride|3.0|||||TWO_SIDED|95.0|-0.3|6.4||||||||6.4|-0.3|
92379071|NCT01999218|184661001|OTHER||Difference in % vs. Glimepiride|1.5|||||TWO_SIDED|95.0|-1.7|4.7||||||||4.7|-1.7|
92379072|NCT01999218|184661002|OTHER||Difference in % vs. Glimepiride|-14.0|||<|0.001|TWO_SIDED|95.0|-18.4|-9.8|||Based on Miettinen & Nurminen method||||Based on Miettinen \& Nurminen method|-9.8|-18.4|<0.001
92379073|NCT01999218|184661002|OTHER||Difference in % vs. Glimepiride|-16.1|||<|0.001|TWO_SIDED|95.0|-20.3|-12.2|||Based on Miettinen & Nurminen method||||Based on Miettinen \& Nurminen method|-12.2|-20.3|<0.001
92379074|NCT01999218|184661003|OTHER||Difference in LSM vs. Glimepiride|-4.29|||<|0.001|TWO_SIDED|95.0|-4.77|-3.8|||Constrained Longitudinal Data analysis||LSM=Least Squares Means||Constrained Longitudinal Data analysis with fixed effects for treatment, time, interaction of time by treatment, prior antihyperglycemic medication (monotherapy or dual therapy), and baseline eGFR (continuous).|-3.80|-4.77|<0.001
92379075|NCT01999218|184661003|OTHER||Difference in the LSM vs. Glimepiride|-3.87|||<|0.001|TWO_SIDED|95.0|-4.36|-3.38|||Constrained Longitudinal Data Analysis||||Constrained Longitudinal Data Analysis with fixed effects for treatment, time, interaction of time by treatment, prior antihyperglycemic medication (monotherapy or dual therapy), and baseline eGFR (continuous).|-3.38|-4.36|<0.001
92379076|NCT01999218|184661004|OTHER||Difference in the LSM vs. Glimepiride|-4.77|||<|0.001|TWO_SIDED|95.0|-6.29|-3.25|||Constrained Logitudinal Data Analysis||||Constrained Logitudinal Data Analysis with fixed effects for treatment, time, interaction of time by treatment, prior anthyperglycemic medication (monotherapy or dual therapy), and baseline eGFR (continuous).|-3.25|-6.29|<0.001
92379077|NCT01999218|184661004|OTHER||Difference in the LSM vs. Glimepiride|-3.2|||<|0.001|TWO_SIDED|0.001|-4.73|-1.67|||Constrained Logitudinal Data Analysis||||Constrained Logitudinal Data Analysis with fixed effects for treatment, time, interaction of time by treatment, prior anthyperglycemic medication (monotherapy or dual therapy), and baseline eGFR (continuous).|-1.67|-4.73|<0.001
92379078|NCT01073930|184661005|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the 1-sided 97.5% CI for the treatment difference (PICOPREP minus HalfLytely) was \>-9% for the percentage of responders. Superiority was demonstrated if the 1-sided 97.5% CI for treatment difference was \>0%.|Mean Difference (Net)|9.8|||||ONE_SIDED|97.5|3.4||||||||||3.4|
92412295|NCT02059291|184714588|SUPERIORITY||Odds Ratio (OR)|6.64||||0.0149|TWO_SIDED|95.0|1.2|36.57|||Regression, Logistic|||||36.57|1.20|0.0149
92379079|NCT01073930|184661006|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|10.7|||||ONE_SIDED|97.5|4.9|||||||Ascending colon comparison|||4.9|
92379080|NCT01073930|184661006|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|6.6|||||ONE_SIDED|97.5|1.6|||||||Mid colon comparison|||1.6|
92379081|NCT01073930|184661006|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|5.2|||||ONE_SIDED|97.5|0.4|||||||Recto-sigmoid colon comparison|||0.4|
92379082|NCT01073930|184661006|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|11.4|||||ONE_SIDED|97.5|5.2|||||||Overall: Ascending, mid, and recto-sigmoid colon comparison|||5.2|
92379083|NCT01073930|184661007|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92379084|NCT01073930|184661008|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92379085|NCT01073930|184661009|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92379086|NCT01073930|184661010|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92379087|NCT01073930|184661011|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92379088|NCT01073930|184661012|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92379089|NCT01114360|184661070|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||ANOVA|Two-way repeated measures mixed model ANOVA.||The null hypothesis is that there is no interaction between the order of randomization and primary outcomes.||||0.075
92379090|NCT01114360|184661070|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||ANOVA|||||||0.75
92412296|NCT02059291|184714589|SUPERIORITY||Odds Ratio (OR)|17.46||||0.0286|TWO_SIDED|95.0|0.92|332.92|||Regression, Logistic|||||332.92|0.92|0.0286
92231456|NCT01431287|184365485|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.043|STANDARD_ERROR_OF_MEAN|0.025||0.0822|TWO_SIDED|95.0|-0.092|0.006||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.006|-0.092|0.0822
92231457|NCT01431287|184365485|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.077|STANDARD_ERROR_OF_MEAN|0.025||0.002|TWO_SIDED|95.0|-0.126|-0.028||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||-0.028|-0.126|0.0020
92379091|NCT01114360|184661071|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||ANOVA|||||||0.79
92379092|NCT01114360|184661072|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANOVA|||||||0.21
92379093|NCT01114360|184661073|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||ANOVA|||||||0.64
92379094|NCT01114360|184661074|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||ANOVA|||||||0.89
92379095|NCT01114360|184661075|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||ANOVA|||||||0.97
92379096|NCT01114360|184661076|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
92379097|NCT01114360|184661077|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||ANOVA|||The null hypothesis is that there is no interaction between the order of randomization and primary outcomes.||||0.75
92379098|NCT01114360|184661078|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||Friedman|||||||0.71
92379099|NCT01114360|184661079|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||Friedman|||||||0.38
92379100|NCT01114360|184661080|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Friedman|||||||0.11
92379101|NCT01114360|184661081|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||ANOVA|||||||0.96
92379102|NCT01114360|184661082|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||ANOVA|||||||0.25
92379103|NCT01114360|184661083|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||ANOVA|||||||0.52
92379104|NCT03007745|184661086|SUPERIORITY||Mean Difference (Final Values)|1.96|STANDARD_DEVIATION|3.08|<|0.0001|TWO_SIDED|||||Unadjusted|t-test, 2 sided|||Paired t-test comparing baseline and 3-month measures within group||||<0.0001
92379105|NCT03007745|184661086|SUPERIORITY||Mean Difference (Final Values)|1.73|STANDARD_DEVIATION|3.97|<|0.0001|TWO_SIDED||||||t-test, 2 sided|Unadjusted||Paired t-test comparing baseline and 3-month measures within group||||<0.0001
92412297|NCT02059291|184714589|SUPERIORITY||Odds Ratio (OR)|5.26||||0.0778|TWO_SIDED|95.0|0.53|51.97|||Regression, Logistic|||||51.97|0.53|0.0778
92412298|NCT02059291|184714589|SUPERIORITY||Odds Ratio (OR)|16.69||||0.0235|TWO_SIDED|95.0|1.04|268.5|||Regression, Logistic|||||268.50|1.04|0.0235
92412299|NCT02059291|184714590|SUPERIORITY||Odds Ratio (OR)|8.17||||0.0513|TWO_SIDED|95.0|0.75|113.44|||Regression, Logistic|||||113.44|0.75|0.0513
92412300|NCT02059291|184714590|SUPERIORITY||Odds Ratio (OR)|6.0||||0.2168|TWO_SIDED|95.0|0.27|366.24|||Regression, Logistic|||||366.24|0.27|0.2168
92412301|NCT02059291|184714590|SUPERIORITY||Odds Ratio (OR)|4.5||||0.3571|TWO_SIDED|95.0|0.15|313.49|||Regression, Logistic|||||313.49|0.15|0.3571
92379106|NCT03007745|184661086|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.61||0.9171|TWO_SIDED|||||Adjusted mean changes and adjusted differences in mean changes were estimated as site-total-sample-size weighted values controlling for treatment group differences in mean pre-treatment baseline values|ANCOVA|||Adjusted differences in mean changes were estimated as site-total-sample-size weighted values controlling for treatment group differences in mean pre-treatment baseline values. ANCOVA model included main effects for type of study (home versus in-laboratory), site, and the pre-treatment baseline value of the outcome measure.||||0.9171
92379107|NCT03007745|184661086|NON_INFERIORITY|We hypothesized that the lower bound of the non-inferiority analysis of FOSQ-10 would be greater than the a-priori threshold of -1.0.|||||>|0.05||||||"Adjusted group difference in mean change in FOSQ-10 score from baseline to Month 3, controlling for baseline FOSQ and site, was -0.06 ± 061 (SEM) (P = 0.917).~The lower bound of the 95% noninferiority confidence interval was -1.08"|ANCOVA|||||||>0.05
92379108|NCT03007745|184661087|SUPERIORITY||Mean Difference (Net)|-3.31|STANDARD_DEVIATION|4.86|<|0.0001|ONE_SIDED|||||Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data) Paired t-test comparing baseline and 3-month measures within group|t-test, 2 sided|||Paired t-test comparing baseline and 3-month measures within group||||<0.0001
92379109|NCT03007745|184661087|SUPERIORITY||Mean Difference (Net)|-3.51|STANDARD_DEVIATION|5.52|<|0.0001|TWO_SIDED|||||Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data) Paired t-test comparing baseline and 3-month measures within group|t-test, 2 sided|||Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data) Paired t-test comparing baseline and 3-month measures within group||||<0.0001
92379110|NCT03007745|184661087|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.85||0.9251|ONE_SIDED||||||ANCOVA|ANCOVA included main effects for group, site, and the pre-treatment baseline value of the outcome measure||Adjusted differences in mean changes were estimated as site-total-sample-size weighted values controlling for treatment group differences in mean pre-treatment baseline values. ANCOVA model included main effects for type of study (home versus in-laboratory), site, and the pre-treatment baseline value of the outcome measure.||||0.9251
92379111|NCT03007745|184661088|SUPERIORITY|Paired t-test comparing change in score (3-month - baseline) within group|Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.33||0.4116|ONE_SIDED||||||t-test, 2 sided|Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data)||Within arm change from baseline to 3 month follow-up||||0.4116
92379112|NCT03007745|184661088|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_DEVIATION|0.39||0.2201|ONE_SIDED||||||t-test, 2 sided|||Paired t-test comparing change in score (3-month - baseline) within group||||0.2201
92379113|NCT03007745|184661088|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.06||0.1732|TWO_SIDED||||||ANCOVA|ANCOVA included main effects for group, site, and the pre-treatment baseline value of the outcome measure||Adjusted differences in mean changes between groups from baseline to month 3 in participants initiated on CPAP (LOCF applied using 1-month data).||||0.1732
92379114|NCT03007745|184661089|SUPERIORITY||Mean Difference (Final Values)|-2.76|STANDARD_DEVIATION|4.73|<|0.0003|ONE_SIDED||||||t-test, 2 sided|Unadjusted||Paired t-test comparing baseline and 3-month measures within group||||<0.0003
92379115|NCT03007745|184661089|SUPERIORITY||Mean Difference (Final Values)|-2.38|STANDARD_DEVIATION|5.2|<|0.0001|TWO_SIDED||||||t-test, 2 sided|Unadjusted||Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data) Paired t-test comparing baseline and 3-month measures within group||||<0.0001
92412302|NCT00244140|184714591|SUPERIORITY_OR_OTHER||Percent Images Rated Good/Excellent: BR1|95.8||||||95.0|93.3|97.6||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 1 (BR1).||97.6|93.3|
92240380|NCT00069576|184384213|SUPERIORITY||Risk Ratio (RR)|1.23|||||TWO_SIDED|95.0|0.74|2.05||||||||2.05|0.74|
92379116|NCT03007745|184661089|SUPERIORITY||Median Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.9||0.673|TWO_SIDED||||||ANCOVA|ANCOVA included main effects for group, site, and the pre-treatment baseline value of the outcome measure||Adjusted differences in mean changes were estimated as site-total-sample-size weighted values controlling for treatment group differences in mean pre-treatment baseline values. Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data)||||0.6730
92379117|NCT03007745|184661090|SUPERIORITY||Mean Difference (Net)|-5.94|STANDARD_DEVIATION|6.17|<|0.0001|TWO_SIDED|||||Unadjusted|t-test, 2 sided|Paired t-test comparing baseline and 3-month measures within group (LOCF applied using 1-month data)||Paired t-test comparing baseline and 3-month measures within group (LOCF applied using 1-month data)||||<0.0001
92379118|NCT03007745|184661090|SUPERIORITY|Paired t-test comparing baseline and 3-month measures within group (LOCF applied using 1-month data)|Mean Difference (Final Values)|-5.6|STANDARD_DEVIATION|6.96||0.0001|TWO_SIDED|||||Unadjusted|t-test, 2 sided|||Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data)||||0.0001
92412303|NCT00244140|184714591|SUPERIORITY_OR_OTHER||Percent Images Rated Good/Excellent: BR2|96.3||||||95.0|93.9|98.0||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 2 (BR2).||98.0|93.9|
92412304|NCT00244140|184714591|SUPERIORITY_OR_OTHER||Percent Images Rated Good/Excellent: BR3|98.4||||||95.0|96.6|99.4||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 3 (BR3).||99.4|96.6|
92412305|NCT00244140|184714592|SUPERIORITY_OR_OTHER||Percent Images Rated Yes|99.7||||||95.0|98.6|100.0||||||||100.0|98.6|
92412306|NCT00244140|184714593|SUPERIORITY_OR_OTHER||Percent Images Rated Good/Excellent|99.5||||||95.0|98.1|99.9||||||||99.9|98.1|
92240381|NCT00069576|184384214|SUPERIORITY||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.36|1.62||||||||1.62|0.36|
92412307|NCT00244140|184714594|SUPERIORITY_OR_OTHER||Percent Images Rated Yes: BR1|98.4||||||95.0|96.6|99.4||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 1 (BR1).||99.4|96.6|
92240382|NCT00069576|184384215|SUPERIORITY_OR_OTHER|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
92412308|NCT00244140|184714594|SUPERIORITY_OR_OTHER||Percent Images Rated Yes: BR2|100.0||||||95.0|99.0|100.0||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 2 (BR2).||100.0|99.0|
92412309|NCT00244140|184714594|SUPERIORITY_OR_OTHER||Percent Images Rated Yes: BR3|99.7||||||95.0|98.6|100.0||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 3 (BR3).||100.0|98.6|
92412310|NCT02673541|184714596|OTHER|||||||1|||||||Fisher Exact|||||||1
92412311|NCT05408637|184714601|OTHER|The small sample size did not allow for statistical tests. Therefore, we looked at overall patterns and calculated differences between stimulation (Active vs Sham).|Mean Difference (Final Values)|54.75|||||TWO_SIDED||||||||Difference = Active - Sham|||||
92412312|NCT05408637|184714601|OTHER||Percent Difference|0.85|||||TWO_SIDED||||||||Difference = Active - Sham|The small sample size did not allow for statistical tests. Therefore, we looked at percent difference between stimulation (Active vs Sham).||||
92231458|NCT01431287|184365485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.034|STANDARD_ERROR_OF_MEAN|0.025||0.1774|TWO_SIDED|95.0|-0.015|0.083||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.083|-0.015|0.1774
92231459|NCT01431287|184365486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.219|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.169|0.268||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.268|0.169|<0.0001
92231460|NCT01431287|184365486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.143|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.094|0.193||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.193|0.094|<0.0001
92412313|NCT05408637|184714601|OTHER||Cohen's d|0.07|||||TWO_SIDED|||||||||We evaluated the effect size of the difference between Active and Sham using Cohen's d.||||
92412314|NCT05408637|184714602|OTHER|The small sample size did not allow for statistical tests. Therefore, we looked at overall patterns and calculated differences between active stimulation timepoints (Day 1 vs Day 5).|Mean Difference (Final Values)|224.8392|||||TWO_SIDED||||||||Difference = Day 5 Active - Day 1 Active|||||
92412315|NCT05408637|184714602|OTHER||Percent Difference|4.35|||||TWO_SIDED||||||||Difference = Day 5 Active - Day 1 Active|The small sample size did not allow for statistical tests. Therefore, we calculated percent difference between active stimulation timepoints (Day 1 vs Day 5).||||
92412316|NCT05408637|184714602|OTHER||Cohen's d|0.36|||||TWO_SIDED|||||||||We evaluated the effect size of the difference between active stimulation timepoints (Day 1 vs Day 5) using Cohen's d.||||
92412317|NCT05408637|184714603|OTHER||rank biserial correlation coefficient|0.767||||0.15|TWO_SIDED||||||Wilcoxon signed rank test|||The Wilcoxon signed-rank test was used to evaluate changes in the IGT at Baseline vs Day 5 due to the small sample size and distributional assumptions. Effect sizes were calculated using the rank biserial correlation coefficient (r) to estimate the magnitude of change.||||0.15
92412318|NCT05408637|184714603|OTHER|The Friedman test was used to assess overall differences in IGT across Baseline, Day 1, and Day 5.||||||0.038|||||||Friedman test|||||||0.038
92412319|NCT05408637|184714603|OTHER|The Friedman test was used to assess overall differences in IGT across all timepoints (Baseline, Day 1, Day 5, Follow-Up).||||||0.043|||||||Friedman test|||||||0.043
92412320|NCT05408637|184714603|OTHER|The Wilcoxon signed-rank test was used to evaluate changes in the BIS across timepoints due to the small sample size and distributional assumptions. Effect sizes were calculated using the rank biserial correlation coefficient (r) to estimate the magnitude of change.|rank biserial correlation coefficient|0.134||||0.42|TWO_SIDED||||||Wilcoxon signed rank test|BIS across timepoints||||||0.42
92412321|NCT05408637|184714603|OTHER|The Wilcoxon signed-rank test was used to evaluate changes in the BRIEF-A across timepoints due to the small sample size and distributional assumptions.||||||0.232|||||||Wilcoxon signed rank test|BRIEF-A across timepoints||||||0.232
92412322|NCT05408637|184714603|OTHER|The Wilcoxon signed-rank test was used to evaluate changes in the i7 Impulsivity across timepoints due to the small sample size and distributional assumptions. Effect sizes were calculated using the rank biserial correlation coefficient (r) to estimate the magnitude of change.|rank biserial correlation coefficient|0.575||||0.06|TWO_SIDED||||||Wilcoxon signed rank test|i7 Impulsivity||||||0.06
92231461|NCT01431287|184365486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.209|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.16|0.258||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.258|0.160|<0.0001
92231462|NCT01431287|184365486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.153|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.104|0.203||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.203|0.104|<0.0001
92280418|NCT03466411|184463524|SUPERIORITY||Adjusted treatment difference|32.9|||<|0.001|TWO_SIDED|95.0|23.5|42.4|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel-Haenszel stratum weights and the Sato variance estimator.|||42.4|23.5|<0.001
92379119|NCT03007745|184661090|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|1.11||0.9903|TWO_SIDED|||||ANCOVA included main effects for group, site, and the pre-treatment baseline value of the outcome measure|ANCOVA|Adjusted differences in mean changes estimated as site-total-sample-size weighted values controlling for group differences in mean baseline values||Between group comparison of change in Insomnia Severity Index (ISI) at 3 months (LOCF applied using 1-month data)||||0.9903
92379120|NCT03007745|184661094|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||Between group comparison of Client Satisfaction Questionnaire (CSQ-8) at 3 months (LOCF applied using 1-month data)||||>0.05
92379121|NCT03007745|184661095|NON_INFERIORITY|The a-priori lower bound selected for the non-inferiority analysis of average daily CPAP use over 3 months was -0.75 hours.|Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.37||0.308|TWO_SIDED|||||Group difference (REVAMP - In-person) in mean CPAP daily use over all days adjusted for investigative site.|ANCOVA|The lower bound of the 95% noninferiority confidence interval was -0.22.||||||0.308
92379122|NCT00159913|184661127|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.71|STANDARD_ERROR_OF_MEAN|3.98||0.056||95.0|-0.19|15.6||No adjustments for multiple comparisons have been made.|ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates.||||15.60|-0.19|0.056
92379123|NCT00159913|184661127|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.81|STANDARD_ERROR_OF_MEAN|5.0||||95.0|-6.11|13.73|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates.||||13.73|-6.11|
92379124|NCT00159913|184661127|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|11.33|STANDARD_ERROR_OF_MEAN|4.84||||95.0|1.72|20.94|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates.||||20.94|1.72|
92379125|NCT00159913|184661127|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.98|STANDARD_ERROR_OF_MEAN|4.85||||95.0|-1.64|17.6|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates.||||17.60|-1.64|
92379126|NCT00159913|184661128|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|2.2||0.172||95.0|-7.5|1.3|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met with main analysis: alternative=excluding outliers||||1.3|-7.5|0.172
92379127|NCT00159913|184661128|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|3.1||||95.0|-4.5|7.6|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met with main analysis: alternative=excluding outliers||||7.6|-4.5|
92379128|NCT00159913|184661128|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|2.7||||95.0|-8.9|1.9|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met with main analysis: alternative=excluding outliers||||1.9|-8.9|
92379129|NCT00159913|184661128|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|2.6||||95.0|-12.4|-2.1|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met with main analysis: alternative=excluding outliers||||-2.1|-12.4|
92379130|NCT00159913|184661129|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|2.0||0.041||95.0|-8.0|-0.2|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met w/ main analysis: alternative=natural log transformed||||-0.2|-8.0|0.041
92379131|NCT00159913|184661129|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.7||||95.0|-5.9|4.7|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met w/ main analysis: alternative=natural log transformed||||4.7|-5.9|
92231463|NCT01431287|184365486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.134|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.084|0.183||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.183|0.084|<0.0001
92231464|NCT01431287|184365486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.025||0.6974|TWO_SIDED|95.0|-0.04|0.059||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.059|-0.040|0.6974
92231465|NCT01431287|184365486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.163|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.114|0.213||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.213|0.114|<0.0001
92231466|NCT01431287|184365486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.025||0.0027|TWO_SIDED|95.0|0.026|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.125|0.026|0.0027
92379132|NCT00159913|184661129|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|2.4||||95.0|-9.3|0.3|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met w/ main analysis: alternative=natural log transformed||||0.3|-9.3|
92379133|NCT00159913|184661129|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|2.3||||95.0|-11.7|-2.7|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met w/ main analysis: alternative=natural log transformed||||-2.7|-11.7|
92379134|NCT00159913|184661130|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|2.36||0.795||95.0|-4.07|5.3|||ANCOVA|The model included the covariates etiology and weight group||||5.30|-4.07|0.795
92379135|NCT00159913|184661130|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.62|STANDARD_ERROR_OF_MEAN|2.99||||95.0|-3.31|8.54|||ANCOVA|The model included the covariates etiology and weight group||||8.54|-3.31|
92379136|NCT00159913|184661130|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|2.92||||95.0|-7.09|4.5|||ANCOVA|The model included the covariates etiology and weight group||||4.50|-7.09|
92379137|NCT00159913|184661130|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|2.9||||95.0|-5.24|6.28|||ANCOVA|The model included the covariates etiology and weight group||||6.28|-5.24|
92379138|NCT00159913|184661131|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.24|STANDARD_ERROR_OF_MEAN|6.2||0.139||95.0|-3.05|21.54|||ANCOVA|The model included the covariates etiology and weight group||||21.54|-3.05|0.139
92379139|NCT00159913|184661131|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.34|STANDARD_ERROR_OF_MEAN|7.84||||95.0|-5.21|25.9|||ANCOVA|The model included the covariates etiology and weight group||||25.90|-5.21|
92379140|NCT00159913|184661131|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.43|STANDARD_ERROR_OF_MEAN|7.67||||95.0|-3.78|26.64|||ANCOVA|The model included the covariates etiology and weight group||||26.64|-3.78|
92379141|NCT00159913|184661131|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.96|STANDARD_ERROR_OF_MEAN|7.62||||95.0|-9.16|21.08|||ANCOVA|The model included the covariates etiology and weight group||||21.08|-9.16|
92379142|NCT00159913|184661132|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|2.1||0.172||95.0|-7.1|1.3|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.3|-7.1|0.172
92379143|NCT00159913|184661132|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|2.9||||95.0|-5.5|5.9|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||5.9|-5.5|
92379144|NCT00159913|184661132|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|2.6||||95.0|-8.5|1.7|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.7|-8.5|
92379145|NCT00159913|184661132|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|2.4||||95.0|-10.3|-0.7|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||-0.7|-10.3|
92379146|NCT00159913|184661133|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|0.3||0.015||95.0|0.14|1.34|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.34|0.14|0.015
92379147|NCT00159913|184661133|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.41||||95.0|-0.1|1.52|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.52|-0.10|
92379148|NCT00159913|184661133|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.37||||95.0|-0.12|1.35|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.35|-0.12|
92231467|NCT01431287|184365486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.056|STANDARD_ERROR_OF_MEAN|0.025||0.0269|TWO_SIDED|95.0|0.006|0.105||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.105|0.006|0.0269
92231468|NCT01431287|184365486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.025||0.4343|TWO_SIDED|95.0|-0.03|0.069||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.069|-0.030|0.4343
92278060|NCT03151499|184458164|OTHER||Geometric mean (gMean) ratio (%)|7.8|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|90.0|5.74|10.601|||||gMean ratio = BI 409306 + Rifampicin pretreatment (T) / BI 409306 (R). Standard Error of the mean is actually the Geometric Standard Error.|The main focus is on estimation, therefore no hypothesis was tested. The statistical analysis model for the primary endpoints is an ANOVA (analysis of variance). This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' will be considered as random, whereas the treatment effect will be considered as fixed. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||10.601|5.740|
92412323|NCT05408637|184714603|OTHER|The Wilcoxon signed-rank test was used to evaluate changes in the i7 Venturesomeness across timepoints due to the small sample size and distributional assumptions. Effect sizes were calculated using the rank biserial correlation coefficient (r) to estimate the magnitude of change.|rank biserial correlation coefficient|0.275||||0.36|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.36
92412324|NCT05408637|184714604|OTHER|Non-parametric tests were employed to evaluate changes across MOODS-SR Baseline to Day 5 due to the small sample size and distributional assumptions. The Wilcoxon signed-rank tests were applied for pairwise comparisons. Effect sizes were calculated using Cohen's d to estimate the magnitude of change.|Cohen's d|0.12||||0.6|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.6
92412325|NCT05408637|184714604|OTHER|Non-parametric tests were employed to evaluate changes across MOODS-SR Baseline to Follow Up due to the small sample size and distributional assumptions. The Wilcoxon signed-rank tests were applied for pairwise comparisons. Effect sizes were calculated using Cohen's d to estimate the magnitude of change.|Cohen's d|0.24||||0.2|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.2
92412326|NCT04975438|184714605|OTHER||Posterior Median Difference|-33.21|||||TWO_SIDED|95.0|-50.96|-14.84|||||The posterior median of the difference (GSK1070806 - placebo) and 95% credible interval in PCFB in the EASI is presented. Analysis was performed using Bayesian analysis under the hypothetical strategy using an informative prior (robust MAP prior).|||-14.84|-50.96|
92412327|NCT04975438|184714606|OTHER||Posterior Median Difference|-9.68|||||TWO_SIDED|95.0|-15.7|-3.6|||||The posterior median of the difference (GSK1070806 - placebo) and 95% credible interval in PCFB in the EASI is presented. Analysis was performed using Bayesian analysis with vague priors and adjusting for baseline EASI.|||-3.60|-15.70|
92231469|NCT01431287|184365487|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.198|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.148|0.248||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.248|0.148|<0.0001
92412328|NCT02693132|184714632|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92412329|NCT02693132|184714633|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92412330|NCT02693132|184714634|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92412331|NCT02693132|184714635|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92412332|NCT02693132|184714636|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92412333|NCT01168986|184714638|SUPERIORITY_OR_OTHER|||||||0.1|||||||Mixed Models Analysis|||||||0.10
92412334|NCT01168986|184714639|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Mixed Models Analysis|||||||0.18
92412335|NCT01168986|184714640|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Mixed Models Analysis|||||||0.87
92412336|NCT01168986|184714641|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Mixed Models Analysis|||||||0.45
92412337|NCT03116152|184714699|SUPERIORITY||Hazard Ratio (HR)|0.701||||0.032|TWO_SIDED|95.0|0.504|0.972|||Log Rank|||||0.972|0.504|0.032
92412338|NCT03116152|184714700|SUPERIORITY||Hazard Ratio (HR)|1.002||||0.979|TWO_SIDED|95.0|0.722|1.391|||Log Rank|||||1.391|0.722|0.979
92412339|NCT03116152|184714701|SUPERIORITY||Difference in Percentages|6.3|||||TWO_SIDED|95.0|-2.2|15.4||||||||15.4|-2.2|
92412340|NCT03116152|184714702|SUPERIORITY|||||||0.345|||||||Log Rank|||||||0.345
92412341|NCT00275340|184714703|NON_INFERIORITY_OR_EQUIVALENCE|Study was not powered to determine significant group differences; thus trends are reported for p\<0.20.|||||p<|0||95.0|||||t-test, 2 sided|||Mean change scores were computed on domain and summary scores. Mean differences in change scores between groups were computed and t-tests used to detect significant differences.||||p<0.20
92412342|NCT00862641|184714709|SUPERIORITY_OR_OTHER|||||||0.1451||95.0|||||Cochran-Mantel-Haenszel|Analysis of treatment effect was based on the Cochran-Mantel Haenszel(CMH) test stratified by investigative site. Sites with \<15 subjects were pooled.||||||0.1451
92412343|NCT00862641|184714709|SUPERIORITY_OR_OTHER|||||||0.579||95.0|||||Cochran-Mantel-Haenszel|Analysis of treatment effect was based on the CMH test stratified by investigative site. Sites with less than 15 subjects were pooled.||||||0.5790
92412344|NCT00862641|184714712|SUPERIORITY_OR_OTHER|||||||0.0029||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.0029
92412345|NCT00862641|184714712|SUPERIORITY_OR_OTHER|||||||0.6189||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.6189
92412346|NCT00862641|184714713|SUPERIORITY_OR_OTHER|||||||0.0015||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.0015
92412347|NCT00862641|184714713|SUPERIORITY_OR_OTHER|||||||0.4385||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.4385
92412348|NCT00862641|184714714|SUPERIORITY_OR_OTHER|||||||0.0789||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.0789
92412349|NCT00862641|184714714|SUPERIORITY_OR_OTHER|||||||0.0258||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.0258
92231470|NCT01431287|184365487|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.146|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.096|0.197||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.197|0.096|<0.0001
92379149|NCT00159913|184661133|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.35||||95.0|0.21|1.58|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.58|0.21|
92379150|NCT00159913|184661134|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.64||0.44||95.0|-1.77|0.77|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||0.77|-1.77|0.440
92379151|NCT00159913|184661134|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.88||||95.0|-1.91|1.57|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.57|-1.91|
92379152|NCT00159913|184661134|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.78||||95.0|-1.73|1.36|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.36|-1.73|
92379153|NCT00159913|184661134|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|0.75||||95.0|-2.61|0.33|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||0.33|-2.61|
92379154|NCT00159913|184661135|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|1.93||0.75||95.0|-4.45|3.21|||ANCOVA|The covariates included in the model were baseline scale, etiology, weight and capability of performing the exercise test.||||3.21|-4.45|0.750
92379155|NCT00159913|184661135|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|2.57||||95.0|-4.21|5.95|||ANCOVA|||||5.95|-4.21|
92379156|NCT00159913|184661135|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|2.49||||95.0|-4.68|5.15|||ANCOVA|||||5.15|-4.68|
92379157|NCT00159913|184661135|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.96|STANDARD_ERROR_OF_MEAN|2.23||||95.0|-7.37|1.45|||ANCOVA|||||1.45|-7.37|
92379158|NCT00159913|184661136|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|1.51||0.784||95.0|-3.41|2.58|||ANCOVA|The covariates included in the model were baseline scale, etiology, weight and capability of performing the exercise test.||||2.58|-3.41|0.784
92379159|NCT00159913|184661136|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|1.97||||95.0|-3.49|4.3|||ANCOVA|||||4.30|-3.49|
92379160|NCT00159913|184661136|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|1.96||||95.0|-5.99|1.77|||ANCOVA|||||1.77|-5.99|
92379161|NCT00159913|184661136|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|1.77||||95.0|-3.06|3.97|||ANCOVA|||||3.97|-3.06|
92412350|NCT00862641|184714715|SUPERIORITY_OR_OTHER|||||||0.2087||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.2087
92412351|NCT00862641|184714715|SUPERIORITY_OR_OTHER|||||||0.0289||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.0289
92412352|NCT00862641|184714716|SUPERIORITY_OR_OTHER|||||||0.9904||95.0|||||ANCOVA|||"P-value applies to 'Change at Hour 2'~P-value based on ranked analysis of covariance with treatment and investigator site as main effects and baseline value as a covariate in the model."||||0.9904
92379162|NCT00159913|184661137|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.83||||0.184||95.0|0.75|4.45|||Regression, Logistic|Proportional odds method. Model covariates were baseline WHO functional class, etiology, weight group and capability of performing the exercise test.||||4.45|0.75|0.184
92379163|NCT00159913|184661137|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.6||||0.409||95.0|0.18|2.01|||Regression, Logistic|Proportional odds method. Model covariates were baseline WHO functional class, etiology, weight group and capability of performing the exercise test.||||2.01|0.18|0.409
92379164|NCT00159913|184661137|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.25||||0.146||95.0|0.75|6.69|||Regression, Logistic|Proportional odds method. Model covariates were baseline WHO functional class, etiology, weight group and capability of performing the exercise test.||||6.69|0.75|0.146
92379165|NCT00159913|184661137|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.52||||0.006||95.0|1.56|13.1|||Regression, Logistic|Proportional odds method. Model covariates were baseline WHO functional class, etiology, weight group and capability of performing the exercise test.||||13.10|1.56|0.006
92379166|NCT00159913|184661138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.89|STANDARD_ERROR_OF_MEAN|4.35||0.179||95.0|-2.74|14.53|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates||||14.53|-2.74|0.179
92379167|NCT00159913|184661138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|5.35||||95.0|-9.49|11.77|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates||||11.77|-9.49|
92379168|NCT00159913|184661138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|5.36||||95.0|0.66|21.96|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates||||21.96|0.66|
92379169|NCT00159913|184661138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.24|STANDARD_ERROR_OF_MEAN|5.16||||95.0|-5.02|15.5|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates||||15.50|-5.02|
92412353|NCT00862641|184714716|SUPERIORITY_OR_OTHER|||||||0.8085||95.0|||||ANCOVA|||"P-value applies to 'Change at Hour 2'~P-value based on ranked analysis of covariance with treatment and investigator site as main effects and baseline value as a covariate in the model."||||0.8085
92412354|NCT02365480|184714720|OTHER||Odds Ratio (OR)|1.91||||0.6|TWO_SIDED|95.0|0.1|36.37|||Fisher Exact|||||36.37|0.10|0.60
92412355|NCT01419197|184714727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.528|||<|0.0001|TWO_SIDED|95.0|0.422|0.661||The two-sided stratified log-rank test was used to compare progression-free survival between the two treatment arms at the overall two-sided significance level of 0.5%.|Log Rank||The hazard ratio was estimated by Cox regression.|The analysis was stratified for 1) World region (United States, Western Europe, or Other); 2) Number of prior regimens, excluding single-agent hormones, for treatment of metastatic or unresectable locally advanced/recurrent disease (≤ 3 or \> 3); and 3) Presence of visceral disease (any visceral disease vs no visceral disease).||0.661|0.422|<0.0001
92412356|NCT01419197|184714728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.552||||0.0034|TWO_SIDED|95.0|0.369|0.826||The 2-sided stratified log-rank test was used at the overall two-sided significance level of 4.5%. The pre-specified O'Brien-Fleming stopping boundary for this first OS interim analysis was HR\<0.363 (p-value \< 0.0000013).|Log Rank||The hazard ratio was estimated by Cox regression.|The analysis was stratified for 1) World region (United States, Western Europe, or Other); 2) Number of prior regimens, excluding single-agent hormones, for treatment of metastatic or unresectable locally advanced/recurrent disease (≤ 3 or \> 3); and 3) Presence of visceral disease (any visceral disease vs no visceral disease).||0.826|0.369|0.0034
92412357|NCT01419197|184714729|SUPERIORITY_OR_OTHER||Difference in Response Percentage|22.7|||<|0.0001|TWO_SIDED|95.0|16.2|29.2|||Mantel Haenszel|||The analysis was stratified for 1) World region (United States, Western Europe, or Other); 2) Number of prior regimens, excluding single-agent hormones, for treatment of metastatic or unresectable locally advanced/recurrent disease (≤ 3 or \> 3); and 3) Presence of visceral disease (any visceral disease vs no visceral disease).||29.2|16.2|<0.0001
92412358|NCT01419197|184714731|SUPERIORITY_OR_OTHER||Difference in Survival Percentage|12.6||||0.0011|TWO_SIDED|95.0|5.03|20.09||The p-value for the difference in survival rate was derived from the z-test using the standard errors computed using Greenwood's method.|z-test|||6-month survival||20.09|5.03|0.0011
92412359|NCT01419197|184714731|SUPERIORITY_OR_OTHER||Difference in Survival Percentage|11.7||||0.1805|TWO_SIDED|95.0|-5.41|28.75||The p-value for the difference in survival rates was derived from the z-test using the standard errors computed using Greenwood's method.|z-test|||1-year survival||28.75|-5.41|0.1805
92412360|NCT01419197|184714732|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.115||||0.4952|TWO_SIDED|95.0|0.819|1.517|||Log Rank|||The analysis was stratified for 1) World region (United States, Western Europe, or Other); 2) Number of prior regimens, excluding single-agent hormones, for treatment of metastatic or unresectable locally advanced/recurrent disease (≤ 3 or \> 3); and 3) Presence of visceral disease (any visceral disease vs no visceral disease).||1.517|0.819|0.4952
92412361|NCT01419197|184714734|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.677||||0.0007|TWO_SIDED|95.0|0.539|0.85||The two-sided stratified log-rank test was used at the overall two-sided significance level of 4.5%. The pre-specified O'Brien-Fleming stopping boundary for this second and final interim analysis was HR\<0.748 (p value \< 0.012).|Log Rank||The hazard ratio was estimated by Cox regression.|The analysis was stratified for 1) World region (United States, Western Europe, or Other); 2) Number of prior regimens, excluding single-agent hormones, for treatment of metastatic or unresectable locally advanced/recurrent disease (≤ 3 or \> 3); and 3) Presence of visceral disease (any visceral disease versus no visceral disease).||0.850|0.539|0.0007
92412362|NCT01419197|184714735|SUPERIORITY_OR_OTHER||Difference in Survival Percentage|12.4||||0.0003|TWO_SIDED|95.0|5.67|19.14||The p-value for the difference in survival rate was derived from the z-test using the standard errors computed using Greenwood's method.|z-test|||6-month survival||19.14|5.67|0.0003
92412363|NCT01419197|184714735|SUPERIORITY_OR_OTHER||Difference in Survival Percentage|11.0||||0.0104|TWO_SIDED|95.0|2.58|19.33||The p-value for the difference in survival rates was derived from the z-test using the standard errors computed using Greenwood's method.|z-test|||1-year survival||19.33|2.58|0.0104
92412364|NCT01099449|184714736|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.73|||||||Wilcoxon (Mann-Whitney)|||Two-sample t-tests or Wilcoxon rank-sum tests will be used\>\> to compare the AUC of CIPN sensory subscale between each of the two schedules of\>\> Ca/Mg infusions vs placebo arms at the 2.5% significance level. If the CIPN sensory\>\> subscales are observed to be unbalanced, we will adjust for the baseline CIPN sensory\>\> subscale scores from the AUC or incorporate them as a covariate in generalized linear\>\> regression model.||||.73
92412365|NCT01099449|184714736|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.29|||||||Wilcoxon (Mann-Whitney)|||Two-sample t-tests or Wilcoxon rank-sum tests will be used\>\> to compare the AUC of CIPN sensory subscale between each of the two schedules of\>\> Ca/Mg infusions vs placebo arms at the 2.5% significance level. If the CIPN sensory\>\> subscales are observed to be unbalanced, we will adjust for the baseline CIPN sensory\>\> subscale scores from the AUC or incorporate them as a covariate in generalized linear\>\> regression model.||||.29
92412366|NCT01099449|184714737|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.054|||||||Wilcoxon (Mann-Whitney)|||We will not adjust p-values (or significance level) for multiple\>\> comparisons among the numerous hypothesis testings of secondary endpoints due to the\>\> exploratory nature of these secondary analyses. The significance results from secondary\>\> analyses will be interpreted cautiously in a hypothesis-generating fashion.||||.054
92412367|NCT01099449|184714737|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.27|||||||Wilcoxon (Mann-Whitney)|||We will not adjust p-values (or significance level) for multiple\>\> comparisons among the numerous hypothesis testings of secondary endpoints due to the\>\> exploratory nature of these secondary analyses. The significance results from secondary\>\> analyses will be interpreted cautiously in a hypothesis-generating fashion.||||.27
92280419|NCT03466411|184463525|SUPERIORITY||Adjusted treatment difference|34.2|||<|0.001|TWO_SIDED|95.0|23.2|45.3|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||45.3|23.2|<0.001
92412368|NCT01099449|184714738|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.29|||||||Wilcoxon (Mann-Whitney)|||We will not adjust p-values (or significance level) for multiple\>\> comparisons among the numerous hypothesis testings of secondary endpoints due to the\>\> exploratory nature of these secondary analyses. The significance results from secondary\>\> analyses will be interpreted cautiously in a hypothesis-generating fashion.||||.29
92412369|NCT01099449|184714738|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.25|||||||Wilcoxon (Mann-Whitney)|||We will not adjust p-values (or significance level) for multiple\>\> comparisons among the numerous hypothesis testings of secondary endpoints due to the\>\> exploratory nature of these secondary analyses. The significance results from secondary\>\> analyses will be interpreted cautiously in a hypothesis-generating fashion.||||.25
92412370|NCT01099449|184714741|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Kruskal Wallis Analysis||||||0.89|||||||Kruskal-Wallis|||||||.89
92412371|NCT01099449|184714741|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Kruskal Wallis Analysis||||||0.496|||||||Kruskal-Wallis|||||||.496
92412372|NCT01099449|184714742|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Chi-Squared Analysis||||||0.52|||||||Chi-squared|||||||.52
92412373|NCT01099449|184714742|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Chi-Squared Analysis||||||0.66|||||||Chi-squared|||||||.66
92231471|NCT01431287|184365487|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.208|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.158|0.258||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.258|0.158|<0.0001
92412374|NCT00146848|184714746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|1.75||0.86|TWO_SIDED|95.0|-3.14|3.74|||t-test, 2 sided|||The changes in quality of life were compared between groups using two-sided t-tests.||3.74|-3.14|0.86
92231472|NCT01431287|184365487|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.193|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.143|0.242||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.242|0.143|<0.0001
92278061|NCT03151499|184458165|OTHER||Geometric mean (gMean) ratio (%)|9.77|STANDARD_ERROR_OF_MEAN|1.232|||TWO_SIDED|90.0|6.767|14.098|||||gMean ratio = BI 409306 + Rifampicin pretreatment (T) / BI 409306 (R). Standard Error of the mean is actually the Geometric Standard Error.|The main focus is on estimation, therefore no hypothesis was tested. The statistical analysis model for the primary endpoints is an ANOVA (analysis of variance). This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' will be considered as random, whereas the treatment effect will be considered as fixed. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||14.098|6.767|
92412375|NCT00146848|184714746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.49|STANDARD_ERROR_OF_MEAN|1.87||0.43|TWO_SIDED|95.0|-2.18|5.16|||t-test, 2 sided|||The difference in changes in quality of life between groups were compared using a t-test.||5.16|-2.18|0.43
92412376|NCT00146848|184714747|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Cochran-Armitage test for trend|||One sided test testing for shift towards improvement in either atrial support pacing treatment arm compared to the DDD-40 arm.||||0.55
92412377|NCT00146848|184714747|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Cochran-Armitage test for trend|||||||0.80
92412378|NCT00146848|184714748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.17|STANDARD_ERROR_OF_MEAN|6.35||0.11|TWO_SIDED|95.0|-22.65|2.3|||t-test, 2 sided|||Compare the difference in the changes in physical activity scores between groups using a t-test.||2.30|-22.65|0.11
92412379|NCT00146848|184714748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.24|STANDARD_ERROR_OF_MEAN|6.55||0.04|TWO_SIDED|95.0|-26.11|-0.37|||t-test, 2 sided|||"Compare the difference in the changes in physical activity scores between groups using a t-test.~To adjust for multiple comparisons, an alpha level of 0.025 should be used to deem significance."||-0.37|-26.11|0.04
92412380|NCT02395172|184714749|SUPERIORITY||Hazard Ratio (HR)|0.87|||=|0.0721|TWO_SIDED|95.0|0.71|1.05|||Log Rank|||||1.05|0.71|= 0.0721
92412381|NCT02395172|184714750|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.77|1.05||||||||1.05|0.77|
92412382|NCT02395172|184714751|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.8|1.27||||||||1.27|0.80|
92412383|NCT02395172|184714752|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.98|1.41||||||||1.41|0.98|
92412384|NCT02395172|184714755|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.92|2.13||||||||2.13|0.92|
92412385|NCT02395172|184714756|SUPERIORITY||Odds Ratio (OR)|1.76|||||TWO_SIDED|95.0|1.08|2.86||||||||2.86|1.08|
92412386|NCT00029146|184714826|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|1.7||||0.78||95.0|-10.4|13.8|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Positive indicates lower rate in surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference. The 2-sided z-statistic was compared to a standard unit normal distribution.The study was terminated early for futility after 195 of the planned 372 participants were enrolled.||13.8|-10.4|0.78
92412387|NCT00029146|184714827|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|3.5||||0.59|TWO_SIDED|95.0|-9.2|16.1|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Positive indicates lower rate in surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors.||16.1|-9.2|0.59
92412388|NCT00029146|184714828|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|-3.2||||0.27|TWO_SIDED|95.0|-9.0|2.6|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Negative indicates lower rate in non-surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference.||2.6|-9.0|0.27
92231473|NCT01431287|184365487|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.156|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.106|0.206||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.206|0.106|<0.0001
92231474|NCT01431287|184365487|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.025||0.698|TWO_SIDED|95.0|-0.06|0.04||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.040|-0.060|0.6980
92231475|NCT01431287|184365487|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.183|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.132|0.233||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.233|0.132|<0.0001
92231476|NCT01431287|184365487|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.051|STANDARD_ERROR_OF_MEAN|0.026||0.0442|TWO_SIDED|95.0|0.001|0.102||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.102|0.001|0.0442
92231477|NCT01431287|184365487|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.015|STANDARD_ERROR_OF_MEAN|0.026||0.5514|TWO_SIDED|95.0|-0.035|0.065||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.065|-0.035|0.5514
92231478|NCT01431287|184365487|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.036|STANDARD_ERROR_OF_MEAN|0.026||0.1569|TWO_SIDED|95.0|-0.014|0.086||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.086|-0.014|0.1569
92379170|NCT00824005|184661161|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|2.9||0.169|TWO_SIDED|95.0|-0.42|2.34||No adjustment for multiple comparisons|t-test, 2 sided|||Compare the change in the cell group to the change in the placebo group.||2.34|-0.42|0.169
92379171|NCT00824005|184661162|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|23.9||0.856|TWO_SIDED|95.0|-10.05|12.07|||t-test, 2 sided|||Change in the difference of end systolic volume over time.||12.07|-10.05|0.856
92379172|NCT00824005|184661163|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|22.3||0.835|TWO_SIDED|95.0|-12.5|10.1||Is the change in percent reversible defect the same between the two groups|t-test, 2 sided|||Change in percent of the defect that is reversible||10.1|-12.5|0.835
92231479|NCT01431287|184365488|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.202|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.15|0.253||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.253|0.150|<0.0001
92280420|NCT03466411|184463525|SUPERIORITY||Adjusted treatment difference|35.0|||<|0.001|TWO_SIDED|95.0|23.5|46.5|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel-Haenszel stratum weights and the Sato variance estimator.|||46.5|23.5|<0.001
92412389|NCT00029146|184714829|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|1.3||||0.5|TWO_SIDED|95.0|-2.5|5.2|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Positive indicates lower rate in surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference.||5.2|-2.5|0.50
92412390|NCT00029146|184714830|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|4.0||||0.13|TWO_SIDED|95.0|-1.2|9.7|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Positive indicates lower rate in surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference.||9.7|-1.2|0.13
92379173|NCT00824005|184661166|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.471|TWO_SIDED|95.0|-0.3|0.14|||t-test, 2 sided|||Difference in the change between the two groups||0.14|-0.30|0.471
92379174|NCT00824005|184661167|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25|STANDARD_DEVIATION|0.784||0.227|TWO_SIDED|95.0|-0.66|0.16|||t-test, 2 sided|||Change in average improvement in Canadian Class Score over time between the two groups.||0.16|-0.66|0.227
92379175|NCT00824005|184661168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.176|STANDARD_ERROR_OF_MEAN|0.845||0.361|TWO_SIDED|95.0|-0.56|0.21|||t-test, 2 sided|||Difference in the change in NYHA score between the two groups||0.21|-0.56|0.361
92379176|NCT00824005|184661169|SUPERIORITY_OR_OTHER||Difference in the proportion of particip|0.04|STANDARD_DEVIATION|0.045||0.28|TWO_SIDED|95.0|-0.01|0.09|||Chi-squared|||Difference in the change in anti-anginal meds across groups||0.09|-0.01|0.28
92379177|NCT00824005|184661170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|104.0|STANDARD_DEVIATION|409.0||0.302|TWO_SIDED|95.0|-95.0|303.0|||t-test, 2 sided|||Change in six minute walk distance||303|-95|0.302
92412391|NCT00029146|184714831|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|6.5||||0.33|TWO_SIDED|95.0|-6.5|19.6|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Positive indicates lower rate in surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference.||19.6|-6.5|.33
92412392|NCT00029146|184714832|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|-6.6||||0.41|TWO_SIDED|95.0|-20.6|7.3|||Fisher Exact||Negative indicates lower rate in non-surgical group. In this case, lower rate is worse since Rankin 0-1 indicates a good outcome.|||7.3|-20.6|0.41
92412393|NCT00029146|184714833|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|4.4||||0.7|TWO_SIDED|95.0|-8.2|16.9|||Fisher Exact||Positive indicates lower rate in surgical group In this case, lower rate is worse since Rankin 0-2 indicates a good outcome.|||16.9|-8.2|0.70
92412394|NCT00029146|184714834|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Fisher's Exact Test|||||||0.85
92412395|NCT00029146|184714835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.13|TWO_SIDED|95.0|-0.54|0.07|||t-test, 2 sided||Negative indicates lower score in non-surgical group.A higher score indicates better quality of life|||0.07|-0.54|0.13
92412396|NCT00029146|184714836|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|1.5||||0.81|TWO_SIDED|95.0|-10.7|13.7|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.||Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference.||13.7|-10.7|0.81
92412397|NCT02663934|184714838|SUPERIORITY||Mean Difference (Net)|0.15||||0.31|TWO_SIDED|95.0|0.05|0.25|||ANOVA|||||.25|.05|0.31
92412398|NCT02663934|184714839|SUPERIORITY||Mean Difference (Net)|1.42||||0.24|TWO_SIDED||||||ANOVA|||Change in Global CBF in EXS vs. SIS||||.24
92412399|NCT02663934|184714839|OTHER||Slope|0.41||||0.02|ONE_SIDED|95.0|||||Regression, Linear|||Change in Strength \& Change in Frontal Brain Volume in EXS||||.02
92412400|NCT02663934|184714839|OTHER||Slope|0.4||||0.02|ONE_SIDED|95.0|||||Regression, Linear|||Changes in Brain Volumes associated with changes Memory Performance in EXS||||0.02
92412401|NCT02663934|184714840|OTHER||Slope|0.47||||0.005|ONE_SIDED|95.0|||||Regression, Linear|||Increases in Time Spent in MVPA and Increased Learning Performance in EXS||||.005
92412402|NCT00509145|184714862|SUPERIORITY||Risk Ratio (RR)|0.77|STANDARD_ERROR_OF_MEAN|0.066||0.0024|TWO_SIDED|95.0|0.65|0.911|||Over-dispersed Poisson Regression||Laquinimod 0.6 mg vs. placebo|Response variable: number of relapses during 24 months. Offset based on the log of subject's exposure in years was employed to adjust for variability of treatment exposure. In addition to the treatment group, the Poisson regression model included the following covariates: baseline EDSS score, log of prior 2-year number of relapses+1 and Country or Geographical Region (CGR).||0.911|0.650|0.0024
92412403|NCT01994889|184714903|SUPERIORITY|||||||0.0006|||||||Finkelstein-Schoenfeld Method|||||||0.0006
92412404|NCT01994889|184714904|SUPERIORITY||Hazard Ratio (HR)|0.698||||0.0259|TWO_SIDED|95.0|0.508|0.958|||Cox proportional hazards model||Hazard ratio from a Cox proportional hazards model with treatment, TTR genotype (variant and wild-type) and New York Heart Association (NYHA) baseline classification (NYHA Classes I and II combined and NYHA Class III) in the model.|||0.958|0.508|0.0259
92412405|NCT01994889|184714905|SUPERIORITY||Risk Ratio (RR)|0.6761|||<|0.0001|TWO_SIDED|95.0|0.5639|0.8107||Poisson regression analysis with treatment, TTR genotype, NYHA baseline classification, treatment-by-TTR genotype interaction, and treatment-by-NYHA baseline classification interaction terms as factors adjusted for treatment duration.|Poisson regression analysis|||||0.8107|0.5639|<0.0001
92412406|NCT01994889|184714906|SUPERIORITY||Least Square Mean Difference|75.68|STANDARD_ERROR_OF_MEAN|9.236|<|0.0001|TWO_SIDED|95.0|57.56|93.8|||Mixed Model Repeated Measures ANCOVA|||L.S. means are from an ANCOVA (MMRM) model with an unstructured covariance matrix; center and participant within center as random effects; treatment, visit, TTR genotype (variant and wild-type), and visit by treatment interaction, as fixed effects and baseline score as covariate.||93.80|57.56|<.0001
92412407|NCT01994889|184714907|SUPERIORITY||LS Mean Difference|13.65|STANDARD_ERROR_OF_MEAN|2.13|<|0.0001|TWO_SIDED|95.0|9.48|17.83|||Mixed Model Repeated Measures ANCOVA|||Change at Month 30||17.83|9.48|<.0001
92412408|NCT01994889|184714908|SUPERIORITY||Hazard Ratio (HR)|0.691||||0.0383|TWO_SIDED|95.0|0.488|0.98|||Cox proportional hazards model||Hazard ratio from a Cox proportional hazards model with treatment, TTR genotype (variant and wild-type) and NYHA baseline classification (NYHA Classes I and II combined and NYHA Class III) in the model.|||0.980|0.488|0.0383
92412409|NCT01994889|184714909|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92412410|NCT01215097|184714958|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.7|-0.34|||ANCOVA|||||-0.34|-0.70|<0.0001
92412411|NCT01215097|184714959|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.433|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001|TWO_SIDED|95.0|-0.555|-0.311|||ANCOVA|||||-0.311|-0.555|<0.0001
92412412|NCT01215097|184714960|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.591|STANDARD_ERROR_OF_MEAN|0.082|<|0.0001||95.0|-0.752|-0.43|||ANCOVA|||||-0.43|-0.752|<0.0001
92412413|NCT01215097|184714961|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.7|-0.35|||ANCOVA|||||-0.35|-0.70|<0.0001
92412414|NCT01215097|184714962|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.71|-0.32|||ANCOVA|||||-0.32|-0.71|<0.0001
92412415|NCT01215097|184714963|SUPERIORITY_OR_OTHER||Adjusted mean difference|-9.6|STANDARD_ERROR_OF_MEAN|4.2||0.0233||95.0|-17.8|-1.3|||ANCOVA|||||-1.3|-17.8|0.0233
92412416|NCT01215097|184714964|SUPERIORITY_OR_OTHER||Adjusted mean difference|-22.1|STANDARD_ERROR_OF_MEAN|3.3|<|0.0001||95.0|-28.7|-15.6|||ANCOVA|||||-15.6|-28.7|<0.0001
92412417|NCT01215097|184714965|SUPERIORITY_OR_OTHER||Adjusted mean difference|-10.2|STANDARD_ERROR_OF_MEAN|3.6||0.005||95.0|-17.3|-3.1|||ANCOVA|||||-3.1|-17.3|0.0050
92412418|NCT01215097|184714966|SUPERIORITY_OR_OTHER||Adjusted mean difference|-11.5|STANDARD_ERROR_OF_MEAN|4.0||0.0044||95.0|-19.5|-3.6|||ANCOVA|||||-3.6|-19.5|0.0044
92379178|NCT00824005|184661171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.7|STANDARD_DEVIATION|176.0||0.55|TWO_SIDED|95.0|-150.0|80.0|||t-test, 2 sided|||Difference in the change in BNP(reg) between cell and placebo group||80|-150|0.55
92379179|NCT00824005|184661172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.5|STANDARD_DEVIATION|31.2||0.198|TWO_SIDED|95.0|-5.03|23.93|||t-test, 2 sided|||Change in the difference of end diastolic volume between the two groups over time.||23.93|-5.03|0.198
92379180|NCT00824005|184661173|SUPERIORITY_OR_OTHER||Difference in the incidence rates|-0.047|STANDARD_ERROR_OF_MEAN|0.044||0.47|TWO_SIDED|95.0|-0.133|0.039|||t-test, 2 sided|||The difference in the incidence of major adverse cardiac events between the two groups over time. (Incidence rate)||0.039|-0.133|0.47
92379181|NCT00824005|184661174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|8.4||0.7|TWO_SIDED|95.0|-4.78|3.36|||t-test, 2 sided|||Difference in the change between the two groups||3.36|-4.78|0.7
92379182|NCT03458702|184661195|EQUIVALENCE|It would be expected at baseline that there were no differences between groups.|||||>|0.05|||||||t-test, 2 sided|||||||>.05
92412419|NCT01215097|184714968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.243|||<|0.0001||95.0|2.831|13.769|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication||Comparison by odds ratio for the patients with a baseline HbA1c \>=7.0%||13.769|2.831|<0.0001
92412420|NCT01215097|184714970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.97||||0.0129||95.0|1.404|17.592|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication||Comparison by odds ratio for the patients with a baseline HbA1c \>= 6.5%||17.592|1.404|0.0129
92231480|NCT01431287|184365488|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.183|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.132|0.234||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.234|0.132|<0.0001
92379183|NCT03458702|184661195|SUPERIORITY||||||<|0.001|||||||ANOVA|||ANOVA for TIME||||<0.001
92412421|NCT01215097|184714971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.054|||<|0.0001||95.0|1.799|5.185|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication||Comparison by odds ratio for the patients with HbA1c at least lowering 0.5% from baseline||5.185|1.799|<0.0001
92231481|NCT01431287|184365488|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.218|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.167|0.269||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.269|0.167|<0.0001
92379184|NCT03458702|184661196|EQUIVALENCE|It would be expected at baseline there would be no difference between groups.|||||>|0.05|||||||ANOVA|||||||>.05
92379185|NCT03458702|184661196|SUPERIORITY||||||<|0.001|||||||ANOVA|||ANOVA: Condition x Time Interaction||||<0.001
92379186|NCT03458702|184661196|SUPERIORITY|||||||0.005|||||||ANOVA|||ANOVA: TIME||||0.005
92379187|NCT03458702|184661197|EQUIVALENCE|It would be hypothesized that there would not be a difference at baseline.|||||>|0.05|||||||ANOVA|||||||> .05
92379188|NCT03458702|184661197|SUPERIORITY|||||||0.042|||||||ANOVA|||ANOVA: CONDITION X TIME INTERACTION||||0.042
92379189|NCT03458702|184661197|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||ANOVA: TIME||||<0.001
92379190|NCT03458702|184661198|EQUIVALENCE|A difference at baseline was not expected.|||||>|0.05|||||||ANOVA|||||||>.05
92379191|NCT03458702|184661198|SUPERIORITY|||||||0.016|||||||ANOVA|||ANOVA: TIME||||0.016
92379192|NCT03458702|184661199|EQUIVALENCE|no difference is expected at baseline|||||>|0.05|||||||ANOVA|||||||>.05
92379193|NCT03458702|184661199|SUPERIORITY|||||||0.026|||||||ANOVA|||ANOVA:TIME||||0.026
92379194|NCT03458702|184661200|SUPERIORITY||||||<|0.05|||||||t-test, 1 sided|||||||<.05
92379195|NCT00765882|184661203|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.93||||0.0012|TWO_SIDED|95.0|1.5|5.72||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null hypothesis: There is no difference in the proportion of 12-week CSBM overall responders between patients taking the 145-μg dose and those taking placebo.~The power, adjusted for multiplicity, was expected to be 90% based on study NCT00402337 (MCP-103-201) data."||5.72|1.50|0.0012
92379196|NCT00765882|184661203|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.22|||<|0.0001|TWO_SIDED|95.0|2.2|8.1||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null hypothesis: There is no difference in the proportion of 12-week CSBM overall responders between patients taking the 290-μg dose and those taking placebo.~The power, adjusted for multiplicity, was expected to be 96% based on study NCT00460811 (MCP-103-202) data."||8.10|2.20|<0.0001
92412422|NCT02558829|184714985|OTHER|Positive percent agreement \[%\] = 100% x A/(A+C). A= MAC outcome positive and ITT outcome positive; C = MAC outcome negative and ITT positive|CI (Clopper Pearson): positive agreement|74.32|||||TWO_SIDED|95.0|62.84|83.78||||||The estimated percentages of the agreements and the two-sided 95% confidence interval (or one-sided 97.5% confidence interval) of the percent agreement based on Clopper-Pearson are presented. The performance of the MAC (cut-off point 2.8 ng/mL) was considered to be acceptable if the lower bound of the two-sided 95% CI (or lower bound of the one-sided 97.5% CI) was 75% or higher for 'percent negative agreement', and 70% or higher for the 'percent positive agreement'.||83.78|62.84|
92412423|NCT02558829|184714985|OTHER|Negative percent agreement \[%\] = 100% x D/(B+D). D = MAC outcome negative and ITT outcome negative; B = MAC outcome positive and ITT outcome negative|CI (Clopper Pearson): negative agreement|93.94|||||TWO_SIDED|95.0|85.2|98.32||||||Please refer to Statistical Analysis 1.||98.32|85.20|
92412424|NCT02558829|184714986|OTHER|The secondary diagnostic accuracy measure was 'percent overall agreement'.|overall agreement|83.57|||||TWO_SIDED|95.0|76.38|89.29||||||This variable was analyzed using the same methodology described for the analyses for the primary efficacy variables. in the below, the results for Step 1 (peak GH level among all post baseline samples) are presented.||89.29|76.38|
92412425|NCT02558829|184714988|OTHER||Mean Difference (Final Values)|-2.9|STANDARD_DEVIATION|6.38|||TWO_SIDED|||||||||"Pre/post dose comparison of ECGs was done for both GHSTs. During the GHSTs, ECGs were measured at pre-dose (up to 15 min before) and 60 minutes post-dose. Furthermore, ECGs were measured at screening and at End-of-Study (EOS) Visit.~Calculations were done from two time points: baseline and 60 min post-dose. Baseline is either the screening or pre-dose value."||||
92412426|NCT02558829|184714988|OTHER|Please refer to Statistical Analysis 1 for this secondary outcome measure.|Mean Difference (Final Values)|1.8|STANDARD_DEVIATION|8.15|||TWO_SIDED|||||||||||||
92412427|NCT02558829|184714989|OTHER|Sensitivity is the probability that the test result is positive given the subject has the disease (for the purpose of this analysis, all group A subjects were assumed to have AGHD, but none of the group D subjects). Sensitivity (SS) was estimated by: SS = TP/(TP+FN). TP=True AGHD positive subject; FN=False AGHD negative subject.|CI (Clopper Pearson)|0.87|||||TWO_SIDED|95.0|0.72|0.96||||||Sensitivity was estimated for the MAC at the pre-defined cut-off point GH: 2.8 ng/mL.||0.96|0.72|
92412428|NCT02558829|184714989|OTHER|"Specificity is the probability that the test result is negative given the subject does not have the disease.~Specificity (SP) was estimated by: SP = TN/(TN+FP). TN = True AGHD negative Subjects; FP = False AGHD positive subjects."|CI (Clopper Pearson)|0.96|||||TWO_SIDED|95.0|0.8|1.0||||||Specificity was estimated for the MAC at the pre-defined cut-off point GH: 2.8 ng/mL.||1.00|0.80|
92412429|NCT02558829|184714990|OTHER|Positive percent agreement \[%\] = 100% x A/(A+C). A= test outcome positive for MAC core study part and positive for MAC repeatability extension; C = test outcome positive for MAC core study part and negative for MAC repeatability extension.|CI (Clopper Pearson): positive agreement|88.89|||||TWO_SIDED|95.0|65.29|98.62||||||Please refer to Statistical Analysis 1 for this outcome.||98.62|65.29|
92412430|NCT02558829|184714990|OTHER|Negative percent agreement \[%\] = 100% x D/(B+D). D = test outcome negative for MAC core study part and negative for MAC repeatability extension; B = test outcome negative for MAC core study part and positive for MAC repeatability extension|CI (Clopper Pearson): negative agreement|100.0|||||TWO_SIDED|95.0|79.41|100.0||||||Amendment no 1 had been issued for selected sites in Europe to obtain exploratory data on the repeatability of the MAC in a subset of subjects that had completed the core study.||100.00|79.41|
92412431|NCT00955201|184715022|SUPERIORITY|||||||0.49||||||Tukey's multiple comparisons test|ANOVA|Comparison to baseline values||Evaluated within group across time||||0.49
92412432|NCT00955201|184715022|SUPERIORITY|||||||0.82||||||Tukey's multiple comparisons test|ANOVA|||Evaluated within group across time||||0.82
92379197|NCT00168103|184661245|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.525||||0.0025|TWO_SIDED|95.0|-2.217|-0.033||1-sided P-value. The a priori threshold was 0.024 (overall Type 1 error 0.025 adjusted for alpha spending for an interim analysis).|Wilcoxon (Mann-Whitney)|1-sided|The median difference was estimated by the Hodges-Lehmann estimate.|||-0.033|-2.217|0.0025
92379198|NCT00168103|184661246|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1088||||0.0014|TWO_SIDED|80.0|0.0392|0.3023||1-sided P-value. The a priori threshold for significance was 0.1 (trend).|Fisher Exact|1-sided|The Odds Ratio was calculated as C1-INH 20 U/kg bw (numerator) versus Placebo (denominator).|Worsened intensity was evaluated between 2 and 4 hours after start of study treatment relative to baseline for at least 1 of the HAE symptoms present at baseline.||0.3023|0.0392|0.0014
92379199|NCT00168103|184661247|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.292||||0.0237|TWO_SIDED|80.0|-5.15|-1.05||1-sided, exploratory test.|Wilcoxon (Mann-Whitney)|1-sided|The median difference was estimated by the Hodge-Lehmann estimate.|This was an exploratory analysis.||-1.050|-5.150|0.0237
92379200|NCT00168103|184661248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1714|||||TWO_SIDED|95.0|0.0642|0.4575|||||The Odds Ratio was calculated as C1-INH 20 U/kg bw (numerator) versus Placebo (denominator).|This was an exploratory analysis.||0.4575|0.0642|
92379201|NCT00168103|184661249|SUPERIORITY_OR_OTHER|||||||0.0329|TWO_SIDED|80.0||||1-sided P-value. The a priori threshold for significance was 0.1 (trend).|Wilcoxon (Mann-Whitney)|1-sided||||||0.0329
92379202|NCT05268744|184661273|SUPERIORITY|Since all outcomes were normally distributed, one-sided paired t-test was used to compare mean pre- and post-treatment scores to see whether post-treatment scores of ABI-S and SRS had improved compared to pre-treatment scores|||||<|0.05|||||||t-test, 1 sided|||Null hypothesis was no improvement in mean ABI-S and SRS scores at the end of the study, compared to baseline||||<0.05
92379203|NCT02699450|184661278|SUPERIORITY||Difference in Least Squares Means|1.4||||0.37|TWO_SIDED|80.0|-0.6|3.4||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline BCVA.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||3.4|-0.6|0.37
92379204|NCT02699450|184661278|SUPERIORITY||Difference in Least Squares Means|3.6||||0.03|TWO_SIDED|80.0|1.5|5.6||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline BCVA.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||5.6|1.5|0.03
92412433|NCT00955201|184715022|SUPERIORITY|||||||0.96||||||Tukey's multiple comparisons test|ANOVA|||Evaluated within group across time||||0.96
92412434|NCT00955201|184715022|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test|ANOVA|||Evaluated within group across time||||0.93
92412435|NCT00955201|184715022|SUPERIORITY|||||||0.63|||||||ANOVA|||Comparison across groups at baseline||||0.63
92412436|NCT00955201|184715022|SUPERIORITY|||||||0.31|||||||ANOVA|||Comparison across groups at 12-wk||||0.31
92412437|NCT00955201|184715022|SUPERIORITY|||||||0.28|||||||ANOVA|||Comparison across groups at 24-wk||||0.28
92231482|NCT01431287|184365488|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.181|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.13|0.232||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day\^interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.232|0.130|<0.0001
92379205|NCT02699450|184661279|SUPERIORITY||Difference in Least Squares Means|1.3||||0.63|TWO_SIDED|80.0|-2.3|5.0||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline BCVA.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||5.0|-2.3|0.63
92379206|NCT02699450|184661280|SUPERIORITY||Difference in Least Squares Means|2.3||||0.15|TWO_SIDED|80.0|0.2|4.3||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline BCVA.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||4.3|0.2|0.15
92379207|NCT02699450|184661280|SUPERIORITY||Difference in Least Squares Means|2.9||||0.04|TWO_SIDED|80.0|1.1|4.7||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline BCVA.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||4.7|1.1|0.04
92379208|NCT02699450|184661281|SUPERIORITY||Difference in Least Squares Means|0.8||||0.94|TWO_SIDED|80.0|-11.3|12.8||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||12.8|-11.3|0.94
92379209|NCT02699450|184661281|SUPERIORITY||Difference in Least Squares Means|7.3||||0.46|TWO_SIDED|80.0|-5.4|19.9||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||19.9|-5.4|0.46
92379210|NCT02699450|184661282|SUPERIORITY||Difference in Percentage of Participants|6.4||||0.56|TWO_SIDED|80.0|-7.7|20.5||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||20.5|-7.7|0.56
92379211|NCT02699450|184661283|SUPERIORITY||Difference in Least Squares Means|6.6||||0.43|TWO_SIDED|80.0|-4.0|17.2||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||17.2|-4.0|0.43
92412438|NCT00955201|184715023|SUPERIORITY|||||||0.53||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.53
92412439|NCT00955201|184715023|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||1.00
92412440|NCT00955201|184715023|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||1.00
92412441|NCT00955201|184715023|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.93
92412442|NCT00955201|184715023|SUPERIORITY|||||||0.8|||||||ANOVA|||Comparison across groups at baseline.||||0.80
92412443|NCT00955201|184715023|SUPERIORITY|||||||0.63|||||||ANOVA|||Comparison across groups at 12-wks||||0.63
92412444|NCT00955201|184715023|SUPERIORITY|||||||0.31|||||||ANOVA|||Comparison across groups at 24-wk||||0.31
92412445|NCT00955201|184715024|SUPERIORITY|||||||0.39||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.39
92412446|NCT00955201|184715024|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||1.00
92379212|NCT02699450|184661283|SUPERIORITY||Difference in Least Squares Means|7.2||||0.34|TWO_SIDED|80.0|-2.6|17.0||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||17.0|-2.6|0.34
92379213|NCT02699450|184661284|SUPERIORITY||Difference in Least Squares Means|9.5||||0.27|TWO_SIDED|80.0|-1.6|20.6||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||20.6|-1.6|0.27
92379214|NCT02699450|184661284|SUPERIORITY||Difference in Least Squares Means|6.8||||0.45|TWO_SIDED|80.0|-4.9|18.5||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||18.5|-4.9|0.45
92379215|NCT02699450|184661285|SUPERIORITY||Difference in Least Squares Means|-0.6||||0.96|TWO_SIDED|80.0|-16.8|15.5||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||15.5|-16.8|0.96
92379216|NCT02699450|184661286|SUPERIORITY||Difference in Least Squares Means|9.9||||0.19|TWO_SIDED|80.0|0.1|19.7||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||19.7|0.1|0.19
92379217|NCT02699450|184661286|SUPERIORITY||Difference in Least Squares Means|4.2||||0.57|TWO_SIDED|80.0|-5.3|13.6||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||13.6|-5.3|0.57
92412447|NCT00955201|184715024|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||1.00
92379218|NCT02699450|184661287|SUPERIORITY||Difference in Least Squares Means|-2.8||||0.64|TWO_SIDED|80.0|-10.5|4.9||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||4.9|-10.5|0.64
92412448|NCT00955201|184715024|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.98
92412449|NCT00955201|184715024|SUPERIORITY|||||||0.7|||||||ANOVA|||Comparison across groups at baseline||||0.70
92412450|NCT00955201|184715024|SUPERIORITY|||||||0.45|||||||ANOVA|||Comparison across groups at 12-wks||||0.45
92412451|NCT00955201|184715024|SUPERIORITY|||||||0.22|||||||ANOVA|||Comparison across groups at 24-wks||||0.22
92412452|NCT00955201|184715025|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.98
92412453|NCT00955201|184715025|SUPERIORITY|||||||0.9||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.90
92412454|NCT00955201|184715025|SUPERIORITY|||||||0.97||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.97
92412455|NCT00955201|184715025|SUPERIORITY|||||||0.78||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.78
92412456|NCT00955201|184715025|SUPERIORITY|||||||0.63|||||||ANOVA|||Comparison across groups at baseline||||0.63
92412457|NCT00955201|184715025|SUPERIORITY|||||||0.97|||||||ANOVA|||Comparison across groups at 12-wk||||0.97
92412458|NCT00955201|184715025|SUPERIORITY|||||||0.99|||||||ANOVA|||Comparison across groups at 24-wks||||0.99
92412459|NCT00955201|184715026|SUPERIORITY|||||||0.94||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.94
92412460|NCT00955201|184715026|SUPERIORITY|||||||0.69||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.69
92412461|NCT00955201|184715026|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.98
92412462|NCT00955201|184715026|SUPERIORITY|||||||0.97||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.97
92379219|NCT02699450|184661287|SUPERIORITY||Difference in Least Squares Means|-1.8||||0.78|TWO_SIDED|80.0|-9.8|6.2||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||6.2|-9.8|0.78
92379220|NCT02699450|184661288|SUPERIORITY||Difference in Least Squares Means|-2.3||||0.78|TWO_SIDED|80.0|-12.7|8.2||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||8.2|-12.7|0.78
92379221|NCT02699450|184661289|SUPERIORITY||Difference in Least Squares Means|-0.5||||0.93|TWO_SIDED|80.0|-7.7|6.7||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||6.7|-7.7|0.93
92379222|NCT02699450|184661289|SUPERIORITY||Difference in Least Squares Means|-2.0||||0.69|TWO_SIDED|80.0|-8.3|4.4||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||4.4|-8.3|0.69
92412463|NCT00955201|184715026|SUPERIORITY|||||||0.45|||||||ANOVA|||Comparison across groups at baseline||||0.45
92412464|NCT00955201|184715026|SUPERIORITY|||||||0.91|||||||ANOVA|||Comparison across groups at 12-wks||||0.91
92412465|NCT00955201|184715026|SUPERIORITY|||||||0.51|||||||ANOVA|||Comparison across groups at 24-wks||||0.51
92412466|NCT00955201|184715027|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
92379223|NCT02699450|184661290|SUPERIORITY||Difference in Least Squares Means|-6.5||||0.69|TWO_SIDED|80.0|-27.8|14.7||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline FCPT.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||14.7|-27.8|0.69
92412467|NCT00955201|184715027|SUPERIORITY|||||||0.72||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.72
92412468|NCT00955201|184715027|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
92412469|NCT00955201|184715027|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
92412470|NCT00955201|184715027|SUPERIORITY|||||||0.85|||||||ANOVA|||Comparison across groups at baseline||||0.85
92412471|NCT00955201|184715027|SUPERIORITY|||||||0.98|||||||ANOVA|||Comparison across groups at 12-wks||||0.98
92412472|NCT00955201|184715027|SUPERIORITY|||||||0.68|||||||ANOVA|||Comparison across groups at 24-wks||||0.68
92412473|NCT00955201|184715028|SUPERIORITY|||||||0.91||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.91
92412474|NCT00955201|184715028|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
92412475|NCT00955201|184715028|SUPERIORITY|||||||0.94||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.94
92412476|NCT00955201|184715028|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.93
92412477|NCT00955201|184715028|SUPERIORITY|||||||0.38|||||||ANOVA|||Comparison across groups at baseline||||0.38
92412478|NCT00955201|184715028|SUPERIORITY|||||||0.51|||||||ANOVA|||Comparison across groups at 12-wks||||0.51
92412479|NCT00955201|184715028|SUPERIORITY|||||||0.94|||||||ANOVA|||Comparison across groups at 24-wks||||0.94
92412480|NCT00955201|184715029|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
92412481|NCT00955201|184715029|SUPERIORITY|||||||0.97||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.97
92412482|NCT00955201|184715029|SUPERIORITY|||||||0.96||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.96
92412483|NCT00955201|184715029|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||1.00
92412484|NCT00955201|184715029|SUPERIORITY|||||||0.16|||||||ANOVA|||Comparison across groups at baseline.||||0.16
92412485|NCT00955201|184715029|SUPERIORITY|||||||0.37|||||||ANOVA|||Comparison across groups at 12-wks||||0.37
92412486|NCT00955201|184715029|SUPERIORITY|||||||0.75|||||||ANOVA|||Comparison across groups at 24-wks||||0.75
92412487|NCT00955201|184715030|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||1.00
92412488|NCT00955201|184715030|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.99
92231483|NCT01431287|184365488|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.199|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.148|0.25||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.250|0.148|<0.0001
92379224|NCT02699450|184661290|SUPERIORITY||Difference in Least Squares Means|-22.8||||0.18|TWO_SIDED|80.0|-44.5|-1.2||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline FCPT.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-1.2|-44.5|0.18
92379225|NCT02699450|184661291|SUPERIORITY||Difference in Least Squares Means|-49.2||||0.07|TWO_SIDED|80.0|-84.2|-14.2||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline FCPT.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||-14.2|-84.2|0.07
92379226|NCT02699450|184661292|SUPERIORITY||Difference in Least Squares Means|-17.3||||0.28|TWO_SIDED|80.0|-38.0|3.4||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline FCPT.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||3.4|-38.0|0.28
92379227|NCT02699450|184661292|SUPERIORITY||Difference in Least Squares Means|-29.2||||0.05|TWO_SIDED|80.0|-47.8|-10.6||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline FCPT.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-10.6|-47.8|0.05
92379228|NCT02699450|184661293|SUPERIORITY||Difference in Least Squares Means|-12.4||||0.36|TWO_SIDED|80.0|-29.7|5.0||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline CST.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||5.0|-29.7|0.36
92379229|NCT02699450|184661293|SUPERIORITY||Difference in Least Squares Means|-21.1||||0.13|TWO_SIDED|80.0|-38.7|-3.5||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline CST.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-3.5|-38.7|0.13
92379230|NCT02699450|184661294|SUPERIORITY||Difference in Least Squares Means|-38.6||||0.07|TWO_SIDED|80.0|-65.9|-11.3||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline CST.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||-11.3|-65.9|0.07
92412489|NCT00955201|184715030|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||1.00
92412490|NCT00955201|184715030|SUPERIORITY|||||||0.81||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.81
92412491|NCT00955201|184715030|SUPERIORITY|||||||0.28|||||||ANOVA|||Comparison across groups at baseline||||0.28
92412492|NCT00955201|184715030|SUPERIORITY|||||||0.28|||||||ANOVA|||Comparison across groups at 12-wks||||0.28
92231484|NCT01431287|184365488|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.016|STANDARD_ERROR_OF_MEAN|0.026||0.5373|TWO_SIDED|95.0|-0.067|0.035||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.035|-0.067|0.5373
92280421|NCT03466411|184463526|SUPERIORITY||Adjusted treatment difference|27.9|||<|0.001|TWO_SIDED|95.0|18.7|37.1|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel-Haenszel stratum weights and the Sato variance estimator.|||37.1|18.7|<0.001
92231485|NCT01431287|184365488|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.165|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.114|0.216||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.216|0.114|<0.0001
92231486|NCT01431287|184365488|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.019|STANDARD_ERROR_OF_MEAN|0.026||0.4763|TWO_SIDED|95.0|-0.033|0.07||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.070|-0.033|0.4763
92412493|NCT00955201|184715030|SUPERIORITY|||||||0.83|||||||ANOVA|||Comparison across groups at 24-wks||||0.83
92412494|NCT00955201|184715031|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
92412495|NCT00955201|184715031|SUPERIORITY|||||||0.97||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.97
92412496|NCT00955201|184715031|SUPERIORITY|||||||0.82||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.82
92412497|NCT00955201|184715031|SUPERIORITY|||||||0.96||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.96
92412498|NCT00955201|184715031|SUPERIORITY|||||||0.55|||||||ANOVA|||Comparison across groups at baseline.||||0.55
92231487|NCT01431287|184365488|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.037|STANDARD_ERROR_OF_MEAN|0.026||0.1613|TWO_SIDED|95.0|-0.015|0.088||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.088|-0.015|0.1613
92231488|NCT01431287|184365488|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.018|STANDARD_ERROR_OF_MEAN|0.026||0.4908|TWO_SIDED|95.0|-0.069|0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.033|-0.069|0.4908
92412499|NCT00955201|184715031|SUPERIORITY|||||||0.31|||||||ANOVA|||Comparison across groups at 12-wks||||0.31
92412500|NCT00955201|184715031|SUPERIORITY|||||||0.32|||||||ANOVA|||Comparison across groups at 24-wks||||0.32
92231489|NCT01431287|184365489|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.122|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.072|0.173||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.173|0.072|<0.0001
92231490|NCT01431287|184365489|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.026||0.0154|TWO_SIDED|95.0|0.012|0.113||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.113|0.012|0.0154
92231491|NCT01431287|184365489|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.13|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.08|0.181||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.181|0.080|<0.0001
92412501|NCT00955201|184715032|SUPERIORITY|||||||0.81||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.81
92412502|NCT00955201|184715032|SUPERIORITY|||||||0.92||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.92
92412503|NCT00955201|184715032|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.93
92412504|NCT00955201|184715032|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.99
92412505|NCT00955201|184715032|SUPERIORITY|||||||0.5|||||||ANOVA|||Comparison across groups at baseline.||||0.50
92412506|NCT00955201|184715032|SUPERIORITY|||||||0.47|||||||ANOVA|||Comparison across groups at 12-wks.||||0.47
92412507|NCT00955201|184715032|SUPERIORITY|||||||0.97|||||||ANOVA|||Comparison across groups at 24-wks||||0.97
92412508|NCT00955201|184715033|SUPERIORITY|||||||0.83||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.83
92412509|NCT00955201|184715033|SUPERIORITY|||||||0.91||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.91
92412510|NCT00955201|184715033|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||1.00
92412511|NCT00955201|184715033|SUPERIORITY|||||||0.95||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.95
92412512|NCT00955201|184715033|SUPERIORITY|||||||0.26|||||||ANOVA|||Comparison across groups at baseline.||||0.26
92412513|NCT00955201|184715033|SUPERIORITY|||||||0.42|||||||ANOVA|||Comparison across groups at 12-wks||||0.42
92412514|NCT00955201|184715033|SUPERIORITY|||||||0.95|||||||ANOVA|||Comparison across groups at 24-wks.||||0.95
92412515|NCT00955201|184715034|SUPERIORITY|||||||0.96||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.96
92412516|NCT00955201|184715034|SUPERIORITY|||||||0.53||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.53
92412517|NCT00955201|184715034|SUPERIORITY|||||||0.79||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.79
92412518|NCT00955201|184715034|SUPERIORITY|||||||0.94||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.94
92412519|NCT00955201|184715034|SUPERIORITY|||||||0.75|||||||ANOVA|||Comparison across groups at baseline||||0.75
92231492|NCT01431287|184365489|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.084|STANDARD_ERROR_OF_MEAN|0.026||0.0012|TWO_SIDED|95.0|0.033|0.134||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.134|0.033|0.0012
92231493|NCT01431287|184365489|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.026||0.0061|TWO_SIDED|95.0|0.02|0.121||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.121|0.020|0.0061
92379231|NCT02699450|184661295|SUPERIORITY||Difference in Least Squares Means|-20.1||||0.12|TWO_SIDED|80.0|-36.4|-3.8||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline CST.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-3.8|-36.4|0.12
92379232|NCT02699450|184661295|SUPERIORITY||Difference in Least Squares Means|-26.7||||0.02|TWO_SIDED|80.0|-41.3|-12.0||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline CST.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-12.0|-41.3|0.02
92379233|NCT02699450|184661296|SUPERIORITY||Difference in Percentage of Participants|-4.08||||0.4948|TWO_SIDED|80.0|-7.7|-0.46||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-0.46|-7.70|0.4948
92379234|NCT02699450|184661296|SUPERIORITY||Difference in Percentage of Participants|-4.08||||0.496|TWO_SIDED|80.0|-7.7|-0.46||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-0.46|-7.70|0.4960
92379235|NCT02699450|184661297|SUPERIORITY||Difference in Percentage of Participants|-2.8||||1|TWO_SIDED|80.0|-11.08|5.49||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||5.49|-11.08|1.0000
92412520|NCT00955201|184715034|SUPERIORITY|||||||0.51|||||||ANOVA|||Comparison across groups at 12-wks||||0.51
92412521|NCT00955201|184715034|SUPERIORITY|||||||0.63|||||||ANOVA|||Comparison across groups at 24-wks.||||0.63
92412522|NCT00955201|184715035|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.98
92412523|NCT00955201|184715035|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.99
92231494|NCT01431287|184365489|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.008|STANDARD_ERROR_OF_MEAN|0.026||0.7518|TWO_SIDED|95.0|-0.059|0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.042|-0.059|0.7518
92412524|NCT00955201|184715035|SUPERIORITY|||||||0.89||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.89
92412525|NCT00955201|184715035|SUPERIORITY|||||||0.9||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.90
92412526|NCT00955201|184715035|SUPERIORITY|||||||0.98|||||||ANOVA|||Comparison across groups at baseline||||0.98
92412527|NCT00955201|184715035|SUPERIORITY|||||||0.94|||||||ANOVA|||Comparison across groups at 12-wks||||0.94
92412528|NCT00955201|184715035|SUPERIORITY|||||||0.91|||||||ANOVA|||Comparison across groups at 24-wks.||||0.91
92412529|NCT00955201|184715036|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
92412530|NCT00955201|184715036|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.99
92412531|NCT00955201|184715036|SUPERIORITY|||||||0.84||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.84
92412532|NCT00955201|184715036|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
92412533|NCT00955201|184715036|SUPERIORITY|||||||0.96|||||||ANOVA|||Comparison across groups at baseline.||||0.96
92412534|NCT00955201|184715036|SUPERIORITY|||||||0.86|||||||ANOVA|||Comparison across groups at 12-wks.||||0.86
92412535|NCT00955201|184715036|SUPERIORITY|||||||0.92|||||||ANOVA|||Comparison across groups at 24-wks.||||0.92
92412536|NCT00955201|184715037|SUPERIORITY|||||||0.03||||||Unpaired two-tailed t-test:|t-test, 2 sided|||Evaluate within group pre- and post-test responses across time.||||0.03
92231495|NCT01431287|184365489|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.026||0.0034|TWO_SIDED|95.0|0.025|0.126||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.126|0.025|0.0034
92280422|NCT03466411|184463526|SUPERIORITY||Adjusted treatment difference|30.8|||<|0.001|TWO_SIDED|95.0|21.3|40.3|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel-Haenszel stratum weights and the Sato variance estimator.|||40.3|21.3|<0.001
92379236|NCT02699450|184661298|SUPERIORITY||Difference in Percentage of Participants|-6.12||||0.5759|TWO_SIDED|80.0|-15.41|3.17||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||3.17|-15.41|0.5759
92379237|NCT02699450|184661298|SUPERIORITY||Difference in Percentage of Participants|3.15||||0.7437|TWO_SIDED|80.0|-5.02|11.33||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||11.33|-5.02|0.7437
92379238|NCT02699450|184661299|SUPERIORITY||Difference in Percentage of Participants|2.02||||1|TWO_SIDED|80.0|-8.6|12.64||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||12.64|-8.60|1.0000
92379239|NCT01811303|184661342|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
92379240|NCT01811303|184661342|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.016||95.0|||||ANOVA|||||||<0.016
92379241|NCT02266875|184661344|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||0.320
92379242|NCT02266875|184661345|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92379243|NCT00413010|184661347|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.48||||95.0|-2.16|-0.26|||Mixed Models Analysis|Adjusted for treatment, pooled center baseline, HAM-A total score,time,and treatment-by time|Since an interim analysis was conducted and the sample size was larger than the targeted 173 subjects per group, a critical t-value adjustment was 1.977, yielding an adjusted 95% CI shown above.|Null hypothesis: no difference between Pregabalin (150-600 mg/day) BID and Placebo BID treatment groups. An initial sample size of 173 subjects per double-blind treatment group was calculated to provide at least 90% power to detect an effect size (ie, difference in the true means between 2 treatment groups/standard deviation) of 0.36 for the HAM-A total score change from Baseline using a 2-sided nominal significance level of 4.9%.||-0.26|-2.16|
92379244|NCT00413010|184661348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.49||||95.0|-2.3|-0.4|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 1||-0.4|-2.3|
92379245|NCT00413010|184661348|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.59||||95.0|-2.2|0.1|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 2||0.1|-2.2|
92379246|NCT00413010|184661348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.62||||95.0|-2.7|-0.2|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 3||-0.2|-2.7|
92379247|NCT00413010|184661348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.64||||95.0|-2.6|-0.1|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 4||-0.1|-2.6|
92379248|NCT00413010|184661348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.68||||95.0|-2.1|0.5|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 5||0.5|-2.1|
92379249|NCT00413010|184661348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.22|STANDARD_ERROR_OF_MEAN|0.67||||95.0|-2.5|0.1|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 6||0.1|-2.5|
92379250|NCT00413010|184661348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|0.77||||95.0|-2.9|0.2|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 8||0.2|-2.9|
92379251|NCT00413010|184661349|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.35||||||95.0|1.37|8.24||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responders at each week with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 1||8.24|1.37|
92412537|NCT00955201|184715037|SUPERIORITY|||||||0.29||||||Unpaired two-tailed t-test:|t-test, 2 sided|||Evaluate within group pre- and post-test responses across time.||||0.29
92379252|NCT00413010|184661349|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.61||||||95.0|0.9|2.87||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 2||2.87|0.90|
92379253|NCT00413010|184661349|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.15||||||95.0|1.76|5.66||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 3||5.66|1.76|
92379254|NCT00413010|184661349|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8||||||95.0|1.06|3.05||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 4||3.05|1.06|
92412538|NCT00955201|184715037|SUPERIORITY|||||||0.36||||||Unpaired two-tailed t-test:|t-test, 2 sided|||Evaluate within group pre- and post-test responses across time.||||0.36
92412539|NCT00955201|184715037|SUPERIORITY|||||||0.15||||||Unpaired two-tailed t-test:|t-test, 2 sided|||Evaluate within group pre- and post-test responses across time.||||0.15
92231496|NCT01431287|184365489|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.059|STANDARD_ERROR_OF_MEAN|0.026||0.0209|TWO_SIDED|95.0|0.009|0.11||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.110|0.009|0.0209
92231497|NCT01431287|184365489|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.026||0.0708|TWO_SIDED|95.0|-0.004|0.097||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.097|-0.004|0.0708
92231498|NCT01431287|184365489|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.013|STANDARD_ERROR_OF_MEAN|0.026||0.6148|TWO_SIDED|95.0|-0.038|0.064||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.064|-0.038|0.6148
92231499|NCT01431287|184365490|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.164|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.114|0.215||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.215|0.114|<0.0001
92231500|NCT01431287|184365490|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.026||0.0064|TWO_SIDED|95.0|0.02|0.122||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.122|0.020|0.0064
92412540|NCT00955201|184715037|SUPERIORITY|||||||0.2||||||ANOVA|ANOVA|||Comparison of pre- and post-responses across groups at baseline.||||0.20
92412541|NCT00955201|184715037|SUPERIORITY|||||||0.51||||||ANOVA|ANOVA|||Comparison of pre- and post-test responses across groups at 12 wks.||||0.51
92231501|NCT01431287|184365490|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.152|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.102|0.203||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.203|0.102|<0.0001
92412542|NCT00955201|184715037|SUPERIORITY|||||||0.59||||||ANOVA|ANOVA|||Comparison of pre- and post-test responses across groups at 24 wks.||||0.59
92412543|NCT00955201|184715038|SUPERIORITY|||||||1||||||Dunn's multiple comparisons|Kruskal-Wallis|||Evaluate within group across time||||1.00
92412544|NCT00955201|184715038|SUPERIORITY|||||||0.01||||||Dunn's multiple comparisons|Kruskal-Wallis|||Evaluate within group across time||||0.01
92412545|NCT00955201|184715038|SUPERIORITY|||||||1||||||Dunn's multiple comparisons|Kruskal-Wallis|||Evaluate within group across time||||1.00
92412546|NCT00955201|184715038|SUPERIORITY|||||||0.98||||||Dunn's multiple comparisons|Kruskal-Wallis|||Evaluate within group across time||||0.98
92412547|NCT00955201|184715038|SUPERIORITY|||||||0.96|||||||Kruskal-Wallis|||Comparison across groups at baseline||||0.96
92412548|NCT00955201|184715038|SUPERIORITY|||||||0.06|||||||Kruskal-Wallis|||Comparison across groups at 12-wks||||0.06
92412549|NCT00955201|184715038|SUPERIORITY|||||||0.14|||||||Kruskal-Wallis|||Comparison across groups at 24-wks||||0.14
92412550|NCT00955201|184715039|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
92412551|NCT00955201|184715039|SUPERIORITY|||||||0.36||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.36
92412552|NCT00955201|184715039|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.93
92412553|NCT00955201|184715039|SUPERIORITY|||||||0.46||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.46
92412554|NCT00955201|184715039|SUPERIORITY|||||||0.14|||||||ANOVA|||Comparison across groups at baseline.||||0.14
92412555|NCT00955201|184715039|SUPERIORITY|||||||0.05|||||||ANOVA|||Comparison across groups at 12 wks.||||0.05
92412556|NCT00955201|184715039|SUPERIORITY|||||||0.01|||||||ANOVA|||Comparison across groups at 24 wks.||||0.01
92412557|NCT00955201|184715040|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
92231502|NCT01431287|184365490|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.075|STANDARD_ERROR_OF_MEAN|0.026||0.0035|TWO_SIDED|95.0|0.025|0.126||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.126|0.025|0.0035
92231503|NCT01431287|184365490|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.059|STANDARD_ERROR_OF_MEAN|0.026||0.0233|TWO_SIDED|95.0|0.008|0.109||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.109|0.008|0.0233
92231504|NCT01431287|184365490|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.026||0.6413|TWO_SIDED|95.0|-0.039|0.063||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.063|-0.039|0.6413
92231505|NCT01431287|184365490|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.088|STANDARD_ERROR_OF_MEAN|0.026||0.0007|TWO_SIDED|95.0|0.037|0.138||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.138|0.037|0.0007
92231506|NCT01431287|184365490|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.026||0.0003|TWO_SIDED|95.0|0.043|0.144||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.144|0.043|0.0003
92231507|NCT01431287|184365490|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.077|STANDARD_ERROR_OF_MEAN|0.026||0.003|TWO_SIDED|95.0|0.026|0.127||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.127|0.026|0.0030
92278062|NCT03151499|184458166|OTHER||Geometric mean (gMean) ratio (%)|8.23|STANDARD_ERROR_OF_MEAN|1.187|||TWO_SIDED|90.0|6.081|11.126|||||gMean ratio = BI 409306 + Rifampicin pretreatment (T) / BI 409306 (R). Standard Error of the mean is actually the Geometric Standard Error.|Since the main focus is on estimation and not testing, therefore no hypothesis was tested.The statistical analysis model is an ANOVA (analysis of variance) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' will be considered as random, whereas the treatment effect will be considered as fixed. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||11.126|6.081|
92278063|NCT01945138|184458172|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
92412558|NCT00955201|184715040|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
92412559|NCT00955201|184715040|SUPERIORITY|||||||0.67||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.67
92412560|NCT00955201|184715040|SUPERIORITY|||||||0.55||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.55
92412561|NCT00955201|184715040|SUPERIORITY|||||||0.4||||||Tukey's multiple comparisons test:|ANOVA|||Comparison across groups at baseline.||||0.40
92412562|NCT00955201|184715040|SUPERIORITY|||||||0.47|||||||ANOVA|||Comparison across groups at 12 wks.||||0.47
92412563|NCT00955201|184715040|SUPERIORITY|||||||0.43|||||||ANOVA|||Comparison across groups at 24 wks.||||0.43
92412564|NCT00955201|184715041|SUPERIORITY|||||||0.84||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.84
92412565|NCT00955201|184715041|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.93
92412566|NCT00955201|184715041|SUPERIORITY|||||||0.94||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.94
92412567|NCT00955201|184715041|SUPERIORITY|||||||0.94||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.94
92412568|NCT00955201|184715041|SUPERIORITY|||||||0.88|||||||ANOVA|||Comparison across groups at baseline.||||0.88
92412569|NCT00955201|184715041|SUPERIORITY|||||||0.48|||||||ANOVA|||Comparison across groups at 12 wks.||||0.48
92412570|NCT00955201|184715041|SUPERIORITY|||||||0.38|||||||ANOVA|||Comparison across groups at 24 wks.||||0.38
92412571|NCT00955201|184715042|SUPERIORITY|||||||0.87||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.87
92412572|NCT00955201|184715042|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.93
92412573|NCT00955201|184715042|SUPERIORITY|||||||0.51||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.51
92412574|NCT00955201|184715042|SUPERIORITY|||||||0.89||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.89
92412575|NCT00955201|184715042|SUPERIORITY|||||||0.46|||||||ANOVA|||Comparison across groups at baseline.||||0.46
92412576|NCT00955201|184715042|SUPERIORITY|||||||0.72|||||||ANOVA|||Comparison across groups at 12 wks.||||0.72
92231508|NCT01431287|184365490|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.026||0.5159|TWO_SIDED|95.0|-0.034|0.068||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.068|-0.034|0.5159
92379255|NCT00413010|184661349|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.57||||||95.0|0.9|2.73||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 5||2.73|0.90|
92379256|NCT00413010|184661349|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.52||||||95.0|0.86|2.66||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 6||2.66|0.86|
92379257|NCT00413010|184661349|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.86||||||95.0|1.08|3.22||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 8||3.22|1.08|
92379258|NCT00413010|184661349|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.77||||||95.0|1.12|2.79||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responders at Week 8 (LOCF) with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 8 (last observation carried forward, LOCF)||2.79|1.12|
92379259|NCT00413010|184661350|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.88||||||95.0|0.94|8.8||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 1||8.80|0.94|
92379260|NCT00413010|184661350|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.49||||||95.0|0.72|3.06||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 2||3.06|0.72|
92379261|NCT00413010|184661350|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.08||||||95.0|1.09|3.97||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 3||3.97|1.09|
92412577|NCT00955201|184715042|SUPERIORITY|||||||0.22|||||||ANOVA|||Comparison across groups at 24wks.||||0.22
92412578|NCT00955201|184715043|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
92412579|NCT00955201|184715043|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.99
92412580|NCT00955201|184715043|SUPERIORITY|||||||0.87||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.87
92412581|NCT00955201|184715043|SUPERIORITY|||||||0.95||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.95
92412582|NCT00955201|184715043|SUPERIORITY|||||||0.39|||||||ANOVA|||Comparison across groups at baseline.||||0.39
92379262|NCT00413010|184661350|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8||||||95.0|0.99|3.28||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 4||3.28|0.99|
92379263|NCT00413010|184661350|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.53||||||95.0|0.82|2.85||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 5||2.85|0.82|
92379264|NCT00413010|184661350|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.33||||||95.0|0.71|2.48||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 6||2.48|0.71|
92379265|NCT00413010|184661350|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||||95.0|0.85|2.83||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 8||2.83|0.85|
92379266|NCT00413010|184661350|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.53||||||95.0|0.92|2.53|||Regression, Logistic|Based on fitting a logistic regression on the HAM-A responders at Week 8 (LOCF) with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 8 Last Observation Carried Foward (LOCF)||2.53|0.92|
92379267|NCT00413010|184661351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0137||||||P-value corresponds to the 2-sided log-rank test.|Log Rank|2-sided log-rank test||Kaplan Meier product limit estimate for calculating median time in days to onset sustained HAM-A Improvement.||||0.0137
92379268|NCT00413010|184661352|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.54||||||95.0|0.96|2.47||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the CGI-I responders at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 1||2.47|0.96|
92379269|NCT00413010|184661352|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.58||||||95.0|1.01|2.47||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 2||2.47|1.01|
92379270|NCT00413010|184661352|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.75||||||95.0|1.09|2.82||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 3||2.82|1.09|
92412583|NCT00955201|184715043|SUPERIORITY|||||||0.59|||||||ANOVA|||Comparison across groups at 12-wks.||||0.59
92412584|NCT00955201|184715043|SUPERIORITY|||||||0.29|||||||ANOVA|||Comparison across groups at 24-wks.||||0.29
92412585|NCT00955201|184715044|SUPERIORITY|||||||0.97||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time||||0.97
92231509|NCT01431287|184365491|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.159|0.261||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.261|0.159|<0.0001
92231510|NCT01431287|184365491|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.089|STANDARD_ERROR_OF_MEAN|0.026||0.0006|TWO_SIDED|95.0|0.038|0.141||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.141|0.038|0.0006
92231511|NCT01431287|184365491|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.183|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.132|0.234||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.234|0.132|<0.0001
92379271|NCT00413010|184661352|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.26||||||95.0|0.77|2.05||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 4||2.05|0.77|
92379272|NCT00413010|184661352|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||||95.0|0.72|2.11||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 5||2.11|0.72|
92379273|NCT00413010|184661352|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45||||||95.0|0.84|2.5|||Regression, Logistic|P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 6||2.50|0.84|
92412586|NCT00955201|184715044|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
92412587|NCT00955201|184715044|SUPERIORITY|||||||0.09||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.09
92412588|NCT00955201|184715044|SUPERIORITY|||||||0.05||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.05
92412589|NCT00955201|184715044|SUPERIORITY|||||||0.11|||||||ANOVA|||Comparison across groups at baseline.||||0.11
92412590|NCT00955201|184715044|SUPERIORITY|||||||0.41|||||||ANOVA|||Comparison across groups at 12-wks.||||0.41
92412591|NCT00955201|184715044|SUPERIORITY|||||||0.03|||||||ANOVA|||Comparison across groups at 24-wks.||||0.03
92412592|NCT00955201|184715045|SUPERIORITY|||||||0.95||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.95
92412593|NCT00955201|184715045|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
92412594|NCT00955201|184715045|SUPERIORITY|||||||0.87||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.87
92412595|NCT00955201|184715045|SUPERIORITY|||||||0.48||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.48
92412596|NCT00955201|184715045|SUPERIORITY|||||||0.58|||||||ANOVA|||Comparison across groups at baseline.||||0.58
92412597|NCT00955201|184715045|SUPERIORITY|||||||0.5|||||||ANOVA|||Comparison across groups at 12-wks.||||0.50
92412598|NCT00955201|184715045|SUPERIORITY|||||||0.33|||||||ANOVA|||Comparison across groups at 24-wks.||||0.33
92412599|NCT00955201|184715046|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
92412600|NCT00955201|184715046|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
92412601|NCT00955201|184715046|SUPERIORITY|||||||0.88||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.88
92412602|NCT00955201|184715046|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.93
92379274|NCT00413010|184661352|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.06||||||95.0|0.61|1.84||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 8||1.84|0.61|
92379275|NCT00413010|184661352|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||||95.0|0.71|1.76||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 8 (LOCF) Last Observation Carried Forward||1.76|0.71|
92379276|NCT00413010|184661353|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.56||||||95.0|1.07|2.3||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Cumulative Logit Model|Based on fitting a logistic regression model for ordinal response of CGI-S scores at Week 8 (LOCF) with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. The odds of having an increasingly better response for pregabalin relative to the odds of having an increasingly better response for placebo.|Week 8 Last Observation Carried Forward (LOCF)||2.30|1.07|
92379277|NCT00413010|184661354|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||||95.0|-1.5|0.0|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 1||0.0|-1.5|
92379278|NCT00413010|184661354|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||||95.0|-1.5|0.2|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 2||0.2|-1.5|
92379279|NCT00413010|184661354|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||||95.0|-1.6|0.1|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 3||0.1|-1.6|
92379280|NCT00413010|184661354|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||||95.0|-2.1|-0.6|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 4||-0.6|-2.1|
92379281|NCT00413010|184661354|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||||95.0|-1.3|0.5|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 5||0.5|-1.3|
92379282|NCT00413010|184661354|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||||95.0|-1.8|0.0|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 6||0.0|-1.8|
92379283|NCT00413010|184661354|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||||95.0|-2.1|0.1|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 8||0.1|-2.1|
92379284|NCT02469714|184661411|SUPERIORITY||Mean Difference (Final Values)|0.66||||0.04|TWO_SIDED||||||ANCOVA|||Between group comparison of total scheduled appointments from 1-13 months||||.04
92379285|NCT02469714|184661411|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.008|TWO_SIDED||||||ANCOVA|||Between group comparison of total achieved appointments from 1-13 months||||.008
92379286|NCT02469714|184661412|SUPERIORITY||Mean Difference (Final Values)|0.99||||0.135|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.135
92379287|NCT02469714|184661413|SUPERIORITY||Mean Difference (Final Values)|0.99||||0.077|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.077
92278064|NCT01945138|184458173|SUPERIORITY_OR_OTHER|||||||0.115|TWO_SIDED||||||t-test, 2 sided|||||||0.115
92379288|NCT02469714|184661414|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.0005|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.0005
92379289|NCT02469714|184661415|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.06|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.060
92379290|NCT02469714|184661416|SUPERIORITY||Mean Difference (Final Values)|1.03||||0.073|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.073
92379291|NCT02469714|184661417|SUPERIORITY||Mean Difference (Final Values)|0.93||||0.34|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.34
92379292|NCT02469714|184661418|SUPERIORITY||Mean Difference (Final Values)|0.95||||0.21|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.21
92379293|NCT05432167|184661419|SUPERIORITY||Mean Difference (Final Values)|-8.08|STANDARD_ERROR_OF_MEAN|2.676||0.003|TWO_SIDED|95.0|-13.36|-2.79|||Mixed Models Analysis|||The analysis was performed using a mixed-effect model for repeated measures including fixed effects for treatment, visit, stratification variables (SGLT2 inhibitor use and CKD category), and the treatment-by-visit interaction, along with a covariate of the baseline seated SBP value and the baseline seated SBP by visit interaction.||-2.79|-13.36|0.003
92379294|NCT05432167|184661420|SUPERIORITY||Mean Difference (Final Values)|-7.22|STANDARD_ERROR_OF_MEAN|3.051||0.019|TWO_SIDED|95.0|-13.24|-1.19|||Mixed Models Analysis|||The analysis was performed using a mixed-effect model for repeated measures including fixed effects for treatment, visit, stratification variables (SGLT2 inhibitor use and CKD category), and the treatment-by-visit interaction, along with a covariate of the baseline seated SBP value and the baseline seated SBP by visit interaction.||-1.19|-13.24|0.019
92412603|NCT00955201|184715046|SUPERIORITY|||||||0.38|||||||ANOVA|||Comparison across groups at baseline.||||0.38
92412604|NCT00955201|184715046|SUPERIORITY|||||||0.55|||||||ANOVA|||Comparison across groups at 12-wks.||||0.55
92412605|NCT00955201|184715046|SUPERIORITY|||||||0.37|||||||ANOVA|||Comparison across groups at 24-wks||||0.37
92412606|NCT00955201|184715047|SUPERIORITY|||||||1||||||Dunn's multiple comparisons test:|Kruskal-Wallis|||Evaluate within group across time||||1.00
92412607|NCT00955201|184715047|SUPERIORITY|||||||1||||||Dunn's multiple comparisons test:|Kruskal-Wallis|||Evaluate within group across time||||1.00
92379295|NCT05432167|184661421|SUPERIORITY||Mean Difference (Final Values)|-8.99|STANDARD_ERROR_OF_MEAN|3.098||0.004|TWO_SIDED|95.0|-15.1|-2.87|||Mixed Models Analysis|||The analysis was performed using a mixed-effect model for repeated measures including fixed effects for treatment, visit, stratification variables (SGLT2 inhibitor use and CKD category), and the treatment-by-visit interaction, along with a covariate of the baseline seated SBP value and the baseline seated SBP by visit interaction.||-2.87|-15.10|0.004
92379296|NCT00892606|184661452|SUPERIORITY|||||||0.0072|||||||ANOVA|||||||0.0072
92379297|NCT00892606|184661453|SUPERIORITY|||||||0.004|||||||ANOVA|||||||0.004
92379298|NCT00892606|184661454|SUPERIORITY|||||||0.0146|||||||ANOVA|||||||0.0146
92379299|NCT00140842|184661455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|15.0|STANDARD_DEVIATION|16.0|<|0.05||95.0|||||t-test, 2 sided|||The null hypothesis was that there is no difference between the groups for peak growth hormone on the growth hormone stimulation test.||||<0.05
92379300|NCT00140842|184661456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|23.7|STANDARD_DEVIATION|12.0|<|0.05||95.0|||||t-test, 2 sided|||The null hypothesis is that there is no difference between the groups for visceral adipose tissue||||<0.05
92379301|NCT01515475|184661462|OTHER||Risk Difference (RD)|3.0||||0.72|TWO_SIDED|95.0|-12.0|18.0|||Barnard's Exact Test|||||18|-12|0.72
92379302|NCT01515475|184661462|OTHER||Risk Difference (RD)|-13.0||||0.14|TWO_SIDED|95.0|-31.0|4.0|||Barnard's Exact Test|||||4|-31|0.14
92379303|NCT01515475|184661470|OTHER||Mean Difference (Final Values)|0.6||||0.002|TWO_SIDED|99.0|0.11|1.09||Results are considered statistically significant if p\<0.01.|ANCOVA|||"Analysis for the more hyperopic eye, Older Cohort:~An analysis of covariance model adjusting for refractive error at enrollment was used to compare mean change in refractive error between treatment groups."||1.09|0.11|0.002
92379304|NCT01515475|184661470|OTHER||Mean Difference (Final Values)|0.58||||0.002|TWO_SIDED|99.0|0.1|1.06||Results are considered statistically significant if p\<0.01.|ANCOVA|||"Analysis for the less hyperopic eye, Older Cohort:~An analysis of covariance model adjusting for refractive error at enrollment was used to compare mean change in refractive error between treatment groups."||1.06|0.10|0.002
92379305|NCT01515475|184661470|OTHER||Mean Difference (Final Values)|0.16||||0.53|TWO_SIDED|99.0|-0.51|0.84||Results are considered statistically significant if p≤0.01.|ANCOVA|||"Analysis for the more hyperopic eye, Younger Cohort:~An analysis of covariance model adjusting for refractive error at enrollment was used to compare mean change in refractive error between treatment groups."||0.84|-0.51|0.53
92379306|NCT01515475|184661470|OTHER||Mean Difference (Final Values)|0.22||||0.38|TWO_SIDED|99.0|-0.43|0.86||Results are considered statistically significant if p≤0.01.|ANCOVA|||"Analysis for the less hyperopic eye, Younger Cohort:~An analysis of covariance model adjusting for refractive error at enrollment was used to compare mean change in refractive error between treatment groups."||0.86|-0.43|0.38
92379307|NCT01515475|184661471|OTHER||Mean Difference (Final Values)|-25.0||||0.013|TWO_SIDED|99.0|-49.0|1.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||"Analysis for the more hyperopic eye:~Barnard's exact test was used to compare proportions between treatment groups."||1|-49|0.013
92379308|NCT01515475|184661471|OTHER||Hazard Ratio, log|-18.0||||0.08|TWO_SIDED|99.0|-42.0|8.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||"Analysis for the less hyperopic eye:~Barnard's exact test was used to compare proportions between treatment groups."||8|-42|0.08
92379309|NCT01515475|184661472|OTHER||Mean Difference (Final Values)|0.01||||0.22|TWO_SIDED|99.0|-0.02|0.04|||ANCOVA|||"Test for Difference in Means in Better-Seeing Eye: Older Cohort~An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups. Results are considered statistically significant if p\<0.01."||0.04|-0.02|0.22
92379310|NCT01515475|184661472|OTHER||Mean Difference (Final Values)|-0.02||||0.41|TWO_SIDED|99.0|-0.06|0.03|||ANCOVA|||"Test for Difference in Means in Worse-Seeing Eye: Older Cohort~An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups. Results are considered statistically significant if p\<0.01."||0.03|-0.06|0.41
92379311|NCT01515475|184661472|OTHER||Mean Difference (Final Values)|-0.05||||0.02|TWO_SIDED|99.0|-0.12|0.01|||ANCOVA|||"Test for Difference in Means in Better-Seeing Eye: Younger Cohort~An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups. Results are considered statistically significant if p\<0.01."||0.01|-0.12|0.02
92379312|NCT01515475|184661472|OTHER||Mean Difference (Final Values)|-0.07||||0.15|TWO_SIDED|99.0|-0.19|0.05|||ANCOVA|||"Test for Difference in Means in Worse-Seeing Eye: Younger Cohort~An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups. Results are considered statistically significant if p\<0.01."||0.05|-0.19|0.15
92379313|NCT01515475|184661473|OTHER||Mean Difference (Final Values)|-2.0||||0.51|TWO_SIDED|99.0|-18.0|13.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test was used to compare proportions between treatment groups.||13|-18|0.51
92379314|NCT01515475|184661473|OTHER||Mean Difference (Final Values)|-2.0||||0.79|TWO_SIDED|99.0|-18.0|14.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test was used to compare proportions between treatment groups.||14|-18|0.79
92278065|NCT01945138|184458174|SUPERIORITY_OR_OTHER|||||||0.193|TWO_SIDED||||||t-test, 2 sided|||||||0.193
92379315|NCT01515475|184661474|OTHER||Mean Difference (Final Values)|-2.0||||0.51|TWO_SIDED|99.0|-18.0|13.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test was used to compare proportions between treatment groups.||13|-18|0.51
92379316|NCT01515475|184661474|OTHER||Mean Difference (Final Values)|-4.0||||0.68|TWO_SIDED|99.0|-24.0|16.0||Results are considered statistically significant if p≤0.01.|Barnard's Exact Test|||Barnard's exact test was used to compare proportions between treatment groups.||16|-24|0.68
92231512|NCT01431287|184365491|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.068|STANDARD_ERROR_OF_MEAN|0.026||0.0094|TWO_SIDED|95.0|0.017|0.119||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.119|0.017|0.0094
92278066|NCT01945138|184458175|SUPERIORITY_OR_OTHER|||||||0.848|TWO_SIDED||||||t-test, 2 sided|||||||0.848
92379317|NCT01515475|184661475|OTHER||Mean Difference (Final Values)|-0.04||||0.21|TWO_SIDED|99.0|-0.12|0.05||Results are considered statistically significant if p\<0.01|ANCOVA|||An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups.||0.05|-0.12|0.21
92379318|NCT01515475|184661475|OTHER||Mean Difference (Final Values)|-0.03||||0.25|TWO_SIDED|99.0|-0.1|0.04||Results are considered statistically significant if p≤0.01.|ANCOVA|||An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups.||0.04|-0.10|0.25
92379319|NCT01515475|184661476|OTHER||Mean Difference (Final Values)|-2.0||||0.51|TWO_SIDED|99.0|-18.0|13.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test used to compare proportions between treatment groups||13|-18|0.51
92379320|NCT01515475|184661476|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|99.0|-17.0|17.0||No p-value, because there was 0% difference||||Barnard's exact test used to compare proportions between treatment groups.||17|-17|
92379321|NCT01515475|184661477|OTHER||Mean Difference (Final Values)|0.02||||0.74|TWO_SIDED|99.0|-0.11|0.14||Results are considered statistically significant if p\<0.01.|ANCOVA|||An analysis of covariance model was used to compare mean change in stereoacuity between treatment groups. The analysis controlled for age at the 3-year visit, anisometropia at the most recent visit, and stereoacuity at enrollment.||0.14|-0.11|0.74
92379322|NCT01515475|184661477|OTHER||Mean Difference (Final Values)|-0.1||||0.15|TWO_SIDED|99.0|-0.4|0.1|||ANCOVA|||An analysis of covariance model was used to compare mean change in stereoacuity between treatment groups. The analysis controlled for age at the 3-year visit and anisometropia at the most recent visit.||0.1|-0.4|0.15
92379323|NCT01515475|184661478|OTHER||Mean Difference (Final Values)|5.0||||0.53|TWO_SIDED|99.0|-14.0|26.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test used to compare proportions between treatment groups||26|-14|0.53
92379324|NCT01515475|184661478|OTHER||Mean Difference (Final Values)|-19.0||||0.02|TWO_SIDED|99.0|-40.0|2.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test used to compare proportions between treatment groups.||2|-40|0.02
92379325|NCT01511809|184661484|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A lower limit of the 95% confidence interval of the difference between the two proportions of treatment failure (triple therapy-monotherapy) below the pre-specified margin of non-inferiority of -10% established inferiority. A sample size of 342 patients (171 per treatment arm) provided 80% power (one-sided, alpha 0.05) to establish non-inferiority of ATV/r monotherapy as compared to ATV/r triple therapy with an overall treatment failure (TF) rate of 15% at week 48.|difference between TF proportions|15.0|||||TWO_SIDED|||||||||"Here are reported the results of the 48-week interim analyses according to the intention-to-treat (ITT) principle. ITT=F (with re-intensification=failure) and the ITT=S (with re-intensification=success) treatment failure results are shown.~Based on the efficacy data review, in June 2013, an independent Data and Safety Monitoring Board (DSMB) recommended to stop further patients' enrolment and to follow-up the enrolled patients until 96 weeks, after having signed an updated informed consent."||||
92278067|NCT01945138|184458176|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED||||||t-test, 2 sided|||||||0.074
92278068|NCT01945138|184458177|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||t-test, 2 sided|||||||0.38
92379326|NCT01996592|184661486|OTHER||||||<|0.01||||||p-value was calculated|ANOVA|||"PROMIS -perceived stress scale was utilized (a validated test). Scoring ranges from 0-40, with the following ranges indicative of low, moderate, or high perceived stress:~0-13=low stress 14-26=moderate stress 27-40=high perceived stress"||||<0.01
92379327|NCT01996592|184661487|OTHER||||||<|0.01||||||p-value was calculated|ANOVA|||||||<0.01
92379328|NCT00707746|184661495|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤ 0.05.|t-test, 2 sided|||It was estimated that the standard deviation of the percent change in LDL-C was 20%. A sample size of 30 patients was planned for this study: 20 patients in the mipomersen group and 10 patients in the placebo group. A 2-sided t-test with an alpha level of 0.05 was expected to provide ≥90% power to detect a 30% difference in LDL-C percent reduction between the 2 groups (35% reduction for the mipomersen group and 5% reduction for the placebo group).||||<0.001
92379329|NCT00707746|184661498|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|Wilcoxon signed rank sum|||||||<0.001
92379330|NCT00707746|184661500|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
92379331|NCT00707746|184661502|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
92379332|NCT00707746|184661504|SUPERIORITY_OR_OTHER|||||||0.005||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.005
92379333|NCT00707746|184661506|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||<0.001
92379334|NCT00707746|184661508|SUPERIORITY_OR_OTHER|||||||0.006||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.006
92379335|NCT00707746|184661510|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||<0.001
92379336|NCT00707746|184661512|SUPERIORITY_OR_OTHER|||||||0.784||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.784
92379337|NCT00707746|184661514|SUPERIORITY_OR_OTHER|||||||0.079||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.079
92379338|NCT02573246|184661518|SUPERIORITY|Aimed to recruit 20 participants in each condition to align with other neurostimulation studies where 6-20 adults per condition were sufficient to demonstrate proof-of-concept for novel treatments (Bentwich et al., 2011; Cunningham et al., 2015).|Mean Difference (Net)|-0.323|STANDARD_ERROR_OF_MEAN|0.131||0.019|TWO_SIDED|95.0|-0.59|-0.056||A priori threshold for significance was .05.|Mixed Models Analysis||The results presented are between the active right and sham conditions.|A mixed models analysis of variance (MMANOVA) examining regulation duration during each regulation period was conducted using treatment condition (active right, active left, sham), experimental condition (regulation1, regulation2, regulation3), and baseline as predictors.||-.056|-.590|0.019
92379339|NCT02573246|184661518|SUPERIORITY||Mean Difference (Net)|0.237|STANDARD_ERROR_OF_MEAN|0.133||0.08|TWO_SIDED|95.0|-0.034|0.508|||Mixed Models Analysis|||A mixed models analysis of variance (MMANOVA) examining regulation duration during each regulation period was conducted using treatment condition (active right, active left, sham), experimental condition (regulation1, regulation2, regulation3), and baseline as predictors.||.508|-.034|.08
92379340|NCT02573246|184661518|SUPERIORITY||Mean Difference (Net)|-0.227|STANDARD_ERROR_OF_MEAN|0.103||0.033|TWO_SIDED|95.0|-0.434|-0.02||A priori threshold for significance was set to .05.|Mixed Models Analysis|we controlled for baseline and for the distance between the brain and the scalp||Regulation duration was transformed using a logarithmic transformation to achieve normality||-.020|-.434|.033
92379341|NCT02573246|184661519|SUPERIORITY||Mean Difference (Net)|-0.124|STANDARD_ERROR_OF_MEAN|0.184||0.51|TWO_SIDED|95.0|-0.504|0.256||A priori set threshold for statistical significance was 0.05|ANOVA|||A univariate general linear model was employed to test of regulation duration, transformed for normality.||.256|-0.504|.51
92379342|NCT02573246|184661519|SUPERIORITY||Mean Difference (Net)|0.007|STANDARD_ERROR_OF_MEAN|0.18||0.97|TWO_SIDED|95.0|-0.364|0.378|||ANOVA|||||.378|-.364|.97
92379343|NCT02573246|184661519|SUPERIORITY||Mean Difference (Net)|0.147993|STANDARD_ERROR_OF_MEAN|0.167031||0.39|TWO_SIDED|95.0|-0.215936|0.511921||A priori set significance threshold was 0.05|t-test, 2 sided|||A t test of the variable 'time it took to return to HR baseline', transformed for normality was used to examine between condition differences at the 1 month follow up.||0.511921|-0.215936|0.39
92379344|NCT02573246|184661520|SUPERIORITY|HF-HRV was transformed using the function lg10\*(HF-HRV\*1000000) in order to be normally distributed.|Mean Difference (Net)|0.16|STANDARD_DEVIATION|0.51||0.022|TWO_SIDED|95.0|0.044|0.267||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||In the original study (CR+active left rTMS vs CR+ active right rTMS vs CR+sham rTMS), mixed-effects hierarchical linear models (MMANOVA) with analytically determined covariance structures were used to analyze the repeated measures data. We hypothesized that active neurostimulation would increase HF-HRV during regulation.||.267|.044|.022
92379345|NCT02573246|184661520|SUPERIORITY||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.052||0.0499|TWO_SIDED|95.0|0.000037|0.213074|||Mixed Models Analysis|||MMANOVA||0.213074|0.000037|0.0499
92379346|NCT02573246|184661520|SUPERIORITY|Aimed to recruit 20 participants in each condition to align with other neurostimulation studies where 6-20 adults per condition were sufficient to demonstrate proof-of-concept for novel treatments (Bentwich et al., 2011; Cunningham et al., 2015).|Mean Difference (Net)|0.172|STANDARD_DEVIATION|0.38|<|1e-06|TWO_SIDED|95.0|0.129|0.215||Significance threshold was set at p = 0.05.|Mixed Models Analysis||The MMANOVA analysis used an unstructured covariance structure.|In the supplemental study (CR+active left rTMS with functional targeting vs CR+sham rTMS), mixed-effects hierarchical linear models (MMANOVA) with analytically determined covariance structures were used to analyze the repeated measures data. We hypothesized that active neurostimulation would increase HF-HRV during regulation when compared with sham.||.215|.129|<.000001
92412608|NCT00955201|184715047|SUPERIORITY|||||||1||||||Dunn's multiple comparisons test:|Kruskal-Wallis|||Evaluate within group across time||||1.00
92379347|NCT02573246|184661521|SUPERIORITY||Mean Difference (Net)|0.111|STANDARD_ERROR_OF_MEAN|0.091544||0.236|TWO_SIDED|95.0|-0.078086|0.300661||A priori threshold was set to 0.05.|ANCOVA|Brain to skull difference and intake difference in dlPFC activation between regulation and feeling negative were included as confounds.|Parameter estimate is the value of the difference between active stimulation and sham stimulation.|Difference between treatment conditions in dlPFC activation change between feeling negative emotions and downregulation of negative affect a week after intervention, when controlling for baseline activation difference||0.300661|-0.078086|.236
92379348|NCT02573246|184661521|SUPERIORITY||Mean Difference (Net)|0.359024|STANDARD_ERROR_OF_MEAN|0.144067||0.020347|TWO_SIDED|95.0|0.061|0.657049||Threshold was set at 0.05 a priori|ANCOVA|Brain to skull difference and intake difference in vlpfc activation between regulation and feeling negative were included as confounds.||Expected significantly higher activation following active intervention in the vlPFC when compared to sham when engaging in downregulation versus passive experience of negative emotions induced with autobiographical stressors. ROI data was extracted using FSL featquery. A univariate general linear model excluding one outlier from the active condition was conducted for this outcome measure.||0.657049|0.061000|0.020347
92412609|NCT00955201|184715047|SUPERIORITY|||||||1||||||Dunn's multiple comparisons test:|Kruskal-Wallis|||Evaluate within group across time.||||1.00
92412610|NCT00955201|184715047|SUPERIORITY|||||||0.81|||||||Kruskal-Wallis|||Comparison across groups at baseline||||0.81
92412611|NCT00955201|184715047|SUPERIORITY|||||||0.6|||||||Kruskal-Wallis|||Comparison across groups at 12-wks||||0.60
92412612|NCT00955201|184715047|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||Comparison across groups at 24-wks||||0.99
92231513|NCT01431287|184365491|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.062|STANDARD_ERROR_OF_MEAN|0.026||0.0174|TWO_SIDED|95.0|0.011|0.113||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.113|0.011|0.0174
92231514|NCT01431287|184365491|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.028|STANDARD_ERROR_OF_MEAN|0.026||0.2888|TWO_SIDED|95.0|-0.023|0.079||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.079|-0.023|0.2888
92231515|NCT01431287|184365491|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.095|STANDARD_ERROR_OF_MEAN|0.026||0.0003|TWO_SIDED|95.0|0.044|0.146||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.146|0.044|0.0003
92379349|NCT02573246|184661521|SUPERIORITY||Mean Difference (Net)|0.221683|STANDARD_ERROR_OF_MEAN|0.461481||0.635|TWO_SIDED|95.0|-0.732963|1.17633||A priori threshold was set to .05|ANCOVA|Brain to skull difference and intake difference in vmpfc activation between regulation and feeling negative were included as confounds.||Expected significantly higher activation following active intervention in the vmPFC when compared to sham when engaging in downregulation versus passive experience of negative emotions induced with autobiographical stressors. ROI data was extracted with FSL featquery.||1.176330|-0.732963|0.635
92379350|NCT02573246|184661521|SUPERIORITY||Mean Difference (Net)|0.179412|STANDARD_ERROR_OF_MEAN|0.178029||0.324|TWO_SIDED|95.0|-0.188868|0.547692||a priori set threshold was 0.05|ANCOVA|Brain to skull difference and intake difference in amygdala activation between regulation and feeling negative were included as confounds.||Expected significantly lower activation following active intervention in the amygdala when compared to sham when engaging in downregulation versus passive experience of negative emotions induced with autobiographical stressors. ROI data was extracted with featquery (FSL).||0.547692|-0.188868|.324
92379351|NCT02573246|184661521|SUPERIORITY||Mean Difference (Net)|0.021231|STANDARD_ERROR_OF_MEAN|0.071185||0.76819|TWO_SIDED|95.0|-0.126027|0.168489||A priori set threshold was 0.05|ANCOVA|Brain to skull difference and intake difference in insula activation between regulation and feeling negative were included as confounds.||Expected significantly lower activation following active intervention in the insula when compared to sham when engaging in downregulation versus passive experience of negative emotions induced with autobiographical stressors. FSL featquery tool was used to extract ROI (region of interest) data.||0.168489|-0.126027|0.768190
92379352|NCT02573246|184661522|SUPERIORITY||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.455||0.69|TWO_SIDED|95.0|-0.553|1.293||a priori threshold for significance was 0.05|ANOVA|||Likert-type questions about acceptability were rated on a scale from 0 (not at all) to 9 (extremely) and then averaged to create a mean for acceptability. This average score was normally distributed and therefore was entered into a univariate general linear model where acceptability was entered as a dependent variable and condition as a fixed factor.||1.293|-0.553|0.69
92379353|NCT02573246|184661522|SUPERIORITY||Mean Difference (Net)|0.27|STANDARD_ERROR_OF_MEAN|0.43||0.53|TWO_SIDED|95.0|-0.592|1.139|||ANOVA|||||1.139|-.592|.53
92379354|NCT02573246|184661522|SUPERIORITY||Mean Difference (Net)|-0.66|STANDARD_ERROR_OF_MEAN|0.45||0.15|TWO_SIDED|95.0|-1.59|0.27||a priory threshold for significance was .05|t-test, 2 sided|||we compared differences in acceptability between conditions using an independent samples t-test (acceptability was normally distributed)||0.27|-1.59|0.15
92379355|NCT02573246|184661523|SUPERIORITY||Mean Difference (Net)|0.295|STANDARD_ERROR_OF_MEAN|0.304||0.551|TWO_SIDED|95.0|-0.322|0.912||a priori threshold was set to 0.05|ANOVA|||We compared differences between conditions in the perceived feasibility of the procedures. Feasibility average was normally distributed and therefore a general linear model, univariate was employed to test between condition effects.||0.912|-0.322|0.551
92379356|NCT02573246|184661523|SUPERIORITY||Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.281||0.995|TWO_SIDED|95.0|-0.567|0.571|||ANOVA|||||.571|-.567|.995
92379357|NCT02573246|184661523|SUPERIORITY||Mean Difference (Net)|-0.09957|STANDARD_ERROR_OF_MEAN|0.371||0.791|TWO_SIDED|95.0|-0.8672|0.6681||A priori threshold for statistical significance was set to 0.05|t-test, 2 sided|df = 23||We examined differences in feasibility between the active and sham condition in the sub-study where fMRI targeting was utilized. Average feasibility was normally distributed and therefore an independent samples t-test was used to test this outcome.||0.6681|-0.8672|0.791
92379358|NCT02573246|184661524|SUPERIORITY||Mean Difference (Net)|6.04|STANDARD_ERROR_OF_MEAN|8.048||0.61|TWO_SIDED|95.0|-9.522964|21.60462||A priori threshold was set to 0.05|Mixed Models Analysis|||To test the long-term effects of the intervention, a MMANOVA model was conducted examining between-condition differences at the 1-week and 1-month follow-up in the OQ-45. Baseline was co-varied.||21.604620|-9.522964|0.61
92379359|NCT02573246|184661524|SUPERIORITY||Mean Difference (Net)|-0.906|STANDARD_ERROR_OF_MEAN|7.37||0.9|TWO_SIDED|95.0|-15.83|14.02||a priori threshold was set to .05|Mixed Models Analysis|||||14.02|-15.83|.90
92379360|NCT02573246|184661524|SUPERIORITY||Mean Difference (Net)|10.46|STANDARD_ERROR_OF_MEAN|7.93||0.2|TWO_SIDED|95.0|-5.971581|26.892619||threshold was set to 0.05 a priori|Mixed Models Analysis||HLM models used a compound symmetry covariance structure.|||26.892619|-5.971581|.20
92379361|NCT02573246|184661525|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.258||0.034|TWO_SIDED|95.0|-1.062356|-0.043203||A priori threshold was set to .05 for significance.|Mixed Models Analysis|Subjective Units of Distress (SUDS) right before the intervention were co-varied as baseline.|Results reported are for active left vs. sham comparison.|Hypothesized that active neurostimulation would lead to lower daily distress than sham stimulation. We used a hierarchical linear model (HLM) for this analysis with an identity covariance structure (random intercept and random slope).||-0.043203|-1.062356|.034
92412613|NCT00955201|184715048|SUPERIORITY|||||||0.59|||||||ANOVA|||Comparison across groups at baseline.||||0.59
92412614|NCT00955201|184715049|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
92412615|NCT00955201|184715049|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
92379362|NCT02573246|184661525|SUPERIORITY||Mean Difference (Net)|0.631|STANDARD_ERROR_OF_MEAN|0.404||0.133|TWO_SIDED|95.0|-0.208|1.47||A priori set threshold was .05|Mixed Models Analysis|||Hypothesized that active neurostimulation will lead to less daily distress than sham neurostimulation during the ambulatory data collection. An HLM analysis was conducted using an unstructured covariance structure and reported distress right before the intervention as baseline.||1.47|-.208|.133
92379363|NCT02573246|184661526|SUPERIORITY||Mean Difference (Net)|-1.300772|STANDARD_ERROR_OF_MEAN|2.670936||0.629061|TWO_SIDED|95.0|-6.708548|4.107||A priori threshold was set to .05|Mixed Models Analysis|Intake values for the dependent measures were covaried. The time by condition interaction term was included.||Mixed model analyses of variance (MMANOVAs) were conducted to explore the difference between active and sham neurostimulation on self reported indices of regulation and psychopathology. We expected active neurostimulation to lead to less functional impairment than sham neurostimulation.||4.107|-6.708548|0.629061
92379364|NCT02573246|184661526|SUPERIORITY||Mean Difference (Net)|-0.977394|STANDARD_ERROR_OF_MEAN|2.605189||0.71|TWO_SIDED|95.0|-6.255223|4.300434|||Mixed Models Analysis|||We expected lower functional impairment in the active right versus the sham condition.||4.300434|-6.255223|0.71
92379365|NCT02573246|184661526|SUPERIORITY||Mean Difference (Net)|-3.292137|STANDARD_ERROR_OF_MEAN|3.314194||0.331|TWO_SIDED|95.0|-10.157811|3.573537||A priori set threshold was .05|Mixed Models Analysis|Baseline WSAS was covaried|The analysis compared sham versus active stimulation.|Mixed model analyses of variance (MMANOVAs) were conducted to explore the difference between active and sham neurostimulation on self reported indices of regulation and psychopathology in the substudy also. We expected active neurostimulation to lead to less impairment than sham neurostimulation.||3.573537|-10.157811|0.331
92379366|NCT02573246|184661526|SUPERIORITY||Mean Difference (Net)|0.284589|STANDARD_ERROR_OF_MEAN|0.276698||0.31|TWO_SIDED|95.0|-0.27603|0.845209||A priori set threshold for significance was 0.05|Mixed Models Analysis|baseline was covaried||Mixed model analyses of variance (MMANOVAs) were conducted to explore the difference between active and sham neurostimulation on self reported indices of regulation and psychopathology. We expected active neurostimulation to lead to more use of cognitive restructuring than sham neurostimulation.||0.845209|-0.276030|0.31
92379367|NCT02573246|184661526|SUPERIORITY||Mean Difference (Net)|10.129377|STANDARD_ERROR_OF_MEAN|9.150339||0.275257|TWO_SIDED|95.0|-8.394724|28.653479|||Mixed Models Analysis|||We hypothesized that active right neurostimulation would yield lower emotional dysregulation after the intervention when compared to sham neurostimulation.||28.653479|-8.394724|0.275257
92412616|NCT00955201|184715049|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
92412617|NCT00955201|184715049|SUPERIORITY|||||||0.72||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.72
92412618|NCT00955201|184715049|SUPERIORITY|||||||0.62|||||||ANOVA|||Comparison across groups at baseline.||||0.62
92231516|NCT01431287|184365491|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.121|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.07|0.172||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.172|0.070|<0.0001
92412619|NCT00955201|184715049|SUPERIORITY|||||||0.33|||||||ANOVA|||Comparison across groups at 12 wks.||||0.33
92412620|NCT00955201|184715049|SUPERIORITY|||||||0.38|||||||ANOVA|||Comparison across groups at 24 wks.||||0.38
92278069|NCT01945138|184458178|SUPERIORITY_OR_OTHER|||||||0.461|TWO_SIDED||||||t-test, 2 sided|||||||0.461
92278070|NCT01945138|184458179|SUPERIORITY_OR_OTHER|||||||0.205|TWO_SIDED||||||t-test, 2 sided|||||||0.205
92278071|NCT01945138|184458180|SUPERIORITY_OR_OTHER|||||||0.157|TWO_SIDED||||||t-test, 2 sided|||||||0.157
92379368|NCT02573246|184661526|SUPERIORITY||Mean Difference (Net)|-13.187|STANDARD_ERROR_OF_MEAN|6.212753||0.044|TWO_SIDED|95.0|-26.002351|-0.372281||A priori set significance threshold was 0.05|Mixed Models Analysis|||Mixed model analyses of variance (MMANOVAs) were conducted to explore the difference between active and sham neurostimulation on self reported indices of regulation and psychopathology. We expected active neurostimulation to lead to less emotional dysregulation than sham neurostimulation.||-0.372281|-26.002351|0.044
92412621|NCT00955201|184715050|SUPERIORITY|||||||0.88||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.88
92412622|NCT00955201|184715050|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
92412623|NCT00955201|184715050|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
92412624|NCT00955201|184715050|SUPERIORITY|||||||0.76||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.76
92412625|NCT00955201|184715050|SUPERIORITY|||||||0.82|||||||ANOVA|||Comparison across groups at baseline.||||0.82
92412626|NCT00955201|184715050|SUPERIORITY|||||||0.53|||||||ANOVA|||Comparison across groups at 12 wks.||||0.53
92412627|NCT00955201|184715050|SUPERIORITY|||||||0.68|||||||ANOVA|||Comparison across groups at 24 wks.||||0.68
92412628|NCT00955201|184715051|SUPERIORITY|||||||0.7|||||||ANOVA|||Comparison across groups at baseline.||||0.70
92412629|NCT00955201|184715053|SUPERIORITY|||||||0.59|||||||ANOVA|||Comparison across groups at baseline.||||0.59
92412630|NCT00955201|184715054|SUPERIORITY|||||||0.45|||||||ANOVA|||Comparison across groups at baseline.||||0.45
92412631|NCT00955201|184715055|SUPERIORITY|||||||0.04|||||||ANOVA|||Comparison across groups at baseline.||||0.04
92412632|NCT00955201|184715056|SUPERIORITY|||||||0.77|||||||ANOVA|||Comparison across groups at baseline.||||0.77
92412633|NCT00955201|184715057|SUPERIORITY|||||||0.12|||||||ANOVA|||Comparison across groups at baseline.||||0.12
92412634|NCT00955201|184715058|SUPERIORITY|||||||0.42|||||||ANOVA|||Comparison across groups at baseline.||||0.42
92412635|NCT00955201|184715059|SUPERIORITY|||||||0.79|||||||ANOVA|||Comparison across groups at baseline.||||0.79
92231517|NCT01431287|184365491|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.115|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.064|0.166||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.166|0.064|<0.0001
92231518|NCT01431287|184365491|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.006|STANDARD_ERROR_OF_MEAN|0.026||0.8241|TWO_SIDED|95.0|-0.045|0.057||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.057|-0.045|0.8241
92231519|NCT01431287|184365492|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.158|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.108|0.208||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.208|0.108|<0.0001
92231520|NCT01431287|184365492|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.072|STANDARD_ERROR_OF_MEAN|0.025||0.0048|TWO_SIDED|95.0|0.022|0.122||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.122|0.022|0.0048
92231521|NCT01431287|184365492|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.101|0.2||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.200|0.101|<0.0001
92231522|NCT01431287|184365492|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.103|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.053|0.152||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.152|0.053|<0.0001
92231523|NCT01431287|184365492|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.025||0.0116|TWO_SIDED|95.0|0.014|0.113||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.113|0.014|0.0116
92231524|NCT01431287|184365492|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.008|STANDARD_ERROR_OF_MEAN|0.025||0.7577|TWO_SIDED|95.0|-0.042|0.058||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom|spatial power covariance structure for within-patient errors|||0.058|-0.042|0.7577
92231525|NCT01431287|184365492|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.111|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.061|0.16||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.160|0.061|<0.0001
92231526|NCT01431287|184365492|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.086|STANDARD_ERROR_OF_MEAN|0.025||0.0007|TWO_SIDED|95.0|0.037|0.136||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.136|0.037|0.0007
92278072|NCT01945138|184458181|SUPERIORITY_OR_OTHER|||||||0.443|TWO_SIDED||||||t-test, 2 sided|||||||0.443
92379369|NCT02573246|184661526|SUPERIORITY||Mean Difference (Net)|0.927909|STANDARD_ERROR_OF_MEAN|9.603423||0.924|TWO_SIDED|95.0|-18.508252|20.364071||A priori set threshold for statistical significance was 0.05|Mixed Models Analysis|baseline was covaried||We expected active stimulation to lead to less emotional dysregulation than sham neurostimulation. A MMANOVA model was employed, controlling for baseline.||20.364071|-18.508252|.924
92379370|NCT02573246|184661526|SUPERIORITY||Mean Difference (Net)|-0.017547|STANDARD_ERROR_OF_MEAN|0.267983||0.95|TWO_SIDED|95.0|-0.560994|0.525901|||Mixed Models Analysis|||we expected more use of cr following active right neurostimulation then after following sham neurostimulation.||0.525901|-0.560994|.95
92278073|NCT01945138|184458182|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.04
92412636|NCT02737891|184715060|SUPERIORITY||Mean Difference (Net)|-3.8||||0.004|TWO_SIDED|95.0|-6.36|-1.29||Two-sided p-value for test of no difference from 0.|ANCOVA|||The analysis was based on a parametric model, i.e. compared between treatment arms by means of an analysis of covariance (ANCOVA) model (proc MIXED) using change from baseline to the end of treatment as dependent variable, treatment and study site as fixed effects and the value from baseline as covariate. The residual errors were assumed independent and identically distributed (i.i.d.) and normally distributed.||-1.29|-6.36|0.004
92379371|NCT02573246|184661526|SUPERIORITY||Mean Difference (Net)|-0.096719|STANDARD_ERROR_OF_MEAN|0.389897||0.806|TWO_SIDED|95.0|-0.900919|0.707481||A priori set significance threshold was 0.05|Mixed Models Analysis|Baseline use of cognitive restructuring was covaried||Mixed model analyses of variance (MMANOVAs) were conducted to explore the difference between active and sham neurostimulation on self reported indices of regulation and psychopathology. We expected active neurostimulation to lead to more use of cognitive restructuring than sham neurostimulation.||0.707481|-0.900919|.806
92379372|NCT02256267|184661529|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.0771|||||TWO_SIDED|90.0|0.0671|0.0886||||||||0.0886|0.0671|
92379373|NCT02256267|184661530|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.0467|||||TWO_SIDED|90.0|0.0376|0.0581||||||||0.0581|0.0376|
92379374|NCT01443130|184661546|SUPERIORITY_OR_OTHER|||||||0.2441||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025|Fisher Exact|||The null hypothesis is the incidence of placental malaria infection based on histology is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.2441
92379375|NCT01443130|184661546|SUPERIORITY_OR_OTHER|||||||1||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025|Fisher Exact|||The null hypothesis is the incidence of placental malaria infection based on histology is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||1.000
92379376|NCT01443130|184661547|SUPERIORITY_OR_OTHER|||||||0.4941||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of malaria by placental impression smear is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.4941
92412637|NCT02737891|184715061|SUPERIORITY||Mean Difference (Net)|0.1||||0.724|TWO_SIDED|95.0|-0.23|0.33||Two-sided p-value for test of no difference from 0.|ANCOVA|||The analysis was based on a parametric model, i.e. compared between treatment arms by means of an analysis of covariance (ANCOVA) model (proc MIXED) using change from baseline to the end of treatment as dependent variable, treatment and study site as fixed effects and the value from baseline as covariate. The residual errors were assumed independent and identically distributed (i.i.d.) and normally distributed.||0.33|-0.23|0.724
92412638|NCT02737891|184715062|SUPERIORITY||Mean Difference (Net)|-3.5|||<|0.0001|TWO_SIDED|95.0|-4.65|-2.3||Two-sided p-value for test of no difference from 0.|ANCOVA|||The analysis was based on a parametric model, i.e. compared between treatment arms by means of an analysis of covariance (ANCOVA) model (proc MIXED) using change from baseline to the end of treatment as dependent variable, treatment and study site as fixed effects and the value from baseline as covariate. The residual errors were assumed independent and identically distributed (i.i.d.) and normally distributed.||-2.30|-4.65|<0.0001
92278074|NCT01945138|184458183|SUPERIORITY_OR_OTHER|||||||0.401|TWO_SIDED||||||t-test, 2 sided|||||||0.401
92379377|NCT01443130|184661547|SUPERIORITY_OR_OTHER|||||||0.499||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of malaria by placental impression smear is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.4990
92379378|NCT01443130|184661548|SUPERIORITY_OR_OTHER|||||||0.3089||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of maternal anemia is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.3089
92379379|NCT01443130|184661548|SUPERIORITY_OR_OTHER|||||||0.6973||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of maternal anemia is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.6973
92379380|NCT01443130|184661549|SUPERIORITY_OR_OTHER|||||||1||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of maternal severe anemia is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||1.00
92379381|NCT01443130|184661549|SUPERIORITY_OR_OTHER|||||||1||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of maternal severe anemia is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||1.00
92412639|NCT03890666|184715065|OTHER||Odds Ratio (OR)|1.33||||||||||||||The statistical model is a logistic regression model with treatment group as a fixed factor, pooled study sites as a random factor, and baseline ACT score as a covariate.||||
92412640|NCT01105065|184715082|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared, Corrected|||There would be no change in retinal vascular dysregulation after treatment with brimonidine||||<0.0001
92412641|NCT01105065|184715083|SUPERIORITY_OR_OTHER|||||||0.28|||||||paired t-test|||A paired t-test was used to determine if their was a statistically significant difference between the mean deviation of the frequency doubling perimetry in the RVD patients pre and post brimonidine treatment.||||0.28
92379382|NCT01443130|184661550|SUPERIORITY_OR_OTHER|||||||0.4979||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of stillbirth is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.4979
92231527|NCT01431287|184365492|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.025||0.0621|TWO_SIDED|95.0|-0.002|0.097||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.097|-0.002|0.0621
92278075|NCT01945138|184458184|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||t-test, 2 sided|||||||0.22
92379383|NCT01443130|184661550|SUPERIORITY_OR_OTHER|||||||0.1166||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of stillbirth is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.1166
92379384|NCT01443130|184661551|SUPERIORITY_OR_OTHER|||||||0.6237||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of miscarriage is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.6237
92379385|NCT01443130|184661551|SUPERIORITY_OR_OTHER|||||||1||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of miscarriage is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||1.000
92379386|NCT01443130|184661552|SUPERIORITY_OR_OTHER|||||||0.5187||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of preterm delivery is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.5187
92379387|NCT01443130|184661552|SUPERIORITY_OR_OTHER|||||||0.2163||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of preterm delivery is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.2163
92379388|NCT01443130|184661553|SUPERIORITY_OR_OTHER|||||||0.5959||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of infant mortality within 14 weeks of delivery is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.5959
92379389|NCT01443130|184661553|SUPERIORITY_OR_OTHER|||||||0.8127||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of infant mortality within 14 weeks of delivery is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.8127
92412642|NCT03495856|184715099|OTHER|within-group paired t-test|Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|0.37||0.05|TWO_SIDED|95.0|-1.55|0.0||The a priori threshold for statistical significance was p less than or equal to 0.05. That calculated p-value in the statistical hypothesis test was equal to 0.05.|t-test, 2 sided|||||0.00|-1.55|0.05
92412643|NCT03495856|184715100|OTHER|within-group paired t-test|Mean Difference (Final Values)|-3.67|STANDARD_ERROR_OF_MEAN|1.42||0.017|TWO_SIDED|95.0|-6.63|-0.71|||t-test, 2 sided|||||-0.71|-6.63|0.017
92412644|NCT03495856|184715101|OTHER|Within-group paired t-test|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.7||0.938|TWO_SIDED|95.0|-1.39|1.5|||t-test, 2 sided|||||1.50|-1.39|0.938
92278076|NCT01945138|184458185|SUPERIORITY_OR_OTHER|||||||0.325|TWO_SIDED||||||t-test, 2 sided|||||||0.325
92379390|NCT01443130|184661554|SUPERIORITY_OR_OTHER|||||||0.2566||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of low birth weight is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.2566
92379391|NCT01443130|184661554|SUPERIORITY_OR_OTHER|||||||0.7839||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of low birth weight is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.7839
92379392|NCT01443130|184661555|SUPERIORITY_OR_OTHER|||||||0.2553||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of intrauterine growth restriction is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.2553
92379393|NCT01443130|184661555|SUPERIORITY_OR_OTHER|||||||0.4354||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of intrauterine growth restriction is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.4354
92379394|NCT01443130|184661556|SUPERIORITY_OR_OTHER|||||||0.369||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of active placental malaria infection is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.3690
92379395|NCT01443130|184661556|SUPERIORITY_OR_OTHER|||||||0.4947||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of active placental malaria infection is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.4947
92231528|NCT01431287|184365492|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.039|STANDARD_ERROR_OF_MEAN|0.025||0.1266|TWO_SIDED|95.0|-0.011|0.089||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.089|-0.011|0.1266
92278077|NCT01945138|184458186|SUPERIORITY_OR_OTHER|||||||0.311|TWO_SIDED||||||t-test, 2 sided|||||||0.311
92379396|NCT01443130|184661557|SUPERIORITY_OR_OTHER|||||||0.063||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of malaria infection (all species) measured by positive parasitemia is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.0630
92379397|NCT01443130|184661557|SUPERIORITY_OR_OTHER|||||||0.4184||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of malaria infection (all species) measured by positive parasitemia is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.4184
92379398|NCT01443130|184661558|SUPERIORITY_OR_OTHER|||||||0.0268||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Cox proportional hazards|||The null hypothesis is the incidence of clinical malaria (all species) is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.0268
92379399|NCT01443130|184661558|SUPERIORITY_OR_OTHER|||||||0.1646||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Cox proportional hazards|||The null hypothesis is the incidence of clinical malaria (all species) is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.1646
92379400|NCT01443130|184661559|SUPERIORITY_OR_OTHER|||||||0.4501||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of infection in the fetal circulation is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.4501
92379401|NCT01443130|184661559|SUPERIORITY_OR_OTHER|||||||0.1758||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of infection in the fetal circulation is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.1758
92379402|NCT00364533|184661562|SUPERIORITY_OR_OTHER||LS mean difference of SPID48|91.4|||<|0.001||95.0|49.77|133.07|||ANCOVA|||The study was terminated and did not reach the planned sample size.||133.07|49.77|<0.001
92379403|NCT00364533|184661562|SUPERIORITY_OR_OTHER||LS mean difference of SPID48|81.5|||<|0.001||95.0|38.66|124.29|||ANCOVA|||The study was terminated and did not reach the planned sample size.||124.29|38.66|<0.001
92379404|NCT00364533|184661562|SUPERIORITY_OR_OTHER||LS mean difference of SPID48|81.5|||<|0.001||95.0|39.21|123.8|||ANCOVA|||The study was terminated and did not reach the planned sample size.||123.80|39.21|<0.001
92379405|NCT00364533|184661562|SUPERIORITY_OR_OTHER||LS mean difference of SPID48|82.4|||<|0.001||95.0|38.96|125.88|||ANCOVA|||The study was terminated and did not reach the planned sample size.||125.88|38.96|<0.001
92412645|NCT03495856|184715102|OTHER|Within-group paired t-test|Mean Difference (Final Values)|-3.34|STANDARD_ERROR_OF_MEAN|1.05||0.005|TWO_SIDED|95.0|-5.53|-1.15||The a priori threshold for statistical significance was p less than or equal to 0.05.|t-test, 2 sided|||||-1.15|-5.53|0.005
92412646|NCT03495856|184715103|OTHER|Within-group paired t-test|Mean Difference (Final Values)|-2.21|STANDARD_ERROR_OF_MEAN|1.38||0.124|TWO_SIDED|95.0|-5.09|0.66|||t-test, 2 sided|||||0.66|-5.09|0.124
92412647|NCT03495856|184715104|OTHER|Within-group paired t-test|Mean Difference (Final Values)|-4.69|STANDARD_ERROR_OF_MEAN|1.26||0.001|TWO_SIDED|95.0|-7.3|-2.07|||t-test, 2 sided|||||-2.07|-7.30|0.001
92412648|NCT03495856|184715105|OTHER|Within-group paired t-test|Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|0.5||0.018|TWO_SIDED|95.0|-2.31|-0.24|||t-test, 2 sided|||||-0.24|-2.31|0.018
92379406|NCT01266590|184661631|SUPERIORITY_OR_OTHER|||||||0.0664||95.0|||||Wilcoxon Signed Rank|||||||0.0664
92379407|NCT00511134|184661633|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Descriptive data|||It was hypothesized that the Zyban+Lunesta group would report lower ISI scores at end of trial than the Zyban+Placebo group.||||<0.05
92379408|NCT00511134|184661634|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Fisher Exact|Degrees of freedom=1||It is predicted that subjects taking eszopiclone will be more likely to report abstinence at trial endpoint than those taking placebo.||||<0.05
92379409|NCT00541346|184661669|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|26.3|||<|0.001|TWO_SIDED|95.0|19.6|33.1||Posterior-Predictive Probability of Mean Change (Pre-Post) Score at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||33.1|19.6|<0.001
92379410|NCT00541346|184661670|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|23.1|||<|0.001|TWO_SIDED|95.0|16.9|29.3||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||29.3|16.9|<0.001
92231529|NCT01431287|184365493|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.156|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.104|0.209||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.209|0.104|<0.0001
92231530|NCT01431287|184365493|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.087|STANDARD_ERROR_OF_MEAN|0.027||0.0013|TWO_SIDED|95.0|0.034|0.139||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.139|0.034|0.0013
92278078|NCT02629965|184458208|SUPERIORITY||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.019|<|0.001|TWO_SIDED|95.0|0.077|0.153|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.153|0.077|<0.001
92379411|NCT00541346|184661671|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|10.9|||<|0.001|TWO_SIDED|95.0|5.4|16.8||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.||Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||16.8|5.4|<0.001
92379412|NCT00541346|184661672|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|7.2|||<|0.001|TWO_SIDED|95.0|3.3|11.1||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||11.1|3.3|<0.001
92379413|NCT00541346|184661673|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|4.1|||<|0.01||95.0|1.2|6.9||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||6.9|1.2|<0.01
92379414|NCT00541346|184661674|SUPERIORITY_OR_OTHER||Bayesian random intercept model.|3.5|||<|0.001|TWO_SIDED|95.0|1.8|5.2||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||5.2|1.8|<0.001
92379415|NCT00541346|184661675|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|-10.9|||<|0.001|TWO_SIDED|95.0|-16.8|-5.4||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Above Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds|Random intercept growth curves were fit to all outcome data. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear dose and time effects.||-5.4|-16.8|<0.001
92412649|NCT03495856|184715106|OTHER|Within-group paired t-test|Mean Difference (Final Values)|2.79|STANDARD_ERROR_OF_MEAN|1.07||0.016|TWO_SIDED|95.0|0.58|5.01|||t-test, 2 sided|||||5.01|0.58|0.016
92412650|NCT03495856|184715107|OTHER|Within-group paired t-test|Mean Difference (Final Values)|-4.96|STANDARD_ERROR_OF_MEAN|1.41||0.002|TWO_SIDED|95.0|-7.88|-2.03|||t-test, 2 sided|||||-2.03|-7.88|0.002
92412651|NCT03495856|184715108|OTHER|Within-group paired t-test|Mean Difference (Final Values)|13.27|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|8.47|18.07|||t-test, 2 sided|||||18.07|8.47|<0.001
92412652|NCT03495856|184715109|OTHER|Within-group paired t-test|Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|1.96||0.001|TWO_SIDED|95.0|3.92|12.08|||t-test, 2 sided|||||12.08|3.92|0.001
92412653|NCT00322621|184715117|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 1.5 point on the BPI 24-hour average pain scale.|Mean Difference (Net)|0.35|||<|0.001||97.5|0.35|0.79||Significance level 0.025|t-test, 1 sided|||Null hypothesis is that duloxetine treatment effect on pain reduction in diabetic peripheral neuropathic pain (DPNP) is not maintained, as indicated by an increase of more than 1.5 point on the BPI 24-hour average pain scale. Null hypothesis is rejected at significance level 0.025 if the upper bound of one-sided 97.5% CI is less than or equal to non-inferiority margin of 1.5 point.||0.79|0.35|<0.001
92379416|NCT00541346|184661676|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|1.94|||>|0.21|TWO_SIDED|95.0|-2.98|6.82||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||6.82|-2.98|>0.21
92231531|NCT01431287|184365493|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.118|0.223||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.223|0.118|<0.0001
92231532|NCT01431287|184365493|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.102|STANDARD_ERROR_OF_MEAN|0.027||0.0001|TWO_SIDED|95.0|0.049|0.154||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.154|0.049|0.0001
92231533|NCT01431287|184365493|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.027||0.0002|TWO_SIDED|95.0|0.048|0.153||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.153|0.048|0.0002
92231534|NCT01431287|184365493|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.014|STANDARD_ERROR_OF_MEAN|0.027||0.6093|TWO_SIDED|95.0|-0.066|0.039||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.039|-0.066|0.6093
92231535|NCT01431287|184365493|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.088|STANDARD_ERROR_OF_MEAN|0.027||0.0011|TWO_SIDED|95.0|0.035|0.14||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.140|0.035|0.0011
92412654|NCT00322621|184715120|SUPERIORITY_OR_OTHER|||||||0.269||95.0|||||t-test, 2 sided|||||||0.269
92412655|NCT00322621|184715121|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92412656|NCT00322621|184715122|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||t-test, 2 sided|||||||0.160
92412657|NCT00322621|184715123|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|||||||0.016
92231536|NCT01431287|184365493|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.027||0.0095|TWO_SIDED|95.0|0.017|0.123||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.123|0.017|0.0095
92231537|NCT01431287|184365493|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.069|STANDARD_ERROR_OF_MEAN|0.027||0.0108|TWO_SIDED|95.0|0.016|0.121||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.121|0.016|0.0108
92412658|NCT00322621|184715124|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||t-test, 2 sided|||||||0.075
92412659|NCT00322621|184715125|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92412660|NCT00322621|184715126|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||t-test, 2 sided|||||||0.026
92412661|NCT00322621|184715127|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|||||||0.011
92412662|NCT00322621|184715128|SUPERIORITY_OR_OTHER|||||||0.406||95.0|||||t-test, 2 sided|||||||0.406
92412663|NCT00322621|184715129|SUPERIORITY_OR_OTHER|||||||0.021||95.0|||||t-test, 2 sided|||||||0.021
92412664|NCT00322621|184715130|SUPERIORITY_OR_OTHER|||||||0.124||95.0|||||t-test, 2 sided|||||||0.124
92412665|NCT00322621|184715131|SUPERIORITY_OR_OTHER|||||||0.505||95.0|||||t-test, 2 sided|||||||0.505
92412666|NCT00322621|184715132|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||t-test, 2 sided|||||||0.058
92412667|NCT00322621|184715133|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|||||||0.009
92412668|NCT00322621|184715134|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|||||||0.016
92412669|NCT00322621|184715135|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||t-test, 2 sided|||||||0.022
92412670|NCT00322621|184715136|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||t-test, 2 sided|||||||0.550
92412671|NCT00322621|184715137|SUPERIORITY_OR_OTHER|||||||0.752||95.0|||||t-test, 2 sided|||||||0.752
92412672|NCT00322621|184715138|SUPERIORITY_OR_OTHER|||||||0.713||95.0|||||t-test, 2 sided|||||||0.713
92412673|NCT00322621|184715139|SUPERIORITY_OR_OTHER|||||||0.066||95.0|||||t-test, 2 sided|||||||0.066
92412674|NCT00322621|184715140|SUPERIORITY_OR_OTHER|||||||0.711||95.0|||||t-test, 2 sided|||||||0.711
92412675|NCT00322621|184715141|SUPERIORITY_OR_OTHER|||||||0.678||95.0|||||t-test, 2 sided|||||||0.678
92412676|NCT00322621|184715142|SUPERIORITY_OR_OTHER|||||||0.216||95.0|||||t-test, 2 sided|||||||0.216
92412677|NCT00322621|184715143|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||t-test, 2 sided|||||||0.113
92379417|NCT00541346|184661677|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|-3.4|||>|0.06|TWO_SIDED|95.0|-7.9|0.8||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Above Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear dose and time effects.||0.80|-7.9|>0.06
92379418|NCT00541346|184661678|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|-5.26|||<|0.01|TWO_SIDED|95.0|-9.37|-1.18||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Above Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear dose and time effects.||-1.18|-9.37|<0.01
92379419|NCT00541346|184661679|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|7.6|||>|0.11|TWO_SIDED|95.0|-5.6|20.7||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||20.7|-5.6|>0.11
92379420|NCT00167388|184661698|SUPERIORITY_OR_OTHER|||||||0.571|||||||Wilcoxon (Mann-Whitney)|||Change in mean mesenteric blood flow velocity from pre- to post- feed in the anemic state for babies \<1250 gm||||0.571
92379421|NCT00167388|184661698|SUPERIORITY_OR_OTHER|||||||0.345|||||||Wilcoxon (Mann-Whitney)|||change in peak systolic blood flow velocity from pre-to post feed for babies \<1250 gm while anemic||||0.345
92379422|NCT00167388|184661698|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Change in superior mesenteric artery blood flow velocity from pre- to post- feed in the anemic state for babies \>1250 gm||||0.006
92379423|NCT00167388|184661698|SUPERIORITY_OR_OTHER|||||||0.035|||||||Wilcoxon (Mann-Whitney)|||change in peak systolic blood flow velocity from pre-to post feed for babies \>1250 gm while anemic||||0.035
92379424|NCT00167388|184661698|SUPERIORITY_OR_OTHER|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Change in mean mesenteric blood flow velocity from pre-to post-feed for babies \<1250 gm after the PRBC transfusion||||0.910
92412678|NCT00322621|184715146|SUPERIORITY_OR_OTHER|||||||0.368||95.0|||||t-test, 2 sided|||||||0.368
92379425|NCT00167388|184661698|SUPERIORITY_OR_OTHER|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Change in Peak systolic mesenteric blood flow velocity from pre-to post-feed for babies \<1250 gm after the PRBC transfusion||||0.850
92379426|NCT00167388|184661698|SUPERIORITY_OR_OTHER|||||||0.507|||||||Wilcoxon (Mann-Whitney)|||Change in mean mesenteric blood flow velocity from pre-to post-feed for babies \>1250 gm after the PRBC transfusion||||0.507
92379427|NCT00167388|184661698|SUPERIORITY_OR_OTHER|||||||0.286|||||||Wilcoxon (Mann-Whitney)|||Change in peak systolic mesenteric blood flow velocity from pre-to post-feed for babies \>1250 gm after the PRBC transfusion||||0.286
92379428|NCT05501795|184661732|OTHER||Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|5.8|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||< 0.001
92379429|NCT05149313|184661742|SUPERIORITY||Difference in percentages|27.88|||<|0.0001|TWO_SIDED|95.0|15.63|40.14|||Cochran-Mantel-Haenszel|||||40.14|15.63|<0.0001
92379430|NCT05149313|184661743|SUPERIORITY||Difference in percentages|17.8||||0.0052|TWO_SIDED|95.0|7.03|28.57|||Cochran-Mantel-Haenszel|||||28.57|7.03|0.0052
92379431|NCT05149313|184661744|SUPERIORITY||Difference in percentages|18.15||||0.0114|TWO_SIDED|95.0|5.47|30.83|||Cochran-Mantel-Haenszel|||||30.83|5.47|0.0114
92379432|NCT04243330|184661761|SUPERIORITY||Mean Difference (Net)|1.01||||0.18|TWO_SIDED|95.0|-0.46|2.48||the p-values are not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||2.48|-0.46|0.18
92379433|NCT04243330|184661762|SUPERIORITY||Mean Difference (Net)|3.58||||0.06|TWO_SIDED|95.0|-0.11|7.28||the p-values are not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||7.28|-0.11|.06
92379434|NCT04243330|184661763|SUPERIORITY||Median Difference (Net)|1.7||||0.6|TWO_SIDED|95.0|-4.5|7.9||the p-values are not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||7.9|-4.5|0.60
92379435|NCT04243330|184661764|SUPERIORITY||Median Difference (Net)|-4.1||||0.36|TWO_SIDED|95.0|-12.8|4.7||p-values are not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||4.7|-12.8|0.36
92412679|NCT00322621|184715147|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
92412680|NCT00322621|184715148|SUPERIORITY_OR_OTHER|||||||0.666||95.0|||||t-test, 2 sided|||||||0.666
92412681|NCT00322621|184715149|SUPERIORITY_OR_OTHER|||||||0.138||95.0|||||t-test, 2 sided|||||||0.138
92412682|NCT00322621|184715150|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||t-test, 2 sided|||||||0.145
92412683|NCT00322621|184715151|SUPERIORITY_OR_OTHER|||||||0.512||95.0|||||t-test, 2 sided|||||||0.512
92412684|NCT01798849|184715167|OTHER||Difference in Least-square (LS) Means|-0.5||||0.732|TWO_SIDED|95.0|-3.42|2.43|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.43|-3.42|0.732
92412685|NCT01798849|184715167|OTHER||Difference in LS means|-0.94||||0.531|TWO_SIDED|95.0|-3.94|2.06|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.06|-3.94|0.531
92412686|NCT01798849|184715167|OTHER||Difference in LS Means|-2.88||||0.056|TWO_SIDED|95.0|-5.83|0.08|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.08|-5.83|0.056
92412687|NCT01798849|184715167|OTHER||Difference in LS means|-2.92||||0.063|TWO_SIDED|95.0|-6.0|0.17|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.17|-6.00|0.063
92412688|NCT01798849|184715167|OTHER||Difference in LS means|-4.89||||0.002|TWO_SIDED|95.0|-7.79|-1.99|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-1.99|-7.79|0.002
92412689|NCT01798849|184715167|OTHER||Difference in LS means|-5.31||||0.001|TWO_SIDED|95.0|-8.32|-2.31|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-2.31|-8.32|0.001
92412690|NCT01798849|184715167|OTHER||Difference in LS means|-5.61||||0.001|TWO_SIDED|95.0|-8.62|-2.6|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-2.60|-8.62|0.001
92412691|NCT01798849|184715167|OTHER||Difference in LS means|-7.56|||<|0.0001|TWO_SIDED|95.0|-10.5|-4.63|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-4.63|-10.50|<0.0001
92412692|NCT01798849|184715170|OTHER||Difference in LS means|-2.34||||0.165|TWO_SIDED|95.0|-5.7|1.02|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||1.02|-5.70|0.165
92412693|NCT01798849|184715170|OTHER||Difference in LS means|-3.53||||0.038|TWO_SIDED|95.0|-6.86|-0.21|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-0.21|-6.86|0.038
92412694|NCT01798849|184715170|OTHER||Difference in LS means|-6.32||||0|TWO_SIDED|95.0|-9.55|-3.1|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-3.10|-9.55|0.000
92412695|NCT01798849|184715170|OTHER||Difference in LS means|-6.63|||<|0.0001|TWO_SIDED|95.0|-9.35|-3.92|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-3.92|-9.35|<0.0001
92412696|NCT01798849|184715171|OTHER||Difference in LS means|-2.67||||0.128|TWO_SIDED|95.0|-6.14|0.8|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.80|-6.14|0.128
92412697|NCT01798849|184715171|OTHER||Difference in LS means|-0.76||||0.305|TWO_SIDED|95.0|-2.24|0.72|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.72|-2.24|0.305
92412698|NCT01798849|184715171|OTHER||Difference in LS means|-2.03||||0.07|TWO_SIDED|95.0|-4.23|0.17|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.17|-4.23|0.070
92412699|NCT01798849|184715171|OTHER||Difference in LS means|-2.84||||0.036|TWO_SIDED|95.0|-5.48|-0.19|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-0.19|-5.48|0.036
92412700|NCT01798849|184715171|OTHER||Difference in LS means|-4.89|||<|0.0001|TWO_SIDED|95.0|-6.4|-3.37|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-3.37|-6.40|<0.0001
92412701|NCT01798849|184715171|OTHER||Difference in LS means|-5.37|||<|0.0001|TWO_SIDED|95.0|-7.29|-3.46|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-3.46|-7.29|<0.0001
92412702|NCT01798849|184715171|OTHER||Difference in LS means|-5.68|||<|0.0001|TWO_SIDED|95.0|-6.7|-4.65|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-4.65|-6.70|<0.0001
92412703|NCT01798849|184715171|OTHER||Difference in LS means|-8.22|||<|0.0001|TWO_SIDED|95.0|-11.95|-4.5|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-4.50|-11.95|<0.0001
92412704|NCT01798849|184715172|OTHER||Difference in LS means|-1.77||||0.212|TWO_SIDED|95.0|-4.59|1.05|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||1.05|-4.59|0.212
92412705|NCT01798849|184715172|OTHER||Difference in LS means|3.32||||0.05|TWO_SIDED|95.0|0.0|6.64|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||6.64|0.00|0.050
92412706|NCT01798849|184715172|OTHER||Difference in LS means|2.48||||0.016|TWO_SIDED|95.0|0.49|4.47|||Mixed effect model||Difference in LS means = LS mean MK-8892 minus LS mean placebo|||4.47|0.49|0.016
92379436|NCT04243330|184661765|SUPERIORITY||Mean Difference (Net)|-4.5||||0.02|TWO_SIDED|95.0|-8.3|-0.67||p-values are not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||-0.67|-8.3|.02
92379437|NCT04243330|184661766|SUPERIORITY||Mean Difference (Net)|-0.56||||0.82|TWO_SIDED|95.0|-5.5|4.4|||Mixed Models Analysis|||||4.4|-5.5|0.82
92412707|NCT01798849|184715172|OTHER||Difference in LS means|5.21||||0.007|TWO_SIDED|95.0|1.51|8.92|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||8.92|1.51|0.007
92231538|NCT01431287|184365493|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.027||0.9627|TWO_SIDED|95.0|-0.051|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.054|-0.051|0.9627
92231539|NCT01431287|184365494|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.118|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.074|0.162||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.162|0.074|<0.0001
92231540|NCT01431287|184365494|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.123|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.077|0.169||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.169|0.077|<0.0001
92231541|NCT01431287|184365494|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.022||0.0012|TWO_SIDED|95.0|0.028|0.114||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.114|0.028|0.0012
92231542|NCT01431287|184365494|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.05|0.137||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.137|0.050|<0.0001
92412708|NCT01798849|184715172|OTHER||Difference in LS means|7.06||||0.001|TWO_SIDED|95.0|3.03|11.1|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||11.10|3.03|0.001
92412709|NCT01798849|184715172|OTHER||Difference in LS means|6.62||||0.002|TWO_SIDED|95.0|2.54|10.71|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||10.71|2.54|0.002
92231543|NCT01431287|184365494|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.023||0.001|TWO_SIDED|95.0|0.031|0.121||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.121|0.031|0.0010
92231544|NCT01431287|184365494|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.023||0.0384|TWO_SIDED|95.0|0.003|0.092||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.092|0.003|0.0384
92231545|NCT01431287|184365494|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.141|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.097|0.185||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.185|0.097|<0.0001
92231546|NCT01431287|184365494|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.004|STANDARD_ERROR_OF_MEAN|0.023||0.8428|TWO_SIDED|95.0|-0.049|0.04||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.040|-0.049|0.8428
92231547|NCT01431287|184365494|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.022|STANDARD_ERROR_OF_MEAN|0.022||0.3048|TWO_SIDED|95.0|-0.065|0.02||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.020|-0.065|0.3048
92231548|NCT01431287|184365494|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.023||0.4311|TWO_SIDED|95.0|-0.027|0.063||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.063|-0.027|0.4311
92231549|NCT01431287|184365495|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.098|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|0.057|0.139||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.139|0.057|<0.0001
92231550|NCT01431287|184365495|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.106|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.063|0.149||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.149|0.063|<0.0001
92231551|NCT01431287|184365495|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.051|STANDARD_ERROR_OF_MEAN|0.021||0.0136|TWO_SIDED|95.0|0.01|0.091||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.091|0.010|0.0136
92231552|NCT01431287|184365495|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.075|STANDARD_ERROR_OF_MEAN|0.021||0.0003|TWO_SIDED|95.0|0.035|0.116||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.116|0.035|0.0003
92231553|NCT01431287|184365495|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.059|STANDARD_ERROR_OF_MEAN|0.022||0.0065|TWO_SIDED|95.0|0.016|0.101||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.101|0.016|0.0065
92231554|NCT01431287|184365495|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.021||0.0277|TWO_SIDED|95.0|0.005|0.089||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.089|0.005|0.0277
92231555|NCT01431287|184365495|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.122|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|0.081|0.164||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.164|0.081|<0.0001
92379438|NCT03826342|184661776|SUPERIORITY|||||||0.2964|||||||Generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||Baseline to 2-month assessment||||0.2964
92379439|NCT03826342|184661776|SUPERIORITY|||||||0.3404|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||2-month assessment to 6-month assessment||||0.3404
92379440|NCT03826342|184661777|SUPERIORITY|||||||0.7915|||||||Generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||Baseline to 2-month assessment||||0.7915
92379441|NCT03826342|184661777|SUPERIORITY|||||||0.2131|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||2-month assessment to 6-month assessment||||0.2131
92379442|NCT03826342|184661778|SUPERIORITY|||||||0.8357|||||||Generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||Baseline to 2-month assessment||||0.8357
92379443|NCT03826342|184661778|SUPERIORITY|||||||0.095|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||2-month assessment to 6-month assessment||||0.0950
92379444|NCT03826342|184661779|SUPERIORITY|||||||0.7496|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||||||0.7496
92379445|NCT03826342|184661780|SUPERIORITY|||||||0.4492|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||||||0.4492
92379446|NCT03826342|184661781|SUPERIORITY|||||||0.0765|||||||t-test, 2 sided|||||||0.0765
92379447|NCT03826342|184661782|SUPERIORITY|||||||0.535|||||||t-test, 2 sided|||||||0.535
92379448|NCT03826342|184661783|SUPERIORITY|||||||0.4302|||||||t-test, 2 sided|||||||0.4302
92379449|NCT03826342|184661784|SUPERIORITY|||||||0.807|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||||||0.8070
92379450|NCT02888743|184661811|SUPERIORITY||Difference between proportions|0.0||||0.99|TWO_SIDED|90.0|-14.6|14.6|||Chi-squared||Arm A compared with Arm C; normal approximation for confidence interval|||14.6|-14.6|0.99
92379451|NCT02888743|184661811|SUPERIORITY||Difference between proportions|-3.8||||0.64|TWO_SIDED|90.0|-17.3|9.6|||Chi-squared||Arm B compared with Arm C; normal approximation used for confidence interval.|||9.6|-17.3|0.64
92379452|NCT02888743|184661812|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.92|TWO_SIDED|90.0|0.6|1.58|||Regression, Cox|||||1.58|0.60|0.92
92379453|NCT02888743|184661812|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.55|TWO_SIDED|90.0|0.5|1.38|||Regression, Cox|||||1.38|0.50|0.55
92379454|NCT02888743|184661813|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.24|TWO_SIDED|90.0|0.3|1.22|||Regression, Cox|||||1.22|0.30|0.24
92379455|NCT02888743|184661813|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.44|TWO_SIDED|90.0|0.36|1.45|||Regression, Cox|||||1.45|0.36|0.44
92379456|NCT02888743|184661817|SUPERIORITY|||||||0.68||||||Unadjusted p-value.|Wilcoxon (Mann-Whitney)|||||||0.68
92379457|NCT01804582|184661823|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|||||||Mixed Models Analysis|||An intent to treat analysis was conducted using a linear mixed model to determine if there was any significant difference in change from baseline to 3 months based on time and condition. Data for all participants was included at baseline and 3 months.||||.15
92379458|NCT01804582|184661824|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07||||0.53|TWO_SIDED||||||Mixed Models Analysis||Cohen's d was calculated to measure the estimation parameter.|||||.53
92379459|NCT01804582|184661825|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03||||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||.80
92379460|NCT01804582|184661826|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33|||||||Mixed Models Analysis|||||||.33
92379461|NCT01804582|184661827|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|||||||Wald Chi-Squared|||||||.21
92379462|NCT01804582|184661828|SUPERIORITY_OR_OTHER_LEGACY||Phi|0.19||||0.005|TWO_SIDED||||||Chi-squared|Chi Squared (1, N = 229) = 7.99.||The total n=229 included those on medication at 90 days (119 never filled the prescription or changed to a different med)||||.005
92379463|NCT00385723|184661844|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.11|STANDARD_ERROR_OF_MEAN|0.04||0.03|TWO_SIDED|95.0|-0.19|-0.028||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||1.25 g/d minus placebo|Comparison was made on change from baseline to 4 months||-0.028|-0.19|0.03
92379464|NCT00385723|184661844|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.13|STANDARD_ERROR_OF_MEAN|0.04||0.004|TWO_SIDED|95.0|-0.22|-0.052||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||2.5 g/d minus placebo|Comparison was made on the change from baseline to 4 months.||-0.052|-0.22|0.004
92379465|NCT00385723|184661845|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.41|STANDARD_ERROR_OF_MEAN|0.1||0.0003|TWO_SIDED|95.0|-0.62|-0.21||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||1.25 g/d minus placebo|Comparison was made on change from baseline to 4 months.||-0.21|-0.62|0.0003
92379466|NCT00385723|184661845|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.43|STANDARD_ERROR_OF_MEAN|0.11||0.0002|TWO_SIDED|95.0|-0.64|-0.22||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||2.5 g/d minus placebo|Comparison was made on the change from baseline to 4 months.||-0.22|-0.64|0.0002
92379467|NCT00385723|184661846|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.23|STANDARD_ERROR_OF_MEAN|0.21||0.8|TWO_SIDED|95.0|-0.64|0.18||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||1.25 g/d minus placebo|Comparison was made on the change from baseline to 4 months.||0.18|-0.64|0.80
92379468|NCT00385723|184661846|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.2|STANDARD_ERROR_OF_MEAN|0.21||1|TWO_SIDED|95.0|-0.61|0.21||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||2.5 g/d minus placebo|Comparison was made on the change from baseline to 4 months.||0.21|-0.61|1.0
92379469|NCT00689793|184661853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|2.5||0.69|TWO_SIDED|95.0|0.0|10.0||Significant level of treatment effect was set at p\<0.05|Regression, Linear|Level of fatigue at four weeks:dependant variable. Group allocation and level of fatigue at baseline: independant variables.||The null hypothesis was that there was no difference in fatigue VAS scores between the treatment and placebo groups at 4 weeks||10|0|0.69
92412710|NCT01798849|184715172|OTHER||Difference in LS means|8.11|||<|0.0001|TWO_SIDED|95.0|5.45|10.76|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||10.76|5.45|<0.0001
92412711|NCT01798849|184715172|OTHER||Difference in LS means|14.05|||<|0.0001|TWO_SIDED|95.0|10.54|17.57|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||17.57|10.54|<0.0001
92412712|NCT01798849|184715173|OTHER||Difference in LS means|-1.66||||0.202|TWO_SIDED|95.0|-4.24|0.93|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.93|-4.24|0.202
92412713|NCT01798849|184715173|OTHER||Difference in LS means|-2.23||||0.115|TWO_SIDED|95.0|-5.03|0.57|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.57|-5.03|0.115
92412714|NCT01798849|184715173|OTHER||Difference in LS means|-2.75||||0.043|TWO_SIDED|95.0|-5.4|-0.09|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-0.09|-5.40|0.043
92412715|NCT01798849|184715173|OTHER||Difference in LS means|-0.19||||0.901|TWO_SIDED|95.0|-3.22|2.84|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.84|-3.22|0.901
92412716|NCT01798849|184715173|OTHER||Mixed effect model|-4.15||||0.002|TWO_SIDED|95.0|-6.74|-1.57|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|||-1.57|-6.74|0.002
92412717|NCT01798849|184715173|OTHER||Difference in LS means|-3.77||||0.008|TWO_SIDED|95.0|-6.48|-1.06|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-1.06|-6.48|0.008
92412718|NCT01798849|184715173|OTHER||Difference in LS means|-1.77||||0.201|TWO_SIDED|95.0|-4.51|0.98|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.98|-4.51|0.201
92231556|NCT01431287|184365495|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.008|STANDARD_ERROR_OF_MEAN|0.021||0.7116|TWO_SIDED|95.0|-0.049|0.034||Comments ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.034|-0.049|0.7116
92412719|NCT01798849|184715173|OTHER||Difference in LS means|-4.74||||0.001|TWO_SIDED|95.0|-7.37|-2.11|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-2.11|-7.37|0.001
92412720|NCT01798849|184715174|OTHER||Difference in LS means|-2.53||||0.042|TWO_SIDED|95.0|-4.97|-0.1|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-0.10|-4.97|0.042
92412721|NCT01798849|184715174|OTHER||Difference in LS means|-3.29||||0.01|TWO_SIDED|95.0|-5.71|-0.88|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-0.88|-5.71|0.010
92412722|NCT01798849|184715174|OTHER||Difference in LS means|-6.42|||<|0.0001|TWO_SIDED|95.0|-8.94|-3.89|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-3.89|-8.94|<0.0001
92412723|NCT01798849|184715174|OTHER||Difference in LS means|-8.28|||<|0.0001|TWO_SIDED|95.0|-11.32|-5.25|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-5.25|-11.32|<0.0001
92231557|NCT01431287|184365495|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.024|STANDARD_ERROR_OF_MEAN|0.02||0.2332|TWO_SIDED|95.0|-0.065|0.016||Comments ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.016|-0.065|0.2332
92231558|NCT01431287|184365495|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.021||0.4374|TWO_SIDED|95.0|-0.025|0.059||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.059|-0.025|0.4374
92231559|NCT01431287|184365496|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.161|STANDARD_ERROR_OF_MEAN|0.043||0.0002|TWO_SIDED|95.0|0.077|0.244||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.244|0.077|0.0002
92231560|NCT01431287|184365496|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.045||0.0017|TWO_SIDED|95.0|0.053|0.228||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.228|0.053|0.0017
92412724|NCT01798849|184715175|OTHER||Difference in LS means|0.54||||0.638|TWO_SIDED|95.0|-1.8|2.87|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.87|-1.80|0.638
92412725|NCT01798849|184715175|OTHER||Difference in LS means|0.72||||0.616|TWO_SIDED|95.0|-2.2|3.63|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||3.63|-2.20|0.616
92412726|NCT01798849|184715175|OTHER||Difference in LS means|2.33||||0.041|TWO_SIDED|95.0|0.11|4.56|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||4.56|0.11|0.041
92412727|NCT01798849|184715175|OTHER||Difference in LS means|9.14|||<|0.0001|TWO_SIDED|95.0|6.98|11.3|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||11.30|6.98|<0.0001
92412728|NCT01798849|184715176|OTHER||Difference in LS means|-0.65||||0.677|TWO_SIDED|95.0|-3.81|2.52|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.52|-3.81|0.677
92412729|NCT01798849|184715176|OTHER||Difference in LS means|-0.92||||0.554|TWO_SIDED|95.0|-4.08|2.24|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.24|-4.08|0.554
92231561|NCT01431287|184365496|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.128|STANDARD_ERROR_OF_MEAN|0.042||0.0022|TWO_SIDED|95.0|0.046|0.21||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.210|0.046|0.0022
92412730|NCT01798849|184715176|OTHER||Difference in LS means|-2.29||||0.137|TWO_SIDED|95.0|-5.35|0.78|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.78|-5.35|0.137
92412731|NCT01798849|184715176|OTHER||Difference in LS means|-3.78||||0.006|TWO_SIDED|95.0|-6.37|-1.19|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-1.19|-6.37|0.006
92231562|NCT01431287|184365496|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.176|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001|TWO_SIDED|95.0|0.093|0.259||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.259|0.093|<0.0001
92412732|NCT00612105|184715194|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.43||||0.2537|TWO_SIDED|95.0|-1.171|0.312|||ANCOVA|||||0.312|-1.171|0.2537
92412733|NCT00475982|184715217|SUPERIORITY||Mean Difference (Final Values)|0.965||||0.965|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.965
92412734|NCT00475982|184715218|SUPERIORITY||Mean Difference (Final Values)|0.884||||0.884|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.884
92412735|NCT00475982|184715219|SUPERIORITY|||||||0.294|||||||paired t-test|||intra-analysis within the weight loss arm||||0.294
92412736|NCT00475982|184715219|SUPERIORITY|||||||0.44|||||||paired t-test|||intra-analysis within the control arm||||0.440
92412737|NCT00475982|184715219|SUPERIORITY||Mean Difference (Net)|8.49||||0.186|TWO_SIDED|95.0|-4.31|21.3|||paired t-test|||analysis between the weight loss and control arms||21.3|-4.31|0.186
92412738|NCT00475982|184715220|SUPERIORITY|||||||0.162|||||||paired t-test|||intra-analysis within the weight loss arm||||0.162
92231563|NCT01431287|184365496|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.108|STANDARD_ERROR_OF_MEAN|0.044||0.0141|TWO_SIDED|95.0|0.022|0.194||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.194|0.022|0.0141
92231564|NCT01431287|184365496|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.032|STANDARD_ERROR_OF_MEAN|0.043||0.4581|TWO_SIDED|95.0|-0.053|0.118||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.118|-0.053|0.4581
92231565|NCT01431287|184365496|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.208|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|0.124|0.293||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.293|0.124|<0.0001
92231566|NCT01431287|184365496|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.043||0.6335|TWO_SIDED|95.0|-0.064|0.105||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.105|-0.064|0.6335
92231567|NCT01431287|184365496|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.047|STANDARD_ERROR_OF_MEAN|0.041||0.253|TWO_SIDED|95.0|-0.129|0.034||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.034|-0.129|0.2530
92231568|NCT01431287|184365496|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.068|STANDARD_ERROR_OF_MEAN|0.043||0.1188|TWO_SIDED|95.0|-0.017|0.153||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.153|-0.017|0.1188
92412739|NCT00475982|184715220|SUPERIORITY|||||||0.986|||||||paired t-test|||intra-analysis within the control arm||||0.986
92412740|NCT00475982|184715220|SUPERIORITY||Mean Difference (Net)|2.22||||0.353|TWO_SIDED|95.0|-2.58|7.02|||paired t-test|||analysis between the weight loss and control arms||7.02|-2.58|0.353
92412741|NCT00475982|184715221|SUPERIORITY|||||||0.283|||||||paired t-test|||intra-analysis within the weight loss arm||||0.283
92412742|NCT00475982|184715221|SUPERIORITY|||||||0.701|||||||paired t-test|||intra-analysis within the control arm||||0.701
92412743|NCT00475982|184715221|SUPERIORITY||Mean Difference (Net)|0.77||||0.835|TWO_SIDED|95.0|-6.7|8.24|||paired t-test|||analysis between the intervention and control arms||8.24|-6.70|0.835
92412744|NCT00475982|184715222|SUPERIORITY|||||||0|||||||paired t-test|||intra-analysis within the weight loss arm||||0.00
92412745|NCT00475982|184715222|SUPERIORITY|||||||0.009|||||||paired t-test|||intra-analysis within the control arm||||0.009
92412746|NCT00475982|184715222|SUPERIORITY||Mean Difference (Net)|2.11||||0.007|TWO_SIDED|95.0|0.64|3.59|||paired t-test|||analysis between the two arms||3.59|0.64|0.007
92412747|NCT00475982|184715223|SUPERIORITY|||||||0.073|||||||paired t-test|||intra-analysis within the weight loss arm||||0.073
92412748|NCT00475982|184715223|SUPERIORITY|||||||0.207|||||||paired t-test|||intra-analysis within the control arm||||0.207
92412749|NCT00475982|184715223|SUPERIORITY||Mean Difference (Net)|1.34||||0.063|TWO_SIDED|95.0|-0.08|2.75|||paired t-test|||analysis between the two arms||2.75|-0.08|0.063
92412750|NCT00743106|184715224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0||||0.15|TWO_SIDED|95.0|-31.0|9.0|||Wilcoxon (Mann-Whitney)||The mean decrease in GFR was an estimated 11% less for fenoldopam than for placebo (interim-adjusted 95% confidence interval 9% more, 31% less).|||9|-31|0.15
92379470|NCT00689793|184661854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|6.5|<|0.05||95.0|0.0|10.0|||Regression, Linear|Hemoglobin value at four weeks : dependant variable. Group allocation and hemoglobin value at baseline : independant variables.||||10|0|<0.05
92379471|NCT00689793|184661855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0|STANDARD_DEVIATION|8.0|<|0.05|TWO_SIDED|95.0|0.0|30.0|||Regression, Linear|Ferritin level at 4 weeks : dependant variable. Group allocation and ferritin level at baseline: independant variables.||||30|0|<0.05
92379472|NCT00689793|184661856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|3.0||0.05|TWO_SIDED|95.0|0.0|6.0|||Regression, Linear|Aerobic capacity at 4 weeks : dependant variables. Group allocation and aerobic capacity at baseline : independant variable.||||6|0|0.05
92379473|NCT00973102|184661917|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.47||||0.252|TWO_SIDED|95.0|1.16|5.25|||Barnard's unconditional Exact Test|||||5.25|1.16|.252
92379474|NCT00973102|184661918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.895|||||||t-test, 2 sided|||||||.895
92379475|NCT02360293|184661921|SUPERIORITY||Slope|1.88|STANDARD_ERROR_OF_MEAN|46.2|||TWO_SIDED|95.0|-119.0|122.7|||||Generated through ANCOVA predicting Active Minutes as a function of arm and f/u time, adjusted for Sex, Baseline PA Goal (AM), and type of Smart Phone. Represents the contrast between SS+Coaching, 12 mos. - Baseline vs. SS alone, 12 mos. - Baseline.|Estimated marginal means/least squares means are derived from a linear mixed model/rmANOVA/rmANCOVA, adjusted for baseline AM goal, Type of Smart Phone, and Sex.||122.7|-119.0|
92412751|NCT00743106|184715225|SUPERIORITY||ratio of geometric mean|0.98||||0.78|TWO_SIDED|95.0|0.79|1.19|||Mixed Models Analysis|||We assessed the effect of fenoldopam on creatinine over time (immediately postoperatively and on PODs 1-4). A linear mixed effects model was used to assess the main effect of fenoldopam on the postoperative log-transformed (base 2) serum creatinine, adjusting for baseline serum creatinine.||1.19|0.79|0.78
92412752|NCT04556383|184715253|SUPERIORITY||Risk Difference (RD)|-2.6||||0.6694|TWO_SIDED|95.0|-15.2|10.2|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||10.2|-15.2|0.6694
92412753|NCT04556383|184715253|SUPERIORITY||Risk Difference (RD)|4.6||||0.4719|TWO_SIDED|95.0|-9.0|17.8|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||17.8|-9.0|0.4719
92412754|NCT04556383|184715255|SUPERIORITY||Risk Difference (RD)|-7.7||||0.3263|TWO_SIDED|95.0|-23.2|8.3|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||8.3|-23.2|0.3263
92412755|NCT04556383|184715255|SUPERIORITY||Risk Difference (RD)|10.2||||0.2002|TWO_SIDED|95.0|-6.1|25.8|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||25.8|-6.1|0.2002
92412756|NCT04556383|184715256|SUPERIORITY||Risk Difference (RD)|0.4||||0.9472|TWO_SIDED|95.0|-15.2|15.9|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||15.9|-15.2|0.9472
92379476|NCT02360293|184661922|SUPERIORITY||Slope|-5.02|STANDARD_ERROR_OF_MEAN|56.7|||TWO_SIDED|95.0|-15.85|5.81|||||Generated through ANCOVA predicting Weight as a function of the interaction of arm and follow-up time. Estimate represents the contrast between SS+Coaching, 12 mos. - Baseline vs. SS alone, 12 mos. - Baseline.|The estimated marginal means/least squares means are derived from a linear mixed model/rmANOVA/rmANCOVA.||5.81|-15.85|
92412757|NCT04556383|184715256|SUPERIORITY||Risk Difference (RD)|6.8||||0.3685|TWO_SIDED|95.0|-9.3|22.4|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||22.4|-9.3|0.3685
92412758|NCT04556383|184715257|SUPERIORITY||Risk Difference (RD)|1.3||||0.8484|TWO_SIDED|95.0|-12.7|15.2|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||15.2|-12.7|0.8484
92412759|NCT04556383|184715257|SUPERIORITY||Risk Difference (RD)|8.2||||0.2392|TWO_SIDED|95.0|-6.4|22.3|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||22.3|-6.4|0.2392
92412760|NCT04556383|184715258|SUPERIORITY||Risk Difference (RD)|-1.2||||0.8493|TWO_SIDED|95.0|-14.8|12.5|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||12.5|-14.8|0.8493
92379477|NCT02360293|184661923|SUPERIORITY||Slope|-1.162|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.969|0.646|||||Generated through ANCOVA predicting PHQ-8 Score as a function of the interaction of arm and follow-up time. Estimate represents the contrast between SS+Coaching, 12 mos. - Baseline vs. SS alone, 12 mos. - Baseline.|The estimated marginal means/least squares means are derived from a linear mixed model/rmANOVA/rmANCOVA.||0.646|-2.969|
92379478|NCT02360293|184661924|SUPERIORITY||Slope|-0.345|STANDARD_ERROR_OF_MEAN|0.267|||TWO_SIDED|95.0|-1.044|0.353|||||"Estimate generated through ANCOVA predicting Pain In Past Week as a function of the interaction of arm and follow-up time. Estimate represents the contrast between SS+Coaching, 12 mos. - Baseline vs. SS alone, 12 mos. - Baseline.."|The estimated marginal means/least squares means are derived from a linear mixed model/rmANOVA/rmANCOVA.||0.353|-1.044|
92379479|NCT02945553|184661937|OTHER|Mixed model analysis of variance|Mean Difference (Final Values)|1596.0|STANDARD_DEVIATION|202.0|<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92379480|NCT02945553|184661942|OTHER||Mean Difference (Net)|30.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92379481|NCT02700165|184661976|OTHER||sucess proportion|78.6|||||TWO_SIDED|95.0|49.2|95.3|||||Independent physician reviewers correctly identified 13/14, 11/14 and 10/14, respectively for an overall percentage of correct identification of 34/42 or 81%. Two of three reviewers correctly identified 11/14 (78.6%) photos.|||95.3|49.2|
92379482|NCT00915148|184661980|SUPERIORITY_OR_OTHER||||||<|0.01||||||The reported p-value corresponds with each area under the ROC assessments|Chi-squared|||In a previous study we investigated women before induction of labor. Using 40 mm as cut-off level for fetal head - perineum distance, the Cesarean section rate in primiparous women was 7% in the group with a short distance and 27% in the group with a long distance. We assumed similar results, with alpha 0.05, power 0.8 and a ratio of 1 : 1 for the numbers of women with a long and short distance. We would need to include 110 women in the study.||||<0.01
92412761|NCT04556383|184715258|SUPERIORITY||Risk Difference (RD)|2.6||||0.6647|TWO_SIDED|95.0|-11.5|16.5|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||16.5|-11.5|0.6647
92412762|NCT04556383|184715259|SUPERIORITY||Risk Difference (RD)|-6.5||||0.2263|TWO_SIDED|95.0|-19.1|6.0|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||6.0|-19.1|0.2263
92412763|NCT04556383|184715259|SUPERIORITY||Risk Difference (RD)|-1.4||||0.8259|TWO_SIDED|95.0|-14.8|12.2|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||12.2|-14.8|0.8259
92412764|NCT04556383|184715260|SUPERIORITY||Risk Difference (RD)|2.8||||0.7418|TWO_SIDED|95.0|-12.7|18.1|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||18.1|-12.7|0.7418
92412765|NCT04556383|184715260|SUPERIORITY||Risk Difference (RD)|8.4||||0.2758|TWO_SIDED|95.0|-7.8|24.2|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||24.2|-7.8|0.2758
92379483|NCT00915148|184661981|SUPERIORITY_OR_OTHER||||||<|0.01||||||the reported p-value corresponds with each log rank comparison|Log Rank|||"Kaplan Meier plots were used to compare time from a defined prolonged labor in the first stage to delivery for~1. women with fetal head-perineum distance ≤40 mm vs. women with distance \>40 mm measured with 2D ultrasound.~2. women with angle of progression ≥110 degrees vs. women with angle \<110 degrees measured with 2D ultrasound"||||<0.01
92379484|NCT01192568|184662020|SUPERIORITY||Mean Difference (Final Values)|14.22|STANDARD_ERROR_OF_MEAN|4.612||0.0928|TWO_SIDED|95.0|-2.45|30.9|||ANCOVA|||||30.90|-2.45|0.0928
92379485|NCT01192568|184662021|SUPERIORITY||Mean Difference (Final Values)|34.92|STANDARD_ERROR_OF_MEAN|8.089||0.0054|TWO_SIDED|95.0|11.13|58.7|||ANCOVA|||||58.70|11.13|0.0054
92379486|NCT01192568|184662022|SUPERIORITY||Mean Difference (Final Values)|32.59|STANDARD_ERROR_OF_MEAN|13.215||0.1739|TWO_SIDED|95.0|-14.89|80.07|||ANCOVA|||||80.07|-14.89|0.1739
92379487|NCT01192568|184662023|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.117||0.266|TWO_SIDED|95.0|-0.53|0.15|||ANCOVA|||Results from a pre-specified test (Kolmogorov-Smirnov test p \<= 0.05) determined that the Pre-Am3 and Post-Am3 OTG data should be analyzed separately for the primary analysis.||0.15|-0.53|0.2660
92379488|NCT01192568|184662023|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.007|TWO_SIDED|95.0|-1.13|-0.21|||t-test, 2 sided|||||-0.21|-1.13|0.0070
92379489|NCT02593825|184662024|SUPERIORITY|Significance was based on α = .05. Hedges' g, corrected for small sample bias, was calculated as a measure of effect size using the model-predicted group differences in rate of change in the numerator and the pooled standard deviation estimated from the 3 or 12 month assessment (for short- and long-term effects, respectively) in the denominator.|Slope|1.14|||<|0.05|TWO_SIDED|||||Piecewise linear mixed modeling (LMM) was performed to address the study questions. LMM was necessary to account for repeated measures nested within children.|Mixed Models Analysis|||Also examined these groups in sub-groups of mildly delayed (\<2.5 Standard Deviations below the mean on motor Bayley score at baseline) and significantly motor delayed (\>2.5 Standard Deviations below the mean on motor Bayley score at baseline)|Piecewise modeling, using individually-varying timepoints, allowed separate slopes to be estimated across the intervention (baseline to 3 months) and post-intervention (3 to 12 months) phases, and accounted for variation in the time between assessments across children. All models controlled for intercept-level differences by site, as well as intercept- and slope-level differences by baseline-adjusted age and motor severity. Intervention effects were derived via intervention by slope interaction terms. Three-way interaction terms were subsequently added to the models to obtain intervention effects stratified by severity.|||<0.05
92379490|NCT02593825|184662025|SUPERIORITY||Mean Difference (Final Values)|0.192||||0.05|TWO_SIDED||||||Linear piecewise modeling|||||||.05
92379491|NCT02593825|184662026|SUPERIORITY||Slope|0.92|STANDARD_ERROR_OF_MEAN|0.47|<|0.05|TWO_SIDED||||||Mixed Models Analysis||data shown is for the 12 month time point for the severely delayed group comparison|Also examined these groups in sub-groups of mildly delayed (\<2.5 Standard Deviations below the mean on motor Bayley score at baseline) and significantly motor delayed (\>2.5 Standard Deviations below the mean on motor Bayley score at baseline)||||<0.05
92379492|NCT02593825|184662028|SUPERIORITY||Slope|1.02|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||Also examined these groups in sub-groups of mildly delayed (\<2.5SD below the mean on motor Bayley score at baseline) and significantly motor delayed (\>2.5SD below the mean on motor Bayley score at baseline)|LMM was necessary to account for repeated measures nested within children. Piecewise modeling, using individually-varying timepoints, allowed separate slopes to be estimated across the intervention (baseline to 3 months).|||<0.05
92379493|NCT02593825|184662029|SUPERIORITY||Slope|8.7|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||Also examined these groups in sub-groups of mildly delayed (\<2.5SD below the mean on motor Bayley score at baseline) and significantly motor delayed (\>2.5SD below the mean on motor Bayley score at baseline)|Piecewise modeling, using individually-varying timepoints, allowed separate slopes to be estimated across the intervention (baseline to 3 months)|||<0.05
92379494|NCT02593825|184662030|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.417|TWO_SIDED||||||Mixed Models Analysis|||||||0.417
92379495|NCT06359080|184662032|EQUIVALENCE|The difference between post treatment CARS scores and pre treatment CARS scores will be statistically significant as measured by independent sample t-test with p\<.05|Mean Difference (Net)|6.77|STANDARD_DEVIATION|5.5|<|0.05|TWO_SIDED|95.0|5.36|8.19||It's a calculated p-value.|t-test, 2 sided|||||8.19|5.36|<0.05
92379496|NCT03323736|184662071|SUPERIORITY|The Procedural Success endpoint would be successfully met if the lower bound of the 95% Credible Interval (lower limit 0.80) exceeded the 68% success rate performance goal.|Credible Interval|0.86|||||TWO_SIDED|95.0|0.8|0.91||||||Procedural success rate was compared to the performance goal of 68% using a Bayesian Hierarchical model.||0.91|0.80|
92379497|NCT03323736|184662071|SUPERIORITY|The Procedural Success endpoint would be successfully met if the lower bound of the 95% Credible Interval (lower limit 0.82) exceeded the 68% success rate performance goal.|Credible Interval|0.89|||||TWO_SIDED|95.0|0.82|0.93||||||Procedural success rate was compared to the performance goal of 68% using a Bayesian Hierarchical model.||0.93|0.82|
92379498|NCT03323736|184662072|SUPERIORITY|Comparison of mean tube placement FPS-R score to a performance goal of 4.2.||||||0.0072||||||Mean FPS-R score hypothesized to be less than (superior to) a performance goal of 4.2, at a significance level of 0.025 (p\<0.025).|t-test, 1 sided|||||||0.0072
92379499|NCT03323736|184662073|SUPERIORITY||||||<|0.0001||||||Pre-specified threshold for superiority was \>80%, at alpha = 0.025.|mid-P method for single proportion|||Tube Patency endpoint would be successfully met if the percentage of subjects with patent tubes was greater than (superior to) 80% (by subject), at a significance level of 0.025 (p\<0.025).||||<0.0001
92379500|NCT03323736|184662074|SUPERIORITY||||||<|0.0001||||||Pre-specified threshold for superiority was \>88%, at alpha = 0.025.|mid-P method for single proportion|||Tube Retention endpoint would be successfully met if the percentage of subjects with retained tubes was greater than (superior to) 88% (by subject), at a significance level of 0.025 (p\<0.025).||||<0.0001
92379501|NCT03323736|184662075|SUPERIORITY||||||<|0.0001||||||Pre-specified threshold for superiority was \>85%, at alpha = 0.025.|mid-P method for single proportion|||The Anesthesia Effectiveness endpoint would be successfully met if the percentage of subjects with successful anesthesia was greater than (superior to) 85% (by subject), at a significance level of 0.025 (p\<0.025).||||<0.0001
92379502|NCT01885910|184662082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<.0001
92379503|NCT05063539|184662113|SUPERIORITY||Posterior Mean Difference|1.68|||||TWO_SIDED|95.0|-0.375|3.771|||||Posterior mean difference with 95% credible interval is reported.|||3.771|-0.375|
92379504|NCT05063539|184662113|SUPERIORITY||Posterior Mean Difference|-3.2|||||TWO_SIDED|95.0|-5.354|-1.042|||||Posterior mean difference with 95% credible interval is reported.|||-1.042|-5.354|
92379505|NCT05063539|184662114|SUPERIORITY||Posterior Mean Difference|1.59|||||TWO_SIDED|95.0|-0.443|3.697|||||Posterior mean difference with 95% credible interval is reported.|||3.697|-0.443|
92379506|NCT05063539|184662114|SUPERIORITY||Posterior Mean Difference|-5.07|||||TWO_SIDED|95.0|-7.277|-2.862||||||||-2.862|-7.277|
92379507|NCT05063539|184662115|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.32||0.665|TWO_SIDED|95.0|-0.763|0.488|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||0.488|-0.763|0.665
92379508|NCT05063539|184662115|SUPERIORITY||LS Mean Difference|1.09|STANDARD_ERROR_OF_MEAN|0.33||0.001|TWO_SIDED|95.0|0.435|1.736|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.736|0.435|0.001
92379509|NCT05063539|184662116|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.35||0.878|TWO_SIDED|95.0|-0.641|0.749|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||0.749|-0.641|0.878
92379510|NCT05063539|184662116|SUPERIORITY||LS Mean Difference|1.33|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|0.615|2.05|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||2.050|0.615|<0.001
92412766|NCT04556383|184715261|SUPERIORITY||Risk Difference (RD)|-6.0||||0.3504|TWO_SIDED|95.0|-20.6|8.9|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||8.9|-20.6|0.3504
92379511|NCT05063539|184662117|SUPERIORITY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.99||0.252|TWO_SIDED|95.0|-3.073|0.811|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||0.811|-3.073|0.252
92379512|NCT05063539|184662117|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|1.03||0.825|TWO_SIDED|95.0|-2.252|1.797|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.797|-2.252|0.825
92379513|NCT05063539|184662118|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|1.09||0.733|TWO_SIDED|95.0|-2.527|1.779|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.779|-2.527|0.733
92379514|NCT05063539|184662118|SUPERIORITY||LS Mean Difference|1.66|STANDARD_ERROR_OF_MEAN|1.13||0.143|TWO_SIDED|95.0|-0.565|3.877|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||3.877|-0.565|0.143
92379515|NCT05063539|184662119|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|1.0||0.86|TWO_SIDED|95.0|-1.802|2.158|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||2.158|-1.802|0.860
92379516|NCT05063539|184662119|SUPERIORITY||LS Mean Difference|-2.51|STANDARD_ERROR_OF_MEAN|1.04||0.017|TWO_SIDED|95.0|-4.567|-0.456|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||-0.456|-4.567|0.017
92412767|NCT04556383|184715261|SUPERIORITY||Risk Difference (RD)|1.7||||0.8009|TWO_SIDED|95.0|-14.2|17.5|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||17.5|-14.2|0.8009
92412768|NCT04556383|184715262|SUPERIORITY||Risk Difference (RD)|-0.2||||0.9474|TWO_SIDED|95.0|-14.3|13.7|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||13.7|-14.3|0.9474
92412769|NCT04556383|184715262|SUPERIORITY||Risk Difference (RD)|-3.0||||0.6409|TWO_SIDED|95.0|-16.6|10.8|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||10.8|-16.6|0.6409
92412770|NCT04556383|184715263|SUPERIORITY||Risk Difference (RD)|-8.0||||0.1932|TWO_SIDED|95.0|-22.4|6.3|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||6.3|-22.4|0.1932
92379517|NCT05063539|184662120|SUPERIORITY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|1.1||0.479|TWO_SIDED|95.0|-2.949|1.387|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.387|-2.949|0.479
92379518|NCT05063539|184662120|SUPERIORITY||LS Mean Difference|-4.01|STANDARD_ERROR_OF_MEAN|1.13|<|0.001|TWO_SIDED|95.0|-6.239|-1.788|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||-1.788|-6.239|<0.001
92379519|NCT05063539|184662121|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.53||0.259|TWO_SIDED|95.0|-0.445|1.642|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.642|-0.445|0.259
92379520|NCT05063539|184662121|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.55||0.324|TWO_SIDED|95.0|-1.629|0.541|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||0.541|-1.629|0.324
92379521|NCT05063539|184662122|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.57||0.749|TWO_SIDED|95.0|-0.946|1.313|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.313|-0.946|0.749
92379522|NCT05063539|184662122|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.59||0.029|TWO_SIDED|95.0|-2.462|-0.134|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||-0.134|-2.462|0.029
92379523|NCT05063539|184662123|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.012||0.346|TWO_SIDED|95.0|-0.01|0.03|||ANCOVA|||Frontal||0.03|-0.01|0.346
92379524|NCT05063539|184662123|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.013||0.412|TWO_SIDED|95.0|-0.04|0.01|||ANCOVA|||Frontal||0.01|-0.04|0.412
92379525|NCT05063539|184662123|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.013||0.421|TWO_SIDED|95.0|-0.04|0.02|||ANCOVA|||Parietal||0.02|-0.04|0.421
92379526|NCT05063539|184662123|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.014||0.08|TWO_SIDED|95.0|-0.05|0.0|||ANCOVA|||Parietal||0.00|-0.05|0.080
92379527|NCT05063539|184662123|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.021||0.192|TWO_SIDED|95.0|-0.07|0.01|||ANCOVA|||Lateral occipital||0.01|-0.07|0.192
92379528|NCT05063539|184662123|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.022||0.279|TWO_SIDED|95.0|-0.07|0.02|||ANCOVA|||Lateral occipital||0.02|-0.07|0.279
92379529|NCT05063539|184662123|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.016||0.693|TWO_SIDED|95.0|-0.04|0.02|||ANCOVA|||Lateral temporal||0.02|-0.04|0.693
92379530|NCT05063539|184662123|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.016||0.04|TWO_SIDED|95.0|-0.07|0.0|||ANCOVA|||Lateral temporal||-0.00|-0.07|0.040
92379531|NCT05063539|184662123|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.015||0.838|TWO_SIDED|95.0|-0.03|0.03|||ANCOVA|||AD neocortical signature (measured using MUBADA)||0.03|-0.03|0.838
92379532|NCT05063539|184662123|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.016||0.055|TWO_SIDED|95.0|-0.06|0.0|||ANCOVA|||AD neocortical signature (measured using MUBADA)||0.00|-0.06|0.055
92379533|NCT05063539|184662124|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.013||0.455|TWO_SIDED|95.0|-0.02|0.04|||ANCOVA|||Frontal||0.04|-0.02|0.455
92412771|NCT04556383|184715263|SUPERIORITY||Risk Difference (RD)|-2.3||||0.7459|TWO_SIDED|95.0|-17.6|12.9|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||12.9|-17.6|0.7459
92379534|NCT05063539|184662124|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.014||0.745|TWO_SIDED|95.0|-0.03|0.02|||ANCOVA|||Frontal||0.02|-0.03|0.745
92379535|NCT05063539|184662124|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.015||0.676|TWO_SIDED|95.0|-0.02|0.04|||ANCOVA|||Parietal||0.04|-0.02|0.676
92379536|NCT05063539|184662124|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.015||0.794|TWO_SIDED|95.0|-0.03|0.03|||ANCOVA|||Parietal||0.03|-0.03|0.794
92379537|NCT05063539|184662124|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.021||0.643|TWO_SIDED|95.0|-0.05|0.03|||ANCOVA|||Lateral occipital||0.03|-0.05|0.643
92379538|NCT05063539|184662124|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.021||0.88|TWO_SIDED|95.0|-0.05|0.04|||ANCOVA|||Lateral occipital||0.04|-0.05|0.880
92379539|NCT05063539|184662124|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.017||0.844|TWO_SIDED|95.0|-0.04|0.03|||ANCOVA|||Lateral temporal||0.03|-0.04|0.844
92379540|NCT05063539|184662124|SUPERIORITY|Lateral temporal|LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.017||0.388|TWO_SIDED|95.0|-0.05|0.02|||ANCOVA|||||0.02|-0.05|0.388
92379541|NCT05063539|184662124|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.016||0.815|TWO_SIDED|95.0|-0.03|0.04|||ANCOVA|||AD neocortical signature (measured using MUBADA)||0.04|-0.03|0.815
92412772|NCT04784442|184715268|SUPERIORITY|The overall Type I error rate will be controlled by performing comparison versus the placebo group starting from the highest ETC 1002 dose group by a closed testing procedure at a two-sided significance level of 0.05.|Least squares mean difference|-19.35|STANDARD_ERROR_OF_MEAN|2.768|<|0.001|TWO_SIDED|95.0|-24.81|-13.88|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-13.88|-24.81|<0.001
92412773|NCT04784442|184715268|SUPERIORITY||Least squares mean difference|-19.93|STANDARD_ERROR_OF_MEAN|2.798|<|0.001|TWO_SIDED|95.0|-25.45|-14.41|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 120 mg arm minus the value for the placebo arm.|||-14.41|-25.45|<0.001
92379542|NCT05063539|184662124|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.017||0.562|TWO_SIDED|95.0|-0.04|0.02|||ANCOVA|||AD neocortical signature (measured using MUBADA)||0.02|-0.04|0.562
92379543|NCT05063539|184662125|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.024|<|0.001|TWO_SIDED|95.0|0.04|0.14|||Mixed Models Analysis|||Bilateral Hippocampus||0.14|0.04|<0.001
92379544|NCT05063539|184662125|SUPERIORITY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.025|<|0.001|TWO_SIDED|95.0|0.08|0.18|||Mixed Models Analysis|||Bilateral Hippocampus||0.18|0.08|<0.001
92379545|NCT05063539|184662125|SUPERIORITY||LS Mean Difference|-2.37|STANDARD_ERROR_OF_MEAN|0.587|<|0.001|TWO_SIDED|95.0|-3.53|-1.21|||Mixed Models Analysis|||Bilateral Whole Lateral Ventricles||-1.21|-3.53|<0.001
92412774|NCT04784442|184715268|SUPERIORITY||Least squares mean difference|-8.67|STANDARD_ERROR_OF_MEAN|2.813||0.002|TWO_SIDED|95.0|-14.22|-3.12|||ANCOVA||||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|-3.12|-14.22|0.002
92379546|NCT05063539|184662125|SUPERIORITY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.611||0.008|TWO_SIDED|95.0|-2.84|-0.43|||Mixed Models Analysis|||Bilateral Whole Lateral Ventricles||-0.43|-2.84|0.008
92412775|NCT02259088|184715287|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.8|||<|0.001|TWO_SIDED|95.0|4.1|7.5|||Cochran-Mantel-Haenszel|One-sided p-value for treatment difference is derived from the two-sided stratified Cochran-Mantel-Haenszel test using the row means score statistics.|Estimated from ANOVA (stratified) model. Stratified analysis includes DME type (focal, diffuse, honeycomb and petaloid) and Baseline BCVA(≤ 60 letters and \> 60 letters) as factors.|||7.5|4.1|<0.001
92412776|NCT03060551|184715308|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.256||||||p value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.256
92379547|NCT05063539|184662125|SUPERIORITY||LS Mean Difference|8.17|STANDARD_ERROR_OF_MEAN|1.715|<|0.001|TWO_SIDED|95.0|4.79|11.56|||Mixed Models Analysis|||Bilateral Whole Brain||11.56|4.79|<0.001
92379548|NCT05063539|184662125|SUPERIORITY||LS Mean Difference|9.37|STANDARD_ERROR_OF_MEAN|1.804|<|0.001|TWO_SIDED|95.0|5.81|12.92|||Mixed Models Analysis|||Bilateral Whole Brain||12.92|5.81|<0.001
92379549|NCT05063539|184662126|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.023|<|0.001|TWO_SIDED|95.0|0.04|0.13|||Mixed Models Analysis|||Bilateral Hippocampus||0.13|0.04|<0.001
92379550|NCT05063539|184662126|SUPERIORITY|Bilateral Hippocampus|LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.023|<|0.001|TWO_SIDED|95.0|0.08|0.17|||Mixed Models Analysis|||||0.17|0.08|<0.001
92379551|NCT05063539|184662126|SUPERIORITY||LS Mean Difference|-2.21|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|-3.33|-1.08|||Mixed Models Analysis|||Bilateral Whole Lateral Ventricles||-1.08|-3.33|<0.001
92379552|NCT05063539|184662126|SUPERIORITY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|0.582||0.015|TWO_SIDED|95.0|-2.57|-0.28|||Mixed Models Analysis|||Bilateral Whole Lateral Ventricles||-0.28|-2.57|0.015
92379553|NCT05063539|184662126|SUPERIORITY||LS Mean Difference|7.17|STANDARD_ERROR_OF_MEAN|1.635|<|0.001|TWO_SIDED|95.0|3.95|10.4|||Mixed Models Analysis|||Bilateral Whole Brain||10.40|3.95|<0.001
92379554|NCT05063539|184662126|SUPERIORITY||LS Mean Difference|8.16|STANDARD_ERROR_OF_MEAN|1.68|<|0.001|TWO_SIDED|95.0|4.85|11.47|||Mixed Models Analysis|||Bilateral Whole Brain||11.47|4.85|<0.001
92379555|NCT02262078|184662141|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
92379556|NCT04692077|184662142|OTHER||Exact CI for Proportions|88.9|||||TWO_SIDED|95.0|51.8|99.7|||||||Exact 95% Confidence Interval for Proportion for Participants who Reported Grade 2 and Above AEs|99.7|51.8|
92379557|NCT04692077|184662143|OTHER||Exact CI for Proportions|11.1|||||TWO_SIDED|95.0|0.3|48.3|||||||Exact 95% Confidence Interval for Proportion for Participants who Discontinued Early due to Intolerability of Injection or Burden of Study Procedures|48.3|0.3|
92231569|NCT01431287|184365497|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.137|STANDARD_ERROR_OF_MEAN|0.041||0.0008|TWO_SIDED|95.0|0.057|0.217||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.217|0.057|0.0008
92379558|NCT04692077|184662144|OTHER||Exact CI for Proportions|66.7|||||TWO_SIDED|95.0|22.3|95.7|||||||Exact 95% confidence interval for proportion for Participants who received at least one injection and preferred injectable PrEP at end of step 2.|95.7|22.3|
92379559|NCT04692077|184662148|OTHER||Exact CI for Proportions|88.9|||||TWO_SIDED|95.0|51.8|99.7|||||||The Exact 95% Confidence Interval for Proportion for Number of Participants with Grade 2 or above AEs during Injection Phase.|99.7|51.8|
92379560|NCT04692077|184662149|OTHER||Exact CI for Proportions|88.9|||||TWO_SIDED|95.0|51.8|99.7|||||||Exact 95% Confidence Interval for Proportion for Participants who Completed All Scheduled Injections among those who received at least one Injection|99.7|51.8|
92379561|NCT03344172|184662168|SUPERIORITY||Odds Ratio (OR)|0.52||||0.63|TWO_SIDED|95.0|0.3|6.71|||Fisher Exact|||||6.71|0.30|0.63
92379562|NCT03344172|184662169|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_DEVIATION|0.52||0.13|TWO_SIDED|95.0|-1.0|-0.25|||t-test, 2 sided|||||-0.25|-1.00|0.13
92379563|NCT00300677|184662179|SUPERIORITY_OR_OTHER||predose: ratio adjusted geometric means|300.28||||||90.0|192.91|467.43|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole.|Other estimated parameter represents the Day 3 pre-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||467.43|192.91|
92379564|NCT00300677|184662179|SUPERIORITY_OR_OTHER||postdose: ratio adjusted geometric means|192.72||||||90.0|123.81|300.0|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole.|Other estimated parameter represents the Day 3 post-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||300.00|123.81|
92379565|NCT00300677|184662180|SUPERIORITY_OR_OTHER||predose: ratio adjusted geometric means|300.28||||||90.0|192.91|467.43|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of the adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole.|Other estimated parameter represents the Day 3 pre-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||467.43|192.91|
92379566|NCT00300677|184662180|SUPERIORITY_OR_OTHER||postdose: ratio adjusted geometric means|192.72||||||90.0|123.81|300.0|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole.|Other estimated parameter represents the Day 3 post-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||300.00|123.81|
92231570|NCT01431287|184365497|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.126|STANDARD_ERROR_OF_MEAN|0.043||0.0032|TWO_SIDED|95.0|0.042|0.209||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.209|0.042|0.0032
92231571|NCT01431287|184365497|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.105|STANDARD_ERROR_OF_MEAN|0.04||0.0085|TWO_SIDED|95.0|0.027|0.183||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.183|0.027|0.0085
92379567|NCT00300677|184662181|SUPERIORITY_OR_OTHER||predose: ratio adjusted geometric means|12.39||||||90.0|7.09|21.65|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole N-oxide.|Other estimated parameter represents the Day 3 pre-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole N-oxide. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||21.65|7.09|
92379568|NCT00300677|184662181|SUPERIORITY_OR_OTHER||postdose: ratio adjusted geometric means|31.57||||||90.0|18.06|55.18|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole N-oxide.|Other estimated parameter represents the Day 3 post-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole N-oxide. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||55.18|18.06|
92231572|NCT01431287|184365497|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.156|STANDARD_ERROR_OF_MEAN|0.04||0.0001|TWO_SIDED|95.0|0.077|0.235||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.235|0.077|0.0001
92231573|NCT01431287|184365497|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.042||0.0255|TWO_SIDED|95.0|0.011|0.176||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.176|0.011|0.0255
92379569|NCT00300677|184662182|SUPERIORITY_OR_OTHER||predose: ratio adjusted mean|12.39||||||90.0|7.09|21.65|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plama (reference) concentrations of voriconazole N-oxide.|Other estimated parameter represents the Day 3 pre-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole N-oxide. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||21.65|7.09|
92379570|NCT00300677|184662182|SUPERIORITY_OR_OTHER||postdose: ratio adjusted mean|31.57||||||90.0|18.06|55.18|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole N-oxide.|Other estimated parameter represents the Day 3 post-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole N-oxide. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||55.18|18.06|
92379571|NCT01300351|184662183|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.078|TWO_SIDED|95.0|0.54|1.03||With a sample size of 220 randomised patients and 150 progression events, if treatment effect is consistent between ethnicities/the study populations, there is an 89% chance the HR \<1.|Log Rank|||The results of this study would be considered to be consistent with that of the CONFIRM study if the hazard ratio (HR) point estimate for the treatment comparison was \<1 (ie, it favoured fulvestrant 500 mg), without the requirement for the benefit of fulvestrant 500 mg to be statistically significant.||1.03|0.54|0.078
92379572|NCT01300351|184662184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.107|TWO_SIDED|95.0|0.93|2.24|||Regression, Logistic|||||2.24|0.93|0.107
92379573|NCT01300351|184662185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.023|TWO_SIDED|95.0|1.04|1.8|||Regression, Logistic|||||1.80|1.04|0.023
92379574|NCT00673881|184662212|SUPERIORITY_OR_OTHER|||||||0.0042||95.0|||||t-test, 2 sided|||||||0.0042
92379575|NCT00673881|184662213|SUPERIORITY_OR_OTHER|||||||0.0002|||||||t-test, 2 sided|||Comparison baseline to end-of-treatment||||0.0002
92379576|NCT00673881|184662214|SUPERIORITY_OR_OTHER||||||NS|0|||||||t-test, 2 sided|||Comparison from baseline to end-of-treatment||||NS
92379577|NCT00673881|184662222|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92379578|NCT01189292|184662256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|28.0||||0.001|TWO_SIDED|95.0|12.0|42.0|||Chi-squared|||null hypothesis: Incidence of PONV is the same in both treatment arms||42|12|0.001
92379579|NCT01189292|184662257|SUPERIORITY_OR_OTHER||Risk Difference (RD)|24.0||||0.006|TWO_SIDED|95.0|7.0|40.0|||Chi-squared|||per protocol analysis||40|7|0.006
92379580|NCT01189292|184662260|SUPERIORITY_OR_OTHER|||||||0.674|TWO_SIDED||||||Mixed Models Analysis|mixed model over the mean ranks at all time points measured (4, 8, 16, 24, 32, 48 hours)||||||0.674
92412777|NCT03060551|184715309|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.682||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.682
92379581|NCT01189292|184662261|SUPERIORITY_OR_OTHER|||||||0.835|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.835
92379582|NCT01173029|184662263|NON_INFERIORITY_OR_EQUIVALENCE|Study power calculation was post-hoc based on composite end-point achieved. Number of exposed: 62 Non-exposed to exposed ratio: 0.5 Relative risk worth detecting: 2.5 Attack rate among non-exposed: 23% Alpha risk: 0.05 Calculated power: 89.8%|Risk Ratio (RR)|1.7||||0.19|TWO_SIDED|95.0|0.7|4.1||not adjusted|Chi-squared, Corrected|1 degree-of-freedom||"Long-term intention-to-treat data analysis:~Student 't' tests Yates's corrected Chi-squared or Fisher's exact test, when appropriate Relative risk estimation Cox proportional-hazard model Hardy-Weinberg equilibrium"||4.1|0.7|0.19
92379583|NCT01173029|184662264|NON_INFERIORITY_OR_EQUIVALENCE|Study power calculation was post-hoc based on composite end-point achieved. Number of exposed: 62 Non-exposed to exposed ratio: 0.5 Relative risk worth detecting: 2.5 Attack rate among non-exposed: 23% Alpha risk: 0.05 Calculated power: 89.8%|Risk Ratio (RR)|2.6||||0.01|TWO_SIDED|95.0|1.01|7.3||not adjusted|Chi-squared, Corrected|1 degree-of-freedom||"Long-term intention-to-treat data analysis:~Student 't' test Yates' corrected Chi-squared or Fisher's exact test Relative risk estimation Cox proportional-hazard model Hardy-Weinberg equilibrium"||7.3|1.01|0.01
92231574|NCT01431287|184365497|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.032|STANDARD_ERROR_OF_MEAN|0.041||0.4393|TWO_SIDED|95.0|-0.049|0.113||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.113|-0.049|0.4393
92231575|NCT01431287|184365497|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.188|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.108|0.269||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.269|0.108|<0.0001
92231576|NCT01431287|184365497|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.041||0.7784|TWO_SIDED|95.0|-0.069|0.092||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.092|-0.069|0.7784
92231577|NCT01431287|184365497|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.051|STANDARD_ERROR_OF_MEAN|0.039||0.1965|TWO_SIDED|95.0|-0.129|0.026||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.026|-0.129|0.1965
92379584|NCT01173029|184662264|NON_INFERIORITY_OR_EQUIVALENCE|Proportional-risk hypothesis was tested using the correlation between Schoenfeld's residuals and time (Schoenfeld's global test). The correlation rho was -0.08, Chi-squared was 0.12, and p was 0.73. Therefore, the hypothesis of proportional risk was accepted, validating the correct application model.|Hazard Ratio (HR)|2.2||||0.04|TWO_SIDED|95.0|1.1|4.8||The p-value was adjusted for confounders: Framingham risk score, body mass index, ethnic groups|Regression, Cox|The actuarial function of events per time since the first diagnosis of arterial hypertension was plotted for both groups.||Cox proportional hazard model for the composite endpoint (stroke + myocardial infarction) was assessed. By taking pseudo-resistant arterial hypertension as baseline reference, the hazard ratio for the composite endpoint was calculated.||4.8|1.1|0.04
92379585|NCT01173029|184662265|SUPERIORITY_OR_OTHER||C-statistic|0.66|||<|0.01|TWO_SIDED|95.0|0.56|0.76||At an optimal value of \>3, polygenic risk score yielded 90% sensitivity and 40% specificity for composite endpoint.|z test|Area under receiver operating characteristic curve.|The optimal cutoff value for polygenic risk score was set to \>3.|Receiver operating characteristic curve analysis for the polygenic score as predictor of composite endpoint (stroke + myocardial infarction)||0.76|0.56|<0.01
92379586|NCT01173029|184662265|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.9||||0.04|TWO_SIDED|95.0|1.2|9.2||The p-value was adjusted for confounders: Framingham risk score, body mass index, ethnic group|Regression, Cox|The actuarial function of events per time since the first diagnosis of arterial hypertension was plotted for polygenic risk score\<=3 and \>3.||Cox proportional hazard model of the polygenic risk score\<=3 and \> 3 for the composite endpoint (stroke + myocardial infarction). By taking polygenic risk score\<=3, the hazard ratio for the composite endpoint was calculated for polygenic risk score\>3 .||9.2|1.2|0.04
92379587|NCT01842581|184662269|NON_INFERIORITY|Threshold for significance=upper bound of the 2-sided 95% confidence interval (CI) for hazard ratio less than (\<) 1.56.|Hazard Ratio (HR)|1.959||||0.0359|TWO_SIDED|95.0|1.045|3.672|||Score statistics|||Hazard ratio estimate (hazard of breakthrough HE for rifaximin compared to rifaximin + lactulose) obtained from Cox proportional hazards model with effect for treatment, stratified by analysis region.||3.672|1.045|0.0359
92379588|NCT01842581|184662270|SUPERIORITY|2-sided test at a significance level of 0.05.|Hazard Ratio (HR)|1.739||||0.0985|TWO_SIDED|95.0|0.894|3.382||Threshold for significance at 0.05 level.|Log Rank|||Analysis was performed using log-rank test stratified by analysis region. Hazard ratio estimate (hazard of breakthrough HE for rifaximin compared to rifaximin + lactulose) obtained from Cox proportional hazards model with effect for treatment, stratified by analysis region.||3.382|0.894|0.0985
92379589|NCT03973905|184662275|OTHER||Vaccine Effectiveness|65.26|||||TWO_SIDED|95.0|-64.93|92.68|||||Vaccine Effectiveness (VE) was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix during third trimester of pregnancy (at least 14 days before delivery) at preventing pertussis in infants \<2 months||92.68|-64.93|
92379590|NCT03973905|184662276|OTHER||Vaccine Effectiveness|42.01|||||TWO_SIDED|95.0|-1071.8|97.13|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix before pregnancy at preventing pertussis in infants \<2 months||97.13|-1071.80|
92379591|NCT03973905|184662276|OTHER||Vaccine Effectiveness|62.17|||||TWO_SIDED|95.0|-439.75|97.35|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix during first or second trimester of pregnancy at preventing pertussis in infants \<2 months||97.35|-439.75|
92379592|NCT03973905|184662276|OTHER||Vaccine Effectiveness|-12.89|||||TWO_SIDED|95.0|-166.37|52.16|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix after pregnancy at preventing pertussis in infants \<2 months||52.16|-166.37|
92231578|NCT01431287|184365497|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.041||0.1315|TWO_SIDED|95.0|-0.019|0.144||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.144|-0.019|0.1315
92379593|NCT03973905|184662277|OTHER||Vaccine Effectiveness|64.79|||||TWO_SIDED|95.0|-57.51|92.13|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix at any time during pregnancy at preventing pertussis in infants \<2 months||92.13|-57.51|
92412778|NCT03060551|184715310|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.151||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.151
92379594|NCT03973905|184662278|OTHER||Vaccine Effectiveness|17.65|||||TWO_SIDED|95.0|-12529.0|99.46|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix before pregnancy at preventing pertussis in infants \<2 months||99.46|-12529.0|
92379595|NCT03973905|184662278|OTHER||Vaccine Effectiveness|85.01|||||TWO_SIDED|95.0|-13.91|98.03|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix during third trimester of pregnancy at preventing pertussis in infants \<2 months||98.03|-13.91|
92379596|NCT03973905|184662278|OTHER||Vaccine Effectiveness|37.64|||||TWO_SIDED|95.0|-87.4|79.25|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix after pregnancy at preventing pertussis in infants \<2 months||79.25|-87.40|
92379597|NCT02648217|184662279|SUPERIORITY_OR_OTHER||Treatment Contrast|0.02||||0.8426|TWO_SIDED|95.0|-0.2|0.24|||Mixed model for repeated measurements|||The endpoint was analysed using mixed model for repeated measurements (MMRM) with an unstructured covariance matrix. The model included treatment, sex, region, previous OAD treatment, pre-Ramadan trial exposure and visit as factors and age and baseline value of the endpoint as covariates. Interactions between visit and all factors and covariates are included in the model.||0.24|-0.20|0.8426
92379598|NCT02553538|184662286|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92379599|NCT02553538|184662287|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Regression, Logistic|||||||<0.001
92379600|NCT02553538|184662288|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Regression, Logistic|||||||<0.001
92379601|NCT02553538|184662289|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92379602|NCT00815191|184662299|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority delta of 0.5°C|Mean Difference (Final Values)|0.091|||<|0.0001|TWO_SIDED|95.0|-0.139|0.321|||ANOVA|Repeated measures ANOVA||||0.321|-0.139|<0.0001
92379603|NCT01741532|184662303|SUPERIORITY|||||||0.0761|||||||Mixed Models Analysis|||||||0.0761
92379604|NCT01741532|184662304|SUPERIORITY|||||||0.7279|||||||Mixed Models Analysis|||||||0.7279
92379605|NCT01741532|184662305|SUPERIORITY|||||||0.7228|||||||Mixed Models Analysis|||Comparison of treatment groups on change in score on UPDRS Part I||||0.7228
92379606|NCT01741532|184662305|SUPERIORITY|||||||0.3677|||||||Mixed Models Analysis|||Comparison of treatment groups on change in score on UPDRS Part II||||0.3677
92379607|NCT01741532|184662305|SUPERIORITY|||||||0.2182|||||||Mixed Models Analysis|||Comparison of treatment groups on change in score on UPDRS Part III||||0.2182
92412779|NCT03060551|184715311|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.516||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.516
92379608|NCT01741532|184662305|SUPERIORITY|||||||0.1749|||||||Mixed Models Analysis|||Comparison of treatment groups on change in score on UPDRS Part VI||||0.1749
92379609|NCT01741532|184662306|SUPERIORITY|||||||0.1524|||||||Mixed Models Analysis|||||||0.1524
92379610|NCT01741532|184662307|SUPERIORITY|||||||0.2026|||||||Mixed Models Analysis|||||||0.2026
92379611|NCT01741532|184662308|SUPERIORITY|||||||0.9759|||||||Mixed Models Analysis|||Patient self-report, total score||||0.9759
92379612|NCT01741532|184662308|SUPERIORITY|||||||0.5781|||||||Mixed Models Analysis|||Parent proxy-report, total score||||0.5781
92379613|NCT01741532|184662309|SUPERIORITY|||||||0.6323|||||||Mixed Models Analysis|||||||0.6323
92379614|NCT01741532|184662310|SUPERIORITY|||||||0|||||||Mixed Models Analysis|||||||0.0000
92379615|NCT00613080|184662311|SUPERIORITY_OR_OTHER||Proportion (reported as percentage)|51.0||||0.93|TWO_SIDED||||||Chi-squared|||This study was designed for a one-sided chi-square test to detect at least 12% reduction in the 40% rate of ≥ grade 2 treatment-related preoperative GI AEs from the conventional radiotherapy / capecitabine /oxaliplatin arm of study RTOG-0247 (NCT00081289) with 80% power and a one-sided type I error rate of 0.10.||||0.93
92379616|NCT01739803|184662371|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||To control for experiment-wise Type I error rate in this analysis, a comparison-wise alpha of 0.01 was used.|Mixed Models Analysis|||We projected mean composite adherence rate for all participants to be approximately 80% ± 15. We anticipated at least 10% increase in intervention group adherence at end of intervention. To have 80% power to detect expected difference of 10% at the 2-tailed 5% significance level, sample size needed to be at least 36 RTRs per group. We took a conservative approach, in combination with anticipated attrition over the course of study, and increased enrollment.||||<0.05
92379617|NCT01739803|184662372|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
92379618|NCT01739803|184662373|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.05||||0.05|TWO_SIDED|95.0|||||Chi-squared|||||||0.05
92379619|NCT01428336|184662381|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|0.06|||||TWO_SIDED|95.0|-0.2|0.6||||||Analysis comparing Peak 25ug CST correlation with ITT vs. Peak 1ug CST correlation with ITT||0.60|-0.20|
92379620|NCT01428336|184662381|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|-0.07|||||TWO_SIDED|95.0|-0.69|-0.01||||||Analysis comparing Peak 25ug CST correlation with ITT vs. Peak 250ug CST correlation with ITT||-0.01|-0.69|
92379621|NCT01428336|184662381|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|-0.06|||||TWO_SIDED|95.0|-0.65|0.04||||||Analysis comparing Peak 25ug CST correlation with ITT vs. 30-minute 250ug CST correlation with ITT||0.04|-0.65|
92379622|NCT01428336|184662382|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|0.12|||||TWO_SIDED|95.0|-0.24|0.65||||||Analysis comparing Peak 25ug CST correlation with ITT vs. Peak 1ug CST correlation with ITT - free cortisol||0.65|-0.24|
92379623|NCT01428336|184662382|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|-0.18|||||TWO_SIDED|95.0|-0.91|-0.15||||||Analysis comparing Peak 25ug CST correlation with ITT vs. Peak 250ug CST correlation with ITT - free cortisol||-0.15|-0.91|
92379624|NCT01428336|184662382|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|-0.19|||||TWO_SIDED|95.0|-0.94|-0.14||||||Analysis comparing Peak 25ug CST correlation with ITT vs. 30-minute 250ug CST correlation with ITT - free cortisol||-0.14|-0.94|
92379625|NCT02449018|184662386|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_DEVIATION|0.31||0.13|TWO_SIDED|90.0|-0.24|0.79|||ANCOVA|||||0.79|-0.24|0.130
92412780|NCT03060551|184715312|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.|||||>|0.999||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||>0.999
92412781|NCT03060551|184715313|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.034||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.034
92412782|NCT03060551|184715314|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.656||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.656
92379626|NCT02698371|184662440|EQUIVALENCE|alpha value of 0.05 was considered||||||0.025|||||||McNemar|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance between baseline and 24 month follow-up;||||0.025
92379627|NCT02698371|184662440|EQUIVALENCE|alpha value of 0.05 was considered||||||0.189|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE (G1) and MM-SE(G4G6) result in similar restorations (aesthetic, functional and biologic) success rates;||||0.189
92379628|NCT02698371|184662440|EQUIVALENCE|alpha value of 0.05 was considered||||||0.189|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE (G1) and MM-SE (G4G6) adhesives result in similar restoration retention rates;||||0.189
92412783|NCT03060551|184715315|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.096||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.096
92278079|NCT02629965|184458209|SUPERIORITY||Mean Difference (Final Values)|4.168|STANDARD_ERROR_OF_MEAN|5.26||0.4291|TWO_SIDED|95.0|-6.211|14.548|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|14.548|-6.211|0.4291
92379629|NCT02698371|184662440|EQUIVALENCE|alpha value of 0.05 was considered||||||0.025|||||||McNemar|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance from baseline to 24 month follow-up;||||0.025
92379630|NCT02698371|184662440|EQUIVALENCE|alpha value of 0.05 was considered||||||0.747|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE-EE (G2) and MM-ER (G3G5) result in similar restorations (aesthetic, functional and biologic) success rates;||||0.747
92379631|NCT02698371|184662440|EQUIVALENCE|alpha value of 0.05 was considered||||||0.747|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE-EE (G2) and MM-ER (G3G5) result in similar restoration retention rates;||||0.747
92412784|NCT03060551|184715316|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.019||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.019
92412785|NCT03060551|184715317|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.05||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.050
92412786|NCT03060551|184715318|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.372||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.372
92379632|NCT02698371|184662440|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07|||||||Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance;||||0.070
92379633|NCT02698371|184662440|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07||||||Applied for rows/Categories- Acceptance Vs Not Acceptance Functional-FDI comparison between G1G2 and G3G4 and G5G6 Arms success rate from baseline to 24 month recall. For Esthetic and Biological-FDI comparison p values were \> 0.05. Adjusted P-values.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar restorations (aesthetic, functional and biologic) success rates;||||0.070
92379634|NCT02698371|184662440|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07||||||Applied for rows/Categories- Acceptance Vs Not Acceptance Retention-FDI comparison between G1G2 and G3G4 and G5G6 Arms retention rate from baseline to 24 month recall. Adjusted P-values.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar restoration retention rates;||||0.070
92412787|NCT03060551|184715319|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.024||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.024
92379635|NCT02698371|184662441|EQUIVALENCE|alpha value of 0.05 was considered||||||0.025|||||||McNemar|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance;||||0.025
92379636|NCT02698371|184662441|EQUIVALENCE|alpha value of 0.05 was considered||||||0.189|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE (G1) and MM-SE(G4G6) result in similar restorations (aesthetic, functional and biologic) success rates;||||0.189
92379637|NCT02698371|184662441|EQUIVALENCE|alpha value of 0.05 was considered||||||0.189|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE (G1) and MM-SE (G4G6) adhesives result in similar restoration retention rates;||||0.189
92379638|NCT02698371|184662441|EQUIVALENCE|alpha value of 0.05 was considered||||||0.025|||||||McNemar|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance;||||0.025
92379639|NCT02698371|184662441|EQUIVALENCE|alpha value of 0.05 was considered||||||0.154|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE-EE (G2) and MM-ER (G3G5) result in similar restorations (aesthetic, functional and biologic) success rates;||||0.154
92379640|NCT02698371|184662441|EQUIVALENCE|alpha value of 0.05 was considered||||||0.747|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE-EE (G2) and MM-ER (G3G5) result in similar restoration retention rates;||||0.747
92379641|NCT02698371|184662441|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07|||||||Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance;||||0.070
92379642|NCT02698371|184662441|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07|||||||Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar restorations (aesthetic, functional and biologic) success rates;||||0.070
92379643|NCT02698371|184662441|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07|||||||Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar restoration retention rates;||||0.070
92379644|NCT02698371|184662442|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/Categories- Acceptance Vs Not Acceptance Esthetic of FDI and of USPHS comparison; Applied to G1G2; G3G4 and G5G6 separately.|Chi-squared|||H0: FDI or USPHS criteria Esthetic outcomes not differ at 24th month follow-up regarding Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) adhesive, with SE or SE-ER/ER modes.||||1.000
92379645|NCT02698371|184662442|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/Categories- Acceptance Vs Not Acceptance Functional of FDI and of USPHS comparison; Applied to G1G2; G3G4 and G5G6 separately.|Chi-squared|||H0: FDI or USPHS criteria Functional outcomes not differ at 24th month follow-up regarding Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) adhesive, with SE or SE-ER/ER modes.||||1.000
92379646|NCT02698371|184662442|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.998||||||Applied for rows/Categories- Acceptance Vs Not Acceptance Biologic FDI and of USPHS comparison; Applied to G1G2; G3G4 and G5G6 separately.|Chi-squared|||H0: FDI or USPHS criteria Biological outcomes not differ at 24th month follow-up regarding Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) adhesive, with SE or SE-ER/ER modes.||||0.998
92412788|NCT03060551|184715320|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.188||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.188
92379647|NCT02698371|184662443|EQUIVALENCE|alpha value of 0.05 was considered||||||0.029||||||Applied for all rows/Categories (graded on a 5-point scale) Surface Luster-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Surface Luster Performance at 24 Month Follow-up recall.||||0.029
92379648|NCT02698371|184662443|EQUIVALENCE|alpha value of 0.05 was considered||||||0.002||||||Applied for all rows/Categories (graded on a 5-point scale) Surface Luster-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Surface Luster performance at 24 Month Follow-up recall;||||0.002
92379649|NCT02698371|184662443|EQUIVALENCE|alpha value of 0.05 was considered||||||0.618||||||Applied for all rows/Categories (graded on a 5-point scale) Surface Luster-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Surface Luster performance at 24 Month Follow-up recall.||||0.618
92379650|NCT02698371|184662444|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.009||||||Applied for all rows/Categories (graded on a 5-point scale) Staining Margin-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Staining Margin Performance at 24 Month Follow-up recall.||||0.009
92231579|NCT01431287|184365498|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.141|STANDARD_ERROR_OF_MEAN|0.56||0.0001|TWO_SIDED|95.0|-3.239|-1.043||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-1.043|-3.239|0.0001
92231580|NCT01431287|184365498|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.131|STANDARD_ERROR_OF_MEAN|0.56||0.0435|TWO_SIDED|95.0|-2.23|-0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.033|-2.230|0.0435
92231581|NCT01431287|184365498|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.528|STANDARD_ERROR_OF_MEAN|0.559||0.0063|TWO_SIDED|95.0|-2.623|-0.432||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.432|-2.623|0.0063
92231582|NCT01431287|184365498|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.517|STANDARD_ERROR_OF_MEAN|0.558||0.3545|TWO_SIDED|95.0|-1.611|0.577||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.577|-1.611|0.3545
92231583|NCT01431287|184365498|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.518|STANDARD_ERROR_OF_MEAN|0.559||0.3542|TWO_SIDED|95.0|-1.614|0.578||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.578|-1.614|0.3542
92379651|NCT02698371|184662444|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.059||||||Applied for all rows/Categories (graded on a 5-point scale) Staining Margin-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Staining Margin Performance at 24 Month Follow-up recall.||||0.059
92379652|NCT02698371|184662444|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.829||||||Applied for all rows/Categories (graded on a 5-point scale) Staining Margin-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Staining Margin performance at 24 month follow-up recall.||||0.829
92412789|NCT03060551|184715321|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.372||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.372
92412790|NCT03060551|184715322|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.633||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.633
92231584|NCT01431287|184365498|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.613|STANDARD_ERROR_OF_MEAN|0.556||0.2697|TWO_SIDED|95.0|-1.702|0.476||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.476|-1.702|0.2697
92231585|NCT01431287|184365498|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.13|STANDARD_ERROR_OF_MEAN|0.559||0.0434|TWO_SIDED|95.0|-2.227|-0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.033|-2.227|0.0434
92231586|NCT01431287|184365498|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.01|STANDARD_ERROR_OF_MEAN|0.563||0.0732|TWO_SIDED|95.0|-2.114|0.095||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.095|-2.114|0.0732
92231587|NCT01431287|184365498|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.011|STANDARD_ERROR_OF_MEAN|0.563||0.0724|TWO_SIDED|95.0|-2.114|0.092||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.092|-2.114|0.0724
92280423|NCT03466411|184463527|SUPERIORITY||Adjusted treatment difference|25.1|||<|0.001|TWO_SIDED|95.0|14.1|36.2|||Mantel Haenszel||Treatment difference between combined guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||36.2|14.1|<0.001
92412791|NCT03060551|184715323|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.38||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.380
92412792|NCT03698591|184715342|OTHER||F-statistic|6.155||||0.019|TWO_SIDED|||||P-value corresponds to 3 way interaction. A priori significance threshold of p \< .05.|ANOVA|||The null hypothesis was that distancing performance would not differ by arm of the study. Within-subjects factors included task condition (distancing vs. distraction) and study arm. Study arm order was used as a between-subjects factor.||||.019
92231588|NCT01431287|184365498|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.563||0.9983|TWO_SIDED|95.0|-1.102|1.104||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||1.104|-1.102|0.9983
92379653|NCT02698371|184662445|EQUIVALENCE|An alpha value of 0.05 was considered|||||<|0.001||||||Applied for all rows/Categories (graded on a 5-point scale) Colour Stability-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Colour Stability performance at 24 month follow-up recall.||||<0.001
92379654|NCT02698371|184662445|EQUIVALENCE|An alpha value of 0.05 was considered|||||<|0.001||||||Applied for all rows/Categories (graded on a 5-point scale) of Colour Stability-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Colour Stability performance at 24 month follow-up recall.||||<0.001
92379655|NCT02698371|184662445|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.064||||||Applied for all rows/Categories (graded on a 5-point scale) of Colour Stability-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Colour Stability performance at 24 month follow-up recall.||||0.064
92379656|NCT02698371|184662446|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.006||||||Applied for all rows/Categories (graded on a 5-point scale) of Fractures and Retention-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Fractures and Retention performance at 24 month follow-up recall.||||0.006
92379657|NCT02698371|184662446|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.02||||||Applied for all rows/Categories (graded on a 5-point scale) of Fractures and Retention-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Fractures and Retention performance at 24 month follow-up recall.||||0.020
92379658|NCT02698371|184662446|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.054||||||Applied for all rows/Categories (graded on a 5-point scale) of Fractures and Retention-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Fractures and Retention performance at 24 month follow-up recall.||||0.054
92412793|NCT03698591|184715342|OTHER||F-statistic|5.911||||0.021|TWO_SIDED|||||P-value corresponds to two-way interaction. A priori significance threshold of p \< .05.|ANOVA|||This analysis evaluated the two-way interaction of task condition and study period. The null hypothesis was that distancing performance would not differ by study period. Within-subjects factors included task condition and study period.||||.021
92412794|NCT03698591|184715342|OTHER||t-statistic|-1.656||||0.108|TWO_SIDED|||||A priori significance threshold of p \< .05.|t-test, 2 sided|||A dependent-samples t-test was used to compare distancing performance between study periods 1 and 2. The null hypothesis was that distancing performance would not differ by study period.||||.108
92280424|NCT03466411|184463528|SUPERIORITY||Adjusted treatment difference|27.7|||<|0.001|TWO_SIDED|95.0|19.3|36.1|||Mantel Haenszel||Treatment difference between combined guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||36.1|19.3|<0.001
92379659|NCT02698371|184662447|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.01||||||Applied for all rows/Categories (graded on a 5-point scale) of Marginal Adaptation-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Marginal Adaptation performance at 24 month follow-up recall.||||0.010
92379660|NCT02698371|184662447|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.071||||||Applied for all rows/Categories (graded on a 5-point scale) of Marginal Adaptation-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Marginal Adaptation performance at 24 month follow-up recall.||||0.071
92379661|NCT02698371|184662447|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.898||||||Applied for all rows/Categories (graded on a 5-point scale) of Marginal Adaptation-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Marginal Adaptation performance at 24 month follow-up recall.||||0.898
92412795|NCT03698591|184715342|OTHER||F-statistic|0.004||||0.948|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||For this analysis, study arm and task condition were used as within-subjects factors, study arm order was used as a between-subjects factor, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.948
92412796|NCT03698591|184715343|OTHER||F-statistic|0.031||||0.862|TWO_SIDED|||||P-value corresponds to the two way interaction of task condition and study arm . A priori significance threshold of p \< .05.|ANOVA|||The null hypothesis was that distancing self-reported effort would not differ by arm of the study. Within-subjects factors included task condition (distancing vs. distraction) and study arm. Study arm order was used as a between-subjects factor.||||.862
92412797|NCT03698591|184715343|OTHER||F-statistic|4.04||||0.054|TWO_SIDED|||||P-value corresponds to the main effect of study period. A priori threshold of p \< .05.|ANOVA|||A follow-up ANOVA was run with within-subjects factors of task condition and study period.||||.054
92412798|NCT03698591|184715343|OTHER||t-statistic|2.694||||0.012|TWO_SIDED|||||A priori significance threshold of p \< .05.|t-test, 2 sided|||A follow-up dependent-samples t-test was run to test a potential effect of study period on distancing effort.||||.012
92412799|NCT03698591|184715343|OTHER||F-statistic|3.196||||0.085|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||Post-hoc analyses were used to explore treatment effects using covariates related to the treatment parameters. For this analysis, study arm and task condition were used as within-subjects factors, study arm order was used as a between-subjects factor, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.085
92412800|NCT03698591|184715343|OTHER||F-statistic|7.162||||0.013|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||This analysis examined the effect of study arm specifically on distancing effort. The within-subjects factor was study arm, between-subjects factor was study arm order, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.013
92169198|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|-9.34|STANDARD_ERROR_OF_MEAN|6.05||0.1349|TWO_SIDED|95.0|-21.8|3.11|||ANCOVA|||TSQM Side Effects; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||3.11|-21.80|0.1349
92379662|NCT02698371|184662448|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.317||||||Applied for all rows/Categories (graded on a 5-point scale) of Postoperative Hypersensibility, Tooth Vitality-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Postoperative Hypersensibility, Tooth Vitality performance at 24 month follow-up recall.||||0.317
92379663|NCT02698371|184662448|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.18||||||Applied for all rows/Categories (graded on a 5-point scale) of Postoperative Hypersensibility, Tooth Vitality-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Postoperative Hypersensibility, Tooth Vitality performance at 24 month follow-up recall.||||0.180
92412801|NCT03698591|184715344|OTHER||F-statistic|6.155||||0.019|TWO_SIDED|||||P-value corresponds to 3 way interaction. A priori significance threshold of p \< .05.|ANOVA|||The null hypothesis was that distraction performance would not differ by arm of the study. Within-subjects factors included task condition (distancing vs. distraction) and study arm. Study arm order was used as a between-subjects factor.||||.019
92412802|NCT03698591|184715344|OTHER||F-statistic|5.911||||0.021|TWO_SIDED|||||P-value corresponds to two-way interaction. A priori significance threshold of p \< .05.|ANOVA|||This analysis evaluated the two-way interaction of task condition and study period. The null hypothesis was that distraction performance would not differ by study period. Within-subjects factors included task condition and study period.||||.021
92412803|NCT03698591|184715344|OTHER||t-statistic|1.282||||0.21|TWO_SIDED|||||A priori significance threshold of p \< .05.|t-test, 2 sided|||A dependent-samples t-test was used to compare distraction performance between study periods 1 and 2. The null hypothesis was that distraction performance would not differ by study period.||||.210
92412804|NCT03698591|184715344|OTHER||F-statistic|0.004||||0.948|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||Post-hoc analyses were used to explore treatment effects using covariates related to the treatment parameters. For this analysis, study arm and task condition were used as within-subjects factors, study arm order was used as a between-subjects factor, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.948
92379664|NCT02698371|184662448|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.918||||||Applied for all rows/Categories (graded on a 5-point scale) of Postoperative Hypersensibility, Tooth Vitality-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Postoperative Hypersensibility, Tooth Vitality performance at 24 month follow-up recall.||||0.918
92379665|NCT02698371|184662449|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.317||||||Applied for all rows/Categories (graded on a 5-point scale) of Recurrence of Caries, Erosion, Abfraction-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Recurrence of Caries, Erosion, Abfraction performance at 24 month follow-up recall.||||0.317
92379666|NCT02698371|184662449|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.317||||||Applied for all rows/Categories (graded on a 5-point scale) of Recurrence of Caries, Erosion, Abfraction-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Recurrence of Caries, Erosion, Abfraction performance at 24 month follow-up recall.||||.317
92379667|NCT02698371|184662449|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.575||||||Applied for all rows/Categories (graded on a 5-point scale) of Recurrence of Caries, Erosion \& Abfraction-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Recurrence of Caries, Erosion, Abfraction performance at 24 month follow-up recall.||||0.575
92379668|NCT02698371|184662450|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.02||||||Applied for all rows/Categories (graded on a 5-point scale) of Tooth Integrity (enamel cracks)-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Tooth Integrity (enamel cracks) performance at 24 month follow-up recall.||||0.020
92379669|NCT02698371|184662450|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.107||||||Applied for all rows/Categories (graded on a 5-point scale) of Tooth Integrity (enamel cracks)-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Tooth Integrity (enamel cracks) performance at 24 month follow-up recall.||||0.107
92379670|NCT02698371|184662450|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.592||||||Applied for all rows/Categories (graded on a 5-point scale) of Tooth Integrity (enamel cracks)-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Tooth Integrity (enamel cracks) performance at 24 month follow-up recall.||||0.592
92379671|NCT02698371|184662451|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/categories alfa/bravo/charlie of Surface Staining-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Surface Staining performance at 24 month follow-up recall.||||1.000
92379672|NCT02698371|184662451|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/categories alfa/bravo/charlie of Surface Staining-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Surface Staining performance at 24 month follow-up recall.||||1.000
92379673|NCT02698371|184662451|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/categories alfa/bravo/charlie of Surface Staining-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Surface Staining performance at 24 month follow-up recall.||||1.000
92379674|NCT02698371|184662452|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.011||||||Applied for rows/categories alfa/bravo/charlie of Marginal Discoloration-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Marginal Discoloration performance at 24 month follow-up recall.||||0.011
92379675|NCT02698371|184662452|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.034||||||Applied for rows/categories alfa/bravo/charlie of Marginal Discoloration-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Marginal Discoloration performance at 24 month follow-up recall.||||0.034
92412805|NCT03698591|184715345|OTHER||F-statistic|0.031||||0.862|TWO_SIDED|||||P-value corresponds to the two way interaction of task condition and study arm . A priori significance threshold of p \< .05.|ANOVA|||The null hypothesis was that distraction self-reported effort would not differ by arm of the study. Within-subjects factors included task condition (distancing vs. distraction) and study arm. Study arm order was used as a between-subjects factor.||||.862
92412806|NCT03698591|184715345|OTHER||F-statistic|4.04||||0.054|TWO_SIDED|||||P-value corresponds to the main effect of study period. A priori threshold of p \< .05.|ANOVA|||A follow-up ANOVA was run with within-subjects factors of task condition and study period.||||.054
92412807|NCT03698591|184715345|OTHER||t-statistic|0.828||||0.415|TWO_SIDED|||||A priori significance threshold of p \< .05.|t-test, 2 sided|||A follow-up dependent-samples t-test was run to test the effect of study period on distraction effort.||||.415
92379676|NCT02698371|184662452|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.885||||||Applied for rows/categories alfa/bravo/charlie of Marginal Discoloration-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Marginal Discoloration performance at 24 month follow-up recall.||||0.885
92379677|NCT02698371|184662453|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/categories alfa/bravo/charlie of Color Match-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Color Match performance at 24 month follow-up recall.||||1.000
92379678|NCT02698371|184662453|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.317||||||Applied for rows/categories alfa/bravo/charlie of Color Match-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Color Match performance at 24 month follow-up recall.||||0.317
92379679|NCT02698371|184662453|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.403||||||Applied for rows/categories alfa/bravo/charlie of Color Match-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Color Match performance at 24 month follow-up recall.||||0.403
92379680|NCT02698371|184662454|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.02||||||Applied for rows/categories alfa/bravo/charlie of Retention-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Retention performance at 24 month follow-up recall.||||0.020
92379681|NCT02698371|184662454|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.02||||||Applied for rows/categories alfa/bravo/charlie of Retention-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Retention performance at 24 month follow-up recall.||||0.020
92379682|NCT02698371|184662454|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.04||||||Applied for rows/categories alfa/bravo/charlie of Retention-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Retention performance at 24 month follow-up recall.||||0.040
92379683|NCT02698371|184662455|EQUIVALENCE|An alpha value of 0.05 was considered|||||<|0.001||||||Applied for rows/categories alfa/bravo/charlie/delta of Marginal Integrity-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Marginal Integrity performance at 24 month follow-up recall.||||<0.001
92379684|NCT02698371|184662455|EQUIVALENCE|An alpha value of 0.05 was considered|||||<|0.001||||||Applied for rows/categories alfa/bravo/charlie/delta of Marginal Integrity-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Marginal Integrity performance at 24 month follow-up recall.||||<0.001
92379685|NCT02698371|184662455|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.211||||||Applied for rows/categories alfa/bravo/charlie/delta of Marginal Integrity-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Marginal Integrity performance at 24 month follow-up recall.||||0.211
92379686|NCT02698371|184662456|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.102||||||Applied for rows/categories No Evidence vs Evidence of Postoperative Sensitivity-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Postoperative Sensitivity performance at 24 month follow-up recall.||||0.102
92379687|NCT02698371|184662456|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.18||||||Applied for rows/categories No Evidence vs Evidence of Postoperative Sensitivity-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Postoperative Sensitivity performance at 24 month follow-up recall.||||0.180
92379688|NCT02698371|184662456|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.99||||||Applied for rows/categories No Evidence vs Evidence of Postoperative Sensitivity-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Postoperative Sensitivity performance at 24 month follow-up recall.||||0.990
92231589|NCT01431287|184365499|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.852|STANDARD_ERROR_OF_MEAN|0.578||0.0014|TWO_SIDED|95.0|-2.985|-0.718||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.718|-2.985|0.0014
92231590|NCT01431287|184365499|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.444|STANDARD_ERROR_OF_MEAN|0.576||0.4413|TWO_SIDED|95.0|-1.573|0.686||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.686|-1.573|0.4413
92231591|NCT01431287|184365499|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.437|STANDARD_ERROR_OF_MEAN|0.578||0.0129|TWO_SIDED|95.0|-2.569|-0.304||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.304|-2.569|0.0129
92379689|NCT02698371|184662457|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.157||||||Applied for rows/categories No Evidence vs Evidence of Secondary Caries-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Secondary Caries performance at 24 month follow-up recall.||||0.157
92379690|NCT02698371|184662457|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.317||||||Applied for rows/categories No Evidence vs Evidence of Secondary Caries-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Secondary Caries performance at 24 month follow-up recall.||||0.317
92379691|NCT02698371|184662457|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.334||||||Applied for rows/categories No Evidence vs Evidence of Secondary Caries-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Secondary Caries performance at 24 month follow-up recall.||||0.334
92379692|NCT02698371|184662458|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.132||||||Applied for rows/categories No Evidence vs Evidence of Gingival Bleeding-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Gingival Bleeding performance at 24 month follow-up recall.||||0.132
92412808|NCT03698591|184715345|OTHER||F-statistic|3.196||||0.085|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||Post-hoc analyses were used to explore treatment effects using covariates related to the treatment parameters. For this analysis, study arm and task condition were used as within-subjects factors, study arm order was used as a between-subjects factor, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.085
92412809|NCT03698591|184715345|OTHER||F-statistic|0.396||||0.535|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||This analysis examined the effect of study arm specifically on distraction performance. The within-subjects factor was study arm, between-subjects factor was study arm order, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.535
92412810|NCT03009396|184715348|SUPERIORITY|||||||0.2112|||||||Log Rank|||||||0.2112
92412811|NCT03009396|184715349|SUPERIORITY|||||||0.0356|||||||Log Rank|||||||0.0356
92412812|NCT03009396|184715350|SUPERIORITY|||||||0.0514|||||||Log Rank|||||||0.0514
92412813|NCT03009396|184715351|SUPERIORITY|||||||0.1259|||||||Log Rank|||||||0.1259
92412814|NCT03009396|184715352|SUPERIORITY|||||||0.4114|||||||Fisher Exact|||||||0.4114
92412815|NCT02660983|184715359|SUPERIORITY||Difference in least square (LS) means|-0.58||||0.3455|TWO_SIDED|95.0|-1.79|0.63|||ANCOVA|||||0.63|-1.79|0.3455
92412816|NCT02660983|184715360|SUPERIORITY||Difference in LS means|-0.12||||0.257|TWO_SIDED|95.0|-0.32|0.09|||ANCOVA||LS mean of Donepezil group - LS mean of Placebo (when the difference of LS mean scores were less than 0, considered as demonstrated hypothesis), analyzed with ANCOVA model with baseline (CIBIS) as covariate and treatment as main effect.|||0.09|-0.32|0.2570
92412817|NCT02660983|184715361|SUPERIORITY||Difference in LS means|0.65||||0.0396|TWO_SIDED|95.0|0.03|1.26|||ANCOVA|||||1.26|0.03|0.0396
92169199|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.81||0.0264|TWO_SIDED|95.0|0.21|3.38|||ANCOVA|||TSQM Convenience; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||3.38|0.21|0.0264
92231592|NCT01431287|184365499|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.056|STANDARD_ERROR_OF_MEAN|0.574||0.9222|TWO_SIDED|95.0|-1.182|1.07||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||1.070|-1.182|0.9222
92231593|NCT01431287|184365499|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.029|STANDARD_ERROR_OF_MEAN|0.576||0.9602|TWO_SIDED|95.0|-1.157|1.1||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||1.100|-1.157|0.9602
92412818|NCT02660983|184715362|SUPERIORITY||Difference in LS means|-7.73||||0.2213|TWO_SIDED|95.0|-20.13|4.68|||ANCOVA|||Part A||4.68|-20.13|0.2213
92412819|NCT02660983|184715362|SUPERIORITY||Difference in LS means|-14.88||||0.0551|TWO_SIDED|95.0|-30.1|0.33|||ANCOVA|||Part B||0.33|-30.10|0.0551
92231594|NCT01431287|184365499|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.415|STANDARD_ERROR_OF_MEAN|0.57||0.4669|TWO_SIDED|95.0|-1.533|0.703||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.703|-1.533|0.4669
92379693|NCT02698371|184662458|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.257||||||Applied for rows/categories No Evidence vs Evidence of Gingival Bleeding-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Gingival Bleeding performance at 24 month follow-up recall.||||0.257
92379694|NCT02698371|184662458|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.918||||||Applied for rows/categories No Evidence vs Evidence of Gingival Bleeding-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Gingival Bleeding performance at 24 month follow-up recall.||||0.918
92379695|NCT01274611|184662465|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A sample of 20 patients, or 40 treatment sites (the unit of randomization), provided 80% power to detect effect sizes of 0.68 using a paired t test at a type I error rate of 5%.|Mean Difference (Net)|0.8|||<|0.01|||||||t-test, 2 sided|||||||<0.01
92379696|NCT01274611|184662466|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A sample of 20 patients, or 40 treatment sites (the unit of randomization), provided 80% power to detect effect sizes of 0.68 using a paired t test at a type I error rate of 5%.|Mean Difference (Net)|15.0|||>|0.01|||||||t-test, 2 sided|||||||>0.01
92379697|NCT00897390|184662488|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|1.042|||||TWO_SIDED|90.0|1.009|1.075||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.075|1.009|
92379698|NCT00897390|184662488|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.988|||||TWO_SIDED|90.0|0.958|1.019||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.019|0.958|
92379699|NCT00897390|184662490|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|1.045|||||TWO_SIDED|90.0|1.013|1.077||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.077|1.013|
92379700|NCT00897390|184662490|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.992|||||TWO_SIDED|90.0|0.962|1.022||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.022|0.962|
92412820|NCT03376295|184715385|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.9|1.2|||Cox proportional hazards model||The hazard ratio (HR) is adjusted HR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score.|The Cox proportional hazard regression model was used to perform for moderate/severe exacerbation that assesses the effect of current use of LABA-TIO combination versus the LABA-ICS combination on the risk of a first COPD exacerbation.||1.20|0.90|
92412821|NCT03376295|184715385|OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.65|1.36|||Cox proportional hazards model||HR presented is adjusted HR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score.|The Cox proportional hazard regression model was used to perform for severe exacerbation that assesses the effect of current use of LABA-TIO combination versus the LABA-ICS combination on the risk of a first COPD exacerbation.||1.36|0.65|
92412822|NCT03376295|184715386|OTHER||Rate ratio (RR)|1.07|||||TWO_SIDED|95.0|0.92|1.25|||Negative binomial model||The rate ratio (RR) (LABA-TIO combination versus the LABA-ICS combination) is adjusted RR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score.|Moderate/severe exacerbation||1.25|0.92|
92412823|NCT03376295|184715386|OTHER||Rate ratio (RR)|0.85|||||TWO_SIDED|95.0|0.55|1.33|||Negative binomial model||The RR (LABA-TIO combination versus the LABA-ICS combination) is adjusted RR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score.|Severe exacerbation||1.33|0.55|
92412824|NCT03376295|184715387|OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.42|1.05|||Cox proportional hazards model||The HR is adjusted HR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score|The cox proportional hazard regression model was used to perform an as-treated analysis that assesses the effect of current use of LABA-TIO combination versus the LABA-ICS combination on the risk of a first COPD exacerbation.||1.05|0.42|
92231595|NCT01431287|184365499|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.471|STANDARD_ERROR_OF_MEAN|0.575||0.4126|TWO_SIDED|95.0|-1.598|0.656||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.656|-1.598|0.4126
92231596|NCT01431287|184365499|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.408|STANDARD_ERROR_OF_MEAN|0.583||0.0158|TWO_SIDED|95.0|-2.551|-0.265||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.265|-2.551|0.0158
92379701|NCT00897390|184662491|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|1.077|||||TWO_SIDED|90.0|0.978|1.185||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.185|0.978|
92412825|NCT03376295|184715387|OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.48|0.92|||Cox proportional hazards model||The HR is adjusted HR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score|The Cox proportional hazard regression model was used to perform an on-treatment analysis that assesses the effect of current use of LABA-TIO combination versus the LABA-ICS combination on the risk of a first COPD exacerbation.||0.92|0.48|
92412826|NCT00893815|184715388|OTHER||Odds Ratio (OR)|0.55||||0.09|TWO_SIDED|95.0|0.27|1.1||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|||1.10|0.27|0.09
92412827|NCT00893815|184715389|OTHER||Odds Ratio (OR)|0.75||||0.45|TWO_SIDED|95.0|0.35|1.61||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of verbal fluency impairment between HIV-positive and HIV-negative military beneficiaries||1.61|0.35|0.45
92412828|NCT00893815|184715389|OTHER||Odds Ratio (OR)|0.74||||0.43|TWO_SIDED|95.0|0.35|1.56||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of abstraction executive functioning impairment between HIV-positive and HIV-negative military beneficiaries||1.56|0.35|0.43
92412829|NCT00893815|184715389|OTHER||Odds Ratio (OR)|1.45||||0.56|TWO_SIDED|95.0|0.41|5.17||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of speed of information processing impairment between HIV-positive and HIV-negative military beneficiaries||5.17|0.41|0.56
92412830|NCT00893815|184715389|OTHER||Odds Ratio (OR)|1.32||||0.49|TWO_SIDED|95.0|0.6|2.93||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of attention/working memory impairment between HIV-positive and HIV-negative military beneficiaries||2.93|0.60|0.49
92412831|NCT00893815|184715389|OTHER||Odds Ratio (OR)|0.43||||0.01|TWO_SIDED|95.0|0.22|0.84||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of learning impairment between HIV-positive and HIV-negative military beneficiaries||0.84|0.22|0.01
92412832|NCT00893815|184715389|OTHER||Odds Ratio (OR)|1.39||||0.46|TWO_SIDED|95.0|0.58|3.34||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of recall impairment between HIV-positive and HIV-negative military beneficiaries||3.34|0.58|0.46
92231597|NCT01431287|184365499|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.381|STANDARD_ERROR_OF_MEAN|0.582||0.0177|TWO_SIDED|95.0|-2.521|-0.24||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.240|-2.521|0.0177
92231598|NCT01431287|184365499|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.027|STANDARD_ERROR_OF_MEAN|0.58||0.9624|TWO_SIDED|95.0|-1.164|1.109||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||1.109|-1.164|0.9624
92231599|NCT01431287|184365500|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.595|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.329|0.862||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.862|0.329|<0.0001
92231600|NCT01431287|184365500|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.64|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.373|0.907||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.907|0.373|<0.0001
92231601|NCT01431287|184365500|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.423|STANDARD_ERROR_OF_MEAN|0.136||0.0019|TWO_SIDED|95.0|0.156|0.69||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.690|0.156|0.0019
92231602|NCT01431287|184365500|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.446|STANDARD_ERROR_OF_MEAN|0.136||0.0011|TWO_SIDED|95.0|0.179|0.712||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.712|0.179|0.0011
92231603|NCT01431287|184365500|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.468|STANDARD_ERROR_OF_MEAN|0.136||0.0006|TWO_SIDED|95.0|0.201|0.735||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.735|0.201|0.0006
92231604|NCT01431287|184365500|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.172|STANDARD_ERROR_OF_MEAN|0.136||0.2045|TWO_SIDED|95.0|-0.094|0.438||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.438|-0.094|0.2045
92379702|NCT00897390|184662491|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.987|||||TWO_SIDED|90.0|0.9|1.083||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.083|0.900|
92412833|NCT00893815|184715389|OTHER||Odds Ratio (OR)|0.89||||0.76|TWO_SIDED|95.0|0.43|1.85||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of motor speed \& dexterity impairment between HIV-positive and HIV-negative military beneficiaries||1.85|0.43|0.76
92412834|NCT06457204|184715439|OTHER||Ratio of adjusted geometric means [%]|101.6|||||TWO_SIDED|90.0|98.4|105.0|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual geometric coefficient of variation (gCV) \[%\] = 6.9."|Analysis of variance (ANOVA) on the logarithmic scale included effects for sequence, subjects nested within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t-distribution. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs.||105.0|98.4|
92231605|NCT01431287|184365500|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.618|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.351|0.885||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.885|0.351|<0.0001
92280425|NCT03466411|184463529|SUPERIORITY||Adjusted treatment difference|31.2|||<|0.001|TWO_SIDED|95.0|21.1|41.3|||Mantel Haenszel||Treatment difference between combined guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||41.3|21.1|<0.001
92231606|NCT01431287|184365500|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.045|STANDARD_ERROR_OF_MEAN|0.137||0.7432|TWO_SIDED|95.0|-0.313|0.223||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.223|-0.313|0.7432
92379703|NCT00897390|184662494|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.974|||||TWO_SIDED|90.0|0.921|1.03||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.030|0.921|
92379704|NCT00897390|184662494|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.966||||||90.0|0.915|1.02||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.020|0.915|
92379705|NCT00897390|184662495|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.962||||||90.0|0.906|1.02||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.020|0.906|
92379706|NCT00897390|184662495|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.974||||||90.0|0.92|1.032||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.032|0.920|
92379707|NCT00897390|184662496|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.937|||||TWO_SIDED|90.0|0.864|1.016||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.016|0.864|
92412835|NCT06457204|184715440|OTHER||Ratio of adjusted geometric means [%]|98.3|||||TWO_SIDED|90.0|91.6|105.5|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual geometric coefficient of variation (gCV) \[%\] = 15.0."|Analysis of variance (ANOVA) on the logarithmic scale included effects for sequence, subjects nested within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t-distribution. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs.||105.5|91.6|
92231607|NCT01431287|184365500|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.023|STANDARD_ERROR_OF_MEAN|0.136||0.8687|TWO_SIDED|95.0|-0.29|0.245||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.245|-0.290|0.8687
92412836|NCT06457204|184715441|OTHER||Ratio of adjusted geometric means [%]|101.6|||||TWO_SIDED|90.0|98.2|105.0|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual geometric coefficient of variation (gCV) \[%\] = 7.1."|Analysis of variance (ANOVA) on the logarithmic scale included effects for sequence, subjects nested within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t-distribution. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs.||105.0|98.2|
92412837|NCT01457352|184715442|SUPERIORITY|||||||0.2062|||||||Cochran-Mantel-Haenszel|||||||0.2062
92412838|NCT01457352|184715443|SUPERIORITY|||||||0.0485|||||||Mantel Haenszel|||||||0.0485
92412839|NCT01909011|184715450|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92412840|NCT01909011|184715451|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED||||||t-test, 2 sided|||||||0.066
92412841|NCT01909011|184715452|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||t-test, 2 sided|||||||0.016
92412842|NCT00695097|184715453|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||P \< 0.05 threshold of significance|t-test, 2 sided|||Pretreatment (Baseline)compared to post-treatment (follow-up) CD3 cell density||||0.25
92412843|NCT00695097|184715453|SUPERIORITY_OR_OTHER|||||||0.46||95.0||||P \< 0.05 threshold of significance|t-test, 2 sided|||Pretreatment (Baseline) compared to post-treatment (follow-up) CD3 cell density||||0.46
92412844|NCT00695097|184715453|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||P \< 0.05 threshold of significance|t-test, 2 sided|||pretreatment (baseline) compared to post-treatment (follow-up) biopsy CD20 cell density||||0.054
92412845|NCT00695097|184715453|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||P \< 0.05 threshold of significance|t-test, 2 sided|||Pretreatment (baseline) compared to post-treatment (follow-up) CD20 cell density||||0.62
92412846|NCT00982423|184715462|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Comparison between baseline dose of furosemide (3 weeks) versus reduced dose of furosemide (approximately 6 weeks).||||<0.05
92412847|NCT00982423|184715462|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||Comparison between GFR taken at baseline dose Furosemide (3 weeks) versus normal GFR||||<0.05
92280426|NCT03466411|184463530|SUPERIORITY||Adjusted treatment difference|22.1|||<|0.001|TWO_SIDED|95.0|12.2|31.9|||Mantel Haenszel||Treatment difference between combined guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||31.9|12.2|<0.001
92412848|NCT00982423|184715467|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||t-test, 2 sided|||Comparison between reduced dose Furosemide and baseline dose Furosemide||||0.075
92412849|NCT02712047|184715468|OTHER||Ratio|0.36|||||TWO_SIDED|95.0|0.31|0.43|||||Ratio of FF/VI 100/25mcg versus (Vs) Placebo for Day 1, AM|||0.43|0.31|
92412850|NCT02712047|184715468|OTHER||Ratio|0.33|||||TWO_SIDED|95.0|0.28|0.39|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 1, PM|||0.39|0.28|
92412851|NCT02712047|184715468|OTHER||Ratio|0.38|||||TWO_SIDED|95.0|0.32|0.45|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 2, AM|||0.45|0.32|
92412852|NCT02712047|184715468|OTHER||Ratio|0.37|||||TWO_SIDED|95.0|0.31|0.44|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 2, PM|||0.44|0.31|
92412853|NCT02712047|184715468|OTHER||Ratio|0.46|||||TWO_SIDED|95.0|0.39|0.54|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 3, AM|||0.54|0.39|
92412854|NCT02712047|184715468|OTHER||Ratio|0.47|||||TWO_SIDED|95.0|0.4|0.56|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 3, PM|||0.56|0.40|
92412855|NCT02712047|184715468|OTHER||Ratio|0.56|||||TWO_SIDED|95.0|0.47|0.66|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 4, AM|||0.66|0.47|
92412856|NCT02712047|184715468|OTHER||Ratio|0.58|||||TWO_SIDED|95.0|0.49|0.69|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 4, PM|||0.69|0.49|
92412857|NCT02712047|184715468|OTHER||Ratio|0.63|||||TWO_SIDED|95.0|0.53|0.75|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 5, AM|||0.75|0.53|
92412858|NCT02712047|184715468|OTHER||Ratio|0.67|||||TWO_SIDED|95.0|0.57|0.8|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 5, PM|||0.80|0.57|
92412859|NCT02712047|184715468|OTHER||Ratio|0.67|||||TWO_SIDED|95.0|0.56|0.8|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 6, AM|||0.80|0.56|
92412860|NCT02712047|184715468|OTHER||Ratio|0.62|||||TWO_SIDED|95.0|0.52|0.74|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 6, PM|||0.74|0.52|
92412861|NCT02712047|184715468|OTHER||Ratio|0.6|||||TWO_SIDED|95.0|0.51|0.71|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 7, AM|||0.71|0.51|
92412862|NCT02712047|184715468|OTHER||Ratio|0.62|||||TWO_SIDED|95.0|0.52|0.74|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 7, PM|Ratio of FF/VI 100/25mcg Vs Placebo for Day 8, AM||0.74|0.52|
92412863|NCT02712047|184715468|OTHER||Ratio|0.69|||||TWO_SIDED|95.0|0.58|0.81|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 8, AM|||0.81|0.58|
92412864|NCT02712047|184715468|OTHER||Ratio|0.68|||||TWO_SIDED|95.0|0.57|0.8|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 8, PM|||0.80|0.57|
92412865|NCT02712047|184715468|OTHER||Ratio|0.66|||||TWO_SIDED|95.0|0.56|0.78|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 9, AM|||0.78|0.56|
92412866|NCT02712047|184715468|OTHER||Ratio|0.68|||||TWO_SIDED|95.0|0.57|0.8|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 9, PM|||0.80|0.57|
92412867|NCT02712047|184715468|OTHER||Ratio|0.66|||||TWO_SIDED|95.0|0.55|0.78|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 10, AM|||0.78|0.55|
92412868|NCT02712047|184715468|OTHER||Ratio|0.68|||||TWO_SIDED|95.0|0.58|0.81|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 10, PM|||0.81|0.58|
92412869|NCT02712047|184715468|OTHER||Ratio|0.73|||||TWO_SIDED|95.0|0.61|0.86|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 11, AM|||0.86|0.61|
92412870|NCT02712047|184715468|OTHER||Ratio|0.73|||||TWO_SIDED|95.0|0.61|0.86|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 11, PM|||0.86|0.61|
92412871|NCT02712047|184715468|OTHER||Ratio|0.72|||||TWO_SIDED|95.0|0.61|0.85|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 12, AM|||0.85|0.61|
92412872|NCT02712047|184715468|OTHER||Ratio|0.71|||||TWO_SIDED|95.0|0.6|0.84|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 12, PM|||0.84|0.60|
92379708|NCT00897390|184662496|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.964|||||TWO_SIDED|90.0|0.891|1.042||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.042|0.891|
92379709|NCT05011513|184662509|SUPERIORITY|||||||0.6027|||||||Log Rank|||||||0.6027
92379710|NCT05011513|184662511|SUPERIORITY|||||||0.1796||||||P-value reported for COVID-19 hospitalization and death due to any cause.|Normal approximation|||||||0.1796
92379711|NCT05011513|184662513|SUPERIORITY|||||||0.0971|||||||Negative binomial|||||||0.0971
92379712|NCT05011513|184662515|SUPERIORITY||Odds Ratio (OR)|0.819||||0.1622|TWO_SIDED|95.0|0.618|1.084|||Regression, Logistic|||Main effects of treatment, geographic region, baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.084|0.618|0.1622
92379713|NCT05011513|184662516|SUPERIORITY|||||||0.4298|||||||Log Rank|||||||0.4298
92379714|NCT05011513|184662519|SUPERIORITY||Odds Ratio (OR)|0.802||||0.1086|TWO_SIDED|95.0|0.613|1.05|||Regression, Logistic|||Main effects of treatment, geographic region, symptom onset duration (\<=3, \>3), baseline SARS-CoV-2 serology status (positive/negative), vaccination status (complete/not vaccinated) and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL).||1.050|0.613|0.1086
92379715|NCT05011513|184662520|SUPERIORITY||Odds Ratio (OR)|50.333||||0.3262|TWO_SIDED|95.0|13.163|192.472|||Breslow-Day Test|||||192.472|13.163|0.3262
92379716|NCT05011513|184662520|SUPERIORITY||Odds Ratio (OR)|22.224|||||TWO_SIDED|95.0|8.36|59.08||||||Odds ratio for Day 5 vs Day 1||59.080|8.360|
92379717|NCT04736199|184662527|SUPERIORITY||Hazard Ratio (HR)|0.541|||<|0.0001|TWO_SIDED|95.0|0.413|0.707||One-sided|Log Rank|||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||0.707|0.413|<0.0001
92379718|NCT04736199|184662528|SUPERIORITY||Hazard Ratio (HR)|0.813||||0.1007|TWO_SIDED|95.0|0.591|1.118||One-sided|Log Rank||significance level of 0.0185 (one-sided)|Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||1.118|0.591|0.1007
92379719|NCT04736199|184662529|OTHER||Hazard Ratio (HR)|0.404|||||TWO_SIDED|95.0|0.321|0.508||||||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||0.508|0.321|
92379720|NCT04736199|184662530|OTHER||Hazard Ratio (HR)|0.401|||||TWO_SIDED|95.0|0.288|0.558||||||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||0.558|0.288|
92379721|NCT04736199|184662531|OTHER||Hazard Ratio (HR)|0.306|||||TWO_SIDED|95.0|0.231|0.405||||||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||0.405|0.231|
92379722|NCT04736199|184662532|OTHER||Rate difference|44.3|||||TWO_SIDED|95.0|37.4|51.2||||||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||51.2|37.4|
92379723|NCT04736199|184662533|OTHER||Hazard Ratio (HR)|0.721|||||TWO_SIDED|95.0|0.544|0.957||||||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||0.957|0.544|
92379724|NCT05818137|184662560|OTHER||Change from baseline estimate|-99.2|||||TWO_SIDED|95.0|-129.6|-68.4|||||The change from baseline estimate and associated 95% confidence interval (CI) based on the Hodges-Lehmann method.|||-68.4|-129.6|
92379725|NCT05818137|184662563|OTHER||Change from baseline estimate|41.8|||||TWO_SIDED|95.0|27.8|55.5|||||The change from baseline estimate and associated 95% confidence interval (CI) based on the Hodges-Lehmann method.|||55.5|27.8|
92280427|NCT03462719|184463561|SUPERIORITY||Hazard Ratio (HR)|0.216|||<|0.0001|TWO_SIDED|95.0|0.131|0.357|||Log Rank|||||0.357|0.131|<0.0001
92379726|NCT05818137|184662565|OTHER||Change from baseline estimate|-48.5|||||TWO_SIDED|95.0|-77.0|-24.8|||||The change from baseline estimate and associated 95% confidence interval (CI) based on the Hodges-Lehmann method.|||-24.8|-77.0|
92379727|NCT05925374|184662571|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92379728|NCT05925374|184662572|OTHER|||||||0.007|||||||t-test, 2 sided|||||||0.007
92379729|NCT05925374|184662573|OTHER|||||||0.136|||||||t-test, 2 sided|||||||0.136
92379730|NCT03320330|184662592|OTHER|Recommended Phase 2 dose of pepinemab (VX15/2503), administered to children with recurrent or refractory solid tumors (Part A), was determined by the rolling-6 design.|Recommended Phase 2 dose|20.0|||||TWO_SIDED||||||||Recommended Phase 2 dose of pepinemab (VX15/2503) is 20 mg/kg.|||||
92379731|NCT05206370|184662604|SUPERIORITY|Abstinence from Week 3 to Week 6|Odds Ratio (OR)|2.85||||0.0008|TWO_SIDED|95.0|1.475|5.617||Two-sided, calculated by exact computations with clinical site as a stratifier.|Exact computations||Common odds ratio (stratified by site)|||5.617|1.475|0.0008
92379732|NCT05206370|184662604|SUPERIORITY||Odds Ratio (OR)|2.71||||0.001|TWO_SIDED|95.0|1.485|5.094||Two-sided, derived from marginal odds ratio|Exact computations||Marginal (unadjusted) odds ratio|||5.094|1.485|0.0010
92379733|NCT05206370|184662604|SUPERIORITY||Difference in proportions|0.09||||0.0006|TWO_SIDED|95.0|0.033|0.134||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.134|0.033|0.0006
92379734|NCT05206370|184662605|SUPERIORITY||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.566|7.343||Two-sided, calculated by exact computations with clinical site as a stratifier.|Exact computations||Common odds ratio (stratified by site)|Abstinence from Week 9 to Week 12||7.343|2.566|< 0.0001
92379735|NCT05206370|184662605|SUPERIORITY||Odds Ratio (OR)|4.17|||<|0.0001|TWO_SIDED|95.0|2.575|6.885||Two-sided, derived from marginal odds ratio.|Exact computations||Marginal (unadjusted) odds ratio|||6.885|2.575|< 0.0001
92231608|NCT01431287|184365500|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.022|STANDARD_ERROR_OF_MEAN|0.137||0.8709|TWO_SIDED|95.0|-0.29|0.246||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.246|-0.290|0.8709
92379736|NCT05206370|184662605|SUPERIORITY||Difference in proportions|0.21|||<|0.0001|TWO_SIDED|95.0|0.141|0.267||p-value for difference in proportions4|Cochran-Mantel-Haenszel|||||0.267|0.141|< 0.0001
92379737|NCT05206370|184662606|SUPERIORITY||Odds Ratio (OR)|6.25||||0.0006|TWO_SIDED|95.0|1.851|34.619||Two-sided, calculated by exact computations with clinical site as a stratifier.|Exact computations||Common odds ratio (Stratified by site)|Abstinence from Week 6 to Week 24||34.619|1.851|0.0006
92379738|NCT05206370|184662606|SUPERIORITY||Odds Ratio (OR)|6.42||||0.0007|TWO_SIDED|95.0|2.026|27.544||Two-sided, derived from marginal odds ratio.|Exact computations||Marginal (unadjusted) odds ratio|||27.544|2.026|0.0007
92379739|NCT05206370|184662606|SUPERIORITY||Difference in proportions|0.06||||0.0007|TWO_SIDED|95.0|0.023|0.075||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.075|0.023|0.0007
92379740|NCT05206370|184662607|SUPERIORITY||Odds Ratio (OR)|5.79|||<|0.0001|TWO_SIDED|95.0|2.888|12.458||Two-sided, calculated by exact computations with clinical site as a stratifier.|Exact computations||Common odds ratio (stratified by site)|Abstinence from Week 9 to Week 24||12.458|2.888|< 0.0001
92379741|NCT05206370|184662607|SUPERIORITY||Odds Ratio (OR)|5.94|||<|0.0001|TWO_SIDED|95.0|3.091|12.13||Two-sided, derived from marginal odds ratio.|Exact computations||Marginal (unadjusted) odds ratio|||12.130|3.091|< 0.0001
92379742|NCT05206370|184662607|SUPERIORITY||Difference in proportions|0.16|||<|0.0001|TWO_SIDED|95.0|0.11|0.202||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.202|0.110|< 0.0001
92379743|NCT05206370|184662608|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5538|TWO_SIDED|95.0|0.652|2.297||Two-sided, calculated by exact computations with clinical site as a stratifier.|Exact computations||Common odds ratio (stratified by site)|Relapse free at Week 24||2.297|0.652|0.5538
92379744|NCT05206370|184662608|SUPERIORITY||Odds Ratio (OR)|1.24||||0.556|TWO_SIDED|95.0|0.691|2.231||Two-sided, derived from marginal odds ratio.|Exact computations||Marginal (unadjusted) odds ratio|||2.231|0.691|0.5560
92379745|NCT05206370|184662608|SUPERIORITY|||||||0.2822|||||||Zelen's exact test (Pr ≤ P)|||||||0.2822
92379746|NCT06038123|184662676|SUPERIORITY||Proportion|100.0||||0.002|ONE_SIDED|97.5|93.94|||A priori threshold for statistical significance was 0.025|One-proportion binomial exact test|||Alternative hypothesis: MRI-related event-free rate within 1-month post-MRI \>90%. Null hypothesis will be rejected if the one-sided 97.5% lower confidence bound is \>90%. Assuming type I error rate of 0.025, even-free rate under null hypothesis being 90% and true even-free rate being 99.5%, the minimum required sample size is 54 MRI scanned patients to achieve 90% power. One-proportion binomial exact test along with a one-sided 97.5% lower (Clopper-Pearson) confidence bound was used.|||93.94|0.002
92379747|NCT05218499|184662678|OTHER||Hazard Ratio (HR)|0.79||||0.0956|TWO_SIDED|95.0|0.6|1.06|||Regression, Cox||A hazard ratio value below 1 favors brigimadlin.|The primary estimator for the hazard ratio is the median unbiased estimator. The confidence interval (CI) for the hazard ratio is calculated as a repeated CI. The p-value is obtained using a weighted inverse normal method combining one-sided p-values from two stages.||1.06|0.60|0.0956
92379748|NCT05218499|184662679|OTHER||Odds Ratio (OR)|2.93|||||TWO_SIDED|95.0|1.52|5.67|||||An odds ratio value greater than 1 favors brigimadlin.|The primary estimator and CI for the odds ratio is by Cochran-Mantel-Haenszel.||5.67|1.52|
92379749|NCT05218499|184662681|OTHER||Odds Ratio (OR)|1.51|||||TWO_SIDED|95.0|0.81|2.82|||||An odds ratio value greater than 1 favors brigimadlin.|Odds ratios are calculated from a logistic regression model with the stratification factor (locally advanced vs. metastatic) included as a covariate.||2.82|0.81|
92379750|NCT05218499|184662681|OTHER||Odds Ratio (OR)|2.67|||||TWO_SIDED|95.0|1.48|4.84|||||An odds ratio value greater than 1 favors brigimadlin.|Odds ratios are calculated from a logistic regression model with the stratification factor (locally advanced vs. metastatic) included as a covariate. Exact 95% confidence interval (CI) by Clopper and Pearson.||4.84|1.48|
92379751|NCT05010018|184662700|OTHER|||||||0.22|||||||welch's t-test|||||||0.22
92379752|NCT05431387|184662712|SUPERIORITY||Odds Ratio (OR)|2.64||||0.035|TWO_SIDED|95.0|1.062|7.098||Two-sided, calculated by exact computations with whether subjects had smoked \>100 cigarettes in their lifetime (yes, no) as stratification.|Exact computations||Common odds ratio|Abstinence from Week 9 to 12||7.098|1.062|0.0350
92379753|NCT05431387|184662712|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0348|TWO_SIDED|95.0|1.133|6.491||Derived from marginal odds ratio.|Exact computations||Marginal (unadjusted) odds ratio|||6.491|1.133|0.0348
92379754|NCT05431387|184662712|SUPERIORITY||Difference in proportions|0.17||||0.012|TWO_SIDED|95.0|0.012|0.284||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.284|0.012|0.0120
92379755|NCT05431387|184662713|SUPERIORITY||Odds Ratio (OR)|1.81||||0.2205|TWO_SIDED|95.0|0.766|4.551|||Exact computations||Marginal (unadjusted) odds ratio|Abstinence from Week 3 to 6||4.551|0.766|0.2205
92379756|NCT05431387|184662713|SUPERIORITY||Difference in proportions|0.09|||||TWO_SIDED|95.0|-0.058|0.209||||||||0.209|-0.058|
92379757|NCT05431387|184662714|SUPERIORITY||Odds Ratio (OR)|2.18||||0.085|TWO_SIDED|95.0|0.967|5.202|||Exact computations||Marginal (unadjusted) odds ratio|Abstinence from Week 6 to 9||5.202|0.967|0.0850
92379758|NCT05431387|184662714|SUPERIORITY||Difference in proportions|0.14|||||TWO_SIDED|95.0|-0.019|0.263||||||||0.263|-0.019|
92379759|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|2.0||||0.3038|TWO_SIDED|95.0|0.653|7.309||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 2||7.309|0.653|0.3038
92379760|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.06||||0.3038|TWO_SIDED|95.0|-0.058|0.144||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 2||0.144|-0.058|0.3038
92379761|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|1.73||||0.1996|TWO_SIDED|95.0|0.817|3.8||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 3||3.800|0.817|0.1996
92379762|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.11||||0.1996|TWO_SIDED|95.0|-0.055|0.251||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 3||0.251|-0.055|0.1996
92379763|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|3.02||||0.0035|TWO_SIDED|95.0|1.458|6.414||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 4||6.414|1.458|0.0035
92231609|NCT01431287|184365501|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.63|STANDARD_ERROR_OF_MEAN|0.137|<|0.0001|TWO_SIDED|95.0|0.362|0.898||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.898|0.362|<0.0001
92379764|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.25||||0.0035|TWO_SIDED|95.0|0.078|0.395||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 4||0.395|0.078|0.0035
92379765|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|1.84||||0.1183|TWO_SIDED|95.0|0.905|3.809||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 5||3.809|0.905|0.1183
92379766|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.14||||0.1183|TWO_SIDED|95.0|-0.035|0.29||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 5||0.290|-0.035|0.1183
92379767|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|2.15||||0.0532|TWO_SIDED|95.0|1.035|4.585||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 6||4.585|1.035|0.0532
92379768|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.17||||0.0532|TWO_SIDED|95.0|-0.004|0.311||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 6||0.311|-0.004|0.0532
92379769|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|3.23||||0.0019|TWO_SIDED|95.0|1.539|6.989||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 7||6.989|1.539|0.0019
92379770|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.26||||0.0019|TWO_SIDED|95.0|0.089|0.4||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 7||0.400|0.089|0.0019
92379771|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|2.32||||0.0246|TWO_SIDED|95.0|1.119|4.944||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 8||4.944|1.119|0.0246
92379772|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.18||||0.0246|TWO_SIDED|95.0|0.014|0.33||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 8||0.330|0.014|0.0246
92379773|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|2.23||||0.0362|TWO_SIDED|95.0|1.076|4.762||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 9||4.762|1.076|0.0362
92379774|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.18||||0.0362|TWO_SIDED|95.0|0.005|0.321||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 9||0.321|0.005|0.0362
92379775|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|1.77||||0.1215|TWO_SIDED|95.0|0.871|3.668||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 10||3.668|0.871|0.1215
92379776|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.13||||0.1215|TWO_SIDED|95.0|-0.044|0.281||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 10||0.281|-0.044|0.1215
92231610|NCT01431287|184365501|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.434|STANDARD_ERROR_OF_MEAN|0.137||0.0015|TWO_SIDED|95.0|0.166|0.703||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.703|0.166|0.0015
92231611|NCT01431287|184365501|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.419|STANDARD_ERROR_OF_MEAN|0.137||0.0022|TWO_SIDED|95.0|0.151|0.687||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.687|0.151|0.0022
92379777|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|1.84||||0.1123|TWO_SIDED|95.0|0.882|3.935||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 11||3.935|0.882|0.1123
92379778|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.13||||0.1123|TWO_SIDED|95.0|-0.04|0.274||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 11||0.274|-0.040|0.1123
92379779|NCT05431387|184662715|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0516|TWO_SIDED|95.0|1.006|4.626||Two-sided, derived from marginal (unadjusted) odds ratio.|Exact computations|||Week 12||4.626|1.006|0.0516
92379780|NCT05431387|184662715|SUPERIORITY||Difference in proportions|0.16||||0.0516|TWO_SIDED|95.0|-0.011|0.298||Two-sided, derived from marginal odds ratio.|Exact computations|||Week 12||0.298|-0.011|0.0516
92379781|NCT05431387|184662716|SUPERIORITY||Least squares (LS) means difference|-32.506|STANDARD_ERROR_OF_MEAN|32.6646||1|TWO_SIDED|95.0|-155.1192|90.1072||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 2||90.1072|-155.1192|1.0000
92379782|NCT05431387|184662716|SUPERIORITY||LS means difference|-72.832|STANDARD_ERROR_OF_MEAN|32.6388||1|TWO_SIDED|95.0|-195.3491|49.6842||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 3||49.6842|-195.3491|1.0000
92379783|NCT05431387|184662716|SUPERIORITY||LS means difference|-74.09|STANDARD_ERROR_OF_MEAN|32.8018||1|TWO_SIDED|95.0|-197.2184|49.0381||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 4||49.0381|-197.2184|1.0000
92379784|NCT05431387|184662716|SUPERIORITY||LS means difference|-83.364|STANDARD_ERROR_OF_MEAN|32.7865||1|TWO_SIDED|95.0|-206.4354|39.7066||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 5||39.7066|-206.4354|1.0000
92379785|NCT05431387|184662716|SUPERIORITY||LS means difference|-79.952|STANDARD_ERROR_OF_MEAN|32.9139||1|TWO_SIDED|95.0|-203.5009|43.5976||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 6||43.5976|-203.5009|1.0000
92379786|NCT05431387|184662716|SUPERIORITY||LS means difference|-49.309|STANDARD_ERROR_OF_MEAN|33.2714||1|TWO_SIDED|95.0|-174.2006|75.5817||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 7||75.5817|-174.2006|1.0000
92379787|NCT05431387|184662716|SUPERIORITY||LS means difference|-78.107|STANDARD_ERROR_OF_MEAN|33.2237||1|TWO_SIDED|95.0|-202.8196|46.6046||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 8||46.6046|-202.8196|1.0000
92379788|NCT05431387|184662716|SUPERIORITY||LS means difference|-86.006|STANDARD_ERROR_OF_MEAN|33.5025||1|TWO_SIDED|95.0|-211.7643|39.7529||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 9||39.7529|-211.7643|1.0000
92379789|NCT05431387|184662716|SUPERIORITY||LS means difference|-62.68|STANDARD_ERROR_OF_MEAN|33.151||1|TWO_SIDED|95.0|-187.1187|61.7592||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 10||61.7592|-187.1187|1.0000
92379790|NCT05431387|184662716|SUPERIORITY||LS means difference|-63.262|STANDARD_ERROR_OF_MEAN|33.2292||1|TWO_SIDED|95.0|-187.9952|61.4704||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 11||61.4704|-187.9952|1.0000
92379791|NCT05431387|184662716|SUPERIORITY||LS means difference|-57.329|STANDARD_ERROR_OF_MEAN|33.2475||1|TWO_SIDED|95.0|-182.1302|67.4727||A compound symmetry covariance matrix was used. Bonferroni adjusted p-values are reported.|Compound symmetry covariance matrix|||Change at Week 12||67.4727|-182.1302|1.0000
92379792|NCT05431387|184662717|SUPERIORITY||Odds Ratio (OR)|2.0||||0.147|TWO_SIDED|95.0|0.82|5.319||Two-sided, derived from marginal odds ratio.|Exact computations|||Abstinence from Week 9 to 16||5.319|0.820|0.1470
92379793|NCT05431387|184662717|SUPERIORITY||Difference in proportions|0.1||||0.147|TWO_SIDED|95.0|-0.044|0.211||Two-sided, derived from marginal odds ratio.|Exact computations|||||0.211|-0.044|0.1470
92379794|NCT02486718|184662780|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.848||||0.0683|TWO_SIDED|95.0|0.71|1.013|||Log Rank|||||1.013|0.710|0.0683
92379795|NCT02486718|184662781|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.691|0.998||||||||0.998|0.691|
92379796|NCT02486718|184662782|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.704|||||TWO_SIDED|95.0|0.545|0.91||||||||0.910|0.545|
92379797|NCT02486718|184662784|SUPERIORITY||Difference in event-free rates|5.98|||||TWO_SIDED|95.0|-0.28|12.23||||||||12.23|-0.28|
92379798|NCT02486718|184662785|SUPERIORITY||Difference in event-free rates|6.65|||||TWO_SIDED|95.0|-0.06|13.36||||||||13.36|-0.06|
92379799|NCT02486718|184662786|SUPERIORITY||Difference in event-free rates|10.67|||||TWO_SIDED|95.0|1.56|19.79||||||||19.79|1.56|
92379800|NCT02486718|184662787|SUPERIORITY||Difference in event-free rates|5.48|||||TWO_SIDED|95.0|-0.94|11.9||||||||11.90|-0.94|
92412873|NCT02712047|184715468|OTHER||Ratio|0.72|||||TWO_SIDED|95.0|0.61|0.86|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 13, AM|||0.86|0.61|
92412874|NCT02712047|184715468|OTHER||Ratio|0.78|||||TWO_SIDED|95.0|0.66|0.93|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 13, PM|||0.93|0.66|
92412875|NCT02712047|184715468|OTHER||Ratio|0.79|||||TWO_SIDED|95.0|0.66|0.93|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 14, AM|||0.93|0.66|
92280428|NCT04799158|184463576|SUPERIORITY||Percentage difference|28.7|||<|0.0001|TWO_SIDED|95.0|21.84|35.55|||Fisher Exact|||||35.55|21.84|<0.0001
92379801|NCT02486718|184662788|SUPERIORITY||Difference in event-free rates|4.88|||||TWO_SIDED|95.0|-1.94|11.7||||||||11.70|-1.94|
92379802|NCT02486718|184662789|SUPERIORITY||Difference in event-free rates|10.46|||||TWO_SIDED|95.0|1.16|19.76||||||||19.76|1.16|
92379803|NCT02486718|184662790|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.503|||||TWO_SIDED|95.0|0.332|0.761||||||||0.761|0.332|
92379804|NCT04271475|184662795|SUPERIORITY||Least square mean|-16.1|STANDARD_ERROR_OF_MEAN|8.2||0.974|TWO_SIDED|95.0|-32.34|0.16|||MMRM||Least square mean and SE of the mean was estimated by mixed model repeated measurements method.|||0.16|-32.34|0.974
92379805|NCT04088331|184662812|SUPERIORITY||||||<|0.001|||||||Exact binomial test|||"Hypotheses:~H0: p ≤ 0.65 H1: p \> 0.65 where p = the proportion of subjects who are a treatment success.~Hypotheses evaluated using a one-sided exact binomial test.~Power calculation assumed a treatment success rate of 80%. With a one-sided type I error of 0.025 and a type II error of 0.10 (90% power), a sample size of 96 subjects needed to demonstrate the proportion of subjects who are a treatment success exceeds 65%."||||< 0.001
92379806|NCT03298451|184662824|SUPERIORITY|||||||0.0035||||||The adjusted alpha levels (0.0398) for the two-sided superiority test were derived based upon the exact number of OS events for each comparison using the Lan and DeMets approach that approximates the O'Brien Fleming spending function.|Log Rank|||The analysis was performed using stratified log-rank test adjusting for treatment, etiology of liver disease (HBV versus HCV versus others), ECOG (0 versus 1), and macro-vascular invasion (yes versus no). The values of the stratification factors were obtained from IVRS.||||0.0035
92379807|NCT03298451|184662824|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.66|0.92|||Regression, Cox|||The analysis was performed using a Cox proportional hazards model adjusting for treatment, etiology of liver disease (HBV versus HCV versus others), ECOG (0 versus 1), and macro-vascular invasion (yes versus no). Values of the variables used for adjustment were obtained from IVRS.||0.92|0.66|
92379808|NCT03298451|184662825|NON_INFERIORITY|Non-interiority for the comparison of arm Durva 1500 mg vs Sora 400 mg is declared if the upper limit of the two-sided alpha adjusted CI for HR is less than the NI margin of 1.08.|Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.67|0.73|1.03|||Regression, Cox||The 95.67% confidence interval were derived based upon the exact number of OS events for each comparison using the Lan and DeMets approach that approximates the O'Brien Fleming spending function.|The analysis was performed using a Cox proportional hazards model adjusting for treatment, etiology of liver disease (HBV versus HCV versus others), ECOG (0 versus 1), and macro-vascular invasion (yes versus no). Values of the variables used for adjustment were obtained from IVRS.||1.03|0.73|
92412876|NCT02712047|184715468|OTHER||Ratio|0.67|||||TWO_SIDED|95.0|0.56|0.79|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 14, PM|||0.79|0.56|
92412877|NCT02712047|184715468|OTHER||Ratio|0.79|||||TWO_SIDED|95.0|0.66|0.93|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 15, AM|||0.93|0.66|
92379809|NCT03298451|184662825|SUPERIORITY|Superiority was tested sequentially per protocol as non-inferiority was satisfied.||||||0.0674||||||The adjusted alpha levels (0.0433) for the two-sided superiority test were derived based upon the exact number of OS events for each comparison using the Lan and DeMets approach that approximates the O'Brien Fleming spending function.|Log Rank|||The analysis was performed using stratified log-rank test adjusting for treatment, etiology of liver disease (HBV versus HCV versus others), ECOG (0 versus 1), and macro-vascular invasion (yes versus no). The values of the stratification factors were obtained from IVRS.||||0.0674
92379810|NCT04908280|184662842|SUPERIORITY|||||||0.0308|||||||ANOVA|||||||0.0308
92379811|NCT01299571|184662856|SUPERIORITY_OR_OTHER||Percentage of participants|3.8||||||95.0|3.2|4.4|||||The estimated value represents the percentage of participants with adverse events.|||4.4|3.2|
92379812|NCT00357656|184662866|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority by the 200% margin of non-inferiority was demonstrated if the upper confidence limit of a 95% 2-sided confidence interval for the ratio of means did not exceed 200%.|Mean ratio CI/BI|0.924||||0.001|TWO_SIDED|95.0|0.816|1.046||one-sided p-value against the null hypothesis of ration \>=200%|Hypothesis test|||The main analysis used a point estimate and a two-sided 95% confidence interval for ratio of the primary outcome measure of CI over BI combined over the three strata: stratum A: unilateral knee replacement, stratum B: hip surgery, stratum C: shoulder/elbow/ankle/knee (except knee replacement) surgery.||1.046|0.816|0.001
92379813|NCT05926544|184662882|SUPERIORITY||Risk Ratio (RR)|0.46|||||TWO_SIDED|95.0|0.18|1.16|||||The Standard implementation arm was the reference group.|||1.16|0.18|
92379814|NCT03500172|184662898|SUPERIORITY|||||||0.455||||||Threshold for significance: 0.05|Two sample test of proportions|||||||0.455
92379815|NCT03500172|184662899|SUPERIORITY|||||||0.962||||||Statistical significance threshold: 0.05|Two sample test of proportions|||||||0.962
92379816|NCT03500172|184662900|SUPERIORITY||Hazard Ratio (HR)|0.78|||<|0.05|TWO_SIDED|95.0|0.61|0.99||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU for steady partner, living together vs. single.||0.99|0.61|<0.05
92379817|NCT03500172|184662900|SUPERIORITY||Hazard Ratio (HR)|1.6|||<|0.05|TWO_SIDED|95.0|1.02|2.51||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU for 5-9 new clients in the past month vs. 0 clients in the past month.||2.51|1.02|<0.05
92379818|NCT03500172|184662900|SUPERIORITY||Hazard Ratio (HR)|1.31|||<|0.05|TWO_SIDED|95.0|1.09|1.57||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU for use of marijuana in the past 30 days vs. no marijuana use in the past 30 days||1.57|1.09|<0.05
92379819|NCT03500172|184662900|SUPERIORITY||Hazard Ratio (HR)|1.24|||<|0.05|TWO_SIDED|95.0|1.01|1.52||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU among those experiencing physical violence in the past 6 months vs. no experience of physical violence in the past 6 months.||1.52|1.01|<0.05
92379820|NCT03500172|184662900|SUPERIORITY||Hazard Ratio (HR)|1.62|||<|0.05|TWO_SIDED|95.0|1.31|2.0||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU among those who have experienced sexual violence in the past 6 months vs. those who have not||2.00|1.31|<0.05
92379821|NCT03500172|184662900|SUPERIORITY||Hazard Ratio (HR)|2.33|||<|0.05|TWO_SIDED|95.0|1.65|3.29||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU among those with viral loads from 50-1000 copies/mL at baseline vs. \<50 copies/mL.||3.29|1.65|<0.05
92412878|NCT02712047|184715468|OTHER||Ratio|0.79|||||TWO_SIDED|95.0|0.66|0.94|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 15, PM|||0.94|0.66|
92231612|NCT01431287|184365501|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.227|STANDARD_ERROR_OF_MEAN|0.137||0.0966|TWO_SIDED|95.0|-0.041|0.495||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.495|-0.041|0.0966
92379822|NCT03500172|184662900|SUPERIORITY||Hazard Ratio (HR)|2.47|||<|0.05|TWO_SIDED|95.0|1.82|3.36||Threshold for significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU among those with viral load greater than 1000 copies/mL vs. those with viral load less than 50 copies/mL.||3.36|1.82|<0.05
92379823|NCT03500172|184662901|SUPERIORITY|||||||0.756||||||Threshold of significance: 0.05|Two sample test of proportions|||||||0.756
92412879|NCT02712047|184715468|OTHER||Ratio|0.74|||||TWO_SIDED|95.0|0.62|0.87|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 16, AM|||0.87|0.62|
92412880|NCT02712047|184715468|OTHER||Ratio|0.73|||||TWO_SIDED|95.0|0.61|0.86|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 16, PM|||0.86|0.61|
92379824|NCT03500172|184662902|SUPERIORITY|||||||0.295||||||Threshold of statistical significance: 0.05|Two sample test of proportions|||||||0.295
92379825|NCT03500172|184662903|SUPERIORITY|||||||0.149||||||Threshold for statistical significance: 0.05|Two sample test of proportions|||||||0.149
92379826|NCT03500172|184662904|SUPERIORITY|||||||0.301||||||Threshold of significance: 0.05|Two sample test of proportions|||||||0.301
92379827|NCT03500172|184662907|SUPERIORITY|||||||0.212||||||Threshold of statistical significance: 0.05|Chi-squared|||||||0.212
92379828|NCT03824158|184662945|SUPERIORITY|||||||0.0014|||||||Mixed Models Analysis|||||||0.0014
92379829|NCT03824158|184662946|SUPERIORITY|||||||0.76|||||||Regression, Logistic|||||||0.76
92379830|NCT03824158|184662947|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||||||0.13
92379831|NCT03824158|184662948|SUPERIORITY|||||||0.008|||||||Mixed Models Analysis|||||||0.008
92379832|NCT03824158|184662949|SUPERIORITY|||||||0.002|||||||Chi-squared|||Advance directive or living will||||0.002
92379833|NCT03824158|184662949|SUPERIORITY|||||||0.02|||||||Fisher Exact|||POLST||||0.02
92379834|NCT03824158|184662949|SUPERIORITY|||||||0.78|||||||Chi-squared|||Code Status||||0.78
92379835|NCT03824158|184662949|SUPERIORITY|||||||0.61|||||||Chi-squared|||Goals of Care discussion||||0.61
92379836|NCT03824158|184662950|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||||||0.17
92379837|NCT03824158|184662951|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
92412881|NCT02712047|184715468|OTHER||Ratio|0.77|||||TWO_SIDED|95.0|0.65|0.91|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 17, AM|||0.91|0.65|
92412882|NCT02712047|184715468|OTHER||Ratio|0.81|||||TWO_SIDED|95.0|0.65|1.01|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 17, PM|||1.01|0.65|
92231613|NCT01431287|184365501|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.223|STANDARD_ERROR_OF_MEAN|0.137||0.1029|TWO_SIDED|95.0|-0.045|0.492||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.492|-0.045|0.1029
92379838|NCT03824158|184662952|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.01
92379839|NCT03824158|184662953|SUPERIORITY|||||||0.83|||||||Fisher Exact|||||||0.83
92379840|NCT03824158|184662954|SUPERIORITY|||||||0.32||||||Total Score p-value|Wilcoxon (Mann-Whitney)|||||||0.32
92379841|NCT03824158|184662955|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||IES-R Total Score p-value||||0.01
92379842|NCT03824158|184662956|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
92379843|NCT03824158|184662957|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
92379844|NCT03824158|184662958|SUPERIORITY|||||||0.07|||||||Chi-squared|||||||0.07
92379845|NCT03824158|184662959|SUPERIORITY|||||||0.4|||||||Chi-squared|||||||0.4
92379846|NCT03824158|184662960|SUPERIORITY|||||||0.19|||||||Chi-squared|||||||0.19
92379847|NCT03824158|184662961|SUPERIORITY|||||||0.38|||||||Chi-squared|||||||0.38
92379848|NCT03824158|184662962|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
92379849|NCT03824158|184662963|SUPERIORITY|||||||0.2|||||||Chi-squared|||||||0.20
92379850|NCT03824158|184662964|SUPERIORITY|||||||0.28|||||||Chi-squared|||||||0.28
92379851|NCT04865770|184662972|OTHER||Treatment ratio|0.98||||0.1333|TWO_SIDED|95.0|0.96|1.01|||ANCOVA|||Bilateral cortex: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate, on log scale.||1.01|0.96|0.1333
92379852|NCT04865770|184662972|OTHER||Treatment ratio|0.99||||0.2487|TWO_SIDED|95.0|0.96|1.01|||ANCOVA|||Right cortex: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate, on log scale.||1.01|0.96|0.2487
92379853|NCT04865770|184662972|OTHER||Treatment ratio|0.97||||0.0907|TWO_SIDED|95.0|0.94|1.0|||ANCOVA|||Left cortex: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate, on log scale.||1.00|0.94|0.0907
92379854|NCT04865770|184662973|OTHER||Treatment ratio|0.99||||0.5619|TWO_SIDED|95.0|0.94|1.03|||ANCOVA|||Bilateral medulla: The responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.03|0.94|0.5619
92379855|NCT04865770|184662973|OTHER||Treatment ratio|0.97||||0.2774|TWO_SIDED|95.0|0.93|1.02|||ANCOVA|||Right medulla: The responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.02|0.93|0.2774
92379856|NCT04865770|184662973|OTHER||Treatment ratio|0.99||||0.7924|TWO_SIDED|95.0|0.94|1.04|||ANCOVA|||Left medulla: The responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.04|0.94|0.7924
92379857|NCT04865770|184662974|OTHER||Treatment ratio|1.1||||0.0958|TWO_SIDED|95.0|0.98|1.24|||ANCOVA|||Bilateral kidney: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.24|0.98|0.0958
92379858|NCT04865770|184662974|OTHER||Treatment ratio|1.17||||0.0145|TWO_SIDED|95.0|1.03|1.33|||ANCOVA|||Right kidney: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.33|1.03|0.0145
92379859|NCT04865770|184662974|OTHER||Treatment ratio|1.06||||0.3311|TWO_SIDED|95.0|0.94|1.21|||ANCOVA|||Left kidney: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.21|0.94|0.3311
92379860|NCT04865770|184662975|OTHER||Treatment ratio|1.0||||0.8651|TWO_SIDED|95.0|0.98|1.02|||ANCOVA|||Bilateral cortex: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.02|0.98|0.8651
92379861|NCT04865770|184662975|OTHER||Treatment ratio|1.0||||0.724|TWO_SIDED|95.0|0.98|1.02|||ANCOVA|||Right cortex: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.02|0.98|0.7240
92379862|NCT04865770|184662975|OTHER||Treatment ratio|1.0||||0.7195|TWO_SIDED|95.0|0.98|1.02|||ANCOVA|||Left cortex: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.02|0.98|0.7195
92379863|NCT04865770|184662976|OTHER||Treatment ratio|1.0||||0.9335|TWO_SIDED|95.0|0.98|1.02|||ANCOVA|||Bilateral medulla: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.02|0.98|0.9335
92379864|NCT04865770|184662976|OTHER||Treatment ratio|1.0||||0.6517|TWO_SIDED|95.0|0.98|1.01|||ANCOVA|||Right medulla: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.01|0.98|0.6517
92412883|NCT02712047|184715468|OTHER||Ratio|0.77|||||TWO_SIDED|95.0|0.61|0.96|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 18, AM|||0.96|0.61|
92412884|NCT02712047|184715468|OTHER||Ratio|0.77|||||TWO_SIDED|95.0|0.59|1.0|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 18, PM|||1.00|0.59|
92412885|NCT02712047|184715468|OTHER||Ratio|0.81|||||TWO_SIDED|95.0|0.63|1.05|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 19, AM|||1.05|0.63|
92412886|NCT02712047|184715468|OTHER||Ratio|0.72|||||TWO_SIDED|95.0|0.52|1.0|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 19, PM|||1.00|0.52|
92280429|NCT04799158|184463576|SUPERIORITY||Percentage difference|33.3|||<|0.0001|TWO_SIDED|95.0|26.28|40.23|||Fisher Exact|||||40.23|26.28|<0.0001
92412887|NCT02712047|184715468|OTHER||Ratio|0.78|||||TWO_SIDED|95.0|0.56|1.09|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 20, AM|||1.09|0.56|
92412888|NCT02712047|184715468|OTHER||Ratio|0.78|||||TWO_SIDED|95.0|0.53|1.14|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 20, PM|||1.14|0.53|
92412889|NCT02712047|184715468|OTHER||Ratio|0.85|||||TWO_SIDED|95.0|0.59|1.22|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 21, AM|||1.22|0.59|
92412890|NCT02712047|184715468|OTHER||Ratio|0.75|||||TWO_SIDED|95.0|0.5|1.13|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 21, PM|||1.13|0.50|
92412891|NCT02712047|184715468|OTHER||Ratio|0.83|||||TWO_SIDED|95.0|0.55|1.25|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 22, AM|||1.25|0.55|
92412892|NCT02712047|184715468|OTHER||Ratio|0.77|||||TWO_SIDED|95.0|0.51|1.16|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 22, PM|||1.16|0.51|
92231614|NCT01431287|184365501|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.211|STANDARD_ERROR_OF_MEAN|0.136||0.122|TWO_SIDED|95.0|-0.056|0.478||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.478|-0.056|0.1220
92412893|NCT02712047|184715468|OTHER||Ratio|0.99|||||TWO_SIDED|95.0|0.66|1.49|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 23, AM|||1.49|0.66|
92412894|NCT02712047|184715468|OTHER||Ratio|0.67|||||TWO_SIDED|95.0|0.29|1.51|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 23, PM|||1.51|0.29|
92412895|NCT02712047|184715468|OTHER||Ratio|0.72|||||TWO_SIDED|95.0|0.32|1.64|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 24, AM|||1.64|0.32|
92231615|NCT01431287|184365501|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.438|STANDARD_ERROR_OF_MEAN|0.137||0.0014|TWO_SIDED|95.0|0.17|0.707||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.707|0.170|0.0014
92231616|NCT01431287|184365501|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.196|STANDARD_ERROR_OF_MEAN|0.137||0.1542|TWO_SIDED|95.0|-0.074|0.465||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.465|-0.074|0.1542
92412896|NCT02712047|184715470|OTHER||Mean Difference (Net)|45.86|||||TWO_SIDED|95.0|23.69|68.03|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 1, AM|||68.03|23.69|
92412897|NCT02712047|184715470|OTHER||Mean Difference (Net)|45.37|||||TWO_SIDED|95.0|23.2|67.55|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 1, PM|||67.55|23.20|
92412898|NCT02712047|184715470|OTHER||Mean Difference (Net)|34.03|||||TWO_SIDED|95.0|11.86|56.21|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 2, AM|||56.21|11.86|
92412899|NCT02712047|184715470|OTHER||Mean Difference (Net)|31.56|||||TWO_SIDED|95.0|9.38|53.73|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 2, PM|||53.73|9.38|
92412900|NCT02712047|184715470|OTHER||Mean Difference (Net)|22.86|||||TWO_SIDED|95.0|0.68|45.03|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 3, AM|||45.03|0.68|
92412901|NCT02712047|184715470|OTHER||Mean Difference (Net)|36.94|||||TWO_SIDED|95.0|14.77|59.12|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 3, PM|||59.12|14.77|
92412902|NCT02712047|184715470|OTHER||Mean Difference (Net)|19.33|||||TWO_SIDED|95.0|-3.0|41.66|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 4, AM|||41.66|-3.00|
92412903|NCT02712047|184715470|OTHER||Mean Difference (Net)|20.85|||||TWO_SIDED|95.0|-1.32|43.03|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 4, PM|||43.03|-1.32|
92412904|NCT02712047|184715470|OTHER||Mean Difference (Net)|16.82|||||TWO_SIDED|95.0|-5.47|39.11|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 5, AM|||39.11|-5.47|
92412905|NCT02712047|184715470|OTHER||Mean Difference (Net)|21.86|||||TWO_SIDED|95.0|-0.41|44.14|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 5, PM|||44.14|-0.41|
92412906|NCT02712047|184715470|OTHER||Mean Difference (Net)|13.05|||||TWO_SIDED|95.0|-9.57|35.67|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 6, AM|||35.67|-9.57|
92412907|NCT02712047|184715470|OTHER||Mean Difference (Net)|28.68|||||TWO_SIDED|95.0|5.38|51.98|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 6, PM|||51.98|5.38|
92412908|NCT02712047|184715470|OTHER||Mean Difference (Net)|17.09|||||TWO_SIDED|95.0|-5.08|39.26|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 7, AM|||39.26|-5.08|
92412909|NCT02712047|184715470|OTHER||Mean Difference (Net)|23.61|||||TWO_SIDED|95.0|0.28|46.94|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 7, PM|||46.94|0.28|
92412910|NCT02712047|184715470|OTHER||Mean Difference (Net)|12.87|||||TWO_SIDED|95.0|-9.3|35.05|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 8, AM|||35.05|-9.30|
92412911|NCT02712047|184715470|OTHER||Mean Difference (Net)|7.5|||||TWO_SIDED|95.0|-14.67|29.68|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 8, PM|||29.68|-14.67|
92412912|NCT02712047|184715470|OTHER||Mean Difference (Net)|3.32|||||TWO_SIDED|95.0|-19.11|25.74|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 9, AM|||25.74|-19.11|
92412913|NCT02712047|184715470|OTHER||Mean Difference (Net)|3.83|||||TWO_SIDED|95.0|-18.34|26.0|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 9, PM|||26.00|-18.34|
92412914|NCT02712047|184715470|OTHER||Mean Difference (Net)|11.36|||||TWO_SIDED|95.0|-11.11|33.82|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 10, AM|||33.82|-11.11|
92412915|NCT02712047|184715470|OTHER||Mean Difference (Net)|27.73|||||TWO_SIDED|95.0|5.43|50.03|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 10, PM|||50.03|5.43|
92412916|NCT02712047|184715470|OTHER||Mean Difference (Net)|14.71|||||TWO_SIDED|95.0|-7.57|36.98|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 11, AM|||36.98|-7.57|
92412917|NCT02712047|184715470|OTHER||Mean Difference (Net)|-6.62|||||TWO_SIDED|95.0|-28.8|15.55|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 11, PM|||15.55|-28.80|
92412918|NCT02712047|184715470|OTHER||Mean Difference (Net)|4.36|||||TWO_SIDED|95.0|-18.39|27.11|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 12, AM|||27.11|-18.39|
92379865|NCT04865770|184662976|OTHER||Treatment ratio|1.0||||0.9017|TWO_SIDED|95.0|0.98|1.02|||ANCOVA|||Left medulla: Responses are analysed using an ANCOVA with actual treatment, region and the stratification factors as categorical effects and the baseline value as a covariate.||1.02|0.98|0.9017
92379866|NCT06987201|184662996|OTHER|Test for Difference Between Groups|Mean Difference (Final Values)|-2.65|||<|0.001|TWO_SIDED|95.0|-3.398|-1.902|||t-test, 2 sided|||||-1.902|-3.398|<0.001
92379867|NCT04763824|184662997|OTHER|Fisher Exact tests|||||<|0.05|||||||Chi-squared|Also used Fisher exact tests.||Differences in cancer survivorship performance indicators and surveillance rates by tumor types before and after intervention were assessed using Fisher Exact tests.||||<0.05
92379868|NCT04763824|184662999|OTHER|Fisher exact tests|||||<|0.05|||||||Fisher Exact|||Differences in cancer survivorship performance indicators and surveillance rates by tumor types before and after intervention were assessed using Fisher Exact tests.||||<0.05
92379869|NCT04763824|184663001|OTHER|Fisher exact tests|||||<|0.05|||||||Fisher Exact|||Differences in cancer survivorship performance indicators and surveillance rates by tumor types before and after intervention were assessed using Fisher Exact tests.||||<0.05
92379870|NCT04763824|184663003|OTHER|Fisher exact test|||||<|0.05|||||||Fisher Exact|||Differences in cancer survivorship performance indicators and surveillance rates by tumor types before and after intervention were assessed using Fisher Exact tests.||||<0.05
92379871|NCT04763824|184663005|OTHER|Fisher exact test|||||<|0.05|||||||Fisher Exact|||Differences in cancer survivorship performance indicators and surveillance rates by tumor types before and after intervention were assessed using Fisher Exact tests.||||<0.05
92379872|NCT04763824|184663007|OTHER|Fisher exact test|||||<|0.05|||||||Fisher Exact|||Differences in cancer survivorship performance indicators and surveillance rates by tumor types before and after intervention were assessed using Fisher Exact tests.||||<0.05
92379873|NCT05579249|184663078|SUPERIORITY||Odds Ratio (OR)|3.18|||<|0.0001|TWO_SIDED|95.0|2.12|4.78|||Regression, Linear|||Week 52 responses were analysed using a binary regression model with randomized treatment as factor and baseline body weight as covariate.||4.78|2.12|<0.0001
92379874|NCT05028517|184663087|SUPERIORITY||ANOVA Omnibus F test|0.511||||0.602|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||.602
92379875|NCT05028517|184663087|SUPERIORITY||Cohen's d|-0.22||||0.33|TWO_SIDED|95.0|-0.69|0.23||False discovery rate (FDR) correction for multiple comparisons, p=.334.|Regression, Linear|||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Full information maximum likelihood (FMIL) was used for missing data in MPlus. Baseline and FMF Connect group status were entered into the regression model simultaneously. The dependent variable entered was the measure at the 12-week follow-up to determine treatment effects.||0.23|-0.69|.33
92412919|NCT02712047|184715470|OTHER||Mean Difference (Net)|8.29|||||TWO_SIDED|95.0|-13.99|30.57|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 12, PM|||30.57|-13.99|
92412920|NCT02712047|184715470|OTHER||Mean Difference (Net)|0.64|||||TWO_SIDED|95.0|-21.64|22.92|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 13, AM|||22.92|-21.64|
92412921|NCT02712047|184715470|OTHER||Mean Difference (Net)|-6.88|||||TWO_SIDED|95.0|-29.96|16.19|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 13, PM|||16.19|-29.96|
92280430|NCT04799158|184463576|SUPERIORITY||Percentage difference|42.7|||<|0.0001|TWO_SIDED|95.0|35.92|49.42|||Fisher Exact|||||49.42|35.92|<0.0001
92379876|NCT05028517|184663088|SUPERIORITY||ANOVA Omnibus F test|1.245||||0.294|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline, 6 week, and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||.294
92379877|NCT05028517|184663088|SUPERIORITY|||||||0.524||||||False discovery rate (FDR) correction for multiple comparisons, p=.602|Mixed Models Analysis|F(2) = .652||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Multiple imputation was used for missing data in SPSS. Analyses utilized linear mixed modeling for variables collected at the three timepoints.||||.524
92379878|NCT05028517|184663089|SUPERIORITY||Anova Omnibus F test|2.585||||0.039|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline, 6 week, and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||.039
92379879|NCT05028517|184663089|SUPERIORITY|||||||0.548||||||False discovery rate (FDR) correction for multiple comparisons, p=.893|Mixed Models Analysis|F(2) = .606||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Multiple imputation was used for missing data. Analyses utilized linear mixed modeling for variables collected at the three timepoints.||||.548
92412922|NCT02712047|184715470|OTHER||Mean Difference (Net)|28.45|||||TWO_SIDED|95.0|5.76|51.13|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 14, AM|||51.13|5.76|
92412923|NCT02712047|184715470|OTHER||Mean Difference (Net)|12.31|||||TWO_SIDED|95.0|-10.13|34.74|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 14, PM|||34.74|-10.13|
92412924|NCT02712047|184715470|OTHER||Mean Difference (Net)|4.1|||||TWO_SIDED|95.0|-18.16|26.36|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 15, AM|||26.36|-18.16|
92412925|NCT02712047|184715470|OTHER||Mean Difference (Net)|18.87|||||TWO_SIDED|95.0|-3.89|41.63|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 15, PM|||41.63|-3.89|
92412926|NCT02712047|184715470|OTHER||Mean Difference (Net)|6.35|||||TWO_SIDED|95.0|-16.17|28.88|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 16, AM|||28.88|-16.17|
92412927|NCT02712047|184715470|OTHER||Mean Difference (Net)|19.07|||||TWO_SIDED|95.0|-3.27|41.41|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 16, PM|||41.41|-3.27|
92379880|NCT05028517|184663090|SUPERIORITY||Anova Omnibus F test|2.723||||0.032|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline, 6 week, and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||0.032
92379881|NCT05028517|184663090|SUPERIORITY|||||||0.013||||||False discovery rate (FDR) correction for multiple comparisons, p=.143|Mixed Models Analysis|F(2) = 4.595||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Multiple imputation was used for missing data. Analyses utilized linear mixed modeling for variables collected at the three timepoints.||||.013
92379882|NCT05028517|184663091|SUPERIORITY||Anova Omnibus F test|0.588||||0.672|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline, 6 week, and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||0.672
92379883|NCT05028517|184663091|SUPERIORITY|||||||0.463||||||False discovery rate (FDR) correction for multiple comparisons, p=.893|Mixed Models Analysis|F(2) = .776||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Multiple imputation was used for missing data. Analyses utilized linear mixed modeling for variables collected at the three timepoints.||||.463
92379884|NCT05028517|184663092|SUPERIORITY||Anova Omnibus F test|2.612||||0.038|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline, 6 week, and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||0.038
92379885|NCT05028517|184663092|SUPERIORITY|||||||0.084||||||False discovery rate (FDR) correction for multiple comparisons, p=.462|Mixed Models Analysis|F(2) = 2.544||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Multiple imputation was used for missing data. Analyses utilized linear mixed modeling for variables collected at the three timepoints.||||.084
92379886|NCT05028517|184663093|SUPERIORITY||Anova Omnibus F test|0.196||||0.94|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline, 6 week, and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||.940
92379887|NCT05028517|184663093|SUPERIORITY|||||||0.961||||||False discovery rate (FDR) correction for multiple comparisons, p=.961|Mixed Models Analysis|F(2) = .040||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Multiple imputation was used for missing data. Analyses utilized linear mixed modeling for variables collected at the three timepoints.||||.961
92379888|NCT05028517|184663094|SUPERIORITY||Anova Omnibus F test|0.59||||0.671|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline, 6 week, and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||.671
92379889|NCT05028517|184663094|SUPERIORITY|||||||0.19||||||False discovery rate (FDR) correction for multiple comparisons, p=.523|Mixed Models Analysis|F(2)=1.696||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Multiple imputation was used for missing data. Analyses utilized linear mixed modeling for variables collected at the three timepoints.||||.190
92379890|NCT05028517|184663095|SUPERIORITY||Anova Omnibus F test|0.896||||0.468|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline, 6 week, and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||.468
92379891|NCT05028517|184663095|SUPERIORITY|||||||0.683||||||False discovery rate (FDR) correction for multiple comparisons, p=.817|Mixed Models Analysis|F(2) = .384||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Multiple imputation was used for missing data. Analyses utilized linear mixed modeling for variables collected at the three timepoints.||||.683
92379892|NCT05028517|184663096|SUPERIORITY||Anova Omnibus F test|3.42||||0.01|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline, 6 week, and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||0.01
92379893|NCT05028517|184663096|SUPERIORITY|||||||0.131||||||False discovery rate (FDR) correction for multiple comparisons, p=.480|Mixed Models Analysis|F(2)=2.081||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Multiple imputation was used for missing data. Analyses utilized linear mixed modeling for variables collected at the three timepoints.||||.131
92379894|NCT05028517|184663097|SUPERIORITY||Anova Omnibus F test|1.384||||0.257|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||.257
92379895|NCT05028517|184663097|SUPERIORITY||Cohen's d|0.49||||0.039|TWO_SIDED|95.0|-0.02|0.94||False discovery rate (FDR) correction for multiple comparisons, p=.055|Regression, Linear|||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Full information maximum likelihood (FMIL) was used for missing data in MPlus. Baseline and FMF Connect group status were entered into the regression model simultaneously. The dependent variable entered was the measure at the 12-week follow-up to determine treatment effects.||0.94|-0.02|.039
92379896|NCT05028517|184663098|SUPERIORITY||Anova Omnibus F test|1.686||||0.192|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using repeated measures ANOVA, including baseline and 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||.192
92412928|NCT02712047|184715470|OTHER||Mean Difference (Net)|29.51|||||TWO_SIDED|95.0|6.87|52.15|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 17, AM|||52.15|6.87|
92412929|NCT02712047|184715470|OTHER||Mean Difference (Net)|9.64|||||TWO_SIDED|95.0|-17.91|37.19|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 17, PM|||37.19|-17.91|
92412930|NCT02712047|184715470|OTHER||Mean Difference (Net)|24.77|||||TWO_SIDED|95.0|-4.2|53.73|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 18, AM|||53.73|-4.20|
92412931|NCT02712047|184715470|OTHER||Mean Difference (Net)|47.04|||||TWO_SIDED|95.0|14.63|79.45|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 18, PM|||79.45|14.63|
92412932|NCT02712047|184715470|OTHER||Mean Difference (Net)|20.11|||||TWO_SIDED|95.0|-12.3|52.52|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 19, AM|||52.52|-12.30|
92412933|NCT02712047|184715470|OTHER||Mean Difference (Net)|25.13|||||TWO_SIDED|95.0|-15.02|65.27|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 19, PM|||65.27|-15.02|
92412934|NCT02712047|184715470|OTHER||Mean Difference (Net)|-7.89|||||TWO_SIDED|95.0|-48.04|32.25|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 20, AM|||32.25|-48.04|
92412935|NCT02712047|184715470|OTHER||Mean Difference (Net)|8.51|||||TWO_SIDED|95.0|-37.22|54.25|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 20, PM|||54.25|-37.22|
92412936|NCT02712047|184715470|OTHER||Mean Difference (Net)|15.08|||||TWO_SIDED|95.0|-28.5|58.67|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 21, AM|||58.67|-28.50|
92412937|NCT02712047|184715470|OTHER||Mean Difference (Net)|5.19|||||TWO_SIDED|95.0|-45.35|55.73|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 21, PM|||55.73|-45.35|
92169200|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|2.07|STANDARD_ERROR_OF_MEAN|0.8||0.0098|TWO_SIDED|95.0|0.5|3.65|||ANCOVA|||TSQM Convenience; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||3.65|0.50|0.0098
92169201|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|1.85|STANDARD_ERROR_OF_MEAN|1.1||0.0937|TWO_SIDED|95.0|-0.31|4.01|||ANCOVA|||TSQM Convenience; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||4.01|-0.31|0.0937
92231617|NCT01431287|184365501|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.192|STANDARD_ERROR_OF_MEAN|0.137||0.1626|TWO_SIDED|95.0|-0.077|0.461||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.461|-0.077|0.1626
92231618|NCT01431287|184365501|SUPERIORITY_OR_OTHER||djusted mean difference|0.004|STANDARD_ERROR_OF_MEAN|0.138||0.9765|TWO_SIDED|95.0|-0.265|0.274||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.274|-0.265|0.9765
92280431|NCT04799158|184463577|SUPERIORITY||Percentage difference|30.3|||<|0.0001|TWO_SIDED|95.0|23.41|37.09|||Fisher Exact|||||37.09|23.41|<0.0001
92280432|NCT04799158|184463577|SUPERIORITY||Percentage difference|23.9|||<|0.0001|TWO_SIDED|95.0|16.67|31.05|||Fisher Exact|||||31.05|16.67|<0.0001
92280433|NCT04799158|184463577|SUPERIORITY||Percentage difference|37.7|||<|0.0001|TWO_SIDED|95.0|31.0|44.35|||Fisher Exact|||||44.35|31.00|<0.0001
92412938|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.36|||||TWO_SIDED|95.0|0.26|0.46|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 1, AM|||0.46|0.26|
92412939|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.26|||||TWO_SIDED|95.0|0.16|0.36|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 1, PM|||0.36|0.16|
92412940|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.34|||||TWO_SIDED|95.0|0.24|0.44|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 2, AM|||0.44|0.24|
92412941|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|0.14|0.34|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 2, PM|||0.34|0.14|
92412942|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.26|||||TWO_SIDED|95.0|0.16|0.36|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 3, AM|||0.36|0.16|
92412943|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.18|||||TWO_SIDED|95.0|0.08|0.28|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 3, PM|||0.28|0.08|
92412944|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|0.14|0.34|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 4, AM|||0.34|0.14|
92412945|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.17|||||TWO_SIDED|95.0|0.07|0.27|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 4, PM|||0.27|0.07|
92412946|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.07|||||TWO_SIDED|95.0|-0.03|0.17|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 5, AM|||0.17|-0.03|
92412947|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.06|0.14|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 7, AM|||0.14|-0.06|
92412948|NCT02712047|184715471|OTHER||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.07|0.13|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 21, AM|||0.13|-0.07|
92412949|NCT01330017|184715480|SUPERIORITY_OR_OTHER|||||||0.4912||95.0||||The p-value reflects mean change from baseline vs. placebo from an ANCOVA model with adjustments for baseline reflective score value, investigative site, age, and gender.|ANCOVA|||||||0.4912
92412950|NCT01330017|184715480|SUPERIORITY_OR_OTHER|||||||0.4519||95.0||||The p-value reflects mean change from baseline vs. placebo from an ANCOVA model with adjustments for baseline reflective score value, investigative site, age, and gender.|ANCOVA|||||||0.4519
92412951|NCT01330017|184715480|SUPERIORITY_OR_OTHER|||||||0.2186||95.0||||The p-value reflects mean change from baseline vs. placebo from an ANCOVA model with adjustments for baseline reflective score value, investigative site, age, and gender.|ANCOVA|||||||0.2186
92412952|NCT01330017|184715480|SUPERIORITY_OR_OTHER|||||||0.5983||95.0||||The p-value reflects mean change from baseline vs. placebo from an ANCOVA model with adjustments for baseline reflective score value, investigative site, age, and gender.|ANCOVA|||||||0.5983
92412953|NCT03137069|184715501|SUPERIORITY||Least Squares Mean Difference|-7.02||||0.0559|TWO_SIDED|90.0|-13.01|-1.03|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||-1.03|-13.01|0.0559
92412954|NCT03137069|184715501|SUPERIORITY||Least Squares Mean Difference|-0.51||||0.8892|TWO_SIDED|90.0|-6.6|5.58|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||5.58|-6.60|0.8892
92412955|NCT03137069|184715501|SUPERIORITY||Least Squares Mean Difference|-6.43||||0.0717|TWO_SIDED|90.0|-12.29|-0.57|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||-0.57|-12.29|0.0717
92412956|NCT03137069|184715501|SUPERIORITY||Least Squares Mean Difference|-9.53||||0.0097|TWO_SIDED|90.0|-15.5|-3.55|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||-3.55|-15.50|0.0097
92379897|NCT05028517|184663098|SUPERIORITY||Cohen's d|0.47||||0.039|TWO_SIDED|95.0|0.02|0.93||False discovery rate (FDR) correction for multiple comparisons, p=.055|Regression, Linear|||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Full information maximum likelihood (FMIL) was used for missing data in MPlus. Baseline and FMF Connect group status were entered into the regression model simultaneously. The dependent variable entered was the measure at the 12-week follow-up to determine treatment effects.||0.93|0.02|.039
92412957|NCT03137069|184715502|SUPERIORITY|||||||0.1087|||||||Cochran-Mantel-Haenszel|Stratified by region||||||0.1087
92412958|NCT03137069|184715502|SUPERIORITY|||||||0.3418|||||||Cochran-Mantel-Haenszel|Stratified by region||||||0.3418
92412959|NCT03137069|184715502|SUPERIORITY|||||||0.0459|||||||Cochran-Mantel-Haenszel|Stratified by region||||||0.0459
92412960|NCT03137069|184715502|SUPERIORITY|||||||0.019|||||||Cochran-Mantel-Haenszel|Stratified by region||||||0.0190
92412961|NCT03137069|184715503|SUPERIORITY||Least Squares Mean Difference|-12.88||||0.001|TWO_SIDED|90.0|-18.94|-6.82|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||-6.82|-18.94|0.0010
92379898|NCT05028517|184663099|SUPERIORITY||Anova Omnibus F test|0.651||||0.524|TWO_SIDED||||||ANOVA|||Mean comparisons of 3 separate groups using ANOVA for 12 week data. Participants with missing data were excluded. All participants were retained in their originally assigned group regardless of app usage.||||.524
92412962|NCT03137069|184715503|SUPERIORITY||Least Squares Mean Difference|-2.83||||0.4565|TWO_SIDED|90.0|-9.11|3.46|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||3.46|-9.11|0.4565
92412963|NCT03137069|184715503|SUPERIORITY||Least Squares Mean Difference|-5.03||||0.1711|TWO_SIDED|90.0|-11.1|1.03|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||1.03|-11.10|0.1711
92412964|NCT03137069|184715503|SUPERIORITY||Least Squares Mean Difference|-10.76||||0.005|TWO_SIDED|90.0|-16.97|-4.56|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||-4.56|-16.97|0.0050
92280434|NCT04799158|184463578|SUPERIORITY|||||||0.1771|||||||Wilcoxon rank-sum test|||||||0.1771
92412965|NCT01106092|184715515|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The upper limit (UL) of the standardized asymptotic 95% confidence interval (CI) on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 1\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 1 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.72||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 1) compared to Poliorix™ vaccine co-administered with Zilbrix™/Hib vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 1 antibodies, one month after vaccination.||4.72|-4.78|
92412966|NCT01106092|184715515|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 2\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 1 is ≥ 2.|Difference in seroprotection rate|1.28|||||TWO_SIDED|95.0|-3.53|6.94||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 2) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 1 antibodies, one month after vaccination.||6.94|-3.53|
92412967|NCT01106092|184715515|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 3\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 1 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.72||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 3) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 1 antibodies, one month after vaccination.||4.72|-4.78|
92412968|NCT01106092|184715515|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 1\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 2 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.78||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 1) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 2 antibodies, one month after vaccination.||4.78|-4.78|
92280435|NCT04799158|184463578|SUPERIORITY|||||||0.1551|||||||Wilcoxon rank-sum test|||||||0.1551
92379899|NCT05028517|184663099|SUPERIORITY||Cohen's d|0.46||||0.048|TWO_SIDED|95.0|0.0|0.91||False discovery rate (FDR) correction for multiple comparisons, p=.066|Regression, Linear|||The FMF Connect + Coaching and FMF Connect groups were aggregated for analyses. Analyses were intent-to-treat, including all participants assigned to condition. Full information maximum likelihood (FMIL) was used for missing data in MPlus. The dependent variable entered was the measure at the 12-week follow-up to determine treatment effects.||0.91|0.00|.048
92379900|NCT05028517|184663100|SUPERIORITY||Anova Omnibus F test|1.32||||0.255|TWO_SIDED||||||ANOVA|||||||.255
92379901|NCT00969436|184663116|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for measles 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the two-sided standardised asymptotic 95% CI on the difference in the seroconversion rates between the two groups (Priorix-Tetra Group minus Control Group) was greater than or equal to (≥) -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.52|5.09||||||Non-inferiority of 2 doses of Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-measles seroconversion rates.||5.09|-2.52|
92379902|NCT00969436|184663116|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for mumps 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the two-sided standardised asymptotic 95% CI on the difference in the seroconversion rates between the two groups (Priorix-Tetra Group minus Control Group) was greater than or equal to (≥) -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.52|5.09||||||Non-inferiority of 2 doses of Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-mumps seroconversion rates.||5.09|-2.52|
92379903|NCT00969436|184663116|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for rubella 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the two-sided standardised asymptotic 95% CI on the difference in the seroconversion rates between the two groups (Priorix-Tetra Group minus Control Group) was greater than or equal to (≥) -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.51|5.02||||||Non-inferiority of 2 doses of Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-rubella seroconversion rates.||5.02|-2.51|
92379904|NCT00969436|184663116|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for varicella 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the two-sided standardised asymptotic 95% CI on the difference in the seroconversion rates between the two groups (Priorix-Tetra Group minus Control Group) was greater than or equal to (≥) -10%.|Difference in percentage|4.17|||||TWO_SIDED|95.0|1.37|11.57||||||Non-inferiority of 2 doses of Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-varicella seroconversion rates.||11.57|1.37|
92379905|NCT00969436|184663116|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for measles 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) on the difference in the seroconversion rates between the 2 groups (Priorix/Priorix-Tetra Group minus Control Group) was ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.46|5.09||||||Non-inferiority of Priorix™ vaccine followed by Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-measles seroconversion rates.||5.09|-2.46|
92379906|NCT00969436|184663116|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for mumps 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) on the difference in the seroconversion rates between the 2 groups (Priorix/Priorix-Tetra Group minus Control Group) was ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.48|5.09||||||Non-inferiority of Priorix™ vaccine followed by Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-mumps seroconversion rates.||5.09|-2.48|
92379907|NCT00969436|184663116|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for rubella 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) on the difference in the seroconversion rates between the 2 groups (Priorix/Priorix-Tetra Group minus Control Group) was ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.48|5.02||||||Non-inferiority of Priorix™ vaccine followed by Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-rubella seroconversion rates.||5.02|-2.48|
92379908|NCT00969436|184663116|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for varicella 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) on the difference in the seroconversion rates between the 2 groups (Priorix/Priorix-Tetra Group minus Control Group) was ≥ -10%.|Difference in percentage|2.77|||||TWO_SIDED|95.0|-1.59|10.29||||||Non-inferiority of Priorix™ vaccine followed by Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-varicella seroconversion rates.||10.29|-1.59|
92379909|NCT00351273|184663125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.8||||0.01|TWO_SIDED||||||Fisher Exact|||Difference in the percentages of participants with response between all those who received combination therapy vs. placebo||||0.01
92379910|NCT01672866|184663133|SUPERIORITY||Difference in LSMeans [SIM - Placebo]|-0.2|||||TWO_SIDED|95.0|-1.3|1.0||||||A mixed-effect model for repeated measures (MMRM) with an unstructured variance-covariance matrix for each participant was used to calculate a point estimate and a 95% confidence interval (CI) for the treatment difference between each treatment arm and placebo in least squares mean (LSMean) change from baseline in MQC at Week 96. With MMRM setting, all participants with available data from 3 treatment groups with change in MQC at Week 48 and/or Week 96 contributed to the overall model.||1.0|-1.3|
92446300|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.182||0.5085|TWO_SIDED|95.0|-0.48|0.24|||MMRM|||Loss of Weight, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.48|0.5085
92169202|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|1.48|STANDARD_ERROR_OF_MEAN|1.11||0.1838|TWO_SIDED|95.0|-0.7|3.67|||ANCOVA|||TSQM Convenience; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||3.67|-0.70|0.1838
92280436|NCT04799158|184463578|SUPERIORITY|||||||0.0094|||||||Wilcoxon rank-sum test|||||||0.0094
92280437|NCT04799158|184463579|SUPERIORITY|||||||0.3395|||||||Wilcoxon rank-sum test|||||||0.3395
92280438|NCT04799158|184463579|SUPERIORITY|||||||0.4882|||||||Wilcoxon rank-sum test|||||||0.4882
92231619|NCT01431287|184365502|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.647|STANDARD_ERROR_OF_MEAN|0.142|<|0.0001|TWO_SIDED|95.0|0.37|0.925||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.925|0.370|<0.0001
92379911|NCT01672866|184663133|SUPERIORITY||Difference in LSMeans [SIM - Placebo]|-0.4|||||TWO_SIDED|95.0|-1.5|0.8||||||An MMRM with an unstructured variance-covariance matrix for each participant was used to calculate a point estimate and a 95% CI for the treatment difference between each treatment arm and placebo in LSMean change from baseline in MQC at Week 96. With MMRM setting, all participants with available data from 3 treatment groups with change in MQC at Week 48 and/or Week 96 contributed to the overall model.||0.8|-1.5|
92379912|NCT01672866|184663134|SUPERIORITY|||||||0.73|||||||Stratified log-rank test|||Differences in EFS between a given SIM group and placebo were assessed using the log-rank test stratified by the presence or absence of diabetes at baseline.||||0.73
92379913|NCT01672866|184663134|SUPERIORITY|||||||0.85|||||||Stratified log-rank test|||Differences in EFS between a given SIM group and placebo were assessed using the log-rank test stratified by the presence or absence of diabetes at baseline.||||0.85
92379914|NCT01018095|184663135|NON_INFERIORITY_OR_EQUIVALENCE|Continuous variables were assessed for normality, and tested accordingly. When appropriate, continuous variables were categorized using clinically relevant cut-points. Categorical variables were compared using the Chi-square test. The measure of association at TOC was calculated as a relative risk with 95% confidence interval.|Risk Ratio (RR)|0.5|STANDARD_ERROR_OF_MEAN|0.191||0.045|TWO_SIDED|95.0|0.25|1.0|||Relative risk|The measure of association at TOC and 3 months was calculated as a relative risk with 95% confidence interval.||It was initially estimated that a total of 380 participants (190 per arm) would be required, with 90% power and a significance level of 5%, to establish equivalency between the two treatment arms.31 Enrollment rates were lower than estimated and only 270 participants (135 per arm) were enrolled.||1.00|0.25|.045
92379915|NCT01018095|184663135|NON_INFERIORITY_OR_EQUIVALENCE|It was initially estimated that a total of 380 participants (190 per arm) would be required, with 90% power and a significance level of 5%, to establish equivalency between the two treatment arms.|Risk Ratio (RR)|0.46|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|0.21|0.98||Continuous variables were assessed for normality, and tested accordingly. When appropriate, continuous variables were categorized using clinically relevant cut-points. Categorical variables were compared using the Chi-square test.|Chi-squared|||||0.98|0.21|<0.05
92446301|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.156||0.8274|TWO_SIDED|95.0|-0.28|0.34|||MMRM|||Loss of Weight, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.34|-0.28|0.8274
92446302|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.045||0.3675|TWO_SIDED|95.0|-0.13|0.05|||MMRM|||Insight, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.13|0.3675
92446303|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.045||0.1818|TWO_SIDED|95.0|-0.15|0.03|||MMRM|||Insight, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.15|0.1818
92231620|NCT01431287|184365502|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.322|STANDARD_ERROR_OF_MEAN|0.141||0.0226|TWO_SIDED|95.0|0.045|0.6||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.600|0.045|0.0226
92231621|NCT01431287|184365502|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.371|STANDARD_ERROR_OF_MEAN|0.142||0.0089|TWO_SIDED|95.0|0.093|0.649||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.649|0.093|0.0089
92280439|NCT04799158|184463579|SUPERIORITY|||||||0.0722|||||||Wilcoxon rank-sum test|||||||0.0722
92446304|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.045||0.0826|TWO_SIDED|95.0|-0.17|0.01|||MMRM|||Insight, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.17|0.0826
92446305|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.045||0.6436|TWO_SIDED|95.0|-0.11|0.07|||MMRM|||Insight, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.11|0.6436
92412969|NCT01106092|184715515|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 2\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 2 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.72||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 2) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 2 antibodies, one month after vaccination.||4.72|-4.78|
92169203|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|3.18|STANDARD_ERROR_OF_MEAN|1.05||0.0025|TWO_SIDED|95.0|1.12|5.25|||ANCOVA|||TSQM Global Satisfaction; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||5.25|1.12|0.0025
92379916|NCT01018095|184663136|NON_INFERIORITY_OR_EQUIVALENCE|Continuous variables were assessed for normality, and tested accordingly. When appropriate, continuous variables were categorized using clinically relevant cut-points. Categorical variables were compared using the Chi-square test. The measure of association at 3 months was calculated as a relative risk with 95% confidence interval.|Risk Ratio (RR)|0.46|STANDARD_ERROR_OF_MEAN|0.196|=|0.03|TWO_SIDED|95.0|0.21|0.98|||Relative risk|The measure of association at TOC and 3 months was calculated as a relative risk with 95% confidence interval.||It was initially estimated that a total of 380 participants (190 per arm) would be required, with 90% power and a significance level of 5%, to establish equivalency between the two treatment arms.31 Enrollment rates were lower than estimated and only 270 participants (135 per arm) were enrolled.||0.98|.21|=0.03
92379917|NCT01280695|184663149|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.0||||0.4195|TWO_SIDED|95.0|-34.0|14.0|||Wilcoxon (Mann-Whitney)|||||14.0|-34.0|0.4195
92379918|NCT01280695|184663149|SUPERIORITY_OR_OTHER||Median Difference (Net)|-18.0||||0.0811|TWO_SIDED|95.0|-38.0|4.0|||Wilcoxon (Mann-Whitney)|||||4.0|-38.0|0.0811
92379919|NCT01280695|184663149|SUPERIORITY_OR_OTHER||Median Difference (Net)|-20.0||||0.0639|TWO_SIDED|95.0|-38.0|1.0|||Wilcoxon (Mann-Whitney)|||||1.0|-38.0|0.0639
92379920|NCT01280695|184663149|SUPERIORITY_OR_OTHER||Median Difference (Net)|-32.0||||0.0022|TWO_SIDED|95.0|-50.0|-12.0|||Wilcoxon (Mann-Whitney)|||||-12.0|-50.0|0.0022
92379921|NCT01216683|184663155|SUPERIORITY|||||||0.02||||||one-sided p-value|Cochran-Mantel-Haenszel|||The study was designed to detect a 16% difference in CR rate from 50% in the Bendamustine + Rituximab arms to 66% in the Bendamustine + Rituximab + Bortezomib arm, with 90% power at the one-sided alpha 0.15 level.||||0.02
92379922|NCT01216683|184663156|SUPERIORITY|||||||0.02|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified on Groupe d'Etude des Lymphomes Folliculaires status and Follicular Lymphoma International Prognostic Index||||||0.02
92379923|NCT04327024|184663183|OTHER||Mean Difference (Final Values)|-0.1||||0.862|TWO_SIDED|95.0|-1.28|1.08|||ANCOVA|Model included change from baseline as the dependent variable, treatment as the independent variable and baseline peak VO2 as covariate.||||1.08|-1.28|0.862
92379924|NCT04327024|184663184|OTHER||Mean Difference (Final Values)|0.44||||0.472|TWO_SIDED|95.0|-0.76|1.64|||ANCOVA|Model included change from baseline as the dependent variable, treatment as the independent variable and baseline peak VO2 as covariate.||||1.64|-0.76|0.472
92379925|NCT04327024|184663185|OTHER||Mean Difference (Final Values)|3.15||||0.287|TWO_SIDED|95.0|-2.65|8.94|||Mixed Models Analysis|Model included treatment as the independent variable and visit, visit by treatment, and baseline KCCQ-TSS as covariates.||"H0: Difference in mean change from baseline in KCCQ-TSS (verinurad + allopurinol vs placebo) = 0 Ha: Difference in mean change from baseline in KCCQ-TSS (verinurad + allopurinol vs placebo) ≠ 0~A hierarchical test sequence was used for the confirmatory analysis of the primary and secondary objectives in order to address the issue of multiple testing and control the Type I error rate at an overall two-sided 0.05 level."||8.94|-2.65|0.287
92280440|NCT04799158|184463580|SUPERIORITY||Percentage difference|-3.9||||0.83|TWO_SIDED|95.0|-24.41|16.52|||Fisher Exact|||||16.52|-24.41|0.8300
92379926|NCT04327024|184663186|OTHER||Mean Difference (Final Values)|-0.15||||0.96|TWO_SIDED|95.0|-5.9|5.61|||Mixed Models Analysis|Model included treatment as the independent variable and visit, visit by treatment, and baseline KCCQ-TSS as covariates.||"H0: Difference in mean change from baseline in KCCQ-TSS (verinurad + allopurinol vs allopurinol) = 0 Ha: Difference in mean change from baseline in KCCQ-TSS (verinurad + allopurinol vs allopurinol) ≠ 0~A hierarchical test sequence was used for the confirmatory analysis of the primary and secondary objectives in order to address the issue of multiple testing and control the Type I error rate at an overall two-sided 0.05 level."||5.61|-5.90|0.960
92379927|NCT03968159|184663188|SUPERIORITY||LSM difference|-0.9|STANDARD_ERROR_OF_MEAN|0.82||0.2956|TWO_SIDED|95.0|-2.5|0.8|||Mixed-effects model for repeated measure|||||0.8|-2.5|0.2956
92379928|NCT00443781|184663207|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||McNemar|Exact test was used.||Mcnemar test was used to test the difference between paired PD (provocative discography) and F.A.D. (Functional Anesthetic Discography) proportions.||||0.002
92379929|NCT01533922|184663210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.244|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.191|0.298|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 once daily (QD) minus Placebo|||0.298|0.191|<0.0001
92379930|NCT01533922|184663210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.065|0.172|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg|||0.172|0.065|<0.0001
92379931|NCT01533922|184663210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.061|0.167|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.167|0.061|<0.0001
92379932|NCT01533922|184663210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.164|0.271|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||0.271|0.164|<0.0001
92231622|NCT01431287|184365502|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.332|STANDARD_ERROR_OF_MEAN|0.141||0.0186|TWO_SIDED|95.0|0.056|0.609||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.609|0.056|0.0186
92231623|NCT01431287|184365502|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.046|STANDARD_ERROR_OF_MEAN|0.142||0.7441|TWO_SIDED|95.0|-0.231|0.324||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.324|-0.231|0.7441
92231624|NCT01431287|184365502|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.276|STANDARD_ERROR_OF_MEAN|0.14||0.0492|TWO_SIDED|95.0|0.001|0.551||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.551|0.001|0.0492
92379933|NCT01533922|184663210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.027||0.0008|TWO_SIDED|95.0|0.038|0.145|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||0.145|0.038|0.0008
92379934|NCT01533922|184663210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.027||0.0015|TWO_SIDED|95.0|0.034|0.141|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.141|0.034|0.0015
92379935|NCT01533922|184663211|SUPERIORITY_OR_OTHER||Ratio|1.209|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|1.132|1.292|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 5/5 QD divided by Placebo QD|||1.292|1.132|<0.0001
92412970|NCT01106092|184715515|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 3\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 2 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.72||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 3) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 2 antibodies, one month after vaccination.||4.72|-4.78|
92446306|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.045||0.1827|TWO_SIDED|95.0|-0.15|0.03|||MMRM|||Insight, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.15|0.1827
92231625|NCT01431287|184365502|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.608|STANDARD_ERROR_OF_MEAN|0.141|<|0.0001|TWO_SIDED|95.0|0.332|0.884||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.884|0.332|<0.0001
92231626|NCT01431287|184365502|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.325|STANDARD_ERROR_OF_MEAN|0.143||0.023|TWO_SIDED|95.0|0.045|0.605||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.605|0.045|0.0230
92231627|NCT01431287|184365502|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.039|STANDARD_ERROR_OF_MEAN|0.142||0.7855|TWO_SIDED|95.0|-0.24|0.317||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.317|-0.240|0.7855
92231628|NCT01431287|184365502|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.286|STANDARD_ERROR_OF_MEAN|0.142||0.0442|TWO_SIDED|95.0|0.007|0.564||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.564|0.007|0.0442
92379936|NCT01533922|184663211|SUPERIORITY_OR_OTHER||Ratio|1.002|STANDARD_ERROR_OF_MEAN|0.034||0.9633|TWO_SIDED|95.0|0.937|1.07|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 5/5 QD divided by Olodaterol 5 mcg QD|||1.070|0.937|0.9633
92379937|NCT01533922|184663211|SUPERIORITY_OR_OTHER||Ratio|0.993|STANDARD_ERROR_OF_MEAN|0.033||0.8415|TWO_SIDED|95.0|0.93|1.061|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 5/5 QD divided by Tiotropium 5 mcg QD|||1.061|0.930|0.8415
92278080|NCT02629965|184458210|SUPERIORITY||Mean Difference (Final Values)|9.501|STANDARD_ERROR_OF_MEAN|83.704||0.9098|TWO_SIDED|95.0|-155.692|174.694|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|174.694|-155.692|0.9098
92278081|NCT02629965|184458211|SUPERIORITY||Mean Difference (Final Values)|-0.292|STANDARD_ERROR_OF_MEAN|0.469||0.5338|TWO_SIDED|95.0|-1.217|0.633|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.633|-1.217|0.5338
92278082|NCT02629965|184458212|SUPERIORITY||Mean Difference (Final Values)|0.939|STANDARD_ERROR_OF_MEAN|1.007||0.3524|TWO_SIDED|95.0|-1.048|2.926|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|2.926|-1.048|0.3524
92278083|NCT02629965|184458213|SUPERIORITY||Mean Difference (Final Values)|2.257|STANDARD_ERROR_OF_MEAN|2.647||0.3949|TWO_SIDED|95.0|-2.966|7.481|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|7.481|-2.966|0.3949
92278084|NCT02629965|184458214|SUPERIORITY||Mean Difference (Final Values)|2.42|STANDARD_ERROR_OF_MEAN|3.543||0.4955|TWO_SIDED|95.0|-4.572|9.411|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|9.411|-4.572|0.4955
92278085|NCT02629965|184458215|SUPERIORITY||Mean Difference (Final Values)|0.134|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.091|0.176|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.176|0.091|<0.0001
92280441|NCT04799158|184463580|SUPERIORITY||Percentage difference|1.4|||>|0.9999|TWO_SIDED|95.0|-19.28|22.16|||Fisher Exact|||||22.16|-19.28|>0.9999
92280442|NCT04799158|184463580|SUPERIORITY||Percentage difference|2.3|||>|0.9999|TWO_SIDED|95.0|-18.22|22.88|||Fisher Exact|||||22.88|-18.22|>0.9999
92280443|NCT04799158|184463581|SUPERIORITY|||||||0.4684|||||||Wilcoxon rank-sum test|||||||0.4684
92446307|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.045||0.9859|TWO_SIDED|95.0|-0.09|0.09|||MMRM|||Insight, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.09|0.9859
92169204|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|3.55|STANDARD_ERROR_OF_MEAN|1.04||0.0007|TWO_SIDED|95.0|1.51|5.6|||ANCOVA|||TSQM Global Satisfaction; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||5.60|1.51|0.0007
92231629|NCT00371267|184365506|SUPERIORITY_OR_OTHER||||||<|0.27|TWO_SIDED||||||Mixed Models Analysis|||||||<0.27
92231630|NCT00371267|184365507|SUPERIORITY_OR_OTHER||||||<|0.35|TWO_SIDED||||||Mixed Models Analysis|||||||<0.35
92231631|NCT00371267|184365508|SUPERIORITY_OR_OTHER||||||<|0.74|TWO_SIDED||||||Mixed Models Analysis|||||||<0.74
92231632|NCT00371267|184365509|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Mixed Models Analysis|||||||0.39
92231633|NCT00371267|184365510|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Mixed Models Analysis|||||||0.67
92231634|NCT01575912|184365547|OTHER|||||||0.121||||||using Mann Whitney test|Wilcoxon (Mann-Whitney)|||||||0.121
92231635|NCT01056107|184365553|SUPERIORITY_OR_OTHER|||||||0.0075||95.0|||||Dunnett's test|||||||0.0075
92231636|NCT01056107|184365553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Dunnett's test|||||||<0.001
92231637|NCT03783195|184365561|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.59||0.4|TWO_SIDED|95.0|-1.77|0.76||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in liver fat as compared to high GRS group.||0.76|-1.77|0.40
92231638|NCT03783195|184365562|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.38|STANDARD_ERROR_OF_MEAN|0.93||0.71|TWO_SIDED|95.0|-3.33|2.57||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in liver fat as compared to high GRS group.||2.57|-3.33|0.71
92231639|NCT03783195|184365563|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-21.02|STANDARD_ERROR_OF_MEAN|4.8||0.0006|TWO_SIDED|95.0|-31.33|-10.72||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in VLDL-TG as compared to high GRS group.||-10.72|-31.33|0.0006
92231640|NCT03783195|184365564|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Median Difference (Net)|0.094|STANDARD_ERROR_OF_MEAN|0.17||0.59|TWO_SIDED|95.0|-0.27|0.46|||t-test, 2 sided|||This analysis focuses on the changes in the area under the curve (AUC) for measurements at different time points between the two GRS groups.||0.46|-0.27|0.59
92379938|NCT01533922|184663211|SUPERIORITY_OR_OTHER||Ratio|1.265|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001|TWO_SIDED|95.0|1.184|1.351|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 2.5/5 QD divided by Placebo QD|||1.351|1.184|<0.0001
92379939|NCT01533922|184663211|SUPERIORITY_OR_OTHER||Ratio|1.047|STANDARD_ERROR_OF_MEAN|0.035||0.1717|TWO_SIDED|95.0|0.98|1.119|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 2.5/5 QD divided by Olodaterol 5 mcg QD|||1.119|0.980|0.1717
92379940|NCT01533922|184663211|SUPERIORITY_OR_OTHER||Ratio|1.039|STANDARD_ERROR_OF_MEAN|0.035||0.261|TWO_SIDED|95.0|0.972|1.11|||Mixed Models Analysis||Ratio calculated asTiotropium + olodaterol 2.5/5 QD divided by Tiotropium 5 mcg QD|||1.110|0.972|0.2610
92379941|NCT01533922|184663212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.001||0.0004|TWO_SIDED|95.0|-0.004|-0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Placebo QD|||-0.001|-0.004|0.0004
92412971|NCT01106092|184715515|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 1\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 3 is ≥ 2.|Difference in seroprotection rate|1.28|||||TWO_SIDED|95.0|-3.53|6.94||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 1) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 3 antibodies, one month after vaccination.||6.94|-3.53|
92446308|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.045||0.6672|TWO_SIDED|95.0|-0.07|0.11|||MMRM|||Insight, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.07|0.6672
92169205|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|1.94|STANDARD_ERROR_OF_MEAN|1.31||0.1373|TWO_SIDED|95.0|-0.62|4.51|||ANCOVA|||TSQM Global Satisfaction; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||4.51|-0.62|0.1373
92231641|NCT03783195|184365565|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-21.06|STANDARD_ERROR_OF_MEAN|7.77||0.017|TWO_SIDED|95.0|-37.75|-4.38||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum triglycerides as compared to high GRS group.||-4.38|-37.75|0.017
92231642|NCT03783195|184365566|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.022|STANDARD_ERROR_OF_MEAN|0.16||0.89|TWO_SIDED|95.0|-0.37|0.33|||t-test, 2 sided|||This analysis focuses on the changes in the area under the curve (AUC) for measurements baseline and 3hr timepoints at week 0 and week 3 between the two GRS groups.||0.33|-0.37|0.89
92231643|NCT03783195|184365567|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-4.36|STANDARD_ERROR_OF_MEAN|4.62||0.36|TWO_SIDED|95.0|-14.28|5.55||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have less increase in HDL cholesterol as compared to high GRS group.||5.55|-14.28|0.36
92379942|NCT01533922|184663212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.8291|TWO_SIDED|95.0|-0.001|0.002|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg QD|||0.002|-0.001|0.8291
92379943|NCT01533922|184663212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.857|TWO_SIDED|95.0|-0.002|0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.001|-0.002|0.8570
92379944|NCT01533922|184663212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.001|<|0.0001|TWO_SIDED|95.0|-0.005|-0.002|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||-0.002|-0.005|<0.0001
92379945|NCT01533922|184663212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.7294|TWO_SIDED|95.0|-0.002|0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||0.001|-0.002|0.7294
92379946|NCT01533922|184663212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.001||0.4567|TWO_SIDED|95.0|-0.002|0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.001|-0.002|0.4567
92379947|NCT01533922|184663213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.323|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.293|0.352|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Placebo QD|||0.352|0.293|<0.0001
92379948|NCT01533922|184663213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.101|0.16|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg QD|||0.160|0.101|<0.0001
92379949|NCT01533922|184663213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.084|0.143|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.143|0.084|<0.0001
92379950|NCT01533922|184663213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.286|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.256|0.315|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||0.315|0.256|<0.0001
92379951|NCT01533922|184663213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.063|0.123|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||0.123|0.063|<0.0001
92379952|NCT01533922|184663213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.047|0.106|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.106|0.047|<0.0001
92379953|NCT01302054|184663255|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.37|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-2.63|-2.02||Statistical testing: one-sided, at alpha = 0.025.|t-test, 1 sided|||||-2.02|-2.63|<0.0001
92379954|NCT01302054|184663256|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0079|TWO_SIDED|95.0|-0.87|-0.13||Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used. Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Multiple hypothesis testing was carried out in a hierarchical sequentially rejective manner. Statistical testing between fesoterodine and placebo (Analysis of covariance \[ANCOVA\]) was carried out only if the change from baseline at Week 12 in UUI episodes for fesoterodine group was found statistically significant (paired t-test).||-0.13|-0.87|0.0079
92379955|NCT01302054|184663257|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.0931|TWO_SIDED|95.0|-0.86|0.07||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||0.07|-0.86|0.0931
92379956|NCT01302054|184663258|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.34||0.0438|TWO_SIDED|95.0|-1.37|-0.02||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||-0.02|-1.37|0.0438
92379957|NCT01302054|184663259|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Change at Week 12: the p-value was obtained from a Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country.|Cochran-Mantel-Haenszel|||||||<0.0001
92379958|NCT01302054|184663260|SUPERIORITY_OR_OTHER|||||||0.0095|TWO_SIDED|||||Change at Week 12: the p-value was obtained from a Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country.|Cochran-Mantel-Haenszel|||||||0.0095
92379959|NCT01302054|184663261|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.34|STANDARD_ERROR_OF_MEAN|1.91||0.0001|TWO_SIDED|95.0|-11.1|-3.58||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||-3.58|-11.10|0.0001
92379960|NCT01302054|184663262|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|9.01|STANDARD_ERROR_OF_MEAN|1.98|<|0.0001|TWO_SIDED|95.0|5.12|12.91||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Concern Subscale - Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||12.91|5.12|<0.0001
92379961|NCT01302054|184663262|SUPERIORITY_OR_OTHER||LS Mean Difference|7.75|STANDARD_ERROR_OF_MEAN|1.97|<|0.0001|TWO_SIDED|95.0|3.87|11.62||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Coping Subscale - Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||11.62|3.87|<0.0001
92379962|NCT01302054|184663262|SUPERIORITY_OR_OTHER||LS Mean Difference|6.52|STANDARD_ERROR_OF_MEAN|2.0||0.0012|TWO_SIDED|95.0|2.6|10.45||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Sleep Subscale - Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||10.45|2.60|0.0012
92379963|NCT01302054|184663262|SUPERIORITY_OR_OTHER||LS Mean Difference|4.13|STANDARD_ERROR_OF_MEAN|1.64||0.0123|TWO_SIDED|95.0|0.9|7.36||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Social Interaction Subscale - Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||7.36|0.90|0.0123
92412972|NCT01106092|184715515|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 2\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 3 is ≥ 2.|Difference in seroprotection rate|1.28|||||TWO_SIDED|95.0|-3.53|6.94||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 2) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 3 antibodies, one month after vaccination.||6.94|-3.53|
92446309|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.046||0.2031|TWO_SIDED|95.0|-0.03|0.15|||MMRM|||Insight, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.03|0.2031
92169206|NCT02528188|184227151|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|1.32||0.996|TWO_SIDED|95.0|-2.59|2.6|||ANCOVA|||TSQM Global Satisfaction; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||2.60|-2.59|0.9960
92169207|NCT02528188|184227153|SUPERIORITY|||||||0.0823|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0823
92169208|NCT02528188|184227153|SUPERIORITY|||||||0.0049|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0049
92379964|NCT01302054|184663262|SUPERIORITY_OR_OTHER||LS Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|1.77|<|0.0001|TWO_SIDED|95.0|3.63|10.57||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Total HRQL - Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||10.57|3.63|<0.0001
92379965|NCT01302054|184663263|SUPERIORITY_OR_OTHER|||||||0.0023|TWO_SIDED|||||The p-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test and stratified by country.|Cochran-Mantel-Haenszel|||||||0.0023
92379966|NCT01302054|184663264|SUPERIORITY_OR_OTHER|||||||0.0027|TWO_SIDED|||||The p-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test and stratified by country.|Cochran-Mantel-Haenszel|||||||0.0027
92169209|NCT02528188|184227153|SUPERIORITY|||||||0.0718|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0718
92231644|NCT03783195|184365568|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|0.067|STANDARD_ERROR_OF_MEAN|0.16||0.67|TWO_SIDED|95.0|-0.27|0.4|||t-test, 2 sided|||||0.40|-0.27|0.67
92379967|NCT01302054|184663265|SUPERIORITY_OR_OTHER|||||||0.0427|TWO_SIDED|||||Treatment difference at Week 4: p-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test and stratified by country.|Cochran-Mantel-Haenszel|||||||0.0427
92379968|NCT01302054|184663265|SUPERIORITY_OR_OTHER|||||||0.1461|TWO_SIDED|||||Treatment difference at Week 12: p-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test and stratified by country.|Cochran-Mantel-Haenszel|||||||0.1461
92379969|NCT02639338|184663266|SUPERIORITY|The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 83%.|||||<|0.001||||||The reported p-value was calculated. The statistical test was performed in SOF/VEL for 12 weeks at 0.05 significance level if and only if the statistical test performed in SOF/VEL/VOX for 8 weeks was significant at 0.05 significance level.|Binomial Test|||||||<0.001
92379970|NCT02639338|184663266|SUPERIORITY|The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 83%.|||||<|0.001||||||The reported p-value was calculated. The statistical test was performed in SOF/VEL for 12 weeks at 0.05 significance level if and only if the statistical test performed in SOF/VEL/VOX for 8 weeks was significant at 0.05 significance level.|2-sided exact 1-sample binomial test|||||||<0.001
92379971|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||||90.0|-3.8|1.59|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||1.59|-3.80|
92379972|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93||||||90.0|-3.55|-0.31|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.31|-3.55|
92379973|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.99||||||90.0|-7.69|-2.3|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-2.30|-7.69|
92379974|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.96||||||90.0|-4.58|-1.34|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.34|-4.58|
92379975|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.88||||||90.0|-7.58|-2.19|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-2.19|-7.58|
92280444|NCT04799158|184463581|SUPERIORITY|||||||0.656|||||||Wilcoxon rank-sum test|||||||0.6560
92280445|NCT04799158|184463581|SUPERIORITY|||||||0.6324|||||||Wilcoxon rank-sum test|||||||0.6324
92379976|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.82||||||90.0|-5.44|-2.2|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-2.20|-5.44|
92379977|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||||90.0|-4.74|0.64|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.64|-4.74|
92379978|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.76||||||90.0|-3.38|-0.15|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.15|-3.38|
92379979|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08||||||90.0|-4.77|0.62|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.62|-4.77|
92379980|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88||||||90.0|-2.49|0.74|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.74|-2.49|
92379981|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||||90.0|-4.99|0.39|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.39|-4.99|
92379982|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||||90.0|-2.47|0.77|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.77|-2.47|
92379983|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.22||||||90.0|-6.91|-1.52|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.52|-6.91|
92379984|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.51||||||90.0|-4.13|-0.9|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.90|-4.13|
92412973|NCT01106092|184715515|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 3\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 3 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.72||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 3) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 3 antibodies, one month after vaccination.||4.72|-4.78|
92412974|NCT02434471|184715539|OTHER||Mean Difference (Final Values)|0.6|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92412975|NCT02434471|184715540|OTHER||Mean Difference (Final Values)|0.1||||0.83|TWO_SIDED||||||Mixed Models Analysis|||||||0.83
92412976|NCT01473368|184715542|SUPERIORITY_OR_OTHER|||||||0.026|||||||ANOVA|||||||0.026
92412977|NCT01473368|184715546|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92412978|NCT04839562|184715550|SUPERIORITY||Mean Difference (Final Values)|-4.3|||=|0.0106|TWO_SIDED|95.0|-7.7|-1.0|||t-test, 2 sided|||||-1|-7.7|=.0106
92412979|NCT04839562|184715551|SUPERIORITY||||||=|0.002|||||||Fisher Exact|||||||=.002
92412980|NCT04839562|184715552|SUPERIORITY||||||=|0.0173|||||||Fisher Exact|||||||=.0173
92412981|NCT04839562|184715553|SUPERIORITY||||||=|0.1144|||||||Fisher Exact|||||||=.1144
92412982|NCT04839562|184715554|SUPERIORITY||||||=|0.0348|||||||Fisher Exact|||||||=.0348
92412983|NCT04839562|184715555|SUPERIORITY||||||=|1|||||||Fisher Exact|||||||=1
92412984|NCT04839562|184715556|SUPERIORITY||||||=|0.0173|||||||Fisher Exact|||||||=.0173
92412985|NCT04839562|184715557|SUPERIORITY||||||=|0.1864|||||||Fisher Exact|||||||=.1864
92412986|NCT04839562|184715558|SUPERIORITY||||||=|0.4173|||||||Fisher Exact|||||||=.4173
92280446|NCT04799158|184463582|SUPERIORITY|||||||0.9896|||||||Wilcoxon rank-sum test|||||||0.9896
92412987|NCT04839562|184715559|SUPERIORITY||||||=|0.0343|||||||Fisher Exact|||||||=.0343
92278086|NCT02629965|184458216|SUPERIORITY||Mean Difference (Final Values)|0.105|STANDARD_ERROR_OF_MEAN|0.009|<|0.0001|TWO_SIDED|95.0|0.088|0.123|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.123|0.088|<0.0001
92379985|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.94||||||90.0|-4.63|0.76|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.76|-4.63|
92379986|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.32||||||90.0|-3.94|-0.7|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.70|-3.94|
92379987|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.36||||||90.0|-8.22|-0.5|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.50|-8.22|
92379988|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.93||||||90.0|-6.29|-1.56|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.56|-6.29|
92379989|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.91||||||90.0|-10.77|-3.05|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-3.05|-10.77|
92379990|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.79||||||90.0|-8.15|-3.42|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-3.42|-8.15|
92379991|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.8||||||90.0|-9.66|-1.94|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.94|-9.66|
92379992|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.65||||||90.0|-9.01|-4.29|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-4.29|-9.01|
92379993|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.27||||||90.0|-8.13|-0.41|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.41|-8.13|
92379994|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.65||||||90.0|-6.01|-1.29|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.29|-6.01|
92412988|NCT04839562|184715560|SUPERIORITY||||||=|0.0636|||||||Fisher Exact|||||||=.0636
92412989|NCT04839562|184715561|SUPERIORITY||||||=|0.065|||||||Fisher Exact|||||||=.065
92169210|NCT02528188|184227153|SUPERIORITY|||||||0.1947|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.1947
92412990|NCT04839562|184715562|SUPERIORITY||||||=|0.1144|||||||Fisher Exact|||||||=.1144
92412991|NCT04839562|184715563|SUPERIORITY||||||=|0.2829|||||||Fisher Exact|||||||=.2829
92280447|NCT04799158|184463582|SUPERIORITY|||||||0.6916|||||||Wilcoxon rank-sum test|||||||0.6916
92280448|NCT04799158|184463582|SUPERIORITY|||||||0.9316|||||||Wilcoxon rank-sum test|||||||0.9316
92379995|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||||90.0|-5.91|1.81|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||1.81|-5.91|
92379996|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||||90.0|-3.46|1.27|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||1.27|-3.46|
92379997|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||||90.0|-6.16|1.56|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||1.56|-6.16|
92379998|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.43||||||90.0|-5.79|-1.06|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.06|-5.79|
92379999|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47||||||90.0|-7.33|0.39|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.39|-7.33|
92380000|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.26||||||90.0|-5.62|-0.9|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.90|-5.62|
92380001|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||||90.0|-4.13|3.59|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||3.59|-4.13|
92412992|NCT02908490|184715574|SUPERIORITY|Given the cross-over design, analyses included a random effects model for within-subject comparisons of sildenafil versus placebo periods, adjusting for the baseline FMD within that period and a term for treatment order.|Slope|-1.42||||0.185|TWO_SIDED|95.0|-3.54|0.68||The a priori threshold for statistical significance was \<0.05.|Mixed Models Analysis|||||0.68|-3.54|0.185
92412993|NCT02908490|184715575|SUPERIORITY|Given the cross-over design, analyses included a random effects model for within-subject comparisons of sildenafil versus placebo periods, adjusting for the baseline EndoPAT within that period and a term for treatment order.|Slope|0.2||||0.003|TWO_SIDED|95.0|0.069|0.331||The a priori threshold for statistical significance was \<0.05.|Mixed Models Analysis|||||0.331|0.069|0.003
92412994|NCT02908490|184715581|SUPERIORITY|Given the cross-over design, analyses included a random effects model for within-subject comparisons of sildenafil versus placebo periods, adjusting for the baseline biomarker within that period and a term for treatment order.|Slope|7.63||||0.061|TWO_SIDED|95.0|-0.36|15.63||The a prior threshold for statistical significance was \<0.05.|Mixed Models Analysis|||||15.63|-0.36|0.061
92412995|NCT02908490|184715582|SUPERIORITY|Given the cross-over design, analyses included a random effects model for within-subject comparisons of sildenafil versus placebo periods, adjusting for the baseline biomarker within that period and a term for treatment order.|Slope|55.3||||0.011|TWO_SIDED|95.0|12.79|97.81||The a prior threshold for statistical significance was \<0.05.|Mixed Models Analysis|||||97.81|12.79|0.011
92412996|NCT02908490|184715583|SUPERIORITY|Given the cross-over design, analyses included a random effects model for within-subject comparisons of sildenafil versus placebo periods, adjusting for the baseline biomarker within that period and a term for treatment order.|Slope|74.93||||0.077|TWO_SIDED|95.0|-7.98|157.84||The a priori threshold for statistical significance was \<0.05.|Mixed Models Analysis|||||157.84|-7.98|0.077
92412997|NCT01122264|184715589|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.66|||<|0.001|TWO_SIDED|97.3|0.51|0.85||P-value: Tadalafil Once a Day versus Sildenafil Citrate On Demand treatment groups. Cox's proportional hazards model with factors for randomized treatment group, baseline International Index of Erectile Function-Erectile Function score, and country.|Regression, Cox|||||0.85|0.51|<0.001
92231645|NCT03783195|184365569|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-21.03|STANDARD_ERROR_OF_MEAN|11.53||0.09|TWO_SIDED|95.0|-45.76|3.69||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in LDL cholesterol as compared to high GRS group.||3.69|-45.76|0.09
92380002|NCT00853840|184663275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.26||||||90.0|-4.62|0.1|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.10|-4.62|
92380003|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.95||||||90.0|4.18|9.72|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||9.72|4.18|
92380004|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.51||||||90.0|2.73|8.28|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||8.28|2.73|
92380005|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.64||||||90.0|0.87|6.42|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||6.42|0.87|
92380006|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.89||||||90.0|0.12|5.67|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||5.67|0.12|
92380007|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.06||||||90.0|-0.71|4.83|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||4.83|-0.71|
92380008|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.45||||||90.0|2.68|8.22|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||8.22|2.68|
92412998|NCT01122264|184715589|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.49|||<|0.001|TWO_SIDED|97.3|0.37|0.65||P-value: Tadalafil On Demand versus Sildenafil Citrate On Demand treatment groups. Cox's proportional hazards model with factors for randomized treatment group, baseline International Index of Erectile Function-Erectile Function score, and country.|Regression, Cox|||||0.65|0.37|<0.001
92380009|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.12||||||90.0|1.34|6.89|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||6.89|1.34|
92380010|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.45||||||90.0|0.68|6.22|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||6.22|0.68|
92380011|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.33||||||90.0|3.7|10.95|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||10.95|3.70|
92412999|NCT01122264|184715589|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.32||||0.033|TWO_SIDED|95.0|1.02|1.71||P-value: Tadalafil On Demand versus Tadalafil Once a Day treatment groups using Cox's proportional hazards model with factors for randomized treatment group, baseline International Index of Erectile Function-Erectile Function score, and country.|Regression, Cox|||||1.71|1.02|0.033
92380012|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.83||||||90.0|3.2|10.45|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||10.45|3.20|
92413000|NCT00097981|184715607|SUPERIORITY_OR_OTHER|||||||0.49|||||||Cochran-Mantel-Haenszel|Stratified by International Prognostic Index (IPI) stage 1,2 and 3||||||0.49
92231646|NCT03783195|184365570|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.13||0.69|TWO_SIDED|95.0|-0.24|0.34|||t-test, 2 sided|||||0.34|-0.24|0.69
92280449|NCT00319956|184463583|SUPERIORITY|||||||0.2|||||||Chi-squared|||||||0.20
92413001|NCT00097981|184715608|SUPERIORITY_OR_OTHER|||||||0.42|||||||Cochran-Mantel-Haenszel|Stratified by International Prognostic Index (IPI) stage 1,2 and 3||||||0.42
92380013|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.02||||||90.0|1.4|8.65|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||8.65|1.40|
92380014|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.72||||||90.0|1.09|8.34|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||8.34|1.09|
92380015|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.05||||||90.0|0.43|7.67|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||7.67|0.43|
92380016|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.36||||||90.0|2.73|9.98|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||9.98|2.73|
92380017|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.08||||||90.0|1.45|8.7|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||8.70|1.45|
92380018|NCT00853840|184663276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.88||||||90.0|-1.74|5.51|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||5.51|-1.74|
92380019|NCT00966719|184663280|OTHER||Risk Ratio (RR)|0.84||||0.4|TWO_SIDED|95.0|0.56|1.24|||Fisher Exact|||||1.24|0.56|0.40
92380020|NCT00966719|184663281|OTHER||Risk Ratio (RR)|1.15||||1|TWO_SIDED|95.0|0.44|3.02|||Fisher Exact|||||3.02|0.44|1
92380021|NCT00966719|184663282|OTHER||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.91|1.1|||Fisher Exact|||||1.10|0.91|1
92413002|NCT00097981|184715609|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||Log Rank|||||||0.42
92380022|NCT00966719|184663283|OTHER||Risk Ratio (RR)|1.03||||0.78|TWO_SIDED|95.0|0.85|1.26|||Fisher Exact|||||1.26|0.85|0.78
92380023|NCT00966719|184663284|OTHER||Risk Ratio (RR)|2.94||||0.32|TWO_SIDED|95.0|0.32|27.3|||Fisher Exact|||||27.30|0.32|0.32
92380024|NCT00966719|184663285|OTHER||Risk Ratio (RR)|1.5||||0.09|TWO_SIDED|95.0|0.95|2.38|||Fisher Exact|||||2.38|0.95|0.09
92413003|NCT00097981|184715610|SUPERIORITY_OR_OTHER|||||||0.5162||95.0|||||Log Rank|||||||0.5162
92380025|NCT00966719|184663286|OTHER||Risk Ratio (RR)|1.03||||0.77|TWO_SIDED|95.0|0.83|1.27|||Fisher Exact|||||1.27|0.83|0.77
92380026|NCT00966719|184663287|OTHER||Risk Ratio (RR)|1.36||||0.6|TWO_SIDED|95.0|0.58|3.15|||Fisher Exact|||||3.15|0.58|0.6
92413004|NCT00097981|184715611|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.975||||0.93|TWO_SIDED|95.0|0.529|1.797|||Log Rank|Stratified log-rank test||||1.797|0.529|0.93
92413005|NCT00796445|184715638|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of disease-free survival (DFS) of recMAGE-A3 + AS15 ASCI compared to placebo in the overall study population of patients with completely resected stage III cutaneous melanoma with macroscopic lymph node involvement.|Hazard Ratio (HR)|1.013||||0.8566|TWO_SIDED|95.0|0.879|1.169|||Regression, Cox|||At Final analysis (Month 30)||1.169|0.879|0.8566
92413006|NCT00796445|184715638|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of DFS of the recMAGE-A3 + AS15 ASCI compared to placebo in the population presenting the potentially favorable gene expression signature.|Hazard Ratio (HR)|1.111||||0.4821|TWO_SIDED|95.0|0.828|1.491|||Regression, Cox|||At Final analysis (Month 30)||1.491|0.828|0.4821
92380027|NCT03242018|184663290|SUPERIORITY||Difference in Least Square (LS) Means|-0.29|STANDARD_ERROR_OF_MEAN|0.173||0.0962|TWO_SIDED|95.0|-0.628|0.051|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.051|-0.628|0.0962
92380028|NCT03242018|184663291|SUPERIORITY||Difference in LS Means|0.05|STANDARD_ERROR_OF_MEAN|0.196||0.8124|TWO_SIDED|95.0|-0.338|0.431|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.431|-0.338|0.8124
92380029|NCT03242018|184663292|SUPERIORITY||Difference in LS Means|-0.361|STANDARD_ERROR_OF_MEAN|0.6033||0.5501|TWO_SIDED|95.0|-1.5431|0.822|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline FPG as a covariate.||0.8220|-1.5431|0.5501
92380030|NCT03242018|184663292|SUPERIORITY||Difference in LS Means|-0.714|STANDARD_ERROR_OF_MEAN|0.5298||0.1779|TWO_SIDED|95.0|-1.7524|0.3246|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline FPG as a covariate.||0.3246|-1.7524|0.1779
92413007|NCT00796445|184715638|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of DFS of the recMAGE-A3 + AS15 ASCI compared to placebo in the population without the potentially favorable gene expression signature|Hazard Ratio (HR)|0.915||||0.5375|TWO_SIDED|95.0|0.691|1.212|||Regression, Cox|||At Final analysis (Month 30)||1.212|0.691|0.5375
92413008|NCT00796445|184715639|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of disease-free survival (DFS) of recMAGE-A3 + AS15 ASCI compared to placebo in the overall study population of patients with completely resected stage III cutaneous melanoma with macroscopic lymph node involvement|Hazard Ratio (HR)|1.023||||0.7534|TWO_SIDED|95.0|0.89|1.175|||Regression, Cox|||At Follow-up analysis (up to Year 5)||1.175|0.890|0.7534
92413009|NCT00796445|184715639|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of DFS of the recMAGE-A3 + AS15 ASCI compared to placebo in the population presenting the potentially favorable gene expression signature.|Hazard Ratio (HR)|1.094||||0.5385|TWO_SIDED|95.0|0.821|1.457|||Regression, Cox|||At Follow-up analysis (up to Year 5)||1.457|0.821|0.5385
92413010|NCT00796445|184715639|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of DFS of the recMAGE-A3 + AS15 ASCI compared to placebo in the population without the potentially favorable gene expression signature.|Hazard Ratio (HR)|0.918||||0.5419|TWO_SIDED|95.0|0.698|1.207|||Regression, Cox|||At Follow-up analysis (up to Year 5)||1.207|0.698|0.5419
92413011|NCT00913458|184715659|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.8|||<|0.0001|TWO_SIDED|95.0|2.7|12.5||The rate of sustained remission was analyzed using a logistic regression model with a 2-sided significance level of 5%.|Regression, Logistic|Values are based on a logistic regression model with treatment as the only factor.||The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||12.5|2.7|<0.0001
92413012|NCT00913458|184715659|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.61||||0.0085|TWO_SIDED|95.0|1.3|5.3||The rate of sustained remission was analyzed using a logistic regression model with a 2-sided significance level of 5%.|Regression, Logistic|Values are based on a logistic regression model with treatment as the only factor.||The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||5.3|1.3|0.0085
92413013|NCT00913458|184715659|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.22||||0.0397|TWO_SIDED|95.0|1.0|4.8||The rate of sustained remission was analyzed using a logistic regression model with a 2-sided significance level of 5%.|Regression, Linear|Values are based on a logistic regression model with treatment as the only factor.||The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.8|1.0|0.0397
92231647|NCT03783195|184365571|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-29.61|STANDARD_ERROR_OF_MEAN|15.28||0.07|TWO_SIDED|95.0|-62.39|3.17||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in total cholesterol as compared to high GRS group.||3.17|-62.39|0.07
92231648|NCT03783195|184365572|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|0.036|STANDARD_ERROR_OF_MEAN|0.14||0.8|TWO_SIDED|95.0|-0.26|0.33|||t-test, 2 sided|||||0.33|-0.26|0.80
92413014|NCT00913458|184715660|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~End of Phase 1"||||<0.0001
92413015|NCT00913458|184715661|SUPERIORITY_OR_OTHER|||||||0.1183|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 52"||||0.1183
92413016|NCT00913458|184715661|SUPERIORITY_OR_OTHER|||||||0.0286|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Final on therapy"||||0.0286
92413017|NCT00913458|184715662|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 13, 26, 39, 52 and final on therapy"||||<0.0001
92413018|NCT00913458|184715663|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 13, 26, 39, 52 and final on therapy"||||<0.0001
92231649|NCT03783195|184365573|OTHER||Mean Difference (Net)|0.36|STANDARD_ERROR_OF_MEAN|0.25||0.17|TWO_SIDED|95.0|-0.18|0.91||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum uric acid as compared to high GRS group.||0.91|-0.18|0.17
92231650|NCT03783195|184365574|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.217|STANDARD_ERROR_OF_MEAN|0.17||0.22|TWO_SIDED|95.0|-0.58|0.15|||t-test, 2 sided|||||0.15|-0.58|0.22
92231651|NCT03783195|184365575|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.007||0.04|TWO_SIDED|95.0|-0.03|-0.0009||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum ALT as compared to high GRS group.||-0.0009|-0.03|0.04
92231652|NCT03783195|184365576|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.121|STANDARD_ERROR_OF_MEAN|0.19||0.53|TWO_SIDED|95.0|-0.52|0.28|||t-test, 2 sided|||||0.28|-0.52|0.53
92231653|NCT03783195|184365577|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|20.57|STANDARD_ERROR_OF_MEAN|17.5||0.25|TWO_SIDED|95.0|-16.9|58.08||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum AST as compared to high GRS group.||58.08|-16.9|0.25
92413019|NCT00913458|184715664|SUPERIORITY_OR_OTHER|||||||0.0063|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 13"||||0.0063
92413020|NCT00913458|184715664|SUPERIORITY_OR_OTHER|||||||0.0053|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 26"||||0.0053
92413021|NCT00913458|184715664|SUPERIORITY_OR_OTHER|||||||0.0027|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 39"||||0.0027
92413022|NCT00913458|184715664|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 52"||||0.0002
92413023|NCT00913458|184715664|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Final on therapy"||||0.0005
92413024|NCT00913458|184715665|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 13, 26, 39, 52 and final on therapy"||||<0.0001
92380031|NCT03242018|184663293|SUPERIORITY||Difference in LS Means|-0.82|STANDARD_ERROR_OF_MEAN|0.703||0.2432|TWO_SIDED|95.0|-2.197|0.557|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline body weight as a covariate.||0.557|-2.197|0.2432
92380032|NCT03242018|184663293|SUPERIORITY||Difference in LS Means|-1.41|STANDARD_ERROR_OF_MEAN|0.715||0.0487|TWO_SIDED|95.0|-2.81|-0.008|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline body weight as a covariate.||-0.008|-2.810|0.0487
92380033|NCT03242018|184663294|SUPERIORITY||Difference in LS Means|-2.14|STANDARD_ERROR_OF_MEAN|2.515||0.3954|TWO_SIDED|95.0|-7.066|2.792|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, and country as fixed effects, and baseline SBP as a covariate.||2.792|-7.066|0.3954
92380034|NCT03242018|184663294|SUPERIORITY||Difference in LS Means|-4.4|STANDARD_ERROR_OF_MEAN|2.442||0.0716|TWO_SIDED|95.0|-9.185|0.386|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, and country as fixed effects, and baseline SBP as a covariate.||0.386|-9.185|0.0716
92380035|NCT03242018|184663295|SUPERIORITY||Difference in LS Means|-3.24|STANDARD_ERROR_OF_MEAN|2.103||0.1232|TWO_SIDED|95.0|-7.365|0.881|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||0.881|-7.365|0.1232
92413025|NCT00913458|184715666|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
92413026|NCT00913458|184715667|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 week and final on therapy"||||<0.0001
92413027|NCT00913458|184715668|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
92413028|NCT00913458|184715669|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
92413029|NCT00913458|184715670|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 2, 4, 8, 13, 26, 39, 52 week and final on therapy"||||<0.0001
92380036|NCT03242018|184663295|SUPERIORITY||Difference in LS Means|-5.36|STANDARD_ERROR_OF_MEAN|2.077||0.0098|TWO_SIDED|95.0|-9.433|-1.292|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||-1.292|-9.433|0.0098
92413030|NCT00913458|184715671|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
92380037|NCT03242018|184663296|SUPERIORITY||Percent Difference|-20.37||||0.222|TWO_SIDED|95.0|-44.75|14.77|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and log-transformed baseline UACR as a covariate.||14.77|-44.75|0.222
92380038|NCT03242018|184663296|SUPERIORITY||Percent Difference|-21.17||||0.1965|TWO_SIDED|95.0|-45.05|13.1|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and log-transformed baseline UACR as a covariate.||13.10|-45.05|0.1965
92380039|NCT03242018|184663297|SUPERIORITY||Percentage Difference|3.2||||0.242|TWO_SIDED|95.0|-2.17|8.66|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at screening.||8.66|-2.17|0.2420
92380040|NCT03242018|184663297|SUPERIORITY||Percentage Difference|6.5||||0.0513|TWO_SIDED|95.0|0.04|12.93|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at screening.||12.93|0.04|0.0513
92380041|NCT03242018|184663298|SUPERIORITY||Percentage Difference|12.0||||0.0066|TWO_SIDED|95.0|3.48|20.61|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at screening.||20.61|3.48|0.0066
92413031|NCT00913458|184715672|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
92413032|NCT00913458|184715673|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
92231654|NCT03783195|184365578|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.17||0.2|TWO_SIDED|95.0|-0.59|0.13|||t-test, 2 sided|||||0.13|-0.59|0.20
92231655|NCT03783195|184365579|OTHER||Mean Difference (Net)|28.95|STANDARD_ERROR_OF_MEAN|21.78||0.21|TWO_SIDED|95.0|-17.76|75.67||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum ALP as compared to high GRS group.||75.67|-17.76|0.21
92231656|NCT03783195|184365580|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.12||0.67|TWO_SIDED|95.0|-0.214|0.321|||t-test, 2 sided|||||0.321|-0.214|0.67
92231657|NCT03783195|184365581|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.09||0.41|TWO_SIDED|95.0|-0.12|0.28||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum GGT as compared to high GRS group.||0.28|-0.12|0.41
92231658|NCT03783195|184365582|OTHER|Both groups received the same intervention; however, their genetic make-up was different|Mean Difference (Net)|-0.109|STANDARD_ERROR_OF_MEAN|0.15||0.49|TWO_SIDED|95.0|-0.44|0.22|||t-test, 2 sided|||||0.22|-0.44|0.49
92231659|NCT02240134|184365597|SUPERIORITY||Odds Ratio (OR)|1.23||||0.68|TWO_SIDED|95.0|0.46|3.32|||Mixed Models Analysis||Odds ratio for air filter treatment relative to placebo|Mixed effects logistic regression model with presence of LRTI as outcome (yes or no); assigned treatment as primary exposure variable relative to placebo; adjusted for child age and person-time at-risk; nested random term: home:cohort:area. Results presented as odds ratios with 95% Confidence Intervals.||3.32|0.46|0.68
92231660|NCT02240134|184365597|SUPERIORITY||Odds Ratio (OR)|0.98||||0.96|TWO_SIDED|95.0|0.35|2.72|||Mixed Models Analysis||Odds ratio for filter treatment relative to placebo|Mixed effects logistic regression model with presence of LRTI as outcome (yes or no); assigned treatment as primary exposure variable relative to placebo; adjusted for child age and person-time at-risk; nested random term: home:cohort:area. Results presented as odds ratios with 95% Confidence Intervals.||2.72|0.35|0.96
92231661|NCT02240134|184365598|SUPERIORITY||percent differences in geometric mean PM|-6.96||||0.25|TWO_SIDED|95.0|-30.5|24.55|||Mixed Models Analysis|||Linear mixed model with natural-log transformed 6-day mean indoor PM2.5 as outcome; assigned treatment as primary exposure variable; adjusted for child age; nested random term: cohort:area. Results presented as effect estimates with 95% Confidence Intervals and reported as percent differences in geometric mean PM2.5.||24.55|-30.50|0.250
92231662|NCT02240134|184365598|SUPERIORITY||percent differences in geometric mean PM|11.77||||0.295|TWO_SIDED|95.0|-16.57|49.72||Statistical significance selected as 95% confidence interval of the estimation parameter that excludes the null value, 0.|Mixed Models Analysis||Difference in indoor PM2.5 for education treatment versus placebo.|Linear mixed model with natural-log transformed 6-day mean indoor PM2.5 as outcome; assigned treatment as primary exposure variable; adjusted for child age; nested random term: cohort:area. Results presented as effect estimates with 95% Confidence Intervals and reported as percent differences in geometric mean PM2.5.||49.72|-16.57|0.295
92231663|NCT01380899|184365599|SUPERIORITY|IHC analyses revealed intense α-synuclein positive immunostaining in PD patients, showing small nodular deposits from 1 to 2 μm in diameter in the SCL of the epidermis including the epidermal component adjacent to hair follicles, and in cells from PSUs, while control subjects presented null immunoreaction. The α-synuclein inclusions in the two groups of patients were morphologically similar but quantitatively different. These inclusions appeared to be juxtanuclear.|Median Difference (Net)|57.9|STANDARD_DEVIATION|8.85|<|0.01|TWO_SIDED|95.0|44.9|62.6||The presence of alpha-synuclein aggregates expressed as % of cells with inclusions was tested for normality (Shapiro-Wilk test). Then, with the nonparametric Kruskal-Wallis followed by Mann-Whitney U tests (software Statistica 7.0 at 95% confidence).|Kruskal-Wallis|The groups were analyzed with Kruskal-Wallis followed by Mann-Whitney U tests.|The expression of the abnormal protein (alpha-synuclein) must be different between the three groups (PD, AP, and control)|The patients were stratified according to the clinical diagnosis made on the basis of the clinical findings, the MRI, and the progression of the disease. Both the clinical diagnosis and the semiquantitative histological analysis were carried out independently and blind to each other. The presence of aggregates of abnormal a-synuclein, expressed as the percentage of cells with positive inclusions in each experimental group, was tested for normality with the Shapiro-Wilk test.|The patients were stratified according to the clinical diagnosis based on the clinical findings, the MRI, and the progression of the disease. Both the clinical diagnosis and the semiquantitative histological analysis were carried out independently and blind to each other. The presence of aggregates of abnormal α-synuclein, expressed as the percentage of cells with positive inclusions in each experimental group, was tested for normality with the Shapiro-Wilk test. Next, the groups were analyzed with the nonparametric Kruskal-Wallis followed by Mann-Whitney U tests. One independent analysis was performed for each structure, namely the epidermis, PSU, and EG. Assessments were performed using the software Statistica 7.0 (Tulsa, OK) at 95% confidence.|62.6|44.9|< 0.01
92231664|NCT02091440|184365622|OTHER|Single group|Proportion|100.0|||||TWO_SIDED|95.0||||||||||||
92231665|NCT02091440|184365623|OTHER|Single group|Kaplan-Meier Survival|100.0|||||TWO_SIDED|||||||||||||
92231666|NCT02091440|184365624|OTHER|Single group|Incidence|1.24|||||TWO_SIDED|||||||||||||
92278087|NCT02629965|184458217|SUPERIORITY||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.13|0.197|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.197|0.130|<0.0001
92231667|NCT02091440|184365625|OTHER|Single group|Incidence|1.66|||||TWO_SIDED|||||||||||||
92380042|NCT03242018|184663298|SUPERIORITY||Percentage Difference|13.0||||0.0043|TWO_SIDED|95.0|4.28|21.75|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at screening.||21.75|4.28|0.0043
92231668|NCT02091440|184365626|OTHER|Single group|Change from baseline|19.4|STANDARD_DEVIATION|11.39|||TWO_SIDED|95.0|7.5|31.4|||||Confidence interval based on t-distribution.|||31.4|7.5|
92231669|NCT02091440|184365627|OTHER|Single group|Percentage change|-83.33|||||TWO_SIDED||||||||Percentage change from 24 months to screening in NYHA classes III and IV. Percentage change is 16.67% - 100% = -83.33%|||||
92380043|NCT01852383|184663301|SUPERIORITY_OR_OTHER||||||<|0.001||||||Change from Week 0 to Week 12, not adjusted for multiple comparisons. Alpha=0.05 threshold for statistical significance.|ANCOVA|||||||<0.001
92380044|NCT01852383|184663302|SUPERIORITY_OR_OTHER||||||<|0.1||||||Change from Week 0 to Week 12, not adjusted for multiple comparisons. Alpha=0.05 threshold for statistical significance.|Corrlation|||||||<0.1
92231670|NCT02091440|184365628|OTHER|Single group|Change from baseline|130.0|STANDARD_DEVIATION|275.32|||TWO_SIDED|95.0|-158.9|418.9|||||Confidence interval based on t-distribution.|||418.9|-158.9|
92231671|NCT03576144|184365630|OTHER||Slope|1.0474|STANDARD_ERROR_OF_MEAN|0.0283|||TWO_SIDED|90.0|0.9997|1.0951|||ANCOVA||Standard Error of the mean is actually standard error of slope.Based on the estimate for the slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|Dose proportionality for AUC0-12 of BI 1265162 in plasma was assessed using a power model (regression model applied to log-transformed data). The corresponding ANCOVA model included the logarithm of the dose as a covariate. No statistical hypotheses were tested in a confirmatory sense.||1.0951|0.9997|
92231672|NCT03576144|184365631|OTHER||Slope|1.0091|STANDARD_ERROR_OF_MEAN|0.038|||TWO_SIDED|90.0|0.9451|1.0732|||ANCOVA||Standard Error of the is actually standard error of slope. Based on the estimate for the slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|Dose proportionality for Cmax of BI 1265162 in plasma was assessed using a power model (regression model applied to log-transformed data). The corresponding ANCOVA model included the logarithm of the dose as a covariate. No statistical hypotheses were tested in a confirmatory sense.||1.0732|0.9451|
92231673|NCT03576144|184365632|OTHER||Slope|1.052|STANDARD_ERROR_OF_MEAN|0.0325|||TWO_SIDED|90.0|0.9972|1.1069|||ANCOVA||Standard Error of the mean is actually standard error of slope. Based on the estimate for the slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|Dose proportionality for AUCτ,ss of BI 1265162 in plasma was assessed using a power model (regression model applied to log-transformed data). The corresponding ANCOVA model included the logarithm of the dose as a covariate. No statistical hypotheses were tested in a confirmatory sense.||1.1069|0.9972|
92380045|NCT01852383|184663303|SUPERIORITY_OR_OTHER||||||<|0.001||||||Change from Week 0 to Week 12, not adjusted for multiple comparisons. Alpha=0.05 threshold for statistical significance.|ANCOVA|||||||<0.001
92380046|NCT01852383|184663304|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0||||Pearson correlation coefficient. Not adjusted for multiple comparisons. Alpha=0.05 for statistical significance threshold.|Pearson correlation|||Correlation of maximum duloxetine dose with change in Hamilton Depression Rating Scale scores from 0 Weeks to 12 Weeks.||||<.001
92380047|NCT02968914|184663322|SUPERIORITY||Geometric mean ratio (%)|94.46|||||TWO_SIDED|90.0|88.16|101.21|||ANOVA|||||101.21|88.16|
92380048|NCT02968914|184663323|SUPERIORITY||Geometric mean ratio (%)|92.83|||||TWO_SIDED|90.0|87.41|98.58|||ANOVA|||||98.58|87.41|
92413033|NCT00913458|184715674|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 week and final on therapy"||||<0.0001
92413034|NCT00913458|184715675|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||McNemar|||"P-value is from McNemar's test for no change from baseline in response rate.~Week 2, 4, 8, 13, 26, 39, 52 week and final on therapy"||||<0.0001
92413035|NCT00913458|184715676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.4075|TWO_SIDED|95.0|0.4|7.6|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||7.6|0.4|0.4075
92413036|NCT00913458|184715676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.88||||0.0011|TWO_SIDED|95.0|2.4|33.1|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||33.1|2.4|0.0011
92413037|NCT00913458|184715676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.87||||0.0031|TWO_SIDED|95.0|1.7|13.9|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||13.9|1.7|0.0031
92413038|NCT00913458|184715677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.5951|TWO_SIDED|95.0|0.3|2.0|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||2.0|0.3|0.5951
92380049|NCT02968914|184663324|SUPERIORITY||Geometric mean ratio (%)|92.34|||||TWO_SIDED|90.0|86.34|98.75|||ANOVA|||||98.75|86.34|
92380050|NCT02725593|184663419|SUPERIORITY||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.45||0.101|TWO_SIDED|95.0|-1.65|0.15|||Mixed model repeated measures analysis|||||0.15|-1.65|0.101
92380051|NCT02725593|184663420|SUPERIORITY||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.81||0.34|TWO_SIDED|95.0|-2.42|0.85|||Mixed model repeated measures analysis|||||0.85|-2.42|0.340
92380052|NCT02725593|184663421|SUPERIORITY||Mean Difference (Final Values)|-3.96||||0.655|TWO_SIDED|95.0|-20.11|9.62|||Fisher's exact test|||||9.62|-20.11|0.655
92380053|NCT02725593|184663422|SUPERIORITY||Mean Difference (Final Values)|20.83||||0.056|TWO_SIDED|95.0|0.5|41.11|||Fisher's exact test|||||41.11|0.50|0.056
92380054|NCT03689244|184663423|SUPERIORITY||Ratio of Geometric LS mean|0.95||||0.412|TWO_SIDED|95.0|0.84|1.07|||ANCOVA|||Ratio of Geometric mean of Selexipag to Placebo was reported.||1.07|0.84|0.412
92380055|NCT01355796|184663427|SUPERIORITY||Mean Difference (Net)|1.49|STANDARD_ERROR_OF_MEAN|1.66|<|0.05|TWO_SIDED|95.0|-1.76|4.75|||Mixed Models Analysis|||||4.75|-1.76|<0.05
92380056|NCT05714943|184663443|SUPERIORITY|||||||0.99|||||||Regression, Linear|||||||.99
92380057|NCT05714943|184663444|SUPERIORITY|||||||0|||||||Regression, Linear|||||||.00
92380058|NCT05714943|184663445|SUPERIORITY|||||||0.09|||||||Regression, Linear|||||||.09
92380059|NCT05714943|184663446|SUPERIORITY|||||||0.57|||||||Regression, Linear|||||||.57
92380060|NCT05714943|184663447|SUPERIORITY|||||||0.32|||||||Regression, Linear|||||||.32
92231674|NCT03576144|184365633|OTHER||Slope|1.0361|STANDARD_ERROR_OF_MEAN|0.0379|||TWO_SIDED|90.0|0.9722|1.1001|||ANCOVA||Standard Error of the mean is actually standard error of slope. Based on the estimate for the slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|Dose proportionality for Cmax,ss of BI 1265162 in plasma was assessed using a power model (regression model applied to log-transformed data). The corresponding ANCOVA model included the logarithm of the dose as a covariate. No statistical hypotheses were tested in a confirmatory sense.||1.1001|0.9722|
92231675|NCT02966314|184365664|SUPERIORITY||Odds Ratio (OR)|18.7||||0.003|TWO_SIDED|95.0|2.77|126.47|||Regression, Logistic|Accounting for repeated measures||||126.47|2.77|0.003
92231676|NCT02966314|184365666|SUPERIORITY||Mean Difference (Final Values)|9.43||||0.03|TWO_SIDED|95.0|1.24|17.63|||Regression, Linear|||||17.63|1.24|0.03
92231677|NCT02966314|184365668|SUPERIORITY||Odds Ratio (OR)|32.8||||0.03|TWO_SIDED|95.0|1.49|720.54|||Regression, Logistic|Accounting for repeated measures||||720.54|1.49|0.03
92231678|NCT02966314|184365670|SUPERIORITY||Risk Ratio (RR)|6.9||||0.005|TWO_SIDED|95.0|1.9|25.3|||Regression, Linear|Accounting for multiple measures, using poisson distribution with natural log link||||25.3|1.9|0.005
92231679|NCT05127486|184365675|SUPERIORITY||Odds Ratio (OR)|1.06||||0.695|TWO_SIDED|95.0|0.81|1.38|||pseudo likelihood-based repeated measure|||||1.38|0.81|0.695
92231680|NCT05127486|184365676|SUPERIORITY||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.89|1.56|||pseudo likelihood-based repeated measure|||||1.56|0.89|
92231681|NCT05127486|184365677|SUPERIORITY||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|0.89|1.79|||pseudo likelihood-based repeated measure|||||1.79|0.89|
92231682|NCT05127486|184365678|SUPERIORITY||LS Mean difference|-0.37|||||TWO_SIDED|95.0|-0.82|0.09|||Mixed Models Analysis|||||0.09|-0.82|
92231683|NCT05127486|184365679|SUPERIORITY||LS Mean difference|-0.55|||||TWO_SIDED|95.0|-1.11|0.0|||Mixed Models Analysis|||||0.00|-1.11|
92380061|NCT05714943|184663448|SUPERIORITY|||||||0|||||||Regression, Linear|||||||.00
92380062|NCT05714943|184663449|SUPERIORITY|||||||0.97|||||||Regression, Linear|||||||.97
92231684|NCT05127486|184365680|SUPERIORITY||LS Mean difference|-0.36|||||TWO_SIDED|95.0|-0.9|0.18|||Mixed Models Analysis|||||0.18|-0.90|
92231685|NCT05127486|184365681|SUPERIORITY||LS Mean difference|-0.18|||||TWO_SIDED|95.0|-0.73|0.37|||Mixed Models Analysis|||||0.37|-0.73|
92231686|NCT05127486|184365682|SUPERIORITY||LS Mean difference|-0.49|||||TWO_SIDED|95.0|-0.86|-0.11|||Mixed Models Analysis|||||-0.11|-0.86|
92231687|NCT05127486|184365683|SUPERIORITY||LS Mean difference|4.39|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|95.0|1.42|7.37|||ANCOVA|||Total score||7.37|1.42|
92231688|NCT05127486|184365683|SUPERIORITY||LS Mean difference|5.24|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|1.9|8.58|||ANCOVA|||RF-R||8.58|1.90|
92231689|NCT05127486|184365683|SUPERIORITY||LS Mean difference|3.88|STANDARD_ERROR_OF_MEAN|1.44|||TWO_SIDED|95.0|1.06|6.71|||ANCOVA|||RF-P||6.71|1.06|
92231690|NCT05127486|184365683|SUPERIORITY||LS Mean difference|3.18|STANDARD_ERROR_OF_MEAN|1.66|||TWO_SIDED|95.0|-0.08|6.44|||ANCOVA|||EF||6.44|-0.08|
92231691|NCT05127486|184365684|SUPERIORITY||LS Mean difference|-2.43|STANDARD_ERROR_OF_MEAN|2.3|||TWO_SIDED|95.0|-6.94|2.08|||ANCOVA|||||2.08|-6.94|
92380063|NCT05714943|184663450|SUPERIORITY|||||||0.21|||||||Regression, Linear|||||||.21
92231692|NCT02688647|184365692|SUPERIORITY|||||||0.5733|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||GAP Stage I-- Difference: Belumosudil-WC minus BSC-NC = 38.85 (95% CI: -126.99, 204.69) mL||||0.5733
92231693|NCT02688647|184365692|SUPERIORITY|||||||0.6967|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||GAP Stage II-- Difference: Belumosudil-WC minus BSC-NC = -39.96 (95% CI: -288.63, 208.71) mL||||0.6967
92231694|NCT02688647|184365692|SUPERIORITY|||||||0.5003|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||GAP Stage III-- Difference: Belumosudil-WC minus BSC-NC = 94.16 (95% CI: -1103.56, 1291.88) mL||||0.5003
92231695|NCT02688647|184365692|SUPERIORITY|||||||0.4866|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||No Prior Pirfenidone or Nintedanib-- Difference: Belumosudil-WC minus BSC-NC = -34.13 (95% CI: -137.08, 68.82)||||0.4866
92231696|NCT02688647|184365695|SUPERIORITY|GAP Stage I-- Difference: Belumosudil-WC minus BSC-NC = 1.88 (95% CI: -2.69, 6.45)||||||0.3391|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||||||0.3391
92231697|NCT02688647|184365695|SUPERIORITY|GAP Stage II-- Difference: Belumosudil-WC minus BSC-NC = -1.72 (95% CI: -8.13, 4.69)||||||0.5201|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||||||0.5201
92231698|NCT02688647|184365695|SUPERIORITY|GAP Stage III-- Difference: Belumosudil-WC minus BSC-NC = 2.48 (95% CI: -23.84, 28.81)||||||0.4426|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||||||0.4426
92380064|NCT05714943|184663451|SUPERIORITY|||||||0.27|||||||Regression, Linear|||||||.27
92380065|NCT05714943|184663452|SUPERIORITY|||||||0|||||||Regression, Linear|||||||.00
92380066|NCT05714943|184663453|SUPERIORITY|||||||0.86|||||||Regression, Linear|||||||.86
92380067|NCT05714943|184663454|SUPERIORITY|||||||0.61|||||||Regression, Linear|||||||.61
92380068|NCT05714943|184663455|SUPERIORITY|||||||0.02|||||||Regression, Linear|||||||.02
92380069|NCT05714943|184663456|SUPERIORITY|||||||0.08|||||||Regression, Linear|||||||.08
92380070|NCT05714943|184663457|SUPERIORITY|||||||0.08|||||||Regression, Linear|||||||.08
92380071|NCT05714943|184663458|SUPERIORITY|||||||0.06|||||||Regression, Linear|||||||.06
92380072|NCT05714943|184663459|SUPERIORITY|||||||0|||||||Regression, Linear|||||||.00
92380073|NCT05714943|184663460|SUPERIORITY|||||||0.88|||||||Regression, Linear|||||||.88
92380074|NCT05714943|184663461|SUPERIORITY|||||||0.94|||||||Regression, Linear|||||||.94
92278088|NCT02629965|184458218|SUPERIORITY||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.103|0.162|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.162|0.103|<0.0001
92278089|NCT02629965|184458219|SUPERIORITY||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.1|0.156|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.156|0.100|<0.0001
92278090|NCT02629965|184458220|SUPERIORITY||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.056|0.108|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.108|0.056|<0.0001
92278091|NCT02629965|184458221|SUPERIORITY||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.058|0.114|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.114|0.058|<0.0001
92278092|NCT02629965|184458222|SUPERIORITY||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.059|0.108|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.108|0.059|<0.0001
92380075|NCT01122108|184663462|SUPERIORITY_OR_OTHER||||||<|0.05||||||If a sequence was not found to be statistically significant, then that term was removed from final model. Normality of residuals was investigated for each outcome variable using the Shapiro-Wilk test.|repeated measures analysis of variance|Sensitivity analyses were run to evaluate possible product by sequence interactions||"The BASA scale was previously developed to effectively compare differing Bile acid sequestrant forumulations. The BASA scale should differentiate subject acceptability of Colesevelam HCl 3.75 vs Cholestyramine 12g based upon the sum of ratings for taste, texture, appearance and mixability.~If normality hypothesis was rejected, then further inspection of the distribution utilizing normal quantile-quantile and kernel density plots was employed."||||<0.05
92231699|NCT02688647|184365695|SUPERIORITY|No Prior Use of Pirfenidone or Nintedanib-- Difference: Belumosudil-WC minus BSC-NC = 8.70 (95% CI: -78.76, -96.17)||||||0.426|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||||||0.4260
92231700|NCT02688647|184365705|SUPERIORITY|Cox Regression||||||0.8561|TWO_SIDED|95.0|||||Log Rank|||Hazard ratio: 0.86 (0.16, 4.48)||||0.8561
92231701|NCT02688647|184365705|SUPERIORITY|Cox Regression||||||0.8608|TWO_SIDED|95.0|||||Log Rank|||Hazard ratio: 0.87 (95% CI: 0.17, 4.33)||||0.8608
92231702|NCT02688647|184365706|SUPERIORITY|Cox Regression||||||0.0084|TWO_SIDED|95.0|||||Log Rank|||Hazard ratio: 0.34 (95% CI: 0.14, 0.79)||||0.0084
92231703|NCT02688647|184365706|SUPERIORITY|Cox Regression||||||0.0508|TWO_SIDED|95.0|||||Log Rank|||Hazard Ratio: 0.47 (95% CI: 0.22, 1.03)||||0.0508
92231704|NCT02688647|184365708|SUPERIORITY|Cox Regression||||||0.4251|TWO_SIDED|95.0|||||Log Rank|||Hazard ratio: 0.34 (95% CI: 0.02, 5.54)||||0.4251
92380076|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.17||||1|TWO_SIDED|95.0|0.083|0.359|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||0.359|0.083|1.000
92231705|NCT02688647|184365708|SUPERIORITY|Cox Regression||||||0.3294|TWO_SIDED|95.0|||||Log Rank|||Hazard ratio: 0.27 (95% CI: 0.02, 4.45)||||0.3294
92231706|NCT03093402|184365727|SUPERIORITY|The fixed effects included treatment, time, time² , time- and time² by treatment interactions. The Screening FSS score and the Screening 7-day average maximum daily pain NRS were included as covariates. Within-subject random effects for intercept and slopes for time and time² were fit using an unstructured covariance matrix, assuming a different structure for placebo and pooled active treatment groups.|Median Difference (Final Values)|-0.9||||0.419|TWO_SIDED|95.0|-2.5|0.6||This p-value is from the overall 3 degree of freedom test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active treatment arms versus placebo.|Mixed Models Analysis||Mean difference in the change from Day 1 to Day 84 for High JBT-101 - Placebo. The estimated mean change (95% confidence interval) from Day 1 to Day 84 for Placebo was -0.3 (-1.5, 0.9).|The null hypothesis is that linear trends from Day 1 to Day 84 are equivalent for each active JBT-101 cohort and placebo. The overall test is a 3 degree of freedom F test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active JBT-101 cohorts versus placebo.||0.6|-2.5|0.4190
92380077|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.23||||0.9999|TWO_SIDED|95.0|0.111|0.492|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||0.492|0.111|0.9999
92380078|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.26||||0.9997|TWO_SIDED|95.0|0.121|0.568|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||0.568|0.121|0.9997
92239652|NCT00637273|184383086|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.8|STANDARD_ERROR_OF_MEAN|3.3||0.0814|TWO_SIDED|95.0|0.3|13.2||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting total cholesterol from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting total cholesterol as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||13.2|0.3|0.0814
92380079|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.31||||0.9997|TWO_SIDED|95.0|0.136|0.66|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||0.660|0.136|0.9997
92380080|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.29||||0.9991|TWO_SIDED|95.0|0.133|0.632|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||0.632|0.133|0.9991
92380081|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.46||||0.9631|TWO_SIDED|95.0|0.213|1.081|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.081|0.213|0.9631
92413039|NCT00913458|184715677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.0934|TWO_SIDED|95.0|0.9|5.5|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||5.5|0.9|0.0934
92413040|NCT00913458|184715677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.85||||0.0314|TWO_SIDED|95.0|1.1|7.4|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||7.4|1.1|0.0314
92413041|NCT00913458|184715678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.6152|TWO_SIDED|95.0|0.5|2.8|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||2.8|0.5|0.6152
92413042|NCT00913458|184715678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36||||0.0432|TWO_SIDED|95.0|1.0|5.4|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||5.4|1.0|0.0432
92413043|NCT00913458|184715678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.1189|TWO_SIDED|95.0|0.8|4.3|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.3|0.8|0.1189
92413044|NCT00913458|184715679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.15||||0.0535|TWO_SIDED|95.0|1.0|4.7|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.7|1.0|0.0535
92413045|NCT00913458|184715679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.22||||0.0064|TWO_SIDED|95.0|1.4|7.5|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||7.5|1.4|0.0064
92413046|NCT00913458|184715679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.3696|TWO_SIDED|95.0|0.6|3.6|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||3.6|0.6|0.3696
92413047|NCT00913458|184715680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.0788|TWO_SIDED|95.0|0.9|5.2|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||5.2|0.9|0.0788
92380082|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.33||||0.9941||95.0|0.157|0.789|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||0.789|0.157|0.9941
92380083|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.38||||0.9875|TWO_SIDED|95.0|0.179|0.891|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||0.891|0.179|0.9875
92380084|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.33||||0.9956|TWO_SIDED|95.0|0.151|0.759|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||0.759|0.151|0.9956
92380085|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.34||||0.9964|TWO_SIDED|95.0|0.157|0.747|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||0.747|0.157|0.9964
92380086|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.25||||0.9999|TWO_SIDED|95.0|0.114|0.532|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||0.532|0.114|0.9999
92380087|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.29||||0.9991|TWO_SIDED|95.0|0.13|0.647|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||0.647|0.130|0.9991
92380088|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.36||||0.9852|TWO_SIDED|0.9852|0.137|0.906|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 96 hours||0.906|0.137|0.9852
92413048|NCT00913458|184715680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.57||||0.0007|TWO_SIDED|95.0|1.9|11.0|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||11.0|1.9|0.0007
92231707|NCT03093402|184365727|SUPERIORITY|The fixed effects included treatment, time, time² , time- and time² by treatment interactions. The Screening FSS score and the Screening 7-day average maximum daily pain NRS were included as covariates. Within-subject random effects for intercept and slopes for time and time² were fit using an unstructured covariance matrix, assuming a different structure for placebo and pooled active treatment groups.|Median Difference (Final Values)|-1.2||||0.419|TWO_SIDED|95.0|-2.7|0.3||This p-value is from the overall 3 degree of freedom test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active treatment arms versus placebo.|Mixed Models Analysis||Mean difference in the change from Day 1 to Day 84 for Medium JBT-101 - Placebo. The estimated mean change (95% confidence interval) from Day 1 to Day 84 for Placebo was -0.3 (-1.5, 0.9).|The null hypothesis is that linear trends from Day 1 to Day 84 are equivalent for each active JBT-101 cohort and placebo. The overall test is a 3 degree of freedom F test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active JBT-101 cohorts versus placebo.||0.3|-2.7|0.4190
92231708|NCT03093402|184365727|SUPERIORITY|The fixed effects included treatment, time, time² , time- and time² by treatment interactions. The Screening FSS score and the Screening 7-day average maximum daily pain NRS were included as covariates. Within-subject random effects for intercept and slopes for time and time² were fit using an unstructured covariance matrix, assuming a different structure for placebo and pooled active treatment groups.|Mean Difference (Final Values)|-0.7||||0.419|TWO_SIDED|95.0|-2.2|0.8||This p-value is from the overall 3 degree of freedom test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active treatment arms versus placebo.|Mixed Models Analysis||Mean difference in the change from Day 1 to Day 84 for Low JBT-101 - Placebo. The estimated mean change (95% confidence interval) from Day 1 to Day 84 for Placebo was -0.3 (-1.5, 0.9).|The null hypothesis is that linear trends from Day 1 to Day 84 are equivalent for each active JBT-101 cohort and placebo. The overall test is a 3 degree of freedom F test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active JBT-101 cohorts versus placebo.||0.8|-2.2|0.4190
92231709|NCT03093402|184365737|SUPERIORITY|||||||0.594|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each active treatment vs. placebo at Day 29.||||0.594
92231710|NCT03093402|184365737|SUPERIORITY|||||||0.487|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each active treatment vs. placebo at Day 57.||||0.487
92380089|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.51||||0.9719|TWO_SIDED|95.0|0.23|1.014|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.014|0.230|0.9719
92380090|NCT01597635|184663508|SUPERIORITY||Ratio of Active/Placebo|3.98||||1|TWO_SIDED|95.0|2.263|6.919|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||6.919|2.263|1.0000
92380091|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|3.46||||1|TWO_SIDED|95.0|1.976|6.052|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||6.052|1.976|1.000
92380092|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|3.59||||1|TWO_SIDED|95.0|2.06|6.345|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||6.345|2.060|1.0000
92380093|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.82||||0.9806|TWO_SIDED|95.0|1.031|3.17|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||3.170|1.031|0.9806
92380094|NCT01597635|184663508|SUPERIORITY||Ratio of Active/Placebo|1.5||||0.9129|TWO_SIDED|95.0|0.828|2.636|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||2.636|0.828|0.9129
92413049|NCT00913458|184715680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||0.0676|TWO_SIDED|95.0|0.9|4.7|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.7|0.9|0.0676
92413050|NCT00913458|184715681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.56||||0.0548|TWO_SIDED|95.0|1.0|59.5|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||59.5|1.0|0.0548
92413051|NCT00913458|184715681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.18||||0.0166|TWO_SIDED|95.0|1.6|94.2|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||94.2|1.6|0.0166
92413052|NCT00913458|184715681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.3619|TWO_SIDED|95.0|0.6|4.5|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.5|0.6|0.3619
92413053|NCT00913458|184715682|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.23||||0.0017|TWO_SIDED|95.0|1.6|6.7|||Regression, Logistic|Odds ratios, p-values, and 95% CIs are based on a logistic regression model with treatment as the only factor.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||6.7|1.6|0.0017
92169211|NCT02528188|184227154|SUPERIORITY|||||||0.0229|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0229
92231711|NCT03093402|184365737|SUPERIORITY|||||||0.76|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each active treatment vs. placebo at Day 85.||||0.760
92380095|NCT01597635|184663508|SUPERIORITY||Ratio of Active/Placebo|1.92||||0.9891|TWO_SIDED|95.0|1.098|3.349|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||3.349|1.098|0.9891
92380096|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|2.29||||0.9983|TWO_SIDED|95.0|1.316|3.974|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||3.974|1.316|0.9983
92380097|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.94||||0.99|TWO_SIDED|95.0|1.112|3.359|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||3.359|1.112|0.9900
92380098|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.27||||0.7996|TWO_SIDED|95.0|0.729|2.163|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||2.163|0.729|0.7996
92380099|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.23||||0.7778|TWO_SIDED|95.0|0.718|2.087|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||2.087|0.718|0.7778
92413054|NCT00913458|184715682|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.05|||<|0.0001|TWO_SIDED|95.0|4.4|28.0|||Regression, Logistic|Odds ratios, p-values, and 95% CIs are based on a logistic regression model with treatment as the only factor.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||28.0|4.4|<0.0001
92413055|NCT00913458|184715682|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.42||||0.0111|TWO_SIDED|95.0|1.3|8.8|||Regression, Logistic|Odds ratios, p-values, and 95% CIs are based on a logistic regression model with treatment as the only factor.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||8.8|1.3|0.0111
92413056|NCT00913458|184715683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.66||||0.0328|TWO_SIDED|95.0|-16.6|-0.7|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-0.7|-16.6|0.0328
92413057|NCT00913458|184715683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.64|||<|0.0001|TWO_SIDED|95.0|-30.1|-13.2|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-13.2|-30.1|<0.0001
92413058|NCT00913458|184715683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.98||||0.0035|TWO_SIDED|95.0|-21.5|-4.5|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-4.5|-21.5|0.0035
92413059|NCT00913458|184715684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.36||||0.2473|TWO_SIDED|95.0|-11.8|3.1|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||3.1|-11.8|0.2473
92413060|NCT00913458|184715684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.19||||0.0016|TWO_SIDED|95.0|-21.3|-5.1|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-5.1|-21.3|0.0016
92380100|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.24||||0.773|TWO_SIDED|95.0|0.705|2.113|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||2.113|0.705|0.7730
92380101|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.45||||0.8951|TWO_SIDED|95.0|0.814|2.604|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||2.604|0.814|0.8951
92380102|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.57||||0.9324|TWO_SIDED|95.0|0.276|1.183|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 96 hours||1.183|0.276|0.9324
92380103|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.63||||0.8982|TWO_SIDED|95.0|0.351|1.257|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.257|0.351|0.8982
92380104|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|4.22||||0.9998|TWO_SIDED|95.0|1.91|8.905|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||8.905|1.910|0.9998
92380105|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|3.67||||0.9993|TWO_SIDED|95.0|1.689|7.97|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||7.970|1.689|0.9993
92380106|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|5.26||||1|TWO_SIDED|95.0|2.392|11.754|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||11.754|2.392|1.0000
92380107|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|2.25||||0.9713|TWO_SIDED|95.0|0.972|5.136|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||5.136|0.972|0.9713
92413061|NCT00913458|184715684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.83||||0.0348|TWO_SIDED|95.0|-17.0|-0.6|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-0.6|-17.0|0.0348
92413062|NCT00913458|184715685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.51||||0.1248|TWO_SIDED|95.0|-12.6|1.6|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||1.6|-12.6|0.1248
92413063|NCT00913458|184715685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.14||||0.0004|TWO_SIDED|95.0|-21.8|-6.5|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-6.5|-21.8|0.0004
92413064|NCT00913458|184715685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.63||||0.0306|TWO_SIDED|95.0|-16.4|-0.8|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-0.8|-16.4|0.0306
92413065|NCT00913458|184715686|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.4717|TWO_SIDED|95.0|0.5|4.6|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.6|0.5|0.4717
92231712|NCT03093402|184365737|SUPERIORITY|||||||0.676|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each active treatment vs. placebo at Day 113.||||0.676
92231713|NCT03093402|184365738|SUPERIORITY|||||||0.796||||||This p-value is from an exact likelihood ratio test at Day 29 testing that the proportion of subjects with \>= 50% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.796
92231714|NCT03093402|184365738|SUPERIORITY|||||||0.955||||||This p-value is from an exact likelihood ratio test at Day 57 testing that the proportion of subjects with \>= 50% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.955
92231715|NCT03093402|184365738|SUPERIORITY|||||||0.211||||||This p-value is from an exact likelihood ratio test at Day 85 testing that the proportion of subjects with \>= 50% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.211
92231716|NCT03093402|184365738|SUPERIORITY|||||||0.481||||||This p-value is from an exact likelihood ratio test at Day 113 testing that the proportion of subjects with \>= 50% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.481
92231717|NCT03093402|184365739|SUPERIORITY|||||||0.79||||||This p-value is from an exact likelihood ratio test at Day 29 testing that the proportion of subjects with \>= 75% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.790
92413066|NCT00913458|184715686|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.77||||0.0551|TWO_SIDED|95.0|1.0|7.8|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||7.8|1.0|0.0551
92413067|NCT00913458|184715686|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.2141|TWO_SIDED|95.0|0.7|4.8|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.8|0.7|0.2141
92413068|NCT00913458|184715688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9652|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|P-values for between-treatment comparisons are based on ANCOVA on ranks of change in score with ranks of Week 52 value as covariate.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||0.4|-0.5|0.9652
92413069|NCT00913458|184715688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.2168|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|P-values for between-treatment comparisons are based on ANCOVA on ranks of change in score with ranks of Week 52 value as covariate.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||0.0|-1.0|0.2168
92413070|NCT00913458|184715688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.2131|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|P-values for between-treatment comparisons are based on ANCOVA on ranks of change in score with ranks of Week 52 value as covariate.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||0.0|-1.0|0.2131
92231718|NCT03093402|184365739|SUPERIORITY|||||||0.843||||||This p-value is from an exact likelihood ratio test at Day 57 testing that the proportion of subjects with \>= 75% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.843
92231719|NCT03093402|184365739|SUPERIORITY|||||||0.637||||||This p-value is from an exact likelihood ratio test at Day 85 testing that the proportion of subjects with \>= 75% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.637
92231720|NCT03093402|184365739|SUPERIORITY|||||||0.243||||||This p-value is from an exact likelihood ratio test at Day 113 testing that the proportion of subjects with \>= 75% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.243
92231721|NCT03093402|184365740|SUPERIORITY||||||>|0.999||||||This p-value is from an exact likelihood ratio test at Day 57 testing that the proportion of subjects with \>=100% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||>0.999
92231722|NCT03093402|184365740|SUPERIORITY|||||||0.861||||||This p-value is from an exact likelihood ratio test at Day 85 testing that the proportion of subjects with \>= 100% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||0.861
92380108|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|2.19||||0.9649|TWO_SIDED|95.0|0.94|4.975|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||4.975|0.940|0.9649
92380109|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.59||||0.8749|TWO_SIDED|95.0|0.711|3.473|||Mixed Models Analysis|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||3.473|0.711|0.8749
92380110|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.99||||0.9566|TWO_SIDED|95.0|0.899|4.342|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||4.342|0.899|0.9566
92380111|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.91||||0.9549|TWO_SIDED|95.0|0.862|4.173|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||4.173|0.862|0.9549
92380112|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.81||||0.9275|TWO_SIDED|95.0|0.816|4.005|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||4.005|0.816|0.9275
92380113|NCT01597635|184663508|SUPERIORITY||Ratio of Active/Placebo|1.32||||0.7483|TWO_SIDED|95.0|0.584|3.007|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||3.007|0.584|0.7483
92169212|NCT02528188|184227154|SUPERIORITY|||||||0.0029|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0029
92380114|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.17||||0.648|TWO_SIDED|95.0|0.516|2.675|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||2.675|0.516|0.6480
92380115|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.76||||0.9038|TWO_SIDED|95.0|0.741|4.17|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||4.170|0.741|0.9038
92380116|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.38||||0.7339|TWO_SIDED|95.0|0.49|3.915|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 96 hours||3.915|0.490|0.7339
92380117|NCT01597635|184663508|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.38||||0.7714|TWO_SIDED|95.0|0.651|3.321|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||3.321|0.651|0.7714
92380118|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.07||||1|TWO_SIDED|95.0|0.032|0.14|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||0.140|0.032|1.0000
92380119|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.1||||1|TWO_SIDED|95.0|0.048|0.209|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||0.209|0.048|1.0000
92380120|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.11||||1|TWO_SIDED|95.0|0.054|0.243|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||0.243|0.054|1.0000
92380121|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.25||||0.9996|TWO_SIDED|95.0|0.113|0.547|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||0.547|0.113|0.9996
92380122|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.29||||0.9991|TWO_SIDED|95.0|0.13|0.634|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||0.634|0.130|0.9991
92380123|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.32||||0.9979|TWO_SIDED|95.0|0.149|0.682|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||0.682|0.149|0.9979
92380124|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.19||||1||95.0|0.091|0.417|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||0.417|0.091|1.0000
92380125|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.25||||0.9998|TWO_SIDED|95.0|0.119|0.539|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||0.539|0.119|0.9998
92380126|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.31||||0.9985|TWO_SIDED|95.0|0.141|0.666|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||0.666|0.141|0.9985
92380127|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.34||||0.9977|TWO_SIDED|95.0|0.162|0.73|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||0.730|0.162|0.9977
92380128|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.22||||0.9999|TWO_SIDED|95.0|0.105|0.468|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||0.468|0.105|0.9999
92380129|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.26||||0.9996|TWO_SIDED|95.0|0.119|0.57|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||0.570|0.119|0.9996
92380130|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.82||||0.6621|TWO_SIDED|95.0|0.319|2.136|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 96 hours||2.136|0.319|0.6621
92380131|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.79||||0.7085|TWO_SIDED|95.0|0.324|1.847|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.847|0.324|0.7085
92380132|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.06||||1|TWO_SIDED|95.0|0.028|0.14|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||0.140|0.028|1.0000
92380133|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.1||||1|TWO_SIDED|95.0|0.043|0.216|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||0.216|0.043|1.0000
92231723|NCT03093402|184365741|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.39|TWO_SIDED|95.0|-4.8|8.7||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline tender joint count at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline tender joint count for High JBT-101 - Placebo. The estimated tender joint count mean change from baseline (95% confidence interval) for Placebo was -6.3 (-12.0, -0.7).|Each active JBT-101 cohort is compared to placebo.||8.7|-4.8|0.390
92278093|NCT02629965|184458223|SUPERIORITY||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.114|0.189|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.189|0.114|<0.0001
92278094|NCT00634283|184458254|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
92380134|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.08||||1|TWO_SIDED|95.0|0.034|0.177|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||0.177|0.034|1.0000
92380135|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.2||||0.9998|TWO_SIDED|95.0|0.086|0.453|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||0.453|0.086|0.9998
92380136|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.17||||0.9999|TWO_SIDED|95.0|0.075|0.4|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||0.400|0.075|0.9999
92380137|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.4||||0.9863|TWO_SIDED|95.0|0.173|0.901|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||0.901|0.173|0.9863
92380138|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.24||||0.9998|TWO_SIDED|95.0|0.103|0.529|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||0.529|0.103|0.9998
92380139|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.28||||0.9992|TWO_SIDED|95.0|0.119|0.626|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||0.626|0.119|0.9992
92380140|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.24||||0.9995|TWO_SIDED|95.0|0.102|0.561|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||0.561|0.102|0.9995
92380141|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.31||||0.9964|TWO_SIDED|95.0|0.131|0.729|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||0.729|0.131|0.9964
92380142|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.25||||0.9995|TWO_SIDED|95.0|0.107|0.584|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||0.584|0.107|0.9995
92380143|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.24||||0.9993|TWO_SIDED|95.0|0.098|0.578|||Ratio of Active/Placebo|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||0.578|0.098|0.9993
92380144|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.34||||0.9781|TWO_SIDED|95.0|0.119|0.969|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 96 hours||0.969|0.119|0.9781
92380145|NCT01597635|184663509|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.38||||0.9375|TWO_SIDED|95.0|0.154|1.341|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.341|0.154|0.9375
92380146|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.2598|TWO_SIDED|95.0|0.752|1.215|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||1.215|0.752|0.2598
92380147|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.97||||0.3949|TWO_SIDED|95.0|0.783|1.273|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 1 hour||1.273|0.783|0.3949
92380148|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.4175|TWO_SIDED|95.0|0.791|1.294|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||1.294|0.791|0.4175
92380149|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.442|TWO_SIDED|95.0|0.806|1.292|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 4 hours||1.292|0.806|0.4420
92380150|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4432|TWO_SIDED|95.0|0.811|1.262|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||1.262|0.811|0.4432
92380151|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4578|TWO_SIDED|95.0|0.818|1.229|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 8 hours||1.229|0.818|0.4578
92231724|NCT03093402|184365741|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.39|TWO_SIDED|95.0|-4.9|8.2||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline tender joint count at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline tender joint count for Medium JBT-101 - Placebo. The estimated tender joint count mean change from baseline (95% confidence interval) for Placebo was -6.3 (-12.0, -0.7).|Each active JBT-101 cohort is compared to placebo.||8.2|-4.9|0.390
92380152|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3365|TWO_SIDED|95.0|0.79|1.167|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.167|0.790|0.3365
92380153|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.95||||0.3339|TWO_SIDED|95.0|0.77|1.163|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 18 hours||1.163|0.770|0.3339
92380154|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3608|TWO_SIDED|95.0|0.786|1.166|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.166|0.786|0.3608
92380155|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3584|TWO_SIDED|95.0|0.788|1.168|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24.5 hours||1.168|0.788|0.3584
92380156|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.1219|TWO_SIDED|95.0|0.725|1.073|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 25 hours||1.073|0.725|0.1219
92380157|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4662|TWO_SIDED|95.0|0.814|1.21|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 26 hours||1.210|0.814|0.4662
92413071|NCT00913458|184715690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.9338|TWO_SIDED|95.0|-10.0|10.9|||ANCOVA||Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.|Change from Week 52 to Week 91. The hyothesis of primary interest was the superiority of E25+MTX compared with PBO.||10.9|-10.0|0.9338
92413072|NCT00913458|184715690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.55||||0.713|TWO_SIDED|95.0|-16.4|11.2|||ANCOVA|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||11.2|-16.4|0.7130
92413073|NCT00913458|184715690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.99||||0.6628|TWO_SIDED|95.0|-16.6|10.6|||ANCOVA|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||10.6|-16.6|0.6628
92413074|NCT00913458|184715692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.74||||0.1303|TWO_SIDED|95.0|-15.5|2.0|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||2.0|-15.5|0.1303
92380158|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.02||||0.5748|TWO_SIDED|95.0|0.828|1.247|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 28 hours||1.247|0.828|0.5748
92380159|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.97||||0.4104|TWO_SIDED|95.0|0.786|1.204|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 30 hours||1.204|0.786|0.4104
92380160|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.5114|TWO_SIDED|95.0|0.817|1.246|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 32 hours||1.246|0.817|0.5114
92380161|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.4213|TWO_SIDED|95.0|0.783|1.2|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 36 hours||1.200|0.783|0.4213
92380162|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.2663|TWO_SIDED|95.0|0.731|1.132|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 42 hours||1.132|0.731|0.2663
92380163|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.2373|TWO_SIDED|95.0|0.72|1.142|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.142|0.720|0.2373
92380164|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.2575|TWO_SIDED|95.0|0.721|1.149|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||1.149|0.721|0.2575
92380165|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.2173|TWO_SIDED|95.0|0.708|1.127|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 49 hours||1.127|0.708|0.2173
92380166|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.2406|TWO_SIDED|95.0|0.717|1.143|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||1.143|0.717|0.2406
92380167|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.2471|TWO_SIDED|95.0|0.721|1.151|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 52 hours||1.151|0.721|0.2471
92380168|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.2585|TWO_SIDED|95.0|0.727|1.157|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||1.157|0.727|0.2585
92380169|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.94||||0.3101|TWO_SIDED|95.0|0.737|1.17|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 56 hours||1.170|0.737|0.3101
92380170|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.2476|TWO_SIDED|95.0|0.727|1.16|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||1.160|0.727|0.2476
92413075|NCT00913458|184715692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.59||||0.0024|TWO_SIDED|95.0|-27.1|-6.0|||Longitudinal statisitical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-6.0|-27.1|0.0024
92380171|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3887|TWO_SIDED|95.0|0.767|1.222|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||1.222|0.767|0.3887
92380172|NCT01597635|184663510|SUPERIORITY||Ratio of Active/Placebo|0.92||||0.2294|TWO_SIDED|95.0|0.749|1.146|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.146|0.749|0.2294
92413076|NCT00913458|184715692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.85||||0.0621|TWO_SIDED|95.0|-20.2|0.5|||Longitudinal statistical model|||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||0.5|-20.2|0.0621
92413077|NCT00913458|184715694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.01||||0.4664|TWO_SIDED|95.0|-15.0|6.9|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||6.9|-15.0|0.4664
92413078|NCT00913458|184715694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.57||||0.021|TWO_SIDED|95.0|-30.6|-2.6|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-2.6|-30.6|0.0210
92413079|NCT00913458|184715694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.56||||0.0713|TWO_SIDED|95.0|-26.2|1.1|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||1.1|-26.2|0.0713
92231725|NCT03093402|184365741|SUPERIORITY||Median Difference (Final Values)|-2.0||||0.39|TWO_SIDED|95.0|-8.6|4.6||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline tender joint count at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline tender joint count for Low JBT-101 - Placebo. The estimated tender joint count mean change from baseline (95% confidence interval) for Placebo was -6.3 (-12.0, -0.7).|Each active JBT-101 cohort is compared to placebo.||4.6|-8.6|0.390
92231726|NCT03093402|184365742|SUPERIORITY||Median Difference (Final Values)|0.7||||0.556|TWO_SIDED|95.0|-1.6|3.0||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline swollen joint count at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline swollen joint count for High JBT-101 - Placebo. The estimated swollen joint count mean change from baseline (95% confidence interval) for Placebo was -4.0 (-5.7, -2.4).|Each active JBT-101 cohort is compared to placebo.||3.0|-1.6|0.556
92231727|NCT03093402|184365742|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.556|TWO_SIDED|95.0|-2.5|2.0||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline swollen joint count at Day 85 for each JBT-101 cohort versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline swollen joint count for Medium JBT-101 - Placebo. The estimated swollen joint count mean change from baseline (95% confidence interval) for Placebo was -4.0 (-5.7, -2.4).|Each active JBT-101 cohort is compared to placebo.||2.0|-2.5|0.556
92231728|NCT03093402|184365742|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.556|TWO_SIDED|95.0|-3.1|1.4||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline swollen joint count at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline swollen joint count for High JBT-101 - Placebo. The estimated swollen joint count mean change from baseline (95% confidence interval) for Placebo was -4.0 (-5.7, -2.4).|Each active JBT-101 cohort is compared to placebo.||1.4|-3.1|0.556
92380173|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.09||||0.8522|TWO_SIDED|95.0|0.916|1.234|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 168 hours||1.234|0.916|0.8522
92380174|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.02||||0.5885|TWO_SIDED|95.0|0.89|1.164|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||1.164|0.890|0.5885
92380175|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.07||||0.8558|TWO_SIDED|95.0|0.94|1.23|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 1 hour||1.230|0.940|0.8558
92380176|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.07||||0.8374|TWO_SIDED|95.0|0.932|1.224|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hour||1.224|0.932|0.8374
92380177|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.5886|TWO_SIDED|95.0|0.887|1.152|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 4 hours||1.152|0.887|0.5886
92380178|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.7532|TWO_SIDED|95.0|0.918|1.18|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||1.180|0.918|0.7532
92413080|NCT00913458|184715696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.11||||0.0256|TWO_SIDED|95.0|-17.1|-1.1|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-1.1|-17.1|0.0256
92380179|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.7108|TWO_SIDED|95.0|0.906|1.179|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 8 hours||1.179|0.906|0.7108
92380180|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.7445|TWO_SIDED|95.0|0.918|1.19|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.190|0.918|0.7445
92380181|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.3759|TWO_SIDED|95.0|0.863|1.115|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 18 hours||1.115|0.863|0.3759
92380182|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.398|TWO_SIDED|95.0|0.859|1.118|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.118|0.859|0.3980
92380183|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.97||||0.3231|TWO_SIDED|95.0|0.849|1.103|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24.5 hours||1.103|0.849|0.3231
92413081|NCT00913458|184715696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.62|||<|0.0001|TWO_SIDED|95.0|-28.1|-11.1|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-11.1|-28.1|<0.0001
92413082|NCT00913458|184715696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.51||||0.0161|TWO_SIDED|95.0|-19.0|-2.0|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-2.0|-19.0|0.0161
92413083|NCT05194579|184715703|EQUIVALENCE|Pharmacokinetic equivalence were assessed by constructing the 90% confidence intervals (CIs) for the GMR (test/reference) for Cmax, AUClast and AUCinf. This table displays Cmax statistical analysis.|Ratio of Geometric Mean|117.06|||||TWO_SIDED|90.0|103.07|132.93|||ANOVA|||The null hypothesis was PF-06881894 OBI was not equivalent to PF-06881894 PFS.||132.93|103.07|
92231729|NCT03093402|184365743|SUPERIORITY|||||||0.669|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 29.||||0.669
92380184|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.1245|TWO_SIDED|95.0|0.812|1.056|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 25 hours||1.056|0.812|0.1245
92380185|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4631|TWO_SIDED|95.0|0.87|1.134|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 26 hours||1.134|0.870|0.4631
92380186|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.1026|TWO_SIDED|95.0|0.801|1.047|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 28 hours||1.047|0.801|0.1026
92380187|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.97||||0.3152|TWO_SIDED|95.0|0.85|1.101|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 30 hours||1.101|0.850|0.3152
92380188|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.0762|TWO_SIDED|95.0|0.803|1.035|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 32 hours||1.035|0.803|0.0762
92380189|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.0274||95.0|0.763|1.003|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 36 hours||1.003|0.763|0.0274
92380190|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.3594|TWO_SIDED|95.0|0.853|1.112|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 42 hours||1.112|0.853|0.3594
92380191|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.7027|TWO_SIDED|95.0|0.906|1.197|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.197|0.906|0.7027
92380192|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.08||||0.8661|TWO_SIDED|95.0|0.941|1.246|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||1.246|0.941|0.8661
92380193|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.8084|TWO_SIDED|95.0|0.924|1.228|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 49 hours||1.228|0.924|0.8084
92380194|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.13||||0.9504|TWO_SIDED|95.0|0.976|1.3|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||1.300|0.976|0.9504
92380195|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.53|TWO_SIDED|95.0|0.871|1.164|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 52 hours||1.164|0.871|0.5300
92380196|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.08||||0.8595|TWO_SIDED|95.0|0.942|1.243|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||1.243|0.942|0.8595
92380197|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.09||||0.8802|TWO_SIDED|95.0|0.943|1.261|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 56 hours||1.261|0.943|0.8802
92413084|NCT05194579|184715704|EQUIVALENCE|Pharmacokinetic equivalence were assessed by constructing the 90% CIs for the GMR (test/reference) for Cmax, AUClast and AUCinf. This table displays AUClast statistical analysis.|Ratio of Geometric Mean|122.12|||||TWO_SIDED|90.0|107.9|138.22|||ANOVA|||The null hypothesis was PF-06881894 OBI was not equivalent to PF-06881894 PFS.||138.22|107.90|
92231730|NCT03093402|184365743|SUPERIORITY|||||||0.432|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 57.||||0.432
92231731|NCT03093402|184365743|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 85.||||0.780
92231732|NCT03093402|184365743|SUPERIORITY|||||||0.285|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 113.||||0.285
92380198|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.11||||0.9232|TWO_SIDED|95.0|0.958|1.278|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||1.278|0.958|0.9232
92231733|NCT03093402|184365745|SUPERIORITY|The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 29.||||||0.872|||||||Mixed Models Analysis|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||0.872
92380199|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.07||||0.7911|TWO_SIDED|95.0|0.902|1.256|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||1.256|0.902|0.7911
92380200|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.28||||0.9946|TWO_SIDED|95.0|1.059|1.514|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.514|1.059|0.9946
92380201|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.26||||0.983|TWO_SIDED|95.0|1.019|1.444|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 168 hours||1.444|1.019|0.9830
92231734|NCT03093402|184365745|SUPERIORITY|The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 57.||||||0.895|||||||Mixed Models Analysis|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||0.895
92380202|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.08||||0.8024|TWO_SIDED|95.0|0.91|1.261|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||1.261|0.910|0.8024
92380203|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.4806|TWO_SIDED|95.0|0.843|1.166|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 1 hour||1.166|0.843|0.4806
92380204|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.6658|TWO_SIDED|95.0|0.869|1.223|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||1.223|0.869|0.6658
92380205|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.03||||0.6131|TWO_SIDED|95.0|0.856|1.212|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 4 hours||1.212|0.856|0.6131
92380206|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.02||||0.5795|TWO_SIDED|95.0|0.856|1.197|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||1.197|0.856|0.5795
92380207|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.85||||0.0209|TWO_SIDED|95.0|0.716|0.993|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 8 hours||0.993|0.716|0.0209
92380208|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.4823|TWO_SIDED|95.0|0.83|1.187|||Mixed Models Analysis|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.187|0.830|0.4823
92380209|NCT01597635|184663510|SUPERIORITY_OR_OTHER||0.0406|0.85||||0.0406|TWO_SIDED|95.0|0.703|1.021|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 18 hours||1.021|0.703|0.0406
92380210|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.5186|TWO_SIDED|95.0|0.844|1.169|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.169|0.844|0.5186
92380211|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.387|TWO_SIDED|95.0|0.824|1.132|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24.5 hours||1.132|0.824|0.3870
92380212|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.1281|TWO_SIDED|95.0|0.77|1.065|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 25 hours||1.065|0.770|0.1281
92413085|NCT05194579|184715705|EQUIVALENCE|Pharmacokinetic equivalence were assessed by constructing the 90% CIs for the GMR (test/reference) for Cmax, AUClast and AUCinf. This table displays AUCinf statistical analysis.|Ratio of Geometric Mean|123.75|||||TWO_SIDED|90.0|108.75|140.82|||ANOVA|||The null hypothesis was PF-06881894 OBI was not equivalent to PF-06881894 PFS.||140.82|108.75|
92413086|NCT01433289|184715770|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||The study hypothesis tested whether Polyphenon E given twice daily for 14 days at the specified doses has an effect on antiviral activity compared with placebo, measured by differences from baseline to day 14 in plasma HIV-1 RNA level (log10 copies/mL). The Wilcoxon signed-rank test was used to test the null hypothesis that there was no change at Day 14 versus baseline.||||>0.05
92231735|NCT03093402|184365745|SUPERIORITY|The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 85.||||||0.669|||||||Mixed Models Analysis|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||0.669
92231736|NCT03093402|184365745|SUPERIORITY|The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 113.||||||0.668|||||||Mixed Models Analysis|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||0.668
92231737|NCT03093402|184365746|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.82|TWO_SIDED|95.0|-2.3|1.5||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline SELENA-SLEDAI Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline SLEDAI score for High JBT-101 - Placebo. The estimated Day 85 SLEDAI mean change from baseline (95% confidence interval) for Placebo was -2.2 (-3.6, -0.8).|Each active JBT-101 cohort is compared to placebo.||1.5|-2.3|.820
92231738|NCT03093402|184365746|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.82|TWO_SIDED|95.0|-2.0|1.8||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline SELENA-SLEDAI Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline SLEDAI score for Medium JBT-101 - Placebo. The estimated Day 85 SLEDAI mean change from baseline (95% confidence interval) for Placebo was -2.2 (-3.6, -0.8).|Each active JBT-101 cohort is compared to placebo.||1.8|-2.0|.820
92231739|NCT03093402|184365746|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.82|TWO_SIDED|95.0|-2.6|1.1||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline SELENA-SLEDAI Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline SLEDAI score for Low JBT-101 - Placebo. The estimated Day 85 SLEDAI mean change from baseline (95% confidence interval) for Placebo was -2.2 (-3.6, -0.8).|Each active JBT-101 cohort is compared to placebo.||1.1|-2.6|.820
92231740|NCT03093402|184365747|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.244|TWO_SIDED|95.0|-3.0|4.4||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline BILAG total score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline BILAG score for High JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.3 (-7.0, -1.5).|Each active JBT-101 cohort is compared to placebo.||4.4|-3.0|.244
92231741|NCT03093402|184365747|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.244|TWO_SIDED|95.0|-5.2|2.0||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline BILAG total score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline BILAG score for Medium JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.3 (-7.0, -1.5).|Each active JBT-101 cohort is compared to placebo.||2.0|-5.2|.244
92231742|NCT03093402|184365747|SUPERIORITY||Median Difference (Final Values)|-2.6||||0.244|TWO_SIDED|95.0|-6.2|0.9||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline BILAG total score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline BILAG score for Low JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.3 (-7.0, -1.5).|Each active JBT-101 cohort is compared to placebo.||0.9|-6.2|.244
92231743|NCT03093402|184365748|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.408|TWO_SIDED|95.0|-0.27|0.4||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Physician's Global Assessment (PGA) Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline PGA score for High JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -0.43 (-0.70, -0.15).|Each active JBT-101 cohort is compared to placebo.||0.40|-0.27|0.408
92231744|NCT03093402|184365748|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.408|TWO_SIDED|95.0|-0.4|0.26||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Physician's Global Assessment (PGA) Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline PGA score for High JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -0.43 (-0.70, -0.15).|Each active JBT-101 cohort is compared to placebo.||0.26|-0.40|0.408
92231745|NCT03093402|184365748|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.408|TWO_SIDED|95.0|-0.5|0.16||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Physician's Global Assessment (PGA) Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline PGA score for Low JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -0.43 (-0.70, -0.15).|Each active JBT-101 cohort is compared to placebo.||0.16|-0.50|0.408
92231746|NCT03093402|184365749|SUPERIORITY||Mean Difference (Final Values)|-21.48||||0.07|TWO_SIDED|95.0|-37.24|-5.72||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Patient Global Assessment Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline Patient Global Assessment score for High JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -5.27 (-16.11, 5.56).|Each active JBT-101 cohort is compared to placebo.||-5.72|-37.24|0.070
92380213|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4754|TWO_SIDED|95.0|0.837|1.181|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 26 hours||1.181|0.837|0.4754
92413087|NCT01433289|184715770|SUPERIORITY|||||||0.74||||||Analysis was stratified by treatment group. The Kruskal-Wallis test was used to compare the change of log10 HIV-1 RNA copies/ml between treatment groups.|Kruskal-Wallis|||||||0.74
92413088|NCT00119678|184715825|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.7|1.5|||||Cox proportional-hazards model was used to estimate the hazard ratio of abatacept versus placebo for SLE disease flare. The 95% two-sided confidence interval was provided for the hazard ratio for treatment.|||1.5|0.7|
92413089|NCT03567343|184715850|EQUIVALENCE|Significance set to 0.05|Mean Difference (Net)|-2.1||||0.1543|TWO_SIDED|95.0|-5.03|0.82||The threshold for statistical significance was P\< 0.05.|Paired T-test|||||0.82|-5.03|0.1543
92231747|NCT03093402|184365749|SUPERIORITY||Mean Difference (Final Values)|-10.4||||0.07|TWO_SIDED|95.0|-25.33|4.54||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Patient Global Assessment Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline Patient Global Assessment score for High JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -5.27 (-16.11, 5.56).|Each active JBT-101 cohort is compared to placebo.||4.54|-25.33|0.070
92231748|NCT03093402|184365749|SUPERIORITY||Mean Difference (Final Values)|-10.81||||0.07|TWO_SIDED|95.0|-25.78|4.16||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Patient Global Assessment Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline Patient Global Assessment score for Low JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -5.27 (-16.11, 5.56).|Each active JBT-101 cohort is compared to placebo.||4.16|-25.78|0.070
92231749|NCT03093402|184365750|SUPERIORITY||Median Difference (Final Values)|0.3||||0.979|TWO_SIDED|95.0|-3.38|3.99||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Physical Function T-score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 1.8 (-0.8, 4.3).|||3.99|-3.38|0.979
92231750|NCT03093402|184365750|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.979|TWO_SIDED|95.0|-3.13|3.93||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Physical Function T-score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 1.8 (-0.8, 4.3).|||3.93|-3.13|0.979
92231751|NCT03093402|184365750|SUPERIORITY||Median Difference (Final Values)|0.77||||0.979|TWO_SIDED|95.0|-2.77|4.31||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Physical Function Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was 1.8 (-0.8, 4.3).|||4.31|-2.77|0.979
92231752|NCT03093402|184365751|SUPERIORITY||Mean Difference (Final Values)|-1.44||||0.788|TWO_SIDED|95.0|-6.14|3.26||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Anxiety T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -1.8 (-4.8, 1.2).|||3.26|-6.14|0.788
92231753|NCT03093402|184365751|SUPERIORITY||Mean Difference (Final Values)|-1.56||||0.788|TWO_SIDED|95.0|-6.07|2.96||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Anxiety T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -1.8 (-4.8, 1.2).|||2.96|-6.07|0.788
92380214|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.5627|TWO_SIDED|95.0|0.856|1.217|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 28 hours||1.217|0.856|0.5627
92380215|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.5552|TWO_SIDED|95.0|0.848|1.22|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 30 hours||1.220|0.848|0.5552
92413090|NCT03567343|184715850|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-2.53||||0.1827|TWO_SIDED|95.0|-6.3|1.24|||Paired T-test|||||1.24|-6.3|0.1827
92380216|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.503|TWO_SIDED|95.0|0.843|1.201|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 32 hours||1.201|0.843|0.5030
92380217|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.5558|TWO_SIDED|95.0|0.84|1.218|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 36 hours||1.218|0.840|0.5558
92413091|NCT03567343|184715851|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.2||||0.8165|TWO_SIDED|95.0|-1.96|1.56|||Paired T-test|||||1.56|-1.96|0.8165
92413092|NCT03567343|184715851|EQUIVALENCE|P\<0.05|Mean Difference (Net)|1.58||||0.1821|TWO_SIDED|95.0|-0.77|3.94|||Paired T-test|||||3.94|-0.77|0.1821
92413093|NCT03567343|184715852|EQUIVALENCE|P\<0.05|Mean Difference (Net)|20.94||||0.0156|TWO_SIDED|95.0|4.19|37.69|||Paired T-test|||||37.69|4.19|0.0156
92380218|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.94||||0.2709|TWO_SIDED|95.0|0.769|1.135|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 42 hours||1.135|0.769|0.2709
92380219|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.4143|TWO_SIDED|95.0|0.795|1.208|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.208|0.795|0.4143
92380220|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.09||||0.7886|TWO_SIDED|95.0|0.891|1.348|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||1.348|0.891|0.7886
92380221|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.08||||0.7607|TWO_SIDED|95.0|0.885|1.353|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 49 hours||1.353|0.885|0.7607
92380222|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.13||||0.8677|TWO_SIDED|95.0|0.922|1.4|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||1.400|0.922|0.8677
92380223|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.7012|TWO_SIDED|95.0|0.847|1.302|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 52 hours||1.302|0.847|0.7012
92413094|NCT03567343|184715852|EQUIVALENCE|P\<0.05|Mean Difference (Net)|20.08||||0.0572|TWO_SIDED|95.0|-0.64|40.8|||Paired T-test|||||40.8|-0.64|0.0572
92413095|NCT03567343|184715853|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-4.48||||0.0781|TWO_SIDED|95.0|-9.37|0.41|||Paired T-test|||||0.41|-9.37|0.0781
92280450|NCT02607800|184463587|NON_INFERIORITY|Noninferiority was demonstrated if the lower bound of the 2-sided 95% confidence interval (CI) for the difference in SVR12 was greater than -5%. If the lower bound of the CI was greater than -5% (ie, the noninferiority null hypothesis was rejected), a 2-sided stratified Cochran-Mantel-Haenszel test was to be used to test for the superiority of SOF/VEL/VOX for 8 weeks over SOF/VEL for 12 weeks at a significance level of 0.05.|Difference in proportions|-3.2|||||TWO_SIDED|95.0|-6.0|-0.4|||||Difference in proportions between treatment groups and associated 95% CI were calculated based on stratum-adjusted Mantel-Haenszel proportions.|||-0.4|-6.0|
92380224|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.5156|TWO_SIDED|95.0|0.805|1.23|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||1.230|0.805|0.5156
92380225|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3524|TWO_SIDED|95.0|0.783|1.178|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 56 hours||1.178|0.783|0.3524
92380226|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.638|TWO_SIDED|95.0|0.845|1.292|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||1.292|0.845|0.6380
92380227|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.4003|TWO_SIDED|95.0|0.743|1.241|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||1.241|0.743|0.4003
92380228|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.16||||0.8817|TWO_SIDED|95.0|0.907|1.502|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.502|0.907|0.8817
92380229|NCT01597635|184663510|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.14||||0.8145|TWO_SIDED|95.0|0.804|1.505|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 168 hours||1.505|0.804|0.8145
92380230|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.6468|TWO_SIDED|95.0|0.765|1.321|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||1.321|0.765|0.6468
92380231|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.1965|TWO_SIDED|95.0|0.658|1.136|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 1 hour||1.136|0.658|0.1965
92380232|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.1681|TWO_SIDED|95.0|0.694|1.129|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||1.129|0.694|0.1681
92380233|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.85||||0.0877|TWO_SIDED|95.0|0.669|1.075|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 4 hours||1.075|0.669|0.0877
92380234|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.2011|TWO_SIDED|95.0|0.715|1.159|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||1.159|0.715|0.2011
92380235|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.6855|TWO_SIDED|95.0|0.842|1.345|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 8 hours||1.345|0.842|0.6855
92380236|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.6093|TWO_SIDED|95.0|0.8|1.325|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.325|0.800|0.6093
92380237|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.435|TWO_SIDED|95.0|0.765|1.253|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 18 hours||1.253|0.765|0.4350
92380238|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.2232|TWO_SIDED|95.0|0.722|1.195|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.195|0.722|0.2232
92380239|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.2716|TWO_SIDED|95.0|0.733|1.2|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24.5 hours||1.200|0.733|0.2716
92380240|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.2866|TWO_SIDED|95.0|0.726|1.19|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 25 hours||1.190|0.726|0.2866
92413096|NCT03567343|184715853|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-3.0||||0.242|TWO_SIDED|95.0|-8.1|2.1|||Paired T-test|||||2.1|-8.1|0.242
92413097|NCT03567343|184715854|EQUIVALENCE|P\<0.05|Mean Difference (Net)|2.91||||0.0195|TWO_SIDED|95.0|0.49|5.32|||Paired T-test|||||5.32|0.49|0.0195
92413098|NCT03567343|184715854|EQUIVALENCE|P\<0.05|Mean Difference (Net)|4.66||||0.0097|TWO_SIDED|95.0|1.19|8.12|||Paired T-test|||||8.12|1.19|0.0097
92231754|NCT03093402|184365751|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.788|TWO_SIDED|95.0|-4.0|4.94||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Anxiety T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -1.8 (-4.8, 1.2).|||4.94|-4.00|0.788
92380241|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.5033|TWO_SIDED|95.0|0.78|1.27|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 26 hours||1.270|0.780|0.5033
92380242|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.1493|TWO_SIDED|95.0|0.684|1.12|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 28 hours||1.120|0.684|0.1493
92280451|NCT01202747|184463600|SUPERIORITY_OR_OTHER|||||||0.0005||||||p\<0.05 considered statistically significant|Regression, Linear|||||||0.0005
92380243|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.4947|TWO_SIDED|95.0|0.759|1.301|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 30 hours||1.301|0.759|0.4947
92380244|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.89||||0.1951|TWO_SIDED|95.0|0.678|1.161|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 32 hours||1.161|0.678|0.1951
92380245|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.8||||0.0512|TWO_SIDED|95.0|0.612|1.05|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 36 hours||1.050|0.612|0.0512
92380246|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.47|TWO_SIDED|95.0|0.775|1.279|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 42 hours||1.279|0.775|0.4700
92413099|NCT03567343|184715855|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.93|||<|0.0001|TWO_SIDED|95.0|0.59|1.28|||Paired T-test|||||1.28|0.59|<0.0001
92413100|NCT03567343|184715855|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.45||||0.0179|TWO_SIDED|95.0|0.08|0.81|||Paired T-test|||||0.81|0.08|0.0179
92380247|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.634|TWO_SIDED|95.0|0.811|1.368|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.368|0.811|0.6340
92380248|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.2129|TWO_SIDED|95.0|0.689|1.183|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||1.183|0.689|0.2129
92380249|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.6418|TWO_SIDED|95.0|0.798|1.411|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 49 hours||1.411|0.798|0.6418
92380250|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4797|TWO_SIDED|95.0|0.754|1.315|||Ratio of Active/Placebo|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||1.315|0.754|0.4797
92380251|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.2659|TWO_SIDED|95.0|0.703|1.199|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 52 hours||1.199|0.703|0.2659
92380252|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.2102|TWO_SIDED|95.0|0.687|1.159|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||1.159|0.687|0.2102
92380253|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3623|TWO_SIDED|95.0|0.74|1.24|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 56 hours||1.240|0.740|0.3623
92380254|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.95||||0.3499|TWO_SIDED|95.0|0.73|1.225|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||1.225|0.730|0.3499
92380255|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.6494|TWO_SIDED|95.0|0.787|1.377|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||1.377|0.787|0.6494
92380256|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.02||||0.5567|TWO_SIDED|95.0|0.766|1.358|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.358|0.766|0.5567
92380257|NCT01597635|184663511|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.85||||0.1095|TWO_SIDED|95.0|0.615|1.073|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 168 hours||1.073|0.615|0.1095
92380258|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.6098|TWO_SIDED|95.0|0.721|1.644|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||1.644|0.721|0.6098
92380259|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.35||||0.9441|TWO_SIDED|95.0|0.931|2.068|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 1 hour||2.068|0.931|0.9441
92380260|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.12||||0.7173|TWO_SIDED|95.0|0.749|1.621|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||1.621|0.749|0.7173
92380261|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.26||||0.8292|TWO_SIDED|95.0|0.81|1.949|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 4 hours||1.949|0.810|0.8292
92380262|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.23||||0.8008|TWO_SIDED|95.0|0.775|1.832|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||1.832|0.775|0.8008
92413101|NCT03567343|184715856|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.03||||0.9875|TWO_SIDED|95.0|-3.89|3.83|||Paired T-test|||||3.83|-3.89|0.9875
92413102|NCT03567343|184715856|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.2||||0.9463|TWO_SIDED|95.0|-6.23|5.82|||Paired T-test|||||5.82|-6.23|0.9463
92413103|NCT03567343|184715857|EQUIVALENCE|P\<0.05|Mean Difference (Net)|28.5||||0.0037|TWO_SIDED|95.0|9.84|47.17|||Paired T-test|||||47.17|9.84|0.0037
92413104|NCT03567343|184715857|EQUIVALENCE|p\<0.05|Mean Difference (Net)|9.84||||0.4395|TWO_SIDED|95.0|-15.63|35.31|||Paired T-test|||||35.31|-15.63|0.4395
92413105|NCT03567343|184715858|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.03||||0.912|TWO_SIDED|95.0|-0.59|0.53|||Paired T-test|||||0.53|-0.59|0.912
92231755|NCT03093402|184365752|SUPERIORITY||Mean Difference (Final Values)|-1.49||||0.766|TWO_SIDED|95.0|-6.14|3.16||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Depression T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -1.7(-4.6, 1.3).|||3.16|-6.14|0.766
92280452|NCT00601484|184463630|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|-1.36|STANDARD_ERROR_OF_MEAN|0.503|||TWO_SIDED|90.0|-2.203|-0.51||||||Analysis was based on analysis of covariance (ANCOVA) model with terms for treatment, age, gender, body mass index (BMI), baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.510|-2.203|
92380263|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.2||||0.7905|TWO_SIDED|95.0|0.776|1.799|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 8 hours||1.799|0.776|0.7905
92380264|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.17||||0.7566|TWO_SIDED|95.0|0.737|1.958|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.958|0.737|0.7566
92380265|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.25||||0.8349|TWO_SIDED|95.0|0.812|2.05|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 18 hours||2.050|0.812|0.8349
92380266|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4739|TWO_SIDED|95.0|0.713|1.527|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.527|0.713|0.4739
92380267|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.6291|TWO_SIDED|95.0|0.763|1.647|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24.5 hours||1.647|0.763|0.6291
92380268|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.18||||0.8032|TWO_SIDED|95.0|0.83|1.814|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 25 hours||1.814|0.830|0.8032
92380269|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.325|TWO_SIDED|95.0|0.626|1.416|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 26 hours||1.416|0.626|0.3250
92380270|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.5828|TWO_SIDED|95.0|0.687|1.63|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 28 hours||1.630|0.687|0.5828
92380271|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.4546|TWO_SIDED|95.0|0.661|1.512|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 30 hours||1.512|0.661|0.4546
92380272|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.6158|TWO_SIDED|95.0|0.719|1.639|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 32 hours||1.639|0.719|0.6158
92380273|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.17||||0.7748|TWO_SIDED|95.0|0.752|1.77|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 36 hours||1.770|0.752|0.7748
92380274|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.09||||0.6565|TWO_SIDED|95.0|0.686|1.714|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 42 hours||1.714|0.686|0.6565
92380275|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.87||||0.2773|TWO_SIDED|95.0|0.566|1.38|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.380|0.566|0.2773
92380276|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.3606|TWO_SIDED|95.0|0.61|1.467|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||1.467|0.610|0.3606
92380277|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.83||||0.2211|TWO_SIDED|95.0|0.555|1.317|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 49 hours||1.317|0.555|0.2211
92380278|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.286|TWO_SIDED|95.0|0.587|1.348|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||1.348|0.587|0.2860
92380279|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.94||||0.4079|TWO_SIDED|95.0|0.609|1.51|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 52 hours||1.510|0.609|0.4079
92380280|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.02||||0.5284|TWO_SIDED|95.0|0.614|1.663|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||1.663|0.614|0.5284
92380281|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.3586|TWO_SIDED|95.0|0.568|1.458|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 56 hours||1.458|0.568|0.3586
92380282|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.13||||0.6768|TWO_SIDED|95.0|0.672|1.853|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||1.853|0.672|0.6768
92380283|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.77||||0.1574|TWO_SIDED|95.0|0.488|1.39|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||1.390|0.488|0.1574
92380284|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.39|TWO_SIDED|95.0|0.521|1.584|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.584|0.521|0.3900
92380285|NCT01597635|184663512|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.5915|TWO_SIDED|95.0|0.748|1.516|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 168 hours||1.516|0.748|0.5915
92380286|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.06828|TWO_SIDED|95.0|0.528|1.501|||Bayesian repeated measures model|||CXCL-8 (IL-8), Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.501|0.528|0.06828
92380287|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.5674|TWO_SIDED|95.0|0.57|1.609|||Bayesian repeated measures model|||CXCL-8 (IL-8), Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.609|0.570|0.5674
92380288|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.66||||0.8855|TWO_SIDED|95.0|0.321|1.316|||Bayesian repeated measures model|||CXCL-8 (IL-8), Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.316|0.321|0.8855
92380289|NCT01597635|184663515|SUPERIORITY||Ratio of Active/Placebo|0.97||||0.5358|TWO_SIDED|95.0|0.531|1.76|||Bayesian repeated measures model|||CXCL-8 (IL-8), Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.760|0.531|0.5358
92413106|NCT03567343|184715858|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.11||||0.8207|TWO_SIDED|95.0|-1.04|0.83|||Paired T-test|||||0.83|-1.04|.8207
92413107|NCT03567343|184715859|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.89||||0.1929|TWO_SIDED|95.0|-2.26|0.47|||Paired T-test|||||0.47|-2.26|0.1929
92413108|NCT03567343|184715859|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.24||||0.8744|TWO_SIDED|95.0|-3.35|2.86|||Paired T-test|||||2.86|-3.35|0.8744
92413109|NCT03567343|184715860|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.95||||0.2048|TWO_SIDED|95.0|-2.45|0.54|||Paired T-test|||||0.54|-2.45|0.2048
92413110|NCT03567343|184715860|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.96||||0.1933|TWO_SIDED|95.0|-0.5|2.42|||Paired T-test|||||2.42|-0.5|0.1933
92231756|NCT03093402|184365752|SUPERIORITY||Mean Difference (Final Values)|0.76||||0.766|TWO_SIDED|95.0|-3.6|5.11||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Depression T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -1.7(-4.6, 1.3).|||5.11|-3.60|0.766
92413111|NCT03567343|184715861|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-1.69||||0.034|TWO_SIDED|95.0|-3.25|-0.13|||Paired T-test|||change in mean number of lapses||-0.13|-3.25|0.034
92413112|NCT03567343|184715861|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.41||||0.5242|TWO_SIDED|95.0|-0.88|1.71|||Paired T-test|||Change in number of lapses||1.71|-0.88|0.5242
92413113|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.67||||0.8106|TWO_SIDED|95.0|-4.92|6.25|||Paired T-test|||POMS-TMD||6.25|-4.92|0.8106
92413114|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|3.87||||0.1427|TWO_SIDED|95.0|-1.35|9.09|||Paired T-test|||POMS-TMD||9.09|-1.35|0.1427
92413115|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.05||||0.9344|TWO_SIDED|95.0|-1.11|1.21|||Paired T-test|||POMS-Tension||1.21|-1.11|0.9344
92413116|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|1.54||||0.0092|TWO_SIDED|95.0|0.4|2.69|||Paired T-test|||POMS-Tension||2.69|0.40|0.0092
92380290|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.17||||0.699|TWO_SIDED|95.0|0.622|2.155|||Bayesian repeated measures model|||CXCL-8 (IL-8), Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||2.155|0.622|0.6990
92380291|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.513|TWO_SIDED|95.0|0.549|1.721|||Bayesian repeated measures model|||IL-6, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.721|0.549|0.5130
92380292|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.73||||0.7696|TWO_SIDED|95.0|0.3|1.731|||Bayesian repeated measures model|||IL-6, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.731|0.300|0.7696
92380293|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.51||||0.9254|TWO_SIDED|95.0|0.203|1.289|||Bayesian repeated measures model|||IL-6, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.289|0.203|0.9254
92380294|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.72||||0.7088|TWO_SIDED|95.0|0.216|2.419|||Bayesian repeated measures model|||IL-6, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||2.419|0.216|0.7088
92380295|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.47||||0.8787|TWO_SIDED|95.0|0.112|1.69|||Bayesian repeated measures model|||IL-6, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.690|0.112|0.8787
92380296|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.7338|TWO_SIDED|95.0|0.714|1.197|||Bayesian repeated measures model|||RAGE, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.197|0.714|0.7338
92380297|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.4955|TWO_SIDED|95.0|0.703|1.415|||Bayesian repeated measures model|||RAGE, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.415|0.703|0.4955
92380298|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.5264|TWO_SIDED|95.0|0.541|1.788|||Bayesian repeated measures model|||RAGE, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.788|0.541|0.5264
92380299|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.6183|TWO_SIDED|95.0|0.454|1.742|||Bayesian repeated measures model|||RAGE, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.742|0.454|0.6183
92413117|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.29||||0.755|TWO_SIDED|95.0|-1.55|2.12|||Paired T-test|||POMS-Depression||2.12|-1.55|0.755
92413118|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.74||||0.2131|TWO_SIDED|95.0|-0.44|1.92|||Paired T-test|||POMS-Depression||1.92|-0.44|0.2131
92413119|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|1.19||||0.06|TWO_SIDED|95.0|-0.05|2.43|||Paired T-test|||POMS-Anger||2.43|-0.05|0.06
92413120|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.24||||0.4117|TWO_SIDED|95.0|-0.34|0.82|||Paired T-test|||POMS-Anger||0.82|-0.34|0.4117
92413121|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.05||||0.9548|TWO_SIDED|95.0|-1.64|1.73|||Paired T-test|||POMS-Fatigue||1.73|-1.64|0.9548
92413122|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.48||||0.4649|TWO_SIDED|95.0|-0.83|1.79|||Paired T-test|||POMS-Fatigue||1.79|-0.83|0.4649
92413123|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.26||||0.5656|TWO_SIDED|95.0|-0.65|1.18|||Paired T-test|||POMS-Confusion||1.18|-0.65|0.5656
92413124|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.33||||0.4307|TWO_SIDED|95.0|-0.5|1.15|||Paired T-test|||POMS-Confusion||1.15|-0.5|0.4307
92413125|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|1.17||||0.2651|TWO_SIDED|95.0|-0.92|3.25|||Paired T-test|||POMS-Vigor||3.25|-0.92|0.2651
92413126|NCT03567343|184715862|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.54||||0.5992|TWO_SIDED|95.0|-2.61|1.53|||Paired T-test|||POMS-Vigor||1.53|-2.61|0.5992
92280453|NCT00601484|184463631|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|90.0|-1.363|0.011||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.011|-1.363|
92380300|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.03||||0.5291|TWO_SIDED|95.0|0.483|2.118|||Bayesian repeated measures model|||RAGE, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||2.118|0.483|0.5291
92380301|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.09||||0.74|TWO_SIDED|95.0|0.828|1.448|||Bayesian repeated measures model|||MPO, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.448|0.828|0.7400
92380302|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.25||||0.9375|TWO_SIDED|95.0|0.937|1.683|||Bayesian repeated measures model|||MPO, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.683|0.937|0.9375
92231757|NCT03093402|184365752|SUPERIORITY||Mean Difference (Final Values)|-1.24||||0.766|TWO_SIDED|95.0|-5.55|3.07||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Depression T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -1.7(-4.6, 1.3).|||3.07|-5.55|0.766
92231758|NCT03093402|184365753|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.982|TWO_SIDED|95.0|-6.04|5.17||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Fatigue T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -4.7 (-8.3, -1.1).|||5.17|-6.04|0.982
92231759|NCT03093402|184365753|SUPERIORITY||Mean Difference (Final Values)|-0.86||||0.982|TWO_SIDED|95.0|-6.22|4.5||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Fatigue T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -4.7 (-8.3, -1.1).|Each active JBT-101 cohort is compared to placebo.||4.50|-6.22|0.982
92231760|NCT03093402|184365753|SUPERIORITY||Mean Difference (Final Values)|-0.98||||0.982|TWO_SIDED|95.0|-6.32|4.36||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Fatigue T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -4.7 (-8.3, -1.1).|||4.36|-6.32|0.982
92231761|NCT03093402|184365754|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.607|TWO_SIDED|95.0|-4.74|4.91||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Sleep Disturbance T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -3.5 (-6.8, -0.3).|Each active JBT-101 cohort is compared to placebo.||4.91|-4.74|0.607
92231762|NCT03093402|184365754|SUPERIORITY||Mean Difference (Final Values)|2.93||||0.607|TWO_SIDED|95.0|-1.85|7.71||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Sleep Disturbance T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -3.5 (-6.8, -0.3).|Each active JBT-101 cohort is compared to placebo.||7.71|-1.85|0.607
92380303|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.26||||0.9118|TWO_SIDED|95.0|0.896|1.771|||Bayesian repeated measures model|||MPO, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.771|0.896|0.9118
92380304|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.43||||0.9217|TWO_SIDED|95.0|0.866|2.382|||Bayesian repeated measures model|||MPO, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||2.382|0.866|0.9217
92380305|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.48||||0.8676|TWO_SIDED|95.0|0.73|3.064|||Bayesian repeated measures model|||MPO, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||3.064|0.730|0.8676
92380306|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.83||||0.8835|TWO_SIDED|95.0|0.609|1.135|||Bayesian repeated measures model|||Angiopoietin-2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.135|0.609|0.8835
92380307|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.5446|TWO_SIDED|95.0|0.723|1.33|||Bayesian repeated measures model|||Angiopoietin-2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.330|0.723|0.5446
92380308|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.95||||0.6267|TWO_SIDED|95.0|0.679|1.333|||Bayesian repeated measures model|||Angiopoietin-2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.333|0.679|0.6267
92380309|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.7668|TWO_SIDED|95.0|0.612|1.26|||Bayesian repeated measures model|||Angiopoietin-2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.260|0.612|0.7668
92380310|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.94||||0.61|TWO_SIDED|95.0|0.588|1.509|||Bayesian repeated measures model|||Angiopoietin-2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.509|0.588|0.6100
92413127|NCT03567343|184715863|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.37||||0.6869|TWO_SIDED|95.0|-1.48|2.22|||Paired T-test|||||2.22|-1.48|0.6869
92413128|NCT03567343|184715863|EQUIVALENCE|P\<0.05|Mean Difference (Net)|1.39||||0.1769|TWO_SIDED|95.0|-0.65|3.43|||Paired T-test|||||3.43|-0.65|0.1769
92413129|NCT03567343|184715864|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.51||||0.6422|TWO_SIDED|95.0|-1.69|2.72|||Paired T-test|||||2.72|-1.69|0.6422
92413130|NCT03567343|184715864|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.63||||0.4106|TWO_SIDED|95.0|-0.9|2.16|||Paired T-test|||||2.16|-0.9|0.4106
92380311|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.68||||0.8159|TWO_SIDED|95.0|0.291|1.623|||Bayesian repeated measures model|||Renin, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.623|0.291|0.8159
92380312|NCT01597635|184663515|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.53||||0.7988|TWO_SIDED|95.0|0.106|2.657|||Bayesian repeated measures model|||Aldosterone, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||2.657|0.106|0.7988
92380313|NCT01597635|184663516|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.12||||0.6536|TWO_SIDED|95.0|0.626|2.024|||Bayesian repeated measures model|||CRP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||2.024|0.626|0.6536
92380314|NCT01597635|184663516|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.3||||0.9066|TWO_SIDED|95.0|0.876|1.955|||Bayesian repeated measures model|||CRP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.955|0.876|0.9066
92380315|NCT01597635|184663516|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.23||||0.7859|TWO_SIDED|95.0|0.723|2.066|||Bayesian repeated measures model|||CRP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||2.066|0.723|0.7859
92380316|NCT01597635|184663516|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.6058|TWO_SIDED|95.0|0.413|1.963|||Bayesian repeated measures model|||CRP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.963|0.413|0.6058
92380317|NCT01597635|184663516|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.29||||0.6921|TWO_SIDED|95.0|0.456|3.632|||Ratio of Active/Placebo|||CRP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||3.632|0.456|0.6921
92380318|NCT01597635|184663517|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.7934|TWO_SIDED|95.0|0.737|1.14|||Bayesian repeated measures model|||CCP-16, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.140|0.737|0.7934
92380319|NCT01597635|184663517|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.5205|TWO_SIDED|95.0|0.782|1.317|||Bayesian repeated measures model|||CCP-16, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.317|0.782|0.5205
92380320|NCT01597635|184663517|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.12||||0.6682|TWO_SIDED|95.0|0.673|1.865|||Bayesian repeated measures model|||CCP-16, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.865|0.673|0.6682
92380321|NCT01597635|184663517|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.5304|TWO_SIDED|95.0|0.744|1.315|||Bayesian repeated measures model|||CCP-16, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.315|0.744|0.5304
92413131|NCT03567343|184715865|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.23||||0.5672|TWO_SIDED|95.0|-1.05|0.58|||Paired T-test|||||0.58|-1.05|0.5672
92380322|NCT01597635|184663517|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.81||||0.9078|TWO_SIDED|95.0|0.582|1.112|||Bayesian repeated measures model|||CCP-16, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.112|0.582|0.9078
92380323|NCT01597635|184663517|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.26||||0.9907|TWO_SIDED|95.0|1.042|1.526|||Bayesian repeated measures model|||SP-D, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.526|1.042|0.9907
92380324|NCT01597635|184663517|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.27||||0.9973|TWO_SIDED|95.0|1.005|1.606|||Bayesian repeated measures model|||SP-D, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.606|1.005|0.9973
92380325|NCT01597635|184663517|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.61||||0.9954|TWO_SIDED|95.0|1.13|2.331|||Bayesian repeated measures model|||SP-D, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||2.331|1.130|0.9954
92380326|NCT01597635|184663517|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.65||||0.983|TWO_SIDED|95.0|1.045|2.588|||Bayesian repeated measures model|||SP-D, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||2.588|1.045|0.9830
92380327|NCT01597635|184663517|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.52||||0.9312|TWO_SIDED|95.0|0.867|2.737|||Bayesian repeated measures model|||SP-D, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||2.737|0.867|0.9312
92380328|NCT01755455|184663520|SUPERIORITY_OR_OTHER|||||||0.81|||||||Fixed-effect model|||Fixed-effect models accounted for repeated measurements within subjects and treatment sequence. The estimated effect signifies the absolute change from baseline at 6 weeks in the specified outcome measure and (standard error).||||0.81
92380329|NCT01755455|184663521|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fixed-effect model|||||||<0.05
92413132|NCT03567343|184715865|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.11||||0.805|TWO_SIDED|95.0|-0.77|0.99|||Paired T-test|||||0.99|-0.77|0.805
92380330|NCT01755455|184663522|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fixed-effect model|||Fixed-effect models accounted for repeated measurements within subjects and treatment sequence. The estimated effect signifies the absolute change from baseline at 6 weeks in the specified outcome measure and (standard error).||||<0.05
92380331|NCT01755455|184663523|SUPERIORITY_OR_OTHER|||||||0.16|||||||Fixed-effect model|||||||0.16
92380332|NCT02690649|184663535|SUPERIORITY||estimated adherence rate for the interve|94.0||||0.28|TWO_SIDED|95.0|92.0|95.0|||Regression, Linear|||estimated adherence rate for the intervention group Generalized linear models were used to test the effect of the intervention on medication adherence. These generalized linear models used a Poisson distribution to estimate the rate of adherence with the log of total prescribed doses as an offset term in the linear predictor.||95|92|0.28
92380333|NCT02690649|184663536|SUPERIORITY||||||<|0.001||||||A negative binomial distribution because the outcome was a count variable and it was over-dispersed.|Regression, Linear|Age, previous patient portal logins, and gender were used as co-variates in the model.||||||<0.001
92380334|NCT02690649|184663537|SUPERIORITY||Slope|-0.61||||0.03|TWO_SIDED|95.0|-1.14|-0.07||baseline AF knowledge, gender, age, and educational level were all used as co-variates.|Regression, Linear|generalized linear model tested whether AF knowledge at study completion was related to baseline AF knowledge, gender, age, and educational level||||-0.07|-1.14|0.03
92380335|NCT00316888|184663544|SUPERIORITY_OR_OTHER_LEGACY|||||||0.218|||||||one sample binomial test|||Null hypothesis is that the local failure rate at 3 years is no more than 35%.||||0.218
92413133|NCT03567343|184715866|EQUIVALENCE|P\<0.05|Median Difference (Net)|-43.09||||0.1236|TWO_SIDED|95.0|-98.43|12.26|||Paired T-test|||Change in lapse time||12.26|-98.43|.1236
92413134|NCT03567343|184715866|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-2.01||||0.8241|TWO_SIDED|95.0|-20.13|16.11|||Paired T-test|||Change in lapse time||16.11|-20.13|.8241
92231763|NCT03093402|184365754|SUPERIORITY||Mean Difference (Final Values)|1.44||||0.607|TWO_SIDED|95.0|-3.22|6.09||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Sleep Disturbance T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -3.5 (-6.8, -0.3).|Each active JBT-101 cohort is compared to placebo.||6.09|-3.22|0.607
92231764|NCT03093402|184365755|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.981|TWO_SIDED|95.0|-4.66|4.3||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Social Role Satisfaction T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 4.2 (0.8, 7.6).|||4.30|-4.66|0.981
92231765|NCT03093402|184365755|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.981|TWO_SIDED|95.0|-3.84|4.86||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Social Role Satisfaction T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 4.2 (0.8, 7.6).|||4.86|-3.84|0.981
92231766|NCT03093402|184365755|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.981|TWO_SIDED|95.0|-4.62|4.08||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Social Role Satisfaction T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 4.2 (0.8, 7.6).|||4.08|-4.62|0.981
92231767|NCT03093402|184365756|SUPERIORITY||Mean Difference (Final Values)|-1.85||||0.653|TWO_SIDED|95.0|-6.0|2.29||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Interference T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.9 (-7.6, -2.1).|Each active JBT-101 cohort is compared to placebo.||2.29|-6.00|0.653
92231768|NCT03093402|184365756|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.653|TWO_SIDED|95.0|-3.1|4.88||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Interference T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.9 (-7.6, -2.1).|Each active JBT-101 cohort is compared to placebo.||4.88|-3.10|0.653
92231769|NCT03093402|184365756|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.653|TWO_SIDED|95.0|-4.31|3.67||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Interference T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.9 (-7.6, -2.1).|Each active JBT-101 cohort is compared to placebo.||3.67|-4.31|0.653
92231770|NCT03093402|184365757|SUPERIORITY||Mean Difference (Final Values)|-1.13||||0.245|TWO_SIDED|95.0|-2.56|0.29||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Intensity at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -1.1 (-2.1, -0.1).|||0.29|-2.56|0.245
92280454|NCT00601484|184463631|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.13|STANDARD_ERROR_OF_MEAN|0.498|||TWO_SIDED|90.0|-1.969|-0.297||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.297|-1.969|
92231771|NCT03093402|184365757|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.245|TWO_SIDED|95.0|-1.93|0.8||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Intensity at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -1.1 (-2.1, -0.1).|||0.80|-1.93|0.245
92231772|NCT03093402|184365757|SUPERIORITY||Mean Difference (Final Values)|-1.28||||0.245|TWO_SIDED|95.0|-2.64|0.09||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Intensity at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -1.1 (-2.1, -0.1).|||0.09|-2.64|0.245
92239653|NCT00637273|184383087|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.8||0.9546|TWO_SIDED|95.0|-1.6|1.5||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting HDL from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting HDL as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||1.5|-1.6|0.9546
92380336|NCT00316888|184663544|SUPERIORITY_OR_OTHER_LEGACY|||||||0.592|||||||one sample binomial test|||The null hypothesis is that the local failure rate at 3 years is no more than 35%.||||0.592
92231773|NCT03093402|184365758|SUPERIORITY||Mean Difference (Final Values)|-0.45||||0.608|TWO_SIDED|95.0|-4.45|3.54||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Cognitive Function T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 1.4 (-1.5, 4.4).|Each active JBT-101 cohort is compared to placebo.||3.54|-4.45|0.608
92231774|NCT03093402|184365758|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.608|TWO_SIDED|95.0|-2.27|5.47||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Cognitive Function T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 1.4 (-1.5, 4.4).|Each active JBT-101 cohort is compared to placebo.||5.47|-2.27|0.608
92231775|NCT03093402|184365758|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.608|TWO_SIDED|95.0|-2.25|5.45||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Cognitive Function T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 1.4 (-1.5, 4.4).|Each active JBT-101 cohort is compared to placebo.||5.45|-2.25|0.608
92231776|NCT01773473|184365800|NON_INFERIORITY_OR_EQUIVALENCE|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|0.17|||||TWO_SIDED|95.0|-0.01|0.35||||||||0.35|-0.01|
92231777|NCT00826514|184365807|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.392|||TWO_SIDED|95.0|-1.15|0.209||||||Analysis was based on analysis of co-variance (ANCOVA) model with baseline value, age and treatment as covariates.||0.209|-1.150|
92231778|NCT00826514|184365810|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.42|STANDARD_ERROR_OF_MEAN|1.901|||TWO_SIDED|90.0|-4.754|1.905||||||Change at Week 6, CPSI Total Score: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||1.905|-4.754|
92231779|NCT00826514|184365810|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.931|||TWO_SIDED|90.0|-2.701|0.591||||||Change at Week 6, CPSI PD Score: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||0.591|-2.701|
92231780|NCT00826514|184365810|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.38|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|90.0|-0.789|1.541||||||Change at Week 6, CPSI US Score: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||1.541|-0.789|
92231781|NCT00826514|184365810|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.697|||TWO_SIDED|90.0|-1.785|0.631||||||Change at Week 6, CPSI QoL Score: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||0.631|-1.785|
92280455|NCT00601484|184463631|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.559|||TWO_SIDED|90.0|-1.79|0.09||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.090|-1.790|
92380337|NCT00110461|184663549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.99|||<|0.0001|TWO_SIDED|95.0|-8.49|-3.5|||t-test, 2 sided|||The change scores were analyzed by using ANCOVA model with treatment as a factor and baseline Y-MRS total score as a covariate. For comparing YMRS-Total score in treatment groups at baseline, only treatment was included in the ANOVA model with baseline values as the dependent variable. The LS means obtained from a type III analysis using SAS were used for the treatment comparisons. Two-tailed student's t-tests were used to test differences between the LS means within the ANCOVA or ANOVA model.||-3.5|-8.49|<0.0001
92231782|NCT00826514|184365811|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.649|||TWO_SIDED|90.0|-0.99|1.348||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||1.348|-0.990|
92231783|NCT00826514|184365812|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.93|||TWO_SIDED|90.0|-1.829|1.452||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||1.452|-1.829|
92231784|NCT00826514|184365813|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-33.56|STANDARD_ERROR_OF_MEAN|17.026|||TWO_SIDED|90.0|-64.144|-2.968||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||-2.968|-64.144|
92231785|NCT00826514|184365814|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.489|||TWO_SIDED|90.0|-1.364|0.415||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||0.415|-1.364|
92231786|NCT00826514|184365815|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.37|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|-3.146|0.401||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||0.401|-3.146|
92231787|NCT00826514|184365816|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.217|||TWO_SIDED|90.0|-0.417|0.334||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||0.334|-0.417|
92413135|NCT01134705|184715867|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.84|||<|0.001|TWO_SIDED|95.0|-1.2|-0.5||A priori threshold for statistical significance is p\<0.05|Repeated measures Analysis of covariance|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.5|-1.2|<0.001
92413136|NCT01134705|184715868|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.78|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4||A priori threshold for statistical significance is p\<0.05|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.4|-1.1|<0.001
92380338|NCT00110461|184663549|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-8.26|||<|0.0001|TWO_SIDED|95.0|-10.7|-5.77|||t-test, 2 sided|||The change scores were analyzed by using ANCOVA model with treatment as a factor and baseline Y-MRS total score as a covariate. For comparing YMRS-Total score in treatment groups at baseline, only treatment was included in the ANOVA model with baseline values as the dependent variable. The LS means obtained from a type III analysis using SAS were used for the treatment comparisons. Two-tailed student's t-tests were used to test differences between the LS means within the ANCOVA or ANOVA model.||-5.77|-10.7|<0.0001
92380339|NCT00110461|184663550|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-5.89|||<|0.0001|TWO_SIDED|95.0|-8.7|-3.08|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-3.08|-8.7|<0.0001
92380340|NCT00110461|184663550|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|11.51|||<|0.0001|TWO_SIDED|95.0|7.99|15.03|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||15.03|7.99|<0.0001
92380341|NCT00110461|184663551|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|9.3|||<|0.0001|TWO_SIDED|95.0|5.77|12.84|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||12.84|5.77|<0.0001
92380342|NCT00110461|184663551|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|11.51|||<|0.0001|TWO_SIDED|95.0|7.99|15.03|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||15.03|7.99|<0.0001
92380343|NCT00110461|184663552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.15|-0.48|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.48|-1.15|<0.0001
92231788|NCT00826514|184365817|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.765|||TWO_SIDED|90.0|-1.791|1.822||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||1.822|-1.791|
92380344|NCT00110461|184663552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|||<|0.0001||95.0|-1.59|-0.93|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.93|-1.59|<0.0001
92413137|NCT01134705|184715869|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58||||0.001|TWO_SIDED|95.0|-0.9|-0.2||A priori threshold for statistical significance is p\<0.05|ANCOVA|ANCOVA with treatment, baseline and center in the model.||||-0.2|-0.9|0.001
92413138|NCT00101452|184715879|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92413139|NCT01510769|184715880|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1||||0.1298|TWO_SIDED|95.0|-0.03|0.23|||Cochran-Mantel-Haenszel|||||0.23|-0.03|0.1298
92380345|NCT00110461|184663553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.28||||0.0767|TWO_SIDED|95.0|-4.81|0.25|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.25|-4.81|0.0767
92413140|NCT01510769|184715880|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.29|||<|0.0001|TWO_SIDED|95.0|0.17|0.42|||Cochran-Mantel-Haenszel|||||0.42|0.17|<0.0001
92231789|NCT00826514|184365818|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.833|||||TWO_SIDED|90.0|0.763|4.407||||||Week 6: Logistic regression model with age, baseline pain stratification group and treatment as covariates.||4.407|0.763|
92280456|NCT00601484|184463631|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.538|||TWO_SIDED|90.0|-1.356|0.457||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.457|-1.356|
92280457|NCT00601484|184463632|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.68|STANDARD_ERROR_OF_MEAN|6.727|||TWO_SIDED|90.0|-19.954|2.601||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.601|-19.954|
92413141|NCT01510769|184715881|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.04||||0.4453|TWO_SIDED|95.0|-0.07|0.16|||Cochran-Mantel-Haenszel|||||0.16|-0.07|0.4453
92413142|NCT01510769|184715881|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.09||||0.1149|TWO_SIDED|95.0|-0.02|0.21|||Cochran-Mantel-Haenszel|||||0.21|-0.02|0.1149
92413143|NCT01510769|184715882|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.03||||0.645|TWO_SIDED|95.0|-0.1|0.17|||Cochran-Mantel-Haenszel|||||0.17|-0.10|0.6450
92413144|NCT01510769|184715882|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.06||||0.4118|TWO_SIDED|95.0|-0.08|0.19|||Cochran-Mantel-Haenszel|||||0.19|-0.08|0.4118
92231790|NCT00826514|184365818|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0|||||TWO_SIDED|90.0|0.388|2.575||||||Week 16: Logistic regression model with age, baseline pain stratification group and treatment as covariates.||2.575|0.388|
92413145|NCT01510769|184715883|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.08||||0.3034|TWO_SIDED|95.0|-0.24|0.07|||Cochran-Mantel-Haenszel|||||0.07|-0.24|0.3034
92413146|NCT01510769|184715883|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.19||||0.021|TWO_SIDED|95.0|-0.34|-0.04|||Cochran-Mantel-Haenszel|||||-0.04|-0.34|0.0210
92380346|NCT00110461|184663553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19||||0.3515|TWO_SIDED|95.0|-3.69|1.32|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.32|-3.69|0.3515
92380347|NCT00110461|184663554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.88|||<|0.0001|TWO_SIDED|95.0|-8.02|-3.73|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-3.73|-8.02|<0.0001
92413147|NCT02874144|184715904|SUPERIORITY|intention-to-treat with participants analyzed according to a randomly assigned treatment group irrespective of compliance.|Slope|0.0|STANDARD_ERROR_OF_MEAN|0.0|<|0.05|TWO_SIDED|||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|Regression, Linear|||We used baseline scores to track change to follow-up scores and used a difference-in-differences (D-I-D) statistical approach to compare the change over time compare relative rate of change over time between scores within the treatment group (AZD1981 plus INCS) and within the to scores within the placebo group (INCS treatment only)..|For inflammatory mediator analyses, data were reported as mean (SEM) with statistical significance determined by Kruskal-Wallis test.|||<0.05
92231791|NCT00707577|184365834|SUPERIORITY||||||<|0.05|||||||Regression, Linear|random effects regression models for panel data adjusted for clustering within team||||||<0.05
92231792|NCT00190775|184365835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.78|STANDARD_ERROR_OF_MEAN|1.11|<|0.001||95.0|||||Mixed Models Analysis|Model included visit, baseline, treatment, pooled investigator, child with ADHD, and treatment by visit.|Least Squares Mean Difference = Atomoxetine - Placebo.|Approximately 500 participants were randomized to atomoxetine or placebo (1:1) which provided at least 90% power to detect a treatment difference of 3.64 points on the CAARS-Inv:SV Total ADHD Symptoms Score assuming a SD of 9.85 based on 2-sided significance level of 0.05 using a 2-sample t-test. Mean and SD assumptions were associated with effect size of 0.37 and 30% missing data rate. These assumptions applied to Weeks 12 and 24 treatment effects. Marginal power at Weeks 12 and 24 was 86%.||||<0.001
92231793|NCT00190775|184365836|SUPERIORITY_OR_OTHER|||||||0.905||95.0||||P-Value for Task Accomplishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.905
92231794|NCT00190775|184365836|SUPERIORITY_OR_OTHER|||||||0.491||95.0||||P-Value for Role Performance.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.491
92231795|NCT00190775|184365836|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||P-Value for Communication.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.600
92231796|NCT00190775|184365836|SUPERIORITY_OR_OTHER|||||||0.052||95.0||||P-Value for Affective Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.052
92280458|NCT00601484|184463632|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-17.74|STANDARD_ERROR_OF_MEAN|8.47|||TWO_SIDED|90.0|-31.948|-3.523||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-3.523|-31.948|
92380348|NCT00110461|184663554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.46|||<|0.0001|TWO_SIDED|95.0|-7.4|-3.32|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-3.32|-7.40|<0.0001
92231797|NCT00190775|184365836|SUPERIORITY_OR_OTHER|||||||0.514||95.0||||P-Value for Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.514
92231798|NCT00190775|184365836|SUPERIORITY_OR_OTHER|||||||0.515||95.0||||P-Value for Control.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.515
92231799|NCT00190775|184365836|SUPERIORITY_OR_OTHER|||||||0.315||95.0||||P-Value for Values and Norms.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.315
92231800|NCT00190775|184365837|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||P-Value for Task Accomplishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.176
92231801|NCT00190775|184365837|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||P-Value for Role Performance.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.122
92231802|NCT00190775|184365837|SUPERIORITY_OR_OTHER|||||||0.931||95.0||||P-Value for Communication.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.931
92231803|NCT00190775|184365837|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||P-Value for Affective Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.788
92231804|NCT00190775|184365837|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||P-Value for Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.190
92231805|NCT00190775|184365837|SUPERIORITY_OR_OTHER|||||||0.36||95.0||||P-Value for Control.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.360
92231806|NCT00190775|184365837|SUPERIORITY_OR_OTHER|||||||0.446||95.0||||P-Value for Values and Norms.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.446
92231807|NCT00190775|184365838|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||P-Value for Task Accomplishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.575
92231808|NCT00190775|184365838|SUPERIORITY_OR_OTHER|||||||0.705||95.0||||P-Value for Role Performance.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.705
92380349|NCT00110461|184663555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.86|||<|0.0001|TWO_SIDED|95.0|-12.3|-5.43|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-5.43|-12.3|<0.0001
92380350|NCT00110461|184663555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.23|||<|0.0001|TWO_SIDED|95.0|-11.6|-4.83|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-4.83|-11.6|<0.0001
92380351|NCT00110461|184663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.23|||<|0.0001|TWO_SIDED|95.0|5.07|13.93|||t-test, 2 sided|||||13.93|5.07|<0.0001
92380352|NCT00110461|184663556|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.0|||<|0.0001|TWO_SIDED|95.0|5.87|14.14|||t-test, 2 sided|||||14.14|5.87|<0.0001
92380353|NCT00110461|184663557|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.7||||0.0003|TWO_SIDED|95.0|-1.08|-0.33|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.33|-1.08|0.0003
92380354|NCT00110461|184663557|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.41|-0.66|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.66|-1.41|<0.0001
92380355|NCT00110461|184663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0878|TWO_SIDED|95.0|-0.54|0.04|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.04|-0.54|0.0878
92380356|NCT00110461|184663558|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.26||||0.0752|TWO_SIDED|95.0|-0.55|0.03|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.03|-0.55|0.0752
92278095|NCT00634283|184458254|SUPERIORITY|||||||0.32||||||The a priori threshold was set at 0.05, 2-tailed, without adjustment for multiple comparisons.|t-test, 2 sided|||Change in PFC over the one-week placebo lead-in period was compared between antidepressant-experienced and antidepressant-naive groups using a between groups t-test.|"Group differences in PFC changes over time during administration of venlafaxine were assessed using mixed-model analysis.~we compared brain functional changes over the course of venlafaxine treatment between antidepressant-experienced and antidepressant-naïve subjects using linear mixed model analysis (random intercept model) conducted using full maximum likelihood estimation (MLE). Changes in PFC were calculated from the end of placebo lead-in to 48 hours, and 1, 2, and 4 weeks, yielding a within-group factor of time with four levels. We employed a first-order autoregressive covariance structure to reflect our assumption that PFC measurements closer together in time would be more highly correlated."|||0.32
92413148|NCT02874144|184715904|SUPERIORITY|This was a superiority trial. We used repeated-measures linear regression using the mixed procedure to calculate means for each outcome by visits and treatment status. We used baseline scores to track change to follow-up scores and used a difference-in-differences (D-I-D) statistical approach to compare the change over time between scores within the treatment group (AZD1981 plus INCS) to scores within the placebo group (INCS treatment only).|Mean Difference (Final Values)|-20.0|||<|0.05|TWO_SIDED|||||No, the p-value was not adjusted for multiple comparisons.|repeated-measures linear regression|We used repeated-measures linear regression using the MIXED procedure to calculate means (SEMS) for each outcome by visits and treatment status.|Our study did not include at relative risk.|The trial design is a continuous outcome superiority trial with primary efficacy outcome measures of change in Total Polyp Score (TPS) comparing AZD to placebo arm from V1 to V5. Total polyp score is a standardized method for assessing nasal polyp size by endoscopy, based on a scale of 1-4 per side. Inclusion criterion for this study is a TPS of ≥4 with a maximum of 8 and a standard deviation ± 2. A clinically meaningful effect is considered to be a decrease in total polyp score of 1.5.||||<0.05
92278096|NCT01743677|184458259|SUPERIORITY||Least Squares Mean Difference|-1.29|||||TWO_SIDED|90.0|-3.15|0.56||||||||0.56|-3.15|
92278097|NCT01743677|184458260|SUPERIORITY||Least Squares Mean Difference|-1.42|||||TWO_SIDED|90.0|-3.28|0.43||||||||0.43|-3.28|
92278098|NCT01743677|184458261|SUPERIORITY||Least Squares Mean Difference|-2.29|||||TWO_SIDED|90.0|-4.15|-0.44||||||||-0.44|-4.15|
92380357|NCT00110461|184663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.2553|TWO_SIDED|95.0|-0.51|0.13|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.13|-0.51|0.2553
92380358|NCT00110461|184663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.0166|TWO_SIDED|95.0|-0.71|-0.07|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.07|-0.71|0.0166
92413149|NCT02975557|184715927|OTHER|||||||1|||||||Fisher Exact|The type I error was adjusted by using the alpha spending function approach with O'Brien-Fleming type boundaries.||We evaluated if the categorical type of tolerability measure is different between control (Artificial Tears) and intervention (Brimonidine, including both 0.15% high and 0.075% low doses groups).||||1
92278099|NCT01743677|184458262|SUPERIORITY||Least Squares Mean Difference|-1.35|||||TWO_SIDED|90.0|-3.21|0.5||||||||0.50|-3.21|
92278100|NCT01743677|184458263|SUPERIORITY||Least Squares Mean Difference|1.08|||||TWO_SIDED|90.0|-0.78|2.93||||||||2.93|-0.78|
92278101|NCT01743677|184458264|SUPERIORITY||Least Squares Mean Difference|0.86|||||TWO_SIDED|90.0|-1.0|2.71||||||||2.71|-1.00|
92231809|NCT00190775|184365838|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||P-Value for Communication.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.686
92231810|NCT00190775|184365838|SUPERIORITY_OR_OTHER|||||||0.618||95.0||||P-Value for Affective Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.618
92231811|NCT00190775|184365838|SUPERIORITY_OR_OTHER|||||||0.903||95.0||||P-Value for Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.903
92231812|NCT00190775|184365838|SUPERIORITY_OR_OTHER|||||||0.807||95.0||||P-Value for Control.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.807
92278102|NCT01743677|184458265|SUPERIORITY||Least Squares Mean Difference|1.15|||||TWO_SIDED|90.0|-0.71|3.0||||||||3.00|-0.71|
92231813|NCT00190775|184365838|SUPERIORITY_OR_OTHER|||||||0.403||95.0||||P-Value for Values and Norms.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.403
92231814|NCT00190775|184365839|SUPERIORITY_OR_OTHER|||||||0.941||95.0||||P-Value for Task Accomplishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.941
92231815|NCT00190775|184365839|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||P-Value for Role Performance.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.788
92231816|NCT00190775|184365839|SUPERIORITY_OR_OTHER|||||||0.391||95.0||||P-Value for Communication.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.391
92231817|NCT00190775|184365839|SUPERIORITY_OR_OTHER|||||||0.685||95.0||||P-Value for Affective Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.685
92231818|NCT00190775|184365839|SUPERIORITY_OR_OTHER|||||||0.774||95.0||||P-Value for Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.774
92278103|NCT01743677|184458266|SUPERIORITY||Least Squares Mean Difference|2.15|||||TWO_SIDED|90.0|0.29|4.0||||||||4.00|0.29|
92278104|NCT01743677|184458267|SUPERIORITY||Least Squares Mean Difference|1.35|||||TWO_SIDED|90.0|-0.5|3.21||||||||3.21|-0.50|
92413150|NCT01711216|184715952|SUPERIORITY_OR_OTHER|||||||0.3181|TWO_SIDED|||||Test statistic (d.f.) 1.0157 (1) A Mantel-Haenszel chi-square test was used, exact p-value was computed using Monte Carlo estimation.|Mantel Haenszel|||Test of association between the number of regular menstrual cycles during the follow-up period and the number of dydrogesterone therapy cycles received during the treatment period (Follow-up Analysis Set) Follow-up Analysis Set (N=915)||||0.3181
92413151|NCT02744040|184715958|OTHER|||||||0.048||||||Multiple hypothesis testing was performed using Tukey's Honest Significant Difference (HSD) procedure.|Mixed Effects Models|||Total HIV DNA at the time of ART initiation in each of the three EDDI groups||||0.048
92413152|NCT02744040|184715959|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
92231819|NCT00190775|184365839|SUPERIORITY_OR_OTHER|||||||0.36||95.0||||P-Value for Control.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.360
92278105|NCT01743677|184458268|SUPERIORITY||Least Squares Mean Difference|11.29|||||TWO_SIDED|90.0|9.62|12.96||||||||12.96|9.62|
92278106|NCT01743677|184458269|SUPERIORITY||Least Squares Mean Difference|0.16|||||TWO_SIDED|90.0|-2.11|2.44||||||0.25 hour post-dose||2.44|-2.11|
92169213|NCT02528188|184227154|SUPERIORITY|||||||0.0266|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0266
92231820|NCT00190775|184365839|SUPERIORITY_OR_OTHER|||||||0.446||95.0||||P-Value for Values and Norms.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.446
92231821|NCT00190775|184365840|SUPERIORITY_OR_OTHER|||||||0.617||95.0||||P-Value for Total Dyadic Adjustment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.617
92231822|NCT00190775|184365840|SUPERIORITY_OR_OTHER|||||||0.789||95.0||||P-Value for Dyadic Consensus.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.789
92231823|NCT00190775|184365840|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||P-Value for Dyadic Satisfaction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.670
92231824|NCT00190775|184365840|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||P-Value for Affectional Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.018
92231825|NCT00190775|184365840|SUPERIORITY_OR_OTHER|||||||0.405||95.0||||P-Value for Dyadic Cohesion.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.405
92231826|NCT00190775|184365841|SUPERIORITY_OR_OTHER|||||||0.544||95.0||||P-Value for Total Dyadic Adjustment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.544
92231827|NCT00190775|184365841|SUPERIORITY_OR_OTHER|||||||0.494||95.0||||P-Value for Dyadic Consensus.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.494
92231828|NCT00190775|184365841|SUPERIORITY_OR_OTHER|||||||0.547||95.0||||P-Value for Dyadic Satisfaction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.547
92231829|NCT00190775|184365841|SUPERIORITY_OR_OTHER|||||||0.059||95.0||||P-Value for Affectional Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.059
92231830|NCT00190775|184365841|SUPERIORITY_OR_OTHER|||||||0.918||95.0||||P-Value for Dyadic Cohesion.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.918
92278107|NCT01743677|184458269|SUPERIORITY||Least Squares Mean Difference|1.78|||||TWO_SIDED|90.0|-0.49|4.06||||||0.5 hour post-dose||4.06|-0.49|
92278108|NCT01743677|184458269|SUPERIORITY||Least Squares Mean Difference|2.99|||||TWO_SIDED|90.0|0.71|5.26||||||1 hour post-dose||5.26|0.71|
92278109|NCT01743677|184458269|SUPERIORITY||Least Squares Mean Difference|1.08|||||TWO_SIDED|90.0|-1.19|3.36||||||2 hours post-dose||3.36|-1.19|
92380359|NCT00110461|184663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.16|-0.51|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.51|-1.16|<0.0001
92380360|NCT00110461|184663560|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.18|||<|0.0001|TWO_SIDED|95.0|-1.51|-0.86|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.86|-1.51|<0.0001
92380361|NCT00110461|184663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76|||<|0.0001|TWO_SIDED|95.0|-1.13|-0.4|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.40|-1.13|<0.0001
92380362|NCT00110461|184663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.6|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.60|-1.33|<0.0001
92380363|NCT00110461|184663562|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.92||||0.1729|TWO_SIDED|95.0|-4.69|0.85|||t-test, 2 sided|||||0.85|-4.69|0.1729
92380364|NCT00110461|184663562|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.43||||0.75586|TWO_SIDED|95.0|-3.17|2.31|||t-test, 2 sided|||||2.31|-3.17|0.75586
92380365|NCT00110461|184663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.76|||<|0.0001|TWO_SIDED|95.0|-6.9|-2.61|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-2.61|-6.90|<0.0001
92380366|NCT00110461|184663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.64|||<|0.0001|TWO_SIDED|95.0|-6.78|-2.5|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-2.50|-6.78|<0.0001
92413153|NCT02744040|184715959|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
92231831|NCT00190775|184365842|SUPERIORITY_OR_OTHER|||||||0.334||95.0||||P-Value for Total Dyadic Adjustment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.334
92231832|NCT00190775|184365842|SUPERIORITY_OR_OTHER|||||||0.087||95.0||||P-Value for Dyadic Consensus.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.087
92231833|NCT00190775|184365842|SUPERIORITY_OR_OTHER|||||||0.795||95.0||||P-Value for Dyadic Satisfaction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.795
92278110|NCT01743677|184458269|SUPERIORITY||Least Squares Mean Difference|2.16|||||TWO_SIDED|90.0|-0.11|4.44||||||4 hours post-dose||4.44|-0.11|
92278111|NCT01743677|184458269|SUPERIORITY||Least Squares Mean Difference|0.05|||||TWO_SIDED|90.0|-2.22|2.33||||||8 hours post-dose||2.33|-2.22|
92413154|NCT02744040|184715959|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
92231834|NCT00190775|184365842|SUPERIORITY_OR_OTHER|||||||0.955||95.0||||P-Value for Affectional Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.955
92231835|NCT00190775|184365842|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||P-Value for Dyadic Cohesion.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.788
92231836|NCT00190775|184365843|SUPERIORITY_OR_OTHER|||||||0.248||95.0||||P-Value for Total Dyadic Adjustment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.248
92278112|NCT01743677|184458269|SUPERIORITY||Least Squares Mean Difference|0.49|||||TWO_SIDED|90.0|-1.79|2.76||||||12 hours post-dose||2.76|-1.79|
92278113|NCT01743677|184458269|SUPERIORITY||Least Squares Mean Difference|2.1|||||TWO_SIDED|90.0|-0.17|4.38||||||16 hours post-dose||4.38|-0.17|
92380367|NCT00110461|184663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85||||0.0468|TWO_SIDED|95.0|-3.67|-0.03|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.03|-3.67|0.0468
92380368|NCT00110461|184663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.03||||0.0296|TWO_SIDED|95.0|-3.85|-0.2|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.20|-3.85|0.0296
92278114|NCT01743677|184458269|SUPERIORITY||Least Squares Mean Difference|0.79|||||TWO_SIDED|90.0|-1.49|3.06||||||24 hours post-dose||3.06|-1.49|
92278115|NCT03586830|184458289|SUPERIORITY||Difference of least square (LS) means|-4.56|STANDARD_ERROR_OF_MEAN|0.757|<|0.001|TWO_SIDED|95.0|-6.05|-3.06|||Hochberg Approach|||||-3.06|-6.05|<.001
92380369|NCT00110461|184663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44||||0.1309|TWO_SIDED|95.0|-3.31|0.43|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.43|-3.31|0.1309
92380370|NCT00110461|184663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.64||||0.0058|TWO_SIDED|95.0|-4.51|-0.77|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.77|-4.51|0.0058
92380371|NCT00110461|184663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13||||0.043|TWO_SIDED|95.0|-4.2|-0.07|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.07|-4.20|0.0430
92380372|NCT00110461|184663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.7696|TWO_SIDED|95.0|-2.37|1.76|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.76|-2.37|0.7696
92231837|NCT00190775|184365843|SUPERIORITY_OR_OTHER|||||||0.163||95.0||||P-Value for Dyadic Consensus.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.163
92231838|NCT00190775|184365843|SUPERIORITY_OR_OTHER|||||||0.947||95.0||||P-Value for Dyadic Satisfaction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.947
92231839|NCT00190775|184365843|SUPERIORITY_OR_OTHER|||||||0.214||95.0||||P-Value for Affectional Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.214
92231840|NCT00190775|184365843|SUPERIORITY_OR_OTHER|||||||0.543||95.0||||P-Value for Dyadic Cohesion.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.543
92380373|NCT00110461|184663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.9418|TWO_SIDED|95.0|-1.73|1.86|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.86|-1.73|0.9418
92380374|NCT00110461|184663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.19|TWO_SIDED|95.0|-1.67|1.98|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.98|-1.67|0.19
92380375|NCT00110461|184663568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.9418|TWO_SIDED|95.0|-1.73|1.86|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.86|-1.73|0.9418
92380376|NCT00110461|184663568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.8377|TWO_SIDED|95.0|-1.61|1.98|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.98|-1.61|0.8377
92380377|NCT00110461|184663569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.3969|TWO_SIDED|95.0|-2.71|1.08|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.08|-2.71|0.3969
92169214|NCT02528188|184227154|SUPERIORITY|||||||0.1835|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.1835
92231841|NCT00190775|184365844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.28|STANDARD_ERROR_OF_MEAN|1.05||0.001||95.0|||||Mixed Models Analysis|Model included visit, baseline, treatment, pooled investigator, child with ADHD, and treatment by visit.|Least Squares Mean Difference = Atomoxetine - Placebo.|Approximately 500 participants were randomized to atomoxetine or placebo (1:1) which provided at least 90% power to detect a treatment difference of 3.64 points on the CAARS-Inv:SV Total ADHD Symptoms Score assuming a SD of 9.85 based on 2-sided significance level of 0.05 using a 2-sample t-test. Mean and SD assumptions were associated with effect size of 0.37 and 30% missing data rate. These assumptions applied to Weeks 12 and 24 treatment effects. Marginal power at Weeks 12 and 24 was 86%.||||0.001
92231842|NCT00190775|184365845|SUPERIORITY_OR_OTHER|||||||0.446||95.0||||P-Value for Total Stress.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.446
92231843|NCT00190775|184365845|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||P-Value for Life Stress.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.134
92231844|NCT00190775|184365846|SUPERIORITY_OR_OTHER|||||||0.056||95.0||||P-Value for Parent Domain Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.056
92231845|NCT00190775|184365846|SUPERIORITY_OR_OTHER|||||||0.459||95.0||||P-Value for Parent Domain Competence.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.459
92231846|NCT00190775|184365846|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||P-Value for Parent Domain Isolation.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.435
92231847|NCT00190775|184365846|SUPERIORITY_OR_OTHER|||||||0.677||95.0||||P-Value for Parent Domain Attachment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.677
92380378|NCT00110461|184663569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.2101|TWO_SIDED|95.0|-3.09|0.68|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.68|-3.09|0.2101
92380379|NCT00110461|184663570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.05|||<|0.0001|TWO_SIDED|95.0|-10.5|-3.64|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-3.64|-10.5|<0.0001
92380380|NCT00110461|184663570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.55||||0.0014|TWO_SIDED|95.0|-8.94|-2.16|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-2.16|-8.94|0.0014
92380381|NCT00110461|184663571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.7||||0.0074|TWO_SIDED|95.0|5.01|32.4|||Chi-squared|||Analyzed using a Chi-square test. Ninety five percent confidence intervals for difference in the responder rates are derived from the normal approximation to binomial.||32.40|5.01|0.0074
92380382|NCT00110461|184663571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.55|||<|0.0001|TWO_SIDED|95.0|23.41|51.68|||Chi-squared|||Analyzed using a Chi-square test. Ninety five percent confidence intervals for difference in the responder rates are derived from the normal approximation to binomial.||51.68|23.41|<0.0001
92380383|NCT00110461|184663572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.4||||0.0009|TWO_SIDED|95.0|9.57|37.24|||Chi-squared|||Analyzed using a Chi-square test. Ninety five percent confidence intervals for difference in the responder rates are derived from the normal approximation to binomial.||37.24|9.57|0.0009
92380384|NCT00110461|184663572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.96|||<|0.0001|TWO_SIDED|95.0|15.05|42.87|||Chi-squared|||Analyzed using a Chi-square test. Ninety five percent confidence intervals for difference in the responder rates are derived from the normal approximation to binomial.||42.87|15.05|<0.0001
92380385|NCT00110461|184663573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.29|-0.66|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.66|-1.29|<0.0001
92380386|NCT00110461|184663573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.39|-0.7|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.70|-1.39|<0.0001
92380387|NCT00110461|184663574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.002|TWO_SIDED|95.0|-1.04|-0.24|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.24|-1.04|0.0020
92413155|NCT02744040|184715959|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
92231848|NCT00190775|184365846|SUPERIORITY_OR_OTHER|||||||0.376||95.0||||P-Value for Parent Domain Health.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.376
92231849|NCT00190775|184365846|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||P-Value for Parent Domain Role Restriction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.176
92380388|NCT00110461|184663574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.0001|TWO_SIDED|95.0|-1.19|-0.41|||Cochran-Mantel-Haenszel|||||-0.41|-1.19|0.0001
92380389|NCT00110461|184663575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.001|TWO_SIDED|95.0|-0.96|-0.26|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.26|-0.96|0.0010
92380390|NCT00110461|184663575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0053|TWO_SIDED|95.0|-0.85|-0.16|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.16|-0.85|0.0053
92380391|NCT00110461|184663576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.1726|TWO_SIDED|95.0|-0.64|0.11|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||0.11|-0.64|0.1726
92380392|NCT00110461|184663576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0113|TWO_SIDED|95.0|-0.89|-0.12|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.12|-0.89|0.0113
92231850|NCT00190775|184365846|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-Value for Parent Domain Depression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.030
92380393|NCT00110461|184663577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99|||<|0.0001|TWO_SIDED|95.0|-1.31|-0.67|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.67|-1.31|<0.0001
92380394|NCT00110461|184663577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.39|-0.72|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.72|-1.39|<0.0001
92380395|NCT00110461|184663578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.003|TWO_SIDED|95.0|-1.04|-0.22|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.22|-1.04|0.0030
92380396|NCT00110461|184663578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.0001|TWO_SIDED|95.0|-1.18|-0.4|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.40|-1.18|0.0001
92380397|NCT02855944|184663642|SUPERIORITY||Cox Proportional Hazard|0.639||||0.001|TWO_SIDED|95.0|0.489|0.835|||Regression, Cox|||||0.835|0.489|0.0010
92380398|NCT02855944|184663643|SUPERIORITY||Cox Proportional Hazard|0.665||||0.0017|TWO_SIDED|95.0|0.516|0.858|||Regression, Cox|||||0.858|0.516|0.0017
92380399|NCT02855944|184663646|SUPERIORITY||Cox Proportional Hazard|0.589||||0.0401|TWO_SIDED|95.0|0.356|0.976|||Regression, Cox|||||0.976|0.356|0.0401
92380400|NCT02855944|184663647|SUPERIORITY||Cox Proportional Hazard|0.564||||0.024|TWO_SIDED|95.0|0.343|0.927|||Regression, Cox|||||0.927|0.343|0.0240
92380401|NCT00576472|184663687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.0062|<|0.0001|TWO_SIDED|95.0|-0.0452|-0.0208|||ANOVA|||||-0.0208|-0.0452|<.0001
92380402|NCT00576472|184663688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0285|STANDARD_ERROR_OF_MEAN|0.0046|<|0.0001|TWO_SIDED|95.0|0.019|0.038|||ANOVA|||||0.0380|0.0190|<.0001
92380403|NCT00576472|184663689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0144|STANDARD_ERROR_OF_MEAN|0.0064||0.025|TWO_SIDED|95.0|0.000204|0.0285|||ANOVA|||||0.0285|0.000204|0.025
92413156|NCT02744040|184715959|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
92413157|NCT02744040|184715959|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
92231851|NCT00190775|184365846|SUPERIORITY_OR_OTHER|||||||0.434||95.0||||P-Value for Parent Domain Spouse.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.434
92413158|NCT02744040|184715960|OTHER||||||>|0.05||||||Multiple hypothesis testing was performed using Tukey's HSD procedure.|Mixed Effects Models|||Integrated HIV DNA at the time of ART initiation in each of the three EDDI groups||||>0.05
92231852|NCT00190775|184365847|SUPERIORITY_OR_OTHER|||||||0.578||95.0||||P-Value for Child Domain Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.578
92380404|NCT00576472|184663689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0442|STANDARD_ERROR_OF_MEAN|0.0093|<|0.0001|TWO_SIDED|95.0|0.0292|0.0591|||ANOVA|||||0.0591|0.0292|<.0001
92380405|NCT00576472|184663689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0491|STANDARD_ERROR_OF_MEAN|0.0064|<|0.0001|TWO_SIDED|95.0|0.0396|0.0586|||ANOVA|||||0.0586|0.0396|<.0001
92380406|NCT00576472|184663689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0298|STANDARD_ERROR_OF_MEAN|0.0083||0.0004|TWO_SIDED|95.0|0.00974|0.0499|||ANOVA|||||0.0499|0.00974|.0004
92380407|NCT00576472|184663689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0347|STANDARD_ERROR_OF_MEAN|0.0047|<|0.0001|TWO_SIDED|95.0|0.025|0.0445|||ANOVA|||||0.0445|0.0250|<.0001
92380408|NCT00576472|184663689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.00494|STANDARD_ERROR_OF_MEAN|0.0083||0.552|TWO_SIDED|95.0|-0.00865|0.0185|||ANOVA|||||0.0185|-0.00865|.552
92380409|NCT00576472|184663690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.17|STANDARD_ERROR_OF_MEAN|1.93||0.0005|TWO_SIDED|95.0|-11.0|-3.3|||ANOVA|||||-3.3|-11.0|.0005
92380410|NCT00576472|184663691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.34|STANDARD_ERROR_OF_MEAN|1.59||0.0413|TWO_SIDED|95.0|-6.5|-0.1|||ANOVA|||||-0.1|-6.5|0.0413
92380411|NCT00576472|184663692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.74|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-11.0|-6.4|||ANOVA|||||-6.4|-11.0|<.0001
92380412|NCT00576472|184663693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.56|STANDARD_ERROR_OF_MEAN|1.3|<|0.0001|TWO_SIDED|95.0|-12.0|-7.0|||ANOVA|||||-7.0|-12.0|<.0001
92380413|NCT00576472|184663694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.99|STANDARD_ERROR_OF_MEAN|1.81|<|0.0001|TWO_SIDED|95.0|4.4|11.6|||ANOVA|||||11.6|4.4|<.0001
92380414|NCT00576472|184663695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|1.03||0.8425|TWO_SIDED|95.0|-2.3|1.9|||ANOVA|||||1.9|-2.3|.8425
92380415|NCT00576472|184663696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.41|STANDARD_ERROR_OF_MEAN|0.73||0.0016|TWO_SIDED|95.0|-3.9|-0.9|||ANOVA|||||-0.9|-3.9|.0016
92380416|NCT00576472|184663697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|1.04||0.8329|TWO_SIDED|95.0|-1.9|2.3|||ANOVA|||||2.3|-1.9|.8329
92380417|NCT00576472|184663699|SUPERIORITY_OR_OTHER|||||||0.0077||95.0|||||t-test, 2 sided|||||||0.0077
92380418|NCT00576472|184663699|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92380419|NCT00576472|184663699|SUPERIORITY_OR_OTHER|||||||0.1408||95.0|||||t-test, 2 sided|||||||0.1408
92380420|NCT00576472|184663700|SUPERIORITY_OR_OTHER|||||||0.0428||95.0|||||t-test, 2 sided|||||||0.0428
92380421|NCT00576472|184663700|SUPERIORITY_OR_OTHER|||||||0.0058||95.0|||||t-test, 2 sided|||||||0.0058
92380422|NCT00576472|184663700|SUPERIORITY_OR_OTHER|||||||0.4258||95.0|||||t-test, 2 sided|||||||0.4258
92380423|NCT00576472|184663701|SUPERIORITY_OR_OTHER|||||||0.0035||95.0|||||t-test, 2 sided|||||||0.0035
92380424|NCT00576472|184663701|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||t-test, 2 sided|||||||0.0003
92380425|NCT00576472|184663701|SUPERIORITY_OR_OTHER|||||||0.4086||95.0|||||t-test, 2 sided|||||||0.4086
92413159|NCT02744040|184715961|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||<0.0001
92413160|NCT02744040|184715961|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||<0.0001
92413161|NCT02744040|184715961|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||<0.0001
92231853|NCT00190775|184365847|SUPERIORITY_OR_OTHER|||||||0.062||95.0||||P-Value for Defensive Responding.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.062
92231854|NCT00190775|184365847|SUPERIORITY_OR_OTHER|||||||0.567||95.0||||P-Value for Child Domain Distractibility/Hyperactive.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.567
92380426|NCT00576472|184663702|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||t-test, 2 sided|||||||0.0001
92380427|NCT00576472|184663702|SUPERIORITY_OR_OTHER|||||||0.0007||95.0|||||t-test, 2 sided|||||||0.0007
92380428|NCT00576472|184663702|SUPERIORITY_OR_OTHER|||||||0.7007||95.0|||||t-test, 2 sided|||||||0.7007
92380429|NCT00576472|184663703|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||t-test, 2 sided|||||||0.0002
92380430|NCT00576472|184663703|SUPERIORITY_OR_OTHER|||||||0.0016||95.0|||||t-test, 2 sided|||||||0.0016
92380431|NCT00576472|184663703|SUPERIORITY_OR_OTHER|||||||0.6237||95.0|||||t-test, 2 sided|||||||0.6237
92231855|NCT00190775|184365847|SUPERIORITY_OR_OTHER|||||||0.383||95.0||||P-Value for Child Domain Adaptability.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.383
92380432|NCT00576472|184663704|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||t-test, 2 sided|||||||0.0002
92380433|NCT00576472|184663704|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<.0001
92380434|NCT00576472|184663704|SUPERIORITY_OR_OTHER|||||||0.6071||95.0|||||t-test, 2 sided|||||||0.6071
92380435|NCT00576472|184663705|SUPERIORITY_OR_OTHER|||||||0.1386||95.0|||||t-test, 2 sided|||||||0.1386
92380436|NCT00576472|184663705|SUPERIORITY_OR_OTHER|||||||0.0905||95.0|||||t-test, 2 sided|||||||0.0905
92380437|NCT00576472|184663705|SUPERIORITY_OR_OTHER|||||||0.8039||95.0|||||t-test, 2 sided|||||||0.8039
92380438|NCT00576472|184663706|SUPERIORITY_OR_OTHER|||||||0.7496||95.0|||||t-test, 2 sided|||||||0.7496
92380439|NCT00576472|184663706|SUPERIORITY_OR_OTHER|||||||0.9489||95.0|||||t-test, 2 sided|||||||0.9489
92380440|NCT00576472|184663706|SUPERIORITY_OR_OTHER|||||||0.7021||95.0|||||t-test, 2 sided|||||||0.7021
92380441|NCT00576472|184663707|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||t-test, 2 sided|||||||0.0190
92380442|NCT00576472|184663707|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||t-test, 2 sided|||||||0.0003
92380443|NCT00576472|184663707|SUPERIORITY_OR_OTHER|||||||0.1622||95.0|||||t-test, 2 sided|||||||0.1622
92380444|NCT00576472|184663708|SUPERIORITY_OR_OTHER|||||||0.1202||95.0|||||t-test, 2 sided|||||||0.1202
92380445|NCT00576472|184663708|SUPERIORITY_OR_OTHER|||||||0.0103||95.0|||||t-test, 2 sided|||||||0.0103
92380446|NCT00576472|184663708|SUPERIORITY_OR_OTHER|||||||0.2831||95.0|||||t-test, 2 sided|||||||0.2831
92380447|NCT00576472|184663709|SUPERIORITY_OR_OTHER|||||||0.7027||95.0|||||t-test, 2 sided|||||||0.7027
92380448|NCT00576472|184663710|SUPERIORITY_OR_OTHER|||||||0.7493||95.0|||||t-test, 2 sided|||||||0.7493
92380449|NCT00576472|184663711|SUPERIORITY_OR_OTHER|||||||0.7339||95.0|||||t-test, 2 sided|||||||0.7339
92380450|NCT00576472|184663712|SUPERIORITY_OR_OTHER|||||||0.6148||95.0|||||t-test, 2 sided|||||||0.6148
92380451|NCT00576472|184663713|SUPERIORITY_OR_OTHER|||||||0.4456||95.0|||||t-test, 2 sided|||||||0.4456
92380452|NCT00576472|184663714|SUPERIORITY_OR_OTHER|||||||0.5866||95.0|||||t-test, 2 sided|||||||0.5866
92380453|NCT00576472|184663715|SUPERIORITY_OR_OTHER|||||||0.8918||95.0|||||t-test, 2 sided|||||||0.8918
92380454|NCT00576472|184663716|SUPERIORITY_OR_OTHER|||||||0.4427||95.0|||||t-test, 2 sided|||||||0.4427
92380455|NCT00576472|184663717|SUPERIORITY_OR_OTHER|||||||0.4203||95.0|||||t-test, 2 sided|||||||0.4203
92380456|NCT00576472|184663718|SUPERIORITY_OR_OTHER|||||||0.5754||95.0|||||t-test, 2 sided|||||||0.5754
92380457|NCT00576472|184663719|SUPERIORITY_OR_OTHER|||||||0.0251||95.0|||||t-test, 2 sided|||||||0.0251
92380458|NCT00576472|184663720|SUPERIORITY_OR_OTHER|||||||0.1049||95.0|||||t-test, 2 sided|||||||0.1049
92380459|NCT04405245|184663738|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.366||0.807|TWO_SIDED|95.0|-0.63|0.81|||ANCOVA|||||0.81|-0.63|0.8070
92380460|NCT04405245|184663738|SUPERIORITY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.365||0.013|TWO_SIDED|95.0|-1.64|-0.2|||ANCOVA|||||-0.20|-1.64|0.0130
92380461|NCT02576860|184663749|SUPERIORITY|||||||0.799|||||||ANCOVA|||||||0.799
92380462|NCT02576860|184663750|SUPERIORITY|||||||0.858|||||||Cochran-Mantel-Haenszel|||||||0.858
92380463|NCT02391961|184663759|SUPERIORITY|||||||0.842672|||||||ANOVA|||Statistical Analysis applies to the 4 subgroups: average PSR at baseline and after 3 hours on dalfampridine, and average PSR at baseline and after 3 hours on placebo.||||0.842672
92380464|NCT02391961|184663760|SUPERIORITY|||||||0.972866|||||||ANOVA|||Statistical Analysis applies to the 4 subgroups: average PTD at baseline and after 3 hours on dalfampridine, and average PTD at baseline and after 3 hours on placebo.||||0.972866
92380465|NCT02391961|184663761|SUPERIORITY|||||||0.95|||||||ANOVA|||Statistical Analysis applies to the 4 subgroups: RA at baseline and after 3 hours on dalfampridine, and RA at baseline and after 3 hours on placebo.||||0.95
92380466|NCT02391961|184663762|SUPERIORITY|||||||0.9|||||||ANOVA|||Statistical Analysis applies to the 4 subgroups: MRS at baseline and after 3 hours on dalfampridine, and MRS at baseline and after 3 hours on placebo.||||0.9
92380467|NCT02391961|184663763|SUPERIORITY|||||||0.990995|||||||ANOVA|||Statistical Analysis applies to the 4 subgroups: 25 FWT at baseline and after 3 hours on dalfampridine, and 25 FWT at baseline and after 3 hours on placebo.||||0.990995
92380468|NCT02391961|184663764|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Statistical Analysis applies to the 2 groups, mean VFQ-25 scores on dalfampridine vs mean VFQ-25 scores on placebo||||0.71
92380469|NCT02391961|184663765|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Statistical Analysis applies to the 2 groups, mean 10-item NOS scores on dalfampridine vs mean 10-item NOS scores on placebo||||0.95
92380470|NCT01541917|184663791|SUPERIORITY_OR_OTHER||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|-0.06|-0.02|||Multilevel growth model|Adjusted for baseline values|The parameter represents the average monthly change on the outcome variable since group procedures were initiated.|Multilevel growth model evaluating average change over time (regardless of group) on the outcome variable||-.02|-.06|<.001
92380471|NCT01541917|184663791|SUPERIORITY_OR_OTHER||Slope|-0.014|STANDARD_ERROR_OF_MEAN|0.021||0.51|TWO_SIDED|95.0|-0.055|0.027|||Multilevel growth model||The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.027|-.055|.51
92380472|NCT01541917|184663792|SUPERIORITY_OR_OTHER||Slope|0.37|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|0.27|0.46|||Multilevel growth model|Adjusted for baseline values.|The parameter represents the average monthly change on the outcome variable since before group procedures were started.|Multilevel growth model evaluating average change over time on the outcome variable||.46|.27|<.001
92380473|NCT01541917|184663792|SUPERIORITY_OR_OTHER||Slope|0.053|STANDARD_ERROR_OF_MEAN|0.101||0.59|TWO_SIDED|95.0|-0.144|0.252|||Multilevel growth model|Adjusted for baseline values on the outcome variable|The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.252|-.144|.59
92380474|NCT01541917|184663793|SUPERIORITY_OR_OTHER||Slope|0.12|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|0.1|0.14|||Multilevel growth model|Adjusted for baseline values|The parameter represents the average monthly change on the outcome variable since before group procedures were started|Multilevel growth model evaluating average change over time on the outcome variable||.14|.10|<.001
92380475|NCT01541917|184663793|SUPERIORITY_OR_OTHER||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.63|TWO_SIDED|95.0|-0.05|0.03|||Multilevel growth model|Adjusted for baseline values on the outcome variable|The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.03|-.05|.63
92380476|NCT01541917|184663794|SUPERIORITY_OR_OTHER||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.02|TWO_SIDED|95.0|-0.18|-0.01|||Multilevel growth model|Adjusted for baseline values|The parameter represents the average monthly change on the outcome variable since before group procedures were started.|Multilevel growth model evaluating average change over time on the outcome variable||-.01|-.18|.02
92380477|NCT01541917|184663794|SUPERIORITY_OR_OTHER||Slope|-0.009|STANDARD_ERROR_OF_MEAN|0.084||0.91|TWO_SIDED|95.0|-0.174|0.155|||Multilevel growth model|Adjusted for baseline values on the outcome variable|The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.155|-.174|.91
92380478|NCT01541917|184663795|SUPERIORITY_OR_OTHER||Slope|0.0316|STANDARD_ERROR_OF_MEAN|0.004|<|0.001|TWO_SIDED|95.0|0.02|0.04|||Multilevel growth model|Adjusted for baseline values.|The parameter represents the average monthly change on the outcome variable since before group procedures were started|Multilevel growth model evaluating average change over time on the outcome variable||.04|.02|<.001
92380479|NCT01541917|184663795|SUPERIORITY_OR_OTHER||Slope|-0.004|STANDARD_ERROR_OF_MEAN|0.008||0.67|TWO_SIDED|95.0|-0.02|0.013|||Multilevel growth model|Adjusted for baseline values on the outcome variable|The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.013|-.02|.67
92413162|NCT02744040|184715961|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||>0.05
92413163|NCT02744040|184715961|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||>0.05
92380480|NCT01541917|184663796|SUPERIORITY_OR_OTHER||Slope|-0.002|STANDARD_ERROR_OF_MEAN|0.004||0.58|TWO_SIDED|95.0|-0.01|0.01|||Multilevel growth model|Adjusted for baseline values|The parameter represents the average monthly change on the outcome variable since before group procedures were started.|Multilevel growth model evaluating average change over time on the outcome variable||.01|-.01|.58
92413164|NCT02744040|184715961|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||>0.05
92231856|NCT00190775|184365847|SUPERIORITY_OR_OTHER|||||||0.963||95.0||||P-Value for Child Domain Reinforces Parent.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.963
92380481|NCT01541917|184663796|SUPERIORITY_OR_OTHER||Slope|0.005|STANDARD_ERROR_OF_MEAN|0.007||0.49|TWO_SIDED|95.0|-0.009|0.018|||Multilevel growth model|Adjusted for baseline values on the outcome variable|The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.018|-.009|.49
92380482|NCT00121641|184663804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.9|-0.33||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-0.33|-0.90|<.0001
92380483|NCT00121641|184663804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.93|-0.36||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-0.36|-0.93|<.0001
92380484|NCT00121641|184663804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.02|-0.44||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-0.44|-1.02|<.0001
92380485|NCT00121641|184663805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.6|STANDARD_ERROR_OF_MEAN|5.53||0.0002|TWO_SIDED|95.0|-31.47|-9.72||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-9.72|-31.47|0.0002
92413165|NCT02744040|184715962|OTHER|||||||0.057||||||Multiple hypothesis testing was performed using Tukey's HSD procedure.|Mixed Effects Models|||TILDA stimulation reservoir measure at the time of ART initiation in each of the three EDDI groups||||0.057
92413166|NCT02744040|184715963|OTHER|Tukey's Honest Significant Difference (HSD) test||||||0.01||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||0.010
92413167|NCT02744040|184715963|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||<0.0001
92231857|NCT00190775|184365847|SUPERIORITY_OR_OTHER|||||||0.075||95.0||||P-Value for Child Domain Demandingness.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.075
92413168|NCT02744040|184715963|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||>0.05
92413169|NCT02744040|184715963|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||>0.05
92413170|NCT02744040|184715963|OTHER|Tukey's Honest Significant Difference (HSD) test||||||0.052||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||0.052
92413171|NCT02744040|184715963|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||>0.05
92413172|NCT01185353|184715993|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori p-value significance threshold: 1-sided ≤0.10|Regression, Logistic|||||||<0.001
92413173|NCT01185353|184715995|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.045
92413174|NCT01185353|184715995|SUPERIORITY_OR_OTHER|||||||0.088|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.088
92413175|NCT01185353|184715995|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
92413176|NCT01185353|184715995|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
92413177|NCT01185353|184715997|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.003
92413178|NCT01185353|184715997|SUPERIORITY_OR_OTHER|||||||0.162|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.162
92413179|NCT01185353|184715997|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
92413180|NCT01185353|184715997|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
92413181|NCT01185353|184715999|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.017
92413182|NCT01185353|184715999|SUPERIORITY_OR_OTHER|||||||0.109|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.109
92413183|NCT01185353|184715999|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
92413184|NCT01185353|184715999|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
92413185|NCT01185353|184716003|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||P-value is for TJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.480
92169215|NCT02528188|184227155|SUPERIORITY||Odds Ratio (OR)|0.63||||0.0076|TWO_SIDED|95.0|0.45|0.88|||Regression, Logistic|||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline diary average pain, baseline WOMAC pain score, classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||0.88|0.45|0.0076
92231858|NCT00190775|184365847|SUPERIORITY_OR_OTHER|||||||0.854||95.0||||P-Value for Child Domain Mood.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.854
92231859|NCT00190775|184365847|SUPERIORITY_OR_OTHER|||||||0.671||95.0||||P-Value for Child Domain Acceptability.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.671
92413186|NCT01185353|184716003|SUPERIORITY_OR_OTHER|||||||0.064|TWO_SIDED|||||P-value is for TJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.064
92413187|NCT01185353|184716003|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for TJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413188|NCT01185353|184716003|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for TJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.001
92413189|NCT01185353|184716003|SUPERIORITY_OR_OTHER|||||||0.116|TWO_SIDED|||||P-value is for SJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.116
92413190|NCT01185353|184716003|SUPERIORITY_OR_OTHER|||||||0.201|TWO_SIDED|||||P-value is for SJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.201
92413191|NCT01185353|184716003|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for SJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413192|NCT01185353|184716003|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-value is for SJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.002
92413193|NCT01185353|184716005|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.003
92231860|NCT00190775|184365848|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-Value for Total Stress.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.280
92380486|NCT00121641|184663805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.73|STANDARD_ERROR_OF_MEAN|5.48||0.0074|TWO_SIDED|95.0|-25.5|-3.97||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-3.97|-25.50|0.0074
92231861|NCT00190775|184365848|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||P-Value for Life Stress.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.34
92380487|NCT00121641|184663805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.81|STANDARD_ERROR_OF_MEAN|5.58|<|0.0001|TWO_SIDED|95.0|-33.79|-11.84||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-11.84|-33.79|<.0001
92380488|NCT00121641|184663806|SUPERIORITY_OR_OTHER||Difference in Proportions|11.1||||0.1141|TWO_SIDED|95.0|-3.1|24.9||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||24.9|-3.1|0.1141
92413194|NCT01185353|184716005|SUPERIORITY_OR_OTHER|||||||0.167|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.167
92413195|NCT01185353|184716005|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413196|NCT01185353|184716005|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.001
92413197|NCT01185353|184716007|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.016
92413198|NCT01185353|184716007|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.108
92413199|NCT01185353|184716007|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.008
92413200|NCT01185353|184716007|SUPERIORITY_OR_OTHER|||||||0.368|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.368
92413201|NCT01185353|184716009|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.039
92413202|NCT01185353|184716009|SUPERIORITY_OR_OTHER|||||||0.458|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.458
92231862|NCT00190775|184365849|SUPERIORITY_OR_OTHER|||||||0.103||95.0||||P-Value for Parent Domain Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.103
92231863|NCT00190775|184365849|SUPERIORITY_OR_OTHER|||||||0.182||95.0||||P-Value for Parent Domain Competence.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.182
92231864|NCT00190775|184365849|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-Value for Parent Domain Isolation.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.161
92278116|NCT03586830|184458289|SUPERIORITY||Difference of LS Means|-5.85|STANDARD_ERROR_OF_MEAN|0.755|<|0.001|TWO_SIDED|95.0|-7.34|-4.36|||Hochberg Approach|||||-4.36|-7.34|<.001
92380489|NCT00121641|184663806|SUPERIORITY_OR_OTHER||Difference in Proportions|14.0||||0.0443|TWO_SIDED|95.0|-0.1|27.6||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||27.6|-0.1|0.0443
92231865|NCT00190775|184365849|SUPERIORITY_OR_OTHER|||||||0.472||95.0||||P-Value for Parent Domain Attachment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.472
92231866|NCT00190775|184365849|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||P-Value for Parent Domain Health.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.949
92380490|NCT00121641|184663806|SUPERIORITY_OR_OTHER||Difference in Proportions|17.1||||0.0133|TWO_SIDED|95.0|2.8|31.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||31.0|2.8|0.0133
92231867|NCT00190775|184365849|SUPERIORITY_OR_OTHER|||||||0.848||95.0||||P-Value for Parent Domain Role Restriction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.848
92413203|NCT01185353|184716009|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.008
92413204|NCT01185353|184716009|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.029
92413205|NCT01185353|184716011|SUPERIORITY_OR_OTHER|||||||0.217|TWO_SIDED|||||P-value is for Physician's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.217
92413206|NCT01185353|184716011|SUPERIORITY_OR_OTHER|||||||0.092|TWO_SIDED|||||P-value is for Physician's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.092
92413207|NCT01185353|184716011|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Physician's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413208|NCT01185353|184716011|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Physician's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413209|NCT01185353|184716011|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413210|NCT01185353|184716011|SUPERIORITY_OR_OTHER|||||||0.072|TWO_SIDED|||||P-value is for Patient's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.072
92413211|NCT01185353|184716011|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413212|NCT01185353|184716011|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92231868|NCT00190775|184365849|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-Value for Parent Domain Depression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.050
92231869|NCT00190775|184365849|SUPERIORITY_OR_OTHER|||||||0.84||95.0||||P-Value for Parent Domain Spouse.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.840
92231870|NCT00190775|184365850|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||P-Value for Child Domain Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.785
92231871|NCT00190775|184365850|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||P-Value for Defensive Responding.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.081
92231872|NCT00190775|184365850|SUPERIORITY_OR_OTHER|||||||0.518||95.0||||P-Value for Child Domain Distractibility/Hyperactive.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.518
92231873|NCT00190775|184365850|SUPERIORITY_OR_OTHER|||||||0.883||95.0||||P-Value for Child Domain Adaptability.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.883
92413213|NCT01185353|184716011|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of Pain - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92231874|NCT00190775|184365850|SUPERIORITY_OR_OTHER|||||||0.439||95.0||||P-Value for Child Domain Reinforces Parent.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.439
92231875|NCT00190775|184365850|SUPERIORITY_OR_OTHER|||||||0.167||95.0||||P-Value for Child Domain Demandingness.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.167
92231876|NCT00190775|184365850|SUPERIORITY_OR_OTHER|||||||0.381||95.0||||P-Value for Child Domain Mood.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.381
92231877|NCT00190775|184365850|SUPERIORITY_OR_OTHER|||||||0.906||95.0||||P-Value for Child Domain Acceptability.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.906
92231878|NCT00190775|184365851|SUPERIORITY_OR_OTHER|||||||0.42||95.0||||P-Value for Parent Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.420
92231879|NCT00190775|184365851|SUPERIORITY_OR_OTHER|||||||0.249||95.0||||P-Value for Parent Positive Parenting.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.249
92231880|NCT00190775|184365851|SUPERIORITY_OR_OTHER|||||||0.927||95.0||||P-Value for Parent Poor Supervision.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.927
92231881|NCT00190775|184365851|SUPERIORITY_OR_OTHER|||||||0.205||95.0||||P-Value for Parent Inconsistent Discipline.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.205
92231882|NCT00190775|184365851|SUPERIORITY_OR_OTHER|||||||0.673||95.0||||P-Value for Parent Corporal Punishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.673
92231883|NCT00190775|184365851|SUPERIORITY_OR_OTHER|||||||0.881||95.0||||P-Value for Parent Other Discipline Practice.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.881
92413214|NCT01185353|184716011|SUPERIORITY_OR_OTHER|||||||0.082|TWO_SIDED|||||P-value is for Patient's Assessment of Pain - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.082
92413215|NCT01185353|184716011|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of Pain - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413216|NCT01185353|184716011|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of Pain - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413217|NCT01185353|184716013|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.024
92413218|NCT01185353|184716013|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.030
92231884|NCT00190775|184365851|SUPERIORITY_OR_OTHER|||||||0.808||95.0||||P-Value for Dysfunctional Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.808
92413219|NCT01185353|184716013|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413220|NCT01185353|184716013|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413221|NCT01185353|184716015|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED|||||P-value is for comparison of the superiority of the LY3009104 dose level vs. placebo for the ordinal levels of response - Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Cochran-Mantel-Haenszel|||||||0.120
92413222|NCT01185353|184716015|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||P-value is for comparison of the superiority of the LY3009104 dose level vs. placebo for the ordinal levels of response - Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Cochran-Mantel-Haenszel|||||||0.012
92413223|NCT01185353|184716015|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for comparison of the superiority of the LY3009104 dose level vs. placebo for the ordinal levels of response - Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Cochran-Mantel-Haenszel|||||||<0.001
92413224|NCT01185353|184716015|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for comparison of the superiority of the LY3009104 dose level vs. placebo for the ordinal levels of response - Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Cochran-Mantel-Haenszel|||||||<0.001
92413225|NCT01185353|184716017|SUPERIORITY_OR_OTHER|||||||0.409|TWO_SIDED|||||P-value is for Low Disease Activity - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.409
92413226|NCT01185353|184716017|SUPERIORITY_OR_OTHER|||||||0.371|TWO_SIDED|||||P-value is for Low Disease Activity - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.371
92413227|NCT01185353|184716017|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Low Disease Activity - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||<0.001
92413228|NCT01185353|184716017|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|||||P-value is for Low Disease Activity - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.007
92413229|NCT01185353|184716017|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||P-value is for Remission - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.033
92413230|NCT01185353|184716017|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED|||||P-value is for Remission - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.019
92413231|NCT01185353|184716017|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Remission - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||<0.001
92413232|NCT01185353|184716017|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for Remission - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.001
92413233|NCT01185353|184716019|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.015
92413234|NCT01185353|184716019|SUPERIORITY_OR_OTHER|||||||0.073|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.073
92413235|NCT01185353|184716019|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92231885|NCT00190775|184365851|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||P-Value for Negative Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.498
92231886|NCT00190775|184365851|SUPERIORITY_OR_OTHER|||||||0.283||95.0||||P-Value for Positive Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.283
92231887|NCT00190775|184365852|SUPERIORITY_OR_OTHER|||||||0.784||95.0||||P-Value for Parent Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.784
92231888|NCT00190775|184365852|SUPERIORITY_OR_OTHER|||||||0.864||95.0||||P-Value for Parent Positive Parenting.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.864
92231889|NCT00190775|184365852|SUPERIORITY_OR_OTHER|||||||0.884||95.0||||P-Value for Parent Poor Supervision.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.884
92413236|NCT01185353|184716019|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413237|NCT01185353|184716020|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED|||||P-value is for PCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.021
92413238|NCT01185353|184716020|SUPERIORITY_OR_OTHER|||||||0.194|TWO_SIDED|||||P-value is for PCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.194
92413239|NCT01185353|184716020|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for PCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413240|NCT01185353|184716020|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||P-value is for PCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.012
92413241|NCT01185353|184716020|SUPERIORITY_OR_OTHER|||||||0.449|TWO_SIDED|||||P-value is for MCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.449
92413242|NCT01185353|184716020|SUPERIORITY_OR_OTHER|||||||0.578|TWO_SIDED|||||P-value is for MCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.578
92413243|NCT01185353|184716020|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED|||||P-value is for MCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.140
92413244|NCT01185353|184716020|SUPERIORITY_OR_OTHER|||||||0.266|TWO_SIDED|||||P-value is for MCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.266
92413245|NCT01185353|184716021|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANCOVA|A priori p-value significance threshold: 2-sided ≤0.10.||||||0.005
92380491|NCT00121641|184663807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6221.0|STANDARD_ERROR_OF_MEAN|1701.3||0.0003|TWO_SIDED|95.0|-9570.0|-2872.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-2872|-9570|0.0003
92231890|NCT00190775|184365852|SUPERIORITY_OR_OTHER|||||||0.072||95.0||||P-Value for Parent Inconsistent Discipline.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.072
92231891|NCT00190775|184365852|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||P-Value for Parent Corporal Punishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.120
92231892|NCT00190775|184365852|SUPERIORITY_OR_OTHER|||||||0.925||95.0||||P-Value Other Discipline Practice.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.925
92231893|NCT00190775|184365852|SUPERIORITY_OR_OTHER|||||||0.444||95.0||||P-Value for Dysfunctional Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.444
92231894|NCT00190775|184365852|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||P-Value for Negative Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.166
92231895|NCT00190775|184365852|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||P-Value for Positive Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.875
92231896|NCT00190775|184365853|SUPERIORITY_OR_OTHER|||||||0.895||95.0||||P-Value for Child Involvement Mother.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.895
92278117|NCT03586830|184458289|SUPERIORITY||Difference of LS Means|-7.23|STANDARD_ERROR_OF_MEAN|0.748|<|0.001|TWO_SIDED|95.0|-8.7|-5.75|||Hochberg Approach|||||-5.75|-8.70|<.001
92278118|NCT00395083|184458293|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.62|TWO_SIDED|95.0|0.7|1.8|||Log Rank|||||1.80|0.70|0.62
92380492|NCT00121641|184663807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6249.0|STANDARD_ERROR_OF_MEAN|1675.1||0.0002|TWO_SIDED|95.0|-9546.0|-2952.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-2952|-9546|0.0002
92380493|NCT00121641|184663807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7437.0|STANDARD_ERROR_OF_MEAN|1707.6|<|0.0001|TWO_SIDED|95.0|-10798.0|-4076.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-4076|-10798|<.0001
92413246|NCT01185353|184716021|SUPERIORITY_OR_OTHER|||||||0.135|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.135
92380494|NCT01792518|184663842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.78|-0.43|||Mixed Models Analysis|The Unstructured covariance structure has been used to fit the mixed model|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Linagliptin 5 mg minus Placebo.|Superiority of Linagliptin 5 mg vs. placebo: change in HbA1c is analysed using mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c, baseline log10 (UACR), baseline HbA1c by visit and baseline log10 (UACR) by visit as linear covariates and treatment, visit, visit by treatment interaction as fixed effects.||-0.43|-0.78|<0.0001
92380495|NCT01792518|184663843|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.94||||0.1954|TWO_SIDED|95.0|0.85|1.03|||ANCOVA||Ratio of relative change for Linagliptin 5 mg over placebo is presented.|Superiority of Linagliptin 5 mg vs. placebo: change in UACR is analysed using analysis of covariance model. Model includes baseline HbA1c and baseline log10 (UACR) as linear covariates and treatment as fixed effect.||1.03|0.85|0.1954
92413247|NCT01185353|184716021|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
92413248|NCT01185353|184716021|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.001
92231897|NCT00190775|184365853|SUPERIORITY_OR_OTHER|||||||0.792||95.0||||P-Value for Child Involvement Father.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.792
92231898|NCT00190775|184365853|SUPERIORITY_OR_OTHER|||||||0.318||95.0||||P-Value for Child Positive Parenting.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.318
92231899|NCT00190775|184365853|SUPERIORITY_OR_OTHER|||||||0.914||95.0||||P-Value for Child Poor Supervision.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.914
92231900|NCT00190775|184365853|SUPERIORITY_OR_OTHER|||||||0.961||95.0||||P-Value for Child Inconsistent Discipline.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.961
92231901|NCT00190775|184365853|SUPERIORITY_OR_OTHER|||||||0.807||95.0||||P-Value for Child Corporal Punishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.807
92231902|NCT00190775|184365853|SUPERIORITY_OR_OTHER|||||||0.827||95.0||||P-Value for Child Other Discipline Practice.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.827
92231903|NCT00190775|184365854|SUPERIORITY_OR_OTHER|||||||0.828||95.0||||P-Value for Child Involvement Mother.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.828
92231904|NCT00190775|184365854|SUPERIORITY_OR_OTHER|||||||0.401||95.0||||P-Value for Child Involvement Father.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.401
92231905|NCT00190775|184365854|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||P-Value for Child Positive Parenting.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.300
92278119|NCT00395083|184458294|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.62|TWO_SIDED|95.0|0.7|1.8|||Regression, Cox|||||1.80|0.70|0.62
92413249|NCT01185353|184716022|SUPERIORITY_OR_OTHER|||||||0.203|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.203
92413250|NCT01185353|184716022|SUPERIORITY_OR_OTHER|||||||0.164|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.164
92413251|NCT01185353|184716022|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.018
92231906|NCT00190775|184365854|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||P-Value for Child Poor Supervision.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.575
92231907|NCT00190775|184365854|SUPERIORITY_OR_OTHER|||||||0.772||95.0||||P-Value for Child Inconsistent Discipline.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.772
92231908|NCT00190775|184365854|SUPERIORITY_OR_OTHER|||||||0.918||95.0||||P-Value for Child Corporal Punishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.918
92231909|NCT00190775|184365854|SUPERIORITY_OR_OTHER|||||||0.636||95.0||||P-Value for Child Other Discipline Practice.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.636
92231910|NCT00190775|184365855|SUPERIORITY_OR_OTHER|||||||0.583||95.0||||P-Value for Total ADHD Score.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.583
92231911|NCT00190775|184365855|SUPERIORITY_OR_OTHER|||||||0.997||95.0||||P-Value for Hyperactive-Impulsive Symptom ADHD Score.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.997
92380496|NCT01792518|184663844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|2.7||0.3306|TWO_SIDED|95.0|-7.95|2.68|||Mixed Models Analysis|The Unstructured covariance structure has been used to fit the mixed model|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Linagliptin 5 mg minus Placebo.|Change in eGFR is analysed using mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c, baseline log10 (UACR), baseline eGFR, baseline HbA1c by visit, baseline log10 (UACR) by visit and baseline eGFR by visit as linear covariates and treatment, visit, visit by treatment interaction as fixed effects.||2.68|-7.95|0.3306
92380497|NCT02011490|184663846|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|5.42|||||TWO_SIDED|90.0|4.12|7.11|||||Difference in least squares means of log-transformed data (severe renal impaired - healthy) was back transformed to geometric least squares mean ratio (severe renal impaired/healthy)|Log-transformed plasma values were modeled using an analysis of variance (ANOVA) linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||7.11|4.12|
92380498|NCT02011490|184663846|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|2.42|||||TWO_SIDED|90.0|1.84|3.17|||||Difference in least squares means of log-transformed data (moderate renal impaired - healthy) was back transformed to geometric least squares mean ratio (moderate renal impaired/healthy)|Log-transformed plasma values were modeled using an ANOVA linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||3.17|1.84|
92380499|NCT02011490|184663847|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|5.49|||||TWO_SIDED|90.0|4.18|7.22|||||Difference in least squares means of log-transformed data (severe renal impaired - healthy) was back transformed to geometric least squares mean ratio (severe renal impaired/healthy)|Log-transformed plasma values were modeled using an ANOVA linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||7.22|4.18|
92380500|NCT02011490|184663847|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|2.42|||||TWO_SIDED|90.0|1.84|3.18|||||Difference in least squares means of log-transformed data (moderate renal impaired - healthy) was back transformed to geometric least squares mean ratio (moderate renal impaired/healthy)|Log-transformed plasma values were modeled using an ANOVA linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||3.18|1.84|
92380501|NCT02011490|184663848|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|0.94|||||TWO_SIDED|90.0|0.73|1.21|||||Difference in least squares means of log-transformed data (severe renal impaired - healthy) was back transformed to geometric least squares mean ratio (severe renal impaired/healthy)|Log-transformed plasma values were modeled using an ANOVA linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||1.21|0.73|
92380502|NCT02011490|184663848|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|0.92|||||TWO_SIDED|90.0|0.72|1.18|||||Difference in least squares means of log-transformed data (moderate renal impaired - healthy) was back transformed to geometric least squares mean ratio (moderate renal impaired/healthy)|Log-transformed plasma values were modeled using an ANOVA linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||1.18|0.72|
92380503|NCT01014455|184663860|SUPERIORITY_OR_OTHER|||||||0.672||95.0|||||t-test, 2 sided|||||||0.672
92380504|NCT00249613|184663864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|STANDARD_ERROR_OF_MEAN|0.34||0.01|TWO_SIDED|95.0|0.21|0.79||Odds ratio is 0.40, confidence interval is 0.21-0.79.|Regression, Logistic||The direction of the comparison would dictate that odds ratio of less than 1 would indicate Women-Only participants are less likely than Mixed-Gender participants to engage in criminal activities.|Logistic regression does not separate arms because group status (women-only vs mixed gender) is the dependent variable in our multinomial logistic regression. Because we were not able to randomly assign after all, we also included a propensity score, and additional variables (substance use in past 30 days at baseline, age, race/ethnicity, childhood sexual abuse history, previous treatment, criminal justice funding source, and primary drug) to adjust for the non-random sampling.||0.79|0.21|0.01
92380505|NCT00249613|184663865|SUPERIORITY_OR_OTHER||Beta coefficient|-0.7|STANDARD_ERROR_OF_MEAN|0.72||0.33|TWO_SIDED|95.0|-2.11|0.7|||Generalized estimating equations (GEE)|||Generalized estimating equation (GEE) models do not separate arms: group status (women-only vs mixed-gender) is the dependent variable. Because we were not able to randomly assign, we also included a propensity score, and additional variables (education, race/ethnicity, marital status, income, history of sexual abuse, criminal justice funding source, had child, mental health symptoms, and a time in treatment by group interaction term) to adjust for the non-random sampling.||0.70|-2.11|0.33
92413252|NCT01185353|184716022|SUPERIORITY_OR_OTHER|||||||0.097|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.097
92413253|NCT03456882|184716028|SUPERIORITY|||||||0.6346||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.6346
92231912|NCT00190775|184365855|SUPERIORITY_OR_OTHER|||||||0.333||95.0||||P-Value for Inattention Symptom ADHD Score.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.333
92413254|NCT03456882|184716028|SUPERIORITY||Mean Difference (Net)|2.4|STANDARD_ERROR_OF_MEAN|2.6||0.3585|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.3585
92380506|NCT00249613|184663866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42|STANDARD_ERROR_OF_MEAN|0.34||0.01|TWO_SIDED|95.0|0.22|0.82|||Regression, Logistic||The direction of the comparison would dictate that odds ratio of less than 1 would indicate Women-Only treatment participants are less likely than the Mixed-Gender group to use drugs or alcohol during the 30 days prior to the 12-Mo follow-up.|Logistic regression does not separate arms because group status (women-only vs mixed gender) is the dependent variable in our multinomial logistic regression. Because we were not able to randomly assign after all, we also included a propensity score, and additional variables (substance use in past 30 days at baseline, age, race/ethnicity, childhood sexual abuse history, previous treatment, criminal justice funding source, and primary drug) to adjust for the non-random sampling.||0.82|0.22|0.01
92380507|NCT01184417|184663868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0|||||TWO_SIDED|95.0|4.0|32.0||||||||32|4|
92380508|NCT01184417|184663869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.0|||||TWO_SIDED|95.0|4.0|49.0||||||||49|4|
92413255|NCT03456882|184716029|SUPERIORITY|||||||0.4388||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.4388
92231913|NCT00190775|184365856|SUPERIORITY_OR_OTHER|||||||0.792||95.0||||P-Value for Oppositional Defiant Disorder Flag|Fisher Exact|||||||.792
92231914|NCT00190775|184365856|SUPERIORITY_OR_OTHER|||||||0.675||95.0||||P-Value for Conduct Disorder Flag.|Fisher Exact|||||||0.675
92231915|NCT00190775|184365857|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||P-Value for PSOC Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.875
92231916|NCT00190775|184365857|SUPERIORITY_OR_OTHER|||||||0.569||95.0||||P-Value for Satisfaction Scale.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.569
92231917|NCT00190775|184365857|SUPERIORITY_OR_OTHER|||||||0.399||95.0||||P-Value for Efficacy Scale.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.399
92231918|NCT00190775|184365858|SUPERIORITY_OR_OTHER|||||||0.365||95.0||||P-Value for PSOC Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.365
92231919|NCT00190775|184365858|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||P-Value for Satisfaction Scale.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.620
92231920|NCT00190775|184365858|SUPERIORITY_OR_OTHER|||||||0.462||95.0||||P-Value for Efficacy Scale.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.462
92231921|NCT00190775|184365859|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-Value for Total Score at 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.001
92413256|NCT03456882|184716029|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|20.2||0.9887|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.9887
92413257|NCT03456882|184716030|SUPERIORITY|||||||0.9622||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.9622
92231922|NCT00190775|184365859|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-Value for Hyperactivity Score at 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.004
92231923|NCT00190775|184365859|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Inattention Score at 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
92231924|NCT00190775|184365859|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score at 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
92231925|NCT00190775|184365859|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Hyperactivity Score at 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
92231926|NCT00190775|184365859|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Inattention Score at 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
92380509|NCT01184417|184663870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.0|||||TWO_SIDED|95.0|-4.0|82.0||||||||82|-4|
92231927|NCT00190775|184365860|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 8 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
92231928|NCT00190775|184365860|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
92231929|NCT00190775|184365861|SUPERIORITY_OR_OTHER|||||||0.553||95.0||||P-Value for 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.553
92231930|NCT00190775|184365861|SUPERIORITY_OR_OTHER|||||||0.797||95.0||||P-Value for 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.797
92231931|NCT00190775|184365862|SUPERIORITY_OR_OTHER|||||||0.108||95.0||||P-Value for State Anxiety Score at 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.108
92231932|NCT00190775|184365862|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||P-Value for Trait Anxiety Score at 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.026
92380510|NCT01184417|184663872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0|||||TWO_SIDED|95.0|-11.0|23.0||||||||23|-11|
92231933|NCT00190775|184365862|SUPERIORITY_OR_OTHER|||||||0.897||95.0||||P-Value is for State Anxiety Score at 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.897
92231934|NCT00190775|184365862|SUPERIORITY_OR_OTHER|||||||0.171||95.0||||P-Value is for Trait Anxiety Score at 24 weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.171
92231935|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.892||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.892
92231936|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.003
92231937|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.007
92231938|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.533||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.533
92231939|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.054
92231940|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.012
92231941|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.457
92278120|NCT00395083|184458295|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.0||||0.003|TWO_SIDED|95.0|1.46|6.17|||Regression, Cox|||||6.17|1.46|0.003
92278121|NCT00395083|184458296|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.0||||0.002|TWO_SIDED|95.0|1.46|6.17|||Log Rank|||||6.17|1.46|0.002
92278122|NCT05188521|184458326|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92380511|NCT04728594|184663883|SUPERIORITY||Odds Ratio (OR)|2.11|||<|0.001|TWO_SIDED|95.0|1.65|2.69||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with delayed contact as the reference group.||2.69|1.65|<.001
92380512|NCT04728594|184663883|SUPERIORITY||Odds Ratio (OR)|2.26|||<|0.001|TWO_SIDED|95.0|1.77|2.87||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with delayed contact as the reference group.||2.87|1.77|<.001
92380513|NCT04728594|184663883|SUPERIORITY||Odds Ratio (OR)|1.07|||<|0.001|TWO_SIDED|95.0|0.88|1.3||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with delayed contact as the reference group.||1.30|0.88|<.001
92278123|NCT05188521|184458327|SUPERIORITY|||||||0.593|||||||Wilcoxon (Mann-Whitney)|||||||0.593
92278124|NCT05188521|184458328|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92278125|NCT05188521|184458329|SUPERIORITY|||||||0.138|||||||Wilcoxon (Mann-Whitney)|||||||0.138
92231942|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.001
92231943|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.021
92231944|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.71||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.710
92231945|NCT00190775|184365863|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||<0.001
92231946|NCT00190775|184365863|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.005
92231947|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.722
92231948|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.011
92231949|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.005
92278126|NCT05188521|184458330|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92278127|NCT05188521|184458331|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|||||||0.357
92278128|NCT05188521|184458332|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92278129|NCT05188521|184458333|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92278130|NCT01132118|184458334|SUPERIORITY_OR_OTHER|||||||0.93||||||Unadjusted|Wilcoxon (Mann-Whitney)|||The P-value calculated was for the difference betweeen the change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.930
92278131|NCT01132118|184458334|SUPERIORITY_OR_OTHER|||||||0.785||||||Adjusted for weight change.|Regression, Linear|||The P-value was calculated for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.785
92278132|NCT01132118|184458335|SUPERIORITY_OR_OTHER|||||||0.575||||||Unadjusted P-value|Wilcoxon (Mann-Whitney)|||P-value for the difference between change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.575
92380514|NCT00128713|184663919|SUPERIORITY_OR_OTHER|||||||0.83||||||Three one-degree-of-freedom chi-square tests, each comparing a pair of treatment groups. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Fisher Exact|These tests were carried out at the .017 significance level to adjust for the multiple comparisons.||||||0.83
92169216|NCT02528188|184227155|SUPERIORITY||Odds Ratio (OR)|0.67||||0.0187|TWO_SIDED|95.0|0.48|0.94|||Regression, Logistic|||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline diary average pain, baseline WOMAC pain score, classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||0.94|0.48|0.0187
92169217|NCT02528188|184227156|SUPERIORITY|||||||0.0074|||||||Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0074
92169218|NCT02528188|184227156|SUPERIORITY|||||||0.0162|||||||Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0162
92169219|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|1.15||||0.1136|TWO_SIDED|95.0|0.97|1.38|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.38|0.97|0.1136
92169220|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|1.08||||0.391|TWO_SIDED|95.0|0.9|1.29|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.29|0.90|0.3910
92169221|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7691|TWO_SIDED|95.0|0.86|1.22|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.22|0.86|0.7691
92169222|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|0.88||||0.143|TWO_SIDED|95.0|0.73|1.05|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.05|0.73|0.1430
92169223|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|1.04||||0.6454|TWO_SIDED|95.0|0.87|1.25|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.25|0.87|0.6454
92169224|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|0.84||||0.0561|TWO_SIDED|95.0|0.7|1.0|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.00|0.70|0.0561
92169225|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9056|TWO_SIDED|95.0|0.82|1.19|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.19|0.82|0.9056
92169226|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|0.9||||0.2919|TWO_SIDED|95.0|0.75|1.09|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.09|0.75|0.2919
92169227|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|0.94||||0.4976|TWO_SIDED|95.0|0.78|1.13|||Regression, Logistic|||Week 24: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.13|0.78|0.4976
92278133|NCT01132118|184458335|SUPERIORITY_OR_OTHER|||||||0.308||||||Adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.308
92169228|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|0.9||||0.2425|TWO_SIDED|95.0|0.75|1.08|||Regression, Logistic|||Week 24: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.08|0.75|0.2425
92169229|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9242|TWO_SIDED|95.0|0.83|1.19|||Regression, Logistic|||Week 32: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.19|0.83|0.9242
92169230|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|0.96||||0.6621|TWO_SIDED|95.0|0.8|1.15|||Regression, Logistic|||Week 32: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.15|0.80|0.6621
92169231|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9977|TWO_SIDED|95.0|0.83|1.2|||Regression, Logistic|||Week 40: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.20|0.83|0.9977
92169232|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9762|TWO_SIDED|95.0|0.84|1.2|||Regression, Logistic|||Week 40: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.20|0.84|0.9762
92169233|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9718|TWO_SIDED|95.0|0.83|1.19|||Regression, Logistic|||Week 48: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.19|0.83|0.9718
92278134|NCT01132118|184458336|SUPERIORITY_OR_OTHER|||||||0.468||||||Unadjusted|Wilcoxon (Mann-Whitney)|||P-value for the difference betweeen change during hydroxychloroquine versus placebo suing Wilcoxon signed-rank tests.||||0.468
92231950|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.779||95.0||||P-Value for Hyper/Impulsive Scale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.779
92231951|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.004
92231952|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.002
92231953|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.716||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.716
92231954|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.071
92231955|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.034
92380515|NCT00128713|184663919|SUPERIORITY_OR_OTHER|||||||0.83||||||Three one-degree-of-freedom chi-square tests, each comparing a pair of treatment groups. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Fisher Exact|These tests were carried out at the .017 significance level to adjust for the multiple comparisons.||||||0.83
92380516|NCT00128713|184663919|SUPERIORITY_OR_OTHER|||||||0.66||||||Three one-degree-of-freedom chi-square tests, each comparing a pair of treatment groups. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Fisher Exact|These tests were carried out at the .017 significance level to adjust for the multiple comparisons.||||||0.66
92231956|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.938||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.938
92231957|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.004
92231958|NCT00190775|184365864|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.005
92380517|NCT00128713|184663920|SUPERIORITY_OR_OTHER|||||||0.02||||||All analyses are based on intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.02
92380518|NCT00128713|184663920|SUPERIORITY_OR_OTHER||||||<|0.001||||||All analyses are based on intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
92413258|NCT03456882|184716030|SUPERIORITY||Mean Difference (Net)|6.5|STANDARD_ERROR_OF_MEAN|14.3||0.6533|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.6533
92413259|NCT03456882|184716031|SUPERIORITY|||||||0.9137||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.9137
92231959|NCT00190775|184365865|SUPERIORITY_OR_OTHER|||||||0.546||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.546
92278135|NCT01132118|184458336|SUPERIORITY_OR_OTHER|||||||0.902||||||Adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.902
92231960|NCT00190775|184365865|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.530
92231961|NCT00190775|184365865|SUPERIORITY_OR_OTHER|||||||0.569||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.569
92231962|NCT00190775|184365865|SUPERIORITY_OR_OTHER|||||||0.986||95.0||||P-Vaue for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.986
92231963|NCT00327444|184365881|SUPERIORITY_OR_OTHER||Least squares (LS) Mean difference|31.8|STANDARD_ERROR_OF_MEAN|10.59||0.0019|TWO_SIDED|95.0|10.56|53.05||Estimated using Wilcoxon rank-sum test with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks) at randomization.|ANOVA|Estimated from ANOVA model with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks).|The LS mean difference is estimated for aflibercept versus placebo (aflibercept-placebo).|||53.05|10.56|0.0019
92231964|NCT00327444|184365882|SUPERIORITY_OR_OTHER||Least squares (LS) Mean difference|375.5|STANDARD_ERROR_OF_MEAN|205.99||0.016|TWO_SIDED|95.0|-46.48|797.42||Estimated using Wilcoxon rank-sum test with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks) at randomization.|ANOVA|Estimated from ANOVA model with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks).|The LS mean difference was estimated for aflibercept versus placebo (aflibercept-placebo).|||797.42|-46.48|0.0160
92278136|NCT01132118|184458337|SUPERIORITY_OR_OTHER|||||||0.004||||||Unadjusted|Wilcoxon (Mann-Whitney)|||P-value for the difference between the change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.004
92380519|NCT00128713|184663920|SUPERIORITY_OR_OTHER||||||<|0.001||||||All analyses are based on intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
92380520|NCT00128713|184663921|SUPERIORITY_OR_OTHER||||||<|0.001||||||All analyses were carried out using intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
92231965|NCT00327444|184365883|SUPERIORITY_OR_OTHER||Least squares (LS) Mean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.94||0.0035|TWO_SIDED|95.0|-4.33|-0.54||Estimated using Wilcoxon rank-sum test with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks) at randomization.|ANOVA|Estimated from ANOVA model with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks).|The LS mean difference is estimated for aflibercept versus placebo (aflibercept-placebo).|||-0.54|-4.33|0.0035
92231966|NCT02249052|184365885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.33|STANDARD_DEVIATION|25.0311|<|0.0001|TWO_SIDED|95.0|-95.394|-71.265|||t-test, 2 sided|||||-71.265|-95.394|<0.0001
92380521|NCT00128713|184663921|SUPERIORITY_OR_OTHER||||||<|0.001||||||All analyses were carried out using intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
92231967|NCT02249052|184365886|SUPERIORITY_OR_OTHER||Binomial proportion|0.8947|||<|0.0001|TWO_SIDED|95.0|0.6686|0.987|||Sign test|||||.9870|.6686|<.0001
92231968|NCT01658514|184365891|SUPERIORITY_OR_OTHER||% Ratio of LS Means|51.5||||0.0011|TWO_SIDED|90.0|37.77|70.23||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Normal Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||70.23|37.77|0.0011
92231969|NCT01658514|184365891|SUPERIORITY_OR_OTHER||% Ratio of LS Means|73.8||||0.0733|TWO_SIDED|90.0|55.97|97.43||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Mild RI Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||97.43|55.97|0.0733
92380522|NCT00128713|184663921|SUPERIORITY_OR_OTHER|||||||0.16||||||All analyses were carried out using intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.16
92380523|NCT00128713|184663923|SUPERIORITY_OR_OTHER|||||||0.51||||||Each pair of treatment arms was compared using an exact version of the Mantel-Haenszel test for trend.|Mantel Haenszel|These tests will be carried out at the .017 significance level to adjust for the multiple comparisons||||||0.51
92380524|NCT00128713|184663923|SUPERIORITY_OR_OTHER|||||||0.82||||||Each pair of treatment arms was compared using an exact version of the Mantel-Haenszel test for trend.|Mantel Haenszel|These tests will be carried out at the .017 significance level to adjust for the multiple comparisons||||||0.82
92380525|NCT00128713|184663923|SUPERIORITY_OR_OTHER|||||||0.68||||||Each pair of treatment arms was compared using an exact version of the Mantel-Haenszel test for trend.|Mantel Haenszel|These tests will be carried out at the .017 significance level to adjust for the multiple comparisons||||||0.68
92380526|NCT01595581|184663991|OTHER|Mann-Whitney U test for continuous variables and Fisher exact test for categorical variables|Mean Difference (Net)|2.9|STANDARD_DEVIATION|1.5||0.35|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"Power was estimated for change in lean mass of 3.0 plus or minus 1.5 kg in healthy men receiving testosterone. Using a significance level of 0.05 and a power of 0.80, a sample size of 6 participants per group was calculated.~This statistical analysis applies to lean mass in participants 6 weeks post operative."||||0.35
92413260|NCT03456882|184716031|SUPERIORITY||Mean Difference (Net)|16.7|STANDARD_ERROR_OF_MEAN|19.7||0.3985|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.3985
92231970|NCT01658514|184365891|SUPERIORITY_OR_OTHER||% Ratio of LS Means|56.7||||0.0028|TWO_SIDED|90.0|42.25|76.1||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Moderate RI Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||76.10|42.25|0.0028
92380527|NCT01595581|184663991|OTHER||Mean Difference (Net)|2.17|STANDARD_DEVIATION|2.0||0.48|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"Power was estimated for change in lean mass of 3.0 plus or minus 1.5 kg in healthy men receiving testosterone. Using a significance level of 0.05 and a power of 0.80, a sample size of 6 participants per group was calculated.~This statistical analysis applies to lean mass in participants 12 weeks post operative."||||0.48
92413261|NCT03456882|184716032|SUPERIORITY|||||||0.2543||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.2543
92231971|NCT01658514|184365891|SUPERIORITY_OR_OTHER||% Ratio of LS Means|52.4||||0.0025|TWO_SIDED|90.0|37.61|73.02||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Severe RI Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||73.02|37.61|0.0025
92231972|NCT01658514|184365892|SUPERIORITY_OR_OTHER||% Ratio of LS Means|65.5||||0.0474|TWO_SIDED|90.0|46.32|92.68||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Normal Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||92.68|46.32|0.0474
92278137|NCT01132118|184458337|SUPERIORITY_OR_OTHER|||||||0.004||||||Adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.004
92380528|NCT01595581|184663991|OTHER||Mean Difference (Net)|1.08|STANDARD_DEVIATION|15.0||0.74|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"Power was estimated for change in lean mass of 3.0 plus or minus 1.5 kg in healthy men receiving testosterone. Using a significance level of 0.05 and a power of 0.80, a sample size of 6 participants per group was calculated.~This statistical analysis applies to lean mass in participants 24 weeks post operative."||||0.74
92380529|NCT01969721|184663997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.125|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.103|0.147||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 250/50 adjusted mean FEV1 AUC 0-12h change from patient baseline (L)|"Null hypothesis: Mean FEV1 AUC 0-12h change from patient baseline (Tiotropium + Olodaterol 5/5 µg) = Mean FEV1 AUC 0-12h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 µg).~Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect."||0.147|0.103|<0.0001
92231973|NCT01658514|184365892|SUPERIORITY_OR_OTHER||% Ratio of LS Means|77.3||||0.1691|TWO_SIDED|90.0|56.72|105.41||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Mild RI Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||105.41|56.72|0.1691
92231974|NCT01658514|184365892|SUPERIORITY_OR_OTHER||% Ratio of LS Means|56.6||||0.0064|TWO_SIDED|90.0|40.73|78.63||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Moderate RI Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||78.63|40.73|0.0064
92231975|NCT01658514|184365892|SUPERIORITY_OR_OTHER||% Ratio of LS Means|54.6||||0.0097|TWO_SIDED|90.0|37.68|79.11||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Severe RI Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||79.11|37.68|0.0097
92413262|NCT03456882|184716032|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.22||0.2209|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.2209
92413263|NCT03456882|184716033|SUPERIORITY|||||||0.2738||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.2738
92231976|NCT01658514|184365893|SUPERIORITY_OR_OTHER|||||||0.9444|TWO_SIDED|||||R² for Placebo-adjusted Change from Pre-dose Value in Lactate Versus Metformin Concentration|Pearson Correlation|||||||0.9444
92231977|NCT01658514|184365893|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||R² for placebo-adjusted change from pre-dose value in lactate versus metformin concentration|Pearson Correlation|||||||<0.0001
92231978|NCT00144170|184365895|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.5||||0.0001|TWO_SIDED|95.0|12.9|24.0|||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||24.0|12.9|0.0001
92231979|NCT00144170|184365896|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
92231980|NCT00144170|184365897|SUPERIORITY_OR_OTHER||Risk Difference (RD)|24.9||||0.0001|TWO_SIDED|95.0|18.6|31.1|||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||31.1|18.6|0.0001
92231981|NCT00144170|184365898|SUPERIORITY_OR_OTHER||Risk Difference (RD)|28.8||||0.0001|TWO_SIDED|95.0|22.5|35.1|||Cochran-Mantel-Haenszel|||||35.1|22.5|0.0001
92231982|NCT00144170|184365899|SUPERIORITY_OR_OTHER||Risk Difference (RD)|29.4||||0.0001|TWO_SIDED|95.0|23.2|35.7|||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||35.7|23.2|0.0001
92231983|NCT00144170|184365900|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.6||||0.0001|TWO_SIDED|95.0|20.5|32.6|||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||32.6|20.5|0.0001
92231984|NCT00144170|184365901|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.1||||0.0001|TWO_SIDED|95.0|16.2|27.9|||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||27.9|16.2|0.0001
92231985|NCT00144170|184365902|SUPERIORITY_OR_OTHER||Risk Difference (RD)|19.0||||0.0001|TWO_SIDED|95.0|13.3|24.7||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||24.7|13.3|0.0001
92231986|NCT00144170|184365903|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.7||||0.0001|TWO_SIDED|95.0|13.0|24.4||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||24.4|13.0|0.0001
92231987|NCT00144170|184365904|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.2||||0.0001|TWO_SIDED|95.0|11.7|22.7||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||22.7|11.7|0.0001
92231988|NCT00144170|184365905|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.1||||0.0001|TWO_SIDED|95.0|11.7|22.4||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||22.4|11.7|0.0001
92231989|NCT00144170|184365906|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.3||||0.0001|TWO_SIDED|95.0|12.0|22.5||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||22.5|12.0|0.0001
92231990|NCT00144170|184365907|SUPERIORITY_OR_OTHER||Risk Difference (RD)|16.4||||0.0001|TWO_SIDED|95.0|11.2|21.5||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||21.5|11.2|0.0001
92231991|NCT00144170|184365908|SUPERIORITY_OR_OTHER||Risk Difference (RD)|16.2||||0.0001|TWO_SIDED|95.0|11.1|21.3||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||21.3|11.1|0.0001
92231992|NCT00144170|184365909|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.6||||0.0001|TWO_SIDED|95.0|10.6|20.6||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||20.6|10.6|0.0001
92231993|NCT00144170|184365910|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
92231994|NCT00144170|184365911|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
92231995|NCT00144170|184365912|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
92231996|NCT00144170|184365986|SUPERIORITY_OR_OTHER|||||||0.1026||95.0|||||Log Rank|||||||0.1026
92231997|NCT00332202|184365993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.541|TWO_SIDED|95.0|0.689|1.216|||Log Rank|||||1.216|0.689|0.541
92231998|NCT00332202|184365999|SUPERIORITY_OR_OTHER|||||||0.606|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 2||||0.606
92380530|NCT01969721|184663997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.129|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.107|0.15||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 500/50 adjusted mean FEV1 AUC 0-12h change from patient baseline (L)|"Null hypothesis: Mean FEV1 AUC 0-12h change from patient baseline (Tiotropium + Olodaterol 5/5 µg) = Mean FEV1 AUC 0-12h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 µg).~Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect."||0.150|0.107|<0.0001
92231999|NCT00332202|184365999|SUPERIORITY_OR_OTHER|||||||0.971|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 4||||0.971
92232000|NCT00332202|184365999|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 6||||0.580
92232001|NCT00332202|184365999|SUPERIORITY_OR_OTHER|||||||0.265|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 12||||0.265
92232002|NCT00332202|184365999|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 18||||0.460
92232003|NCT00332202|184365999|SUPERIORITY_OR_OTHER|||||||0.441|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 24||||0.441
92232004|NCT00332202|184365999|SUPERIORITY_OR_OTHER|||||||0.357|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 36||||0.357
92380531|NCT01969721|184663997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.081|0.124||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 250/50 adjusted mean FEV1 AUC 0-12h change from patient baseline (L)|"Null hypothesis: Mean FEV1 AUC 0-12h change from patient baseline (Tiotropium + Olodaterol 2.5/5 µg) = Mean FEV1 AUC 0-12h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 µg).~Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect."||0.124|0.081|<0.0001
92413264|NCT03456882|184716033|SUPERIORITY||Mean Difference (Net)|-2.9|STANDARD_ERROR_OF_MEAN|3.7||0.4239|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.4239
92413265|NCT03456882|184716034|SUPERIORITY|||||||0.1708||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.1708
92232005|NCT00332202|184366000|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 6||||0.267
92232006|NCT00332202|184366000|SUPERIORITY_OR_OTHER|||||||0.807|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 24||||0.807
92232007|NCT00332202|184366000|SUPERIORITY_OR_OTHER|||||||0.864|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 33||||0.864
92232008|NCT00332202|184366001|SUPERIORITY||Hazard Ratio (HR)|0.768||||0.4|TWO_SIDED|95.0|0.415|1.42|||Regression, Cox|||||1.420|0.415|0.400
92232009|NCT00332202|184366001|SUPERIORITY||Hazard Ratio (HR)|1.309||||0.539|TWO_SIDED|95.0|0.557|3.08|||Regression, Cox|||||3.080|0.557|0.539
92232010|NCT00332202|184366002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.775||||0.084|TWO_SIDED|95.0|0.947|3.329|||Regression, Cox|||||3.329|0.947|0.084
92232011|NCT00332202|184366002|SUPERIORITY||Hazard Ratio (HR)|1.286||||0.585|TWO_SIDED|95.0|0.527|3.137|||Regression, Cox|||||3.137|0.527|0.585
92278138|NCT01132118|184458338|SUPERIORITY_OR_OTHER|||||||0.009||||||Unadjusted|Wilcoxon (Mann-Whitney)|||P-value for the difference between the change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.009
92232012|NCT01392183|184366004|SUPERIORITY||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|0.84|2.22|||||Adjusted Hazard Ratio comparing Median PFS of pazopanib (treatment group) to Temsirolimus (control group) as first line of treatment. HR \>1 treatment group performed better, \< 1 the control group performed better =1 groups performed equally.|||2.22|0.84|
92232013|NCT01392183|184366005|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.7|1.93|||||Adjusted HR comparing Median OS of pazopanib (treatment group) to Temsirolimus (control group) as first line of treatment. HR \>1 treatment group performed better, \< 1 the control group performed better =1 groups performed equally.|||1.93|0.7|
92232014|NCT01587950|184366008|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.99||||0.8918|TWO_SIDED|95.0|-15.5|13.52|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||13.52|-15.50|0.8918
92278139|NCT01132118|184458338|SUPERIORITY_OR_OTHER|||||||0.011||||||Adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.011
92380532|NCT01969721|184663997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.106|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.085|0.128||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 500/50 adjusted mean FEV1 AUC 0-12h change from patient baseline (L)|"Null hypothesis: Mean FEV1 AUC 0-12h change from patient baseline (Tiotropium + Olodaterol 2.5/5 µg) = Mean FEV1 AUC 0-12h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 µg).~Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect."||0.128|0.085|<0.0001
92380533|NCT01969721|184663998|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.082|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.061|0.103||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 250/50 adjusted mean FEV1 AUC 0-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 0-24h change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 AUC 0-24h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.103|0.061|<0.0001
92380534|NCT01969721|184663998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.086|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.065|0.107||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 500/50 adjusted mean FEV1 AUC 0-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 0-24h change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 AUC 0-24h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.107|0.065|<0.0001
92232015|NCT01587950|184366008|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.89||||0.5183|TWO_SIDED|95.0|-19.91|10.14|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||10.14|-19.91|0.5183
92232016|NCT01587950|184366008|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.89||||0.5718|TWO_SIDED|95.0|-17.59|9.8|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||9.80|-17.59|0.5718
92380535|NCT01969721|184663998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.065|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.045|0.086||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 250/50 adjusted mean FEV1 AUC 0-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 0-24h change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 AUC 0-24h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.086|0.045|<0.0001
92413266|NCT03456882|184716034|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.25||0.8133|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.8133
92413267|NCT03456882|184716035|SUPERIORITY|||||||0.5239||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.5239
92232017|NCT01587950|184366008|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.37||||0.6591|TWO_SIDED|95.0|-11.82|18.56|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||18.56|-11.82|0.6591
92278140|NCT01132118|184458339|SUPERIORITY_OR_OTHER|||||||0.73||||||Unadjusted|Wilcoxon (Mann-Whitney)|||P-value for the difference between the change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.730
92413268|NCT03456882|184716035|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.12||0.4401|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.4401
92232018|NCT01587950|184366008|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.02||||0.6921|TWO_SIDED|95.0|-18.17|12.13|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||12.13|-18.17|0.6921
92232019|NCT01587950|184366008|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.39||||0.3513|TWO_SIDED|95.0|-19.98|7.2|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||7.20|-19.98|0.3513
92232020|NCT01587950|184366008|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.96||||0.2346|TWO_SIDED|95.0|-5.96|23.88|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||23.88|-5.96|0.2346
92232021|NCT01587950|184366008|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.24||||0.4138|TWO_SIDED|95.0|-8.92|21.39|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||21.39|-8.92|0.4138
92232022|NCT01587950|184366008|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.72||||0.6931|TWO_SIDED|95.0|-16.44|10.99|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||10.99|-16.44|0.6931
92380536|NCT01969721|184663998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.069|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.048|0.09||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 500/50 adjusted mean FEV1 AUC 0-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 0-24h change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 AUC 0-24h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.090|0.048|<0.0001
92413269|NCT03456882|184716036|SUPERIORITY||difference between mean slopes|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.5725|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction||Contrast of the slopes during the on-treatment period (change per week, from baseline to week 24) between treatment groups. Null hypothesis: the rate of change from baseline to week 24 is not different between groups.||||0.5725
92413270|NCT03456882|184716036|SUPERIORITY||difference between mean slopes|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.5728|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|Contrast of the slopes during the off-treatment follow-up period (change per week, from week 24 to week 48) between treatment groups. Null hypothesis: the rate of change from week 24 to week 48 is not different between groups.||||0.5728
92413271|NCT03456882|184716037|SUPERIORITY|||||||0.9212||||||Significance level set to 0.05|Log Rank|||Null hypothesis: the survival curves over the on-treatment and the off-treatment follow-up period are not different between groups.||||0.9212
92232023|NCT01587950|184366009|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.39||||0.3867|TWO_SIDED|95.0|-21.04|8.26|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.26|-21.04|0.3867
92232024|NCT01587950|184366009|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-11.22||||0.1448|TWO_SIDED|95.0|-26.41|3.96|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||3.96|-26.41|0.1448
92232025|NCT01587950|184366009|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.83||||0.4874|TWO_SIDED|95.0|-18.66|8.99|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.99|-18.66|0.4874
92232026|NCT01587950|184366009|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.87||||0.2038|TWO_SIDED|95.0|-25.23|5.49|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||5.49|-25.23|0.2038
92232027|NCT01587950|184366009|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-11.12||||0.1518|TWO_SIDED|95.0|-26.43|4.19|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||4.19|-26.43|0.1518
92232028|NCT01587950|184366009|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.25||||0.8567|TWO_SIDED|95.0|-14.98|12.49|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||12.49|-14.98|0.8567
92232029|NCT01587950|184366009|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.01||||0.1493|TWO_SIDED|95.0|-4.06|26.08|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, at 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||26.08|-4.06|0.1493
92380537|NCT01969721|184663999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.047|STANDARD_ERROR_OF_MEAN|0.012||0.0002|TWO_SIDED|95.0|0.022|0.071||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 250/50 adjusted mean trough FEV1 change from patient baseline (L)|Null hypothesis: Mean trough FEV1 change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean trough FEV1 change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.071|0.022|0.0002
92380538|NCT01969721|184663999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.058|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.034|0.082||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 500/50 adjusted mean trough FEV1 change from patient baseline (L)|Null hypothesis: Mean trough FEV1 change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean trough FEV1 change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.082|0.034|<0.0001
92380539|NCT01969721|184663999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.042|STANDARD_ERROR_OF_MEAN|0.012||0.0007|TWO_SIDED|95.0|0.018|0.067||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 250/50 adjusted mean trough FEV1 change from patient baseline (L)|Null hypothesis: Mean trough FEV1 change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean trough FEV1 change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.067|0.018|0.0007
92380540|NCT01969721|184663999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.029|0.078||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 500/50 adjusted mean trough FEV1 change from patient baseline (L)|Null hypothesis: Mean trough FEV1 change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean trough FEV1 change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.078|0.029|<0.0001
92232030|NCT01587950|184366009|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.45||||0.4798|TWO_SIDED|95.0|-9.86|20.76|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||20.76|-9.86|0.4798
92232031|NCT01587950|184366009|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.56||||0.4255|TWO_SIDED|95.0|-19.42|8.29|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.29|-19.42|0.4255
92169234|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8219|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic|||Week 48: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.22|0.85|0.8219
92380541|NCT01969721|184664000|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.039|STANDARD_ERROR_OF_MEAN|0.012||0.0007|TWO_SIDED|95.0|0.017|0.062||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated T+O 5/5 - F+S 250/50 adjusted mean FEV1 AUC 12-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 12-24h change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 AUC 12-24h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.062|0.017|0.0007
92380542|NCT01969721|184664000|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.043|STANDARD_ERROR_OF_MEAN|0.011||0.0002|TWO_SIDED|95.0|0.021|0.065||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 500/50 adjusted mean FEV1 AUC 12-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 12-24h change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 AUC 12-24h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.065|0.021|0.0002
92413272|NCT03456882|184716038|SUPERIORITY||difference between mean slopes|0.41|STANDARD_ERROR_OF_MEAN|0.16||0.0101|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|Contrast of the slopes during the on-treatment period (change per week, from baseline to week 24) between treatment groups. Null hypothesis: the rate of change from baseline to week 24 is not different between groups.||||0.0101
92413273|NCT03456882|184716038|SUPERIORITY||difference between mean slopes|0.09|STANDARD_ERROR_OF_MEAN|0.18||0.5924|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|Contrast of the slopes during the off-treatment follow-up period (change per week, from week 24 to week 48) between treatment groups. Null hypothesis: the rate of change from week 24 to week 48 is not different between groups.||||0.5924
92413274|NCT03456882|184716039|SUPERIORITY|||||||0.9598||||||Significance level set to 0.05|Fisher Exact|||AE treatment discontinuation 4 weeks. Null hypothesis: the percentage of patients experiencing at least one adverse event leading to treatment discontinuation within 4 weeks is not different between groups||||0.9598
92413275|NCT03456882|184716039|SUPERIORITY|||||||0.939||||||Significance level set to 0.05|Fisher Exact|||AE treatment discontinuation 12 weeks. Null hypothesis: the percentage of patients experiencing at least one adverse event leading to treatment discontinuation within 12 weeks is not different between groups||||0.9390
92169235|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|0.96||||0.6936|TWO_SIDED|95.0|0.8|1.16|||Regression, Logistic|||Week 56: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.16|0.80|0.6936
92169236|NCT02528188|184227157|SUPERIORITY||Odds Ratio (OR)|1.05||||0.5769|TWO_SIDED|95.0|0.88|1.26|||Regression, Logistic|||Week 56: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.26|0.88|0.5769
92169237|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.07||0.7746|TWO_SIDED|95.0|0.89|1.16|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.16|0.89|0.7746
92169238|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|1.01|STANDARD_ERROR_OF_MEAN|0.07||0.8441|TWO_SIDED|95.0|0.89|1.16|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.16|0.89|0.8441
92169239|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.08||0.658|TWO_SIDED|95.0|0.83|1.13|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.13|0.83|0.6580
92169240|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.91|STANDARD_ERROR_OF_MEAN|0.07||0.2279|TWO_SIDED|95.0|0.78|1.06|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.06|0.78|0.2279
92169241|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.09||0.9986|TWO_SIDED|95.0|0.84|1.18|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.18|0.84|0.9986
92169242|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.86|STANDARD_ERROR_OF_MEAN|0.07||0.0771|TWO_SIDED|95.0|0.72|1.02|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.02|0.72|0.0771
92413276|NCT03456882|184716039|SUPERIORITY|||||||0.3442||||||Significance level set to 0.05|Fisher Exact|||AE treatment discontinuation 24 weeks. Null hypothesis: the percentage of patients experiencing at least one adverse event leading to treatment discontinuation within 24 weeks is not different between groups||||0.3442
92413277|NCT03456882|184716040|SUPERIORITY||difference between mean slopes|-0.13|STANDARD_ERROR_OF_MEAN|0.1||0.1503|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|ALSAQ-40 physical mobility. Contrast of the slopes during the on-treatment and off-treatment follow-up period (change per week, from baseline to week 48) between treatment groups. Null hypothesis: the rate of change from baseline to week 48 is not different between groups.||||0.1503
92413278|NCT03456882|184716040|SUPERIORITY||difference between mean slopes|-0.12|STANDARD_ERROR_OF_MEAN|0.1||0.1556|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|ALSAQ-40 ADL and independence.Contrast of the slopes during the on-treatment and off-treatment follow-up period (change per week, from baseline to week 48) between treatment groups. Null hypothesis: the rate of change from baseline to week 48 is not different between groups.||||0.1556
92232032|NCT01587950|184366010|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.96||||0.7769||95.0|-15.71|11.8||ANCOVA with factors for treatment group, application site, period and random effect for subject.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||11.80|-15.71|0.7769
92413279|NCT03456882|184716040|SUPERIORITY||difference between mean slopes|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.0319|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|ALSAQ-40 eating and drinking. Contrast of the slopes during the on-treatment and off-treatment follow-up period (change per week, from baseline to week 48) between treatment groups. Null hypothesis: the rate of change from baseline to week 48 is not different between groups.||||0.0319
92413280|NCT03456882|184716040|SUPERIORITY||difference between mean slopes|-0.04|STANDARD_ERROR_OF_MEAN|0.1||0.6419|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|ALSAQ-40 communication. Contrast of the slopes during the on-treatment and off-treatment follow-up period (change per week, from baseline to week 48) between treatment groups. Null hypothesis: the rate of change from baseline to week 48 is not different between groups.||||0.6419
92413281|NCT03456882|184716040|SUPERIORITY||difference between mean slopes|0.07|STANDARD_ERROR_OF_MEAN|0.1||0.3951|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|ALSAQ-40 emotional reactions. Contrast of the slopes during the on-treatment and off-treatment follow-up period (change per week, from baseline to week 48) between treatment groups. Null hypothesis: the rate of change from baseline to week 48 is not different between groups.||||0.3951
92413282|NCT03456882|184716041|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|3.8||0.9563|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.9563
92413283|NCT03456882|184716042|SUPERIORITY||Mean Difference (Net)|28.5|STANDARD_ERROR_OF_MEAN|23.4||0.2253|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.2253
92413284|NCT03456882|184716043|SUPERIORITY||Mean Difference (Net)|-7.7|STANDARD_ERROR_OF_MEAN|15.7||0.6263|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.6263
92413285|NCT03456882|184716044|SUPERIORITY||Mean Difference (Final Values)|-19.0|STANDARD_ERROR_OF_MEAN|21.0||0.3671|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.3671
92413286|NCT03456882|184716045|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.22||0.845|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.845
92232033|NCT01587950|184366010|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.32||||0.3811|TWO_SIDED|95.0|-20.64|8.0|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.00|-20.64|0.3811
92380543|NCT01969721|184664000|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.028|STANDARD_ERROR_OF_MEAN|0.011||0.0146|TWO_SIDED|95.0|0.006|0.051||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 250/50 adjusted mean FEV1 AUC 12-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 12-24h change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 AUC 12-24h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.051|0.006|0.0146
92413287|NCT03456882|184716046|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.32||0.2161|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.2161
92232034|NCT01587950|184366010|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.36||||0.5044||95.0|-17.35|8.63|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.63|-17.35|0.5044
92232035|NCT01587950|184366010|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.68||||0.4374|TWO_SIDED|95.0|-20.2|8.84|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.84|-20.20|0.4374
92232036|NCT01587950|184366010|SUPERIORITY_OR_OTHER||Slope|-4.02||||0.5796|TWO_SIDED|95.0|-18.46|10.41|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||10.41|-18.46|0.5796
92232037|NCT01587950|184366010|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.66||||0.7994|TWO_SIDED|95.0|-11.32|14.64|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05||14.64|-11.32|0.7994
92232038|NCT01587950|184366010|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.75||||0.2784|TWO_SIDED|95.0|-6.42|21.93|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||21.93|-6.42|0.2784
92413288|NCT03456882|184716047|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.15||0.4962|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.4962
92413289|NCT03456882|184716048|SUPERIORITY|||||||0.8738||||||Significance level set to 0.05|Wilcoxon (Mann-Whitney)|||Mean AE treatment discontinuation 4 weeks. Null hypothesis: the number of adverse events occurred within 4 weeks is not different between groups||||0.8738
92232039|NCT01587950|184366010|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.68||||0.3581|TWO_SIDED|95.0|-7.75|21.12|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||21.12|-7.75|0.3581
92232040|NCT01587950|184366010|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.07||||0.8703|TWO_SIDED|95.0|-14.11|11.97|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||11.97|-14.11|0.8703
92278141|NCT01132118|184458339|SUPERIORITY_OR_OTHER|||||||0.208||||||Adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.208
92413290|NCT03456882|184716048|SUPERIORITY|||||||0.7556||||||Significance level set to 0.05|Wilcoxon (Mann-Whitney)|||Mean AE treatment discontinuation 12 weeks. Null hypothesis: the number of adverse events occurred within 12 weeks is not different between groups||||0.7556
92413291|NCT03456882|184716048|SUPERIORITY|||||||0.6477||||||Significance level set to 0.05|Wilcoxon (Mann-Whitney)|||Mean AE treatment discontinuation 24 weeks. Null hypothesis: the number of adverse events occurred within 24 weeks is not different between groups||||0.6477
92413292|NCT03456882|184716048|SUPERIORITY|||||||0.6084||||||Significance level set to 0.05|Wilcoxon (Mann-Whitney)|||Mean AE treatment discontinuation 48 weeks. Null hypothesis: the number of adverse events occurred within 48 weeks is not different between groups||||0.6084
92169243|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.09||0.4485|TWO_SIDED|95.0|0.77|1.13|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.13|0.77|0.4485
92380544|NCT01969721|184664000|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.032|STANDARD_ERROR_OF_MEAN|0.011||0.0055|TWO_SIDED|95.0|0.009|0.054||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 500/50 adjusted mean FEV1 AUC 12-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 12-24h change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 AUC 12-24h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.054|0.009|0.0055
92380545|NCT01969721|184664001|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.142|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.118|0.166||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 250/50 adjusted mean FEV1 peak (0-3h) change from patient baseline (L)|Null hypothesis: Mean FEV1 peak (0-3h) change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 peak (0-3h) change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.166|0.118|<0.0001
92380546|NCT01969721|184664001|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.123|0.171||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 500/50 adjusted mean FEV1 peak (0-3h) change from patient baseline (L)|Null hypothesis: Mean FEV1 peak (0-3h) change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 peak (0-3h) change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.171|0.123|<0.0001
92380547|NCT01969721|184664001|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.111|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.087|0.135||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 250/50 adjusted mean FEV1 peak (0-3h) change from patient baseline (L)|Null hypothesis: Mean FEV1 peak (0-3h) change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 peak (0-3h) change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.135|0.087|<0.0001
92380548|NCT01969721|184664001|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.116|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.092|0.14||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 500/50 adjusted mean FEV1 peak (0-3h) change from patient baseline (L)|Null hypothesis: Mean FEV1 peak (0-3h) change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 peak (0-3h) change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.140|0.092|<0.0001
92380549|NCT01058941|184664013|OTHER||Mean Difference (Net)|-0.42||||0.82|TWO_SIDED|95.0|-3.97|3.13||We used a significance level of p = 0.025 for our measure of ADL changes based on a simple Bonferroni adjustment since we have two primary outcomes.|Mixed Models Analysis|Adjusted for baseline outcome, time from baseline, age, education category, BMI, cholinesterase inhibitors, memantine, vitamin E, and Apo-E.||The target enrollment was 60 subjects, allowing for up to a 20% drop-out. It was calculated that with 48 subjects (24 per group) we would have 80% power to see differences in ADL scores over 18 months between the treatment and placebo groups with a significance level of 0.025 based on a simple Bonferroni adjustment, since we had two primary outcomes.||3.13|-3.97|0.82
92380550|NCT01058941|184664014|OTHER||Mean Difference (Net)|-3.68||||0.001|TWO_SIDED|95.0|-5.9|-1.46||We used a significance level of p = 0.025 for our measure of ADAS-cog changes based on a simple Bonferroni adjustment since we have two primary outcomes.|Mixed Models Analysis|Adjusted for baseline outcome, time from baseline, age, education category, BMI, cholinesterase inhibitors, memantine, vitamin E, and Apo-E.||The target enrollment was 60 subjects, allowing for up to a 20% drop-out. It was calculated that with 48 subjects (24 per group) we would have 80% power to see differences in ADL scores over 18 months between the treatment and placebo groups with a significance level of 0.025 based on a simple Bonferroni adjustment, since we had two primary outcomes.||-1.46|-5.90|0.001
92413293|NCT04303195|184716262|SUPERIORITY||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.479||0.135|TWO_SIDED|95.0|-1.67|0.23||The threshold for statistical significance was p = 0.05.|ANOVA|||||0.23|-1.67|0.1350
92413294|NCT04303195|184716262|SUPERIORITY||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.493||0.0997|TWO_SIDED|95.0|-1.79|0.16||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.16|-1.79|0.0997
92413295|NCT04303195|184716262|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.492||0.2195|TWO_SIDED|95.0|-1.58|0.37||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.37|-1.58|0.2195
92413296|NCT04303195|184716263|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.498||0.7944|TWO_SIDED|95.0|-1.11|0.85||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.85|-1.11|0.7944
92380551|NCT03159104|184664034|SUPERIORITY||Median Difference (Final Values)|5.0||||0.0113|TWO_SIDED|95.0|1.0|9.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator was used for the difference between median change of total scholastic skill score in each comparison group.|The difference between final and initial total scholastic skill score was calculated for each participant. Wilcoxon test was used for comparison of these differences because data distribution differs from normal.||9|1|0.0113
92169244|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.9|STANDARD_ERROR_OF_MEAN|0.09||0.2817|TWO_SIDED|95.0|0.74|1.09|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.09|0.74|0.2817
92278142|NCT01132118|184458340|SUPERIORITY_OR_OTHER|||||||0.487||||||Unadjusted P-value.|Wilcoxon (Mann-Whitney)|||P-value for the difference between the change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.487
92380552|NCT03159104|184664035|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0608|TWO_SIDED|95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator was used for the difference between median change of total scholastic skill score in each comparison group.|||5|0|0.0608
92380553|NCT03159104|184664036|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0824|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator was used for the difference between median change of total scholastic skill score in each comparison group.|||0|0|0.0824
92380554|NCT03159104|184664037|SUPERIORITY||Median Difference (Final Values)|0.0||||0.2391|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator was used for the difference between median change of total scholastic skill score in each comparison group.|||1|0|0.2391
92380555|NCT03159104|184664038|SUPERIORITY|||||||0.0033|||||||Fisher Exact|||||||0.0033
92380556|NCT03159104|184664039|SUPERIORITY|||||||0.0012|||||||Wilcoxon (Mann-Whitney)|||||||0.0012
92380557|NCT01294163|184664040|NON_INFERIORITY_OR_EQUIVALENCE|Xenon was to be concluded non-inferior to sevoflurane if the upper bound of the 2-sided 95% CI for the difference \[mean troponin I level (xenon) - mean troponin I level (sevoflurane)\] was below the prespecified margin of 0.63 ng/mL. Assuming a margin of 0.63, a same concentration of troponin I at 24 hours in the xenon and sevoflurane groups, a common standard deviation of 1.9 ng/mL and a one-sided type I error of 0.025, 164 patients per group were deemed necessary to demonstrate non-inferiority.|Mean Difference (Final Values)|-0.4||||0.02|TWO_SIDED|95.0|-1.27|0.47|||ANCOVA|Treatment difference and 95%CI assessed using ANCOVA with 24h troponin I as response, treatment group and pre-induction troponin I as covariates.||||0.47|-1.27|0.02
92380558|NCT01294163|184664049|NON_INFERIORITY_OR_EQUIVALENCE|It was to be concluded that xenon was non-inferior to sevoflurane if the upper bound of the 2-sided 95% CI for the difference \[mean troponin I level (xenon) - mean troponin I level (sevoflurane)\] was below the margin of 0.15 ng/mL.|Mean Difference (Final Values)|-0.09||||0.0186|TWO_SIDED|95.0|-0.3|0.11|||ANCOVA|||As the residuals from the primary ANCOVA model were non-normal and skewed, the non-inferiority analysis was repeated using log-transformed blood troponin levels.||0.11|-0.30|0.0186
92380559|NCT01563172|184664050|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|6.95||||0.0008|TWO_SIDED|95.0|2.91|10.98||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from Analysis of variance (ANOVA) with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||10.98|2.91|0.0008
92380560|NCT01563172|184664051|SUPERIORITY_OR_OTHER||LS mean difference|5.7||||0.0049|TWO_SIDED|95.0|1.74|9.66||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||9.66|1.74|0.0049
92380561|NCT01563172|184664052|SUPERIORITY_OR_OTHER||LS mean difference|-10.86|||<|0.0001|TWO_SIDED|95.0|-14.77|-6.94||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||-6.94|-14.77|<0.0001
92380562|NCT01563172|184664053|SUPERIORITY_OR_OTHER||LS mean difference|-9.61|||<|0.0001|TWO_SIDED|95.0|-13.68|-5.54||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||-5.54|-13.68|<0.0001
92380563|NCT01563172|184664054|SUPERIORITY_OR_OTHER||LS mean difference|15.38|||<|0.0001|TWO_SIDED|95.0|11.45|19.31||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||19.31|11.45|<0.0001
92380564|NCT01563172|184664055|SUPERIORITY_OR_OTHER||LS Mean Difference|514.01|||<|0.0001|TWO_SIDED|95.0|283.02|744.99||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||744.99|283.02|<0.0001
92380565|NCT01563172|184664056|SUPERIORITY_OR_OTHER||LS Mean difference|265.92||||0.0218|TWO_SIDED|95.0|39.0|492.83||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||492.83|39.00|0.0218
92380566|NCT01563172|184664057|SUPERIORITY_OR_OTHER||LS mean difference|-822.88|||<|0.0001|TWO_SIDED|95.0|-1047.34|-598.42||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||-598.42|-1047.34|<0.0001
92232041|NCT03128957|184366011|EQUIVALENCE|Given the small sample permutation are feasible.||||||0.036|||||||permutation test|Given the non-parametric nature of spearman's correlation coefficient and a small sample we used a permutation test to calculate p-values.||Non-parametric covariance adjusted Spearman's correlation ρ\_s. To test the Null that Ho: ρ\_s.=0 vs alternative that Ha: ρ\_s.≠0, we used a method that calculates the probability that it would be greater than or equal to the observed ρ ̂, given the null hypothesis, by using a permutation test. An advantage of this approach is that it automatically takes into account the number of tied data values in the sample and the way they are treated in computing the rank correlation.||||0.036
92232042|NCT03128957|184366012|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||Set point 1 (FiO2 0.3 and PaCO2 30 mmHg) compared to set point 2 (FiO2 1.0 and PaCO2 40 mmHg)||||0.015
92380567|NCT01563172|184664058|SUPERIORITY_OR_OTHER||LS mean difference|-574.79|||<|0.0001|TWO_SIDED|95.0|-808.08|-341.5||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||-341.50|-808.08|<0.0001
92232043|NCT03128957|184366013|SUPERIORITY|||||||0.047|||||||Kruskal-Wallis|||Set point 1 (FiO2 0.3 and PaCO2 30 mmHg) compared to set point 2 (FiO2 1.0 and PaCO2 40 mmHg)||||0.047
92232044|NCT03263091|184366054|OTHER||Odds Ratio (OR)|1.582||||0.217|TWO_SIDED|95.0|0.761|3.29|||Cochran-Mantel-Haenszel|||The odds ratio along with its 95% confidence interval (CI) were calculated based on the Cochran-Mantel-Haenszel (CMH) chi-square test adjusting for the stratification factors (EPO level, International Prognostic Scoring System - Revised \[IPSS-R\] risk category and RBC transfusion burden).||3.290|0.761|0.217
92380568|NCT01563172|184664059|SUPERIORITY_OR_OTHER||LS mean difference|1294.34|||<|0.0001|TWO_SIDED|95.0|1069.24|1519.43||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||1519.43|1069.24|<0.0001
92380569|NCT01742065|184664066|SUPERIORITY|To assess effectiveness, we fit generalized estimating equations (GEE) with a logistic link to model patient-level data. We weighted patient data so that each clinic's data had an equal weight. Models were adjusted for age, sex, and health center. They used robust variance estimators and independent correlation structures. We specified clinic as a clustering variable to account for intraclinic correlation; the intraclinic correlation coefficient was 0.05 after model covariates adjustment.|Mean Difference (Final Values)|3.4||||0.05|TWO_SIDED|95.0|0.1|6.8||We report effectiveness as the absolute difference between intervention and usual care clinics in adjusted probabilities calculated using mean values for all covariates;|Generalized Estimating Equations (GEE)|Reported P values based on the corresponding adjusted odds ratio and account for reduced degrees of freedom owing to clustering.||||6.8|.1|.05
92380570|NCT01742065|184664067|OTHER|To assess effectiveness, we fit generalized estimating equations (GEE) with a logistic link to model patient-level data. We weighted patient data so that each clinic's data had an equal weight. Models were adjusted for age, sex, and health center. They used robust variance estimators and independent correlation structures. We specified clinic as a clustering variable to account for intraclinic correlation; the intraclass correlation coefficient was 0.05 after covariable adjustment.|Mean Difference (Final Values)|3.8||||0.02|TWO_SIDED|95.0|0.6|7.0||We report effectiveness as the absolute difference between intervention and usual care clinics in adjusted probabilities calculated using mean values for all covariates;|Generalized Estimating Equations (GEE)|Reported P values based on the corresponding adjusted odds ratio and account for reduced degrees of freedom owing to clustering.||||7|.6|.02
92380571|NCT00344500|184664086|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Predicted trajectory of mean weight change between matched UC and LB subjects over 12 months (treatment\*time interaction: F(1,1275)=68.75, p\<.01).||General Linear Mixed Model (GLMM) used to illustrate the magnitude of difference between slopes for major outcomes for two hypothetical participants with identical baseline characteristics over 12 months.||||<0.01
92380572|NCT00599755|184664089|SUPERIORITY_OR_OTHER||Proportion|0.4|||||TWO_SIDED|80.0|0.27|0.55||||||||0.55|0.27|
92380573|NCT00599755|184664090|SUPERIORITY_OR_OTHER||Concordance correlation coefficient|0.88|||||TWO_SIDED|80.0|0.85|0.92||||||||0.92|0.85|
92380574|NCT00599755|184664094|SUPERIORITY_OR_OTHER||Proportion|0.125|||||TWO_SIDED|80.0|0.06|0.23||||||||0.23|0.06|
92380575|NCT02198794|184664109|OTHER||Least Square (LS) Mean Difference|-0.6||||0.121|TWO_SIDED|95.0|-1.42|0.17||Threshold for significance at 0.05 level.|ANCOVA|||The statistical model was an analysis of covariance (ANCOVA) with treatment group and dopamine receptor antagonist status at the pre-withdrawal visit as fixed effects and the pre-withdrawal visit value as a covariate.||0.17|-1.42|0.121
92380576|NCT01364740|184664124|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Sign test|||Patient data from one night with the PMP-300E compared to In-Lab PSG data||||>0.05
92380577|NCT01364740|184664125|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Sign test|||Patient data from one night with the PMP-300E compared to In-Lab PSG data||||>0.05
92380578|NCT01364740|184664126|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Sign test|||Patient data from one night with the PMP-300E compared to In-Lab PSG data||||>0.05
92380579|NCT01364740|184664127|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Sign test|||Patient data from one night with the PMP-300E compared to In-Lab PSG data||||>0.05
92380580|NCT00789672|184664160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_DEVIATION|4.7|||TWO_SIDED|95.0|-6.0|1.0||||||Given this was pilot study, no formal sample size estimates were calculated.||1|-6|
92380581|NCT02252965|184664166|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin of this efficacy outcome measure is -0.4%.|Least Squares (LS) Mean Difference|0.03|||||TWO_SIDED|95.0|-0.1|0.17||||||||0.17|-0.10|
92380582|NCT02252965|184664167|SUPERIORITY_OR_OTHER||Percentage difference|-1.52||||0.674|TWO_SIDED|95.0|-8.6|5.56|||Mantel Haenszel|||||5.56|-8.60|0.674
92232045|NCT00265941|184366066|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.76|TWO_SIDED|95.0|0.88|1.32|||Log Rank||Reference arm = RT + cisplatin|A total of 945 patients were required (900 analyzable) to test for a 25% reduction in the hazard associated with progression-free survival with 84% statistical power using a one-sided log-rank test at the 0.025 significance level (0.0238 after 3 interim analyses).||1.32|0.88|0.76
92380583|NCT00680797|184664177|SUPERIORITY_OR_OTHER|||||||0.023|TWO_SIDED|||||Comparison of pre- to post-intervention insulin levels between the groups receiving E only versus the group receiving no hormone replacement.|ANCOVA|||The major outcome variable being presented is changes in insulin levels. Changes in insulin levels were analyzed using an ANCOVA model that adjusted for baseline insulin and age.||||0.023
92380584|NCT00680797|184664177|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED|||||Comparison in the change in insulin levels between the groups receiving E with or without T.|ANCOVA|||The major outcome variable being presented is changes in insulin levels. Changes in insulin levels were analyzed using an ANCOVA model that adjusted for baseline insulin and age.||||0.042
92380585|NCT04736628|184664178|OTHER||Mean Difference (Net)|-0.228||||0.0179|TWO_SIDED|95.0|-0.417|-0.04|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 1 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||-0.040|-0.417|0.0179
92380586|NCT04736628|184664178|OTHER||Mean Difference (Net)|-0.209||||0.0307|TWO_SIDED|95.0|-0.398|-0.02|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 2 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||-0.020|-0.398|0.0307
92380587|NCT04736628|184664178|OTHER||Mean Difference (Net)|-0.235||||0.0151|TWO_SIDED|95.0|-0.425|-0.046|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 3 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||-0.046|-0.425|0.0151
92380588|NCT04736628|184664178|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||||||0.0053|||||||MCP-Mod E-max model fit|Model assumption: 80% of the maximum effect is achieved at 6 mg.||"A flat vs. non-flat dose-response relationship across the 3 doses of avenciguat and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (Emax, exponential, linear, quadratic, sigmoid emax) while protecting the overall probability of type I error (one-sided alpha of 0.050).~The total daily dose was considered for MCP-Mod analysis (placebo, active avenciguat 3 mg, 6 mg, and 9 mg)."||||0.0053
92380589|NCT04736628|184664178|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||||||0.0102|||||||MCP-Mod quadratic model fit|Model assumption: 50 % of the maximum effect is achieved at a dose of 3 mg. 90 % of the maximum effect is achieved at a dose of 6 mg.||"A flat vs. non-flat dose-response relationship across the 3 doses of avenciguat and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (Emax, exponential, linear, quadratic, sigmoid emax) while protecting the overall probability of type I error (one-sided alpha of 0.050).~The total daily dose was considered for MCP-Mod analysis (placebo, active avenciguat 3 mg, 6 mg, and 9 mg)."||||0.0102
92380590|NCT04736628|184664178|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||||||0.023|||||||MCP-Mod linear model fit|Model assumption: no assumption is needed.||"A flat vs. non-flat dose-response relationship across the 3 doses of avenciguat and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (Emax, exponential, linear, quadratic, sigmoid emax) while protecting the overall probability of type I error (one-sided alpha of 0.050).~The total daily dose was considered for MCP-Mod analysis (placebo, active avenciguat 3 mg, 6 mg, and 9 mg)."||||0.0230
92380591|NCT04736628|184664178|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||||||0.0292|||||||MCP-Mod Sigmoid Emax model fit|Model assumption: 30 % of the maximum effect is achieved at a dose of 3 mg. 90 % of the maximum effect is achieved at a dose of 6 mg.||"A flat vs. non-flat dose-response relationship across the 3 doses of avenciguat and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (Emax, exponential, linear, quadratic, sigmoid emax) while protecting the overall probability of type I error (one-sided alpha of 0.050).~The total daily dose was considered for MCP-Mod analysis (placebo, active avenciguat 3 mg, 6 mg, and 9 mg)."||||0.0292
92413297|NCT04303195|184716263|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.51||0.4956|TWO_SIDED|95.0|-1.36|0.66||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.66|-1.36|0.4956
92413298|NCT04303195|184716263|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.511||0.626|TWO_SIDED|95.0|-0.76|1.26||The threshold for statistical significance was p = 0.05.|ANCOVA|||||1.26|-0.76|0.6260
92413299|NCT04303195|184716264|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.543||0.8866|TWO_SIDED|95.0|-1.15|1.0||The threshold for statistical significance was p = 0.05.|ANCOVA|||||1.00|-1.15|0.8866
92232046|NCT00265941|184366067|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.32|TWO_SIDED|95.0|0.74|1.21|||Log Rank|One-sided log-rank significance level of 0.025|Reference level = RT + cisplatin|Arms were compared using a one-sided log-rank test at the 0.025 significance level.||1.21|0.74|0.32
92413300|NCT04303195|184716264|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.558||0.8699|TWO_SIDED|95.0|-1.19|1.01||The threshold for statistical significance was p = 0.05.|ANCOVA|||||1.01|-1.19|0.8699
92413301|NCT04303195|184716264|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.556||0.7297|TWO_SIDED|95.0|-0.91|1.29||The threshold for statistical significance was p = 0.05.|ANCOVA|||||1.29|-0.91|0.7297
92413302|NCT04303195|184716265|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.409||0.9034|TWO_SIDED|95.0|-0.76|0.86||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.86|-0.76|0.9034
92413303|NCT04303195|184716265|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.33||0.9742|TWO_SIDED|95.0|-0.68|0.63||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.63|-0.68|0.9742
92380592|NCT04736628|184664178|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||||||0.0468|||||||MCP-Mod Exponential model fit|Model assumption: 20% of the maximum effect is achieved at 3 mg.||"A flat vs. non-flat dose-response relationship across the 3 doses of avenciguat and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (Emax, exponential, linear, quadratic, sigmoid emax) while protecting the overall probability of type I error (one-sided alpha of 0.050).~The total daily dose was considered for MCP-Mod analysis (placebo, active avenciguat 3 mg, 6 mg, and 9 mg)."||||0.0468
92380593|NCT04736628|184664179|OTHER||Mean Difference (Net)|-0.217||||0.0327|TWO_SIDED|95.0|-0.416|-0.018|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 1 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||-0.018|-0.416|0.0327
92380594|NCT04736628|184664179|OTHER||Mean Difference (Net)|-0.206||||0.0447|TWO_SIDED|95.0|-0.408|-0.005|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 2 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||-0.005|-0.408|0.0447
92380595|NCT04736628|184664179|OTHER||Mean Difference (Net)|-0.187||||0.0654|TWO_SIDED|95.0|-0.387|0.012|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 3 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||0.012|-0.387|0.0654
92380596|NCT04736628|184664180|OTHER||Odds Ratio (OR)|2.2||||0.0476|TWO_SIDED|95.0|1.01|4.79||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 1 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||4.79|1.01|0.0476
92380597|NCT04736628|184664180|OTHER||Odds Ratio (OR)|2.72||||0.0119|TWO_SIDED|95.0|1.25|5.94||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 2 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||5.94|1.25|0.0119
92380598|NCT04736628|184664180|OTHER||Odds Ratio (OR)|3.43||||0.0019|TWO_SIDED|95.0|1.58|7.45||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 3 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||7.45|1.58|0.0019
92380599|NCT04736628|184664181|OTHER||Odds Ratio (OR)|2.13||||0.0497|TWO_SIDED|95.0|1.0|4.55||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 1 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||4.55|1.00|0.0497
92380600|NCT04736628|184664181|OTHER||Odds Ratio (OR)|2.15||||0.0502|TWO_SIDED|95.0|1.0|4.61||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 2 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||4.61|1.00|0.0502
92380601|NCT04736628|184664181|OTHER||Odds Ratio (OR)|2.09||||0.0572|TWO_SIDED|95.0|0.98|4.49||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 3 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||4.49|0.98|0.0572
92413304|NCT04303195|184716265|SUPERIORITY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.417||0.2235|TWO_SIDED|95.0|-0.31|1.33||The threshold for statistical significance was p = 0.05.|ANCOVA|||||1.33|-0.31|0.2235
92413305|NCT04303195|184716266|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.118||0.3567|TWO_SIDED|95.0|-0.34|0.12||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.12|-0.34|0.3567
92413306|NCT04303195|184716266|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.12||0.1129|TWO_SIDED|95.0|-0.43|0.05||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.05|-0.43|0.1129
92232047|NCT00265941|184366068|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.97|TWO_SIDED|95.0|0.99|1.7|||Log Rank|One-sided significance level of 0.025|Reference level = RT + cisplatin|||1.70|0.99|0.97
92232048|NCT00265941|184366073|SUPERIORITY|||||||0.74|||||||Kolmogorov-Smirnov|2-sided significance level of 0.05||3 months||||0.74
92413307|NCT04303195|184716266|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.12||0.459|TWO_SIDED|95.0|-0.33|0.15||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.15|-0.33|0.4590
92232049|NCT00265941|184366073|SUPERIORITY|||||||0.99|||||||Kolmogorov-Smirnov|2-sided significance level of 0.05||12 months||||0.99
92232050|NCT00265941|184366074|SUPERIORITY|||||||0.13|||||||Chi-squared|2-sided significance level of 0.05||Diet 3-month||||0.13
92380602|NCT04051827|184664188|OTHER|Geometric Mean Ratio|Geometric Mean Ratio (GMR)|1.03|||||TWO_SIDED|90.0|0.739|1.42|||||The geometric mean ratio (GMR) of midazolam Cmax on Day 24 (with mobocertinib) versus on Day 1 (without mobocertinib) were calculated.|The ratios of geometric mean midazolam Cmax (in the presence vs absence of mobocertinib) and the associated 2-sided 90 percent (%) confidence intervals (CIs) were calculated on the basis of the within-patient variance using a mixed-effects analysis of variance (ANOVA) model fitting terms for treatment (midazolam in the absence and presence of mobocertinib).||1.42|0.739|
92380603|NCT04051827|184664189|OTHER|Geometric Mean Ratio|Geometric Mean Ratio (GMR)|0.676|||||TWO_SIDED|90.0|0.532|0.859|||||The GMR of midazolam AUC∞ on Day 24 (with mobocertinib) versus on Day 1 (without mobocertinib) were calculated.|The ratios of geometric mean midazolam AUC∞ (in the presence vs absence of mobocertinib) and the associated 2-sided 90% CIs were calculated on the basis of the within-patient variance using a mixed-effects ANOVA model fitting terms for treatment (midazolam in the absence and presence of mobocertinib).||0.859|0.532|
92380604|NCT04051827|184664190|OTHER|Geometric Mean Ratio|Geometric Mean Ratio (GMR)|1.3|||||TWO_SIDED|90.0|0.886|1.92|||||The GMR of midazolam Cmax on Day 25 (with mobocertinib) versus on Day 2 (without mobocertinib) were calculated.|The ratios of geometric mean midazolam Cmax (in the presence vs absence of mobocertinib) and the associated 2-sided 90% CIs were calculated on the basis of the within-patient variance using a mixed-effects ANOVA model fitting terms for treatment (midazolam in the absence and presence of mobocertinib).||1.92|0.886|
92380605|NCT04051827|184664191|OTHER|Geometric Mean Ratio|Geometric Mean Ratio (GMR)|0.837|||||TWO_SIDED|90.0|0.673|1.04|||||The GMR of midazolam AUC∞ on Day 25 (with mobocertinib) versus on Day 2 (without mobocertinib) were calculated.|The ratios of geometric mean midazolam AUC∞ (in the presence vs absence of mobocertinib) and the associated 2-sided 90% CIs were calculated on the basis of the within-patient variance using a mixed-effects ANOVA model fitting terms for treatment (midazolam in the absence and presence of mobocertinib).||1.04|0.673|
92413308|NCT04303195|184716267|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.485||0.525|TWO_SIDED|95.0|-1.27|0.65||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.65|-1.27|0.5250
92232051|NCT00265941|184366074|SUPERIORITY|||||||0.87|||||||Chi-squared|2-sided significance level 0.05||Diet 12-month||||0.87
92232052|NCT00265941|184366074|SUPERIORITY|||||||0.39|||||||Chi-squared|2-sided significance level of 0.05||Eating 3-month||||0.39
92413309|NCT04303195|184716267|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.498||0.3991|TWO_SIDED|95.0|-1.41|0.56||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.56|-1.41|0.3991
92413310|NCT04303195|184716267|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.497||0.9006|TWO_SIDED|95.0|-1.05|0.92||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.92|-1.05|0.9006
92413311|NCT04303195|184716268|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.444||0.6009|TWO_SIDED|95.0|-1.11|0.64||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.64|-1.11|0.6009
92413312|NCT04303195|184716268|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.454||0.4654|TWO_SIDED|95.0|-1.23|0.56||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.56|-1.23|0.4654
92413313|NCT04303195|184716268|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.455||0.8842|TWO_SIDED|95.0|-0.83|0.97||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.97|-0.83|0.8842
92413314|NCT01808092|184716270|NON_INFERIORITY_OR_EQUIVALENCE|The statistical test of NI for the primary efficacy analysis will be performed at the 2.5% 1 sided significance level. This test will be based on the lower limit of a 2-sided 95% confidence interval (CI). Consistent with the protocol, NI will be concluded if the lower limit of the 95% CI is greater than -12.5%.|percentage: units for RD are %|-4.2||||0.007|TWO_SIDED|95.0|-10.76|2.46||P-value for 1-sided test at test of cure (TOC) with a -12.5% non-inferiority margin, i.e. H0: diff \<= -12.5%.|% Risk Difference (RD)|RD is CAZ-AVI clinical cure rate minus Meropenem clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.||Statistical analysis for the proportion of patients with clinical cure at TOC in cMITT analysis set||2.46|-10.76|0.007
92232053|NCT00265941|184366074|SUPERIORITY|||||||0.16|||||||Chi-squared|2-sided significance level of 0.05||Eating 12-month||||0.16
92232054|NCT00265941|184366074|SUPERIORITY|||||||0.81|||||||Chi-squared|2-sided significance level of 0.05||Speech 3-month||||0.81
92232055|NCT00265941|184366074|SUPERIORITY|||||||0.67|||||||Chi-squared|2-sided significance level of 0.05||Speech 12-month||||0.67
92232056|NCT00265941|184366075|SUPERIORITY|||||||0.016|||||||t-test, 2 sided|2-sided significance level of 0.05||||||0.016
92232057|NCT00265941|184366076|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.6|TWO_SIDED|95.0|0.79|1.51|||Log Rank|2-sided significance level = 0.05|Reference level = low EGFR|Progression-free survival is compared between favorable risk and unfavorable risk groups.||1.51|0.79|0.60
92232058|NCT00265941|184366076|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.37|TWO_SIDED|95.0|0.81|1.76|||Log Rank|2-sided significance level = 0.05|Reference level = low EGFR|Overall survival is compared between favorable risk and unfavorable risk groups.||1.76|0.81|0.37
92232059|NCT00265941|184366076|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.76|TWO_SIDED|95.0|0.6|1.46|||Log Rank|2-sided significance level = 0.05|Reference level = low EGFR|Local-regional failure||1.46|0.60|0.76
92232060|NCT00265941|184366077|SUPERIORITY||Hazard Ratio (HR)|0.3||||0.01|TWO_SIDED|95.0|0.12|0.75|||Log Rank|2-sided significance level = 0.05|Reference level = low|Progression-free survival is compared between low and high SUVmax groups.||0.75|0.12|0.01
92232061|NCT00265941|184366077|SUPERIORITY||Hazard Ratio (HR)|0.38||||0.1|TWO_SIDED|95.0|0.12|1.2|||Log Rank|2-sided significance level = 0.05|Reference level = low|Overall survival (OS) is compared between low and high SUVmax groups.||1.20|0.12|0.10
92232062|NCT00265941|184366077|SUPERIORITY||Hazard Ratio (HR)|0.31||||0.04|TWO_SIDED|95.0|0.1|0.97|||Log Rank|2-sided significance level = 0.05|Reference level = low|Loco-regional control (LRC) is compared between low and high SUVmax groups.||0.97|0.10|0.04
92232063|NCT02432807|184366097|SUPERIORITY|||||||0.2219|||||||Chi-squared|||||||0.2219
92232064|NCT02432807|184366098|SUPERIORITY|||||||0.1817|||||||Chi-squared|||||||0.1817
92413315|NCT01808092|184716271|NON_INFERIORITY_OR_EQUIVALENCE|The statistical test of NI for the primary efficacy analysis will be performed at the 2.5% 1 sided significance level. This test will be based on the lower limit of a 2-sided 95% confidence interval (CI). Consistent with the protocol, NI will be concluded if the lower limit of the 95% CI is greater than -12.5%.|percentage: units for RD are %|-0.7|||<|0.001|TWO_SIDED|95.0|-7.86|6.39||P-value for 1-sided test at test of cure (TOC) with a -12.5% non-inferiority margin, i.e. H0: diff \<= -12.5%.|% Risk Difference (RD)|RD is CAZ-AVI clinical cure rate minus Meropenem clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.||Statistical analysis for the proportion of patients with clinical cure at TOC in CE at TOC analysis set||6.39|-7.86|<0.001
92380606|NCT01424566|184664199|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.9173|TWO_SIDED|95.0|-0.42|0.38|||ANCOVA|||||0.38|-0.42|0.9173
92380607|NCT04557787|184664285|SUPERIORITY||Mean Difference (Final Values)|28.4||||0.001|TWO_SIDED|95.0|12.2|44.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||44.6|12.2|0.001
92380608|NCT04557787|184664285|SUPERIORITY||Mean Difference (Final Values)|28.2||||0.001|TWO_SIDED|95.0|12.0|44.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||44.4|12.0|0.001
92380609|NCT04557787|184664285|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.983|TWO_SIDED|95.0|-16.0|16.3||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||16.3|-16.0|0.983
92380610|NCT04557787|184664286|SUPERIORITY||Mean Difference (Final Values)|33.2|||<|0.001|TWO_SIDED|95.0|17.0|49.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||49.4|17.0|<0.001
92380611|NCT04557787|184664286|SUPERIORITY||Mean Difference (Final Values)|29.7|||<|0.001|TWO_SIDED|95.0|13.5|46.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||46.0|13.5|<0.001
92380612|NCT04557787|184664286|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.667|TWO_SIDED|95.0|-12.6|19.7||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||19.7|-12.6|0.667
92380613|NCT04557787|184664287|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.503|TWO_SIDED|95.0|-14.2|7.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||7.0|-14.2|0.503
92380614|NCT04557787|184664287|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.916|TWO_SIDED|95.0|-10.1|11.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||11.2|-10.1|0.916
92380615|NCT04557787|184664287|SUPERIORITY||Mean Difference (Final Values)|-4.1||||0.438|TWO_SIDED|95.0|-14.8|6.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied||6.5|-14.8|0.438
92380616|NCT04557787|184664288|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.955|TWO_SIDED|95.0|-10.3|10.9||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||10.9|-10.3|0.955
92413316|NCT04219085|184716319|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.0
92413317|NCT04219085|184716320|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92413318|NCT04219085|184716321|SUPERIORITY|||||||0.85|||||||t-test, 2 sided|||||||0.85
92413319|NCT03425253|184716326|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Investigator: Both Sides of Face, Last Treatment||||<0.001
92169245|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.09||0.5426|TWO_SIDED|95.0|0.79|1.13|||Negative binomial model|||Week 24: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.13|0.79|0.5426
92380617|NCT04557787|184664288|SUPERIORITY||Mean Difference (Final Values)|-8.5||||0.118|TWO_SIDED|95.0|-19.2|2.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||2.2|-19.2|0.118
92413320|NCT03425253|184716326|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Investigator: Right Side of Face, Last Treatment||||<0.001
92413321|NCT03425253|184716326|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Investigator: Left Side of Face, Last Treatment||||<0.001
92413322|NCT03425253|184716326|OTHER|||||||0.018||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Independent Reviewer: Both Sides of Face, Last Treatment||||0.018
92278143|NCT01132118|184458340|SUPERIORITY_OR_OTHER|||||||0.884||||||P-value adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxycholorquine versus placebo from a linear regression model.||||0.884
92380618|NCT04557787|184664288|SUPERIORITY||Mean Difference (Final Values)|8.8||||0.104|TWO_SIDED|95.0|-1.8|19.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||19.5|-1.8|0.104
92380619|NCT04557787|184664289|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.352|TWO_SIDED|95.0|-0.22|0.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.60|-0.22|0.352
92380620|NCT04557787|184664289|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.98|TWO_SIDED|95.0|-0.41|0.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.40|-0.41|0.980
92380621|NCT04557787|184664289|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.339|TWO_SIDED|95.0|-0.21|0.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.60|-0.21|0.339
92380622|NCT04557787|184664290|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.7|TWO_SIDED|95.0|-0.62|0.42||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.42|-0.62|0.700
92380623|NCT04557787|184664290|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.227|TWO_SIDED|95.0|-0.2|0.84||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.84|-0.20|0.227
92380624|NCT04557787|184664290|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.112|TWO_SIDED|95.0|-0.94|0.1||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.10|-0.94|0.112
92380625|NCT04557787|184664291|SUPERIORITY||Mean Difference (Final Values)|0.99||||0.013|TWO_SIDED|95.0|0.22|1.17||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.17|0.22|0.013
92380626|NCT04557787|184664291|SUPERIORITY||Mean Difference (Final Values)|0.73||||0.065|TWO_SIDED|95.0|-0.05|1.51||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.51|-0.05|0.065
92380627|NCT04557787|184664291|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.497|TWO_SIDED|95.0|-0.51|1.04||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.04|-0.51|0.497
92380628|NCT04557787|184664292|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.027|TWO_SIDED|95.0|0.06|0.88||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.88|0.06|0.027
92380629|NCT04557787|184664292|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.005|TWO_SIDED|95.0|0.19|1.02||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.02|0.19|0.005
92380630|NCT04557787|184664292|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.532|TWO_SIDED|95.0|-0.54|0.28||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.28|-0.54|0.532
92380631|NCT04557787|184664293|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.461|TWO_SIDED|95.0|-0.26|0.56||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.56|-0.26|0.461
92413323|NCT03425253|184716326|OTHER|||||||0.301||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Independent Reviewer: Right Side of Face, Last Treatment||||0.301
92413324|NCT03425253|184716326|OTHER|||||||0.011||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Independent Reviewer: Left Side of Face, Last Treatment||||0.011
92413325|NCT03425253|184716327|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||<0.001
92280459|NCT00601484|184463632|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-20.66|STANDARD_ERROR_OF_MEAN|8.138|||TWO_SIDED|90.0|-34.347|-6.971||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-6.971|-34.347|
92413326|NCT03425253|184716328|OTHER|||||||0.597||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||0.597
92232065|NCT00310310|184366145|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 1 sided|||||||0.001
92232066|NCT00310310|184366146|SUPERIORITY_OR_OTHER|||||||0.023|||||||t-test, 1 sided|||||||0.023
92232067|NCT00310310|184366147|SUPERIORITY_OR_OTHER|||||||0.8|||||||t-test, 1 sided|||||||0.8
92380632|NCT04557787|184664293|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.12|TWO_SIDED|95.0|-0.09|0.73||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.73|-0.09|0.120
92380633|NCT04557787|184664293|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.404|TWO_SIDED|95.0|-0.58|0.24||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.24|-0.58|0.404
92380634|NCT04557787|184664294|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.478|TWO_SIDED|95.0|-0.33|0.71||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.71|-0.33|0.478
92380635|NCT04557787|184664294|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.824|TWO_SIDED|95.0|-0.46|0.58||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.58|-0.46|0.824
92380636|NCT04557787|184664294|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.626|TWO_SIDED|95.0|-0.39|0.65||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.65|-0.39|0.626
92380637|NCT04557787|184664295|SUPERIORITY||Mean Difference (Final Values)|0.86||||0.03|TWO_SIDED|95.0|0.09|1.64||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.64|0.09|0.030
92380638|NCT04557787|184664295|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.027|TWO_SIDED|95.0|0.11|1.66||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.66|0.11|0.027
92380639|NCT04557787|184664295|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.956|TWO_SIDED|95.0|-0.8|0.75||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.75|-0.80|0.956
92380640|NCT04557787|184664296|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.084|TWO_SIDED|95.0|-0.05|0.78||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.78|-0.05|0.084
92380641|NCT04557787|184664296|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.063|TWO_SIDED|95.0|-0.02|0.81||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.81|-0.02|0.063
92380642|NCT04557787|184664296|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.885|TWO_SIDED|95.0|-0.44|0.38||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.38|-0.44|0.885
92380643|NCT04135859|184664317|SUPERIORITY||Mean Difference (Final Values)|10.3||||0.023|TWO_SIDED||||||Mixed Models Analysis|||||||.023
92380644|NCT04135859|184664318|SUPERIORITY||Mean Difference (Final Values)|-59.0||||0.06|TWO_SIDED||||||Mixed Models Analysis|||||||.06
92380645|NCT04135859|184664319|SUPERIORITY||Mean Difference (Final Values)|-0.76||||0.43|TWO_SIDED||||||Mixed Models Analysis|||||||.43
92232068|NCT00310310|184366149|SUPERIORITY_OR_OTHER|||||||0.96|||||||t-test, 1 sided|||||||0.96
92413327|NCT03425253|184716329|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||<0.001
92232069|NCT00310310|184366150|SUPERIORITY_OR_OTHER|||||||0.59|||||||t-test, 1 sided|||||||0.59
92232070|NCT00310310|184366151|SUPERIORITY_OR_OTHER|||||||0|||||||t-test, 1 sided|||||||0.00
92232071|NCT00310310|184366152|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 1 sided|||||||0.02
92232072|NCT00310310|184366153|SUPERIORITY_OR_OTHER|||||||0.08|||||||t-test, 1 sided|||||||0.08
92232073|NCT00310310|184366154|SUPERIORITY_OR_OTHER|||||||0.38|||||||t-test, 1 sided|||||||0.38
92232074|NCT03431012|184366235|OTHER||||||>|0.05||||||Sidak corrections were used to adjust for multiple analyses.|ANCOVA|ANCOVAs, setting baseline intentions as a covariate, were performed to determine whether post-exposure mean intentions differed between groups.||We predicted that Virus Agency (VA) and Positive Framing (PF) would lead to greater adherence intentions, compared to the human agency (HA) and negative framing (NF) versions respectively.||||>.05
92232075|NCT03431012|184366236|OTHER||||||=|0.113||||||Sidak corrections were used to adjust for multiple analyses.|MANOVA|||Based on the literature, it was predicted that the Virus Agency would lead to higher worry than the human agency assignment.||||=.113
92413328|NCT03425253|184716330|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||<0.001
92413329|NCT03425253|184716331|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||<0.001
92280460|NCT00601484|184463632|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-13.58|STANDARD_ERROR_OF_MEAN|9.532|||TWO_SIDED|90.0|-29.612|2.452||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.452|-29.612|
92380646|NCT01291836|184664320|SUPERIORITY_OR_OTHER_LEGACY||Area under Receiver-Operator Curve (ROC)|0.658|||||TWO_SIDED|95.0|0.586|0.73||||||Null Hypothesis: ROC AUC of 0.58; using a one-sided z-test at a significance level of 0.025. Efficacy determined by the evaluation of the area under the Receiver Operator Curve (ROC) generated from the study primary endpoint data. The units on both axes of the ROC curve are dimensionless proportions from 0 to 1.|Efficacy determined by the evaluation of the area under the Receiver Operator Curve (ROC) generated from the study primary endpoint data. The units on both axes of the ROC curve are dimensionless proportions from 0 to 1.|0.73|0.586|
92413330|NCT03425253|184716332|OTHER|||||||0.003||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||0.003
92413331|NCT03425253|184716333|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Both Side of the Face, End of Study||||<0.001
92413332|NCT03425253|184716333|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Right Side of the Face, End of study||||<0.001
92413333|NCT03425253|184716333|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Left Side of the Face, End of Study||||<0.001
92413334|NCT04174365|184716334|SUPERIORITY||Least squares (LS) mean difference|-1.22||||0.4597|TWO_SIDED|95.0|-4.49|2.05|||Mixed model repeated measures(MMRM)|MMRM method with model terms: treatment, trial site, baseline body weight stratum, visit, treatment-by-visit and baseline-by-visit interaction.|MMRM method with model terms: treatment, trial site, baseline body weight stratum, visit, treatment-by-visit and baseline-by-visit interaction. Significance test was based on least-square means using a two-sided 0.05 level.|||2.05|-4.49|0.4597
92413335|NCT04174365|184716335|SUPERIORITY||LS mean difference|-0.07||||0.7315|TWO_SIDED|95.0|-0.46|0.32|||MMRM|MMRM method with model terms: treatment, trial site, baseline body weight stratum, visit, treatment-by-visit and baseline-by-visit interaction.|MMRM method with model terms: treatment, trial site, baseline body weight stratum, visit, treatment-by-visit and baseline-by-visit interaction. Significance test was based on least-square means using a two-sided 0.05 level.|||0.32|-0.46|0.7315
92413336|NCT05141448|184716337|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 95% confidence interval of was below 0.05 logMAR|Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.011|||TWO_SIDED|95.0|0.02|0.06|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Mean difference was calculated as senofilcon A C3 (EMO-118) minus omafilcon A|||0.06|0.02|
92413337|NCT01347580|184716344|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.8214|TWO_SIDED|95.0|0.799|1.327||pvalue at 0.025 , adjusted for multiple comparisons|Regression, Logistic|||||1.327|0.799|0.8214
92413338|NCT01347580|184716345|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.074||||0.6322|TWO_SIDED|95.0|0.801|1.441||P value at 0.025 adjusted for multiple comparisons|Regression, Logistic|||||1.441|0.801|0.6322
92413339|NCT01347580|184716346|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.027||||0.9056|TWO_SIDED|95.0|0.661|1.595|||Regression, Logistic|||||1.595|0.661|0.9056
92413340|NCT01347580|184716347|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.215||||0.4168|TWO_SIDED|95.0|0.76|1.942|||Regression, Logistic|||||1.942|0.760|0.4168
92413341|NCT01347580|184716348|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.189||||0.0307|TWO_SIDED|95.0|0.042|0.856|||Regression, Logistic|||||0.856|0.042|0.0307
92413342|NCT01347580|184716349|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.132||||0.344|TWO_SIDED|95.0|0.876|1.462|||Regression, Logistic|||||1.462|0.876|0.344
92413343|NCT01347580|184716350|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.225||||0.0547|TWO_SIDED|95.0|0.996|1.506|||Regression, Logistic|||||1.506|0.996|0.0547
92413344|NCT01347580|184716351|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.803||||0.166|TWO_SIDED|95.0|0.588|1.096|||Regression, Logistic|||||1.096|0.588|0.1660
92413345|NCT00412373|184716370|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.6||0.774||95.0|-2.7|3.7|||ANOVA|P-value based on the actual value and was from an ANOVA model with fixed effects for treatment, concomitant medication stratum, and country.|Paliperidone Extended Release (ER) - Placebo on the Actual Score.|||3.7|-2.7|0.774
92413346|NCT00412373|184716371|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|2.3|<|0.001||95.0|-13.8|-4.9|||ANCOVA|P-values are from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-4.9|-13.8|<0.001
92280461|NCT00601484|184463632|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.75|STANDARD_ERROR_OF_MEAN|8.807|||TWO_SIDED|90.0|-22.58|7.08||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||7.080|-22.580|
92413347|NCT00412373|184716372|SUPERIORITY_OR_OTHER||LS Means Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.8|<|0.001||95.0|-4.4|-1.2|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-1.2|-4.4|<0.001
92413348|NCT00412373|184716373|SUPERIORITY_OR_OTHER||LS Means Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001||95.0|-3.1|-0.8|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.8|-3.1|<0.001
92413349|NCT00412373|184716374|SUPERIORITY_OR_OTHER||LS Means Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-6.8|-2.3|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-2.3|-6.8|<0.001
92413350|NCT00412373|184716375|SUPERIORITY_OR_OTHER||LS Means Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.8|<|0.001||95.0|-4.2|-1.1|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-1.1|-4.2|<0.001
92380647|NCT01291836|184664321|SUPERIORITY_OR_OTHER_LEGACY||ROC AUC|0.65|||||TWO_SIDED|95.0|0.598|0.702||||||Null Hypothesis: AUC ≤0.55, using a one-sided z-test at a significance level of 0.025. Efficacy determined by the evaluation of the area under the Receiver Operator Curve (ROC) generated from the study primary endpoint data. The units on both axes of the ROC curve are dimensionless proportions from 0 to 1.|Efficacy determined by the evaluation of the area under the Receiver Operator Curve (ROC) generated from the study primary endpoint data. The units on both axes of the ROC curve are dimensionless proportions from 0 to 1.|0.702|0.598|
92413351|NCT00412373|184716376|SUPERIORITY_OR_OTHER||LS Means Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.6|<|0.001||95.0|-3.3|-0.9|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.9|-3.3|<0.001
92413352|NCT00412373|184716377|SUPERIORITY_OR_OTHER||LS Means Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.5|<|0.001||95.0|-2.9|-0.9|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.9|-2.9|<0.001
92232076|NCT03431012|184366237|OTHER||||||=|0.809||||||Sidak corrections were used to adjust for multiple analyses|MANOVA|||Based on the literature, it was predicted that the Virus Agency would lead to higher perceptions of susceptibility than the human agency assignment.||||=.809
92232077|NCT03431012|184366238|OTHER|||||||0.025||||||Sidak corrections were used to adjust for multiple analyses.|MANOVA|||Based on the literature, it was predicted that the Virus Agency would lead to higher perceptions of severity of the pandemic than the human agency assignment.||||0.025
92380648|NCT02715726|184664331|SUPERIORITY||LS mean difference|-35.6|||<|0.0001|TWO_SIDED|95.0|-40.6|-30.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Alirocumab group was compared to ezetimibe group using an appropriate contrast statement.||-30.7|-40.6|<0.0001
92380649|NCT02715726|184664332|SUPERIORITY||LS mean difference|-37.3|||<|0.0001|TWO_SIDED|95.0|-42.1|-32.6||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|A hierarchical testing method was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-32.6|-42.1|<0.0001
92380650|NCT02715726|184664333|SUPERIORITY||LS mean difference|-34.9|||<|0.0001|TWO_SIDED|95.0|-39.5|-30.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.2|-39.5|<0.0001
92380651|NCT02715726|184664334|SUPERIORITY||LS mean difference|-35.4|||<|0.0001|TWO_SIDED|95.0|-40.0|-30.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.7|-40.0|<0.0001
92380652|NCT02715726|184664335|SUPERIORITY|Threshold for significance at 0.05 level.|LS mean difference|-27.4|||<|0.0001|TWO_SIDED|95.0|-30.8|-23.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-23.9|-30.8|<0.0001
92232078|NCT03431012|184366239|OTHER||||||=|0.199||||||Sidak corrections were used to adjust for multiple analyses.|MANOVA|||Based on the literature, we predicted that the Agency Assignment would not affect self-efficacy, i.e. people's perceived ability to use the antivirals as recommended.||||=0.199
92232079|NCT03431012|184366240|OTHER||||||=|0.484||||||Sidak corrections were used to adjust for multiple analyses.|MANOVA|||Based on the literature, we predicted that Positive framing of the side effects would lead to higher response efficacy.||||=0.484
92232080|NCT03431012|184366241|OTHER||||||=|0.494||||||Sidak corrections were used to adjust for multiple analyses.|MANOVA|||Based on the literature, we predicted that Positive framing of the side effects would lead to lower response costs compared to Negative Framing.||||=0.494
92380653|NCT02715726|184664336|SUPERIORITY||LS mean difference|-27.8|||<|0.0001|TWO_SIDED|95.0|-31.2|-24.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-24.4|-31.2|<0.0001
92380654|NCT02715726|184664337|SUPERIORITY||LS mean difference|-27.7|||<|0.0001|TWO_SIDED|95.0|-31.8|-23.6||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-23.6|-31.8|<0.0001
92413353|NCT00412373|184716378|SUPERIORITY_OR_OTHER||LS Means Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.5||0.001||95.0|-2.6|-0.6|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.6|-2.6|0.001
92413354|NCT00412373|184716379|SUPERIORITY_OR_OTHER||LS Means Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.016||95.0|-1.8|-0.2|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.2|-1.8|0.016
92232081|NCT01748799|184366244|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||The level for statistical significance was p\< 0.05.|ANOVA|||Omnibus analysis for Cannabis Withdrawal Scale (CWS) data was a Repeated measures ANOVA (including all the experimental conditions) followed by pair-wise comparisons. The level for statistical significance was p\< 0.05.||||<0.01
92232082|NCT01748799|184366244|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||The level for statistical significance was p\< 0.05.|ANOVA|||Omnibus analysis for Cannabis Withdrawal Checklist (CWC) data was a Repeated measures ANOVA (including all the experimental conditions) followed by pair-wise comparisons. The level for statistical significance was p\< 0.05.||||0.01
92232083|NCT02620020|184366245|SUPERIORITY||Least Squares (LS) Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.3876|TWO_SIDED|95.0|-0.88|0.34||Nominal p-value|Mixed Models Analysis|||||0.34|-0.88|0.3876
92232084|NCT02620020|184366245|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.018|TWO_SIDED|95.0|-1.32|-0.12||Nominal p-value|Mixed Models Analysis|||||-0.12|-1.32|0.0180
92232085|NCT02620020|184366245|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0288|TWO_SIDED|95.0|-1.26|-0.07||Nominal p-value|Mixed Models Analysis|||||-0.07|-1.26|0.0288
92232086|NCT02620020|184366247|SUPERIORITY||LS mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.73||0.0028|TWO_SIDED|95.0|-3.65|-0.77||Nominal p-value|Mixed Models Analysis|||||-0.77|-3.65|0.0028
92232087|NCT02620020|184366247|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.72||0.0068|TWO_SIDED|95.0|-3.36|-0.54||Nominal p-value|Mixed Models Analysis|||||-0.54|-3.36|0.0068
92278144|NCT01644890|184458341|NON_INFERIORITY|The primary PFS analysis was confirmed whether or not the upper limit of the 95% confidence interval (CI) for the hazard ratio (HR) for NK105 relative to PTX fell below the non-inferiority margin of 1.215 (\<1.215) by fitting a Cox proportional hazards model that included allocation adjustment factors other than the study site as covariates.|Hazard Ratio (HR)|1.255|||||TWO_SIDED|95.0|0.989|1.592|||||History of chemotherapy for metastatic or recurrent breast cancer (yes/no), History of treatment using a taxane anticancer drug (yes/no), ER status \[(+) or (-)\], and Disease free interval (\<12 months or ≥12 months) were covariates for adjustment.|Based on the results of previous studies, the expected median PFS was 5.5 months for PTX and 6.35 months for NK105. Assuming a randomization period of 18 months, a follow-up period of 12 months, a one-sided significance level of 2.5%, a power of 85% and the non-inferiority margin of 1.215, the number of patients was estimated to 172 pts per group, a total of 344 patients. Considering an expected withdrawal/dropout rate of approximately 20%, the target sample size was set at 414.||1.592|0.989|
92278145|NCT01644890|184458342|OTHER||Hazard Ratio (HR)|1.197|||||TWO_SIDED|95.0|0.885|1.62|||||History of chemotherapy for metastatic or recurrent breast cancer (yes/no), History of treatment using a taxane anticancer drug (yes/no), ER status \[(+) or (-)\], and Disease free interval (\<12 months or ≥12 months) were covariates for adjustment.|||1.620|0.885|
92232088|NCT02620020|184366247|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.72||0.0006|TWO_SIDED|95.0|-3.88|-1.06||Nominal p-value|Mixed Models Analysis|||||-1.06|-3.88|0.0006
92232089|NCT02620020|184366248|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1501|TWO_SIDED|95.0|-0.46|0.07||Nominal p-value|Mixed Models Analysis|||||0.07|-0.46|0.1501
92380655|NCT02715726|184664338|SUPERIORITY||LS mean difference|-28.7|||<|0.0001|TWO_SIDED|95.0|-32.6|-24.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-24.7|-32.6|<0.0001
92169246|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.09||0.5385|TWO_SIDED|95.0|0.79|1.13|||Negative binomial model|||Week 24: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.13|0.79|0.5385
92232090|NCT02620020|184366248|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.2603|TWO_SIDED|95.0|-0.41|0.11||Nominal p-value|Mixed Models Analysis|||||0.11|-0.41|0.2603
92232091|NCT02620020|184366248|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0135|TWO_SIDED|95.0|-0.59|-0.07||Nominal p-value|Mixed Models Analysis|||||-0.07|-0.59|0.0135
92232092|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean neuropathy score from period 1 to period 2 between the two arms."|Difference in Change|-0.32||||0.02|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in neuropathy score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean neuropathy score from period 1 to period 2 between the two arms"||||0.02
92380656|NCT02715726|184664339|SUPERIORITY||LS mean difference|-20.2|||<|0.0001|TWO_SIDED|95.0|-23.1|-17.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-17.2|-23.1|<0.0001
92380657|NCT02715726|184664340|SUPERIORITY||LS mean difference|-26.5|||<|0.0001|TWO_SIDED|95.0|-29.8|-23.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-23.2|-29.8|<0.0001
92232093|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean problems maintaining an erection score from period 1 to period 2 between the two arms."|Difference in Change|-0.29||||0.11|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in problems maintaining an erection score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean problems maintaining an erection score from period 1 to period 2 between the two arms"||||0.11
92232094|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean dry mouth score from period 1 to period 2 between the two arms."|Difference in Change|-0.29||||0.02|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dry mouth score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean dry mouth score from period 1 to period 2 between the two arms"||||0.02
92278146|NCT01644890|184458343|OTHER||Difference in ORR (%)|-7.5|||||TWO_SIDED|95.0|-17.4|2.7||||||||2.7|-17.4|
92278147|NCT03031899|184458393|NON_INFERIORITY|"1. Rose bengal should stain the areas positively stained by Toluidine blue~2. areas stained by rose bengal that shows dysplasia in biopsy"|SN, SP, PPV, NPV|||||0.005|||||||Chi-squared|||||||0.005
92278148|NCT04682444|184458407|SUPERIORITY|||||||0.5547|||||||Fisher Exact|||Day 7||||0.5547
92278149|NCT04682444|184458407|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Day 14||||<0.0001
92413355|NCT00412373|184716381|SUPERIORITY_OR_OTHER||LS Means Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1||0.002||95.0|-0.7|-0.2|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.2|-0.7|0.002
92413356|NCT00412373|184716382|SUPERIORITY_OR_OTHER||LS Means Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0|-0.9|-0.3|||ANOVA|P-value is from an ANOVA model with fixed effects for treatment, concomitant medication stratum, and country.||||-0.3|-0.9|<0.001
92413357|NCT00412373|184716383|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel (CMH) chi-square test with modified ridit scores, stratified by concomitant medication stratum, and country.||||||0.046
92413358|NCT00412373|184716385|SUPERIORITY_OR_OTHER||LS Means Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-6.4|-1.7|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-1.7|-6.4|<0.001
92413359|NCT00412373|184716387|SUPERIORITY_OR_OTHER||LS Means Difference|-4.8|STANDARD_ERROR_OF_MEAN|1.5||0.001||95.0|-7.7|-2.0|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-2.0|-7.7|0.001
92413360|NCT01478048|184716392|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.0923|TWO_SIDED|95.0|0.49|1.06||Log Rank test was stratified by prior proteasome inhibitor use (Yes versus No), presence of at least 1 FcγRIIIa V allele (Yes versus No) and number of prior lines of therapy (1 versus 2 or 3) at randomization|Log Rank|Adjusted alpha level= 0.30||||1.06|0.49|0.0923
92413361|NCT01478048|184716395|SUPERIORITY_OR_OTHER||Difference using Chan-Zhang method|2.3|||||TWO_SIDED|95.0|-13.2|17.8||||||||17.8|-13.2|
92413362|NCT01369329|184716401|SUPERIORITY_OR_OTHER|||||||0.002||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.002
92413363|NCT01369329|184716401|SUPERIORITY_OR_OTHER|||||||0.003||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.003
92169247|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.09||0.5041|TWO_SIDED|95.0|0.79|1.12|||Negative binomial model|||Week 32: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.12|0.79|0.5041
92232095|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean ringing in ear score from period 1 to period 2 between the two arms."|Difference in Change|-0.29||||0.01|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in ringing in ear score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean ringing in ear score from period 1 to period 2 between the two arms"||||0.01
92278150|NCT04682444|184458408|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||Fisher's exact test was used for testing without adjustment for baseline status.||||0.0001
92413364|NCT01369329|184716402|SUPERIORITY_OR_OTHER|||||||0.003||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.003
92413365|NCT01369329|184716402|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||< 0.001
92413366|NCT01369329|184716403|SUPERIORITY_OR_OTHER|||||||0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.001
92413367|NCT01369329|184716403|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||< 0.001
92413368|NCT01369329|184716404|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||< 0.001
92413369|NCT01369329|184716404|SUPERIORITY_OR_OTHER|||||||0.002||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.002
92413370|NCT01369329|184716405|SUPERIORITY_OR_OTHER|||||||0.009||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.009
92413371|NCT01369329|184716405|SUPERIORITY_OR_OTHER|||||||0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.001
92232096|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean vomit score from period 1 to period 2 between the two arms."|Difference in Change|-0.28||||0.01|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in vomit score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean vomit score from period 1 to period 2 between the two arms"||||0.01
92380658|NCT02715726|184664341|SUPERIORITY||LS mean difference|-26.7|||<|0.0001|TWO_SIDED|95.0|-30.5|-22.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-22.8|-30.5|<0.0001
92380659|NCT02715726|184664342|SUPERIORITY||LS mean difference|-19.3|||<|0.0001|TWO_SIDED|95.0|-22.1|-16.5||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-16.5|-22.1|<0.0001
92380660|NCT02715726|184664343|SUPERIORITY||Odds Ratio (OR)|11.2|||<|0.0001|TWO_SIDED|95.0|7.1|17.7||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 75 mg Q2W/up to 150 mg Q2W vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||17.7|7.1|<0.0001
92380661|NCT02715726|184664344|SUPERIORITY||Odds Ratio (OR)|13.6|||<|0.0001|TWO_SIDED|95.0|8.3|22.3||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 75 mg Q2W/up to 150 mg Q2W vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||22.3|8.3|<0.0001
92380662|NCT02715726|184664345|SUPERIORITY||Adjusted Mean Difference|-34.273|||<|0.0001|TWO_SIDED|95.0|-39.262|-29.285||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-29.285|-39.262|<0.0001
92380663|NCT02715726|184664346|SUPERIORITY||LS mean difference|1.9||||0.228|TWO_SIDED|95.0|-1.2|4.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.9|-1.2|0.2280
92380664|NCT02636946|184664416|NON_INFERIORITY|MMRM was used for IOP change from baseline. The model includes IOP change from baseline as the response variable and treatment, visit, eye, baseline IOP, treatment-by-baseline, treatment-by-eye, treatment-by-visit, visit-by-eye interactions as covariates. A Kronecker product of unstructured covariance matrix for study visit and compound symmetry covariance matrix for between eye correlation was used in the analysis.|Least-squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.29||0.0166|TWO_SIDED|95.0|-1.28|-0.13|||MMRM|||Change from Baseline at Week 4: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to SLT if the upper limit of the 95% CI was ≤ 1.5 mmHg at all scheduled visits (Weeks 4, 12, and 24).||-0.13|-1.28|0.0166
92413372|NCT03032380|184716406|NON_INFERIORITY|The study hypothesis was that the all-cause mortality rate at Day 14 in participants who received cefiderocol would be non-inferior to that in participants who received high-dose meropenem. The margin of non-inferiority was 12.5%. Non-inferiority was concluded if the upper bound of the 2-sided 95% confidence interval for the difference in mortality at Day 14 between the 2 treatment groups (cefiderocol - meropenem) was smaller than 12.5%.|Treatment Difference|0.8||||0.002|TWO_SIDED|95.0|-6.6|8.2|||Cochran-Mantel-Haenszel||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the ACM rate at Day 14 based on Cochran-Mantel Haenszel weights using APACHE II score (≤ 15 and ≥ 16) as the stratification factor.|||8.2|-6.6|0.0020
92232097|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean dry eyes score from period 1 to period 2 between the two arms."|Difference in Change|-0.24||||0.02|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dry eyes score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean dry eyes score from period 1 to period 2 between the two arms"||||0.02
92380665|NCT02636946|184664417|NON_INFERIORITY|MMRM was used for IOP change from baseline. The model includes IOP change from baseline as the response variable and treatment, visit, eye, baseline IOP, treatment-by-baseline, treatment-by-eye, treatment-by-visit, visit-by-eye interactions as covariates. A Kronecker product of unstructured covariance matrix for study visit and compound symmetry covariance matrix for between eye correlation was used in the analysis.|Least-squares Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.29||0.0735|TWO_SIDED|95.0|-1.09|0.05|||MMRM|||Change from Baseline at Week 12: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to SLT if the upper limit of the 95% CI was ≤ 1.5 mmHg at all scheduled visits (Weeks 4, 12, and 24).||0.05|-1.09|0.0735
92413373|NCT03032380|184716407|SUPERIORITY||Treatment Difference|-1.4|||||TWO_SIDED|95.0|-13.5|10.7|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the eradication rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||10.7|-13.5|
92169248|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.08||0.441|TWO_SIDED|95.0|0.78|1.11|||Negative binomial model|||Week 32: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.11|0.78|0.4410
92278151|NCT04682444|184458409|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Day 3||||<0.0001
92278152|NCT04682444|184458409|SUPERIORITY|||||||0.0013|||||||Fisher Exact|||Day 7||||0.0013
92278153|NCT04682444|184458410|SUPERIORITY|||||||0.0474|||||||Fisher Exact|||Day 7||||0.0474
92232098|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean heartburn score from period 1 to period 2 between the two arms."|Difference in Change|-0.19||||0.11|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in heartburn score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean heartburn score from period 1 to period 2 between the two arms"||||0.11
92232099|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean diarrhea score from period 1 to period 2 between the two arms."|Difference in Change|-0.16||||0.21|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in diarrhea score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean diarrhea score from period 1 to period 2 between the two arms"||||0.21
92232100|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean constipation score from period 1 to period 2 between the two arms."|Difference in Change|-0.14||||0.33|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in constipation score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean constipation score from period 1 to period 2 between the two arms"||||0.33
92232101|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean appetite change score from period 1 to period 2 between the two arms."|Difference in Change|-0.1||||0.46|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in appetite change score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean appetite change score from period 1 to period 2 between the two arms"||||0.46
92232102|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean difficulty remembering score from period 1 to period 2 between the two arms."|Difference in Change|-0.1||||0.46|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty remembering score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean difficulty remembering score from period 1 to period 2 between the two arms"||||0.46
92232103|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean fatigue score from period 1 to period 2 between the two arms."|Difference in Change|-0.07||||0.58|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in fatigue score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean fatigue score from period 1 to period 2 between the two arms"||||0.58
92232104|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean cough score from period 1 to period 2 between the two arms."|Difference in Change|0.01||||0.92|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in cough score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean cough score from period 1 to period 2 between the two arms"||||0.92
92232105|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean urination score from period 1 to period 2 between the two arms."|Difference in Change|0.02||||0.84|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in urination score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean urination score from period 1 to period 2 between the two arms"||||0.84
92232106|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean clumsy score from period 1 to period 2 between the two arms."|Difference in Change|0.03||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in clumsy score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean clumsy score from period 1 to period 2 between the two arms"||||0.83
92278154|NCT04682444|184458410|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Day 14||||<0.0001
92278155|NCT04682444|184458411|SUPERIORITY|A mixed model repeated measurement was used, which considered baseline, treatment visit\*treatment as fixed and patient as random effect.||||||0.0065|||||||MMRM|||Day 3||||0.0065
92278156|NCT04682444|184458411|SUPERIORITY||||||<|0.0001||||||A mixed model repeated measurement was used, which considered baseline, treatment visit\*treatment as fixed and patient as random effect.|MMRM|||Day 7||||<0.0001
92232107|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean fever score from period 1 to period 2 between the two arms."|Difference in Change|0.04||||0.72|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in fever score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean fever score from period 1 to period 2 between the two arms"||||0.72
92380666|NCT02636946|184664418|NON_INFERIORITY|MMRM was used for IOP change from baseline. The model includes IOP change from baseline as the response variable and treatment, visit, eye, baseline IOP, treatment-by-baseline, treatment-by-eye, treatment-by-visit, visit-by-eye interactions as covariates. A Kronecker product of unstructured covariance matrix for study visit and compound symmetry covariance matrix for between eye correlation was used in the analysis.|Least-squares Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.29||0.3928|TWO_SIDED|95.0|-0.81|0.32|||MMRM|||Change from Baseline at Week 24: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to SLT if the upper limit of the 95% confidence interval (CI) was ≤ 1.5 mmHg at all scheduled visits (Weeks 4, 12, and 24).||0.32|-0.81|0.3928
92380667|NCT03263780|184664438|SUPERIORITY||Sensitivity|0.25||||0.056|TWO_SIDED|95.0|0.19|0.46||mpMRI vs hrMRI and PET (PIRADS 3-5 \& Gleason 6+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI and PET (PIRADS 3-5 \& Gleason 6+)||0.46|0.19|0.056
92380668|NCT03263780|184664438|SUPERIORITY||Sensitivity|0.56||||0.56|TWO_SIDED|95.0|0.44|0.78||mpMRI vs hrMRI or PET (PIRADS 3-5 \& Gleason 6+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI or PET (PIRADS 3-5 \& Gleason 6+)||0.78|0.44|0.56
92380669|NCT03263780|184664438|SUPERIORITY||Sensitivity|0.22||||0.06|TWO_SIDED|95.0|0.17|0.47||mpMRI vs hrMRI and PET (PIRADS 4-5 \& Gleason 6+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI and PET (PIRADS 4-5 \& Gleason 6+)||0.47|0.17|0.060
92380670|NCT03263780|184664438|SUPERIORITY||Sensitivity|0.5||||0.083|TWO_SIDED|95.0|0.39|0.74||mpMRI vs hrMRI or PET (PIRADS 4-5 \& Gleason 6+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI or PET (PIRADS 4-5 \& Gleason 6+)||0.74|0.39|0.083
92380671|NCT03263780|184664439|SUPERIORITY||Sensitivity|0.35||||0.096|TWO_SIDED|95.0|0.26|0.65||mpMRI vs hrMRI and PET (PIRADS 3-5 \& Gleason 7+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI and PET (PIRADS 3-5 \& Gleason 7+)||0.65|0.26|0.096
92380672|NCT03263780|184664439|SUPERIORITY||Sensitivity|0.6||||0.317|TWO_SIDED|95.0|0.46|0.9||mpMRI vs hrMRI or PET (PIRADS 3-5 \& Gleason 7+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI or PET (PIRADS 3-5 \& Gleason 7+)||0.90|0.46|0.317
92413374|NCT03032380|184716408|SUPERIORITY||Treatment Difference|-2.0|||||TWO_SIDED|95.0|-12.5|8.5|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||8.5|-12.5|
92278157|NCT04682444|184458411|SUPERIORITY|A mixed model repeated measurement was used, which considered baseline, treatment visit\*treatment as fixed and patient as random effect.|||||<|0.0001|||||||MMRM|||Day 14||||<0.0001
92380673|NCT03263780|184664439|SUPERIORITY||Sensitivity|0.3||||0.063|TWO_SIDED|95.0|0.23|0.66||mpMRI vs hrMRI and PET (PIRADS 4-5 \& Gleason 7+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI and PET (PIRADS 4-5 \& Gleason 7+)||0.66|0.23|0.063
92380674|NCT03263780|184664439|SUPERIORITY||Sensitivity|0.6||||0.317|TWO_SIDED|95.0|0.46|0.9||mpMRI vs hrMRI or PET (PIRADS 4-5 \& Gleason 7+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI or PET (PIRADS 4-5 \& Gleason 7+)||0.90|0.46|0.317
92380675|NCT04075409|184664442|OTHER||LS means ratio|1.426|||||TWO_SIDED|90.0|1.112|1.83|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% Confidence Intervals (CIs) were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.830|1.112|
92380676|NCT04075409|184664442|OTHER||LS means ratio|1.234|||||TWO_SIDED|90.0|0.9619|1.584|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.584|0.9619|
92380677|NCT04075409|184664442|OTHER||LS means ratio|1.156|||||TWO_SIDED|90.0|0.9008|1.483|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.483|0.9008|
92380678|NCT04075409|184664443|OTHER||LS means ratio|2.122|||||TWO_SIDED|90.0|1.706|2.638|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||2.638|1.706|
92413375|NCT03032380|184716409|OTHER||Treatment Difference|-0.3|||||TWO_SIDED|95.0|-8.8|8.2|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||8.2|-8.8|
92278158|NCT04682444|184458413|SUPERIORITY|||||||0.5152|||||||Fisher Exact|||Day 3||||0.5152
92278159|NCT04682444|184458413|SUPERIORITY|||||||0.0009|||||||Fisher Exact|||Day 7||||0.0009
92232108|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean pain during sex score from period 1 to period 2 between the two arms."|Difference in Change|0.06||||0.48|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in pain during sex score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean pain during sex score from period 1 to period 2 between the two arms"||||0.48
92413376|NCT03032380|184716410|OTHER||Treatment Difference|-3.8|||||TWO_SIDED|95.0|-12.8|5.1|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||5.1|-12.8|
92413377|NCT03032380|184716411|OTHER||Treatment Difference|-0.1|||||TWO_SIDED|95.0|-10.9|10.8|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||10.8|-10.9|
92413378|NCT03032380|184716412|OTHER||Treatment Difference|-12.4|||||TWO_SIDED|95.0|-24.4|-0.5|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||-0.5|-24.4|
92413379|NCT03032380|184716413|OTHER||Treatment Difference|-3.8|||||TWO_SIDED|95.0|-15.5|7.9|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||7.9|-15.5|
92413380|NCT03032380|184716414|OTHER||Treatment Difference|3.9|||||TWO_SIDED|95.0|-7.9|15.8|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||15.8|-7.9|
92413381|NCT03032380|184716415|OTHER||Treatment Difference|0.5|||||TWO_SIDED|95.0|-8.7|9.8|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the ACM rate at Day 28 based on Cochran-Mantel Haenszel weights using APACHE II score (≤ 15 and ≥ 16) as the stratification factor.|||9.8|-8.7|
92413382|NCT03032380|184716416|OTHER||Treatment Difference|3.6|||||TWO_SIDED|95.0|-6.3|13.4|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the ACM rate at EOS based on Cochran-Mantel Haenszel weights using APACHE II score (≤ 15 and ≥ 16) as the stratification factor.|||13.4|-6.3|
92413383|NCT03032380|184716417|SUPERIORITY|||||||0.9382|||||||t-test, 2 sided|||Comparison of Hospitalization time at test of cure||||0.9382
92413384|NCT03032380|184716417|SUPERIORITY|||||||0.6552|||||||t-test, 2 sided|||Comparison of hospitalization time at follow-up||||0.6552
92278160|NCT04682444|184458413|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Day 14||||<0.0001
92278161|NCT04682444|184458414|SUPERIORITY|||||||0.1253|||||||Fisher Exact|||Day 3||||0.1253
92278162|NCT04682444|184458414|SUPERIORITY|||||||0.0611|||||||Fisher Exact|||Day 7||||0.0611
92278163|NCT04682444|184458414|SUPERIORITY|||||||0.4|||||||Fisher Exact|||Day 14||||0.4000
92413385|NCT02937584|184716419|OTHER||Geometric mean ratio to baseline|1.11||||0.0187|TWO_SIDED|95.0|1.02|1.22||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment|t-test, 2 sided|Within-group comparison to baseline using paired test||||1.22|1.02|0.0187
92413386|NCT02937584|184716419|OTHER||Geometric mean ratio to baseline|1.23|||<|0.0001|TWO_SIDED|95.0|1.14|1.33||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment|t-test, 2 sided|Within-group comparison to baseline using paired test||||1.33|1.14|<0.0001
92413387|NCT02937584|184716420|OTHER||Geometric mean ratio to baseline|0.75||||0.0219|TWO_SIDED|95.0|0.59|0.95||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment|t-test, 2 sided|Within-group comparison to baseline using paired test||||0.95|0.59|0.0219
92413388|NCT02937584|184716420|OTHER||Geometric mean ratio to baseline|0.56|||<|0.0001|TWO_SIDED|95.0|0.44|0.71||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment|t-test, 2 sided|Within-group comparison to baseline using paired test||||0.71|0.44|<0.0001
92413389|NCT02937584|184716421|OTHER||Geometric mean ratio to baseline|1.12||||0.0283|TWO_SIDED|95.0|1.01|1.24|||t-test, 2 sided|Within-group comparison to baseline using paired test||||1.24|1.01|0.0283
92413390|NCT02937584|184716421|OTHER||Geometric mean ratio to baseline|1.21|||<|0.0001|TWO_SIDED|95.0|1.12|1.31|||t-test, 2 sided|Within-group comparison to baseline using paired test||||1.31|1.12|<0.0001
92413391|NCT02937584|184716422|OTHER||Geometric mean ratio to baseline|0.76||||0.0304|TWO_SIDED|95.0|0.59|0.97|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.97|0.59|0.0304
92413392|NCT02937584|184716422|OTHER||Geometric mean ratio to baseline|0.55||||0.0003|TWO_SIDED|95.0|0.41|0.72|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.72|0.41|0.0003
92413393|NCT02937584|184716423|OTHER||Mean Change from Baseline|0.065||||0.1582|TWO_SIDED|95.0|-0.028|0.158|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.158|-0.028|0.1582
92413394|NCT02937584|184716423|OTHER||Mean Change from Baseline|0.151||||0.0375|TWO_SIDED|95.0|0.01|0.292|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.292|0.010|0.0375
92413395|NCT02937584|184716424|OTHER||Geometric mean ratio to baseline|0.978||||0.6176|TWO_SIDED|95.0|0.891|1.073|||t-test, 2 sided|Within-group comparison to baseline using paired test||||1.073|0.891|0.6176
92413396|NCT02937584|184716424|OTHER||Geometric mean ratio to baseline|0.938||||0.2699|TWO_SIDED|95.0|0.833|1.056|||t-test, 2 sided|Within-group comparison to baseline using paired test||||1.056|0.833|0.2699
92446310|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.045||0.6664|TWO_SIDED|95.0|-0.07|0.11|||MMRM|||Insight, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.07|0.6664
92413397|NCT03595618|184716461|SUPERIORITY||Adjusted mean difference|0.04514|STANDARD_ERROR_OF_MEAN|0.02465||0.165|TWO_SIDED|95.0|-0.00317|0.09345||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% confidence interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose minus placebo using mixed-effects model for repeated measures (MMRM) including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value||0.09345|-0.00317|0.165
92413398|NCT03595618|184716461|SUPERIORITY||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.02585||0.939|TWO_SIDED|95.0|-0.03868|0.06267||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% confidence interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose minus placebo using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.06267|-0.03868|0.939
92413399|NCT03595618|184716461|SUPERIORITY||Adjusted mean difference|0.02329|STANDARD_ERROR_OF_MEAN|0.02536||0.682|TWO_SIDED|95.0|-0.02641|0.073|||Mixed Models Analysis||Two-sided 95% confidence interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose minus placebo using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.07300|-0.02641|0.682
92413400|NCT03595618|184716462|SUPERIORITY||Odds Ratio (OR)|1.47|STANDARD_ERROR_OF_MEAN|0.29||0.396|TWO_SIDED|95.0|0.84|2.58||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen||2.58|0.84|0.396
92413401|NCT03595618|184716462|SUPERIORITY||Odds Ratio (OR)|0.89|STANDARD_ERROR_OF_MEAN|0.26||0.951|TWO_SIDED|95.0|0.53|1.5||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen||1.50|0.53|0.951
92413402|NCT03595618|184716462|SUPERIORITY||Odds Ratio (OR)|1.08|STANDARD_ERROR_OF_MEAN|0.27||0.985|TWO_SIDED|95.0|0.64|1.83||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen||1.83|0.64|0.985
92413403|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|1.7||0.467|TWO_SIDED|95.0|-5.6|1.3||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Total score: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||1.3|-5.6|0.467
92413404|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.8||0.557|TWO_SIDED|95.0|-5.4|1.5||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Total score: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||1.5|-5.4|0.557
92413405|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.8||0.593|TWO_SIDED|95.0|-5.3|1.6||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Total score: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||1.6|-5.3|0.593
92232109|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean dizziness score from period 1 to period 2 between the two arms."|Difference in Change|0.08||||0.54|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dizziness score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean dizziness score from period 1 to period 2 between the two arms"||||0.54
92232110|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean muscle aches score from period 1 to period 2 between the two arms."|Difference in Change|0.09||||0.56|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in muscle aches score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean muscle aches score from period 1 to period 2 between the two arms"||||0.56
92232111|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean speech difficulties score from period 1 to period 2 between the two arms."|Difference in Change|0.1||||0.22|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in speech difficulties score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean speech difficulties score from period 1 to period 2 between the two arms"||||0.22
92232112|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean decreased sex drive score from period 1 to period 2 between the two arms."|Difference in Change|0.11||||0.4|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in decreased sex drive score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean decreased sex drive score from period 1 to period 2 between the two arms"||||0.40
92232113|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean anxiety score from period 1 to period 2 between the two arms."|Difference in Change|0.13||||0.35|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in anxiety score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean anxiety score from period 1 to period 2 between the two arms"||||0.35
92380679|NCT04075409|184664443|OTHER||LS means ratio|1.289|||||TWO_SIDED|90.0|1.037|1.603|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.603|1.037|
92380680|NCT04075409|184664443|OTHER||LS means ratio|1.646|||||TWO_SIDED|90.0|1.323|2.046|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||2.046|1.323|
92169249|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.09||0.7426|TWO_SIDED|95.0|0.81|1.16|||Negative binomial model|||Week 40: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.16|0.81|0.7426
92239654|NCT00637273|184383087|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.2|STANDARD_ERROR_OF_MEAN|0.79|<|0.0001|TWO_SIDED|95.0|2.6|5.7||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting HDL from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting HDL as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||5.7|2.6|<.0001
92278164|NCT04682444|184458415|SUPERIORITY|||||||0.4636|||||||Fisher Exact|||Day 3||||0.4636
92278165|NCT04682444|184458415|SUPERIORITY|||||||0.1|||||||Fisher Exact|||Day 7||||0.1000
92380681|NCT04075409|184664444|OTHER||LS means ratio|2.124|||||TWO_SIDED|90.0|1.709|2.639|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||2.639|1.709|
92380682|NCT04075409|184664444|OTHER||LS means ratio|1.291|||||TWO_SIDED|90.0|1.039|1.604|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.604|1.039|
92380683|NCT04075409|184664444|OTHER||LS means ratio|1.645|||||TWO_SIDED|90.0|1.324|2.044|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||2.044|1.324|
92380684|NCT04075409|184664447|OTHER||LS means ratio|1.089|||||TWO_SIDED|90.0|0.8859|1.339|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.339|0.8859|
92169250|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.09||0.7469|TWO_SIDED|95.0|0.81|1.16|||Negative binomial model|||Week 40: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.16|0.81|0.7469
92278166|NCT04682444|184458415|SUPERIORITY|||||||0.0363|||||||Fisher Exact|||Day 14||||0.0363
92278167|NCT04682444|184458416|SUPERIORITY|||||||0.3107|||||||Fisher Exact|||Day 3||||0.3107
92278168|NCT04682444|184458416|SUPERIORITY|||||||0.0083|||||||Fisher Exact|||Day 7||||0.0083
92278169|NCT04682444|184458416|SUPERIORITY|||||||0.0611|||||||Fisher Exact|||Day 14||||0.0611
92380685|NCT04075409|184664447|OTHER||LS means ratio|1.044|||||TWO_SIDED|90.0|0.8489|1.283|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.283|0.8489|
92169251|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.96|STANDARD_ERROR_OF_MEAN|0.09||0.6784|TWO_SIDED|95.0|0.81|1.15|||Negative binomial model|||Week 48: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.15|0.81|0.6784
92380686|NCT04075409|184664447|OTHER||LS means ratio|1.044|||||TWO_SIDED|90.0|0.8489|1.283|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.283|0.8489|
92380687|NCT04075409|184664448|OTHER||LS means ratio|1.344|||||TWO_SIDED|90.0|1.092|1.653|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.653|1.092|
92380688|NCT04075409|184664448|OTHER||LS means ratio|0.9991|||||TWO_SIDED|90.0|0.812|1.229|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.229|0.8120|
92380689|NCT04075409|184664448|OTHER||LS means ratio|1.345|||||TWO_SIDED|90.0|1.093|1.655|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.655|1.093|
92380690|NCT03449433|184664520|SUPERIORITY||Ratio of LS Means|1.04|||||TWO_SIDED|95.0|0.985|1.1||||||||1.10|0.985|
92380691|NCT02409342|184664545|SUPERIORITY|Stratified analysis. OS was tested hierarchically in the efficacy analysis populations.|Hazard Ratio (HR)|0.595||||0.0106|TWO_SIDED|95.0|0.398|0.89|||Log Rank|||TC3 or IC3-WT Population||0.890|0.398|0.0106
92380692|NCT02409342|184664546|SUPERIORITY|Stratified analysis. OS was tested hierarchically in the efficacy analysis populations.|Hazard Ratio (HR)|0.868||||0.3091|TWO_SIDED|95.0|0.661|1.14|||Log Rank|||TC2/3 or IC2/3-WT Population||1.140|0.661|0.3091
92380693|NCT02409342|184664546|SUPERIORITY|Stratified analysis. OS was tested hierarchically in the efficacy analysis populations.|Hazard Ratio (HR)|0.845||||0.107|TWO_SIDED|95.0|0.688|1.037||P-value is descriptive as it was not formally tested.|Log Rank|||TC1/2/3 or IC/1/2/3-WT||1.037|0.688|0.1070
92380694|NCT02409342|184664547|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.63||||0.007|TWO_SIDED|95.0|0.449|0.884||P-value is descriptive as it was not formally tested.|Log Rank|||TC3 or IC3-WT Population||0.884|0.449|0.0070
92380695|NCT02409342|184664548|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.641||||0.0004|TWO_SIDED|95.0|0.501|0.82||P-value is descriptive as it was not formally tested.|Log Rank|||TC2/3 or IC2/3-WT Population||0.820|0.501|0.0004
92380696|NCT02409342|184664548|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.716||||0.0004|TWO_SIDED|95.0|0.595|0.863||P-value is descriptive as it was not formally tested.|Log Rank|||TC1/2/3 or IC1/2/3-WT Population||0.863|0.595|0.0004
92380697|NCT02409342|184664549|SUPERIORITY|Stratified Analysis|Difference in ORR|9.75|||||TWO_SIDED|95.0|-4.07|23.56||||||TC3 or IC3-WT Population||23.56|-4.07|
92380698|NCT02409342|184664550|SUPERIORITY|Stratified analysis|Difference in ORR|1.64|||||TWO_SIDED|95.0|-9.14|12.42||||||TC2/3 or IC2/3-WT Population||12.42|-9.14|
92380699|NCT02409342|184664550|SUPERIORITY|Stratified analysis|Difference in ORR|-0.72|||||TWO_SIDED|95.0|-8.84|7.39||||||TC1/2/3 or IC1/2/3-WT Population||7.39|-8.84|
92380700|NCT02409342|184664551|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.365|||||TWO_SIDED|95.0|0.166|0.8||||||TC3 or IC3-WT Population||0.800|0.166|
92380701|NCT02409342|184664552|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|0.235|||||TWO_SIDED|95.0|0.135|0.409||||||TC2/3 or IC2/3-WT Population||0.409|0.135|
92380702|NCT02409342|184664552|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|0.284|||||TWO_SIDED|95.0|0.19|0.424||||||TC1/2/3 or IC1/2/3-WT Population||0.424|0.190|
92232114|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean difficulty concentrating score from period 1 to period 2 between the two arms."|Difference in Change|0.17||||0.11|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty concentrating score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty concentrating score from period 1 to period 2 between the two arms"||||0.11
92380703|NCT02409342|184664553|SUPERIORITY||Difference in Event Free Rate|14.26|||||TWO_SIDED|95.0|-0.03|28.55||||||1-Year TC3 or IC3-WT Population||28.55|-0.03|
92413406|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.4||0.776|TWO_SIDED|95.0|-1.0|0.4||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Pain subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.4|-1.0|0.776
92380704|NCT02409342|184664554|SUPERIORITY||Difference in Event Free Rate|20.7|||||TWO_SIDED|95.0|2.94|38.47||||||2-Years TC3 or IC3-WT Population||38.47|2.94|
92380705|NCT02409342|184664555|SUPERIORITY||Difference in Event Free Rate|4.74|||||TWO_SIDED|95.0|-5.93|15.4||||||1-Year TC2/3 or IC2/3-WT Population||15.40|-5.93|
92380706|NCT02409342|184664555|SUPERIORITY||Difference in Event Free Rate|5.06|||||TWO_SIDED|95.0|-3.27|13.4||||||1-Year TC1/2/3 or IC1/2/3-WT Population||13.40|-3.27|
92380707|NCT02409342|184664556|SUPERIORITY||Difference in Event Free Rate|8.73|||||TWO_SIDED|95.0|-1.99|19.45||||||2-Years TC2/3 or IC2/3-WT Population||19.45|-1.99|
92380708|NCT02409342|184664556|SUPERIORITY||Difference in Event Free Rate|10.94|||||TWO_SIDED|95.0|2.83|19.04||||||2-Years TC1/2/3 or IC1/2/3-WT Population||19.04|2.83|
92380709|NCT02409342|184664557|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.142|||||TWO_SIDED|95.0|0.657|1.984||||||Cough in TC3 or IC3-WT Populations||1.984|0.657|
92380710|NCT02409342|184664557|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|0.891|||||TWO_SIDED|95.0|0.555|1.43||||||Dyspnoea in TC3 or IC3-WT Populations||1.430|0.555|
92380711|NCT02409342|184664557|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|1.229|||||TWO_SIDED|95.0|0.737|2.049||||||Chest pain in TC3 or IC3-WT Populations||2.049|0.737|
92413407|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.446|TWO_SIDED|95.0|-1.2|0.3||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Pain subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.3|-1.2|0.446
92232115|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean shortness of breath score from period 1 to period 2 between the two arms."|Difference in Change|0.2||||0.11|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in shortness of breath score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean shortness of breath score from period 1 to period 2 between the two arms"||||0.11
92380712|NCT02409342|184664559|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|0.984|||||TWO_SIDED|95.0|0.477|2.03||||||Cough for TC3 or IC3-WT Populations||2.030|0.477|
92380713|NCT02409342|184664559|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|0.955|||||TWO_SIDED|95.0|0.569|1.604||||||Dyspnea for TC3 or IC3-WT Populations||1.604|0.569|
92380714|NCT02409342|184664559|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|1.024|||||TWO_SIDED|95.0|0.472|2.222||||||Chest pain for TC3 or IC3-WT Populations||2.222|0.472|
92380715|NCT02409342|184664560|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.707|||||TWO_SIDED|95.0|0.5|1.0||||||SP263 \>=50%-WT Population||1.000|0.500|
92380716|NCT02409342|184664560|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.693|||||TWO_SIDED|95.0|0.502|0.956||||||SP263 \>=25%-WT Population||0.956|0.502|
92380717|NCT02409342|184664560|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.768|||||TWO_SIDED|95.0|0.579|1.018||||||SP263 \>=1%-WT Population||1.018|0.579|
92380718|NCT02409342|184664561|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.674|||||TWO_SIDED|95.0|0.511|0.89||||||SP263 \>=50%-WT Population||0.890|0.511|
92380719|NCT02409342|184664561|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.698|||||TWO_SIDED|95.0|0.539|0.904||||||SP263 \>=25%-WT Population||0.904|0.539|
92380720|NCT02409342|184664561|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.725|||||TWO_SIDED|95.0|0.577|0.91||||||SP263 \>=1%-WT Population||0.910|0.577|
92380721|NCT02409342|184664562|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.867|||||TWO_SIDED|95.0|0.578|1.301||||||bTMB \>=10-WT Population||1.301|0.578|
92380722|NCT02409342|184664562|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.748|||||TWO_SIDED|95.0|0.414|1.351||||||bTMB \>=16-WT Population||1.351|0.414|
92380723|NCT02409342|184664562|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.362|1.638||||||bTMB \>=20-WT Population||1.638|0.362|
92380724|NCT02409342|184664563|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.743|||||TWO_SIDED|95.0|0.525|1.052||||||bTMB \>=10-WT Population||1.052|0.525|
92380725|NCT02409342|184664563|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.553|||||TWO_SIDED|95.0|0.331|0.924||||||bTMB \>=16-WT Population||0.924|0.331|
92380726|NCT02409342|184664563|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.295|1.062||||||bTMB \>=20-WT Population||1.062|0.295|
92380727|NCT00279812|184664568|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92380728|NCT00279812|184664569|OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92380729|NCT00279812|184664570|OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92380730|NCT02100475|184664620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.427|TWO_SIDED|95.0|-1.05|0.46|||ANCOVA|||The response and change from baseline in the response after 26 weeks of treatment was analysed using an analysis of covariance (ANCOVA) method with treatment and baseline IDegLira dose strata as fixed factors and baseline response as a covariate. Missing data were imputed using LOCF.||0.46|-1.05|0.427
92380731|NCT03268941|184664627|OTHER||Least Square (LS) Mean Difference|7.38|||<|0.001|TWO_SIDED|95.0|4.03|13.52||ANCOVA model was used for analysis. Treatment, underlying disease (DG/IG) were fixed factors. ln of baseline prolactin concentration as covariate, ln of ratio of Cmax to baseline concentration as response. Results in original scale are presented.|ANCOVA|||Change in serum prolactin on Day 1 at the Tmax as a ratio of Cmax to serum prolactin concentration at Baseline.||13.52|4.03|<0.001
92380732|NCT03268941|184664627|OTHER||LS Mean Difference|11.24|||<|0.001|TWO_SIDED|95.0|5.91|21.41||ANCOVA model was used for analysis. Treatment, underlying disease (DG/IG) were fixed factors. ln of baseline prolactin concentration as covariate, ln of ratio of Cmax to baseline concentration as response. Results in original scale are presented.|ANCOVA|||Change in serum prolactin on Day 1 at the Tmax as a ratio of Cmax to serum prolactin concentration at Baseline.||21.41|5.91|<0.001
92380733|NCT03268941|184664627|OTHER||LS Mean Difference|12.8|||<|0.001|TWO_SIDED|95.0|6.94|23.59||ANCOVA model was used for analysis. Treatment, underlying disease (DG/IG) were fixed factors. ln of baseline prolactin concentration - covariate, ln of ratio of Cmax to baseline concentration as response. Results in original scale are presented.|ANCOVA|||Change in serum prolactin on Day 1 at the Tmax as a ratio of Cmax to serum prolactin concentration at Baseline.||23.59|6.94|<0.001
92380734|NCT03268941|184664628|OTHER||LS Mean Difference|7.76|STANDARD_ERROR_OF_MEAN|14.648||0.599|TWO_SIDED|95.0|-21.89|37.41||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 7 in Part 1.||37.41|-21.89|0.599
92380735|NCT03268941|184664628|OTHER||LS Mean Difference|6.28|STANDARD_ERROR_OF_MEAN|15.469||0.687|TWO_SIDED|95.0|-25.04|37.59||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 7 in Part 1.||37.59|-25.04|0.687
92380736|NCT03268941|184664628|OTHER||LS Mean Difference|8.05|STANDARD_ERROR_OF_MEAN|15.45||0.605|TWO_SIDED|95.0|-23.22|39.33||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 7 in Part 1.||39.33|-23.22|0.605
92380737|NCT03268941|184664629|OTHER||LS Mean Difference|7.56|STANDARD_ERROR_OF_MEAN|11.708||0.522|TWO_SIDED|95.0|-16.06|31.19||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 1 in Part 1.||31.19|-16.06|0.522
92380738|NCT03268941|184664629|OTHER||LS Mean Difference|12.92|STANDARD_ERROR_OF_MEAN|12.143||0.293|TWO_SIDED|95.0|-11.58|37.43||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 1 in Part 1.||37.43|-11.58|0.293
92380739|NCT03268941|184664629|OTHER||LS Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|11.654||0.551|TWO_SIDED|95.0|-16.52|30.52||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 1 in Part 1.||30.52|-16.52|0.551
92380740|NCT03268941|184664630|OTHER||Hodges-Lehmann Estimate of Median Diff|-18.14||||0.274|TWO_SIDED|95.0|-307.58|13.56||P-value was obtained with pairwise Wilcoxon Rank Sum tests.|Wilcoxon Rank Sum tests|||Percent Change in GE time measured by the SmartPill on Day 7 in Part 1.||13.56|-307.58|0.274
92380741|NCT03268941|184664630|OTHER||Hodges-Lehmann Estimate of Median Diff|-26.95||||0.481|TWO_SIDED|95.0|-229.73|530.49||P-value was obtained with pairwise Wilcoxon Rank Sum tests.|Wilcoxon Rank Sum tests|||Percent Change in GE time measured by the SmartPill on Day 7 in Part 1.||530.49|-229.73|0.481
92380742|NCT03268941|184664630|OTHER||Hodges-Lehmann Estimate of Median Diff|-24.49||||0.382|TWO_SIDED|95.0|-225.87|98.91||P-value was obtained with pairwise Wilcoxon Rank Sum tests.|Wilcoxon Rank Sum tests|||Percent Change in GE on time measured by the SmartPill Day 7 in Part 1.||98.91|-225.87|0.382
92169252|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|1.01|STANDARD_ERROR_OF_MEAN|0.09||0.8822|TWO_SIDED|95.0|0.85|1.21|||Negative binomial model|||Week 48: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.21|0.85|0.8822
92278170|NCT04682444|184458417|SUPERIORITY|||||||0.2988|||||||Fisher Exact|||Day 3||||0.2988
92278171|NCT04682444|184458418|SUPERIORITY|||||||0.0005|||||||Fisher Exact|||Day 3||||0.0005
92380743|NCT02720692|184664641|SUPERIORITY||||||<|0.05||||||P\<0.05 applies to Day 1 (0-24 Hours; p=0.0033), Days 1-2 (0-48 Hours; p=0.0077), and Days 1-3 (0-72 Hours; p=0.0152).|ANCOVA|||||||<0.05
92380744|NCT03878758|184664643|SUPERIORITY|The average difference in incidence of needle bending with BD Nano vs. Comparator pen needle was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|-0.39||||0.591|TWO_SIDED|95.0|-1.82|1.04|||Fisher Exact|||||1.04|-1.82|0.591
92380745|NCT03878758|184664643|SUPERIORITY|The average difference in percentage of occurrence with BD Nano vs. Comparator pen needle was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|0.13||||0.931|TWO_SIDED|95.0|-2.8|3.06|||Fisher Exact|||||3.06|-2.8|0.931
92380746|NCT03878758|184664643|SUPERIORITY|The average difference in percentage of occurrence with BD Nano vs. Comparator pen needle was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|0.42||||0.723|TWO_SIDED|95.0|-1.91|2.75|||Fisher Exact|||||2.75|-1.91|0.723
92380747|NCT03878758|184664644|SUPERIORITY|The average difference in percentage of occurrence with BD Nano vs. comparator was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|-5.7|||<|0.001|TWO_SIDED|95.0|-9.0|-3.5|||Fisher Exact|||||-3.5|-9.0|<0.001
92380748|NCT03878758|184664644|SUPERIORITY|The average difference in percentage of occurrence with BD Nano vs. comparator was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|-14.09||||0.026|TWO_SIDED|95.0|-26.49|-1.69||Although a site difference was detected - all sites combined p-value was generated,|Fisher Exact|||||-1.69|-26.49|0.026
92380749|NCT03878758|184664644|SUPERIORITY|The average difference in percentage of occurrence with BD Nano vs.Comparator pen needle was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|-0.2||||0.644|TWO_SIDED|95.0|-1.9|0.6|||Fisher Exact|||||0.6|-1.9|0.644
92380750|NCT03878758|184664645|SUPERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates.|Overall Mean|0.8|||||TWO_SIDED|95.0|0.62|0.98||||||||0.98|0.62|
92380751|NCT03878758|184664645|SUPERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates.|Overall Mean|1.0|||||TWO_SIDED|95.0|0.8|1.16||||||||1.16|0.8|
92380752|NCT03878758|184664645|SUPERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates.|Overall Mean|0.3|||||TWO_SIDED|95.0|0.13|0.49||||||||0.49|0.13|
92380753|NCT03878758|184664646|SUPERIORITY|A mixed effect model was used (fixed effects of PN, abdomen site, order of pair, order of PN within pair and random subject effect) to estimate average difference (BD Nano PN - Comparator PN) in delivery time and total injection time. A Box-Cox transformation might be used to normalize the data if necessary.|Mean Difference (Final Values)|-0.192|||<|0.001|ONE_SIDED|95.0||-0.141|||Mixed Models Analysis|||BD Nano Pro vs Artsana 34G||-0.141||<0.001
92380754|NCT03878758|184664646|SUPERIORITY|A mixed effect model was used (fixed effects of PN, abdomen site, order of pair, order of PN within pair and random subject effect) to estimate average difference (BD Nano PN - Comparator PN) in delivery time and total injection time. A Box-Cox transformation might be used to normalize the data if necessary.|Mean Difference (Final Values)|-0.122||||0.104|ONE_SIDED|95.0||0.016|||Mixed Models Analysis|||BD NANO vs Artsana 33G. A significant site effect was detected at one site; the most conservative p-value is reported.||0.016||0.104
92380755|NCT03878758|184664646|SUPERIORITY|A mixed effect model was used (fixed effects of PN, abdomen site, order of pair, order of PN within pair and random subject effect) to estimate average difference (BD Nano PN - Comparator PN) in delivery time and total injection time. A Box-Cox transformation might be used to normalize the data if necessary. The upper bound of the confidence interval was compared to 0.|Mean Difference (Net)|-0.068||||0.003|ONE_SIDED|95.0||-0.017|||Mixed Models Analysis|||BD NANO vs Comfort EZ 33G||-0.017||0.003
92380756|NCT03878758|184664647|SUPERIORITY|The number and proportion of needle breaking occurrence for each pen needle type were summarized. A 95% confidence interval for difference in proportions between BD Nano Pro and the Comparator was calculated using the score method for independent proportions.|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.4|1.2||||||||1.2|-0.4|
92380757|NCT03878758|184664647|SUPERIORITY|The number and proportion of needle breaking occurrence for each pen needle type were summarized. A 95% confidence interval for difference in proportions between BD Nano Pro and the Comparator was calculated using the score method for independent proportions.|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.4|1.2||||||||1.2|-0.4|
92380758|NCT03878758|184664647|SUPERIORITY|The number and proportion of needle breaking occurrence for each pen needle type were summarized. A 95% confidence interval for difference in proportions between BD Nano Pro and the Comparator was calculated using the score method for independent proportions.|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.4|1.2||||||||1.2|-0.4|
92380759|NCT01769196|184664649|SUPERIORITY|The null hypothesis was that there is no difference in PFS between simtuzumab and simtuzumab placebo. The alternative hypothesis was that there is a difference. These hypotheses were evaluated using stratified log-rank test, adjusted for screening post-bronchodilator FVC % predicted, sLOXL2 level categories and concomitant use of pirfenidone or nintedanib (P/N) at time of screening.|Hazard Ratio (HR)|1.13||||0.329|TWO_SIDED|95.0|0.88|1.45|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted, sLOXL2 level categories, and concomitant pirfenidone/nintedanib use at time of screening.|||1.45|0.88|0.329
92380760|NCT01769196|184664650|SUPERIORITY|The null hypothesis was that there is no difference in PFS between simtuzumab and simtuzumab placebo in participants with sLOXL2 ≥ 50th percentile. The alternative hypothesis was that there is a difference. These hypotheses were evaluated using stratified log-rank test, adjusted for screening post-bronchodilator FVC % predicted and concomitant use of pirfenidone or nintedanib (P/N) at time of screening.|Hazard Ratio (HR)|1.03||||0.851|TWO_SIDED|95.0|0.74|1.43|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted and concomitant pirfenidone/nintedanib use at time of screening.|||1.43|0.74|0.851
92380761|NCT01769196|184664651|SUPERIORITY|The null hypothesis was that there is no difference in PFS between simtuzumab and simtuzumab placebo in participants with sLOXL2 ≥ 75th percentile. The alternative hypothesis was that there is a difference. These hypotheses were evaluated using stratified log-rank test, adjusted for screening post-bronchodilator FVC % predicted and concomitant use of pirfenidone or nintedanib (P/N) at time of screening.|Hazard Ratio (HR)|1.2||||0.475|TWO_SIDED|95.0|0.72|2.0|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted and concomitant pirfenidone/nintedanib use at time of screening.|||2.00|0.72|0.475
92380762|NCT01769196|184664652|OTHER||Hazard Ratio (HR)|1.2||||0.602|TWO_SIDED|95.0|0.61|2.37|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted, sLOXL2 level categories, and concomitant pirfenidone/nintedanib use at time of screening.|||2.37|0.61|0.602
92413408|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.649|TWO_SIDED|95.0|-1.1|0.4||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Pain subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.4|-1.1|0.649
92278172|NCT04682444|184458418|SUPERIORITY|||||||0.0238|||||||Fisher Exact|||Day 7||||0.0238
92380763|NCT01769196|184664653|OTHER|The difference in OS between the treatment groups was assessed using the stratified log-rank test, adjusted for screening post-bronchodilator FVC % predicted and concomitant use of pirfenidone or nintedanib (P/N) at time of screening.|Hazard Ratio (HR)|0.99||||0.988|TWO_SIDED|95.0|0.43|2.28|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted and concomitant pirfenidone/nintedanib use at time of screening.|||2.28|0.43|0.988
92380764|NCT01769196|184664654|OTHER|The difference in OS between the treatment groups was assessed using the stratified log-rank test, adjusted for screening post-bronchodilator FVC % predicted and concomitant use of pirfenidone or nintedanib (P/N) at time of screening.|Hazard Ratio (HR)|0.95||||0.925|TWO_SIDED|95.0|0.3|2.99|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted and concomitant pirfenidone/nintedanib use at time of screening.|||2.99|0.30|0.925
92380765|NCT00321464|184664683|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A synthesis method was used for the non-inferiority test for the hypothesis that denosumab preserves at least 50% of the effect of zoledronic acid vs. placebo.|Hazard Ratio (HR)|0.82|||<|0.0001||95.0|0.71|0.95|||Regression, Cox||Stratified by the randomization stratification factors (previous skeletal-related event, prior oral bisphosphonate use, current chemotherapy, and location in Japan).|||0.95|0.71|<0.0001
92380766|NCT00321464|184664684|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.01||95.0|0.71|0.95||P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure|Regression, Cox||Stratified by the randomization stratification factors (previous skeletal-related event, prior oral bisphosphonate use, current chemotherapy, and location in Japan).|||0.95|0.71|0.010
92380767|NCT00321464|184664685|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.77||||0.001||95.0|0.66|0.89||P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure|Anderson-Gill model||Stratified by the randomization stratification factors (previous skeletal-related event, prior oral bisphosphonate use, current chemotherapy, and location in Japan).|||0.89|0.66|0.001
92169253|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|0.99|STANDARD_ERROR_OF_MEAN|0.09||0.9119|TWO_SIDED|95.0|0.83|1.18|||Negative binomial model|||Week 56: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.18|0.83|0.9119
92380768|NCT00652951|184664694|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% confidence interval (CI) of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 1.|GMC ratio|0.89|||||TWO_SIDED|95.0|0.74|1.07|||ANOVA|||The 2-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 1.||1.07|0.74|
92380769|NCT00652951|184664694|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 4.|GMC ratio|1.01|||||TWO_SIDED|95.0|0.84|1.23|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 4.||1.23|0.84|
92380770|NCT00652951|184664694|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 5.|GMC ratio|0.98|||||TWO_SIDED|95.0|0.83|1.15|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 5.||1.15|0.83|
92380771|NCT00652951|184664694|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 6B.|GMC ratio|0.93|||||TWO_SIDED|95.0|0.69|1.26|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 6B.||1.26|0.69|
92380772|NCT00652951|184664694|NON_INFERIORITY|Non-inferiority criteria: The upper limit of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group Group), was lower than 2 for the pneumococcal vaccine serotype 7F.|GMC ratio|0.96|||||TWO_SIDED|95.0|0.82|1.13|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel Group groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 7F.||1.13|0.82|
92278173|NCT04682444|184458418|SUPERIORITY|||||||0.0277|||||||Fisher Exact|||Day 14||||0.0277
92278174|NCT04682444|184458419|SUPERIORITY|||||||0.1253|||||||Fisher Exact|||Day 3||||0.1253
92278175|NCT04682444|184458419|SUPERIORITY|||||||0.0611|||||||Fisher Exact|||Day 7||||0.0611
92380773|NCT00652951|184664694|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 9V.|GMC ratio|0.95|||||TWO_SIDED|95.0|0.78|1.16|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 9V.||1.16|0.78|
92380774|NCT00652951|184664694|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 14.|GMC ratio|1.01|||||TWO_SIDED|95.0|0.85|1.21|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 14.||1.21|0.85|
92380775|NCT00652951|184664694|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 18C.|GMC ratio|1.61|||||TWO_SIDED|95.0|1.28|2.03|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over ), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 18C.||2.03|1.28|
92380776|NCT00652951|184664694|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 19F.|GMC ratio|1.06|||||TWO_SIDED|95.0|0.82|1.36|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 19F.||1.36|0.82|
92380777|NCT00652951|184664694|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 23F.|GMC ratio|0.92|||||TWO_SIDED|95.0|0.7|1.23|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa Group and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 23F.||1.23|0.7|
92380778|NCT00652951|184664695|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for protein D.|GMC ratio|0.91|||||TWO_SIDED|95.0|0.77|1.06|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns protein D.||1.06|0.77|
92380779|NCT01206582|184664739|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANCOVA|||Comparison for day 3||||0.0002
92380780|NCT01206582|184664739|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||ANCOVA|||Comparison for day 7||||0.008
92380781|NCT01206582|184664740|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||ANCOVA|||Comparison for day 3||||0.0003
92380782|NCT01206582|184664747|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||Comparison for Day 7||||<0.05
92380783|NCT01206582|184664748|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||Comparison for Day 7||||<0.05
92380784|NCT01206582|184664749|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANCOVA|||Comparison for Platelets on Day 4||||0.01
92413409|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|1.3||0.452|TWO_SIDED|95.0|-4.1|0.9||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Physical function subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.9|-4.1|0.452
92232116|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean difficulty falling asleep score from period 1 to period 2 between the two arms."|Difference in Change|0.2||||0.15|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty falling asleep score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty falling asleep score from period 1 to period 2 between the two arms"||||0.15
92232117|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean unplanned changes in weight score from period 1 to period 2 between the two arms."|Difference in Change|0.22||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in unplanned changes in weight score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean unplanned changes in weight score from period 1 to period 2 between the two arms"||||0.08
92232118|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean depression score from period 1 to period 2 between the two arms."|Difference in Change|0.34||||0.02|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in depression score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean depression score from period 1 to period 2 between the two arms"||||0.02
92278176|NCT04682444|184458419|SUPERIORITY|||||||0.4|||||||Fisher Exact|||Day 14||||0.4000
92278177|NCT04682444|184458421|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Day 14||||<0.0001
92278178|NCT04682444|184458422|SUPERIORITY|||||||0.3973|||||||Fisher Exact|||Day 3||||0.3973
92380785|NCT02100969|184664750|SUPERIORITY||"proportion of successes"|0.864||||0.0179|TWO_SIDED|95.0|0.72|1.0||No adjustment is required as we are not doing multiple comparisons for the primary outcome analyses.|One sample Z test of proportions||One sample Z test of proportions is used. Method of handling missing data (as per protocol) is Last Observation Carried Forward (LOCF). Only 2 participants had missing values and in our case the LOCF results reflect a 'best-case' scenario.|"Sample size/power calculations are mentioned in the study protocol.~The study hypotheses are as follows:~H0: Proportion of patients whose QMG scores are increased by no more than 3 points at the end of the SCIg treatment phase ≤ 0.65 HA: Proportion of patients whose QMG scores are increased by no more than 3 points at the end of the SCIg treatment phase \> 0.65"||1.000|0.720|0.0179
92380786|NCT02100969|184664751|SUPERIORITY||Median Difference (Net)|0.0||||0.113|TWO_SIDED||||||Wilcoxon Signed Rank for paired data||The value of the signed rank test statistic is 44.50.|||||0.113
92380787|NCT02100969|184664752|SUPERIORITY||Median Difference (Net)|6.0||||0.612|TWO_SIDED||||||Wilcoxon Signed Rank for paired data|||||||0.612
92380788|NCT02100969|184664753|SUPERIORITY||Median Difference (Net)|2.0||||0.047|TWO_SIDED||||||Wilcoxon Signed Rank for paired data||The value of the signed-rank test statistic is 53.|||||0.047
92380789|NCT02100969|184664754|SUPERIORITY||Median Difference (Net)|5.6||||0.901|TWO_SIDED||||||Wilcoxon Signed Rank for paired data|||||||0.901
92380790|NCT02100969|184664755|SUPERIORITY||Median Difference (Net)|4.2||||0.51|TWO_SIDED||||||Wilcoxon Signed Rank for paired data|||||||0.510
92380791|NCT02100969|184664756|SUPERIORITY||Median Difference (Net)|8.3||||0.289|TWO_SIDED||||||Wilcoxon Signed Rank for paired data|||||||0.289
92278179|NCT04682444|184458422|SUPERIORITY|||||||0.3122|||||||Fisher Exact|||Day 7||||0.3122
92278180|NCT04682444|184458422|SUPERIORITY|||||||0.0064|||||||Fisher Exact|||Day 14||||0.0064
92278181|NCT04682444|184458424|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||Day 3||||0.012
92278182|NCT04682444|184458424|SUPERIORITY|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||Day 7||||0.036
92278183|NCT04682444|184458424|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Day 14||||<0.0001
92278184|NCT04682444|184458426|SUPERIORITY|||||||0.0002|||||||Fisher Exact|||Day 3||||0.0002
92278185|NCT04682444|184458426|SUPERIORITY|||||||0.4048|||||||Fisher Exact|||Day 7||||0.4048
92278186|NCT04682444|184458427|SUPERIORITY|||||||0.0002|||||||Fisher Exact|||Day 3||||0.0002
92380792|NCT02100969|184664757|SUPERIORITY||Median Difference (Net)|715.0||||0.0028|TWO_SIDED||||||Wilcoxon Signed Rank for paired data|||||||0.0028
92380793|NCT00528801|184664759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|2.07||0.008||95.0|||||Mixed Models Analysis|Adjusted for gender, age, and education.|Cases are lower than controls.|Null hypothesis is no difference between cases and controls in the WAIS-III Perormance IQ (PIQ) Index. A linear model controlling for gender, age, and education was used to compare controls versus cases using an F statistic. Based on sample-size calculations, 120 patients and 36 controls were needed to have 80% power to detect an 8-point difference on the WAIS-III PIQ Index.||||0.008
92380794|NCT00528801|184664760|SUPERIORITY_OR_OTHER||Difference in proportions|0.11||||0.048||95.0|0.026|0.199|||Fisher Exact|||Null hypothesis is no difference between cases and controls in the proportion of subjects with lacunae. This was tested using a Fisher's Exact Test.||.199|.026|0.048
92380795|NCT02207491|184664762|NON_INFERIORITY|Clinical noninferiority was to be concluded if the upper limit of the 95% CIs around the difference (AR-13324 - timolol) was within 1.5 mmHg at all time points and was within 1.0 mmHg at a majority of the time points.|||||<|0.0001||||||Calculated p-value|ANCOVA|Statistical analysis applies at all 3 timepoints on Day 15, Day 43, and Day 90||Assuming zero difference between AR-13324 and timolol, a 2-tailed alpha of 0.05 at each of 9 time points, a common SD of 3.0 mmHg, and a correlation between time points of 0.60 or less, 170 PP subjects per arm were necessary to have 90% power to show clinical noninferiority of AR-13324 to timolol in mean IOP.||||<0.0001
92380796|NCT04473664|184664780|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean]|95.1|||||TWO_SIDED|90.0|77.1|117.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|Statistical comparison was analyzed for Quizartinib.||117|77.1|
92278187|NCT04682444|184458427|SUPERIORITY|||||||0.1614|||||||Fisher Exact|||Day 7||||0.1614
92278188|NCT04682444|184458428|SUPERIORITY|||||||0.5581|||||||Fisher Exact|||Day 3||||0.5581
92278189|NCT04682444|184458428|SUPERIORITY|||||||0.4167|||||||Fisher Exact|||Day 7||||0.4167
92278190|NCT04682444|184458429|SUPERIORITY|||||||0.0406|||||||Fisher Exact|||Day 3||||0.0406
92278191|NCT04682444|184458429|SUPERIORITY|||||||0.2|||||||Fisher Exact|||Day 7||||0.2000
92278192|NCT04682444|184458430|SUPERIORITY|||||||0.2208|||||||Fisher Exact|||Day 3||||0.2208
92278193|NCT04682444|184458430|SUPERIORITY|||||||0.0659|||||||Fisher Exact|||Day 7||||0.0659
92232119|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean difficulty staying asleep score from period 1 to period 2 between the two arms."|Difference in Change|0.36||||0.01|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty staying asleep score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty staying asleep score from period 1 to period 2 between the two arms"||||0.01
92278194|NCT04682444|184458432|SUPERIORITY|||||||0.941|||||||Fisher Exact|||Day 0, IFN-alpha||||0.941
92278195|NCT04682444|184458432|SUPERIORITY|||||||0.943|||||||Fisher Exact|||Day 0, IFN-gamma||||0.943
92380797|NCT04473664|184664782|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean]|109.0|||||TWO_SIDED|90.0|59.5|201.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUClast statistical comparison was analyzed for Quizartinib.||201|59.5|
92380798|NCT04473664|184664782|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean]|109.0|||||TWO_SIDED|90.0|57.9|207.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUCinf statistical comparison was analyzed for Quizartinib.||207|57.9|
92380799|NCT04473664|184664786|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|74.4|||||TWO_SIDED|90.0|32.0|173.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|Statistical comparison was analyzed for AC886.||173|32.0|
92380800|NCT04473664|184664788|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|62.5|||||TWO_SIDED|90.0|35.3|111.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUClast statistical comparison was analyzed for AC886.||111|35.3|
92380801|NCT04473664|184664788|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|69.9|||||TWO_SIDED|90.0|46.8|104.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUCinf statistical comparison was analyzed for AC886.||104|46.8|
92380802|NCT04473664|184664791|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|44.7|||||TWO_SIDED|90.0|18.0|111.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|Statistical comparison was analyzed for Quizartinib.||111|18.0|
92413410|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-1.2|STANDARD_ERROR_OF_MEAN|1.3||0.665|TWO_SIDED|95.0|-3.7|1.3||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Physical Function subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||1.3|-3.7|0.665
92278196|NCT04682444|184458432|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Day 7, IFN-alpha||||<0.001
92278197|NCT04682444|184458432|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Day 7, IFN-gamma||||<0.001
92278198|NCT04682444|184458432|SUPERIORITY|||||||0.625|||||||Fisher Exact|||Day 14, IFN-alpha||||0.625
92278199|NCT04682444|184458432|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Day 14, IFN-gamma||||<0.001
92278200|NCT02180061|184458455|SUPERIORITY|||||||0.0216||||||One-sided p-value. The ORR was deemed clinically meaningful if the lower bound of the 95% confidence interval exceeded 10% (p\<0.0250).|Exact Binomial Distribution|||||||0.0216
92278201|NCT01469364|184458465|SUPERIORITY_OR_OTHER|||||||0.203|TWO_SIDED||||||t-test, 2 sided|Paired t-test 2 sided.||||||0.2030
92413411|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-1.3|STANDARD_ERROR_OF_MEAN|1.3||0.598|TWO_SIDED|95.0|-3.9|1.2||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Physical Function subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||1.2|-3.9|0.598
92413412|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4|TWO_SIDED|95.0|-0.6|0.1||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Stiffness subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.1|-0.6|0.400
92413413|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.393|TWO_SIDED|95.0|-0.6|0.1||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Stiffness subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.1|-0.6|0.393
92413414|NCT03595618|184716463|SUPERIORITY||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.858|TWO_SIDED|95.0|-0.5|0.2||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Stiffness subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.2|-0.5|0.858
92413415|NCT03595618|184716464|SUPERIORITY||Adjusted mean difference|-2.2|STANDARD_ERROR_OF_MEAN|2.5||0.705|TWO_SIDED|95.0|-7.1|2.7||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||2.7|-7.1|0.705
92413416|NCT03595618|184716464|SUPERIORITY||Adjusted mean difference|-4.1|STANDARD_ERROR_OF_MEAN|2.5||0.243|TWO_SIDED|95.0|-9.0|0.8||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||0.8|-9.0|0.243
92413417|NCT03595618|184716464|SUPERIORITY||Adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|2.5||0.949|TWO_SIDED|95.0|-6.1|3.9||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||3.9|-6.1|0.949
92413418|NCT03595618|184716465|SUPERIORITY||Adjusted mean difference|1.4|STANDARD_ERROR_OF_MEAN|2.5||0.89|TWO_SIDED|95.0|-3.4|6.3||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||6.3|-3.4|0.890
92278202|NCT01469364|184458466|SUPERIORITY_OR_OTHER|||||||0.2527|TWO_SIDED||||||t-test, 2 sided|Paired t-test 2 sided.||||||0.2527
92278203|NCT01469364|184458471|SUPERIORITY_OR_OTHER||Mean Absolute Difference|-1.52||||0.34|TWO_SIDED||||||t-test, 2 sided|Paired Measured t-test||P-Value for the SF-36 PCS||||0.34
92278204|NCT01469364|184458471|SUPERIORITY_OR_OTHER||Median Absolute Difference|0.78||||0.18|TWO_SIDED||||||t-test, 2 sided|Paired Measured t-test||P-Value for the SF-36 MCS||||0.18
92413419|NCT03595618|184716465|SUPERIORITY||Adjusted mean difference|-2.3|STANDARD_ERROR_OF_MEAN|2.5||0.682|TWO_SIDED|95.0|-7.1|2.6||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||2.6|-7.1|0.682
92413420|NCT03595618|184716465|SUPERIORITY||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|2.5||1|TWO_SIDED|95.0|-4.8|5.0||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||5.0|-4.8|1.000
92413421|NCT03595618|184716466|SUPERIORITY||Odds Ratio (OR)|1.05|STANDARD_ERROR_OF_MEAN|0.21||0.991|TWO_SIDED|95.0|0.7|1.58||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen.||1.58|0.70|0.991
92413422|NCT03595618|184716466|SUPERIORITY||Odds Ratio (OR)|0.95|STANDARD_ERROR_OF_MEAN|0.21||0.992|TWO_SIDED|95.0|0.64|1.43||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen.||1.43|0.64|0.992
92413423|NCT03595618|184716466|SUPERIORITY||Odds Ratio (OR)|0.82|STANDARD_ERROR_OF_MEAN|0.21||0.653|TWO_SIDED|95.0|0.55|1.23||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen.||1.23|0.55|0.653
92413424|NCT03595618|184716467|SUPERIORITY||Adjusted mean difference|0.03779|STANDARD_ERROR_OF_MEAN|0.02156||0.193|TWO_SIDED|95.0|-0.00448|0.08005||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||0.08005|-0.00448|0.193
92232120|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean dry mouth score from period 1 to period 3 between the two arms."|Difference in Change|-0.27||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dry mouth score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean dry mouth score from period 1 to period 3 between the two arms"||||0.08
92413425|NCT03595618|184716467|SUPERIORITY||Adjusted mean difference|0.0358|STANDARD_ERROR_OF_MEAN|0.02235||0.256|TWO_SIDED|95.0|-0.00801|0.07962||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||0.07962|-0.00801|0.256
92446311|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.045||0.3417|TWO_SIDED|95.0|-0.13|0.05|||MMRM|||Insight, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.13|0.3417
92232121|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean ringing in ear score from period 1 to period 3 between the two arms."|Difference in Change|-0.24||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in ringing in ear score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean ringing in ear score from period 1 to period 3 between the two arms"||||0.08
92278205|NCT01469364|184458472|SUPERIORITY_OR_OTHER||Median Absolute Difference|1.62||||0.09|TWO_SIDED||||||t-test, 2 sided|Paired Measure t-test||P-Value for SF-36 PCS||||0.09
92278206|NCT01469364|184458472|SUPERIORITY_OR_OTHER||Median Absolute Difference|-1.24||||0.31|TWO_SIDED||||||t-test, 2 sided|Paired Measure t-test||P-Value for SF-36 MCS||||0.31
92278207|NCT01469364|184458473|SUPERIORITY_OR_OTHER||Median Absolute Difference|0.82||||0.56|TWO_SIDED||||||t-test, 2 sided|Paired Measure t-test||P-Value for SGRQ measure||||0.56
92413426|NCT03595618|184716467|SUPERIORITY||Adjusted mean difference|0.03884|STANDARD_ERROR_OF_MEAN|0.02243||0.201|TWO_SIDED|95.0|-0.00514|0.08281||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||0.08281|-0.00514|0.201
92413427|NCT03595618|184716468|SUPERIORITY||Adjusted mean difference|3.12394|STANDARD_ERROR_OF_MEAN|3.13671||0.627|TWO_SIDED|95.0|-3.02464|9.27252||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: Placebo minus GLPG1972 dose regimen using an analysis of covariance (ANCOVA) including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||9.27252|-3.02464|0.627
92413428|NCT03595618|184716468|SUPERIORITY||Adjusted mean difference|0.46842|STANDARD_ERROR_OF_MEAN|3.21111||0.998|TWO_SIDED|95.0|-5.82659|6.76343||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: Placebo minus GLPG1972 dose regimen using an ANCOVA including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||6.76343|-5.82659|0.998
92413429|NCT03595618|184716468|SUPERIORITY||Adjusted mean difference|4.11756|STANDARD_ERROR_OF_MEAN|3.2759||0.449|TWO_SIDED|95.0|-2.30536|10.54049||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: Placebo minus GLPG1972 dose regimen using an ANCOVA including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||10.54049|-2.30536|0.449
92413430|NCT03595618|184716469|SUPERIORITY||Adjusted mean difference|2.84781|STANDARD_ERROR_OF_MEAN|3.75674||0.789|TWO_SIDED|95.0|-4.51643|10.21205||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||10.21205|-4.51643|0.789
92413431|NCT03595618|184716469|SUPERIORITY||Adjusted mean difference|-3.64759|STANDARD_ERROR_OF_MEAN|3.84747||0.661|TWO_SIDED|95.0|-11.19071|3.89553||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||3.89553|-11.19071|0.661
92413432|NCT03595618|184716469|SUPERIORITY||Adjusted mean difference|-2.55176|STANDARD_ERROR_OF_MEAN|3.81987||0.843|TWO_SIDED|95.0|-10.04053|4.93701||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||4.93701|-10.04053|0.843
92413433|NCT03595618|184716470|SUPERIORITY||Adjusted mean difference|0.0951|STANDARD_ERROR_OF_MEAN|0.0499||0.141|TWO_SIDED|95.0|-0.0028|0.1929||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using an ANCOVA including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||0.1929|-0.0028|0.141
92169254|NCT02528188|184227159|SUPERIORITY||LS Mean Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.09||0.5148|TWO_SIDED|95.0|0.89|1.26|||Negative binomial model|||Week 56: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.26|0.89|0.5148
92413434|NCT03595618|184716470|SUPERIORITY||Adjusted mean difference|0.0158|STANDARD_ERROR_OF_MEAN|0.0519||0.981|TWO_SIDED|95.0|-0.0861|0.1177||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using an ANCOVA including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||0.1177|-0.0861|0.981
92278208|NCT01469364|184458474|SUPERIORITY_OR_OTHER||Median Absolute Difference|0.15||||0.68|TWO_SIDED||||||t-test, 2 sided|Paired Measure t-test||P-Value for SGRQ Measure||||0.68
92413435|NCT03595618|184716470|SUPERIORITY||Adjusted mean difference|0.0753|STANDARD_ERROR_OF_MEAN|0.0529||0.349|TWO_SIDED|95.0|-0.0286|0.1792||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using an ANCOVA including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||0.1792|-0.0286|0.349
92232122|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean dry eyes score from period 1 to period 3 between the two arms."|Difference in Change|-0.24||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dry eyes score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean dry eyes score from period 1 to period 3 between the two arms"||||0.08
92413436|NCT02279407|184716474|SUPERIORITY_OR_OTHER||Geometric mean ratio for difference|0.83||||0.046|TWO_SIDED|95.0|0.7|1.0||Hypotheses tested using Dunnett's multiple testing procedure with a family-wise error rate of 5%, adjusting for 3 pairwise comparisons versus a single control (placebo).|Mixed Models Analysis|||||1.00|0.70|0.046
92413437|NCT02279407|184716475|SUPERIORITY_OR_OTHER||Geometric mean ratio for difference|0.91||||0.502|TWO_SIDED|95.0|0.75|1.11||Conditional upon rejection of at least 1 of the 3 hypotheses for the primary analysis, secondary hypotheses are tested using Tukey's multiple testing procedure with a family-wise error rate of 5%, adjusting for 3 pairwise comparisons.|Mixed Models Analysis|||||1.11|0.75|0.502
92413438|NCT02279407|184716475|SUPERIORITY_OR_OTHER||Geometric mean ratio for difference|0.91||||0.562|TWO_SIDED|95.0|0.73|1.13||Conditional upon rejection of at least 1 of the hypotheses for the primary analysis, secondary hypotheses are tested using Tukey's multiple testing procedure with a family-wise error rate of 5%, adjusting for 3 pairwise comparisons.|Mixed Models Analysis|||||1.13|0.73|0.562
92413439|NCT01323855|184716486|NON_INFERIORITY_OR_EQUIVALENCE|Geometric Mean Ratio (GMR) is contained within the interval \[0.50, 2.00\]|GMR|1.19|||||TWO_SIDED|90.0|0.54|2.62|||||Severe CRI/Healthy|||2.62|0.54|
92413440|NCT01323855|184716487|NON_INFERIORITY_OR_EQUIVALENCE|GMR is contained within the interval \[0.50, 2.00\]|GMR|1.3|||||TWO_SIDED|90.0|0.59|2.87|||||Moderate CRI/Healthy|||2.87|0.59|
92413441|NCT01323855|184716488|NON_INFERIORITY_OR_EQUIVALENCE|GMR is contained within the interval \[0.50, 2.00\]|GMR|2.63|||||TWO_SIDED|90.0|1.38|5.04|||||Mild CRI/Healthy|||5.04|1.38|
92413442|NCT03996369|184716489|SUPERIORITY||Risk Difference (RD)|9.69|||=|0.026|TWO_SIDED|95.0|1.14|18.23|||Cochran-Mantel-Haenszel|||Week 12||18.23|1.14|=0.026
92413443|NCT03996369|184716490|SUPERIORITY||Risk Difference (RD)|12.11|||=|0.009|TWO_SIDED|95.0|3.0|21.23|||Cochran-Mantel-Haenszel|||Week 12||21.23|3.00|=0.009
92413444|NCT03996369|184716491|SUPERIORITY||Risk Difference (RD)|17.48|||=|0.001|TWO_SIDED|95.0|6.81|28.15|||Cochran-Mantel-Haenszel|||Week 12||28.15|6.81|=0.001
92169255|NCT02528188|184227161|SUPERIORITY||LS Mean Ratio|0.87|STANDARD_ERROR_OF_MEAN|0.13||0.3348|TWO_SIDED|95.0|0.66|1.15|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.15|0.66|0.3348
92169256|NCT02528188|184227161|SUPERIORITY||LS Mean Ratio|0.88|STANDARD_ERROR_OF_MEAN|0.13||0.3595|TWO_SIDED|95.0|0.66|1.16|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.16|0.66|0.3595
92278209|NCT01469364|184458475|SUPERIORITY_OR_OTHER|||||||0.7454|TWO_SIDED||||||t-test, 2 sided|Paired t-test 2 sided.||||||0.7454
92413445|NCT03996369|184716492|SUPERIORITY||Risk Difference (RD)|7.44|||=|0.036|TWO_SIDED|95.0|0.5|14.39|||Cochran-Mantel-Haenszel|||Week 12||14.39|0.50|=0.036
92413446|NCT03996369|184716493|SUPERIORITY||Risk Difference (RD)|21.23|||<|0.001|TWO_SIDED|95.0|10.18|32.29|||Cochran-Mantel-Haenszel|||Week 12||32.29|10.18|<0.001
92278210|NCT01469364|184458476|SUPERIORITY_OR_OTHER|||||||0.9638|TWO_SIDED||||||t-test, 2 sided|Paired t-test was completed.||||||0.9638
92413447|NCT03996369|184716494|SUPERIORITY||Risk Difference (RD)|9.24|||=|0.009|TWO_SIDED|95.0|2.27|16.2|||Cochran-Mantel-Haenszel|||Week 12||16.20|2.27|=0.009
92413448|NCT03996369|184716495|SUPERIORITY||Risk Difference (RD)|5.85|||=|0.115|TWO_SIDED|95.0|-1.42|13.13|||Cochran-Mantel-Haenszel|||Week 2||13.13|-1.42|=0.115
92413449|NCT03996369|184716495|SUPERIORITY||Risk Difference (RD)|11.83|||=|0.007|TWO_SIDED|95.0|3.19|20.47|||Cochran-Mantel-Haenszel|||Week 4||20.47|3.19|=0.007
92413450|NCT03996369|184716495|SUPERIORITY||Risk Difference (RD)|14.84|||=|0.003|TWO_SIDED|95.0|4.98|24.69|||Cochran-Mantel-Haenszel|||Week 8||24.69|4.98|=0.003
92413451|NCT03996369|184716496|SUPERIORITY||Risk Difference (RD)|2.83|||=|0.128|TWO_SIDED|95.0|-0.81|6.48|||Cochran-Mantel-Haenszel|||Week 2||6.48|-0.81|=0.128
92413452|NCT03996369|184716496|SUPERIORITY||Risk Difference (RD)|8.32|||=|0.002|TWO_SIDED|95.0|3.01|13.64|||Cochran-Mantel-Haenszel|||Week 4||13.64|3.01|=0.002
92413453|NCT03996369|184716496|SUPERIORITY||Risk Difference (RD)|7.06|||=|0.032|TWO_SIDED|95.0|0.62|13.49|||Cochran-Mantel-Haenszel|||Week 8||13.49|0.62|=0.032
92413454|NCT03996369|184716496|SUPERIORITY||Risk Difference (RD)|9.18|||=|0.014|TWO_SIDED|95.0|1.82|16.54|||Cochran-Mantel-Haenszel|||Week 12||16.54|1.82|=0.014
92413455|NCT03996369|184716497|SUPERIORITY||Risk Difference (RD)|15.55|||=|0.002|TWO_SIDED|95.0|5.65|25.46|||Cochran-Mantel-Haenszel|||Week 2||25.46|5.65|=0.002
92413456|NCT03996369|184716497|SUPERIORITY||Risk Difference (RD)|14.98|||=|0.007|TWO_SIDED|95.0|4.05|25.91|||Cochran-Mantel-Haenszel|||Week 4||25.91|4.05|=0.007
92413457|NCT03996369|184716497|SUPERIORITY||Risk Difference (RD)|22.6|||<|0.001|TWO_SIDED|95.0|11.95|33.25|||Cochran-Mantel-Haenszel|||Week 8||33.25|11.95|<0.001
92232123|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean maintaining an erection score from period 1 to period 3 between the two arms."|Difference in Change|-0.13||||0.71|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in maintaining an erection score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean maintaining an erection score from period 1 to period 3 between the two arms"||||0.71
92380803|NCT04473664|184664792|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|51.5|||||TWO_SIDED|90.0|16.0|165.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUClast statistical comparison was analyzed for Quizartinib.||165|16.0|
92413458|NCT03996369|184716497|SUPERIORITY||Risk Difference (RD)|17.58|||=|0.002|TWO_SIDED|95.0|6.7|28.47|||Cochran-Mantel-Haenszel|||Week 12||28.47|6.70|=0.002
92413459|NCT03996369|184716498|SUPERIORITY||Risk Difference (RD)|15.99|||=|0.002|TWO_SIDED|95.0|6.07|25.91|||Cochran-Mantel-Haenszel|||Week 2||25.91|6.07|=0.002
92413460|NCT03996369|184716498|SUPERIORITY||Risk Difference (RD)|15.45|||=|0.006|TWO_SIDED|95.0|4.54|26.36|||Cochran-Mantel-Haenszel|||Week 4||26.36|4.54|=0.006
92413461|NCT03996369|184716498|SUPERIORITY||Risk Difference (RD)|22.14|||<|0.001|TWO_SIDED|95.0|11.43|32.85|||Cochran-Mantel-Haenszel|||Week 8||32.85|11.43|<0.001
92413462|NCT03996369|184716498|SUPERIORITY||Risk Difference (RD)|18.49|||<|0.001|TWO_SIDED|95.0|7.65|29.33|||Cochran-Mantel-Haenszel|||Week 12||29.33|7.65|<0.001
92280462|NCT00601484|184463633|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.721|||TWO_SIDED|90.0|-1.768|0.65||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.650|-1.768|
92380804|NCT04473664|184664792|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|51.5|||||TWO_SIDED|90.0|15.8|168.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUCinf statistical comparison was analyzed for Quizartinib.||168|15.8|
92380805|NCT01939366|184664796|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.37||0.0621|TWO_SIDED|95.0|-1.43|0.04||Due to the exploratory character of this trial, no multiple testing adjustment for control of the false positive rate was applied.|Mixed Models Analysis|The analysis consisted of the contrasts (mixed model Wald tests) of individual cebranopadol doses versus placebo during Week 6 of Maintenance Phase.||The mixed model repeated measurement (MMRM) model included fixed effects of pooled sites, treatment, week, treatment-by-week interaction, baseline pain, and a subject-specific random effect. The model was based on the weekly average 24-hour pain intensity of the 2 weeks in the Titration Phase and 6 weeks in the Maintenance Phase. An unstructured covariance matrix was used to model the covariance structure, denominator degrees of freedom were estimated using the Kenward-Roger approximation.||0.04|-1.43|0.0621
92413463|NCT01782469|184716500|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Mean percent reduction in ultrasonography assessment score at Vist 2 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.001
92413464|NCT01782469|184716500|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Mean percent reduction in ultrasonography assessment score at Vist 3 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.001
92413465|NCT01782469|184716500|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Mean percent reduction in ultrasonography assessment score at Vist 4 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||<0.001
92413466|NCT01782469|184716500|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Mean percent reduction in ultrasonography assessment score at Vist 5 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.001
92413467|NCT01782469|184716501|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED|||||Mean number of joints with erosions at Vist 2 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||.130
92413468|NCT01782469|184716501|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||Mean number of joints with erosions at Vist 3 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.031
92413469|NCT01782469|184716501|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||Mean number of joints with erosions at Vist 4 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.006
92413470|NCT01782469|184716501|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||Mean number of joints with erosions at Vist 5 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.003
92413471|NCT01960907|184716546|SUPERIORITY_OR_OTHER|||||||0.342|||||||Log Rank|||||||0.342
92413472|NCT01960907|184716547|SUPERIORITY_OR_OTHER|||||||0.915|||||||t-test, 2 sided|||||||0.915
92413473|NCT01960907|184716548|SUPERIORITY_OR_OTHER|||||||0.038|||||||Wilcoxon (Mann-Whitney)|||||||0.038
92413474|NCT00993226|184716562|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_DEVIATION|0.29||0.467|TWO_SIDED|95.0|-0.79|0.36|||t-test in ANOVA model|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||0.36|-0.79|0.467
92413475|NCT00993226|184716563|SUPERIORITY||LS Mean Difference|-2.51|STANDARD_DEVIATION|2.57||0.331|TWO_SIDED|95.0|-7.59|2.58|||t-test in ANOVA model|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||2.58|-7.59|0.331
92413476|NCT00783198|184716567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.76||||0.0039|TWO_SIDED|95.0|-2.95|-0.57|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.57|-2.95|0.0039
92413477|NCT00783198|184716567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.24||||0.0002|TWO_SIDED|95.0|-3.41|-1.07|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-1.07|-3.41|0.0002
92413478|NCT00783198|184716568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||0.032|TWO_SIDED|95.0|-2.08|-0.09|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.09|-2.08|0.0320
92413479|NCT00783198|184716568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.0003|TWO_SIDED|95.0|-2.78|-0.82|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.82|-2.78|0.0003
92413480|NCT00783198|184716569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.0472|TWO_SIDED|95.0|-1.54|-0.01|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.01|-1.54|0.0472
92232124|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean vomit score from period 1 to period 3 between the two arms."|Difference in Change|-0.11||||0.41|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in vomit score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean vomit score from period 1 to period 3 between the two arms"||||0.41
92232125|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean neuropathy score from period 1 to period 3 between the two arms."|Difference in Change|-0.08||||0.84|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in neuropathy score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean neuropathy score from period 1 to period 3 between the two arms"||||0.84
92280463|NCT00601484|184463633|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.21|STANDARD_ERROR_OF_MEAN|0.898|||TWO_SIDED|90.0|-2.723|0.297||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.297|-2.723|
92413481|NCT00783198|184716569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.0144|TWO_SIDED|95.0|-1.7|-0.19|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.19|-1.70|0.0144
92413482|NCT00783198|184716570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.1686|TWO_SIDED|95.0|-1.11|0.19|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.19|-1.11|0.1686
92413483|NCT00783198|184716570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.0125|TWO_SIDED|95.0|-1.46|-0.18|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.18|-1.46|0.0125
92413484|NCT00783198|184716571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98||||0.0039|TWO_SIDED|95.0|-1.65|-0.32|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.32|-1.65|0.0039
92413485|NCT00783198|184716571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.0001|TWO_SIDED|95.0|-1.95|-0.64|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.64|-1.95|0.0001
92413486|NCT00791817|184716572|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3897|||||TWO_SIDED|90.0|1.1998|1.6097||||Confidence Interval is on the Ratio of Fed to Fasted|Confidence Interval is on the Ratio of Fed to Fasted|values are Geometric Means and Confidence Intervals are on the Ratio of Fed to Fasted||1.6097|1.1998|
92413487|NCT04525885|184716584|SUPERIORITY|Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|Estimated Relative Reduction (%)|8.7||||0.713|TWO_SIDED|95.0|-30.51|70.03|||ANCOVA||Estimated relative reduction (ERR) relative to placebo was calculated by 100 (e\*\*DIFF -1), where e\*\*DIFF=exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.|||70.03|-30.51|0.713
92413488|NCT04525885|184716587|SUPERIORITY||Estimated Relative Reduction (%)|11.58||||0.628|TWO_SIDED|95.0|-28.68|74.57||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA||Estimated relative reduction (ERR) relative to placebo was calculated by 100 (e\*\*DIFF -1), where e\*\*DIFF=exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.|||74.57|-28.68|0.628
92413489|NCT04525885|184716588|SUPERIORITY||Odds Ratio (OR)|0.96||||0.917|TWO_SIDED|95.0|0.43|2.13||Comparison based on logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, baseline LCQ total score, and the interaction of baseline LCQ total score by visit as covariates.|Regression, Logistic|||||2.13|0.43|0.917
92413490|NCT04525885|184716589|SUPERIORITY||Odds Ratio (OR)|0.85||||0.687|TWO_SIDED|95.0|0.38|1.88||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, baseline 24-hour coughs per hour and the interaction of baseline 24-hour coughs per hour by visit as covariates.|Regression, Logistic|||||1.88|0.38|0.687
92413491|NCT04525885|184716590|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.49|2.49||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, baseline mean weekly CSD total score and the interaction of baseline mean weekly CSD total score by visit as covariates.||2.49|0.49|
92413492|NCT04525885|184716591|OTHER||Odds Ratio (OR)|1.93|||||TWO_SIDED|95.0|0.8|4.64||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, baseline mean weekly CSD total score, and the interaction of baseline mean weekly CSD total score by visit as covariates||4.64|0.80|
92413493|NCT04525885|184716592|OTHER|Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, baseline mean weekly VAS score, and the interaction of baseline mean weekly VAS score by visit as covariates.|Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.45|2.72||||||||2.72|0.45|
92413494|NCT03158285|184716594|SUPERIORITY||Difference in percentage|31.2|||<|0.001|TWO_SIDED|95.0|22.9|39.5|||Cochran-Mantel-Haenszel|||||39.5|22.9|< 0.001
92380806|NCT01939366|184664796|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.39||0.0564|TWO_SIDED|95.0|-1.5|0.02||Due to the exploratory character of this trial, no multiple testing adjustment for control of the false positive rate was applied.|Mixed Models Analysis|The analysis consisted of the contrasts (mixed model Wald tests) of individual cebranopadol doses versus placebo during Week 6 of Maintenance Phase.||The mixed model repeated measurement (MMRM) model included fixed effects of pooled sites, treatment, week, treatment-by-week interaction, baseline pain, and a subject-specific random effect. The model was based on the weekly average 24-hour pain intensity of the 2 weeks in the Titration Phase and 6 weeks in the Maintenance Phase. An unstructured covariance matrix was used to model the covariance structure, denominator degrees of freedom were estimated using the Kenward-Roger approximation.||0.02|-1.50|0.0564
92413495|NCT03158285|184716594|SUPERIORITY||Difference in percentage|30.8|||<|0.001|TWO_SIDED|95.0|22.4|39.1|||Cochran-Mantel-Haenszel|||||39.1|22.4|< 0.001
92380807|NCT01939366|184664796|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|0.41||0.0153|TWO_SIDED|95.0|-1.83|-0.2||Due to the exploratory character of this trial, no multiple testing adjustment for control of the false positive rate was applied.|Mixed Models Analysis|The analysis consisted of the contrasts (mixed model Wald tests) of individual cebranopadol doses versus placebo during Week 6 of Maintenance Phase.||The mixed model repeated measurement (MMRM) model included fixed effects of pooled sites, treatment, week, treatment-by-week interaction, baseline pain, and a subject-specific random effect. The model was based on the weekly average 24-hour pain intensity of the 2 weeks in the Titration Phase and 6 weeks in the Maintenance Phase. An unstructured covariance matrix was used to model the covariance structure, denominator degrees of freedom were estimated using the Kenward-Roger approximation.||-0.20|-1.83|0.0153
92380808|NCT02066415|184664820|SUPERIORITY|"A sequential testing procedure, specifically, the hierarchical gate-keeping procedures and Hochberg method, was used to maintain the 2-sided study-wise type I error at 0.05 between the 2 erenumab doses and the primary and secondary endpoints.~This comparison was tested at a 2-sided significance level of 0.04."|Difference in LS Means|-2.46|||<|0.001|TWO_SIDED|95.0|-3.52|-1.39|||Generalized linear mixed model|||The primary endpoint was analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||-1.39|-3.52|<0.001
92380809|NCT02066415|184664820|SUPERIORITY|"A sequential testing procedure, specifically, the hierarchical gate-keeping procedures and Hochberg method, was used to maintain the 2-sided study-wise type I error at 0.05 between the 2 erenumab doses and the primary and secondary endpoints.~This comparison was tested at a 2-sided significance level of 0.01."|Difference in LS Means|-2.45|||<|0.001|TWO_SIDED|95.0|-3.51|-1.38|||Generalized linear mixed model|||The primary endpoint was analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||-1.38|-3.51|<0.001
92380810|NCT02066415|184664821|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.04.|Odds Ratio (OR)|2.18|||<|0.001|TWO_SIDED|95.0|1.46|3.27|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel test after the missing data were imputed as non-response, stratified by stratification factors (region and medication overuse status).||3.27|1.46|<0.001
92413496|NCT03158285|184716595|SUPERIORITY||Least Square (LS) Mean difference|-0.2372|||<|0.001|TWO_SIDED|95.0|-0.321|-0.1534|||ANCOVA|||||-0.1534|-0.3210|< 0.001
92413497|NCT03158285|184716595|SUPERIORITY||LS Mean difference|-0.2704|||<|0.001|TWO_SIDED|95.0|-0.3544|-0.1864|||ANCOVA|||||-0.1864|-0.3544|< 0.001
92413498|NCT03158285|184716596|SUPERIORITY||Difference in percentage|17.2|||<|0.001||95.0|10.0|24.4||Nominal|Cochran-Mantel-Haenszel|||||24.4|10.0|< 0.001
92413499|NCT03158285|184716596|SUPERIORITY||Difference in percentage|18.8|||<|0.001|TWO_SIDED|95.0|11.5|26.1||Nominal|Cochran-Mantel-Haenszel|||||26.1|11.5|< 0.001
92413500|NCT03158285|184716597|SUPERIORITY||Difference in percentage|50.9|||<|0.001|TWO_SIDED|95.0|42.2|59.7|||Cochran-Mantel-Haenszel|||||59.7|42.2|<0.001
92413501|NCT03158285|184716597|SUPERIORITY||Difference in percentage|49.8|||<|0.001|TWO_SIDED|95.0|41.2|58.4|||Cochran-Mantel-Haenszel|||||58.4|41.2|< 0.001
92280464|NCT00601484|184463633|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.47|STANDARD_ERROR_OF_MEAN|1.311|||TWO_SIDED|90.0|-3.682|0.752||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.752|-3.682|
92413502|NCT03158285|184716598|SUPERIORITY||Difference in percentage|21.5|||<|0.001|TWO_SIDED|95.0|13.1|30.0||Nominal|Cochran-Mantel-Haenszel|||||30.0|13.1|< 0.001
92413503|NCT03158285|184716598|SUPERIORITY||Difference in percentage|22.2|||<|0.001|TWO_SIDED|95.0|13.7|30.7||Nominal|Cochran-Mantel-Haenszel|||||30.7|13.7|< 0.001
92413504|NCT03158285|184716599|SUPERIORITY||LS Mean difference|-0.43||||0.072|TWO_SIDED|95.0|-0.9|0.03|||ANCOVA|||||0.03|-0.90|0.072
92413505|NCT03158285|184716599|SUPERIORITY||LS Mean difference|-0.66||||0.011|TWO_SIDED|95.0|-1.13|-0.19|||ANCOVA|||||-0.19|-1.13|0.011
92413506|NCT03158285|184716600|SUPERIORITY||Difference in response rates|20.1||||0.03|TWO_SIDED|95.0|11.8|28.5|||Cochran-Mantel-Haenszel|||||28.5|11.8|0.030
92413507|NCT03158285|184716600|SUPERIORITY||Difference in response rates|14.6||||0.03|TWO_SIDED|95.0|6.4|22.7|||Cochran-Mantel-Haenszel|||||22.7|6.4|0.030
92413508|NCT03158285|184716601|SUPERIORITY||Difference in response rates|18.0||||0.03|TWO_SIDED|95.0|7.4|28.6|||Cochran-Mantel-Haenszel|||||28.6|7.4|0.030
92413509|NCT03158285|184716601|SUPERIORITY||Difference in response rates|21.3||||0.011|TWO_SIDED|95.0|10.5|32.0|||Cochran-Mantel-Haenszel|||||32.0|10.5|0.011
92413510|NCT03158285|184716602|SUPERIORITY||LS Mean Difference|-0.5|||<|0.001|TWO_SIDED|95.0|-0.77|-0.23||Nominal|ANCOVA|||||-0.23|-0.77|< 0.001
92232126|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean urination score from period 1 to period 3 between the two arms."|Difference in Change|-0.07||||0.71|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in urination score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean urination score from period 1 to period 3 between the two arms"||||0.71
92280465|NCT00601484|184463633|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.54|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|90.0|-1.11|2.198||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.198|-1.110|
92380811|NCT02066415|184664821|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.01.|Odds Ratio (OR)|2.34|||<|0.001|TWO_SIDED|95.0|1.56|3.51|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel test after the missing data were imputed as non-response, stratified by stratification factors (region and medication overuse status).||3.51|1.56|<0.001
92413511|NCT03158285|184716602|SUPERIORITY||LS Mean Difference|-0.57|||<|0.001|TWO_SIDED|95.0|-0.83|-0.31||Nominal|ANCOVA|||||-0.31|-0.83|< 0.001
92380812|NCT02066415|184664822|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.04.|Difference in LS Means|-1.86|||<|0.001|TWO_SIDED|95.0|-2.6|-1.13|||Generalized linear mixed model|||Analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||-1.13|-2.60|<0.001
92380813|NCT02066415|184664822|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.01.|Difference in LS Means|-2.55|||<|0.001|TWO_SIDED|95.0|-3.28|-1.82|||Generalized linear mixed model|||Analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||-1.82|-3.28|<0.001
92380814|NCT02066415|184664823|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.04.|Difference in LS Means|-9.54||||0.28|TWO_SIDED|95.0|-26.98|7.9|||Generalized linear mixed model|||Analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||7.90|-26.98|0.28
92380815|NCT02066415|184664823|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.01.|Difference in LS Means|-19.31||||0.03|TWO_SIDED|95.0|-36.71|-1.92|||Generalized linear mixed model|||Analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||-1.92|-36.71|0.030
92380816|NCT00530920|184664856|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.43||||0.997|||||||Wilcoxon (Mann-Whitney)|||NULL HYPOTHESIS (H0): Median viral load reduction from baseline \>1.2 log10 copies/mL within each group||||0.997
92380817|NCT00530920|184664856|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.55||||1|||||||Wilcoxon (Mann-Whitney)|||NULL HYPOTHESIS (H0): Median viral load reduction from baseline \>1.2 log10 copies/mL within each group||||1
92232127|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean appetite change score from period 1 to period 3 between the two arms."|Difference in Change|-0.05||||0.88|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in appetite change score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean appetite change score from period 1 to period 3 between the two arms"||||0.88
92380818|NCT00530920|184664856|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.47||||0.998|||||||Wilcoxon (Mann-Whitney)|||NULL HYPOTHESIS (H0): Median viral load reduction from baseline \>1.2 log10 copies/mL within each group||||0.998
92413512|NCT03158285|184716603|SUPERIORITY||LS Mean Difference|-1.89|||<|0.001|TWO_SIDED|95.0|-2.99|-0.79||Nominal|ANCOVA|||||-0.79|-2.99|< 0.001
92380819|NCT01177969|184664880|SUPERIORITY_OR_OTHER|||||||0.04||||||This analysis applies to the post-treatment assessment (16 weeks after baseline)|ANCOVA|||||||.04
92380820|NCT01177969|184664881|SUPERIORITY_OR_OTHER|||||||0.25||||||This analysis applies to the post-treatment assessment (16 weeks after baseline)|ANCOVA|||||||.25
92380821|NCT04468074|184664904|SUPERIORITY||Mean Difference (Net)|1.0||||0.014|TWO_SIDED||||||Mixed Models Analysis|||||||0.014
92380822|NCT04468074|184664905|SUPERIORITY||Mean Difference (Net)|2.79||||0.0159|TWO_SIDED||||||Mixed Models Analysis|||||||0.0159
92380823|NCT04468074|184664906|SUPERIORITY||Median Difference (Net)|-3.85||||0.0066|TWO_SIDED||||||Mixed Models Analysis|||||||0.0066
92380824|NCT03995355|184664955|NON_INFERIORITY|Subjective overall comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least square mean difference|11.3|STANDARD_ERROR_OF_MEAN|4.44|||TWO_SIDED|95.0|2.6|20.1|||Linear Mixed Model Analysis||Least square mean difference was calculated as Test minus Control|||20.1|2.6|
92380825|NCT03995355|184664956|NON_INFERIORITY|Subjective overall comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least square mean difference|2.6|STANDARD_ERROR_OF_MEAN|3.97|||TWO_SIDED|95.0|-5.3|10.4|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Least square mean difference was calculated as Test minus Control|||10.4|-5.3|
92380826|NCT03995355|184664957|OTHER||Odds Ratio (OR)|0.967|||||TWO_SIDED|95.0|0.528|1.77|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control. No difference was concluded if 1 fall within the 95% confidence interval for the odds ratio.|||1.770|0.528|
92413513|NCT03158285|184716603|SUPERIORITY||LS Mean Difference|-1.77||||0.002|TWO_SIDED|95.0|-2.87|-0.66||Nominal|ANCOVA|||||-0.66|-2.87|0.002
92413514|NCT03158285|184716604|SUPERIORITY||LS Mean difference|3.97||||0.011|TWO_SIDED|95.0|2.75|5.2|||ANCOVA|||||5.20|2.75|0.011
92413515|NCT03158285|184716604|SUPERIORITY||LS Mean difference|3.62||||0.011|TWO_SIDED|95.0|2.39|4.85|||ANCOVA|||||4.85|2.39|0.011
92380827|NCT03995355|184664957|OTHER||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.61|2.203|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control. No difference was concluded if 1 fall within the 95% confidence interval for the odds ratio.|30-Day follow-up||2.203|0.610|
92380828|NCT03995355|184664958|OTHER||Odds Ratio (OR)|1.601|||||TWO_SIDED|95.0|0.178|19.616|||Fisher Exact||Odds ratio was calculated as Test over Control|||19.616|0.178|
92380829|NCT03995355|184664959|OTHER||Mean Difference (Net)|8.0|STANDARD_ERROR_OF_MEAN|3.73|||TWO_SIDED|95.0|0.7|15.4|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Least square mean difference was calculated as Test minus Control|||15.4|0.7|
92380830|NCT03995355|184664960|OTHER||Mean Difference (Net)|9.3|STANDARD_ERROR_OF_MEAN|3.86|||TWO_SIDED|95.0|1.7|17.0|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Least square mean difference was calculated as Test minus Control|||17.0|1.7|
92380831|NCT00343382|184664970|SUPERIORITY_OR_OTHER|||||||0.1675|||||||Kruskal-Wallis|||||||0.1675
92380832|NCT00343382|184664970|SUPERIORITY_OR_OTHER|||||||0.5974|||||||Kruskal-Wallis|||||||0.5974
92380833|NCT00343382|184664971|SUPERIORITY_OR_OTHER|||||||0.002|||||||Kruskal-Wallis|||Comparison of Rigors among arms.||||0.002
92380834|NCT00343382|184664971|SUPERIORITY_OR_OTHER|||||||0.006|||||||Kruskal-Wallis|||Comparison of Urinary Frequency among arms||||0.006
92380835|NCT00343382|184664971|SUPERIORITY_OR_OTHER|||||||0.03|||||||Kruskal-Wallis|||Comparison of nausea among arms||||0.030
92380836|NCT00343382|184664971|SUPERIORITY_OR_OTHER|||||||0.062|||||||Kruskal-Wallis|||Comparison of sweating among arms||||0.062
92380837|NCT03945019|184664974|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified by Previous biologic agent and/or JAK inhibitors exposure, Use of oral corticosteroids treatment at Week 0, Clinical remission at Week 10.||||||<0.0001
92380838|NCT03945019|184664975|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified by Previous biologic agent and/or JAK inhibitors exposure, Use of oral corticosteroids treatment at Week 0, Clinical remission at Week 10.||||||<0.0001
92380839|NCT00424268|184664988|SUPERIORITY_OR_OTHER||Mean Difference (Net)|80.0|STANDARD_ERROR_OF_MEAN|15.0|<|0.0001|TWO_SIDED|95.0|51.0|110.0||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||110|51|<0.0001
92380840|NCT00424268|184664989|SUPERIORITY_OR_OTHER||Mean Difference (Net)|81.0|STANDARD_ERROR_OF_MEAN|15.0|<|0.0001|TWO_SIDED|95.0|51.0|110.0||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||110|51|<0.0001
92413516|NCT03158285|184716605|SUPERIORITY||LS Mean difference|-0.61|||<|0.001|TWO_SIDED|95.0|-0.8|-0.43||Nominal|ANCOVA|||||-0.43|-0.80|< 0.001
92380841|NCT00424268|184664990|SUPERIORITY_OR_OTHER||Rate ratio|0.768|STANDARD_ERROR_OF_MEAN|0.157||0.1957|TWO_SIDED|95.0|0.515|1.146||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|Poisson regression|||||1.146|0.515|0.1957
92380842|NCT00424268|184664991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0032|TWO_SIDED|95.0|0.1|0.7||This secondary endpoint was analyzed in an exploratory manner.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||0.7|0.1|0.0032
92380843|NCT00424268|184664992|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|0.9||0.0051|TWO_SIDED|95.0|-4.5|-0.8||This secondary endpoint was analyzed in an exploratory manner.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||-0.8|-4.5|0.0051
92380844|NCT03002454|184664993|EQUIVALENCE|"Control: 99mTc MDP Injection:fission Investigation: 99mTc MDP Injection:neutron-bombardment~Anticipated sample size of 50 participants with sample size parameters of:~Alpha 0.05 Power 80% Kappa of significance 0.7 - 0.8 Prevalence of abnormal bone scans 30%~Actual study population of 4 participants with 4 out of 4 demonstrating gross abnormal biodistribution therefore the study was terminated and no statistical analysis was conducted."|||||||||||||||||No statistical analysis - insufficient study population|||
92380845|NCT02299076|184665039|SUPERIORITY|Welch Two Sample t-test|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92380846|NCT00162266|184665041|SUPERIORITY_OR_OTHER||Point Estimate of Difference|25.6|||<|0.001|TWO_SIDED|95.0|12.8|38.4|||Chi-squared|||||38.4|12.8|<0.001
92380847|NCT00162266|184665041|SUPERIORITY_OR_OTHER||Point Estimate of Difference|6.6||||0.31|TWO_SIDED|95.0|-6.2|19.4|||Chi-squared|||||19.4|-6.2|0.31
92380848|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|5.9||||0.283|TWO_SIDED|95.0|-4.9|16.7|||Chi-squared|||Response on Day 15||16.7|-4.9|0.283
92380849|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-11.6||||0.015|TWO_SIDED|95.0|-20.9|-2.3|||Chi-squared|||Response on Day 15||-2.3|-20.9|0.015
92380850|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|11.5||||0.067|TWO_SIDED|95.0|-0.8|23.8|||Chi-squared|||Response on Day 30||23.8|-0.8|0.067
92380851|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-9.3||||0.113|TWO_SIDED|95.0|-20.8|2.2|||Chi-squared|||Response on Day 30||2.2|-20.8|0.113
92380852|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|22.1|||<|0.001|TWO_SIDED|95.0|9.3|34.8|||Chi-squared|||Response on Day 60||34.8|9.3|<0.001
92380853|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-1.1||||0.86|TWO_SIDED|95.0|-13.5|11.3|||Chi-squared|||Response on Day 60||11.3|-13.5|0.86
92380854|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|18.6||||0.004|TWO_SIDED|95.0|5.9|31.4|||Chi-squared|||Response on Day 90||31.4|5.9|0.004
92380855|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.8||||0.664|TWO_SIDED|95.0|-9.8|15.4|||Chi-squared|||Response on Day 90||15.4|-9.8|0.664
92380856|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|23.9|||<|0.001|TWO_SIDED|95.0|11.1|36.7|||Chi-squared|||Response on Day 120||36.7|11.1|<0.001
92380857|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|6.9||||0.292|TWO_SIDED|95.0|-6.0|19.9|||Chi-squared|||Response on Day 120||19.9|-6.0|0.292
92413517|NCT03158285|184716605|SUPERIORITY||LS Mean difference|-0.65|||<|0.001|TWO_SIDED|95.0|-0.83|-0.47||Nominal|ANCOVA|||||-0.47|-0.83|< 0.001
92380858|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|23.0|||<|0.001|TWO_SIDED|95.0|10.2|35.8|||Chi-squared|||Response on Day 150||35.8|10.2|<0.001
92380859|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|8.5||||0.193|TWO_SIDED|95.0|-4.3|21.3|||Chi-squared|||Response on Day 150||21.3|-4.3|0.193
92380860|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|25.6|||<|0.001|TWO_SIDED|95.0|12.8|38.4|||Chi-squared|||Response on Day 180||38.4|12.8|<0.001
92380861|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|6.6||||0.31||95.0|-6.2|19.4|||Chi-squared|||Response on Day 180||19.4|-6.2|0.31
92380862|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|27.3|||<|0.001|TWO_SIDED|95.0|14.5|40.1|||Chi-squared|||Response on Day 240||40.1|14.5|<0.001
92380863|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|5.7||||0.384|TWO_SIDED|95.0|-7.1|18.4|||Chi-squared|||Response on Day 240||18.4|-7.1|0.384
92380864|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|29.0|||<|0.001|TWO_SIDED|95.0|16.2|41.8|||Chi-squared|||Response on Day 300||41.8|16.2|<0.001
92380865|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|4.6||||0.476|TWO_SIDED|95.0|-8.0|17.2|||Chi-squared|||Response on Day 300||17.2|-8.0|0.476
92380866|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|26.5|||<|0.001|TWO_SIDED|95.0|13.7|39.3|||Chi-squared|||Response on Day 360||39.3|13.7|<0.001
92380867|NCT00162266|184665042|SUPERIORITY_OR_OTHER||Point Estimate of Difference|5.8||||0.377|TWO_SIDED|95.0|-7.0|18.6|||Chi-squared|||Response on Day 360||18.6|-7.0|0.377
92380868|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-0.8||||0.679|TWO_SIDED|95.0|-4.5|2.9|||Chi-squared|||Response on Day 15||2.9|-4.5|0.679
92380869|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-2.5||||0.101|TWO_SIDED|95.0|-5.5|0.5|||Chi-squared|||Response on Day 15||0.5|-5.5|0.101
92380870|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|8.0||||0.039|TWO_SIDED|95.0|0.4|15.7|||Chi-squared|||Response on Day 30||15.7|0.4|0.039
92380871|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-2.1||||0.474|TWO_SIDED|95.0|-7.7|3.6|||Chi-squared|||Response on Day 30||3.6|-7.7|0.474
92380872|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|6.6||||0.192|TWO_SIDED|95.0|-3.3|16.5|||Chi-squared|||Response on Day 60||16.5|-3.3|0.192
92380873|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-1.8||||0.702|TWO_SIDED|95.0|-11.0|7.4|||Chi-squared|||Response on Day 60||7.4|-11.0|0.702
92380874|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|11.7||||0.02|TWO_SIDED|95.0|1.8|21.7|||Chi-squared|||Response on Day 90||21.7|1.8|0.02
92380875|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|4.5||||0.339|TWO_SIDED|95.0|-4.8|13.8|||Chi-squared|||Response on Day 90||13.8|-4.8|0.339
92380876|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|17.9||||0.001|TWO_SIDED|95.0|7.0|28.9|||Chi-squared|||Response on Day 120||28.9|7.0|0.001
92380877|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.0||||0.682|TWO_SIDED|95.0|-7.6|11.7|||Chi-squared|||Response on Day 120||11.7|-7.6|0.682
92380878|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|20.6|||<|0.001|TWO_SIDED|95.0|9.3|31.8|||Chi-squared|||Response on Day 150||31.8|9.3|<0.001
92380879|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|1.2||||0.813|TWO_SIDED|95.0|-8.6|10.9|||Chi-squared|||Response on Day 150||10.9|-8.6|0.813
92380880|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|24.8|||<|0.001|TWO_SIDED|95.0|13.8|35.7|||Chi-squared|||Response on Day 180||35.7|13.8|<0.001
92380881|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|11.1||||0.027|TWO_SIDED|95.0|1.2|20.9|||Chi-squared|||Response on Day 180||20.9|1.2|0.027
92380882|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|15.5||||0.008|TWO_SIDED|95.0|4.0|27.0|||Chi-squared|||Response on Day 240||27.0|4.0|0.008
92380883|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|0.8||||0.885|TWO_SIDED|95.0|-9.8|11.4|||Chi-squared|||Response on Day 240||11.4|-9.8|0.885
92380884|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|24.0|||<|0.001|TWO_SIDED|95.0|12.6|35.4|||Chi-squared|||Response on Day 300||35.4|12.6|<0.001
92380885|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|6.8||||0.19|TWO_SIDED|95.0|-3.4|16.9|||Chi-squared|||Response on Day 300||16.9|-3.4|0.19
92380886|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|21.6|||<|0.001|TWO_SIDED|95.0|9.7|33.4|||Chi-squared|||Response on Day 360||33.4|9.7|<0.001
92380887|NCT00162266|184665043|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.7||||0.625|TWO_SIDED|95.0|-8.1|13.5|||Chi-squared|||Response on Day 360||13.5|-8.1|0.625
92380888|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|3.5||||0.04||95.0|0.2|6.8|||Chi-squared|||Response on Day 30||6.8|0.2|0.04
92380889|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.9||||0.063|TWO_SIDED|95.0|-0.2|5.9|||Chi-squared|||Response on Day 30||5.9|-0.2|0.063
92380890|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|8.7||||0.001|TWO_SIDED|95.0|3.5|13.9|||Chi-squared|||Response on Day 60||13.9|3.5|0.001
92380891|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|3.8||||0.032|TWO_SIDED|95.0|0.3|7.3|||Chi-squared|||Response on Day 60||7.3|0.3|0.032
92380892|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|7.9||||0.005|TWO_SIDED|95.0|2.4|13.3|||Chi-squared|||Response on Day 90||13.3|2.4|0.005
92380893|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|3.9||||0.07|TWO_SIDED|95.0|-0.3|8.2|||Chi-squared|||Response on Day 90||8.2|-0.3|0.07
92380894|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|9.7||||0.007|TWO_SIDED|95.0|2.7|16.7|||Chi-squared|||Response on Day 120||16.7|2.7|0.007
92380895|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.4||||0.395||95.0|-3.1|7.8|||Chi-squared|||||7.8|-3.1|0.395
92380896|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|10.6||||0.004|TWO_SIDED|95.0|3.4|17.7|||Chi-squared|||Response on Day 150||17.7|3.4|0.004
92380897|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.4||||0.395|TWO_SIDED|95.0|-3.1|7.8|||Chi-squared|||Response on Day 150||7.8|-3.1|0.395
92380898|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|14.8|||<|0.001|TWO_SIDED|95.0|7.5|22.2|||Chi-squared|||Response on Day 180||22.2|7.5|<0.001
92380899|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|8.8||||0.005|TWO_SIDED|95.0|2.7|14.9|||Chi-squared|||Response on Day 180||14.9|2.7|0.005
92380900|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|13.2||||0.002|TWO_SIDED|95.0|5.0|21.4|||Chi-squared|||Response on Day 240||21.4|5.0|0.002
92380901|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|3.5||||0.292|TWO_SIDED|95.0|-3.0|10.1|||Chi-squared|||Response on Day 240||10.1|-3.0|0.292
92380902|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|21.0|||<|0.001|TWO_SIDED|95.0|12.4|29.5|||Chi-squared|||Response on Day 300||29.5|12.4|<0.001
92380903|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|8.0||||0.014|TWO_SIDED|95.0|1.6|14.3|||Chi-squared|||Response on Day 300||14.3|1.6|0.014
92380904|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|13.3||||0.003|TWO_SIDED|95.0|4.4|22.2|||Chi-squared|||Response on Day 360||22.2|4.4|0.003
92380905|NCT00162266|184665044|SUPERIORITY_OR_OTHER||Point Estimate of Difference|4.8||||0.227|TWO_SIDED|95.0|-3.0|12.6|||Chi-squared|||Response on Day 360||12.6|-3.0|0.227
92380906|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.02||||0.2676|TWO_SIDED|95.0|-1.56|5.61|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 15 Treatment Comparison||5.61|-1.56|0.2676
92380907|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.0418|TWO_SIDED|95.0|-7.46|-0.14|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 15 Treatment Comparison||-0.14|-7.46|0.0418
92380908|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.25||||0.0061|TWO_SIDED|95.0|2.08|12.41|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 30 Treatment Comparison||12.41|2.08|0.0061
92380909|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.6713|TWO_SIDED|95.0|-6.45|4.16||ANOVA model: AUC = treatment|ANOVA||Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 30 Treatment Comparison||4.16|-6.45|0.6713
92380910|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.75||||0.0002|TWO_SIDED|95.0|5.67|17.84|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 60 Treatment Comparison||17.84|5.67|0.0002
92380911|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.8495|TWO_SIDED|95.0|-5.62|6.82|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 60 Treatment Comparison||6.82|-5.62|0.8495
92380912|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.1||||0.0003|TWO_SIDED|95.0|5.63|18.56|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 90 Treatment Comparison||18.56|5.63|0.0003
92380913|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.19||||0.0003|TWO_SIDED|95.0|-2.44|10.81|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 90 Treatment Comparison||10.81|-2.44|0.0003
92380914|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.54||||0.0001|TWO_SIDED|95.0|7.28|21.81|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 120 Treatment Comparison||21.81|7.28|0.0001
92380915|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6||||0.3141|TWO_SIDED|95.0|-3.43|10.64|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 120 Treatment Comparison||10.64|-3.43|0.3141
92169257|NCT02528188|184227161|SUPERIORITY||LS Mean Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.13||0.0854|TWO_SIDED|95.0|0.54|1.04|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.04|0.54|0.0854
92380916|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.96||||0.0001|TWO_SIDED|95.0|8.49|25.43|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 150 Treatment Comparison||25.43|8.49|0.0001
92380917|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.32||||0.3552|TWO_SIDED|95.0|-3.73|10.37|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 150 Treatment Comparison||10.37|-3.73|0.3552
92380918|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.36||||0.0001|TWO_SIDED|95.0|10.19|30.54|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 180 Treatment Comparison||30.54|10.19|0.0001
92380919|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.38||||0.0451|TWO_SIDED|95.0|0.16|14.6|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 180 Treatment Comparison||14.60|0.16|0.0451
92380920|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.63||||0.0001|TWO_SIDED|95.0|8.83|26.44|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 240 Treatment Comparison||26.44|8.83|0.0001
92380921|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.78||||0.4669|TWO_SIDED|95.0|-4.73|10.28|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 240 Treatment Comparison||10.28|-4.73|0.4669
92380922|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.0||||0.0001|TWO_SIDED|95.0|10.51|31.48|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 300 Treatment Comparison||31.48|10.51|0.0001
92380923|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.13||||3.13|TWO_SIDED|95.0|-4.15|10.41|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 300 Treatment Comparison||10.41|-4.15|3.13
92380924|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.38||||0.0001|TWO_SIDED|95.0|10.2|30.56|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 360 Treatment Comparison||30.56|10.20|0.0001
92380925|NCT00162266|184665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.06||||0.2989|TWO_SIDED|95.0|-3.61|11.72|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 360 Treatment Comparison||11.72|-3.61|0.2989
92380926|NCT00162266|184665046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2132.63||||0.0001|TWO_SIDED|95.0|1067.32|3197.94||ANOVA model: AUC = treatment|ANOVA||Estimate = Model AUC for Aripiprazole+MTX - Model AUC for PLACEBO+MTX|Comparison at Day 180||3197.94|1067.32|0.0001
92380927|NCT00162266|184665046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|353.47||||0.4393|TWO_SIDED|95.0|-544.46|1251.41||ANOVA model: AUC = treatment|ANOVA||Estimate = Model AUC for Aripiprazole+MTX - Model AUC for PLACEBO+MTX|Comparison at Day 180||1251.41|-544.46|0.4393
92380928|NCT00162266|184665046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5641.6||||0.0001|TWO_SIDED|95.0|2823.46|8459.74||ANOVA model: AUC = treatment|ANOVA||Estimate = Model AUC for Aripiprazole+MTX - Model AUC for PLACEBO+MTX|Comparison at Day 360||8459.74|2823.46|0.0001
92380929|NCT00162266|184665046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1054.38||||0.3029|TWO_SIDED|95.0|-955.59|3064.35||ANOVA model: AUC = treatment|ANOVA||Estimate = Model AUC for Aripiprazole+MTX - Model AUC for PLACEBO+MTX|Comparison at Day 360||3064.35|-955.59|0.3029
92380930|NCT00162266|184665050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.66||||0.0003|TWO_SIDED|95.0|12.67|42.66|||ANCOVA|ANCOVA: % change = pretreatment|Estimate = adjusted % change (BMS10mg/kg+MTX or BMS 2mg/kg+MTX) - adjusted change for placebo+MTX|Day 180||42.66|12.67|0.0003
92380931|NCT00162266|184665050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.68||||0.3253|TWO_SIDED|95.0|||||ANCOVA|ANCOVA model: % change = pretreatment|Estimate = adjusted % change (BMS10mg/kg+MTX or BMS 2mg/kg+MTX) - adjusted change for placebo+MTX|Day 180||||0.3253
92413518|NCT03158285|184716606|SUPERIORITY||LS Mean difference|2.02||||0.072|TWO_SIDED|95.0|0.56|3.49|||ANCOVA|||||3.49|0.56|0.072
92232128|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean shortness of breath score from period 1 to period 3 between the two arms."|Difference in Change|-0.03||||0.93|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in shortness of breath score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean shortness of breath score from period 1 to period 3 between the two arms"||||0.93
92232129|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean difficulty remembering score from period 1 to period 3 between the two arms."|Difference in Change|-0.03||||0.93|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty remembering score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean difficulty remembering score from period 1 to period 3 between the two arms"||||0.93
92380932|NCT00162266|184665050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.24||||0.0001|TWO_SIDED|95.0|16.14|48.33|||ANCOVA|ANCOVA model: % change = pretreatment|Estimate = adjusted % change (BMS10mg/kg+MTX or BMS 2mg/kg+MTX) - adjusted change for placebo+MTX|Day 360||48.33|16.14|0.0001
92380933|NCT00162266|184665050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.48||||0.0869|TWO_SIDED|95.0|-1.82|26.78|||ANCOVA|ANCOVA model: % change = pretreatment|Estimate = adjusted % change (BMS10mg/kg+MTX or BMS 2mg/kg+MTX) - adjusted change for placebo+MTX|Day 360||26.78|-1.82|0.0869
92380934|NCT03907033|184665164|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm for Hydrocodone use||||1.000
92380935|NCT03907033|184665164|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm for Oxycodone use||||0.010
92380936|NCT03907033|184665165|SUPERIORITY|||||||0.248|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm for Ibuprofen use||||0.248
92380937|NCT03907033|184665165|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm for Tylenol use||||1.000
92380938|NCT03907033|184665167|SUPERIORITY|||||||0.846|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm 24 hours post-surgery||||0.846
92380939|NCT03907033|184665167|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm 48 hours post-surgery||||0.490
92380940|NCT03907033|184665167|SUPERIORITY|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm 72 hours post-surgery||||0.564
92380941|NCT03907033|184665168|SUPERIORITY|||||||0.264|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine arm at 24 hours post-surgery||||0.264
92380942|NCT03907033|184665168|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine arm at 48 hours post-surgery||||0.970
92380943|NCT03907033|184665168|SUPERIORITY|||||||0.536|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine arm at 72 hours post-surgery||||0.536
92380944|NCT03907033|184665169|SUPERIORITY|||||||0.957|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm at 24 hours post-surgery||||0.957
92380945|NCT03907033|184665169|SUPERIORITY|||||||0.353|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm at 48 hours post-surgery||||0.353
92413519|NCT03158285|184716606|SUPERIORITY||LS Mean difference|2.07||||0.072|TWO_SIDED|95.0|0.6|3.54|||ANCOVA|||||3.54|0.60|0.072
92413520|NCT03158285|184716607|SUPERIORITY||Difference in percentage|19.3|||<|0.001|TWO_SIDED|95.0|12.6|25.9||Nominal|Cochran-Mantel-Haenszel|||||25.9|12.6|< 0.001
92380946|NCT03907033|184665169|SUPERIORITY|||||||0.165|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm at 72 hours post-surgery||||0.165
92380947|NCT03907033|184665171|SUPERIORITY|||||||0.802|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm at 72 hours post-surgery||||0.802
92380948|NCT03907033|184665171|SUPERIORITY|||||||0.656|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm at 7-10 days post-surgery||||0.656
92380949|NCT02020408|184665175|SUPERIORITY||||||>|0.05||||||The p value was calculated and adjusted for multiple comparisons (Bonferroni).|ANOVA|||||||> 0.05
92380950|NCT02020408|184665176|SUPERIORITY||||||<|0.05||||||The p value was calculated and adjusted for multiple comparisons (Bonferroni).|General Linear Model|||A General Linear Model using log(\[11C\]raclopride BPND) after amphetamine administration as dependent variable and Diagnostic Group as independent variable was used. Baseline (before amphetamine administration) \[11C\]raclopride BPND was used as covariate.||||<0.05
92380951|NCT03242252|184665294|SUPERIORITY||Difference in Least Squares (LS) Means|-0.1|STANDARD_ERROR_OF_MEAN|0.076||0.2095|TWO_SIDED|95.0|-0.245|0.054|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of Chronic Kidney Disease (CKD) stage (3A, 3B) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.054|-0.245|0.2095
92380952|NCT03242252|184665294|SUPERIORITY||Difference in LS Means|-0.24|STANDARD_ERROR_OF_MEAN|0.077||0.0021|TWO_SIDED|95.0|-0.386|-0.085|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.085|-0.386|0.0021
92380953|NCT03242252|184665295|SUPERIORITY||Difference in LS Means|-0.587|STANDARD_ERROR_OF_MEAN|0.2397||0.0144|TWO_SIDED|95.0|-1.0564|-0.1169|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, and country as fixed effects, and baseline FPG as a covariate.||-0.1169|-1.0564|0.0144
92380954|NCT03242252|184665295|SUPERIORITY||Difference in LS Means|-0.478|STANDARD_ERROR_OF_MEAN|0.2368||0.0436|TWO_SIDED|95.0|-0.942|-0.0136|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, and country as fixed effects, and baseline FPG as a covariate.||-0.0136|-0.942|0.0436
92380955|NCT03242252|184665296|SUPERIORITY||Difference in LS Means|-2.28|STANDARD_ERROR_OF_MEAN|2.034||0.2627|TWO_SIDED|95.0|-6.265|1.709|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization stratum of CKD stage (3A, 3B) at screening, and country as fixed effects, and baseline SBP as a covariate.||1.709|-6.265|0.2627
92380956|NCT03242252|184665296|SUPERIORITY||Difference in LS Means|-2.53|STANDARD_ERROR_OF_MEAN|1.799||0.1602|TWO_SIDED|95.0|-6.052|1.0|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization stratum of CKD stage (3A, 3B) at screening, and country as fixed effects, and baseline SBP as a covariate.||1|-6.052|0.1602
92380957|NCT03242252|184665297|SUPERIORITY||Difference in LS Means|-1.59|STANDARD_ERROR_OF_MEAN|1.301||0.2212|TWO_SIDED|95.0|-4.142|0.958|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and baseline SBP as a covariate.||0.958|-4.142|0.2212
92380958|NCT03242252|184665297|SUPERIORITY||Difference in LS Means|-1.63|STANDARD_ERROR_OF_MEAN|1.297||0.2089|TWO_SIDED|95.0|-4.171|0.912|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and baseline SBP as a covariate.||0.912|-4.171|0.2089
92380959|NCT03242252|184665298|SUPERIORITY||Difference in LS Means|-1.28|STANDARD_ERROR_OF_MEAN|0.326|<|0.0001|TWO_SIDED|95.0|-1.92|-0.644|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and baseline body weight as a covariate.||-0.644|-1.92|< 0.0001
92380960|NCT03242252|184665298|SUPERIORITY||Difference in LS Means|-0.82|STANDARD_ERROR_OF_MEAN|0.339||0.0155|TWO_SIDED|95.0|-1.487|-0.156|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and baseline body weight as a covariate.||-0.156|-1.487|0.0155
92380961|NCT03242252|184665299|SUPERIORITY||Percent Difference|-30.72||||0.0015|TWO_SIDED|95.0|-44.78|-13.07|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and and log-transformed baseline UACR as a covariate.||-13.07|-44.78|0.0015
92380962|NCT03242252|184665299|SUPERIORITY||Percent Difference|-36.18||||0.0003|TWO_SIDED|95.0|-49.91|-18.68|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and and log-transformed baseline UACR as a covariate.||-18.68|-49.91|0.0003
92413521|NCT03158285|184716607|SUPERIORITY||Difference in percentage|11.5|||<|0.001|TWO_SIDED|95.0|5.2|17.7||Nominal|Cochran-Mantel-Haenszel|||||17.7|5.2|< 0.001
92413522|NCT03158285|184716608|SUPERIORITY||Difference in percentage|14.5|||<|0.001|TWO_SIDED|95.0|9.1|19.9||Nominal|Cochran-Mantel-Haenszel|||||19.9|9.1|< 0.001
92413523|NCT03158285|184716608|SUPERIORITY||Difference in percentage|9.0|||<|0.001|TWO_SIDED|95.0|4.1|13.8||Nominal|Cochran-Mantel-Haenszel|||||13.8|4.1|< 0.001
92413524|NCT00750152|184716812|SUPERIORITY_OR_OTHER||one-sided p-value from CMH test|0.001||||0.025|ONE_SIDED|95.0|||||Cochran-Mantel-Haenszel|The CMH test after stratification by site compared the proportion of complete cure in NAFT-500 to that of placebo to evaluate its superiority.||"In order to compare complete cure rate in the NAFT-500 group with that in the placebo group, the following one-sided null and alternate hypotheses will be tested:~* H0: p1 \<= p0~* Ha: p1 \> p0 where p0 and p1 denote the proportion of subjects with complete cure in the placebo and NAFT-500 groups, respectively."||||0.025
92232130|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean muscle aches score from period 1 to period 3 between the two arms."|Difference in Change|-0.03||||0.94|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in muscle aches score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean muscle aches score from period 1 to period 3 between the two arms"||||0.94
92413525|NCT01809639|184716816|SUPERIORITY_OR_OTHER|||||||0.42|||||||ANOVA|||||||.42
92232131|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean diarrhea score from period 1 to period 3 between the two arms."|Difference in Change|0.004||||0.97|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in diarrhea score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean diarrhea score from period 1 to period 3 between the two arms"||||0.97
92380963|NCT03242252|184665300|SUPERIORITY||Percentage Difference|1.5||||0.4328|TWO_SIDED|95.0|-2.23|5.21|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening and randomization strata of CKD stage (3A, 3B) at screening.||5.21|-2.23|0.4328
92380964|NCT03242252|184665300|SUPERIORITY||Percentage Difference|1.5||||0.4328|TWO_SIDED|95.0|-2.2|5.17|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening and randomization strata of CKD stage (3A, 3B) at screening.||5.17|-2.2|0.4328
92380965|NCT03242252|184665301|SUPERIORITY||Percentage Difference|6.0||||0.0614|TWO_SIDED|95.0|-0.23|12.21|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening and randomization strata of CKD stage (3A, 3B) at screening.||12.21|-0.23|0.0614
92413526|NCT00978757|184716817|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
92413527|NCT02140593|184716827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92413528|NCT02140593|184716828|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92413529|NCT00796926|184716842|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||>0.05
92413530|NCT00006289|184716874|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||t-test, 1 sided|||Data from 16 patients is analyzed using one-sided paired t-test without breaking treatment code (Drug A or B, without knowing which drug is Neurotropin or Placebo) to determine if (1) the study should be terminated (if 0.0058 ≤ p), (2) the study should be terminated with rejection of the null hypothesis that there are no differences between Drug A and Drug B (p ≥ 0.9), or (3) the study will be continued to obtain the total of 42 patients (0.0058 ≤ p ≤ 0.9).||||0.0058
92413531|NCT00006289|184716875|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||t-test, 1 sided|||Data from 16 patients is analyzed using one-sided paired t-test without breaking treatment code (Drug A or B) to determine if (1) the study should be terminated (if 0.0058 ≤ p), (2) the study should be terminated with rejection of the null hypothesis that there are no differences between Drug A and Drug B (p ≥ 0.9), or (3) the study will be continued to obtain the total of 42 patients (0.0058 ≤ p ≤ 0.9).||||0.0058
92413532|NCT00006289|184716876|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||t-test, 1 sided|||Data from 16 patients is analyzed using one-sided paired t-test without breaking treatment code (Drug A or B) to determine if (1) the study should be terminated (if 0.0058 ≤ p), (2) the study should be terminated with rejection of the null hypothesis that there are no differences between Drug A and Drug B (p ≥ 0.9), or (3) the study will be continued to obtain the total of 42 patients (0.0058 ≤ p ≤ 0.9).||||0.0058
92413533|NCT02043808|184716879|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.69|||||TWO_SIDED|95.0|0.52|0.92|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.92|0.52|
92413534|NCT02043808|184716880|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.83|||||TWO_SIDED|95.0|0.71|0.98|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.98|0.71|
92413535|NCT02043808|184716881|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.79|||||TWO_SIDED|95.0|0.59|1.07|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.07|0.59|
92413536|NCT02043808|184716882|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.31|||||TWO_SIDED|95.0|0.13|0.7|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.70|0.13|
92413537|NCT02043808|184716883|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.48|||||TWO_SIDED|95.0|0.3|0.77|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.77|0.30|
92413538|NCT02043808|184716884|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.9|||||TWO_SIDED|95.0|0.76|1.07|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.07|0.76|
92278211|NCT02295774|184458489|SUPERIORITY_OR_OTHER||Mc Nemar's χ2 test|0.0|||||TWO_SIDED|||||||Mc Nemar's χ2 test was not applicable because there is no change between visits.|Mc Nemar's χ2 test was not applicable because there is no change between visits.|"The results of the γH2AX analysis were listed and summarised by frequency tables by visit and colonic region.~The results were compared between Visit 2 and Visit 1 for each colonic region and overall using the Mc Nemar's χ2 test.~In case of the presence of at least one positive colonic region, that visit was to be considered as 'Positive' for the overall γH2AX analysis."||||
92413539|NCT02043808|184716885|SUPERIORITY_OR_OTHER||Crude event rate ratio|1.07|||||TWO_SIDED|95.0|0.89|1.3|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.30|0.89|
92413540|NCT02043808|184716886|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.72|||||TWO_SIDED|95.0|0.5|1.03|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.03|0.50|
92413541|NCT02043808|184716887|SUPERIORITY_OR_OTHER||Crude event rate ratio|1.24|||||TWO_SIDED|95.0|0.99|1.54|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.54|0.99|
92413542|NCT02043808|184716888|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.35|||||TWO_SIDED|95.0|0.17|0.72|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.72|0.17|
92413543|NCT02043808|184716889|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.37|||||TWO_SIDED|95.0|0.22|0.64|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.64|0.22|
92413544|NCT02043808|184716890|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.83|||||TWO_SIDED|95.0|0.55|1.26|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.26|0.55|
92413545|NCT02043808|184716891|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.66|||||TWO_SIDED|95.0|0.45|0.95|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.95|0.45|
92278212|NCT01617577|184458493|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||ADAScog scores at baseline vs final visit (wk 14); null hypothesis is there is no difference between scores||||0.36
92413546|NCT02043808|184716892|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.64|||||TWO_SIDED|95.0|0.31|1.31|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.31|0.31|
92413547|NCT02043808|184716893|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.44|||||TWO_SIDED|95.0|0.16|1.21|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.21|0.16|
92413548|NCT02043808|184716894|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.97|||||TWO_SIDED|95.0|0.34|2.81|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||2.81|0.34|
92413549|NCT02043808|184716895|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.6|||||TWO_SIDED|95.0|0.52|0.69|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.69|0.52|
92413550|NCT05601544|184716936|SUPERIORITY||Least-squares Mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.19|0.25||1-sided p-value was calculated using one-sided type 1 error of 0.025|Mixed Model Analysis|the Kenward and Roger method was used for the calculation of the denominator degrees of freedom.|Least-squares mean difference was calculated as Test minus Control|It was calculated that 41 (for the Multifocal strata) and 6 (for the Sphere strata) participants in each vision group randomized in a 1:1 fashion between the two sequences would have at least a power of 90% (for the Multifocal strata) and a power of 94% (for the Sphere strata) to detect a statistical superiority with respect to visual range.||0.25|0.19|<.0001
92413551|NCT05601544|184716936|SUPERIORITY||Least-squares Mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.14|0.18||1-sided p-value was calculated using one-sided type 1 error of 0.025|Mixed Model Analysis|the Kenward and Roger method was used for the calculation of the denominator degrees of freedom.|Least-squares mean difference was calculated as Test minus Control|It was calculated that 41 (for the Multifocal strata) and 6 (for the Sphere strata) participants in each vision group randomized in a 1:1 fashion between the two sequences would have at least a power of 90% (for the Multifocal strata) and a power of 94% (for the Sphere strata) to detect a statistical superiority with respect to visual range.||0.18|0.14|<.0001
92413552|NCT05601544|184716939|SUPERIORITY||Median Ratio|0.83||||0.0465|TWO_SIDED|98.33|0.64|1.09||1-sided p-value was calculated using one-sided type 1 error of 0.0083.|Mixed Model Analysis|the Kenward and Roger method was used for the calculation of the denominator degrees of freedom.|Median Ratio was calculated as test over control|It was calculated that 16 participants in each group randomized in a 1:1 fashion between the two sequences would have at least 92% power to detect a statistical superiority with respect to motion detection.||1.09|0.64|0.0465
92232132|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean fatigue score from period 1 to period 3 between the two arms."|Difference in Change|0.01||||0.95|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in fatigue score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean fatigue score from period 1 to period 3 between the two arms"||||0.95
92380966|NCT03242252|184665301|SUPERIORITY||Percentage Difference|7.4||||0.023|TWO_SIDED|95.0|1.08|13.65|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening and randomization strata of CKD stage (3A, 3B) at screening.||13.65|1.08|0.023
92413553|NCT05601544|184716940|SUPERIORITY||Least-square Mean Difference|0.14|||<|0.0001|TWO_SIDED|98.33|0.112|0.17||1-sided p-value was calculated using one-sided type 1 error of 0.0083|Mixed Model Analysis|the Kenward and Roger method was used for the calculation of the denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|It was calculated that 29 participants in each group randomized in a 1:1 fashion between the two sequences would have at least 91% power to detect a statistical superiority with respect to motion detection.||0.170|0.112|<.0001
92380967|NCT01116427|184665308|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED|||||Analysis was stratified on the presence or absence of subclinical activity as demonstrated by a Gd-enhanced lesion on one MRI in the past year prior to enrollment.|Wilcoxon (Mann-Whitney)|||||||0.87
92380968|NCT01116427|184665309|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED|||||Wilcoxon rank sum test in which the total number of new lesions were converted to ranks and then compared between groups|Wilcoxon (Mann-Whitney)|||||||0.36
92380969|NCT01116427|184665310|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED|||||Rank sum test in which the lesion volume change values per participant were converted to ranks and compared between the treatment groups|Wilcoxon (Mann-Whitney)|||||||0.93
92380970|NCT01116427|184665311|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED|||||Wilcoxon rank sum test in which percent brain volume change values per participant were converted to ranks and the ranks were compared between groups|Wilcoxon (Mann-Whitney)|||||||0.68
92380971|NCT01116427|184665312|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED|||||Wilcoxon rank sum test in which mean numbers of new lesions per participant were converted to ranks and compared between groups|Wilcoxon (Mann-Whitney)|||||||0.21
92380972|NCT01116427|184665313|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||Fisher Exact|||||||0.65
92413554|NCT00678743|184716971|SUPERIORITY|All statistical significance were completed at the 5% level, two-tailed. Comparability of baseline characteristics between those who did and did not opt to enter the extension study was assessed with the chi square test and analysis of variance.||||||0.0008||||||Threshold for statistical significance p\<0.05|ANOVA|||||||0.0008
92232133|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean anxiety score from period 1 to period 3 between the two arms."|Difference in Change|0.01||||0.95|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in anxiety score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean anxiety score from period 1 to period 3 between the two arms"||||0.95
92278213|NCT01617577|184458493|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||PAL(mem) at baseline and 14 wk (final visit): null hypothesis is thereis no difference in score||||0.058
92380973|NCT01116427|184665315|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED|||||Wilcoxon rank sum test in which the change from baseline scores per subject were converted to ranks and compared between treatment groups|Wilcoxon (Mann-Whitney)|||||||0.13
92380974|NCT01116427|184665316|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED|||||Analysis was stratified on the presence or absence of subclinical activity as demonstrated by a Gd-enhanced lesion on one MRI in the past year prior to enrollment.|Wilcoxon (Mann-Whitney)|||||||0.06
92380975|NCT01116427|184665317|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||Rank sum test in which the lesion volume change values per participant were converted to ranks and compared between the treatment groups|Wilcoxon (Mann-Whitney)|||||||0.07
92380976|NCT01116427|184665318|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED|||||Wilcoxon rank sum test in which the percent brain volume change values per participant were converted to ranks and compared between treatment groups|Wilcoxon (Mann-Whitney)|||||||0.88
92380977|NCT01116427|184665319|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Fisher Exact|||||||0.29
92380978|NCT01116427|184665321|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||Wilcoxon rank sum test in which the change from baseline scores per participant were converted to ranks and compared between treatment groups|Wilcoxon (Mann-Whitney)|||||||0.67
92380979|NCT00907296|184665358|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.3598|TWO_SIDED|95.0|0.53|1.26|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.26|0.53|0.3598
92380980|NCT00907296|184665358|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.6544|TWO_SIDED|95.0|0.59|1.39|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.39|0.59|0.6544
92380981|NCT00907296|184665358|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9958|TWO_SIDED|95.0|0.64|1.58|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.58|0.64|0.9958
92380982|NCT00907296|184665358|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6276|TWO_SIDED|95.0|0.59|1.37|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.37|0.59|0.6276
92380983|NCT00907296|184665358|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8819|TWO_SIDED|95.0|0.63|1.49|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.49|0.63|0.8819
92380984|NCT00907296|184665358|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.7197|TWO_SIDED|95.0|0.6|1.42|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.42|0.60|0.7197
92380985|NCT00907296|184665358|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.6204|TWO_SIDED|95.0|0.73|1.7|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.70|0.73|0.6204
92380986|NCT00907296|184665358|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.4779|TWO_SIDED|95.0|0.75|1.84|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.84|0.75|0.4779
92380987|NCT00907296|184665358|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9952|TWO_SIDED|95.0|0.65|1.53|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.53|0.65|0.9952
92380988|NCT00907296|184665361|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.1713|TWO_SIDED|95.0|0.47|1.14|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.14|0.47|0.1713
92446312|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.051||0.6622|TWO_SIDED|95.0|-0.12|0.08|||MMRM|||Insight, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.12|0.6622
92232134|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean constipation score from period 1 to period 3 between the two arms."|Difference in Change|0.03||||0.93|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in constipation score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean constipation score from period 1 to period 3 between the two arms"||||0.93
92232135|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean fever score from period 1 to period 3 between the two arms."|Difference in Change|0.06||||0.84|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in fever score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean fever score from period 1 to period 3 between the two arms"||||0.84
92380989|NCT00907296|184665361|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9958|TWO_SIDED|95.0|0.65|1.53|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.53|0.65|0.9958
92380990|NCT00907296|184665361|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.295|TWO_SIDED|95.0|0.81|1.97|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.97|0.81|0.2950
92413555|NCT02043899|184716982|OTHER|"1. Exact one-sided binomial test of the null hypothesis (p≤90%) using α=0.05 on \[124I\]mIBG PET/CT SIOPEN consensus scores. If this was accepted and the alternative hypothesis rejected, then trial stopped early for futility.~2. If the null hypothesis was rejected, then a one-sided binomial test of the null hypothesis (p≥97%) was performed (α=0.025). If this was accepted and the alternative hypothesis rejected then the trial stopped early for efficacy."|||||<|0.001||||||Overall design has 82% power and an α of 0.03. Total minimum sample size of 100 lesions was calculated based on a single stage A'hern design with p0 = 0.90 and p1 = 0.97. The overall power and α was calculated based on exact binomial probabilities.|Exact one-sided binomial test||||"For the primary endpoint, a sensitivity analysis was also performed on patients with \<20 positive lesions on \[124I\]mIBG PET/CT to test if few patients with large numbers of positive lesions were affecting the results. The results of the sensitivity analysis were consistent with those of the overall analysis.~Secondary efficacy analysis, separate exact one-sided binomial test of the null hypothesis (p≥97%), performed (α=0.025) performed for skeletal and soft tissue lesions."|||<0.001
92413556|NCT02720107|184716985|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||CD4+ Naïve T cells||||< 0.0001
92413557|NCT02720107|184716985|SUPERIORITY_OR_OTHER|||||||0.0493||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from study Core study, sex and duration of disease until start of Core study|ANCOVA|||CD4+ Central memory T cells||||0.0493
92413558|NCT02720107|184716985|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||CD4+ Effector memory T cells||||< 0.0001
92413559|NCT02720107|184716985|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||CD8+ Naïve T cells||||< 0.0001
92413560|NCT02720107|184716985|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||CD8+ Central memory T cells||||< 0.0001
92413561|NCT02720107|184716985|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||CD8+ Effector memory T cells||||< 0.0001
92413562|NCT02720107|184716985|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||TH17 central memory cells||||< 0.0001
92413563|NCT00362180|184716994|SUPERIORITY_OR_OTHER|||||||0.7244|TWO_SIDED||||||exact Wilcoxon Rank-sum test|||The p-value is a comparison between the placebo group and the mipomersen group in Cohort E as a change from Baseline to Day 26.||||0.7244
92413564|NCT00362180|184716994|SUPERIORITY_OR_OTHER|||||||0.0513|TWO_SIDED||||||exact Wilcoxon Rank-sum test|||The p-value is a comparison between the placebo group and the mipomersen group in Cohort E as a change from Baseline to Day 99.||||0.0513
92413565|NCT03930264|184717001|EQUIVALENCE|For bioequivalence, the 90% CIs of the geometric mean ratio of Cmax for tablet and suspension were required to be within the 80 to 125% range.|Odds Ratio (OR)|1.12||||0.3008|TWO_SIDED|90.0|0.93|1.35|||ANOVA|||||1.35|0.93|0.3008
92413566|NCT03930264|184717002|EQUIVALENCE|For bioequivalence, the 90% CIs of the geometric mean ratio of AUC0-τ for tablet and suspension were required to be within the 80 to 125% range.|Ratio|1.06||||0.1061|TWO_SIDED|90.0|1.0|1.13|||ANOVA|||||1.13|1.00|0.1061
92413567|NCT03930264|184717003|EQUIVALENCE|For bioequivalence, the 90% CIs of the geometric mean ratio of AUC0-∞ for tablet and suspension were required to be within the 80 to 125% range.|Ratio|1.02||||0.5696|TWO_SIDED|90.0|0.96|1.09|||ANOVA|||||1.09|0.96|0.5696
92413568|NCT02600871|184717004|SUPERIORITY|The significance of variation in proportions with treatment (Provodine®, Control) was assessed with Fisher's Exact tests and variation in the mean with treatment was assessed with T-tests.||||||0.71|||||||Fisher Exact|||||||0.71
92413569|NCT01949337|184717029|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.33|TWO_SIDED|95.0|0.8|1.08|||Log Rank|||||1.08|0.80|0.33
92413570|NCT00594425|184717067|SUPERIORITY_OR_OTHER||% success rate|5.53||||0.5288|TWO_SIDED|95.0|-7.97|19.04||Priori threshold for statistical significance was 5%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by center. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||19.04|-7.97|0.5288
92413571|NCT00594425|184717067|SUPERIORITY_OR_OTHER||% success rate|3.95||||0.7539|TWO_SIDED|95.0|-8.79|16.69||Priori threshold for statistical significance was 5%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by center. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||16.69|-8.79|0.7539
92413572|NCT00594425|184717068|SUPERIORITY_OR_OTHER||Least squares mean|-2.64||||0.3236|TWO_SIDED|95.0|-7.91|2.63||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model including center and baseline lesion count as a covariates. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||2.63|-7.91|0.3236
92278214|NCT01617577|184458493|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||PALtot trials adj at baseline vs 14wk (final visit)||||0.034
92413573|NCT00594425|184717068|SUPERIORITY_OR_OTHER||Least squares mean|-1.19||||0.6657|TWO_SIDED|95.0|-6.64|4.26||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model including center and baseline lesion count as a covariates. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||4.26|-6.64|0.6657
92413574|NCT00594425|184717096|SUPERIORITY_OR_OTHER||%success rate|3.09||||0.7889|TWO_SIDED|95.0|-11.16|17.33||Priori threshold for statistical significance was 5%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel stratified by center. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||17.33|-11.16|0.7889
92413575|NCT00594425|184717096|SUPERIORITY_OR_OTHER||Percent success|5.48||||0.888|TWO_SIDED|95.0|-10.15|21.11||Priori threshold for statistical significance was 5%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by center. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||21.11|-10.15|0.8880
92413576|NCT00594425|184717097|SUPERIORITY_OR_OTHER||Least squares mean|-0.33||||0.9151|TWO_SIDED|95.0|-6.53|5.86||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model including center and baseline lesion count as a covariates. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||5.86|-6.53|0.9151
92413577|NCT00594425|184717097|SUPERIORITY_OR_OTHER||Least squares mean|-1.18||||0.7233|TWO_SIDED|95.0|-7.81|5.45||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model including center and baseline lesion count as a covariates. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||5.45|-7.81|0.7233
92380991|NCT00907296|184665361|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0844|TWO_SIDED|95.0|0.44|1.05|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.05|0.44|0.0844
92413578|NCT02871882|184717127|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92413579|NCT01733212|184717136|EQUIVALENCE|Considering the null hypothesis that the number of participants who will have vomiting will be equal in the two arms, we performed this study with a significance level of 0.05% and power of 80% to prove that there is a difference in the number.||||||0.07|||||||Chi-squared|||Number of participants who had vomiting in each group is compared to the other. Two sided Chi square test was conducted, Type I error of 0.05% and power of 80% are considered.||||0.07
92169258|NCT02528188|184227161|SUPERIORITY||LS Mean Ratio|0.69|STANDARD_ERROR_OF_MEAN|0.12||0.0281|TWO_SIDED|95.0|0.5|0.96|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||0.96|0.50|0.0281
92446313|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.051||0.9087|TWO_SIDED|95.0|-0.11|0.09|||MMRM|||Insight, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.11|0.9087
92232136|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean cough score from period 1 to period 3 between the two arms."|Difference in Change|0.07||||0.84|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in cough score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean cough score from period 1 to period 3 between the two arms"||||0.84
92380992|NCT00907296|184665361|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.3225|TWO_SIDED|95.0|0.52|1.24|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.24|0.52|0.3225
92380993|NCT00907296|184665361|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.4754|TWO_SIDED|95.0|0.76|1.81|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.81|0.76|0.4754
92380994|NCT00907296|184665361|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.5578|TWO_SIDED|95.0|0.74|1.75|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.75|0.74|0.5578
92380995|NCT00907296|184665361|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.1864|TWO_SIDED|95.0|0.87|2.07|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||2.07|0.87|0.1864
92380996|NCT00907296|184665361|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.8488|TWO_SIDED|95.0|0.68|1.59|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.59|0.68|0.8488
92380997|NCT03344640|184665371|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.875|TWO_SIDED|90.0|-8.84|7.3|||LS mean|LS mean change from baseline in WORC total percentage score||All Patients at day 99||7.30|-8.84|0.875
92380998|NCT03344640|184665372|SUPERIORITY||Difference and 90% CI versus placebo|3.97||||0.19|TWO_SIDED|90.0|-1.03|8.97|||LS mean|LS mean change from baseline in WORC total percentage score||All patientts at day 15||8.97|-1.03|0.190
92446314|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.046||0.8263|TWO_SIDED|95.0|-0.08|0.1|||MMRM|||Insight, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.08|0.8263
92446315|NCT02942017|184779614|SUPERIORITY||LS mean difference|-4.86|STANDARD_ERROR_OF_MEAN|1.612||0.0033|TWO_SIDED|95.0|-8.06|-1.66|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.66|-8.06|0.0033
92232137|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean heartburn score from period 1 to period 3 between the two arms."|Difference in Change|0.11||||0.54|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in heartburn score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean heartburn score from period 1 to period 3 between the two arms"||||0.54
92232138|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean pain during sex score from period 1 to period 3 between the two arms."|Difference in Change|0.14||||0.13|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in pain during sex score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean pain during sex score from period 1 to period 3 between the two arms"||||0.13
92280466|NCT00601484|184463633|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|1.114|||TWO_SIDED|90.0|-2.904|0.922||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.922|-2.904|
92380999|NCT03344640|184665372|SUPERIORITY||Difference and 90% CI versus placebo|3.97|||||TWO_SIDED|90.0|-3.39|9.11|||LS Mean|LS mean change from baseline in WORC total percentage score||All patients at day 29||9.11|-3.39|
92381000|NCT03344640|184665372|SUPERIORITY||Difference and 90% CI versus placebo|0.761||||0.761|TWO_SIDED|90.0|-8.81|6.08|||LS Mean|LS mean change from baseline in WORC total percentage score||All patients at day 57||6.08|-8.81|0.761
92381001|NCT03344640|184665372|SUPERIORITY||Difference and 90% CI versus placebo|0.765||||0.765|TWO_SIDED|90.0|-6.27|9.03|||LS Mean|LS mean change from baseline in WORC total percentage score||All patients at day 85||9.03|-6.27|0.765
92381002|NCT03344640|184665372|SUPERIORITY||Difference and 90% CI versus placebo|0.491||||0.491|TWO_SIDED|90.0|-4.73|11.45|||LS Mean|LS mean change from baseline in WORC total percentage score||All patients at day 127||11.45|-4.73|0.491
92381003|NCT03344640|184665372|SUPERIORITY||Difference and 90% CI versus placebo|2.44||||0.639|TWO_SIDED|90.0|-6.19|11.07|||LS Mean|LS mean change from baseline in WORC total percentage score||All patients at end of study||11.07|-6.19|0.639
92381004|NCT03344640|184665373|SUPERIORITY||Difference and 90% CI versus Placebo|1.23||||0.735|TWO_SIDED|90.0|-4.81|7.28||Difference and 90% CI versus placebo|LS Mean|LS mean change from baseline in QuickDASH total score||Statistical analysis results of QuickDASH total score (PD Analysis Set) at day 99||7.28|-4.81|0.735
92232139|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean clumsy score from period 1 to period 3 between the two arms."|Difference in Change|0.18||||0.18|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in clumsy score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean clumsy score from period 1 to period 3 between the two arms"||||0.18
92278215|NCT03532009|184458494|SUPERIORITY|||||||0.426|||||||F-test|||The p-value was obtained by pooling the p-values from Chi-square tests performed on individual data sets using the F-distribution and reflects a global test of no difference in distribution of patients in the respective categories between SZC and placebo groups. The null hypothesis was that there is no difference between SZC and placebo in the distribution of percentage of patients in the 4 RAASi treatment categories. The hypothesis was tested at a significance level of 5%.||||0.426
92381005|NCT03344640|184665373|SUPERIORITY||Difference and 90% CI versus Placebo|1.51||||0.689|TWO_SIDED|90.0|-4.76|7.79|||LS Mean|LS mean change from baseline in QuickDASH total score||Statistical analysis results of QuickDASH total score (PD analysis set) at End of Study||7.79|-4.76|0.689
92381006|NCT03344640|184665374|SUPERIORITY||Difference and 90% CI vesus placebo|3.5||||0.411|TWO_SIDED|90.0|-3.54|10.54|||LS Mean|LS mean change from baseline in ASES total percentage score||Statistical analysis results of ASES total score (PD analysis) at day 99||10.54|-3.54|0.411
92381007|NCT03344640|184665374|SUPERIORITY||Difference and 90% CI versus placebo|1.14||||0.804|TWO_SIDED|90.0|-6.5|8.78|||LS Mean|LS mean change from baseline in ASES total percentage score||Statistical analysis results of ASES total score (PD analysis) at End of Study set)||8.78|-6.50|0.804
92381008|NCT03344640|184665375|SUPERIORITY||Difference and 90% CI versus placebo|-1.26||||0.706|TWO_SIDED|90.0|-6.81|4.29|||LS Mean|LS Mean change from baseline in Your Health Today Score at day 99||Statistical analysis results of Your Health Today EQ-5D-5L Index score at day 99 (PD Analysis Set)||4.29|-6.81|0.706
92381009|NCT03344640|184665375|SUPERIORITY||Difference and 90% CI versus placebo|-1.9||||0.647|TWO_SIDED|90.0|-8.79|4.99|||LS Mean|LS mean change from baseline in Your Health Today score||Statistical analysis results of Your Health Today EQ-5D-5L Index score at End of Study||4.99|-8.79|0.647
92381010|NCT03344640|184665376|SUPERIORITY||Difference and 90% CI versus placebo|0.01||||0.613|TWO_SIDED|90.0|-0.03|0.06|||LS Mean|LS mean change from baseline in EQ-5D-5L Index score||Statistical analysis results of of EQ-5D-5L Index score at day 99 (PD Analysis Set)||0.06|-0.03|0.613
92381011|NCT03344640|184665376|SUPERIORITY||Difference and 90% CI versus placebo|0.02||||0.74|TWO_SIDED|90.0|-0.04|0.06|||LS Mean|LS mean change from baseline in EQ-5D-5L Index score||Statistical analysis results of of EQ-5D-5L Index score at End of Study (PD Analysis Set)||0.06|-0.04|0.740
92413580|NCT00422084|184717137|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The primary efficacy analysis tested the non-inferiority of the PA group compared to the comparator group with regard to the PCR-corrected ACPR response rate at Day 28 using the 2-sided 95% confidence interval (CI) (Newcombe-Wilson score method without continuity correction) and a 5% non-inferiority margin. Non-inferiority was demonstrated if the lower limit of the CI for the difference \>-5%.|ACPR percent difference|0.3||||0.578|TWO_SIDED|95.0|-0.7|1.8||If non-inferiority of PA is demonstrated, the p-value associated with a superiority test was calculated based on a 2-sided Chi-square test. If the calculated p-value is \<5%, then the superiority of PA compared to AL is statistically demonstrated.|Chi-squared|||"Null hypothesis: The PCR-corrected ACPR response rate at Day 28 for the PA group is inferior to the PCR-corrected ACPR response rate at Day 28 for the comparator group (AL) by more than 5%.~Was tested versus the alternative:~Alternative hypothesis: The PCR-corrected ACPR response rate at Day 28 for the PA group is not inferior to the PCR-corrected ACPR response rate at Day 28 for the comparator group (AL) by more than -5%."||1.8|-0.7|0.578
92413581|NCT00653432|184717147|SUPERIORITY|||||||0.145|||||||Ordinal GEE Model|||||||0.1450
92381012|NCT03344640|184665377|SUPERIORITY||Difference and 90% CI versus placebo|-5.55||||0.281|TWO_SIDED|90.0|-14.07|2.97|||LS Mean|LS MMean CFB (90% CI)||Statistical analysis results of pain score using VAS scale (PD Analysis Set) at day 99||2.97|-14.07|0.281
92381013|NCT03344640|184665377|SUPERIORITY||Difference and 90% CI versus placebo|-1.49||||0.78|TWO_SIDED|90.0|-10.33|7.35|||LS Mean|LS Mean CFB (90% CI)||Statistical analysis results of pain score using VAS scale (PD Analysis Set) at End of Study||7.35|-10.33|0.780
92381014|NCT03344640|184665378|SUPERIORITY||Difference and 90% CI versus placebo|-3.32||||0.489|TWO_SIDED|90.0|-11.28|4.64|||LS Mean|LS Mean change from baseline in VAS score||Statistical analysis results of pain score using VAS scale (PD Analysis Set) at day 99||4.64|-11.28|0.489
92381015|NCT03344640|184665378|SUPERIORITY||Difference and 90% CI versus placebo|-8.29||||0.087|TWO_SIDED|90.0|-16.26|-0.32|||LS Mean|LS Mean change from baseline in VAS score||Statistical analysis results of pain score using VAS scale at End of Study||-0.32|-16.26|0.087
92381016|NCT03344640|184665379|SUPERIORITY||Difference and 99% CL versus placebo|6.1||||0.21|TWO_SIDED|90.0|-1.9|13.91|||LS Mean|LS Mean CFB (90% CI)||Statistical analysis results of PhGA score using VAS scale at day 99||13.91|-1.90|0.210
92381017|NCT03344640|184665379|SUPERIORITY||Difference and 90% CI versus placebo|-0.37||||0.942|TWO_SIDED|90.0|-8.86|8.11|||LS Mean|LS Mean CFB (90% CI)||Statistical analysis results of PhGA score using VAS scale at End of Study||8.11|-8.86|0.942
92381018|NCT02809053|184665390|OTHER|The 95%CI (confidence interval) for the difference in the overall response rate (ORR) was calculated using the Newcombe-Wilson method based on CMH (Cochran-Mantel-Haenszel) weight with stratification factor FLIPI-2 (low, intermediate and high risk).|Adjusted Difference Rate (%)|-4.2|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-14.8|6.35|||||Comparison: SAIT101 versus MabThera.|Adjusted Difference Rate (%) in Overall Response Rate (ORR) of SAIT101 versus MabThera at Week 28.||6.35|-14.80|
92381019|NCT02809053|184665391|OTHER|The 95%CI (confidence interval) for the difference in the overall response rate (ORR) was calculated using the Newcombe-Wilson method based on CMH (Cochran-Mantel-Haenszel) weight with stratification factor FLIPI-2 (low, intermediate and high risk).|Adjusted Difference Rate|-10.3|STANDARD_ERROR_OF_MEAN|5.42|||TWO_SIDED|95.0|-20.92|0.61|||||Comparison: SAIT101 versus MabThera|Adjusted Difference Rate of Overall Response Rate (ORR) of SAIT101 versus MabThera at Week 12.||0.61|-20.92|
92381020|NCT02809053|184665396|OTHER|The estimated Hazard Ratio with 95% CI was obtained from Cox regression model; however, stratification factors, ie, FLIPI-2 (low, intermediate and high risk), were only taken into account if FLIPI-2 score=all.|Hazard Ratio (HR)|1.724|||||TWO_SIDED|95.0|0.853|3.482|||||Hazard Ration of TTE SAIT101:MabThera|Time to Event (TTE) Hazard Ratio (HR) of SAIT101:MabThera. The TTE is defined as the time from the date of randomization to the date when an event occurs; an event is disease progression as assessed by Investigator, death due to any cause, or the start of new treatment, whichever comes first.||3.482|0.853|
92381021|NCT02809053|184665397|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%).|GLS Mean Difference (%)|101.39|||||TWO_SIDED|90.0|95.86|107.24|||||Comparison: SAIT101 versus MabThera. Equivalence was demonstrated for SAIT101 and MabThera with exposure pharmacokinetic parameter AUC0-168,w1 within the standard acceptance limits for bioequivalence (80.00% to 125.00%).|Statistical Comparison: geometric least square (GLS) Mean Ratio (90% Confidence Interval (CI)) (%) of SAIT101 versus MabThera Area Under the Concentration time Curve Day 0 to Week 1 (AUC0-168,w1) (h×µg/mL). The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model with fixed effect for treatment.||107.24|95.86|
92381022|NCT02809053|184665397|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%).|GLS Mean Difference (%)|96.92|||||TWO_SIDED|90.0|90.85|103.4|||||Comparison: SAIT101 versus MabThera. Pharmacokinetic equivalence was demonstrated for SAIT101 and MabThera with exposure PK parameter AUC0-168,w4 within the standard acceptance limits for bioequivalence (80.00% to 125.00%).|Statistical Comparison: geometric least square (GLS) Mean Ratio (90% Confidence Interval (CI)) %) of SAIT101 versus MabThera Area Under the Concentration time Cure Day 0 to Week 4 (AUC0-168,w4) (h×µg/mL). The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model with fixed effect for treatment.||103.40|90.85|
92381023|NCT02809053|184665398|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00|GLS Mean Ratio (%)|99.35|||||TWO_SIDED|90.0|90.85|103.4|||||Comparison: SAIT101 versus MabThera. Pharmacokinetic equivalence was demonstrated for SAIT101 and MabThera with Cmax,w1 exposure within the standard acceptance limits for bioequivalence (80.00% to 125.00%).|Statistical Comparison: geometric least square (GLS) Mean Ratio (90% CI) (%) of SAIT101 versus MabThera maximum plasma concentration at Week 1 (Cmax,w1) (h×µg/mL). The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model with fixed effect for treatment.||103.40|90.85|
92381024|NCT02809053|184665398|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%).|GLS Mean Ration (%)|99.23|||||TWO_SIDED|90.0|92.96|105.92|||||Comparison: SAIT101 versus MabThera. Pharmacokinetic equivalence was demonstrated for SAIT101 and MabThera with exposure PK parameter Cmax,w4 within the standard acceptance limits for bioequivalence (80.00% to 125.00%).|Statistical Comparison: geometric least square (GLS) Mean Ratio (90% CI) (%) of SAIT101 versus MabThera maximum plasma concentration at Week 4 (Cmax,w1) (h×µg/mL). The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model with fixed effect for treatment||105.92|92.96|
92381025|NCT02809053|184665401|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%).|GLS Mean Ratio (%)|95.45|||||TWO_SIDED|90.0|88.85|102.55|||||Comparison: SAIT101 versus MabThera. Pharmacokinetic equivalence was demonstrated for SAIT101 and MabThera with exposure PK parameter Ctrough,d29 within the standard acceptance limits for bioequivalence (80.00% to 125.00%).|Statistical Comparison: geometric least square (GLS) Mean Ratio (90% CI) (%) of SAIT101 versus MabThera trough plasma concentration at the end of the dosing period (Day 29) (Ctrough,d29) (µg/mL) . The statistical comparison of the log-transformed primary parameters between treatments is based on an analysis of variance model with fixed effect for treatment||102.55|88.85|
92381026|NCT02809053|184665405|OTHER||Mean Difference (Final Values)|7.2|||||TWO_SIDED|90.0|-31.0|45.4|||||Comparison: SAIT101 versus MabThera|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 1 (AUEC0-168,w1), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||45.4|-31.0|
92232140|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean difficulty falling asleep score from period 1 to period 3 between the two arms."|Difference in Change|0.19||||0.29|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty falling asleep score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty falling asleep score from period 1 to period 3 between the two arms"||||0.29
92278216|NCT00368966|184458501|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) greater than (\>) -10%.|Difference|-0.6||||||95.0|-2.9|1.6||||||For Meningococcal C the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥ 1:8 threshold was calculated||1.6|-2.9|
92413582|NCT00653432|184717148|SUPERIORITY|||||||0.5824|||||||Ordinal GEE Model|||||||0.5824
92413583|NCT00653432|184717149|SUPERIORITY|||||||0.9136|||||||Ordinal GEE Model|||||||0.9136
92413584|NCT00653432|184717150|SUPERIORITY|||||||0.1699|||||||Ordinal GEE Model|||||||0.1699
92413585|NCT00653432|184717151|SUPERIORITY|||||||0.3238|||||||Ordinal GEE Model|||||||0.3238
92413586|NCT00653432|184717152|SUPERIORITY|||||||0.0427|||||||Ordinal GEE Model|||||||0.0427
92413587|NCT00653432|184717153|SUPERIORITY|||||||0.8206|||||||Ordinal GEE Model|||||||0.8206
92413588|NCT00653432|184717154|SUPERIORITY|||||||0.9818|||||||Ordinal GEE Model|||||||0.9818
92413589|NCT00653432|184717155|SUPERIORITY|||||||0.0542|||||||Ordinal GEE Model|||||||0.0542
92413590|NCT00653432|184717156|SUPERIORITY|||||||0.323|||||||Ordinal GEE Model|||||||0.3230
92413591|NCT00600119|184717173|SUPERIORITY_OR_OTHER|||||||0.7781|||||||Wilcoxon (Mann-Whitney)|||||||0.7781
92413592|NCT00600119|184717173|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.0020
92413593|NCT00600119|184717173|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
92413594|NCT00600119|184717174|SUPERIORITY_OR_OTHER|||||||0.5118|||||||Wilcoxon (Mann-Whitney)|||||||0.5118
92381027|NCT02809053|184665405|OTHER||Mean Difference (Final Values)|18.0|||||TWO_SIDED|90.0|-21.6|57.6|||||Comparison: SAIT101 versus MabThera.|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 2 (AUEC0-168,w2), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||57.6|-21.6|
92169259|NCT02528188|184227161|SUPERIORITY||LS Mean Ratio|0.7|STANDARD_ERROR_OF_MEAN|0.13||0.0595|TWO_SIDED|95.0|0.49|1.01|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.01|0.49|0.0595
92381028|NCT02809053|184665405|OTHER||Mean Difference (Final Values)|21.4|||||TWO_SIDED|90.0|-18.3|61.0|||||Comparison: SAIT101 versus MabThera.|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 3 (AUEC0-168,w3), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||61.0|-18.3|
92381029|NCT02809053|184665405|OTHER||Mean Difference (Final Values)|20.4|||||TWO_SIDED|90.0|-19.3|60.2|||||comparison: SAIT101 versus MabThera|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 4 (AUEC0-168,w4), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||60.2|-19.3|
92381030|NCT02809053|184665405|OTHER||Mean Difference (Final Values)|15.7|||||TWO_SIDED|90.0|-23.1|54.6|||||Comparison: SAIT101 versus MabThera|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 12 (AUEC0-168,w12), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||54.6|-23.1|
92381031|NCT02809053|184665405|OTHER||Mean Difference (Final Values)|12.8|||||TWO_SIDED|90.0|-26.0|51.8|||||Comparison: SAIT101 versus MabThera.|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 28 (AUEC0-168,w28), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||51.8|-26.0|
92381032|NCT02809053|184665409|OTHER|||||||0.587||||||The p-value was calculated using Gail-Simon Test for Qualitative Interactions.|Gail-Simon|||Exploratory statistical analysis: Comparison of Overall Response Rate (ORR) by Region (European Union / Other). The interaction p-value for the Region subgroup was calculated based upon the full set of data, and based on a Cochran Mantel Haenszel (CMH) model including treatment, and applicable stratification covariate.||||0.587
92381033|NCT02809053|184665409|OTHER|||||||0.421||||||The p-value was calculated using Gail-Simon Test for Qualitative Interactions.|Gail-Simon|||Exploratory statistical analysis. Overall Response Rate by Age Group (18-60 years and \>60 years). The interaction p-value for the Age subgroup was calculated based upon the full set of data, and based on a Cochran Mantel Haenszel (CMH) model including treatment, and applicable stratification covariate.||||0.421
92381034|NCT02809053|184665409|OTHER|||||||0.288||||||The p-value was calculated using Gail-Simon Test for Qualitative Interactions.|Gail-Simon|||Exploratory statistical analysis. Comparison of Overall Response Rate (ORR) by Gender (Male / Female). The interaction p-value for the Gender subgroup was calculated based upon the full set of data, and based on a Cochran Mantel Haenszel (CMH) model including treatment, and applicable stratification covariate. The p-value was calculated using Gail-Simon Test for Qualitative Interactions.||||0.288
92413595|NCT00600119|184717174|SUPERIORITY_OR_OTHER|||||||0.0022|||||||Wilcoxon (Mann-Whitney)|||||||0.0022
92278217|NCT00368966|184458501|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|1.2||||||95.0|-2.3|4.9||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥ 0.10 IU/mL threshold was calculated||4.9|-2.3|
92381035|NCT02809053|184665409|OTHER|||||||0.588||||||The p-value was calculated using Gail-Simon Test for Qualitative Interactions.|Gail-Wilson|||Exploratory statistical analysis. Comparison of Overall Response Rate (ORR) by Anti-drug Antibody (ADA) status (Positive / Negative). The interaction p-value for the ADA subgroup was calculated based upon the full set of data, and based on a Cochran Mantel Haenszel (CMH) model including treatment, and applicable stratification covariate.||||0.588
92381036|NCT00884832|184665478|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Proportion of semi-formed and loose stools (Bristol Form 5-7) associated with diarrhea subgroup versus no diarrhea subgroup.||||<0.001
92381037|NCT00884832|184665479|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||ANCOVA|||||||0.018
92381038|NCT00884832|184665479|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||ANCOVA|||drug\*group interactions||||0.047
92381039|NCT00884832|184665481|SUPERIORITY_OR_OTHER|||||||0.082||95.0|||||ANCOVA|||||||0.082
92381040|NCT02337725|184665482|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.39|||<|0.0001|TWO_SIDED|95.0|-8.53|-4.25|||ANCOVA||Estimated Value was reported for the least squares mean difference between TVP-1012 1mg and Placebo (TVP-1012 1mg - Placebo).|||-4.250|-8.530|<0.0001
92381041|NCT01264770|184665493|SUPERIORITY_OR_OTHER||Treatment difference|0.56||||0.006|TWO_SIDED|90.0|0.23|0.9|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 6. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||0.90|0.23|0.006
92413596|NCT00600119|184717174|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92413597|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.5522||||||Analysis for change in PAC-QOL Physical Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.5522
92413598|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.0589||||||Analysis for change in PAC-QOL Physical Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0589
92278218|NCT00368966|184458501|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.3|1.3||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥ 0.01 IU/mL threshold was calculated||1.3|-1.3|
92278219|NCT00368966|184458502|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for immune response induced by Meningitec was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.72||||||95.0|0.6|0.86||||||For Meningococcal C the GMT ratio (13vPnC/7vPnC) was calculated||0.86|0.60|
92278220|NCT00368966|184458503|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for immune response induced by Meningitec was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.81||||||95.0|0.7|0.94||||||For Diphtheria the GMC ratio (13vPnC/7vPnC) was calculated||0.94|0.70|
92381042|NCT01264770|184665493|SUPERIORITY_OR_OTHER||Treatment difference|0.49||||0.022|TWO_SIDED|90.0|0.14|0.84|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 6. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||0.84|0.14|0.022
92413599|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.1691||||||Analysis for change in PAC-QOL Physical Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.1691
92413600|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.6293||||||Analysis for change in PAC-QOL Worries/Concerns domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.6293
92381043|NCT01264770|184665493|SUPERIORITY_OR_OTHER||Treatment difference|0.22||||0.28|TWO_SIDED|90.0|-0.12|0.56|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 6. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||0.56|-0.12|0.280
92381044|NCT01264770|184665494|NON_INFERIORITY_OR_EQUIVALENCE|For the comparison with adalimumab a non-inferiority margin of -0.6 in the mean change from baseline in DAS28-CRP at Week 24 was defined. The lower 80% confidence interval for treatment difference was below this value so non-inferiority could not be concluded. A p-value is also provided for a 2-sided test of superiority.|Treatment difference|-0.72||||0.005|TWO_SIDED|80.0|-1.04|-0.4|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 24. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||-0.40|-1.04|0.005
92413601|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.0836||||||Analysis for change in PAC-QOL Worries/Concerns domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0836
92413602|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.1155||||||Analysis for change in PAC-QOL Worries/Concerns domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.1155
92413603|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.9938||||||Analysis for change in PAC-QOL Psychosocial Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.9938
92413604|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.2101||||||Analysis for change in PAC-QOL Psychosocial Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.2101
92278221|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|1.23||||||95.0|1.13|1.35||||||For serotype 4, the Geometric Mean fold Rise (GMFR) were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.35|1.13|
92278222|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|9.28||||||95.0|8.18|10.53||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||10.53|8.18|
92278223|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|1.15||||||95.0|1.05|1.25||||||For serotype 6B, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.25|1.05|
92278224|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|1.61||||||95.0|1.41|1.83||||||For serotype 14, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.83|1.41|
92413605|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.4597||||||Analysis for change in PAC-QOL Psychosocial Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.4597
92413606|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.4822||||||Analysis for change in PAC-QOL Satisfaction domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.4822
92413607|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.0171||||||Analysis for change in PAC-QOL Satisfaction domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0171
92413608|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.016||||||Analysis for change in PAC-QOL Satisfaction domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0160
92413609|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.6857||||||Analysis for change in PAC-QOL Total Score from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.6857
92381045|NCT01264770|184665494|NON_INFERIORITY_OR_EQUIVALENCE|For the comparison with adalimumab a non-inferiority margin of -0.6 in the mean change from baseline in DAS28-CRP at Week 24 was defined. The lower 80% confidence interval for treatment difference was below this value so non-inferiority could not be concluded. A p-value is also provided for a 2-sided test of superiority.|Treatment difference|-0.61||||0.02|TWO_SIDED|80.0|-0.94|-0.27|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 24. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||-0.27|-0.94|0.020
92381046|NCT01264770|184665494|NON_INFERIORITY_OR_EQUIVALENCE|For the comparison with adalimumab a non-inferiority margin of -0.6 in the mean change from baseline in DAS28-CRP at Week 24 was defined. The lower 80% confidence interval for treatment difference was below this value so non-inferiority could not be concluded. A p-value is also provided for a 2-sided test of superiority.|Treatment difference|-0.72||||0.004|TWO_SIDED|80.0|-1.04|-0.4|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 24. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||-0.40|-1.04|0.004
92381047|NCT01264770|184665495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.05||||0.005|TWO_SIDED|90.0|1.59|5.86|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||5.86|1.59|0.005
92381048|NCT01264770|184665495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.11|||<|0.001|TWO_SIDED|90.0|2.1|8.05|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||8.05|2.10|<0.001
92381049|NCT01264770|184665495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.335|TWO_SIDED|90.0|0.76|2.83|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.83|0.76|0.335
92381050|NCT01264770|184665496|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.37||||0.007|TWO_SIDED|90.0|0.2|0.68|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.68|0.20|0.007
92381051|NCT01264770|184665496|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48||||0.051|TWO_SIDED|90.0|0.26|0.89|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.89|0.26|0.051
92381052|NCT01264770|184665496|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.004|TWO_SIDED|90.0|0.2|0.65|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.65|0.20|0.004
92381053|NCT01264770|184665497|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.29|||<|0.001|TWO_SIDED|90.0|0.17|0.4||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.40|0.17|<0.001
92381054|NCT01264770|184665497|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.3|||<|0.001|TWO_SIDED|90.0|0.18|0.43||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.43|0.18|<0.001
92381055|NCT01264770|184665497|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.19||||0.007|TWO_SIDED|90.0|0.07|0.31||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.31|0.07|0.007
92413610|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.0253||||||Analysis for change in PAC-QOL Total Score from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0253
92381056|NCT01264770|184665497|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.16||||0.049|TWO_SIDED|90.0|-0.3|-0.03||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.03|-0.30|0.049
92413611|NCT00600119|184717175|SUPERIORITY_OR_OTHER|||||||0.0772||||||Analysis for change in PAC-QOL Total Score from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0772
92413612|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.5008||||||Analysis for change in PAC-SYM Abdominal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.5008
92413613|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.1823||||||Analysis for change in PAC-SYM Abdominal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.1823
92413614|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.7045||||||Analysis for change in PAC-SYM Abdominal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.7045
92413615|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.7088||||||Analysis for change in PAC-SYM Rectal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.7088
92413616|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.5828||||||Analysis for change in PAC-SYM Rectal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.5828
92413617|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.0116||||||Analysis for change in PAC-SYM Rectal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0116
92232141|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean difficulty concentrating score from period 1 to period 3 between the two arms."|Difference in Change|0.2||||0.12|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty concentrating score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty concentrating score from period 1 to period 3 between the two arms"||||0.12
92232142|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean decreased sex drive score from period 1 to period 3 between the two arms."|Difference in Change|0.24||||0.1|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in decreased sex drive score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean decreased sex drive score from period 1 to period 3 between the two arms"||||0.10
92278225|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|1.45||||||95.0|1.3|1.61||||||For serotype 18C, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.61|1.30|
92413618|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.7848||||||Analysis for change in PAC-SYM Stool Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.7848
92413619|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.0335||||||Analysis for change in PAC-SYM Stool Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0335
92413620|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.0591||||||Analysis for change in PAC-SYM Stool Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0591
92413621|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.9317||||||Analysis for change in PAC-SYM Total Score from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.9317
92278226|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|0.93||||||95.0|0.83|1.03||||||For serotype 19F, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.03|0.83|
92413622|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.0675||||||Analysis for change in PAC-SYM Total Score from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0675
92413623|NCT00600119|184717176|SUPERIORITY_OR_OTHER|||||||0.1745||||||Analysis for change in PAC-SYM Total Score from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.1745
92232143|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean speech difficulties score from period 1 to period 3 between the two arms."|Difference in Change|0.25||||0.01|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in speech difficulties score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean speech difficulties score from period 1 to period 3 between the two arms"||||0.01
92278227|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|4.0||||||95.0|3.55|4.5||||||For serotype 23F, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||4.50|3.55|
92278228|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|1.6||||||95.0|1.46|1.76||||||For serotype 1, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.76|1.46|
92413624|NCT04740905|184717177|NON_INFERIORITY|If the lower bound of a two-sided 95% confidence interval (CI) for the difference in adjusted means of the two treatments (faricimab minus aflibercept) is greater than -4 letters (the non-inferiority margin), then faricimab is considered non-inferior to aflibercept.|Difference in Adjusted Means|-0.6|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|95.0|-2.2|1.1|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The null hypothesis, H0: μ(faricimab) - μ(aflibercept) ≤-4 letters; the alternative hypothesis, Ha: μ(faricimab) - μ(aflibercept) \>-4 letters. The final sample size provided \>90% power for the non-inferiority assessment (at a one-sided 0.02485 significance level).||1.1|-2.2|
92413625|NCT04740905|184717177|SUPERIORITY||Difference in Adjusted Means|-0.6|STANDARD_ERROR_OF_MEAN|0.84||0.4978|TWO_SIDED|95.0|-2.2|1.1||Tested at a two-sided 0.0497 significance level.|Mixed Model of Repeated Measures||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The final sample size provided \>80% power for a 3.5-letter superiority assessment of faricimab over aflibercept.||1.1|-2.2|0.4978
92413626|NCT04740905|184717179|OTHER||Difference in CMH Weighted Percentage|-4.3|||||TWO_SIDED|95.0|-12.3|3.8||||||||3.8|-12.3|
92413627|NCT04740905|184717195|OTHER||Difference in Adjusted Means|-0.4|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-1.9|1.1||||||||1.1|-1.9|
92413628|NCT00561977|184717225|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Mixed Models Analysis|time measurement, treatment group, interaction between time and group term as fixed effect, subject as random effect.||Mean dietary quality score by visit and study group was estimated using SAS PROC MIXED. All analyses were performed using SAS 9.13 (SAS Institute, Cary, NC, USA).||||0.14
92413629|NCT00977080|184717253|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|95.0||||No adjustments were made for multiple comparisons between treatment groups since the study was designed to evaluate the primary outcome measure by testing a single hypothesis within each stratum independently.|Fisher Exact|||With a sample size of 49 participants in each treatment group in the IV stratum, a Fisher's exact test with a 0.050 2-sided significance level will have 81% power to detect a 30% difference in the percentage of participants who achieve iPTH between 150 and 300 pg/mL, assuming the cinacalcet percentage is 36% and the paricalcitol percentage is 66%.||||0.016
92413630|NCT00977080|184717253|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED|95.0||||No adjustments were made for multiple comparisons between treatment groups since the study was designed to evaluate the primary outcome measure by testing a single hypothesis within each stratum independently.|Fisher Exact|||With a sample size of 49 participants in each treatment group in the oral stratum, a Fisher's exact test with a 0.050 2-sided significance level will have 81% power to detect a 30% difference in the percentage of participants who achieve iPTH between 150 and 300 pg/mL, assuming the cinacalcet percentage is 36% and the paricalcitol percentage is 66%.||||0.260
92413631|NCT00977080|184717254|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92381057|NCT01264770|184665497|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.02||||0.803|TWO_SIDED|90.0|-0.16|0.12||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.12|-0.16|0.803
92381058|NCT01264770|184665497|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.24||||0.003|TWO_SIDED|90.0|-0.37|-0.1||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.10|-0.37|0.003
92413632|NCT00977080|184717254|SUPERIORITY_OR_OTHER|||||||0.239||95.0|||||Fisher Exact|||||||0.239
92381059|NCT01264770|184665498|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.09||||0.059|TWO_SIDED|90.0|0.01|0.18||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.18|0.01|0.059
92381060|NCT01264770|184665498|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.09||||0.071|TWO_SIDED|90.0|0.01|0.17||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.17|0.01|0.071
92381061|NCT01264770|184665498|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.01||||0.758|TWO_SIDED|90.0|-0.05|0.07||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.07|-0.05|0.758
92413633|NCT00977080|184717255|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92413634|NCT00977080|184717255|SUPERIORITY_OR_OTHER|||||||0.704||95.0|||||Fisher Exact|||||||0.704
92413635|NCT00977080|184717256|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Cochran-Mantel-Haenszel|||||||0.010
92413636|NCT00977080|184717257|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92413637|NCT00977080|184717257|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92413638|NCT00977080|184717258|SUPERIORITY_OR_OTHER|||||||0.118||95.0|||||Fisher Exact|||||||0.118
92413639|NCT00977080|184717258|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
92413640|NCT00096356|184717348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|1.03||0.1815|TWO_SIDED|95.0|-3.39|0.64||The a priori significance level was 0.05 for the primary outcome; there is no adjustment for multiple comparisons.|Mixed Models Analysis||This is the estimate of the difference in arms (Co-Q10 minus placebo). Lower is better for this outcome.|Constrained repeated measures analysis of variance - constrained such that baseline fatigue was the same in both groups and unadjusted for any baseline covariates.||0.64|-3.39|0.1815
92413641|NCT00096356|184717349|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.99|STANDARD_ERROR_OF_MEAN|2.31||0.3903|TWO_SIDED|95.0|-2.56|6.53||0.05 significance level; no multiple comparison adjustment|Mixed Models Analysis||This is the difference in treatment groups at 24 weeks (Co-Q10 minus Placebo). Higher is better for this outcome.|Constrained repeated measures analysis of variance - constrained to have equal means at baseline, unadjusted for other covariates||6.53|-2.56|.3903
92232144|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean unplanned changes in weight score from period 1 to period 3 between the two arms."|Difference in Change|0.26||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in unplanned changes in weight score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean unplanned changes in weight score from period 1 to period 3 between the two arms"||||0.08
92381062|NCT01264770|184665498|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.12||||0.114|TWO_SIDED|90.0|-0.24|0.0||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.00|-0.24|0.114
92381063|NCT01264770|184665498|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.14||||0.078|TWO_SIDED|90.0|-0.26|-0.01||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.01|-0.26|0.078
92381064|NCT01264770|184665498|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.21||||0.003|TWO_SIDED|90.0|-0.32|-0.09||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.09|-0.32|0.003
92381065|NCT01264770|184665499|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.02||||0.46|TWO_SIDED|90.0|-0.07|0.03||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.03|-0.07|0.460
92381066|NCT01264770|184665499|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.0||||0.903|TWO_SIDED|90.0|-0.05|0.06||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.06|-0.05|0.903
92413642|NCT00096356|184717350|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|1.31||0.6014|TWO_SIDED|95.0|-3.25|1.88||0.05 significance level, unadjusted for multiple comparisons|Mixed Models Analysis||This is the difference between treatment groups at 24 weeks (Co-Q10 minus Placebo). Lower is better for this outcome.|Constrained repeated measures analysis of variance, constrained such that the baseline means are equal, unadjusted of other covariates||1.88|-3.25|.6014
92413643|NCT01181986|184717351|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Adjusted for treatment sequence, group (diabetes duration) and time.||||||<0.0001
92413644|NCT01181986|184717351|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANCOVA|Adjusted for treatment sequence.||||||0.006
92413645|NCT01181986|184717351|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANCOVA|Adjusted for treatment sequence.||||||0.003
92413646|NCT01181986|184717352|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Adjusted for treatment sequence and diabetes duration group.||||||<0.0001
92413647|NCT01181986|184717353|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92232145|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean dizziness score from period 1 to period 3 between the two arms."|Difference in Change|0.27||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dizziness score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean dizziness score from period 1 to period 3 between the two arms"||||0.08
92413648|NCT00576420|184717379|SUPERIORITY_OR_OTHER|||||||0.1564||90.0|||||Likelihood ratio chi-square test|||||||0.1564
92413649|NCT00576420|184717381|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Likelihood ratio chi-square test|||||||0.060
92278229|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|1.23||||||95.0|1.13|1.35||||||For serotype 3, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.35|1.13|
92413650|NCT00576420|184717381|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Likelihood ratio chi-square test|||||||0.005
92413651|NCT00576420|184717382|SUPERIORITY_OR_OTHER|||||||0.123||95.0|||||Likelihood ratio chi-square test|||||||0.123
92413652|NCT00576420|184717382|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Likelihood ratio chi-square test|||||||0.026
92413653|NCT00576420|184717383|SUPERIORITY_OR_OTHER|||||||0.929||95.0|||||Likelihood ratio chi-square test|||||||0.929
92413654|NCT00576420|184717383|SUPERIORITY_OR_OTHER|||||||0.228||95.0|||||Likelihood ratio chi-square test|||||||0.228
92413655|NCT00576420|184717385|SUPERIORITY_OR_OTHER|||||||0.234||95.0|||||Likelihood ratio chi-square test|||||||0.234
92413656|NCT00576420|184717385|SUPERIORITY_OR_OTHER|||||||0.955||95.0|||||Likelihood ratio chi-square test|||||||0.955
92413657|NCT00576420|184717386|SUPERIORITY_OR_OTHER|||||||0.106||95.0|||||Likelihood ratio chi-square test|||||||0.106
92413658|NCT00576420|184717386|SUPERIORITY_OR_OTHER|||||||0.243||95.0|||||Likelihood ratio chi-square test|||||||0.243
92232146|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean difficulty staying asleep score from period 1 to period 3 between the two arms."|Difference in Change|0.27||||0.09|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty staying asleep score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty staying asleep score from period 1 to period 3 between the two arms"||||0.09
92232147|NCT03182738|184366272|SUPERIORITY|"Linear mixed models to test difference in mean depression score from period 1 to period 3 between the two arms."|Difference in Change|0.38||||0.05|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in depression score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean depression score from period 1 to period 3 between the two arms"||||0.05
92232148|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Fatigue PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|-2.09||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||The parameter was estimated using a difference in change in Fatigue PROMIS T-score from baseline to 3 months between two arms|The null hypothesis is that there is no difference in change in Fatigue PROMIS T-score from baseline to 3 months between two arms||||0.83
92278230|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|1.94||||||95.0|1.78|2.11||||||For serotype 5, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||2.11|1.78|
92278231|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|2.87||||||95.0|2.58|3.2||||||For serotype 6A, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||3.20|2.58|
92381067|NCT01264770|184665499|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.03||||0.172|TWO_SIDED|90.0|-0.08|0.01||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.01|-0.08|0.172
92381068|NCT01264770|184665499|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.11||||0.082|TWO_SIDED|90.0|-0.21|-0.01||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.01|-0.21|0.082
92381069|NCT01264770|184665499|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.11||||0.092|TWO_SIDED|90.0|-0.21|0.0||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.00|-0.21|0.092
92381070|NCT01264770|184665499|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.17||||0.002|TWO_SIDED|90.0|-0.27|-0.08||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.08|-0.27|0.002
92381071|NCT01264770|184665500|SUPERIORITY_OR_OTHER||Treatment difference|23.39|||<|0.001|TWO_SIDED|90.0|9.57|40.0|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||40.00|9.57|<0.001
92278232|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|2.18||||||95.0|1.98|2.41||||||For serotype 7F, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||2.41|1.98|
92381072|NCT01264770|184665500|SUPERIORITY_OR_OTHER||Treatment difference|22.97||||0.006|TWO_SIDED|90.0|7.84|38.34|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||38.34|7.84|0.006
92381073|NCT01264770|184665500|SUPERIORITY_OR_OTHER||Treatment difference|5.72||||0.234|TWO_SIDED|90.0|-3.2|21.68|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||21.68|-3.20|0.234
92381074|NCT01264770|184665501|SUPERIORITY_OR_OTHER||Treatment difference|-13.72||||0.03|TWO_SIDED|90.0|-25.01|0.0|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.00|-25.01|0.030
92232149|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Anxiety PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|-0.94||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||The parameter was estimated using a difference in change in Anxiety PROMIS T-score from baseline to 3 months between two arms|The null hypothesis is that there is no difference in change in Anxiety PROMIS T-score from baseline to 3 months between two arms||||0.83
92232150|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Depression PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|-0.79||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||The parameter was estimated using a difference in change in Depression PROMIS T-score from baseline to 3 months between two arms|The null hypothesis is that there is no difference in change in Depression PROMIS T-score from baseline to 3 months between two arms||||0.83
92232151|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Pain Interference PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|-0.78||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||The parameter was estimated using a difference in change in Pain Interference PROMIS T-score from baseline to 3 months between two arms|The null hypothesis is that there is no difference in change in Pain Interference PROMIS T-score from baseline to 3 months between two arms||||0.83
92278233|NCT00368966|184458506|SUPERIORITY_OR_OTHER||Difference|1.3||||||95.0|1.18|1.44||||||For serotype 19A, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.44|1.18|
92381075|NCT01264770|184665501|SUPERIORITY_OR_OTHER||Treatment difference|-9.49||||0.207|TWO_SIDED|90.0|-25.0|6.96|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||6.96|-25.00|0.207
92381076|NCT01264770|184665501|SUPERIORITY_OR_OTHER||Treatment difference|-19.53||||0.002|TWO_SIDED|90.0|-30.01|-6.25|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-6.25|-30.01|0.002
92381077|NCT01264770|184665502|SUPERIORITY_OR_OTHER||Treatment difference|0.24||||0.007|TWO_SIDED|90.0|0.09|0.38|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.38|0.09|0.007
92381078|NCT01264770|184665502|SUPERIORITY_OR_OTHER||Treatment difference|0.22||||0.016|TWO_SIDED|90.0|0.07|0.37|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.37|0.07|0.016
92381079|NCT01264770|184665502|SUPERIORITY_OR_OTHER||Treatment difference|0.14||||0.094|TWO_SIDED|90.0|0.0|0.29|||ANCOVA|Includes terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.29|0.00|0.094
92381080|NCT01264770|184665503|SUPERIORITY_OR_OTHER||Treatment difference|-0.2||||0.043|TWO_SIDED|90.0|-0.36|-0.04|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.04|-0.36|0.043
92381081|NCT01264770|184665503|SUPERIORITY_OR_OTHER||Treatment difference|-0.14||||0.158|TWO_SIDED|90.0|-0.31|0.02|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.02|-0.31|0.158
92381082|NCT01264770|184665503|SUPERIORITY_OR_OTHER||Treatment difference|-0.32||||0.001|TWO_SIDED|90.0|-0.47|-0.16|||ANCOVA|Includes terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.16|-0.47|0.001
92381083|NCT01264770|184665504|SUPERIORITY_OR_OTHER||Treatment difference|-2.77||||0.05|TWO_SIDED|90.0|-5.08|-0.45|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.45|-5.08|0.050
92413659|NCT00576420|184717386|SUPERIORITY_OR_OTHER|||||||0.127||95.0|||||Likelihood ratio chi-square test|||||||0.127
92413660|NCT00576420|184717387|SUPERIORITY_OR_OTHER|||||||0.257||95.0|||||Likelihood ratio chi-square test|||||||0.257
92413661|NCT00576420|184717387|SUPERIORITY_OR_OTHER|||||||0.096||95.0|||||Likelihood ratio chi-square test|||||||0.096
92413662|NCT00576420|184717387|SUPERIORITY_OR_OTHER|||||||0.127||95.0|||||Likelihood ratio chi-square test|||||||0.127
92413663|NCT01221272|184717410|SUPERIORITY_OR_OTHER||Mixed Models Analysis|0.67||||0.29|TWO_SIDED|95.0|-0.6|1.9||The null hypothesis that ranolazine treatment had no effect on PDS would be rejected if the PDS and TPD p-values were less than 0.05 or the PDS p-value was less than 0.05/2 = 0.025.|Mixed Models Analysis|||||1.9|-0.6|0.29
92413664|NCT01221272|184717411|SUPERIORITY_OR_OTHER||Mixed Models Analysis|0.65||||0.22|TWO_SIDED|95.0|-0.4|1.7||The null hypothesis that ranolazine treatment had no effect on TPD would be rejected if the PDS and TPD p-values were less than 0.05 or the TPD p-value was less than 0.05/2 = 0.025.|Mixed Models Analysis|||||1.7|-0.4|0.22
92381084|NCT01264770|184665504|SUPERIORITY_OR_OTHER||Treatment difference|-1.33||||0.36|TWO_SIDED|90.0|-3.73|1.06|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||1.06|-3.73|0.360
92381085|NCT01264770|184665504|SUPERIORITY_OR_OTHER||Treatment difference|-2.99||||0.032|TWO_SIDED|90.0|-5.29|-0.7|||ANCOVA|Includes terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.70|-5.29|0.032
92381086|NCT01264770|184665505|SUPERIORITY_OR_OTHER||Treatment difference|-1.02||||0.568|TWO_SIDED|90.0|-3.95|1.92|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||1.92|-3.95|0.568
92381087|NCT01264770|184665505|SUPERIORITY_OR_OTHER||Treatment difference|-1.66||||0.368|TWO_SIDED|90.0|-4.69|1.38|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||1.38|-4.69|0.368
92381088|NCT01264770|184665505|SUPERIORITY_OR_OTHER||Treatment difference|-2.48||||0.16|TWO_SIDED|90.0|-5.38|0.43|||ANCOVA|Includes terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.43|-5.38|0.160
92381089|NCT00129961|184665506|SUPERIORITY_OR_OTHER|||||||0.022||||||Poisson regression was used to model NMSC counts using the years in study as an offset. The generalized estimated equations (GEE) approach was used to estimate parameters and compare treatment differences.|Poisson regression|Adjusted by baseline strata; Poisson model = strata + treatment.||||||0.022
92381090|NCT00129961|184665507|SUPERIORITY_OR_OTHER|||||||0.047|||||||Regression, Cox|Stratified by baseline lesions||||||0.047
92413665|NCT01340872|184717415|SUPERIORITY||Mean Difference (Final Values)|2.18|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|ONE_SIDED|97.5|1.81||||ANCOVA|||ANCOVA for primary endpoint, Change in Hb concentration from Baseline to Week 12 in double-blind phase, FAS|||1.81|< 0.0001
92413666|NCT01340872|184717419|SUPERIORITY||Mean Difference (Final Values)|1.04|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|ONE_SIDED|97.5|0.82||||ANCOVA|||ANCOVA analysis of the change in Hb concentration from Baseline to Week 4 of the double-blind phase - Full Analysis Set, multiple imputation|||0.82|< 0.0001
92413667|NCT01340872|184717420|SUPERIORITY||Mean Difference (Final Values)|1.73|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|ONE_SIDED|97.5|1.43||||ANCOVA|||ANCOVA analysis of Change in Hb concentration from Baseline to Week 8 of double-blind phase - FAS, multiple imputation|||1.43|< 0.0001
92413668|NCT01340872|184717431|SUPERIORITY||Mean Difference (Final Values)|2.18|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|ONE_SIDED|97.5|1.87||||ANCOVA|||ANCOVA sensitivity analysis of the Primary efficacy endpoint analysis on the PPAS|||1.87|< 0.0001
92169260|NCT02528188|184227161|SUPERIORITY||LS Mean Ratio|0.57|STANDARD_ERROR_OF_MEAN|0.11||0.003|TWO_SIDED|95.0|0.4|0.83|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||0.83|0.40|0.0030
92381091|NCT00129961|184665508|SUPERIORITY_OR_OTHER|||||||0.015|||||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||||||0.015
92381092|NCT00129961|184665509|SUPERIORITY_OR_OTHER|||||||0.799||95.0|||||Chi-squared|||||||0.799
92381093|NCT00129961|184665510|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Well differentiated||||0.014
92413669|NCT01340872|184717432|SUPERIORITY||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|ONE_SIDED|97.5|1.82||||ANCOVA|||ANCOVA sensitivity analysis of the Primary efficacy endpoint analysis on the FAS LOCF - Change in Haemoglobin Concentration from Baseline to Week 12|||1.82|< 0.0001
92381094|NCT00129961|184665510|SUPERIORITY_OR_OTHER|||||||0.491||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Moderately differentiated||||0.491
92381095|NCT00129961|184665510|SUPERIORITY_OR_OTHER|||||||0.905||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Poorly differentiated||||0.905
92381096|NCT00129961|184665510|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Invasive||||0.018
92381097|NCT00129961|184665510|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC In Situ||||0.012
92381098|NCT00129961|184665510|SUPERIORITY_OR_OTHER|||||||0.463||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Invasive with Perineural Invasion||||0.463
92413670|NCT01502332|184717441|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
92413671|NCT01502332|184717442|SUPERIORITY_OR_OTHER|||||||0.014|||||||Log Rank|||||||0.014
92413672|NCT01502332|184717443|SUPERIORITY_OR_OTHER|||||||0.037|||||||Log Rank|||||||0.037
92413673|NCT01502332|184717445|SUPERIORITY_OR_OTHER|||||||0.267|||||||Regression, Logistic|||||||0.267
92413674|NCT03039621|184717449|SUPERIORITY|||||||0.026||||||a priori threshold for statistical significance equals 0.05|Wilcoxon (Mann-Whitney)|||||||0.026
92381099|NCT00129961|184665510|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Invasive without Perineural Invasion||||0.004
92381100|NCT00129961|184665510|SUPERIORITY_OR_OTHER|||||||0.094||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||BCC Superficial||||0.094
92381101|NCT00129961|184665510|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||BCC Nodular||||0.720
92381102|NCT00129961|184665510|SUPERIORITY_OR_OTHER|||||||0.227||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||BCC Infiltrative||||0.227
92381103|NCT00129961|184665511|SUPERIORITY_OR_OTHER|||||||0.748||95.0|||||Poisson regression|||||||0.748
92381104|NCT00129961|184665512|SUPERIORITY_OR_OTHER|||||||0.425||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||||||0.425
92381105|NCT00129961|184665515|SUPERIORITY_OR_OTHER|||||||0.604||95.0|||||ANCOVA|||||||0.604
92381106|NCT00129961|184665516|SUPERIORITY_OR_OTHER|||||||0.672||95.0|||||ANCOVA|||||||0.672
92381107|NCT00129961|184665517|SUPERIORITY_OR_OTHER|||||||0.999||95.0|||||Fisher Exact|||||||0.999
92381108|NCT00129961|184665518|SUPERIORITY_OR_OTHER|||||||0.588||95.0|||||Fisher Exact|||||||0.588
92381109|NCT00129961|184665519|SUPERIORITY_OR_OTHER|||||||0.999||95.0|||||Fisher Exact|||||||0.999
92413675|NCT03039621|184717450|SUPERIORITY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||||||0.031
92413676|NCT03039621|184717451|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||||||0.022
92413677|NCT03039621|184717452|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
92381110|NCT00129961|184665520|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.030
92381111|NCT04881747|184665538|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.875|||||TWO_SIDED|90.0|0.834|0.919||||||||0.919|0.834|
92381112|NCT04881747|184665538|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.889|||||TWO_SIDED|90.0|0.846|0.934||||||||0.934|0.846|
92381113|NCT04881747|184665539|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.944|||||TWO_SIDED|90.0|0.914|0.976||||||||0.976|0.914|
92381114|NCT04881747|184665539|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.946|||||TWO_SIDED|90.0|0.914|0.978||||||||0.978|0.914|
92381115|NCT04881747|184665540|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.941|||||TWO_SIDED|90.0|0.91|0.972||||||||0.972|0.910|
92381116|NCT04881747|184665540|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.944|||||TWO_SIDED|90.0|0.913|0.977||||||||0.977|0.913|
92381117|NCT02138240|184665544|OTHER|Pre-post comparison|||||<|0.001|||||||Wilcoxon signed rank sum|||||||<0.001
92381118|NCT02138240|184665547|OTHER|Pre-post comparison of baseline median weight to median weight at 6-month follow up||||||0.21|||||||Wilcoxon signed rank sum|||||||0.21
92381119|NCT02598128|184665565|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|The independent variables in the mixed model analysis included fixed effect factors for treatment (placebo or RELiZORB).||||||<0.001
92381120|NCT01378429|184665567|NON_INFERIORITY_OR_EQUIVALENCE|35 subjects per arm would have ≥90% power to demonstrate that the upper bound of a two-sided 95% confidence interval (equivalent to the upper bound of a one-sided 97.5% confidence interval) of the difference of placebo minus ciclesonide nasal aerosol would be less than 20% of the baseline value of 175 mcg•h/dL or a noninferiority limit of 35 mcg•h/dL assuming a SD of 40 and a one-sided α of 0.025. A total of 40 subjects will be randomly assigned to ensure 35 subjects complete the study per arm.|LS Mean Difference|7.6|||||TWO_SIDED|95.0|-7.4|22.6||\<0.025 for a one-sided test.|ANCOVA||Difference is calculated as Placebo - Ciclesonide.|35 subjects per arm would have ≥90% power to demonstrate that the upper bound of a two-sided 95% confidence interval (equivalent to the upper bound of a one-sided 97.5% confidence interval) of the difference of placebo minus ciclesonide nasal aerosol would be less than 20% of the baseline value of 175 mcg•h/dL or a noninferiority limit of 35 mcg•h/dL assuming a SD of 40 and a one-sided α of 0.025. A total of 40 subjects will be randomly assigned to ensure 35 subjects complete the study per arm.||22.6|-7.4|
92381121|NCT01064687|184665584|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.05|||<|0.001|TWO_SIDED|95.0|-1.22|-0.88||P-value is adjusted for multiplicity based on a tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.88|-1.22|<0.001
92381122|NCT01064687|184665584|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.52|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.39||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.39|-0.66|<0.0001
92381123|NCT01064687|184665584|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.84|||<|0.001|TWO_SIDED|95.0|-1.01|-0.67||P-value is adjusted for multiplicity based on a tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.67|-1.01|<0.001
92413678|NCT03039621|184717453|SUPERIORITY|||||||0.0201||||||"The p-value associated with treatment factor of total severity index of the disease from Day 2 to Day 3, 4, 5 and 6 endpoint between Ergoferon and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.0201
92413679|NCT03039621|184717454|SUPERIORITY|||||||0.046|||||||Wilcoxon (Mann-Whitney)|||||||0.046
92413680|NCT03039621|184717455|SUPERIORITY|||||||0.0025|||||||Cochran-Mantel-Haenszel|||||||0.0025
92232152|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Satisfaction with Social Role PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|0.04||||0.98|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Satisfaction with Social Role PROMIS T-score from baseline to 3 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm"|The null hypothesis is that there is no difference in change in Satisfaction with Social Role PROMIS T-score from baseline to 3 months between two arms||||0.98
92232153|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Physical Function PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|0.55||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Physical Function PROMIS T-score from baseline to 3 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Physical Function PROMIS T-score from baseline to 3 months between two arms.||||0.83
92278234|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.3|1.3||||||For Pertussis, PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 5.0 EU/mL threshold was calculated||1.3|-1.3|
92381124|NCT01064687|184665584|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.66|-0.39||P-value is adjusted for multiplicity based on a tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.39|-0.66|<0.001
92413681|NCT03039621|184717455|OTHER|Test for assessing the homogeneity of the odds ratio in several 2 × 2 contingency tables.||||||0.22|||||||Breslow-Day test|||||||0.22
92413682|NCT03039621|184717456|SUPERIORITY|||||||0.0037||||||"The p-value associated with treatment factor of total severity index of the disease from Day 1 to Day 2, 3 and 4 endpoint between Ergoferon and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.0037
92413683|NCT03039621|184717457|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
92413684|NCT02522624|184717458|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Linear|||||||<.001
92413685|NCT02522624|184717458|SUPERIORITY_OR_OTHER|||||||0.16||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Linear|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.16
92413686|NCT02522624|184717458|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Linear|||Controlling for Numeracy.||||<.001
92278235|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.9||||||95.0|-6.0|2.0||||||For Pertussis, PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 20 EU/mL threshold was calculated||2.0|-6.0|
92381125|NCT01064687|184665584|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.44|-0.18||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.18|-0.44|<0.001
92381126|NCT01064687|184665584|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.44|-0.18||P-value is adjusted for multiplicity based on a tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.18|-0.44|<0.001
92413687|NCT02522624|184717459|SUPERIORITY_OR_OTHER|||||||0.002||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Linear|||||||0.002
92413688|NCT02522624|184717459|SUPERIORITY_OR_OTHER|||||||0.3|||||||Regression, Linear|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.30
92413689|NCT02522624|184717459|SUPERIORITY_OR_OTHER|||||||0.82|||||||Regression, Linear|||Controlling for Numeracy.||||0.82
92413690|NCT02522624|184717460|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Linear|||||||<.001
92413691|NCT02522624|184717460|SUPERIORITY_OR_OTHER|||||||0.82|||||||Regression, Linear|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.82
92413692|NCT02522624|184717460|SUPERIORITY_OR_OTHER|||||||0.15|||||||Regression, Linear|||Controlling for Numeracy.||||0.15
92381127|NCT01064687|184665585|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.56|||<|0.001|TWO_SIDED|95.0|-0.73|-0.39||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.39|-0.73|<0.001
92381128|NCT01064687|184665585|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.27|||<|0.001|TWO_SIDED|95.0|-0.44|-0.11||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.11|-0.44|<0.001
92413693|NCT02522624|184717461|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.1|TWO_SIDED|95.0|0.92|2.36||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Logistic|||||2.36|0.92|0.10
92232154|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Sleep Disturbance PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|0.84||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Sleep Disturbance PROMIS T-score from baseline to 3 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Sleep Disturbance PROMIS T-score from baseline to 3 months between two arms.||||0.83
92232155|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Physical Function PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|-0.43||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||The parameter was estimated using a difference in change in Physical Function PROMIS T-score from baseline to 6 months between two arms.|The null hypothesis is that there is no difference in change in Physical Function PROMIS T-score from baseline to 6 months between two arms.||||0.96
92381129|NCT01064687|184665585|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.56|||<|0.001|TWO_SIDED|95.0|-0.73|-0.39||P-value is adjusted for multiplicity based on a tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.39|-0.73|<0.001
92381130|NCT01064687|184665585|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|||<|0.001|TWO_SIDED|95.0|-0.44|-0.11||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.11|-0.44|<0.001
92381131|NCT01064687|184665586|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.72|||<|0.001|TWO_SIDED|95.0|-3.58|-1.85|||Mixed Models Analysis|||||-1.85|-3.58|<0.001
92381132|NCT01064687|184665586|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.571|TWO_SIDED|95.0|-0.88|0.49|||Mixed Models Analysis|||||0.49|-0.88|0.571
92381133|NCT01064687|184665586|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.19||||0.007|TWO_SIDED|95.0|-2.06|-0.33|||Mixed Models Analysis|||||-0.33|-2.06|0.007
92381134|NCT01064687|184665586|SUPERIORITY_OR_OTHER||LS Mean Difference|1.33|||<|0.001|TWO_SIDED|95.0|0.64|2.01|||Mixed Models Analysis|||||2.01|0.64|<0.001
92413694|NCT02522624|184717461|SUPERIORITY_OR_OTHER|||||||0.26|||||||Regression, Logistic|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.26
92413695|NCT02522624|184717461|SUPERIORITY_OR_OTHER|||||||0.58|||||||Regression, Linear|||Controlling for Numeracy.||||0.58
92413696|NCT02522624|184717462|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.52|||<|0.001|TWO_SIDED|95.0|1.58|4.01||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Logistic|||||4.01|1.58|<.001
92169261|NCT02528188|184227161|SUPERIORITY||LS Mean Ratio|0.73|STANDARD_ERROR_OF_MEAN|0.15||0.1389|TWO_SIDED|95.0|0.48|1.11|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.11|0.48|0.1389
92278236|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.3|1.3||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 5.0 EU/mL threshold was calculated||1.3|-1.3|
92381135|NCT01064687|184665586|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.52|||<|0.001|TWO_SIDED|95.0|-3.39|-1.65|||Mixed Models Analysis|||||-1.65|-3.39|<0.001
92381136|NCT01064687|184665587|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32||||0.507|TWO_SIDED|95.0|-1.25|0.62|||Mixed Models Analysis|||||0.62|-1.25|0.507
92381137|NCT01064687|184665587|SUPERIORITY_OR_OTHER||LS Mean Difference|1.25||||0.009|TWO_SIDED|95.0|0.32|2.19|||Mixed Models Analysis|||||2.19|0.32|0.009
92381138|NCT01064687|184665588|SUPERIORITY_OR_OTHER||LS Means Difference|-0.97|||<|0.001|TWO_SIDED|95.0|-1.27|-0.67|||Mixed Models Analysis|||||-0.67|-1.27|<0.001
92381139|NCT01064687|184665588|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.568|TWO_SIDED|95.0|-0.31|0.17|||Mixed Models Analysis|||||0.17|-0.31|0.568
92381140|NCT01064687|184665588|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.42||||0.006|TWO_SIDED|95.0|-0.72|-0.12|||Mixed Models Analysis|||||-0.12|-0.72|0.006
92381141|NCT01064687|184665588|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48|||<|0.001|TWO_SIDED|95.0|0.24|0.71|||Mixed Models Analysis|||||0.71|0.24|<0.001
92381142|NCT01064687|184665588|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-1.2|-0.6|||Mixed Models Analysis|||||-0.60|-1.20|<0.001
92381143|NCT01064687|184665589|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.58|TWO_SIDED|95.0|-0.42|0.23|||Mixed Models Analysis|||||0.23|-0.42|0.580
92381144|NCT01064687|184665589|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46||||0.005|TWO_SIDED|95.0|0.14|0.79|||Mixed Models Analysis|||||0.79|0.14|0.005
92381145|NCT01064687|184665590|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.76|||<|0.001|TWO_SIDED|95.0|-34.5|-23.02|||Mixed Models Analysis|||||-23.02|-34.50|<0.001
92381146|NCT01064687|184665590|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.34|||<|0.001|TWO_SIDED|95.0|-13.62|-5.06|||Mixed Models Analysis|||||-5.06|-13.62|<0.001
92381147|NCT01064687|184665590|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.02|||<|0.001|TWO_SIDED|95.0|-29.8|-18.24|||Mixed Models Analysis|||||-18.24|-29.80|<0.001
92381148|NCT01064687|184665590|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.61||||0.038|TWO_SIDED|95.0|-8.95|-0.27|||Mixed Models Analysis|||||-0.27|-8.95|0.038
92381149|NCT01064687|184665590|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.41|||<|0.001|TWO_SIDED|95.0|-25.18|-13.65|||Mixed Models Analysis|||||-13.65|-25.18|<0.001
92413697|NCT02522624|184717462|SUPERIORITY_OR_OTHER|||||||0.39||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Logistic|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.39
92413698|NCT02522624|184717462|SUPERIORITY_OR_OTHER|||||||0.57|||||||Regression, Linear|||Controlling for Numeracy.||||0.57
92232156|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Depression PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|0.07||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Depression PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Depression PROMIS T-score from baseline to 6 months between two arms.||||0.96
92381150|NCT01064687|184665591|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.68||||0.004|TWO_SIDED|95.0|-12.84|-2.52|||Mixed Models Analysis|||||-2.52|-12.84|0.004
92381151|NCT01064687|184665591|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.47||||0.092|TWO_SIDED|95.0|-9.66|0.73|||Mixed Models Analysis|||||0.73|-9.66|0.092
92381152|NCT01064687|184665592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.1|||<|0.001|TWO_SIDED|95.0|7.4|23.4||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||23.4|7.4|<0.001
92381153|NCT01064687|184665592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.2|||<|0.001|TWO_SIDED|95.0|3.9|10.1||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||10.1|3.9|<0.001
92381154|NCT01064687|184665592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8|||<|0.001|TWO_SIDED|95.0|2.8|8.0||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||8.0|2.8|<0.001
92381155|NCT01064687|184665592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.5|3.5||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||3.5|1.5|<0.001
92381156|NCT01064687|184665592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||0.004|TWO_SIDED|95.0|1.3|3.5||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||3.5|1.3|0.004
92381157|NCT01064687|184665592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.8|||<|0.001|TWO_SIDED|95.0|6.7|20.8||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||20.8|6.7|<0.001
92413699|NCT02522624|184717463|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.32|||<|0.001|TWO_SIDED|95.0|5.94|17.95||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Logistic|||||17.95|5.94|<.001
92413700|NCT02522624|184717463|SUPERIORITY_OR_OTHER|||||||0.001||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Logistic|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.001
92413701|NCT02522624|184717463|SUPERIORITY_OR_OTHER|||||||0.46|||||||Regression, Linear|||Controlling for numeracy.||||0.46
92413702|NCT04531462|184717477|SUPERIORITY|Null hypothesis: Mean change from baseline in HbA1c after 52 weeks of treatment with empagliflozin 10 mg = mean change from baseline in HbA1c after 52 weeks of treatment with placebo.|Mean Difference (Net)|-0.57|||<|0.0001|TWO_SIDED|95.0|-0.78|-0.36||Threshold level for statistical significance: α = 0.05 .|Mixed Model Repeated Measures (MMRM)||Empagliflozin 10 mg- Placebo|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) which included fixed classification effects for treatment, gender, baseline renal function, visit and visit-by-treatment interaction, and a linear covariate for baseline HbA1c and age. An unstructured covariance structure was used to model the within patient errors. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom.||-0.36|-0.78|<0.0001
92381158|NCT01064687|184665592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.001|TWO_SIDED|95.0|2.9|6.8||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||6.8|2.9|<0.001
92381159|NCT01064687|184665592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.3|||<|0.001|TWO_SIDED|95.0|3.7|10.9||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||10.9|3.7|<0.001
92381160|NCT01064687|184665592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.001|TWO_SIDED|95.0|1.6|3.5||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||3.5|1.6|<0.001
92381161|NCT01064687|184665592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7|||<|0.001|TWO_SIDED|95.0|1.6|4.6||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||4.6|1.6|<0.001
92381162|NCT01064687|184665593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.7|||<|0.001|TWO_SIDED|95.0|2.4|5.6||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||5.6|2.4|<0.001
92381163|NCT01064687|184665593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.008|TWO_SIDED|95.0|1.1|2.5||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||2.5|1.1|0.008
92381164|NCT01064687|184665593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.5|||<|0.001|TWO_SIDED|95.0|2.3|5.1||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||5.1|2.3|<0.001
92381165|NCT01064687|184665593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||<|0.001|TWO_SIDED|95.0|1.4|3.1||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||3.1|1.4|<0.001
92381166|NCT01064687|184665594|SUPERIORITY_OR_OTHER||LS Mean Difference|35.21|||<|0.001|TWO_SIDED|95.0|27.26|43.16||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||43.16|27.26|<0.001
92381167|NCT01064687|184665594|SUPERIORITY_OR_OTHER||LS Mean Difference|21.12|||<|0.001|TWO_SIDED|95.0|14.97|27.28||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||27.28|14.97|<0.001
92381168|NCT01064687|184665594|SUPERIORITY_OR_OTHER||LS Mean Difference|22.68|||<|0.001|TWO_SIDED|95.0|14.63|30.72||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||30.72|14.63|<0.001
92381169|NCT01064687|184665594|SUPERIORITY_OR_OTHER||LS Mean Difference|8.59||||0.007|TWO_SIDED|95.0|2.31|14.87||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||14.87|2.31|0.007
92381170|NCT01064687|184665594|SUPERIORITY_OR_OTHER||LS Mean Difference|14.09|||<|0.001|TWO_SIDED|95.0|6.06|22.11||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||22.11|6.06|<0.001
92232157|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Satisfaction with Social Role PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|0.23||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model|||The null hypothesis is that there is no difference in change in Satisfaction with Social Role PROMIS T-score from baseline to 6 months between two arms.|"The parameter was estimated using a difference in change in Satisfaction with Social Role PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|||0.96
92381171|NCT01064687|184665594|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.7||||0.207|TWO_SIDED|95.0|-14.56|3.17||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||3.17|-14.56|0.207
92381172|NCT01064687|184665594|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.54||||0.659|TWO_SIDED|95.0|-8.41|5.32||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||5.32|-8.41|0.659
92381173|NCT01064687|184665594|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4||||0.759|TWO_SIDED|95.0|-10.37|7.56||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||7.56|-10.37|0.759
92381174|NCT01064687|184665594|SUPERIORITY_OR_OTHER||LS Mean Difference|2.75||||0.441|TWO_SIDED|95.0|-4.25|9.76||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||9.76|-4.25|0.441
92381175|NCT01064687|184665594|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.15||||0.362|TWO_SIDED|95.0|-13.1|4.79||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||4.79|-13.10|0.362
92381176|NCT01064687|184665595|SUPERIORITY_OR_OTHER||LS Mean Difference|21.64|||<|0.001|TWO_SIDED|95.0|15.2|28.08||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||28.08|15.20|<0.001
92381177|NCT01064687|184665595|SUPERIORITY_OR_OTHER||LS Mean Difference|12.12|||<|0.001|TWO_SIDED|95.0|5.56|18.68||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||18.68|5.56|<0.001
92381178|NCT01064687|184665595|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.73||||0.307|TWO_SIDED|95.0|-10.9|3.43||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||3.43|-10.90|0.307
92381179|NCT01064687|184665595|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.75||||0.638|TWO_SIDED|95.0|-9.05|5.55||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||5.55|-9.05|0.638
92381180|NCT02265796|184665642|SUPERIORITY||||||>|0.05||||||the reported p value is for all between group comparisons of the SAQ domains.|t-test, 2 sided|||between group comparison for all SAQ domains||||>0.05
92381181|NCT02265796|184665642|SUPERIORITY||||||>|0.05||||||reported p value is for the physical limitation, angina frequency and treatment satisfaction domains|paired t test|||within group comparison of change from baseline||||>0.05
92278237|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.3|1.3||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 7.82 EU/mL threshold was calculated||1.3|-1.3|
92381182|NCT02265796|184665642|SUPERIORITY||||||<|0.05||||||reported p value is for the angina stability and quality of life domains|paired t test|||within group comparison of change from baseline||||<0.05
92381183|NCT02265796|184665642|SUPERIORITY||||||>|0.05||||||reported p value is for the physical limitation and treatment satisfaction domains|paired t test|||within group comparison of change from baseline||||>0.05
92381184|NCT02265796|184665642|SUPERIORITY||||||<|0.05||||||reported p value is for the angina stability, angina frequency and quality of life domains|paired t test|||within group comparison of change from baseline||||<0.05
92381185|NCT02265796|184665643|SUPERIORITY|||||||0.58|||||||Fisher Exact|||"between group comparison for the excellent/good"||||0.58
92381186|NCT02265796|184665643|SUPERIORITY|||||||0.8|||||||Fisher Exact|||"Between group analysis for fair/poor"||||0.80
92381187|NCT02265796|184665643|SUPERIORITY|||||||0.5|||||||McNemar|||within group analysis of change from baseline for excellent/good||||0.50
92381188|NCT02265796|184665643|SUPERIORITY|||||||0.48|||||||McNemar|||within group comparison of change from baseline for fair/poor||||0.48
92381189|NCT02265796|184665643|SUPERIORITY|||||||0.19|||||||McNemar|||within group analysis of change from baseline for excellent/good||||0.19
92381190|NCT02265796|184665643|SUPERIORITY|||||||0.067|||||||McNemar|||within group comparison of change from baseline for fair/poor||||0.067
92381191|NCT02265796|184665644|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92381192|NCT00377364|184665729|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||Baseline RAVLT scores used as covariate.||||<0.05
92381193|NCT00377364|184665732|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|Baseline ISS scores used as a covariate. ANCOVA results were not significant.||||||<0.05
92381194|NCT00377364|184665733|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||Baseline HRSD scores used as a covariate.||||<0.05
92381195|NCT00377364|184665735|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|Baseline YMRS scores used as a covariate.||||||0.05
92381196|NCT00377364|184665737|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|Baseline ACQ scores used as a covariate.||||||<0.05
92381197|NCT03480009|184665739|OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||.20
92381198|NCT03480009|184665739|OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||.20
92381199|NCT03480009|184665740|OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Ibuprofen||||.81
92381200|NCT03480009|184665740|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||acetaminophen||||.24
92381201|NCT03480009|184665740|OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||oxycodone||||.54
92381202|NCT03480009|184665740|OTHER|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||Ibuprofen||||.61
92381203|NCT03480009|184665740|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Acetaminophen||||.24
92381204|NCT03480009|184665741|OTHER|||||||0.99|||||||Wald Chi Square|Wald Chi Square from mixed effects linear regression||||||.99
92381205|NCT03480009|184665741|OTHER|||||||0.56|||||||Wald Chi Square|P-value from Wald chi-square from mixed effects linear regression||||||.56
92381206|NCT03480009|184665742|OTHER|||||||0.07|||||||Fisher Exact|||||||.07
92381207|NCT03480009|184665742|OTHER|||||||0.5|||||||Fisher Exact|||||||.50
92381208|NCT02014584|184665755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0||||0.27|TWO_SIDED|95.0|-4.7|18.8|||Fisher's Exact Test|||||18.8|-4.7|0.27
92381209|NCT02014584|184665801|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.5||||0.62|TWO_SIDED|95.0|-10.4|3.4|||Fisher's Exact Test||DB Week 4|||3.4|-10.4|0.62
92278238|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.3||||||95.0|-5.2|2.6||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 64 EU/mL threshold was calculated||2.6|-5.2|
92381210|NCT02014584|184665801|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.4||||0.34|TWO_SIDED|95.0|-4.7|17.6|||Fisher's Exact Test||DB Week 12|||17.6|-4.7|0.34
92381211|NCT02014584|184665801|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.3||||0.31|TWO_SIDED|95.0|-4.2|16.7|||Fisher's Exact Test||DB Week 24|||16.7|-4.2|0.31
92381212|NCT02014584|184665803|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.4|STANDARD_ERROR_OF_MEAN|0.8||0.082|TWO_SIDED|95.0|-0.2|3.0|||t-test from general linear model||DB Week 4|||3.0|-0.2|0.082
92381213|NCT02014584|184665803|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.3|STANDARD_ERROR_OF_MEAN|1.09||0.25|TWO_SIDED|95.0|-3.4|0.9|||t-test from general linear model||DB Week 12|||0.9|-3.4|0.25
92381214|NCT02014584|184665803|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|1.04||0.99|TWO_SIDED|95.0|-2.0|2.1|||t-test from general linear model||DB Week 24|||2.1|-2.0|0.99
92381215|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.33||0.46|TWO_SIDED|95.0|-0.4|0.9|||t-test from general linear model||Erectile Function DB Week 4|||0.9|-0.4|0.46
92381216|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.52||0.14|TWO_SIDED|95.0|-1.8|0.3|||t-test from general linear model||Erectile Function DB Week 12|||0.3|-1.8|0.14
92381217|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.61||0.27|TWO_SIDED|95.0|-1.9|0.5|||t-test from general linear model||Erectile Function DB Week 24|||0.5|-1.9|0.27
92381218|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.23||0.13|TWO_SIDED|95.0|-0.1|0.8|||t-test from general linear model||Intercourse satisfaction DB Week 4|||0.8|-0.1|0.13
92381219|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.33||0.73|TWO_SIDED|95.0|-0.8|0.5|||t-test from general linear model||Intercourse satisfaction DB Week 12|||0.5|-0.8|0.73
92381220|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.34||0.64|TWO_SIDED|95.0|-0.8|0.5|||t-test from general linear model||Intercourse satisfaction DB Week 24|||0.5|-0.8|0.64
92381221|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.16||0.23|TWO_SIDED|95.0|-0.1|0.5|||t-test from general linear model||Orgasmic function DB Week 4|||0.5|-0.1|0.23
92381222|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.33|TWO_SIDED|95.0|-0.5|0.2|||t-test from general linear model||Orgasmic function DB Week 12|||0.2|-0.5|0.33
92381223|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.23||0.64|TWO_SIDED|95.0|-0.6|0.3|||t-test from general linear model||Orgasmic function DB Week 24|||0.3|-0.6|0.64
92381224|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.19|TWO_SIDED|95.0|-0.1|0.7|||t-test from general linear model||Sexual desire DB Week 4|||0.7|-0.1|0.19
92381225|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.28|TWO_SIDED|95.0|-0.7|0.2|||t-test from general linear model||Sexual desire DB Week 12|||0.2|-0.7|0.28
92381226|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.27||1|TWO_SIDED|95.0|-0.5|0.5|||t-test from general linear model||Sexual desire DB Week 24|||0.5|-0.5|1.00
92381227|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.17||0.28|TWO_SIDED|95.0|-0.2|0.5|||t-test from general linear model||Overall sexual satisfaction DB Week 4|||0.5|-0.2|0.28
92381228|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.64|TWO_SIDED|95.0|-0.5|0.3|||t-test from general linear model||Overall sexual satisfaction DB Week 12|||0.3|-0.5|0.64
92381229|NCT02014584|184665805|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.22||0.69|TWO_SIDED|95.0|-0.5|0.3|||t-test from general linear model||Overall sexual satisfaction DB Week 24|||0.3|-0.5|0.69
92381230|NCT02014584|184665807|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.1|STANDARD_ERROR_OF_MEAN|1.14||0.33|TWO_SIDED|95.0|-1.1|3.4|||t-test from general linear model||DB Week 12|||3.4|-1.1|0.33
92381231|NCT02014584|184665807|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.3|STANDARD_ERROR_OF_MEAN|1.14||0.004|TWO_SIDED|95.0|1.1|5.6|||t-test from general linear model||DB Week 24|||5.6|1.1|0.004
92381232|NCT02014584|184665809|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.51||0.22|TWO_SIDED|95.0|-1.7|0.4|||t-test from general linear model||DB Week 12|||0.4|-1.7|0.22
92381233|NCT02014584|184665809|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.76||0.5|TWO_SIDED|95.0|-2.0|1.0|||t-test from general linear model||DB Week 24|||1.0|-2.0|0.50
92381234|NCT02651220|184665824|EQUIVALENCE|Bioequivalence was based on 90% confidence interval within 80-125%.|Bioavailability|100.28|||||TWO_SIDED|90.0|96.78|103.91||||||||103.91|96.78|
92381235|NCT02651220|184665825|EQUIVALENCE|Bioequivalence is based on 90% confidence interval within 80-125%.|Bioavailability|99.73|||||TWO_SIDED|90.0|96.04|103.56||||||||103.56|96.04|
92381236|NCT02651220|184665826|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92381237|NCT01439373|184665833|OTHER||Mean posterior difference|0.46|STANDARD_DEVIATION|0.119|||||||||Bayesian probability model|"P1= P(p805 \>pPLC +0.3 \| data)= 0.905. A probability of 95% (P1 \> 0.95) or greater was to be considered 'substantial evidence of superiority."|Posterior Distribution of Difference= p805 - pPLC, where, p805 is the RVR rate for GSK2336805 and pPLC is the RVR rate for Placebo. 95% credible set was defined as the 2.5 and 97.5 percentiles. 95% credible interval for the estimate was 0.22 to 0.68.|||||
92413703|NCT04531462|184717478|OTHER||Mean Difference (Net)|-0.61||||0.231|TWO_SIDED|95.0|-1.61|0.39|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline muscle mass, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.39|-1.61|0.2310
92413704|NCT04531462|184717479|OTHER||Mean Difference (Net)|-1.84|||<|0.0001|TWO_SIDED|95.0|-2.65|-1.04|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline body fat measurement, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||-1.04|-2.65|<0.0001
92381238|NCT01439373|184665834|OTHER||Mean posterior difference|0.41|STANDARD_DEVIATION|0.122|||||||||Bayesian probability model|"P1= P(p805 \>pPLC +0.3 \| data)= 0.822. A probability of 95% (P1 \> 0.95) or greater was to be considered 'substantial evidence of superiority."|Posterior Distribution of Difference= p805 - pPLC, where, p805 is the RVR rate for GSK2336805 and pPLC is the RVR rate for Placebo. 95% credible set was defined as the 2.5 and 97.5 percentiles. 95% credible interval for the estimate was 0.17 to 0.6|||||
92381239|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.0|||||TWO_SIDED|95.0|0.75|1.33|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 1: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.33|0.75|
92413705|NCT04531462|184717480|OTHER||Mean Difference (Net)|-0.53||||0.1632|TWO_SIDED|95.0|-1.28|0.22|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline lean body mass, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.22|-1.28|0.1632
92413706|NCT04531462|184717481|OTHER||Mean Difference (Net)|-0.63||||0.0384|TWO_SIDED|95.0|-1.23|-0.03|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline total body water, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||-0.03|-1.23|0.0384
92413707|NCT04531462|184717482|OTHER||Mean Difference (Net)|-0.03||||0.1975|TWO_SIDED|95.0|-0.07|0.01|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline bone mineral content, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.01|-0.07|0.1975
92413708|NCT04531462|184717483|OTHER||Mean Difference (Net)|-0.081||||0.3725|TWO_SIDED|95.0|-0.259|0.098|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) which included baseline skeletal muscle index, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.098|-0.259|0.3725
92413709|NCT04531462|184717484|OTHER||Mean Difference (Net)|-0.3||||0.4208|TWO_SIDED|95.0|-1.1|0.5|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline grip strength, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.5|-1.1|0.4208
92413710|NCT04531462|184717485|OTHER||Mean Difference (Net)|0.0||||0.9267|TWO_SIDED|95.0|-1.0|0.9|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline 5-time chair stand test, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.9|-1.0|0.9267
92413711|NCT01350544|184717487|SUPERIORITY||Odds Ratio (OR)|0.79||||0.005|TWO_SIDED|95.0|0.69|0.91||a priori threshold for significance for p \< .05|Mixed Models Analysis|||We used generalized linear mixed models predicting adherence at baseline and 1.5-, 3-, 4.5-, and 6-months post-baseline, with intervention , time, interaction between intervention and time, medical and socio-demographic covariates, and baseline viral load. Sample size was determined with a power analysis assuming .80 power and an alpha level of .05 that would allow for detection of a small-to-medium effect size in adherence between arms.||0.91|0.69|.005
92413712|NCT03859973|184717499|OTHER||Mean Difference (Net)|-0.866||||0.3101|TWO_SIDED|95.0|-2.605|0.833|||Mixed Models Analysis||Least Square Mean of (BI 425809 10 mg + Computerized Cognitive Training) - Least Square Mean of (Placebo + Computerized Cognitive Training)|Restricted maximum likelihood (REML) based approach using a mixed model with repeated measurements (MMRM) which included the following fixed effects: categorical factor of planned treatment, visit (screening, baseline, week 6 and Week 12), planned treatment by visit interaction, continuous covariate of baseline value, baseline by visit interaction, categorical factor of age group, and continuous covariate of change from screening to baseline value.||0.833|-2.605|0.3101
92413713|NCT03859973|184717500|OTHER||Mean Difference (Net)|-1.051||||0.2309|TWO_SIDED|95.0|-2.778|0.676|||Mixed Models Analysis||Least Square Mean of (BI 425809 10 mg + Computerized Cognitive Training) - Least Square Mean of (Placebo + Computerized Cognitive Training)|Restricted maximum likelihood (REML) based approach using a mixed model with repeated measurements (MMRM) which included the following fixed effects: categorical factor of planned treatment, visit (screening, baseline, week 6 and Week 12), planned treatment by visit interaction, continuous covariate of baseline value, baseline by visit interaction, categorical factor of age group, and continuous covariate of change from screening to baseline value.||0.676|-2.778|0.2309
92278239|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.3|1.3||||||For Pertussis, PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||1.3|-1.3|
92413714|NCT03859973|184717501|OTHER||Mean Difference (Net)|0.577||||0.5237|TWO_SIDED|95.0|-1.207|2.362|||ANCOVA||Least Square Mean of (BI 425809 10 mg + Computerized Cognitive Training) - Least Square Mean of (Placebo + Computerized Cognitive Training)|Analysis of Covariance (ANCOVA) which included the following fixed effects: categorical factor of planned treatment, continuous covariate of baseline value, categorical factor of age group.||2.362|-1.207|0.5237
92413715|NCT03859973|184717502|OTHER||Mean Difference (Net)|-0.669||||0.642|TWO_SIDED|95.0|-3.51|2.172|||Mixed Models Analysis||Least Square Mean of (BI 425809 10 mg + Computerized Cognitive Training) - Least Square Mean of (Placebo + Computerized Cognitive Training)|Restricted maximum likelihood (REML) based approach using a mixed model with repeated measurements (MMRM) which included the following fixed effects: categorical factor of planned treatment, visit (baseline, Week 6 and Week 12), planned treatment by visit interaction, continuous covariate of baseline value, baseline by visit interaction, categorical factor of age group.||2.172|-3.510|0.6420
92413716|NCT00159822|184717597|SUPERIORITY_OR_OTHER||Percent of subjects with success|31.7||||||95.0|18.08|48.09|||||Number of subjects with successful global outcomes were summarized and 95% two-sided confidence intervals based on the exact Clopper-Pearson method for the binomial distribution provided.|For sample size calculation, null hypothesis (p\<p0) is defined as response rate \<15% (ie, weak drug efficacy). Alternative hypothesis (p\>pA) defined as response rate \>30%. To reduce the chance of incorrectly rejecting the null hypothesis to 5% (α=5%) and incorrectly rejecting the alternate hypothesis to 20% (β=20%) it was calculated that a sample size of 48 subjects was required. Null hypothesis was rejected (assessing efficacy of study drug) if the number of eligible success was ≥ than n=12.||48.09|18.08|
92413717|NCT00159822|184717598|SUPERIORITY_OR_OTHER||Percent of subjects with success|33.3||||||95.0|18.6|51.0|||||Number of subjects with successful global outcomes were summarized and 95% two-sided confidence intervals based on the exact Clopper-Pearson method for the binomial distribution provided.|Month 3 success=yes||51.0|18.6|
92413718|NCT00159822|184717598|SUPERIORITY_OR_OTHER||Percent of subjects with success|43.9||||||95.0|28.5|60.3|||||Number of subjects with successful global outcomes were summarized and 95% two-sided confidence intervals based on the exact Clopper-Pearson method for the binomial distribution provided.|EOT success=yes||60.3|28.5|
92413719|NCT00159822|184717604|SUPERIORITY_OR_OTHER||Kaplan-Meier estimate overall survival|0.85||||||95.0|0.725|0.976|||||Global survival rate calculated using Kaplan-Meier estimate of overall survival.|||0.976|0.725|
92413720|NCT00864916|184717619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.52|||||||Regression, Linear|||||||0.52
92413721|NCT00470834|184717650|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Log Rank|||||||0.79
92413722|NCT00470834|184717650|SUPERIORITY_OR_OTHER||Relative Risk|0.94|||||TWO_SIDED|95.0|0.61|1.46|||||The hazard ratio is based on the Cox proportional hazards model.|||1.46|0.61|
92413723|NCT00470834|184717650|SUPERIORITY_OR_OTHER||Relative Risk Reduction|5.62|||||TWO_SIDED|95.0|-46.14|39.05|||||Relative Risk Reduction = 100 \* (1 - Relative Risk).|||39.05|-46.14|
92413724|NCT02412488|184717668|OTHER|"The goal of the primary study objective was to estimate the rate of untoward events associated with Reveal LINQ insertions performed in the out-of-cathlab setting through 3-months within a desired level of precision. The target sample size of approximately 200 subjects undergoing Reveal LINQ insertion was selected to ensure that the upper 95% confidence interval would be within 3 percentage points of the point estimate of the untoward event rate assuming the underlying rate was 2%"|Event Rate expressed as a percent|0.0|||||TWO_SIDED|95.0|0.0|2.1|||||The estimate is the observed rate of untoward events expressed as a percentage. The 95% confidence interval is also expressed as a percentage|"There was no formal statistical hypothesis test associated with the primary outcome measure. Rather the goal of the primary study objective was to estimate the rate of untoward events associated with Reveal LINQ insertions performed in the out-of-cathlab setting through 3-months within a desired level of precision."||2.1|0|
92413725|NCT00816023|184717675|SUPERIORITY_OR_OTHER|||||||0.474||95.0|||||Jonckheere-Terpstra|||||||0.474
92413726|NCT00441116|184717678|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|7.54|STANDARD_DEVIATION|20.37||0.0319||95.0|0.75|14.33|||t-test, 2 sided||Mean difference = Drug A minus Drug B|Month 6 - Baseline||14.33|0.75|0.0319
92413727|NCT01332461|184717750|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.649||||0.05|TWO_SIDED|95.0|0.455|0.926|||Log Rank||Covariates for risk models included Charlson Comorbidity Index, presence of asthma, number and quantity of rescue and controller medications, oxygen, and number of COPD healthcare resource use.|||0.926|0.455|0.05
92413728|NCT01332461|184717751|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.601|||<|0.05|TWO_SIDED|95.0|0.326|1.109||COPD-related hospitalization|Log Rank||Covariates for risk models included Charlson Comorbidity Index, presence of asthma, number and quantity of rescue and controller medications, oxygen, and number of COPD healthcare resource use.|||1.109|0.326|<0.05
92413729|NCT01332461|184717751|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.651|||<|0.05|TWO_SIDED|95.0|0.434|0.977||COPD-related ER visit|Log Rank||Covariates for risk models included Charlson Comorbidity Index, presence of asthma, number and quantity of rescue and controller medications, oxygen, and number of COPD healthcare resource use.|||0.977|0.434|<0.05
92413730|NCT01332461|184717751|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.815|||<|0.05|TWO_SIDED|95.0|0.658|1.008||COPD-related physician + Rx visit|Log Rank||Covariates for risk models included Charlson Comorbidity Index, presence of asthma, number and quantity of rescue and controller medications, oxygen, and number of COPD healthcare resource use.|||1.008|0.658|<0.05
92413731|NCT01332461|184717751|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.785|||<|0.05|TWO_SIDED|95.0|0.649|0.948||COPD-related hospitalization/ER visit/physician+Rx|Log Rank||Covariates for risk models included Charlson Comorbidity Index, presence of asthma, number and quantity of rescue and controller medications, oxygen, and number of COPD healthcare resource use.|||0.948|0.649|<0.05
92232158|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Anxiety PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|0.77||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Anxiety PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Anxiety PROMIS T-score from baseline to 6 months between two arms.||||0.96
92232159|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Pain Interference PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|1.05||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Pain Interference PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Pain Interference PROMIS T-score from baseline to 6 months between two arms.||||0.96
92381240|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.24|1.94|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 3: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.94|1.24|
92381241|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.0|||||TWO_SIDED|95.0|0.74|1.41|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 4: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.41|0.74|
92381242|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.4|||||TWO_SIDED|95.0|1.01|2.0|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 5: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.00|1.01|
92413732|NCT03602560|184717779|OTHER|The primary endpoint was analyzed using Cochran-Mantel-Haenszel (CMH) test adjusted for both randomization stratification variables (ALP level: \<350 U/L and 2:350 U/L; pruritus NRS: \<4 and 2:4).|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92381243|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.7|||||TWO_SIDED|95.0|1.18|2.51|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 6B: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.51|1.18|
92381244|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.07|2.47|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 7F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.47|1.07|
92381245|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.3|||||TWO_SIDED|95.0|0.79|2.12|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 9V: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.12|0.79|
92381246|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|0.8|||||TWO_SIDED|95.0|0.58|1.25|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 14: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.25|0.58|
92413733|NCT03602560|184717779|OTHER|The primary endpoint was analyzed using Cochran-Mantel-Haenszel (CMH) test adjusted for both randomization stratification variables (ALP level: \<350 U/L and 2:350 U/L; pruritus NRS: \<4 and 2:4).|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92413734|NCT03602560|184717780|OTHER|Two-sided p-value for each pair-wise comparison was based on the CMH test adjusted for both randomization stratification variables (ALP level: \<350 U/L and 350 U/L; pruritus NRS: \<4 and 4). Breslow-Day test was used to check the homogeneity of treatment effects across stratum.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92413735|NCT03602560|184717780|OTHER|Two-sided p-value for each pair-wise comparison is based on the Cochran Mantel Haenszel test adjusted for both randomization stratification variables (ALP level: \< 350 U/L and \>= 350 U/L; pruritus NRS: \< 4 and \>= 4). Breslow-Day test is used to check the homogeneity of treatment effects across stratum.||||||0.0839|||||||Cochran-Mantel-Haenszel|||||||0.0839
92381247|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.3|||||TWO_SIDED|95.0|0.94|1.93|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 18C: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.93|0.94|
92381248|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.2|||||TWO_SIDED|95.0|0.96|1.61|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 19A: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.61|0.96|
92381249|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.09|2.12|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 19F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.12|1.09|
92381250|NCT00574548|184665856|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|2.8|||||TWO_SIDED|95.0|1.86|4.35|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 23F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||4.35|1.86|
92381251|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.9|||||TWO_SIDED|95.0|1.43|2.57|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 1: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.57|1.43|
92381252|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|2.5|||||TWO_SIDED|95.0|1.95|3.16|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 3: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.16|1.95|
92381253|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.12|1.96|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 4: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.96|1.12|
92381254|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|2.4|||||TWO_SIDED|95.0|1.67|3.31|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 5: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.31|1.67|
92381255|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.7|||||TWO_SIDED|95.0|1.19|2.47|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 6B: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.47|1.19|
92413736|NCT03602560|184717781|OTHER|"Change from baseline is estimated by an analysis of covariance (ANCOVA) model with treatment group (including 3 levels:~Placebo, Initial Dose 5mg, and Initial Dose 10 mg) and randomization ALP stratification as factors, and baseline as a covariate.~The p-value for the interaction between treatment and stratum is 0.7595, hence the interaction is dropped from the model."|Risk Difference (RD)|-1.59||||0.0164|TWO_SIDED|95.0|-2.87|-0.3|||ANCOVA|||||-0.3|-2.87|0.0164
92413737|NCT03602560|184717781|OTHER|"Change from baseline is estimated by an analysis of covariance (ANCOVA) model with treatment group (including 3 levels:~Placebo, Initial Dose 5mg, and Initial Dose 10 mg) and randomization ALP stratification as factors, and baseline as a covariate.~The p-value for the interaction between treatment and stratum is 0.7595, hence the interaction is dropped from the model."|Risk Difference (RD)|-0.46||||0.4781|TWO_SIDED|95.0|-1.77|0.84|||ANCOVA|||||0.84|-1.77|0.4781
92413738|NCT01675167|184717800|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.98|||<|1e-05|TWO_SIDED|95.0|-1.32|-0.64||P value was adjusted using weighted z-test (CHW).|ANCOVA|||||-0.64|-1.32|<.00001
92232160|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Fatigue PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|1.5||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Fatigue PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Fatigue PROMIS T-score from baseline to 6 months between two arms.||||0.96
92232161|NCT03182738|184366273|SUPERIORITY|Linear mixed models to test difference in mean score of Sleep Disturbance PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|2.04||||0.64|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Sleep Disturbance PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Sleep Disturbance PROMIS T-score from baseline to 6 months between two arms.||||0.64
92232162|NCT02886715|184366292|EQUIVALENCE|90% Confidence Interval for the least-squares mean Test/Reference ratios to be within 80-125%|Test-to-Reference Ratio|98.75|||||TWO_SIDED|90.0|94.39|103.31||p-value was no calculated|ANOVA|with treatment and site as fixed effects in the model||||103.31|94.39|
92232163|NCT02886715|184366292|SUPERIORITY||Mean Difference (Final Values)|-5.17||||0.0185|TWO_SIDED|95.0|-9.46|-0.87|||ANOVA|with treatment and site as fixed effects in the model||||-0.87|-9.46|0.0185
92232164|NCT02886715|184366294|EQUIVALENCE|90% Confidence Interval for the least-squares mean Test/Reference ratios to be within 80-125%|Test-to-Reference Ratio|98.39|||||TWO_SIDED|90.0|93.42|103.61||p-value was no calculated|ANOVA|with treatment and site as fixed effects in the model||||103.61|93.42|
92232165|NCT02886715|184366294|SUPERIORITY||Mean Difference (Final Values)|-4.39||||0.0354|TWO_SIDED|95.0|-8.48|-0.3|||ANOVA|with treatment and site as fixed effects in the model||||-0.30|-8.48|0.0354
92381256|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|4.3|||||TWO_SIDED|95.0|2.76|6.61|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 7F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||6.61|2.76|
92381257|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|3.3|||||TWO_SIDED|95.0|1.97|5.45|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 9V: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||5.45|1.97|
92381258|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.4|||||TWO_SIDED|95.0|0.98|2.1|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 14: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.10|0.98|
92381259|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.9|||||TWO_SIDED|95.0|1.32|2.69|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 18C: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.69|1.32|
92232166|NCT05292755|184366314|OTHER|One-way ANOVA was used to compare mean Faith's phylogenetic diversity before and after treatment for each intervention group at a two-tailed 95% confidence interval.||||||0.232|||||||ANOVA|||||||0.232
92232167|NCT05292755|184366315|OTHER|||||||0.224|||||||ANOVA|||ANOVA was used to compare mean Shannon's diversity indices before and after treatment for each intervention group at a two-tailed 95% confidence interval.||||0.224
92232168|NCT05292755|184366316|OTHER|||||||0.227|||||||Repeated measures Mann-U-Whitney|||Repeated measures Mann-U-Whitney tests were used to compare changes in weighted and unweighted UniFrac distances between intervention groups before and after intervention at a two-tailed 95% confidence interval.||||0.227
92232169|NCT02120417|184366339|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.932||||0.762|TWO_SIDED|80.0|0.694|1.252|||Log Rank|The P-value was analyzed by Log-Rank Test stratified by Hormone Receptor Status.||||1.252|0.694|0.762
92232170|NCT01440101|184366349|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value obtained from the Mann-Whitney U test stratified by the presence or absence of Gd+ lesions at baseline.|Wilcoxon (Mann-Whitney)|||||||<0.001
92232171|NCT01440101|184366352|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value obtained from the Van Elteren test stratified by the presence or absence of Gd+ lesions at baseline.|Van Elteren test|||||||<0.001
92232172|NCT01440101|184366353|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon rank sum test|||||||0.006
92232173|NCT01440101|184366354|SUPERIORITY_OR_OTHER||Difference in proportions|0.404|||<|0.001|TWO_SIDED|95.0|0.223|0.586|||Fisher Exact|||Relapse-free proportions compared using a two-sided Fisher exact test. In the analysis, participants with unknown status are considered to have relapsed.||0.586|0.223|<0.001
92232174|NCT01440101|184366355|SUPERIORITY_OR_OTHER|||||||0.729||||||P-value for comparison between the treated and placebo groups was based on analysis of covariance, adjusted for the baseline VAS score.|ANCOVA|||Change from Baseline to Week 12||||0.729
92232175|NCT01440101|184366355|SUPERIORITY_OR_OTHER|||||||0.942||||||P-value for comparison between the treated and placebo groups was based on analysis of covariance, adjusted for the baseline VAS score.|ANCOVA|||Change from Baseline at Week 24||||0.942
92413739|NCT01675167|184717801|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by stratum (dose level)||Responders with ≥30% pain reduction||||<.0001
92413740|NCT01675167|184717801|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by Stratum (Dose Level)||Responders with ≥50% pain reduction||||<.0001
92413741|NCT00833664|184717809|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|98.2||||||90.0|88.1|109.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109.5|88.1|
92413742|NCT00833664|184717810|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|107.6||||||90.0|104.7|110.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||110.6|104.7|
92413743|NCT00833664|184717811|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|98.2||||||90.0|92.7|104.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.0|92.7|
92413744|NCT03952039|184717812|SUPERIORITY||Difference in Proportion|29.6|||<|0.0001|TWO_SIDED|95.0|19.9|39.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test using the Greenland and Robins method to adjust for stratification factors: spleen size by palpation and platelet counts.||Stratified analysis (based on CRF)||39.4|19.9|<0.0001
92413745|NCT03952039|184717813|SUPERIORITY|Stratified analysis (based on CRF)|Difference in Proportion|17.1||||0.0033|TWO_SIDED|95.0|4.8|29.4|||Cochran-Mantel-Haenszel|CMH test using the Greenland and Robins method to adjust for stratification factors: spleen size by palpation and platelet counts.||||29.4|4.8|0.0033
92413746|NCT03952039|184717814|SUPERIORITY||Difference in Proportion|33.5|||<|0.0001|TWO_SIDED|95.0|21.9|45.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test using the Greenland and Robins method to adjust for stratification factors: spleen size by palpation and platelet counts.||Stratified analysis (based on CRF)||45.1|21.9|<0.0001
92232176|NCT00885079|184366368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for change from baseline in the FCS score was determined by comparing the non-inferiority margin (0.4) with the upper limit of the confidence interval of the difference between the 2 treatment groups.|Mean Difference (Final Values)|-0.9|STANDARD_DEVIATION|2.1|<|0.05|TWO_SIDED|95.0|-1.47|-0.24||An analysis of change from baseline of FCS was performed using t-test. The level of singnificanse was 5 % (2-sided).|t-test, 2 sided|||||-0.24|-1.47|<0.05
92232177|NCT00885079|184366369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|||<|0.05|||||||t-test, 2 sided|||||||<0.05
92413747|NCT03952039|184717817|SUPERIORITY||Greenland and Robins method|19.9|||||TWO_SIDED|95.0|10.0|29.7|||Greenland and Robins method|||||29.7|10.0|
92413748|NCT00789074|184717836|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||||||0.14
92232178|NCT00655928|184366421|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92232179|NCT02370121|184366422|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
92232180|NCT02370121|184366423|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
92232181|NCT02370121|184366424|SUPERIORITY_OR_OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
92413749|NCT00789074|184717837|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Changes were compared using repeated measures analysis of variance||||||<0.001
92413750|NCT00789074|184717838|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||F=16.60|ANOVA|Changes were compared using repeated measures analysis of variance||||||<0.001
92413751|NCT00789074|184717839|SUPERIORITY_OR_OTHER||||||<|0.04||95.0||||F=2.92|ANOVA|Changes were compared using repeated measures analysis of variance||||||<0.04
92413752|NCT00789074|184717840|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|Changes were compared using repeated measures analysis of variance||||||0.02
92413753|NCT00789074|184717841|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||ANOVA|Changes were compared using repeated measures analysis of variance||||||0.97
92413754|NCT04175509|184717848|SUPERIORITY|||||||0.378|||||||t-test, 2 sided|||||||.378
92413755|NCT04175509|184717849|SUPERIORITY|||||||0.753|||||||t-test, 2 sided|||||||.753
92413756|NCT04175509|184717850|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.30
92413757|NCT04175509|184717851|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
92413758|NCT04175509|184717852|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||||||0.61
92413759|NCT04175509|184717853|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||||||0.77
92413760|NCT04175509|184717854|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||||||0.48
92413761|NCT04175509|184717855|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||||||0.78
92413762|NCT03874429|184717876|NON_INFERIORITY|Non- inferiority was demonstrated if the upper bound of the 95% CI was no higher than 2 points for the the difference of T2259 minus Vismed Multi.|Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-0.42|1.05|||ANCOVA|||To assess the non inferiority of T2259 compared to Vismed Multi, two-sided 95% confidence interval from ANCOVA model was computed of the difference of T2259 minus Vismed Multi. The model was adjusted for the main effects of investigation product and baseline score.||1.05|-0.42|
92413763|NCT02788279|184717916|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9871|TWO_SIDED|95.0|0.73|1.38|||Stratified Log-Rank|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|Hazard ratio was estimated using stratified Cox regression.|||1.38|0.73|0.9871
92413764|NCT02788279|184717916|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.336|TWO_SIDED|95.0|0.83|1.71|||Stratified Log-Rank|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|Hazard ratio was estimated using stratified Cox regression.|||1.71|0.83|0.3360
92413765|NCT02788279|184717916|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9686|TWO_SIDED|95.0|0.74|1.38|||Unstratified Log-Rank||Hazard ratio was estimated using unstratified Cox regression.|||1.38|0.74|0.9686
92413766|NCT02788279|184717916|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.3553|TWO_SIDED|95.0|0.83|1.69|||Unstratified Log-Rank||Hazard ratio was estimated using unstratified Cox regression.|||1.69|0.83|0.3553
92381260|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.27|2.07|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 19A: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.07|1.27|
92381261|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|2.7|||||TWO_SIDED|95.0|1.96|3.74|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 19F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.74|1.96|
92381262|NCT00574548|184665857|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.05|2.45|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 23F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.45|1.05|
92381263|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.54|0.82|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 1: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.82|0.54|
92381264|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|0.99|1.49|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 3: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.49|0.99|
92381265|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.43|0.68|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 4: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.68|0.43|
92381266|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.43|0.77|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 5: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.77|0.43|
92381267|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.67|1.08|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 6A: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.08|0.67|
92381268|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.71|1.12|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 6B: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.12|0.71|
92413767|NCT02788279|184717917|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.1208|TWO_SIDED|95.0|0.94|1.65|||Stratified Log-Rank|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|Hazard ratio was estimated using stratified Cox regression.|||1.65|0.94|0.1208
92413768|NCT02788279|184717917|SUPERIORITY||Hazard Ratio (HR)|1.39||||0.0509|TWO_SIDED|95.0|1.0|1.94|||Stratified Log-Rank|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|Hazard ratio was estimated using stratified Cox regression.|||1.94|1.00|0.0509
92232182|NCT02370121|184366425|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92232183|NCT02370121|184366426|SUPERIORITY_OR_OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92232184|NCT02370121|184366427|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
92232185|NCT02370121|184366428|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
92232186|NCT02370121|184366429|SUPERIORITY_OR_OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
92232187|NCT02370121|184366430|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
92232188|NCT02370121|184366431|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92232189|NCT02370121|184366432|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92232190|NCT02370121|184366433|SUPERIORITY_OR_OTHER|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||0.83
92232191|NCT02370121|184366434|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
92232192|NCT02370121|184366435|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92232193|NCT02370121|184366436|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92232194|NCT02370121|184366437|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
92381269|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.24|0.49|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 7F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.49|0.24|
92413769|NCT02788279|184717917|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.1726|TWO_SIDED|95.0|0.92|1.6|||Unstratified Log-Rank||Hazard ratio was estimated using unstratified Cox regression.|||1.60|0.92|0.1726
92413770|NCT02788279|184717917|SUPERIORITY||Hazard Ratio (HR)|1.39||||0.0467|TWO_SIDED|95.0|1.0|1.91|||Unstratified Log-Rank||Hazard ratio was estimated using unstratified Cox regression.|||1.91|1.00|0.0467
92413771|NCT02788279|184717918|SUPERIORITY||Difference in Response Rates|0.51||||1|TWO_SIDED|95.0|-3.92|4.94|||Stratified Cochrane-Mantel-Haenszel|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|95% CI for difference in response rates was constructed using Hauck-Anderson method.|||4.94|-3.92|1.0000
92413772|NCT02788279|184717918|SUPERIORITY||Difference in Response Rates|0.0||||1|TWO_SIDED|95.0|-4.89|4.89|||Stratified Cochran-Mantel-Haenszel|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|95% CI for difference in response rates was constructed using Hauck-Anderson method.|||4.89|-4.89|1.0000
92232195|NCT02370121|184366438|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
92232196|NCT04551014|184366441|NON_INFERIORITY|For polypectomy without submucosal injection of EverLiftTM to be considered non-inferior, we calculated that 115 polyps were needed in each group to achieve an alpha value of 0.05, power of 90%, and non-inferiority margin of -10%.||||||0.424|||||||t-test, 2 sided|||||||0.424
92232197|NCT04551014|184366442|SUPERIORITY||||||<|0.0001||||||P-value of \<0.05 was considered statistically significant.|t-test, 2 sided|||||||<0.0001
92232198|NCT04551014|184366443|SUPERIORITY|||||||0.697||||||P-value of \<0.05 was considered statistically significant.|Chi-squared|||||||0.697
92381270|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.26|0.51|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 9V: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.51|0.26|
92381271|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.6|1.02|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 14: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.02|0.60|
92232199|NCT04108429|184366458|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||generalized linear mixed model - this analysis accounts for repeated measures from each participant over the course of Weeks 1, 2, 4, 6 and 8||||.830
92381272|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.54|0.87|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 18C: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.87|0.54|
92381273|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.53|0.82|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 19A: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.82|0.53|
92413773|NCT00329849|184717926|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that for the serogroup A, the seroresponse percentage in the MenACWY-CRM group would be at least 10% lower than that in the MenACWY-PS group at one month postvaccination, i.e. the lower limit of the 95% CI of the difference in response rates (MenACWY-CRM minus MenACWY-PS) ≤-10%.|Group difference|38.0|||||TWO_SIDED|95.0|29.0|47.0|||Chi-squared|||Comparison of hSBA seroresponse for the serogroup A one month after vaccination of MenACWY-CRM and MenACWY-PS||47|29|
92232200|NCT04108429|184366459|SUPERIORITY|||||||0.759|||||||Mixed Models Analysis|||generalized linear mixed model - this analysis accounts for repeated measures from each participant over the course of Weeks 1, 2, 4, 6 and 8||||.759
92413774|NCT00329849|184717926|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that for the serogroup C, the seroresponse percentage in the MenACWY-CRM group would be at least 10% lower than that in the MenACWY-PS group at one month postvaccination, i.e. the lower limit of the 95% CI of the difference in response rates (MenACWY-CRM minus MenACWY-PS) ≤-10%.|Group difference|30.0|||||TWO_SIDED|95.0|19.0|40.0|||Chi-squared|||Comparison of hSBA seroresponse for the serogroup C one month after vaccination of MenACWY-CRM and MenACWY-PS||40|19|
92232201|NCT04108429|184366460|SUPERIORITY|||||||0.275|||||||Simulation Modeling Analysis (SMA) for T|||Counseling center utilization data were examined using Simulation Modeling Analysis (SMA) for Time-Series data to determine if there were changes in utilization between the pre-implementation and implementation phases. SMA evaluates the statistical significance of between-phase changes in data streams and also accounts for the presence of autocorrelation (the non-independence of data points in time-series data streams).||||.275
92232202|NCT04108429|184366462|SUPERIORITY|generalized linear mixed model||||||0.002|||||||Mixed Models Analysis|||||||.002
92232203|NCT04108429|184366463|SUPERIORITY|||||||0.489|||||||Mixed Models Analysis|||generalized linear mixed model||||.489
92232204|NCT04108429|184366464|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||generalized linear mixed model||||.001
92232205|NCT00275561|184366471|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Fisher Exact|||||||0.74
92232206|NCT00275561|184366472|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Fisher Exact|||||||0.49
92232207|NCT00275561|184366473|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92232208|NCT00684177|184366482|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.4||||0.098|TWO_SIDED|95.0|-1.6|18.4|||Chi-squared|||||18.4|-1.6|0.098
92232209|NCT00684177|184366483|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.1||||0.04|TWO_SIDED|95.0|0.6|23.6|||Chi-squared|||||23.6|0.6|0.04
92381274|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.69|1.15|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 19F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.15|0.69|
92381275|NCT00574548|184665858|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.15|2.13|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 23F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||2.13|1.15|
92381276|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.55|0.75|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 1: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.75|0.55|
92381277|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.52|2.01|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 3: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||2.01|1.52|
92381278|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.49|0.66|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 4: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.66|0.49|
92413775|NCT00329849|184717926|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that for the serogroup W, the seroresponse percentage in the MenACWY-CRM group would be at least 10% lower than that in the MenACWY-PS group at one month postvaccination, i.e. the lower limit of the 95% CI of the difference in response rates (MenACWY-CRM minus MenACWY-PS) ≤-10%.|Group difference|28.0|||||TWO_SIDED|95.0|17.0|39.0|||Chi-squared|||Comparison of hSBA seroresponse for the serogroup W one month after vaccination of MenACWY-CRM and MenACWY-PS||39|17|
92232210|NCT00684177|184366484|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.1||||0.04|TWO_SIDED|95.0|0.6|23.6|||Chi-squared|||||23.6|0.6|0.04
92232211|NCT00318292|184366561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.003||95.0|-3.2|-0.7|||t-test, 2 sided|||||-0.7|-3.2|.003
92232212|NCT03093155|184366595|SUPERIORITY||Hazard Ratio (HR)|0.31|||<|0.001|TWO_SIDED|90.0|0.2|0.49|||Regression, Cox|||||0.49|0.20|<0.001
92232213|NCT03093155|184366596|SUPERIORITY|||||||0.003|||||||Fisher Exact|||||||0.003
92232214|NCT03093155|184366597|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.018|TWO_SIDED|90.0|0.38|0.84|||Regression, Cox|||||0.84|0.38|0.018
92232215|NCT03093155|184366598|SUPERIORITY|||||||0.77|||||||Fisher Exact|||||||0.77
92232216|NCT03093155|184366599|SUPERIORITY|||||||0.068|||||||Fisher Exact|||The RECIST responses were categorized as SD/PD or NA compared to PR or Better as a binary outcome.||||0.068
92232217|NCT01075178|184366604|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was assessed with a 95% 1-sided confidence interval for which the upper bound of the difference in the event rates (CASES minus CONTROLS) will correspond to an odds ratio less than 2 (that is, the odds ratio calculated at the upper confidence bound of the difference in event rates will be less than 2).|Observed odds ratio|0.81|||||ONE_SIDED|95.0||0.96|||exact binomial||"Result provided for 95% Confidence Interval (1-Sided) is the odds ratio calculated at the upper bound of the 1-sided 95% confidence interval for the difference in event rates (CASES minus CONTROLS)."|The null hypothesis was that the odds ratio was greater than or equal to 2. The planned sample size of 2000 participants (1000 participants in each group) provided greater than 90% power to determine non-inferiority based on the odds ratio less than 2.||0.96||
92232218|NCT01075178|184366605|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was assessed with a 95% 1-sided confidence interval for which the upper bound of the difference in the event rates (CASES minus CONTROLS) will correspond to an odds ratio less than 2 (that is, the odds ratio calculated at the upper confidence bound of the difference in event rates will be less than 2).|Observed odds ratio|0.8|||||ONE_SIDED|95.0||0.95|||exact binomial||"Result provided for 95% Confidence Interval (1-Sided) is the odds ratio calculated at the upper bound of the 1-sided 95% confidence interval for the difference in event rates (CASES minus CONTROLS)."|The null hypothesis was that the odds ratio was greater than or equal to 2. The planned sample size of 2000 participants (1000 participants in each group) provided greater than 90% power to determine non-inferiority based on the odds ratio less than 2.||0.95||
92278240|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.6||||||95.0|-4.4|3.2||||||For Pertussis, PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 39 EU/mL threshold was calculated||3.2|-4.4|
92278241|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|1.7||||||For Pertussis, PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 5.0 EU/mL threshold was calculated||1.7|-1.7|
92381279|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.67|1.03|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 5: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.03|0.67|
92169262|NCT02528188|184227161|SUPERIORITY||LS Mean Ratio|0.68|STANDARD_ERROR_OF_MEAN|0.14||0.0709|TWO_SIDED|95.0|0.45|1.03|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.03|0.45|0.0709
92169263|NCT02528188|184227170|SUPERIORITY|||||||0.6037|||||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.6037
92169264|NCT02528188|184227170|SUPERIORITY|||||||0.1928|||||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.1928
92169265|NCT02528188|184227170|SUPERIORITY|||||||0.7204|||||||Cochran-Mantel-Haenszel|||Week 8: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.7204
92169266|NCT02528188|184227170|SUPERIORITY|||||||0.7969|||||||Cochran-Mantel-Haenszel|||Week 8: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.7969
92169267|NCT02528188|184227170|SUPERIORITY|||||||0.7857|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.7857
92169268|NCT02528188|184227170|SUPERIORITY|||||||0.6627|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.6627
92169269|NCT02528188|184227170|SUPERIORITY|||||||0.9867|||||||Cochran-Mantel-Haenszel|||Week 24: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.9867
92169270|NCT02528188|184227170|SUPERIORITY|||||||0.819|||||||Cochran-Mantel-Haenszel|||Week 24: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.8190
92169271|NCT02528188|184227170|SUPERIORITY|||||||0.7284|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.7284
92169272|NCT02528188|184227170|SUPERIORITY|||||||0.1545|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.1545
92169273|NCT02299375|184227202|SUPERIORITY_OR_OTHER||Adjusted median|1.04|STANDARD_DEVIATION|0.28|||TWO_SIDED|95.0|0.63|1.73|||||Data presented above are for 95% equal-tailed credible intervals. The estimated posterior probability that the true ratio losmapimod/placebo is \<1 assuming noninformative priors is 0.44.The estimated posterior probability that the true ratio losmapi|||1.73|0.63|
92169274|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.026||||0.371|TWO_SIDED|95.0|-0.031|0.084||Analysis performed using a Mixed-effect Model Repeated Measures (MMRM) with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 2|||0.084|-0.031|0.371
92169275|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.035||||0.244|TWO_SIDED|95.0|-0.024|0.093||Analysis performed using a Mixed-effect Repeated Measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 4|||0.093|-0.024|0.244
92169276|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.059||||0.05|TWO_SIDED|95.0|0.0|0.119||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 8|||0.119|-0.000|0.050
92169277|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.002||||0.942|TWO_SIDED|95.0|-0.063|0.058||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 12|||0.058|-0.063|0.942
92169278|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.127|TWO_SIDED|95.0|-0.014|0.114||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 18|||0.114|-0.014|0.127
92169279|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.079||||0.024|TWO_SIDED|95.0|0.011|0.148||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 26|||0.148|0.011|0.024
92381280|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.57|0.79|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 6B: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.79|0.57|
92381281|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.35|0.52|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 7F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.52|0.35|
92413776|NCT00329849|184717926|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that for the serogroup Y, the seroresponse percentage in the MenACWY-CRM group would be at least 10% lower than that in the MenACWY-PS group at one month postvaccination, i.e. the lower limit of the 95% CI of the difference in response rates (MenACWY-CRM minus MenACWY-PS) ≤-10%.|Group difference|18.0|||||TWO_SIDED|95.0|8.0|28.0|||Chi-squared|||Comparison of hSBA seroresponse for the serogroup Y one month after vaccination of MenACWY-CRM and MenACWY-PS||28|8|
92413777|NCT00329849|184717927|NON_INFERIORITY_OR_EQUIVALENCE|Safety of MenACWY-CRM vaccination was considered non-inferior to the safety of MenACWY-PS vaccination if the upper limit of the two-sided 95% CI of the ratio (MenACWY-CRM group divided by MenACWY-PS group) of the percentage of subjects experiencing at least one severe systemic reaction during 1 to 7 days after vaccination was less than 3.|Group Ratio|6.37|||||TWO_SIDED|95.0|0.82|49.2|||Risk ratio(MenACWY-CRM/MenACWY-PS)|||||49.2|0.82|
92413778|NCT04987944|184717962|OTHER||Least square mean difference|-9.8|||||TWO_SIDED|95.0|-24.5|5.0||||||||5.0|-24.5|
92413779|NCT04987944|184717963|OTHER||Least square mean difference|-3.9|||||TWO_SIDED|95.0|-19.4|11.5||||||||11.5|-19.4|
92413780|NCT04987944|184717964|OTHER||Least square mean difference|0.423|||||TWO_SIDED|95.0|-0.125|0.972||||||||0.972|-0.125|
92413781|NCT00345332|184717967|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||||||<0.01
92413782|NCT00345332|184717968|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||||||<0.01
92413783|NCT04121078|184717969|EQUIVALENCE|Point estimate and its 90% confidence interval (CI) were calculated for Treatment B to Treatment A ratio of geometric means for Cmax based on the mixed-effect model of log-transformed Cmax with sequence, treatment, and period as fixed effects, and participant nested within sequence as a random effect. Bioequivalence was concluded if the 90% CI for the ratio of geometric means is entirely contained within 80% to 125% for Cmax. No adjustments were made for multiplicity.|Geometric Mean Ratio|6.24|||||TWO_SIDED|90.0|4.62|8.42||||||||8.42|4.62|
92413784|NCT04121078|184717970|EQUIVALENCE|Point estimate and its 90% CI were calculated for Treatment B to Treatment A ratio of geometric means for AUC∞ based on the mixed-effect model of log-transformed AUC∞ with sequence, treatment, and period as fixed effects, and participant nested within sequence as a random effect. Bioequivalence was concluded if the 90% CI for the ratio of geometric means is entirely contained within 80% to 125% for AUC∞. No adjustments were made for multiplicity.|Geometric Mean Ratio|5.16|||||TWO_SIDED|90.0|4.25|6.25||||||||6.25|4.25|
92413785|NCT04121078|184717971|EQUIVALENCE|Point estimate and its 90% CI were calculated for Treatment B to Treatment A ratio of geometric means for AUClast based on the mixed-effect model of log-transformed AUClast with sequence, treatment, and period as fixed effects, and participant nested within sequence as a random effect. Bioequivalence was concluded if the 90% CI for the ratio of geometric means is entirely contained within 80% to 125% for AUClast. No adjustments were made for multiplicity.|Geometric Mean Ratio|5.21|||||TWO_SIDED|90.0|4.29|6.32||||||||6.32|4.29|
92169280|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.086||||0.057|TWO_SIDED|95.0|-0.003|0.174||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 39|||0.174|-0.003|0.057
92413786|NCT02012582|184718027|SUPERIORITY_OR_OTHER||||||<|0.04|TWO_SIDED|||||Mixed model analysis for TIL with the patient as random effect and study day, cohort, treatment, and interaction between study day and treatment as fixed effects.|Mixed Models Analysis|||Placebo versus pooled VAS203 Arms/Groups||||<0.04
92413787|NCT02012582|184718028|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Kruskal-Wallis|||Placebo versus pooled VAS203 Arms/Group||||<0.01
92413788|NCT03207438|184718034|SUPERIORITY||Hazard Ratio (HR)|1.39|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED||||||Regression, Cox|||Main effect of quetiapine vs. placebo||||<.001
92413789|NCT03207438|184718034|SUPERIORITY||Hazard Ratio (HR)|1.15|STANDARD_ERROR_OF_MEAN|0.1||0.18|TWO_SIDED||||||Regression, Cox|||Interaction - treatment condition x melancholia||||.18
92413790|NCT03207438|184718034|SUPERIORITY||Hazard Ratio (HR)|1.46|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED||||||Regression, Cox|Adjusted for baseline depression severity, Study number (1-4), and melancholic-by-time interaction.||Main effect of quetiapine vs. placebo||||<.001
92413791|NCT03207438|184718034|SUPERIORITY||Hazard Ratio (HR)|1.17|STANDARD_ERROR_OF_MEAN|0.1||0.14|TWO_SIDED||||||Regression, Cox|Adjusted for baseline depression severity, Study number (1-4), and melancholic-by-time interaction.||Interaction - treatment condition by melancholia||||.14
92413792|NCT03207438|184718035|SUPERIORITY||Hazard Ratio (HR)|1.35|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED||||||Regression, Cox|||Main effect of quetiapine vs. placebo||||<.001
92413793|NCT03207438|184718035|SUPERIORITY||Hazard Ratio (HR)|1.16|STANDARD_ERROR_OF_MEAN|0.11||0.17|TWO_SIDED||||||Regression, Cox|||Interaction - treatment condition x melancholia||||.17
92413794|NCT03207438|184718035|SUPERIORITY||Hazard Ratio (HR)|1.3|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED||||||Regression, Cox|Adjusted for baseline depression severity, Study number (1-4), and melancholic-by-time interaction.||Main effect of quetiapine vs. placebo||||<.001
92413795|NCT03207438|184718035|SUPERIORITY||Hazard Ratio (HR)|1.18|STANDARD_ERROR_OF_MEAN|0.11||0.13|TWO_SIDED||||||Regression, Cox|Adjusted for baseline depression severity, Study number (1-4), and melancholic-by-time interaction.||Interaction - treatment condition by melancholia||||.13
92381282|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.41|0.69|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 9V: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.69|0.41|
92413796|NCT03207438|184718036|SUPERIORITY|||||||0.33|||||||Fisher's exact test|||Day 4 - Fisher's exact test comparing the proportion of quetiapine responders in each sleep subgroup|An exact OR could not be estimated by R; the 95% confidence interval was 0.31 to infinity, p = .33.|||.33
92413797|NCT03207438|184718036|SUPERIORITY||Odds Ratio (OR)|1.3||||0.44|TWO_SIDED||||||Fisher's exact test||The exact limits of 95% confidence interval could not be estimated, it was reported as 0.40 to infinity.|Week 1 - Fisher's exact test comparing the proportion of quetiapine responders in each sleep subgroup||||.44
92413798|NCT03207438|184718036|SUPERIORITY||Chi-squared|0.38||||0.73|TWO_SIDED||||||Chi-squared, Corrected|||Week 2 - Chi-squared test comparing the proportion of quetiapine responders in each sleep subgroup||||.73
92381283|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.75|1.15|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 14: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.15|0.75|
92381284|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.58|0.85|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 18C: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.85|0.58|
92381285|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.58|0.74|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 19A: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.74|0.58|
92381286|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.89|1.39|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 19F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.39|0.89|
92381287|NCT00574548|184665859|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.5|0.73|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 23F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.73|0.50|
92381288|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.7|||||TWO_SIDED|95.0|2.03|3.55|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 1: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.55|2.03|
92381289|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.18|1.89|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 3: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.89|1.18|
92381290|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.7|||||TWO_SIDED|95.0|2.07|3.55|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 4: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.55|2.07|
92381291|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.5|||||TWO_SIDED|95.0|1.77|3.61|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 5: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.61|1.77|
92381292|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.7|||||TWO_SIDED|95.0|1.94|3.88|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 6B: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.88|1.94|
92413799|NCT03207438|184718036|SUPERIORITY||Chi-squared|1.5||||0.11|TWO_SIDED||||||Chi-squared, Corrected|||Week 4 - Chi-squared test comparing the proportion of quetiapine responders in each sleep subgroup||||.11
92413800|NCT03207438|184718036|SUPERIORITY||Chi-squared|0.001||||0.5|TWO_SIDED||||||Chi-squared, Corrected||The actual estimated Chi-squared statistic was 6.35(10\^-31)|Week 6 - Chi-squared test comparing the proportion of quetiapine responders in each sleep subgroup||||.50
92413801|NCT03207438|184718037|SUPERIORITY||Chi-squared|0.001||||0.5|TWO_SIDED||||||Chi-squared, Corrected||Estimated chi-squared statistic was 1.88(10\^-29).|Day 4 - chi-squared test comparing response rates between groups.||||.5
92413802|NCT03207438|184718037|SUPERIORITY||Chi-squared|3.3||||0.03|TWO_SIDED||||||Chi-squared, Corrected|||Week 1 - chi-squared test comparing response rates between groups.||||.03
92232219|NCT01075178|184366606|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was assessed with a 95% 1-sided confidence interval for which the upper bound of the difference in the event rates (CASES minus CONTROLS) will correspond to an odds ratio less than 2 (that is, the odds ratio calculated at the upper confidence bound of the difference in event rates will be less than 2).|Observed odds ratio|1.05|||||ONE_SIDED|95.0||1.64|||exact binomial||"Result provided for 95% Confidence Interval (1-Sided) is the odds ratio calculated at the upper bound of the 1-sided 95% confidence interval for the difference in event rates (CASES minus CONTROLS)."|The null hypothesis was that the odds ratio was greater than or equal to 2. The planned sample size of 2000 participants (1000 participants in each group) provided greater than 90% power to determine non-inferiority based on the odds ratio less than 2.||1.64||
92381293|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|8.5|||||TWO_SIDED|95.0|5.68|12.6|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 7F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||12.60|5.68|
92381294|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|6.7|||||TWO_SIDED|95.0|4.45|10.22|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 9V: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||10.22|4.45|
92381295|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.02|2.18|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 14: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.18|1.02|
92381296|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.8|||||TWO_SIDED|95.0|2.01|3.89|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 18C: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.89|2.01|
92381297|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.5|||||TWO_SIDED|95.0|1.92|3.13|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 19A: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.13|1.92|
92381298|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.5|||||TWO_SIDED|95.0|1.8|3.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 19F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.44|1.80|
92381299|NCT00574548|184665860|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.9|||||TWO_SIDED|95.0|1.92|4.28|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 23F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||4.28|1.92|
92381300|NCT03109184|184665876|SUPERIORITY||Odds Ratio (OR)|1.21|||||TWO_SIDED||||||||3-Month follow-up between groups odds ratio of DV perpetration|||||
92381301|NCT03109184|184665876|SUPERIORITY||Odds Ratio (OR)|0.61|||||TWO_SIDED||||||||9-month follow-up between group odds ratio of DV perpetration|||||
92381302|NCT03109184|184665876|SUPERIORITY||Odds Ratio (OR)|1.79|||||TWO_SIDED||||||||3-month follow-up between groups odds ratio of DV victimization|||||
92381303|NCT03109184|184665876|SUPERIORITY||Odds Ratio (OR)|0.86|||||TWO_SIDED||||||||9-month follow-up between groups odds ratio of DV victimization|||||
92413803|NCT03207438|184718037|SUPERIORITY||Chi-squared|3.87||||0.02|TWO_SIDED||||||Chi-squared, Corrected|||Week 2 - chi-squared test comparing response rates between groups.||||.02
92413804|NCT03207438|184718037|SUPERIORITY||Chi-squared|0.62||||0.22|TWO_SIDED||||||Chi-squared, Corrected|||Week 4 - chi-squared test comparing response rates between groups.||||.22
92413805|NCT03207438|184718037|SUPERIORITY||Chi-squared|2.45||||0.059|TWO_SIDED||||||Chi-squared, Corrected|||Week 6 - chi-squared test comparing response rates between groups.||||.059
92413806|NCT03241368|184718038|OTHER|Comparative - This purpose of this study is to evaluate performance of the PillCam Crohn's capsule \[referred to as capsule endoscopy (CE)\] as compared to IC with MRE.||||||0.125|||||||McNemar|Exact McNemar's test||This was a 1-arm, non-powered study. Sensitivity, Specificity, Positive Predictive Value (PPV) and Negative Predictive Value (NPV) was estimated for each treatment group, along with the 95% confidence interval. The difference between treatment groups in Sensitivity and Specificity was compared.||||0.125
92381304|NCT03109184|184665877|SUPERIORITY||Effect Size (d)|-0.07|||||TWO_SIDED||||||||3-month follow-up between groups effect size of general aggression|||||
92381305|NCT03109184|184665877|SUPERIORITY||Effect Size (d)|0.01|||||TWO_SIDED||||||||9-month follow-up between groups effect size of general aggression|||||
92381306|NCT03109184|184665878|SUPERIORITY||Effect Size (d)|0.01|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent attitudes support aggression|||||
92413807|NCT02189954|184718067|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92413808|NCT02189954|184718067|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mann Whitney U|||||||<0.05
92413809|NCT02112045|184718071|SUPERIORITY|||||||0.43|||||||Log Rank|||||||0.43
92413810|NCT02112045|184718072|SUPERIORITY|||||||0.6|||||||Log Rank|||||||0.60
92413811|NCT03554486|184718091|OTHER|||||||0.051|||||||t-test, 2 sided|||||||0.051
92413812|NCT03554486|184718092|OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
92413813|NCT03554486|184718093|OTHER|||||||0.74|||||||t-test, 2 sided|||||||0.74
92413814|NCT01616693|184718103|SUPERIORITY||Difference in seroconversion proportion|4.4|||||TWO_SIDED|97.5|-4.4|13.2||||||||13.2|-4.4|
92413815|NCT01616693|184718103|SUPERIORITY||Difference in seroconversion proportion|7.5|||||TWO_SIDED|95.0|-1.4|16.2||||||||16.2|-1.4|
92413816|NCT01616693|184718103|SUPERIORITY||Difference in seroconversion proportion|12.0|||||TWO_SIDED|95.0|0.8|22.8||||||||22.8|.8|
92413817|NCT01616693|184718105|SUPERIORITY||Mean Difference (Net)|1.1|||||TWO_SIDED|95.0|-4.3|6.6||||||||6.6|-4.3|
92413818|NCT01616693|184718105|SUPERIORITY||Mean Difference (Net)|-3.1|||||TWO_SIDED|95.0|-8.6|2.3||||||||2.3|-8.6|
92413819|NCT01616693|184718105|SUPERIORITY||Mean Difference (Net)|-2.0|||||TWO_SIDED|95.0|-9.8|5.7||||||||5.7|-9.8|
92413820|NCT01008423|184718112|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Regression, Logistic|||The logistic regression test was used to test for a difference in the percentages between the 2 treatment arms after adjusting for analysis center (country).||||<0.0001
92413821|NCT02034409|184718127|NON_INFERIORITY|For the 48-week OMERACT-OARSI response the minimally clinically significant difference is an absolute rate difference of 10% between sham and PLIUS groups. With a total sample size of 144 the probability of correctly selecting the group with the greatest OORR is at least 0.885 assuming (δ=10%) that the sham group is drawn from a population with a 50% response rate and the PLIUS group is drawn from a population with response rate of at least 60% or at most 40%.||||||||||||||||Sample size has been calculated with ranking and selection methodology, a procedure used for Phase II trials. The purpose of the procedure as applied to this study is to identify whether PLIUS has a high probability of being more effective than sham. This is accomplished by obtaining sample estimates of the outcome for the PLIUS and sham groups and determining whether the PLIUS group outcome is better by the pre-specified margin of difference.|Since the ranking and selection procedures are fundamentally different from traditional hypothesis testing, concepts of statistical significance and power have no direct analogue.|||
92413822|NCT02034409|184718128|NON_INFERIORITY|For the 48-week cartilage change outcome measure the minimally clinically significant difference is 33 μm. With a difference of 33 μm, σ=152 μm standard deviation, k=2 groups, and P=0.90 probability to obtain τ=1.8124, which we use to estimate the per-group sample size: n=σ2(τ/δ\*)2=72 or a total of 144.||||||||||||||||Sample size has been calculated with ranking and selection methodology, a procedure used for Phase II trials. The purpose of the procedure as applied to this study is to identify whether PLIUS has a high probability of being more effective than sham. This is accomplished by obtaining sample estimates of the outcome for the PLIUS and sham groups and determining whether the PLIUS group outcome is better by the pre-specified margin of difference.|Since the ranking and selection procedures are fundamentally different from traditional hypothesis testing, concepts of statistical significance and power have no direct analogue.|||
92413823|NCT02342418|184718139|SUPERIORITY_OR_OTHER|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
92413824|NCT02342418|184718140|SUPERIORITY_OR_OTHER|||||||0.214|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon matched-pair signed-rank test||||0.214
92413825|NCT00183729|184718147|SUPERIORITY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|2.0||0.42|TWO_SIDED||||||Mixed Models Analysis|||Null: the two groups would not differ in depressive symptoms over time (ie both groups would improve equally in terms of their depressive symptoms) Power calculation: none; this was a pilot study||||0.42
92413826|NCT00183729|184718149|SUPERIORITY|(no comments)|Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|7.0||0.06|TWO_SIDED||||||Mixed Models Analysis|||Null hypothesis: functional recovery would be the same in both groups. Power calculation: none. This was a pilot study.||||0.06
92413827|NCT03512457|184718150|SUPERIORITY|Chi-square||||||0.12||||||P-value of \<0.05 is the threshold for statistical significance. The hypothesis was that more women randomized to the intensive intervention would perform skin self-examination.|Chi-squared|Chi-Squared is equal to 1.58, with a P-Value of 0.12.||change from baseline to 3 months in performance of skin self-examination Parallel: response rate||||0.12
92413828|NCT03512457|184718151|SUPERIORITY|Types of lesions in the following categories: Benign nevus, seborrheic keratosis, lentigo, dermatofibroma, atypical nevus. melanoma|||||<|0.05|||||||Chi-squared|||results of skin clinical examination and biopsy of clinically suspicious moles||||<0.05
92413829|NCT01375075|184718154|SUPERIORITY_OR_OTHER||LS Mean Difference|92.61|STANDARD_ERROR_OF_MEAN|9.04|<|0.001|TWO_SIDED|90.0|77.65|107.57||The P-value is for percent change from baseline in HDL-C at Week 2.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||107.57|77.65|<0.001
92413830|NCT01375075|184718154|SUPERIORITY_OR_OTHER||LS Mean Difference|106.17|STANDARD_ERROR_OF_MEAN|10.69|<|0.001|TWO_SIDED|90.0|88.47|123.87||The P-value is for percent change from baseline in HDL-C at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||123.87|88.47|<0.001
92413831|NCT01375075|184718154|SUPERIORITY_OR_OTHER||LS Mean Difference|103.66|STANDARD_ERROR_OF_MEAN|11.18|<|0.001|TWO_SIDED|90.0|85.14|122.17||The P-value is for percent change from baseline in HDL-C at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||122.17|85.14|<0.001
92413832|NCT01375075|184718154|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.46|STANDARD_ERROR_OF_MEAN|4.39|<|0.001|TWO_SIDED|90.0|-24.73|-10.19||The P-value is for percent change from baseline in LDL-C at Week 2.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-10.19|-24.73|<0.001
92413833|NCT01375075|184718154|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.39|STANDARD_ERROR_OF_MEAN|4.4||0.019|TWO_SIDED|90.0|-17.67|-3.11||The P-value is for percent change from baseline in LDL-C at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-3.11|-17.67|0.019
92413834|NCT01375075|184718154|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.26|STANDARD_ERROR_OF_MEAN|4.77||0.011|TWO_SIDED|90.0|-20.17|-4.36||The P-value is for percent change from baseline in LDL-C at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-4.36|-20.17|0.011
92232220|NCT01075178|184366607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was assessed with a 95% 1-sided confidence interval for which the upper bound of the difference in the event rates (CASES minus CONTROLS) will correspond to an odds ratio less than 2 (that is, the odds ratio calculated at the upper confidence bound of the difference in event rates will be less than 2).|Observed odds ratio|0.9|||||ONE_SIDED|95.0||2.19|||exact binomial||"Result provided for 95% Confidence Interval (1-Sided) is the odds ratio calculated at the upper bound of the 1-sided 95% confidence interval for the difference in event rates (CASES minus CONTROLS)."|The null hypothesis was that the odds ratio was greater than or equal to 2. The planned sample size of 2000 participants (1000 participants in each group) provided greater than 90% power to determine non-inferiority based on the odds ratio less than 2.||2.19||
92413835|NCT01375075|184718157|SUPERIORITY_OR_OTHER||LS Mean Difference|3.74|STANDARD_ERROR_OF_MEAN|2.5||0.136|TWO_SIDED|90.0|-0.39|7.88||The P-value is for change from baseline in SBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||7.88|-0.39|0.136
92413836|NCT01375075|184718157|SUPERIORITY_OR_OTHER||LS Mean Difference|2.83|STANDARD_ERROR_OF_MEAN|2.48||0.257|TWO_SIDED|90.0|-1.28|6.94||The P-value is for change from baseline in SBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||6.94|-1.28|0.257
92413837|NCT01375075|184718157|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|2.54||0.021|TWO_SIDED|90.0|1.7|10.1||The P-value is for change from baseline in SBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||10.10|1.70|0.021
92413838|NCT01375075|184718157|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|2.52||0.829|TWO_SIDED|90.0|-4.71|3.62||The P-value is for change from baseline in SBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.62|-4.71|0.829
92413839|NCT01375075|184718157|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|1.5||0.603|TWO_SIDED|90.0|-1.69|3.24||The P-value is for change from baseline in DBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.24|-1.69|0.603
92413840|NCT01375075|184718157|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|1.48||0.656|TWO_SIDED|90.0|-3.11|1.78||The P-value is for change from baseline in DBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.78|-3.11|0.656
92413841|NCT01375075|184718157|SUPERIORITY_OR_OTHER||LS Mean Difference|1.83|STANDARD_ERROR_OF_MEAN|1.52||0.228|TWO_SIDED|90.0|-0.67|4.34||The P-value is for change from baseline in DBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||4.34|-0.67|0.228
92413842|NCT01375075|184718157|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|1.51||0.516|TWO_SIDED|90.0|-3.47|1.51||The P-value is for change from baseline in DBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.51|-3.47|0.516
92413843|NCT01375075|184718158|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|1.11||0.513|TWO_SIDED|90.0|-2.57|1.11|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.11|-2.57|0.513
92413844|NCT01375075|184718158|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|1.12||0.97|TWO_SIDED|90.0|-1.82|1.9|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.90|-1.82|0.970
92413845|NCT01375075|184718158|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|1.16||0.824|TWO_SIDED|90.0|-1.66|2.17|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.17|-1.66|0.824
92413846|NCT01375075|184718158|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|1.12||0.769|TWO_SIDED|90.0|-2.18|1.52|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.52|-2.18|0.769
92413847|NCT01375075|184718159|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.33||0.735|TWO_SIDED|90.0|-0.65|0.43|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.43|-0.65|0.735
92413848|NCT01375075|184718159|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.33||0.503|TWO_SIDED|90.0|-0.32|0.76|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.76|-0.32|0.503
92413849|NCT01375075|184718159|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.33||0.988|TWO_SIDED|90.0|-0.53|0.54|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.54|-0.53|0.988
92413850|NCT01375075|184718159|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.32||0.207|TWO_SIDED|90.0|-0.95|0.13|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.13|-0.95|0.207
92232221|NCT03168867|184366707|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<.05
92232222|NCT01128387|184366717|OTHER||Maximum Tolerated Dose|1.5|||||TWO_SIDED|||||||||Dose of Pantiumumab (in combination with Cisplatin \& Fluorouracil - see below)||||
92232223|NCT01128387|184366717|OTHER||Maximum Tolerated Dose|60.0|||||TWO_SIDED|||||||||Dose of Cisplatin||||
92232224|NCT01128387|184366717|OTHER||Maximum Tolerated Dose|750.0|||||TWO_SIDED|||||||||Dose of Fluorourcil||||
92413851|NCT01375075|184718160|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.43||0.756|TWO_SIDED|90.0|-0.57|0.84|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.84|-0.57|0.756
92413852|NCT01375075|184718160|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.43||0.99|TWO_SIDED|90.0|-0.71|0.7|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.70|-0.71|0.990
92413853|NCT01375075|184718160|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.44||0.565|TWO_SIDED|90.0|-0.47|0.97|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.97|-0.47|0.565
92413854|NCT01375075|184718160|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.43||0.678|TWO_SIDED|90.0|-0.53|0.89|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.89|-0.53|0.678
92413855|NCT01375075|184718161|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.61||0.856|TWO_SIDED|90.0|-0.9|1.12|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.12|-0.90|0.856
92413856|NCT01375075|184718161|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.61||0.869|TWO_SIDED|90.0|-0.9|1.1|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.10|-0.90|0.869
92413857|NCT01375075|184718161|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.62||0.869|TWO_SIDED|90.0|-0.92|1.13|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.13|-0.92|0.869
92413858|NCT01375075|184718161|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61|STANDARD_ERROR_OF_MEAN|0.61||0.317|TWO_SIDED|90.0|-0.4|1.63|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.63|-0.40|0.317
92413859|NCT01375075|184718163|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.13||0.888|TWO_SIDED|90.0|-0.24|0.2|||ANCOVA|Treatment was included in the model as fixed effects, baseline hsCRP as covariate.||||0.20|-0.24|0.888
92413860|NCT01375075|184718163|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.13||0.939|TWO_SIDED|90.0|-0.21|0.23|||ANCOVA|Treatment was included in the model as fixed effects, baseline hsCRP as covariate.||||0.23|-0.21|0.939
92232225|NCT01021111|184366719|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||The values from the three jumps were averaged in order to have one mean value per subject per session. Paired Student t-tests (baseline vs. follow-up) were used to evaluate the effects of the training.||||<0.01
92413861|NCT01375075|184718163|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.13||0.296|TWO_SIDED|90.0|-0.08|0.36|||ANCOVA|Treatment was included in the model as fixed effects, baseline hsCRP as covariate.||||0.36|-0.08|0.296
92413862|NCT01375075|184718163|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.13||0.181|TWO_SIDED|90.0|-0.04|0.4|||ANCOVA|Treatment was included in the model as fixed effects, baseline hsCRP as covariate.||||0.40|-0.04|0.181
92232226|NCT01021111|184366720|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Pearson|||The association between the change in the thigh coronal angular velocity from baseline to follow-up and the change in the knee abduction moment from baseline to follow-up was assessed with the Pearson correlation coefficient (R), alpha =0.05||||<0.05
92232227|NCT01535235|184366721|SUPERIORITY_OR_OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
92413863|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.29|STANDARD_ERROR_OF_MEAN|5.97|<|0.001|TWO_SIDED|90.0|-53.16|-33.41||The P-value is for percent change from baseline in plasma CETP activity at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-33.41|-53.16|<0.001
92413864|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-76.93|STANDARD_ERROR_OF_MEAN|6.02|<|0.001|TWO_SIDED|90.0|-86.89|-66.97||The P-value is for percent change from baseline in plasma CETP activity at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-66.97|-86.89|<0.001
92413865|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-90.81|STANDARD_ERROR_OF_MEAN|6.08|<|0.001|TWO_SIDED|90.0|-100.87|-80.75||The P-value is for percent change from baseline in plasma CETP activity at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-80.75|-100.87|<0.001
92413866|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-67.25|STANDARD_ERROR_OF_MEAN|5.96|<|0.001|TWO_SIDED|90.0|-77.12|-57.39||The P-value is for percent change from baseline in plasma CETP activity at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-57.39|-77.12|<0.001
92413867|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.6|STANDARD_ERROR_OF_MEAN|6.21|<|0.001|TWO_SIDED|90.0|-52.88|-32.33||The P-value is for percent change from baseline in plasma CETP activity at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-32.33|-52.88|<0.001
92232228|NCT01535235|184366722|SUPERIORITY_OR_OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
92278242|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.4||||||95.0|-5.1|2.2||||||For Pertussis, PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 11 EU/mL threshold was calculated||2.2|-5.1|
92413868|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-78.93|STANDARD_ERROR_OF_MEAN|6.17|<|0.001|TWO_SIDED|90.0|-89.15|-68.71||The P-value is for percent change from baseline in plasma CETP activity at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-68.71|-89.15|<0.001
92413869|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-93.67|STANDARD_ERROR_OF_MEAN|6.29|<|0.001|TWO_SIDED|90.0|-104.08|-83.26||The P-value is for percent change from baseline in plasma CETP activity at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-83.26|-104.08|<0.001
92413870|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-75.01|STANDARD_ERROR_OF_MEAN|6.31|<|0.001|TWO_SIDED|90.0|-85.46|-64.57||The P-value is for percent change from baseline in plasma CETP activity at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-64.57|-85.46|<0.001
92413871|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.28|STANDARD_ERROR_OF_MEAN|4.98|<|0.001|TWO_SIDED|90.0|-58.53|-42.04||The P-value is for percent change from baseline in plasma CETP activity at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-42.04|-58.53|<0.001
92413872|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-83.07|STANDARD_ERROR_OF_MEAN|4.98|<|0.001|TWO_SIDED|90.0|-91.32|-74.83||The P-value is for percent change from baseline in plasma CETP activity at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-74.83|-91.32|<0.001
92413873|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-94.51|STANDARD_ERROR_OF_MEAN|5.08|<|0.001|TWO_SIDED|90.0|-102.92|-86.1||The P-value is for percent change from baseline in plasma CETP activity at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-86.10|-102.92|<0.001
92413874|NCT01375075|184718164|SUPERIORITY_OR_OTHER||LS Mean Difference|-67.68|STANDARD_ERROR_OF_MEAN|5.15|<|0.001|TWO_SIDED|90.0|-76.2|-59.16||The P-value is for percent change from baseline in plasma CETP activity at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-59.16|-76.20|<0.001
92413875|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|90.0|1.38|2.21||The P-value is for change from baseline in plasma CETP mass at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.21|1.38|<0.001
92413876|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|3.06|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|90.0|2.65|3.48||The P-value is for change from baseline in plasma CETP mass at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.48|2.65|<0.001
92413877|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|3.46|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|90.0|3.04|3.88||The P-value is for change from baseline in plasma CETP mass at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.88|3.04|<0.001
92413878|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|90.0|1.81|2.63||The P-value is for change from baseline in plasma CETP mass at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.63|1.81|<0.001
92413879|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|1.88|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|1.4|2.36||The P-value is for change from baseline in plasma CETP mass at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.36|1.40|<0.001
92413880|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|2.99|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|2.51|3.47||The P-value is for change from baseline in plasma CETP mass at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.47|2.51|<0.001
92413881|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|3.92|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|90.0|3.42|4.41||The P-value is for change from baseline in plasma CETP mass at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||4.41|3.42|<0.001
92413882|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|2.04|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|1.56|2.52||The P-value is for change from baseline in plasma CETP mass at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.52|1.56|<0.001
92169281|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.481|TWO_SIDED|95.0|-0.09|0.191||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 52|||0.191|-0.090|0.481
92413883|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|1.82|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|1.34|2.31||The P-value is for change from baseline in plasma CETP mass at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.31|1.34|<0.001
92413884|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|2.83|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|2.34|3.31||The P-value is for change from baseline in plasma CETP mass at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.31|2.34|<0.001
92413885|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|3.24|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|90.0|2.74|3.73||The P-value is for change from baseline in plasma CETP mass at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.73|2.74|<0.001
92413886|NCT01375075|184718165|SUPERIORITY_OR_OTHER||LS Mean Difference|2.14|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|1.65|2.63||The P-value is for change from baseline in plasma CETP mass at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.63|1.65|<0.001
92413887|NCT01375075|184718166|SUPERIORITY_OR_OTHER||LS Mean Difference|74.23|STANDARD_ERROR_OF_MEAN|12.59|<|0.001|TWO_SIDED|90.0|53.38|95.07||The P-value is for percent change from baseline in HDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||95.07|53.38|<0.001
92413888|NCT01375075|184718166|SUPERIORITY_OR_OTHER||LS Mean Difference|115.36|STANDARD_ERROR_OF_MEAN|12.55|<|0.001|TWO_SIDED|90.0|94.58|136.14||The P-value is for percent change from baseline in HDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||136.14|94.58|<0.001
92413889|NCT01375075|184718166|SUPERIORITY_OR_OTHER||LS Mean Difference|135.57|STANDARD_ERROR_OF_MEAN|12.72|<|0.001|TWO_SIDED|90.0|114.5|156.63||The P-value is for percent change from baseline in HDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||156.63|114.50|<0.001
92413890|NCT01375075|184718166|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.47|STANDARD_ERROR_OF_MEAN|4.85||0.002|TWO_SIDED|90.0|-23.5|-7.43||The P-value is for percent change from baseline in LDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||-7.43|-23.50|0.002
92413891|NCT01375075|184718166|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.37|STANDARD_ERROR_OF_MEAN|4.83|<|0.001|TWO_SIDED|90.0|-31.37|-15.38||The P-value is for percent change from baseline in LDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||-15.38|-31.37|<0.001
92413892|NCT01375075|184718166|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.19|STANDARD_ERROR_OF_MEAN|4.91|<|0.001|TWO_SIDED|90.0|-30.32|-14.06||The P-value is for percent change from baseline in LDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||-14.06|-30.32|<0.001
92413893|NCT01375075|184718166|SUPERIORITY_OR_OTHER||LS Mean Difference|103.25|STANDARD_ERROR_OF_MEAN|12.64|<|0.001|TWO_SIDED|90.0|82.32|124.18||The P-value is for percent change from baseline in HDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||124.18|82.32|<0.001
92413894|NCT01375075|184718166|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.63|STANDARD_ERROR_OF_MEAN|4.88||0.003|TWO_SIDED|90.0|-22.72|-6.55||The P-value is for percent change from baseline in LDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-6.55|-22.72|0.003
92413895|NCT01379508|184718185|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was derived if the lower limit of two-sided 95% CI for the difference lied above the pre-determined non-inferiority margin (-10%).|Difference in percentage|-4.0|||||TWO_SIDED|95.0|-10.5|2.5||||||Missing DNA data at Wk 52=failure: To evaluate the primary objective, Mantel-Haenszel weighted estimates approach (stratified by HBV DNA level (\< 7 log10 copies/mL or ≥ 7 log10 copies/mL) and ALT (\< 3×ULN or ≥ 3×ULN) at baseline) was employed to assess the proportion of patients (response rate) who achieve HBV DNA \< 300 copies/mL after 52 weeks treatment in each treatment arm, as well as the difference in proportions (telbivudine - tenofovir arm) and the 95% CI of the difference.||2.5|-10.5|
92413896|NCT01379508|184718185|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was derived if the lower limit of two-sided 95% CI for the difference was above the pre-determined non-inferiority margin (-10%).|Difference in percentage|-3.1|||||TWO_SIDED|95.0|-9.4|3.1||||||Imputing +/- 7 days DNA for Wk 52: To evaluate the primary objective, Mantel-Haenszel weighted estimates approach (stratified by HBV DNA level (\< 7 log10 copies/mL or ≥ 7 log10 copies/mL) and ALT (\< 3×ULN or ≥ 3×ULN) at baseline) was employed to assess the proportion of patients (response rate) who achieve HBV DNA \< 300 copies/mL after 52 weeks treatment in each treatment arm, as well as the difference in proportions (telbivudine - tenofovir arm) and the 95% CI of the difference.||3.1|-9.4|
92232229|NCT02469246|184366738|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% confidence interval (CI) approach, with a non-inferiority margin of 10%.|Difference in Percentages|-3.8||||0.15|TWO_SIDED|95.002|-8.9|1.1|||Fisher Exact||The difference in percentages and its 95.002% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of the primary efficacy endpoint was to assess the noninferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||1.1|-8.9|0.15
92381307|NCT03109184|184665878|SUPERIORITY||Effect Size (d)|-0.17|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent attitudes support aggression|||||
92381308|NCT03109184|184665878|SUPERIORITY||Effect Size (d)|0.19|||||TWO_SIDED||||||||3-month follow-up between groups effect size of parent attitudes support aggression|||||
92381309|NCT03109184|184665878|SUPERIORITY||Effect Size (d)|0.2|||||TWO_SIDED||||||||9-month follow-up between groups effect size of parent attitudes support aggression|||||
92381310|NCT03109184|184665879|SUPERIORITY||Effect Size (d)|0.09|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent short-term self-regulation|||||
92381311|NCT03109184|184665879|SUPERIORITY||Effect Size (d)|0.36|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent short-term self-regulation|||||
92381312|NCT03109184|184665879|SUPERIORITY||Effect Size (d)|-0.11|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent long-term self-regulation|||||
92381313|NCT03109184|184665879|SUPERIORITY||Effect Size (d)|0.11|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent long-term self-regulation|||||
92381314|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|0.11|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent reported open family communication|||||
92381315|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|0.06|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent reported open family communication|||||
92381316|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|-0.15|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent reported problems in family communication|||||
92413897|NCT01379508|184718185|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was derived if the lower limit of two-sided 95% CI for the difference lied above the pre-determined non-inferiority margin (-10%).|Difference in percentage|-3.8|||||TWO_SIDED|95.0|-7.9|0.4||||||Imputing LOCF DNA for wk 52: d/c for non response prior to Wk 52: Treating missing as failure for patients who discontinued prior to Week 52 due to unsatisfactory therapeutic effect and imputing missing with LOCF for other patients||0.4|-7.9|
92413898|NCT01379508|184718185|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was derived if the lower limit of two-sided 95% CI for the difference lied above the pre-determined non-inferiority margin (-10%).|Difference in percentage|-2.3|||||TWO_SIDED|95.0|-8.3|3.8||||||Imputing within +28d DNA for wk52: d/c for non response \<28 days from Wk 52:Treating missing as failure for patients who discontinued prior to Week 52 due to unsatisfactory therapeutic effect and imputing missing with the earliest available assessment within the 28-day window starting from the scheduled Week 52 date for other patients (if no such assessment is available, treated as failure)||3.8|-8.3|
92413899|NCT03050775|184718196|SUPERIORITY|||||||0.807|||||||t-test, 2 sided|||||||0.807
92413900|NCT03050775|184718196|SUPERIORITY||Mean Difference (Final Values)|0.076||||0.358|TWO_SIDED|95.0|-0.085|0.237|||ANCOVA|||||0.237|-0.085|0.358
92413901|NCT03050775|184718197|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.823|TWO_SIDED|95.0|-0.3|0.2|||t-test, 2 sided|||\~30 minutes post-induction||0.2|-0.3|0.823
92381317|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|0.06|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent reported problems in family communication|||||
92381318|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|0.62|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent reported number of relationship topics discussed|||||
92381319|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|0.13|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent reported number of relationship topics discussed|||||
92413902|NCT03050775|184718197|SUPERIORITY||Median Difference (Final Values)|0.0||||0.853|TWO_SIDED|95.0|-0.2|0.3|||t-test, 2 sided|||\~60 minutes post-induction. Data was obtained from 33 subjects in the treatment group.||0.3|-0.2|0.853
92413903|NCT03050775|184718197|SUPERIORITY||Median Difference (Final Values)|0.0||||0.986|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|||\~120 minutes post-induction||0.2|-0.2|0.986
92413904|NCT03050775|184718198|SUPERIORITY||Odds Ratio (OR)|1.7||||0.54|TWO_SIDED|95.0|0.5|5.9|||Fisher Exact|||Post-operative shivering observed||5.9|0.5|0.540
92413905|NCT03050775|184718199|SUPERIORITY||Median Difference (Final Values)|0.0||||0.672|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-1|0.672
92381320|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|0.15|||||TWO_SIDED||||||||3-month follow-up between groups effect size of parent reported open family communication|||||
92381321|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|0.01|||||TWO_SIDED||||||||9-month follow-up between groups effect size of parent reported open family communication|||||
92381322|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|-0.15|||||TWO_SIDED||||||||3-month follow-up between groups effect size of parent reported problems in family communication|||||
92381323|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|0.25|||||TWO_SIDED||||||||9-month follow-up between groups effect size of parent reported problems in family communication|||||
92381324|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|0.66|||||TWO_SIDED||||||||3-month follow-up between groups effect size of parent reported number of relationship topics discussed|||||
92381325|NCT03109184|184665880|SUPERIORITY||Effect Size (d)|-0.1|||||TWO_SIDED||||||||9-month follow-up between groups effect size of parent reported number of relationship topics discussed|||||
92381326|NCT03109184|184665881|SUPERIORITY||Effect Size (d)|0.15|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent emotion-regulation|||||
92381327|NCT03109184|184665881|SUPERIORITY||Effect Size (d)|0.32|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent emotion-regulation|||||
92381328|NCT03109184|184665882|SUPERIORITY||Effect Size (d)|-0.11|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent distress tolerance|||||
92381329|NCT03109184|184665882|SUPERIORITY||Effect Size (d)|0.23|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent distress tolerance|||||
92413906|NCT03050775|184718200|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.571|TWO_SIDED|95.0|-0.2|0.1|||t-test, 2 sided|||Data was obtained from 32 subjects in the treatment group.||0.1|-0.2|0.571
92381330|NCT04566601|184665888|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|0.7||||0.4994|TWO_SIDED|95.0|-1.31|2.69||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95 % confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. LS means differences (95 % confidence intervals) for Week 10 are reported.||2.69|-1.31|0.4994
92381331|NCT04566601|184665888|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.6||||0.6014|TWO_SIDED|95.0|-2.6|1.51||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95 % confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. LS means differences (95 % confidence intervals) for Week 10 are reported.||1.51|-2.60|0.6014
92381332|NCT04566601|184665888|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.2||||0.8166|TWO_SIDED|95.0|-2.17|1.72||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95 % confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. LS means differences (95 % confidence intervals) for Week 10 are reported.||1.72|-2.17|0.8166
92381333|NCT04566601|184665888|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.4||||0.6588|TWO_SIDED|95.0|-1.96|1.24||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95 % confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. LS means differences (95 % confidence intervals) for Week 10 are reported.||1.24|-1.96|0.6588
92381334|NCT04566601|184665888|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction.||||||0.3914|||||||MCP-Mod sigmoid Emax model fit|Model assumption: 50% of the maximum effect is achieved at 25 mg, and 90% of the maximum effect is achieved at 75 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 1358894 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.100).||||0.3914
92381335|NCT04566601|184665888|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10 and 12) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction.||||||0.4104|||||||MCP-Mod Emax1 model fit|Model assumption: 50% of the maximum effect is achieved at 25 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 1358894 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.100).||||0.4104
92413907|NCT03050775|184718201|SUPERIORITY||Odds Ratio (OR)|1.4||||0.619|TWO_SIDED|95.0|0.5|3.7|||Fisher Exact|||||3.7|0.5|0.619
92413908|NCT03050775|184718202|SUPERIORITY||Median Difference (Final Values)|75.0||||0.404|TWO_SIDED|95.0|-100.0|250.0|||Wilcoxon (Mann-Whitney)|||||250|-100|0.404
92413909|NCT03603509|184718204|SUPERIORITY|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: HAI Day 28 - HAI Day 0 for Fluad = HAI Day 28 - HAI Day 0 for Fluzone Alternative Hypothesis: HAI Day 28 - HAI Day 0 for Fluad NE HAI Day 28 - HAI Day 0 for Fluzone||||0.062
92413910|NCT03603509|184718213|SUPERIORITY|null hypothesis: CMV Fluad sample index = CMV Fluzone sample index at Baseline alternate hypothesis: CMV Fluad sample index not equal to CMV Fluzone sample index at Baseline||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
92413911|NCT02656680|184718218|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U Test||||0.72
92413912|NCT02656680|184718219|SUPERIORITY|||||||0.31|||||||Chi-squared|||Chi square test comparing proportion retained in each condition.||||0.31
92413913|NCT02656680|184718220|SUPERIORITY|||||||0.69|||||||Chi-squared|||||||0.69
92413914|NCT02656680|184718221|SUPERIORITY|||||||0.218|||||||ANOVA|||We compared mean percent weight loss from baseline across groups with a one-way ANOVA. One participant became pregnant and thus removed from the analysis. This analysis is exploratory given that this pilot study was not powered to detect weight loss differences between groups.||||0.218
92413915|NCT02656680|184718222|SUPERIORITY|||||||0.421|||||||ANOVA|||||||0.421
92413916|NCT04966910|184718235|SUPERIORITY|||||||0.036||||||This p-value applies to the time x condition interaction variable in a repeated-measure ANOVA for client data.|ANOVA|||Repeated measures ANOVA including a time x condition interaction term to test for differences in slopes by condition for client data.||||0.036
92413917|NCT04966910|184718236|SUPERIORITY|||||||0.226||||||This p-value refers to a time x condition interaction term in a repeated measures ANOVA.|ANOVA|||||||.226
92413918|NCT04966910|184718237|SUPERIORITY|||||||0.674||||||This p-value refers to a time x condition interaction term in a repeated measures ANOVA to test for differences in slopes over time.|ANOVA|||||||.674
92413919|NCT04966910|184718238|SUPERIORITY|||||||0.317||||||This p-value refers to a time x condition interaction term in a repeated measures ANOVA to test for differences in slopes over time.|ANOVA|||||||.317
92232230|NCT02469246|184366739|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% CI approach, with a non-inferiority margin of 4%.|Difference in Percentages|-6.3||||0.042|TWO_SIDED|95.0|-12.3|-0.3|||Fisher Exact||The difference in percentages and its 95% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of this efficacy endpoint was to assess the non-inferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||-0.3|-12.3|0.042
92232231|NCT02469246|184366740|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% CI approach, with a non-inferiority margin of 4%.|Difference in Percentages|1.1||||0.45|TWO_SIDED|95.002|-1.0|3.5|||Fisher Exact||The difference in percentages and its 95.002% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of this efficacy endpoint was to assess the non-inferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||3.5|-1.0|0.45
92232232|NCT02469246|184366741|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% CI approach, with a non-inferiority margin of 4%.|Difference in Percentages|1.4||||0.34|TWO_SIDED|95.0|-1.0|4.2|||Fisher Exact||The difference in percentages and its 95% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of this efficacy endpoint was to assess the non-inferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||4.2|-1.0|0.34
92381336|NCT04566601|184665888|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction.||||||0.456|||||||MCP-Mod linear model fit|Model assumption: No parameter assumptions required.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 1358894 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.100).||||0.4560
92381337|NCT04566601|184665888|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction.||||||0.4908|||||||MCP-Mod exponential model fit|Model assumption: 5% of the maximum effect is achieved at 25 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 1358894 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.100).||||0.4908
92381338|NCT04566601|184665888|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction.||||||0.4974|||||||MCP-Mod Emax2 model fit|Model assumption: 70% of the maximum effect is achieved at 5 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 1358894 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.100).||||0.4974
92381339|NCT04566601|184665889|OTHER||Odds Ratio (OR)|0.486|||||TWO_SIDED|95.0|0.207|1.14|||||Odds Ratio of BI 1358894 5mg vs. Placebo.|The odds ratio (OR) and associated confidence intervals between the active treatment arm versus placebo were calculated through a logistic regression model that was adjusted for fixed factors of treatment, baseline ZAN-BPD strata indicator (≤18 vs. ≥19), and the continuous covariate of baseline ZAN-BPD total score.||1.140|0.207|
92381340|NCT04566601|184665889|OTHER||Odds Ratio (OR)|2.294|||||TWO_SIDED|95.0|0.829|7.48|||||Odds Ratio of BI 1358894 25mg vs. Placebo.|The odds ratio (OR) and associated confidence intervals between the active treatment arm versus placebo were calculated through a logistic regression model that was adjusted for fixed factors of treatment, baseline ZAN-BPD strata indicator (≤18 vs. ≥19), and the continuous covariate of baseline ZAN-BPD total score.||7.480|0.829|
92381341|NCT04566601|184665889|OTHER||Odds Ratio (OR)|1.753|||||TWO_SIDED|95.0|0.698|4.861|||||Odds Ratio of BI 1358894 75mg vs. Placebo.|The odds ratio (OR) and associated confidence intervals between the active treatment arm versus placebo were calculated through a logistic regression model that was adjusted for fixed factors of treatment, baseline ZAN-BPD strata indicator (≤18 vs. ≥19), and the continuous covariate of baseline ZAN-BPD total score.||4.861|0.698|
92413920|NCT04966910|184718239|SUPERIORITY|||||||0.741||||||This p-value refers to a time x condition interaction term in a repeated measures ANOVA to test for differences in slopes over time.|ANOVA|||||||.741
92413921|NCT04966910|184718240|SUPERIORITY|||||||0.737||||||This p-value refers to a time x condition interaction term in a repeated measures ANOVA to test for differences in slopes over time.|ANOVA|||||||.737
92413922|NCT00830791|184718247|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.74||||0.325|TWO_SIDED|90.0|0.43|1.26|||ANCOVA||The mean square error on a log scale for this comparison was 0.322.|||1.26|0.43|0.325
92413923|NCT00830791|184718248|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95||||0.718|TWO_SIDED|90.0|0.76|1.2|||ANCOVA||The mean square error on a log scale was 0.061 for this comparison.|||1.20|0.76|0.718
92413924|NCT00830791|184718249|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.63||||0.014|TWO_SIDED|90.0|1.21|2.2|||ANCOVA||The mean square error on a log scale was 0.104 for this comparison.|||2.20|1.21|0.014
92278243|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 5.0 EU/mL threshold was calculated||1.4|-1.4|
92413925|NCT00830791|184718251|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.14||||0.505|TWO_SIDED|90.0|0.81|1.6|||ANCOVA||The mean square error on a log scale for this comparison was 0.133.|||1.60|0.81|0.505
92278244|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 7.82 EU/mL threshold was calculated||1.4|-1.4|
92381342|NCT04566601|184665889|OTHER||Odds Ratio (OR)|1.352|||||TWO_SIDED|95.0|0.642|2.913|||||Odds Ratio of BI 1358894 125mg vs. Placebo.|The odds ratio (OR) and associated confidence intervals between the active treatment arm versus placebo were calculated through a logistic regression model that was adjusted for fixed factors of treatment, baseline ZAN-BPD strata indicator (≤18 vs. ≥19), and the continuous covariate of baseline ZAN-BPD total score.||2.913|0.642|
92381343|NCT04566601|184665890|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.1||||0.9675|TWO_SIDED|95.0|-5.11|4.9||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline DERS-16 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||4.90|-5.11|0.9675
92381344|NCT04566601|184665890|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|0.01||||0.9969|TWO_SIDED|95.0|-5.08|5.1||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline DERS-16 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||5.10|-5.08|0.9969
92381345|NCT04566601|184665890|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.79||||0.7542|TWO_SIDED|95.0|-5.73|4.15||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline DERS-16 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||4.15|-5.73|0.7542
92381346|NCT04566601|184665890|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|1.17||||0.5683|TWO_SIDED|95.0|-2.86|5.19||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline DERS-16 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||5.19|-2.86|0.5683
92381347|NCT04566601|184665891|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-2.07||||0.3568|TWO_SIDED|95.0|-6.49|2.35||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline STAI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||2.35|-6.49|0.3568
92381348|NCT04566601|184665891|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|1.21||||0.6009|TWO_SIDED|95.0|-3.33|5.75||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline STAI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||5.75|-3.33|0.6009
92381349|NCT04566601|184665891|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.36||||0.8705|TWO_SIDED|95.0|-4.7|3.98||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline STAI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||3.98|-4.70|0.8705
92413926|NCT00830791|184718253|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.0|||||TWO_SIDED|90.0|0.0|0.5|||ANCOVA|||||0.50|0.00|
92413927|NCT00830791|184718254|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.0|||||TWO_SIDED|90.0|0.0|0.5|||ANCOVA|||||0.50|0.00|
92413928|NCT02484859|184718286|SUPERIORITY||||||>|0.69|||||||Wilcoxon (Mann-Whitney)|||Median intraoperative bleeding scores were compared with Wilcoxon test. In this pilot study the power analysis showed that a sample size of 44 patients in each group was sufficient to detect a difference of 0.2 in the mean (standard deviation of 0.4) with an 80% power with an alpha error of 0.05 and a beta error of 20%. The Shapiro-Wilk test was used to test the distribution of data.||||>0.69
92413929|NCT02484859|184718287|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92413930|NCT02484859|184718288|SUPERIORITY|||||||0.052|||||||t-test, 2 sided|||||||0.052
92413931|NCT02484859|184718289|SUPERIORITY|||||||0.05|||||||Chi-squared|||Null hypothesis was that the visual analog pain scores (VAS) of patients at arrrival to post anesthetic care unit (PACU) were similar.||||0.05
92413932|NCT02484859|184718289|SUPERIORITY|||||||0.55|||||||Chi-squared|||Null hypothesis was that the visual analog pain scores (VAS) of patients at discharge from post anesthetic care unit (PACU) were similar.||||0.55
92413933|NCT02484859|184718290|SUPERIORITY|||||||0.47|||||||Chi-squared|||||||0.47
92413934|NCT02054481|184718291|SUPERIORITY_OR_OTHER||Mean Difference (Net)|36.4|||<|0.0001|TWO_SIDED|95.0|19.0|53.8|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|||53.8|19.0|<0.0001
92381350|NCT04566601|184665891|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|1.15||||0.5262|TWO_SIDED|95.0|-2.41|4.71||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline STAI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||4.71|-2.41|0.5262
92381351|NCT04566601|184665892|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-1.83||||0.0782|TWO_SIDED|95.0|-3.87|0.21||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PHQ-9 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.21|-3.87|0.0782
92381352|NCT04566601|184665892|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|0.23||||0.8266|TWO_SIDED|95.0|-1.86|2.32||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PHQ-9 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||2.32|-1.86|0.8266
92381353|NCT04566601|184665892|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.27||||0.791|TWO_SIDED|95.0|-2.28|1.74||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PHQ-9 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||1.74|-2.28|0.7910
92381354|NCT04566601|184665892|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.13||||0.8743|TWO_SIDED|95.0|-1.77|1.51||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PHQ-9 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||1.51|-1.77|0.8743
92381355|NCT04566601|184665893|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.05||||0.8016|TWO_SIDED|95.0|-0.47|0.37||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline CGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.37|-0.47|0.8016
92381356|NCT04566601|184665893|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.23||||0.2929|TWO_SIDED|95.0|-0.67|0.2||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline CGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.20|-0.67|0.2929
92381357|NCT04566601|184665893|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.01||||0.9666|TWO_SIDED|95.0|-0.42|0.4||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline CGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.40|-0.42|0.9666
92413935|NCT02054481|184718292|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.6||||0.0355|TWO_SIDED|95.0|1.0|28.2|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|Week 12||28.2|1.0|0.0355
92232233|NCT02469246|184366742|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% CI approach, with a non-inferiority margin of 10%.|Difference in Percentages|-1.6||||0.62|TWO_SIDED|95.0|-7.4|4.2|||Fisher Exact||The difference in percentages and its 95% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of this efficacy endpoint was to assess the noninferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||4.2|-7.4|0.62
92232234|NCT02469246|184366743|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% CI approach, with a non-inferiority margin of 10%.|Difference in Percentages|-5.9||||0.069|TWO_SIDED|95.0|-12.2|0.4|||Fisher Exact||The difference in percentages and its 95% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of this efficacy endpoint was to assess the noninferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||0.4|-12.2|0.069
92232235|NCT02469246|184366744|SUPERIORITY||Difference in LSM|-32.0||||0.026|TWO_SIDED|95.0|-61.0|-4.0||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||-4|-61|0.026
92232236|NCT02469246|184366745|SUPERIORITY||Difference in LSM|-39.0||||0.013|TWO_SIDED|95.0|-70.0|-8.0||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||-8|-70|0.013
92232237|NCT02469246|184366746|SUPERIORITY||Difference in LSM|0.179||||0.4|TWO_SIDED|95.0|-0.24|0.598||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||0.598|-0.240|0.40
92232238|NCT02469246|184366747|SUPERIORITY||Difference in LSM|0.165||||0.53|TWO_SIDED|95.0|-0.348|0.678||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||0.678|-0.348|0.53
92232239|NCT02469246|184366748|SUPERIORITY||Difference in LSM|0.151||||0.63|TWO_SIDED|95.0|-0.465|0.767||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||0.767|-0.465|0.63
92232240|NCT02469246|184366749|SUPERIORITY||Difference in LSM|-0.056||||0.89|TWO_SIDED|95.0|-0.825|0.713||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||0.713|-0.825|0.89
92232241|NCT03352245|184366755|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.2||0.889|TWO_SIDED||||||Mixed Models Analysis|||||||0.889
92232242|NCT03352245|184366756|SUPERIORITY||Mean Difference (Net)|-1.14|STANDARD_ERROR_OF_MEAN|0.88||0.2|TWO_SIDED||||||Mixed Models Analysis|||||||0.20
92232243|NCT03352245|184366757|SUPERIORITY||Mean Difference (Net)|7.79|STANDARD_ERROR_OF_MEAN|5.51||0.166|TWO_SIDED||||||Mixed Models Analysis|||||||0.166
92232244|NCT03352245|184366758|SUPERIORITY||Mean Difference (Net)|-0.64|STANDARD_ERROR_OF_MEAN|3.41||0.853|TWO_SIDED||||||Mixed Models Analysis|||||||0.853
92278245|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.6||||||95.0|-4.6|3.3||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 99 EU/mL threshold was calculated||3.3|-4.6|
92381358|NCT04566601|184665893|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.18||||0.2833|TWO_SIDED|95.0|-0.52|0.15||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline CGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.15|-0.52|0.2833
92413936|NCT02054481|184718292|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.1||||0.0062|TWO_SIDED|95.0|6.0|36.2|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|Week 24||36.2|6.0|0.0062
92232245|NCT03352245|184366759|SUPERIORITY||Mean Difference (Net)|17.04|STANDARD_ERROR_OF_MEAN|7.16||0.022|TWO_SIDED||||||Mixed Models Analysis|||||||0.022
92232246|NCT03352245|184366760|SUPERIORITY||Mean Difference (Net)|-0.43|STANDARD_ERROR_OF_MEAN|3.83||0.911|TWO_SIDED||||||Mixed Models Analysis|||||||0.911
92232247|NCT03352245|184366761|SUPERIORITY||Mean Difference (Net)|-5.18|STANDARD_ERROR_OF_MEAN|6.88||0.456|TWO_SIDED||||||Mixed Models Analysis|||||||0.456
92232248|NCT03352245|184366762|SUPERIORITY||Mean Difference (Net)|-2.05|STANDARD_ERROR_OF_MEAN|3.13||0.515|TWO_SIDED||||||Mixed Models Analysis|||||||0.515
92232249|NCT03352245|184366763|SUPERIORITY||Mean Difference (Net)|-8.65|STANDARD_ERROR_OF_MEAN|5.8||0.144|TWO_SIDED||||||Mixed Models Analysis|||||||0.144
92232250|NCT03352245|184366764|SUPERIORITY||Mean Difference (Net)|0.41|STANDARD_ERROR_OF_MEAN|6.28||0.948|TWO_SIDED||||||Mixed Models Analysis|||||||0.948
92232251|NCT03352245|184366765|SUPERIORITY||Mean Difference (Net)|-8.62|STANDARD_ERROR_OF_MEAN|7.45||0.254|TWO_SIDED||||||Mixed Models Analysis|||||||0.254
92232252|NCT03352245|184366766|SUPERIORITY||Mean Difference (Net)|-13.31|STANDARD_ERROR_OF_MEAN|6.62||0.051|TWO_SIDED||||||Mixed Models Analysis|||||||0.051
92278246|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis, PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||1.4|-1.4|
92413937|NCT02054481|184718293|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.1||||0.0008|TWO_SIDED|95.0|11.3|42.9|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|||42.9|11.3|0.0008
92232253|NCT03352245|184366767|SUPERIORITY||Mean Difference (Net)|4.07|STANDARD_ERROR_OF_MEAN|8.71||0.643|TWO_SIDED||||||Mixed Models Analysis|||||||0.643
92232254|NCT03352245|184366768|SUPERIORITY||Mean Difference (Net)|-9.11|STANDARD_ERROR_OF_MEAN|8.5||0.29|TWO_SIDED||||||Mixed Models Analysis|||||||0.290
92381359|NCT04566601|184665894|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.13||||0.4552|TWO_SIDED|95.0|-0.45|0.2||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.20|-0.45|0.4552
92381360|NCT04566601|184665894|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.13||||0.4734|TWO_SIDED|95.0|-0.47|0.22||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.22|-0.47|0.4734
92381361|NCT04566601|184665894|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.03||||0.8388|TWO_SIDED|95.0|-0.36|0.29||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.29|-0.36|0.8388
92381362|NCT04566601|184665894|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.08||||0.554|TWO_SIDED|95.0|-0.35|0.19||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.19|-0.35|0.5540
92381363|NCT01209078|184665921|SUPERIORITY_OR_OTHER||Difference|-22.2|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for end of therapy Clinical Success.||||
92381364|NCT01209078|184665921|SUPERIORITY_OR_OTHER||Difference|-24.0|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for Follow-up Clinical Success.||||
92381365|NCT01209078|184665922|SUPERIORITY_OR_OTHER||Difference|-35.0|||||TWO_SIDED|95.0|-60.6|-9.4|||Regression, Logistic|||||-9.4|-60.6|
92381366|NCT01209078|184665923|SUPERIORITY_OR_OTHER||Difference|-35.0|||||TWO_SIDED|95.0|-60.6|-9.4|||Regression, Logistic|||||-9.4|-60.6|
92381367|NCT01209078|184665926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-0.41|0.74|||Mixed Models Analysis|||GSK1322322 1500 mg versus Linezolid 600 mg for Day 2 exudate or pus score.||0.74|-0.41|
92381368|NCT01209078|184665926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-0.7|0.45|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 3 exudate or pus score.||0.45|-0.70|
92381369|NCT01209078|184665926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-0.74|0.43|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 4 exudate or pus score.||0.43|-0.74|
92381370|NCT01209078|184665926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|||||TWO_SIDED|95.0|-0.25|0.95|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 8 exudate or pus score.||0.95|-0.25|
92381371|NCT01209078|184665926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-0.49|0.72|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 11 exudate or pus score.||0.72|-0.49|
92381372|NCT01209078|184665926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.53|0.66|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 7 Day Follow- up exudate or pus score.||0.66|-0.53|
92232255|NCT03352245|184366769|SUPERIORITY||Mean Difference (Net)|9.99|STANDARD_ERROR_OF_MEAN|5.49||0.077|TWO_SIDED||||||Mixed Models Analysis|||||||0.077
92232256|NCT03352245|184366770|SUPERIORITY||Mean Difference (Net)|5.27|STANDARD_ERROR_OF_MEAN|4.38||0.237|TWO_SIDED||||||Mixed Models Analysis|||||||0.237
92232257|NCT03352245|184366771|SUPERIORITY||Mean Difference (Net)|1.15|STANDARD_ERROR_OF_MEAN|6.49||0.861|TWO_SIDED||||||Mixed Models Analysis|||||||0.861
92413938|NCT02054481|184718294|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.1||||0.0706|TWO_SIDED|95.0|-0.8|21.1|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|||21.1|-0.8|0.0706
92413939|NCT02054481|184718295|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.8||||0.03|TWO_SIDED|95.0|1.9|37.7|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|||37.7|1.9|0.0300
92413940|NCT02054481|184718297|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.2||||0.0072|TWO_SIDED|95.0|5.7|36.6|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|||36.6|5.7|0.0072
92413941|NCT02054481|184718298|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.1844|||<|0.0001|TWO_SIDED|95.0|0.1|0.4|||Log Rank|||||0.4|0.1|<0.0001
92413942|NCT02564432|184718299|EQUIVALENCE|This is not a randomized clinical trial but is an observational study, each patient's thigh skin site served as the control.|Base mean abundance|0.03|||<|0.05|TWO_SIDED|||||The reported p-value was calculated.|Unweighted UniFrac (qualitative)|Both weighted and unweighted UniFrac were calculated; weighted UniFrac is calculated to be p = 0.398 while unweighted UniFrac was P\<0.03|Differential abundance of Staphylococcus aureus in the stoma calculated by Log2 fold change (y-axis) versus base mean abundance (x-axis)|Sample similarity was calculated using the statistical comparisons of community composition.||||<0.05
92413943|NCT02564432|184718299|OTHER|"In this study, dissimilarities between the stomal and healthy thigh skins were tested.~Observational study. Used only for visualizing trends in the data."|PERMANOVA|0.001|||<|0.005|TWO_SIDED|||||Each stomal community type was distinguished by both its diversity and taxonomic composition|Bray-Curtis dissimilarities|Nonmetric multidimensional scaling (NMDS) of Bray-Curtis dissimilarities|||Loess Regression was used to visualize temporal trends in the Shannnon Diversity and relative abundance of microbes (Staphylococcus, Streptococcus, Corynebacterium, and obligate anaerobes).|||<0.005
92413944|NCT02415842|184718451|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H1N1\_AS over H1N1\_NAS) at Day 21. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.12|||||TWO_SIDED|95.0|0.73|1.72|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.72|0.73|
92413945|NCT02415842|184718451|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H1N1\_AS over H1N1\_NAS) at Day 42. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.23|||||TWO_SIDED|95.0|0.83|1.81|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.81|0.83|
92413946|NCT02415842|184718451|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H1N1\_AS over H1N1\_NAS) at Day 182. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|0.88|||||TWO_SIDED|95.0|0.63|1.24|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.24|0.63|
92413947|NCT02415842|184718452|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H5N1\_AS over H5N1\_NAS) at Day 21 . Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.66|||||TWO_SIDED|95.0|1.12|2.47|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||2.47|1.12|
92413948|NCT02415842|184718452|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H5N1\_AS over H5N1\_NAS) at Day 42. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|2.16|||||TWO_SIDED|95.0|1.54|3.03|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||3.03|1.54|
92413949|NCT02415842|184718452|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H5N1\_AS over H5N1\_NAS) at Day 182. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.95|||||TWO_SIDED|95.0|1.49|2.54|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||2.54|1.49|
92413950|NCT02415842|184718452|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H5N1\_AS over H5N1\_NAS) at Day 385 . Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.63|||||TWO_SIDED|95.0|1.32|2.01|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||2.01|1.32|
92413951|NCT02415842|184718453|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H9N2\_AS over H9N2\_NAS) at Day 21. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.39|||||TWO_SIDED|95.0|1.14|1.69|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.69|1.14|
92413952|NCT02415842|184718453|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H9N2\_AS over H9N2\_NAS) at Day 42. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.49|||||TWO_SIDED|95.0|1.28|1.73|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.73|1.28|
92413953|NCT02415842|184718453|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H9N2\_AS over H9N2\_NAS) at Day 182. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.2|||||TWO_SIDED|95.0|1.0|1.44|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.44|1.00|
92413954|NCT02415842|184718454|EQUIVALENCE|Difference between groups (H1N1\_AS minus H1N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 21.|Difference in percentage of subjects|10.79|||||TWO_SIDED|95.0|-16.5|36.83|||Asymptotic standardized 95% CI|||||36.83|-16.50|
92381373|NCT01209078|184665926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.65|0.58|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 28 Day Follow- up exudate or pus score.||0.58|-0.65|
92169282|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.014||||0.521|TWO_SIDED|95.0|-0.03|0.059||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 2|||0.059|-0.030|0.521
92169283|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.084|TWO_SIDED|95.0|-0.005|0.086||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 4|||0.086|-0.005|0.084
92278247|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.7||||||95.0|-5.8|2.3||||||For Pertussis, PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 69 EU/mL threshold was calculated||2.3|-5.8|
92381374|NCT01209078|184665927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.86|||||TWO_SIDED|95.0|-3.04|1.33|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 2 total SIS.||1.33|-3.04|
92381375|NCT01209078|184665927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|||||TWO_SIDED|95.0|-2.94|1.41|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 3 total SIS.||1.41|-2.94|
92381376|NCT01209078|184665927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.54|||||TWO_SIDED|95.0|-1.68|2.75|||||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 4 total SIS.||2.75|-1.68|
92381377|NCT01209078|184665927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.79|||||TWO_SIDED|95.0|-0.46|4.05|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 8 total SIS.||4.05|-0.46|
92381378|NCT01209078|184665927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19|||||TWO_SIDED|95.0|-1.09|3.47|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 11 total SIS.||3.47|-1.09|
92381379|NCT01209078|184665927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|||||TWO_SIDED|95.0|-1.49|2.98|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 7 Day Follow-up total SIS.||2.98|-1.49|
92381380|NCT01209078|184665927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||||TWO_SIDED|95.0|-2.09|2.52|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 28 Day Follow-up total SIS.||2.52|-2.09|
92381381|NCT01209078|184665928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.86|||||TWO_SIDED|95.0|-3.04|1.33|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 2 total SIS.||1.33|-3.04|
92381382|NCT01209078|184665928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.77|||||TWO_SIDED|95.0|-2.94|1.41|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 3 total SIS.||1.41|-2.94|
92381383|NCT01209078|184665928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.54|||||TWO_SIDED|95.0|-1.68|2.75|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 4 total SIS.||2.75|-1.68|
92381384|NCT01209078|184665928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.79|||||TWO_SIDED|95.0|-0.46|4.05|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 8 total SIS.||4.05|-0.46|
92381385|NCT01209078|184665928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.19|||||TWO_SIDED|95.0|-1.09|3.47|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 11 total SIS.||3.47|-1.09|
92381386|NCT01209078|184665928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74|||||TWO_SIDED|95.0|-1.49|2.98|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 7 Day Follow-up total SIS.||2.98|-1.49|
92381387|NCT01209078|184665928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21|||||TWO_SIDED|95.0|-2.09|2.52|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 28 Day Follow-up total SIS.||2.52|-2.09|
92381388|NCT01209078|184665929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-68.85|||||TWO_SIDED|95.0|-132.8|-4.95|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 2 wound area.||-4.95|-132.8|
92381389|NCT01209078|184665929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.06|||||TWO_SIDED|95.0|-66.54|60.43|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 3 wound area.||60.43|-66.54|
92413955|NCT02415842|184718454|EQUIVALENCE|Difference between groups (H1N1\_AS minus H1N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 42.|Difference in percentage of subjects|12.0|||||TWO_SIDED|95.0|-14.45|36.98|||Asymptotic standardized 95% CI|||||36.98|-14.45|
92413956|NCT02415842|184718454|EQUIVALENCE|Difference between groups (H1N1\_AS minus H1N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 182.|Difference in percentage of subjects|-6.07|||||TWO_SIDED|95.0|-30.56|18.65|||Asymptotic standardized 95% CI|||||18.65|-30.56|
92232258|NCT02690701|184366780|SUPERIORITY|This superiority trial compares secukinumab with placebo with a view of demonstrating the superiority of secukinumab over placebo with regards to a specific outcome measure.|Least Square Mean|-0.053|STANDARD_ERROR_OF_MEAN|0.059||0.3712|TWO_SIDED|95.0|-0.169|0.064|||ANCOVA|||Statistical analysis (Analysis of Covariance) of change from baseline in target to background ratio for regions of the aorta at Week 12 (Full Analysis Set)||0.064|-0.169|0.3712
92413957|NCT02415842|184718455|EQUIVALENCE|Difference between groups (H5N1\_AS minus H5N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 21.|Difference in percentage of subjects|27.08|||||TWO_SIDED|95.0|5.96|47.01|||Asymptotic standardized 95% CI|||||47.01|5.96|
92413958|NCT02415842|184718455|EQUIVALENCE|Difference between groups (H5N1\_AS minus H5N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 42.|Difference in percentage of subjects|36.65|||||TWO_SIDED|95.0|11.41|57.53|||Asymptotic standardized 95% CI|||||57.53|11.41|
92413959|NCT02415842|184718455|EQUIVALENCE|Difference between groups (H5N1\_AS minus H5N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 182.|Difference in percentage of subjects|6.39|||||TWO_SIDED|95.0|-11.91|24.71|||Asymptotic standardized 95% CI|||||24.71|-11.91|
92413960|NCT02415842|184718455|EQUIVALENCE|Difference between groups (H5N1\_AS minus H5N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 365.|Difference in percentage of subjects|6.9|||||TWO_SIDED|95.0|-6.19|22.15|||Asymptotic standardized 95% CI|||||22.15|-6.19|
92413961|NCT02415842|184718456|EQUIVALENCE|Difference between groups (H9N2\_AS minus H9N2\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 21.|Difference in percentage of subjects|3.33|||||TWO_SIDED|95.0|-13.06|20.24|||Asymptotic standardized 95% CI|||||20.24|-13.06|
92413962|NCT02415842|184718456|EQUIVALENCE|Difference between groups (H9N2\_AS minus H9N2\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 42.|Difference in percentage of subjects|16.67|||||TWO_SIDED|95.0|0.35|34.76|||Asymptotic standardized 95% CI|||||34.76|0.35|
92413963|NCT02415842|184718456|EQUIVALENCE|Difference between groups (H9N2\_AS minus H9N2\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 182.|Difference in percentage of subjects|0.24|||||TWO_SIDED|95.0|-13.76|15.0|||Asymptotic standardized 95% CI|||||15.00|-13.76|
92413964|NCT00528970|184718470|OTHER||Mean Difference (Final Values)|2.0||||0.944||||||Threshold for significance at 0.05 level.|Log Rank|||Analysis was performed using log-rank test stratified by surgery type and region for comparisons of survival distributions for active MOA versus Placebo group.||||0.944
92413965|NCT00528970|184718470|OTHER||Mean Difference (Final Values)|9.1||||0.208||||||Threshold for significance at 0.05 level.|Log Rank|||Analysis was performed using log-rank test stratified by surgery type and region for comparisons of survival distributions for active MOA versus Placebo group.||||0.208
92413966|NCT02882152|184718474|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"Results were compared by means of the ANOVA of repeated measures followed by Bonferroni test.~Comparing: all four moments, from zero to 72hs within femoral blockade group, all four moments within morphine group, and all four moments between the groups"||||<0.05
92413967|NCT02882152|184718475|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"Results were compared by means of the ANOVA of repeated measures followed by Bonferroni test.~Comparing: all four moments, from zero to 72hs within femoral blockade group, all four moments within morphine group, and all four moments between the groups"||||<0.05
92413968|NCT00791973|184718476|SUPERIORITY_OR_OTHER|||||||0.33|||||||Wilcoxon signed-rank test|||||||0.33
92413969|NCT00791973|184718477|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon signed-rank test|||||||0.14
92413970|NCT00797966|184718479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.6551|TWO_SIDED|95.0|-2.87|1.81|||ANCOVA|||The planned sample size of 120 participants per arm will yield 80% power to detect the treatment effects at a 2-tailed significance level of 0.025. The 0.025 significance level corresponds to the second level of Hochberg's procedure for handling the two primary efficacy comparisons.||1.81|-2.87|0.6551
92413971|NCT00797966|184718479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.7037|TWO_SIDED|95.0|-2.3|1.55|||ANCOVA|||The planned sample size of 120 participants per arm will yield 80% power to detect the treatment effects at a 2-tailed significance level of 0.025. The 0.025 significance level corresponds to the second level of Hochberg's procedure for handling the two primary efficacy comparisons.||1.55|-2.30|0.7037
92413972|NCT00797966|184718479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.14||||0.0303|TWO_SIDED|95.0|-4.08|-0.21|||ANCOVA|||The planned sample size of 120 participants per arm will yield 80% power to detect the treatment effects at a 2-tailed significance level of 0.025. The 0.025 significance level corresponds to the second level of Hochberg's procedure for handling the two primary efficacy comparisons.||-0.21|-4.08|0.0303
92413973|NCT00797966|184718480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.4166|TWO_SIDED|95.0|-0.43|0.18|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo|||0.18|-0.43|0.4166
92413974|NCT00797966|184718480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.4193|TWO_SIDED|95.0|-0.35|0.15|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||0.15|-0.35|0.4193
92413975|NCT00797966|184718480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0064|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||-0.10|-0.60|0.0064
92413976|NCT00797966|184718481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68||||0.449|TWO_SIDED|95.0|-2.67|6.02|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||6.02|-2.67|0.4490
92413977|NCT00797966|184718481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.7412|TWO_SIDED|95.0|-3.02|4.24|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||4.24|-3.02|0.7412
92413978|NCT00797966|184718481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.54||||0.407|TWO_SIDED|95.0|-2.1|5.17|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||5.17|-2.10|0.4070
92413979|NCT00797966|184718482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.4954|TWO_SIDED|95.0|-0.86|0.42|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||0.42|-0.86|0.4954
92413980|NCT00797966|184718482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.4902|TWO_SIDED|95.0|-0.73|0.35|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||0.35|-0.73|0.4902
92381390|NCT01209078|184665929|SUPERIORITY_OR_OTHER||Median Difference (Net)|31.47|||||TWO_SIDED|95.0|-33.53|96.47|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 4 wound area.||96.47|-33.53|
92381391|NCT01209078|184665929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|43.94|||||TWO_SIDED|95.0|-22.43|110.31|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 8 wound area.||110.31|-22.43|
92381392|NCT01209078|184665929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.21|||||TWO_SIDED|95.0|-33.03|101.45|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 11 wound area.||101.45|-33.03|
92381393|NCT01209078|184665929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.57|||||TWO_SIDED|95.0|-28.25|103.4|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 7 Day Follow-up wound area.||103.40|-28.25|
92381394|NCT01209078|184665929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.4|||||TWO_SIDED|95.0|-30.77|105.56|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 28 Day Follow-up wound area.||105.56|-30.77|
92381395|NCT01209078|184665930|SUPERIORITY_OR_OTHER||Difference|-35.4|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for Staphylococcus aureus (all).||||
92381396|NCT01209078|184665930|SUPERIORITY_OR_OTHER||Difference|-37.5|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for MRSA.||||
92381397|NCT01209078|184665930|SUPERIORITY_OR_OTHER||Difference|-28.6|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for MSSA.||||
92381398|NCT01209078|184665930|SUPERIORITY_OR_OTHER||Difference|-66.7|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for Streptococcus pyogenes.||||
92381399|NCT01209078|184665930|SUPERIORITY_OR_OTHER||Difference|-25.0|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for Gram-negative pathogens.||||
92381400|NCT01209078|184665930|SUPERIORITY_OR_OTHER||Difference|-37.5|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for All pathogens.||||
92381401|NCT01209078|184665930|SUPERIORITY_OR_OTHER||Difference|2.2|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for No pathogens.||||
92381402|NCT02702180|184665937|SUPERIORITY||Least Square Means (LSmean)|-4.6||||0.1688|TWO_SIDED|95.0|-11.1|2.0|||ANCOVA||The estimated value represents the estimated difference between once daily molgramostim and placebo groups in LSmean change from baseline to week 24.|Primary endpoint was evaluated using analysis of covariance with treatment, whole lung lavage within 2 months before baseline, and geographic region as factors, and baseline values as covariates. To control type I error, key secondary endpoints were analyzed using a testing hierarchy wherein once daily molgramostim and placebo was compared and if statistical significance was reached, evaluation of intermittent molgramostim and placebo would proceed.||2.0|-11.1|0.1688
92232259|NCT02700451|184366810|EQUIVALENCE|Two-sided 95% confidence interval|||||<|0.001||||||Threshold for statistical significance was p = 0.05|Kruskal-Wallis|||The distribution of OME total in the first 72H is the same across these arms||||<0.001
92413981|NCT00797966|184718482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0161|TWO_SIDED|95.0|-1.2|-0.12|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||-0.12|-1.20|0.0161
92381403|NCT02702180|184665937|SUPERIORITY||Least Square Means (LSmean)|-2.8||||0.3968|TWO_SIDED|95.0|-9.3|3.7|||ANCOVA||The estimated value represents the estimated difference between intermittent molgramostim and placebo groups in LSmean change from baseline to week 24.|||3.7|-9.3|0.3968
92381404|NCT02702180|184665938|SUPERIORITY||Least Square Means (LSmean)|20.6||||0.3159|TWO_SIDED|95.0|-19.8|61.0|||ANCOVA||The estimated value represents the estimated difference between once daily molgramostim and placebo groups in LSmean change from baseline to week 24.|||61.0|-19.8|0.3159
92381405|NCT02702180|184665938|SUPERIORITY||Least Square Means (LSmean)|5.6||||0.7809|TWO_SIDED|95.0|-34.1|45.2|||ANCOVA||The estimated value represents the estimated difference between intermittent molgramostim and placebo groups in LSmean change from baseline to week 24.|||45.2|-34.1|0.7809
92381406|NCT02702180|184665939|SUPERIORITY||Least Square Means (LSmean)|-7.6||||0.0103|TWO_SIDED|95.0|-13.4|-1.8|||ANCOVA||The estimated value represents the estimated difference between once daily molgramostim and placebo groups in LSmean change from baseline to week 24.|||-1.8|-13.4|0.0103
92413982|NCT00797966|184718488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.5953|TWO_SIDED|95.0|-2.54|1.46|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||1.46|-2.54|0.5953
92413983|NCT00797966|184718488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.9479|TWO_SIDED|95.0|-1.66|1.55|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||1.55|-1.66|0.9479
92381407|NCT02702180|184665939|SUPERIORITY||Least Square Means (LSmean)|-7.0||||0.0173|TWO_SIDED|95.0|-12.7|-1.3|||ANCOVA||The estimated value represents the estimated difference between intermittent molgramostim and placebo groups in LSmean change from baseline to week 24..|||-1.3|-12.7|0.0173
92381408|NCT02702180|184665940|SUPERIORITY||Risk Ratio (RR)|0.284||||0.1918|TWO_SIDED|95.0|0.043|1.881|||Negative binomial regression||The estimated value represents the RR between once daily molgramostim and placebo groups.|||1.881|0.043|0.1918
92381409|NCT02702180|184665940|SUPERIORITY||Risk Ratio (RR)|0.367||||0.2421|TWO_SIDED|95.0|0.068|1.968|||Negative binomial regression||The estimated value represents the RR between intermittent molgramostim and placebo groups.|||1.968|0.068|0.2421
92381410|NCT00448747|184665954|OTHER||ROC AUC|0.923|||||ONE_SIDED|99.0|0.85|||||||Summary of ROC Analyses following macimorelin administration.|||0.850|
92381411|NCT00448747|184665954|OTHER|Sensitivity|sensitivity (percent)|82.0|||||TWO_SIDED|||||||||ROC analysis on peak GH concentrations in response to macimorelin: GH cut point of 2.7 ng/mL.||||
92381412|NCT00448747|184665954|OTHER|Specificity|Specificity (percent)|92.0|||||TWO_SIDED|||||||||ROC analysis on peak GH concentrations in response to macimorelin: GH cut point of 2.7 ng/mL.||||
92381413|NCT00448747|184665954|OTHER|Misclassification|misclassification (percent)|13.0|||||TWO_SIDED|||||||||ROC analysis on peak GH concentrations in response to macimorelin: GH cut point of 2.7 ng/mL.||||
92381414|NCT00448747|184665955|OTHER||Mean Difference (Final Values)|-5.1|STANDARD_DEVIATION|9.57|||TWO_SIDED|||||||||Summary of IGF-1 before and after AEZS-130 administration: post - pre differences||||
92381415|NCT00448747|184665955|OTHER||Mean Difference (Final Values)|-2.3|STANDARD_DEVIATION|16.25|||TWO_SIDED|||||||||||||
92413984|NCT00797966|184718488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.0919|TWO_SIDED|95.0|-2.95|0.22|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||0.22|-2.95|0.0919
92413985|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.3998||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||||0.3998
92413986|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.8838||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||||0.8838
92413987|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.4012||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||||0.4012
92413988|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.6131||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||||0.6131
92413989|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.5964||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||||0.5964
92413990|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.254||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||||0.2540
92381416|NCT00568126|184665961|SUPERIORITY|Remission rates for maca vs. placebo were compared by chi-squared and by odds ratio (with 95% confidence interval).|Odds Ratio (OR)|2.1||||0.55|TWO_SIDED|95.0|0.18|25.2||P values above are calculated. No multiple comparisons. Threshold for significance set a priori as P\<0.05.|Chi-squared||Odds ratio for attaining remission while taking maca vs taking placebo|"Treatment groups were compared based on percentage reaching remission thresholds per scale: a total score of 12 (minimally diminished) or less on the MGH-SFQ scale, and a total score of 10 (very strong/very easily/very satisfying) or less on the ASEX."||25.2|0.18|0.55
92381417|NCT00568126|184665962|SUPERIORITY|Remission rates for maca vs. placebo were compared by chi-squared and by odds ratio (with 95% confidence interval).|Odds Ratio (OR)|1.71||||0.47|TWO_SIDED|95.0|0.4|7.34||P values above are calculated. No multiple comparisons. Threshold for significance set a priori as P\<0.05.|Chi-squared||Odds ratio for attaining remission while taking maca vs taking placebo|"Treatment groups were compared based on percentage reaching remission thresholds per scale: a total score of 12 (minimally diminished) or less on the MGH-SFQ scale, and a total score of 10 (very strong/very easily/very satisfying) or less on the ASEX."||7.34|0.40|0.47
92413991|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.8524||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||||0.8524
92413992|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.6969||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||||0.6969
92413993|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.3108||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||||0.3108
92413994|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.8719||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||||0.8719
92413995|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.6105||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||||0.6105
92413996|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.0709||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||||0.0709
92413997|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.9574||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||||0.9574
92232260|NCT02700451|184366810|EQUIVALENCE|Two-sided 95% confidence interval|||||<|0.001||||||The thresholds for statistical significant was p = 0.05|Kruskal-Wallis|||The distribution of OME total to discharge is the same across these arms||||<0.001
92413998|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.231||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||||0.2310
92413999|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.0672||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||||0.0672
92414000|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.8441||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||||0.8441
92414001|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.6741||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||||0.6741
92414002|NCT00797966|184718489|SUPERIORITY_OR_OTHER|||||||0.0183||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||||0.0183
92414003|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.49||||0.3007|TWO_SIDED|95.0|0.12|1.93||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.93|0.12|0.3007
92414004|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.94||||0.8812|TWO_SIDED|95.0|0.42|2.1||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||2.10|0.42|0.8812
92232261|NCT02700451|184366811|EQUIVALENCE|Two-sided||||||0.048|||||||Chi-squared|||Similar Distribution of opioid use between the 3 arms||||0.048
92232262|NCT02700451|184366812|EQUIVALENCE|Two-sided||||||0.595|||||||Chi-squared|||||||0.595
92232263|NCT02700451|184366815|EQUIVALENCE|Two-sided 95% confidence interval||||||0.732|||||||Kruskal-Wallis|||The distribution of POD1 - Current pain level is the same across the 3 arms||||0.732
92381418|NCT02429791|184665982|NON_INFERIORITY|Non-inferiority was concluded if the lower bound of a two-sided 95% confidence interval for the difference in response rates between the two treatment arms was greater than -10%.|Risk Difference (RD)|-0.6|||||TWO_SIDED|95.0|-4.3|3.0|||||Estimates based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factors: Age group (\< or \>=50 years old) and Baseline third agent (PI, NNRTI, INI).|||3.0|-4.3|
92381419|NCT02429791|184665984|OTHER||Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-1.9|4.0|||||Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factors: Age group (\< or \>=50 years old) and Baseline third agent (PI, NNRTI, INI). No formal non-inferiority margin has been pre-specified for secondary endpoints.|||4.0|-1.9|
92381420|NCT02429791|184665995|OTHER|||||||0.007||||||P-value for interaction between treatment group and baseline third agent (25 hydroxy-vitamin D)|ANCOVA|||||||0.007
92381421|NCT02429791|184665995|SUPERIORITY||Odds Ratio (OR)|0.958||||0.275|TWO_SIDED|95.0|0.888|1.034||P value to assess difference between treatment groups (25 hydroxy-vitamin D - NNRTI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and baseline biomarker level.|||1.034|0.888|0.275
92381422|NCT02429791|184665995|SUPERIORITY||Odds Ratio (OR)|0.902||||0.112|TWO_SIDED|95.0|0.793|1.025||P value to assess difference between treatment groups (25 hydroxy-vitamin D - INI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and baseline biomarker level.|||1.025|0.793|0.112
92381423|NCT02429791|184665995|SUPERIORITY||Odds Ratio (OR)|0.847||||0.002|TWO_SIDED|95.0|0.763|0.942||P value to assess difference between treatment groups (25 hydroxy-vitamin D - PI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and baseline biomarker level.|||0.942|0.763|0.002
92381424|NCT02429791|184665997|OTHER|||||||0.001||||||P-value for interaction between treatment group and baseline third agent (bone-specific alkaline phosphatase)|ANCOVA|||||||0.001
92381425|NCT02429791|184665997|SUPERIORITY||Odds Ratio (OR)|0.724|||<|0.001|TWO_SIDED|95.0|0.679|0.772||P value to assess difference between treatment groups (bone-specific alkaline phosphatase - NNRTI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.772|0.679|<.001
92381426|NCT02429791|184665997|SUPERIORITY||Odds Ratio (OR)|0.825|||<|0.001|TWO_SIDED|95.0|0.742|0.918||P value to assess difference between treatment groups (bone-specific alkaline phosphatase - INI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.918|0.742|<.001
92381427|NCT02429791|184665997|SUPERIORITY||Odds Ratio (OR)|0.81|||<|0.001|TWO_SIDED|95.0|0.742|0.884||P value to assess difference between treatment groups (bone-specific alkaline phosphatase - PI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.884|0.742|<.001
92381428|NCT02429791|184665997|OTHER|||||||0.677||||||P-value for interaction between treatment group and Baseline third agent (procollagen type 1-N-propeptide)|ANCOVA|||||||0.677
92381429|NCT02429791|184665997|SUPERIORITY||Odds Ratio (OR)|0.817|||<|0.001|TWO_SIDED|95.0|0.774|0.863||P value to assess difference between treatment groups (procollagen type 1-N-propeptide)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.863|0.774|<.001
92381430|NCT02429791|184665997|OTHER||||||<|0.001||||||P-value for interaction between treatment group and Baseline third agent (osteocalcin)|ANCOVA|||||||<.001
92381431|NCT02429791|184665997|SUPERIORITY||Odds Ratio (OR)|0.881|||<|0.001|TWO_SIDED|95.0|0.823|0.943||P value to assess difference between treatment groups (osteocalcin - NNRTI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.943|0.823|<.001
92381432|NCT02429791|184665997|SUPERIORITY||Odds Ratio (OR)|0.829||||0.001|TWO_SIDED|95.0|0.74|0.93||P value to assess difference between treatment groups (osteocalcin - INI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.930|0.740|0.001
92232264|NCT02700451|184366815|EQUIVALENCE|Two-sided 95% confidence interval||||||0.896|||||||Kruskal-Wallis|||The distribution of POD1 - Best pain level is the same across the 3 arms||||0.896
92232265|NCT02700451|184366815|EQUIVALENCE|Two-sided 95% confidence interval||||||0.004|||||||Kruskal-Wallis|||The distribution of POD1 - Worst pain level is the same across the 3 arms||||0.004
92232266|NCT02700451|184366815|EQUIVALENCE|Two-sided 95% confidence interval||||||0.325|||||||Kruskal-Wallis|||The distribution of POD3 - Current pain level is the same across the 3 arms||||0.325
92232267|NCT02700451|184366815|EQUIVALENCE|Two-sided 95% confidence interval||||||0.283|||||||Kruskal-Wallis|||The distribution of POD3 - Best pain level is the same across the 3 arms||||0.283
92232268|NCT02700451|184366815|EQUIVALENCE|Two-sided 95% confidence interval||||||0.61|||||||Kruskal-Wallis|||The distribution of POD3 - Worst pain level is the same across the 3 arms||||0.610
92232269|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.016|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with General Activity is the same across the 3 arms||||0.016
92381433|NCT02429791|184665997|SUPERIORITY||Odds Ratio (OR)|0.691|||<|0.001|TWO_SIDED|95.0|0.628|0.759||P value to assess difference between treatment groups (osteocalcin - PI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.759|0.628|<.001
92381434|NCT02429791|184665997|OTHER|||||||0.782||||||P-value for interaction between treatment group and baseline third agent (type 1 collagen cross-linked C-telopeptide)|ANCOVA|||||||0.782
92381435|NCT02429791|184665997|SUPERIORITY||Odds Ratio (OR)|0.804|||<|0.001|TWO_SIDED|95.0|0.742|0.872||P value to assess difference between treatment groups (type 1 collagen cross-linked C-telopeptide)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.872|0.742|<.001
92232270|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.294|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with Mood is the same across the 3 arms||||0.294
92278248|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.7|||||TWO_SIDED|95.0|-2.5|0.7||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.10 IU/mL threshold was calculated||0.7|-2.5|
92381436|NCT02429791|184666010|OTHER|||||||0.317||||||One-sided p-value from weighted least squares chi-squared statistic. A p-value \<=0.10 was used to indicate statistically significant evidence of heterogeneity in the difference in proportions across levels of each analysis strata.|Chi-squared, Corrected|||||||0.317
92414005|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.32||||0.0553|TWO_SIDED|95.0|0.1|1.07||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.07|0.10|0.0553
92414006|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.78||||0.6051|TWO_SIDED|95.0|0.3|2.05||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||2.05|0.30|0.6051
92414007|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.92||||0.8264|TWO_SIDED|95.0|0.46|1.85||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||1.85|0.46|0.8264
92414008|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.06||||0.869|TWO_SIDED|95.0|0.54|2.1||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||2.10|0.54|0.8690
92414009|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.35||||0.3441|TWO_SIDED|95.0|0.74|2.44||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||2.44|0.74|0.3441
92414010|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.14||||0.6375|TWO_SIDED|95.0|0.67|1.94||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||1.94|0.67|0.6375
92414011|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.31||||0.3135|TWO_SIDED|95.0|0.78|2.21||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||2.21|0.78|0.3135
92232271|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.016|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with Walking Ability is the same across the 3 arms||||0.016
92232272|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.082|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with Normal work is the same across the 3 arms||||0.082
92381437|NCT02429791|184666010|OTHER||Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-7.7|1.5|||||NNRTI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||1.5|-7.7|
92381438|NCT02429791|184666010|OTHER||Risk Difference (RD)|2.0|||||TWO_SIDED|95.0|-5.1|9.0|||||INI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||9.0|-5.1|
92381439|NCT02429791|184666010|OTHER||Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-5.3|10.8|||||PI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||10.8|-5.3|
92381440|NCT02429791|184666018|OTHER|||||||0.94||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 4)|ANCOVA|||||||0.940
92414012|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|2.35||||0.0035|TWO_SIDED|95.0|1.32|4.18||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||4.18|1.32|0.0035
92414013|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.27||||0.4358|TWO_SIDED|95.0|0.7|2.31||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||2.31|0.70|0.4358
92414014|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|2.02||||0.0063|TWO_SIDED|95.0|1.2|3.41||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||3.41|1.20|0.0063
92414015|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.27||||0.3968|TWO_SIDED|95.0|0.72|2.23||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||2.23|0.72|0.3968
92414016|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.27||||0.299|TWO_SIDED|95.0|0.81|2.0||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||2.00|0.81|0.2990
92414017|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.39||||0.1614|TWO_SIDED|95.0|0.86|2.25||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||2.25|0.86|0.1614
92232273|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.117|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with Relation with other is the same across the 3 arms||||0.117
92278249|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.3|1.3||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.3|-1.3|
92381441|NCT02429791|184666018|SUPERIORITY||Mean Difference (Final Values)|-2.924|||<|0.001|TWO_SIDED|95.0|-4.26|-1.588||P value to assess difference between treatment groups (Week 4)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||-1.588|-4.260|<.001
92381442|NCT02429791|184666018|OTHER|||||||0.001||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 24)|ANCOVA|||||||0.001
92381443|NCT02429791|184666018|SUPERIORITY||Mean Difference (Final Values)|-1.192||||0.11|TWO_SIDED|95.0|-2.656|0.271||P value to assess difference between treatment groups (Week 24)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||0.271|-2.656|0.110
92381444|NCT02429791|184666018|OTHER|||||||0.048||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 48)|ANCOVA|||||||0.048
92232274|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.061|||||||Fisher Exact|||The distribution of POD1 - Pain has interfered with Sleep is the same across the 3 arms||||0.061
92232275|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.023|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with Enjoyment of life is the same across the 3 arms||||0.023
92381445|NCT02429791|184666018|SUPERIORITY||Mean Difference (Final Values)|-1.569||||0.038|TWO_SIDED|95.0|-3.048|-0.09||P value to assess difference between treatment groups (Week 48)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||-0.090|-3.048|0.038
92381446|NCT02429791|184666021|SUPERIORITY|||||||0.002||||||P-value to assess HIVTSQs Total Score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||0.002
92381447|NCT02429791|184666021|SUPERIORITY||||||<|0.001||||||P-value to assess HIVTSQs Total Score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||<0.001
92381448|NCT02429791|184666021|SUPERIORITY|||||||0.024||||||P-value to assess HIVTSQs Total score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.024
92232276|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.681|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with General Activity is the same across the 3 arms||||0.681
92232277|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.405|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Mood is the same across the 3 arms||||0.405
92232278|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.458|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Walking Ability is the same across the 3 arms||||0.458
92381449|NCT02429791|184666021|SUPERIORITY||||||<|0.001||||||P-value to assess HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||<0.001
92232279|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.482|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Normal work is the same across the 3 arms||||0.482
92232280|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.544|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Relation with other is the same across the 3 arms||||0.544
92232281|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.202|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Sleep is the same across the 3 arms||||0.202
92232282|NCT02700451|184366816|EQUIVALENCE|Two-sided 95% confidence interval||||||0.58|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Enjoyment of life is the same across the 3 arms||||0.580
92232283|NCT02700451|184366818|EQUIVALENCE|Two-sided 95% confidence interval||||||0.928|||||||Kruskal-Wallis|||The distribution of Total Drain output at 24H is the same across the 3 arms||||0.928
92232284|NCT02700451|184366818|EQUIVALENCE|Two-sided 95% confidence interval||||||0.906|||||||Kruskal-Wallis|||The distribution of Total Drain output at 48H is the same across the 3 arms||||0.906
92232285|NCT02700451|184366818|EQUIVALENCE|Two-sided 95% confidence interval||||||0.926|||||||Kruskal-Wallis|||The distribution of Total Drain output at 72H is the same across the 3 arms||||0.926
92232286|NCT02700451|184366818|EQUIVALENCE|Two-sided 95% confidence interval||||||0.934|||||||Kruskal-Wallis|||The distribution of Total Drain output at Discharge is the same across the 3 arms||||0.934
92232287|NCT02700451|184366819|EQUIVALENCE|Two-sided||||||0.078|||||||Chi-squared|||Proportion of patient receiving at least 1 transfusion is the same across the 3 arms||||0.078
92381450|NCT02429791|184666021|SUPERIORITY||||||<|0.001||||||P-value to assess HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||<0.001
92381451|NCT02429791|184666021|SUPERIORITY|||||||0.005||||||P-value to assess HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.005
92381452|NCT02429791|184666021|SUPERIORITY|||||||0.063||||||P-value to assess HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||0.063
92414018|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.29||||0.3254|TWO_SIDED|95.0|0.79|2.12||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||2.12|0.79|0.3254
92232288|NCT02700451|184366820|EQUIVALENCE|Two-sided 95% confidence interval||||||792|||||||Chi-squared|||||||0792
92232289|NCT02700451|184366821|EQUIVALENCE|Two-sided 95% confidence interval||||||0.034|||||||Kruskal-Wallis|||The distribution of Length of stay in day is the same across these arms||||0.034
92232290|NCT02700451|184366821|EQUIVALENCE|Two-sided 95% confidence interval||||||0.03|||||||Kruskal-Wallis|||The distribution of Length of stay in hour is the same across these arms||||0.030
92381453|NCT02429791|184666021|SUPERIORITY|||||||0.002||||||P-value to assess HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||0.002
92414019|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.02||||0.9463|TWO_SIDED|95.0|0.64|1.62||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||1.62|0.64|0.9463
92414020|NCT00797966|184718490|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.74||||0.008|TWO_SIDED|95.0|1.14|2.65||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||2.65|1.14|0.0080
92381454|NCT02429791|184666021|SUPERIORITY|||||||0.099||||||P-value to assess HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.099
92381455|NCT04201093|184666056|SUPERIORITY||LS Mean of Difference|-11.5|STANDARD_ERROR_OF_MEAN|1.16|<|0.0001|TWO_SIDED|95.0|-13.8|-9.2||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-9.2|-13.8|<0.0001
92381456|NCT04201093|184666056|SUPERIORITY||LS Mean of Difference|-12.1|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-14.4|-9.8||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-9.8|-14.4|<0.0001
92381457|NCT04201093|184666057|SUPERIORITY||LS Mean of Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.3|-1.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-1.7|-3.3|<0.0001
92381458|NCT04201093|184666057|SUPERIORITY||LS Mean of Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.4|-1.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-1.7|-3.4|<0.0001
92381459|NCT04201093|184666058|SUPERIORITY||Odds Ratio (OR)|6.148|||<|0.0001|TWO_SIDED|95.0|3.339|11.321|||Mixed Models Analysis|||||11.321|3.339|<0.0001
92169284|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.033||||0.266|TWO_SIDED|95.0|-0.025|0.09||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 8|||0.090|-0.025|0.266
92381460|NCT04201093|184666058|SUPERIORITY||Odds Ratio (OR)|5.968|||<|0.0001|TWO_SIDED|95.0|3.22|11.062|||Mixed Models Analysis|||||11.062|3.220|<0.0001
92381461|NCT04201093|184666059|SUPERIORITY||LS Mean of Difference|-11.5|STANDARD_ERROR_OF_MEAN|1.16|<|0.0001|TWO_SIDED|95.0|-13.8|-9.2||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-9.2|-13.8|<0.0001
92381462|NCT04201093|184666059|SUPERIORITY||LS Mean of Difference|-12.1|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-14.4|-9.8||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-9.8|-14.4|<0.0001
92381463|NCT04201093|184666060|SUPERIORITY||LS Mean of Difference|-11.7|STANDARD_ERROR_OF_MEAN|1.35|<|0.0001|TWO_SIDED|95.0|-14.4|-9.1||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-9.1|-14.4|<0.0001
92381464|NCT04201093|184666060|SUPERIORITY||LS Mean of Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.37|<|0.0001|TWO_SIDED|95.0|-14.7|-9.3||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-9.3|-14.7|<0.0001
92381465|NCT04201093|184666061|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.38||0.4822|TWO_SIDED|95.0|-1.0|0.5||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part I: Week 26||0.5|-1.0|0.4822
92381466|NCT04201093|184666061|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.38||0.7742|TWO_SIDED|95.0|-0.9|0.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part I: Week 26||0.6|-0.9|0.7742
92381467|NCT04201093|184666061|SUPERIORITY||LS Mean of Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.3|-1.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part II: Week 26||-1.7|-3.3|<0.0001
92414021|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.59||||0.5791|TWO_SIDED|95.0|0.09|3.9||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||3.90|0.09|0.5791
92169285|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.012||||0.665|TWO_SIDED|95.0|-0.066|0.042||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 12|||0.042|-0.066|0.665
92169286|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.023||||0.489|TWO_SIDED|95.0|-0.043|0.09||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 18|||0.090|-0.043|0.489
92169287|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.099||||0.007|TWO_SIDED|95.0|0.028|0.17||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 26|||0.170|0.028|0.007
92414022|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.43||||0.2653|TWO_SIDED|95.0|0.1|1.93||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.93|0.10|0.2653
92169288|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.055||||0.248|TWO_SIDED|95.0|-0.039|0.148||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 39|||0.148|-0.039|0.248
92169289|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.043||||0.506|TWO_SIDED|95.0|-0.087|0.172||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 52|||0.172|-0.087|0.506
92381468|NCT04201093|184666061|SUPERIORITY||LS Mean of Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.4|-1.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part II: Week 26||-1.7|-3.4|<0.0001
92381469|NCT04201093|184666061|SUPERIORITY||LS Mean of Difference|-9.0|STANDARD_ERROR_OF_MEAN|0.89|<|0.0001|TWO_SIDED|95.0|-10.8|-7.3||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part III: Week 26||-7.3|-10.8|<0.0001
92414023|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.39||||0.2259|TWO_SIDED|95.0|0.08|1.87||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.87|0.08|0.2259
92414024|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.83||||0.6986|TWO_SIDED|95.0|0.32|2.18||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||2.18|0.32|0.6986
92169290|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.051||||0.223|TWO_SIDED|95.0|-0.032|0.134||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 2|||0.134|-0.032|0.223
92169291|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.046||||0.276|TWO_SIDED|95.0|-0.037|0.129||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 4|||0.129|-0.037|0.276
92169292|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.075||||0.131|TWO_SIDED|95.0|-0.023|0.173||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 8|||0.173|-0.023|0.131
92169293|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.003||||0.949|TWO_SIDED|95.0|-0.084|0.09||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 12|||0.090|-0.084|0.949
92169294|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.059||||0.259|TWO_SIDED|95.0|-0.044|0.163||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 18|||0.163|-0.044|0.259
92169295|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.073||||0.152|TWO_SIDED|95.0|-0.027|0.172||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 26|||0.172|-0.027|0.152
92169296|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.114||||0.076|TWO_SIDED|95.0|-0.012|0.241||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 39|||0.241|-0.012|0.076
92169297|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.171||||0.107|TWO_SIDED|95.0|-0.038|0.381||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 52|||0.381|-0.038|0.107
92169298|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.025||||0.484|TWO_SIDED|95.0|-0.046|0.097||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 2|||0.097|-0.046|0.484
92232291|NCT02700451|184366822|EQUIVALENCE|Two-sided 95% confidence interval||||||0.974|||||||ANOVA|||Comparison of the PCS score between the 3 arms||||0.974
92232292|NCT02700451|184366822|EQUIVALENCE|Two-sided 95% confidence interval||||||0.444|||||||ANOVA|||Comparison of the MCS between the 3 ams||||0.444
92169299|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.037||||0.256|TWO_SIDED|95.0|-0.027|0.1||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 4|||0.100|-0.027|0.256
92169300|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.052||||0.184|TWO_SIDED|95.0|-0.025|0.128||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 8|||0.128|-0.025|0.184
92169301|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.001||||0.97|TWO_SIDED|95.0|-0.077|0.074||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 12|||0.074|-0.077|0.970
92232293|NCT02700451|184366823|EQUIVALENCE|Two-sided 95% confidence interval||||||0.215|||||||ANOVA|||||||0.215
92232294|NCT02700451|184366824|EQUIVALENCE|Two-sided 95% confidence interval||||||0.044|||||||ANOVA|||Comparison PCS score between the 3 arms||||0.044
92232295|NCT02700451|184366824|EQUIVALENCE|Two-sided 95% confidence interval||||||0.767|||||||ANOVA|||Comparison MCS score between the 3 arms||||0.767
92414025|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.61||||0.2339|TWO_SIDED|95.0|0.28|1.35||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||1.35|0.28|0.2339
92381470|NCT04201093|184666061|SUPERIORITY||LS Mean of Difference|-9.4|STANDARD_ERROR_OF_MEAN|0.9|<|0.0001|TWO_SIDED|95.0|-11.2|-7.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part III: Week 26||-7.6|-11.2|<0.0001
92381471|NCT04201093|184666062|SUPERIORITY||LS Mean of Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.6|-0.3||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.3|-0.6|<0.0001
92381472|NCT04201093|184666062|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.5|-0.2||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.2|-0.5|<0.0001
92381473|NCT04201093|184666063|SUPERIORITY||LS Mean of Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.9|-1.4|<0.0001
92414026|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.07||||0.8615|TWO_SIDED|95.0|0.53|2.15||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||2.15|0.53|0.8615
92381474|NCT04201093|184666063|SUPERIORITY||LS Mean of Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.7|-1.2|<0.0001
92381475|NCT04201093|184666064|SUPERIORITY||LS Mean of Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.9|-1.4|<0.0001
92381476|NCT04201093|184666064|SUPERIORITY||LS Mean of Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.9|-1.5|<0.0001
92381477|NCT04201093|184666065|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.32||0.6047|TWO_SIDED|95.0|-0.8|0.5||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||0.5|-0.8|0.6047
92381478|NCT04201093|184666065|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.33||0.257|TWO_SIDED|95.0|-1.0|0.3||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||0.3|-1.0|0.2570
92381479|NCT04201093|184666066|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.63||0.8516|TWO_SIDED|95.0|-1.4|1.1||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||1.1|-1.4|0.8516
92381480|NCT04201093|184666066|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.64||0.6421|TWO_SIDED|95.0|-1.6|1.0||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||1.0|-1.6|0.6421
92381481|NCT02596230|184666078|OTHER||Hazard Ratio (HR)|0.634||||0.188|TWO_SIDED|95.0|0.322|1.249||One-side p-value|Regression, Cox|Cox-regression proportional hazards model including fixed effects for treatment.|Hazard Ratio \< 1 favors Dabigatran etexilate.|||1.249|0.322|0.188
92381482|NCT02596230|184666079|OTHER||Hazard Ratio (HR)|0.778||||0.606|TWO_SIDED|95.0|0.3|2.017||One-side p-value|Regression, Cox|Cox-regression proportional hazards model including fixed effects for treatment.|Hazard Ratio \< 1 favors Dabigatran etexilate.|||2.017|0.300|0.606
92169302|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.025||||0.608|TWO_SIDED|95.0|-0.07|0.12||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 18|||0.120|-0.070|0.608
92169303|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.084||||0.071|TWO_SIDED|95.0|-0.007|0.175||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 26|||0.175|-0.007|0.071
92232296|NCT02700451|184366825|EQUIVALENCE|Two-sided 95% confidence interval||||||0.191|||||||ANOVA|||||||0.191
92414027|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.06||||0.8807|TWO_SIDED|95.0|0.51|2.2||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||2.20|0.51|0.8807
92232297|NCT02930174|184366841|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.26|TWO_SIDED||||||ANOVA|||||||0.26
92381483|NCT02596230|184666080|OTHER||Hazard Ratio (HR)|0.751||||0.542|TWO_SIDED|95.0|0.299|1.885||One-side p-value|Regression, Cox|Cox-regression proportional hazards model including fixed effects for treatment.|Hazard Ratio \< 1 favors Dabigatran etexilate.|||1.885|0.299|0.542
92381484|NCT02596230|184666081|OTHER||Hazard Ratio (HR)|0.0||||0.996|TWO_SIDED|95.0||||One-side p-value|Regression, Cox|Cox-regression proportional hazards model including fixed effects for treatment.|"Hazard Ratio \< 1 favors Dabigatran etexilate.~Hazard Ratio is actually \<0.01~95% Confidence Interval is not calculable (NA) due to insufficient number of participants with events."|||||0.996
92381485|NCT02596230|184666082|OTHER||Hazard Ratio (HR)|0.857||||0.69|TWO_SIDED|95.0|0.402|1.828||One-side p-value|Regression, Cox|Cox-regression proportional hazards model including fixed effects for treatment.|Hazard Ratio \< 1 favors Dabigatran etexilate.|||1.828|0.402|0.690
92381486|NCT03270891|184666141|SUPERIORITY|Null hypothesis of equality.||||||0.0115|||||||t-test, 2 sided|||Baseline and 6 month values||||0.0115
92381487|NCT03270891|184666141|SUPERIORITY|Null hypothesis of equality.||||||0.027|||||||t-test, 2 sided|||baseline to 6 month comparison||||0.027
92381488|NCT03270891|184666142|SUPERIORITY|Null hypothesis of equality.||||||0.0327|||||||t-test, 2 sided|||Baseline p value to six month||||0.0327
92381489|NCT03270891|184666142|SUPERIORITY|Null hypothesis of equality.||||||0.2088|||||||t-test, 2 sided|||baseline to 6 month comparison p value||||0.2088
92381490|NCT03270891|184666143|SUPERIORITY|Null hypothesis of equality.||||||0.947|||||||t-test, 2 sided|||baseline to 6 month comparison||||0.947
92381491|NCT00849108|184666146|SUPERIORITY_OR_OTHER||sensitivity|0.769||||0.02|TWO_SIDED|95.0|0.655|0.884||P-Value for sensitivity comparison of PET MPI for the same reader|McNemar|two-sided McNemar test with 1 degree of freedom.|No standard deviation can be calculated for PET sensitivity|||0.884|0.655|0.02
92381492|NCT00849108|184666146|SUPERIORITY_OR_OTHER||Sensitivity|0.596||||0.02|TWO_SIDED|95.0|0.463|0.73||p-value for sensitivity comparison for SPECT MPI for the same reader|McNemar||No standard deviation can be calculated for SPECT sensitivity|||0.730|0.463|0.02
92381493|NCT00849108|184666148|SUPERIORITY_OR_OTHER||PET specificity|0.877||||0.317|TWO_SIDED|95.0|0.801|0.952||p-value for comparison of PET specificity for same reader|McNemar||no standard deviation for PET specficity|||0.952|0.801|0.317
92381494|NCT00849108|184666148|SUPERIORITY_OR_OTHER||SPECT specificity|0.836||||0.317|TWO_SIDED|95.0|0.751|0.921||p-value for comparison of SPECT specificity for same reader|McNemar||no standard deviation for SPECT specificity|||0.921|0.751|0.317
92381495|NCT01943552|184666150|SUPERIORITY_OR_OTHER||Mean Difference (Net)|154.9|STANDARD_ERROR_OF_MEAN|32.32|<|0.0001|TWO_SIDED|95.0|91.08|218.63|||ANCOVA||The Mean Difference; nebulized ipratropium minus placebo was estimated by the difference of their adjusted means.|The analysis of covariance (ANCOVA) method was used to compare the change of FEV1 from pre-bronchodilator at baseline to post-nebulization on treatment day 3 between the active arm and the placebo arm, with baseline value as covariate and two stratification factors based on acute bronchodilator responsiveness at baseline and age as main effects.||218.63|91.08|<0.0001
92381496|NCT01943552|184666151|SUPERIORITY_OR_OTHER||Mean Difference (Net)|51.0|STANDARD_ERROR_OF_MEAN|54.48||0.3509|TWO_SIDED|95.0|-56.55|158.46|||ANCOVA||The Mean Difference; nebulized ipratropium minus placebo was estimated by the difference of their adjusted means.|The analysis of covariance (ANCOVA) method was used to compare the change of forced vital capacity (FVC) from pre-bronchodilator at baseline to post-nebulization on treatment day 3 between the active arm and the placebo arm, with baseline value as covariate and two stratification factors based on acute bronchodilator responsiveness at baseline and age as main effects.||158.46|-56.55|0.3509
92381497|NCT01943552|184666152|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8|STANDARD_ERROR_OF_MEAN|2.18||0.2069|TWO_SIDED|95.0|-1.54|7.07|||ANCOVA||The Mean Difference; nebulized ipratropium minus placebo was estimated by the difference of their adjusted means.|The analysis of covariance (ANCOVA) method was used to compare the change of blood gas analyses from pre-bronchodilator at baseline to post-nebulization on treatment day 3 for PaO2 between the active arm and the placebo arm, with baseline value as covariate and two stratification factors based on acute bronchodilator responsiveness at baseline and age as main effects.||7.07|-1.54|0.2069
92381498|NCT01943552|184666153|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.28||0.1899|TWO_SIDED|95.0|-0.19|0.93|||ANCOVA||The Mean Difference; nebulized ipratropium minus placebo was estimated by the difference of their adjusted means.|The analysis of covariance (ANCOVA) method was used to compare the change of blood gas analyses from pre-bronchodilator at baseline to post-nebulization on treatment day 3 for Oxygen saturation between the active arm and the placebo arm, with baseline value as covariate and two stratification factors based on acute bronchodilator responsiveness at baseline and age as main effects.||0.93|-0.19|0.1899
92381499|NCT01943552|184666154|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.57||0.4758|TWO_SIDED|95.0|-0.72|1.55|||ANCOVA||The Mean Difference; nebulized ipratropium minus placebo was estimated by the difference of their adjusted means.|The analysis of covariance (ANCOVA) method was used to compare the change of blood gas analyses from pre-bronchodilator at baseline to post-nebulization on treatment day 3 for PaCO2 between the active arm and the placebo arm, with baseline value as covariate and two stratification factors based on acute bronchodilator responsiveness at baseline and age as main effects.||1.55|-0.72|0.4758
92381500|NCT01943552|184666155|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel Test Statistic|1.82||||0.1779|TWO_SIDED||||||Cochran-Mantel-Haenszel|||For main post-operative pulmonary complications, the Cochran-Mantel-Haenszel analysis was performed on the SCS. Mantel-Haenszel test with strata based on acute bronchodilator responsiveness at baseline and age was used to compare the number of patients with main post-operative pulmonary complications between the two arms.||||0.1779
92381501|NCT00545103|184666164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.778||95.0|||||Cochran-Mantel-Haenszel|||||||0.778
92381502|NCT00545103|184666164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.159||95.0|||||Cochran-Mantel-Haenszel|||||||0.159
92381503|NCT00545103|184666164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.368||95.0|||||Cochran-Mantel-Haenszel|||||||0.368
92381504|NCT00545103|184666165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.685||95.0|||||Cochran-Mantel-Haenszel|||||||0.685
92381505|NCT00545103|184666165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.198||95.0|||||Cochran-Mantel-Haenszel|||||||0.198
92381506|NCT00545103|184666165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.441||95.0|||||Cochran-Mantel-Haenszel|||||||0.441
92232298|NCT02930174|184366842|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.342|TWO_SIDED||||||ANOVA|||||||0.342
92232299|NCT02930174|184366843|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.184|TWO_SIDED||||||ANOVA|||||||0.184
92232300|NCT02930174|184366844|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.283|TWO_SIDED||||||ANOVA|||||||0.283
92232301|NCT02930174|184366845|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.204|TWO_SIDED||||||ANOVA|||||||0.204
92232302|NCT02930174|184366846|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.136|TWO_SIDED||||||ANOVA|||||||0.136
92232303|NCT03303989|184366855|SUPERIORITY|Efficacy of MMF was examined by the proportion of responders in MMF+Peg compared to PBO+Peg. Rates of the primary outcome were compared using proportions and 95% confidence intervals and tested for differences using Fisher's exact test.|||||<|0.01|TWO_SIDED|95.0|||||Fisher Exact|||Fisher's exact tests were performed to compare baseline and clinical characteristics between treatment groups as appropriate.||||<0.01
92278250|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.8|||||TWO_SIDED|95.0|-2.8|0.8||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.10 IU/mL threshold was calculated||0.8|-2.8|
92278251|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.5|1.5||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.5|-1.5|
92278252|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.4|||||TWO_SIDED|95.0|-2.1|2.9||||||For Tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.10 IU/mL threshold was calculated||2.9|-2.1|
92381507|NCT02358044|184666175|NON_INFERIORITY_OR_EQUIVALENCE|The lower bound of 95% CIs was compared to pre-specified non-inferiority margin, -10% to evaluate non-inferiority. The Missing=Failure (M=F) approach was used to handle missing values.|Adjusted Difference in Percentage|8.8|||<|0.001|TWO_SIDED|95.0|3.6|15.3|||Miettinen & Nurminen Method|||"Primary Analysis Approach: Non-Inferiority~Analyses of the percentage of participants achieving SVR12 was conducted using the Miettinen \& Nurminen (M\&N) method. The analysis was adjusted for genotype (1a vs. non-1a) and fibrosis stage (cirrhotic vs. non-cirrhotic). The adjusted differences (grazoprevir+elbasvir arm minus SOF+PR arm) in percentages along with the corresponding 95% confidence intervals (CIs) and p-values were provided."||15.3|3.6|<0.001
92278253|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.3|1.3||||||For Tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.3|-1.3|
92278254|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.8|||||TWO_SIDED|95.0|-2.1|3.8||||||For Tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.10 IU/mL threshold was calculated||3.8|-2.1|
92381508|NCT02358044|184666175|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentage|8.8||||0.001|TWO_SIDED|95.0|3.6|15.3|||Miettinen & Nurminen Method|The lower bound of 95% CIs was compared to zero to evaluate superiority. The M=F approach was used to handle missing values.||"Secondary Analysis Approach: Superiority~Analyses of the percentage of participants achieving SVR12 was conducted using the M\&N method. The analysis was adjusted for genotype (1a vs. non-1a) and fibrosis stage (cirrhotic vs. non-cirrhotic). The adjusted differences (grazoprevir +elbasvir arm minus SOF+PR arm) in percentages along with the corresponding 95% CIs and p-values were provided."||15.3|3.6|0.001
92381509|NCT02358044|184666176|SUPERIORITY_OR_OTHER||Difference in Percentage|-41.7|||||TWO_SIDED|95.0|-51.1|-31.9||||||The percentage of participants with an event were assessed via point estimates with 95% CIs provided for between-group comparisons.||-31.9|-51.1|
92232304|NCT04325503|184366856|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|0.0905||||0.015|TWO_SIDED|95.0|0.022|0.159||A priori threshold statistical significance p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 9||||0.159|0.022|0.015
92232305|NCT04325503|184366857|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|0.333||||0.694|TWO_SIDED|95.0|-1.55|2.216||A priori threshold for statistical significance is p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 8||||2.216|-1.550|0.694
92232306|NCT04325503|184366858|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|1.444||||0.103|TWO_SIDED|95.0|-0.363|3.252||A priori threshold for statistical significance was p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 8||||3.252|-0.363|0.103
92232307|NCT04325503|184366859|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|-2.09||||0.321|TWO_SIDED|95.0|-6.554|2.372||A priori threshold for statistical significance p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 10||||2.372|-6.554|0.321
92414028|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.96||||0.9035|TWO_SIDED|95.0|0.52|1.77||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||1.77|0.52|0.9035
92278255|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.8|1.7||||||For Tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.7|-1.8|
92414029|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.19||||0.5898|TWO_SIDED|95.0|0.64|2.24|||Cochran-Mantel-Haenszel|||Week 11 values presented here.||2.24|0.64|0.5898
92414030|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.82||||0.084|TWO_SIDED|95.0|0.93|3.58||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||3.58|0.93|0.0840
92169304|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.028||||0.622|TWO_SIDED|95.0|-0.085|0.141||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 39|||0.141|-0.085|0.622
92169305|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.102||||0.277|TWO_SIDED|95.0|-0.086|0.291||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 52|||0.291|-0.086|0.277
92169306|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.056||||0.241|TWO_SIDED|95.0|-0.038|0.15||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 2|||0.150|-0.038|0.241
92169307|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.045||||0.348|TWO_SIDED|95.0|-0.049|0.14|||MMRM||FVC Pre-dose, Week 4|||0.140|-0.049|0.348
92169308|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.073||||0.138|TWO_SIDED|95.0|-0.024|0.169||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 8|||0.169|-0.024|0.138
92169309|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.012||||0.813|TWO_SIDED|95.0|-0.111|0.087||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 12|||0.087|-0.111|0.813
92381510|NCT02358044|184666178|SUPERIORITY_OR_OTHER||Difference in Percentage|-27.0|||<|0.001|TWO_SIDED|95.0|-35.5|-19.6||% of participants with ≥1 Tier 1 event = total number participants with ≥1 Tier 1 event ÷ total number ASaT participants within each treatment arm. M\&N method used to calculate a 2-sided 95% CI for the treatment difference and corresponding p-value.|Miettinen & Nurminen Method|||"Total Tier 1 AEs:~If, and only if the primary efficacy null hypothesis was rejected, the Tier 1 safety superiority hypothesis was tested at the 2-sided 5% alpha level. The safety superiority hypothesis was that the percentage of grazoprevir+elbasvir participants with ≥1 Tier 1 event is lower than the percentage of SOF+PR participants with ≥1 Tier 1 event."||-19.6|-35.5|<0.001
92381511|NCT02358044|184666178|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.4||||0.078|TWO_SIDED|95.0|-6.8|0.6||% of participants with ≥1 Tier 1 event = total number participants with ≥1 Tier 1 event ÷ total number ASaT participants within each treatment arm. M\&N method used to calculate a 2-sided 95% CI for the treatment difference and corresponding p-value.|Miettinen & Nurminen Method|||"Serious drug-related AEs:~If, and only if the primary efficacy null hypothesis was rejected, the Tier 1 safety superiority hypothesis was tested at the 2-sided 5% alpha level. The safety superiority hypothesis was that the percentage of grazoprevir+elbasvir participants with ≥1 Tier 1 event is lower than the percentage of SOF+PR participants with ≥1 Tier 1 event."||0.6|-6.8|0.078
92414031|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.96||||0.9115|TWO_SIDED|95.0|0.49|1.88||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||1.88|0.49|0.9115
92414032|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.77||||0.0522|TWO_SIDED|95.0|0.98|3.17||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||3.17|0.98|0.0522
92414033|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.24||||0.4997|TWO_SIDED|95.0|0.65|2.34||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||2.34|0.65|0.4997
92414034|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.16||||0.5846|TWO_SIDED|95.0|0.69|1.93||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||1.93|0.69|0.5846
92169310|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.073||||0.172|TWO_SIDED|95.0|-0.032|0.177||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 18|||0.177|-0.032|0.172
92169311|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.067||||0.242|TWO_SIDED|95.0|-0.045|0.18||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 26|||0.180|-0.045|0.242
92414035|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.99||||0.9602|TWO_SIDED|95.0|0.55|1.76||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||1.76|0.55|0.9602
92414036|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.62||||0.1254|TWO_SIDED|95.0|0.87|3.02||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||3.02|0.87|0.1254
92414037|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.13||||0.667|TWO_SIDED|95.0|0.65|1.99||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||1.99|0.65|0.6670
92414038|NCT00797966|184718491|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.7||||0.0525|TWO_SIDED|95.0|0.98|2.93||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||2.93|0.98|0.0525
92414039|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.98||||0.9462|TWO_SIDED|95.0|0.52|1.84||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.84|0.52|0.9462
92232308|NCT04325503|184366860|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|0.185||||0.265|TWO_SIDED|95.0|-0.175|0.544|||t-test, 2 sided|Paired samples t-test, df = 7||||0.544|-0.175|0.265
92381512|NCT02358044|184666178|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.8||||0.312|TWO_SIDED|95.0|-4.4|2.1||% of participants with ≥1 Tier 1 event = total number participants with ≥1 Tier 1 event ÷ total number ASaT participants within each treatment arm. M\&N method used to calculate a 2-sided 95% CI for the treatment difference and corresponding p-value.|Miettinen & Nurminen Method|||"DC due to drug-related AE:~If, and only if the primary efficacy null hypothesis was rejected, the Tier 1 safety superiority hypothesis was tested at the 2-sided 5% alpha level. The safety superiority hypothesis was that the percentage of grazoprevir+elbasvir participants with ≥1 Tier 1 event is lower than the percentage of SOF+PR participants with ≥1 Tier 1 event."||2.1|-4.4|0.312
92381513|NCT02358044|184666178|SUPERIORITY_OR_OTHER||Difference in Percentage|-12.7|||<|0.001|TWO_SIDED|95.0|-19.7|-8.0||% of participants with ≥1 Tier 1 event = total number participants with ≥1 Tier 1 event ÷ total number ASaT participants within each treatment arm. M\&N method used to calculate a 2-sided 95% CI for the treatment difference and corresponding p-value.|Miettinen & Nurminen Method|||"Neutrophil count \<0.75 x 10\^9/L:~If, and only if the primary efficacy null hypothesis was rejected, the Tier 1 safety superiority hypothesis was tested at the 2-sided 5% alpha level. The safety superiority hypothesis was that the percentage of grazoprevir+elbasvir participants with ≥1 Tier 1 event is lower than the percentage of SOF+PR participants with ≥1 Tier 1 event."||-8.0|-19.7|<0.001
92381514|NCT02358044|184666178|SUPERIORITY_OR_OTHER||Difference in Percentage|-13.5|||<|0.001|TWO_SIDED|95.0|-20.8|-7.9||% of participants with ≥1 Tier 1 event = total number participants with ≥1 Tier 1 event ÷ total number ASaT participants within each treatment arm. M\&N method used to calculate a 2-sided 95% CI for the treatment difference and corresponding p-value.|Miettinen & Nurminen Method|||"Hemoglobin \<10 g/dL:~If, and only if the primary efficacy null hypothesis was rejected, the Tier 1 safety superiority hypothesis was tested at the 2-sided 5% alpha level. The safety superiority hypothesis was that the percentage of grazoprevir+elbasvir participants with ≥1 Tier 1 event is lower than the percentage of SOF+PR participants with ≥1 Tier 1 event."||-7.9|-20.8|<0.001
92381515|NCT02358044|184666179|NON_INFERIORITY_OR_EQUIVALENCE|The lower bound of 95% CIs was compared to pre-specified non-inferiority margin, -10% to evaluate non-inferiority. The Missing=Failure (M=F) approach was used to handle missing values.|Adjusted Difference in Percentage|8.8|||||TWO_SIDED|95.0|3.3|15.7||||||Analyses of the percentage of participants achieving SVR24 was conducted using the Miettinen \& Nurminen (M\&N) method. The analysis was adjusted for genotype (1a vs. non-1a) and fibrosis stage (cirrhotic vs. non-cirrhotic). The adjusted differences (grazoprevir+elbasvir arm minus SOF+PR arm) in percentages along with the corresponding 95% confidence intervals (CIs) and p-values were provided.||15.7|3.3|
92381516|NCT00903331|184666186|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.9631|TWO_SIDED|95.0|-0.09|0.08|||Wilcoxon Rank Sum|||The null hypothesis was that there was no difference between ACT-064922 and placebo for the change in FVC from baseline to the end of Period 1. The aim was to detect a placebo-corrected change in FVC of ≥ 0.1 L (Standard Deviation = 0.2 L) at a two-sided 0.05 type 1 error level and 80% power.||0.08|-0.09|0.9631
92381517|NCT00903331|184666187|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.118||||0.7056|TWO_SIDED|95.0|0.626|1.996|||Log Rank|||||1.996|0.626|0.7056
92381518|NCT03233438|184666206|SUPERIORITY||Mean Difference (Final Values)|1.6|STANDARD_DEVIATION|2.5||0.003|TWO_SIDED|95.0|0.6|2.6|||t-test, 2 sided|||||2.6|0.6|0.003
92381519|NCT03233438|184666207|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_DEVIATION|2.56||0.003|TWO_SIDED|95.0|0.6|2.8|||t-test, 2 sided|||||2.8|0.6|0.003
92414040|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.8||||0.4971|TWO_SIDED|95.0|0.43|1.49||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.49|0.43|0.4971
92414041|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.93||||0.8118|TWO_SIDED|95.0|0.53|1.63||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.63|0.53|0.8118
92414042|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.95||||0.8323|TWO_SIDED|95.0|0.59|1.53||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||1.53|0.59|0.8323
92414043|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.68||||0.093|TWO_SIDED|95.0|0.43|1.08||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||1.08|0.43|0.0930
92414044|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.88||||0.553|TWO_SIDED|95.0|0.59|1.32||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||1.32|0.59|0.5530
92414045|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.06||||0.8007|TWO_SIDED|95.0|0.69|1.61||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||1.61|0.69|0.8007
92414046|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.03||||0.8945|TWO_SIDED|95.0|0.71|1.49||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||1.49|0.71|0.8945
92414047|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.17||||0.3837|TWO_SIDED|95.0|0.83|1.64||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||1.64|0.83|0.3837
92414048|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.09||||0.7064|TWO_SIDED|95.0|0.72|1.63||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||1.63|0.72|0.7064
92414049|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.06||||0.7469|TWO_SIDED|95.0|0.74|1.52||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||1.52|0.74|0.7469
92278256|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.4|1.3||||||For Poliovirus Type 1 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||1.3|-1.4|
92169312|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.082||||0.267|TWO_SIDED|95.0|-0.063|0.228||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 39|||0.228|-0.063|0.267
92414050|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.34||||0.0832|TWO_SIDED|95.0|0.97|1.86||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||1.86|0.97|0.0832
92414051|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.09||||0.6611|TWO_SIDED|95.0|0.74|1.61||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||1.61|0.74|0.6611
92414052|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.13||||0.4435|TWO_SIDED|95.0|0.83|1.56||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||1.56|0.83|0.4435
92414053|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.47||||0.0118|TWO_SIDED|95.0|1.09|1.98||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||1.98|1.09|0.0118
92414054|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.89||||0.5111|TWO_SIDED|95.0|0.63|1.26||Cochran-Mantel-Haenszel general association test controlling for study center.|Chi-squared, Corrected|||Week 14 values presented here.||1.26|0.63|0.5111
92232309|NCT04325503|184366861|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|8.143||||0.027|TWO_SIDED|95.0|1.296|15.0||A priori threshold for statistical significance p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 6||||15.0|1.296|0.0270
92381520|NCT02219503|184666247|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority of the Ombitasvir/Paritaprevir/Ritonavir and Dasabuvir regimen in SVR12 to a historical threshold for sofosbuvir plus pegIFN/ ribavirin (RBV) for the treatment of participants with HCV Genotype 1b (GT1b) infection and cirrhosis was calculated using a 2-sided 95% CI from Wilson's score method. Non-inferiority was to be declared if the lower confidence bound was greater than 72.7%.|Percentage of Participants|100.0|||||TWO_SIDED|95.0|94.0|100.0|||||95% confidence interval (CI) was calculated using Wilson score method.|||100.0|94.0|
92381521|NCT02219503|184666247|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|100.0|||||TWO_SIDED|95.0|94.0|100.0|||||95% confidence interval (CI) was calculated using Wilson score method.|The superiority of the Ombitasvir/Paritaprevir/Ritonavir and Dasabuvir regimen in SVR12 to a historical threshold for sofosbuvir plus pegIFN/ ribavirin (RBV) for the treatment of participants with HCV Genotype 1b (GT1b) infection and cirrhosis was calculated using a 2-sided 95% CI from Wilson's score method. Superiority was declared if the lower confidence bound was greater than 83.2%.||100.0|94.0|
92381522|NCT03249103|184666250|OTHER|||||||0.032|||||||t-test, 2 sided|||placebo - NYX-2925 20 mg||||0.032
92381523|NCT03249103|184666251|OTHER|||||||0.039|||||||t-test, 2 sided|||placebo - NYX-2925 200 mg||||0.039
92381524|NCT03249103|184666252|OTHER|||||||0.0072|||||||t-test, 2 sided|comparing Week 2 (Placebo) to Week 6 (NYX-2925 200 mg)||||||0.0072
92381525|NCT00257660|184666253|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.84|||<|0.0001|TWO_SIDED|95.0|-12.94|-4.74||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline TWSTRS score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|"Baseline TWSTRS total scores are analysed for all subjects of ITT population, while the analysis at Week 4 excludes the scores for the 7 subjects who were not assessed.~Mean difference = difference in adjusted least squares mean (Dysport - Placebo)."|||-4.74|-12.94|<0.0001
92414055|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.9||||0.4903|TWO_SIDED|95.0|0.66|1.22||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||1.22|0.66|0.4903
92414056|NCT00797966|184718492|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.28||||0.0662|TWO_SIDED|95.0|0.98|1.67||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||1.67|0.98|0.0662
92381526|NCT00257660|184666254|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.81|||<|0.0001||95.0|-12.91|-4.71||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline TWSTRS score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|"Baseline TWSTRS total scores are analysed for all subjects of ITT population, while the Week 8 analysis excludes the scores for the 24 subjects who were not assessed.~Mean difference = difference in adjusted least squares mean (Dysport - Placebo)."|||-4.71|-12.91|<0.0001
92381527|NCT00257660|184666255|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.12||||0.019||95.0|-7.55|-0.68||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline TWSTRS score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|"Baseline TWSTRS total scores are analysed for all subjects of ITT population, while the Week 12 analysis excludes the scores for the 27 subjects who were not assessed.~Mean difference = difference in adjusted least squares mean (Dysport - Placebo)."|||-0.68|-7.55|0.019
92381528|NCT00257660|184666256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-15.2|||<|0.001||95.0|-24.0|-6.4||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Subject VAS symptom score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 4) excludes 4 subjects (and 13 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-6.4|-24.0|<0.001
92381529|NCT00257660|184666257|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-14.2|||<|0.001||95.0|-22.3|-6.1||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Investigator VAS CD symptom score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 4) excludes 3 subjects (and 8 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-6.1|-22.3|<0.001
92232310|NCT04325503|184366862|OTHER|A comparison is not being made between two different treatment groups.||||||0.153||||||A priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.153
92381530|NCT00257660|184666258|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-16.95|||<|0.001||95.0|-25.8|-8.1||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Subject VAS Pain score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 8) excludes 4 subjects (and 4 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-8.1|-25.8|<0.001
92381531|NCT00257660|184666259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-16.0|||<|0.001||95.0|-24.2|-7.8||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Investigator VAS Pain score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 8) excludes 3 subjects (and 3 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-7.8|-24.2|<0.001
92381532|NCT00257660|184666260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-11.05||||0.007||95.0|-19.0|-3.1||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Subject VAS Pain score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 12) excludes 4 subjects (and 4 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-3.1|-19.0|0.007
92381533|NCT00257660|184666261|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.05||||0.028||95.0|-13.3|-0.8||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Investigator VAS Pain score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 12) excludes 3 subjects (and 3 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-0.8|-13.3|0.028
92381534|NCT00257660|184666262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.65||||0.061||95.0|-0.17|7.47||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline SF-36 mental health summary score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 8) excludes 3 subjects (and 37 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||7.47|-0.17|0.061
92381535|NCT00257660|184666263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.66||||0.002||95.0|1.73|7.58||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline SF-36 physical health summary score, center and previous treatment by botulinum toxin or not were fitted in ANCOVA model.|Analysis at baseline (and on change at Week 8) excludes 3 subjects (and 37 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||7.58|1.73|0.002
92381536|NCT00257660|184666264|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|7.206|||<|0.0001||95.0|3.01|17.26||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|odds ratio|The odds ratio represents the odds of success on Dysport versus Placebo stratified for strata and country||The number of participants considered treatment successes was analysed using a logistic model with treatment, strata (naive or non-naive) and center as factors in the model.||17.26|3.01|<0.0001
92381537|NCT02025439|184666280|OTHER||Mean Difference (Final Values)|0.071|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92381538|NCT03426631|184666329|SUPERIORITY||Median Difference (Final Values)|-11.7||||0.47|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.47
92381539|NCT00500760|184666332|SUPERIORITY_OR_OTHER||Difference in Kaplan-Meier estimate|-0.07|||||TWO_SIDED|95.0|-0.23|0.09|||||The difference between the treatment groups is calculated as panitumumab plus chemoradiation minus chemoradiotherapy alone.|||0.09|-0.23|
92381540|NCT00500760|184666333|SUPERIORITY_OR_OTHER||Difference in Kaplan-Meier estimate|-0.03|||||TWO_SIDED|95.0|-0.18|0.12|||||The difference between the treatment groups is calculated as panitumumab plus chemoradiation minus chemoradiotherapy alone.|Difference between treatment groups at 6 months||0.12|-0.18|
92381541|NCT00500760|184666333|SUPERIORITY_OR_OTHER||Difference in Kaplan-Meier estimate|-0.03|||||TWO_SIDED|95.0|-1.09|0.12|||||The difference between the treatment groups is calculated as panitumumab plus chemoradiation minus chemoradiotherapy alone.|Difference between treatment groups at 12 months||0.12|-1.09|
92381542|NCT00500760|184666334|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.328||||0.3106|TWO_SIDED|95.0|0.767|2.299|||Regression, Cox||Hazard ratio is presented as panitumumab plus chemoradiation:chemoradiotherapy alone.|||2.299|0.767|0.3106
92381543|NCT00500760|184666335|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.6069|TWO_SIDED|95.0|0.675|1.961|||Regression, Cox||Hazard ratio is presented as panitumumab plus chemoradiation:chemoradiotherapy alone.|||1.961|0.675|0.6069
92381544|NCT00500760|184666336|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.628||||0.1223|TWO_SIDED|95.0|0.877|3.019|||Regression, Cox||Hazard ratio is presented as panitumumab plus chemoradiation:chemoradiotherapy alone.|||3.019|0.877|0.1223
92381545|NCT00500760|184666337|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.535||||0.1737|TWO_SIDED|95.0|0.217|1.262|||Regression, Logistic||The odds ratio is defined as the odds of having an overall response in the panitumumab plus chemoradiation arm relative to the odds in the chemoradiotherapy alone arm.|||1.262|0.217|0.1737
92381546|NCT00500760|184666337|SUPERIORITY_OR_OTHER||Difference in rate|-10.99|||||TWO_SIDED|95.0|-24.56|4.14|||||Difference is presented as the rate in panitumumab plus chemoradiation arm minus the rate in chemoradiotherapy alone arm.|||4.14|-24.56|
92381547|NCT00500760|184666338|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.087||||1|TWO_SIDED|95.0|0.448|2.712|||Regression, Logistic||The odds ratio is defined as the odds of having a complete response in the panitumumab plus chemoradiation arm relative to the odds in the chemoradiotherapy alone arm.|||2.712|0.448|1.0000
92381548|NCT00500760|184666338|SUPERIORITY_OR_OTHER||Difference in rate|1.33|||||TWO_SIDED|95.0|-13.23|14.71|||||Difference is presented as the rate in panitumumab plus chemoradiation arm minus the rate in chemoradiotherapy alone arm.|||14.71|-13.23|
92381549|NCT01325714|184666339|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the ability to detect a small-to-moderate difference (Cohen's h = .4) between treatment groups in rate of aggression onset over a 1-year period, assuming 80% power and T1 error rate of 5%. This differential rate in aggression onset is comparable to a 37% rate of aggression onset over a 1 year period for the control group versus 19% for the treatment group. Given this, our goal was to include 220 total participants (after 10% attrition: N = 198).|Hazard Ratio (HR)|0.71||||0.13|TWO_SIDED|95.0|0.45|1.11||This is the p value from the discrete-time Cox regression time-to-event analyses|Regression, Cox|DF = 1|The enhanced usual care arm is the comparison group.|"Univariate time-to-event analyses, using discrete-time Cox regression models to evaluate differences between PAVeD and EU-PC in the primary outcome of incidence of aggression over time.~We expected that patients with dementia among dyads randomized to PAVeD arm would be less likely to develop aggression compared to those randomized to the enhanced usual care arm."||1.11|0.45|0.13
92381550|NCT01325714|184666339|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the ability to detect a small-to-moderate difference (Cohen's h = .4) between treatment groups in rate of aggression onset over a 1-year period, assuming 80% power and T1 error rate of 5%. This differential rate in aggression onset is comparable to a 37% rate of aggression onset over a 1 year period for the control group versus 19% for the treatment group. Given this, our goal was to include 220 total participants (after 10% attrition: N = 198).|Hazard Ratio (HR)|0.77||||0.39|TWO_SIDED|95.0|0.43|1.39||From discrete time-cox regression time-to-event analysis.|Regression, Cox|df = 1|The enhanced usual care arm is the reference group.|Comparison of incidence of non-verbal aggression between treatment groups.||1.39|0.43|0.39
92381551|NCT01325714|184666339|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the ability to detect a small-to-moderate difference (Cohen's h = .4) between treatment groups in rate of aggression onset (the primary outcome) over a 1-year period, assuming 80% power and type I error rate of 5%. This differential rate in aggression onset is comparable to a 37% rate of aggression onset over a 1 year period for the control group (anticipated based on estimated rates from prior work) versus 19% for the treatment group|Hazard Ratio (HR)|0.84||||0.84|TWO_SIDED|95.0|0.51|1.37||From discrete-time Cox regression time-to-event analyses|Regression, Cox|df = 1|The usual care arm is the reference group.|Examination of group differences in incidence of verbal aggression. We expected those in paved to have lower incidence of verbal aggression relative to those in enhanced usual care.||1.37|0.51|0.84
92381552|NCT01325714|184666340|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|0.86||||0.46|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 455) = 0.86||Growth curve models were conducted to examine whether there were differences between treatment groups in change in caregiver reported worst pain over time.||||0.46
92414057|NCT02683746|184718626|NON_INFERIORITY|The primary hypothesis tested was that the liquid drug product would provide glycemic control non-inferior to the lyophilized drug product for a period of 26 weeks of treatment in participants with T2DM. Non-inferiority testing was performed at a one-sided alpha of 0.025 and non-inferiority margin of 0.4.|Mean Difference (Net)|0.06||||0.0002|TWO_SIDED|95.0|-0.13|0.24||P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model|||||0.24|-0.13|0.0002
92414058|NCT02683746|184718634|OTHER||Mean Difference (Net)|-0.34|||||TWO_SIDED|95.0|-0.83|0.14||||||||0.14|-0.83|
92381553|NCT01325714|184666341|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|1.43||||0.23|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|||Growth curve models were conducted to examine whether there were differences between treatment groups in change in caregiver reported worst pain over time.||||0.23
92381554|NCT01325714|184666342|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|1.45||||0.23|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 455) = 1.45||Growth curve models were conducted to examine whether there were differences between treatment groups in change in caregiver reported overall pain over time.||||0.23
92414059|NCT02683746|184718635|OTHER||Mean Difference (Net)|0.03|||<|0.0001|TWO_SIDED|95.0|-0.07|0.13||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 4 are presented.|||0.13|-0.07|<0.0001
92414060|NCT02683746|184718635|OTHER||Mean Difference (Net)|0.07|||<|0.0001|TWO_SIDED|95.0|-0.07|0.2||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 8 are presented.|||0.20|-0.07|<0.0001
92232311|NCT01642212|184366867|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92232312|NCT01642212|184366868|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.75||||0.0096|TWO_SIDED|95.0|-11.808|-1.687||LS mean estimates were determined using an ANCOVA model including treatment group as a factor and the baseline score as a covariate.|ANCOVA|||||-1.687|-11.808|0.0096
92278257|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.7|||||TWO_SIDED|95.0|-0.6|2.6||||||For Poliovirus Type 2 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||2.6|-0.6|
92414061|NCT02683746|184718635|OTHER||Mean Difference (Net)|0.08|||<|0.0001|TWO_SIDED|95.0|-0.08|0.24||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 12 are presented.|||0.24|-0.08|<0.0001
92414062|NCT02683746|184718635|OTHER||Mean Difference (Net)|0.02|||<|0.0001|TWO_SIDED|95.0|-0.16|0.2||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 16 are presented.|||0.20|-0.16|<0.0001
92414063|NCT02683746|184718635|OTHER||Mean Difference (Net)|0.02|||<|0.0001|TWO_SIDED|95.0|-0.15|0.19||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 20 are presented.|||0.19|-0.15|<0.0001
92414064|NCT02683746|184718635|OTHER||Mean Difference (Net)|0.01|||<|0.0001|TWO_SIDED|95.0|-0.17|0.2||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 26 are presented.|||0.20|-0.17|<0.0001
92414065|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-0.15|0.65|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 1 are presented.|||0.65|-0.15|
92414066|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-0.2|0.69|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 2 are presented.|||0.69|-0.20|
92414067|NCT02683746|184718636|OTHER||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-0.42|0.4|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 3 are presented.|||0.40|-0.42|
92414068|NCT02683746|184718636|OTHER||Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.42|0.36|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 4 are presented.|||0.36|-0.42|
92414069|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.19|||||TWO_SIDED|95.0|-0.19|0.57|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 5 are presented.|||0.57|-0.19|
92232313|NCT01642212|184366869|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.49||||0.2649|TWO_SIDED|95.0|-6.895|1.92||LS mean estimates were determined using the ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 8||1.920|-6.895|0.2649
92278258|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.4|||||TWO_SIDED|95.0|-1.0|2.0||||||For Poliovirus Type 3 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||2.0|-1.0|
92278259|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.5|1.5||||||For Poliovirus Type 1 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 EU/mL threshold was calculated||1.5|-1.5|
92414070|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-0.26|0.55|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 6 are presented.|||0.55|-0.26|
92414071|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.27|||||TWO_SIDED|95.0|-0.16|0.71|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 7 are presented.|||0.71|-0.16|
92414072|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.19|||||TWO_SIDED|95.0|-0.22|0.6|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 8 are presented.|||0.60|-0.22|
92414073|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.41|0.47|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 9 are presented.|||0.47|-0.41|
92414074|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-0.28|0.57|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 10 are presented.|||0.57|-0.28|
92414075|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.11|||||TWO_SIDED|95.0|-0.34|0.56|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 11 are presented.|||0.56|-0.34|
92414076|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.41|0.46|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 12 are presented.|||0.46|-0.41|
92414077|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.47|0.57|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 13 are presented.|||0.57|-0.47|
92414078|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.06|||||TWO_SIDED|95.0|-0.41|0.54|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 16 are presented.|||0.54|-0.41|
92414079|NCT02683746|184718636|OTHER||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.47|0.53|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 20 are presented.|||0.53|-0.47|
92232314|NCT01642212|184366869|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.91||||0.2878|TWO_SIDED|95.0|-8.322|2.501||LS mean estimates were determined using the ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 12||2.501|-8.322|0.2878
92232315|NCT01642212|184366871|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED||||||Fisher Exact|||Analysis of \</= 15 Eosinophils/HPF||||0.0001
92414080|NCT02683746|184718636|OTHER||Mean Difference (Net)|-0.34|||||TWO_SIDED|95.0|-0.83|0.14|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 26 are presented.|||0.14|-0.83|
92414081|NCT02614469|184718641|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|103.0|||||TWO_SIDED|90.0|98.0|108.0|||||Fed/Fasting Ratio|To assess the effect of food on the PK of urate, analyses of variance (ANOVA) using a linear mixed-effects model was fitted to the natural logarithmic transformation of PK parameters of urate. The linear mixed-effects model will include subject as a random effect, and treatment, period, and sequence as fixed effects. The 90% confidence intervals were constructed for the ratio of geometric means of PK parameters between fed and fasted treatments, based on log-transformed data.||108|98.0|
92414082|NCT02614469|184718642|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|99.3|||||TWO_SIDED|90.0|96.9|102.0|||||Fed/Fasted Ratio|To assess the effect of food on the PK of urate, analyses of variance (ANOVA) using a linear mixed-effects model was fitted to the natural logarithmic transformation of PK parameters of urate. The linear mixed-effects model will include subject as a random effect, and treatment, period, and sequence as fixed effects. The 90% confidence intervals were constructed for the ratio of geometric means of PK parameters between fed and fasted treatments, based on log-transformed data.||102|96.9|
92169313|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.083||||0.471|TWO_SIDED|95.0|-0.143|0.309||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 52|||0.309|-0.143|0.471
92414083|NCT02614469|184718646|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|103.0|||||TWO_SIDED|90.0|90.9|118.0|||||Fed/Fasted Ratio|To assess the effect of food on the PK of urate, analyses of variance (ANOVA) using a linear mixed-effects model was fitted to the natural logarithmic transformation of PK parameters of urate. The linear mixed-effects model will include subject as a random effect, and treatment, period, and sequence as fixed effects. The 90% confidence intervals were constructed for the ratio of geometric means of PK parameters between fed and fasted treatments, based on log-transformed data.||118|90.9|
92414084|NCT02614469|184718647|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|83.4|||||TWO_SIDED|90.0|62.1|112.0|||||Fed/Fasted Ratio|To assess the effect of food on the PK of urate, analyses of variance (ANOVA) using a linear mixed-effects model was fitted to the natural logarithmic transformation of PK parameters of urate. The linear mixed-effects model will include subject as a random effect, and treatment, period, and sequence as fixed effects. The 90% confidence intervals were constructed for the ratio of geometric means of PK parameters between fed and fasted treatments, based on log-transformed data.||112|62.1|
92414085|NCT01976988|184718669|SUPERIORITY_OR_OTHER|||||||0.72|||||||Fisher Exact|||||||0.72
92414086|NCT01976988|184718670|SUPERIORITY_OR_OTHER|||||||0.36|||||||Fisher Exact|||||||0.36
92414087|NCT01976988|184718671|SUPERIORITY_OR_OTHER|||||||0.03|||||||Fisher Exact|||||||0.03
92414088|NCT01976988|184718672|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1
92414089|NCT01976988|184718673|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
92414090|NCT01976988|184718674|SUPERIORITY_OR_OTHER|||||||0.34|||||||Fisher Exact|||||||0.34
92414091|NCT01328444|184718675|SUPERIORITY_OR_OTHER||Least squares mean difference|26.5||||0.321|TWO_SIDED|95.0|-25.9|78.9||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 62.5 µg minus Placebo.|||78.9|-25.9|0.321
92414092|NCT01328444|184718675|SUPERIORITY_OR_OTHER||Least squares mean difference|13.1||||0.62|TWO_SIDED|95.0|-38.9|65.1||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 125 µg minus Placebo.|||65.1|-38.9|0.620
92414093|NCT01328444|184718675|SUPERIORITY_OR_OTHER||Least squares mean difference|-10.0||||0.665|TWO_SIDED|95.0|-55.5|35.4||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=VI 25 µg minus Placebo.|||35.4|-55.5|0.665
92414094|NCT01328444|184718675|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.6||||0.865|TWO_SIDED|95.0|-57.6|48.4||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus UMEC 62.5 µg.|||48.4|-57.6|0.865
92414095|NCT01328444|184718675|SUPERIORITY_OR_OTHER||Least squares mean difference|31.9||||0.174|TWO_SIDED|95.0|-14.1|77.9||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus VI 25 µg.|||77.9|-14.1|0.174
92414096|NCT01328444|184718675|SUPERIORITY_OR_OTHER||Least squares mean difference|19.3||||0.472|TWO_SIDED|95.0|-33.4|71.9||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus UMEC 125 µg.|||71.9|-33.4|0.472
92414097|NCT01328444|184718675|SUPERIORITY_OR_OTHER||Least squares mean difference|42.4||||0.072|TWO_SIDED|95.0|-3.8|88.7||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus VI 25 µg.|||88.7|-3.8|0.072
92414098|NCT01328444|184718675|SUPERIORITY_OR_OTHER||Least squares mean difference|21.9||||0.234|TWO_SIDED|95.0|-14.2|58.0||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||58.0|-14.2|0.234
92414099|NCT01328444|184718675|SUPERIORITY_OR_OTHER||Least squares mean difference|32.4||||0.08|TWO_SIDED|95.0|-3.9|68.8||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus Placebo.|||68.8|-3.9|0.080
92414100|NCT01328444|184718676|SUPERIORITY_OR_OTHER||Least squares mean difference|0.087||||0.003|TWO_SIDED|95.0|0.03|0.143||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 62.5 µg minus Placebo.|||0.143|0.030|0.003
92414101|NCT01328444|184718676|SUPERIORITY_OR_OTHER||Least squares mean difference|0.14|||<|0.001|TWO_SIDED|95.0|0.084|0.196||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 125 µg minus Placebo.|||0.196|0.084|<0.001
92280467|NCT00601484|184463634|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.41|STANDARD_ERROR_OF_MEAN|5.51|||TWO_SIDED|90.0|-13.65|4.826||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||4.826|-13.650|
92381555|NCT01325714|184666343|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|0.86||||0.62|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 409) = 0.59||Growth curve models were conducted to examine whether there were differences between treatment groups in change in patient-reported overall pain over time.||||0.62
92381556|NCT01325714|184666344|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|0.94||||0.42|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 453) = 0.94.||Growth curve models were conducted to examine whether there were differences between treatment groups in change in depression over time.||||0.42
92381557|NCT01325714|184666345|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|1.1||||0.35|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 457) = 1.10||Growth curve models were conducted to examine whether there were differences between treatment groups in change in pleasant events over time.||||0.35
92169314|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.045||||0.315|TWO_SIDED|95.0|-0.043|0.132||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 2|||0.132|-0.043|0.315
92381558|NCT01325714|184666346|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|0.11||||0.11|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 456) = 2.00||Growth curve models were conducted to examine whether there were differences between treatment groups in change in caregiver burden over time.||||0.11
92169315|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.054||||0.143|TWO_SIDED|95.0|-0.018|0.126||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 4|||0.126|-0.018|0.143
92169316|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.072||||0.111|TWO_SIDED|95.0|-0.017|0.16||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 8|||0.160|-0.017|0.111
92381559|NCT01325714|184666347|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|3.84||||0.01|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 456) = 3.84||Growth curve models were conducted to examine whether there were differences between treatment groups in change in caregiver reported mutuality over time.||||0.01
92232316|NCT01642212|184366871|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||Analysis of \</= 1 Eosinophils/HPF||||<0.0001
92381560|NCT00721175|184666348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2407407|STANDARD_ERROR_OF_MEAN|0.0920078||0.011|TWO_SIDED|95.0|-0.4210726|-0.0604089|||Two-sample test of proportion|||||-.0604089|-.4210726|0.011
92381561|NCT00721175|184666349|SUPERIORITY_OR_OTHER|||||||0.0021||95.0|||||Log Rank|||||||0.0021
92381562|NCT00721175|184666351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.278744|STANDARD_ERROR_OF_MEAN|0.0929622||0.004|TWO_SIDED|95.0|-0.4609466|-0.0965414|||Two-sample test of proportion|||||-.0965414|-.4609466|0.004
92381563|NCT03869333|184666385|OTHER|||||||0.504|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Baseline||||0.504
92381564|NCT03869333|184666385|OTHER|||||||0.01|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 22||||0.010
92381565|NCT03869333|184666385|OTHER|||||||0.038|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 43||||0.038
92381566|NCT03869333|184666385|OTHER|||||||0.016|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 50||||0.016
92381567|NCT03869333|184666385|OTHER|||||||0.058|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 57||||0.058
92381568|NCT03869333|184666385|OTHER|||||||0.038|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 71||||0.038
92381569|NCT03869333|184666386|OTHER|||||||0.129|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Baseline||||0.129
92381570|NCT03869333|184666386|OTHER|||||||0.017|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 22||||0.017
92381571|NCT03869333|184666386|OTHER|||||||0.008|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 43||||0.008
92381572|NCT03869333|184666386|OTHER|||||||0.011|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 50||||0.011
92381573|NCT03869333|184666386|OTHER|||||||0.029|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 57||||0.029
92381574|NCT03869333|184666386|OTHER|||||||0.042|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 71||||0.042
92169317|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.012||||0.783|TWO_SIDED|95.0|-0.075|0.1||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 12|||0.100|-0.075|0.783
92232317|NCT01642212|184366872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0206|TWO_SIDED||||||Pearson's chi-square|||Analysis of \>/= 30% DSQ score reduction||||0.0206
92381575|NCT03869333|184666387|OTHER|||||||0.226|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Baseline||||0.226
92381576|NCT03869333|184666387|OTHER|||||||0.601|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 8||||0.601
92381577|NCT03869333|184666387|OTHER|||||||0.628|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 29||||0.628
92381578|NCT03869333|184666387|OTHER|||||||0.878|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 50||||0.878
92381579|NCT03869333|184666388|OTHER|||||||0.762|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Baseline||||0.762
92381580|NCT03869333|184666388|OTHER|||||||0.335|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 8||||0.335
92381581|NCT03869333|184666388|OTHER|||||||0.229|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 29||||0.229
92381582|NCT03869333|184666388|OTHER|||||||0.102|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 50||||0.102
92381583|NCT03869333|184666389|OTHER|||||||0.828|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 22.||||0.828
92381584|NCT03869333|184666389|OTHER|||||||0.629|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 43||||0.629
92381585|NCT03869333|184666389|OTHER||||||>|0.999|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 50||||>0.999
92414102|NCT01328444|184718676|SUPERIORITY_OR_OTHER||Least squares mean difference|0.099|||<|0.001|TWO_SIDED|95.0|0.05|0.148||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=VI 25 µg minus Placebo.|||0.148|0.050|<0.001
92414103|NCT01328444|184718676|SUPERIORITY_OR_OTHER||Least squares mean difference|0.124|||<|0.001|TWO_SIDED|95.0|0.067|0.181||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus UMEC 62.5 µg.|||0.181|0.067|<0.001
92414104|NCT01328444|184718676|SUPERIORITY_OR_OTHER||Least squares mean difference|0.111|||<|0.001|TWO_SIDED|95.0|0.062|0.161||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus VI 25 µg.|||0.161|0.062|<0.001
92414105|NCT01328444|184718676|SUPERIORITY_OR_OTHER||Least squares mean difference|0.029||||0.32|TWO_SIDED|95.0|-0.028|0.086||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus UMEC 125 µg.|||0.086|-0.028|0.320
92381586|NCT03869333|184666389|OTHER||||||>|0.999|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 57||||>0.999
92381587|NCT03869333|184666389|OTHER|||||||0.825|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 71||||0.825
92381588|NCT03869333|184666390|OTHER|||||||0.005|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 22.||||0.005
92381589|NCT03869333|184666390|OTHER|||||||0.082|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 43||||0.082
92381590|NCT03869333|184666390|OTHER|||||||0.293|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 50||||0.293
92381591|NCT03869333|184666390|OTHER||||||>|0.999|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 57||||>0.999
92381592|NCT03869333|184666390|OTHER||||||>|0.999|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 71||||>0.999
92381593|NCT03869333|184666391|OTHER|||||||0.828|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 8||||0.828
92414106|NCT01328444|184718676|SUPERIORITY_OR_OTHER||Least squares mean difference|0.07||||0.007|TWO_SIDED|95.0|0.019|0.12||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus VI 25 µg.|||0.120|0.019|0.007
92414107|NCT01328444|184718676|SUPERIORITY_OR_OTHER||Least squares mean difference|0.211|||<|0.001|TWO_SIDED|95.0|0.172|0.249||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.249|0.172|<0.001
92414108|NCT01328444|184718676|SUPERIORITY_OR_OTHER||Least squares mean difference|0.169|||<|0.001|TWO_SIDED|95.0|0.129|0.209||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus Placebo.|||0.209|0.129|<0.001
92414109|NCT01270802|184718697|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.81|STANDARD_ERROR_OF_MEAN|0.76||0.67|TWO_SIDED|95.0|-0.75|2.37||P-value was not adjusted for multiple comparisons; P\<0.05 was considered statistically significant.|t-test, 2 sided|||We assumed that the declines in FMD seen with TDF/FTC/EFV in our previous study would fully reverse. Thus, the clinically relevant effect size to be detected for FMD change was +3.12% (SD 4%) in those switching from EFV to RAL. Using a two-sample, independent, two-tailed t-test with 5% type I error and 20% type II error, a sample size of 13 per group would be needed to find a difference in FMD between groups. Allowing for a 10% dropout rate, we planned to recruit 15 subjects per group.||2.37|-0.75|0.67
92232318|NCT01642212|184366872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0275|TWO_SIDED||||||Pearson's chi-square|||Analysis of \>/= 50% DSQ score reduction||||0.0275
92381594|NCT03869333|184666391|OTHER|||||||0.913|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 29||||0.913
92381595|NCT03869333|184666391|OTHER|||||||0.924|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 50||||0.924
92381596|NCT03869333|184666392|OTHER||||||>|0.999|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 8||||>0.999
92381597|NCT03869333|184666392|OTHER|||||||0.412|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 29||||0.412
92169318|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.059||||0.283|TWO_SIDED|95.0|-0.049|0.167||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 18|||0.167|-0.049|0.283
92232319|NCT01642212|184366873|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0026|TWO_SIDED||||||Fisher Exact|||Analysis of response and \>/= 30% DSQ score reduction||||0.0026
92232320|NCT01642212|184366873|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0199|TWO_SIDED||||||Fisher Exact|||Analysis of response and \>/= 50% DSQ score reduction||||0.0199
92232321|NCT01642212|184366874|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-22.34|||<|0.0001|TWO_SIDED|95.0|-30.345|-14.334|||ANCOVA|LS mean based on the ANCOVA model including treatment group as a factor and baseline as a covariate.||||-14.334|-30.345|<0.0001
92381598|NCT03869333|184666392|OTHER|||||||0.847|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 50||||0.847
92232322|NCT01642212|184366875|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.76|||<|0.0001|TWO_SIDED|95.0|-5.172|-2.358||LS mean estimates based on the ANCOVA model including treatment group as a factor and baseline value as a covariate.|ANCOVA|||||-2.358|-5.172|<0.0001
92381599|NCT03869333|184666393|OTHER|||||||0.009|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 22||||0.009
92381600|NCT03869333|184666393|OTHER|||||||0.037|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 43||||0.037
92381601|NCT03869333|184666393|OTHER|||||||0.009|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 50||||0.009
92381602|NCT03869333|184666393|OTHER|||||||0.036|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 57||||0.036
92381603|NCT03869333|184666393|OTHER|||||||0.042|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 71||||0.042
92381604|NCT03869333|184666394|OTHER|||||||0.028|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 22||||0.028
92381605|NCT03869333|184666394|OTHER|||||||0.088|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 43||||0.088
92381606|NCT03869333|184666394|OTHER|||||||0.146|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 50||||0.146
92381607|NCT03869333|184666394|OTHER|||||||0.126|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 57||||0.126
92381608|NCT03869333|184666394|OTHER|||||||0.273|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 71||||0.273
92381609|NCT03869333|184666396|OTHER|||||||0.348|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 8||||0.348
92381610|NCT03869333|184666396|OTHER|||||||0.179|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 29||||0.179
92381611|NCT03869333|184666396|OTHER|||||||0.089|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 50||||0.089
92381612|NCT00649428|184666398|SUPERIORITY_OR_OTHER|||||||1e-05|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by combined treatment site.||A 5% level of significance was used as the threshold for determination of statistical significance, and all tests were two-tailed. the effect size and associated 95% confidence interval (CI) are provided for all comparative efficacy outcomes. Primary analysis of the two co-primary efficacy endpoints and the secondary efficacy endpoints were performed on the ITT population.||||.00001
92381613|NCT00649428|184666401|SUPERIORITY_OR_OTHER||||||<|1e-05|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by combined treatment site.||A 5% level of significance was used as the threshold for determination of statistical significance, and all tests were two-tailed. the effect size and associated 95% confidence interval (CI) are provided for all comparative efficacy outcomes. Primary analysis of the two co-primary efficacy endpoints and the secondary efficacy endpoints were performed on the ITT population.||||<.00001
92381614|NCT02008227|184666432|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.0003|TWO_SIDED|95.0|0.62|0.87|||Log Rank|||Stratified analysis based on the strata of IC levels per interactive voice/web response system (IxRS), the number of prior chemotherapy regimens per IxRS, and histology per electronic case report form (eCRF).||0.87|0.62|0.0003
92381615|NCT02008227|184666432|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.0002|TWO_SIDED|95.0|0.62|0.86|||Log Rank|||Unstratified Analysis||0.86|0.62|0.0002
92381616|NCT02008227|184666433|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.0102|TWO_SIDED|95.0|0.58|0.93|||Log Rank|||Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||0.93|0.58|0.0102
92381617|NCT02008227|184666433|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72||||0.0052|TWO_SIDED|95.0|0.58|0.91|||Log Rank|||Unstratified Analysis||0.91|0.58|0.0052
92381618|NCT02008227|184666436|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.95||||0.4928|TWO_SIDED|95.0|0.82|1.1|||Log Rank|||Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||1.10|0.82|0.4928
92381619|NCT02008227|184666436|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.3596|TWO_SIDED|95.0|0.81|1.08|||Log Rank|||Unstratified Analysis||1.08|0.81|0.3596
92381620|NCT02008227|184666437|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.3806|TWO_SIDED|95.0|0.74|1.12|||Log Rank|||Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||1.12|0.74|0.3806
92381621|NCT02008227|184666437|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.3249|TWO_SIDED|95.0|0.74|1.1|||Log Rank|||Unstratified Analysis||1.10|0.74|0.3249
92381622|NCT02008227|184666440|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.18|0.55|||Log Rank|||Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||0.55|0.18|<0.0001
92381623|NCT02008227|184666440|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.34|||<|0.0001|TWO_SIDED|95.0|0.21|0.55|||Log Rank|||Unstratified Analysis||0.55|0.21|<0.0001
92381624|NCT02008227|184666441|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.31||||0.0006|TWO_SIDED|95.0|0.15|0.62|||Log Rank|||Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||0.62|0.15|0.0006
92414110|NCT01270802|184718698|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.63|STANDARD_ERROR_OF_MEAN|5.52||0.4|TWO_SIDED|95.0|-13.04|9.77||P-value was not adjusted for multiple comparisons. P\<0.05 was considered statistically significant.|t-test, 2 sided|||||9.77|-13.04|0.40
92414111|NCT04620798|184718703|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.96|1.07|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.07|0.96|
92169319|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.138||||0.038|TWO_SIDED|95.0|0.008|0.267||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 26|||0.267|0.008|0.038
92381625|NCT02008227|184666441|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.38||||0.0003|TWO_SIDED|95.0|0.22|0.65|||Log Rank|||Unstratified Analysis||0.65|0.22|0.0003
92381626|NCT02008227|184666445|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72||||0.0111|TWO_SIDED|95.0|0.55|0.93|||Log Rank|||Pain in Chest: Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||0.93|0.55|0.0111
92381627|NCT02008227|184666445|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.06||||0.6305|TWO_SIDED|95.0|0.84|1.33|||Log Rank|||Cough: Unstratified Analysis||1.33|0.84|0.6305
92381628|NCT02008227|184666445|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.7406|TWO_SIDED|95.0|0.81|1.16|||Log Rank|||Dyspnea: Unstratified Analysis||1.16|0.81|0.7406
92381629|NCT02008227|184666445|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92||||0.5221|TWO_SIDED|95.0|0.73|1.17|||Log Rank|||Arm/Shoulder Pain||1.17|0.73|0.5221
92381630|NCT02008227|184666460|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.0012|TWO_SIDED|95.0|0.7|0.92|||Log Rank|||Stratified analysis based on the strata of IC levels per interactive voice/web response system (IxRS), the number of prior chemotherapy regimens per IxRS, and histology per electronic case report form (eCRF).||0.92|0.70|0.0012
92381631|NCT02008227|184666461|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.0045|TWO_SIDED|95.0|0.64|0.92|||Log Rank|||Stratified analysis based on the strata of IC levels per interactive voice/web response system (IxRS), the number of prior chemotherapy regimens per IxRS, and histology per electronic case report form (eCRF).||0.92|0.64|0.0045
92381632|NCT02008227|184666462|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.64||||0.0012|TWO_SIDED|95.0|0.49|0.84|||Log Rank|||Stratified analysis based on the strata of IC levels per interactive voice/web response system (IxRS), the number of prior chemotherapy regimens per IxRS, and histology per electronic case report form (eCRF).||0.84|0.49|0.0012
92381633|NCT02008227|184666463|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.3|0.68|||Log Rank|||Stratified analysis based on the strata of IC levels per interactive voice/web response system (IxRS), the number of prior chemotherapy regimens per IxRS, and histology per electronic case report form (eCRF).||0.68|0.30|<0.0001
92169320|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.048||||0.467|TWO_SIDED|95.0|-0.083|0.18||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 39|||0.180|-0.083|0.467
92169321|NCT02299375|184227205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.042||||0.64|TWO_SIDED|95.0|-0.138|0.222||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 52|||0.222|-0.138|0.640
92232323|NCT01642212|184366876|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-35.5||||0.0002|TWO_SIDED|95.0|-53.438|-17.57||LS mean estimates based on the ANCOVA model including treatment group as a factor and baseline value as a covariate.|ANCOVA|||Analysis of proximal eosinophil count||-17.570|-53.438|0.0002
92232324|NCT01642212|184366876|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-59.56|||<|0.0001|TWO_SIDED|95.0|-84.173|-34.948||LS mean estimates based on the ANCOVA model including treatment group as a factor and baseline value as a covariate.|ANCOVA|||Analysis of mid- eosinophil count||-34.948|-84.173|<0.0001
92381634|NCT02008227|184666464|SUPERIORITY_OR_OTHER_LEGACY||Stratified Hazard Ratio|0.96||||0.4981|TWO_SIDED|95.0|0.85|1.08|||Log Rank|||||1.08|0.85|0.4981
92381635|NCT02008227|184666466|SUPERIORITY_OR_OTHER_LEGACY||Unstratified Hazard Ratio|0.32|||||TWO_SIDED|95.0|0.21|0.48||||||||0.48|0.21|
92381636|NCT00757822|184666467|SUPERIORITY_OR_OTHER||Difference in Percentages|4.6|||>|0.76|TWO_SIDED|90.0|-9.5|18.6|||Fisher Exact|||The incidence of PON per arm will be determined and expressed as a percentage of the total patients per arm. Treatment efficacy will be measured as the percentage-point decrease in PON in the treatment arm (Marinol) compared to the standard therapy arm (ondansetron). Null hypothesis: Marinol treatment is not superior to ondansetron treatment. We will test the statistical significance with Fisher's Exact test at a significance level of 0.05||18.6|-9.5|>0.76
92414112|NCT04620798|184718703|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.77|1.44|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.44|0.77|
92381637|NCT00757822|184666468|SUPERIORITY_OR_OTHER||||||>|0.92|||||||Fisher Exact|One-sided Fisher's Exact test was performed comparing the percentage of subjects with at least one VAS score \> 0. (Marinol\>Ondansetron).||||||>0.92
92232325|NCT01642212|184366876|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-67.38|||<|0.0001|TWO_SIDED|95.0|-93.573|-41.18||LS mean estimates based on the ANCOVA model including treatment group as a factor and baseline value as a covariate.|ANCOVA|||Analysis of distal eosinophil count||-41.180|-93.573|<0.0001
92232326|NCT01642212|184366877|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-18.44||||0.0015|TWO_SIDED|95.0|-29.593|-7.293||LS mean estimates were based on the ANCOVA model including treatment group as a factor and baseline value as a covariate.|ANCOVA|||||-7.293|-29.593|0.0015
92232327|NCT01642212|184366878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.117|TWO_SIDED|||||P-value for comparison of the treatment difference was determined by Cochran-Mantel-Haenszel row mean score test.|Cochran-Mantel-Haenszel|||Analysis of distribution of scores across all responses||||0.1170
92278260|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.4|||||TWO_SIDED|95.0|-1.1|2.2||||||For Poliovirus Type 2 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 EU/mL threshold was calculated||2.2|-1.1|
92381638|NCT00757822|184666469|SUPERIORITY_OR_OTHER||Difference in Percentages|7.7|||>|0.55|TWO_SIDED|90.0|-12.1|13.3|||Fisher Exact|||||13.3|-12.1|>0.55
92381639|NCT00757822|184666470|SUPERIORITY_OR_OTHER||||||=|0.981|TWO_SIDED||||||Wilcoxon Rank-Sum test|||||||=0.981
92381640|NCT00757822|184666471|SUPERIORITY_OR_OTHER||||||>|0.9|||||||Fisher Exact|||||||>0.90
92381641|NCT00757822|184666472|SUPERIORITY_OR_OTHER||||||>|0.37|TWO_SIDED||||||Fisher Exact|||||||>0.37
92381642|NCT00757822|184666473|SUPERIORITY_OR_OTHER||||||>|0.75|TWO_SIDED||||||FREQ Procedure|||Comparisons at 24-48 hr post-surgery. Null hypothesis: dronabinol is not superior to ondansetron in patient satisfaction.||||>0.75
92381643|NCT00757822|184666473|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||FREQ procedure|||Comparisons of both arms at 2-6 weeks; null hypothesis: dronabinol is not superior to ondansetron in patient satisfaction||||>0.10
92381644|NCT00757822|184666474|SUPERIORITY_OR_OTHER||||||>|0.29|TWO_SIDED||||||FREQ procedure|||Comparison of both group responses at 24-48 hours.||||>0.29
92381645|NCT00757822|184666474|SUPERIORITY_OR_OTHER||||||>|0.55|TWO_SIDED||||||FREQ Procedure|||Comparisons of both arms at 2-6 weeks.||||>0.55
92381646|NCT01463072|184666483|OTHER||Percent|35.0|||||TWO_SIDED|95.0|21.0|52.0|||||35% of participants were responders (CR+PR).|||52|21|
92381647|NCT01463072|184666485|SUPERIORITY||Odds Ratio (OR)|5.8||||0.01|TWO_SIDED|95.0|1.3|33.1|||Fisher Exact||Ratio is intermediate/high toxicity risk over low toxicity risk|CARG chemotherapy toxicity risk predictive of chemotherapy toxicity (grade 3)||33.1|1.3|0.01
92381648|NCT01463072|184666485|SUPERIORITY||Ratio of group means|1.38||||0.02|TWO_SIDED|95.0|1.04|1.8|||t-test, 2 sided||Ratio is dose reduction over no dose reduction.|CARG chemotherapy toxicity risk predictive of dose reduction due to chemotherapy toxicity||1.80|1.04|0.02
92381649|NCT06225466|184666496|SUPERIORITY||least squares mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.013||0.123|TWO_SIDED|95.0|-0.005|0.047|||ANOVA|||||0.047|-0.005|0.123
92381650|NCT06225466|184666497|SUPERIORITY||Odds Ratio (OR)|0.55||||0.102|TWO_SIDED|95.0|0.26|1.12|||Mixed Models Analysis|||||1.12|0.26|0.102
92381651|NCT06225466|184666498|SUPERIORITY||Incidence rate ratio|2.37||||0.008|TWO_SIDED|95.0|1.25|4.52|||Negative Binomial Regression|||||4.52|1.25|0.008
92381652|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||60.66|TWO_SIDED|95.0|0.85|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.85|60.66
92381653|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.19||||95.21|TWO_SIDED|95.0|0.97|1.47||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.47|0.97|95.21
92381654|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||74.29|TWO_SIDED|95.0|0.88|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|0.88|74.29
92381655|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.29||||99.48|TWO_SIDED|95.0|1.06|1.58||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.58|1.06|99.48
92381656|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.87||||13.98|TWO_SIDED|95.0|0.66|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RML; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.66|13.98
92381657|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.28||||97.92|TWO_SIDED|95.0|1.01|1.62||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RML; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.62|1.01|97.92
92381658|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.14||||80.24|TWO_SIDED|95.0|0.84|1.54||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.54|0.84|80.24
92381659|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.3||||97.79|TWO_SIDED|95.0|1.01|1.66||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.66|1.01|97.79
92381660|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||51.27|TWO_SIDED|95.0|0.81|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.81|51.27
92381661|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.15||||90.66|TWO_SIDED|95.0|0.93|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|0.93|90.66
92381662|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||54.89|TWO_SIDED|95.0|0.9|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.90|54.89
92381663|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||94.45|TWO_SIDED|95.0|0.98|1.24||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.24|0.98|94.45
92381664|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.09||||94.09|TWO_SIDED|95.0|0.98|1.21||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.21|0.98|94.09
92232328|NCT01642212|184366879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1947|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of heartburn||||0.1947
92232329|NCT01642212|184366879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8029|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of chest pain||||0.8029
92232330|NCT01642212|184366879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4963|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of regurgitation||||0.4963
92232331|NCT01642212|184366879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5257|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of abdominal pain||||0.5257
92232332|NCT01642212|184366879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5219|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of nausea||||0.5219
92232333|NCT01642212|184366879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2886|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of vomiting||||0.2886
92232334|NCT01642212|184366882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. Both responses (no change, worsened) were analyzed collectively.|Cochran-Mantel-Haenszel|||Analysis of symptoms of participants with no symptoms at baseline||||0.1600
92381665|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||62.95|TWO_SIDED|95.0|0.91|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.91|62.95
92414113|NCT04620798|184718704|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.89|1.1|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.10|0.89|
92414114|NCT04620798|184718704|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.5|1.62|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.62|0.50|
92232335|NCT01642212|184366884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0606|TWO_SIDED||||||Pearson's chi-square|||Analysis of \>/= 30% DSQ+pain score reduction||||0.0606
92232336|NCT01642212|184366884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0165|TWO_SIDED||||||Pearson's chi-square|||Analysis of \>/= 50% DSQ+pain score reduction||||0.0165
92232337|NCT01642212|184366885|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7817|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.7817
92232338|NCT01642212|184366886|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09||||0.1686|TWO_SIDED|95.0|-0.222|0.04||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 8||0.040|-0.222|0.1686
92232339|NCT01642212|184366886|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03||||0.8046|TWO_SIDED|95.0|-0.269|0.21||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 12||0.210|-0.269|0.8046
92232340|NCT01642212|184366886|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01||||0.9239|TWO_SIDED|95.0|-0.199|0.219||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 16||0.219|-0.199|0.9239
92232341|NCT01642212|184366887|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.73||||0.4835|TWO_SIDED|95.0|-2.806|1.339||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 8||1.339|-2.806|0.4835
92232342|NCT01642212|184366887|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.92||||0.0662|TWO_SIDED|95.0|-3.974|0.132||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 12||0.132|-3.974|0.0662
92381666|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.12||||96.86|TWO_SIDED|95.0|0.99|1.26||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.26|0.99|96.86
92381667|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.09||||94.16|TWO_SIDED|95.0|0.98|1.2||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.20|0.98|94.16
92381668|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||48.99|TWO_SIDED|95.0|0.86|1.15||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.15|0.86|48.99
92381669|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.12||||94.51|TWO_SIDED|95.0|0.98|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|0.98|94.51
92381670|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||94.59|TWO_SIDED|95.0|0.97|1.31||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.31|0.97|94.59
92381671|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||61.27|TWO_SIDED|95.0|0.86|1.23||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.23|0.86|61.27
92381672|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.15||||96.63|TWO_SIDED|95.0|0.99|1.34||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.No|FRC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.34|0.99|96.63
92381673|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.12||||94.02|TWO_SIDED|95.0|0.97|1.29||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.29|0.97|94.02
92381674|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||53.24|TWO_SIDED|95.0|0.87|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.87|53.24
92381675|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||70.84|TWO_SIDED|95.0|0.91|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.91|70.84
92381676|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||74.15|TWO_SIDED|95.0|0.92|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.92|74.15
92232343|NCT01642212|184366887|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.8||||0.1091|TWO_SIDED|95.0|-4.006|0.41||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 16||0.410|-4.006|0.1091
92278261|NCT00368966|184458507|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.5|1.5||||||For Poliovirus Type 3 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 EU/mL threshold was calculated||1.5|-1.5|
92232344|NCT03871491|184366894|SUPERIORITY||Risk Ratio (RR)|0.67|||<|0.001|TWO_SIDED|95.0|0.56|0.79||We calculated P values to test each of the primary hypotheses at an alpha level of 0.05 overall, with a nominal alpha level of 0.0001 at the interim analysis.|Regression, Logistic|Used multiple imputation for missing outcomes by means of logistic regression imputation.||The null hypothesis is there is no treatment effect on the incidence of maternal death or sepsis within 6 weeks (42 days) post-delivery||0.79|0.56|<0.001
92232345|NCT03871491|184366895|SUPERIORITY||Risk Ratio (RR)|1.02||||0.56|TWO_SIDED|95.0|0.95|1.09||We calculated P values to test each of the primary hypotheses at an alpha level of 0.05 overall, with a nominal alpha level of 0.0001 at the interim analysis.|Regression, Logistic|Used multiple imputation for missing outcomes by means of logistic regression imputation.||The null hypothesis is there is no treatment effect on the incidence of Intrapartum/Neonatal Death or Sepsis Within 4 Weeks (28 Days) Post-delivery in Intervention vs. Placebo Group||1.09|0.95|0.56
92232346|NCT03871491|184366896|SUPERIORITY||Risk Ratio (RR)|0.65|||||TWO_SIDED|95.0|0.55|0.77||||||||0.77|0.55|
92232347|NCT03871491|184366897|SUPERIORITY||Risk Ratio (RR)|4.04|||||TWO_SIDED|95.0|0.45|36.14||||||||36.14|0.45|
92414115|NCT04620798|184718705|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.96|1.06|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.06|0.96|
92232348|NCT03871491|184366899|SUPERIORITY||Risk Ratio (RR)|0.66|||||TWO_SIDED|95.0|0.55|0.79||||||||0.79|0.55|
92232349|NCT03871491|184366900|SUPERIORITY||Risk Ratio (RR)|0.57|||||TWO_SIDED|95.0|0.43|0.75||||||||0.75|0.43|
92232350|NCT03871491|184366901|SUPERIORITY||Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.65|0.99||||||||0.99|0.65|
92232351|NCT03871491|184366902|SUPERIORITY||Risk Ratio (RR)|0.69|||||TWO_SIDED|95.0|0.56|0.85||||||||0.85|0.56|
92278262|NCT00368966|184458508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0||||||95.0|0.82|1.23||||||For Poliovirus Type 1 the GMT ratio (13vPnC/7vPnC) was calculated||1.23|0.82|
92278263|NCT00368966|184458508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.94||||||95.0|0.76|1.18||||||For Poliovirus Type 2 the GMT ratio (13vPnC/7vPnC) was calculated||1.18|0.76|
92232352|NCT03871491|184366903|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.95|1.01||||||||1.01|0.95|
92232353|NCT03871491|184366905|SUPERIORITY||Risk Ratio (RR)|0.65|||||TWO_SIDED|95.0|0.52|0.82||||||||0.82|0.52|
92232354|NCT03871491|184366906|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.7|1.15||||||||1.15|0.70|
92232355|NCT03871491|184366907|SUPERIORITY||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.73|0.84||||||||0.84|0.73|
92381677|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||65.43|TWO_SIDED|95.0|0.87|1.24||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal;Region; Upper; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.24|0.87|65.43
92381678|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.19||||97.15|TWO_SIDED|95.0|0.99|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Upper; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|0.99|97.15
92381679|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||63.99|TWO_SIDED|95.0|0.81|1.34||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Lower; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.34|0.81|63.99
92232356|NCT03871491|184366908|SUPERIORITY||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.84|1.41||||||||1.41|0.84|
92232357|NCT03871491|184366909|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.96|1.1||||||||1.1|0.96|
92232358|NCT03871491|184366910|SUPERIORITY||Risk Ratio (RR)|1.04|||||TWO_SIDED|95.0|0.73|1.47||||||||1.47|0.73|
92381680|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.15||||91.99|TWO_SIDED|95.0|0.94|1.41||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Lower; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.41|0.94|91.99
92381681|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||76.81|TWO_SIDED|95.0|0.94|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region;Central; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.94|76.81
92232359|NCT03871491|184366911|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.88|1.07||||||||1.07|0.88|
92232360|NCT03871491|184366913|SUPERIORITY||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.96|1.21||||||||1.21|0.96|
92232361|NCT03871491|184366914|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.94|1.12||||||||1.12|0.94|
92381682|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||67.01|TWO_SIDED|95.0|0.95|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal;Region; Central; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.95|67.01
92381683|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||63.91|TWO_SIDED|95.0|0.85|1.27||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Distal; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.27|0.85|63.91
92381684|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.18||||96.47|TWO_SIDED|95.0|0.99|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Distal D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|0.99|96.47
92381685|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||72.17|TWO_SIDED|95.0|0.93|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region;Total; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.93|72.17
92381686|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||74.38|TWO_SIDED|95.0|0.95|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Total; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.95|74.38
92381687|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||53.85|TWO_SIDED|95.0|0.9|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.90|53.85
92381688|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||95.02|TWO_SIDED|95.0|0.98|1.23||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.23|0.98|95.02
92381689|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||92.27|TWO_SIDED|95.0|0.97|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.97|92.27
92381690|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||54.65|TWO_SIDED|95.0|0.88|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.88|54.65
92381691|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||87.93|TWO_SIDED|95.0|0.95|1.23||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.23|0.95|87.93
92414116|NCT04620798|184718705|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.74|1.31|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.31|0.74|
92169322|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.661|TWO_SIDED|95.0|-2.08|3.27||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 2|||3.27|-2.08|0.661
92232362|NCT03871491|184366915|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.93|1.0||||||||1.0|0.93|
92232363|NCT03871491|184366916|SUPERIORITY||Risk Ratio (RR)|2.68|||||TWO_SIDED|95.0|0.71|10.1||||||||10.1|0.71|
92232364|NCT05202808|184366919|NON_INFERIORITY|"The endothelial cell loss (ECL) at 6 months was compared between the LAL and Control groups. The statistical hypothesis is:~* H0: Median(LAL) - Median(control) ≥ 5% vs~* Ha: Median(LAL) - Median(control) \< 5%~The median ECL for the LAL group is at most 5% higher than the median ECL for the Control group.~The first co-primary safety endpoint is met if the median ECL of the LAL group is non-inferior to the Control group using a right-tail Wilcoxon test using a significance level of 0.05."|Median Difference (Final Values)|0.2|||<|0.0001|TWO_SIDED|90.0|-1.0|1.66|||Wilcoxon (Mann-Whitney)|||With a one-sided significance level of 0.05, a power of 0.80, a randomization ratio of 2:1, and then the Mann-Whitney-Wilcoxon asymptotic relative efficiency (A.R.E.) efficiency adjustment, the sample size per two-sample t-test is 192 LAL eyes and 96 Control eyes (total of 288), with an assumed dropout rate of 10%.||1.66|-1.00|<0.0001
92381692|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||77.57|TWO_SIDED|95.0|0.92|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.92|77.57
92381693|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||77.07|TWO_SIDED|95.0|0.95|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.95|77.07
92381694|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||78.42|TWO_SIDED|95.0|0.96|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.96|78.42
92381695|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||44.15|TWO_SIDED|95.0|0.93|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.93|44.15
92381696|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||52.79|TWO_SIDED|95.0|0.89|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.89|52.79
92381697|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||94.51|TWO_SIDED|95.0|0.98|1.24||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region; Distal; SCRD28 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.24|0.98|94.51
92381698|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||93.16|TWO_SIDED|95.0|0.98|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.98|93.16
92381699|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||73.7|TWO_SIDED|95.0|0.95|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.95|73.70
92381700|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||81.04|TWO_SIDED|95.0|0.96|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.96|81.04
92232365|NCT05202808|184366921|OTHER||Odds Ratio (OR)|4.61|||||TWO_SIDED|95.0|2.97|7.15|||||Light adjustable lens (LAL) and Light Delivery Device (LDD) group is the numerator and Control group is the denominator. At Month 6, the odds of achieving UCDVA of 20/20 or better were 4.61 times greater for the LAL group than the Control group.|||7.15|2.97|
92381701|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||52.58|TWO_SIDED|95.0|0.94|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.94|52.58
92381702|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||15.85|TWO_SIDED|95.0|0.86|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.86|15.85
92381703|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||48.69|TWO_SIDED|95.0|0.9|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.90|48.69
92381704|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||52.25|TWO_SIDED|95.0|0.9|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.90|52.25
92381705|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||66.48|TWO_SIDED|95.0|0.91|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.91|66.48
92381706|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.88||||9.12|TWO_SIDED|95.0|0.72|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RML; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.72|9.12
92381707|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||16.95|TWO_SIDED|95.0|0.78|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RML; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.78|16.95
92381708|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||0.89|TWO_SIDED|95.0|0.75|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.75|0.89
92381709|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||50.4|TWO_SIDED|95.0|0.86|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.86|50.40
92414117|NCT04620798|184718706|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.84|1.09|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.09|0.84|
92414118|NCT04620798|184718706|SUPERIORITY||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.33|1.72|||||"This analysis compares the probability of a response of Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.72|0.33|
92414119|NCT04620798|184718707|SUPERIORITY||Risk Ratio (RR)|0.87|||||TWO_SIDED|95.0|0.74|1.04|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.04|0.74|
92169323|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.44||||0.074|TWO_SIDED|95.0|-0.24|5.12||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 6|||5.12|-0.24|0.074
92381710|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||7.44|TWO_SIDED|95.0|0.76|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LLL; D12 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.76|7.44
92381711|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||56.35|TWO_SIDED|95.0|0.87|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.87|56.35
92381712|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||4.03|TWO_SIDED|95.0|0.87|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.87|4.03
92381713|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||24.79|TWO_SIDED|95.0|0.89|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.89|24.79
92381714|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||77.08|TWO_SIDED|95.0|0.95|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.95|77.08
92381715|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||23.07|TWO_SIDED|95.0|0.89|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.89|23.07
92381716|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||18.58|TWO_SIDED|95.0|0.88|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.88|18.58
92381717|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||44.94|TWO_SIDED|95.0|0.92|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.92|44.94
92414120|NCT04620798|184718707|SUPERIORITY||Risk Ratio (RR)|1.4|||||TWO_SIDED|95.0|0.6|3.25|||||"This analysis compares the probability of a response of Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||3.25|0.60|
92414121|NCT04620798|184718708|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.99|1.03|||||"This analysis compares the probability of a response of Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.03|0.99|
92414122|NCT04620798|184718708|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.77|1.21|||||"This analysis compares the probability of a response of Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.21|0.77|
92381718|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||2.21|TWO_SIDED|95.0|0.8|1.0||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.00|0.80|2.21
92381719|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||6.09|TWO_SIDED|95.0|0.83|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.83|6.09
92381720|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||66.6|TWO_SIDED|95.0|0.92|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.92|66.60
92381721|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.9||||3.23|TWO_SIDED|95.0|0.81|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.81|3.23
92381722|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||20.83|TWO_SIDED|95.0|0.86|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.86|20.83
92381723|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||87.6|TWO_SIDED|95.0|0.96|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.96|87.60
92381724|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||7.9|TWO_SIDED|95.0|0.84|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.84|7.90
92381725|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||23.39|TWO_SIDED|95.0|0.87|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.87|23.39
92381726|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||76.16|TWO_SIDED|95.0|0.95|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.95|76.16
92414123|NCT04620798|184718709|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.97|1.06|||||"This analysis compares the probability of a response of Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.06|0.97|
92414124|NCT04620798|184718709|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.6|1.11|||||"This analysis compares the probability of a response of Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.11|0.60|
92169324|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.52||||0.21|TWO_SIDED|95.0|-1.43|6.46||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 8|||6.46|-1.43|0.210
92381727|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||22.54|TWO_SIDED|95.0|0.87|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal;Region; Upper; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.87|22.54
92381728|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||58.17|TWO_SIDED|95.0|0.91|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Upper; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.91|58.17
92381729|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||6.22|TWO_SIDED|95.0|0.76|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Lower; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.76|6.22
92381730|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||55.85|TWO_SIDED|95.0|0.88|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Lower; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.88|55.85
92381731|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||25.44|TWO_SIDED|95.0|0.96|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region;Central; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.96|25.44
92381732|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||18.15|TWO_SIDED|95.0|0.96|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal;Region; Cetral; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.96|18.15
92381733|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||8.12|TWO_SIDED|95.0|0.82|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Distal; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.82|8.12
92381734|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||57.39|TWO_SIDED|95.0|0.9|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Distal D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.90|57.39
92414125|NCT04620798|184718710|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.97|1.04|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.04|0.97|
92414126|NCT04620798|184718710|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.74|1.12|||||"This analysis compares the probability of a response of Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.12|0.74|
92232366|NCT05202808|184366922|OTHER||Odds Ratio (OR)|20.74|||||TWO_SIDED|95.0|12.05|36.14|||||Light adjustable lens (LAL) and Light Delivery Device (LDD) group is the numerator and the Control group is the denominator. The odds of achieving Absolute MRCYL of 0.5D or less was 20.74 for the LAL group versus the Control group at month 6.|||36.14|12.05|
92278264|NCT00368966|184458508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.95||||||95.0|0.76|1.19||||||For Poliovirus Type 3 the GMT ratio (13vPnC/7vPnC) was calculated||1.19|0.76|
92381735|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||10|TWO_SIDED|95.0|0.93|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region;Total; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.93|10.00
92381736|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||29.88|TWO_SIDED|95.0|0.95|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Total; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.95|29.88
92381737|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||12.63|TWO_SIDED|95.0|0.89|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.89|12.63
92381738|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||32.29|TWO_SIDED|95.0|0.91|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; SCRD28 The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.91|32.29
92381739|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||69.92|TWO_SIDED|95.0|0.95|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.95|69.92
92381740|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||6.1|TWO_SIDED|95.0|0.84|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.84|6.10
92381741|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||33.63|TWO_SIDED|95.0|0.89|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.89|33.63
92381742|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||86.07|TWO_SIDED|95.0|0.97|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.97|86.07
92381743|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||41.38|TWO_SIDED|95.0|0.96|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.96|41.38
92414127|NCT04620798|184718711|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.52|1.71|||||This analysis compares the probability of seroconverting during the study period. The reference group for this analysis was the control (delayed results) group.|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and seroconversion. The reference group for this analysis was the control (delayed results) group.||1.71|0.52|
92414128|NCT03222492|184718720|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||1.000
92414129|NCT03222492|184718720|SUPERIORITY|||||||0.444||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||0.444
92414130|NCT03222492|184718721|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||1.000
92278265|NCT00368966|184458508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.82||||||95.0|0.69|0.98||||||For Poliovirus Type 1 the GMT ratio (13vPnC/7vPnC) was calculated||0.98|0.69|
92232367|NCT05202808|184366923|OTHER||Odds Ratio (OR)|14.46|||||TWO_SIDED|95.0|8.89|23.57|||||Light adjustable lens (LAL) and Light Delivery Device (LDD) group is the numerator and the Control group is the denominator. The odds of achieving simultaneous Absolute MRSE and MRCL of 0.5 D or less was 14.46 in the LAL group vs. Control at month 6.|||23.57|8.89|
92381744|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||24.88|TWO_SIDED|95.0|0.96|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.96|24.88
92414131|NCT03222492|184718721|SUPERIORITY|||||||0.4||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||0.400
92414132|NCT03222492|184718722|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||1.000
92278266|NCT00368966|184458508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.9||||||95.0|0.75|1.09||||||For Poliovirus Type 2 the GMT ratio (13vPnC/7vPnC) was calculated||1.09|0.75|
92381745|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||29.89|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|29.89
92381746|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||7.13|TWO_SIDED|95.0|0.87|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.87|7.13
92381747|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||32.91|TWO_SIDED|95.0|0.9|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.90|32.91
92381748|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||81.15|TWO_SIDED|95.0|0.96|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.96|81.15
92381749|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||21.87|TWO_SIDED|95.0|0.95|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.95|21.87
92232368|NCT04996797|184366924|SUPERIORITY||Risk Difference (RD)|25.0|||<|0.0001|TWO_SIDED|95.0|11.8|36.5|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||36.5|11.8|<.0001
92381750|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||24.49|TWO_SIDED|95.0|0.95|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.95|24.49
92414133|NCT03222492|184718722|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||1.000
92414134|NCT03222492|184718722|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||1.000
92414135|NCT03222492|184718722|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||1.000
92414136|NCT03222492|184718722|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||1.000
92414137|NCT03222492|184718722|SUPERIORITY|||||||0.5||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||0.500
92381751|NCT02294734|184666503|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||55.52|TWO_SIDED|95.0|0.97|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.97|55.52
92381752|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||59.55|TWO_SIDED|95.0|0.84|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|(FRC; Longitudinal; Lobes; RUL; D12, The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.84|59.55
92381753|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.18||||94.01|TWO_SIDED|95.0|0.96|1.46||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|(FRC; Longitudinal; Lobes; RUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.46|0.96|94.01
92414138|NCT03222492|184718723|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||1.000
92414139|NCT03222492|184718723|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||1.000
92414140|NCT03222492|184718724|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||1.000
92414141|NCT03222492|184718724|SUPERIORITY|||||||0.467||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||0.467
92414142|NCT03222492|184718725|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||1.000
92414143|NCT03222492|184718725|SUPERIORITY|||||||0.4||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||0.400
92414144|NCT03222492|184718726|SUPERIORITY|||||||0.464||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||0.464
92414145|NCT03222492|184718726|SUPERIORITY|||||||0.5||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||0.500
92414146|NCT03222492|184718726|SUPERIORITY|||||||0.25||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||0.250
92381754|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||82.27|TWO_SIDED|95.0|0.9|1.33||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LUL; D12, The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.33|0.90|82.27
92414147|NCT03222492|184718726|SUPERIORITY|||||||0.167||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||0.167
92414148|NCT03222492|184718726|SUPERIORITY|||||||0.083||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||0.083
92414149|NCT03222492|184718726|SUPERIORITY|||||||0.083||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||0.083
92414150|NCT03222492|184718727|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||1.000
92414151|NCT03222492|184718727|SUPERIORITY|||||||0.429||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||0.429
92414152|NCT03222492|184718728|SUPERIORITY|||||||0.286||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||0.286
92414153|NCT03222492|184718728|SUPERIORITY|||||||0.067||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||0.067
92414154|NCT03222492|184718729|SUPERIORITY|||||||0.1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||0.100
92232369|NCT04996797|184366927|SUPERIORITY||Risk Difference (RD)|30.8|||<|0.0001|TWO_SIDED|95.0|17.4|43.2|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||43.2|17.4|<0.0001
92232370|NCT04996797|184366928|SUPERIORITY||Risk Difference (RD)|43.8|||<|0.0001|TWO_SIDED|95.0|27.4|56.9|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||56.9|27.4|<.0001
92232371|NCT04996797|184366929|SUPERIORITY||Risk Difference (RD)|20.8||||0.0224||95.0|2.1|37.9|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factor of biologic status.|95% CI is estimated using Newcombe method for risk difference.|||37.9|2.1|0.0224
92414155|NCT03222492|184718730|SUPERIORITY|||||||0.1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||0.100
92414156|NCT03222492|184718741|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||1.000
92414157|NCT03222492|184718741|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||1.000
92414158|NCT03222492|184718742|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||||||1.000
92414159|NCT03222492|184718742|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||1.000
92414160|NCT01054183|184718743|NON_INFERIORITY_OR_EQUIVALENCE|powered for 62 patients||||||0.57||95.0|||||z test, two-sided|||Null hypothesis: the proportion of successful 1st intubation attempt is the same for both groups||||0.57
92414161|NCT01054183|184718744|NON_INFERIORITY_OR_EQUIVALENCE|powered for 62 patients||||||0.002||95.0|||||z test, two-sided|||Null hypothesis: overall successful intubation rate is the same for both groups.||||0.002
92414162|NCT02486627|184718746|NON_INFERIORITY|95% CIs for the difference in cure rates were calculated using the Newcombe method with continuity correction.|Difference|-3.4|||||TWO_SIDED|95.0|-10.0|3.1||||||||3.1|-10|
92414163|NCT02486627|184718747|NON_INFERIORITY|95% CIs for the difference in cure rates were calculated using the Newcombe method with continuity correction.|Difference|11.6|||||TWO_SIDED|95.0|2.7|20.3||||||||20.3|2.7|
92414164|NCT02775240|184718754|OTHER||Ratio of geometric means|1.248|||||TWO_SIDED|90.0|1.13|1.378|||Linear mixed effects model||Log-transformed Cmax values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for Cmax of Digoxin||1.378|1.130|
92414165|NCT02775240|184718755|OTHER||Ratio of geometric means|0.944|||||TWO_SIDED|90.0|0.778|1.144|||Linear mixed effects model|||Comparison of Treatment B over Treatment A for Cmax of Dextromethorphan||1.144|0.778|
92414166|NCT02775240|184718756|OTHER||Ratio of geometric means|0.943|||||TWO_SIDED|90.0|0.883|1.007|||Linear mixed effects model||Log-transformed Cmax values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for Cmax of Dextrorphan||1.007|0.883|
92414167|NCT02775240|184718762|OTHER||Ratio of geometric means|1.206|||||TWO_SIDED|90.0|1.099|1.324|||Linear mixed effects model||Log-transformed AUC0-infinity values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for AUC0-infinity of Digoxin||1.324|1.099|
92232372|NCT04996797|184366930|SUPERIORITY||Risk Difference (RD)|13.1||||0.0223||95.0|1.8|24.6|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||24.6|1.8|0.0223
92232373|NCT04996797|184366931|SUPERIORITY||Risk Difference (RD)|28.6||||0.0009||95.0|12.1|42.9|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||42.9|12.1|0.0009
92232374|NCT04996797|184366932|SUPERIORITY||Risk Difference (RD)|27.3|||<|0.0001||95.0|14.3|39.6|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||39.6|14.3|<0.0001
92414168|NCT02775240|184718764|OTHER||Ratio of geometric means|0.971|||||TWO_SIDED|90.0|0.943|0.999|||Linear mixed effects model||Log-transformed AUC0-infinity values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for AUC0-infinity of Dextrorphan||0.999|0.943|
92414169|NCT02775240|184718765|OTHER||Ratio of geometric means|1.179|||||TWO_SIDED|90.0|1.08|1.287|||Linear mixed effects model||Log-transformed AUClast values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for AUClast for Digoxin||1.287|1.080|
92414170|NCT02775240|184718766|OTHER||Ratio of geometric means|0.882|||||TWO_SIDED|90.0|0.696|1.118|||Linear mixed effects model||Log-transformed AUClast values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for AUClast of Dextromethorphan||1.118|0.696|
92414171|NCT02775240|184718767|OTHER||Ratio of geometric means|0.973|||||TWO_SIDED|90.0|0.949|0.998|||Linear mixed effects model||Log-transformed AUClast values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for AUClast for Dextrorphan||0.998|0.949|
92414172|NCT02775240|184718768|OTHER||Ratio of geometric means|0.905|||||TWO_SIDED|90.0|0.721|1.138|||Linear mixed effects model||Log-transformed AUClast ratio values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for Dextromethorphan/Dextrorphan (Parent/Metabolite) AUClast ratio||1.138|0.721|
92414173|NCT03192358|184718802|SUPERIORITY||Cohen's d|1.18|||<|0.001|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05.|ANOVA||Cohen's d values \> 0.8 are considered large|This was an observational study. The statistical test explores whether there were significant differences in tongue pressure between the two cohorts. The hypothesis was that individuals with ALS would display significantly lower maximum anterior isometric tongue pressures compared to the people with PD.||||< 0.001
92414174|NCT03192358|184718803|SUPERIORITY||Cohen's d|1.75|||<|0.001|TWO_SIDED||||||ANOVA||Cohen's d values \> 0.8 are considered large|This was an observational study rather than a trial. The hypothesis was that individuals with ALS would display significantly lower regular effort saliva swallow pressures than the individuals with PD.||||< 0.001
92414175|NCT03467685|184718811|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
92414176|NCT02270944|184718842|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To assess the vaccine formulations equivalence, the lower limit of the two-sided 95% confidence interval (CI) for the ratio of GMCs at Day 31 after vaccination must be \> 0.5 and the upper limit of the two-sided 95% CI must be \< 2.0 (the entire two-sided 95% CI must be contained in the 0.5, 2.0 interval).|Ratio of GMCs|1.02|||||TWO_SIDED|95.0|0.79|1.32|||ANCOVA|Analysis of covariance (ANCOVA) model with vaccine group and center as fixed effects and log10-prevaccination antibody concentration as a covariate||To demonstrate the equivalence of the liquid GBS trivalent vaccine formulation to the lyophilized GBS trivalent vaccine formulation for serotypes Ia when administered to healthy non-pregnant women, as measured by geometric mean concentrations (GMC).||1.32|0.79|
92414177|NCT02270944|184718843|NON_INFERIORITY|To assess the vaccine formulations equivalence, the lower limit of the two-sided 95% confidence interval (CI) for the ratio of GMCs at Day 31 after vaccination must be \> 0.5 and the upper limit of the two-sided 95% CI must be \< 2.0 (the entire two-sided 95% CI must be contained in the 0.5, 2.0 interval).|Ratio of GMCs|0.99|||||TWO_SIDED|95.0|0.76|1.3|||ANCOVA|Analysis of covariance (ANCOVA) model with vaccine group and center as fixed effects and log10-prevaccination antibody concentration as a covariate||to demonstrate the equivalence of the liquid GBS trivalent vaccine formulation to the lyophilized GBS trivalent vaccine formulation for serotypes III when administered to healthy non-pregnant women, as measured by geometric mean concentrations (GMC).||1.30|0.76|
92414178|NCT02270944|184718844|NON_INFERIORITY|To assess the vaccine formulations equivalence, the lower limit of the two-sided 95% confidence interval (CI) for the ratio of GMCs at Day 31 after vaccination must be \> 0.5 and the upper limit of the two-sided 95% CI must be \< 2.0 (the entire two-sided 95% CI must be contained in the 0.5, 2.0 interval).|Ratio of GMCs|0.94|||||TWO_SIDED|95.0|0.72|1.22|||ANCOVA|Analysis of covariance (ANCOVA) model with vaccine group and center as fixed effects and log10-prevaccination antibody concentration as a covariate||to demonstrate the equivalence of the liquid GBS trivalent vaccine formulation to the lyophilized GBS trivalent vaccine formulation for serotypes Ib when administered to healthy non-pregnant women, as measured by geometric mean concentrations (GMC).||1.22|0.72|
92414179|NCT01551420|184718862|SUPERIORITY|Null hypothesis of no change after home use|Mean Difference (Net)|0.002|STANDARD_DEVIATION|0.68||0.9358|TWO_SIDED|95.0|-0.27|0.28||Two way comparison between scores at baseline and after 9-12 weeks of Prosthetic use. Alpha=0.05|t-test, 2 sided|paired t-tests||||0.28|-0.27|.9358
92414180|NCT01551420|184718862|SUPERIORITY||Slope|-0.69||||0.08|TWO_SIDED|95.0|-1.47|0.09|||Regression, Linear|||Linear regression of QOL measure at 9-12 weeks, comparing groups by control type, controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.09|-1.47|0.08
92414181|NCT01551420|184718863|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_DEVIATION|0.42|<|0.0001|TWO_SIDED|95.0|0.17|0.43|||t-test, 2 sided|The sample for this analyses was 44 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e participants with UEFS data at both time points).||0.43|0.17|<0.0001
92414182|NCT01551420|184718863|SUPERIORITY||Slope|-0.56|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.73|-0.4|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for UEFS at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from UEFS use measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||-0.40|-0.73|<0.0001
92414183|NCT01551420|184718864|SUPERIORITY||Mean Difference (Net)|-0.22|STANDARD_DEVIATION|0.94||0.186|TWO_SIDED|95.0|-0.55|0.11|||t-test, 2 sided|The sample for this analysis was 34 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e participants with TAPES data at both time points).||0.11|-0.55|0.186
92414184|NCT01551420|184718864|SUPERIORITY||Slope|-1.15|STANDARD_ERROR_OF_MEAN|0.44||0.0168|TWO_SIDED|95.0|-2.06|-0.23|||Regression, Linear|The sample for this analysis was 24 participants with TR or TH amputation level who completed data collection for TAPES at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from TAPES measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||-0.23|-2.06|0.0168
92414185|NCT01551420|184718865|SUPERIORITY||Mean Difference (Net)|-0.97|STANDARD_DEVIATION|5.61||0.3367|TWO_SIDED|95.0|-2.99|1.05|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with UEFS data at both time points).||1.05|-2.99|0.3367
92414186|NCT01551420|184718865|SUPERIORITY||Slope|-0.72|STANDARD_ERROR_OF_MEAN|1.49||0.6339|TWO_SIDED|95.0|-3.84|2.39|||Regression, Linear|The sample for this analysis was 22 participants with TR or TH amputation level who completed data collection for UEFS at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from AM-ULA measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||2.39|-3.84|0.6339
92169325|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.933|TWO_SIDED|95.0|-3.4|3.12||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 12|||3.12|-3.40|0.933
92381755|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.31||||99.22|TWO_SIDED|95.0|1.06|1.61||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.61|1.06|99.22
92414187|NCT01551420|184718866|SUPERIORITY||Mean Difference (Net)|-1.74|STANDARD_DEVIATION|18.8||0.5465|TWO_SIDED|95.0|-7.53|4.05|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data for participants at baseline and completers at End of A (i.e participants with SF-36V Role Physical data at both time points).||4.05|-7.53|0.5465
92414188|NCT01551420|184718866|SUPERIORITY||Mean Difference (Net)|-3.78|STANDARD_DEVIATION|17.37||0.161|TWO_SIDED|95.0|-9.12|1.57|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data for participants at baseline to End of A (with SF-36V Social Functioning data at both time points).||1.57|-9.12|0.1610
92414189|NCT01551420|184718866|SUPERIORITY||Mean Difference (Net)|-0.61|STANDARD_DEVIATION|13.9||0.7765|TWO_SIDED|95.0|-4.9|3.68|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data for participants at baseline to End of A (with SF-36V Physical Functioning data at both time points).||3.68|-4.90|0.7765
92414190|NCT01551420|184718866|SUPERIORITY||Slope|-13.35|STANDARD_ERROR_OF_MEAN|6.91||0.0669|TWO_SIDED|95.0|-27.72|1.02|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for SF-36 at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of SF-36V; Role Physical measure at 9-12 weeks, comparing groups by control type, controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||1.02|-27.72|0.0669
92414191|NCT01551420|184718866|SUPERIORITY||Slope|-8.24|STANDARD_ERROR_OF_MEAN|7.1||0.2592|TWO_SIDED|95.0|-23.01|6.54|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for SF-36 at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of SF-36V: Social Functioning measure at 9-12 weeks, comparing groups by control type, controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||6.54|-23.01|0.2592
92414192|NCT01551420|184718866|SUPERIORITY||Slope|-30.23|STANDARD_ERROR_OF_MEAN|6.25|<|0.0001|TWO_SIDED|95.0|-43.23|-17.23|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for SF-36 at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of SF-36V: Physical Functioning measure at 9-12 weeks, comparing groups by control type, controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||-17.23|-43.23|<0.0001
92414193|NCT01551420|184718867|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.17||0.6691|TWO_SIDED|95.0|-0.05|0.07|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Writing data at both time points).||0.07|-0.05|0.6691
92414194|NCT01551420|184718867|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_DEVIATION|0.06||0.0511|TWO_SIDED|95.0|-0.05|0.0|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Page turning data at both time points).||0.00|-0.05|0.0511
92414195|NCT01551420|184718867|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.09||0.5942|TWO_SIDED|95.0|-0.02|0.04|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Lifting Small Items data at both time points).||0.04|-0.02|0.5942
92414196|NCT01551420|184718867|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_DEVIATION|0.08||0.0101|TWO_SIDED|95.0|-0.07|-0.01|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Checkers data at both time points).||-0.01|-0.07|0.0101
92414197|NCT01551420|184718867|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_DEVIATION|0.09||0.1063|TWO_SIDED|95.0|-0.06|0.01|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Feeding data at both time points).||0.01|-0.06|0.1063
92414198|NCT01551420|184718867|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_DEVIATION|0.12||0.2474|TWO_SIDED|95.0|-0.06|0.01|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Light Cans data at both time points).||0.01|-0.06|0.2474
92414199|NCT01551420|184718867|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_DEVIATION|0.14||0.1604|TWO_SIDED|95.0|-0.09|0.02|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Heavy Cans data at both time points).||0.02|-0.09|0.1604
92414200|NCT01551420|184718867|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.4208|TWO_SIDED|95.0|-0.12|0.09|||Regression, Linear|The sample for this analysis was 24 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from JTHFT: Writing measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.09|-0.12|0.4208
92414201|NCT01551420|184718867|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.03||0.1959|TWO_SIDED|95.0|-0.09|0.02|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from JTHFT: Page Turning measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.02|-0.09|0.1959
92414202|NCT01551420|184718867|SUPERIORITY|Linear regression of scores from JTHFT: Lifting Small Items measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.|Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3328|TWO_SIDED|95.0|-0.09|0.03|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|||0.03|-0.09|0.3328
92414203|NCT01551420|184718867|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.6585|TWO_SIDED|95.0|-0.05|0.08|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from JTHFT: Checkers measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.08|-0.05|0.6585
92414204|NCT01551420|184718867|SUPERIORITY|Linear regression of scores from JTHFT: Feeding measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.|Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.03||0.0552|TWO_SIDED|95.0|-0.12|0.0|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|||0.00|-0.12|0.0552
92414205|NCT01551420|184718867|SUPERIORITY||Slope|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.0319|TWO_SIDED|95.0|-0.25|-0.01|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from JTHFT: Light Cans measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||-0.01|-0.25|0.0319
92414206|NCT01551420|184718867|SUPERIORITY||Slope|-0.14|STANDARD_ERROR_OF_MEAN|0.05||0.0073|TWO_SIDED|95.0|-0.24|-0.04|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from JTHFT: Heavy Cans measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||-0.04|-0.24|0.0073
92414207|NCT01551420|184718868|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_DEVIATION|0.52||0.6529|TWO_SIDED|95.0|-0.24|0.15|||t-test, 2 sided|The sample for this paired t-test was 30 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with UNB: Spontaneity data at both time points).||0.15|-0.24|0.6529
92414208|NCT01551420|184718868|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_DEVIATION|0.64||0.849|TWO_SIDED|95.0|-0.26|0.22|||t-test, 2 sided|The sample for this paired t-test was 30 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with UNB: Skill data at both time points).||0.22|-0.26|0.8490
92414209|NCT01551420|184718868|SUPERIORITY||Slope|0.13|STANDARD_ERROR_OF_MEAN|0.17||0.4589|TWO_SIDED|95.0|-0.22|0.48|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for UNB: Spontaneity at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from UNB: Spontaneity measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.48|-0.22|0.4589
92414210|NCT01551420|184718868|SUPERIORITY||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.18||0.711|TWO_SIDED|95.0|-0.31|0.44|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for UNB: Skill at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from UNB: Skill measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.44|-0.31|0.7110
92414211|NCT01551420|184718869|SUPERIORITY||Mean Difference (Net)|253.6|STANDARD_DEVIATION|325.2|<|0.0001|TWO_SIDED|95.0|146.7|360.5|||t-test, 2 sided|The sample for this paired t-test was 38 participants.||Pairwise t-test for data for participants at baseline and completers at End of A (i.e participants with T-MAP data at both time points).|Mean difference is the change in scores from Baseline to End of A.|360.5|146.7|<0.0001
92232375|NCT04996797|184366933|SUPERIORITY||Risk Difference (RD)|17.9||||||95.0|-2.4|36.4|||||95% CI is estimated using Newcombe method for risk difference.|||36.4|-2.4|
92381756|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||46.24|TWO_SIDED|95.0|0.75|1.29||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RML; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.29|0.75|46.24
92381757|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.29||||98.3|TWO_SIDED|95.0|1.02|1.64||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RML; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.64|1.02|98.30
92381758|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.25||||92.6|TWO_SIDED|95.0|0.92|1.7||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.70|0.92|92.60
92381759|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.38||||99.01|TWO_SIDED|95.0|1.05|1.81||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.81|1.05|99.01
92381760|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||58.8|TWO_SIDED|95.0|0.82|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|0.82|58.80
92381761|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||86.82|TWO_SIDED|95.0|0.91|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|0.91|86.82
92381762|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||67.37|TWO_SIDED|95.0|0.92|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.92|67.37
92381763|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.14||||98.35|TWO_SIDED|95.0|1.01|1.29||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.29|1.01|98.35
92381764|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||96.86|TWO_SIDED|95.0|0.99|1.23||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.23|0.99|96.86
92414212|NCT01551420|184718869|SUPERIORITY||Slope|-183.1|STANDARD_ERROR_OF_MEAN|186.9||0.3397|TWO_SIDED|95.0|-574.3|208.2|||Regression, Linear|The sample for this analysis was 22 participants with TR or TH amputation level who completed data collection for T-MAP at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from T-MAP measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||208.2|-574.3|0.3397
92232376|NCT04996797|184366934|SUPERIORITY||Risk Difference (RD)|22.8||||||95.0|0.4|42.2|||||95% CI is estimated using Newcombe method for risk difference.|||42.2|0.4|
92232377|NCT04996797|184366935|SUPERIORITY||Risk Difference (RD)|10.2||||||95.0|-6.9|26.9|||||95% CI is estimated using Newcombe method for risk difference.|||26.9|-6.9|
92232378|NCT04996797|184366936|SUPERIORITY||Risk Difference (RD)|28.9||||||95.0|5.0|48.3|||||95% CI is estimated using Newcombe method for risk difference.|||48.3|5.0|
92232379|NCT04996797|184366937|SUPERIORITY||Risk Difference (RD)|22.2|||||TWO_SIDED|95.0|0.2|41.0|||||95% CI is estimated using Newcombe method for risk difference.|||41.0|0.2|
92232380|NCT04996797|184366938|SUPERIORITY||Risk Difference (RD)|27.3|||<|0.0001|TWO_SIDED|95.0|14.3|39.6|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||39.6|14.3|<0.0001
92414213|NCT01551420|184718870|SUPERIORITY||Mean Difference (Net)|4.3|STANDARD_DEVIATION|10.01||0.0465|TWO_SIDED|95.0|0.07|8.53|||t-test, 2 sided|The sample for this paired t-test was 24 participants.|Mean difference is the change in scores from Baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with UEFS data at both time points).||8.53|0.07|0.0465
92414214|NCT01551420|184718870|SUPERIORITY||Slope|-2.39|STANDARD_ERROR_OF_MEAN|2.46||0.345|TWO_SIDED|95.0|-7.6|2.82|||Regression, Linear|The sample for this analysis was 19participants with TR or TH amputation level who completed data collection for UEFS at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from UEFS measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||2.82|-7.60|0.3450
92414215|NCT01551420|184718871|SUPERIORITY||Mean Difference (Net)|0.47|STANDARD_DEVIATION|7.54||0.6881|TWO_SIDED|95.0|-1.86|2.79|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from Baseline to End of A.|Pairwise t-test for data for participants at baseline and completers at End of A (i.e participants with CRIS: Extent of Limitations data at both time points).||2.79|-1.86|0.6881
92414216|NCT01551420|184718871|SUPERIORITY||Mean Difference (Net)|-0.72|STANDARD_DEVIATION|13.95||0.7363|TWO_SIDED|95.0|-5.01|3.67|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from Baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with CRIS: Perceived Limitations data at both time points).||3.67|-5.01|0.7363
92414217|NCT01551420|184718871|SUPERIORITY||Mean Difference (Net)|-1.49|STANDARD_DEVIATION|8.12||0.2361|TWO_SIDED|95.0|-3.99|1.01|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from Baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with CRIS: Satisfaction data at both time points).||1.01|-3.99|0.2361
92414218|NCT01551420|184718871|SUPERIORITY||Slope|-7.07|STANDARD_ERROR_OF_MEAN|4.02||0.0932|TWO_SIDED|95.0|-15.43|1.29|||Regression, Linear|The sample for this analysis was 24 participants with TR or TH amputation level who completed data collection for CRIS-CAT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from CRIS-CAT: Extent of Limitations measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||1.29|-15.43|0.0932
92414219|NCT01551420|184718871|SUPERIORITY||Mean Difference (Final Values)|-10.5|STANDARD_ERROR_OF_MEAN|6.0||0.0951|TWO_SIDED|95.0|-22.9|1.99|||Regression, Linear|The sample for this analysis was 24 participants with TR or TH amputation level who completed data collection for CRIS-CAT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from CRIS-CAT: Perceived Limitations measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||1.99|-22.9|0.0951
92414220|NCT01551420|184718871|SUPERIORITY||Slope|-4.91|STANDARD_ERROR_OF_MEAN|4.01||0.2346|TWO_SIDED|95.0|-13.3|3.43|||Regression, Linear|The sample for this analysis was 24 participants with TR or TH amputation level who completed data collection for CRIS-CAT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from CRIS-CAT: Satisfaction measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||3.43|-13.3|0.2346
92414221|NCT03073733|184718882|SUPERIORITY||least squares mean difference|-2.2|STANDARD_ERROR_OF_MEAN|2.9||0.582|TWO_SIDED|95.0|-10.3|5.8|||linear model for repeated measures|||||5.8|-10.3|0.582
92414222|NCT03073733|184718882|SUPERIORITY||least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|2.91||0.984|TWO_SIDED|95.0|-8.2|8.0|||linear model for repeated measures|||||8.0|-8.2|0.984
92414223|NCT03073733|184718883|SUPERIORITY||least squares mean difference|1.2986|STANDARD_ERROR_OF_MEAN|0.8744||0.29|TWO_SIDED|95.0|-1.1341|3.7313|||linear model for repeated measures|||||3.7313|-1.1341|0.290
92414224|NCT03073733|184718883|SUPERIORITY||least squares mean difference|-0.3542|STANDARD_ERROR_OF_MEAN|0.7793||0.759|TWO_SIDED|95.0|-2.6516|1.9433|||linear model for repeated measures|||||1.9433|-2.6516|0.759
92414225|NCT03073733|184718884|SUPERIORITY||least squares mean difference|-278.73|STANDARD_ERROR_OF_MEAN|305.192||0.515|TWO_SIDED|95.0|-1126.21|568.75|||linear model for repeated measures|||||568.75|-1126.21|0.515
92414226|NCT03073733|184718884|SUPERIORITY||least squares mean difference|292.18|STANDARD_ERROR_OF_MEAN|308.659||0.499|TWO_SIDED|95.0|-562.87|1147.23|||linear model for repeated measures|||||1147.23|-562.87|0.499
92414227|NCT03073733|184718885|SUPERIORITY||least squares mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.42||0.16|TWO_SIDED|95.0|-2.1|0.3|||linear model for repeated measures|||||0.3|-2.1|0.160
92414228|NCT03073733|184718885|SUPERIORITY||least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.43||0.622|TWO_SIDED|95.0|-1.5|0.9|||linear model for repeated measures|||||0.9|-1.5|0.622
92414229|NCT03073733|184718886|SUPERIORITY||least squares mean difference|-0.111|STANDARD_ERROR_OF_MEAN|0.1038||0.442|TWO_SIDED|95.0|-0.399|0.176|||linear model for repeated measures|||||0.176|-0.399|0.442
92414230|NCT03073733|184718886|SUPERIORITY||least squares mean difference|0.122|STANDARD_ERROR_OF_MEAN|0.1037||0.401|TWO_SIDED|95.0|-0.165|0.409|||linear model for repeated measures|||||0.409|-0.165|0.401
92414231|NCT03073733|184718888|SUPERIORITY|||||||0.205|||||||Fisher Exact|||||||0.205
92414232|NCT03073733|184718889|SUPERIORITY|||||||0.157|||||||Fisher Exact|||||||0.157
92414233|NCT03073733|184718890|SUPERIORITY|||||||0.125|||||||Fisher Exact|||||||0.125
92414234|NCT03073733|184718891|SUPERIORITY|||||||0.173|||||||Fisher Exact|||||||0.173
92414235|NCT03073733|184718892|SUPERIORITY|||||||0.099|||||||t-test, 1 sided|Pooled t-test (variance ratio of 3.2)||||||0.099
92414236|NCT03073733|184718892|SUPERIORITY|||||||0.13|||||||t-test, 1 sided|Pooled t-test (variance ratio of 1.9)||||||0.130
92414237|NCT03073733|184718893|SUPERIORITY|||||||0.0959|||||||Fisher Exact|||||||0.0959
92414238|NCT03073733|184718894|SUPERIORITY|||||||0.1868|||||||Fisher Exact|||||||0.1868
92414239|NCT03073733|184718895|SUPERIORITY|||||||0.608|||||||Fisher Exact|||||||0.608
92414240|NCT03073733|184718896|SUPERIORITY|||||||0.264|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 7.9)||||||0.264
92414241|NCT03073733|184718896|SUPERIORITY|||||||0.139|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 25.9)||||||0.139
92414242|NCT03073733|184718897|SUPERIORITY|||||||0.261|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 7.9)||||||0.261
92414243|NCT03073733|184718897|SUPERIORITY|||||||0.139|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 6.3)||||||0.139
92414244|NCT03073733|184718898|SUPERIORITY|||||||0.35|||||||t-test, 1 sided|Pooled t-test (variance ratio of 0.8).||||||0.350
92414245|NCT03073733|184718898|SUPERIORITY|||||||0.5|||||||t-test, 1 sided|Pooled t-test (variance ratio of 2.5)||||||0.500
92414246|NCT03073733|184718899|SUPERIORITY|||||||0.22|||||||t-test, 1 sided|Pooled t-test (variance ratio of 2.9).||||||0.220
92232381|NCT04996797|184366939|SUPERIORITY||Risk Difference (RD)|22.2||||||95.0|0.2|41.0|||||95% CI is estimated using Newcombe method for risk difference.|||41.0|0.2|
92381765|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||86.18|TWO_SIDED|95.0|0.95|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.95|86.18
92414247|NCT03073733|184718899|SUPERIORITY|||||||0.119|||||||t-test, 1 sided|Pooled t-test (variance ratio of 1.9).||||||0.119
92232382|NCT04996797|184366940|SUPERIORITY||Risk Difference (RD)|33.1|||<|0.0001||95.0|17.2|46.8|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||46.8|17.2|<0.0001
92414248|NCT03073733|184718900|SUPERIORITY|||||||0.006|||||||t-test, 1 sided|Pooled t-test (variance ratio of 2.7)||||||0.006
92414249|NCT03073733|184718901|SUPERIORITY|||||||0.009|||||||Fisher Exact|||||||0.009
92414250|NCT03073733|184718902|SUPERIORITY|||||||0.029|||||||Fisher Exact|||||||0.029
92414251|NCT03073733|184718903|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.010
92414252|NCT03073733|184718904|SUPERIORITY|||||||0.072|||||||Fisher Exact|||||||0.072
92414253|NCT03073733|184718905|SUPERIORITY|||||||0.019|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 5.9)||||||0.019
92414254|NCT03073733|184718905|SUPERIORITY|||||||0.019|||||||t-test, 1 sided|Pooled t-test (variance ratio of 3.98)||||||0.019
92414255|NCT03073733|184718906|SUPERIORITY|||||||0.013|||||||Fisher Exact|||||||0.013
92232383|NCT04996797|184366941|SUPERIORITY||Risk Difference (RD)|19.6||||||95.0|-1.7|38.7|||||95% CI is estimated using Newcombe method for risk difference.|||38.7|-1.7|
92414256|NCT03073733|184718907|SUPERIORITY|||||||0.033|||||||Fisher Exact|||||||0.033
92414257|NCT03073733|184718908|SUPERIORITY|||||||0.199|||||||Fisher Exact|||||||0.199
92414258|NCT03073733|184718909|SUPERIORITY|||||||0.075|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 56.3)||||||0.075
92414259|NCT03073733|184718909|SUPERIORITY|||||||0.062|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 25.2)||||||0.062
92414260|NCT03073733|184718910|SUPERIORITY|||||||0.255|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 9.9)||||||0.255
92414261|NCT03073733|184718910|SUPERIORITY|||||||0.109|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 8.7)||||||0.109
92414262|NCT03073733|184718911|SUPERIORITY|||||||0.488|||||||t-test, 1 sided|Pooled t-test (variance ratio of 0.7).||||||0.488
92414263|NCT03073733|184718911|SUPERIORITY|||||||0.273|||||||t-test, 1 sided|Pooled t-test (variance ratio of 2.5)||||||0.273
92414264|NCT03073733|184718912|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
92414265|NCT03073733|184718913|SUPERIORITY|||||||0.006|||||||Fisher Exact|||||||0.006
92414266|NCT03073733|184718914|SUPERIORITY|||||||0.016|||||||Fisher Exact|||||||0.016
92414267|NCT03073733|184718915|SUPERIORITY|||||||0.098|||||||Fisher Exact|||||||0.098
92414268|NCT03073733|184718916|SUPERIORITY|||||||0.019|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 8.2)||||||0.019
92414269|NCT03073733|184718916|SUPERIORITY|||||||0.011|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 4.7)||||||0.011
92414270|NCT03073733|184718917|SUPERIORITY|||||||0.039|||||||Fisher Exact|||||||0.039
92414271|NCT03073733|184718918|SUPERIORITY|||||||0.096|||||||Fisher Exact|||||||0.096
92414272|NCT03073733|184718919|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.480
92414273|NCT03073733|184718920|SUPERIORITY|||||||0.076|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 51.5)||||||0.076
92414274|NCT03073733|184718920|SUPERIORITY|||||||0.057|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 26.1)||||||0.057
92414275|NCT03073733|184718921|SUPERIORITY|||||||0.117|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 29.0)||||||0.117
92414276|NCT03073733|184718921|SUPERIORITY|||||||0.083|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 9.5)||||||0.083
92414277|NCT03073733|184718922|SUPERIORITY|||||||0.172|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 6.7)||||||0.172
92414278|NCT03073733|184718922|SUPERIORITY|||||||0.14|||||||t-test, 1 sided|Pooled t-test (variance ratio of 3.98)||||||0.140
92169326|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.7||||0.091|TWO_SIDED|95.0|-0.43|5.82||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 18|||5.82|-0.43|0.091
92169327|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.69||||0.018|TWO_SIDED|95.0|0.82|8.56||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 26|||8.56|0.82|0.018
92381766|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.16||||98.89|TWO_SIDED|95.0|1.02|1.31||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.31|1.02|98.89
92381767|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||91.94|TWO_SIDED|95.0|0.97|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.97|91.94
92381768|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||55.32|TWO_SIDED|95.0|0.88|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.88|55.32
92381769|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.15||||97.17|TWO_SIDED|95.0|1.0|1.32||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.32|1.00|97.17
92381770|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.14||||96.57|TWO_SIDED|95.0|0.99|1.32||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.32|0.99|96.57
92381771|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||79.13|TWO_SIDED|95.0|0.9|1.27||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.27|0.90|79.13
92381772|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||99.54|TWO_SIDED|95.0|1.05|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|1.05|99.54
92381773|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.14||||97.8|TWO_SIDED|95.0|1.0|1.3||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.30|1.00|97.80
92414279|NCT03073733|184718923|SUPERIORITY|||||||0.011|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 5.4).||||||0.011
92414280|NCT03073733|184718924|SUPERIORITY|||||||0.0406|||||||Fisher Exact|||||||0.0406
92414281|NCT03073733|184718925|SUPERIORITY|||||||0.007|||||||Fisher Exact|||||||0.007
92414282|NCT03073733|184718926|SUPERIORITY|||||||0.026|||||||Fisher Exact|||||||0.026
92414283|NCT03073733|184718927|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.200
92414284|NCT03073733|184718928|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 22.2)||||||0.030
92414285|NCT03073733|184718928|SUPERIORITY|||||||0.033|||||||t-test, 1 sided|Pooled t-test (variance ratio of 3.3)||||||0.033
92414286|NCT03073733|184718929|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.200
92414287|NCT03073733|184718930|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.200
92414288|NCT03073733|184718931|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92414289|NCT03073733|184718932|SUPERIORITY|||||||0.08|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 606.4)||||||0.080
92169328|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.3||||0.103|TWO_SIDED|95.0|-0.69|7.29||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 39|||7.29|-0.69|0.103
92414290|NCT03073733|184718932|SUPERIORITY|||||||0.05|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 52.3)||||||0.050
92414291|NCT03073733|184718933|SUPERIORITY|||||||0.099|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 35.7)||||||0.099
92414292|NCT03073733|184718933|SUPERIORITY|||||||0.076|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 17.6)||||||0.076
92381774|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||71.94|TWO_SIDED|95.0|0.91|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.91|71.94
92381775|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||85.3|TWO_SIDED|95.0|0.94|1.23||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.23|0.94|85.30
92381776|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||82.15|TWO_SIDED|95.0|0.94|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.94|82.15
92381777|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||72.55|TWO_SIDED|95.0|0.88|1.27||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal;Region; Upper; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.27|0.88|72.55
92381778|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||98.44|TWO_SIDED|95.0|1.02|1.47||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Upper; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.47|1.02|98.44
92381779|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.11||||78.24|TWO_SIDED|95.0|0.86|1.43||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Lower; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.43|0.86|78.24
92381780|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.23||||96.8|TWO_SIDED|95.0|0.99|1.52||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Lower; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.52|0.99|96.80
92381781|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||91.11|TWO_SIDED|95.0|0.97|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region;Central; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.97|91.11
92414293|NCT03073733|184718934|SUPERIORITY|||||||0.1099|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 4.5)||||||0.1099
92414294|NCT03073733|184718934|SUPERIORITY|||||||0.012|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 14.3)||||||0.012
92232384|NCT05087030|184367008|NON_INFERIORITY|The analysis was performed with an ANCOVA model with %CfB in lumbar spine BMD at Week 52 as the dependent variable, covariates were treatment arm (RGB-14-P and US-licensed Prolia).|Estimated Difference|0.18|||||TWO_SIDED|90.0|-0.465|0.826|||ANCOVA|||||0.826|-0.465|
92414295|NCT02446171|184718945|SUPERIORITY_OR_OTHER||Ratio#|98.89|||||TWO_SIDED|90.0|92.4|105.84|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||105.84|92.40|
92414296|NCT02446171|184718945|SUPERIORITY_OR_OTHER||Ratio#|100.04|||||TWO_SIDED|90.0|93.17|107.43|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||107.43|93.17|
92414297|NCT02446171|184718945|SUPERIORITY_OR_OTHER||Ratio#|94.37|||||TWO_SIDED|90.0|88.7|100.4|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||100.40|88.70|
92414298|NCT02446171|184718946|SUPERIORITY_OR_OTHER||Ratio#|98.79|||||TWO_SIDED|90.0|92.24|105.8|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||105.80|92.24|
92414299|NCT02446171|184718946|SUPERIORITY_OR_OTHER||Ratio#|100.44|||||TWO_SIDED|90.0|93.65|107.72|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||107.72|93.65|
92414300|NCT02446171|184718946|SUPERIORITY_OR_OTHER||Ratio#|94.83|||||TWO_SIDED|90.0|89.2|100.82|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||100.82|89.20|
92232385|NCT05087030|184367008|SUPERIORITY|Non-Superiority Test|Estimated Difference|0.55|||||TWO_SIDED|90.0|-0.099|1.191|||ANCOVA|||||1.191|-0.099|
92232386|NCT05087030|184367009|OTHER||Geometric mean ratio|1.01||||0.494|TWO_SIDED|95.0|0.978|1.046|||ANCOVA|||Comparison between Study Treatment Groups||1.046|0.978|0.494
92381782|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||89.3|TWO_SIDED|95.0|0.97|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal;Region; Cetral; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.97|89.30
92381783|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||74.67|TWO_SIDED|95.0|0.87|1.32||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Distal; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.32|0.87|74.67
92381784|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.23||||98.25|TWO_SIDED|95.0|1.02|1.48||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Distal D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.48|1.02|98.25
92381785|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||87.8|TWO_SIDED|95.0|0.96|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region;Total; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.96|87.80
92381786|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||91.54|TWO_SIDED|95.0|0.97|1.15||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Total; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.15|0.97|91.54
92381787|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||68.89|TWO_SIDED|95.0|0.92|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.92|68.89
92381788|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||98.19|TWO_SIDED|95.0|1.01|1.27||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.27|1.01|98.19
92381789|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||94.07|TWO_SIDED|95.0|0.98|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.98|94.07
92381790|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||75.74|TWO_SIDED|95.0|0.92|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.92|75.74
92414301|NCT02446171|184718947|SUPERIORITY_OR_OTHER||Ratio#|97.05|||||TWO_SIDED|90.0|88.09|106.92|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||106.92|88.09|
92414302|NCT02446171|184718947|SUPERIORITY_OR_OTHER||Ratio#|100.56|||||TWO_SIDED|90.0|91.8|110.16|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||110.16|91.80|
92232387|NCT05087030|184367010|OTHER||Estimated difference|-0.31||||0.199|TWO_SIDED|95.0|-0.792|0.165|||Mixed model repeated measures|||at Week 26||0.165|-0.792|0.199
92232388|NCT05087030|184367010|OTHER||Estimated difference|-0.16||||0.543|TWO_SIDED|95.0|-0.68|0.358|||mixed model repeated measures|||At Week 52||0.358|-0.680|0.543
92232389|NCT05087030|184367011|OTHER||Estimated Difference|0.03||||0.929|TWO_SIDED|95.0|-0.703|0.769|||mixed model for repeated measures|||Week 26||0.769|-0.703|0.929
92232390|NCT00609622|184367051|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.705||||0.9963|TWO_SIDED|95.0|1.272|5.751|||Log Rank|||P-value was calculated from a 1-sided, log-rank test stratified for Eastern Cooperative Oncology Group (ECOG) Performance Status (0 vs. 1), Baseline Lactate Dehydrogenase (LDH): greater than (\>) 1.5 vs. less than or equal to (\<=) 1.5 \* upper limit of normal range (ULN), and Prior Adjuvant Treatment (yes vs. no).||5.751|1.272|0.9963
92232391|NCT00609622|184367052|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.618||||0.9289|TWO_SIDED|95.0|0.845|3.096|||Log Rank|||P-value was calculated from a 1-sided, log-rank test stratified for ECOG Performance Status (0 vs. 1), Baseline LDH: \>1.5 vs. \<=1.5 \* ULN, and Prior Adjuvant Treatment (yes vs. no).||3.096|0.845|0.9289
92381791|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.12||||95.83|TWO_SIDED|95.0|0.99|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|0.99|95.83
92381792|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||79.8|TWO_SIDED|95.0|0.94|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.94|79.80
92381793|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||95.29|TWO_SIDED|95.0|0.99|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Central; SCRD12 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.99|95.29
92381794|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||96.27|TWO_SIDED|95.0|0.99|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.99|96.27
92381795|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||47.62|TWO_SIDED|95.0|0.94|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.94|47.62
92381796|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||71.55|TWO_SIDED|95.0|0.92|1.15||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.15|0.92|71.55
92381797|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||98.29|TWO_SIDED|95.0|1.01|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|1.01|98.29
92414303|NCT02446171|184718947|SUPERIORITY_OR_OTHER||Ratio#|102.5|||||TWO_SIDED|90.0|93.13|111.82|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||111.82|93.13|
92414304|NCT01727700|184718964|SUPERIORITY_OR_OTHER||Treatment difference|-6.26||||0.002|TWO_SIDED|95.0|-10.18|-2.34||The Hochberg procedure was used to adjust for multiplicity.|Mixed Models Analysis|Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.||Assuming 5% of participants may drop out of the trial without a postbaseline efficacy evaluation, a total of 126 participants were required to provide at least 80% power to detect a treatment difference of -5 (common standard deviation \[SD\] of 8.5) between at least 1 of 2 aripiprazole dose levels and placebo in the primary outcome.||-2.34|-10.18|0.0020
92414305|NCT01727700|184718964|SUPERIORITY_OR_OTHER||Treatment difference|-9.85|||<|0.0001|TWO_SIDED|95.0|-13.84|-5.86||The Hochberg procedure was used to adjust for multiplicity.|Mixed Models Analysis|Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.||Assuming 5% of participants may drop out of the trial without a postbaseline efficacy evaluation, a total of 126 participants were required to provide at least 80% power to detect a treatment difference of -5 (common standard SD of 8.5) between at least 1 of 2 aripiprazole dose levels and placebo in the primary outcome.||-5.86|-13.84|<0.0001
92414306|NCT01727700|184718965|SUPERIORITY_OR_OTHER||Treatment difference|-1.03||||0.0001|TWO_SIDED|95.0|-1.54|-0.52||The Hochberg procedure was used to adjust for multiplicity.|Mixed Models Analysis|Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.||||-0.52|-1.54|0.0001
92232392|NCT00609622|184367055|SUPERIORITY_OR_OTHER||F-Distribution|3.956||||0.5898|TWO_SIDED|95.0|-10.412|18.324|||Chi-squared|||||18.324|-10.412|0.5898
92232393|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4||||0.0515|TWO_SIDED|95.0|-2.82|0.01|||t-test, 2 sided|||Differences in PWB between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||0.01|-2.82|0.0515
92381798|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Bayesian repeated measures model|1.08||||95.09|TWO_SIDED|95.0|0.99|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.99|95.09
92381799|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||93.68|TWO_SIDED|95.0|0.98|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.98|93.68
92381800|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||96.58|TWO_SIDED|95.0|1.0|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|1.00|96.58
92414307|NCT01727700|184718965|SUPERIORITY_OR_OTHER||Treatment difference|-1.02||||0.0002|TWO_SIDED|95.0|-1.54|-0.49||The Hochberg procedure was used to adjust for multiplicity.|Mixed Models Analysis|Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.||||-0.49|-1.54|0.0002
92414308|NCT01727700|184718966|SUPERIORITY_OR_OTHER||Treatment difference|-13.26||||0.0017|TWO_SIDED|95.0|-21.43|-5.08||Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.|Mixed Models Analysis|||||-5.08|-21.43|0.0017
92414309|NCT01727700|184718966|SUPERIORITY_OR_OTHER||Treatment difference|-19.37|||<|0.0001|TWO_SIDED|95.0|-27.7|-11.04||Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.|Mixed Models Analysis|||||-11.04|-27.70|<0.0001
92414310|NCT01727700|184718967|SUPERIORITY_OR_OTHER||Treatment difference|-0.8||||0.001|TWO_SIDED|95.0|-1.27|-0.33||Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.|Mixed Models Analysis|||||-0.33|-1.27|0.0010
92414311|NCT01727700|184718967|SUPERIORITY_OR_OTHER||MMRM|-0.92||||0.0002|TWO_SIDED|95.0|-1.41|-0.44||Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.|Mixed Models Analysis|||||-0.44|-1.41|0.0002
92414312|NCT01727700|184718968|SUPERIORITY_OR_OTHER||Response ratio|1.36||||0.0835|TWO_SIDED|95.0|0.98|1.88||P-value derived from Cochran-Mantel-Haenszel (CMH) General Association Test adjusting for region and weight group.|Cochran-Mantel-Haenszel|Response ratio \> 1 favors aripiprazole.||||1.88|0.98|0.0835
92414313|NCT01727700|184718968|SUPERIORITY_OR_OTHER||Response ratio|1.61||||0.0014|TWO_SIDED|95.0|1.2|2.16||P-value derived from CMH General Association Test adjusting for region and weight group.|Cochran-Mantel-Haenszel|Response ratio \> 1 favors aripiprazole.||||2.16|1.20|0.0014
92232394|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.45||||0.0876|TWO_SIDED|95.0|-3.11|0.22|||t-test, 2 sided|||Differences in PWB between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||0.22|-3.11|0.0876
92414314|NCT01727700|184718969|SUPERIORITY_OR_OTHER||Discontinuation ratio|1.16||||0.9187|TWO_SIDED|95.0|0.19|7.05||Discontinuation ratio \< 1 favors aripiprazole. P-value derived from CMH General Association Test adjusting for region and weight group.|Cochran-Mantel-Haenszel|||||7.05|0.19|0.9187
92414315|NCT01727700|184718969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.9576||||||Hazard ratio \< 1 favors aripiprazole. P-value derived from Cox proportional hazard regression adjusting for region and weight group.|Regression, Cox|||||||0.9576
92381801|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||56.99|TWO_SIDED|95.0|0.95|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.95|56.99
92414316|NCT01727700|184718969|SUPERIORITY_OR_OTHER||Discontinuation ratio|4.06||||0.0132|TWO_SIDED|95.0|1.1|14.95||Discontinuation ratio \< 1 favors aripiprazole. P-value derived from CMH General Association Test adjusting for region and weight group.|Cochran-Mantel-Haenszel|||||14.95|1.10|0.0132
92414317|NCT01727700|184718969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.51||||0.0278||||||Hazard ratio \< 1 favors aripiprazole. P-value derived from Cox proportional hazard regression adjusting for region and weight group.|Regression, Cox|||||||0.0278
92414318|NCT01122394|184719007|SUPERIORITY_OR_OTHER|||||||0.29|||||||robust regression|controlling for provider clustering||Robust regressions were performed||||0.29
92414319|NCT01122394|184719008|SUPERIORITY_OR_OTHER|||||||0.25|||||||Regression, Logistic|This analysis includes participants in pre-action and action/maintenance||||||0.25
92414320|NCT01122394|184719009|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92414321|NCT01122394|184719010|SUPERIORITY_OR_OTHER|||||||0.81|||||||Regression, Linear|||||||0.81
92414322|NCT01122394|184719011|SUPERIORITY_OR_OTHER|||||||0.12|||||||Regression, Linear|||||||0.12
92414323|NCT03739242|184719012|SUPERIORITY||Least Square Mean difference|-39.16|||<|0.0001|TWO_SIDED|95.0|-48.57|-29.75|||ANCOVA|||||-29.75|-48.57|<0.0001
92414324|NCT03739242|184719013|SUPERIORITY||Least Square Mean difference|-41.24||||0.0001|TWO_SIDED|95.0|-51.73|-30.74|||ANCOVA|||||-30.74|-51.73|0.0001
92414325|NCT03739242|184719014|SUPERIORITY||Least Square Mean difference|0.09||||0.951|TWO_SIDED|95.0|-2.87|3.05|||ANCOVA|||||3.05|-2.87|0.9510
92414326|NCT03739242|184719015|SUPERIORITY||Least Square Mean difference|-41.7|||<|0.0001|TWO_SIDED|95.0|-51.58|-31.82|||ANCOVA|||||-31.82|-51.58|<0.0001
92414327|NCT03739242|184719016|SUPERIORITY||Least Square Mean difference|-7.0||||0.1924|TWO_SIDED|95.0|-17.59|3.59|||ANCOVA|||||3.59|-17.59|0.1924
92414328|NCT03739242|184719017|SUPERIORITY||Least Square Mean difference|-17.26|||<|0.0001|TWO_SIDED|95.0|-23.54|-10.98|||ANCOVA|||||-10.98|-23.54|<0.0001
92414329|NCT03739242|184719018|SUPERIORITY||Least Square Mean difference|-0.91|||<|0.0001|TWO_SIDED|95.0|-1.19|-0.62|||ANCOVA|||||-0.62|-1.19|<0.0001
92414330|NCT03739242|184719019|SUPERIORITY||Least Square Mean difference|-0.82|||<|0.0001|TWO_SIDED|95.0|-1.05|-0.59|||ANCOVA|||||-0.59|-1.05|<0.0001
92414331|NCT03739242|184719020|SUPERIORITY||Least Square Mean difference|-3.47||||0.4535|TWO_SIDED|95.0|-12.64|5.7|||ANCOVA|||||5.7|-12.64|0.4535
92414332|NCT03739242|184719021|SUPERIORITY||Least Square Mean difference|0.74||||0.5594|TWO_SIDED|95.0|-1.76|3.24|||ANCOVA|||||3.24|-1.76|0.5594
92414333|NCT03739242|184719022|SUPERIORITY||Least Square Mean difference|-0.07||||0.9266|TWO_SIDED|95.0|-1.63|1.48|||ANCOVA|||||1.48|-1.63|0.9266
92414334|NCT03739242|184719023|SUPERIORITY||Least Square Mean difference|6.02||||0.2654|TWO_SIDED|95.0|-4.66|16.69|||ANCOVA|||||16.69|-4.66|0.2654
92414335|NCT03739242|184719024|SUPERIORITY||Least Square Mean difference|-5.95||||0.2595|TWO_SIDED|95.0|-16.37|4.47|||ANCOVA|||||4.47|-16.37|0.2595
92232395|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.81||||0.0522|TWO_SIDED|95.0|-3.64|0.02|||t-test, 2 sided|||Differences in PWB between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||0.02|-3.64|0.0522
92414336|NCT03739242|184719025|SUPERIORITY||Least Square Mean difference|0.003||||0.8476|TWO_SIDED|95.0|-0.039|0.032|||ANCOVA|||||0.032|-0.039|0.8476
92414337|NCT03739242|184719026|SUPERIORITY||Least Square Mean difference|-0.21||||0.1499|TWO_SIDED|95.0|-0.49|0.08|||ANCOVA|||||0.08|-0.49|0.1499
92414338|NCT03739242|184719027|SUPERIORITY||Least Square Mean difference|1.71||||0.7224|TWO_SIDED|95.0|-7.83|11.25|||ANCOVA|||||11.25|-7.83|0.7224
92414339|NCT00039871|184719028|SUPERIORITY_OR_OTHER||Binomial Approximation|0.217||||||99.0|0.195|0.239||||||||0.239|0.195|
92414340|NCT00039871|184719029|SUPERIORITY_OR_OTHER||Binomial Approximation|0.563||||||95.0|0.529|0.596||||||||0.596|0.529|
92414341|NCT00039871|184719030|SUPERIORITY_OR_OTHER||Binomial Approximation|0.122||||||95.0|0.076|0.169||||||||0.169|0.076|
92414342|NCT02446743|184719031|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[(Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine Group Difference|77.0|||||TWO_SIDED|95.0|68.1|84.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||84.1|68.1|
92414343|NCT02446743|184719031|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|60.0|||||TWO_SIDED|95.0|49.9|69.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||69.2|49.9|
92414344|NCT02446743|184719031|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|68.0|||||TWO_SIDED|95.0|60.5|73.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||73.5|60.5|
92414345|NCT02446743|184719031|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|9.0|||||TWO_SIDED|95.0|5.3|14.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||14.8|5.3|
92414346|NCT02446743|184719031|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10 vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|14.0|||||TWO_SIDED|95.0|4.9|24.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||24.2|4.9|
92414347|NCT02446743|184719031|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|10.0|||||TWO_SIDED|95.0|4.3|15.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||15.9|4.3|
92414348|NCT02446743|184719032|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|25.0|||||TWO_SIDED|95.0|18.2|31.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||31.4|18.2|
92414349|NCT02446743|184719032|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[(Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine groups difference|22.0|||||TWO_SIDED|95.0|13.2|30.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||30.1|13.2|
92232396|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.64||||0.1339|TWO_SIDED|95.0|-3.81|0.52|||t-test, 2 sided|||Differences in PWB between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||0.52|-3.81|0.1339
92381802|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||13.08|TWO_SIDED|95.0|0.85|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.85|13.08
92414350|NCT02446743|184719032|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|30.0|||||TWO_SIDED|95.0|20.0|39.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||39.6|20.0|
92414351|NCT02446743|184719032|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-3.4|11.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||11.9|-3.4|
92414352|NCT02446743|184719032|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1(V72\_41)\]|vaccine group differences|12.0|||||TWO_SIDED|95.0|0.33|24.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||24.2|0.33|
92414353|NCT02446743|184719032|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1(V72P10)\]|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-10.0|9.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||9.5|-10.0|
92414354|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|22.0|||||TWO_SIDED|95.0|16.5|28.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||28.6|16.5|
92414355|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|21.0|||||TWO_SIDED|95.0|14.6|28.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||28.9|14.6|
92414356|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|26.0|||||TWO_SIDED|95.0|16.4|35.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||35.3|16.4|
92414357|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|68.0|||||TWO_SIDED|95.0|60.8|73.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||73.7|60.8|
92414358|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|74.0|||||TWO_SIDED|95.0|65.3|81.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||81.3|65.3|
92414359|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|64.0|||||TWO_SIDED|95.0|53.6|72.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||72.3|53.6|
92414360|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|9.0|||||TWO_SIDED|95.0|3.7|14.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||14.0|3.7|
92232397|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.05||||0.4233|TWO_SIDED|95.0|-3.68|1.57|||t-test, 2 sided|||Differences in PWB between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||1.57|-3.68|0.4233
92381803|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||52.99|TWO_SIDED|95.0|0.89|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.89|52.99
92381804|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||60.75|TWO_SIDED|95.0|0.9|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.90|60.75
92381805|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||75.23|TWO_SIDED|95.0|0.92|1.2||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.20|0.92|75.23
92414361|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|7.0|||||TWO_SIDED|95.0|3.3|12.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||12.3|3.3|
92414362|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|13.0|||||TWO_SIDED|95.0|4.5|22.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||22.0|4.5|
92414363|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|5.0|||||TWO_SIDED|95.0|-3.4|12.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||12.8|-3.4|
92414364|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|9.0|||||TWO_SIDED|95.0|-3.3|21.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||21.4|-3.3|
92414365|NCT02446743|184719034|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-6.4|14.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||14.5|-6.4|
92414366|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|15.0|||||TWO_SIDED|95.0|10.1|20.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||20.9|10.1|
92414367|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|12.0|||||TWO_SIDED|95.0|7.5|18.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||18.1|7.5|
92414368|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|21.0|||||TWO_SIDED|95.0|12.3|29.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||29.9|12.3|
92414369|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|66.0|||||TWO_SIDED|95.0|59.6|72.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||72.4|59.6|
92414370|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|70.0|||||TWO_SIDED|95.0|60.8|77.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||77.0|60.8|
92414371|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|65.0|||||TWO_SIDED|95.0|55.2|73.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||73.7|55.2|
92381806|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||28.14|TWO_SIDED|95.0|0.78|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RML; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.78|28.14
92381807|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||38.43|TWO_SIDED|95.0|0.84|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RML; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.84|38.43
92381808|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||25.21|TWO_SIDED|95.0|0.8|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.80|25.21
92414372|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|9.0|||||TWO_SIDED|95.0|4.9|13.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||13.6|4.9|
92232398|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.97||||0.2211|TWO_SIDED|95.0|-5.18|1.24|||t-test, 2 sided|||Differences in PWB between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||1.24|-5.18|0.2211
92232399|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41||||0.8184|TWO_SIDED|95.0|-3.22|4.04|||t-test, 2 sided|||Differences in PWB between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||4.04|-3.22|0.8184
92381809|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||81.73|TWO_SIDED|95.0|0.91|1.27||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.27|0.91|81.73
92381810|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.9||||9.87|TWO_SIDED|95.0|0.76|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.76|9.87
92381811|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||63.15|TWO_SIDED|95.0|0.87|1.21||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.21|0.87|63.15
92381812|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||4.03|TWO_SIDED|95.0|0.86|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.86|4.03
92381813|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||30.03|TWO_SIDED|95.0|0.89|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.89|30.03
92381814|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||80.34|TWO_SIDED|95.0|0.95|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.95|80.34
92381815|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||25.65|TWO_SIDED|95.0|0.89|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.89|25.65
92414373|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|5.0|||||TWO_SIDED|95.0|1.2|9.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||9.7|1.2|
92381816|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||24.36|TWO_SIDED|95.0|0.88|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.88|24.36
92232400|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.9||||0.038|TWO_SIDED|95.0|0.57|17.23|||t-test, 2 sided|||Differences in PWB between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||17.23|0.57|0.0380
92381817|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||48.45|TWO_SIDED|95.0|0.91|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.91|48.45
92381818|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||1.95|TWO_SIDED|95.0|0.81|0.99||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.99|0.81|1.95
92381819|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||14.15|TWO_SIDED|95.0|0.85|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.85|14.15
92381820|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||80.61|TWO_SIDED|95.0|0.95|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.95|80.61
92381821|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.91||||3.3|TWO_SIDED|95.0|0.81|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD12.The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.81|3.30
92381822|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||42.22|TWO_SIDED|95.0|0.88|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.88|42.22
92232401|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.6||||0.3266|TWO_SIDED|95.0|-6.61|17.81|||t-test, 2 sided|||Differences in PWB between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||17.81|-6.61|0.3266
92278267|NCT00368966|184458508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.07||||||95.0|0.88|1.29||||||For Poliovirus Type 3 the GMT ratio (13vPnC/7vPnC) was calculated||1.29|0.88|
92381823|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.09||||95.24|TWO_SIDED|95.0|0.99|1.2||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; D12D28The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.20|0.99|95.24
92232402|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.75||||0.4667|TWO_SIDED|95.0|-16.26|27.76|||t-test, 2 sided|||Differences in PWB between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||27.76|-16.26|0.4667
92414374|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|15.0|||||TWO_SIDED|95.0|7.5|22.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||22.6|7.5|
92414375|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-6.8|10.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.0|-6.8|
92414376|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|3.0|||||TWO_SIDED|95.0|-9.8|15.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.2|-9.8|
92414377|NCT02446743|184719035|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-7.8|14.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||14.7|-7.8|
92414378|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group ratio of GMTs|2.54|||||TWO_SIDED|95.0|2.07|3.12|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||3.12|2.07|
92381824|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||6.38|TWO_SIDED|95.0|0.83|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.83|6.38
92381825|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||28.82|TWO_SIDED|95.0|0.86|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.86|28.82
92381826|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||87.39|TWO_SIDED|95.0|0.97|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.97|87.39
92381827|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||23.27|TWO_SIDED|95.0|0.87|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Upper; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.87|23.27
92414379|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|vaccine group ratio of GMTs|2.13|||||TWO_SIDED|95.0|1.66|2.72|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.72|1.66|
92232403|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in PWB between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
92232404|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64||||0.5587|TWO_SIDED|95.0|-2.8|1.52|||t-test, 2 sided|||Differences in PWB between treatment arms (EOT) was analyzed from a two-sample t-test.||1.52|-2.80|0.5587
92232405|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.6122|TWO_SIDED|95.0|-1.37|0.81|||t-test, 2 sided|||Differences in SWB between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||0.81|-1.37|0.6122
92232406|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51||||0.4642|TWO_SIDED|95.0|-1.87|0.86|||t-test, 2 sided|||Differences in SWB between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||0.86|-1.87|0.4642
92232407|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.94||||0.2105|TWO_SIDED|95.0|-2.41|0.54|||t-test, 2 sided|||Differences in SWB between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||0.54|-2.41|0.2105
92232408|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.09||||0.195|TWO_SIDED|95.0|-0.57|2.76|||t-test, 2 sided|||Differences in SWB between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||2.76|-0.57|0.1950
92381828|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||57.82|TWO_SIDED|95.0|0.9|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Upper; D28.The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.90|57.82
92381829|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.9||||9.67|TWO_SIDED|95.0|0.77|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Lower; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.77|9.67
92381830|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||70.73|TWO_SIDED|95.0|0.89|1.22||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Lower; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.22|0.89|70.73
92381831|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||25.61|TWO_SIDED|95.0|0.95|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Central; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.95|25.61
92381832|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||44.1|TWO_SIDED|95.0|0.96|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Cetral; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.96|44.10
92381833|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||10.14|TWO_SIDED|95.0|0.82|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Distal; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.82|10.14
92232409|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.5779|TWO_SIDED|95.0|-1.55|2.75|||t-test, 2 sided|||Differences in SWB between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||2.75|-1.55|0.5779
92232410|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.67||||0.6314|TWO_SIDED|95.0|-2.15|3.5|||t-test, 2 sided|||Differences in SWB between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||3.50|-2.15|0.6314
92232411|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51||||0.7554|TWO_SIDED|95.0|-2.85|3.87|||t-test, 2 sided|||Differences in SWB between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||3.87|-2.85|0.7554
92381834|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||62.87|TWO_SIDED|95.0|0.9|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Distal D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.90|62.87
92381835|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||11.82|TWO_SIDED|95.0|0.93|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Total; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.93|11.82
92381836|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||51.44|TWO_SIDED|95.0|0.95|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Total; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.95|51.44
92381837|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||9.54|TWO_SIDED|95.0|0.88|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.88|9.54
92381838|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||30.03|TWO_SIDED|95.0|0.89|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.89|30.03
92381839|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||73.03|TWO_SIDED|95.0|0.95|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.95|73.03
92381840|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||4.64|TWO_SIDED|95.0|0.83|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.83|4.64
92381841|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||42.13|TWO_SIDED|95.0|0.89|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.89|42.13
92381842|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||93.33|TWO_SIDED|95.0|0.98|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.98|93.33
92414380|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|vaccine group ratio of GMTs|2.96|||||TWO_SIDED|95.0|2.15|4.07|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||4.07|2.15|
92414381|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group ratio of GMTs|16.0|||||TWO_SIDED|95.0|12.0|21.0|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||21|12|
92232412|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.94||||0.3781|TWO_SIDED|95.0|-13.22|5.34|||t-test, 2 sided|||Differences in SWB between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||5.34|-13.22|0.3781
92232413|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.85||||0.5715|TWO_SIDED|95.0|-13.83|8.13|||t-test, 2 sided|||Differences in SWB between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||8.13|-13.83|0.5715
92232414|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.58||||0.1271|TWO_SIDED|95.0|-19.08|3.93|||t-test, 2 sided|||Differences in SWB between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||3.93|-19.08|0.1271
92232415|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in SWB between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
92381843|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||27.33|TWO_SIDED|95.0|0.95|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.95|27.33
92381844|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||34.15|TWO_SIDED|95.0|0.96|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.96|34.15
92381845|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||58.42|TWO_SIDED|95.0|0.98|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.98|58.42
92381846|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||5.93|TWO_SIDED|95.0|0.86|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.86|5.93
92381847|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||35.88|TWO_SIDED|95.0|0.89|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.89|35.88
92381848|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||86.41|TWO_SIDED|95.0|0.97|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.97|86.41
92381849|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||13.52|TWO_SIDED|95.0|0.94|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.94|13.52
92381850|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||32.84|TWO_SIDED|95.0|0.95|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Total; SCRD28 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.95|32.84
92381851|NCT02294734|184666504|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||78.09|TWO_SIDED|95.0|0.98|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.98|78.09
92381852|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||60.07|TWO_SIDED|95.0|0.66|1.39||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.39|0.66|60.07
92232416|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.6785|TWO_SIDED|95.0|-1.03|1.58|||t-test, 2 sided|||Differences in SWB between treatment arms (EOT) was analyzed from a two-sample t-test.||1.58|-1.03|0.6785
92232417|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.4623|TWO_SIDED|95.0|-1.63|0.74|||t-test, 2 sided|||Differences in EWB between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||0.74|-1.63|0.4623
92232418|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.9302|TWO_SIDED|95.0|-1.31|1.2|||t-test, 2 sided|||Differences in EWB between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||1.20|-1.31|0.9302
92278268|NCT00368966|184458509|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.85||||||95.0|0.75|0.96||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||0.96|0.75|
92381853|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||51.75|TWO_SIDED|95.0|0.65|1.53||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.53|0.65|51.75
92381854|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||65.66|TWO_SIDED|95.0|0.6|1.4||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.40|0.60|65.66
92381855|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||81.67|TWO_SIDED|95.0|0.59|1.21||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.21|0.59|81.67
92381856|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.77||||89.98|TWO_SIDED|95.0|0.51|1.15||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.15|0.51|89.98
92381857|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||43.88|TWO_SIDED|95.0|0.7|1.51||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.51|0.70|43.88
92381858|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||36.1|TWO_SIDED|95.0|0.64|1.91||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.91|0.64|36.10
92381859|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.7||||95.74|TWO_SIDED|95.0|0.47|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.47|95.74
92381860|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||50.74|TWO_SIDED|95.0|0.67|1.48||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.48|0.67|50.74
92414382|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|vaccine group ratio of GMTs|20.0|||||TWO_SIDED|95.0|14.0|28.0|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||28|14|
92381861|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||72.81|TWO_SIDED|95.0|0.51|1.44||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.44|0.51|72.81
92381862|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.73||||94.41|TWO_SIDED|95.0|0.5|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.50|94.41
92414383|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|vaccine group ratio of GMTs|14.0|||||TWO_SIDED|95.0|9.05|20.0|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||20|9.05|
92414384|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group ratio of GMTs|1.5|||||TWO_SIDED|95.0|1.26|1.78|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.78|1.26|
92414385|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|vaccine group ratio of GMTs|1.3|||||TWO_SIDED|95.0|1.11|1.51|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.51|1.11|
92414386|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|vaccine group ratio of GMTs|1.7|||||TWO_SIDED|95.0|1.27|2.28|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||2.28|1.27|
92414387|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group ratio of GMTs|1.26|||||TWO_SIDED|95.0|0.94|1.68|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.68|0.94|
92414388|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|vaccine group ratio of GMTs|1.32|||||TWO_SIDED|95.0|0.85|2.05|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||2.05|0.85|
92414389|NCT02446743|184719036|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|vaccine group ratio of GMTs|1.2|||||TWO_SIDED|95.0|0.81|1.78|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.78|0.81|
92414390|NCT02446743|184719041|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|13.0|||||TWO_SIDED|95.0|8.0|21.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||21.6|8.0|
92232419|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.7502|TWO_SIDED|95.0|-1.84|1.33|||t-test, 2 sided|||Differences in EWB between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||1.33|-1.84|0.7502
92278269|NCT00368966|184458509|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.03||||||95.0|0.88|1.2||||||For Tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.20|0.88|
92414391|NCT02446743|184719041|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|16.0|||||TWO_SIDED|95.0|10.8|23.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||23.1|10.8|
92414392|NCT02446743|184719041|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|15.0|||||TWO_SIDED|95.0|11.0|20.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||20.1|11.0|
92414393|NCT02446743|184719041|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|54.0|||||TWO_SIDED|95.0|43.0|63.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||63.3|43.0|
92414394|NCT02446743|184719041|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|31.0|||||TWO_SIDED|95.0|22.0|40.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||40.1|22.0|
92232420|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.9335|TWO_SIDED|95.0|-2.12|1.95|||t-test, 2 sided|||Differences in EWB between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||1.95|-2.12|0.9335
92232421|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.9191|TWO_SIDED|95.0|-2.4|2.17|||t-test, 2 sided|||Differences in EWB between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||2.17|-2.40|0.9191
92232422|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.675|TWO_SIDED|95.0|-3.46|2.27|||t-test, 2 sided|||Differences in EWB between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||2.27|-3.46|0.6750
92381863|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.83||||81.07|TWO_SIDED|95.0|0.55|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.55|81.07
92381864|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.87||||69.29|TWO_SIDED|95.0|0.5|1.51||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.51|0.50|69.29
92381865|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||73.67|TWO_SIDED|95.0|0.54|1.37||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.37|0.54|73.67
92381866|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.87||||75.82|TWO_SIDED|95.0|0.59|1.29||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.29|0.59|75.82
92381867|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||54.22|TWO_SIDED|95.0|0.69|1.39||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.39|0.69|54.22
92381868|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||66.46|TWO_SIDED|95.0|0.63|1.35||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.35|0.63|66.46
92381869|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.16||||21.45|TWO_SIDED|95.0|0.79|1.71||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Upper; D12D28 . The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.71|0.79|21.45
92381870|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||69.91|TWO_SIDED|95.0|0.5|1.5||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.50|0.50|69.91
92381871|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||75.29|TWO_SIDED|95.0|0.57|1.31||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.31|0.57|75.29
92381872|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||44.05|TWO_SIDED|95.0|0.68|1.58||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.58|0.68|44.05
92232423|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.88||||0.5874|TWO_SIDED|95.0|-4.2|2.43|||t-test, 2 sided|||Differences in EWB between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||2.43|-4.20|0.5874
92232424|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.27||||0.4507|TWO_SIDED|95.0|-7.53|16.06|||t-test, 2 sided|||Differences in EWB between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||16.06|-7.53|0.4507
92414395|NCT02446743|184719041|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|41.0|||||TWO_SIDED|95.0|33.6|47.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||47.2|33.6|
92381873|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.82||||94.93|TWO_SIDED|95.0|0.65|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region; Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.65|94.93
92381874|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.77||||97.11|TWO_SIDED|95.0|0.59|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.59|97.11
92381875|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||85.41|TWO_SIDED|95.0|0.7|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.70|85.41
92381876|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||54.73|TWO_SIDED|95.0|0.62|1.53||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.53|0.62|54.73
92414396|NCT02446743|184719042|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|20.0|||||TWO_SIDED|95.0|15.0|25.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||25.4|15.0|
92414397|NCT02446743|184719042|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|18.0|||||TWO_SIDED|95.0|10.7|27.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||27.0|10.7|
92414398|NCT02446743|184719042|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|21.0|||||TWO_SIDED|95.0|15.6|28.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||28.8|15.6|
92414399|NCT02446743|184719042|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|12.0|||||TWO_SIDED|95.0|8.0|16.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||16.8|8.0|
92414400|NCT02446743|184719042|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|20.0|||||TWO_SIDED|95.0|12.8|28.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||28.6|12.8|
92414401|NCT02446743|184719042|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|6.0|||||TWO_SIDED|95.0|1.5|12.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||12.2|1.5|
92414402|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|27.0|||||TWO_SIDED|95.0|21.9|33.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||33.3|21.9|
92414403|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|31.0|||||TWO_SIDED|95.0|21.8|40.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||40.3|21.8|
92414404|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|26.0|||||TWO_SIDED|95.0|19.2|33.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||33.1|19.2|
92414405|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|19.0|||||TWO_SIDED|95.0|14.3|24.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||24.3|14.3|
92414406|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|19.0|||||TWO_SIDED|95.0|12.1|27.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||27.5|12.1|
92414407|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|19.0|||||TWO_SIDED|95.0|13.3|26.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||26.4|13.3|
92414408|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|43.0|||||TWO_SIDED|95.0|35.2|49.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||49.9|35.2|
92169329|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.16||||0.448|TWO_SIDED|95.0|-3.5|7.82||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 52|||7.82|-3.50|0.448
92381877|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||72.31|TWO_SIDED|95.0|0.61|1.3||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.30|0.61|72.31
92381878|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.21||||15.05|TWO_SIDED|95.0|0.84|1.75||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.75|0.84|15.05
92381879|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.88||||84.87|TWO_SIDED|95.0|0.68|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.68|84.87
92381880|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.82||||92.24|TWO_SIDED|95.0|0.63|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.63|92.24
92414409|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|58.0|||||TWO_SIDED|95.0|46.6|67.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||67.3|46.6|
92414410|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|33.0|||||TWO_SIDED|95.0|23.0|42.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||42.5|23.0|
92414411|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|13.0|||||TWO_SIDED|95.0|8.8|18.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||18.3|8.8|
92169330|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.75||||0.089|TWO_SIDED|95.0|-0.27|3.77||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 2|||3.77|-0.27|0.089
92169331|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.76||||0.095|TWO_SIDED|95.0|-0.31|3.84||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 4|||3.84|-0.31|0.095
92232425|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.9||||0.3087|TWO_SIDED|95.0|-4.28|12.08|||t-test, 2 sided|||Differences in EWB between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||12.08|-4.28|0.3087
92381881|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||63.42|TWO_SIDED|95.0|0.75|1.22||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.22|0.75|63.42
92381882|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.17||||9.05|TWO_SIDED|95.0|0.93|1.46||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.46|0.93|9.05
92381883|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||66.4|TWO_SIDED|95.0|0.74|1.22||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.22|0.74|66.40
92381884|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.78||||97.39|TWO_SIDED|95.0|0.6|1.0||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.00|0.60|97.39
92381885|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||16.02|TWO_SIDED|95.0|0.89|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|0.89|16.02
92381886|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.9||||75.69|TWO_SIDED|95.0|0.68|1.21||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.21|0.68|75.69
92381887|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||90.22|TWO_SIDED|95.0|0.69|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.69|90.22
92381888|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.21||||9.64|TWO_SIDED|95.0|0.91|1.62||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.62|0.91|9.64
92381889|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.15||||20.44|TWO_SIDED|95.0|0.82|1.61||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.61|0.82|20.44
92381890|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||55.06|TWO_SIDED|95.0|0.73|1.31||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.31|0.73|55.06
92381891|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.36||||5.29|TWO_SIDED|95.0|0.94|1.97||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.97|0.94|5.29
92381892|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.11||||28.82|TWO_SIDED|95.0|0.77|1.6||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.60|0.77|28.82
92232426|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.9635|TWO_SIDED|95.0|-16.26|15.76|||t-test, 2 sided|||Differences in EWB between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||15.76|-16.26|0.9635
92381893|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.81||||93|TWO_SIDED|95.0|0.61|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.61|93.00
92381894|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.42||||1.64|TWO_SIDED|95.0|1.03|1.95||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.95|1.03|1.64
92232427|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in EWB between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
92381895|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||50.71|TWO_SIDED|95.0|0.72|1.38||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.38|0.72|50.71
92381896|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.68||||99.52|TWO_SIDED|95.0|0.51|0.91||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.91|0.51|99.52
92381897|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||3.1|TWO_SIDED|95.0|0.99|1.51||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.51|0.99|3.10
92381898|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||75.39|TWO_SIDED|95.0|0.71|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.71|75.39
92381899|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||93.29|TWO_SIDED|95.0|0.68|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.68|93.29
92414412|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|20.0|||||TWO_SIDED|95.0|12.6|29.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||29.0|12.6|
92414413|NCT02446743|184719043|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|8.0|||||TWO_SIDED|95.0|2.7|14.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||14.7|2.7|
92414414|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|40.0|||||TWO_SIDED|95.0|33.9|46.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||46.3|33.9|
92232428|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42||||0.6699|TWO_SIDED|95.0|-2.37|1.53|||t-test, 2 sided|||Differences in EWB between treatment arms (EOT) was analyzed from a two-sample t-test.||1.53|-2.37|0.6699
92232429|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.34||||0.0055|TWO_SIDED|95.0|-3.98|-0.7|||t-test, 2 sided|||Differences in FWB between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||-0.70|-3.98|0.0055
92232430|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.04||||0.2793|TWO_SIDED|95.0|-2.92|0.85|||t-test, 2 sided|||Differences in FWB between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||0.85|-2.92|0.2793
92232431|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09||||0.2999|TWO_SIDED|95.0|-3.17|0.99|||t-test, 2 sided|||Differences in FWB between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||0.99|-3.17|0.2999
92232432|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.27||||0.327|TWO_SIDED|95.0|-3.82|1.29|||t-test, 2 sided|||Differences in FWB between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||1.29|-3.82|0.3270
92381900|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.33||||3.79|TWO_SIDED|95.0|0.97|1.82||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.82|0.97|3.79
92381901|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||36.75|TWO_SIDED|95.0|0.76|1.48||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.48|0.76|36.75
92381902|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.72||||99.32|TWO_SIDED|95.0|0.56|0.93||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.93|0.56|99.32
92381903|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||18.91|TWO_SIDED|95.0|0.93|1.2||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.20|0.93|18.91
92278270|NCT00368966|184458509|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.86||||||95.0|0.71|1.02||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||1.02|0.71|
92381904|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||47.35|TWO_SIDED|95.0|0.87|1.15||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.15|0.87|47.35
92381905|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||78|TWO_SIDED|95.0|0.86|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.86|78.00
92381906|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.29||||2.65|TWO_SIDED|95.0|1.0|1.67||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.67|1.00|2.65
92381907|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||58.48|TWO_SIDED|95.0|0.73|1.29||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.29|0.73|58.48
92381908|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.75||||99.64|TWO_SIDED|95.0|0.61|0.92||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.No|TLC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.92|0.61|99.64
92414415|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|49.0|||||TWO_SIDED|95.0|38.9|58.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||58.5|38.9|
92414416|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|34.0|||||TWO_SIDED|95.0|26.6|42.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||42.2|26.6|
92278271|NCT00368966|184458509|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.12||||||95.0|0.9|1.4||||||For Tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.40|0.90|
92232433|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.9779|TWO_SIDED|95.0|-2.39|2.45|||t-test, 2 sided|||Differences in FWB between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||2.45|-2.39|0.9779
92232434|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.8344|TWO_SIDED|95.0|-4.25|3.45|||t-test, 2 sided|||Differences in FWB between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||3.45|-4.25|0.8344
92232435|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.46||||0.5494|TWO_SIDED|95.0|-3.5|6.41|||t-test, 2 sided|||Differences in FWB between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||6.41|-3.50|0.5494
92232436|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.0||||0.0136|TWO_SIDED|95.0|3.15|22.85|||t-test, 2 sided|||Differences in FWB between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||22.85|3.15|0.0136
92381909|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.19||||1.9|TWO_SIDED|95.0|1.01|1.4||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.40|1.01|1.90
92381910|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||63.03|TWO_SIDED|95.0|0.81|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.81|63.03
92381911|NCT02294734|184666505|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.83||||99.19|TWO_SIDED|95.0|0.72|0.97||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.97|0.72|99.19
92414417|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|27.0|||||TWO_SIDED|95.0|21.6|33.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||33.0|21.6|
92414418|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|23.0|||||TWO_SIDED|95.0|15.5|32.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||32.0|15.5|
92381912|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||67.19|TWO_SIDED|95.0|0.64|1.33||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.33|0.64|67.19
92381913|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||44.8|TWO_SIDED|95.0|0.66|1.61||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.61|0.66|44.80
92381914|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||59.9|TWO_SIDED|95.0|0.61|1.46||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.46|0.61|59.90
92232437|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.78||||0.0247|TWO_SIDED|95.0|2.26|25.29|||t-test, 2 sided|||Differences in FWB between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||25.29|2.26|0.0247
92232438|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0||||0.3527|TWO_SIDED|95.0|-12.91|22.91|||t-test, 2 sided|||Differences in FWB between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||22.91|-12.91|0.3527
92232439|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in FWB between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
92232440|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.76||||0.1309|TWO_SIDED|95.0|-4.05|0.53|||t-test, 2 sided|||Differences in FWB between treatment arms (EOT) was analyzed from a two-sample t-test.||0.53|-4.05|0.1309
92232441|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.36||||0.051|TWO_SIDED|95.0|-2.72|0.01|||t-test, 2 sided|||Differences in CCS between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||0.01|-2.72|0.0510
92232442|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74||||0.3858|TWO_SIDED|95.0|-2.44|0.95|||t-test, 2 sided|||Differences in CCS between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||0.95|-2.44|0.3858
92232443|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.88||||0.3943|TWO_SIDED|95.0|-2.9|1.15|||t-test, 2 sided|||Differences in CCS between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||1.15|-2.90|0.3943
92381915|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.91||||70.12|TWO_SIDED|95.0|0.63|1.31||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.31|0.63|70.12
92414419|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|30.0|||||TWO_SIDED|95.0|22.9|38.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||38.1|22.9|
92414420|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|43.0|||||TWO_SIDED|95.0|35.1|50.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||50.6|35.1|
92414421|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|51.0|||||TWO_SIDED|95.0|39.3|60.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||60.9|39.3|
92414422|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|41.0|||||TWO_SIDED|95.0|29.9|50.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||50.2|29.9|
92414423|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|19.0|||||TWO_SIDED|95.0|12.9|24.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||24.6|12.9|
92414424|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|28.0|||||TWO_SIDED|95.0|17.9|37.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||37.8|17.9|
92381916|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.82||||83.98|TWO_SIDED|95.0|0.54|1.22||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.22|0.54|83.98
92381917|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||34.93|TWO_SIDED|95.0|0.73|1.57||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.57|0.73|34.93
92414425|NCT02446743|184719044|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|13.0|||||TWO_SIDED|95.0|6.4|20.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||20.1|6.4|
92414426|NCT02446743|184719045|OTHER|"Vaccine comparison Pre-booster or pre-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|2.6|||||TWO_SIDED|95.0|2.11|3.2|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||3.20|2.11|
92414427|NCT02446743|184719045|OTHER|"Vaccine comparison Post-booster or post-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|11.0|||||TWO_SIDED|95.0|8.85|15.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||15|8.85|
92169332|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.19||||0.073|TWO_SIDED|95.0|-0.2|4.58||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 8|||4.58|-0.20|0.073
92381918|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.14||||32.45|TWO_SIDED|95.0|0.65|1.96||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.96|0.65|32.45
92381919|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.7||||95.35|TWO_SIDED|95.0|0.46|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.46|95.35
92278272|NCT00368966|184458510|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.03||||||95.0|0.93|1.13||||||For Pertussis PT the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.93|
92381920|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||50.1|TWO_SIDED|95.0|0.66|1.54||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.54|0.66|50.10
92381921|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||59.37|TWO_SIDED|95.0|0.55|1.6||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.60|0.55|59.37
92381922|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.8||||87.99|TWO_SIDED|95.0|0.55|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.55|87.99
92381923|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||70.87|TWO_SIDED|95.0|0.59|1.36||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.36|0.59|70.87
92381924|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.91||||63.71|TWO_SIDED|95.0|0.51|1.6||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.60|0.51|63.71
92381925|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.91||||65.99|TWO_SIDED|95.0|0.57|1.44||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.44|0.57|65.99
92381926|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||71.95|TWO_SIDED|95.0|0.6|1.32||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.32|0.60|71.95
92381927|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||48.28|TWO_SIDED|95.0|0.71|1.43||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.43|0.71|48.28
92381928|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||61.06|TWO_SIDED|95.0|0.65|1.39||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.39|0.65|61.06
92381929|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.19||||18.05|TWO_SIDED|95.0|0.82|1.74||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.74|0.82|18.05
92381930|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||61.12|TWO_SIDED|95.0|0.53|1.61||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.61|0.53|61.12
92381931|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||64.4|TWO_SIDED|95.0|0.61|1.41||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.41|0.61|64.40
92381932|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||38.12|TWO_SIDED|95.0|0.69|1.66||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.66|0.69|38.12
92169333|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22||||0.853|TWO_SIDED|95.0|-2.08|2.51||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 12|||2.51|-2.08|0.853
92232444|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.13||||0.3499|TWO_SIDED|95.0|-3.53|1.27|||t-test, 2 sided|||Differences in CCS between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||1.27|-3.53|0.3499
92381933|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||91|TWO_SIDED|95.0|0.67|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.67|91.00
92381934|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.81||||94.52|TWO_SIDED|95.0|0.62|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.62|94.52
92381935|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.9||||82.11|TWO_SIDED|95.0|0.72|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.72|82.11
92381936|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||48.1|TWO_SIDED|95.0|0.64|1.6||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.60|0.64|48.10
92381937|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||65.66|TWO_SIDED|95.0|0.64|1.36||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.36|0.64|65.66
92381938|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.25||||11.46|TWO_SIDED|95.0|0.87|1.8||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.80|0.87|11.46
92232445|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.9567|TWO_SIDED|95.0|-2.64|2.5|||t-test, 2 sided|||Differences in CCS between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||2.50|-2.64|0.9567
92232446|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.77||||0.2901|TWO_SIDED|95.0|-5.12|1.58|||t-test, 2 sided|||Differences in CCS between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||1.58|-5.12|0.2901
92232447|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.07||||0.5857|TWO_SIDED|95.0|-5.05|2.92|||t-test, 2 sided|||Differences in CCS between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||2.92|-5.05|0.5857
92232448|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.9635|TWO_SIDED|95.0|-12.56|12.02|||t-test, 2 sided|||Differences in CCS between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||12.02|-12.56|0.9635
92232449|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4||||0.685|TWO_SIDED|95.0|-15.36|10.56|||t-test, 2 sided|||Differences in CCS between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||10.56|-15.36|0.6850
92232450|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.75||||0.4968|TWO_SIDED|95.0|-19.23|11.73|||t-test, 2 sided|||Differences in CCS between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||11.73|-19.23|0.4968
92232451|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in CCS between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
92232452|NCT00609622|184367057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.58||||0.5891|TWO_SIDED|95.0|-2.71|1.55|||t-test, 2 sided|||Differences in CCS between treatment arms (EOT) was analyzed from a two-sample t-test.||1.55|-2.71|0.5891
92381939|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.91||||77.2|TWO_SIDED|95.0|0.7|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.70|77.20
92414428|NCT02446743|184719045|OTHER|Vaccine comparison-Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|2.18|||||TWO_SIDED|95.0|1.7|2.79|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.79|1.70|
92232453|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.63||||0.5081|TWO_SIDED|95.0|-2.5|1.24|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||1.24|-2.50|0.5081
92232454|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.6977|TWO_SIDED|95.0|-2.67|1.79|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||1.79|-2.67|0.6977
92232455|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.76||||0.0797|TWO_SIDED|95.0|-5.85|0.33|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||0.33|-5.85|0.0797
92232456|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.22||||0.5808|TWO_SIDED|95.0|-5.62|3.17|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||3.17|-5.62|0.5808
92232457|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.03||||0.7046|TWO_SIDED|95.0|-6.44|4.38|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||4.38|-6.44|0.7046
92232458|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.18||||0.2052|TWO_SIDED|95.0|-2.4|10.76|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||10.76|-2.40|0.2052
92232459|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.27||||0.0483|TWO_SIDED|95.0|0.07|16.46|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||16.46|0.07|0.0483
92232460|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.93||||0.6832|TWO_SIDED|95.0|-16.41|24.26|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||24.26|-16.41|0.6832
92232461|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||0.9081|TWO_SIDED|95.0|-18.05|20.05|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||20.05|-18.05|0.9081
92232462|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.75||||0.7289|TWO_SIDED|95.0|-12.88|16.38|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||16.38|-12.88|0.7289
92232463|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
92232464|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74||||0.6921|TWO_SIDED|95.0|-4.43|2.95|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (EOT) was analyzed from a two-sample t-test.||2.95|-4.43|0.6921
92232465|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.9788|TWO_SIDED|95.0|-0.19|0.19|||t-test, 2 sided|||Differences in item 13 between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||0.19|-0.19|0.9788
92232466|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.2747|TWO_SIDED|95.0|-0.33|0.09|||t-test, 2 sided|||Differences in item 13 between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||0.09|-0.33|0.2747
92232467|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.2776|TWO_SIDED|95.0|-0.5|0.14|||t-test, 2 sided|||Differences in item 13 between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||0.14|-0.50|0.2776
92232468|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.1403|TWO_SIDED|95.0|-0.62|0.09|||t-test, 2 sided|||Differences in item 13 between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||0.09|-0.62|0.1403
92169334|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.37||||0.334|TWO_SIDED|95.0|-1.43|4.17||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 18|||4.17|-1.43|0.334
92381940|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||87.35|TWO_SIDED|95.0|0.66|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.66|87.35
92381941|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||56.53|TWO_SIDED|95.0|0.77|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.77|56.53
92414429|NCT02446743|184719045|OTHER|Vaccine comparison-post-booster or post-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|12.0|||||TWO_SIDED|95.0|8.22|17.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||17|8.22|
92414430|NCT02446743|184719045|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|3.04|||||TWO_SIDED|95.0|2.2|4.2|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||4.20|2.20|
92414431|NCT02446743|184719045|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|11.0|||||TWO_SIDED|95.0|7.75|16.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||16|7.75|
92414432|NCT02446743|184719045|OTHER|"Vaccine comparison Pre-booster or pre-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|16.0|||||TWO_SIDED|95.0|12.0|21.0|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||21|12|
92414433|NCT02446743|184719045|OTHER|"Vaccine comparison Post-booster or post-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|68.0|||||TWO_SIDED|95.0|51.0|90.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||90|51|
92414434|NCT02446743|184719045|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|18.0|||||TWO_SIDED|95.0|13.0|26.0|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||26|13|
92414435|NCT02446743|184719045|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|74.0|||||TWO_SIDED|95.0|51.0|107.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||107|51|
92414436|NCT02446743|184719045|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|14.0|||||TWO_SIDED|95.0|8.99|22.0|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||22|8.99|
92169335|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.33||||0.017|TWO_SIDED|95.0|0.61|6.05||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 26|||6.05|0.61|0.017
92232469|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.9151|TWO_SIDED|95.0|-0.55|0.5|||t-test, 2 sided|||Differences in item 13 between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||0.50|-0.55|0.9151
92232470|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.34||||0.3277|TWO_SIDED|95.0|-0.36|1.05|||t-test, 2 sided|||Differences in item 13 between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||1.05|-0.36|0.3277
92232471|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-0.86|0.86|||t-test, 2 sided|||Differences in item 13 between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||0.86|-0.86|1.0000
92232472|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.57||||0.5661|TWO_SIDED|95.0|-1.53|2.67|||t-test, 2 sided|||Differences in item 13 between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||2.67|-1.53|0.5661
92414437|NCT02446743|184719045|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|63.0|||||TWO_SIDED|95.0|41.0|95.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||95|41|
92414438|NCT02446743|184719045|OTHER|"Vaccine comparison Pre-booster or pre-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|1.48|||||TWO_SIDED|95.0|1.24|1.75|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.75|1.24|
92414439|NCT02446743|184719045|OTHER|"Vaccine comparison Post-booster or post-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|5.9|||||TWO_SIDED|95.0|4.49|7.76|||ANOVA|||Post booster dose/ post first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||7.76|4.49|
92414440|NCT02446743|184719045|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|1.32|||||TWO_SIDED|95.0|1.13|1.54|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||1.54|1.13|
92169336|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.13||||0.077|TWO_SIDED|95.0|-0.34|6.59||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 39|||6.59|-0.34|0.077
92232473|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.7309|TWO_SIDED|95.0|-2.95|2.15|||t-test, 2 sided|||Differences in item 13 between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||2.15|-2.95|0.7309
92381942|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.19||||7.29|TWO_SIDED|95.0|0.94|1.5||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.50|0.94|7.29
92381943|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||55.09|TWO_SIDED|95.0|0.75|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|0.75|55.09
92381944|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.79||||96.49|TWO_SIDED|95.0|0.61|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.61|96.49
92381945|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||14.54|TWO_SIDED|95.0|0.9|1.44||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.44|0.90|14.54
92414441|NCT02446743|184719045|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|8.27|||||TWO_SIDED|95.0|5.83|12.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||12|5.83|
92232474|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.25||||0.3273|TWO_SIDED|95.0|-2.16|4.66|||t-test, 2 sided|||Differences in item 13 between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||4.66|-2.16|0.3273
92381946|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||66.85|TWO_SIDED|95.0|0.71|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.71|66.85
92232475|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in item 13 between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
92232476|NCT00609622|184367058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.7108|TWO_SIDED|95.0|-0.39|0.27|||t-test, 2 sided|||Differences in item 13 between treatment arms (EOT) was analyzed from a two-sample t-test.||0.27|-0.39|0.7108
92381947|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.88||||85.77|TWO_SIDED|95.0|0.7|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.70|85.77
92169337|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.34||||0.355|TWO_SIDED|95.0|-2.7|7.38||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 52|||7.38|-2.70|0.355
92169338|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.82||||0.044|TWO_SIDED|95.0|0.08|5.55||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 2|||5.55|0.08|0.044
92169339|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.87||||0.032|TWO_SIDED|95.0|0.25|5.49||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 4|||5.49|0.25|0.032
92169340|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.75||||0.025|TWO_SIDED|95.0|0.49|7.01||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 8|||7.01|0.49|0.025
92169341|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.785|TWO_SIDED|95.0|-2.5|3.29||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 12|||3.29|-2.50|0.785
92169342|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.34||||0.052|TWO_SIDED|95.0|-0.03|6.7||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 18|||6.70|-0.03|0.052
92169343|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.53||||0.041|TWO_SIDED|95.0|0.14|6.92||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 26|||6.92|0.14|0.041
92169344|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.19||||0.043|TWO_SIDED|95.0|0.13|8.25||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 39|||8.25|0.13|0.043
92169345|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.67||||0.562|TWO_SIDED|95.0|-6.58|11.92||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 52|||11.92|-6.58|0.562
92381948|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.24||||8.67|TWO_SIDED|95.0|0.91|1.7||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.70|0.91|8.67
92381949|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||14.8|TWO_SIDED|95.0|0.84|1.75||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.75|0.84|14.80
92381950|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||45.69|TWO_SIDED|95.0|0.75|1.37||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.37|0.75|45.69
92169346|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.746|TWO_SIDED|95.0|-1.09|1.52||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 2|||1.52|-1.09|0.746
92169347|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13||||0.878|TWO_SIDED|95.0|-1.53|1.79||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 4|||1.79|-1.53|0.878
92169348|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35||||0.644|TWO_SIDED|95.0|-1.15|1.85||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 8|||1.85|-1.15|0.644
92169349|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29||||0.715|TWO_SIDED|95.0|-1.86|1.28||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 12|||1.28|-1.86|0.715
92381951|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.42||||2.94|TWO_SIDED|95.0|0.99|2.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||2.06|0.99|2.94
92381952|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||13.92|TWO_SIDED|95.0|0.85|1.73||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.73|0.85|13.92
92414442|NCT02446743|184719045|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|1.64|||||TWO_SIDED|95.0|1.22|2.2|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.20|1.22|
92278273|NCT00368966|184458510|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.07||||||95.0|0.96|1.2||||||For Pertussis FHA the GMC ratio (13vPnC/7vPnC) was calculated||1.20|0.96|
92278274|NCT00368966|184458510|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.05||||||95.0|0.92|1.18||||||For Pertussis PRN the GMC ratio (13vPnC/7vPnC) was calculated||1.18|0.92|
92278275|NCT00368966|184458510|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0||||||95.0|0.88|1.14||||||For Pertussis PT the GMC ratio (13vPnC/7vPnC) was calculated||1.14|0.88|
92278276|NCT00368966|184458510|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.01||||||95.0|0.88|1.15||||||For Pertussis FHA the GMC ratio (13vPnC/7vPnC) was calculated||1.15|0.88|
92278277|NCT00368966|184458510|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.89||||||95.0|0.78|1.02||||||For Pertussis PRN the GMC ratio (13vPnC/7vPnC) was calculated||1.02|0.78|
92278278|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|2.2||||||95.0|0.1|4.4||||||For serotype 4, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||4.4|0.1|
92278279|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|41.2||||||95.0|34.9|46.9||||||For serotype 6B, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||46.9|34.9|
92278280|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|7.3||||||95.0|4.1|10.4||||||For serotype 9V, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||10.4|4.1|
92278281|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|-1.1||||||95.0|-3.4|1.2||||||For serotype 14, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||1.2|-3.4|
92278282|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|6.4||||||95.0|3.1|9.5||||||For serotype 18C, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||9.5|3.1|
92278283|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|1.5||||||95.0|-0.4|3.4||||||For serotype 19F, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||3.4|-0.4|
92278284|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|26.5||||||95.0|20.7|31.9||||||For serotype 23F, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||31.9|20.7|
92414443|NCT02446743|184719045|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|4.36|||||TWO_SIDED|95.0|2.88|6.58|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||6.58|2.88|
92414444|NCT02446743|184719045|OTHER|"Vaccine comparison Pre-booster or pre-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|1.3|||||TWO_SIDED|95.0|0.97|1.75|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.75|0.97|
92232477|NCT00666562|184367103|SUPERIORITY_OR_OTHER|||||||0.046|TWO_SIDED||||||t-test, 2 sided|||||||0.046
92278285|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|3.0||||||95.0|0.8|5.1||||||For serotype 1, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||5.1|0.8|
92278286|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|2.2||||||95.0|-1.8|6.3||||||For serotype 3, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||6.3|-1.8|
92278287|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|10.0||||||95.0|5.9|13.9||||||For serotype 5, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||13.9|5.9|
92278288|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|13.0||||||95.0|8.6|17.2||||||For serotype 6A, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||17.2|8.6|
92278289|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|1.5||||||95.0|-0.1|3.1||||||For serotype 7F, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||3.1|-0.1|
92278290|NCT00368966|184458511|SUPERIORITY_OR_OTHER||Difference|1.5||||||95.0|-0.4|3.4||||||For serotype 19A, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||3.4|-0.4|
92414445|NCT02446743|184719045|OTHER|"Vaccine comparison Post-booster or post-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|2.6|||||TWO_SIDED|95.0|2.08|3.25|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||3.25|2.08|
92414446|NCT02446743|184719045|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|1.4|||||TWO_SIDED|95.0|0.9|2.18|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.18|0.90|
92414447|NCT02446743|184719045|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|2.79|||||TWO_SIDED|95.0|2.04|3.81|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||3.81|2.04|
92414448|NCT02446743|184719045|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|1.23|||||TWO_SIDED|95.0|0.82|1.82|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||1.82|0.82|
92414449|NCT02446743|184719045|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|2.45|||||TWO_SIDED|95.0|1.79|3.36|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||3.36|1.79|
92414450|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|27.0|||||TWO_SIDED|95.0|20.7|33.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||33.0|20.7|
92414451|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41) Difference|Vaccine group difference|29.0|||||TWO_SIDED|95.0|19.3|38.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||38.7|19.3|
92232478|NCT02811744|184367149|EQUIVALENCE|Equivalence was defined as no significant difference between study groups on a T-test.||||||0.5||||||No adjustments on the comparison. There was no multiple comparison adjustment for the p value, as this was the primary outcome. This is the experimental p value; the threshold for significance was 0.05.|t-test, 2 sided|||No power calculation. This is an exploratory study.||||0.5
92232479|NCT01896232|184367152|NON_INFERIORITY_OR_EQUIVALENCE|Etelcalcetide was considered non-inferior to cinacalcet if the upper bound of the 2-sided 95% confidence interval (CI) of the treatment difference (cinacalcet - etelcalcetide) was \< 12%, the prespecified margin for non-inferiority.|Stratified Treatment Difference|-10.48|||||TWO_SIDED|95.0|-17.45|-3.51||||||"The analysis was conducted on the Full Analysis Set (683 participants). Imputation under the non-inferiority null method was applied to participants who did not have PTH data during the EAP.~The Mantel-Haenszel estimator was used to calculate the treatment difference between the proportions (Cinacalcet - Etelcalcetide) stratified by screening PTH level and region."||-3.51|-17.45|
92278291|NCT01602614|184458524|OTHER|Spearman Rank Correlation||||||0.3117|||||||Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.3117
92278292|NCT01602614|184458525|OTHER|Spearman Rank Correlation||||||0.6175||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.6175
92278293|NCT01602614|184458526|OTHER|Spearman Rank Correlation||||||0.7129||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.7129
92414452|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10) Difference|Vaccine group difference|26.0|||||TWO_SIDED|95.0|18.3|33.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||33.9|18.3|
92414453|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|22.0|||||TWO_SIDED|95.0|15.9|27.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval or the difference was calculated using the method of Miettinen and Nurminen||27.9|15.9|
92414454|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41) Difference|Vaccine group difference|19.0|||||TWO_SIDED|95.0|11.5|28.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||28.5|11.5|
92414455|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10) Difference|Vaccine group difference|23.0|||||TWO_SIDED|95.0|14.6|31.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||31.9|14.6|
92414456|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|38.0|||||TWO_SIDED|95.0|29.8|45.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||45.4|29.8|
92414457|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41) Difference|Vaccine group difference|55.0|||||TWO_SIDED|95.0|43.5|64.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||64.7|43.5|
92414458|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10) Difference|Vaccine group difference|24.0|||||TWO_SIDED|95.0|12.9|35.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||35.1|12.9|
92414459|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|23.0|||||TWO_SIDED|95.0|14.7|30.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||30.8|14.7|
92414460|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41) Difference|Vaccine group difference|24.0|||||TWO_SIDED|95.0|12.2|35.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||35.5|12.2|
92414461|NCT02446743|184719047|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10) Difference|Vaccine group difference|22.0|||||TWO_SIDED|95.0|10.6|32.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||32.9|10.6|
92414462|NCT02446743|184719048|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-15.0|4.5||Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||4.5|-15.0|
92414463|NCT02446743|184719048|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|Vaccine group difference|-4.0|||||TWO_SIDED|95.0|-17.0|11.4|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||11.4|-17.0|
92414464|NCT02446743|184719048|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|Vaccine group difference|-8.0|||||TWO_SIDED|95.0|-20.0|7.3|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||7.3|-20.0|
92414465|NCT02446743|184719048|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-0.9|6.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||6.2|-0.9|
92414466|NCT02446743|184719048|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|8.8|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.8|-3.6|
92414467|NCT02446743|184719048|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.5|11.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.0|-2.5|
92414468|NCT02446743|184719048|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1(V72\_41) (1 month after booster or 2nd dose)|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|4.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.4|-3.6|
92414469|NCT02446743|184719048|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.3|7.8|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.8|-2.3|
92414470|NCT02446743|184719048|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-0.9|4.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.1|-0.9|
92414471|NCT02446743|184719048|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|Vaccine group difference|-20.0|||||TWO_SIDED|95.0|-35.2|-7.5|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-7.5|-35.2|
92414472|NCT02446743|184719048|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|Vaccine group difference|-32.0|||||TWO_SIDED|95.0|-46.5|-15.7|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-15.7|-46.5|
92232480|NCT01896232|184367153|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.001|TWO_SIDED|95.0|1.21|2.23|||Cochran-Mantel-Haenszel||The CMH-stratified odds ratio is Etelcalcetide : Cinacalcet.|"Achievement of \> 50% reduction in mean predialysis serum PTH from baseline during the EAP was analyzed using the Cochran-Mantel-Haenszel (CMH) test stratified by screening PTH level and region.~Superiority of etelcalcetide compared with cinacalcet was tested at the 5% significance level (2-sided)."||2.23|1.21|0.001
92414473|NCT02446743|184719048|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|Vaccine group difference|-28.0|||||TWO_SIDED|95.0|-38.4|-17.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-17.1|-38.4|
92414474|NCT02446743|184719048|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-19.2|9.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||9.2|-19.2|
92414475|NCT02446743|184719048|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-14.1|12.3|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||12.3|-14.1|
92414476|NCT02446743|184719048|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|Vaccine group difference|-5.0|||||TWO_SIDED|95.0|-13.6|5.6|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||5.6|-13.6|
92414477|NCT02446743|184719048|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|Vaccine group difference|12.0|||||TWO_SIDED|95.0|3.6|21.6|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||21.6|3.6|
92232481|NCT01896232|184367154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.004|TWO_SIDED|95.0|1.16|2.17|||Cochran-Mantel-Haenszel||The CMH stratified odds ratio is Etelcalcetide : Cinacalcet.|"Achievement of \> 30% reduction in mean predialysis serum PTH from baseline during the EAP was analyzed using the Cochran-Mantel-Haenszel test stratified by screening PTH level and region.~Superiority of etelcalcetide compared with cinacalcet was tested at the 5% significance level (2-sided)."||2.17|1.16|0.004
92414478|NCT02446743|184719048|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Vaccine group difference|15.0|||||TWO_SIDED|95.0|6.4|24.6|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||24.6|6.4|
92232482|NCT01896232|184367155|SUPERIORITY_OR_OTHER||Treatment Rate Ratio|1.2|STANDARD_ERROR_OF_MEAN|0.15||0.27|TWO_SIDED|95.0|0.89|1.49|||Generalized Linear Mixed Model||The treatment rate ratio is Etelcalcetide : Cinacalcet.|"Analyzed using a generalized linear mixed model with Poisson regression, including screening value of the number of days of nausea and vomiting, treatment, stratification factors (screening PTH level and region), study weeks, and treatment by study weeks as covariates.~Superiority of etelcalcetide compared with cinacalcet was tested at the 5% significance level (2-sided)."||1.49|0.89|0.27
92381953|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||86.4|TWO_SIDED|95.0|0.65|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.65|86.40
92381954|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.46||||0.88|TWO_SIDED|95.0|1.06|2.0||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||2.00|1.06|0.88
92381955|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||41.25|TWO_SIDED|95.0|0.75|1.43||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.43|0.75|41.25
92381956|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.7||||99.2|TWO_SIDED|95.0|0.52|0.94||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.94|0.52|99.20
92381957|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||3.49|TWO_SIDED|95.0|0.98|1.51||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; SCRD12 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.51|0.98|3.49
92381958|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||73.09|TWO_SIDED|95.0|0.72|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.72|73.09
92414479|NCT02446743|184719048|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|Vaccine group difference|14.0|||||TWO_SIDED|95.0|7.6|20.3|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||20.3|7.6|
92232483|NCT01896232|184367156|SUPERIORITY_OR_OTHER||Treatment difference|-3.48|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|95.0|-4.76|-2.21|||||Treatment difference is Etelcalcetide - Cinacalcet.|Analyzed using a repeated measures mixed effects model, including treatment group, randomization stratification factors (screening PTH level and region), study week, and study week by treatment as fixed effects.||-2.21|-4.76|
92232484|NCT01896232|184367157|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.83|1.59|||||The CMH-stratified odds ratio is Etelcalcetide : Cinacalcet.|Analyzed using the Cochran-Mantel-Haenszel method stratified by screening PTH level and region.||1.59|0.83|
92381959|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||92.41|TWO_SIDED|95.0|0.69|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.69|92.41
92381960|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.38||||2.29|TWO_SIDED|95.0|1.01|1.89||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.89|1.01|2.29
92414480|NCT02446743|184719049|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-44.0|||||TWO_SIDED|95.0|-52.7|-33.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-33.1|-52.7|
92414481|NCT02446743|184719049|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-3.9|3.6|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||3.6|-3.9|
92414482|NCT02446743|184719049|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-2.7|2.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||2.4|-2.7|
92414483|NCT02446743|184719049|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-46.0|||||TWO_SIDED|95.0|-58.4|-29.8|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-29.8|-58.4|
92414484|NCT02446743|184719049|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|-3.0|||||TWO_SIDED|95.0|-7.7|5.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.1|-7.7|
92414485|NCT02446743|184719049|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-5.7|3.7|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||3.7|-5.7|
92414486|NCT02446743|184719049|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|Vaccine group difference|-40.0|||||TWO_SIDED|95.0|-51.8|-25.4|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-25.4|-51.8|
92414487|NCT02446743|184719049|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-3.3|9.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||9.0|-3.3|
92414488|NCT02446743|184719049|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-2.4|5.0|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.0|-2.4|
92414489|NCT02446743|184719049|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-4.0|||||TWO_SIDED|95.0|-12.4|5.8|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.8|-12.4|
92414490|NCT02446743|184719049|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.2|7.7|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.7|-2.2|
92381961|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.12||||23.67|TWO_SIDED|95.0|0.81|1.56||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters.Unstructured covariance matrix fitted, accounting for correlation within region and visit|TLC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.56|0.81|23.67
92414491|NCT02446743|184719049|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|6.0|||||TWO_SIDED|95.0|2.8|10.5|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.5|2.8|
92381962|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.75||||98.87|TWO_SIDED|95.0|0.59|0.96||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.96|0.59|98.87
92381963|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||14.5|TWO_SIDED|95.0|0.95|1.2||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.20|0.95|14.50
92381964|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||30.26|TWO_SIDED|95.0|0.91|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.91|30.26
92381965|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||62.84|TWO_SIDED|95.0|0.89|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region Central; D12D28 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.89|62.84
92381966|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.31||||2.06|TWO_SIDED|95.0|1.01|1.7||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.70|1.01|2.06
92381967|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||49.97|TWO_SIDED|95.0|0.76|1.32||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.32|0.76|49.97
92381968|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.76||||99.43|TWO_SIDED|95.0|0.62|0.94||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.94|0.62|99.43
92381969|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.2||||1.17|TWO_SIDED|95.0|1.02|1.41||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.41|1.02|1.17
92381970|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||49.78|TWO_SIDED|95.0|0.84|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.84|49.78
92381971|NCT02294734|184666506|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||98.66|TWO_SIDED|95.0|0.73|0.98||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.98|0.73|98.66
92232485|NCT01896232|184367158|SUPERIORITY_OR_OTHER||Treatment Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.18|0.12|||||Treatment difference is Etelcalcetide - Cinacalcet.|Analyzed using an analysis of covariance (ANCOVA) model adjusted for screening PTH level and region.||0.12|-0.18|
92232486|NCT01896232|184367159|SUPERIORITY_OR_OTHER||Treatment Rate Ratio|1.2|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|0.86|1.72|||||The treatment rate ratio is Etelcalcetide : Cinacalcet.|This analysis was conducted using a generalized linear mixed model with Poisson regression including screening value of the number of episodes of vomiting, treatment, stratification factors (screening PTH level and region), study weeks, and treatment by study weeks as covariates.||1.72|0.86|
92414492|NCT02446743|184719049|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-5.0|||||TWO_SIDED|95.0|-17.8|10.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||10.6|-17.8|
92232487|NCT00686205|184367160|SUPERIORITY_OR_OTHER||Clinical Specificity|99.94||||||95.0|99.88|99.97|||Binomial Exact|Sample size is based on power of 80%, alpha level of 0.05, using the binomial distribution when comparing to a lower bound of specificity at 99.84.||||99.97|99.88|
92232488|NCT00686205|184367161|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0||||||95.0|99.76|100.0|||Binomial Exact|||||100.00|99.76|
92232489|NCT01051739|184367208|SUPERIORITY_OR_OTHER|||||||0.21||||||The a priori threshold of statistical significance is p\<0.05|Kaplan Meyer survival curves|||||||.21
92232490|NCT02201940|184367247|SUPERIORITY_OR_OTHER||||||<|0.001||||||Participants in the SOF/VEL group were compared to the performance goal of 85% using a 2-sided exact 1-sample binomial test at the 0.05 significance level.|Binomial test|||||||< 0.001
92232491|NCT00636818|184367254|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||<0.001
92232492|NCT00636818|184367255|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||<0.001
92232493|NCT00636818|184367256|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||<0.001
92278294|NCT01602614|184458527|OTHER|Spearman Rank Correlation||||||0.9828|||||||Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.9828
92381972|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||32.51|TWO_SIDED|95.0|0.97|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RUL; Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.97|32.51
92414493|NCT02446743|184719049|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-3.2|13.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||13.0|-3.2|
92414494|NCT02446743|184719049|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|9.0|||||TWO_SIDED|95.0|3.7|16.5|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||16.5|3.7|
92232494|NCT00636818|184367257|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.013
92232495|NCT00636818|184367258|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.005
92278295|NCT01602614|184458528|OTHER|Spearman Rank Correlation||||||0.9656|||||||Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.9656
92278296|NCT01602614|184458529|OTHER|Spearman Rank Correlation||||||0.5113|||||||Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.5113
92232496|NCT00636818|184367259|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Word Test: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.005
92232497|NCT00636818|184367259|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Color Test: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.005
92232498|NCT00636818|184367259|SUPERIORITY_OR_OTHER|||||||0.144||95.0||||P-value for Color-Word Test: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.144
92232499|NCT00636818|184367260|SUPERIORITY_OR_OTHER|||||||0.791||95.0||||P-value for Physical Component Summary: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.791
92232500|NCT00636818|184367260|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Mental Component Summary: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||<0.001
92232501|NCT00636818|184367260|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value for Physical Functioning: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.037
92232502|NCT00636818|184367260|SUPERIORITY_OR_OTHER|||||||0.446||95.0||||P-value for Role-Physical: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.446
92232503|NCT00636818|184367260|SUPERIORITY_OR_OTHER|||||||0.365||95.0||||P-value for Bodily Pain: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.365
92232504|NCT00636818|184367260|SUPERIORITY_OR_OTHER|||||||0.087||95.0||||P-value for General Health Perception: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.087
92232505|NCT00636818|184367260|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||P-value for Vitality: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.043
92232506|NCT00636818|184367260|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||P-value for Social Functioning: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.086
92232507|NCT00636818|184367260|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value for Role-Emotional: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.010
92232508|NCT00636818|184367260|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Mental Health: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||<0.001
92278297|NCT01602614|184458530|OTHER|Spearman Rank Correlation||||||0.217||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.2170
92278298|NCT01602614|184458531|OTHER|Spearman Rank Correlation||||||0.4299||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.4299
92278299|NCT01602614|184458532|OTHER|Spearman Rank Correlation||||||0.8629||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.8629
92381973|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||6.21|TWO_SIDED|95.0|0.99|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RUL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.99|6.21
92381974|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||15.91|TWO_SIDED|95.0|0.98|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; LUL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.98|15.91
92381975|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||6.73|TWO_SIDED|95.0|0.99|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes;LUL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.99|6.73
92381976|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||27.65|TWO_SIDED|95.0|0.96|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RML Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.96|27.65
92381977|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||12.19|TWO_SIDED|95.0|0.98|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RML Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.98|12.19
92381978|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||11.62|TWO_SIDED|95.0|0.98|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RLL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.98|11.62
92381979|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||7.66|TWO_SIDED|95.0|0.99|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RLL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.99|7.66
92414495|NCT02446743|184719049|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-2.0|||||TWO_SIDED|95.0|-11.8|11.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||11.0|-11.8|
92414496|NCT02446743|184719049|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-4.6|10.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.1|-4.6|
92414497|NCT02446743|184719049|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month days after booster or 2nd dose)|vaccine group difference|4.0|||||TWO_SIDED|95.0|-0.8|9.5|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||9.5|-0.8|
92381980|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||28.88|TWO_SIDED|95.0|0.96|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; LLL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.96|28.88
92381981|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||28.28|TWO_SIDED|95.0|0.96|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; LLL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.96|28.28
92414498|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-45.0|||||TWO_SIDED|95.0|-54.4|-34.3|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-34.3|-54.4|
92414499|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-4.5|5.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.2|-4.5|
92414500|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-1.9|3.9|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||3.9|-1.9|
92414501|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-48.0|||||TWO_SIDED|95.0|-60.8|-32.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-32.0|-60.8|
92414502|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-7.3|10.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.1|-7.3|
92414503|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-5.7|3.7|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||3.7|-5.7|
92414504|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-41.0|||||TWO_SIDED|95.0|-53.3|-25.5|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-25.5|-53.3|
92414505|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-4.8|8.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.1|-4.8|
92414506|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month days after booster or 2nd dose)|vaccine group difference|3.0|||||TWO_SIDED|95.0|-0.6|7.8|||Miettinen and Nurminen score methodx|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.8|-0.6|
92414507|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-15.9|4.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.6|-15.9|
92414508|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-0.9|6.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||6.2|-0.9|
92232509|NCT01511445|184367266|NON_INFERIORITY|The noninferiority margin was specified as 15 NDI points (0-100 scale).|Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|2.96||0.641|TWO_SIDED|95.0|-7.3|4.5|||Fisher Exact||A negative value means that the PEEK change was slightly larger than the silicon nitride study arm.|The null hypothesis was that the mean change in NDI scores from pre-op to 24 months was equal in the two study arms.||4.5|-7.3|0.641
92232510|NCT01511445|184367267|NON_INFERIORITY|The definition of fusion is rotation on flexion-extension films of less than or equal to four degrees and translation less than 1.25 mm.||||||0.71|||||||Fisher Exact|||The null hypothesis was that the fusion rates would be equal in the two study arms. The comparison includes patients with flexion-extension films at 24 months (as-treated population).||||0.710
92232511|NCT00397150|184367308|SUPERIORITY_OR_OTHER||Prevalence ratio|2.29|||||TWO_SIDED|95.0|1.33|3.92||||||||3.92|1.33|
92232512|NCT00397150|184367313|SUPERIORITY_OR_OTHER||Prevalence ratio|1.89|||||TWO_SIDED|95.0|1.7|2.11||||||||2.11|1.70|
92232513|NCT00397150|184367314|SUPERIORITY_OR_OTHER||Prevalence ratio|1.72|||||TWO_SIDED|95.0|1.12|2.63||||||||2.63|1.12|
92232514|NCT00702143|184367315|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups||||0.0002
92232515|NCT00702143|184367315|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups||||<0.0001
92414509|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-0.9|4.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.1|-0.9|
92414510|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-19.2|10.3|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||10.3|-19.2|
92414511|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|8.8|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.8|-3.6|
92414512|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|4.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.4|-3.6|
92414513|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-19.4|9.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||9.1|-19.4|
92414514|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.5|11.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.0|-2.5|
92414515|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.3|7.8|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.8|-2.3|
92414516|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-26.0|||||TWO_SIDED|95.0|-36.6|-15.7|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||-15.7|-36.6|
92414517|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|-3.0|||||TWO_SIDED|95.0|-13.3|8.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.5|-13.3|
92414518|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|21.0|||||TWO_SIDED|95.0|12.8|28.3|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||28.3|12.8|
92414519|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-18.0|||||TWO_SIDED|95.0|-32.5|-5.8|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-5.8|-32.5|
92414520|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|-7.0|||||TWO_SIDED|95.0|-22.3|9.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||9.5|-22.3|
92414521|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|20.0|||||TWO_SIDED|95.0|8.4|31.3|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||31.3|8.4|
92232516|NCT00702143|184367315|SUPERIORITY_OR_OTHER|||||||0.0014||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups||||0.0014
92232517|NCT00702143|184367317|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||Analysis of variance P value testing for an overall difference in the mean cortical SUVR between the clinical diagnostic groups.||||<0.0001
92232518|NCT00702143|184367317|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||<0.0001
92232519|NCT00702143|184367317|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||<0.0001
92232520|NCT00702143|184367317|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||0.0003
92381982|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||27.87|TWO_SIDED|95.0|0.97|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Region; Upper Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.97|27.87
92232521|NCT02747004|184367383|SUPERIORITY|||||||0.293||||||Two-sided P-value.|Log Rank|Stratified by the randomization factors of presence of liver metastases and prior use of Tamoxifen in the advanced/metastatic setting.||||||0.2930
92232522|NCT02747004|184367383|OTHER|Informal phase 2 non-inferiority.|Hazard Ratio (HR)|1.045|||||TWO_SIDED|95.0|0.711|1.535|||Log Rank|Stratified by the randomization factors of presence of liver metastases and prior use of Tamoxifen in the advanced/metastatic setting.||||1.535|0.711|
92232523|NCT03658954|184367408|SUPERIORITY|||||||0.75|||||||Mixed Models Analysis|||Testing for group effect.||||0.75
92232524|NCT03658954|184367409|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Testing for group effect.||||0.05
92232525|NCT03658954|184367410|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||Testing for group effect.||||0.02
92381983|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||9.83|TWO_SIDED|95.0|0.99|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.No|FRC Region; Upper Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.99|9.83
92381984|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||21.87|TWO_SIDED|95.0|0.97|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Region; Lower Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.97|21.87
92381985|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||18.58|TWO_SIDED|95.0|0.97|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Region; Lower Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.97|18.58
92381986|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||22.28|TWO_SIDED|95.0|0.98|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Region; Total Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.98|22.28
92381987|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||10.86|TWO_SIDED|95.0|0.98|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Region; Total Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.98|10.86
92381988|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||84.89|TWO_SIDED|95.0|0.97|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RUL; Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.97|84.89
92414522|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-31.0|||||TWO_SIDED|95.0|-46.0|-15.5|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-15.5|-46.0|
92232526|NCT04885257|184367413|SUPERIORITY|||||||0.896|||||||Wilcoxon (Mann-Whitney)|||||||0.896
92381989|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||63.78|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RUL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|63.78
92381990|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||69.42|TWO_SIDED|95.0|0.98|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; LUL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.98|69.42
92414523|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|3.0|||||TWO_SIDED|95.0|-10.8|18.8|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||18.8|-10.8|
92414524|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month days after booster or 2nd dose)|vaccine group difference|22.0|||||TWO_SIDED|95.0|12.1|32.8|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||32.8|12.1|
92414525|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-4.0|||||TWO_SIDED|95.0|-13.4|7.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.1|-13.4|
92414526|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-3.2|8.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.5|-3.2|
92414527|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|8.0|||||TWO_SIDED|95.0|4.2|13.2|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||13.2|4.2|
92414528|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-15.1|16.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||16.1|-15.1|
92414529|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-4.7|13.9|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||13.9|-4.7|
92414530|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|12.0|||||TWO_SIDED|95.0|5.9|20.9|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||20.9|5.9|
92414531|NCT02446743|184719050|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-5.0|||||TWO_SIDED|95.0|-16.7|8.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||8.6|-16.7|
92414532|NCT02446743|184719050|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-5.7|11.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.1|-5.7|
92414533|NCT02446743|184719050|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|5.0|||||TWO_SIDED|95.0|-0.7|11.1||||||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.1|-0.7|
92414534|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-30.0|||||TWO_SIDED|95.0|-40.4|-19.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-19.0|-40.4|
92414535|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|3.0|||||TWO_SIDED|95.0|-2.6|10.3|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.3|-2.6|
92414536|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|8.0|||||TWO_SIDED|95.0|3.9|12.5|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||12.5|3.9|
92232527|NCT02863198|184367426|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
92414537|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-27.0|||||TWO_SIDED|95.0|-41.8|-12.9|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-12.9|-41.8|
92414538|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|3.0|||||TWO_SIDED|95.0|-6.0|16.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||16.2|-6.0|
92414539|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|7.0|||||TWO_SIDED|95.0|1.4|15.2|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.2|1.4|
92414540|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-31.0|||||TWO_SIDED|95.0|-45.1|-14.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-14.6|-45.1|
92414541|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|4.0|||||TWO_SIDED|95.0|1.9|13.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||13.5|1.9|
92414542|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|8.0|||||TWO_SIDED|95.0|4.4|15.0|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.0|4.4|
92414543|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-5.0|||||TWO_SIDED|95.0|-16.0|6.5|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||6.5|-16.0|
92232528|NCT02863198|184367427|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
92232529|NCT02863198|184367428|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|Chi-squared|||||||<0.05
92414544|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-0.9|6.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||6.2|-0.9|
92414545|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-0.33|5.0|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.0|-0.33|
92414546|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-20.5|10.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||10.6|-20.5|
92232530|NCT02863198|184367429|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
92232531|NCT02863198|184367430|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
92232532|NCT02863198|184367431|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|Chi-squared|||||||<0.05
92232533|NCT01697345|184367438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.092|STANDARD_DEVIATION|6.0378|<|0.0005|TWO_SIDED|95.0|-13.928|-6.256|||t-test, 2 sided|||||-6.256|-13.928|<0.0005
92232534|NCT01697345|184367439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_DEVIATION|0.88|<|0.0005|TWO_SIDED|95.0|-1.859|-0.741|||t-test, 2 sided|||||-0.741|-1.859|<0.0005
92414547|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|8.8|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.8|-3.6|
92414548|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|4.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.4|-3.6|
92414549|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-4.0|||||TWO_SIDED|95.0|-19.4|13.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||13.0|-19.4|
92414550|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.5|11.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.0|-2.5|
92414551|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|3.0|||||TWO_SIDED|95.0|-1.2|9.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||9.4|-1.2|
92414552|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-20.0|||||TWO_SIDED|95.0|-30.0|-11.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-11.1|-30.0|
92414553|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|4.0|||||TWO_SIDED|95.0|-7.6|15.7|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.7|-7.6|
92414554|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|32.0|||||TWO_SIDED|95.0|23.2|40.2|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||40.2|23.2|
92414555|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-13.0|||||TWO_SIDED|95.0|-25.9|-3.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-3.0|-25.9|
92414556|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-17.1|15.9|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.9|-17.1|
92414557|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|33.0|||||TWO_SIDED|95.0|20.5|45.3|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||45.3|20.5|
92414558|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-25.0|||||TWO_SIDED|95.0|-40.1|-11.2|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-11.2|-40.1|
92414559|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|12.0|||||TWO_SIDED|95.0|-3.9|28.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||28.1|-3.9|
92169350|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24||||0.803|TWO_SIDED|95.0|-1.62|2.1||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 18|||2.10|-1.62|0.803
92232535|NCT01697345|184367440|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.625|STANDARD_DEVIATION|1.369||0.002|TWO_SIDED|95.0|-2.495|-0.755|||t-test, 2 sided|||||-0.755|-2.495|0.002
92232536|NCT01697345|184367441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_DEVIATION|1.876||0.018|TWO_SIDED|95.0|-2.692|-0.308|||t-test, 2 sided|||||-0.308|-2.692|0.018
92381991|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||62.63|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes;LUL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|62.63
92381992|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||72.55|TWO_SIDED|95.0|0.96|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RML Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.96|72.55
92381993|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||36.28|TWO_SIDED|95.0|0.97|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RML Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.97|36.28
92414560|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|33.0|||||TWO_SIDED|95.0|22.0|44.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||44.1|22.0|
92414561|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-5.0|||||TWO_SIDED|95.0|-16.0|6.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||6.0|-16.0|
92414562|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-6.8|8.9|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.9|-6.8|
92414563|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|11.0|||||TWO_SIDED|95.0|5.3|16.9|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||16.9|5.3|
92414564|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-2.0|||||TWO_SIDED|95.0|-18.0|14.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||14.1|-18.0|
92414565|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-9.7|15.7|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.7|-9.7|
92414566|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|17.0|||||TWO_SIDED|95.0|8.2|27.8|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||27.8|8.2|
92169351|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.32||||0.184|TWO_SIDED|95.0|-0.63|3.27||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 26|||3.27|-0.63|0.184
92232537|NCT01697345|184367442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|1.18168||0.005|TWO_SIDED|95.0|-1.9508|-0.4492|||t-test, 2 sided|||||-.44920|-1.95080|0.005
92232538|NCT01697345|184367443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_DEVIATION|1.355||0.001|TWO_SIDED|95.0|-2.761|-1.039|||t-test, 2 sided|||||-1.039|-2.761|0.001
92232539|NCT01697345|184367444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.567|STANDARD_DEVIATION|1.793|<|0.0005|TWO_SIDED|95.0|-3.706|-1.428|||t-test, 2 sided|||||-1.428|-3.706|<0.0005
92278300|NCT01602614|184458533|OTHER|Spearman Rank Correlation||||||0.5717||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.5717
92381994|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||47.44|TWO_SIDED|95.0|0.96|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RLL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.96|47.44
92414567|NCT02446743|184719051|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-19.1|9.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||9.1|-19.1|
92414568|NCT02446743|184719051|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-8.4|11.8|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.8|-8.4|
92414569|NCT02446743|184719051|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|6.0|||||TWO_SIDED|95.0|-0.47|12.6|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||12.6|-0.47|
92381995|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||22.99|TWO_SIDED|95.0|0.97|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RLL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.97|22.99
92381996|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||85.95|TWO_SIDED|95.0|0.94|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; LLL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.94|85.95
92381997|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||60.2|TWO_SIDED|95.0|0.96|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; LLL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.96|60.20
92381998|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||81.34|TWO_SIDED|95.0|0.97|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Upper Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.97|81.34
92381999|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||63.04|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC UpperDay 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|63.04
92382000|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||69.67|TWO_SIDED|95.0|0.96|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lower Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.96|69.67
92414570|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B vs Day 61 Group B\_0\_1(1 month after booster or 2nd dose)|Ratio of GMTs|3.49|||||TWO_SIDED|95.0|2.85|4.29|||ANOVA|||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||4.29|2.85|
92414571|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|Ratio of GMTs|2.73|||||TWO_SIDED|95.0|2.02|3.69|||ANOVA|||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||3.69|2.02|
92382001|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||39.81|TWO_SIDED|95.0|0.97|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lower Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.97|39.81
92382002|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||73.01|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Total Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|73.01
92414572|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Ratio of GMTs|4.46|||||TWO_SIDED|95.0|3.38|5.88|||ANOVA|||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||5.88|3.38|
92414573|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B vs Day 61 Group B\_0\_1(1 month after booster or 2nd dose)|Ratio of GMTs|8.18|||||TWO_SIDED|95.0|6.51|10.0|||ANOVA|||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||10|6.51|
92414574|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|Ratio of GMTs|9.58|||||TWO_SIDED|95.0|7.17|13.0|||ANOVA|||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||13|7.17|
92414575|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Ratio of GMTs|6.9|||||TWO_SIDED|95.0|4.82|9.87|||ANOVA|||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||9.87|4.82|
92414576|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B vs Day 61 Group B\_0\_1(1 month after booster or 2nd dose)|Ratio of GMTs|2.58|||||TWO_SIDED|95.0|1.98|3.36|||ANOVA|||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||3.36|1.98|
92414577|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|Ratio of GMTs|2.65|||||TWO_SIDED|95.0|1.89|3.73|||ANOVA|||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||3.73|1.89|
92232540|NCT01976806|184367446|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.13|<|0.05|||||||Mixed Models Analysis|Compound-symmetry covariance structure with age, sex, BMI, race, baseline pocket depth, baseline RBC DHA level, and intervention group variables|Mean change in pocket depth (3-month follow-up minus baseline) among dental sites with baseline pocket depths \>=5 mm in the DHA intervention group versus the placebo group.|Intent-to-treat basis with a type I error rate of 0.05. The follow-up pocket depth, was assessed in linear mixed effects models with a compound-symmetry covariance structure and age, sex, BMI, race, baseline pocket depth, baseline red blood cell (RBC) DHA level (dichotomized at median), and intervention group as fixed-effect variables.||||<0.05
92382003|NCT02294734|184666507|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||48.97|TWO_SIDED|95.0|0.97|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Total Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.97|48.97
92382004|NCT02294734|184666508|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||2.89|TWO_SIDED|95.0|1.0|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Length Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|1.00|2.89
92382005|NCT02294734|184666508|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||8.49|TWO_SIDED|95.0|0.99|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Length Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.99|8.49
92382006|NCT02294734|184666508|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||86.21|TWO_SIDED|95.0|0.98|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Diameter Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.98|86.21
92382007|NCT02294734|184666508|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||75.2|TWO_SIDED|95.0|0.98|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Diameter Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.98|75.20
92414578|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Ratio of GMTs|2.51|||||TWO_SIDED|95.0|1.67|3.78|||ANOVA|||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||3.78|1.67|
92382008|NCT02294734|184666508|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||84.29|TWO_SIDED|95.0|0.97|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Length Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.97|84.29
92382009|NCT02294734|184666508|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||71.08|TWO_SIDED|95.0|0.98|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Length Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.98|71.08
92382010|NCT02294734|184666508|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||34.93|TWO_SIDED|95.0|0.98|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Diameter Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.98|34.93
92382011|NCT02294734|184666508|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||25.05|TWO_SIDED|95.0|0.98|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Diameter Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.98|25.05
92414579|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B vs Day 61 Group B\_0\_1(1 month after booster or 2nd dose)|Ratio of GMTs|1.9|||||TWO_SIDED|95.0|1.52|2.36|||ANOVA|||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||2.36|1.52|
92414580|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|Ratio of GMTs|1.88|||||TWO_SIDED|95.0|1.37|2.59|||ANOVA|||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.59|1.37|
92414581|NCT02446743|184719052|OTHER|Vaccine Comparison Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Ratio of GMTs|1.91|||||TWO_SIDED|95.0|1.41|2.58|||ANOVA|||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.58|1.41|
92414582|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-7.5|1.8|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||1.8|-7.5|
92232541|NCT01485614|184367531|SUPERIORITY||Least Squares Means Difference|-0.19|||=|0.448|TWO_SIDED|95.0|-0.68|0.3|||Mixed Models Analysis|"The Least Squares (LS) Mean for the arm Sitagliptin is compared against that of Placebo (pooled)."||||0.30|-0.68|= 0.448
92414583|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|53.0|||||TWO_SIDED|95.0|42.1|62.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||62.5|42.1|
92414584|NCT02446743|184719054|OTHER|1 Month Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|58.0|||||TWO_SIDED|95.0|50.5|64.7|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||64.7|50.5|
92414585|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|-4.0|||||TWO_SIDED|95.0|-14.1|2.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||2.0|-14.1|
92382012|NCT02294734|184666509|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||28.51|TWO_SIDED|95.0|0.97|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Length/Diameter Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.97|28.51
92382013|NCT02294734|184666509|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||32.15|TWO_SIDED|95.0|0.97|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Length/Diameter Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.97|32.15
92414586|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|44.0|||||TWO_SIDED|95.0|28.1|58.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||58.5|28.1|
92414587|NCT02446743|184719054|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|44.0|||||TWO_SIDED|95.0|32.7|54.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||54.1|32.7|
92414588|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|0.0|||||TWO_SIDED|95.0|-8.0|4.8|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.8|-8.0|
92414589|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|60.0|||||TWO_SIDED|95.0|45.0|71.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||71.5|45.0|
92414590|NCT02446743|184719054|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|71.0|||||TWO_SIDED|95.0|61.2|78.5|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||78.5|61.2|
92414591|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-9.1|4.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||4|-9.1|
92414592|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|37.0|||||TWO_SIDED|95.0|27.0|48.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||48.1|27.0|
92414593|NCT02446743|184719054|OTHER|1 Month Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|33.0|||||TWO_SIDED|95.0|25.2|40.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||40.4|25.2|
92414594|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|2.0|||||TWO_SIDED|95.0|-8.7|10.2|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.2|-8.7|
92232542|NCT01485614|184367533|OTHER||Difference in Percentage|2.4|||||TWO_SIDED|95.0|-10.0|14.9||"Percentage of participants with ≥1 adverse event for the arm Sitagliptin was compared against that of Placebo/Metformin with Miettinen \& Nurminen."||||||14.9|-10.0|
92414595|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|43.0|||||TWO_SIDED|95.0|27.7|58.6|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||58.6|27.7|
92414596|NCT02446743|184719054|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|42.0|||||TWO_SIDED|95.0|31.1|53.0|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||53.0|31.1|
92232543|NCT01485614|184367535|OTHER||Difference in percentage|4.2|||||TWO_SIDED|95.0|-1.3|10.8||"Percentage of participants with ≥1 adverse event for the arm Sitagliptin was compared against that of Placebo/Metformin with Miettinen \& Nurminen."||||||10.8|-1.3|
92232544|NCT01485614|184367538|SUPERIORITY||Difference in percentage|6.7|||=|0.374|TWO_SIDED|95.0|-8.1|21.2||"Percentage of participants with an A1C goal (7.0%) in the arm Sitagliptin was compared against the arm Placebo (pooled)."|Miettinen and Nurminen||||For estimating the treatment difference, when the A1C result for a participant at Week 20 was not available, a multiple imputation method based on the Linear Discriminant Analysis (LDA) model was used to impute whether the participant had met the goal.|21.2|-8.1|= 0.374
92232545|NCT01485614|184367540|SUPERIORITY||Difference in percentage|3.6|||=|0.639|TWO_SIDED|95.0|-11.6|18.3|||Miettinen and Nurminen|"The percentage of participants with an A1C at the A1C goal (6.5%) in the arm Sitagliptin was compared against the arm Placebo (pooled)."|||For estimating the treatment difference, when the A1C result for a participant at Week 20 was not available, a multiple imputation method based on the LDA model was used to impute whether the participant had met the goal.|18.3|-11.6|= 0.639
92232546|NCT01485614|184367545|SUPERIORITY||Least Squares Means Difference|1.5|||=|0.849|TWO_SIDED|95.0|-14.4|17.5|||Mixed Models Analysis|"The Least Squares (LS) Mean for the arm Sitagliptin was compared against that of Placebo (pooled)."||||17.5|-14.4|= 0.849
92232547|NCT03617926|184367626|SUPERIORITY|In case superiority is not proven, non-inferiority is tested. As non-inferiority margin (δ), a 7.5% worse cure rate is regarded as clinically not relevant. The following null hypothesis will be used: H0, NI: pT-pR \< δ, whereby δ = -7.5%. The lower, 95% confidence interval of the difference pT-pR will be used for the test. If H0, NI will be rejected, non-inferiority cannot be shown.||||||0.023||||||A priori treshold p value of 0.05 for statistical significance was set prior to study start.|Chi-squared|||"Efficacy analyses is performed on the ITT population (all subjects who were included and randomized in the study, with available baseline value of the primary endpoint and at least one follow-up visit). All statistical tests are performed at a 5% level of significance. The aim of this analysis is to show superiority for the cure rate of the test product versus a predefined limit of 70%. The following null hypothesis will be tested: H0, prim: pT - pR = 0 and Ha: pT - pR \> 15%~I"||||0.023
92232548|NCT02015819|184367675|OTHER||||||||||||||||||MFD was determined to be 1.5x10\^8 in combination with oral 5-FC 37.5 mg/kg and leucovorin 25 mg every 6 hours for 7 days.|||
92232549|NCT01929083|184367690|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.04
92232550|NCT01929083|184367691|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.003
92232551|NCT01929083|184367692|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||P value for incidence of fatigue/malaise|Fisher Exact|||||||0.04
92232552|NCT01929083|184367692|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|||||p values for incidence of headache|Fisher Exact|||||||0.60
92232553|NCT01929083|184367692|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|||||p value for incidence of mood changes|Fisher Exact|||||||0.23
92280468|NCT00601484|184463634|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.65|STANDARD_ERROR_OF_MEAN|7.041|||TWO_SIDED|90.0|-20.493|3.192||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||3.192|-20.493|
92382014|NCT02294734|184666509|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||66.51|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Length/Diameter Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|66.51
92382015|NCT02294734|184666509|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||45.28|TWO_SIDED|95.0|0.98|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Length/Diameter Day 28 The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.98|45.28
92232554|NCT01929083|184367692|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|||||p value for incidence of breast tenderness|Fisher Exact|||||||0.23
92232555|NCT01929083|184367692|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||p value for incidence of hypotension|Fisher Exact|||||||0.48
92232556|NCT01929083|184367692|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||p value for incidence of vertigo requiring discontinuation of therapy|Fisher Exact|||||||0.48
92232557|NCT01929083|184367693|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.02
92232558|NCT01929083|184367694|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.002
92232559|NCT01929083|184367695|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED|||||p value for bradycardia|Fisher Exact|||||||0.65
92232560|NCT01929083|184367695|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED|||||p value for burning at infusion site|Fisher Exact|||||||>0.99
92232561|NCT01929083|184367695|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED|||||p value for transient QTc interval \> 500 ms|Fisher Exact|||||||> 0.99
92232562|NCT01929083|184367696|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.43
92232563|NCT01929083|184367697|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.36
92232564|NCT01929083|184367698|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||<0.0001
92232565|NCT01929083|184367699|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.0001
92232566|NCT01075087|184367719|SUPERIORITY_OR_OTHER||Median Difference (Net)|-5.5||||0.05|TWO_SIDED|90.0|-26.0|3.0|||Wilcoxon (Mann-Whitney)|||||3|-26|.05
92232567|NCT00087438|184367721|SUPERIORITY_OR_OTHER|||||||0.013||||||Test statistic = \[ln(estimated hazard rate) - ln(hypothesized hazard rates)\] / \[1/square root (number of patients with local progression by two years\]. Reject null hypothesis at an alpha level of 0.05 if test statistics is less than -1.645.|z-test, one-sided|||Null hypothesis = 60% two-year local control (0.02128/mo. hazard rate); alternative = 80% (0.0093/mo.) assuming at least approximately exponential distribution of time to local progression. Using the asymptotic properties of the ratio of the logarithms of hazard rates, less than 18 cases of local progression were required for a Type I error rate of 0.05 with 80% power to detect a difference in local control rates at least this large. Hazard rate estimated using life table two-year estimates.||||0.013
92232568|NCT01486264|184367728|NON_INFERIORITY|Analysis of covariance (ANCOVA) model adjusted for the baseline TWSTRS Severity subscale score, was used to test the non-inferiority of Short Flex versus Long Flex treatment. Non-inferiority margin delta equal to (=) 2 points.|Least Square (LS) Mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-2.9|0.1||||||||0.1|-2.9|
92382016|NCT02294734|184666517|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-2.0||||0.487|TWO_SIDED|95.0|-118.5|115.3|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 28|||115.3|-118.5|0.487
92414597|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-19.2|0.9|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||0.9|-19.2|
92414598|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|32.0|||||TWO_SIDED|95.0|18.2|47.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||47.0|18.2|
92414599|NCT02446743|184719054|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|24.0|||||TWO_SIDED|95.0|13.2|34.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||34.4|13.2|
92382017|NCT02294734|184666517|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|60.6||||0.816|TWO_SIDED|95.0|-73.3|194.3|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 84|||194.3|-73.3|0.816
92232569|NCT00283387|184367741|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||||||0.007
92232570|NCT03068715|184367760|SUPERIORITY|We assessed the superiority of active over sham.|||||<|0.001|||||||Mixed Models Analysis|||MADRS scores were assessed with generalized linear mixed models (GLMM) that used Satterthwaite approximation of degrees of freedom and robust estimation of coefficients to handle violations of model assumptions. Fixed effects of time, treatment group (sham vs. active) and their interaction were assessed.||||<0.001
92232571|NCT03068715|184367761|SUPERIORITY|We assessed the superiority of active over sham.|||||=|0.001|||||||Mixed Models Analysis|||HDRS-17 scores were assessed with generalized linear mixed models (GLMM) that used Satterthwaite approximation of degrees of freedom and robust estimation of coefficients to handle violations of model assumptions. Fixed effects of time, treatment group (sham vs. active) and their interaction were assessed.||||=0.001
92382018|NCT02294734|184666520|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.144||||0.151|TWO_SIDED|95.0|-0.42|0.133|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 28|||0.133|-0.420|0.151
92382019|NCT02294734|184666520|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.121||||0.712|TWO_SIDED|95.0|-0.305|0.551|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 84|||0.551|-0.305|0.712
92382020|NCT02294734|184666521|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.18||||0.817|TWO_SIDED|95.0|-0.216|0.57|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 28|||0.570|-0.216|0.817
92382021|NCT02294734|184666521|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.114||||0.697|TWO_SIDED|95.0|-0.324|0.549|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 84|||0.549|-0.324|0.697
92382022|NCT02294734|184666524|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.171||||0.965|TWO_SIDED|95.0|0.988|1.388|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.||||1.388|0.988|0.965
92382023|NCT02294734|184666524|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.114||||0.913|TWO_SIDED|95.0|0.953|1.305|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.||||1.305|0.953|0.913
92232572|NCT03068715|184367764|SUPERIORITY|We assessed the superiority of active over sham.|||||=|0.001|||||||Mixed Models Analysis|||HDRS-17 scores were assessed with generalized linear mixed models (GLMM) that used Satterthwaite approximation of degrees of freedom and robust estimation of coefficients to handle violations of model assumptions. Fixed effects of time, treatment group (sham vs. active) and their interaction were assessed.||||=0.001
92382024|NCT00548717|184666530|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||t-test, 2 sided|||Comparison between Grade 0-I aGVHD vs Grade II-IV aGVHD in the Siro/MMF group at week 1.||||0.77
92382025|NCT00548717|184666530|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||t-test, 2 sided|||Comparison between Grade 0-I aGVHD vs Grade II-IV aGVHD in the Siro/MMF group at week 2.||||0.59
92382026|NCT00548717|184666530|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED||||||t-test, 2 sided|||Comparison between Grade 0-I aGVHD vs Grade II-IV aGVHD in the Siro/MMF group at week 3.||||0.92
92382027|NCT00548717|184666530|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||t-test, 2 sided|||Comparison between Grade 0-I aGVHD vs Grade II-IV aGVHD in the Siro/MMF group at week 8.||||0.63
92382028|NCT00548717|184666530|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||t-test, 2 sided|||Comparison between Grade 0-I aGVHD vs Grade II-IV aGVHD in the Siro/MMF group at week 12.||||0.79
92382029|NCT02437084|184666611|OTHER|||||||0.01|||||||Paired samples t test, 2 sided|SSPG concentration was log-transformed for statistical analysis; degrees of freedom = 69||Null hypothesis: There will be no change in steady-state plasma glucose (SSPG) concentration after treatment with atorvastatin 40 mg daily for 9 - 10 weeks.||||0.01
92382030|NCT02437084|184666612|OTHER||||||<|0.001|||||||Paired samples t test, 2 sided|Insulin secretion rate AUC was log-transformed for statistical analysis; degrees of freedom = 63.||Null hypothesis: There will be no change in insulin secretion rate AUC after treatment with atorvastatin 40 mg daily for 9 - 10 weeks.||||<0.001
92414600|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|0.0|||||TWO_SIDED|95.0|-4.7|3.4|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||3.4|-4.7|
92414601|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|36.0|||||TWO_SIDED|95.0|25.6|45.7|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||45.7|25.6|
92414602|NCT02446743|184719054|OTHER|1 Month Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|54.0|||||TWO_SIDED|95.0|45.2|61.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||61.1|45.2|
92414603|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|0.0|||||TWO_SIDED|95.0|-8.4|5.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.0|-8.4|
92414604|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|29.0|||||TWO_SIDED|95.0|12.1|43.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||43.0|12.1|
92414605|NCT02446743|184719054|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|Vaccine group difference|46.0|||||TWO_SIDED|95.0|33.6|57.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/154 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||57.1|33.6|
92414606|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-8.0|5.4|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.4|-8.0|
92414607|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|42.0|||||TWO_SIDED|95.0|27.8|54.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||54.5|27.8|
92414608|NCT02446743|184719054|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|60.0|||||TWO_SIDED|95.0|47.9|69.6|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||69.6|47.9|
92414609|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|3.0|||||TWO_SIDED|95.0|-1.1|5.4|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.4|-1.1|
92414610|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|28.0|||||TWO_SIDED|95.0|19.1|34.9|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||34.9|19.1|
92169352|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.05||||0.102|TWO_SIDED|95.0|-0.42|4.52||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 39|||4.52|-0.42|0.102
92280469|NCT00601484|184463634|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.72|STANDARD_ERROR_OF_MEAN|10.089|||TWO_SIDED|90.0|-26.775|7.343||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||7.343|-26.775|
92169353|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.44||||0.383|TWO_SIDED|95.0|-1.85|4.73||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 52|||4.73|-1.85|0.383
92382031|NCT02437084|184666613|OTHER|||||||0.1|||||||Paired samples t test, 2 sided|Degrees of freedom = 70||Null hypothesis: There will be no change in fasting plasma glucose concentration after treatment with atorvastatin 40 mg daily for 8 - 10 weeks.||||0.10
92382032|NCT02437084|184666614|OTHER|||||||0.01|||||||Paired samples t test, 2 sided|Fasting plasma insulin concentration was log-transformed for statistical analysis; degrees of freedom = 68||Null hypothesis: There will be no change in fasting plasma insulin concentration after treatment with atorvastatin 40 mg daily for 8 - 10 weeks.||||0.01
92382033|NCT02437084|184666615|OTHER|||||||0.03|||||||Paired samples t test, 2 sided|Degrees of freedom = 70||Null hypothesis: There will be no change in OGTT glucose AUC after treatment with atorvastatin 40 mg daily for 8 - 10 weeks.||||0.03
92382034|NCT02437084|184666616|OTHER|||||||0.27|||||||Paired samples t test, 2 sided|OGTT insulin AUC was log-transformed for statistical analysis; degrees of freedom = 63||Null hypothesis: There will be no change in OGTT insulin AUC after treatment with atorvastatin 40 mg daily for 8 weeks.||||0.27
92382035|NCT00454181|184666617|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Chi-squared|||Chi-square analysis of the proportion of subjects in each group meeting the definition of positive response.||||0.30
92382036|NCT00454181|184666618|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Chi-squared|||Chi-square analysis of the proportion of subjects in each group meeting the definition of positive response||||0.26
92382037|NCT00454181|184666619|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Chi-squared|||"Chi-square analysis of the proportion of subjects in each group reporting change in oral warts from baseline to week 24 as better."||||0.50
92382038|NCT00454181|184666620|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Chi-squared|||"Chi-square analysis of the proportion of subjects in each group reporting change in global oral health from baseline to week 24 as better."||||0.29
92382039|NCT00454181|184666621|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Chi-squared|||"Chi-square analysis of the proportion of subjects rated as improved with respect to changes in oral warts from baseline to week 24 by the attending investigator."||||0.74
92382040|NCT00454181|184666622|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Chi-squared|||"Chi-square analysis of the proportion of subjects rated as improved with resepect to changes from baseline to week 24 in global oral health by the attending investigator."||||.71
92169354|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.43||||0.607|TWO_SIDED|95.0|-1.2|2.06||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 2|||2.06|-1.20|0.607
92382041|NCT02096263|184666631|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigens will be demonstrated if, for each of the three antigens, the upper limit of the 95% confidence interval (CI) on the GMC ratio \[Pediarix Group divided by Infanrix hexa Group\] is ≤ 1.5.|Adjusted GMC ratio|1.1|||||TWO_SIDED|95.0|0.92|1.31|||||Adjusted GMC (ANCOVA model adjusted with the vaccine group as fixed effect and the Infanrix vaccination history of the mother during pregnancy as continuous regressor).|To demonstrate the non-inferiority of Infanrix hexa to Pediarix co-administered with ActHIB, in terms of antibody geometric mean concentrations (GMCs) for pertussis antigen, pertussis toxoid (PT), one month after the third dose of the primary vaccination.||1.31|0.92|
92169355|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.67||||0.348|TWO_SIDED|95.0|-0.74|2.08||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 4|||2.08|-0.74|0.348
92382042|NCT02096263|184666631|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigens will be demonstrated if, for each of the three antigens, the upper limit of the 95% confidence interval (CI) on the GMC ratio \[Pediarix Group divided by Infanrix hexa Group\] is ≤ 1.5.|Adjusted GMC ratio|1.14|||||TWO_SIDED|95.0|0.97|1.35|||||Adjusted GMC (ANCOVA model adjusted with the vaccine group as fixed effect and the Infanrix vaccination history of the mother during pregnancy as continuous regressor).|To demonstrate the non-inferiority of Infanrix hexa to Pediarix co-administered with ActHIB, in terms of antibody geometric mean concentrations (GMCs) for pertussis antigen, filamentous hemagglutinin (FHA), one month after the third dose of the primary vaccination.||1.35|0.97|
92382043|NCT02096263|184666631|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigens will be demonstrated if, for each of the three antigens, the upper limit of the 95% confidence interval (CI) on the GMC ratio \[Pediarix Group divided by Infanrix hexa Group\] is ≤ 1.5.|Adjusted GMC ratio|0.79|||||TWO_SIDED|95.0|0.63|0.99|||||Adjusted GMC (ANCOVA model adjusted with the vaccine group as fixed effect and the Tdap vaccination history of the mother during pregnancy as continuous regressor.).|To demonstrate the non-inferiority of Infanrix hexa to Pediarix co-administered with ActHIB, in terms of antibody geometric mean concentrations (GMCs) for pertussis antigen, pertactin (PRN), one month after the third dose of the primary vaccination.||0.99|0.63|
92382044|NCT01571453|184666681|NON_INFERIORITY_OR_EQUIVALENCE|Vortioxetine was declared to be non-inferior to venlafaxine if the upper limit of the calculated two-sided 95% confidence interval for the treatment difference at Week 8 between vortioxetine and venlafaxine was less than +2.5 MADRS units versus venlafaxine.|Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.93||0.199||95.0|-3.03|0.63||No adjustments for multiple comparisons were made.|ANCOVA|LOCF was used.||The sample size calculation was based on a non-inferiority comparison of the treatment groups in the change from baseline to Week 8 in MADRS total score using a two-sided 95% CI against a margin of +2.5 points. Assuming a standard deviation of 9.0 points and an expected true mean difference between treatments of 0 points, a total of 410 patients (205 per treatment group) were needed to provide a power of 80% for correctly concluding non-inferiority.||0.63|-3.03|0.199
92382045|NCT01571453|184666682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.12||0.228|TWO_SIDED|95.0|-0.39|0.09||No adjustments for multiple comparisons were made.|ANCOVA|LOCF was used.||The same ANCOVA methodology as for the primary endpoint was used.||0.09|-0.39|0.228
92382046|NCT01571453|184666683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.11||0.174|TWO_SIDED|95.0|-0.35|0.06||No adjustments for multiple comparisons were made.|ANCOVA|LOCF was used.||The same ANCOVA methodology as for the primary endpoint was used.||0.06|-0.35|0.174
92414611|NCT02446743|184719054|OTHER|1 Month Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|39.0|||||TWO_SIDED|95.0|31.6|46.6|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||46.6|31.6|
92382047|NCT01571453|184666684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.65||0.207|TWO_SIDED|95.0|-2.09|0.45||No adjustments for multiple comparisons were made.|ANCOVA|LOCF was used.||The same ANCOVA methodology as for the primary endpoint was used.||0.45|-2.09|0.207
92382048|NCT01571453|184666685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.272||95.0|0.84|1.86||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||1.86|0.84|0.272
92382049|NCT01571453|184666686|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.731||95.0|0.73|1.58||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||1.58|0.73|0.731
92382050|NCT04971941|184666688|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_DEVIATION|2.17||0.001|TWO_SIDED|95.0|0.4|2.1||This P value applies to comparison of IAN with and without DentalVibe|t-test, 2 sided|df =58||Sample size estimation from Nanitsos 2010: Using the P value from the paired T test with 61 degrees of freedom the T statistic calculated at 4.365. From mean difference 9.3 SD was calculated as 16.66 for an effect size of 0.558. This generated a sample size of 44 subjects, receiving 2 injections (1 with DV3 and 1 without), is necessary to attain 95% power for a paired t-test comparing the 2 pain measures at a two-tailed alpha level of 0.05. P value for IAN||2.1|0.4|0.001
92382051|NCT04971941|184666688|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_DEVIATION|1.75||0.02|TWO_SIDED|95.0|-1.7|-1.5|||t-test, 2 sided|df= 58||||-1.5|-1.7|0.02
92382052|NCT04971941|184666688|SUPERIORITY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|1.74||0.004|TWO_SIDED|95.0|0.4|2.1|||t-test, 2 sided|||||2.1|0.4|0.004
92382053|NCT04971941|184666689|SUPERIORITY||Mean Difference (Net)|4.0||||0.001|TWO_SIDED|14.0|0.4|4.8||This P value applies to comparing IAN with or with DV as measured by SSI tolerability/ability to endure|t-test, 2 sided|||||4.8|0.4|0.001
92414612|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-4.9|6.7|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||6.7|-4.9|
92382054|NCT04971941|184666689|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
92382055|NCT04971941|184666689|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
92414613|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|Vaccine group difference|25.0|||||TWO_SIDED|95.0|9.7|37.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||37.1|9.7|
92414614|NCT02446743|184719054|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|Vaccine group difference|37.0|||||TWO_SIDED|95.0|25.1|47.0|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||47.0|25.1|
92414615|NCT02446743|184719054|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|3.0|||||TWO_SIDED|95.0|-3.9|7.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.6|-3.9|
92382056|NCT04971941|184666689|SUPERIORITY|||||||0.058|||||||t-test, 2 sided|||||||0.058
92382057|NCT04971941|184666689|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
92382058|NCT04971941|184666689|SUPERIORITY|||||||0.044|||||||t-test, 2 sided|||||||0.044
92382059|NCT04971941|184666689|SUPERIORITY|||||||0.023|||||||t-test, 2 sided|||||||0.023
92382060|NCT04971941|184666689|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||||||0.042
92382061|NCT04971941|184666689|SUPERIORITY|||||||0.053|||||||t-test, 2 sided|||||||0.053
92382062|NCT04971941|184666690|SUPERIORITY|||||||0.459|||||||t-test, 2 sided|||The null hypothesis is that there is no relation between use of DV and numb times. There were no studies from which to perform a power calculation for this outcome measure||||0.459
92382063|NCT01985360|184666716|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.79|1.29||||||||1.29|0.79|
92382064|NCT02228096|184666750|OTHER||||||<|0.0001|||||||Clopper-Pearson|||||||<0.0001
92382065|NCT02963701|184666796|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%|T/R Ratio (%)|99.16|STANDARD_DEVIATION|8.49|||TWO_SIDED|90.0|96.52|101.89|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||101.89|96.52|
92382066|NCT02963701|184666797|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%|T/R Ratio (%)|89.16|STANDARD_DEVIATION|19.28|||TWO_SIDED|90.0|83.88|94.76|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||94.76|83.88|
92414616|NCT02446743|184719054|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|28.0|||||TWO_SIDED|95.0|20.2|36.6|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||36.6|20.2|
92232573|NCT03068715|184367765|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.308|||||||t-test, 2 sided|Paired-t test was used for the statistics.||Functional connectivity between lsgACC\_lDMN in participants receiving active iTBS.||||=0.308
92232574|NCT03068715|184367765|SUPERIORITY|FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis. sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas.|||||=|0.778|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lsgACC\_lDMN in participants receiving sham iTBS.||||=0.778
92232575|NCT03068715|184367765|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.468|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lDMN\_rDMN in participants receiving active iTBS.||||=0.468
92232576|NCT03068715|184367765|SUPERIORITY|FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis. sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas.|||||=|0.486|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lDMN\_rDMN in participants receiving sham iTBS.||||=0.486
92232577|NCT03068715|184367766|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.447|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lsgACC\_lDMN in participants receiving active iTBS.||||=0.447
92280470|NCT00601484|184463634|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.76|STANDARD_ERROR_OF_MEAN|7.532|||TWO_SIDED|90.0|-8.95|16.465||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||16.465|-8.950|
92382067|NCT02963701|184666798|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|99.75|STANDARD_DEVIATION|12.96|||TWO_SIDED|90.0|95.73|103.95|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios \[%\] of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation \[%\].|||103.95|95.73|
92414617|NCT02446743|184719054|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|42.0|||||TWO_SIDED|95.0|31.0|51.9|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||51.9|31.0|
92169356|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.826|TWO_SIDED|95.0|-1.32|1.65||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 8|||1.65|-1.32|0.826
92232578|NCT03068715|184367766|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.115|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lsgACC\_lDMN in participants receiving sham iTBS.||||=0.115
92414618|NCT03086967|184719062|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
92232579|NCT03068715|184367766|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.546|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lDMN\_rDMN in participants receiving active iTBS.||||=0.546
92232580|NCT03068715|184367766|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.607|||||||t-test, 2 sided|||Functional connectivity between lDMN\_rDMN in participants receiving sham iTBS.||||=0.607
92414619|NCT03086967|184719063|SUPERIORITY|||||||0.133|||||||t-test, 2 sided|||||||0.133
92414620|NCT03086967|184719064|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
92414621|NCT03086967|184719065|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92414622|NCT03086967|184719066|SUPERIORITY|||||||0.8|||||||Chi-squared|||||||0.8
92414623|NCT03086967|184719067|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
92414624|NCT03086967|184719068|SUPERIORITY|||||||0.98|||||||Chi-squared|||||||0.98
92414625|NCT03086967|184719069|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||||||0.95
92169357|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46||||0.588|TWO_SIDED|95.0|-2.13|1.21||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 12|||1.21|-2.13|0.588
92382068|NCT02963701|184666799|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|102.16|STANDARD_DEVIATION|15.37|||TWO_SIDED|90.0|97.3|107.27|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios \[%\] of Test and Reference products. The parameter dispersion type \[SD\] was actually the intra-individual geometric coefficient of variation \[%\].|||107.27|97.30|
92382069|NCT02963701|184666800|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|98.97|STANDARD_DEVIATION|8.13|||TWO_SIDED|90.0|96.44|101.57|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%)of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||101.57|96.44|
92382070|NCT02963701|184666801|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|99.67|STANDARD_DEVIATION|13.5|||TWO_SIDED|90.0|95.48|104.04|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||104.04|95.48|
92382071|NCT02963701|184666802|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|95.96|STANDARD_DEVIATION|14.27|||TWO_SIDED|90.0|91.7|100.4|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||100.40|91.70|
92382072|NCT02963701|184666803|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|96.12|STANDARD_DEVIATION|14.06|||TWO_SIDED|90.0|91.92|100.51|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||100.51|91.92|
92382073|NCT02963701|184666804|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|90.83|STANDARD_DEVIATION|21.49|||TWO_SIDED|90.0|84.87|97.21|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||97.21|84.87|
92382074|NCT02963701|184666805|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|101.86|STANDARD_DEVIATION|7.89|||TWO_SIDED|90.0|99.33|104.46|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||104.46|99.33|
92280471|NCT00601484|184463634|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.72|STANDARD_ERROR_OF_MEAN|7.906|||TWO_SIDED|90.0|-22.299|4.851||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||4.851|-22.299|
92382075|NCT02963701|184666806|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|101.65|STANDARD_DEVIATION|7.01|||TWO_SIDED|90.0|99.4|103.95|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||103.95|99.40|
92382076|NCT02963701|184666807|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|86.53|STANDARD_DEVIATION|16.85|||TWO_SIDED|90.0|82.03|91.28|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||91.28|82.03|
92382077|NCT02963701|184666808|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|Ratio (%)|106.17|STANDARD_DEVIATION|14.77|||TWO_SIDED|90.0|101.3|111.26|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||111.26|101.30|
92382078|NCT01345682|184666809|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.792||||0.0257|TWO_SIDED|95.0|0.643|0.977||Log-rank test stratified by baseline Eastern Cooperative Oncology Group (ECOG) Performance score (PS)(0 or 1) and prior use of Epidermal Growth Factor Receptor (EGFR)-targeted antibody in the Recurrent and/or Metastatic (R/M) setting (Yes or No).|Stratified Log-rank test||"Hazard ratio from Cox proportional hazards model stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||0.977|0.643|0.0257
92382079|NCT01345682|184666810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.958||||0.6755|TWO_SIDED|95.0|0.786|1.169||Log-rank test stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).|Stratified Log-rank test||"Hazard ratio from Cox proportional hazards model stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||1.169|0.786|0.6755
92382080|NCT01345682|184666811|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.101|TWO_SIDED|95.0|0.88|4.14|||Regression, Logistic||"Odds ratio, 95% Confidence Interval (CI) and p-value (two-sided) from logistic regression stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||4.14|0.88|0.1010
92382081|NCT01345682|184666812|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.0353|TWO_SIDED|95.0|1.03|2.26|||Regression, Logistic||"Odds ratio, 95% CI and p-value (two-sided) from logistic regression stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||2.26|1.03|0.0353
92382082|NCT01345682|184666814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.4|STANDARD_ERROR_OF_MEAN|2.01||0.03|TWO_SIDED|95.0|-8.31|-0.42||Adjusted for baseline ECOG performance score (0 or 1) and prior use of EGFR-targeted antibody for R/M HNSCC (Yes or No).|longitudinal models||Afatinib (BIBW 2992) vs Methotrexate|Changes in scores over time were assessed using longitudinal models, i.e. mixed effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG performance score (PS) and prior use of EGFR-targeted antibody for recurrent and/or metastatic head and neck squamous cell carcinoma (R/M HNSCC).||-0.42|-8.31|0.0300
92382083|NCT01345682|184666815|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|2.16||0.9773|TWO_SIDED|95.0|-4.3|4.18||Adjusted for baseline ECOG performance score (0 or 1) and prior use of EGFR-targeted antibody for R/M HNSCC (Yes or No).|longitudinal models||Afatinib (BIBW 2992) vs Methotrexate|Changes in scores over time were assessed using longitudinal models, i.e. mixed effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG PS and prior use of EGFR-targeted antibody for recurrent and/or metastatic head and neck squamous cell carcinoma (R/M HNSCC).||4.18|-4.30|0.9773
92382084|NCT01345682|184666816|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.6|STANDARD_ERROR_OF_MEAN|1.95||0.7767|TWO_SIDED|95.0|-3.28|4.39||Adjusted for baseline ECOG performance score (0 or 1) and prior use of EGFR-targeted antibody for R/M HNSCC (Yes or No).|longitudinal models||Afatinib (BIBW 2992) vs Methotrexate|Changes in scores over time were assessed using longitudinal models, i.e. mixed effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG PS and prior use of EGFR-targeted antibody for recurrent and/or metastatic head and neck squamous cell carcinoma (R/M HNSCC).||4.39|-3.28|0.7767
92414626|NCT03086967|184719070|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
92232581|NCT03068715|184367767|SUPERIORITY||P value of the interaction|0.11|||<|0.05|TWO_SIDED|||||Not adjusted for multiple comparisons at this time.|Mixed Models Analysis|We were interested in the interaction between treatment condition and timepoint.||We conducted a linear mixed models analysis, with a focus on the interaction term. No power analysis for this measure because number of participants was determined by other primary study aims.||||<0.05
92382085|NCT01345682|184666817|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.494|TWO_SIDED|95.0|0.717|1.99|||Regression, Logistic||Odds ratio, 95% CI and p-value (two-sided) from logistic regression stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No). Afatinib (BIBW 2992) vs Methotrexate|||1.990|0.717|0.494
92382086|NCT01345682|184666818|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.584|TWO_SIDED|95.0|0.687|1.95|||Regression, Logistic||Odds ratio, 95% CI and p-value (two-sided) from logistic regression stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No). Afatinib (BIBW 2992) vs Methotrexate|||1.950|0.687|0.584
92414627|NCT03086967|184719071|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
92414628|NCT03086967|184719072|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||||||0.48
92280472|NCT00601484|184463635|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.609|||TWO_SIDED|90.0|-0.776|1.265||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.265|-0.776|
92414629|NCT02478398|184719073|SUPERIORITY||Mean Difference (Final Values)|-2.73|||<|0.001|TWO_SIDED|95.0|-3.45|-2.0|||ANOVA|Model included fixed effects of treatment, baseline asthma status, age group, pollen season, and pollen region nested within pollen season||||-2.00|-3.45|< 0.001
92414630|NCT02478398|184719074|SUPERIORITY||Difference in LS Mean|-1.86|||<|0.001|TWO_SIDED|95.0|-2.46|-1.27|||ANOVA|Model included fixed effects of treatment, baseline asthma status, age group, pollen season, and pollen region nested within pollen season||||-1.27|-2.46|< 0.001
92414631|NCT02478398|184719075|SUPERIORITY||Mean Difference (Final Values)|-1.4|||<|0.001|TWO_SIDED|95.0|-1.81|-0.99|||ANOVA|Model included fixed effects of treatment, baseline asthma status, age group, pollen season, and pollen region nested within pollen season||||-0.99|-1.81|< 0.001
92414632|NCT02478398|184719076|SUPERIORITY||Mean Difference (Final Values)|-1.84|||<|0.001|TWO_SIDED|95.0|-2.6|-1.08|||Zero-Inflated Log-Normal Model|Model included fixed effects of treatment, baseline asthma, age group, pollen season, and pollen region nested within pollen season||||-1.08|-2.60|< 0.001
92414633|NCT02478398|184719077|OTHER||Difference in % estimates|37.61|||<|0.001|TWO_SIDED|95.0|31.82|43.12|||Miettinen & Nurminen|||||43.12|31.82|< 0.001
92414634|NCT02478398|184719078|OTHER||Difference in % estimates|0.39|||=|0.32|TWO_SIDED|95.0|-0.57|1.53|||Miettinen & Nurminen|||||1.53|-0.57|= 0.320
92414635|NCT02478398|184719079|OTHER||Difference in % estimates|0.0|||=|0.996|TWO_SIDED|95.0|-0.92|0.92|||Miettinen & Nurminen|||||0.92|-0.92|= 0.996
92232582|NCT03068715|184367768|SUPERIORITY|The SDNN (the standard deviation of the RR intervals) was recorded using ECG. It was not necessary to conduct a power analysis for this measure because the number of participants in the study was based on other considerations (primary treatment goals of the study).|P value of the interaction|0.245|||<|0.05|TWO_SIDED|||||For reporting purposes here the p value was not adjusted for multiple comparisons.|Mixed Models Analysis|We were interested in the significance of the interaction between treatment group and timepoint.||We used a linear mixed models analysis, with the fixed factors being treatment group and timepoint.||||<0.05
92382087|NCT01345682|184666819|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.816|TWO_SIDED|95.0|0.657|1.705|||Regression, Logistic||Odds ratio, 95% CI and p-value (two-sided) from logistic regression stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No). Afatinib (BIBW 2992) vs Methotrexate|||1.705|0.657|0.816
92382088|NCT01345682|184666820|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0217|TWO_SIDED|95.0|0.55|0.96||Log-rank test stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).|Stratified Log-rank test||Hazard ratio from Cox proportional hazards model stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).|||0.96|0.55|0.0217
92382089|NCT01345682|184666821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.004|TWO_SIDED|95.0|0.5|0.89||Log-rank test stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).|Stratified Log-rank test||"Hazard ratio from Cox proportional hazards model stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||0.89|0.50|0.0040
92382090|NCT01345682|184666822|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.0268|TWO_SIDED|95.0|0.56|0.97||Log-rank test stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).|Stratified Log-rank test||"Hazard ratio from Cox proportional hazards model stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||0.97|0.56|0.0268
92382091|NCT03101085|184666853|OTHER|We performed a paired T-test analysis to ascertain whether the COX/CS activity while on S-equol was comparable or different than the COX/CS while on placebo. For each participant, the COX/CS value while on S-equol was subtracted from their COX/CS value while on placebo.|||||>|0.05|||||||Paired T-test|||As the order of the intervention does not matter, all 39 participants who contributed data to the final analysis are included together.||||>0.05
92382092|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|30.95|||||TWO_SIDED|95.0|21.76|41.25|||Miettinen & Nurminen score method|||Serogroup A-day 29-Total seroresponse (Menveo-Menveo vs. Naive)||41.25|21.76|
92414636|NCT01475071|184719106|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non inferiority margin of -10%|Mean Difference (Final Values)|-3.5|STANDARD_DEVIATION|15.6||0.0345|ONE_SIDED|95.0|-6.8||||paired Student's t statistic|||The primary purpose of this study is to demonstrate the non-inferiority of Metvix and daylight compared to Metvix and the lamp in terms of lesion complete response rate.|||-6.8|0.0345
92414637|NCT01475071|184719107|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9|STANDARD_DEVIATION|2.7|<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|two-sided Wilcoxon rank signed||superiority of Metvix adaylight and Metvix Lamp in term of pain||||<0.001
92414638|NCT01205581|184719131|SUPERIORITY_OR_OTHER|||||||0.78|||||||Fisher Exact|||||||0.78
92414639|NCT01205581|184719134|SUPERIORITY_OR_OTHER|||||||0.48|||||||Fisher Exact|||||||0.48
92169358|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41||||0.585|TWO_SIDED|95.0|-1.08|1.91||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 18|||1.91|-1.08|0.585
92232583|NCT00728416|184367769|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.31|||<|0.001|TWO_SIDED|95.0|-0.43|-0.19|||ANCOVA|||The change from Baseline in average AM/PM PRIOR nasal congestion score over 15 days: MFNS 200 mcg daily vs placebo. The difference in LS means (MFNS - Placebo) was calculated from an ANCOVA model with treatment, site and baseline AM/PM PRIOR Nasal Congestion Score as covariates.||-0.19|-0.43|<0.001
92232584|NCT00728416|184367770|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.27|||<|0.001|TWO_SIDED|95.0|-1.72|-0.83|||ANCOVA|||The change from Baseline in average AM/PM PRIOR TNSS over 15 days: MFNS 200 mcg daily vs placebo. The difference in LS means (MFNS - Placebo) was calculated from an ANCOVA model with treatment, site and baseline AM/PM TNSS as covariates.||-0.83|-1.72|<0.001
92382093|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|30.86|||||TWO_SIDED|95.0|21.66|41.17|||Miettinen & Nurminen score method|||Serogroup A-day 29-Total seroresponse (Menactra-Menveo vs. Naive)||41.17|21.66|
92414640|NCT01205581|184719135|SUPERIORITY_OR_OTHER|||||||0.51|||||||Fisher Exact|||||||0.51
92414641|NCT01205581|184719136|SUPERIORITY_OR_OTHER|||||||0.29|||||||Fisher Exact|||||||0.29
92414642|NCT01205581|184719137|SUPERIORITY_OR_OTHER|||||||0.43|||||||Fisher Exact|||||||0.43
92414643|NCT01205581|184719138|SUPERIORITY_OR_OTHER|||||||0.11|||||||Fisher Exact|||||||0.11
92414644|NCT00917644|184719143|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCinf and Cmax fell wholly within (80%, 125%)|Ratio of adjusted geometric means|98.79||||||90.0|94.57|103.2|||ANOVA|Values have been back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means. AUClast + (Clast\*/kel), where Clast\* was the predicted plasma concentration at the last quantifiable time point estimated from the log-linear regression analysis.|Natural log transformed AUCinf was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Adjusted mean difference (Test-Ref) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||103.20|94.57|
92414645|NCT00917644|184719145|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCinf and Cmax fell wholly within (80%, 125%). AUCinf method of determination includes AUClast calculated value.|Ratio of adjusted geometric means|98.72||||||90.0|94.41|103.23|||ANOVA|Values have been back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means. Log-linear trapezoidal method.|Natural log transformed AUClast was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence interval was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean (Test/Reference) and 90% confidence interval for the ratio.||103.23|94.41|
92382094|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|30.91|||||TWO_SIDED|95.0|21.89|41.12|||Miettinen & Nurminen score method|||Serogroup A-day 29-Total seroresponse (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||41.12|21.89|
92382095|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method.|Difference in percentages|0.09|||||TWO_SIDED|95.0|-3.15|3.36|||Miettinen & Nurminen score method|||Serogroup A- DAY 29 : Total seroresponse (Menveo-Menveo vs. Menactra-Menveo)||3.36|-3.15|
92382096|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|38.5|||||TWO_SIDED|95.0|28.54|48.9|||Miettinen & Nurminen score method|||Serogroup C-day 29-Total seroresponse (Menveo-Menveo vs. Naive)||48.90|28.54|
92382097|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|39.08|||||TWO_SIDED|95.0|29.16|49.46|||Miettinen & Nurminen score method|||Serogroup C-day 29-Total seroresponse (Menactra-Menveo vs. Naive)||49.46|29.16|
92382098|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|38.79|||||TWO_SIDED|95.0|29.03|49.06|||Miettinen & Nurminen score method|||Serogroup C-day 29-Total seroresponse (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||49.06|29.03|
92382099|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|-0.59|||||TWO_SIDED|95.0|-4.12|2.92|||Miettinen & Nurminen score method|||Serogroup C-DAY 29 : Total seroresponse (Menveo-Menveo vs. Menactra-Menveo)||2.92|-4.12|
92382100|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|59.98|||||TWO_SIDED|95.0|49.49|69.32|||Miettinen & Nurminen score method|||Serogroup W-day 29-Total seroresponse (Menveo-Menveo vs. Naive)||69.32|49.49|
92382101|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|57.37|||||TWO_SIDED|95.0|46.71|66.88|||Miettinen & Nurminen score method|||Serogroup W-day 29-Total seroresponse (Menactra-Menveo vs. Naive)||66.88|46.71|
92382102|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|58.69|||||TWO_SIDED|95.0|48.32|67.94|||Miettinen & Nurminen score method|||Serogroup W-day 29-Total seroresponse (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||67.94|48.32|
92382103|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|2.61|||||TWO_SIDED|95.0|-1.17|6.62|||Miettinen & Nurminen score method|||Serogroup W-DAY 29 : Total seroresponse (Menveo-Menveo vs. Menactra-Menveo)||6.62|-1.17|
92382104|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|45.25|||||TWO_SIDED|95.0|35.11|55.47|||Miettinen & Nurminen score method|||Serogroup Y-day 29-Total seroresponse (Menveo-Menveo vs. Naive)||55.47|35.11|
92382105|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|42.67|||||TWO_SIDED|95.0|32.34|53.04|||Miettinen & Nurminen score method|||Serogroup Y-day 29-Total seroresponse (Menactra-Menveo vs. Naive)||53.04|32.34|
92382106|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|43.98|||||TWO_SIDED|95.0|33.92|54.14|||Miettinen & Nurminen score method|||Serogroup Y-day 29-Total seroresponse (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||54.14|33.92|
92382107|NCT02986854|184666883|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|2.58|||||TWO_SIDED|95.0|-0.86|6.3|||Miettinen & Nurminen score method|||Serogroup Y- DAY 29 : Total seroresponse (Menveo-Menveo vs. Menactra-Menveo)||6.3|-0.86|
92382108|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|8.16|||||TWO_SIDED|95.0|1.23|13.41|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||13.41|1.23|
92414646|NCT00917644|184719146|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCinf and Cmax fell wholly within (80%, 125%)|Ratio of adjusted geometric means|104.66||||||90.0|95.73|114.42|||ANOVA|Values have been back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means. Observed directly from data.|Natural log transformed Cmax was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals were obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean (Test/Reference) and 90% confidence interval for the ratio.||114.42|95.73|
92382109|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method.|Between group differences in percentage|10.59|||||TWO_SIDED|95.0|3.54|16.14|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||16.14|3.54|
92382110|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method.|Between group differences in percentage|9.36|||||TWO_SIDED|95.0|2.72|13.58|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 1- (Pooled Menactra-Menveo vs. Naive)||13.58|2.72|
92382111|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method.|Between group differences in percentage|-2.44|||||TWO_SIDED|95.0|-8.17|3.24|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||3.24|-8.17|
92382112|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|6.94|||||TWO_SIDED|95.0|-3.57|14.15|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||14.15|-3.57|
92382113|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|8.88|||||TWO_SIDED|95.0|-1.77|16.52|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||16.52|-1.77|
92382114|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|7.89|||||TWO_SIDED|95.0|-2.34|13.48|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||13.48|-2.34|
92382115|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-1.93|||||TWO_SIDED|95.0|-9.84|5.82|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||5.82|-9.84|
92382116|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|44.33|||||TWO_SIDED|95.0|30.25|54.6|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||54.60|30.25|
92382117|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|38.05|||||TWO_SIDED|95.0|23.93|48.58|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||48.58|23.93|
92382118|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|41.26|||||TWO_SIDED|95.0|28.15|49.72|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||49.72|28.15|
92382119|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|6.28|||||TWO_SIDED|95.0|-5.31|17.71|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||17.71|-5.31|
92382120|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|27.65|||||TWO_SIDED|95.0|19.25|37.65|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||37.65|19.25|
92382121|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|27.97|||||TWO_SIDED|95.0|19.6|37.95|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||37.95|19.60|
92382122|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|27.81|||||TWO_SIDED|95.0|19.5|37.76|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||37.76|19.50|
92382123|NCT02986854|184666889|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-0.32|||||TWO_SIDED|95.0|-2.56|1.86|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.86|-2.56|
92382124|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|27.78|||||TWO_SIDED|95.0|16.23|38.27|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||38.27|16.23|
92382125|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|20.4|||||TWO_SIDED|95.0|8.78|31.03|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||31.03|8.78|
92382126|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|24.14|||||TWO_SIDED|95.0|13.28|33.86|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||33.86|13.28|
92382127|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|7.37|||||TWO_SIDED|95.0|-0.76|15.42|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||15.42|-0.76|
92382128|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|27.08|||||TWO_SIDED|95.0|11.04|42.14|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||42.14|11.04|
92382129|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|16.39|||||TWO_SIDED|95.0|0.04|31.9|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||31.90|0.04|
92382130|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|21.85|||||TWO_SIDED|95.0|6.73|36.11|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||36.11|6.73|
92382131|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|10.69|||||TWO_SIDED|95.0|-0.42|21.6|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||21.60|-0.42|
92382132|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|44.4|||||TWO_SIDED|95.0|28.65|58.93|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||58.93|28.65|
92382133|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|48.9|||||TWO_SIDED|95.0|33.45|63.13|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||63.13|33.45|
92382134|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|46.61|||||TWO_SIDED|95.0|31.52|60.59|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||60.59|31.52|
92382135|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-4.5|||||TWO_SIDED|95.0|-11.84|2.69|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||2.69|-11.84|
92382136|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|12.9|||||TWO_SIDED|95.0|7.53|21.22|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||21.22|7.53|
92382137|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|12.55|||||TWO_SIDED|95.0|7.1|20.89|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||20.89|7.10|
92382138|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|12.73|||||TWO_SIDED|95.0|7.34|21.05|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||21.05|7.34|
92382139|NCT02986854|184666890|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.36|||||TWO_SIDED|95.0|-0.96|1.99|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.99|-0.96|
92382140|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|14.14|||||TWO_SIDED|95.0|3.46|25.39|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||25.39|3.46|
92382141|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|15.66|||||TWO_SIDED|95.0|5.0|26.89|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||26.89|5.00|
92414647|NCT02108262|184719159|NON_INFERIORITY|The calculation used a non-inferiority argument powering the test of the alternative hypothesis of no difference in the rates. Within each co-primary endpoint, the two active treatment groups are assumed to have the same endpoint rates. Total alpha is 0.05 with 0.025 allocated to each co-primary endpoint, which in turn involves comparisons of two active treatment groups to placebo without further alpha control.|Difference in event rates (%)|1.0|||=|0.1241|TWO_SIDED|95.0|-0.1|2.5|||Newcombe-Wilson score method|||||2.5|-0.1|= 0.1241
92414648|NCT02108262|184719159|NON_INFERIORITY|The calculation used a non-inferiority argument powering the test of the alternative hypothesis of no difference in the rates. Within each co-primary endpoint, the two active treatment groups are assumed to have the same endpoint rates. Total alpha is 0.05 with 0.025 allocated to each co-primary endpoint, which in turn involves comparisons of two active treatment groups to placebo without further alpha control.|Difference in event rates (%)|0.5|||=|0.4994|TWO_SIDED|95.0|-0.5|1.7|||Newcombe-Wilson score method|||||1.7|-0.5|= 0.4994
92414649|NCT02108262|184719160|NON_INFERIORITY|The calculation used a non-inferiority argument powering the test of the alternative hypothesis of no difference in the rates. Within each co-primary endpoint, the two active treatment groups are assumed to have the same endpoint rates. Total alpha is 0.05 with 0.025 allocated to each co-primary endpoint, which in turn involves comparisons of two active treatment groups to placebo without further alpha control.|Difference in event rates (%)|-0.2|||=|0.4988|TWO_SIDED|95.0|-1.4|0.7|||Newcombe-Wilson score method|||||0.7|-1.4|= 0.4988
92382142|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|14.89|||||TWO_SIDED|95.0|4.91|25.62|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||25.62|4.91|
92382143|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-1.52|||||TWO_SIDED|95.0|-8.51|5.5|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||5.50|-8.51|
92382144|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.44|||||TWO_SIDED|95.0|5.25|34.83|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||34.83|5.25|
92382145|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|20.11|||||TWO_SIDED|95.0|5.88|35.5|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||35.50|5.88|
92382146|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.77|||||TWO_SIDED|95.0|6.53|34.58|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||34.58|6.53|
92382147|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-0.66|||||TWO_SIDED|95.0|-9.67|8.4|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||8.40|-9.67|
92382148|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|30.2|||||TWO_SIDED|95.0|16.78|45.45|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||45.45|16.78|
92382149|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|34.22|||||TWO_SIDED|95.0|21.29|49.2|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||49.20|21.29|
92414650|NCT02108262|184719160|NON_INFERIORITY|The calculation used a non-inferiority argument powering the test of the alternative hypothesis of no difference in the rates. Within each co-primary endpoint, the two active treatment groups are assumed to have the same endpoint rates. Total alpha is 0.05 with 0.025 allocated to each co-primary endpoint, which in turn involves comparisons of two active treatment groups to placebo without further alpha control.|Difference in event rates (%)|0.5|||=|0.6241|TWO_SIDED|95.0|-0.7|1.9|||Newcombe-Wilson score method|||||1.9|-0.7|= 0.6241
92382150|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|32.17|||||TWO_SIDED|95.0|19.3|47.13|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||47.13|19.30|
92382151|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-4.02|||||TWO_SIDED|95.0|-9.45|0.74|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||0.74|-9.45|
92382152|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|15.22|||||TWO_SIDED|95.0|9.28|23.95|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||23.95|9.28|
92414651|NCT02108262|184719161|OTHER||Hazard Ratio (HR)|1.18|||=|0.5733|TWO_SIDED|95.0|0.67|2.05||Stratified log-rank p-value|Log Rank|||||2.05|0.67|= 0.5733
92414652|NCT02108262|184719161|OTHER||Hazard Ratio (HR)|1.02|||=|0.9717|TWO_SIDED|95.0|0.57|1.8||Stratified log-rank p-value|Log Rank|||||1.80|0.57|= 0.9717
92414653|NCT01512667|184719222|NON_INFERIORITY_OR_EQUIVALENCE|Similarity will be concluded if the GMR (severe renal insufficiency / healthy) is contained within the interval \[0.40, 2.50\].|GMR|1.6|||||TWO_SIDED|90.0|1.15|2.23||||||Natural log-transformed plasma values were analyzed using an analysis of covariance (ANCOVA) model with a categorical factor for population (severe renal insufficiency participants, healthy matched control participants) and continuous covariates for age and body mass index (BMI). Data are back transformed to geometric least-squares mean ratio (GMR) (severe renal insufficiency / healthy) and 90% confidence intervals.||2.23|1.15|
92382153|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|15.22|||||TWO_SIDED|95.0|9.28|23.95|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||23.95|9.28|
92382154|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|15.22|||||TWO_SIDED|95.0|9.28|23.94|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||23.94|9.28|
92382155|NCT02986854|184666891|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.0|||||TWO_SIDED|95.0|-1.31|1.35|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.35|-1.31|
92382156|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|21.75|||||TWO_SIDED|95.0|10.19|32.25|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||32.25|10.19|
92414654|NCT01512667|184719223|SUPERIORITY_OR_OTHER||GMR|1.46|||||TWO_SIDED|90.0|1.18|1.81||||||Natural log-transformed plasma values were analyzed using an ANCOVA model with a categorical factor for population (severe renal insufficiency participants, healthy matched control participants) and continuous covariates for age and BMI. Data are back transformed to GMR (severe renal insufficiency / healthy) and 90% confidence intervals.||1.81|1.18|
92414655|NCT00445588|184719246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.4|TWO_SIDED|95.0|0.6|1.3||cox regression model was used to estimate the HR of death compared to NABTT historical control with same histology, adjusted for age, KPS, and surgical procedure|Regression, Cox|cox regression model used to estimate the HR of death compared to NABTT historical control same histology, adjusted for age, KPS, surgical procedure||The overall failure rate will be estimated by dividing the number of events (death) with the total exposure time in the study cohort. 95% confidence intervals and median time of survival will be calculated using standard methods.||1.3|0.6|0.4
92232585|NCT00509106|184367775|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% Confidence Interval (CI) for the observed difference in the primary outcome measure (clinical cure rate) between the ceftaroline group and the ceftriaxone group was calculated based on the MITTE Population at the TOC visit. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10% for the MITTE populations.|Risk Difference (RD)|5.9|||||TWO_SIDED|95.0|-1.0|12.7|||||Risk difference corresponds to Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The confidence interval was calculated using the Miettinen and Nurminen method without adjustment.|The primary objective of this study was to determine the noninferiority in the clinical cure rate for ceftaroline compared with that for ceftriaxone at TOC in the MITTE Population in adult subjects with CABP.||12.7|-1.0|
92414656|NCT02509117|184719330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-58.659|STANDARD_ERROR_OF_MEAN|0.0642|<|0.0001|TWO_SIDED|80.0|-61.95|-55.08|||Mixed Model Repeated Measures|||ABeta 1-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-55.08|-61.95|<0.0001
92414657|NCT02509117|184719330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-68.026|STANDARD_ERROR_OF_MEAN|0.0665|<|0.0001|TWO_SIDED|80.0|-70.66|-65.16|||Mixed Model Repeated Measures|||ABeta 1-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-65.16|-70.66|<0.0001
92414658|NCT02509117|184719330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-86.152|STANDARD_ERROR_OF_MEAN|0.0643|<|0.0001|TWO_SIDED|80.0|-87.26|-84.95|||Mixed Model Repeated Measures|||ABeta 1-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-84.95|-87.26|<0.0001
92414659|NCT02509117|184719330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.558|STANDARD_ERROR_OF_MEAN|0.0558|<|0.0001|TWO_SIDED|80.0|-44.7|-36.1|||Mixed Model Repeated Measures|||ABeta x-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-36.10|-44.70|<0.0001
92414660|NCT02509117|184719330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-51.368|STANDARD_ERROR_OF_MEAN|0.0561|<|0.0001|TWO_SIDED|80.0|-54.78|-47.7|||Mixed Model Repeated Measures|||ABeta x-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-47.70|-54.78|<0.0001
92382157|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|14.72|||||TWO_SIDED|95.0|3.15|25.29|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||25.29|3.15|
92382158|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|18.27|||||TWO_SIDED|95.0|7.44|27.92|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||27.92|7.44|
92382159|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|7.03|||||TWO_SIDED|95.0|-1.2|15.17|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||15.17|-1.20|
92382160|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|21.91|||||TWO_SIDED|95.0|5.57|36.37|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||36.37|5.57|
92414661|NCT02509117|184719330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-59.583|STANDARD_ERROR_OF_MEAN|0.0558|<|0.0001|TWO_SIDED|80.0|-62.4|-56.56|||Mixed Model Repeated Measures|||ABeta x-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-56.56|-62.40|<0.0001
92414662|NCT02509117|184719330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-37.373|STANDARD_ERROR_OF_MEAN|0.1007|<|0.0001|TWO_SIDED|80.0|-45.06|-28.62|||Mixed Model Repeated Measures|||ABeta Total: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-28.62|-45.06|<0.0001
92414663|NCT02509117|184719330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-45.018|STANDARD_ERROR_OF_MEAN|0.1001|<|0.0001|TWO_SIDED|80.0|-51.72|-37.38|||Mixed Model Repeated Measures|||ABeta Total: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-37.38|-51.72|<0.0001
92414664|NCT02509117|184719330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.797|STANDARD_ERROR_OF_MEAN|0.1014|<|0.0001|TWO_SIDED|80.0|-66.51|-56.42|||Mixed Model Repeated Measures|||ABeta Total: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-56.42|-66.51|<0.0001
92414665|NCT01227824|184719392|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority could be concluded if the lower bound of a two-sided 95% confidence interval for the difference (DTG - RAL) in percentages between the two treatment arms was \> -10%.|Difference in percentage|2.5|||||TWO_SIDED|95.0|-2.2|7.1|||||Analysis was based on Cochran-Mantel Haenszel stratified analysis adjusted for the following Baseline stratification factors: baseline HIV-1 RNA and background dual NRTI.|||7.1|-2.2|
92414666|NCT02390791|184719422|SUPERIORITY|||||||0.04|||||||generalized linear model|assuming a Poisson distribution with a log link function||||||0.04
92414667|NCT02390791|184719423|SUPERIORITY|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
92414668|NCT02390791|184719424|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||||||0.85
92414669|NCT02390791|184719425|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
92414670|NCT02390791|184719426|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92414671|NCT02390791|184719427|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||0.94
92382161|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.46|||||TWO_SIDED|95.0|6.05|37.0|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||37.00|6.05|
92382162|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.18|||||TWO_SIDED|95.0|6.89|35.38|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||35.38|6.89|
92382163|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-0.55|||||TWO_SIDED|95.0|-12.11|11.03|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||11.03|-12.11|
92382164|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|40.06|||||TWO_SIDED|95.0|24.26|54.95|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||54.95|24.26|
92382165|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|42.4|||||TWO_SIDED|95.0|26.71|57.17|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||57.17|26.71|
92382166|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|41.21|||||TWO_SIDED|95.0|26.12|55.55|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||55.55|26.12|
92382167|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-2.34|||||TWO_SIDED|95.0|-10.41|5.73|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||5.73|-10.41|
92382168|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.58|||||TWO_SIDED|95.0|15.26|32.08|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||32.08|15.26|
92382169|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.22|||||TWO_SIDED|95.0|14.86|31.74|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||31.74|14.86|
92382170|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.41|||||TWO_SIDED|95.0|15.08|31.9|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||31.90|15.08|
92382171|NCT02986854|184666892|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.36|||||TWO_SIDED|95.0|-0.96|1.99|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.99|-0.96|
92382172|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|7.23|||||TWO_SIDED|95.0|2.08|11.23|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||11.23|2.08|
92382173|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|8.5|||||TWO_SIDED|95.0|3.28|12.74|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||12.74|3.28|
92382174|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|7.86|||||TWO_SIDED|95.0|2.87|10.78|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||10.78|2.87|
92382175|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-1.27|||||TWO_SIDED|95.0|-6.1|3.49|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||3.49|-6.10|
92382176|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|6.25|||||TWO_SIDED|95.0|-3.04|12.44|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||12.44|-3.04|
92382177|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|6.61|||||TWO_SIDED|95.0|-2.71|13.01|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||13.01|-2.71|
92382178|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|6.43|||||TWO_SIDED|95.0|-2.66|10.9|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||10.90|-2.66|
92382179|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-0.36|||||TWO_SIDED|95.0|-7.27|6.43|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||6.43|-7.27|
92414672|NCT02390791|184719428|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
92382180|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|41.34|||||TWO_SIDED|95.0|28.85|50.63|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||50.63|28.85|
92382181|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|36.88|||||TWO_SIDED|95.0|24.39|46.34|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||46.34|24.39|
92382182|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|39.16|||||TWO_SIDED|95.0|27.61|46.33|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||46.33|27.61|
92382183|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|4.46|||||TWO_SIDED|95.0|-7.04|15.83|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||15.83|-7.04|
92382184|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|31.61|||||TWO_SIDED|95.0|22.68|41.79|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||41.79|22.68|
92382185|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|30.85|||||TWO_SIDED|95.0|21.85|41.08|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||41.08|21.85|
92382186|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|31.24|||||TWO_SIDED|95.0|22.39|41.38|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||41.38|22.39|
92382187|NCT02986854|184666893|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.76|||||TWO_SIDED|95.0|-1.81|3.52|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||3.52|-1.81|
92382188|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|30.02|||||TWO_SIDED|95.0|19.55|38.83|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||38.83|19.55|
92382189|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|20.87|||||TWO_SIDED|95.0|10.48|29.69|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||29.69|10.48|
92382190|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|25.5|||||TWO_SIDED|95.0|15.79|33.21|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||33.21|15.79|
92382191|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|9.14|||||TWO_SIDED|95.0|1.01|17.16|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||17.16|1.01|
92382192|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|25.0|||||TWO_SIDED|95.0|8.82|38.9|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||38.90|8.82|
92382193|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|15.76|||||TWO_SIDED|95.0|-0.44|29.86|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||29.86|-0.44|
92382194|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|20.48|||||TWO_SIDED|95.0|5.32|33.08|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||33.08|5.32|
92382195|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|9.24|||||TWO_SIDED|95.0|-2.45|20.68|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||20.68|-2.45|
92382196|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|50.25|||||TWO_SIDED|95.0|34.09|63.67|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||63.67|34.09|
92414673|NCT02390791|184719429|SUPERIORITY|||||||0.15|||||||Chi-squared|||||||0.15
92414674|NCT02390791|184719430|SUPERIORITY|||||||0.48|||||||generalized linear model|||||||0.48
92414675|NCT02390791|184719431|SUPERIORITY|||||||0.71|||||||generalized linear model|||||||0.71
92414676|NCT00821509|184719432|SUPERIORITY_OR_OTHER||ratio of proportions|1.03||||0.004|||||||proportion test|The test was carried out using the proportions calculated from the number of sick-leave episodes over the number o total follow-up weeks in each arm||According to the null hypothesis the proportion of weeks with an onset of days-off period in neither of the intervention arms was different from that of control. No in advance power calculations were done.||||0.004
92382197|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|49.48|||||TWO_SIDED|95.0|33.21|63.01|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||63.01|33.21|
92382198|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|49.87|||||TWO_SIDED|95.0|34.42|62.6|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||62.60|34.42|
92414677|NCT00821509|184719433|SUPERIORITY_OR_OTHER||ratio of proportions|0.933||||0.04|||||||proportion test|||According to the null hypothesis the proportion of weeks with an onset of an infectious disease period in neither of the intervention arms was different from that of control. No in advance power calculations were done.||||0.04
92414678|NCT01227629|184719515|SUPERIORITY_OR_OTHER|||||||0.0357||95.0|||||Kruskal-Wallis|||Group comparison of differences from baseline to last available value||||0.0357
92414679|NCT01227629|184719516|SUPERIORITY_OR_OTHER|||||||0.26711||95.0|||||Kruskal-Wallis|||Group comparison of differences from baseline to week 12||||0.26711
92414680|NCT01588470|184719526|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92414681|NCT01588470|184719528|SUPERIORITY||Mean Difference (Final Values)|-1.1|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92446316|NCT02942017|184779614|SUPERIORITY||LS mean difference|-3.56|STANDARD_ERROR_OF_MEAN|2.154||0.1017|TWO_SIDED|95.0|-7.84|0.72|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.72|-7.84|0.1017
92446317|NCT02942017|184779614|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|1.884||0.9845|TWO_SIDED|95.0|-3.72|3.79|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.79|-3.72|0.9845
92446318|NCT02942017|184779615|SUPERIORITY||Odds Ratio (OR)|5.0||||0.0005|TWO_SIDED|95.0|2.0|12.5|||GEE method|||Hour 60: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||12.5|2.0|0.0005
92382199|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.77|||||TWO_SIDED|95.0|-8.3|9.92|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||9.92|-8.30|
92446319|NCT02942017|184779615|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0478|TWO_SIDED|95.0|1.0|8.4|||GEE method|||Day 7: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||8.4|1.0|0.0478
92446320|NCT02942017|184779615|SUPERIORITY||Odds Ratio (OR)|1.5||||0.4399|TWO_SIDED|95.0|0.5|4.6|||GEE method|||Day 30: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||4.6|0.5|0.4399
92446321|NCT02942017|184779616|SUPERIORITY||LS Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|1.041||0.2636|TWO_SIDED|95.0|-3.24|0.9|||MMRM|||Change at Hour 60: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.90|-3.24|0.2636
92446322|NCT02942017|184779616|SUPERIORITY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|1.103||0.4897|TWO_SIDED|95.0|-2.96|1.43|||MMRM|||Change at Day 7: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.43|-2.96|0.4897
92446323|NCT02942017|184779616|SUPERIORITY||LS Mean Difference|-1.86|STANDARD_ERROR_OF_MEAN|1.227||0.1341|TWO_SIDED|95.0|-4.3|0.59|||MMRM|||Change at Day 14: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.59|-4.30|0.1341
92232586|NCT00594399|184367802|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||Omnibus test of difference between groups over time with Bonferroni correction and adjustment for baseline value of insulin|Mixed Models Analysis|||||||0.43
92382200|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|29.76|||||TWO_SIDED|95.0|21.34|39.75|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||39.75|21.34|
92382201|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|29.75|||||TWO_SIDED|95.0|21.32|39.74|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||39.74|21.32|
92382202|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|29.76|||||TWO_SIDED|95.0|21.35|39.73|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||39.73|21.35|
92382203|NCT02986854|184666894|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.01|||||TWO_SIDED|95.0|-1.6|1.67|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.67|-1.60|
92382204|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|17.36|||||TWO_SIDED|95.0|5.85|28.67|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||28.67|5.85|
92382205|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|17.92|||||TWO_SIDED|95.0|6.39|29.25|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||29.25|6.39|
92382206|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|17.64|||||TWO_SIDED|95.0|6.85|28.28|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||28.28|6.85|
92382207|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-0.57|||||TWO_SIDED|95.0|-8.32|7.2|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||7.20|-8.32|
92382208|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|14.58|||||TWO_SIDED|95.0|-0.98|30.38|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||30.38|-0.98|
92382209|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.64|||||TWO_SIDED|95.0|7.3|38.16|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||38.16|7.30|
92414682|NCT02320903|184719555|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was 0.16.|||
92382210|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|18.53|||||TWO_SIDED|95.0|4.14|33.37|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||33.37|4.14|
92382211|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-8.06|||||TWO_SIDED|95.0|-18.34|2.38|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||2.38|-18.34|
92382212|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|39.04|||||TWO_SIDED|95.0|23.76|54.07|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||54.07|23.76|
92382213|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|42.14|||||TWO_SIDED|95.0|27.08|56.98|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||56.98|27.08|
92382214|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|40.56|||||TWO_SIDED|95.0|25.91|55.15|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||55.15|25.91|
92382215|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-3.1|||||TWO_SIDED|95.0|-10.2|3.89|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||3.89|-10.20|
92382216|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.57|||||TWO_SIDED|95.0|12.74|28.83|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||28.83|12.74|
92414683|NCT02320903|184719555|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change over time for teens.|Cohen's d for youth report was d = 0.22.|||
92414684|NCT02320903|184719556|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.22.|||
92382217|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.57|||||TWO_SIDED|95.0|12.74|28.83|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||28.83|12.74|
92382218|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.57|||||TWO_SIDED|95.0|12.75|28.83|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||28.83|12.75|
92382219|NCT02986854|184666895|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.0|||||TWO_SIDED|95.0|-1.31|1.35|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.35|-1.31|
92382220|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|21.82|||||TWO_SIDED|95.0|11.44|30.6|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||30.60|11.44|
92382221|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|17.67|||||TWO_SIDED|95.0|7.34|26.43|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||26.43|7.34|
92414685|NCT02320903|184719556|OTHER|What was the within-group change over time effect size?||||||||||||||||Paired sample T tests were used to measure change for teens over time.|Cohen's d for teen report on this measure was d = 0.22.|||
92414686|NCT02320903|184719557|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.10.|||
92232587|NCT00594399|184367805|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED|||||Omnibus test of difference between groups over time with Bonferroni correction and adjustment for baseline value of glucose|Mixed Models Analysis|||||||0.91
92232588|NCT00594399|184367808|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Omnibus test of difference between groups over time with adjustment for baseline value of physical activity|Mixed Models Analysis|||||||<0.001
92232589|NCT00488631|184367835|SUPERIORITY_OR_OTHER|||||||0.01||||||A fixed sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level (i.e., testing golimumab 100 mg vs. placebo first, then, if positive, testing 50 mg vs. placebo).|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants in clinical response through Week 54 were summarized using the Cochran-Mantel-Haenszel (CMH) test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.010
92232590|NCT00488631|184367835|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level (i.e., testing golimumab 100 mg vs. placebo first, then, if positive, testing 50 mg vs. placebo).|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants in clinical response through Week 54 were summarized using the Cochran-Mantel-Haenszel (CMH) test stratified by clinical remission status at Week 0 and the induction dose factor.||||<0.001
92232591|NCT00488631|184367836|SUPERIORITY_OR_OTHER|||||||0.122||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at both Week 30 and Week 54 were summarized using the CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.122
92232592|NCT00488631|184367836|SUPERIORITY_OR_OTHER|||||||0.004||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at both Week 30 and Week 54 were summarized using the CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.004
92232593|NCT00488631|184367837|SUPERIORITY_OR_OTHER|||||||0.011||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with mucosal healing at both Week 30 and Week 54 were summarized using CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.011
92232594|NCT00488631|184367837|SUPERIORITY_OR_OTHER|||||||0.002||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with mucosal healing at both Week 30 and Week 54 were summarized using CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.002
92232595|NCT00488631|184367838|SUPERIORITY_OR_OTHER|||||||0.365||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at both Week 30 and 54 among participants with clinical remission at Week 0 of maintenance study were summarized using CMH test stratified by the induction dose factor.||||0.365
92232596|NCT00488631|184367838|SUPERIORITY_OR_OTHER|||||||0.098||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at both Week 30 and 54 among participants with clinical remission at Week 0 of maintenance study were summarized using CMH test stratified by the induction dose factor.||||0.098
92280473|NCT00601484|184463635|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.674|||TWO_SIDED|90.0|-1.22|1.044||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.044|-1.220|
92382222|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.77|||||TWO_SIDED|95.0|10.09|27.43|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||27.43|10.09|
92414687|NCT02320903|184719557|EQUIVALENCE|What was the within-group change over time effect size? (Cohen's d)||||||||||||||||Paired samples T tests were used to measure change over time for teens.|Cohen's d for youth report was d = 0.28.|||
92382223|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|4.15|||||TWO_SIDED|95.0|-3.8|12.04|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||12.04|-3.80|
92382224|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|18.33|||||TWO_SIDED|95.0|2.92|30.99|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||30.99|2.92|
92382225|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|18.3|||||TWO_SIDED|95.0|2.83|31.06|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||31.06|2.83|
92382226|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|18.31|||||TWO_SIDED|95.0|3.83|29.39|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||29.39|3.83|
92382227|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.03|||||TWO_SIDED|95.0|-11.35|11.39|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||11.39|-11.35|
92382228|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|48.87|||||TWO_SIDED|95.0|32.64|62.38|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||62.38|32.64|
92382229|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|48.18|||||TWO_SIDED|95.0|31.87|61.79|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||61.79|31.87|
92382230|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|48.53|||||TWO_SIDED|95.0|33.04|61.31|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||61.31|33.04|
92382231|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.69|||||TWO_SIDED|95.0|-8.6|10.04|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||10.04|-8.60|
92382232|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|35.48|||||TWO_SIDED|95.0|26.5|45.62|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||45.62|26.50|
92382233|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|34.06|||||TWO_SIDED|95.0|24.94|44.28|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||44.28|24.94|
92382234|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|34.78|||||TWO_SIDED|95.0|25.78|44.93|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||44.93|25.78|
92382235|NCT02986854|184666896|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|1.42|||||TWO_SIDED|95.0|0.1|3.6|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||3.60|0.10|
92382236|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|1.39|||||TWO_SIDED|95.0|-6.08|4.94|||Miettinen & Nurminen score method|||Serogroup A- Day 4- Total seroresponse (Menveo-Menveo vs. Naive)||4.94|-6.08|
92382237|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|2.17|||||TWO_SIDED|95.0|-5.32|6.21|||Miettinen & Nurminen score method|||Serogroup A- Day 4-Total seroresponse - (Menactra-Menveo vs. Naive)||6.21|-5.32|
92382238|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|1.77|||||TWO_SIDED|95.0|-5.68|4.09|||Miettinen & Nurminen score method|||Serogroup A- Day 4-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||4.09|-5.68|
92382239|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-0.79|||||TWO_SIDED|95.0|-4.98|3.01|||Miettinen & Nurminen score method|||Serogroup A- Day 4-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||3.01|-4.98|
92382240|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|34.76|||||TWO_SIDED|95.0|22.38|44.07|||Miettinen & Nurminen score method|||Serogroup A- Day 6-Total seroresponse- (Menveo-Menveo vs. Naive)||44.07|22.38|
92382241|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|26.88|||||TWO_SIDED|95.0|14.67|36.13|||Miettinen & Nurminen score method|||Serogroup A- Day 6-Total seroresponse - (Menactra-Menveo vs. Naive)||36.13|14.67|
92382242|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|30.89|||||TWO_SIDED|95.0|19.42|37.97|||Miettinen & Nurminen score method|||Serogroup A- Day 6-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||37.97|19.42|
92232597|NCT00488631|184367839|SUPERIORITY_OR_OTHER|||||||0.279||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at Week 54 and not receiving concomitant corticosteroids among participants on corticosteroids at Week 0 of maintenance study were summarized using the CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.279
92382243|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|7.88|||||TWO_SIDED|95.0|-3.25|18.81|||Miettinen & Nurminen score method|||Serogroup A- Day 6-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||18.81|-3.25|
92382244|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-3.45|||||TWO_SIDED|95.0|-14.26|2.35|||Miettinen & Nurminen score method|||Serogroup C- Day 4-Total seroresponse- (Menveo-Menveo vs. Naive)||2.35|-14.26|
92382245|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|2.51|||||TWO_SIDED|95.0|-8.7|9.98|||Miettinen & Nurminen score method|||Serogroup C- Day 4-Total seroresponse - (Menactra-Menveo vs. Naive)||9.98|-8.70|
92382246|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-0.54|||||TWO_SIDED|95.0|-11.35|4.9|||Miettinen & Nurminen score method|||Serogroup C- Day 4-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||4.90|-11.35|
92382247|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-5.96|||||TWO_SIDED|95.0|-12.25|-0.57|||Miettinen & Nurminen score method|||Serogroup C- Day 4-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||-0.57|-12.25|
92382248|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|40.03|||||TWO_SIDED|95.0|25.37|50.92|||Miettinen & Nurminen score method|||Serogroup C- Day 6-Total seroresponse- (Menveo-Menveo vs. Naive)||50.92|25.37|
92382249|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|36.84|||||TWO_SIDED|95.0|22.14|47.9|||Miettinen & Nurminen score method|||Serogroup C- Day 6-Total seroresponse - (Menactra-Menveo vs. Naive)||47.90|22.14|
92382250|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|38.46|||||TWO_SIDED|95.0|24.79|47.57|||Miettinen & Nurminen score method|||Serogroup C- Day 6-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||47.57|24.79|
92382251|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|3.19|||||TWO_SIDED|95.0|-8.44|14.73|||Miettinen & Nurminen score method|||Serogroup C- Day 6-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||14.73|-8.44|
92382252|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-3.47|||||TWO_SIDED|95.0|-14.28|2.31|||Miettinen & Nurminen score method|||Serogroup W- Day 4-Total seroresponse- (Menveo-Menveo vs. Naive)||2.31|-14.28|
92382253|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|3.89|||||TWO_SIDED|95.0|-7.4|11.6|||Miettinen & Nurminen score method|||Serogroup W- Day 4-Total seroresponse - (Menactra-Menveo vs. Naive)||11.60|-7.40|
92382254|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|0.13|||||TWO_SIDED|95.0|-10.7|5.66|||Miettinen & Nurminen score method|||Serogroup W- Day 4-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||5.66|-10.70|
92382255|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-7.37|||||TWO_SIDED|95.0|-13.89|-1.8|||Miettinen & Nurminen score method|||Serogroup W- Day 4-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||-1.80|-13.89|
92382256|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|38.98|||||TWO_SIDED|95.0|24.35|49.88|||Miettinen & Nurminen score method|||Serogroup W- Day 6-Total seroresponse- (Menveo-Menveo vs. Naive)||49.88|24.35|
92382257|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|37.92|||||TWO_SIDED|95.0|23.23|48.95|||Miettinen & Nurminen score method|||Serogroup W- Day 6-Total seroresponse - (Menactra-Menveo vs. Naive)||48.95|23.23|
92382258|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|38.46|||||TWO_SIDED|95.0|24.8|47.56|||Miettinen & Nurminen score method|||Serogroup W- Day 6-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||47.56|24.80|
92382259|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|1.06|||||TWO_SIDED|95.0|-10.51|12.6|||Miettinen & Nurminen score method|||Serogroup W- Day 6-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||12.60|-10.51|
92414688|NCT02320903|184719558|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.16.|||
92414689|NCT02320903|184719558|EQUIVALENCE|What was the within-group change over time effect size? (Cohen's d)||||||||||||||||Paired sample T tests were used to measure change for teens over time.|Cohen's d for youth report was d = 0.21.|||
92414690|NCT02320903|184719559|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.62.|||
92169359|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.82||||0.231|TWO_SIDED|95.0|-2.48|10.12||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 26|||10.12|-2.48|0.231
92169360|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.45||||0.24|TWO_SIDED|95.0|-0.99|3.89||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 39|||3.89|-0.99|0.240
92280474|NCT00601484|184463635|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.57|STANDARD_ERROR_OF_MEAN|1.009|||TWO_SIDED|90.0|-1.124|2.269||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.269|-1.124|
92382260|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|7.75|||||TWO_SIDED|95.0|0.15|13.36|||Miettinen & Nurminen score method|||Serogroup Y- Day 4-Total seroresponse- (Menveo-Menveo vs. Naive)||13.36|0.15|
92382261|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|4.38|||||TWO_SIDED|95.0|-3.15|9.24|||Miettinen & Nurminen score method|||Serogroup Y- Day 4-Total seroresponse - (Menactra-Menveo vs. Naive)||9.24|-3.15|
92382262|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|6.09|||||TWO_SIDED|95.0|-1.41|9.55|||Miettinen & Nurminen score method|||Serogroup Y- Day 4-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||9.55|-1.41|
92414691|NCT02320903|184719559|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change over time for teens.|Cohen's d for youth report was d = 0.23.|||
92414692|NCT02320903|184719560|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.22.|||
92414693|NCT02320903|184719560|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired samples T tests were used to measure within-groups change over time for teens.|Cohen's d for youth report was d = 0.26.|||
92414694|NCT02320903|184719561|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d =.12.|||
92414695|NCT02320903|184719562|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.81.|||
92414696|NCT02320903|184719563|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.43.|||
92414697|NCT02320903|184719564|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change for teens over time.|Cohen's d for youth report on this measure was d = 24.|||
92414698|NCT03386253|184719580|SUPERIORITY|||||||0.77||||||Group x time p value|ANOVA|||||||0.77
92414699|NCT01012219|184719581|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.23|||||TWO_SIDED|90.0|0.96|1.56||||||||1.56|0.96|
92414700|NCT03493815|184719582|SUPERIORITY||Risk Ratio (RR)|0.73||||0.51|TWO_SIDED|95.0|0.28|1.9|||binary regression w/ comp log-log link||Ultrasound guided is the numerator and traditional is the denominator.|||1.90|0.28|0.51
92414701|NCT03493815|184719583|SUPERIORITY||Risk Ratio (RR)|0.58||||0.41|TWO_SIDED|95.0|0.15|2.18|||binary regression w/ comp log-log link||Ultrasound guided is the numerator and traditional is the denominator.|||2.18|0.15|0.41
92414702|NCT03493815|184719584|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||0.76
92414703|NCT03493815|184719585|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||0.70
92414704|NCT03811093|184719586|SUPERIORITY||Mean Difference (Net)|2.036|||<|0.01|TWO_SIDED|95.0|1.243|2.828||p-value is calculated using SPSS.|t-test, 2 sided|||The null hypothesis states that in the population from where the sample was obtained there was no difference between the intervention (invisa-RED Elite) and placebo groups in the mean change in the primary outcome variable, i.e. Change in Body Fat Percentage.||2.828|1.243|<0.01
92414705|NCT03811093|184719586|OTHER|||||||0.2||||||The significance value has been Lilliefors corrected and represents the lower bound of the true significance.|Kolmogorov-Smirnov Test|||"A single sample Kolmogorov-Smirnov normality test was used to examine if variables are normally distributed for the population from which the trial groups are drawn.~The null hypothesis is that the distribution of Percent of Body Fat Lost or Gained is normal with mean -.83 and standard deviation 1.50218."||||0.20
92414706|NCT03811093|184719586|OTHER|||||||0.075|||||||Levene's Test for Equality of Variance|||To test that the trial participant's population variances are equal (or exhibit homogeneity of variance), a Levene's Test for Equality of Variance was conducted. It tests the null hypothesis that the population variances are equal (called homogeneity of variance or homoscedasticity). For this test if the resulting p-value of Levene's test is less than .05, the obtained differences in sample variances are unlikely to have occurred based on random sampling from a population with equal variances.||||0.075
92414707|NCT03811093|184719587|SUPERIORITY||Mean Difference (Net)|7.063|||<|0.01|TWO_SIDED|95.0|3.829|10.296||p-value is calculated using SPSS.|t-test, 2 sided|||Designed as a superiority trial with the aim of establishing whether the intervention was superior or inferior to a placebo in effectiveness as a therapy for change over time in measured body circumference. The null hypothesis states that in the population from where the sample was obtained there was no difference between the intervention (invisa-RED Elite) and placebo groups in the mean change in the primary outcome variable, i.e. measured body circumference.||10.296|3.829|<0.01
92169361|NCT02299375|184227206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.17||||0.517|TWO_SIDED|95.0|-2.49|4.84||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 52|||4.84|-2.49|0.517
92382263|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|3.37|||||TWO_SIDED|95.0|-2.48|9.54|||Miettinen & Nurminen score method|||Serogroup Y- Day 4-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||9.54|-2.48|
92382264|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|39.86|||||TWO_SIDED|95.0|25.76|50.29|||Miettinen & Nurminen score method|||Serogroup Y- Day 6-Total seroresponse- (Menveo-Menveo vs. Naive)||50.29|25.76|
92382265|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|48.05|||||TWO_SIDED|95.0|33.89|58.34|||Miettinen & Nurminen score method|||Serogroup Y- Day 6-Total seroresponse - (Menactra-Menveo vs. Naive)||58.34|33.89|
92382266|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|43.91|||||TWO_SIDED|95.0|30.79|52.37|||Miettinen & Nurminen score method|||Serogroup Y- Day 6-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||52.37|30.79|
92382267|NCT02986854|184666897|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-8.19|||||TWO_SIDED|95.0|-19.61|3.45|||Miettinen & Nurminen score method|||Serogroup Y- Day 6-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||3.45|-19.61|
92382268|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.26|||||TWO_SIDED|95.0|0.93|1.7||||||Serogroup A-Vaccine comparison at day 4(Menveo-Menveo vs. Naive)||1.70|0.93|
92382269|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.34|||||TWO_SIDED|95.0|0.98|1.82||||||Serogroup A-Vaccine comparison at day 4(Menactra-Menveo vs. Naive)||1.82|0.98|
92382270|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.29|||||TWO_SIDED|95.0|0.97|1.72||||||Serogroup A-Vaccine comparison at day 4(Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||1.72|0.97|
92414708|NCT03811093|184719587|OTHER|||||||0.2||||||The significance value has been Lilliefors corrected and represents the lower bound of the true significance.|Kolmogorov-Smirnov Test|||"A Kolmogorov-Smirnov normality test was used to examine if variables are normally distributed for the population from which the trial groups are drawn.~The null hypothesis is that the distribution of Total Inches Lost or Gained is normal with mean -7.136 and standard deviation 5.796."||||0.20
92382271|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.94|||||TWO_SIDED|95.0|0.76|1.17||||||Serogroup A-Vaccine comparison at day 4 (Menveo-Menveo vs. Menactra-Menveo)||1.17|0.76|
92382272|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|5.19|||||TWO_SIDED|95.0|2.84|9.47||||||Serogroup A-Vaccine comparison at day 6 (Menveo-Menveo vs. Naive)||9.47|2.84|
92382273|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|4.1|||||TWO_SIDED|95.0|2.24|7.5||||||Serogroup A-Vaccine comparison at day 6 (Menactra-Menveo vs. Naive)||7.50|2.24|
92382274|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|4.62|||||TWO_SIDED|95.0|2.62|8.15||||||Serogroup A-Vaccine comparison at day 6 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||8.15|2.62|
92382275|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.27|||||TWO_SIDED|95.0|0.84|1.91||||||Serogroup A-Vaccine comparison at day 6 (Menveo-Menveo vs. Menactra-Menveo)||1.91|0.84|
92382276|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|6.54|||||TWO_SIDED|95.0|4.84|8.85||||||Serogroup A-Vaccine comparison at day 29 (Menveo-Menveo vs. Naive)||8.85|4.84|
92382277|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|7.37|||||TWO_SIDED|95.0|5.44|9.98||||||Serogroup A-Vaccine comparison at day 29 (Menactra-Menveo vs. Naive)||9.98|5.44|
92414709|NCT03811093|184719587|OTHER|||||||0.44|||||||Levene's Test for Equality of Variance|||To test that the trial participant's population variances are equal (or exhibit homogeneity of variance), a Levene's Test for Equality of Variance was conducted. It tests the null hypothesis that the population variances are equal (called homogeneity of variance or homoscedasticity). For this test if the resulting p-value of Levene's test is less than .05, the obtained differences in sample variances are unlikely to have occurred based on random sampling from a population with equal variances.||||0.44
92414710|NCT03811093|184719588|SUPERIORITY||Mean Difference (Net)|4.4703|||<|0.01|TWO_SIDED|95.0|2.3372|6.6034||p-value is computed using SPSS.|t-test, 2 sided|||Designed as a superiority trial with the aim of establishing whether the intervention was superior or inferior to a placebo in effectiveness as a therapy for change in body fat, measured in pounds. The null hypothesis states that in the population from where the sample was obtained there was no difference between the intervention (invisa-RED Elite) and placebo groups in the mean change in the primary outcome variable, i.e. change in pounds of body fat.||6.6034|2.3372|<0.01
92414711|NCT03811093|184719588|OTHER|||||||0.2||||||The significance value has been Lilliefors corrected and represents the lower bound of the true significance.|Kolmogorov-Smirnov Test|||"A single sample Kolmogorov-Smirnov normality test was used to examine if variables are normally distributed for the population from which the trial groups are drawn.~The null hypothesis is that the distribution of the Weight of Body Fat Lost or Gained is normal with mean -2.49 and standard deviation 3.71209."||||.200
92414712|NCT03811093|184719588|OTHER|||||||0.438|||||||Levene's Test for Equality of Variance|||To test that the trial participant's population variances are equal (or exhibit homogeneity of variance), a Levene's Test for Equality of Variance was conducted. It tests the null hypothesis that the population variances are equal (called homogeneity of variance or homoscedasticity). For this test if the resulting p-value of Levene's test is less than .05, the obtained differences in sample variances are unlikely to have occurred based on random sampling from a population with equal variances.||||.438
92414713|NCT00178503|184719589|SUPERIORITY_OR_OTHER||Linear trend P value|0.0|||=|0.001|||||||ANOVA|||Data were analyzed using SPSS-PC repeated measures one-way analysis of variance (ANOVA), with MPH dosing regimen as the within-subjects variable.||||=.001
92414714|NCT00178503|184719590|SUPERIORITY_OR_OTHER||Linear p|0.005||||0.005|||||||ANOVA|||||||.005
92414715|NCT00178503|184719591|SUPERIORITY_OR_OTHER||Linear p|0.0|||<|0.001||0.0|||||ANOVA|||||||<.001
92414716|NCT00464490|184719595|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||P-value \<0.05 was considered significant|t-test, 2 sided|||H(0): Ventilator time (DG) = Ventilator time (CG)||||0.02
92232598|NCT00488631|184367839|SUPERIORITY_OR_OTHER|||||||0.423||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at Week 54 and not receiving concomitant corticosteroids among participants on corticosteroids at Week 0 of maintenance study were summarized using the CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.423
92414717|NCT03860935|184719657|SUPERIORITY||||||<|0.0001|||||||Finkelstein-Schoenfeld Method|||||||<0.0001
92382278|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|6.94|||||TWO_SIDED|95.0|5.23|9.21||||||Serogroup A-Vaccine comparison at day 29 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||9.21|5.23|
92382279|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.89|||||TWO_SIDED|95.0|0.72|1.1||||||Serogroup A-Vaccine comparison at day 29 (Menveo-Menveo vs. Menactra-Menveo)||1.10|0.72|
92382280|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|between group GMT ratios|3.43|||||TWO_SIDED|95.0|1.95|6.04||||||Serogroup C-Vaccine comparison at day 4 (Menveo-Menveo vs. Naive)||6.04|1.95|
92382281|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.14|||||TWO_SIDED|95.0|1.21|3.77||||||Serogroup C-Vaccine comparison at day 4 (Menactra-Menveo vs. Naive)||3.77|1.21|
92382282|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.72|||||TWO_SIDED|95.0|1.6|4.64||||||Serogroup C-Vaccine comparison at day 4 - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||4.64|1.60|
92382283|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.61|||||TWO_SIDED|95.0|1.07|2.4||||||Serogroup C-Vaccine comparison at day 4 (Menveo-Menveo vs. Menactra-Menveo)||2.40|1.07|
92382284|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|13.75|||||TWO_SIDED|95.0|7.51|25.19||||||Serogroup C-Vaccine comparison at day 6 (Menveo-Menveo vs. Naive)||25.19|7.51|
92382285|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|13.42|||||TWO_SIDED|95.0|7.31|24.66||||||Serogroup C-Vaccine comparison at day 6 (Menactra-Menveo vs. Naive)||24.66|7.31|
92382286|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|13.59|||||TWO_SIDED|95.0|7.7|24.0||||||Serogroup C-Vaccine comparison at day 6 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||24.00|7.70|
92169362|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.67||||0.706|TWO_SIDED|95.0|-4.2|2.85||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Total, Week 12|||2.85|-4.20|0.706
92232599|NCT05300087|184367840|EQUIVALENCE|Bioequivalence would be demonstrated if the 90% confidence interval for the ratio of geometric means for Cmax between the test and reference products were completely contained within the FDA defined acceptance range of 80.00%-125.00%.|Ratio of geometric least square mean|1.014|||<|0.0001|TWO_SIDED|90.0|0.947|1.085|||ANOVA|||||1.085|0.947|<0.0001
92382287|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.02|||||TWO_SIDED|95.0|0.67|1.56||||||Serogroup C-Vaccine comparison at day 6 (Menveo-Menveo vs. Menactra-Menveo)||1.56|0.67|
92382288|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|19.43|||||TWO_SIDED|95.0|13.73|27.51||||||Serogroup C-Vaccine comparison at day 29 (Menveo-Menveo vs. Naive)||27.51|13.73|
92382289|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|17.72|||||TWO_SIDED|95.0|12.5|25.12||||||Serogroup C-Vaccine comparison at day 29 (Menactra-Menveo vs. Naive)||25.12|12.50|
92382290|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|18.57|||||TWO_SIDED|95.0|13.4|25.73||||||Serogroup C-Vaccine comparison at day 29 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||25.73|13.40|
92382291|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.1|||||TWO_SIDED|95.0|0.86|1.4||||||Serogroup C-Vaccine comparison at day 29 (Menveo-Menveo vs. Menactra-Menveo)||1.40|0.86|
92382292|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.88|||||TWO_SIDED|95.0|1.13|3.11||||||Serogroup W-Vaccine comparison at day 4 (Menveo-Menveo vs. Naive)||3.11|1.13|
92382293|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.46|||||TWO_SIDED|95.0|1.48|4.08||||||Serogroup W-Vaccine comparison at day 4 (Menactra-Menveo vs. Naive)||4.08|1.48|
92382294|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.14|||||TWO_SIDED|95.0|1.33|3.44||||||Serogroup W-Vaccine comparison at day 4 - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||3.44|1.33|
92382295|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.76|||||TWO_SIDED|95.0|0.53|1.1||||||Serogroup W-Vaccine comparison at day 4 (Menveo-Menveo vs. Menactra-Menveo)||1.10|0.53|
92382296|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|7.04|||||TWO_SIDED|95.0|4.05|12.22||||||Serogroup W-Vaccine comparison at day 6 (Menveo-Menveo vs. Naive)||12.22|4.05|
92382297|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|8.99|||||TWO_SIDED|95.0|5.16|15.66||||||Serogroup W-Vaccine comparison at day 6 (Menactra-Menveo vs. Naive)||15.66|5.16|
92382298|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|7.94|||||TWO_SIDED|95.0|4.72|13.35||||||Serogroup W-Vaccine comparison at day 6 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||13.35|4.72|
92382299|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.78|||||TWO_SIDED|95.0|0.54|1.14||||||Serogroup W-Vaccine comparison at day 6 (Menveo-Menveo vs. Menactra-Menveo)||1.14|0.54|
92414718|NCT03860935|184719658|SUPERIORITY||Least Squares Mean Difference|39.64|STANDARD_ERROR_OF_MEAN|9.477|<|0.0001|TWO_SIDED|96.0|20.18|59.1|||Mixed Models Analysis|||LS means are from a MMRM model with treatment group, visit, randomization stratification factors of genotype, NT-proBNP level and eGFR level (as recorded in IXRS) and treatment group-by-visit interaction as factors, and baseline value as covariate. Missing measurements due to early discontinuation of study treatment and due to death were imputed using the Jump to Reference (J2R) method and sampling with replacement from the worst 5% of observed values, respectively, as specified in study SAP.||59.10|20.18|<0.0001
92169363|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.89||||0.694|TWO_SIDED|95.0|-3.58|5.36||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Total, Week 26|||5.36|-3.58|0.694
92414719|NCT03860935|184719659|SUPERIORITY||Least Squares Mean Difference|9.94|STANDARD_ERROR_OF_MEAN|2.024|<|0.0001|TWO_SIDED|96.0|5.79|14.1|||Mixed Models Analysis|||LS means are from a MMRM model with treatment group, visit, randomization stratification factors of genotype, NT-proBNP level and eGFR level (as recorded in IXRS) and treatment group-by-visit interaction as factors, and baseline value as covariate. Missing measurements due to early discontinuation of study treatment and due to death were imputed using the Jump to Reference (J2R) method and sampling with replacement from the worst 5% of observed values, respectively, as specified in study SAP.||14.10|5.79|<0.0001
92414720|NCT03860935|184719660|SUPERIORITY||Least Squares Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|0.665|<|0.0001|TWO_SIDED|96.0|5.73|8.46|||Mixed Models Analysis|||LS means are from a MMRM model with treatment group, visit, randomization stratification factors of genotype, NT-proBNP level and eGFR level (as recorded in IXRS) and treatment group-by-visit interaction as factors, and baseline value as covariate. Missing measurements due to early discontinuation of study treatment and due to death were imputed using the Jump to Reference (J2R) method and sampling with replacement from the worst 5% of observed values, respectively, as specified in study SAP.||8.46|5.73|<0.0001
92414721|NCT03860935|184719661|SUPERIORITY||Relative Risk Reduction (%)|25.0||||0.0569|TWO_SIDED|||||Cochran-Mantel-Haenszel test is stratified by randomization stratification factors of genotype, NT-proBNP level and eGFR level as recorded in IXRS.|Cochran-Mantel-Haenszel|||||||0.0569
92382300|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|25.21|||||TWO_SIDED|95.0|17.83|35.65||||||Serogroup W-Vaccine comparison at day 29 (Menveo-Menveo vs. Naive)||35.65|17.83|
92382301|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|34.06|||||TWO_SIDED|95.0|24.06|48.23||||||Serogroup W-Vaccine comparison at day 29 (Menactra-Menveo vs. Naive)||48.23|24.06|
92382302|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|29.24|||||TWO_SIDED|95.0|21.09|40.52||||||Serogroup W-Vaccine comparison at day 29 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||40.52|21.09|
92382303|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.74|||||TWO_SIDED|95.0|0.58|0.94||||||Serogroup W-Vaccine comparison at day 29 (Menveo-Menveo vs. Menactra-Menveo)||0.94|0.58|
92382304|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.35|||||TWO_SIDED|95.0|1.36|4.07||||||Serogroup Y-Vaccine comparison at day 4 (Menveo-Menveo vs. Naive)||4.07|1.36|
92382305|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.62|||||TWO_SIDED|95.0|1.51|4.54||||||Serogroup Y-Vaccine comparison at day 4 (Menactra-Menveo vs. Naive)||4.54|1.51|
92414722|NCT01437995|184719670|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.3|0.69|1.65||||||||1.65|0.69|
92414723|NCT01437995|184719671|SUPERIORITY_OR_OTHER|||||||0.43|||||||Kruskal-Wallis|||||||0.43
92232600|NCT05300087|184367841|EQUIVALENCE|Bioequivalence would be demonstrated if the 90% confidence interval for the ratio of geometric means for AUC(0-t) between the test and reference products were completely contained within the FDA defined acceptance range of 80.00%-125.00%.|Ratio of geometric least square mean|1.022|||<|0.0001|TWO_SIDED|90.0|0.993|1.051|||ANOVA|||||1.051|0.993|<0.0001
92382306|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.48|||||TWO_SIDED|95.0|1.48|4.14||||||Serogroup Y-Vaccine comparison at day 4 - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||4.14|1.48|
92382307|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.9|||||TWO_SIDED|95.0|0.61|1.33||||||Serogroup Y-Vaccine comparison at day 4 (Menveo-Menveo vs. Menactra-Menveo)||1.33|0.61|
92414724|NCT01437995|184719671|SUPERIORITY_OR_OTHER|||||||0.022|||||||Kruskal-Wallis|||||||0.022
92414725|NCT01437995|184719671|SUPERIORITY_OR_OTHER|||||||0.002|||||||Kruskal-Wallis|||||||0.002
92414726|NCT01437995|184719672|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.63|1.41||||||||1.41|0.63|
92414727|NCT01437995|184719672|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.18|||||TWO_SIDED|95.0|0.8|1.73||||||||1.73|0.80|
92414728|NCT01437995|184719672|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.24|||||TWO_SIDED|95.0|0.83|1.81||||||||1.81|0.83|
92414729|NCT01437995|184719673|SUPERIORITY_OR_OTHER|||||||0.15|||||||Kruskal-Wallis|||Comparing change in pre-bronchodilator FEV1||||0.15
92414730|NCT01437995|184719673|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Kruskal-Wallis|||Comparing change in pre-bronchodilator FEV1||||<0.001
92414731|NCT01437995|184719673|SUPERIORITY_OR_OTHER|||||||0.027|||||||Kruskal-Wallis|||Comparing change in pre-bronchodilator FEV1||||0.027
92414732|NCT01437995|184719673|SUPERIORITY_OR_OTHER|||||||0.4|||||||Kruskal-Wallis|||Comparison of change in pre-bronchodilator FVC||||0.40
92414733|NCT01437995|184719673|SUPERIORITY_OR_OTHER|||||||0.032|||||||Kruskal-Wallis|||Comparison of change in pre-bronchodilator FVC||||0.032
92414734|NCT01437995|184719673|SUPERIORITY_OR_OTHER|||||||0.21|||||||Kruskal-Wallis|||Comparison of change in pre-bronchodilator FVC||||0.21
92414735|NCT01437995|184719674|SUPERIORITY_OR_OTHER|||||||0.14|||||||Kruskal-Wallis|||Comparison of change in FEV1/FVC ratio||||0.14
92414736|NCT01437995|184719674|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Kruskal-Wallis|||Comparison of change in FEV1/FVC ratio||||<0.001
92414737|NCT01437995|184719674|SUPERIORITY_OR_OTHER|||||||0.031|||||||Kruskal-Wallis|||Comparison of change in FEV1/FVC ratio||||0.031
92414738|NCT04456673|184719675|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Risk Difference (RD)|-0.435||||0.0002|TWO_SIDED|95.0|-0.682|-0.188|||Negative binomial model||Derived using delta method|Derived using negative binomial model with the total number of the events occurring during the 52-week treatment period as the response variable, and treatment group, region (pooled country), ICS dose, smoking status at screening, baseline disease severity, and number of moderate or severe COPD exacerbation events within one year prior to the study as covariates, and log-transformed treatment duration as an offset variable.||-0.188|-0.682|0.0002
92414739|NCT04456673|184719676|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least Square (LS) Mean Difference|0.082||||0.0001|TWO_SIDED|95.0|0.04|0.124|||MMRM model|||Derived from mixed-effect model with repeated measures (MMRM) model with the change from baseline in pre-bronchodilator FEV1 up to Week 12 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-bronchodilator FEV1, and FEV1 baseline-by-visit interaction as covariates.||0.124|0.040|0.0001
92414740|NCT04456673|184719677|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|LS Mean Difference|-3.371||||0.0068|TWO_SIDED|95.0|-5.811|-0.931|||MMRM model|||Derived from MMRM model with the change from baseline in SGRQ total score up to Week 52 as response variables, and treatment group, region (pooled country), ICS dose, smoking status at screening, treatment-by-visit interaction, baseline SGRQ total score, and SGRQ baseline-by-visit interaction as covariates.||-0.931|-5.811|0.0068
92169364|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.83||||0.382|TWO_SIDED|95.0|-9.23|3.58||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Total, Week 39|||3.58|-9.23|0.382
92169365|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49||||0.903|TWO_SIDED|95.0|-8.54|7.57||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Total, Week 52|||7.57|-8.54|0.903
92169366|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.67||||0.481|TWO_SIDED|95.0|-6.33|2.99||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Symptoms, Week 12|||2.99|-6.33|0.481
92169367|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.73||||0.793|TWO_SIDED|95.0|-4.79|6.25||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Symptoms, Week 26|||6.25|-4.79|0.793
92232601|NCT05300087|184367842|EQUIVALENCE|Bioequivalence would be demonstrated if the 90% confidence interval for the ratio of geometric means for AUC(0-inf) between the test and reference products were completely contained within the FDA defined acceptance range of 80.00%-125.00%.|Ratio of geometric least square mean|1.021|||<|0.0001|TWO_SIDED|90.0|0.994|1.048|||ANOVA|||||1.048|0.994|<0.0001
92232602|NCT01444300|184367847|SUPERIORITY_OR_OTHER|||||||0.51|||||||t-test, 2 sided|||t test comparing change in outcome between active and placebo||||0.51
92232603|NCT01444300|184367848|SUPERIORITY_OR_OTHER|||||||0.7|||||||t-test, 2 sided|||t test comparing change in outcome between active and placebo after 12 weeks.||||0.7
92414741|NCT04456673|184719678|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Odds Ratio (OR)|1.164||||0.3329|TWO_SIDED|95.0|0.856|1.581|||Regression, Logistic|||Derived from logistic regression model which includes treatment group, region (pooled country), ICS dose, smoking status at screening, and baseline SGRQ total score as covariates.||1.581|0.856|0.3329
92414742|NCT04456673|184719679|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|LS Mean Difference|0.062||||0.0182|TWO_SIDED|95.0|0.011|0.113|||MMRM model|||Derived from MMRM model with the change from baseline in pre-bronchodilator FEV1 up to Week 52 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-bronchodilator FEV1, and FEV1 baseline-by-visit interaction as covariates.||0.113|0.011|0.0182
92414743|NCT02700334|184719777|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92414744|NCT02700334|184719778|OTHER|||||||0.093|||||||Wilcoxon (Mann-Whitney)|||||||0.093
92414745|NCT02700334|184719779|OTHER|||||||0.878|||||||Wilcoxon (Mann-Whitney)|||||||0.878
92414746|NCT02700334|184719780|OTHER|||||||0.959|||||||Wilcoxon (Mann-Whitney)|||||||0.959
92414747|NCT02700334|184719781|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92414748|NCT02700334|184719782|OTHER|||||||0.331|||||||Wilcoxon (Mann-Whitney)|||||||0.331
92414749|NCT02700334|184719783|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92414750|NCT02700334|184719784|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92169368|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.6||||0.421|TWO_SIDED|95.0|-12.45|5.26||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Symptoms, Week 39|||5.26|-12.45|0.421
92169369|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.98||||0.162|TWO_SIDED|95.0|-19.35|3.4||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Symptoms, Week 52|||3.40|-19.35|0.162
92414751|NCT02700334|184719785|OTHER|||||||0.575|||||||Wilcoxon (Mann-Whitney)|||||||0.575
92232604|NCT01444300|184367849|SUPERIORITY_OR_OTHER|||||||0.8|||||||t-test, 2 sided|||t test comparing change in outcome between active and placebo||||0.8
92232605|NCT00741819|184367859|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|16.0|STANDARD_DEVIATION|35.9|<|0.001||95.0|||||Wilcoxon signed rank test]||Change in 6MWD from Baseline was calculated for patients still remaining on study at Week 12.|Analysis of endpoints was descriptive in nature. Numeric endpoints for post-baseline assessments were compared to Baseline using Wilcoxon signed rank test, and p-values were calculated for descriptive purposes; no formal hypothesis testing was planned.||||<0.001
92232606|NCT00741819|184367860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4|STANDARD_DEVIATION|7.7|<|0.001|||||||Wilcoxon signed rank test||Analysis based on Total CAMPHOR Score.|||||<0.001
92232607|NCT00741819|184367861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|21.3||0.895||95.0|||||Wilcoxon signed-rank test||Side-Effects Score, change from Baseline to Week 12|||||0.895
92232608|NCT00741819|184367861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.3|STANDARD_DEVIATION|25.9|<|0.001||95.0|||||Wilcoxon signed-rank test||Convenience Score, change from Baseline to Week 12|||||<0.001
92232609|NCT00741819|184367861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0|STANDARD_DEVIATION|23.7|<|0.001||95.0|||||Wilcoxon signed-rank test||Global Satisfaction, change from Baseline to Week 12|||||<0.001
92232610|NCT00741819|184367861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.9|STANDARD_DEVIATION|21.5|<|0.001||95.0|||||Wilcoxon signed rank test||Effectiveness score, change from Baseline to Week 12|||||<0.001
92232611|NCT00741819|184367863|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon signed-rank test|||||||0.001
92414752|NCT02700334|184719786|OTHER|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
92232612|NCT03040154|184367881|SUPERIORITY||Odds Ratio (OR)|2.67||||0.006|TWO_SIDED|95.0|1.33|5.35|||Regression, Logistic|||||5.35|1.33|0.006
92232613|NCT02382133|184367883|SUPERIORITY|comparing nasal and forehead oximetry sensor pressure ulcer incidence|||||=|0.006|||||||Chi-squared|||||||=.006
92232614|NCT01245647|184367916|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||||||0.82
92414753|NCT02700334|184719787|OTHER|||||||0.721|||||||Wilcoxon (Mann-Whitney)|||||||0.721
92232615|NCT01245647|184367917|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
92232616|NCT01245647|184367918|SUPERIORITY_OR_OTHER|||||||0.46|||||||Fisher Exact|||||||0.46
92232617|NCT01245647|184367919|SUPERIORITY_OR_OTHER|||||||0.12||||||no significant difference by Fisher exact test|Fisher Exact|||||||0.12
92232618|NCT01245647|184367920|SUPERIORITY_OR_OTHER|||||||0.67|||||||t-test, 2 sided|||||||0.67
92232619|NCT04321343|184367934|SUPERIORITY||Mean Difference (Final Values)|-25.313|STANDARD_ERROR_OF_MEAN|9.587||0.0083|TWO_SIDED|95.0|-44.1036|-6.5227|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-6.5227|-44.1036|0.0083
92232620|NCT04321343|184367934|SUPERIORITY||Mean Difference (Final Values)|-21.003|STANDARD_ERROR_OF_MEAN|9.287||0.0237|TWO_SIDED|95.0|-39.2074|-2.7991|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-2.7991|-39.2074|0.0237
92232621|NCT04321343|184367934|SUPERIORITY||Mean Difference (Final Values)|-23.748|STANDARD_ERROR_OF_MEAN|9.053||0.0087|TWO_SIDED|95.0|-41.4923|-6.0035|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-6.0035|-41.4923|0.0087
92414754|NCT02700334|184719788|OTHER|||||||0.066|||||||Wilcoxon (Mann-Whitney)|||||||0.066
92414755|NCT02700334|184719789|OTHER|||||||0.333|||||||Wilcoxon (Mann-Whitney)|||||||0.333
92414756|NCT02700334|184719790|OTHER|||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||0.859
92169370|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.23||||0.592|TWO_SIDED|95.0|-3.31|5.78||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Activity, Week 12|||5.78|-3.31|0.592
92232622|NCT04321343|184367935|SUPERIORITY||Hodges-Lehmann midpoint estimate|-26.226|STANDARD_ERROR_OF_MEAN|10.252||0.0105|TWO_SIDED|95.0|-46.3208|-6.1313|||Wilcoxon (Mann-Whitney)|Non-parametric pairwaise Wilcoxon tests using a multiple imputation procedure based on the fully conditional specification method.||||-6.1313|-46.3208|0.0105
92232623|NCT04321343|184367935|SUPERIORITY||Hodges-Lehmann midpoint estimate|-21.496|STANDARD_ERROR_OF_MEAN|9.873||0.0295|TWO_SIDED|95.0|-40.8475|-2.1451|||Wilcoxon (Mann-Whitney)|Non-parametric pairwaise Wilcoxon tests using a multiple imputation procedure based on the fully conditional specification method.||||-2.1451|-40.8475|0.0295
92232624|NCT04321343|184367935|SUPERIORITY||Hodges-Lehmann midpoint estimate|-24.29|STANDARD_ERROR_OF_MEAN|9.746||0.0127|TWO_SIDED|95.0|-43.392|-5.1884|||Wilcoxon (Mann-Whitney)|Non-parametric pairwaise Wilcoxon tests using a multiple imputation procedure based on the fully conditional specification method.||||-5.1884|-43.3920|0.0127
92232625|NCT04321343|184367936|SUPERIORITY||Mean Difference (Final Values)|-4.671|STANDARD_ERROR_OF_MEAN|1.824||0.0105|TWO_SIDED|95.0|-8.2463|-1.0957|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-1.0957|-8.2463|0.0105
92232626|NCT04321343|184367936|SUPERIORITY||Mean Difference (Final Values)|-4.097|STANDARD_ERROR_OF_MEAN|1.743||0.0188|TWO_SIDED|95.0|-7.514|-0.6799|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-0.6799|-7.5140|0.0188
92414757|NCT02700334|184719791|OTHER|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
92414758|NCT02700334|184719792|OTHER|||||||0.919|||||||Wilcoxon (Mann-Whitney)|||||||0.919
92414759|NCT02700334|184719793|OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.720
92414760|NCT02312882|184719816|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92414761|NCT00247611|184719829|SUPERIORITY_OR_OTHER|||||||0.12||||||The p-value was not adjusted for multiple comparisons, and thresholds for significance were 0.05 alpha two tailed.|HLM|||For the ITT sample, the observed pattern of an increasing proportion of participants in the intervention arm reporting perfect adherence as time progressed from was associated with a p-value of 0.12, two-tailed alpha 0.05.||||0.12
92169371|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.03||||0.704|TWO_SIDED|95.0|-4.31|6.36||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Activity, Week 26|||6.36|-4.31|0.704
92169372|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.41||||0.546|TWO_SIDED|95.0|-10.32|5.5||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Activity, Week 39|||5.50|-10.32|0.546
92382308|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|9.82|||||TWO_SIDED|95.0|5.47|17.64||||||Serogroup Y-Vaccine comparison at day 6 (Menveo-Menveo vs. Naive)||17.64|5.47|
92382309|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|9.55|||||TWO_SIDED|95.0|5.31|17.19||||||Serogroup Y-Vaccine comparison at day 6 (Menactra-Menveo vs. Naive)||17.19|5.31|
92382310|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|9.69|||||TWO_SIDED|95.0|5.59|16.79||||||Serogroup Y-Vaccine comparison at day 6 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||16.79|5.59|
92382311|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.03|||||TWO_SIDED|95.0|0.69|1.54||||||Serogroup Y-Vaccine comparison at day 6 (Menveo-Menveo vs. Menactra-Menveo)||1.54|0.69|
92382312|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|28.52|||||TWO_SIDED|95.0|20.23|40.2||||||Serogroup Y-Vaccine comparison at day 29 (Menveo-Menveo vs. Naive)||40.20|20.23|
92382313|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|26.94|||||TWO_SIDED|95.0|19.09|38.02||||||Serogroup Y-Vaccine comparison at day 29 (Menactra-Menveo vs. Naive)||38.02|19.09|
92382314|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|27.73|||||TWO_SIDED|95.0|20.1|38.26||||||Serogroup Y-Vaccine comparison at day 29 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||38.26|20.10|
92169373|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.39||||0.35|TWO_SIDED|95.0|-5.06|13.84||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Activity, Week 52|||13.84|-5.06|0.350
92169374|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.69||||0.411|TWO_SIDED|95.0|-5.75|2.37||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Impact, Week 12|||2.37|-5.75|0.411
92169375|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35||||0.896|TWO_SIDED|95.0|-5.67|4.97||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Impact, Week 26|||4.97|-5.67|0.896
92382315|NCT02986854|184666898|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.06|||||TWO_SIDED|95.0|0.83|1.35||||||Serogroup Y-Vaccine comparison at day 29 (Menveo-Menveo vs. Menactra-Menveo)||1.35|0.83|
92382316|NCT01555125|184666917|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92382317|NCT01555125|184666917|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92382318|NCT01555125|184666918|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92382319|NCT01555125|184666918|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92382320|NCT04836247|184666940|SUPERIORITY||Mean Difference (Final Values)|1.63|||<|0.001|TWO_SIDED|||||\<.001 is calculated p-value in SPSS.|t-test, 2 sided|||||||<.001
92382321|NCT04836247|184666941|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.001|TWO_SIDED|||||\<.001 is calculated p-value in SPSS.|t-test, 2 sided|||||||<.001
92382322|NCT04836247|184666942|SUPERIORITY||Mean Difference (Final Values)|2.61|||<|0.001|TWO_SIDED|||||\<.001 is calculated p-value in SPSS.|t-test, 2 sided|||||||<.001
92382323|NCT04836247|184666943|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.74|TWO_SIDED||||||t-test, 2 sided|||||||0.74
92382324|NCT04836247|184666944|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.76|TWO_SIDED||||||t-test, 2 sided|||||||0.76
92382325|NCT04836247|184666945|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.44|TWO_SIDED||||||t-test, 2 sided|||||||0.44
92232627|NCT04321343|184367936|SUPERIORITY||Mean Difference (Final Values)|-4.321|STANDARD_ERROR_OF_MEAN|1.689||0.0105|TWO_SIDED|95.0|-7.6307|-1.0104|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-1.0104|-7.6307|0.0105
92232628|NCT04321343|184367937|SUPERIORITY||Odds Ratio (OR)|2.61||||0.1634|TWO_SIDED|95.0|0.677|10.087|||Cochran-Mantel-Haenszel|CMH with multiple imputation||||10.087|0.677|0.1634
92232629|NCT04321343|184367937|SUPERIORITY||Odds Ratio (OR)|3.26||||0.0722|TWO_SIDED|95.0|0.899|11.831|||Cochran-Mantel-Haenszel|CMH with multiple imputation||||11.831|0.899|0.0722
92232630|NCT04321343|184367937|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0703|TWO_SIDED|95.0|0.909|11.052|||Cochran-Mantel-Haenszel|CMH with multiple imputation||||11.052|0.909|0.0703
92232631|NCT04321343|184367938|SUPERIORITY||Mean Difference (Final Values)|-6.5|STANDARD_ERROR_OF_MEAN|8.2||0.4318|TWO_SIDED|95.0|-22.66|9.72|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||9.72|-22.66|0.4318
92382326|NCT02039856|184666946|SUPERIORITY|Difference-in-differences using ordered logistic regression, adjusting for age, gender, race/ethnicity, marital status, employment, education, dual use of VA and non-VA for care, diagnosis of PTSD, and the population weights, which were the product of design weights and non-response weights. We verified that proportional odds assumption was met.|Odds Ratio (OR)|0.913|STANDARD_ERROR_OF_MEAN|0.175||0.637|TWO_SIDED|95.0|0.627|1.33|||difference-in-differences analysis||The estimated value is predicted change in the odds of WH-PACT achievement, adjusting for characteristics described in the statistical analysis overview.|Change in the odds of achieving a higher WH-PACT element.||1.33|0.627|0.637
92414762|NCT00247611|184719829|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||The p-value was not adjusted for multiple comparisons, and thresholds for significance was 0.05 alpha, two tailed.|HLM|||For the on protocol sample, study arm was associated with perfect ACTG-assessed 3-day ARV adherence at p = 0.024, alpha two-tailed.||||0.024
92414763|NCT00247611|184719830|SUPERIORITY_OR_OTHER||||||>|0.5||95.0||||No adjustments were made.|Generalized Linear Model (GLM)|||For the ITT or OP samples, the significance threshold between groups over time for differential increases in proportion with suppressed (undetectable) viral load was p \> 0.50. The study was underpowered to detect differences in Viral load.||||>0.50
92232632|NCT04321343|184367938|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|8.0||0.8382|TWO_SIDED|95.0|-17.37|14.1|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||14.10|-17.37|0.8382
92232633|NCT04321343|184367938|SUPERIORITY||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|7.7||0.4982|TWO_SIDED|95.0|-9.92|20.33|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||20.33|-9.92|0.4982
92232634|NCT04321343|184367939|SUPERIORITY||Odds Ratio (OR)|0.72||||0.7137|TWO_SIDED|95.0|0.131|3.935|||Cochran-Mantel-Haenszel|||||3.935|0.131|0.7137
92232635|NCT04321343|184367939|SUPERIORITY||Odds Ratio (OR)|3.7||||0.0597|TWO_SIDED|95.0|0.937|14.58|||Cochran-Mantel-Haenszel|||||14.580|0.937|0.0597
92414764|NCT00247611|184719831|SUPERIORITY_OR_OTHER|||||||0.12||0.0||||The p-value was not adjusted for multiple comparisons and is reported as 0.12 at alpha 0.05 two tailed|HLM|||For the ITT sample (t=586) the observed pattern of an increasing proportion of participants in the intervention arm reporting perfect adherence as time progressed from baseline was associated with a p-value of 0.12, alpha 0.05 two-tailed.||||0.12
92414765|NCT00247611|184719831|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||The p-value was not adjusted for multiple comparisons, and is reported as 0.12 at alpha 0.05 two tailed.|HLM|||For the on protocol sample the pattern of increased proportion of participants in the intervention arm reporting perfect adherence as time progressed from baseline was associated with a p-value of 0.12, alpha 0.05 two-tailed.||||0.12
92232636|NCT04321343|184367939|SUPERIORITY||Odds Ratio (OR)|2.61||||0.1749|TWO_SIDED|95.0|0.655|10.43|||Cochran-Mantel-Haenszel|||||10.430|0.655|0.1749
92232637|NCT04321343|184367940|SUPERIORITY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|8.8||0.7449|TWO_SIDED|95.0|-20.15|14.43|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||14.43|-20.15|0.7449
92232638|NCT04321343|184367940|SUPERIORITY||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|8.6||0.7255|TWO_SIDED|95.0|-19.93|13.9|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||13.90|-19.93|0.7255
92232639|NCT04321343|184367940|SUPERIORITY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|8.2||0.7755|TWO_SIDED|95.0|-13.89|18.59|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||18.59|-13.89|0.7755
92232640|NCT04321343|184367941|SUPERIORITY||Odds Ratio (OR)|3.12||||0.1325|TWO_SIDED|95.0|0.703|13.806|||Cochran-Mantel-Haenszel|||||13.806|0.703|0.1325
92232641|NCT04321343|184367941|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9918|TWO_SIDED|95.0|0.201|4.898|||Cochran-Mantel-Haenszel|||||4.898|0.201|0.9918
92232642|NCT04321343|184367941|SUPERIORITY||Odds Ratio (OR)|4.78||||0.041|TWO_SIDED|95.0|1.053|21.714|||Cochran-Mantel-Haenszel|||||21.714|1.053|0.0410
92232643|NCT04321343|184367942|SUPERIORITY||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|10.3||0.4413|TWO_SIDED|95.0|-28.25|12.36|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||12.36|-28.25|0.4413
92232644|NCT04321343|184367942|SUPERIORITY||Mean Difference (Final Values)|-17.6|STANDARD_ERROR_OF_MEAN|10.2||0.0859|TWO_SIDED|95.0|-37.63|2.5|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||2.50|-37.63|0.0859
92232645|NCT04321343|184367942|SUPERIORITY||Median Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|10.0||0.7887|TWO_SIDED|95.0|-22.31|16.97|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||16.97|-22.31|0.7887
92232646|NCT04321343|184367943|SUPERIORITY||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|3.7||0.1166|TWO_SIDED|95.0|-13.19|1.47|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||1.47|-13.19|0.1166
92382327|NCT02039856|184666947|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for gender, race/ethnicity, years worked at VA, worked in women's health clinic vs general primary care clinic, clinician status vs staff status, fulltime employment, percent of women veterans enrolled at the VA facility. We adjusted our analysis using the population weights, which were the product of design weights and non-response weights.|Median Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.1195||0.006|TWO_SIDED|95.0|0.1|0.57|||Regression, Linear||The estimated value reported here is the predicted mean change over time, adjusting for characteristics described in the statistical analysis overview.|Change in gender sensitivity score between EBQI and control over time||0.57|0.10|0.006
92382328|NCT02039856|184666948|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for gender, race/ethnicity, years worked at VA, worked in women's health clinic vs general primary care clinic, clinician status vs staff status, fulltime employment, percent of women veterans enrolled at the VA facility. We adjusted our analysis using the population weights, which were the product of design weights and non-response weights.|Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.2253||0.055|TWO_SIDED|95.0|-0.01|0.87|||Regression, Linear||The estimated value reported here is the predicted mean change over time, adjusting for characteristics described in the statistical analysis overview.|Change in team functioning score between EBQI and control over time.||0.87|-0.01|0.055
92382329|NCT02039856|184666949|SUPERIORITY|We adjusted our analysis using the population weights, which were the product of design weights and non-response weights|Odds Ratio (OR)|0.36|STANDARD_ERROR_OF_MEAN|0.1922||0.058|TWO_SIDED|95.0|0.13|1.04|||Regression, Logistic||The estimated value is the predicted mean, adjusting for weights, worked in women's health vs general PC clinic, years worked at the VA, race/ethnicity, gender, full-time employment, and percent of women veterans enrolled at the VA facility.|||1.04|0.13|0.058
92382330|NCT02039856|184666950|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for age, gender, race/ethnicity, marital status, employment, education, dual use of VA and non-VA for care, diagnosis of PTSD. We adjusted our analysis using the population weights, which were the product of design weights and non-response weights.|Median Difference (Net)|1.25|STANDARD_ERROR_OF_MEAN|0.56||0.008|TWO_SIDED|95.0|0.14|2.36|||Regression, Linear||The estimated value is predicted change in the number of VA primary care visits, adjusting for characteristics described in the statistical analysis overview.|Change in number of patient primary care visits between EBQI and control over time||2.36|0.14|0.008
92414766|NCT00247611|184719832|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||P-value for difference in unemployment rate between On Protocol (OP) sample, and participants excluded from on protocol analysis.||||<0.001
92414767|NCT00247611|184719832|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Chi-squared|||P-value for difference of participants on disability between On Protocol (OP) sample, and participants excluded from on protocol analysis.||||<0.01
92414768|NCT04345367|184719839|SUPERIORITY||Estimate of difference|22.6|||<|0.0001|TWO_SIDED|95.0|15.8|29.5||Cochran-Mantel-Haenszel (CMH) method adjusted by baseline disease severity.|Cochran-Mantel-Haenszel||The estimate and confidence interval (CI) for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||29.5|15.8|<0.0001
92169376|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.21||||0.559|TWO_SIDED|95.0|-9.73|5.3||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Impact, Week 39|||5.30|-9.73|0.559
92232647|NCT04321343|184367943|SUPERIORITY||Mean Difference (Final Values)|-11.0|STANDARD_ERROR_OF_MEAN|3.7||0.003|TWO_SIDED|95.0|-18.26|-3.8|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-3.80|-18.26|0.0030
92232648|NCT04321343|184367943|SUPERIORITY||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|3.5||0.0131|TWO_SIDED|95.0|-15.79|-1.87|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-1.87|-15.79|0.0131
92414769|NCT04345367|184719840|SUPERIORITY||Estimate of difference|14.1|||<|0.0001|TWO_SIDED|95.0|8.2|20.0||CMH method adjusted by baseline disease severity.|Cochran-Mantel-Haenszel||The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.0|8.2|<0.0001
92414770|NCT04345367|184719841|SUPERIORITY||Estimate of difference|12.5||||0.0008|TWO_SIDED|95.0|5.3|19.7||CMH method adjusted by baseline disease severity.|Cochran-Mantel-Haenszel||The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||19.7|5.3|0.0008
92414771|NCT04345367|184719842|OTHER||Estimate of difference|4.5|||||TWO_SIDED|95.0|0.2|8.7|||||Week 2. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||8.7|0.2|
92414772|NCT04345367|184719842|OTHER||Estimate of difference|20.0|||||TWO_SIDED|95.0|13.2|26.9|||||Week 8. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||26.9|13.2|
92414773|NCT04345367|184719842|OTHER||Estimate of difference|14.0|||||TWO_SIDED|95.0|6.9|21.1|||||Week 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||21.1|6.9|
92414774|NCT04345367|184719842|OTHER||Estimate of difference|12.7|||||TWO_SIDED|95.0|5.5|20.0|||||Week 20. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.0|5.5|
92414775|NCT04345367|184719842|OTHER||Estimate of difference|6.9|||||TWO_SIDED|95.0|-0.4|14.3|||||Week 26. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||14.3|-0.4|
92232649|NCT04321343|184367944|SUPERIORITY||Mean Difference (Final Values)|-1.013|STANDARD_ERROR_OF_MEAN|1.481||0.4963|TWO_SIDED|95.0|-3.9701|1.9436|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||1.9436|-3.9701|0.4963
92232650|NCT04321343|184367944|SUPERIORITY||Mean Difference (Final Values)|-0.712|STANDARD_ERROR_OF_MEAN|1.402||0.6131|TWO_SIDED|95.0|-3.5109|2.0866|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||2.0866|-3.5109|0.6131
92232651|NCT04321343|184367944|SUPERIORITY||Mean Difference (Final Values)|-1.441|STANDARD_ERROR_OF_MEAN|1.362||0.2939|TWO_SIDED|95.0|-4.1593|1.2779|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||1.2779|-4.1593|0.2939
92232652|NCT04321343|184367945|SUPERIORITY||Mean Difference (Final Values)|-0.063|STANDARD_ERROR_OF_MEAN|0.211||0.7672|TWO_SIDED|95.0|-0.4845|0.3589|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.3589|-0.4845|0.7672
92232653|NCT04321343|184367945|SUPERIORITY||Mean Difference (Final Values)|-0.127|STANDARD_ERROR_OF_MEAN|0.198||0.5233|TWO_SIDED|95.0|-0.5216|0.2678|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.2678|-0.5216|0.5233
92232654|NCT04321343|184367945|SUPERIORITY||Mean Difference (Final Values)|-0.279|STANDARD_ERROR_OF_MEAN|0.18||0.1263|TWO_SIDED|95.0|-0.6376|0.0805|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.0805|-0.6376|0.1263
92232655|NCT04321343|184367946|SUPERIORITY||Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.165||0.8662|TWO_SIDED|95.0|-0.3559|0.3002|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.3002|-0.3559|0.8662
92232656|NCT04321343|184367946|SUPERIORITY||Mean Difference (Final Values)|-0.094|STANDARD_ERROR_OF_MEAN|0.166||0.5726|TWO_SIDED|95.0|-0.4253|0.2369|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.2369|-0.4253|0.5726
92232657|NCT04321343|184367946|SUPERIORITY||Mean Difference (Final Values)|-0.186|STANDARD_ERROR_OF_MEAN|0.153||0.2289|TWO_SIDED|95.0|-0.4907|0.1192|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.1192|-0.4907|0.2289
92232658|NCT04321343|184367947|SUPERIORITY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.254||0.8595|TWO_SIDED|95.0|-0.5509|0.4607|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.4607|-0.5509|0.8595
92278301|NCT01694485|184458542|SUPERIORITY|The study was powered for formal statistical testing of the abrilumab 70 mg and 210 mg groups. To account for multiplicity of statistical testing, primary and key secondary end points for the 2 highest doses of abrilumab (70 and 210 mg) were tested at the end of the 8-week induction period under a sequential framework at a 2-sided significance level of 0.10 using the Bonferroni-based chain procedure.|Odds Ratio (OR)|3.35||||0.021|TWO_SIDED|90.0|1.41|7.95|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||7.95|1.41|0.021
92382331|NCT02039856|184666951|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for adjusted for survey weights, age, gender, race/ethnicity, marital status, employment, education, dual use of VA and non-VA for care, diagnosis of PTSD, and the population weights, which were the product of design weights and non-response weights.|Median Difference (Net)|1.69|STANDARD_ERROR_OF_MEAN|0.413||0|TWO_SIDED|95.0|0.88|2.51|||Regression, Linear||The estimated value is predicted change in the number of VA women's health visits, adjusting for characteristics described in the statistical analysis overview.|Change in number of patient visits to women's health care between EBQI and control over time||2.51|0.88|0.000
92232659|NCT04321343|184367947|SUPERIORITY||Mean Difference (Final Values)|-0.222|STANDARD_ERROR_OF_MEAN|0.25||0.3776|TWO_SIDED|95.0|-0.7194|0.2759|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.2759|-0.7194|0.3776
92414776|NCT04345367|184719843|OTHER||Estimate of difference|8.1|||||TWO_SIDED|95.0|1.8|14.4|||||Week 2. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||14.4|1.8|
92232660|NCT04321343|184367947|SUPERIORITY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.232||0.0424|TWO_SIDED|95.0|-0.9426|0.017|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.0170|-0.9426|0.0424
92232661|NCT04321343|184367948|SUPERIORITY||Odds Ratio (OR)|3.31||||0.1084|TWO_SIDED|95.0|0.775|14.152|||Cochran-Mantel-Haenszel|||||14.152|0.775|0.1084
92232662|NCT04321343|184367948|SUPERIORITY||Odds Ratio (OR)|4.11||||0.0562|TWO_SIDED|95.0|0.959|17.594|||Cochran-Mantel-Haenszel|||||17.594|0.959|0.0562
92232663|NCT04321343|184367948|SUPERIORITY||Odds Ratio (OR)|1.87||||0.3333|TWO_SIDED|95.0|0.501|6.948|||Cochran-Mantel-Haenszel|||||6.948|0.501|0.3333
92232664|NCT04321343|184367949|SUPERIORITY||Odds Ratio (OR)|1.21||||0.7677|TWO_SIDED|95.0|0.345|4.23|||Cochran-Mantel-Haenszel|||||4.230|0.345|0.7677
92232665|NCT04321343|184367949|SUPERIORITY||Odds Ratio (OR)|1.62||||0.4828|TWO_SIDED|95.0|0.434|6.012|||Cochran-Mantel-Haenszel|||||6.012|0.434|0.4828
92232666|NCT04321343|184367949|SUPERIORITY||Odds Ratio (OR)|1.97||||0.2711|TWO_SIDED|95.0|0.598|6.486|||Cochran-Mantel-Haenszel|||||6.486|0.598|0.2711
92232667|NCT04321343|184367950|SUPERIORITY||Odds Ratio (OR)|1.44||||0.5981|TWO_SIDED|95.0|0.376|5.547|||Cochran-Mantel-Haenszel|||||5.547|0.376|0.5981
92232668|NCT04321343|184367950|SUPERIORITY||Odds Ratio (OR)|1.42||||0.6228|TWO_SIDED|95.0|0.363|5.572|||Cochran-Mantel-Haenszel|||||5.572|0.363|0.6228
92232669|NCT04321343|184367950|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8799|TWO_SIDED|95.0|0.245|3.323|||Cochran-Mantel-Haenszel|||||3.323|0.245|0.8799
92232670|NCT04321343|184367951|SUPERIORITY||Odds Ratio (OR)|3.28||||0.1474|TWO_SIDED|95.0|0.625|17.208|||Cochran-Mantel-Haenszel|||||17.208|0.625|0.1474
92232671|NCT04321343|184367951|SUPERIORITY||Odds Ratio (OR)|2.65||||0.262|TWO_SIDED|95.0|0.481|14.631|||Cochran-Mantel-Haenszel|||||14.631|0.481|0.2620
92232672|NCT04321343|184367951|SUPERIORITY||Odds Ratio (OR)|0.7||||0.6935|TWO_SIDED|95.0|0.117|4.133|||Cochran-Mantel-Haenszel|||||4.133|0.117|0.6935
92232673|NCT04321343|184367952|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.6384|TWO_SIDED|95.0|-0.35|0.215|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.215|-0.350|0.6384
92232674|NCT04321343|184367952|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.14||0.0549|TWO_SIDED|95.0|-0.547|0.006|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.006|-0.547|0.0549
92232675|NCT04321343|184367952|SUPERIORITY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.14||0.003|TWO_SIDED|95.0|-0.683|-0.142|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-0.142|-0.683|0.0030
92414777|NCT04345367|184719843|OTHER||Estimate of difference|20.9|||||TWO_SIDED|95.0|13.8|28.0|||||Week 4. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||28.0|13.8|
92232676|NCT04321343|184367953|SUPERIORITY||Mean Difference (Final Values)|-0.051|STANDARD_ERROR_OF_MEAN|0.389||0.8961|TWO_SIDED|95.0|-0.8165|0.7149|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.7149|-0.8165|0.8961
92232677|NCT04321343|184367953|SUPERIORITY||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.384||0.671|TWO_SIDED|95.0|-0.5935|0.9204|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.9204|-0.5935|0.6710
92232678|NCT04321343|184367953|SUPERIORITY||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.364||0.9846|TWO_SIDED|95.0|-0.7092|0.7233|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.7233|-0.7092|0.9846
92232679|NCT04321343|184367954|SUPERIORITY||Mean Difference (Final Values)|-84.93|STANDARD_ERROR_OF_MEAN|36.75||0.0216|TWO_SIDED|95.0|-157.306|-12.558|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-12.558|-157.306|0.0216
92382332|NCT02039856|184666952|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for adjusted for survey weights, age, gender, race/ethnicity, marital status, employment, education, dual use of VA and non-VA for care, diagnosis of PTSD. We adjusted our analysis using the population weights, which were the product of design weights and non-response weights.|Median Difference (Net)|-0.018|STANDARD_ERROR_OF_MEAN|0.068||0.794|TWO_SIDED|95.0|-0.15|0.12|||Regression, Linear||The estimated value is predicted change in the number of VA hospitalization, adjusting for characteristics described in the statistical analysis overview.|Change in number of patient hospitalization for any cause between EBQI and control over time||0.12|-0.15|0.794
92382333|NCT02039856|184666953|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for adjusted for survey weights, age, gender, race/ethnicity, marital status, employment, education, dual use of VA and non-VA for care, diagnosis of PTSD. We adjusted our analysis using the population weights, which were the product of design weights and non-response weights.|Median Difference (Net)|0.021|STANDARD_ERROR_OF_MEAN|0.15||0.888|TWO_SIDED|95.0|-0.265|0.306|||Regression, Linear||The estimated value is predicted change in the number of VA emergency room visits, adjusting for characteristics described in the statistical analysis overview.|Change in number of emergency room visits for any cause between EBQI and control over time||0.306|-0.265|0.888
92382334|NCT01174173|184666969|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||A two-sided t-test was performed with p-value \< 0.05 was considered statistically significant a priori.|t-test, 2 sided|||||||0.0013
92382335|NCT01174173|184666970|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED|||||A two-sided t-test was performed for change in 6-minute walk test and p-value \< 0.05 was considered statistically significant a priori.|t-test, 2 sided|||||||0.09
92382336|NCT01174173|184666971|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED|||||A two-sided t-test was performed for difference from baseline and 3-month KCCQ score. A p-value of \<0.05 was considered statistically significant a priori.|t-test, 2 sided|||||||0.37
92382337|NCT01174173|184666973|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||t-test, 2 sided|||||||0.037
92382338|NCT01174173|184666974|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||t-test, 2 sided|||||||0.66
92382339|NCT00602420|184666975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67||||0.037|TWO_SIDED|95.0|0.1|3.24|||t-test, 2 sided|||Tested at the two-sided 0.05 significance level.||3.24|0.10|0.037
92382340|NCT00602420|184666975|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Tested at the two-sided 0.05 significance level.||||0.007
92169377|NCT02299375|184227213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.29||||0.809|TWO_SIDED|95.0|-12.19|9.6||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Impact, Week 52|||9.60|-12.19|0.809
92232680|NCT04321343|184367954|SUPERIORITY||Mean Difference (Final Values)|-46.61|STANDARD_ERROR_OF_MEAN|35.72||0.1931|TWO_SIDED|95.0|-116.957|23.738|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||23.738|-116.957|0.1931
92382341|NCT03335774|184667020|SUPERIORITY|To determine if the 'hydrocortisone' arm was indeed superior than 'placebo' to reduce swelling and itching associated with internal hemorrhoids||||||0.8918|TWO_SIDED|95.0|||||t-test, 2 sided|||The statistical analyses were conducted using SAS software Version 9.4.All statistical tests were two-sided at a significance level of α = 0.05. Continuous data were presented using descriptive statistics (i.e. number of subjects, mean, SD, median, minimum, and maximum).Baseline value of each assessment was defined as the latest available assessment obtained prior to the first administration of the study drug.||||0.8918
92382342|NCT03335774|184667021|SUPERIORITY|To determine if the 'hydrocortisone' arm was indeed superior than 'placebo' to reduce swelling and itching associated with internal hemorrhoids||||||0.8323|TWO_SIDED|95.0|||||t-test, 2 sided|||The statistical analyses were conducted using SAS software Version 9.4.All statistical tests were two-sided at a significance level of α = 0.05. Continuous data were presented using descriptive statistics (i.e. number of subjects, mean, SD, median, minimum, and maximum).Baseline value of each assessment was defined as the latest available assessment obtained prior to the first administration of the study drug.||||0.8323
92414778|NCT04345367|184719843|OTHER||Estimate of difference|18.4|||||TWO_SIDED|95.0|11.4|25.3|||||Week 8. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||25.3|11.4|
92414779|NCT04345367|184719843|OTHER||Estimate of difference|14.9|||||TWO_SIDED|95.0|8.2|21.5|||||Week 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||21.5|8.2|
92414780|NCT04345367|184719843|OTHER||Estimate of difference|9.5|||||TWO_SIDED|95.0|3.0|16.0|||||Week 16. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||16.0|3.0|
92382343|NCT00746863|184667026|SUPERIORITY_OR_OTHER|||||||0.0251||95.0||||A Bonferroni correction was used when evaluating the VAS results to adjust for multiple comparisons.|Wilcoxon (Mann-Whitney)|||A 2.0 cm difference on a 10.0 cm VAS scale was clinically significant. Assuming a power of 80% to detect a 2.0 difference on scores between groups, standard deviation of 2.2, an α of 0.05, then, 21 patients would be needed in each group for a total of 42 subjects. A t-test was used in comparing the intervention and control groups, if continuous variables were approximately normal. If data were not approximately normal, a Mann-Whitney Wilcoxon test was used in comparing the two groups.||||0.0251
92382344|NCT00746863|184667027|SUPERIORITY_OR_OTHER|||||||0.0923||95.0||||Adjusted for multiple comparisions|Wilcoxon (Mann-Whitney)|||A t-test was used in comparing the intervention and control groups, if continuous variables were approximately normal. If data were not approximately normal, a Mann-Whitney Wilcoxon test was used in comparing the two groups.||||0.0923
92382345|NCT00746863|184667028|SUPERIORITY_OR_OTHER|||||||0.4756||95.0|||||Chi-squared|||Chi square was performed to compared the two groups and the patient's ability to pass their voiding trial prior to discharge||||0.4756
92382346|NCT00746863|184667029|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||A Bonferroni correction was used when evaluating the VAS results to adjust for multiple comparisons.|Wilcoxon (Mann-Whitney)|||A t-test was used in comparing the intervention and control groups, if continuous variables were approximately normal. If data were not approximately normal, a Mann-Whitney Wilcoxon test was used in comparing the two groups. Normality of continuous variables was assessed using the Shapiro-Wilk test. For categorical data, Fisher's exact test was used to evaluate the data. A Bonferroni correction was used when evaluating the VAS results to adjust for multiple comparisons.||||0.258
92414781|NCT04345367|184719843|OTHER||Estimate of difference|5.0|||||TWO_SIDED|95.0|-1.4|11.5|||||Week 20. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.5|-1.4|
92414782|NCT04345367|184719843|OTHER||Estimate of difference|0.7|||||TWO_SIDED|95.0|-5.9|7.2|||||Week 26. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||7.2|-5.9|
92414783|NCT04345367|184719844|OTHER||Estimate of difference|7.3|||||TWO_SIDED|95.0|2.8|11.7|||||Week 2. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.7|2.8|
92414784|NCT04345367|184719844|OTHER||Estimate of difference|20.6|||||TWO_SIDED|95.0|14.3|26.9|||||Week 4. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||26.9|14.3|
92414785|NCT04345367|184719844|OTHER||Estimate of difference|19.5|||||TWO_SIDED|95.0|12.5|26.4|||||Week 8. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||26.4|12.5|
92414786|NCT04345367|184719844|OTHER||Estimate of difference|15.8|||||TWO_SIDED|95.0|8.7|23.0|||||Week 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||23.0|8.7|
92414787|NCT04345367|184719844|OTHER||Estimate of difference|13.0|||||TWO_SIDED|95.0|5.9|20.2|||||Week 16. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.2|5.9|
92414788|NCT04345367|184719844|OTHER||Estimate of difference|9.2|||||TWO_SIDED|95.0|2.0|16.4|||||Week 20. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||16.4|2.0|
92169378|NCT00704184|184227232|SUPERIORITY_OR_OTHER||Adjusted difference in %|69.3|||<|0.001|TWO_SIDED|95.0|40.3|86.7|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of placebo responders (5.3%) and stratifies by HCV genotype (1a vs. non-1a).|||86.7|40.3|<0.001
92382347|NCT00746863|184667030|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||A Bonferroni correction was used when evaluating the VAS results to adjust for multiple comparisons.|Wilcoxon (Mann-Whitney)|||A t-test was used in comparing the intervention and control groups, if continuous variables were approximately normal. If data were not approximately normal, a Mann-Whitney Wilcoxon test was used in comparing the two groups. Normality of continuous variables was assessed using the Shapiro-Wilk test. For categorical data, Fisher's exact test was used to evaluate the data. A Bonferroni correction was used when evaluating the VAS results to adjust for multiple comparisons.||||0.435
92382348|NCT00082407|184667049|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified non-inferiority margin was 0.4% (i.e., noninferiority is demonstrated if the upper limit of a two-sided 95% confidence interval for the difference in change in HbA1c between exenatide and biphasic insulin aspart is less than 0.4%.)|Mean Difference (Final Values)|-0.1||||0.2534||95.0|-0.28|0.08|||ANCOVA|||||0.08|-0.28|0.2534
92414789|NCT04345367|184719844|OTHER||Estimate of difference|4.5|||||TWO_SIDED|95.0|-2.8|11.8|||||Week 26. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.8|-2.8|
92414790|NCT04345367|184719845|OTHER||Estimate of difference|7.1|||||TWO_SIDED|95.0|3.1|11.1|||||Day 2. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.1|3.1|
92414791|NCT04345367|184719845|OTHER||Estimate of difference|6.5|||||TWO_SIDED|95.0|1.7|11.3|||||Day 3. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.3|1.7|
92414792|NCT04345367|184719845|OTHER||Estimate of difference|11.4|||||TWO_SIDED|95.0|6.0|16.8|||||Day 4. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||16.8|6.0|
92232681|NCT04321343|184367954|SUPERIORITY||Mean Difference (Final Values)|-63.4|STANDARD_ERROR_OF_MEAN|33.31||0.0581|TWO_SIDED|95.0|-129.002|2.194|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||2.194|-129.002|0.0581
92232682|NCT04321343|184367955|SUPERIORITY||Mean Difference (Final Values)|-0.256|STANDARD_ERROR_OF_MEAN|0.153||0.0958|TWO_SIDED|95.0|-0.5577|0.0456|||Mixed Models Analysis|Mixed Models Analysis|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.0456|-0.5577|0.0958
92232683|NCT04321343|184367955|SUPERIORITY||Mean Difference (Final Values)|-0.273|STANDARD_ERROR_OF_MEAN|0.148||0.0659|TWO_SIDED|95.0|-0.5648|0.0181|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.0181|-0.5648|0.0659
92232684|NCT04321343|184367955|SUPERIORITY||Mean Difference (Final Values)|-0.301|STANDARD_ERROR_OF_MEAN|0.138||0.0297|TWO_SIDED|95.0|-0.5728|-0.03|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-0.0300|-0.5728|0.0297
92232685|NCT04321343|184367956|SUPERIORITY||Mean Difference (Final Values)|-0.197|STANDARD_ERROR_OF_MEAN|0.175||0.2606|TWO_SIDED|95.0|-0.5423|0.1476|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.1476|-0.5423|0.2606
92232686|NCT04321343|184367956|SUPERIORITY||Mean Difference (Final Values)|-0.234|STANDARD_ERROR_OF_MEAN|0.17||0.1709|TWO_SIDED|95.0|-0.569|0.1016|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.1016|-0.5690|0.1709
92232687|NCT04321343|184367956|SUPERIORITY||Mean Difference (Final Values)|-0.321|STANDARD_ERROR_OF_MEAN|0.155||0.04|TWO_SIDED|95.0|-0.6274|-0.0148|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-0.0148|-0.6274|0.0400
92382349|NCT00082407|184667050|SUPERIORITY_OR_OTHER|||||||0.0779||95.0|||||Fisher Exact|||||||0.0779
92382350|NCT00082407|184667051|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|||||||0.0001
92382351|NCT00082407|184667052|SUPERIORITY_OR_OTHER|||||||0.6456||95.0|||||ANCOVA|||||||0.6456
92382352|NCT00082407|184667054|SUPERIORITY_OR_OTHER|||||||0.7888||95.0|||||Fisher Exact|||||||0.7888
92382353|NCT00082407|184667055|SUPERIORITY_OR_OTHER|||||||0.3722||95.0|||||ANCOVA|||||||0.3722
92382354|NCT03464019|184667056|SUPERIORITY||Hazard Ratio (HR)|1.086||||0.1212|TWO_SIDED|95.0|0.726|1.623|||Peto-Peto test|||In Part 1, participants who converted following medical assistance were censored at the time of conversion after medical assistance. Participants who presented missing data from time t to the end were censored at the time of last available data. Participants who did not convert or were not censored before 5 hours were censored at 5 hours.||1.623|0.726|0.1212
92382355|NCT03464019|184667056|SUPERIORITY||Hazard Ratio (HR)|2.857|||<|0.001|TWO_SIDED|95.0|1.868|4.371||The threshold for statistical significance was p \< 0.05.|Wilcoxon|||In Parts 2 and 3, participants converting after additional medication interventions were censored after the end of the observation period.||4.371|1.868|<0.001
92382356|NCT00767806|184667057|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Mixed Models Analysis|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory 24-hour average pain score after 12 weeks of treatment.||||0.001
92382357|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.002|TWO_SIDED|95.0|-1.12|-0.25||P-value is for BPI severity of worst pain - change|ANCOVA|Main effect model: Change = Treatment + Investigator + Baseline (Type III sums of square)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory severity of worst pain score during 12 weeks of treatment.||-0.25|-1.12|0.002
92382358|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.006|TWO_SIDED|95.0|-0.85|-0.14||P-value is for BPI severity of least pain - change|ANCOVA|Main effect model: Change = Treatment + Investigator + Baseline (Type III sums of square)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory severity of least pain score during 12 weeks of treatment.||-0.14|-0.85|0.006
92382359|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|||<|0.001|TWO_SIDED|95.0|-1.25|-0.46||P-value is for BPI severity of pain right now - change|ANCOVA|Main effect model: Change = Treatment + Investigator + Baseline (Type III sums of square)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory severity of pain right now score during 12 weeks of treatment.||-0.46|-1.25|<0.001
92382360|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|||<|0.001|TWO_SIDED|95.0|-1.16|-0.35||P-value is for BPI interference with general activity - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with general activity score during 12 weeks of treatment.||-0.35|-1.16|<0.001
92382361|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|||<|0.001|TWO_SIDED|95.0|-1.09|-0.34||P-value is for BPI interference with mood score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with mood score during 12 weeks of treatment.||-0.34|-1.09|<0.001
92382362|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.02|TWO_SIDED|95.0|-0.84|-0.07||P-value is for BPI interference with walking ability - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with walking ability score during 12 weeks of treatment.||-0.07|-0.84|0.020
92382363|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.012|TWO_SIDED|95.0|-0.9|-0.11||P-value is for BPI interference with normal work - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with normal work score during 12 weeks of treatment.||-0.11|-0.90|0.012
92382364|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.001|TWO_SIDED|95.0|-0.92|-0.22||P-value is for BPI interference with relations to others - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with relations to others score during 12 weeks of treatment.||-0.22|-0.92|0.001
92382365|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.002|TWO_SIDED|95.0|-1.13|-0.27||P-value is for BPI interference with sleep score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with sleep score during 12 weeks of treatment.||-0.27|-1.13|0.002
92382366|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.005|TWO_SIDED|95.0|-0.96|-0.18||P-value is for BPI interference with enjoyment of life score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with enjoyment of life score during 12 weeks of treatment.||-0.18|-0.96|0.005
92382367|NCT00767806|184667058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|||<|0.001|TWO_SIDED|95.0|-0.92|-0.25||P-value is for BPI average interference score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory average interference score during 12 weeks of treatment.||-0.25|-0.92|<0.001
92382368|NCT00767806|184667059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.05|-0.35||p-value is for weekly 24-hour average pain rating score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the weekly 24-hour average pain rating score during 12 weeks of treatment.||-0.35|-1.05|<0.001
92382369|NCT00767806|184667059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|||<|0.001|TWO_SIDED|95.0|-1.08|-0.33||p-value is for weekly 24-hour worst pain score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the weekly 24-hour worst pain score during 12 weeks of treatment.||-0.33|-1.08|<0.001
92382370|NCT00767806|184667059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.004|TWO_SIDED|95.0|-0.87|-0.17||p-value is for weekly 24-hour night pain score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the weekly 24-hour night pain score during 12 weeks of treatment.||-0.17|-0.87|0.004
92414793|NCT04345367|184719845|OTHER||Estimate of difference|14.5|||||TWO_SIDED|95.0|8.8|20.3|||||Day 5. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.3|8.8|
92169379|NCT00704184|184227232|SUPERIORITY_OR_OTHER||Adjusted difference in %|73.6|||<|0.001|TWO_SIDED|95.0|46.0|88.6|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of placebo responders (5.3%) and stratifies by HCV genotype (1a vs. non-1a).|||88.6|46.0|<0.001
92169380|NCT00704184|184227232|SUPERIORITY_OR_OTHER||Adjusted difference in %|63.3|||<|0.001|TWO_SIDED|95.0|32.8|82.7|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of placebo responders (5.3%) and stratifies by HCV genotype (1a vs. non-1a).|||82.7|32.8|<0.001
92382371|NCT00767806|184667060|SUPERIORITY_OR_OTHER|||||||0.108||95.0||||p-value is for number of patients who achieve a \>=30% reduction of the Brief Pain Inventory average pain severity rating - difference between placebo and duloxetine|Fisher Exact|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in number of patients who achieve a \>=30% reduction of the Brief Pain Inventory average pain severity rating after 12 weeks of treatment.||||0.108
92382372|NCT00767806|184667061|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||p-value is for number of patients who achieve a \>=50% reduction of the Brief Pain Inventory average pain severity rating - difference between placebo and duloxetine|Fisher Exact|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in number of patients who achieve a \>=50% reduction of the Brief Pain Inventory average pain severity rating after 12 weeks of treatment.||||0.006
92382373|NCT00767806|184667062|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||p-value is difference between duloxetine and placebo in number of patients who achieve criteria described in null hypothesis|Fisher Exact|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in number of patients who achieve a \>=30% reduction of the Brief Pain Inventory (BPI) average pain severity rating from baseline to endpoint and baseline to earlier visit than last visit and maintains a \>=20% reduction of BPI average pain rating from baseline at every visit.||||0.082
92382374|NCT00767806|184667063|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||p-value is for difference between duloxetine and placebo groups in the empirical overall cumulated distribution of the percentage pain reduction|Kolnogorov-Smirnov test|||Tested was the null hypothesis that there is no difference between duloxetine and placebo groups in the empirical cumulated distribution of the percentage pain reduction.||||0.013
92414794|NCT04345367|184719845|OTHER||Estimate of difference|12.9|||||TWO_SIDED|95.0|6.9|19.0|||||Day 6. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||19.0|6.9|
92382375|NCT00767806|184667064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.077|TWO_SIDED|95.0|-0.33|0.02||p-value is for difference between placebo and duloxetine groups in change of the Clinical Global Impression of Severity score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Clinical Global Impression of Severity score after 12 weeks of treatment.||0.02|-0.33|0.077
92382376|NCT00767806|184667065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.011|TWO_SIDED|95.0|-0.56|-0.07||p-value is for difference between placebo and duloxetine groups Patient's Global Impression of Improvement endpoint value|ANCOVA|Main Effect Model: PGI-I=Treatment+Investigator+Baseline(Type III sums of squares). PGI-Severity score from baseline visit was used as the baseline.||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups Patient's Global Impression of Improvement endpoint value during 12 weeks of treatment.||-0.07|-0.56|0.011
92382377|NCT00767806|184667066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.255|TWO_SIDED|95.0|-1.28|0.34||p-value is for difference between placebo and duloxetine groups in change of the Roland Morris Disability Questionnaire total score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Roland Morris Disability Questionnaire total score during 12 weeks of treatment.||0.34|-1.28|0.255
92382378|NCT00767806|184667067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|||<|0.001|TWO_SIDED|95.0|-1.38|-0.37||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Tension-Anxiety subscore|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Tension-Anxiety subscore during 12 weeks of treatment.||-0.37|-1.38|<0.001
92382379|NCT00767806|184667067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.133|TWO_SIDED|95.0|-0.9|0.12||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Depression-Dejection subscore|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Depression-Dejection subscore during 12 weeks of treatment.||0.12|-0.90|0.133
92414795|NCT04345367|184719845|OTHER||Estimate of difference|19.9|||||TWO_SIDED|95.0|13.8|26.0|||||Day 7. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||26.0|13.8|
92232688|NCT04321343|184367957|SUPERIORITY||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.012||0.3955|TWO_SIDED|95.0|-0.0139|0.0351|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.0351|-0.0139|0.3955
92232689|NCT04321343|184367957|SUPERIORITY||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.012||0.3081|TWO_SIDED|95.0|-0.0115|0.0362|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.0362|-0.0115|0.3081
92232690|NCT04321343|184367957|SUPERIORITY||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.011||0.1374|TWO_SIDED|95.0|-0.0053|0.0383|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.0383|-0.0053|0.1374
92232691|NCT04321343|184367958|SUPERIORITY||Mean Difference (Final Values)|-48.94|STANDARD_ERROR_OF_MEAN|20.86||0.0199|TWO_SIDED|95.0|-90.073|-7.817|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-7.817|-90.073|0.0199
92232692|NCT04321343|184367958|SUPERIORITY||Mean Difference (Final Values)|-29.77|STANDARD_ERROR_OF_MEAN|18.66||0.112|TWO_SIDED|95.0|-66.558|7.009|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||7.009|-66.558|0.1120
92382380|NCT00767806|184667067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92|||<|0.001|TWO_SIDED|95.0|-1.46|-0.37||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Anger-Hostility score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Anger-Hostility score during 12 weeks of treatment.||-0.37|-1.46|<0.001
92382381|NCT00767806|184667067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.13||||0.003|TWO_SIDED|95.0|0.38|1.88||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Vigor-Activity score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Vigor-Activity score during 12 weeks of treatment.||1.88|0.38|0.003
92414796|NCT04345367|184719845|OTHER||Estimate of difference|22.1|||||TWO_SIDED|95.0|15.9|28.3|||||Day 8. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||28.3|15.9|
92414797|NCT04345367|184719845|OTHER||Estimate of difference|21.7|||||TWO_SIDED|95.0|15.2|28.1|||||Day 9. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||28.1|15.2|
92414798|NCT04345367|184719845|OTHER||Estimate of other|21.3|||||TWO_SIDED|95.0|14.7|27.9|||||Day 10. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||27.9|14.7|
92414799|NCT04345367|184719845|OTHER||Estimate of difference|20.0|||||TWO_SIDED|95.0|13.3|26.6|||||Day 11. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||26.6|13.3|
92414800|NCT04345367|184719845|OTHER||Estimate of difference|21.3|||||TWO_SIDED|95.0|14.6|27.9|||||Day 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||27.9|14.6|
92414801|NCT04345367|184719845|OTHER||Estimate of difference|22.5|||||TWO_SIDED|95.0|15.8|29.2|||||Day 13. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||29.2|15.8|
92169381|NCT00704184|184227232|SUPERIORITY_OR_OTHER||Adjusted difference in %|77.8|||<|0.001|TWO_SIDED|95.0|49.2|91.3|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of placebo responders (5.3) and stratifies by HCV genotype (1a vs. non-1a).|||91.3|49.2|<0.001
92232693|NCT04321343|184367958|SUPERIORITY||Mean Difference (Final Values)|-54.64|STANDARD_ERROR_OF_MEAN|17.9||0.0026|TWO_SIDED|95.0|-89.935|-19.34|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-19.340|-89.935|0.0026
92382382|NCT00767806|184667067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.469|TWO_SIDED|95.0|-0.93|0.43||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Fatigue-Inertia score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Fatigue-Inertia score during 12 weeks of treatment.||0.43|-0.93|0.469
92382383|NCT00767806|184667067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.006|TWO_SIDED|95.0|-0.98|-0.17||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Confusion-Bewilderment score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Confusion-Bewilderment score during 12 weeks of treatment.||-0.17|-0.98|0.006
92382384|NCT00767806|184667067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.001|TWO_SIDED|95.0|-6.41|-1.6||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Total Mood Disturbance score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Total Mood Disturbance score during 12 weeks of treatment.||-1.60|-6.41|0.001
92382385|NCT00767806|184667068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24||||0.168|TWO_SIDED|95.0|-0.53|3.02||p-value is for difference between placebo and duloxetine groups in change of the 36-SF Health Survey Physical Component score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the 36-SF Health Survey Physical Component score during 12 weeks of treatment.||3.02|-0.53|0.168
92382386|NCT00767806|184667068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.24||||0.01|TWO_SIDED|95.0|0.53|3.96||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Mental Component score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Mental Component score during 12 weeks of treatment.||3.96|0.53|0.010
92382387|NCT00767806|184667068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.58||||0.016|TWO_SIDED|95.0|0.86|8.3||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Bodily Pain Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Bodily Pain Transformed score during 12 weeks of treatment.||8.30|0.86|0.016
92382388|NCT00767806|184667068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.88|||<|0.001|TWO_SIDED|95.0|2.15|7.61||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Mental Health Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Mental Health Transformed score during 12 weeks of treatment.||7.61|2.15|<0.001
92382389|NCT00767806|184667068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.58||||0.101|TWO_SIDED|95.0|-0.5|5.67||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey General Health Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey General Health Transformed score during 12 weeks of treatment.||5.67|-0.50|0.101
92382390|NCT00767806|184667068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.058|TWO_SIDED|95.0|-0.12|7.12||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Physical Functioning Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Physical Functioning Transformed score during 12 weeks of treatment.||7.12|-0.12|0.058
92414802|NCT04345367|184719845|OTHER||Estimate of difference|22.4|||||TWO_SIDED|95.0|15.6|29.2|||||Day 14. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||29.2|15.6|
92414803|NCT04345367|184719845|OTHER||Estimate of difference|22.9|||||TWO_SIDED|95.0|16.0|29.9|||||Day 15. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||29.9|16.0|
92169382|NCT00704184|184227235|SUPERIORITY_OR_OTHER||Adjusted difference|11.2|||||TWO_SIDED|95.0|-9.7|33.8|||||Adjusted difference subtracts the percentage of placebo responders (88.9%) and stratifies by HCV genotype (1a vs. non-1a).|||33.8|-9.7|
92232694|NCT04321343|184367959|SUPERIORITY||Mean Difference (Final Values)|1.674|STANDARD_ERROR_OF_MEAN|0.896||0.0639|TWO_SIDED|95.0|-0.098|3.447|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||3.4470|-0.0980|0.0639
92414804|NCT04345367|184719846|OTHER||Estimate of difference|17.3|||||TWO_SIDED|95.0|10.1|24.5|||||Week 4. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||24.5|10.1|
92382391|NCT00767806|184667068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.43||||0.227|TWO_SIDED|95.0|-1.52|6.37||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Role-Emotional Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Role-Emotional Transformed score during 12 weeks of treatment.||6.37|-1.52|0.227
92382392|NCT00767806|184667068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.91||||0.383|TWO_SIDED|95.0|-2.39|6.21||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Role-Physical Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Role-Physical Transformed score during 12 weeks of treatment.||6.21|-2.39|0.383
92382393|NCT00767806|184667068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.03|TWO_SIDED|95.0|0.38|7.61||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Social Functioning Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Social Functioning Transformed score during 12 weeks of treatment.||7.61|0.38|0.030
92382394|NCT00767806|184667068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1||||0.022|TWO_SIDED|95.0|0.59|7.6||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Vitality Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Vitality Transformed score during 12 weeks of treatment.||7.60|0.59|0.022
92382395|NCT00767806|184667069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|||<|0.001|TWO_SIDED|95.0|0.03|0.12||p-value is for difference between placebo and duloxetine groups in change of the European Quality of Life Questionnaire - 5 Dimension - United Kingdom population-based Index score|ANCOVA|Main Effect Model: Change = Treatment + Investigator (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the European Quality of Life Questionnaire - 5 Dimension - United Kingdom population-based Index score during 12 weeks of treatment.||0.12|0.03|<0.001
92382396|NCT00767806|184667069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.002|TWO_SIDED|95.0|0.02|0.08||p-value is for difference between placebo and duloxetine groups in change of the European Quality of Life Questionnaire - 5 Dimension - United States population-based index score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the European Quality of Life Questionnaire - 5 Dimension - United States population-based index score during 12 weeks of treatment.||0.08|0.02|0.002
92414805|NCT04345367|184719846|OTHER||Estimate of difference|13.0|||||TWO_SIDED|95.0|6.0|20.1|||||Week 8. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.1|6.0|
92232695|NCT04321343|184367959|SUPERIORITY||Mean Difference (Final Values)|2.831|STANDARD_ERROR_OF_MEAN|0.867||0.0014|TWO_SIDED|95.0|1.1149|4.5464|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||4.5464|1.1149|0.0014
92232696|NCT04321343|184367959|SUPERIORITY||Mean Difference (Final Values)|4.876|STANDARD_ERROR_OF_MEAN|0.848|<|0.0001|TWO_SIDED|95.0|3.1982|6.5543|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||6.5543|3.1982|<0.0001
92382397|NCT00767806|184667070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.461|TWO_SIDED|95.0|-0.03|0.06||p-value is for difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Absenteeism score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Absenteeism score during 12 weeks of treatment.||0.06|-0.03|0.461
92382398|NCT00767806|184667070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.374|TWO_SIDED|95.0|-0.09|0.03||p-value is for difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Presenteeism score|ANCOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Presenteeism score during 12 weeks of treatment.||0.03|-0.09|0.374
92414806|NCT04345367|184719846|OTHER||Estimate of difference|4.4|||||TWO_SIDED|95.0|-2.5|11.4|||||Week 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.4|-2.5|
92414807|NCT04345367|184719846|OTHER||Estimate of difference|3.6|||||TWO_SIDED|95.0|-3.4|10.5|||||Week 16. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||10.5|-3.4|
92414808|NCT04345367|184719846|OTHER||Estimate of difference|2.0|||||TWO_SIDED|95.0|-4.9|9.0|||||Week 20. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||9.0|-4.9|
92414809|NCT04345367|184719846|OTHER||Estimate of difference|5.0|||||TWO_SIDED|95.0|-1.9|11.9|||||Week 26. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.9|-1.9|
92382399|NCT00767806|184667070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.557|TWO_SIDED|95.0|-0.09|0.05||p-value is for difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Work Productivity Loss score|ANCOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Work Productivity Loss score during 12 weeks of treatment.||0.05|-0.09|0.557
92232697|NCT04321343|184367960|SUPERIORITY||Mean Difference (Final Values)|1.183|STANDARD_ERROR_OF_MEAN|0.909||0.1944|TWO_SIDED|95.0|-0.608|2.9748|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||2.9748|-0.6080|0.1944
92232698|NCT04321343|184367960|SUPERIORITY||Mean Difference (Final Values)|2.459|STANDARD_ERROR_OF_MEAN|0.879||0.0056|TWO_SIDED|95.0|0.7268|4.1907|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||4.1907|0.7268|0.0056
92232699|NCT04321343|184367960|SUPERIORITY||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.858||0.4288|TWO_SIDED|95.0|-1.0111|2.372|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||2.3720|-1.0111|0.4288
92232700|NCT04321343|184367961|SUPERIORITY||Mean Difference (Final Values)|-1.251|STANDARD_ERROR_OF_MEAN|1.093||0.2564|TWO_SIDED|95.0|-3.4307|0.9295|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.9295|-3.4307|0.2564
92382400|NCT00767806|184667070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.007|TWO_SIDED|95.0|-0.1|-0.02||p-value is for difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Activity Impairment score|ANCOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Activity Impairment score during 12 weeks of treatment.||-0.02|-0.10|0.007
92382401|NCT00767806|184667072|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||p-value is for difference between placebo and duloxetine groups in uric acid - change|ANOVA|Change Variable = Treatment + Investigator (Type III sums of squares). Rank-transformed change was used as change variable in the ANOVA model.||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of uric acid during 12 weeks of treatment.||||0.010
92382402|NCT00767806|184667073|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||p-value is for difference between duloxetine and placebo in albumin - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of Albumin during 12 weeks of treatment.||||0.031
92382403|NCT00767806|184667074|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||p-value is for difference between duloxetine and placebo in alkaline phosphatase - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of alkaline phosphatase during 12 weeks of treatment.||||0.004
92382404|NCT00767806|184667075|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||p-value is for difference between duloxetine and placebo in alanine aminotransferase - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of Alanine Aminotransferase during 12 weeks of treatment.||||0.013
92382405|NCT00767806|184667076|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||p-value for difference between duloxetine and placebo in aspartate aminotransferase - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of aspartate aminotransferase during 12 weeks of treatment.||||0.039
92382406|NCT00767806|184667077|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||p-value is for difference between duloxetine and placebo in creatinine - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of creatinine during 12 weeks of treatment.||||0.024
92382407|NCT00767806|184667078|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||p-value is for difference between duloxetine and placebo in total protein - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of total protein during 12 weeks of treatment.||||0.019
92382408|NCT00767806|184667079|SUPERIORITY_OR_OTHER|||||||0.329||95.0||||p-value is for difference between placebo and duloxetine groups in change of systolic blood pressure|ANOVA|Main Effect Model: Change = Treatment + Investigator (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of systolic blood pressure during 12 weeks of treatment.||||0.329
92382409|NCT00767806|184667079|SUPERIORITY_OR_OTHER|||||||0.562||95.0||||p-value is for difference between placebo and duloxetine groups in change of diastolic blood pressure|ANOVA|Main Effect Model: Change = Treatment + Investigator (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of diastolic blood pressure during 12 weeks of treatment.||||0.562
92382410|NCT00767806|184667081|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||p-value is for difference between duloxetine and placebo in pulse rate - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of pulse rate during 12 weeks of treatment.||||0.680
92414810|NCT04345367|184719848|OTHER||Least square mean difference|-9.3|||||TWO_SIDED|95.0|-14.0|-4.6|||||Week 2. Analysis was performed using Mixed Model Repeated Measure (MMRM) with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-4.6|-14.0|
92382411|NCT00858208|184667086|SUPERIORITY_OR_OTHER|||||||0.0072|TWO_SIDED||||||paired t-test|||||||0.0072
92382412|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.0433|TWO_SIDED||||||paired t-test|||Change from baseline at Week 6||||0.0433
92382413|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.0133|TWO_SIDED||||||paired t-test|||Change from baseline at Week 12||||0.0133
92382414|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.0278|TWO_SIDED||||||paired t-test|||Change from baseline at Week 18||||0.0278
92382415|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||paired t-test|||Change from baseline at Week 24||||0.0160
92414811|NCT04345367|184719848|OTHER||Least square mean difference|-12.5|||||TWO_SIDED|95.0|-17.4|-7.6|||||Week 4. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-7.6|-17.4|
92382416|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.0264|TWO_SIDED||||||paired t-test|||Change from baseline at Week 30||||0.0264
92382417|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.0278|TWO_SIDED||||||paired t-test|||Change from baseline at Week 36||||0.0278
92382418|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.1854|TWO_SIDED||||||paired t-test|||Change from baseline at Week 42||||0.1854
92414812|NCT04345367|184719848|OTHER||Least square mean difference|-11.1|||||TWO_SIDED|95.0|-15.6|-6.6|||||Week 8. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-6.6|-15.6|
92414813|NCT04345367|184719848|OTHER||Least square mean difference|-9.4|||||TWO_SIDED|95.0|-13.7|-5.1|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-5.1|-13.7|
92232701|NCT04321343|184367961|SUPERIORITY||Mean Difference (Final Values)|-1.598|STANDARD_ERROR_OF_MEAN|1.021||0.1222|TWO_SIDED|95.0|-3.6348|0.4392|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.4392|-3.6348|0.1222
92414814|NCT04345367|184719848|OTHER||Least square mean difference|-6.9|||||TWO_SIDED|95.0|-10.9|-2.9|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-2.9|-10.9|
92414815|NCT04345367|184719848|OTHER||Least square mean difference|-5.3|||||TWO_SIDED|95.0|-9.0|-1.7|||||Week 20. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.7|-9.0|
92414816|NCT04345367|184719848|OTHER||Least square mean difference|-3.4|||||TWO_SIDED|95.0|-7.1|0.4|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-7.1|
92414817|NCT04345367|184719849|OTHER||Least square mean difference|-11.0|||||TWO_SIDED|95.0|-14.5|-7.6|||||Week 2. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-7.6|-14.5|
92414818|NCT04345367|184719849|OTHER||Least square mean difference|-12.8|||||TWO_SIDED|95.0|-16.0|-9.5|||||Week 4. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-9.5|-16.0|
92414819|NCT04345367|184719849|OTHER||Least square mean difference|-10.2|||||TWO_SIDED|95.0|-13.6|-6.8|||||Week 8. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-6.8|-13.6|
92414820|NCT04345367|184719849|OTHER||Least square mean difference|-7.3|||||TWO_SIDED|95.0|-10.5|-4.1|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-4.1|-10.5|
92232702|NCT04321343|184367961|SUPERIORITY||Mean Difference (Final Values)|-2.22|STANDARD_ERROR_OF_MEAN|0.936||0.0206|TWO_SIDED|95.0|-4.088|-0.351|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||-0.3510|-4.0880|0.0206
92414821|NCT04345367|184719849|OTHER||Least square mean difference|-6.1|||||TWO_SIDED|95.0|-9.3|-3.0|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-3.0|-9.3|
92232703|NCT04321343|184367962|SUPERIORITY||Odds Ratio (OR)|1.51||||0.5221|TWO_SIDED|95.0|0.436|5.201|||Cochran-Mantel-Haenszel|||||5.201|0.436|0.5221
92232704|NCT04321343|184367962|SUPERIORITY||Odds Ratio (OR)|1.62||||0.4828|TWO_SIDED|95.0|0.434|6.012|||Cochran-Mantel-Haenszel|||||6.012|0.434|0.4828
92232705|NCT04321343|184367962|SUPERIORITY||Odds Ratio (OR)|2.87||||0.0914|TWO_SIDED|95.0|0.853|9.636|||Cochran-Mantel-Haenszel|||||9.636|0.853|0.0914
92414822|NCT04345367|184719849|OTHER||Least square mean difference|-4.9|||||TWO_SIDED|95.0|-8.2|-1.7|||||Week 20. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.7|-8.2|
92232706|NCT04321343|184367963|SUPERIORITY||Odds Ratio (OR)|2.71||||0.1854|TWO_SIDED|95.0|0.628|11.679|||Cochran-Mantel-Haenszel|||||11.679|0.628|0.1854
92382419|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.1684|TWO_SIDED||||||paired t-test|||Change from baseline at Week 48||||0.1684
92232707|NCT04321343|184367963|SUPERIORITY||Odds Ratio (OR)|4.11||||0.0562|TWO_SIDED|95.0|0.959|17.594|||Cochran-Mantel-Haenszel|||||17.594|0.959|0.0562
92382420|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.4718|TWO_SIDED||||||paired t-test|||Change from baseline at Week 54||||0.4718
92382421|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.434|TWO_SIDED||||||paired t-test|||Change from baseline at Week 60||||0.4340
92382422|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.7765|TWO_SIDED||||||paired t-test|||Change from baseline at Week 66||||0.7765
92382423|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.7544|TWO_SIDED||||||paired t-test|||Change from baseline at Week 72||||0.7544
92382424|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.7201|TWO_SIDED||||||paired t-test|||Change from baseline at Week 84||||0.7201
92382425|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.5692|TWO_SIDED||||||paired t-test|||Change from baseline at Week 90||||0.5692
92382426|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.2749|TWO_SIDED||||||paired t-test|||Change from baseline at Week 96||||0.2749
92382427|NCT00858208|184667087|SUPERIORITY_OR_OTHER|||||||0.2749|TWO_SIDED||||||paired t-test|||Change from baseline at Week 102||||0.2749
92382428|NCT00858208|184667089|SUPERIORITY_OR_OTHER|||||||0.297|TWO_SIDED||||||paired t-test|||Change at Month 6||||0.2970
92414823|NCT04345367|184719849|OTHER||Least square mean difference|-3.3|||||TWO_SIDED|95.0|-6.6|0.1|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.1|-6.6|
92414824|NCT04345367|184719850|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.4|0.4|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-0.4|
92382429|NCT00858208|184667089|SUPERIORITY_OR_OTHER|||||||0.1392|TWO_SIDED||||||paired t-test|||Change at Month 12||||0.1392
92382430|NCT00858208|184667089|SUPERIORITY_OR_OTHER|||||||0.0573|TWO_SIDED||||||paired t-test|||Change at Month 18||||0.0573
92382431|NCT00858208|184667089|SUPERIORITY_OR_OTHER|||||||0.7625|TWO_SIDED||||||paired t-test|||Change at Month 24||||0.7625
92382432|NCT00858208|184667090|SUPERIORITY_OR_OTHER|||||||0.2759|TWO_SIDED||||||paired t-test|||||||0.2759
92382433|NCT01272635|184667100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.04|TWO_SIDED|95.0|0.41|0.98|||Discrete time survival analysis||Hazard ratio: Numerator is Azithromycin and Denominator is Placebo|||0.98|0.41|0.04
92382434|NCT01543776|184667106|NON_INFERIORITY|The above criteria for non-inferiority corresponds to a response rate in the low dose arm that is no more than 15% lower than the response rate in the high dose arm (i.e., non-inferiority margin of 15%), under the assumption that the log ratios are approximately normally distributed.|Mean Difference (Final Values)|0.3976|||<|0.1|ONE_SIDED|90.0|-0.1111|||Calculated p-value.|t-test, 1 sided||||||-0.1111|<0.10
92382435|NCT01543776|184667107|SUPERIORITY|||||||0.38|||||||Log Rank|||||||0.38
92382436|NCT01543776|184667108|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
92382437|NCT01543776|184667109|SUPERIORITY|||||||0.26|||||||Fisher Exact|||||||0.26
92382438|NCT01543776|184667110|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
92382439|NCT02870101|184667125|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|94.7|||||TWO_SIDED|95.0|90.7|97.0|||||PPA estimated with two-sided 95% score confidence interval.|||97.0|90.7|
92414825|NCT04345367|184719850|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.3|0.5|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.5|-0.3|
92414826|NCT04345367|184719850|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.3|0.6|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.6|-0.3|
92414827|NCT04345367|184719851|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.3|0.3|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.3|-0.3|
92414828|NCT04345367|184719851|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.5|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.5|-0.2|
92414829|NCT04345367|184719851|OTHER||Least square mean difference|0.2|||||TWO_SIDED|95.0|-0.1|0.6|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.6|-0.1|
92414830|NCT04345367|184719852|OTHER||Least square mean difference|-2.0|||||TWO_SIDED|95.0|-2.6|-1.3|||||Week 2. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.3|-2.6|
92414831|NCT04345367|184719852|OTHER||Least square mean difference|-1.0|||||TWO_SIDED|95.0|-1.6|-0.4|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.4|-1.6|
92382440|NCT02870101|184667125|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|98.8|||||TWO_SIDED|95.0|98.2|99.1|||||NPA estimated with two-sided 95% score confidence interval.|||99.1|98.2|
92382441|NCT02870101|184667126|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|91.2|||||TWO_SIDED|95.0|86.5|94.4|||||PPA estimated with two-sided 95% score confidence interval.|||94.4|86.5|
92382442|NCT02870101|184667126|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.6|||||TWO_SIDED|95.0|99.3|99.8|||||NPA estimated with two-sided 95% score confidence interval.|||99.8|99.3|
92382443|NCT02870101|184667127|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Equivocal; ASIS Indeterminate + Index Test Negative; ASIS Indeterminate)|PPA|95.1|||||TWO_SIDED|95.0|91.3|97.3|||||PPA estimated with two-sided 95% score confidence interval.|||97.3|91.3|
92382444|NCT02870101|184667127|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Equivocal; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|98.8|||||TWO_SIDED|95.0|98.3|99.2|||||NPA estimated with two-sided 95% score confidence interval.|||99.2|98.3|
92382445|NCT02870101|184667128|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|96.5|||||TWO_SIDED|95.0|92.9|98.3|||||PPA estimated with two-sided 95% score confidence interval.|||98.3|92.9|
92382446|NCT02870101|184667128|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.2|||||TWO_SIDED|95.0|98.8|99.5|||||NPA estimated with two-sided 95% score confidence interval.|||99.5|98.8|
92382447|NCT02870101|184667129|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|84.8|||||TWO_SIDED|95.0|79.4|89.0|||||PPA estimated with two-sided 95% score confidence interval.|||89.0|79.4|
92414832|NCT04345367|184719852|OTHER||Least square mean difference|-0.8|||||TWO_SIDED|95.0|-1.4|-0.2|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.2|-1.4|
92382448|NCT02870101|184667129|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.5|||||TWO_SIDED|95.0|99.2|99.7|||||NPA estimated with two-sided 95% score confidence interval.|||99.7|99.2|
92382449|NCT02870101|184667130|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|88.3|||||TWO_SIDED|95.0|83.2|92.0|||||PPA estimated with two-sided 95% score confidence interval.|||92.0|83.2|
92382450|NCT02870101|184667130|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.6|||||TWO_SIDED|95.0|99.2|99.8|||||NPA estimated with two-sided 95% score confidence interval.|||99.8|99.2|
92382451|NCT02870101|184667131|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|95.9|||||TWO_SIDED|95.0|86.3|98.9|||||PPA estimated with two-sided 95% score confidence interval.|||98.9|86.3|
92414833|NCT04345367|184719852|OTHER||Least square mean difference|-0.6|||||TWO_SIDED|95.0|-1.2|0.0|||||Week 20. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.0|-1.2|
92414834|NCT04345367|184719852|OTHER||Least square mean difference|-0.3|||||TWO_SIDED|95.0|-1.0|0.4|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-1.0|
92382452|NCT02870101|184667131|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.7|||||TWO_SIDED|95.0|99.4|99.8|||||NPA estimated with two-sided 95% score confidence interval.|||99.8|99.4|
92382453|NCT02870101|184667132|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|86.0|||||TWO_SIDED|95.0|80.9|89.9|||||PPA estimated with two-sided 95% score confidence interval.|||89.9|80.9|
92382454|NCT02870101|184667132|OTHER|Estimated Negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.3|||||TWO_SIDED|95.0|98.9|99.6|||||NPA estimated with two-sided 95% score confidence interval.|||99.6|98.9|
92414835|NCT04345367|184719853|OTHER||Least square mean difference|0.818|||||TWO_SIDED|95.0|-1.22|2.856|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||2.856|-1.220|
92414836|NCT04345367|184719853|OTHER||Least square mean difference|2.093|||||TWO_SIDED|95.0|-0.081|4.267|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||4.267|-0.081|
92414837|NCT04345367|184719853|OTHER||Least square mean difference|-0.816|||||TWO_SIDED|95.0|-2.914|1.281|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||1.281|-2.914|
92414838|NCT04345367|184719854|OTHER||Least square mean difference|-1.6|||||TWO_SIDED|95.0|-2.5|-0.7|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.7|-2.5|
92414839|NCT04345367|184719854|OTHER||Least square mean difference|-1.4|||||TWO_SIDED|95.0|-2.2|-0.5|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.5|-2.2|
92414840|NCT04345367|184719854|OTHER||Least square mean difference|-0.4|||||TWO_SIDED|95.0|-1.3|0.5|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.5|-1.3|
92414841|NCT04345367|184719855|OTHER||Least square mean difference|0.2|||||TWO_SIDED|95.0|-0.1|0.6|||||Quantity of hours slept: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.6|-0.1|
92414842|NCT04345367|184719855|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||Quantity of hours slept: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-0.2|
92414843|NCT04345367|184719855|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||Quantity of hours slept: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-0.2|
92232708|NCT04321343|184367963|SUPERIORITY||Odds Ratio (OR)|1.53||||0.5223|TWO_SIDED|95.0|0.398|5.88|||Cochran-Mantel-Haenszel|||||5.880|0.398|0.5223
92414844|NCT04345367|184719855|OTHER||Least square mean difference|1.2|||||TWO_SIDED|95.0|-0.9|3.4|||||Short of Breath or Headache score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||3.4|-0.9|
92414845|NCT04345367|184719855|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-2.0|2.2|||||Short of Breath or Headache score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||2.2|-2.0|
92414846|NCT04345367|184719855|OTHER||Least square mean difference|0.6|||||TWO_SIDED|95.0|-1.5|2.6|||||Short of Breath or Headache score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||2.6|-1.5|
92414847|NCT04345367|184719855|OTHER||Least square mean difference|-1.8|||||TWO_SIDED|95.0|-4.2|0.5|||||Snoring score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.5|-4.2|
92382455|NCT02870101|184667133|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Equivocal; ASIS Indeterminate + Index Test Negative; ASIS Indeterminate)|PPA|88.2|||||TWO_SIDED|95.0|76.6|94.5|||||PPA estimated with two-sided 95% score confidence interval.|||94.5|76.6|
92232709|NCT04321343|184367964|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.891||0.7532|TWO_SIDED|95.0|-1.4749|2.0356|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||2.0356|-1.4749|0.7532
92232710|NCT04321343|184367964|SUPERIORITY||Mean Difference (Final Values)|1.985|STANDARD_ERROR_OF_MEAN|0.858||0.0216|TWO_SIDED|95.0|0.2946|3.6763|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||3.6763|0.2946|0.0216
92232711|NCT04321343|184367964|SUPERIORITY||Mean Difference (Final Values)|0.224|STANDARD_ERROR_OF_MEAN|0.838||0.7893|TWO_SIDED|95.0|-1.4283|1.8771|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||1.8771|-1.4283|0.7893
92232712|NCT03430310|184367965|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
92232713|NCT00045032|184367978|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92232714|NCT00045032|184367978|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.44|0.67|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.67|0.44|
92232715|NCT00045032|184367979|SUPERIORITY_OR_OTHER|||||||0|||||||Log Rank|||||||0.000
92232716|NCT00045032|184367979|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43|||||TWO_SIDED|95.0|0.34|0.53|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.53|0.34|
92232717|NCT00045032|184367982|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92232718|NCT00045032|184367982|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.67|0.86|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.86|0.67|
92232719|NCT00045032|184367982|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92232720|NCT00045032|184367982|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.67|0.85|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.85|0.67|
92382456|NCT02870101|184667133|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Equivocal; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.7|||||TWO_SIDED|95.0|99.4|99.8|||||NPA estimated with two-sided 95% score confidence interval.|||99.8|99.4|
92382457|NCT02870101|184667134|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Equivocal; ASIS Indeterminate + Index Test Negative; ASIS Indeterminate)|PPA|88.7|||||TWO_SIDED|95.0|83.9|92.3|||||PPA estimated with two-sided 95% score confidence interval.|||92.3|83.9|
92414848|NCT04345367|184719855|OTHER||Least square mean difference|-0.9|||||TWO_SIDED|95.0|-3.3|1.5|||||Snoring score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||1.5|-3.3|
92232721|NCT00045032|184367987|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.68|0.86|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.86|0.68|
92232722|NCT00045032|184367987|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.69|0.87|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.87|0.69|
92232723|NCT00045032|184367994|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.7962|TWO_SIDED|95.0|0.89|1.17|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.17|0.89|0.7962
92382458|NCT02870101|184667134|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Equivocal; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|98.7|||||TWO_SIDED|95.0|98.2|99.1|||||NPA estimated with two-sided 95% score confidence interval.|||99.1|98.2|
92414849|NCT04345367|184719855|OTHER||Least square mean difference|0.8|||||TWO_SIDED|95.0|-1.7|3.4|||||Snoring score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||3.4|-1.7|
92232724|NCT00045032|184367996|SUPERIORITY_OR_OTHER|||||||0.2379|||||||Log Rank|||||||0.2379
92232725|NCT00045032|184367996|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.47|1.21|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||1.21|0.47|
92232726|NCT00045032|184367997|SUPERIORITY_OR_OTHER|||||||0.003|||||||Log Rank|||||||0.003
92232727|NCT00045032|184367997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.28|0.79|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.79|0.28|
92232728|NCT00045032|184368000|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Log Rank|||||||0.0005
92232729|NCT00045032|184368000|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.65|0.88|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.88|0.65|
92232730|NCT00045032|184368000|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Log Rank|||||||0.0001
92232731|NCT00045032|184368000|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.63|0.86|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.86|0.63|
92232732|NCT00045032|184368002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.64|0.86|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.86|0.64|
92232733|NCT00045032|184368002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.62|0.83|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.83|0.62|
92232734|NCT00045032|184368004|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9156|TWO_SIDED|95.0|0.84|1.21|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.21|0.84|0.9156
92232735|NCT00045032|184368006|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92232736|NCT00045032|184368006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.64|0.83|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.83|0.64|
92232737|NCT00045032|184368006|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92232738|NCT00045032|184368006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.61|0.79|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.79|0.61|
92232739|NCT00045032|184368008|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.4755|TWO_SIDED|95.0|0.8|1.11|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.11|0.80|0.4755
92232740|NCT00045032|184368010|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92382459|NCT02870101|184667135|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Equivocal; ASIS Indeterminate + Index Test Negative; ASIS Indeterminate)|PPA|84.0|||||TWO_SIDED|95.0|71.5|91.7|||||PPA estimated with two-sided 95% score confidence interval.|||91.7|71.5|
92232741|NCT00045032|184368010|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.67|0.87|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.87|0.67|
92232742|NCT00045032|184368010|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92232743|NCT00045032|184368010|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.65|0.85|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.85|0.65|
92232744|NCT00045032|184368012|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9626|TWO_SIDED|95.0|0.85|1.17|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.17|0.85|0.9626
92232745|NCT00045032|184368014|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92232746|NCT00045032|184368014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.64|0.83|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.83|0.64|
92232747|NCT00045032|184368014|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92232748|NCT00045032|184368014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.61|0.79|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.79|0.61|
92232749|NCT00045032|184368016|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.45|TWO_SIDED|95.0|0.8|1.1|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.10|0.80|0.4500
92232750|NCT00045032|184368018|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92232751|NCT00045032|184368018|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.62|0.83|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.83|0.62|
92382460|NCT02870101|184667135|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Equivocal; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.8|||||TWO_SIDED|95.0|99.5|99.9|||||NPA estimated with two-sided 95% score confidence interval.|||99.9|99.5|
92232752|NCT00045032|184368018|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92232753|NCT00045032|184368018|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.59|0.79|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.79|0.59|
92232754|NCT00045032|184368020|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.6823|TWO_SIDED|95.0|0.8|1.15|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.15|0.80|0.6823
92232755|NCT00045032|184368022|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.7251|TWO_SIDED|95.0|0.84|1.13|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.13|0.84|0.7251
92232756|NCT02770807|184368052|SUPERIORITY||Least squares mean difference|-1.37||||0.0847|TWO_SIDED|95.0|-2.932|0.19|||Mixed model for repeated measures|||Least squares means, and p-values are derived from a mixed model repeated measures analysis with baseline modified ICARS value as covariate and the fixed effects of treatment, age, sex, region and visit and the interaction term treatment-by-visit.||0.190|-2.932|0.0847
92382461|NCT02870101|184667136|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Equivocal; ASIS Indeterminate + Index Test Negative; ASIS Indeterminate)|PPA|83.0|||||TWO_SIDED|95.0|77.6|87.3|||||PPA estimated with two-sided 95% score confidence interval.|||87.3|77.6|
92232757|NCT02770807|184368052|SUPERIORITY||Least squares mean difference|-1.4||||0.0765|TWO_SIDED|95.0|-2.957|0.152|||Mixed model for repeated measures|||Least squares means, and p-values are derived from a mixed model repeated measures analysis with baseline modified ICARS value as covariate and the fixed effects of treatment, age, sex, region and visit and the interaction term treatment-by-visit.||0.152|-2.957|0.0765
92232758|NCT02770807|184368053|SUPERIORITY||Odds Ratio (OR)|0.946||||0.8919|TWO_SIDED|95.0|0.426|2.099|||Regression, Logistic|||Logistic regression modeling (0/1), where 0 = No change or worsening and 1= improvement, with age (at 2 levels: \<10 years, ≥10 years), sex, treatment, region as fixed effects.||2.099|0.426|0.8919
92232759|NCT02770807|184368053|SUPERIORITY||Odds Ratio (OR)|1.848||||0.1255|TWO_SIDED|95.0|0.842|4.053|||Regression, Logistic|||"Logistic regression modeling (0/1), where 0 = No change or worsening and 1= improvement, with age (at 2 levels:~\<10 years, ≥10 years), sex, treatment, region as fixed effects."||4.053|0.842|0.1255
92232760|NCT02770807|184368054|SUPERIORITY||Odds Ratio (OR)|1.369||||0.4583|TWO_SIDED|95.0|0.597|3.144|||Ordinal Logistic Regression Analysis|||Odds ratio, confidence limits, and p-value derived using a proportional odds ordinal logistic regression analysis, with age (at 2 levels: \<10 years, ≥10 years), sex, treatment, region, visit, baseline CGI-S score, and treatment-by- visit interaction as fixed effects.||3.144|0.597|0.4583
92232761|NCT02770807|184368054|SUPERIORITY||Odds Ratio (OR)|1.371||||0.4585|TWO_SIDED|95.0|0.595|3.16|||Ordinal Logistic Regression Analysis|||Odds ratio, confidence limits, and p-value derived using a proportional odds ordinal logistic regression analysis, with age (at 2 levels: \<10 years, ≥10 years), sex, treatment, region, visit, baseline CGI-S score, and treatment-by- visit interaction as fixed effects.||3.160|0.595|0.4585
92232762|NCT02770807|184368055|SUPERIORITY||Least squares means difference|-13.33||||0.7029|TWO_SIDED|95.0|-82.261|55.601|||ANCOVA|||Least squares means difference, associated statistics, and p-values derived using ANCOVA, with age (at 2 levels: \<10 years, \>=10 years), sex, treatment, region, and baseline VABS score as fixed effects.||55.601|-82.261|0.7029
92232763|NCT02770807|184368055|SUPERIORITY||Least squares means difference|-77.31||||0.0328|TWO_SIDED|95.0|-148.201|-6.421|||ANCOVA|||Least squares means difference, associated statistics, and p-values derived using ANCOVA, with age (at 2 levels: \<10 years, \>=10 years), sex, treatment, region, and baseline VABS score as fixed effects.||-6.421|-148.201|0.0328
92232764|NCT01167712|184368062|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.74|1.06||||||Estimated hazard of first progression or death for weekly paclitaxel treatment relative to standard 3 week paclitaxel.||1.06|.74|
92232765|NCT01167712|184368063|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.72|1.23||||||||1.23|.72|
92232766|NCT04364854|184368131|OTHER|This study was not designed to perform a hypothesis test. No p-values will be reported.|Mean Difference (Net)|-0.22|||||TWO_SIDED|95.0|-2.31|1.87|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM, and age.|||1.87|-2.31|
92382462|NCT02870101|184667136|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Equivocal; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.1|||||TWO_SIDED|95.0|98.6|99.4|||||NPA estimated with two-sided 95% score confidence interval.|||99.4|98.6|
92382463|NCT00126776|184667142|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||mean cumulative frequency|||primary outcome is mean cumulative frequency of COPD related hospitlaizations and ED visits ;ver 1 yr: 0.48 for disease management; 0.82 for usual care, difference 0.34 (95% CI 0.15 to 0.52; P\<0.001)||||< 0.001
92382464|NCT02893917|184667143|SUPERIORITY||Hazard Ratio (HR)|0.617||||0.0359|TWO_SIDED|95.0|0.392|0.969|||Regression, Cox|||||0.969|0.392|0.0359
92382465|NCT02893917|184667144|SUPERIORITY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.705|2.399||no p value provided|Regression, Cox|||||2.399|0.705|
92382466|NCT02893917|184667147|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.272|1.504|||Regression, Cox|||HRD positive ONLY||1.504|0.272|
92382467|NCT02893917|184667147|OTHER||Hazard Ratio (HR)|0.777|||||TWO_SIDED|95.0|0.448|1.348|||Regression, Cox|||HRD negative ONLY||1.348|0.448|
92382468|NCT01815840|184667152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.3|||||TWO_SIDED|95.0|-22.2|5.7|||||Asymptotic confidence intervals are presented for the difference between treatment arms.|The mean difference in the mean relative reduction between treatment arms, along with the corresponding 95% confidence interval, was estimated by fitting an ANCOVA model with treatment as main effect and the following covariates: number of basal cell carcinomas at baseline, geographical region, immunosuppression status, confirmed basal cell carcinoma nevus syndrome.||5.7|-22.2|
92232767|NCT04364854|184368131|OTHER|This study was not designed to perform a hypothesis test. No p-values will be reported.|Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-2.94|3.15|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM, and age.|||3.15|-2.94|
92232768|NCT04364854|184368131|OTHER|This study was not designed to perform a hypothesis test. No p-values will be reported.|Mean Difference (Net)|-0.78|||||TWO_SIDED|95.0|-2.9|1.33|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM, and age.|||1.33|-2.9|
92382469|NCT00434642|184667171|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.484|||<|0.0001|TWO_SIDED|95.0|0.388|0.605||A P-value \< 0.05 was required for significance.|Log Rank|The analysis was stratified for time since the last platinum therapy (6-12, \> 12 months) and cytoreductive surgery for recurrent disease (yes, no).|The hazard ratio was estimated using Cox regression. The hazard ratio is relative to the carboplatin and gemcitabine + placebo group.|The null hypothesis was that there was no difference between the 2 treatment groups, ie, that the hazard ratio is equal to 1. The alternative hypothesis was that progression free survival was longer in the carboplatin and gemcitabine + bevacizumab group, ie, that the hazard ratio is not equal to 1.||0.605|0.388|<0.0001
92382470|NCT00434642|184667172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.1|||<|0.0001|TWO_SIDED|95.0|13.0|29.2||A P-value \< 0.05 was required for significance.|Cochran-Mantel-Haenszel|The analysis was stratified for time since the last platinum therapy (6-12, \> 12 months) and cytoreductive surgery for recurrent disease (yes, no).|The difference in response rates and the 95% confidence intervals for response rates were computed using the normal approximation to the binomial distribution.|The null hypothesis was that there was no difference in the percentage of patients with an objective response between the 2 treatment groups. The alternative hypothesis was that a larger percentage of patients had an objective response in the carboplatin and gemcitabine + bevacizumab group.||29.2|13.0|<0.0001
92382471|NCT00434642|184667174|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.952||||0.6479|TWO_SIDED|95.0|0.771|1.176||Summaries of duration of overall survival (median, percentiles) were estimated from Kaplan-Meier curves. The 95% confidence interval for the median was computed using the method of Brookmeyer and Crowley.|Log Rank|The analysis was stratified for time since the last platinum therapy (≤12, \>12 months) and cytoreductive surgery for recurrent disease (Yes, No).|The hazard ratio was estimated using Cox regression. The hazard ratio is relative to the carboplatin and gemcitabine + placebo group.|||1.176|0.771|0.6479
92382472|NCT03445559|184667302|SUPERIORITY||Odds Ratio (OR)|0.54||||0.006|TWO_SIDED|95.0|0.3|0.98|||Chi-squared|||||0.98|0.30|0.006
92382473|NCT03445559|184667303|SUPERIORITY||Odds Ratio (OR)|1.36||||0.42|TWO_SIDED|95.0|0.7|2.66|||Chi-squared|||||2.66|0.70|0.42
92382474|NCT03445559|184667304|SUPERIORITY||Median Difference (Final Values)|2.7|||||TWO_SIDED|||||||||||||
92232769|NCT04364854|184368132|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.26|0.13|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline SAQOL-39, and age.|||0.13|-0.26|
92382475|NCT04676867|184667311|SUPERIORITY|||||||0.2|||||||Log Rank|||||||0.2
92382476|NCT04676867|184667312|SUPERIORITY|||||||0.2|||||||ANCOVA|||||||0.2
92382477|NCT04676867|184667313|SUPERIORITY|||||||0.2|||||||ANCOVA|||||||0.2
92382478|NCT04676867|184667314|SUPERIORITY|||||||0.2|||||||Log Rank|||||||0.2
92382479|NCT04676867|184667315|SUPERIORITY|||||||0.2|||||||Log Rank|||||||0.2
92382480|NCT04676867|184667316|SUPERIORITY|||||||0.2|||||||Log Rank|||||||0.2
92382481|NCT04676867|184667317|SUPERIORITY|||||||0.2|||||||Log Rank|||||||0.2
92382482|NCT04676867|184667318|SUPERIORITY|||||||0.2|||||||ANCOVA|||||||0.2
92382483|NCT04676867|184667319|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
92382484|NCT04676867|184667320|SUPERIORITY|||||||0.2|||||||Regression, Logistic|||||||0.2
92382485|NCT04676867|184667321|SUPERIORITY|||||||0.2|||||||Regression, Logistic|||||||0.2
92382486|NCT04676867|184667323|SUPERIORITY|||||||0.2|||||||ANOVA|||||||0.2
92382487|NCT04676867|184667324|SUPERIORITY|||||||0.2|||||||Regression, Logistic|||||||0.2
92382488|NCT02411929|184667345|SUPERIORITY_OR_OTHER||Test (oral)/Reference (IV) of means|104.73|||||TWO_SIDED|90.0|101.64|107.91|||||Natural log transformed AUCinf(dn) and AUClast(dn) from Period 1 were analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences were exponentiated.|Ratio - Test (oral) / Reference (IV) of means||107.91|101.64|
92382489|NCT02411929|184667355|SUPERIORITY_OR_OTHER||Ratio|110.71|||||||||||||The ratio (Test/Reference) of the geometric means of dose normalized natural log transformed Total 14\^C in Urine will be estimated. Total 14\^C\_Urine\_IV is the Reference formulation and Total 14C\_Urine\_Oral is the Test formulation (expressed as a %).|Ratio - Test (Oral) / Reference (IV) (%)||||
92169383|NCT00704184|184227235|SUPERIORITY_OR_OTHER||Adjusted difference|10.8|||||TWO_SIDED|95.0|-7.6|33.2|||||Adjusted difference subtracts the percentage of placebo responders (88.9%) and stratifies by HCV genotype (1a vs. non-1a).|||33.2|-7.6|
92232770|NCT04364854|184368132|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.21|0.28|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline SAQOL-39, and age.|||0.28|-0.21|
92232771|NCT04364854|184368132|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|-0.23|||||TWO_SIDED|95.0|-0.42|-0.04|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline SAQOL-39, and age.|||-0.04|-0.42|
92232772|NCT04364854|184368133|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|0.16|||||TWO_SIDED|95.0|-2.59|2.9|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM - Narrative, and age.|||2.9|-2.59|
92232773|NCT04364854|184368133|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|0.79|||||TWO_SIDED|95.0|-2.23|3.8|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM-Narrative, and age.|||3.8|-2.23|
92232774|NCT04364854|184368133|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-2.32|2.82|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM - Narrative, and age.|||2.82|-2.32|
92232775|NCT04364854|184368134|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-3.59|3.45|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM - Procedural, and age.|||3.45|-3.59|
92278302|NCT01694485|184458542|SUPERIORITY||Difference in Adjusted Remission Rates|9.0|||||TWO_SIDED|90.0|1.6|14.6||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||14.6|1.6|
92382490|NCT04268173|184667374|EQUIVALENCE|A two sample t-test was conducted to test the null hypothesis that the pre-intervention mean response was equivalent to the post-intervention mean response in the Prevention Navigation group. Hypothesis: A p-value greater than 0.05 suggests the means are not statistically different from one another.||||||0.84|||||||t-test, 2 sided|||||||0.84
92382491|NCT03836677|184667393|OTHER||Geometric Mean ratio to baseline|1.72|||<|0.0001|TWO_SIDED|95.0|1.38|2.13||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment.|t-test, 2 sided|Within-group comparison to baseline using paired test||||2.13|1.38|<0.0001
92382492|NCT03836677|184667393|OTHER||Geometric mean ratio to baseline|1.53|||<|0.0001|TWO_SIDED|95.0|1.28|1.83||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment.|t-test, 2 sided|Within-group comparison to baseline using paired test.||||1.83|1.28|<0.0001
92232776|NCT04364854|184368134|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|0.27|||||TWO_SIDED|95.0|-4.27|4.8|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM - Procedural, and age.|||4.8|-4.27|
92232777|NCT04364854|184368134|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|-2.11|||||TWO_SIDED|95.0|-5.77|1.56|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM - Procedural, and age.|||1.56|-5.77|
92232778|NCT03528681|184368159|OTHER||Back-transformed mean difference|0.93|||<|0.001|TWO_SIDED|95.0|0.902|0.959|||Mixed Models Analysis|||Results are derived from a longitudinal model applied to log-transformed S-K measurements adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates. The back-transformation is to the original scale of the S-K measurement||0.959|0.902|<0.001
92232779|NCT03528681|184368159|OTHER||Back-transformed mean difference|0.85|||<|0.001|TWO_SIDED|95.0|0.825|0.876|||Mixed Models Analysis|||Results are derived from a longitudinal model applied to log-transformed S-K measurements adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates. The back-transformation is to the original scale of the S-K measurement||0.876|0.825|<0.001
92232780|NCT03528681|184368164|OTHER|The analysis uses a generalized mixed model which includes a random intercept and logit link. The model includes all S-K data values collected at the scheduled visits between Days 8-29, dichotomized as normal and abnormal, as response variables, and baseline covariates. Placebo is the reference group.|Odds Ratio (OR)|3.8|||<|0.001|TWO_SIDED|95.0|2.17|6.67|||Mixed Models Analysis|||||6.67|2.17|<0.001
92280475|NCT00601484|184463635|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.27|STANDARD_ERROR_OF_MEAN|1.019|||TWO_SIDED|90.0|-1.441|1.988||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.988|-1.441|
92382493|NCT03836677|184667394|OTHER||Geometric mean ratio to baseline|0.5|||<|0.0001|TWO_SIDED|95.0|0.39|0.63||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment.|t-test, 2 sided|Within-group comparison to baseline using paired test||||0.63|0.39|<0.0001
92382494|NCT03836677|184667394|OTHER||Geometric mean ratio to baseline|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.67||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment.|t-test, 2 sided|Within-group comparison to baseline using paired test||||0.67|0.40|<0.0001
92382495|NCT03836677|184667395|OTHER||Geometric mean ratio to baseline|1.7|||<|0.0001||95.0|1.37|2.11|||t-test, 2 sided|Within-group comparison to baseline using paired test||||2.11|1.37|<0.0001
92382496|NCT03836677|184667395|OTHER||Geometric mean ratio to baseline|1.51||||0.0001|TWO_SIDED|95.0|1.26|1.8|||t-test, 2 sided|Within-group comparison to baseline using paired test||||1.80|1.26|0.0001
92382497|NCT03836677|184667396|OTHER||Geometric mean ratio to baseline|0.5|||<|0.0001|TWO_SIDED|95.0|0.4|0.63|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.63|0.40|<0.0001
92382498|NCT03836677|184667396|OTHER||Geometric mean ratio to baseline|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.68|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.68|0.40|<0.0001
92382499|NCT03836677|184667397|OTHER||Mean Change from Baseline|0.346||||0.0003|TWO_SIDED|95.0|0.182|0.509|||t-test, 2 sided|Within-group comparison to baseline using paired test.||||0.509|0.182|0.0003
92382500|NCT03836677|184667397|OTHER||Mean Change from Baseline|0.273||||0.0004|TWO_SIDED|95.0|0.14|0.405|||t-test, 2 sided|Within-group comparison to baseline using paired test.||||0.405|0.140|0.0004
92232781|NCT03528681|184368164|OTHER||Odds Ratio (OR)|11.63|||<|0.001|TWO_SIDED|95.0|6.45|21.0|||Mixed Models Analysis|||The analysis uses a generalized mixed model which includes a random intercept and logit link. The model includes all S-K data values collected at the scheduled visits between Days 8-29, dichotomized as normal and abnormal, as response variables, and baseline covariates. Placebo is the reference group.||21.00|6.45|<0.001
92382501|NCT03836677|184667398|OTHER||Mean ratio to baseline|-0.28||||0.2515|TWO_SIDED|95.0|-0.77|0.21|||t-test, 2 sided|Within-group comparison to baseline using paired test.||||0.21|-0.77|0.2515
92382502|NCT03836677|184667398|OTHER||Mean ratio to baseline|-0.5||||0.004|TWO_SIDED|95.0|-0.81|-0.18|||t-test, 2 sided|Within-group comparison to baseline using paired test.||||-0.18|-0.81|0.0040
92382503|NCT00079677|184667417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.0003||95.0|1.67|5.46||The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group.|ANOVA|||Assumption: both primary treatment comparisons would be with a 2 sided test at an alpha level of 0.05||5.46|1.67|0.0003
92382504|NCT00079677|184667418|SUPERIORITY_OR_OTHER|||||||0.0069||||||The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group.|Cochran-Mantel-Haenszel|||Assumption: both primary treatment comparisons would be with a 2 sided test at an alpha level of 0.05.||||0.0069
92382505|NCT04598269|184667419|SUPERIORITY||Least Square Means (LSM) % Differences|-33.01|STANDARD_ERROR_OF_MEAN|8.971|<|0.001|TWO_SIDED|90.0|-47.95|-18.08||P-value is based on a 1-sided hypothesis test of the superiority of ATI-1777 relative to the vehicle. Significance level at α = 0.05.|Mixed Model Repeated Measures (MMRM)||"Fixed factors for treatment, visit, visit\*treatment, baseline measurement. A compound symmetry covariance matrix was used to account for within-subject variability.~Week 4: Least Square Means (LSM) % differences ATI-1777 arm minus vehicle arm"|||-18.08|-47.95|<0.001
92382506|NCT04598269|184667420|SUPERIORITY||LSM % Differences|-23.53|STANDARD_ERROR_OF_MEAN|8.971||0.005|TWO_SIDED|90.0|-38.47|-8.59||P-value is based on a 1-sided hypothesis test of the superiority of ATI-1777 relative to the vehicle. Significance level at α = 0.05.|MMRM||"Fixed factors for treatment, visit, visit\*treatment, baseline measurement. A compound symmetry covariance matrix was used to account for within-subject variability.~Day 8: LSM % differences ATI-1777 arm minus vehicle arm"|Day 8 statistical analysis||-8.59|-38.47|0.005
92382507|NCT04598269|184667420|SUPERIORITY||LSM % Differences|-23.44|STANDARD_ERROR_OF_MEAN|8.971||0.005|TWO_SIDED|90.0|-38.38|-8.5||P-value is based on a 1-sided hypothesis test of the superiority of ATI-1777 relative to the vehicle. Significance level at α = 0.05.|Mixed Models Analysis||"Fixed factors for treatment, visit, visit\*treatment, baseline measurement. A compound symmetry covariance matrix was used to account for within-subject variability.~Day 15: LSM % differences ATI-1777 arm minus vehicle arm"|Day 15 statistical analysis||-8.50|-38.38|0.005
92382508|NCT04598269|184667421|SUPERIORITY||Odds Ratio, log|15.7|||<|0.001|TWO_SIDED|90.0|3.9|63.2||1-sided p-value of responders in the treatment groups at 0.05 level of significance.|Regression, Logistic||Active/Vehicle|||63.2|3.9|<0.001
92382509|NCT04598269|184667422|SUPERIORITY||Odds Ratio, log|5.9||||0.003|TWO_SIDED|90.0|2.1|17.0||1-sided p-value of responders in the treatment groups at 0.05 level of significance|Regression, Linear||Active/Vehicle|||17.0|2.1|0.003
92382510|NCT04598269|184667423|SUPERIORITY||Odds Ratio, log|1.7||||0.203|TWO_SIDED|90.0|0.6|5.3||1-sided p-value of responders in the treatment groups at 0.05 level of significance|Regression, Logistic||Active/Vehicle|||5.3|0.6|0.203
92382511|NCT04598269|184667424|SUPERIORITY|||||||0.148||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 8 statistical analysis||||0.148
92382512|NCT04598269|184667424|SUPERIORITY|||||||0.017||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 15 statistical analysis||||0.017
92414850|NCT04345367|184719855|OTHER||Least square mean difference|-4.1|||||TWO_SIDED|95.0|-6.6|-1.6|||||Sleep disturbance score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.6|-6.6|
92414851|NCT04345367|184719855|OTHER||Least square mean difference|-3.8|||||TWO_SIDED|95.0|-6.2|-1.4|||||Sleep disturbance score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.4|-6.2|
92382513|NCT04598269|184667424|SUPERIORITY|||||||0.002||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Week 4 statistical analysis||||0.002
92382514|NCT04598269|184667425|SUPERIORITY|||||||0.088||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 8 statistical analysis||||0.088
92382515|NCT04598269|184667425|SUPERIORITY|||||||0.022||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 15 statistical analysis||||0.022
92382516|NCT04598269|184667425|SUPERIORITY||||||<|0.001||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance.|MMRM|||Week 4 statistical analysis||||<0.001
92382517|NCT04598269|184667426|SUPERIORITY|||||||0.014||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 8 statistical analysis||||0.014
92382518|NCT04598269|184667426|SUPERIORITY|||||||0.069||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 15 statistical analysis||||0.069
92232782|NCT03528681|184368165|OTHER|The model included normokalaemia status (yes, no) on Day 29 as binary response variables, and baseline covariates. Placebo is the reference group.|Odds Ratio (OR)|2.54||||0.035|TWO_SIDED|95.0|1.07|6.05|||Regression, Logistic|||||6.05|1.07|0.035
92232783|NCT03528681|184368165|OTHER||Odds Ratio (OR)|6.25|||<|0.001|TWO_SIDED|95.0|2.56|15.27|||Regression, Logistic|||The model included normokalaemia status (yes, no) on Day 29 as binary response variables, and baseline covariates. Placebo is the reference group.||15.27|2.56|<0.001
92232784|NCT03528681|184368166|OTHER||Median Difference (Final Values)|5.72|||<|0.001|TWO_SIDED|95.0|3.13|8.31|||Regression, Linear|||Results derived from a linear regression model with the following covariates: treatment group; baseline S-K values (Open-label phase and Randomized treatment phase); baseline eGFR; age category; country; baseline RAAS inhibitor, chronic kidney disease, heart failure, and diabetes mellitus statuses.||8.31|3.13|<0.001
92232785|NCT03528681|184368166|OTHER||Mean Difference (Final Values)|11.14|||<|0.001|TWO_SIDED|95.0|8.57|13.71|||Regression, Linear|||Results derived from a linear regression model with the following covariates: treatment group; baseline S-K values (Open-label phase and Randomized treatment phase); baseline eGFR; age category; country; baseline RAAS inhibitor, chronic kidney disease, heart failure, and diabetes mellitus statuses.||13.71|8.57|<0.001
92278303|NCT01694485|184458542|SUPERIORITY|The study was powered for formal statistical testing of the abrilumab 70 mg and 210 mg groups. To account for multiplicity of statistical testing, primary and key secondary end points for the 2 highest doses of abrilumab (70 and 210 mg) were tested at the end of the 8-week induction period under a sequential framework at a 2-sided significance level of 0.10 using the Bonferroni-based chain procedure.|Odds Ratio (OR)|3.33||||0.03|TWO_SIDED|90.0|1.34|8.26|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||8.26|1.34|0.030
92382519|NCT04598269|184667426|SUPERIORITY|||||||0.06||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Week 4 statistical analysis||||0.060
92382520|NCT00424190|184667427|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% confidence interval (CI) for the observed difference in the primary outcome measure between ceftaroline and vancomycin plus aztreonam was calculated. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10%.|Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-4.2|6.2|||||Risk difference corresponds to Ceftaroline clinical cure rate minus Vancomycin plus Aztreonam clinical cure rate. The confidence interval was calculated using the Miettinen and Nurminen method without adjustment.|The primary objective of this study was to determine the noninferiority in clinical cure rate of ceftaroline in comparison with vancomycin plus aztreonam in adult subjects with cSSSI.||6.2|-4.2|
92382521|NCT02925728|184667453|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92382522|NCT02102399|184667455|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.001
92382523|NCT02102399|184667456|SUPERIORITY_OR_OTHER|||||||0.345|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.345
92169384|NCT00704184|184227235|SUPERIORITY_OR_OTHER||Adjusted difference|11.2|||||TWO_SIDED|95.0|-9.7|33.8|||||Adjusted difference subtracts the percentage of placebo responders (88.9%) and stratifies by HCV genotype (1a vs. non-1a).|||33.8|-9.7|
92232786|NCT03528681|184368169|OTHER||Mean Difference (Final Values)|-105.248|||<|0.001|TWO_SIDED|95.0|-161.293|-49.203|||Mixed Models Analysis|||S-Aldo Results derived from a longitudinal mixed model adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates||-49.203|-161.293|<0.001
92232787|NCT03528681|184368169|OTHER||Median Difference (Final Values)|-137.267|||<|0.001|TWO_SIDED|95.0|-192.596|-81.937|||Mixed Models Analysis|||S-Aldo Results derived from a longitudinal mixed model adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates||-81.937|-192.596|<0.001
92232788|NCT03528681|184368169|OTHER||Mean Difference (Final Values)|0.014||||0.839|TWO_SIDED|95.0|-0.12|0.147|||Mixed Models Analysis|||P-Renin Results derived from a longitudinal mixed model adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates||0.147|-0.120|0.839
92232789|NCT03528681|184368169|OTHER||Mean Difference (Final Values)|-0.062||||0.355|TWO_SIDED|95.0|-0.195|0.07|||Mixed Models Analysis|||P-Renin Results derived from a longitudinal mixed model adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates||0.070|-0.195|0.355
92382524|NCT02102399|184667457|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Fisher Exact|||||||0.003
92382525|NCT02102399|184667458|SUPERIORITY_OR_OTHER|||||||0.171|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.171
92382526|NCT02102399|184667459|SUPERIORITY_OR_OTHER|||||||0.022|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.022
92382527|NCT02102399|184667460|SUPERIORITY_OR_OTHER|||||||0.451|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.451
92382528|NCT02102399|184667461|SUPERIORITY_OR_OTHER|||||||0.477|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.477
92382529|NCT02102399|184667462|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.007
92382530|NCT02102399|184667463|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.049
92382531|NCT02102399|184667464|SUPERIORITY_OR_OTHER|||||||0.323|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.323
92382532|NCT02102399|184667465|SUPERIORITY_OR_OTHER|||||||0.296|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.296
92382533|NCT02102399|184667466|SUPERIORITY_OR_OTHER|||||||0.776|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.776
92382534|NCT02102399|184667467|SUPERIORITY_OR_OTHER|||||||0.959|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.959
92382535|NCT02102399|184667468|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.76
92382536|NCT02102399|184667469|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.30
92382537|NCT02102399|184667470|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.20
92382538|NCT02102399|184667471|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.77
92382539|NCT02102399|184667472|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.49
92382540|NCT02102399|184667473|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.74
92382541|NCT02102399|184667474|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Fisher Exact|||||||0.120
92232790|NCT03528681|184368171|OTHER||Hazard Ratio (HR)|0.39|||<|0.001|TWO_SIDED|95.0|0.27|0.57|||Regression, Cox|||The model included time to reoccurrence of hyperkalaemia as response variable (event: hyperkalaemia or discontinue treatment in RTP due to high S-K levels), baseline eGFR, OLP and RTP baseline S-K values as well as age (\< 55, 55-64, \> 64 years) and baseline binary indicators for RAASi, chronic kidney disease, heart failure, and diabetes mellitus as covariates. Placebo is the reference group||0.57|0.27|<0.001
92232791|NCT03528681|184368171|OTHER||Hazard Ratio (HR)|0.16|||<|0.001|TWO_SIDED|95.0|0.1|0.25|||Regression, Cox|||The model included time to reoccurrence of hyperkalaemia as response variable (event: hyperkalaemia or discontinue treatment in RTP due to high S-K levels), baseline eGFR, OLP and RTP baseline S-K values as well as age (\< 55, 55-64, \> 64 years) and baseline binary indicators for RAASi, chronic kidney disease, heart failure, and diabetes mellitus as covariates. Placebo is the reference group||0.25|0.10|<0.001
92232792|NCT03518840|184368190|SUPERIORITY||Mean Difference (Final Values)|-1.9615|STANDARD_ERROR_OF_MEAN|0.3329|<|0.001|TWO_SIDED|95.0|-2.6299|-1.2932|||paired t-test, 2 sided|||The null hypothesis is that there is no change in the baseline ASLR score following four weeks of SIJ belt therapy.||-1.2932|-2.6299|<.001
92232793|NCT03518840|184368191|SUPERIORITY||Median Difference (Final Values)|-1.9474|STANDARD_ERROR_OF_MEAN|0.3353|<|0.001|TWO_SIDED|95.0|-2.619|-1.2757|||paired t-test, 2 sided|||The null hypothesis is that there is no change in the baseline NRS score following four weeks of SIJ belt therapy.||-1.2757|-2.6190|<.001
92232794|NCT00914628|184368199|SUPERIORITY|||||||0.8974|||||||Log Rank|||||||0.8974
92232795|NCT00914628|184368199|SUPERIORITY|||||||0.7612|||||||Wilcoxon (Mann-Whitney)|||DFS- Intention-To-Treat population- from baseline to day 21||||0.7612
92232796|NCT00914628|184368199|SUPERIORITY|||||||0.5995|||||||Log Rank|||||||0.5995
92232797|NCT00914628|184368199|SUPERIORITY|||||||0.4078|||||||Wilcoxon (Mann-Whitney)|||DFS- Intention-To-Treat population - day 21 after transplant||||0.4078
92382542|NCT02102399|184667475|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Fisher Exact|||||||0.030
92382543|NCT02102399|184667476|SUPERIORITY_OR_OTHER|||||||0.107|TWO_SIDED||||||Fisher Exact|||||||0.107
92382544|NCT00086411|184667489|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32|STANDARD_ERROR_OF_MEAN|0.2734|<|0.017|TWO_SIDED|95.0|0.77|2.25||The p-value was adjusted for multiple comparisons.|GEE model for repeated binary outcomes|Model included hx of heavy smoking, elevated depression, cigarettes per day, gender, and race|The above was for the main effect of BUP versus NTX on cessation.|Rates of abstinence were addressed using a generalized estimating equations (GEE) logistic regression model. Counseling type and medication type were entered as the main explanatory variables along with time and the interaction of these factors, together with some covariates (described below). The sample size provided 80% power to detect a difference of about 14% between groups across three time points (i.e., 12, 26, and 52 weeks post-treatment initiation.||2.25|0.77|<0.017
92414852|NCT04345367|184719855|OTHER||Least square mean difference|-1.7|||||TWO_SIDED|95.0|-4.1|0.7|||||Sleep disturbance score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.7|-4.1|
92414853|NCT04345367|184719855|OTHER||Least square mean difference|1.0|||||TWO_SIDED|95.0|-1.6|3.6|||||Sleep adequacy score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||3.6|-1.6|
92414854|NCT04345367|184719855|OTHER||Least square mean difference|2.9|||||TWO_SIDED|95.0|0.4|5.4|||||Sleep adequacy score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||5.4|0.4|
92232798|NCT00914628|184368199|SUPERIORITY|||||||0.3351|||||||Log Rank|||DFS- Per-Protocol Set||||0.3351
92232799|NCT00914628|184368199|SUPERIORITY|||||||0.1233|||||||Wilcoxon (Mann-Whitney)|||DFS- Per-Protocol Set||||0.1233
92232800|NCT00914628|184368199|EQUIVALENCE|||||||0.5995|||||||Log Rank|||DFS- Per-Protocol Set DFS-day 21 after transplant||||0.5995
92232801|NCT00914628|184368199|SUPERIORITY|||||||0.4078|||||||Wilcoxon (Mann-Whitney)|||DFS- Per-Protocol Set DFS-day 21 after transplant||||0.4078
92232802|NCT00914628|184368200|SUPERIORITY|||||||0.766|||||||Log Rank|Statistical analysis was performed on Intention-To-Treat population.||||||0.7660
92232803|NCT00914628|184368200|SUPERIORITY|||||||0.6706|||||||Wilcoxon (Mann-Whitney)|||Statistical analysis has been performed for Intention-To-Treat population.||||0.6706
92232804|NCT00914628|184368200|SUPERIORITY|||||||0.7332|||||||Log Rank|||Statistical analysis has been performed for Per-Protocol Set)||||0.7332
92232805|NCT00914628|184368200|SUPERIORITY|||||||0.6439|||||||Wilcoxon (Mann-Whitney)|||Statistical analysis has been performed for Per-Protocol Set)||||0.6439
92232806|NCT00914628|184368201|SUPERIORITY|||||||0.1735|||||||Chi-squared|||This Statistical analysis refers to Immune reconstitution and was performed by Gray's Test for Equality of Cumulative Incidence Functions for intention-To-Treat population||||0.1735
92232807|NCT00914628|184368201|SUPERIORITY|||||||0.5958|||||||Chi-squared|||This Statistical analysis refers to deaths without previous immune reconstitution, relapse or progression and was performed by Gray's Test for Equality of Cumulative Incidence Functions for intention-To-Treat population||||0.5958
92232808|NCT00914628|184368201|SUPERIORITY|||||||0.2889|||||||Chi-squared|||This Statistical Analysis refers to patients with relapse or progression without previous immune reconstitution and was performed Gray's Test for Equality of Cumulative Incidence Functions||||0.2889
92232809|NCT00914628|184368201|SUPERIORITY|||||||0.1642|||||||Chi-squared|||This Statistical analysis refers to Immune reconstitution and was performed by Gray's Test for Equality of Cumulative Incidence Functions for Per-Protocol Set.||||0.1642
92232810|NCT00914628|184368201|SUPERIORITY|||||||0.8739|||||||Log Rank|||This Statistical analysis refers to deaths without previous immune reconstitution, relapse or progression and was performed by Gray's Test for Equality of Cumulative Incidence Functions for intention-To-Treat population||||0.8739
92232811|NCT00914628|184368201|SUPERIORITY|||||||0.2304|||||||Chi-squared|||This Statistical Analysis refers to patients with relapse or progression without previous immune reconstitution and was performed Gray's Test for Equality of Cumulative Incidence Functions||||0.2304
92232812|NCT00914628|184368206|SUPERIORITY|||||||0.3526|||||||Chi-squared|||This Statistical Analysis refers to ITT Patients with relapse or progression and was performed with Gray's Test for Equality of Cumulative Incidence Functions||||0.3526
92232813|NCT00914628|184368206|SUPERIORITY|||||||0.4035|||||||Chi-squared|||this Gray's Statistical Analysis refers to ITT Deaths patients without previous relapse or progression and was performed with Test for Equality of Cumulative Incidence Functions||||0.4035
92232814|NCT00914628|184368206|SUPERIORITY|||||||0.2607|||||||Chi-squared|||this Gray's Statistical Analysis refers to PPS patients with relapse or progression and was performed with Test for Equality of Cumulative Incidence Functions||||0.2607
92232815|NCT00914628|184368206|SUPERIORITY|||||||0.5929|||||||Chi-squared|||this Gray's Statistical Analysis refers to PPS Deaths patients without previous relapse or progression and was performed with Test for Equality of Cumulative Incidence Function||||0.5929
92382545|NCT02530996|184667492|OTHER|Power calculations were performed using G\*Power computer software version 3. Sample-size calculations were based on the number of patients needed to detect significant differences in FMD between placebo and BH4.|Mean Difference (Net)|1.5|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Statistics were performed using SPSS software (IBM, Chicago, IL). Paired t-tests were used to identify significant changes in measured variables between placebo and BH4. Unpaired t-tests were used to identify significant changes in measured variables between ordered groups. Based on data published in PMID: 25511849 power calculations for this study of SSc patients were made.||||<0.05
92382546|NCT04484207|184667504|SUPERIORITY|||||||0.031|||||||GEE|||||||0.031
92382547|NCT00752726|184667508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.263|STANDARD_ERROR_OF_MEAN|0.115||0.0244|TWO_SIDED|95.0|0.035|0.491||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean change was adjusted for treatment, baseline VAT and center effect using an ANCOVA model.|Adjusted mean difference between Placebo group and Orlistat group was determined. For this primary analysis, only one statistical test was performed and therefore, no multiple comparison adjustment was done.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||0.491|0.035|0.0244
92382548|NCT00752726|184667509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.172|STANDARD_ERROR_OF_MEAN|0.0834||0.0415|TWO_SIDED|95.0|0.007|0.337||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean change was adjusted for the treatment, baseline VAT and center effects using an ANCOVA model.|Adjusted mean difference between Placebo group and Orlistat group was determined.|The null hypothesis considered no difference in the change from baseline to week 12 between the two treatment groups.||0.337|0.007|0.0415
92382549|NCT00752726|184667510|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.99|STANDARD_ERROR_OF_MEAN|0.881||0.026|TWO_SIDED|95.0|0.25|3.74||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean change was adjusted for the treatment, baseline weight and center effects, using an ANCOVA model.|Adjusted mean difference between Placebo group and Orlistat group was determined.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||3.74|0.25|0.026
92414855|NCT04345367|184719855|OTHER||Least square mean difference|0.7|||||TWO_SIDED|95.0|-1.9|3.4|||||Sleep adequacy score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||3.4|-1.9|
92414856|NCT04345367|184719855|OTHER||Least square mean difference|-0.8|||||TWO_SIDED|95.0|-2.8|1.3|||||Sleep somnolence score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||1.3|-2.8|
92414857|NCT04345367|184719855|OTHER||Least square mean difference|-2.4|||||TWO_SIDED|95.0|-4.4|-0.4|||||Sleep somnolence score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.4|-4.4|
92414858|NCT04345367|184719855|OTHER||Least square mean difference|-2.3|||||TWO_SIDED|95.0|-4.3|-0.3|||||Sleep somnolence score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.3|-4.3|
92414859|NCT04345367|184719855|OTHER||Least square mean difference|-1.2|||||TWO_SIDED|95.0|-3.0|0.7|||||Sleep Problems Index I score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.7|-3.0|
92232816|NCT00914628|184368210|SUPERIORITY|||||||0.4035|||||||Chi-squared|||This Statistical Analysis refers to ITT Deaths without previous relapse or progression and was performed with Gray's Test for Equality of Cumulative Incidence Functions||||0.4035
92232817|NCT00914628|184368210|SUPERIORITY|||||||0.3526|||||||Chi-squared|||This statistical test refers to Patients with relapse or progression and was performed to Gray's Test for Equality of Cumulative Incidence Functions.||||0.3526
92232818|NCT00914628|184368210|SUPERIORITY|||||||0.5929|||||||Chi-squared|||This Statistical Analysis refers to PPS Deaths without previous relapse or progression and was performed with Gray's Test for Equality of Cumulative Incidence Functions||||0.5929
92232819|NCT00914628|184368210|SUPERIORITY|||||||0.2607|||||||Chi-squared|||This statistical test refers to Patients with relapse or progression and was performed to Gray's Test for Equality of Cumulative Incidence Functions.||||0.2607
92232820|NCT00473694|184368234|SUPERIORITY||Estimated Treatment Effect|17.29|||<|0.0001|TWO_SIDED|95.0|13.95|21.42||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.9 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||21.42|13.95|<0.0001
92232821|NCT00473694|184368235|SUPERIORITY||Estimated Treatment Effect|14.86|||<|0.0001|TWO_SIDED|95.0|10.18|21.67||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.9 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||21.67|10.18|<0.0001
92278304|NCT01694485|184458542|SUPERIORITY||Difference in Adjusted Remission Rates|8.9|||||TWO_SIDED|90.0|0.8|14.9||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||14.9|0.8|
92414860|NCT04345367|184719855|OTHER||Least square mean difference|-2.3|||||TWO_SIDED|95.0|-4.0|-0.5|||||Sleep Problems Index I score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.5|-4.0|
92414861|NCT04345367|184719855|OTHER||Least square mean difference|-0.8|||||TWO_SIDED|95.0|-2.5|0.9|||||Sleep Problems Index I score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.9|-2.5|
92414862|NCT04345367|184719855|OTHER||Least square mean difference|-2.2|||||TWO_SIDED|95.0|-4.0|-0.3|||||Sleep Problems Index II score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.3|-4.0|
92232822|NCT00473694|184368236|SUPERIORITY||Estimated Treatment Effect|15.84|||<|0.0001|TWO_SIDED|95.0|12.58|19.95||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.7 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||19.95|12.58|<0.0001
92280476|NCT00601484|184463635|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.99|STANDARD_ERROR_OF_MEAN|0.769|||TWO_SIDED|90.0|-0.307|2.283||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.283|-0.307|
92382550|NCT00752726|184667511|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.642|STANDARD_ERROR_OF_MEAN|0.7174||0.0242|TWO_SIDED|95.0|0.219|3.065||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean change was adjusted for the treatment, baseline total fat mass and center effects using an ANCOVA model.|Adjusted mean difference between placebo group and Orlistat group was determined.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||3.065|0.219|0.0242
92382551|NCT00752726|184667512|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.47|STANDARD_ERROR_OF_MEAN|0.704||0.039|TWO_SIDED|95.0|0.07|2.87||P-value was not adjusted for multiple comparisons|ANCOVA|Mean was adjusted for the treatment, baseline total fat mass and center effects using an ANCOVA model.|Adjusted mean difference between placebo group and Orlistat group was evaluated.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||2.87|0.07|0.039
92382552|NCT00752726|184667513|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.974||0.085|TWO_SIDED|95.0|-0.24|3.63||P-value was not adjusted for multiple comparisons|ANCOVA|Mean change was adjusted for the treatment, baseline waist circumference and center effects, using an ANCOVA model.|Adjusted mean difference between Placebo group and Orlistat group was determined.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||3.63|-0.24|0.085
92382553|NCT00752726|184667515|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.023|STANDARD_ERROR_OF_MEAN|0.0232||0.3235|TWO_SIDED|95.0|-0.069|0.023||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean change was adjusted for the treatment, baseline liver fat and center effects, using an ANCOVA model.|Adjusted mean difference between placebo group and Orlistat group was evaluated.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||0.023|-0.069|0.3235
92382554|NCT00752726|184667516|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|783.8|STANDARD_ERROR_OF_MEAN|726.54||0.28|TWO_SIDED|95.0|-657.3|2224.9||P-value was not adjusted for multiple comparisons|ANCOVA|Mean change was adjusted for the treatment, baseline total calories expended and center effects using an ANCOVA model.|Adjusted mean difference between placebo group and Orlistat group was evaluated.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||2224.9|-657.3|0.28
92414863|NCT04345367|184719855|OTHER||Least square mean difference|-2.9|||||TWO_SIDED|95.0|-4.8|-1.1|||||Sleep Problems Index II score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.1|-4.8|
92414864|NCT04345367|184719855|OTHER||Least square mean difference|-1.4|||||TWO_SIDED|95.0|-3.2|0.4|||||Sleep Problems Index II score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-3.2|
92414865|NCT04345367|184719856|OTHER||Least square mean difference|-1.1|||||TWO_SIDED|95.0|-1.5|-0.8|||||Week 2. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.8|-1.5|
92414866|NCT04345367|184719856|OTHER||Least square mean difference|-0.4|||||TWO_SIDED|95.0|-0.8|-0.1|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.1|-0.8|
92414867|NCT04345367|184719856|OTHER||Least square mean difference|-0.2|||||TWO_SIDED|95.0|-0.6|0.1|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.1|-0.6|
92169385|NCT00704184|184227235|SUPERIORITY_OR_OTHER||Adjusted difference|5.4|||||TWO_SIDED|95.0|-16.5|28.4|||||Adjusted difference subtracts the percentage of placebo responders (88.9%) and stratifies by HCV genotype (1a vs. non-1a).|||28.4|-16.5|
92169386|NCT00704184|184227236|SUPERIORITY_OR_OTHER||Adjusted difference|16.9|||||TWO_SIDED|95.0|-4.0|40.2|||||Adjusted difference subtracts the percentage of placebo responders (83.3%) and stratifies by HCV genotype (1a vs. non-1a).|||40.2|-4.0|
92232823|NCT00473694|184368237|SUPERIORITY||Estimated Treatment Effect|18.45|||<|0.0001|TWO_SIDED|95.0|13.98|24.35||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.7 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||24.35|13.98|<0.0001
92232824|NCT00473694|184368238|SUPERIORITY||Estimated Treatment Effect|17.04|||<|0.0001|TWO_SIDED|95.0|13.62|21.31||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.8 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||21.31|13.62|<0.0001
92232825|NCT00473694|184368239|SUPERIORITY||Estimated Treatment Effect|17.7|||<|0.0001|TWO_SIDED|95.0|12.85|24.38||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.8 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||24.38|12.85|<0.0001
92232826|NCT01416181|184368248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.2866|TWO_SIDED|95.0|0.66|1.13|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on ≥ 1 of EDSS, T25FW, or 9HPT at 2 years||1.13|0.66|0.2866
92232827|NCT01416181|184368248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.753|TWO_SIDED|95.0|0.74|1.53|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on EDSS||1.53|0.74|0.7530
92382555|NCT00752726|184667517|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.66|STANDARD_ERROR_OF_MEAN|1.542||0.2847|TWO_SIDED|95.0|-1.4|4.72||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean difference was adjusted for the treatment, baseline value and center effects using an ANCOVA model.|Adjusted mean difference was calculated as placebo minus orlistat.|The null hypothesis considered no difference in the change from baseline to week 24 between the treatment groups.||4.72|-1.40|0.2847
92382556|NCT04232215|184667528|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.64|TWO_SIDED|95.0|-10.2|6.1|||Regression, Linear|A generalized linear model adjusting by intervention group and the order of randomization was conducted.||Difference in ease of use between our standard fetal Doppler and HeraBEAT™ device, as measured by the System Usability Survey (SUS) will be the primary outcome. We aim to recruit 50 participants (50 per arm, with cross-over) for a 99.7% power to detect a 10-point difference in SUS, as this accounts for a withdraw / post-randomization exclusion as high as 10% (assuming a proportion of expectant mothers to withdraw participation after being enrolled or found to not meet criteria after the fact).||6.1|-10.2|0.64
92232828|NCT01416181|184368248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9137|TWO_SIDED|95.0|0.74|1.3|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on T25FW||1.30|0.74|0.9137
92232829|NCT01416181|184368248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.0012|TWO_SIDED|95.0|0.4|0.8|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).||Confirmed progressors on 9HPT (either hand)||0.80|0.40|0.0012
92232830|NCT01416181|184368248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.1251|TWO_SIDED|95.0|0.48|1.09|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).||Confirmed progressors on 9HPT (dominant hand)||1.09|0.48|0.1251
92232831|NCT01416181|184368248|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58||||0.0091|TWO_SIDED|95.0|0.39|0.87|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).||Confirmed progressors on 9HPT (non-dominant hand)||0.87|0.39|0.0091
92232832|NCT01416181|184368250|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.4369|TWO_SIDED|95.0|0.8|1.7|||Regression, Logistic|Based on logistic regression, adjusted for baseline EDSS (\<=5.5 or \>=6) and T25FW.|active/placebo|||1.70|0.80|0.4369
92232833|NCT01416181|184368251|SUPERIORITY_OR_OTHER|||||||0.5409|||||||ANCOVA|p-value for comparison between the active and placebo groups at Week 96 is based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or \>=6) and BL MSWS-12.||||||0.5409
92232834|NCT01416181|184368252|SUPERIORITY_OR_OTHER|||||||0.2586|||||||ANCOVA|p-value for comparison between active and placebo groups at Week 96 is based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or \>=6) and BL ABILHAND.||||||0.2586
92232835|NCT01416181|184368253|SUPERIORITY_OR_OTHER|||||||0.1529|||||||ANCOVA|p-value for comparison between active \& placebo groups at Wk 96 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL MSIS-29 physical score.||||||0.1529
92232836|NCT01416181|184368254|SUPERIORITY_OR_OTHER|||||||0.2424||||||natalizumab participants had a baseline after 6 months of treatment and the placebo-to-natalizumab group had a baseline of initiation of treatment|ANCOVA|p-value for comparison between active and placebo groups at Week 96 is based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or \>=6) and BL brain volume.||Only participants with BL brain volume are included in the p-value calculation.||||0.2424
92232837|NCT01416181|184368255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.1052|TWO_SIDED|95.0|0.58|1.05|||Regression, Logistic|Based on logistic regression, adjusted for baseline EDSS (\<=5.5 or \>=6).||||1.05|0.58|0.1052
92232838|NCT01416181|184368256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.0205|TWO_SIDED|95.0|0.47|0.94|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on ≥ 1 of EDSS, T25FW, or 9HPT at 156 weeks||0.94|0.47|0.0205
92382557|NCT04232215|184667529|SUPERIORITY||Risk Ratio (RR)|1.2||||0.63|TWO_SIDED|95.0|0.57|2.53|||Chi-squared|||||2.53|0.57|0.63
92382558|NCT04268745|184667530|SUPERIORITY||Mean Difference (Final Values)|-13.603||||0.027|TWO_SIDED|95.0|-25.634|-1.573|||Regression, Linear|||||-1.573|-25.634|0.027
92382559|NCT04268745|184667531|SUPERIORITY||Median Difference (Final Values)|6.405||||0.0001|TWO_SIDED|95.0|4.474|8.335|||Regression, Linear|||||8.335|4.474|0.0001
92414868|NCT04345367|184719856|OTHER||Least square mean difference|-0.3|||||TWO_SIDED|95.0|-0.6|0.0|||||Week 20. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.0|-0.6|
92414869|NCT04345367|184719856|OTHER||Least square mean difference|-0.2|||||TWO_SIDED|95.0|-0.5|0.1|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.1|-0.5|
92232839|NCT01416181|184368256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.1305|TWO_SIDED|95.0|0.48|1.1|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on EDSS at 156 weeks||1.10|0.48|0.1305
92232840|NCT01416181|184368256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.1988|TWO_SIDED|95.0|0.57|1.12|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on T25FW at 156 weeks||1.12|0.57|0.1988
92382560|NCT04268745|184667532|SUPERIORITY||Mean Difference (Final Values)|-18.703||||0.0002|TWO_SIDED|95.0|-28.235|-9.172|||Regression, Linear|||||-9.172|-28.235|0.0002
92232841|NCT01416181|184368256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.0093|TWO_SIDED|95.0|0.39|0.88|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on 9HPT (either hand) at 156 weeks||0.88|0.39|0.0093
92278305|NCT01694485|184458542|SUPERIORITY|Comparisons of abrilumab 21 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.64||||0.64|TWO_SIDED|90.0|0.13|3.17|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.17|0.13|0.64
92382561|NCT04268745|184667533|SUPERIORITY||Mean Difference (Final Values)|8.556||||0.028|TWO_SIDED|95.0|0.938|16.174|||Regression, Linear|||||16.174|0.938|0.028
92382562|NCT04268745|184667534|SUPERIORITY||Mean Difference (Final Values)|0.111||||0.695|TWO_SIDED|95.0|-0.443|0.665|||Regression, Linear|||||0.665|-0.443|0.695
92382563|NCT04268745|184667535|SUPERIORITY||Mean Difference (Final Values)|-0.514||||0.469|TWO_SIDED|95.0|-1.901|0.874|||Regression, Linear|||||0.874|-1.901|0.469
92382564|NCT01593592|184667580|SUPERIORITY_OR_OTHER||percentage|0.0|||||TWO_SIDED|95.0||||||||A total of 70 patients were included; 35 in each arm. The sample size was calculated assuming eradication of H. pylori in at least 70% of treated patients, aiming to detect a difference of 30% based on a 0.80 power to detect significant difference (p =0.05, two-sided).||||
92382565|NCT03416127|184667598|OTHER|||||||0.031|||||||Kruskal-Wallis|||||||0.031
92382566|NCT03416127|184667599|OTHER|||||||0.963|||||||Kruskal-Wallis|||||||0.963
92414870|NCT04345367|184719857|OTHER||Least square mean difference|18.1|||||TWO_SIDED|95.0|10.5|25.7||||||Analysis was performed using analysis of covariance (ANCOVA) model including treatment as a main effect and baseline disease severity as covariates.||25.7|10.5|
92382567|NCT03416127|184667600|OTHER|||||||0.236|||||||Kruskal-Wallis|||||||0.236
92414871|NCT04345367|184719858|OTHER||Estimate of difference|13.7|||||TWO_SIDED|95.0|7.3|20.1|||||Week 2. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.1|7.3|
92414872|NCT04345367|184719858|OTHER||Estimate of difference|3.9|||||TWO_SIDED|95.0|-1.6|9.4|||||Week 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||9.4|-1.6|
92232842|NCT01416181|184368256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63||||0.054|TWO_SIDED|95.0|0.39|1.01|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors onm 9HPT (dominant hand) at 156 weeks||1.01|0.39|0.0540
92232843|NCT01416181|184368256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.141|TWO_SIDED|95.0|0.44|1.12|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on 9HPT (non-dominant hand) at 156 weeks||1.12|0.44|0.1410
92382568|NCT03416127|184667601|OTHER|||||||0.015|||||||Kruskal-Wallis|||||||0.015
92382569|NCT03416127|184667602|OTHER|||||||0.017|||||||Kruskal-Wallis|||||||0.017
92382570|NCT03416127|184667603|OTHER|||||||0.162|||||||Kruskal-Wallis|||||||0.162
92382571|NCT03416127|184667604|OTHER|||||||0.686|||||||Kruskal-Wallis|||||||0.686
92382572|NCT03416127|184667605|OTHER|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92382573|NCT03416127|184667606|OTHER|||||||0.945|||||||Kruskal-Wallis|||||||0.945
92382574|NCT03416127|184667607|OTHER|||||||0.332|||||||Kruskal-Wallis|||||||0.332
92382575|NCT03416127|184667608|OTHER|||||||0.075|||||||Kruskal-Wallis|||||||0.075
92382576|NCT03416127|184667609|OTHER|||||||0.903|||||||Kruskal-Wallis|||||||0.903
92382577|NCT03416127|184667610|OTHER|||||||0.697|||||||Kruskal-Wallis|||||||0.697
92382578|NCT03416127|184667611|OTHER|||||||0.668|||||||Kruskal-Wallis|||||||0.668
92382579|NCT03416127|184667612|OTHER|||||||0.308|||||||Kruskal-Wallis|||||||0.308
92382580|NCT03416127|184667613|OTHER|||||||0.318|||||||Kruskal-Wallis|||||||0.318
92382581|NCT03416127|184667614|OTHER|||||||0.88|||||||Kruskal-Wallis|||||||0.880
92382582|NCT03416127|184667615|OTHER|||||||0.376|||||||Kruskal-Wallis|||||||0.376
92382583|NCT03416127|184667616|OTHER|||||||0.21|||||||Kruskal-Wallis|||||||0.210
92382584|NCT03416127|184667617|OTHER|||||||0.88|||||||Kruskal-Wallis|||||||0.880
92382585|NCT03416127|184667618|OTHER|||||||0.059|||||||Kruskal-Wallis|||||||0.059
92382586|NCT03416127|184667619|OTHER|||||||0.978|||||||Kruskal-Wallis|||||||0.978
92382587|NCT03416127|184667620|OTHER|||||||0.122|||||||Kruskal-Wallis|||||||0.122
92382588|NCT03416127|184667621|OTHER|||||||0.551|||||||Kruskal-Wallis|||||||0.551
92414873|NCT04345367|184719858|OTHER||Estimate of difference|-1.6|||||TWO_SIDED|95.0|-7.1|4.0|||||Week 16. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||4.0|-7.1|
92382589|NCT02397057|184667658|OTHER|Observed cases, logistic regression analysis. Subjects with missing data on Day 42 were excluded from the statistical testing.|Odds Ratio (OR)|1.35||||0.369|TWO_SIDED|95.0|0.7|2.63||p-value was estimated by logistic regression with treatment, region (US, EUR), and baseline RLS medication-related augmentation as fixed factors, and baseline IRLS as a covariate.|Regression, Logistic|||||2.63|0.70|0.3690
92232844|NCT01416181|184368257|SUPERIORITY_OR_OTHER|||||||0.0273|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||Week 156||||0.0273
92232845|NCT01416181|184368257|SUPERIORITY_OR_OTHER|||||||0.1974|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||CP Group: Week 156||||0.1974
92232846|NCT01416181|184368257|SUPERIORITY_OR_OTHER|||||||0.2506|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||NP Group: Week 156||||0.2506
92232847|NCT01416181|184368258|SUPERIORITY_OR_OTHER|||||||0.096|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||Overall: Week 156||||0.0960
92232848|NCT01416181|184368258|SUPERIORITY_OR_OTHER|||||||0.4957|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||CP Group: Week 156||||0.4957
92232849|NCT01416181|184368258|SUPERIORITY_OR_OTHER|||||||0.2916|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||NP Group: Week 156||||0.2916
92278306|NCT01694485|184458542|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Remission Rates|-1.6|||||TWO_SIDED|90.0|-5.2|5.5||||||The difference in remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||5.5|-5.2|
92382590|NCT02397057|184667662|OTHER||Least square(LS) mean difference|-4.071|STANDARD_ERROR_OF_MEAN|2.542||0.1108|TWO_SIDED|95.0|-9.083|0.941|||ANCOVA|||LOCF, ANCOVA Analysis||0.941|-9.083|0.1108
92382591|NCT02397057|184667663|OTHER|||||||0.0002||||||p-value was estimated using continuity-corrected chi-square test.|Chi-squared, Corrected|||||||0.0002
92382592|NCT03927144|184667713|SUPERIORITY||Odds Ratio (OR)|6.48|||<|0.0001|TWO_SIDED|95.0|4.28|9.82|||Cochran-Mantel-Haenszel|Adjusted for stratification factor (no. of prior prophylactic migraine treatment failures=1 vs 2) after missing data were imputed as non-response.||||9.82|4.28|<0.0001
92414874|NCT04345367|184719858|OTHER||Estimate of difference|-2.0|||||TWO_SIDED|95.0|-7.6|3.6|||||Week 20. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||3.6|-7.6|
92169387|NCT00704184|184227236|SUPERIORITY_OR_OTHER||Adjusted difference|16.2|||||TWO_SIDED|95.0|-2.2|39.5|||||Adjusted difference subtracts the percentage of placebo responders (83.3%) and stratifies by HCV genotype (1a vs. non-1a).|||39.5|-2.2|
92232850|NCT01416181|184368259|SUPERIORITY_OR_OTHER|||||||0.1119|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||Overall, Week 156||||0.1119
92232851|NCT01416181|184368259|SUPERIORITY_OR_OTHER|||||||0.1129|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||CP Group: Week 156||||0.1129
92232852|NCT01416181|184368259|SUPERIORITY_OR_OTHER|||||||0.2351|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||NP Group: Week 156||||0.2351
92232853|NCT01416181|184368260|SUPERIORITY_OR_OTHER|||||||0.0261|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||Overall: Week 156||||0.0261
92232854|NCT01416181|184368260|SUPERIORITY_OR_OTHER|||||||0.0585|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||CP Group: Week 156||||0.0585
92232855|NCT01416181|184368260|SUPERIORITY_OR_OTHER|||||||0.6095|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||NP Group: Week 156||||0.6095
92232856|NCT01416181|184368261|SUPERIORITY_OR_OTHER|||||||0.723|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||Overall: Week 156||||0.7230
92232857|NCT01416181|184368261|SUPERIORITY_OR_OTHER|||||||0.8781|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||CP Group: Week 156||||0.8781
92232858|NCT01416181|184368261|SUPERIORITY_OR_OTHER|||||||0.2751|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||NP Group: Week 156||||0.2751
92232859|NCT01416181|184368262|SUPERIORITY_OR_OTHER|||||||0.5051|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||Overall: Week 156||||0.5051
92232860|NCT01416181|184368262|SUPERIORITY_OR_OTHER|||||||0.7283|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||CP Group: Week 156||||0.7283
92382593|NCT03927144|184667714|SUPERIORITY||Odds Ratio (OR)|11.27|||<|0.0001|TWO_SIDED|95.0|7.53|16.87|||Cochran-Mantel-Haenszel|Adjusted for number of prior prophylactic migraine treatment failures=1 vs 2 after missing data were imputed as non-response.||||16.87|7.53|<0.0001
92414875|NCT04345367|184719858|OTHER||Estimate of difference|-4.2|||||TWO_SIDED|95.0|-10.3|1.9|||||Week 26. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||1.9|-10.3|
92414876|NCT01755026|184719899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|191.0|STANDARD_ERROR_OF_MEAN|166.01|<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.01
92414877|NCT03836001|184719900|SUPERIORITY|||||||0.59||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||||||0.59
92232861|NCT01416181|184368262|SUPERIORITY_OR_OTHER|||||||0.1666|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||NP Group: Week 156||||0.1666
92414878|NCT03836001|184719901|SUPERIORITY|||||||1||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||||||1
92232862|NCT01416181|184368263|SUPERIORITY_OR_OTHER|||||||0.433|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||Overall: Week 156||||0.4330
92232863|NCT01416181|184368263|SUPERIORITY_OR_OTHER|||||||0.7122|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||CP Group: Week 156||||0.7122
92232864|NCT01416181|184368263|SUPERIORITY_OR_OTHER|||||||0.3861|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||NP Group: Week 156||||0.3861
92232865|NCT01416181|184368264|SUPERIORITY_OR_OTHER|||||||0.7225|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||Overall: Week 156||||0.7225
92232866|NCT01416181|184368264|SUPERIORITY_OR_OTHER|||||||0.9121|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||CP Group: Week 156||||0.9121
92232867|NCT01416181|184368264|SUPERIORITY_OR_OTHER|||||||0.2594|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||NP Group: Week 156||||0.2594
92414879|NCT03836001|184719902|SUPERIORITY|||||||1||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||||||1
92414880|NCT03836001|184719903|SUPERIORITY|||||||0.67||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||||||0.67
92414881|NCT03836001|184719904|SUPERIORITY|||||||1||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||||||1
92414882|NCT03836001|184719905|OTHER||Mean Difference (Net)|-0.11||||0.09|TWO_SIDED|95.0|-0.24|0.02||A p-value of \<0.05 would be considered statistically significant.|Mixed Models Analysis|||Analysis of change from baseline through week 8 including all time points. For this analysis, data were censored at the time of participant discontinuation.||0.02|-0.24|0.09
92232868|NCT01416181|184368265|SUPERIORITY_OR_OTHER|||||||0.8066|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 6MWT.||Week 156||||0.8066
92232869|NCT01416181|184368267|SUPERIORITY_OR_OTHER|||||||0.7084|||||||ANCOVA|p-value for comparison between active \& placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL MSIS-29 physical score.||||||0.7084
92232870|NCT01416181|184368269|SUPERIORITY_OR_OTHER|||||||0.3465|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL SDMT.||Week 156||||0.3465
92232871|NCT01416181|184368273|SUPERIORITY_OR_OTHER|||||||0.007||||||natalizumab participants had a baseline after 6 months of treatment and the placebo-to-natalizumab group had a baseline of initiation of treatment|ANCOVA|p-value for comparison between active \& placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL normalized brain volume.||Percentage change from Week 24 to Week 156||||0.0070
92232872|NCT01416181|184368274|SUPERIORITY_OR_OTHER|||||||0.5034||||||natalizumab participants had a baseline after 6 months of treatment and the placebo-to-natalizumab group had a baseline of initiation of treatment|ANCOVA|p-value for comparison between active \& placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL WGM brain volume||Percentage hange from Baseline to Week 156||||0.5034
92232873|NCT01416181|184368275|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value for comparison between the active and placebo groups at Week 156 compared to Week 108 is based on negative binomial regression model, adjusted for baseline EDSS (\<=5.5 or \>=6) and baseline volume of T2 lesions.|negative binomial regression model|natalizumab participants had a baseline after 6 months of treatment and the placebo-to-natalizumab group had a baseline of initiation of treatment||Week 156||||< 0.0001
92232874|NCT01756157|184368277|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.61||||0.0523|TWO_SIDED|95.0|-1.23|0.01|||Paired t-test, 2 sided|||||0.01|-1.23|0.0523
92232875|NCT02799381|184368287|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-15.05|||<|0.0001|TWO_SIDED|95.0|-21.47|-8.63||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|||-8.63|-21.47|<0.0001
92239655|NCT00637273|184383088|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.04||0.9718|TWO_SIDED|95.0|0.93|1.08||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Triglycerides data were logarithm-transformed and the change at Week 26 to baseline (Day 1), expressed as the ratio, was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting triglycerides as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||1.08|0.93|0.9718
92239656|NCT00637273|184383088|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|0.89|STANDARD_ERROR_OF_MEAN|0.035||0.0062|TWO_SIDED|95.0|0.82|0.96||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Triglycerides data were logarithm-transformed and the change at Week 26 to baseline (Day 1), expressed as the ratio, was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting triglycerides as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||0.96|0.82|0.0062
92414883|NCT03836001|184719906|SUPERIORITY||Mean Difference (Net)|-0.08||||0.16|TWO_SIDED|95.0|-0.19|0.03||A p-value of \<0.05 would be considered statistically significant.|Mixed Models Analysis|||Analysis of change from baseline through week 8 including all time points. For this analysis, data were censored at the time of participant discontinuation.||0.03|-0.19|0.16
92414884|NCT03836001|184719908|OTHER||Mean Difference (Net)|-0.25||||0.002|TWO_SIDED|95.0|-0.41|-0.09||A p-value of \<0.05 would be considered statistically significant.|Mixed Models Analysis|||Analysis of change from baseline through week 8 including all time points. For this analysis, data were censored at the time of participant discontinuation.||-0.09|-0.41|0.002
92232876|NCT02799381|184368288|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|3.27|||<|0.0001|TWO_SIDED|95.0|1.71|4.83||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||4.83|1.71|<0.0001
92232877|NCT02799381|184368289|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-16.66|||<|0.0001|TWO_SIDED|95.0|-24.48|-8.85||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||-8.85|-24.48|<0.0001
92232878|NCT02799381|184368290|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-2.11|||<|0.0001|TWO_SIDED|95.0|-2.78|-1.44||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||-1.44|-2.78|<0.0001
92232879|NCT02799381|184368291|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-5.54|||=|0.0006|TWO_SIDED|95.0|-8.59|-2.49||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||-2.49|-8.59|=0.0006
92232880|NCT02799381|184368292|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-2.35|||=|0.0002|TWO_SIDED|95.0|-3.51|-1.19||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||-1.19|-3.51|=0.0002
92232881|NCT02799381|184368293|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-4.05|||=|0.0762|TWO_SIDED|95.0|-8.55|0.44||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||0.44|-8.55|=0.0762
92382594|NCT03927144|184667715|SUPERIORITY||Treatment difference|-2.13|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.74|-1.52|||Linear mixed effects model||AMG334 70 mg/140 mg vs Oral Prophylactic|Comparison of mean change from baseline in monthly migraine days at Week 52||-1.52|-2.74|<0.001
92382595|NCT03927144|184667716|SUPERIORITY||Odds Ratio (OR)|13.75|||<|0.001|TWO_SIDED|95.0|9.08|20.83|||Cochran-Mantel-Haenszel|Adjusted for number of prior prophylactic migraine treatment failures=1 vs 2 after missing data were imputed as non-response.||||20.83|9.08|<0.001
92382596|NCT03002311|184667751|SUPERIORITY|We conducted a conditional power analysis 120 days after 6 months of enrollment. We determined the effect size based on the difference of proportions of follow-up attendance in the intervention and control arms. We used the effect size of 20% to estimate the sample size needed for a two-sided alpha of 0.05 at 90% power and a 1:1 ratio to require 266 participants. Loss to follow-up was estimated to be 20%, increasing target enrollment to 334 total participants.|||||<|0.001|||||||Gray's test|We compared the cumulative incidence function.||||||<0.001
92382597|NCT03002311|184667752|SUPERIORITY|This was a secondary analysis so no power analysis was done.||||||0.8||||||We used a two-sided alpha of 0.05 to determine significance.|Gray's test|We compared the cumulative incidence functions.||||||0.8
92382598|NCT02868229|184667798|SUPERIORITY||Differences of LS Means|-5.666||||0.002|TWO_SIDED|95.0|-9.082|-2.25|||ANCOVA|||The P-value was obtained from rank transformed analysis of covariance (ANCOVA) model, where the rank transformed change from baseline (CFB) values as the response variable and treatments as a factor and the rank transformed baseline value as its covariate.||-2.250|-9.082|0.002
92382599|NCT02868229|184667798|SUPERIORITY||Differences of LS Means|-6.913|||<|0.001|TWO_SIDED|95.0|-10.613|-3.214|||ANCOVA|||The P-value was obtained from rank transformed analysis of covariance (ANCOVA) model, where the rank transformed change from baseline (CFB) values as the response variable and treatments as a factor and the rank transformed baseline value as its covariate.||-3.214|-10.613|<0.001
92382600|NCT02868229|184667798|SUPERIORITY||Differences of LS Means|-9.591|||<|0.001|TWO_SIDED|95.0|-13.217|-5.965|||ANCOVA|||The P-value was obtained from rank transformed analysis of covariance (ANCOVA) model, where the rank transformed change from baseline (CFB) values as the response variable and treatments as a factor and the rank transformed baseline value as its covariate.||-5.965|-13.217|<0.001
92382601|NCT04071158|184667994|SUPERIORITY||Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.4|2.8||||||Difference in percentage||2.8|-1.4|
92382602|NCT04071158|184667995|SUPERIORITY||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-4.6|1.7||||||Difference in percentage||1.7|-4.6|
92382603|NCT04071158|184667996|SUPERIORITY||Ratio of Geometric Mean|0.8|||||TWO_SIDED|95.0|0.64|1.0||||||Anti-PT: Ratio of geometric mean was calculated by dividing the GMC of RSV vaccine with aluminum hydroxide with Tdap arm by GMC of placebo/Tdap arm.||1.00|0.64|
92382604|NCT04071158|184667996|SUPERIORITY||Ratio of Geometric Mean|0.59|||||TWO_SIDED|95.0|0.5|0.7||||||Anti-PT: Ratio of geometric mean was calculated by dividing the GMC of RSV vaccine with aluminum hydroxide with Tdap arm by GMC of placebo/Tdap arm.||0.70|0.50|
92414885|NCT00392379|184719911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0|STANDARD_DEVIATION|43.0|<|0.05|TWO_SIDED|95.0||||No adjustment for multiple comparisons.|Regression, Logistic|||Based upon previous research, we hypothesized that the end-of-treatment abstinence rate for subjects receiving placebo would be 35% and the abstinence rate for subjects receiving the 4-mg nicotine lozenge would be 53%. A resulting power calculation indicated that 270 subjects (135 per group) were required in order to have 85% power to detect a significant difference (two-sided, α = 0.05 level test).||||<0.05
92414886|NCT02184624|184719914|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical comparison for categories Error while using only ELLIPTA inhaler Vs Error while using DISKUS/ACCUHALER|Cochran-Mantel-Haenszel|||||||<0.001
92414887|NCT02184624|184719914|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using MDI|Cochran-Mantel-Haenszel|||||||<0.001
92280477|NCT00601484|184463636|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-1.68|||||TWO_SIDED|90.0|-9.05|5.76||||||Week 2: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||5.76|-9.05|
92382605|NCT04071158|184667996|SUPERIORITY||Ratio of Geometric Mean|0.6|||||TWO_SIDED|95.0|0.48|0.76||||||Anti-PT: Ratio of geometric mean was calculated by dividing the GMC of RSV vaccine with aluminum hydroxide with Tdap arm by GMC of placebo/Tdap arm.||0.76|0.48|
92382606|NCT04071158|184667997|SUPERIORITY||Ratio of Geometric Mean|0.97|||||TWO_SIDED|95.0|0.84|1.13|||||Ratio of geometric mean was calculated by dividing GMT of RSV vaccine with aluminum hydroxide with Tdap arm by GMT of RSV vaccine with aluminum hydroxide with placebo arm.|2.0-fold margin (related to primary objective): primary objective was demonstrated if the lower limit of 95% confidence interval (CI) from the ratio of titers with 50 percent cut off from two treatment groups greater than (\>) 0.5.||1.13|0.84|
92382607|NCT04071158|184667998|SUPERIORITY||Ratio of Geometric Mean|0.96|||||TWO_SIDED|95.0|0.81|1.14|||||Ratio of geometric mean was calculated by dividing GMT of RSV vaccine with aluminum hydroxide with Tdap arm by GMT of RSV vaccine with aluminum hydroxide with placebo arm.|2.0-fold margin (related to primary objective): primary objective was demonstrated if the lower limit of 95% CI from the ratio of titers with 50 percent cut off from two treatment groups \> 0.5.||1.14|0.81|
92382608|NCT04071158|184668003|SUPERIORITY||Ratio of Geometric Mean|0.97|||||TWO_SIDED|95.0|0.84|1.13|||||Ratio of geometric mean was calculated by dividing GMT of RSV vaccine with aluminum hydroxide with Tdap arm by GMT of RSV vaccine with aluminum hydroxide with placebo arm.|1.5-fold margin (related to secondary objective): secondary objective was demonstrated if the lower limit of 95% CI from the ratio of titers with 50 percent cut off from two treatment groups \> 0.67.||1.13|0.84|
92382609|NCT04071158|184668004|SUPERIORITY||Ratio of Geometric Mean|0.96|||||TWO_SIDED|95.0|0.81|1.14|||||Ratio of geometric mean was calculated by dividing GMT of RSV vaccine with aluminum hydroxide with Tdap arm by GMT of RSV vaccine with aluminum hydroxide with placebo arm.|1.5-fold margin (related to secondary objective): secondary objective was demonstrated if the lower limit of 95% CI from the ratio of titers with 50 percent cut off from two treatment groups \> 0.67.||1.14|0.81|
92382610|NCT01178099|184668009|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.05|||||TWO_SIDED|90.0|0.829|1.33|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 10 mg SD (overall).|||1.33|0.829|
92414888|NCT02184624|184719914|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using TURBUHALER|Cochran-Mantel-Haenszel|||||||<0.001
92414889|NCT02184624|184719914|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using HANDIHALER|Cochran-Mantel-Haenszel|||||||<0.001
92414890|NCT02184624|184719914|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using BREEZHALER|Cochran-Mantel-Haenszel|||||||<0.001
92414891|NCT02184624|184719915|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using DISKUS/ACCUHALER|Cochran-Mantel-Haenszel|||||||<0.001
92414892|NCT02184624|184719915|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using MDI|Cochran-Mantel-Haenszel|||||||<0.001
92414893|NCT02184624|184719915|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using TURBUHALER|Cochran-Mantel-Haenszel|||||||<0.001
92414894|NCT02184624|184719915|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using HANDIHALER|Cochran-Mantel-Haenszel|||||||<0.001
92169388|NCT00704184|184227236|SUPERIORITY_OR_OTHER||Adjusted difference|16.9|||||TWO_SIDED|95.0|-4.0|40.2|||||Adjusted difference subtracts the percentage of placebo responders (83.3%) and stratifies by HCV genotype (1a vs. non-1a).|||40.2|-4.0|
92382611|NCT01178099|184668009|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.895|||||TWO_SIDED|90.0|0.718|1.12|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 7.5 mg MD.|||1.12|0.718|
92382612|NCT01178099|184668009|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.905|||||TWO_SIDED|90.0|0.656|1.25|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 5 mg MD.|||1.25|0.656|
92232882|NCT00486902|184368311|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Fisher Exact|||Sample size was determined assuming an incidence of breakthrough pain of 75% and an absolute difference between groups of -20 to +15%. This rate of request for analgesia in the first 24 h was based on data from a parallel study utilizing the same multimodal postoperative pain regimen for cesarean delivery. Group sample sizes of 90 achieve 80% power to detect this difference using the two-sided Z test with pooled variance. The significance level of the test was targeted at 0.05.||||0.86
92232883|NCT00486902|184368312|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.02
92232884|NCT00486902|184368313|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.24
92232885|NCT00486902|184368314|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Fisher Exact|||||||0.87
92232886|NCT00486902|184368315|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Fisher Exact|||||||0.90
92232887|NCT00486902|184368316|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Fisher Exact|||||||0.24
92232888|NCT00486902|184368317|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92232889|NCT00486902|184368318|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.6||||0.02|TWO_SIDED|95.0|-1.1|-0.09|||Wilcoxon (Mann-Whitney)|||||-0.09|-1.1|0.02
92232890|NCT04331899|184368319|OTHER||Cox Proportional Hazard|0.81||||0.29|TWO_SIDED|95.0|0.56|1.19||Tests were conducted at the 0.05 level of significance.|Regression, Cox||Cox proportional hazards model covariate-adjusted for age 50+ and sex.|||1.19|0.56|0.29
92382613|NCT01178099|184668010|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.953|||||TWO_SIDED|90.0|0.664|1.37|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 10 mg SD (overall).|||1.37|0.664|
92232891|NCT04331899|184368320|OTHER||Cox Proportional Hazard|-0.06||||0.91|TWO_SIDED|95.0|-1.23|1.11||Tests were conducted at the 0.05 level of significance.|Regression, Linear||Log change at Day 14. Cox proportional hazards model covariate-adjusted for age 50+ and sex.|||1.11|-1.23|0.91
92232892|NCT04331899|184368321|OTHER||Cox Proportional Hazard|1.01||||0.95|TWO_SIDED|95.0|0.85|1.16||Tests were conducted at the 0.05 level of significance.|Regression, Linear||Cox proportional hazards model covariate-adjusted for age 50+ and sex.|||1.16|0.85|0.95
92232893|NCT04331899|184368322|OTHER||Cox Proportional Hazard|0.94||||0.76|TWO_SIDED|95.0|0.6|1.41||Tests were conducted at the 0.05 level of significance.|Regression, Cox||Cox proportional hazards model covariate-adjusted for age 50+ and sex.|||1.41|0.60|0.76
92232894|NCT01062399|184368324|OTHER||||||||||||||||||A dose level for RAD001 will be considered acceptable if no patient of the first 3patients or no more than 2 patients of the first 6 patients experience a DLT. If the current level is considered acceptable, then dose escalation will occur and the protocol will be reopened. Otherwise, the preceding acceptable dose level will be declared the MTD.|||
92232895|NCT01062399|184368325|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.79|TWO_SIDED|95.0|0.82|1.6|||Log Rank||Reference arm = RT + TMZ|Assuming exponential distribution with median PFS (mPFS) time for control of 6.7 mos. for the control arm, tt was hypothesized that there would be a 43% improvement in mPFS time, corresponding to a mPFS time of 9.6. This is equivalent to a hazard ratio of 0.7 for the experimental arm vs. control arm. With a 1-sided significance level = 0.15 and 85% power, a total of 134 PFS events out of 180 eligible patients were required to detect the projected effect size.||1.60|0.82|0.79
92232896|NCT01062399|184368326|SUPERIORITY||Hazard Ratio (HR)|1.67||||0.008|TWO_SIDED|95.0|1.14|2.45|||Log Rank|2-sided significance level = 0.05|Reference level = RT + TMZ|||2.45|1.14|0.008
92232897|NCT03584009|184368379|SUPERIORITY||Risk Difference (RD)|-1.96||||0.7286|TWO_SIDED|95.0|-16.86|12.94||P-value is based on Stratified Analysis (Stratified by BCL2 status (High vs Low) and Lines of Therapy (2 vs 1)).|Cochran-Mantel-Haenszel|||||12.94|-16.86|0.7286
92232898|NCT03584009|184368380|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.7853|TWO_SIDED|95.0|0.61|1.45||P-value is based on Stratified Analysis (Stratified by BCL2 status (High vs Low) and Lines of Therapy (2 vs 1)).|Regression, Cox|||||1.45|0.61|0.7853
92232899|NCT03584009|184368381|SUPERIORITY||Risk Difference (RD)|-1.96||||0.5978|TWO_SIDED|95.0|-12.29|8.37||P-value is based on Stratified Analysis (Stratified by BCL2 status (High vs Low) and Lines of Therapy (2 vs 1)).|Cochran-Mantel-Haenszel|||||8.37|-12.29|0.5978
92232900|NCT03584009|184368383|SUPERIORITY||Hazard Ratio (HR)|1.87||||0.0403|TWO_SIDED|95.0|1.02|3.43||P-value is based on Stratified Analysis (Stratified by BCL2 status (High vs Low) and Lines of Therapy (2 vs 1)).|Log Rank||Hazard ratios were estimated by Cox regression.|||3.43|1.02|0.0403
92232901|NCT04112914|184368388|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.021|TWO_SIDED||||||Regression, Linear|||||||0.021
92232902|NCT04112914|184368389|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.638|TWO_SIDED||||||Regression, Linear|||||||0.638
92232903|NCT04112914|184368390|SUPERIORITY||Odds Ratio (OR)|1.77||||0.338|TWO_SIDED|95.0|0.55|5.72|||Regression, Logistic|||||5.72|0.55|0.338
92232904|NCT04112914|184368391|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.606|TWO_SIDED||||||Regression, Linear|||||||0.606
92232905|NCT04112914|184368392|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.508|TWO_SIDED||||||Regression, Linear|||||||0.508
92232906|NCT04112914|184368393|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.042|TWO_SIDED||||||Regression, Linear|||||||0.042
92232907|NCT04112914|184368394|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.128|TWO_SIDED||||||Regression, Linear|||||||0.128
92382614|NCT01178099|184668010|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.612|||||TWO_SIDED|90.0|0.436|0.86|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 7.5 mg MD.|||0.860|0.436|
92232908|NCT00768560|184368395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.69||||||90.0|-12.62|-6.77|||||40 mg BID minus 40 mg OD|The point estimate and 90% confidence interval of the difference of changes in SBP from baseline was estimated by using the analysis of variance (ANOVA) model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||-6.77|-12.62|
92239657|NCT00365716|184383091|SUPERIORITY_OR_OTHER||Vaccine Efficacy|89.5||||||95.0|70.7|97.3|||||"Vaccine Efficacy (% relative risk reduction)~Confidence Interval based on binomial tail probabilities and not from a dispersion parameter."|||97.3|70.7|
92239658|NCT02853331|184383092|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.00012|TWO_SIDED|95.0|0.56|0.84|||Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC risk group (favorable vs. intermediate vs. poor) and geographic region (North America vs. Western Europe vs. Rest of World).|||0.84|0.56|0.00012
92382615|NCT01178099|184668010|SUPERIORITY_OR_OTHER||Geometric LS Means, SCD:Healthy|1.03|||||TWO_SIDED|90.0|0.625|1.68|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD.|||1.68|0.625|
92382616|NCT01178099|184668011|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.070
92382617|NCT01178099|184668012|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.52|||||TWO_SIDED|90.0|1.1|2.1|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 10 mg SD (overall) for the R-95913 metabolite.|||2.10|1.10|
92382618|NCT01178099|184668012|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.44|||||TWO_SIDED|90.0|1.06|1.94|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 7.5 mg MD for the R-95913 metabolite.|||1.94|1.06|
92382619|NCT01178099|184668012|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.43|||||TWO_SIDED|90.0|0.918|2.21|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD for the R-95913 metabolite.|||2.21|0.918|
92232909|NCT00768560|184368395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||||90.0|-2.87|2.98|||||80 mg OD minus 40 mg OD|The point estimate and 90% confidence interval of the difference of changes in SBP from baseline was estimated by using the ANOVA model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||2.98|-2.87|
92382620|NCT01178099|184668012|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.971|||||TWO_SIDED|90.0|0.742|1.27|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 10 mg SD (overall) for the R-106583 metabolite.|||1.27|0.742|
92382621|NCT01178099|184668012|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.815|||||TWO_SIDED|90.0|0.633|1.05|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 7.5 mg MD for the R-106583 metabolite.|||1.05|0.633|
92382622|NCT01178099|184668012|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.952|||||TWO_SIDED|90.0|0.658|1.38|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 5 mg MD for the R-106583 metabolite.|||1.38|0.658|
92414895|NCT02184624|184719915|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using BREEZHALER|Cochran-Mantel-Haenszel|||||||<0.001
92414896|NCT02184624|184719916|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using DISKUS/ACCUHALER|Cochran-Mantel-Haenszel|||||||0.480
92414897|NCT02184624|184719916|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using MDI|Cochran-Mantel-Haenszel|||||||0.044
92382623|NCT01178099|184668012|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.17|||||TWO_SIDED|90.0|0.833|1.65|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 10 mg SD (overall) for the R-119251 metabolite.|||1.65|0.833|
92382624|NCT01178099|184668012|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.07|||||TWO_SIDED|90.0|0.779|1.48|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 7.5 mg MD for the R-119251 metabolite.|||1.48|0.779|
92382625|NCT01178099|184668012|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.813|||||TWO_SIDED|95.0|0.51|1.3|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD for the R-119251 metabolite.|||1.30|0.510|
92414898|NCT02184624|184719916|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using TURBUHALER|Cochran-Mantel-Haenszel|||||||0.025
92414899|NCT02184624|184719916|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using HANDIHALER|Cochran-Mantel-Haenszel|||||||<0.001
92169389|NCT00704184|184227236|SUPERIORITY_OR_OTHER||Adjusted difference|10.7|||||TWO_SIDED|95.0|-11.4|34.6|||||Adjusted difference subtracts the percentage of placebo responders (83.3%) and stratifies by HCV genotype (1a vs. non-1a).|||34.6|-11.4|
92382626|NCT01178099|184668013|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.018
92382627|NCT01178099|184668014|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.060
92382628|NCT01178099|184668015|SUPERIORITY_OR_OTHER|||||||0.219||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.219
92414900|NCT02184624|184719916|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using BREEZHALER|Cochran-Mantel-Haenszel|||||||0.014
92414901|NCT02184624|184719917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using DISKUS/ACCUHALER|Cochran-Mantel-Haenszel|||||||<0.001
92232910|NCT00768560|184368395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.75||||||90.0|6.83|12.67|||||80 mg OD minus 40 mg BID|The point estimate and 90% confidence interval of the difference of changes in SBP from baseline was estimated by using the ANOVA model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||12.67|6.83|
92232911|NCT00768560|184368395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.97||||||90.0|-5.5|-2.44|||||40 mg BID minus 40 mg OD|The point estimate and 90% confidence interval of the difference of changes in DBP from baseline was estimated by using the ANOVA model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||-2.44|-5.50|
92382629|NCT01178099|184668016|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.177
92382630|NCT01178099|184668017|SUPERIORITY_OR_OTHER|||||||0.168||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.168
92232912|NCT00768560|184368395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||||90.0|-2.21|0.85|||||80 mg OD minus 40 mg OD|The point estimate and 90% confidence interval of the difference of changes in DBP from baseline was estimated by using the ANOVA model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||0.85|-2.21|
92382631|NCT01178099|184668018|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.5|||||TWO_SIDED|90.0|1.01|2.22|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 10 mg SD (overall) for the R-95913 metabolite.|||2.22|1.01|
92232913|NCT00768560|184368395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.29||||||90.0|1.76|4.82|||||80 mg OD minus 40 mg BID|The point estimate and 90% confidence interval of the difference of changes in DBP from baseline was estimated by using the ANOVA model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||4.82|1.76|
92232914|NCT00389207|184368405|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|0.016||||0.684||95.0|-0.062|0.095||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Controlling for screening VL and CD4+ categories (only 373 NVP patients due to empty cells)||||0.095|-0.062|0.684
92232915|NCT00389207|184368405|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|0.025||||0.584||95.0|-0.065|0.115||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=186 NVP QD patients and N=193 ATZ/r patients.||||0.115|-0.065|0.584
92232916|NCT00389207|184368405|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|0.009||||0.855||95.0|-0.084|0.101||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=187 NVP QD patients and N=193 ATZ/r patients.||||0.101|-0.084|0.855
92232917|NCT00389207|184368406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.038||||0.321||95.0|-0.112|0.037||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=373 NVP QD patients and N=193 ATZ/r patients.||||0.037|-0.112|0.321
92232918|NCT00389207|184368417|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.461||||0.0403||95.0|0.22|0.966|||Regression, Cox|||||0.966|0.220|0.0403
92382632|NCT01178099|184668018|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.09|||||TWO_SIDED|90.0|0.751|1.58|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 7.5 mg MD for the R-95913 metabolite.|||1.58|0.751|
92382633|NCT01178099|184668018|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.87|||||TWO_SIDED|90.0|1.09|3.2|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD for the R-95913 metabolite.|||3.20|1.09|
92414902|NCT02184624|184719917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using MDI|Cochran-Mantel-Haenszel|||||||<0.001
92414903|NCT02184624|184719917|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using TURBUHALER|Cochran-Mantel-Haenszel|||||||0.002
92414904|NCT02184624|184719917|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using HANDIHALER|Cochran-Mantel-Haenszel|||||||0.001
92232919|NCT00389207|184368421|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.097||||0.0109||95.0|-0.171|-0.022||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=373 NVP QD+BID patients and N=193 ATZ/r patients||||-0.022|-0.171|0.0109
92232920|NCT00389207|184368421|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.072||||0.1033||95.0|-0.158|0.015||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=186 NVP QD patients and N=193 ATZ/r patients.||||0.015|-0.158|0.1033
92232921|NCT00389207|184368421|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.122||||0.0073||95.0|-0.212|-0.033||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=187 NVP QD patients and N=193 ATZ/r patients.||||-0.033|-0.212|0.0073
92232922|NCT00389207|184368422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.117||||0.0031||95.0|-0.194|-0.04||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=373 NVP QD+BID patients and N=193 ATZ/r patients.||||-0.040|-0.194|0.0031
92382634|NCT01178099|184668018|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.873|||||TWO_SIDED|90.0|0.66|1.15|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 10 mg SD (overall) for the R-106583 metabolite.|||1.15|0.660|
92232923|NCT00389207|184368422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.096||||0.0365||95.0|-0.186|-0.006||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=186 NVP QD patients and N=193 ATZ/r patients.||||-0.006|-0.186|0.0365
92232924|NCT00389207|184368422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.139||||0.0033||95.0|-0.231|-0.046||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=187 NVP QD patients and N=193 ATZ/r patients.||||-0.046|-0.231|0.0033
92232925|NCT00389207|184368425|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|0.001||||0.9784|TWO_SIDED|95.0|-0.065|0.066|||Cochran Chi-Squared|||week 48||0.066|-0.065|0.9784
92414905|NCT02184624|184719917|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using BREEZHALER|Cochran-Mantel-Haenszel|||||||0.003
92414906|NCT02184624|184719918|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants requiring instructions from the HCP (maximum three times) to demonstrate adequate inhalation technique of ELLIPTA inhaler versus those for DISKUS/ACCUHALER inhaler|Wilcoxon signed rank test|||||||<0.001
92278307|NCT01694485|184458542|SUPERIORITY|Comparisons of abrilumab 7 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.34||||0.49|TWO_SIDED|90.0|0.03|4.33|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.33|0.03|0.49
92278308|NCT01694485|184458542|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Remission Rates|-2.9|||||TWO_SIDED|90.0|-5.5|5.4||||||The difference in remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||5.4|-5.5|
92278309|NCT01694485|184458543|SUPERIORITY|If both comparisons of the primary endpoint reached statistical significance at 0.10, results from the 2 key secondary endpoints (response and mucosal healing at week 8) were to be sequentially (70 mg vs placebo then 210 mg vs placebo) tested at significance level of 0.05 independently of each other, according to the Bonferroni-based chain procedure.|Odds Ratio (OR)|2.78|||<|0.001|TWO_SIDED|90.0|1.71|4.52|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.52|1.71|<0.001
92278310|NCT01694485|184458543|SUPERIORITY||Difference in Adjusted Response Rates|23.4|||||TWO_SIDED|90.0|11.8|33.2||||||The difference in adjusted response rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||33.2|11.8|
92278311|NCT01694485|184458543|SUPERIORITY|If both comparisons of the primary endpoint reached statistical significance at 0.10, results from the 2 key secondary endpoints (response and mucosal healing at week 8) were to be sequentially (70 mg vs placebo then 210 mg vs placebo) tested at significance level of 0.05 independently of each other, according to the Bonferroni-based chain procedure.|Odds Ratio (OR)|2.57||||0.003|TWO_SIDED|90.0|1.53|4.31|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.31|1.53|0.003
92278312|NCT01694485|184458543|SUPERIORITY||Difference in Adjusted Response Rates|21.4|||||TWO_SIDED|90.0|9.0|31.8||||||The difference in adjusted response rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||31.8|9.0|
92382635|NCT01178099|184668018|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.681|||||TWO_SIDED|90.0|0.524|0.886|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 7.5 mg MD for the R-106583 metabolite.|||0.886|0.524|
92232926|NCT00389207|184368425|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|0.064||||0.0331|TWO_SIDED|95.0|0.005|0.123|||Cochran Chi-Squared|||week 96||0.123|0.005|0.0331
92232927|NCT00389207|184368425|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|0.058||||0.0691|TWO_SIDED|95.0|-0.005|0.121|||Cochran Chi-Squared|||week 144||0.121|-0.005|0.0691
92280478|NCT00601484|184463636|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-2.78|||||TWO_SIDED|90.0|-12.65|4.24||||||Week 4: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||4.24|-12.65|
92382636|NCT01178099|184668018|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.898|||||TWO_SIDED|90.0|0.612|1.32|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD for the R-106583 metabolite.|||1.32|0.612|
92382637|NCT01178099|184668018|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.06|||||TWO_SIDED|90.0|0.773|1.46|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 10 mg SD (overall) for the R-119251 metabolite.|||1.46|0.773|
92382638|NCT01178099|184668018|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.785|||||TWO_SIDED|90.0|0.582|1.06|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 7.5 mg MD for the R-119251 metabolite.|||1.06|0.582|
92232928|NCT00389207|184368425|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|-0.023||||0.4585|TWO_SIDED|95.0|-0.084|0.038|||Cochran Chi-Squared|||week 48||0.038|-0.084|0.4585
92414907|NCT02184624|184719918|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants requiring instructions from the HCP (maximum three times) to demonstrate adequate inhalation technique of ELLIPTA inhaler versus those for MDI inhaler|Wilcoxon signed rank test|||||||<0.001
92414908|NCT02184624|184719918|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants requiring instructions from the HCP (maximum three times) to demonstrate adequate inhalation technique of ELLIPTA inhaler versus those for TURBUHALER inhaler|Wilcoxon signed rank test|||||||<0.001
92232929|NCT00389207|184368425|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|0.015||||0.5438|TWO_SIDED|95.0|-0.034|0.064|||Cochran Chi-Squared|||week 96||0.064|-0.034|0.5438
92414909|NCT02184624|184719918|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants requiring instructions from the HCP (maximum three times) to demonstrate adequate inhalation technique of ELLIPTA inhaler versus those for HANDIHALER inhaler|Wilcoxon signed rank test|||||||<0.001
92232930|NCT00389207|184368425|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|0.016||||0.5659|TWO_SIDED|95.0|-0.039|0.071|||Cochran Chi-Squared|||week 144||0.071|-0.039|0.5659
92232931|NCT00389207|184368426|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.692||||0.0002||95.0|0.57|0.839|||Regression, Cox|||||0.839|0.570|0.0002
92382639|NCT01178099|184668018|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.0|||||TWO_SIDED|90.0|0.648|1.55|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD for the R-119251 metabolite.|||1.55|0.648|
92382640|NCT01178099|184668019|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.060
92382641|NCT01178099|184668020|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||This is the p-value for PRI by flow cytometry. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error|ANCOVA|||||||0.086
92382642|NCT01178099|184668020|SUPERIORITY_OR_OTHER|||||||0.679||95.0||||This is the p-value for PRI by ELISA. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error|ANCOVA|||||||0.679
92382643|NCT01178099|184668021|SUPERIORITY_OR_OTHER|||||||0.396||95.0||||This is the p-value for AU\*min to 6.5 µM ADP. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.396
92382644|NCT01178099|184668021|SUPERIORITY_OR_OTHER|||||||0.288||95.0||||This is the p-value for AU\*min to 20 µM ADP. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.288
92232932|NCT00389207|184368426|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.0001||95.0|0.519|0.764|||Regression, Cox|||Cox regression on responders only (N=289 in Nevirapine QD+BID and N=175 in Atazanvir/ritonavir)||0.764|0.519|<0.0001
92382645|NCT01178099|184668021|SUPERIORITY_OR_OTHER|||||||0.095||95.0||||This is the p-value for AU\*min to Collagen. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.095
92382646|NCT01178099|184668021|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||This is the p-value for AU\*min to TRAP-6. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.086
92382647|NCT01178099|184668022|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.083
92382648|NCT01178099|184668023|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.124
92382649|NCT02473367|184668024|SUPERIORITY_OR_OTHER||Geom. least-squares mean ratio (GLSMR)|0.28|||||TWO_SIDED|90.0|0.24|0.32|||||Raltegravir+TUMS/Raltegravir only|||0.32|0.24|
92382650|NCT02473367|184668024|SUPERIORITY_OR_OTHER||GLSMR|0.86|||||TWO_SIDED|90.0|0.73|1.03|||||Raltegravir+12 Hrs Leader Antacid/Raltegravir only|||1.03|0.73|
92382651|NCT02473367|184668024|SUPERIORITY_OR_OTHER||GLSMR|0.9|||||TWO_SIDED|90.0|0.8|1.03|||||Raltegravir+12 Hrs TUMS/Raltegravir only|||1.03|0.80|
92382652|NCT02473367|184668025|SUPERIORITY_OR_OTHER||GLSMR|0.26|||||TWO_SIDED|90.0|0.21|0.32|||||Raltegravir+TUMS/Raltegravir only|||0.32|0.21|
92382653|NCT02473367|184668025|SUPERIORITY_OR_OTHER||GLSMR|0.86|||||TWO_SIDED|90.0|0.65|1.15|||||Raltegravir+12 Hrs Leader Antacid/Raltegravir only|||1.15|0.65|
92414910|NCT02184624|184719918|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants requiring instructions from the HCP (maximum three times) to demonstrate adequate inhalation technique of ELLIPTA inhaler versus those for BREEZHALER inhaler|Wilcoxon signed rank test|||||||<0.001
92414911|NCT02184624|184719919|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants preferring ELLIPTA device versus number of participants preferring DISKUS/ACCUHALER device as assessed by the 'preference' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
92414912|NCT02184624|184719919|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants preferring ELLIPTA device versus number of participants preferring MDI device as assessed by the 'preference' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
92232933|NCT00389207|184368427|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.762||||0.1329||95.0|0.535|1.086|||Regression, Cox|||||1.086|0.535|0.1329
92232934|NCT00389207|184368428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.731||||0.0444||95.0|0.539|0.992|||Regression, Cox|||||0.992|0.539|0.0444
92232935|NCT02039947|184368441|SUPERIORITY||Response rate|59.0|||<|0.0001|TWO_SIDED|95.0|47.3|70.4|||percent||Percent|||70.4|47.3|<.0001
92382654|NCT02473367|184668025|SUPERIORITY_OR_OTHER||GLSMR|0.98|||||TWO_SIDED|90.0|0.81|1.17|||||Raltegravir+12 Hrs TUMS/Raltegravir only|||1.17|0.81|
92382655|NCT02473367|184668026|SUPERIORITY_OR_OTHER||GLSMR|0.52|||||TWO_SIDED|90.0|0.45|0.61|||||Raltegravir+TUMS/Raltegravir only|||0.61|0.45|
92382656|NCT02473367|184668026|SUPERIORITY_OR_OTHER||GLSMR|0.42|||||TWO_SIDED|90.0|0.34|0.52|||||Raltegravir+12 Hrs Leader Antacid/Raltegravir only|||0.52|0.34|
92382657|NCT02473367|184668026|SUPERIORITY_OR_OTHER||GLSMR|0.43|||||TWO_SIDED|90.0|0.36|0.51|||||Raltegravir+12 Hrs TUMS/Raltegravir only|||0.51|0.36|
92382658|NCT00997620|184668061|OTHER||Mean Difference (Net)|0.5|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||The statistical analysis was of t testing of the difference of the mean between the baseline and after two weeks. The power analysis was prior to data collection was not performed for this test. The null hypothesis is no different, no difference between placebo and active treatment.||||< .05
92382659|NCT00599638|184668138|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.306||0.391|TWO_SIDED|80.0|-0.31|0.48|||Mixed Models Analysis|||||0.48|-0.31|0.3910
92382660|NCT00599638|184668138|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.357||0.0002|TWO_SIDED|80.0|-1.78|-0.86|||Mixed Models Analysis|||||-0.86|-1.78|0.0002
92382661|NCT00599638|184668139|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0055||||0.4959|TWO_SIDED|80.0|0.3|1.71|||Regression, Logistic|||The statistical analysis was performed compositely for all categories.||1.71|0.30|0.4959
92382662|NCT00599638|184668139|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.0763||||0.0011|TWO_SIDED|80.0|1.69|8.46|||Regression, Logistic|||The statistical analysis was performed compositely for all categories.||8.46|1.69|0.0011
92382663|NCT00599638|184668141|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|1.18|STANDARD_ERROR_OF_MEAN|2.819||0.338|TWO_SIDED|80.0|-2.47|4.84|||Mixed Models Analysis|||||4.84|-2.47|0.3380
92382664|NCT00599638|184668141|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-9.65|STANDARD_ERROR_OF_MEAN|3.268||0.0022|TWO_SIDED|80.0|-13.89|-5.42|||Mixed Models Analysis|||||-5.42|-13.89|0.0022
92414913|NCT02184624|184719919|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants preferring ELLIPTA device versus number of participants preferring TURBUHALER device as assessed by the 'preference' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
92232936|NCT01772134|184368449|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|||<|0.001|TWO_SIDED|95.0|0.107|0.187|||Mixed Models Analysis|||||0.187|0.107|<0.001
92232937|NCT01772134|184368449|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.138|||<|0.001|TWO_SIDED|95.0|0.097|0.178|||Mixed Models Analysis|||||0.178|0.097|<0.001
92232938|NCT01740362|184368453|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|137.26|||||TWO_SIDED|90.0|96.77|194.69||||||1 way Analysis of Variance (ANOVA) on natural log-transformed AUC(0-∞) analyzed using linear model with degrees of renal impairment(creatinine clearance\[CLcr, discrete\]) evaluated using blood samples collected at screening as fixed effect. Statistical Analysis System (SAS) mixed procedure (PROC MIXED) was used. Anti-log of adjusted mean difference (CP-690,550\[mild renal insufficiency\] - CP-690,550\[normal renal function\]), 90% confidence interval (CI) were taken to estimate mean ratio and 90% CI.||194.69|96.77|
92232939|NCT01740362|184368453|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|142.59|||||TWO_SIDED|90.0|100.53|202.24||||||One way ANOVA on natural log-transformed AUC (0 - ∞) were analyzed using linear model containing degrees of renal impairment (CLcr, discrete) calculated using blood samples collected at screening as fixed effects. SAS procedure PROC MIXED was used for analysis. Anti-log of the adjusted mean difference (CP-690,550 \[moderate renal insufficiency\] - CP-690,550 \[normal renal function\]) and its corresponding 90% CI were taken to estimate the mean ratio and corresponding 90% CI.||202.24|100.53|
92382665|NCT00462748|184668188|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Hochberg's FDR was used to power the study; the power was based on a two-sided p value of 0.025.|Regression, Logistic|The logistic regression model included terms for treatment and stratum; treatment by stratum interaction was assessed.||Ho is no difference in proportion achieving the target of LDL-C \< 2mmol/l.. 240 patients per group give a power of at least 85% to detect a 15% difference in this proportion, assuming the percentage decrease from baseline in LDL-C was 25% in the E/S group and 15% in the two comparator groups. A two-sided 0.025 test to allow for multiple comparisons was used.||||<0.001
92232940|NCT01740362|184368453|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|222.71|||||TWO_SIDED|90.0|157.02|315.89||||||One way ANOVA on natural log-transformed AUC (0 - ∞) were analyzed using linear model containing degrees of renal impairment (CLcr, discrete) calculated using blood samples collected at screening as fixed effects. SAS procedure PROC MIXED was used for analysis. Anti-log of the adjusted mean difference (CP-690,550 \[severe renal insufficiency\] - CP-690,550 \[normal renal function\]) and its corresponding 90% CI were taken to estimate the mean ratio and corresponding 90% CI.||315.89|157.02|
92232941|NCT01740362|184368454|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|93.15|||||TWO_SIDED|90.0|67.22|129.06||||||One way ANOVA on natural log-transformed Cmax were analyzed using linear model containing degrees of renal impairment (CLcr, discrete) calculated using blood samples collected at screening as fixed effects. SAS procedure PROC MIXED was used for analysis. Anti-log of the adjusted mean difference (CP-690,550 \[mild renal insufficiency\] - CP-690,550 \[normal renal function\]) and its corresponding 90% CI were taken to estimate the mean ratio and corresponding 90% CI.||129.06|67.22|
92232942|NCT01740362|184368454|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|104.17|||||TWO_SIDED|90.0|75.18|144.34||||||One way ANOVA on natural log-transformed Cmax were analyzed using linear model containing degrees of renal impairment (CLcr, discrete) calculated using blood samples collected at screening as fixed effects. SAS procedure PROC MIXED was used for analysis. Anti-log of the adjusted mean difference (CP-690,550 \[moderate renal insufficiency\] - CP-690,550 \[normal renal function\]) and its corresponding 90% CI were taken to estimate the mean ratio and corresponding 90% CI.||144.34|75.18|
92232943|NCT01740362|184368454|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|117.65|||||TWO_SIDED|95.0|84.91|163.02||||||One way ANOVA on natural log-transformed Cmax were analyzed using linear model containing degrees of renal impairment (CLcr, discrete) calculated using blood samples collected at screening as fixed effects. SAS procedure PROC MIXED was used for analysis. Anti-log of the adjusted mean difference (CP-690,550 \[severe renal insufficiency\] - CP-690,550 \[normal renal function\]) and its corresponding 90% CI were taken to estimate the mean ratio and corresponding 90% CI.||163.02|84.91|
92382666|NCT00462748|184668188|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Hochberg's FDR was used to power the study; the power was based on a two-sided p value of 0.025.|Regression, Logistic|The logistic regression model included terms for treatment and stratum; treatment by stratum interaction was assessed.||Ho is no difference in proportion achieving the target of LDL-C \< 2mmol/l.. 240 patients per group give a power of at least 85% to detect a 15% difference in this proportion, assuming the percentage decrease from baseline in LDL-C was 25% in the E/S group and 15% in the two comparator groups. A two-sided 0.025 test to allow for multiple comparisons was used.||||<0.001
92414914|NCT02184624|184719919|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants preferring ELLIPTA device versus number of participants preferring HANDIHALER device as assessed by the 'preference' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
92232944|NCT03830281|184368458|NON_INFERIORITY|Noninferiority margin = 0.4% for HbA1c|Mean Difference (Final Values)|0.02||||0.565|TWO_SIDED|95.0|-0.06|0.11|||Mixed Models Analysis|||||0.11|-0.06|0.565
92414915|NCT02184624|184719919|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants preferring ELLIPTA device versus number of participants preferring BREEZHALER device as assessed by the 'preference' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
92232945|NCT03830281|184368459|SUPERIORITY||LS Mean Difference|-24.1|||<|0.001|TWO_SIDED|95.0|-36.0|-12.2|||ANCOVA|||||-12.2|-36.0|<0.001
92232946|NCT03830281|184368460|SUPERIORITY||LS Mean Difference|-27.8|||<|0.001|TWO_SIDED|95.0|-42.6|-13.0|||ANCOVA|||||-13.0|-42.6|< 0.001
92232947|NCT03830281|184368461|SUPERIORITY||LS Mean Difference|0.7||||0.532|TWO_SIDED|95.0|-1.4|2.8|||Mixed Models Analysis|||Statistical analysis during daytime is reported.||2.8|-1.4|0.532
92232948|NCT03830281|184368461|SUPERIORITY||LS Mean Difference|0.4||||0.738|TWO_SIDED|95.0|-1.8|2.5|||Mixed Models Analysis|||Statistical analysis during 24-hour period is reported.||2.5|-1.8|0.738
92232949|NCT03192904|184368498|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
92232950|NCT03133767|184368524|SUPERIORITY|||||||0.608|||||||Wilcoxon (Mann-Whitney)|||||||0.608
92232951|NCT03133767|184368525|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||||||0.027
92232952|NCT03133767|184368526|SUPERIORITY|||||||0.202|||||||Chi-squared|||||||0.202
92414916|NCT02184624|184719920|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants preferring ELLIPTA device versus number of participants preferring DISKUS/ACCUHALER device by the 'ease of use' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
92382667|NCT03429543|184668189|OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.33||0.2935|TWO_SIDED|95.0|-0.99|0.3|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Treatment group 1 (TG1) consisting of Placebo, Linagliptin 5 mg and Empagliflozin pooled Patients: Analysis of covariance (ANCOVA) model with a continuous covariate (baseline HbA1c) and categorical covariates (treatment and age). The effect of linagliptin and of empagliflozin (including responders and non-responders) was compared with placebo at an overall α of 0.05 (2-sided) using the Hochberg method to account for multiple testing.||0.30|-0.99|0.2935
92232953|NCT03133767|184368527|SUPERIORITY|||||||0.361|||||||Chi-squared|||||||0.361
92232954|NCT03133767|184368528|SUPERIORITY|||||||0.509|||||||Chi-squared|||||||0.509
92232955|NCT03664726|184368544|SUPERIORITY|||||||0.0034||||||Comparison of differences by group|ANOVA|||||||0.0034
92232956|NCT03664726|184368545|SUPERIORITY|||||||0.76|||||||ANOVA|||||||0.76
92232957|NCT03664726|184368546|SUPERIORITY|||||||0.77|||||||ANOVA|||||||0.77
92232958|NCT03119649|184368562|SUPERIORITY||Difference in LS Means|-3.3|STANDARD_ERROR_OF_MEAN|4.15||0.4291|TWO_SIDED|95.0|-11.6|5.0||P-value obtained from the Mixed Effects Model for Repeated Measures (MMRM) analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 50 mg QD vs. Pooled Placebo||5.0|-11.6|0.4291
92382668|NCT03429543|184668189|OTHER||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.33||0.0116|TWO_SIDED|95.0|-1.5|-0.19|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Treatment group 1 (TG1) consisting of Placebo, Linagliptin 5 mg and Empagliflozin pooled Patients: Analysis of covariance (ANCOVA) model with a continuous covariate (baseline HbA1c) and categorical covariates (treatment and age). The effect of linagliptin and of empagliflozin (including responders and non-responders) was compared with placebo at an overall α of 0.05 (2-sided) using the Hochberg method to account for multiple testing.||-0.19|-1.50|0.0116
92382669|NCT03429543|184668189|OTHER|Only after having obtained statistically significant results for both hypotheses of the primary family of hypotheses (TG1), the secondary hypotheses were to compare the individual empagliflozin doses versus placebo based on TG2 and TG3.The ANCOVA utilised a weight of zero for patients who were not in the hypothesis test of interest, a value of 2 for re-randomised patients who were in the hypothesis test of interest and a value of 1 otherwise.|Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.4||0.1943|TWO_SIDED|95.0|-1.31|0.27|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Treatment group 2 (TG2) consisting of Placebo, Empagliflozin 25mg Patients: Analysis of covariance (ANCOVA) model with a continuous covariate (baseline HbA1c) and categorical covariates (treatment and age). The effect of linagliptin and of empagliflozin (including responders and non-responders) was compared with placebo at an overall α of 0.05 (2-sided) using the Hochberg method to account for multiple testing.||0.27|-1.31|0.1943
92414917|NCT02184624|184719920|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants preferring ELLIPTA device versus number of participants preferring MDI device by the 'ease of use' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
92414918|NCT02184624|184719920|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants preferring ELLIPTA device versus number of participants preferring TURBUHALER device by the 'ease of use' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
92414919|NCT02184624|184719920|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants preferring ELLIPTA device versus number of participants preferring HANDIHALER device by the 'ease of use' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
92232959|NCT03119649|184368562|SUPERIORITY||Difference in LS Means|-4.1|STANDARD_ERROR_OF_MEAN|4.32||0.3477|TWO_SIDED|95.0|-12.8|4.6||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 100 mg QD vs. Pooled Placebo||4.6|-12.8|0.3477
92232960|NCT03119649|184368562|SUPERIORITY||Difference in LS Means|-15.8|STANDARD_ERROR_OF_MEAN|3.72|<|0.0001|TWO_SIDED|95.0|-23.2|-8.3||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 200 mg QD vs. Pooled Placebo||-8.3|-23.2|<0.0001
92232961|NCT03119649|184368562|SUPERIORITY||Difference in LS Means|-6.3|STANDARD_ERROR_OF_MEAN|3.76||0.0995|TWO_SIDED|95.0|-13.9|1.2||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 400 mg QD vs. Pooled Placebo||1.2|-13.9|0.0995
92232962|NCT03119649|184368563|SUPERIORITY||Difference in LS Means|1.1|STANDARD_ERROR_OF_MEAN|2.11||0.594|TWO_SIDED|95.0|-3.1|5.4||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 50 mg QD vs. Pooled Placebo||5.4|-3.1|0.5940
92232963|NCT03119649|184368563|SUPERIORITY||Difference in LS Means|0.6|STANDARD_ERROR_OF_MEAN|2.06||0.7553|TWO_SIDED|95.0|-3.5|4.8||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 100 mg QD vs. Pooled Placebo||4.8|-3.5|0.7553
92232964|NCT03119649|184368563|SUPERIORITY||Difference in LS Means|1.0|STANDARD_ERROR_OF_MEAN|1.94||0.5958|TWO_SIDED|95.0|-2.9|4.9||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 200 mg QD vs. Pooled Placebo||4.9|-2.9|0.5958
92232965|NCT03119649|184368563|SUPERIORITY||Difference in LS Means|2.3|STANDARD_ERROR_OF_MEAN|1.94||0.2403|TWO_SIDED|95.0|-1.6|6.2||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 400 mg QD vs. Pooled Placebo||6.2|-1.6|0.2403
92232966|NCT03119649|184368564|SUPERIORITY||Difference in LS Means|2.7|STANDARD_ERROR_OF_MEAN|4.81||0.5749|TWO_SIDED|95.0|-6.9|12.4||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 50 mg QD vs. Pooled Placebo||12.4|-6.9|0.5749
92232967|NCT03119649|184368564|SUPERIORITY||Difference in LS Means|1.6|STANDARD_ERROR_OF_MEAN|4.83||0.7381|TWO_SIDED|95.0|-8.1|11.3||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 100 mg QD vs. Pooled Placebo||11.3|-8.1|0.7381
92382670|NCT03429543|184668189|OTHER|Only after having obtained statistically significant results for both hypotheses of the primary family of hypotheses (TG1), the secondary hypotheses were to compare the individual empagliflozin doses versus placebo based on TG2 and TG3.The ANCOVA utilised a weight of zero for patients who were not in the hypothesis test of interest, a value of 2 for re-randomised patients who were in the hypothesis test of interest and a value of 1 otherwise.|Mean Difference (Final Values)|-1.18|STANDARD_ERROR_OF_MEAN|0.37||0.0015|TWO_SIDED|95.0|-1.9|-0.45|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Treatment group 3 (TG3) consisting of Placebo, Empagliflozin 10mg Patients: Analysis of covariance (ANCOVA) model with a continuous covariate (baseline HbA1c) and categorical covariates (treatment and age). The effect of linagliptin and of empagliflozin (including responders and non-responders) was compared with placebo at an overall α of 0.05 (2-sided) using the Hochberg method to account for multiple testing.||-0.45|-1.90|0.0015
92232968|NCT03119649|184368564|SUPERIORITY||Difference in LS Means|6.8|STANDARD_ERROR_OF_MEAN|4.43||0.1282|TWO_SIDED|95.0|-2.0|15.7||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 200 mg QD vs. Pooled Placebo||15.7|-2.0|0.1282
92232969|NCT03119649|184368564|SUPERIORITY||Difference in LS Means|1.6|STANDARD_ERROR_OF_MEAN|4.43||0.7212|TWO_SIDED|95.0|-7.3|10.5||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 400 mg QD vs. Pooled Placebo||10.5|-7.3|0.7212
92232970|NCT03248128|184368569|SUPERIORITY||Least Square Mean Difference|0.083|||<|0.001|TWO_SIDED|95.0|0.037|0.129|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||0.129|0.037|<0.001
92232971|NCT03248128|184368570|SUPERIORITY||Least Square Mean Difference|3.2||||0.228|TWO_SIDED|95.0|-2.0|8.4|||ANCOVA|Analysis was performed using analysis of covariance (ANCOVA) with covariates of baseline, region, sex, age and treatment.||||8.4|-2.0|0.228
92232972|NCT03248128|184368571|SUPERIORITY||Least Square Mean Difference|6.2||||0.011|TWO_SIDED|95.0|1.4|10.9|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||10.9|1.4|0.011
92232973|NCT03248128|184368572|SUPERIORITY||Least Square Mean Difference|0.073||||0.002|TWO_SIDED|95.0|0.028|0.118|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||0.118|0.028|0.002
92278313|NCT01694485|184458543|SUPERIORITY|Comparisons of abrilumab 21 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|2.54||||0.024|TWO_SIDED|90.0|1.29|5.02|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||5.02|1.29|0.024
92382671|NCT03429543|184668190|OTHER||Risk Difference (RD)|-10.0||||1|TWO_SIDED|90.0|-58.7|43.7|||Fisher Exact||Risk difference calculated as \[treatment\]-\[placebo\].|Risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 90% confidence interval based on the method of Chan and Zhang. Patients were assigned to the treatment they were randomised to at the initial randomisation.||43.7|-58.7|1.0000
92382672|NCT03429543|184668190|OTHER||Risk Difference (RD)|-10.0||||1|TWO_SIDED|90.0|-58.7|43.7|||Fisher Exact||Risk difference calculated as \[treatment\]-\[placebo\].|Risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 90% confidence interval based on the method of Chan and Zhang. Patients were assigned to the treatment they were randomised to at the initial randomisation.||43.7|-58.7|1.0000
92382673|NCT03429543|184668191|OTHER||Adjusted mean difference|-0.68||||0.4828|TWO_SIDED|95.0|-2.86|1.49|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Restricted maximum likelihood (REML) approach with mixed model for repeated measures (MMRM). Fixed categorical effects of treatment, visit, and treatment-by-visit interaction and categorical covariate age (baseline) and continuous, fixed covariates of baseline of response variable and baseline of response variable-by-visit interaction. Covariate visit was treated as repeated measure with an unstructured covariance structure used to model within-patient measurements.||1.49|-2.86|0.4828
92232974|NCT03248128|184368573|SUPERIORITY||Least Square Mean Difference|-0.3||||0.87|TWO_SIDED|95.0|-4.5|3.8|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||3.8|-4.5|0.870
92232975|NCT03248128|184368574|SUPERIORITY||Least Square Mean Difference|0.0||||0.988|TWO_SIDED|95.0|-4.2|4.1|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||4.1|-4.2|0.988
92232976|NCT03248128|184368575|SUPERIORITY||Least Square Mean Difference|0.035||||0.124|TWO_SIDED|0.95|-0.01|0.08|||Repeated measures analysis|||Analysis was performed using a repeated measures analysis adjusted for baseline, region, sex, age, treatment, visit, visit by baseline interaction and visit by treatment group interaction.||0.080|-0.010|0.124
92232977|NCT03248128|184368576|SUPERIORITY||Least Square Mean Difference|-0.01||||0.91|TWO_SIDED|95.0|-0.1|0.09|||Repeated measures analysis|||Analysis was performed using a repeated measures analysis adjusted for baseline, region, sex, age, treatment, visit, visit by baseline interaction and visit by treatment group interaction.||0.09|-0.10|0.910
92232978|NCT03248128|184368577|SUPERIORITY||Least Square Mean Difference|1.3||||0.614|TWO_SIDED|95.0|-3.6|6.2|||ANCOVA|Analysis performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||6.2|-3.6|0.614
92232979|NCT03248128|184368578|SUPERIORITY||Least Square Mean Difference|1.3||||0.594|TWO_SIDED|95.0|-3.6|6.3|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||6.3|-3.6|0.594
92232980|NCT03248128|184368579|SUPERIORITY||Least Square Mean Difference|0.028||||0.226|TWO_SIDED|95.0|-0.017|0.073|||Repeated measures analysis|||Analysis was performed using a repeated measures analysis adjusted for baseline, region, sex, age, treatment, visit, visit by baseline interaction and visit by treatment group interaction.||0.073|-0.017|0.226
92232981|NCT03248128|184368580|SUPERIORITY||Least Square Mean Difference|-0.02||||0.663|TWO_SIDED|95.0|-0.13|0.09|||Repeated measures analysis|||Analysis was performed using a repeated measures analysis adjusted for baseline, region, sex, age, treatment, visit, visit by baseline interaction and visit by treatment group interaction.||0.09|-0.13|0.663
92382674|NCT03429543|184668191|OTHER||Adjusted mean difference|-0.38||||0.7047|TWO_SIDED|95.0|-2.64|1.88|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Restricted maximum likelihood (REML) approach with mixed model for repeated measures (MMRM). Fixed categorical effects of treatment, visit, and treatment-by-visit interaction and categorical covariate age (baseline) and continuous, fixed covariates of baseline of response variable and baseline of response variable-by-visit interaction. Covariate visit was treated as repeated measure with an unstructured covariance structure used to model within-patient measurements.||1.88|-2.64|0.7047
92382675|NCT03429543|184668192|OTHER|||||||0.8626|||||||Log Rank|||Time to treatment failure was analysed by Kaplan-Meier estimates up to the end of the study. A log-rank test compared linagliptin and empagliflozin pooled versus placebo up to Week 26.||||0.8626
92232982|NCT01126580|184368597|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.22|||<|0.001|TWO_SIDED|95.0|-0.36|-0.08||The p-value is adjusted for multiplicity using a tree-gatekeeping strategy. To determine significance, the p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||The study was designed with 90% power to detect non-inferiority of 1.5 mg LY2189265 vs Metformin on HbA1c change from baseline at the 26-week primary endpoint with a margin of 0.4%, a standard deviation of 1.3%, and a 2-sided alpha of 0.05 assuming no true difference between treatments. This corresponds to 223 participants per arm, with an assumed drop-out rate of 11%.||-0.08|-0.36|<0.001
92232983|NCT01126580|184368597|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.15|||<|0.001|TWO_SIDED|95.0|-0.29|-0.01||The p-value is adjusted for multiplicity using a tree-gatekeeping strategy. To determine significance, the p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||||-0.01|-0.29|<0.001
92278314|NCT01694485|184458543|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Response Rates|21.2|||||TWO_SIDED|90.0|4.9|34.1||||||The difference in adjusted response rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||34.1|4.9|
92278315|NCT01694485|184458543|SUPERIORITY|Comparisons of abrilumab 7 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.4||||0.18|TWO_SIDED|90.0|0.13|1.22|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||1.22|0.13|0.18
92278316|NCT01694485|184458543|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Response Rates|-13.7|||||TWO_SIDED|90.0|-24.4|2.7||||||The difference in adjusted response rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||2.7|-24.4|
92382676|NCT03429543|184668192|OTHER|||||||0.2827|||||||Log Rank|||Time to treatment failure was analysed by Kaplan-Meier estimates up to the end of the study. A log-rank test compared linagliptin and empagliflozin pooled versus placebo up to Week 26.||||0.2827
92382677|NCT03429543|184668193|OTHER||Mean Difference (Final Values)|-5.41||||0.6438|TWO_SIDED|95.0|-28.49|17.67|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Analysis of covariance (ANCOVA) model with treatment as a fixed classification effect, baseline FPG as linear covariate and age at randomisation as categorical covariate. The random error was assumed to be normally distributed.||17.67|-28.49|0.6438
92280479|NCT00601484|184463636|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|0.04|||||TWO_SIDED|90.0|-8.96|7.9||||||Week 6: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||7.90|-8.96|
92382678|NCT03429543|184668193|OTHER||Mean Difference (Final Values)|-35.18||||0.0035|TWO_SIDED|95.0|-58.61|-11.74|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Analysis of covariance (ANCOVA) model with treatment as a fixed classification effect, baseline FPG as linear covariate and age at randomisation as categorical covariate. The random error was assumed to be normally distributed.||-11.74|-58.61|0.0035
92382679|NCT03429543|184668193|OTHER||Mean Difference (Final Values)|38.62||||0.031|TWO_SIDED|95.0|4.54|72.7|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Analysis of covariance (ANCOVA) model with treatment as a fixed classification effect, baseline FPG as linear covariate and age at randomisation as categorical covariate. The random error was assumed to be normally distributed.||72.70|4.54|0.0310
92382680|NCT03429543|184668193|OTHER||Mean Difference (Final Values)|20.05||||0.1994|TWO_SIDED|95.0|-13.01|53.11|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Analysis of covariance (ANCOVA) model with treatment as a fixed classification effect, baseline FPG as linear covariate and age at randomisation as categorical covariate. The random error was assumed to be normally distributed.||53.11|-13.01|0.1994
92414920|NCT02184624|184719920|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants preferring ELLIPTA device versus number of participants preferring BREEZHALER device by the 'ease of use' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
92382681|NCT03429543|184668194|OTHER||Mean Difference (Final Values)|1.46||||0.1394|TWO_SIDED|95.0|-0.48|3.41|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||3.41|-0.48|0.1394
92414921|NCT02365233|184719948|SUPERIORITY||||||||||||||||||IRB withheld the data due to inadequate supporting documentation|||
92232984|NCT01126580|184368597|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22||||0.002|TWO_SIDED|95.0|-0.36|-0.08||Tree gatekeeping strategy to control the family-wise Type I error rate was applied.|ANCOVA|||Superiority analysis.||-0.08|-0.36|0.002
92414922|NCT00934843|184719949|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.78||||0.35|TWO_SIDED|95.0|0.45|1.33|||Multivariate risk computation|||The current study was designed with an anticipated enrollment of 87 patients per treatment arm to achieve a statistical power of 80% (1- β) while controlling type I error at 0.05 (α) using a more conservative estimate of LCOS rate in the Single Dose MP group of 33%, and an incidence of LCOS in the Two Dose MP group of 15%.||1.33|0.45|0.35
92414923|NCT00934843|184719950|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||A repeated measures analysis of variance framework was used for longitudinal analysis of inotrope score. In order to identify potential confounding variables, a variable was considered a relevant covariate and added into the model with a p ≤ 0.15.|ANCOVA|||||||0.43
92414924|NCT00934843|184719952|SUPERIORITY_OR_OTHER|||||||0.052||95.0||||Analysis of variance/covariance models were used to test both unadjusted and multivariable relationships between treatment groups for diuresis.|ANCOVA|||||||0.052
92414925|NCT00934843|184719953|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||ANCOVA|Analysis of variance/covariance models were used to test both unadjusted and multivariable relationships between treatment groups for diuresis.||||||0.047
92414926|NCT00160667|184719954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|||=|0.965|TWO_SIDED|95.0|-12.82|13.41|||ANCOVA||Estimated value is the difference of Least Square Means.|||13.41|-12.82|=0.965
92232985|NCT01126580|184368597|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.15||||0.02|TWO_SIDED|95.0|-0.29|-0.01||Tree gatekeeping strategy to control the family-wise Type I error rate was applied.|ANCOVA|||Superiority analysis.||-0.01|-0.29|0.020
92232986|NCT01126580|184368598|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.19|||<|0.001|TWO_SIDED|95.0|-0.35|-0.02||The p-value is adjusted for multiplicity using a tree-gatekeeping strategy. To determine significance, the p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||||-0.02|-0.35|<0.001
92382682|NCT03429543|184668194|OTHER||Mean Difference (Final Values)|-0.75||||0.4476|TWO_SIDED|95.0|-2.68|1.19|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||1.19|-2.68|0.4476
92382683|NCT03429543|184668194|OTHER||Mean Difference (Final Values)|0.05||||0.9789|TWO_SIDED|95.0|-3.8|3.9|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||3.90|-3.80|0.9789
92382684|NCT03429543|184668194|OTHER||Mean Difference (Final Values)|-1.35||||0.5092|TWO_SIDED|95.0|-5.68|2.99|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||2.99|-5.68|0.5092
92382685|NCT03429543|184668195|OTHER||Mean Difference (Final Values)|0.91||||0.587|TWO_SIDED|95.0|-2.4|4.22|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||4.22|-2.40|0.5870
92232987|NCT01126580|184368598|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.04|||<|0.001|TWO_SIDED|95.0|-0.2|0.12||The p-value is adjusted for multiplicity using a tree-gatekeeping strategy. To determine significance, the p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||||0.12|-0.20|<0.001
92414927|NCT00160667|184719954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.48|||=|0.825|TWO_SIDED|95.0|-11.69|14.65|||ANCOVA||Estimated value is the difference of Least Square Means.|||14.65|-11.69|=0.825
92414928|NCT01779219|184719968|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Fisher's exact test (two-tailed)|Fisher Exact|||||||1.0
92414929|NCT01779219|184719969|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0
92414930|NCT01779219|184719970|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Total length of hospital stay||||0.16
92414931|NCT01779219|184719970|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Length of the preoperative hospital stay||||0.73
92414932|NCT01779219|184719970|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Length of the postoperative hospital stay||||1.0
92414933|NCT01779219|184719971|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Total OR time||||<0.001
92414934|NCT01779219|184719971|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Time of preoperative preparations||||0.004
92414935|NCT01779219|184719971|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"Time of the operation (skin-to-skin)"||||0.024
92414936|NCT00428584|184719972|SUPERIORITY_OR_OTHER|||||||0.524||||||P value refers to mean change to 30 minute post injection|ANOVA|||The primary efficacy endpoint was analyzed by using a two-way ANOVA model on ranked data including treatment group and site as fixed effect.||||0.524
92414937|NCT00428584|184719973|SUPERIORITY_OR_OTHER|||||||0.484|||||||ANOVA|||||||0.484
92414938|NCT00428584|184719974|SUPERIORITY_OR_OTHER|||||||0.838|||||||ANOVA|||||||0.838
92414939|NCT00428584|184719975|SUPERIORITY_OR_OTHER|||||||0.451||||||No pain is defined as a VAS = 0 for all 21 full dose injections.|Cochran-Mantel-Haenszel|||||||0.451
92414940|NCT00428584|184719976|SUPERIORITY_OR_OTHER|||||||0.338|||||||ANOVA|||||||0.338
92414941|NCT03259620|184719982|SUPERIORITY|||||||0.2587|||||||Cochran-Mantel-Haenszel|||||||0.2587
92382686|NCT03429543|184668195|OTHER||Mean Difference (Final Values)|-1.42||||0.3967|TWO_SIDED|95.0|-4.72|1.88|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||1.88|-4.72|0.3967
92382687|NCT03429543|184668195|OTHER||Mean Difference (Final Values)|2.53||||0.5414|TWO_SIDED|95.0|-6.42|11.47|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||11.47|-6.42|0.5414
92382688|NCT03429543|184668195|OTHER||Mean Difference (Final Values)|0.0||||0.9995|TWO_SIDED|95.0|-10.13|10.13|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||10.13|-10.13|0.9995
92382689|NCT03429543|184668196|OTHER||Mean Difference (Final Values)|1.5||||0.2433|TWO_SIDED|95.0|-1.03|4.02|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||4.02|-1.03|0.2433
92382690|NCT03429543|184668196|OTHER||Mean Difference (Final Values)|0.02||||0.9878|TWO_SIDED|95.0|-2.52|2.56|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||2.56|-2.52|0.9878
92382691|NCT03429543|184668196|OTHER||Mean Difference (Final Values)|3.33||||0.567|TWO_SIDED|95.0|-9.0|15.65|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||15.65|-9.00|0.5670
92414942|NCT04896229|184720010|SUPERIORITY||Slope|1.2|STANDARD_ERROR_OF_MEAN|0.52||0.022|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.022
92414943|NCT04896229|184720011|SUPERIORITY||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.35||0.8|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.800
92414944|NCT04896229|184720012|SUPERIORITY||Slope|0.58|STANDARD_ERROR_OF_MEAN|0.49||0.235|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.235
92382692|NCT03429543|184668196|OTHER||Mean Difference (Final Values)|-6.62||||0.2348|TWO_SIDED|95.0|-18.19|4.95|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||4.95|-18.19|0.2348
92414945|NCT04896229|184720013|SUPERIORITY||Slope|0.29|STANDARD_ERROR_OF_MEAN|0.3||0.325|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.325
92414946|NCT04896229|184720014|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.502|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.502
92382693|NCT03429543|184668197|OTHER||Rate difference (percentage)|6.0||||0.3536|TWO_SIDED|95.0|-7.7|19.9|||Wald test||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and two-sided Wald test.||19.9|-7.7|0.3536
92414947|NCT04896229|184720015|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.02||0.005|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.005
92414948|NCT04896229|184720016|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.03||0.712|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.712
92232988|NCT01126580|184368598|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.024|TWO_SIDED|95.0|-0.35|-0.02||Tree gatekeeping strategy to control the family-wise Type I error rate was applied.|ANCOVA|||Superiority analysis.||-0.02|-0.35|0.024
92232989|NCT01126580|184368598|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.299|TWO_SIDED|95.0|-0.2|0.12||Tree gatekeeping strategy to control the family-wise Type I error rate was applied.|ANCOVA|||Superiority analysis.||0.12|-0.20|0.299
92232990|NCT01126580|184368599|SUPERIORITY_OR_OTHER|||||||0.023||||||Treatment comparison for HbA1c less than 7.0% at 26 weeks.|Regression, Logistic|||||||0.023
92232991|NCT01126580|184368599|SUPERIORITY_OR_OTHER|||||||0.021||||||Treatment comparison for HbA1c less than 7.0% at 26 weeks.|Regression, Logistic|||||||0.021
92232992|NCT01126580|184368599|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison for HbA1c less than or equal to 6.5% at 26 weeks.|Regression, Logistic|||||||<0.001
92232993|NCT01126580|184368599|SUPERIORITY_OR_OTHER|||||||0.011||||||Treatment comparison for HbA1c less than or equal to 6.5% at 26 weeks.|Regression, Logistic|||||||0.011
92232994|NCT01126580|184368599|SUPERIORITY_OR_OTHER|||||||0.001||||||Treatment comparison for HbA1c less than 7% at 52 weeks.|Regression, Logistic|||||||0.001
92382694|NCT03429543|184668197|OTHER||Rate difference (percentage)|11.7||||0.0914|TWO_SIDED|95.0|-2.4|26.3|||Wald test||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and two-sided Wald test.||26.3|-2.4|0.0914
92382695|NCT03429543|184668197|OTHER||Rate difference (percentage)|-23.3||||0.5455|TWO_SIDED|90.0|-67.9|27.1|||Fisher Exact||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and Fisher's exact test.||27.1|-67.9|0.5455
92414949|NCT04896229|184720017|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.245|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.245
92414950|NCT04896229|184720018|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.282|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.282
92232995|NCT01126580|184368599|SUPERIORITY_OR_OTHER|||||||0.269||||||Treatment comparison for HbA1c less than 7% at 52 weeks.|Regression, Logistic|||||||0.269
92414951|NCT04896229|184720019|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.03||0.289|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.289
92232996|NCT01126580|184368599|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison for HbA1c less than or equal to 6.5% at 52 weeks.|Regression, Logistic|||||||<0.001
92232997|NCT01126580|184368599|SUPERIORITY_OR_OTHER|||||||0.134||||||Treatment comparison for HbA1c less than or equal to 6.5% at 52 weeks.|Regression, Logistic|||||||0.134
92232998|NCT01126580|184368600|SUPERIORITY_OR_OTHER|||||||0.079||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||0.079
92232999|NCT01126580|184368600|SUPERIORITY_OR_OTHER|||||||0.451||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||0.451
92233000|NCT01126580|184368600|SUPERIORITY_OR_OTHER|||||||0.025||||||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||||0.025
92233001|NCT01126580|184368600|SUPERIORITY_OR_OTHER|||||||0.402||||||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||||0.402
92233002|NCT01126580|184368601|SUPERIORITY_OR_OTHER|||||||0.061||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.061
92233003|NCT01126580|184368601|SUPERIORITY_OR_OTHER|||||||0.647||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.647
92233004|NCT01126580|184368601|SUPERIORITY_OR_OTHER|||||||0.022||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.022
92233005|NCT01126580|184368601|SUPERIORITY_OR_OTHER|||||||0.469||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.469
92233006|NCT01126580|184368602|SUPERIORITY_OR_OTHER|||||||0.811||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.811
92233007|NCT01126580|184368602|SUPERIORITY_OR_OTHER|||||||0.003||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.003
92233008|NCT01126580|184368602|SUPERIORITY_OR_OTHER|||||||0.44||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.440
92233009|NCT01126580|184368602|SUPERIORITY_OR_OTHER|||||||0.001||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.001
92233010|NCT01126580|184368603|SUPERIORITY_OR_OTHER|||||||0.75||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.750
92233011|NCT01126580|184368603|SUPERIORITY_OR_OTHER|||||||0.003||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.003
92233012|NCT01126580|184368603|SUPERIORITY_OR_OTHER|||||||0.412||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.412
92233013|NCT01126580|184368603|SUPERIORITY_OR_OTHER|||||||0.001||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.001
92233014|NCT01126580|184368604|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of HOMA2-%B at 26 weeks.|Mixed Models Analysis|||||||<0.001
92233015|NCT01126580|184368604|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of HOMA2-%B at 26 weeks.|Mixed Models Analysis|||||||<0.001
92233016|NCT01126580|184368604|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of HOMA2-%B at 52 weeks.|Mixed Models Analysis|||||||<0.001
92233017|NCT01126580|184368604|SUPERIORITY_OR_OTHER|||||||0.003||||||Treatment comparison of HOMA2-%B at 52 weeks.|Mixed Models Analysis|||||||0.003
92233018|NCT01126580|184368604|SUPERIORITY_OR_OTHER|||||||0.001||||||Treatment comparison of HOMA2-%S at 26 weeks.|Mixed Models Analysis|||||||0.001
92233019|NCT01126580|184368604|SUPERIORITY_OR_OTHER|||||||0.01||||||Treatment comparison of HOMA2-%S at 26 weeks.|Mixed Models Analysis|||||||0.010
92233020|NCT01126580|184368604|SUPERIORITY_OR_OTHER|||||||0.077||||||Treatment comparison of HOMA2-%S at 52 weeks.|Mixed Models Analysis|||||||0.077
92233021|NCT01126580|184368604|SUPERIORITY_OR_OTHER|||||||0.004||||||Treatment comparison of HOMA2-%S at 52 weeks.|Mixed Models Analysis|||||||0.004
92233022|NCT05198713|184368647|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92233023|NCT01232946|184368695|SUPERIORITY|||||||0.65|||||||Kruskal-Wallis|||||||0.65
92233024|NCT01232946|184368696|SUPERIORITY|||||||0.065|||||||Kruskal-Wallis|||||||0.065
92233025|NCT01232946|184368697|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||||||0.80
92382696|NCT03429543|184668197|OTHER||Rate difference (percentage)|-23.3||||0.5455|TWO_SIDED|90.0|-67.9|27.1|||Fisher Exact||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and Fisher's exact test.||27.1|-67.9|0.5455
92382697|NCT03429543|184668198|OTHER||Rate difference (percentage)|2.4||||0.7789|TWO_SIDED|95.0|-15.2|19.5|||Wald test||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and two-sided Wald test.||19.5|-15.2|0.7789
92382698|NCT03429543|184668198|OTHER||Rate difference (percentage)|10.1||||0.2548|TWO_SIDED|95.0|-7.7|28.1|||Wald test||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and two-sided Wald test.||28.1|-7.7|0.2548
92382699|NCT03429543|184668198|OTHER||Rate difference (percentage)|-23.3||||0.5455|TWO_SIDED|90.0|-67.9|27.1|||Fisher Exact||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and Fisher's exact test.||27.1|-67.9|0.5455
92382700|NCT03429543|184668198|OTHER||Rate difference (percentage)|26.7||||0.5671|TWO_SIDED|90.0|-30.8|70.8|||Fisher Exact||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and Fisher's exact test.||70.8|-30.8|0.5671
92382701|NCT01600092|184668199|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the 2-sided 95% confidence interval of the GMT ratio is \>0.67|GMT Ratio (Experimental/Existing)|0.92|||||TWO_SIDED|95.0|0.79|1.07|||||GMTs and GMT ratio were based on a model with terms for treatment and country, with the constraint that the mean baseline value is the same for both treatment groups|Serotype G1||1.07|0.79|
92382702|NCT01600092|184668199|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the 2-sided 95% confidence interval of the GMT ratio is \>0.67|GMT Ratio (Experimental/Existing)|1.15|||||TWO_SIDED|95.0|0.99|1.33|||||GMTs and GMT ratio were based on a model with terms for treatment and country, with the constraint that the mean baseline value is the same for both treatment groups|Serotype G2||1.33|0.99|
92382703|NCT01600092|184668199|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the 2-sided 95% confidence interval of the GMT ratio is \>0.67|GMT Ratio (Experimental/Existing)|3.2|||||TWO_SIDED|95.0|2.75|3.74|||||GMTs and GMT ratio were based on a model with terms for treatment and country, with the constraint that the mean baseline value is the same for both treatment groups|Serotype G3||3.74|2.75|
92382704|NCT01600092|184668199|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the 2-sided 95% confidence interval of the GMT ratio is \>0.67|GMT Ratio (Experimental/Existing)|1.06|||||TWO_SIDED|95.0|0.94|1.2|||||GMTs and GMT ratio were based on a model with terms for treatment and country, with the constraint that the mean baseline value is the same for both treatment groups|Serotype G4||1.20|0.94|
92382705|NCT01600092|184668199|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the 2-sided 95% confidence interval of the GMT ratio is \>0.67|GMT Ratio (Experimental/Existing)|1.16|||||TWO_SIDED|95.0|1.0|1.35|||||GMTs and GMT ratio were based on a model with terms for treatment and country, with the constraint that the mean baseline value is the same for both treatment groups|Serotype P1A\[8\]||1.35|1.00|
92414952|NCT04896229|184720020|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.296|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.296
92414953|NCT00992589|184720035|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.449||||0.168|TWO_SIDED|95.0|-1.087|0.19|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in daily average frequency of regurgitation from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||0.190|-1.087|0.168
92414954|NCT00992589|184720036|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.03||||0.44|TWO_SIDED|95.0|-0.047|0.108|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Double-blind (DB) Baseline as covariate to test the hypothesis of no difference in change in Weight-for-Age Z-Score from DB Baseline to DB Endpoint between Rabeprazole Sodium Total and Placebo.||0.108|-0.047|0.440
92414955|NCT00992589|184720038|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.006||||0.984|TWO_SIDED|95.0|-0.619|0.632|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in weekly average I-GERQ-DD Regurgitation Subscale Score from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||0.632|-0.619|0.984
92414956|NCT00992589|184720039|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.182||||0.479|TWO_SIDED|95.0|-0.69|0.325|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in weekly average I-GERQ-DD Discomfort Subscale Score from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||0.325|-0.690|0.479
92382706|NCT01561963|184668204|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% confidence interval (CI) limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|96.35|||||TWO_SIDED|90.0|88.56|104.82|||||Apremilast + IV Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of AUCt of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||104.82|88.56|
92169390|NCT00704184|184227237|SUPERIORITY_OR_OTHER||Difference in Least Squares (LC) Means|-2.5|||||TWO_SIDED|95.0|-3.2|-1.8|||||The difference in LS Means reflects the mean decrease from baseline in HCV RNA between vaniprevir and placebo at Week 4.|||-1.8|-3.2|
92382707|NCT01561963|184668204|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% CI limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|27.88|||||TWO_SIDED|90.0|25.63|30.34|||||Apremilast + Multiple Dose Oral Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of AUCt of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||30.34|25.63|
92382708|NCT01561963|184668205|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% CI limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|95.71|||||TWO_SIDED|90.0|87.99|104.12|||||Apremilast + IV Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of AUC∞ of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||104.12|87.99|
92169391|NCT00704184|184227237|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.7|||||TWO_SIDED|95.0|-3.4|-2.0|||||The difference in LS Means reflects the mean decrease from baseline in HCV RNA between vaniprevir and placebo at Week 4.|||-2.0|-3.4|
92278317|NCT01694485|184458544|SUPERIORITY|If both comparisons of the primary endpoint reached statistical significance at 0.10, results from the 2 key secondary endpoints (response and mucosal healing at week 8) were to be sequentially (70 mg vs placebo then 210 mg vs placebo) tested at significance level of 0.05 independently of each other, according to the Bonferroni-based chain procedure.|Odds Ratio (OR)|2.34||||0.011|TWO_SIDED|90.0|1.35|4.07|||Regression, Logistic|Adjusted for baseline rectosigmoidoscopy score and stratification factors.|An odds ratio \> 1.0 indicates a higher healing rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using healing rates estimated from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.07|1.35|0.011
92382709|NCT01561963|184668205|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% CI limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|27.96|||||TWO_SIDED|90.0|25.7|30.41|||||Apremilast + Multiple Dose Oral Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of AUC∞ of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||30.41|25.70|
92382710|NCT01561963|184668206|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% CI limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|113.07|||||TWO_SIDED|90.0|103.18|123.91|||||Apremilast + IV Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of Cmax of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||123.91|103.18|
92382711|NCT01561963|184668206|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% CI limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|56.8|||||TWO_SIDED|90.0|51.84|62.25|||||Apremilast + Multiple Dose Oral Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of Cmax of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||62.25|51.84|
92382712|NCT01561963|184668207|OTHER||Median Difference|-0.25||||0.2656|TWO_SIDED|90.0|-0.75|0.0|||Wilcoxon signed rank test||Apremilast + IV Rifampin - Apremilast Alone|Tmax was analyzed using nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||0.00|-0.75|0.2656
92382713|NCT01561963|184668207|OTHER||Median Difference|-0.5||||0.1141|TWO_SIDED|90.0|-1.0|0.0|||Wilcoxon signed rank test||Apremilast + Multiple Dose Oral Rifampin - Apremilast Alone|Tmax was analyzed using nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||0.00|-1.00|0.1141
92382714|NCT04018313|184668211|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|105.62|||||TWO_SIDED|90.0|95.91|116.31||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||116.31|95.91|
92169392|NCT00704184|184227237|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.7|||||TWO_SIDED|95.0|-3.4|-2.0|||||The difference in LS Means reflects the mean decrease from baseline in HCV RNA between vaniprevir and placebo at Week 4.|||-2.0|-3.4|
92169393|NCT00704184|184227237|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.7|||||TWO_SIDED|95.0|-3.3|-2.0|||||The difference in LS Means reflects the mean decrease from baseline in HCV RNA between vaniprevir and placebo at Week 4.|||-2.0|-3.3|
92233026|NCT01614457|184368698|SUPERIORITY_OR_OTHER||Least squares (LS) Mean Difference|2.1114||||0.1979|TWO_SIDED|95.0|-1.1305|5.3532|||Mixed Model Repeated Measures|||Analysis was based on mixed effects model for repeated measures (MMRM) with dependent variable absolute change from baseline, with treatment group, visit and treatment by visit interaction as fixed effects, subject as random effect, and with adjustment for the continuous baseline value of age and percent predicted FEV1, using compound symmetry covariance matrix.||5.3532|-1.1305|0.1979
92233027|NCT01614457|184368699|SUPERIORITY_OR_OTHER||LS Mean difference|0.2626||||0.778|TWO_SIDED|95.0|-1.5698|2.095||p-value for the treatment effect is from the slope of BMI (kg/m2) versus time (days).|Linear Mixed model|||Analysis was based on linear mixed model with dependent variable BMI and treatment as a fixed effect, adjustment for baseline percent predicted FEV1, age and visit by treatment interaction was included as covariates and intercept, visit were included as random effects.||2.0950|-1.5698|0.7780
92233028|NCT01614457|184368700|SUPERIORITY_OR_OTHER||LS Mean difference|-23.9693|||<|0.0001|TWO_SIDED|95.0|-28.0094|-19.9293|||Mixed Model Repeated Measures|||Analysis was based on MMRM with dependent variable absolute change from baseline, with treatment group, visit and treatment by visit interaction as fixed effects, subject as random effect, and with adjustment for the continuous baseline value of age and percent predicted FEV1, and sweat chloride, using a compound symmetry covariance matrix.||-19.9293|-28.0094|<0.0001
92233029|NCT01614457|184368701|SUPERIORITY_OR_OTHER||LS Mean difference|8.3874||||0.0091|TWO_SIDED|95.0|2.1658|14.609|||Mixed Model Repeated Measures|||Analysis was based on MMRM with dependent variable absolute change from baseline, with treatment group, visit and treatment by visit interaction as fixed effects, subject as random effect, and with adjustment for the continuous baseline value of age and percent predicted FEV1, and CFQ-R respiratory domain score, using compound symmetry covariance matrix.||14.6090|2.1658|0.0091
92233030|NCT01614457|184368702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.928||||0.8556|TWO_SIDED||||||Cox Proportional Hazard Regression|||||||0.8556
92233031|NCT02698410|184368704|OTHER|||||||0.2968||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 30%.|Binomial proportion test|||Comparison of DCR to 30% clinically relevant threshold.||||0.2968
92382715|NCT04018313|184668211|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax|Ratio of geometric least square means|98.72|||||TWO_SIDED|90.0|89.76|108.58||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||108.58|89.76|
92278318|NCT01694485|184458544|SUPERIORITY||Difference in Adjusted Healing Rates|15.3|||||TWO_SIDED|90.0|4.8|24.0||||||The difference in adjusted healing rates, estimated from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||24.0|4.8|
92382716|NCT04018313|184668211|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|93.47|||||TWO_SIDED|90.0|85.09|102.68||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||102.68|85.09|
92382717|NCT04018313|184668212|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|104.0|||||TWO_SIDED|90.0|94.96|113.89||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||113.89|94.96|
92414957|NCT00992589|184720040|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.192||||0.498|TWO_SIDED|95.0|-0.751|0.366|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in weekly average I-GERQ-DD Eating Behavior Subscale Score from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||0.366|-0.751|0.498
92233032|NCT02698410|184368704|OTHER||||||<|0.0001||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 10%.|Binomial proportion test|||Comparison of DCR to 10% clinically relevant threshold.||||<0.0001
92233033|NCT02698410|184368704|OTHER|||||||0.0534||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 30%.|Binomial proportion test|||Sensitivity Analyisis-1: Comparison of DCR to 30% clinically relevant threshold.||||0.0534
92233034|NCT02698410|184368704|OTHER||||||<|0.0001||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 10%.|Binomial proportion test|||Sensitivity Analyisis-1: Comparison of DCR to 10% clinically relevant threshold.||||<0.0001
92233035|NCT02698410|184368704|OTHER|||||||0.032||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 30%.|Binomial proportion test|||Sensitivity Analyisis-2: Comparison of DCR to 30% clinically relevant threshold.||||0.032
92233036|NCT02698410|184368704|OTHER||||||<|0.0001||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 10%.|Binomial proportion test|||Sensitivity Analyisis-2: Comparison of DCR to 10% clinically relevant threshold.||||<0.0001
92233037|NCT03952130|184368720|NON_INFERIORITY|Noninferiority margin = 0.4% for HbA1c|LS Mean Difference|0.07|||||TWO_SIDED|95.0|-0.11|0.24||||||||0.24|-0.11|
92233038|NCT03952130|184368721|SUPERIORITY||LS Mean Difference|-17.8||||0.003|TWO_SIDED|95.0|-29.4|-6.1|||ANCOVA|||||-6.1|-29.4|0.003
92233039|NCT03952130|184368722|SUPERIORITY||LS Mean Difference|-25.5||||0.001|TWO_SIDED|95.0|-41.1|-10.0|||ANCOVA|||||-10.0|-41.1|0.001
92233040|NCT03952130|184368723|OTHER||Relative rate|0.85||||0.834|TWO_SIDED|95.0|0.19|3.77|||Empirical method|||||3.77|0.19|0.834
92233041|NCT03952130|184368724|OTHER||Relative rate|1.0||||0.983|TWO_SIDED|95.0|0.72|1.38|||Negative binomial regression|||\<=30 minutes post meal||1.38|0.72|0.983
92233042|NCT03952130|184368724|OTHER||Relative rate|1.61||||0.076|TWO_SIDED|95.0|0.95|2.74|||Negative binomial regression|||\<=1 hour post meal||2.74|0.95|0.076
92233043|NCT03952130|184368724|OTHER||Relative rate|1.19||||0.409|TWO_SIDED|95.0|0.79|1.79|||Negative binomial regression|||\<=2 hours post meal||1.79|0.79|0.409
92233044|NCT03952130|184368724|OTHER||Relative rate|1.22||||0.217|TWO_SIDED|95.0|0.89|1.68|||Negative binomial regression|||\<=4 hours post meal||1.68|0.89|0.217
92233045|NCT03952130|184368724|OTHER||Relative rate|1.09||||0.703|TWO_SIDED|95.0|0.71|1.65|||Negative binomial regression|||\>1 to \<=2 hours post meal||1.65|0.71|0.703
92233046|NCT03952130|184368724|OTHER||Relative rate|1.24||||0.206|TWO_SIDED|95.0|0.89|1.73|||Negative binomial regression|||\>2 to \<=4 hours post meal||1.73|0.89|0.206
92233047|NCT03952130|184368724|OTHER||Relative rate|0.75||||0.082|TWO_SIDED|95.0|0.55|1.04|||Negative binomial regression|||\>4 hours post meal||1.04|0.55|0.082
92280480|NCT00601484|184463636|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-1.38|||||TWO_SIDED|90.0|-11.57|8.28||||||Week 10: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||8.28|-11.57|
92382718|NCT04018313|184668212|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|99.3|||||TWO_SIDED|90.0|90.79|108.61||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||108.61|90.79|
92382719|NCT04018313|184668212|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|95.48|||||TWO_SIDED|90.0|87.36|104.37||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||104.37|87.36|
92414958|NCT00992589|184720041|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.042||||0.96|TWO_SIDED|95.0|-1.615|1.7|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in I-GERQ-R Total Score from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||1.700|-1.615|0.960
92414959|NCT00992589|184720042|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.024||||0.968|TWO_SIDED|95.0|-1.167|1.214|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in Weekly Average I-GERQ-DD Total Score from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||1.214|-1.167|0.968
92414960|NCT05508074|184720083|OTHER|the primary endpoint was safety hence the study was not powered to show efficacy. statistical analysis was performed to detect signal of efficacy.|Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|3.45||0.923|TWO_SIDED|95.0|-7.27|6.6|||ANCOVA|adjusted on baseline ALSFRS-R and treatment.||primary analysis results based on estimand 1 (see attached SAP)||6.60|-7.27|0.923
92233048|NCT03952130|184368725|OTHER||LS Mean Difference|-0.29||||0.309|TWO_SIDED|95.0|-0.86|0.27|||Mixed Models Analysis|||||0.27|-0.86|0.309
92233049|NCT03952130|184368726|OTHER||LS Mean Difference|-15.7|||<|0.001|TWO_SIDED|95.0|-23.8|-7.7|||Mixed Models Analysis|||Morning premeal-fasting||-7.7|-23.8|<.001
92233050|NCT03952130|184368726|OTHER||LS Mean Difference|-14.0||||0.005|TWO_SIDED|95.0|-23.8|-4.2|||Mixed Models Analysis|||Morning 1-hour post meal||-4.2|-23.8|0.005
92233051|NCT03952130|184368726|OTHER||LS Mean Difference|-14.9||||0.004|TWO_SIDED|95.0|-25.0|-4.8|||Mixed Models Analysis|||Morning 2-hour post meal||-4.8|-25.0|0.004
92233052|NCT03952130|184368726|OTHER||LS Mean Difference|-2.3||||0.616|TWO_SIDED|95.0|-11.4|6.8|||Mixed Models Analysis|||Midday premeal||6.8|-11.4|0.616
92233053|NCT03952130|184368726|OTHER||LS Mean Difference|-9.1||||0.054|TWO_SIDED|95.0|-18.4|0.1|||Mixed Models Analysis|||Midday 1-hour post meal||0.1|-18.4|0.054
92233054|NCT03952130|184368726|OTHER||LS Mean Difference|-3.3||||0.483|TWO_SIDED|95.0|-12.6|6.0|||Mixed Models Analysis|||Midday 2-hour post meal||6.0|-12.6|0.483
92233055|NCT03952130|184368726|OTHER||LS Mean Difference|10.5||||0.064|TWO_SIDED|95.0|-0.6|21.7|||Mixed Models Analysis|||Evening premeal||21.7|-0.6|0.064
92233056|NCT03952130|184368726|OTHER||LS Mean Difference|-5.6||||0.262|TWO_SIDED|95.0|-15.5|4.2|||Mixed Models Analysis|||Evening 1-hour post meal||4.2|-15.5|0.262
92233057|NCT03952130|184368726|OTHER||LS Mean Difference|-7.8||||0.117|TWO_SIDED|95.0|-17.5|2.0|||Mixed Models Analysis|||Evening 2-hour post meal||2.0|-17.5|0.117
92233058|NCT03952130|184368726|OTHER||LS Mean Difference|-4.4||||0.414|TWO_SIDED|95.0|-15.1|6.2|||Mixed Models Analysis|||Bedtime||6.2|-15.1|0.414
92233059|NCT03952130|184368727|OTHER||LS Mean Difference|0.0||||0.947|TWO_SIDED|95.0|-0.7|0.6|||Mixed Models Analysis|||Basal insulin dose||0.6|-0.7|0.947
92233060|NCT03952130|184368727|OTHER||LS Mean Difference|0.7||||0.5|TWO_SIDED|95.0|-1.3|2.6|||Mixed Models Analysis|||Bolus insulin dose||2.6|-1.3|0.500
92233061|NCT03952130|184368727|OTHER||LS Mean Difference|0.6||||0.543|TWO_SIDED|95.0|-1.4|2.7|||Mixed Models Analysis|||Total insulin dose||2.7|-1.4|0.543
92233062|NCT03952130|184368728|OTHER||Odds Ratio (OR)|0.81||||0.462|TWO_SIDED|95.0|0.47|1.42|||Regression, Logistic|||For HbA1c \< 7%||1.42|0.47|0.462
92233063|NCT03952130|184368728|OTHER||Odds Ratio (OR)|0.54||||0.089|TWO_SIDED|95.0|0.26|1.1|||Regression, Logistic|||For HbA1c ≤6.5%||1.10|0.26|0.089
92233064|NCT01713348|184368729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_DEVIATION|3.3||0.9345|TWO_SIDED|95.0|-1.29|1.19|||t-test, 2 sided|||||1.19|-1.29|0.9345
92233065|NCT01713348|184368729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|STANDARD_DEVIATION|3.5||0.0427|TWO_SIDED|95.0|0.05|2.73|||t-test, 2 sided|||Difference in time in range (70-180 mg/dL, 3.9 to 10.0 mmol/L) intervention arm compared to control arm.||2.73|0.05|0.0427
92233066|NCT01713348|184368730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_DEVIATION|1.18||0.8367|TWO_SIDED|95.0|-2.65|2.16|||ANCOVA|Performed for each type of Diabetes and adjusted for baseline Time in Range.||||2.16|-2.65|0.8367
92414961|NCT05508074|184720083|OTHER|FAS post hoc|Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|3.3||0.65|TWO_SIDED|95.0|-5.1|8.2||post hoc analysis on the FAS population, adjusted on baseline NfL on top of previous parameters|ANCOVA|||post hoc analysis adjusted on baseline NfL on top of previous parameters||8.2|-5.1|0.65
92414962|NCT05508074|184720084|OTHER|the primary endpoint was safety hence the study was not powered to show efficacy. statistical analysis was performed to detect signal of efficacy.|Mean Difference (Final Values)|-0.118||||0.398|TWO_SIDED|95.0|-0.408|0.186|||binomial exact method|||primary analysis results based on estimand 1 (see attached SAP)||0.186|-0.408|0.398
92414963|NCT05508074|184720085|OTHER|the primary endpoint was safety hence the study was not powered to show efficacy. statistical analysis was performed to detect signal of efficacy.|Mean Difference (Final Values)|-0.029||||0.835|TWO_SIDED|95.0|-0.326|0.271|||binomial exact method|||calculation based on estimand 1 (see SAP)||0.271|-0.326|0.835
92414964|NCT05508074|184720086|OTHER|the primary endpoint was safety hence the study was not powered to show efficacy. statistical analysis was performed to detect signal of efficacy.|Mean Difference (Final Values)|5.31|STANDARD_ERROR_OF_MEAN|7.47||0.481|TWO_SIDED|95.0|-9.72|20.34|||ANCOVA|||based on estimand 1 (see SAP). change of SVC percentage from baseline to 6 months||20.34|-9.72|0.481
92414965|NCT05508074|184720096|OTHER||adjusted geometric mean ratio|1.04|STANDARD_ERROR_OF_MEAN|1.08||0.609|TWO_SIDED|95.0|0.89|1.21|||ANCOVA|||based on available data at V4||1.21|0.89|0.609
92414966|NCT02142387|184720103|OTHER|||||||0.34|TWO_SIDED|95.0|||||Chi-squared|||||||0.34
92382720|NCT04018313|184668213|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|113.14|||||TWO_SIDED|90.0|103.15|124.11||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||124.11|103.15|
92382721|NCT04018313|184668213|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|103.88|||||TWO_SIDED|90.0|94.83|113.8||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||113.80|94.83|
92414967|NCT02142387|184720104|OTHER|||||||0.7|||||||Chi-squared|||||||0.7
92414968|NCT02142387|184720105|OTHER|||||||0.11|||||||Chi-squared|||||||0.11
92414969|NCT01101308|184720106|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|102.0|||||TWO_SIDED|90.0|97.51|107.27|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||107.27|97.51|
92414970|NCT01101308|184720107|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|100.0|||||TWO_SIDED|90.0|97.19|103.0|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||103.00|97.19|
92414971|NCT01101308|184720108|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|100.0|||||TWO_SIDED|90.0|97.14|102.99|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||102.99|97.14|
92414972|NCT02984943|184720109|OTHER|||||||0.1|||||||Skillings-Mack test|||||||0.10
92414973|NCT02984943|184720110|OTHER|||||||0.1|||||||Skillings-Mack test|||||||0.10
92414974|NCT02984943|184720111|OTHER|||||||0.02|||||||Skillings-Mack test|||||||0.02
92414975|NCT02984943|184720112|OTHER|||||||0.02|||||||Skillings-Mack test|||||||0.02
92414976|NCT02984943|184720113|OTHER|||||||0.004|||||||Skillings-Mack test|||||||0.004
92414977|NCT02984943|184720114|OTHER|||||||0.004|||||||Skillings-Mack test|||||||0.004
92414978|NCT02984943|184720115|OTHER|||||||0.2938|||||||Skillings-Mack test|||||||0.2938
92414979|NCT02984943|184720116|OTHER|||||||0.2938|||||||Skillings-Mack test|||||||0.2938
92414980|NCT02984943|184720117|OTHER|||||||0.0608|||||||Skillings-Mack test|||||||0.0608
92414981|NCT02984943|184720118|OTHER|||||||0.0608|||||||Skillings-Mack test|||||||0.0608
92414982|NCT02984943|184720119|OTHER|||||||0.1496|||||||Skillings-Mack test|||||||0.1496
92414983|NCT02984943|184720120|OTHER|||||||0.1496|||||||Skillings-Mack test|||||||0.1496
92233067|NCT01713348|184368730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|STANDARD_DEVIATION|1.05||0.7969|TWO_SIDED|95.0|-1.86|2.4|||ANCOVA|Performed for each type of Diabetes and adjusted for baseline Time in Range.||||2.40|-1.86|0.7969
92233068|NCT01713348|184368731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|0.6||0.0352|TWO_SIDED|95.0|-0.51|-0.02|||t-test, 2 sided|||||-0.02|-0.51|0.0352
92233069|NCT01713348|184368731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|0.7||0.0506|TWO_SIDED|95.0|-0.54|0.0|||t-test, 2 sided|||||0.00|-0.54|0.0506
92414984|NCT02984943|184720121|OTHER|||||||0.36|||||||Skillings-Mack test|||||||0.36
92414985|NCT02984943|184720122|OTHER|||||||0.36|||||||Skillings-Mack test|||||||0.36
92414986|NCT02984943|184720123|OTHER|||||||0.0012|||||||Skillings-Mack test|||||||0.0012
92414987|NCT02984943|184720124|OTHER|||||||0.0012|||||||Skillings-Mack test|||||||0.0012
92414988|NCT02984943|184720125|OTHER|||||||0.9|||||||Skillings-Mack test|||||||0.90
92414989|NCT02984943|184720126|OTHER|||||||0.9|||||||Skillings-Mack test|||||||0.90
92414990|NCT02984943|184720127|OTHER|||||||0.0068|||||||Skillings-Mack test|||||||0.0068
92414991|NCT02984943|184720128|OTHER|||||||0.0068|||||||Skillings-Mack test|||||||0.0068
92414992|NCT02984943|184720129|OTHER|||||||0.0183|||||||Skillings-Mack test|||||||0.0183
92414993|NCT02984943|184720130|OTHER|||||||0.0183|||||||Skillings-Mack test|||||||0.0183
92382722|NCT04018313|184668213|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|91.82|||||TWO_SIDED|90.0|83.87|100.52||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||100.52|83.87|
92382723|NCT00896441|184668237|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|One sample t-test||||||<0.01
92382724|NCT00896441|184668239|OTHER||||||<|0.006|||||||t-test, 2 sided|Single group t-test||||||<.006
92382725|NCT01078168|184668277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3769||||0.0347|TWO_SIDED|95.0|0.03025|0.7235||threshold: p\<0.05|t-test, 2 sided|||||0.7235|0.03025|0.0347
92382726|NCT02467582|184668347|SUPERIORITY|||||||0.11|||||||Log Rank|||||||0.11
92382727|NCT02467582|184668347|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|90.0|0.27|1.22|||||Unstratified|||1.22|0.27|
92382728|NCT02467582|184668347|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|90.0|0.22|1.46|||||Stratified|||1.46|0.22|
92382729|NCT02467582|184668348|SUPERIORITY|||||||0.089|||||||Log Rank|||||||0.089
92382730|NCT02467582|184668348|SUPERIORITY||Hazard Ratio (HR)|0.49|||||TWO_SIDED|90.0|0.21|1.19|||||Unstratified|||1.19|0.21|
92382731|NCT02467582|184668348|SUPERIORITY||Hazard Ratio (HR)|0.56|||||TWO_SIDED|90.0|0.2|1.55|||||Stratified|||1.55|0.20|
92382732|NCT02467582|184668349|SUPERIORITY|||||||0.3|||||||Log Rank|||||||0.3
92382733|NCT02467582|184668349|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|90.0|0.23|2.13|||||Unstratified|||2.13|0.23|
92382734|NCT02467582|184668349|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|90.0|0.15|2.43|||||Stratified|||2.43|0.15|
92382735|NCT01370265|184668352|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||t-test, 2 sided|||Statistical analysis for hyperemic global MBF between Regadenoson and Adenosine groups (per intervention), alpha level of 0.05.||||0.14
92382736|NCT01370265|184668354|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||t-test, 2 sided|||Statistical analysis for Cardiac Flow Rate (CFR) between Regadenoson and Adenosine groups (per intervention), alpha level of 0.05||||0.21
92382737|NCT01370265|184668355|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention), for Hyperemic MBF Anterior, alpha level of 0.05.||||0.57
92382738|NCT01370265|184668355|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for Hyperemic MBF Septum, alpha level of 0.05.||||0.13
92382739|NCT01370265|184668355|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention)for Hyperemic MBF Inferior, alpha level of 0.05.||||0.44
92382740|NCT01370265|184668355|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for Hyperemic MBF Lateral, alpha level of 0.05.||||0.74
92382741|NCT01370265|184668356|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention for CFR Anterior, alpha level of 0.05.||||0.78
92382742|NCT01370265|184668356|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for CFR Septum, alpha level of 0.05||||0.42
92382743|NCT01370265|184668356|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention for CFR Inferior, alpha level of 0.05||||0.96
92382744|NCT01370265|184668356|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for CFR Lateral, alpha level of 0.05.||||0.13
92382745|NCT01370265|184668357|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for resting heart rate, alpha level of 0.05.||||0.28
92382746|NCT01370265|184668357|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for hyperemic heart rate, alpha level of 0.05.||||0.51
92382747|NCT01370265|184668358|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for systolic blood pressure, alpha level of 0.05.||||0.31
92382748|NCT01370265|184668358|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for diastolic blood pressure, alpha level of 0.05.||||0.08
92382749|NCT03592368|184668485|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92382750|NCT03592368|184668487|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92382751|NCT03592368|184668488|SUPERIORITY|||||||0.12|||||||t-test, 1 sided|||||||0.12
92382752|NCT01107665|184668499|OTHER||Log Rank HR|0.784||||0.49|TWO_SIDED|95.0|0.41|1.54|||Log Rank|||||1.54|.41|0.49
92382753|NCT02814175|184668518|OTHER|Between group difference|point estimate difference|28.3|||<|0.001|TWO_SIDED|95.0|17.8|38.9|||Cochran-Mantel-Haenszel|Adjusted for the stratification factor which is the duration of prior MTX 15 mg ew use of ≤ 3 months or \> 3 months.||||38.9|17.8|< 0.001
92382754|NCT03121365|184668531|EQUIVALENCE|0.05||||||0.7635|TWO_SIDED|95.0|||||t-test, 2 sided|||Bayley Scales of Infant and Toddler Development Cognitive Composite Scores between infants 12-18 months old in the Standard and Digital Arms||||.7635
92382755|NCT03121365|184668531|EQUIVALENCE|0.05||||||0.0996|||||||t-test, 2 sided|||Language Composite Scores between infants 12-18 months old in the Standard and Digital Arms||||.0996
92382756|NCT03121365|184668531|EQUIVALENCE|0.05||||||0.2291|||||||t-test, 2 sided|||Gross Motor Composite Scores between infants 12-18 months old in the Standard and Digital Arms||||.2291
92414994|NCT02984943|184720131|OTHER|||||||0.08|||||||Skillings-Mack test|||||||0.08
92414995|NCT02984943|184720132|OTHER|||||||0.08|||||||Skillings-Mack test|||||||0.08
92414996|NCT02984943|184720133|OTHER||||||||||||||||||Descriptive statistics only were used|||
92414997|NCT02984943|184720134|OTHER||||||||||||||||||Descriptive statistics only were used|||
92414998|NCT02984943|184720135|OTHER||||||||||||||||||Descriptive statistics only were used|||
92414999|NCT02984943|184720136|OTHER||||||||||||||||||Descriptive statistics only were used|||
92415000|NCT02984943|184720137|OTHER||||||||||||||||||Descriptive statistics only were used|||
92233070|NCT01713348|184368732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|8.0||0.058|TWO_SIDED|95.0|-6.4|0.1|||t-test, 2 sided|||||0.1|-6.4|0.0580
92233071|NCT01713348|184368732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|STANDARD_DEVIATION|12.0||0.0002|TWO_SIDED|95.0|-13.6|-4.9|||t-test, 2 sided|||||-4.9|-13.6|0.0002
92233072|NCT01713348|184368733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|0.8||0.058|TWO_SIDED|95.0|-0.59|0.01|||t-test, 2 sided|||||0.01|-0.59|0.0580
92233073|NCT01713348|184368733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_DEVIATION|1.1||0.0002|TWO_SIDED|95.0|-1.24|-0.45|||t-test, 2 sided|||||-0.45|-1.24|0.0002
92233074|NCT04425850|184368738|OTHER||||||<|0.0001|||||||Chi-squared|||Chi-squared test on the percentage of subjects who contracted COVID-19 in each arm||||< 0.0001
92233075|NCT03199911|184368740|SUPERIORITY||Risk Ratio (RR)|0.0||||0.025|TWO_SIDED||||||Fisher Exact|||||||0.025
92233076|NCT03199911|184368742|SUPERIORITY||Risk Ratio (RR)|1.3||||0.77|TWO_SIDED|95.0|0.42|4.03|||Fisher Exact|||||4.03|0.42|0.77
92233077|NCT03199911|184368743|SUPERIORITY||Risk Ratio (RR)|0.93||||1|TWO_SIDED|95.0|0.06|14.77|||Fisher Exact|||||14.77|0.06|1.00
92233078|NCT00101361|184368749|NON_INFERIORITY_OR_EQUIVALENCE|the required sample size of 400 participants provided 85% power to detect an increase in healing from 25% in the placebo group to 40% in the oxandrolone group, as assuming a 0.05 (2-sided) type I error, 13% rate of loss to follow up, and a test of proportions by using an arcsine transformation.|Mean Difference (Final Values)|-5.7|||<|0.05|TWO_SIDED|95.0|-17.5|6.8|||Cochran-Mantel-Haenszel|||For spinal cord injury patients with a Stage III or IV pressure ulcer of the pelvic region who receive 24 weeks or less of optimized clinical care (i.e., guideline-driven care with nutritional support) compared with optimized clinical care and an oral anabolic steroid agent (oxandrolone) there will be no difference in the percent of healed pressure ulcers.||6.8|-17.5|<0.05
92382757|NCT03121365|184668532|EQUIVALENCE|0.05||||||0.018|||||||t-test, 2 sided|||StimQ scores between infants 6 months of age and 9 months of age in the board book arm and e-book arm||||.0180
92233079|NCT02424539|184368750|OTHER||Mean Difference (Final Values)|-1.23|||<|0.001|TWO_SIDED|95.0|-1.68|-0.78|||ANCOVA||Least square (LS) mean difference between placebo and FF 55 µg QD has been presented using analysis of co-variance (ANCOVA) model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-0.78|-1.68|<0.001
92233080|NCT02424539|184368750|OTHER||Mean Difference (Final Values)|-1.32|||<|0.001|TWO_SIDED|95.0|-1.77|-0.87|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-0.87|-1.77|<0.001
92382758|NCT03121365|184668532|EQUIVALENCE|0.05||||||0.4144|||||||t-test, 2 sided|||StimQ scores between infants 9 months of age and 12 months of age in the board book arm and e-book arm||||.4144
92382759|NCT03121365|184668532|EQUIVALENCE|0.05||||||0.4251|||||||t-test, 2 sided|||StimQ scores between infants 6 months of age and 12 months of age in the board book arm and e-book arm||||.4251
92382760|NCT03121365|184668533|SUPERIORITY|||||||0.235||||||Difference in Board Book Reading|Chi-squared|||||||0.235
92382761|NCT03121365|184668534|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92382762|NCT03121365|184668535|SUPERIORITY|||||||0.601|||||||Chi-squared|||||||0.601
92382763|NCT03121365|184668536|SUPERIORITY|||||||0.219|||||||Chi-squared|||||||0.219
92382764|NCT03121365|184668537|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92382765|NCT03121365|184668538|SUPERIORITY|||||||0.574|||||||Chi-squared|||||||0.574
92382766|NCT03121365|184668539|SUPERIORITY|||||||0.43|||||||Chi-squared|||||||0.430
92382767|NCT03121365|184668540|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92382768|NCT03121365|184668541|SUPERIORITY|||||||0.861|||||||Chi-squared|||||||0.861
92415001|NCT02984943|184720138|OTHER||||||||||||||||||Descriptive statistics only were used|||
92415002|NCT02984943|184720139|OTHER||||||||||||||||||Descriptive statistics only were used|||
92415003|NCT02984943|184720141|OTHER||||||||||||||||||Descriptive statistics only were used|||
92415004|NCT02984943|184720142|OTHER||||||||||||||||||Descriptive statistics only were used|||
92415005|NCT02984943|184720143|OTHER||||||||||||||||||Descriptive statistics only were used|||
92415006|NCT02984943|184720145|OTHER||||||||||||||||||Descriptive statistics only were used|||
92415007|NCT02984943|184720146|OTHER||||||||||||||||||Descriptive statistics only were used|||
92415008|NCT02984943|184720147|OTHER||||||||||||||||||Descriptive statistics only were used|||
92415009|NCT02984943|184720148|OTHER||||||||||||||||||Descriptive statistics only were used|||
92415010|NCT02296138|184720164|SUPERIORITY|This hypothesis testing strategy ensures that the overall type I error is protected at 2-sided 0.01 level.|Ratio of rates vs. Tiotropium 5 μg|0.93||||0.0498|TWO_SIDED|99.0|0.85|1.02|||Negative binomial model||Ratio of events Tiotropium (5 μg) + Olodaterol (5 μg) versus Tiotropium (5 μg) is provided.|Annualised rate of moderate to severe COPD exacerbation was analysed using a negative binomial model including the fixed, categorical effect of treatment as well as the logarithm of the treatment exposure as an offset.||1.02|0.85|0.0498
92415011|NCT02296138|184720164|SUPERIORITY||Ratio of rates|0.89||||0.001|TWO_SIDED|95.0|0.84|0.96|||Negative binomial model||Ratio of rates Tiotropium (5 μg) versus Tiotropium (5 μg) + Olodaterol (5 μg) is provided.|Model was based on SPARK/FLAME- Covariates: Smoking status, baseline inhaled corticosteroid, Global Initiative on Chronic Obstructive Lung Disease stage, region, COPD Assessment Test score (replacing baseline symptom score), exacerbations treated with antibiotics/steroids history in previous year (replacing 1-year history of exacerbations)||0.96|0.84|0.0010
92415012|NCT02296138|184720164|SUPERIORITY||Ratio of rates|0.91||||0.008|TWO_SIDED|95.0|0.85|0.98|||Negative binomial model||Ratio of rates Tiotropium (5 μg) versus Tiotropium (5 μg) + Olodaterol (5 μg) is provided.|Model was based on HERMES- Covariates: age, sex, smoking status, baseline Long-acting Beta-agonist/inhaled corticosteroid, region and percent predicted post-bronchodilator Forced Expiratory Volume in One Second||0.98|0.85|0.0080
92415013|NCT02296138|184720164|SUPERIORITY||Ratio of rates|0.89||||0.0011|TWO_SIDED|95.0|0.84|0.96|||Negative binomial model||Ratio of rates Tiotropium (5 μg) versus Tiotropium (5 μg) + Olodaterol (5 μg) is provided.|Model was based on TRINITY/TRILOGY- Covariates: Treatment, region, severity of airflow limitation, and smoking status as effects, and exacerbations treated with antibiotics/steroids in previous year.||0.96|0.84|0.0011
92171705|NCT04690673|184232593|EQUIVALENCE|Based on previous reports on the pharmacokinetics of oral paracetamol, the standard deviation of the within-subject difference in the Cmax for paracetamol was estimated to be 35% of the mean Cmax. Using this standard deviation, 10 participants were estimated to be sufficient, with a power of at least 80% (at 5% significance level). We recruited 12 volunteers to account for potential protocol violations or dropouts.|Geometric mean ratio|1.03||||0.05|TWO_SIDED|90.0|0.94|1.13||Not adjusted for multiple comparisons as the analysis was exploratory|t-test, 2 sided||Adhering|Highest paracetamol concentrations (Cmax) measured from capillary with the electrochemical method compared with measurements with mass-spectrometry.||1.13|0.94|0.05
92382769|NCT04207749|184668543|NON_INFERIORITY|Noninferiority in CLCDVA was declared if the upper confidence limit was less than 0.10 logMAR.|Least Squares Mean Difference|0.01|||||TWO_SIDED|95.0|0.0|0.02||Since noninferiority hypotheses are being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|Mixed effects repeated measures||Least squares mean difference (LID015385 minus Biofinity).|||0.02|-0.00|
92382770|NCT04207749|184668544|NON_INFERIORITY|Proportion of subjects is presented. Noninferiority in proportion of subjects achieving CLCDVA 20/20 or better in each eye was declared if the lower confidence limit was greater than -0.10.|Difference in proportion|-0.01|||||TWO_SIDED|95.0|-0.06|0.04||Since noninferiority hypotheses are being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|Farrington-Manning||Lens difference (LID015385 minus Biofinity)|||0.04|-0.06|
92382771|NCT00655629|184668545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.92|||<|0.0001||95.0|-8.45|-5.38|||ANCOVA|||Power adjustment for 3 primary efficacy variables (3 variables have to be significant in favor of Vardenafil to conclude efficacy). Statistical analysis applies to the total population.||-5.38|-8.45|<0.0001
92382772|NCT00655629|184668546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.972|||<|0.0001||95.0|-32.688|-19.256|||ANCOVA|||Statistical analysis applies to the total population.||-19.256|-32.688|<0.0001
92415014|NCT02296138|184720165|SUPERIORITY|This hypothesis testing strategy ensures that the overall type I error is protected at 2-sided 0.01 level.|Hazard Ratio (HR)|0.95||||0.1188|TWO_SIDED|99.0|0.87|1.03|||Log Rank||Tiotropium (5 μg) + Olodaterol (5 μg) versus Tiotropium (5 μg)|A Cox's proportional hazard model was used to estimate the hazard ratio and the corresponding Confidence Interval. A log-rank test was used to obtain the p-value||1.03|0.87|0.1188
92382773|NCT00655629|184668547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.432|||<|0.0001||95.0|-40.439|-26.425|||ANCOVA|||Statistical analysis applies to the total population.||-26.425|-40.439|<0.0001
92382774|NCT00655629|184668548|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel|53.8693|||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|CMH adjusted for age group and center||Statistical analysis applies to the total population.||||<0.0001
92382775|NCT00655629|184668549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.078|||<|0.0001||95.0|-22.41|-9.746|||ANCOVA|||Statistical analysis applies to the total population.||-9.746|-22.41|<0.0001
92382776|NCT00655629|184668550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.134|||<|0.0001||95.0|-40.281|-25.987|||ANCOVA|||Statistical analysis applies to the total population.||-25.987|-40.281|<0.0001
92382777|NCT00655629|184668551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.934|||<|0.0001||95.0|-41.119|-26.749|||ANCOVA|||Statistical analysis applies to the total population.||-26.749|-41.119|<0.0001
92382778|NCT00655629|184668552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.902|||<|0.0001||95.0|-27.724|-14.081|||ANCOVA|||Statistical analysis applies to the total population.||-14.081|-27.724|<0.0001
92382779|NCT00655629|184668554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.866|||<|0.0001||95.0|-22.599|-11.133|||ANCOVA|||Statistical analysis applies to the total population.||-11.133|-22.599|<0.0001
92382780|NCT00655629|184668555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.04|||<|0.0001||95.0|-31.547|-20.533|||ANCOVA|||Statistical analysis applies to the total population.||-20.533|-31.547|<0.0001
92382781|NCT00655629|184668556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.496|||<|0.0001||95.0|-24.676|-14.315|||ANCOVA|||Statistical analysis applies to the total population.||-14.315|-24.676|<0.0001
92382782|NCT00655629|184668557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.418|||<|0.0001||95.0|-24.439|-12.396|||ANCOVA|||Statistical analysis applies to the total population.||-12.396|-24.439|<0.0001
92382783|NCT00655629|184668558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.379|||<|0.0001||95.0|-28.006|-16.753|||ANCOVA|||Statistical analysis applies to the total population.||-16.753|-28.006|<0.0001
92382784|NCT00655629|184668559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.758|||<|0.0001||95.0|-36.736|-24.779|||ANOVA|||Statistical analysis applies to the total population.||-24.779|-36.736|<0.0001
92382785|NCT00655629|184668560|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel|60.2391|||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|CMH adjusted for age group and center||Statistical analysis applies to the total population.||||<0.0001
92382786|NCT00741013|184668561|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Only a single statistical analysis was performed upon completion of the study.|ANOVA|||One-way analysis of variance was performed to determine whether lovastatin or rhAPC effectively reduced endotoxin-induced lung inflammation.||||<0.05
92382787|NCT01754493|184668563|SUPERIORITY_OR_OTHER_LEGACY||Slope|-18.24|||<|0.05|TWO_SIDED|95.0|-23.44|-12.63|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in total MADRS symptom scores for MDD. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (wks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||-12.63|-23.44|<.05
92382788|NCT01754493|184668564|SUPERIORITY_OR_OTHER_LEGACY||Slope|-20.71|||<|0.05|TWO_SIDED|95.0|-27.44|-13.97|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in total GSRS symptom scores for IBS. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (wks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||-13.97|-27.44|<0.05
92382789|NCT01754493|184668565|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.59|||<|0.05|TWO_SIDED|95.0|-2.16|-1.03|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in CGI-MDD score. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||-1.03|-2.16|<0.05
92382790|NCT01754493|184668565|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.55|||<|0.05|TWO_SIDED|95.0|-1.99|-1.11|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in CGI-IBS score. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||-1.11|-1.99|<0.05
92382791|NCT01754493|184668566|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.03|||<|0.05|TWO_SIDED|95.0|-1.16|1.1|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in VAS score of overall pain. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||1.10|-1.16|<0.05
92382792|NCT01754493|184668566|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.47|||<|0.05|TWO_SIDED|95.0|-1.07|2.01|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample with all subjects dispensed medication (n=17). This repeated-measures mixed-effects regression analysis assessed the rate of change in VAS score of pain interfering with daily activities. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a 1st-order autocorrelation structure. Data from each time point (wks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis||2.01|-1.07|<0.05
92382793|NCT01754493|184668566|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.59|||<|0.05|TWO_SIDED|95.0|-2.28|1.1|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in VAS score of headaches. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||1.10|-2.28|<0.05
92382794|NCT01754493|184668566|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.35|||<|0.05|TWO_SIDED|95.0|-1.56|0.87|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in VAS score of back pain. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||.87|-1.56|<0.05
92382795|NCT01754493|184668566|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.48|||<|0.05|TWO_SIDED|95.0|-2.0|1.03|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in VAS score of shoulder pain. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||1.03|-2.00|<0.05
92382796|NCT01754493|184668567|SUPERIORITY_OR_OTHER_LEGACY||Slope|-4.38|||<|0.05|TWO_SIDED|95.0|-7.39|-1.36|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample with all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in PHQ-15 scores of somatization symptoms. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||-1.36|-7.39|<0.05
92382797|NCT01452919|184668609|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-1.73|STANDARD_ERROR_OF_MEAN|1.25||0.17||95.0||||Two-sided p-value.|Type 3 sums of squares|||||||0.170
92382798|NCT01452919|184668610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.8|STANDARD_ERROR_OF_MEAN|0.5||0.109||95.0||||Two-sided p-value. P-value is for Week 0.5.|Type 3 sums of squares|||||||0.109
92382799|NCT01452919|184668610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.4|STANDARD_ERROR_OF_MEAN|0.4||0.372||95.0||||Two-sided p-value. P-value is for Week 1.|Type 3 sums of squares|||||||0.372
92382800|NCT01452919|184668610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.555||95.0||||Two-sided p-value. P-value is for Week 1.5.|Type 3 sums of squares|||||||0.555
92382801|NCT01452919|184668610|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.1|STANDARD_ERROR_OF_MEAN|0.4||0.806||95.0||||Two-sided p-value. P-value is for Week 2.|Type 3 sums of squares|||||||0.806
92382802|NCT01452919|184668611|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.762||95.0||||Two-sided p-value.|Type 3 sums of squares|||||||0.762
92382803|NCT01452919|184668612|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.506||95.0||||Two-sided p-value.|Type 3 sums of squares|||||||0.506
92382804|NCT01452919|184668613|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.515||95.0||||Two-sided p-value.|Type 3 sums of squares|||||||0.515
92382805|NCT01452919|184668616|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.966||95.0||||One-sided p-value.|Type 3 sums of squares|||||||0.966
92382806|NCT01452919|184668617|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.92|STANDARD_ERROR_OF_MEAN|0.73||0.895||95.0||||One-sided p-value.|Type 3 sums of squares|||||||0.895
92415015|NCT02296138|184720166|SUPERIORITY||Ratio of events vs. Tiotropium 5 μg|0.89||||0.1265|TWO_SIDED|95.0|0.76|1.03|||Negative binomial model||Ratio of events Tiotropium (5 μg) + Olodaterol (5 μg) versus Tiotropium (5 μg) is provided.|Annualised rate of exacerbations leading to hospitalization was analysed using a negative binomial model including the fixed, categorical effect of treatment as well as the logarithm of the treatment exposure as an offset.||1.03|0.76|0.1265
92382807|NCT00151476|184668622|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|14.49||||||95.0|3.48|301.64|||||Kaplan-Meier Estimate of Time to Event (months).|"Time to FAP-related surgical events (months); twenty-fifth (25th) percentile presented due to limited number of subjects.~Index date based on most recent colon and or rectum adenomatous polyps evaluation, most recent duodenal adenomatous polyps evaluation, and most recent desmoids tumors evaluation for Matched Control, Not Matched Celecoxib, and All Celecoxib Treated, respectively.~Only 13 matched pairs identified: p-values not computed in analysis of time-to-event endpoints"||301.64|3.48|
92382808|NCT00151476|184668622|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|5.06||||||95.0|3.48|11.76|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||11.76|3.48|
92382809|NCT00151476|184668622|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|5.52||||||95.0|3.48|14.49|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||14.49|3.48|
92382810|NCT00151476|184668623|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|5.98||||||95.0|0.0|33.77|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||33.77|0.00|
92415016|NCT02296138|184720167|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.2773|TWO_SIDED|95.0|0.82|1.06|||Log Rank||Tiotropium (5 μg) + Olodaterol (5 μg) versus Tiotropium (5 μg)|A Cox's proportional hazard model was used to estimate the hazard ratio and the corresponding Confidence Interval. A log-rank test was used to obtain the p-value||1.06|0.82|0.2773
92415017|NCT02296138|184720168|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7357|TWO_SIDED|95.0|0.67|1.75|||Log Rank||Tiotropium (5 μg) + Olodaterol (5 μg) versus Tiotropium (5 μg)|A Cox's proportional hazard model was used to estimate the hazard ratio and the corresponding Confidence Interval. A log-rank test was used to obtain the p-value||1.75|0.67|0.7357
92415018|NCT00711516|184720169|SUPERIORITY_OR_OTHER||Median Difference (Net)|-241.8||||0.7382|TWO_SIDED|95.0|-2470.0|2102.3||The hierarchical testing procedure was employed to control the studywise error rate at 0.05.|Wilcoxon (Mann-Whitney)|The assumption of normality was violated (p-value ≤0.05), therefore the treatment comparison was made using a Wilcoxon rank-sum test.||Using the standardized difference of 1.10, 28 evaluable patients (14 per treatment group) were required to provide 80% power while controlling the 2-sided, Type 1 error rate at 0.05. With an estimated 25% attrition rate, a total of 38 patients (19 per group) were planned. First analyzed using ANCOVA,the residuals were used to test for normality using Shapiro-Wilk; normality was violated therefore treatment comparison used the Wilcoxon rank sum.||2102.3|-2470.0|0.7382
92382811|NCT00151476|184668623|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|19.81||||||95.0|0.0|33.77|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||33.77|0.00|
92415019|NCT00711516|184720170|SUPERIORITY_OR_OTHER||Median Difference (Net)|53.2||||0.1661|TWO_SIDED|95.0|-17.8|136.1|||Wilcoxon (Mann-Whitney)|||The statistical hypothesis for this key secondary efficacy variable was to be tested using the same model as specified for the primary objective efficacy variable (ANCOVA, ANOVA, and Wilcoxon as appropriate). All statistical tests were 2 tailed at the 0.05 level of significance.||136.1|-17.8|0.1661
92382812|NCT00151476|184668624|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|137.34||||||95.0|104.73|183.48|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile. Index date based on most recent colon and or rectum adenomatous polyps evaluation, most recent duodenal adenomatous polyps evaluation, and most recent desmoids tumors evaluation for Matched Control, Not Matched Celecoxib, and All Celecoxib Treated, respectively.||183.48|104.73|
92415020|NCT00711516|184720171|SUPERIORITY_OR_OTHER||Median Difference (Net)|78.9||||0.5774|TWO_SIDED|95.0|-157.8|311.3|||Wilcoxon (Mann-Whitney)|||||311.3|-157.8|0.5774
92415021|NCT00711516|184720172|SUPERIORITY_OR_OTHER||Median Difference (Net)|90.1||||0.861|TWO_SIDED|95.0|-806.7|707.0|||Wilcoxon (Mann-Whitney)|||||707.0|-806.7|0.8610
92415022|NCT00711516|184720173|SUPERIORITY_OR_OTHER||Median Difference (Net)|252.8||||0.6907|TWO_SIDED|95.0|-1066.5|1523.8|||Wilcoxon (Mann-Whitney)|||||1523.8|-1066.5|0.6907
92415023|NCT00711516|184720174|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.2456|TWO_SIDED|95.0|-8.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-8.0|0.2456
92415024|NCT00711516|184720175|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.7115|TWO_SIDED|95.0|-8.0|9.0|||Wilcoxon (Mann-Whitney)|||||9.0|-8.0|0.7115
92415025|NCT00711516|184720176|SUPERIORITY_OR_OTHER||Median Difference (Net)|4.0||||0.6103|TWO_SIDED|95.0|-13.0|19.0|||Wilcoxon (Mann-Whitney)|||||19.0|-13.0|0.6103
92415026|NCT00711516|184720177|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.9619|TWO_SIDED|95.0|-18.0|17.0|||Wilcoxon (Mann-Whitney)|||||17.0|-18.0|0.9619
92415027|NCT00711516|184720178|SUPERIORITY_OR_OTHER||Median Difference (Net)|-335.5||||0.4544|TWO_SIDED|95.0|-1270.7|723.3|||Wilcoxon (Mann-Whitney)|||||723.3|-1270.7|0.4544
92415028|NCT00711516|184720179|SUPERIORITY_OR_OTHER||Median Difference (Net)|6410.3||||0.0193|TWO_SIDED|95.0|1064.7|12087.3|||Wilcoxon (Mann-Whitney)|||||12087.3|1064.7|0.0193
92415029|NCT00711516|184720180|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.1704|TWO_SIDED|95.0|-0.1|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.1|0.1704
92382813|NCT00151476|184668624|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|169.94||||||95.0|104.73|183.48|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||183.48|104.73|
92382814|NCT00151476|184668625|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|11.28||||||95.0|9.07|38.24|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||38.24|9.07|
92382815|NCT00151476|184668626|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|20.63||||||95.0|8.05|48.03|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||48.03|8.05|
92415030|NCT00711516|184720181|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.2||||0.0609|TWO_SIDED|95.0|-0.3|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.3|0.0609
92446324|NCT02942017|184779616|SUPERIORITY||LS Mean Difference|-1.95|STANDARD_ERROR_OF_MEAN|1.408||0.1691|TWO_SIDED|95.0|-4.76|0.85|||MMRM|||Change at Day 21: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.85|-4.76|0.1691
92233081|NCT02424539|184368751|OTHER||Odds Ratio (OR)|0.24|||<|0.001|TWO_SIDED|95.0|0.14|0.39|||Regression, Logistic||Odds ratio for FF 55 µg QD versus placebo has been presented using a logistic regression model with Wald's test with treatment, gender, age and type of Allergic Rhinitis as factors.|||0.39|0.14|<0.001
92233082|NCT02424539|184368751|OTHER||Odds Ratio (OR)|0.2|||<|0.001|TWO_SIDED|95.0|0.12|0.33|||Regression, Logistic||Odds ratio for FF 110 µg QD versus placebo has been presented using a logistic regression model with Wald's test with treatment, gender, age and type of Allergic Rhinitis as factors.|||0.33|0.12|<0.001
92382816|NCT00151476|184668626|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|40.21||||||95.0|8.31|105.68|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||105.68|8.31|
92382817|NCT00151476|184668626|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|19.81||||||95.0|16.03|56.34|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||56.34|16.03|
92382818|NCT00151476|184668626|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|20.22||||||95.0|12.35|40.31|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||40.31|12.35|
92382819|NCT00151476|184668628|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|21.22||||||95.0|4.07|64.16|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related events (months); 25th percentile.||64.16|4.07|
92382820|NCT00151476|184668628|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|19.81||||||95.0|3.68|64.16|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related events (months); 25th percentile.||64.16|3.68|
92382821|NCT03446456|184668635|EQUIVALENCE|An equivalence test was conducted to compare if the vasopressin group differed from the saline group in changes of BOLD signal in the brain.|Mean Difference (Final Values)|0.00264||||0.982|TWO_SIDED|||||Bonferroni corrected|t-test, 2 sided|||Percentage of BOLD signal change was calculated as the BOLD signal in the right supplementary motor area (SMA, a typical brain area responding to pain stimulation), divided by the BOLD signal of the whole-brain average during the 24 trials of 20-second painful stimulations. The percentage of BOLD signal changes in SMA during the 20-second painful stimulations were compared between the Saline group and the Vasopressin group using an equivalence test.||||0.982
92382822|NCT03446456|184668636|EQUIVALENCE|An equivalence test was conducted to compare if the vasopressin group differed from the saline group in heating temperature that was used for the testing phase.|Mean Difference (Final Values)|-0.282||||0.269|TWO_SIDED|||||Bonferroni corrected|ANCOVA|The drug group (Vasopressin vs. Saline) was set as a between-subject factor. Age and race were treated as covariates.||||||0.269
92382823|NCT03446456|184668637|EQUIVALENCE|An equivalence test was conducted to compare if the vasopressin group differed from the saline group in implicit racial biases.|Mean Difference (Final Values)|-0.04||||0.378|TWO_SIDED||||||ANCOVA|Drug group (Vasopressin vs. Saline) was set as between-subject factor. Age and race were treated as covariates.||"Response latencies were recorded to calculate the IAT difference score (D). A difference score (D) was calculated based on the following steps: 1) Compute the standard deviation (SD) of response latencies from overall trials; 2) M1 is the mean of the response latencies in the condition where White people and good share the same response key. M2 is the mean of the latencies in the condition where African-American/Asian people and good share the same response key; 3) D = (M2-M1)/SD."||||0.378
92382824|NCT03446456|184668638|EQUIVALENCE|An equivalence test was conducted to compare if the vasopressin group differed from the saline group in self-reported pain intensity ratings.|Mean Difference (Final Values)|-2.35||||0.014|TWO_SIDED|||||Bonferroni corrected|Mixed Models Analysis|Age, race, and heating temperature used during the testing phase were treated as covariates.||||||0.014
92382825|NCT04816721|184668668|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.96||||0.1249|TWO_SIDED|95.0|-2.21|0.28|||Mixed-effect Model of Repeated Measures|||Day 3: EDP-938 Versus Placebo||0.28|-2.21|0.1249
92382826|NCT04816721|184668668|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-1.41||||0.058|TWO_SIDED|95.0|-2.88|0.05|||Mixed-effect Model of Repeated Measures|||Day 5: EDP-938 Versus Placebo||0.05|-2.88|0.0580
92415031|NCT00711516|184720182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9||||0.0499|TWO_SIDED|95.0|-5.8|0.0||Nominal P-value for treatment comparison is from an analysis of covariance (ANCOVA) with treatment and center as factors and the baseline value as covariate.|ANCOVA|||Hierarchical testing procedure was used to control the studywise error rate at 0.05. If treatment was statistically significant on the primary variable, the key secondary variable would be claimed as significant if p-value was \<= 0.05. If primary and key secondary variables were significant subsequent secondary variables following the order presented here would be claimed as significant if their p-values were \<= 0.05. If any were \>0.05 subsequent p-values would be reported as nominal p-values.||-0.0|-5.8|0.0499
92233083|NCT02424539|184368752|OTHER||Mean Difference (Final Values)|-2.15|||<|0.001|TWO_SIDED|95.0|-2.84|-1.46|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-1.46|-2.84|<0.001
92233084|NCT02424539|184368752|OTHER||Mean Difference (Final Values)|-1.98|||<|0.001|TWO_SIDED|95.0|-2.66|-1.29|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-1.29|-2.66|<0.001
92233085|NCT02424539|184368753|OTHER||Mean Difference (Final Values)|-0.1||||0.503|TWO_SIDED|95.0|-0.38|0.18|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||0.18|-0.38|0.503
92382827|NCT04816721|184668668|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.43||||0.5877|TWO_SIDED|95.0|-2.02|1.16|||Mixed-effect Model of Repeated Measures|||Day 9: EDP-938 Versus Placebo||1.16|-2.02|0.5877
92233086|NCT02424539|184368753|OTHER||Mean Difference (Final Values)|-0.25||||0.078|TWO_SIDED|95.0|-0.53|0.03|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||0.03|-0.53|0.078
92233087|NCT02424539|184368754|OTHER||Mean Difference (Final Values)|0.51||||0.048|TWO_SIDED|95.0|0.01|1.02|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||1.02|0.01|0.048
92233088|NCT02424539|184368754|OTHER||Mean Difference (Final Values)|0.66||||0.011|TWO_SIDED|95.0|0.16|1.17|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||1.17|0.16|0.011
92382828|NCT04816721|184668668|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|0.84||||0.2932|TWO_SIDED|95.0|-0.76|2.43|||Mixed-effect Model of Repeated Measures|||Day 14: EDP-938 Versus Placebo||2.43|-0.76|0.2932
92382829|NCT04816721|184668669|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.17||||0.6574|TWO_SIDED|95.0|-0.93|0.59|||Mixed-effect Model of Repeated Measures|||Day 3: EDP-938 Versus Placebo||0.59|-0.93|0.6574
92382830|NCT04816721|184668669|SUPERIORITY||Least Squares Mean Difference|-0.33||||0.4728|TWO_SIDED|95.0|-1.23|0.58|||Mixed-effect Model of Repeated Measures|||Day 5: EDP-938 Versus Placebo||0.58|-1.23|0.4728
92382831|NCT04816721|184668669|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.7||||0.2058|TWO_SIDED|95.0|-1.79|0.39|||Mixed-effect Model of Repeated Measures|||Day 9: EDP-938 Versus Placebo||0.39|-1.79|0.2058
92382832|NCT04816721|184668669|OTHER|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|0.33||||0.5391|TWO_SIDED|95.0|-0.74|1.41|||Mixed-effect Model of Repeated Measures|||Day 14: EDP-938 Versus Placebo||1.41|-0.74|0.5391
92382833|NCT04816721|184668671|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.17||||0.6574|TWO_SIDED|95.0|-0.93|0.59|||Mixed-effect Model of Repeated Measures|||Day 1 through Day 3: EDP-938 Versus Placebo||0.59|-0.93|0.6574
92382834|NCT04816721|184668671|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.67||||0.5359|TWO_SIDED|95.0|-2.81|1.47|||Mixed-effect Model of Repeated Measures|||Day 1 through Day 5: EDP-938 Versus Placebo||1.47|-2.81|0.5359
92415032|NCT00711516|184720183|SUPERIORITY_OR_OTHER|||||||0.7343||95.0|||||Fisher Exact|||||||0.7343
92415033|NCT00711516|184720184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.2||||0.1246|TWO_SIDED|95.0|-1.8|14.3||P-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment and center as factors and the baseline value as a covariate.|ANCOVA|||||14.3|-1.8|0.1246
92415034|NCT00711516|184720185|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.026||||0.7382|TWO_SIDED|95.0|-21.684|19.98|||Wilcoxon (Mann-Whitney)|||||19.980|-21.684|0.7382
92415035|NCT00711516|184720186|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.086||||1|TWO_SIDED|95.0|-19.195|25.043|||Wilcoxon (Mann-Whitney)|||||25.043|-19.195|1.000
92415036|NCT00711516|184720187|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.282||||0.8861|TWO_SIDED|95.0|-11.46|14.77|||Wilcoxon (Mann-Whitney)|||||14.770|-11.460|0.8861
92415037|NCT00711516|184720188|SUPERIORITY_OR_OTHER||Median Difference (Net)|11.825||||0.4738|TWO_SIDED|95.0|-12.601|37.987|||Wilcoxon (Mann-Whitney)|||||37.987|-12.601|0.4738
92415038|NCT00711516|184720189|SUPERIORITY_OR_OTHER|||||||0.0573||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||Pearson's correlation coefficient was used to assess the relationship between fMRI variable and performance on the 2-back working memory test||||0.0573
92415039|NCT00711516|184720189|SUPERIORITY_OR_OTHER|||||||0.0754||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||.0754
92415040|NCT00711516|184720190|SUPERIORITY_OR_OTHER|||||||0.2727||95.0|||||Pearson's Correlation Coefficient|||||||0.2727
92415041|NCT00711516|184720190|SUPERIORITY_OR_OTHER|||||||0.5671||95.0|||||Pearson's Correlation Coefficient|||||||.5671
92415042|NCT00711516|184720191|SUPERIORITY_OR_OTHER|||||||0.1169||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.1169
92415043|NCT00711516|184720191|SUPERIORITY_OR_OTHER|||||||0.1634||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.1634
92415044|NCT00711516|184720192|SUPERIORITY_OR_OTHER|||||||0.0692||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's Z-transformation.||||||0.0692
92415045|NCT00711516|184720192|SUPERIORITY_OR_OTHER|||||||0.8876||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||.8876
92382835|NCT04816721|184668671|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-2.73||||0.3029|TWO_SIDED|95.0|-7.95|2.5|||Mixed-effect Model of Repeated Measures|||Day 1 through Day 9: EDP-938 Versus Placebo||2.50|-7.95|0.3029
92382836|NCT04816721|184668671|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-3.64||||0.3871|TWO_SIDED|95.0|-11.98|4.69|||Mixed-effect Model of Repeated Measures|||Day 1 through Day 14: EDP-938 Versus Placebo||4.69|-11.98|0.3871
92382837|NCT04856904|184668717|SUPERIORITY||Bilateral difference|-3.2|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-4.4|-2.0|||Student's t-test for paired samples|||||-2|-4.4|< 0.0001
92382838|NCT04856904|184668718|SUPERIORITY||Bilateral difference|0.0|STANDARD_ERROR_OF_MEAN|0.14|=|0.9476|TWO_SIDED|95.0|-0.3|0.3|||Student's t-test for paired samples|||Week 1: Trifarotene 50 mcg/g, vehicle cream||0.3|-0.3|= 0.9476
92382839|NCT04856904|184668718|SUPERIORITY||Bilateral difference|-0.6|STANDARD_ERROR_OF_MEAN|0.25|=|0.0248|TWO_SIDED|95.0|-1.1|-0.1|||Student's t-test for paired samples|||Week 2: Trifarotene 50 mcg/g, vehicle cream||-0.1|-1.1|= 0.0248
92382840|NCT04856904|184668718|SUPERIORITY||Bilateral difference|-0.8|STANDARD_ERROR_OF_MEAN|0.29|=|0.0072|TWO_SIDED|95.0|-1.4|-0.2|||Student's t-test for paired samples|||Week 4: Trifarotene 50 mcg/g, vehicle cream||-0.2|-1.4|= 0.0072
92382841|NCT04856904|184668718|SUPERIORITY||Bilateral difference|-1.4|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.1|-0.7|||Student's t-test for paired samples|||Week 8: Trifarotene 50 mcg/g, vehicle cream||-0.7|-2.1|< 0.0001
92382842|NCT04856904|184668718|SUPERIORITY||Bilateral difference|-2.1|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-2.9|-1.3|||Student's t-test for paired samples|||Week 12: Trifarotene 50 mcg/g, vehicle cream||-1.3|-2.9|< 0.0001
92382843|NCT04856904|184668718|SUPERIORITY||Bilateral difference|-2.7|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|-3.8|-1.6|||Student's t-test for paired samples|||Week 16: Trifarotene 50 mcg/g, vehicle cream||-1.6|-3.8|< 0.0001
92382844|NCT04856904|184668718|SUPERIORITY||Bilateral difference|-2.5|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-3.5|-1.5|||Student's t-test for paired samples|||Week 20: Trifarotene 50 mcg/g, vehicle cream||-1.5|-3.5|< 0.0001
92382845|NCT01641822|184668722|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.743||||0.25|TWO_SIDED|95.0|0.446|1.238|||Negative binomial regression|||Ratio between rates||1.238|0.446|0.25
92382846|NCT01641822|184668723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.33||||0.16|TWO_SIDED|95.0|-0.55|3.2||The p-value is from an MMRM analysis. The model includes terms for baseline value, previous exacerbations (1, 2, ≥ 3), treatment, visit (categorical), and treatment by visit interaction.|Mixed Models Analysis|||Difference in change in FEV1 % predicted||3.2|-0.55|0.16
92382847|NCT01641822|184668724|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Fisher Exact|||Comparison of percentages||||0.67
92382848|NCT01641822|184668725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.71|TWO_SIDED|95.0|0.5|1.59|||Log Rank|||Comparison of time to exacerbation||1.59|0.50|0.71
92382849|NCT01641822|184668726|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.642||||0.14|TWO_SIDED|95.0|0.355|1.164|||Negative binomial regression|||Comparison of hospitalization rate||1.164|0.355|0.14
92382850|NCT01641822|184668727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.06||||0.21|TWO_SIDED|95.0|-1.71|7.82||The p-value is from an MMRM analysis. The model includes terms for baseline value, previous exacerbations (1, 2, ≥ 3), treatment, visit (categorical), and treatment by visit interaction.|Mixed Models Analysis|||Difference in change in CFQ-R RSS||7.82|-1.71|0.21
92382851|NCT03847909|184668732|SUPERIORITY|P value is from an ANCOVA model with treatment group as the main effect, age category, baseline eGFR category, baseline Uox value as covariates for adjustment.|Difference of Least Mean Square|5171.7|STANDARD_ERROR_OF_MEAN|1144.07|<|0.0001|TWO_SIDED|95.0|2929.3|7414.2|||ANCOVA|||||7414.2|2929.3|<0.0001
92382852|NCT00869401|184668769|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.222|TWO_SIDED|95.0|0.54|1.16||Using Logrank Test|Log Rank|||||1.16|0.54|.222
92382853|NCT00869401|184668771|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.806||||0.183|TWO_SIDED|95.0|0.59|1.11|||Log Rank|||||1.11|0.59|0.183
92382854|NCT00082381|184668778|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified non-inferiority margin was 0.4% (i.e., noninferiority is demonstrated if the upper limit of a two-sided 95% confidence interval for the difference in change in HbA1c between exenatide and insulin glargine is less than 0.4%.)|Mean Difference (Final Values)|0.05||||0.4602||95.0|-0.09|0.2|||ANCOVA|||||0.20|-0.09|0.4602
92382855|NCT00082381|184668779|SUPERIORITY_OR_OTHER|||||||0.7839||95.0|||||Fisher Exact|||||||0.7839
92382856|NCT00082381|184668780|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92382857|NCT00082381|184668781|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92382858|NCT00082381|184668783|SUPERIORITY_OR_OTHER|||||||0.3002||95.0|||||Fisher Exact|||||||0.3002
92382859|NCT00082381|184668784|SUPERIORITY_OR_OTHER|||||||0.3385||95.0|||||ANCOVA|||||||0.3385
92382860|NCT01786252|184668805|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|Sidak-multiple comparison test was performed to detect significant differences between groups.||Statistical analysis to compare differences between endometrial glandular and stromal dating within the vehicle group.||||<0.05
92382861|NCT01786252|184668805|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|Sidak-multiple comparison test was performed to detect significant differences between groups.||Statistical analysis to compare differences between endometrial glandular and stromal dating within the hCG group.||||>0.05
92382862|NCT01786252|184668805|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|Sidak-multiple comparison test was performed to detect significant differences between groups.||Statistical analysis to compare stromal staging between hCG and IVF media group.||||<0.01
92382863|NCT01786252|184668805|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|Sidak-multiple comparison test was performed to detect significant differences between groups.||Statistical analysis to compare differences between endometrial glandular dating between hCG and IVF media groups.||||>0.05
92415046|NCT00711516|184720193|SUPERIORITY_OR_OTHER|||||||0.603||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's Z-transformation.||||||0.6030
92233089|NCT02424539|184368755|OTHER||Mean Difference (Final Values)|-1.36|||<|0.001|TWO_SIDED|95.0|-1.83|-0.9|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-0.90|-1.83|<0.001
92233090|NCT02424539|184368755|OTHER||Mean Difference (Final Values)|-1.46|||<|0.001|TWO_SIDED|95.0|-1.92|-0.99|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-0.99|-1.92|<0.001
92233091|NCT02424539|184368756|OTHER||Odds Ratio (OR)|0.2|||<|0.001|TWO_SIDED|95.0|0.12|0.34|||Regression, Logistic||Odds ratio for FF 55 µg QD versus placebo has been presented using a logistic regression model with Wald's test with treatment, gender, age and type of Allergic Rhinitis as factors.|||0.34|0.12|<0.001
92382864|NCT01786252|184668806|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92382865|NCT01786252|184668807|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92382866|NCT01786252|184668808|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92382867|NCT03322423|184668813|SUPERIORITY|Statistical superiority was concluded if the upper limit of the confidence intervals of the Test lens was below +0.01 logMAR for distance.|Least-Square Mean Estimate|-0.058|STANDARD_ERROR_OF_MEAN|0.0114|||TWO_SIDED|95.0|-0.08|-0.035|||Linear mixed model analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||-0.035|-0.080|
92382868|NCT03322423|184668813|SUPERIORITY|Statistical superiority was concluded if the upper limit of the confidence intervals of the Test lens was below +0.01 logMAR for distance.|Least-Square Mean Estimate|-0.076|STANDARD_ERROR_OF_MEAN|0.0114|||TWO_SIDED|95.0|-0.099|-0.054|||Linear mixed model analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||-0.054|-0.099|
92382869|NCT03322423|184668814|SUPERIORITY|Statistical superiority was concluded if the upper limit of the confidence intervals of the Test lens was below +0.17 logMAR for near.|LS Mean Estimate|0.141|STANDARD_ERROR_OF_MEAN|0.0147|||TWO_SIDED|95.0|0.112|0.17|||Linear mixed model analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||0.170|0.112|
92382870|NCT03322423|184668814|SUPERIORITY|Statistical superiority was concluded if the upper limit of the confidence intervals of the Test lens was below +0.17 logMAR for near.|LS Mean Estimate|0.141|STANDARD_ERROR_OF_MEAN|0.0147|||TWO_SIDED|95.0|0.112|0.17|||Linear mixed model analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||0.170|0.112|
92382871|NCT03322423|184668815|SUPERIORITY|Statistical superiority was concluded if the lower limit of the confidence intervals of the Test lens was above 32 CLUE points.|LS Mean Estimate|45.5|STANDARD_ERROR_OF_MEAN|2.19|||TWO_SIDED|95.0|41.2|49.9|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||49.9|41.2|
92382872|NCT03322423|184668815|SUPERIORITY|Statistical superiority was concluded if the lower limit of the confidence intervals of the Test lens was above 32 CLUE points.|LS Mean Estimate|46.4|STANDARD_ERROR_OF_MEAN|2.21|||TWO_SIDED|95.0|42.1|50.8|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||50.8|42.1|
92382873|NCT02453555|184668827|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Net)|-1.14|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.36|-0.91|||Mixed Models Analysis||Adjusted Mean Difference was calculated as: (adjusted mean change from baseline in HbA1c at Week 24 in Empagliflozin 10 mg/linagliptin 5 mg group) - (adjusted mean change from baseline in HbA1c at Week 24 in Linagliptin 5 mg + Placebo 10 mg group)|A restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach was used with baseline HbA1c as linear covariate and baseline estimated glomerular filtration rate (eGFR) (Modification of Diet in Renal Disease \[MDRD\] formula), prior use of antidiabetic drug, treatment, visit, visit by Treatment interaction as fixed effect(s). The covariance used to fit the model was unstructured.||-0.91|-1.36|<0.0001
92382874|NCT02453555|184668829|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Net)|-1.22|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.45|-0.99|||Mixed Models Analysis||Adjusted Mean Difference was calculated as: (adjusted mean change from baseline in HbA1c at Week 52 in All Empagliflozin group) - (adjusted mean change from baseline in HbA1c at Week 52 in All Placebo group)|A restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach was used with baseline HbA1c as linear covariate and baseline estimated glomerular filtration rate (eGFR) (Modification of Diet in Renal Disease \[MDRD\] formula), prior use of antidiabetic drug, treatment, visit, visit by Treatment interaction as fixed effect(s). The covariance used to fit the model was unstructured.||-0.99|-1.45|<0.0001
92382875|NCT02453555|184668830|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Net)|-1.21|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.45|-0.96|||Mixed Models Analysis||Adjusted Mean Difference was calculated as: (adjusted mean change from baseline in HbA1c at Week 52 in Empagliflozin 25 mg/linagliptin 5 mg group) - (adjusted mean change from baseline in HbA1c at Week 52 in Linagliptin 5 mg + Placebo 25 mg group)|A restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach was used with baseline HbA1c as linear covariate and baseline estimated glomerular filtration rate (eGFR) (Modification of Diet in Renal Disease \[MDRD\] formula), prior use of antidiabetic drug, treatment, visit, visit by Treatment interaction as fixed effect(s). The covariance used to fit the model was unstructured.||-0.96|-1.45|<0.0001
92382876|NCT02453555|184668831|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Net)|-1.09|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.34|-0.84|||Mixed Models Analysis||Adjusted Mean Difference was calculated as: (adjusted mean change from baseline in HbA1c at Week 52 in Empagliflozin 25 mg/linagliptin 5 mg group) - (adjusted mean change from baseline in HbA1c at Week 52 in All Placebo group)|A restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach was used with baseline HbA1c as linear covariate and baseline estimated glomerular filtration rate (eGFR) (Modification of Diet in Renal Disease \[MDRD\] formula), prior use of antidiabetic drug, treatment, visit, visit by Treatment interaction as fixed effect(s). The covariance used to fit the model was unstructured.||-0.84|-1.34|<0.0001
92382877|NCT03045341|184668832|SUPERIORITY|Analyses used all available data.||||||0.0001|||||||Mixed Models Analysis|Analyses to compare treatments were all intent-to-treat. Analyses were performed for all randomized patients who attended the first treatment session.||BWL versus no BWL||||0.0001
92382878|NCT03045341|184668832|SUPERIORITY|Analyses used all available data.||||||0.58|||||||Mixed Models Analysis|Analyses to compare treatments were all intent-to-treat. Analyses were performed for all randomized patients who attended the first treatment session.||NB versus placebo||||0.58
92233092|NCT02424539|184368756|OTHER||Odds Ratio (OR)|0.17|||<|0.001|TWO_SIDED|95.0|0.1|0.29|||Regression, Logistic||Odds ratio for FF 110 µg QD versus placebo has been presented using a logistic regression model with Wald's test with treatment, gender, age and type of Allergic Rhinitis as factors.|||0.29|0.10|<0.001
92233093|NCT02424539|184368757|OTHER||Mean Difference (Final Values)|-2.48|||<|0.001|TWO_SIDED|95.0|-3.23|-1.73|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-1.73|-3.23|<0.001
92233094|NCT02424539|184368757|OTHER||Mean Difference (Final Values)|-2.27|||<|0.001|TWO_SIDED|95.0|-3.03|-1.52|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-1.52|-3.03|<0.001
92233095|NCT02424539|184368758|OTHER||Mean Difference (Final Values)|-0.11||||0.442|TWO_SIDED|95.0|-0.38|0.17|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||0.17|-0.38|0.442
92233096|NCT02424539|184368758|OTHER||Mean Difference (Final Values)|-0.3||||0.035|TWO_SIDED|95.0|-0.57|-0.02|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-0.02|-0.57|0.035
92280481|NCT00601484|184463636|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|3.97|||||TWO_SIDED|90.0|-6.82|13.02||||||Week 16: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||13.02|-6.82|
92382879|NCT03045341|184668833|SUPERIORITY|Analyses used all available data.||||||0.0001|||||||Mixed Models Analysis|Analyses to compare treatments were all intent-to-treat. Analyses were performed for all randomized patients who attended the first treatment session.||BWL versus no BWL||||0.0001
92382880|NCT03045341|184668833|SUPERIORITY|Analyses used all available data.||||||0.63|||||||Mixed Models Analysis|Analyses to compare treatments were all intent-to-treat. Analyses were performed for all randomized patients who attended the first treatment session.||NB versus placebo||||0.63
92382881|NCT03045341|184668834|SUPERIORITY|||||||0.004|||||||Chi-squared|||Analyses used all available data.||||.004
92382882|NCT03178669|184668840|SUPERIORITY||Odds Ratio (OR)|2.0||||0.1806|TWO_SIDED|80.0|0.75|5.47||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||5.47|0.75|0.1806
92382883|NCT03178669|184668840|SUPERIORITY||Odds Ratio (OR)|0.7||||0.6649|TWO_SIDED|80.0|0.2|2.24||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.24|0.20|0.6649
92382884|NCT03178669|184668840|SUPERIORITY||Odds Ratio (OR)|3.8||||0.0247|TWO_SIDED|80.0|1.53|9.47||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||9.47|1.53|0.0247
92382885|NCT03178669|184668840|SUPERIORITY||Odds Ratio (OR)|1.4||||0.3279|TWO_SIDED|80.0|0.52|3.88||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||3.88|0.52|0.3279
92382886|NCT03178669|184668841|SUPERIORITY||Odds Ratio (OR)|1.9||||0.2115|TWO_SIDED|80.0|0.69|4.99||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||4.99|0.69|0.2115
92382887|NCT03178669|184668841|SUPERIORITY||Odds Ratio (OR)|0.3||||0.8498|TWO_SIDED|80.0|0.06|1.34||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.34|0.06|0.8498
92382888|NCT03178669|184668841|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0977|TWO_SIDED|80.0|1.01|6.62||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||6.62|1.01|0.0977
92382889|NCT03178669|184668841|SUPERIORITY||Odds Ratio (OR)|1.0||||0.522|TWO_SIDED|80.0|0.32|2.84||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.84|0.32|0.5220
92382890|NCT03178669|184668842|SUPERIORITY||Odds Ratio (OR)|1.5||||0.2335|TWO_SIDED|80.0|0.74|2.94||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.94|0.74|0.2335
92415047|NCT00711516|184720193|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||<.0001
92233097|NCT02424539|184368759|OTHER||Mean Difference (Final Values)|1.88||||0.004|TWO_SIDED|95.0|0.6|3.16|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||3.16|0.60|0.004
92233098|NCT02424539|184368759|OTHER||Mean Difference (Final Values)|2.67|||<|0.001|TWO_SIDED|95.0|1.38|3.95|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||3.95|1.38|<0.001
92382891|NCT03178669|184668842|SUPERIORITY||Odds Ratio (OR)|1.4||||0.2511|TWO_SIDED|80.0|0.73|2.69||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.69|0.73|0.2511
92415048|NCT00711516|184720194|SUPERIORITY_OR_OTHER|||||||0.917||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's Z-transformation.||||||0.9170
92382892|NCT03178669|184668842|SUPERIORITY||Odds Ratio (OR)|1.8||||0.1162|TWO_SIDED|80.0|0.96|3.52||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||3.52|0.96|0.1162
92415049|NCT00711516|184720194|SUPERIORITY_OR_OTHER|||||||0.9642||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||.9642
92415050|NCT00711516|184720195|SUPERIORITY_OR_OTHER|||||||0.7813||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.7813
92233099|NCT04178590|184368769|SUPERIORITY|||||||0.429||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.429
92382893|NCT03178669|184668842|SUPERIORITY||Odds Ratio (OR)|1.2||||0.3467|TWO_SIDED|80.0|0.63|2.4||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.40|0.63|0.3467
92382894|NCT03178669|184668843|SUPERIORITY||Odds Ratio (OR)|0.9||||0.6326|TWO_SIDED|80.0|0.5|1.5||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.50|0.50|0.6326
92382895|NCT03178669|184668843|SUPERIORITY||Odds Ratio (OR)|0.8||||0.7127|TWO_SIDED|80.0|0.45|1.37||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.37|0.45|0.7127
92382896|NCT03178669|184668843|SUPERIORITY||Odds Ratio (OR)|1.3||||0.2658|TWO_SIDED|80.0|0.75|2.34||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.34|0.75|0.2658
92382897|NCT03178669|184668843|SUPERIORITY||Odds Ratio (OR)|0.6||||0.8301|TWO_SIDED|80.0|0.36|1.16||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.16|0.36|0.8301
92382898|NCT03178669|184668844|SUPERIORITY||Odds Ratio (OR)|0.6||||0.7994|TWO_SIDED|80.0|0.32|1.27||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.27|0.32|0.7994
92382899|NCT03178669|184668844|SUPERIORITY||Odds Ratio (OR)|0.3||||0.9665|TWO_SIDED|80.0|0.16|0.72||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||0.72|0.16|0.9665
92382900|NCT03178669|184668844|SUPERIORITY||Odds Ratio (OR)|1.5||||0.2049|TWO_SIDED|80.0|0.8|2.82||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.82|0.80|0.2049
92382901|NCT03178669|184668844|SUPERIORITY||Odds Ratio (OR)|0.8||||0.6504|TWO_SIDED|80.0|0.42|1.6||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.60|0.42|0.6504
92382902|NCT03178669|184668845|SUPERIORITY||Odds Ratio (OR)|0.4||||0.9207|TWO_SIDED|80.0|0.18|0.93||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||0.93|0.18|0.9207
92382903|NCT03178669|184668845|SUPERIORITY||Odds Ratio (OR)|0.4||||0.9228|TWO_SIDED|80.0|0.19|0.92||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||0.92|0.19|0.9228
92382904|NCT03178669|184668845|SUPERIORITY||Odds Ratio (OR)|0.8||||0.6636|TWO_SIDED|80.0|0.39|1.61||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.61|0.39|0.6636
92382905|NCT03178669|184668845|SUPERIORITY||Odds Ratio (OR)|0.7||||0.7449|TWO_SIDED|80.0|0.34|1.41||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.41|0.34|0.7449
92382906|NCT02914561|184668846|SUPERIORITY||Stratified Percentage Difference|12.7||||0.0017|TWO_SIDED|95.0|4.7|20.7|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||20.7|4.7|0.0017
92415051|NCT00711516|184720195|SUPERIORITY_OR_OTHER|||||||0.156||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.1560
92233100|NCT04178590|184368770|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233101|NCT04178590|184368771|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233102|NCT04178590|184368772|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233103|NCT04178590|184368773|SUPERIORITY|||||||0.575||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.575
92233104|NCT04178590|184368774|SUPERIORITY|||||||0.575||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.575
92382907|NCT02914561|184668846|SUPERIORITY||Stratified Percentage Difference|5.2||||0.173|TWO_SIDED|95.0|-2.4|12.7|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||12.7|-2.4|0.1730
92382908|NCT02914561|184668846|SUPERIORITY||Stratified Percentage Difference|12.0||||0.0023|TWO_SIDED|95.0|4.1|19.9|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||19.9|4.1|0.0023
92382909|NCT02914561|184668846|SUPERIORITY||Stratified Percentage Difference|1.8||||0.6038|TWO_SIDED|95.0|-5.2|8.7|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||8.7|-5.2|0.6038
92382910|NCT02914561|184668847|SUPERIORITY||Stratified Percentage Difference|5.5||||0.1365|TWO_SIDED|95.0|-2.0|12.9|||Cochran-Mantel-Haenszel|CMH test stratified by use of corticosteroids (Yes/No), immunomodulators (Yes/No), and prior exposure to biologic agents (0, \>=1) at Day 1.||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||12.9|-2.0|0.1365
92382911|NCT02914561|184668847|SUPERIORITY||Stratified Percentage Difference|2.4||||0.5103|TWO_SIDED|95.0|-4.8|9.5|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||9.5|-4.8|0.5103
92415052|NCT00711516|184720196|SUPERIORITY_OR_OTHER|||||||0.901||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.9010
92233105|NCT04178590|184368775|SUPERIORITY|||||||0.249||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.249
92233106|NCT04178590|184368776|SUPERIORITY|||||||0.871||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.871
92233107|NCT04178590|184368777|SUPERIORITY|||||||0.773||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.773
92233108|NCT04178590|184368778|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233109|NCT04178590|184368779|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|p\<0.05||||||0.000
92233110|NCT04178590|184368780|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233111|NCT04178590|184368781|SUPERIORITY|||||||0.063||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.063
92233112|NCT04178590|184368782|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233113|NCT04178590|184368783|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233114|NCT04178590|184368784|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92280482|NCT00601484|184463637|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|1.01|||TWO_SIDED|90.0|-2.414|0.983||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.983|-2.414|
92382912|NCT02914561|184668847|SUPERIORITY||Stratified Percentage Difference|0.1||||0.9797|TWO_SIDED|95.0|-6.5|6.6|||Cochran-Mantel-Haenszel|CMH test stratified by use of corticosteroids (Yes/No), immunomodulators (Yes/No), and prior exposure to biologic agents (\<=1, \>1) at Day 1.||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||6.6|-6.5|0.9797
92382913|NCT02914561|184668847|SUPERIORITY||Stratified Percentage Difference|2.4||||0.4264|TWO_SIDED|95.0|-3.9|8.8|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||8.8|-3.9|0.4264
92382914|NCT02914561|184668848|SUPERIORITY||Stratified Percentage Difference|13.7||||0.0839|TWO_SIDED|95.0|-1.0|28.4|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||28.4|-1.0|0.0839
92382915|NCT02914561|184668848|SUPERIORITY||Stratified Percentage Difference|1.5||||0.8288|TWO_SIDED|95.0|-12.1|15.0|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||15.0|-12.1|0.8288
92382916|NCT02914561|184668849|SUPERIORITY||Stratified Percentage Difference|20.6||||0.0038|TWO_SIDED|95.0|8.2|33.1|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||33.1|8.2|0.0038
92382917|NCT02914561|184668849|SUPERIORITY||Stratified Percentage Difference|5.8||||0.3466|TWO_SIDED|95.0|-6.6|18.3|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||18.3|-6.6|0.3466
92382918|NCT02914561|184668850|SUPERIORITY||Stratified Percentage Difference|6.9||||0.0963|TWO_SIDED|95.0|-1.4|15.2|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||15.2|-1.4|0.0963
92382919|NCT02914561|184668850|SUPERIORITY||Stratified Percentage Difference|4.2||||0.305|TWO_SIDED|95.0|-3.9|12.2|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||12.2|-3.9|0.3050
92382920|NCT02914561|184668850|SUPERIORITY||Stratified Percentage Difference|11.9||||0.0039|TWO_SIDED|95.0|3.7|20.2|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||20.2|3.7|0.0039
92382921|NCT02914561|184668850|SUPERIORITY||Stratified Percentage Difference|1.1||||0.7556|TWO_SIDED|95.0|-6.2|8.5|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||8.5|-6.2|0.7556
92382922|NCT02914561|184668851|SUPERIORITY||Stratified Percentage Difference|12.0||||0.0074|TWO_SIDED|95.0|3.2|20.8|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, ≥1).||20.8|3.2|0.0074
92382923|NCT02914561|184668851|SUPERIORITY||Stratified Percentage Difference|5.5||||0.2159|TWO_SIDED|95.0|-3.2|14.1|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, ≥1).||14.1|-3.2|0.2159
92382924|NCT02914561|184668851|SUPERIORITY||Stratified Percentage Difference|11.6||||0.011|TWO_SIDED|95.0|2.6|20.6|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||20.6|2.6|0.0110
92382925|NCT02914561|184668851|SUPERIORITY||Stratified Percentage Difference|8.2||||0.0593|TWO_SIDED|95.0|-0.4|16.7|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||16.7|-0.4|0.0593
92382926|NCT02914561|184668852|SUPERIORITY||Stratified Percentage Difference|16.8||||0.0382|TWO_SIDED|95.0|2.0|31.6|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||31.6|2.0|0.0382
92382927|NCT02914561|184668852|SUPERIORITY||Stratified Percentage Difference|5.8||||0.4263|TWO_SIDED|95.0|-8.5|20.0|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||20.0|-8.5|0.4263
92382928|NCT02914561|184668853|SUPERIORITY||Stratified Percentage Difference|10.9||||0.1827|TWO_SIDED|95.0|-4.7|26.4|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No) at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||26.4|-4.7|0.1827
92280483|NCT00601484|184463637|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.42|STANDARD_ERROR_OF_MEAN|1.169|||TWO_SIDED|90.0|-1.548|2.384||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.384|-1.548|
92415053|NCT00711516|184720196|SUPERIORITY_OR_OTHER|||||||0.0135||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.0135
92415054|NCT00711516|184720205|SUPERIORITY_OR_OTHER||Median Difference (Net)|4.841||||0.7053|TWO_SIDED|95.0|-27.778|19.313|||Wilcoxon (Mann-Whitney)|||||19.313|-27.778|0.7053
92415055|NCT00711516|184720206|SUPERIORITY_OR_OTHER||Median Difference (Net)|4.792||||0.5163|TWO_SIDED|95.0|-30.631|16.19|||Wilcoxon (Mann-Whitney)|||||16.190|-30.631|0.5163
92415056|NCT00711516|184720207|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.108||||0.8711|TWO_SIDED|95.0|-14.341|5.498|||Wilcoxon (Mann-Whitney)|||||5.498|-14.341|0.8711
92415057|NCT00711516|184720208|SUPERIORITY_OR_OTHER||Median Difference (Net)|13.855||||0.1825||95.0|-15.357|25.714|||Wilcoxon (Mann-Whitney)|||||25.714|-15.357|0.1825
92171706|NCT05485922|184232598|SUPERIORITY|Number of flow-stop episodes will be analysed, in a generalized linier mixed model, with subject included as a random component. Evidence of superior effect will be concluded, if the lower 95% confidence limit of the risk ratio between comparator and investigational device, is more than 1.|Risk Ratio (RR)|0.16|||<|0.05|TWO_SIDED|95.0|0.05|0.44|||Mixed Models Analysis|||||0.44|0.05|<0.05
92382929|NCT02914561|184668853|SUPERIORITY||Stratified Percentage Difference|4.0||||0.5944|TWO_SIDED|95.0|-11.1|19.2|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No) at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||19.2|-11.1|0.5944
92382930|NCT02914561|184668854|SUPERIORITY||Stratified Percentage Difference|15.2||||0.0512|TWO_SIDED|95.0|1.0|29.3|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No) at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||29.3|1.0|0.0512
92382931|NCT02914561|184668854|SUPERIORITY||Stratified Percentage Difference|-0.2||||0.9801|TWO_SIDED|95.0|-13.3|13.0|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No) at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||13.0|-13.3|0.9801
92382932|NCT02914561|184668855|SUPERIORITY||Stratified Percentage Difference|14.0||||0.19|TWO_SIDED|95.0|-5.1|33.1|||Cochran-Mantel-Haenszel|||CMH test was stratified by immunomodulators (Yes) at Maintenance baseline, immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (Yes), and immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (No).||33.1|-5.1|0.1900
92382933|NCT02914561|184668855|SUPERIORITY||Stratified Percentage Difference|-5.5||||0.4248|TWO_SIDED|95.0|-22.6|11.6|||Cochran-Mantel-Haenszel|||CMH test was stratified by immunomodulators (Yes) at Maintenance baseline, immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (Yes), and immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (No).||11.6|-22.6|0.4248
92382934|NCT02914561|184668856|SUPERIORITY||Stratified Percentage Difference|19.9||||0.0122|TWO_SIDED|95.0|5.7|34.0|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||34.0|5.7|0.0122
92382935|NCT02914561|184668856|SUPERIORITY||Stratified Percentage Difference|2.0||||0.7708|TWO_SIDED|95.0|-12.0|16.1|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||16.1|-12.0|0.7708
92415058|NCT00711516|184720209|SUPERIORITY_OR_OTHER||Median Difference (Net)|-323.5||||0.9282|TWO_SIDED|95.0|-9311.0|2375.5|||Wilcoxon (Mann-Whitney)|||||2375.5|-9311.0|0.9282
92415059|NCT00711516|184720210|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0||||1|TWO_SIDED|95.0|-1069.0|426.0|||Wilcoxon (Mann-Whitney)|||||426.0|-1069.0|1.0000
92415060|NCT00711516|184720211|SUPERIORITY_OR_OTHER||Median Difference (Net)|-82.8||||0.5284|TWO_SIDED|95.0|-788.0|165.5|||Wilcoxon (Mann-Whitney)|||||165.5|-788.0|0.5284
92415061|NCT00711516|184720212|SUPERIORITY_OR_OTHER||Median Difference (Net)|-145.8||||0.8997|TWO_SIDED|95.0|-3151.0|1006.5|||Wilcoxon (Mann-Whitney)|||||1006.5|-3151.0|0.8997
92415062|NCT00711516|184720213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.1||||0.1305|TWO_SIDED|95.0|-58.2|8.0|||ANCOVA|||||8.0|-58.2|0.1305
92415063|NCT04575597|184720214|OTHER|Difference in rates % and associated confidence intervals (CIs) were based on the Miettinen \& Nurminen method stratified by randomization strata. Unknown survival status at Day 29 was treated as failure.|Difference in Rates %|-4.1|||||TWO_SIDED|95.0|-12.2|2.5||||||||2.5|-12.2|
92415064|NCT04575597|184720214|OTHER|Difference in rates % and associated CIs were based on the Miettinen \& Nurminen method stratified by randomization strata. Unknown survival status at Day 29 was treated as failure.|Difference in Rates %|-1.5|||||TWO_SIDED|95.0|-9.9|6.2||||||||6.2|-9.9|
92415065|NCT04575597|184720214|OTHER|Difference in rates % and associated CIs were based on the Miettinen \& Nurminen method stratified by randomization strata. Unknown survival status at Day 29 was treated as failure.|Differences in Rates %|-1.3|||||TWO_SIDED|95.0|-9.6|6.4||||||||6.4|-9.6|
92415066|NCT04575597|184720214|SUPERIORITY|Difference in rates %, associated CIs, and p-value were based on the Miettinen \& Nurminen method stratified by randomization strata. Unknown survival status at Day 29 was treated as failure.|Difference in Rates %|-6.8||||0.0012|TWO_SIDED|95.0|-11.3|-2.4|||Miettinen & Nurminen|||||-2.4|-11.3|0.0012
92415067|NCT04575597|184720217|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.48|1.13||||||||1.13|0.48|
92415068|NCT04575597|184720217|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.46|1.08||||||||1.08|0.46|
92415069|NCT04575597|184720217|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.47|1.11||||||||1.11|0.47|
92415070|NCT04575597|184720217|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.92|1.18||||||||1.18|0.92|
92382936|NCT02914561|184668857|SUPERIORITY||Stratified Percentage Difference|12.0||||0.2631|TWO_SIDED|95.0|-8.3|32.3|||Cochran-Mantel-Haenszel|||CMH test was stratified by immunomodulators (Yes) at Maintenance baseline, immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (Yes), and immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (No).||32.3|-8.3|0.2631
92382937|NCT02914561|184668857|SUPERIORITY||Stratified Percentage Difference|-3.4||||0.6444|TWO_SIDED|95.0|-20.9|14.0|||Cochran-Mantel-Haenszel|||CMH test was stratified by immunomodulators (Yes) at Maintenance baseline, immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (Yes), and immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (No).||14.0|-20.9|0.6444
92382938|NCT01300455|184668866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.66|||||TWO_SIDED|90.0|0.22|5.09|||Difference of the Least Squares Means|||Difference (Suvorexant - Placebo) of Least Squares Means||5.09|0.22|
92382939|NCT01300455|184668869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|90.0|-0.49|0.42|||Difference in the Least Squares Means|||Day 1, Difference (Suvorexant - Placebo) of Least Squares Means||0.42|-0.49|
92382940|NCT01300455|184668869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|90.0|-0.45|0.33|||Difference of the Least Squares Means|||Day 4, Difference (Suvorexant - Placebo) of Least Squares Means||0.33|-0.45|
92382941|NCT01300455|184668870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|||||TWO_SIDED|90.0|-1.31|2.79|||Difference in the Least Squares Means|||Day 1, SaO2 \<90%, Difference (Suvorexant - Placebo) of Least Squares Means||2.79|-1.31|
92382942|NCT01300455|184668870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||||TWO_SIDED|90.0|-0.1|0.59|||Difference in the Least Squares Means|||Day 1, SaO2 \<85%, Difference (Suvorexant - Placebo) of Least Squares Means||0.59|-0.10|
92382943|NCT01300455|184668870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||||TWO_SIDED|90.0|-0.59|1.01|||Difference in the Least Squares Means|||Day 4, SaO2 \<90%, Difference (Suvorexant - Placebo) of Least Squares Means||1.01|-0.59|
92382944|NCT01300455|184668870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|||||TWO_SIDED|90.0|-0.09|0.65|||Difference in the Least Squares Means|||Day 4, SaO2 \<85%, Difference (Suvorexant - Placebo) of Least Squares Means||0.65|-0.09|
92382945|NCT01300455|184668871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|90.0|-0.61|0.49|||Difference of Least Squares Means|||Day 1, REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.49|-0.61|
92382946|NCT01300455|184668871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|||||TWO_SIDED|90.0|-0.41|0.5|||Difference of the Least Sqares Means|||Day 1, Non-REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.50|-0.41|
92382947|NCT01300455|184668871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||||TWO_SIDED|90.0|-1.13|0.1|||Difference of the Least Squares Means|||Day 1, Wake, Difference (Suvorexant - Placebo) of Least Squares Means||0.10|-1.13|
92382948|NCT01300455|184668871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|||||TWO_SIDED|90.0|-0.24|0.5|||Difference of the Least Squares Means|||Day 4, REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.50|-0.24|
92382949|NCT01300455|184668871|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.02|||||TWO_SIDED|90.0|-0.4|0.43|||Difference in the Least Squares Means|||Day 4, Non-REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.43|-0.40|
92382950|NCT01300455|184668871|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.18|||||TWO_SIDED|90.0|-0.61|0.25|||Difference in the Least Squares Means|||Day 4, Wake, Difference (Suvorexant - Placebo) of Least Squares Means||0.25|-0.61|
92382951|NCT01300455|184668872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||||TWO_SIDED|90.0|-3.2|2.26|||Difference of Least Squares Means|||Difference (Suvorexant - Placebo) of Least Squares Means||2.26|-3.20|
92382952|NCT00651625|184668882|SUPERIORITY_OR_OTHER||non-applicable|||||0.05|TWO_SIDED||||||t-test, 2 sided|||group comparisons using t-test and confidence intervals.||||0.05
92382953|NCT04583956|184668914|SUPERIORITY||Odds Ratio (OR)|0.98||||0.927|TWO_SIDED|95.0|0.59|1.61|||Proportional odds model||Odds ratio above 1 favors Remdesivir plus Risankizumab.|Includes all ordinal score categories. Odds ratio of a better clinical status score, confidence interval, and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using multiple imputation (MI) for participants lost to follow-up before Day 8 while hospitalized, in hospice, long term acute care, or transferred to other hospital while participants lost to follow-up after discharge to home are assigned a score of 2.||1.61|0.59|0.927
92382954|NCT04583956|184668915|SUPERIORITY||Odds Ratio (OR)|0.9||||0.829|TWO_SIDED|95.0|0.36|2.25|||Regression, Logistic||Odds ratio greater than 1 favors Remdesivir plus Risankizumab.|Odds ratio, confidence interval, and p-value estimated from a logistic regression model adjusted for baseline dexamethasone use, baseline ordinal score, age, and baseline C-Reactive Protein (CRP).||2.25|0.36|0.829
92382955|NCT04583956|184668916|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.399|TWO_SIDED|95.0|0.84|1.56|||Regression, Cox||HR greater than 1 favors Remdesivir plus Risankizumab.|Hazard ratio, confidence interval, and p-value estimated from a Cox model adjusted for baseline steroid use and baseline ordinal score.||1.56|0.84|0.399
92382956|NCT04583956|184668917|SUPERIORITY||Odds Ratio (OR)|1.03||||0.91|TWO_SIDED|95.0|0.62|1.71|||Proportional odds model||Odds ratio above 1 favors Remdesivir plus Risankizumab.|Includes all ordinal score categories. Odds ratio of a better clinical status score, confidence interval, and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using last observation carried forward for those lost to follow-up before Day 15 while hospitalized, in hospice, long term acute care, or transferred to other hospital. Participants lost to follow-up before Day 15 after discharge are given a score of 2.||1.71|0.62|0.910
92382957|NCT04583956|184668918|SUPERIORITY||Odds Ratio (OR)|1.14||||0.617|TWO_SIDED|95.0|0.68|1.93|||Proportional odds model||Odds ratio above 1 favors Remdesivir plus Risankizumab.|Includes all ordinal score categories. Odds ratio of a better clinical status score, confidence interval, and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using last observation carried forward for those lost to follow-up before Day 15 while hospitalized, in hospice, long term acute care, or transferred to other hospital. Participants lost to follow-up before Day 15 after discharge are given a score of 2.||1.93|0.68|0.617
92415071|NCT04575597|184720218|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.8|2.76||||||||2.76|0.80|
92382958|NCT04583956|184668951|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.55|TWO_SIDED|95.0|0.82|1.46|||Regression, Cox||HR greater than 1 favors Remdesivir plus Risankizumab.|Hazard ratio (HR), confidence interval, and p-value estimated from a Cox model adjusted for baseline steroid use and baseline ordinal score.||1.46|0.82|0.550
92382959|NCT04583956|184668952|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.523|TWO_SIDED|95.0|0.82|1.48|||Regression, Cox||HR greater than 1 favors Remdesivir plus Risankizumab.|Hazard ratio (HR), confidence interval, and p-value estimated from a Cox model adjusted for baseline steroid use and baseline ordinal score.||1.48|0.82|0.523
92382960|NCT01115673|184668966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|469.37|||<|0.001|||||||ANOVA|Treatment and baseline pain categorical ratings were factors.|SPRID6 = 0.25 times (PRID at 15 min + PRID at 30 min + PRID at 45 min + PRID at 60 min + PRID at 75 min + PRID at 90 min) + 0.5 times (PRID at 120 minutes) + PRID at 3 hours + PRID at 4 hours + PRID at 5 hours + PRID at 6 hours.|First test H1: acetaminophen 1000 mg vs placebo at the alpha = 0.025 one-tail level; If H1 was rejected then, Test H2: acetaminophen 1000 mg vs acetaminophen 650 mg, and Test H3: acetaminophen 650 mg vs placebo; H2 and H3 were each tested at the alpha = 0.025 one-tail level.||||<0.001
92382961|NCT01115673|184668966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|102.09||||0.001|||||||ANOVA|Treatment and baseline pain categorical ratings were factors.|SPRID6 = 0.25 times (PRID at 15 min + PRID at 30 min + PRID at 45 min + PRID at 60 min + PRID at 75 min + PRID at 90 min) + 0.5 times (PRID at 120 minutes) + PRID at 3 hours + PRID at 4 hours + PRID at 5 hours + PRID at 6 hours.|First test H1: acetaminophen 1000 mg vs placebo at the alpha = 0.025 one-tail level; If H1 was rejected then, Test H2: acetaminophen 1000 mg vs acetaminophen 650 mg, and Test H3: acetaminophen 650 mg vs placebo; H2 and H3 were each tested at the alpha = 0.025 one-tail level.||||0.001
92233115|NCT04178590|184368785|SUPERIORITY|||||||0.085||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.085
92233116|NCT04178590|184368786|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233117|NCT04178590|184368787|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92415072|NCT04575597|184720218|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.69|2.09||||||||2.09|0.69|
92382962|NCT01115673|184668966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|367.28|||<|0.001|||||||ANOVA|Treatment and baseline pain categorical ratings were factors.|SPRID6 = 0.25 times (PRID at 15 min + PRID at 30 min + PRID at 45 min + PRID at 60 min + PRID at 75 min + PRID at 90 min) + 0.5 times (PRID at 120 minutes) + PRID at 3 hours + PRID at 4 hours + PRID at 5 hours + PRID at 6 hours.|First test H1: acetaminophen 1000 mg vs placebo at the alpha = 0.025 one-tail level; If H1 was rejected then, Test H2: acetaminophen 1000 mg vs acetaminophen 650 mg, and Test H3: acetaminophen 650 mg vs placebo; H2 and H3 were each tested at the alpha = 0.025 one-tail level.||||<0.001
92382963|NCT01115673|184668967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|226.7|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382964|NCT01115673|184668967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.14||||0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.001
92382965|NCT01115673|184668967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|178.56|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382966|NCT01115673|184668968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|242.67|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92415073|NCT04575597|184720218|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.54|1.62||||||||1.62|0.54|
92415074|NCT04575597|184720218|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.95|1.33||||||||1.33|0.95|
92415075|NCT04575597|184720219|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.62|1.46||||||||1.46|0.62|
92233118|NCT04178590|184368788|SUPERIORITY|||||||0.895||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.895
92233119|NCT04178590|184368789|SUPERIORITY|||||||0.999||||||p\<0.05|McNemar|||||||0.999
92233120|NCT04178590|184368790|SUPERIORITY|||||||0||||||p\<0.05|McNemar|||||||0.000
92233121|NCT04178590|184368791|SUPERIORITY|||||||0.008||||||p\<0.05|McNemar|||||||0.008
92233122|NCT04178590|184368792|SUPERIORITY|||||||0.5||||||p\<0.05|McNemar|||||||0.500
92233123|NCT04178590|184368793|SUPERIORITY|||||||0.999||||||p\<0.05|McNemar|||||||0.999
92233124|NCT04178590|184368794|SUPERIORITY|||||||0||||||p\<0.05|McNemar|||||||0.000
92233125|NCT04178590|184368795|SUPERIORITY|||||||0.4||||||p\<0.05|McNemar|||||||0.40
92233126|NCT04178590|184368796|SUPERIORITY|||||||0.999|||||||McNemar|||||||0.999
92233127|NCT04178590|184368797|SUPERIORITY|||||||0.999||||||p\<0.05|McNemar|||||||0.999
92233128|NCT04178590|184368798|SUPERIORITY|||||||0.001||||||p\<0.05|McNemar|||||||0.001
92233129|NCT04178590|184368799|SUPERIORITY|||||||0.453||||||p\<0.05|McNemar|||||||0.453
92233130|NCT04178590|184368800|SUPERIORITY|||||||0.625||||||p\<0.05|McNemar|||||||0.625
92233131|NCT04178590|184368801|SUPERIORITY|||||||0.999|||||||McNemar|||||||0.999
92233132|NCT04178590|184368802|SUPERIORITY|||||||0||||||p\<0.05|McNemar|||||||0.000
92233133|NCT04178590|184368803|SUPERIORITY|||||||0.001||||||p\<0.05|McNemar|||||||0.001
92233134|NCT04178590|184368804|SUPERIORITY|||||||0.065||||||p\<0.05|McNemar|||||||0.065
92233135|NCT04178590|184368805|SUPERIORITY|||||||0.821||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.821
92233136|NCT04178590|184368806|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233137|NCT04178590|184368807|SUPERIORITY|||||||0.001||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.001
92233138|NCT04178590|184368808|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233139|NCT04178590|184368809|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233140|NCT04178590|184368810|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233141|NCT04178590|184368811|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92280484|NCT00601484|184463637|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.31|STANDARD_ERROR_OF_MEAN|0.821|||TWO_SIDED|90.0|-0.075|2.693||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.693|-0.075|
92415076|NCT04575597|184720219|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.75|1.79||||||||1.79|0.75|
92415077|NCT04575597|184720219|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.45|1.07||||||||1.07|0.45|
92415078|NCT04575597|184720219|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.93|1.23||||||||1.23|0.93|
92415079|NCT04575597|184720220|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.62|1.83||||||||1.83|0.62|
92415080|NCT04575597|184720220|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.4|1.26||||||||1.26|0.40|
92415081|NCT04575597|184720220|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.41|||||TWO_SIDED|95.0|0.2|0.85||||||||0.85|0.20|
92415082|NCT04575597|184720220|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.86|1.18||||||||1.18|0.86|
92415083|NCT04575597|184720221|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.32|1.34||||||||1.34|0.32|
92415084|NCT04575597|184720221|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.44|||||TWO_SIDED|95.0|0.76|2.71||||||||2.71|0.76|
92415085|NCT04575597|184720221|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.39|1.42||||||||1.42|0.39|
92415086|NCT04575597|184720221|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.94|1.37||||||||1.37|0.94|
92415087|NCT04575597|184720222|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.66|1.61||||||||1.61|0.66|
92233142|NCT04178590|184368812|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||||||0.000
92233143|NCT04178590|184368813|SUPERIORITY|||||||0.671||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.671
92233144|NCT04178590|184368814|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233145|NCT04178590|184368815|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233146|NCT04178590|184368816|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||||||0.000
92233147|NCT04178590|184368817|SUPERIORITY|||||||0.753||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.753
92233148|NCT04178590|184368818|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233149|NCT04178590|184368819|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233150|NCT04178590|184368820|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
92233151|NCT02513940|184368852|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
92233152|NCT02513940|184368853|SUPERIORITY|||||||0.001||||||"Pairwise comparisons:~Testosterone vs placebo: p=0.008 Progesterone vs placebo: p=0.73 Testosterone vs progesterone: p=0.0008"|Mixed Models Analysis|||||||0.001
92233153|NCT02513940|184368854|SUPERIORITY|||||||0.6|||||||Mixed Models Analysis|Repeated measures ANOVA||||||0.60
92233154|NCT02513940|184368855|SUPERIORITY|||||||0.0003||||||"Pairwise comparisons:~Testosterone vs placebo: p = 0.0001 Progesterone vs placebo: p = 0.25 Testosterone vs progesterone: p = 0.002"|Mixed Models Analysis|Repeated measures ANOVA||||||0.0003
92233155|NCT02513940|184368856|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Fatigue||||>0.99
92233156|NCT02513940|184368856|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Rash at gel application site||||>0.99
92233157|NCT00345605|184368861|SUPERIORITY_OR_OTHER||Slope|0.5|||||TWO_SIDED||||||||Assuming r=0.5 between two measurements from the same subject, 12 subjects would provide a power of 0.8 to detect a 10% reduction in primary endpoints at an alpha value of 0.05.|For sample size calculation, we used the means and standard deviation for PT, PTT. Assuming r=0.5 between two measurements from the same subject, 12 subjects would provide a power of 0.8 to detect a 10% reduction in primary endpoints at an alpha value of 0.05.||||
92233158|NCT00733902|184368868|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.3||0.015|TWO_SIDED|95.0|-1.32|-0.14|||ANCOVA|||Analysis of Covariance (ANCOVA) was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.14|-1.32|0.015
92233159|NCT00733902|184368868|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.3||0.005|TWO_SIDED|95.0|-1.43|-0.25|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.25|-1.43|0.005
92382967|NCT01115673|184668968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.95||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
92382968|NCT01115673|184668968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|188.72|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382969|NCT01115673|184668969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3||||0.037||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.037
92382970|NCT01115673|184668969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.294||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.294
92382971|NCT01115673|184668969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.66||||0.006||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.006
92382972|NCT01115673|184668970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.85|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382973|NCT01115673|184668970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.946||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.946
92382974|NCT01115673|184668970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.99|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382975|NCT01115673|184668971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.68|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382976|NCT01115673|184668971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06||||0.661||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.661
92382977|NCT01115673|184668971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.62|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382978|NCT01115673|184668972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.56|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382979|NCT01115673|184668972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.88||||0.13||95.0||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.13
92415088|NCT04575597|184720222|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.32|||||TWO_SIDED|95.0|0.83|2.09||||||||2.09|0.83|
92415089|NCT04575597|184720222|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.47|1.23||||||||1.23|0.47|
92415090|NCT04575597|184720222|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.88|1.16||||||||1.16|0.88|
92382980|NCT01115673|184668972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.67|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382981|NCT01115673|184668973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.97|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382982|NCT01115673|184668973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.42||||0.041||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.041
92382983|NCT01115673|184668973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.55|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382984|NCT01115673|184668974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|44.97|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382985|NCT01115673|184668974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.34||||0.02||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.02
92415091|NCT04575597|184720223|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.62|1.41||||||||1.41|0.62|
92415092|NCT04575597|184720223|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.7|1.69||||||||1.69|0.70|
92382986|NCT01115673|184668974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.63|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382987|NCT01115673|184668975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.46|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382988|NCT01115673|184668975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.08||||0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.001
92382989|NCT01115673|184668975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.38|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382990|NCT01115673|184668976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.42|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92233160|NCT00733902|184368868|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.78|-0.61|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.61|-1.78|<0.001
92233161|NCT00733902|184368869|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.29||0.009|TWO_SIDED|95.0|-1.32|-0.19|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.19|-1.32|0.009
92415093|NCT04575597|184720223|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.66|1.51||||||||1.51|0.66|
92382991|NCT01115673|184668976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.83||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
92415094|NCT04575597|184720223|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|1.01|1.31||||||||1.31|1.01|
92415095|NCT04575597|184720224|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.54|1.69||||||||1.69|0.54|
92415096|NCT04575597|184720224|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.61|2.0||||||||2.00|0.61|
92233162|NCT00733902|184368869|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.54|-0.41|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.41|-1.54|<0.001
92382992|NCT01115673|184668976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.59|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382993|NCT01115673|184668977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.99|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382994|NCT01115673|184668977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.57|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382995|NCT01115673|184668977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.42|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382996|NCT01115673|184668978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.04|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92415097|NCT04575597|184720224|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.5|1.38||||||||1.38|0.50|
92233163|NCT00733902|184368869|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.8|-0.68|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.68|-1.80|<0.001
92382997|NCT01115673|184668978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.82|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382998|NCT01115673|184668978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.22|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92382999|NCT01115673|184668979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.45|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383000|NCT01115673|184668979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.58||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
92383001|NCT01115673|184668979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.87|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383002|NCT01115673|184668980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.35||||0.028||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.028
92383003|NCT01115673|184668980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13||||0.462||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.462
92383004|NCT01115673|184668980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.48||||0.008||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.008
92383005|NCT01115673|184668981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.81|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383006|NCT01115673|184668981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.907||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.907
92383007|NCT01115673|184668981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.11|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383008|NCT01115673|184668982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.19|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383009|NCT01115673|184668982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32||||0.655||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.655
92415098|NCT04575597|184720224|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.9|1.21||||||||1.21|0.90|
92415099|NCT04575597|184720225|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.46|||||TWO_SIDED|95.0|0.77|2.76||||||||2.76|0.77|
92233164|NCT00733902|184368870|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.52|-0.13|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.13|-0.52|0.001
92383010|NCT01115673|184668982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.87|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383011|NCT01115673|184668983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.15|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383012|NCT01115673|184668983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.33||||0.155||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.155
92233165|NCT00733902|184368870|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.56|-0.17|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.17|-0.56|<0.001
92383013|NCT01115673|184668983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.82|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383014|NCT01115673|184668984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.69|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383015|NCT01115673|184668984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.04||||0.05||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.05
92383016|NCT01115673|184668984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.65|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383017|NCT01115673|184668985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.83|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383018|NCT01115673|184668985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.74||||0.032||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.032
92383019|NCT01115673|184668985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.1|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92415100|NCT04575597|184720225|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.76|||||TWO_SIDED|95.0|0.92|3.38||||||||3.38|0.92|
92415101|NCT04575597|184720225|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.52|||||TWO_SIDED|95.0|0.81|2.86||||||||2.86|0.81|
92383020|NCT01115673|184668986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|52.36|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383021|NCT01115673|184668986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.52||||0.003||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.003
92383022|NCT01115673|184668986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.84|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92415102|NCT04575597|184720225|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.89|1.24||||||||1.24|0.89|
92415103|NCT04575597|184720226|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.81|2.2||||||||2.20|0.81|
92415104|NCT04575597|184720226|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.4|||||TWO_SIDED|95.0|0.85|2.31||||||||2.31|0.85|
92415105|NCT04575597|184720226|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.57|1.65||||||||1.65|0.57|
92233166|NCT00733902|184368870|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.31|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.31|-0.70|<0.001
92383023|NCT01115673|184668987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.8|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383024|NCT01115673|184668987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.04||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
92383025|NCT01115673|184668987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.75|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383026|NCT01115673|184668988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.84|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383027|NCT01115673|184668988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.82|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92280485|NCT00601484|184463637|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|1.093|||TWO_SIDED|90.0|-2.178|1.512||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.512|-2.178|
92383028|NCT01115673|184668988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.02|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383029|NCT01115673|184668989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.4|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383030|NCT01115673|184668989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.68|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383031|NCT01115673|184668989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.72|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383032|NCT01115673|184668990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.94|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92415106|NCT04575597|184720226|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.89|1.18||||||||1.18|0.89|
92415107|NCT04575597|184720227|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.36|1.91||||||||1.91|0.36|
92415108|NCT04575597|184720227|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.37|||||TWO_SIDED|95.0|0.64|2.97||||||||2.97|0.64|
92415109|NCT04575597|184720227|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.37|2.02||||||||2.02|0.37|
92383033|NCT01115673|184668990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.4||||0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.001
92415110|NCT04575597|184720227|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.74|1.14||||||||1.14|0.74|
92415111|NCT04575597|184720228|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.44|1.06||||||||1.06|0.44|
92415112|NCT04575597|184720229|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.21|||||TWO_SIDED|95.0|0.06|0.67||||||||0.67|0.06|
92415113|NCT04575597|184720229|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.33|||||TWO_SIDED|95.0|0.13|0.83||||||||0.83|0.13|
92383034|NCT01115673|184668990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.55|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383035|NCT01115673|184668991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.65||||0.027||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.027
92415114|NCT04575597|184720229|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.27|||||TWO_SIDED|95.0|0.09|0.79||||||||0.79|0.09|
92415115|NCT04575597|184720229|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.87|1.36||||||||1.36|0.87|
92383036|NCT01115673|184668991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.49||||0.365||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.365
92383037|NCT01115673|184668991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.14||||0.005||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.005
92383038|NCT01115673|184668992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|45.65|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383039|NCT01115673|184668992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.923||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.923
92383040|NCT01115673|184668992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.1|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383041|NCT01115673|184668993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|71.87|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383042|NCT01115673|184668993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.38||||0.653||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.653
92383043|NCT01115673|184668993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.49|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383044|NCT01115673|184668994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|86.71|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383045|NCT01115673|184668994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.21||||0.138||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.138
92415116|NCT04575597|184720230|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.74|2.23||||||||2.23|0.74|
92415117|NCT04575597|184720230|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.45|1.8||||||||1.80|0.45|
92280486|NCT00601484|184463637|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.07|STANDARD_ERROR_OF_MEAN|1.208|||TWO_SIDED|90.0|0.038|4.112||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||4.112|0.038|
92383046|NCT01115673|184668994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|78.49|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383047|NCT01115673|184668995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|93.66|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383048|NCT01115673|184668995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.46||||0.043||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.043
92383049|NCT01115673|184668995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|82.2|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383050|NCT01115673|184668996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|94.8|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383051|NCT01115673|184668996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.08||||0.024||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.024
92383052|NCT01115673|184668996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|81.72|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383053|NCT01115673|184668997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|99.82|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383054|NCT01115673|184668997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.6||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
92415118|NCT04575597|184720230|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.55|1.89||||||||1.89|0.55|
92415119|NCT04575597|184720230|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.94|1.37||||||||1.37|0.94|
92415120|NCT04575597|184720231|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.39|||||TWO_SIDED|95.0|0.83|2.33||||||||2.33|0.83|
92383055|NCT01115673|184668997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|81.23|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92233167|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.27||0.326|TWO_SIDED|95.0|-0.8|0.27|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.27|-0.80|0.326
92233168|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.275|TWO_SIDED|95.0|-0.24|0.83|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.83|-0.24|0.275
92233169|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.27||0.918|TWO_SIDED|95.0|-0.51|0.56|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.56|-0.51|0.918
92233170|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.47|-0.4|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.40|-1.47|<0.001
92233171|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.27||0.013|TWO_SIDED|95.0|-1.22|-0.15|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.15|-1.22|0.013
92233172|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.57|-0.49|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.49|-1.57|<0.001
92233173|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.27||0.003|TWO_SIDED|95.0|-1.36|-0.28|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.28|-1.36|0.003
92280487|NCT00601484|184463638|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-6.41|||||TWO_SIDED|90.0|-33.33|18.68||||||Week 2: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||18.68|-33.33|
92383056|NCT01115673|184668998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|90.22|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383057|NCT01115673|184668998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.87||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
92383058|NCT01115673|184668998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|71.35|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383059|NCT01115673|184668999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|85.82|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383060|NCT01115673|184668999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.39|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383061|NCT01115673|184668999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|63.44|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383062|NCT01115673|184669000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|76.44|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383063|NCT01115673|184669000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.5|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383064|NCT01115673|184669000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.94|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383065|NCT01115673|184669001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|66.39|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383066|NCT01115673|184669001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.98||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
92383067|NCT01115673|184669001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|45.41|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383068|NCT01115673|184669002|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92415121|NCT04575597|184720231|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.5|1.48||||||||1.48|0.50|
92171707|NCT05485922|184232599|SUPERIORITY||Mean Difference (Final Values)|34.3||||0.05|TWO_SIDED|95.0|14.69|53.91||The pass criteria were based on results analysing the 2 primary endpoints in a hierarchical fashion: rejecting the H0 on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||53.91|14.69|0.05
92233174|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.27||0.006|TWO_SIDED|95.0|-1.29|-0.21|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.21|-1.29|0.006
92383069|NCT01115673|184669002|SUPERIORITY_OR_OTHER|||||||0.26||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.26
92383070|NCT01115673|184669002|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383071|NCT01115673|184669003|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383072|NCT01115673|184669003|SUPERIORITY_OR_OTHER|||||||0.934||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.934
92383073|NCT01115673|184669003|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383074|NCT01115673|184669004|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the log-rank test from PROC LIFETEST that compared survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects not rescuing during the 6-hour study period had their time to rescue set to 6 hours and were censored.||||<0.001
92383075|NCT01115673|184669004|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the log-rank test from PROC LIFETEST that compared survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects not rescuing during the 6-hour study period had their time to rescue set to 6 hours and were censored.||||<0.001
92383076|NCT01115673|184669004|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the log-rank test from PROC LIFETEST that compared survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects not rescuing during the 6-hour study period had their time to rescue set to 6 hours and were censored.||||<0.001
92383077|NCT01115673|184669005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.06|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383078|NCT01115673|184669005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.002||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
92383079|NCT01115673|184669005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.12|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383080|NCT01115673|184669006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383081|NCT01115673|184669006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383082|NCT01115673|184669006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.21|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383083|NCT01115673|184669007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|18.45|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383084|NCT01115673|184669007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.006||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.006
92383085|NCT01115673|184669007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.16|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383086|NCT01115673|184669008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92280488|NCT00601484|184463638|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|15.83|||||TWO_SIDED|90.0|-14.12|41.18||||||Week 4: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||41.18|-14.12|
92383087|NCT01115673|184669008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.001
92383088|NCT01115673|184669008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.35|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92383089|NCT01959841|184669022|NON_INFERIORITY|Wherein the non-inferiority margin was set at 10%. If the one-sided P-value was less than 0.025 between the ASP2151(400mg) once daily and the valaciclovir 1000 mg three times daily, non-inferiority of ASP2151 to valaciclovir was assumed.||||||2.41e-06|||||||Modified Farrington-Manning test|||The non-inferiority of each ASP2151 dose level versus valaciclovir was assessed stepwise using a closed testing procedure.First step analysis was performed in the ASP2151(400mg) once daily.||||0.00000241
92383090|NCT01959841|184669022|NON_INFERIORITY|Wherein the non-inferiority margin was set at 10%. If the one-sided P-value was less than 0.025 between the ASP2151(200mg) once daily and the valaciclovir 1000 mg three times daily, non-inferiority of ASP2151 to valaciclovir was assumed.||||||0.0688|||||||Modified Farrington-Manning test|||The analysis was performed in the ASP2151(200 mg) once daily only when non-inferiority of the ASP2151(400 mg) 0nce daily to valaciclovir 1000 mg three times daily was assumed.||||0.0688
92383091|NCT02170870|184669034|SUPERIORITY|||||||0.06|||||||ANOVA|||Mean GI symptom score during lipid infusion in controls vs diabetics adjusted for treatment status (ie, exendin or placebo)||||0.06
92383092|NCT02170870|184669034|SUPERIORITY|||||||0.0001|||||||ANOVA|||Mean GI symptom score during lipid infusion in controls vs functional dyspepsia adjusted for treatment status (ie, exendin or placebo)||||0.0001
92383093|NCT01128192|184669036|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|||||Two sided P value|ANOVA|||Change in fasting plasma glucose level||||0.240
92383094|NCT01128192|184669036|SUPERIORITY_OR_OTHER|||||||0.339|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in fasting plasma glucose level||||0.339
92383095|NCT01128192|184669037|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-30 minutes||||<0.001
92383096|NCT01128192|184669037|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P Value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 30-180 minutes||||<0.001
92383097|NCT01128192|184669037|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P Value|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
92383098|NCT01128192|184669037|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-30 minutes||||<0.001
92383099|NCT01128192|184669037|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 30-180 minutes||||<0.001
92383100|NCT01128192|184669037|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
92383101|NCT01128192|184669038|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in fasting plasma insulin level||||0.019
92383102|NCT01128192|184669038|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in fasting plasma insulin level||||<0.001
92383103|NCT01128192|184669039|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-30 minutes||||<0.001
92383104|NCT01128192|184669039|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 30-180 minutes||||<0.001
92383105|NCT01128192|184669039|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
92383106|NCT01128192|184669039|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-30 minutes||||<0.001
92383107|NCT01128192|184669039|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 30-180 minutes||||<0.001
92383108|NCT01128192|184669039|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
92383109|NCT01128192|184669040|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Baseline Insulin Level||||<0.001
92383110|NCT01128192|184669040|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value|ANOVA|||Change in Baseline Insulin Level||||<0.001
92383111|NCT01128192|184669041|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-10 minutes||||<0.001
92383112|NCT01128192|184669041|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 10-180 minutes||||<0.001
92383113|NCT01128192|184669041|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
92383114|NCT01128192|184669041|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-10 minutes||||<0.001
92383115|NCT01128192|184669041|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 10-180 minutes||||<0.001
92383116|NCT01128192|184669041|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
92383117|NCT01128192|184669042|SUPERIORITY_OR_OTHER|||||||0.608|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Basal EGP||||0.608
92383118|NCT01128192|184669042|SUPERIORITY_OR_OTHER|||||||0.132|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Basal EGP||||0.132
92383119|NCT01128192|184669043|SUPERIORITY_OR_OTHER|||||||0.178|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Low-Dose % EGP Inhibition||||0.178
92383120|NCT01128192|184669043|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Low-Dose % EGP Inhibition||||0.111
92233175|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.87|-0.79|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.79|-1.87|<0.001
92280489|NCT00601484|184463638|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|19.17|||||TWO_SIDED|90.0|0.0|38.1||||||Week 6: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||38.10|0.00|
92383121|NCT01128192|184669044|SUPERIORITY_OR_OTHER|||||||0.573|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in high-dose % EGP Inhibition||||0.573
92383122|NCT01128192|184669045|SUPERIORITY_OR_OTHER|||||||0.956|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Low-Dose Glucose Disposal Rate (GDR)||||0.956
92383123|NCT01128192|184669045|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Low-Dose Glucose Disposal Rate (GDR)||||0.125
92383124|NCT01128192|184669046|SUPERIORITY_OR_OTHER|||||||0.993|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in High-Dose Glucose Disposal Rate (GDR)||||0.993
92383125|NCT01128192|184669046|SUPERIORITY_OR_OTHER|||||||0.956|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in High-Dose Glucose Disposal Rate (GDR)||||0.956
92383126|NCT00125957|184669047|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference in the mean change MADRS score between Wellbutrin-Placebo and Placebo-Wellbutrin treatment groups||||.04
92383127|NCT00125957|184669048|SUPERIORITY_OR_OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference in the median HAM-D score between Wellbutrin-Placebo and Placebo-Wellbutrin treatment groups||||0.09
92383128|NCT00924508|184669061|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Baseline and post-treatment comparison||||<0.001
92383129|NCT00924508|184669061|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Baseline and post-treatment comparison||||<0.001
92383130|NCT00924508|184669061|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Baseline and post-treatment comparison||||<0.001
92415122|NCT04575597|184720231|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.56|1.72||||||||1.72|0.56|
92415123|NCT04575597|184720231|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|1.01|1.43||||||||1.43|1.01|
92415124|NCT04575597|184720232|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.29|2.19||||||||2.19|0.29|
92415125|NCT04575597|184720232|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.34|2.44||||||||2.44|0.34|
92383131|NCT02277925|184669063|SUPERIORITY||Risk Ratio (RR)|1.74||||0.3|TWO_SIDED|95.0|0.59|5.14|||Chi-squared|||||5.14|0.59|0.30
92383132|NCT02277925|184669064|SUPERIORITY||Risk Ratio (RR)|1.03||||0.43|TWO_SIDED|95.0|0.96|1.11|||Chi-squared|||||1.11|0.96|0.43
92383133|NCT02277925|184669065|SUPERIORITY||Mean Difference (Final Values)|-4.5||||0.39|TWO_SIDED|95.0|-14.7|5.7|||t-test, 2 sided|||||5.7|-14.7|0.39
92415126|NCT04575597|184720232|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.77|||||TWO_SIDED|95.0|0.74|4.23||||||||4.23|0.74|
92415127|NCT04575597|184720232|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.67|1.04||||||||1.04|0.67|
92415128|NCT04575597|184720233|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|2.52|||||TWO_SIDED|95.0|0.98|6.53||||||||6.53|0.98|
92415129|NCT04575597|184720233|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.23|2.52||||||||2.52|0.23|
92415130|NCT04575597|184720233|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.11|1.84||||||||1.84|0.11|
92233176|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.68|-0.53|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.53|-1.68|<0.001
92233177|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.29||0.002|TWO_SIDED|95.0|-1.48|-0.33|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.33|-1.48|0.002
92383134|NCT00244101|184669073|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.59|1.03||||||PS group used as standard of care. Relative risk and 95 % CI calculated for PS (reference) versus ISX or NCPAP.||1.03|0.59|
92383135|NCT00244101|184669073|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.57|||||TWO_SIDED|95.0|0.25|1.27||||||PS group used as standard of care. Relative risk and 95% CI calculated for PS (reference) versus NCPAP.||1.27|0.25|
92383136|NCT00244101|184669074|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.49|1.94||||||PS group used as standard of care. Relative risk and 95 % CI calculated for PS (reference) versus ISX.||1.94|0.49|
92383137|NCT00244101|184669074|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.64|1.09||||||PS group used as standard of care. Relative risk and 95% CI calculated for PS (reference) versus NCPAP.||1.09|0.64|
92383138|NCT04097379|184669093|SUPERIORITY||Least Square Mean|51.7|STANDARD_ERROR_OF_MEAN|71.327||0.2366||90.0|-68.7|172.1|||Mixed effects model for repeated measure|||||172.1|-68.7|0.2366
92383139|NCT04097379|184669093|SUPERIORITY||Least Square Mean|38.19|STANDARD_ERROR_OF_MEAN|68.1||0.2892|TWO_SIDED|90.0|-76.7|153.1|||Mixed effects model for repeated measure|||||153.1|-76.7|0.2892
92383140|NCT04508530|184669139|SUPERIORITY||Least Squares Mean Difference|1.1||||0.00855|TWO_SIDED|5.0|0.2|2.0|||Mixed Models Analysis|||||2.0|0.2|0.00855
92383141|NCT04508530|184669140|SUPERIORITY||Mean Difference (Net)|-19.0||||0.0718|ONE_SIDED|2.5||6.7|||t-test, 1 sided|||||6.7||0.0718
92383142|NCT04508530|184669141|SUPERIORITY|||||||0.0111|||||||Chi-squared|||||||0.0111
92383143|NCT05216224|184669158|SUPERIORITY||LS Mean Difference|3.01|||>|0.999|TWO_SIDED|90.0|1.5|4.52||Significance level of 0.05|MMRM|Fixed effect terms for treatment, study visit, treatment by visit interaction and baseline count of inflammatory abscesses and nodules as a covariate.||||4.52|1.50|>0.999
92383144|NCT03245008|184669166|SUPERIORITY||Least Squares Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.57|-0.86||Adjusted P-value|Mixed Models Analysis|||||-0.86|-1.57|<0.001
92383145|NCT03245008|184669166|SUPERIORITY||Least Squares Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.21||0.103|TWO_SIDED|95.0|-0.76|0.07||Adjusted P-value|Mixed Models Analysis|||||0.07|-0.76|0.103
92383146|NCT03245008|184669167|SUPERIORITY||Least Squares Mean Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.6|-0.92||Adjusted P-value|Mixed Models Analysis|||||-0.92|-1.60|<0.001
92383147|NCT03245008|184669167|SUPERIORITY||Least Squares Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.84|-0.05||||||||-0.05|-0.84|
92383148|NCT00454584|184669262|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||||||<0.001
92383149|NCT00454584|184669262|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||To control the overall type I error rate at 0.05 level in the primary endpoint analysis, a step-down test procedure was applied. First, ustekinumab 90 mg and etanercept were compared. Then ustekinumab 45 mg and etanercept would be compared.|Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and etanercept at an overall significant level of 0.05. Sample Size: Assuming the PASI 75 response rates of ustekinumab 90 mg, 45 mg, etanercept are 65%, 64%, and 50% , respectively, with 325 participants each in the ustekinumab 90 mg and etanercept groups, the power to detect a treatment difference is 97%. With 200 participants in the ustekinumab 45 mg group, the complete power to further detect a treatment difference was 87%.||||0.012
92383150|NCT00454584|184669263|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||||||<0.001
92383151|NCT00454584|184669263|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and etanercept at an overall significant level of 0.05.||||<0.001
92383152|NCT00454584|184669264|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||||||<0.001
92383153|NCT00454584|184669264|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and etanercept at an overall significant level of 0.05.||||<0.001
92383154|NCT02250664|184669266|SUPERIORITY||Mean Difference (Net)|-5.33|STANDARD_ERROR_OF_MEAN|1.06|<|0.0001|TWO_SIDED|95.0|-7.41|-3.26||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANCOVA||Group difference = 0.12 mg nicotine - 0.8 mg nicotine|The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 4.52 CPD between the 0.8 mg and 0.12 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.||-3.26|-7.41|<0.0001
92383155|NCT02250664|184669266|SUPERIORITY||Mean Difference (Net)|-7.54|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-9.51|-5.57||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANOVA|||The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 4.52 CPD between the 0.8 mg and 0.12 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.|Group difference = 0.03 mg nicotine - 0.8 mg nicotine|-5.57|-9.51|<0.0001
92383156|NCT00915551|184669452|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92383157|NCT00915551|184669453|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92383158|NCT01031979|184669466|SUPERIORITY_OR_OTHER||Beta|-1.44|||<|0.001|TWO_SIDED|95.0|-2.29|-0.59|||mixed effects/hierarchical linear model|||||-0.59|-2.29|<0.001
92233178|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.87|-0.72|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.72|-1.87|<0.001
92233179|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.31||0.027|TWO_SIDED|95.0|-1.28|-0.08|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.08|-1.28|0.027
92383159|NCT01031979|184669467|SUPERIORITY_OR_OTHER||Slope|-0.87||||0.39|TWO_SIDED||||||Hierarchical Linear Modeling|||||||.39
92383160|NCT01031979|184669468|SUPERIORITY_OR_OTHER||Slope|-0.55||||0.58|TWO_SIDED||||||Hierarchical Linear Modeling|||||||.58
92383161|NCT01031979|184669469|SUPERIORITY_OR_OTHER||Beta|-1.6||||0.03|TWO_SIDED|95.0|-2.71|-0.49|||Hierarchical Linear Modeling|||||-0.49|-2.71|.03
92383162|NCT03831100|184669470|SUPERIORITY||Mean Difference (Net)|-2.1||||0.25|TWO_SIDED|90.0|-5.0|0.9||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|Regression, Linear||The mean for each study arm represents the mean difference in the score at the post-treatment timepoint relative to the score at baseline. The mean difference (net) represents the mean model-based difference between study arms.|||0.9|-5.0|0.25
92383163|NCT03831100|184669471|SUPERIORITY||Mean Difference (Net)|-5.8||||0.006|TWO_SIDED|90.0|-9.1|-2.5||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|Regression, Linear||The mean for each study arm represents the mean difference in the score at the post-treatment timepoint relative to the score at baseline. The mean difference (net) represents the mean model-based difference between study arms.|||-2.5|-9.1|.006
92383164|NCT03831100|184669472|SUPERIORITY||Mean Difference (Net)|-7.9||||0.1|TWO_SIDED|90.0|-15.9|0.0||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|Regression, Linear||The mean for each study arm represents the mean difference in the score at the post-treatment timepoint relative to the score at baseline. The mean difference (net) represents the mean model-based difference between study arms.|||0.0|-15.9|.10
92383165|NCT03831100|184669473|SUPERIORITY||Mean Difference (Net)|-17.1||||0.002|TWO_SIDED|90.0|-25.6|-8.6||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|Regression, Linear|||||-8.6|-25.6|.002
92383166|NCT03831100|184669474|SUPERIORITY||Mean Difference (Net)|-3.4||||0.3|TWO_SIDED|90.0|-8.8|2.0||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores|||2.0|-8.8|0.30
92383167|NCT03831100|184669475|SUPERIORITY||Median Difference (Net)|-9.7||||0.005|TWO_SIDED|90.0|-15.2|-4.2||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||-4.2|-15.2|0.005
92383168|NCT03831100|184669476|SUPERIORITY||Mean Difference (Net)|-3.4||||0.064|TWO_SIDED|90.0|-6.4|0.4||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||0.4|-6.4|0.064
92383169|NCT03831100|184669477|SUPERIORITY||Mean Difference (Net)|-4.3||||0.046|TWO_SIDED|90.0|-7.8|-0.8||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||-0.8|-7.8|0.046
92415131|NCT04575597|184720233|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.66|1.16||||||||1.16|0.66|
92415132|NCT04575597|184720234|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|0.46|3.32||||||||3.32|0.46|
92233180|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.31||0.071|TWO_SIDED|95.0|-1.15|0.05|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.05|-1.15|0.071
92233181|NCT00733902|184368871|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-1.78|-0.58|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.58|-1.78|<0.001
92233182|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.27||0.326|TWO_SIDED|95.0|-0.8|0.27|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.27|-0.80|0.326
92383170|NCT03831100|184669478|SUPERIORITY||Mean Difference (Net)|-1.5||||0.49|TWO_SIDED|90.0|-5.2|2.1||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||2.1|-5.2|0.49
92383171|NCT03831100|184669479|SUPERIORITY||Mean Difference (Net)|-3.1||||0.14|TWO_SIDED|90.0|-6.5|0.3||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||0.3|-6.5|0.14
92415133|NCT04575597|184720234|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.42|||||TWO_SIDED|95.0|0.54|3.74||||||||3.74|0.54|
92233183|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.275|TWO_SIDED|95.0|-0.24|0.83|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.83|-0.24|0.275
92280490|NCT00601484|184463638|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-0.71|||||TWO_SIDED|90.0|-30.95|32.73||||||Week 10: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||32.73|-30.95|
92415134|NCT04575597|184720234|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.34|2.76||||||||2.76|0.34|
92415135|NCT04575597|184720234|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.66|1.1||||||||1.10|0.66|
92415136|NCT04575597|184720235|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.41|2.52||||||||2.52|0.41|
92415137|NCT04575597|184720235|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.26|1.9||||||||1.90|0.26|
92415138|NCT04575597|184720235|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|0.51|3.0||||||||3.00|0.51|
92415139|NCT04575597|184720235|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.69|1.17||||||||1.17|0.69|
92415140|NCT04575597|184720236|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.36|1.75||||||||1.75|0.36|
92415141|NCT04575597|184720236|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.33|1.64||||||||1.64|0.33|
92415142|NCT04575597|184720236|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.31|1.62||||||||1.62|0.31|
92415143|NCT04575597|184720236|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.76|1.16||||||||1.16|0.76|
92415144|NCT04575597|184720237|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.25|1.39||||||||1.39|0.25|
92415145|NCT04575597|184720237|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.38|1.78||||||||1.78|0.38|
92415146|NCT04575597|184720237|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.25|1.39||||||||1.39|0.25|
92415147|NCT04575597|184720237|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.91|1.48||||||||1.48|0.91|
92415148|NCT04575597|184720238|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.26|1.34||||||||1.34|0.26|
92415149|NCT04575597|184720238|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.28|1.37||||||||1.37|0.28|
92415150|NCT04575597|184720238|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.38|1.74||||||||1.74|0.38|
92415151|NCT04575597|184720238|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.79|1.21||||||||1.21|0.79|
92415152|NCT04575597|184720239|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.47|3.02||||||||3.02|0.47|
92415153|NCT04575597|184720239|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.29|2.2||||||||2.20|0.29|
92415154|NCT04575597|184720239|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.32|2.45||||||||2.45|0.32|
92415155|NCT04575597|184720239|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.62|1.11||||||||1.11|0.62|
92233184|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.27||0.918|TWO_SIDED|95.0|-0.51|0.56|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.56|-0.51|0.918
92233185|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.27||0.002|TWO_SIDED|95.0|-1.39|-0.32|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.32|-1.39|0.002
92415156|NCT04575597|184720240|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.3|2.27||||||||2.27|0.30|
92415157|NCT04575597|184720240|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.21|||||TWO_SIDED|95.0|0.04|1.0||||||||1.00|0.04|
92415158|NCT04575597|184720240|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.23|1.91||||||||1.91|0.23|
92415159|NCT04575597|184720240|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.62|1.23||||||||1.23|0.62|
92415160|NCT04575597|184720241|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.28|1.2||||||||1.20|0.28|
92415161|NCT04575597|184720241|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.2|0.95||||||||0.95|0.20|
92415162|NCT04575597|184720241|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.43|1.59||||||||1.59|0.43|
92415163|NCT04575597|184720241|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.73|1.19||||||||1.19|0.73|
92415164|NCT04575597|184720242|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.35|2.11||||||||2.11|0.35|
92415165|NCT04575597|184720242|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.16|1.34||||||||1.34|0.16|
92415166|NCT04575597|184720242|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.5|2.79||||||||2.79|0.50|
92415167|NCT04575597|184720242|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.74|1.32||||||||1.32|0.74|
92415168|NCT04575597|184720243|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.06|15.54||||||||15.54|0.06|
92415169|NCT04575597|184720243|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.0|||||TWO_SIDED|95.0|0.0||NA = Upper limit not reached as no events were recorded||||||||0.00|
92233186|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.27||0.052|TWO_SIDED|95.0|-1.06|0.0|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.00|-1.06|0.052
92415170|NCT04575597|184720243|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.06|15.99||||||||15.99|0.06|
92415171|NCT04575597|184720243|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.46|1.25||||||||1.25|0.46|
92415172|NCT04575597|184720244|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.58|3.83||||||||3.83|0.58|
92415173|NCT04575597|184720244|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.42|3.05||||||||3.05|0.42|
92415174|NCT04575597|184720244|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.57|3.93||||||||3.93|0.57|
92415175|NCT04575597|184720244|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.61|1.1||||||||1.10|0.61|
92415176|NCT04575597|184720245|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.36|||||TWO_SIDED|95.0|0.11|1.21||||||||1.21|0.11|
92233187|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.5|-0.44|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.44|-1.50|<0.001
92233188|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.27||0.006|TWO_SIDED|95.0|-1.26|-0.21|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.21|-1.26|0.006
92415177|NCT04575597|184720245|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.2|1.36||||||||1.36|0.20|
92415178|NCT04575597|184720245|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.29|1.89||||||||1.89|0.29|
92415179|NCT04575597|184720245|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.68|1.2||||||||1.20|0.68|
92415180|NCT04575597|184720246|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.09|1.33||||||||1.33|0.09|
92415181|NCT04575597|184720246|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.3|2.15||||||||2.15|0.30|
92415182|NCT04575597|184720246|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.18|1.48||||||||1.48|0.18|
92415183|NCT04575597|184720246|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.62|1.04||||||||1.04|0.62|
92415184|NCT04575597|184720247|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|3.04|||||TWO_SIDED|95.0|0.59|15.59||||||||15.59|0.59|
92415185|NCT04575597|184720247|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.29|6.16||||||||6.16|0.29|
92415186|NCT04575597|184720247|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.37|||||TWO_SIDED|95.0|0.09|1.44||||||||1.44|0.09|
92415187|NCT04575597|184720247|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.62|2.3||||||||2.30|0.62|
92415188|NCT04575597|184720248|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|3.67|||||TWO_SIDED|95.0|1.14|11.88||||||||11.88|1.14|
92415189|NCT04575597|184720248|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.34|3.98||||||||3.98|0.34|
92415190|NCT04575597|184720248|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.27|2.68||||||||2.68|0.27|
92415191|NCT04575597|184720248|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.52|||||TWO_SIDED|95.0|0.96|2.39||||||||2.39|0.96|
92415192|NCT04575597|184720249|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.68|||||TWO_SIDED|95.0|0.82|3.45||||||||3.45|0.82|
92415193|NCT04575597|184720249|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.55|2.33||||||||2.33|0.55|
92415194|NCT04575597|184720249|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.59|||||TWO_SIDED|95.0|0.27|1.29||||||||1.29|0.27|
92415195|NCT04575597|184720249|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.58|||||TWO_SIDED|95.0|1.14|2.2||||||||2.20|1.14|
92415196|NCT04575597|184720250|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.41|||||TWO_SIDED|95.0|0.73|2.73||||||||2.73|0.73|
92415197|NCT04575597|184720250|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.52|1.94||||||||1.94|0.52|
92415198|NCT04575597|184720250|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.34|1.32||||||||1.32|0.34|
92415199|NCT04575597|184720250|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.36|||||TWO_SIDED|95.0|1.03|1.78||||||||1.78|1.03|
92233189|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.27||0.004|TWO_SIDED|95.0|-1.28|-0.24|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.24|-1.28|0.004
92233190|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.91|-0.86|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.86|-1.91|<0.001
92383172|NCT03831100|184669480|SUPERIORITY||Mean Difference (Net)|3.2||||0.082|TWO_SIDED|90.0|0.2|6.3||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||6.3|0.2|0.082
92383173|NCT03831100|184669481|SUPERIORITY||Mean Difference (Net)|2.7||||0.15|TWO_SIDED|90.0|-0.4|5.7||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||5.7|-0.4|0.15
92383174|NCT03831100|184669482|SUPERIORITY||Mean Difference (Net)|-2.2||||0.22|TWO_SIDED|90.0|-5.2|-0.7||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||-0.7|-5.2|0.22
92383175|NCT03831100|184669483|SUPERIORITY||Mean Difference (Net)|-2.9||||0.093|TWO_SIDED|90.0|-5.8|-0.1||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||-0.1|-5.8|0.093
92383176|NCT01732770|184669496|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The lower bound of the 2-sided 95% confidence interval (CI) of (denosumab - zoledronic acid) was compared with the non-inferiority margin of -0.46% for assessing non-inferiority.|Treatment Difference|2.1|||<|0.0001|TWO_SIDED|95.0|1.6|2.6|||ANCOVA|The model included treatment, screening sCTX, baseline BMD, DXA machine type (Hologic or Lunar), and baseline BMD-by-machine type interaction.|Treatment difference = denosumab - zoledronic acid|A step-down sequential testing procedure was used in order to maintain the overall type I error rate at 5% for the tests of primary and secondary BMD endpoints. For the non-inferiority analysis the 1-sided significance level was 2.5%.||2.6|1.6|<0.0001
92383177|NCT01732770|184669497|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The lower bound of the 2-sided 95% CI) of (denosumab - zoledronic acid) was compared with the non-inferiority margin of -0.51% for assessing non-inferiority.|Treatment Difference|1.4|||<|0.0001|TWO_SIDED|95.0|1.0|1.7|||ANCOVA|The model included treatment, screening sCTX, baseline BMD, DXA machine type (Hologic or Lunar), and baseline BMD-by-machine type interaction.|Treatment difference = denosumab - zoledronic acid|A step-down sequential testing procedure was used in order to maintain the overall type I error rate at 5% for the tests of primary and secondary BMD endpoints. For the non-inferiority analysis the 1-sided significance level was 2.5%.||1.7|1.0|<0.0001
92233191|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.5|-0.43|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.43|-1.50|<0.001
92383178|NCT01732770|184669498|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|2.1|||<|0.0001|TWO_SIDED|95.0|1.6|2.6|||ANCOVA|The model included treatment, screening sCTX, baseline BMD, DXA machine type (Hologic or Lunar), and baseline BMD-by-machine type interaction.|Treatment difference = denosumab - zoledronic acid|A step-down sequential testing procedure was used in order to maintain the overall type I error rate at 5% for the tests of primary and secondary BMD endpoints. For the superiority analysis the 2-sided significance level was 5%.||2.6|1.6|<0.0001
92383179|NCT01732770|184669499|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.4|||<|0.0001|TWO_SIDED|95.0|1.0|1.7|||ANCOVA|The model included treatment, screening sCTX, baseline BMD, DXA machine type (Hologic or Lunar), and baseline BMD-by-machine type interaction.|Treatment difference = denosumab - zoledronic acid|A step-down sequential testing procedure was used in order to maintain the overall type I error rate at 5% for the tests of primary and secondary BMD endpoints. For the superiority analysis the 2-sided significance level was 5%.||1.7|1.0|<0.0001
92415200|NCT04575597|184720251|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.35|1.66||||||||1.66|0.35|
92233192|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.27||0.005|TWO_SIDED|95.0|-1.3|-0.23|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.23|-1.30|0.005
92233193|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.75|-0.69|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.69|-1.75|<0.001
92280491|NCT00601484|184463638|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|34.89|||||TWO_SIDED|90.0|-4.57|70.0||||||Week 16: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||70.00|-4.57|
92383180|NCT04493281|184669522|EQUIVALENCE|The analysis was performed by analysis of variance (ANOVA), which included factors accounting for the following sources of variation: sequence, subjects nested in sequences, period, and treatment. For bioequivalence, the 90% CIs of the geometric mean ratio of AUC0-t for oral suspension and intravenous formulation were required to be within the range of 0.80 to 1.25.|Ratio (PO/IV)|0.97|||||TWO_SIDED|90.0|0.91|1.04||||||||1.04|0.91|
92415201|NCT04575597|184720251|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.38|1.79||||||||1.79|0.38|
92233194|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.28||0.061|TWO_SIDED|95.0|-1.07|0.02|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.02|-1.07|0.061
92280492|NCT00601484|184463639|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.529|0.61||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.610|-0.529|
92280493|NCT00601484|184463639|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.334|||TWO_SIDED|90.0|-1.077|0.043||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.043|-1.077|
92383181|NCT04493281|184669523|EQUIVALENCE|The analysis was performed by analysis of variance (ANOVA), which included factors accounting for the following sources of variation: sequence, subjects nested in sequences, period, and treatment. For bioequivalence, the 90% CIs of the geometric mean ratio of AUC0-inf for oral suspension and intravenous formulation were required to be within the range of 0.80 to 1.25.|Ratio (PO/IV)|0.98|||||TWO_SIDED|90.0|0.92|1.04||||||||1.04|0.92|
92383182|NCT04493281|184669524|EQUIVALENCE|The analysis was performed by analysis of variance (ANOVA), which included factors accounting for the following sources of variation: sequence, subjects nested in sequences, period, and treatment. For bioequivalence, the 90% CIs of the geometric mean ratio of Cmax for oral suspension and intravenous formulation were required to be within the range of 0.80 to 1.25.|Ratio (PO/IV)|1.22|||||TWO_SIDED|90.0|1.09|1.36||||||||1.36|1.09|
92383183|NCT03176771|184669569|SUPERIORITY||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-4.5|-2.6|||Mixed-effect Model Repeated Measures|||"Control for multiplicity was accomplished through the a fixed-sequence testing procedure for Week 6 outcomes:~* AIMS dyskinesia total score mean change from baseline (CFB): MT-5199 80 mg vs. placebo.~* AIMS: MT-5199 40 mg vs. PBO. For a test result in the above list to be considered statistically significant, all of the test results higher in the list must have been significant at the 0.05 level of significance."||-2.6|-4.5|<0.001
92383184|NCT03176771|184669569|SUPERIORITY||Median Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-1.3|||Mixed-effect Model Repeated Measures|||||-1.3|-3.0|<0.001
92383185|NCT03176771|184669570|SUPERIORITY||Risk Difference (RD)|13.6||||0.027|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.027
92415202|NCT04575597|184720251|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.37|1.81||||||||1.81|0.37|
92415203|NCT04575597|184720251|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.84|1.29||||||||1.29|0.84|
92415204|NCT04575597|184720252|OTHER|Difference in rates % and associated CIs were based on the Miettinen \& Nurminen method stratified by randomization strata. Unknown survival status at Day 29 was treated as failure.|Difference in Rates %|-3.0|||||TWO_SIDED|95.0|-5.9|-0.1||||||||-0.1|-5.9|
92233195|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.28||0.021|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.10|-1.20|0.021
92233196|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.85|-0.76|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.76|-1.85|<0.001
92383186|NCT03176771|184669570|SUPERIORITY||Risk Difference (RD)|36.9|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92383187|NCT03176771|184669571|SUPERIORITY||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.6||0.013|TWO_SIDED|95.0|-2.7|-0.3|||Mixed-effect Model Repeated Measures|||||-0.3|-2.7|0.013
92383188|NCT03176771|184669571|SUPERIORITY||Mean Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-3.5|-1.1|||Mixed-effect Model Repeated Measures|||||-1.1|-3.5|<0.001
92383189|NCT03176771|184669572|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.021|TWO_SIDED|95.0|-0.7|-0.1|||ANOVA|||||-0.1|-0.7|0.021
92383190|NCT03176771|184669572|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.0|-0.3|||ANOVA|||||-0.3|-1.0|<0.001
92383191|NCT04776135|184669595|OTHER|AUC0-t was log-transformed and analyzed by analysis of variance using administration groups, the administration route, study periods, and subjects as factors. Estimates of the mean values on the log scale, the mean difference between administration routes on the log scale, and 90% CIs for the difference were back transformed to present mean ratios and their 90% CIs for administration via NGT to oral administration.|Ratio (NGT/oral)|0.987|||||TWO_SIDED|90.0|0.936|1.041|||ANOVA|||For AUC0-t, MT-1186 orally Versus MT-1186 via NGT||1.041|0.936|
92383192|NCT04776135|184669595|OTHER|AUC0-inf was log-transformed and analyzed by analysis of variance using administration groups, the administration route, study periods, and subjects as factors. Estimates of the mean values on the log scale, the mean difference between administration routes on the log scale, and 90% CIs for the difference were back transformed to present mean ratios and their 90% CIs for administration via NGT to oral administration.|Ratio (NGT/oral)|0.981|||||TWO_SIDED|90.0|0.931|1.033|||ANOVA|||For AUC0-inf, MT-1186 orally Versus MT-1186 via NGT||1.033|0.931|
92415205|NCT01029405|184720282|SUPERIORITY_OR_OTHER||||||<|0.001|||||||2-sided sign test|||||||<0.001
92415206|NCT03312751|184720287|SUPERIORITY||Overall response rate|62.9||||0.0053|TWO_SIDED|95.0|44.9|78.5|||Exact binomial|||The primary efficacy endpoint was analyzed with an exact binomial test to evaluate the null hypothesis that the Overall Response Rate was, at most, 40%. This test was performed at the one sided 0.025 significance level.||78.5|44.9|0.0053
92415207|NCT03312751|184720287|SUPERIORITY|||||||0.2839|||||||Exact binomial|||The primary efficacy endpoint was analyzed with an exact binomial test to evaluate the null hypothesis that the Overall Response Rate was, at most, 40%. This test was performed at the one sided 0.025 significance level.||||0.2839
92383193|NCT04776135|184669596|OTHER|Cmax was log-transformed and analyzed by analysis of variance using administration groups, the administration route, study periods, and subjects as factors. Estimates of the mean values on the log scale, the mean difference between administration routes on the log scale, and 90% CIs for the difference were back transformed to present mean ratios and their 90% CIs for administration via NGT to oral administration.|Ratio (NGT/oral)|1.052|||||TWO_SIDED|90.0|0.903|1.227|||ANOVA|||MT-1186 orally Versus MT-1186 via NGT||1.227|0.903|
92233197|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.28||0.166|TWO_SIDED|95.0|-0.95|0.16|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.16|-0.95|0.166
92233198|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.28||0.167|TWO_SIDED|95.0|-0.95|0.16|||ANOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.16|-0.95|0.167
92233199|NCT00733902|184368872|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.75|-0.64|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.64|-1.75|<0.001
92278319|NCT01694485|184458544|SUPERIORITY|If both comparisons of the primary endpoint reached statistical significance at 0.10, results from the 2 key secondary endpoints (response and mucosal healing at week 8) were to be sequentially (70 mg vs placebo then 210 mg vs placebo) tested at significance level of 0.05 independently of each other, according to the Bonferroni-based chain procedure.|Odds Ratio (OR)|2.1||||0.041|TWO_SIDED|90.0|1.15|3.82|||Regression, Logistic|Adjusted for baseline rectosigmoidoscopy score and stratification factors|An odds ratio \> 1.0 indicates a higher healing rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using healing rates from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.82|1.15|0.041
92278320|NCT01694485|184458544|SUPERIORITY||Difference in Adjusted Healing Rates|13.0|||||TWO_SIDED|90.0|1.7|22.1||||||The difference in adjusted healing rates, estimated from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||22.1|1.7|
92383194|NCT03392649|184669622|SUPERIORITY|||||||0.6|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.60
92383195|NCT03392649|184669623|SUPERIORITY|||||||0.34|||||||Chi-squared|||||||0.34
92383196|NCT03392649|184669624|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
92383197|NCT03392649|184669625|SUPERIORITY|||||||0.09|||||||Fisher Exact|||||||0.09
92383198|NCT03392649|184669626|SUPERIORITY|||||||0.16|||||||Fisher Exact|||||||0.16
92415208|NCT03312751|184720287|SUPERIORITY|||||||0.0031|||||||Exact binomial|||The primary efficacy endpoint was analyzed with an exact binomial test to evaluate the null hypothesis that the Overall Response Rate was, at most, 40%. This test was performed at the one sided 0.025 significance level.||||0.0031
92415209|NCT02692651|184720305|SUPERIORITY|||||||0.195|||||||Chi-squared, Corrected|||||||0.195
92415210|NCT02692651|184720306|SUPERIORITY|||||||0.99|||||||Chi-squared, Corrected|||||||.99
92415211|NCT02692651|184720307|SUPERIORITY|||||||0.999|||||||Chi-squared, Corrected|||||||.999
92233200|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.27||0.044|TWO_SIDED|95.0|-1.07|-0.02|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.02|-1.07|0.044
92233201|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.27||0.875|TWO_SIDED|95.0|-0.57|0.48|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.48|-0.57|0.875
92233202|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.129|TWO_SIDED|95.0|-0.93|0.12|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.12|-0.93|0.129
92233203|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.51|-0.45|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.45|-1.51|<0.001
92233204|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.27||0.002|TWO_SIDED|95.0|-1.38|-0.32|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.32|-1.38|0.002
92383199|NCT03392649|184669627|SUPERIORITY|||||||0.67|||||||Fisher Exact|||||||0.67
92383200|NCT03392649|184669628|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
92383201|NCT03392649|184669629|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
92383202|NCT04617496|184669637|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|3.3||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
92383203|NCT04617496|184669638|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92383204|NCT01192412|184669642|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.77|1.35||||||We estimated that with a sample size of 514 per group, the study would have 80% power, at a two-tailed alpha level of 0.05, assuming primary outcome rates of 33% in the tight-control group and 25% in the less-tight-control group, a 10% rate of crossover, a 1% loss to follow-up, and two interim analyses, as calculated with the chi-square test with the use of East software (Cytel) and the Lan-DeMets spending function with O'Brien-Fleming-type boundaries for early stopping.||1.35|0.77|
92383205|NCT01192412|184669643|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74|||||TWO_SIDED|95.0|0.79|3.84||||||||3.84|0.79|
92383206|NCT02421588|184669644|SUPERIORITY||Hazard Ratio (HR)|1.057||||0.6294|TWO_SIDED|95.0|0.854|1.309|||Log Rank|||PFS between treatments||1.309|0.854|0.6294
92415212|NCT03490981|184720308|SUPERIORITY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.47||0.486|TWO_SIDED||||||ANCOVA|||||||.486
92415213|NCT03490981|184720309|SUPERIORITY||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|1.16||0.342|TWO_SIDED||||||ANCOVA|||||||.342
92415214|NCT03490981|184720310|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|1.31||0.646|TWO_SIDED||||||ANCOVA|||||||.646
92383207|NCT02421588|184669644|SUPERIORITY||PFS at 6 months|24.3|||||TWO_SIDED|95.0|18.4|30.7|||||Percent of Participants|PFS (%) at 6 months||30.7|18.4|
92383208|NCT02421588|184669644|SUPERIORITY||PFS at 6 months|27.5|||||TWO_SIDED|95.0|20.9|34.4|||||Percent of Participants|PFS (%) at 6 months||34.4|20.9|
92383209|NCT02421588|184669644|SUPERIORITY|||||||0.5032|||||||Normal approximation|||PFS (%) at 6 months between treatments||||0.5032
92383210|NCT02421588|184669644|SUPERIORITY||PFS at 12 months|8.3|||||TWO_SIDED|95.0|4.7|13.3|||||Percent of Participants|PFS (%) at 12 months||13.3|4.7|
92383211|NCT02421588|184669644|SUPERIORITY||PFS at 12 months|7.0|||||TWO_SIDED|95.0|3.3|12.5|||||Percent of Participants|PFS (%) at 12 months||12.5|3.3|
92383212|NCT02421588|184669644|SUPERIORITY|||||||0.6742|||||||Normal approximation|||PFS (%) at 12 months between treatments||||0.6742
92383213|NCT02421588|184669645|SUPERIORITY||Hazard Ratio (HR)|0.987||||0.7673|TWO_SIDED|95.0|0.805|1.209|||Log Rank|||PFS between treatments||1.209|0.805|0.7673
92383214|NCT02421588|184669645|SUPERIORITY||PFS at 6 months|29.0|||||TWO_SIDED|95.0|22.8|35.4|||||Percent of Participants|PFS (%) at 6 months||35.4|22.8|
92383215|NCT02421588|184669645|SUPERIORITY||PFS at 6 months|27.4|||||TWO_SIDED|95.0|21.3|33.9|||||Percent of Participants|PFS (%) at 6 months||33.9|21.3|
92280494|NCT00601484|184463639|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.366|||TWO_SIDED|90.0|-0.835|0.396||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.396|-0.835|
92415215|NCT03490981|184720311|SUPERIORITY||Mean Difference (Final Values)|1.13|STANDARD_ERROR_OF_MEAN|0.205||0.205|TWO_SIDED||||||ANCOVA|||||||.205
92415216|NCT03490981|184720312|SUPERIORITY||Mean Difference (Final Values)|-2.05|STANDARD_ERROR_OF_MEAN|2.94||0.492|TWO_SIDED||||||ANCOVA|||||||.492
92415217|NCT03490981|184720313|SUPERIORITY||Mean Difference (Final Values)|4.31|STANDARD_ERROR_OF_MEAN|3.84||0.272|TWO_SIDED||||||ANCOVA|||||||.272
92383216|NCT02421588|184669645|SUPERIORITY|||||||0.7385|||||||Normal approximation|||PFS (%) at 6 months between treatments||||0.7385
92383217|NCT02421588|184669645|SUPERIORITY||PFS (%) at 12 months|8.2|||||TWO_SIDED|95.0|4.8|12.7|||||Percent of Participants|PFS (%) at 12 months||12.7|4.8|
92383218|NCT02421588|184669645|SUPERIORITY||PFS (%) at 12 months|7.5|||||TWO_SIDED|95.0|4.2|12.2|||||Percent of Participants|PFS (%) at 12 months||12.2|4.2|
92383219|NCT02421588|184669645|SUPERIORITY|||||||0.8245|||||||Normal approximation|||PFS (%) at 12 months between treatments||||0.8245
92383220|NCT02421588|184669646|SUPERIORITY||Hazard Ratio (HR)|0.956||||0.8021|TWO_SIDED|95.0|0.772|1.183|||Log Rank|||OS between treatments||1.183|0.772|0.8021
92383221|NCT02421588|184669646|SUPERIORITY||OS at 12 months|48.2|||||TWO_SIDED|95.0|41.3|54.8|||||Percent of Participants|OS (%) at 12 months||54.8|41.3|
92383222|NCT02421588|184669646|SUPERIORITY||OS (%) at 12 months|45.3|||||TWO_SIDED|95.0|38.4|52.0|||||Percent of Participants|OS (%) at 12 months||52.0|38.4|
92383223|NCT02421588|184669646|SUPERIORITY|||||||0.5515|||||||Normal approximation|||OS (%) at 12 months between treatments||||0.5515
92383224|NCT02421588|184669646|SUPERIORITY||OS (%) at 24 months|22.3|||||TWO_SIDED|95.0|16.8|28.2|||||Percent of Participants|OS (%) at 24 months||28.2|16.8|
92383225|NCT02421588|184669646|SUPERIORITY||OS (%) at 24 months|22.7|||||TWO_SIDED|95.0|17.1|28.7|||||Percent of Participants|OS (%) at 24 months||28.7|17.1|
92383226|NCT02421588|184669646|SUPERIORITY|||||||0.9253|||||||Normal approximation|||OS (%) at 24 months between treatments||||0.9253
92383227|NCT02421588|184669647|SUPERIORITY||ORR|14.5|||||TWO_SIDED|95.0|10.1|19.8|||||Percent of Participants|Overall response rate||19.8|10.1|
92383228|NCT02421588|184669647|SUPERIORITY||ORR|12.7|||||TWO_SIDED|95.0|8.6|17.8|||||Percent of Participants|Overall response rate||17.8|8.6|
92383229|NCT02421588|184669647|SUPERIORITY|||||||0.6772|||||||Fisher Exact|||Overall response rate between treatments||||0.6772
92383230|NCT02421588|184669648|SUPERIORITY||ORR|15.8|||||TWO_SIDED|95.0|11.3|21.3|||||Percent of Participants|Overall response rate (ORR)||21.3|11.3|
92383231|NCT02421588|184669648|SUPERIORITY||Overall response rate (ORR)|16.7|||||TWO_SIDED|95.0|12.1|22.3|||||Percent of Participants|Overall response rate (ORR)||22.3|12.1|
92383232|NCT02421588|184669648|SUPERIORITY|||||||0.8976|||||||Fisher Exact|||Overall response rate (ORR) between treatments||||0.8976
92383233|NCT02421588|184669649|SUPERIORITY||Hazard Ratio (HR)|1.406||||0.2631|TWO_SIDED|95.0|0.769|2.569|||Log Rank|||Duration of response between treatments||2.569|0.769|0.2631
92383234|NCT02421588|184669650|SUPERIORITY|Duration of response between treatments|Hazard Ratio (HR)|1.056||||0.8276|TWO_SIDED|95.0|0.64|1.743|||Log Rank|||||1.743|0.64|0.8276
92383235|NCT02421588|184669651|SUPERIORITY||ORR (%)|26.6|||||TWO_SIDED|95.0|20.2|33.8|||||Percent of Participants|ORR (%) by CA-125||33.8|20.2|
92383236|NCT02421588|184669651|SUPERIORITY||ORR (%)|19.4|||||TWO_SIDED|95.0|13.7|26.3|||||Percent of Participants|ORR (%) by CA-125||26.3|13.7|
92383237|NCT02421588|184669651|SUPERIORITY|||||||0.1231|||||||Fisher Exact|||ORR (%) by CA-125 between treatments||||0.1231
92383238|NCT03436693|184669696|OTHER|Point Estimate|Difference(Multiple imputation method)|11.3|||||TWO_SIDED|95.0|1.2|21.5||||||||21.5|1.2|
92383239|NCT03436693|184669697|OTHER|Point Estimate|Difference(Multiple imputation method)|3.8|||||TWO_SIDED|95.0|-4.1|11.7||||||||11.7|-4.1|
92383240|NCT03436693|184669698|SUPERIORITY||Difference of LSMean|1.09||||0.351|TWO_SIDED|95.0|-1.21|3.4|||Mixed Models Analysis|||||3.40|-1.21|0.351
92383241|NCT03436693|184669699|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.293|TWO_SIDED|95.0|0.23|1.55|||Regression, Cox|||||1.55|0.23|0.293
92383242|NCT03436693|184669700|SUPERIORITY||Ratio of Geometric LSMean|0.52|||<|0.001|TWO_SIDED|95.0|0.418|0.646|||Mixed Models Analysis|||||0.646|0.418|<0.001
92383243|NCT04481789|184669701|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Rosuvastatin + Edaravone / Rosuvastatin Alone).|LS Mean Ratio|1.02|||||TWO_SIDED|90.0|0.97|1.08||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||1.08|0.97|
92415218|NCT03490981|184720314|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|4.82||0.87|TWO_SIDED||||||ANCOVA|||||||.870
92383244|NCT04481789|184669701|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Sildenafil + Edaravone / Sildenafil Alone).|LS Mean Ratio|0.93|||||TWO_SIDED|90.0|0.88|0.99||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||0.99|0.88|
92383245|NCT04481789|184669701|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Furosemide + Edaravone / Furosemide Alone).|LS Mean Ratio|1.03|||||TWO_SIDED|90.0|0.98|1.09||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||1.09|0.98|
92383246|NCT04481789|184669702|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Rosuvastatin + Edaravone / Rosuvastatin).|LS Mean Ratio|0.98|||||TWO_SIDED|90.0|0.91|1.06||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||1.06|0.91|
92383247|NCT04481789|184669702|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Sildenafil + Edaravone / Sildenafil Alone).|LS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.8|1.1||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||1.10|0.80|
92383248|NCT04481789|184669702|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Furosemide + Edaravone / Furosemide Alone).|LS Mean Ratio|1.08|||||TWO_SIDED|90.0|0.96|1.23||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||1.23|0.96|
92383249|NCT04481789|184669717|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of 1 Hour After a High-fat Meal condition to the fasted state.|LS Mean Ratio|0.842|||||TWO_SIDED|90.0|0.697|1.017||||||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.017|0.697|
92383250|NCT04481789|184669717|OTHER|Estimated difference in least squares means and corresponding 90% CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of 4 Hours After a High-fat Meal condition to the fasted state.|LS Mean Ratio|0.737|||||TWO_SIDED|90.0|0.61|0.891||||||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||0.891|0.610|
92383251|NCT04481789|184669718|OTHER|Estimated difference in least squares means and corresponding 90% CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of 1 Hour After a High-fat Meal condition to the fasted state.|LS Mean Ratio|0.657|||||TWO_SIDED|90.0|0.379|1.137||||||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.137|0.379|
92415219|NCT03490981|184720315|SUPERIORITY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|1.67||0.57|TWO_SIDED||||||ANCOVA|||||||.570
92415220|NCT01860846|184720334|SUPERIORITY_OR_OTHER||||||=|0.004||||||Baseline vs. 12 months|Wilcoxon signed-ranked test|||The null hypothesis was set as no difference.||||=0.004
92280495|NCT00601484|184463639|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.294|||TWO_SIDED|90.0|-0.718|0.273||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.273|-0.718|
92415221|NCT01860846|184720335|SUPERIORITY_OR_OTHER||||||=|0.022||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||The null hypothesis was set as no difference.||||= 0.022
92415222|NCT01860846|184720336|SUPERIORITY_OR_OTHER||||||=|0.006||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||The null hypothesis was set as no difference.||||= 0.006
92415223|NCT01860846|184720337|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||The null hypothesis was set as no difference.||||< 0.001
92415224|NCT01860846|184720338|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Physical Functioning Scores: the null hypothesis was set as no difference.||||< 0.001
92415225|NCT01860846|184720338|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Role-Physical Scores: the null hypothesis was set as no difference.||||< 0.001
92415226|NCT01860846|184720338|SUPERIORITY_OR_OTHER||||||=|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Role-Emotional Scores: the null hypothesis was set as no difference.||||= 0.001
92415227|NCT01860846|184720338|SUPERIORITY_OR_OTHER||||||=|0.019||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Vitality Scores: the null hypothesis was set as no difference.||||= 0.019
92415228|NCT01860846|184720338|SUPERIORITY_OR_OTHER||||||=|0.017||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Mental Health Scores: the null hypothesis was set as no difference.||||= 0.017
92383252|NCT04481789|184669718|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of 4 Hours After a High-fat Meal condition to the fasted state.|LS Mean Ratio|0.522|||||TWO_SIDED|90.0|0.301|0.903||||||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||0.903|0.301|
92383253|NCT02678923|184669746|SUPERIORITY||LS mean difference|0.73||||0.0738|TWO_SIDED|95.0|-0.07|1.52||Baseline parameter value as a covariate and treatment group as factor, adjusting for country and prior statin use.|ANCOVA|||||1.52|-0.07|0.0738
92383254|NCT02159118|184669751|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92383255|NCT02159118|184669752|SUPERIORITY_OR_OTHER|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
92383256|NCT02159118|184669753|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92383257|NCT02159118|184669754|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92383258|NCT02159118|184669755|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
92383259|NCT02159118|184669756|SUPERIORITY_OR_OTHER|||||||0.93|||||||Wilcoxon (Mann-Whitney)|||||||0.93
92383260|NCT02159118|184669757|SUPERIORITY_OR_OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
92383261|NCT02159118|184669758|SUPERIORITY_OR_OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
92383262|NCT02159118|184669759|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92383263|NCT02522442|184669810|OTHER|Pilot study, not powered for any endpoint.||||||0.377|||||||Chi-squared|||Pilot study, not powered for any endpoint.||||0.377
92383264|NCT02522442|184669811|OTHER|Pilot study, not powered for any endpoint.||||||0.624|||||||Chi-squared|||||||.624
92383265|NCT00975143|184669815|NON_INFERIORITY_OR_EQUIVALENCE|Pre-defined criterion for non-inferiority: upper bound of the 95% CI for the treatment difference \< 4.|LS Mean Difference|0.1382||||0.5077|TWO_SIDED|95.0|-0.2712|0.5475||P values are from analysis of covariance (ANCOVA) controlling for Baseline total nodular lesion count, gender and analysis site.|ANCOVA|The 95% CI of the adjusted least square mean difference (CIP-ISOTRETINOIN minus Isotretinoin) was calculated using the ANCOVA model.||Change from Baseline was calculated as the post-Baseline value minus the Baseline value||0.5475|-0.2712|0.5077
92383266|NCT00975143|184669816|NON_INFERIORITY_OR_EQUIVALENCE|If the two co-primary endpoints were significant, a 95% 2 sided CI on the difference between treatments (CIP-Isotretinoin minus Isotretinoin) was calculated.|Proportion difference|-3.48|||>|0.05|TWO_SIDED|95.0|-8.4|1.4|||Normal approximation|95% CI on difference in proportions (CIP-Isotretinoin minus Isotretinoin) was estimated using normal approximation.||The analysis of the secondary efficacy endpoint was based on observed cases only, with no imputation for missing values.||1.4|-8.4|>0.05
92383267|NCT00975143|184669817|NON_INFERIORITY_OR_EQUIVALENCE|Pre-defined criterion for non-inferiority: lower bound of the 95% CI for the treatment difference \> -10.|Proportion difference|-2.1|||>|0.05|TWO_SIDED|95.0|-7.94|3.74|||Normal approximation|||||3.74|-7.94|>0.05
92383268|NCT01818492|184669821|SUPERIORITY|||||||0.0134|||||||Exact binomial test|This test was undertaken at the one-sided 0.025 significance level.||Pre-specified null hypothesis that ORR is at most 40%.||||0.0134
92383269|NCT01818492|184669822|SUPERIORITY|||||||0.0031|||||||Exact binomial test|This test was undertaken at the one-sided 0.025 significance level.||Pre-specified null hypothesis that ORR is at most 40%||||0.0031
92383270|NCT01818492|184669823|SUPERIORITY|||||||0.0205|||||||Exact binomial test|This test was undertaken at the one-sided 0.025 significance level.||Pre-specified null hypothesis that ORR is at most 40%||||0.0205
92383271|NCT01818492|184669824|SUPERIORITY|||||||0.0053|||||||Exact binomial test|This test was undertaken at the one-sided 0.025 significance level.||Pre-specified null hypothesis that ORR is at most 40%.||||0.0053
92383272|NCT02428413|184669845|SUPERIORITY_OR_OTHER|||||||0.24|||||||t-test, 2 sided|||||||0.24
92383273|NCT02428413|184669846|SUPERIORITY_OR_OTHER|||||||0.26|||||||t-test, 2 sided|||||||0.26
92383274|NCT02772978|184669858|SUPERIORITY|||||||0.04||||||The threshold for statistical significance was set to p \< 0.05.|Fisher transformation|||The comparison group represents the difference in ICR and the baseline impulsiveness scale, non-planning subscale.||||0.04
92383275|NCT02772978|184669859|SUPERIORITY||||||<|0.05||||||The threshold is set to p \< 0.05, corrected for multiple comparisons.|Fisher transformation|||||||< 0.05
92383276|NCT00552409|184669883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.0|||||TWO_SIDED|95.0|-56.0|251.0|||Regression, Linear||Mean urine ACR on treatment was 17% lower among participants assigned to cholecalciferol, compared to participants assigned to placebo, adjusted for baseline values.|||251|-56|
92383277|NCT00659230|184669907|SUPERIORITY_OR_OTHER||Effect Size|-0.18||||0.723|TWO_SIDED|90.0|-0.64|0.27|||ANOVA||Effect size (ES) for change in CAPS-D score relative to baseline was calculated according to the method of Cohen.|The analysis was conducted using a repeated-measures analysis of variance (ANOVA) model. The model consisted of two factors - treatment at two levels and time (5 time points including baseline) and group by time interaction.||0.27|-0.64|0.723
92383278|NCT00659230|184669908|SUPERIORITY||Effect Size|-0.07||||0.54|TWO_SIDED|90.0|-0.52|0.39|||ANOVA||Effect size (ES) for change in CAPS-D score relative to baseline was calculated according to the method of Cohen.|||0.39|-.52|0.540
92383279|NCT00659230|184669909|SUPERIORITY||Effect size|-0.18||||0.951|TWO_SIDED|90.0|-0.64|0.27|||ANOVA||Effect size (ES) for change in CAPS-D score relative to baseline was calculated according to the method of Cohen.|||0.27|-0.64|0.951
92383280|NCT00659230|184669910|SUPERIORITY||Effect Size|0.11||||0.396|TWO_SIDED|90.0|-0.35|0.56|||ANOVA||Effect size (ES) for change in CAPS-D score relative to baseline was calculated according to the method of Cohen.|||0.56|-0.35|0.396
92383281|NCT03703856|184669918|SUPERIORITY|||||||0.68||||||The threshold for statistical significance was p=0.05|ANOVA|||Change in ADAS-Cog score over time||||0.68
92383282|NCT03703856|184669919|SUPERIORITY||||||>|0.05||||||The threshold for statistical significance was p=0.05|ANOVA|||||||>0.05
92383283|NCT03703856|184669920|SUPERIORITY||||||>|0.05||||||The threshold for statistical significance is p=0.05|ANOVA|||||||>0.05
92383284|NCT05342597|184669940|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|1.025|||||TWO_SIDED|90.0|0.931|1.128|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.128|0.931|
92233205|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.76|-0.7|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.70|-1.76|<0.001
92383285|NCT05342597|184669940|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.959|||||TWO_SIDED|90.0|0.871|1.056|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.056|0.871|
92383286|NCT05342597|184669940|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.91|||||TWO_SIDED|90.0|0.827|1.002|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.002|0.827|
92383287|NCT05342597|184669940|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.801|||||TWO_SIDED|90.0|0.712|0.901|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||0.901|0.712|
92383288|NCT05342597|184669941|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|1.083|||||TWO_SIDED|90.0|0.821|1.429|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.429|0.821|
92383289|NCT05342597|184669941|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.872|||||TWO_SIDED|90.0|0.661|1.15|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.150|0.661|
92415229|NCT01860846|184720338|SUPERIORITY_OR_OTHER||||||=|0.007||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Social Functioning Scores: the null hypothesis was set as no difference.||||= 0.007
92415230|NCT01860846|184720338|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Bodily Pain Scores: the null hypothesis was set as no difference.||||< 0.001
92415231|NCT01860846|184720338|SUPERIORITY_OR_OTHER||||||=|0.005||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||General Health Scores: the null hypothesis was set as no difference.||||= 0.005
92415232|NCT01860846|184720339|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Bowel-related Symptoms Scores: The null hypothesis was set as no difference.||||< 0.001
92415233|NCT01860846|184720339|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Systemic Symptoms Scores:The null hypothesis was set as no difference.||||< 0.001
92415234|NCT01860846|184720339|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Emotional Function Scores: the null hypothesis was set as no difference.||||< 0.001
92415235|NCT01860846|184720339|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Social Function Scores: The null hypothesis was set as no difference.||||< 0.001
92415236|NCT00770146|184720349|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤ 0.05.|Wilcoxon (Mann-Whitney)|||Based upon prior clinical study experience with mipomersen, it was estimated that the standard deviation of the percent change in LDL-C is approximately 22%. With at least 20 patients in the control group and 40 patients in the mipomersen-treated group, this study would have at least 90% power to detect a 20% difference between the 2 groups.||||<0.001
92415237|NCT00770146|184720351|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|Wilcoxon (Mann-Whitney)|||||||<0.001
92233206|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.27||0.002|TWO_SIDED|95.0|-1.35|-0.3|||ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.30|-1.35|0.002
92383290|NCT05342597|184669941|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.82|||||TWO_SIDED|90.0|0.621|1.082|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.082|0.621|
92383291|NCT05342597|184669941|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.536|||||TWO_SIDED|90.0|0.362|0.794|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||0.794|0.362|
92383292|NCT02354222|184670005|SUPERIORITY||Least Squares Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-1.16|-0.72|||ANCOVA|||||-0.72|-1.16|<0.001
92415238|NCT00770146|184720353|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
92383293|NCT02354222|184670006|SUPERIORITY||Least Squares Mean Difference|-15.6|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-23.3|-7.9|||ANCOVA|||||-7.9|-23.3|<0.001
92415239|NCT00770146|184720355|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|Wilcoxon (Mann-Whitney)|||||||<0.001
92415240|NCT00770146|184720357|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||<0.001
92415241|NCT00770146|184720359|SUPERIORITY_OR_OTHER|||||||0.977||||||No adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.977
92415242|NCT00770146|184720361|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|t-test, 2 sided|||||||<0.001
92415243|NCT00770146|184720363|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||<0.001
92383294|NCT02354222|184670007|SUPERIORITY||Least Squares Mean Difference|1.43|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|0.63|2.23|||ANCOVA|||||2.23|0.63|<0.001
92415244|NCT00770146|184720365|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|t-test, 2 sided|||||||<0.001
92415245|NCT00770146|184720367|SUPERIORITY_OR_OTHER|||||||0.032||||||No adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.032
92415246|NCT01978938|184720385|NON_INFERIORITY|The NI test was based on the lower limit of the 2-sided 95% confidence interval (CI), using the method proposed without stratification by Miettinen and Nurminen. If the lower limit of the 95% CI for the difference in Responder (clinical cure and microbiologic success) rates in the micro-ITT population exceeded -10%, then the null hypothesis was rejected and the NI of eravacycline to levofloxacin was declared.|Treatment Difference|-6.5|||||TWO_SIDED|95.0|-14.1|1.2||||||For the FDA, an NI margin of 10% was used, which was based on historical data regarding the treatment effect of antibiotics. A 10% NI margin for the Responder outcome is robust and can sufficiently confirm a clinically meaningful treatment effect of eravacycline in the treatment of cUTI.||1.2|-14.1|
92383295|NCT02354222|184670008|SUPERIORITY||Least Squares Mean Difference|-55.9|STANDARD_ERROR_OF_MEAN|9.2|<|0.001|TWO_SIDED|95.0|-74.1|-37.6|||ANCOVA|||||-37.6|-74.1|<0.001
92383296|NCT02354222|184670009|SUPERIORITY||Least Squares Mean Difference|-37.6|STANDARD_ERROR_OF_MEAN|6.2|<|0.001|TWO_SIDED|95.0|-49.9|-25.2|||ANCOVA|||||-25.2|-49.9|<0.001
92383297|NCT01716104|184670112|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|||||||0.0005
92383298|NCT01716104|184670113|SUPERIORITY|||||||0.035|||||||Mixed Models Analysis|||||||0.035
92383299|NCT01716104|184670114|SUPERIORITY|||||||0.0008|||||||Mixed Models Analysis|||||||0.0008
92383300|NCT01716104|184670115|SUPERIORITY|||||||0.0011|||||||Mixed Models Analysis|||||||0.0011
92383301|NCT01716104|184670116|SUPERIORITY|||||||0.0054|||||||Mixed Models Analysis|||||||0.0054
92383302|NCT01716104|184670117|SUPERIORITY|||||||0.0437|||||||Mixed Models Analysis|||||||0.0437
92415247|NCT02650921|184720389|SUPERIORITY||Difference in Responder Rate|64.7|||<|0.0001|TWO_SIDED|95.0|53.3|76.1|||McNemar|||||76.1|53.3|<0.0001
92415248|NCT02650921|184720390|SUPERIORITY||Difference in Responder Rate|72.3|||<|0.0001|TWO_SIDED|95.0|61.9|82.7|||McNemar|||||82.7|61.9|<0.0001
92415249|NCT02650921|184720391|SUPERIORITY||Difference in Responder Rate|57.3|||<|0.0001|TWO_SIDED|95.0|44.8|69.8|||McNemar|||||69.8|44.8|<0.0001
92415250|NCT02650921|184720392|SUPERIORITY||Difference in Responder Rate|45.8|||<|0.0001|TWO_SIDED|95.0|32.3|59.3|||McNemar|||||59.3|32.3|<0.0001
92415251|NCT01087788|184720423|SUPERIORITY_OR_OTHER||Difference in Percentages|33.7|||<|0.001|TWO_SIDED|95.0|22.8|44.6||Difference of Certolizumab Pegol 200 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||44.6|22.8|<0.001
92415252|NCT01087788|184720423|SUPERIORITY_OR_OTHER||Difference in Percentages|27.6|||<|0.001|TWO_SIDED|95.0|16.5|38.7||Difference of Certolizumab Pegol 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||38.7|16.5|<0.001
92383303|NCT01716104|184670118|SUPERIORITY|||||||0.0862|||||||Mixed Models Analysis|||||||0.0862
92383304|NCT01716104|184670119|SUPERIORITY|||||||0.0621|||||||Mixed Models Analysis|||||||0.0621
92383305|NCT01716104|184670120|SUPERIORITY|||||||0.0142|||||||Mixed Models Analysis|||||||0.0142
92383306|NCT00117793|184670122|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Statistical significance was set a-priori at p \< 0.05.|Mixed Models Analysis|The effect of study limb on limb volume was analyzed using repeated measures one-way analyses of variance.||||||>0.05
92383307|NCT00117793|184670123|SUPERIORITY_OR_OTHER||||||=|0.0056||95.0||||Statistical significance was set a-priori at p \< 0.05.|Mixed Models Analysis|The effect of study limb on activity level was analyzed using repeated measures one-way analyses of variance.||||||=0.0056
92383308|NCT00117793|184670124|SUPERIORITY_OR_OTHER||||||=|0.0021||95.0||||Statistical significance was set a-priori at p \< 0.05.|Mixed Models Analysis|The effect of study limb on limb pistoning was analyzed using repeated measures one-way analyses of variance.||||||=0.0021
92383309|NCT03624127|184670145|SUPERIORITY||Odds Ratio (OR)|18.71|||<|0.0001|TWO_SIDED|95.0|9.51|36.81|||Cochran-Mantel-Haenszel|||||36.81|9.51|<0.0001
92383310|NCT03624127|184670146|SUPERIORITY||Odds Ratio (OR)|11.09|||<|0.0001|TWO_SIDED|95.0|6.49|18.95|||Cochran-Mantel-Haenszel|||||18.95|6.49|<0.0001
92383311|NCT03624127|184670147|SUPERIORITY||Odds Ratio (OR)|16.15|||<|0.0001|TWO_SIDED|95.0|6.91|37.72|||Cochran-Mantel-Haenszel|||||37.72|6.91|<0.0001
92383312|NCT03624127|184670147|SUPERIORITY||Odds Ratio (OR)|2.4||||0.0002|TWO_SIDED|95.0|1.51|3.6|||Cochran-Mantel-Haenszel|||||3.60|1.51|0.0002
92383313|NCT03624127|184670148|SUPERIORITY||Odds Ratio (OR)|31.3|||<|0.0001|TWO_SIDED|95.0|4.09|239.36|||Cochran-Mantel-Haenszel|||||239.36|4.09|<0.0001
92383314|NCT03624127|184670149|SUPERIORITY||Odds Ratio (OR)|4.52|||<|0.0001|TWO_SIDED|95.0|2.07|9.84|||Cochran-Mantel-Haenszel|||||9.84|2.07|<0.0001
92383315|NCT03624127|184670149|SUPERIORITY||Odds Ratio (OR)|39.54|||<|0.0001|TWO_SIDED|95.0|5.29|295.75|||Cochran-Mantel-Haenszel|||||295.75|5.29|<0.0001
92383316|NCT03624127|184670150|SUPERIORITY||Adjusted Mean Difference|-8.8|STANDARD_ERROR_OF_MEAN|2.0|<|0.0001|TWO_SIDED|95.0|-12.8|-4.9|||ANCOVA|||||-4.9|-12.8|<0.0001
92383317|NCT03624127|184670151|SUPERIORITY||Odds Ratio (OR)|13.67||||0.0013|TWO_SIDED|95.0|1.77|105.5|||Cochran-Mantel-Haenszel|||||105.50|1.77|0.0013
92233207|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.27||0.001|TWO_SIDED|95.0|-1.39|-0.34|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.34|-1.39|0.001
92233208|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.94|-0.9|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.90|-1.94|<0.001
92415253|NCT01087788|184720424|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-10.64|STANDARD_ERROR_OF_MEAN|8.35|=|0.203|TWO_SIDED|95.0|-27.05|5.77||Diff. of CZP 200mg+400mg versus PBO (and corresponding 95% Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior Tumor Necrosis Factor(TNF)-antagonist exposure as factors \& BL mTSS score as a covariate|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected. This is the pre-defined primary analysis.||5.77|-27.05|=0.203
92415254|NCT01087788|184720424|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.09|=|0.017|TWO_SIDED|95.0|-0.38|-0.04||Difference of CZP 200 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior TNF-antagonist exposure as factors and Baseline mTSS score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints.Conditional on the 1st test being significant, the 2nd hypothesis was tested with the same alpha level of 5%. Stat. testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected Re-analysis approach, restricted to subjects in the RS who have at least 2 x-ray values at scheduled visits (at least 8 wks apart)||-0.04|-0.38|=0.017
92415255|NCT01087788|184720424|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.09|=|0.261|TWO_SIDED|95.0|-0.27|0.07||Difference of CZP 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior TNF-antagonist exposure as factors and Baseline mTSS score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints.Conditional on the 1st test being significant, the 2nd hypothesis was tested with the same alpha level of 5%. Stat. testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected Re-analysis approach, restricted to subjects in the RS who have at least 2 x-ray values at scheduled visits (at least 8 wks apart)||0.07|-0.27|=0.261
92415256|NCT01087788|184720425|SUPERIORITY_OR_OTHER||Difference in Percentages|40.2|||<|0.001|TWO_SIDED|95.0|29.5|51.0||Difference of Certolizumab Pegol 200 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||51.0|29.5|<0.001
92415257|NCT01087788|184720425|SUPERIORITY_OR_OTHER||Difference in Percentages|32.8|||<|0.001|TWO_SIDED|95.0|21.8|43.8||Difference of Certolizumab Pegol 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||43.8|21.8|<0.001
92415258|NCT01087788|184720426|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.42|-0.2||Difference of CZP 200 mg + 400 mg vs. Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior TNF-antagonist exposure as factors and Baseline HAQ-DI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-0.20|-0.42|<0.001
92233209|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.7|-0.58|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.58|-1.70|<0.001
92233210|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.57|-0.45|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.45|-1.57|<0.001
92233211|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.35|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.91|-0.79|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.79|-1.91|<0.001
92233212|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.29||0.021|TWO_SIDED|95.0|-1.26|-0.1|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.10|-1.26|0.021
92233213|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.29||0.029|TWO_SIDED|95.0|-1.22|-0.07|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.07|-1.22|0.029
92233214|NCT00733902|184368873|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.78|-0.62|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.62|-1.78|<0.001
92415259|NCT01087788|184720427|SUPERIORITY_OR_OTHER||Difference in Percentages|46.3|||<|0.001|TWO_SIDED|95.0|35.7|56.9||Difference of Certolizumab Pegol 200 mg + 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||56.9|35.7|<0.001
92415260|NCT01087788|184720428|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.12|=|0.127|TWO_SIDED|95.0|-0.43|0.05||Difference of CZP 200 mg + 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior TNF-antagonist exposure as factors and Baseline mTSS score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected. This is the predefined analysis.||0.05|-0.43|=0.127
92415261|NCT01087788|184720428|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.26|=|0.048|TWO_SIDED|95.0|-1.04|-0.01||Difference of CZP 200 mg + 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior TNF-antagonist exposure as factors and Baseline mTSS score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected. This is the post-hoc analysis for the subgroup 'Baseline mTSS \> 6'.||-0.01|-1.04|=0.048
92415262|NCT00043550|184720430|SUPERIORITY|The proposed sample size had at least 80% power to detect effect sizes of 0.36 between the two active treatment conditions and placebo during the active phase. These power calculations were based on a priori values of within-subject correlation of 0.50, 10% attrition, and 6 assessment points.|Slope|1.0||||0.95|TWO_SIDED|||||Overall significant effect for treatment, as well as the two moderating effects, used a Bonferroni-corrected alpha level of 0.0167 (0.05/3).|HLM|||Comparison of conditions||||.95
92415263|NCT00043550|184720430|SUPERIORITY||||||<|0.0001|||||||HLM|||effects of conditions over time||||<.0001
92415264|NCT00043550|184720430|SUPERIORITY||Slope|0.03|||||TWO_SIDED|95.0|-0.35|0.41||||||||.41|-.35|
92415265|NCT00043550|184720430|SUPERIORITY||Slope|0.06|||||TWO_SIDED|95.0|-0.33|0.45||||||||.45|-.33|
92415266|NCT02285062|184720441|SUPERIORITY||Hazard Ratio (HR)|0.849||||0.2864|TWO_SIDED|95.0|0.632|1.14|||Log Rank|Stratified by: IPI score (2 or ≥ 3), presence or absence of bulky disease (diameter of the lesion ≥ 7 cm or \< 7 cm), and age (\< 65 or ≥ 65 years).|Hazard ratio was derived from Cox proportional hazard model adjusting for the 3 stratification factors|||1.140|0.632|0.2864
92415267|NCT02285062|184720442|SUPERIORITY||Hazard Ratio (HR)|1.038||||0.7294|TWO_SIDED|95.0|0.802|1.344|||Log Rank|Stratified by: IPI score (2 or ≥ 3), presence or absence of bulky disease (diameter of the lesion ≥ 7 cm or \< 7 cm), and age (\< 65 or ≥ 65 years).|Hazard ratio was derived from Cox proportional hazard model adjusting for the 3 stratification factors.|||1.344|0.802|0.7294
92415268|NCT02285062|184720443|SUPERIORITY||Hazard Ratio (HR)|0.965||||0.876|TWO_SIDED|95.0|0.716|1.3|||Log Rank|Log-rank test stratified by 3 factors: IPI score (2 or ≥ 3), presence of bulky disease (bulky or nonbulky), and age (\< 65 or ≥ 65).|Hazard ratio was derived from Cox proportional hazard model adjusting for the 3 stratification factors.|||1.300|0.716|0.8760
92415269|NCT02285062|184720444|SUPERIORITY|||||||0.2933||||||Obtained from CMH test adjusting for stratification factors: IPI score (2 or ≥ 3), presence of bulky disease (bulky or nonbulky), and age (\< 65 or ≥ 65)|Cochran-Mantel-Haenszel|||||||0.2933
92415270|NCT02285062|184720445|SUPERIORITY|||||||0.9964||||||Obtained from CMH test adjusting for stratification factors: IPI score (2 or ≥ 3), presence of bulky disease (bulky or nonbulky), and age (\< 65 or ≥ 65)|Cochran-Mantel-Haenszel|||||||0.9964
92415271|NCT02285062|184720446|SUPERIORITY||Hazard Ratio (HR)|0.776||||0.2143|TWO_SIDED|95.0|0.521|1.157|||Log Rank|Stratified by: IPI score (2 or ≥ 3), presence or absence of bulky disease (diameter of the lesion ≥ 7 cm or \< 7 cm), and age (\< 65 or ≥ 65 years).|HR was derived from COX model adjusting for the 3 stratification factors mentioned above.|||1.157|0.521|0.2143
92415272|NCT02285062|184720447|SUPERIORITY||Hazard Ratio (HR)|1.167||||0.315||95.0|0.856|1.59|||Log Rank|Stratified by: IPI score (2 or ≥ 3), presence or absence of bulky disease (diameter of the lesion ≥ 7 cm or \< 7 cm), and age (\< 65 or ≥ 65 years).|HR is derived from Cox model|||1.590|0.856|0.3150
92415273|NCT03011892|184720471|SUPERIORITY||Difference in Least Square (LS) Mean|-59.66|||<|0.0001|TWO_SIDED|95.0|-77.85|-41.47|||MMRM|||||-41.47|-77.85|< 0.0001
92415274|NCT03011892|184720472|SUPERIORITY||Difference in LS Mean|-33.01||||0.0004|TWO_SIDED|95.0|-51.27|-14.76|||MMRM|||DB: Vehicle BID, Ruxolitinib 0.15% QD||-14.76|-51.27|0.0004
92415275|NCT03011892|184720472|SUPERIORITY||Difference in LS Mean|-40.9|||<|0.0001|TWO_SIDED|95.0|-59.23|-22.57|||MMRM|||||-22.57|-59.23|< 0.0001
92233215|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.27||0.044|TWO_SIDED|95.0|-1.07|-0.02|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.02|-1.07|0.044
92233216|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.27||0.875|TWO_SIDED|95.0|-0.57|0.48|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.48|-0.57|0.875
92233217|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.129|TWO_SIDED|95.0|-0.93|0.12|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.12|-0.93|0.129
92383318|NCT03624127|184670151|SUPERIORITY||Odds Ratio (OR)|1.84||||0.1702|TWO_SIDED|95.0|0.76|4.42|||Cochran-Mantel-Haenszel|||||4.42|0.76|0.1702
92233218|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.46|-0.41|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.41|-1.46|<0.001
92383319|NCT03624127|184670152|SUPERIORITY||Odds Ratio (OR)|6.04|||<|0.0001|TWO_SIDED|95.0|3.46|10.53|||Cochran-Mantel-Haenszel|||||10.53|3.46|<0.0001
92383320|NCT03624127|184670153|SUPERIORITY||Odds Ratio (OR)|2.84||||0.1049|TWO_SIDED|95.0|0.73|10.96|||Cochran-Mantel-Haenszel|||||10.96|0.73|0.1049
92383321|NCT03624127|184670154|SUPERIORITY||Odds Ratio (OR)|2.64|||<|0.0001|TWO_SIDED|95.0|1.78|3.91|||Cochran-Mantel-Haenszel|||||3.91|1.78|<0.0001
92383322|NCT03624127|184670155|SUPERIORITY||Odds Ratio (OR)|2.53|||<|0.0001|TWO_SIDED|95.0|1.7|3.78|||Cochran-Mantel-Haenszel|||||3.78|1.70|<0.0001
92383323|NCT03624127|184670156|SUPERIORITY||Odds Ratio (OR)|11.92|||<|0.0001|TWO_SIDED|95.0|6.69|21.25|||Cochran-Mantel-Haenszel|||||21.25|6.69|<0.0001
92383324|NCT03624127|184670156|SUPERIORITY||Odds Ratio (OR)|3.65|||<|0.0001|TWO_SIDED|95.0|2.21|6.04|||Cochran-Mantel-Haenszel|||||6.04|2.21|<0.0001
92383325|NCT03624127|184670157|SUPERIORITY||Odds Ratio (OR)|3.23|||<|0.0001|TWO_SIDED|95.0|2.16|4.83|||Cochran-Mantel-Haenszel|||||4.83|2.16|<0.0001
92383326|NCT03624127|184670158|SUPERIORITY||Odds Ratio (OR)|3.76|||<|0.0001|TWO_SIDED|95.0|2.53|5.6|||Cochran-Mantel-Haenszel|||||5.60|2.53|<0.0001
92383327|NCT03624127|184670159|SUPERIORITY||Odds Ratio (OR)|2.63|||<|0.0001|TWO_SIDED|95.0|1.71|4.05|||Cochran-Mantel-Haenszel|||||4.05|1.71|<0.0001
92383328|NCT03624127|184670160|SUPERIORITY||Odds Ratio (OR)|3.03|||<|0.0001|TWO_SIDED|95.0|1.96|4.69|||Cochran-Mantel-Haenszel|||||4.69|1.96|<0.0001
92383329|NCT03624127|184670161|SUPERIORITY||Odds Ratio (OR)|3.11|||<|0.0001|TWO_SIDED|95.0|2.06|4.69|||Cochran-Mantel-Haenszel|||||4.69|2.06|<0.0001
92383330|NCT03624127|184670162|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0002|TWO_SIDED|95.0|1.55|4.19|||Cochran-Mantel-Haenszel|||||4.19|1.55|0.0002
92383331|NCT01304589|184670163|SUPERIORITY_OR_OTHER|||||||0.001||||||A paired T-Test was calculated assuming a standard difference (d) between the 4 paired outcomes for pain of 0.60 (moderate effect size), a SD of 1 for each outcome variable and a correlation of 0.50 between each paired variable.|t-test, 2 sided|||||||.001
92383332|NCT01304589|184670164|SUPERIORITY_OR_OTHER|||||||0.003||||||A paired T-Test was calculated assuming a standard difference (d) between the 4 paired outcomes for pain of 0.60 (moderate effect size), a SD of 1 for each outcome variable and a correlation of 0.50 between each paired variable.|paired T-test|"Subjects completed a tampon insertion pain test once a week. The values were averaged and compared pre-treatment versus post-treatment."||||||.003
92383333|NCT01304589|184670165|SUPERIORITY_OR_OTHER|||||||0.001||||||A paired T-Test was calculated assuming a standard difference (d) between the 4 paired outcomes for pain of 0.60 (moderate effect size), a SD of 1 for each outcome variable and a correlation of 0.50 between each paired variable.|t-test, 2 sided|||||||.001
92383334|NCT01304589|184670166|SUPERIORITY_OR_OTHER||||||<|0.001||||||A paired T-Test was calculated assuming a standard difference (d) between the 4 paired outcomes for pain of 0.60 (moderate effect size), a SD of 1 for each outcome variable and a correlation of 0.50 between each paired variable.|t-test, 2 sided|||||||<.001
92383335|NCT03916484|184670178|OTHER|||||||0.33||||||No a priori threshold for statistical significance was specified.|Kruskal-Wallis|||||||0.33
92383336|NCT03916484|184670179|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92383337|NCT03916484|184670179|OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
92383338|NCT03916484|184670179|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
92383339|NCT03916484|184670179|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
92383340|NCT03916484|184670179|OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92383341|NCT03916484|184670180|OTHER|||||||0.45||||||No a priori threshold for statistical significance was specified.|Fisher Exact|||||||0.45
92383342|NCT03916484|184670181|OTHER||||||<|0.001|||||||McNemar|||||||<0.001
92383343|NCT03916484|184670181|OTHER|||||||0.07|||||||McNemar|||||||0.07
92383344|NCT03916484|184670181|OTHER|||||||0.003|||||||McNemar|||||||0.003
92383345|NCT03916484|184670182|OTHER|||||||0.25|||||||McNemar|||||||0.25
92383346|NCT03916484|184670182|OTHER|||||||0.002|||||||McNemar|||||||0.002
92383347|NCT03916484|184670182|OTHER|||||||0.453|||||||McNemar|||||||0.453
92383348|NCT03916484|184670182|OTHER|||||||0.5|||||||McNemar|||||||0.500
92383349|NCT03916484|184670182|OTHER|||||||0.003|||||||McNemar|||||||0.003
92383350|NCT01727414|184670188|SUPERIORITY|General linear mixed models were used to evaluate the subtype\*dose interaction to determine if the subtypes have unique MPH dose-response curves, with the outcome being Attention Deficit Hyperactivity Disorder total symptom scores (minimum=0, maximum=54, higher=worse)|Slope|0.29|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92383351|NCT03281304|184670189|OTHER||Adjusted (weighted) difference|12.9|||||TWO_SIDED|95.0|0.5|25.0||||||Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||25.0|0.5|
92383352|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-7.5|13.4||||||Month 1: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||13.4|-7.5|
92383353|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|0.1|22.8||||||Month 3: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||22.8|0.1|
92383354|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|14.3|||||TWO_SIDED|95.0|2.9|25.2||||||Month 6: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||25.2|2.9|
92383355|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|20.0|||||TWO_SIDED|95.0|8.0|31.8||||||Month 9: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||31.8|8.0|
92383356|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|15.7|||||TWO_SIDED|95.0|2.2|28.7||||||Month 12: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.7|2.2|
92383357|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|14.3|||||TWO_SIDED|95.0|0.0|27.9||||||Month 15: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||27.9|0.0|
92383358|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|14.3|||||TWO_SIDED|95.0|-0.7|28.5||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.5|-0.7|
92383359|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|7.1|||||TWO_SIDED|95.0|-8.0|21.9||||||Month 21: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||21.9|-8.0|
92383360|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|5.7|||||TWO_SIDED|95.0|-9.3|20.4||||||Month 24: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||20.4|-9.3|
92383361|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|8.6|||||TWO_SIDED|95.0|-7.0|23.6||||||Month 27: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||23.6|-7.0|
92383362|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-12.8|18.3||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.3|-12.8|
92383363|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|1.4|||||TWO_SIDED|95.0|-14.4|17.2||||||Month 33: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||17.2|-14.4|
92280496|NCT00601484|184463639|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.442|||TWO_SIDED|90.0|-1.044|0.445||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.445|-1.044|
92383364|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-13.0|18.5||||||Month 36: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.5|-13.0|
92383365|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|-4.3|||||TWO_SIDED|95.0|-20.2|11.9||||||Month 39: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||11.9|-20.2|
92383366|NCT03281304|184670191|OTHER||Adjusted (weighted) difference|4.3|||||TWO_SIDED|95.0|-11.7|19.9||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||19.9|-11.7|
92383367|NCT03281304|184670192|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|-1.5|24.1||||||Month 6: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||24.1|-1.5|
92415276|NCT03011892|184720472|SUPERIORITY||Difference in LS Mean|-54.82|||<|0.0001|TWO_SIDED|95.0|-72.93|-36.7|||MMRM|||||-36.70|-72.93|< 0.0001
92383368|NCT03281304|184670192|OTHER||Adjusted (weighted) difference|20.0|||||TWO_SIDED|95.0|3.6|35.0||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||35.0|3.6|
92383369|NCT03281304|184670192|OTHER||Adjusted (weighted) difference|12.9|||||TWO_SIDED|95.0|-3.5|28.3||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.3|-3.5|
92383370|NCT03281304|184670192|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-12.5|18.0||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.0|-12.5|
92383371|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-7.5|13.4||||||Month 1: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||13.4|-7.5|
92383372|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|0.1|22.8||||||Month 3: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||22.8|0.1|
92383373|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|14.3|||||TWO_SIDED|95.0|2.4|25.6||||||Month 6: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||25.6|2.4|
92383374|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|20.0|||||TWO_SIDED|95.0|8.0|31.8||||||Month 9: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||31.8|8.0|
92383375|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|15.7|||||TWO_SIDED|95.0|2.2|28.7||||||Month 12: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.7|2.2|
92383376|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|14.3|||||TWO_SIDED|95.0|0.0|27.9||||||Month 15: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||27.9|0.0|
92383377|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|15.7|||||TWO_SIDED|95.0|0.7|29.9||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||29.9|0.7|
92383378|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|5.7|||||TWO_SIDED|95.0|-9.5|20.6||||||Month 21: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||20.6|-9.5|
92383379|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|7.1|||||TWO_SIDED|95.0|-8.0|21.9||||||Month 24: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||21.9|-8.0|
92383380|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|10.0|||||TWO_SIDED|95.0|-5.7|25.1||||||Month 27: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||25.1|-5.7|
92383381|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|4.3|||||TWO_SIDED|95.0|-11.4|19.7||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||19.7|-11.4|
92383382|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|1.4|||||TWO_SIDED|95.0|-14.4|17.2||||||Month 33: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||17.2|-14.4|
92383383|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-13.0|18.5||||||Month 36: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.5|-13.0|
92415277|NCT03011892|184720473|SUPERIORITY||Difference in LS Mean|14.63||||0.1127|TWO_SIDED|95.0|-3.47|32.73|||MMRM|||Triamcinolone 0.1% BID/Vehicle Cream BID, DB: Ruxolitinib 0.15% QD||32.73|-3.47|0.1127
92383384|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|-2.9|||||TWO_SIDED|95.0|-18.8|13.3||||||Month 39: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||13.3|-18.8|
92383385|NCT03281304|184670193|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-13.0|18.5||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.5|-13.0|
92383386|NCT03281304|184670194|OTHER||Adjusted (weighted) difference|15.7|||||TWO_SIDED|95.0|-0.4|30.8||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||30.8|-0.4|
92383387|NCT03281304|184670194|OTHER||Adjusted (weighted) difference|12.9|||||TWO_SIDED|95.0|-3.5|28.3||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.3|-3.5|
92383388|NCT03281304|184670194|OTHER||Adjusted (weighted) difference|1.4|||||TWO_SIDED|95.0|-14.0|16.7||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||16.7|-14.0|
92383389|NCT03281304|184670195|OTHER||Mean Difference|-0.3|||||TWO_SIDED|95.0|-0.8|0.1||||||||0.1|-0.8|
92415278|NCT03011892|184720473|SUPERIORITY||Difference in LS Mean|6.74||||0.4659|TWO_SIDED|95.0|-11.44|24.92|||MMRM|||Triamcinolone 0.1% BID/Vehicle Cream BID, DB: Ruxolitinib 0.5% QD||24.92|-11.44|0.4659
92415279|NCT03011892|184720473|SUPERIORITY||Difference in LS Mean|-7.18||||0.432|TWO_SIDED|95.0|-25.13|10.77|||MMRM|||Triamcinolone 0.1% BID/Vehicle Cream BID, DB: Ruxolitinib 1.5% QD||10.77|-25.13|0.4320
92415280|NCT03011892|184720473|SUPERIORITY||Difference in LS Mean|-12.02||||0.1903|TWO_SIDED|95.0|-30.05|6.0|||MMRM|||||6.00|-30.05|0.1903
92383390|NCT03281304|184670197|OTHER||Least Squares (LS) Mean Difference|0.1|||||TWO_SIDED|95.0|-0.1|0.3||||||Month 1||0.3|-0.1|
92415281|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-25.12||||0.0009|TWO_SIDED|95.0|-39.84|-10.41|||MMRM|||Week 2||-10.41|-39.84|0.0009
92415282|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-47.85|||<|0.0001|TWO_SIDED|95.0|-62.64|-33.06|||MMRM|||Week 2||-33.06|-62.64|< 0.0001
92383391|NCT03281304|184670197|OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.2|0.2||||||Month 3||0.2|-0.2|
92383392|NCT03281304|184670197|OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.2|0.3||||||Month 6||0.3|-0.2|
92383393|NCT03281304|184670199|OTHER||LS Mean Difference|-0.6|||||TWO_SIDED|95.0|-1.2|0.1||||||||0.1|-1.2|
92383394|NCT03281304|184670201|OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.3|0.3||||||Month 1||0.3|-0.3|
92383395|NCT03281304|184670201|OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.3|0.2||||||Month 3||0.2|-0.3|
92383396|NCT03281304|184670201|OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.3|0.3||||||Month 6||0.3|-0.3|
92383397|NCT03281304|184670203|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|-0.3|23.1||||||Month 6: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||23.1|-0.3|
92383398|NCT03281304|184670203|OTHER||Adjusted (weighted) difference|18.6|||||TWO_SIDED|95.0|3.5|32.6||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||32.6|3.5|
92383399|NCT03281304|184670203|OTHER||Adjusted (weighted) difference|12.9|||||TWO_SIDED|95.0|-3.3|28.1||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.1|-3.3|
92383400|NCT03281304|184670203|OTHER||Adjusted (weighted) difference|0.0|||||TWO_SIDED|95.0|-16.1|16.1||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||16.1|-16.1|
92383401|NCT03281304|184670204|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|1.3|22.0||||||Month 6: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||22.0|1.3|
92383402|NCT03281304|184670204|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|-4.2|26.4||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||26.4|-4.2|
92383403|NCT03281304|184670204|OTHER||Adjusted (weighted) difference|10.0|||||TWO_SIDED|95.0|-5.8|25.2||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||25.2|-5.8|
92383404|NCT03281304|184670204|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-13.0|18.5||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.5|-13.0|
92415283|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-41.04|||<|0.0001|TWO_SIDED|95.0|-56.0|-26.08|||MMRM|||Week 2||-26.08|-56.00|< 0.0001
92415284|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-45.05|||<|0.0001|TWO_SIDED|95.0|-59.69|-30.4|||MMRM|||Week 2||-30.40|-59.69|< 0.0001
92415285|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|9.99||||0.1806|TWO_SIDED|95.0|-4.66|24.63|||MMRM|||Week 2||24.63|-4.66|0.1806
92415286|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-5.93||||0.4333|TWO_SIDED|95.0|-20.82|8.95|||MMRM|||Week 2||8.95|-20.82|0.4333
92415287|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-9.94||||0.1805|TWO_SIDED|95.0|-24.51|4.63|||MMRM|||Week 2||4.63|-24.51|0.1805
92415288|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-12.74||||0.0895|TWO_SIDED|95.0|-27.45|1.98|||MMRM|||Week 2||1.98|-27.45|0.0895
92415289|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-28.38||||0.0042|TWO_SIDED|95.0|-47.74|-9.02|||MMRM|||Week 8||-9.02|-47.74|0.0042
92415290|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-36.52||||0.0003|TWO_SIDED|95.0|-56.03|-17.01|||MMRM|||Week 8||-17.01|-56.03|0.0003
92415291|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-45.19|||<|0.0001|TWO_SIDED|95.0|||||MMRM|||Week 8||||< 0.0001
92415292|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-57.15|||<|0.0001|TWO_SIDED|95.0|-76.53|-37.77|||MMRM|||Week 8||-37.77|-76.53|< 0.0001
92415293|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|7.78||||0.4243|TWO_SIDED|95.0|-11.37|26.93|||MMRM|||Week 8||26.93|-11.37|0.4243
92415294|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-0.35||||0.9715|TWO_SIDED|95.0|-19.65|18.95|||MMRM|||Week 8||18.95|-19.65|0.9715
92415295|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-9.03||||0.3507|TWO_SIDED|95.0|-28.05|9.99|||MMRM|||Week 8||9.99|-28.05|0.3507
92415296|NCT03011892|184720474|SUPERIORITY||Difference in LS Mean|-20.98||||0.032|TWO_SIDED|95.0|-40.15|-1.82|||MMRM|||Week 8||-1.82|-40.15|0.0320
92233219|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||L Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.27||0.004|TWO_SIDED|95.0|-1.28|-0.24|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.24|-1.28|0.004
92233220|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.71|-0.67|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.67|-1.71|<0.001
92233221|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.26||0.002|TWO_SIDED|95.0|-1.33|-0.3|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.30|-1.33|0.002
92233222|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.46|-0.43|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.43|-1.46|<0.001
92233223|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.04|-1.02|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.02|-2.04|<0.001
92383405|NCT00006400|184670226|SUPERIORITY|The primary analysis was done using an intention-to-treat principle.||||||0.21||||||The spleen endpoint was to be tested at an overall alpha = 0.04. Originally there was a second primary outcome to be tested at alpha = 0.01, but this outcome was dropped.|Fisher Exact|||The primary analysis compared the frequency of worsening spleen function (from normal to decreased or absent, or decreased to absent) and not worsening (from decreased to decreased, normal to normal, or decreased to normal) as measured by splenic uptake on a technetium-99m (99mTc) sulfur colloid liver-spleen scan. Children with missing data or absent spleen function at baseline were excluded from the analysis (26 subjects from hydroxyurea and 23 subjects from placebo group were excluded).||||0.21
92383406|NCT00006400|184670227|SUPERIORITY|||||||0.93||||||This was originally a second primary outcome to be tested at alpha = 0.01, but was later dropped from the protocol. We analyzed the available data.|ANOVA|||The change from baseline to exit as measured by DTPA GFR were compared between treatment groups.||||0.93
92383407|NCT00006400|184670228|SUPERIORITY|||||||0.43||||||All secondary outcomes were tested at alpha=0.01|ANOVA|||The change from baseline to exit as measured by GFR (calculated using Shwartz formula) were compared between treatment groups.||||0.43
92383408|NCT00006400|184670229|SUPERIORITY|||||||0.48||||||All secondary outcomes were to be tested at alpha = 0.01|ANOVA|||The change in GFR from baseline to exit were compared between treatment groups. GFR was calculated using new Schwartz formula.||||0.48
92233224|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.56|-0.51|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.51|-1.56|<0.001
92233225|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.52|-0.46|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.46|-1.52|<0.001
92233226|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.9|-0.85|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.85|-1.90|<0.001
92233227|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.27||0.03|TWO_SIDED|95.0|-1.12|-0.06|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.06|-1.12|0.030
92233228|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.27||0.002|TWO_SIDED|95.0|-1.39|-0.32|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.32|-1.39|0.002
92233229|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.43|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.96|-0.9|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.90|-1.96|<0.001
92233230|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.28||0.085|TWO_SIDED|95.0|-1.03|0.07|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.07|-1.03|0.085
92233231|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.28||0.026|TWO_SIDED|95.0|-1.18|-0.08|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.08|-1.18|0.026
92233232|NCT00733902|184368874|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.94|-0.84|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.84|-1.94|<0.001
92383409|NCT05740618|184670254|SUPERIORITY|||||||0.04||||||MCC60 was analyzed using a linear repeated measure model including visit number, skew of the deposition histogram as fixed effects.|Mixed Models Analysis|||||||0.04
92383410|NCT05740618|184670255|SUPERIORITY|||||||0.2||||||T-tests performed as paired analyses using baseline cough clearance.|t-test, 2 sided|||||||0.20
92383411|NCT05740618|184670256|SUPERIORITY|||||||0.07||||||T-tests performed as paired analyses using baseline Mucociliary Clearance (MCC) Over 90 Minutes.|t-test, 2 sided|||||||0.07
92383412|NCT05740618|184670257|SUPERIORITY|||||||0.04||||||T-tests performed as paired analyses using baseline FEV1.|t-test, 2 sided|||||||0.04
92383413|NCT05740618|184670258|SUPERIORITY|||||||0.94||||||T-tests performed as paired analyses using baseline CFQR-R respiratory domain.|t-test, 2 sided|||||||0.94
92383414|NCT05740618|184670259|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|T-tests performed as paired analyses using baseline CFRSD-CRISS.||||||0.13
92383415|NCT02354235|184670277|SUPERIORITY||Least Squares Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.15|-0.6|||ANCOVA|||||-0.60|-1.15|<0.001
92383416|NCT02354235|184670278|SUPERIORITY||Least Squares Mean Difference|-38.8|STANDARD_ERROR_OF_MEAN|4.9|<|0.001|TWO_SIDED|95.0|-48.5|-29.2|||ANCOVA|||||-29.2|-48.5|<0.001
92383417|NCT02354235|184670279|SUPERIORITY||Least Squares Mean Difference|-2.33|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|-3.2|-1.45|||ANCOVA|||||-1.45|-3.20|<0.001
92383418|NCT02354235|184670280|SUPERIORITY||Least Squares Mean Difference|-100.3|STANDARD_ERROR_OF_MEAN|11.1|<|0.001|TWO_SIDED|95.0|-122.2|-78.4|||ANCOVA|||||-78.4|-122.2|<0.001
92383419|NCT02354235|184670281|SUPERIORITY||Least Squares Mean Difference|-50.9|STANDARD_ERROR_OF_MEAN|7.1|<|0.001|TWO_SIDED|95.0|-64.9|-36.9|||ANCOVA|||||-36.9|-64.9|<0.001
92383420|NCT00510744|184670282|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|24.0|<|0.05|TWO_SIDED||||||t-test, 2 sided|||paired changes in fat absorption assessed by parametric (t test) or non-parametric tests (Mann-Whitney)||||<0.05
92383421|NCT03688100|184670332|SUPERIORITY||ratio of means|0.62||||0.005|TWO_SIDED|95.0|0.45|0.86||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model||For the ratio of means, BA is the numerator and MEDS is the denominator.|Emergency Department visits AT 3 MONTHS||0.86|0.45|0.005
92383422|NCT03688100|184670332|SUPERIORITY||ratio of means|0.7||||0.008|TWO_SIDED|95.0|0.6|0.86||The a priori threshold for statistical significance is p\<0.05|Zero Inflated Poisson (ZIP) Model||For the ratio of means for ED visits, BA is the numerator and MEDS is the denominator.|Emergency Department visits AT 6 MONTHS||0.86|0.60|0.008
92383423|NCT03688100|184670332|SUPERIORITY||ratio of means|0.73||||0.0001|TWO_SIDED|95.0|0.62|0.85||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model||For the ratio of means for ED visits , BA is numerator and MEDS is the denominator.|Emergency Department visits AT 12 MONTHS||0.85|0.62|0.0001
92415297|NCT00608569|184720481|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||Results were considered to be statistically significant if p\<0.05|Fisher Exact|||Fisher exact test (unstratified)||||0.133
92383424|NCT03688100|184670333|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model|||Differences in the number of hospital readmissions between BA and MEDS at 3, 6, and 12 months||||>0.05
92383425|NCT03688100|184670334|SUPERIORITY||ratio of means|0.83||||0.002|TWO_SIDED|95.0|0.75|0.92||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model||For the ratio of means, BA is the numerator and MEDS is the denominator.|Days in the Hospital at 3 months||0.92|0.75|0.002
92383426|NCT03688100|184670334|SUPERIORITY||ratio of means|0.81||||0.005|TWO_SIDED|95.0|0.75|0.87||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model||For the ratio of means, BA is numerator and MEDS is the denominator.|Days in the Hospital at 6 MONTHS||0.87|0.75|0.005
92383427|NCT03688100|184670334|SUPERIORITY||ratio of means|0.64|||<|0.0001|TWO_SIDED|95.0|0.6|0.68||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model||For the ratio of means, BA is the numerator and MEDS is the denominator.|Days in the Hospital AT 12 MONTHS||0.68|0.60|<0.0001
92383428|NCT03688100|184670335|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is p\<0.05.|Kaplan Meier survival plots|||||||>0.05
92383429|NCT04783077|184670336|SUPERIORITY||Odds Ratio (OR)|2.28||||0.23|TWO_SIDED|95.0|0.61|8.5|||Regression, Logistic||The estimated odds ratio of return donation attempt represents WhatsApp compared to control.|The primary analysis applies only to the RCT participants (N=130). Docudrama participants were not assessed for return blood donation. Analysis used fitted logistic regression with outcome donation attempted (Y/N) on the modiﬁed intention-to-treat (mITT) population, adjusted for type of donor (FRD, VNRBD).|Missing data on the primary outcome from the mITT analysis was handled using multiple imputation via chained equations with 50 imputations, and included stratum, group assignment (WhatsApp, Control) and ethnicity. Ethnicity was the only baseline variable with a minimum Kendall's tau of 0.2 with donation attempt.|8.50|0.61|0.23
92383430|NCT00849862|184670340|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|92.2||||||90.0|85.0|100.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100|85.0|
92383431|NCT00849862|184670341|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|100.0||||||90.0|96.3|104.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104|96.3|
92383432|NCT00849862|184670342|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|99.6||||||90.0|96.2|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|96.2|
92383433|NCT01532869|184670355|SUPERIORITY_OR_OTHER||Difference in Least Square (LS) mean|-2.7||||0.0915|TWO_SIDED|95.0|-5.85|0.45|||Mixed Models Analysis|||The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||0.45|-5.85|0.0915
92383434|NCT01532869|184670357|SUPERIORITY_OR_OTHER||Difference in LS mean|-0.43||||0.9336|TWO_SIDED|95.0|-10.78|9.91|||Mixed Models Analysis|||Change From Baseline in Intestinal VAS Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||9.91|-10.78|0.9336
92383435|NCT01532869|184670357|SUPERIORITY_OR_OTHER||Difference in LS mean|-4.12||||0.4609|TWO_SIDED|95.0|-15.21|6.96|||Mixed Models Analysis|||Change From Baseline in Breathing VAS Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||6.96|-15.21|0.4609
92415298|NCT03381729|184720501|SUPERIORITY||Difference in Percent|-6.0|||>|0.9999|TWO_SIDED|95.0|-21.8|22.8|||Fisher Exact|||Difference in the percentage of participants who achieved the ability to stand alone.|Data for the current study were compared to historical control data (Finkel et al 2014 - PubMed 25080519) where 7 (13.7%) participants achieved the ability to stand alone and 44 (86.3%) participants did not achieve the ability to stand alone.|22.8|-21.8|>0.9999
92383436|NCT01532869|184670357|SUPERIORITY_OR_OTHER||Difference in LS mean|-1.28||||0.8493|TWO_SIDED|95.0|-14.7|12.13|||Mixed Models Analysis|||Change From Baseline in Raynaud Syndrome Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||12.13|-14.70|0.8493
92383437|NCT01532869|184670357|SUPERIORITY_OR_OTHER||Difference in LS mean|4.89||||0.4717|TWO_SIDED|95.0|-8.59|18.37|||Mixed Models Analysis|||Change From Baseline in Finger Ulcers Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||18.37|-8.59|0.4717
92383438|NCT01532869|184670357|SUPERIORITY_OR_OTHER||Difference in LS mean|-0.08||||0.9876|TWO_SIDED|95.0|-9.93|9.78|||Mixed Models Analysis|||Change From Baseline in Overall Disease Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||9.78|-9.93|0.9876
92383439|NCT01532869|184670357|SUPERIORITY_OR_OTHER||Difference in LS mean|-6.8||||0.2407|TWO_SIDED|95.0|-18.3|4.71|||Mixed Models Analysis|||Change From Baseline in Intestinal VAS Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||4.71|-18.30|0.2407
92383440|NCT01532869|184670357|SUPERIORITY_OR_OTHER||Difference in LS mean|1.54||||0.7742|TWO_SIDED|95.0|-9.18|12.26|||Mixed Models Analysis|||Change From Baseline in Breathing VAS Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||12.26|-9.18|0.7742
92233233|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.49|-0.14|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.14|-0.49|<0.001
92383441|NCT01532869|184670357|SUPERIORITY_OR_OTHER||Difference in LS mean|-4.48||||0.5182|TWO_SIDED|95.0|-18.28|9.31|||Mixed Models Analysis|||Change From Baseline in Raynaud Syndrome Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||9.31|-18.28|0.5182
92383442|NCT01532869|184670357|SUPERIORITY_OR_OTHER||Difference in LS mean|-5.8||||0.3106|TWO_SIDED|95.0|-17.2|5.59|||Mixed Models Analysis|||Change From Baseline in Finger Ulcers Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||5.59|-17.20|0.3106
92383443|NCT01532869|184670357|SUPERIORITY_OR_OTHER||Difference in LS mean|-7.82||||0.1717|TWO_SIDED|95.0|-19.11|3.48|||Mixed Models Analysis|||Change From Baseline in Overall Disease Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||3.48|-19.11|0.1717
92383444|NCT01532869|184670358|SUPERIORITY_OR_OTHER||Difference in LS mean|0.02||||0.8503|TWO_SIDED|95.0|-0.186|0.225|||Mixed Models Analysis|||Change From Baseline in HAQ-DI Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction||0.225|-0.186|0.8503
92383445|NCT01532869|184670358|SUPERIORITY_OR_OTHER||Difference in LS mean|-0.207||||0.1212|TWO_SIDED|95.0|-0.471|0.056|||Mixed Models Analysis|||Change From Baseline in HAQ-DI Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||0.056|-0.471|0.1212
92383446|NCT01532869|184670359|SUPERIORITY_OR_OTHER||Difference in LS mean|-0.99||||0.8118|TWO_SIDED|95.0|-9.2|7.23|||Mixed Models Analysis|||Change From Baseline in Clinician's Global Assessment at Week 24.The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||7.23|-9.20|0.8118
92383447|NCT01532869|184670359|SUPERIORITY_OR_OTHER||Difference in LS mean|-9.02||||0.0768|TWO_SIDED|95.0|-19.04|1.0|||Mixed Models Analysis|||Change From Baseline in Clinician's Global Assessment at Week 48.The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||1.00|-19.04|0.0768
92383448|NCT01532869|184670360|SUPERIORITY_OR_OTHER||Difference in LS mean|-3.85||||0.4063|TWO_SIDED|95.0|-13.04|5.34|||Mixed Models Analysis|||Change From Baseline in Patient's Global Assessment at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||5.34|-13.04|0.4063
92383449|NCT01532869|184670360|SUPERIORITY_OR_OTHER||Difference in LS mean|-8.3||||0.1371|TWO_SIDED|95.0|-19.31|2.71|||Mixed Models Analysis|||Change From Baseline in Patient's Global Assessment at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||2.71|-19.31|0.1371
92415299|NCT03381729|184720502|SUPERIORITY||Difference Between Least Squares Mean|5.5||||0.0027|TWO_SIDED|95.0|1.9|9.0|||Mixed-Model Repeat Measure||||Data for the current study were compared to historical control data (Finkel et al 2014 - PubMed 25080519) where the least squares mean (95% confidence interval) of the change from baseline in HFMSE scores at 12 months was 0.5 (-2.2 to 3.2).|9.0|1.9|0.0027
92383450|NCT01532869|184670361|SUPERIORITY_OR_OTHER||Difference in LS mean|1.43||||0.5197|TWO_SIDED|95.0|-2.97|5.82|||Mixed Models Analysis|||Change From Baseline in FACIT-Fatigue Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||5.82|-2.97|0.5197
92383451|NCT01532869|184670361|SUPERIORITY_OR_OTHER||Difference in LS mean|2.75||||0.1886|TWO_SIDED|95.0|-1.38|6.88|||Mixed Models Analysis|||Change From Baseline in FACIT-Fatigue Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||6.88|-1.38|0.1886
92383452|NCT01532869|184670362|SUPERIORITY_OR_OTHER||Difference in LS mean|0.79||||0.3651|TWO_SIDED|95.0|-0.94|2.51|||Mixed Models Analysis|||Change From Baseline in 5-D Itch Scale at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||2.51|-0.94|0.3651
92383453|NCT01532869|184670362|SUPERIORITY_OR_OTHER||Difference in LS mean|-1.11||||0.2841|TWO_SIDED|95.0|-3.16|0.94|||Mixed Models Analysis|||Change From Baseline in 5-D Itch Scale at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||0.94|-3.16|0.2841
92233234|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.486|TWO_SIDED|95.0|-0.24|0.11|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.11|-0.24|0.486
92233235|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.008|TWO_SIDED|95.0|-0.42|-0.06|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.06|-0.42|0.008
92233236|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.63|-0.26|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.26|-0.63|<0.001
92233237|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.64|-0.28|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.28|-0.64|<0.001
92280497|NCT00601484|184463640|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-1.24|||||TWO_SIDED|90.0|-27.56|5.37||||||Week 2: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||5.37|-27.56|
92383454|NCT01532869|184670363|SUPERIORITY_OR_OTHER||Difference in LS mean|-3.55||||0.0579|TWO_SIDED|95.0|-7.23|0.12|||Mixed Models Analysis|||The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||0.12|-7.23|0.0579
92383455|NCT01532869|184670364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|STANDARD_ERROR_OF_MEAN|0.704||0.2159|TWO_SIDED|95.0|0.6|9.5|||Regression, Logistic|||The logistic regression model included the fixed categorical effects of treatment and the stratification factor of joint involvement at the baseline visit. The continuous covariate of baseline mRSS score was also included in the model.||9.50|0.60|0.2159
92383456|NCT04566692|184670400|NON_INFERIORITY|The bi-weekly treatment was considered non-inferior to the weekly treatment if the lower bound of the 90% CI was \> 0.8.|GLSM Ratio|1.035|||||TWO_SIDED|90.0|1.003|1.0685||||||Geometric least-squares means (GLSMs), GLSM ratio, and 90% CI of GLSM ratio were determined from a mixed-effect model for the log-transformed parameter value with treatment period (weekly or bi-weekly) as a fixed effect and participant as a random effect.||1.0685|1.0030|
92383457|NCT04566692|184670403|NON_INFERIORITY|The biweekly treatment was considered non-inferior to the weekly treatment if the lower bound of the 90% CI was \> 0.8.|GLSM Ratio|0.97|||||TWO_SIDED|90.0|0.9447|0.9957||||||GLSMs, GLSM ratio, and 90% CI of GLSM ratio were determined from a mixed-effect model for the log-transformed parameter value with treatment period (weekly or bi-weekly) as a fixed effect and participants as a random effect.||0.9957|0.9447|
92383458|NCT00590577|184670412|SUPERIORITY_OR_OTHER||Difference in least-squares means|-9.8|STANDARD_ERROR_OF_MEAN|2.0|<|0.001||95.0|-13.71|-5.85||Used analysis of covariance model with treatment (placebo, paliperidone palmitate 25, 100, 150 mg eq.) and country as factors and baseline value as a covariate. P-values adjusted for multiplicity for comparison with placebo using Dunnett's test.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|The overall type I error rate for testing all paliperidone palmitate doses vs. placebo for both the primary outcome and key secondary outcome was controlled at the 2-sided 0.05 significance level. The 2 families of hypotheses (in each family, comparison of each paliperidone palmitate dose vs. placebo) were tested using a parallel gatekeeping procedure that adjusts for multiplicity by using Dunnett's method in each family of hypotheses and using Bonferroni's inequality between different families.||-5.85|-13.71|<0.001
92383459|NCT00590577|184670412|SUPERIORITY_OR_OTHER||Difference in least-squares means|-8.7|STANDARD_ERROR_OF_MEAN|2.0|<|0.001||95.0|-12.62|-4.78||Used analysis of covariance model with treatment (placebo, paliperidone palmitate 25, 100, 150 mg eq.) and country as factors and baseline value as a covariate. P-values adjusted for multiplicity for comparison with placebo using Dunnett's test.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|The overall type I error rate for testing all paliperidone palmitate doses vs. placebo for both the primary outcome and key secondary outcome was controlled at the 2-sided 0.05 significance level. The 2 families of hypotheses (in each family, comparison of each paliperidone palmitate dose vs. placebo) were tested using a parallel gatekeeping procedure that adjusts for multiplicity by using Dunnett's method in each family of hypotheses and using Bonferroni's inequality between different families.||-4.78|-12.62|<0.001
92280498|NCT00601484|184463640|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-22.43|||||TWO_SIDED|90.0|-56.39|0.0||||||Week 4: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||0.00|-56.39|
92383460|NCT00590577|184670412|SUPERIORITY_OR_OTHER||Difference in least-squares means|-5.1|STANDARD_ERROR_OF_MEAN|2.01||0.034||95.0|-9.01|-1.1||Used analysis of covariance model with treatment (placebo, paliperidone palmitate 25, 100, 150 mg eq.) and country as factors and baseline value as a covariate. P-values adjusted for multiplicity for comparison with placebo using Dunnett's test.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|The overall type I error rate for testing all paliperidone palmitate doses vs. placebo for both the primary outcome and key secondary outcome was controlled at the 2-sided 0.05 significance level. The 2 families of hypotheses (in each family, comparison of each paliperidone palmitate dose vs. placebo) were tested using a parallel gatekeeping procedure that adjusts for multiplicity by using Dunnett's method in each family of hypotheses and using Bonferroni's inequality between different families.||-1.10|-9.01|0.034
92383461|NCT00590577|184670413|SUPERIORITY_OR_OTHER||Difference in least-squares means|6.2|STANDARD_ERROR_OF_MEAN|1.49|<|0.001||95.0|3.26|9.12||P-values were adjusted for multiplicity between PANSS total score (primary efficacy endpoint) and PSP, as well as different dose levels in comparison with placebo, using the Dunnett-Bonferroni-based parallel gatekeeping method.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|Analysis of the key secondary endpoint was conducted using an analysis of covariance model with treatment and country as factors, and the baseline PSP score as a covariate. The Dunnett-Bonferroni-based parallel gatekeeping approach was used to adjust for multiple testing.||9.12|3.26|<0.001
92383462|NCT00590577|184670413|SUPERIORITY_OR_OTHER||Difference in least-squares means|4.4|STANDARD_ERROR_OF_MEAN|1.5||0.007||95.0|1.43|7.31||P-values were adjusted for multiplicity between PANSS total score (primary efficacy endpoint) and PSP, as well as different dose levels in comparison with placebo, using the Dunnett-Bonferroni-based parallel gatekeeping method.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|Analysis of the key secondary endpoint was conducted using an analysis of covariance model with treatment and country as factors, and the baseline PSP score as a covariate. The Dunnett-Bonferroni-based parallel gatekeeping approach was used to adjust for multiple testing.||7.31|1.43|0.007
92383463|NCT00590577|184670413|SUPERIORITY_OR_OTHER||Difference in least-squares means|1.0|STANDARD_ERROR_OF_MEAN|1.5||0.509||95.0|-1.96|3.95||P-values were adjusted for multiplicity between PANSS total score (primary efficacy endpoint) and PSP, as well as different dose levels in comparison with placebo, using the Dunnett-Bonferroni-based parallel gatekeeping method.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|Analysis of the key secondary endpoint was conducted using an analysis of covariance model with treatment and country as factors, and the baseline PSP score as a covariate. The Dunnett-Bonferroni-based parallel gatekeeping approach was used to adjust for multiple testing.||3.95|-1.96|0.509
92415300|NCT03381729|184720504|SUPERIORITY||Percentage Difference|-2.1|||>|0.9999|TWO_SIDED|95.0|-17.2|27.0|||Fisher Exact|||Difference in the percentage of participants who achieved the ability to walk alone.|Data for the current study were compared to historical control data (Finkel et al 2014 PubMed 25080519) where 5 (9.8%) participants achieved the ability to walk alone and 46 (90.2%) participants did not achieve the ability to walk alone.|27.0|-17.2|>0.9999
92415301|NCT04456153|184720506|SUPERIORITY|||||||0.17|||||||GLMM|||||||0.170
92415302|NCT04456153|184720507|SUPERIORITY|||||||0.051|||||||GLMM|||||||0.051
92383464|NCT00590577|184670414|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparisons with placebo were without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||<0.001
92383465|NCT00590577|184670414|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Comparisons with placebo were without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||0.005
92383466|NCT00590577|184670414|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||Comparisons with placebo were without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||0.140
92383467|NCT00439374|184670416|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.79|1.35||||||All deliveries less than 37 weeks||1.35|0.79|
92383468|NCT00439374|184670416|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.7|1.4||||||Spontaneous deliveries||1.40|0.70|
92383469|NCT00439374|184670416|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.65|1.84||||||Medically-indicated deliveries||1.84|0.65|
92383470|NCT00439374|184670417|SUPERIORITY_OR_OTHER|||||||0.93|||||||Wilcoxon (Mann-Whitney)|||||||0.93
92383471|NCT00439374|184670418|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.61|1.8||||||||1.80|0.61|
92383472|NCT00439374|184670419|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.58|1.21||||||||1.21|0.58|
92383473|NCT00439374|184670420|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.54|1.43||||||||1.43|0.54|
92383474|NCT00439374|184670421|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.69|||||TWO_SIDED|95.0|0.36|1.3||||||||1.30|0.36|
92383475|NCT00439374|184670422|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.82|1.15||||||||1.15|0.82|
92383476|NCT00439374|184670423|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.55|1.29||||||||1.29|0.55|
92415303|NCT04456153|184720510|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||0.68
92415304|NCT04456153|184720511|SUPERIORITY|||||||0.76|||||||trapezoidal method|||||||0.76
92415305|NCT03758755|184720513|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.0219|||||||t-test, 1 sided|||Null hypothesis: there is no difference between groups in IKDC score at 12 weeks post-op.||||0.0219
92415306|NCT03758755|184720514|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.008|||||||t-test, 1 sided|||Null hypothesis: there is no difference between groups in VAS score at 12 weeks post-op.||||0.008
92233238|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.76|-0.39|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.39|-0.76|<0.001
92383477|NCT00439374|184670424|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.77|1.55||||||||1.55|0.77|
92233239|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.53|-0.16|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.16|-0.53|<0.001
92383478|NCT00439374|184670425|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.52|||||TWO_SIDED|95.0|0.43|5.33||||||||5.33|0.43|
92233240|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.54|-0.17|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.17|-0.54|<0.001
92280499|NCT00601484|184463640|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-16.0|||||TWO_SIDED|90.0|-40.44|0.0||||||Week 6: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||0.00|-40.44|
92383479|NCT00439374|184670426|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.78|1.72||||||||1.72|0.78|
92383480|NCT00439374|184670427|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.56|2.41||||||||2.41|0.56|
92383481|NCT00439374|184670429|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.74|||||TWO_SIDED|95.0|0.34|1.58||||||||1.58|0.34|
92383482|NCT00439374|184670430|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.45|||||TWO_SIDED|95.0|0.84|2.52||||||||2.52|0.84|
92383483|NCT00439374|184670431|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.79|1.46||||||||1.46|0.79|
92383484|NCT00439374|184670432|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|0.92|1.13||||||Any side effect||1.13|0.92|
92383485|NCT00439374|184670432|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.04|||||TWO_SIDED|95.0|0.93|1.17||||||Injection site||1.17|0.93|
92383486|NCT00439374|184670432|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|5.03|||||TWO_SIDED|95.0|1.11|22.78||||||Urticaria||22.78|1.11|
92383487|NCT00439374|184670432|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.27|1.83||||||Nausea||1.83|0.27|
92383488|NCT00439374|184670433|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.46|1.3||||||Analysis is for the total composite||1.30|0.46|
92383489|NCT00439374|184670434|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.82
92383490|NCT00439374|184670442|SUPERIORITY_OR_OTHER|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.61
92383491|NCT04033068|184670444|SUPERIORITY||||||=|0.2003|||||||Fisher-Freeman-Halton Test|||||||= 0.2003
92383492|NCT04033068|184670445|SUPERIORITY||||||=|0.1448|||||||Fisher-Freeman-Halton Test|||||||= 0.1448
92383493|NCT04033068|184670446|SUPERIORITY||||||=|0.9111|||||||Fisher-Freeman-Halton Test|||||||= 0.9111
92383494|NCT04033068|184670447|SUPERIORITY||||||=|1|||||||Fisher-Freeman-Halton Test|||||||= 1.0000
92383495|NCT04033068|184670449|SUPERIORITY||GMT Ratio|0.9|||=|0.999|TWO_SIDED|95.0|0.2|5.5|||ANOVA|||Day 0||5.5|0.2|= 0.9990
92383496|NCT04033068|184670449|SUPERIORITY||GMT Ratio|0.8|||=|0.9798|TWO_SIDED|95.0|0.1|5.2|||ANOVA|||Day 0||5.2|0.1|= 0.9798
92383497|NCT04033068|184670449|SUPERIORITY||GMT Ratio|1.2|||=|0.9958|TWO_SIDED|95.0|0.1|10.1|||ANOVA|||Day 0||10.1|0.1|= 0.9958
92383498|NCT04033068|184670449|SUPERIORITY||GMT Ratio|0.8|||=|0.9935|TWO_SIDED|95.0|0.1|5.5|||ANOVA|||Day 0||5.5|0.1|= 0.9935
92383499|NCT04033068|184670449|SUPERIORITY||GMT Ratio|1.3|||=|0.9852|TWO_SIDED|95.0|0.2|10.7|||ANOVA|||Day 0||10.7|0.2|= 0.9852
92383500|NCT04033068|184670449|SUPERIORITY||GMT Ratio|1.6|||=|0.944|TWO_SIDED|95.0|0.2|14.4|||ANOVA|||Day 0||14.4|0.2|= 0.9440
92383501|NCT04033068|184670449|SUPERIORITY||GMT Ratio|1.2|||=|0.9943|TWO_SIDED|95.0|0.2|5.5|||ANOVA|||Day 28||5.5|0.2|= 0.9943
92383502|NCT04033068|184670449|SUPERIORITY||GMT Ratio|1.0|||=|0.9999|TWO_SIDED|95.0|0.2|5.1|||ANOVA|||Day 28||5.1|0.2|= 0.9999
92383503|NCT04033068|184670449|SUPERIORITY||GMT Ratio|2.2|||=|0.6476|TWO_SIDED|95.0|0.4|14.3|||ANOVA|||Day 28||14.3|0.4|= 0.6476
92383504|NCT04033068|184670449|SUPERIORITY||GMT Ratio|0.8|||=|0.9911|TWO_SIDED|95.0|0.2|4.3|||ANOVA|||Day 28||4.3|0.2|= 0.9911
92383505|NCT04033068|184670449|SUPERIORITY||GMT Ratio|1.9|||=|0.7647|TWO_SIDED|95.0|0.3|12.0|||ANOVA|||Day 28||12.0|0.3|= 0.7647
92383506|NCT04033068|184670449|SUPERIORITY||GMT Ratio|2.3|||=|0.6447|TWO_SIDED|95.0|0.3|15.8|||ANOVA|||Day 28||15.8|0.3|= 0.6447
92383507|NCT04033068|184670449|SUPERIORITY||GMT Ratio|1.3|||=|0.9638|TWO_SIDED|95.0|0.3|5.3|||ANOVA|||Day 56||5.3|0.3|= 0.9638
92383508|NCT04033068|184670449|SUPERIORITY||GMT Ratio|1.7|||=|0.7837|TWO_SIDED|95.0|0.4|7.7|||ANOVA|||Day 56||7.7|0.4|= 0.7837
92383509|NCT04033068|184670449|SUPERIORITY||GMT Ratio|2.9|||=|0.3427|TWO_SIDED|95.0|0.5|15.3|||ANOVA|||Day 56||15.3|0.5|= 0.3427
92383510|NCT04033068|184670449|SUPERIORITY||GMT Ratio|1.3|||=|0.9578|TWO_SIDED|95.0|0.3|5.8|||ANOVA|||Day 56||5.8|0.3|= 0.9578
92383511|NCT04033068|184670449|SUPERIORITY||GMT Ratio|2.2|||=|0.5637|TWO_SIDED|95.0|0.4|11.7|||ANOVA|||Day 56||11.7|0.4|= 0.5637
92383512|NCT04033068|184670449|SUPERIORITY||GMT Ratio|1.7|||=|0.8471|TWO_SIDED|95.0|0.3|9.6|||ANOVA|||Day 56||9.6|0.3|= 0.8471
92383513|NCT01817959|184670463|SUPERIORITY||least square mean difference|0.001||||0.9863|TWO_SIDED|99.75|-0.205|0.207||Treatment p value|ANOVA|||||0.207|-0.205|0.9863
92383514|NCT01817959|184670464|SUPERIORITY||least square mean difference|0.024||||0.7115|TWO_SIDED|99.75|-0.184|0.232||Treatment p value|ANOVA|||||0.232|-0.184|0.7115
92383515|NCT01817959|184670465|SUPERIORITY||Odds Ratio, log|0.21||||0.1346|TWO_SIDED|95.0|0.03|1.63||Treatment p value|Regression, Logistic|||Analytical statistics are reported for Day 75 after transplant 2||1.63|0.03|0.1346
92383516|NCT01817959|184670466|SUPERIORITY||Odds Ratio (OR)|0.91||||0.913|TWO_SIDED|95.0|0.17|4.93||Treatment p value|Regression, Logistic|||||4.93|0.17|0.9130
92383517|NCT01817959|184670467|SUPERIORITY||Odds Ratio (OR)|0.65||||0.5467|TWO_SIDED|95.0|0.16|2.66||Treatment p value|Regression, Logistic|||||2.66|0.16|0.5467
92383518|NCT01817959|184670468|SUPERIORITY|||||||0.1383|||||||Fisher Exact|||||||0.1383
92278321|NCT01694485|184458544|SUPERIORITY|Comparisons of abrilumab 21 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.8||||0.68|TWO_SIDED|90.0|0.32|1.97|||Regression, Logistic|Adjusted for baseline rectosigmoidoscopy score and stratification factors|An odds ratio \> 1.0 indicates a higher healing rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using healing rates from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||1.97|0.32|0.68
92415307|NCT03758755|184720515|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.011|||||||t-test, 1 sided|||This analysis compares the change over time in quadriceps tendon strength between the BFR Therapy group and the No BFR Group. Underlying data was collected on a biweekly basis as the percent difference of the operated knee compared to the contralateral side. This statistical test utilized the null hypothesis that there would be no difference between groups in the change in quadriceps tendon strength over time.||||0.011
92383519|NCT01817959|184670470|SUPERIORITY||least square mean difference|-0.021||||0.6952|TWO_SIDED|95.0|-0.13|0.088||Treatment p value|ANCOVA|||This is is the analytic statistics for Day 75 (Transplant 1)||0.088|-0.130|0.6952
92383520|NCT01817959|184670470|SUPERIORITY||least square mean difference|0.028||||0.556|TWO_SIDED|95.0|-0.068|0.124||This is a treatment p value|ANCOVA|||This is is the analytic statistics for Day 75 (Transplant 2)||0.124|-0.068|0.5560
92383521|NCT01817959|184670470|SUPERIORITY||least square mean difference|0.056||||0.2537|TWO_SIDED|95.0|-0.042|0.154||Treatment p value|ANCOVA|Treatment p value||This is the analytic statics for Day 365 (last Transplant)||0.154|-0.042|0.2537
92383522|NCT01817959|184670471|SUPERIORITY||least square mean difference|-7.4||||0.591|TWO_SIDED|95.0|-35.2|20.3||Treatment p value|ANCOVA|||This is the analytic statics for Day 75 (Transplant 1)||20.3|-35.2|0.5910
92383523|NCT01817959|184670471|SUPERIORITY||least square mean difference|4.2||||0.5966|TWO_SIDED|95.0|-11.8|20.2||Treatment p value|ANCOVA|Treatment p value||This is the analytic statics for Day 75 (Transplant 2)||20.2|-11.8|0.5966
92383524|NCT01817959|184670471|SUPERIORITY||least square mean difference|6.1||||0.5005|TWO_SIDED|95.0|-12.1|24.4||Treatment p value|ANCOVA|||This is the analytic statics for Day 365 (last Transplant)||24.4|-12.1|0.5005
92383525|NCT01817959|184670472|SUPERIORITY||least square mean difference|0.21||||0.3253|TWO_SIDED|95.0|-0.21|0.63||Treatment p value|ANCOVA|||This is the analytic statics for Day 75 (Transplant 1)||0.63|-0.21|0.3253
92383526|NCT01817959|184670472|SUPERIORITY||least square mean difference|0.16||||0.6069|TWO_SIDED|95.0|-0.46|0.78||Treatment p value|least square mean difference|||This is the analytic statics for Day 75 (Transplant 2)||0.78|-0.46|0.6069
92383527|NCT01817959|184670472|SUPERIORITY||Least square mean difference|0.17||||0.6437|TWO_SIDED|95.0|-0.56|0.93||Treatment p value|ANCOVA|Treatment p value||This is the analytic statics for Day 365 (last Transplant)||0.93|-0.56|0.6437
92383528|NCT01817959|184670473|SUPERIORITY||least square mean difference|2.0||||0.429|TWO_SIDED|95.0|-3.0|6.9||Treatment p value|ANCOVA|||This is the analytic statistics for Day 75 (Transplant 1)||6.9|-3.0|0.4290
92383529|NCT01817959|184670473|SUPERIORITY||least square mean difference|1.0||||0.7853|TWO_SIDED|95.0|-6.3|8.3||Treatment p value|ANCOVA|||This is the analytic statistics for Day 75 (Transplant 2)||8.3|-6.3|0.7853
92383530|NCT01817959|184670473|SUPERIORITY||least square mean difference|1.9||||0.6583|TWO_SIDED|95.0|-6.6|10.4||Treatment p value|ANCOVA|||This is the analytic statistics for Day 365 (last Transplant)||10.4|-6.6|0.6583
92383531|NCT01817959|184670477|SUPERIORITY||Least square mean difference|0.0||||0.9949|TWO_SIDED|95.0|-1.28|1.28||Treatment p value|ANOVA|||This is the analytic statistics for Day 75 (Transplant 1)||1.28|-1.28|0.9949
92383532|NCT01817959|184670477|SUPERIORITY||Least square mean difference|0.1||||0.8753|TWO_SIDED|95.0|-1.18|1.38||Treatment p value|ANOVA|||This is the analytic statistics for Day 75 (Transplant 2)||1.38|-1.18|0.8753
92383533|NCT01817959|184670477|SUPERIORITY||Least square mean difference|-0.59||||0.3955|TWO_SIDED|95.0|-1.97|0.8||Treatment p value|ANOVA|||This is the analytic statistics for Day 365 (last Transplant)||0.80|-1.97|0.3955
92383534|NCT01817959|184670478|SUPERIORITY||Least square mean difference|-0.105||||0.2444|TWO_SIDED|95.0|-0.286|0.075||Treatment p value|ANOVA|||This is the analytic statistics for Day 75 (Transplant 1)||0.075|-0.286|0.2444
92383535|NCT01817959|184670478|SUPERIORITY||Least square mean difference|-0.218||||0.0328|TWO_SIDED|95.0|-0.417|-0.019||Treatment p value|ANOVA|||This is the analytic statistics for Day 75 (Transplant 2)||-0.019|-0.417|0.0328
92383536|NCT01817959|184670478|SUPERIORITY||Least square mean difference|-0.177||||0.1059|TWO_SIDED|95.0|-0.393|0.039||This is the analytic statistics for Day 75 (Transplant 2)|ANOVA|||This is the analytic statistics for Day 365 (last Transplant)||0.039|-0.393|0.1059
92383537|NCT00559988|184670520|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.064||||0.732|TWO_SIDED|95.0|0.75|1.51|||Regression, Cox|||||1.51|0.75|0.732
92383538|NCT04943432|184670529|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||T2 - T1||||0.06
92383539|NCT04943432|184670529|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||T3 - T1||||0.68
92383540|NCT04943432|184670531|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||T2-T1||||.01
92383541|NCT04943432|184670531|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||T3-T1||||.32
92383542|NCT04943432|184670532|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||T2-T1||||.44
92383543|NCT04943432|184670532|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||T3-T1||||.007
92383544|NCT04943432|184670536|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||T2-T1||||.01
92383545|NCT04943432|184670536|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||T3-T1||||.11
92278322|NCT01694485|184458544|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Healing Rates|-3.0|||||TWO_SIDED|90.0|-11.9|9.4||||||The difference in adjusted healing rates, estimated from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||9.4|-11.9|
92383546|NCT04943432|184670537|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||T2-T1||||.82
92383547|NCT04943432|184670537|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||T3-T1||||.36
92383548|NCT04943432|184670538|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||T2-T1||||.34
92383549|NCT04943432|184670538|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||T3-T1||||.02
92383550|NCT04943432|184670540|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||T2-T1||||.14
92383551|NCT04943432|184670540|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||T3-T1||||.29
92383552|NCT04943432|184670542|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||T2-T1||||<.001
92383553|NCT04943432|184670542|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||T3-T1||||.23
92383554|NCT00241904|184670565|SUPERIORITY||||||<|0.001|||||||General Linear Mixed Model|||Intention to treat analysis was used||||<0.001
92383555|NCT00241904|184670566|SUPERIORITY|||||||0.003|||||||General Linear Mixed Model|||||||0.003
92383556|NCT00241904|184670567|SUPERIORITY|||||||0.034|||||||General Linear Mixed Model|||||||0.034
92383557|NCT00241904|184670568|SUPERIORITY||||||<|0.001|||||||General Linear Mixed Model|||||||<0.001
92383558|NCT01990612|184670569|SUPERIORITY||Risk Ratio (RR)|0.8||||0.049|TWO_SIDED|95.0|0.64|1.0|||Chi-squared|Group sequential method to control type I error w/ Lan-DeMets characterization of O'Brien-Fleming boundary. 2-tailed p-value \<0.46 considered stat sig|One interim analysis was performed; in final analysis of the primary outcome, a two-tailed P value of less than 0.046 considered to indicate statistical significance. Since adjustment is minimal, we report 95% confidence interval for relative risk.|||1.00|0.64|0.049
92383559|NCT01990612|184670570|SUPERIORITY||Risk Ratio (RR)|0.66|||||TWO_SIDED|95.0|0.12|3.33|||||Exact confidence intervals are provided for rare outcomes. Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||3.33|0.12|
92383560|NCT01990612|184670571|SUPERIORITY||Risk Ratio (RR)|0.71|||||TWO_SIDED|95.0|0.55|0.93||||||||0.93|0.55|
92383561|NCT01990612|184670572|SUPERIORITY||Risk Ratio (RR)|0.66|||||TWO_SIDED|95.0|0.32|1.37|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.37|0.32|
92383562|NCT01990612|184670573|SUPERIORITY||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.35|1.37|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.37|0.35|
92383563|NCT01990612|184670574|SUPERIORITY||Risk Ratio (RR)|2.74|||||TWO_SIDED|95.0|0.91|8.12|||||Exact confidence intervals are provided for rare outcomes. Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||8.12|0.91|
92383564|NCT01990612|184670575|SUPERIORITY||Risk Ratio (RR)|0.74|||||TWO_SIDED|95.0|0.31|1.76|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.76|0.31|
92383565|NCT01990612|184670576|SUPERIORITY||Risk Ratio (RR)|0.65|||||TWO_SIDED|95.0|0.35|1.19|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.19|0.35|
92383566|NCT01990612|184670577|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.38|1.55|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.55|0.38|
92383567|NCT01990612|184670578|SUPERIORITY||Risk Ratio (RR)|1.28|||||TWO_SIDED|95.0|0.48|3.42|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||3.42|0.48|
92383568|NCT01990612|184670579|SUPERIORITY||Risk Ratio (RR)|0.4|||||TWO_SIDED|95.0|0.06|1.79|||||Exact confidence intervals are provided for rare outcomes. Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.79|0.06|
92383569|NCT01990612|184670580|SUPERIORITY||Risk Ratio (RR)|0.84|||<|0.001|TWO_SIDED|95.0|0.76|0.93||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||||0.93|0.76|<0.001
92383570|NCT01990612|184670581|SUPERIORITY||Risk Ratio (RR)|0.58||||0.02|TWO_SIDED|95.0|0.36|0.92||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||||0.92|0.36|0.02
92383571|NCT01990612|184670582|SUPERIORITY||Risk Ratio (RR)|0.85||||0.07|TWO_SIDED|95.0|0.72|1.01|||Chi-squared|||||1.01|0.72|0.07
92383572|NCT01990612|184670583|SUPERIORITY||Risk Ratio (RR)|0.94||||0.35|TWO_SIDED|95.0|0.83|1.07|||Chi-squared|||||1.07|0.83|0.35
92383573|NCT01990612|184670584|SUPERIORITY||Risk Ratio (RR)|1.15||||0.33|TWO_SIDED|95.0|0.87|1.52|||Chi-squared|||||1.52|0.87|0.33
92383574|NCT01990612|184670586|SUPERIORITY||Risk Ratio (RR)|0.5||||0.26|TWO_SIDED|95.0|0.13|1.55|||Chi-squared||Exact confidence intervals are provided for rare outcomes.|||1.55|0.13|0.26
92383575|NCT01990612|184670587|SUPERIORITY||Risk Ratio (RR)|0.64|||<|0.001|TWO_SIDED|95.0|0.56|0.74||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||||0.74|0.56|<0.001
92383576|NCT01990612|184670588|SUPERIORITY||Risk Ratio (RR)|1.03||||0.81|TWO_SIDED|95.0|0.82|1.29|||Chi-squared|||||1.29|0.82|0.81
92383577|NCT01990612|184670589|SUPERIORITY||||||<|0.001||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||Analysis for 6-96 hours after delivery||||<0.001
92233241|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.85|-0.49|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.49|-0.85|<0.001
92233242|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.63|-0.25|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.25|-0.63|<0.001
92383578|NCT01990612|184670589|SUPERIORITY|||||||0.01||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||Analysis for 4-8 weeks after delivery||||0.01
92383579|NCT01990612|184670590|SUPERIORITY||||||<|0.001||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||Analysis for Worst labor pain score||||<0.001
92383580|NCT01990612|184670590|SUPERIORITY||||||<|0.001||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||Analysis for Overall labor pain score||||<0.001
92383581|NCT01990612|184670591|SUPERIORITY||Risk Ratio (RR)|0.76||||0.15|TWO_SIDED|95.0|0.53|1.1|||Chi-squared|||||1.10|0.53|0.15
92383582|NCT01990612|184670592|SUPERIORITY||Risk Ratio (RR)|1.99||||1|TWO_SIDED|95.0|0.26|26.8|||Chi-squared|The P-values has not been adjusted for multiplicity of comparisons of secondary outcomes.|Exact confidence intervals are provided for rare outcomes.|||26.8|0.26|1.00
92383583|NCT01990612|184670594|SUPERIORITY|||||||0.01|||||||Cochran-Armitage trend test|||||||0.01
92383584|NCT01990612|184670595|SUPERIORITY||Risk Ratio (RR)|0.92||||0.56|TWO_SIDED|95.0|0.68|1.23|||Chi-squared|||||1.23|0.68|0.56
92383585|NCT01990612|184670596|SUPERIORITY||Risk Ratio (RR)|0.9||||0.56|TWO_SIDED|95.0|0.64|1.28|||Chi-squared|||||1.28|0.64|0.56
92383586|NCT01990612|184670597|SUPERIORITY||Risk Ratio (RR)|0.79||||0.75|TWO_SIDED|95.0|0.2|2.74|||Chi-squared||Exact confidence intervals are provided for rare outcomes.|||2.74|0.20|0.75
92383587|NCT01990612|184670598|SUPERIORITY||Risk Ratio (RR)|1.01||||0.91|TWO_SIDED|95.0|0.81|1.27|||Chi-squared|||||1.27|0.81|0.91
92383588|NCT01990612|184670599|SUPERIORITY||Risk Ratio (RR)|1.05||||0.84|TWO_SIDED|95.0|0.66|1.66|||Chi-squared|||||1.66|0.66|0.84
92383589|NCT01990612|184670600|SUPERIORITY||Risk Ratio (RR)|0.9||||0.13|TWO_SIDED|95.0|0.79|1.03|||Chi-squared|||||1.03|0.79|0.13
92383590|NCT01990612|184670601|SUPERIORITY||||||<|0.001|||||||Wilcoxon Rank-Sum|||||||<0.001
92383591|NCT01990612|184670602|SUPERIORITY|||||||0.01||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Cochran-Armitage trend test|||||||0.01
92383592|NCT01990612|184670603|SUPERIORITY|||||||0.002||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Cochran-Armitage trend test|||||||0.002
92383593|NCT01990612|184670605|OTHER||Odds Ratio, log|1.01||||0.88|TWO_SIDED|95.0|0.89|1.15||Odds ratios from multinomial logistic regression.|Regression, Logistic|||Multinomial logistic regression using participants who are breastfeeding only as the reference group. This analysis compares the participants who are breastfeeding and formula feeding to participants who are only breastfeeding.||1.15|0.89|0.88
92383594|NCT01990612|184670605|OTHER||Odds Ratio, log|0.98||||0.78|TWO_SIDED|95.0|0.86|1.12|||Regression, Logistic|||Multinomial logistic regression using participants who are breastfeeding only as the reference group. This analysis compares the participants who are only formula feeding to participants who are only breastfeeding.||1.12|0.86|0.78
92383595|NCT02980133|184670631|SUPERIORITY||LS mean difference|1.9||||0.285|TWO_SIDED|95.0|-1.6|5.3||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using an ANCOVA model with effects due to baseline trough morning percent predicted FEV1, sex, age, (pooled) investigational center, previous therapy (ICS or NCS), and IMP treatment group.||5.3|-1.6|0.285
92233243|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.57|-0.19|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.19|-0.57|<0.001
92383596|NCT02980133|184670632|SUPERIORITY||Least square (LS) mean difference|6.0|||<|0.001|TWO_SIDED|95.0|3.2|8.8||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using an analysis of covariance (ANCOVA) model with effects due to baseline trough morning percent predicted FEV1, sex, age, (pooled) investigational center, previous therapy (inhaled corticosteroid \[ICS\] or noncorticosteroid \[NCS\]), and investigational medicinal product (IMP) treatment group.||8.8|3.2|<0.001
92383597|NCT02980133|184670632|SUPERIORITY||LS mean difference|7.0|||<|0.001|TWO_SIDED|95.0|4.1|9.8||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using an ANCOVA model with effects due to baseline trough morning percent predicted FEV1, sex, age, (pooled) investigational center, previous therapy (ICS or NCS), and IMP treatment group.||9.8|4.1|<0.001
92383598|NCT01854281|184670639|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Fisher Exact|||null hypothesis: there is no difference in the occurence of arterial bubbles after simulated dive between closure and PFO groups.||||0.02
92383599|NCT01854281|184670639|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||Fisher Exact|||null hypothesis: there is no difference in the occurence of arterial bubbles after simulated dive between closure and PFO groups.||||<0.01
92383600|NCT03208088|184670640|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least Square Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|2.92|||TWO_SIDED|95.0|0.1|11.6|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test 1 - Control.|||11.6|0.1|
92169394|NCT00716859|184227242|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If lower limit of 95% Confidence Interval (CI) for treatment difference is above non-inferiority margin, then non-inferiority concluded. If lower limit of 95% CI for treatment difference is above non-inferiority margin and above zero, then superiority concluded. The difference and 95% CI of the difference in IOP reduction (Week 12) was computed from an analysis of covariance (ANCOVA) model with treatment and baseline diagnosis as factors and baseline IOP as covariate.|Mean Difference (Net)|1.46|||||TWO_SIDED|95.0|-0.81|3.74||||||Null hypothesis: latanoprost inferior to timolol (0.5 percent \[%\] optionally 0.25% for participants younger than 3 years). Power calculation: assuming common standard deviation (7 mmHg), 110 participants have 84% power to demonstrate latanoprost not inferior to timolol within 3 mmHg margin, assuming latanoprost has 1 mmHg reduction more than timolol in mean change from baseline IOP.||3.74|-0.81|
92383601|NCT03208088|184670640|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least Square Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|3.06|||TWO_SIDED|95.0|-4.0|8.1|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test 2 - Control.|||8.1|-4.0|
92383602|NCT03208088|184670641|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least Square Mean difference|-1.5|STANDARD_ERROR_OF_MEAN|3.06|||TWO_SIDED|95.0|-7.5|4.6|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test 3 - Control.|||4.6|-7.5|
92383603|NCT03208088|184670641|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least Square Mean|-3.4|STANDARD_ERROR_OF_MEAN|2.88|||TWO_SIDED|95.0|-9.0|2.3|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test 4 - Control.|||2.3|-9.0|
92383604|NCT00360724|184670649|SUPERIORITY_OR_OTHER||F statistics|9.43||||0.003|||||||Repeated Measures ANOVA|df 1,55|time X Drug group, f=9.43,df 1,55, p=.003|Repeated measures ANOVA was used to compare measures between baseline and week 10.||||.003
92383605|NCT00360724|184670651|SUPERIORITY_OR_OTHER||F statistics|8.72||||0.05|||||||Repeated Measures ANOVA|d.f. 1,55|Time x Treatment: F=8.72, d.f=1,55, p=0.05|Repeated measures ANOVA was used to compare measures between baseline and week 10.||||0.05
92383606|NCT00360724|184670652|SUPERIORITY_OR_OTHER||F statistics|5.33||||0.025|||||||Repeated measures ANOVA|d.f. 1,55||Repeated measures ANOVA was used to compare measures between baseline and week 10.||||0.025
92383607|NCT00360724|184670653|SUPERIORITY_OR_OTHER||F statistics|0.26||||0.6|||||||Repeated measures ANOVA|d.f.=1,55||Repeated measures ANOVA was used to compare measures between baseline and week 10.||||0.6
92169395|NCT00716859|184227243|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.68|||||TWO_SIDED|95.0|-1.66|3.02||||||||3.02|-1.66|
92383608|NCT00360724|184670658|OTHER||Mean Difference (Final Values)|4.0||||0.002|TWO_SIDED||||||t-test, 2 sided|||||||0.002
92383609|NCT00360724|184670659|OTHER||Mean Difference (Final Values)|0.4||||0.9|TWO_SIDED||||||t-test, 2 sided|||||||0.9
92383610|NCT00605345|184670666|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority was met if the lower limit of the confidence interval for the response rate of the CERA group was greater than the observed response rate of the darbepoetin group minus 15%. The calculated lower limit of an acceptable difference in response rates thus, was based on the actual percentage of responders in the darbepoetin group and this percentage minus 15% had to be excluded."||||||0.5947|||||||Fisher Exact|||||||0.5947
92383611|NCT02577016|184670672|SUPERIORITY||Difference in least squares means|-0.83|||<|0.001|TWO_SIDED|95.0|-1.05|-0.62|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-0.62|-1.05|<0.001
92383612|NCT02577016|184670675|SUPERIORITY||Difference in least squares means|-42.5|||<|0.001|TWO_SIDED|95.0|-53.7|-31.2|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-31.2|-53.7|<0.001
92383613|NCT02577016|184670676|SUPERIORITY||Difference in least squares means|-67.0|||<|0.001|TWO_SIDED|95.0|-84.0|-50.0|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-50.0|-84.0|<0.001
92383614|NCT02577016|184670677|SUPERIORITY||Difference in least squares means|-11.2|||<|0.001|TWO_SIDED|95.0|-17.2|-5.2|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-5.2|-17.2|<0.001
92383615|NCT05399290|184670678|OTHER|Chi square analysis was conducted to detect any significant between group differences (100 mg vs 20 mg) in perceived acne severity.||||||0.677|||||||Chi-squared|||||||0.677
92169396|NCT00716859|184227244|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.62|||||TWO_SIDED|95.0|-1.0|4.25||||||||4.25|-1.00|
92169397|NCT00716859|184227245|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.4085|||||TWO_SIDED|95.0|-1.1|2.67||||||||2.67|-1.10|
92383616|NCT05399290|184670678|OTHER|Friedman's test was conducted for the 100 mg treatment arm to detect any significant within group differences in perceived acne severity.||||||0.002|||||||Friedman's test|||||||0.002
92383617|NCT05399290|184670678|OTHER|Friedman's test was conducted for the 20 mg treatment arm to detect any significant within group differences in perceived acne severity.||||||0.018|||||||Fried|||||||0.018
92415308|NCT03758755|184720516|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.223|||||||t-test, 1 sided|||This analysis compares the change over time in thigh circumference between the BFR Therapy group and the No BFR Group. Underlying data was collected on a biweekly basis as the percent difference of the operated knee compared to the contralateral side. This statistical test utilized the null hypothesis that there would be no difference between groups in the change in thigh circumference over time.||||0.223
92415309|NCT03758755|184720517|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.242|||||||t-test, 1 sided|||This analysis compares the change over time in degrees of knee flexion between the BFR Therapy group and the No BFR Group from 2 weeks post-op to 12 weeks post-op. Underlying data was collected on a biweekly basis. This statistical test utilized the null hypothesis that there would be no difference between groups in the change in degrees of knee flexion over time.||||0.242
92233244|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.8|-0.42|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.42|-0.80|<0.001
92383618|NCT00666224|184670684|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.55||||0.0005|TWO_SIDED|95.0|0.4|0.77||Type of unifocal presentation at baseline, past corticosteroid treatment (Yes/No) for the initial attack prior to randomization, and center effects as covariates.|Regression, Cox|||||0.77|0.40|0.0005
92383619|NCT00666224|184670685|SUPERIORITY_OR_OTHER||Rate ratio|0.42|||<|0.0001|TWO_SIDED|95.0|0.29|0.61|||Quasi-Likelihood NB* Regression|"\*NB = Negative Binomial~Center and baseline number of enhancing lesions as covariates."||||0.61|0.29|<0.0001
92383620|NCT00666224|184670686|SUPERIORITY_OR_OTHER||Geometric means ratio|0.87||||0.0013|TWO_SIDED|95.0|0.79|0.95|||ANCOVA|Used log-transformed measurements comparing the adjusted geometric means of T2 volume. Center and baseline T2 volume used as covariates.||||0.95|0.79|0.0013
92383621|NCT00666224|184670689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41|||<|0.0001|TWO_SIDED|95.0|0.27|0.61||Type of unifocal presentation, past corticosteroid treatment (Yes/No) for the initial attack prior to randomization and center effects as covariates.|Regression, Logistic|||||0.61|0.27|<0.0001
92383622|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio (GMR)|1.14|||||TWO_SIDED|95.0|0.95|1.37||||||Serotype 1: Geometric mean ratios (GMRs) (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% confidence intervals (CIs).||1.37|0.95|
92383623|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio (GMR)|1.01|||||TWO_SIDED|95.0|0.88|1.16||||||Serotype 3: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.16|0.88|
92383624|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.96|||||TWO_SIDED|95.0|0.78|1.17||||||Serotype 4: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.17|0.78|
92383625|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.77|1.12||||||Serotype 5: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.12|0.77|
92383626|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.24|||||TWO_SIDED|95.0|1.03|1.5||||||Serotype 6A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.50|1.03|
92383627|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.01|||||TWO_SIDED|95.0|0.85|1.21||||||Serotype 6B: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.21|0.85|
92383628|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.98|||||TWO_SIDED|95.0|0.82|1.17||||||Serotype 7F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.17|0.82|
92383629|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.11|||||TWO_SIDED|95.0|0.93|1.33||||||Serotype 9V: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.33|0.93|
92383630|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.07|||||TWO_SIDED|95.0|0.9|1.27||||||Serotype 14: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.27|0.90|
92383631|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.88|||||TWO_SIDED|95.0|0.72|1.07||||||Serotype 18C: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.07|0.72|
92383632|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.95|||||TWO_SIDED|95.0|0.81|1.12||||||Serotype 19A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.12|0.81|
92383633|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.81|1.21||||||Serotype 19F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.21|0.81|
92383634|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.92|||||TWO_SIDED|95.0|0.72|1.16||||||Serotype 23F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.16|0.72|
92415310|NCT03758755|184720518|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.049|||||||t-test, 1 sided|||This analysis compares the change over time in degrees of knee extension between the BFR Therapy group and the No BFR Group from 2 weeks post-op to 12 weeks post-op. Underlying data was collected on a biweekly basis. This statistical test utilized the null hypothesis that there would be no difference between groups in the change in degrees of knee extension over time.||||0.049
92383635|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.19|||||TWO_SIDED|95.0|1.0|1.4||||||Serotype 8: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.40|1.00|
92383636|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.11|||||TWO_SIDED|95.0|0.91|1.36||||||Serotype 10A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.36|0.91|
92383637|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.29|||||TWO_SIDED|95.0|1.03|1.6||||||Serotype 11A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.60|1.03|
92233245|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.1||0.035|TWO_SIDED|95.0|-0.42|-0.02|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.02|-0.42|0.035
92233246|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.125|TWO_SIDED|95.0|-0.36|0.04|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.04|-0.36|0.125
92233247|NCT00733902|184368877|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.58|-0.18|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.18|-0.58|<0.001
92233248|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.49|-0.14|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.14|-0.49|<0.001
92415311|NCT02312687|184720536|SUPERIORITY||Least Squares (LS) Mean|0.68|||<|0.0001|TWO_SIDED|95.0|0.48|0.88||The generalized estimation equation (GEE) model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|generalized estimation equation (GEE)|||Change at Week 24||0.88|0.48|< 0.0001
92415312|NCT02312687|184720536|SUPERIORITY||LS Mean|0.68|||<|0.0001|TWO_SIDED|95.0|0.57|0.79||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||0.79|0.57|< 0.0001
92415313|NCT02312687|184720536|SUPERIORITY||LS Mean|0.59|||<|0.0001|TWO_SIDED|95.0|0.44|0.75||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||0.75|0.44|< 0.0001
92415314|NCT02312687|184720536|SUPERIORITY||LS Mean|0.47|||<|0.0001|TWO_SIDED|95.0|0.31|0.63||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||0.63|0.31|< 0.0001
92415315|NCT02312687|184720536|SUPERIORITY||LS Mean|0.57|||<|0.0001|TWO_SIDED|95.0|0.41|0.73||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||0.73|0.41|< 0.0001
92415316|NCT02312687|184720536|SUPERIORITY||LS Mean|0.59|||<|0.0001|TWO_SIDED|95.0|0.43|0.76||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||0.76|0.43|< 0.0001
92169398|NCT00716859|184227250|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3315|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value from a Cochran-Mantel-Haenszel chi-square test stratified by baseline diagnosis (PCG vs non-PCG).||||||0.3315
92169399|NCT02178098|184227252|SUPERIORITY||Least squares mean difference|-24.24|STANDARD_ERROR_OF_MEAN|3.08|<|0.0001|TWO_SIDED|95.0|-30.33|-18.15|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-18.15|-30.33|<0.0001
92169400|NCT02178098|184227253|SUPERIORITY||Least squares mean difference|-1.64|STANDARD_ERROR_OF_MEAN|1.511||0.2808|TWO_SIDED|95.0|-4.62|1.35|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||1.35|-4.62|0.2808
92169401|NCT02178098|184227254|SUPERIORITY||Least squares mean difference|-1.05|STANDARD_ERROR_OF_MEAN|1.111||0.3461|TWO_SIDED|95.0|-3.25|1.15|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||1.15|-3.25|0.3461
92280500|NCT00601484|184463640|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-14.18|||||TWO_SIDED|90.0|-50.71|0.0||||||Week 10: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||0.00|-50.71|
92415317|NCT02312687|184720537|SUPERIORITY||LS Mean|-9.75||||0.1366|TWO_SIDED|95.0|-22.59|3.09||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 24||3.09|-22.59|0.1366
92415318|NCT02312687|184720537|SUPERIORITY||LS Mean|-11.17||||0.1334|TWO_SIDED|95.0|-25.76|3.42||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 48||3.42|-25.76|0.1334
92415319|NCT02312687|184720537|SUPERIORITY||LS Mean|-18.12|||<|0.0001|TWO_SIDED|95.0|-27.07|-9.17||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 72||-9.17|-27.07|< 0.0001
92415320|NCT02312687|184720537|SUPERIORITY||LS Mean|-25.28|||<|0.0001|TWO_SIDED|95.0|-36.21|-14.35||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 96||-14.35|-36.21|< 0.0001
92415321|NCT02312687|184720537|SUPERIORITY||LS Mean|-22.39|||<|0.0001|TWO_SIDED|95.0|-31.51|-13.26||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 120||-13.26|-31.51|< 0.0001
92169402|NCT02178098|184227255|SUPERIORITY||Least squares mean difference|-2.31|STANDARD_ERROR_OF_MEAN|1.734||0.1852|TWO_SIDED|95.0|-5.74|1.12|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||1.12|-5.74|0.1852
92415322|NCT02312687|184720537|SUPERIORITY||LS Mean|-28.33|||<|0.0001|TWO_SIDED|95.0|-40.11|-16.56||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 144||-16.56|-40.11|< 0.0001
92415323|NCT02312687|184720538|SUPERIORITY||LS Mean|215493.38|||<|0.0001|TWO_SIDED|95.0|194650.78|236335.97||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||236335.97|194650.78|< 0.0001
92415324|NCT02312687|184720538|SUPERIORITY||LS Mean|202525.38|||<|0.0001|TWO_SIDED|95.0|168364.92|236685.83||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||236685.83|168364.92|< 0.0001
92169403|NCT02178098|184227256|SUPERIORITY||Least squares mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.253||0.2481|TWO_SIDED|95.0|-3.93|1.03|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||1.03|-3.93|0.2481
92278323|NCT01694485|184458544|SUPERIORITY|Comparisons of abrilumab 7 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.69||||0.6|TWO_SIDED|90.0|0.21|2.22|||Regression, Logistic|Adjusted for baseline rectosigmoidoscopy score and stratification factors|An odds ratio \> 1.0 indicates a higher healing rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using healing rates from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||2.22|0.21|0.60
92383638|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.08|||||TWO_SIDED|95.0|0.88|1.33||||||Serotype 12F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.33|0.88|
92383639|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.16|||||TWO_SIDED|95.0|0.91|1.46||||||Serotype 15B: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.46|0.91|
92383640|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.12|||||TWO_SIDED|95.0|0.87|1.43||||||Serotype 22F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.43|0.87|
92383641|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.83|1.3||||||Serotype 33F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.30|0.83|
92383642|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.21|||||TWO_SIDED|95.0|1.01|1.46||||||Serotype 1: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.46|1.01|
92383643|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.96|1.26||||||Serotype 3: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.26|0.96|
92383644|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.82|1.22||||||Serotype 4: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.22|0.82|
92383645|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.08|||||TWO_SIDED|95.0|0.89|1.31||||||Serotype 5: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.31|0.89|
92383646|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.4|||||TWO_SIDED|95.0|1.16|1.69||||||Serotype 6A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.69|1.16|
92383647|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.13|||||TWO_SIDED|95.0|0.94|1.35||||||Serotype 6B: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.35|0.94|
92383648|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.97|||||TWO_SIDED|95.0|0.81|1.16||||||Serotype 7F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.16|0.81|
92383649|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.87|1.25||||||Serotype 9V: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.25|0.87|
92383650|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.12|||||TWO_SIDED|95.0|0.94|1.33||||||Serotype 14: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.33|0.94|
92383651|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.92|||||TWO_SIDED|95.0|0.75|1.13||||||Serotype 18C: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.13|0.75|
92383652|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.02|||||TWO_SIDED|95.0|0.86|1.2||||||Serotype 19A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.20|0.86|
92383653|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.96|||||TWO_SIDED|95.0|0.78|1.17||||||Serotype 19F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.17|0.78|
92383654|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.78|1.25||||||Serotype 23F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.25|0.78|
92383655|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.98|||||TWO_SIDED|95.0|0.83|1.16||||||Serotype 8: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.16|0.83|
92383656|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.06|||||TWO_SIDED|95.0|0.87|1.3||||||Serotype 10A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.30|0.87|
92383657|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.8|1.24||||||Serotype 11A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.24|0.80|
92415325|NCT02312687|184720538|SUPERIORITY||LS Mean|221481.03|||<|0.0001|TWO_SIDED|95.0|179628.07|263333.98||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||263333.98|179628.07|< 0.0001
92415326|NCT02312687|184720538|SUPERIORITY||LS Mean|221674.07|||<|0.0001|TWO_SIDED|95.0|181313.34|262034.81||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||262034.81|181313.34|< 0.0001
92233249|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.486|TWO_SIDED|95.0|-0.24|0.11|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.11|-0.24|0.486
92278324|NCT01694485|184458544|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Healing Rates|-4.6|||||TWO_SIDED|90.0|-14.9|11.3||||||The difference in adjusted healing rates, estimated from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||11.3|-14.9|
92383658|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.16|||||TWO_SIDED|95.0|0.94|1.42||||||Serotype 12F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.42|0.94|
92383659|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.05|||||TWO_SIDED|95.0|0.82|1.33||||||Serotype 15B: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.33|0.82|
92383660|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.98|||||TWO_SIDED|95.0|0.77|1.26||||||Serotype 22F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.26|0.77|
92383661|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.03|||||TWO_SIDED|95.0|0.82|1.29||||||Serotype 33F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.29|0.82|
92415327|NCT02312687|184720538|SUPERIORITY||LS Mean|208270.02|||<|0.0001|TWO_SIDED|95.0|167217.98|249322.06||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||249322.06|167217.98|< 0.0001
92383662|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.06|||||TWO_SIDED|95.0|0.89|1.28||||||Serotype 1: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.28|0.89|
92383663|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.09|||||TWO_SIDED|95.0|0.95|1.24||||||Serotype 3: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.24|0.95|
92383664|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.85|1.27||||||Serotype 4: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.27|0.85|
92383665|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.16|||||TWO_SIDED|95.0|0.96|1.41||||||Serotype 5: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.41|0.96|
92383666|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.13|||||TWO_SIDED|95.0|0.93|1.36||||||Serotype 6A: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.36|0.93|
92415328|NCT02312687|184720538|SUPERIORITY||LS Mean|235953.55|||<|0.0001|TWO_SIDED|95.0|166110.59|305796.52||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||305796.52|166110.59|< 0.0001
92415329|NCT02312687|184720539|SUPERIORITY||LS Mean|1277.84|||<|0.0001|TWO_SIDED|95.0|1202.34|1353.34||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||1353.34|1202.34|< 0.0001
92415330|NCT02312687|184720539|SUPERIORITY||LS Mean|1244.99|||<|0.0001|TWO_SIDED|95.0|1166.1|1323.88||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||1323.88|1166.10|< 0.0001
92415331|NCT02312687|184720539|SUPERIORITY||LS Mean|1298.49|||<|0.0001|TWO_SIDED|95.0|1233.56|1363.43||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||1363.43|1233.56|< 0.0001
92233250|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.008|TWO_SIDED|95.0|-0.42|-0.06|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.06|-0.42|0.008
92233251|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.64|-0.28|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.28|-0.64|<0.001
92415332|NCT02312687|184720539|SUPERIORITY||LS Mean|1311.05|||<|0.0001|TWO_SIDED|95.0|1238.3|1383.8||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||1383.80|1238.30|< 0.0001
92415333|NCT02312687|184720539|SUPERIORITY||LS Mean|1368.68|||<|0.0001|TWO_SIDED|95.0|1327.4|1409.96||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||1409.96|1327.40|< 0.0001
92415334|NCT02312687|184720539|SUPERIORITY||LS Mean|1298.41|||<|0.0001|TWO_SIDED|95.0|1208.31|1388.51||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||1388.51|1208.31|< 0.0001
92233252|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.62|-0.26|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.26|-0.62|<0.001
92383667|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.11|||||TWO_SIDED|95.0|0.93|1.33||||||Serotype 6B: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.33|0.93|
92383668|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.83|1.19||||||Serotype 7F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.19|0.83|
92383669|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.94|||||TWO_SIDED|95.0|0.78|1.12||||||Serotype 9V: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.12|0.78|
92383670|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.88|1.24||||||Serotype 14: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.24|0.88|
92383671|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.05|||||TWO_SIDED|95.0|0.86|1.29||||||Serotype 18C: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.29|0.86|
92383672|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.07|||||TWO_SIDED|95.0|0.91|1.25||||||Serotype 19A: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.25|0.91|
92383673|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.96|||||TWO_SIDED|95.0|0.79|1.17||||||Serotype 19F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.17|0.79|
92415335|NCT02312687|184720540|SUPERIORITY||LS Mean|7.87||||0.0011|TWO_SIDED|95.0|3.16|12.58||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||12.58|3.16|0.0011
92383674|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.08|||||TWO_SIDED|95.0|0.85|1.37||||||Serotype 23F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.37|0.85|
92383675|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.83|||||TWO_SIDED|95.0|0.7|0.98||||||Serotype 8: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||0.98|0.70|
92415336|NCT02312687|184720540|SUPERIORITY||LS Mean|2.7||||0.3092|TWO_SIDED|95.0|-2.5|7.9||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||7.90|-2.50|0.3092
92415337|NCT02312687|184720540|SUPERIORITY||LS Mean|2.62||||0.2958|TWO_SIDED|95.0|-2.29|7.53||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||7.53|-2.29|0.2958
92415338|NCT02312687|184720540|SUPERIORITY||LS Mean|0.31||||0.8796|TWO_SIDED|95.0|-3.71|4.33||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||4.33|-3.71|0.8796
92415339|NCT02312687|184720540|SUPERIORITY||LS Mean|-0.48||||0.8396|TWO_SIDED|95.0|-5.11|4.16||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||4.16|-5.11|0.8396
92415340|NCT02312687|184720540|SUPERIORITY||LS Mean|-3.43||||0.2284|TWO_SIDED|95.0|-9.0|2.15||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||2.15|-9.00|0.2284
92415341|NCT02312687|184720541|SUPERIORITY||LS Mean|0.57|||||TWO_SIDED|95.0|0.32|0.83||||||Change at Week 24||0.83|0.32|
92415342|NCT02312687|184720541|SUPERIORITY||LS Mean|0.47|||||TWO_SIDED|95.0|0.37|0.56||||||Change at Week 48||0.56|0.37|
92415343|NCT02312687|184720541|SUPERIORITY||LS Mean|0.42|||||TWO_SIDED|95.0|0.28|0.56||||||Change at Week 72||0.56|0.28|
92415344|NCT02312687|184720541|SUPERIORITY||LS Mean|0.44|||||TWO_SIDED|95.0|0.27|0.6||||||Change at Week 96||0.60|0.27|
92233253|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.75|-0.39|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.39|-0.75|<0.001
92233254|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.53|-0.16|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.16|-0.53|<0.001
92415345|NCT02312687|184720541|SUPERIORITY||LS Mean|0.36|||||TWO_SIDED|95.0|0.23|0.48||||||Change at Week 120||0.48|0.23|
92415346|NCT02312687|184720541|SUPERIORITY||LS Mean|0.47|||||TWO_SIDED|95.0|0.32|0.62||||||Change at Week 144||0.62|0.32|
92383676|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.95|||||TWO_SIDED|95.0|0.78|1.17||||||Serotype 10A: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.17|0.78|
92383677|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.62|0.96||||||Serotype 11A: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||0.96|0.62|
92383678|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.07|||||TWO_SIDED|95.0|0.87|1.31||||||Serotype 12F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.31|0.87|
92383679|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.91|||||TWO_SIDED|95.0|0.71|1.15||||||Serotype 15B: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.15|0.71|
92383680|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.88|||||TWO_SIDED|95.0|0.69|1.12||||||Serotype 22F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.12|0.69|
92383681|NCT03828617|184670709|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.79|1.24||||||Serotype 33F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.24|0.79|
92383682|NCT03354273|184670713|OTHER|Sensitivity was compared to a pre-specified threshold of 60%.|||||<|0.0001|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 1: Sensitivity||||<0.0001
92383683|NCT03354273|184670713|OTHER|Specificity was compared to a pre-specified threshold of 60%.||||||0.0182|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 1: Specificity||||0.0182
92383684|NCT03354273|184670713|OTHER|Sensitivity was compared to a pre-specified threshold of 60%.|||||<|0.0001|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 2: Sensitivity||||<0.0001
92383685|NCT03354273|184670713|OTHER|Specificity was compared to a pre-specified threshold of 60%.||||||0.0002|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 2: Specificity||||0.0002
92383686|NCT03354273|184670713|OTHER|Sensitivity was compared to a pre-specified threshold of 60%.|||||<|0.0001|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 3: Sensitivity||||<0.0001
92415347|NCT02312687|184720542|SUPERIORITY||LS Mean|0.04|||||TWO_SIDED|95.0|0.01|0.07||||||Change at Week 24||0.07|0.01|
92415348|NCT02312687|184720542|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|95.0|-0.01|0.03||||||Change at Week 48||0.03|-0.01|
92383687|NCT03354273|184670713|OTHER|Specificity was compared to a pre-specified threshold of 60%.||||||0.997|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 3: Specificity||||0.9970
92383688|NCT03354273|184670713|OTHER|Sensitivity was compared to a pre-specified threshold of 60%.|||||<|0.0001|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Majority Rule: Sensitivity||||<0.0001
92415349|NCT02312687|184720542|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|95.0|-0.01|0.04||||||Change at Week 72||0.04|-0.01|
92415350|NCT02312687|184720542|SUPERIORITY||LS Mean|0.05|||||TWO_SIDED|95.0|0.02|0.07||||||Change at Week 96||0.07|0.02|
92415351|NCT02312687|184720542|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|95.0|-0.02|0.03||||||Change at Week 120||0.03|-0.02|
92415352|NCT02312687|184720542|SUPERIORITY||LS Mean|0.02|||||TWO_SIDED|95.0|-0.01|0.05||||||Change at Week 144||0.05|-0.01|
92415353|NCT02312687|184720543|SUPERIORITY||LS Mean|-0.04|||||TWO_SIDED|95.0|-0.07|-0.01||||||Change at Week 24||-0.01|-0.07|
92415354|NCT02312687|184720543|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.03|0.01||||||Change at Week 48||0.01|-0.03|
92415355|NCT02312687|184720543|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.04|0.01||||||Change at Week 72||0.01|-0.04|
92415356|NCT02312687|184720543|SUPERIORITY||LS Mean|-0.05|||||TWO_SIDED|95.0|-0.07|-0.02||||||Change at Week 96||-0.02|-0.07|
92415357|NCT02312687|184720543|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.03|0.02||||||Change at Week 120||0.02|-0.03|
92383689|NCT03354273|184670713|OTHER|Specificity was compared to a pre-specified threshold of 60%.||||||0.0781|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Majority Rule: Specificity||||0.0781
92383690|NCT03354273|184670714|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|14.5|||<|0.0001|TWO_SIDED|95.0|6.5|22.4|||McNemar|The hypothesis tests were 1-sided McNemar's tests with a significance level of 0.025 for sensitivity.||Reader 1: Sensitivity||22.4|6.5|<0.0001
92383691|NCT03354273|184670714|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|2.4||||0.0004|TWO_SIDED|95.0|-4.9|9.7|||Nam's RMLE|||Reader 1: Specificity||9.7|-4.9|0.0004
92383692|NCT03354273|184670714|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|12.9||||0.0002|TWO_SIDED|95.0|4.7|21.0|||McNemar|||Reader 2: Sensitivity||21.0|4.7|0.0002
92383693|NCT03354273|184670714|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|4.9|||<|0.0001|TWO_SIDED|95.0|-2.1|11.8|||Nam's RMLE|||Reader 2: Specificity||11.8|-2.1|<0.0001
92383694|NCT03354273|184670714|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|13.3|||<|0.0001|TWO_SIDED|95.0|6.6|19.9|||McNemar|||Reader 3: Sensitivity||19.9|6.6|<0.0001
92383695|NCT03354273|184670714|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|1.2||||0.0011|TWO_SIDED|95.0|-6.0|8.4|||Nam's RMLE|||Reader 3: Specificity||8.4|-6.0|0.0011
92383696|NCT03354273|184670714|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|11.6||||0.0003|TWO_SIDED|95.0|4.1|19.2|||McNemar|||Majority Rule: Sensitivity||19.2|4.1|0.0003
92415358|NCT02312687|184720543|SUPERIORITY||LS Mean|-0.02|||||TWO_SIDED|95.0|-0.05|0.01||||||Change at Week 144||0.01|-0.05|
92415359|NCT02312687|184720544|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.1|0.08||||||Change at Week 24||0.08|-0.10|
92383697|NCT03354273|184670714|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|2.1||||0.0004|TWO_SIDED|95.0|-5.0|9.3|||Nam's RMLE|||Majority Rule: Specificity||9.3|-5.0|0.0004
92383698|NCT03354273|184670715|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|24.4||||0.0127|TWO_SIDED|95.0|5.4|43.4|||McNemar|||Reader 1: Sensitivity||43.4|5.4|0.0127
92383699|NCT03354273|184670715|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|9.5||||0.0001|TWO_SIDED|95.0|-1.2|20.2|||Nam's RMLE|||Reader 1: Specificity||20.2|-1.2|0.0001
92383700|NCT03354273|184670715|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|22.0||||0.0195|TWO_SIDED|95.0|2.2|41.7|||McNemar|||Reader 2: Sensitivity||41.7|2.2|0.0195
92383701|NCT03354273|184670715|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|6.8||||0.0004|TWO_SIDED|95.0|-3.2|16.8|||Nam's RMLE|||Reader 2: Specificity||16.8|-3.2|0.0004
92383702|NCT03354273|184670715|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|17.1||||0.0174|TWO_SIDED|95.0|1.7|32.4|||McNemar|||Reader 3: Sensitivity||32.4|1.7|0.0174
92383703|NCT03354273|184670715|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|0.7||||0.024|TWO_SIDED|95.0|-9.9|11.3|||Nam's RMLE|||||11.3|-9.9|0.0240
92383704|NCT03354273|184670715|SUPERIORITY||Difference between PET MPI and SPECT MPI|17.1||||0.0448|TWO_SIDED|95.0|-1.5|35.6|||McNemar|||Majority Rule: Sensitivity||35.6|-1.5|0.0448
92383705|NCT03354273|184670715|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|6.8||||0.0004|TWO_SIDED|95.0|-3.4|17.0|||Nam's RMLE|||Majority Rule: Specificity||17.0|-3.4|0.0004
92415360|NCT02312687|184720544|SUPERIORITY||LS Mean|0.02|||||TWO_SIDED|95.0|-0.07|0.1||||||Change at Week 48||0.10|-0.07|
92415361|NCT02312687|184720544|SUPERIORITY||LS Mean|0.08|||||TWO_SIDED|95.0|-0.01|0.16||||||Change at Week 72||0.16|-0.01|
92415362|NCT02312687|184720544|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.09|0.06||||||Change at Week 96||0.06|-0.09|
92415363|NCT02312687|184720544|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.12|0.1||||||Change at Week 120||0.10|-0.12|
92415364|NCT02312687|184720544|SUPERIORITY||LS Mean|-0.05|||||TWO_SIDED|95.0|-0.16|0.06||||||Change at Week 144||0.06|-0.16|
92415365|NCT02312687|184720545|SUPERIORITY||LS Mean|22.89|||||TWO_SIDED|95.0|-1.81|47.6||||||Change at Week 24||47.60|-1.81|
92278325|NCT01694485|184458545|SUPERIORITY||Odds Ratio (OR)|2.94||||0.09|TWO_SIDED|90.0|1.03|8.36|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||8.36|1.03|0.090
92383706|NCT03354273|184670716|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|12.0||||0.0116|TWO_SIDED|95.0|0.0|23.9|||McNemar|||Reader 1: Sensitivity||23.9|0.0|0.0116
92169404|NCT02178098|184227257|SUPERIORITY||Least squares mean difference|-0.39|STANDARD_ERROR_OF_MEAN|1.684||0.8181|TWO_SIDED|95.0|-3.72|2.94|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||2.94|-3.72|0.8181
92383707|NCT03354273|184670716|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|6.6||||0.0003|TWO_SIDED|95.0|-2.9|16.2|||Nam's RMLE|||Reader 1: Specificity||16.2|-2.9|0.0003
92383708|NCT03354273|184670716|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|6.8||||0.1085|TWO_SIDED|95.0|-5.2|18.9|||McNemar|||Reader 2: Sensitivity||18.9|-5.2|0.1085
92383709|NCT03354273|184670716|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|11.6|||<|0.0001|TWO_SIDED|95.0|2.1|21.1|||Nam's RMLE|||Reader 2: Specificity||21.1|2.1|<0.0001
92383710|NCT03354273|184670716|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|13.7||||0.0017|TWO_SIDED|95.0|3.8|23.5|||McNemar|||Reader 3: Sensitivity||23.5|3.8|0.0017
92383711|NCT03354273|184670716|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|2.8||||0.0034|TWO_SIDED|95.0|-6.6|12.1|||Nam's RMLE|||Reader 3: Specificity||12.1|-6.6|0.0034
92383712|NCT03354273|184670716|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|7.7||||0.0641|TWO_SIDED|95.0|-3.6|19.0|||McNemar|||Majority Rule: Sensitivity||19.0|-3.6|0.0641
92383713|NCT03354273|184670716|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|5.0||||0.001|TWO_SIDED|95.0|-4.6|14.6|||Nam's RMLE|||Majority Rule: Specificity||14.6|-4.6|0.0010
92415366|NCT02312687|184720545|SUPERIORITY||LS Mean|15.15|||||TWO_SIDED|95.0|-2.32|32.62||||||Change at Week 48||32.62|-2.32|
92415367|NCT02312687|184720545|SUPERIORITY||LS Mean|11.1|||||TWO_SIDED|95.0|-14.33|36.53||||||Change at Week 72||36.53|-14.33|
92415368|NCT02312687|184720545|SUPERIORITY||LS Mean|-16.65|||||TWO_SIDED|95.0|-37.5|4.2||||||Change at Week 96||4.20|-37.50|
92383714|NCT03354273|184670717|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|11.0||||0.0294|TWO_SIDED|95.0|-2.6|24.6|||McNemar|||Reader 1: Sensitivity||24.6|-2.6|0.0294
92383715|NCT03354273|184670717|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|3.9||||0.0117|TWO_SIDED|95.0|-8.3|16.1|||Nam's RMLE|||Reader 1: Specificity||16.1|-8.3|0.0117
92383716|NCT03354273|184670717|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|6.6||||0.1444|TWO_SIDED|95.0|-7.1|20.3|||McNemar|||Reader 2: Sensitivity||20.3|-7.1|0.1444
92383717|NCT03354273|184670717|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|11.7||||0.0001|TWO_SIDED|95.0|-0.4|23.7|||Nam's RMLE|||Reader 2: Specificity||23.7|-0.4|0.0001
92383718|NCT03354273|184670717|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|8.8||||0.044|TWO_SIDED|95.0|-1.3|18.9|||McNemar|||Reader 3: Sensitivity||18.9|-1.3|0.0440
92415369|NCT02312687|184720545|SUPERIORITY||LS Mean|3.48|||||TWO_SIDED|95.0|-32.53|39.49||||||Change at Week 120||39.49|-32.53|
92415370|NCT02312687|184720545|SUPERIORITY||LS Mean|28.55|||||TWO_SIDED|95.0|-11.12|68.22||||||Change at Week 144||68.22|-11.12|
92415371|NCT02312687|184720546|SUPERIORITY||LS Mean|-14.77|||||TWO_SIDED|95.0|-87.62|58.08||||||Change at Week 24||58.08|-87.62|
92415372|NCT02312687|184720546|SUPERIORITY||LS Mean|-70.79|||||TWO_SIDED|95.0|-161.31|19.74||||||Change at Week 48||19.74|-161.31|
92415373|NCT02312687|184720546|SUPERIORITY||LS Mean|-16.11|||||TWO_SIDED|95.0|-110.96|78.73||||||Change at Week 72||78.73|-110.96|
92415374|NCT02312687|184720546|SUPERIORITY||LS Mean|-41.74|||||TWO_SIDED|95.0|-150.61|67.13||||||Change at Week 96||67.13|-150.61|
92415375|NCT02312687|184720546|SUPERIORITY||LS Mean|-76.11|||||TWO_SIDED|95.0|-237.29|85.08||||||Change at Week 120||85.08|-237.29|
92415376|NCT02312687|184720546|SUPERIORITY||LS Mean|-96.06|||||TWO_SIDED|95.0|-206.59|14.46||||||Change at Week 144||14.46|-206.59|
92233255|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.58|-0.22|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.22|-0.58|<0.001
92383719|NCT03354273|184670717|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|7.8||||0.0022|TWO_SIDED|95.0|-4.8|20.3|||Nam's RMLE|||Reader 3: Specificity||20.3|-4.8|0.0022
92383720|NCT03354273|184670717|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|4.4||||0.2164|TWO_SIDED|95.0|-8.4|17.2|||McNemar|||Majority Rule: Sensitivity||17.2|-8.4|0.2164
92383721|NCT03354273|184670717|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|9.7||||0.0006|TWO_SIDED|95.0|-2.6|22.0|||Nam's RMLE|||Majority Rule: Specificity||22.0|-2.6|0.0006
92383722|NCT00303485|184670718|SUPERIORITY_OR_OTHER||Difference in median|-64.2|||<|0.0001|TWO_SIDED|95.0|-80.28|-46.21|||Wilcoxon rank sum test|||||-46.21|-80.28|< 0.0001
92383723|NCT04099511|184670741|SUPERIORITY|||||||0.693|||||||Wilcoxon (Mann-Whitney)|||||||.693
92415377|NCT02312687|184720547|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|95.0|-0.01|0.03||||||Change at Week 24||0.03|-0.01|
92415378|NCT02312687|184720547|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|95.0|-0.01|0.04||||||Change at Week 48||0.04|-0.01|
92415379|NCT02312687|184720547|SUPERIORITY||LS Mean|0.0|||||TWO_SIDED|95.0|-0.02|0.02||||||Change at Week 72||0.02|-0.02|
92415380|NCT02312687|184720547|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.04|0.02||||||Change at Week 96||0.02|-0.04|
92233256|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.89|-0.52|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.52|-0.89|<0.001
92233257|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.59|-0.22|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.22|-0.59|<0.001
92278326|NCT01694485|184458545|SUPERIORITY||Difference in Adjusted Remission Rates|5.8|||||TWO_SIDED|90.0|-0.6|10.4||||||The difference in adjusted sustained remission rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||10.4|-0.6|
92383724|NCT04099511|184670742|SUPERIORITY|||||||0.536|||||||Wilcoxon (Mann-Whitney)|||||||.536
92383725|NCT04099511|184670743|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||.260
92383726|NCT04099511|184670744|SUPERIORITY|||||||0.387|||||||Wilcoxon (Mann-Whitney)|||||||.387
92383727|NCT04099511|184670745|SUPERIORITY|||||||0.826|||||||Wilcoxon (Mann-Whitney)|||||||0.826
92383728|NCT04099511|184670746|SUPERIORITY|||||||0.826|||||||Wilcoxon (Mann-Whitney)|||||||0.826
92383729|NCT04099511|184670747|SUPERIORITY|||||||0.388|||||||Wilcoxon (Mann-Whitney)|||||||0.388
92383730|NCT04099511|184670748|SUPERIORITY|||||||0.308|||||||Wilcoxon (Mann-Whitney)|||||||0.308
92383731|NCT06581094|184670749|SUPERIORITY|||||||0.478||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of Normal walk, Left baseline, week 6, and week 12.||||0.478
92383732|NCT06581094|184670749|SUPERIORITY|||||||0.612||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of Normal walk, Right baseline, week 6, and week 12.||||0.612
92383733|NCT06581094|184670749|SUPERIORITY|||||||0.534|||||||ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of Stand up/squat down, Left baseline, week 6, and week 12.||||0.534
92383734|NCT06581094|184670749|SUPERIORITY|||||||0.538|||||||ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of Stand up/squat down, Right baseline, week 6, and week 12.||||0.538
92383735|NCT06581094|184670749|SUPERIORITY|||||||0.195||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of Bend to biggest angle, Left baseline, week 6, and week 12.||||0.195
92415381|NCT02312687|184720547|SUPERIORITY||LS Mean|0.0|||||TWO_SIDED|95.0|-0.02|0.03||||||Change at Week 120||0.03|-0.02|
92415382|NCT02312687|184720547|SUPERIORITY||LS Mean|0.03|||||TWO_SIDED|95.0|-0.01|0.08||||||Change at Week 144||0.08|-0.01|
92415383|NCT02312687|184720548|SUPERIORITY||LS Mean|14.92||||0.0314|TWO_SIDED|95.0|1.33|28.52||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||28.52|1.33|0.0314
92415384|NCT02312687|184720548|SUPERIORITY||LS Mean|-1.73||||0.764|TWO_SIDED|95.0|-13.0|9.55||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||9.55|-13.00|0.7640
92415385|NCT02312687|184720548|SUPERIORITY||LS Mean|-22.28|||<|0.0001|TWO_SIDED|95.0|-30.2|-14.35||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||-14.35|-30.20|< 0.0001
92383736|NCT06581094|184670749|SUPERIORITY|||||||0.232||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05.|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of Bend to biggest angle, Right baseline, week 6, and week 12.||||0.232
92383737|NCT06581094|184670749|SUPERIORITY|||||||0.369||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of Normal walk, Left.||||0.369
92415386|NCT02312687|184720548|SUPERIORITY||LS Mean|-20.93|||<|0.0001|TWO_SIDED|95.0|-27.92|-13.94||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||-13.94|-27.92|< 0.0001
92415387|NCT02312687|184720548|SUPERIORITY||LS Mean|-18.77||||0.0094|TWO_SIDED|95.0|-32.93|-4.6||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||-4.60|-32.93|0.0094
92415388|NCT02312687|184720548|SUPERIORITY||LS Mean|-25.72|||<|0.0001|TWO_SIDED|95.0|-36.89|-14.54||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||-14.54|-36.89|< 0.0001
92415389|NCT02312687|184720549|SUPERIORITY||LS Mean|4.68||||0.1673|TWO_SIDED|95.0|-1.96|11.32||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||11.32|-1.96|0.1673
92415390|NCT02312687|184720549|SUPERIORITY||LS Mean|-2.68||||0.233|TWO_SIDED|95.0|-7.09|1.72||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||1.72|-7.09|0.2330
92169405|NCT02178098|184227258|SUPERIORITY||Least squares mean difference|0.19|STANDARD_ERROR_OF_MEAN|1.274||0.8817|TWO_SIDED|95.0|-2.33|2.71|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||2.71|-2.33|0.8817
92233258|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.55|-0.18|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.18|-0.55|<0.001
92280501|NCT00601484|184463640|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-8.61|||||TWO_SIDED|90.0|-36.87|4.64||||||Week 16: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||4.64|-36.87|
92415391|NCT02312687|184720549|SUPERIORITY||LS Mean|-7.45|||<|0.0001|TWO_SIDED|95.0|-9.54|-5.36||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||-5.36|-9.54|< 0.0001
92415392|NCT02312687|184720549|SUPERIORITY||LS Mean|-8.08|||<|0.0001|TWO_SIDED|95.0|-9.86|-6.29||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||-6.29|-9.86|< 0.0001
92233259|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.83|-0.46|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.46|-0.83|<0.001
92383738|NCT06581094|184670749|SUPERIORITY|||||||0.593||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of Normal walk, Right.||||0.593
92383739|NCT06581094|184670749|SUPERIORITY|||||||0.918||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of Stand up/squat down, Left.||||0.918
92415393|NCT02312687|184720549|SUPERIORITY||LS Mean|-10.01|||<|0.0001|TWO_SIDED|95.0|-13.07|-6.95||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||-6.95|-13.07|< 0.0001
92415394|NCT02312687|184720549|SUPERIORITY||LS Mean|-10.89|||<|0.0001|TWO_SIDED|95.0|-14.77|-7.02||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||-7.02|-14.77|< 0.0001
92383740|NCT06581094|184670749|SUPERIORITY|||||||0.99||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of Stand up/squat down, Right.||||0.990
92415395|NCT02312687|184720550|SUPERIORITY||LS Mean|343.38||||0.0113|TWO_SIDED|95.0|77.66|609.11||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||609.11|77.66|0.0113
92415396|NCT02312687|184720550|SUPERIORITY||LS Mean|41.45||||0.4972|TWO_SIDED|95.0|-78.23|161.13||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||161.13|-78.23|0.4972
92415397|NCT02312687|184720550|SUPERIORITY||LS Mean|-61.96||||0.3288|TWO_SIDED|95.0|-186.34|62.41||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||62.41|-186.34|0.3288
92415398|NCT02312687|184720550|SUPERIORITY||LS Mean|-68.62||||0.2772|TWO_SIDED|95.0|-192.39|55.16||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||55.16|-192.39|0.2772
92415399|NCT02312687|184720550|SUPERIORITY||LS Mean|-53.41||||0.2907|TWO_SIDED|95.0|-152.47|45.66||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||45.66|-152.47|0.2907
92415400|NCT02312687|184720550|SUPERIORITY||LS Mean|-97.46||||0.08|TWO_SIDED|95.0|-206.57|11.65||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||11.65|-206.57|0.0800
92415401|NCT02312687|184720551|SUPERIORITY||LS Mean|72.45|||<|0.0001|TWO_SIDED|95.0|39.21|105.7||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||105.70|39.21|< 0.0001
92169406|NCT02178098|184227259|SUPERIORITY||Least squares mean difference|1.53|STANDARD_ERROR_OF_MEAN|1.829||0.404|TWO_SIDED|95.0|-2.09|5.15|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||5.15|-2.09|0.4040
92415402|NCT02312687|184720551|SUPERIORITY||LS Mean|44.4|||<|0.0001|TWO_SIDED|95.0|30.34|58.47||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||58.47|30.34|< 0.0001
92280502|NCT00601484|184463641|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.1|STANDARD_ERROR_OF_MEAN|12.495|||TWO_SIDED|90.0|-15.852|26.044||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||26.044|-15.852|
92415403|NCT02312687|184720551|SUPERIORITY||LS Mean|28.3||||0.0002|TWO_SIDED|95.0|13.24|43.37||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||43.37|13.24|0.0002
92415404|NCT02312687|184720551|SUPERIORITY||LS Mean|27.02|||<|0.0001|TWO_SIDED|95.0|13.81|40.22||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||40.22|13.81|< 0.0001
92415405|NCT02312687|184720551|SUPERIORITY||LS Mean|13.02||||0.1195|TWO_SIDED|95.0|-3.37|29.4||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||29.40|-3.37|0.1195
92415406|NCT02312687|184720551|SUPERIORITY||LS Mean|43.12||||0.2009|TWO_SIDED|95.0|-22.96|109.2||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||109.20|-22.96|0.2009
92383741|NCT06581094|184670749|SUPERIORITY|||||||0.263||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of Bend to biggest angle, Left.||||0.263
92415407|NCT00906971|184720556|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis to compare the two groups at the end of the follow-up period with regard to the primary outcome measures was blind, by intention-to-treat, considering loss of follow-up as treatment failure. In such cases, at the end of the follow-up period, the frequency of defecations was recorded.|||||<|0.05|||||||t-test, 1 sided|The Mann-Whitney test was used for numerical variables with non-normal distribution.||||||<0.05
92415408|NCT00906971|184720557|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis to compare the two groups at the end of the follow-up period with regard to the primary outcome measures was blind, by intention-to-treat, considering loss of follow-up as treatment failure. In such cases, at the end of the follow-up period, the frequency of fecal incontinence was recorded reported at the beginning of the study|||||>|0.05|||||||t-test, 1 sided|The Mann-Whitney test was used for numerical variables with non-normal distribution.||||||>0.05
92278327|NCT01694485|184458545|SUPERIORITY||Odds Ratio (OR)|1.32||||0.72|TWO_SIDED|90.0|0.38|4.56|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.56|0.38|0.72
92383742|NCT06581094|184670749|SUPERIORITY|||||||0.235||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of Bend to biggest angle, Right.||||0.235
92383743|NCT06581094|184670750|SUPERIORITY|||||||0.399||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05.|ANOVA|It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05.||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of up-and-go test on baseline, week 6, and week 12.||||0.399
92383744|NCT06581094|184670750|SUPERIORITY|||||||0.106||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of timed up-and-go test.||||0.106
92383745|NCT06581094|184670751|SUPERIORITY|||||||0.502||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05.|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of AROM, Left baseline, week 6, and week 12.||||0.502
92383746|NCT06581094|184670751|SUPERIORITY|||||||0.724||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05.|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of AROM, Right baseline, week 6, and week 12.||||0.724
92383747|NCT06581094|184670751|SUPERIORITY|||||||0.414||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05.|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of PROM, Left baseline, week 6, and week 12.||||0.414
92383748|NCT06581094|184670751|SUPERIORITY|||||||0.563||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05.|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of PROM, Right baseline, week 6, and week 12.||||0.563
92415409|NCT00545129|184720558|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.45||0.569|TWO_SIDED|95.0|-1.18|0.66|||ANCOVA|||Analysis of covariance (ANCOVA) model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. Least squares (LS) mean difference, and corresponding 95% confidence interval (CI) were estimated from ANCOVA model.||0.66|-1.18|0.569
92383749|NCT06581094|184670751|SUPERIORITY|||||||0.11||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of AROM, Left.||||0.110
92383750|NCT06581094|184670751|SUPERIORITY|||||||0.245||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of AROM, Right.||||0.245
92383751|NCT06581094|184670751|SUPERIORITY|||||||0.113||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of PROM, Left.||||0.113
92383752|NCT06581094|184670751|SUPERIORITY|||||||0.395||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of PROM, Right.||||0.395
92383753|NCT06581094|184670752|SUPERIORITY|||||||0.823||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05.|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of Pain on baseline, week 6, and week 12.||||0.823
92383754|NCT06581094|184670752|SUPERIORITY|||||||0.895||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05.|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of Stiffness on baseline, week 6, and week 12.||||0.895
92415410|NCT00545129|184720559|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.23||0.581|TWO_SIDED|95.0|-0.6|0.34|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.34|-0.60|0.581
92415411|NCT00545129|184720559|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.32||0.795|TWO_SIDED|95.0|-0.56|0.73|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.73|-0.56|0.795
92278328|NCT01694485|184458545|SUPERIORITY||Difference in Adjusted Remission Rates|1.0|||||TWO_SIDED|90.0|-4.7|4.6||||||The difference in adjusted sustained remission rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.6|-4.7|
92383755|NCT06581094|184670752|SUPERIORITY|||||||0.682||||||It calculated the p value of two treatment (Control group and Test group). The threshold of statistical significance was p = 0.05.|ANOVA|||This analysis examined the overall (main) effect of treatment-comparing Control and Test groups across the three time points (baseline, week 6, and week 12) Comparison groups: Control and Test group of Physical function on baseline, week 6, and week 12.||||0.682
92383756|NCT06581094|184670752|SUPERIORITY|||||||0.303||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of Pain.||||0.303
92383757|NCT06581094|184670752|SUPERIORITY|||||||0.148||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of Stiffness.||||0.148
92383758|NCT06581094|184670752|SUPERIORITY|||||||0.283||||||It calculated the p value of the interaction between 2 groups X 3 time points. The threshold of statistical significance was p = 0.05.|ANOVA|||It calculated the interaction between 2 groups (Control group and Test group) X 3 time points (Baseline, week 6, week 12) of Physical function.||||0.283
92383759|NCT02227394|184670759|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-0.187||||0.727|TWO_SIDED|90.0|-1.098|0.724|||t-test, 2 sided|||||0.724|-1.098|0.727
92383760|NCT02227394|184670760|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.003||||0.366|TWO_SIDED|90.0|-0.002|0.007|||t-test, 2 sided|||||0.007|-0.002|0.366
92383761|NCT02227394|184670762|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.025||||0.486|TWO_SIDED|90.0|-0.035|0.084|||t-test, 2 sided|||||0.084|-0.035|0.486
92383762|NCT02227394|184670763|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.049||||0.413|TWO_SIDED|90.0|-0.052|0.15|||t-test, 2 sided|||||0.150|-0.052|0.413
92383763|NCT02227394|184670764|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-0.1||||0.375|TWO_SIDED|90.0|-0.289|0.09|||t-test, 2 sided|||||0.090|-0.289|0.375
92415412|NCT00545129|184720559|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.41||0.843|TWO_SIDED|95.0|-0.76|0.93|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.93|-0.76|0.843
92383764|NCT02227394|184670765|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.009||||0.879|TWO_SIDED|90.0|-0.092|0.11|||t-test, 2 sided|||||0.110|-0.092|0.879
92415413|NCT00545129|184720559|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.43||0.292|TWO_SIDED|95.0|-1.34|0.42|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.42|-1.34|0.292
92415414|NCT00545129|184720560|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.23||0.299|TWO_SIDED|95.0|-0.72|0.23|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.23|-0.72|0.299
92415415|NCT00545129|184720560|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.34||0.519|TWO_SIDED|95.0|-0.47|0.91|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.91|-0.47|0.519
92415416|NCT00545129|184720560|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.42||0.776|TWO_SIDED|95.0|-0.74|0.98|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.98|-0.74|0.776
92415417|NCT00545129|184720560|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.45||0.978|TWO_SIDED|95.0|-0.93|0.91|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.91|-0.93|0.978
92169407|NCT02178098|184227260|SUPERIORITY||Least squares mean difference|0.79|STANDARD_ERROR_OF_MEAN|1.178||0.5061|TWO_SIDED|95.0|-1.54|3.11|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||3.11|-1.54|0.5061
92280503|NCT00601484|184463641|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.27|STANDARD_ERROR_OF_MEAN|12.802|||TWO_SIDED|90.0|-17.216|25.764||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||25.764|-17.216|
92383765|NCT02227394|184670766|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.023||||0.819|TWO_SIDED|90.0|-0.149|0.195|||t-test, 2 sided|||||0.195|-0.149|0.819
92383766|NCT02227394|184670767|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-0.4||||0.643|TWO_SIDED|90.0|-1.87|1.07|||t-test, 2 sided|||||1.070|-1.870|0.643
92383767|NCT02227394|184670768|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.011||||0.866|TWO_SIDED|90.0|-0.1|0.122|||t-test, 2 sided|||||0.122|-0.100|0.866
92383768|NCT02227394|184670769|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.054||||0.346|TWO_SIDED|90.0|-0.043|0.152|||t-test, 2 sided|||||0.152|-0.043|0.346
92383769|NCT02227394|184670770|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.029||||0.093|TWO_SIDED|90.0|0.001|0.058|||t-test, 2 sided|||||0.058|0.001|0.093
92383770|NCT02227394|184670771|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-0.074||||0.686|TWO_SIDED|90.0|-0.386|0.238|||t-test, 2 sided|||||0.238|-0.386|0.686
92383771|NCT02227394|184670773|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-10.368||||0.312|TWO_SIDED|90.0|-27.659|6.922|||t-test, 2 sided|||||6.922|-27.659|0.312
92383772|NCT02227394|184670774|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-0.02||||0.92|TWO_SIDED|90.0|-0.361|0.321|||t-test, 2 sided|||||0.321|-0.361|0.920
92383773|NCT02227394|184670775|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.08||||0.818|TWO_SIDED|90.0|-0.513|0.673|||t-test, 2 sided|||||0.673|-0.513|0.818
92383774|NCT02227394|184670776|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|11.4||||0.034|TWO_SIDED|90.0|2.789|20.011|||t-test, 2 sided|||||20.011|2.789|0.034
92383775|NCT02227394|184670777|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|5.6||||0.427|TWO_SIDED|90.0|-6.323|17.523|||t-test, 2 sided|||||17.523|-6.323|0.427
92383776|NCT04302545|184670792|OTHER|Other Primary outcomes were the extent of injury, operative time, blood loss and proportion of subjects receiving a blood transfusion. Postoperatively, subjects were assessed for secondary outcomes of UTI, micturition problems, and fistula formation during the hospital stay and for the next 3 months. Postoperative micturition problems were feeling of incomplete evacuation, frequency, urgency, urethral and extra-urethral incontinence.|Odds Ratio (OR)|-0.178|||<|0.0001|TWO_SIDED|95.0|-0.261|-0.094||The threshold for statistical significance was \<.05.|Regression, Linear|||"Null Hypothesis: During the cesarean section of women with adhesions of the previous cesarean section that obscure the bladder, the bladder injury rate is not significantly decreased in cystoinflation group compared to the control.~In this study, the bladder injury rate was seven times lesser in cystoinflation group compared to the control, thereby strongly supporting our hypothesis. The power of the study for bladder injury was 0.988, calculated with statistical software G'Power version 3.1."||-.094|-.261|<.0001
92383777|NCT04302545|184670793|OTHER||Odds Ratio (OR)|-211.776|||<|0.0001|TWO_SIDED|95.0|-290.7|-132.84|||Regression, Linear|||||-132.84|-290.70|<0.0001
92383778|NCT04302545|184670794|OTHER||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|-3.634|3.634|||Regression, Linear|||Null Hypothsis:Cystoinflation is ineffective to prevent bladder injury in adhesions of previous C-section.The cystoinflation was to be cosidered ineffective if proportion of bladder injury in study group was less than %0% of the control.The power of the study for bladder injury prevention was.988,calculated with statistical software G'Power version3.1.||3.634|-3.634|1
92383779|NCT04302545|184670795|OTHER||Odds Ratio (OR)|-1.093||||0.001|TWO_SIDED|95.0|-1.708|-0.479|||Regression, Linear|||||-.479|-1.708|.001
92383780|NCT04302545|184670796|OTHER||Odds Ratio (OR)|-0.15|||<|0.0001|TWO_SIDED|95.0|-0.226|-0.073|||Regression, Linear|||||-0.073|-0.226|<0.0001
92169408|NCT02178098|184227261|SUPERIORITY||Median Difference (Final Values)|-43.64|||<|0.0001|TWO_SIDED|95.0|-62.8|-25.21|||Wilcoxon Rank-Sum Test||The 95% confidence interval (CI) was calculated using Hodges-Lehmann analysis.|||-25.21|-62.80|<0.0001
92383781|NCT04302545|184670797|OTHER||Odds Ratio (OR)|-0.103||||0.003|TWO_SIDED|95.0|-0.171|-0.035|||Regression, Linear|||||-0.035|-0.171|0.003
92383782|NCT04302545|184670798|OTHER||Odds Ratio (OR)|0.654||||0.336|TWO_SIDED|95.0|-0.682|1.991|||Regression, Linear|||||1.991|-0.682|.336
92383783|NCT04302545|184670799|OTHER||Odds Ratio (OR)|-0.393||||0.021|TWO_SIDED|95.0|-0.725|-0.06|||Regression, Linear|||||-0.06|-0.725|.021
92383784|NCT04302545|184670800|OTHER||Odds Ratio (OR)|-1.89|||<|0.0001|TWO_SIDED|95.0|-2.813|-0.963|||Regression, Linear|||||-0.963|-2.813|<0.0001
92233260|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.1||0.004|TWO_SIDED|95.0|-0.47|-0.09|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.09|-0.47|0.004
92383785|NCT04302545|184670801|OTHER||Odds Ratio (OR)|-1.318|||<|0.0001|TWO_SIDED|95.0|-2.021|-0.614|||Regression, Linear|||||-0.614|-2.021|<.0001
92415418|NCT00545129|184720560|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.45||0.689|TWO_SIDED|95.0|-1.1|0.73|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.73|-1.10|0.689
92415419|NCT00545129|184720561|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.23||0.299|TWO_SIDED|95.0|-0.72|0.23|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.23|-0.72|0.299
92415420|NCT00545129|184720561|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.34||0.519|TWO_SIDED|95.0|-0.47|0.91|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.91|-0.47|0.519
92415421|NCT00545129|184720561|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.44||0.618|TWO_SIDED|95.0|-0.68|1.13|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.13|-0.68|0.618
92415422|NCT00545129|184720561|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.47||0.818|TWO_SIDED|95.0|-0.85|1.07|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.07|-0.85|0.818
92233261|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.17|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.17|-0.55|<0.001
92233262|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.77|-0.39|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.39|-0.77|<0.001
92280504|NCT00601484|184463641|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.81|STANDARD_ERROR_OF_MEAN|13.741|||TWO_SIDED|90.0|-25.917|20.307||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||20.307|-25.917|
92383786|NCT04302545|184670803|OTHER||Odds Ratio (OR)|-0.065||||0.003|TWO_SIDED|95.0|-0.108|-0.023|||Regression, Linear|||||-.023|-.108|.003
92383787|NCT02516592|184670804|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.028|TWO_SIDED|95.0|0.005|0.084|||Mixed Models Analysis|||||0.084|0.005|0.028
92415423|NCT00545129|184720561|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.48||0.819|TWO_SIDED|95.0|-0.87|1.09||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.09|-0.87|0.819
92415424|NCT00545129|184720562|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.34||0.906|TWO_SIDED|95.0|-0.66|0.74|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.74|-0.66|0.906
92415425|NCT00545129|184720562|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.44||0.906|TWO_SIDED|95.0|-0.95|0.85|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.85|-0.95|0.906
92415426|NCT00545129|184720562|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.5||0.613|TWO_SIDED|95.0|-0.78|1.29|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.29|-0.78|0.613
92415427|NCT00545129|184720562|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.46||0.988|TWO_SIDED|95.0|-0.95|0.94|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.94|-0.95|0.988
92415428|NCT00545129|184720562|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.47||0.922|TWO_SIDED|95.0|-1.01|0.92|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.92|-1.01|0.922
92415429|NCT00545129|184720563|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.4||0.655|TWO_SIDED|95.0|-1.03|0.66|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.66|-1.03|0.655
92383788|NCT02516592|184670805|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.063|TWO_SIDED|95.0|-0.03|0.94|||Mixed Models Analysis|||||0.94|-0.03|0.063
92415430|NCT00545129|184720563|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.44||0.897|TWO_SIDED|95.0|-0.85|0.96|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.96|-0.85|0.897
92415431|NCT00545129|184720563|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.51||0.798|TWO_SIDED|95.0|-0.93|1.2|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.20|-0.93|0.798
92233263|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.1||0.09|TWO_SIDED|95.0|-0.37|0.03|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.03|-0.37|0.090
92383789|NCT02516592|184670806|SUPERIORITY||Mean Difference (Final Values)|0.102||||0.002|TWO_SIDED|95.0|0.037|0.167|||Mixed Models Analysis|||||0.167|0.037|0.002
92383790|NCT02516592|184670807|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.319|TWO_SIDED|95.0|-1.3|0.4|||Mixed Models Analysis|||||0.4|-1.3|0.319
92383791|NCT02516592|184670808|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.662|TWO_SIDED|95.0|-0.2|0.13|||Mixed Models Analysis|||||0.13|-0.20|0.662
92383792|NCT03927404|184670871|OTHER|We used median (Inter-quartile range) to describe the continuous measures of limb health such as TEWL, Hydration, and Oxygenation levels at each visit and each location of the measurements in the sound (SL) and residual limbs (RL).|||||<|0.05||||||In a bivariate analysis, we used two-sided equality of the median test for the matched pairs of observations|bivariate analysis|||||||<0.05
92383793|NCT03927404|184670873|OTHER|We used median (Inter-quartile range) to describe the continuous measures of limb health such as TEWL, Hydration, and Oxygenation levels at each visit and each location of the measurements in the sound (SL) and residual limbs (RL).||||||0.05||||||In a bivariate analysis, we used two-sided equality of the median test for the matched pairs of observations|bivariate analysis|||||||0.05
92383794|NCT02641067|184670874|OTHER||Geometric mean ratio|1.43|||||TWO_SIDED|90.0|1.0|2.04||||||||2.04|1.00|
92383795|NCT02641067|184670875|OTHER||Geometric mean ratio|1.38|||||TWO_SIDED|90.0|0.99|1.92||||||||1.92|0.99|
92415432|NCT00545129|184720563|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.51||0.672|TWO_SIDED|95.0|-0.83|1.27|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.27|-0.83|0.672
92383796|NCT02641067|184670876|OTHER||Geometric mean ratio|0.83|||||TWO_SIDED|90.0|0.61|1.15||||||||1.15|0.61|
92383797|NCT01229449|184670882|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92383798|NCT01229449|184670882|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92383799|NCT01229449|184670882|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||0.0001
92383800|NCT01229449|184670882|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||0.0001
92383801|NCT01229449|184670882|SUPERIORITY|||||||0.72|||||||ANOVA|||||||0.72
92383802|NCT01229449|184670882|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92383803|NCT01229449|184670882|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
92383804|NCT01229449|184670882|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
92383805|NCT01229449|184670882|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92383806|NCT01229449|184670882|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92383807|NCT01300260|184670901|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|2.96|||<|0.001|TWO_SIDED|95.0|2.41|3.64||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||3.64|2.41|<0.001
92383808|NCT01300260|184670901|SUPERIORITY_OR_OTHER||Geometric least squares (LS) means ratio|5.4|||<|0.001|TWO_SIDED|95.0|4.09|7.13||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||7.13|4.09|<0.001
92383809|NCT01300260|184670902|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|3.09|||<|0.001|TWO_SIDED|95.0|2.66|3.59||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||3.59|2.66|<0.001
92383810|NCT01300260|184670902|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|7.92|||<|0.001|TWO_SIDED|95.0|4.82|13.0||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||13.0|4.82|<0.001
92383811|NCT01300260|184670903|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|4.15|||<|0.001|TWO_SIDED|95.0|3.45|5.0||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||5.00|3.45|<0.001
92383812|NCT01300260|184670903|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|3.78|||<|0.001|TWO_SIDED|95.0|2.99|4.78||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||4.78|2.99|<0.001
92415433|NCT00545129|184720563|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.48||0.243|TWO_SIDED|95.0|-1.56|0.41|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.41|-1.56|0.243
92233264|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.053|TWO_SIDED|95.0|-0.39|0.0|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.00|-0.39|0.053
92383813|NCT01300260|184670904|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|2.04||||0.011|TWO_SIDED|95.0|1.26|3.31||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||3.31|1.26|0.011
92383814|NCT01300260|184670904|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|2.44|||<|0.001|TWO_SIDED|95.0|1.71|3.47||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||3.47|1.71|<0.001
92383815|NCT01300260|184670905|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|1.22||||0.021|TWO_SIDED|95.0|1.04|1.43||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||1.43|1.04|0.021
92415434|NCT00545129|184720564|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.41||0.445|TWO_SIDED|95.0|-1.16|0.52|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.52|-1.16|0.445
92415435|NCT00545129|184720564|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.49||0.992|TWO_SIDED|95.0|-1.0|1.0|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.00|-1.00|0.992
92415436|NCT00545129|184720564|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.53||0.655|TWO_SIDED|95.0|-1.34|0.86|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.86|-1.34|0.655
92415437|NCT00545129|184720564|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.58||0.86|TWO_SIDED|95.0|-1.09|1.3|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.30|-1.09|0.860
92233265|NCT00733902|184368878|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.30|-0.70|<0.001
92278329|NCT01694485|184458545|SUPERIORITY|Comparisons of abrilumab 21 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.83||||0.86|TWO_SIDED|90.0|0.16|4.41|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.41|0.16|0.86
92383816|NCT01300260|184670905|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|1.39|||<|0.001|TWO_SIDED|95.0|1.27|1.53||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||1.53|1.27|<0.001
92383817|NCT01300260|184670906|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|1.43||||0.009|TWO_SIDED|95.0|1.14|1.8||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||1.80|1.14|0.009
92383818|NCT01300260|184670906|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|1.75|||<|0.001|TWO_SIDED|95.0|1.59|1.94||P-value is 2-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||1.94|1.59|<0.001
92383819|NCT02533726|184670907|SUPERIORITY||Odds Ratio (OR)|0.27||||0.012|TWO_SIDED|95.0|0.1|0.75|||Fisher Exact|||Per-protocol (PP) analysis, consistent with regulatory guidance (FDA).||.75|.1|.012
92383820|NCT02533726|184670907|OTHER||Odds Ratio (OR)|0.2||||0.015|TWO_SIDED|95.0|0.06|0.74|||Fisher Exact|||Per protocol analysis adjusted for admitting team, unit of admission, and risk for pressure injury.||0.74|0.06|0.015
92383821|NCT01147848|184670913|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.037||||0.162|TWO_SIDED|95.0|-0.088|0.015|||ANCOVA||Analysis was performed using ANCOVA with covariates of Baseline FEV1, region, sex, age, and treatment.|||0.015|-0.088|0.162
92383822|NCT02540265|184670927|OTHER||Effect Size|1.01|||||TWO_SIDED|||||||||||||
92383823|NCT02540265|184670927|OTHER||Effect Size|0.87|||||TWO_SIDED|||||||||||||
92415438|NCT00545129|184720564|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.59||0.595|TWO_SIDED|95.0|-1.52|0.89|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.89|-1.52|0.595
92383824|NCT02540265|184670928|SUPERIORITY|||||||0.0049|||||||t-test, 2 sided|||||||0.0049
92383825|NCT02540265|184670928|SUPERIORITY|||||||0.0076|||||||t-test, 2 sided|||||||0.0076
92383826|NCT02540265|184670929|SUPERIORITY||||||<|0.05||||||Applies to SPID 0-6, SPID 0-12, SPID 0-24, SPID 12-24, SPID 12-48, and SPID 24-48|t-test, 2 sided|||||||<0.05
92383827|NCT02540265|184670929|SUPERIORITY||||||<|0.05||||||Applies to SPID 0-6, SPID 0-12, SPID 0-24, SPID 12-24, SPID 12-48, and SPID 24-48|t-test, 2 sided|||||||<0.05
92383828|NCT00324233|184670949|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||equivalence testing|||||||0.56
92383829|NCT01972789|184670952|NON_INFERIORITY|This is a non-inferiority study design, with a pre-specified non-inferiority margin of 5 letters between intensive and relaxed groups. That is, if the change from Baseline in BCVA at Month 24 in the intensive group is not more than 5 letters higher than the relaxed group, then the relaxed group is regarded not inferior to the intensive group|Odds Ratio (OR)|0.4||||0.787|TWO_SIDED|95.0|-2.51|3.32|||Mixed Models Analysis|||||3.32|-2.51|0.787
92415439|NCT00545129|184720565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.5||0.179|TWO_SIDED|95.0|-1.76|0.35|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.35|-1.76|0.179
92415440|NCT00545129|184720565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.51||0.938|TWO_SIDED|95.0|-1.02|1.1|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.10|-1.02|0.938
92233266|NCT00644592|184368934|SUPERIORITY_OR_OTHER||Ratio of mean effects|1.27|STANDARD_ERROR_OF_MEAN|0.16||0.015|TWO_SIDED|95.0|1.06|1.52|||t-test, 2 sided||The estimated mean log difference (SE) between the period 2 and period 1 effects and SE was estimated. This estimates twice the effect size\[since (B-A)-(A-B)=2B-2A\] so the actual estimate was based upon the antilog of half of this difference.|This is a crossover analysis. To convert to a ratio effect, the mean difference must be divided by two and antilogs take. The outcome represents a relative effect.||1.52|1.06|0.015
92233267|NCT01157117|184368943|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|12.0||||0.42|TWO_SIDED|95.0|-13.4|37.3||No adjustments were made to the p-value.|Fisher Exact|The a priori threshold for statistical significance is 0.05.||Number of participants who successfully consumed 10,000 mg of milk protein followed by an open feeding of milk was compared using Fisher's Exact test with the null hypothesis that there was no difference between treatment groups.||37.3|-13.4|0.42
92383830|NCT01972789|184670953|OTHER||Odds Ratio (OR)|-0.31||||0.833|TWO_SIDED|95.0|-3.2|2.58|||Mixed Models Analysis|||||2.58|-3.20|0.833
92383831|NCT01972789|184670954|OTHER||Odds Ratio (OR)|-21.39||||0.054|TWO_SIDED|95.0|-43.17|0.39|||Mixed Models Analysis|||||0.39|-43.17|0.054
92383832|NCT01972789|184670955|OTHER||Negative Binomial Regression|1.11||||0.001|TWO_SIDED|95.0|1.04|1.18|||Mixed Model|||||1.18|1.04|0.001
92383833|NCT01972789|184670956|OTHER||Odds Ratio (OR)|0.26||||0.338|TWO_SIDED|95.0|-0.28|0.8|||Mixed Models Analysis|||||0.80|-0.28|0.338
92383834|NCT01972789|184670957|OTHER||Odds Ratio (OR)|1.44||||0.284|TWO_SIDED|95.0|0.74|2.8|||Regression, Logistic|||Month 12||2.80|0.74|0.284
92383835|NCT01972789|184670957|OTHER||Odds Ratio (OR)|1.29||||0.407|TWO_SIDED|95.0|0.71|2.33|||Regression, Logistic|||Month 24||2.33|0.71|0.407
92383836|NCT01972789|184670958|OTHER||Odds Ratio (OR)|0.35||||0.217|TWO_SIDED|95.0|0.12|1.04|||Regression, Logistic|||||1.04|0.12|0.217
92383837|NCT01972789|184670959|OTHER||Odds Ratio (OR)|0.84||||0.615|TWO_SIDED|95.0|0.42|1.66|||Regression, Logistic|||||1.66|0.42|0.615
92383838|NCT01972789|184670960|OTHER||Odds Ratio (OR)|1.08||||0.819|TWO_SIDED|95.0|0.54|2.18|||Regression, Logistic|||||2.18|0.54|0.819
92383839|NCT01972789|184670962|OTHER||Odds Ratio (OR)|4.32||||0.565|TWO_SIDED|95.0|0.03|630.5|||Regression, Logistic|||||630.5|0.03|0.565
92383840|NCT01972789|184670963|OTHER||Odds Ratio (OR)|1.39||||0.034|TWO_SIDED|95.0|1.03|1.9|||Regression, Logistic|||||1.90|1.03|0.034
92383841|NCT00418574|184670964|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.099||||0.301|TWO_SIDED|95.0|0.919|1.315|||Regression, Cox|||||1.315|0.919|0.301
92383842|NCT03262441|184670982|OTHER||Slope|-0.00033|||||TWO_SIDED|95.0|-0.002|0.0014||||||||0.0014|-0.0020|
92383843|NCT03262441|184670983|OTHER||Slope|0.001|||||TWO_SIDED|95.0|-0.0036|0.0056||||||||0.0056|-0.0036|
92383844|NCT03262441|184670984|OTHER||Slope|0.0024|||||TWO_SIDED|95.0|-0.003|0.0078||||||||0.0078|-0.003|
92383845|NCT01455194|184670993|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.122|STANDARD_ERROR_OF_MEAN|0.1175||0.2988|TWO_SIDED|95.0|-0.353|0.109|||ANCOVA|||Least square (LS) mean difference were derived from an ANCOVA model with baseline ACQ and age as covariates, and treatment, centre pool, sex, and prestudy ICS dose as factors.||0.109|-0.353|0.2988
92383846|NCT01455194|184670993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.034|STANDARD_ERROR_OF_MEAN|0.118||0.7741|TWO_SIDED|95.0|-0.198|0.266|||ANCOVA|||Least square (LS) mean difference were derived from an ANCOVA model with baseline ACQ and age as covariates, and treatment, centre pool, sex, and prestudy ICS dose as factors.||0.266|-0.198|0.7741
92383847|NCT01455194|184670993|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.156|STANDARD_ERROR_OF_MEAN|0.1172||0.1835|TWO_SIDED|95.0|-0.387|0.074|||ANCOVA|||Least square (LS) mean difference were derived from an ANCOVA model with baseline ACQ and age as covariates, and treatment, centre pool, sex, and prestudy ICS dose as factors.||0.074|-0.387|0.1835
92383848|NCT01455194|184670995|SUPERIORITY_OR_OTHER||Hodges-Lehmann point estimate|0.0||||0.8465|TWO_SIDED|95.0|-3.0|4.0|||Wilcoxon (Mann-Whitney)||Treatment comparisons were carried out using an exact Wilcoxon Mann Whitney test.|||4.000|-3.000|0.8465
92383849|NCT01455194|184670995|SUPERIORITY_OR_OTHER||Hodges-Lehmann point estimate|1.0||||0.4175|TWO_SIDED|95.0|-2.0|5.0|||Wilcoxon (Mann-Whitney)||Treatment comparisons were carried out using an exact Wilcoxon Mann Whitney test.|||5.000|-2.000|0.4175
92383850|NCT01455194|184670996|SUPERIORITY_OR_OTHER|||||||0.4186|||||||Fisher Exact|||Well-controlled Asthma||||0.4186
92383851|NCT01455194|184670996|SUPERIORITY_OR_OTHER|||||||0.146|||||||Fisher Exact|||Well-controlled Asthma||||0.1460
92383852|NCT01455194|184670996|SUPERIORITY_OR_OTHER|||||||0.6017|||||||Fisher Exact|||Well-controlled Asthma||||0.6017
92383853|NCT01455194|184670996|SUPERIORITY_OR_OTHER|||||||0.3305|||||||Fisher Exact|||ACQ Improvement||||0.3305
92383854|NCT01455194|184670996|SUPERIORITY_OR_OTHER|||||||0.486|||||||Fisher Exact|||ACQ Improvement||||0.4860
92383855|NCT01455194|184670996|SUPERIORITY_OR_OTHER|||||||0.8922|||||||Fisher Exact|||ACQ Improvement||||0.8922
92383856|NCT01455194|184670997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.042|STANDARD_ERROR_OF_MEAN|0.0806||0.6062|TWO_SIDED|95.0|0.89|1.221|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|Well-controlled Asthma||1.221|0.890|0.6062
92383857|NCT01455194|184670997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|STANDARD_ERROR_OF_MEAN|0.0669||0.4674|TWO_SIDED|95.0|0.921|1.197|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ Improvement||1.197|0.921|0.4674
92383858|NCT01455194|184670997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.201|STANDARD_ERROR_OF_MEAN|0.1597||0.2523|TWO_SIDED|95.0|0.878|1.642|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|Well-controlled Asthma||1.642|0.878|0.2523
92383859|NCT01455194|184670997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.913|STANDARD_ERROR_OF_MEAN|0.1354||0.5026|TWO_SIDED|95.0|0.7|1.191|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ Improvement||1.191|0.700|0.5026
92383860|NCT01455194|184670997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.898|STANDARD_ERROR_OF_MEAN|0.156||0.4893|TWO_SIDED|95.0|0.661|1.219|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|Well-controlled Asthma||1.219|0.661|0.4893
92239659|NCT02853331|184383093|SUPERIORITY||Hazard Ratio (HR)|0.53||||5e-05|TWO_SIDED|95.0|0.38|0.74|||Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC risk group (favorable vs. intermediate vs. poor) and geographic region (North America vs. Western Europe vs. Rest of World).|||0.74|0.38|0.00005
92239660|NCT02853331|184383094|SUPERIORITY||Difference in percentages|23.6|||<|0.0001|TWO_SIDED|95.0|17.2|29.9|||Miettinen & Nurminen method|H0: difference in %=0 versus H1: difference in % \>0|Difference in percentages based on Miettinen \& Nurminen method stratified by IMDC risk group (favorable vs. intermediate vs. poor) and geographic region (North America vs. Western Europe vs. Rest of World).|||29.9|17.2|<0.0001
92383861|NCT01455194|184670997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.181|STANDARD_ERROR_OF_MEAN|0.1351||0.2193|TWO_SIDED|95.0|0.906|1.538|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ Improvement||1.538|0.906|0.2193
92169409|NCT02178098|184227262|SUPERIORITY||Least squares mean difference|-16.67|STANDARD_ERROR_OF_MEAN|2.006|<|0.0001|TWO_SIDED|95.0|-20.63|-12.7|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-12.70|-20.63|<0.0001
92278330|NCT01694485|184458545|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Remission Rates|-0.5|||||TWO_SIDED|90.0|-3.9|6.2||||||The difference in adjusted sustained remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||6.2|-3.9|
92278331|NCT01694485|184458545|SUPERIORITY|Comparisons of abrilumab 7 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.49||||0.64|TWO_SIDED|90.0|0.04|6.31|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||6.31|0.04|0.64
92383862|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.058|STANDARD_ERROR_OF_MEAN|0.0917||0.5397|TWO_SIDED|95.0|0.884|1.266|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 0.5||1.266|0.884|0.5397
92383863|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.005|STANDARD_ERROR_OF_MEAN|0.0738||0.9458|TWO_SIDED|95.0|0.87|1.161|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.0||1.161|0.870|0.9458
92383864|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.026|STANDARD_ERROR_OF_MEAN|0.0708||0.7213|TWO_SIDED|95.0|0.893|1.178|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.25||1.178|0.893|0.7213
92383865|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|STANDARD_ERROR_OF_MEAN|0.0692||0.4807|TWO_SIDED|95.0|0.917|1.202|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.5||1.202|0.917|0.4807
92383866|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.326|STANDARD_ERROR_OF_MEAN|0.1791||0.115|TWO_SIDED|95.0|0.934|1.884|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 0.5||1.884|0.934|0.1150
92383867|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.074|STANDARD_ERROR_OF_MEAN|0.1467||0.6281|TWO_SIDED|95.0|0.805|1.431|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.0||1.431|0.805|0.6281
92383868|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.059|STANDARD_ERROR_OF_MEAN|0.1415||0.6853|TWO_SIDED|95.0|0.803|1.397|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.25||1.397|0.803|0.6853
92383869|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.055|STANDARD_ERROR_OF_MEAN|0.1388||0.6995|TWO_SIDED|95.0|0.804|1.385|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.5||1.385|0.804|0.6995
92383870|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.837|STANDARD_ERROR_OF_MEAN|0.1744||0.308|TWO_SIDED|95.0|0.595|1.178|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 0.5||1.178|0.595|0.3080
92383871|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.939|STANDARD_ERROR_OF_MEAN|0.1461||0.6645|TWO_SIDED|95.0|0.705|1.25|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.0||1.250|0.705|0.6645
92383872|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.992|STANDARD_ERROR_OF_MEAN|0.1408||0.9564|TWO_SIDED|95.0|0.753|1.308|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.25||1.308|0.753|0.9564
92383873|NCT01455194|184670998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.047|STANDARD_ERROR_OF_MEAN|0.1375||0.7367|TWO_SIDED|95.0|0.8|1.371|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.5||1.371|0.800|0.7367
92383874|NCT01455194|184670999|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.367|STANDARD_ERROR_OF_MEAN|0.2583||0.2264|TWO_SIDED|95.0|0.824|2.267|||Log Rank||A hazard ratio of \<1 represented a benefit for the test treatment.|||2.267|0.824|0.2264
92383875|NCT01455194|184670999|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.102|STANDARD_ERROR_OF_MEAN|0.5001||0.1373|TWO_SIDED|95.0|0.789|5.602|||Log Rank||A hazard ratio of \<1 represented a benefit for the test treatment.|||5.602|0.789|0.1373
92383876|NCT01455194|184670999|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.882|STANDARD_ERROR_OF_MEAN|0.4365||0.7732|TWO_SIDED|95.0|0.375|2.074|||Log Rank||A hazard ratio of \<1 represented a benefit for the test treatment.|||2.074|0.375|0.7732
92383877|NCT01455194|184671000|SUPERIORITY_OR_OTHER|||||||0.288|||||||Fisher Exact|||||||0.2880
92383878|NCT01455194|184671000|SUPERIORITY_OR_OTHER|||||||0.2864|||||||Fisher Exact|||||||0.2864
92383879|NCT00148941|184671020|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% confidence intervals (CIs) for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.97|||||TWO_SIDED|95.0|0.871|1.08|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of diphtheria toxoid (D) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.080|0.871|
92415441|NCT00545129|184720565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.55||0.621|TWO_SIDED|95.0|-1.41|0.86|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.86|-1.41|0.621
92415442|NCT00545129|184720565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.64||0.863|TWO_SIDED|95.0|-1.44|1.21|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.21|-1.44|0.863
92415443|NCT00545129|184720565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.59||0.237|TWO_SIDED|95.0|-1.95|0.51|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.51|-1.95|0.237
92383880|NCT00148941|184671020|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.961|||||TWO_SIDED|95.0|0.863|1.07|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of diphtheria toxoid (D) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.070|0.863|
92383881|NCT00148941|184671020|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.991|||||TWO_SIDED|95.0|0.89|1.103|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of diphtheria toxoid (D) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.103|0.890|
92383882|NCT00148941|184671020|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.975|||||TWO_SIDED|95.0|0.866|1.097|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of tetanus toxoid (T) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.097|0.866|
92383883|NCT00148941|184671020|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.878|||||TWO_SIDED|95.0|0.78|0.988|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of tetanus toxoid (T) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||0.988|0.780|
92383884|NCT00148941|184671020|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.901|||||TWO_SIDED|95.0|0.8|1.014|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of tetanus toxoid (T) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.014|0.800|
92383885|NCT00148941|184671021|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.938|||||TWO_SIDED|95.0|0.828|1.063|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertussis toxoid (PT) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.063|0.828|
92383886|NCT00148941|184671021|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.963|||||TWO_SIDED|95.0|0.85|1.091|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertussis toxoid (PT) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.091|0.850|
92415444|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.75||||1|TWO_SIDED|95.0|0.1|4.94|||Fisher Exact|||Week 1 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||4.94|0.10|1.000
92415445|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.88||||1|TWO_SIDED|95.0|0.23|3.32|||Fisher Exact|||Week 2 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.32|0.23|1.000
92415446|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.67||||1|TWO_SIDED|95.0|0.05|6.35|||Fisher Exact|||Week 2 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||6.35|0.05|1.000
92415447|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4||||0.601|TWO_SIDED|95.0|0.44|4.53|||Fisher Exact|||Week 4 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||4.53|0.44|0.601
92415448|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.36|TWO_SIDED|95.0|0.46|8.51|||Fisher Exact|||Week 4 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||8.51|0.46|0.360
92415449|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5||||1|TWO_SIDED|95.0|0.01|10.24|||Fisher Exact|||Week 4 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||10.24|0.01|1.000
92415450|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.41||||0.596|TWO_SIDED|95.0|0.43|4.66|||Fisher Exact|||Week 6 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||4.66|0.43|0.596
92415451|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.52||||0.552|TWO_SIDED|95.0|0.39|6.24|||Fisher Exact|||Week 6 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||6.24|0.39|0.552
92169410|NCT02178098|184227263|SUPERIORITY||Least squares mean difference|-18.9|STANDARD_ERROR_OF_MEAN|2.624|<|0.0001|TWO_SIDED|95.0|-24.09|-13.71|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-13.71|-24.09|<0.0001
92383887|NCT00148941|184671021|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|1.026|||||TWO_SIDED|95.0|0.906|1.162|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertussis toxoid (PT) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.162|0.906|
92415452|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.15||||0.612|TWO_SIDED|95.0|0.1|131.03|||Fisher Exact|||Week 6 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||131.03|0.10|0.612
92415453|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0|19.66|||Fisher Exact|||Week 6 (\>=90%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||19.66|0.00|1.000
92383888|NCT00148941|184671021|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.874|||||TWO_SIDED|95.0|0.783|0.976|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of filamentous haemagglutinin (FHA) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||0.976|0.783|
92383889|NCT00148941|184671021|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.947|||||TWO_SIDED|95.0|0.849|1.057|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of filamentous haemagglutinin (FHA) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.057|0.849|
92415454|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.73||||0.029|TWO_SIDED|95.0|1.04|14.32|||Fisher Exact|||Week 8 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||14.32|1.04|0.029
92415455|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.63||||0.143|TWO_SIDED|95.0|0.67|11.36|||Fisher Exact|||Week 8 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||11.36|0.67|0.143
92415456|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.07|15.25|||Fisher Exact|||Week 8 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||15.25|0.07|1.000
92415457|NCT00545129|184720566|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.492|TWO_SIDED|95.0|0.0|3.57|||Fisher Exact|||Week 8 (\>=90%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.57|0.00|0.492
92415458|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.75||||1|TWO_SIDED|95.0|0.1|4.94|||Fisher Exact|||Week 1 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||4.94|0.10|1.000
92415459|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.88||||1|TWO_SIDED|95.0|0.23|3.32|||Fisher Exact|||Week 2 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.32|0.23|1.000
92415460|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.67||||1|TWO_SIDED|95.0|0.05|6.35|||Fisher Exact|||Week 2 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||6.35|0.05|1.000
92415461|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.22||||0.795|TWO_SIDED|95.0|0.38|3.88|||Fisher Exact|||Week 4 (\>=30%) reduction: odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.88|0.38|0.795
92415462|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.36|TWO_SIDED|95.0|0.46|8.51|||Fisher Exact|||Week 4 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||8.51|0.46|0.360
92415463|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5||||1|TWO_SIDED|95.0|0.01|10.24|||Fisher Exact|||Week 4 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||10.24|0.01|1.000
92415464|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.06||||1|TWO_SIDED|95.0|0.33|3.39|||Fisher Exact|||Week 6 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.39|0.33|1.000
92415465|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.771|TWO_SIDED|95.0|0.33|4.83|||Fisher Exact|||Week 6 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||4.83|0.33|0.771
92415466|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.15||||0.612|TWO_SIDED|95.0|0.1|131.03|||Fisher Exact|||Week 6 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||131.03|0.10|0.612
92278332|NCT01694485|184458545|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Remission Rates|-1.7|||||TWO_SIDED|90.0|-4.2|6.4||||||The difference in adjusted sustained remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||6.4|-4.2|
92415467|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0|19.66|||Fisher Exact|||Week 6 (\>=90%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||19.66|0.00|1.000
92415468|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.18||||0.187|TWO_SIDED|95.0|0.66|7.3|||Fisher Exact|||Week 8 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||7.30|0.66|0.187
92415469|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.73||||0.399|TWO_SIDED|95.0|0.48|6.43|||Fisher Exact|||Week 8 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||6.43|0.48|0.399
92415470|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.07|15.25|||Fisher Exact|||Week 8 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||15.25|0.07|1.000
92415471|NCT00545129|184720567|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.492|TWO_SIDED|95.0|0.0|3.57|||Fisher Exact|||Week 8 (\>=90%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.57|0.00|0.492
92415472|NCT00545129|184720569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.68||0.188|TWO_SIDED|95.0|0.77|3.73|||Negative binomial regression|||Week 1: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||3.73|0.77|0.188
92415473|NCT00545129|184720569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.81|STANDARD_ERROR_OF_MEAN|0.85||0.207|TWO_SIDED|95.0|0.72|4.54|||Negative binomial regression|||Week 2: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||4.54|0.72|0.207
92415474|NCT00545129|184720569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.71|STANDARD_ERROR_OF_MEAN|0.92||0.317|TWO_SIDED|95.0|0.6|4.93|||Negative binomial regression|||Week 3: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||4.93|0.60|0.317
92415475|NCT00545129|184720569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.36|STANDARD_ERROR_OF_MEAN|0.7||0.554|TWO_SIDED|95.0|0.5|3.71|||Negative binomial regression|||Week 4: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||3.71|0.50|0.554
92415476|NCT00545129|184720569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|0.35||0.581|TWO_SIDED|95.0|0.32|1.89|||Negative binomial regression|||Week 5: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||1.89|0.32|0.581
92415477|NCT00545129|184720569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.61|STANDARD_ERROR_OF_MEAN|0.27||0.252|TWO_SIDED|95.0|0.26|1.43|||Negative binomial regression|||Week 6: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||1.43|0.26|0.252
92169411|NCT02178098|184227264|SUPERIORITY||Least squares mean difference|-18.69|STANDARD_ERROR_OF_MEAN|2.49|<|0.0001|TWO_SIDED|95.0|-23.62|-13.77|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-13.77|-23.62|<0.0001
92278333|NCT02907203|184458546|NON_INFERIORITY|Compared with the Performance Goal: 0.9mm|Mean Difference (Net)|-0.17|STANDARD_DEVIATION|0.98||0|TWO_SIDED|95.0|-0.5|0.152|||t-test, 2 sided|||||0.152|-0.5|0.000
92415478|NCT00545129|184720569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.65|STANDARD_ERROR_OF_MEAN|0.31||0.365|TWO_SIDED|95.0|0.26|1.64|||Negative binomial regression|||Week 7: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||1.64|0.26|0.365
92415479|NCT00545129|184720569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.25||0.212|TWO_SIDED|95.0|0.25|1.36|||Negative binomial regression|||Week 8: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||1.36|0.25|0.212
92415480|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.17||0.215|TWO_SIDED|95.0|-0.13|0.55|||ANCOVA|||Change at Week 2 (Fatigue MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.55|-0.13|0.215
92415481|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.21||0.947|TWO_SIDED|95.0|-0.45|0.42|||ANCOVA|||Change at Week 4 (Fatigue MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.42|-0.45|0.947
92415482|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.18||0.341|TWO_SIDED|95.0|-0.56|0.2|||ANCOVA|||Change at Week 6 (Fatigue MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.20|-0.56|0.341
92415483|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.24||0.18|TWO_SIDED|95.0|-0.83|0.17|||ANCOVA|||Change at Week 2 (Drowsiness MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.17|-0.83|0.180
92169412|NCT02178098|184227265|SUPERIORITY||Median Difference (Final Values)|5.25||||0.3689|TWO_SIDED|95.0|-6.78|16.42|||Wilcoxon Rank-Sum Test||The 95% CI was calculated using Hodges-Lehmann analysis.|||16.42|-6.78|0.3689
92169413|NCT02178098|184227266|SUPERIORITY||Least squares mean difference|-8.18|STANDARD_ERROR_OF_MEAN|2.319||0.0006|TWO_SIDED|95.0|-12.76|-3.59|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-3.59|-12.76|0.0006
92233268|NCT00811252|184368957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.32|STANDARD_ERROR_OF_MEAN|1.01||0.0011|TWO_SIDED|95.0|-5.31|-1.34||Since p-value \<0.05, hierarchically testing continued|ANCOVA||A statistical testing strategy was defined a priori for a single dose of vortioxetine that was tested versus placebo in the primary and key secondary efficacy analyses.|As soon as an endpoint was non-significant at the 0.05 level of significance, the testing procedure was stopped for all subsequent endpoints.||-1.34|-5.31|0.0011
92278334|NCT01798485|184458548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.111||||0.3293|TWO_SIDED|95.0|0.899|1.372|||Log Rank|P-value was from stratified log-rank test (strata: screening LDH, screening ECOG and geographic region).||Primary study hypothesis was tested at a 2-sided, 0.05 significance level using a stratified log-rank test.||1.372|0.899|0.3293
92383890|NCT00148941|184671021|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|1.084|||||TWO_SIDED|95.0|0.971|1.209|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of filamentous haemagglutinin (FHA) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.209|0.971|
92383891|NCT00148941|184671021|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.998|||||TWO_SIDED|95.0|0.867|1.148|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertactin (PRN) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.148|0.867|
92383892|NCT00148941|184671021|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|1.043|||||TWO_SIDED|95.0|0.907|1.2|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertactin (PRN) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.200|0.907|
92383893|NCT00148941|184671021|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|1.045|||||TWO_SIDED|95.0|0.909|1.202|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertactin (PRN) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.202|0.909|
92383894|NCT00148941|184671022|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|0.994|||||TWO_SIDED|95.0|0.836|1.181|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 1 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.181|0.836|
92383895|NCT00148941|184671022|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|0.987|||||TWO_SIDED|95.0|0.831|1.172|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 1 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.172|0.831|
92233269|NCT00811252|184368957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.48|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|95.0|-7.5|-3.46||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||-3.46|-7.50|<0.0001
92415484|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.509|TWO_SIDED|95.0|-0.43|0.84|||ANCOVA|||Change at Week 4 (Drowsiness MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.84|-0.43|0.509
92169414|NCT02178098|184227267|SUPERIORITY||Median Difference (Final Values)|7.6||||0.3093|TWO_SIDED|95.0|-8.21|24.02|||Wilcoxon Rank-Sum Test||The 95% CI was calculated using Hodges-Lehmann analysis.|||24.02|-8.21|0.3093
92233270|NCT00811252|184368958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13|STANDARD_ERROR_OF_MEAN|0.94||0.024|TWO_SIDED|95.0|-3.98|-0.28||Since p-value \<0.05, hierarchically testing continued|ANCOVA||A statistical testing strategy was defined a priori for a single dose of vortioxetine that was tested versus placebo in the primary and key secondary efficacy analyses.|As soon as an endpoint was non-significant at the 0.05 level of significance, the testing procedure was stopped for all subsequent endpoints.||-0.28|-3.98|0.0240
92233271|NCT00811252|184368958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.22|STANDARD_ERROR_OF_MEAN|0.96|<|0.0001|TWO_SIDED|95.0|-6.1|-2.34||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||-2.34|-6.10|<0.0001
92415485|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.34||0.767|TWO_SIDED|95.0|-0.62|0.82|||ANCOVA|||Change at Week 6 (Drowsiness MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.82|-0.62|0.767
92415486|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.25||0.108|TWO_SIDED|95.0|-0.11|0.95|||ANCOVA|||Change at Week 2 (Inability to Concentrate MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.95|-0.11|0.108
92415487|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.37||0.28|TWO_SIDED|95.0|-1.26|0.41|||ANCOVA|||Change at Week 4 (Inability to Concentrate MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.41|-1.26|0.280
92415488|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.57||0.747|TWO_SIDED|95.0|-1.53|1.15|||ANCOVA|||Change at Week 6 (Inability to Concentrate MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||1.15|-1.53|0.747
92415489|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.991|TWO_SIDED|95.0|-0.87|0.88|||ANCOVA|||Change at Week 2 (Nausea MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.88|-0.87|0.991
92415490|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.27||0.335|TWO_SIDED|95.0|-0.41|0.99|||ANCOVA|||Change at Week 4 (Nausea MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.99|-0.41|0.335
92415491|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.55|STANDARD_ERROR_OF_MEAN|0.7||0.159|TWO_SIDED|95.0|-4.57|1.48|||ANCOVA|||Change at Week 6 (Nausea MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||1.48|-4.57|0.159
92415492|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.23||0.136|TWO_SIDED|95.0|-0.16|0.94|||ANCOVA|||Change at Week 2 (Dizziness MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.94|-0.16|0.136
92415493|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|0.37||0.186|TWO_SIDED|95.0|-3.46|5.9|||ANCOVA|||Change at Week 6 (Dizziness MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||5.90|-3.46|0.186
92415494|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.48||0.292|TWO_SIDED|95.0|-1.52|0.49|||ANCOVA|||Change at Week 2 (Constipation MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.49|-1.52|0.292
92415495|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.38||0.225|TWO_SIDED|95.0|-0.34|1.3|||ANCOVA|||Change at Week 4 (Constipation MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||1.30|-0.34|0.225
92415496|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.36||0.517|TWO_SIDED|95.0|-0.58|1.07|||ANCOVA|||Change at Week 6 (Constipation MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||1.07|-0.58|0.517
92415497|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.58||1|TWO_SIDED|95.0|-2.48|2.48|||ANCOVA|||Change at Week 2 (Itching MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||2.48|-2.48|1.000
92415498|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.0|<|0.001|TWO_SIDED|95.0|-1.01|-0.99|||ANCOVA|||Change at Week 4 (Itching MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||-0.99|-1.01|<0.001
92415499|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.43||0.362|TWO_SIDED|95.0|-0.75|1.63|||ANCOVA|||Change at Week 2 (Difficulty with Urination MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||1.63|-0.75|0.362
92415500|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|4.08||1|TWO_SIDED|95.0|-51.87|51.87|||ANCOVA|||Change at Week 4 (Difficulty with Urination MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||51.87|-51.87|1.000
92169415|NCT02515305|184227332|EQUIVALENCE|provides 85% power of success|equivalence ratio|97.54|||||TWO_SIDED|90.0|94.6|104.7||No p-value calculated, just a T/R ratio and 90% confidence interval for the bioequivalence analysis|Fieller's method|||||104.7|94.6|
92233272|NCT00811252|184368959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|0.85||0.2134|TWO_SIDED|95.0|-2.72|0.61||Since p-value \>0.05, hierarchically testing stopped here.|ANCOVA|||||0.61|-2.72|0.2134
92415501|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.03|STANDARD_ERROR_OF_MEAN|0.1||0.031|TWO_SIDED|95.0|-3.3|-0.76|||ANCOVA|||Change at Week 4 (Retching/Vomiting MDR): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||-0.76|-3.30|0.031
92383896|NCT00148941|184671022|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|0.993|||||TWO_SIDED|95.0|0.836|1.18|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 1 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.180|0.836|
92383897|NCT00148941|184671022|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|1.118|||||TWO_SIDED|95.0|0.951|1.314|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 2 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.314|0.951|
92383898|NCT00148941|184671022|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|1.006|||||TWO_SIDED|95.0|0.856|1.183|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 2 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.183|0.856|
92383899|NCT00148941|184671022|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\] for Anti-poliovirus type 2.|GMT ratio|0.9|||||TWO_SIDED|95.0|0.765|1.06|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 2 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.060|0.765|
92383900|NCT00148941|184671022|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|1.112|||||TWO_SIDED|95.0|0.941|1.314|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 3 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.314|0.941|
92383901|NCT00148941|184671022|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|1.034|||||TWO_SIDED|95.0|0.876|1.22|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 3 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.220|0.876|
92383902|NCT00148941|184671022|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|0.93|||||TWO_SIDED|95.0|0.787|1.099|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 3 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.099|0.787|
92415502|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.15||0.886|TWO_SIDED|95.0|-0.28|0.32|||ANCOVA|||Change at Week 2 (Frequency Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.32|-0.28|0.886
92233273|NCT00811252|184368959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|0.86||0.0002|TWO_SIDED|95.0|-4.99|-1.6||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||-1.60|-4.99|0.0002
92233274|NCT00811252|184368960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.7||0.6879|TWO_SIDED|95.0|-1.67|1.1||A nominal p-value is provided.|ANCOVA|||||1.10|-1.67|0.6879
92169416|NCT02515305|184227333|EQUIVALENCE|provides 85% power of success|Equivalence ratio|100.1|||||TWO_SIDED|90.0|96.0|109.3|||Fieller's method|||||109.3|96|
92169417|NCT03087708|184227343|OTHER||||||<|1|||||||Fisher Exact|||Comparison of Hematologic 3+ vs Hematologic \<3||||<1
92233275|NCT00811252|184368960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.72||0.0827|TWO_SIDED|95.0|-2.65|0.16||A nominal p-value is provided.|ANCOVA|||||0.16|-2.65|0.0827
92233276|NCT00811252|184368961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.55||0.4482|TWO_SIDED|95.0|-1.49|0.66||A nominal p-value is provided.|ANCOVA|||||0.66|-1.49|0.4482
92233277|NCT00811252|184368961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.56||0.7971|TWO_SIDED|95.0|-0.95|1.24||A nominal p-value is provided.|ANCOVA|||||1.24|-0.95|0.7971
92233278|NCT00811252|184368962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.29|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|95.0|-6.32|-2.26||A nominal p-value is provided. No correction for multiplicity was made.|ANCOVA|||||-2.26|-6.32|<0.0001
92383903|NCT00148941|184671022|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|GMT ration|0.792|||||TWO_SIDED|95.0|0.68|0.922|||ANCOVA|ANCOVA model: adjustment for baseline titer - pooled variance||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of anti-poliovirus type 1 (measured by the GMT ratio of Infanrix + IPOL + M-M-R Group over SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|0.922|0.680|
92383904|NCT00148941|184671022|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|GMT ratio|0.802|||||TWO_SIDED|95.0|0.696|0.925|||ANCOVA|ANCOVA model: adjustment for baseline titer - pooled variance||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of anti-poliovirus type 2 (measured by the GMT ratio of Infanrix + IPOL + M-M-R Group over SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|0.925|0.696|
92383905|NCT00148941|184671022|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|GMT ratio|0.938|||||TWO_SIDED|95.0|0.811|1.085|||ANCOVA|ANCOVA model: adjustment for baseline titer - pooled variance||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of anti-poliovirus type 3 (measured by the GMT ratio of Infanrix + IPOL + M-M-R Group over SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|1.085|0.811|
92383906|NCT00148941|184671023|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|Difference between groups|0.47|||||TWO_SIDED|95.0|-0.98|1.21||||||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of diphtheria toxoid (D) booster responses (i.e measured by the difference in percentage of subjects with a booster response between the Infanrix + IPOL + M-M-R Group and (minus) the SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|1.21|-0.98|
92383907|NCT00148941|184671023|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|Difference between groups|-2.81|||||TWO_SIDED|95.0|-6.55|-0.09||||||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of tetanus toxoid (T) booster responses (measured by the difference in percentage of subjects with a booster response between the Infanrix + IPOL + M-M-R Group and (minus) the SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|-0.09|-6.55|
92415503|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.21||0.66|TWO_SIDED|95.0|-0.52|0.33|||ANCOVA|||Change at Week 4 (Frequency Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.33|-0.52|0.660
92415504|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.238|TWO_SIDED|95.0|-0.54|0.14|||ANCOVA|||Change at Week 6 (Frequency Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.14|-0.54|0.238
92415505|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.14||0.36|TWO_SIDED|95.0|-0.42|0.16|||ANCOVA|||Change at Week 2 (Severity Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.16|-0.42|0.360
92415506|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.17||0.278|TWO_SIDED|95.0|-0.16|0.54|||ANCOVA|||Change at Week 4 (Severity Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.54|-0.16|0.278
92415507|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.15||0.809|TWO_SIDED|95.0|-0.34|0.27|||ANCOVA|||Change at Week 6 (Severity Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.27|-0.34|0.809
92415508|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.18||0.944|TWO_SIDED|95.0|-0.35|0.38|||ANCOVA|||Change at Week 2 (Bother Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.38|-0.35|0.944
92415509|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.26||0.892|TWO_SIDED|95.0|-0.48|0.55|||ANCOVA|||Change at Week 4 (Bother Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.55|-0.48|0.892
92169418|NCT03087708|184227343|OTHER||||||<|0.7051|||||||Fisher Exact|||Comparison of Non-Hematologic 3+ vs Non-Hematologic \<3||||<0.7051
92169419|NCT03087708|184227343|OTHER||||||<|0.6546|||||||Fisher Exact|||Comparison of Hematologic 3+ vs Hematologic \<3||||<0.6546
92383908|NCT00148941|184671024|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|Difference between groups|0.36|||||TWO_SIDED|95.0|-3.83|3.71||||||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of pertussis toxoid (PT) booster responses (measured by the difference in percentage of subjects with a booster response between the Infanrix + IPOL + M-M-R Group and (minus) the SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|3.71|-3.83|
92383909|NCT00148941|184671024|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|Difference between groups|0.79|||||TWO_SIDED|95.0|-2.5|3.21||||||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of filamentous haemagglutinin (FHA) booster responses (measured by the difference in percentage of subjects with a booster response between the Infanrix + IPOL + M-M-R Group and (minus) the SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|3.21|-2.50|
92383910|NCT00148941|184671024|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|Difference between groups|-0.82|||||TWO_SIDED|95.0|-3.79|1.14||||||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of pertactin (PRN) booster responses (measured by the difference in percentage of subjects with a booster response between the Infanrix + IPOL + M-M-R Group and (minus) the SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|1.14|-3.79|
92383911|NCT00148941|184671025|NON_INFERIORITY|Non-inferiority objective was considered demonstrated, when the upper limit of the 95% CI for the difference between groups (SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups minus Infanrix + IPOL + M-M-R Group) in percentage of subjects reporting increased circumferential swelling was equal or less than 2%.|Difference in percentage|-0.41|||||TWO_SIDED|95.0|-1.26|0.16||||||Non-inferiority of the SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of the incidence of increased circumferential swelling at the SB213503 and Infanrix injection site, defined as an injection site swelling diameter that involves \> 50% of the length of the upper arm that also is associated with a \> 30 mm increase of the mid-upper arm circumference compared to the baseline measurement.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|0.16|-1.26|
92383912|NCT01092663|184671058|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
92383913|NCT01092663|184671059|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
92383914|NCT01092663|184671060|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effects between the 2 groups||||>0.05
92383915|NCT01092663|184671061|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
92383916|NCT01092663|184671062|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
92383917|NCT01092663|184671063|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||<0.05
92383918|NCT01092663|184671064|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Treament difference in fasting EGP between the 2 groups were compared.||||>0.05
92383919|NCT01092663|184671065|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between groups was evaluated||||>0.05
92383920|NCT01092663|184671066|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired ttest||Difference in treatment effect between groups was evaluated||||>0.05
92383921|NCT01092663|184671067|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
92383922|NCT01092663|184671068|SUPERIORITY_OR_OTHER||||||=|0.01||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||=0.01
92383923|NCT01092663|184671069|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||differerences in treatment effect between the 2 groups||||>0.05
92383924|NCT01092663|184671070|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
92383925|NCT01092663|184671071|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
92383926|NCT01092663|184671072|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
92383927|NCT01092663|184671073|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
92383928|NCT01092663|184671074|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||<0.05
92383929|NCT01092663|184671075|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||<0.05
92383930|NCT01092663|184671076|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||<0.01
92233279|NCT00811252|184368963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35|STANDARD_ERROR_OF_MEAN|0.74||0.0015|TWO_SIDED|95.0|-3.8|-0.91||A nominal p-value is provided. No correction for multiplicity was made.|ANCOVA|||||-0.91|-3.80|0.0015
92233280|NCT00811252|184368964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.88|-0.32||A nominal p-value is provided. No correction for multiplicity was made.|ANCOVA|||||-0.32|-0.88|<0.0001
92233281|NCT00811252|184368965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.82|-0.31||A nominal p-value is provided. No correction for multiplicity was made.|ANCOVA|||||-0.31|-0.82|<0.0001
92233282|NCT00811252|184368966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.23||0.0552|TWO_SIDED|95.0|-0.88|0.01||A nominal p-value is provided. No correction for multiplicity was made.|ANCOVA|||||0.01|-0.88|0.0552
92415510|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.21||0.884|TWO_SIDED|95.0|-0.39|0.45|||ANCOVA|||Change at Week 6 (Bother Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.45|-0.39|0.884
92415511|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.13||0.919|TWO_SIDED|95.0|-0.26|0.28|||ANCOVA|||Change at Week 2 (MDA Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.28|-0.26|0.919
92415512|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.19||0.752|TWO_SIDED|95.0|-0.33|0.45|||ANCOVA|||Change at Week 4 (MDA Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.45|-0.33|0.752
92415513|NCT00545129|184720570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.14||0.715|TWO_SIDED|95.0|-0.34|0.24|||ANCOVA|||Change at Week 6 (MDA Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.24|-0.34|0.715
92169420|NCT03087708|184227343|OTHER||||||<|0.7051|||||||Fisher Exact|||Comparison of Non-Hematologic 3+ vs Non-Hematologic \<3||||<0.7051
92233283|NCT00811252|184368967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.0008|TWO_SIDED|95.0|0.26|0.7||A nominal p-value is provided. No correction for multiplicity was made.|Regression, Logistic|||||0.70|0.26|0.0008
92233284|NCT00811252|184368968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.009|TWO_SIDED|95.0|0.27|0.83||A nominal p-value is provided. No correction for multiplicity was made.|Regression, Logistic|||||0.83|0.27|0.0090
92383931|NCT01092663|184671077|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||<0.01
92383932|NCT01092663|184671078|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
92233285|NCT00749606|184368982|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Mixed linear models analyzed within-subject variation in repeated measures over time. Intention to treat analysis used 5 imputations for missing data.||||||<0.01
92233286|NCT01121406|184368992|SUPERIORITY_OR_OTHER||Difference in Kaplan-Meier DC rates|-12.5|||||TWO_SIDED|95.0|-31.1|6.0|||||"95% CI using Greenwood´s variance estimate.~Volasertib (BI 6727) minus Cytotoxic."|Kaplan Meier estimates and confidence intervals (CI) were calculated using Greenwood's variance estimate within each treatment arm and the asymptotic CI for the difference in the rates found. The time was censored in those cases where there was no death or progression until the last trial visit||6.0|-31.1|
92383933|NCT00788710|184671081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
92383934|NCT00788710|184671081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
92383935|NCT00788710|184671082|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
92383936|NCT00788710|184671082|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
92383937|NCT00788710|184671083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
92383938|NCT00788710|184671083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
92383939|NCT04407234|184671084|SUPERIORITY||Ratio of geometric least squares mean|0.881|||||TWO_SIDED|90.0|0.803|0.967|||Wilcoxon signed rank test|||||0.967|0.803|
92383940|NCT04407234|184671084|SUPERIORITY||Ratio of geometric least squares mean|1.16|||||TWO_SIDED|90.0|1.05|1.28|||Wilcoxon signed rank test|||||1.28|1.05|
92383941|NCT04407234|184671085|SUPERIORITY||Ratio of geometric least squares mean|0.446|||||TWO_SIDED|90.0|0.39|0.509|||Wilcoxon signed rank test|||||0.509|0.390|
92383942|NCT04407234|184671085|SUPERIORITY||Ratio of geometric least squares mean|0.679|||||TWO_SIDED|90.0|0.589|0.783|||Wilcoxon signed rank test|||||0.783|0.589|
92383943|NCT04407234|184671087|SUPERIORITY||Ratio of geometricleast squares mean|0.888|||||TWO_SIDED|90.0|0.778|1.01||||||||1.01|0.778|
92383944|NCT04407234|184671087|SUPERIORITY||Ratio of geometricleast squares mean|1.23|||||TWO_SIDED|90.0|1.07|1.42||||||||1.42|1.07|
92383945|NCT04407234|184671088|SUPERIORITY||Ratio of geometricleast squares mean|0.875|||||TWO_SIDED|90.0|0.766|0.999||||||||0.999|0.766|
92383946|NCT04407234|184671088|SUPERIORITY||Ratio of geometricleast squares mean|1.08|||||TWO_SIDED|90.0|0.938|1.25||||||||1.25|0.938|
92383947|NCT04407234|184671089|SUPERIORITY||Ratio of geometricleast squares mean|0.453|||||TWO_SIDED|90.0|0.376|0.545||||||||0.545|0.376|
92383948|NCT04407234|184671089|SUPERIORITY||Ratio of geometricleast squares mean|0.804|||||TWO_SIDED|90.0|0.66|0.979||||||||0.979|0.660|
92383949|NCT04407234|184671090|SUPERIORITY||Ratio of geometricleast squares mean|0.438|||||TWO_SIDED|90.0|0.364|0.527||||||||0.527|0.364|
92383950|NCT04407234|184671090|SUPERIORITY||Ratio of geometricleast squares mean|0.574|||||TWO_SIDED|90.0|0.471|0.698||||||||0.698|0.471|
92383951|NCT00727558|184671099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.554|STANDARD_ERROR_OF_MEAN|0.1943||||97.47|0.1721|0.554|||Mixed Models Analysis||The mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A||0.554|0.1721|
92383952|NCT00727558|184671100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1734|STANDARD_ERROR_OF_MEAN|0.03555||||97.47|-0.1734|-0.1037|||Mixed Models Analysis||Mean difference is narafilcon A minus nelfilcon A|Alternative hypothesis: narafilcon A is superior to nelfilcon A.||-0.1037|-0.1734|
92383953|NCT00727558|184671101|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.3968|STANDARD_ERROR_OF_MEAN|0.1548||||98.7|0.04983|0.3968|||Mixed Models Analysis||The mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A||0.3968|0.04983|
92383954|NCT00727558|184671102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3875|STANDARD_ERROR_OF_MEAN|0.2054||||98.7|0.03714|0.3875|||Mixed Models Analysis||The mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A.||0.3875|0.03714|
92383955|NCT00727558|184671103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6735|STANDARD_ERROR_OF_MEAN|0.1563||||98.7|0.213|0.6735|||Mixed Models Analysis||The mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A||0.6735|0.213|
92383956|NCT00727558|184671104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.1648||||98.7|-0.2375|0.132|||Mixed Models Analysis||Mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A||0.132|-0.2375|
92383957|NCT00727558|184671105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2469|STANDARD_ERROR_OF_MEAN|0.04448||||97.47|-0.2469|-0.1599|||Mixed Models Analysis||The mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A by having a lower level of inferior region corneal staining||-0.1599|-0.2469|
92383958|NCT02262754|184671143|SUPERIORITY_OR_OTHER||Mean Difference (PF-06372865-Placebo)|0.16|||||TWO_SIDED|90.0|-0.28|0.6||||||An analysis of covariance (ANCOVA) model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-2.36, 0.542\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. A last observation carried forward (LOCF) was used for missing data.||0.60|-0.28|
92383959|NCT02262754|184671143|SUPERIORITY_OR_OTHER||Mean Difference (PF-06372865-Naproxen)|0.42|||||TWO_SIDED|90.0|-0.02|0.87||||||An ANCOVA model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-2.36, 0.542\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. A last observation carried forward LOCF was used for missing data.||0.87|-0.02|
92383960|NCT02262754|184671143|SUPERIORITY_OR_OTHER||Mean Difference (Naproxen-Placebo)|-0.26|||||TWO_SIDED|90.0|-0.7|0.18||||||An ANCOVA model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-2.36, 0.542\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. A last observation carried forward LOCF was used for missing data.||0.18|-0.70|
92383961|NCT02262754|184671149|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.23|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.76|0.3||||||The ANCOVA model included treatment as fixed effects.||0.30|-0.76|
92383962|NCT02262754|184671149|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|0.12|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.41|0.65||||||The ANCOVA model included treatment as fixed effects.||0.65|-0.41|
92415514|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.47||0.666|TWO_SIDED|95.0|-0.77|1.18|||ANCOVA|||Change at Week 1 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.18|-0.77|0.666
92415515|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.49||0.745|TWO_SIDED|95.0|-0.86|1.18|||ANCOVA|||Change at Week 2 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.18|-0.86|0.745
92415516|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.48||0.749|TWO_SIDED|95.0|-1.14|0.83|||ANCOVA|||Change at Week 4 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.83|-1.14|0.749
92169421|NCT03087708|184227343|OTHER||||||<|0.2262|||||||Fisher Exact|||Comparison of Non-Hematologic 3+ vs Non-Hematologic \<3||||<0.2262
92383963|NCT02262754|184671149|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|-0.35|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.87|0.17||||||The ANCOVA model included treatment as fixed effects.||0.17|-0.87|
92383964|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.08|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.2|0.36||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.36|-0.20|
92383965|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.2|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.48|0.07||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.07|-0.48|
92383966|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.28|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.01|0.56||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.56|0.01|
92169422|NCT03087708|184227343|OTHER||||||<|1|||||||Fisher Exact|||Comparison of Hematologic 3+ vs Hematologic \<3||||<1
92169423|NCT03087708|184227343|OTHER||||||<|1|||||||Fisher Exact|||Comparison of Non-Hematologic 3+ vs Non-Hematologic \<3||||<1
92169424|NCT03087708|184227347|OTHER||||||<|0.68182|||||||Fisher Exact|||||||<0.68182
92169425|NCT03087708|184227347|OTHER||||||<|0.1091|||||||Fisher Exact|||||||<0.1091
92169426|NCT03087708|184227348|OTHER||||||<|1|||||||Wilcoxon (Mann-Whitney)|||||||<1.0
92169427|NCT03087708|184227348|OTHER||||||<|0.3339|||||||Wilcoxon (Mann-Whitney)|||||||<0.3339
92169428|NCT03087708|184227349|OTHER||||||<|0.593|||||||Wilcoxon (Mann-Whitney)|||||||<0.5930
92169429|NCT03087708|184227349|OTHER||||||<|0.3105|||||||Wilcoxon (Mann-Whitney)|||||||<0.3105
92169430|NCT03087708|184227350|OTHER|||||||0.6024|||||||Wilcoxon (Mann-Whitney)|||Average Pain Scores at Baseline||||0.6024
92169431|NCT03087708|184227350|OTHER||||||<|0.3116|||||||Wilcoxon (Mann-Whitney)|||Average Pain Scores at Baseline||||<0.3116
92169432|NCT03087708|184227350|OTHER||||||<|0.7712|||||||Wilcoxon (Mann-Whitney)|||Average Pain Scores at 6 Months||||<0.7712
92169433|NCT03087708|184227350|OTHER||||||<|1|||||||Wilcoxon (Mann-Whitney)|||Average Pain Scores at 6 Months||||<1.0
92169434|NCT03087708|184227351|OTHER||||||<|1|||||||Fisher Exact|||Analgesic Use at 6 Months||||<1.0000
92169435|NCT03087708|184227351|OTHER||||||<|0.5758|||||||Fisher Exact|||Analgesic Use at 6 Months||||<0.5758
92383967|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.05|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.43|0.34||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.34|-0.43|
92233287|NCT01121406|184368993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.66|1.53|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727) /Cytotoxic"|||1.53|0.66|
92383968|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.24|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.62|0.15||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.15|-0.62|
92383969|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.19|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.19|0.58||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.58|-0.19|
92383970|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.03|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.39|0.45||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.45|-0.39|
92383971|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.27|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.69|0.16||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.16|-0.69|
92383972|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.3|STANDARD_ERROR_OF_MEAN|0.25||||90.0|-0.12|0.71||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.71|-0.12|
92383973|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.07|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.4|0.55||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.55|-0.40|
92383974|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.37|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.84|0.11||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.11|-0.84|
92383975|NCT02262754|184671150|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.44|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-0.03|0.91||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.91|-0.03|
92383976|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.03|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|90.0|-0.03|0.08||||||Week 1: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.08|-0.03|
92383977|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.04|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|90.0|-0.09|0.02||||||Week 1: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.02|-0.09|
92169436|NCT03087708|184227351|OTHER||||||<|1|||||||Fisher Exact|||Analgesic use at Baseline||||<1.0000
92278335|NCT01798485|184458548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.111|||||TWO_SIDED|99.5|0.821|1.503||||||"Futility analysis for the first Interim Analysis which had a database cutoff of 19 October 2015. For the first interim analysis, if the lower limit of the 2-sided 99.5% confidence interval (CI) for the Hazard Ratio was greater than 0.75, then the study could be stopped for futility, based on Data Monitoring Committee recommendation.~Hazard ratio and 99.5% CI were calculated using the stratified Cox Proportional Hazards model (strata: screening LDH, screening ECOG and geographic region)."||1.503|0.821|
92383978|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.06|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|90.0|0.01|0.12||||||Week 1: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.12|0.01|
92169437|NCT03087708|184227351|OTHER|||||||0.593|||||||Fisher Exact|||Analgesic use at Baseline||||0.5930
92169438|NCT01996605|184227377|SUPERIORITY||||||<|0.05||||||T|ANOVA|A one-way ANOVA was performed on the single primary outcome datapoint comparing the three groups.||The null hypothesis was that there would be no difference in area of hyperalgesia 105 minutes after study drug injection among the three groups.||||<0.05
92233288|NCT01121406|184368994|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.63|1.42|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727) /Cytotoxic"|||1.42|0.63|
92278336|NCT01798485|184458549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.161||||0.118|TWO_SIDED|95.0|0.961|1.403||Significance level of 0.05.|Log Rank|Stratified log-rank test with stratification variables, ECOG, screening total LDH levels, and geographic region, used to compare the treatment groups.||||1.403|0.961|0.1180
92383979|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.01|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|90.0|-0.09|0.1||||||Week 2: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.10|-0.09|
92383980|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.05|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|90.0|-0.15|0.05||||||Week 2: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.05|-0.15|
92383981|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.06|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|90.0|-0.04|0.15||||||Week 2: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.15|-0.04|
92383982|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.0|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.12|0.12||||||Week 3: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.12|-0.12|
92383983|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.05|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.16|0.07||||||Week 3: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.07|-0.16|
92383984|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.05|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.07|0.16||||||Week 3: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.16|-0.07|
92383985|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.01|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.16|0.14||||||Week 4: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.14|-0.16|
92415517|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.5||0.794|TWO_SIDED|95.0|-1.16|0.9|||ANCOVA|||Change at Week 6 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.90|-1.16|0.794
92233289|NCT01121406|184368997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.73|1.7|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||1.70|0.73|
92233290|NCT01121406|184368998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.4|1.61|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||1.61|0.40|
92383986|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.24|0.05||||||Week 4: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.05|-0.24|
92383987|NCT02262754|184671151|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.09|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.05|0.23||||||Week 4: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.23|-0.05|
92383988|NCT02262754|184671152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|90.0|0.54|1.73||||||\>=30 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||1.73|0.54|
92383989|NCT02262754|184671152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43|||||TWO_SIDED|90.0|0.81|2.51||||||\>=30 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||2.51|0.81|
92383990|NCT02262754|184671152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68|||||TWO_SIDED|90.0|0.39|1.2||||||\>=30 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||1.20|0.39|
92383991|NCT02262754|184671152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|90.0|0.37|1.81||||||\>=50 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||1.81|0.37|
92233291|NCT01121406|184368999|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.37|1.65|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||1.65|0.37|
92169439|NCT03546608|184227378|OTHER||Ratio of Geometric Least Square Mean (%)|94.99|||||TWO_SIDED|90.0|64.75|139.35||||||||139.35|64.75|
92233292|NCT01121406|184369000|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.39|1.93|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||1.93|0.39|
92383992|NCT02262754|184671152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11|||||TWO_SIDED|90.0|0.53|2.35||||||\>=50 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||2.35|0.53|
92383993|NCT02262754|184671152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73|||||TWO_SIDED|90.0|0.33|1.6||||||\>=50 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||1.60|0.33|
92383994|NCT02262754|184671158|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.18|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-1.06|0.7||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.70|-1.06|
92383995|NCT02262754|184671158|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.91|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-1.8|-0.03||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||-0.03|-1.80|
92383996|NCT02262754|184671158|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.73|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-0.15|1.61||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||1.61|-0.15|
92383997|NCT02262754|184671158|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.7|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-1.69|0.29||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.29|-1.69|
92383998|NCT02262754|184671158|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-1.11|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-2.11|-0.11||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||-0.11|-2.11|
92383999|NCT02262754|184671158|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.41|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|90.0|-0.57|1.39||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||1.39|-0.57|
92384000|NCT02262754|184671158|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.41|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|90.0|-1.42|0.6||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.60|-1.42|
92384001|NCT02262754|184671158|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-1.27|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|90.0|-2.28|-0.27||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||-0.27|-2.28|
92384002|NCT02262754|184671158|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.86|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-0.12|1.85||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||1.85|-0.12|
92384003|NCT02262754|184671159|SUPERIORITY_OR_OTHER||Mean Difference (PF-06372865-Placebo)|-0.64|||||TWO_SIDED|90.0|-1.63|0.35||||||Week 4: An ANCOVA model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-3.28, 1.19\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. LOCF was used for missing data.||0.35|-1.63|
92384004|NCT02262754|184671159|SUPERIORITY_OR_OTHER||Mean Difference (Naproxen-Placebo)|-1.43|||||TWO_SIDED|90.0|-2.4|-0.45||||||Week 4: An ANCOVA model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-3.28, 1.19\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. LOCF was used for missing data.||-0.45|-2.40|
92384005|NCT02262754|184671159|SUPERIORITY_OR_OTHER||Mean Difference (PF-06372865-Naproxen)|0.79|||||TWO_SIDED|90.0|-0.22|1.8||||||Week 4: An ANCOVA model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-3.28, 1.19\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. LOCF was used for missing data.||1.80|-0.22|
92384006|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.37|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|90.0|-1.52|0.78||||||Total recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.78|-1.52|
92384007|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.95|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|90.0|-2.1|0.2||||||Total recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.20|-2.10|
92169440|NCT03546608|184227378|OTHER||Ratio of Geometric Least Square Mean (%)|87.92|||||TWO_SIDED|90.0|59.93|128.98||||||||128.98|59.93|
92415518|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.56||0.772|TWO_SIDED|95.0|-1.33|1.0|||ANCOVA|||Change at Week 8 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.00|-1.33|0.772
92415519|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.5||0.547|TWO_SIDED|95.0|-0.73|1.34|||ANCOVA|||Change at Week 1 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.34|-0.73|0.547
92415520|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.57||0.65|TWO_SIDED|95.0|-1.43|0.91|||ANCOVA|||Change at Week 2 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.91|-1.43|0.650
92415521|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.55||0.808|TWO_SIDED|95.0|-1.27|1.0|||ANCOVA|||Change at Week 4 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.00|-1.27|0.808
92415522|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.55||0.915|TWO_SIDED|95.0|-1.19|1.07|||ANCOVA|||Change at Week 6 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.07|-1.19|0.915
92415523|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.65||0.757|TWO_SIDED|95.0|-1.54|1.14|||ANCOVA|||Change at Week 8 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.14|-1.54|0.757
92415524|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.57||0.987|TWO_SIDED|95.0|-1.19|1.17|||ANCOVA|||Change at Week 1 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.17|-1.19|0.987
92415525|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.64||0.781|TWO_SIDED|95.0|-1.14|1.51|||ANCOVA|||Change at Week 2 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.51|-1.14|0.781
92415526|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.61||0.834|TWO_SIDED|95.0|-1.13|1.38|||ANCOVA|||Change at Week 4 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.38|-1.13|0.834
92233293|NCT01121406|184369001|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.33|1.47|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||1.47|0.33|
92278337|NCT01798485|184458550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.232||||0.2506|TWO_SIDED|95.0|0.865|1.754||Significance level of 0.05.|Log Rank|P-value was from stratified log-rank test (strata: screening ECOG and geographic region).||||1.754|0.865|0.2506
92415527|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.59||0.851|TWO_SIDED|95.0|-1.32|1.1|||ANCOVA|||Change at Week 6 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.10|-1.32|0.851
92415528|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.68||0.701|TWO_SIDED|95.0|-1.68|1.15|||ANCOVA|||Change at Week 8 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.15|-1.68|0.701
92415529|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.59||0.453|TWO_SIDED|95.0|-1.68|0.77|||ANCOVA|||Change at Week 1 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.77|-1.68|0.453
92415530|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.67||0.258|TWO_SIDED|95.0|-2.15|0.6|||ANCOVA|||Change at Week 2 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.60|-2.15|0.258
92415531|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.64||0.736|TWO_SIDED|95.0|-1.53|1.09|||ANCOVA|||Change at Week 4 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.09|-1.53|0.736
92233294|NCT01121406|184369002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.27|||||TWO_SIDED|95.0|0.09|0.77|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||0.77|0.09|
92278338|NCT01798485|184458551|SUPERIORITY_OR_OTHER|||||||0.448|TWO_SIDED|||||Significance level of 0.05.|Fisher Exact|||||||0.448
92278339|NCT01798485|184458552|SUPERIORITY_OR_OTHER|||||||0.339|TWO_SIDED|||||Significance level of 0.05.|Fisher Exact|||\>= 6 weeks||||0.339
92278340|NCT01798485|184458552|SUPERIORITY_OR_OTHER|||||||0.817|TWO_SIDED|||||Significance level of 0.05.|Fisher Exact|||\>= 12 weeks||||0.817
92384008|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.58|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|90.0|-0.56|1.71||||||Total recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||1.71|-0.56|
92384009|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-1.02|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|90.0|-2.06|0.02||||||Total Recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.02|-2.06|
92384010|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-1.21|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|90.0|-2.25|-0.17||||||Total Recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||-0.17|-2.25|
92384011|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.19|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|90.0|-0.82|1.19||||||Total Recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||1.19|-0.82|
92384012|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.77|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|90.0|-1.39|-0.15||||||Delayed recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||-0.15|-1.39|
92384013|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.17|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|90.0|-0.8|0.45||||||Delayed recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.45|-0.80|
92384014|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|-0.6|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|90.0|-1.21|0.02||||||Delayed recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.02|-1.21|
92384015|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.85|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-1.42|-0.28||||||Delayed recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||-0.28|-1.42|
92384016|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.11|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.67|0.46||||||Delayed recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.46|-0.67|
92384017|NCT02262754|184671160|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|-0.74|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-1.29|-0.2||||||Delayed recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||-0.20|-1.29|
92415532|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.64||0.491|TWO_SIDED|95.0|-1.76|0.87|||ANCOVA|||Change at Week 6 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.87|-1.76|0.491
92415533|NCT00545129|184720571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.62||0.695|TWO_SIDED|95.0|-1.53|1.04|||ANCOVA|||Change at Week 8 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.04|-1.53|0.695
92384018|NCT02262754|184671161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|90.0|0.61|1.58||||||A repeated measures logistic regression model included treatment and week as fixed effects and LBPI baseline as a covariate. Participant was included as a repeated effect.||1.58|0.61|
92169441|NCT03546608|184227379|OTHER||Ratio of Geometric Least Square Mean (%)|94.81|||||TWO_SIDED|90.0|64.09|140.26||||||||140.26|64.09|
92278341|NCT01798485|184458553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.344||||0.0111|TWO_SIDED|95.0|1.207|4.551||Significance level of 0.05.|Log Rank|P-value was from stratified log-rank test (strata: screening LDH, screening ECOG and geographic region).||||4.551|1.207|0.0111
92384019|NCT02262754|184671161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04|||||TWO_SIDED|90.0|1.33|3.14||||||A repeated measures logistic regression model included treatment and week as fixed effects and LBPI baseline as a covariate. Participant was included as a repeated effect.||3.14|1.33|
92384020|NCT02262754|184671161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48|||||TWO_SIDED|90.0|0.31|0.74||||||A repeated measures logistic regression model included treatment and week as fixed effects and LBPI baseline as a covariate. Participant was included as a repeated effect.||0.74|0.31|
92384021|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.01|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|90.0|-0.19|0.2||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.20|-0.19|
92384022|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.14|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|90.0|-0.34|0.05||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.05|-0.34|
92384023|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.15|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|90.0|-0.05|0.35||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.35|-0.05|
92384024|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.04|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.26|0.18||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.18|-0.26|
92384025|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.15|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.37|0.07||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.07|-0.37|
92384026|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.11|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.1|0.33||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.33|-0.10|
92384027|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.15|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|90.0|-0.09|0.38||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.38|-0.09|
92384028|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|0.02|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|90.0|-0.21|0.25||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.25|-0.21|
92384029|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.13|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|90.0|-0.1|0.36||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.36|-0.10|
92384030|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.12|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.13|0.38||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.38|-0.13|
92415534|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.6||0.897|TWO_SIDED|95.0|-1.34|1.19|||ANCOVA|||Change at Week 1 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.19|-1.34|0.897
92384031|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.21|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.46|0.05||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.05|-0.46|
92384032|NCT02262754|184671162|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.33|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.08|0.58||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.58|0.08|
92415535|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.56||0.643|TWO_SIDED|95.0|-0.9|1.43|||ANCOVA|||Change at Week 2 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.43|-0.90|0.643
92169442|NCT03546608|184227379|OTHER||Ratio of Geometric Least Square Mean (%)|87.2|||||TWO_SIDED|90.0|58.94|129.0||||||||129.00|58.94|
92169443|NCT03546608|184227380|OTHER||Ratio of Geometric Least Square Mean (%)|102.45|||||TWO_SIDED|90.0|80.9|129.73||||||||129.73|80.90|
92415536|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.51||0.464|TWO_SIDED|95.0|-1.45|0.68|||ANCOVA|||Change at Week 4 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.68|-1.45|0.464
92415537|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.56||0.593|TWO_SIDED|95.0|-1.46|0.86|||ANCOVA|||Change at Week 6 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.86|-1.46|0.593
92415538|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.61||0.423|TWO_SIDED|95.0|-1.77|0.77|||ANCOVA|||Change at Week 8 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.77|-1.77|0.423
92415539|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.65||0.805|TWO_SIDED|95.0|-1.21|1.54|||ANCOVA|||Change at Week 1 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.54|-1.21|0.805
92415540|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.68||0.882|TWO_SIDED|95.0|-1.3|1.51|||ANCOVA|||Change at Week 2 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.51|-1.30|0.882
92415541|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.63||0.446|TWO_SIDED|95.0|-1.79|0.81|||ANCOVA|||Change at Week 4 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.81|-1.79|0.446
92415542|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.68||0.604|TWO_SIDED|95.0|-1.77|1.05|||ANCOVA|||Change at Week 6 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.05|-1.77|0.604
92415543|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.76||0.393|TWO_SIDED|95.0|-2.24|0.91|||ANCOVA|||Change at Week 8 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.91|-2.24|0.393
92239661|NCT02853331|184383095|SUPERIORITY||Difference in percentages|11.0|||||TWO_SIDED|95.0|4.8|17.0|||||Difference in percentages based on Miettinen \& Nurminen method stratified by IMDC risk group (favorable vs. intermediate vs. poor) and geographic region (North America vs. Western Europe vs. Rest of World).|||17.0|4.8|
92415544|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.79||0.399|TWO_SIDED|95.0|-2.33|0.97|||ANCOVA|||Change at Week 1 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.97|-2.33|0.399
92415545|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.75||0.876|TWO_SIDED|95.0|-1.43|1.66|||ANCOVA|||Change at Week 2 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.66|-1.43|0.876
92415546|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.66||0.74|TWO_SIDED|95.0|-1.58|1.14|||ANCOVA|||Change at Week 4 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.14|-1.58|0.740
92415547|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.69||0.854|TWO_SIDED|95.0|-1.56|1.31|||ANCOVA|||Change at Week 6 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.31|-1.56|0.854
92169444|NCT03546608|184227380|OTHER||Ratio of Geometric Least Square Mean (%)|71.02|||||TWO_SIDED|90.0|56.08|89.93||||||||89.93|56.08|
92415548|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.78||0.436|TWO_SIDED|95.0|-2.24|1.0|||ANCOVA|||Change at Week 8 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.00|-2.24|0.436
92169445|NCT03546608|184227391|OTHER||Ratio of Geometric Least Square Mean (%)|82.62|||||TWO_SIDED|90.0|45.67|149.47|||||For MSC2571109|||149.47|45.67|
92169446|NCT03546608|184227391|OTHER||Ratio of Geometric Least Square Mean (%)|136.59|||||TWO_SIDED|90.0|75.5|247.12|||||For MSC2571109|||247.12|75.50|
92384033|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.17|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.42|0.08||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.08|-0.42|
92384034|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.37|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.62|-0.12||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||-0.12|-0.62|
92384035|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.2|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.05|0.45||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.45|-0.05|
92384036|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.08|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.38|0.21||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.21|-0.38|
92384037|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.29|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.58|0.01||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.01|-0.58|
92384038|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.2|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.09|0.49||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.49|-0.09|
92384039|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.07|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.36|0.21||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.21|-0.36|
92384040|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.38|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.67|-0.1||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||-0.10|-0.67|
92384041|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.31|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.03|0.59||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.59|0.03|
92415549|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.72||0.087|TWO_SIDED|95.0|-2.81|0.21|||ANCOVA|||Change at Week 1 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.21|-2.81|0.087
92415550|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.75||0.278|TWO_SIDED|95.0|-2.4|0.72|||ANCOVA|||Change at Week 2 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.72|-2.40|0.278
92169447|NCT03546608|184227391|OTHER||Ratio of Geometric Least Square Mean (%)|100.47|||||TWO_SIDED|90.0|54.53|185.1|||||For MSC2571107|||185.10|54.53|
92384042|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.11|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.42|0.21||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.21|-0.42|
92384043|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.43|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.75|-0.12||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||-0.12|-0.75|
92384044|NCT02262754|184671163|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.33|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|0.02|0.63||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.63|0.02|
92384045|NCT02262754|184671164|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85|||||TWO_SIDED|90.0|0.46|1.56||||||Odds Ratios were based on a logistic regression model and included treatment as a fixed effect.||1.56|0.46|
92415551|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.69||0.548|TWO_SIDED|95.0|-1.84|1.0|||ANCOVA|||Change at Week 4 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.00|-1.84|0.548
92384046|NCT02262754|184671164|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43|||||TWO_SIDED|90.0|0.23|0.81||||||Odds Ratios were based on a logistic regression model and included treatment as a fixed effect.||0.81|0.23|
92384047|NCT02262754|184671164|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.97|||||TWO_SIDED|90.0|1.06|3.65||||||Odds Ratios were based on a logistic regression model and included treatment as a fixed effect.||3.65|1.06|
92169448|NCT03546608|184227391|OTHER||Ratio of Geometric Least Square Mean (%)|94.48|||||TWO_SIDED|90.0|51.28|174.07|||||For MSC2571107|||174.07|51.28|
92169449|NCT03546608|184227392|OTHER||Ratio of Geometric Least Square Mean (%)|82.35|||||TWO_SIDED|90.0|45.56|148.84|||||For MSC2571109|||148.84|45.56|
92169450|NCT03546608|184227392|OTHER||Ratio of Geometric Least Square Mean (%)|137.51|||||TWO_SIDED|90.0|76.08|248.54|||||For MSC2571109|||248.54|76.08|
92415552|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.75||0.318|TWO_SIDED|95.0|-2.33|0.79|||ANCOVA|||Change at Week 6 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.79|-2.33|0.318
92415553|NCT00545129|184720572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.73||0.484|TWO_SIDED|95.0|-2.02|0.99|||ANCOVA|||Change at Week 8 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.99|-2.02|0.484
92415554|NCT00545129|184720573|SUPERIORITY_OR_OTHER_LEGACY|||||||0.399|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 1: P-value was calculated by Cochran-Mantel-Haenszel (CMH test) stratified by center.||||0.399
92169451|NCT03546608|184227392|OTHER||Ratio of Geometric Least Square Mean (%)|100.81|||||TWO_SIDED|90.0|55.16|184.23|||||For MSC2571107|||184.23|55.16|
92169452|NCT03546608|184227392|OTHER||Ratio of Geometric Least Square Mean (%)|96.18|||||TWO_SIDED|90.0|52.63|175.78|||||For MSC2571107|||175.78|52.63|
92384048|NCT00223704|184671167|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||This P-value is for the main comparison of receiving any transfusion.|Chi-squared|||||||0.72
92384049|NCT00223704|184671168|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.88
92384050|NCT00223704|184671169|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.43
92384051|NCT00223704|184671170|SUPERIORITY_OR_OTHER|||||||0.92||95.0||||The P-value reflects the difference in Interleukin-6 concentrations among the 3 treatment groups over the course of the study (baseline, post-bypass, postoperative day 1 and 2)|Mixed Models Analysis|||The time course for Interleukin-6 concentrations were analyzed using mixed-effects models with fixed effects of drug treatment (placebo, aminocaproic acid, HOE 140) and time since randomization. We included a random subject effect and a first-order autoregressive process to account for the correlation in the response variable in the mixed-effects model||||0.92
92384052|NCT00223704|184671171|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value reflects the difference in D-dimer concentrations among the 3 treatment groups over the course of the study (baseline, 30min, 60min, post-bypass, and postoperative day 1)|Mixed Models Analysis|||The time course for D-dimer concentrations were analyzed using mixed-effects models with fixed effects of drug treatment (placebo, aminocaproic acid, HOE 140) and time since randomization. We included a random subject effect and a first-order autoregressive process to account for the correlation in the response variable in the mixed-effects model||||<0.001
92415555|NCT00545129|184720573|SUPERIORITY_OR_OTHER_LEGACY|||||||0.779|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: P-value was calculated by CMH test stratified by center.||||0.779
92415556|NCT00545129|184720573|SUPERIORITY_OR_OTHER_LEGACY|||||||0.922|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: P-value was calculated by CMH test stratified by center.||||0.922
92278342|NCT01798485|184458554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.112||||0.5191|TWO_SIDED|95.0|0.797|1.551||Significance level of 0.05.|Log Rank|P-value was from stratified log-rank test (strata: screening ECOG and geographic region).||||1.551|0.797|0.5191
92415557|NCT00545129|184720573|SUPERIORITY_OR_OTHER_LEGACY|||||||0.811|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 6: P-value was calculated by CMH test stratified by center.||||0.811
92169453|NCT03546608|184227393|OTHER||Ratio of Geometric Least Square Mean (%)|92.3|||||TWO_SIDED|90.0|62.52|136.26|||||For MSC2571109|||136.26|62.52|
92169454|NCT03546608|184227393|OTHER||Ratio of Geometric Least Square Mean (%)|114.8|||||TWO_SIDED|90.0|77.76|169.48|||||For MSC2571109|||169.48|77.76|
92384053|NCT00826618|184671252|SUPERIORITY_OR_OTHER|||||||0.0015|||||||t-test, 2 sided|||Compare final visual acuity to baseline visual acuity||||0.0015
92384054|NCT02381015|184671308|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Chi-squared|||||||0.29
92384055|NCT02381015|184671309|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35|||||||Chi-squared|||||||0.35
92384056|NCT02381015|184671310|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Chi-squared|||||||0.29
92384057|NCT02381015|184671311|SUPERIORITY_OR_OTHER_LEGACY|||||||0.49|||||||Kruskal-Wallis|||||||0.49
92384058|NCT02381015|184671312|OTHER||Beta|93.5|STANDARD_ERROR_OF_MEAN|1.55||0.42|TWO_SIDED||||||ANOVA|||The statistical analysis shows the relation between risk given and risk recall at the immediate post results assessment for the total number of participants.||||0.42
92384059|NCT02381015|184671313|OTHER||Beta|94.7|STANDARD_ERROR_OF_MEAN|2.93||0.33|TWO_SIDED||||||ANOVA|||||||0.33
92415558|NCT00545129|184720573|SUPERIORITY_OR_OTHER_LEGACY|||||||0.237|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: P-value was calculated by CMH test stratified by center.||||0.237
92415559|NCT00545129|184720574|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.22||0.108|TWO_SIDED|95.0|-0.82|0.09|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.09|-0.82|0.108
92169455|NCT03546608|184227393|OTHER||Ratio of Geometric Least Square Mean (%)|106.51|||||TWO_SIDED|90.0|70.25|161.49|||||For MSC2571107|||161.49|70.25|
92169456|NCT03546608|184227393|OTHER||Ratio of Geometric Least Square Mean (%)|72.58|||||TWO_SIDED|90.0|47.87|110.04|||||For MSC2571107|||110.04|47.87|
92169457|NCT00130117|184227401|SUPERIORITY_OR_OTHER|||||||0.024|||||||ANOVA|||||||0.024
92169458|NCT00130117|184227401|SUPERIORITY|||||||0.049|||||||ANOVA|||||||0.049
92169459|NCT00130117|184227402|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.6||||0.02|TWO_SIDED|||||"p value reflects treatment of leptin for on-treatment, n=4"|ANOVA|||||||0.02
92169460|NCT01853748|184227420|SUPERIORITY|||||||0.0012|||||||Mantel Haenszel|||||||0.0012
92169461|NCT01853748|184227425|SUPERIORITY|||||||0.0001|||||||Regression, Linear|||||||0.0001
92169462|NCT01853748|184227428|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
92278343|NCT01798485|184458557|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.233||||0.1343|TWO_SIDED|95.0|0.937|1.621||Significance level of 0.05.|Log Rank|Stratified log-rank test (strata: screening LDH, screening ECOG and geographic region).||||1.621|0.937|0.1343
92415560|NCT00545129|184720574|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.21||0.202|TWO_SIDED|95.0|-0.7|0.16|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.16|-0.70|0.202
92415561|NCT00545129|184720574|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.2||0.571|TWO_SIDED|95.0|-0.54|0.3|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.30|-0.54|0.571
92415562|NCT00545129|184720574|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.24||0.808|TWO_SIDED|95.0|-0.55|0.43|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.43|-0.55|0.808
92415563|NCT00545129|184720574|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.26||0.913|TWO_SIDED|95.0|-0.57|0.51|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.51|-0.57|0.913
92415564|NCT00545129|184720575|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.22||0.108|TWO_SIDED|95.0|-0.82|0.09|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.09|-0.82|0.108
92415565|NCT00545129|184720575|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.21||0.339|TWO_SIDED|95.0|-0.65|0.23|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.23|-0.65|0.339
92415566|NCT00545129|184720575|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.23||0.408|TWO_SIDED|95.0|-0.67|0.28|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.28|-0.67|0.408
92278344|NCT01798485|184458558|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED|||||Significance level of 0.05.|Fisher Exact|||||||0.250
92384060|NCT02967510|184671340|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.304|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.304
92384061|NCT02967510|184671340|SUPERIORITY||Mean Difference (Final Values)|0.0|||=|0.109|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.109
92384062|NCT02967510|184671340|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.119|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.119
92384063|NCT02967510|184671341|SUPERIORITY||LS Mean Difference|-0.74|||<|0.001|TWO_SIDED|95.0|-1.031|-0.444|||ANCOVA|||||-0.444|-1.031|<0.001
92384064|NCT02967510|184671341|SUPERIORITY||LS Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-1.051|-0.458|||ANCOVA|||||-0.458|-1.051|<0.001
92415567|NCT00545129|184720575|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.27||0.686|TWO_SIDED|95.0|-0.67|0.45|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.45|-0.67|0.686
92415568|NCT00545129|184720575|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.3||0.493|TWO_SIDED|95.0|-0.81|0.4|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.40|-0.81|0.493
92415569|NCT00545129|184720576|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.58||||0.724|TWO_SIDED|95.0|0.03|12.27|||Fisher Exact|||Week 1: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||12.27|0.03|0.724
92384065|NCT02967510|184671341|SUPERIORITY||LS Mean Difference|-0.66|||<|0.001|TWO_SIDED|95.0|-0.951|-0.369|||ANCOVA|||||-0.369|-0.951|<0.001
92384066|NCT02967510|184671342|SUPERIORITY||LS Mean Difference|0.21|||<|0.001|TWO_SIDED|95.0|0.147|0.278|||ANCOVA|||||0.278|0.147|<0.001
92384067|NCT02967510|184671342|SUPERIORITY||LS Mean Difference|0.15|||<|0.001|TWO_SIDED|95.0|0.078|0.213|||ANCOVA|||||0.213|0.078|<0.001
92384068|NCT02967510|184671342|SUPERIORITY||LS Mean Difference|0.16|||<|0.001|TWO_SIDED|95.0|0.097|0.226|||ANCOVA|||||0.226|0.097|<0.001
92384069|NCT02967510|184671343|SUPERIORITY||LS Mean Difference|-0.5|||<|0.001|TWO_SIDED|95.0|-0.603|-0.4|||ANCOVA|||||-0.4|-0.603|<0.001
92415570|NCT00545129|184720576|SUPERIORITY_OR_OTHER_LEGACY|||||||0.947|TWO_SIDED||||||Fisher Exact|||Week 2: P-value was calculated using Fisher Extract method.||||0.947
92415571|NCT00545129|184720576|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5||||0.634|TWO_SIDED|95.0|0.03|8.71|||Fisher Exact|||Week 4: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||8.71|0.03|0.634
92278345|NCT00770991|184458580|SUPERIORITY_OR_OTHER|||||||0.065|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||All patients received BRB suppositories and were pooled for the analysis comparing baseline and end of study polyp counts.||||0.065
92278346|NCT00770991|184458581|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|95.0|||||Chi-squared|||||||0.016
92415572|NCT00545129|184720576|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.03||||0.975|TWO_SIDED|95.0|0.14|7.74|||Fisher Exact|||Week 6: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||7.74|0.14|0.975
92415573|NCT00545129|184720576|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.49||||0.759|TWO_SIDED|95.0|0.12|18.86|||Fisher Exact|||Week 8: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||18.86|0.12|0.759
92169463|NCT03363854|184227452|SUPERIORITY||Risk Difference (RD)|12.4||||0.015|TWO_SIDED|95.0|2.9|21.9||The primary endpoints were tested sequentially at a 5% significance level.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants who achieved IGA 0 or 1 at Week 16 were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their IGA value at Week 16. The null hypothesis of no difference in response rates between tralokinumab Q2W+TCS and placebo+TCS was tested against the 2-sided alternative that there was a difference.||21.9|2.9|0.015
92239662|NCT00844428|184383109|SUPERIORITY_OR_OTHER||Percent of TMA event-free responders|80.0|||||TWO_SIDED|95.0|56.0|94.0||||||"With a total of 20 patients enrolled between both protocols and, assuming that the true expected probability of TMA Event-Free for eculizumab-treated patients is 40%, then the study had 93.5% power to detect a statistically significant difference. Up to approximately 30 patients were to be enrolled.~All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS."||94|56|
92278347|NCT00770991|184458582|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.043
92415574|NCT00545129|184720577|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.58||||0.724|TWO_SIDED|95.0|0.03|12.27|||Fisher Exact|||Week 1: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||12.27|0.03|0.724
92171708|NCT05485922|184232600|SUPERIORITY|The pass criteria were based on the results analysing the two primary endpoints in a hierarchical fashion: rejecting the null hypothesis on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Risk Ratio (RR)|0.16||||0.05|TWO_SIDED|95.0|0.05|0.44|||Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||0.44|0.05|0.05
92171709|NCT05485922|184232601|SUPERIORITY||Mean Difference (Final Values)|-95.69||||0.05|TWO_SIDED|95.0|-137.69|-53.7|||Mixed Models Analysis|||The intra-catheter pressure at flow stop was analysed in a general linear mixed model with subject included as a random component.||-53.70|-137.69|0.05
92171710|NCT05485922|184232602|OTHER||Mean Difference (Final Values)|1.21||||0.05|TWO_SIDED|95.0|-11.1|13.51|||Mixed Models Analysis|||||13.51|-11.10|0.05
92171711|NCT05485922|184232603|SUPERIORITY||Odds Ratio (OR)|0.26||||0.05|TWO_SIDED|95.0|0.07|0.96|||Mixed Models Analysis|||Analyzed using a generalized linear mixed model, modelling the probability of a positive outcome. Evidence of effect in favour of the MHZC was concluded if the upper 95% confidence limit (CL) of the odds ratio, O.R. was less than 1.||0.96|0.07|0.05
92171712|NCT04850807|184232636|SUPERIORITY||average marginal effect|-0.4|STANDARD_ERROR_OF_MEAN|3.3|<|0.05|TWO_SIDED|95.0|-6.9|6.0|||Differences-in-Differences regression||||"Fixed effect covariates: age, sex, race, activities of daily living score, cognitive function score, psychotic disorder, bipolar disease, depression, anxiety, dementia, alzheimer's diagnosis, antidepressant use, antianxietal use, antipsychotic use, history of heart failure, baseline ARBS (exclusive to CMAI model), baseline CMAI (exclusive to ARBS model), indicator of baseline/follow-up score, treatment group, interaction of treatment group and baseline/follow-up score.~Random effects: random intercept for nursing home, random intercept for the interaction of baseline/follow-up measure and nursing home, and random intercept for individual.~Imputed Outcomes: 37 Control Follow-Up (Both CMAI and ARBS), 37 Treatment Follow-Up (ABRS), 35 Treatment Follow-Up (CMAI)"|6.0|-6.9|<0.05
92384070|NCT02967510|184671343|SUPERIORITY||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.572|-0.365|||ANCOVA|||||-0.365|-0.572|<0.001
92384071|NCT02967510|184671343|SUPERIORITY||LS Mean Difference|-0.43|||<|0.001|TWO_SIDED|95.0|-0.531|-0.331|||ANCOVA|||||-0.331|-0.531|<0.001
92384072|NCT02967510|184671344|SUPERIORITY||Mean Difference (Final Values)|0.0|||=|0.47|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.47
92384073|NCT02967510|184671344|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.448|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|0|-1|=0.448
92384074|NCT02967510|184671344|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.451|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.451
92415575|NCT00545129|184720577|SUPERIORITY_OR_OTHER_LEGACY|||||||0.95|TWO_SIDED||||||Fisher Exact|||Week 2: P-value was calculated using Fisher Extract test.||||0.950
92415576|NCT00545129|184720577|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5||||0.634|TWO_SIDED|95.0|0.03|8.71|||Fisher Exact|||Week 4: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||8.71|0.03|0.634
92415577|NCT00545129|184720577|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.03||||0.975|TWO_SIDED|95.0|0.14|7.74|||Fisher Exact|||Week 6: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||7.74|0.14|0.975
92415578|NCT00545129|184720577|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.02||||0.578|TWO_SIDED|95.0|0.17|23.89|||Fisher Exact|||Week 8: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||23.89|0.17|0.578
92415579|NCT01895361|184720606|OTHER||Hodges-Lehmann median absolute diff.|-1.01|||=|0.01|TWO_SIDED|95.0|-2.0|0.0|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crisis history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata.||||0.00|-2.00|= 0.010
92415580|NCT01895361|184720606|OTHER||Hodges-Lehmann median absolute diff.|-0.69|||=|0.18|TWO_SIDED|95.0|-1.84|0.02|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata.||||0.02|-1.84|= 0.180
92415581|NCT01895361|184720607|OTHER||Change vs placebo (%)|-45.3|||||ONE_SIDED|||||||||||||
92415582|NCT01895361|184720607|OTHER||Change vs placebo (%)|-32.6|||||ONE_SIDED|||||||||||||
92415583|NCT01895361|184720608|OTHER||Hodges-Lehmann median absolute diff.|0.0|||=|0.45|TWO_SIDED|95.0|-4.36|0.0|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata.||||0.00|-4.36|= 0.450
92415584|NCT01895361|184720608|OTHER||Hodges-Lehmann median absolute diff.|0.0|||=|0.837|TWO_SIDED|95.0|-3.9|2.61|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata.||||2.61|-3.90|= 0.837
92415585|NCT01895361|184720609|OTHER||Hazard Ratio (HR)|0.495|||=|0.001|TWO_SIDED|95.0|0.331|0.741|||Log Rank||Calculated based on Cox regression analysis with HU therapy (yes, no), categorized crises history (2 to 4, 5 to 10), and treatment as covariates|||0.741|0.331|= 0.001
92384075|NCT02967510|184671345|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.329|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.329
92384076|NCT02967510|184671345|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.348|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.348
92384077|NCT02967510|184671345|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.266|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.266
92384078|NCT02967510|184671346|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.122|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.122
92415586|NCT01895361|184720609|OTHER||Hazard Ratio (HR)|0.752|||=|0.136|TWO_SIDED|95.0|0.515|1.097|||Log Rank||Calculated based on Cox regression analysis with HU therapy (yes, no), categorized crises history (2 to 4, 5 to 10), and treatment as covariates|||1.097|0.515|= 0.136
92415587|NCT01895361|184720610|OTHER||Hazard Ratio (HR)|0.534|||=|0.022|TWO_SIDED|95.0|0.329|0.866|||Log Rank||Calculated based on Cox regression analysis with HU therapy (yes, no), categorized crises history (2 to 4, 5 to 10), and treatment as covariates|||0.866|0.329|= 0.022
92415588|NCT01895361|184720610|OTHER||Hazard Ratio (HR)|0.693|||=|0.1|TWO_SIDED|95.0|0.44|1.092|||Log Rank||Calculated based on Cox regression analysis with HU therapy (yes, no), categorized crises history (2 to 4, 5 to 10), and treatment as covariates|||1.092|0.440|= 0.100
92415589|NCT01895361|184720611|OTHER||Hodges-Lehmann median absolute diff.|-1.0|||=|0.015|TWO_SIDED|95.0|-1.98|0.0|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata||||0.00|-1.98|= 0.015
92415590|NCT01895361|184720611|OTHER||Hodges-Lehmann median absolute diff.|-0.87|||=|0.12|TWO_SIDED|95.0|-1.77|0.0|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata||||0.00|-1.77|= 0.120
92415591|NCT01895361|184720612|OTHER||Hodges-Lehmann median absolute diff.|0.0|||=|0.78|TWO_SIDED|95.0|0.0|0.0|||Stratified Wilcoxon Rank Sum test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata||||0.00|0.00|= 0.780
92415592|NCT01895361|184720612|OTHER||Hodges-Lehmann median absolute diff.|0.0|||=|0.868|TWO_SIDED|95.0|0.0|0.0|||Stratified Wilcoxon Rank Sum test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata.||||0.00|0.00|= 0.868
92415593|NCT00282464|184720624|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.0056
92415594|NCT00282464|184720624|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0866||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.0866
92415595|NCT00282464|184720624|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0568||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.0568
92415596|NCT00282464|184720624|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.0130
92233295|NCT00892437|184369024|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: the response rate in the ATV+COBI+FTC/TDF group was at least 12% worse than in the ATV+RTV+FTC/TDF group; alternative hypothesis: the response rate in the ATV+COBI+FTC/TDF group was less than 12% worse than that in the ATV+RTV+FTC/TDF group. ATV+COBI+FTC/TDF was noninferior if the lower bound of the 2-sided 95% confidence interval (CI) of the baseline HIV-1 RNA stratum-weighted difference (COBI group - RTV group) in the response rate at Week 24 was greater than -12%.|Difference in percentages|-7.4|||||TWO_SIDED|95.0|-24.6|9.9|||||Difference in percentages of success and its 95% confidence interval (CI) were calculated based on baseline HIV-1 RNA stratum-adjusted Mantel-Haenszel (MH) proportion.|A total planned sample size of 75 subjects had 26% power to evaluate noninferiority with respect to the response rate of HIV-1 RNA \< 50 copies/mL at Week 24 if a response rate of 84% for both arms and a noninferiority margin of 0.12 were assumed.||9.9|-24.6|
92415597|NCT00282464|184720624|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0188||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.0188
92415598|NCT00282464|184720624|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6394||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.6394
92415599|NCT00282464|184720624|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7707||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.7707
92415600|NCT00282464|184720625|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2185||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.2185
92415601|NCT00282464|184720625|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4124||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.4124
92415602|NCT00282464|184720625|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6098||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.6098
92278348|NCT00952484|184458595|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||P-value based on Wilcoxon rank sum test comparing the median RGI-C score for the asfotase alfa combined reporting group to the historical control group.|Wilcoxon (Mann-Whitney)|||||||0.0007
92415603|NCT00282464|184720626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.0005
92415604|NCT00282464|184720626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0099||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.0099
92415605|NCT00282464|184720626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0423||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.0423
92415606|NCT00282464|184720626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0618||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.0618
92415607|NCT00282464|184720626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0451||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.0451
92415608|NCT00282464|184720626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2633||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.2633
92415609|NCT00282464|184720626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2206||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.2206
92415610|NCT00282464|184720627|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9863||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.9863
92415611|NCT00282464|184720627|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1017||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.1017
92415612|NCT00282464|184720627|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4033||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.4033
92415613|NCT00282464|184720628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||||||No multiple comparison adjustment is applicable. Statistical significance level was 0.05|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.002
92415614|NCT00282464|184720628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.019
92415615|NCT00282464|184720628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.038
92415616|NCT00282464|184720628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.069
92415617|NCT00282464|184720628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.053|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.053
92415618|NCT00282464|184720628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.154|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6 An estimated sample size of 180 was needed per treatment arm in order to achieve 85% power to detect a treatment difference of 3.5 in the mean change from baseline to Week 6 in MADRS total score with a two-sided t-test at the 0.05 significance level. The common standard deviation was estimated as 11.0. The null hypotheses is equality of mean change from baseline to Week 6 in MADRS total score between ziprasidone and placebo groups.||||0.154
92239663|NCT00844428|184383110|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||99|68|
92415619|NCT00282464|184720628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.007
92415620|NCT00282464|184720629|SUPERIORITY_OR_OTHER_LEGACY|||||||0.112||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.112
92239664|NCT00844428|184383111|SUPERIORITY_OR_OTHER||Percent of complete TMA response|25.0|||||TWO_SIDED|95.0|9.0|49.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||49|9|
92239665|NCT00844428|184383112|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.29|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||||<0.0001
92239666|NCT00844428|184383113|SUPERIORITY_OR_OTHER||LS mean change from baseline|6.75||||0.5423|TWO_SIDED|95.0|-15.73|29.23|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||29.23|-15.73|0.5423
92415621|NCT00282464|184720629|SUPERIORITY_OR_OTHER_LEGACY|||||||0.352||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.352
92415622|NCT00282464|184720629|SUPERIORITY_OR_OTHER_LEGACY|||||||0.873||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.873
92415623|NCT00282464|184720630|SUPERIORITY_OR_OTHER_LEGACY|||||||0.305||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.305
92415624|NCT00282464|184720630|SUPERIORITY_OR_OTHER_LEGACY|||||||0.51||||||For all efficacy analyses, no multiple comparisons adjustments were made.|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.510
92415625|NCT00282464|184720630|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.710
92384079|NCT02967510|184671346|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.188|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.188
92384080|NCT02967510|184671346|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.222|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.222
92384081|NCT02967510|184671347|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.393|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.393
92384082|NCT02967510|184671347|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.221|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.221
92384083|NCT02967510|184671347|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.432|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.432
92384084|NCT02967510|184671348|SUPERIORITY||LS Mean Difference|0.24|||=|0.65|TWO_SIDED|95.0|-1.0|1.487|||ANCOVA|||||1.487|-1|=0.65
92384085|NCT02967510|184671348|SUPERIORITY||LS Mean Difference|-0.24|||=|0.361|TWO_SIDED|95.0|-1.568|1.09|||ANCOVA|||||1.09|-1.568|=0.361
92384086|NCT02967510|184671348|SUPERIORITY||LS Mean Difference|0.03|||=|0.522|TWO_SIDED|95.0|-1.188|1.257|||ANCOVA|||||1.257|-1.188|=0.522
92384087|NCT02967510|184671349|SUPERIORITY||LS Mean Difference|-0.56|||=|0.043|TWO_SIDED|95.0|-1.204|0.079|||ANCOVA|||||0.079|-1.204|=0.043
92278349|NCT00952484|184458596|SUPERIORITY_OR_OTHER|||||||0.0097|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a t-test.|t-test, 2 sided|||||||0.0097
92278350|NCT00952484|184458597|SUPERIORITY_OR_OTHER|||||||0.0789|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a t-test.|t-test, 2 sided|||||||0.0789
92384088|NCT02967510|184671349|SUPERIORITY||LS Mean Difference|-0.51|||=|0.061|TWO_SIDED|95.0|-1.158|0.137|||ANCOVA|||||0.137|-1.158|=0.061
92384089|NCT02967510|184671349|SUPERIORITY||LS Mean Difference|-0.48|||=|0.071|TWO_SIDED|95.0|-1.111|0.16|||ANCOVA|||||0.16|-1.111|=0.071
92384090|NCT02967510|184671350|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.012|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.012
92384091|NCT02967510|184671350|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.007|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.007
92384092|NCT02967510|184671350|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
92384093|NCT02967510|184671351|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.438|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.438
92384094|NCT02967510|184671351|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.388|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.388
92384095|NCT02967510|184671351|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.259|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.259
92415626|NCT00282464|184720631|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.026
92415627|NCT00282464|184720631|SUPERIORITY_OR_OTHER_LEGACY|||||||0.223||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.223
92415628|NCT00282464|184720631|SUPERIORITY_OR_OTHER_LEGACY|||||||0.848||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.848
92415629|NCT00282464|184720632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.381||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.381
92415630|NCT00282464|184720632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.676||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.676
92233296|NCT00892437|184369025|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was at least 12% worse than the response rate in ATV+RTV+FTC/TDF group; the alternative hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was less than 12% worse than that in the ATV+RTV+FTC/TDF group.|Difference in percentages|-8.3|||||TWO_SIDED|95.0|-25.9|9.4|||||Difference in percentages of success and its 95% CI were calculated based on baseline HIV-1 RNA stratum-adjusted MH proportion.|||9.4|-25.9|
92233297|NCT00892437|184369026|SUPERIORITY_OR_OTHER||Difference in least squares mean (LSM)|-0.02||||0.87|TWO_SIDED|95.0|-0.25|0.22||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in least squares mean (LSM) and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||0.22|-0.25|0.87
92384096|NCT02967510|184671352|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.022|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.022
92384097|NCT02967510|184671352|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.02|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.02
92415631|NCT00282464|184720632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.295
92415632|NCT00282464|184720633|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.068
92415633|NCT00282464|184720633|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.043
92415634|NCT00282464|184720633|SUPERIORITY_OR_OTHER_LEGACY|||||||0.404||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.404
92233298|NCT00892437|184369027|SUPERIORITY_OR_OTHER||Difference in LSM|-0.03||||0.82|TWO_SIDED|95.0|-0.3|0.23||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||0.23|-0.30|0.82
92278351|NCT00952484|184458598|SUPERIORITY_OR_OTHER|||||||0.7417|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a t-test.|t-test, 2 sided|||||||0.7417
92384098|NCT02967510|184671352|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.003|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.003
92415635|NCT00282464|184720634|SUPERIORITY_OR_OTHER_LEGACY|||||||0.899||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.899
92415636|NCT00282464|184720634|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.739
92415637|NCT00282464|184720634|SUPERIORITY_OR_OTHER_LEGACY|||||||0.797||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.797
92415638|NCT00282464|184720635|SUPERIORITY_OR_OTHER_LEGACY|||||||0.434||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.434
92415639|NCT00282464|184720635|SUPERIORITY_OR_OTHER_LEGACY|||||||0.777||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.777
92169464|NCT03363854|184227453|SUPERIORITY||Risk Difference (RD)|20.2|||<|0.001|TWO_SIDED|95.0|9.8|30.6||The primary endpoints were tested sequentially at a 5% significance level.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants who achieved at least 75% reduction in EASI at Week 16 were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their EASI value at Week 16. The null hypothesis of no difference in response rates between tralokinumab Q2W+TCS and placebo+TCS was tested against the 2-sided alternative that there was a difference.||30.6|9.8|<0.001
92278352|NCT00952484|184458599|SUPERIORITY_OR_OTHER|||||||0.757|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a Wilcoxon Signed-Rank test.|Wilcoxon Signed-Rank|||||||0.7570
92384099|NCT02967510|184671353|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.002|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.002
92384100|NCT02967510|184671353|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.331|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.331
92384101|NCT02967510|184671353|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.043|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.043
92415640|NCT00282464|184720635|SUPERIORITY_OR_OTHER_LEGACY|||||||0.82||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.820
92415641|NCT00282464|184720636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.468||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.468
92415642|NCT00282464|184720636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.110
92415643|NCT00282464|184720636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.738||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.738
92415644|NCT00282464|184720636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.617||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.617
92415645|NCT00282464|184720636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.642||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.642
92415646|NCT00282464|184720636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.644||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.644
92415647|NCT00282464|184720636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.789||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.789
92415648|NCT00282464|184720637|SUPERIORITY_OR_OTHER_LEGACY|||||||0.042||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.042
92233299|NCT00892437|184369028|SUPERIORITY_OR_OTHER||Difference in LSM|10.0||||0.78|TWO_SIDED|95.0|-63.0|84.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||84|-63|0.78
92415649|NCT00282464|184720637|SUPERIORITY_OR_OTHER_LEGACY|||||||0.088||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.088
92415650|NCT00282464|184720637|SUPERIORITY_OR_OTHER_LEGACY|||||||0.651||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.651
92415651|NCT00282464|184720637|SUPERIORITY_OR_OTHER_LEGACY|||||||0.665||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.665
92415652|NCT00282464|184720637|SUPERIORITY_OR_OTHER_LEGACY|||||||0.349||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.349
92415653|NCT00282464|184720637|SUPERIORITY_OR_OTHER_LEGACY|||||||0.685||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.685
92415654|NCT00282464|184720637|SUPERIORITY_OR_OTHER_LEGACY|||||||0.257||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.257
92169465|NCT03363854|184227454|SUPERIORITY||Risk Difference (RD)|11.3||||0.037|TWO_SIDED|95.0|0.9|21.6||This secondary endpoint was tested after the sequential testing of the primary endpoints, if these showed statistical significance.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their Worst daily Pruritus NRS value at Week 16.||21.6|0.9|0.037
92415655|NCT00282464|184720638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0099||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 1||||0.0099
92384102|NCT02967510|184671354|SUPERIORITY||Median Difference (Final Values)|-1.0|||=|0.022|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.022
92415656|NCT00282464|184720638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0654||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 2||||0.0654
92415657|NCT00282464|184720638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1807||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 3||||0.1807
92233300|NCT00892437|184369029|SUPERIORITY_OR_OTHER||Difference in LSM|47.0||||0.29|TWO_SIDED|95.0|-41.0|134.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||134|-41|0.29
92233301|NCT01882725|184369057|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
92233302|NCT01882725|184369058|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92384103|NCT02967510|184671354|SUPERIORITY||Median Difference (Final Values)|-1.0|||=|0.032|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.032
92415658|NCT00282464|184720638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0957||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 4||||0.0957
92415659|NCT00282464|184720638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0752||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 5||||0.0752
92415660|NCT00282464|184720638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3964||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 6||||0.3964
92415661|NCT00282464|184720638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0287||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Overall||||0.0287
92415662|NCT00282464|184720639|SUPERIORITY_OR_OTHER_LEGACY|||||||0.965||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Change from baseline to endpoint||||0.965
92384104|NCT02967510|184671354|SUPERIORITY||Median Difference (Final Values)|-1.0|||=|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.001
92415663|NCT00282464|184720640|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Change from baseline to endpoint||||0.860
92415664|NCT00282464|184720641|SUPERIORITY_OR_OTHER_LEGACY|||||||0.428||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Baseline to endpoint||||0.428
92415665|NCT00282464|184720642|SUPERIORITY_OR_OTHER_LEGACY|||||||0.708||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANOVA|ANOVA model included effects of treatment, rapid cycling, center and prior hospitalization status||Change from baseline to endpoint||||0.708
92415666|NCT00282464|184720643|SUPERIORITY_OR_OTHER_LEGACY|||||||0.898||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.898
92415667|NCT00282464|184720644|SUPERIORITY_OR_OTHER_LEGACY|||||||0.559||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANOVA|ANOVA model included effects of treatment, rapid cycling, center and prior hospitalization status.||Endpoint||||0.559
92415668|NCT00282464|184720645|SUPERIORITY_OR_OTHER_LEGACY|||||||0.458||||||For all secondary efficacy analyses, no multiple adjustments were made|ANOVA|ANVOVA model included effects of treatment, rapid cycling, center and prior hospitalization status.||Endpoint||||0.458
92233303|NCT00500071|184369059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 1||||< 0.0001
92384105|NCT02967510|184671355|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.176|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.176
92415669|NCT01856764|184720666|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.496||0.276|TWO_SIDED|95.0|-1.5542|0.4574||Mixed Model Repeated Measures (MMRM) Model: SCORAD change from baseline = treatment + visit + treatment by visit interaction + baseline SCORAD score|Mixed Models Analysis|||||0.4574|-1.5542|0.276
92233304|NCT00500071|184369059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 2||||< 0.0001
92233305|NCT00500071|184369059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 3||||< 0.0001
92233306|NCT00500071|184369059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 4||||< 0.0001
92233307|NCT00500071|184369059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 5||||< 0.0001
92233308|NCT00500071|184369059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 6||||< 0.0001
92233309|NCT00500071|184369059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 7||||< 0.0001
92233310|NCT00500071|184369060|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||||||< 0.0001
92233311|NCT00500071|184369063|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||||||< 0.0001
92233312|NCT00500071|184369064|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Global Executive Composite||||< 0.0001
92384106|NCT02967510|184671355|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.358|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.358
92384107|NCT02967510|184671355|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.21|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.21
92384108|NCT02967510|184671356|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.106|TWO_SIDED|95.0|0.0|1.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||1|0|=0.106
92415670|NCT01856764|184720667|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.91|STANDARD_ERROR_OF_MEAN|3.454||0.095|TWO_SIDED|95.0|-12.9134|1.0835||MMRM model: TEWL change from baseline = treatment + visit + treatment by visit interaction + baseline TEWL score|Mixed Models Analysis|||||1.0835|-12.9134|0.095
92233313|NCT00500071|184369064|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Behavioral Recognition Index||||< 0.0001
92415671|NCT01856764|184720668|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.56|STANDARD_ERROR_OF_MEAN|0.596||0.013|TWO_SIDED|95.0|-2.7656|-0.3492||MMRM model: Assessment of Pruritus change from baseline = treatment + visit + treatment by visit interaction + baseline Assessment of Pruritus score|Mixed Models Analysis|||||-0.3492|-2.7656|0.013
92415672|NCT02239120|184720669|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1028|TWO_SIDED|95.0|0.69|1.03|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.03|0.69|0.1028
92415673|NCT02239120|184720670|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.1076|TWO_SIDED|95.0|0.94|1.97|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.97|0.94|0.1076
92233314|NCT00500071|184369064|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Metacognition Index||||< 0.0001
92384109|NCT02967510|184671356|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.229|TWO_SIDED|95.0|0.0|1.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||1|0|=0.229
92384110|NCT02967510|184671356|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.345|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.345
92384111|NCT02967510|184671357|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.026|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.026
92384112|NCT02967510|184671357|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.424|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.424
92384113|NCT02967510|184671357|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.414|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.414
92415674|NCT02239120|184720671|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0892|TWO_SIDED|95.0|0.68|1.03|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.03|0.68|0.0892
92415675|NCT02239120|184720672|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1911|TWO_SIDED|95.0|0.73|1.06|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.06|0.73|0.1911
92415676|NCT02239120|184720673|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0354|TWO_SIDED|95.0|0.36|0.96|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||0.96|0.36|0.0354
92415677|NCT02239120|184720674|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.8074|TWO_SIDED|95.0|0.66|1.38|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.38|0.66|0.8074
92415678|NCT02239120|184720675|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.9064|TWO_SIDED|95.0|0.58|1.83|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.83|0.58|0.9064
92233315|NCT05490771|184369086|SUPERIORITY|||||||0.0341|||||||one-sided exact binomial test|||The ORR was compared against a null benchmark value of 5%. If the observed ORR were ≥5 of 31 (16%), it would then be concluded that the agent is promising and worthy of further investigation. When the number of analyzable cases (who were eligible and treated, and with outside assay results confirmed by the central MATCH assay) was \<31, the one-sided exact binomial test would be used for significance test with one-side type I error rate of 5%.||||0.0341
92233316|NCT04898166|184369117|SUPERIORITY|||||||0|||||||Chi-squared|Chi-square value 18.90 and its asymptotic significance .000||||||0.000
92233317|NCT04898166|184369118|SUPERIORITY|||||||0.081|||||||Chi-squared|Chi-square value 7.544 and its asymptotic significance .273||||||0.081
92233318|NCT02115308|184369221|SUPERIORITY|||||||0.001|||||||paired, t-test|non-adjusted||REST-TO-REGADENOSON STRESS||||0.001
92384114|NCT02967510|184671358|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.36|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.36
92384115|NCT02967510|184671358|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.12|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.12
92415679|NCT02239120|184720677|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.4352|TWO_SIDED|95.0|0.49|1.36|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.36|0.49|0.4352
92415680|NCT02239120|184720678|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.0003|TWO_SIDED|95.0|1.12|1.47|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.47|1.12|0.0003
92415681|NCT00420641|184720685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.485|TWO_SIDED|90.0|-2.6|1.05|||Mixed Model Repeated Measures (MMRM)||The point estimate was calculated as least square (LS) mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in MADRS total score at Week 10.||1.05|-2.60|0.485
92415682|NCT00420641|184720685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.99||||0|TWO_SIDED|90.0|-5.75|-2.22|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in MADRS total score at Week 10.||-2.22|-5.75|0.000
92415683|NCT00420641|184720686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.252|TWO_SIDED|90.0|-1.28|0.23|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in Bech score at Week 10.||0.23|-1.28|0.252
92233319|NCT02115308|184369221|SUPERIORITY|||||||0.017||||||non-adjusted|paired, t-test|||REST-TO-REGADENOSON STRESS||||0.017
92384116|NCT02967510|184671358|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.266|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.266
92384117|NCT02967510|184671359|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.47|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.47
92384118|NCT02967510|184671359|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.137|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.137
92384119|NCT02967510|184671359|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.133|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.133
92384120|NCT02967510|184671360|SUPERIORITY||LS Mean Difference|0.74|||=|0.85|TWO_SIDED|95.0|-0.669|2.153|||ANCOVA|||||2.153|-0.669|=0.85
92384121|NCT02967510|184671360|SUPERIORITY||LS Mean Difference|0.87|||=|0.877|TWO_SIDED|95.0|-0.611|2.361|||ANCOVA|||||2.361|-0.611|=0.877
92384122|NCT02967510|184671360|SUPERIORITY||LS Mean Difference|-0.64|||=|0.178|TWO_SIDED|95.0|-2.009|0.728|||ANCOVA|||||0.728|-2.009|=0.178
92384123|NCT02967510|184671361|SUPERIORITY||LS Mean Difference|-0.16|||=|0.323|TWO_SIDED|95.0|-0.854|0.531|||ANCOVA|||||0.531|-0.854|=0.323
92384124|NCT02967510|184671361|SUPERIORITY||LS Mean Difference|-0.22|||=|0.272|TWO_SIDED|95.0|-0.917|0.484|||ANCOVA|||||0.484|-0.917|=0.272
92384125|NCT02967510|184671361|SUPERIORITY||LS Mean Difference|-0.6|||=|0.043|TWO_SIDED|95.0|-1.29|0.084|||ANCOVA|||||0.084|-1.29|=0.043
92384126|NCT02967510|184671362|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.009|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.009
92384127|NCT02967510|184671362|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.025|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.025
92384128|NCT02967510|184671362|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
92384129|NCT02967510|184671363|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.04|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.04
92384130|NCT02967510|184671363|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.259|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.259
92384131|NCT02967510|184671363|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.104|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.104
92384132|NCT02967510|184671364|SUPERIORITY||Median Difference (Final Values)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
92384133|NCT02967510|184671364|SUPERIORITY||Median Difference (Final Values)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
92384134|NCT02967510|184671364|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
92415684|NCT00420641|184720686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77||||0|TWO_SIDED|90.0|-2.49|-1.05|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in MADRS total score at Week 10.||-1.05|-2.49|0.000
92415685|NCT00420641|184720687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.66||||0.279|TWO_SIDED|90.0|-4.19|0.87|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in IDS-CR total score at Week 10.||0.87|-4.19|0.279
92415686|NCT00420641|184720687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.12||||0.001|TWO_SIDED|90.0|-7.55|-2.68|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in IDS-CR total score at Week 10.||-2.68|-7.55|0.001
92415687|NCT00420641|184720688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||0.287|TWO_SIDED|90.0|-5.23|1.12|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in IDS-SR total score at Week 10.||1.12|-5.23|0.287
92415688|NCT00420641|184720688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.23||||0.001|TWO_SIDED|90.0|-9.21|-3.25|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in IDS-SR total score at Week 10.||-3.25|-9.21|0.001
92415689|NCT00420641|184720689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.352|TWO_SIDED|90.0|-1.47|0.41|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in QIDS-CR16 total score at Week 10.||0.41|-1.47|0.352
92415690|NCT00420641|184720689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71||||0.002|TWO_SIDED|90.0|-2.62|-0.81|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in QIDS-CR16 total score at Week 10.||-0.81|-2.62|0.002
92415691|NCT00420641|184720690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.168|TWO_SIDED|90.0|-2.27|0.2|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in QIDS-SR16 total score at Week 10.||0.20|-2.27|0.168
92415692|NCT00420641|184720690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.12||||0.002|TWO_SIDED|90.0|-3.27|-0.97|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in QIDS-SR16 total score at Week 10.||-0.97|-3.27|0.002
92415693|NCT00420641|184720691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.257|TWO_SIDED|90.0|-0.46|0.09|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in MADRS Item 2 score at Week 10.||0.09|-0.46|0.257
92415694|NCT00420641|184720691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.001|TWO_SIDED|90.0|-0.77|-0.25|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in MADRS Item 2 score at Week 10.||-0.25|-0.77|0.001
92415695|NCT00420641|184720692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.096|TWO_SIDED|90.0|-0.33|0.0|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in IDS-CR Item 5 score at Week 10.||-0.00|-0.33|0.096
92415696|NCT00420641|184720692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0|TWO_SIDED|90.0|-0.53|-0.22|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in IDS-CR Item 5 at Week 10.||-0.22|-0.53|0.000
92415697|NCT00420641|184720693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.576|TWO_SIDED|90.0|-1.84|0.91|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in HAMD-17 total score at Week 10.||0.91|-1.84|0.576
92415698|NCT00420641|184720693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.96||||0|TWO_SIDED|90.0|-4.28|-1.64|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in HAMD-17 total score at Week 10.||-1.64|-4.28|0.000
92233320|NCT02115308|184369221|SUPERIORITY|||||||0.495||||||non-adjusted|paired, t-test|||REST-TO-REGADENOSON STRESS||||0.495
92233321|NCT02115308|184369221|SUPERIORITY|||||||0.365|||||||t-test, 2 sided|non-adjusted||REST||||0.365
92233322|NCT02115308|184369221|SUPERIORITY|||||||0.602|||||||t-test, 2 sided|non adjusted||REST||||0.602
92233323|NCT02115308|184369221|SUPERIORITY|||||||0.915|||||||t-test, 2 sided|non adjusted||REST||||0.915
92233324|NCT02115308|184369221|SUPERIORITY|||||||0.033|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.033
92415699|NCT00420641|184720694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.209|TWO_SIDED|90.0|-0.38|0.05|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in HAMD-17 Item 1 score at Week 10.||0.05|-0.38|0.209
92415700|NCT00420641|184720694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.002|TWO_SIDED|90.0|-0.6|-0.19|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in HAMD-17 Item 1 score at Week 10.||-0.19|-0.60|0.002
92415701|NCT00420641|184720695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.175|TWO_SIDED|90.0|-1.23|0.12|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in IDS-CR 5 Item subscale total score at Week 10.||0.12|-1.23|0.175
92415702|NCT00420641|184720695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15||||0.003|TWO_SIDED|90.0|-1.79|-0.5|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in IDS-CR 5 Item subscale total score at Week 10.||-0.50|-1.79|0.003
92415703|NCT00420641|184720695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.082|TWO_SIDED|90.0|-1.92|-0.05|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in IDS-SR 5 Item subscale total score at Week 10.||-0.05|-1.92|0.082
92415704|NCT00420641|184720695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77||||0.001|TWO_SIDED|90.0|-2.64|-0.9|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in IDS-SR 5 Item subscale total score at Week 10.||-0.90|-2.64|0.001
92415705|NCT00420641|184720696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.208|TWO_SIDED|90.0|-0.45|0.06|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in CGI-S score at Week 10.||0.06|-0.45|0.208
92278353|NCT00952484|184458600|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a t-test.|t-test, 2 sided|||||||<0.0001
92384135|NCT02967510|184671365|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
92384136|NCT02967510|184671365|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.054|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.054
92384137|NCT02967510|184671365|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.001|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|<0.001
92384138|NCT02967510|184671366|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.008|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.008
92169466|NCT03363854|184227455|SUPERIORITY||Difference|-10.9|||<|0.001|TWO_SIDED|95.0|-15.2|-6.6||This secondary endpoint was tested sequentially using the Holm method for multiplicity adjustment at a 5% significance level after the sequential testing of the primary endpoints and first secondary endpoint, if these showed statistical significance.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included.||-6.6|-15.2|<0.001
92384139|NCT02967510|184671366|SUPERIORITY||Median Difference (Final Values)|-1.0|||=|0.01|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.01
92384140|NCT02967510|184671366|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.001
92384141|NCT02967510|184671367|SUPERIORITY||LS Mean Difference|-0.81|||<|0.001|TWO_SIDED|95.0|-1.071|-0.548|||ANCOVA|||||-0.548|-1.071|<0.001
92384142|NCT02967510|184671367|SUPERIORITY||LS Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-1.013|-0.484|||ANCOVA|||||-0.484|-1.013|<0.001
92384143|NCT02967510|184671367|SUPERIORITY||LS Mean Difference|-0.66|||<|0.001|TWO_SIDED|95.0|-0.916|-0.397|||ANCOVA|||||-0.397|-0.916|<0.001
92384144|NCT02967510|184671368|SUPERIORITY||LS Mean Difference|0.44|||<|0.001|TWO_SIDED|95.0|0.337|0.535|||ANCOVA|||||0.535|0.337|<0.001
92384145|NCT02967510|184671368|SUPERIORITY||LS Mean Difference|0.39|||<|0.001|TWO_SIDED|95.0|0.291|0.494|||ANCOVA|||||0.494|0.291|<0.001
92384146|NCT02967510|184671368|SUPERIORITY||LS Mean Difference|0.34|||<|0.001|TWO_SIDED|95.0|0.245|0.439|||ANCOVA|||||0.439|0.245|<0.001
92384147|NCT02967510|184671369|SUPERIORITY||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.575|-0.371|||ANCOVA|||||-0.371|-0.575|<0.001
92384148|NCT02967510|184671369|SUPERIORITY||LS Mean Difference|-0.49|||<|0.001|TWO_SIDED|95.0|-0.592|-0.383|||ANCOVA|||||-0.383|-0.592|<0.001
92384149|NCT02967510|184671369|SUPERIORITY||LS Mean Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.3|||ANCOVA|||||-0.3|-0.5|<0.001
92384150|NCT00787189|184671381|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0005||95.0|||||Fisher Exact|||||||<0.0005
92384151|NCT02524158|184671414|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|||||||0.340
92384152|NCT02524158|184671415|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|||||||0.003
92384153|NCT02524158|184671416|SUPERIORITY|||||||0.005||||||The a priori specified threshold is p \< 0.05|Mixed Models Analysis|||||||0.005
92384154|NCT02524158|184671417|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.013
92384155|NCT02524158|184671418|SUPERIORITY|||||||0.044||||||The a priori specified threshold is p \< 0.05|ANCOVA|||||||0.044
92384156|NCT02524158|184671419|SUPERIORITY||||||<|0.01|||||||ANCOVA|||||||<0.01
92384157|NCT02524158|184671420|SUPERIORITY|||||||0.01||||||The a priori specified threshold is p \< 0.05|ANCOVA|||||||0.010
92384158|NCT02524158|184671421|SUPERIORITY|||||||0.66|||||||ANCOVA|||||||0.66
92384159|NCT02524158|184671422|SUPERIORITY||||||<|0.1|||||||Mixed Models Analysis|||||||<0.10
92384160|NCT02524158|184671423|SUPERIORITY|||||||0.202|||||||ANCOVA|||||||0.202
92384161|NCT02524158|184671424|SUPERIORITY|||||||0.369|||||||ANCOVA|||||||0.369
92384162|NCT02524158|184671425|SUPERIORITY|||||||0.5|||||||ANCOVA|||||||0.50
92384163|NCT02524158|184671426|SUPERIORITY|||||||0.067|||||||ANCOVA|||||||0.067
92384164|NCT02524158|184671428|SUPERIORITY|||||||0.071|||||||ANCOVA|||||||0.071
92384165|NCT02524158|184671429|SUPERIORITY|||||||0.92|||||||ANCOVA|||||||0.92
92384166|NCT02524158|184671430|SUPERIORITY|||||||0.036||||||The a priori specified threshold is p \< 0.05|ANCOVA|||||||0.036
92384167|NCT02524158|184671431|SUPERIORITY|||||||0.071|||||||ANCOVA|||||||0.071
92384168|NCT00300365|184671468|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92384169|NCT01727336|184671493|OTHER||recommended dose for Part 2|0.9|||||TWO_SIDED||||||||The recommended dose level for Part 2 was determined to be 0.9 mg/kg|||||
92384170|NCT00820222|184671514|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.36|TWO_SIDED|95.0|0.26|1.63|||Odds Ratio||The Odds Ratio is based on a logistic regression model. The P-value for the test of Odds Ratio is 1.|||1.63|0.26|0.360
92384171|NCT00820222|184671515|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.021|TWO_SIDED|95.0|1.04|1.64|||Log Rank||A HR \> 1 indicates a higher risk for lapatinib+capecitabine compared with trastuzumab+capecitabine.|||1.64|1.04|0.021
92384172|NCT00820222|184671517|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.095|TWO_SIDED|95.0|0.95|1.9|||Log Rank||A HR \> 1 indicates a higher risk for lapatinib+capecitabine compared with trastuzumab+capecitabine.|||1.90|0.95|0.095
92384173|NCT00820222|184671518|SUPERIORITY||Odds Ratio (OR)|0.7984||||0.2731|TWO_SIDED|95.0|0.5407|1.1771|||Fisher Exact|||Comparison for Overall Response (CR+PR)||1.1771|0.5407|0.2731
92384174|NCT00820222|184671519|SUPERIORITY||Odds Ratio (OR)|0.9016||||0.6106|TWO_SIDED|95.0|0.6315|1.2866|||Fisher Exact|||Comparison for Clinical Benefit||1.2866|0.6315|0.6106
92384175|NCT01707381|184671547|OTHER||Treatment difference|-1.773|||<|0.001|TWO_SIDED|95.0|-2.38|-1.166|||ANCOVA||Treatment Difference = BOL-303259-X 0.024% - Timolol maleate 0.5%.|||-1.166|-2.380|<0.001
92384176|NCT01707381|184671548|OTHER||Bonferroni t-test used for paired compar|0.01|||<|0.05|TWO_SIDED||||||ANOVA||the bonferroni result applies to nocturnal supine OPP data comparing BOL group to timolol group|Statistical analysis of nocturnal (supine) OPP was performed among baseline, the BOL-303259-X treatment and timolol treatment using ANOVA. the criteria for statistical significance was P\<0.05. Post hoc Bonferroni T-tests were then utilized to compare BOL and timolol groups.||||<0.05
92384177|NCT01707381|184671549|OTHER||Mean Difference (Final Values)|-1.77||||0.004|TWO_SIDED|95.0|-2.915|-0.625|||ANOVA||Treatment Difference = BOL-303259-X 0.024% - Timolol maleate 0.5%.|||-0.625|-2.915|0.004
92415706|NCT00420641|184720696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0|TWO_SIDED|90.0|-0.76|-0.28|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in CGI-S score at Week 10.||-0.28|-0.76|0.000
92415707|NCT00420641|184720697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.76||||0.516|TWO_SIDED|90.0|-2.71|6.24|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in MEI total score at Week 10.||6.24|-2.71|0.516
92233325|NCT02115308|184369221|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.002
92233326|NCT02115308|184369221|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.087
92233327|NCT02115308|184369221|SUPERIORITY|||||||0.399|||||||t-test, 2 sided|non adjusted||REST-TO-STRESS CHANGE||||0.399
92384178|NCT03596450|184671551|SUPERIORITY||Treatment effect|1.36||||0.033|TWO_SIDED|95.0|1.03|1.79|||Regression, Logistic|||Estimate and p-value are based on logistic regression model with logit link function, treatment as categorical effect, and baseline HbA1c as covariate.||1.79|1.03|0.033
92384179|NCT04016077|184671653|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Geometric Means|118.5|||||TWO_SIDED|90.0|87.96|159.64|||ANOVA|||||159.64|87.96|
92384180|NCT04016077|184671654|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Geometric Means|104.0|||||TWO_SIDED|90.0|74.48|145.23|||ANOVA|||||145.23|74.48|
92384181|NCT04118595|184671677|SUPERIORITY|||||||0.13|||||||ANCOVA|||||||0.13
92384182|NCT04118595|184671678|SUPERIORITY|||||||0.41|||||||ANCOVA|||||||0.41
92384183|NCT04118595|184671679|SUPERIORITY|||||||0.08|||||||ANCOVA|||||||0.08
92384184|NCT04118595|184671680|SUPERIORITY|||||||0.64|||||||ANCOVA|||||||0.64
92384185|NCT04118595|184671681|SUPERIORITY|||||||0.57|||||||ANCOVA|||||||0.57
92384186|NCT04118595|184671682|SUPERIORITY|||||||0.43|||||||ANCOVA|||||||0.43
92384187|NCT04118595|184671683|SUPERIORITY|||||||0.19|||||||ANCOVA|||||||0.19
92384188|NCT04118595|184671684|SUPERIORITY|||||||0.15|||||||ANCOVA|||||||0.15
92384189|NCT04118595|184671685|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||0.04
92384190|NCT04118595|184671686|SUPERIORITY|||||||0.36|||||||ANCOVA|||||||0.36
92384191|NCT03036189|184671687|SUPERIORITY||Slope|-0.15||||0.5|TWO_SIDED||||||Mixed Models Analysis|||||||0.50
92384192|NCT03036189|184671688|SUPERIORITY||Slope|0.42||||0.71|TWO_SIDED||||||Mixed Models Analysis|||||||0.71
92384193|NCT03036189|184671689|SUPERIORITY||Slope|0.12||||0.83|TWO_SIDED||||||Mixed Models Analysis|||||||0.83
92384194|NCT03036189|184671690|SUPERIORITY||Slope|0.37||||0.58|TWO_SIDED||||||Mixed Models Analysis|||||||0.58
92384195|NCT03036189|184671691|SUPERIORITY||Slope|-0.4||||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||0.69
92384196|NCT03036189|184671692|SUPERIORITY||Slope|0.49||||0.6|TWO_SIDED||||||Mixed Models Analysis|||||||0.60
92384197|NCT03036189|184671693|SUPERIORITY||Slope|-0.03||||0.97|TWO_SIDED||||||Mixed Models Analysis|||||||0.97
92384198|NCT03036189|184671694|SUPERIORITY||Slope|0.45||||0.49|TWO_SIDED||||||Mixed Models Analysis|||||||0.49
92384199|NCT03036189|184671695|SUPERIORITY||Slope|0.25||||0.77|TWO_SIDED||||||Mixed Models Analysis|||||||0.77
92384200|NCT03036189|184671696|SUPERIORITY||Slope|0.54|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
92384201|NCT03036189|184671697|SUPERIORITY||Slope|1.99||||0.4|TWO_SIDED||||||Mixed Models Analysis|||||||0.40
92384202|NCT03036189|184671698|SUPERIORITY||Slope|1.05||||0.07|TWO_SIDED||||||Mixed Models Analysis|||||||0.07
92384203|NCT03036189|184671699|SUPERIORITY||Slope|2.0||||0.84|TWO_SIDED||||||Mixed Models Analysis|||||||0.84
92384204|NCT03036189|184671700|SUPERIORITY||Slope|-23.01||||0.64|TWO_SIDED||||||Mixed Models Analysis|||||||0.64
92384205|NCT02684188|184671714|SUPERIORITY|||||||0.03||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 3 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 3.|For day 3, 112(68 baseline and 44 intervention) patients were used in this analysis.|||0.030
92415708|NCT00420641|184720697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.22||||0.016|TWO_SIDED|90.0|1.97|10.48|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in MEI total score at Week 10.||10.48|1.97|0.016
92415709|NCT00420641|184720698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.72||||0.126|TWO_SIDED|90.0|-0.13|3.57|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in CSFQ-14SF total score at Week 10.||3.57|-0.13|0.126
92415710|NCT00420641|184720698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.957|TWO_SIDED|90.0|-1.69|1.81|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in CSFQ-14SF total score at Week 10.||1.81|-1.69|0.957
92384206|NCT02684188|184671714|SUPERIORITY|||||||0.025||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 7 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 7.|For day 7, 110 (66 baseline and 44 intervention) patients were used in this analysis.|||0.025
92384207|NCT02684188|184671714|SUPERIORITY|||||||0.037||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 14 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 14.|For day 14, 104 (61 baseline and 43 intervention) patients were used in this analysis.|||0.037
92384208|NCT02684188|184671714|SUPERIORITY|||||||0.011||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 21 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 21.|For day 21, 98 (57 baseline and 41 intervention) patients were used in this analysis.|||0.011
92384209|NCT02684188|184671714|SUPERIORITY|||||||0.05||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 30 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 30.|For day 30, 95 (56 baseline and 39 intervention) patients were used in this analysis.|||0.050
92384210|NCT02684188|184671714|SUPERIORITY|||||||0.055|||||||Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 60 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 60.|For day 60, 87 (53 baseline and 34 intervention) patients were used in this analysis.|||0.055
92384211|NCT02684188|184671714|SUPERIORITY|||||||0.137||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 90 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 90.|For day 90, 83 (49 baseline and 34 intervention) patients were used in this analysis.|||0.137
92384212|NCT02684188|184671715|SUPERIORITY|||||||0.279||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 3 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 3.|For day 3, 112(68 baseline and 44 intervention) patients were used in this analysis.|||0.279
92384213|NCT02684188|184671715|SUPERIORITY|||||||0.211||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 7 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 7.|For day 7, 110 (66 baseline and 44 intervention) patients were used in this analysis.|||0.211
92233328|NCT02115308|184369221|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|non adjusted||REST-TO-STRESS Change||||0.030
92233329|NCT02115308|184369221|SUPERIORITY|||||||0.048|||||||t-test, 2 sided|non adjusted||REST-TO-STRESS Change||||0.048
92233330|NCT02115308|184369222|SUPERIORITY|||||||0.011||||||Non-adjusted.|paired, t-test|||Rest VS Regadenoson Stress||||0.011
92384214|NCT02684188|184671715|SUPERIORITY|||||||0.424||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 14 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 14.|For day 14, 104 (61 baseline and 43 intervention) patients were used in this analysis.|||0.424
92384215|NCT02684188|184671715|SUPERIORITY|||||||0.191||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 21 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 21.|For day 21, 98 (57 baseline and 41 intervention) patients were used in this analysis.|||0.191
92384216|NCT02684188|184671715|SUPERIORITY|||||||0.478||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 30 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 30.|For day 30, 95 (56 baseline and 39 intervention) patients were used in this analysis.|||0.478
92384217|NCT02684188|184671715|SUPERIORITY|||||||0.452||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 60 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 60.|For day 60, 87 (53 baseline and 34 intervention) patients were used in this analysis.|||0.452
92384218|NCT02684188|184671715|SUPERIORITY|H0: There is no difference in the proportion of patients with at least one ED visits by day 90 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 90.||||||0.381||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic||||For day 90, 83 (49 baseline and 34 intervention) patients were used in this analysis.|||0.381
92384219|NCT02684188|184671716|SUPERIORITY|||||||0.502||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 3 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 3.|For day 3, 115 (70 baseline and 45 intervention) patients were used in this analysis.|||0.502
92415711|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.5061|TWO_SIDED|90.0|0.21|1.93|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 1.||1.93|0.21|0.5061
92233331|NCT02115308|184369222|SUPERIORITY|||||||0.003||||||non-adjusted|paired t-test|||Rest VS Regadenoson Stress||||0.003
92384220|NCT02684188|184671716|SUPERIORITY|||||||0.286||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 7 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 7.|For day 7, 113 (68 baseline and 45 intervention) patients were used in this analysis.|||0.286
92384221|NCT02684188|184671716|SUPERIORITY|||||||0.347||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 14 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 14.|For day 14, 107 (63 baseline and 44 intervention) patients were used in this analysis.|||0.347
92384222|NCT02684188|184671716|SUPERIORITY|||||||0.25||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 21 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 21.|For day 21, 101 (59 baseline and 42 intervention) patients were used in this analysis.|||0.250
92384223|NCT02684188|184671716|SUPERIORITY|||||||0.22||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 30 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 30.|For day 30, 98 (58 baseline and 40 intervention) patients were used in this analysis.|||0.220
92384224|NCT02684188|184671716|SUPERIORITY|||||||0.116||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 60 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 60.|For day 60, 90 (55 baseline and 35 intervention) patients were used in this analysis.|||0.116
92384225|NCT02684188|184671716|SUPERIORITY|||||||0.126||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 90 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 90.|For day 90, 86 (51 baseline and 35 intervention) patients were used in this analysis.|||0.126
92384226|NCT02684188|184671717|SUPERIORITY|||||||0.597||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 3; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 3.|For day 3, 115 (70 baseline and 45 intervention) patients were used in this analysis.|||0.597
92233332|NCT02115308|184369222|SUPERIORITY|non-adjusted||||||0.39|||||||paired, t-test|||Rest VS Regadenoson Stress||||0.390
92233333|NCT02115308|184369222|SUPERIORITY|non-adjusted|||||<|0|||||||t-test, 2 sided|||REST||||<0.000
92233334|NCT02115308|184369222|SUPERIORITY|non-adjusted|||||<|0|||||||t-test, 2 sided|||REST||||<0.000
92233335|NCT02115308|184369222|SUPERIORITY|non-adjusted||||||0.022|||||||t-test, 2 sided|||REST||||0.022
92233336|NCT02115308|184369222|SUPERIORITY|||||||0.001||||||non-adjusted|t-test, 2 sided|||Regadenoson STRESS||||0.001
92233337|NCT02115308|184369222|SUPERIORITY||||||<|0||||||non-adjusted|t-test, 2 sided|||Regadenoson STRESS||||<0.000
92233338|NCT02115308|184369222|SUPERIORITY|||||||0.006||||||non-adjusted|t-test, 2 sided|||Regadenoson STRESS||||0.006
92233339|NCT02115308|184369222|SUPERIORITY||||||<|0|||||||t-test, 2 sided|non-adjusted||REST-TO-STRESS Change||||<0.000
92384227|NCT02684188|184671717|SUPERIORITY|||||||0.504||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 7; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 7.|For day 7, 113 (68 baseline and 45 intervention) patients were used in this analysis.|||0.504
92384228|NCT02684188|184671717|SUPERIORITY|||||||0.558||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 14; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 14.|For day 14, 107 (63 baseline and 44 intervention) patients were used in this analysis.|||0.558
92384229|NCT02684188|184671717|SUPERIORITY|||||||0.472||||||Comments (covariates): P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 21; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 21.|For day 21, 101 (59 baseline and 42 intervention) patients were used in this analysis.|||0.472
92384230|NCT02684188|184671717|SUPERIORITY|||||||0.462||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 30; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 30.|For day 30, 98 (58 baseline and 40 intervention) patients were used in this analysis.|||0.462
92384231|NCT02684188|184671717|SUPERIORITY|||||||0.394||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 60; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 60.|For day 60, 90 (55 baseline and 35 intervention) patients were used in this analysis.|||0.394
92384232|NCT02684188|184671717|SUPERIORITY|||||||0.368||||||Comments (covariates): P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 90; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 90.|For day 90, 86 (51 baseline and 35 intervention) patients were used in this analysis.|||0.368
92384233|NCT02684188|184671718|SUPERIORITY|||||||0.946||||||P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE+ score.|Poisson regression|||The following hypotheses were tested: H0: There is no difference in the cumulative number of PCP visits for day 3 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 3.|For day 3, 114 (70 baseline and 44 intervention) patients were used in this analysis.|||0.946
92415712|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.7398|TWO_SIDED|90.0|0.46|3.25|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 1.||3.25|0.46|0.7398
92415713|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.9209|TWO_SIDED|90.0|0.52|2.08|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 2.||2.08|0.52|0.9209
92415714|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.2908|TWO_SIDED|90.0|0.78|3.13|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 2.||3.13|0.78|0.2908
92415715|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41||||0.0086|TWO_SIDED|90.0|0.23|0.72|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 3.||0.72|0.23|0.0086
92415716|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.8087|TWO_SIDED|90.0|0.64|1.83|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 3.||1.83|0.64|0.8087
92415717|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.31||||0.0002|TWO_SIDED|90.0|0.18|0.52|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 4.||0.52|0.18|0.0002
92415718|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.4606|TWO_SIDED|90.0|0.78|1.94|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 4.||1.94|0.78|0.4606
92415719|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.1399|TWO_SIDED|90.0|0.4|1.05|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 5.||1.05|0.40|0.1399
92233340|NCT02115308|184369222|SUPERIORITY|||||||0.058|||||||t-test, 2 sided|non-adjusted||REST-TO-STRESS Changes||||0.058
92415720|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.0461|TWO_SIDED|90.0|1.1|2.73|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 5.||2.73|1.10|0.0461
92384234|NCT02684188|184671718|SUPERIORITY|||||||0.613|||||||Poisson regression|||H0: There is no difference in the cumulative number of PCP visits for day 7 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 7.|For day 7, 111 (67 baseline and 44 intervention) patients were used in this analysis.|||0.613
92415721|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.14|TWO_SIDED|90.0|0.41|1.05|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 6.||1.05|0.41|0.1400
92233341|NCT02115308|184369222|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|non-adjusted||REST-TO-STRESS Change||||0.310
92233342|NCT02115308|184369223|SUPERIORITY|||||||0.001|||||||paired, t-test|non adjusted||REST vs STRESS||||0.001
92233343|NCT02115308|184369223|SUPERIORITY|||||||0.002|||||||paired, t-test|non adjusted||REST vs STRESS||||0.002
92233344|NCT02115308|184369223|SUPERIORITY|||||||0.721|||||||paired, t-test|non adjusted||REST vs STRESS||||0.721
92233345|NCT02115308|184369223|SUPERIORITY|||||||0.797|||||||t-test, 2 sided|non adjusted||REST||||0.797
92233346|NCT02115308|184369223|SUPERIORITY|||||||0.474|||||||t-test, 2 sided|non adjusted||REST||||0.474
92233347|NCT02115308|184369223|SUPERIORITY|||||||0.537|||||||t-test, 2 sided|non adjusted||||||0.537
92415722|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.71||||0.0002|TWO_SIDED|90.0|1.74|4.21|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 6.||4.21|1.74|0.0002
92415723|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9596|TWO_SIDED|90.0|0.59|1.64|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 8.||1.64|0.59|0.9596
92415724|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.24||||0|TWO_SIDED|90.0|2.01|5.23|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 8.||5.23|2.01|0.0000
92415725|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.653|TWO_SIDED|90.0|0.69|1.93|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 10.||1.93|0.69|0.6530
92415726|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.48||||0|TWO_SIDED|90.0|2.11|5.73|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 10.||5.73|2.11|0.0000
92415727|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.8844|TWO_SIDED|90.0|0.23|3.48|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 1.||3.48|0.23|0.8844
92415728|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.7425|TWO_SIDED|90.0|0.36|4.68|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 1.||4.68|0.36|0.7425
92415729|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.8355|TWO_SIDED|90.0|0.39|2.07|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 2.||2.07|0.39|0.8355
92415730|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93||||0.1786|TWO_SIDED|90.0|0.86|4.32|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 2.||4.32|0.86|0.1786
92415731|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.0835|TWO_SIDED|90.0|0.26|0.97|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 3.||0.97|0.26|0.0835
92415732|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8558|TWO_SIDED|90.0|0.58|1.98|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 3.||1.98|0.58|0.8558
92415733|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.0067|TWO_SIDED|90.0|0.2|0.67|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 4.||0.67|0.20|0.0067
92415734|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.6647|TWO_SIDED|90.0|0.67|1.98|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 4.||1.98|0.67|0.6647
92233348|NCT02115308|184369223|SUPERIORITY|||||||0.717|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.717
92233349|NCT02115308|184369223|SUPERIORITY|||||||0.041|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.041
92384235|NCT02684188|184671718|SUPERIORITY|||||||0.541||||||P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE+ score.|Poisson regression|||H0: There is no difference in the cumulative number of PCP visits for day 14 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 14.|For day 14, 105 (62 baseline and 43 intervention) patients were used in this analysis.|||0.541
92384236|NCT02684188|184671718|SUPERIORITY|||||||0.765||||||P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE score.|Poisson regression|||H0: There is no difference in the cumulative number of PCP visits for day 21 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 21.|For day 21, 98 (58 baseline and 40 intervention) patients were used in this analysis.|||0.765
92384237|NCT02684188|184671718|SUPERIORITY|||||||0.919||||||P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE+ score.|Poisson regression|||H0: There is no difference in the cumulative number of PCP visits for day 30 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 30.|For day 30, 95 (57 baseline and 38 intervention) patients were used in this analysis.|||0.919
92415735|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9553|TWO_SIDED|90.0|0.55|1.74|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 5.||1.74|0.55|0.9553
92384238|NCT02684188|184671718|SUPERIORITY|||||||0.999||||||P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE score.|Poisson regression|P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE score.||H0: There is no difference in the cumulative number of PCP visits for day 60 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 60.|For day 60, 87 (54 baseline and 33 intervention) patients were used in this analysis.|||0.999
92415736|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.58||||0.004||90.0|1.5|4.42|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 5.||4.42|1.50|0.0040
92415737|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.6327|TWO_SIDED|90.0|0.52|1.43|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 6.||1.43|0.52|0.6327
92233350|NCT02115308|184369223|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.050
92233351|NCT02115308|184369223|SUPERIORITY|||||||0.908||||||non adjusted|t-test, 2 sided|||REST-to-STRESS Change||||0.908
92233352|NCT02115308|184369223|SUPERIORITY|||||||0.233|||||||t-test, 2 sided|non adjusted||||||0.233
92233353|NCT02115308|184369223|SUPERIORITY|||||||0.187|||||||t-test, 2 sided|non adjusted||REST-to-STRESS Change||||0.187
92278354|NCT00952484|184458601|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a t-test.|t-test, 2 sided|||||||0.0007
92384239|NCT02684188|184671718|SUPERIORITY|||||||0.995|||||||Poisson regression|||H0: There is no difference in the cumulative number of PCP visits for day 90 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 90.|For day 90, 83 (50 baseline and 33 intervention) patients were used in this analysis.|||0.995
92233354|NCT02115308|184369225|SUPERIORITY|||||||0.008|||||||paired, t-test|non adjusted||REST vs STRESS||||0.008
92415738|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36||||0.0027|TWO_SIDED|90.0|1.47|3.79|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 6.||3.79|1.47|0.0027
92415739|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.3961|TWO_SIDED|90.0|0.45|1.29|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 8.||1.29|0.45|0.3961
92415740|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89||||0.0298|TWO_SIDED|90.0|1.17|3.06|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 8.||3.06|1.17|0.0298
92415741|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.8826|TWO_SIDED|90.0|0.56|1.61|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 10.||1.61|0.56|0.8826
92233355|NCT02115308|184369225|SUPERIORITY|||||||0.006|||||||paired, t-test|non adjusted||REST vs STRESS||||0.006
92233356|NCT02115308|184369225|SUPERIORITY|||||||0.428|||||||paired, t-test|non adjusted||REST vs STRESS||||0.428
92233357|NCT02115308|184369225|SUPERIORITY||||||<|0|||||||t-test, 2 sided|non adjusted||REST||||<0.000
92233358|NCT02115308|184369225|SUPERIORITY||||||<|0|||||||t-test, 2 sided|non adjusted||REST||||<0.000
92233359|NCT02115308|184369225|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|non adjusted||REST||||0.006
92233360|NCT02115308|184369225|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.002
92233361|NCT02115308|184369225|SUPERIORITY||||||<|0|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||<0.000
92233362|NCT02115308|184369225|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.004
92233363|NCT02115308|184369225|SUPERIORITY||||||<|0|||||||t-test, 2 sided|non adjusted||REST-to-STRESS Change||||<0.000
92233364|NCT02115308|184369225|SUPERIORITY|||||||0.172|||||||t-test, 2 sided|non adjusted||REST-to-STRESS Change||||0.172
92233365|NCT02115308|184369225|SUPERIORITY|||||||0.957|||||||t-test, 2 sided|non adjusted||REST-to-STRESS Change||||0.957
92384240|NCT02684188|184671719|EQUIVALENCE|A repeated measures ANOVA model was used to model the SF12 Physical Health score as a function of treatment group. The likelihood ratio test was used to calculate the p-values for the treatment effect and covariates. No adjustments for multiple comparisons were made. Hypotheses were tested after adjusting for the effects of the repeated measures, patient age, and the number of people in a household. All hypotheses were 2-sided and p-values \< 0.05 were considered statistically significant.||||||0.371||||||The P-value comparing the means for the 2 groups averaged across the 7 days is p = 0.371, after adjusting for covariates.|ANOVA|||The following hypotheses were tested: Hoi: There is no difference in mean SF12 Physical Health scores between the standard and enhanced discharge groups (null hypothesis); H1i: The mean SF12 Physical Health scores differ between the standard and enhanced discharge groups.||||0.371
92384241|NCT02684188|184671720|EQUIVALENCE|A repeated measures ANOVA model was used to model the SF-12 Mental Health score as a function of treatment group. The likelihood ratio test was used to calculate the p-values for the treatment effect and covariates. No adjustments for multiple comparisons were made. Hypotheses were tested after adjusting for the effects of the repeated measures, patient age, income, and county. All hypotheses were 2-sided and p-values \< 0.05 were considered statistically significant.||||||0.232||||||The P-value comparing the means for the 2 groups averaged across the 7 days is p = 0.232, after adjusting for covariates.|ANOVA|||The following hypotheses were tested: Hoi: There is no difference in mean SF-12 Mental Health scores between the standard and enhanced discharge groups (null hypothesis); H1i: The mean SF-12 Mental Health scores differ between the standard and enhanced discharge groups.||||0.232
92384242|NCT02684188|184671721|SUPERIORITY|||||||0.806|||||||ANCOVA|||The following hypotheses were tested: H0: There is no difference in the mean CTM3 score between the standard and enhanced discharge groups (null hypothesis); H1: Patients in the enhanced discharge group will have a higher mean CTM3 rating than patients in the standard discharge group.|An analysis of covariance was used to model the CTM3 discharge planning score as a function of treatment group. An ANOVA F-test was used to calculate the p-values for the treatment effect and covariates. No adjustments for multiple comparisons were made. Hypotheses were tested after adjusting for the effects of patient age and income. The hypothesis test for the group comparison was 1-sided, hypotheses to assess significance of covariates were 2-sided, and p-values \< 0.05 were considered statistically significant. The covariates Sex, County, Number in Household, LACE+ score, and PAM10 score did not differ in their mean CTM3 scores so were not retained in the model.|||0.806
92384243|NCT02684188|184671722|SUPERIORITY|||||||0.742|||||||ANOVA|||The following hypotheses were tested: H0: There is no difference in the mean RTM14 score between the standard and enhanced discharge groups (null hypothesis); H1: Patients in the enhanced discharge group will have a higher mean RTM14 rating than patients in the standard discharge group.|A repeated measures ANOVA model (over the 6 time measurement periods) was used to model the RTM14 score as a function of treatment group. The likelihood ratio test was used to calculate the p-values for the treatment effect and covariates. No adjustments for multiple comparisons were made. Hypotheses were tested after adjusting for the effects of the repeated measures, patient age, income, and whether or not a patient had visited a hospital or ED prior to that day. The hypothesis test for the group comparison was 1-sided, hypotheses to assess significance of covariates were 2-sided, and p-values \< 0.05 were considered statistically significant. The covariates Sex, Number in household, LACE+ score, and PAM10 score were not significant in explaining SF-12 scores so were not retained in the model.|||0.742
92384244|NCT02684188|184671723|SUPERIORITY|||||||0.717||||||This Hypothesis was tested with no adjustments for covariates since none were significant.|Regression, Logistic|||: H0: There is no difference in the cumulative number of PCP visits for day 3 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 3.|For day 3, 114 (70 baseline and 44 intervention) patients were used in this analysis.|||0.717
92384245|NCT02684188|184671723|SUPERIORITY|||||||0.479||||||This Hypothesis was tested with no adjustments for covariates since none were significant.|Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 7 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 7.|For day 7, 111 (67 baseline and 44 intervention) patients were used in this analysis.|||0.479
92384246|NCT02684188|184671723|SUPERIORITY|||||||0.329|||||||Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 14 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 14.|For day 14, 105 (62 baseline and 43 intervention) patients were used in this analysis.|||0.329
92384247|NCT02684188|184671723|SUPERIORITY|||||||0.78|||||||Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 21 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 21.|This Hypothesis was tested with no adjustments for covariates since none were significant.|||0.780
92384248|NCT02684188|184671723|SUPERIORITY|||||||0.779||||||This Hypothesis was tested with no adjustments for covariates since none were significant.|Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 30 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 30.|For day 30, 95 (57 baseline and 38 intervention) patients were used in this analysis.|||0.779
92415742|NCT00420641|184720702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.48||||0.0022|TWO_SIDED|90.0|1.52|4.05|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 10.||4.05|1.52|0.0022
92233366|NCT01309737|184369226|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.2|||<|0.0001|TWO_SIDED|95.0|5.33|17.68||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||17.68|5.33|<0.0001
92278355|NCT02750306|184458608|SUPERIORITY||Difference in Least Squares Means|28.2||||0.00128|TWO_SIDED|95.0|11.1|45.2|||ANCOVA|||||45.2|11.1|0.00128
92415743|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.5072|TWO_SIDED|90.0|0.22|1.89|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 1.||1.89|0.22|0.5072
92415744|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.6886|TWO_SIDED|90.0|0.52|2.93|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 1.||2.93|0.52|0.6886
92415745|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8664|TWO_SIDED|90.0|0.56|2.04|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 2.||2.04|0.56|0.8664
92415746|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.2897|TWO_SIDED|90.0|0.8|2.79|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 2.||2.79|0.80|0.2897
92415747|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.2474|TWO_SIDED|90.0|0.39|1.18|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 3.||1.18|0.39|0.2474
92415748|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.2007|TWO_SIDED|90.0|0.89|2.47|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 3.||2.47|0.89|0.2007
92415749|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.0214|TWO_SIDED|90.0|0.29|0.82|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 4.||0.82|0.29|0.0214
92415750|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.2368|TWO_SIDED|90.0|0.88|2.23|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 4.||2.23|0.88|0.2368
92415751|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.987|TWO_SIDED|90.0|0.63|1.59|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 5.||1.59|0.63|0.9870
92415752|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.0193|TWO_SIDED|90.0|1.21|3.0|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 5.||3.00|1.21|0.0193
92415753|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.8351|TWO_SIDED|90.0|0.59|1.5|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 6.||1.50|0.59|0.8351
92415754|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.01||||0.0001|TWO_SIDED|90.0|1.9|4.77|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 6.||4.77|1.90|0.0001
92415755|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.751|TWO_SIDED|90.0|0.67|1.8|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 8.||1.80|0.67|0.7510
92415756|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.37||||0.0029|TWO_SIDED|90.0|1.47|3.8|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 8.||3.80|1.47|0.0029
92415757|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.1707|TWO_SIDED|90.0|0.92|2.55|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 10.||2.55|0.92|0.1707
92239667|NCT00844428|184383114|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||99|68|
92415758|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.27||||0.0001|TWO_SIDED|90.0|1.99|5.36|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 10.||5.36|1.99|0.0001
92415759|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.205|TWO_SIDED|90.0|0.05|1.48|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 1.||1.48|0.05|0.2050
92415760|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.1735|TWO_SIDED|90.0|0.11|1.24|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 1.||1.24|0.11|0.1735
92415761|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93||||0.2305|TWO_SIDED|90.0|0.78|4.75|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 2.||4.75|0.78|0.2305
92415762|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86||||0.2507|TWO_SIDED|90.0|0.77|4.5|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 2.||4.50|0.77|0.2507
92415763|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.5608|TWO_SIDED|90.0|0.35|1.64|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 3.||1.64|0.35|0.5608
92415764|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.6526|TWO_SIDED|90.0|0.6|2.42|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 3.||2.42|0.60|0.6526
92415765|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41||||0.0208|TWO_SIDED|90.0|0.21|0.77|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 4.||0.77|0.21|0.0208
92415766|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.2859|TWO_SIDED|90.0|0.39|1.22|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 4.||1.22|0.39|0.2859
92415767|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.7921|TWO_SIDED|90.0|0.49|1.66|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 5.||1.66|0.49|0.7921
92415768|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.362|TWO_SIDED|90.0|0.79|2.31|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 5.||2.31|0.79|0.3620
92415769|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.4331|TWO_SIDED|90.0|0.44|1.34|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 6.||1.34|0.44|0.4331
92415770|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.0047|TWO_SIDED|90.0|1.42|3.75|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 6.||3.75|1.42|0.0047
92415771|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.4431|TWO_SIDED|90.0|0.46|1.32|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 8.||1.32|0.46|0.4431
92415772|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.1901|TWO_SIDED|90.0|0.9|2.44|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 8.||2.44|0.90|0.1901
92384249|NCT02684188|184671723|SUPERIORITY|||||||0.848||||||This Hypothesis was tested with no adjustments for covariates since none were significant.|Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 60 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 60.|For day 60, 87 (54 baseline and 33 intervention) patients were used in this analysis.|||0.848
92384250|NCT02684188|184671723|SUPERIORITY|||||||0.857||||||This Hypothesis was tested with no adjustments for covariates since none were significant.|Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 90 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 90.|For day 90, 83 (50 baseline and 33 intervention) patients were used in this analysis.|||0.857
92384251|NCT00488826|184671724|SUPERIORITY_OR_OTHER||Geometric mean ratio|1097.0||||||90.0|793.6|1461.0||P-Values were not calculated.|||This analysis is for Serotype 4.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||1461|793.6|
92384252|NCT00488826|184671724|SUPERIORITY_OR_OTHER||Geometric mean ratio|54.6||||||90.0|35.36|85.49||P-Values were not calculated.|||This analysis is for Serotype 6B.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||85.49|35.36|
92384253|NCT00488826|184671724|SUPERIORITY_OR_OTHER||Geometric mean ratio|99.48||||||90.0|79.81|142.0||P-Values were not calculated.|||This analysis is for Serotype 9V|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||142.0|79.81|
92384254|NCT00488826|184671724|SUPERIORITY_OR_OTHER||Geometric mean ratio|134.3||||||90.0|80.83|197.1||P-Values were not calculated.|||This analysis is for Serotype 14.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||197.1|80.83|
92415773|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.9222|TWO_SIDED|90.0|0.56|1.66|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 10.||1.66|0.56|0.9222
92415774|NCT00420641|184720703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.1665|TWO_SIDED|90.0|0.93|2.43|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 10.||2.43|0.93|0.1665
92415775|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63||||0.5057|TWO_SIDED|90.0|0.2|1.98|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 1.||1.98|0.20|0.5057
92415776|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.8633|TWO_SIDED|90.0|0.38|3.3|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 1.||3.30|0.38|0.8633
92384255|NCT00488826|184671724|SUPERIORITY_OR_OTHER||Geometric mean ratio|200.3||||||90.0|151.9|302.4||P-Values were not calculated.|||This analysis is for Serotype 18C.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||302.4|151.9|
92384256|NCT00488826|184671724|SUPERIORITY_OR_OTHER||Geometric mean ratio|181.3||||||90.0|119.8|253.1||P-Values were not calculated.|||This analysis is for Serotype 19F.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||253.1|119.8|
92384257|NCT00488826|184671724|SUPERIORITY_OR_OTHER||Geometric mean ratio|90.02||||||90.0|57.93|150.5||P-Values were not calculated.|||This analysis is for Serotype 23F.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||150.5|57.93|
92384258|NCT00488826|184671725|SUPERIORITY_OR_OTHER||Geometric mean ratio|665.1||||||90.0|473.3|851.2||P-Values were not calculated.|||This analysis is for Serotype 4.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||851.2|473.3|
92384259|NCT00488826|184671725|SUPERIORITY_OR_OTHER||Geometric mean ratio|22.2||||||90.0|13.99|31.77||P-Values were not calculated.|||This analysis is for Serotype 6B.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||31.77|13.99|
92384260|NCT00488826|184671725|SUPERIORITY_OR_OTHER||Geometric mean ratio|73.7||||||90.0|56.41|103.6||P-Values were not calculated.|||This analysis is for Serotype 9V.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||103.6|56.41|
92384261|NCT00488826|184671725|SUPERIORITY_OR_OTHER||Geometric mean ratio|99.48||||||90.0|61.09|147.5||P-Values were not calculated.|||This analysis is for Serotype 14.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||147.5|61.09|
92384262|NCT00488826|184671725|SUPERIORITY_OR_OTHER||Geometric mean ratio|164.0||||||90.0|114.9|232.9||P-Values were not calculated.|||This analysis is for Serotype 18C.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||232.9|114.9|
92384263|NCT00488826|184671725|SUPERIORITY_OR_OTHER||Geometric mean ratio|81.45||||||90.0|57.98|119.1||P-Values were not calculated.|||This analysis is for Serotype 19F.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||119.1|57.98|
92415777|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.8428|TWO_SIDED|90.0|0.55|2.16|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 2.||2.16|0.55|0.8428
92415778|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.3416|TWO_SIDED|90.0|0.76|2.84|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 2.||2.84|0.76|0.3416
92415779|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.3287|TWO_SIDED|90.0|0.4|1.26|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 3.||1.26|0.40|0.3287
92415780|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.2112|TWO_SIDED|90.0|0.88|2.57|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 3.||2.57|0.88|0.2112
92415781|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.44||||0.0134|TWO_SIDED|90.0|0.26|0.76|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 4.||0.76|0.26|0.0134
92384264|NCT00488826|184671725|SUPERIORITY_OR_OTHER||Geometric mean ratio|44.7||||||90.0|29.48|68.71||P-Values were not calculated.|||This analysis is for Serotype 23F.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||68.71|29.48|
92384265|NCT02126839|184671743|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.02|STANDARD_ERROR_OF_MEAN|4.52|<|0.0001|TWO_SIDED|95.0|16.1|33.94|||mixed model repeated measures analysis|Fixed effects of treatment group, treatment day, and study day by treatment interaction, with baseline measured at each study day as a covariate.||||33.94|16.10|<0.0001
92384266|NCT02126839|184671744|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|76.33|STANDARD_ERROR_OF_MEAN|14.47|<|0.0001|TWO_SIDED|95.0|47.76|104.91|||mixed model repeated measures|Fixed effects of treatment group, treatment day, and study day by treatment interaction, with baseline measured at each study day as a covariate.||||104.91|47.76|<0.0001
92384267|NCT00422383|184671769|SUPERIORITY_OR_OTHER||Weighted Difference|-0.01||||0.8156|TWO_SIDED|95.0|-0.13|0.1|||Cochran-Mantel-Haenszel||Analysis stratified by region, prior biologic use, rheumatoid factor (RF) status, and treatment.|||0.10|-0.13|0.8156
92384268|NCT00422383|184671769|SUPERIORITY_OR_OTHER||Weighted Difference|0.07||||0.2419|TWO_SIDED|95.0|-0.05|0.19|||Cochran-Mantel-Haenszel||Analysis stratified by region, prior biologic use, RF status, and treatment.|||0.19|-0.05|0.2419
92415782|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.3412|TWO_SIDED|90.0|0.81|2.17|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 4.||2.17|0.81|0.3412
92415783|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.8434|TWO_SIDED|90.0|0.58|1.54|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 5.||1.54|0.58|0.8434
92415784|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.0819|TWO_SIDED|90.0|1.03|2.63|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 5.||2.63|1.03|0.0819
92415785|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.2832|TWO_SIDED|90.0|0.44|1.19|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 6.||1.19|0.44|0.2832
92415786|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.47||||0.0016|TWO_SIDED|90.0|1.54|3.97|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 6.||3.97|1.54|0.0016
92169467|NCT03363854|184227456|SUPERIORITY||Difference|-2.9|||<|0.001|TWO_SIDED|95.0|-4.3|-1.6||This secondary endpoint was tested sequentially using the Holm method for multiplicity adjustment at a 5% significance level after sequential testing of the primary endpoints and the first secondary endpoint, if these showed statistical significance.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included.||-1.6|-4.3|<0.001
92384269|NCT00422383|184671772|SUPERIORITY_OR_OTHER|||||||0.7127|TWO_SIDED|||||Stratified by region, prior biologic use, RF status and treatment.|ANOVA|||||||0.7127
92384270|NCT00422383|184671772|SUPERIORITY_OR_OTHER|||||||0.1018|TWO_SIDED|||||Stratified by region, prior biologic use, RF status and treatment.|ANOVA|||||||0.1018
92384271|NCT00422383|184671773|SUPERIORITY_OR_OTHER|||||||0.5029|TWO_SIDED|||||Stratified by region, prior biologic use, RF status, and treatment.|Cochran-Mantel-Haenszel|||||||0.5029
92384272|NCT00422383|184671773|SUPERIORITY_OR_OTHER|||||||0.0495|TWO_SIDED|||||Stratified by region, prior biologic use, RF status, and treatment.|Cochran-Mantel-Haenszel|||||||0.0495
92384273|NCT00238238|184671811|SUPERIORITY_OR_OTHER|||||||0.29|||||||Fisher Exact|||||||0.29
92384274|NCT00238238|184671812|SUPERIORITY_OR_OTHER|||||||0.002|||||||Log Rank|||||||0.002
92384275|NCT04978818|184671813|NON_INFERIORITY|The anti-PRP IgG GMC for children receiving dose 1 of Vaxelis® was defined a priori as non-inferior if it was within a 1.5-fold margin of the GMC for children receiving dose 1 of PedvaxHIB®, corresponding to the lower bound of the 95% confidence interval (CI) of the IgG GMC ratio (Vaxelis® to PedvaxHIB®) being greater than 0.67.|Ratio of Geometric Mean Concentration|1.03||||0.85|TWO_SIDED|95.0|0.75|1.41|||Constrained Longitudinal Analysis||The lower bound of the 95% confidence interval was greater than the pre-specified non-inferiority margin of 0.67. Thus, Vaxelis® post-dose 1 anti-PRP IgG immunogenicity met the non-inferiority criterion compared to PedvaxHIB®.|||1.41|0.75|0.85
92384276|NCT04978818|184671814|OTHER|||||||0.39|||||||Chi-squared|||||||0.39
92384277|NCT04978818|184671815|OTHER|||||||0.64|||||||Chi-squared|||||||0.64
92384278|NCT04978818|184671816|OTHER|||||||0.87|||||||Chi-squared|||||||0.87
92384279|NCT04978818|184671817|OTHER|||||||0.3|||||||Chi-squared|||||||0.3
92384280|NCT04978818|184671818|OTHER|||||||0.15|||||||Chi-squared|||||||0.15
92384281|NCT04978818|184671819|OTHER|||||||0.03|||||||Chi-squared|||||||0.03
92384282|NCT01007838|184671821|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||Statistical significance was accepted if p \< 0.05.|ANCOVA|||Omnibus ANCOVA. An interaction would suggests patients responded to exercise differently than controls||||0.30
92415787|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.9727|TWO_SIDED|90.0|0.6|1.63|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 8.||1.63|0.60|0.9727
92415788|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.57||||0.001|TWO_SIDED|90.0|1.6|4.13|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 8.||4.13|1.60|0.0010
92415789|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8312|TWO_SIDED|90.0|0.64|1.8|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 10.||1.80|0.64|0.8312
92415790|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.06||||0.0002|TWO_SIDED|90.0|1.86|5.02|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 10.||5.02|1.86|0.0002
92415791|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58||||0.553|TWO_SIDED|90.0|0.13|2.6|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 1.||2.60|0.13|0.5530
92415792|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.978|TWO_SIDED|90.0|0.28|3.41|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 1.||3.41|0.28|0.9780
92415793|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.8312|TWO_SIDED|90.0|0.43|3.03|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 2.||3.03|0.43|0.8312
92415794|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.1881|TWO_SIDED|90.0|0.83|5.25|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 2.||5.25|0.83|0.1881
92415795|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.6384|TWO_SIDED|90.0|0.39|1.69|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 3.||1.69|0.39|0.6384
92239668|NCT00844428|184383115|SUPERIORITY_OR_OTHER||Percent of TMA event-free responders|95.0|||||TWO_SIDED|95.0|75.0|100.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||100|75|
92415796|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.216|TWO_SIDED|90.0|0.84|3.37|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 3.||3.37|0.84|0.2160
92415797|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.0259|TWO_SIDED|90.0|0.2|0.79|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 4.||0.79|0.20|0.0259
92415798|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.3959|TWO_SIDED|90.0|0.39|1.35|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 4.||1.35|0.39|0.3959
92415799|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.3857|TWO_SIDED|90.0|0.39|1.34|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 5.||1.34|0.39|0.3857
92415800|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.3126|TWO_SIDED|90.0|0.8|2.52|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 5.||2.52|0.80|0.3126
92415801|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.1182|TWO_SIDED|90.0|0.36|1.03|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 6.||1.03|0.36|0.1182
92415802|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||0.0125|TWO_SIDED|90.0|1.29|3.43|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 6.||3.43|1.29|0.0125
92415803|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.2147|TWO_SIDED|90.0|0.42|1.13|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 8.||1.13|0.42|0.2147
92415804|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.0783|TWO_SIDED|90.0|1.03|2.69|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 8.||2.69|1.03|0.0783
92415805|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.9067||90.0|0.57|1.64|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 10.||1.64|0.57|0.9067
92415806|NCT00420641|184720704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.0328|TWO_SIDED|90.0|1.15|2.92|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 10.||2.92|1.15|0.0328
92415807|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.6928|TWO_SIDED|90.0|0.44|3.76|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 1.||3.76|0.44|0.6928
92239669|NCT00844428|184383116|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||99|68|
92415808|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86||||0.3039|TWO_SIDED|90.0|0.69|5.01|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 1.||5.01|0.69|0.3039
92415809|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.1938|TWO_SIDED|90.0|0.89|2.7|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 2.||2.70|0.89|0.1938
92415810|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.06|TWO_SIDED|90.0|1.08|3.16|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 2.||3.16|1.08|0.0600
92415811|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8989|TWO_SIDED|90.0|0.61|1.53|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 3.||1.53|0.61|0.8989
92415812|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.95||||0.0136|TWO_SIDED|90.0|1.25|3.05|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 3.||3.05|1.25|0.0136
92415813|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.3099|TWO_SIDED|90.0|0.5|1.18|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 4.||1.18|0.50|0.3099
92415814|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.1137|TWO_SIDED|90.0|0.98|2.27|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 4.||2.27|0.98|0.1137
92415815|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8682||90.0|0.67|1.64|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 5.||1.64|0.67|0.8682
92415816|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.56||||0.0006|TWO_SIDED|90.0|1.63|4.03|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 5.||4.03|1.63|0.0006
92415817|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.8992|TWO_SIDED|90.0|0.62|1.51|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 6.||1.51|0.62|0.8992
92415818|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.61||||0.0004|TWO_SIDED|90.0|1.67|4.09|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 6.||4.09|1.67|0.0004
92415819|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.28|TWO_SIDED|90.0|0.85|2.23|||Placebo versus GSK372475 in percentage o|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 8.||2.23|0.85|0.2800
92415820|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.69||||0|TWO_SIDED|90.0|2.24|6.08|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 8.||6.08|2.24|0.0000
92415821|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86||||0.0507|TWO_SIDED|90.0|1.1|3.13|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 10.||3.13|1.10|0.0507
92384283|NCT01007838|184671821|SUPERIORITY_OR_OTHER|||||||0.0017||95.0||||Statistical significance was accepted if p \< 0.05.|ANOVA|||Follow up ANOVA in chronic kideny disease patients only. An interaction would suggest patients allocated to the resistance exercise group increased muscle size more than those allocated to the sham exercise group.||||0.0017
92384284|NCT01007838|184671821|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||Statistical sigficance was accepted if p \< 0.05.|ANOVA|||Follow up ANOVA in healthy controls only. An interaction would suggest healthy controls allocated to the resistance exercise group increased muscle size more than those allocated to the sham exercise group.||||0.024
92384285|NCT03738618|184671856|OTHER||Treatment difference|43.3|||<|0.001|TWO_SIDED|95.0|36.5|47.6|||Fisher Exact||95% exact Agresti-Min confidence intervals.|||47.6|36.5|<0.001
92384286|NCT03738618|184671857|OTHER||Treatment difference|22.0|||<|0.001|TWO_SIDED|95.0|14.9|25.7|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Ongoing Pregnancy Rate in the Fresh Cycle||25.7|14.9|<0.001
92384287|NCT03738618|184671861|OTHER||Treatment difference|26.8|||<|0.001|TWO_SIDED|95.0|19.8|30.8|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Clinical pregnancy rate in the fresh cycle||30.8|19.8|<0.001
92384288|NCT03738618|184671861|OTHER||Treatment difference|52.0|||<|0.001|TWO_SIDED|95.0|44.9|56.3|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Clinical pregnancy rate cumulatively||56.3|44.9|<0.001
92415822|NCT00420641|184720705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.97||||0.0003|TWO_SIDED|90.0|1.81|4.88|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 10.||4.88|1.81|0.0003
92415823|NCT00420641|184720706|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8782|TWO_SIDED|90.0|0.62|1.5|||Regression, Logistic|||Placebo versus GSK372475 in percentage of participants Satisfied with Study Medication at Week 10.||1.50|0.62|0.8782
92415824|NCT00420641|184720706|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.45||||0.0011|TWO_SIDED|90.0|1.56|3.86|||Regression, Logistic|||Placebo versus Paroxetine in percentage of participants Satisfied with Study Medication at Week 10.||3.86|1.56|0.0011
92415825|NCT02815280|184720718|SUPERIORITY||Mean Difference (Final Values)|3.15|STANDARD_ERROR_OF_MEAN|1.12||0.0051|TWO_SIDED|95.0|0.95|5.35|||ANCOVA|||Change from baseline in inflammatory lesion count was analyzed using an analysis of covariance (ANCOVA) model, which included treatment, baseline inflammatory lesion count and pooled investigational site as a blocking factor.||5.35|0.95|0.0051
92169468|NCT03363854|184227458|SUPERIORITY||Difference|-3.5||||0.41|TWO_SIDED|95.0|-11.9|4.9||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 1-2 are reported below.||4.9|-11.9|0.41
92233367|NCT01309737|184369226|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.43|||<|0.0001|TWO_SIDED|95.0|8.99|30.59||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||30.59|8.99|<0.0001
92233368|NCT01309737|184369226|SUPERIORITY_OR_OTHER||Percent difference|13.08|STANDARD_ERROR_OF_MEAN|3.62||0.0003|TWO_SIDED|95.0|5.99|20.17|||Normal approximation|||||20.17|5.99|0.0003
92384289|NCT03738618|184671862|OTHER||Treatment difference|23.5|||<|0.001|TWO_SIDED|95.0|16.7|27.2|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Vital pregnancy rate in the fresh cycle||27.2|16.7|<0.001
92384290|NCT03738618|184671862|OTHER||Treatment difference|45.6|||<|0.001|TWO_SIDED|95.0|38.5|49.9|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Vital pregnancy rate cumulatively||49.9|38.5|<0.001
92384291|NCT03738618|184671864|OTHER||Treatment difference|32.1|||<|0.001|TWO_SIDED|95.0|24.9|36.2|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Positive βhCG rate in the fresh cycle||36.2|24.9|<0.001
92384292|NCT03738618|184671864|OTHER||Treatment difference|58.9|||<|0.001|TWO_SIDED|95.0|51.9|63.0|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Positive βhCG rate cumulatively||63.0|51.9|<0.001
92384293|NCT03738618|184671876|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
92384294|NCT03738618|184671877|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
92384295|NCT03738618|184671878|OTHER|||||||0.19|||||||Fisher Exact|||||||0.190
92384296|NCT03738618|184671879|OTHER|||||||0.396|||||||Fisher Exact|||||||0.396
92384297|NCT01959139|184671975|SUPERIORITY||Hazard Ratio (HR)|2.07|||<|0.01|TWO_SIDED|95.0|1.28|3.34|||Regression, Cox|||||3.34|1.28|<0.01
92384298|NCT01959139|184671976|SUPERIORITY||Hazard Ratio (HR)|1.74||||0.01|TWO_SIDED|95.0|1.14|2.66|||Regression, Cox|||||2.66|1.14|0.01
92384299|NCT02255461|184672002|OTHER|Ordinal logistic regression model was built for outcome neutropenia (0/1/2). Explanatory variable AUC was transformed by dividing by 100.|Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.97|1.15||||||||1.15|0.97|
92384300|NCT02255461|184672003|OTHER|Ordinal logistic regression model was built for outcome lymphopenia (0/1/2). Explanatory variable AUC was transformed by dividing by 100.|Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.97|1.15||||||||1.15|0.97|
92384301|NCT02255461|184672004|OTHER|Ordinal logistic regression model was built for outcome leukopenia (0/1/2). Explanatory variable AUC was transformed by dividing by 100.|Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|1.01|1.2||||||||1.20|1.01|
92415826|NCT02815280|184720719|SUPERIORITY|P-value is for the null hypothesis that the combined log (Risk Ratio) equals 0.|Risk ratio|1.88|STANDARD_ERROR_OF_MEAN|0.31||0.0424|TWO_SIDED|95.0|1.02|3.46|||Mantel Haenszel|||||3.46|1.02|0.0424
92415827|NCT02815280|184720720|SUPERIORITY||Mean Difference (Final Values)|12.84|STANDARD_ERROR_OF_MEAN|5.3||0.0155|TWO_SIDED|95.0|2.44|23.23||Percent change from baseline was analyzed using an ANCOVA model, which included treatment, baseline non-inflammatory lesion counts and pooled investigational site as a blocking factor. For the superiority comparison between FMX101 4% and vehicle.|ANCOVA|||||23.23|2.44|0.0155
92415828|NCT02815280|184720721|SUPERIORITY|Change from baseline in inflammatory lesion count for Week 6 was analyzed using an ANCOVA model, which included treatment, baseline inflammatory lesion counts and pooled investigational site as a blocking factor.|Mean Difference (Final Values)|3.89|STANDARD_ERROR_OF_MEAN|1.03||0.0001|TWO_SIDED|95.0|1.88|5.9|||ANCOVA|||||5.90|1.88|0.0001
92169469|NCT03363854|184227458|SUPERIORITY||Difference|-6.9||||0.033|TWO_SIDED|95.0|-13.3|-0.6||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 3-4 are reported below.||-0.6|-13.3|0.033
92169470|NCT03363854|184227458|SUPERIORITY||Difference|-4.7||||0.12|TWO_SIDED|95.0|-10.6|1.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 5-6 are reported below.||1.2|-10.6|0.12
92233369|NCT01309737|184369227|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-45.73|STANDARD_ERROR_OF_MEAN|3.69|<|0.0001|TWO_SIDED|95.0|-52.98|-38.49||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error.Sequential order of testing: percent change in BSA at Week 16,PASI90 response at Week 16, change in Dermatology Life Quality Index(DLQI) total score at Week 16,PGA response at Week 4,PASI75 at Week 4, change in DLQI total score at Week 4, percent change in Nail Psoriasis Severity Index(NAPSI) score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-38.49|-52.98|<0.0001
92278356|NCT02750306|184458611|SUPERIORITY||Difference in Least Squares Means|-15.7||||0.01354|TWO_SIDED|95.0|-28.1|-3.3|||ANCOVA|||||-3.3|-28.1|0.01354
92384302|NCT01496469|184672015|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.3||||0.882|TWO_SIDED|95.0|-3.9|3.4||Analysis of covariance (ANCOVA) model with treatment as a factor, and the baseline value and prior use of an ARB or an ACEi as covariates.|ANCOVA|||A total of 120 enrolled participants (60 participants per treatment group) was sufficient to achieve 80 percent (%) power to detect a difference of 6.0 mmHg between the placebo and febuxostat 80 mg treatment groups by a 2 sample t-test of the mean change from Baseline at Week 6 in 24-hour mean ambulatory SBP with a 2-sided significance level of 5%.||3.4|-3.9|0.882
92384303|NCT01496469|184672016|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.6||||0.613|TWO_SIDED|95.0|-1.9|3.2||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment as a factor, and the baseline value and prior use of an ARB or an ACEi as covariates.||3.2|-1.9|0.613
92384304|NCT01496469|184672017|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.4|||<|0.001|TWO_SIDED|95.0|-3.9|-2.9||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment as a factor, and the baseline value and prior use of an ARB or an ACEi as covariates.||-2.9|-3.9|<0.001
92384305|NCT01963845|184672018|SUPERIORITY_OR_OTHER|||||||0.585|||||||t-test, 2 sided|||||||0.585
92384306|NCT01963845|184672019|SUPERIORITY_OR_OTHER|||||||0.7583|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in AST values from baseline to 24 weeks between the two groups.||||0.7583
92384307|NCT01963845|184672020|SUPERIORITY_OR_OTHER|||||||0.8569|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in ALT values from baseline to 24 weeks between the two groups.||||0.8569
92384308|NCT01963845|184672021|SUPERIORITY_OR_OTHER|||||||0.7984|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in LDL values from baseline to 24 weeks between the two groups.||||0.7984
92415829|NCT02815280|184720721|SUPERIORITY|Change from baseline in inflammatory lesion count for Week 9 was analyzed using an ANCOVA model, which included treatment, baseline inflammatory lesion counts and pooled investigational site as a blocking factor.|Mean Difference (Final Values)|3.78|STANDARD_ERROR_OF_MEAN|1.11||0.0007|TWO_SIDED|95.0|1.6|5.95|||ANCOVA|||||5.95|1.60|0.0007
92415830|NCT02815280|184720722|SUPERIORITY|P-value is for the null hypothesis that the combined log (Risk Ratio) equals 0. Percentage of participants achieving IGA treatment success at Week 6.|Risk Difference (RD)|3.87|STANDARD_ERROR_OF_MEAN|1.44||0.0071|TWO_SIDED|95.0|1.06|6.69|||Cochran-Mantel-Haenszel|||||6.69|1.06|0.0071
92169471|NCT03363854|184227458|SUPERIORITY||Difference|-7.3||||0.043|TWO_SIDED|95.0|-14.3|-0.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 7-8 are reported below.||-0.2|-14.3|0.043
92384309|NCT01963845|184672022|SUPERIORITY_OR_OTHER|||||||0.556|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in HOMA-IR values from baseline to 24 weeks between the two groups.||||0.5560
92384310|NCT01357551|184672023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.61|STANDARD_ERROR_OF_MEAN|0.78||0.04|TWO_SIDED|95.0|0.07|3.13||A priori threshold was p\<.05|Mixed Models Analysis|Parameters included common intercept, initial weight loss stratum, dummy-coded time, and indicators for the maintenance X each follow-up time point||The sample size estimate was based on the primary hypothesis that patients randomized to receive the maintenance intervention would have less mean weight regain at week 56 than those randomized to usual care. The week 0 standard deviation was estimated as 24.6kg, the correlation between week 0 and week 56 as 0.95, and the week 56 dropout rate as 10%. To detect a difference of 3.5 kg with 90% power and a type I error rate of 5%, 230 total (115 in each group) randomized patients were needed.||3.13|.07|.04
92384311|NCT01357551|184672024|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-125.49|STANDARD_ERROR_OF_MEAN|78.64||0.11|TWO_SIDED|95.0|-280.71|29.72|||Mixed Models Analysis|Common intercept, initial weight loss stratum, indicators for week 26 \& 56, group X time interaction||The hypothesis was that patients randomized to receive the maintenance intervention would have less caloric intake at week 56 than those randomized to usual care.||29.72|-280.71|.11
92415831|NCT02815280|184720722|SUPERIORITY||Risk Difference (RD)|1.64|STANDARD_ERROR_OF_MEAN|2.52||0.5143|TWO_SIDED|95.0|-3.3|6.58|||Cochran-Mantel-Haenszel|||||6.58|-3.30|0.5143
92415832|NCT00603642|184720728|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92415833|NCT00603642|184720729|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92415834|NCT00603642|184720730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||ANCOVA|||||||0.0003
92415835|NCT00603642|184720731|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92415836|NCT00603642|184720732|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6015|||||||Fisher Exact|||||||0.6015
92415837|NCT00853996|184720744|OTHER||||||<|0.001||||||No adjustment for multiple comparisons since this was primary endpoint. A priori threshold for statistical significance was set at \<0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92233370|NCT01309737|184369227|SUPERIORITY_OR_OTHER||LS Mean Difference|-58.1|STANDARD_ERROR_OF_MEAN|3.69|<|0.0001|TWO_SIDED|95.0|-65.33|-50.86||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error.Sequential order of testing: percent change in BSA at Week 16,PASI90 response at Week 16, change in Dermatology Life Quality Index(DLQI) total score at Week 16,PGA response at Week 4,PASI75 at Week 4, change in DLQI total score at Week 4, percent change in Nail Psoriasis Severity Index(NAPSI) score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-50.86|-65.33|<0.0001
92384312|NCT01357551|184672025|SUPERIORITY_OR_OTHER||incidence rate ratio|1.03|STANDARD_ERROR_OF_MEAN|0.26||0.91|TWO_SIDED|95.0|0.63|1.68|||Mixed Models Analysis|Common intercept, initial weight loss stratum, indicators for week 26 \& 56, group X time interaction; negative binomial distribution with log link||The hypothesis was that patients randomized to receive the maintenance intervention would have higher rates of walking per week at week 56 than those randomized to usual care.||1.68|0.63|.91
92233371|NCT01309737|184369227|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.36|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|-18.24|-6.48|||Mixed Models Analysis|||LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-6.48|-18.24|<0.0001
92384313|NCT01357551|184672026|SUPERIORITY_OR_OTHER||incidence rate ratio|1.07|STANDARD_ERROR_OF_MEAN|0.35||0.83|TWO_SIDED|95.0|0.57|2.03|||Mixed Models Analysis|Common intercept, initial weight loss stratum, indicators for week 26 \& 56, group X time interaction; negative binomial distribution with log link||The hypothesis was that patients randomized to receive the maintenance intervention would have higher rates of moderate physical activity per week at week 56 than those randomized to usual care.||2.03|0.57|.83
92384314|NCT02219334|184672027|EQUIVALENCE|Historical data at the institution for similar patients had a mean length of stay(LOS) of 25.7 hours (standard deviation-\[SD\] =10.3) from 9/2012- 9/13 was observed for 134 patients admitted to the emergency department observation unit and treated with the standard of care (NeoSucker). Given a LOS-SD of 10.3 hours, 75 subjects per treatment group would provide 80% statistical power at the 5% significance level to demonstrate equivalence in the two treatments' length of stay within ±5 hours.|Mean Difference (Final Values)|2.49|STANDARD_DEVIATION|21.4|<|0.05|TWO_SIDED|95.0|-10.74|15.72|||two one-sided t-test (TOST)||Due to slower than anticipated patient recruitment, the target size of 75 participants per treatment group was not reached.|The primary hypothesis of length of stay equivalence within a margin of ± 5 hours was tested using the two one-sided t-test (TOST) procedure, with a 5% significance level.||15.72|-10.74|<0.05
92384315|NCT06292130|184672034|OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
92384316|NCT06292130|184672035|OTHER|||||||0.006|||||||t-test, 2 sided|||||||0.006
92384317|NCT00118742|184672041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.9||||0.0012||95.0|14.8|35.0|||ANCOVA|||||35.0|14.8|0.0012
92384318|NCT00118742|184672042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.6|||<|0.0001||95.0|15.7|35.6|||ANCOVA|||||35.6|15.7|<0.0001
92384319|NCT00118742|184672043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.7||||0.0053||95.0|13.7|43.7|||ANCOVA|||||43.7|13.7|0.0053
92384320|NCT00118742|184672044|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|21.1|||<|0.0001||95.0|12.5|29.6|||ANCOVA|||Statistical analysis for calculated creatinine clearance at 6 months posttransplant||29.6|12.5|<0.0001
92384321|NCT00118742|184672044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.2|||<|0.0001||95.0|9.9|26.6|||ANCOVA|||Statistical analysis for calculated creatinine clearance at 12 months posttransplant||26.6|9.9|<0.0001
92415838|NCT00853996|184720745|OTHER|||||||0.067||||||No adjustment for multiple comparisons. A priori threshold for statistical significance was set at \<0.05.|Wilcoxon (Mann-Whitney)|||||||0.067
92384322|NCT00118742|184672044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.6||||0.0006||95.0|10.2|37.0|||ANCOVA|||Statistical analysis for calculated creatinine clearance at 24 months posttransplant||37.0|10.2|0.0006
92384323|NCT00930553|184672054|SUPERIORITY_OR_OTHER||Percentage with SAD|22.33|||||TWO_SIDED|95.0|18.33|27.06|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||27.06|18.33|
92384324|NCT00930553|184672054|SUPERIORITY_OR_OTHER||Percentage with SAD|29.69|||||TWO_SIDED|95.0|25.42|34.49|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||34.49|25.42|
92384325|NCT00930553|184672055|SUPERIORITY_OR_OTHER||Percentage with SAD|9.35|||||TWO_SIDED|95.0|5.54|15.56|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||15.56|5.54|
92384326|NCT00930553|184672055|SUPERIORITY_OR_OTHER||Percentage with SAD|7.95|||||TWO_SIDED|95.0|4.48|13.9|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||13.90|4.48|
92384327|NCT00930553|184672055|SUPERIORITY_OR_OTHER||Percentage with SAD|20.42|||||TWO_SIDED|95.0|14.67|28.03|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||28.03|14.67|
92239670|NCT00844428|184383117|SUPERIORITY_OR_OTHER||Percent of complete TMA response|55.0|||||TWO_SIDED|95.0|32.0|77.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||77|32|
92384328|NCT00930553|184672055|SUPERIORITY_OR_OTHER||Percentage with SAD|11.99|||||TWO_SIDED|95.0|7.63|18.58|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||18.58|7.63|
92384329|NCT00930553|184672056|SUPERIORITY_OR_OTHER||Percentage with SRD|32.69|||||TWO_SIDED|95.0|26.96|39.28|||||The percentage and 95% CI of the participants with SRD are estimated by the Kaplan Meier method.|||39.28|26.96|
92384330|NCT00930553|184672056|SUPERIORITY_OR_OTHER||Percentage with SRD|42.46|||||TWO_SIDED|95.0|37.08|48.28|||||The percentage and 95% CI of the participants with SRD are estimated by the Kaplan Meier method.|||48.28|37.08|
92415839|NCT00853996|184720746|OTHER|||||||0.001||||||No adjustment for multiple comparisons. A priori threshold for statistical significance was set at \<0.05|Wilcoxon (Mann-Whitney)|||||||0.001
92415840|NCT00853996|184720747|OTHER|||||||0.002||||||No adjustment for multiple comparisons. A priori threshold for statistical significance was set at \<0.05|Wilcoxon (Mann-Whitney)|||||||0.002
92169472|NCT03363854|184227458|SUPERIORITY||Difference|-9.1||||0.002|TWO_SIDED|95.0|-14.8|-3.4||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 9-10 are reported below.||-3.4|-14.8|0.002
92169473|NCT03363854|184227458|SUPERIORITY||Difference|-8.0||||0.001|TWO_SIDED|95.0|-12.8|-3.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 11-12 are reported below.||-3.2|-12.8|0.001
92233372|NCT01309737|184369228|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.5|||<|0.0001||95.0|3.48|17.31||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||17.31|3.48|<0.0001
92233373|NCT01309737|184369228|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.53|||<|0.0001|TWO_SIDED|95.0|8.08|46.22||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||46.22|8.08|<0.0001
92233374|NCT01309737|184369228|SUPERIORITY_OR_OTHER||Percent Difference|14.3|STANDARD_ERROR_OF_MEAN|3.36|<|0.0001|TWO_SIDED|95.0|7.72|20.88|||Normal Approximation|||||20.88|7.72|<0.0001
92278357|NCT02422290|184458612|SUPERIORITY||Mean Difference (Final Values)|1.53|STANDARD_ERROR_OF_MEAN|1.83||0.2|TWO_SIDED|95.0|-2.27|7.87|||t-test, 2 sided|||Paired sample t-test was calculated to test mean difference between CY-BOCS scores at the time points Baseline and Day 14.||7.87|-2.27|.20
92384331|NCT00930553|184672057|SUPERIORITY_OR_OTHER||Percentage with SRD|16.92|||||TWO_SIDED|95.0|9.75|28.47|||||The percentage and 95% CI of the participants with SRD are estimated by the Kaplan Meier method.|||28.47|9.75|
92384332|NCT00930553|184672057|SUPERIORITY_OR_OTHER||Percentage with SRD|13.89|||||TWO_SIDED|95.0|8.47|22.33|||||The percentage and 95% CI of the participants with SRD are estimated by the Kaplan Meier method.|||22.33|8.47|
92415841|NCT00853996|184720748|OTHER|||||||0.002||||||No adjustment for multiple comparisons. A priori threshold for statistical significance set at 0.05|Wilcoxon (Mann-Whitney)|||||||0.002
92415842|NCT01607203|184720753|NON_INFERIORITY_OR_EQUIVALENCE|t -test||||||0.04|TWO_SIDED||||||Fisher Exact|||||||0.04
92415843|NCT00609362|184720755|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||P-value is un-adjusted. A priori threshold for significance: 0.05|t-test, 2 sided|||The minimum number of participants was determined by power calculations to be 44 (22 in each group), assuming a difference in change in BMD of 1.7%, a standard deviation of 2%, a power of 80%, and a level of significance of 5%.||||0.055
92384333|NCT00183625|184672115|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED|95.0|||||Regression, Linear|||||||0.66
92384334|NCT00183625|184672116|SUPERIORITY_OR_OTHER|||||||0.0176||95.0||||The p-value listed is for the medication by time interaction.|Mixed Models Analysis|||Mixed effects regression of body mass index on medication group (risp or olanz), time (in days over first 18 months of study) and a group by time interaction with site and baseline timepoint indicators as covariates. The model included a random slope and intercept for time.||||.0176
92384335|NCT01835158|184672138|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.012|TWO_SIDED|95.0|0.46|0.95|||Log Rank|||||.95|.46|0.012
92415844|NCT00609362|184720756|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||t-test, 2 sided|||||||0.056
92415845|NCT00609362|184720757|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
92415846|NCT00548405|184720764|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.0084|TWO_SIDED|95.0|0.38|0.87||Hochberg method was used to adjust for the two co-primary outcomes.|Cox Proportional Hazards Regression|||Cox proportional hazards (PH) regression model with robust variance estimation using treatment group and geographic region as covariate was used.||0.87|0.38|0.0084
92415847|NCT00548405|184720765|SUPERIORITY_OR_OTHER||Rate ratio|0.51|||<|0.0001|TWO_SIDED|95.0|0.39|0.65||Hochberg method was used to adjust for the two co-primary outcomes.|Proportional means regression|||Proportional means regression model with robust variance estimation and covariate adjustment for geographic region was used.||0.65|0.39|<0.0001
92415848|NCT00548405|184720766|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.41|0.69|||Cox Proportional Hazards Regression|||Cox PH regression model with robust variance estimation and covariate adjustment for geographic region was used.||0.69|0.41|<0.0001
92415849|NCT00548405|184720767|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wei-Lachin|||The analysis was performed using Wei-Lachin method for non-parametric analysis of repeated measures.||||<0.0001
92415850|NCT00548405|184720768|SUPERIORITY_OR_OTHER|||||||0.0022|||||||Wei-Lachin|||Change at Year 2: the analysis was performed using Wei-Lachin method for non-parametric analysis of repeated measures.||||0.0022
92415851|NCT00548405|184720769|SUPERIORITY_OR_OTHER|||||||0.1371|TWO_SIDED||||||Ranked ANCOVA|||Ranked ANCOVA models with covariate adjustment for geographic region and Baseline T2 lesion volume was used.||||0.1371
92415852|NCT05027971|184720776|OTHER||Proportion by cohort|0.02|||||TWO_SIDED|95.0|0.002|0.07||||||||.07|.002|
92415853|NCT05027971|184720777|OTHER||Proportion by cohort|0.03|||||TWO_SIDED|95.0|0.006|0.084||||||||.084|.006|
92415854|NCT05027971|184720778|OTHER||Proportion by cohort|0.667|||||TWO_SIDED|95.0|0.553|0.768||||||||.768|.553|
92415855|NCT05027971|184720779|OTHER||Mean Difference (Final Values)|-15.8|||||TWO_SIDED|95.0|-17.4|-14.2||||||||-14.2|-17.4|
92415856|NCT05027971|184720782|OTHER||Proportion by cohort|1.0|||||TWO_SIDED|95.0|0.963|1.0||||||||1|.963|
92415857|NCT05027971|184720783|OTHER||Proportion by cohort|1.0|||||TWO_SIDED|95.0|0.963|1.0||||||||1|.963|
92415858|NCT05027971|184720784|OTHER||Proportion by cohort|1.0|||||TWO_SIDED|95.0|0.963|1.0||||||||1|.963|
92415859|NCT05027971|184720785|OTHER||Proportion by cohort|0.889|||||TWO_SIDED|95.0|0.81|0.943||||||||.943|.810|
92415860|NCT05027971|184720786|OTHER||Mean Difference (Final Values)|15.0|||||TWO_SIDED|95.0|11.3|18.6||||||||18.6|11.3|
92415861|NCT05027971|184720787|OTHER||Mean Difference (Final Values)|-3.4|||||TWO_SIDED|95.0|-3.9|-2.9||||||||-2.9|-3.9|
92415862|NCT05027971|184720788|OTHER||Proportion by cohort|1.0|||||TWO_SIDED|95.0|0.963|1.0||||||||1|.963|
92415863|NCT02025556|184720789|SUPERIORITY||Mean Difference (Final Values)|-2.81|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001|TWO_SIDED|95.0|-4.07|-1.55||The threshold for statistical significance was p = .05.|Mixed Models Analysis|||||-1.55|-4.07|< .0001
92415864|NCT02025556|184720789|SUPERIORITY||Mean Difference (Final Values)|-2.64|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001|TWO_SIDED|95.0|-3.9|-1.38||The threshold for statistical significance was p = .05.|Mixed Models Analysis|||||-1.38|-3.9|< .0001
92415865|NCT02582684|184720794|OTHER|Binomial Proportion of Participants with Virologic Success and 95% Confidence Interval|proportion|0.9|||||TWO_SIDED|95.0|0.83|0.95|||||Confidence interval was calculated using the Clopper-Pearson exact method.|||0.95|0.83|
92415866|NCT02582684|184720795|OTHER|Binomial Proportion of Participants with Virologic Success and 95% Confidence Interval|Proportion|0.89|||||TWO_SIDED|95.0|0.82|0.94|||||Confidence interval was calculated using the Clopper-Pearson exact method.|||0.94|0.82|
92415867|NCT02582684|184720796|OTHER|Binomial Proportion of Participants with Virologic Success and 95% Confidence Interval|proportion|0.85|||||TWO_SIDED|95.0|0.77|0.91|||||Confidence interval was calculated using the Clopper-Pearson exact method.|||0.91|0.77|
92415868|NCT01587898|184720834|SUPERIORITY_OR_OTHER|||||||0.5888|||||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Subgroup: Baseline Hgb||||0.5888
92415869|NCT01587898|184720834|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Subgroup: Baseline Weight||||0.6600
92415870|NCT01587898|184720834|SUPERIORITY_OR_OTHER|||||||0.7999|||||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Subgroup: Baseline estimated glomerular filtration rate (eGFR)||||0.7999
92415871|NCT01587898|184720834|SUPERIORITY_OR_OTHER|||||||0.2092|||||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Ethnicity||||0.2092
92415872|NCT01587898|184720834|SUPERIORITY_OR_OTHER|||||||0.9996||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Geographic Ancestry||||0.9996
92415873|NCT01587898|184720834|SUPERIORITY_OR_OTHER|||||||0.7002|||||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Sex||||0.7002
92415874|NCT01587898|184720834|SUPERIORITY_OR_OTHER|||||||0.5536||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Age||||0.5536
92415875|NCT01587898|184720834|SUPERIORITY_OR_OTHER|||||||0.0085||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Co-administration with food||||0.0085
92415876|NCT01587898|184720834|SUPERIORITY_OR_OTHER|||||||0.0021||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Diabetic||||0.0021
92415877|NCT01587898|184720834|SUPERIORITY_OR_OTHER|||||||0.2194||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Region||||0.2194
92415878|NCT00796991|184720877|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.963|||||TWO_SIDED|90.0|0.794|1.168|||Mixed Models Analysis|A general linear mixed model was applied to paclitaxel log(Cmax) using study day as a fixed effect.||Estimated effect of ipilimumab on paclitaxel Cmax. Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the paclitaxel/carboplatin/ipilimumab combination (Day 43) relative to paclitaxel/carboplatin alone (Day 1)||1.168|0.794|
92415879|NCT00796991|184720877|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.027|||||TWO_SIDED|90.0|0.848|1.243|||Mixed Models Analysis|study day was used as a fixed effect||Estimated effect of ipilimumab on dacarbazine Cmax. Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination (Day 43) relative to dacarbazine alone (Day 1).||1.243|0.848|
92415880|NCT00796991|184720877|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.058|||||TWO_SIDED|90.0|0.974|1.15|||Mixed Models Analysis|study day was used as a fixed effect||Estimated effect of ipilimumab on AIC Cmax. Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination (Day 43) relative to dacarbazine alone (Day 1).||1.150|0.974|
92415881|NCT00796991|184720877|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.934||||||90.0|0.768|1.136|||linear model|treatment arm as a fixed effect||Estimated effect of paclitaxel/carboplatin on ipilimumab Cmax: linear model was applied to ipilimumab log(Cmax)) data from Week 7 (Day 43) PK measurements in first and third arms with treatment arm as a fixed effect. Point estimates and 90% CIs for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the 3 drug combination relative to ipilimumab alone.||1.136|0.768|
92415882|NCT00796991|184720877|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.982|||||TWO_SIDED|90.0|0.798|1.208|||linear model|treatment arm as a fixed effect||Estimated effect of dacarbazine on ipilimumab Cmax: linear model was applied to ipilimumab log(Cmax) data from Week 7 (Day 43) PK measurements in second and third arms with treatment arm as a fixed effect. Point estimates and 90% CIs for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination relative to ipilimumab alone.||1.208|0.798|
92278358|NCT02422290|184458613|SUPERIORITY||Mean Difference (Final Values)|1.63|STANDARD_ERROR_OF_MEAN|0.49||0.18|TWO_SIDED|95.0|-0.56|2.16|||t-test, 2 sided|||Paired sample t-test was calculated to test mean difference between CGI-S scores at the time points Baseline and Day 14.||2.16|-.56|.18
92384336|NCT01835158|184672139|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.26||||||||1.26|0.50|
92384337|NCT00596830|184672141|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.179||||0.064|TWO_SIDED|95.0|0.99|1.404||The p-value stated is the 2-sided p-value from the log rank test stratified by gender, prior adjuvant chemotherapy, and histology.|Log Rank|||||1.404|0.990|0.064
92384338|NCT00596830|184672142|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.103||||0.27|TWO_SIDED|95.0|0.925|1.315||2-sided p-value is from the unstratified log-rank test|Log Rank||HR was based on the Cox proportional hazards model|||1.315|0.925|0.270
92384339|NCT00596830|184672143|SUPERIORITY_OR_OTHER||Risk difference|-1.472||||0.685|TWO_SIDED|95.0|-8.6|5.6|||Chi-squared||Risk difference confidence interval was calculated based on a normal distribution.|||5.6|-8.6|0.685
92384340|NCT00939562|184672159|SUPERIORITY_OR_OTHER||Ratio|102.95||||||90.0|94.74|111.86|||||The adjusted mean differences and 90% confidence intervals (CIs) were exponentiated to provide the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Doxycycline carragenate=Reference, doxycycline monohydrate=Test.|Natural log transformed Cmax was analyzed using a mixed effects model (sequence, period and treatment were fixed effects and subject within sequence was a random effect).||111.86|94.74|
92384341|NCT00939562|184672160|SUPERIORITY_OR_OTHER||Ratio|104.67||||||90.0|98.95|110.73|||||The adjusted mean differences and 90% CIs were exponentiated to provide the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Doxycycline carragenate=Reference, doxycycline monohydrate=Test.|Natural log transformed AUCinf was analyzed using a mixed effects model (sequence, period and treatment were fixed effects and subject within sequence was a random effect).||110.73|98.95|
92384342|NCT01336023|184672181|NON_INFERIORITY|"Non-inferiority of IDegLira vs. IDeg was confirmed when 95% confidence interval for the treatment differences for change in HbA1c lies entirely below 0.3%.~IDegLira minus IDeg"|Treatment Contrast|-0.47|||||TWO_SIDED|95.0|-0.58|-0.36|||ANCOVA||IDegLira minus IDeg|||-0.36|-0.58|
92384343|NCT01336023|184672181|SUPERIORITY|"Superiority of IDegLira over liraglutide was confirmed when the 95% confidence interval for the treatment difference for change in HbA1c lies entirely below 0%.~IDegLira minus Liraglutide"|Treatment contrast|-0.64|||||TWO_SIDED|95.0|-0.75|-0.53|||ANCOVA||IDegLira minus Liraglutide|||-0.53|-0.75|
92384344|NCT03037983|184672192|SUPERIORITY||Mean Difference (Net)|1.38||||0.849|TWO_SIDED||||||t-test, 2 sided|||||||.849
92384345|NCT03037983|184672194|SUPERIORITY||Mean Difference (Net)|0.5||||0.782|TWO_SIDED|||||t = 0.287|t-test, 2 sided|||||||.782
92384346|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 3 months||||0.008
92384347|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 6 months||||0.040
92384348|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 12 months||||0.033
92384349|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 3 months||||0.500
92384350|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 6 months||||0.750
92384351|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.156|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 12 months||||0.156
92384352|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.938|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 3 months||||0.938
92384353|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 6 months||||0.250
92384354|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 12 months||||0.999
92384355|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 18 Months||||0.057
92384356|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 18 Months||||0.031
92384357|NCT01846741|184672237|SUPERIORITY_OR_OTHER|||||||0.625|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 18 Months||||0.625
92384358|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0008
92384359|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0544|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizure Score||||0.0544
92384360|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0207|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.0207
92384361|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0163|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.0163
92384362|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0156|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.0156
92384363|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0742|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.0742
92384364|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0884|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.0884
92384365|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0007
92384366|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.1173|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizure||||0.1173
92384367|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0214|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery||||0.0214
92384368|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0114|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity||||0.0114
92384369|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery||||0.0078
92384370|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0875|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery||||0.0875
92384371|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.1526|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery||||0.1526
92384372|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0031|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0031
92384373|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0828|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizure||||0.0828
92384374|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0092|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery||||0.0092
92415883|NCT00796991|184720881|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.068|||||TWO_SIDED|90.0|0.954|1.196|||Mixed Models Analysis|A general linear mixed model was applied to paclitaxel log\[AUC(INF)\] using study day as a fixed effect.||Estimated effect of ipilimumab on paclitaxel AUC(INF). Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the paclitaxel/carboplatin/ipilimumab combination (Day 43) relative to paclitaxel/carboplatin alone (Day 1).||1.196|0.954|
92384375|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0096|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity||||0.0096
92384376|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0234|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery||||0.0234
92384377|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0284|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery||||0.0284
92384378|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0679|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery||||0.0679
92384379|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0003
92384380|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0728|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.0728
92384381|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.0005
92384382|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.0005
92384383|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.0078
92384384|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.0078
92384385|NCT01846741|184672238|SUPERIORITY_OR_OTHER|||||||0.0273|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.0273
92384386|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0192|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total||||0.0192
92384387|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.8069|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue||||0.8069
92384388|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.2416|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being||||0.2416
92384389|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.1111|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning||||0.1111
92384390|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0014|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning||||0.0014
92384391|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.3247|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects||||0.3247
92384392|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0826|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry||||0.0826
92384393|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.104|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life||||0.1040
92384394|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0094|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total||||0.0094
92384395|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.5874|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue||||0.5874
92415884|NCT00796991|184720881|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.912|||||TWO_SIDED|90.0|0.757|1.099|||Mixed Models Analysis|A general linear mixed model was applied to dacarbazine log\[AUC(INF)\] using study day as a fixed effect.||Estimated effect of ipilimumab on dacarbazine AUC(INF). Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination (Day 43) relative to dacarbazine alone (Day 1).||1.099|0.757|
92384396|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.1508|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being||||0.1508
92384397|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0136|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning||||0.0136
92384398|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning||||0.0015
92384399|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.3522|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects||||0.3522
92384400|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry||||0.0240
92384401|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0353|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life||||0.0353
92384402|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0361|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total Score||||0.0361
92384403|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.1921|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue||||0.1921
92384404|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.1639|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being||||0.1639
92384405|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.1738|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning||||0.1738
92384406|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0401|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning||||0.0401
92384407|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.2753|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects||||0.2753
92384408|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0056|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry||||0.0056
92384409|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.1173|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life||||0.1173
92415885|NCT00796991|184720881|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.891|1.056|||Mixed Models Analysis|A general linear mixed model was applied to active metabolite AIC log\[AUC(INF)\] using study day as a fixed effect.||Estimated effect of ipilimumab on AUC(INF) for AIC. Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination (Day 43) relative to dacarbazine alone (Day 1).||1.056|0.891|
92415886|NCT00796991|184720881|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.934|||||TWO_SIDED|90.0|0.768|1.136|||linear model|treatment arm as fixed effect||Estimated effect of paclitaxel/carboplatin on ipilimumab AUC: linear model was applied to ipilimumab log(AUC(0-21d)) data from Week 7 (Day 43) PK measurements in first and third arms with treatment arm as a fixed effect. Point estimates and 90% CIs for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the 3 drug combination relative to ipilimumab alone.||1.136|0.768|
92415887|NCT00796991|184720881|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.982|||||TWO_SIDED|90.0|0.7981|1.208|||linear model|treatment arm as a fixed effect||Estimated effect of dacarbazine on ipilimumab AUC: linear model was applied to ipilimumab log(AUC(0-21d)) data from Week 7 (Day 43) PK measurements in second and third arms with treatment arm as a fixed effect. Point estimates and 90% CIs for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination relative to ipilimumab alone.||1.208|0.7981|
92384410|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0268|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total||||0.0268
92384411|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.4406|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final||||0.4406
92384412|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.7926|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional Well Being Final||||0.7926
92384413|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0987|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final||||0.0987
92384414|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0361|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning Final||||0.0361
92384415|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0615|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects Final||||0.0615
92384416|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry||||0.0024
92384417|NCT01846741|184672239|SUPERIORITY_OR_OTHER|||||||0.0155|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life||||0.0155
92384418|NCT01846741|184672241|SUPERIORITY_OR_OTHER|||||||0.0625|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||3 months||||0.0625
92415888|NCT00796991|184720887|SUPERIORITY_OR_OTHER|||||||0.027||||||p-value was not corrected for multiple testing. F-statistic = 1.86.|conditional F test|15 degrees freedom (DF) in numerator and 335 DF in denominator.||null hypothesis of no mean ALC changes over time in any treatment group. Conditional F-tests were used to test for mean ALC changes over time in each treatment arm and the difference between treatment arms in the pattern of change in ALC over time.||||0.027
92169474|NCT03363854|184227458|SUPERIORITY||Difference|-10.2|||<|0.001|TWO_SIDED|95.0|-15.8|-4.7||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 13-14 are reported below.||-4.7|-15.8|<0.001
92384419|NCT01846741|184672241|SUPERIORITY_OR_OTHER|||||||0.1094|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||6 months||||0.1094
92384420|NCT01846741|184672241|SUPERIORITY_OR_OTHER|||||||0.0342|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||12 months||||0.0342
92384421|NCT01846741|184672241|SUPERIORITY_OR_OTHER|||||||0.5417|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||18 Months||||0.5417
92384422|NCT01853878|184672250|EQUIVALENCE|P-value of the Wald test from a Cox regression model to test H0 = { HR=1} (Y = Time to Event)|Hazard Ratio (HR)|4.592||||0.1422|TWO_SIDED|95.0|0.6|35.167|||Regression, Cox|||Estimates of Hazard Ratio (HR) and their 95% Confidence Interval (CI) were obtained by Cox regression modelling.The Likelihood ratio test was used to compare the groups. The Cox proportional hazard regression was stratified by previous treatment \[Chemotherapy (CT) vs. no-CT\] and disease stage.||35.167|0.600|0.1422
92384423|NCT01399866|184672262|SUPERIORITY|||||||0.574|||||||ANOVA|||||||0.574
92384424|NCT01399866|184672262|SUPERIORITY|||||||0.747|||||||ANOVA|||||||0.747
92384425|NCT01399866|184672263|SUPERIORITY|||||||0.94|||||||ANOVA|||||||0.94
92384426|NCT01399866|184672264|SUPERIORITY|||||||0.818|||||||ANOVA|||||||0.818
92384427|NCT01399866|184672265|SUPERIORITY|||||||0.123|||||||ANOVA|||||||0.123
92384428|NCT01399866|184672266|SUPERIORITY|||||||0.473|||||||t-test, 2 sided|||||||0.473
92384429|NCT00767819|184672267|SUPERIORITY|The lower limit of the confidence interval was used to support the decision in favor of p0 or p1: if the lower limit of the confidence interval overlapped p0, the hypothesis that p is greater than or equal to p1 could be rejected; on the other side, if the lower limit of the confidence interval excluded p0, the hypothesis that p is greater than or equal to p1 could be accepted.|percentage of participants|40.5||||0.1|TWO_SIDED|80.0|29.5|52.4|||Clopper-Person confidence interval|||||52.4|29.5|0.1
92384430|NCT03916081|184672290|SUPERIORITY||LS Mean Difference vs Vehicle|-1.18||||0.356|TWO_SIDED|95.0|-2.983|0.619||MMRM = mixed effects model for repeated measures vIGA-AD = validated Investigator Global Assessment scale for Atopic Dermatitis|MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from Baseline in Week 4 EASI Total Score: Roflumilast Cream 0.05% vs. Vehicle Cream||0.619|-2.983|0.356
92384431|NCT03916081|184672290|SUPERIORITY||LS Mean Difference vs Vehicle|-1.6||||0.097|TWO_SIDED|95.0|-3.382|0.178|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from Baseline in Week 4 EASI Total Score: Roflumilast Cream 0.15% vs. Vehicle Cream||0.178|-3.382|0.097
92384432|NCT03916081|184672291|SUPERIORITY||LS Mean Difference|-11.37||||0.248|TWO_SIDED|95.0|-26.789|4.044|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 1 EASI Total Score: Roflumilast Cream 0.05% vs. Vehicle Cream||4.044|-26.789|0.248
92384433|NCT03916081|184672291|SUPERIORITY||LS Mean Difference|-10.28||||0.349|TWO_SIDED|95.0|-25.666|5.114|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 1 EASI Total Score: Roflumilast Cream 0.15% vs. Vehicle Cream||5.114|-25.666|0.349
92384434|NCT03916081|184672291|SUPERIORITY||LS Mean Difference|-5.82||||0.912|TWO_SIDED|-22.52|-22.52|10.88|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 2 EASI Total Score: Roflumilast Cream 0.05% vs. Vehicle Cream||10.880|-22.520|0.912
92384435|NCT03916081|184672291|SUPERIORITY||LS Mean Difference|-9.17||||0.548|TWO_SIDED|95.0|-25.686|7.341|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 2 EASI Total Score: Roflumilast Cream 0.15% vs. Vehicle Cream||7.341|-25.686|0.548
92384436|NCT03916081|184672291|SUPERIORITY||LS Mean Difference|-13.53||||0.164|TWO_SIDED|95.0|-30.157|3.097|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 4 EASI Total Score: Roflumilast Cream 0.05% vs. Vehicle Cream||3.097|-30.157|0.164
92384437|NCT03916081|184672291|SUPERIORITY||LS Mean Difference|-16.48||||0.049|TWO_SIDED|95.0|-32.921|-0.048|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 4 EASI Total Score: Roflumilast Cream 0.15% vs. Vehicle Cream||-0.048|-32.921|0.049
92384438|NCT03916081|184672292|SUPERIORITY||LS Mean Difference|-0.92||||0.44|TWO_SIDED|95.0|-2.412|0.568|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from Baseline in Week 1 EASI Total Score: Roflumilast Cream 0.05% vs. Vehicle Cream||0.568|-2.412|0.440
92384439|NCT03916081|184672292|SUPERIORITY||LS Mean Difference|-0.57||||0.875|TWO_SIDED|95.0|-2.061|0.914|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from Baseline in Week 1 EASI Total Score: Roflumilast Cream 0.15% vs. Vehicle Cream||0.914|-2.061|0.875
92384440|NCT03916081|184672293|SUPERIORITY|||||||0.352|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.352
92384441|NCT03916081|184672293|SUPERIORITY|||||||0.803|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 1: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.803
92384442|NCT03916081|184672293|SUPERIORITY|||||||0.25|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.250
92384443|NCT03916081|184672293|SUPERIORITY|||||||0.756|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.756
92384444|NCT03916081|184672293|SUPERIORITY|||||||0.097|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.097
92384445|NCT03916081|184672293|SUPERIORITY|||||||0.054|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.054
92384446|NCT03916081|184672294|SUPERIORITY|||||||0.178|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.178
92384447|NCT03916081|184672294|SUPERIORITY|||||||0.046|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 1: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.046
92384448|NCT03916081|184672294|SUPERIORITY|||||||0.469|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.469
92384449|NCT03916081|184672294|SUPERIORITY|||||||0.446|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.446
92384450|NCT03916081|184672294|SUPERIORITY|||||||0.009|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.009
92384451|NCT03916081|184672294|SUPERIORITY|||||||0.045|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.045
92384452|NCT03916081|184672295|SUPERIORITY|||||||0.317|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-90 at Week 1: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.317
92384453|NCT03916081|184672295|SUPERIORITY|||||||0.182|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-90 at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.182
92384454|NCT03916081|184672295|SUPERIORITY|||||||0.485|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-90 at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.485
92384455|NCT03916081|184672295|SUPERIORITY|||||||0.913|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-90 at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.913
92415889|NCT00796991|184720887|SUPERIORITY_OR_OTHER|||||||0.5||||||P-values were not corrected for multiple testing. F Statistic =0.94|Omnibus conditional F-test|10 Degrees Freedom (DF) in numerator and 335 DF in denominator.||null hypothesis that the pattern of mean ALC values over time is the same in all treatment groups. Test of overall time-by-treatment interaction used an omnibus conditional F-test.||||0.5
92415890|NCT00796991|184720887|SUPERIORITY_OR_OTHER|||||||0.37||||||P-values were not corrected for multiple testing. F Statistic =1.08|conditional F-test|5 Degrees Freedom (DF) in numerator and 335 DF in denominator.||null hypothesis that the pattern of mean ALC values over time is the same in the given pair of treatment groups.||||0.37
92415891|NCT00796991|184720887|SUPERIORITY_OR_OTHER|||||||0.85||||||P-values were not corrected for multiple testing. F Statistic =0.39|conditional F-test|5 Degrees Freedom (DF) in numerator and 335 DF in denominator.||null hypothesis that the pattern of mean ALC values over time is the same in the given pair of treatment groups.||||0.85
92415892|NCT00796991|184720887|SUPERIORITY_OR_OTHER|||||||0.22||||||P-values were not corrected for multiple testing. F Statistic = 1.41|conditional F-test|5 Degrees Freedom (DF) in numerator and 335 DF in denominator.||null hypothesis that the pattern of mean ALC values over time is the same in the given pair of treatment groups.||||0.22
92384456|NCT03916081|184672295|SUPERIORITY|||||||0.288|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-90 at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.288
92415893|NCT02199717|184720913|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||All statistical analyses were completed using SAS 9.4 (SAS Institute Inc., Cary, NC, USA). Descriptive statistics such as mean (± SD) and range were calculated and provided for demographic variables, accelerometry variables and questionnaire outcomes. Differences between the two groups (mild/moderate versus severe haemophilia) were examined in exploratory analyses.||||0.32
92415894|NCT02199717|184720914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|306.4|||<|0.01|TWO_SIDED|95.0|254.8|358.0|||Wilcoxon (Mann-Whitney)|||||358|254.8|<0.01
92415895|NCT00827931|184720970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-99.9|STANDARD_ERROR_OF_MEAN|131.99||0.46|TWO_SIDED|95.0|-371.4|171.5|||t-test, 2 sided|||The null hypothesis applicable to the efficacy analyses was that there was no difference between tranexamic acid plus standard care compared to standard care alone. The alternative hypothesis was that there was a difference.||171.5|-371.4|0.460
92415896|NCT00827931|184720971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.6|STANDARD_ERROR_OF_MEAN|147.61||0.579|TWO_SIDED|95.0|-386.5|219.3|||t-test, 2 sided|||The null hypothesis applicable to the efficacy analyses was that there was no difference between tranexamic acid plus standard care compared to standard care alone. The alternative hypothesis was that there was a difference.||219.3|-386.5|0.579
92384457|NCT03916081|184672296|SUPERIORITY|||||||0.34|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-100 at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.340
92384458|NCT03916081|184672296|SUPERIORITY|||||||0.146|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-100 at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.146
92384459|NCT03916081|184672296|SUPERIORITY|||||||0.967|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-100 at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.967
92384460|NCT03916081|184672296|SUPERIORITY|||||||0.088|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-100 at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.088
92384461|NCT03916081|184672297|SUPERIORITY||LS Mean Difference|0.38||||0.989|TWO_SIDED|95.0|-1.098|1.852|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||1.852|-1.098|0.989
92384462|NCT03916081|184672297|SUPERIORITY||LS Mean Difference|-0.1|||>|0.999|TWO_SIDED|95.0|-1.566|1.367|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 1: Roflumilast Cream 0.15% vs. Vehicle Cream||1.367|-1.566|>0.999
92384463|NCT03916081|184672297|SUPERIORITY||LS Mean Difference|0.6||||0.966|TWO_SIDED|95.0|-1.51|2.702|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||2.702|-1.510|0.966
92239671|NCT00844428|184383118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||||<0.0001
92169475|NCT03363854|184227458|SUPERIORITY||Difference|-8.6||||0.002|TWO_SIDED|95.0|-14.1|-3.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 15-16 are reported below.||-3.2|-14.1|0.002
92384464|NCT03916081|184672297|SUPERIORITY||LS Mean Difference|-0.34||||0.999|TWO_SIDED|95.0|-2.415|1.744|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||1.744|-2.415|0.999
92384465|NCT03916081|184672297|SUPERIORITY||LS Mean Difference|-0.25|||>|0.999|TWO_SIDED|95.0|-2.624|2.119|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||2.119|-2.624|>0.999
92415897|NCT00827931|184720972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-183.5|STANDARD_ERROR_OF_MEAN|239.19||0.452|TWO_SIDED|95.0|-672.6|305.5|||t-test, 2 sided|||The null hypothesis applicable to the efficacy analyses was that there was no difference between tranexamic acid plus standard care compared to standard care alone. The alternative hypothesis was that there was a difference.||305.5|-672.6|0.452
92415898|NCT00827931|184720973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-417.7|STANDARD_ERROR_OF_MEAN|152.51||0.01|TWO_SIDED|95.0|-729.4|-106.1|||t-test, 2 sided|||The null hypothesis applicable to the efficacy analyses was that there was no difference between tranexamic acid plus standard care compared to standard care alone. The alternative hypothesis was that there was a difference.||-106.1|-729.4|0.010
92415899|NCT00827931|184720974|SUPERIORITY_OR_OTHER|||||||0.701|TWO_SIDED||||||Fisher Exact|||Fisher's exact test was used at 5% level of significance.||||0.701
92415900|NCT04355728|184720998|SUPERIORITY|||||||0.04|||||||Fisher Exact|||"The null hypothesis is the following: There is no difference in the number of subjects experiencing serious adverse events in the UC-MSC vs control group."||||.04
92415901|NCT04355728|184721007|SUPERIORITY||Hazard Ratio (HR)|0.289||||0.0307|TWO_SIDED|95.0|0.088|0.948|||Log Rank||Censoring was limited to dropout from study, and the event of interest was recovery. In the case of death, the patient's time to recovery was censored at the end of study observation; thus the patient remained in the risk set for all KM estimations.|"The null hypothesis is the following: There is no difference in Time to Recovery up to 31 days post infusion between the UC-MSC group and control group. Time to recovery was estimated in each group with Kaplan-Meier survival estimates. Log-rank tests were used to compare hazards between groups."||0.948|0.088|0.0307
92415902|NCT04355728|184721008|SUPERIORITY|||||||0.0563|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: The center of the distributions of ventilator free days are equal in the UC-MSC and control group.||||.0563
92384466|NCT03916081|184672297|SUPERIORITY||LS Mean Difference|-0.94||||0.798|TWO_SIDED|95.0|-3.285|1.398|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||1.398|-3.285|0.798
92384467|NCT03916081|184672298|SUPERIORITY||LS Mean Difference|-0.78||||0.466|TWO_SIDED|95.0|-2.075|0.506|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||0.506|-2.075|0.466
92415903|NCT04355728|184721009|SUPERIORITY|||||||0.0563|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: The center of the distributions of ventilator free days are equal in the UC-MSC and control group.||||.0563
92415904|NCT04355728|184721040|SUPERIORITY|||||||0.0356|||||||Wilcoxon (Mann-Whitney)|||||||0.0356
92415905|NCT04355728|184721041|SUPERIORITY|||||||0.0215|||||||Wilcoxon (Mann-Whitney)|||||||0.0215
92415906|NCT04355728|184721042|SUPERIORITY||Mean Difference (Net)|-3498.0|STANDARD_DEVIATION|3078.2||0.021|TWO_SIDED|95.0|-6404.7|-591.2|||t-test, 2 sided|||||-591.2|-6404.7|0.0210
92415907|NCT04355728|184721044|SUPERIORITY|||||||0.48|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (class I) status and treatment group at 3 days post first infusion."||||0.48
92415908|NCT04355728|184721044|SUPERIORITY|||||||0.41|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (class II) status and treatment group at 3 days post first infusion."||||0.41
92278359|NCT02422290|184458614|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|1.0||1|TWO_SIDED|95.0|-2.78|2.78|||t-test, 2 sided|||Paired sample t-test was calculated to test mean difference between OCD-VAS scores at the time points Baseline and Day 14.||2.78|-2.78|1.00
92415909|NCT04355728|184721045|SUPERIORITY|||||||1|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (class I) status and treatment group at 6 days post first infusion."||||1.00
92415910|NCT04355728|184721045|SUPERIORITY|||||||1|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (Class II) status and treatment group at 6 days post first infusion."||||1.00
92415911|NCT04355728|184721046|SUPERIORITY|||||||0.44|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (class I) status and treatment group at 14 days post first infusion."||||0.44
92415912|NCT04355728|184721046|SUPERIORITY|||||||0.5238|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (class II) status and treatment group at 14 days post first infusion."||||0.5238
92415913|NCT04545944|184721085|OTHER||Geometric Least Squares Mean Ratio|192.4|||||TWO_SIDED|90.0|152.8|242.4||||||A linear mixed model with treatment as a fixed effect and participant as a random effect was performed on the natural log-transformed values to assess the effect of vonoprazan on the PK of midazolam.||242.4|152.8|
92415914|NCT04545944|184721086|OTHER||Geometric Least Squares Mean Ratio|188.9|||||TWO_SIDED|90.0|150.6|236.9||||||A linear mixed model with treatment as a fixed effect and participant as a random effect was performed on the natural log-transformed values to assess the effect of vonoprazan on the PK of midazolam.||236.9|150.6|
92415915|NCT04545944|184721087|OTHER||Geometric Least Squares Mean Ratio|193.4|||||TWO_SIDED|90.0|160.5|233.1||||||A linear mixed model with treatment as a fixed effect and participant as a random effect was performed on the natural log-transformed values to assess the effect of vonoprazan on the PK of midazolam.||233.1|160.5|
92415916|NCT00223236|184721088|SUPERIORITY_OR_OTHER|||||||0.4637|||||||Chi-squared|df=1 n=34||Null hypothsis is no group association in cocaine use.||||.4637
92415917|NCT01007253|184721092|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Friedman ANOVA|||Analysis of variance (ANOVA) was used to test the null hypothesis of no mean eye symptoms score difference among the four treatment groups.||||<0.001
92415918|NCT01007253|184721093|SUPERIORITY_OR_OTHER|||||||0.05|||||||Friedman ANOVA|||Analysis of variance (ANOVA) was used to test the null hypothesis of no mean nasal symptoms score difference among the four treatment groups.||||0.05
92415919|NCT01007253|184721094|SUPERIORITY_OR_OTHER|||||||0.001|||||||Friedman ANOVA|||Analysis of variance (ANOVA) was used to test the null hypothesis of no mean sneeze difference among the four treatment groups.||||0.001
92415920|NCT01007253|184721095|SUPERIORITY_OR_OTHER|||||||0.11|||||||Friedman ANOVA|||Analysis of variance (ANOVA) was used to test the null hypothesis of no mean histamine level difference among the four treatment groups.||||0.11
92415921|NCT01007253|184721096|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Friedman ANOVA|||Analysis of variance (ANOVA) was used to test the null hypothesis of no mean tryptase level difference among the four treatment groups.||||<0.001
92415922|NCT03645434|184721105|SUPERIORITY||Mean Difference (Final Values)|0.202|||<|0.0001|TWO_SIDED|95.0|0.151|0.253|||Mixed Models Analysis|||||0.253|0.151|<0.0001
92415923|NCT03645434|184721110|SUPERIORITY||Mean Difference (Final Values)|0.098|||<|0.0001|TWO_SIDED|95.0|0.051|0.146|||Mixed Models Analysis|||Day 2||0.146|0.051|<0.0001
92415924|NCT03645434|184721110|SUPERIORITY||Mean Difference (Final Values)|0.195|||<|0.0001|TWO_SIDED|95.0|0.148|0.242|||Mixed Models Analysis|||Day 8||0.242|0.148|<0.0001
92415925|NCT03645434|184721111|SUPERIORITY||Mean Difference (Final Values)|0.306|||<|0.0001|TWO_SIDED|95.0|0.266|0.346|||Mixed Models Analysis|||Day 1||0.346|0.266|<0.0001
92415926|NCT03645434|184721111|SUPERIORITY||Mean Difference (Final Values)|0.374|||<|0.0001|TWO_SIDED|95.0|0.324|0.425|||Mixed Models Analysis|||Day 8||0.425|0.324|<0.0001
92415927|NCT03645434|184721111|SUPERIORITY||Mean Difference (Final Values)|0.388|||<|0.0001|TWO_SIDED|95.0|0.329|0.447|||Mixed Models Analysis|||Day 14||0.447|0.329|<0.0001
92415928|NCT03645434|184721112|SUPERIORITY||Mean Difference (Final Values)|-0.551||||0.001|TWO_SIDED|95.0|-0.876|-0.226|||Mixed Models Analysis|||Day 1 to Day 8||-0.226|-0.876|0.0010
92415929|NCT03645434|184721112|SUPERIORITY||Mean Difference (Final Values)|-0.867|||<|0.0001|TWO_SIDED|95.0|-1.248|-0.486|||Mixed Models Analysis|||Day 9 to Day 14||-0.486|-1.248|<0.0001
92415930|NCT03645434|184721112|SUPERIORITY||Mean Difference (Final Values)|-0.722|||<|0.0001|TWO_SIDED|95.0|-1.047|-0.397|||Mixed Models Analysis|||Day 1 to Day 14||-0.397|-1.047|<0.0001
92415931|NCT03645434|184721113|SUPERIORITY||Mean Difference (Final Values)|-1.571||||0.0022|TWO_SIDED|95.0|-2.563|-0.579|||Mixed Models Analysis|||Day 1 to Day 8||-0.579|-2.563|0.0022
92278360|NCT02422290|184458615|SUPERIORITY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|5.41||0.77|TWO_SIDED|95.0|-15.46|18.96|||t-test, 2 sided|||Paired sample t-test was calculated to test mean difference between OCD-VAS scores at the time points Baseline and Day 14.||18.96|-15.46|.77
92415932|NCT03645434|184721113|SUPERIORITY||Mean Difference (Final Values)|-2.386|||<|0.0001|TWO_SIDED|95.0|-3.541|-1.23|||Mixed Models Analysis|||Day 9 to Day 14||-1.230|-3.541|<0.0001
92415933|NCT03645434|184721113|SUPERIORITY||Mean Difference (Final Values)|-1.912||||0.0003|TWO_SIDED|95.0|-2.923|-0.901|||Mixed Models Analysis|||Day 1 to Day 14||-0.901|-2.923|0.0003
92415934|NCT03645434|184721124|SUPERIORITY||Mean Difference (Final Values)|-1.268|||<|0.0001|TWO_SIDED|95.0|-1.741|-0.794|||Mixed Models Analysis|||Day 1 to Day 8||-0.794|-1.741|<0.0001
92415935|NCT03645434|184721124|SUPERIORITY||Mean Difference (Final Values)|-1.302|||<|0.0001|TWO_SIDED|95.0|-1.804|-0.8|||Mixed Models Analysis|||Day 9 to Day 14||-0.800|-1.804|<0.0001
92415936|NCT02880956|184721132|SUPERIORITY||Least Squares (LS) Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.178||0.74|TWO_SIDED|95.0|-0.291|0.409||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.409|-0.291|0.740
92415937|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.38|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92415938|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.176||0.367|TWO_SIDED|95.0|-0.504|0.187||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.187|-0.504|0.367
92415939|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|1.33|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92415940|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.18||0.843|TWO_SIDED|95.0|-0.318|0.389||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.389|-0.318|0.843
92415941|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|1.37|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92415942|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|0.08|STANDARD_ERROR_OF_MEAN|0.222||0.703|TWO_SIDED|95.0|-0.351|0.52||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.520|-0.351|0.703
92415943|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|1.62|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92384468|NCT03916081|184672298|SUPERIORITY||LS Mean Difference|-1.03||||0.18|TWO_SIDED|95.0|-2.322|0.255|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 1: Roflumilast Cream 0.15% vs. Vehicle Cream||0.255|-2.322|0.180
92384469|NCT03916081|184672298|SUPERIORITY||LS Mean Difference|-0.43||||0.967|TWO_SIDED|95.0|-1.921|1.069|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||1.069|-1.921|0.967
92384470|NCT03916081|184672298|SUPERIORITY||LS Mean Difference|-0.72||||0.684|TWO_SIDED|95.0|-2.205|0.762|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||0.762|-2.205|0.684
92384471|NCT03916081|184672298|SUPERIORITY||LS Mean Difference|-0.61||||0.856|TWO_SIDED|95.0|-2.221|1.003|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||1.003|-2.221|0.856
92384472|NCT03916081|184672298|SUPERIORITY||LS Mean Difference|-0.51||||0.932|TWO_SIDED|95.0|-2.105|1.089|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||1.089|-2.105|0.932
92384473|NCT03916081|184672299|SUPERIORITY|||||||0.637|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.637
92384474|NCT03916081|184672299|SUPERIORITY|||||||0.124|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.124
92384475|NCT03916081|184672299|SUPERIORITY|||||||0.196|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.196
92384476|NCT03916081|184672299|SUPERIORITY|||||||0.985|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.985
92384477|NCT03916081|184672299|SUPERIORITY|||||||0.401|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.401
92384478|NCT03916081|184672299|SUPERIORITY|||||||0.996|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.996
92384479|NCT04146935|184672306|OTHER|Mixed model repeated measures||||||0.4147||||||Visit 1 (baseline) to visit 4 (peak)|Mixed Models Analysis|||||||0.4147
92415944|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.218||0.947|TWO_SIDED|95.0|-0.442|0.413||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.413|-0.442|0.947
92278361|NCT00457665|184458662|SUPERIORITY|||||||0.94|||||||Mixed Models Analysis|||||||0.94
92415945|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.69|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92384480|NCT04146935|184672307|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
92384481|NCT04146935|184672308|OTHER|Mixed model repeated measures||||||0.6957|||||||Mixed Models Analysis|||||||0.6957
92384482|NCT04146935|184672309|OTHER|||||||0.0092|||||||Mixed Models Analysis|||||||0.0092
92384483|NCT04146935|184672310|OTHER|Mixed model repeated measures||||||0.1383|||||||Mixed Models Analysis|||||||0.1383
92384484|NCT04146935|184672311|OTHER|mixed model repeated measures||||||0.0572|||||||Mixed Models Analysis|||||||0.0572
92384485|NCT04038567|184672324|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-1.14|1.2||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.20|-1.14|
92384486|NCT04038567|184672324|SUPERIORITY||Mean Difference (Final Values)|-1.22|||||TWO_SIDED|95.0|-2.39|-0.04||||||Values are change in model-estimated means for his vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||-0.04|-2.39|
92384487|NCT04038567|184672324|SUPERIORITY||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-1.12|1.23||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.23|-1.12|
92415946|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.222||0.732|TWO_SIDED|95.0|-0.514|0.361||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.361|-0.514|0.732
92278362|NCT00210626|184458717|SUPERIORITY_OR_OTHER|||||||0.3807||95.0|||||ANCOVA|Covariate used is Baseline SF-36 PF Score. Baseline SF-36 PF Score was collected prior to the start of Procrit or Placebo treatment||The null hypothesis is that there is no difference between Procrit and Placebo in average SF-36 Physical Function Scores||||0.3807
92384488|NCT04038567|184672325|SUPERIORITY||Mean Difference (Net)|-1.14|||||TWO_SIDED|95.0|-2.12|-0.16||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||-0.16|-2.12|
92233375|NCT01309737|184369230|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.97|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001||95.0|-3.8|-2.14||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week4: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-2.14|-3.80|<0.0001
92384489|NCT04038567|184672325|SUPERIORITY||Mean Difference (Final Values)|-0.82|||||TWO_SIDED|95.0|-1.8|1.49||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.49|-1.80|
92384490|NCT04038567|184672325|SUPERIORITY||Mean Difference (Final Values)|0.51|||||TWO_SIDED|95.0|-0.48|1.49||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.49|-0.48|
92384491|NCT04038567|184672326|SUPERIORITY||Mean Difference (Final Values)|-0.32|||||TWO_SIDED|95.0|-1.66|1.01||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.01|-1.66|
92384492|NCT04038567|184672326|SUPERIORITY||Mean Difference (Final Values)|-1.47|||||TWO_SIDED|95.0|-2.81|-0.14||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||-0.14|-2.81|
92384493|NCT04038567|184672326|SUPERIORITY||Mean Difference (Final Values)|0.82|||||TWO_SIDED|95.0|-0.52|2.15||||||Values are change in model-estimated means for therapist vs. app response to symptoms. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||2.15|-0.52|
92384494|NCT04038567|184672327|SUPERIORITY||Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-1.23|0.91||||||||0.91|-1.23|
92384495|NCT04038567|184672327|SUPERIORITY||Mean Difference (Final Values)|-1.22|||||TWO_SIDED|95.0|-2.29|-0.15||||||||-0.15|-2.29|
92384496|NCT04038567|184672327|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.77|0.37||||||||0.37|-1.77|
92384497|NCT04038567|184672328|SUPERIORITY||Mean Difference (Final Values)|-1.58|||||TWO_SIDED|95.0|-4.41|1.25||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.25|-4.41|
92384498|NCT04038567|184672328|SUPERIORITY||Mean Difference (Final Values)|-0.42|||||TWO_SIDED|95.0|-3.26|2.42||||||Values are change in model-estimated means for hig vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||2.42|-3.26|
92384499|NCT04038567|184672328|SUPERIORITY||Mean Difference (Final Values)|1.49|||||TWO_SIDED|95.0|-1.35|4.33||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||4.33|-1.35|
92384500|NCT04038567|184672333|SUPERIORITY||Mean Difference (Final Values)|0.58|||||TWO_SIDED|95.0|-0.62|1.78||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.78|-0.62|
92384501|NCT04038567|184672333|SUPERIORITY||Mean Difference (Final Values)|0.73|||||TWO_SIDED|95.0|-0.47|1.92||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.92|-0.47|
92384502|NCT04038567|184672333|SUPERIORITY||Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-1.0|1.39||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.39|-1.00|
92384503|NCT04038567|184672334|SUPERIORITY||Mean Difference (Final Values)|0.91|||||TWO_SIDED|95.0|-0.45|2.27||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||2.27|-0.45|
92384504|NCT04038567|184672334|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-1.33|1.38||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.38|-1.33|
92384505|NCT04038567|184672334|SUPERIORITY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-1.72|0.99||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||0.99|-1.72|
92384506|NCT04038567|184672335|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-1.3|0.3||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||0.30|-1.30|
92384507|NCT04038567|184672335|SUPERIORITY||Mean Difference (Final Values)|-0.53|||||TWO_SIDED|95.0|-1.33|0.27||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||0.27|-1.33|
92384508|NCT04038567|184672335|SUPERIORITY||Mean Difference (Final Values)|0.25|||||TWO_SIDED|95.0|-0.55|1.05||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.05|-.55|
92384509|NCT04038567|184672336|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-1.41|0.41||||||||0.41|-1.41|
92384510|NCT04038567|184672336|SUPERIORITY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-1.27|0.55||||||||0.55|-1.27|
92384511|NCT04038567|184672336|SUPERIORITY||Mean Difference (Final Values)|0.51|||||TWO_SIDED|95.0|-0.4|1.42||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.42|-0.40|
92415947|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|1.51|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92415948|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.305||0.939|TWO_SIDED|95.0|-0.623|0.576||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.576|-0.623|0.939
92415949|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|2.19|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92415950|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.299||0.872|TWO_SIDED|95.0|-0.637|0.54||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.540|-0.637|0.872
92415951|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|2.27|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92415952|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.305||0.773|TWO_SIDED|95.0|-0.688|0.512||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.512|-0.688|0.773
92415953|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|2.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92415954|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.387||0.848|TWO_SIDED|95.0|-0.834|0.686||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.686|-0.834|0.848
92415955|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|2.64|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92415956|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.38||0.869|TWO_SIDED|95.0|-0.81|0.684||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.684|-0.810|0.869
92415957|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|2.75|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92415958|NCT02880956|184721132|SUPERIORITY||LS Mean of Difference|0.16|STANDARD_ERROR_OF_MEAN|0.389||0.679|TWO_SIDED|95.0|-0.603|0.925||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.925|-0.603|0.679
92384512|NCT04038567|184672337|SUPERIORITY||Mean Difference (Final Values)|2.33|||||TWO_SIDED|95.0|-3.25|7.91||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||7.91|-3.25|
92384513|NCT04038567|184672337|SUPERIORITY||Mean Difference (Final Values)|4.82|||||TWO_SIDED|95.0|-0.76|10.4||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||10.40|-0.76|
92384514|NCT04038567|184672337|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-5.6|5.56||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||5.56|-5.60|
92415959|NCT02880956|184721132|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|2.72|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92415960|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.693||0.562|TWO_SIDED|95.0|-1.764|0.96||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.960|-1.764|0.562
92415961|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|4.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92384515|NCT04038567|184672338|SUPERIORITY||Mean Difference (Final Values)|3.18|||||TWO_SIDED|95.0|-3.01|9.37||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||9.37|-3.01|
92384516|NCT04038567|184672338|SUPERIORITY||Mean Difference (Final Values)|1.28|||||TWO_SIDED|95.0|-4.92|7.47||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||7.47|-4.92|
92384517|NCT04038567|184672338|SUPERIORITY||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-6.09|6.3||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||6.30|-6.09|
92384518|NCT04038567|184672345|SUPERIORITY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-5.26|-0.13||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||-0.13|-5.26|
92384519|NCT04038567|184672345|SUPERIORITY||Mean Difference (Final Values)|-1.89|||||TWO_SIDED|95.0|-4.46|0.67||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||0.67|-4.46|
92384520|NCT04038567|184672345|SUPERIORITY||Mean Difference (Final Values)|-0.74|||||TWO_SIDED|95.0|-3.31|1.83||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.83|-3.31|
92384521|NCT02726022|184672348|SUPERIORITY_OR_OTHER|||||||0.647|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.647
92384522|NCT02726022|184672348|SUPERIORITY_OR_OTHER|||||||0.373|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.373
92384523|NCT02726022|184672349|SUPERIORITY_OR_OTHER|||||||0.049|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.049
92384524|NCT02726022|184672349|SUPERIORITY_OR_OTHER|||||||0.86|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.860
92415962|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.682||0.066|TWO_SIDED|95.0|-2.602|0.081||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.081|-2.602|0.066
92415963|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|0.25|STANDARD_DEVIATION|5.08|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92415964|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.7||0.962|TWO_SIDED|95.0|-1.343|1.41||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.410|-1.343|0.962
92278363|NCT00210626|184458718|SUPERIORITY_OR_OTHER|||||||0.7038||95.0|||||Chi-squared|||||||0.7038
92384525|NCT02726022|184672350|SUPERIORITY_OR_OTHER|||||||0.921|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.921
92384526|NCT02726022|184672350|SUPERIORITY_OR_OTHER|||||||0.962|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.962
92384527|NCT02726022|184672351|SUPERIORITY_OR_OTHER|||||||0.052|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.052
92384528|NCT02726022|184672351|SUPERIORITY_OR_OTHER|||||||0.677|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.677
92415965|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|5.33|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92415966|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.887||0.265|TWO_SIDED|95.0|-2.734|0.755||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.755|-2.734|0.265
92384529|NCT02726022|184672352|SUPERIORITY_OR_OTHER|||||||0.72|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.720
92384530|NCT02726022|184672352|SUPERIORITY_OR_OTHER|||||||0.237|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.237
92384531|NCT02726022|184672353|SUPERIORITY_OR_OTHER|||||||0.184|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.184
92384532|NCT02726022|184672353|SUPERIORITY_OR_OTHER|||||||0.889|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.889
92415967|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|0.16|STANDARD_DEVIATION|6.32|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92169476|NCT03363854|184227459|SUPERIORITY||Difference|0.0||||1|TWO_SIDED|95.0|-11.0|11.0||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 1-2 are reported below.||11.0|-11.0|1.00
92384533|NCT00235716|184672354|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.15||||0.03|TWO_SIDED|95.0|0.92|5.39||p-value adjusted for 6 treatment group comparisons.|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||5.39|0.92|0.03
92384534|NCT00235716|184672354|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.98||||0.4|TWO_SIDED|95.0|-0.24|4.2||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||4.20|-0.24|0.40
92384535|NCT00235716|184672354|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.76||||0.49|TWO_SIDED|95.0|-0.48|4.0||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||4.00|-0.48|0.49
92384536|NCT00235716|184672354|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.39||||0.6|TWO_SIDED|95.0|-3.63|0.85||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the vitamin E group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.85|-3.63|0.60
92384537|NCT00235716|184672354|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.85|TWO_SIDED|95.0|-2.44|2.01||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||2.01|-2.44|0.85
92384538|NCT00235716|184672354|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.18||||0.6|TWO_SIDED|95.0|-1.04|3.39||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||3.39|-1.04|0.60
92384539|NCT00235716|184672355|SUPERIORITY_OR_OTHER|||||||0.69||||||p- value is unadjusted for multiple comparisons because its a 3 degrees of freedom test for any treatment group differences|Log Rank|3 degrees of freedom test||||||0.69
92384540|NCT00235716|184672356|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19||||0.84|TWO_SIDED|95.0|-0.54|0.92||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.92|-0.54|0.84
92384541|NCT00235716|184672356|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.84|TWO_SIDED|95.0|-0.61|0.84||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.84|-0.61|0.84
92384542|NCT00235716|184672356|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37||||0.84|TWO_SIDED|95.0|-0.36|1.1||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.10|-0.36|0.84
92384543|NCT00235716|184672356|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.84||95.0|-0.56|0.9||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the vitamin E group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.90|-0.56|0.84
92415968|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.863||0.212|TWO_SIDED|95.0|-2.775|0.618||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.618|-2.775|0.212
92169477|NCT03363854|184227459|SUPERIORITY||Difference|1.1||||0.83|TWO_SIDED|95.0|-9.1|11.4||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 3-4 are reported below.||11.4|-9.1|0.83
92415969|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|6.29|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92415970|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.893||0.602|TWO_SIDED|95.0|-2.223|1.29||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.290|-2.223|0.602
92415971|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|6.35|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92415972|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|-0.48|STANDARD_ERROR_OF_MEAN|1.019||0.635|TWO_SIDED|95.0|-2.489|1.519||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.519|-2.489|0.635
92415973|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|6.31|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92415974|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|-0.26|STANDARD_ERROR_OF_MEAN|1.003||0.795|TWO_SIDED|95.0|-2.233|1.712||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.712|-2.233|0.795
92415975|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|7.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92415976|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|1.11|STANDARD_ERROR_OF_MEAN|1.027||0.281|TWO_SIDED|95.0|-0.91|3.128||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||3.128|-0.910|0.281
92415977|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|7.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92233376|NCT01309737|184369230|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-5.13|-3.47||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 4: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-3.47|-5.13|<0.0001
92233377|NCT01309737|184369230|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.35||0.0001|TWO_SIDED|95.0|-2.01|-0.65|||Mixed Models Analysis|||Week 4: LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-0.65|-2.01|0.0001
92415978|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|-0.44|STANDARD_ERROR_OF_MEAN|1.261||0.729|TWO_SIDED|95.0|-2.918|2.043||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.043|-2.918|0.729
92239672|NCT00844428|184383119|SUPERIORITY_OR_OTHER||LS mean change from baseline|-3.68||||0.7307|TWO_SIDED|95.0|-25.15|17.79|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||17.79|-25.15|0.7307
92415979|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|7.4|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92415980|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|-0.59|STANDARD_ERROR_OF_MEAN|1.248||0.636|TWO_SIDED|95.0|-3.047|1.863||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.863|-3.047|0.636
92415981|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|7.46|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92415982|NCT02880956|184721141|SUPERIORITY||LS Mean of Difference|1.03|STANDARD_ERROR_OF_MEAN|1.294||0.427|TWO_SIDED|95.0|-1.515|3.575||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||3.575|-1.515|0.427
92415983|NCT02880956|184721141|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|7.9|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92415984|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.053||0.69|TWO_SIDED|95.0|-0.083|0.126||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.126|-0.083|0.690
92415985|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|0.39|||TWO_SIDED|95.0|||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92415986|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.052||0.595|TWO_SIDED|95.0|-0.075|0.131||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.131|-0.075|0.595
92415987|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|0.36|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92415988|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.054||0.201|TWO_SIDED|95.0|0.037|0.175||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.175|0.037|0.201
92415989|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|0.45|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92415990|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.064||0.361|TWO_SIDED|95.0|-0.067|0.184||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.184|-0.067|0.361
92415991|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|0.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92415992|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.062||0.522|TWO_SIDED|95.0|-0.082|0.162||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|Week 48||0.162|-0.082|0.522
92415993|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|0.41|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92415994|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|0.09|STANDARD_ERROR_OF_MEAN|0.064||0.147|TWO_SIDED|95.0|-0.033|0.219||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.219|-0.033|0.147
92415995|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|-0.17|STANDARD_DEVIATION|0.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92415996|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.091||0.492|TWO_SIDED|95.0|-0.243|0.117||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.117|-0.243|0.492
92415997|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|0.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92415998|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.691|TWO_SIDED|95.0|-0.213|0.141||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.141|-0.213|0.691
92415999|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.6|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416000|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|0.14|STANDARD_ERROR_OF_MEAN|0.091||0.135|TWO_SIDED|95.0|-0.043|0.317||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.317|-0.043|0.135
92416001|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|-0.19|STANDARD_DEVIATION|0.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416002|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.117||0.713|TWO_SIDED|95.0|-0.273|0.187||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.187|-0.273|0.713
92416003|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416004|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.115||0.318|TWO_SIDED|95.0|-0.341|0.111||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.111|-0.341|0.318
92416005|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|0.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416006|NCT02880956|184721142|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.119||0.927|TWO_SIDED|95.0|-0.244|0.222||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.222|-0.244|0.927
92233378|NCT01309737|184369230|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.46|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-5.51|-3.42||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 16: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-3.42|-5.51|<0.0001
92233379|NCT01309737|184369230|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-7.14|-5.05||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 16: For key secondary endpoint, family-wise step-down procedure was used to control Type I error.Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-5.05|-7.14|<0.0001
92233380|NCT01309737|184369230|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.63|STANDARD_ERROR_OF_MEAN|0.43||0.0002|TWO_SIDED|95.0|-2.48|-0.79|||Mixed Models Analysis|||Week 16: LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-0.79|-2.48|0.0002
92384544|NCT00235716|184672356|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25||||0.84|TWO_SIDED|95.0|-0.47|0.98||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.98|-0.47|0.84
92384545|NCT00235716|184672356|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.84|TWO_SIDED|95.0|-0.65|0.8||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.80|-0.65|0.84
92384546|NCT00235716|184672357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8||||0.1|TWO_SIDED|95.0|-3.28|-0.33||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||-0.33|-3.28|0.10
92384547|NCT00235716|184672357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.39||||0.25|TWO_SIDED|95.0|-2.85|0.07||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.07|-2.85|0.25
92384548|NCT00235716|184672357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.65||||0.14|TWO_SIDED|95.0|-3.12|-0.17||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||-0.17|-3.12|0.14
92416007|NCT02880956|184721142|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|0.84|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416008|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.081||0.456|TWO_SIDED|95.0|-0.219|0.098||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.098|-0.219|0.456
92384549|NCT00235716|184672357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.84|TWO_SIDED|95.0|-1.32|1.63||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the vitamin E group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.63|-1.32|0.84
92416009|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|0.64|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416010|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.079||0.093|TWO_SIDED|95.0|-0.29|0.023||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.023|-0.290|0.093
92416011|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|0.59|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92384550|NCT00235716|184672357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26||||0.84|TWO_SIDED|95.0|-1.72|1.21||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.21|-1.72|0.84
92384551|NCT00235716|184672357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41||||0.84|TWO_SIDED|95.0|-1.88|1.06||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.06|-1.88|0.84
92384552|NCT00235716|184672358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.46||||0.94|TWO_SIDED|95.0|-3.55|0.63||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.63|-3.55|0.94
92384553|NCT00235716|184672358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.94|TWO_SIDED|95.0|-2.47|1.7||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.70|-2.47|0.94
92384554|NCT00235716|184672358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.94|TWO_SIDED|95.0|-2.57|1.63||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.63|-2.57|0.94
92384555|NCT00235716|184672358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.99||||0.94|TWO_SIDED|95.0|-1.09|3.07||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the vitamin E group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||3.07|-1.09|0.94
92416012|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.082||0.75|TWO_SIDED|95.0|-0.187|0.135||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.135|-0.187|0.750
92416013|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|0.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416014|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|0.16|STANDARD_ERROR_OF_MEAN|0.106||0.134|TWO_SIDED|95.0|-0.049|0.366||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.366|-0.049|0.134
92416015|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|0.79|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416016|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.103||0.316|TWO_SIDED|95.0|-0.099|0.305||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.305|-0.099|0.316
92416017|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|0.72|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416018|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.106||0.218|TWO_SIDED|95.0|-0.078|0.339||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.339|-0.078|0.218
92416019|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|-0.17|STANDARD_DEVIATION|0.76|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416020|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.099||0.799|TWO_SIDED|95.0|-0.219|0.169||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.169|-0.219|0.799
92239673|NCT00844428|184383120|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||99|68|
92239674|NCT03117049|184383184|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|96.37|0.43|0.71|||Stratified log-rank test|||||0.71|0.43|<0.0001
92239675|NCT03117049|184383185|SUPERIORITY||Stratified hazard ratio|0.85|||||TWO_SIDED|95.0|0.63|1.14||||||||1.14|0.63|
92384556|NCT00235716|184672358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.94|TWO_SIDED|95.0|-2.16|1.99||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.99|-2.16|0.94
92384557|NCT00235716|184672358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.08||||0.94|TWO_SIDED|95.0|-3.14|0.99||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.99|-3.14|0.94
92384558|NCT00235716|184672359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.79||||0.12|TWO_SIDED|95.0|-3.35|-0.23||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||-0.23|-3.35|0.12
92384559|NCT00235716|184672359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.38||||0.86|TWO_SIDED|95.0|-1.18|1.94||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.94|-1.18|0.86
92384560|NCT00235716|184672359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.86|TWO_SIDED|95.0|-1.7|1.42||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.42|-1.70|0.86
92384561|NCT00235716|184672359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.65||||0.14|TWO_SIDED|95.0|0.11|3.19||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the vitamin E group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||3.19|0.11|0.14
92384562|NCT00235716|184672359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52||||0.86|TWO_SIDED|95.0|-2.07|1.02||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.02|-2.07|0.86
92384563|NCT00235716|184672359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.17||||0.03|TWO_SIDED|95.0|-3.71|-0.63||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||-0.63|-3.71|0.03
92384564|NCT00235716|184672360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.31|TWO_SIDED|95.0|0.67|1.13||p-value is unadjusted for multiple comparisons|Log Rank||Hazard ratio is for vitamin E group relative to the placebo group.|||1.13|0.67|0.31
92384565|NCT00235716|184672360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.47|TWO_SIDED|95.0|0.91|1.24||p-value is unadjusted for multiple comparisons|Log Rank||Hazard ratio is for the memantine group relative to the placebo group.|||1.24|0.91|0.47
92384566|NCT00235716|184672360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.8|TWO_SIDED|95.0|0.57|1.54||p-value is unadjusted for multiple comparisons|Log Rank||Hazard ratio is for the vitamin E + memantine group relative to the placebo group.|||1.54|0.57|0.80
92384567|NCT01124955|184672374|SUPERIORITY_OR_OTHER||||||,|0|||||||ANOVA|||||||0,05
92384568|NCT02249182|184672378|EQUIVALENCE|Equivalence was determined if the 90% confidence intervals (CI) were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|105.2|||||TWO_SIDED|90.0|90.61|122.13||||||AUCtau of GS-331007 for the 12 to \< 18 Years old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||122.13|90.61|
92384569|NCT02249182|184672378|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|65.76|||||TWO_SIDED|90.0|56.62|76.37||||||AUCtau of GS-331007 for the 6 to \< 12 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||76.37|56.62|
92384570|NCT02249182|184672378|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|94.08|||||TWO_SIDED|90.0|82.51|107.27||||||AUCtau of GS-331007 for the 3 to \< 6 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||107.27|82.51|
92239676|NCT03117049|184383186|SUPERIORITY||Odds Ratio (OR)|1.55|||||TWO_SIDED|95.0|1.11|2.17||||||||2.17|1.11|
92239677|NCT03117049|184383187|SUPERIORITY||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.46|1.31||||||||1.31|0.46|
92233381|NCT01309737|184369231|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.63|||<|0.0001|TWO_SIDED|95.0|1.89|8.95||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||8.95|1.89|<.0001
92233382|NCT01309737|184369231|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.25|||<|0.0001|TWO_SIDED|95.0|4.08|19.95||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||19.95|4.08|<.0001
92233383|NCT01309737|184369231|SUPERIORITY_OR_OTHER||Percent difference|10.79|STANDARD_ERROR_OF_MEAN|3.02||0.0004|TWO_SIDED|95.0|4.87|16.71|||Normal Approximation|||||16.71|4.87|0.0004
92384571|NCT02249182|184672378|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|127.18|||||TWO_SIDED|90.0|94.89|170.45||||||AUCtau of LDV for the 12 to \< 18 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||170.45|94.89|
92384572|NCT02249182|184672378|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|82.25|||||TWO_SIDED|90.0|61.34|110.3||||||AUCtau of LDV for the 6 to \< 12 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||110.30|61.34|
92384573|NCT02249182|184672378|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|120.46|||||TWO_SIDED|90.0|93.18|155.73||||||AUCtau of LDV for the 3 to \< 6 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||155.73|93.18|
92384574|NCT02249182|184672378|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|159.88|||||TWO_SIDED|90.0|137.89|185.37||||||AUCtau of SOF for the 12 to \< 18 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||185.37|137.89|
92384575|NCT02249182|184672378|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|129.48|||||TWO_SIDED|90.0|110.79|151.32||||||AUCtau of SOF for the 6 to \< 12 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||151.32|110.79|
92384576|NCT02249182|184672378|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|187.76|||||TWO_SIDED|90.0|143.41|245.82||||||AUCtau of SOF for the 3 to \< 6 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||245.82|143.41|
92384577|NCT03274518|184672398|NON_INFERIORITY|The non-inferiority margin was defined as difference within 20% in comparison to reference method (olHDF)||||||0.4534|||||||t-test, 2 sided|||||||0.4534
92384578|NCT03274518|184672399|NON_INFERIORITY|The non-inferiority margin was defined as difference within 20% in comparison to reference method (olHDF)||||||0.1179|||||||t-test, 2 sided|||||||0.1179
92384579|NCT03274518|184672400|NON_INFERIORITY|The non-inferiority margin was defined as difference within 20% in comparison to reference method (olHDF)||||||0.3054|||||||t-test, 2 sided|||||||0.3054
92384580|NCT03274518|184672401|NON_INFERIORITY|The lower the ECW/TBW ratio, the lower pre-dialysis excess fluid. A non-inferiority margin was defined as difference within 10% from reference method (olHDF)||||||0.045|||||||t-test, 2 sided|||||||0.045
92384581|NCT01345669|184672462|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.126||||0.4806|TWO_SIDED|95.0|0.809|1.569|||Log Rank||Hazard ratio (Afatinib vs. Placebo) from Cox proportional hazards model stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|DFS was analysed using a stratified log-rank test with nodal status (N0- N2a vs. N2b-N3) and Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1) being the stratification factors.||1.569|0.809|0.4806
92384582|NCT01345669|184672463|SUPERIORITY_OR_OTHER||Difference in Kaplan-Meier estimates|-6.27||||0.161|TWO_SIDED|95.0|-15.04|2.5|||Log Rank||Difference in Kaplan-Meier estimates of Afatinib vs. Placebo is provided.|Kaplan-Meier (KM) curves were calculated for each treatment group, separately, and the estimates of DFS probabilities from the curves and 95% Confidence interval (CI) (using the Greenwood standard error estimate) were tabulated||2.50|-15.04|0.1610
92416021|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|0.7|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416022|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.098||0.406|TWO_SIDED|95.0|-0.273|0.111||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.111|-0.273|0.406
92233384|NCT01309737|184369232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||0.1786|TWO_SIDED|95.0|0.74|4.62||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||4.62|0.74|0.1786
92233385|NCT01309737|184369232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.18||||0.0003|TWO_SIDED|95.0|1.77|10.25||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error.Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||10.25|1.77|0.0003
92384583|NCT01345669|184672464|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.444||||0.1301|TWO_SIDED|95.0|0.895|2.332||p-value (two-sided) from log-rank test stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Log Rank|||Hazard ratio from Cox proportional hazards model stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).||2.332|0.895|0.1301
92384584|NCT01345669|184672465|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.431||||0.0561|TWO_SIDED|95.0|0.991|2.068|||Regression, Logistic|||Odds ratio and p-value from logistic regression analysis of 'improved vs. not improved' stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3) for Swallowing (Q5-Q8 from QLQ-HN35).||2.068|0.991|0.0561
92384585|NCT01345669|184672465|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.446||||0.0523|TWO_SIDED|95.0|0.996|2.098|||Regression, Logistic|||Odds ratio and p-value from logistic regression analysis of 'improved vs. not improved' stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3) for Pain HN35 (Q1-Q4 from QLQ-HN35).||2.098|0.996|0.0523
92384586|NCT01345669|184672465|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.818||||0.257|TWO_SIDED|95.0|0.577|1.158|||Regression, Logistic|||Odds ratio and p-value from logistic regression analysis of 'improved vs. not improved' stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3) for Global health status/QoL(Q29-Q30 from QLQ-C30).||1.158|0.577|0.2570
92384587|NCT01345669|184672466|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.295||||0.0591|TWO_SIDED|95.0|0.986|1.7||P-value from log-rank test stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Log Rank|||For swallowing scale; Hazard ratio from Cox proportional hazard model stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).||1.700|0.986|0.0591
92384588|NCT01345669|184672466|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.456||||0.0049|TWO_SIDED|95.0|1.113|1.905||P-value from log-rank test stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Log Rank|||For pain HN35 scale; Hazard ratio from Cox proportional hazard model stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).||1.905|1.113|0.0049
92384589|NCT01345669|184672466|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.604||||0.0002|TWO_SIDED|95.0|1.238|2.079||P-value from log-rank test stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Log Rank|||For global health status/QoL scale; Hazard ratio from Cox proportional hazard model stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).||2.079|1.238|0.0002
92384590|NCT01345669|184672467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.08||0.2232|TWO_SIDED|95.0|-0.81|3.45|||Mixed Models Analysis|Degrees of freedom calculated using the Kenward-Roger method.|Afatinib minus Placebo mean adjusted for total with data for baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Scores (swallowing scale) over time were assessed using longitudinal mixed-effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG performance score and nodal status.||3.45|-0.81|0.2232
92384591|NCT01345669|184672467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.08||0.0028|TWO_SIDED|95.0|1.12|5.36|||Mixed Models Analysis|Degrees of freedom calculated using the Kenward-Roger method.|Afatinib minus Placebo mean adjusted for total with data for baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Scores (pain scale) over time were assessed using longitudinal mixed-effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG performance score and nodal status.||5.36|1.12|0.0028
92384592|NCT01345669|184672467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|0.98||0.0005|TWO_SIDED|95.0|-5.33|-1.49|||Mixed Models Analysis|Degrees of freedom calculated using the Kenward-Roger method.|Afatinib minus Placebo mean adjusted for total with data for baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Scores (global health/QoL) over time were assessed using longitudinal mixed-effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG performance score and nodal status.||-1.49|-5.33|0.0005
92384593|NCT01793883|184672468|SUPERIORITY|||||||0.251|||||||Log Rank|||||||0.251
92384594|NCT01793883|184672468|SUPERIORITY|||||||0.818|||||||Log Rank|||||||0.818
92384595|NCT04254666|184672475|OTHER||||||||||||||||||pre and post scores for this measure are presented as the percent of foods correctly classified.|||
92384596|NCT02611817|184672487|SUPERIORITY||Clopper-Pearson method|13.7||||0.008|TWO_SIDED|95.0|3.8|23.7|||Cochran-Mantel-Haenszel|||P-value was calculated by Cochran-Mantel-Haenszel (CMH) test stratified by electronic data capture (EDC) stratum according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-alpha antagonist failure/exposed or concomitant immunomodulator use.||23.7|3.8|0.008
92233386|NCT01309737|184369232|SUPERIORITY_OR_OTHER||Percent Difference|6.72|STANDARD_ERROR_OF_MEAN|2.26||0.0029|TWO_SIDED|95.0|2.3|11.14|||Normal Approximation|||||11.14|2.30|0.0029
92239678|NCT00872833|184383191|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<.001
92384597|NCT02611817|184672488|SUPERIORITY||Clopper-Pearson method|7.3||||0.167|TWO_SIDED|95.0|-3.0|17.5|||Cochran-Mantel-Haenszel|||P-value was calculated by CMH test stratified by EDC stratum according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-alpha antagonist failure/exposed or concomitant immunomodulator use.||17.5|-3.0|0.167
92384598|NCT02611817|184672489|SUPERIORITY||Clopper-Pearson method|27.1||||0.002|TWO_SIDED|95.0|11.9|42.3|||Cochran-Mantel-Haenszel|||P-value was calculated by CMH test stratified by EDC stratum according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-alpha antagonist failure/exposed or concomitant immunomodulator use.||42.3|11.9|0.002
92416023|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|0.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416024|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.099||0.363|TWO_SIDED|95.0|-0.285|0.105||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.105|-0.285|0.363
92416025|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|0.76|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92169478|NCT03363854|184227459|SUPERIORITY||Difference|-1.4||||0.78|TWO_SIDED|95.0|-11.3|8.5||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 5-6 are reported below.||8.5|-11.3|0.78
92384599|NCT02611817|184672490|SUPERIORITY||Clopper-Pearson method|4.3||||0.591|TWO_SIDED|95.0|-11.6|20.3|||Cochran-Mantel-Haenszel|||P-value was calculated by CMH test stratified by EDC stratum according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-alpha antagonist failure/exposed or concomitant immunomodulator use.||20.3|-11.6|0.591
92384600|NCT01865448|184672558|SUPERIORITY_OR_OTHER|||||||0.278|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2780
92384601|NCT01865448|184672558|SUPERIORITY_OR_OTHER|||||||0.8689|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.8689
92384602|NCT01865448|184672558|SUPERIORITY_OR_OTHER|||||||0.4533|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.4533
92384603|NCT01865448|184672559|SUPERIORITY_OR_OTHER|||||||0.71833|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.71833
92384604|NCT01865448|184672559|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
92384605|NCT01865448|184672559|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Within-group comparisons between the baseline and 6 month data||||<0.001
92384606|NCT01865448|184672560|SUPERIORITY_OR_OTHER|||||||0.519|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.51900
92384607|NCT01865448|184672560|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
92384608|NCT01865448|184672560|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
92384609|NCT01865448|184672561|SUPERIORITY_OR_OTHER|||||||0.24567|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.24567
92384610|NCT01865448|184672561|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
92384611|NCT01865448|184672561|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
92384612|NCT01865448|184672562|SUPERIORITY_OR_OTHER|||||||0.9573|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.9573
92384613|NCT01865448|184672562|SUPERIORITY_OR_OTHER|||||||0.5257|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.5257
92169479|NCT03363854|184227459|SUPERIORITY||Difference|-4.8||||0.34|TWO_SIDED|95.0|-14.8|5.1||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 7-8 are reported below.||5.1|-14.8|0.34
92384614|NCT01865448|184672562|SUPERIORITY_OR_OTHER|||||||0.0657|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0657
92169480|NCT03363854|184227459|SUPERIORITY||Difference|-4.4||||0.34|TWO_SIDED|95.0|-13.4|4.6||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 9-10 are reported below.||4.6|-13.4|0.34
92169481|NCT03363854|184227459|SUPERIORITY||Difference|-6.2||||0.11|TWO_SIDED|95.0|-13.9|1.5||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 11-12 are reported below.||1.5|-13.9|0.11
92169482|NCT03363854|184227459|SUPERIORITY||Difference|-8.9||||0.024|TWO_SIDED|95.0|-16.6|-1.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 13-14 are reported below.||-1.2|-16.6|0.024
92239679|NCT00872833|184383192|SUPERIORITY_OR_OTHER|||||||0.028|||||||Chi-squared|||||||0.028
92239680|NCT01555463|184383193|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel|center-adjusted||||||<.001
92384615|NCT01865448|184672563|SUPERIORITY_OR_OTHER|||||||0.7474|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.7474
92384616|NCT01865448|184672563|SUPERIORITY_OR_OTHER|||||||0.3745|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.3745
92384617|NCT01865448|184672563|SUPERIORITY_OR_OTHER|||||||0.0476|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0476
92384618|NCT01865448|184672564|SUPERIORITY_OR_OTHER|||||||0.27444|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.27444
92384619|NCT01865448|184672564|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
92384620|NCT01865448|184672564|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
92384621|NCT01865448|184672565|SUPERIORITY_OR_OTHER|||||||0.28489|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.28489
92384622|NCT01865448|184672565|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
92384623|NCT01865448|184672565|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||||||<0.001
92384624|NCT01865448|184672566|SUPERIORITY_OR_OTHER|||||||0.04491|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.04491
92384625|NCT01865448|184672566|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
92233387|NCT01309737|184369233|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.06|||<|0.0001|TWO_SIDED|95.0|5.02|16.45||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||16.45|5.02|<0.0001
92384626|NCT01865448|184672566|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
92384627|NCT01865448|184672567|SUPERIORITY_OR_OTHER|||||||0.24396|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.24396
92384628|NCT01865448|184672567|SUPERIORITY_OR_OTHER|||||||0.00162|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.00162
92384629|NCT01865448|184672567|SUPERIORITY_OR_OTHER|||||||0.00162|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.00162
92384630|NCT01865448|184672568|SUPERIORITY_OR_OTHER|||||||0.82322|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.82322
92416026|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.125||0.22|TWO_SIDED|95.0|-0.4|0.093||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.093|-0.400|0.220
92416027|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|0.85|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416028|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.123||0.245|TWO_SIDED|95.0|-0.386|0.099||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.099|-0.386|0.245
92416029|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|0.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416030|NCT02880956|184721143|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.127||0.569|TWO_SIDED|95.0|-0.323|0.178||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.178|-0.323|0.569
92416031|NCT02880956|184721143|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|0.95|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416032|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.093||0.945|TWO_SIDED|95.0|-0.177|0.19||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.190|-0.177|0.945
92416033|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|0.86|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416034|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.092||0.974|TWO_SIDED|95.0|-0.184|0.178||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.178|-0.184|0.974
92416035|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416036|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.094||0.963|TWO_SIDED|95.0|-0.19|0.181||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||||0.181|-0.190|0.963
92416037|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|0.76|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416038|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.104||0.625|TWO_SIDED|95.0|-0.255|0.154||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.154|-0.255|0.625
92416039|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|0.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92384631|NCT01865448|184672568|SUPERIORITY_OR_OTHER|||||||0.25908|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.25908
92384632|NCT01865448|184672568|SUPERIORITY_OR_OTHER|||||||0.25908|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.25908
92384633|NCT01865448|184672569|SUPERIORITY_OR_OTHER|||||||0.76435|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.76435
92416040|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.101||0.468|TWO_SIDED|95.0|-0.272|0.125||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.125|-0.272|0.468
92416041|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|0.71|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416042|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.104||0.636|TWO_SIDED|95.0|-0.155|0.254||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.254|-0.155|0.636
92416043|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|0.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416044|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.112||0.887|TWO_SIDED|95.0|-0.204|0.236||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.236|-0.204|0.887
92169483|NCT03363854|184227459|SUPERIORITY||Difference|-9.5||||0.017|TWO_SIDED|95.0|-17.3|-1.7||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 15-16 are reported below.||-1.7|-17.3|0.017
92384634|NCT01865448|184672569|SUPERIORITY_OR_OTHER|||||||0.18876|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.18876
92384635|NCT01865448|184672569|SUPERIORITY_OR_OTHER|||||||0.18876|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.18876
92384636|NCT01865448|184672570|SUPERIORITY_OR_OTHER|||||||0.40485|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.40485
92384637|NCT01865448|184672570|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
92384638|NCT01865448|184672570|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
92384639|NCT01865448|184672571|SUPERIORITY_OR_OTHER|||||||0.13911|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.13911
92384640|NCT01865448|184672571|SUPERIORITY_OR_OTHER|||||||0.05726|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.05726
92384641|NCT01865448|184672571|SUPERIORITY_OR_OTHER|||||||0.05726|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.05726
92384642|NCT01865448|184672572|SUPERIORITY_OR_OTHER|||||||0.60214|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.60214
92384643|NCT01865448|184672572|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
92384644|NCT01865448|184672572|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
92384645|NCT01865448|184672573|SUPERIORITY_OR_OTHER|||||||0.66053|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.66053
92416045|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|0.84|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92384646|NCT01865448|184672573|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
92384647|NCT01865448|184672573|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.05
92416046|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|0.27|STANDARD_ERROR_OF_MEAN|0.111||0.016|TWO_SIDED|95.0|0.051|0.486||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.486|0.051|0.016
92416047|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|-0.33|STANDARD_DEVIATION|0.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416048|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.112||0.272|TWO_SIDED|95.0|-0.097|0.342||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.342|-0.097|0.272
92416049|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|0.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92169484|NCT03363854|184227461|SUPERIORITY||Difference|0.1||||0.64|TWO_SIDED|95.0|-0.5|0.7||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 1 are reported below.||0.7|-0.5|0.64
92169485|NCT03363854|184227461|SUPERIORITY||Difference|0.4||||0.26|TWO_SIDED|95.0|-0.3|1.0||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 2 are reported below.||1.0|-0.3|0.26
92384648|NCT01865448|184672574|SUPERIORITY_OR_OTHER|||||||0.28743|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.28743
92384649|NCT01865448|184672574|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
92384650|NCT01865448|184672574|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
92384651|NCT01865448|184672575|SUPERIORITY_OR_OTHER|||||||0.58561|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.58561
92384652|NCT01865448|184672575|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
92384653|NCT01865448|184672575|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||||||<0.001
92384654|NCT01865448|184672576|SUPERIORITY_OR_OTHER|||||||0.1953|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.1953
92384655|NCT01865448|184672576|SUPERIORITY_OR_OTHER|||||||0.0351|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0351
92416050|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.145||0.671|TWO_SIDED|95.0|-0.223|0.347||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.347|-0.223|0.671
92416051|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|0.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416052|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.143||0.493|TWO_SIDED|95.0|-0.183|0.378||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.378|-0.183|0.493
92416053|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|0.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416054|NCT02880956|184721144|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.147||0.501|TWO_SIDED|95.0|-0.19|0.387||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.387|-0.190|0.501
92416055|NCT02880956|184721144|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|0.98|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92233388|NCT01309737|184369233|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.97|||<|0.0001||95.0|9.0|30.73||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||30.73|9.00|<0.0001
92233389|NCT01309737|184369233|SUPERIORITY_OR_OTHER||Percent difference|13.62||||0.0002|TWO_SIDED|95.0|6.54|20.69|||Normal Approximation|||||20.69|6.54|0.0002
92416056|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.188||0.742|TWO_SIDED|95.0|-0.307|0.431||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.431|-0.307|0.742
92416057|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.5|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416058|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.185||0.431|TWO_SIDED|95.0|-0.511|0.218||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.218|-0.511|0.431
92416059|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|1.5|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416060|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.29|TWO_SIDED|95.0|-0.574|0.172||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.172|-0.574|0.290
92416061|NCT02880956|184721145|SUPERIORITY||effect size|0.13|STANDARD_DEVIATION|1.51|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416062|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.191||0.541|TWO_SIDED|95.0|-0.492|0.258||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.258|-0.492|0.541
92416063|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|1.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92233390|NCT01309737|184369234|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.44|STANDARD_ERROR_OF_MEAN|13.62||0.0062|TWO_SIDED|95.0|-64.19|-10.68||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-10.68|-64.19|0.0062
92416064|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.186||0.617|TWO_SIDED|95.0|-0.459|0.272||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.272|-0.459|0.617
92416065|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92239681|NCT01555463|184383194|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|F-test for treatment effect of the ANCOVA model with treatment group and study center as the factors and baseline lesion count as the covariate.||||||<.001
92278364|NCT02330081|184458758|NON_INFERIORITY|The FDA validation level requirements for test platelet quality is that the lower 1-sided 95% confidence limit of platelet recovery must be ≥ 66% of fresh control platelet values|Risk Ratio (RR)|83.3|STANDARD_ERROR_OF_MEAN|4.97|||ONE_SIDED|95.0|76.2||||||Estimate is the ratio of the mean platelet recovery of treatment over control||||76.2|
92384656|NCT01865448|184672576|SUPERIORITY_OR_OTHER|||||||0.0795|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0795
92384657|NCT01865448|184672577|SUPERIORITY_OR_OTHER|||||||0.6664|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.6664
92384658|NCT01865448|184672577|SUPERIORITY_OR_OTHER|||||||0.431|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.4310
92384659|NCT01865448|184672577|SUPERIORITY_OR_OTHER|||||||0.0049|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0049
92384660|NCT01865448|184672578|SUPERIORITY_OR_OTHER|||||||0.247|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2470
92384661|NCT01865448|184672578|SUPERIORITY_OR_OTHER|||||||0.2755|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.2755
92384662|NCT01865448|184672578|SUPERIORITY_OR_OTHER|||||||0.8226|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.8226
92384663|NCT01865448|184672579|SUPERIORITY_OR_OTHER|||||||0.6779|||||||ANCOVA|||Between-Group Comparison||||0.6779
92384664|NCT01865448|184672579|SUPERIORITY_OR_OTHER|||||||0.3761|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.3761
92384665|NCT01865448|184672579|SUPERIORITY_OR_OTHER|||||||0.0281|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0281
92384666|NCT01865448|184672580|SUPERIORITY_OR_OTHER|||||||0.8591|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.8591
92384667|NCT01865448|184672580|SUPERIORITY_OR_OTHER|||||||0.0404|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0404
92384668|NCT01865448|184672580|SUPERIORITY_OR_OTHER|||||||0.0474|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0474
92384669|NCT01865448|184672581|SUPERIORITY_OR_OTHER|||||||0.3187|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.3187
92384670|NCT01865448|184672581|SUPERIORITY_OR_OTHER|||||||0.0482|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0482
92384671|NCT01865448|184672581|SUPERIORITY_OR_OTHER|||||||0.0394|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0394
92384672|NCT01865448|184672582|SUPERIORITY_OR_OTHER|||||||0.2813|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2813
92384673|NCT01865448|184672582|SUPERIORITY_OR_OTHER|||||||0.4421|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.4421
92384674|NCT01865448|184672582|SUPERIORITY_OR_OTHER|||||||0.3198|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.3198
92384675|NCT01865448|184672583|SUPERIORITY_OR_OTHER|||||||0.2792|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2792
92384676|NCT01865448|184672583|SUPERIORITY_OR_OTHER|||||||0.1034|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.1034
92384677|NCT01865448|184672583|SUPERIORITY_OR_OTHER|||||||0.9898|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.9898
92384678|NCT01865448|184672584|SUPERIORITY_OR_OTHER|||||||0.7047|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.7047
92384679|NCT01865448|184672584|SUPERIORITY_OR_OTHER|||||||0.4749|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.4749
92384680|NCT01865448|184672584|SUPERIORITY_OR_OTHER|||||||0.6014|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.6014
92384681|NCT01865448|184672585|SUPERIORITY_OR_OTHER|||||||0.5932|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.5932
92384682|NCT01865448|184672585|SUPERIORITY_OR_OTHER|||||||0.714|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.7140
92384683|NCT01865448|184672585|SUPERIORITY_OR_OTHER|||||||0.5827|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.5827
92384684|NCT01865448|184672586|SUPERIORITY_OR_OTHER|||||||0.2894|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2894
92384685|NCT01865448|184672586|SUPERIORITY_OR_OTHER|||||||0.2128|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.2128
92384686|NCT01865448|184672586|SUPERIORITY_OR_OTHER|||||||0.0823|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0823
92384687|NCT01865448|184672587|SUPERIORITY_OR_OTHER|||||||0.345|||||||ANCOVA|||Between-Group Comparison||||0.3450
92384688|NCT01865448|184672587|SUPERIORITY_OR_OTHER|||||||0.1365|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.1365
92384689|NCT01865448|184672587|SUPERIORITY_OR_OTHER|||||||0.0073|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0073
92384690|NCT01865448|184672588|SUPERIORITY_OR_OTHER|||||||0.2333|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2333
92384691|NCT01865448|184672588|SUPERIORITY_OR_OTHER|||||||0.4292|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.4292
92384692|NCT01865448|184672588|SUPERIORITY_OR_OTHER|||||||0.3356|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.3356
92384693|NCT01865448|184672589|SUPERIORITY_OR_OTHER|||||||0.683|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.6830
92384694|NCT01865448|184672589|SUPERIORITY_OR_OTHER|||||||0.8625|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.8625
92384695|NCT01865448|184672589|SUPERIORITY_OR_OTHER|||||||0.0068|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0068
92384696|NCT01865448|184672590|SUPERIORITY_OR_OTHER|||||||0.3694|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.3694
92384697|NCT01865448|184672590|SUPERIORITY_OR_OTHER|||||||0.0291|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0291
92169486|NCT03363854|184227461|SUPERIORITY||Difference|0.2||||0.46|TWO_SIDED|95.0|-0.4|0.8||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 3 are reported below.||0.8|-0.4|0.46
92280505|NCT00601484|184463641|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.73|STANDARD_ERROR_OF_MEAN|12.416|||TWO_SIDED|90.0|-21.626|20.162||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||20.162|-21.626|
92384698|NCT01865448|184672590|SUPERIORITY_OR_OTHER|||||||0.0402|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0402
92384699|NCT01865448|184672591|SUPERIORITY_OR_OTHER|||||||0.1226|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.1226
92384700|NCT01865448|184672591|SUPERIORITY_OR_OTHER|||||||0.0472|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0472
92384701|NCT01865448|184672591|SUPERIORITY_OR_OTHER|||||||0.0197|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0197
92384702|NCT01865448|184672592|SUPERIORITY_OR_OTHER|||||||0.8969|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.8969
92384703|NCT01865448|184672592|SUPERIORITY_OR_OTHER|||||||0.7218|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.7218
92384704|NCT01865448|184672592|SUPERIORITY_OR_OTHER|||||||0.4536|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.4536
92384705|NCT01865448|184672593|SUPERIORITY_OR_OTHER|||||||0.8765|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.8765
92384706|NCT01865448|184672593|SUPERIORITY_OR_OTHER|||||||0.5114|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.5114
92384707|NCT01865448|184672593|SUPERIORITY_OR_OTHER|||||||0.0237|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0237
92384708|NCT01865448|184672594|SUPERIORITY_OR_OTHER|||||||0.2914|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2914
92384709|NCT01865448|184672594|SUPERIORITY_OR_OTHER|||||||0.5594|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.5594
92384710|NCT01865448|184672594|SUPERIORITY_OR_OTHER|||||||0.2532|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.2532
92384711|NCT01865448|184672595|SUPERIORITY_OR_OTHER|||||||0.0528|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.0528
92384712|NCT01865448|184672595|SUPERIORITY_OR_OTHER|||||||0.192|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.1920
92384713|NCT01865448|184672595|SUPERIORITY_OR_OTHER|||||||0.0011|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0011
92384714|NCT01865448|184672596|SUPERIORITY_OR_OTHER|||||||0.2999|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2999
92384715|NCT01865448|184672596|SUPERIORITY_OR_OTHER|||||||0.5184|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.5184
92384716|NCT01865448|184672596|SUPERIORITY_OR_OTHER|||||||0.0564|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0564
92384717|NCT01865448|184672597|SUPERIORITY_OR_OTHER|||||||0.0783|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.0783
92384718|NCT01865448|184672597|SUPERIORITY_OR_OTHER|||||||0.1263|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.1263
92384719|NCT01865448|184672597|SUPERIORITY_OR_OTHER|||||||0.6484|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.6484
92384720|NCT01865448|184672598|SUPERIORITY_OR_OTHER|||||||0.6896|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.6896
92384721|NCT01865448|184672598|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0980
92384722|NCT01865448|184672598|SUPERIORITY_OR_OTHER|||||||0.3526|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.3526
92384723|NCT01865448|184672599|SUPERIORITY_OR_OTHER|||||||0.9662|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.9662
92384724|NCT01865448|184672599|SUPERIORITY_OR_OTHER|||||||0.145|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.1450
92384725|NCT01865448|184672599|SUPERIORITY_OR_OTHER|||||||0.3811|TWO_SIDED||||||Paired t-test|||||||0.3811
92384726|NCT01865448|184672600|SUPERIORITY_OR_OTHER|||||||0.2643|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2643
92384727|NCT01865448|184672600|SUPERIORITY_OR_OTHER|||||||0.0761|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0761
92384728|NCT01865448|184672600|SUPERIORITY_OR_OTHER|||||||0.1342|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.1342
92384729|NCT01865448|184672601|SUPERIORITY_OR_OTHER|||||||0.141|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.1410
92384730|NCT01865448|184672601|SUPERIORITY_OR_OTHER|||||||0.3774|||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.3774
92384731|NCT01865448|184672601|SUPERIORITY_OR_OTHER|||||||0.1811|TWO_SIDED||||||Paired t-test|||||||0.1811
92384732|NCT01865448|184672602|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||<0.0001
92384733|NCT01865448|184672602|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.0001
92384734|NCT01865448|184672602|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.0001
92384735|NCT01865448|184672603|SUPERIORITY_OR_OTHER|||||||0.5893|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.5893
92384736|NCT01865448|184672603|SUPERIORITY_OR_OTHER|||||||0.0431|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0431
92384737|NCT01865448|184672603|SUPERIORITY_OR_OTHER|||||||0.0066|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0066
92384738|NCT01865448|184672604|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||<0.0001
92384739|NCT01865448|184672604|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.0001
92416066|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.191||0.457|TWO_SIDED|95.0|-0.517|0.233||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.233|-0.517|0.457
92278365|NCT02330081|184458759|NON_INFERIORITY|One of the FDA validation level requirements for test platelet quality is that the lower 1-sided 95% confidence limit of the mean platelet survival time must be ≥58% of fresh control platelet mean survival time|Mean Ratio Survival Time|81.0|STANDARD_ERROR_OF_MEAN|2.0|||ONE_SIDED|95.0|77.0||||||Estimate is the ratio of the mean platelet survival time of treatment over control||||77.0|
92384740|NCT01865448|184672604|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.0001
92384741|NCT01865448|184672605|SUPERIORITY_OR_OTHER|||||||0.985|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.9850
92384742|NCT01865448|184672605|SUPERIORITY_OR_OTHER|||||||0.0049|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0049
92384743|NCT01865448|184672605|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED||||||Paired t-test|||||||0.0062
92384744|NCT01865448|184672606|SUPERIORITY_OR_OTHER|||||||0.1946|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.1946
92384745|NCT01865448|184672606|SUPERIORITY_OR_OTHER|||||||0.2337|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.2337
92384746|NCT01865448|184672606|SUPERIORITY_OR_OTHER|||||||0.9188|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.9188
92384747|NCT01865448|184672607|SUPERIORITY_OR_OTHER|||||||0.7964|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.7964
92384748|NCT01865448|184672607|SUPERIORITY_OR_OTHER|||||||0.768|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.7680
92384749|NCT01865448|184672607|SUPERIORITY_OR_OTHER|||||||0.5669|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.5669
92384750|NCT01865448|184672608|SUPERIORITY_OR_OTHER|||||||0.032|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.0320
92384751|NCT01865448|184672608|SUPERIORITY_OR_OTHER|||||||0.022|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0220
92384752|NCT01865448|184672608|SUPERIORITY_OR_OTHER|||||||0.4563|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.4563
92384753|NCT01865448|184672609|SUPERIORITY_OR_OTHER|||||||0.72828|TWO_SIDED||||||Fisher Exact|||Between-Group Comparison||||0.72828
92384754|NCT01618695|184672611|SUPERIORITY||Median Difference (Final Values)|-5.09||||0.233|TWO_SIDED|95.0|-14.112|4.519|||ANCOVA||Median Difference to placebo and the 95 percent (%) confidence interval are based on the Hodges-Lehmann method.|||4.519|-14.112|0.2330
92384755|NCT01618695|184672611|SUPERIORITY||Median Difference (Final Values)|-16.45||||0.0003|TWO_SIDED|95.0|-25.683|-7.251|||ANCOVA||Median Difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|||-7.251|-25.683|0.0003
92384756|NCT01618695|184672611|SUPERIORITY||Median Difference (Final Values)|-24.95|||<|0.0001|TWO_SIDED|95.0|-33.878|-16.235|||ANCOVA||Median Difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|||-16.235|-33.878|<0.0001
92384757|NCT01618695|184672612|SUPERIORITY|||||||0.3954|||||||Cochran-Mantel-Haenszel|||||||0.3954
92384758|NCT01618695|184672612|SUPERIORITY|||||||0.0005|||||||Cochran-Mantel-Haenszel|||||||0.0005
92384759|NCT01618695|184672612|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92384760|NCT01618695|184672613|SUPERIORITY||Median Difference (Final Values)|-8.27||||0.0552|TWO_SIDED|95.0|-18.067|1.671|||ANCOVA||Median Difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|||1.671|-18.067|0.0552
92384761|NCT01618695|184672613|SUPERIORITY||Median Difference (Final Values)|-21.21|||<|0.0001|TWO_SIDED|95.0|-30.941|-11.368|||ANCOVA||Median Difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|||-11.368|-30.941|<0.0001
92384762|NCT01618695|184672613|SUPERIORITY||Median Difference (Final Values)|-28.65|||<|0.0001|TWO_SIDED|95.0|-37.698|-19.794|||ANCOVA||Median Difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|||-19.794|-37.698|<0.0001
92384763|NCT00265317|184672654|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.898||||0.3206|TWO_SIDED|80.0|0.575|1.404||Primary analysis was based on an unstratified 1-sided log rank test with alpha=0.1|Log Rank|||Sample size for randomized portion of study determined based on these assumptions: median PFS (erlotinib)=10 weeks, accrual time=12 months. With 6 months follow-up, study was powered to detect a difference in PFS of 5 weeks. 1-sided log rank test comparing the 2 treatment groups with 115 events of PD or death among a target sample size of 126 participants (63 per group) achieved 80% power at a 10% significance level to detect a 50% improvement in PFS from 10 to 15 weeks.||1.404|0.575|0.3206
92384764|NCT00265317|184672655|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.546||||0.6251|TWO_SIDED|95.0|0.267|8.954|||Cochran-Mantel-Haenszel|||95% confidence interval (CI) calculated based on f-distribution||8.954|0.267|0.6251
92384765|NCT00265317|184672656|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.921||||0.3732|TWO_SIDED|95.0|0.572|1.485||1-sided unstratified log-rank test|Log Rank|||||1.485|0.572|0.3732
92384766|NCT00265317|184672658|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.066||||0.6171|TWO_SIDED|95.0|0.705|1.612||p-value from 1-sided unstratified log-rank test|Log Rank|||||1.612|0.705|0.6171
92384767|NCT00265317|184672659|SUPERIORITY_OR_OTHER||Percentage|32.0|||||TWO_SIDED|95.0|19.7|44.3||||||Percentage of participants surviving at 1 year in the Sunitinib + Erlotinib Treatment Group, estimated using the Kaplan-Meier method||44.3|19.7|
92384768|NCT00265317|184672659|SUPERIORITY_OR_OTHER||Percentage|42.0|||||TWO_SIDED|95.0|30.1|54.2||||||Percentage of participants surviving at 1 year in the Erlotinib + Placebo Treatment Group, estimated using the Kaplan-Meier method||54.2|30.1|
92384769|NCT00265317|184672687|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.748||||0.2247|TWO_SIDED|95.0|0.351|1.591|||Log Rank|||Positive EGFR Expression||1.591|0.351|0.2247
92384770|NCT00265317|184672687|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.184||||0.6797|TWO_SIDED|95.0|0.581|2.414|||Log Rank|||Negative EGFR Expression||2.414|0.581|0.6797
92384771|NCT00265317|184672687|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.632||||0.1693|TWO_SIDED|95.0|0.245|1.627|||Log Rank|||Unmeasured EGFR Expression||1.627|0.245|0.1693
92384772|NCT00265317|184672689|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.864||||0.3223|TWO_SIDED|95.0|0.458|1.628|||Log Rank|||Positive EGFR Expression||1.628|0.458|0.3223
92416067|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|1.5|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92233391|NCT01309737|184369234|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.79|STANDARD_ERROR_OF_MEAN|13.75||0.0025|TWO_SIDED|95.0|-68.8|-14.78||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-14.78|-68.80|0.0025
92384773|NCT00265317|184672689|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.946||||0.4608|TWO_SIDED|95.0|0.362|2.474|||Log Rank|||Negative EGFR Expression||2.474|0.362|0.4608
92384774|NCT00265317|184672689|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.632||||0.1693|TWO_SIDED|95.0|0.245|1.627|||Log Rank|||Unmeasured EGFR Expression||1.627|0.245|0.1693
92384775|NCT00265317|184672691|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.049||||0.5526|TWO_SIDED|95.0|0.542|2.031|||Log Rank|||No EGFR Gene Copy Number Increase||2.031|0.542|0.5526
92384776|NCT00265317|184672691|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.715||||0.1529|TWO_SIDED|95.0|0.38|1.344|||Log Rank|||Unmeasured EGFR Gene Copy Number Increase||1.344|0.380|0.1529
92384777|NCT00265317|184672693|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.078||||0.5839|TWO_SIDED|95.0|0.557|2.085|||Log Rank|||No EGFR Gene Amplification||2.085|0.557|0.5839
92384778|NCT00265317|184672693|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.715||||0.1529|TWO_SIDED|95.0|0.38|1.344|||Log Rank|||Unmeasured EGFR Gene Amplification||1.344|0.380|0.1529
92384779|NCT00265317|184672695|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.6324|TWO_SIDED|95.0|0.516|2.608|||Log Rank|||Wild Type EGFR Gene Mutation||2.608|0.516|0.6324
92384780|NCT00265317|184672695|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.813||||0.2413|TWO_SIDED|95.0|0.464|1.424|||Log Rank|||Indeterminate EGFR Gene Mutation||1.424|0.464|0.2413
92384781|NCT00265317|184672697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.481||||0.2077|TWO_SIDED|95.0|0.079|2.91|||Log Rank|||Mutated KRAS Gene Mutation||2.910|0.079|0.2077
92384782|NCT00265317|184672697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.162||||0.6439|TWO_SIDED|95.0|0.534|2.531|||Log Rank|||Wild Type KRAS Gene Mutation||2.531|0.534|0.6439
92384783|NCT00265317|184672697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.825||||0.2664|TWO_SIDED|95.0|0.457|1.489|||Log Rank|||Indeterminate KRAS Gene Mutation||1.489|0.457|0.2664
92384784|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.7423|TWO_SIDED|95.0|0.541|2.36||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: C/C||2.360|0.541|0.7423
92384785|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.598||||0.157|TWO_SIDED|95.0|0.29|1.236||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: C/T||1.236|0.290|0.1570
92384786|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.794||||0.7954|TWO_SIDED|95.0|0.131|4.819||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: T/T||4.819|0.131|0.7954
92416068|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|0.22|STANDARD_ERROR_OF_MEAN|0.188||0.245|TWO_SIDED|95.0|-0.151|0.59||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.590|-0.151|0.245
92384787|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.833||||0.621|TWO_SIDED|95.0|0.401|1.732||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305945 Genotype: G/G||1.732|0.401|0.6210
92384788|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.794||||0.5268|TWO_SIDED|95.0|0.385|1.64||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305945 Genotype: G/T||1.640|0.385|0.5268
92384789|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.011||||0.9753|TWO_SIDED|95.0|0.504|2.027||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1870377 Genotype: T/T||2.027|0.504|0.9753
92384790|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.378||||0.0141|TWO_SIDED|95.0|0.168|0.85||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1870377 Genotype: T/A||0.850|0.168|0.0141
92384791|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.236||||0.5596|TWO_SIDED|95.0|0.139|35.9||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1870377 Genotype: A/A||35.90|0.139|0.5596
92384792|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.738||||0.2788|TWO_SIDED|95.0|0.422|1.288||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305948 Genotype: C/C||1.288|0.422|0.2788
92384793|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.075||||0.8971|TWO_SIDED|95.0|0.352|3.286||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305948 Genotype: C/T||3.286|0.352|0.8971
92384794|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.775||||0.6559|TWO_SIDED|95.0|0.251|2.388||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: C/C||2.388|0.251|0.6559
92384795|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.939||||0.8563|TWO_SIDED|95.0|0.466|1.889||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: C/T||1.889|0.466|0.8563
92384796|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.382||||0.668|TWO_SIDED|95.0|0.13|1.12||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: T/T||1.120|0.130|0.668
92384797|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.3681|TWO_SIDED|95.0|0.488|1.309||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs35636987 Genotype: C/C||1.309|0.488|0.3681
92384798|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.752|TWO_SIDED|95.0|0.331|2.237||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: C/C||2.237|0.331|0.7520
92384799|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.551||||0.0833|TWO_SIDED|95.0|0.276|1.098||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: C/T||1.098|0.276|0.0833
92384800|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.564||||0.4772|TWO_SIDED|95.0|0.444|5.506||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: T/T||5.506|0.444|0.4772
92384801|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.034||||0.9235|TWO_SIDED|95.0|0.522|2.048||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: G/G||2.048|0.522|0.9235
92416069|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|1.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416070|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.187||0.491|TWO_SIDED|95.0|-0.238|0.496||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.496|-0.238|0.491
92416071|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|1.6|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416072|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|0.28|STANDARD_ERROR_OF_MEAN|0.188||0.132|TWO_SIDED|95.0|-0.085|0.652||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.652|-0.085|0.132
92416073|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|-0.18|STANDARD_DEVIATION|1.58|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416074|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.19||0.751|TWO_SIDED|95.0|-0.434|0.313||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.313|-0.434|0.751
92169487|NCT03363854|184227461|SUPERIORITY||Difference|0.4||||0.16|TWO_SIDED|95.0|-0.2|1.0||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 4 are reported below.||1.0|-0.2|0.16
92169488|NCT03363854|184227461|SUPERIORITY||Difference|0.5||||0.13|TWO_SIDED|95.0|-0.1|1.1||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 5 are reported below.||1.1|-0.1|0.13
92278366|NCT02277769|184458772|SUPERIORITY||difference in percentages|27.6|||<|0.0001|TWO_SIDED|95.0|20.46|34.69||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||34.69|20.46|< 0.0001
92416075|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|1.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416076|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.188||0.157|TWO_SIDED|95.0|-0.635|0.103||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.103|-0.635|0.157
92416077|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|0.16|STANDARD_DEVIATION|1.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416078|NCT02880956|184721145|SUPERIORITY||LS Mean of Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.192||0.283|TWO_SIDED|95.0|-0.585|0.172||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.172|-0.585|0.283
92384802|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.501||||0.0845|TWO_SIDED|95.0|0.223|1.126||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: G/A||1.126|0.223|0.0845
92384803|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.724||||0.5493|TWO_SIDED|95.0|0.284|10.47||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: A/A||10.47|0.284|0.5493
92384804|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.521|TWO_SIDED|95.0|0.492|3.987||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: G/G||3.987|0.492|0.5210
92384805|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.538||||0.0854|TWO_SIDED|95.0|0.261|1.108||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: G/A||1.108|0.261|0.0854
92416079|NCT02880956|184721145|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|1.44|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416080|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.363|TWO_SIDED|95.0|-0.085|0.231||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.231|-0.085|0.363
92416081|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|0.66|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416082|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.079||0.688|TWO_SIDED|95.0|-0.188|0.124||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.124|-0.188|0.688
92416083|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|0.64|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92233392|NCT01309737|184369234|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.35|STANDARD_ERROR_OF_MEAN|10.98||0.692|TWO_SIDED|95.0|-25.91|17.21|||Mixed Models Analysis|||LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||17.21|-25.91|0.6920
92233393|NCT01309737|184369238|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92233394|NCT01309737|184369238|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92233395|NCT01309737|184369238|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92278367|NCT02277769|184458772|SUPERIORITY||difference in percentages|27.9|||<|0.0001|TWO_SIDED|95.0|20.87|34.99||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||34.99|20.87|< 0.0001
92384806|NCT00265317|184672699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.953||||0.9198|TWO_SIDED|95.0|0.365|2.489||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: A/A||2.489|0.365|0.9198
92384807|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.977||||0.9486|TWO_SIDED|95.0|0.473|2.014||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: C/C||2.014|0.473|0.9486
92169489|NCT03363854|184227461|SUPERIORITY||Difference|0.3||||0.38|TWO_SIDED|95.0|-0.3|0.9||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 6 are reported below.||0.9|-0.3|0.38
92233396|NCT01309737|184369239|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92233397|NCT01309737|184369239|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92233398|NCT01309737|184369239|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92233399|NCT01309737|184369240|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92233400|NCT01309737|184369240|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92233401|NCT01309737|184369240|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92233402|NCT01442181|184369281|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Energy and fatigue 3 month vs 6 month in minimally invasive group||||0.03
92233403|NCT01442181|184369281|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of the fatigue and energy was done in baseline-3 month, and 6 month in each group. Minimally Invasive: baseline vs 3 month||||0.01
92233404|NCT01442181|184369281|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Energy and fatigue in medical therapy group; baseline vs 3 month||||0.49
92233405|NCT01442181|184369281|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Energy and fatigue 3 month vs 6 month||||0.06
92233406|NCT02698189|184369291|OTHER|80% Bayesian credible interval based on a prior distribution of Beta (1, 1).|||||||||||||||||80% 2-sided Bayesian credible interval: lower = 0.000; upper = 0.415|||
92233407|NCT02698189|184369291|OTHER|80% Bayesian credible interval based on a prior distribution of Beta (1, 1).|||||||||||||||||80% 2-sided Bayesian credible interval: lower = 0.040; upper = 0.391|||
92239682|NCT04436510|184383211|SUPERIORITY||Disease Rate Ratio|0.98|STANDARD_DEVIATION|0.118|||TWO_SIDED|95.0|0.769|1.237||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. verdiperstat slowed progression) was 0.57467. NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by verdiperstat relative to placebo. Note: reported Confidence Interval is actually a Bayesian credible interval."||The model includes covariates for baseline use of edaravone, baseline use of riluzole, months since onset of symptoms, and pre-baseline slope of ALSFRS-R, and random effects for regimen and participant-specific slopes.|1.237|0.769|
92384808|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.961||||0.9084|TWO_SIDED|95.0|0.487|1.897||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: C/T||1.897|0.487|0.9084
92384809|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.876||||0.2009|TWO_SIDED|95.0|0.534|15.48||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: T/T||15.48|0.534|0.2009
92384810|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.098||||0.7863|TWO_SIDED|95.0|0.554|2.175||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305845 Genotype: G/G||2.175|0.554|0.7863
92384811|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.243||||0.5267|TWO_SIDED|95.0|0.633|2.442||2-sided unstratified log-rank test|Log Rank|||Locus: VEFR2/rs2305945 Genotype: G/T||2.442|0.633|0.5267
92416084|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.081||0.137|TWO_SIDED|95.0|-0.039|0.281||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.281|-0.039|0.137
92416085|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|-0.18|STANDARD_DEVIATION|0.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416086|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.107||0.408|TWO_SIDED|95.0|-0.3|0.122||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.122|-0.300|0.408
92416087|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|0.89|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416088|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.104||0.249|TWO_SIDED|95.0|-0.325|0.085||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.085|-0.325|0.249
92233408|NCT02333227|184369325|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis||||We employed generalized linear mixed methods (GLMM) with binomial distribution to examine the association between study primary outcomes of baby's birth weight (\<2500) and gestational age at delivery (\<37 weeks including up to 36 and 6/7 weeks) and assignment to the study intervention group. To account for clustering of outcomes by cluster (sites), we used random slope/random intercept GLMM models with a cluster as a random effect (level 2) and treatment as a fixed effect (level 1), since random effect modeling is an individual-level analyses that accounts for within-cluster dependence by maximum likelihood estimation. A separate model was fit to each study outcome and corresponding relative risk with 95% confidence intervals (CI) estimated. Full information maximum likelihood estimation (FIML) allows for analyses to be performed with the full sample, under conditions of Missing Completely at Random (MCAR) and Missing at Random (MAR), and with missing data rates up to 50%.|||<0.05
92416089|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|0.15|STANDARD_DEVIATION|0.79|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416090|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.107||0.616|TWO_SIDED|95.0|-0.265|0.157||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.157|-0.265|0.616
92416091|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.95|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416092|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.119||0.555|TWO_SIDED|95.0|-0.163|0.304||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.304|-0.163|0.555
92416093|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|0.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416094|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.117||0.815|TWO_SIDED|95.0|-0.203|0.258||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.258|-0.203|0.815
92416095|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|0.82|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92169490|NCT03363854|184227461|SUPERIORITY||Difference|0.6||||0.04|TWO_SIDED|95.0|0.0|1.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 7 are reported below.||1.2|0.0|0.040
92416096|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|0.18|STANDARD_ERROR_OF_MEAN|0.119||0.138|TWO_SIDED|95.0|-0.057|0.409||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.409|-0.057|0.138
92416097|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|0.89|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416098|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.157||0.573|TWO_SIDED|95.0|-0.397|0.22||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.220|-0.397|0.573
92416099|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|1.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92169491|NCT03363854|184227461|SUPERIORITY||Difference|0.3||||0.31|TWO_SIDED|95.0|-0.3|1.0||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 8 are reported below.||1.0|-0.3|0.31
92169492|NCT03363854|184227461|SUPERIORITY||Difference|1.0||||0.001|TWO_SIDED|95.0|0.4|1.6||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 9 are reported below.||1.6|0.4|0.001
92384812|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55||||0.624|TWO_SIDED|95.0|0.049|6.208||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305945 Genotype: T/T||6.208|0.049|0.6240
92416100|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.154||0.689|TWO_SIDED|95.0|-0.241|0.365||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.365|-0.241|0.689
92416101|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416102|NCT02880956|184721146|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.159||0.662|TWO_SIDED|95.0|-0.243|0.382||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.382|-0.243|0.662
92169493|NCT03363854|184227461|SUPERIORITY||Difference|0.7||||0.026|TWO_SIDED|95.0|0.1|1.3||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 10 are reported below.||1.3|0.1|0.026
92384813|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.254||||0.4882|TWO_SIDED|95.0|0.66|2.384||2-sided unstratified log-rank test|Log Rank|||Locus: VEFR/rs1870377 Genotype: T/T||2.384|0.660|0.4882
92384814|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.587||||0.1307|TWO_SIDED|95.0|0.29|1.189||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1870377 Genotype: T/A||1.189|0.290|0.1307
92384815|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.236||||0.5596|TWO_SIDED|95.0|0.139|35.9||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1870377 Genotype: A/A||35.90|0.139|0.5596
92384816|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.073||||0.7966|TWO_SIDED|95.0|0.628|1.833||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305948 Genotype: C/C||1.833|0.628|0.7966
92384817|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.954||||0.9224|TWO_SIDED|95.0|0.366|2.484||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305948 Genotype: C/T||2.484|0.366|0.9224
92384818|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.047||||0.9317|TWO_SIDED|95.0|0.363|3.025||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: C/C||3.025|0.363|0.9317
92384819|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.057||||0.8696|TWO_SIDED|95.0|0.546|2.044||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: C/T||2.044|0.546|0.8696
92384820|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.075||||0.8694|TWO_SIDED|95.0|0.453|2.554||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: T/T||2.554|0.453|0.8694
92384821|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.039||||0.8708|TWO_SIDED|95.0|0.654|1.652||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs3563987 Genotype: C/C||1.652|0.654|0.8708
92384822|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.157||||0.7667|TWO_SIDED|95.0|0.442|3.026||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: C/C||3.026|0.442|0.7667
92384823|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.755||||0.3822|TWO_SIDED|95.0|0.401|1.422||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: C/T||1.422|0.401|0.3822
92384824|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.419||||0.5089|TWO_SIDED|95.0|0.498|4.04||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: T/T||4.040|0.498|0.5089
92384825|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.326||||0.3944|TWO_SIDED|95.0|0.691|2.544||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: G/G||2.544|0.691|0.3944
92384826|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.692||||0.3103|TWO_SIDED|95.0|0.339|1.416||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: G/A||1.416|0.339|0.3103
92384827|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.857||||0.8942|TWO_SIDED|95.0|0.089|8.294||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: A/A||8.294|0.089|0.8942
92384828|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.665|TWO_SIDED|95.0|0.466|3.304||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: G/G||3.304|0.466|0.6650
92384829|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.779||||0.4415|TWO_SIDED|95.0|0.412|1.475||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: G/A||1.475|0.412|0.4415
92384830|NCT00265317|184672700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.458||||0.4682|TWO_SIDED|95.0|0.523|4.06||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: A/A||4.060|0.523|0.4682
92384831|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.289||||0.7301|TWO_SIDED|95.0|0.304|5.47||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304060 Genotype: C/C||5.470|0.304|0.7301
92384832|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.788||||0.5013|TWO_SIDED|95.0|0.39|1.592||2-sided unstratified log-rank test|Log Rank|||PDGFRB/rs2304060 C/A||1.592|0.390|0.5013
92384833|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.686||||0.368|TWO_SIDED|95.0|0.298|1.578||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304060 Genotype: A/A||1.578|0.298|0.3680
92384834|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.738||||0.3804|TWO_SIDED|95.0|0.371|1.467||2-sided, unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17656204 Genotype: C/C||1.467|0.371|0.3804
92384835|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.1507|TWO_SIDED|95.0|0.261|1.247||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17656204 Genotype: C/T||1.247|0.261|0.1507
92384836|NCT00265317|184672702|SUPERIORITY_OR_OTHER|||||||0.0772||||||2-sided unstratified log-rank test|Log Rank|||Locus PDGFRB/rs17656204 Genotype: T/T||||0.0772
92384837|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.2149|TWO_SIDED|95.0|0.339|1.284||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304061 Genotype: G/G||1.284|0.339|0.2149
92384838|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.026||||0.9491|TWO_SIDED|95.0|0.466|2.26||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/RS2304061 Genotype: G/A||2.260|0.466|0.9491
92384839|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.917||||0.8114|TWO_SIDED|95.0|0.447|1.881||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: A/A||1.881|0.447|0.8114
92416103|NCT02880956|184721146|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|1.14|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416104|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.184||0.291|TWO_SIDED|95.0|-0.555|0.167||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.167|-0.555|0.291
92416105|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|0.13|STANDARD_DEVIATION|1.48|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416106|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|-0.36|STANDARD_ERROR_OF_MEAN|0.182||0.051|TWO_SIDED|95.0|-0.713|0.001||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.001|-0.713|0.051
92233409|NCT02333227|184369326|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Co-primary outcomes|We employed generalized linear mixed methods (GLMM) with binomial distribution to examine the association between study primary outcomes of baby's birth weight (\<2500) and gestational age at delivery (\<37 weeks including up to 36 and 6/7 weeks) and assignment to the study intervention group. To account for clustering of outcomes by cluster (sites), we used random slope/random intercept GLMM models with a cluster as a random effect (level 2) and treatment as a fixed effect (level 1), since random effect modeling is an individual-level analyses that accounts for within-cluster dependence by maximum likelihood estimation. A separate model was fit to each study outcome and corresponding relative risk with 95% confidence intervals (CI) estimated. Full information maximum likelihood estimation (FIML) allows for analyses to be performed with the full sample, under conditions of Missing Completely at Random (MCAR) and Missing at Random (MAR), and with missing data rates up to 50%.|||<0.05
92233410|NCT02333227|184369327|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92384840|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.577||||0.1379|TWO_SIDED|95.0|0.273|1.221||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: A/T||1.221|0.273|0.1379
92416107|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|1.52|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416108|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.185||0.921|TWO_SIDED|95.0|-0.346|0.383||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.383|-0.346|0.921
92416109|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416110|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.211||0.163|TWO_SIDED|95.0|-0.711|0.12||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.120|-0.711|0.163
92416111|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|1.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92384841|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.859||||0.5341|TWO_SIDED|95.0|0.256|13.51||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: T/T||13.51|0.256|0.5341
92384842|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.932||||0.8564|TWO_SIDED|95.0|0.431|2.014||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: A/A||2.014|0.431|0.8564
92384843|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.797||||0.5766|TWO_SIDED|95.0|0.355|1.788||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: A/G||1.788|0.355|0.5766
92384844|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.467||||0.2043|TWO_SIDED|95.0|0.14|1.557||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: G/G||1.557|0.140|0.2043
92384845|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.531||||0.1626|TWO_SIDED|95.0|0.214|1.317||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: G/G||1.317|0.214|0.1626
92384846|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.986||||0.968|TWO_SIDED|95.0|0.484|2.006||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: G/C||2.006|0.484|0.9680
92384847|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.573||||0.3587|TWO_SIDED|95.0|0.171|1.92||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: C/C||1.920|0.171|0.3587
92384848|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.742||||0.4635|TWO_SIDED|95.0|0.331|1.662||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: G/G||1.662|0.331|0.4635
92384849|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.992||||0.9834|TWO_SIDED|95.0|0.476|2.069||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: G/A||2.069|0.476|0.9834
92384850|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.353||||0.1764|TWO_SIDED|95.0|0.072|1.725||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: A/A||1.725|0.072|0.1764
92384851|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.715||||0.2018|TWO_SIDED|95.0|0.422|1.209||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3733678 Genotype: G/G||1.209|0.422|0.2018
92384852|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.85||||0.4592|TWO_SIDED|95.0|0.354|9.673||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3733678 Genotype: G/A||9.673|0.354|0.4592
92384853|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.665||||0.1593|TWO_SIDED|95.0|0.373|1.184||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs246396 Genotype: T/T||1.184|0.373|0.1593
92384854|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.327||||0.5897|TWO_SIDED|95.0|0.469|3.755||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs246396 Genotype: T/C||3.755|0.469|0.5897
92384855|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.3681|TWO_SIDED|95.0|0.488|1.309||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs34586048 Genotype: C/C||1.309|0.488|0.3681
92384856|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.752||||0.3235|TWO_SIDED|95.0|0.423|1.336||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs11740355 Genotype: T/T||1.336|0.423|0.3235
92384857|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.845||||0.7463|TWO_SIDED|95.0|0.303|2.355||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs11740355 Genotype: T/G||2.355|0.303|0.7463
92169494|NCT03363854|184227461|SUPERIORITY||Difference|0.9||||0.006|TWO_SIDED|95.0|0.2|1.5||The statistical test was not controlled for multiplicity.|Repeated measurements model]|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 11 are reported below.||1.5|0.2|0.006
92233411|NCT02333227|184369328|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis||||Specifically, the composite of periodontal disease was also created; this composite was positive if any of the following were detected: gingival bleeding, pockets of 4 mm or greater, or loss of attachment of 4 mm or greater. A scaled periodontal disease score was also created which was the sum of scores for gingival bleeding (+1 if bleeding was present, per tooth), gingival pockets (+1 for pockets of 4-5 mm and +2 for 6 mm or deeper, per tooth), and loss of attachment (+1 for 4-5 mm loss, +2 for 6-8 mm, +3 for 9-11 mm, and +4 for 12 mm or more, per tooth with values recorded for index teeth) divided by the number of teeth present.|||<0.05
92384858|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.724||||0.4179|TWO_SIDED|95.0|0.33|1.593||2-sided unstratified log-rank test|Log Rank|||Locus: rs740751 Genotype: C/C||1.593|0.330|0.4179
92384859|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.973||||0.9423|TWO_SIDED|95.0|0.462|2.05||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs740751 Genotype: C/T||2.050|0.462|0.9423
92384860|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.353||||0.1764|TWO_SIDED|95.0|0.072|1.725||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs7407451 Genotype: T/T||1.725|0.072|0.1764
92384861|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.549||||0.2352|TWO_SIDED|95.0|0.201|1.501||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: G/G||1.501|0.201|0.2352
92384862|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.986||||0.9674|TWO_SIDED|95.0|0.485|2.003||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: G/A||2.003|0.485|0.9674
92384863|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.629||||0.3524|TWO_SIDED|95.0|0.235|1.686||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: A/A||1.686|0.235|0.3524
92384864|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.809||||0.6652|TWO_SIDED|95.0|0.308|2.124||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: T/T||2.124|0.308|0.6652
92384865|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.839||||0.5931|TWO_SIDED|95.0|0.436|1.618||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: T/G||1.618|0.436|0.5931
92384866|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.475||||0.2625|TWO_SIDED|95.0|0.125|1.813||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: G/G||1.813|0.125|0.2625
92384867|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.704||||0.2168|TWO_SIDED|95.0|0.4|1.239||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17708574 Genotype: G/G||1.239|0.400|0.2168
92384868|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.987||||0.9802|TWO_SIDED|95.0|0.353|2.759||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17708574 Genotype: G/A||2.759|0.353|0.9802
92384869|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.652||||0.1145|TWO_SIDED|95.0|0.378|1.122||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs10063714 Genotype: T/T||1.122|0.378|0.1145
92384870|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.192||||0.7725|TWO_SIDED|95.0|0.36|3.946||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs10063714 Genotype: T/A||3.946|0.360|0.7725
92384871|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.687||||0.3286|TWO_SIDED|95.0|0.321|1.473||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: A/A||1.473|0.321|0.3286
92384872|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.976||||0.948|TWO_SIDED|95.0|0.47|2.028||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: A/G||2.028|0.470|0.9480
92384873|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.531||||0.3844|TWO_SIDED|95.0|0.125|2.282||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: G/G||2.282|0.125|0.3844
92384874|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.662||||0.1373|TWO_SIDED|95.0|0.381|1.153||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2007637 Genotype: G/G||1.153|0.381|0.1373
92384875|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.114||||0.8586|TWO_SIDED|95.0|0.339|3.667||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2007637 Genotype: G/A||3.667|0.339|0.8586
92384876|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.935||||0.8478|TWO_SIDED|95.0|0.47|1.861||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: G/G||1.861|0.470|0.8478
92169495|NCT03363854|184227461|SUPERIORITY||Difference|0.6||||0.043|TWO_SIDED|95.0|0.0|1.3||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 12 are reported below.||1.3|0.0|0.043
92169496|NCT03363854|184227461|SUPERIORITY||Difference|0.8||||0.01|TWO_SIDED|95.0|0.2|1.4||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 13 are reported below.||1.4|0.2|0.010
92233412|NCT02333227|184369329|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92233413|NCT01073943|184369341|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the 1-sided 97.5% CI for the treatment difference (PICOPREP minus HalfLytely) was \>-9% for the percentage of responders. Superiority was demonstrated if the 1-sided 97.5% CI for treatment difference was \>0%.|Mean Difference (Net)|3.3|||||ONE_SIDED|97.5|-2.9||||||||||-2.9|
92384877|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.634||||0.2445|TWO_SIDED|95.0|0.287|1.401||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: G/A||1.401|0.287|0.2445
92384878|NCT00265317|184672702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.155||||0.9191|TWO_SIDED|95.0|0.072|18.59||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: A/A||18.59|0.072|0.9191
92384879|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.121||||0.8563|TWO_SIDED|95.0|0.326|3.847||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304060 Genotype: C/C||3.847|0.326|0.8563
92384880|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.111||||0.7375|TWO_SIDED|95.0|0.599|2.064||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304060 Genotype: C/A||2.064|0.599|0.7375
92384881|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.897||||0.8066|TWO_SIDED|95.0|0.375|2.147||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs234060 Genotype: A/A||2.147|0.375|0.8066
92384882|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.875||||0.6945|TWO_SIDED|95.0|0.449|1.708||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17656204 Genotype: C/C||1.708|0.449|0.6945
92384883|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.067||||0.8536|TWO_SIDED|95.0|0.536|2.122||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17656204 Genotype: C/T||2.122|0.536|0.8536
92384884|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.732||||0.3657|TWO_SIDED|95.0|0.283|26.42||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17656204 Genotype: T/T||26.42|0.283|0.3657
92384885|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.793||||0.4657|TWO_SIDED|95.0|0.424|1.483||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304061 Genotype: G/G||1.483|0.424|0.4657
92384886|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.364||||0.4168|TWO_SIDED|95.0|0.641|2.9||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304061 Genotype: G/A||2.900|0.641|0.4168
92384887|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.908||||0.7836|TWO_SIDED|95.0|0.456|1.809||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: A/A||1.809|0.456|0.7836
92384888|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.938||||0.8531|TWO_SIDED|95.0|0.472|1.863||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: A/T||1.863|0.472|0.8531
92384889|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.32||||0.3272|TWO_SIDED|95.0|0.412|13.07||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: T/T||13.07|0.412|0.3272
92384890|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.984||||0.963|TWO_SIDED|95.0|0.491|1.972||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: A/A||1.972|0.491|0.9630
92384891|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.227||||0.6003|TWO_SIDED|95.0|0.567|2.656||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: A/G||2.656|0.567|0.6003
92384892|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.769||||0.6703|TWO_SIDED|95.0|0.229|2.58||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: G/G||2.580|0.229|0.6703
92384893|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.106||||0.81|TWO_SIDED|95.0|0.485|2.525||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: G/G||2.525|0.485|0.8100
92384894|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.076||||0.8335|TWO_SIDED|95.0|0.541|2.141||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: G/C||2.141|0.541|0.8335
92384895|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.758||||0.598|TWO_SIDED|95.0|0.268|2.141||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: C/C||2.141|0.268|0.5980
92384896|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.035||||0.9287|TWO_SIDED|95.0|0.487|2.199||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: G/G||2.199|0.487|0.9287
92384897|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.053||||0.8842|TWO_SIDED|95.0|0.526|2.106||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: G/A||2.106|0.526|0.8842
92384898|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.129||||0.8501|TWO_SIDED|95.0|0.316|4.028||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: A/A||4.028|0.316|0.8501
92384899|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.229||||0.4118|TWO_SIDED|95.0|0.749|2.017||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3733678 Genotype: G/G||2.017|0.749|0.4118
92416112|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.205||0.424|TWO_SIDED|95.0|-0.567|0.239||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.239|-0.567|0.424
92416113|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|1.61|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416114|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.213||0.664|TWO_SIDED|95.0|-0.51|0.326||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.326|-0.510|0.664
92169497|NCT03363854|184227461|SUPERIORITY||Difference|0.7||||0.037|TWO_SIDED|95.0|0.0|1.3||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 14 are reported below.||1.3|0.0|0.037
92384900|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.286||||0.1299|TWO_SIDED|95.0|0.051|1.596||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3733678 Genotype: G/A||1.596|0.051|0.1299
92384901|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.692||||0.1859|TWO_SIDED|95.0|0.399|1.2||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs246396 Genotype: T/T||1.200|0.399|0.1859
92384902|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.672||||0.0091|TWO_SIDED|95.0|1.291|10.44||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs246396 Genotype: T/C||10.44|1.291|0.0091
92384903|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.039||||0.8708|TWO_SIDED|95.0|0.654|1.652||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs34586048 Genotype: C/C||1.652|0.654|0.8708
92384904|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.996||||0.9888|TWO_SIDED|95.0|0.59|1.681||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs11740355 Genotype: T/T||1.681|0.590|0.9888
92384905|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.9702|TWO_SIDED|95.0|0.36|2.891||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs11740355 Genotype: T/G||2.891|0.360|0.9702
92384906|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.973||||0.9419|TWO_SIDED|95.0|0.466|2.032||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs740751 Genotype: C/C||2.032|0.466|0.9419
92384907|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.112||||0.7677|TWO_SIDED|95.0|0.549|2.252||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs740751 Genotype: C/T||2.252|0.549|0.7677
92384908|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.129||||0.8501|TWO_SIDED|95.0|0.316|4.028||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs740751 Genotype: T/T||4.028|0.316|0.8501
92384909|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.758||||0.5233|TWO_SIDED|95.0|0.322|1.782||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: G/G||1.782|0.322|0.5233
92384910|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.123||||0.75|TWO_SIDED|95.0|0.549|2.297||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: G/A||2.297|0.549|0.7500
92384911|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.232||||0.6614|TWO_SIDED|95.0|0.483|3.142||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: A/A||3.142|0.483|0.6614
92384912|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.779||||0.2552|TWO_SIDED|95.0|0.652|4.855||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: T/T||4.855|0.652|0.2552
92384913|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.088||||0.7931|TWO_SIDED|95.0|0.577|2.052||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: T/G||2.052|0.577|0.7931
92384914|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.449||||0.1365|TWO_SIDED|95.0|0.152|1.331||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: G/G||1.331|0.152|0.1365
92384915|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.854||||0.5544|TWO_SIDED|95.0|0.504|1.447||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17708574 Genotype: G/G||1.447|0.504|0.5544
92384916|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.721||||0.3132|TWO_SIDED|95.0|0.59|5.021||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17708574 Genotype: G/A||5.021|0.590|0.3132
92416115|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92233414|NCT01073943|184369342|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|-2.7|||||ONE_SIDED|97.5|-8.8||||||||||-8.8|
92416116|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.229||0.417|TWO_SIDED|95.0|-0.638|0.265||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.265|-0.638|0.417
92416117|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|1.71|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416118|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.227||0.217|TWO_SIDED|95.0|-0.727|0.166||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.166|-0.727|0.217
92416119|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|1.68|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416120|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.231||0.753|TWO_SIDED|95.0|-0.381|0.526||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.526|-0.381|0.753
92169498|NCT03363854|184227461|SUPERIORITY||Difference|0.6||||0.045|TWO_SIDED|95.0|0.0|1.3||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 15 are reported below.||1.3|0.0|0.045
92169499|NCT03363854|184227461|SUPERIORITY||Difference|0.5||||0.17|TWO_SIDED|95.0|-0.2|1.1||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 16 are reported below.||1.1|-0.2|0.17
92416121|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416122|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.257||0.362|TWO_SIDED|95.0|-0.74|0.27||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.270|-0.740|0.362
92416123|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|1.62|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416124|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.256||0.78|TWO_SIDED|95.0|-0.432|0.575||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.575|-0.432|0.780
92416125|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.72|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416126|NCT02880956|184721147|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.263||0.974|TWO_SIDED|95.0|-0.526|0.509||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.509|-0.526|0.974
92169500|NCT03363854|184227462|SUPERIORITY||Risk Difference (RD)|21.3|||<|0.001|TWO_SIDED|95.0|11.3|31.3||The statistical test was not controlled for multiplicity.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their EASI value at Week 16.||31.3|11.3|<0.001
92233415|NCT01073943|184369343|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92416127|NCT02880956|184721147|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|1.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416128|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.139||0.976|TWO_SIDED|95.0|-0.269|0.278||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.278|-0.269|0.976
92416129|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|1.1|||TWO_SIDED|||||||||Week 24||||
92416130|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.137||0.85|TWO_SIDED|95.0|-0.244|0.296||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.296|-0.244|0.850
92416131|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|1.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416132|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.141||0.981|TWO_SIDED|95.0|-0.281|0.275||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.275|-0.281|0.981
92384917|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.263||||0.3698|TWO_SIDED|95.0|0.755|2.113||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs10063714 Genotype: T/T||2.113|0.755|0.3698
92384918|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.411||||0.1495|TWO_SIDED|95.0|0.119|1.423||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs10063714 Genotype: T/A||1.423|0.119|0.1495
92384919|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.613||||0.1911|TWO_SIDED|95.0|0.781|3.332||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: A/A||3.332|0.781|0.1911
92384920|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.793||||0.5259|TWO_SIDED|95.0|0.384|1.636||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: A/G||1.636|0.384|0.5259
92384921|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.331||||0.0996|TWO_SIDED|95.0|0.082|1.339||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: G/G||1.339|0.082|0.0996
92384922|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.752||||0.2755|TWO_SIDED|95.0|0.45|1.259||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2007637 Genotype: G/G||1.259|0.450|0.2755
92384923|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.85||||0.012|TWO_SIDED|95.0|1.253|18.78||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2007637 Genotype: G/A||18.78|1.253|0.0120
92384924|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.274||||0.4663|TWO_SIDED|95.0|0.661|2.457||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: G/G||2.457|0.661|0.4663
92384925|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.867||||0.7097|TWO_SIDED|95.0|0.406|1.848||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: G/A||1.848|0.406|0.7097
92416133|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|1.05|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92233416|NCT01073943|184369344|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92233417|NCT01073943|184369345|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92416134|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.163||0.989|TWO_SIDED|95.0|-0.323|0.318||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.318|-0.323|0.989
92233418|NCT01073943|184369346|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92384926|NCT00265317|184672703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.607||||0.534|TWO_SIDED|95.0|0.117|3.158||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: A/A||3.158|0.117|0.5340
92384927|NCT00265317|184672706|SUPERIORITY_OR_OTHER|||||||0.2702|||||||Wilcoxon Rank Sum Test|||VEGF-C Ratio to Baseline for Cycle 2, Day 1||||0.2702
92384928|NCT00265317|184672706|SUPERIORITY_OR_OTHER|||||||0.7354||95.0|||||Wilcoxon Rank Sum Test|||VEGF-C ratio to Baseline for Cycle 3, Day 1||||0.7354
92384929|NCT00265317|184672708|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum Test|||VEGFR-2 Ratio to Baseline for Cycle 2, Day 1||||<0.0001
92384930|NCT00265317|184672708|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon Rank Sum Test|||VEGFR-2 Ratio to Baseline for Cycle 3, Day 1||||<0.0001
92384931|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.553||||0.1667|TWO_SIDED|95.0|0.159|1.921||1-sided unstratified log-rank test|Log Rank|||High CSF-1R expression||1.921|0.159|0.1667
92384932|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.451||||0.7688|TWO_SIDED|95.0|0.534|3.944||1-sided unstratified log-rank test|Log Rank|||Low CSF-1R expression||3.944|0.534|0.7688
92384933|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.3498|TWO_SIDED|95.0|0.503|1.574||1-sided unstratified log-rank test|Log Rank|||Indeterminate CSF-1R expression||1.574|0.503|0.3498
92384934|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.687||||0.9497|TWO_SIDED|95.0|0.79|9.143||1-sided unstratified log-rank test|Log Rank|||High PDGFRalpha expression||9.143|0.790|0.9497
92384935|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.386||||0.0401|TWO_SIDED|95.0|0.127|1.173||1-sided unstratified log-rank test|Log Rank|||Low PDGFRalpha expression||1.173|0.127|0.0401
92384936|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.862||||0.3128|TWO_SIDED|95.0|0.487|1.524||1-sided unstratified log-rank test|Log Rank|||Indeterminate PDGFRalpha expression||1.524|0.487|0.3128
92384937|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.823||||0.365|TWO_SIDED|95.0|0.273|2.488||1-sided unstratified log-rank test|Log Rank|||High PDGFRbeta expression||2.488|0.273|0.3650
92384938|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.192||||0.6105|TWO_SIDED|95.0|0.408|3.48||1-sided unstratified log-rank test|Log Rank|||Low PDGFRbeta expression||3.480|0.408|0.6105
92384939|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.856||||0.3027|TWO_SIDED|95.0|0.488|1.502||1-sided unstratified log-rank test|Log Rank|||Indeterminate PDGFRbeta expression||1.502|0.488|0.3027
92384940|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.914||||0.4436|TWO_SIDED|95.0|0.262|3.184||1-sided unstratified log-rank test|Log Rank|||High VEGF expression||3.184|0.262|0.4436
92384941|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.953||||0.4582|TWO_SIDED|95.0|0.296|3.062||1-sided unstratified log-rank test|Log Rank|||Low VEGF expression||3.062|0.296|0.4582
92384942|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.911||||0.372|TWO_SIDED|95.0|0.536|1.548||1-sided unstratified log-rank test|Log Rank|||Indeterminate VEGF expression||1.548|0.536|0.3720
92384943|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.5586|TWO_SIDED|95.0|0.35|3.397||1-sided unstratified log-rank test|Log Rank|||High VEGF-C expression||3.397|0.350|0.5586
92384944|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.842||||0.3652|TWO_SIDED|95.0|0.313|2.266||1-sided unstratified log-rank test|Log Rank|||Low VEGF-C expression||2.266|0.313|0.3652
92384945|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.875||||0.3301|TWO_SIDED|95.0|0.493|1.554||1-sided unstratified log-rank test|Log Rank|||Indeterminate VEGF-C expression||1.554|0.493|0.3301
92384946|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.097||||0.5605|TWO_SIDED|95.0|0.331|3.636||1-sided unstratified log-rank test|Log Rank|||High VEGFR1 expression||3.636|0.331|0.5605
92416135|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|1.32|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416136|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.159||0.97|TWO_SIDED|95.0|-0.319|0.307||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.307|-0.319|0.970
92416137|NCT02880956|184721148|SUPERIORITY||effect size|0.0|STANDARD_DEVIATION|1.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416138|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.164||0.215|TWO_SIDED|95.0|-0.526|0.119||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.119|-0.526|0.215
92416139|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|1.18|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416140|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.163||0.665|TWO_SIDED|95.0|-0.392|0.25||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.250|-0.392|0.665
92233419|NCT01073943|184369347|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92416141|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.28|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416142|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.162||0.059|TWO_SIDED|95.0|-0.625|0.012||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.012|-0.625|0.059
92416143|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|0.28|STANDARD_DEVIATION|1.11|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416144|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.164||0.663|TWO_SIDED|95.0|-0.394|0.251||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.251|-0.394|0.663
92416145|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.27|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416146|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.193||0.866|TWO_SIDED|95.0|-0.413|0.348||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.348|-0.413|0.866
92416147|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|1.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416148|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.191||0.471|TWO_SIDED|95.0|-0.514|0.238||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.238|-0.514|0.471
92416149|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|1.24|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416150|NCT02880956|184721148|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.198||0.604|TWO_SIDED|95.0|-0.493|0.287||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.287|-0.493|0.604
92416151|NCT02880956|184721148|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|1.21|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416152|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.069||0.325|TWO_SIDED|95.0|-0.067|0.202||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.202|-0.067|0.325
92416153|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|0.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92233420|NCT01073943|184369348|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92384947|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.599||||0.2132|TWO_SIDED|95.0|0.16|2.236||1-sided unstratified log-rank test|Log Rank|||Low VEGFR1 expression||2.236|0.160|0.2132
92233421|NCT01073943|184369350|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|4.5|||||ONE_SIDED|97.5|-0.1|||||||Mid colon comparison|||-0.1|
92384948|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.902||||0.3605|TWO_SIDED|95.0|0.53|1.537||1-sided unstratified log-rank test|Log Rank|||Indeterminate VEGFR1 expression||1.537|0.530|0.3605
92384949|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.921||||0.4438|TWO_SIDED|95.0|0.304|2.784||1-sided unstratified log-rank test|Log Rank|||High VEGFR2 expression||2.784|0.304|0.4438
92384950|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.122||||0.5699|TWO_SIDED|95.0|0.403|3.125||1-sided unstratified log-rank test|Log Rank|||Low VEGFR2 expression||3.125|0.403|0.5699
92384951|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.864||||0.3147|TWO_SIDED|95.0|0.489|1.528||1-sided unstratified log-rank test|Log Rank|||Indeterminate VEGFR2 expression||1.528|0.489|0.3147
92384952|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.002||||0.5015|TWO_SIDED|95.0|0.281|3.581||1-sided unstratified log-rank test|Log Rank|||High VEGFR3 expression||3.581|0.281|0.5015
92384953|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.005||||0.4887|TWO_SIDED|95.0|0.334|3.025||1-sided unstratified log-rank test|Log Rank|||Low VEGFR3 expression||3.025|0.334|0.4887
92384954|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.818||||0.2432|TWO_SIDED|95.0|0.473|1.414||1-sided unstratified log-rank test|Log Rank|||Indeterminate VEGFR3 expression||1.414|0.473|0.2432
92416154|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.067||0.51|TWO_SIDED|95.0|-0.177|0.088||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.088|-0.177|0.510
92416155|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|0.44|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92384955|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.446||||0.2321|TWO_SIDED|95.0|0.048|4.101||1-sided unstratified log-rank test|Log Rank|||Detected FGF expression||4.101|0.048|0.2321
92384956|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.316||||0.7143|TWO_SIDED|95.0|0.526|3.292||1-sided unstratified log-rank test|Log Rank|||No detected FGF expression||3.292|0.526|0.7143
92416156|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.069||0.601|TWO_SIDED|95.0|-0.1|0.172||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.172|-0.100|0.601
92416157|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|0.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92384957|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.844||||0.2812|TWO_SIDED|95.0|0.486|1.465||1-sided unstratified log-rank test|Log Rank|||Indeterminate FGF expression||1.465|0.486|0.2812
92384958|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.406||||0.6504|TWO_SIDED|95.0|0.248|7.96||1-sided unstratified log-rank test|Log Rank|||Detected FLT3 expression||7.960|0.248|0.6504
92384959|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.838||||0.3266|TWO_SIDED|95.0|0.375|1.876||1-sided unstratified log-rank test|Log Rank|||No detected FLT3 expression||1.876|0.375|0.3266
92384960|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.896||||0.3597|TWO_SIDED|95.0|0.502|1.598||1-sided unstratified log-rank test|Log Rank|||Indeterminate FLT3 expression||1.598|0.502|0.3597
92384961|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.342||||0.6907|TWO_SIDED|95.0|0.419|4.297||1-sided unstratified log-rank test|Log Rank|||Detected KIT expression||4.297|0.419|0.6907
92384962|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.677||||0.199|TWO_SIDED|95.0|0.265|1.731||1-sided unstratified log-rank test|Log Rank|||Participants with no detected KIT expression||1.731|0.265|0.1990
92384963|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.896||||0.3597|TWO_SIDED|95.0|0.502|1.598||1-sided unstratified log-rank test|Log Rank|||Indeterminate KIT expression||1.598|0.502|0.3597
92384964|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.693||||0.3757|TWO_SIDED|95.0|0.071|6.765||1-sided unstratified log-rank test|Log Rank|||Detected RET expression||6.765|0.071|0.3757
92384965|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.874||||0.3723|TWO_SIDED|95.0|0.358|2.13||1-sided unstratified log-rank test|Log Rank|||No detected RET expression||2.130|0.358|0.3723
92384966|NCT00265317|184672709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.874||||0.3263|TWO_SIDED|95.0|0.501|1.523||1-sided unstratified log-rank test|Log Rank|||Indeterminate RET expression||1.523|0.501|0.3263
92384967|NCT00265317|184672710|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum Test|||VEGFR-3 Ratio to Baseline for Cycle 2, Day 1||||<0.0001
92384968|NCT00265317|184672710|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon Rank Sum Test|||VEGFR-3 Ratio to Baseline for Cycle 3, Day 1||||<0.0001
92384969|NCT00265317|184672712|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum Test|||sKIT Ratio to Baseline for Cycle 2, Day 1||||<0.0001
92384970|NCT00265317|184672712|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon Rank Sum Test|||sKIT Ratio to Baseline for Cycle 3, Day 1||||<0.0001
92384971|NCT00265317|184672717|SUPERIORITY_OR_OTHER|||||||0.3681||95.0||||2-sided normal approximated p-value|Wilcoxon Rank Sum Test|||||||0.3681
92384972|NCT00265317|184672718|SUPERIORITY_OR_OTHER|||||||0.5982||95.0||||2-sided normal approximated p-value|Wilcoxon Rank Sum Test|||||||0.5982
92384973|NCT00265317|184672719|SUPERIORITY_OR_OTHER|||||||0.9807||95.0||||2-sided normal approximated p-value|Wilcoxon Rank Sum Test|||||||0.9807
92384974|NCT00265317|184672720|SUPERIORITY_OR_OTHER|||||||0.3945||||||2-sided normal approximated p-value|Wilcoxon Rank Sum Test|||||||0.3945
92233422|NCT01073943|184369350|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|3.2|||||ONE_SIDED|97.5|-1.5|||||||Recto-sigmoid colon comparison|||-1.5|
92416158|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.783|TWO_SIDED|95.0|-0.157|0.119||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.119|-0.157|0.783
92416159|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|0.52|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416160|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.068||0.646|TWO_SIDED|95.0|-0.165|0.103||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.103|-0.165|0.646
92416161|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.48|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416162|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.209|TWO_SIDED|95.0|-0.226|0.05||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.050|-0.226|0.209
92278368|NCT02277769|184458773|SUPERIORITY||difference in percentages|32.3|||<|0.0001|TWO_SIDED|95.0|24.75|39.94||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.025 level. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||39.94|24.75|< 0.0001
92416163|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|0.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416164|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.091||0.454|TWO_SIDED|95.0|-0.246|0.11||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.110|-0.246|0.454
92416165|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|0.66|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416166|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.089||0.141|TWO_SIDED|95.0|-0.306|0.043||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.043|-0.306|0.141
92233423|NCT01073943|184369350|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|0.9|||||ONE_SIDED|97.5|-5.7|||||||Overall comparison: ascending colon, mid colon and recto-sigmoid colon|||-5.7|
92416167|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|0.58|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416168|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.107|TWO_SIDED|95.0|-0.323|0.031||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.031|-0.323|0.107
92416169|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|0.24|STANDARD_DEVIATION|0.59|||TWO_SIDED|||||||||Week 72||||
92233424|NCT05662332|184369359|NON_INFERIORITY|Noninferiority margin (NIM) was 0.4%|LS Mean Change difference|-0.03|||||TWO_SIDED|95.0|-0.18|0.12|||ANCOVA|||||0.12|-0.18|
92416170|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.121||0.961|TWO_SIDED|95.0|-0.243|0.232||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.232|-0.243|0.961
92416171|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|0.79|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416172|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.118||0.618|TWO_SIDED|95.0|-0.29|0.173||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.173|-0.290|0.618
92416173|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|0.77|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416174|NCT02880956|184721149|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.121||0.227|TWO_SIDED|95.0|-0.385|0.092||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.092|-0.385|0.227
92384975|NCT02510001|184672768|OTHER||||||||||||||||||"The primary dose escalation analysis was to find the MTD, which was defined as the dose of PF-02341066 in combination with PD-0325901 at which no more than one out of six patients experience a DLT (dose limiting toxicity). The DLT was based on observed toxicity in cycle 1, and was defined as an almost certainly or probably drug-related adverse event to PF-02341066 and/or PD-0325901.~The MTD for the PD 0325901/PF-02341066 combination was 8mg BD(days1-21) and 200mg BD continuously in a 28 day cycle (Dose Level 4)."|||
92384976|NCT02510001|184672770|OTHER|||||||||||||||||The primary dose escalation analysis was to find the MTD, which was defined as the dose of PF-02341066 in combination with Binimetinib at which no more than one out of six patients experience a DLT (dose limiting toxicity). The DLT was based on observed toxicity in cycle 1, and was defined as an almost certainly or probably drug-related adverse event to PF-02341066 and/or Binimetinib.|"Binimetinib 30mg BD on days 1 - 21 every 28 days with Crizotinib 250 mg OD continuously is the MTD, the recommended dose and schedule for further evaluation in our and other trials.~This was as only one DLT was experienced in 6 evaluable patients at this final dose escalation level."|||
92384977|NCT00711971|184672833|SUPERIORITY_OR_OTHER|||||||0.29|||||||ANOVA|||Significance for the BDI test at 26-28 weeks||||.29
92384978|NCT00711971|184672833|SUPERIORITY_OR_OTHER|||||||0.51|||||||ANOVA|||Significance for BDI at 34-36 weeks gestation||||.51
92384979|NCT00711971|184672833|SUPERIORITY_OR_OTHER|||||||0.56|||||||ANOVA|||BDI score at 6-8 weeks postpartum||||.56
92384980|NCT00711971|184672834|SUPERIORITY_OR_OTHER|||||||0.06|||||||Fisher Exact|||Gestational diabetes mellitus||||.06
92384981|NCT00711971|184672834|SUPERIORITY_OR_OTHER|||||||0.12|||||||Fisher Exact|||Hypertension or preeclampsia||||.12
92384982|NCT00711971|184672834|SUPERIORITY_OR_OTHER|||||||0.2|||||||Fisher Exact|||Induced labor||||.20
92384983|NCT00711971|184672834|SUPERIORITY_OR_OTHER|||||||0.08|||||||Fisher Exact|||Cesarean section||||.08
92416175|NCT02880956|184721149|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|0.79|||TWO_SIDED|||||||||Week 96||||
92233425|NCT05662332|184369360|SUPERIORITY||LS Mean Change difference|-0.03||||0.684|TWO_SIDED|95.0|-0.18|0.12|||ANCOVA|||||0.12|-0.18|0.684
92233426|NCT05662332|184369361|SUPERIORITY||LS Mean Change difference|4.16||||0.155|TWO_SIDED|95.0|-1.58|9.9|||ANCOVA|||Week 52||9.90|-1.58|0.155
92384984|NCT00711971|184672834|SUPERIORITY_OR_OTHER|||||||0.88|||||||Fisher Exact|||Spontaneous vaginal delivery||||.88
92384985|NCT00711971|184672834|SUPERIORITY_OR_OTHER|||||||0.32|||||||Fisher Exact|||Operative vaginal delivery||||.32
92384986|NCT00711971|184672835|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||||||<.0001
92384987|NCT00711971|184672836|SUPERIORITY_OR_OTHER|||||||0.81|||||||ANOVA|||||||.81
92384988|NCT00711971|184672837|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|Kruskal-Wallis test was used for outliers; Tukey multiple comparisons test was also used.||||||<.001
92384989|NCT00711971|184672838|SUPERIORITY_OR_OTHER|||||||0.39|||||||ANOVA|||||||.39
92384990|NCT00711971|184672839|SUPERIORITY_OR_OTHER|||||||0.19|||||||ANOVA|||||||.19
92384991|NCT00711971|184672840|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92384992|NCT00711971|184672841|SUPERIORITY_OR_OTHER|||||||0.54|||||||ANOVA|||||||0.54
92384993|NCT00887549|184672851|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.015|||<|0.0001|TWO_SIDED|95.0|1.008|1.021|||Regression, Cox|The Cox model, based upon participant level data, included PFS as dependent variable and TS score in the nucleus as independent variable.||||1.021|1.008|<0.0001
92384994|NCT01919801|184672878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.633||||||Test was performed using a weighted log-rank test called the Peto-Prentice test with a global 2-sided significance level of 5% after adjusting for stratification factors (race, and severity) in the ITT population.|Adjusted Peto-Prentice|||A total of 121 participants were analysed, however 3 participants did not receive the study medication and were censored at time 0.||||0.633
92384995|NCT01059994|184672888|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||0.02
92384996|NCT01059994|184672889|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||||||0.004
92384997|NCT01677858|184672890|OTHER||Maximum Tolerated Dose (mg/m²)|70.0|||||TWO_SIDED|||||||||||||
92384998|NCT00988091|184672906|SUPERIORITY_OR_OTHER||Adjusted mean difference|5.33||||0.034|TWO_SIDED|95.0|0.41|10.24||The p-value was not adjusted for multiple comparisons because there was a single treatment comparison for the primary endpoint. The a priori threshold for statistical significance was p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate and study center as a stratification variable.||A treatment difference of \>=7.0 mm and a pooled SD of 27.6 mm, requires a sample size of 244 subjects/treatment to complete the trial at 80% power at a two-sided significance level of 5%. To account for 18% dropout rate, the sample size was increased to 298/arm (total of 596). The primary null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.||10.24|0.41|0.034
92384999|NCT00988091|184672907|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.89||||0.175|TWO_SIDED|95.0|-1.29|7.08||For secondary outcome measures, fixed-sequence testing was used in a sequentially rejective fashion. The a priori threshold for statistical significance was p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate and study center as a stratification variable.||The null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.||7.08|-1.29|0.175
92385000|NCT00988091|184672908|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.777||||0.193|TWO_SIDED|95.0|0.532|1.136||For secondary outcome measures, fixed-sequence testing was used in a sequentially rejective fashion. The a priori threshold for statistical significance was p \<0.05.|Regression, Logistic|The analysis included study center as a stratification variable.||The null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.||1.136|0.532|0.193
92416176|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|0.34|STANDARD_ERROR_OF_MEAN|0.18||0.056|TWO_SIDED|95.0|-0.009|0.697||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.697|-0.009|0.056
92416177|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|-0.23|STANDARD_DEVIATION|1.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416178|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.177||0.997|TWO_SIDED|95.0|-0.348|0.349||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.349|-0.348|0.997
92416179|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|1.34|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416180|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|0.41|STANDARD_ERROR_OF_MEAN|0.182||0.023|TWO_SIDED|95.0|0.056|0.772||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.772|0.056|0.023
92416181|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|-0.3|STANDARD_DEVIATION|1.36|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416182|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|0.14|STANDARD_ERROR_OF_MEAN|0.212||0.502|TWO_SIDED|95.0|-0.274|0.558||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.558|-0.274|0.502
92416183|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|-0.09|STANDARD_DEVIATION|1.58|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416184|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.206||0.379|TWO_SIDED|95.0|-0.587|0.224||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.224|-0.587|0.379
92416185|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|1.61|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416186|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.212||0.916|TWO_SIDED|95.0|-0.439|0.394||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.394|-0.439|0.916
92416187|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|1.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416188|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.238||0.487|TWO_SIDED|95.0|-0.633|0.302||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.302|-0.633|0.487
92416189|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|1.7|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416190|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.235||0.963|TWO_SIDED|95.0|-0.451|0.473||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.473|-0.451|0.963
92416191|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.66|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416192|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.238||0.856|TWO_SIDED|95.0|-0.424|0.51||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.510|-0.424|0.856
92416193|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|1.71|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416194|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|0.2|STANDARD_ERROR_OF_MEAN|0.277||0.463|TWO_SIDED|95.0|-0.341|0.748||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.748|-0.341|0.463
92416195|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|1.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92233427|NCT05662332|184369362|SUPERIORITY||LS Mean Change difference|-43.7|||<|0.001|TWO_SIDED|95.0|-62.4|-25.0|||Mixed Models Analysis|||Week 52||-25.0|-62.4|<0.001
92233428|NCT05662332|184369363|SUPERIORITY||Relative Rate|0.57||||0.005|TWO_SIDED|95.0|0.39|0.84|||Negative binomial model|||||0.84|0.39|0.005
92233429|NCT05662332|184369365|SUPERIORITY||Relative Rate|0.58||||0.155|TWO_SIDED|95.0|0.28|1.23|||Negative binomial model|||||1.23|0.28|0.155
92233430|NCT05662332|184369367|SUPERIORITY||LS Mean difference (Final Values)|0.57||||0.033|TWO_SIDED|95.0|0.047|1.1|||Mixed Models Analysis|||||1.10|0.047|0.033
92416196|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.273||0.943|TWO_SIDED|95.0|-0.518|0.557||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.557|-0.518|0.943
92233431|NCT05662332|184369368|SUPERIORITY||LS Mean difference (Final Values)|1.56||||0.071|TWO_SIDED|95.0|-0.13|3.25|||Mixed Models Analysis|||Week 52||3.25|-0.13|0.071
92233432|NCT05662332|184369371|SUPERIORITY||LS Mean difference (Final Values)|1.8||||0.072|TWO_SIDED|95.0|-0.2|3.8|||Mixed Models Analysis|||Week 52||3.8|-0.2|0.072
92233433|NCT01446809|184369416|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
92385001|NCT00988091|184672909|SUPERIORITY_OR_OTHER|||||||0.887||95.0||||For secondary outcome measures, fixed-sequence testing was used in a sequentially rejective fashion. The a priori threshold for statistical significance was p \<0.05.|Cochran-Mantel-Haenszel|The analysis included study center as a stratification variable.||The null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.||||0.887
92385002|NCT00988091|184672911|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.0||||0.116|TWO_SIDED|95.0|-0.99|8.98||For secondary outcome measures, fixed-sequence testing was used in a sequentially rejective fashion. The a priori threshold for statistical significance was p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate and study center as a stratification variable.||The null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.||8.98|-0.99|0.116
92385003|NCT00988091|184672912|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.081|TWO_SIDED|95.0|0.483|1.044||For secondary outcome measures, fixed-sequence testing was used in a sequentially rejective fashion. The a priori threshold for statistical significance was p \<0.05.|Regression, Logistic|The analysis included study center as a stratification variable.||The null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.\[||1.044|0.483|0.081
92385004|NCT03078855|184672918|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.26|TWO_SIDED|95.0|0.83|1.98|||Regression, Cox||The EFS hazard ratio was adjusted for enrolling site, continuous age at randomization, and (via stratification) 3 randomization strata: non-follicular histology, follicular (FL) with low/intermediate FLIPI score and FL with high FLIPI score.|||1.98|0.83|0.26
92385005|NCT03194646|184672940|OTHER||Mean Difference (Final Values)|-1.85|||||TWO_SIDED|95.0|-2.44|-1.26||||||||-1.26|-2.44|
92385006|NCT03194646|184672940|OTHER||Mean Difference (Final Values)|-2.34|||||TWO_SIDED|95.0|-2.87|-1.8||||||||-1.80|-2.87|
92385007|NCT03194646|184672940|OTHER||Mean Difference (Final Values)|-1.81|||||TWO_SIDED|95.0|-2.51|-1.1||||||||-1.10|-2.51|
92416197|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.93|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416198|NCT02880956|184721150|SUPERIORITY||LS Mean of Difference|0.74|STANDARD_ERROR_OF_MEAN|0.281||0.009|TWO_SIDED|95.0|0.191|1.295||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||1.295|0.191|0.009
92416199|NCT02880956|184721150|SUPERIORITY||Effect size/pooled SD|-0.38|STANDARD_DEVIATION|1.97|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416200|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.138||0.325|TWO_SIDED|95.0|-0.408|0.136||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.136|-0.408|0.325
92416201|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|0.13|STANDARD_DEVIATION|1.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416202|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.137||0.966|TWO_SIDED|95.0|-0.274|0.263||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.263|-0.274|0.966
92416203|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|1.11|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92233434|NCT01446809|184369417|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92385008|NCT00098306|184673141|SUPERIORITY_OR_OTHER||LS mean difference|-0.788|STANDARD_ERROR_OF_MEAN|0.1571|||TWO_SIDED|97.5|-1.141|-0.435||||||The difference between the treatment least square means (LS means) adjusted for the randomization strata was presented in addition to 2-sided 97.5% confidence interval (CI) as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.435|-1.141|
92385009|NCT00098306|184673141|SUPERIORITY_OR_OTHER||LS mean difference|-0.922|STANDARD_ERROR_OF_MEAN|0.1568|||TWO_SIDED|97.5|-1.275|-0.57||||||The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.570|-1.275|
92385010|NCT00098306|184673142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.88|||<|0.0001|TWO_SIDED|95.0|1.78|4.67|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (less than \[\<\] 100,000 or greater than or equal to \[\>=\] 100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio greater than (\>) 1 favors maraviroc.||4.67|1.78|<0.0001
92385011|NCT00098306|184673142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.66|||<|0.0001|TWO_SIDED|95.0|2.26|5.95|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||5.95|2.26|<0.0001
92385012|NCT00098306|184673142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.96|||<|0.0001|TWO_SIDED|95.0|2.36|6.64|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||6.64|2.36|<0.0001
92416204|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.14||0.695|TWO_SIDED|95.0|-0.33|0.22||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.220|-0.330|0.695
92416205|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|1.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416206|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.145||0.662|TWO_SIDED|95.0|-0.348|0.221||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.221|-0.348|0.662
92385013|NCT00098306|184673142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.11|||<|0.0001|TWO_SIDED|95.0|3.04|8.59|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.59|3.04|<0.0001
92385014|NCT00098306|184673143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6|||<|0.0001|TWO_SIDED|95.0|1.63|4.13|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||4.13|1.63|<0.0001
92385015|NCT00098306|184673143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.85|||<|0.0001|TWO_SIDED|95.0|1.79|4.54|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||4.54|1.79|<0.0001
92385016|NCT00098306|184673143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.93|||<|0.0001|TWO_SIDED|95.0|1.83|4.67|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||4.67|1.83|<0.0001
92385017|NCT00098306|184673143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.33|||<|0.0001|TWO_SIDED|95.0|2.08|5.32|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||5.32|2.08|<0.0001
92385018|NCT00098306|184673144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.06|||<|0.0001|TWO_SIDED|95.0|1.92|4.88|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||4.88|1.92|<0.0001
92385019|NCT00098306|184673144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.55|||<|0.0001|TWO_SIDED|95.0|2.22|5.68|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||5.68|2.22|<0.0001
92385020|NCT00098306|184673144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.3|||<|0.0001|TWO_SIDED|95.0|2.05|5.31|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||5.31|2.05|<0.0001
92385021|NCT00098306|184673144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.03|||<|0.0001|TWO_SIDED|95.0|2.5|6.51|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||6.51|2.50|<0.0001
92385022|NCT00098306|184673145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43||||0.0006|TWO_SIDED|95.0|1.46|4.04|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||4.04|1.46|0.0006
92385023|NCT00098306|184673145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.15|||<|0.0001|TWO_SIDED|95.0|1.9|5.23|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||5.23|1.90|<0.0001
92385024|NCT00098306|184673145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1|||<|0.0001|TWO_SIDED|95.0|2.32|7.25|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.25|2.32|<0.0001
92385025|NCT00098306|184673145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.97|||<|0.0001|TWO_SIDED|95.0|2.82|8.77|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.77|2.82|<0.0001
92233435|NCT03063385|184369453|OTHER|\[Not specified\]|Slope|0.0153|STANDARD_ERROR_OF_MEAN|0.0067||0.0229|TWO_SIDED|95.0|0.0022|0.0285||Statistical significance taken at the 0.05 level|GEE modeling|P-value \& estimate rely on group x time interaction effect on primary outcome when controlling for self-efficacy. Used modified Baron \& Kenny method|\[Not specified\]|The intervention effect of sexual risk communication (primary outcome in parents) controlling for self-efficacy as a mediator from baseline through 12 months was examined using longitudinal general estimating equations (GEE) modeling, with the Health promotion control condition as the reference category and adjusting for baseline sexual risk communication and average monthly income.||0.0285|0.0022|.0229
92416207|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416208|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.141||0.849|TWO_SIDED|95.0|-0.25|0.304||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.304|-0.250|0.849
92416209|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|1.08|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416210|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.145||0.995|TWO_SIDED|95.0|-0.286|0.284||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.284|-0.286|0.995
92416211|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.96|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416212|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.161||0.707|TWO_SIDED|95.0|-0.256|0.378||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.378|-0.256|0.707
92416213|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|1.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416214|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.159||0.901|TWO_SIDED|95.0|-0.294|0.333||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.333|-0.294|0.901
92416215|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|1.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416216|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.161||0.451|TWO_SIDED|95.0|-0.195|0.439||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.439|-0.195|0.451
92416217|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|1.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416218|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.185||0.722|TWO_SIDED|95.0|-0.429|0.298||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.298|-0.429|0.722
92416219|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416220|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.181||0.42|TWO_SIDED|95.0|-0.503|0.21||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.210|-0.503|0.420
92239683|NCT04436510|184383213|SUPERIORITY||Mean Difference (Net)|0.29|STANDARD_ERROR_OF_MEAN|2.054||0.8875|TWO_SIDED|95.0|-3.74|4.32|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Verdiperstat 24-week change from baseline relative to placebo 24-week change from baseline.|||4.32|-3.74|0.8875
92416221|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|1.21|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416222|NCT02880956|184721151|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.187||0.498|TWO_SIDED|95.0|-0.495|0.241||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.241|-0.495|0.498
92416223|NCT02880956|184721151|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|1.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416224|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.071||0.975|TWO_SIDED|95.0|-0.138|0.142||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.142|-0.138|0.975
92416225|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.45|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92385026|NCT00098306|184673147|SUPERIORITY_OR_OTHER||LS mean difference|54.49|STANDARD_ERROR_OF_MEAN|12.435|||TWO_SIDED|95.0|30.07|78.92||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||78.92|30.07|
92385027|NCT00098306|184673147|SUPERIORITY_OR_OTHER||LS mean difference|58.94|STANDARD_ERROR_OF_MEAN|12.378|||TWO_SIDED|95.0|34.63|83.26||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||83.26|34.63|
92385028|NCT00098306|184673147|SUPERIORITY_OR_OTHER||LS mean difference|58.56|STANDARD_ERROR_OF_MEAN|12.677|||TWO_SIDED|95.0|33.66|83.46||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||83.46|33.66|
92385029|NCT00098306|184673147|SUPERIORITY_OR_OTHER||LS mean difference|68.47|STANDARD_ERROR_OF_MEAN|12.617|||TWO_SIDED|95.0|43.69|93.25||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||93.25|43.69|
92385030|NCT00098306|184673148|SUPERIORITY_OR_OTHER||LS mean difference|284.21|STANDARD_ERROR_OF_MEAN|51.779|||TWO_SIDED|95.0|182.51|385.92||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||385.92|182.51|
92385031|NCT00098306|184673148|SUPERIORITY_OR_OTHER||LS mean difference|303.07|STANDARD_ERROR_OF_MEAN|51.507|||TWO_SIDED|95.0|201.9|404.23||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||404.23|201.90|
92385032|NCT00098306|184673148|SUPERIORITY_OR_OTHER||LS mean difference|213.34|STANDARD_ERROR_OF_MEAN|49.679|||TWO_SIDED|95.0|115.77|310.92||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||310.92|115.77|
92385033|NCT00098306|184673148|SUPERIORITY_OR_OTHER||LS mean difference|235.74|STANDARD_ERROR_OF_MEAN|49.416|||TWO_SIDED|95.0|138.68|332.8||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||332.80|138.68|
92416226|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.07||0.078|TWO_SIDED|95.0|-0.014|0.261||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.261|-0.014|0.078
92239684|NCT04436510|184383214|SUPERIORITY||Mean Difference (Net)|3.57|STANDARD_ERROR_OF_MEAN|3.848||0.3538|TWO_SIDED|95.0|-3.99|11.13|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Verdiperstat 24-week change from baseline relative to placebo 24-week change from baseline.|||11.13|-3.99|0.3538
92385034|NCT00098306|184673149|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.34|0.6|||Log Rank|||P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio calculated by fitting a Cox proportional hazards model including treatment group and randomization strata. Hazard ratio \<1 favors maraviroc.||0.60|0.34|<0.0001
92239685|NCT04436510|184383215|SUPERIORITY|||||||0.318|||||||Log Rank|||||||0.318
92385035|NCT00098306|184673149|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.38|||<|0.0001|TWO_SIDED|95.0|0.28|0.5|||Log Rank|||P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio calculated by fitting a Cox proportional hazards model including treatment group and randomization strata. Hazard ratio \<1 favors maraviroc.||0.50|0.28|<0.0001
92385036|NCT00098306|184673150|SUPERIORITY_OR_OTHER||LS mean difference|-0.697|STANDARD_ERROR_OF_MEAN|0.1347|||TWO_SIDED|95.0|-0.961|-0.432||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.432|-0.961|
92385037|NCT00098306|184673150|SUPERIORITY_OR_OTHER||LS mean difference|-0.802|STANDARD_ERROR_OF_MEAN|0.1344|||TWO_SIDED|95.0|-1.065|-0.538||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.538|-1.065|
92385038|NCT00098306|184673150|SUPERIORITY_OR_OTHER||LS mean difference|-0.767|STANDARD_ERROR_OF_MEAN|0.1497|||TWO_SIDED|95.0|-1.061|-0.474||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.474|-1.061|
92385039|NCT00098306|184673150|SUPERIORITY_OR_OTHER||LS mean difference|-0.931|STANDARD_ERROR_OF_MEAN|0.1494|||TWO_SIDED|95.0|-1.225|-0.638||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.638|-1.225|
92385040|NCT00098306|184673151|SUPERIORITY_OR_OTHER||LS mean difference|-0.853|STANDARD_ERROR_OF_MEAN|0.1621|||TWO_SIDED|97.5|-1.217|-0.489||||||The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.489|-1.217|
92385041|NCT00098306|184673151|SUPERIORITY_OR_OTHER||LS mean difference|-1.021|STANDARD_ERROR_OF_MEAN|0.1618|||TWO_SIDED|97.5|-1.385|-0.658||||||The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.658|-1.385|
92385042|NCT01009086|184673159|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385043|NCT01009086|184673159|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385044|NCT01009086|184673159|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385045|NCT01009086|184673160|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385046|NCT01009086|184673160|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385047|NCT01009086|184673160|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385048|NCT01009086|184673161|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385049|NCT01009086|184673161|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92416227|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|-0.19|STANDARD_DEVIATION|0.66|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416228|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.072||0.514|TWO_SIDED|95.0|-0.188|0.094||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.094|-0.188|0.514
92416229|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|0.47|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416230|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.102||0.107|TWO_SIDED|95.0|-0.367|0.036||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.036|-0.367|0.107
92416231|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|0.73|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416232|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.099||0.425|TWO_SIDED|95.0|-0.275|0.116||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.116|-0.275|0.425
92416233|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|0.85|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92385050|NCT01009086|184673161|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385051|NCT01009086|184673162|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92416234|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.102||0.039|TWO_SIDED|95.0|-0.413|-0.011||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||-0.011|-0.413|0.039
92416235|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|0.28|STANDARD_DEVIATION|0.77|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92280506|NCT00601484|184463641|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|10.51|STANDARD_ERROR_OF_MEAN|14.469|||TWO_SIDED|90.0|-13.858|34.868||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||34.868|-13.858|
92385052|NCT01009086|184673162|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385053|NCT01009086|184673162|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385054|NCT01009086|184673163|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385055|NCT01009086|184673163|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385056|NCT01009086|184673163|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385057|NCT01009086|184673164|SUPERIORITY_OR_OTHER|||||||0.017|||||||re-randomization test|||||||0.017
92385058|NCT01009086|184673164|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385059|NCT01009086|184673164|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
92385060|NCT01192828|184673165|OTHER|Descriptive analysis||||||0.235|||||||t-test, 2 sided|paired||Null hypothesis applied.||||0.235
92385061|NCT01192828|184673166|OTHER|Descriptive analysis.||||||0.701|||||||t-test, 2 sided|paired||Null hypothesis assumed.||||0.701
92385062|NCT01192828|184673167|OTHER|Descriptive analysis.||||||0.19|||||||t-test, 2 sided|paired t-test||Null hypothesis applied.||||0.190
92385063|NCT01192828|184673168|OTHER|Descriptive analysis.||||||0.052|||||||t-test, 2 sided|paired t-test||Null hypothesis applied.||||0.052
92385064|NCT01192828|184673169|OTHER|Descriptive analysis.||||||0.014|||||||t-test, 2 sided|paired t-test||Null hypothesis assumed.||||0.014
92385065|NCT01192828|184673171|OTHER|Descriptive analysis||||||0.541|||||||Spearman's rank correlation|||Null hypothesis assumed|Spearman's rank correlation rho is 0.179, with p value 0.541, N is 14|||.541
92385066|NCT01192828|184673173|OTHER|Descriptive analysis||||||0.014|||||||t-test, 2 sided|paired t-test||Null hypothesis assumed||||0.014
92416236|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.131||0.729|TWO_SIDED|95.0|-0.302|0.212||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.212|-0.302|0.729
92416237|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416238|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.128||0.671|TWO_SIDED|95.0|-0.198|0.307||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.307|-0.198|0.671
92385067|NCT01192828|184673174|OTHER|Descriptive analysis||||||0.012|||||||t-test, 2 sided|paired t-test||Null hypothesis assumed||||0.012
92385068|NCT01192828|184673175|OTHER|Descriptive analysis.||||||0.16|||||||t-test, 2 sided|paired t-test||Null hypothesis applied.||||0.160
92385069|NCT01192828|184673176|OTHER|Descriptive analysis||||||0.1|||||||t-test, 2 sided|||||||0.10
92385070|NCT00781859|184673178|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.56||||0.003|TWO_SIDED|95.0|1.32|5.24||comparing placebo and ocriplasmin|Fisher Exact|||||5.24|1.32|0.003
92385071|NCT00360568|184673195|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92385072|NCT00360568|184673196|SUPERIORITY_OR_OTHER|||||||0.394|||||||t-test, 2 sided|||||||0.394
92385073|NCT00360568|184673197|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92385074|NCT00360568|184673198|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92416239|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|0.94|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416240|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.13||0.876|TWO_SIDED|95.0|-0.235|0.276||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.276|-0.235|0.876
92416241|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|0.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416242|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.159||0.763|TWO_SIDED|95.0|-0.266|0.362||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.362|-0.266|0.763
92385075|NCT00360568|184673199|SUPERIORITY_OR_OTHER|||||||0.055|||||||t-test, 2 sided|||||||0.055
92385076|NCT00360568|184673200|SUPERIORITY_OR_OTHER|||||||0.766|||||||t-test, 2 sided|||||||0.766
92385077|NCT00360568|184673201|SUPERIORITY_OR_OTHER|||||||0.571|||||||t-test, 2 sided|||||||0.571
92385078|NCT00360568|184673202|SUPERIORITY_OR_OTHER|||||||0.583|||||||t-test, 2 sided|||||||0.583
92385079|NCT00360568|184673203|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92385080|NCT00360568|184673204|SUPERIORITY_OR_OTHER|||||||0.67|||||||t-test, 2 sided|||||||0.670
92385081|NCT00360568|184673205|SUPERIORITY_OR_OTHER|||||||0.341|||||||t-test, 2 sided|||||||0.341
92385082|NCT00360568|184673206|SUPERIORITY_OR_OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.220
92385083|NCT00360568|184673207|SUPERIORITY_OR_OTHER|||||||0.174|||||||t-test, 2 sided|||||||0.174
92385084|NCT00360568|184673208|SUPERIORITY_OR_OTHER|||||||0.259|||||||t-test, 2 sided|||||||0.259
92385085|NCT00360568|184673209|SUPERIORITY_OR_OTHER|||||||0.922|||||||t-test, 2 sided|||||||0.922
92385086|NCT00360568|184673210|SUPERIORITY_OR_OTHER|||||||0.258|||||||t-test, 2 sided|||||||0.258
92385087|NCT00360568|184673211|SUPERIORITY_OR_OTHER|||||||0.104|||||||t-test, 2 sided|||||||0.104
92385088|NCT00360568|184673212|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.650
92385089|NCT00360568|184673213|SUPERIORITY_OR_OTHER|||||||0.759|||||||t-test, 2 sided|||||||0.759
92385090|NCT00360568|184673214|SUPERIORITY_OR_OTHER|||||||0.459|||||||t-test, 2 sided|||||||0.459
92385091|NCT00360568|184673215|SUPERIORITY_OR_OTHER|||||||0.899|||||||t-test, 2 sided|||||||0.899
92385092|NCT01220180|184673231|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92385093|NCT01220180|184673232|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92385094|NCT01220180|184673233|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92385095|NCT01220180|184673234|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92385096|NCT01220180|184673235|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92385097|NCT01220180|184673236|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92385098|NCT01220180|184673237|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92385099|NCT01220180|184673238|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92385100|NCT00348309|184673255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.049|TWO_SIDED|95.0|-2.7|0.0||APOE4 negatives|Mixed Models Analysis|||||-0.0|-2.7|0.049
92385101|NCT00348309|184673255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.808|TWO_SIDED|95.0|-1.7|1.3||APOE4 negatives|Mixed Models Analysis|||||1.3|-1.7|0.808
92385102|NCT00348309|184673255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.035|TWO_SIDED|95.0|-1.9|-0.1||All except E4/E4s|Mixed Models Analysis|||||-0.1|-1.9|0.035
92385103|NCT00348309|184673255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.999|TWO_SIDED|95.0|-1.0|1.0||All except E4/E4s|Mixed Models Analysis|||||1.0|-1.0|0.999
92385104|NCT00348309|184673255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.02|TWO_SIDED|95.0|-1.9|-0.2||Full population|Mixed Models Analysis|||||-0.2|-1.9|0.020
92385105|NCT00348309|184673255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.661|TWO_SIDED|95.0|-1.2|0.7||Full population|Mixed Models Analysis|||||0.7|-1.2|0.661
92385106|NCT00348309|184673256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||=|0.056|TWO_SIDED|95.0|-1.0|0.0||APOE4 negatives|Mixed Models Analysis|||||0.0|-1.0|=0.056
92385107|NCT00348309|184673256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||=|0.587|TWO_SIDED|95.0|-0.4|0.7||APOE4 negatives|Mixed Models Analysis|||||0.7|-0.4|=0.587
92385108|NCT00348309|184673256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||=|0.004|TWO_SIDED|95.0|-0.9|-0.2||All except E4/E4s|Mixed Models Analysis|||||-0.2|-0.9|=0.004
92385109|NCT00348309|184673256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||=|0.402|TWO_SIDED|95.0|-0.2|0.6||All except E4/E4s|Mixed Models Analysis|||||0.6|-0.2|=0.402
92416243|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.11|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416244|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.157||0.429|TWO_SIDED|95.0|-0.434|0.185||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.185|-0.434|0.429
92416245|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|1.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416246|NCT02880956|184721152|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.162||0.701|TWO_SIDED|95.0|-0.256|0.381||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.381|-0.256|0.701
92416247|NCT02880956|184721152|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|1.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416248|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.064||0.867|TWO_SIDED|95.0|-0.115|0.137||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.137|-0.115|0.867
92416249|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|0.48|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416250|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.063||0.898|TWO_SIDED|95.0|-0.132|0.116||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.116|-0.132|0.898
92416251|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|0.51|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416252|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.065||0.537|TWO_SIDED|95.0|-0.088|0.168||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.168|-0.088|0.537
92416253|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|0.54|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416254|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.074||0.176|TWO_SIDED|95.0|-0.245|0.045||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.045|-0.245|0.176
92416255|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|0.15|STANDARD_DEVIATION|0.65|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92385110|NCT00348309|184673256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||=|0.002|TWO_SIDED|95.0|-0.9|-0.2||Full population|Mixed Models Analysis|||||-0.2|-0.9|=0.002
92385111|NCT00348309|184673256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||=|0.478|TWO_SIDED|95.0|-0.2|0.5||Full population|Mixed Models Analysis|||||0.5|-0.2|=0.478
92385112|NCT00348309|184673257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||=|0.34|TWO_SIDED|95.0|-2.0|0.7||Week 8|Mixed Models Analysis|||||0.7|-2.0|=0.340
92385113|NCT00348309|184673257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||=|0.079|TWO_SIDED|95.0|-2.5|0.1||Week 8|Mixed Models Analysis|||||0.1|-2.5|=0.079
92385114|NCT00348309|184673257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||=|0.91|TWO_SIDED|95.0|-1.7|1.5||Week 16|Mixed Models Analysis|||||1.5|-1.7|=0.910
92385115|NCT00348309|184673257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.521|TWO_SIDED|95.0|-2.1|1.0||Week 16|Mixed Models Analysis|||||1.0|-2.1|0.521
92385116|NCT00348309|184673257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||=|0.154|TWO_SIDED|95.0|-0.5|3.0||Week 24|Mixed Models Analysis|||||3.0|-0.5|=0.154
92385117|NCT00348309|184673257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||=|0.836|TWO_SIDED|95.0|-1.6|2.0||Week 24|Mixed Models Analysis|||||2.0|-1.6|=0.836
92385118|NCT00348309|184673257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.061|TWO_SIDED|95.0|-0.1|4.2||Week 48|Mixed Models Analysis|||||4.2|-0.1|0.061
92385119|NCT00348309|184673257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||=|0.566|TWO_SIDED|95.0|-2.9|1.6||Week 48|Mixed Models Analysis|||||1.6|-2.9|=0.566
92385120|NCT00348309|184673258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||=|0.414|TWO_SIDED|95.0|-1.3|0.5||Week 8|Mixed Models Analysis|||||0.5|-1.3|=0.414
92385121|NCT00348309|184673258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.931|TWO_SIDED|95.0|-1.0|1.1||Week 8|Mixed Models Analysis|||||1.1|-1.0|0.931
92385122|NCT00348309|184673258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.485|TWO_SIDED|95.0|-1.4|0.7||Week 16|Mixed Models Analysis|||||0.7|-1.4|0.485
92385123|NCT00348309|184673258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.55|TWO_SIDED|95.0|-0.8|1.5||Week 16|Mixed Models Analysis|||||1.5|-0.8|0.550
92233436|NCT03063385|184369453|OTHER|\[Not specified\]|Slope|0.0151|STANDARD_ERROR_OF_MEAN|0.0067||0.0249|TWO_SIDED|95.0|0.0019|0.0282||Statistical significance taken at the 0.05 level|GEE modeling|P-value and estimate rely on group x time interaction effect on primary outcome when controlling for sexual communication attitudes. Same method B\&K|\[Not specified\]|The intervention effect of sexual risk communication (primary outcome in parents) controlling for sexual communication attitudes as a mediator from baseline through 12 months was examined using longitudinal general estimating equations (GEE) modeling, with the Health promotion control condition as the reference category and adjusting for baseline sexual risk communication and average monthly income.||0.0282|0.0019|0.0249
92233437|NCT03063385|184369453|OTHER|\[Not specified\]|Slope|0.0158|STANDARD_ERROR_OF_MEAN|0.0068||0.0204|TWO_SIDED|95.0|0.0025|0.0292||Statistical significance taken at the 0.05 level|GEE modeling|Reported P-value and estimate rely on the group x time interaction effect on primary outcome when controlling for subjective norms. Same method B\&K|\[Not specified\]|The intervention effect of sexual risk communication (primary outcome in parents) controlling for subjective norms as a mediator from baseline through 12 months was examined using longitudinal general estimating equations (GEE) modeling, with the Health promotion control condition as the reference category and adjusting for baseline sexual risk communication and average monthly income.||0.0292|0.0025|0.0204
92233438|NCT00469079|184369490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.002
92233439|NCT00469079|184369491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Mixed Models Analysis|||Product use is by self-report and daily diaries.||||0.05
92233440|NCT00469079|184369492|SUPERIORITY_OR_OTHER_LEGACY||Other|0.0|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|A generalized linear mixed model was used for outcomes that had been repeatedly measured from baseline through the end of the treatment period.||This study was not powered to detect differences in smoking cessation rates between groups; however, smoking status was collected to obtain preliminary data. Point prevalence (no smoking during the previous 7 days) cigarette abstinence rates were calculated at the week-4 visit and at each of the 2 follow-up visits. Continuous abstinence rates were calculated for the 4 week period between the week 1 and week 4 visits. Abstinence at all visits was assessed by self-report and confirmed by CO.||||<0.05
92385124|NCT00348309|184673258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.264|TWO_SIDED|95.0|-1.8|0.5||Week 24|Mixed Models Analysis|||||0.5|-1.8|0.264
92385125|NCT00348309|184673258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.732|TWO_SIDED|95.0|-1.5|1.0||Week 24|Mixed Models Analysis|||||1.0|-1.5|0.732
92416256|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.072||0.125|TWO_SIDED|95.0|-0.251|0.031||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.031|-0.251|0.125
92416257|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|0.21|STANDARD_DEVIATION|0.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92233441|NCT00469079|184369493|SUPERIORITY_OR_OTHER_LEGACY||Mean difference between 3 groups|0.0|||>|0.1|TWO_SIDED|95.0|||||Mixed Models Analysis|||A generalized linear mixed model was used for outcomes that had been repeatedly measured from baseline through the end of the treatment period. Each repeated-measures model included the treatment effect, a visit effect, the interaction between treatment and visit, the interaction between subject error and within-subject error terms.||||> 0.10
92233442|NCT02396147|184369544|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|87.09|||||TWO_SIDED|90.0|58.56|129.52|||||T4 Formulation B Fasted (test)/T2 Formulation Fasted (reference)\*100|||129.52|58.56|
92233443|NCT02396147|184369544|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|83.09|||||TWO_SIDED|90.0|59.95|115.18|||||T4 Formulation C Fasted (test)/T2 Formulation Fasted (reference) \* 100|||115.18|59.95|
92233444|NCT02396147|184369544|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|78.59|||||TWO_SIDED|90.0|52.88|116.79|||||T4 Formulation B Fed (test)/T4 Formulation B Fasted (reference) \* 100|||116.79|52.88|
92233445|NCT02396147|184369544|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|94.23|||||TWO_SIDED|90.0|67.98|130.61|||||T4 Formulation C Fed (test)/T4 Formulation C Fasted (reference) \* 100|||130.61|67.98|
92416258|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.074||0.676|TWO_SIDED|95.0|-0.176|0.114||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||week 48||0.114|-0.176|0.676
92233446|NCT02396147|184369545|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|94.53|||||TWO_SIDED|90.0|74.83|119.4|||||T4 Formulation B Fasted (test)/T2 Formulation Fasted (Reference) \*100|||119.40|74.83|
92233447|NCT02396147|184369545|SUPERIORITY_OR_OTHER||Geometric Mean Ration|77.99|||||TWO_SIDED|90.0|64.29|94.61|||||T4 Formulation C Fasted (test)/T2 Formulation Fasted (reference) \* 100|||94.61|64.29|
92385126|NCT00348309|184673258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.043|TWO_SIDED|95.0|-2.9|0.0||Week 48|Mixed Models Analysis|||||-0.0|-2.9|0.043
92385127|NCT00348309|184673258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.814|TWO_SIDED|95.0|-1.4|1.8||Week 48|Mixed Models Analysis|||||1.8|-1.4|0.814
92385128|NCT00348309|184673259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.87|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||||0.6|-0.5|0.870
92385129|NCT00348309|184673259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.617|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||||0.4|-0.7|0.617
92385130|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.789|TWO_SIDED|95.0|-5.2|6.9|||Mixed Models Analysis|||Week 12 Q1||6.9|-5.2|0.789
92385131|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.643|TWO_SIDED|95.0|-9.0|5.6||Week 12Q1|Mixed Models Analysis|||||5.6|-9.0|0.643
92416259|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|0.61|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416260|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.095||0.226|TWO_SIDED|95.0|-0.301|0.071||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.071|-0.301|0.226
92416261|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|0.62|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416262|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.093||0.683|TWO_SIDED|95.0|-0.222|0.145||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.145|-0.222|0.683
92416263|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416264|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.094||0.848|TWO_SIDED|95.0|-0.168|0.204||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.204|-0.168|0.848
92416265|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|0.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416266|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.126||0.656|TWO_SIDED|95.0|-0.305|0.192||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.192|-0.305|0.656
92416267|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|0.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416268|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.124||0.777|TWO_SIDED|95.0|-0.279|0.209||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.209|-0.279|0.777
92416269|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|0.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416270|NCT02880956|184721153|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|0.128||0.256|TWO_SIDED|95.0|-0.106|0.397||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.397|-0.106|0.256
92416271|NCT02880956|184721153|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|0.89|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416272|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.101||0.479|TWO_SIDED|95.0|-0.269|0.126||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.126|-0.269|0.479
92416273|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|0.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416274|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.099||0.295|TWO_SIDED|95.0|-0.299|0.091||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.091|-0.299|0.295
92416275|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|0.13|STANDARD_DEVIATION|0.77|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416276|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.102||0.884|TWO_SIDED|95.0|-0.186|0.215||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.215|-0.186|0.884
92416277|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|0.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92233448|NCT02396147|184369545|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|81.08|||||TWO_SIDED|90.0|64.21|102.37|||||T4 Formulation B Fed (test)/T4 Formulation B Fasted (reference) \* 100|||102.37|64.21|
92416278|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.111||0.569|TWO_SIDED|95.0|-0.281|0.155||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.155|-0.281|0.569
92233449|NCT02396147|184369545|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|92.78|||||TWO_SIDED|90.0|76.48|112.55|||||T4 Formulation C Fed (test)/T4 Formulation C Fasted (reference) \* 100|||112.55|76.48|
92416279|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|0.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92385132|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.3||||0.052|TWO_SIDED|95.0|-14.7|0.1||Week 24 Q1|Mixed Models Analysis|||||0.1|-14.7|0.052
92385133|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.481|TWO_SIDED|95.0|-14.0|6.6||Week 24 Q1|Mixed Models Analysis|||||6.6|-14.0|0.481
92385134|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.2||||0.195|TWO_SIDED|95.0|-15.6|3.2||Week 36 Q1|Mixed Models Analysis|||||3.2|-15.6|0.195
92385135|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.857|TWO_SIDED|95.0|-12.9|10.7||Week 36 Q1|Mixed Models Analysis|||||10.7|-12.9|0.857
92385136|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.422|TWO_SIDED|95.0|-15.9|6.7||Week 48 Q1|Mixed Models Analysis|||||6.7|-15.9|0.422
92385137|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.562|TWO_SIDED|95.0|-15.7|8.6||Week 48 Q1|Mixed Models Analysis|||||8.6|-15.7|0.562
92385138|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.8||||0.129|TWO_SIDED|95.0|-2.6|20.2||Week 12 Q2|Mixed Models Analysis|||||20.2|-2.6|0.129
92385139|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9||||0.194|TWO_SIDED|95.0|-4.0|19.9||Week 12 Q2|Mixed Models Analysis|||||19.9|-4.0|0.194
92385140|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.832|TWO_SIDED|95.0|-10.5|13.1||Week 24 Q2|Mixed Models Analysis|||||13.1|-10.5|0.832
92385141|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1||||0.351|TWO_SIDED|95.0|-6.8|19.1||Week 24 Q2|Mixed Models Analysis|||||19.1|-6.8|0.351
92233450|NCT02396147|184369546|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|94.43|||||TWO_SIDED|90.0|74.85|119.12|||||T4 Formulation B Fasted (test)/T2 Formulation Fasted (reference) \* 100|||119.12|74.85|
92385142|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.949|TWO_SIDED|95.0|-13.3|12.5||Week 36 Q2|Mixed Models Analysis|||||12.5|-13.3|0.949
92385143|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.3||||0.253|TWO_SIDED|95.0|-6.0|22.6||Week 36 Q2|Mixed Models Analysis|||||22.6|-6.0|0.253
92385144|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.735|TWO_SIDED|95.0|-16.2|11.4||Week 48 Q2|Mixed Models Analysis|||||11.4|-16.2|0.735
92385145|NCT00348309|184673260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.2||||0.046|TWO_SIDED|95.0|0.3|32.0||Week 48 Q2|Mixed Models Analysis|||||32.0|0.3|0.046
92385146|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.914|TWO_SIDED|95.0|-2.3|2.0||Week 12 Thermometer|Mixed Models Analysis|||||2.0|-2.3|0.914
92385147|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.415|TWO_SIDED|95.0|-3.3|1.4||Week 12 Thermometer|Mixed Models Analysis|||||1.4|-3.3|0.415
92385148|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.063|TWO_SIDED|95.0|-4.9|0.1||Week 36 Thermometer|Mixed Models Analysis|||||0.1|-4.9|0.063
92385149|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.03|TWO_SIDED|95.0|-5.6|-0.3||Week 36 Thermometer|Mixed Models Analysis|||||-0.3|-5.6|0.030
92385150|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.392|TWO_SIDED|95.0|-1.5|3.8||Week 48 Thermometer|Mixed Models Analysis|||||3.8|-1.5|0.392
92385151|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.557|TWO_SIDED|95.0|-3.7|2.0||Week 48 Thermometer|Mixed Models Analysis|||||2.0|-3.7|0.557
92385152|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.32|TWO_SIDED|95.0|-0.01|0.03||Week 12 Utility|Mixed Models Analysis|||||0.03|-0.01|0.320
92385153|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.18|TWO_SIDED|95.0|-0.04|0.01||Week 12 Utility|Mixed Models Analysis|||||0.01|-0.04|0.180
92385154|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.498|TWO_SIDED|95.0|-0.02|0.04||Week 36 Utility|Mixed Models Analysis|||||0.04|-0.02|0.498
92385155|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.081|TWO_SIDED|95.0|-0.06|0.0||Week 36 Utility|Mixed Models Analysis|||||0.00|-0.06|0.081
92385156|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.077|TWO_SIDED|95.0|0.0|0.06||Week 48 Utility|Mixed Models Analysis|||||0.06|-0.00|0.077
92385157|NCT00348309|184673261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.64|TWO_SIDED|95.0|-0.04|0.03||Week 48 Utility|Mixed Models Analysis|||||0.03|-0.04|0.640
92385158|NCT00348309|184673262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.105|TWO_SIDED|95.0|-1.6|0.2|||ANCOVA|||||0.2|-1.6|0.105
92385159|NCT00348309|184673262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.483|TWO_SIDED|95.0|-1.3|0.6|||ANCOVA|||||0.6|-1.3|0.483
92385160|NCT00348309|184673263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.004|TWO_SIDED|95.0|-0.9|-0.2|||ANCOVA|||||-0.2|-0.9|0.004
92385161|NCT00348309|184673263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.554|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||||0.5|-0.3|0.554
92385162|NCT00348309|184673264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.292|TWO_SIDED|95.0|-0.3|1.1|||ANCOVA|||||1.1|-0.3|0.292
92385163|NCT00348309|184673264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.297|TWO_SIDED|95.0|-0.3|1.1|||ANCOVA|||||1.1|-0.3|0.297
92385164|NCT00348309|184673265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.598|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.598
92385165|NCT00348309|184673265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.073|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.073
92385166|NCT00348309|184673266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.006|TWO_SIDED|95.0|0.02|0.12|||ANCOVA|||||0.12|0.02|0.006
92385167|NCT00348309|184673266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.14|TWO_SIDED|95.0|-0.01|0.09|||ANCOVA|||||0.09|-0.01|0.140
92385168|NCT00348309|184673276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.027|TWO_SIDED|95.0|-1.2|-0.1||Week 12|Mixed Models Analysis|||||-0.1|-1.2|0.027
92385169|NCT00348309|184673276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.091|TWO_SIDED|95.0|-1.1|0.1||Week 12|Mixed Models Analysis|||||0.1|-1.1|0.091
92385170|NCT00348309|184673276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.268|TWO_SIDED|95.0|-1.1|0.3||Week 36|Mixed Models Analysis|||||0.3|-1.1|0.268
92385171|NCT00348309|184673276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.318|TWO_SIDED|95.0|-1.1|0.4||Week 36|Mixed Models Analysis|||||0.4|-1.1|0.318
92385172|NCT00348309|184673276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.03|TWO_SIDED|95.0|-1.6|-0.1||Week 48|Mixed Models Analysis|||||-0.1|-1.6|0.030
92385173|NCT00348309|184673276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.797|TWO_SIDED|95.0|-0.9|0.7||Week 48|Mixed Models Analysis|||||0.7|-0.9|0.797
92385174|NCT00516165|184673323|SUPERIORITY_OR_OTHER|||||||0.05|||||||Kaplan Meier|||||||0.05
92385175|NCT00516165|184673324|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Kaplan-Meier|||||||<0.05
92385176|NCT00516165|184673325|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Kaplan-Meier|||||||<0.05
92385177|NCT00516165|184673326|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Kaplan-Meier|||||||0.05
92385178|NCT00516165|184673327|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Kaplan-Meier|||||||0.05
92385179|NCT00516165|184673328|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Kaplan-Meier|||||||0.05
92385180|NCT00061633|184673332|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was selected on the basis of clinical judgment and was deemed adequate to provide clinically meaningful descriptive results consistent with study objectives. This sample size was estimated to provide 39% power to test televancin's non-inferiority to vancomycin with respect to clinical response using a non-inferiority margin of 10%.||||||0.5289|||||||2-sided 95% confidence interval|||95% Confidence Interval: -0.1349 to 0.0485 No est. value. Parameter that was estimated: Risk Difference||||0.5289
92385181|NCT01431963|184673333|SUPERIORITY_OR_OTHER||percentage of participants|43.1|||||TWO_SIDED|95.0|30.85|55.96|||||The estimated value reflects the percentage of participants who were seizure free for all seizures.|||55.96|30.85|
92385182|NCT01431963|184673333|SUPERIORITY_OR_OTHER||percentage of participants|40.0|||||TWO_SIDED|95.0|27.02|54.09|||||The estimated value reflects the percentage of participants who were seizure free for A+B+C seizures.|||54.09|27.02|
92385183|NCT01431963|184673333|SUPERIORITY_OR_OTHER||percentage of participants|40.5|||||TWO_SIDED|95.0|25.63|56.72|||||The estimated value reflects the percentage of participants who were seizure free for A+B seizures.|||56.72|25.63|
92385184|NCT01431963|184673333|SUPERIORITY_OR_OTHER||percentage of participants|69.7|||||TWO_SIDED|95.0|51.29|84.41|||||The estimated value reflects the percentage of participants who were seizure free for C seizures.|||84.41|51.29|
92385185|NCT01431963|184673333|SUPERIORITY_OR_OTHER||percentage of participants|80.0|||||TWO_SIDED|95.0|44.39|97.48|||||The estimated value reflects the percentage of participants who were seizure free for D5 seizures.|||97.48|44.39|
92385186|NCT00931606|184673346|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385187|NCT00931606|184673346|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385188|NCT00931606|184673346|SUPERIORITY|||||||0.524|||||||Fisher Exact|Clopper and Pearson exact approach||Overall||||0.524
92385189|NCT00931606|184673346|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385190|NCT00931606|184673346|SUPERIORITY|||||||0.333|||||||Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||0.333
92385191|NCT00931606|184673346|SUPERIORITY|||||||0.333|||||||Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||0.333
92385192|NCT00931606|184673346|SUPERIORITY|||||||0.333|||||||Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||0.333
92385193|NCT00931606|184673346|SUPERIORITY|||||||0.236|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.236
92385194|NCT00931606|184673346|SUPERIORITY|||||||0.429|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.429
92385195|NCT00931606|184673346|SUPERIORITY|||||||0.519|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.519
92385196|NCT00931606|184673349|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385197|NCT00931606|184673349|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385198|NCT00931606|184673349|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||>0.999
92385199|NCT00931606|184673349|SUPERIORITY||||||>|0.999|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||>0.999
92385200|NCT00931606|184673350|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999, are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385201|NCT00931606|184673350|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385202|NCT00931606|184673350|SUPERIORITY|||||||0.206|||||||Fisher Exact|Clopper and Pearson exact approach||Overall||||0.206
92385203|NCT00931606|184673350|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385204|NCT00931606|184673350|SUPERIORITY|||||||0.333|||||||Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||0.333
92385205|NCT00931606|184673350|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999, are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||>0.999
92385206|NCT00931606|184673350|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999, are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||>0.999
92385207|NCT00931606|184673350|SUPERIORITY|||||||0.429|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.429
92385208|NCT00931606|184673350|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||>0.999
92385209|NCT00931606|184673350|SUPERIORITY|||||||0.143|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.143
92385210|NCT00931606|184673350|SUPERIORITY|||||||0.519|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.519
92385211|NCT00931606|184673351|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385212|NCT00931606|184673351|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385213|NCT00931606|184673351|SUPERIORITY|||||||0.206|||||||Fisher Exact|Clopper and Pearson exact approach||Overall||||0.206
92385214|NCT00931606|184673351|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
92385215|NCT00931606|184673351|SUPERIORITY|||||||0.333|||||||Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||0.333
92385216|NCT00931606|184673351|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||>0.999
92416280|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_ERROR_OF_MEAN|0.108||0.702|TWO_SIDED|95.0|-0.254|0.171||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.171|-0.254|0.702
92416281|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|0.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416282|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.111||0.566|TWO_SIDED|95.0|-0.155|0.283||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.283|-0.155|0.566
92416283|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416284|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.133||0.141|TWO_SIDED|95.0|-0.458|0.065||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.065|-0.458|0.141
92233451|NCT02396147|184369546|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|78.09|||||TWO_SIDED|90.0|64.53|94.51|||||T4 Formulation C Fasted (test)/T2 Formulation Fasted (reference) \* 100|||94.51|64.53|
92416285|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|0.22|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416286|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.131||0.834|TWO_SIDED|95.0|-0.285|0.23||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.230|-0.285|0.834
92416287|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|0.99|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416288|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.133||0.724|TWO_SIDED|95.0|-0.309|0.215||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.215|-0.309|0.724
92416289|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|1.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416290|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.166||0.163|TWO_SIDED|95.0|-0.559|0.095||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.095|-0.559|0.163
92416291|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|0.24|STANDARD_DEVIATION|0.98|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92233452|NCT02396147|184369546|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|81.16|||||TWO_SIDED|90.0|64.36|102.34|||||T4 Formulation B Fed (test)/T4 Formulation B Fasted (reference) \* 100|||102.34|64.36|
92385217|NCT00931606|184673351|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||>0.999
92385218|NCT00931606|184673351|SUPERIORITY|||||||0.429|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.429
92385219|NCT00931606|184673351|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||>0.999
92385220|NCT00931606|184673351|SUPERIORITY|||||||0.143|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.143
92385221|NCT00931606|184673351|SUPERIORITY|||||||0.519|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.519
92416292|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.163||0.497|TWO_SIDED|95.0|-0.432|0.21||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.210|-0.432|0.497
92416293|NCT02880956|184721154|SUPERIORITY||effect size|0.1|STANDARD_DEVIATION|1.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416294|NCT02880956|184721154|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.168||0.919|TWO_SIDED|95.0|-0.314|0.349||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.349|-0.314|0.919
92416295|NCT02880956|184721154|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.17|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92385222|NCT02391363|184673405|SUPERIORITY|||||||0.77||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.08 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month PSWQ-A, controlling for baseline PSWQ-A.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate of .05."||||0.77
92385223|NCT02391363|184673406|SUPERIORITY|||||||0.07||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 3.50 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month PSWQ-A, controlling for baseline PSWQ-A.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.07
92385224|NCT02391363|184673407|SUPERIORITY|||||||0.34||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.92. (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month GAD-7, controlling for baseline GAD-7.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.34
92385225|NCT02391363|184673408|SUPERIORITY|||||||0.08||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 3.20 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month GAD-7, controlling for baseline GAD-7.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.08
92416296|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.352||0.423|TWO_SIDED|95.0|-0.974|0.409||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.409|-0.974|0.423
92385226|NCT02391363|184673409|SUPERIORITY|||||||0.45||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.59 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month GAI-SF, controlling for baseline GAI-SF.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.45
92385227|NCT02391363|184673410|SUPERIORITY|||||||0.13||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 2.37 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month GAI-SF, controlling for baseline GAI-SF.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.13
92385228|NCT02391363|184673411|SUPERIORITY|||||||0.52||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.42 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month PHQ-8, controlling for baseline PHQ-8.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.52
92385229|NCT02391363|184673412|SUPERIORITY|||||||0.29||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 1.14 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month PHQ-8, controlling for baseline PHQ-8.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.29
92416297|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|3.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416298|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.346||0.036|TWO_SIDED|95.0|-1.408|-0.047||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||-0.047|-1.408|0.036
92416299|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|0.25|STANDARD_DEVIATION|2.96|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416300|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.355||0.121|TWO_SIDED|95.0|-1.25|0.147||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.147|-1.250|0.121
92416301|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|3.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92385230|NCT02391363|184673413|SUPERIORITY|||||||0.14||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 2.19 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month GDS-SF, controlling for baseline GDS-SF.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.14
92385231|NCT02391363|184673414|SUPERIORITY|||||||0.59||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.30 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month GDS-SF, controlling for baseline GDS-SF.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.59
92385232|NCT02391363|184673415|SUPERIORITY|||||||0.64||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.22 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month ISI, controlling for baseline ISI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.64
92385233|NCT02391363|184673416|SUPERIORITY|||||||0.35||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.88 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month ISI, controlling for baseline ISI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.35
92385234|NCT02391363|184673417|SUPERIORITY|||||||0.52||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.42 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month LL-FDI, controlling for baseline LL-FDI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.52
92385235|NCT02391363|184673418|SUPERIORITY|||||||0.92||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = .01(Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month LL-FDI, controlling for baseline LL-FDI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.92
92416302|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.371||0.244|TWO_SIDED|95.0|-1.163|0.296||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.296|-1.163|0.244
92416303|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|0.15|STANDARD_DEVIATION|2.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416304|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.36||0.085|TWO_SIDED|95.0|-1.33|0.086||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.086|-1.330|0.085
92416305|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|0.21|STANDARD_DEVIATION|3.03|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92233453|NCT02396147|184369546|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|92.99|||||TWO_SIDED|90.0|76.84|112.54|||||T4 Formulation C Fed (test)/T4 Formulation C Fasted (reference) \* 100|||112.54|76.84|
92233454|NCT02559505|184369554|OTHER|||||||0.005||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.005
92416306|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.371||0.137|TWO_SIDED|95.0|-1.28|0.177||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.177|-1.280|0.137
92416307|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|0.19|STANDARD_DEVIATION|2.85|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416308|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|0.4|STANDARD_ERROR_OF_MEAN|0.352||0.258|TWO_SIDED|95.0|-0.294|1.091||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.091|-0.294|0.258
92233455|NCT02559505|184369554|OTHER|||||||0.024||||||p-value for NP reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.024
92233456|NCT02559505|184369555|OTHER|||||||0.408||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.408
92233457|NCT02559505|184369555|OTHER|||||||0.004||||||p-value for NP reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.004
92233458|NCT02559505|184369556|OTHER|||||||0.991||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.991
92385236|NCT02391363|184673419|SUPERIORITY|||||||0.59||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.29 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month LL-FDI, controlling for baseline LL-FDI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.59
92385237|NCT02391363|184673420|SUPERIORITY|||||||0.89||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.20 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month LL-FDI, controlling for baseline LL-FDI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.89
92385238|NCT02391363|184673421|SUPERIORITY|||||||0.64||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F= 0.23 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month SF-12, controlling for baseline SF-12.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.64
92385239|NCT02391363|184673422|SUPERIORITY|||||||0.94||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.00 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month SF-12, controlling for baseline SF-12.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.94
92385240|NCT02391363|184673423|SUPERIORITY|||||||0.98||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.00 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month SF-12, controlling for baseline SF-12.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.98
92385241|NCT02391363|184673424|SUPERIORITY|||||||0.88||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F= 0.02 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month SF-12, controlling for baseline SF-12.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.88
92385242|NCT02391363|184673425|SUPERIORITY|||||||0.31||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 1.02 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month PCL-5, controlling for baseline PCL-5.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.31
92385243|NCT02391363|184673426|SUPERIORITY|||||||0.96||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.00 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month PCL-5, controlling for baseline PCL-5.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.96
92385244|NCT02391363|184673427|SUPERIORITY|"We expected to reject the null hypothesis of no treatment group difference in 6 month health service use, controlling for baseline health service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||||0.52||||||Parameter estimate for treatment group = 0.40 (SE = 0.63). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||||||0.52
92385245|NCT02391363|184673428|SUPERIORITY|||||||0.04||||||Parameter estimate for treatment group = 1.79 (SE = 0.85). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 9 month health service use, controlling for baseline health service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.04
92233459|NCT02559505|184369556|OTHER|||||||0.334||||||p-value for NP reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.334
92233460|NCT02559505|184369557|OTHER|||||||0.226||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.226
92385246|NCT02391363|184673429|SUPERIORITY|||||||0.04||||||Parameter estimate for treatment group = 1.56 (SE = 0.74). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 6 month hospital admissions, controlling for baseline hospital admissions.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.04
92385247|NCT02391363|184673430|SUPERIORITY|||||||0.001||||||Parameter estimate for treatment group = 2.96 (SE = 0.91). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 9 month hospital admissions, controlling for baseline hospital admissions.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.001
92385248|NCT02391363|184673431|SUPERIORITY|||||||0.42||||||Parameter estimate for treatment group = 0.42 (SE = 0.51). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 6 month social service use, controlling for baseline social service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.42
92385249|NCT02391363|184673432|SUPERIORITY|||||||0.85||||||Parameter estimate for treatment group = 0.09 (SE = 0.47). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 9 month social service use, controlling for baseline social service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.85
92385250|NCT02391363|184673433|SUPERIORITY|||||||0.55||||||Parameter estimate for treatment group = -0.28 (SE = 0.46). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 6 month psychological service use, controlling for baseline psychological service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.55
92385251|NCT02391363|184673434|SUPERIORITY|||||||0.54||||||Parameter estimate for treatment group = -0.29 (SE = 0.47). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 9 month psychological service use, controlling for baseline psychological service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.54
92385252|NCT00799266|184673435|SUPERIORITY|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|0.414||||0.0392|TWO_SIDED|95.0|0.022|0.806|||ANCOVA|||Lumbar Spine BMD Z-score at Month 12||0.806|0.022|0.0392
92385253|NCT00799266|184673436|SUPERIORITY|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|0.29||||0.1322|TWO_SIDED|95.0|-0.094|0.673|||ANCOVA|||Lumbar Spine BMD Z-score at Month 6||0.673|-0.094|0.1322
92385254|NCT00799266|184673437|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|1.979||||0.0409|TWO_SIDED|95.0|0.089|3.869|||ANCOVA|||Lumbar Spine BMC at Month 6||3.869|0.089|0.0409
92385255|NCT00799266|184673437|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|2.155||||0.234|TWO_SIDED|95.0|-1.488|5.798|||ANCOVA|||Lumbar Spine BMC at Month 12||5.798|-1.488|0.2340
92385256|NCT00799266|184673438|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|34.058||||0.3827|TWO_SIDED|95.0|-45.385|113.502|||ANCOVA|||Total Body BMC at Month 6||113.502|-45.385|0.3827
92416309|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|2.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416310|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.348||0.711|TWO_SIDED|95.0|-0.555|0.814||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.814|-0.555|0.711
92416311|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|3.05|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416312|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|0.24|STANDARD_ERROR_OF_MEAN|0.35||0.503|TWO_SIDED|95.0|-0.454|0.924||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.924|-0.454|0.503
92233461|NCT02559505|184369557|OTHER|||||||0.036||||||p-value for NP reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.036
92385257|NCT00799266|184673438|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|80.741||||0.2634|TWO_SIDED|95.0|-65.602|227.084|||ANCOVA|||Total Body BMC at Month 12||227.084|-65.602|0.2634
92385258|NCT00799266|184673439|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-211.782||||0.0631|TWO_SIDED|95.0|-363.765|-59.8|||ANCOVA|||Serum P1NP at Month 6||-59.800|-363.765|0.0631
92385259|NCT00799266|184673439|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-381.132||||0.0049|TWO_SIDED|95.0|-565.416|-196.848|||ANCOVA|||Serum P1NP at Month 12||-196.848|-565.416|0.0049
92385260|NCT00799266|184673440|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-11.223||||0.2129|TWO_SIDED|95.0|-22.595|0.149|||ANCOVA|||Serum BSAP at Month 6||0.149|-22.595|0.2129
92385261|NCT00799266|184673440|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-20.435||||0.0215|TWO_SIDED|95.0|-33.96|-6.909|||ANCOVA|||Serum BSAP at Month 12||-6.909|-33.960|0.0215
92385262|NCT00799266|184673441|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-20.938||||0.0254|TWO_SIDED|95.0|-33.766|-8.11|||ANCOVA|||Serum NTX at Month 6||-8.110|-33.766|0.0254
92385263|NCT00799266|184673441|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-27.574||||0.0002|TWO_SIDED|95.0|-39.037|-16.111|||ANCOVA|||Serum NTX at Month 12||-16.111|-39.037|0.0002
92385264|NCT00799266|184673442|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-1.874||||0.2178|TWO_SIDED|95.0|-3.931|0.182|||ANCOVA|||Serum TRAP-5b at Month 6||0.182|-3.931|0.2178
92385265|NCT00799266|184673442|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-1.837||||0.184|TWO_SIDED|95.0|-4.103|0.429|||ANCOVA|||Serum TRAP-5b at Month 12||0.429|-4.103|0.1840
92385266|NCT00799266|184673443|OTHER|The number and percentage of patients with new vertebral fractures at Month 12 were presented by treatment group and between-treatment differences were evaluated using Fisher's exact test.||||||0.2258|||||||Fisher Exact|||New vertebral fractures at Month 12||||0.2258
92385267|NCT00799266|184673444|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-0.018||||0.318|TWO_SIDED|95.0|-0.055|0.019|||ANCOVA|||Vertebral morphometry at Month 12||0.019|-0.055|0.3180
92385268|NCT00799266|184673445|OTHER|Presented by treatment group and evaluated using a logistic regression model with treatment, pooled centers, underlying condition treated with glucocorticoids and baseline pain score as explanatory variables.|Odds Ratio (OR)|0.45||||0.5226|TWO_SIDED|95.0|0.04|5.2|||Regression, Logistic|||Reduction in Pain at Month 3||5.20|0.04|0.5226
92416313|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|2.99|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416314|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.404||0.978|TWO_SIDED|95.0|-0.806|0.784||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.784|-0.806|0.978
92233462|NCT02559505|184369558|OTHER|||||||0.68||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.680
92385269|NCT00799266|184673445|OTHER|Presented by treatment group and evaluated using a logistic regression model with treatment, pooled centers, underlying condition treated with glucocorticoids and baseline pain score as explanatory variables.|Odds Ratio (OR)|999.99||||0.522|TWO_SIDED|95.0|0.01|999.99||\>999.99 (\<0.01, \>999.99)|Regression, Logistic|||Reduction in Pain at Month 6||999.99|0.01|0.5220
92385270|NCT00799266|184673445|OTHER|Presented by treatment group and evaluated using a logistic regression model with treatment, pooled centers, underlying condition treated with glucocorticoids and baseline pain score as explanatory variables.|Odds Ratio (OR)|0.52||||0.6019|TWO_SIDED|95.0|0.04|6.22|||Regression, Logistic|||Reduction in Pain at Month 9||6.22|0.04|0.6019
92385271|NCT00799266|184673445|OTHER|Presented by treatment group and evaluated using a logistic regression model with treatment, pooled centers, underlying condition treated with glucocorticoids and baseline pain score as explanatory variables.|Odds Ratio (OR)|0.45||||0.9652|TWO_SIDED|0.9652|0.01|999.99||0.45 (\<0.01, \>999.99)|Regression, Logistic|||Reduction in Pain at Month 12||999.99|0.01|0.9652
92385272|NCT00799266|184673446|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-0.04||||0.5165|TWO_SIDED|95.0|-0.17|0.09|||ANCOVA|||2nd metacarpal cortical width at Month 12||0.09|-0.17|0.5165
92385273|NCT01336140|184673451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Chi-squared|||"We calculated that a minimum of 248 subjects are needed to attain 80% power to detect 70% reduction in the incidence of the primary endpoint (diarrhea), assuming an event rate of 15% in the control group (2-tailed α = 0.05). We targeted enrolling 300 patients to allow some room for error in our assumptions.~null hypothesis: incidence of diarrhea is no different between the aminophylline arm and the placebo arm."||||0.002
92385274|NCT01336140|184673452|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92385275|NCT01336140|184673453|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
92385276|NCT01336140|184673454|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Chi-squared|||||||1
92385277|NCT01504841|184673456|OTHER||%|36.4|||||TWO_SIDED|95.0|10.9|69.2|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I, percentage of participants who experienced a grade 3+ AE.|||69.2|10.9|
92385278|NCT01504841|184673456|OTHER||%|100.0|||||TWO_SIDED|95.0|39.8|100.0|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II, percentage of participants who experienced a grade 3+ AE.|||100|39.8|
92385279|NCT01504841|184673459|OTHER||%|18.2|||||TWO_SIDED|95.0|2.5|51.8|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I, percentage of participants who experienced a grade 3+ AE at least possibly related to study medications.|||51.8|2.5|
92385280|NCT01504841|184673459|OTHER||%|0.0|||||TWO_SIDED|95.0|0.0|60.2|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II, percentage of participants who experienced a grade 3+ AE at least possibly related to study medication.|||60.2|0|
92385281|NCT01504841|184673460|OTHER||%|18.2|||||TWO_SIDED|95.0|2.3|51.8|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I Week 24, percentage of participants who experienced Virologic Failure.|Week 24 time point.||51.8|2.3|
92385282|NCT01504841|184673460|OTHER||%|25.0|||||TWO_SIDED|95.0|0.6|80.6|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II Week 24, percentage of participants who experienced Virologic Failure.|Week 24 time point.||80.6|0.6|
92385283|NCT01504841|184673460|OTHER||%|27.3|||||TWO_SIDED|95.0|6.0|61.0|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I Week 48, percentage of participants who experienced Virologic Failure.|Week 48 time point.||61|6|
92385284|NCT01504841|184673460|OTHER||%|75.0|||||TWO_SIDED|95.0|19.4|99.4|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II Week 48, percentage of participants who experienced Virologic Failure.|Week 48 time point.||99.4|19.4|
92385285|NCT01504841|184673464|OTHER||%|9.1|||||TWO_SIDED|95.0|0.2|41.3|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I Week 12, percentage of participants with a \>5% decline in absolute CD4 %.|Week 12 time point.||41.3|0.2|
92385286|NCT01504841|184673464|OTHER||%|50.0|||||TWO_SIDED|95.0|6.8|93.2|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II Week 12, percentage of participants with a \>5% decline in absolute CD4 %.|Week 12 time point.||93.2|6.8|
92385287|NCT01504841|184673464|OTHER||%|9.1|||||TWO_SIDED|95.0|0.2|41.3|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I Week 24, percentage of participants with a \>5% decline in absolute CD4 %.|Week 24 time point.||41.3|0.2|
92385288|NCT01504841|184673464|OTHER||%|25.0|||||TWO_SIDED|95.0|0.6|80.6|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II Week 24, percentage of participants with a \>5% decline in absolute CD4 %.|Week 24 time point.||80.6|0.6|
92385289|NCT01504841|184673464|OTHER||%|18.2|||||TWO_SIDED|95.0|2.3|51.8|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I Week 48, percentage of participants with a \>5% decline in absolute CD4 %.|Week 48 time point.||51.8|2.3|
92385290|NCT01504841|184673464|OTHER||%|50.0|||||TWO_SIDED|95.0|6.8|93.2|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II Week 48, percentage of participants with a \>5% decline in absolute CD4 %.|Week 48 time point.||93.2|6.8|
92416315|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|3.12|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416316|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.402||0.265|TWO_SIDED|95.0|-1.239|0.342||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.342|-1.239|0.265
92416317|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|3.15|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416318|NCT02880956|184721155|SUPERIORITY||LS Mean of Difference|0.11|STANDARD_ERROR_OF_MEAN|0.414||0.789|TWO_SIDED|95.0|-0.704|0.925||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.925|-0.704|0.789
92385291|NCT04756804|184673465|OTHER|This was a descriptive study, no hypothesis testing was performed.|||||||||||||||||This was a descriptive study, no hypothesis testing was performed.|||
92385292|NCT00660179|184673472|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.704||||0.0108|TWO_SIDED|97.5|0.516|0.96|||Log Rank|||||0.960|0.516|0.0108
92385293|NCT00660179|184673472|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.547|||<|0.0001|TWO_SIDED|97.5|0.392|0.762|||Log Rank|||||0.762|0.392|<0.0001
92416319|NCT02880956|184721155|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|2.82|||TWO_SIDED|||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.||||
92385294|NCT00660179|184673473|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.669||||0.0146|TWO_SIDED|97.5|0.462|0.97|||Log Rank|||||0.970|0.462|0.0146
92385295|NCT00660179|184673473|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|97.5|0.335|0.747|||Log Rank|||||0.747|0.335|<0.0001
92233463|NCT02559505|184369558|OTHER|||||||0.002||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.002
92385296|NCT00660179|184673474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.971||||0.9249|TWO_SIDED|97.5|0.477|1.976|||Log Rank|||||1.976|0.477|0.9249
92385297|NCT00660179|184673474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.638||||0.2037|TWO_SIDED|97.5|0.287|1.418|||Log Rank|||||1.418|0.287|0.2037
92385298|NCT00660179|184673475|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.046||||0.8312|TWO_SIDED|97.5|0.653|1.673|||Log Rank|||||1.673|0.653|0.8312
92385299|NCT00660179|184673475|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.771||||0.2509|TWO_SIDED|97.5|0.464|1.282|||Log Rank|||||1.282|0.464|0.2509
92385300|NCT04120402|184673481|SUPERIORITY|||||||0.004|||||||ANCOVA|||||||0.004
92385301|NCT04120402|184673482|SUPERIORITY|||||||0.014|||||||ANCOVA|||||||0.014
92385302|NCT04120402|184673483|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92385303|NCT04120402|184673484|SUPERIORITY|||||||0.518|||||||ANCOVA|||||||0.518
92385304|NCT04120402|184673485|SUPERIORITY|||||||0.028|||||||Fisher Exact|||||||0.028
92385305|NCT01504412|184673498|SUPERIORITY||Hazard Ratio (HR)|-0.42||||0.1995|TWO_SIDED|95.0|-0.99|0.15||Dunnett method was used for adjustment of multiple testing.|ANCOVA|||||0.15|-0.99|0.1995
92385306|NCT01504412|184673498|SUPERIORITY||Hazard Ratio (HR)|-0.37||||0.2886|TWO_SIDED|95.0|-0.93|0.2||Dunnett method was used for adjustment of multiple testing.|ANCOVA|||||0.20|-0.93|0.2886
92385307|NCT01504412|184673498|SUPERIORITY||Hazard Ratio (HR)|-0.3||||0.4704|TWO_SIDED|95.0|-0.87|0.27||Dunnett method was used for adjustment of multiple testing.|ANCOVA|||||0.27|-0.87|0.4704
92385308|NCT01504412|184673499|SUPERIORITY||Least squares mean difference|-5.2||||0.0691|TWO_SIDED|95.0|-10.8|0.4|||ANCOVA|||This analysis assessed placebo vs DS-5565 10 mg/day for the visual analog scale.||0.4|-10.8|0.0691
92385309|NCT01504412|184673499|SUPERIORITY||Least squares mean difference|-5.4||||0.0577|TWO_SIDED|95.0|-10.9|0.2|||ANCOVA|||This analysis assessed placebo vs DS-5565 20 mg/day for the visual analog scale.||0.2|-10.9|0.0577
92385310|NCT01504412|184673499|SUPERIORITY||Least squares mean difference|-7.4||||0.0093|TWO_SIDED|95.0|-13.0|-1.8|||ANCOVA|||This analysis assessed placebo vs DS-5565 30 mg/day for the visual analog scale.||-1.8|-13.0|0.0093
92385311|NCT05362058|184673516|NON_INFERIORITY|0.4% noninferiority margin (NIM)|LS Mean Difference|-0.09|||||TWO_SIDED|95.0|-0.22|0.04|||ANCOVA|||||0.04|-0.22|
92385312|NCT05362058|184673517|NON_INFERIORITY|0.4% noninferiority margin (NIM)|LS Mean Difference|-0.06|||||TWO_SIDED|95.0|-0.26|0.13|||ANCOVA|||||0.13|-0.26|
92385313|NCT05362058|184673518|NON_INFERIORITY|0.4% noninferiority margin (NIM)|LS Mean Difference|-0.11|||||TWO_SIDED|95.0|-0.28|0.07|||ANCOVA|||||0.07|-0.28|
92385314|NCT05362058|184673519|SUPERIORITY||LS Mean Difference|-0.09||||0.188|TWO_SIDED|95.0|-0.22|0.04|||ANCOVA|||||0.04|-0.22|0.188
92385315|NCT05362058|184673520|SUPERIORITY||LS Mean Difference|3.09||||0.043|TWO_SIDED|95.0|0.09|6.08|||ANCOVA|||||6.08|0.09|0.043
92385316|NCT05362058|184673521|SUPERIORITY||LS Mean Difference|-0.06||||0.26|TWO_SIDED|95.0|-0.17|0.05|||ANCOVA|||||0.05|-0.17|0.260
92385317|NCT05362058|184673522|SUPERIORITY||LS Mean Difference|0.27||||0.848|TWO_SIDED|95.0|-2.48|3.02|||ANCOVA|||||3.02|-2.48|0.848
92385318|NCT05362058|184673523|SUPERIORITY||LS Mean Difference|5.18||||0.014|TWO_SIDED|95.0|1.06|9.3|||ANCOVA|||Week 26 (Statistical Analysis) - LS mean was determined using ANCOVA model with Baseline + Country + HbA1c Stratum at Baseline + GLP-1 RA Use at Randomization + SU Use at Randomization + Treatment (Type III sum of squares) as variables. Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at week 26 were imputed by return-to-baseline multiple imputations approach.||9.30|1.06|0.014
92385319|NCT05362058|184673523|SUPERIORITY||LS Mean Difference|0.2||||0.918|TWO_SIDED|95.0|-3.65|4.06|||ANCOVA|||Week 52 (Statistical Analysis) - LS mean was determined using ANCOVA model with Baseline + Country + HbA1c Stratum at Baseline + GLP-1 RA Use at Randomization + SU Use at Randomization + Treatment (Type III sum of squares) as variables. Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at week 52 were imputed by return-to-baseline multiple imputations approach.||4.06|-3.65|0.918
92385320|NCT05362058|184673524|SUPERIORITY||LS Mean Difference|-0.36||||0.31|TWO_SIDED|95.0|-1.06|0.34|||Mixed Models Analysis|||Week 22 to Week 26 (Statistical Analysis)||0.34|-1.06|0.310
92385321|NCT05362058|184673524|SUPERIORITY||LS Mean Difference|-0.51||||0.138|TWO_SIDED|95.0|-1.19|0.17|||Mixed Models Analysis|||Week 48 to Week 52 (Statistical Analysis)||0.17|-1.19|0.138
92385322|NCT05362058|184673525|SUPERIORITY||LS Mean Difference|-13.2||||0.136|TWO_SIDED|95.0|-30.5|4.1|||Mixed Models Analysis|||Week 26 (Statistical Analysis)||4.1|-30.5|0.136
92416320|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|0.21|STANDARD_ERROR_OF_MEAN|0.6||0.72|TWO_SIDED|95.0|-0.965|1.395||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.395|-0.965|0.720
92416321|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|4.73|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416322|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.592||0.455|TWO_SIDED|95.0|-1.607|0.722||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.722|-1.607|0.455
92416323|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|4.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416324|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|0.43|STANDARD_ERROR_OF_MEAN|0.605||0.473|TWO_SIDED|95.0|-0.755|1.625||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.625|-0.755|0.473
92385323|NCT05362058|184673525|SUPERIORITY||LS Mean Difference|-19.7||||0.026|TWO_SIDED|95.0|-37.0|-2.4|||Mixed Models Analysis|||Week 52 (Statistical Analysis)||-2.4|-37.0|0.026
92385324|NCT05362058|184673526|SUPERIORITY||Relative Rate|1.3||||0.111|TWO_SIDED|95.0|0.94|1.78|||Negative binomial model|||||1.78|0.94|0.111
92385325|NCT05362058|184673527|SUPERIORITY||Relative Rate|1.01||||0.983|TWO_SIDED|95.0|0.53|1.89|||Negative binomial model|||||1.89|0.53|0.983
92385326|NCT05362058|184673528|SUPERIORITY||LS Mean Difference|0.5||||0.025|TWO_SIDED|95.0|0.064|0.94|||Mixed Models Analysis|||Week 26 (Statistical Analysis)||0.94|0.064|0.025
92416325|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|4.25|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92385327|NCT05362058|184673528|SUPERIORITY||LS Mean Difference|0.056||||0.801|TWO_SIDED|95.0|-0.38|0.5|||Mixed Models Analysis|||Week 52 (Statistical Analysis)||0.50|-0.38|0.801
92385328|NCT05362058|184673529|SUPERIORITY||LS Mean Difference|0.13||||0.374|TWO_SIDED|95.0|-0.15|0.41|||Mixed Models Analysis|||Week 8 to Week 12 (Statistical Analysis)||0.41|-0.15|0.374
92385329|NCT05362058|184673529|SUPERIORITY||LS Mean Difference|0.29||||0.13|TWO_SIDED|95.0|-0.09|0.67|||Mixed Models Analysis|||Week 22 to Week 26 (Statistical Analysis)||0.67|-0.09|0.130
92385330|NCT05362058|184673529|SUPERIORITY||LS Mean Difference|0.3||||0.162|TWO_SIDED|95.0|-0.12|0.72|||Mixed Models Analysis|||Week 48 to Week 52 (Statistical Analysis)||0.72|-0.12|0.162
92385331|NCT05362058|184673530|SUPERIORITY||LS Mean Difference|-0.03||||0.594|TWO_SIDED|95.0|-0.15|0.08|||Mixed Models Analysis|||Week 8 to Week 12 (Statistical Analysis)||0.08|-0.15|0.594
92385332|NCT05362058|184673530|SUPERIORITY||LS Mean Difference|0.06||||0.266|TWO_SIDED|95.0|-0.04|0.16|||Mixed Models Analysis|||Week 22 to Week 26 (Statistical Analysis)||0.16|-0.04|0.266
92385333|NCT05362058|184673530|SUPERIORITY||LS Mean Difference|0.02||||0.791|TWO_SIDED|95.0|-0.1|0.14|||Mixed Models Analysis|||Week 48 to Week 52 (Statistical Analysis)||0.14|-0.10|0.791
92385334|NCT05362058|184673531|SUPERIORITY||LS Mean Difference|-0.41||||0.757|TWO_SIDED|95.0|-3.0|2.18|||Mixed Models Analysis|||Week 8 to Week 12 (Statistical Analysis)||2.18|-3.00|0.757
92385335|NCT05362058|184673531|SUPERIORITY||LS Mean Difference|-0.93||||0.511|TWO_SIDED|95.0|-3.72|1.85|||Mixed Models Analysis|||Week 22 to Week 26 (Statistical Analysis)||1.85|-3.72|0.511
92385336|NCT05362058|184673531|SUPERIORITY||LS Mean Difference|-3.39||||0.027|TWO_SIDED|95.0|-6.39|-0.39|||Mixed Models Analysis|||Week 48 to Week 52 (Statistical Analysis)||-0.39|-6.39|0.027
92385337|NCT05362058|184673532|SUPERIORITY||LS Mean Difference|1.66||||0.021|TWO_SIDED|95.0|0.26|3.07|||Mixed Models Analysis|||Week 26 (Statistical Analysis)||3.07|0.26|0.021
92233464|NCT03523585|184369562|SUPERIORITY||Hazard Ratio (HR)|0.3589|||<|1e-06|TWO_SIDED|95.0|0.284|0.4535||Stratified Log-rank p-value|Log Rank|p value based on log-rank stratified by hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by IXRS|Hazard Ratio based on stratified Cox proportional hazards model with stratification factors: hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by the IXRS.|||0.4535|0.2840|<0.000001
92385338|NCT05362058|184673532|SUPERIORITY||LS Mean Difference|2.0||||0.006|TWO_SIDED|95.0|0.57|3.44|||Mixed Models Analysis|||Week 52 (Statistical Analysis)||3.44|0.57|0.006
92385339|NCT05362058|184673533|SUPERIORITY||LS Mean Difference|-0.2||||0.638|TWO_SIDED|95.0|-1.03|0.63|||Mixed Models Analysis|||Physical Component Score at Week 26 (Statistical Analysis) -LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use at Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.63|-1.03|0.638
92385340|NCT05362058|184673533|SUPERIORITY||LS Mean Difference|-0.32||||0.499|TWO_SIDED|95.0|-1.24|0.6|||Mixed Models Analysis|||Mental Component Score at Week 26 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use at Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.60|-1.24|0.499
92385341|NCT05362058|184673533|SUPERIORITY||LS Mean Difference|0.17||||0.695|TWO_SIDED|95.0|-0.68|1.01|||Mixed Models Analysis|||Physical Component Score at Week 52 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use at Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||1.01|-0.68|0.695
92385342|NCT05362058|184673533|SUPERIORITY||LS Mean Difference|-0.23||||0.626|TWO_SIDED|95.0|-1.17|0.71|||Mixed Models Analysis|||Mental Component Score at Week 52 (Statistical Analysis) -LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use at Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.71|-1.17|0.626
92385343|NCT05362058|184673534|SUPERIORITY||LS Mean Difference|-0.015||||0.128|TWO_SIDED|95.0|-0.034|0.004|||Mixed Models Analysis|||EQ-5D-5L Health State Index Score at Week 26 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.004|-0.034|0.128
92385344|NCT05362058|184673534|SUPERIORITY||LS Mean Difference|-1.11||||0.196|TWO_SIDED|95.0|-2.8|0.58|||Mixed Models Analysis|||EQ VAS Score at Week 26 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.58|-2.80|0.196
92416326|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|0.16|STANDARD_ERROR_OF_MEAN|0.686||0.813|TWO_SIDED|95.0|-1.187|1.512||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.512|-1.187|0.813
92416327|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|5.3|||TWO_SIDED|||||||||Week 48||||
92416328|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.672||0.421|TWO_SIDED|95.0|-1.863|0.78||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.780|-1.863|0.421
92416329|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|5.51|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416330|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|0.21|STANDARD_ERROR_OF_MEAN|0.687||0.758|TWO_SIDED|95.0|-1.139|1.564||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.564|-1.139|0.758
92416331|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|5.18|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416332|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.815||0.511|TWO_SIDED|95.0|-2.14|1.066||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.066|-2.140|0.511
92385345|NCT05362058|184673534|SUPERIORITY||LS Mean Difference|-0.01||||0.285|TWO_SIDED|95.0|-0.029|0.008|||Mixed Models Analysis|||EQ-5D-5L Health State Index Score at Week 52 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.008|-0.029|0.285
92416333|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|6.19|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416334|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.801||0.192|TWO_SIDED|95.0|-2.623|0.527||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.527|-2.623|0.192
92416335|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|6.16|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416336|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|0.69|STANDARD_ERROR_OF_MEAN|0.816||0.398|TWO_SIDED|95.0|-0.914|2.294||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||2.294|-0.914|0.398
92416337|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|5.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416338|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|0.97|STANDARD_ERROR_OF_MEAN|0.924||0.296|TWO_SIDED|95.0|-0.851|2.784||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.784|-0.851|0.296
92416339|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|6.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416340|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.907||0.706|TWO_SIDED|95.0|-2.126|1.442||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.442|-2.126|0.706
92233465|NCT03523585|184369563|SUPERIORITY||Hazard Ratio (HR)|0.6575||||0.0021|TWO_SIDED|95.0|0.5023|0.8605||Stratified Log-rank p-value|Log Rank|p value based on log-rank stratified by hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by IXRS|Hazard Ratio based on stratified Cox proportional hazards model with stratification factors: hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by the IXRS.|||0.8605|0.5023|0.0021
92233466|NCT03523585|184369564|SUPERIORITY||||||<|0.0001||||||Cochran-Mantel-Haenszel test adjusted for stratification factors: hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by the IXRS.|Cochran-Mantel-Haenszel|||Statistical Analysis for BICR Assessment||||<0.0001
92233467|NCT03523585|184369564|SUPERIORITY||||||<|0.0001||||||Cochran-Mantel-Haenszel test adjusted for stratification factors: hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by the IXRS.|Cochran-Mantel-Haenszel|||Statistical Analysis for Investigator Assessment||||<0.0001
92233468|NCT03523585|184369566|SUPERIORITY||Hazard Ratio (HR)|0.2828|||<|1e-06|TWO_SIDED|95.0|0.227|0.3524||Stratified Log-rank p-value.|Log Rank|p value based on log-rank stratified by hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by IXRS|Hazard Ratio based on stratified Cox proportional hazards model with stratification factors: hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by the IXRS.|||0.3524|0.2270|<0.000001
92233469|NCT02874794|184369567|SUPERIORITY||Median Difference (Final Values)|-2.2||||0.7827|TWO_SIDED|95.0|-17.6|13.2|||ANCOVA|||||13.2|-17.6|0.7827
92233470|NCT02874794|184369570|SUPERIORITY||Ratio of Geometric Means|0.6667|||<|0.0001|TWO_SIDED|95.0|0.5858|0.7589|||ANCOVA|||||0.7589|0.5858|<.0001
92233471|NCT02874794|184369571|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.5792|TWO_SIDED|95.0|-0.58|0.33|||ANCOVA|||||0.33|-0.58|0.5792
92385346|NCT05362058|184673534|SUPERIORITY||LS Mean Difference|-0.35||||0.701|TWO_SIDED|95.0|-2.15|1.44|||Mixed Models Analysis|||EQ VAS Score at Week 52 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||1.44|-2.15|0.701
92385347|NCT00921843|184673536|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92385348|NCT03626545|184673538|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.633|TWO_SIDED|95.0|0.76|1.48|||Log Rank||Hazard ratio was estimated using a Cox Proportional Hazards regression model stratified by line of therapy and histology|||1.48|0.76|0.633
92385349|NCT05173012|184673579|SUPERIORITY||Least Squares (LS) Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.623||0.5325|TWO_SIDED|95.0|-0.84|1.62|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.|Difference was calculated as Monotherapy: SAGE-324 15 mg - placebo.|||1.62|-0.84|0.5325
92416341|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|6.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92385350|NCT05173012|184673579|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.634||0.6549|TWO_SIDED|95.0|-1.54|0.97|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.|Difference was calculated as Monotherapy: SAGE-324 30 mg - placebo.|||0.97|-1.54|0.6549
92385351|NCT05173012|184673579|SUPERIORITY||LS Mean Difference|1.02|STANDARD_ERROR_OF_MEAN|0.7||0.1462|TWO_SIDED|95.0|-0.36|2.41|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.|Difference was calculated as Monotherapy: SAGE-324 60 mg - placebo.|||2.41|-0.36|0.1462
92416342|NCT02880956|184721156|SUPERIORITY||LS Mean of Difference|1.79|STANDARD_ERROR_OF_MEAN|0.929||0.055|TWO_SIDED|95.0|-0.036|3.617||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||3.617|-0.036|0.055
92233472|NCT02874794|184369572|SUPERIORITY||Mean Difference (Final Values)|-2.8|||<|0.0001|TWO_SIDED|95.0|-4.02|-1.59|||ANCOVA|||||-1.59|-4.02|<.0001
92233473|NCT02874794|184369573|SUPERIORITY||Median Difference (Final Values)|-0.03||||0.8617|TWO_SIDED|95.0|-0.33|0.27|||ANCOVA|||||0.27|-0.33|0.8617
92233474|NCT02874794|184369574|SUPERIORITY||Median Difference (Final Values)|-1.75||||0.0007|TWO_SIDED|95.0|-2.76|-0.75|||ANCOVA|||vs Enalapril||-0.75|-2.76|0.0007
92233475|NCT02874794|184369575|SUPERIORITY||Median Difference (Final Values)|0.63||||0.2354|TWO_SIDED|95.0|-0.41|1.68|||ANCOVA|||||1.68|-0.41|0.2354
92233476|NCT02874794|184369576|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.8215|TWO_SIDED|95.0|-0.05|0.04|||ANCOVA|||||0.04|-0.05|0.8215
92233477|NCT02874794|184369577|SUPERIORITY||Median Difference (Final Values)|-1.58||||0.0452|TWO_SIDED|95.0|-3.13|-0.03|||ANCOVA|||||-0.03|-3.13|0.0452
92233478|NCT02874794|184369578|SUPERIORITY||Mean Difference (Final Values)|-1.97||||0.0242|TWO_SIDED|95.0|-3.68|-0.26|||ANCOVA|||||-0.26|-3.68|0.0242
92233479|NCT03818815|184369592|SUPERIORITY|||||||0.62||||||The p-value was calculated using multiple imputation with number of imputations equal to percentage of missing data.|Regression, Logistic|||The summary statistics are based on subjects with non-missing data only.||||0.62
92233480|NCT03818815|184369593|SUPERIORITY|||||||0.07||||||The p-value was calculated using multiple imputation with number of imputations equal to percentage of missing data.|Regression, Logistic|||The summary statistics are based on subjects with non-missing data only.||||0.07
92233481|NCT04419506|184369594|OTHER||Posterior difference|88.4|||||TWO_SIDED|95.0|29.5|154.2|||||Difference calculated as BI 1015550 - Placebo|Adjusted means in the placebo group were combined with the meta-analytic predictive priors derived based on the clinical trials in the nintedanib clinical development program in IPF. In order to evaluate the treatment effects, the posterior distribution for the treatment difference of BI 1015550 versus placebo with respect to the primary endpoint was used. The median of the posterior distribution for the treatment difference (and 95% credible intervals) was calculated.||154.2|29.5|
92233482|NCT04419506|184369594|OTHER||Posterior difference|62.4|||||TWO_SIDED|95.0|6.3|125.5|||||Difference calculated as BI 1015550 - Placebo|Adjusted means in the placebo group were combined with the meta-analytic predictive priors derived based on the clinical trials in the nintedanib clinical development program in IPF. In order to evaluate the treatment effects, the posterior distribution for the treatment difference of BI 1015550 versus placebo with respect to the primary endpoint was used. The median of the posterior distribution for the treatment difference (and 95% credible intervals) was calculated.||125.5|6.3|
92233483|NCT02586805|184369619|OTHER||% change in mean rate (vs placebo)|-75.609|||<|0.001|TWO_SIDED|95.0|-84.65|-61.243||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1).||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-61.243|-84.650|<0.001
92233484|NCT02586805|184369619|OTHER||% change in mean rate (vs placebo)|-73.271|||<|0.001|TWO_SIDED|95.0|-82.379|-59.456||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-59.456|-82.379|<0.001
92233485|NCT02586805|184369619|OTHER||% change in mean rate (vs placebo)|-86.921|||<|0.001|TWO_SIDED|95.0|-92.828|-76.15||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-76.150|-92.828|<0.001
92233486|NCT02586805|184369620|OTHER||% change in mean rate (vs placebo)|-80.842|||<|0.001|TWO_SIDED|95.0|-89.169|-66.114||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1).||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-66.114|-89.169|<0.001
92233487|NCT02586805|184369620|OTHER||% change in mean rate (vs placebo)|-74.169|||<|0.001|TWO_SIDED|95.0|-83.733|-58.983||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-58.983|-83.733|<0.001
92233488|NCT02586805|184369620|OTHER||% change in mean rate (vs placebo)|-87.299|||<|0.001|TWO_SIDED|95.0|-93.494|-75.204||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-75.204|-93.494|<0.001
92233489|NCT02586805|184369621|OTHER||% change in mean rate (vs placebo)|-70.497|||<|0.001|TWO_SIDED|95.0|-82.696|-49.699||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-49.699|-82.696|<0.001
92233490|NCT02586805|184369621|OTHER||% change in mean rate (vs placebo)|-73.285|||<|0.001|TWO_SIDED|95.0|-84.316|-54.496||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-54.496|-84.316|<0.001
92280507|NCT00601484|184463642|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.63|STANDARD_ERROR_OF_MEAN|6.968|||TWO_SIDED|90.0|-8.049|15.316||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||15.316|-8.049|
92385352|NCT05173012|184673580|SUPERIORITY||LS Mean Difference|2.04|STANDARD_ERROR_OF_MEAN|1.326||0.1271|TWO_SIDED|95.0|0.59|4.67|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.||||4.67|0.59|0.1271
92169501|NCT03363854|184227463|SUPERIORITY||Risk Difference (RD)|11.4||||0.022|TWO_SIDED|95.0|2.1|20.7||The statistical test was not controlled for multiplicity.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their EASI value at Week 16.||20.7|2.1|0.022
92169502|NCT03363854|184227464|SUPERIORITY||Difference|-5.4|||<|0.001|TWO_SIDED|95.0|-7.7|-3.1||The statistical test was not controlled for multiplicity.|Repeated measurement model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included.||-3.1|-7.7|<0.001
92169503|NCT03363854|184227465|SUPERIORITY||Risk Difference (RD)|22.9|||<|0.001|TWO_SIDED|95.0|12.4|33.3||The statistical test was not controlled for multiplicity.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Partcipants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their SCORAD value at Week 16.||33.3|12.4|<0.001
92169504|NCT03363854|184227466|SUPERIORITY||Risk Difference (RD)|11.1||||0.012|TWO_SIDED|95.0|3.2|19.0||The statistical test was not controlled for multiplicity.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their SCORAD value at Week 16.||19.0|3.2|0.012
92169505|NCT03363854|184227467|SUPERIORITY||Difference|-1.2|||<|0.001|TWO_SIDED|95.0|-1.7|-0.7||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included.||-0.7|-1.7|<0.001
92169506|NCT03363854|184227468|SUPERIORITY||Risk Difference (RD)|17.6|||<|0.001|TWO_SIDED|95.0|8.0|27.1||The statistical test was not controlled for multiplicity.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their DLQI value at Week 16.||27.1|8.0|<0.001
92169507|NCT05332340|184227499|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.683|TWO_SIDED||||||Kruskal-Wallis|||||||0.683
92169508|NCT06511076|184227567|EQUIVALENCE|Bioequivalence was concluded if the 90% CIs for the ratio of the geometric means of Treatment ZLP-AI (test \[T\]) / Treatment ZLP-PFS (Reference \[R\]) were included in the range from 0.80 - 1.25.|GLSM ratio|0.9809||||||90.0|0.9529|1.0097|||Mixed Effects model||The GLSM ratio was calculated: ZLP-AI/ZLP-PFS|||1.0097|0.9529|
92169509|NCT06511076|184227568|EQUIVALENCE|Bioequivalence was concluded if the 90% CIs for the ratio of the geometric means of Treatment ZLP-AI (test \[T\]) / Treatment ZLP-PFS (Reference \[R\]) were included in the range from 0.80 - 1.25.|GLSM Ratio|0.9819|||||TWO_SIDED|90.0|0.9543|1.0102|||Mixed Effects model||The GLSM ratio was calculated: ZLP-AI/ZLP-PFS|||1.0102|0.9543|
92169510|NCT06511076|184227569|EQUIVALENCE|Bioequivalence was concluded if the 90% CIs for the ratio of the geometric means of Treatment ZLP-AI (test \[T\]) / Treatment ZLP-PFS (Reference \[R\]) were included in the range from 0.80 - 1.25.|GLSM ratio|0.9996|||||TWO_SIDED|90.0|0.9594|1.0416|||Mixed Effects model||The GLSM ratio was calculated: ZLP-AI/ZLP-PFS|||1.0416|0.9594|
92169511|NCT05773313|184227574|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||Food Insecurity||||>0.999
92169512|NCT05773313|184227574|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Financial Insecurity||||0.250
92169513|NCT05773313|184227574|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||Social Isolation||||>0.999
92169514|NCT05773313|184227574|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||Physical Inactivity||||>0.999
92280508|NCT00601484|184463642|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.19|STANDARD_ERROR_OF_MEAN|7.353|||TWO_SIDED|90.0|-9.153|15.533||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||15.533|-9.153|
92169515|NCT05773313|184227574|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||Disability||||>0.999
92169516|NCT05773313|184227575|SUPERIORITY|||||||0.461|||||||Wilcoxon (Mann-Whitney)|||||||0.461
92169517|NCT05773313|184227576|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||||||>0.999
92169518|NCT05773313|184227577|SUPERIORITY|||||||0.438|||||||Wilcoxon (Mann-Whitney)|||||||0.438
92169519|NCT05773313|184227578|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.080
92169520|NCT01534494|184227599|OTHER|Paired t-test||||||0.008|||||||t-test, 2 sided|Paired t-test for significance of change. t(8) = 3.477. P(2-sided) = 0.008||Single-group pre-post contrast||||0.008
92169521|NCT00802464|184227600|OTHER||Fold increase|5.21|||||TWO_SIDED|95.0|3.89|6.98||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 1 over GSK1437173A Formulation 3 Group.||6.98|3.89|
92169522|NCT00802464|184227600|OTHER||Fold increase|4.02|||||TWO_SIDED|95.0|3.0|5.4||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 2 over GSK1437173A Formulation 3 Group.||5.4|3|
92169523|NCT00802464|184227600|OTHER||Fold increase|1.3|||||TWO_SIDED|95.0|1.07|1.58||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 1 over GSK1437173A Formulation 2 Group.||1.58|1.07|
92169524|NCT00802464|184227601|OTHER||Fold increase|2.12|||||TWO_SIDED|95.0|1.67|2.69||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 1 over GSK1437173A Formulation 3 Group.||2.69|1.67|
92169525|NCT00802464|184227601|OTHER||Fold increase|1.63|||||TWO_SIDED|95.0|1.28|2.07||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 2 over GSK1437173A Formulation 3 Group.||2.07|1.28|
92385353|NCT05173012|184673580|SUPERIORITY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|1.347||0.5642|TWO_SIDED|95.0|-3.45|1.89|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.||||1.89|-3.45|0.5642
92385354|NCT05173012|184673580|SUPERIORITY||LS Mean Difference|1.01|STANDARD_ERROR_OF_MEAN|1.439||0.486|TWO_SIDED|95.0|-1.84|3.85|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.||||3.85|-1.84|0.4860
92385355|NCT03668613|184673581|SUPERIORITY||Predicted Log-OR|4.862|||||TWO_SIDED|95.0|3.422|6.782|||Bayesian method using (MAP)|||Compared to historical placebo||6.782|3.422|
92385356|NCT03668613|184673581|SUPERIORITY||Predicted log-OR|4.836|||||TWO_SIDED|95.0|3.422|6.772|||Bayesian method using (MAP)|||Compared to historical placebo||6.772|3.422|
92385357|NCT03668613|184673582|SUPERIORITY||Predicted log -OR|4.292|||||TWO_SIDED|95.0|2.638|6.513|||Bayesian method using (MAP)|||Compared to historical placebo||6.513|2.638|
92385358|NCT03668613|184673582|SUPERIORITY||Predicted log-OR|4.606|||||TWO_SIDED|95.0|2.919|6.78|||Bayesian method using (MAP)|||Compared to historical placebo||6.780|2.919|
92385359|NCT03668613|184673583|SUPERIORITY||Predicted log-OR|4.367|||||TWO_SIDED|95.0|2.916|6.202|||Bayesian method using (MAP)|||||6.202|2.916|
92169526|NCT00802464|184227601|OTHER||Fold increase|1.3|||||TWO_SIDED|95.0|1.09|1.56||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 1 over GSK1437173A Formulation 2 Group.||1.56|1.09|
92385360|NCT03668613|184673583|SUPERIORITY||Predicted log-OR|4.709|||||TWO_SIDED|95.0|3.201|6.58|||Bayesian method using (MAP)|||||6.580|3.201|
92385361|NCT00286494|184673649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.67|-0.28||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Treatment, treatment regimen and geographic region as class variables; baseline pioglitazone dose and baseline value for the endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at wk 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 subjects had 95% power to detect a treatment difference as small as 0.4% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of subjects meeting per protocol criteria.||-0.28|-0.67|<0.001
92385362|NCT00286494|184673649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|||<|0.001|TWO_SIDED|95.0|-0.8|-0.41||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Treatment, treatment regimen and geographic region as class variables; baseline pioglitazone dose and baseline value for the endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at wk 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 subjects had 95% power to detect a treatment difference as small as 0.4% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of subjects meeting per protocol criteria.||-0.41|-0.80|<0.001
92385363|NCT00286494|184673650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|||<|0.001|TWO_SIDED|95.0|-0.36|-0.16||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.16|-0.36|<0.001
92385364|NCT00286494|184673650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|||<|0.001|TWO_SIDED|95.0|-0.41|-0.21||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.21|-0.41|<0.001
92169527|NCT00802464|184227602|OTHER||Fold increase|4.72|||||TWO_SIDED|95.0|3.81|5.85||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 1 Group over GSK1437173A Formulation 3 Group.||5.85|3.81|
92169528|NCT00802464|184227602|OTHER||Fold increase|3.36|||||TWO_SIDED|95.0|2.72|4.17||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 2 Group over GSK1437173A Formulation 3 Group.||4.17|2.72|
92169529|NCT00802464|184227602|OTHER||Fold increase|1.4|||||TWO_SIDED|95.0|1.17|1.68||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 1 Group over GSK1437173A Formulation 2 Group.||1.68|1.17|
92169530|NCT00802464|184227603|OTHER||Fold increase|3.21|||||TWO_SIDED|36.0|2.64|3.9||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 1 Group over GSK1437173A Formulation 3 Group.||3.9|2.64|
92233491|NCT02586805|184369621|OTHER||% change in mean rate (vs placebo)|-83.394|||<|0.001|TWO_SIDED|95.0|-91.618|-67.099||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-67.099|-91.618|<0.001
92169531|NCT00802464|184227603|OTHER||Fold increase|2.44|||||TWO_SIDED|95.0|2.02|2.97||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 2 Group over GSK1437173A Formulation 3 Group.||2.97|2.02|
92169532|NCT00802464|184227603|OTHER||Fold increase|1.31|||||TWO_SIDED|95.0|1.12|1.54||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 1 Group over GSK1437173A Formulation 2 Group.||1.54|1.12|
92169533|NCT00402246|184227620|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|17.4|||<|0.001||95.0||||The a priori threshold for significance was an alpha level of 0.05.|Wilcoxon (Mann-Whitney)|||The null hypothesis is that the time from a clinical event to a clinical decision for patients followed through the remote management system is greater than and equal to that of patients receiving only in-office care.||||<0.001
92233492|NCT02586805|184369622|OTHER||% change in mean rate (vs placebo)|-77.622|||<|0.001|TWO_SIDED|95.0|-86.253|-63.572||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1).||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-63.572|-86.253|<0.001
92233493|NCT02586805|184369622|OTHER||% change in mean rate (vs placebo)|-75.377|||<|0.001|TWO_SIDED|95.0|-84.115|-61.833||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1).||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-61.833|-84.115|<0.001
92233494|NCT02586805|184369622|OTHER||% change in mean rate (vs placebo)|-89.008|||<|0.001|TWO_SIDED|95.0|-94.325|-78.707||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1).||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-78.707|-94.325|<0.001
92233495|NCT02580058|184369697|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.8253|TWO_SIDED|95.0|0.867|1.497|||Log Rank|1-sided||||1.497|0.867|0.8253
92233496|NCT02580058|184369697|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.2082|TWO_SIDED|95.0|0.672|1.179|||Log Rank|1-sided||||1.179|0.672|0.2082
92233497|NCT02580058|184369698|SUPERIORITY||Hazard Ratio (HR)|1.68|||>|0.9999|TWO_SIDED|95.0|1.31|2.16|||Log Rank|1-sided||||2.160|1.310|>0.9999
92233498|NCT02580058|184369698|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0301|TWO_SIDED|95.0|0.607|1.011|||Log Rank|1-sided||||1.011|0.607|0.0301
92233499|NCT02580058|184369717|OTHER||Geometric Mean Ratio (Test/Reference, %)|110.0|||||TWO_SIDED|90.0|95.4|126.7||||||Avelumab was the Reference treatment and Avelumab + PLD was the Test treatment||126.7|95.4|
92233500|NCT02580058|184369718|OTHER||Geometric Mean Ratio (Test/Reference, %)|90.0|||||TWO_SIDED|90.0|79.5|101.5||||||Avelumab was the Reference treatment and Avelumab + PLD was the Test treatment||101.5|79.5|
92233501|NCT02580058|184369719|OTHER||Geometric Mean Ratio (Test/Reference, %)|96.0|||||TWO_SIDED|90.0|87.0|106.0||||||PLD was the Reference treatment and Avelumab + PLD was the Test treatment.||106|87|
92233502|NCT02580058|184369720|OTHER||Geometric Mean Ratio (Test/Reference, %)|95.0|||||TWO_SIDED|90.0|88.0|104.0||||||PLD was the Reference treatment and Avelumab + PLD was the Test treatment.||104|88|
92233503|NCT02580058|184369721|OTHER||Geometric Mean Ratio (Test/Reference, %)|90.0|||||TWO_SIDED|90.0|76.0|107.0||||||PLD was the Reference treatment and Avelumab + PLD was the Test treatment.||107|76|
92233504|NCT02580058|184369722|OTHER||Geometric Mean Ratio (Test/Reference, %)|100.0|||||TWO_SIDED|90.0|60.0|168.0||||||PLD was the Reference treatment and Avelumab + PLD was the Test treatment.||168|60|
92233505|NCT01564784|184369786|SUPERIORITY_OR_OTHER||Rate difference|51.4|||<|0.0001|TWO_SIDED|97.5|38.4|64.3|||1-sided p-value based on Chi-square test|If any cell count was \<5, p-value was based on Fisher's exact test||||64.3|38.4|<0.0001
92233506|NCT01564784|184369787|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.751||||0.0105|TWO_SIDED|97.5|0.568|0.993|||1-sided stratified log-rank p-value||Stratified HR, i.e., based on analysis stratified by randomization stratification factors.|||0.993|0.568|0.0105
92416343|NCT02880956|184721156|SUPERIORITY||Effect size/pooled SD|-0.28|STANDARD_DEVIATION|6.45|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92233507|NCT01564784|184369788|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49||||0.0021|TWO_SIDED|95.0|0.297|0.809|||1-sided stratified log-rank p-value||Stratified HR, i.e., based on analysis stratified by randomization stratification factors.|||0.809|0.297|0.0021
92233508|NCT01564784|184369789|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|97.5|0.336|0.602|||1-sided stratified log-rank p-value||Stratified HR, i.e., based on analysis stratified by randomization stratification factors.|||0.602|0.336|<0.0001
92233509|NCT01564784|184369790|SUPERIORITY_OR_OTHER||Rate difference|31.6|||<|0.0001|TWO_SIDED|95.0|22.6|40.6|||1-sided p-value based on Chi-square test|If any cell count was \<5, p-value was based on Fisher's exact test||||40.6|22.6|<0.0001
92233510|NCT01564784|184369791|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||1-sided p-value based on Chi-Square test|If any cell count is \<5, p-value was based on Fisher's exact test||||||<0.0001
92233511|NCT01564784|184369792|SUPERIORITY_OR_OTHER|||||||0.3168|||||||1-sided p-value based on Chi-Square test|If any cell count is \<5, p-value was based on Fisher's exact test||Abnormal at Screening||||0.3168
92233512|NCT01564784|184369792|SUPERIORITY_OR_OTHER|||||||0.216|||||||1-sided p-value based on Chi-Square test|If any cell count is \<5, p-value was based on Fisher's exact test||Abnormal after remission||||0.2160
92233513|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.9||||0.0139|TWO_SIDED|95.0|1.4|12.3|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Physical Functioning||12.3|1.4|0.0139
92233514|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.4||||0.0065|TWO_SIDED|95.0|3.2|19.5|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Role Functioning||19.5|3.2|0.0065
92416344|NCT02880956|184721157|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.651|TWO_SIDED|95.0|-0.266|0.166||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.166|-0.266|0.651
92233515|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3||||0.3307|TWO_SIDED|95.0|-6.9|2.3|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Emotional Functioning||2.3|-6.9|0.3307
92280509|NCT00601484|184463642|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|7.651|||TWO_SIDED|90.0|-13.806|11.932||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||11.932|-13.806|
92233516|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8||||0.1904|TWO_SIDED|95.0|-1.4|7.0|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Cognitive Functioning||7.0|-1.4|0.1904
92233517|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.4||||0.0336|TWO_SIDED|95.0|0.7|16.1|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Social Functioning||16.1|0.7|0.0336
92233518|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3||||0.1572|TWO_SIDED|95.0|-1.7|10.3|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Global Health Status||10.3|-1.7|0.1572
92233519|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7||||0.1281|TWO_SIDED|95.0|-10.8|1.4|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Dyspnoea||1.4|-10.8|0.1281
92233520|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.6207|TWO_SIDED|95.0|-8.7|5.2|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Insomnia||5.2|-8.7|0.6207
92233521|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.7||||0.0193|TWO_SIDED|95.0|-16.0|-1.4|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Appetite Loss||-1.4|-16.0|0.0193
92233522|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4||||0.6249|TWO_SIDED|95.0|-4.4|7.3|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Constipation||7.3|-4.4|0.6249
92233523|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0||||0.1534|TWO_SIDED|95.0|-7.2|1.1|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Diarrhoea||1.1|-7.2|0.1534
92233524|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.5||||0.4915|TWO_SIDED|95.0|-9.7|4.7|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Financial Difficulties||4.7|-9.7|0.4915
92233525|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.4||||0.1789|TWO_SIDED|95.0|-10.8|2.0|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Fatigue||2.0|-10.8|0.1789
92233526|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.4578|TWO_SIDED|95.0|-6.0|2.7|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Nausea and Vomiting||2.7|-6.0|0.4578
92233527|NCT01564784|184369794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.8428|TWO_SIDED|95.0|-7.3|6.0|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Pain||6.0|-7.3|0.8428
92233528|NCT01564784|184369795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.171|TWO_SIDED|95.0|-0.01|0.07|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||||0.07|-0.01|0.1710
92233529|NCT01564784|184369796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.6||||0.1172|TWO_SIDED|95.0|-1.2|10.4|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||||10.4|-1.2|0.1172
92233530|NCT01982630|184369834|OTHER||Difference of Least Squares Means|-0.23|||||TWO_SIDED|90.0|-4.59|4.13|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||4.13|-4.59|
92233531|NCT01982630|184369834|OTHER||Difference of Least Squares Means|-6.25|||||TWO_SIDED|90.0|-10.48|-2.01|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||-2.01|-10.48|
92233532|NCT01982630|184369834|OTHER||Difference of Least Squares Means|6.02|||||TWO_SIDED|90.0|1.81|10.22|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||10.22|1.81|
92233533|NCT01982630|184369834|OTHER||Difference of Least Squares Means|1.5|||||TWO_SIDED|90.0|-2.65|5.64|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||5.64|-2.65|
92233534|NCT01982630|184369834|OTHER||Difference of Least Squares Means|-4.52|||||TWO_SIDED|90.0|-8.52|-0.52|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||-0.52|-8.52|
92233535|NCT01982630|184369834|OTHER||Difference of Least Squares Means|1.73|||||TWO_SIDED|90.0|-2.38|5.83|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||5.83|-2.38|
92233536|NCT01982630|184369835|OTHER||Difference of Least Squares Means|-2.11|||||TWO_SIDED|90.0|-4.55|0.32|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||0.32|-4.55|
92233537|NCT01982630|184369835|OTHER||Difference of Least Squares Means|2.53|||||TWO_SIDED|90.0|-0.61|5.66|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||5.66|-0.61|
92233538|NCT01982630|184369835|OTHER||Difference of Least Squares Means|4.64|||||TWO_SIDED|90.0|1.35|7.93|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||7.93|1.35|
92233539|NCT01982630|184369836|OTHER||Difference of Least Squares Means|-0.65|||||TWO_SIDED|90.0|-5.01|3.71|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||3.71|-5.01|
92233540|NCT01982630|184369836|OTHER||Difference of Least Squares Means|-6.42|||||TWO_SIDED|90.0|-10.66|-2.19|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||-2.19|-10.66|
92385365|NCT00286494|184673651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.56|-0.27||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.27|-0.56|<0.001
92385366|NCT00286494|184673651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|||<|0.001|TWO_SIDED|95.0|-0.69|-0.4||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.40|-0.69|<0.001
92385367|NCT00286494|184673652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|||<|0.001|TWO_SIDED|95.0|-0.63|-0.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.30|-0.63|<0.001
92385368|NCT00286494|184673652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||<|0.001|TWO_SIDED|95.0|-0.75|-0.43||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.43|-0.75|<0.001
92385369|NCT00286494|184673653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|||<|0.001|TWO_SIDED|95.0|-0.63|-0.26||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.26|-0.63|<0.001
92385370|NCT00286494|184673653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|||<|0.001|TWO_SIDED|95.0|-0.76|-0.4||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.40|-0.76|<0.001
92416345|NCT02880956|184721157|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.82|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416346|NCT02880956|184721157|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.107||0.32|TWO_SIDED|95.0|-0.318|0.104||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.104|-0.318|0.320
92416347|NCT02880956|184721157|SUPERIORITY||Effect size/pooled SD|0.13|STANDARD_DEVIATION|0.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92169534|NCT00402246|184227621|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.524|ONE_SIDED|95.0||1.21||Model was fit with device group (CRT-D vs. DR-ICD) as a stratifying variable.|Andersen-Gill model|An Andersen-Gill model was utilized to account for multiple hospitalization events per subject.||An Andersen-Gill proportional hazards regression model was fit to test the hypothesis that the CV hospitalization hazard rates for patients in the remote arm is equal to that of similar patients in the in-office arm.||1.21||0.524
92233541|NCT01982630|184369836|OTHER||Difference of Least Squares Means|5.77|||||TWO_SIDED|90.0|1.57|9.97|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||9.97|1.57|
92280510|NCT00601484|184463642|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.79|STANDARD_ERROR_OF_MEAN|7.543|||TWO_SIDED|90.0|-5.901|19.486||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||19.486|-5.901|
92385371|NCT00286494|184673654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||<|0.001|TWO_SIDED|95.0|-0.6|-0.22||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.22|-0.60|<0.001
92416348|NCT02880956|184721157|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.11||0.757|TWO_SIDED|95.0|-0.25|0.182||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.182|-0.250|0.757
92233542|NCT01982630|184369836|OTHER||Difference of Least Squares Means|-0.15|||||TWO_SIDED|90.0|-4.29|4.0|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||4.00|-4.29|
92233543|NCT01982630|184369836|OTHER||Difference of Least Squares Means|-5.91|||||TWO_SIDED|90.0|-9.91|-1.92|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||-1.92|-9.91|
92385372|NCT00286494|184673654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|||<|0.001|TWO_SIDED|95.0|-0.74|-0.36||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.36|-0.74|<0.001
92385373|NCT00286494|184673655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.4||||0.003|TWO_SIDED|95.0|-18.9|-3.9||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-3.9|-18.9|0.003
92385374|NCT00286494|184673655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.5|||<|0.001|TWO_SIDED|95.0|-23.0|-8.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.0|-23.0|<0.001
92416349|NCT02880956|184721157|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|0.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416350|NCT02880956|184721157|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.121||0.984|TWO_SIDED|95.0|-0.241|0.236||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.236|-0.241|0.984
92416351|NCT02880956|184721157|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.85|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92233544|NCT01982630|184369836|OTHER||Difference of Least Squares Means|0.51|||||TWO_SIDED|90.0|-3.6|4.62|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||4.62|-3.60|
92233545|NCT01982630|184369837|OTHER||Difference of Least Squares Means|-0.89|||||TWO_SIDED|90.0|-3.8|2.02|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||2.02|-3.80|
92233546|NCT01982630|184369837|OTHER||Difference of Least Squares Means|5.24|||||TWO_SIDED|90.0|1.34|9.15|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||9.15|1.34|
92233547|NCT01982630|184369837|OTHER||Difference of Least Squares Means|6.13|||||TWO_SIDED|90.0|2.05|10.22|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||10.22|2.05|
92233548|NCT01982630|184369838|OTHER||Difference of Least Squares Means|-0.57|||||TWO_SIDED|90.0|-3.71|2.57|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||2.57|-3.71|
92233549|NCT01982630|184369838|OTHER||Difference of Least Squares Means|7.77|||||TWO_SIDED|90.0|3.5|12.03|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||12.03|3.50|
92233550|NCT01982630|184369838|OTHER||Difference of Least Squares Means|8.34|||||TWO_SIDED|90.0|3.89|12.79|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||12.79|3.89|
92233551|NCT01982630|184369839|OTHER||Difference of Least Squares Means|1.35|||||TWO_SIDED|90.0|-2.4|5.09|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||5.09|-2.40|
92233552|NCT01982630|184369839|OTHER||Difference of Least Squares Means|8.29|||||TWO_SIDED|90.0|3.29|13.3|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||13.30|3.29|
92233553|NCT01982630|184369839|OTHER||Difference of Least Squares Means|6.95|||||TWO_SIDED|90.0|1.69|12.2|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||12.20|1.69|
92233554|NCT01982630|184369840|OTHER||Difference of Least Squares Means|2.46|||||TWO_SIDED|90.0|-1.42|6.34|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||6.34|-1.42|
92233555|NCT01982630|184369840|OTHER||Difference of Least Squares Means|9.61|||||TWO_SIDED|90.0|4.42|14.81|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||14.81|4.42|
92233556|NCT01982630|184369840|OTHER||Difference of Least Squares Means|7.15|||||TWO_SIDED|90.0|1.7|12.6|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||12.60|1.70|
92233557|NCT01982630|184369841|OTHER||Difference of Least Squares Means|-3.97|||||TWO_SIDED|90.0|-6.8|-1.14|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||-1.14|-6.80|
92233558|NCT01982630|184369841|OTHER||Difference of Least Squares Means|-0.7|||||TWO_SIDED|90.0|-4.33|2.93|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||2.93|-4.33|
92233559|NCT01982630|184369841|OTHER||Difference of Least Squares Means|3.26|||||TWO_SIDED|90.0|-0.54|7.06|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||7.06|-0.54|
92233560|NCT01982630|184369842|OTHER||Difference of Least Squares Means|-1.58|||||TWO_SIDED|90.0|-5.31|2.15|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||2.15|-5.31|
92416352|NCT02880956|184721157|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.118||0.595|TWO_SIDED|95.0|-0.296|0.17||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.170|-0.296|0.595
92416353|NCT02880956|184721157|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|0.93|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416354|NCT02880956|184721157|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.122||0.67|TWO_SIDED|95.0|-0.187|0.291||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.291|-0.187|0.670
92416355|NCT02880956|184721157|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416356|NCT02880956|184721158|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.112||0.722|TWO_SIDED|95.0|-0.26|0.18||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.180|-0.260|0.722
92416357|NCT02880956|184721158|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|0.86|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416358|NCT02880956|184721158|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.109||0.878|TWO_SIDED|95.0|-0.232|0.198||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.198|-0.232|0.878
92416359|NCT02880956|184721158|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416360|NCT02880956|184721158|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.112||0.535|TWO_SIDED|95.0|-0.151|0.29||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.290|-0.151|0.535
92416361|NCT02880956|184721158|SUPERIORITY||Effect size/pooled SD|-0.09|STANDARD_DEVIATION|0.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92169535|NCT00402246|184227621|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.325|ONE_SIDED|95.0||1.43||Model was fit with device group (CRT-D vs. DR-ICD) as a stratifying variable.|Andersen-Gill model|An Andersen-Gill model was utilized to account for multiple ED visits per subject.||An Andersen-Gill proportional hazards regression model was fit to test the hypothesis that the ED hazard rates for patients in the remote arm is equal to that of similar patients in the in-office arm.||1.43||0.325
92233561|NCT01982630|184369842|OTHER||Difference of Least Squares Means|2.52|||||TWO_SIDED|90.0|-2.32|7.35|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||7.35|-2.32|
92416362|NCT02880956|184721158|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_ERROR_OF_MEAN|0.129||0.916|TWO_SIDED|95.0|-0.266|0.239||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.239|-0.266|0.916
92416363|NCT02880956|184721158|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416364|NCT02880956|184721158|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.126||0.511|TWO_SIDED|95.0|-0.33|0.165||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.165|-0.330|0.511
92233562|NCT01982630|184369842|OTHER||Difference of Least Squares Means|4.1|||||TWO_SIDED|90.0|-0.96|9.16|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||9.16|-0.96|
92233563|NCT01982630|184369843|OTHER||Difference of Least Squares Means|-3.48|||||TWO_SIDED|90.0|-7.31|0.34|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||0.34|-7.31|
92233564|NCT01982630|184369843|OTHER||Difference of Least Squares Means|3.96|||||TWO_SIDED|90.0|-1.11|9.03|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||9.03|-1.11|
92233565|NCT01982630|184369843|OTHER||Difference of Least Squares Means|7.44|||||TWO_SIDED|90.0|2.16|12.73|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||12.73|2.16|
92233566|NCT01982630|184369844|OTHER||Difference of Least Squares Means|0.03|||||TWO_SIDED|90.0|-4.51|4.57|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||4.57|-4.51|
92416365|NCT02880956|184721158|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|1.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92233567|NCT01982630|184369844|OTHER||Difference of Least Squares Means|4.7|||||TWO_SIDED|90.0|-1.33|10.73|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||10.73|-1.33|
92416366|NCT02880956|184721158|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.129||0.771|TWO_SIDED|95.0|-0.217|0.292||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.292|-0.217|0.771
92416367|NCT02880956|184721158|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|0.94|||TWO_SIDED|||||||||Week 96||||
92385375|NCT00286494|184673656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.2|||<|0.001|TWO_SIDED|95.0|-26.4|-11.9||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-11.9|-26.4|<0.001
92385376|NCT00286494|184673656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.4|||<|0.001|TWO_SIDED|95.0|-26.6|-12.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.3|-26.6|<0.001
92385377|NCT00286494|184673657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.6|||<|0.001|TWO_SIDED|95.0|-27.5|-13.6||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-13.6|-27.5|<0.001
92385378|NCT00286494|184673657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.0|||<|0.001|TWO_SIDED|95.0|-29.9|-16.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-16.0|-29.9|<0.001
92416368|NCT02880956|184721159|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.086||0.903|TWO_SIDED|95.0|-0.159|0.18||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.180|-0.159|0.903
92416369|NCT02880956|184721159|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|0.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92233568|NCT01982630|184369844|OTHER||Difference of Least Squares Means|4.66|||||TWO_SIDED|90.0|-1.67|11.0|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||11.00|-1.67|
92233569|NCT01982630|184369845|OTHER||Difference of Least Squares Means|3.34|||||TWO_SIDED|90.0|-0.7|7.39|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||7.39|-0.70|
92233570|NCT01982630|184369845|OTHER||Difference of Least Squares Means|8.88|||||TWO_SIDED|90.0|3.53|14.23|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||14.23|3.53|
92233571|NCT01982630|184369845|OTHER||Difference of Least Squares Means|5.54|||||TWO_SIDED|90.0|-0.08|11.15|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||11.15|-0.08|
92233572|NCT01982630|184369846|OTHER||Difference of Least Squares Means|-3.55|||||TWO_SIDED|90.0|-6.98|-0.12|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||-0.12|-6.98|
92233573|NCT01982630|184369846|OTHER||Difference of Least Squares Means|1.05|||||TWO_SIDED|90.0|-3.38|5.49|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||5.49|-3.38|
92233574|NCT01982630|184369846|OTHER||Difference of Least Squares Means|4.61|||||TWO_SIDED|90.0|-0.02|9.23|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||9.23|-0.02|
92233575|NCT01982630|184369847|OTHER||Difference of Least Squares Means|-1.16|||||TWO_SIDED|90.0|-4.59|2.28|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||2.28|-4.59|
92233576|NCT01982630|184369847|OTHER||Difference of Least Squares Means|8.65|||||TWO_SIDED|90.0|3.99|13.31|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||13.31|3.99|
92233577|NCT01982630|184369847|OTHER||Difference of Least Squares Means|9.8|||||TWO_SIDED|90.0|4.96|14.65|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||14.65|4.96|
92233578|NCT01982630|184369848|OTHER||Difference of Least Squares Means|-4.04|||||TWO_SIDED|90.0|-7.52|-0.56|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||-0.56|-7.52|
92233579|NCT01982630|184369848|OTHER||Difference of Least Squares Means|10.23|||||TWO_SIDED|90.0|5.57|14.89|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||14.89|5.57|
92233580|NCT01982630|184369848|OTHER||Difference of Least Squares Means|14.27|||||TWO_SIDED|90.0|9.38|19.15|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||19.15|9.38|
92233581|NCT01982630|184369849|OTHER||Difference of Least Squares Means|-2.12|||||TWO_SIDED|90.0|-5.7|1.47|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||1.47|-5.70|
92233582|NCT01982630|184369849|OTHER||Difference of Least Squares Means|13.34|||||TWO_SIDED|90.0|8.64|18.03|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||18.03|8.64|
92233583|NCT01982630|184369849|OTHER||Difference of Least Squares Means|15.45|||||TWO_SIDED|90.0|10.53|20.38|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||20.38|10.53|
92385379|NCT00286494|184673658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.5|||<|0.001|TWO_SIDED|95.0|-24.4|-8.7||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.7|-24.4|<0.001
92385380|NCT00286494|184673658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.1|||<|0.001|TWO_SIDED|95.0|-28.9|-13.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-13.3|-28.9|<0.001
92385381|NCT00286494|184673659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4||||0.011|TWO_SIDED|95.0|-18.5|-2.4||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-2.4|-18.5|0.011
92385382|NCT00286494|184673659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.3|||<|0.001|TWO_SIDED|95.0|-24.3|-8.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.3|-24.3|<0.001
92385383|NCT00286494|184673660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.0||||0.029|TWO_SIDED|95.0|-18.9|-1.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-1.0|-18.9|0.029
92385384|NCT00286494|184673660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.4||||0.002|TWO_SIDED|95.0|-23.3|-5.5||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-5.5|-23.3|0.002
92169536|NCT00402246|184227621|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.099|ONE_SIDED|95.0||1.31||Model was fit with device group (CRT-D vs. DR-ICD) as a stratifying variable.|Andersen-Gill model|An Andersen-Gill model was utilized to account for multiple unscheduled clinic visits per subject.||An Andersen-Gill proportional hazards regression model was fit to test the hypothesis that the hazard rates of the CV unscheduled clinic or urgent care visits for patients in the remote arm is equal to that of similar patients in the in-office arm.||1.31||0.099
92233584|NCT01982630|184369850|OTHER||Difference of Least Squares Means|2.11|||||TWO_SIDED|90.0|-1.47|5.7|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||5.70|-1.47|
92233585|NCT01982630|184369850|OTHER||Difference of Least Squares Means|10.43|||||TWO_SIDED|90.0|5.73|15.13|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||15.13|5.73|
92233586|NCT01982630|184369850|OTHER||Difference of Least Squares Means|8.32|||||TWO_SIDED|90.0|3.4|13.24|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||13.24|3.40|
92233587|NCT01982630|184369866|OTHER||Difference of Least Squares Means|29.56|||||TWO_SIDED|90.0|4.34|54.77|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||54.77|4.34|
92233588|NCT01982630|184369866|OTHER||Difference of Least Squares Means|26.1|||||TWO_SIDED|90.0|2.02|50.19|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||50.19|2.02|
92385385|NCT00286494|184673661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.6|||<|0.001|TWO_SIDED|95.0|-24.2|-6.9||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.9|-24.2|<0.001
92385386|NCT00286494|184673661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.2|||<|0.001|TWO_SIDED|95.0|-23.8|-6.7||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.7|-23.8|<0.001
92416370|NCT02880956|184721159|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.084||0.811|TWO_SIDED|95.0|-0.185|0.145||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.145|-0.185|0.811
92233589|NCT01982630|184369866|OTHER||Difference of Least Squares Means|3.45|||||TWO_SIDED|90.0|-20.23|27.14|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||27.14|-20.23|
92233590|NCT01982630|184369866|OTHER||Difference of Least Squares Means|-26.45|||||TWO_SIDED|90.0|-49.96|-2.93|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-2.93|-49.96|
92233591|NCT01982630|184369866|OTHER||Difference of Least Squares Means|-29.9|||||TWO_SIDED|90.0|-52.04|-7.77|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-7.77|-52.04|
92233592|NCT01982630|184369866|OTHER||Difference of Least Squares Means|-56.0|||||TWO_SIDED|90.0|-79.53|-32.48|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-32.48|-79.53|
92233593|NCT01982630|184369867|OTHER||Difference of Least Squares Means|14.96|||||TWO_SIDED|90.0|-10.25|40.18|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||40.18|-10.25|
92233594|NCT01982630|184369867|OTHER||Difference of Least Squares Means|6.57|||||TWO_SIDED|90.0|-17.52|30.65|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||30.65|-17.52|
92416371|NCT02880956|184721159|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|0.61|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92233595|NCT01982630|184369867|OTHER||Difference of Least Squares Means|8.4|||||TWO_SIDED|90.0|-15.29|32.08|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||32.08|-15.29|
92233596|NCT01982630|184369867|OTHER||Difference of Least Squares Means|-35.23|||||TWO_SIDED|90.0|-58.75|-11.72|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-11.72|-58.75|
92233597|NCT01982630|184369867|OTHER||Difference of Least Squares Means|-43.63|||||TWO_SIDED|90.0|-65.77|-21.5|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-21.50|-65.77|
92233598|NCT01982630|184369867|OTHER||Difference of Least Squares Means|-50.2|||||TWO_SIDED|90.0|-73.72|-26.68|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-26.68|-73.72|
92233599|NCT01982630|184369868|OTHER||Difference of Least Squares Means|-31.2|||||TWO_SIDED|90.0|-56.59|-5.81|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||-5.81|-56.59|
92233600|NCT01982630|184369868|OTHER||Difference of Least Squares Means|-25.12|||||TWO_SIDED|90.0|-50.25|0.01|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||0.01|-50.25|
92233601|NCT01982630|184369868|OTHER||Difference of Least Squares Means|-6.08|||||TWO_SIDED|90.0|-17.31|5.14|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||5.14|-17.31|
92233602|NCT01982630|184369869|OTHER||Difference of Least Squares Means|-27.48|||||TWO_SIDED|90.0|-52.87|-2.09|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||-2.09|-52.87|
92233603|NCT01982630|184369869|OTHER||Difference of Least Squares Means|-30.59|||||TWO_SIDED|90.0|-55.72|-5.46|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||-5.46|-55.72|
92233604|NCT01982630|184369869|OTHER||Difference of Least Squares Means|3.11|||||TWO_SIDED|90.0|-8.11|14.34|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||14.34|-8.11|
92233605|NCT01982630|184369870|OTHER||Difference of Least Squares Means|4.59|||||TWO_SIDED|90.0|-20.88|30.06|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||30.06|-20.88|
92233606|NCT01982630|184369870|OTHER||Difference of Least Squares Means|-5.42|||||TWO_SIDED|90.0|-30.68|19.85|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||19.85|-30.68|
92233607|NCT01982630|184369870|OTHER||Difference of Least Squares Means|10.01|||||TWO_SIDED|90.0|-1.77|21.78|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||21.78|-1.77|
92233608|NCT01982630|184369871|OTHER||Difference of Least Squares Means|-14.98|||||TWO_SIDED|90.0|-40.53|10.57|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||10.57|-40.53|
92233609|NCT01982630|184369871|OTHER||Difference of Least Squares Means|-14.5|||||TWO_SIDED|90.0|-39.77|10.76|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||10.76|-39.77|
92233610|NCT01982630|184369871|OTHER||Difference of Least Squares Means|-0.48|||||TWO_SIDED|90.0|-12.47|11.52|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||11.52|-12.47|
92233611|NCT01982630|184369872|OTHER||Difference of Least Squares Means|-43.68|||||TWO_SIDED|90.0|-65.81|-21.55|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-21.55|-65.81|
92233612|NCT01982630|184369872|OTHER||Difference of Least Squares Means|-47.4|||||TWO_SIDED|90.0|-69.35|-25.45|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-25.45|-69.35|
92233613|NCT01982630|184369872|OTHER||Difference of Least Squares Means|3.72|||||TWO_SIDED|90.0|-5.76|13.19|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||13.19|-5.76|
92233614|NCT01982630|184369873|OTHER||Difference of Least Squares Means|-34.01|||||TWO_SIDED|90.0|-56.14|-11.88|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-11.88|-56.14|
92233615|NCT01982630|184369873|OTHER||Difference of Least Squares Means|-39.2|||||TWO_SIDED|90.0|-61.15|-17.26|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-17.26|-61.15|
92233616|NCT01982630|184369873|OTHER||Difference of Least Squares Means|5.2|||||TWO_SIDED|90.0|-4.28|14.67|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||14.67|-4.28|
92233617|NCT01982630|184369874|OTHER||Difference of Least Squares Means|-23.73|||||TWO_SIDED|90.0|-45.89|-1.56|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-1.56|-45.89|
92233618|NCT01982630|184369874|OTHER||Difference of Least Squares Means|-33.95|||||TWO_SIDED|90.0|-55.93|-11.98|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-11.98|-55.93|
92233619|NCT01982630|184369874|OTHER||Difference of Least Squares Means|10.23|||||TWO_SIDED|90.0|0.56|19.89|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||19.89|0.56|
92233620|NCT01982630|184369875|OTHER||Difference of Least Squares Means|-23.49|||||TWO_SIDED|90.0|-45.65|-1.32|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-1.32|-45.65|
92233621|NCT01982630|184369875|OTHER||Difference of Least Squares Means|-29.76|||||TWO_SIDED|90.0|-51.74|-7.79|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-7.79|-51.74|
92233622|NCT01982630|184369875|OTHER||Difference of Least Squares Means|6.27|||||TWO_SIDED|90.0|-3.39|15.93|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||15.93|-3.39|
92233623|NCT01273818|184369942|SUPERIORITY_OR_OTHER||Fscher exact test|||||0.198|TWO_SIDED||||||Fisher Exact||we did not need an estimation parameter such as odds or relative risk because of our experimental design and hypothesis of this study.|"Comparison Group Selection: our primary outcome is infection positive or negativeso, we compared the frequencies of being positive infections for these three groups. Our null hypothesis is  positive infection frequencies are same for three groups. We calculated post-hoc power for this design and found 0.99 for the percentages which shows positive infections respectively for Topical Gentamicin, cefazoline iv and topical gentamicin and iv cefazolin; 2.3%, 3.1% and 0%."||||0.198
92233624|NCT00803114|184369957|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.22||||0.05||95.0|0.12|0.41|||Fisher Exact||Relative risk describes the risk of requiring additional analgesics in the first 24 hours postpartum with the denominator being the arm which received placebo.|Relative risk ratio estimation with 95% CI using exact methods||0.41|0.12|0.05
92233625|NCT00803114|184369958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|0.8||0.05||95.0|-5.7|-2.3|||t-test, 2 sided|degrees of freedom 226|The epidural morphine group represents the baseline of comparison for difference in means, with the placebo group requiring additional analgesics earlier.|||-2.3|-5.7|0.05
92233626|NCT00803114|184369959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.3||0.05||95.0|0.7|1.8|||t-test, 2 sided|degrees of freedom 212|Difference in VAS score when compared to the baseline group, subjects receiving epidural morphine|||1.8|0.7|0.05
92233627|NCT00803114|184369960|SUPERIORITY_OR_OTHER|||||||0.8||||||Fisher's exact test result did not reveal statistically significant differences between expected and real frequencies in any of the categories.|Fisher Exact|||||||0.80
92233628|NCT01696461|184369962|OTHER||||||||||||||||||Percentage of donors mobilized with plerixafor. No comparison group was analyzed.|||
92233629|NCT01696461|184369963|OTHER||||||||||||||||||This is a descriptive analysis. Percentage of donor experiencing toxicities was assessed at 30, 60, 120, and 240 minutes after administration of plerixafor on each day of collection and graded according to the National Cancer Institute Common Terminology Criteria for Adverse Events, version 4.0.3. Grade of maximum toxicity across all time points is reported.|||
92233630|NCT01696461|184369964|OTHER||||||||||||||||||This is a descriptive analysis. The number of donors experiencing toxicities was assessed at 30, 60, 120, and 240 minutes after administration of plerixafor on each day of collection and one, six, and 12 months post-donation. Toxicities were graded according to the National Cancer Institute Common Terminology Criteria for Adverse Events, version 4.0.3.|||
92233631|NCT01696461|184369965|OTHER||||||||||||||||||At 100 days after HCT, all patients in both the MAC and the RIC cohorts had achieved neutrophil engraftment. All patients in the MAC arm and 97% of patients in the RIC arm had achieved platelet engraftment. The median time to neutrophil engraftment was 13 and 15 days for MAC and RIC, respectively. The median time to platelet engraftment was 19 and 18 days for MAC and RIC, respectively.|||
92233632|NCT01696461|184369966|OTHER||||||||||||||||||"Full donor myeloid chimerism was achieved relatively quickly in both RIC and MAC groups (median 100% at day +28 in both RIC and MAC), but conversion to full donor T-cell chimerism appeared to be slower in the RIC patients.~T-cell chimerism for MAC patients: median donor cell % (range):~Day +28: 92(59-100)%, Day +100: 97(76-100)%, Day +180: 100(91-100)%, Day +365: 100(100-100)%~T-cell chimerism for RIC patients: median donor cell % (range):~Day +28: 80(50-100)%, Day +100: 84(64-100)%, Day +180: 95(74-100)%, Day +365: 100(87-100)%"|||
92233633|NCT01696461|184369967|OTHER||||||||||||||||||This is a descriptive outcome.There were no cases of primary graft failure.|||
92233634|NCT01696461|184369968|OTHER|||||||||||||||||The cumulative incidence of acute graft-vs-host disease was examined in the RIC and MAC groups but was not directly compared with a statistical test.|The incidence of acute GVHD was quantified by computing the cumulative incidence probability and an appropriate 95% confidence interval. Death was treated as a competing risk.|||
92233635|NCT01696461|184369969|OTHER||||||||||||||||||Immune reconstitution was measured by CD3+CD4+ and CD3+CD8+ T cells in the peripheral blood of patients at days 28, 100, 180, and 365 after HCT. Notably, median CD3+CD4+ cell counts were \>200/µL at all times analyzed, including day 28 in both MAC and RIC groups.|||
92233636|NCT01696461|184369970|OTHER|||||||||||||||||Groups were not directly compared using a statistical test.|Percentage of recipients at-risk for CMV reactivation who experienced a reactivation.|||
92233637|NCT01696461|184369971|OTHER|||||||||||||||||The probability of treatment-related mortality and disease relapse/progression were examined in the RIC and MAC cohorts but were not directly compared between the two groups using a statistical test.|The incidence of treatment-related mortality and relapse was quantified by computing the cumulative incidence probability and an appropriate 95% confidence interval. When computing the cumulative incidence probability of treatment-related mortality and relapse, relapse and treatment-related mortality, respectively, were considered as a competing risk.|||
92233638|NCT01696461|184369972|OTHER|||||||||||||||||The probability of progression free survival and overall survival were examined in the RIC and MAC cohorts but were not directly compared between the two groups using a statistical test.|Kaplan-Meier curves were used to estimate the probability of progression-free survival and overall survival. Progression-free survival at 1 year was 53% (95% CI, 36% to 71%) after MAC and 64% (95% CI, 47% to 79%) after RIC. Overall survival at 1 year was 63% (95% CI, 46% to 79%) after MAC and 70% (95% CI, 53% to 84%) after RIC.|||
92233639|NCT01696461|184369973|OTHER|||||||||||||||||This outcome measure is descriptive.|This outcome measure is descriptive. The median cell dose and range are reported.|||
92233640|NCT01696461|184369974|OTHER|||||||||||||||||The cumulative incidence of chronic graft-vs-host disease was examined in the RIC and MAC groups but was not directly compared with a statistical test.|The incidence of chronic GVHD was quantified by computing the cumulative incidence probability and an appropriate 95% confidence interval. Death was treated as a competing event.|||
92233641|NCT01696461|184369975|OTHER||||||||||||||||||This is a descriptive analysis. There were no cases of secondary graft failure.|||
92385387|NCT00286494|184673662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9||||0.003|TWO_SIDED|95.0|-23.1|-4.8||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-4.8|-23.1|0.003
92233642|NCT01696461|184369976|OTHER||||||||||||||||||This outcome measure is descriptive. The median cell dose and range are reported.|||
92233643|NCT03414359|184370022|NON_INFERIORITY|As there is no existing data in the literature that clearly defines a clinically significant reduction in the onset time of anesthesia, the non-inferiority margin was defined a priori based on clinical reasoning.||||||0.1||||||The a priori threshold for statistical significance is, \<0.05|Wilcoxon (Mann-Whitney)|||To exclude a clinically important difference between the LEBF group and the chloroprocaine group, given a standard deviation of 4 minutes, and a non-inferiority margin of 3 minutes difference between groups, 62 mother-infant dyads (31 mother-infant dyads in each arm) are required to have a significance level of 5% and a power of 90%. In total, 70 female patients were recruited to account for any withdrawals.||||0.10
92233644|NCT04068103|184370037|SUPERIORITY|||||||0.98||||||P value \<= 0.35 moves trial to phase III, \>0.35 stops trial for futility. Decision rule calls for early stopping due to futility.|Fisher Exact|||One-sided Fisher's Exact Test of ctDNA clearance by treatment arm.||||0.98
92233645|NCT01672892|184370044|SUPERIORITY|||||||0.0476|||||||t-test, 1 sided|||Since there is no prior data using this tool in this patient population, an effect size of 0.4 was chosen to calculate sample size. Based on a two-sample t-test with one interim look and a two-sided alpha=0.05, a sample size of 225 is needed to achieve 85% statistical power. Assuming an attrition rate of 10% and noncompliance of 10%, 281 patients were required in order to ensure 225 evaluable patients for the primary endpoint analysis.||||0.0476
92233646|NCT01672892|184370045|SUPERIORITY|||||||0.4338|||||||Binomial test of proportions|2-sided significance level = 0.05||||||0.4338
92233647|NCT01672892|184370046|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|2-sided significance level of 0.05||Week 3 of RT||||0.04
92233648|NCT01672892|184370046|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|2-sided significance level of 0.05||Week 5 of RT||||0.03
92233649|NCT01672892|184370046|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|2-sided significance level of 0.05||4-6 weeks post-RT||||0.41
92233650|NCT01672892|184370047|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|2-sided significance level = 0.05||FACT-G total score - 5 weeks||||0.54
92233651|NCT01672892|184370047|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|FACT-G total score - 4-6 weeks post RT||FACT-G total score - 4-6 weeks post RT||||0.72
92233652|NCT01672892|184370047|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|2-sided significance level = 0.05||FACT-Cx subscale score - 5 weeks||||0.01
92233653|NCT01672892|184370047|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|2-sided significance level = 0.05||FACT-Cx subscale score - 4-6 weeks post RT||||0.45
92233654|NCT01672892|184370047|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|2-sided significance level = 0.0125||Physical subscale score - 5 weeks||||0.03
92233655|NCT01672892|184370047|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|2-sided significance level = 0.0125||Physical subscale score - 4-6 weeks post RT||||0.9
92233656|NCT01672892|184370047|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|2-sided significance level = 0.0125||Functional subscale score - 5 weeks||||0.55
92385388|NCT00286494|184673662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.1||||0.003|TWO_SIDED|95.0|-23.3|-5.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-5.0|-23.3|0.003
92233657|NCT01672892|184370047|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|2-sided significance level = 0.0125||Functional subscale score - 4-6 weeks post RT||||0.35
92233658|NCT01672892|184370047|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|2-sided significance level = 0.0125||Emotional subscale score - 5 weeks||||0.66
92233659|NCT01672892|184370047|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|2-sided significance level = 0.0125||Emotional subscale score - 4-6 weeks post RT||||0.09
92385389|NCT00286494|184673663|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.271|||<|0.001|TWO_SIDED|95.0|0.147|0.499||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen, \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.499|0.147|<0.001
92233660|NCT01672892|184370047|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|2-sided significance level = 0.0125||Social subscale score - 5 weeks||||0.66
92233661|NCT01672892|184370047|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|2-sided significance level = 0.0125||Social subscale score - 4-6 weeks post RT||||0.35
92233662|NCT01672892|184370048|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|2-sided significance level = 0.05||5 weeks||||0.61
92233663|NCT01672892|184370048|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|2-sided significance level = 0.05||4-6 weeks post-RT||||0.67
92233664|NCT01672892|184370049|SUPERIORITY|||||||0.81|||||||Gray's test|Two-sided significance level = 0.05||||||0.81
92233665|NCT01672892|184370050|SUPERIORITY||Hazard Ratio (HR)|1.39||||0.21|TWO_SIDED|95.0|0.82|2.35|||Log Rank|Two-side significance level = 0.05|Reference level = Intensity-Modulated Radiation Therapy|||2.35|0.82|0.21
92233666|NCT01672892|184370051|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.53|TWO_SIDED|95.0|0.32|1.79|||Log Rank|Two-sided significance level = 0.05|Reference level = Intensity-Modulated Radiation Therapy|||1.79|0.32|0.53
92233667|NCT01672892|184370054|OTHER||||||<|0.0001|||||||nonparametric one-sample t-test|||Baseline||||<0.0001
92233668|NCT01672892|184370054|OTHER||||||<|0.0001|||||||nonparametric one-sample t-test|||Week 5||||<0.0001
92385390|NCT00286494|184673663|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.235|||<|0.001|TWO_SIDED|95.0|0.126|0.438||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen, \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.438|0.126|<0.001
92385391|NCT00286494|184673664|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.628||||0.266|TWO_SIDED|95.0|0.277|1.425||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||1.425|0.277|0.266
92385392|NCT00286494|184673664|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.658||||0.315|TWO_SIDED|95.0|0.292|1.487|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||1.487|0.292|0.315
92385393|NCT00286494|184673665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4||||0.003|TWO_SIDED|95.0|-10.6|-2.1||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-2.1|-10.6|0.003
92385394|NCT00286494|184673665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.023|TWO_SIDED|95.0|-9.1|-0.7||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.7|-9.1|0.023
92385395|NCT00286494|184673666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2||||0.043|TWO_SIDED|95.0|-8.3|-0.1||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.1|-8.3|0.043
92385396|NCT00286494|184673666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.489|TWO_SIDED|95.0|-5.5|2.6||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.6|-5.5|0.489
92416372|NCT02880956|184721159|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.086||0.775|TWO_SIDED|95.0|-0.145|0.194||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.194|-0.145|0.775
92233669|NCT01672892|184370055|OTHER||||||<|0.0001|||||||One-sample t-test|||Bowel domain at baseline||||<0.0001
92233670|NCT01672892|184370055|OTHER||||||<|0.0001|||||||One-sample t-test|||Bowel domain at week 5||||<0.0001
92385397|NCT00286494|184673667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2||||0.068|TWO_SIDED|95.0|-8.8|0.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.3|-8.8|0.068
92385398|NCT00286494|184673667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.056|TWO_SIDED|95.0|-8.9|0.1||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.1|-8.9|0.056
92385399|NCT00286494|184673668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.884|TWO_SIDED|95.0|-4.9|4.2||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.2|-4.9|0.884
92385400|NCT00286494|184673668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.993|TWO_SIDED|95.0|-4.5|4.5||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.5|-4.5|0.993
92416373|NCT02880956|184721159|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|0.62|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416374|NCT02880956|184721159|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.11||0.273|TWO_SIDED|95.0|-0.337|0.096||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.096|-0.337|0.273
92416375|NCT02880956|184721159|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|0.73|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92233671|NCT01672892|184370055|OTHER||||||<|0.0001|||||||One-sample t-test|||Urinary domain at baseline||||<0.0001
92233672|NCT01672892|184370055|OTHER||||||<|0.0001|||||||One-sample t-test|||Urinary domain at week 5||||<0.0001
92233673|NCT01672892|184370056|OTHER||||||<|0.0001|||||||Paired t-test|||Bowel domain||||<0.0001
92233674|NCT01672892|184370056|OTHER||||||<|0.0001|||||||Paired t-test|||Urinary domain||||<0.0001
92233675|NCT02907944|184370091|SUPERIORITY||Odds Ratio (OR)|1.09||||0.55|TWO_SIDED|95.0|0.82|1.45|||Generalized Estimating Equation|||||1.45|0.82|0.55
92416376|NCT02880956|184721159|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.108||0.74|TWO_SIDED|95.0|-0.248|0.176||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.176|-0.248|0.740
92233676|NCT02907944|184370091|SUPERIORITY||Odds Ratio (OR)|1.76||||0.09|TWO_SIDED|95.0|0.92|3.37|||Generalized Estimating Equation|||||3.37|0.92|0.09
92416377|NCT02880956|184721159|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|0.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92233677|NCT02907944|184370091|SUPERIORITY||Odds Ratio (OR)|1.4||||0.001|TWO_SIDED|95.0|1.14|1.71|||Generalized Estimating Equation|||||1.71|1.14|0.001
92233678|NCT02907944|184370092|SUPERIORITY||Odds Ratio (OR)|1.08||||0.59|TWO_SIDED|95.0|0.81|1.45|||Generalized Estimating Equation|||||1.45|0.81|0.59
92233679|NCT02907944|184370092|SUPERIORITY||Odds Ratio (OR)|1.77||||0.11|TWO_SIDED|95.0|0.88|3.55|||Generalized Estimating Equation|||||3.55|0.88|0.11
92233680|NCT02907944|184370092|SUPERIORITY||Odds Ratio (OR)|1.35||||0.005|TWO_SIDED|95.0|1.09|1.66|||Generalized Estimating Equation|||||1.66|1.09|0.005
92233681|NCT00698516|184370130|SUPERIORITY_OR_OTHER||Greenwood variance|65.0|STANDARD_ERROR_OF_MEAN|7.07||0.017|TWO_SIDED|95.0|49.3|76.9||Historical data in target population showed 3-month PFS rates of \<=50%. Oral topotecan with IV bevacizumab would provide clinically meaningful improvement in 3-month PFS if it could demonstrate a 40% improvement relative to the historical data.|Z statistic|Z statistic was used to reject the null hypothesis provided Z\>=1.65, where Z = (KM estimate at 3 months - null hypothesis value \[50%\])/Greenwood SE.||||76.9|49.3|0.017
92233682|NCT03815292|184370145|SUPERIORITY|||||||0.02|||||||Fisher Exact|||||||0.02
92233683|NCT03815292|184370146|SUPERIORITY|||||||0.0445|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 24 weeks total scores row.||||0.0445
92233684|NCT03815292|184370147|SUPERIORITY|||||||0.0345|||||||Fisher Exact|||||||0.0345
92233685|NCT03815292|184370148|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 24 weeks total scores row.||||0.04
92233686|NCT03815292|184370149|SUPERIORITY|||||||0.0016|||||||t-test, 2 sided|||This analysis applies to ∆ between baseline and after 24 weeks total scores row.||||0.0016
92233687|NCT03815292|184370150|SUPERIORITY|||||||0.0054|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Therapeutic effect row.||||0.0054
92233688|NCT03815292|184370150|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Side effects row.||||0.78
92233689|NCT03815292|184370150|SUPERIORITY|||||||0.0042|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Efficiency index row.||||0.0042
92416378|NCT02880956|184721159|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.111||0.567|TWO_SIDED|95.0|-0.282|0.155||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.155|-0.282|0.567
92233690|NCT03815292|184370151|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between 24 and 28 weeks total scores row.||||0.77
92233691|NCT03815292|184370152|SUPERIORITY|||||||0.0118|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between 24 and 28 weeks total scores row.||||0.0118
92233692|NCT03815292|184370153|SUPERIORITY|||||||0.058|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between 24 and 28 weeks total scores row.||||0.058
92233693|NCT01584024|184370161|SUPERIORITY||||||=|0.003|||||||McNemar|||||||=0.003
92233694|NCT01584024|184370162|SUPERIORITY||||||=|0.17|||||||McNemar|||||||=0.17
92233695|NCT04893265|184370225|SUPERIORITY||Mean Difference (Net)|0.0854|STANDARD_ERROR_OF_MEAN|0.1122||0.4471|TWO_SIDED|95.0|-0.1352|0.306|||Mixed Models Analysis|||||0.3060|-0.1352|0.4471
92233696|NCT04893265|184370226|SUPERIORITY||Odds Ratio (OR)|0.8378|||<|0.05|TWO_SIDED|95.0|0.4284|1.6385|||Mixed Models Analysis|Adjusted for Demographics, COVID-19 Cases Per 100K , Test Access, Social Network, Knowledge, Test Value with random intercepts for participation mode|Adjusted odds ratio|||1.6385|0.4284|<0.05
92233697|NCT04893265|184370227|SUPERIORITY||Odds Ratio (OR)|1.4306|||<|0.05|TWO_SIDED|95.0|0.6166|3.3192|||Mixed Models Analysis|Adjusted for Demographics, COVID-19 Cases Per 100K , Test Access, Social Network, Knowledge, Test Value with random intercepts for participation mode|Adjusted odds ratio|||3.3192|0.6166|<0.05
92233698|NCT04893265|184370228|SUPERIORITY||Mean Difference (Final Values)|0.08661|STANDARD_ERROR_OF_MEAN|0.08125|||TWO_SIDED|95.0|-0.07311|0.2463|||||Adjusted for Demographics, COVID Cases Per 100,000 Population, Test Access, Social Network, Knowledge, and Test Value with random intercepts for Dyad and Individual|||0.2463|-0.07311|
92233699|NCT01142323|184370242|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|95.0|||||Matched pairs|||||||0.008
92233700|NCT01142323|184370243|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
92233701|NCT03090191|184370247|SUPERIORITY|Lower bound of confidence interval greater than 20% demonstrate vaccine efficacy.|Vaccine efficacy|31.0|||||TWO_SIDED|96.4|-38.7|66.6|||||Vaccine efficacy(VE)=100\*(1-infection rate ratio\[IRR\]),IRR=calculated ratio of first primary CDI incidence between Clostridium difficile vaccine group and placebo group. 96.4% CI was estimated using Clopper-Pearson-Method.|||66.6|-38.7|
92233702|NCT03090191|184370248|SUPERIORITY|Lower bound of confidence interval greater than 20% demonstrate vaccine efficacy.|Vaccine efficacy|28.6|||||TWO_SIDED|96.4|-28.4|61.0|||||Vaccine efficacy(VE)=100\*(1-infection rate ratio\[IRR\]),IRR=calculated ratio of first primary CDI incidence between Clostridium difficile vaccine group and placebo group. 96.4% CI was estimated using Clopper-Pearson-Method.|||61.0|-28.4|
92233703|NCT03090191|184370257|SUPERIORITY||Vaccine efficacy|11.1|||||TWO_SIDED|98.2|-110.7|62.5|||||VE = 100\*(1 - Hazard Ratio). 98.2% CI was estimated using Proportional Means Model.|||62.5|-110.7|
92233704|NCT03090191|184370258|SUPERIORITY|||||||0.0172|||||||Wilcoxon Rank Sum Test (2-sided)|||||||0.0172
92233705|NCT03090191|184370259|SUPERIORITY||Ratio of proportions|0.0|||||TWO_SIDED|98.2|0.0|0.81||||||||0.81|0.00|
92416379|NCT02880956|184721159|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|0.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92385401|NCT00286494|184673669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3||||0.009|TWO_SIDED|95.0|-9.4|-1.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-1.3|-9.4|0.009
92385402|NCT00286494|184673669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.143|TWO_SIDED|95.0|-7.0|1.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.0|-7.0|0.143
92385403|NCT00286494|184673670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.08|TWO_SIDED|95.0|-8.6|0.5||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.5|-8.6|0.080
92385404|NCT00286494|184673670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.782|TWO_SIDED|95.0|-5.2|3.9||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.9|-5.2|0.782
92385405|NCT00286494|184673671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.249|TWO_SIDED|95.0|-2.68|0.7||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.70|-2.68|0.249
92385406|NCT00286494|184673671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88||||0.303|TWO_SIDED|95.0|-2.56|0.8||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.80|-2.56|0.303
92416380|NCT02880956|184721160|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.099||0.931|TWO_SIDED|95.0|-0.204|0.187||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.187|-0.204|0.931
92416381|NCT02880956|184721160|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|0.73|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416382|NCT02880956|184721160|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.097||0.187|TWO_SIDED|95.0|-0.32|0.063||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.063|-0.320|0.187
92233706|NCT03090191|184370260|SUPERIORITY||Vaccine efficacy|-69.3|||||TWO_SIDED|98.2|-1533.1|75.6|||||Vaccine efficacy(VE)=100\*(1-infection rate ratio\[IRR\]),IRR=calculated ratio of recurrent CDI incidence between Clostridium difficile vaccine group and placebo group. 98.2% CI was estimated using Clopper-Pearson-Method.|||75.6|-1533.1|
92233707|NCT03090191|184370261|SUPERIORITY||Vaccine efficacy|14.9|||||TWO_SIDED|98.2|-74.6|58.5|||||VE = 100\*(1 - Hazard Ratio). 98.2% CI was estimated using Proportional Means Model|||58.5|-74.6|
92233708|NCT03090191|184370262|SUPERIORITY||Vaccine efficacy|-102.4|||||TWO_SIDED|98.2|-1770.1|67.2|||||VE = 100\*(1 - IRR), where IRR= the calculated ratio of recurrent CDI incidence between the Clostridium difficile vaccine group and the placebo group. 98.2% CI was estimated using Clopper-Pearson-Method.|||67.2|-1770.1|
92233709|NCT03090191|184370263|SUPERIORITY||Vaccine efficacy|12.0|||||TWO_SIDED|98.2|-246.7|78.5|||||Vaccine efficacy(VE)=100\*(1-infection rate ratio\[IRR\]),IRR=calculated ratio of first primary CDI incidence between Clostridium difficile vaccine group and placebo group. 98.2% CI was estimated using Clopper-Pearson-Method.|||78.5|-246.7|
92385407|NCT00286494|184673672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.478|TWO_SIDED|95.0|-2.46|1.15||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.15|-2.46|0.478
92385408|NCT00286494|184673672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.674|TWO_SIDED|95.0|-1.41|2.17||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.17|-1.41|0.674
92385409|NCT00286494|184673673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.743|TWO_SIDED|95.0|-2.18|3.06||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.06|-2.18|0.743
92233710|NCT01521845|184370299|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.001
92233711|NCT01521845|184370300|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
92233712|NCT01521845|184370301|SUPERIORITY_OR_OTHER|||||||1||95.0|||||not comparable|||||||1
92233713|NCT03047005|184370302|SUPERIORITY|Analyses used all available data. Analyses to compare treatments were all intent-to-treat.||||||0.07|||||||Mixed Models Analysis|Analyses were performed for all randomized patients who attended the first treatment session. Model adjusted for stage 1 treatment condition.||||||.07
92385410|NCT00286494|184673673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.662|TWO_SIDED|95.0|-3.18|2.02||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.02|-3.18|0.662
92233714|NCT03047005|184370303|SUPERIORITY|Analyses used all available data. Analyses to compare treatments were all intent-to-treat.||||||0.01|||||||Mixed Models Analysis|Analyses were performed for all randomized patients who attended the first treatment session. Model adjusted for stage 1 treatment condition.||||||.01
92233715|NCT01244737|184370338|OTHER||Pearson correlation co-efficient|0.8|||<|0.001|TWO_SIDED|||||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|||This is a diagnostic test of FLT uptake (SUV max) as a predictor of cellular proliferation (MIB) and is performed as an analysis of correlation using each evaluable participant enrolled in either Arm 1 (New Diagnosis) or Arm 2 (Possible recurrent tumor). The groups (Arm 1 and Arm 2) provide pathways for enrollment. Correlation between the two measures of outcome (SUV max and MIB) is evaluated.||||< 0.001
92233716|NCT01244737|184370341|OTHER|Paired T-test to assess change in FLT uptake (SUV max) with chemotherapy.||||||0.04||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||||0.04
92233717|NCT00736229|184370342|SUPERIORITY_OR_OTHER||||||<|0.001||||||Comparison for the difference in Median glucose values during steady state across all three groups.|Kruskal-Wallis|||Median Glucose Values (mg/dl) after steady state were evaluated across the three groups (Exenatide,Moderate and Intensive) with a Kruskal-Wallis test.||||<0.001
92233718|NCT00736229|184370342|SUPERIORITY_OR_OTHER||||||<|0.001||||||Comparison of Median Glucose Values between Exenatide and Intensive Groups.|Wilcoxon (Mann-Whitney)|||Median Glucose Values (mg/dl) after steady state were evaluated between the Exenatide and Intensive study groups using a Wilcoxon Rank Sum tests.||||<0.001
92233719|NCT00736229|184370342|SUPERIORITY_OR_OTHER|||||||0.15||||||Comparison of Median Glucose Values between Exenatide and Moderate Groups.|Wilcoxon (Mann-Whitney)|||Median Glucose Values (mg/dl) after steady state were evaluated between the Exenatide and Moderate study groups using a Wilcoxon Rank Sum tests.||||0.15
92233720|NCT00736229|184370343|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Kruskal-Wallis|||Median Time (Hrs) to steady state was evaluated across the three groups (exenatide, moderate and intensive) with a Kruskal-Wallis test.||||<0.001
92233721|NCT00736229|184370343|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||Median time (hours) to steady state were evaluated between the Exenatide and Intensive study groups using a Wilcoxon Rank Sum tests.||||0.80
92233722|NCT00736229|184370343|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Median time (hours) to steady state were evaluated between the Exenatide and Moderate study groups using a Wilcoxon Rank Sum tests.||||<0.001
92233723|NCT00356915|184370353|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|This was stratified by analysis center.||P-Value from a Cochran-Mantel-Haenszel test, . The superiority analysis was restricted to the itraconazole 200-mg tablets and placebo tablets dosing groups.||||<0.001
92233724|NCT00356915|184370354|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority was established if the lower limit of the one-sided, 97.5% CI in the observed difference between the proportions of subjects by study drug with Complete Cure at week 52 (itraconazole 200-mg tablets minus itraconazole 100-mg capsules) was greater than -10%. No p-value was calculated for this endpoint.|Wald's CI|0.56|||||ONE_SIDED|97.5|-4.3||||Wald's CI|The statistical analysis used Wald's CI with Yates' continuity correction.||Comparison between the 2 itraconazole groups was based on lower bound of the 97.5% confidence interval for the difference. The non-inferiority analysis was restricted to the active dosing groups.|||-4.3|
92233725|NCT00356915|184370355|NON_INFERIORITY_OR_EQUIVALENCE|The assumption was that the Complete Cure rate at week 52 was 35% for the active dosing groups, a sample size of 552 ITT subjects per active group would have had a 93% power for testing the proportion of subjects with Complete Cure. These computations assumed a non inferiority margin of 10% and a one-sided significance level of 0.025. Power computations were performed using nQuery Advisor, Version 5.0.|Mean Difference (Final Values)|10.0|||<|0.001|ONE_SIDED|97.5|-1.1||||Wald's CI|The statistical analysis used Wald's CI with Yates' continuity correction.||The test for demonstrating non-inferiority was based on a margin of 10%. Thus, non-inferiority was established if the lower limit of the one-sided, 97.5% CI in the observed difference between the proportions of subjects by study drug with Complete Cure at week 52 (itraconazole 200-mg tablets minus itraconazole 100-mg capsules) was greater than -10%. The non-inferiority analysis was restricted to the active dosing groups.|||-1.1|< 0.001
92233726|NCT00356915|184370356|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|This was stratified by analysis center.||The superiority analysis was restricted to the itraconazole 200-mg tablets and placebo tablets dosing groups.||||<0.001
92233727|NCT02371629|184370367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.033|STANDARD_ERROR_OF_MEAN|0.0169||0.051|TWO_SIDED|95.0|0.0|0.066|||Mixed model for repeated measure (MMRM)|||||0.066|0.000|0.051
92233728|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|-2.0|||||TWO_SIDED|95.0|-7.65|2.88||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||2.88|-7.65|
92233729|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|-14.9|||||TWO_SIDED|95.0|-26.4|-3.21||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||-3.21|-26.40|
92233730|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|0.06|||||TWO_SIDED|95.0|-5.84|6.05||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||6.05|-5.84|
92416383|NCT02880956|184721160|SUPERIORITY||Effect size/pooled SD|0.16|STANDARD_DEVIATION|0.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92233731|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|2.06|||||TWO_SIDED|95.0|-1.71|7.25||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||7.25|-1.71|
92233732|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|2.12|||||TWO_SIDED|95.0|-4.09|8.89||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||8.89|-4.09|
92385411|NCT00286494|184673674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75||||0.39|TWO_SIDED|95.0|-0.96|2.45||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.45|-0.96|0.390
92385412|NCT00286494|184673674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69||||0.423|TWO_SIDED|95.0|-1.0|2.38||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.38|-1.00|0.423
92385413|NCT00286494|184673675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.807|TWO_SIDED|95.0|-1.87|1.46||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.46|-1.87|0.807
92385414|NCT00286494|184673675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.867|TWO_SIDED|95.0|-1.79|1.51||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.51|-1.79|0.867
92385415|NCT00286494|184673676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.483|TWO_SIDED|95.0|-1.1|2.33||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.33|-1.10|0.483
92233733|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|0.02|||||TWO_SIDED|95.0|-4.54|4.68||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.68|-4.54|
92233734|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|-6.92|||||TWO_SIDED|95.0|-16.19|1.89||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||1.89|-16.19|
92233735|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|-1.94|||||TWO_SIDED|95.0|-9.07|4.86||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.86|-9.07|
92233736|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|-4.86|||||TWO_SIDED|95.0|-14.4|4.39||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.39|-14.40|
92385416|NCT00286494|184673676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81||||0.352|TWO_SIDED|95.0|-0.89|2.51||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.51|-0.89|0.352
92385417|NCT00286494|184673677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.057||||0.001|TWO_SIDED|95.0|-0.092|-0.022||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.022|-0.092|0.001
92233737|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|-19.0|||||TWO_SIDED|95.0|-30.1|-7.16||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||-7.16|-30.10|
92233738|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|-12.19|||||TWO_SIDED|95.0|-21.66|-3.26||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||-3.26|-21.66|
92233739|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|0.02|||||TWO_SIDED|95.0|-4.54|4.68||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.68|-4.54|
92233740|NCT01193335|184370382|SUPERIORITY_OR_OTHER||Percent difference|0.02|||||TWO_SIDED|95.0|-4.54|4.68||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.68|-4.54|
92233741|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.8|||||TWO_SIDED|95.0|0.62|1.02||||||Serotype 4: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.02|0.62|
92233742|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.56|||||TWO_SIDED|95.0|0.38|0.82||||||Serotype 6B: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.82|0.38|
92233743|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.74|||||TWO_SIDED|95.0|0.59|0.93||||||Serotype 9V: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.93|0.59|
92233744|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|1.23|||||TWO_SIDED|95.0|0.92|1.65||||||Serotype 14: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.65|0.92|
92278369|NCT02277769|184458773|SUPERIORITY||difference in percentages|36.3|||<|0.0001|TWO_SIDED|95.0|28.69|43.81||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.025 level. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||43.81|28.69|< 0.0001
92278370|NCT02277769|184458774|SUPERIORITY||difference in percentages|26.5|||<|0.0001|TWO_SIDED|95.0|19.13|33.87||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||33.87|19.13|< 0.0001
92278371|NCT02277769|184458774|SUPERIORITY||difference in percentages|29.5|||<|0.0001|TWO_SIDED|95.0|22.11|36.95||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||36.95|22.11|< 0.0001
92278372|NCT02277769|184458775|SUPERIORITY||difference in percentages|37.8|||<|0.0001|TWO_SIDED|95.0|30.03|45.6||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||45.60|30.03|< 0.0001
92278373|NCT02277769|184458775|SUPERIORITY||difference in percentages|36.3|||<|0.0001|TWO_SIDED|95.0|28.56|44.06||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||44.06|28.56|< 0.0001
92278374|NCT02277769|184458776|SUPERIORITY||LS mean difference|-28.9|||<|0.0001|TWO_SIDED|95.0|-36.04|-21.83||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-21.83|-36.04|< 0.0001
92278375|NCT02277769|184458776|SUPERIORITY||Least square (LS) mean difference|-32.8|||<|0.0001|TWO_SIDED|95.0|-40.2|-25.49||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.49|-40.20|< 0.0001
92278376|NCT02277769|184458777|SUPERIORITY||difference in percentages|16.3|||<|0.0001|TWO_SIDED|95.0|9.99|22.68||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||22.68|9.99|< 0.0001
92278377|NCT02277769|184458777|SUPERIORITY||difference in percentages|21.3|||<|0.0001|TWO_SIDED|95.0|14.66|27.93||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||27.93|14.66|< 0.0001
92169537|NCT00402246|184227622|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.29|ONE_SIDED|95.0||2.56||Model was fit with device group (CRT-D vs. DR-ICD) as a stratifying variable.|Andersen-Gill model|||An Andersen-Gill proportional hazards regression model was fit to test the hypothesis that the hazard rate of transesophageal echocardiography (TEE) taken for patients in the remote arm is equal to that of similar patients in the in-office arm.||2.56||0.29
92169538|NCT00402246|184227625|SUPERIORITY_OR_OTHER||probability|0.23||||||95.0|||||Regression, Logistic|A GEE model was utilized to account for multiple events within same patient in estimating the probability of an AT/AF alert event being symptomatic.||||||
92169539|NCT00402246|184227627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|4.3||0.779|TWO_SIDED|95.0|-0.8|1.0||The a priori threshold for significance was an alpha level of 0.05.|t-test, 2 sided|||The null hypothesis is that the time from event onset to clinical decision for symptom-driven device interrogations for patients followed through the remote management system is greater than and equal to that of patients receiving only in-office care.||1.0|-0.8|0.779
92278378|NCT02277769|184458778|SUPERIORITY||difference in percentages|9.8|||<|0.0001|TWO_SIDED|95.0|5.54|13.98||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||13.98|5.54|< 0.0001
92278379|NCT02277769|184458778|SUPERIORITY||difference in percentages|11.8|||<|0.0001|TWO_SIDED|95.0|7.31|16.32||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||16.32|7.31|< 0.0001
92278380|NCT02277769|184458779|SUPERIORITY||LS mean difference|-2.1|||<|0.0001|TWO_SIDED|95.0|-2.605|-1.587||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-1.587|-2.605|< 0.0001
92278381|NCT02277769|184458779|SUPERIORITY||LS mean difference|-2.47|||<|0.0001|TWO_SIDED|95.0|-2.982|-1.957||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-1.957|-2.982|< 0.0001
92278382|NCT02277769|184458780|SUPERIORITY||LS mean difference|-36.2|||<|0.0001|TWO_SIDED|95.0|-43.46|-28.86|||ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-28.86|-43.46|< 0.0001
92278383|NCT02277769|184458780|SUPERIORITY||LS mean difference|-38.2|||<|0.0001|TWO_SIDED|95.0|-45.55|-30.88||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.88|-45.55|< 0.0001
92278384|NCT02277769|184458781|SUPERIORITY||difference in percentages|43.2|||<|0.0001|TWO_SIDED|95.0|35.12|51.29||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||51.29|35.12|< 0.0001
92233745|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|1.0|||||TWO_SIDED|95.0|0.8|1.25||||||Serotype 18C: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.25|0.80|
92233746|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.72|||||TWO_SIDED|95.0|0.58|0.9||||||Serotype 19F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.90|0.58|
92233747|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.64|||||TWO_SIDED|95.0|0.47|0.86||||||Serotype 23F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.86|0.47|
92233748|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.7|||||TWO_SIDED|95.0|0.55|0.89||||||Serotype 1: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.89|0.55|
92233749|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.96|||||TWO_SIDED|95.0|0.77|1.19||||||Serotype 3: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.19|0.77|
92233750|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.54|||||TWO_SIDED|95.0|0.4|0.72||||||Serotype 5: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.72|0.40|
92233751|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.61|||||TWO_SIDED|95.0|0.45|0.82||||||Serotype 6A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.82|0.45|
92233752|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.71|||||TWO_SIDED|95.0|0.57|0.88||||||Serotype 7F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.88|0.57|
92416384|NCT02880956|184721160|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.961|TWO_SIDED|95.0|-0.191|0.201||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.201|-0.191|0.961
92233753|NCT01193335|184370383|SUPERIORITY_OR_OTHER||GMC ratio|0.85|||||TWO_SIDED|95.0|0.68|1.07||||||Serotype 19: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.07|0.68|
92233754|NCT01193335|184370392|SUPERIORITY_OR_OTHER|||||||0.668|TWO_SIDED||||||Fisher Exact|||AEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.668
92233755|NCT01193335|184370392|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED||||||Fisher Exact|||SAEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.051
92233756|NCT01193335|184370393|SUPERIORITY_OR_OTHER|||||||0.704|TWO_SIDED||||||Fisher Exact|||AEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.704
92233757|NCT01193335|184370393|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Fisher Exact|||SAEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||>0.99
92233758|NCT01193335|184370394|SUPERIORITY_OR_OTHER|||||||0.531|TWO_SIDED||||||Fisher Exact|||AEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.531
92233759|NCT01193335|184370394|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Fisher Exact|||SAEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||>0.99
92233760|NCT01193335|184370395|SUPERIORITY_OR_OTHER|||||||0.183|TWO_SIDED||||||Fisher Exact|||AEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.183
92233761|NCT01193335|184370395|SUPERIORITY_OR_OTHER|||||||0.357|TWO_SIDED||||||Fisher Exact|||SAEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.357
92233762|NCT01193335|184370396|SUPERIORITY_OR_OTHER|||||||0.794|TWO_SIDED||||||Fisher Exact|||AEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.794
92233763|NCT01193335|184370396|SUPERIORITY_OR_OTHER|||||||0.782|TWO_SIDED||||||Fisher Exact|||SAEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.782
92233764|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR Ratio|0.85|||||TWO_SIDED|95.0|0.63|1.14||||||Serotype 4: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.14|0.63|
92233765|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|1.24|||||TWO_SIDED|95.0|0.95|1.62||||||Serotype 6B: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.62|0.95|
92233766|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|1.19|||||TWO_SIDED|95.0|0.96|1.47||||||Serotype 9V: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.47|0.96|
92233767|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|0.97|||||TWO_SIDED|95.0|0.74|1.26||||||Serotype 14: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.26|0.74|
92385418|NCT00286494|184673677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.059||||0.001|TWO_SIDED|95.0|-0.093|-0.024||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.024|-0.093|0.001
92385419|NCT00286494|184673678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.049||||0.006|TWO_SIDED|95.0|-0.084|-0.014||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.014|-0.084|0.006
92233768|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|0.8|||||TWO_SIDED|95.0|0.63|1.02||||||Serotype 18C: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.02|0.63|
92233769|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|0.88|||||TWO_SIDED|95.0|0.65|1.19||||||Serotype 19F: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.19|0.65|
92233770|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|1.0|||||TWO_SIDED|95.0|0.74|1.33||||||Serotype 23F: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale.||1.33|0.74|
92233771|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|0.84|||||TWO_SIDED|95.0|0.64|1.11||||||Serotype 1: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale.||1.11|0.64|
92233772|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|1.46|||||TWO_SIDED|95.0|1.03|2.05||||||Serotype 3: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||2.05|1.03|
92385420|NCT00286494|184673678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.051||||0.004|TWO_SIDED|95.0|-0.086|-0.016||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.016|-0.086|0.004
92385421|NCT00286494|184673679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046||||0.05|TWO_SIDED|95.0|-0.092|0.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.000|-0.092|0.050
92416385|NCT02880956|184721160|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|0.73|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416386|NCT02880956|184721160|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.124||0.894|TWO_SIDED|95.0|-0.26|0.227||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.227|-0.260|0.894
92233773|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|1.0|||||TWO_SIDED|95.0|0.81|1.24||||||Serotype 5: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.24|0.81|
92416387|NCT02880956|184721160|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|0.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92233774|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|1.36|||||TWO_SIDED|95.0|1.02|1.82||||||Serotype 6A: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.82|1.02|
92233775|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|0.96|||||TWO_SIDED|95.0|0.78|1.18||||||Serotype 7F: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.18|0.78|
92233776|NCT01193335|184370397|SUPERIORITY_OR_OTHER||GMFR ratio|1.15|||||TWO_SIDED|95.0|0.88|1.52||||||Serotype 19A: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.52|0.88|
92233777|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
92233778|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|-2.33|||||TWO_SIDED|95.0|-8.15|1.96||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||1.96|-8.15|
92233779|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
92233780|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
92233781|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|1.15|||||TWO_SIDED|95.0|-3.13|6.24||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||6.24|-3.13|
92233782|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
92385422|NCT00286494|184673679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.057||||0.014|TWO_SIDED|95.0|-0.102|-0.012||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.012|-0.102|0.014
92385423|NCT00286494|184673680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.027||||0.144|TWO_SIDED|95.0|-0.064|0.009||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.009|-0.064|0.144
92385424|NCT00286494|184673680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.105|TWO_SIDED|95.0|-0.067|0.006||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.006|-0.067|0.105
92233783|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|-1.16|||||TWO_SIDED|95.0|-6.32|3.1||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||3.10|-6.32|
92233784|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
92233785|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|-8.72|||||TWO_SIDED|95.0|-21.93|4.42||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.42|-21.93|
92233786|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
92233787|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
92233788|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
92233789|NCT01193335|184370399|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
92233790|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.76|||||TWO_SIDED|95.0|0.6|0.97||||||Serotype 4: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the ratio difference of the logarithms of the measures.||0.97|0.60|
92233791|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.51|||||TWO_SIDED|95.0|0.39|0.66||||||Serotype 6B: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.66|0.39|
92233792|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.64|||||TWO_SIDED|95.0|0.51|0.8||||||Serotype 9V: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.80|0.51|
92233793|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.66|1.12||||||Serotype 14: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the ratio difference of the logarithms of the measures.||1.12|0.66|
92233794|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|1.06|||||TWO_SIDED|95.0|0.85|1.32||||||Serotype 18C: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the ratio difference of the logarithms of the measures.||1.32|0.85|
92233795|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.73|||||TWO_SIDED|95.0|0.58|0.92||||||Serotype 19F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the ratio difference of the logarithms of the measures.||0.92|0.58|
92233796|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.6|||||TWO_SIDED|95.0|0.43|0.83||||||Serotype 23F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.83|0.43|
92233797|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.77|1.2||||||Serotype 1: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.20|0.77|
92233798|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.6|||||TWO_SIDED|95.0|0.41|0.87||||||Serotype 3: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.87|0.41|
92233799|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.7|||||TWO_SIDED|95.0|0.56|0.88||||||Serotype 5: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.88|0.56|
92233800|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.54|||||TWO_SIDED|95.0|0.41|0.7||||||Serotype 6A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.70|0.41|
92233801|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.71|1.03||||||Serotype 7F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.03|0.71|
92233802|NCT01193335|184370401|SUPERIORITY_OR_OTHER||GMC Ratio|0.55|||||TWO_SIDED|95.0|0.42|0.72||||||Serotype 19A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.72|0.42|
92233803|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.65|||||TWO_SIDED|95.0|0.51|0.82||||||Serotype 4: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.82|0.51|
92233804|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.61|||||TWO_SIDED|95.0|0.47|0.79||||||Serotype 6B: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.79|0.47|
92233805|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.61|0.93||||||Serotype 9V: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.93|0.61|
92233806|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.66|1.07||||||Serotype 14: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.07|0.66|
92233807|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.66|1.08||||||Serotype 18C: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.08|0.66|
92233808|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.63|||||TWO_SIDED|95.0|0.48|0.83||||||Serotype 19F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.83|0.48|
92233809|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.61|||||TWO_SIDED|95.0|0.46|0.79||||||Serotype 23F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.79|0.46|
92233810|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.64|1.03||||||Serotype 1: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.03|0.64|
92233811|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.73|1.15||||||Serotype 3: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.15|0.73|
92233812|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.71|||||TWO_SIDED|95.0|0.58|0.87||||||Serotype 5: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.87|0.58|
92233813|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.72|||||TWO_SIDED|95.0|0.57|0.9||||||Serotype 6A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.90|0.57|
92233814|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.69|1.0||||||Serotype 7F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.00|0.69|
92233815|NCT01193335|184370402|SUPERIORITY_OR_OTHER||GMC Ratio|0.63|||||TWO_SIDED|95.0|0.49|0.81||||||Serotype 19A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.81|0.49|
92233816|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.63|1.04||||||Serotype 4: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.04|0.63|
92233817|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.63|||||TWO_SIDED|95.0|0.48|0.83||||||Serotype 6B: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.83|0.48|
92233818|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.62|||||TWO_SIDED|95.0|0.46|0.84||||||Serotype 9V: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.84|0.46|
92416388|NCT02880956|184721160|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.121||0.917|TWO_SIDED|95.0|-0.226|0.251||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.251|-0.226|0.917
92416389|NCT02880956|184721160|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92169540|NCT00402246|184227628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.0|STANDARD_DEVIATION|19.1|<|0.001|TWO_SIDED|95.0|-13.1|-6.9||The a priori threshold for significance was an alpha level of 0.05.|t-test, 2 sided|||The null hypothesis is the time from event onset to clinical decision for both device events and symptom-driven device interrogations for patients followed through the remote management system is greater than and equal to that of patients receiving only in-office care.||-6.9|-13.1|<0.001
92233819|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.61|1.12||||||Serotype 14: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.12|0.61|
92233820|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.5|||||TWO_SIDED|95.0|0.37|0.67||||||Serotype 18C: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.67|0.37|
92233821|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.54|||||TWO_SIDED|95.0|0.4|0.72||||||Serotype 19F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.72|0.40|
92233822|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.47|||||TWO_SIDED|95.0|0.35|0.64||||||Serotype 23F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.64|0.35|
92233823|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.76|||||TWO_SIDED|95.0|0.61|0.94||||||Serotype 1: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.94|0.61|
92233824|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.59|||||TWO_SIDED|95.0|0.39|0.9||||||Serotype 3: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.90|0.39|
92233825|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.67|||||TWO_SIDED|95.0|0.52|0.87||||||Serotype 5: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.87|0.52|
92233826|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.68|||||TWO_SIDED|95.0|0.52|0.88||||||Serotype 6A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.88|0.52|
92233827|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.67|1.02||||||Serotype 7F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.02|0.67|
92233828|NCT01193335|184370403|SUPERIORITY_OR_OTHER||GMC Ratio|0.51|||||TWO_SIDED|95.0|0.36|0.72||||||Serotype 19A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.72|0.36|
92385425|NCT00286494|184673681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.059||||0.004|TWO_SIDED|95.0|-0.1|-0.019||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.019|-0.100|0.004
92233829|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.61|1.03||||||Serotype 4: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.03|0.61|
92233830|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.53|||||TWO_SIDED|95.0|0.38|0.76||||||Serotype 6B: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.76|0.38|
92233831|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.74|||||TWO_SIDED|95.0|0.54|1.03||||||Serotype 9V: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.03|0.54|
92233832|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.77|||||TWO_SIDED|95.0|0.51|1.17||||||Serotype 14: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.17|0.51|
92233833|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.56|||||TWO_SIDED|95.0|0.4|0.78||||||Serotype 18C: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.78|0.40|
92233834|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.45|||||TWO_SIDED|95.0|0.29|0.71||||||Serotype 19F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.71|0.29|
92233835|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.56|||||TWO_SIDED|95.0|0.38|0.83||||||Serotype 23F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.83|0.38|
92385426|NCT00286494|184673681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.051||||0.012|TWO_SIDED|95.0|-0.092|-0.011||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.011|-0.092|0.012
92233836|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.63|1.07||||||Serotype 1: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.07|0.63|
92233837|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.66|||||TWO_SIDED|95.0|0.39|1.11||||||Serotype 3: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.11|0.39|
92233838|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.68|||||TWO_SIDED|95.0|0.5|0.92||||||Serotype 5: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.92|0.50|
92233839|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.67|||||TWO_SIDED|95.0|0.47|0.95||||||Serotype 6A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.95|0.47|
92233840|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.7|1.13||||||Serotype 7F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.13|0.70|
92233841|NCT01193335|184370404|SUPERIORITY_OR_OTHER||GMC Ratio|0.53|||||TWO_SIDED|95.0|0.37|0.78||||||Serotype 19A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.78|0.37|
92233842|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|0.99|1.81||||||Serotype 4: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.81|0.99|
92233843|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.59|2.2||||||Serotype 6B: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.20|0.59|
92233844|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.26|1.93||||||Serotype 9V: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.93|0.26|
92278385|NCT02277769|184458781|SUPERIORITY||difference in percentages|39.1|||<|0.0001|TWO_SIDED|95.0|30.92|47.19||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||47.19|30.92|< 0.0001
92233845|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|0.8|1.98||||||Serotype 14: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.98|0.80|
92233846|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|1.4|||||TWO_SIDED|95.0|1.01|2.0||||||Serotype 18C: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.00|1.01|
92233847|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|1.2|||||TWO_SIDED|95.0|0.82|1.89||||||Serotype 19F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.89|0.82|
92233848|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|0.8|1.99||||||Serotype 23F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.99|0.80|
92233849|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.56|1.15||||||Serotype 1: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.15|0.56|
92233850|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.83|1.41||||||Serotype 3: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.41|0.83|
92233851|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.36|0.94||||||Serotype 5: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.94|0.36|
92233852|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|1.2|||||TWO_SIDED|95.0|0.88|1.68||||||Serotype 6A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.68|0.88|
92416390|NCT02880956|184721160|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.124||0.639|TWO_SIDED|95.0|-0.186|0.303||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.303|-0.186|0.639
92233853|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.78|1.39||||||Serotype 7F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.39|0.78|
92233854|NCT01193335|184370410|SUPERIORITY_OR_OTHER||GMT Ratio|1.2|||||TWO_SIDED|95.0|0.89|1.51||||||Serotype 19A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.51|0.89|
92233855|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.37|1.44||||||Serotype 4: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.44|0.37|
92233856|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.37|1.71||||||Serotype 6B: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.71|0.37|
92233857|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|1.5|||||TWO_SIDED|95.0|0.76|3.12||||||Serotype 9V: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||3.12|0.76|
92233858|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.33|1.17||||||Serotype 14: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.17|0.33|
92233859|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.24|1.55||||||Serotype 18C: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.55|0.24|
92233860|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|0.97|1.77||||||Serotype 19F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.77|0.97|
92278386|NCT02277769|184458782|SUPERIORITY||difference in percentages|22.8|||<|0.0001|TWO_SIDED|95.0|16.09|29.59||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||29.59|16.09|< 0.0001
92169541|NCT00402246|184227629|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.82||||0.002|TWO_SIDED|95.0|0.7|0.9||The a priori threshold for statistical significance was 0.05. The threshold was met, and the null hypothesis was rejected.|negative binomial model|||The null hypothesis was that the mean LOS per hospitalization visit for patients in the remote arm was equal to that for similar patients in the in-office arm.||0.9|0.7|0.002
92169542|NCT00402246|184227630|SUPERIORITY_OR_OTHER||compliance rate|0.761|||||ONE_SIDED|95.0|0.737||||Binomial Exact Test|||3-month compliance rate|||0.737|
92233861|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.35|1.46||||||Serotype 23F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.46|0.35|
92233862|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|1.0|1.6||||||Serotype 1: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.60|1.00|
92416391|NCT02880956|184721160|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92169543|NCT00402246|184227630|SUPERIORITY_OR_OTHER||compliance rate|0.815|||||ONE_SIDED|95.0|0.793||||Binomial Exact Test|||6-month compliance rate|||0.793|
92169544|NCT00402246|184227630|SUPERIORITY_OR_OTHER||compliance rate|0.815|||||ONE_SIDED|95.0|0.792||||Binomial Exact Test|||9-month compliance rate|||0.792|
92169545|NCT00402246|184227630|SUPERIORITY_OR_OTHER||compliance rate|0.814|||||ONE_SIDED|95.0|0.79||||Binomial Exact Test|||12-month compliance rate|||0.79|
92169546|NCT00402246|184227632|SUPERIORITY_OR_OTHER|||||||0.217||95.0||||The a prior threshold for statistical significance was 0.05.|Mixed Models Analysis|Model was fit with randomization arm, device group (CRT-D vs. DR-ICD), and follow-up visit as fixed effects, and subject as a random effect.||A mixed model was fit to test whether patients followed through the remote management system will experience less anxiety than patients followed through in-office care.||||0.217
92169547|NCT00402246|184227633|SUPERIORITY_OR_OTHER|||||||0.154||95.0||||The a priori threshold for statistical significance for was 0.05.|Mixed Models Analysis|Model was fit with randomization arm, device group (CRT-D vs. DR-ICD), and follow-up visit as fixed effects, and subject as a random effect.||A mixed model was fit to test whether patients followed through the remote management system will experience less anxiety than patients followed through in-office care.||||0.154
92169548|NCT00431834|184227639|SUPERIORITY_OR_OTHER||binomial proportions|37.7|||<|0.0041|ONE_SIDED|97.5|25.6|||The percent of patients off Class I and III AADs and successfully converted out of AF following treatment (ptest) will exceed the percenter of patients off Class I and III AADs and convereted out of AF, as reported in literature (pcontrol=22.1%)|Fisher Exact|||"The specific test hypothesis is as follows:~H0: ptest ≤ 22.1% Ha: ptest \> 22.1%"|||25.6|<0.0041
92169549|NCT00431834|184227642|SUPERIORITY_OR_OTHER||binomial proportions|5.3|||<|0.0001|ONE_SIDED|97.5||13.1||The percent of subjects following treatment, p, who experience any of the MAEs during the first 30 days following surgery, or hospital discharge, whichever is longer will be less than 23.6%.|Fisher Exact|||"The specific test hypothesis is as follows:~H0: p ≥ 23.6% Ha: p \< 23.6%"||13.1||<0.0001
92169550|NCT02622568|184227670|NON_INFERIORITY|Veregen alone has efficacy compared to Veregen + cryotherapy|Mean Difference (Final Values)|1.556||||0.383|TWO_SIDED|||||Comparison at week 12|t-test, 2 sided|||||||0.383
92169551|NCT02622568|184227670|NON_INFERIORITY|Comparison at week 0|Mean Difference (Final Values)|-0.222||||0.81|TWO_SIDED||||||t-test, 2 sided|||||||0.81
92169552|NCT00324350|184227671|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.678|TWO_SIDED|95.0|0.86|1.27||Analyses were by intention to treat. All analyses adjusted for baseline cardiovascular disease, assignment to blood pressure (BP) trial or lipid trial, assignment to intensive BP intervention in BP trial, and assignment to fibrate in lipid trial.|Regression, Cox|||The BONE ancillary study was designed to have 80% power to detect a relative reduction in risk of non-spine clinical fractures of 22-29%. This was based on an estimated total number of fractures between 259-494, calculated with the following assumptions: rate of clinical non-spine fracture among women in the standard glycemia therapy group between 15 and 25/1000 person yrs, fracture rates for men between 35-40% of the rates for women of the same age, and an avg follow-up time of 4.6 yrs.||1.27|0.86|0.678
92169553|NCT00324350|184227672|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.49|TWO_SIDED|95.0|0.84|1.43|||Regression, Cox|||Number of participants with falls reported at each annual visit were compared by treatment assignment using a repeated-measures negative binomial model, with robust standard errors to account for clustering of the repeated outcomes within participants; the log of the length of the reporting period varied slightly and was included as an offset||1.43|0.84|0.490
92233863|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.68|1.33||||||Serotype 3: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.33|0.68|
92233864|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.82|1.31||||||Serotype 5: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.31|0.82|
92233865|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.24|1.04||||||Serotype 6A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.04|0.24|
92233866|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|1.2|||||TWO_SIDED|95.0|0.58|2.53||||||Serotype 7F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.53|0.58|
92278387|NCT02277769|184458782|SUPERIORITY||difference in percentages|23.3|||<|0.0001|TWO_SIDED|95.0|16.63|30.05||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||30.05|16.63|< 0.0001
92278388|NCT02277769|184458783|SUPERIORITY||LS mean difference|-17.99|||<|0.0001|TWO_SIDED|95.0|-22.062|-13.927||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13.927|-22.062|< 0.0001
92278389|NCT02277769|184458783|SUPERIORITY||LS mean difference|-19.51|||<|0.0001|TWO_SIDED|95.0|-23.491|-15.529||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-15.529|-23.491|< 0.0001
92416392|NCT02880956|184721161|SUPERIORITY||LS Mean of Difference|-1.57|STANDARD_ERROR_OF_MEAN|2.175||0.47|TWO_SIDED|95.0|-5.851|2.703||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.703|-5.851|0.470
92233867|NCT01193335|184370411|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.52|1.37||||||Serotype 19A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.37|0.52|
92233868|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.45|0.97||||||Serotype 4: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.97|0.45|
92233869|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.54|1.4||||||Serotype 6B: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.40|0.54|
92233870|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.41|1.31||||||Serotype 9V: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.31|0.41|
92233871|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.54|1.14||||||Serotype 14: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.14|0.54|
92233872|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.34|0.87||||||Serotype 18C: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.87|0.34|
92233873|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.31|1.1||||||Serotype 19F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.10|0.31|
92233874|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.4|1.01||||||Serotype 23F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.01|0.40|
92233875|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.38|0.81||||||Serotype 1: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.81|0.38|
92233876|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.76|1.17||||||Serotype 3: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.17|0.76|
92233877|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.45|0.91||||||Serotype 5: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.91|0.45|
92278390|NCT02277769|184458784|SUPERIORITY||LS mean difference|-31.4|||<|0.0001|TWO_SIDED|95.0|-37.36|-25.4||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.40|-37.36|< 0.0001
92278391|NCT02277769|184458784|SUPERIORITY||LS mean difference|-33.8|||<|0.0001|TWO_SIDED|95.0|-39.75|-27.8||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-27.80|-39.75|< 0.0001
92278392|NCT02277769|184458785|SUPERIORITY||LS mean difference|-5.7|||<|0.0001|TWO_SIDED|95.0|-6.86|-4.47||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-4.47|-6.86|< 0.0001
92278393|NCT02277769|184458785|SUPERIORITY||LS mean difference|-5.9|||<|0.0001|TWO_SIDED|95.0|-7.1|-4.72||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-4.72|-7.10|< 0.0001
92278394|NCT02277769|184458786|SUPERIORITY||LS mean difference|-7.0|||<|0.0001|TWO_SIDED|95.0|-8.36|-5.57||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-5.57|-8.36|< 0.0001
92385427|NCT00286494|184673682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.028|TWO_SIDED|95.0|-0.095|-0.005||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.005|-0.095|0.028
92233878|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.47|0.85||||||Serotype 6A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.85|0.47|
92416393|NCT02880956|184721161|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|15.44|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92233879|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.15||||||Serotype 7F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.15|0.74|
92233880|NCT01193335|184370412|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.52|0.88||||||Serotype 19A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.88|0.52|
92233881|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.35|2.05||||||Serotype 4: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.05|0.35|
92233882|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.41|2.63||||||Serotype 6B: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.63|0.41|
92233883|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.22|1.53||||||Serotype 9V: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.53|0.22|
92233884|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.38|1.44||||||Serotype 14: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.44|0.38|
92233885|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|0.3|||||TWO_SIDED|95.0|0.1|0.76||||||Serotype 18C: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.76|0.10|
92233886|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.25|1.3||||||Serotype 19F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.30|0.25|
92233887|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|0.3|||||TWO_SIDED|95.0|0.11|0.65||||||Serotype 23F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.65|0.11|
92233888|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.81|1.32||||||Serotype 1: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.32|0.81|
92233889|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.56|1.37||||||Serotype 3: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.37|0.56|
92233890|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.51|1.23||||||Serotype 5: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.23|0.51|
92233891|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|0.4|||||TWO_SIDED|95.0|0.17|0.86||||||Serotype 6A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.86|0.17|
92233892|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.64|1.97||||||Serotype 7F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.97|0.64|
92233893|NCT01193335|184370413|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.27|0.97||||||Serotype 19A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.97|0.27|
92278395|NCT02277769|184458786|SUPERIORITY||LS mean difference|-8.0|||<|0.0001|TWO_SIDED|95.0|-9.36|-6.64||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-6.64|-9.36|< 0.0001
92385428|NCT00286494|184673682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.038||||0.093|TWO_SIDED|95.0|-0.082|0.006||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.006|-0.082|0.093
92233894|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.33|2.37||||||Serotype 4: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.37|0.33|
92233895|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.37|3.07||||||Serotype 6B: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||3.07|0.37|
92233896|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|1.7|||||TWO_SIDED|95.0|0.57|5.36||||||Serotype 9V: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||5.36|0.57|
92233897|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.38|2.07||||||Serotype 14: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.07|0.38|
92233898|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.18|1.21||||||Serotype 18C: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.21|0.18|
92233899|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.27|1.53||||||Serotype 19F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.53|0.27|
92233900|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|0.4|||||TWO_SIDED|95.0|0.17|1.15||||||Serotype 23F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.15|0.17|
92385429|NCT00286494|184673683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012||||0.928|TWO_SIDED|95.0|-0.28|0.255||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.255|-0.280|0.928
92233901|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.96|1.31||||||Serotype 1: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.31|0.96|
92233902|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.41|1.14||||||Serotype 3: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.14|0.41|
92233903|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.49|0.92||||||Serotype 5: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.92|0.49|
92233904|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|0.4|||||TWO_SIDED|95.0|0.16|1.03||||||Serotype 6A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.03|0.16|
92233905|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.27|1.48||||||Serotype 7F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.48|0.27|
92233906|NCT01193335|184370414|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.22|0.91||||||Serotype 19A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.91|0.22|
92233907|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.33|5.99||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.99|-6.33|
92233908|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|-4.89|||||TWO_SIDED|95.0|-16.87|5.39||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.39|-16.87|
92233909|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|-6.85|||||TWO_SIDED|95.0|-24.28|10.67||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||10.67|-24.28|
92233910|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|3.03|||||TWO_SIDED|95.0|-3.68|10.57||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||10.57|-3.68|
92233911|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.57|5.88||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.88|-6.57|
92233912|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|3.45|||||TWO_SIDED|95.0|-3.32|11.91||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||11.91|-3.32|
92233913|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|1.52|||||TWO_SIDED|95.0|-6.73|9.94||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||9.94|-6.73|
92385430|NCT00286494|184673683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056||||0.683|TWO_SIDED|95.0|-0.212|0.324||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.324|-0.212|0.683
92385431|NCT00286494|184673684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006||||0.967|TWO_SIDED|95.0|-0.277|0.265||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.265|-0.277|0.967
92233914|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Perecent Difference|-10.82|||||TWO_SIDED|95.0|-25.51|4.34||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.34|-25.51|
92233915|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|4.65|||||TWO_SIDED|95.0|0.04|11.48||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||11.48|0.04|
92233916|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|-16.06|||||TWO_SIDED|95.0|-29.15|-2.6||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-2.60|-29.15|
92233917|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|2.27|||||TWO_SIDED|95.0|-1.96|7.97||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||7.97|-1.96|
92416394|NCT02880956|184721161|SUPERIORITY||LS Mean of Difference|0.36|STANDARD_ERROR_OF_MEAN|2.127||0.864|TWO_SIDED|95.0|-3.819|4.548||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||4.548|-3.819|0.864
92233918|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|-2.15|||||TWO_SIDED|95.0|-7.55|2.1||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||2.10|-7.55|
92233919|NCT01193335|184370415|SUPERIORITY_OR_OTHER||Percent Difference|-1.09|||||TWO_SIDED|95.0|-5.96|3.18||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||3.18|-5.96|
92233920|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|-9.08|||||TWO_SIDED|95.0|-25.11|7.49||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||7.49|-25.11|
92233921|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|-5.39|||||TWO_SIDED|95.0|-21.03|10.4||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||10.40|-21.03|
92233922|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|6.53|||||TWO_SIDED|95.0|-7.16|21.16||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||21.16|-7.16|
92233923|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|-7.88|||||TWO_SIDED|95.0|-20.28|3.35||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||3.35|-20.28|
92233924|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|-10.73|||||TWO_SIDED|95.0|-29.01|8.11||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||8.11|-29.01|
92233925|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|7.11|||||TWO_SIDED|95.0|-1.52|17.65||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||17.65|-1.52|
92233926|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|-13.37|||||TWO_SIDED|95.0|-29.57|3.31||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||3.31|-29.57|
92233927|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|8.09|||||TWO_SIDED|95.0|-0.52|17.81||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||17.81|-0.52|
92233928|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|-7.38|||||TWO_SIDED|95.0|-22.86|8.29||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||8.29|-22.86|
92233929|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|0.51|||||TWO_SIDED|95.0|-8.82|10.08||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||10.08|-8.82|
92233930|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|-20.19|||||TWO_SIDED|95.0|-35.45|-3.95||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-3.95|-35.45|
92233931|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|5.25|||||TWO_SIDED|95.0|-8.5|19.06||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||19.06|-8.50|
92233932|NCT01193335|184370416|SUPERIORITY_OR_OTHER||Percent Difference|-3.14|||||TWO_SIDED|95.0|-17.51|11.13||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||11.13|-17.51|
92233933|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-5.59|5.89||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.89|-5.59|
92385432|NCT00286494|184673684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135||||0.327|TWO_SIDED|95.0|-0.135|0.405||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.405|-0.135|0.327
92233934|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|0.08|||||TWO_SIDED|95.0|-6.81|7.37||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||7.37|-6.81|
92233935|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|-1.55|||||TWO_SIDED|95.0|-10.87|7.44||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||7.44|-10.87|
92233936|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-5.94|5.94||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.94|-5.94|
92233937|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|-1.61|||||TWO_SIDED|95.0|-8.66|4.25||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.25|-8.66|
92233938|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|-6.64|||||TWO_SIDED|95.0|-17.93|3.56||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||3.56|-17.93|
92233939|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|0.05|||||TWO_SIDED|95.0|-6.74|7.04||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||7.04|-6.74|
92233940|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|-6.48|||||TWO_SIDED|95.0|-16.37|2.75||||||Serotype 1: CI Parameter was percent difference between the groups. Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||2.75|-16.37|
92233941|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|1.27|||||TWO_SIDED|95.0|-3.37|6.85||||||Serotype 3: CI Parameter was percent difference between the groups. Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||6.85|-3.37|
92233942|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|-1.34|||||TWO_SIDED|95.0|-8.36|5.14||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.14|-8.36|
92233943|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-4.73|5.04||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.04|-4.73|
92233944|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-4.48|4.55||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.55|-4.48|
92233945|NCT01193335|184370417|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-4.48|4.55||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.55|-4.48|
92233946|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-7.5|||||TWO_SIDED|95.0|-24.5|9.9||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||9.9|-24.5|
92233947|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-5.9|||||TWO_SIDED|95.0|-23.6|11.8||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||11.8|-23.6|
92233948|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-10.7|||||TWO_SIDED|95.0|-27.6|6.0||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||6.0|-27.6|
92233949|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-4.3|||||TWO_SIDED|95.0|-17.0|8.4||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||8.4|-17.0|
92233950|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-23.0|||||TWO_SIDED|95.0|-40.0|-4.9||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-4.9|-40.0|
92233951|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-11.9|||||TWO_SIDED|95.0|-27.4|3.4||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||3.4|-27.4|
92233952|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-28.2|||||TWO_SIDED|95.0|-43.9|-11.0||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-11.0|-43.9|
92233953|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-0.3|||||TWO_SIDED|95.0|-10.9|10.3||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||10.3|-10.9|
92233954|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-1.2|||||TWO_SIDED|95.0|-17.5|15.1||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||15.1|-17.5|
92233955|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-10.6|||||TWO_SIDED|95.0|-25.3|4.5||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.5|-25.3|
92233956|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-18.6|||||TWO_SIDED|95.0|-33.3|-3.0||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-3.0|-33.3|
92233957|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|2.8|||||TWO_SIDED|95.0|-7.1|13.1||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||13.1|-7.1|
92233958|NCT01193335|184370418|SUPERIORITY_OR_OTHER||Percent Difference|-18.5|||||TWO_SIDED|95.0|-33.7|-2.8||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-2.8|-33.7|
92385433|NCT00286494|184673685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.068||||0.649|TWO_SIDED|95.0|-0.363|0.226||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.226|-0.363|0.649
92233959|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|-7.9|||||TWO_SIDED|95.0|-25.2|9.9||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||9.9|-25.2|
92233960|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|0.3|||||TWO_SIDED|95.0|-18.5|19.0||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||19.0|-18.5|
92233961|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|7.3|||||TWO_SIDED|95.0|-12.0|26.2||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||26.2|-12.0|
92233962|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|-2.8|||||TWO_SIDED|95.0|-19.1|13.3||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||13.3|-19.1|
92233963|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|-17.9|||||TWO_SIDED|95.0|-34.6|-0.3||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-0.3|-34.6|
92233964|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|-4.3|||||TWO_SIDED|95.0|-20.6|12.1||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||12.1|-20.6|
92278396|NCT02277769|184458787|SUPERIORITY||LS mean difference|-4.2|||<|0.0001|TWO_SIDED|95.0|-5.34|-3.09||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-3.09|-5.34|< 0.0001
92233965|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|-21.1|||||TWO_SIDED|95.0|-37.8|-3.2||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-3.2|-37.8|
92233966|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|5.6|||||TWO_SIDED|95.0|-2.7|15.2||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||15.2|-2.7|
92233967|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|-5.1|||||TWO_SIDED|95.0|-22.0|12.0||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||12.0|-22.0|
92233968|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|-14.4|||||TWO_SIDED|95.0|-26.7|-2.4||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-2.4|-26.7|
92233969|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|-20.4|||||TWO_SIDED|95.0|-36.8|-3.0||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-3.0|-36.8|
92233970|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent Difference|-11.3|||||TWO_SIDED|95.0|-26.4|4.1||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.1|-26.4|
92233971|NCT01193335|184370419|SUPERIORITY_OR_OTHER||Percent difference|-21.6|||||TWO_SIDED|95.0|-37.7|-4.6||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-4.6|-37.7|
92233972|NCT01364467|184370439|OTHER|||||||0.013|||||||t-test, 2 sided|||||||0.013
92233973|NCT01364467|184370440|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||||||0.98
92416395|NCT02880956|184721161|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|15.95|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92233974|NCT01364467|184370440|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||||||0.65
92233975|NCT03577990|184370443|SUPERIORITY|Our sample (N = 90) had approximately 80% power (assuming 5 dropouts per arm) to detect an effect size of ∼.205 or greater at the α = .05 level of statistical significance, given a realistic range of simulated unstructured covariance matrices. An 11% rate of attrition was anticipated to yield a final sample of 80 participants, an average of 40 per arm. Participants who dropped out of the study prior to receiving the allotted intervention were not included in the analysis.|Mean Difference (Final Values)|0.125||||0.05|TWO_SIDED|||||P-values were computed according to a mixed-effects repeated measures model, appropriately constrained to baseline if indicated.|mixed-effects repeated measures||||For both referent (compared by month and treatment group) and constrained longitudinal data analysis (cLDA) models, p-values were computed for the main group (G), time (T), and interaction (G x T) effects. For the first 3 months of the referent arm (IT), data were compared with usual care. Consequently, months 1 - 6 in the statistical analysis corresponds to calendar months 4 - 9 of the data collection. Months 1 - 9 of the intervention arm (ITEC) reflects months 1 - 9 of the collection. Additionally, for the cLDA model, data in the referent arm (IT) were accordingly shifted such that the starting point on the y-axis for both arms were the same (i.e. y = 0).|||.05
92239686|NCT01377467|184383218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.059|STANDARD_ERROR_OF_MEAN|0.967|<|0.001|TWO_SIDED|95.0|3.137|6.98|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|We calculated that a sample size of 43 patients per group would provide a statistical power of 86% to detect a 4% difference in the percentage change of areal BMD at the total lumbar spine at 12 months, using a two-sided t-test with an α-level of 0.05 and assuming a mean ± SD change of 4 ± 6% in the denosumab group and 0 ± 6% in the control group. To account for a dropout rate of 5%, it was planned to randomize a total of 90 patients.||6.980|3.137|<0.001
92278397|NCT02277769|184458787|SUPERIORITY||LS mean difference|-4.9|||<|0.0001|TWO_SIDED|95.0|-6.04|-3.81||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-3.81|-6.04|< 0.0001
92385434|NCT00286494|184673685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.051||||0.735|TWO_SIDED|95.0|-0.344|0.243||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.243|-0.344|0.735
92385435|NCT00286494|184673686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.114|TWO_SIDED|95.0|-0.053|0.492||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.492|-0.053|0.114
92169554|NCT00324350|184227673|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.854|TWO_SIDED|95.0|0.88|1.11|||Mixed Models Analysis||The rate of height loss did not differ between groups (p = 0.573). Height loss of \>2 cm during ACCORD was experienced by 678 (19.5%) participants in the intensive and 686 (19.6%) in the standard glycemia group (OR 0.99; 95% CI 0.88, 1.11).|Height loss was compared by treatment assignment using linear mixed models with random intercepts and slopes. The proportions losing \>2 cm of height during follow-up were compared using logistic models. Based on previous research by Siminoski et al., this degree of height loss is associated with incident vertebral fracture with 94% specificity but only 28% sensitivity.(Siminoski K, Jiang G, Adachi JD, et al. Osteoporos Int 2005;16:403-410)||1.11|0.88|0.854
92169555|NCT02015520|184227676|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|||||||0.38
92169556|NCT02015520|184227676|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92169557|NCT02015520|184227676|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92169558|NCT04059042|184227687|EQUIVALENCE|Between-session pain measures were assessed with related-samples Wilcoxon signed-rank tests (Audio minus Silence). Data were not normally distributed so nonparametric tests were used.|Z score|39.0||||0.0051|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0051
92169559|NCT04059042|184227687|EQUIVALENCE|Between-session change scores were calculated per participant as Audio minus Silence and compared between groups with independent samples Mann-Whitney U-tests. Data were not normally distributed so nonparametric tests were used.|Z score|19.0||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.03
92169560|NCT04059042|184227688|EQUIVALENCE|Between-session pain measures were assessed with related-samples Wilcoxon signed-rank tests (Audio minus Silence). Data were not normally distributed so nonparametric tests were used.|Z score|18.0||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.59
92169561|NCT04059042|184227688|EQUIVALENCE|Between-session change scores were calculated per participant as Audio minus Silence and compared between groups with independent samples Mann-Whitney U-tests. Data were not normally distributed so nonparametric tests were used.|Z score|14.0||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.41
92169562|NCT01985334|184227710|SUPERIORITY_OR_OTHER|||||||0.018|||||||linear mixed model|||||||0.0180
92169563|NCT01985334|184227711|NON_INFERIORITY_OR_EQUIVALENCE|"H0: Glycopyrronium (50 μg o.d.) \[randomized group B2\] was inferior to LABA or LAMA (random group B1) with respect to mean trough FEV1 after 12 weeks of treatment.~H0: μFEV1, NVA237 - μFEV1, LABA and/or LAMA \< -40 mL Ha: Glycopyrronium (50 μg o.d.) \[randomized group B2\] is non-inferior to LABA or LAMA (random group B1) with respect to mean trough FEV1 after 12 weeks of treatment.~Ha: μFEV1, NVA237 - μFEV1, LABA and/or LAMA ≥ -40 mL"|||||<|0.0001|||||||linear mixed model|||||||<0.0001
92169564|NCT01985334|184227712|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||linear mixed model|||||||<0.0001
92169565|NCT01985334|184227713|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||linear mixed model|||||||<0.0001
92169566|NCT01985334|184227714|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||linear mixed model|||||||<0.0001
92169567|NCT01985334|184227715|NON_INFERIORITY_OR_EQUIVALENCE|A difference of 0.6 points in TDI was adopted as boundary for non-inferiority|||||<|0.0001|||||||linear mixed model|||||||<0.0001
92169568|NCT01985334|184227716|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||linear mixed model|||||||<0.0001
92169569|NCT01985334|184227717|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||linear mixed model|||||||<0.0001
92169570|NCT00093015|184227735|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.05||||0.41||95.0|0.94|1.17||Nominal p-value from a 2-sided log rank test is presented. The primary cardiovascular composite endpoint was tested at the 0.04056 significance level at final analysis after accounting for 4 planned interim analyses (overall alpha = 0.048).|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.17|0.94|0.41
92169571|NCT00093015|184227736|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.06||||0.29||95.0|0.95|1.19||Nominal p-value from a 2-sided log rank test is presented. The primary renal composite endpoint was tested at the 0.002 significance level at final analysis.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.19|0.95|0.29
92239687|NCT01377467|184383219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.895|STANDARD_ERROR_OF_MEAN|0.887||0.035|TWO_SIDED|95.0|0.132|3.659|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|||3.659|0.132|0.035
92239688|NCT01377467|184383220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.059|STANDARD_ERROR_OF_MEAN|1.201||0.38|TWO_SIDED|95.0|-1.329|3.447|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|||3.447|-1.329|0.380
92239689|NCT01377467|184383221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.567|STANDARD_ERROR_OF_MEAN|0.806|<|0.001|TWO_SIDED|95.0|2.975|6.178|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|||6.178|2.975|<0.001
92239690|NCT01377467|184383222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.756|STANDARD_ERROR_OF_MEAN|0.662||0.009|TWO_SIDED|95.0|0.44|3.072|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|||3.072|0.440|0.009
92233976|NCT03577990|184370444|SUPERIORITY|Our sample (N = 90) had approximately 80% power (assuming 5 dropouts per arm) to detect an effect size of ∼.205 or greater at the α = .05 level of statistical significance, given a realistic range of simulated unstructured covariance matrices. An 11% rate of attrition was anticipated to yield a final sample of 80 participants, an average of 40 per arm. Participants who dropped out of the study prior to receiving the allotted intervention were not included in the analysis.|Mean Difference (Final Values)|1250.0||||0.05|TWO_SIDED|||||P-values were computed according to a mixed-effects repeated measures model, appropriately constrained to baseline if indicated.|mixed-effects repeated measures||||For both referent (compared by month and treatment group) and constrained longitudinal data analysis (cLDA) models, p-values were computed for the main group (G), time (T), and interaction (G x T) effects. For the first 3 months of the referent arm (IT), data were compared with usual care. Consequently, months 1 - 6 in the statistical analysis corresponds to calendar months 4 - 9 of the data collection. Months 1 - 9 of the intervention arm (ITEC) reflects months 1 - 9 of the collection. Additionally, for the cLDA model, data in the referent arm (IT) were accordingly shifted such that the starting point on the y-axis for both arms were the same (i.e. y = 0).|||.05
92233977|NCT03577990|184370445|SUPERIORITY|Our sample (N = 90) had approximately 80% power (assuming 5 dropouts per arm) to detect an effect size of ∼.205 or greater at the α = .05 level of statistical significance, given a realistic range of simulated unstructured covariance matrices. An 11% rate of attrition was anticipated to yield a final sample of 80 participants, an average of 40 per arm. Participants who dropped out of the study prior to receiving the allotted intervention were not included in the analysis.|Mean Difference (Final Values)|300.0||||0.05|TWO_SIDED|||||P-values were computed according to a mixed-effects repeated measures model, appropriately constrained to baseline if indicated.|mixed-effects repeated measures||||For both referent (compared by month and treatment group) and constrained longitudinal data analysis (cLDA) models, p-values were computed for the main group (G), time (T), and interaction (G x T) effects. For the first 3 months of the referent arm (IT), data were compared with usual care. Consequently, months 1 - 6 in the statistical analysis corresponds to calendar months 4 - 9 of the data collection. Months 1 - 9 of the intervention arm (ITEC) reflects months 1 - 9 of the collection. Additionally, for the cLDA model, data in the referent arm (IT) were accordingly shifted such that the starting point on the y-axis for both arms were the same (i.e. y = 0).|||.05
92233978|NCT03577990|184370447|SUPERIORITY|Our sample (N = 90) had approximately 80% power (assuming 5 dropouts per arm) to detect an effect size of ∼.205 or greater at the α = .05 level of statistical significance, given a realistic range of simulated unstructured covariance matrices. An 11% rate of attrition was anticipated to yield a final sample of 80 participants, an average of 40 per arm. Participants who dropped out of the study prior to receiving the allotted intervention were not included in the analysis.|Mean Difference (Final Values)|500.0||||0.05|TWO_SIDED|||||P-values were computed according to a mixed-effects repeated measures model, appropriately constrained to baseline if indicated.|mixed-effects repeated measures||||For both referent (compared by month and treatment group) and constrained longitudinal data analysis (cLDA) models, p-values were computed for the main group (G), time (T), and interaction (G x T) effects. For the first 3 months of the referent arm (IT), data were compared with usual care. Consequently, months 1 - 6 in the statistical analysis corresponds to calendar months 4 - 9 of the data collection. Months 1 - 9 of the intervention arm (ITEC) reflects months 1 - 9 of the collection. Additionally, for the cLDA model, data in the referent arm (IT) were accordingly shifted such that the starting point on the y-axis for both arms were the same (i.e. y = 0).|||.05
92233979|NCT01212445|184370497|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.192||||0.179|TWO_SIDED|95.0|0.096|0.325|||Fisher Exact|||The treatment success rate was defined as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.325|0.096|0.1790
92233980|NCT01212445|184370497|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.314||||1|TWO_SIDED|95.0|0.191|0.459|||Fisher Exact|||The treatment success rate was calculated as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.459|0.191|1.0000
92233981|NCT01212445|184370497|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.196||||0.2558|TWO_SIDED|95.0|0.098|0.331|||Fisher Exact|||The treatment success rate was calculated as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.331|0.098|0.2558
92233982|NCT01212445|184370497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92|||||TWO_SIDED|95.0|0.774|4.763|||Regression, Logistic|||"Logistic regression analysis was performed with treatment success as the dichotomous dependent variable and dose (13.125g, 26.25g, or 39.375 g) as the independent variable. The main effects for the model were tested for significance at the 5% level.~The odds of response for the 26.25 g dose level versus the 13.125 g dose level were presented together with the associated 95% confidence interval. There were no multiplicity adjustments."||4.763|0.774|
92233983|NCT01212445|184370497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.024|||||TWO_SIDED|95.0|0.386|2.72|||Regression, Logistic|||"Logistic regression analysis was performed with treatment success as the dichotomous dependent variable and dose (13.125g, 26.25g, or 39.375 g) as the independent variable. The main effects for the model were tested for significance at the 5% level.~The odds of response for the 39.375 g dose level versus the 13.125 g dose level were presented together with the associated 95% confidence intervals. There were no multiplicity adjustments."||2.720|0.386|
92169572|NCT00093015|184227737|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.05||||0.48||95.0|0.92|1.21||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.21|0.92|0.48
92169573|NCT00093015|184227738|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.05||||0.61||95.0|0.88|1.25||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.25|0.88|0.61
92169574|NCT00093015|184227739|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.96||||0.73||95.0|0.75|1.23||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.23|0.75|0.73
92169575|NCT00093015|184227740|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.92|||<|0.001||95.0|1.38|2.68||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||2.68|1.38|<0.001
92169576|NCT00093015|184227741|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.89||||0.24||95.0|0.74|1.08||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.08|0.74|0.24
92169577|NCT00093015|184227742|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.02||||0.83||95.0|0.87|1.18||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.18|0.87|0.83
92169578|NCT00093015|184227743|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.12||||0.54||95.0|-0.51|0.26||Nominal p-value is from the term treatment group\*visit in the mixed model.|Mixed Models Analysis|Adjusted for baseline eGFR and the stratification factors of proteinuria and CVD history.|Estimated difference in rate of decline in eGFR per year between darbepoetin alfa and placebo.|||0.26|-0.51|0.54
92169579|NCT00093015|184227744|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.33|STANDARD_DEVIATION|0.35|<|0.001||95.0|0.64|2.02||Nominal p-value is presented.|t-test, 2 sided||Difference (darbepoetin alfa - placebo)|||2.02|0.64|<0.001
92169580|NCT00093015|184227745|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.84||||0.4||95.0|0.55|1.27||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.27|0.55|0.40
92169581|NCT00895531|184227746|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||||||0.95
92169582|NCT02253537|184227763|EQUIVALENCE|2 x 2 contingency table with 95% CI.|2 x 2 contingency table|86.7|||||TWO_SIDED|95.0|62.1|96.3||||||||96.3|62.1|
92169583|NCT04982315|184227787|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.024|TWO_SIDED|95.0|-1.9|-0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||||-0.1|-1.9|.024
92169584|NCT04982315|184227787|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.001|TWO_SIDED|95.0|-2.5|-0.6|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||||-0.6|-2.5|.001
92169585|NCT04982315|184227787|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.286|TWO_SIDED|95.0|-1.5|0.5|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||||0.5|-1.5|.286
92169586|NCT04982315|184227788|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0|TWO_SIDED|95.0|-2.1|-0.7|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||-0.7|-2.1|0
92169587|NCT04982315|184227788|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.008|TWO_SIDED|95.0|-2.1|-0.3|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||-0.3|-2.1|.008
92169588|NCT04982315|184227788|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0|TWO_SIDED|95.0|-2.6|-0.7|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||-0.7|-2.6|0
92169589|NCT04982315|184227788|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.27|TWO_SIDED|95.0|-1.4|0.4|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.4|-1.4|.27
92169590|NCT04982315|184227789|SUPERIORITY||Risk Ratio (RR)|1.4|||<|0.001|TWO_SIDED|95.0|1.15|1.72|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||1.72|1.15|<.001
92169591|NCT04982315|184227789|SUPERIORITY||Risk Ratio (RR)|1.33||||0.022|TWO_SIDED|95.0|1.04|1.7|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 6 months||1.70|1.04|.022
92233984|NCT01212445|184370499|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.077||||0.235|TWO_SIDED|95.0|0.021|0.185|||Fisher Exact|||The treatment success rate was calculated as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.185|0.021|0.2350
92233985|NCT01212445|184370499|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.157||||0.5256|TWO_SIDED|95.0|0.07|0.286|||Fisher Exact|||The treatment success rate was calculated as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.286|0.070|0.5256
92233986|NCT01212445|184370499|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.118||||0.7746|TWO_SIDED|95.0|0.044|0.239|||Fisher Exact|||The treatment success rate was calculated as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.239|0.044|0.7746
92233987|NCT01212445|184370499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.233|||||TWO_SIDED|95.0|0.628|7.94|||Regression, Logistic|||"Logistic regression analysis was performed with treatment success as the dichotomous dependent variable and dose (13.125g, 26.25g, or 39.375 g) as the independent variable. The main effects for the model were tested for significance at the 5% level.~The odds of response for the 26.25 g dose level versus the 13.125 g dose level were presented together with the associated 95% confidence intervals. There were no multiplicity adjustments."||7.940|0.628|
92233988|NCT01212445|184370499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||||TWO_SIDED|95.0|0.424|6.043|||Regression, Logistic|||"Logistic regression analysis was performed with treatment success as the dichotomous dependent variable and dose (13.125g, 26.25g, or 39.375 g) as the independent variable. The main effects for the model were tested for significance at the 5% level.~The odds of response for the 39.375 g dose level versus the 13.125 g dose level were presented together with the associated 95% confidence intervals. There were no multiplicity adjustments."||6.043|0.424|
92233989|NCT01212445|184370500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.752||||0.1876|TWO_SIDED|95.0|-3.834|19.338|||ANCOVA|||||19.338|-3.834|0.1876
92233990|NCT01212445|184370500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.706||||0.768|TWO_SIDED|95.0|-9.729|13.141|||ANCOVA|||||13.141|-9.729|0.7680
92233991|NCT01212445|184370500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.046||||0.2941|TWO_SIDED|95.0|-17.412|5.32|||ANCOVA|||||5.320|-17.412|0.2941
92233992|NCT01212445|184370501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.302||||0.8109|TWO_SIDED|95.0|-12.059|9.454|||ANCOVA|||||9.454|-12.059|0.8109
92416396|NCT02880956|184721161|SUPERIORITY||LS Mean of Difference|-4.49|STANDARD_ERROR_OF_MEAN|2.206||0.043|TWO_SIDED|95.0|-8.826|-0.15||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||-0.150|-8.826|0.043
92233993|NCT01212445|184370501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.075||||0.6995|TWO_SIDED|95.0|-12.693|8.544|||ANCOVA|||||8.544|-12.693|0.6995
92233994|NCT01212445|184370501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.772||||0.885|TWO_SIDED|95.0|-11.329|9.784|||ANCOVA|||||9.784|-11.329|0.8850
92233995|NCT01212445|184370502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.886||||0.0486|TWO_SIDED|95.0|0.078|25.695|||ANCOVA|||||25.695|0.078|0.0486
92233996|NCT01212445|184370502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.245||||0.8465|TWO_SIDED|95.0|-11.471|13.962|||ANCOVA|||||13.962|-11.471|0.8465
92233997|NCT01212445|184370502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.641||||0.0744|TWO_SIDED|95.0|-24.449|1.167|||ANCOVA|||||1.167|-24.449|0.0744
92233998|NCT01212445|184370503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.69||||0.4591|TWO_SIDED|95.0|-6.153|13.534|||ANCOVA|||||13.534|-6.153|0.4591
92233999|NCT01212445|184370503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.887||||0.5546|TWO_SIDED|95.0|-6.765|12.539|||ANCOVA|||||12.539|-6.765|0.5546
92234000|NCT01212445|184370503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.803||||0.8685|TWO_SIDED|95.0|-10.397|8.79|||ANCOVA|||||8.790|-10.397|0.8685
92234001|NCT01212445|184370504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.311||||0.1865|TWO_SIDED|95.0|-0.774|0.152|||ANCOVA|||||0.152|-0.774|0.1865
92234002|NCT01212445|184370504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.139||||0.553|TWO_SIDED|95.0|-0.602|0.323|||ANCOVA|||||0.323|-0.602|0.5530
92234003|NCT01212445|184370504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172||||0.467|TWO_SIDED|95.0|-0.293|0.637|||ANCOVA|||||0.637|-0.293|0.4670
92234004|NCT04090164|184370505|OTHER||Odds Ratio (OR)|2.406||||0.0027|TWO_SIDED|95.0|1.341|4.316|||Fisher Exact|||Fisher exact test was used for testing of association of Breast Cancer diagnosis with anti-HCV test status.||4.316|1.341|0.0027
92234005|NCT04090164|184370505|OTHER||Odds Ratio (OR)|7.032||||0.0034|TWO_SIDED|95.0|1.582|31.25|||Fisher Exact|||Fisher exact test was used to test the association of Breast Cancer diagnosis with anti-HCV test result in women younger than 45 years.||31.25|1.582|0.0034
92234006|NCT00955110|184370517|SUPERIORITY_OR_OTHER||Least Square Means Difference|-28.8|||<|0.001|TWO_SIDED|95.0|-41.6|-16.0||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||-16.0|-41.6|<0.001
92239691|NCT01377467|184383223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.035|STANDARD_ERROR_OF_MEAN|1.085||0.064|TWO_SIDED|95.0|-0.122|4.193|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|||4.193|-0.122|0.064
92239692|NCT01377467|184383224|SUPERIORITY_OR_OTHER||between-subjects effect|10.466|||<|0.001|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p=0.007. Time\*treatment interaction: p=0.002. The a priori threshold for statistical significance is \<0.05.|||||<0.001
92234007|NCT00955110|184370517|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-50.5|||<|0.001|TWO_SIDED|95.0|-63.4|-37.5||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||-37.5|-63.4|<0.001
92234008|NCT00955110|184370517|SUPERIORITY_OR_OTHER||Least Square Mean Difference|5.5||||0.395|TWO_SIDED|95.0|-7.3|18.3||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||18.3|-7.3|0.395
92234009|NCT00955110|184370517|SUPERIORITY_OR_OTHER||Least Square Mean Difference|38.0|||<|0.001|TWO_SIDED|95.0|25.2|50.8||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||50.8|25.2|<0.001
92234010|NCT00955110|184370517|SUPERIORITY_OR_OTHER||Least Square Mean Difference|56.0|||<|0.001|TWO_SIDED|95.0|43.1|68.9||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||68.9|43.1|<0.001
92234011|NCT00955110|184370517|SUPERIORITY_OR_OTHER||Least Square Mean Difference|66.8|||<|0.001|TWO_SIDED|95.0|53.9|79.7||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||79.7|53.9|<0.001
92234012|NCT02128490|184370518|SUPERIORITY_OR_OTHER||Difference in Proportions|35.9|||<|0.001|TWO_SIDED|95.0|20.8|51.0|||Fisher Exact|||||51.0|20.8|<0.001
92234013|NCT02128490|184370518|SUPERIORITY_OR_OTHER||Difference in Proportions|44.7|||<|0.001|TWO_SIDED|95.0|28.9|60.5|||Fisher Exact|||||60.5|28.9|<0.001
92234014|NCT02128490|184370518|SUPERIORITY_OR_OTHER||Difference in Proportions|22.4||||0.034|TWO_SIDED|95.0|3.7|41.0|||Fisher Exact|||||41.0|3.7|0.034
92234015|NCT02128490|184370518|SUPERIORITY_OR_OTHER||Difference in Proportions|4.2||||0.817|TWO_SIDED|95.0|-18.2|26.6|||Fisher Exact|||||26.6|-18.2|0.817
92234016|NCT02128490|184370519|SUPERIORITY_OR_OTHER||Difference in Proportions|12.6||||0.224|TWO_SIDED|95.0|-3.9|29.0|||Fisher Exact|||||29.0|-3.9|0.224
92234017|NCT02128490|184370519|SUPERIORITY_OR_OTHER||Difference in Proportions|31.6||||0.004|TWO_SIDED|95.0|13.1|50.1|||Fisher Exact|||||50.1|13.1|0.004
92234018|NCT02128490|184370519|SUPERIORITY_OR_OTHER||Difference in Proportions|-17.5||||0.139|TWO_SIDED|95.0|-38.1|3.2|||Fisher Exact|||||3.2|-38.1|0.139
92234019|NCT02128490|184370519|SUPERIORITY_OR_OTHER||Difference in Proportions|4.3||||0.815|TWO_SIDED|95.0|-17.9|26.4|||Fisher Exact|||||26.4|-17.9|0.815
92234020|NCT02128490|184370520|SUPERIORITY_OR_OTHER||Difference in Proportions|53.8|||<|0.001|TWO_SIDED|95.0|38.2|69.5|||Fisher Exact|||||69.5|38.2|<0.001
92234021|NCT02128490|184370520|SUPERIORITY_OR_OTHER||Difference in Proportions|55.3|||<|0.001|TWO_SIDED|95.0|39.5|71.1|||Fisher Exact|||||71.1|39.5|<0.001
92234022|NCT02128490|184370520|SUPERIORITY_OR_OTHER||Difference in Proportions|21.4||||0.069|TWO_SIDED|95.0|-0.3|43.1|||Fisher Exact|||||43.1|-0.3|0.069
92234023|NCT02128490|184370520|SUPERIORITY_OR_OTHER||Difference in Proportions|-4.2||||0.817|TWO_SIDED|95.0|-26.6|18.2|||Fisher Exact|||||18.2|-26.6|0.817
92234024|NCT02243176|184370521|NON_INFERIORITY_OR_EQUIVALENCE|With a total sample size of 480 patients randomized and an expected drop-out rate of 20%, the trial will be powered at 90% to establish non-inferiority for the primary endpoint, at a one-sided alpha level of 0.025, with the non-inferiority margin of 0.4%, assuming the true effects are the same between treatments. The calculation is also based on the assumption that the standard deviation for the change in HbA1c is 1.2%.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.6236|TWO_SIDED|95.0|-0.22|0.13||This p value is for the hypothesis of superiority|Mixed Model Repeated Measures||Mean difference=Saxagliptin - Acarbose|"H01: μS-μA≥ 0.4% vs Ha1: μS-μA\< 0.4%. Null hypothesis will be rejected if the upper limit of 2-sided 95% CI is below 0.4%.If the null hypothesis above (H01) is rejected, the following hypothesis will be tested to further establish superiority:~H02: μS-μA≥ 0 vs Ha2: μS-μA\< 0. This null hypothesis (H02) will be rejected if the upper limit of 2-sided 95% CI is below 0."||0.13|-0.22|0.6236
92234025|NCT02243176|184370522|NON_INFERIORITY_OR_EQUIVALENCE|With a total sample size of 480 patients randomized and an expected drop-out rate of 20%, the trial will be powered at 90% to establish non-inferiority for the primary endpoint, at a one-sided alpha level of 0.025, with the non-inferiority margin of 0.4%, assuming the true effects are the same between treatments. The calculation is also based on the assumption that the standard deviation for the change in HbA1c is 1.2%.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.09||0.7809|TWO_SIDED|95.0|-0.21|0.15||This p value is for the hypothesis of superiority|Mixed Model Repeated Measures||Mean difference=Saxagliptin - Acarbose|"H01: μS-μA≥ 0.4% vs Ha1: μS-μA\< 0.4%. Null hypothesis will be rejected if the upper limit of 2-sided 95% CI is below 0.4%.If the null hypothesis above (H01) is rejected, the following hypothesis will be tested to further establish superiority:~H02: μS-μA≥ 0 vs Ha2: μS-μA\< 0. This null hypothesis (H02) will be rejected if the upper limit of 2-sided 95% CI is below 0."||0.15|-0.21|0.7809
92234026|NCT02243176|184370523|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.22|||<|0.0001|TWO_SIDED|95.0|0.12|0.39|||Cochran-Mantel-Haenszel|Stratefied by the baseline disease severity (HbA1c \< 8.0% and ≥ 8.0%)|RR = Saxagliptin/Acarbose|||0.39|0.12|<0.0001
92385436|NCT00286494|184673686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238||||0.086|TWO_SIDED|95.0|-0.033|0.51||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.510|-0.033|0.086
92385437|NCT00286494|184673687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026||||0.835|TWO_SIDED|95.0|-0.221|0.273||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.273|-0.221|0.835
92385438|NCT00286494|184673687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131||||0.296|TWO_SIDED|95.0|-0.115|0.378||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.378|-0.115|0.296
92385439|NCT00286494|184673688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123||||0.349|TWO_SIDED|95.0|-0.134|0.38||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.380|-0.134|0.349
92385440|NCT00286494|184673688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223||||0.089|TWO_SIDED|95.0|-0.034|0.479||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.479|-0.034|0.089
92385441|NCT00286494|184673689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.815||||0.003|TWO_SIDED|95.0|1.736|13.358|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||13.358|1.736|0.003
92385442|NCT00286494|184673689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.533|||<|0.001|TWO_SIDED|95.0|2.017|15.176|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||15.176|2.017|<0.001
92385443|NCT00286494|184673690|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.903||||0.029|TWO_SIDED|95.0|1.067|3.393|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||3.393|1.067|0.029
92385444|NCT00286494|184673690|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.301||||0.005|TWO_SIDED|95.0|1.291|4.1|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regiment \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||4.100|1.291|0.005
92385445|NCT00286494|184673691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.783|||<|0.001|TWO_SIDED|95.0|1.547|5.005|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||5.005|1.547|<0.001
92234027|NCT02243176|184370524|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.5044|TWO_SIDED|95.0|0.74|1.15|||Cochran-Mantel-Haenszel|stratefied by baseline disease severity (HbA1c\<8%, \>=8%)||||1.15|0.74|0.5044
92385446|NCT00286494|184673691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.917|||<|0.001|TWO_SIDED|95.0|2.147|7.146|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||7.146|2.147|<0.001
92385447|NCT00286494|184673692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.134|||<|0.001|TWO_SIDED|95.0|2.392|7.146|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||7.146|2.392|<0.001
92385448|NCT00286494|184673692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.247|||<|0.001|TWO_SIDED|95.0|3.027|9.094|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||9.094|3.027|<0.001
92234028|NCT02243176|184370525|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.28||||0.0518|TWO_SIDED|95.0|0.98|1.67|||Cochran-Mantel-Haenszel|Stratefied by the baseline disease severity (HbA1c \< 8.0% and ≥ 8.0%)|RR = Saxagliptin/Acarbose|||1.67|0.98|0.0518
92234029|NCT02243176|184370526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.18||0.8915|TWO_SIDED|95.0|-0.33|0.38|||Mixed Model Repeated Measures||Mean difference=Saxagliptin - Acarbose|||0.38|-0.33|0.8915
92234030|NCT02243176|184370527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.249||0.2248|TWO_SIDED|95.0|-0.186|0.791|||ANCOVA||Mean difference=Saxagliptin - Acarbose|||0.791|-0.186|0.2248
92234031|NCT02243176|184370528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.48|STANDARD_ERROR_OF_MEAN|8.407||0.3739|TWO_SIDED|95.0|-9.039|24.005|||ANCOVA||Mean difference=Saxagliptin - Acarbose|||24.005|-9.039|0.3739
92234032|NCT02243176|184370529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.26||0.0078|TWO_SIDED|95.0|0.18|1.19|||Mixed Model Repeated Measures||Mean difference=Saxagliptin - Acarbose|||1.19|0.18|0.0078
92239693|NCT01377467|184383225|SUPERIORITY_OR_OTHER||between-subjects effect|275622.016|||<|0.001|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p=0.012. The a priori threshold for statistical significance is \<0.05.|||||<0.001
92239694|NCT01377467|184383226|SUPERIORITY_OR_OTHER||between-subjects effect|0.717||||0.014|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p\<0.001. The a priori threshold for statistical significance is \<0.05.|||||0.014
92385449|NCT00286494|184673693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.67|||<|0.001|TWO_SIDED|95.0|1.789|7.532|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||7.532|1.789|<0.001
92385450|NCT00286494|184673693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.693|||<|0.001|TWO_SIDED|95.0|2.303|9.56|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||9.560|2.303|<0.001
92385451|NCT00286494|184673694|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.8||||0.015|TWO_SIDED|95.0|1.3|11.107|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||11.107|1.300|0.015
92385452|NCT00286494|184673694|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.196||||0.002|TWO_SIDED|95.0|1.806|14.95|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||14.950|1.806|0.002
92234033|NCT02517515|184370550|SUPERIORITY|The superiority of the rate of sustained virologic response at 12 weeks after treatment (SVR12) for the treatment-naïve participants in the Double-blind 3-DAA group as compared with the historical rate for treatment-naïve patients treated with TVR + pegIFN + RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with SVR12 must exceed 84% to achieve superiority.|percentage of participants|99.5|||||TWO_SIDED|95.0|97.0|99.9||||||Based on a 2-sided significance level of 0.05 and an underlying rate of 96% for the Double-blind 3-DAA treatment-naïve group, the sample size 180 treatment-naïve participants provided \>90% power to demonstrate superiority of the regimen to the historical rate for treatment-naïve patients treated with TVR + pegIFN + RBV (80%) (based on one-sample chi-square test of a single binomial proportion for superiority).||99.9|97.0|
92234034|NCT02517515|184370550|SUPERIORITY|The superiority of the rate of sustained virologic response at 12 weeks after treatment for the treatment-experienced participants in the Double-blind 3-DAA group as compared with the historical rate for treatment-experienced patients treated with TVR + pegIFN + RBV was analyzed; the lower confidence bound of the 2-sided 95% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 75% to achieve superiority.|percentage of participants|100.0|||||TWO_SIDED|95.0|97.4|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of 96% for the Double-blind 3-DAA treatment-experienced group, the sample size 180 treatment-experienced participants provided \>90% power to demonstrate superiority of the regimen to the historical rate for treatment-experienced patients treated with TVR + pegIFN + RBV (80%) (based on one-sample chi-square test of a single binomial proportion for superiority).||100.0|97.4|
92234035|NCT02517515|184370551|SUPERIORITY|The superiority of the rate of sustained virologic response at 24 weeks after treatment (SVR24) for the treatment-naïve participants in the Double-blind 3-DAA group as compared with the historical rate for treatment-naïve patients treated with TVR + pegIFN + RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with SVR24 must exceed 84% to achieve superiority.|percentage of participants|99.5|||||TWO_SIDED|95.0|97.0|99.9||||||Based on a 2-sided significance level of 0.05 and an underlying rate of 96% for the Double-blind 3-DAA treatment-experienced group, the sample size 180 treatment-experienced participants provided \>90% power to demonstrate superiority of the regimen to the historical rate for treatment-experienced patients treated with TVR + pegIFN + RBV (80%) (based on one-sample chi-square test of a single binomial proportion for superiority).||99.9|97.0|
92234036|NCT02517515|184370551|SUPERIORITY|The superiority of the rate of sustained virologic response at 24 weeks after treatment (SVR24) for the treatment-experienced participants in the double-blind 3-DAA group as compared with the historical rate for treatment-experienced patients treated with TVR + pegIFN + RBV was analyzed; the lower confidence bound of the 2-sided 95% CI for the percentage of participants with SVR24 must exceed 75% to achieve superiority.|percentage of participants|100.0|||||TWO_SIDED|95.0|97.4|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of 96% for the Double-blind 3-DAA treatment-experienced group, the sample size 180 treatment-experienced participants provided \>90% power to demonstrate superiority of the regimen to the historical rate for treatment-experienced patients treated with TVR + pegIFN + RBV (80%) (based on one-sample chi-square test of a single binomial proportion for superiority).||100.0|97.4|
92234037|NCT04902885|184370570|SUPERIORITY|||||||0.0003|||||||non-parametric ANCOVA|||70 subjects (35 per group) provided approximately 95% power at the test level of α = 0.05 (2-sided) .Assuming a dropout rate of approximately 12%, the sample size for Part II was 80 subjects (40 per group)||||0.0003
92234038|NCT00893789|184370591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8336||95.0||||The analyses performed were not done in accordance to the study protocol as the study was terminated early and therefore the analyses done were underpowered, no adjustments for multiple comparisons (or step-down analysis rules) were applied.|ANCOVA|||"P-value for Change from Baseline at Endpoint."||||0.8336
92234039|NCT00893789|184370591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0514||95.0||||The analyses performed were not done in accordance to the study protocol as the study was terminated early and therefore the analyses done were underpowered, no adjustments for multiple comparisons (or step-down analysis rules) were applied.|ANCOVA|||"P-value for Change from Baseline at Endpoint."||||0.0514
92234040|NCT00893789|184370591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||The analyses performed were not done in accordance to the study protocol as the study was terminated early and therefore the analyses done were underpowered, no adjustments for multiple comparisons (or step-down analysis rules) were applied.|ANCOVA|||"P-value for Change from Baseline at Endpoint."||||0.0010
92234041|NCT00893789|184370592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7884||95.0|||||Pearson's chi-squared|||||||0.7884
92385453|NCT00286494|184673695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.959||||0.364|TWO_SIDED|95.0|0.459|8.362|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||8.362|0.459|0.364
92385454|NCT00286494|184673695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.849||||0.146|TWO_SIDED|95.0|0.696|11.672|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||11.672|0.696|0.146
92385455|NCT00286494|184673696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.718|TWO_SIDED|95.0|-0.45|0.65||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose,baseline value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.65|-0.45|0.718
92385456|NCT00286494|184673696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.906|TWO_SIDED|95.0|-0.52|0.58||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.58|-0.52|0.906
92385457|NCT00286494|184673697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.672|TWO_SIDED|95.0|-0.5|0.78||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.78|-0.50|0.672
92416397|NCT02880956|184721161|SUPERIORITY||Effect size/pooled SD|-0.28|STANDARD_DEVIATION|16.24|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416398|NCT02880956|184721161|SUPERIORITY||LS Mean of Difference|0.61|STANDARD_ERROR_OF_MEAN|2.874||0.831|TWO_SIDED|95.0|-5.041|6.27||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||6.270|-5.041|0.831
92234042|NCT00893789|184370592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2359||95.0|||||Pearson's chi-squared|||||||0.2359
92234043|NCT00893789|184370592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4401||95.0|||||Pearson's chi-squared|||||||0.4401
92234044|NCT00917384|184370623|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.776||||0.0473||95.0|0.603|0.998|||Stratified Log-Rank Test|Stratified Log-Rank Test and HR stratified by randomization strata (weight loss over the prior 3 months, primary tumor site and geographical region).||||0.998|0.603|0.0473
92234045|NCT00917384|184370624|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.483|||<|0.0001|TWO_SIDED|95.0|0.376|0.62|||Stratified Log-Rank Test|Stratified Log-Rank Test and HR stratified by randomization strata (weight loss over the prior 3 months, primary tumor site and geographical region).||||0.620|0.376|<0.0001
92234046|NCT00917384|184370625|SUPERIORITY_OR_OTHER_LEGACY||Difference Between Arms|24.2|||<|0.0001|TWO_SIDED|95.0|14.9|33.6|||Normal Approximation|||||33.6|14.9|<0.0001
92234047|NCT01458340|184370651|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.69||0.6026|ONE_SIDED|95.0||3.2||α=0.05 significance level.|Mixed Model for Repeated Measures (MMRM)|One-sided p-values were obtained from the pairwise comparisons between TD-9855 group and placebo group based on the final model.||||3.2||0.6026
92234048|NCT01458340|184370651|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.69||0.4844|ONE_SIDED|95.0||2.7||α=0.05 significance level.|MMRM|One-sided p-values were obtained from the pairwise comparisons between TD-9855 group and placebo group based on the final model.||||2.7||0.4844
92234049|NCT01458340|184370652|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|2.17||0.5269|ONE_SIDED|95.0||3.7||α=0.05 significance level.|MMRM|One-sided p-values were obtained from the pairwise comparisons between TD-9855 group and placebo group based on the final model.||||3.7||0.5269
92234050|NCT01458340|184370652|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|2.16||0.2092|ONE_SIDED|95.0||1.8||α=0.05 significance level.|MMRM|One-sided p-values were obtained from the pairwise comparisons between TD-9855 group and placebo group based on the final model.||||1.8||0.2092
92234051|NCT01575548|184370666|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.21|TWO_SIDED|95.0|0.54|1.29|||Log Rank|Stratified log rank test was used to compare DFS between the two arms.||||1.29|0.54|0.21
92234052|NCT02750410|184370725|SUPERIORITY||LS mean percent difference|-1.5|||<|0.001|TWO_SIDED|95.0|-1.73|-1.28|||Mixed Models Analysis|||||-1.28|-1.73|<0.001
92234053|NCT02750410|184370726|SUPERIORITY||Odds Ratio (OR)|0.117||||0.003|TWO_SIDED|95.0|0.028|0.479|||Regression, Logistic|||analysis was based on repeated measures logistic regression||0.479|0.028|0.003
92234054|NCT02750410|184370727|SUPERIORITY||LS mean difference|-30.14|||<|0.001|TWO_SIDED|95.0|-41.37|-18.91|||Mixed Models Analysis|||||-18.91|-41.37|<0.001
92234055|NCT02750410|184370728|SUPERIORITY||LS mean difference|-26.59|||<|0.001|TWO_SIDED|95.0|-36.39|-16.78|||t-test, 2 sided|||Prebreakfast BG||-16.78|-36.39|<0.001
92234056|NCT02750410|184370728|SUPERIORITY||LS mean difference|-45.38|||<|0.001|TWO_SIDED|95.0|-61.77|-29.0|||t-test, 2 sided|||Breakfast 2-hour PPBG||-29.00|-61.77|<0.001
92234057|NCT02750410|184370728|SUPERIORITY||LS mean difference|-36.82|||<|0.001|TWO_SIDED|95.0|-49.2|-24.45|||t-test, 2 sided|||Prelunch BG||-24.45|-49.20|<0.001
92234058|NCT02750410|184370728|SUPERIORITY||LS mean difference|-50.16|||<|0.001|TWO_SIDED|95.0|-67.85|-32.46|||t-test, 2 sided|||Lunch 2-hour PPBG||-32.46|-67.85|<0.001
92234059|NCT02750410|184370728|SUPERIORITY||LS mean difference|-31.27|||<|0.001|TWO_SIDED|95.0|-44.05|-18.48|||t-test, 2 sided|||Predinner BG||-18.48|-44.05|<0.001
92278398|NCT02277769|184458788|SUPERIORITY||LS mean difference|-27.7|||<|0.0001|TWO_SIDED|95.0|-33.73|-21.7||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-21.70|-33.73|< 0.0001
92416399|NCT02880956|184721161|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|18.06|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416400|NCT02880956|184721161|SUPERIORITY||LS Mean of Difference|1.81|STANDARD_ERROR_OF_MEAN|2.843||0.525|TWO_SIDED|95.0|-3.784|7.404||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||7.404|-3.784|0.525
92416401|NCT02880956|184721161|OTHER||Effect size/pooled SD|0.1|STANDARD_ERROR_OF_MEAN|18.47|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92234060|NCT02750410|184370728|SUPERIORITY||LS mean difference|-34.97|||<|0.001|TWO_SIDED|95.0|-52.55|-17.38|||t-test, 2 sided|||Dinner 2-hour PPBG||-17.38|-52.55|<0.001
92234061|NCT02750410|184370728|SUPERIORITY||LS mean difference|-41.45|||<|0.001|TWO_SIDED|95.0|-58.81|-24.09|||t-test, 2 sided|||Bedtime BG||-24.09|-58.81|<0.001
92234062|NCT02750410|184370729|SUPERIORITY||LS mean difference|0.1||||0.776|TWO_SIDED|95.0|-0.59|0.78|||Mixed Models Analysis|||||0.78|-0.59|0.776
92234063|NCT03215277|184370734|SUPERIORITY||Mean Posterior Difference|0.23|||||TWO_SIDED|95.0|-0.14|0.6|||Regression, Linear|||Results were based on a complete case (ie, data as observed) Bayesian linear model with the change from Baseline in ASDAS as the independent variable. Treatment was included as a predictor in the model and Baseline ASDAS as a covariate. The mean posterior difference and 95% credible interval were presented for the BKZ vs CZP comparison.||0.60|-0.14|
92234064|NCT03215277|184370734|SUPERIORITY||PR[Diff > 0%](%)|88.4|||||TWO_SIDED||||||Regression, Linear|||Results were based on a complete case (ie, data as observed) Bayesian linear model with the change from Baseline in ASDAS as the independent variable. Treatment was included as a predictor in the model and Baseline ASDAS as a covariate. Pr\[Diff\>0%\](%) refers to the probability that the mean change from Baseline in ASDAS in the BKZ group was greater than the mean change from Baseline in ASDAS in the CZP group.||||
92234065|NCT00004980|184370807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.76|STANDARD_ERROR_OF_MEAN|0.514||0.005||95.0|-4.65|-0.86||a priori threshold for statistical significance was .05|t-test, 2 sided|degree of freedom = 48||||-.86|-4.65|.005
92234066|NCT00004980|184370808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27|STANDARD_ERROR_OF_MEAN|0.327||0.002||95.0|0.507|2.03||a priori threshold for statistical significance was .05|t-test, 2 sided|degrees of freedom = 48||null hypothesis is that the groups are the same||2.03|.507|.002
92234067|NCT00004980|184370809|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.949|STANDARD_ERROR_OF_MEAN|0.524||0.001||95.0|-1.45|-0.44||A priori threshold for statistical significance was .05|t-test, 2 sided|degrees of freedom = 46||||-.44|-1.45|.001
92234068|NCT00004980|184370810|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||a priori threshold for statistical significance = .05|Chi-squared|||||||.01
92234069|NCT01624194|184370811|OTHER|||||||0.0275|||||||General Linear Model (GLM)|||||||0.0275
92234070|NCT01624194|184370812|OTHER||||||>|0.05||||||Fisher's Exact Test was used to test for differences in adverse events between oxytocin-treated and placebo-treated individuals. A p-value of ≤0.05 would have been statistically significant.|Fisher Exact|||||||>0.05
92234071|NCT01624194|184370813|OTHER||||||>|0.05|||||||Mixed Models Analysis|A mixed-models analysis was used to compare between groups, and between baseline and Week 4.||||||>0.05
92234072|NCT01624194|184370816|OTHER|||||||0.3395|||||||General Linear Model (GLM)|||||||0.3395
92234073|NCT01624194|184370824|OTHER|||||||0.9757|||||||General Linear Model (GLM)|||||||0.9757
92234074|NCT01624194|184370825|OTHER||||||>|0.05|||||||Mixed Models Analysis|A mixed-models analysis was used to compare between groups, and between baseline and Week 4.||||||>0.05
92234075|NCT01624194|184370826|OTHER||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92234076|NCT01624194|184370827|OTHER||||||>|0.05||||||For all blood pressure analyses.|Mixed Models Analysis|||||||>0.05
92234077|NCT04322708|184370828|SUPERIORITY||Percent Difference from Placebo|81.6|||<|0.0001|TWO_SIDED|95.0|71.5|89.0|||Fisher Exact|||||89.0|71.5|<0.0001
92234078|NCT04322708|184370828|SUPERIORITY||Percent Difference from Placebo|77.0|||<|0.0001|TWO_SIDED|95.0|66.1|85.4|||Fisher Exact|||||85.4|66.1|<0.0001
92234079|NCT04322708|184370829|SUPERIORITY||LSM Difference from Placebo|2.7||||0.247|TWO_SIDED|95.0|-1.9|7.3|||ANCOVA|||||7.3|-1.9|0.2470
92234080|NCT04322708|184370829|SUPERIORITY||LSM Difference from Placebo|-2.8||||0.2372|TWO_SIDED|95.0|-7.3|1.8|||ANCOVA|||||1.8|-7.3|0.2372
92234081|NCT04322708|184370830|SUPERIORITY||LSM Difference from Placebo|-95.7|||<|0.0001|TWO_SIDED|95.0|-109.0|-82.4|||ANCOVA|||||-82.4|-109|<0.0001
92234082|NCT04322708|184370830|SUPERIORITY||LSM Difference from Placebo|-96.2|||<|0.0001|TWO_SIDED|95.0|-110.0|-82.5|||ANCOVA|||||-82.5|-110|<0.0001
92234083|NCT04322708|184370831|SUPERIORITY||Percent Difference from Placebo|83.8|||<|0.0001|TWO_SIDED|95.0|74.4|90.8|||Fisher Exact|||||90.8|74.4|<0.0001
92234084|NCT04322708|184370831|SUPERIORITY||Percent Difference from Placebo|80.3|||<|0.0001|TWO_SIDED|95.0|69.8|87.9|||Fisher Exact|||||87.9|69.8|<0.0001
92234085|NCT04322708|184370832|SUPERIORITY||Percent Difference from Placebo|77.3|||<|0.0001|TWO_SIDED|95.0|66.4|85.5|||Fisher Exact|||||85.5|66.4|<0.0001
92234086|NCT04322708|184370832|SUPERIORITY||Percent Difference from Placebo|72.7|||<|0.0001|TWO_SIDED|95.0|61.3|81.9|||Fisher Exact|||||81.9|61.3|<0.0001
92234087|NCT04322708|184370833|SUPERIORITY||Percent Difference from Placebo|36.5|||<|0.0001|TWO_SIDED|95.0|22.9|49.5|||Fisher Exact|||||49.5|22.9|<0.0001
92234088|NCT04322708|184370833|SUPERIORITY||Percent Difference from Placebo|49.5|||<|0.0001|TWO_SIDED|95.0|35.9|61.0|||Fisher Exact|||||61.0|35.9|<0.0001
92234089|NCT04322708|184370834|SUPERIORITY||Percent Difference from Placebo|-4.8||||0.5561|TWO_SIDED|95.0|-19.2|10.0|||Fisher Exact|||||10.0|-19.2|0.5561
92234090|NCT04322708|184370834|SUPERIORITY||Percent Difference from Placebo|4.9||||0.5554|TWO_SIDED|95.0|-9.9|19.6|||Fisher Exact|||||19.6|-9.9|0.5554
92234091|NCT04322708|184370835|SUPERIORITY||LSM Difference from Placebo|-0.6||||0.9506|TWO_SIDED|95.0|-18.1|17.0|||ANCOVA|||||17.0|-18.1|0.9506
92278399|NCT02277769|184458788|SUPERIORITY||LS mean difference|-28.9|||<|0.0001|TWO_SIDED|95.0|-35.03|-22.74||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-22.74|-35.03|< 0.0001
92278400|NCT02277769|184458789|SUPERIORITY||LS mean difference|-17.7|||<|0.0001|TWO_SIDED|95.0|-21.96|-13.53||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13.53|-21.96|< 0.0001
92278401|NCT02277769|184458789|SUPERIORITY||LS mean difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-19.16|-10.78||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-10.78|-19.16|< 0.0001
92278402|NCT02196506|184458814|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.0074|TWO_SIDED|95.0|-3.97|-0.62|||Mixed Models Analysis|||Statistical Analysis at Week 14||-0.62|-3.97|0.0074
92278403|NCT02196506|184458815|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.3331|TWO_SIDED|95.0|-0.66|0.23|||Mixed Models Analysis|||Statistical Analysis at Week 14||0.23|-0.66|0.3331
92278404|NCT02196506|184458816|SUPERIORITY||Mean Difference (Final Values)|-2.25||||0.0263|TWO_SIDED|95.0|-4.23|-0.27|||Mixed Models Analysis|||Statistical Analysis at Week 14||-0.27|-4.23|0.0263
92278405|NCT02196506|184458817|SUPERIORITY||Mean Difference (Final Values)|-2.98||||0.0099|TWO_SIDED|95.0|-5.24|-0.72|||Mixed Models Analysis|||Statistical Analysis at Week 14||-0.72|-5.24|0.0099
92278406|NCT01070394|184458832|SUPERIORITY_OR_OTHER||||||<|0.001|||||||GEE regression model|Generalized Estimating Equation (GEE)||||||<.001
92278407|NCT01070394|184458833|SUPERIORITY_OR_OTHER|||||||0.569|||||||GEE regression model|Generalized Estimating Equation (GEE)||||||.569
92278408|NCT01070394|184458833|SUPERIORITY_OR_OTHER|||||||0.827|||||||Generalized Estimating Equation|||The following p-value is for AMSES In-Clinic, a subset of the overall AMSES||||.827
92278409|NCT01070394|184458833|SUPERIORITY_OR_OTHER|||||||0.569|||||||Generalized Estimating Equation|||The following p-value is for AMSES, Evening, a subset of the AMSES||||.569
92385458|NCT00286494|184673697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.922|TWO_SIDED|95.0|-0.61|0.67||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.67|-0.61|0.922
92385459|NCT00286494|184673698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.607|TWO_SIDED|95.0|-0.56|0.96||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.96|-0.56|0.607
92416402|NCT02880956|184721161|SUPERIORITY||LS Mean of Difference|-1.49|STANDARD_ERROR_OF_MEAN|2.921||0.61|TWO_SIDED|95.0|-7.239|4.255||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||4.255|-7.239|0.610
92278410|NCT01070394|184458834|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||GEE regression model|Generalized Estimating Equation (GEE)||||||.001
92278411|NCT01070394|184458835|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||GEE regression model|||||||<.001
92278412|NCT01070394|184458836|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||GEE regression model|Generalized Estimating Equation (GEE)||||||<.0001
92278413|NCT01070394|184458837|SUPERIORITY_OR_OTHER|||||||0.001|||||||GEE regression model|Generalized Estimating Equation (GEE)||||||0.001
92278414|NCT04014959|184458923|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|t(35)= -4.47||Statistical analysis of fMRI-guided TMS evoked subgenual anterior cingulate responses (fMRI BOLD) change at Pre-tx/Pre-iTBS. Statistics are from one-sample T-tests vs. 0, 2-tailed. Negative t-values represent negative mean fMRI BOLD percent signal change. Alternative hypothesis: true mean is not equal to 0.||||<0.001
92278415|NCT04014959|184458923|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|t(35)= -3.00||Statistical analysis of fMRI-guided TMS evoked subgenual anterior cingulate responses (fMRI BOLD) change at Pre-tx/Post-iTBS. Statistics are from one-sample T-tests vs. 0, 2-tailed. Negative t-values represent negative mean fMRI BOLD percent signal change. Alternative hypothesis: true mean is not equal to 0.||||0.005
92278416|NCT04014959|184458923|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|t(35)= -2.96||Statistical analysis of fMRI-guided TMS evoked subgenual anterior cingulate responses (fMRI BOLD) change at Post-tx/Pre-iTBS. Statistics are from one-sample T-tests vs. 0, 2-tailed. Negative t-values represent negative mean fMRI BOLD percent signal change. Alternative hypothesis: true mean is not equal to 0.||||0.005
92278417|NCT04014959|184458923|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|t(35)= -5.05||Statistical analysis of fMRI-guided TMS evoked subgenual anterior cingulate responses (fMRI BOLD) change at Post-tx/Post-iTBS. Statistics are from one-sample T-tests vs. 0, 2-tailed. Negative t-values represent negative mean fMRI BOLD percent signal change. Alternative hypothesis: true mean is not equal to 0.||||<0.001
92278418|NCT04014959|184458925|OTHER|Statistics are an unadjusted linear regression of change in DASS-21 depression score on the pre-intervention TMS/fMRI evoked brain response.||||||0.007|||||||Regression, Linear|β = -33.60||Analysis to investigate the correlation between changes in DASS-21 Scores (Secondary Outcome) and Evoked Functional Brain Activity (Other Pre-specified Outcome) pre and post the 3-Day TMS Intervention Regimen.||||0.007
92278419|NCT02004847|184458930|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from baseline to the end of treatment (week 12) of the target plaque compared to the control plaque.||||0.0005
92278420|NCT02004847|184458931|SUPERIORITY_OR_OTHER|||||||0.0036|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from baseline to the end of treatment during the attack period (week 4) of the target plaque compared to the control plaque.||||0.0036
92278421|NCT02004847|184458932|SUPERIORITY_OR_OTHER|||||||0.3075|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from end of treatment (week 12, visit 7) to end of follow up (week 16, visit 8) of the target plaque compared to the control plaque.||||0.3075
92278422|NCT02004847|184458933|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from baseline to week 4 of the target plaque compared to the control plaque.||||0.0140
92385460|NCT00286494|184673698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.985|TWO_SIDED|95.0|-0.77|0.76||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.76|-0.77|0.985
92385461|NCT00286494|184673699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.294|TWO_SIDED|95.0|-0.37|1.22||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.22|-0.37|0.294
92385462|NCT00286494|184673699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.9|TWO_SIDED|95.0|-0.74|0.84||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.84|-0.74|0.900
92385463|NCT03100058|184673844|OTHER|Dose finding study|Mean Difference (Net)|-1.73|||<|0.0001|TWO_SIDED|95.0|-3.17|-0.29|||ANCOVA|||||-0.29|-3.17|<0.0001
92385464|NCT03100058|184673844|OTHER|Dose finding study|Median Difference (Net)|-1.93|||<|0.0001|TWO_SIDED|95.0|-3.36|-0.5|||ANCOVA|||||-0.50|-3.36|<0.0001
92385465|NCT03100058|184673844|OTHER|Dose finding study|Mean Difference (Net)|-3.3|||<|0.0001|TWO_SIDED|95.0|-4.86|-1.75|||ANCOVA|||||-1.75|-4.86|<0.0001
92385466|NCT03100058|184673844|OTHER|Dose finding study|Mean Difference (Net)|-4.42|||<|0.0001|TWO_SIDED|95.0|-5.39|-3.44|||ANCOVA|||||-3.44|-5.39|<0.0001
92385467|NCT03100058|184673844|OTHER|Dose finding study|Mean Difference (Net)|-1.14|||<|0.0001|TWO_SIDED|95.0|-2.53|-0.25|||ANCOVA|||||-0.25|-2.53|<0.0001
92385468|NCT03100058|184673844|OTHER|Dose finding study|Mean Difference (Net)|-2.74|||<|0.0001|TWO_SIDED|95.0|-4.11|-1.36|||ANCOVA|||||-1.36|-4.11|<0.0001
92385469|NCT03100058|184673844|OTHER|Dose finding study|Mean Difference (Net)|-4.11|||<|0.0001|TWO_SIDED|95.0|-5.54|-2.68|||ANCOVA|||||-2.68|-5.54|<0.0001
92385470|NCT03100058|184673844|OTHER|Dose finding study|Mean Difference (Net)|-4.48|||<|0.0001|TWO_SIDED|95.0|-5.54|-3.43|||ANCOVA|||||-3.43|-5.54|<0.0001
92385471|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|2.38||||0.099|TWO_SIDED|95.0|0.85|6.67|||ANCOVA|||\>=5%||6.67|0.85|0.099
92385472|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio, log|1.18||||0.779|TWO_SIDED|95.0|0.36|3.84|||ANCOVA|||\>=5%||3.84|0.36|0.779
92385473|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|3.69||||0.011|TWO_SIDED|95.0|1.35|10.11|||ANCOVA|||\>=5%||10.11|1.35|0.011
92385474|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|5.57|||<|0.001|TWO_SIDED|95.0|2.41|12.88|||ANCOVA|||\>=5%||12.88|2.41|<.001
92385475|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|1.15||||0.812|TWO_SIDED|95.0|0.36|3.74|||ANCOVA|||\>=5%||3.74|0.36|0.812
92385476|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|1.94||||0.229|TWO_SIDED|95.0|0.66|5.69|||ANCOVA|||\>=5%||5.69|0.66|0.229
92385477|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|4.29||||0.004|TWO_SIDED|95.0|1.61|11.46|||ANCOVA|||\>=5%||11.46|1.61|0.004
92278423|NCT02004847|184458933|SUPERIORITY_OR_OTHER|||||||0.0064|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from baseline to week 12 of the target plaque compared to the control plaque.||||0.0064
92278424|NCT02004847|184458933|SUPERIORITY_OR_OTHER|||||||0.102|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from baseline to week 16 of the target plaque compared to the control plaque.||||0.1020
92278425|NCT02220920|184458946|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-1.33|-0.87|||ANCOVA|||||-0.87|-1.33|<0.001
92385478|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|6.37|||<|0.001|TWO_SIDED|95.0|2.72|14.93|||ANCOVA|||\>=5%||14.93|2.72|<.001
92385479|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|1.09||||0.943|TWO_SIDED|95.0|0.1|12.41|||ANCOVA|||\>=10%||12.41|0.10|0.943
92385480|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|2.11||||0.465|TWO_SIDED|95.0|0.28|15.77|||ANCOVA|||\>=10%||15.77|0.28|0.465
92385481|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|1.6||||0.696|TWO_SIDED|95.0|0.15|17.15|||ANCOVA|||\>=10%||17.15|0.15|0.696
92385482|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|2.14||||0.389|TWO_SIDED|95.0|0.38|12.1|||ANCOVA|||\>=10%||12.10|0.38|0.389
92385483|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|1.04||||0.976|TWO_SIDED|95.0|0.09|11.87|||ANCOVA|||\>=10%||11.87|0.09|0.976
92385484|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|1.02||||0.986|TWO_SIDED|95.0|0.09|11.7|||ANCOVA|||\>=10%||11.70|0.09|0.986
92385485|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|3.51||||0.181|TWO_SIDED|95.0|0.56|22.18|||ANCOVA|||\>=10%||22.18|0.56|0.181
92385486|NCT03100058|184673845|OTHER|Dose finding study|Odds Ratio (OR)|3.97||||0.1|TWO_SIDED|95.0|0.77|20.54|||ANCOVA|||\>=10%||20.54|0.77|0.100
92385487|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|6.29||||0.048|TWO_SIDED|95.0|1.02|38.76|||ANCOVA|||\>=5% (Dysglycemic)||38.76|1.02|0.048
92385488|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio, log|3.94||||0.171|TWO_SIDED|95.0|0.55|28.03|||ANCOVA|||\>=5% (Dsyglycemic)||28.03|0.55|0.171
92385489|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|7.17||||0.041|TWO_SIDED|95.0|1.09|47.27|||ANCOVA|||\>=5% (Dysglycemic)||47.27|1.09|0.041
92385490|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|11.89||||0.003|TWO_SIDED|95.0|2.32|60.93|||ANCOVA|||\>=5% (Dysglycemic)||60.93|2.32|0.003
92385491|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|0.96||||0.976|TWO_SIDED|95.0|0.08|11.72|||ANCOVA|||\>=5% (Dysglycemic)||11.72|0.08|0.976
92385492|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|8.78||||0.022|TWO_SIDED|95.0|1.37|56.44|||ANCOVA|||\>=5% (Dysglycemic)||56.44|1.37|0.022
92385493|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|7.5||||0.032|TWO_SIDED|95.0|1.2|46.99|||ANCOVA|||\>=5% (Dysglycemic)||46.99|1.20|0.032
92385494|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|11.28||||0.005|TWO_SIDED|95.0|2.11|60.46|||ANCOVA|||\>=5% (Dysglycemic)||60.46|2.11|0.005
92385495|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|3.21||||0.227|TWO_SIDED|95.0|0.48|21.28|||ANCOVA|||\>=5% (Normoglycemic)||21.28|0.48|0.227
92385496|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|0.69||||0.763|TWO_SIDED|95.0|0.06|7.85|||ANCOVA|||\>=5% (Normoglycemic)||7.85|0.06|0.763
92416403|NCT02880956|184721161|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|19.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92234092|NCT04322708|184370835|SUPERIORITY||LSM Difference from Placebo|-17.6||||0.0511|TWO_SIDED|95.0|-35.4|0.1|||ANCOVA|||||0.1|-35.4|0.0511
92234093|NCT04322708|184370836|SUPERIORITY||LSM Difference from Placebo|2.6||||0.2007|TWO_SIDED|95.0|-1.4|6.7|||Mixed Models Analysis|||Weeks 23-24 Change from Baseline||6.7|-1.4|0.2007
92234094|NCT04322708|184370836|SUPERIORITY||LSM Difference from Placebo|-2.7||||0.1889|TWO_SIDED|95.0|-6.8|1.3|||Mixed Models Analysis|||Weeks 23-24 Change from Baseline||1.3|-6.8|0.1889
92234095|NCT04322708|184370837|SUPERIORITY||LSM Difference from Placebo|-0.3||||0.498|TWO_SIDED|95.0|-1.3|0.6|||ANCOVA|||||0.6|-1.3|0.4980
92234096|NCT04322708|184370837|SUPERIORITY||LSM Difference from Placebo|0.2||||0.639|TWO_SIDED|95.0|-0.7|1.2|||ANCOVA|||||1.2|-0.7|0.6390
92234097|NCT03815175|184370849|NON_INFERIORITY|"H0: Death/(MI\[1m-DAPT\]) - Death/(MI \[XIENCE V USA\]) ≥ δ HA: Death/MI(\[1m-DAPT\]) - Death/(MI \[XIENCE V USA: NCT00676520\]) \< δ~Where δ is the non-inferiority margin. The test will be carried out with a one-sided significance level of 0.025 and a non-inferiority margin (δ) of 2.5%."||||||0.0005|||||||Farrington-Manning method|||||||0.0005
92234098|NCT03815175|184370852|SUPERIORITY|"H0: B (1m-DAPT) - B (XIENCE V USA) ≥ 0 HA: B (1m-DAPT) - B (XIENCE V USA: NCT00676520) \< 0~B 1m-DAPT and B XIENCE V USA are bleeding rates (BARC type 2-5) between 1-month and 6-month follow-up for the pooled 1-month DAPT arm and XIENCE V USA historical control, respectively."||||||0.1888|||||||Farrington and Manning method|||||||0.1888
92234099|NCT00457639|184370933|SUPERIORITY||Mean Difference (Net)|13.8||||0.42|TWO_SIDED|95.0|-19.7|61.1|||Mixed Models Analysis|||||61.1|-19.7|0.42
92234100|NCT00457639|184370934|SUPERIORITY||Mean Difference (Final Values)|11.4||||0.45|TWO_SIDED|95.0|-17.7|50.8|||Mixed Models Analysis|||||50.8|-17.7|0.45
92234101|NCT03542682|184370952|SUPERIORITY||Mean Difference (Final Values)|-55.67|||||TWO_SIDED|95.0|-124.63|13.3|||Mixed Models Analysis|The model adjusted for order of the clamps and accounting for within subject correlation.||||13.30|-124.63|
92234102|NCT03542682|184370954|SUPERIORITY||Mean Difference (Final Values)|0.96|||||TWO_SIDED|95.0|-1.1|3.02|||Mixed Models Analysis|The model adjusted for order of the clamps and accounting for within subject correlation.||||3.02|-1.10|
92234103|NCT03542682|184370955|SUPERIORITY||Mean Difference (Final Values)|131.85|||||TWO_SIDED|95.0|-246.7|510.41|||Mixed Models Analysis|The model adjusted for order of the clamps and accounting for within subject correlation.||||510.41|-246.70|
92234104|NCT02625402|184370959|EQUIVALENCE|Knowledge scores within 10% points|Mean Difference (Final Values)|6.4|STANDARD_ERROR_OF_MEAN|7.6|<|0.05|TWO_SIDED|95.0|-8.8|21.5|||t-test, 2 sided|||||21.5|-8.8|<0.05
92234105|NCT01200433|184370962|NON_INFERIORITY_OR_EQUIVALENCE|"We tested a joint hypothesis that dexmedetomidine was noninferior to propofol both in terms of cerebral blood flow velocity and brain oxygenation during DBS surgery.~A total of 44 patients provided a 90% power at the 0.05 significance level to detect noninferiority of dexmedetomidine to propofol using a noninferiority ratio of geometric means of 0.80, assuming a coefficient of variation of 25% for each of the 2 primary outcomes. Both outcomes were expected to follow a log-normal distribution."|Ratio of Geometric Means|0.94||||0.011|TWO_SIDED|90.0|0.84|1.05|||t-test, 1 sided||Dexmedetomidine vs. propofol|||1.05|0.84|0.011
92234106|NCT01200433|184370963|NON_INFERIORITY_OR_EQUIVALENCE|"We tested a joint hypothesis that dexmedetomidine was noninferior to propofol both in terms of cerebral blood flow velocity and brain oxygenation during DBS surgery.~A total of 44 patients provided a 90% power at the 0.05 significance level to detect noninferiority of dexmedetomidine to propofol using a noninferiority ratio of geometric means of 0.80, assuming a coefficient of variation of 25% for each of the 2 primary outcomes. Both outcomes were expected to follow a log-normal distribution."|Ratio of Geometric Means|0.99|||<|0.001|TWO_SIDED|90.0|0.96|1.02|||t-test, 1 sided||Dexmedetomidine vs. propofol|||1.02|0.96|< 0.001
92234107|NCT01200433|184370965|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|99.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|0|<0.001
92234108|NCT01200433|184370966|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|1.0||||0.91|TWO_SIDED|99.0|0.86|1.18|||Wilcoxon (Mann-Whitney)|||||1.18|0.86|0.91
92234109|NCT01200433|184370968|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.9||||0.02|TWO_SIDED|99.0|-4.1|0.2|||Wilcoxon (Mann-Whitney)|||||0.2|-4.1|0.02
92234110|NCT01200433|184370969|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||>|0.99|TWO_SIDED|99.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|>0.99
92239695|NCT01377467|184383227|SUPERIORITY_OR_OTHER||between-subjects effect|0.707||||0.068|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p=0.047. The a priori threshold for statistical significance is \<0.05.|||||0.068
92239696|NCT01377467|184383228|SUPERIORITY_OR_OTHER||between-subjects effect|99952.126||||0.114|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p=0.047. The a priori threshold for statistical significance is \<0.05.|||||0.114
92385497|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|4.68||||0.095|TWO_SIDED|95.0|0.76|28.7|||ANCOVA|||\>=5% (Normoglycemic)||28.70|0.76|0.095
92385498|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|5.33||||0.033|TWO_SIDED|95.0|1.14|24.83|||ANCOVA|||\>=5% (Normoglycemic)||24.83|1.14|0.033
92385499|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|0.72||||0.788|TWO_SIDED|95.0|0.06|8.1|||ANCOVA|||\>=5% (Normoglycemic)||8.10|0.06|0.788
92385500|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|0.68||||0.751|TWO_SIDED|95.0|0.06|7.62|||ANCOVA|||\>=5% (Normoglycemic)||7.62|0.06|0.751
92234111|NCT00770861|184370980|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Between-treatment comparison of efficacy was performed by ANCOVA, with treatment, baseline BMI, center as factors \& baseline value as a covariate.||H0 - There was no difference in BP reduction between Neb and Placebo. The efficacy analyses were based on the ITT population for the double-blind treatment phase. The LOCF was used to impute missing postbaseline values. Sensitivity analyses were based on observed cases for all efficacy parameters. All statistical tests were two-sided hypothesis tests performed at the 5% level of significance for main effects. All confidence intervals were two-sided 95% confidence intervals.||||<0.0001
92385501|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|8.05||||0.027|TWO_SIDED|95.0|1.27|51.09|||ANCOVA|||\>=5% (Normoglycemic)||51.09|1.27|0.027
92385502|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|6.64||||0.023|TWO_SIDED|95.0|1.3|34.0|||ANCOVA|||\>=5% (Normoglycemic)||34.00|1.30|0.023
92385503|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|0.48||||0.528|TWO_SIDED|95.0|0.05|4.78|||ANCOVA|||\>=5% (T2DM)||4.78|0.05|0.528
92234112|NCT00770861|184370981|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||||||0.001
92234113|NCT03191786|184371023|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.025|TWO_SIDED|95.0|0.63|0.97|||Log Rank|||Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.||0.97|0.63|0.025
92385504|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|1.05||||0.958|TWO_SIDED|95.0|0.17|6.68|||ANCOVA|||\>=5% (T2DM)||6.68|0.17|0.958
92385505|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|1.7||||0.546|TWO_SIDED|95.0|0.3|9.49|||ANCOVA|||\>=5% (T2DM)||9.49|0.30|0.546
92385506|NCT03100058|184673846|OTHER|Dose finding test|Odds Ratio (OR)|3.09||||0.098|TWO_SIDED|95.0|0.81|11.75|||ANCOVA|||\>=5% (T2DM)||11.75|0.81|0.098
92416404|NCT02880956|184721162|SUPERIORITY||LS Mean of Difference|-0.79|STANDARD_ERROR_OF_MEAN|1.02||0.438|TWO_SIDED|95.0|-2.798|1.214||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 48||1.214|-2.798|0.438
92416405|NCT02880956|184721162|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|7.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92385507|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|1.64||||0.563|TWO_SIDED|95.0|0.31|8.7|||ANCOVA|||\>=5% (T2DM)||8.70|0.31|0.563
92234114|NCT03191786|184371024|SUPERIORITY||Difference in OS Rates|6.5|||||TWO_SIDED|95.0|-3.3|16.3||||||OS Rate at 6 Months||16.3|-3.3|
92234115|NCT03191786|184371024|SUPERIORITY||Difference in OS Rates|5.1|||||TWO_SIDED|95.0|-4.9|15.0||||||OS Rate at 12 Months||15.0|-4.9|
92234116|NCT03191786|184371024|SUPERIORITY||Difference in OS Rates|7.4|||||TWO_SIDED|95.0|-1.6|16.5||||||OS Rate at 18 Months||16.5|-1.6|
92234117|NCT03191786|184371024|SUPERIORITY||Difference in OS Rates|11.9|||||TWO_SIDED|95.0|4.4|19.5||||||OS Rate at 24 Months||19.5|4.4|
92234118|NCT03191786|184371026|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.182|TWO_SIDED|95.0|0.7|1.07|||Log Rank|||Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.||1.07|0.70|0.182
92234119|NCT03191786|184371031|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|1.01||||0.975||95.0|0.57|1.78|||Log Rank|||Time to deterioration for Dyspnoea (single item QLQ-C30)||1.78|0.57|0.975
92385508|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|0.55||||0.61|TWO_SIDED|95.0|0.06|5.38|||ANCOVA|||\>=5% (T2DM)||5.38|0.06|0.610
92385509|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|1.71||||0.528|TWO_SIDED|95.0|0.32|9.16|||ANCOVA|||\>=5% (T2DM)||9.16|0.32|0.528
92385510|NCT03100058|184673846|OTHER|Dose finding study|Odds Ratio (OR)|4.55||||0.023|TWO_SIDED|95.0|1.23|16.9|||ANCOVA|||\>=5% (T2DM)||16.90|1.23|0.023
92385511|NCT03100058|184673847|OTHER|Dose finding study|Median Difference (Net)|-0.8||||0.47|TWO_SIDED|95.0|-2.96|1.37|||ANCOVA|||||1.37|-2.96|0.470
92385512|NCT03100058|184673847|OTHER|Dose finding study|Median Difference (Net)|-1.4||||0.199|TWO_SIDED|95.0|-3.64|0.76|||ANCOVA|||||0.76|-3.64|0.199
92385513|NCT03100058|184673847|OTHER|Dose finding study|Median Difference (Net)|-1.4|||<|0.001|TWO_SIDED|95.0|-3.64|0.76|||ANCOVA|||||0.76|-3.64|<0.001
92385514|NCT03100058|184673847|OTHER|Dose finding study|Mean Difference (Net)|-1.4||||0.206|TWO_SIDED|95.0|-3.56|0.77|||ANCOVA|||||0.77|-3.56|0.206
92385515|NCT03100058|184673847|OTHER|Dose finding study|Median Difference (Net)|-3.0||||0.006|TWO_SIDED|95.0|-5.18|-0.88|||ANCOVA|||||-0.88|-5.18|0.006
92385516|NCT03100058|184673847|OTHER|Dose finding study|Median Difference (Net)|-3.5||||0.002|TWO_SIDED|95.0|-5.7|-1.3|||ANCOVA|||||-1.30|-5.70|0.002
92385517|NCT03100058|184673847|OTHER|Dose finding study|Mean Difference (Net)|-3.3|||<|0.001|TWO_SIDED|95.0|-5.1|-1.51|||ANCOVA|||||-1.51|-5.10|<0.001
92385518|NCT03100058|184673847|OTHER|Dose finding study|Median Difference (Net)|-0.9||||0.391|TWO_SIDED|95.0|-2.82|1.1|||ANCOVA|||||1.10|-2.82|0.391
92385519|NCT03100058|184673847|OTHER|Dose finding study|Median Difference (Net)|-2.5||||0.259|TWO_SIDED|95.0|-3.1|0.84|||ANCOVA|||||0.84|-3.10|0.259
92385520|NCT03100058|184673847|OTHER|Dose finding study|Mean Difference (Net)|-2.5||||0.048|TWO_SIDED|95.0|-4.91|-0.02|||ANCOVA|||||-0.02|-4.91|0.048
92385521|NCT03100058|184673848|OTHER|Dose finding study|Mean Difference (Net)|1.0||||0.225|TWO_SIDED|95.0|-0.62|2.61|||ANCOVA|||||2.61|-0.62|0.225
92385522|NCT03100058|184673848|OTHER|Dose finding study|Mean Difference (Net)|-1.0||||0.247|TWO_SIDED|95.0|-2.62|0.68|||ANCOVA|||||0.68|-2.62|0.247
92385523|NCT03100058|184673848|OTHER|Dose finding study|Median Difference (Net)|-2.0||||0.019|TWO_SIDED|95.0|-3.75|-0.34|||ANCOVA|||||-0.34|-3.75|0.019
92385524|NCT03100058|184673848|OTHER|Dose finding study|Mean Difference (Net)|-1.6||||0.015|TWO_SIDED|95.0|-2.96|-0.33|||ANCOVA|||||-0.33|-2.96|0.015
92416406|NCT02880956|184721162|SUPERIORITY||LS Mean of Difference|0.81|STANDARD_ERROR_OF_MEAN|1.005||0.419|TWO_SIDED|95.0|-1.164|2.788||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 48||2.788|-1.164|0.419
92169592|NCT04982315|184227789|SUPERIORITY||Risk Ratio (RR)|1.49|||<|0.001|TWO_SIDED|95.0|1.19|1.86|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 6 months||1.86|1.19|<.001
92234120|NCT03191786|184371031|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.89||||0.62|TWO_SIDED|95.0|0.55|1.42|||Log Rank|||Time to deterioration for Fatigue (multi items QLQ-C30)||1.42|0.55|0.620
92234121|NCT03191786|184371032|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|1.16||||0.653|TWO_SIDED|95.0|0.6|2.26|||Log Rank|||Time to deterioration for Cough (single item QLQ-LC13)||2.26|0.60|0.653
92234122|NCT03191786|184371032|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.51||||0.036|TWO_SIDED|95.0|0.27|0.97|||Log Rank|||Time to deterioration for Chest pain (single item QLQ-LC13)||0.97|0.27|0.036
92234123|NCT03191786|184371032|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.7||||0.125|TWO_SIDED|95.0|0.45|1.11|||Log Rank|||Time to deterioration for Dyspnoea (multiple items QLQ-LC13)||1.11|0.45|0.125
92234124|NCT03191786|184371032|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.75||||0.362|TWO_SIDED|95.0|0.41|1.39|||Log Rank|||Time to deterioration for Arm and/or shoulder pain (single item QLQ-LC13)||1.39|0.41|0.362
92385525|NCT03100058|184673848|OTHER|Dose finding study|Mean Difference (Net)|-1.3||||0.106|TWO_SIDED|95.0|-2.97|0.29|||ANCOVA|||||0.29|-2.97|0.106
92385526|NCT03100058|184673848|OTHER|Dose finding study|Mean Difference (Net)|-1.9||||0.02|TWO_SIDED|95.0|-3.54|-0.31|||ANCOVA|||||-0.31|-3.54|0.020
92385527|NCT03100058|184673848|OTHER|Dose finding study|Mean Difference (Net)|-1.8||||0.035|TWO_SIDED|95.0|-3.44|-0.12|||ANCOVA|||||-0.12|-3.44|0.035
92385528|NCT03100058|184673848|OTHER|Dose finding study|Mean Difference (Net)|-1.9||||0.004|TWO_SIDED|95.0|-3.22|-0.61|||ANCOVA|||||-0.61|-3.22|0.004
92385529|NCT03100058|184673849|OTHER|Dose finding study|Mean Difference (Net)|0.4||||0.082|TWO_SIDED|95.0|-0.05|0.79|||ANCOVA|||||0.79|-0.05|0.082
92385530|NCT03100058|184673849|OTHER|Dose finding study|Median Difference (Net)|-0.2||||0.319|TWO_SIDED|95.0|-0.63|0.21|||ANCOVA|||||0.21|-0.63|0.319
92169593|NCT04982315|184227789|SUPERIORITY||Risk Ratio (RR)|1.12||||0.36|TWO_SIDED|95.0|0.88|1.43|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 6 months||1.43|.88|.36
92385531|NCT03100058|184673849|OTHER|Dose finding study|Mean Difference (Net)|-0.4||||0.008|TWO_SIDED|95.0|-1.05|-0.16|||ANCOVA|||||-0.16|-1.05|0.008
92385532|NCT03100058|184673849|OTHER|Dose finding study|Mean Difference (Net)|-0.4||||0.015|TWO_SIDED|95.0|-0.76|-0.08|||ANCOVA|||||-0.08|-0.76|0.015
92385533|NCT03100058|184673849|OTHER|Dose finding study|Mean Difference (Net)|-0.1||||0.707|TWO_SIDED|95.0|-0.5|0.34|||ANCOVA|||||0.34|-0.50|0.707
92385534|NCT03100058|184673849|OTHER|Dose finding study|Mean Difference (Net)|-0.2||||0.28|TWO_SIDED|95.0|-0.65|0.19|||ANCOVA|||||0.19|-0.65|0.280
92385535|NCT03100058|184673849|OTHER|Dose finding study|Mean Difference (Net)|-0.4||||0.086|TWO_SIDED|95.0|-0.8|0.05|||ANCOVA|||||0.05|-0.80|0.086
92234125|NCT03191786|184371032|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.68||||0.041|TWO_SIDED|95.0|0.46|0.99|||Log Rank|||Time to Confirmed Deterioration for the Composite of the 3 following symptoms: cough, dyspnoea (multi-items QLQ-LC13) and chest pain||0.99|0.46|0.041
92234126|NCT03191786|184371033|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.84||||0.272|TWO_SIDED|95.0|0.61|1.15|||Log Rank|||SP263 TC\>=1%||1.15|0.61|0.272
92234127|NCT03191786|184371034|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.87||||0.366|TWO_SIDED|95.0|0.64|1.18|||Log Rank|||SP263 TC\>=1%||1.18|0.64|0.366
92239697|NCT01377467|184383229|SUPERIORITY_OR_OTHER||between-subjects effect|84.83||||0.578|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p=0.593. The a priori threshold for statistical significance is \<0.05.|||||0.578
92385536|NCT03100058|184673849|OTHER|Dose finding study|Mean Difference (Net)|-0.4||||0.03|TWO_SIDED|95.0|-0.72|-0.04|||ANCOVA|||||-0.04|-0.72|0.030
92385537|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-2.8||||0.156|TWO_SIDED|95.0|-6.64|1.07|||ANCOVA|||SBP||1.07|-6.64|0.156
92385538|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-3.1||||0.127|TWO_SIDED|95.0|-7.11|0.89|||ANCOVA|||SBP||0.89|-7.11|0.127
92385539|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-6.5||||0.002|TWO_SIDED|95.0|-10.52|-2.42|||ANCOVA|||SBP||-2.42|-10.52|0.002
92385540|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-2.7||||0.089|TWO_SIDED|95.0|-5.86|0.42|||ANCOVA|||SBP||0.42|-5.86|0.089
92385541|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-2.3||||0.245|TWO_SIDED|95.0|-6.12|1.57|||ANCOVA|||SBP||1.57|-6.12|0.245
92385542|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-0.8||||0.678|TWO_SIDED|95.0|-4.65|3.02|||ANCOVA|||SBP||3.02|-4.65|0.678
92385543|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-4.1||||0.04|TWO_SIDED|95.0|-8.07|-0.19|||ANCOVA|||SBP||-0.19|-8.07|0.040
92385544|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-3.4||||0.038|TWO_SIDED|95.0|-6.61|-0.19|||ANCOVA|||SBP||-0.19|-6.61|0.038
92385545|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-0.7||||0.601|TWO_SIDED|95.0|-3.38|1.96|||ANCOVA|||DBP||1.96|-3.38|0.601
92385546|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-0.4||||0.76|TWO_SIDED|95.0|-3.2|2.34|||ANCOVA|||DBP||2.34|-3.20|0.760
92385547|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-2.8||||0.051|TWO_SIDED|95.0|-5.6|0.01|||ANCOVA|||DBP||0.01|-5.60|0.051
92385548|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-1.8||||0.105|TWO_SIDED|95.0|-3.98|0.38|||ANCOVA|||DBP||0.38|-3.98|0.105
92234128|NCT03439345|184371038|SUPERIORITY|For the time-to-event analyses, survival analytic methods will be used to evaluate the time to the first event during the entire study period. Cox proportional hazards regression analyses, adjusted for baseline covariates used in minimised randomisation, will be used to estimate the hazard ratios, 95% confidence intervals and corresponding p-values, comparing all participants allocated active fenofibrate with all those allocated placebo.|Hazard Ratio (HR)|0.73||||0.006|TWO_SIDED|95.0|0.58|0.91|||Regression, Cox|Adjusted for baseline covariates used in minimised randomisation.||||0.91|0.58|0.006
92234129|NCT03439345|184371039|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.72||||0.005|TWO_SIDED|95.0|0.57|0.91|||Regression, Cox|||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.91|0.57|0.005
92234130|NCT03439345|184371040|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.58||||0.08|TWO_SIDED|95.0|0.31|1.06|||Regression, Cox|||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.06|0.31|0.08
92234131|NCT03439345|184371041|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.74||||0.003|TWO_SIDED|95.0|0.61|0.9|||Regression, Cox|||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.90|0.61|0.003
92385549|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|0.3||||0.82|TWO_SIDED|95.0|-2.36|2.98|||ANCOVA|||DBP||2.98|-2.36|0.820
92385550|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-1.9||||0.157|TWO_SIDED|95.0|-4.58|0.74|||ANCOVA|||DBP||0.74|-4.58|0.157
92385551|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-0.2||||0.859|TWO_SIDED|95.0|-2.99|2.49|||ANCOVA|||DBP||2.49|-2.99|0.859
92385552|NCT03100058|184673850|OTHER|Dose finding study|Mean Difference (Net)|-2.2||||0.054|TWO_SIDED|95.0|-4.41|0.04|||ANCOVA|||DBP||0.04|-4.41|0.054
92385553|NCT03100058|184673852|OTHER|Dose finding study|Median Difference (Net)|-0.6||||0.355|TWO_SIDED|95.0|-1.84|0.66|||ANCOVA|||||0.66|-1.84|0.355
92385554|NCT03100058|184673852|OTHER|Dose finding study|Mean Difference (Net)|-0.6||||0.373|TWO_SIDED|95.0|-1.83|0.69|||ANCOVA|||||0.69|-1.83|0.373
92385555|NCT03100058|184673852|OTHER|Dose finding study|Mean Difference (Net)|-2.8|||<|0.001|TWO_SIDED|95.0|-4.36|-1.24|||ANCOVA|||||-1.24|-4.36|<0.001
92385556|NCT03100058|184673858|OTHER|Dose finding study|Mean Difference (Net)|1.07||||0.632|TWO_SIDED|95.0|0.81|1.42|||ANCOVA|||||1.42|0.81|0.632
92385557|NCT03100058|184673858|OTHER|Dose finding study|Mean Difference (Net)|1.15||||0.352|TWO_SIDED|95.0|0.86|1.55|||ANCOVA|||||1.55|0.86|0.352
92385558|NCT03100058|184673858|OTHER|Dose finding study|Mean Difference (Net)|1.41||||0.027|TWO_SIDED|95.0|1.04|1.92|||ANCOVA|||||1.92|1.04|0.027
92385559|NCT03100058|184673858|OTHER|Dose finding study|Mean Difference (Net)|1.07||||0.587|TWO_SIDED|95.0|0.85|1.35|||ANCOVA|||||1.35|0.85|0.587
92385560|NCT03100058|184673858|OTHER|Dose finding study|Mean Difference (Net)|1.1||||0.508|TWO_SIDED|95.0|0.82|1.47|||ANCOVA|||||1.47|0.82|0.508
92385561|NCT03100058|184673858|OTHER|Dose finding study|Mean Difference (Net)|1.01||||0.945|TWO_SIDED|95.0|0.76|1.34|||ANCOVA|||||1.34|0.76|0.945
92169594|NCT04982315|184227789|SUPERIORITY||Risk Ratio (RR)|1.33||||0.012|TWO_SIDED|95.0|1.06|1.66|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 12 months||1.66|1.06|.012
92234132|NCT03439345|184371042|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.66||||0.001|TWO_SIDED|95.0|0.52|0.85|||Regression, Cox|||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.85|0.52|0.001
92239698|NCT01377467|184383230|SUPERIORITY_OR_OTHER||between-subjects effect|248.686||||0.607|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p=0.296. The a priori threshold for statistical significance is \<0.05.|||||0.607
92239699|NCT01377467|184383231|SUPERIORITY_OR_OTHER||z value|-2.342||||0.019|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.019
92239700|NCT01377467|184383232|SUPERIORITY_OR_OTHER||z value|-2.049||||0.042|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.042
92385562|NCT03100058|184673858|OTHER|Dose finding study|Mean Difference (Net)|1.08||||0.602|TWO_SIDED|95.0|0.81|1.45|||ANCOVA|||||1.45|0.81|0.602
92385563|NCT03100058|184673858|OTHER|Dose finding study|Mean Difference (Net)|1.06||||0.612|TWO_SIDED|95.0|0.84|1.35|||ANCOVA|||||1.35|0.84|0.612
92385564|NCT03100058|184673858|OTHER|Dose finding study|Median Difference (Net)|0.89||||0.382|TWO_SIDED|95.0|0.68|1.16|||ANCOVA|||||1.16|0.68|0.382
92385565|NCT03100058|184673858|OTHER|Dose finding study|Median Difference (Net)|0.87||||0.31|TWO_SIDED|95.0|0.67|1.14|||ANCOVA|||||1.14|0.67|0.310
92385566|NCT03100058|184673858|OTHER|Dose finding study|Mean Difference (Net)|0.9||||0.525|TWO_SIDED|95.0|0.65|1.25|||ANCOVA|||||1.25|0.65|0.525
92385567|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-7.9||||0.254|TWO_SIDED|95.0|-21.37|5.65|||ANCOVA|||Triglycerides (TG)||5.65|-21.37|0.254
92385568|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-2.7||||0.716|TWO_SIDED|95.0|-17.44|11.99|||ANCOVA|||Triglycerides (TG)||11.99|-17.44|0.716
92385569|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-15.6||||0.038|TWO_SIDED|95.0|-30.3|-0.86|||ANCOVA|||Triglycerides (TG)||-0.86|-30.30|0.038
92385570|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-7.0||||0.213|TWO_SIDED|95.0|-18.15|4.06|||ANCOVA|||Triglycerides (TG)||4.06|-18.15|0.213
92385571|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-1.7||||0.806|TWO_SIDED|95.0|-15.38|11.96|||ANCOVA|||Triglycerides (TG)||11.96|-15.38|0.806
92385572|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-2.3||||0.739|TWO_SIDED|95.0|-15.8|11.21|||ANCOVA|||Triglycerides (TG)||11.21|-15.80|0.739
92385573|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|1.4||||0.837|TWO_SIDED|95.0|-12.36|15.26|||ANCOVA|||Triglycerides (TG)||15.26|-12.36|0.837
92385574|NCT03100058|184673859|OTHER||Mean Difference (Net)|-11.4||||0.049|TWO_SIDED|95.0|-22.71|-0.07|||ANCOVA|||Triglycerides (TG)||-0.07|-22.71|0.049
92234133|NCT03439345|184371043|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.5||||0.008|TWO_SIDED|95.0|0.3|0.84|||Regression, Cox|||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.84|0.30|0.008
92278426|NCT02220920|184458947|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-32.6|STANDARD_ERROR_OF_MEAN|6.9|<|0.001|TWO_SIDED|95.0|-46.3|-18.9|||ANCOVA|||||-18.9|-46.3|<0.001
92278427|NCT02220920|184458948|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-2.37|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-3.09|-1.65|||ANCOVA|||||-1.65|-3.09|<0.001
92278428|NCT02220920|184458949|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-3.19|STANDARD_ERROR_OF_MEAN|1.67||0.058|TWO_SIDED|95.0|-6.49|0.11|||ANCOVA||Estimated P-Value, Least-Squares Mean Difference, Standard Error of the mean, 95% CI are presented for the change from Baseline in systolic blood pressure for week 16.|||0.11|-6.49|0.058
92385575|NCT03100058|184673859|OTHER|Dose finding study|Median Difference (Net)|1.3||||0.764|TWO_SIDED|95.0|-7.22|9.82|||ANCOVA|||Total Cholesterol (TC)||9.82|-7.22|0.764
92385576|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|2.6||||0.571|TWO_SIDED|95.0|-6.43|11.63|||ANCOVA|||Total Cholesterol (TC)||11.63|-6.43|0.571
92385577|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|0.1||||0.987|TWO_SIDED|95.0|-9.3|9.46|||ANCOVA|||Total Cholesterol (TC)||9.46|-9.30|0.987
92385578|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|9.9||||0.006|TWO_SIDED|95.0|2.85|16.87|||ANCOVA|||Total Cholesterol (TC)||16.87|2.85|0.006
92385579|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-3.3||||0.463|TWO_SIDED|95.0|-12.03|5.48|||ANCOVA|||Total Cholesterol (TC)||5.48|-12.03|0.463
92234134|NCT03439345|184371044|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation and for the baseline visual acuity.|Mean Difference (Final Values)|0.0||||0.36|TWO_SIDED|95.0|-0.01|0.01|||Regression, Cox|||The estimates were derived from linear mixed model repeated measures.||0.01|-0.01|0.36
92385580|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|0.4||||0.925|TWO_SIDED|95.0|-8.18|9.01|||ANOVA|||Total Cholesterol (TC)||9.01|-8.18|0.925
92385581|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|1.7||||0.711|TWO_SIDED|95.0|-7.19|10.53|||ANCOVA|||Total Cholesterol (TC)||10.53|-7.19|0.711
92385582|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|4.1||||0.265|TWO_SIDED|95.0|-3.1|11.26|||ANCOVA|||Total Cholesterol (TC)||11.26|-3.10|0.265
92385583|NCT03100058|184673859|OTHER|Dose finding study|Median Difference (Net)|0.0||||0.995|TWO_SIDED|95.0|-7.31|7.36|||ANCOVA|||HDL Cholesterol||7.36|-7.31|0.995
92278429|NCT02220920|184458949|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|1.03||0.232|TWO_SIDED|95.0|-3.27|0.8|||ANCOVA||Estimated P-Value, Least-Squares Mean Difference, Standard Error of the mean, 95% CI are presented for the change from Baseline in diastolic blood pressure for week 16.|||0.80|-3.27|0.232
92385584|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|4.1||||0.288|TWO_SIDED|95.0|-3.52|11.81|||ANCOVA|||HDL Cholesterol||11.81|-3.52|0.288
92385585|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|4.5||||0.269|TWO_SIDED|95.0|-3.5|12.5|||ANCOVA|||HDL Cholesterol||12.50|-3.50|0.269
92416407|NCT02880956|184721162|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|7.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92234135|NCT03439345|184371045|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation and for baseline VFQ-25 composite score.|Mean Difference (Final Values)|0.0||||0.58|TWO_SIDED|95.0|-1.0|1.0|||Regression, Cox|||The estimates were derived from linear mixed model repeated measures.||1|-1|0.58
92280511|NCT00601484|184463642|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.77|STANDARD_ERROR_OF_MEAN|8.31|||TWO_SIDED|90.0|-9.221|18.765||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||18.765|-9.221|
92385586|NCT03100058|184673859|OTHER|Dose finding study|Median Difference (Net)|7.3||||0.018|TWO_SIDED|95.0|1.23|13.27|||ANCOVA|||HDL Cholesterol||13.27|1.23|0.018
92385587|NCT03100058|184673859|OTHER|Dose finding study|Median Difference (Net)|2.2||||0.565|TWO_SIDED|95.0|-5.32|9.73|||ANCOVA|||HDL Cholesterol||9.73|-5.32|0.565
92385588|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|1.7||||0.649|TWO_SIDED|95.0|-5.67|9.09|||ANCOVA|||HDL Cholesterol||9.09|-5.67|0.649
92385589|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|0.7||||0.847|TWO_SIDED|95.0|-6.87|8.36|||ANCOVA|||HDL Cholesterol||8.36|-6.87|0.847
92385590|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|7.3||||0.02|TWO_SIDED|95.0|1.14|13.43|||ANCOVA|||HDL Cholesterol||13.43|1.14|0.020
92385591|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-3.8||||0.579|TWO_SIDED|95.0|-17.09|9.57|||ANCOVA|||LDL Cholesterol||9.57|-17.09|0.579
92385592|NCT03100058|184673859|OTHER||Mean Difference (Net)|5.0||||0.487|TWO_SIDED|95.0|-9.08|19.02|||ANCOVA|||LDL Cholesterol||19.02|-9.08|0.487
92385593|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-4.3||||0.561|TWO_SIDED|95.0|-18.96|10.3|||ANCOVA|||LDL Cholesterol||10.30|-18.96|0.561
92385594|NCT03100058|184673859|OTHER||Mean Difference (Net)|9.3||||0.097|TWO_SIDED|95.0|-1.68|20.25|||ANCOVA|||LDL Cholesterol||20.25|-1.68|0.097
92385595|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-8.4||||0.227|TWO_SIDED|95.0|-22.1|5.26|||ANCOVA|||LDL Cholesterol||5.26|-22.10|0.227
92385596|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-3.8||||0.58|TWO_SIDED|95.0|-17.22|9.64|||ANCOVA|||LDL Cholesterol||9.64|-17.22|0.580
92385597|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-4.8||||0.494|TWO_SIDED|95.0|-18.67|9.03|||ANCOVA|||LDL Cholesterol||9.03|-18.67|0.494
92278430|NCT00494975|184458959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94|STANDARD_ERROR_OF_MEAN|0.32|<|0.05|TWO_SIDED|95.0|0.31|1.56|||generalized estimating equations (GEE)|||The VAS score of pruritus intensity was recorded for each participant at baseline and weekly until week 12 so that each one had 12 repeatedly measured data scores. To investigate the predictive effects of age, sex, comorbid diseases, phototherapy, and results of blood laboratory exams on the intensity of pruritus, marginal linear regression model was fitted to the repeatedly measured VAS score data using the generalized estimating equations (GEE) method.||1.56|0.31|<0.05
92278431|NCT00789802|184458965|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.03
92278432|NCT00789802|184458965|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.02
92278433|NCT02811861|184458969|SUPERIORITY||Stratified Hazard Ratio|0.65|||<|0.0001|TWO_SIDED|95.0|0.53|0.8|||Stratified Log-rank Test|Hazard ratio is based on a Cox Proportional Hazards Model including treatment group as a factor.||||0.80|0.53|<0.0001
92278434|NCT02811861|184458969|SUPERIORITY||Stratified Hazard Ratio|0.39|||<|0.0001|TWO_SIDED|95.0|0.32|0.49|||Stratified Log-rank Test|Hazard ratio is based on a Cox Proportional Hazards Model including treatment group as a factor.||||0.49|0.32|<0.0001
92278435|NCT04081337|184458985|SUPERIORITY||LS Mean Difference|19.68||||0.5733|TWO_SIDED|95.0|-50.36|89.72|||ANCOVA|||||89.72|-50.36|0.5733
92278436|NCT04081337|184458986|SUPERIORITY||LS Mean Difference|-855.94|||<|0.0001|TWO_SIDED|95.0|-1090.87|-621.02|||ANCOVA|||||-621.02|-1090.87|<0.0001
92278437|NCT04081337|184458987|SUPERIORITY||LS Mean Difference|-3.22||||0.9481|TWO_SIDED|95.0|-102.65|96.2|||ANCOVA|||||96.20|-102.65|0.9481
92278438|NCT04081337|184458988|SUPERIORITY||LS Mean Difference|-0.034|||<|0.0001|TWO_SIDED|95.0|-0.051|-0.018|||ANCOVA|||||-0.018|-0.051|<0.0001
92385598|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|-1.6||||0.782|TWO_SIDED|95.0|-12.81|9.65|||ANCOVA|||LDL Cholesterol||9.65|-12.81|0.782
92385599|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|1.9||||0.816|TWO_SIDED|95.0|-13.82|17.54|||ANCOVA|||Triglycerides (TG)||17.54|-13.82|0.816
92385600|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|8.02||||0.341|TWO_SIDED|95.0|-8.13|23.42|||ANCOVA|||Triglycerides (TG)||23.42|-8.13|0.341
92385601|NCT03100058|184673859|OTHER|Dose finding study|Median Difference (Net)|9.99||||0.566|TWO_SIDED|95.0|-25.39|13.91|||ANCOVA|||Triglycerides (TG)||13.91|-25.39|0.566
92385602|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|2.98||||0.405|TWO_SIDED|95.0|-3.38|8.36|||ANCOVA|||Total Cholesterol (TC)||8.36|-3.38|0.405
92385603|NCT03100058|184673859|OTHER|Dose finding study|Median Difference (Net)|2.0||||0.511|TWO_SIDED|95.0|-3.92|7.87|||ANCOVA|||Total Cholesterol (TC)||7.87|-3.92|0.511
92385604|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|2.5||||0.506|TWO_SIDED|95.0|-4.83|9.79|||ANCOVA|||Total Cholesterol (TC)||9.79|-4.83|0.506
92239701|NCT01377467|184383233|SUPERIORITY_OR_OTHER||z value|-0.937||||0.371|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.371
92278439|NCT04081337|184458989|SUPERIORITY||LS Mean difference|-0.028||||0.0031|TWO_SIDED|95.0|-0.045|-0.01|||ANCOVA|||||-0.010|-0.045|0.0031
92278440|NCT04081337|184458990|SUPERIORITY||LS Mean difference|251.89||||0.0004|TWO_SIDED|95.0|119.09|384.69|||ANCOVA|||||384.69|119.09|0.0004
92278441|NCT04081337|184458991|SUPERIORITY||LS Mean difference|-6.87||||0.0005|TWO_SIDED|95.0|-10.51|-3.22|||ANCOVA|||For Adjusted protein oxidation||-3.22|-10.51|0.0005
92278442|NCT04081337|184458991|SUPERIORITY||LS Mean difference|14.48|||<|0.0001|TWO_SIDED|95.0|8.02|20.93|||ANCOVA|||For Adjusted fat oxidation||20.93|8.02|<0.0001
92278443|NCT04081337|184458991|SUPERIORITY||LS Mean difference|-26.64||||0.0001|TWO_SIDED|95.0|-39.46|-13.83|||ANCOVA|||Adjusted carbohydrate oxidation||-13.83|-39.46|0.0001
92239702|NCT01377467|184383234|SUPERIORITY_OR_OTHER||z value|-2.752||||0.005|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.005
92239703|NCT01377467|184383235|SUPERIORITY_OR_OTHER||z value|-2.166||||0.031|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.031
92239704|NCT01377467|184383236|SUPERIORITY_OR_OTHER||z value|-1.288||||0.212|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.212
92239705|NCT01377467|184383237|SUPERIORITY_OR_OTHER||z value|-1.64||||0.108|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.108
92239706|NCT01377467|184383238|SUPERIORITY_OR_OTHER||z value|-1.991||||0.048|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.048
92239707|NCT01355068|184383262|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|101.33|||||TWO_SIDED|90.0|97.85|104.94||||||Natural log transformed AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||104.94|97.85|
92239708|NCT01355068|184383263|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|102.2|||||TWO_SIDED|90.0|97.18|107.47||||||Natural log transformed Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||107.47|97.18|
92278444|NCT04081337|184458992|SUPERIORITY||LS Mean difference|-8.47|||<|0.0001|TWO_SIDED|95.0|-11.04|-5.9|||Mixed Models Analysis|||||-5.90|-11.04|<0.0001
92385605|NCT03100058|184673859|OTHER|Dose finding study|Median Difference (Net)|3.3||||0.392|TWO_SIDED|95.0|-4.2|10.7|||ANCOVA|||HDL Cholesterol||10.70|-4.20|0.392
92385606|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|3.0||||0.426|TWO_SIDED|95.0|-4.45|10.53|||ANOVA|||HDL Cholesterol||10.53|-4.45|0.426
92385607|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|8.5||||0.071|TWO_SIDED|95.0|-0.72|17.8|||ANCOVA|||HDL Cholesterol||17.80|-0.72|0.071
92385608|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|2.9||||0.498|TWO_SIDED|95.0|-5.56|11.42|||ANCOVA|||LDL Cholesterol||11.42|-5.56|0.498
92385609|NCT03100058|184673859|OTHER|Dose finding study|Median Difference (Net)|2.4||||0.586|TWO_SIDED|95.0|-6.17|10.9|||ANCOVA|||LDL Cholesterol||10.90|-6.17|0.586
92385610|NCT03100058|184673859|OTHER|Dose finding study|Mean Difference (Net)|2.1||||0.696|TWO_SIDED|95.0|-8.47|12.67|||ANCOVA|||LDL Cholesterol||12.67|-8.47|0.696
92234136|NCT03439345|184371046|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation and for baseline EQ-5D Index Score.|Mean Difference (Final Values)|0.0||||0.93|TWO_SIDED|95.0|-0.02|0.02|||Regression, Cox|||The estimates were derived from linear mixed model repeated measures.||0.02|-0.02|0.93
92234137|NCT03439345|184371047|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation and for baseline EQ-5D Visual Analogue Score.|Mean Difference (Final Values)|-1.0||||0.43|TWO_SIDED|95.0|-2.0|1.0|||Regression, Cox|||The estimates were derived from a linear mixed model repeated measures||1|-2|0.43
92234138|NCT03439345|184371048|OTHER||Mean Difference (Final Values)|-254.0|||||TWO_SIDED|95.0|-1062.0|624.0||||||||624|-1062|
92234139|NCT03439345|184371049|OTHER||Incremental cost-effectiveness ratio|614.0|||||TWO_SIDED||||||||£614 cost per QALY gained based on probabilistic analysis|||||
92234140|NCT03439345|184371050|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.58|0.99||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.99|0.58|
92234141|NCT03439345|184371051|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.4|1.0||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.00|0.40|
92234142|NCT03439345|184371052|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.52|0.97||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.97|0.52|
92234143|NCT03439345|184371053|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.55|1.07||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.07|0.55|
92234144|NCT03439345|184371054|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.51|1.21||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.21|0.51|
92234145|NCT03439345|184371055|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.54|0.93||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.93|0.54|
92234146|NCT03439345|184371056|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.28|0.93||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.93|0.28|
92234147|NCT03439345|184371057|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.6|0.99||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.99|0.60|
92234148|NCT03439345|184371058|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.49|0.95||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.95|0.49|
92234149|NCT03439345|184371059|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.53|1.06||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.06|0.53|
92234150|NCT03439345|184371060|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|1.4|||||TWO_SIDED|95.0|0.55|3.57||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||3.57|0.55|
92234151|NCT03439345|184371061|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.48|1.03||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.03|0.48|
92234152|NCT03439345|184371062|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.56|0.99||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.99|0.56|
92234153|NCT03439345|184371063|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation and for the baseline UACR.|Hazard Ratio (HR)|-12.4|||||TWO_SIDED|95.0|-25.8|3.5|||||Estimates are in %.|Linear mixed model repeated measures analyses were conducted to estimate the trial-averaged percentage difference in geometric mean UACR between the randomised treatment groups. UACR data at baseline was available for 312 participants allocated fenofibrate and 310 participants allocated placebo.||3.5|-25.8|
92234154|NCT03439345|184371064|SUPERIORITY|"Adjusted for baseline covariates used in minimised randomisation.~."|Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.69|1.6||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.60|0.69|
92234155|NCT03439345|184371065|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.11|1.12||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.12|0.11|
92278445|NCT04081337|184458993|SUPERIORITY||LS Mean difference|-4.08|||<|0.0001|TWO_SIDED|95.0|-5.12|-3.05|||Mixed Models Analysis|||||-3.05|-5.12|<0.0001
92278446|NCT04081337|184458994|SUPERIORITY||LS Mean difference|-5.08|||<|0.0001|TWO_SIDED|95.0|-6.93|-3.22|||ANCOVA|||||-3.22|-6.93|<0.0001
92278447|NCT04081337|184458995|SUPERIORITY||LS Mean Difference|-1.14||||0.0304|TWO_SIDED|95.0|-2.16|-0.11|||ANCOVA|||||-0.11|-2.16|0.0304
92385611|NCT00465088|184673864|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05|Mixed Models Analysis|||An n = 81 for niacin extended-release with simvastatin and n = 54 for atorvastatin would provide \> 99% power to detect a 13% increase in HDL-C with niacin extended-release with simvastatin relative to atorvastatin, assuming an SD of 16%||||<0.001
92385612|NCT04765202|184673898|SUPERIORITY||Percentage Difference|14.3||||1|TWO_SIDED|95.0|-11.64|40.21|||Fisher Exact||Difference was calculated as (percent area of wound closure in SOMA Tx site) - ((percent area of wound closure in AG Tx site). 95% CI was derived using the normal approximation to binomial distribution.|Comparison of complete wound closure without additional autografting at Month 2 in AG TX site and SOMA TX site in Cohort 1 Group 1.||40.21|-11.64|1.0000
92385613|NCT04765202|184673898|SUPERIORITY||Percentage Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Difference was calculated as (percent area of wound closure in SOMA Tx site) - ((percent area of wound closure in AG Tx site). 95% CI was derived using the normal approximation to binomial distribution.|Comparison of complete wound closure without additional autografting at Month 2 in AG TX site and SOMA TX site in Cohort 1 Group 2.||0|0|
92385614|NCT04929249|184673900|SUPERIORITY||LS mean difference|-53.0|||<|0.001|TWO_SIDED|97.5|-60.0|-46.0|||Mixed Models Analysis|||||-46.0|-60.0|<0.001
92385615|NCT04929249|184673901|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the one-sided 98.75% confidence interval did not exceed the non-inferiority margin of 15%.|Difference in percentage|-10.6|||||TWO_SIDED|97.5|-18.3|-3.0|||Normal approx. to binomial distribution||||Upper limit of one-sided 98.75% CI (-3.0%)|-3.0|-18.3|
92385616|NCT04929249|184673902|SUPERIORITY||LS mean difference|-47.6|||<|0.001|TWO_SIDED|95.0|-52.8|-42.3|||Mixed Models Analysis|||||-42.3|-52.8|<0.001
92385617|NCT04929249|184673903|SUPERIORITY||LS mean difference|-54.4|||<|0.001|TWO_SIDED|95.0|-59.0|-49.8|||Regression, Linear|||||-49.8|-59.0|<0.001
92385618|NCT04929249|184673904|SUPERIORITY||LS mean difference|-48.9|||<|0.001|TWO_SIDED|95.0|-52.9|-44.9|||Regression, Linear|||||-44.9|-52.9|<0.001
92385619|NCT04929249|184673905|SUPERIORITY||Odds Ratio (OR)|42.32|||<|0.001|TWO_SIDED|95.0|22.07|81.16|||Regression, Logistic|||||81.16|22.07|<0.001
92385620|NCT04929249|184673906|SUPERIORITY||Odds Ratio (OR)|17.32|||<|0.001|TWO_SIDED|95.0|6.72|44.66|||Regression, Logistic|||||44.66|6.72|<0.001
92385621|NCT04929249|184673907|SUPERIORITY||Odds Ratio (OR)|24.46|||<|0.001|TWO_SIDED|95.0|14.18|42.19|||Regression, Logistic|||||42.19|14.18|<0.001
92385622|NCT04929249|184673908|SUPERIORITY||Odds Ratio (OR)|35.12|||<|0.001|TWO_SIDED|95.0|19.51|63.24|||Regression, Logistic|||||63.24|19.51|<0.001
92385623|NCT04929249|184673909|SUPERIORITY||LS mean difference|-30.1|||<|0.001|TWO_SIDED|95.0|-33.8|-26.3|||Mixed Models Analysis|||Total Cholesterol||-26.3|-33.8|<0.001
92385624|NCT04929249|184673909|SUPERIORITY||LS mean difference|6.6|||<|0.001|TWO_SIDED|95.0|3.6|9.5|||Mixed Models Analysis|||HDL Cholesterol||9.5|3.6|<0.001
92385625|NCT04929249|184673909|SUPERIORITY||LS mean difference|-44.2|||<|0.001|TWO_SIDED|95.0|-49.1|-39.3|||Mixed Models Analysis|||Non-HDL Cholesterol||-39.3|-49.1|<0.001
92385626|NCT04929249|184673909|SUPERIORITY||LS mean difference|-16.9|||<|0.001|TWO_SIDED|95.0|-23.8|-10.0|||Mixed Models Analysis|||VLDL Cholesterol||-10.0|-23.8|<0.001
92385627|NCT04929249|184673909|SUPERIORITY||LS mean difference|-17.8|||<|0.001|TWO_SIDED|95.0|-24.7|-10.9|||Mixed Models Analysis|||Triglycerides||-10.9|-24.7|<0.001
92385628|NCT04929249|184673909|SUPERIORITY||LS mean difference|-42.6|||<|0.001|TWO_SIDED|95.0|-47.5|-37.8|||Mixed Models Analysis|||Apolipoprotein B||-37.8|-47.5|<0.001
92385629|NCT04929249|184673909|SUPERIORITY||LS mean difference|-21.9|||<|0.001|TWO_SIDED|95.0|-25.8|-18.0|||Mixed Models Analysis|||Lipoprotein(a)||-18.0|-25.8|<0.001
92385630|NCT04929249|184673910|SUPERIORITY||LS mean difference|-49.9|||<|0.001|TWO_SIDED|95.0|-56.0|-43.9|||Mixed Models Analysis|||Total Cholesterol||-43.9|-56.0|<0.001
92385631|NCT04929249|184673910|SUPERIORITY||LS mean difference|3.1|||<|0.001|TWO_SIDED|95.0|1.8|4.4|||Mixed Models Analysis|||HDL Cholesterol||4.4|1.8|<0.001
92385632|NCT04929249|184673910|SUPERIORITY||LS mean difference|-52.4|||<|0.001|TWO_SIDED|95.0|-58.1|-46.7|||Mixed Models Analysis|||Non-HDL Cholesterol||-46.7|-58.1|<0.001
92385633|NCT04929249|184673910|SUPERIORITY||LS mean difference|-4.6|||<|0.001|TWO_SIDED|95.0|-6.5|-2.8|||Mixed Models Analysis|||VLDL Cholesterol||-2.8|-6.5|<0.001
92385634|NCT04929249|184673910|SUPERIORITY||LS mean difference|-25.3|||<|0.001|TWO_SIDED|95.0|-34.8|-15.8|||Mixed Models Analysis|||Triglycerides||-15.8|-34.8|<0.001
92385635|NCT04929249|184673910|SUPERIORITY||LS mean difference|-36.3|||<|0.001|TWO_SIDED|95.0|-39.7|-32.9|||Mixed Models Analysis|||Apolipoprotein B||-32.9|-39.7|<0.001
92385636|NCT04929249|184673910|SUPERIORITY||LS mean difference|-8.7|||<|0.001|TWO_SIDED|95.0|-10.7|-6.8|||Mixed Models Analysis|||Lipoprotein(a)||-6.8|-10.7|<0.001
92385637|NCT04929249|184673911|SUPERIORITY||Odds Ratio (OR)|1.06||||0.899|TWO_SIDED|95.0|0.43|2.61|||proportional odds model|||||2.61|0.43|0.899
92385638|NCT04929249|184673912|SUPERIORITY||LS mean difference|-0.008||||0.727|TWO_SIDED|95.0|-0.055|0.039|||Regression, Linear|||||0.039|-0.055|0.727
92385639|NCT05758402|184673915|OTHER||Rate difference|1.21||||0.544|TWO_SIDED|95.0|-2.71|5.13|||Chi-squared||Rate difference = detection rate of PsA in EARP group - detection rate of PsA in routine practice group|||5.13|-2.71|0.544
92385640|NCT05758402|184673916|OTHER|||||||0.256|||||||Chi-squared|||Sensitivity||||0.256
92385641|NCT05758402|184673916|OTHER||||||<|0.001|||||||Chi-squared|||Specificity||||<0.001
92385642|NCT05758402|184673916|OTHER|||||||0.336|||||||Fisher Exact|||Positive Predictive Value (PPV)||||0.336
92385643|NCT05758402|184673916|OTHER|||||||0.49|||||||Chi-squared|||Negative Predictive Value (NPV)||||0.490
92385644|NCT05758402|184673917|OTHER|||||||0.101|||||||Wilcoxon (Mann-Whitney)|||Age characteristics||||0.101
92385645|NCT05758402|184673918|OTHER|||||||0.836|||||||Chi-squared|||Gender characteristics||||0.836
92385646|NCT05758402|184673919|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Body Mass Index (BMI) characteristics||||0.520
92385647|NCT05758402|184673920|OTHER|||||||0.216|||||||Chi-squared|||Drinking history characteristics||||0.216
92385648|NCT05758402|184673920|OTHER|||||||0.719|||||||Chi-squared|||Smoking history characteristics||||0.719
92385649|NCT05758402|184673921|OTHER|||||||0.831|||||||Wilcoxon (Mann-Whitney)|||Duration of Psoriasis (PsO) characteristics||||0.831
92385650|NCT05758402|184673922|OTHER|||||||0.274|||||||Fisher Exact|||Family history of psoriasis (PsO) characteristics||||0.274
92385651|NCT05758402|184673922|OTHER|||||||0.272|||||||Fisher Exact|||Family history of psoriatic arthritis (PsA) characteristics||||0.272
92385652|NCT05758402|184673923|OTHER|||||||0.622|||||||Wilcoxon (Mann-Whitney)|||Psoriasis Area and Severity Index (PASI) score characteristics||||0.622
92385653|NCT05758402|184673924|OTHER||||||<|0.001|||||||Chi-squared|||Status of hard-to-treat area involvement characteristics||||<0.001
92385654|NCT05758402|184673924|OTHER||||||<|0.001|||||||Chi-squared|||Status of musculoskeletal symptoms characteristics||||<0.001
92416408|NCT02880956|184721162|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|1.03||0.948|TWO_SIDED|95.0|-1.959|2.092||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 48||2.092|-1.959|0.948
92234156|NCT05405166|184371074|NON_INFERIORITY|Non-inferiority was concluded if lower limit of relative risk 95% confidence interval (CI) was greater or equal to 0.839.|Relative risk|1.008||||0.0006|TWO_SIDED|95.0|0.903|1.126|||Farrington-Manning||Two-sided 95% CI estimated using Farrington-Manning method.|||1.126|0.903|0.0006
92234157|NCT05405166|184371075|NON_INFERIORITY|Applied anti-log procedure to convert original scale. Non-inferiority was concluded if lower limit of ratio of geometric mean 90% CI was greater or equal to 0.80.|Ratio of geometric mean|1.532|||||TWO_SIDED|90.0|1.316|1.784||||||||1.784|1.316|
92234158|NCT05405166|184371076|NON_INFERIORITY|Non-inferiority was concluded if lower limit of relative risk 95% CI was greater or equal to 0.6312.|Relative risk|1.011|||<|0.0001|TWO_SIDED|95.0|0.841|1.215|||Farrington-Manning||Two-sided 95% CI estimated using Farrington-Manning method.|A hierarchical test procedure was used to control the Type I error. Testing was performed sequentially for first 4 secondary endpoints in the order they are presented only if both co-primary endpoints achieved non-inferiority and continued when the previous endpoint was statistically significant at 1-sided significance level of 0.025.||1.215|0.841|<0.0001
92234159|NCT05405166|184371077|NON_INFERIORITY|Applied anti-log procedure to convert original scale. Non-inferiority was concluded if lower limit of ratio of geometric mean 90% CI was greater or equal to 0.80.|Ratio of geometric mean|1.302|||||TWO_SIDED|90.0|1.158|1.465||||||A hierarchical test procedure was used to control the Type I error. Testing was performed sequentially for first 4 secondary endpoints in the order they are presented only if both co-primary endpoints achieved non-inferiority and continued when the previous endpoint was statistically significant at 1-sided significance level of 0.05.||1.465|1.158|
92234160|NCT05405166|184371078|SUPERIORITY||Relative risk|0.061|||<|0.0001|TWO_SIDED|95.0|0.022|0.164|||Fisher Exact||Two-sided 95% CI estimated using Wald method.|A hierarchical test procedure was used to control the Type I error. Testing was performed sequentially for first 4 secondary endpoints in the order they are presented only if both co-primary endpoints achieved non-inferiority and continued when the previous endpoint was statistically significant at 1-sided significance level of 0.025.||0.164|0.022|<0.0001
92234161|NCT05405166|184371079|SUPERIORITY||Odds Ratio (OR)|2.036||||0.0001|TWO_SIDED|95.0|1.425|2.908||Stratified on multiple myeloma (MM) isotype (immunoglobulin G \[IgG\] versus non-IgG), body weight (\<=65 kg, \>65 to \<=85 kg, and \>85 kg), and number of prior lines (1 to 2 versus \>=3) according to IRT.|Cochran-Mantel-Haenszel||Two-sided 95% CI estimated using the Wald method.|A hierarchical test procedure was used to control the Type I error. Testing was performed sequentially for first 4 secondary endpoints in the order they are presented only if both co-primary endpoints achieved non-inferiority and continued when the previous endpoint was statistically significant at 1-sided significance level of 0.025.||2.908|1.425|0.0001
92234162|NCT05110300|184371131|SUPERIORITY|||||||0.0283||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.0283
92234163|NCT05110300|184371132|SUPERIORITY|||||||0.3118||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.3118
92234164|NCT05110300|184371133|SUPERIORITY|||||||0.213||||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||To evaluate differences in average outcome measure score change from baseline to last study session, a 2-sided t-test was used, with non-parametric analysis used as necessary.||||0.213
92234165|NCT05110300|184371133|EQUIVALENCE|MDC of the inpatient stroke population for the BBS was used as the equivalence bounds. Equivalence bounds were set at +/- 6.9|||||<|0.001||||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||||||<0.001
92234166|NCT05110300|184371133|SUPERIORITY|||||||0.32||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANCOVA|ANCOVA, with the number of sessions completed as the covariate.||Because each participant may have had a different number of BWSS sessions completed, an ANCOVA was used to assess for mean differences in outcome score change while controlling for the number of BWSS sessions completed||||0.320
92385655|NCT05758402|184673925|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||NAPSI score of left hand characteristics||||<0.001
92385656|NCT05758402|184673925|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||NAPSI score of right hand characteristics||||0.010
92385657|NCT05758402|184673925|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||NAPSI score of left foot characteristics||||0.001
92385658|NCT05758402|184673925|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||NAPSI score of right foot characteristics||||<0.001
92385659|NCT05758402|184673925|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Total NAPSI score characteristics||||0.001
92385660|NCT05758402|184673926|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||SJC66 total joint count characteristics||||<0.001
92385661|NCT05758402|184673926|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||TJC68 total joint count characteristics||||<0.001
92416409|NCT02880956|184721162|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|8.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92385662|NCT05758402|184673926|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||SJC66/TJC68 total joint count characteristics||||<0.001
92385663|NCT05758402|184673927|OTHER|||||||0.043|||||||Fisher Exact|||Heart diseases||||0.043
92385664|NCT05758402|184673927|OTHER|||||||1|||||||Fisher Exact|||Stroke||||1.000
92385665|NCT05758402|184673927|OTHER|||||||1|||||||Fisher Exact|||Diabetes||||1.000
92385666|NCT05758402|184673927|OTHER|||||||0.019|||||||Chi-squared|||Hyperlipidemia||||0.019
92385667|NCT05758402|184673927|OTHER|||||||0.073|||||||Chi-squared|||Hypertension||||0.073
92385668|NCT05758402|184673927|OTHER|||||||0.377|||||||Fisher Exact|||Fatty liver||||0.377
92234167|NCT05110300|184371134|SUPERIORITY|||||||0.2612||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Mixed Models Analysis|Because some values are missing, these data were analyzed by fitting a mixed model, rather than by repeated measures ANOVA.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.2612
92234168|NCT05110300|184371135|SUPERIORITY|||||||0.541||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Mixed Models Analysis|Because some values are missing, these data were analyzed by fitting a mixed model, rather than by repeated measures ANOVA.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.5410
92385669|NCT02332291|184673929|SUPERIORITY||Odds Ratio, log|0.8642|STANDARD_ERROR_OF_MEAN|0.475||0.0689|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was \< 0.05.|Regression, Logistic|||Statistical analyses utilized a logistic regression model with remission status (defined as final MADRS \<= 7) as the dependent variable. The independent variable of interest was treatment arm assignment, and the model included age, sex, and baseline depression severity by MADRS as covariates.||||0.0689
92385670|NCT02332291|184673930|SUPERIORITY||Slope, fixed effect|-1.066|STANDARD_ERROR_OF_MEAN|0.264||0.0001|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|344 degrees of freedom||Statistical analyses utilized mixed model. MADRS score was the repeated measures dependent variable. Independent variables included time, age, sex, and treatment assignment. The primary variable of interest for this analysis was an interaction term between time and treatment assignment. A statistically significant interaction term would indicate that one treatment arm experienced a greater change in MADRS score over time than the other treatment arm.||||0.0001
92385671|NCT02332291|184673931|SUPERIORITY||Slope, fixed effects|-0.3117|STANDARD_ERROR_OF_MEAN|0.1566||0.0483|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|150 degrees of freedom||Statistical analyses utilized mixed models, with QIDS score being the repeated measures dependent variable. Independent variables included time, age, sex, and treatment assignment. The primary variable of interest was an interaction term between time and treatment assignment.||||0.0483
92385672|NCT02332291|184673932|OTHER|Analyses tested for effects of time in this one-arm, open-label study phase.|Slope, fixed effect|-1.186|STANDARD_ERROR_OF_MEAN|0.181|<|0.0001|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|128 degrees of freedom||Statistical analyses utilized mixed models, with MADRS score being the repeated measures dependent variable. Independent variables included time, age, and sex. The primary variable of interest was time, to indicate a change in depression severity over time with open-label treatment.||||<0.0001
92385673|NCT02332291|184673933|OTHER|Analyses tested for effects of time in this one-arm, open-label study phase.|Slope, fixed effects|-0.2342|STANDARD_ERROR_OF_MEAN|0.0908||0.0123|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|61 degrees of freedom||Statistical analyses utilized mixed models, with QIDS score being the repeated measures dependent variable. Independent variables included time, age, and sex. The primary variable of interest was time, to indicate a change in depression severity over time with open-label treatment.||||0.0123
92385674|NCT02332291|184673934|SUPERIORITY||Slope|-0.636|STANDARD_ERROR_OF_MEAN|1.924||0.742|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was p \< 0.05.|Regression, Linear|||Statistical analyses used a linear model. Final AES score at week 8 was the dependent variable. Independent variables included age, sex, baseline AES score, baseline MADRS score, and treatment assignment. Treatment assignment was the independent variable of interest.||||0.742
92385675|NCT02332291|184673935|SUPERIORITY||Slope|-5.4705|STANDARD_ERROR_OF_MEAN|2.352||0.0232|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was p \< 0.05.|Regression, Linear|||Statistical analyses used a linear regression model. Final RRS score at week 8 was the dependent variable. Independent variables included age, sex, baseline RRS score, baseline MADRS score, and treatment assignment. Treatment assignment was the independent variable of interest.||||0.0232
92169595|NCT04982315|184227789|SUPERIORITY||Risk Ratio (RR)|1.54|||<|0.001|TWO_SIDED|95.0|1.25|1.91|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 12 months||1.91|1.25|<.001
92385676|NCT01424228|184673939|SUPERIORITY_OR_OTHER_LEGACY|||||||0.367|||||||Cochran-Mantel-Haenszel|||||||0.367
92385677|NCT02951429|184673962|SUPERIORITY||Difference of percentage of participants|3.06||||0.6527|TWO_SIDED|95.0|-11.3|17.97|||Chi-squared|||||17.97|-11.30|0.6527
92385678|NCT02951429|184673963|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.7568|TWO_SIDED|95.0|0.67|1.34|||Log Rank|Log-rank test based on the time to the first event to compare the two treatment arms.||||1.34|0.67|0.7568
92385679|NCT02951429|184673964|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.376|TWO_SIDED|95.0|0.68|1.15|||Log Rank|Log-rank test based on the time to the first event to compare the two treatment arms.||||1.15|0.68|0.3760
92385680|NCT02951429|184673965|SUPERIORITY||Difference (95% CI)|2.85||||0.7046|TWO_SIDED|95.0|-12.13|17.84|||Chi-squared|||||17.84|-12.13|0.7046
92385681|NCT02951429|184673966|SUPERIORITY||Difference (95% CI)|0.94||||0.755|TWO_SIDED|95.0|0.62|1.41|||Log Rank|||||1.41|0.62|0.7550
92385682|NCT02951429|184673967|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.9174|TWO_SIDED|95.0|0.65|1.61|||Log Rank|||||1.61|0.65|0.9174
92169596|NCT04982315|184227789|SUPERIORITY||Risk Ratio (RR)|1.16||||0.076|TWO_SIDED|95.0|0.98|1.37|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 12 months||1.37|.98|.076
92385683|NCT02951429|184673968|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.7748|TWO_SIDED|95.0|0.7|1.62|||Log Rank|||||1.62|0.70|0.7748
92385684|NCT02951429|184673969|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.4258|TWO_SIDED|95.0|0.38|1.5|||Log Rank|||||1.50|0.38|0.4258
92385685|NCT02951429|184673971|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.3161|TWO_SIDED|95.0|0.31|1.47|||Log Rank|||||1.47|0.31|0.3161
92385686|NCT02951429|184673981|SUPERIORITY||Difference in mean change from baseline|-206.59||||0.5646|TWO_SIDED|95.0|-920.03|506.85|||Linear Mixed Effects Model|||||506.85|-920.03|0.5646
92385687|NCT02951429|184673982|SUPERIORITY||Median Difference (Final Values)|-3.33||||0.5255|TWO_SIDED|95.0|-9.98|2.36|||ANCOVA|Difference in mean change in total score: -4.22||||2.36|-9.98|0.5255
92169597|NCT04982315|184227790|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0|TWO_SIDED|95.0|-1.1|-0.5|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||-0.5|-1.1|0
92169598|NCT04982315|184227790|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.019|TWO_SIDED|95.0|-0.8|-0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||-0.1|-0.8|.019
92169599|NCT04982315|184227790|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0|TWO_SIDED|95.0|-1.3|-0.6|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||-0.6|-1.3|0
92169600|NCT04982315|184227790|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.02|TWO_SIDED|95.0|-0.9|-0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||-0.1|-0.9|.02
92169601|NCT04982315|184227790|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.02|TWO_SIDED|95.0|-0.8|-0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||-0.1|-0.8|.02
92169602|NCT04982315|184227790|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0|TWO_SIDED|95.0|-1.0|-0.3|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||-0.3|-1|0
92169603|NCT04982315|184227790|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.22|TWO_SIDED|95.0|-0.6|0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||0.1|-0.6|.22
92169604|NCT04982315|184227791|SUPERIORITY||Risk Ratio (RR)|1.76||||0|TWO_SIDED|95.0|1.39|2.24|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||2.24|1.39|0
92169605|NCT04982315|184227791|SUPERIORITY||Risk Ratio (RR)|1.19||||0.14|TWO_SIDED|95.0|0.94|1.5|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 6 months||1.50|.94|.14
92169606|NCT04982315|184227791|SUPERIORITY||Risk Ratio (RR)|1.38||||0.006|TWO_SIDED|95.0|1.1|1.73|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 6 months||1.73|1.10|.006
92169607|NCT04982315|184227791|SUPERIORITY||Risk Ratio (RR)|1.16||||0.167|TWO_SIDED|95.0|0.94|1.42|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 6 months||1.42|.94|.167
92385688|NCT02951429|184673983|SUPERIORITY||Median Difference (Final Values)|-6.0||||0.4263|TWO_SIDED|95.0|-18.0|6.0|||ANCOVA|Difference in mean change in total score: -5.07||||6.00|-18.00|0.4263
92416410|NCT02880956|184721162|SUPERIORITY||LS Mean of Difference|-1.04|STANDARD_ERROR_OF_MEAN|1.597||0.516|TWO_SIDED|95.0|-4.18|2.101||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 96||2.101|-4.180|0.516
92169608|NCT04982315|184227791|SUPERIORITY||Risk Ratio (RR)|1.22||||0.089|TWO_SIDED|95.0|0.97|1.52|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 12 months||1.52|.97|.089
92169609|NCT04982315|184227791|SUPERIORITY||Risk Ratio (RR)|1.21||||0.12|TWO_SIDED|95.0|0.95|1.55|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 12 months||1.55|.95|.12
92385689|NCT05546229|184674011|OTHER|||||||0.0049|||||||t-test, 2 sided|8 degrees of freedom||patient plasma versus isf value for methadone||||.0049
92385690|NCT05546229|184674012|OTHER|||||||0.0025|||||||t-test, 2 sided|8 degrees of freedom||||||.0025
92385691|NCT00847197|184674024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|2.1||0.926|TWO_SIDED|95.0|-3.9|4.3||The significance test was 2-tailed with α=0.05.|Mixed Models Analysis|The test for the treatment difference in terms of percentage change from baseline to a given time point was done using the contrast statement.||For the analysis of percent change from baseline in LDL-C at study endpoint, a Longitudinal Analysis of Covariance (ANCOVA) method was used. The repeated measures model included terms for treatment, time (Day 15, 29), and the interaction of time-by-treatment. The analysis model also adjusted for baseline, baseline-by-time interaction, region and gender.||4.3|-3.9|0.926
92416411|NCT02880956|184721162|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|10.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92234169|NCT05110300|184371136|SUPERIORITY|||||||0.6282||||||The a priori threshold for statistical significance was p\<0.05.|Wilcoxon (Mann-Whitney)|||To evaluate differences in average outcome measure score change from baseline to last study session, a 2-sided t-test was used, with non-parametric analysis used as necessary.||||0.6282
92234170|NCT05110300|184371136|SUPERIORITY|||||||0.5056||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANCOVA|ANCOVA, with the number of sessions completed as the covariate.||Because each participant may have had a different number of BWSS sessions completed, an ANCOVA was used to assess for mean differences in outcome score change while controlling for the number of BWSS sessions completed||||0.5056
92234171|NCT05110300|184371137|SUPERIORITY|||||||0.558||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Mixed Models Analysis|Because some values are missing, these data were analyzed by fitting a mixed model, rather than by repeated measures ANOVA.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.5580
92234172|NCT05110300|184371138|SUPERIORITY|||||||0.0897||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Mixed Models Analysis|Because some values are missing, these data were analyzed by fitting a mixed model, rather than by repeated measures ANOVA.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.0897
92234173|NCT05110300|184371139|SUPERIORITY|||||||0.0549||||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||To evaluate differences in average outcome measure score change from baseline to last study session, a 2-sided t-test was used, with non-parametric analysis used as necessary.||||0.0549
92234174|NCT05110300|184371139|SUPERIORITY|||||||0.05626||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANCOVA|ANCOVA, with the number of sessions completed as the covariate.||Because each participant may have had a different number of BWSS sessions completed, an ANCOVA was used to assess for mean differences in outcome score change while controlling for the number of BWSS sessions completed||||0.05626
92234175|NCT05110300|184371140|SUPERIORITY|||||||0.0706||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.0706
92234176|NCT05110300|184371141|SUPERIORITY|||||||0.1629||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.1629
92234177|NCT05110300|184371142|SUPERIORITY|||||||0.4271||||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||To evaluate differences in average outcome measure score change from baseline to last study session, a 2-sided t-test was used, with non-parametric analysis used as necessary.||||0.4271
92234178|NCT05110300|184371142|SUPERIORITY|||||||0.419||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANCOVA|ANCOVA, with the number of sessions completed as the covariate.||Because each participant may have had a different number of BWSS sessions completed, an ANCOVA was used to assess for mean differences in outcome score change while controlling for the number of BWSS sessions completed||||0.4190
92278448|NCT04081337|184458996|SUPERIORITY||LS Mean difference|-1.83|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.06|||ANCOVA|||For Triglyceride||-1.06|-2.60|<0.0001
92385692|NCT00847197|184674025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6|STANDARD_ERROR_OF_MEAN|1.8||0.013|TWO_SIDED|95.0|1.0|8.1||The significance test was 2-tailed with α=0.05.|Mixed Models Analysis|The test for the treatment difference in terms of percentage change from baseline to a given time point was done using the contrast statement.||For the analysis of percent change from baseline in LDL-C at study endpoint, a Longitudinal Analysis of Covariance (ANCOVA) method was used. The repeated measures model included terms for treatment, time (Day 15, 29), and the interaction of time-by-treatment. The analysis model also adjusted for baseline, baseline-by-time interaction, region and gender.||8.1|1.0|0.013
92416412|NCT02880956|184721162|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|1.582||0.971|TWO_SIDED|95.0|-3.055|3.168||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 96||3.168|-3.055|0.971
92416413|NCT02880956|184721162|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|11.24|||TWO_SIDED|||||||||Week 96||||
92234179|NCT05110300|184371143|SUPERIORITY|||||||0.3444||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.3444
92278449|NCT04081337|184458996|SUPERIORITY||LS Mean difference|-0.84|||<|0.0001|TWO_SIDED|95.0|-1.19|-0.48|||ANCOVA|||For VLDL||-0.48|-1.19|<0.0001
92278450|NCT04081337|184458996|SUPERIORITY||LS Mean difference|-0.53||||0.0436|TWO_SIDED|95.0|-1.05|-0.02|||ANCOVA|||For HDL||-0.02|-1.05|0.0436
92278451|NCT04081337|184458996|SUPERIORITY||LS Mean Difference|0.45||||0.0002|TWO_SIDED|95.0|0.23|0.66|||ANCOVA|||For Free fatty acid||0.66|0.23|0.0002
92416414|NCT02880956|184721162|SUPERIORITY||LS Mean of Difference|-1.39|STANDARD_ERROR_OF_MEAN|1.621||0.392|TWO_SIDED|95.0|-4.577|1.8||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 96||1.800|-4.577|0.392
92416415|NCT02880956|184721162|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|10.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416416|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.902||0.148|TWO_SIDED|95.0|-3.08|0.465||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.465|-3.080|0.148
92416417|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|-0.19|STANDARD_DEVIATION|6.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92169610|NCT04982315|184227791|SUPERIORITY||Risk Ratio (RR)|1.0||||0.99|TWO_SIDED|95.0|0.8|1.25|||Wald Test, 2-sided|Estimation performed with adjusted modified Poisson regression model with binary outcome, 30% improvement from baseline, fit with GEE.||Difference in change from baseline at 12 months||1.25|.80|.99
92169611|NCT04982315|184227792|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.025|TWO_SIDED|95.0|0.1|1.7|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||1.7|.1|.025
92169612|NCT04982315|184227792|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.747|TWO_SIDED|95.0|-0.8|1.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||1.1|-0.8|.747
92278452|NCT04081337|184458997|SUPERIORITY||LS Mean Difference|0.03||||0.8762|TWO_SIDED|95.0|-0.34|0.4|||ANCOVA|||||0.40|-0.34|0.8762
92169613|NCT04982315|184227792|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.1|TWO_SIDED|95.0|-0.1|1.7|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||1.7|-.1|.1
92169614|NCT04982315|184227792|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.22|TWO_SIDED|95.0|-0.4|1.6|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||1.6|-.4|.22
92169615|NCT04982315|184227792|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.162|TWO_SIDED|95.0|-0.3|1.6|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||1.6|-.3|.162
92169616|NCT04982315|184227792|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.277|TWO_SIDED|95.0|-0.4|1.4|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||1.4|-.4|.277
92169617|NCT04982315|184227792|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.68|TWO_SIDED|95.0|-1.0|0.7|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.7|-1|.68
92169618|NCT04982315|184227793|SUPERIORITY||Mean Difference (Final Values)|1.2||||0|TWO_SIDED|95.0|0.9|1.4|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||1.4|0.9|0
92169619|NCT04982315|184227793|SUPERIORITY||Mean Difference (Final Values)|0.7||||0|TWO_SIDED|95.0|0.4|1.0|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||1|.4|0
92169620|NCT04982315|184227793|SUPERIORITY||Mean Difference (Final Values)|1.3||||0|TWO_SIDED|95.0|1.0|1.5|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||1.5|1|0
92169621|NCT04982315|184227793|SUPERIORITY||Mean Difference (Final Values)|0.6||||0|TWO_SIDED|95.0|0.3|0.9|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||.9|.3|0
92169622|NCT04982315|184227793|SUPERIORITY||Mean Difference (Final Values)|0.5||||0|TWO_SIDED|95.0|0.2|0.8|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.8|.2|0
92169623|NCT04982315|184227793|SUPERIORITY||Mean Difference (Final Values)|0.8||||0|TWO_SIDED|95.0|0.5|1.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||1.1|.5|0
92278453|NCT04081337|184458998|SUPERIORITY||LS Mean difference|3.49||||0.0126|TWO_SIDED|95.0|0.79|6.19|||ANCOVA|||||6.19|0.79|0.0126
92278454|NCT04081337|184458999|SUPERIORITY||LS Mean Difference|-1.26||||0.0222|TWO_SIDED|95.0|-2.34|-0.19|||ANCOVA|||||-0.19|-2.34|0.0222
92278455|NCT04081337|184459000|SUPERIORITY||LS Mean difference|-0.36|||<|0.0001|TWO_SIDED|95.0|-0.48|-0.23|||ANCOVA|||||-0.23|-0.48|<0.0001
92416418|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|-1.52|STANDARD_ERROR_OF_MEAN|0.896||0.092|TWO_SIDED|95.0|-3.278|0.246||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.246|-3.278|0.092
92416419|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|-0.21|STANDARD_DEVIATION|7.14|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416420|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|-1.65|STANDARD_ERROR_OF_MEAN|0.915||0.073|TWO_SIDED|95.0|-3.446|0.152||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.152|-3.446|0.073
92385693|NCT00847197|184674026|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-10.3|STANDARD_ERROR_OF_MEAN|8.6||0.02|TWO_SIDED|95.0|-18.9|-1.9|||Wilcoxon's Rank Sum Test|The significance test was 2-tailed with α=0.05.||Triglycerides was analyzed by non-parametric methods with terms for treatment, gender and region. Specifically, the analysis of variance (ANOVA) model was applied to the Tukey's normal scores of the percent change from baseline. The estimate of the difference in medians between MK1903 and the placebo groups utilizing the Hodges-Lehmann estimate and a distribution-free 95% CI for the difference based on Wilcoxon's rank sum test was provided.||-1.9|-18.9|0.02
92169624|NCT04982315|184227793|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.06|TWO_SIDED|95.0|0.0|0.5|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||0.5|0|.06
92169625|NCT04982315|184227795|SUPERIORITY||Mean Difference (Final Values)|-0.4||||-0.06|TWO_SIDED|95.0|-1.7|0.08|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||.08|-1.7|-.06
92385694|NCT00622388|184674027|SUPERIORITY_OR_OTHER||Response rate|11.0|||||TWO_SIDED|95.0|5.0|20.0|||||Response rate is calculated as the number of responses divided by the number of participants treated, expressed as a percentage.|||20|5|
92385695|NCT02478255|184674046|OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.22
92385696|NCT02813889|184674051|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-0.0146||||0.0054|TWO_SIDED|95.0|-0.0261|-0.0031||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length (Full-Term) - Path Length (Pre-Term)|||-0.0031|-0.0261|0.0054
92385697|NCT02813889|184674052|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-0.02||||0.0005|TWO_SIDED|95.0|-0.0331|-0.007||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length (Full-Term) - Path Length (Pre-Term)|||-0.0070|-0.0331|0.0005
92385698|NCT02813889|184674053|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-0.0146||||0.0088|TWO_SIDED|95.0|-0.0267|-0.0026||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length (Full-Term) - Path Length (Pre-Term)|||-0.0026|-0.0267|0.0088
92385699|NCT02813889|184674054|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-0.0059||||0.7624|TWO_SIDED|95.0|-0.018|0.0062||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length (Full-Term) - Path Length (Pre-Term)|||0.0062|-0.0180|0.7624
92385700|NCT02813889|184674055|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.0129||||0.0326|TWO_SIDED|95.0|0.0007|0.0251||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length per second (Typical) - Path Length per second (Atypical)|||0.0251|0.0007|0.0326
92385701|NCT02813889|184674056|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.0309|||<|0.0001|TWO_SIDED|95.0|0.0138|0.048||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length per second (Typical) - Path Length per second (Atypical)|||0.0480|0.0138|<0.0001
92385702|NCT02813889|184674057|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.017||||0.0025|TWO_SIDED|95.0|0.0045|0.0295||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length per second (Typical) - Path Length per second (Atypical)|||0.0295|0.0045|0.0025
92385703|NCT02813889|184674058|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.0066||||0.6782|TWO_SIDED|95.0|-0.0059|0.0191||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length per second (Typical) - Path Length per second (Atypical)|||0.0191|-0.0059|0.6782
92385704|NCT02813889|184674059|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|1.064||||0.0479|TWO_SIDED|95.0|0.006|2.122||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Full-Term) - StdDevY (Pre-Term)|||2.122|0.006|0.0479
92385705|NCT02813889|184674060|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.278||||0.9947|TWO_SIDED|95.0|-0.921|1.477||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Full-Term) - StdDevY (Pre-Term)|||1.477|-0.921|0.9947
92385706|NCT02813889|184674061|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.835||||0.2614|TWO_SIDED|95.0|-0.274|1.945||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Full-Term) - StdDevY (Pre-Term)|||1.945|-0.274|0.2614
92280512|NCT00601484|184463643|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.86|STANDARD_ERROR_OF_MEAN|0.407|||TWO_SIDED|90.0|-1.546|-0.182||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.182|-1.546|
92385707|NCT02813889|184674062|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|1.176||||0.0314|TWO_SIDED|95.0|0.066|2.286||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Full-Term) - StdDevY (Pre-Term)|||2.286|0.066|0.0314
92385708|NCT02813889|184674063|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-1.074||||0.0958|TWO_SIDED|95.0|-2.255|0.1059||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Typical) - StdDevY (Atypical)|||0.1059|-2.255|0.0958
92385709|NCT02813889|184674064|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.5248||||0.966|TWO_SIDED|95.0|-1.1243|2.1739||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Typical) - StdDevY (Atypical)|||2.1739|-1.1243|0.9660
92416421|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|-0.25|STANDARD_DEVIATION|6.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92385710|NCT02813889|184674065|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-0.4198||||0.9462|TWO_SIDED|95.0|-1.6278|0.7882||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Typical) - StdDevY (Atypical)|||0.7882|-1.6278|0.9462
92385711|NCT02813889|184674066|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-1.0705||||0.1129|TWO_SIDED|95.0|-2.2785|0.1375||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Typical) - StdDevY (Atypical)|||0.1375|-2.2785|0.1129
92385712|NCT05224453|184674086|SUPERIORITY|Parametric t test|Mean Difference (Final Values)|-5.0|||<|0.05|TWO_SIDED|95.0|-6.21|-3.78|||t-test, 2 sided|||||-3.78|-6.21|<0.05
92385713|NCT05224453|184674087|SUPERIORITY|Parametric t test|Mean Difference (Final Values)|-3.7|||<|0.05|TWO_SIDED|95.0|-6.53|-0.86|||t-test, 2 sided|||||-0.86|-6.53|<0.05
92385714|NCT05224453|184674087|SUPERIORITY|Parametric t test|Mean Difference (Final Values)|-1.7|||<|0.05|TWO_SIDED|95.0|-3.84|0.44|||t-test, 2 sided|||||0.44|-3.84|<0.05
92385715|NCT01128244|184674090|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED|||||Threshold for significance P\<0.05|t-test, 2 sided|Paired t-test||||||0.20
92416422|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|0.47|STANDARD_ERROR_OF_MEAN|1.081||0.662|TWO_SIDED|95.0|-1.652|2.599||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.599|-1.652|0.662
92385716|NCT01128244|184674091|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED|||||Threshold for significance, P\<0.05|t-test, 2 sided|Paired t-test||||||0.62
92385717|NCT01128244|184674092|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Threshold for significance, P\<0.05|t-test, 2 sided|Paired t-test||||||<0.001
92385718|NCT01128244|184674093|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED|||||Threshold for significance, P\<0.05|t-test, 2 sided|Paired t-test||||||0.45
92385719|NCT01128244|184674094|SUPERIORITY_OR_OTHER||Test of treatment effect.|0.05|||<|0.05|TWO_SIDED|||||Data were analyzed by paired t-test adjusted for multiple testing by Sidak methods.|t-test, 2 sided|||Data were analyzed by paired t-test adjusted for multiple testing by Sidak methods.||||<0.05
92385720|NCT02974257|184674095|OTHER|Linear mixed-effects model with an independent variance-covariance matrix to account for the correlation of within-patient repeated measures was used and linear contrasts were used to estimate the mean difference between treatment arms at 48 hours.|Mean Difference (Final Values)|1.5||||0.9|TWO_SIDED|95.0|-3.1|6.1||Global p-value from the mixed model.|Mixed Models Analysis|If patients died before 48 hours lactate levels were imputed by carrying forward the last known value before the event with a 20% increase||||6.1|-3.1|0.9
92385721|NCT02974257|184674096|OTHER||Mean Difference (Final Values)|-0.36||||0.42|TWO_SIDED|95.0|-1.29|0.56|||Regression, Linear|||AUC-VO2 normally distributed, used a linear regression model to compare mean AUC-VO2 between treatment groups controlling for average temperature.||0.56|-1.29|0.42
92385722|NCT02974257|184674097|OTHER||Mean Difference (Final Values)|-0.3||||0.07|TWO_SIDED|95.0|-0.9|0.3||Mixed model controlling for repeated measures within patients used to get a mean difference in PDH specific activity between thiamine and placebo groups at 48 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model.||||0.3|-0.9|0.07
92385723|NCT01363908|184674121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0781|TWO_SIDED|||||The P-value was from the analysis of Wilcoxon signed rank test at post-treatment time point vs baseline.|Wilcoxon signed rank test|||Analysis of 6 to \<12 year olds at 24 weeks||||0.0781
92385724|NCT01363908|184674121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|TWO_SIDED|||||The P-value was from the analysis of Wilcoxon signed rank test at post-treatment time point vs baseline.|Wilcoxon signed rank test|||Analysis of 6 to \<12 year olds at 48 weeks||||0.5000
92416423|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|8.07|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416424|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|1.057||0.992|TWO_SIDED|95.0|-2.089|2.068||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.068|-2.089|0.992
92385725|NCT01363908|184674121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2609|TWO_SIDED|||||The P-value was from the analysis of Wilcoxon signed rank test at post-treatment time point vs baseline.|Wilcoxon signed rank test|||Analysis of 12 to \<18 year olds at 24 weeks||||0.2609
92385726|NCT01363908|184674121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9219|TWO_SIDED|||||The P-value was from the analysis of Wilcoxon signed rank test at post-treatment time point vs baseline.|Wilcoxon signed rank test|||Analysis of 12 to \<18 year olds at 48 weeks||||0.9219
92416425|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|8.38|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92385727|NCT01363908|184674123|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6875|TWO_SIDED|||||The P-value was from analysis of Wilcoxon signed-rank test at post-treatment time point vs. baseline.|Wilcoxon signed-rank test|||Analysis of 6 to \<12 year olds at 24 weeks||||0.6875
92385728|NCT01363908|184674123|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED|||||The P-value was from analysis of Wilcoxon signed-rank test at post-treatment time point vs. baseline.|Wilcoxon signed-rank test|||Analysis of 6 to \<12 year olds at 48 weeks||||1.0000
92385729|NCT01363908|184674123|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8181|TWO_SIDED|||||The P-value was from analysis of Wilcoxon signed-rank test at post-treatment time point vs. baseline.|Wilcoxon signed-rank test|||Analysis of 12 to \<18 year olds at 24 weeks||||0.8181
92385730|NCT01363908|184674123|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5566|TWO_SIDED|||||P-value was from analysis of Wilcoxon signed-rank test at post-treatment time point vs. baseline.|Wilcoxon signed-rank|||Analysis of 12 to \<18 year olds at 48 weeks||||0.5566
92385731|NCT01363908|184674125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0475|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 6 to \<12 year olds at 24 weeks||||0.0475
92385732|NCT01363908|184674125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.441|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.||Analysis of 6 to \<12 year olds at 48 weeks||||0.4410
92385733|NCT01363908|184674125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0417|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 12 to \<18 year olds at 24 weeks||||0.0417
92169626|NCT04982315|184227795|SUPERIORITY||Mean Difference (Final Values)|-1.0||||-0.15|TWO_SIDED|95.0|-2.4|0.3|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||.3|-2.4|-.15
92169627|NCT04982315|184227795|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.387|TWO_SIDED|95.0|-1.9|0.7|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.7|-1.9|.387
92385734|NCT01363908|184674125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0409|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 12 to \<18 year olds at 48 weeks||||0.0409
92385735|NCT01363908|184674126|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9901|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 6 to \<12 year olds at 24 weeks||||0.9901
92385736|NCT01363908|184674126|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3039|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 6 to \<12 year olds at 48 weeks||||0.3039
92385737|NCT01363908|184674126|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0044|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 12 to \<18 year olds at 24 weeks||||0.0044
92385738|NCT01363908|184674126|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0395|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 12 to \<18 year olds at 48 weeks||||0.0395
92385739|NCT05258149|184674127|SUPERIORITY|A superiority margin of 1 was used.|Odds Ratio (OR)|1.65|||||TWO_SIDED|95.0|1.1|2.46|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Odds Ratio was calculated as senofilcon A C3 over delefilcon A|||2.46|1.10|
92385740|NCT05258149|184674128|SUPERIORITY|A superiority margin of 1 was used.|Odds Ratio (OR)|1.88|||||TWO_SIDED|95.0|1.27|2.79|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Odds Ratio was calculated as senofilcon A C3 over delefilcon A|||2.79|1.27|
92385741|NCT05258149|184674129|NON_INFERIORITY|A Non-Inferiority margin of 10% was used.|Odds Ratio (OR)|0.74|||||TWO_SIDED|98.33|0.42|1.3|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Odds Ratio was calculated as senofilcon A C3 over delefilcon A||confidence intervals were adjusted using 98.33% per each secondary endpoint|1.30|0.42|
92385742|NCT05258149|184674130|SUPERIORITY|A superiority margin of 1 was used.|Odds Ratio (OR)|1.58|||||TWO_SIDED|98.33|0.91|2.75|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Odds Ratio was calculated as senofilcon A C3 over delefilcon A||confidence intervals were adjusted using 98.33% per each secondary endpoint|2.75|0.91|
92385743|NCT05258149|184674131|SUPERIORITY|A superiority margin of 1 was used.|Odds Ratio (OR)|2.08|||||TWO_SIDED|98.33|1.24|3.5|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Odds Ratio was calculated as senofilcon A C3 over delefilcon A||confidence intervals were adjusted using 98.33% per each secondary endpoint|3.50|1.24|
92385744|NCT01013194|184674138|SUPERIORITY_OR_OTHER|||||||0.434|TWO_SIDED||||||Fisher Exact|||||||0.4340
92385745|NCT01013194|184674139|SUPERIORITY_OR_OTHER|||||||0.0076|TWO_SIDED||||||t-test, 2 sided|||Comparison at 1 year Follow-up||||0.0076
92169628|NCT04982315|184227796|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.967|TWO_SIDED|95.0|-0.02|0.02|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||.02|-.02|.967
92169629|NCT04982315|184227796|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.272|TWO_SIDED|95.0|-0.1|0.3|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||.3|-.1|.272
92169630|NCT04982315|184227796|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.049|TWO_SIDED|95.0|0.0|0.4|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||0.4|0|.049
92280513|NCT00601484|184463643|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.38|STANDARD_ERROR_OF_MEAN|0.484|||TWO_SIDED|90.0|-2.196|-0.57||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.570|-2.196|
92169631|NCT04982315|184227796|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.409|TWO_SIDED|95.0|-0.1|0.3|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||.3|-.1|.409
92385746|NCT01013194|184674140|SUPERIORITY_OR_OTHER|||||||0.0437|TWO_SIDED||||||t-test, 2 sided|||Comparison at 1 year Follow-up||||0.0437
92385747|NCT04273893|184674147|OTHER|||||||0.05||||||Changes from baseline ALC were conducted using repeated measures models with an unstructured covariance matrix and model terms for tumor location, follow-up time. Adjustments for stratification factors were made using least squares means.|t-test, 2 sided|||||||0.05
92385748|NCT01393639|184674191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.0|||||TWO_SIDED|60.0|5.0|15.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||15|5|
92234180|NCT05110300|184371144|SUPERIORITY|||||||0.3581||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.3581
92416426|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|-0.82|STANDARD_ERROR_OF_MEAN|1.088||0.451|TWO_SIDED|95.0|-2.961|1.32||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.320|-2.961|0.451
92416427|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|7.72|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416428|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|-0.67|STANDARD_ERROR_OF_MEAN|1.227||0.583|TWO_SIDED|95.0|-3.088|1.739||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.739|-3.088|0.583
92416429|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|8.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416430|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|-1.59|STANDARD_ERROR_OF_MEAN|1.213||0.191|TWO_SIDED|95.0|-3.975|0.795||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.795|-3.975|0.191
92416431|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|-0.17|STANDARD_DEVIATION|9.37|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416432|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|-1.11|STANDARD_ERROR_OF_MEAN|1.238||0.372|TWO_SIDED|95.0|-3.541|1.329|||repeated measures model|||Week 72||1.329|-3.541|0.372
92416433|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|8.96|||TWO_SIDED|||||||||Week 72||||
92416434|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|-0.99|STANDARD_ERROR_OF_MEAN|1.303||0.447|TWO_SIDED|95.0|-3.553|1.571||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.571|-3.553|0.447
92416435|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|9.35|||TWO_SIDED|||||||||Week 96||||
92416436|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|0.19|STANDARD_ERROR_OF_MEAN|1.285||0.881|TWO_SIDED|95.0|-2.334|2.719||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.719|-2.334|0.881
92416437|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|8.68|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92234181|NCT05110300|184371145|SUPERIORITY|||||||0.906||||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||To evaluate differences in average outcome measure score change from baseline to last study session, a 2-sided t-test was used, with non-parametric analysis used as necessary.||||0.9060
92416438|NCT02880956|184721163|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|1.338||0.853|TWO_SIDED|95.0|-2.881|2.383||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.383|-2.881|0.853
92416439|NCT02880956|184721163|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|8.54|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416440|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.846||0.287|TWO_SIDED|95.0|-2.567|0.762||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.762|-2.567|0.287
92278456|NCT06624072|184459001|OTHER||Ratio of adjusted geometric means (T1/R)|103.23|||||TWO_SIDED|90.0|97.31|109.52|||||Ratio as percentage \[%\] Intra-individual geometric coefficient of variation (gCV) = 8.7%.|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included the effect 'subjects within sequences' as random and the other effects of sequence, period and treatment were considered as fixed. These quantities were then back-transformed to the original scale.||109.52|97.31|
92416441|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|6.76|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416442|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.838||0.227|TWO_SIDED|95.0|-2.661|0.633||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.633|-2.661|0.227
92416443|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|6.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92169632|NCT04982315|184227796|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.62|TWO_SIDED|95.0|-0.1|0.2|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.2|-.1|.62
92278457|NCT06624072|184459002|OTHER||Ratio of adjusted geometric means, T2/T1|95.56|||||TWO_SIDED|90.0|89.37|102.18|||||Ratio as percentage \[%\] Intra-individual geometric coefficient of variation (gCV) = 10.3%.|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included the effect 'subjects within sequences' as random and the other effects of sequence, period and treatment were considered as fixed. These quantities were then back-transformed to the original scale.||102.18|89.37|
92385749|NCT01393639|184674191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|24.0|||||TWO_SIDED|60.0|18.0|31.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||31|18|
92385750|NCT01393639|184674191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|32.0|||||TWO_SIDED|60.0|25.0|39.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||39|25|
92385751|NCT01393639|184674191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|36.0|||||TWO_SIDED|60.0|29.0|43.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||43|29|
92385752|NCT01393639|184674191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.0|||||TWO_SIDED|60.0|6.0|22.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||22|6|
92385753|NCT01393639|184674191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|34.0|||||TWO_SIDED|60.0|27.0|42.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||42|27|
92385754|NCT01393639|184674191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-24.0|||||TWO_SIDED|60.0|-32.0|-17.0|||||Non inferiority criterion versus prednisone 10 mg: Lower bound of 60% credible interval \>-5%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||-17|-32|
92385755|NCT01393639|184674191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.0|||||TWO_SIDED|60.0|-16.0|-4.0|||||Non inferiority criterion versus prednisone 10 mg: Lower bound of 60% credible interval \>-5%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||-4|-16|
92385756|NCT01393639|184674191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0|||||TWO_SIDED|60.0|-9.0|4.0|||||Non inferiority criterion versus prednisone 10 mg: Lower bound of 60% credible interval \>-5%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||4|-9|
92385757|NCT01393639|184674191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0|||||TWO_SIDED|60.0|-5.0|8.0|||||Non inferiority criterion versus prednisone 10 mg: Lower bound of 60% credible interval \>-5%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||8|-5|
92385758|NCT01393639|184674192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.64|||||TWO_SIDED|95.0|-13.75|17.03|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||17.03|-13.75|
92385759|NCT01393639|184674192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.71|||||TWO_SIDED|90.0|-22.16|8.75|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||8.75|-22.16|
92416444|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.859||0.241|TWO_SIDED|95.0|-2.698|0.681||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.681|-2.698|0.241
92416445|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|6.22|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92169633|NCT04982315|184227796|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.121|TWO_SIDED|95.0|0.0|0.3|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.3|0|.121
92169634|NCT04982315|184227796|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.27|TWO_SIDED|95.0|-0.1|0.2|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.2|-.1|.27
92169635|NCT04982315|184227797|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.069|TWO_SIDED|95.0|-0.4|0.02|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||.02|-.4|.069
92169636|NCT04982315|184227797|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.013|TWO_SIDED|95.0|-0.6|-0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||-.1|-.6|.013
92169637|NCT04982315|184227797|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.043|TWO_SIDED|95.0|-0.5|-0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||-.1|-.5|.043
92169638|NCT04982315|184227797|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.629|TWO_SIDED|95.0|-0.2|0.3|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||.3|-.2|.629
92385760|NCT01393639|184674192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.07|||||TWO_SIDED|90.0|-20.45|10.3|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||10.30|-20.45|
92416446|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|0.81|STANDARD_ERROR_OF_MEAN|0.958||0.397|TWO_SIDED|95.0|-1.073|2.696||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.696|-1.073|0.397
92169639|NCT04982315|184227797|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.001|TWO_SIDED|95.0|-0.6|-0.2|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||-.2|-.6|.001
92169640|NCT04982315|184227797|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.019|TWO_SIDED|95.0|-0.5|-0.05|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||-.05|-.5|.019
92385761|NCT01393639|184674192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.74|||||TWO_SIDED|90.0|-27.19|3.72|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||3.72|-27.19|
92385762|NCT01393639|184674193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.34|||||TWO_SIDED|95.0|-12.92|19.61|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||19.61|-12.92|
92385763|NCT01393639|184674193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.52|||||TWO_SIDED|90.0|-22.86|9.81|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||9.81|-22.86|
92385764|NCT01393639|184674193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.22|||||TWO_SIDED|90.0|-12.11|20.55|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||20.55|-12.11|
92385765|NCT01393639|184674193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.83|||||TWO_SIDED|90.0|-3.49|29.15|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||29.15|-3.49|
92385766|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|11.36|||||TWO_SIDED|95.0|-6.84|29.56|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||29.56|-6.84|
92385767|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|12.15|||||TWO_SIDED|95.0|-5.88|30.19|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||30.19|-5.88|
92385768|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|19.54|||||TWO_SIDED|95.0|0.91|38.17|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||38.17|0.91|
92385769|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|22.09|||||TWO_SIDED|95.0|3.6|40.58|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||40.58|3.60|
92385770|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.43|||||TWO_SIDED|95.0|-9.38|26.25|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||26.25|-9.38|
92385771|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|16.5|||||TWO_SIDED|95.0|-1.84|34.84|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||34.84|-1.84|
92385772|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-8.88|||||TWO_SIDED|95.0|-28.58|10.8|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||10.80|-28.58|
92385773|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.31|||||TWO_SIDED|95.0|-4.85|35.49|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||35.49|-4.85|
92385774|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|26.66|||||TWO_SIDED|95.0|6.8|46.53|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||46.53|6.80|
92385775|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|13.19|||||TWO_SIDED|95.0|-7.01|33.4|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||33.40|-7.01|
92385776|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.88|||||TWO_SIDED|95.0|-11.56|29.33|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||29.33|-11.56|
92385777|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|25.21|||||TWO_SIDED|95.0|5.35|45.07|||||Non-responder imputation was used to handle dropouts.|Week 4 comparisons presented in this section for comparison to placebo.||45.07|5.35|
92385778|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.22|||||TWO_SIDED|95.0|-17.4|21.85|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||21.85|-17.40|
92385779|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.6|||||TWO_SIDED|95.0|-4.24|35.45|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||35.45|-4.24|
92385780|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|22.22|||||TWO_SIDED|95.0|2.2|42.23|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||42.23|2.20|
92416447|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|7.45|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92385781|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.96|||||TWO_SIDED|95.0|-14.6|24.53|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||24.53|-14.60|
92385782|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.55|||||TWO_SIDED|95.0|-4.51|35.63|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||35.63|-4.51|
92385783|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|23.18|||||TWO_SIDED|95.0|3.31|43.06|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||43.06|3.31|
92385784|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-5.13|||||TWO_SIDED|95.0|-24.73|14.45|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||14.45|-24.73|
92385785|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.34|||||TWO_SIDED|95.0|-23.79|15.09|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||15.09|-23.79|
92385786|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|3.04|||||TWO_SIDED|95.0|-16.94|23.02|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||23.02|-16.94|
92385787|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.59|||||TWO_SIDED|95.0|-14.26|25.45|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||25.45|-14.26|
92385788|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-34.1|||||TWO_SIDED|95.0|-53.4|-14.8|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||-14.80|-53.40|
92385789|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-9.89|||||TWO_SIDED|95.0|-29.68|9.88|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||9.88|-29.68|
92416448|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.936||0.671|TWO_SIDED|95.0|-2.239|1.443||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.443|-2.239|0.671
92385790|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.44|||||TWO_SIDED|95.0|-18.02|20.92|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||20.92|-18.02|
92385791|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-12.02|||||TWO_SIDED|95.0|-31.84|7.79|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||7.79|-31.84|
92385792|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-20.96|||||TWO_SIDED|95.0|-40.98|-0.94|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||-0.94|-40.98|
92385793|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-7.58|||||TWO_SIDED|95.0|-27.82|12.65|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||12.65|-27.82|
92385794|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-0.96|||||TWO_SIDED|95.0|-21.36|19.43|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||19.43|-21.36|
92385795|NCT01393639|184674194|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-18.22|||||TWO_SIDED|95.0|-38.18|1.73|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||1.73|-38.18|
92385796|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.27|||||TWO_SIDED|95.0|-11.93|7.38|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||7.38|-11.93|
92385797|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.87|||||TWO_SIDED|95.0|-9.15|12.91|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||12.91|-9.15|
92385798|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.07|||||TWO_SIDED|95.0|-9.09|13.23|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||13.23|-9.09|
92385799|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|18.71|||||TWO_SIDED|95.0|4.19|33.23|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||33.23|4.19|
92385800|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.59|||||TWO_SIDED|95.0|-13.19|4.0|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||4.00|-13.19|
92385801|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|12.74|||||TWO_SIDED|95.0|-0.92|26.41|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||26.41|-0.92|
92385802|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.22|||||TWO_SIDED|95.0|-14.6|10.16|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||10.16|-14.60|
92385803|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|12.29|||||TWO_SIDED|95.0|-2.9|27.48|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||27.48|-2.90|
92385804|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|24.44|||||TWO_SIDED|95.0|7.71|41.17|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||41.17|7.71|
92385805|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|16.54|||||TWO_SIDED|95.0|0.8|32.29|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||32.29|0.80|
92385806|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-12.98|12.98|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||12.98|-12.98|
92234182|NCT05110300|184371145|SUPERIORITY|||||||0.0848||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANCOVA|ANCOVA, with the number of sessions completed as the covariate.||Because each participant may have had a different number of BWSS sessions completed, an ANCOVA was used to assess for mean differences in outcome score change while controlling for the number of BWSS sessions completed||||0.0848
92385807|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|19.32|||||TWO_SIDED|95.0|3.16|35.48|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||35.48|3.16|
92385808|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.44|||||TWO_SIDED|95.0|-18.46|9.57|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||9.57|-18.46|
92385809|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|12.1|||||TWO_SIDED|95.0|-4.49|28.7|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||28.70|-4.49|
92385810|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|24.44|||||TWO_SIDED|95.0|6.63|42.24|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||42.24|6.63|
92385811|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|26.99|||||TWO_SIDED|95.0|9.33|44.65|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||44.65|9.33|
92385812|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.88|||||TWO_SIDED|95.0|-7.53|25.31|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||25.31|-7.53|
92385813|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|21.4|||||TWO_SIDED|95.0|3.88|38.91|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||38.91|3.88|
92385814|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.88|||||TWO_SIDED|95.0|-6.8|24.57|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||24.57|-6.80|
92385815|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|18.58|||||TWO_SIDED|95.0|1.96|35.2|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||35.20|1.96|
92385816|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|35.55|||||TWO_SIDED|95.0|17.89|53.21|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||53.21|17.89|
92385817|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|29.21|||||TWO_SIDED|95.0|11.94|46.49|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||46.49|11.94|
92385818|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|13.33|||||TWO_SIDED|95.0|-2.96|29.63|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||29.63|-2.96|
92169641|NCT04982315|184227797|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.271|TWO_SIDED|95.0|-0.1|0.3|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.3|-.1|.271
92234183|NCT01843374|184371159|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92||||0.4081|TWO_SIDED|95.0|0.76|1.12||P-value was estimated using the method of Klein et al. 2007 and Whitehead and Whitehead 1991, stratified by EORTC status and Line of therapy.|Log Rank|The stratification factors included EORTC status and line of therapy as recorded in IVRS/IWRS.|Tremelimumab represents the numerator and Placebo the denominator|H0: No difference between tremelimumab and placebo H1: Difference between tremelimumab and placebo||1.12|0.76|0.4081
92385819|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|32.31|||||TWO_SIDED|95.0|14.83|49.8|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||49.80|14.83|
92385820|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-15.79|15.79|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||15.79|-15.79|
92385821|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|3.49|||||TWO_SIDED|95.0|-12.67|19.67|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||19.67|-12.67|
92385822|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|6.66|||||TWO_SIDED|95.0|-10.13|23.47|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||23.47|-10.13|
92385823|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-0.75|||||TWO_SIDED|95.0|-16.25|14.74|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||14.74|-16.25|
92385824|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.88|||||TWO_SIDED|95.0|-8.19|25.96|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||25.96|-8.19|
92385825|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|6.13|||||TWO_SIDED|95.0|-10.5|22.77|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||22.77|-10.50|
92385826|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-15.01|||||TWO_SIDED|95.0|-28.03|-2.0|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||-2.00|-28.03|
92385827|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-10.86|||||TWO_SIDED|95.0|-24.93|3.19|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||3.19|-24.93|
92234184|NCT01843374|184371160|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.011||||0.926|TWO_SIDED|95.0|0.793|1.289||Estimated using the methods of Klein et al. 2007 and Whitehead and Whitehead 1991, stratified by EORTC status and line of therapy.|Log Rank||Tremelimumab is the numerator and Placebo the denominator|||1.289|0.793|0.926
92416449|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|7.59|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416450|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.964||0.231|TWO_SIDED|95.0|-3.052|0.738||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.738|-3.052|0.231
92416451|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|7.25|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416452|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|2.47|STANDARD_ERROR_OF_MEAN|1.137||0.031|TWO_SIDED|95.0|0.23|4.701||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||4.701|0.230|0.031
92416453|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|0.29|STANDARD_DEVIATION|8.65|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416454|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|0.68|STANDARD_ERROR_OF_MEAN|1.124||0.547|TWO_SIDED|95.0|-1.532|2.888||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||2.888|-1.532|0.547
92416455|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|9.1|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416456|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|0.73|STANDARD_ERROR_OF_MEAN|1.145||0.524|TWO_SIDED|95.0|-1.521|2.984||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||2.984|-1.521|0.524
92278458|NCT06624072|184459003|OTHER||Ratio of adjusted geometric means, T1/R|104.34|||||TWO_SIDED|90.0|91.0|119.65|||||Ratio as percentage \[%\] Intra-individual geometric coefficient of variation (gCV) = 20.4%.|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included the effect 'subjects within sequences' as random and the other effects of sequence, period and treatment were considered as fixed. These quantities were then back-transformed to the original scale.||119.65|91.00|
92280514|NCT00601484|184463643|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|90.0|-2.204|-0.388||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.388|-2.204|
92416457|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|8.42|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92169642|NCT04982315|184227798|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.191|TWO_SIDED|95.0|-0.3|0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||.1|-.3|.191
92416458|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.356||0.54|TWO_SIDED|95.0|-3.499|1.836||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.836|-3.499|0.540
92169643|NCT04982315|184227798|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.038|TWO_SIDED|95.0|-0.5|-0.01|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||-.01|-.5|.038
92169644|NCT04982315|184227798|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.019|TWO_SIDED|95.0|-0.5|-0.05|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||-.05|-.5|.019
92169645|NCT04982315|184227798|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.803|TWO_SIDED|95.0|-0.2|0.2|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||.2|-.2|.803
92169646|NCT04982315|184227798|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.163|TWO_SIDED|95.0|-0.4|0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.1|-.4|.163
92169647|NCT04982315|184227798|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.625|TWO_SIDED|95.0|-0.2|0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.1|-.2|.625
92416459|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|10.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416460|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|-0.58|STANDARD_ERROR_OF_MEAN|1.336||0.664|TWO_SIDED|95.0|-3.208|2.046||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.046|-3.208|0.664
92416461|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|10.16|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92385828|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-10.67|||||TWO_SIDED|95.0|-24.83|3.48|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||3.48|-24.83|
92385829|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.96|||||TWO_SIDED|95.0|-10.96|22.9|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||22.90|-10.96|
92234185|NCT01843374|184371161|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81||||0.0325|TWO_SIDED|95.0|0.68|0.98||Estimated using the methods of Klein et al. 2007 and Whitehead and Whitehead 1991, stratified by EORTC status and line of therapy.|Log Rank|Stratification factors were EORTC status and Line of therapy|Tremelimumab is the numerator and placebo, the denominator|||0.98|0.68|0.0325
92385830|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-21.54|||||TWO_SIDED|95.0|-37.22|-5.86|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||-5.86|-37.22|
92385831|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-7.03|||||TWO_SIDED|95.0|-25.01|10.95|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||10.95|-25.01|
92385832|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.12|||||TWO_SIDED|95.0|-14.17|24.41|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||24.41|-14.17|
92385833|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.77|||||TWO_SIDED|95.0|-21.22|15.67|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||15.67|-21.22|
92385834|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-25.84|||||TWO_SIDED|95.0|-42.54|-9.14|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||-9.14|-42.54|
92416462|NCT02880956|184721164|SUPERIORITY||LS Mean of Difference|-1.19|STANDARD_ERROR_OF_MEAN|1.39||0.393|TWO_SIDED|95.0|-3.923|1.546||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.546|-3.923|0.393
92416463|NCT02880956|184721164|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|9.48|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416464|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.262||0.946|TWO_SIDED|95.0|-0.534|0.498||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.498|-0.534|0.946
92416465|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|2.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92234186|NCT01332435|184371169|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92385835|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-9.29|||||TWO_SIDED|95.0|-28.22|9.62|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||9.62|-28.22|
92385836|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|3.04|||||TWO_SIDED|95.0|-16.94|23.02|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||23.02|-16.94|
92385837|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.59|||||TWO_SIDED|95.0|-14.26|25.45|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||25.45|-14.26|
92385838|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-23.42|||||TWO_SIDED|95.0|-42.26|-4.59|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||-4.59|-42.26|
92385839|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-13.73|||||TWO_SIDED|95.0|-33.35|5.87|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||5.87|-33.35|
92385840|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|3.23|||||TWO_SIDED|95.0|-17.26|23.74|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||23.74|-17.26|
92385841|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-3.09|||||TWO_SIDED|95.0|-23.27|17.07|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||17.07|-23.27|
92385842|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-6.13|||||TWO_SIDED|95.0|-22.77|10.5|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||10.50|-22.77|
92385843|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.63|||||TWO_SIDED|95.0|-19.63|14.35|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||14.35|-19.63|
92385844|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.53|||||TWO_SIDED|95.0|-17.06|18.12|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||18.12|-17.06|
92385845|NCT01393639|184674195|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-6.89|||||TWO_SIDED|95.0|-23.24|9.46|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||9.46|-23.24|
92385846|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||0.00|0.00|
92416466|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.259||0.242|TWO_SIDED|95.0|-0.813|0.206||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.206|-0.813|0.242
92385847|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.34|||||TWO_SIDED|95.0|-1.54|10.24|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||10.24|-1.54|
92385848|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.22|||||TWO_SIDED|95.0|-2.08|6.52|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||6.52|-2.08|
92385849|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|6.38|||||TWO_SIDED|95.0|-0.6|13.37|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||13.37|-0.60|
92385850|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.22|||||TWO_SIDED|95.0|-2.08|6.52|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||6.52|-2.08|
92416467|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|2.12|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416468|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.266||0.541|TWO_SIDED|95.0|-0.685|0.36||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.360|-0.685|0.541
92169648|NCT04982315|184227798|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.198|TWO_SIDED|95.0|-0.1|0.3|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.3|-.1|.198
92234187|NCT01332435|184371169|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Chi-squared|||||||0.0002
92416469|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|2.3|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92234188|NCT01332435|184371170|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92416470|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|0.11|STANDARD_ERROR_OF_MEAN|0.298||0.724|TWO_SIDED|95.0|-0.481|0.691||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.691|-0.481|0.724
92234189|NCT01332435|184371170|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||Chi-squared|||||||0.0006
92234190|NCT01332435|184371171|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92234191|NCT01332435|184371171|SUPERIORITY_OR_OTHER|||||||0.0699||95.0|||||Chi-squared|||||||0.0699
92234192|NCT01332435|184371172|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|||||||<0.001
92234193|NCT01332435|184371172|SUPERIORITY_OR_OTHER|||||||0.8645||95.0|||||Regression, Linear|||||||0.8645
92234194|NCT01332435|184371173|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|||||||<0.001
92385851|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.69|||||TWO_SIDED|95.0|0.55|16.83|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||16.83|0.55|
92234195|NCT01332435|184371173|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|||||||<0.001
92234196|NCT03704051|184371175|EQUIVALENCE|A priori power analysis based on pilot testing with 12 dyads indicated that a sample size of at least 40 dyads would provide 80% power to detect significant within-subjects (condition, i.e., breastfeeding directly from the breast vs. bottle-feeding expressed breast milk) effects at an α = 0.05 Type I error level.||||||0.634|||||||Mixed Models Analysis|All models adjusted for order of conditions, time since last feeding and infant age.||||||0.634
92385852|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||0.00|0.00|
92385853|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.51|||||TWO_SIDED|95.0|0.53|16.48|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||16.48|0.53|
92385854|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.55|||||TWO_SIDED|95.0|4.96|26.14|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||26.14|4.96|
92385855|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|17.02|||||TWO_SIDED|95.0|6.27|27.76|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||27.76|6.27|
92385856|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.44|||||TWO_SIDED|95.0|-1.57|10.46|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||10.46|-1.57|
92385857|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.21|||||TWO_SIDED|95.0|4.83|25.59|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||25.59|4.83|
92385858|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.22|||||TWO_SIDED|95.0|-9.62|5.18|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||5.18|-9.62|
92385859|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.32|||||TWO_SIDED|95.0|-2.96|19.6|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||19.60|-2.96|
92385860|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.88|||||TWO_SIDED|95.0|-2.72|20.5|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||20.50|-2.72|
92385861|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|12.57|||||TWO_SIDED|95.0|0.26|24.89|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||24.89|0.26|
92385862|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.22|||||TWO_SIDED|95.0|-7.23|11.67|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||11.67|-7.23|
92169649|NCT04982315|184227799|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.194|TWO_SIDED|95.0|-2.1|0.4|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||.4|-2.1|.194
92169650|NCT04982315|184227799|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.51|TWO_SIDED|95.0|-2.0|1.0|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||1|-2|.51
92169651|NCT04982315|184227799|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.218|TWO_SIDED|95.0|-2.5|0.6|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||.6|-2.5|.218
92278459|NCT06624072|184459004|OTHER||Ratio of adjusted geometric means, T2/T1|68.71|||||TWO_SIDED|90.0|61.23|77.11|||||Ratio as percentage \[%\] Intra-individual geometric coefficient of variation (gCV) = 17.9%.|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included the effect 'subjects within sequences' as random and the other effects of sequence, period and treatment were considered as fixed. These quantities were then back-transformed to the original scale.||77.11|61.23|
92385863|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|17.29|||||TWO_SIDED|95.0|3.94|30.64|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||30.64|3.94|
92385864|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.22|||||TWO_SIDED|95.0|-14.6|10.16|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||10.16|-14.60|
92385865|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.91|||||TWO_SIDED|95.0|-8.22|20.04|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||20.04|-8.22|
92385866|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.55|||||TWO_SIDED|95.0|-0.29|31.4|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||31.40|-0.29|
92385867|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|10.16|||||TWO_SIDED|95.0|-4.7|25.03|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||25.03|-4.70|
92416471|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|2.36|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416472|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|0.34|STANDARD_ERROR_OF_MEAN|0.29||0.236|TWO_SIDED|95.0|-0.226|0.913||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.913|-0.226|0.236
92416473|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|2.03|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92385868|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.44|||||TWO_SIDED|95.0|-16.16|7.27|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||7.27|-16.16|
92385869|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|14.97|||||TWO_SIDED|95.0|-0.68|30.63|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||30.63|-0.68|
92385870|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||10.30|-10.30|
92385871|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|6.09|||||TWO_SIDED|95.0|-5.9|18.1|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||18.10|-5.90|
92385872|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||10.30|-10.30|
92385873|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.84|||||TWO_SIDED|95.0|-8.96|12.64|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||12.64|-8.96|
92385874|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.44|||||TWO_SIDED|95.0|-7.27|16.16|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||16.16|-7.27|
92385875|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.2|||||TWO_SIDED|95.0|-7.37|15.77|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||15.77|-7.37|
92385876|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-8.69|||||TWO_SIDED|95.0|-16.83|-0.55|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||-0.55|-16.83|
92385877|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.34|||||TWO_SIDED|95.0|-14.39|5.7|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||5.70|-14.39|
92385878|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-6.47|||||TWO_SIDED|95.0|-15.68|2.73|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||2.73|-15.68|
92385879|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.31|||||TWO_SIDED|95.0|-13.04|8.41|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||8.41|-13.04|
92385880|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-15.21|||||TWO_SIDED|95.0|-25.59|-4.83|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||-4.83|-25.59|
92385881|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-6.7|||||TWO_SIDED|95.0|-19.79|6.38|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||6.38|-19.79|
92385882|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.33|||||TWO_SIDED|95.0|-14.49|15.16|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||15.16|-14.49|
92385883|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.8|||||TWO_SIDED|95.0|-13.13|16.74|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||16.74|-13.13|
92385884|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-19.51|||||TWO_SIDED|95.0|-32.19|-6.84|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||-6.84|-32.19|
92385885|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-8.97|||||TWO_SIDED|95.0|-24.24|6.29|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||6.29|-24.24|
92385886|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-8.4|||||TWO_SIDED|95.0|-23.92|7.1|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||7.10|-23.92|
92416474|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|0.11|STANDARD_ERROR_OF_MEAN|0.298||0.714|TWO_SIDED|95.0|-0.477|0.695||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.695|-0.477|0.714
92416475|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|2.11|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416476|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.277||0.86|TWO_SIDED|95.0|-0.496|0.593||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.593|-0.496|0.860
92280515|NCT00601484|184463643|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.553|||TWO_SIDED|90.0|-2.032|-0.172||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.172|-2.032|
92385887|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.71|||||TWO_SIDED|95.0|-20.76|11.32|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||11.32|-20.76|
92385888|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-17.19|||||TWO_SIDED|95.0|-32.36|-2.02|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||-2.02|-32.36|
92385889|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-9.06|||||TWO_SIDED|95.0|-25.69|7.56|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||7.56|-25.69|
92385890|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.57|||||TWO_SIDED|95.0|-17.53|18.68|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||18.68|-17.53|
92385891|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.81|||||TWO_SIDED|95.0|-22.07|12.45|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||12.45|-22.07|
92385892|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.2|||||TWO_SIDED|95.0|-15.77|7.37|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||7.37|-15.77|
92385893|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.89|||||TWO_SIDED|95.0|-11.21|15.0|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||15.00|-11.21|
92385894|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.2|||||TWO_SIDED|95.0|-15.77|7.37|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||7.37|-15.77|
92385895|NCT01393639|184674196|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.35|||||TWO_SIDED|95.0|-14.38|9.66|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||9.66|-14.38|
92385896|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.13|||||TWO_SIDED|95.0|-4.19|-0.07||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.07|-4.19|
92385897|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.6|||||TWO_SIDED|95.0|-5.63|-1.57||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.57|-5.63|
92385898|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.02|||||TWO_SIDED|95.0|-5.06|-0.97||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.97|-5.06|
92385899|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.7|||||TWO_SIDED|95.0|-5.73|-1.68||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.68|-5.73|
92385900|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.93|||||TWO_SIDED|95.0|-3.97|0.12||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.12|-3.97|
92169652|NCT04982315|184227799|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.62|TWO_SIDED|95.0|-2.3|1.4|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||1.4|-2.3|.62
92385901|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.43|||||TWO_SIDED|95.0|-5.46|-1.39||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.39|-5.46|
92385902|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.81|||||TWO_SIDED|95.0|-4.03|0.42||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.42|-4.03|
92416477|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|2.08|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92169653|NCT04982315|184227799|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.07|TWO_SIDED|95.0|-2.7|0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.1|-2.7|.07
92169654|NCT04982315|184227799|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0|TWO_SIDED|95.0|-3.6|-1.0|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||-1|-3.6|0
92169655|NCT04982315|184227799|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.086|TWO_SIDED|95.0|-2.2|0.1|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.1|-2.2|.086
92169656|NCT04982315|184227800|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.023|TWO_SIDED|95.0|0.2|2.3|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 3 months; SA \& EA are pooled because 3 months is considered standard acupuncture regardless of acupuncture treatment arm.||2.3|.2|.023
92169657|NCT04982315|184227800|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.186|TWO_SIDED|95.0|-0.4|2.0|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||2|-.4|.186
92169658|NCT04982315|184227800|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.107|TWO_SIDED|95.0|-0.2|2.5|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||2.5|-.2|.107
92169659|NCT04982315|184227800|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.651|TWO_SIDED|95.0|-1.0|1.7|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 6 months||1.7|-1|.651
92169660|NCT04982315|184227800|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.001|TWO_SIDED|95.0|0.7|2.9|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||2.9|.7|.001
92169661|NCT04982315|184227800|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.007|TWO_SIDED|95.0|0.4|2.7|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||2.7|.4|.007
92169662|NCT04982315|184227800|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.656|TWO_SIDED|95.0|-1.2|0.8|||Wald Test, 2-sided|Adjusted ANCOVA model for change from baseline fit with generalized estimating equations (GEE) with 3-, 6-, and 12-month in same model.||Difference in change from baseline at 12 months||.8|-1.2|.656
92416478|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.274||0.476|TWO_SIDED|95.0|-0.733|0.343||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.343|-0.733|0.476
92169663|NCT03811535|184227801|NON_INFERIORITY|The pre-specified non-inferiority margin was -1.8 cm/year.|Treatment difference|-0.5|||||TWO_SIDED|95.0|-1.1|0.2|||ANCOVA|||Height velocity at week 52 was analyzed using an analysis of covariance model with treatment, gender, age group, region, growth hormone (GH) peak group and gender by age group by region interaction term as factors, and baseline height as covariate.||0.2|-1.1|
92169664|NCT03811535|184227802|NON_INFERIORITY|The pre-specified non-inferiority margin was -1.8 cm/year.|Treatment difference|-0.5|||||TWO_SIDED|95.0|-1.1|0.2|||Mixed Models Analysis|||Height velocity at 52 weeks was analyzed using a mixed model for repeated measurements, with treatment, gender, age group, region, GH peak group and gender by age group by region interaction terms as factors and baseline height as a covariate, all nested within week as a factor.||0.2|-1.1|
92234197|NCT03704051|184371176|EQUIVALENCE|A priori power analysis based on pilot testing with 12 dyads indicated that a sample size of at least 40 dyads would provide 80% power to detect significant within-subjects (condition, i.e., breastfeeding directly from the breast vs. bottle-feeding expressed breast milk) effects at an α = 0.05 Type I error level.||||||0.115|||||||Mixed Models Analysis|All models adjusted for order of conditions, time since last feeding and infant age.||||||0.115
92234198|NCT01709799|184371194|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,90.577)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||< .001
92234199|NCT01709799|184371194|SUPERIORITY_OR_OTHER|||||||0.995|TWO_SIDED|||||The p-value is not adjusted for multiple comparisons, and the a priori threshold for statistical significance was 0.05|Mixed Models Analysis|Degrees of freedom are (4,90.564)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.995
92169665|NCT00957242|184227830|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.32||||0.27|TWO_SIDED|95.0|0.7|2.47|||Regression, Cox|Prespecified covariates in the model included an indicator variable for the treatment group and the DLCO measurement from the baseline assessment.|Warfarin vs. Placebo|The study was designed to have 90% power to detect a difference in 48-week event free rates of 70% for the warfarin group versus 50% for the placebo group. A total of at least 95 adjudicated primary endpoints were required to achieve 90% power with 2-sided, type I error rate of 0.05 and a 1:1 randomization ratio. These calculations yielded a requisite total sample size of 256.||2.47|0.70|0.27
92278460|NCT06624072|184459005|OTHER||Ratio of adjusted geometric means, T1/R|103.06|||||TWO_SIDED|90.0|97.22|109.25|||||Ratio as percentage \[%\] Intra-individual geometric coefficient of variation (gCV) = 8.6%.|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included the effect 'subjects within sequences' as random and the other effects of sequence, period and treatment were considered as fixed. These quantities were then back-transformed to the original scale.||109.25|97.22|
92385903|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.83|||||TWO_SIDED|95.0|-5.04|-0.62||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.62|-5.04|
92385904|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.85|||||TWO_SIDED|95.0|-5.07|-0.64||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.64|-5.07|
92385905|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.77|||||TWO_SIDED|95.0|-4.98|-0.56||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.56|-4.98|
92416479|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|2.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416480|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|0.276||0.586|TWO_SIDED|95.0|-0.393|0.694||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.694|-0.393|0.586
92416481|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|1.97|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92169666|NCT00957242|184227831|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|5.03||||0.005|TWO_SIDED|95.0|1.44|17.54|||Cox Proportional|||||17.54|1.44|0.005
92169667|NCT00957242|184227832|SUPERIORITY_OR_OTHER||t-value|0.08||||0.083||95.0|-0.01|0.17|||Mixed Models Analysis|||||0.17|-0.01|0.083
92169668|NCT00957242|184227833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.06||||0.054|TWO_SIDED|95.0|0.99|4.31|||Cox Proportional|||||4.31|0.99|0.054
92169669|NCT00957242|184227834|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.47||||0.19|TWO_SIDED|95.0|0.64|9.56|||Cox Proportional|||||9.56|0.64|0.19
92169670|NCT00957242|184227835|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.25||||0.35|TWO_SIDED|95.0|0.41|12.34|||Cox Proportional|||||12.34|0.41|0.35
92169671|NCT00957242|184227836|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.24||||0.15|TWO_SIDED|95.0|0.65|16.1|||Cox Proportional|||||16.10|0.65|0.15
92169672|NCT00957242|184227837|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.88|TWO_SIDED|95.0|0.24|3.39|||Cox Proportional|||||3.39|0.24|0.88
92169673|NCT00957242|184227838|SUPERIORITY_OR_OTHER||t-value|10.88||||0.7222|TWO_SIDED|95.0|-49.57|71.34|||Mixed Models Analysis|||||71.34|-49.57|0.7222
92280516|NCT00601484|184463643|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.02|STANDARD_ERROR_OF_MEAN|0.512|||TWO_SIDED|90.0|-1.878|-0.152||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.152|-1.878|
92385906|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.63|||||TWO_SIDED|95.0|-3.85|0.59||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.59|-3.85|
92169674|NCT00957242|184227839|SUPERIORITY_OR_OTHER||t-value|-1.78||||0.27|TWO_SIDED|95.0|-7.04|3048.0|||Mixed Models Analysis|||||3048|-7.04|0.27
92169675|NCT00957242|184227840|SUPERIORITY_OR_OTHER||t-value|0.05||||0.957|TWO_SIDED|95.0|-1.67|1076.0|||Mixed Models Analysis|||||1076|-1.67|0.957
92169676|NCT00957242|184227841|SUPERIORITY_OR_OTHER||t-value|-0.48||||0.009|TWO_SIDED|95.0|-0.84|-0.12|||Mixed Models Analysis|||||-0.12|-0.84|0.009
92385907|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.27|||||TWO_SIDED|95.0|-5.48|-1.06||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.06|-5.48|
92385908|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.23|||||TWO_SIDED|95.0|-4.66|0.2||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.20|-4.66|
92385909|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.19|||||TWO_SIDED|95.0|-6.62|-1.77||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.77|-6.62|
92385910|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.73|||||TWO_SIDED|95.0|-6.15|-1.31||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.31|-6.15|
92416482|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|0.27|STANDARD_ERROR_OF_MEAN|0.324||0.412|TWO_SIDED|95.0|-0.371|0.903||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.903|-0.371|0.412
92416483|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|2.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416484|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|0.24|STANDARD_ERROR_OF_MEAN|0.319||0.45|TWO_SIDED|95.0|-0.386|0.868||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.868|-0.386|0.450
92416485|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|2.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416486|NCT02880956|184721165|SUPERIORITY||LS Mean of Difference|0.17|STANDARD_ERROR_OF_MEAN|0.33||0.612|TWO_SIDED|95.0|-0.481|0.816||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.816|-0.481|0.612
92416487|NCT02880956|184721165|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|2.1|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416488|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.405||0.52|TWO_SIDED|95.0|-1.058|0.535||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.535|-1.058|0.520
92234200|NCT01709799|184371195|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,97.137)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||<.001
92416489|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|3.52|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416490|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.401||0.303|TWO_SIDED|95.0|-1.201|0.374||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.374|-1.201|0.303
92416491|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|3.28|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416492|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.412||0.23|TWO_SIDED|95.0|-1.307|0.315||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.315|-1.307|0.230
92416493|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|3.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416494|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.5222||0.2|TWO_SIDED|95.0|-1.698|0.356||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.356|-1.698|0.200
92234201|NCT01709799|184371195|SUPERIORITY_OR_OTHER|||||||0.254|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (4,97.108)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.254
92234202|NCT01709799|184371196|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,99.647)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||<0.001
92385911|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.68|||||TWO_SIDED|95.0|-6.09|-1.26||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.26|-6.09|
92416495|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|4.07|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416496|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.508||0.873|TWO_SIDED|95.0|-1.08|0.917||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.917|-1.080|0.873
92416497|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|4.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92385912|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.27|||||TWO_SIDED|95.0|-4.69|0.16||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.16|-4.69|
92385913|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.11|||||TWO_SIDED|95.0|-6.52|-1.7||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.70|-6.52|
92385914|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8|||||TWO_SIDED|95.0|-5.34|-0.25||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.25|-5.34|
92385915|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.38|||||TWO_SIDED|95.0|-6.93|-1.83||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.83|-6.93|
92385916|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.2|||||TWO_SIDED|95.0|-7.74|-2.66||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.66|-7.74|
92385917|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9|||||TWO_SIDED|95.0|-7.43|-2.36||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.36|-7.43|
92416498|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.524||0.388|TWO_SIDED|95.0|-1.482|0.576||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.576|-1.482|0.388
92169677|NCT05364684|184227842|OTHER|||||||0.4||||||Change in IHL over 6-months in absolute % IHL: Ibutamoren open-label 3.9 ± 6.7% versus historical placebo group 6.6 ± 6.1%, p=0.4.|t-test, 2 sided|||Subjects treated with open-label ibutamoren (n=7) were compared to historical placebo control subjects studied under identical inclusion criteria and procedures (n=10). The hypothesis is that open-label ibutamoren treatment would lead to a significant decrease in intrahepatic lipid content (IHL) as assessed by proton magnetic resonance spectroscopy (1H-MRS, absolute %IHL).||||0.4
92234203|NCT01709799|184371196|SUPERIORITY_OR_OTHER|||||||0.781|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (4,99.601)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.781
92385918|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.74|||||TWO_SIDED|95.0|-5.28|-0.2||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.20|-5.28|
92385919|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.57|||||TWO_SIDED|95.0|-7.1|-2.05||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.05|-7.10|
92385920|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-0.73|3.33||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.33|-0.73|
92385921|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|||||TWO_SIDED|95.0|-2.18|1.84||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.84|-2.18|
92385922|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.41|||||TWO_SIDED|95.0|-1.61|2.44||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.44|-1.61|
92385923|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27|||||TWO_SIDED|95.0|-2.27|1.73||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.73|-2.27|
92385924|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.47|||||TWO_SIDED|95.0|-0.74|3.68||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.68|-0.74|
92385925|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|||||TWO_SIDED|95.0|-1.76|2.65||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.65|-1.76|
92385926|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|||||TWO_SIDED|95.0|-1.79|2.63||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.63|-1.79|
92234204|NCT01709799|184371197|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,102.315)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||<0.001
92234205|NCT01709799|184371197|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (4,102.216)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.026
92234206|NCT01709799|184371198|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,93.240)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||<0.001
92385927|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|||||TWO_SIDED|95.0|-1.69|2.7||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.70|-1.69|
92385928|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.88|||||TWO_SIDED|95.0|-0.53|4.29||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.29|-0.53|
92385929|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|||||TWO_SIDED|95.0|-2.5|2.33||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.33|-2.50|
92385930|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|-2.03|2.79||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.79|-2.03|
92234207|NCT01709799|184371198|SUPERIORITY_OR_OTHER|||||||0.313|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (4,93.167)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.313
92234208|NCT01709799|184371199|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,115.573)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||0.630
92234209|NCT01709799|184371199|SUPERIORITY_OR_OTHER|||||||0.498|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (4,115.593)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.498
92234210|NCT03167619|184371204|SUPERIORITY||MLE assuming exponential distribution|0.18||||0.0023|TWO_SIDED|95.0|0.11|0.27|||Chi-squared|Comparison to mean of historical control|Presence of patients with long PFS may have violated exponential assumption.|Assumed median PFS = 2.0 months as historical control, transformed to rate of 0.35/month||0.27|0.11|0.0023
92234211|NCT03167619|184371205|SUPERIORITY||MLE assuming exponential distribution|0.11|||<|0.0001|TWO_SIDED|95.0|0.07|0.19|||Chi-squared|Comparison to mean of historical control|Presence of patients with long PFS may have violated exponential assumption.|Assumed median PFS = 2.0 months as historical control, transformed to rate of 0.35/month||0.19|0.07|<0.0001
92234212|NCT01009463|184371226|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87||||0.181|TWO_SIDED|95.0|0.72|1.06|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||1.06|0.72|0.181
92234213|NCT01009463|184371226|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66|||<|0.001|TWO_SIDED|95.0|0.54|0.81||Nominal p-value|Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||0.81|0.54|<0.001
92385931|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.43|||||TWO_SIDED|95.0|-1.97|2.84||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.84|-1.97|
92385932|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.78|||||TWO_SIDED|95.0|-0.75|4.3||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.30|-0.75|
92385933|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-2.34|2.73||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.73|-2.34|
92385934|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62|||||TWO_SIDED|95.0|-3.14|1.89||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.89|-3.14|
92385935|NCT01393639|184674197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.33|||||TWO_SIDED|95.0|-2.84|2.19||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.19|-2.84|
92385936|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.18|||||TWO_SIDED|95.0|-2.91|0.56||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.56|-2.91|
92169678|NCT05364684|184227843|OTHER|||||||0.9||||||Change in cT1 over 6-months (ms): Ibutamoren open-label 39 ± 44 ms versus historical placebo group 44 ± 31 ms, p=0.9.|t-test, 2 sided|||Subjects treated with open-label ibutamoren (n=7) were compared to historical placebo control subjects studied under identical inclusion criteria and procedures (n=10). The hypothesis is that open-label ibutamoren treatment would lead to a significant decrease in hepatic inflammation and fibrosis as assessed by LiverMultiScan corrected T1 (cT1) score. There was no power calculation for this small pilot study.||||0.9
92169679|NCT05364684|184227844|OTHER|||||||0.6||||||Change in ALT over 6-months (U/L): Ibutamoren open-label 8 ± 18 U/L versus historical placebo group 4 ± 8 U/L, p=0.6.|t-test, 2 sided|||Subjects treated with open-label ibutamoren (n=7) were compared to historical placebo control subjects studied under identical inclusion criteria and procedures (n=10). The hypothesis is that open-label ibutamoren treatment would lead to a significant decrease in alanine aminotransferase (ALT). There was no power calculation for this small pilot study.||||0.6
92169680|NCT01381406|184227861|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.772||||0.007|TWO_SIDED|95.0|0.641|0.93||COPD-Related Adjusted Multivariate Outcomes in the Follow-Up Period by Cohort (reference cohort = TIO) for Any COPD Exacerbation|Regression, Logistic|||||0.930|0.641|0.007
92169681|NCT01381406|184227861|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.622||||0.146|TWO_SIDED|95.0|0.328|1.18||COPD-Related Adjusted Multivariate Outcomes in the Follow-Up Period by Cohort (reference cohort = TIO) for Severe COPD Exacerbations|Regression, Logistic|||||1.180|0.328|0.146
92169682|NCT01381406|184227861|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.763||||0.013|TWO_SIDED|95.0|0.646|0.949||COPD-Related Adjusted Multivariate Outcomes in the Follow-Up Period by Cohort (reference cohort = TIO) for Moderate COPD Exacerbations|Regression, Logistic|||||0.949|0.646|0.013
92169683|NCT03671811|184227894|SUPERIORITY|The planned sample size was 36 evaluable participants, with 18 per treatment arm. Based on a one-sided t-test at α = 0.05, the study was designed to provide 90% power to detect a difference of at least 10 percentage points in the mean reduction of Ki-67 between arms, assuming a standard deviation of 10%. The difference was expected to favor the Pterostilbene + Megestrol Acetate arm.||||||0.9|||||||t-test, 1 sided|||||||0.9
92169684|NCT03671811|184227899|SUPERIORITY|This was a one-sided t-test at α = 0.05. The difference was expected to favor the Pterostilbene + Megestrol Acetate arm.||||||0.6|||||||t-test, 1 sided|||||||0.6
92169685|NCT03671811|184227900|SUPERIORITY|This was a one-sided t-test at α = 0.05. The difference was expected to favor the Pterostilbene + Megestrol Acetate arm.||||||0.2|||||||t-test, 1 sided|||||||0.2
92234214|NCT01009463|184371226|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.85||||0.109|TWO_SIDED|95.0|0.7|1.04|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||1.04|0.70|0.109
92385937|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.45|||||TWO_SIDED|95.0|-4.17|-0.73||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.73|-4.17|
92385938|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.03|||||TWO_SIDED|95.0|-3.76|-0.29||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.29|-3.76|
92385939|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.11|||||TWO_SIDED|95.0|-4.82|-1.4||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.40|-4.82|
92385940|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-3.13|0.33||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.33|-3.13|
92385941|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8|||||TWO_SIDED|95.0|-4.52|-1.07||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.07|-4.52|
92385942|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.67|||||TWO_SIDED|95.0|-3.63|0.29||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.29|-3.63|
92385943|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.98|||||TWO_SIDED|95.0|-3.94|-0.01||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.01|-3.94|
92385944|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.07|||||TWO_SIDED|95.0|-4.03|-0.11||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.11|-4.03|
92385945|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.13|||||TWO_SIDED|95.0|-5.09|-1.17||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.17|-5.09|
92385946|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.88|||||TWO_SIDED|95.0|-3.85|0.09||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.09|-3.85|
92385947|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.84|||||TWO_SIDED|95.0|-4.79|-0.88||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.88|-4.79|
92385948|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.32|||||TWO_SIDED|95.0|-3.25|0.6||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.60|-3.25|
92416499|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|3.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92169686|NCT04992390|184227901|SUPERIORITY|Poisson regression was performed with baseline measure and binary arm status included as fixed effect covariates. Various regression models for count data were compared to find the best fitting model. Visual exploratory data and model evaluation showed that the Zero Inflated Negative Binomial (ZINB) regression model provided the best fit and was used as the model for the ITT analysis of the primary outcome.|Incidence Rate Ratio|0.31|||<=|0.001|TWO_SIDED|95.0|0.2|0.48||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Poisson|||For more information on analysis models see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|See also Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|0.48|0.20|<= 0.001
92171713|NCT04850807|184232637|SUPERIORITY||Average Marginal Effect|0.1|STANDARD_ERROR_OF_MEAN|0.08|<|0.05|TWO_SIDED|95.0|-0.06|0.26|||Differences-in-Differences regression||||"Fixed effect covariates: age, sex, race, activities of daily living score, cognitive function score, psychotic disorder, bipolar disease, depression, anxiety, dementia, alzheimer's diagnosis, antidepressant use, antianxietal use, antipsychotic use, history of heart failure, baseline ARBS (exclusive to CMAI model), baseline CMAI (exclusive to ARBS model), indicator of baseline/follow-up score, treatment group, interaction of treatment group and baseline/follow-up score.~Random effects: random intercept for nursing home, random intercept for the interaction of baseline/follow-up measure and nursing home, and random intercept for individual.~Imputed Outcomes: 37 Control Follow-Up (Both CMAI and ARBS), 37 Treatment Follow-Up (ABRS), 35 Treatment Follow-Up (CMAI)"|0.26|-0.06|<0.05
92385949|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.97|||||TWO_SIDED|95.0|-3.9|-0.04||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.04|-3.90|
92385950|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.43|||||TWO_SIDED|95.0|-4.35|-0.5||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.50|-4.35|
92385951|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.75|||||TWO_SIDED|95.0|-4.66|-0.83||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.83|-4.66|
92385952|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.96|||||TWO_SIDED|95.0|-3.88|-0.03||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.03|-3.88|
92385953|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.08|||||TWO_SIDED|95.0|-5.0|-1.17||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.17|-5.00|
92385954|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.99|||||TWO_SIDED|95.0|-4.2|0.21||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.21|-4.20|
92385955|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.95|||||TWO_SIDED|95.0|-5.17|-0.72||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.72|-5.17|
92416500|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.587||0.734|TWO_SIDED|95.0|-1.355|0.955||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.955|-1.355|0.734
92234215|NCT01009463|184371227|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.43|TWO_SIDED|95.0|0.76|1.13|||Regression, Cox|||||1.13|0.76|0.430
92234216|NCT01009463|184371227|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.002|TWO_SIDED|95.0|0.59|0.89||Nominal p-value|Regression, Cox|||||0.89|0.59|0.002
92234217|NCT01009463|184371227|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.114|TWO_SIDED|95.0|0.69|1.04|||Regression, Cox|||||1.04|0.69|0.114
92385956|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.44|||||TWO_SIDED|95.0|-5.65|-1.23||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.23|-5.65|
92385957|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.32|||||TWO_SIDED|95.0|-5.52|-1.12||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.12|-5.52|
92385958|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.39|||||TWO_SIDED|95.0|-4.6|-0.18||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-4.60|
92385959|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.87|||||TWO_SIDED|95.0|-6.07|-1.68||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.68|-6.07|
92416501|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|3.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416502|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.579||0.417|TWO_SIDED|95.0|-1.608|0.668||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.668|-1.608|0.417
92416503|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|4.14|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92171714|NCT04850807|184232638|SUPERIORITY||average marginal effect|4.0|STANDARD_ERROR_OF_MEAN|3.2|<|0.05|TWO_SIDED|95.0|-2.3|10.2|||Differences-in-Differences regression||||"Fixed effect covariates: baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, ARBS score, treatment group.~Random effects: random intercept for nursing home Imputed Outcomes: 37 Control Follow-Up , 35 Treatment Follow-Up"|10.2|-2.3|<0.05
92234218|NCT01009463|184371228|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84||||0.125|TWO_SIDED|95.0|0.67|1.05|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||1.05|0.67|0.125
92234219|NCT01009463|184371228|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62|||<|0.001|TWO_SIDED|95.0|0.49|0.78||Nominal p-value|Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable||||0.78|0.49|<0.001
92234220|NCT01009463|184371228|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||0.064|TWO_SIDED|95.0|0.64|1.01|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable||||1.01|0.64|0.064
92234221|NCT01009463|184371229|SUPERIORITY_OR_OTHER||Least squares mean difference|0.041||||0.011|TWO_SIDED|95.0|0.009|0.072||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.072|0.009|0.011
92385960|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.62|||||TWO_SIDED|95.0|-0.1|3.34||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.34|-0.10|
92385961|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|||||TWO_SIDED|95.0|-1.36|2.05||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.05|-1.36|
92385962|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.77|||||TWO_SIDED|95.0|-0.94|2.48||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.48|-0.94|
92385963|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|||||TWO_SIDED|95.0|-2.01|1.38||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.38|-2.01|
92385964|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.17|||||TWO_SIDED|95.0|-0.79|3.12||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.12|-0.79|
92416504|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.589||0.252|TWO_SIDED|95.0|-1.836|0.482||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.482|-1.836|0.252
92416505|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|4.16|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416506|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|0.669||0.827|TWO_SIDED|95.0|-1.17|1.462||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.462|-1.170|0.827
92416507|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|4.69|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416508|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|0.33|STANDARD_ERROR_OF_MEAN|0.657||0.615|TWO_SIDED|95.0|-0.962|1.624||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|repeated measures model|||Week 96||1.624|-0.962|0.615
92234222|NCT01009463|184371229|SUPERIORITY_OR_OTHER||Least squares mean difference|0.058|||<|0.001|TWO_SIDED|95.0|0.027|0.09||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.090|0.027|<0.001
92234223|NCT01009463|184371229|SUPERIORITY_OR_OTHER||Least squares mean difference|0.064|||<|0.001|TWO_SIDED|95.0|0.033|0.096||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.096|0.033|<0.001
92234224|NCT01021007|184371247|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANCOVA|ANCOVA method using treatment as the factor and the baseline score as a covariate||The null hypothesis states that there is no difference between groups.||||0.005
92234225|NCT01021007|184371248|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|ANCOVA method using treatment as the factor and the baseline score as a covariate||The null hypothesis states that there is no difference between groups.||||0.05
92234226|NCT01021007|184371249|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|ANCOVA method using treatment as the factor and the baseline score as a covariate||The null hypothesis states that there is no difference between groups.||||0.05
92234227|NCT03293030|184371260|SUPERIORITY|Note: Our statistical test was run to identify the number of significant genes. The result is a number and there is no calculation of any comparative statistic such as an odds ratio.|||||<|0.05||||||P-value was adjusted for false discovery rate|Wilcoxon (Mann-Whitney)|||Single cell RNA-sequencing was used to calculate the number of differentially expressed genes in cutaneous CD4+ T cells between week 0 and week 12 in dupilumab-treated subjects. The calculation was performed in the software package Seurat (RRID:SCR\_016341) using the FindMarkers function, which utilizes a non-parametric Wilcoxon rank-sum test. Genes were considered significantly differentially expressed if the adjusted p-value \< 0.05 and the absolute value of log2(Fold Change) \> 1.0.||||<0.05
92234228|NCT04899271|184371261|SUPERIORITY|||||||0.807|||||||Chi-squared|||||||0.807
92416509|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|4.61|||TWO_SIDED|||||||||Week 96||||
92234229|NCT04899271|184371262|SUPERIORITY|||||||0.746|||||||Chi-squared|||Comparison at month 6||||0.746
92234230|NCT04899271|184371262|SUPERIORITY|||||||0.201|||||||Chi-squared|||Comparison at month 18||||0.201
92234231|NCT04899271|184371263|SUPERIORITY|||||||0.867|||||||Chi-squared|||Comparison at month 6||||0.867
92234232|NCT04899271|184371263|SUPERIORITY|||||||0.769|||||||Chi-squared|||Comparison at month 12||||0.769
92234233|NCT04899271|184371263|SUPERIORITY|||||||0.776|||||||Chi-squared|||Comparison at month 18||||0.776
92234234|NCT04899271|184371264|SUPERIORITY|||||||0.521||||||Assumption of normality was confirmed by Kolmogorov-Smirnov test; the comparison between treatment arms was performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 6 for change from baseline||||0.521
92234235|NCT04899271|184371264|SUPERIORITY|||||||0.959||||||Assumption of normality was confirmed by Kolmogorov-Smirnov test; the comparison between treatment arms was performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 12 for change from baseline||||0.959
92234236|NCT04899271|184371264|SUPERIORITY|||||||0.773||||||Assumption of normality was confirmed by Kolmogorov-Smirnov test; the comparison between treatment arms was performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 18 for change from baseline||||0.773
92234237|NCT04899271|184371265|SUPERIORITY|||||||0.691|||||||t-test, 2 sided|Assumption of normality is confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample t-test.||Comparison at month 6 for change from baseline||||0.691
92234238|NCT04899271|184371265|SUPERIORITY|||||||0.685||||||Assumption of normality is confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 12 for change from baseline||||0.685
92234239|NCT04899271|184371265|SUPERIORITY|||||||0.64||||||Assumption of normality is not confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample Mann-Whitney U test|Wilcoxon (Mann-Whitney)|||Comparison at month 18 for change from baseline||||0.640
92234240|NCT04899271|184371266|SUPERIORITY|||||||0.867||||||Comparison between treatment arms is performed by means of a Chi-squared test|Chi-squared|||Comparison at month 6||||0.867
92234241|NCT04899271|184371266|SUPERIORITY|||||||0.769||||||Comparison between treatment arms is performed by means of a Chi-squared test|Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared and Fisher's Exact test separated with a /.||Comparison at month 12||||0.769
92234242|NCT04899271|184371266|SUPERIORITY|||||||0.577|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test.||Comparison at month 18||||0.577
92416510|NCT02880956|184721166|SUPERIORITY||LS Mean of Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.678||0.637|TWO_SIDED|95.0|-1.653|1.014||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.014|-1.653|0.637
92416511|NCT02880956|184721166|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|4.89|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416512|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.367||0.261|TWO_SIDED|95.0|-1.135|0.308||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.308|-1.135|0.261
92234243|NCT04899271|184371267|SUPERIORITY|The effect of treatment on the cumulative number of severe hypoglycemic events was evaluated by means of a Cox proportional hazards model. The Andersen-Gill intensity model with model-based variance was utilized.|Hazard Ratio (HR)|1.271||||0.554|TWO_SIDED|95.0|0.573|2.819|||Cox proportional hazards model|Analysis is based on Cox proportional hazards model.||||2.819|0.573|0.554
92234244|NCT04899271|184371269|SUPERIORITY|||||||0.32||||||Assumption of normality is not confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||Comparison at month 6 for change from baseline||||0.320
92234245|NCT04899271|184371269|SUPERIORITY|||||||0.398||||||Assumption of normality is not confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||Comparison at month 12 for change from baseline||||0.398
92234246|NCT04899271|184371269|SUPERIORITY|||||||1||||||Assumption of normality is not confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||Comparison at month 18 for change from baseline||||1.000
92234247|NCT04899271|184371270|SUPERIORITY|||||||0.892||||||Assumption of normality is confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 6 for change from baseline||||0.892
92234248|NCT04899271|184371270|SUPERIORITY|||||||0.412||||||Assumption of normality is confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 12 for change from baseline||||0.412
92234249|NCT04899271|184371270|SUPERIORITY|||||||0.371||||||Assumption of normality is not confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||Comparison at month 18 for change from baseline||||0.371
92234250|NCT04871815|184371311|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Body Aches||||0.200
92234251|NCT04871815|184371311|SUPERIORITY|||||||0.0326|||||||Wilcoxon (Mann-Whitney)|||Headaches||||0.0326
92171715|NCT04850807|184232639|SUPERIORITY||average marginal effect|-1.4|STANDARD_ERROR_OF_MEAN|3.6|<|0.05|TWO_SIDED|95.0|-8.5|5.6|||Differences-in-Differences regression||||"Results are adjusted for baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, ARBS score, treatment group.~The model includes a random intercept for nursing home."|5.6|-8.5|<0.05
92234252|NCT04871815|184371311|SUPERIORITY|||||||0.0043|||||||Wilcoxon (Mann-Whitney)|||Coughing/Sneezing||||0.0043
92234253|NCT04871815|184371311|SUPERIORITY|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||Trouble Breathing||||0.0003
92234254|NCT04871815|184371311|SUPERIORITY|||||||0.3714|||||||Wilcoxon (Mann-Whitney)|||Congestion||||0.3714
92234255|NCT04871815|184371311|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Fatigue||||0.300
92234256|NCT04871815|184371311|SUPERIORITY|||||||0.2286|||||||Wilcoxon (Mann-Whitney)|||Loss of Smell/Taste||||0.2286
92234257|NCT04871815|184371311|SUPERIORITY|||||||0.999|||||||Wilcoxon (Mann-Whitney)|||Anxiety||||0.999
92234258|NCT04871815|184371312|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92234259|NCT04871815|184371313|SUPERIORITY|||||||0.1963|||||||ANOVA|||||||0.1963
92234260|NCT04871815|184371314|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92234261|NCT04871815|184371314|SUPERIORITY|||||||0.0008||||||Tukey's Multiple comparison test (p-value is adjusted for multiple comparisons)|Tukey's HSD|||Day 1 baseline (day 1 of study) vs Day 1 treatment (day 7 of study).||||0.0008
92234262|NCT04871815|184371314|SUPERIORITY||||||<|0.0001||||||Tukey's Multiple comparison test (p-value is adjusted for multiple comparisons)|Tukey's HSD|||Day 1 baseline (day 1 of study) vs Day 7 treatment (day 14 of study).||||<0.0001
92234263|NCT04871815|184371314|SUPERIORITY|||||||0.0114||||||Tukey's Multiple comparison test (p-value is adjusted for multiple comparisons)|Tukey's HSD|||Day 7 baseline (day 7 of study) vs Day 1 treatment (day 7 of study).||||0.0114
92234264|NCT04871815|184371314|SUPERIORITY||||||<|0.0001||||||Tukey's Multiple comparison test (p-value is adjusted for multiple comparisons)|Tukey's HSD|||Day7 baseline (day 7 of study) vs Day 7 treatment (day 14 of study)||||<0.0001
92234265|NCT01733329|184371315|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Fisher Exact|||||||<0.01
92234266|NCT01733329|184371316|SUPERIORITY_OR_OTHER|||||||0.026|||||||Fisher Exact|||||||0.026
92234267|NCT01733329|184371317|SUPERIORITY_OR_OTHER|||||||0.058|||||||Fisher Exact|||||||0.058
92234268|NCT01733329|184371318|SUPERIORITY_OR_OTHER|||||||0.007|||||||Kruskal-Wallis|||||||0.007
92234269|NCT01015443|184371331|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.032||||0.921|TWO_SIDED|95.0|0.552|1.931|||Adjusted log rank|||||1.931|0.552|0.921
92234270|NCT00609128|184371340|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|ANOVA with preplanned comparisons was used to generate two tailed P values. Paired t tests were used to make appropriate post-ANOVA comparisons.||"tears were collected in season from eyes of allergic patients with or without olopatadine treatment, that is one eye was treated and the patients other eye was not.~Tears from each patient's eyes were pooled to provide enough volume."||||<0.05
92234271|NCT00095303|184371357|SUPERIORITY_OR_OTHER||slope of linear trajectory of drug use|0.05||||0.27|TWO_SIDED|95.0|-0.04|0.14|||Mixed Models Analysis||The parameter estimated is the regression coefficient on the interaction of the BSFT treatment assignment and the linear time trend.|Null Hypothesis: BSFT will be significantly more effective than TAU in reducing adolescent drug abuse, defined as the percentage of drug use days in 28-day periods. The outcome variable is the percentage of days of drug use within a 28-day period. This variable constructed from the Timeline-Follow-back instrument and measured as the sum of the number of days with positive use in 28-day increments. Hypothesis tested using hierarchical linear models.||.14|-.04|.27
92234272|NCT00095303|184371359|SUPERIORITY_OR_OTHER||Slope|-0.1||||0.26|TWO_SIDED|95.0|-0.28|0.08|||Mixed Models Analysis||The parameter estimated is the regression coefficient on the interaction of BSFT treatment assignment and the linear time trend.|Null hypothesis: It is hypothesized that BSFT will be significantly more effective than TAU in decreasing adolescent externalizing problem behaviors||0.08|-0.28|.26
92280517|NCT00601484|184463644|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-16.24|STANDARD_ERROR_OF_MEAN|8.064|||TWO_SIDED|90.0|-29.757|-2.718||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-2.718|-29.757|
92169687|NCT04992390|184227902|SUPERIORITY|Single level general Poisson regression was used to quantify within arm changes of number of intrusive memories in the delayed intervention arm, comparing pre-intervention (week 4) to post-intervention (week 8).|Incidence Rate Ratio|0.31|||<=|0.001|TWO_SIDED|95.0|0.21|0.45||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Poisson|Single level general Poisson regression was used to quantify within arm changes of number of intrusive memories pre- to post-intervention.||Within the comparator arm, where participants had delayed access to the intervention (i.e., delayed arm crossover), the number of intrusive memories in week 8 was compared to week 4. For full information about statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|For full results see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|0.45|0.21|<= 0.001
92385965|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.86|||||TWO_SIDED|95.0|-1.1|2.82||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.82|-1.10|
92385966|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|||||TWO_SIDED|95.0|-1.19|2.72||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.72|-1.19|
92385967|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|||||TWO_SIDED|95.0|-2.24|1.66||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.66|-2.24|
92385968|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.76|||||TWO_SIDED|95.0|-0.16|3.67||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.67|-0.16|
92385969|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.12|||||TWO_SIDED|95.0|-0.81|3.04||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.04|-0.81|
92416513|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|3.12|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92171716|NCT04850807|184232640|SUPERIORITY||average marginal effect|-4.8|STANDARD_ERROR_OF_MEAN|2.5|<|0.05|TWO_SIDED|95.0|-9.8|0.1|||Differences-in-Differences regression||||"Fixed effect covariates: baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, ARBS score, treatment group.~Random effects: random intercept for nursing home Imputed Outcomes: 37 Control Follow-Up , 35 Treatment Follow-Up"|0.1|-9.8|<0.05
92280518|NCT00601484|184463644|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-27.96|STANDARD_ERROR_OF_MEAN|10.059|||TWO_SIDED|90.0|-44.846|-11.075||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-11.075|-44.846|
92385970|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.66|||||TWO_SIDED|95.0|-1.26|2.57||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.57|-1.26|
92385971|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|||||TWO_SIDED|95.0|-1.57|2.25||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.25|-1.57|
92385972|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.88|||||TWO_SIDED|95.0|-0.31|4.07||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.07|-0.31|
92385973|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93|||||TWO_SIDED|95.0|-1.28|3.13||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.13|-1.28|
92385974|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.43|||||TWO_SIDED|95.0|-1.76|2.62||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.62|-1.76|
92385975|NCT01393639|184674199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.55|||||TWO_SIDED|95.0|-1.63|2.74||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.74|-1.63|
92385976|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.49|||||TWO_SIDED|95.0|-12.52|3.55||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.55|-12.52|
92416514|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|0.29|STANDARD_ERROR_OF_MEAN|0.361||0.423|TWO_SIDED|95.0|-0.42|1.001||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.001|-0.420|0.423
92169688|NCT04992390|184227902|SUPERIORITY|Single level general Poisson regression was used to quantify within arm changes of number of intrusive memories in the immediate intervention arm, comparing pre-intervention (run-in/screening week) to post-intervention (week 4).|Incidence Rate Ratio|0.22|||<|0.001|TWO_SIDED|95.0|0.1|0.45||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Poisson|Single level general Poisson regression was used to quantify within arm changes of number of intrusive memories pre- to post-intervention.||Within the immediate intervention arm, where participants had immediate access to the intervention, the number of intrusive memories in Week 4 was compared to the run-in/screening week. For full information about statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0||0.45|0.10|<0.001
92385977|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.15|||||TWO_SIDED|95.0|-18.1|-2.2||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.20|-18.10|
92385978|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.93|||||TWO_SIDED|95.0|-18.94|-2.92||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.92|-18.94|
92385979|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.12|||||TWO_SIDED|95.0|-24.01|-8.24||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-8.24|-24.01|
92385980|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.45|||||TWO_SIDED|95.0|-13.45|2.56||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.56|-13.45|
92416515|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|3.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92169689|NCT04992390|184227903|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-2.63|||<=|0.001|TWO_SIDED|95.0|-3.72|-1.54||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intrusive memory ratings, 'How distressing were your intrusive memories?' (treatment effects for between-arm comparisons) at week 4. For full information on statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-1.54|-3.72|<= 0.001
92280519|NCT00601484|184463644|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-25.72|STANDARD_ERROR_OF_MEAN|11.508|||TWO_SIDED|90.0|-45.079|-6.369||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-6.369|-45.079|
92385981|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.1|||||TWO_SIDED|95.0|-22.09|-6.11||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.11|-22.09|
92385982|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.42|||||TWO_SIDED|95.0|-11.13|4.29||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.29|-11.13|
92385983|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.98|||||TWO_SIDED|95.0|-15.7|-0.26||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.26|-15.70|
92385984|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.17|||||TWO_SIDED|95.0|-12.93|2.59||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.59|-12.93|
92385985|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.22|||||TWO_SIDED|95.0|-17.9|-2.54||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.54|-17.90|
92385986|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.43|||||TWO_SIDED|95.0|-5.32|10.19||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||10.19|-5.32|
92416516|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.371||0.322|TWO_SIDED|95.0|-1.097|0.361||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.361|-1.097|0.322
92416517|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|2.48|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92169690|NCT04992390|184227903|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-3.21|||<=|0.001|TWO_SIDED|95.0|-4.28|-2.15||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intrusive memory ratings, 'How much did they disrupt your concentration?' (treatment effects for between-arm comparisons) at week 4. For full information on statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-2.15|-4.28|<= 0.001
92171717|NCT04850807|184232642|SUPERIORITY||average marginal effect|-0.31|||<|0.05|TWO_SIDED|95.0|-1.03|0.41|||Differences-in-Differences regression||||"Fixed effect covariates: age, sex, race, activities of daily living score, cognitive function score, psychotic disorder, bipolar disease, depression, anxiety, dementia, alzheimer's diagnosis, antidepressant use, antianxietal use, antipsychotic use, history of heart failure, baseline ARBS (exclusive to CMAI/PHQ-9 model), baseline CMAI (exclusive to ARBS/PHQ-9 model), indicator of baseline/follow-up score, treatment group, interaction of treatment group and baseline/follow-up score.~Random effects: random intercept for nursing home, random intercept for the interaction of baseline/follow-up measure and nursing home, and random intercept for individual.~Imputed Outcomes: 37 Control Follow-Up (Both CMAI and ARBS), 37 Treatment Follow-Up (ABRS), 35 Treatment Follow-Up (CMAI)"|0.41|-1.03|<0.05
92385987|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.14|||||TWO_SIDED|95.0|-18.83|-3.45||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.45|-18.83|
92385988|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.42|||||TWO_SIDED|95.0|-12.44|1.59||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.59|-12.44|
92385989|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.24|||||TWO_SIDED|95.0|-19.27|-5.2||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.20|-19.27|
92385990|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.13|||||TWO_SIDED|95.0|-16.11|-2.14||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.14|-16.11|
92385991|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.88|||||TWO_SIDED|95.0|-16.89|-2.88||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.88|-16.89|
92280520|NCT00601484|184463644|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-19.56|STANDARD_ERROR_OF_MEAN|12.157|||TWO_SIDED|90.0|-40.017|0.902||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.902|-40.017|
92385992|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.61|||||TWO_SIDED|95.0|-9.63|4.4||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.40|-9.63|
92385993|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.93|||||TWO_SIDED|95.0|-19.88|-5.98||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.98|-19.88|
92385994|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1|||||TWO_SIDED|95.0|-10.03|3.83||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.83|-10.03|
92385995|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.1|||||TWO_SIDED|95.0|-17.06|-3.13||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.13|-17.06|
92385996|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.67|||||TWO_SIDED|95.0|-17.57|-3.77||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.77|-17.57|
92385997|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.79|||||TWO_SIDED|95.0|-14.72|-0.86||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.86|-14.72|
92385998|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.05|||||TWO_SIDED|95.0|-9.98|3.89||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.89|-9.98|
92169691|NCT04992390|184227903|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-2.92|||<=|0.001|TWO_SIDED|95.0|-3.9|-1.95||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intrusive memory ratings, 'How much did they interfere with what you were doing?' (treatment effects for between-arm comparisons) at week 4. For full information on statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-1.95|-3.90|<= 0.001
92278461|NCT06624072|184459006|OTHER||Ratio of adjusted geometric means, T2/T1|95.73|||||TWO_SIDED|90.0|89.47|102.42|||||Ratio as percentage \[%\] Intra-individual geometric coefficient of variation (gCV) = 10.4%.|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included the effect 'subjects within sequences' as random and the other effects of sequence, period and treatment were considered as fixed. These quantities were then back-transformed to the original scale.||102.42|89.47|
92385999|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.41|||||TWO_SIDED|95.0|-20.27|-6.54||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.54|-20.27|
92386000|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.61|||||TWO_SIDED|95.0|1.62|17.61||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||17.61|1.62|
92386001|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.95|||||TWO_SIDED|95.0|-3.96|11.85||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||11.85|-3.96|
92386002|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.17|||||TWO_SIDED|95.0|-4.8|11.13||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||11.13|-4.80|
92386003|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.03|||||TWO_SIDED|95.0|-9.86|5.81||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.81|-9.86|
92416518|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|0.27|STANDARD_ERROR_OF_MEAN|0.397||0.498|TWO_SIDED|95.0|-0.511|1.049||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.049|-0.511|0.498
92386004|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.72|||||TWO_SIDED|95.0|0.03|15.42||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||15.42|0.03|
92386005|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.16|||||TWO_SIDED|95.0|-4.54|10.87||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||10.87|-4.54|
92386006|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.97|||||TWO_SIDED|95.0|-1.77|13.71||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.71|-1.77|
92386007|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.92|||||TWO_SIDED|95.0|-6.75|8.59||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.59|-6.75|
92386008|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.5|||||TWO_SIDED|95.0|0.57|14.43||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||14.43|0.57|
92386009|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.69|||||TWO_SIDED|95.0|-6.26|7.64||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.64|-6.26|
92416519|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|3.33|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416520|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|0.75|STANDARD_ERROR_OF_MEAN|0.386||0.052|TWO_SIDED|95.0|-0.006|1.51||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.510|-0.006|0.052
92169692|NCT04992390|184227903|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-2.15|||<=|0.001|TWO_SIDED|95.0|-3.22|-1.08||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intrusive memory ratings, 'How much did your intrusive memories affect your work functioning?' (treatment effects for between-arm comparisons) at week 4. For full information on statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-1.08|-3.22|<= 0.001
92386010|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.8|||||TWO_SIDED|95.0|-3.09|10.7||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||10.70|-3.09|
92386011|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.05|||||TWO_SIDED|95.0|-3.87|9.96||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.96|-3.87|
92386012|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.31|||||TWO_SIDED|95.0|3.43|17.18||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||17.18|3.43|
92386013|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.31|||||TWO_SIDED|95.0|-3.59|10.22||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||10.22|-3.59|
92171718|NCT05141903|184232658|SUPERIORITY||||||<|0.0001||||||(Dose group \* Time)|Mixed Models Analysis|Dfn, Dfd = 11, 369 F Value = 24.31||Dose Group 2 B. infantis levels compared to control group (antibiotic only) with changes over time||||<0.0001
92171719|NCT05141903|184232658|SUPERIORITY||||||<|0.0001||||||Dose group \* Time|Mixed Models Analysis|Dfn, Dfd = 11, 370 F value = 14.87||Dose Group 3 B. infantis levels compared to control group (antibiotic only) with changes over time||||<0.0001
92171720|NCT05141903|184232658|SUPERIORITY||||||<|0.0001||||||Dose Group \* Time|Mixed Models Analysis|Dfn, Dfd = 11, 351 F value = 8.606||Dose Group 2 (with HMO) B. infantis levels compared to dose Group 3 (without HMO) with changes over time||||<0.0001
92234273|NCT00095303|184371375|SUPERIORITY_OR_OTHER||Rate Ratio|0.94||||0.21|TWO_SIDED|95.0|0.82|1.09|||GEE|||Null Hypothesis: BSFT will be significantly more effective than TAU in the rates of drug use, defined as the percentage of drug use days in last 90 days. The primary hypothesis will be evaluated in terms of % of days of drug use in the last 90 days, assessed by the timeline follow-back. The general analytic approach will use generalized estimating equation (GEE) with negative binomial distribution comparing the BSFT and TAU participants||1.09|.82|.21
92234274|NCT00095303|184371377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.006|TWO_SIDED|95.0|-0.71|-0.12|||GEE|||Null hypothesis: It is hypothesized that BSFT will be significantly more effective than TAU in the level of externalizing problem behaviors||-.12|-.71|<.006
92234275|NCT00095303|184371378|SUPERIORITY_OR_OTHER||Slope|0.12||||0.015|TWO_SIDED|95.0|0.03|0.22|||Mixed Models Analysis|||Null hypothesis: BSFT will be significantly more effective than TAU in improving family functioning.The four components of the 'Parenting Practices Inventory' will be used to create a composite for use in this analysis. The four component scales from the Parenting Practices Inventory are 'Positive Parenting', 'Discipline Effectiveness,' 'Avoidance of Discipline' and 'Monitoring' scales from the Pittsburgh Youth Survey. Hypothesis will be analyzed as using hierarchical linear models.||.22|.03|.015
92234276|NCT00095303|184371382|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.68||||0.12|TWO_SIDED|95.0|-0.18|1.54|||GEE|||||1.54|-.18|.12
92386014|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.73|||||TWO_SIDED|95.0|-4.1|9.57||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.57|-4.10|
92386015|NCT01393639|184674201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.62|||||TWO_SIDED|95.0|-1.25|12.48||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||12.48|-1.25|
92386016|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|-7.56|8.31||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.31|-7.56|
92386017|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.15|||||TWO_SIDED|95.0|-16.01|-0.3||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.30|-16.01|
92386018|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.1|||||TWO_SIDED|95.0|-22.01|-6.2||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.20|-22.01|
92416521|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|3.26|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92171721|NCT03467542|184232664|OTHER||||||||||||||||||The total number evaluated, the percent, and the Clopper-Pearson two-sided 95% confidence limits on the percent.|||
92234277|NCT00095303|184371383|SUPERIORITY_OR_OTHER||Slope|0.33||||0.12|TWO_SIDED|95.0|-0.09|0.76|||GEE||The parameter estimated is the regression coefficient on the interaction of BSFT treatment assignment and the linear time trend.|Null hypothesis: BSFT will be significantly more effective than TAU in decreasing sexually risky behaviors. The total score of the 'HIV/Sex Risk Behaviors' measure will be used as the outcome.Hypothesis analyzed using the hierarchical linear model.||.76|-.09|.12
92234278|NCT00095303|184371387|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14||||0.23|TWO_SIDED|95.0|-0.09|0.37|||GEE|||||.37|-.09|.23
92278462|NCT00220701|184459075|SUPERIORITY_OR_OTHER||F statistics|2.82||||0.1|TWO_SIDED||||||Repeated Measures ANOVA|||||||0.10
92386019|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.88|||||TWO_SIDED|95.0|-19.7|-4.06||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.06|-19.70|
92386020|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.58|||||TWO_SIDED|95.0|-7.33|8.48||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.48|-7.33|
92386021|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.89|||||TWO_SIDED|95.0|-20.8|-4.98||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.98|-20.80|
92416522|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.398||0.597|TWO_SIDED|95.0|-0.993|0.572||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.572|-0.993|0.597
92416523|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|2.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92171722|NCT03655132|184232677|OTHER|Regression of baseline score on intrinsic motivation to use VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.12||||0.62|TWO_SIDED||||||Regression, Linear|||||||.62
92171723|NCT03655132|184232677|OTHER|Regression of baseline score on perceived ease of use of the VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.19||||0.45|TWO_SIDED||||||Regression, Linear|||||||.45
92234279|NCT00258154|184371409|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (Rotateq+INFANRIX hexa group minus Placebo+INFANRIX hexa group) for subjects who achieve serum antibody levels of ≥ 10 mIU/mL greater than -10%|Percentage point difference|0.0|||<|0.001||95.0|-3.7|3.6|||Miettinen and Nurminen's|Comparing percentage difference with the non-inferiority margin of 10 percentage point with Miettinen and Nurminen's method|Percentage point difference (RotaTeq - Placebo)|||3.6|-3.7|<0.001
92234280|NCT00258154|184371411|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (Rotateq+INFANRIX hexa group minus Placebo+INFANRIX hexa group) for subjects who achieve serum antibody levels of ≥ 0.15 μg/mL greater than -10%.|Percentage point difference|-3.7||||0.015||95.0|-9.3|1.3|||Miettinen and Nurminen's|Comparing percentage difference with the non-inferiority margin of 10 percentage point with Miettinen and Nurminen's method|Percentage point difference (RotaTeq - Placebo)|||1.3|-9.3|0.015
92234281|NCT03842137|184371439|SUPERIORITY||Slope|-0.53|STANDARD_ERROR_OF_MEAN|0.19||0.008|TWO_SIDED|95.0|-0.91|-0.15|||Regression, Linear|Utilizing a regression model, baseline craving scores, group condition, and their interaction are regressed on 2-week craving scores.||||-.15|-.91|.008
92234282|NCT03842137|184371440|SUPERIORITY|An ancova model was conducted comparing differences between tDCS and sham on post-stimulation theta burst rate, while controlling for pre-stimulation theta burst rate||||||0.005|||||||ANCOVA|||||||.005
92280521|NCT00601484|184463644|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-21.9|STANDARD_ERROR_OF_MEAN|11.124|||TWO_SIDED|90.0|-40.633|-3.171||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-3.171|-40.633|
92386022|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|||||TWO_SIDED|95.0|-9.31|8.58||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.58|-9.31|
92386023|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.48|||||TWO_SIDED|95.0|-18.43|-0.53||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.53|-18.43|
92386024|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.42|||||TWO_SIDED|95.0|-22.39|-4.44||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.44|-22.39|
92386025|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.58|||||TWO_SIDED|95.0|-17.48|0.33||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.33|-17.48|
92416524|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.376||0.896|TWO_SIDED|95.0|-0.689|0.788||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.788|-0.689|0.896
92416525|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|3.4|||TWO_SIDED|||||||||Week 72||||
92278463|NCT04041570|184459092|OTHER|t-tests were only employed to determine which individuals were responders. Response rates with 95% Clopper-Pearson confidence intervals were reported within group.||||||0.05||||||The p-value was not adjusted for multiple comparisons and was only used to assess whether participants had a positive response or not.|t-test, 1 sided|This test was only used to determine whether participants were positive responders or not.||Statistical testing was performed within group and not between groups. Positivity for an individual was determined if there was a significant (p-value\<0.05) increase (one-sided test) in the ELISA titers at week 4 when compared to those at baseline. For each participant a t-test was performed to compare the triplicate baseline titers to their triplicate week 4 titers. The proportion of positive responses and associated Clopper-Pearson 95% was calculated within group.|For each participant, a positive response was defined as a significant increase in ELISA titer post vaccination (Week 4) from baseline (Week 0). Within each participant, a t-test is performed to compare the triplicate readings (replicates 1-3) post vaccination versus the triplicate readings at baseline. A participant is defined as a positive responder if one-sided t-test has p-value \< 0.05. The proportion of responders and associated 95% Clopper-Pearson Confidence Intervals were calculated.|||0.05
92278464|NCT01992107|184459126|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT (Day 22/Day 50)|1.03|||||TWO_SIDED|95.0|0.93|1.14|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain A/H1N1||1.14|0.93|
92278465|NCT01992107|184459126|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT (Day 22/Day 50)|1.05|||||TWO_SIDED|95.0|0.97|1.14|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain A/H3N2||1.14|0.97|
92278466|NCT01992107|184459126|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT (Day 22/Day 50)|0.99|||||TWO_SIDED|95.0|0.89|1.1|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain B1||1.1|0.89|
92169693|NCT04992390|184227903|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-2.59|||<=|0.001|TWO_SIDED|95.0|-3.67|-1.51||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intrusive memory ratings, 'How much did your intrusive memories affect your functioning in other areas of your life?' (treatment effects for between-arm comparisons) at week 4. For full information on statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-1.51|-3.67|<= 0.001
92234283|NCT00613626|184371443|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|22.718||0.1|ONE_SIDED|90.0|||||Log Rank|||A one-sided log rank test with an overall sample size of 68 subjects (of which 34 are in arm A and 34 are in arm B) achieves 80% power at a 0.10 significance level to detect a difference of 3 months in PFS between 4 month median PFS and 7 month median PFS.||||0.10
92234284|NCT00613626|184371443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9518|TWO_SIDED|||||P-Value (2-tailed) is calculated based on the unstratified log-rank test.|Log Rank|Degrees of freedom=1||||||0.9518
92234285|NCT00613626|184371445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2533|TWO_SIDED||||||Difference in Rates|P-value (two-tailed) is calculated based on an unadjusted, normal-distribution approximation for the difference in rates.||||||0.2533
92278467|NCT01992107|184459126|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV2c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT (Day 22/Day 50)|1.0|||||TWO_SIDED|95.0|0.87|1.14|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV2c, assessed in terms of ratios of GMT against influenza strain B2||1.14|0.87|
92386026|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.6|||||TWO_SIDED|95.0|-11.57|6.38||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.38|-11.57|
92386027|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.75|||||TWO_SIDED|95.0|-22.73|-4.78||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.78|-22.73|
92416526|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|0.53|STANDARD_ERROR_OF_MEAN|0.369||0.149|TWO_SIDED|95.0|-0.192|1.258||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.258|-0.192|0.149
92416527|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|3.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416528|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.376||0.522|TWO_SIDED|95.0|-0.98|0.499||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.499|-0.980|0.522
92416529|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|-0.09|STANDARD_DEVIATION|2.82|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92234286|NCT00613626|184371446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.872|TWO_SIDED||||||Difference in Rates|||||||0.8720
92234287|NCT00613626|184371447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4577|TWO_SIDED||||||Log Rank|||||||0.4577
92234288|NCT00613626|184371448|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.05|||||TWO_SIDED|95.0|||||||Survival analysis of VEGF variants using cox proportional hazard analysis in arm A and arm B.|Data was not collected for safety lead-in participants and these participants were not included in the analysis.||||
92386028|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22|||||TWO_SIDED|95.0|-9.32|8.88||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.88|-9.32|
92386029|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.28|||||TWO_SIDED|95.0|-21.39|-3.17||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.17|-21.39|
92386030|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.44|||||TWO_SIDED|95.0|-25.53|-7.36||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-7.36|-25.53|
92386031|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.38|||||TWO_SIDED|95.0|-18.42|-0.34||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.34|-18.42|
92386032|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.52|||||TWO_SIDED|95.0|-13.61|4.57||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.57|-13.61|
92386033|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.78|||||TWO_SIDED|95.0|-22.87|-4.69||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.69|-22.87|
92171724|NCT03655132|184232677|OTHER|Regression of baseline score on perceived usefulness of the VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.02||||0.93|TWO_SIDED||||||Regression, Linear|||||||.93
92171725|NCT03655132|184232677|OTHER|Regression of post-intervention score of intrinsic motivation to use VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.51||||0.04|TWO_SIDED||||||Regression, Linear|||||||.04
92234289|NCT00613626|184371448|SUPERIORITY_OR_OTHER_LEGACY||Logistic Regression Analysis|0.05|||||TWO_SIDED|95.0|||||||Objective Response Analysis of VEGF variants using Logistic Regression Analysis in arm A and arm B|||||
92234290|NCT01299025|184371449|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92386034|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.85|||||TWO_SIDED|95.0|-7.9|11.6||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||11.60|-7.90|
92386035|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.72|||||TWO_SIDED|95.0|-20.51|-0.93||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.93|-20.51|
92386036|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.52|||||TWO_SIDED|95.0|-28.28|-8.77||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-8.77|-28.28|
92386037|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.96|||||TWO_SIDED|95.0|-22.67|-3.25||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.25|-22.67|
92386038|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.46|||||TWO_SIDED|95.0|-17.21|2.3||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.30|-17.21|
92386039|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.24|||||TWO_SIDED|95.0|-26.0|-6.48||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.48|-26.00|
92386040|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.27|||||TWO_SIDED|95.0|5.34|21.2||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||21.20|5.34|
92386041|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.74|||||TWO_SIDED|95.0|-3.12|12.59||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||12.59|-3.12|
92386042|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.21|||||TWO_SIDED|95.0|-9.1|6.68||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.68|-9.10|
92416530|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.424||0.528|TWO_SIDED|95.0|-1.103|0.567||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.567|-1.103|0.528
92416531|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|3.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416532|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|0.3|STANDARD_ERROR_OF_MEAN|0.416||0.474|TWO_SIDED|95.0|-0.519|1.116||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.116|-0.519|0.474
92416533|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|3.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416534|NCT02880956|184721167|SUPERIORITY||LS Mean of Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.429||0.441|TWO_SIDED|95.0|-1.176|0.513||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.513|-1.176|0.441
92416535|NCT02880956|184721167|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|3.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416536|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.331||0.027|TWO_SIDED|95.0|-1.383|-0.082||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||-0.082|-1.383|0.027
92171726|NCT03655132|184232677|OTHER|Regression of post-intervention score of perceived ease of use of the VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.54||||0.03|TWO_SIDED||||||Regression, Linear|||||||.03
92234291|NCT05480514|184371453|SUPERIORITY|A superiority margin of 0.90 was used. Superiority was concluded if the lower bound of the 95% central posterior credible interval was above 0.90.|Mean Posterior Proportion|0.9741|STANDARD_DEVIATION|0.01244|||TWO_SIDED|95.0|0.9445|0.9926|||Bayesian beta-binomial model|||||0.9926|0.9445|
92416537|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|-0.26|STANDARD_DEVIATION|2.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416538|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.328||0.146|TWO_SIDED|95.0|-1.123|0.167||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.167|-1.123|0.146
92416539|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|2.97|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416540|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.335||0.009|TWO_SIDED|95.0|-1.537|-0.22||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||-0.220|-1.537|0.009
92234292|NCT00002850|184371470|SUPERIORITY_OR_OTHER|||||||0.218|||||||Fisher Exact|Target accrual=70 patients per arm to provide 92% power to detect a difference of 0.31 vs. 0.08 in the proportion of patients with serious infection.||"H0: There is no significant difference in the incidence of severe bacterial infections among all three arms during the first 2 months of treatment at the two-sided 0.05 significance level.~Ha: There is a significant difference in the incidence of severe bacterial infections among all three arms during the first 2 months of treatment at the two-sided 0.05 significance level."||||0.218
92416541|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|-0.31|STANDARD_DEVIATION|2.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416542|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.333||0.952|TWO_SIDED|95.0|-0.674|0.634||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.634|-0.674|0.952
92416543|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|3.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416544|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.324||0.764|TWO_SIDED|95.0|-0.54|0.734||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.734|-0.540|0.764
92234293|NCT05175170|184371548|OTHER||Mean Difference (Final Values)|-33.902|||<|0.001|TWO_SIDED||||||t-test, 1 sided|||The hypothesis of this analysis was that using the AFFRMED would increase fertility-related knowledge. This paired-samples t-test compares participants' pre- and post-test knowledge scores.||||<.001
92416545|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|2.85|||TWO_SIDED|||||||||Week 48||||
92416546|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.331||0.103|TWO_SIDED|95.0|-1.191|0.109||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.109|-1.191|0.103
92416547|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|-0.19|STANDARD_DEVIATION|2.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92234294|NCT05175170|184371548|OTHER||Mean Difference (Final Values)|-26.098|||<|0.001|TWO_SIDED||||||t-test, 1 sided|||The hypothesis of this analysis was that using the AFFRMED would increase fertility-related knowledge. This paired-samples t-test compares participants' pre- and post-test knowledge scores.||||<.001
92234295|NCT05175170|184371549|OTHER||Mean Difference (Final Values)|-20.202||||0.002|TWO_SIDED||||||t-test, 1 sided|||The hypothesis of this analysis was that using the AFFRMED would increase fertility-related decision self-efficacy. This paired-samples t-test compares participants' pre- and post-test decision self-efficacy scores.||||0.002
92386043|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.01|||||TWO_SIDED|95.0|-6.79|8.81||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.81|-6.79|
92386044|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.39|||||TWO_SIDED|95.0|4.39|22.38||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||22.38|4.39|
92386045|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.27|||||TWO_SIDED|95.0|-4.73|13.27||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.27|-4.73|
92386046|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|||||TWO_SIDED|95.0|-8.68|9.35||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.35|-8.68|
92386047|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.18|||||TWO_SIDED|95.0|-3.77|14.12||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||14.12|-3.77|
92416548|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.362||0.06|TWO_SIDED|95.0|-1.396|0.028||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.028|-1.396|0.060
92416549|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|-0.22|STANDARD_DEVIATION|3.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416550|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.36||0.091|TWO_SIDED|95.0|-1.316|0.098||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.098|-1.316|0.091
92234296|NCT05175170|184371549|OTHER||Mean Difference (Final Values)|-8.081||||0.051|TWO_SIDED||||||t-test, 1 sided|||The hypothesis of this analysis was that using the AFFRMED would increase fertility-related decision self-efficacy. This paired-samples t-test compares participants' pre- and post-test decision self-efficacy scores.||||0.051
92234297|NCT01093612|184371596|OTHER||||||<|0.001|||||||Wilcoxon rank-sum|||||||<0.001
92234298|NCT01093612|184371597|OTHER||||||<|0.001|||||||Wilcoxon rank-sum|||||||<0.001
92234299|NCT02413398|184371616|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.53|-0.15|||Mixed Models Analysis|||Difference in adjusted mean change from baseline (MMRM model)||-0.15|-0.53|<0.001
92386048|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.56|||||TWO_SIDED|95.0|4.44|22.68||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||22.68|4.44|
92386049|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0|-7.64|10.64||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||10.64|-7.64|
92386050|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.66|||||TWO_SIDED|95.0|-11.76|6.44||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.44|-11.76|
92386051|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.41|||||TWO_SIDED|95.0|-4.65|13.46||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.46|-4.65|
92386052|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.09|||||TWO_SIDED|95.0|8.34|27.84||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||27.84|8.34|
92386053|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.52|||||TWO_SIDED|95.0|-4.27|15.32||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||15.32|-4.27|
92386054|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.28|||||TWO_SIDED|95.0|-12.03|7.46||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.46|-12.03|
92416551|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|3.03|||TWO_SIDED|||||||||Week 72||||
92386055|NCT01393639|184674203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.28|||||TWO_SIDED|95.0|-6.42|12.98||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||12.98|-6.42|
92386056|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.06|||||TWO_SIDED|95.0|-14.07|-0.06||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.06|-14.07|
92386057|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.45|||||TWO_SIDED|95.0|-19.34|-5.56||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.56|-19.34|
92386058|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.85|||||TWO_SIDED|95.0|-19.79|-5.91||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.91|-19.79|
92386059|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.92|||||TWO_SIDED|95.0|-22.79|-9.06||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-9.06|-22.79|
92416552|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.361||0.12|TWO_SIDED|95.0|-1.274|0.147||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.147|-1.274|0.120
92416553|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|-0.19|STANDARD_DEVIATION|2.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416554|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.395||0.429|TWO_SIDED|95.0|-1.09|0.464||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.464|-1.090|0.429
92234300|NCT02413398|184371617|SUPERIORITY||Mean Difference (Final Values)|-1.43|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.15|-0.69|||Mixed Models Analysis|||Difference in adjusted mean percent change from baseline (MMRM)||-0.69|-2.15|<0.001
92416555|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|3.13|||TWO_SIDED|||||||||Week 96||||
92416556|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|0.21|STANDARD_ERROR_OF_MEAN|0.389||0.597|TWO_SIDED|95.0|-0.559|0.97||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.970|-0.559|0.597
92234301|NCT02413398|184371618|SUPERIORITY||Mean Difference (Final Values)|-16.59|STANDARD_ERROR_OF_MEAN|5.15||0.001|TWO_SIDED|95.0|-26.73|-6.45|||Mixed Models Analysis|||Difference in adjusted mean change from baseline versus placebo (MMRM)||-6.45|-26.73|0.001
92234302|NCT02413398|184371619|SUPERIORITY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|1.6|<|0.05|TWO_SIDED|95.0|-6.3|0.0|||Mixed Models Analysis|||Difference in adjusted mean change from baseline vs. placebo (MMRM)||0.0|-6.3|<0.050
92234303|NCT01184989|184371623|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability analysis|Ratio|102.16|STANDARD_DEVIATION|22.8||||90.0|97.64|106.893|||Geometric Mean||Dispersion value is actually the intraindividual gCV.|Estimated local measurements are compared to HPLC-MS/MS measurements. The comparison was done for the 136 quantifiable measurements.||106.893|97.640|
92386060|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.95|||||TWO_SIDED|95.0|-10.89|2.99||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.99|-10.89|
92386061|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.51|||||TWO_SIDED|95.0|-20.44|-6.57||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.57|-20.44|
92386062|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.25|||||TWO_SIDED|95.0|-14.65|0.16||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.16|-14.65|
92386063|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.03|||||TWO_SIDED|95.0|-19.38|-4.68||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.68|-19.38|
92386064|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.72|||||TWO_SIDED|95.0|-23.1|-8.35||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-8.35|-23.10|
92386065|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.95|||||TWO_SIDED|95.0|-21.27|-6.63||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.63|-21.27|
92386066|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.94|||||TWO_SIDED|95.0|-13.31|1.43||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.43|-13.31|
92386067|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.16|||||TWO_SIDED|95.0|-23.54|-8.79||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-8.79|-23.54|
92386068|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.09|||||TWO_SIDED|95.0|-13.5|1.32||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.32|-13.50|
92386069|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.06|||||TWO_SIDED|95.0|-20.46|-5.65||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.65|-20.46|
92386070|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.31|||||TWO_SIDED|95.0|-22.69|-7.93||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-7.93|-22.69|
92416557|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|2.98|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416558|NCT02880956|184721168|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.4||0.86|TWO_SIDED|95.0|-0.717|0.858||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.858|-0.717|0.860
92416559|NCT02880956|184721168|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|3.22|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416560|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.497||0.854|TWO_SIDED|95.0|-1.069|0.885||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.885|-1.069|0.854
92416561|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|4.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92234304|NCT01184989|184371624|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability analysis|Ratio|92.37|STANDARD_DEVIATION|23.5||||90.0|90.079|94.719|||Geometric Mean||The Dispersion Value is actually the intraindividual gCV.|Estimated central measurements are compared to HPLC-MS/MS measurements. The comparison was done for the 468 quantifiable measurements.||94.719|90.079|
92416562|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.491||0.412|TWO_SIDED|95.0|-1.368|0.562||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.562|-1.368|0.412
92416563|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|4.08|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416564|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.503||0.262|TWO_SIDED|95.0|-1.554|0.424||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.424|-1.554|0.262
92280522|NCT00601484|184463645|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|90.0|-2.942|-0.057||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.057|-2.942|
92386071|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.31|||||TWO_SIDED|95.0|-20.66|-5.96||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.96|-20.66|
92386072|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.06|||||TWO_SIDED|95.0|-16.44|-1.68||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.68|-16.44|
92386073|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.44|||||TWO_SIDED|95.0|-21.82|-7.06||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-7.06|-21.82|
92386074|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.72|||||TWO_SIDED|95.0|-12.53|3.09||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.09|-12.53|
92386075|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.4|||||TWO_SIDED|95.0|-20.21|-4.59||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.59|-20.21|
92386076|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.48|||||TWO_SIDED|95.0|-24.25|-8.71||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-8.71|-24.25|
92386077|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.19|||||TWO_SIDED|95.0|-19.94|-4.44||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.44|-19.94|
92416565|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|3.82|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416566|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|0.91|STANDARD_ERROR_OF_MEAN|0.571||0.11|TWO_SIDED|95.0|-0.209|2.036||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.036|-0.209|0.110
92416567|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|0.22|STANDARD_DEVIATION|4.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416568|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.555||0.263|TWO_SIDED|95.0|-1.713|0.469||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.469|-1.713|0.263
92416569|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|4.21|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416570|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.57||0.868|TWO_SIDED|95.0|-1.026|1.217||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.217|-1.026|0.868
92416571|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|3.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416572|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.592||0.82|TWO_SIDED|95.0|-1.298|1.029||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.029|-1.298|0.820
92416573|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|4.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416574|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|0.16|STANDARD_ERROR_OF_MEAN|0.583||0.781|TWO_SIDED|95.0|-0.984|1.308||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.308|-0.984|0.781
92416575|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|4.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92234305|NCT03826914|184371644|SUPERIORITY||Median Difference (Net)|-0.43||||0.042|TWO_SIDED|95.0|-0.846|-0.015||The threshold of significance was P=0.05|Anaylsis of Covariance||Placebo - Cardioflex|The primary analysis was conducted using the post-treatment biomarker value, comparing the two groups, and controlling for their baseline values by using analysis of covariance. In this study, the dependent variable was the biomarkers being tested, the controlled independent variable was the treatment given and the uncontrolled variables were the baseline differences between participants.||-0.015|-0.846|0.042
92234306|NCT03826914|184371645|SUPERIORITY||Mean Difference (Final Values)|-6.772||||0.04|TWO_SIDED|95.0|-11.2|-2.24||The threshold of significance was P=0.05|Anaylsis of Covariance|||The primary analysis was conducted using the post-treatment biomarker value, comparing the two groups, and controlling for their baseline values by using analysis of covariance. In this study, the dependent variable was the biomarkers being tested, the controlled independent variable was the treatment given and the uncontrolled variables were the baseline differences between participants.||-2.24|-11.2|0.04
92234307|NCT04334148|184371646|OTHER|||||||0.2|||||||Fisher Exact|||||||0.200
92416576|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|0.08|STANDARD_ERROR_OF_MEAN|0.59||0.895|TWO_SIDED|95.0|-1.082|1.238||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.238|-1.082|0.895
92416577|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|4.75|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416578|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|0.63|STANDARD_ERROR_OF_MEAN|0.69||0.359|TWO_SIDED|95.0|-0.724|1.991||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.991|-0.724|0.359
92416579|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|4.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416580|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|0.34|STANDARD_ERROR_OF_MEAN|0.675||0.612|TWO_SIDED|95.0|-0.985|1.67||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.670|-0.985|0.612
92386078|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.73|||||TWO_SIDED|95.0|-15.5|0.04||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.04|-15.50|
92234308|NCT04334148|184371647|OTHER|||||||1|||||||Regression, Linear|||||||1.0
92416581|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|4.72|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416582|NCT02880956|184721169|SUPERIORITY||LS Mean of Difference|0.5|STANDARD_ERROR_OF_MEAN|0.696||0.475|TWO_SIDED|95.0|-0.872|1.867||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.867|-0.872|0.475
92416583|NCT02880956|184721169|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|4.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416584|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.427||0.926|TWO_SIDED|95.0|-0.799|0.878||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.878|-0.799|0.926
92416585|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|3.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416586|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.423||0.553|TWO_SIDED|95.0|-1.082|0.58||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.580|-1.082|0.553
92416587|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|3.96|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92234309|NCT04334148|184371648|SUPERIORITY|||||||0.802|||||||Chi-squared|||||||0.802
92416588|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.432||0.69|TWO_SIDED|95.0|-1.021|0.677||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.677|-1.021|0.690
92416589|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|4.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416590|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|0.9|STANDARD_ERROR_OF_MEAN|0.499||0.073|TWO_SIDED|95.0|-0.085|1.879||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.879|-0.085|0.073
92416591|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|0.22|STANDARD_DEVIATION|4.03|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416592|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|0.32|STANDARD_ERROR_OF_MEAN|0.487||0.517|TWO_SIDED|95.0|-0.641|1.273||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|repeated measures model|||Week 48||1.273|-0.641|0.517
92416593|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|4.21|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92234310|NCT05370157|184371649|SUPERIORITY||Mean Difference (Net)|4.25|STANDARD_ERROR_OF_MEAN|0.85||0.03|TWO_SIDED|95.0|0.76|7.74|||Regression, Linear|Satterthwaite Approximation||Intent-to-treat analyses tested changes in knowledge from baseline to follow-up using linear mixed models. Mixed models analyses were conducted in R using the lme4 package and restricted maximum likelihood estimation (REML). Models included fixed effects of time (baseline vs. follow-up), intervention condition, and their interaction as well as random effects for person and team. We used the clubSandwich package to calculate cluster robust standard errors.||7.74|0.76|.03
92234311|NCT05370157|184371650|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.3|TWO_SIDED|95.0|-0.4|0.2|||Regression, Linear|Satterthwaite Approximation||Intent-to-treat analyses tested changes in skill use from baseline to follow-up using linear mixed models. Mixed models analyses were conducted in R using the lme4 package and restricted maximum likelihood estimation (REML). Models included fixed effects of time (baseline vs. follow-up), intervention condition, and their interaction as well as random effects for person and team. We used the clubSandwich package to calculate cluster robust standard errors.||0.20|-0.40|.30
92416594|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|0.38|STANDARD_ERROR_OF_MEAN|0.501||0.454|TWO_SIDED|95.0|-0.609|1.36||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.360|-0.609|0.454
92416595|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|4.45|||TWO_SIDED|||||||||Week 48||||
92416596|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|0.57|STANDARD_ERROR_OF_MEAN|0.522||0.276|TWO_SIDED|95.0|-0.456|1.596||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.596|-0.456|0.276
92416597|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|3.94|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416598|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.516||0.935|TWO_SIDED|95.0|-0.973|1.058||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.058|-0.973|0.935
92416599|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|4.35|||TWO_SIDED|95.0|||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92234312|NCT05370157|184371654|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.25||0.45|TWO_SIDED|95.0|-1.25|0.79|||Regression, Linear|||Intent-to-treat analyses tested changes in psychological safety from baseline to follow-up using linear mixed models. Mixed models analyses were conducted in R using the lme4 package and restricted maximum likelihood estimation (REML). Models included fixed effects of time (baseline vs. follow-up), intervention condition, and their interaction as well as random effects for person and team. We used the clubSandwich package to calculate cluster robust standard errors.||0.79|-1.25|.45
92234313|NCT05370157|184371655|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.1||0.89|TWO_SIDED|95.0|-0.44|0.4|||Regression, Linear|||Intent-to-treat analyses tested changes in learning behavior from baseline to follow-up using linear mixed models. Mixed models analyses were conducted in R using the lme4 package and restricted maximum likelihood estimation (REML). Models included fixed effects of time (baseline vs. follow-up), intervention condition, and their interaction as well as random effects for person and team. We used the clubSandwich package to calculate cluster robust standard errors.||0.40|-0.44|.89
92234314|NCT05370157|184371656|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.36||0.85|TWO_SIDED|95.0|-1.51|1.36|||Regression, Linear|||Intent-to-treat analyses tested changes in team performance from baseline to follow-up using linear mixed models. Mixed models analyses were conducted in R using the lme4 package and restricted maximum likelihood estimation (REML). Models included fixed effects of time (baseline vs. follow-up), intervention condition, and their interaction as well as random effects for person and team. We used the clubSandwich package to calculate cluster robust standard errors.||1.36|-1.51|.85
92234315|NCT01508676|184371657|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||.04
92386079|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.98|||||TWO_SIDED|95.0|-21.75|-6.21||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.21|-21.75|
92386080|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.45|||||TWO_SIDED|95.0|-0.53|13.42||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.42|-0.53|
92386081|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.06|||||TWO_SIDED|95.0|-5.81|7.92||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.92|-5.81|
92416600|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.523||0.942|TWO_SIDED|95.0|-0.99|1.066||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.066|-0.990|0.942
92416601|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|4.35|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92234316|NCT06129487|184371681|SUPERIORITY|||||||0.256|||||||ANCOVA|||||||0.256
92234317|NCT05139030|184371682|SUPERIORITY|A one-sided hypothesis test was performed at alpha=0.025 level of significance comparing EXPAREL admix and bupivacaine HCI|Mean Difference (Final Values)|-65.8|STANDARD_ERROR_OF_MEAN|26.97||0.0074|TWO_SIDED|95.0|-118.7|-12.9|||ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||The superiority of EXPAREL admixed to bupivacaine HCI was evaluated using the Efficacy Analysis Set.||-12.9|-118.7|0.0074
92416602|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|0.32|STANDARD_ERROR_OF_MEAN|0.569||0.578|TWO_SIDED|95.0|-0.802|1.436||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.436|-0.802|0.578
92234318|NCT05139030|184371683|SUPERIORITY|A one-sided hypothesis test was performed at alpha=0.025 level of significance comparing EXPAREL admix and bupivacaine HCI|Mean Ratio|0.77||||0.0018|TWO_SIDED|95.0|0.64|0.92|||ANCOVA|Total opioid consumption was transformed to log scale. Main effect of treatment, covariates: pooled Investigator site (categorical); age (continuous)||The superiority of EXPAREL admixed to bupivacaine HCI was evaluated using the Efficacy Analysis Set.||0.92|0.64|0.0018
92386082|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.66|||||TWO_SIDED|95.0|-6.25|7.57||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.57|-6.25|
92386083|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.42|||||TWO_SIDED|95.0|-9.26|4.42||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.42|-9.26|
92386084|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.91|||||TWO_SIDED|95.0|1.48|16.35||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||16.35|1.48|
92386085|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.13|||||TWO_SIDED|95.0|-3.24|11.51||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||11.51|-3.24|
92171727|NCT03655132|184232677|OTHER|Regression of post-intervention score of perceived usefulness of VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.58||||0.01|TWO_SIDED||||||Regression, Linear|||||||.01
92234319|NCT05139030|184371684|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0127|TWO_SIDED|95.0|0.51|0.96|||Cox proportional hazards model|Cox proportional hazard model: treatment as main effect, pooled Investigator site as categorical, and age and height as continuous covariates||||0.96|0.51|0.0127
92386086|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.44|||||TWO_SIDED|95.0|-6.96|7.84||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.84|-6.96|
92386087|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.21|||||TWO_SIDED|95.0|-5.14|9.56||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.56|-5.14|
92386088|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.35|||||TWO_SIDED|95.0|0.92|15.77||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||15.77|0.92|
92386089|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.38|||||TWO_SIDED|95.0|-6.03|8.8||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.80|-6.03|
92386090|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|||||TWO_SIDED|95.0|-8.26|6.52||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.52|-8.26|
92234320|NCT05139030|184371685|SUPERIORITY||Least square mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.3674|TWO_SIDED|95.0|-0.6|0.4||Worst pain 0-24 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.4|-0.6|0.3674
92278468|NCT01992107|184459127|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference b/w SC rates (Day 22/Day 50)|2.0|||||TWO_SIDED|95.0|-2.5|6.9|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strain A/H1N1||6.9|-2.5|
92386091|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.13|||||TWO_SIDED|95.0|-6.23|8.49||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.49|-6.23|
92386092|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.26|||||TWO_SIDED|95.0|1.46|17.06||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||17.06|1.46|
92386093|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.58|||||TWO_SIDED|95.0|-6.23|9.38||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.38|-6.23|
92386094|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-10.27|5.27||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.27|-10.27|
92386095|NCT01393639|184674205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.79|||||TWO_SIDED|95.0|-5.95|9.53||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.53|-5.95|
92386096|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.87|||||TWO_SIDED|95.0|-10.89|5.14||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.14|-10.89|
92386097|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.86|||||TWO_SIDED|95.0|-14.8|1.08||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.08|-14.80|
92169694|NCT04992390|184227906|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.8|||<=|0.001|TWO_SIDED|95.0|-1.08|-0.53||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Impact of Event Scale-Revised Total Score (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.53|-1.08|<= 0.001
92234321|NCT05139030|184371685|SUPERIORITY||Least square mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.29||0.1016|TWO_SIDED|95.0|-0.9|0.2||Worst pain 24-48 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.2|-0.9|0.1016
92234322|NCT05139030|184371685|SUPERIORITY||Least square mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.34||0.0215|TWO_SIDED|95.0|-1.4|0.0||Worst pain 48-72 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-0.0|-1.4|0.0215
92386098|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.36|||||TWO_SIDED|95.0|-22.34|-6.38||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.38|-22.34|
92386099|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.32|||||TWO_SIDED|95.0|-20.22|-4.41||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.41|-20.22|
92386100|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.14|||||TWO_SIDED|95.0|-10.12|5.85||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.85|-10.12|
92416603|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|3.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416604|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|0.56|STANDARD_ERROR_OF_MEAN|0.34||0.545|TWO_SIDED|95.0|-0.762|1.441||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|repeated measures model|||Week 96||1.441|-0.762|0.545
92416605|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|3.94|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416606|NCT02880956|184721170|SUPERIORITY||LS Mean of Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.583||0.346|TWO_SIDED|95.0|-1.697|0.597||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.597|-1.697|0.346
92416607|NCT02880956|184721170|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|3.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92234323|NCT05139030|184371685|SUPERIORITY||Least square mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.34||0.0794|TWO_SIDED|95.0|-1.2|0.2||Worst pain 72-96 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.2|-1.2|0.0794
92416608|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.146||0.202|TWO_SIDED|95.0|-0.473|0.1||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.100|-0.473|0.202
92234324|NCT05139030|184371685|SUPERIORITY||Least square mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.29||0.3606|TWO_SIDED|95.0|-0.7|0.5||Average pain 0-24 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.5|-0.7|0.3606
92234325|NCT05139030|184371685|SUPERIORITY||Least square mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.28||0.0184|TWO_SIDED|95.0|-1.1|0.0||Average pain 24-48 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-0.0|-1.1|0.0184
92386101|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.05|||||TWO_SIDED|95.0|-22.05|-6.04||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.04|-22.05|
92386102|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.26|||||TWO_SIDED|95.0|-9.83|7.3||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.30|-9.83|
92386103|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.1|||||TWO_SIDED|95.0|-18.67|-1.53||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.53|-18.67|
92386104|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.41|||||TWO_SIDED|95.0|-24.01|-6.82||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.82|-24.01|
92386105|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.79|||||TWO_SIDED|95.0|-20.33|-3.26||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.26|-20.33|
92386106|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.98|||||TWO_SIDED|95.0|-14.57|2.62||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.62|-14.57|
92386107|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.37|||||TWO_SIDED|95.0|-23.98|-6.76||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.76|-23.98|
92386108|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|||||TWO_SIDED|95.0|-9.49|9.03||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.03|-9.49|
92386109|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.36|||||TWO_SIDED|95.0|-19.64|-1.08||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.08|-19.64|
92386110|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.57|||||TWO_SIDED|95.0|-24.83|-6.32||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.32|-24.83|
92386111|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.34|||||TWO_SIDED|95.0|-20.56|-2.13||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.13|-20.56|
92280523|NCT00601484|184463645|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.08|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|90.0|-3.458|-0.705||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.705|-3.458|
92386112|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.36|||||TWO_SIDED|95.0|-14.61|3.89||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.89|-14.61|
92386113|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.88|||||TWO_SIDED|95.0|-25.15|-6.61||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.61|-25.15|
92386114|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69|||||TWO_SIDED|95.0|-10.32|8.94||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.94|-10.32|
92386115|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.27|||||TWO_SIDED|95.0|-19.95|-0.59||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.59|-19.95|
92386116|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.7|||||TWO_SIDED|95.0|-29.34|-10.06||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-10.06|-29.34|
92386117|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.65|||||TWO_SIDED|95.0|-22.25|-3.04||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.04|-22.25|
92386118|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.6|||||TWO_SIDED|95.0|-17.24|2.04||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.04|-17.24|
92386119|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.34|||||TWO_SIDED|95.0|-28.99|-9.68||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-9.68|-28.99|
92386120|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.17|||||TWO_SIDED|95.0|3.18|19.16||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||19.16|3.18|
92386121|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.19|||||TWO_SIDED|95.0|-0.78|15.15||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||15.15|-0.78|
92416609|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|1.26|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416610|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.144||0.76|TWO_SIDED|95.0|-0.327|0.239||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.239|-0.327|0.760
92416611|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.15|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92171728|NCT03655132|184232678|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8) for waitlist control group participants only (n=22).|Median Difference (Net)|-5.0||||0.54|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.54
92278469|NCT01992107|184459127|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference b/w SC rates (Day 22/Day 50)|4.0|||||TWO_SIDED|95.0|-1.4|9.2|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strain A/H3N2||9.2|-1.4|
92280524|NCT00601484|184463645|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.13|STANDARD_ERROR_OF_MEAN|1.267|||TWO_SIDED|90.0|-4.265|-0.004||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.004|-4.265|
92386122|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|||||TWO_SIDED|95.0|-8.28|7.65||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.65|-8.28|
92386123|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.73|||||TWO_SIDED|95.0|-6.14|9.61||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.61|-6.14|
92416612|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.147||0.419|TWO_SIDED|95.0|-0.409|0.17||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.170|-0.409|0.419
92416613|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|1.03|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416614|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.173||0.893|TWO_SIDED|95.0|-0.363|0.317||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.317|-0.363|0.893
92171729|NCT03655132|184232678|OTHER||Median Difference (Net)|-1.5||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8) for VACT-CP group.||||.59
92171730|NCT03655132|184232679|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|2.0||||0.78|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.78
92386124|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.11|||||TWO_SIDED|95.0|5.51|22.71||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||22.71|5.51|
92386125|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.27|||||TWO_SIDED|95.0|-3.38|13.92||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.92|-3.38|
92386126|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-8.68|8.59||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.59|-8.68|
92416615|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|1.26|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|||||
92234326|NCT05139030|184371685|SUPERIORITY||Least square mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.0476|TWO_SIDED|95.0|-1.1|0.1||Average pain 48-72 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.1|-1.1|0.0476
92234327|NCT05139030|184371685|SUPERIORITY||Least square mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.0529|TWO_SIDED|95.0|-1.1|0.1||Average pain 72-96 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.1|-1.1|0.0529
92386127|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.58|||||TWO_SIDED|95.0|-4.99|12.15||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||12.15|-4.99|
92386128|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.65|||||TWO_SIDED|95.0|6.38|24.93||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||24.93|6.38|
92386129|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.53|||||TWO_SIDED|95.0|-3.81|14.86||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||14.86|-3.81|
92386130|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|95.0|-8.97|9.59||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.59|-8.97|
92386131|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.54|||||TWO_SIDED|95.0|-4.69|13.77||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.77|-4.69|
92416616|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.168||0.886|TWO_SIDED|95.0|-0.306|0.354||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.354|-0.306|0.886
92416617|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|1.46|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416618|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.172||0.306|TWO_SIDED|95.0|-0.515|0.162||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.162|-0.515|0.306
92171731|NCT03655132|184232679|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|14.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<.001
92171732|NCT03655132|184232680|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|0.5||||0.13|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.13
92239709|NCT01355068|184383264|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|101.43|||||TWO_SIDED|90.0|97.56|105.47||||||Natural log transformed AUC (0-∞) was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||105.47|97.56|
92386132|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.65|||||TWO_SIDED|95.0|9.03|28.27||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||28.27|9.03|
92386133|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.07|||||TWO_SIDED|95.0|-0.64|18.78||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||18.78|-0.64|
92386134|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-10.0|9.28||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.28|-10.00|
92386135|NCT01393639|184674207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.69|||||TWO_SIDED|95.0|-2.91|16.29||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||16.29|-2.91|
92386136|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.37|-0.02||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.02|-0.37|
92386137|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|||||TWO_SIDED|95.0|-0.46|-0.11||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.11|-0.46|
92386138|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|||||TWO_SIDED|95.0|-0.45|-0.1||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.10|-0.45|
92416619|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|1.12|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416620|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.116||0.008|TWO_SIDED|95.0|-0.535|-0.079||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||-0.079|-0.535|0.008
92416621|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|-0.26|STANDARD_DEVIATION|1.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416622|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.115||0.031|TWO_SIDED|95.0|-0.474|-0.023||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||-0.023|-0.474|0.031
92416623|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|-0.21|STANDARD_DEVIATION|1.16|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416624|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.116||0.014|TWO_SIDED|95.0|-0.514|-0.059||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||-0.059|-0.514|0.014
92416625|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|-0.25|STANDARD_DEVIATION|1.15|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|||||
92416626|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.135||0.065|TWO_SIDED|95.0|-0.514|0.016||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.016|-0.514|0.065
92416627|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|-0.21|STANDARD_DEVIATION|1.17|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92234328|NCT03772327|184371686|SUPERIORITY||Mean Difference (Net)|0.333||||0.07|TWO_SIDED|95.0|-0.028|0.694|||t-test, 2 sided|A ratio of Week 12 to baseline TFV-DP levels was used rather than a raw difference as a ratio was normally distributed.|The mean difference is mean ratio (Week 12 TFV-DP level over the Week 0 TFV-DP level) in the Routine counseling + AdhereTech bottle arm less the mean ratio in the Routine counseling arm.|The power calculation was based on a null hypothesis of no difference in mean tenofovir-diphosphate (TFV-DP) concentrations between baseline versus week 12. Expected baseline mean (SD): 900 (404) fmol/punch. 12 week mean (SD): 1332 (597) fmol/punch in the AdhereTech bottle arm vs. 900 (404) fmol/punch in control arm. Type 1 error = 0.05, power = 80%, a sample size of 32 per arm (64 total) based on a two-sided t-test with equal variance.||0.694|-0.028|0.070
92234329|NCT03772327|184371687|EQUIVALENCE|Equivalence defined if a two-sided 2 sample proportion test accepts the null hypothesis with p \> 0.05.|Difference in proportions|0.045||||0.89|TWO_SIDED|95.0|-0.179|0.27|||Chi-squared, Corrected|degrees of freedom = 1|This is the proportion of those completing a week 12 visit less those completing a week 0 visit.|The null hypothesis is that the proportion of randomized participants that complete a week 12 visit is not lower in the AdhereTech bottle arm.||0.270|-0.179|0.89
92416628|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.132||0.121|TWO_SIDED|95.0|-0.465|0.055||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.055|-0.465|0.121
92416629|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|1.05|STANDARD_DEVIATION|1.17|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416630|NCT02880956|184721171|SUPERIORITY||LS Mean of Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.136||0.21|TWO_SIDED|95.0|-0.438|0.097||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.097|-0.438|0.210
92171733|NCT03655132|184232680|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|3.0||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.07
92416631|NCT02880956|184721171|SUPERIORITY||Effect size/pooled SD|-0.17|STANDARD_DEVIATION|1.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416632|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.188||0.303|TWO_SIDED|95.0|-0.564|0.176||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.176|-0.564|0.303
92416633|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|1.42|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92171734|NCT03655132|184232681|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|0.0||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.64
92234330|NCT03772327|184371688|SUPERIORITY||Median Difference (Net)|-0.07||||0.328|TWO_SIDED||||||Kruskal-Wallis|Log transformation of viral load|Difference of log viral load at Week 12 less the log viral load at baseline|Null hypothesis: Mean HIV viral load is not significantly different in the AdhereTech bottle group compared to the routine counseling only group.||||0.328
92386139|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-0.52|-0.18||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-0.52|
92234331|NCT03772327|184371689|SUPERIORITY||Odds Ratio (OR)|0.395||||0.294|TWO_SIDED|95.0|0.058|2.044|||Fisher Exact||Odds ratio for change from HIV RNA ≥ 20 copies/mL at baseline to HIV RNA \< 20 copies/mL at week 12 due to the intervention (AdhereTech bottle).|Null hypothesis: There is no difference in proportion of participants that go from HIV RNA ≥ 20 copies/mL to HIV RNA \< 20 copies/mL between baseline to Week 12 in the AdhereTech bottle group compared the routine counseling group.||2.044|0.058|0.294
92234332|NCT03772327|184371691|SUPERIORITY||Difference in proportions|0.019||||1|TWO_SIDED|95.0|-0.237|0.276|||Chi-squared, Corrected|||Null hypothesis: Adherence in the AdhereTech bottle arm is not better than the control arm at Week 12.||0.276|-0.237|1
92386140|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|||||TWO_SIDED|95.0|-0.35|0.0||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.00|-0.35|
92386141|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.53|-0.18||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-0.53|
92416634|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.186||0.358|TWO_SIDED|95.0|-0.536|0.194||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.194|-0.536|0.358
92416635|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416636|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.19||0.347|TWO_SIDED|95.0|-0.553|0.195||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.195|-0.553|0.347
92416637|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|1.21|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416638|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|0.11|STANDARD_ERROR_OF_MEAN|0.16||0.494|TWO_SIDED|95.0|-0.205|0.423||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.423|-0.205|0.494
92171735|NCT03655132|184232681|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|-0.3||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.30
92234333|NCT04689828|184371692|SUPERIORITY||Hazard Ratio (HR)|0.41||||1e-08|TWO_SIDED|95.0|0.29|0.56|||Log Rank|Stratified||||0.56|0.29|0.00000001
92171736|NCT03655132|184232682|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|0.5||||0.75|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.75
92234334|NCT04689828|184371693|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.2|TWO_SIDED|95.0|0.72|1.14|||stratified Cox PH model|||||1.14|0.72|0.20
92234335|NCT00195351|184371714|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.009||95.0|-13.1|5.1|||t-test, 2 sided|||||5.1|-13.1|0.009
92234336|NCT00195351|184371715|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.4||||0.02||95.0|-14.5|7.8|||t-test, 2 sided|||||7.8|-14.5|0.020
92234337|NCT00195351|184371716|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.9||||0.015||95.0|-13.9|8.1|||Method of Mehrotra and Railkar|||||8.1|-13.9|0.015
92234338|NCT03959189|184371718|SUPERIORITY||mixed effects model|-0.0796|STANDARD_ERROR_OF_MEAN|0.2768||0.7746|TWO_SIDED|95.0|-0.6|0.5|||Mixed Models Analysis|||A mixed effects model will be used to compare SSS effects following ERX-963 versus placebo. In the primary analysis of SSS, the cohort 1 and cohort 2 data were combined for ERX-963 and placebo treatments.||0.5|-0.6|0.7746
92239710|NCT00336492|184383269|SUPERIORITY_OR_OTHER|||||||0.146|||||||Chi-squared|||||||0.146
92386142|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-0.31|0.07||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.07|-0.31|
92386143|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.54|-0.17||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.17|-0.54|
92386144|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|||||TWO_SIDED|95.0|-0.47|-0.09||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.09|-0.47|
92386145|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|||||TWO_SIDED|95.0|-0.56|-0.18||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-0.56|
92416639|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|1.22|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92234339|NCT03959189|184371718|SUPERIORITY||mixed effects model|-0.2608|STANDARD_ERROR_OF_MEAN|0.3589||0.47|TWO_SIDED|95.0|-1.0|0.5|||Mixed Models Analysis|||A mixed effects model will be used to compare SSS effects following 1 mg ERX-963 versus placebo. In this analysis of SSS, the effect of 1 mg ERX-963 treatment was compared to the effect of placebo treatment.||0.5|-1.0|0.4700
92386146|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.39|-0.01||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.01|-0.39|
92386147|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|||||TWO_SIDED|95.0|-0.63|-0.25||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.25|-0.63|
92386148|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|||||TWO_SIDED|95.0|-0.34|0.05||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.05|-0.34|
92386149|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.59|-0.2||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.20|-0.59|
92386150|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|||||TWO_SIDED|95.0|-0.51|-0.12||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.12|-0.51|
92416640|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.156||0.454|TWO_SIDED|95.0|-0.189|0.423||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.423|-0.189|0.454
92416641|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|1.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416642|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_DEVIATION|0.16||0.644|TWO_SIDED|95.0|-0.24|0.388||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.388|-0.240|0.644
92416643|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|1.1|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416644|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|0.09|STANDARD_ERROR_OF_MEAN|0.232||0.685|TWO_SIDED|95.0|-0.363|0.551||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.551|-0.363|0.685
92171737|NCT03655132|184232682|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|-0.5||||0.6|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.60
92239711|NCT03141307|184383283|EQUIVALENCE|95% margin|||||<|0.001||||||a priori threshold for statistical significance set for p \< .05|t-test, 2 sided|||||||<.001
92386151|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-0.55|-0.16||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.16|-0.55|
92386152|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-0.38|0.01||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.01|-0.38|
92386153|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.47|||||TWO_SIDED|95.0|-0.67|-0.27||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.27|-0.67|
92386154|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|||||TWO_SIDED|95.0|-0.3|0.15||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.15|-0.30|
92386155|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.63|-0.18||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-0.63|
92386156|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41|||||TWO_SIDED|95.0|-0.64|-0.18||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-0.64|
92386157|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.59|-0.14||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.14|-0.59|
92416645|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.64|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416646|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|0.28|STANDARD_ERROR_OF_MEAN|0.228||0.219|TWO_SIDED|95.0|-0.168|0.73||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.730|-0.168|0.219
92416647|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|1.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416648|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|0.232||0.507|TWO_SIDED|95.0|-0.302|0.61||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.610|-0.302|0.507
92416649|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|1.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416650|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.216||0.233|TWO_SIDED|95.0|-0.683|0.167||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.167|-0.683|0.233
92234340|NCT03959189|184371718|SUPERIORITY||mixed effects model|0.1016|STANDARD_ERROR_OF_MEAN|0.4272||0.8127|TWO_SIDED|95.0|-0.8|1.0|||Mixed Models Analysis|||A mixed effects model will be used to compare SSS effects following 2 mg ERX-963 versus placebo. In this analysis of SSS, the effect of 2 mg ERX-963 treatment was compared to the effect of placebo treatment.||1.0|-0.8|0.8127
92234341|NCT01480180|184371748|OTHER||Poisson estimate|3.7|||<|0.001|TWO_SIDED|95.0|2.94|4.66||P-values are from the 1-sided test of the null hypothesis that the ABR is at least 8.5 evaluated at the 2.5% level.|Poisson regression|||The analysis is based on a Poisson regression model allowing for over-dispersion. For participants withdrawing prematurely, the log planned treatment duration is used as offset; for completers, the log actual treatment duration is used.||4.66|2.94|<0.001
92416651|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|1.27|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416652|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.211||0.881|TWO_SIDED|95.0|-0.383|0.446||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.446|-0.383|0.881
92416653|NCT02880956|184721172|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|1.42|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416654|NCT02880956|184721172|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.217||0.671|TWO_SIDED|95.0|-0.52|0.335||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.335|-0.520|0.671
92416655|NCT02880956|184721172|OTHER||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|1.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92171738|NCT04549168|184232715|SUPERIORITY||LS geometric mean ratio|0.795||||0.0585|TWO_SIDED|95.0|0.627|1.008||Data was analyzed using mixed effect model repeated measurement analysis (MMRM), and the missing values were imputed using multiple imputation and assumed to be missing not at random (MNAR).|MMRM|||||1.008|0.627|0.0585
92416656|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.409||0.297|TWO_SIDED|95.0|-1.232|0.377||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.377|-1.232|0.297
92416657|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|3.7|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416658|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.405||0.979|TWO_SIDED|95.0|-0.808|0.786||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.786|-0.808|0.979
92171739|NCT04549168|184232716|SUPERIORITY||LSM difference|7.1|||<|0.0001|TWO_SIDED|95.0|4.39|9.81||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||9.81|4.39|<0.0001
92239712|NCT03141307|184383284|EQUIVALENCE|95% margin|||||<|0.05||||||a priori threshold for statistical significance set for p \< .05|t-test, 2 sided|||||||<.05
92416659|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|3.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416660|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.415||0.663|TWO_SIDED|95.0|-0.996|0.634||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.634|-0.996|0.663
92416661|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|3.71|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416662|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.636||0.961|TWO_SIDED|95.0|-1.22|1.282||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.282|-1.220|0.961
92416663|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|4.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416664|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.617||0.833|TWO_SIDED|95.0|-1.083|1.344||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.344|-1.083|0.833
92416665|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|5.06|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416666|NCT02880956|184721173|OTHER||LS Mean of Difference|0.23|STANDARD_ERROR_OF_MEAN|0.636||0.714|TWO_SIDED|95.0|-1.017|1.484||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.484|-1.017|0.714
92416667|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|5.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92234342|NCT01480180|184371750|OTHER||Poisson estimate|3.27|||<|0.001|TWO_SIDED|95.0|2.59|4.11||P-values are from the 1-sided test of the null hypothesis that the ABR is at least 8.5 evaluated at the 2.5% level.|Poisson regression|||The analysis is based on a Poisson regression model allowing for over-dispersion. For participants withdrawing prematurely, the log planned treatment duration is used as offset; for completers, the log actual treatment duration is used.||4.11|2.59|<0.001
92234343|NCT01480180|184371752|OTHER||Poisson estimate|2.35|||<|0.001|TWO_SIDED|95.0|1.87|2.95||P-values are from the 1-sided test of the null hypothesis that the ABR is at least 8.5 evaluated at the 2.5% level.|Poisson regression|||The analysis is based on a Poisson regression model allowing for over-dispersion. For participants withdrawing prematurely, the log planned treatment duration is used as offset; for completers, the log actual treatment duration is used.||2.95|1.87|<0.001
92416668|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.663||0.518|TWO_SIDED|95.0|-1.733|0.876||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.876|-1.733|0.518
92416669|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|5.17|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416670|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.654||0.633|TWO_SIDED|95.0|-1.598|0.973||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.973|-1.598|0.633
92416671|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|4.9|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416672|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.661||0.776|TWO_SIDED|95.0|-1.488|1.112||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.112|-1.488|0.776
92171740|NCT04549168|184232717|SUPERIORITY||LSM difference|-17.84||||0.0002|TWO_SIDED|95.0|-27.16|-8.51||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||-8.51|-27.16|0.0002
92234344|NCT01480180|184371752|OTHER||Poisson estimate|4.39|||<|0.001|TWO_SIDED|95.0|3.09|6.24||P-values are from the 1-sided test of the null hypothesis that the ABR is at least 8.5 evaluated at the 2.5% level.|Poisson regression|||The analysis is based on a Poisson regression model allowing for over-dispersion. For participants withdrawing prematurely, the log planned treatment duration is used as offset; for completers, the log actual treatment duration is used.||6.24|3.09|<0.001
92234345|NCT02513446|184371828|SUPERIORITY_OR_OTHER||Adjusted gMean T/R ratio|176.1|||||TWO_SIDED|90.0|160.5|193.2|||ANOVA|Analysis of variance (ANOVA) on the logarithmic scale; Fixed effects: sequence, period and treatment; Random effects: subjects within sequences|Ratio of the treatment adjusted geometric means (gMean) of (T) versus (R).|||193.2|160.5|
92416673|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|4.93|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416674|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.58||0.316|TWO_SIDED|95.0|-1.723|0.558||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.558|-1.723|0.316
92416675|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|4.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416676|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.567||0.336|TWO_SIDED|95.0|-1.66|0.569||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.569|-1.660|0.336
92171741|NCT04549168|184232718|SUPERIORITY||LS geometric mean ratio|0.776||||0.0063|TWO_SIDED|95.0|0.647|0.93||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||0.930|0.647|0.0063
92386158|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|||||TWO_SIDED|95.0|-0.54|-0.09||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.09|-0.54|
92234346|NCT02513446|184371829|SUPERIORITY_OR_OTHER||Adjusted gMean T/R ratio|136.5|||||TWO_SIDED|90.0|109.9|169.4|||ANOVA|Analysis of variance (ANOVA) on the logarithmic scale; Fixed effects: sequence, period and treatment; Random effects: subjects within sequences|Ratio of the treatment adjusted geometric means (gMean) of (T) versus (R).|||169.4|109.9|
92280525|NCT00601484|184463645|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.531|||TWO_SIDED|90.0|-4.029|1.124||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.124|-4.029|
92386159|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.58|||||TWO_SIDED|95.0|-0.81|-0.35||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.35|-0.81|
92386160|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|||||TWO_SIDED|95.0|-0.01|0.34||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.34|-0.01|
92386161|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-0.1|0.24||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.24|-0.10|
92386162|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|95.0|-0.1|0.25||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.25|-0.10|
92416677|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|3.9|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416678|NCT02880956|184721173|SUPERIORITY||LS Mean of Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.587||0.403|TWO_SIDED|95.0|-1.647|0.663||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.663|-1.647|0.403
92416679|NCT02880956|184721173|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|3.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92234347|NCT02513446|184371830|SUPERIORITY_OR_OTHER||Adjusted gMean T/R ratio|174.8|||||TWO_SIDED|90.0|159.1|192.0|||ANOVA|Analysis of variance (ANOVA) on the logarithmic scale; Fixed effects: sequence, period and treatment; Random effects: subjects within sequences|Ratio of the treatment adjusted geometric means (gMean) of (T) versus (R).|||192.0|159.1|
92386163|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.17|0.18||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.18|-0.17|
92386164|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|||||TWO_SIDED|95.0|0.13|0.51||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.51|0.13|
92386165|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|95.0|-0.11|0.27||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.27|-0.11|
92386166|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|||||TWO_SIDED|95.0|-0.04|0.34||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.34|-0.04|
92386167|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.13|0.25||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.25|-0.13|
92386168|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|||||TWO_SIDED|95.0|0.13|0.52||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.52|0.13|
92386169|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-0.12|0.27||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.27|-0.12|
92416680|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.4||0.861|TWO_SIDED|95.0|-0.856|0.716||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.716|-0.856|0.861
92416681|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|3.51|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92386170|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|||||TWO_SIDED|95.0|-0.05|0.35||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.35|-0.05|
92386171|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.08|0.31||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.31|-0.08|
92386172|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|||||TWO_SIDED|95.0|0.28|0.73||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.73|0.28|
92416682|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.395||0.746|TWO_SIDED|95.0|-0.648|0.905||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.905|-0.648|0.746
92416683|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|3.46|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416684|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.405||0.859|TWO_SIDED|95.0|-0.724|0.868||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.868|-0.724|0.859
92416685|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|3.64|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92234348|NCT00843180|184371840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_DEVIATION|0.0||0.8|TWO_SIDED|95.0|-5.4|4.2||unadjusted|t-test, 2 sided||this was a feasibility pilot study CI is descriptor of dispersion|comparison between groups by t-test||4.2|-5.4|0.80
92416686|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.55|STANDARD_ERROR_OF_MEAN|0.467||0.24|TWO_SIDED|95.0|-0.369|1.469||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.469|-0.369|0.240
92416687|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|0.16|STANDARD_DEVIATION|3.41|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416688|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.91|STANDARD_ERROR_OF_MEAN|0.454||0.044|TWO_SIDED|95.0|0.023|1.087||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.087|0.023|0.044
92386173|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|95.0|-0.05|0.4||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.40|-0.05|
92171742|NCT04549168|184232719|SUPERIORITY||LSM difference|4.49||||0.0242|TWO_SIDED|95.0|0.59|8.39||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||8.39|0.59|0.0242
92234349|NCT00843180|184371841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.38|STANDARD_DEVIATION|0.0||0.29|TWO_SIDED|95.0|-6.9|2.1||unadjusted|t-test, 2 sided||CI serves as dispersion measure|||2.1|-6.9|0.29
92234350|NCT00843180|184371842|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.8|STANDARD_DEVIATION|0.0||0.78|TWO_SIDED|95.0|-31.9|24.3|||t-test, 2 sided||95% CI is dispersion parameter|||24.3|-31.9|0.78
92239713|NCT03141307|184383285|EQUIVALENCE|95% margin|||||=|0.502||||||a priori threshold for statistical significance set for p \< .05|t-test, 2 sided|||||||=.502
92239714|NCT03141307|184383286|EQUIVALENCE|95% margin|||||=|0.071||||||a priori threshold for statistical significance set for p \< .05|t-test, 2 sided|||||||=.071
92386174|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-0.06|0.4||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.40|-0.06|
92386175|NCT01393639|184674209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|||||TWO_SIDED|95.0|-0.01|0.44||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.44|-0.01|
92386176|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41|||||TWO_SIDED|95.0|-0.78|-0.04||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.04|-0.78|
92386177|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75|||||TWO_SIDED|95.0|-1.12|-0.39||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.39|-1.12|
92416689|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|0.26|STANDARD_DEVIATION|3.51|||TWO_SIDED|||||||||Week 48||||
92416690|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.61|STANDARD_ERROR_OF_MEAN|0.467||0.195|TWO_SIDED|95.0|-0.312|1.524||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.524|-0.312|0.195
92416691|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|3.53|||TWO_SIDED|||||||||Week 48||||
92416692|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|0.547||0.778|TWO_SIDED|95.0|-0.921|1.229||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.229|-0.921|0.778
92416693|NCT02880956|184721174|OTHER||Effect size/pooled SD|0.04|STANDARD_DEVIATION|3.99|||TWO_SIDED|||||||||Week 72||||
92416694|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.32|STANDARD_ERROR_OF_MEAN|0.539||0.558|TWO_SIDED|95.0|-0.743|1.376||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.376|-0.743|0.558
92416695|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|3.89|||TWO_SIDED|||||||||Week 72||||
92416696|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.546||0.928|TWO_SIDED|95.0|-1.025|1.124||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.124|-1.025|0.928
92416697|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|4.27|||TWO_SIDED|||||||||Week 72||||
92416698|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.64|STANDARD_ERROR_OF_MEAN|0.541||0.238|TWO_SIDED|95.0|-0.425|1.704||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.704|-0.425|0.238
92416699|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|3.61|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416700|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.86|STANDARD_ERROR_OF_MEAN|0.53||0.107|TWO_SIDED|95.0|-0.186|1.898||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.898|-0.186|0.107
92416701|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|0.25|STANDARD_DEVIATION|3.41|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416702|NCT02880956|184721174|SUPERIORITY||LS Mean of Difference|0.86|STANDARD_ERROR_OF_MEAN|0.548||0.116|TWO_SIDED|95.0|-0.214|1.942||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.942|-0.214|0.116
92416703|NCT02880956|184721174|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|3.75|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416704|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.186||0.683|TWO_SIDED|95.0|-0.442|0.29||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.290|-0.442|0.683
92416705|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.98|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416706|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.184||0.973|TWO_SIDED|95.0|-0.356|0.368||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.368|-0.356|0.973
92280526|NCT00601484|184463645|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.24|STANDARD_ERROR_OF_MEAN|1.293|||TWO_SIDED|90.0|-4.419|-0.063||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.063|-4.419|
92416707|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|1.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416708|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.189||0.921|TWO_SIDED|95.0|-0.389|0.352||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.352|-0.389|0.921
92416709|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416710|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.256||0.335|TWO_SIDED|95.0|-0.751|0.257||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.257|-0.751|0.335
92416711|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|2.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416712|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|0.11|STANDARD_ERROR_OF_MEAN|0.249||0.67|TWO_SIDED|95.0|-0.383|0.596||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.596|-0.383|0.670
92416713|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|2.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416714|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.256||0.95|TWO_SIDED|95.0|-0.486|0.519||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.519|-0.486|0.950
92234351|NCT00843180|184371843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_DEVIATION|0.0||0.7|TWO_SIDED|95.0|-9.5|13.2|||t-test, 2 sided|unadjusted|95%CI is dispersion measure|||13.2|-9.5|0.70
92234352|NCT04323488|184371854|OTHER|||||||0.925||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.925
92386178|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|||||TWO_SIDED|95.0|-1.18|-0.44||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.44|-1.18|
92386179|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.11|||||TWO_SIDED|95.0|-1.48|-0.74||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.74|-1.48|
92386180|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-0.72|0.02||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.02|-0.72|
92386181|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.83|||||TWO_SIDED|95.0|-1.19|-0.46||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.46|-1.19|
92416715|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|2.04|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416716|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.257||0.383|TWO_SIDED|95.0|-0.729|0.281||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.281|-0.729|0.383
92416717|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|2.33|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416718|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.254||0.985|TWO_SIDED|95.0|-0.504|0.494||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.494|-0.504|0.985
92416719|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|2.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92171743|NCT04549168|184232720|SUPERIORITY||LSM difference|-10.36||||0.1625|TWO_SIDED|95.0|-24.95|4.22||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||4.22|-24.95|0.1625
92234353|NCT04323488|184371854|OTHER|||||||0.834||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.834
92234354|NCT04323488|184371854|OTHER|||||||0.18||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.180
92234355|NCT04323488|184371854|OTHER|||||||0.091||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.091
92234356|NCT04323488|184371855|OTHER|||||||0.524||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.524
92234357|NCT04323488|184371855|OTHER|||||||0.379||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.379
92234358|NCT04323488|184371855|OTHER|||||||0.01||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.010
92386182|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|||||TWO_SIDED|95.0|-0.85|0.0||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.00|-0.85|
92386183|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.73|||||TWO_SIDED|95.0|-1.15|-0.31||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.31|-1.15|
92386184|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.95|||||TWO_SIDED|95.0|-1.37|-0.52||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.52|-1.37|
92416720|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.256||0.064|TWO_SIDED|95.0|-0.982|0.027||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.027|-0.982|0.064
92416721|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|2.4|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416722|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|0.18|STANDARD_ERROR_OF_MEAN|0.28||0.527|TWO_SIDED|95.0|-0.374|0.729||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.729|-0.374|0.527
92416723|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|2.3|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416724|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|0.31|STANDARD_ERROR_OF_MEAN|0.275||0.254|TWO_SIDED|95.0|-0.226|0.854||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.854|-0.226|0.254
92416725|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|2.32|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416726|NCT02880956|184721175|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.284||0.805|TWO_SIDED|95.0|-0.628|0.488||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.488|-0.628|0.805
92416727|NCT02880956|184721175|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|2.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416728|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.361||0.534|TWO_SIDED|95.0|-0.935|0.485||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.485|-0.935|0.534
92234359|NCT04323488|184371855|OTHER|||||||0.017||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.017
92416729|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|2.76|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416730|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.356||0.735|TWO_SIDED|95.0|-0.58|0.821||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.821|-0.580|0.735
92416731|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|2.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416732|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.365||0.009|TWO_SIDED|95.0|-1.673|-0.24||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||-0.240|-1.673|0.009
92416733|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|-0.35|STANDARD_DEVIATION|2.75|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92171744|NCT04549168|184232721|SUPERIORITY||LS geometric mean ratio|0.815||||0.0515|TWO_SIDED|95.0|0.663|1.001||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||1.001|0.663|0.0515
92234360|NCT04323488|184371856|OTHER|||||||0.6||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.60
92234361|NCT04323488|184371856|OTHER|||||||0.03||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.03
92234362|NCT04323488|184371856|OTHER|||||||0.6|||||||t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.60
92234363|NCT04323488|184371856|OTHER|||||||0.03||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.03
92234364|NCT04323488|184371857|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||< 0.001
92234365|NCT04323488|184371857|OTHER|||||||0.29||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.29
92416734|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.422||0.954|TWO_SIDED|95.0|-0.854|0.806||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.806|-0.854|0.954
92416735|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|2.97|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416736|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|0.19|STANDARD_ERROR_OF_MEAN|0.412||0.649|TWO_SIDED|95.0|-0.622|0.997||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.997|-0.622|0.649
92416737|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|2.95|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416738|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.423||0.358|TWO_SIDED|95.0|-1.22|0.443||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.443|-1.220|0.358
92234366|NCT04323488|184371857|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||< 0.001
92234367|NCT04323488|184371857|OTHER|||||||0.26||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.26
92280527|NCT00601484|184463646|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-7.93|||||TWO_SIDED|90.0|-27.32|11.32||||||Week 2: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\] as stratification variable.||11.32|-27.32|
92386185|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96|||||TWO_SIDED|95.0|-1.39|-0.54||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.54|-1.39|
92386186|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|||||TWO_SIDED|95.0|-0.67|0.18||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.18|-0.67|
92386187|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.91|||||TWO_SIDED|95.0|-1.33|-0.49||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.49|-1.33|
92386188|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|||||TWO_SIDED|95.0|-0.9|0.02||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.02|-0.90|
92386189|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|||||TWO_SIDED|95.0|-1.32|-0.41||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.41|-1.32|
92416739|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|2.99|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416740|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.539||0.859|TWO_SIDED|95.0|-1.155|0.963||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.963|-1.155|0.859
92171745|NCT04549168|184232722|SUPERIORITY||LSM difference|7.74|||<|0.0001|TWO_SIDED|95.0|5.61|9.86||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||9.86|5.61|<0.0001
92234368|NCT05755438|184371872|SUPERIORITY||Odds Ratio (OR)|3.09||||0.0003|TWO_SIDED|95.0|1.659|5.744|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||5.744|1.659|0.0003
92234369|NCT05755438|184371872|SUPERIORITY||Response Rate Difference|23.9|STANDARD_DEVIATION|6.372|||TWO_SIDED|95.0|11.42|36.39||||||||36.39|11.42|
92386190|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.07|||||TWO_SIDED|95.0|-1.53|-0.62||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.62|-1.53|
92386191|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.05|||||TWO_SIDED|95.0|-1.51|-0.6||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.60|-1.51|
92386192|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|||||TWO_SIDED|95.0|-0.89|0.03||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.03|-0.89|
92386193|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.04|||||TWO_SIDED|95.0|-1.5|-0.59||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.59|-1.50|
92386194|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|||||TWO_SIDED|95.0|-1.0|-0.03||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.03|-1.00|
92386195|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.91|||||TWO_SIDED|95.0|-1.4|-0.43||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.43|-1.40|
92386196|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.29|||||TWO_SIDED|95.0|-1.77|-0.8||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.80|-1.77|
92416741|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|3.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92234370|NCT05755438|184371873|SUPERIORITY||Odds Ratio (OR)|2.91||||0.0034|TWO_SIDED|95.0|1.4|6.033|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||6.033|1.400|0.0034
92416742|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|0.4|STANDARD_ERROR_OF_MEAN|0.529||0.455|TWO_SIDED|95.0|-0.644|1.437||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.437|-0.644|0.455
92416743|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|3.6|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416744|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.538||0.335|TWO_SIDED|95.0|-1.578|0.539||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.539|-1.578|0.335
92416745|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|3.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416746|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.681||0.875|TWO_SIDED|95.0|-1.447|1.233||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.233|-1.447|0.875
92416747|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|4.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416748|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|0.25|STANDARD_ERROR_OF_MEAN|0.668||0.712|TWO_SIDED|95.0|-1.068|1.561||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.561|-1.068|0.712
92416749|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|4.62|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416750|NCT02880956|184721176|SUPERIORITY||LS Mean of Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.687||0.269|TWO_SIDED|95.0|-2.112|0.59||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.590|-2.112|0.269
92416751|NCT02880956|184721176|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|4.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416752|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.785||0.966|TWO_SIDED|95.0|-1.509|1.577||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.577|-1.509|0.966
92171746|NCT04549168|184232723|SUPERIORITY||LSM difference|-21.25|||<|0.0001|TWO_SIDED|95.0|-28.15|-14.35||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||-14.35|-28.15|<0.0001
92234371|NCT05755438|184371873|SUPERIORITY||Response Rate Difference|16.77|STANDARD_ERROR_OF_MEAN|5.587|||TWO_SIDED|95.0|5.82|27.72||||||||27.72|5.82|
92278470|NCT01992107|184459127|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference b/w SC rates (Day 22/Day 50)|0.0|||||TWO_SIDED|95.0|-5.5|4.5|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strain B1||4.5|-5.5|
92278471|NCT01992107|184459127|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV2c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference b/w SC rates (Day 22/Day 50)|-2.0|||||TWO_SIDED|95.0|-6.5|3.2|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV2c in terms of differences in seroconversion rates against influenza strain B2||3.2|-6.5|
92416753|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|6.32|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92234372|NCT05755438|184371874|SUPERIORITY||Odds Ratio (OR)|4.46||||0.0164|TWO_SIDED|95.0|1.206|16.485|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||16.485|1.206|0.0164
92234373|NCT05755438|184371874|SUPERIORITY||Response Rate Difference|8.75|STANDARD_ERROR_OF_MEAN|3.591|||TWO_SIDED|95.0|1.71|15.79||||||||15.79|1.71|
92416754|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.775||0.874|TWO_SIDED|95.0|-1.646|1.4||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.400|-1.646|0.874
92416755|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|5.89|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416756|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|0.99|STANDARD_ERROR_OF_MEAN|0.794||0.213|TWO_SIDED|95.0|-0.572|2.551||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||2.551|-0.572|0.213
92416757|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|6.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92169695|NCT04992390|184227906|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.95|||<=|0.001|TWO_SIDED|95.0|-1.27|-0.62||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Impact of Event Scale-Revised Intrusion Subscale (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.62|-1.27|<= 0.001
92386197|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-1.69|-0.72||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.72|-1.69|
92386198|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|||||TWO_SIDED|95.0|-0.98|-0.01||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.01|-0.98|
92386199|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.21|||||TWO_SIDED|95.0|-1.69|-0.73||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.73|-1.69|
92386200|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.41|||||TWO_SIDED|95.0|0.04|0.78||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.78|0.04|
92386201|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-0.29|0.44||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.44|-0.29|
92416758|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|0.88|STANDARD_ERROR_OF_MEAN|0.695||0.208|TWO_SIDED|95.0|-0.49|2.242||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.242|-0.490|0.208
92416759|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|-0.17|STANDARD_DEVIATION|5.26|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416760|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|1.03|STANDARD_ERROR_OF_MEAN|0.68||0.131|TWO_SIDED|95.0|-0.307|2.365||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.365|-0.307|0.131
92278472|NCT01992107|184459133|SUPERIORITY_OR_OTHER||Ratios of GMT (Day 22/Day 50)|0.25|||||TWO_SIDED|95.0|0.22|0.29||||||Superiority of immune responses of QIVc to TIV1c in terms of ratios of GMT against influenza strain B2.The upper bound of the two-sided 95% CI for the ratio of GMTs (GMT TIV1c/GMTQIVc) for HI antibody should not exceed the superiority margin of 1 met.||0.29|0.22|
92386202|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.35|0.38||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.38|-0.35|
92386203|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|||||TWO_SIDED|95.0|-0.65|0.08||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.08|-0.65|
92386204|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.48|||||TWO_SIDED|95.0|0.06|0.91||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.91|0.06|
92386205|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|95.0|-0.24|0.6||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.60|-0.24|
92386206|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.46|0.38||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.38|-0.46|
92386207|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|||||TWO_SIDED|95.0|-0.48|0.37||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.37|-0.48|
92416761|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|-0.18|STANDARD_DEVIATION|5.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416762|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|1.35|STANDARD_ERROR_OF_MEAN|0.695||0.052|TWO_SIDED|95.0|-0.014|2.719||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.719|-0.014|0.052
92234374|NCT05755438|184371875|SUPERIORITY||Odds Ratio (OR)|4.67||||0.0048|TWO_SIDED|95.0|1.486|14.647|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||14.647|1.486|0.0048
92386208|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.61|||||TWO_SIDED|95.0|0.15|1.06||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.06|0.15|
92386209|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|95.0|-0.28|0.63||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.63|-0.28|
92386210|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.49|0.42||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.42|-0.49|
92386211|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.47|0.44||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.44|-0.47|
92386212|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|0.22|1.18||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.18|0.22|
92416763|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|-0.24|STANDARD_DEVIATION|5.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92278473|NCT01992107|184459134|SUPERIORITY_OR_OTHER||Difference b/w SC rates(Day 22/Day 50)|-47.0|||||TWO_SIDED|95.0|-51.1|-42.1||||||Superiority of immune responses of QIVc to TIV1c in terms of seroconversion rates against influenza strain B2.The upper bound of the 2-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - %seroconversion QIVc) for HI antibody should not exceed the margin of 0 points met.||-42.1|-51.1|
92416764|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|0.18|STANDARD_ERROR_OF_MEAN|1.062||0.866|TWO_SIDED|95.0|-1.908|2.268||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||2.268|-1.908|0.866
92171747|NCT04549168|184232725|SUPERIORITY||LSM difference|-2.85|STANDARD_ERROR_OF_MEAN|0.811||0.0006|TWO_SIDED|95.0|-4.45|-1.25||Based on Analysis of Covariance (ANCOVA) model with factors of age group, site, treatment, and the baseline ISI as a covariate.|ANCOVA|||||-1.25|-4.45|0.0006
92234375|NCT05755438|184371875|SUPERIORITY||Response Rate Difference|11.66|STANDARD_ERROR_OF_MEAN|4.06|||TWO_SIDED|95.0|3.71|19.62||||||||19.62|3.71|
92234376|NCT05755438|184371876|SUPERIORITY||Odds Ratio (OR)|3.5||||0.0064|TWO_SIDED|95.0|1.422|8.608|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||8.608|1.422|0.0064
92386213|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.18|0.78||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.78|-0.18|
92386214|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|||||TWO_SIDED|95.0|-0.55|0.4||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.40|-0.55|
92386215|NCT01393639|184674211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.47|0.49||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.49|-0.47|
92386216|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.76|0.03||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.03|-0.76|
92386217|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|||||TWO_SIDED|95.0|-1.17|-0.39||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.39|-1.17|
92386218|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.93|||||TWO_SIDED|95.0|-1.32|-0.54||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.54|-1.32|
92386219|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.17|||||TWO_SIDED|95.0|-1.56|-0.78||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.78|-1.56|
92416765|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|6.15|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416766|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|0.46|STANDARD_ERROR_OF_MEAN|1.048||0.66|TWO_SIDED|95.0|-1.599|2.523||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||2.523|-1.599|0.660
92416767|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|6.94|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416768|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|1.91|STANDARD_ERROR_OF_MEAN|1.062||0.074|TWO_SIDED|95.0|-0.184|3.995||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||3.995|-0.184|0.074
92416769|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|-0.22|STANDARD_DEVIATION|8.65|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416770|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|-0.36|STANDARD_ERROR_OF_MEAN|1.111||0.747|TWO_SIDED|95.0|-2.545|1.828||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.828|-2.545|0.747
92416771|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|7.99|||TWO_SIDED|||||||||Week 96||||
92416772|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|1.095||0.891|TWO_SIDED|95.0|-2.004|2.304||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.304|-2.004|0.891
92416773|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|8.28|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416774|NCT02880956|184721177|SUPERIORITY||LS Mean of Difference|0.55|STANDARD_ERROR_OF_MEAN|1.12||0.621|TWO_SIDED|95.0|-1.65|2.759||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.759|-1.650|0.621
92416775|NCT02880956|184721177|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|8.19|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416776|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.019||0.147|TWO_SIDED|95.0|-0.01|0.064||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.064|-0.010|0.147
92416777|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|0.14|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416778|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.018||0.795|TWO_SIDED|95.0|-0.041|0.031||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.031|-0.041|0.795
92416779|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|0.147|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416780|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.019||0.095|TWO_SIDED|95.0|-0.006|0.069||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.069|-0.006|0.095
92416781|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|-0.24|STANDARD_DEVIATION|0.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
92416782|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.025||0.39|TWO_SIDED|95.0|-0.028|0.072||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.072|-0.028|0.390
92416783|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|0.18|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416784|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.025||0.898|TWO_SIDED|95.0|-0.052|0.045||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.045|-0.052|0.898
92416785|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|0.19|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
92416786|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.026||0.8|TWO_SIDED|95.0|-0.044|0.057||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.057|-0.044|0.800
92416787|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|0.18|||TWO_SIDED|||||||||Week 48||||
92416788|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.033||0.977|TWO_SIDED|95.0|-0.066|0.064||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.064|-0.066|0.977
92386220|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.7|0.09||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.09|-0.70|
92386221|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.95|||||TWO_SIDED|95.0|-1.34|-0.55||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.55|-1.34|
92386222|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-0.84|0.07||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.07|-0.84|
92386223|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|||||TWO_SIDED|95.0|-1.23|-0.32||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.32|-1.23|
92386224|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.06|||||TWO_SIDED|95.0|-1.52|-0.61||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.61|-1.52|
92416789|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416790|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.032||0.99|TWO_SIDED|95.0|-0.063|0.064||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.064|-0.063|0.990
92171748|NCT04549168|184232726|SUPERIORITY||LSM difference|-1.74|STANDARD_ERROR_OF_MEAN|0.488||0.0005|TWO_SIDED|95.0|-2.7|-0.78||Based on ANCOVA model with factors of age group, site, treatment, and the baseline ISI as a covariate.|ANCOVA|||||-0.78|-2.70|0.0005
92416791|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.24|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416792|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.033||0.944|TWO_SIDED|95.0|-0.063|0.067||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.067|-0.063|0.944
92416793|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|0.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
92416794|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.042||0.942|TWO_SIDED|95.0|-0.079|0.085||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.085|-0.079|0.942
92416795|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|0.28|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92386225|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-1.45|-0.54||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.54|-1.45|
92386226|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|||||TWO_SIDED|95.0|-0.71|0.21||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.21|-0.71|
92386227|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.02|||||TWO_SIDED|95.0|-1.48|-0.57||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.57|-1.48|
92386228|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-0.89|0.11||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.11|-0.89|
92386229|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94|||||TWO_SIDED|95.0|-1.44|-0.45||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.45|-1.44|
92386230|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.21|||||TWO_SIDED|95.0|-1.71|-0.71||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.71|-1.71|
92386231|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.09|||||TWO_SIDED|95.0|-1.59|-0.59||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.59|-1.59|
92416796|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.041||0.876|TWO_SIDED|95.0|-0.087|0.074||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.074|-0.087|0.876
92416797|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|0.27|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416798|NCT02880956|184721178|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.043||0.163|TWO_SIDED|95.0|-0.024|0.143||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.143|-0.024|0.163
92416799|NCT02880956|184721178|SUPERIORITY||Effect size/pooled SD|-0.21|STANDARD_DEVIATION|0.28|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
92416800|NCT02081859|184721179|OTHER|||||||0.41|||||||Chi-squared|||||||0.41
92416801|NCT02081859|184721180|OTHER|||||||0.21|||||||Chi-squared|||||||0.21
92416802|NCT01206387|184721199|SUPERIORITY_OR_OTHER|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
92416803|NCT01206387|184721200|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92416804|NCT01206387|184721201|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92416805|NCT01206387|184721202|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92416806|NCT01206387|184721203|SUPERIORITY_OR_OTHER|||||||0.0011|||||||t-test, 2 sided|||||||0.0011
92416807|NCT03718299|184721206|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Week 52||||<0.001
92416808|NCT03718299|184721207|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
92416809|NCT03718299|184721208|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92416810|NCT03718299|184721209|SUPERIORITY||Clopper-Pearson|62.2|||||TWO_SIDED|95.0|46.5|76.2||||||||76.2|46.5|
92416811|NCT03718299|184721210|SUPERIORITY||Clopper-Pearson|93.3|||||TWO_SIDED|95.0|81.7|98.6||||||||98.6|81.7|
92234377|NCT05755438|184371876|SUPERIORITY||Response Rate Difference|14.35|STANDARD_ERROR_OF_MEAN|5.008|||TWO_SIDED|95.0|4.54|24.17||||||||24.17|4.54|
92234378|NCT05755438|184371877|SUPERIORITY||Least squares Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.28||0.0005|TWO_SIDED|95.0|-1.54|-0.44|||Mixed Model for Repeated Measures (MMRM)|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||-0.44|-1.54|0.0005
92416812|NCT03718299|184721211|SUPERIORITY||Clopper-Pearson|78.9|||||TWO_SIDED|95.0|62.7|90.4||||||||90.4|62.7|
92416813|NCT03718299|184721212|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92234379|NCT05755438|184371877|SUPERIORITY||Least Squares Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|0.352|<|0.0001|TWO_SIDED|95.0|-2.11|-0.73|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||-0.73|-2.11|<0.0001
92234380|NCT05755438|184371877|SUPERIORITY||Least Squares Mean Difference|-1.69|STANDARD_ERROR_OF_MEAN|0.378|<|0.0001|TWO_SIDED|95.0|-2.43|-0.94|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||-0.94|-2.43|<0.0001
92239715|NCT03141307|184383287|EQUIVALENCE|95% margin|||||=|0.124||||||a prior threshold for statistical significance set for p \< .05.|t-test, 2 sided|||||||=.124
92416814|NCT03718299|184721213|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92416815|NCT03718299|184721214|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92416816|NCT03718299|184721215|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92416817|NCT03718299|184721216|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92416818|NCT03718299|184721217|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92416819|NCT03718299|184721218|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92416820|NCT03718299|184721219|SUPERIORITY||Mean (Clopper-Pearson)|24.4|||||TWO_SIDED|95.0|12.9|39.5||||||||39.5|12.9|
92416821|NCT03718299|184721220|SUPERIORITY||Mean (Clopper-Pearson)|17.8|||||TWO_SIDED|95.0|8.0|32.1||||||||32.1|8.0|
92416822|NCT03718299|184721221|SUPERIORITY||Clopper-Pearson|48.9|||||TWO_SIDED|95.0|33.7|64.2||||||||64.2|33.7|
92416823|NCT03718299|184721222|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Total Activity Impairment||||<0.001
92416824|NCT03718299|184721222|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Total Work Productivity Impairment||||<0.001
92416825|NCT03718299|184721223|SUPERIORITY||Mean|79.5|STANDARD_DEVIATION|20.06|||TWO_SIDED|||||||||Treatment Satisfaction Questionnaire for Medication over time- Effectiveness||||
92416826|NCT03718299|184721223|SUPERIORITY||||||<|0.001|||||||Exact binomial test|||Treatment Satisfaction Questionnaire for Medication over time-Side Effects||||<0.001
92416827|NCT03718299|184721223|SUPERIORITY||Mean|82.2|STANDARD_DEVIATION|16.35|||TWO_SIDED|||||||||Treatment Satisfaction Questionnaire for Medication over time - Convenience||||
92416828|NCT03718299|184721223|SUPERIORITY||Mean|81.9|STANDARD_DEVIATION|20.47|||TWO_SIDED|||||||||Treatment Satisfaction Questionnaire for Medication over time - Global Satisfaction||||
92416829|NCT03718299|184721224|SUPERIORITY||Mean|8.7|STANDARD_DEVIATION|2.01|||TWO_SIDED|||||||||Improvement in Symptoms||||
92416830|NCT03718299|184721224|SUPERIORITY||Mean|8.3|STANDARD_DEVIATION|2.3|||TWO_SIDED|||||||||Speed of Symptom Improvement||||
92416831|NCT03718299|184721224|SUPERIORITY||Mean|9.1|STANDARD_DEVIATION|1.7|||TWO_SIDED|||||||||Frequency of Taking Medication||||
92416832|NCT03718299|184721224|SUPERIORITY||Mean|9.6|STANDARD_DEVIATION|0.68|||TWO_SIDED|||||||||Side Effects||||
92416833|NCT03718299|184721225|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92416834|NCT04389970|184721229|OTHER|Single group, within subject pre/post change.||||||0.39|||||||t-test, 2 sided|Paired-samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no conclusion of significance can be made.||||.39
92416835|NCT04389970|184721230|OTHER|Single group, within subject pre/post change.||||||0.3|||||||t-test, 2 sided|Paired-samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.3
92234381|NCT05755438|184371877|SUPERIORITY||Least Squares Mean Difference|-1.67|STANDARD_ERROR_OF_MEAN|0.386|<|0.0001|TWO_SIDED|95.0|-2.43|-0.91|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||-0.91|-2.43|<0.0001
92234382|NCT05755438|184371880|SUPERIORITY||Hazard Ratio (HR)|1.925|||<|0.0001|TWO_SIDED|95.0|1.406|2.636|||Log Rank|Log-rank test stratified by randomization stratification factors between treatment and vehicle.|Cox regression model stratified by stratification factors (Baseline IGA 2/3, Region North America/ Outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||2.636|1.406|<0.0001
92416836|NCT04389970|184721231|OTHER|Single group, within subjects pre/post change.||||||0.77|||||||t-test, 2 sided|Paired-sample t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.77
92416837|NCT04389970|184721232|OTHER|Single group, within subjects pre/post change.||||||0.66|||||||t-test, 2 sided|Paired-samples t-test.||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.66
92416838|NCT04389970|184721233|OTHER|Single group, within subjects pre/post change||||||0.88|||||||t-test, 2 sided|Paired samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.88
92416839|NCT04389970|184721234|OTHER|Single group, within subjects pre/post change||||||0.03|||||||t-test, 2 sided|Paired-samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.03
92416840|NCT04389970|184721235|OTHER|Single group, within subjects pre/post change.||||||0.06|||||||t-test, 2 sided|Paired samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.06
92416841|NCT04389970|184721236|OTHER|Single group, within subjects pre/post change||||||0.04|||||||t-test, 2 sided|Paired samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.04
92416842|NCT04389970|184721237|OTHER|Single group, within subjects analysis.||||||0|||||||t-test, 2 sided|Paired sample t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||0
92416843|NCT03123185|184721239|OTHER|No hypothesis was tested and no acceptance range was specified.|Geometric mean (gMean) ratio (%)|158.61|STANDARD_ERROR_OF_MEAN|22.4|||TWO_SIDED|90.0|133.679|188.195|||||gMean ratio = 10 mg BI 705564 fed/10 mg BI 705564 fast. Standard Error of the mean is actually the intra-individual geometric coefficient variation.|"The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect subjects within sequences will be considered as random, the other effects as fixed."||188.195|133.679|
92416844|NCT03123185|184721240|OTHER|No hypothesis was tested and no acceptance range was specified.|gMean ratio (%)|194.18|STANDARD_ERROR_OF_MEAN|26.4|||TWO_SIDED|90.0|158.912|237.267|||||gMean ratio = 10 mg BI 705564 fed/10 mg BI 705564 fast. Standard Error of the mean is actually the intra-individual geometric coefficient variation.|"The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect subjects within sequences will be considered as random, the other effects as fixed."||237.267|158.912|
92234383|NCT05755438|184371881|SUPERIORITY||Hazard Ratio (HR)|2.111||||0.0002|TWO_SIDED|95.0|1.419|3.139|||Log Rank|Log-rank test stratified by randomization stratification factors between treatment and vehicle.|Cox regression model stratified by stratification factors (Baseline IGA 2/3, Region North America/ Outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||3.139|1.419|0.0002
92234384|NCT05755438|184371884|SUPERIORITY||Least Squares Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.264||0.0111|TWO_SIDED|95.0|-1.2|-0.16|||Mixed Model for Repeated Measures|||Week 2||-0.16|-1.20|0.0111
92416845|NCT03123185|184721241|OTHER||Slope|0.4879|STANDARD_ERROR_OF_MEAN|0.0546|||TWO_SIDED|95.0|0.3767|0.599|||||Based on the estimate for slope parameter, a 2-sided 95% Confidence Interval (CI) for the slope was computed. Standard error of the mean is actually standard error of slope. Perfect dose proportionality would correspond to a slope of 1.|The basic model for the investigation of dose proportionality for fasted condition was a power model that describes the functional relationship between the dose and PK endpoints.||0.5990|0.3767|
92416846|NCT03123185|184721241|OTHER||Slope|0.7553|STANDARD_ERROR_OF_MEAN|0.0876|||TWO_SIDED|95.0|0.5736|0.937|||||Based on the estimate for slope parameter, a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope. Perfect dose proportionality would correspond to a slope of 1.|The basic model for the investigation of dose proportionality for fed condition was a power model that describes the functional relationship between the dose and PK endpoints.||0.9370|0.5736|
92416847|NCT03123185|184721242|OTHER||Slope|0.4651|STANDARD_ERROR_OF_MEAN|0.1274|||TWO_SIDED|95.0|0.1935|0.7368|||||Based on the estimate for slope parameter, a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope. Perfect dose proportionality would correspond to a slope of 1.|The basic model for the investigation of dose proportionality for fasted condition was a power model that describes the functional relationship between the dose and PK endpoints.||0.7368|0.1935|
92234385|NCT05755438|184371884|SUPERIORITY||Least Squares Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.342||0.001|TWO_SIDED|95.0|-1.82|-0.47|||Mixed Model for Repeated Measures|||Week 4||-0.47|-1.82|0.0010
92234386|NCT05755438|184371884|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.372||0.0034|TWO_SIDED|95.0|-1.84|-0.37|||Mixed Model for Repeated Measures|||Week 8||-0.37|-1.84|0.0034
92234387|NCT05755438|184371884|SUPERIORITY||Least Squares Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.387||0.0038|TWO_SIDED|95.0|-1.9|-0.37|||Mixed Model for Repeated Measures|||Week 12||-0.37|-1.90|0.0038
92416848|NCT03123185|184721242|OTHER||Slope|0.6651|STANDARD_ERROR_OF_MEAN|0.1385|||TWO_SIDED|95.0|0.3679|0.9622|||Power model||Based on the estimate for slope parameter, a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope. Perfect dose proportionality would correspond to a slope of 1.|The basic model for the investigation of dose proportionality for fed condition was a power model that describes the functional relationship between the dose and PK endpoints.||0.9622|0.3679|
92416849|NCT03702244|184721245|SUPERIORITY|Statistical testing for recurrent events was performed using the negative binomial methods for recurrent events.|Hazard Ratio (HR)|0.29|||<|0.001|TWO_SIDED|95.0|0.2|0.41|||Log Rank||Hazard ratio was adjusted for age, sex, and coronary artery disease equivalent (diabetes, history of peripheral artery disease or cerebrovascular disease), and intended first test strata (invasive or noninvasive).|Sample size and power calculations for this study are based on the hypothesis that the precision evaluation arm is superior to the usual care arm on the time-to-first event of the composite 3-component endpoint: all-cause death, non-fatal MI, or invasive cardiac catheterization without obstructive CAD over a 12-month of follow-up. Time to event analysis will use the date of the event, including the date of catheterization at which the absence of obstructive CAD is demonstrated.||0.41|0.20|<.001
92416850|NCT01431300|184721281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|54.0|STANDARD_DEVIATION|12.0|<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||signal-to-noise (SNR) ratios of the central veins in the 0.01 mmol/kg and 0.03mmol/kg dose groups were compared.||||<0.01
92416851|NCT01431300|184721281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.0|STANDARD_DEVIATION|19.0|<|0.01||95.0|||||t-test, 2 sided|||contrast-to-noise (CNR) ratios of the central veins in the 0.01 mmol/kg and 0.03mmol/kg dose groups were compared.||||<0.01
92416852|NCT06054269|184721289|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.004
92234388|NCT05755438|184371890|SUPERIORITY||Least Squares Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.826||0.8028|TWO_SIDED|95.0|-1.84|1.42|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||1.42|-1.84|0.8028
92386232|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|||||TWO_SIDED|95.0|-0.95|0.05||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.05|-0.95|
92386233|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.15|||||TWO_SIDED|95.0|-1.65|-0.66||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.66|-1.65|
92416853|NCT06054269|184721289|SUPERIORITY|||||||0.066|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.066
92416854|NCT06054269|184721289|SUPERIORITY|||||||0.694|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.694
92234389|NCT05755438|184371890|SUPERIORITY||Least Squares Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.928||0.7151|TWO_SIDED|95.0|-2.17|1.49|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||1.49|-2.17|0.7151
92234390|NCT05755438|184371890|SUPERIORITY||Least Squares Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.947||0.2569|TWO_SIDED|95.0|-2.95|0.79|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||0.79|-2.95|0.2569
92386234|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|||||TWO_SIDED|95.0|-0.96|0.08||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.08|-0.96|
92416855|NCT06054269|184721289|SUPERIORITY|||||||0.408|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.408
92416856|NCT06054269|184721290|SUPERIORITY|||||||0.164|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.164
92416857|NCT06054269|184721290|SUPERIORITY|||||||0.113|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.113
92416858|NCT06054269|184721290|SUPERIORITY|||||||0.404|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.404
92416859|NCT06054269|184721290|SUPERIORITY|||||||0.879|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.879
92416860|NCT06054269|184721291|SUPERIORITY||||||<|0.001|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||<0.001
92416861|NCT06054269|184721291|SUPERIORITY|||||||0.002|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.002
92416862|NCT06054269|184721291|SUPERIORITY|||||||0.468|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.468
92416863|NCT06054269|184721291|SUPERIORITY|||||||0.057|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.057
92416864|NCT06054269|184721292|SUPERIORITY|||||||0.112|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.112
92278474|NCT01992107|184459135|SUPERIORITY_OR_OTHER||Ratios of GMT (Day 22/Day 50)|0.38|||||TWO_SIDED|95.0|0.35|0.42||||||Superiority of immune responses of QIVc to TIV2c in terms of ratios of GMT against influenza strain B1.The upper bound of the 2-sided 95% CI for the ratio of GMTs (GMT TIV2c /GMTQIVc) for HI antibody should not exceed the superiority margin of 1 met.||0.42|0.35|
92386235|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96|||||TWO_SIDED|95.0|-1.48|-0.44||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.44|-1.48|
92386236|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.43|||||TWO_SIDED|95.0|-1.94|-0.91||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.91|-1.94|
92386237|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.28|||||TWO_SIDED|95.0|-1.8|-0.76||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.76|-1.80|
92386238|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|||||TWO_SIDED|95.0|-1.06|-0.03||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.03|-1.06|
92386239|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.33|||||TWO_SIDED|95.0|-1.85|-0.81||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.81|-1.85|
92416865|NCT06054269|184721292|SUPERIORITY|||||||0.149|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.149
92416866|NCT06054269|184721292|SUPERIORITY|||||||0.101|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.101
92171749|NCT04549168|184232728|SUPERIORITY||LSM difference|0.34||||0.0312|TWO_SIDED|95.0|0.03|0.65||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM||First 7 mornings of treatment period|||0.65|0.03|0.0312
92171750|NCT04549168|184232728|SUPERIORITY||LSM difference|0.32||||0.146|TWO_SIDED|95.0|-0.11|0.76||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM||Last 7 mornings of treatment period|||0.76|-0.11|0.1460
92386240|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.59|||||TWO_SIDED|95.0|0.19|0.98||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.98|0.19|
92386241|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-0.22|0.56||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.56|-0.22|
92386242|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.38|0.41||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.41|-0.38|
92386243|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|||||TWO_SIDED|95.0|-0.62|0.16||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.16|-0.62|
92386244|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.64|||||TWO_SIDED|95.0|0.18|1.09||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.09|0.18|
92386245|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|||||TWO_SIDED|95.0|-0.21|0.7||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.70|-0.21|
92386246|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.5|0.42||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.42|-0.50|
92386247|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.43|0.48||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.48|-0.43|
92416867|NCT06054269|184721292|SUPERIORITY|||||||0.259|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.259
92416868|NCT06054269|184721293|SUPERIORITY|||||||0.097|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.097
92416869|NCT06054269|184721293|SUPERIORITY|||||||0.733|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.733
92234391|NCT05755438|184371890|SUPERIORITY||Least Squares Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|0.971||0.1555|TWO_SIDED|95.0|-3.3|0.53|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||0.53|-3.30|0.1555
92234392|NCT05755438|184371892|SUPERIORITY||Least Squares Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|2.722||0.0736|TWO_SIDED|95.0|-0.47|10.27|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||10.27|-0.47|0.0736
92386248|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|||||TWO_SIDED|95.0|0.26|1.26||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.26|0.26|
92386249|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|||||TWO_SIDED|95.0|-0.29|0.7||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.70|-0.29|
92386250|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-0.55|0.44||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.44|-0.55|
92386251|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.43|0.56||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.56|-0.43|
92386252|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.89|||||TWO_SIDED|95.0|0.37|1.41||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.41|0.37|
92386253|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|||||TWO_SIDED|95.0|-0.15|0.89||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.89|-0.15|
92386254|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|||||TWO_SIDED|95.0|-0.61|0.42||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.42|-0.61|
92386255|NCT01393639|184674213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|||||TWO_SIDED|95.0|-0.46|0.57||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.57|-0.46|
92416870|NCT06054269|184721293|SUPERIORITY|||||||0.477|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.477
92234393|NCT05755438|184371892|SUPERIORITY||Least Squares Mean Difference|3.31|STANDARD_ERROR_OF_MEAN|2.729||0.2265|TWO_SIDED|95.0|-2.07|8.69|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||8.69|-2.07|0.2265
92234394|NCT05755438|184371892|SUPERIORITY||Least Squares Mean Difference|7.31|STANDARD_ERROR_OF_MEAN|3.061||0.018|TWO_SIDED|95.0|1.27|13.35|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||13.35|1.27|0.0180
92386256|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.38|||||TWO_SIDED|95.0|-4.94|2.17||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.17|-4.94|
92234395|NCT05755438|184371892|SUPERIORITY||Least Squares Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|3.119||0.06|TWO_SIDED|95.0|-0.25|12.06|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||12.06|-0.25|0.0600
92386257|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|||||TWO_SIDED|95.0|-3.98|3.08||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.08|-3.98|
92234396|NCT03429075|184371901|EQUIVALENCE|ANCOVA||||||0.17|||||||ANCOVA|||||||0.17
92234397|NCT00630032|184372065|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.175|TWO_SIDED|95.0|0.59|1.1|||Log Rank|||||1.10|0.59|0.175
92386258|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|||||TWO_SIDED|95.0|-3.34|3.82||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.82|-3.34|
92386259|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|||||TWO_SIDED|95.0|-2.75|4.28||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.28|-2.75|
92416871|NCT06054269|184721293|SUPERIORITY|||||||0.312|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.312
92416872|NCT06054269|184721294|SUPERIORITY|||||||0.22|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.220
92171751|NCT04549168|184232728|SUPERIORITY||LSM difference|0.29||||0.1613|TWO_SIDED|95.0|-0.12|0.7||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM||First 7 mornings of follow-up period|||0.70|-0.12|0.1613
92386260|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.31|||||TWO_SIDED|95.0|-4.88|2.27||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.27|-4.88|
92386261|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.25|||||TWO_SIDED|95.0|-1.32|5.82||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.82|-1.32|
92386262|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.01|||||TWO_SIDED|95.0|-5.89|1.87||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.87|-5.89|
92386263|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.49|||||TWO_SIDED|95.0|-2.41|5.4||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.40|-2.41|
92386264|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.45|||||TWO_SIDED|95.0|-2.44|5.34||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.34|-2.44|
92386265|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.89|||||TWO_SIDED|95.0|-1.98|5.76||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.76|-1.98|
92386266|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.73|||||TWO_SIDED|95.0|-3.16|4.61||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.61|-3.16|
92386267|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.18|||||TWO_SIDED|95.0|0.29|8.06||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.06|0.29|
92386268|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.64|||||TWO_SIDED|95.0|-7.21|-0.06||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.06|-7.21|
92386269|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-6.25|0.85||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.85|-6.25|
92386270|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.01|||||TWO_SIDED|95.0|-5.63|1.6||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.60|-5.63|
92386271|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.49|||||TWO_SIDED|95.0|-5.02|2.05||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.05|-5.02|
92386272|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.19|||||TWO_SIDED|95.0|-10.07|-2.31||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.31|-10.07|
92386273|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.69|||||TWO_SIDED|95.0|-6.6|1.23||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.23|-6.60|
92386274|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.73|||||TWO_SIDED|95.0|-6.64|1.18||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.18|-6.64|
92386275|NCT01393639|184674215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.29|||||TWO_SIDED|95.0|-6.16|1.58||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.58|-6.16|
92386276|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.73|||||TWO_SIDED|95.0|-0.83|4.3||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.30|-0.83|
92171752|NCT04549168|184232728|SUPERIORITY||LSM difference|0.23||||0.2852|TWO_SIDED|95.0|-0.19|0.65||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM||Last 7 mornings of follow-up period|||0.65|-0.19|0.2852
92386277|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.9|||||TWO_SIDED|95.0|0.35|5.45||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.45|0.35|
92386278|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.12|||||TWO_SIDED|95.0|3.54|8.7||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.70|3.54|
92386279|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.73|||||TWO_SIDED|95.0|2.19|7.26||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.26|2.19|
92386280|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.18|||||TWO_SIDED|95.0|-0.39|4.76||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.76|-0.39|
92386281|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.41|||||TWO_SIDED|95.0|2.83|7.99||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.99|2.83|
92386282|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.79|||||TWO_SIDED|95.0|-1.08|4.65||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.65|-1.08|
92386283|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.4|||||TWO_SIDED|95.0|1.52|7.28||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.28|1.52|
92386284|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.2|||||TWO_SIDED|95.0|3.33|9.07||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.07|3.33|
92386285|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.7|||||TWO_SIDED|95.0|0.85|6.55||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.55|0.85|
92386286|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.61|||||TWO_SIDED|95.0|0.74|6.47||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.47|0.74|
92386287|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.17|||||TWO_SIDED|95.0|3.29|9.04||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.04|3.29|
92416873|NCT06054269|184721294|SUPERIORITY|||||||0.003|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.003
92386288|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.68|||||TWO_SIDED|95.0|-6.27|-1.09||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.09|-6.27|
92386289|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.51|||||TWO_SIDED|95.0|-5.07|0.05||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.05|-5.07|
92386290|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71|||||TWO_SIDED|95.0|-1.88|3.3||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.30|-1.88|
92386291|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68|||||TWO_SIDED|95.0|-3.23|1.87||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.87|-3.23|
92386292|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.38|||||TWO_SIDED|95.0|-7.26|-1.5||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.50|-7.26|
92416874|NCT06054269|184721294|SUPERIORITY|||||||0.897|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.897
92416875|NCT06054269|184721294|SUPERIORITY|||||||0.931|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.931
92171753|NCT02549339|184232758|SUPERIORITY||Ratio of clearance rates|7.57||||0.001|TWO_SIDED|95.0|2.26|25.31|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|||25.31|2.26|0.001
92278475|NCT01992107|184459136|SUPERIORITY_OR_OTHER||Difference b/w SC rates(Day 22/Day 50)|-34.0|||||TWO_SIDED|95.0|-38.8|-29.3||||||Superiority of immune responses of QIVc to TIV2c in terms of seroconversion rates against influenza strain B1.The upper bound of the 2-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c or TIV2c - %seroconversion QIVc) for HI antibody should not exceed the margin of 0 points met.||-29.3|-38.8|
92386293|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.76|||||TWO_SIDED|95.0|-4.65|1.12||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.12|-4.65|
92386294|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-2.84|2.91||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.91|-2.84|
92386295|NCT01393639|184674217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.47|||||TWO_SIDED|95.0|-5.33|0.39||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.39|-5.33|
92386296|NCT00793325|184674228|SUPERIORITY_OR_OTHER||||||=|0.575|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Age. The null hypothesis is that there is no difference between \<15 years and \>=15 years in the frequency of treatment related adverse events."||||=0.575
92386297|NCT00793325|184674229|SUPERIORITY_OR_OTHER||||||=|0.206|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Gender. The null hypothesis is that there is no difference between Male and Female in the frequency of treatment related adverse events."||||=0.206
92386298|NCT00793325|184674230|SUPERIORITY_OR_OTHER||||||=|0.033|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Severity. The null hypothesis is that there is no association between mild, moderate and severe in the frequency of treatment related adverse events."||||=0.033
92386299|NCT00793325|184674230|SUPERIORITY_OR_OTHER||||||=|0.207|TWO_SIDED||||||Cochran-Armitage Exact|||"The risk factor tested was Severity. The null hypothesis is that there is no linear trend in the frequency of treatment related adverse events across increasing levels of severity."||||=0.207
92386300|NCT00793325|184674231|SUPERIORITY_OR_OTHER||||||=|0.013|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Past history of any disease. The null hypothesis is that there is no difference between With past history of any disease and Without past history any disease in the frequency of treatment related adverse events."||||=0.013
92386301|NCT00793325|184674232|SUPERIORITY_OR_OTHER||||||=|0.009|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Complication(s). The null hypothesis is that there is no difference between With complication(s) and Without complication(s)in the frequency of treatment related adverse events."||||=0.009
92386302|NCT00793325|184674233|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Hepatic Function Disorder. The null hypothesis is that there is no difference between with Hepatic Function Disorder and without Hepatic Function Disorder in the frequency of treatment related adverse events."||||<0.001
92386303|NCT00793325|184674234|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Renal Impairment. The null hypothesis is that there is no difference between With Renal Impairment and Without Renal Impairment in the frequency of treatment related adverse events."||||<0.001
92386304|NCT00793325|184674235|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Concomitant Drug(s). The null hypothesis is that there is no difference between With Concomitant Drug(s) and Without Concomitant Drug(s) in the frequency of treatment related adverse events."||||=0.003
92386305|NCT00793325|184674236|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the growth rate SD score for calendar age between SGA at one year and SGA at baseline.||||<0.001
92386306|NCT00793325|184674236|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the null hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the growth rate SD score for calendar age between SGA at two years and SGA at baseline.||||<0.001
92386307|NCT00793325|184674236|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the null hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the growth rate SD score for calendar age between SGA at three years and SGA at baseline.||||<0.001
92386308|NCT00793325|184674237|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the null hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the height SD score for calendar age between SGA at one year and SGA at baseline.||||<0.001
92386309|NCT00793325|184674237|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the null hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the height SD score for calendar age between SGA at two years and SGA at baseline.||||<0.001
92386310|NCT00793325|184674237|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the height SD score for calendar age between SGA at three years and SGA at baseline.||||<0.001
92386311|NCT02936843|184674285|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|2-sided||TTEST, two sided||||0.41
92386312|NCT01393821|184674305|SUPERIORITY|||||||0.6311|||||||Kruskal-Wallis|||||||0.6311
92278476|NCT02022007|184459139|SUPERIORITY_OR_OTHER|||||||0.007|||||||McNemar|||Study change from dysglycemia to normal glucose state||||.007
92278477|NCT02022007|184459140|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANOVA|||This was a Subjects (SS)/Groups repeated measures design||||.02
92278478|NCT02022007|184459141|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|n||Pretreatment fasting glucose levels were compared with post-treatment levels||||<0.0001
92278479|NCT02022007|184459142|SUPERIORITY_OR_OTHER|||||||0.038|||||||ANOVA|||||||.038
92416876|NCT01738477|184721295|NON_INFERIORITY|To assess the non-inferiority of the second dose of Boostrix (Boostrix 2 Group) minus first dose of Boostrix (Boostrix 1 Group) for anti-diphtheria. Objective of non-inferiority was considered to be met if the lower limit (LL) of the 95% confidence interval (CI) was greater than, or equal to -10%.|Mean Difference (Final Values)|0.0||||||95.0|-3.25|9.95||||||Non-inferiority in terms of seroprotection rates to diphtheria.||9.95|-3.25|
92416877|NCT01738477|184721295|NON_INFERIORITY|To assess the non-inferiority of the second dose of Boostrix (Boostrix 2 Group) minus first dose of Boostrix (Boostrix 1 Group) for anti-tetanus. Objective of non-inferiority was considered to be met if the LL of the 95% CI was above -10%.|Mean Difference (Final Values)|0.0||||||95.0|-3.25|9.95||||||Non-inferiority in terms of seroprotection rates to tetanus.||9.95|-3.25|
92278480|NCT02022007|184459143|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA|||||||0.003
92278481|NCT02022007|184459144|SUPERIORITY_OR_OTHER|||||||0.025|||||||ANOVA|||||||.025
92278482|NCT02022007|184459145|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||||||0.006
92278483|NCT02022007|184459146|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||||||.006
92278484|NCT02022007|184459147|SUPERIORITY_OR_OTHER|||||||0.026|||||||ANOVA|||||||.026
92278485|NCT02022007|184459148|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||||||.006
92386313|NCT01318408|184674319|NON_INFERIORITY_OR_EQUIVALENCE|Assessing effects on cognition over time.||||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The intent-to-treat group included all individuals who initiated levetiracetam. The Mann-Whitney U test was used to determine changes in participants' scores for cognition, function, and behavior between baseline and 12 weeks.Change in MMSE test scores was the primary outcome measure.||||.01
92278486|NCT02022007|184459149|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||||||.006
92386314|NCT01318408|184674320|NON_INFERIORITY_OR_EQUIVALENCE|Assessing cognitive effects over time.||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Lower scores (negative change) indicate improvements on the ADAS-cog.||||||.02
92386315|NCT02920749|184674337|SUPERIORITY_OR_OTHER||||||<|0.05||||||The P value less than 0.05 was considered to be significant. With type I α = 5% and with type II (power) of 90%, we therefore needed 27 patients/group.|ANOVA|||Statistical analysis was carried out with SPSS version 21 for Windows (IBM Corporation) software. All data are expressed as means ± SD. Mann-Whitney test was performed to assess the differences between patient subgroups.||||<0.05
92386316|NCT02920749|184674338|SUPERIORITY_OR_OTHER||||||<|0.05||||||The P value less than 0.05 was considered to be significant. With type I α = 5% and with type II (power) of 90%, we therefore needed 27 patients/group.|ANOVA|||Statistical analysis was carried out with SPSS version 21 for Windows (IBM Corporation) software. All data are expressed as means ± SD. Mann-Whitney test was performed to assess the differences between patient subgroups.||||<0.05
92386317|NCT05438576|184674344|SUPERIORITY||Odds Ratio (OR)|2.12||||0.032|TWO_SIDED|95.0|1.05|4.27|||Regression, Logistic|||||4.27|1.05|0.032
92386318|NCT05438576|184674349|SUPERIORITY||Odds Ratio (OR)|1.1||||0.621|TWO_SIDED|95.0|0.74|1.64|||Regression, Logistic|||||1.64|0.74|0.621
92386319|NCT02881762|184674354|OTHER|Comparison of mean change analyzed with unpaired t-test for parametric data. The test was performed with a significance level of 0.05 (two-sided).||||||0.13|||||||t-test, 2 sided|||Null hypothesis is that there is no difference in change in HCV viral load between Maraviroc and No Maraviroc||||0.13
92386320|NCT02881762|184674355|OTHER|Comparison of difference in mean analyzed with paired t-test for parametric data. The test was performed with a significance level of 0.05 (two-sided).|||||>|0.5|||||||t-test, 2 sided|||Null hypothesis is that there is no difference in HCV viral load between baseline and 7 days of maraviroc.||||>0.5
92386321|NCT00774800|184674381|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|1.54||||0.0011||||||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||0.0011
92386322|NCT00774800|184674381|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|3.06|||<|0.0001||||||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||<0.0001
92386323|NCT00774800|184674382|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|1.35||||0.0057||||||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||0.0057
92386324|NCT00774800|184674382|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|1.66|||<|0.0001||||||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||<0.0001
92386325|NCT00774800|184674383|SUPERIORITY_OR_OTHER||Least Squares Means Difference|-18.33|||<|0.0001||||||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||<0.0001
92386326|NCT00774800|184674383|SUPERIORITY_OR_OTHER||Least Squares Means Difference|-62.46||||0.0018|||||||ANOVA|Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||0.0018
92386327|NCT01843062|184674385|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8205|TWO_SIDED|95.0|0.61|1.87||The primary endpoint was to be considered statistically significant if the 2-sided p-value was less than 0.05. P-value and confidence intervals (CIs) were calculated using profile likelihood.|Regression, Logistic|||Selumetinib in combination with RAI was compared with placebo in combination with RAI. The analysis was performed using a logistic regression model including treatment as the only covariate. An odds ratio \>1 favours selumetinib in combination with RAI.||1.87|0.61|0.8205
92416878|NCT02720094|184721308|SUPERIORITY||A bias-adjusted hazard ratio|0.34||||0.0005|TWO_SIDED|95.0|0.18|0.62|||Regression, Cox||The bias-adjusted hazard ratio, CI, and p-value account for the group-sequential trial design and the early stopping time.|||0.62|0.18|0.0005
92416879|NCT02720094|184721308|SUPERIORITY||Hazard Ratio (HR)|0.328||||0.0005|TWO_SIDED|95.0|0.18|0.61|||Regression, Cox||The unadjusted hazard ratio is based on a Cox proportional hazards model stratified by region.|||0.61|0.18|0.0005
92234398|NCT00630032|184372066|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.1687|TWO_SIDED|95.0|0.53|1.11|||Log Rank|||||1.11|0.53|0.1687
92386328|NCT01843062|184674386|SUPERIORITY||Odds Ratio (OR)|0.85||||0.6549|TWO_SIDED|95.0|0.42|1.73||P-value and CIs were calculated using profile likelihood.|Regression, Logistic|||Selumetinib in combination with RAI was compared with placebo in combination with RAI. The analysis was performed using a logistic regression model including treatment as the only covariate. An odds ratio \>1 favours selumetinib in combination with RAI.||1.73|0.42|0.6549
92386329|NCT01843062|184674387|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8205|TWO_SIDED|95.0|0.61|1.87||P-value and CIs were calculated using profile likelihood.|Regression, Logistic|||Selumetinib in combination with RAI was compared with placebo in combination with RAI. The analysis was performed using a logistic regression model including treatment as the only covariate. An odds ratio \>1 favours selumetinib in combination with RAI.||1.87|0.61|0.8205
92386330|NCT01843062|184674388|SUPERIORITY||Odds Ratio (OR)|0.85||||0.6549|TWO_SIDED|95.0|0.42|1.73||P-value and CIs were calculated using profile likelihood.|Regression, Logistic|||Selumetinib in combination with RAI was compared with placebo in combination with RAI. The analysis was performed using a logistic regression model including treatment as the only covariate. An odds ratio \>1 favours selumetinib in combination with RAI.||1.73|0.42|0.6549
92386331|NCT03549104|184674408|OTHER||||||||||||||||||We will evaluate the effects of within-group and between-group differences from baseline (Week 0) to program completion (Week 8) to calculate effect sizes for sample size estimation for a future larger study.|||
92386332|NCT03549104|184674409|OTHER||||||||||||||||||We will evaluate the effects of within-group and between-group differences from baseline (Week 0) to program completion (Week 8) to calculate effect sizes for sample size estimation for a future larger study.|||
92386333|NCT03549104|184674410|OTHER||||||||||||||||||We will evaluate the effects of within-group and between-group differences from baseline (Week 0) to program completion (Week 8) to calculate effect sizes for sample size estimation for a future larger study.|||
92386334|NCT04124705|184674411|NON_INFERIORITY|If the lower limit of the 2-sided 95% confidence interval for stratified response rate difference was greater than the non-inferiority margin, the null hypothesis would be rejected and the noninferiority of Armour Thyroid to levothyroxine would be declared.|Stratified Response Rate Difference|-15.16|||||TWO_SIDED|95.0|-26.1|-4.23|||||The response rate difference (Armour Thyroid group minus Levothyroxine group) and the 95% confidence interval were calculated using the Mantel-Haenszel-weighted method with the age group (age \< 65 years or ≥ 65 years) as a stratification factor.|The null hypothesis was that Armour Thyroid would be inferior to levothyroxine for the primary efficacy endpoint, sustained TSH response. The non-inferiority hypothesis test was performed at a 1-sided 2.5% level of significance (equivalent to a two-sided 5% level of significance).||-4.23|-26.10|
92386335|NCT04124705|184674412|NON_INFERIORITY|If the lower limit of the 2-sided 95% confidence interval for stratified response rate difference was greater than the non-inferiority margin, the null hypothesis would be rejected and the noninferiority of Armour Thyroid to levothyroxine would be declared.|Stratified Response Rate Difference|-10.52|||||TWO_SIDED|95.0|-18.65|-2.38|||||The response rate difference (Armour Thyroid group minus Levothyroxine group) and the 95% confidence interval were calculated using the Mantel-Haenszel-weighted method with the age group (age \< 65 years or ≥ 65 years) as a stratification factor.|The null hypothesis was that Armour Thyroid would be inferior to levothyroxine for titration TSH response. The non-inferiority hypothesis test was performed at a 1-sided 2.5% level of significance.||-2.38|-18.65|
92386336|NCT00479856|184674425|SUPERIORITY_OR_OTHER||percentage of participants|33.3||||||95.0|7.5|70.1||||||||70.1|7.5|
92416880|NCT02720094|184721310|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|95.0|0.1|0.45||The P-Values are two-sided.|Regression, Cox|||The analysis population Injection Step 2 Efficacy consists of the subset of the mITT population who received at least one injection and had at least one HIV test result after the week 5 injection visit.||0.45|0.10|<0.001
92416881|NCT03735238|184721340|OTHER|Not applicable. No statistical test was performed for this outcome.||||||||||||||||This is a single arm implementation trial with no comparison group. This outcome represents the reach/penetration of the implementation at each site over the trial duration. We did not perform power calculation. There was no null hypothesis stated. Our aim was to enroll at least 28 patients per site in this implementation trial during regular outpatient rheumatology clinic visits. No statistical test was performed for this outcome.|Our aim was to enroll at least 28 patients per site in this implementation trial during regular outpatient rheumatology clinic visits. No statistical test was performed for this outcome.|||
92234399|NCT00630032|184372067|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.6502|TWO_SIDED|95.0|0.45|1.63|||Log Rank|||||1.63|0.45|0.6502
92234400|NCT00630032|184372068|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0665|TWO_SIDED|95.0|0.49|1.02|||Log Rank|||||1.02|0.49|0.0665
92234401|NCT00630032|184372069|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.148|TWO_SIDED|95.0|0.59|1.08|||Log Rank|||||1.08|0.59|0.148
92234402|NCT00630032|184372070|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8968|TWO_SIDED|95.0|0.67|1.42|||Log Rank|||||1.42|0.67|0.8968
92278487|NCT02022007|184459150|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||||||>0.05
92386337|NCT04164732|184674433|SUPERIORITY||Median Difference (Net)|0.61||||0.5506|TWO_SIDED|80.0|-0.71|1.94|||longitudinal mixed effects (MMRM) model|||||1.94|-0.71|0.5506
92386338|NCT01868334|184674465|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Chi-squared|Chi-square tests for comparisons between-arm changes in vaccination rates between Baseline and Year 1 for RCCT study period||||||0.05
92386339|NCT01868334|184674465|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||||||Cochran-Armitage trend tests for percentage point difference between Baseline and Year 1 for RCCT study period|Cochran-Armitage trend test|||||||0.05
92386340|NCT01868334|184674466|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Chi-squared|Chi-square tests for comparisons between-arm changes in vaccination rates between pre and post intervention for Pre-post study period||||||0.05
92386341|NCT01868334|184674466|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||||||Cochran-Armitage trend tests for difference between pre and post changes in vaccination rates for Pre-Post study period|Cochran-Armitage trend test|||||||0.05
92386342|NCT03997825|184674467|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
92386343|NCT03997825|184674468|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
92386344|NCT03824587|184674484|SUPERIORITY||Mean Difference (Net)|-0.65|STANDARD_ERROR_OF_MEAN|0.182||0.0004|TWO_SIDED|99.0|-1.13|-0.18|||Mixed Models Analysis|||||-0.18|-1.13|0.0004
92386345|NCT03824587|184674485|SUPERIORITY||Odds Ratio (OR)|2.1||||0.0097|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0097
92386346|NCT03824587|184674486|SUPERIORITY|||||||0.0027|||||||ANOVA|||||||0.0027
92386347|NCT03824587|184674487|SUPERIORITY|||||||0.0011|||||||ANOVA|||||||0.0011
92386348|NCT02921087|184674504|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|Least-squares adjusted means were obtained and compared.||In order to analyze the 2 x 2 crossover design for the primary outcome (change in overall VAS at day 7) mixed model analysis was utilized, allowing the sequences of each subject to be modeled as repeated measures within PROC Mixed.||||0.07
92386349|NCT02921087|184674506|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|Least-squares adjusted means were obtained and compared.||In order to analyze the 2 x 2 crossover design for accommodative response mixed model analysis was utilized, allowing the sequences of each subject to be modeled as repeated measures within PROC Mixed.||||0.01
92386350|NCT02921087|184674507|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|Least-squares adjusted means were obtained and compared.||In order to analyze the 2 x 2 crossover design for the change in CISS, mixed model analysis was utilized, allowing the sequences of each subject to be modeled as repeated measures within PROC Mixed.||||0.77
92386351|NCT02921087|184674508|SUPERIORITY|||||||0.69|||||||Mixed Models Analysis|Least-squares adjusted means were obtained and compared.||In order to analyze the 2 x 2 crossover design for the CLDEQ-8, mixed model analysis was utilized, allowing the sequences of each subject to be modeled as repeated measures within PROC Mixed.||||0.69
92386352|NCT02921087|184674509|SUPERIORITY|||||||0.87|||||||Mixed Models Analysis|Least-squares adjusted means were obtained and compared.||In order to analyze the 2 x 2 crossover design for phoria, mixed model analysis was utilized, allowing the sequences of each subject to be modeled as repeated measures within PROC Mixed.||||0.87
92386353|NCT00571974|184674513|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||One-sided exact binomial test to compare the observed response rate to the 20% rate envisioned under the original null hypothesis.|One-sided exact binomial test|Because all but one subject responded to treatment, the Fisher's exact test was addedd.||The Simon two-stage minimax design with 9 subjects in the first stage and 8 subjects in the second stage, yielding 17 subjects overall. This design's early termination rule was ≤3/9 responses in the first stage, and its success criterion was ≥7/17 responses overall. This design had 80% power at 5% alpha to distinguish an efficacious 50% response rate from a null-hypothesis 20% response rate.||||0.0001
92386354|NCT00536471|184674516|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||Repeated Measures Analysis for Group A change from baseline to 8 week endpoint.|Mixed Models Analysis|Model=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit||||||0.051
92416882|NCT02660138|184721354|SUPERIORITY|If both p-values for the 2 primary tests (the test of Dysport® 800 U vs. placebo and the test of Dysport® 600 U vs. placebo) were lower than 0.05, both were declared statistically significant. If 1 of the primary tests had a p-value greater than or equal to 0.05, then the other test was declared statistically significant if its p-value was lower than 0.025.|LS Mean Difference|-10.83||||0.0001|TWO_SIDED|95.0|-16.36|-5.31|||MMRM|||Treatment group, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[Botulinum toxin \[BTX\]-naïve or BTX-non-naïve\]) and study baseline value (weekly number of UI episodes) as fixed effect variables, and subject as a random effect.||-5.31|-16.36|0.0001
92386355|NCT00536471|184674516|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Repeated Measures Analysis for Group B change from baseline to 8 week endpoint.|Mixed Models Analysis|Model=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit||||||<0.001
92386356|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Total Score 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.013
92386357|NCT00536471|184674517|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Total Score 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||<0.001
92386358|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||P-value for Maier 8 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.026
92386359|NCT00536471|184674517|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Maier 8 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||<0.001
92386360|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.202||95.0||||P-value for Anxiety/Somatization 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.202
92386361|NCT00536471|184674517|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Anxiety/Somatization 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||<0.001
92386362|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-value for Bech 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.027
92386363|NCT00536471|184674517|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Bech 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||<0.001
92386364|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.076||95.0||||P-value for Retardation 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.076
92386365|NCT00536471|184674517|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Retardation 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||<0.001
92386366|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.149||95.0||||P-value for Sleep 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.149
92386367|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.062||95.0||||P-value for Sleep 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.062
92386368|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.629||95.0||||P-value for Total Score 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.629
92416883|NCT02660138|184721354|SUPERIORITY|If both p-values for the 2 primary tests (the test of Dysport® 800 U vs. placebo and the test of Dysport® 600 U vs. placebo) were lower than 0.05, both were declared statistically significant. If 1 of the primary tests had a p-value greater than or equal to 0.05, then the other test was declared statistically significant if its p-value was lower than 0.025.|LS Mean Difference|-12.19|||<|0.0001|TWO_SIDED|95.0|-17.65|-6.73|||MMRM|||Treatment group, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (weekly number of UI episodes) as fixed effect variables, and subject as a random effect.||-6.73|-17.65|<0.0001
92416884|NCT02660138|184721355|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|160.9|||<|0.0001|TWO_SIDED|95.0|109.9|211.9|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of MCC as covariates.||211.9|109.9|<0.0001
92416885|NCT02660138|184721355|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|189.2|||<|0.0001|TWO_SIDED|95.0|140.1|238.2|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of MCC as covariates.||238.2|140.1|<0.0001
92416886|NCT02660138|184721356|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|-24.3|||<|0.0001|TWO_SIDED|95.0|-32.3|-16.4|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of MDP as covariates.||-16.4|-32.3|<0.0001
92416887|NCT02660138|184721356|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|-28.6|||<|0.0001|TWO_SIDED|95.0|-36.2|-21.1|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of MDP as covariates.||-21.1|-36.2|<0.0001
92416888|NCT02660138|184721357|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|155.5|||<|0.0001|TWO_SIDED|95.0|100.5|210.4|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of Vol@1stIDC as covariates.||210.4|100.5|<0.0001
92416889|NCT02660138|184721357|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|181.8|||<|0.0001|TWO_SIDED|95.0|129.2|234.3|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of Vol@1stIDC as covariates.||234.3|129.2|<0.0001
92416890|NCT02660138|184721358|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|9.83||||0.0006|TWO_SIDED|95.0|2.72|35.6|||Generalised linear mixed model (GLMM)|||Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.||35.60|2.72|0.0006
92416891|NCT02660138|184721358|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|10.99||||0.0003|TWO_SIDED|95.0|3.05|39.61|||GLMM|||Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.||39.61|3.05|0.0003
92386369|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.194||95.0||||P-value for Total Score 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.194
92416892|NCT02660138|184721359|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|5.73||||0.001|TWO_SIDED|95.0|2.02|16.24|||Regression, Logistic|||Treatment group, and recorded stratification factors (aetiology of NDO, previous BTX-A usage) and study baseline (prior intradetrusor BTX-A usage for UI) as explanatory variables.||16.24|2.02|0.0010
92386370|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.525||95.0||||P-value for Maier 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.525
92386371|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.595||95.0||||P-value for Maier 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.595
92386372|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||P-value for Anxiety/Somatization 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.736
92386373|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||P-value for Anxiety/Somatization 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.368
92416893|NCT02660138|184721359|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|16.08|||<|0.0001|TWO_SIDED|95.0|5.82|44.43|||Regression, Logistic|||Treatment group, and recorded stratification factors (aetiology of NDO, previous BTX-A usage) and study baseline (prior intradetrusor BTX-A usage for UI) as explanatory variables.||44.43|5.82|<0.0001
92416894|NCT02660138|184721360|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|13.3||||0.0003|TWO_SIDED|95.0|6.22|20.37|||MMRM|||Treatment group, visit (Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (I-QoL summary total score) as fixed variables, and subject as a random effect.||20.37|6.22|0.0003
92416895|NCT02660138|184721360|SUPERIORITY|The secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|17.25|||<|0.0001|TWO_SIDED|95.0|10.36|24.15|||MMRM|||Treatment group, visit (Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (I-QoL summary total score) as fixed variables, and subject as a random effect.||24.15|10.36|<0.0001
92416896|NCT02660138|184721361|SUPERIORITY|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|4.0||||0.0007|TWO_SIDED|95.0|1.8|8.86||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥30% Improvement Level: Dysport® 600 U versus Placebo.||8.86|1.80|0.0007
92416897|NCT02660138|184721361|SUPERIORITY|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|3.63||||0.0012|TWO_SIDED|95.0|1.68|7.86||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥30% Improvement Level: Dysport® 800 U versus Placebo||7.86|1.68|0.0012
92386374|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||P-value for Bech 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.660
92386375|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.334||95.0||||P-value for Bech 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.334
92386376|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.568||95.0||||P-value for Retardation 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.568
92386377|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.216||95.0||||P-value for Retardation 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.216
92416898|NCT02660138|184721361|SUPERIORITY|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|8.03|||<|0.0001|TWO_SIDED|95.0|3.56|18.09||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥50% Improvement Level: Dysport® 600 U versus Placebo.||18.09|3.56|<0.0001
92386378|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.646||95.0||||P-value for Sleep 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.646
92386379|NCT00536471|184674517|SUPERIORITY_OR_OTHER|||||||0.275||95.0||||P-value for Sleep 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.275
92386380|NCT00536471|184674518|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.011
92386381|NCT00536471|184674518|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline)|Mixed Models Analysis|||||||<0.001
92239716|NCT03141307|184383288|EQUIVALENCE|95% margin|||||<|0.05||||||a priori threshold for statistical significance set for p \< .05|t-test, 2 sided|||||||<.05
92386382|NCT00536471|184674518|SUPERIORITY_OR_OTHER|||||||0.449||95.0||||P-value for 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.449
92386383|NCT00536471|184674518|SUPERIORITY_OR_OTHER|||||||0.167||95.0||||P-value for 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.167
92386384|NCT00536471|184674519|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.016
92386385|NCT00536471|184674519|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||<0.001
92386386|NCT00536471|184674519|SUPERIORITY_OR_OTHER|||||||0.653||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.653
92169696|NCT04992390|184227906|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.75|||<=|0.001|TWO_SIDED|95.0|-1.09|-0.42||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Impact of Event Scale-Revised Avoidance Subscale (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.42|-1.09|<= 0.001
92234403|NCT02332915|184372072|SUPERIORITY|||||||0.0128|||||||t-test, 2 sided|dependent t-test||Null hypothesis is that there is no difference in mean effect size values for 2-week follow-up values for treated items for SPT-Intense and SPT-Traditional. The test was performed with a significance level of 0.05 (two-sided).||||.0128
92234404|NCT02332915|184372073|SUPERIORITY|||||||0.942|||||||t-test, 2 sided|dependent t-test||Null hypothesis is that there is no difference in mean effect size values for 2-week follow-up values for untreated (generalization) items for SPT-Intense and SPT-Traditional. The test was performed with a significance level of 0.05 (two-sided).||||.942
92386387|NCT00536471|184674519|SUPERIORITY_OR_OTHER|||||||0.417||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.417
92386388|NCT00536471|184674520|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change(Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.204
92386389|NCT00536471|184674520|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.011
92386390|NCT00536471|184674520|SUPERIORITY_OR_OTHER|||||||0.571||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.571
92386391|NCT00536471|184674520|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.133
92386392|NCT00536471|184674521|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.023
92416899|NCT02660138|184721361|SUPERIORITY|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|8.22|||<|0.0001|TWO_SIDED|95.0|3.66|18.47||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥50% Improvement Level: Dysport® 800 U versus Placebo||18.47|3.66|<0.0001
92416900|NCT02660138|184721361|OTHER|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|10.7|||<|0.0001|TWO_SIDED|95.0|4.59|24.95||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥75% Improvement Level: Dysport® 600 U versus Placebo.||24.95|4.59|<0.0001
92386393|NCT00536471|184674521|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.100
92386394|NCT00536471|184674521|SUPERIORITY_OR_OTHER|||||||0.571||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.571
92386395|NCT00536471|184674521|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.133
92386396|NCT00536471|184674522|SUPERIORITY_OR_OTHER|||||||0.332||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.332
92386397|NCT00536471|184674522|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.041
92386398|NCT00536471|184674522|SUPERIORITY_OR_OTHER|||||||0.775||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.775
92171754|NCT02549339|184232759|SUPERIORITY||Ratio of clearance rates|5.9|||<|0.001|TWO_SIDED|95.0|3.3|10.54|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||10.54|3.30|<0.001
92234405|NCT02332915|184372074|OTHER||||||<|0.001|||||||t-test, 2 sided|||Null Hypothesis: No difference in pre-treatment and post-treatment intelligibility scores||||<.001
92234406|NCT03232073|184372080|SUPERIORITY||Treatment Effect (Rate Ratio)|0.779||||||95.0|0.629|0.965||||||||0.965|0.629|
92234407|NCT03440112|184372159|SUPERIORITY||Chi-Squared|3.0039||||0.391|TWO_SIDED||||||Mixed Models Analysis|||A pair of random-intercept mixed linear models was fitted, a visit model and an interaction model. Visit model included fixed effect of visit and a random intercept by participant. Interaction model adds an interaction by treatment term on top of the visit model. Null hypothesis is that visit by treatment interaction does not explain significant additional variance in clinical outcome scores. Likelihood ratio test comparing the interaction model to the visit model was used to derive a p-value.||||0.391
92386399|NCT00536471|184674522|SUPERIORITY_OR_OTHER|||||||0.588||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.588
92386400|NCT00536471|184674523|SUPERIORITY_OR_OTHER|||||||0.624||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.624
92386401|NCT00536471|184674523|SUPERIORITY_OR_OTHER|||||||0.473||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.473
92386402|NCT00536471|184674523|SUPERIORITY_OR_OTHER|||||||0.787||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.787
92386403|NCT00536471|184674523|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.086
92416901|NCT02660138|184721361|SUPERIORITY|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|12.63|||<|0.0001|TWO_SIDED|95.0|5.4|29.56||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥75% Improvement Level: Dysport® 800 U versus Placebo.||29.56|5.40|<0.0001
92234408|NCT03440112|184372160|SUPERIORITY||Chi-Squared|9.4836||||0.02351|TWO_SIDED||||||Mixed Models Analysis|||A pair of random-intercept mixed linear models was fitted, a visit model and an interaction model. Visit model included fixed effect of visit and a random intercept by participant. Interaction model adds an interaction by treatment term on top of the visit model. Null hypothesis is that visit by treatment interaction does not explain significant additional variance in clinical outcome scores. Likelihood ratio test comparing the interaction model to the visit model was used to derive a p-value.||||0.02351
92234409|NCT02082184|184372161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.114||0.8222|TWO_SIDED||||||ANCOVA|||||||0.8222
92416902|NCT02660138|184721362|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|84.81|||<|0.0001|TWO_SIDED|95.0|43.73|125.89|||MMRM|||Treatment group, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (total volume per void) as fixed effect variables, and subject as a random effect.||125.89|43.73|<0.0001
92234410|NCT02082184|184372162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.58||0.7925|TWO_SIDED||||||ANCOVA|||||||0.7925
92234411|NCT02082184|184372163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.134|<|0.001|TWO_SIDED||||||ANCOVA|||Statistical analysis of time spent \<70 mg/dL||||<0.001
92234412|NCT02082184|184372163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.068||0.0014|TWO_SIDED||||||ANCOVA|||Statistical analysis of time spent \<55 mg/dL||||0.0014
92234413|NCT02082184|184372164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.065||0.0164|TWO_SIDED||||||ANCOVA|||Statistical analysis of frequency of episodes \<70 mg/dL||||0.0164
92386404|NCT00536471|184674524|SUPERIORITY_OR_OTHER|||||||0.099||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.099
92386405|NCT00536471|184674524|SUPERIORITY_OR_OTHER|||||||0.223||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.223
92386406|NCT00536471|184674524|SUPERIORITY_OR_OTHER|||||||0.473||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.473
92386407|NCT00536471|184674524|SUPERIORITY_OR_OTHER|||||||0.233||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.233
92386408|NCT00536471|184674525|SUPERIORITY_OR_OTHER|||||||0.577||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.577
92386409|NCT00536471|184674525|SUPERIORITY_OR_OTHER|||||||0.567||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.567
92386410|NCT00536471|184674526|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.670
92386411|NCT00536471|184674526|SUPERIORITY_OR_OTHER|||||||0.059||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.059
92386412|NCT00536471|184674526|SUPERIORITY_OR_OTHER|||||||0.93||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.930
92386413|NCT00536471|184674526|SUPERIORITY_OR_OTHER|||||||0.567||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.567
92386414|NCT00536471|184674527|SUPERIORITY_OR_OTHER|||||||0.896||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.896
92386415|NCT00536471|184674527|SUPERIORITY_OR_OTHER|||||||0.796||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.796
92386416|NCT00536471|184674527|SUPERIORITY_OR_OTHER|||||||0.571||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.571
92386417|NCT00536471|184674527|SUPERIORITY_OR_OTHER|||||||0.381||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.381
92416903|NCT02660138|184721362|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|110.57|||<|0.0001|TWO_SIDED|95.0|70.17|150.98|||MMRM|||Treatment group, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (total volume per void) as fixed effect variables, and subject as a random effect.||150.98|70.17|<0.0001
92234414|NCT02082184|184372164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.037||0.0017|TWO_SIDED||||||ANCOVA|||Statistical analysis of frequency of episodes \<55 mg/dL||||0.0017
92234415|NCT02082184|184372165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.63||0.597|TWO_SIDED||||||ANCOVA|||Statistical analysis of time spent \>180 mg/dL||||0.5970
92234416|NCT02082184|184372165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.46||0.8729|TWO_SIDED||||||ANCOVA|||Statistical analysis of time spent \>240 mg/dL||||0.8729
92234417|NCT02082184|184372168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.31||0.6075|TWO_SIDED||||||ANCOVA|||Perceived frequency of hyperglycaemia||||0.6075
92234418|NCT02082184|184372168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.2295|TWO_SIDED||||||ANCOVA|||Perceived frequency of hypoglycaemia||||0.2295
92234419|NCT02082184|184372168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED||||||ANCOVA|||Total treatment satisfaction score||||<0.001
92234420|NCT00443560|184372169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.3|||<|0.01||95.0|2.3|4.5|||Chi-squared, Corrected|||||4.5|2.3|<0.01
92234421|NCT00443560|184372170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.2|||<|0.01||95.0|9.9|15.0|||Chi-squared, Corrected|||||15.0|9.9|<0.01
92234422|NCT00443560|184372171|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
92234423|NCT01943539|184372182|SUPERIORITY||Effect Size|0.62||||0.008|TWO_SIDED||||||t-test, 2 sided|||||||0.008
92278488|NCT01102777|184459200|SUPERIORITY_OR_OTHER|||||||0.142|TWO_SIDED||||||Regression, Linear|Adjusted for baseline value of outcome, MMRC dyspnea score, and urban versus rural residence.||||||0.142
92386418|NCT00536471|184674528|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.038
92386419|NCT00536471|184674528|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.002
92386420|NCT00536471|184674528|SUPERIORITY_OR_OTHER|||||||0.665||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.665
92386421|NCT00536471|184674528|SUPERIORITY_OR_OTHER|||||||0.253||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.253
92386422|NCT00536471|184674529|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.723
92386423|NCT00536471|184674529|SUPERIORITY_OR_OTHER|||||||0.312||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.312
92386424|NCT00536471|184674529|SUPERIORITY_OR_OTHER|||||||0.853||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.853
92386425|NCT00536471|184674529|SUPERIORITY_OR_OTHER|||||||0.913||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.913
92386426|NCT00536471|184674530|SUPERIORITY_OR_OTHER|||||||0.234||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.234
92386427|NCT00536471|184674530|SUPERIORITY_OR_OTHER|||||||0.216||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.216
92386428|NCT00536471|184674530|SUPERIORITY_OR_OTHER|||||||0.853||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.853
92386429|NCT00536471|184674530|SUPERIORITY_OR_OTHER|||||||0.908||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.908
92386430|NCT00536471|184674531|SUPERIORITY_OR_OTHER|||||||0.789||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.789
92386431|NCT00536471|184674531|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.012
92386432|NCT00536471|184674531|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.414
92386433|NCT00536471|184674531|SUPERIORITY_OR_OTHER|||||||0.717||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.717
92416904|NCT00308581|184721368|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.696||95.0|0.7|1.7||Logistic regression model including terms for treatment arm and geographical region (North America versus Europe).|Regression, Logistic||Direction of comparison is Q4W regimen (active 1) versus Q2W regimen (active 2).|With a sample size of 165 patients per treatment arm, assuming a percentage of responders of 45% with the Q4W regimen, the study had 80% power to show a statistically significant difference in percentage of responders at Week 26 between the two treatment groups, when there is a true difference of 16% in percentage of responders in favor of the Q2W regimen, and using a 2-sided chi-square at the 5% significance level.||1.7|0.7|0.696
92416905|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|2.7||0.78|TWO_SIDED|95.0|-5.0|11.2|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on global response."||11.2|-5.0|0.78
92416906|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|2.5||0.75|TWO_SIDED|95.0|-4.6|10.7|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on global response."||10.7|-4.6|0.75
92416907|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|2.3||0.08|TWO_SIDED|95.0|-0.6|13.7|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on global response."||13.7|-0.6|0.08
92386434|NCT00536471|184674532|SUPERIORITY_OR_OTHER|||||||0.78||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.780
92386435|NCT00536471|184674532|SUPERIORITY_OR_OTHER|||||||0.152||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.152
92386436|NCT00536471|184674532|SUPERIORITY_OR_OTHER|||||||0.637||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.637
92386437|NCT00536471|184674532|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.024
92386438|NCT00536471|184674533|SUPERIORITY_OR_OTHER|||||||0.517||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.517
92386439|NCT00536471|184674533|SUPERIORITY_OR_OTHER|||||||0.256||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.256
92386440|NCT00536471|184674533|SUPERIORITY_OR_OTHER|||||||1||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||1.000
92386441|NCT00536471|184674533|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.268
92386442|NCT00536471|184674534|SUPERIORITY_OR_OTHER|||||||0.741||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.741
92386443|NCT00536471|184674534|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.722
92386444|NCT00536471|184674534|SUPERIORITY_OR_OTHER|||||||1||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||1.000
92234424|NCT01362322|184372186|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit (UL) of the 95% confidence interval (CI) on the geometric mean concentration (GMC) ratios \[Boostrix-Prev Group over Boostrix-New Group\] for anti-diphtheria (anti-D) antibodies was ≤ 1.5 (clinical limit for non-inferiority).|Adjusted radio|0.96|||||TWO_SIDED|95.0|0.85|1.09|||ANCOVA|||Analysis was performed to demonstrate that Boostrix administered using the new syringe presentation was non-inferior to Boostrix administered using the previous syringe presentation, in terms of immune response to diphteria vaccine antigens, one month after booster vaccination.||1.09|0.85|
92234425|NCT01362322|184372186|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit (UL) of the 95% confidence interval (CI) on the geometric mean concentration (GMC) ratios \[Boostrix-Prev Group over Boostrix-New Group\] for anti-tetanus (anti-T) antibodies was ≤ 1.5 (clinical limit for non-inferiority).|Adjusted Ratio|0.97|||||TWO_SIDED|95.0|0.86|1.1|||ANCOVA|||Analysis was performed to demonstrate that Boostrix administered using the new syringe presentation was non-inferior to Boostrix administered using the previous syringe presentation, in terms of immune response to tetanus vaccine antigens, one month after booster vaccination.||1.1|0.86|
92234426|NCT01362322|184372187|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit (UL) of the 95% confidence interval (CI) on the geometric mean concentration (GMC) ratios \[Boostrix-Prev Group over Boostrix-New Group\] for anti-pertussis toxoid (anti-PT) antibodies was ≤ 1.5 (clinical limit for non-inferiority).|Adjusted Ratio|0.92|||||TWO_SIDED|95.0|0.82|1.04|||ANCOVA|||Analysis was performed to demonstrate that Boostrix administered using the new syringe presentation was non-inferior to Boostrix administered using the previous syringe presentation, in terms of immune response to pertussis toxoid vaccine antigens, one month after booster vaccination.||1.04|0.82|
92234427|NCT01362322|184372187|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit (UL) of the 95% confidence interval (CI) on the geometric mean concentration (GMC) ratios \[Boostrix-Prev Group over Boostrix-New Group\] for anti-filamentous haemagglutinin (anti-FHA) antibodies was ≤ 1.5 (clinical limit for non-inferiority).|Adjusted Ratio|0.92|||||TWO_SIDED|95.0|0.83|1.03||||||Analysis was performed to demonstrate that Boostrix administered using the new syringe presentation was non-inferior to Boostrix administered using the previous syringe presentation, in terms of immune response to filamentous haemagglutinin vaccine antigens, one month after booster vaccination.||1.03|0.83|
92234428|NCT01362322|184372187|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit (UL) of the 95% confidence interval (CI) on the geometric mean concentration (GMC) ratios \[Boostrix-Prev Group over Boostrix-New Group\] for anti-pertactin (anti-PRN) antibodies was ≤ 1.5 (clinical limit for non-inferiority).|Adjusted ratio|0.98|||||TWO_SIDED|95.0|0.85|1.13||||||Analysis was performed to demonstrate that Boostrix administered using the new syringe presentation was non-inferior to Boostrix administered using the previous syringe presentation, in terms of immune response to pertactin vaccine antigens, one month after booster vaccination.||1.13|0.85|
92386445|NCT00536471|184674534|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.268
92386446|NCT00536471|184674535|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.723
92386447|NCT00536471|184674535|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.949
92386448|NCT00536471|184674535|SUPERIORITY_OR_OTHER|||||||1||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||1.000
92386449|NCT00536471|184674535|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.268
92416908|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_ERROR_OF_MEAN|2.4||0.17|TWO_SIDED|95.0|-1.6|13.2|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on global response."||13.2|-1.6|0.17
92416909|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3|STANDARD_ERROR_OF_MEAN|3.7||0.61|TWO_SIDED|95.0|-6.5|17.2|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on High Initial NFkB Activation Expressers."||17.2|-6.5|0.61
92234429|NCT03715465|184372203|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.510
92234430|NCT03715465|184372204|SUPERIORITY|||||||0.411|||||||t-test, 2 sided|||Per diary||||0.411
92386450|NCT00536471|184674536|SUPERIORITY_OR_OTHER|||||||0.682||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.682
92386451|NCT00536471|184674536|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.001
92386452|NCT00536471|184674536|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.200
92386453|NCT00536471|184674536|SUPERIORITY_OR_OTHER|||||||0.813||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.813
92386454|NCT00536471|184674537|SUPERIORITY_OR_OTHER|||||||0.438||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.438
92386455|NCT00536471|184674537|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.018
92386456|NCT00536471|184674537|SUPERIORITY_OR_OTHER|||||||0.692||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.692
92386457|NCT00536471|184674537|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.668
92386458|NCT00536471|184674538|SUPERIORITY_OR_OTHER|||||||0.588||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.588
92416910|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3|STANDARD_ERROR_OF_MEAN|3.1||0.32|TWO_SIDED|95.0|-4.1|16.8|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on High Initial NFkB Activation Expressers."||16.8|-4.1|0.32
92416911|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.0|STANDARD_ERROR_OF_MEAN|2.8||0.03|TWO_SIDED|95.0|1.6|22.3|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on High Initial NFkB Activation Expressers."||22.3|1.6|0.03
92416912|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.1|STANDARD_ERROR_OF_MEAN|3.1||0.04|TWO_SIDED|95.0|0.5|21.8|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on High Initial NFkB Activation Expressers."||21.8|0.5|0.04
92416913|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.4||1|TWO_SIDED|95.0|-1.5|1.2|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on Low Initial NFkB Activation Expressers."||1.2|-1.5|1.00
92416914|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.7||0.88|TWO_SIDED|95.0|-3.5|2.3|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on Low Initial NFkB Activation Expressers."||2.3|-3.5|0.88
92416915|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.98|TWO_SIDED|95.0|-0.8|1.0|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on Low Initial NFkB Activation Expressers."||1.0|-0.8|0.98
92416916|NCT00899353|184721436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.2||0.98|TWO_SIDED|95.0|-6.6|5.3|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on Low Initial NFkB Activation Expressers."||5.3|-6.6|0.98
92416917|NCT01247298|184721449|OTHER||Kaplan Meier Estimate|82.0|||||TWO_SIDED||||||||Kaplan Meier Estimates of Progression Free Survival (PFS)|||||
92234431|NCT03715465|184372204|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||Per wrist actigraphy||||0.920
92386459|NCT00536471|184674538|SUPERIORITY_OR_OTHER|||||||0.758||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.758
92386460|NCT00536471|184674538|SUPERIORITY_OR_OTHER|||||||0.692||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.692
92234432|NCT03715465|184372205|SUPERIORITY|||||||0.787|||||||t-test, 2 sided|||Per diary||||0.787
92234433|NCT03715465|184372205|SUPERIORITY|||||||0.916|||||||t-test, 2 sided|||Per wrist actigraphy||||0.916
92386461|NCT00536471|184674538|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.668
92386462|NCT00536471|184674539|SUPERIORITY_OR_OTHER|||||||0.507||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.507
92386463|NCT00536471|184674539|SUPERIORITY_OR_OTHER|||||||0.466||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.466
92386464|NCT00536471|184674539|SUPERIORITY_OR_OTHER|||||||0.692||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.692
92386465|NCT00536471|184674539|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.668
92386466|NCT00536471|184674540|SUPERIORITY_OR_OTHER|||||||0.487||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.487
92386467|NCT00536471|184674540|SUPERIORITY_OR_OTHER|||||||0.678||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.678
92386468|NCT00536471|184674540|SUPERIORITY_OR_OTHER|||||||0.692||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.692
92416918|NCT00095147|184721471|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|-1.04|||<|0.001|TWO_SIDED|95.0|-1.42|-0.67|||ANCOVA|||The primary analysis was the comparison of abatacept versus placebo for changes from baseline to 6 months (Day 197) in the DAS28. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||-0.67|-1.42|<0.001
92416919|NCT00095147|184721472|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|-0.77|||<|0.001|TWO_SIDED|95.0|-1.14|-0.39|||ANCOVA|||Infliximab versus placebo were compared for changes from baseline to 6 months (Day 197) in the DAS28. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||-0.39|-1.14|<0.001
92234434|NCT03715465|184372206|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||Per diary||||0.270
92234435|NCT03715465|184372206|SUPERIORITY|||||||0.406|||||||t-test, 2 sided|||Per wrist actigraphy||||0.406
92234436|NCT03715465|184372207|SUPERIORITY|||||||0.635|||||||t-test, 2 sided|||Per diary||||0.635
92278489|NCT01102777|184459201|SUPERIORITY_OR_OTHER|||||||0.502|TWO_SIDED||||||Mixed Models Analysis|Based on mixed models, adjusting for group, time, group\*time interaction, MMRC score, and urban versus rural residence.||||||.502
92416920|NCT00095147|184721474|SUPERIORITY_OR_OTHER||Estimate of difference from placebo|20.6||||0.001|TWO_SIDED|95.0|7.7|33.6|||Chi-squared, Corrected|||Comparisons were made between ABA and PLA at Day 197 using a continuity corrected Chi-square test. All tests and confidence intervals for treatment comparison were two-sided.||33.6|7.7|0.001
92416921|NCT00095147|184721474|SUPERIORITY_OR_OTHER||Estimate of difference from placebo|17.9||||0.005|TWO_SIDED|95.0|5.1|30.7|||Chi-squared, Corrected|||Comparisons were made between INF and PLA at Day 197 using a continuity corrected Chi-square test. All tests and confidence intervals for treatment comparison were two-sided.||30.7|5.1|0.005
92416922|NCT00095147|184721476|SUPERIORITY_OR_OTHER||Difference from placebo|-0.38|||<|0.001|TWO_SIDED|95.0|-0.53|-0.23|||ANCOVA|||Adjusted mean change in HAQ-DI from baseline to 6 months (Day 197) was compared between ABA and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||-0.23|-0.53|<0.001
92416923|NCT00095147|184721476|SUPERIORITY_OR_OTHER||Difference from placebo|-0.3|||<|0.001|TWO_SIDED|95.0|-0.45|-0.15|||ANCOVA|||Adjusted mean change in HAQ-DI from baseline to 6 months (Day 197) was compared between INF and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||-0.15|-0.45|<0.001
92416924|NCT00095147|184721478|SUPERIORITY_OR_OTHER||Difference from placebo (PCS)|4.02|||<|0.001|TWO_SIDED|95.0|1.92|6.12|||ANCOVA|||Adjusted mean change in SF-36 physical component summary from baseline to 6 months (Day 197) was compared between ABA and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||6.12|1.92|<0.001
92386469|NCT00536471|184674540|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.668
92386470|NCT00536471|184674541|SUPERIORITY_OR_OTHER|||||||0.505||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.505
92386471|NCT00536471|184674541|SUPERIORITY_OR_OTHER|||||||0.135||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.135
92386472|NCT00536471|184674541|SUPERIORITY_OR_OTHER|||||||0.175||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.175
92234437|NCT03715465|184372207|SUPERIORITY|||||||0.383|||||||t-test, 2 sided|||Per wrist actigraphy||||0.383
92234438|NCT03715465|184372208|SUPERIORITY|||||||0.456|||||||t-test, 2 sided|||||||0.456
92234439|NCT03715465|184372209|SUPERIORITY|||||||0.402|||||||t-test, 2 sided|||||||0.402
92234440|NCT03715465|184372210|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||0.047
92234441|NCT03715465|184372211|SUPERIORITY|||||||0.525|||||||t-test, 2 sided|||||||0.525
92234442|NCT03715465|184372212|SUPERIORITY|||||||0.106|||||||t-test, 2 sided|||||||0.106
92234443|NCT03715465|184372213|SUPERIORITY|||||||0.059|||||||t-test, 2 sided|||||||0.059
92234444|NCT03715465|184372214|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
92234445|NCT03715465|184372215|SUPERIORITY|||||||0.246|||||||t-test, 2 sided|||||||0.246
92234446|NCT03715465|184372216|SUPERIORITY|||||||0.333|||||||t-test, 2 sided|||||||0.333
92234447|NCT01532453|184372251|SUPERIORITY_OR_OTHER|||||||0.0278|TWO_SIDED|||||Rank ANCOVA With treatment, center, gender, transplanted organ as factors and age of organ transplant as a covariable.|ANCOVA|||||||0.0278
92234448|NCT01532453|184372252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.579|||<|0.05|TWO_SIDED|95.0|0.2703|1.2405|||ANCOVA|||||1.2405|0.2703|<0.05
92234449|NCT03230097|184372253|OTHER||Hazard Ratio (HR)|0.849||||0.7873|TWO_SIDED|95.0|0.258|2.795|||Regression, Cox|Stratified (by baseline use of antipsychotic medication) Cox proportional hazards model was used. Treatment effect and NAPLS risk score as covariates.|Ratio = BI 409306/placebo.|||2.795|0.258|0.7873
92386473|NCT00536471|184674541|SUPERIORITY_OR_OTHER|||||||1||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||1.000
92386474|NCT00536471|184674542|SUPERIORITY_OR_OTHER|||||||0.175||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.175
92386475|NCT00536471|184674542|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.002
92386476|NCT00536471|184674542|SUPERIORITY_OR_OTHER|||||||0.576||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.576
92386477|NCT00536471|184674542|SUPERIORITY_OR_OTHER|||||||0.676||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.676
92386478|NCT00536471|184674543|SUPERIORITY_OR_OTHER|||||||0.675||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.675
92386479|NCT00536471|184674543|SUPERIORITY_OR_OTHER|||||||0.139||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.139
92386480|NCT00536471|184674543|SUPERIORITY_OR_OTHER|||||||0.576||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.576
92386481|NCT00536471|184674543|SUPERIORITY_OR_OTHER|||||||0.676||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.676
92386482|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.007
92386483|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.031
92278490|NCT01102777|184459202|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Regression, Linear|Adjusted for baseline value and rural residence.||||||.90
92278491|NCT01102777|184459203|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED||||||Regression, Linear|Adjusted for baseline value and rural residence.||||||.93
92386484|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Tension-Anxiety (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.020
92386485|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.324||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Tension-Anxiety (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.324
92386486|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Depression-Dejection (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.010
92386487|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Depression-Dejection (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.005
92386488|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Anger-Hostility (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.010
92386489|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Anger-Hostility (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.019
92386490|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.201||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Vigor-Activity (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.201
92386491|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Vigor-Activity (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.069
92386492|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Fatigue-Inertia (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.368
92386493|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Fatigue-Inertia (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.435
92386494|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Confusion-Bewilderment (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.090
92386495|NCT00536471|184674544|SUPERIORITY_OR_OTHER|||||||0.313||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Confusion-Bewilderment (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.313
92278492|NCT01102777|184459204|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Zero inflated Poisson regression|Adjusted for age, gender, oxygen use, and arm.||||||.08
92278493|NCT01102777|184459205|SUPERIORITY_OR_OTHER|||||||0.731|TWO_SIDED||||||Mixed Models Analysis|Based on mixed models, adjusting for group, time, group\*time interaction, MMRC score, and urban versus rural residence.||||||0.731
92234450|NCT03230097|184372255|OTHER||Adjusted mean difference|1.77||||0.5212|TWO_SIDED|95.0|-3.773|7.315|||Mixed Models Analysis|||BI 409306 vs. placebo of change from baseline at week 24. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||7.315|-3.773|0.5212
92386496|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.639||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.639
92386497|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.584||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.584
92386498|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.251||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Tension-Anxiety (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.251
92386499|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.265||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Tension-Anxiety (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.265
92386500|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.366||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Depression-Dejection (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.366
92386501|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.257||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Depression-Dejection (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.257
92234451|NCT03230097|184372255|OTHER||Adjusted mean difference|3.18||||0.3127|TWO_SIDED|95.0|-3.071|9.425|||Mixed Models Analysis||Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM), see endpoint description for details.|BI 409306 vs. placebo of change from baseline at week 52. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||9.425|-3.071|0.3127
92234452|NCT03230097|184372256|OTHER||Adjusted mean difference|-4.99||||0.1602|TWO_SIDED|95.0|-12.033|2.057|||Mixed Models Analysis|||BI 409306 vs. placebo of change from baseline at week 52. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||2.057|-12.033|0.1602
92386502|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.426||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Anger-Hostility (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.426
92386503|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.234||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Anger-Hostility (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.234
92239717|NCT00410280|184383309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.44||||0.0947|TWO_SIDED|95.0|-14.04|1.15|||ANOVA|||Repeated measures analysis of variance (ANOVA) model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95 % confidence interval (CI) and p-value were derived from the model.||1.15|-14.04|0.0947
92386504|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.765||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Vigor-Activity (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.765
92386505|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.522||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Vigor-Activity (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.522
92386506|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.986||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Fatigue-Inertia (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.986
92386507|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.602||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Fatigue-Inertia (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.602
92386508|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Confusion-Bewilderment (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.110
92386509|NCT00536471|184674545|SUPERIORITY_OR_OTHER|||||||0.505||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Confusion-Bewilderment(Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.505
92386510|NCT00536471|184674546|SUPERIORITY_OR_OTHER|||||||0.366||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Work Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.366
92386511|NCT00536471|184674546|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Work Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.065
92386512|NCT00536471|184674546|SUPERIORITY_OR_OTHER|||||||0.229||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Social Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.229
92386513|NCT00536471|184674546|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Social Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.044
92386514|NCT00536471|184674546|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Family Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.092
92386515|NCT00536471|184674546|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Family Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.002
92386516|NCT00536471|184674546|SUPERIORITY_OR_OTHER|||||||0.142||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score(Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.142
92386517|NCT00536471|184674546|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.005
92416925|NCT00095147|184721478|SUPERIORITY_OR_OTHER||Difference from placebo (MCS)|3.51||||0.004|TWO_SIDED|95.0|1.1|5.91|||ANCOVA|||Adjusted mean change in SF-36 mental component summary from baseline to 6 months (Day 197) was compared between ABA and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||5.91|1.10|0.004
92416926|NCT00095147|184721478|SUPERIORITY_OR_OTHER||Difference from placebo (PCS)|3.32||||0.002|TWO_SIDED|95.0|1.25|5.4|||ANCOVA|||Adjusted mean change in SF-36 physical component summary from baseline to 6 months (Day 197) was compared between INF and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||5.40|1.25|0.002
92234453|NCT03230097|184372257|OTHER||Adjusted mean difference|-0.8||||0.5858|TWO_SIDED|95.0|-3.749|2.153|||Mixed Models Analysis|||BI 409306 vs. placebo of change from baseline at week 52, positive items score. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||2.153|-3.749|0.5858
92386518|NCT00536471|184674547|SUPERIORITY_OR_OTHER|||||||0.921||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Work Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.921
92416927|NCT00095147|184721478|SUPERIORITY_OR_OTHER||Difference from placebo (MCS)|2.68||||0.027|TWO_SIDED|95.0|0.31|5.05|||ANCOVA|||Adjusted mean change in SF-36 mental component summary from baseline to 6 months (Day 197) was compared between INF and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||5.05|0.31|0.027
92239718|NCT00410280|184383310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.24||||0.2673|TWO_SIDED|95.0|-11.84|3.35|||ANOVA|||Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||3.35|-11.84|0.2673
92386519|NCT00536471|184674547|SUPERIORITY_OR_OTHER|||||||0.895||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Work Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.895
92386520|NCT00536471|184674547|SUPERIORITY_OR_OTHER|||||||0.789||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Social Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.789
92386521|NCT00536471|184674547|SUPERIORITY_OR_OTHER|||||||0.761||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Social Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.761
92386522|NCT00536471|184674547|SUPERIORITY_OR_OTHER|||||||0.519||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Family Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.519
92386523|NCT00536471|184674547|SUPERIORITY_OR_OTHER|||||||0.755||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Family Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.755
92386524|NCT00536471|184674547|SUPERIORITY_OR_OTHER|||||||0.829||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.829
92386525|NCT00536471|184674547|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.723
92386526|NCT00536471|184674548|SUPERIORITY_OR_OTHER|||||||0.753||95.0||||P-value for Direct Treatment Effect|Regression, Linear|||||||0.753
92386527|NCT00536471|184674548|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||P-value for Direct Treatment Effect|Regression, Linear|||||||0.036
92416928|NCT03400956|184721581|SUPERIORITY||Risk Difference (RD)|0.82|||<|0.0001|TWO_SIDED|95.0|0.72|0.93|||Cochran-Mantel-Haenszel||Number of subjects per treatment: 63 (Vilaprisan) / 33 (Placebo).|Vilaprisan (A1) and Vilaprisan+Placebo (B2) combined vs. Placebo+Vilaprisan (B1) in treatment period 1||0.93|0.72|<.0001
92386528|NCT00536471|184674550|SUPERIORITY_OR_OTHER|||||||0.342||95.0||||P-value for Direct Treatment Effect|Regression, Linear|||||||0.342
92386529|NCT00536471|184674550|SUPERIORITY_OR_OTHER|||||||0.111||95.0||||P-value for Direct Treatment Effect|Regression, Linear|||||||0.111
92416929|NCT00534313|184721598|SUPERIORITY_OR_OTHER||Difference|22.9||||0.022|TWO_SIDED|95.0|4.0|41.8||The p-value (two-sided) was based on Cochran-Mantel-Haenszel method (CMH) with stratification of baseline body surface area (BSA) affected by psoriasis.|Cochran-Mantel-Haenszel||Difference was based on CMH with stratification of baseline BSA affected by psoriasis.|||41.8|4.0|0.022
92386530|NCT00536471|184674552|SUPERIORITY_OR_OTHER|||||||0.302||95.0||||P-value for 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.302
92386531|NCT00536471|184674552|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value for 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.029
92386532|NCT00536471|184674552|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||P-value for 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.325
92386533|NCT00536471|184674552|SUPERIORITY_OR_OTHER|||||||0.423||95.0||||P-value for 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.423
92386534|NCT00536471|184674553|SUPERIORITY_OR_OTHER|||||||0.731||95.0||||P-value for 12 Week HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.731
92386535|NCT00536471|184674553|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for 12 Week HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.022
92386536|NCT00536471|184674553|SUPERIORITY_OR_OTHER|||||||0.948||95.0||||P-value for 12 Week QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.948
92169697|NCT04992390|184227906|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.7|||<=|0.001|TWO_SIDED|95.0|-0.97|-0.44||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Impact of Event Scale-Revised Hyperarousal Subscale (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.44|-0.97|<= 0.001
92386537|NCT00536471|184674553|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for 12 Week QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.022
92386538|NCT00536471|184674553|SUPERIORITY_OR_OTHER|||||||0.95||95.0||||P-value for 9 Month HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.950
92171755|NCT02549339|184232760|SUPERIORITY||Ratio of clearance rates|5.75|||<|0.001|TWO_SIDED|95.0|3.24|10.2|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||10.20|3.24|<0.001
92386539|NCT00536471|184674553|SUPERIORITY_OR_OTHER|||||||0.442||95.0||||P-value for 9 Month HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.442
92386540|NCT00536471|184674553|SUPERIORITY_OR_OTHER|||||||0.218||95.0||||P-value for 9 Month QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.218
92386541|NCT00536471|184674553|SUPERIORITY_OR_OTHER|||||||0.648||95.0||||P-value for 9 Month QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.648
92386542|NCT00536471|184674554|SUPERIORITY_OR_OTHER|||||||0.653||95.0||||P-value for 12 week HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.653
92386543|NCT00536471|184674554|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value for 12 week HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.016
92386544|NCT00536471|184674554|SUPERIORITY_OR_OTHER|||||||0.665||95.0||||P-value for 12 week QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.665
92386545|NCT00536471|184674554|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||P-value for 12 week QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.127
92386546|NCT00536471|184674555|SUPERIORITY_OR_OTHER|||||||0.475||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 1 Average Pain Severity 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.475
92386547|NCT00536471|184674555|SUPERIORITY_OR_OTHER|||||||0.561||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 1 Average Pain Severity 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.561
92386548|NCT00536471|184674555|SUPERIORITY_OR_OTHER|||||||0.213||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 7 How Bothered by Pain 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.213
92386549|NCT00536471|184674555|SUPERIORITY_OR_OTHER|||||||0.536||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 7 How Bothered by Pain 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.536
92234454|NCT03230097|184372257|OTHER||Adjusted mean difference|1.43||||0.3445|TWO_SIDED|95.0|-1.604|4.462|||Mixed Models Analysis|||BI 409306 vs. placebo of change from baseline at week 52, negative items score. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||4.462|-1.604|0.3445
92234455|NCT03230097|184372257|OTHER||Adjusted mean difference|1.71||||0.7154|TWO_SIDED|95.0|-7.772|11.196|||Mixed Models Analysis|||BI 409306 vs. placebo of change from baseline at week 52, total score. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||11.196|-7.772|0.7154
92234456|NCT05740813|184372264|SUPERIORITY||Disease Rate Ratio|1.06|STANDARD_DEVIATION|0.12|||TWO_SIDED|95.0|0.85|1.324||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. ABBV-CLS-7262 slowed progression) was 0.3117 for Dose 1. NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter mode|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by ABBV-CLS-7262 relative to placebo. Note: reported Confidence Interval is actually a Bayesian credible interval."||The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality. The model incorporates participant-level random effects in the baseline value of the ALSFRS-R (intercept) and in the rate of progression (slope); covariate effects to account for covariate-explainable differences in rates of progression based on participant-specific baseline covariates; regimen-specific differences in baseline values, rates of progression and measurement error. Covariates include time since onset of symptoms, pre-baseline slope of ALSFRS-R, riluzole, edaravone, and Relyvrio use at the time of baseline as indicated in concomitant medication logs, and log-transformed baseline serum NfL.|1.324|0.850|
92234457|NCT05740813|184372264|SUPERIORITY||Disease Rate Ratio|0.96|STANDARD_DEVIATION|0.119|||TWO_SIDED|95.0|0.753|1.22||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. ABBV-CLS-7262 slowed progression) was 0.6426. NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by ABBV-CLS-7262 relative to placebo. Note: reported Confidence Interval is actually a Bayesian credible interval."||The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality. The model incorporates participant-level random effects in the baseline value of the ALSFRS-R (intercept) and in the rate of progression (slope); covariate effects to account for covariate-explainable differences in rates of progression based on participant-specific baseline covariates; regimen-specific differences in baseline values, rates of progression and measurement error. Covariates include time since onset of symptoms, pre-baseline slope of ALSFRS-R, riluzole, edaravone, and Relyvrio use at the time of baseline as indicated in concomitant medication logs, and log-transformed baseline serum NfL.|1.220|0.753|
92234458|NCT05740813|184372265|SUPERIORITY||Mean Difference (Net)|-0.547|STANDARD_ERROR_OF_MEAN|0.5639||0.3325|TWO_SIDED|95.0|-1.657|0.562|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 1 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|0.562|-1.657|0.3325
92234459|NCT05740813|184372265|SUPERIORITY||Mean Difference (Net)|0.095|STANDARD_ERROR_OF_MEAN|0.6732||0.8878|TWO_SIDED|95.0|-1.23|1.42|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 2 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|1.420|-1.230|0.8878
92234460|NCT05740813|184372266|SUPERIORITY||Mean Difference (Net)|-1.42|STANDARD_ERROR_OF_MEAN|2.1066||0.5008|TWO_SIDED|95.0|-5.563|2.723|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 1 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|2.723|-5.563|0.5008
92234461|NCT05740813|184372266|SUPERIORITY||Mean Difference (Net)|2.261|STANDARD_ERROR_OF_MEAN|2.5292||0.3721|TWO_SIDED|95.0|-2.714|7.236|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 2 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|7.236|-2.714|0.3721
92239719|NCT00410280|184383311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.8||||0.0391|TWO_SIDED|95.0|-46.35|-1.24|||ANOVA|||Day 14: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||-1.24|-46.35|0.0391
92416930|NCT00534313|184721598|SUPERIORITY_OR_OTHER||Difference|28.7||||0.006|TWO_SIDED|95.0|9.4|48.0||p-value (two-sided) was based on CMH with stratification of baseline BSA affected by psoriasis.|Cochran-Mantel-Haenszel||Difference was based on CMH with stratification of baseline BSA affected by psoriasis.|||48.0|9.4|0.006
92386550|NCT00536471|184674555|SUPERIORITY_OR_OTHER|||||||0.158||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 1 Average Pain Severity 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.158
92386551|NCT00536471|184674555|SUPERIORITY_OR_OTHER|||||||0.759||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 1 Average Pain Severity 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.759
92386552|NCT00536471|184674555|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 7 How Bothered by Pain 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.190
92386553|NCT00536471|184674555|SUPERIORITY_OR_OTHER|||||||0.852||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 7 How Bothered by Pain 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.852
92386554|NCT00536471|184674556|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.032
92386555|NCT00536471|184674556|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||<0.001
92386556|NCT00536471|184674556|SUPERIORITY_OR_OTHER|||||||0.705||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.705
92386557|NCT00536471|184674556|SUPERIORITY_OR_OTHER|||||||0.388||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.388
92386558|NCT00536471|184674557|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.161
92416931|NCT00534313|184721598|SUPERIORITY_OR_OTHER||Difference|14.6||||0.121|TWO_SIDED|95.0|-3.5|32.6||p-value (2-sided) was based on CMH with stratification of baseline BSA affected by psoriasis.|Cochran-Mantel-Haenszel||Difference was based on CMH with stratification of baseline BSA affected by psoriasis.|||32.6|-3.5|0.121
92171756|NCT02549339|184232761|SUPERIORITY||Week 8 AK count ratio|0.3|||<|0.001|TWO_SIDED|95.0|0.25|0.35||Negative binominal regression with treatment group and pooled site as factors and log baseline count as offset variable.|Mantel Haenszel||0.018% relative to vehicle.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||0.35|0.25|<0.001
92171757|NCT02641912|184232904|SUPERIORITY_OR_OTHER||Least sqaure (LS) mean difference|0.63||||0.0084|TWO_SIDED|95.0|0.17|1.1|||ANOVA|From ANOVA model with factors for treatment and confirmed Sjögren's syndrome status stratification using Observed Margins option.|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|||1.10|0.17|0.0084
92386559|NCT00536471|184674557|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.198
92386560|NCT00536471|184674557|SUPERIORITY_OR_OTHER|||||||0.982||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.982
92386561|NCT00536471|184674557|SUPERIORITY_OR_OTHER|||||||0.407||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.407
92386562|NCT00536471|184674558|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.001
92386563|NCT00536471|184674558|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.006
92386564|NCT00536471|184674558|SUPERIORITY_OR_OTHER|||||||0.231||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.231
92386565|NCT00536471|184674558|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.040
92386566|NCT00536471|184674559|SUPERIORITY_OR_OTHER|||||||0.914||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Systolic Blood Pressure 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.914
92386567|NCT00536471|184674559|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Systolic Blood Pressure 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.011
92386568|NCT00536471|184674559|SUPERIORITY_OR_OTHER|||||||0.296||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Diastolic Blood Pressure 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.296
92386569|NCT00536471|184674559|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Diastolic Blood Pressure 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.034
92416932|NCT00534313|184721605|SUPERIORITY_OR_OTHER||Difference|-6.0|||||TWO_SIDED|95.0|-23.0|11.0|||Cochran-Mantel-Haenszel||Difference and 95% confidence intervals (CI) was based on CMH with stratification of baseline BSA affected by psoriasis.|||11.0|-23.0|
92386570|NCT00536471|184674559|SUPERIORITY_OR_OTHER|||||||0.874||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Systolic Blood Pressure (SBP) 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.874
92386571|NCT00536471|184674559|SUPERIORITY_OR_OTHER|||||||0.614||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Systolic Blood Pressure (SBP) 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.614
92386572|NCT00536471|184674559|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Diastolic Blood Pressure (DBP) 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.146
92386573|NCT00536471|184674559|SUPERIORITY_OR_OTHER|||||||0.877||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Diastolic Blood Pressure (DBP) 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.877
92386574|NCT00536471|184674560|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.012
92386575|NCT00536471|184674560|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.045
92234462|NCT05740813|184372268|SUPERIORITY||Mean Difference (Net)|1.796|STANDARD_ERROR_OF_MEAN|4.222||0.6707|TWO_SIDED|95.0|-6.506|10.099|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 1 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|10.099|-6.506|0.6707
92386576|NCT00536471|184674560|SUPERIORITY_OR_OTHER|||||||0.701||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.701
92386577|NCT00536471|184674560|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.081
92386578|NCT00536471|184674561|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.013
92416933|NCT00534313|184721605|SUPERIORITY_OR_OTHER||Difference|-0.5|||||TWO_SIDED|95.0|-18.0|17.1|||Cochran-Mantel-Haenszel||Difference and 95% CI was based on CMH with stratification of baseline BSA affected by psoriasis.|||17.1|-18.0|
92416934|NCT00534313|184721605|SUPERIORITY_OR_OTHER||Difference|10.4|||||TWO_SIDED|95.0|-7.6|28.5|||Cochran-Mantel-Haenszel||Difference and 95% CI was based on CMH with stratification of baseline BSA affected by psoriasis.|||28.5|-7.6|
92416935|NCT00534313|184721606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.77|||||TWO_SIDED|95.0|-7.02|44.56|||ANCOVA|||||44.56|-7.02|
92416936|NCT00534313|184721606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.34|||||TWO_SIDED|95.0|-3.93|48.6|||ANCOVA|||||48.60|-3.93|
92416937|NCT00534313|184721606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.48|||||TWO_SIDED|95.0|4.82|56.15|||ANCOVA|||||56.15|4.82|
92234463|NCT05740813|184372268|SUPERIORITY||Mean Difference (Net)|12.318|STANDARD_ERROR_OF_MEAN|5.011||0.0144|TWO_SIDED|95.0|2.463|22.172|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 2 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|22.172|2.463|0.0144
92239720|NCT00410280|184383311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.17||||0.1326|TWO_SIDED|95.0|-39.72|5.39|||ANOVA|||Day 35: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||5.39|-39.72|0.1326
92386579|NCT00536471|184674561|SUPERIORITY_OR_OTHER|||||||0.672||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.672
92416938|NCT00534313|184721608|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.08||||||95.0|-4.79|8.96|||ANCOVA|ANCOVA model with treatment as factor and baseline value as covariate was used for the analysis.||||8.96|-4.79|
92416939|NCT00534313|184721608|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.01|||||TWO_SIDED|95.0|-4.94|8.95|||ANCOVA|ANCOVA model with treatment as factor and baseline value as covariate was used for the analysis.||||8.95|-4.94|
92416940|NCT00534313|184721608|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75|||||TWO_SIDED|95.0|-6.08|7.58|||ANCOVA|ANCOVA model with treatment as factor and baseline value as covariate was used for the analysis.||||7.58|-6.08|
92416941|NCT00534313|184721612|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.15|||||TWO_SIDED|95.0|1.97|12.33|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as factor and baseline value as covariate was used for the analysis.||||12.33|1.97|
92416942|NCT00534313|184721612|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.12|||||TWO_SIDED|95.0|3.83|14.41|||ANCOVA|ANCOVA model with treatment as factor and baseline value as covariate was used for the analysis||||14.41|3.83|
92416943|NCT00534313|184721612|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.17|||||TWO_SIDED|95.0|1.01|11.32|||ANCOVA|ANCOVA model with treatment as factor and baseline value as covariate was used for the analysis.||||11.32|1.01|
92416944|NCT00534313|184721613|SUPERIORITY_OR_OTHER||Difference|16.0|||||TWO_SIDED|95.0|-2.5|34.5|||Cochran-Mantel-Haenszel||Difference and 95% CI was based on CMH with stratification of baseline BSA affected by psoriasis.|||34.5|-2.5|
92416945|NCT00534313|184721613|SUPERIORITY_OR_OTHER||Difference|26.1||||||95.0|6.8|45.5|||Cochran-Mantel-Haenszel||Difference and 95% CI was based on CMH with stratification of baseline BSA affected by psoriasis.|||45.5|6.8|
92171758|NCT00274469|184232989|NON_INFERIORITY|Study is powered basing on 20% deficiency in benefit rate for Fulvestrant compared to Anastrozole.|Odds Ratio (OR)|1.302||||0.386|TWO_SIDED|95.0|0.717|2.38||Null hypothesis: Fulvestrant has no difference with Anastrozole|Regression, Logistic||OR\>1 favours Fulvestrant|||2.380|0.717|0.386
92386580|NCT00536471|184674561|SUPERIORITY_OR_OTHER|||||||0.874||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.874
92386581|NCT00536471|184674561|SUPERIORITY_OR_OTHER|||||||0.39||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.390
92386582|NCT00536471|184674566|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||P-value for Bilirubin - 12 Week Change.|ANOVA|||||||0.046
92386583|NCT00536471|184674566|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||P-value for Creatinine - 12 Week Change.|ANOVA|||||||0.031
92386584|NCT00536471|184674566|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Uric Acid - 12 Week Change.|ANOVA|||||||0.003
92386585|NCT00536471|184674566|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-value for Bilirubin - 9 Month Change.|ANOVA|||||||0.033
92386586|NCT00536471|184674566|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Uric Acid - 9 Month Change.|ANOVA|||||||0.013
92386587|NCT00536471|184674567|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value for Hematocrit - 12 Week Change.|ANOVA|||||||0.037
92386588|NCT00536471|184674567|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value for Hematocrit - 9 Month Change.|ANOVA|||||||0.029
92386589|NCT00536471|184674568|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for MCV - 12 Week Change.|ANOVA|||||||0.013
92386590|NCT00536471|184674568|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||P-value for MCV - 9 Month Change.|ANOVA|||||||0.014
92386591|NCT00536471|184674569|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for Chloride - 12 Week Change.|ANOVA|||||||0.022
92416946|NCT00534313|184721613|SUPERIORITY_OR_OTHER||Difference|16.6||||||95.0|-1.8|34.9|||Cochran-Mantel-Haenszel||Difference and 95% CI was based on CMH with stratification of baseline BSA affected by psoriasis.|||34.9|-1.8|
92416947|NCT00402233|184721614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4|||<|0.0001||95.0|-6.53|-2.26|||ANCOVA|||||-2.26|-6.53|<0.0001
92386592|NCT00536471|184674569|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||P-value for Urea Nitrogen - 12 Week Change.|ANOVA|||||||0.044
92386593|NCT00536471|184674569|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for Chloride - 9 Month Change.|ANOVA|||||||0.004
92386594|NCT00536471|184674569|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||P-value for Cholesterol - 9 Month Change.|ANOVA|||||||0.045
92386595|NCT00536471|184674569|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||P-value for Sodium - 9 Month Change.|ANOVA|||||||0.043
92386596|NCT00536471|184674570|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value for 12 Week Change.|ANOVA|||||||0.017
92386597|NCT00536471|184674570|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for 9 Month Change.|ANOVA|||||||0.003
92171759|NCT00274469|184232990|SUPERIORITY||Odds Ratio (OR)|1.021||||0.947|TWO_SIDED|95.0|0.556|1.874|||Regression, Logistic||OR\>1 favours Fulvestrant|||1.874|0.556|0.947
92171760|NCT00274469|184232991|SUPERIORITY||Hazard Ratio (HR)|0.6266||||0.0496|TWO_SIDED|95.0|0.3929|0.9991|||Log Rank||HR\<1 favours Fulvestrant|||0.9991|0.3929|0.0496
92386598|NCT00536471|184674571|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||ANOVA|||||||0.033
92386599|NCT00536471|184674572|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||ANOVA|||||||0.045
92386600|NCT00536471|184674573|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||P-value for Lymphocytes - High.|Fisher Exact|||||||0.041
92386601|NCT00536471|184674573|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||P-value for Potassium - Low.|Fisher Exact|||||||0.048
92386602|NCT00536471|184674574|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value for Lymphocytes - High.|Fisher Exact|||||||0.012
92386603|NCT00536471|184674574|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||P-value for Potassium - Low.|Fisher Exact|||||||0.049
92386604|NCT00536471|184674575|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value for Lymphocytes - High.|Fisher Exact|||||||0.012
92386605|NCT00536471|184674575|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||P-value for Hemoglobin - Low.|Fisher Exact|||||||0.038
92386606|NCT02932748|184674578|SUPERIORITY||||||<|0.0001||||||A global one-way ANOVA was followed by two pairwise t-tests on the comparisons of interest, i.e., IP vs. EUC, and GP vs IP for weight change across 6 months, evaluated at p ≤ 0.025, using both intent-to-treat and completer only data.|ANOVA|||||||<.0001
92386607|NCT00475904|184674586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.547|STANDARD_ERROR_OF_MEAN|0.2709||0.0441|TWO_SIDED|95.0|0.01|1.08||a priori threshold for statistical significance was p\<0.05|ANOVA|||In the initial analysis, the efficacy of the test treatment NP-1 cream was compared with placebo using an analysis of variance (ANOVA). The analysis was conducted using the ITT population to compare the mean changes in pain scores from baseline to endpoint for the 2 treatments; the LOCF approach was employed for patients who did not complete the trial.||1.08|0.01|0.0441
92386608|NCT00475904|184674587|NON_INFERIORITY_OR_EQUIVALENCE|To conclude that the NP-1 was not inferior to gabapentin, the upper limit of the 2-sided 90% CI for the difference between treatments for the endpoint mean pain score was required to be below the non-inferiority margin of 0.70.|Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.2311||0.8409|TWO_SIDED|90.0|-0.33|0.43||To conclude that the NP-1 was not inferior to gabapentin, the upper limit of the 2-sided 90% CI for the difference between treatments for the endpoint mean pain score was required to be below the non-inferiority margin of 0.70.|ANCOVA|||the primary hypothesis of this study was that NP-1 topical cream (amitriptyline 4%/ketamine 2%) administered twice daily in doses of 4 gm for 4 weeks is not inferior to the standard treatment (oral gabapentin 600 mg 3 times daily) for relieving the pain of adult patients with PHN.||0.43|-0.33|0.8409
92416948|NCT00402233|184721614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.41|||<|0.0001||95.0|-6.54|-2.28|||ANCOVA|||||-2.28|-6.54|<0.0001
92416949|NCT00402233|184721614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.72|||<|0.0001||95.0|-6.91|-2.52|||ANCOVA|||||-2.52|-6.91|<0.0001
92416950|NCT00402233|184721615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.893||||||95.0|0.431|1.849|||Regression, Logistic|||||1.849|0.431|
92416951|NCT00402233|184721615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.885||||||95.0|0.424|1.845|||Regression, Logistic|||||1.845|0.424|
92416952|NCT00402233|184721615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.687||||||95.0|0.317|1.492|||Regression, Logistic|||||1.492|0.317|
92234464|NCT05740813|184372269|SUPERIORITY||Mean Difference (Net)|1.092||||0.0253|TWO_SIDED|95.0|1.011|1.179|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|Least squares mean difference between ABBV-CLS-7262 Dose 1 24-week change from baseline and placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|1.179|1.011|0.0253
92386609|NCT00880191|184674588|SUPERIORITY_OR_OTHER|||||||0.2344|TWO_SIDED||||||Fisher Exact|||Complete Responders by Arm - Days 2-6, the primary analysis utilizes Fisher's exact test to compare the percentage of complete responders in each group (dex/gabapentin vs. dex/placebo), with complete response being defined as no emetic episodes and no use of rescue therapy for days 2 through 6. If a patient does not complete the study or does not provide complete data, they will be assumed to be a non-responder.||||0.2344
92386610|NCT00880191|184674589|SUPERIORITY_OR_OTHER|||||||0.3694|TWO_SIDED||||||Fisher Exact|||The primary analysis described above was repeated using a slightly different alternate definition of complete response: no emetic episodes, no more than a mean of 2.5 on the nausea numeric analogue scale, and no rescue agents.||||0.3694
92386611|NCT00066963|184674597|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.8|||<|0.001|TWO_SIDED|95.0|1.9|7.6|||Mantel Haenszel|2 d.f.|Counseling Only vs FV 2x/yr+Counseling|Planned sample size of 384 participants (128/study arm) (alpha = 0.05, power = 90%, 50% attrition, χ2 test) to detect caries incidence differences, based on caries incidence in the literature (20% to 50% over two years). 50% attrition in the sample size calculation was selected based on the literature (e.g. Weinstein et al., 1994 reported 53% attrition in six months.)||7.6|1.9|<0.001
92386612|NCT00773747|184674598|SUPERIORITY||Cox Proportional Hazard|0.774|||=|0.01|TWO_SIDED|95.0|0.636|0.941|||Regression, Cox|||Cox model stratified by myeloma stage at enrollment, history of a bone marrow transplant, and number of prior treatment regimens, with a single treatment covariate.||0.941|0.636|= 0.0100
92386613|NCT00773747|184674600|SUPERIORITY||Cox Proportional Hazard|0.858||||0.3496|TWO_SIDED|95.0|0.622|1.184|||Regression, Cox|||Cox model stratified by myeloma stage at enrollment, history of a bone marrow transplant, and number of prior treatment regimens, with a single treatment covariate.||1.184|0.622|0.3496
92386614|NCT03422536|184674609|EQUIVALENCE|The pre-specified significance criteria were met by exclusion of the historical control PFS of 2.0 months. As confirmation, the one-sample log rank test was computed with expected survival estimated using an exponential distribution of 2.0 months.||||||0.04||||||The a priori threshold for statistical significance is \<.05|Log Rank|||||||.04
92386615|NCT03422536|184674614|SUPERIORITY|||||||0.005|||||||Regression, Cox|||c-Met positivity was compared across groups: HPV+ vs HPV-||||.005
92386616|NCT03422536|184674614|SUPERIORITY||Cox Proportional Hazard|0.3||||0.02|TWO_SIDED|95.0|0.1|0.8|||Log Rank|||Post-hoc comparison of progression free survival (PFS) in cMet positive vs. c-Met negative patients.||0.8|0.1|.02
92386617|NCT03422536|184674614|SUPERIORITY||Cox Proportional Hazard|0.1||||0.03|TWO_SIDED|95.0|0.03|0.8|||Log Rank|||Post hoc comparison of PFS in the combination arm by HPV subgroup, adjusted for prognostic factors marginally associated with HPV status (P , .10), was assessed using Cox proportional hazards models. Here we are looking at cMet positivity in HPV- patients in the combination arm.||0.8|0.03|0.03
92386618|NCT03422536|184674614|SUPERIORITY||Cox Proportional Hazard|3.2||||0.2|TWO_SIDED|95.0|0.6|17.5|||Log Rank|||Post hoc comparison of PFS in the combination arm by HPV subgroup, adjusted for prognostic factors marginally associated with HPV status (P , .10), was assessed using Cox proportional hazards models. Here we are looking at cMet positivity in HPV+ patients in the combination arm.||17.5|0.6|.20
92416953|NCT00402233|184721616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.14||||0.014||95.0|0.23|2.04|||ANCOVA|||||2.04|0.23|0.014
92416954|NCT00402233|184721616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.03||95.0|0.094|1.9|||ANCOVA|||||1.9|0.094|0.03
92234465|NCT05740813|184372269|SUPERIORITY||Mean Difference (Net)|1.073||||0.1364|TWO_SIDED|95.0|0.978|1.175|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|Least squares mean difference between ABBV-CLS-7262 Dose 2 24-week change from baseline and placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|1.175|0.978|0.1364
92234466|NCT05740813|184372270|SUPERIORITY||Mean Difference (Net)|-0.058|STANDARD_ERROR_OF_MEAN|2.1327||0.9782|TWO_SIDED|95.0|-4.254|4.137|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 1 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|4.137|-4.254|0.9782
92278494|NCT01102777|184459206|SUPERIORITY_OR_OTHER|||||||0.52|||||||Mixed Models Analysis|Based on mixed models, adjusting for time, MMRC score, and urban versus rural residence.||||||.52
92386619|NCT03422536|184674614|SUPERIORITY||Cox Proportional Hazard|1.4||||0.1|TWO_SIDED|95.0|0.9|2.0|||Log Rank|||Post-hoc comparison of progression free survival (PFS) in HGF positive vs. HGF negative patients.||2.0|0.9|.10
92386620|NCT03422536|184674614|SUPERIORITY||Cox Proportional Hazard|1.4||||0.6|TWO_SIDED|95.0|0.4|4.7|||Log Rank|||Post hoc comparison of PFS in the combination arm by HPV subgroup, adjusted for prognostic factors marginally associated with HPV status (P , .10), was assessed using Cox proportional hazards models. Here we are looking at HGF expression in HPV- patients in the combination arm.||4.7|0.4|.60
92416955|NCT00402233|184721616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.49||||0.0019||95.0|0.56|2.43|||ANCOVA|||||2.43|0.56|0.0019
92416956|NCT00402233|184721617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.39||95.0|-1.82|0.71|||ANCOVA|||||0.71|-1.82|0.39
92416957|NCT00402233|184721617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.37||95.0|-1.84|0.69|||ANCOVA|||||0.69|-1.84|0.37
92416958|NCT00402233|184721617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.48||95.0|-1.78|0.84|||ANCOVA|||||0.84|-1.78|0.48
92234467|NCT05740813|184372270|SUPERIORITY||Mean Difference (Net)|-1.652|STANDARD_ERROR_OF_MEAN|2.5101||0.5108|TWO_SIDED|95.0|-6.59|3.286|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 2 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|3.286|-6.590|0.5108
92234468|NCT05740813|184372271|SUPERIORITY|||||||0.6481|||||||Log Rank|Dose 1. See Other Statistical Analysis for model adjustment details.|||Cox proportional hazards model adjusted for age at baseline, time since ALS symptom onset, delta FRS, baseline log-transformed serum NfL level, use of riluzole at baseline, use of riluzole at baseline, and use of Relyvrio at baseline.|||0.6481
92234469|NCT05740813|184372271|SUPERIORITY|||||||0.6344|||||||Log Rank|Dose 2. See Other Statistical Analysis for model adjustment details.|||Cox proportional hazards model adjusted for age at baseline, time since ALS symptom onset, delta FRS, baseline log-transformed serum NfL level, use of riluzole at baseline, use of riluzole at baseline, and use of Relyvrio at baseline.|||0.6344
92234470|NCT00315302|184372277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|0.24||0.21||95.0|-0.2|0.8|||ANCOVA||The difference was calculated as atropine plus plano group minus atropine group|"The primary analysis was a treatment group comparison of logMAR visual acuity scores in the amblyopic eye obtained 18 weeks after randomization, adjusted for baseline acuity scores in an analysis of covariance (ANCOVA) model.~The primary analysis included only patients with visual acuity of 20/40 to 20/100; sample size was based upon a two-sided alpha of 0.05, with 90% power to detect a difference if the true difference in change from baseline between groups was 0.075 logMAR at 18 weeks."||0.8|-0.2|0.21
92234471|NCT00315302|184372278|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Regression, Logistic|proportion 20/25 as a function of treatment group controlling for baseline acuity||"Null hypothesis: proportion 20/25 or better at 18wks in atropine group = proportion 20/25 or better at 18wks in atropine plus plano group~Alternative hypothesis: proportion 20/25 or better at 18wks in atropine group NOT equal to proportion 20/25 or better at 18wks in atropine plus plano group"||||.03
92234472|NCT00315302|184372279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|STANDARD_DEVIATION|3.1|||TWO_SIDED|95.0|3.2|5.8||||||95% confidence interval calculated within treatment group on the amount of change from baseline||5.8|3.2|
92234473|NCT00315302|184372279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|STANDARD_DEVIATION|3.7|||TWO_SIDED|95.0|3.7|6.4||||||95% confidence interval calculated within treatment group on the amount of change from baseline||6.4|3.7|
92234474|NCT00315302|184372280|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||Regression, Logistic|proportion 20/25 as a function of treatment group controlling for baseline acuity||"Null hypothesis: proportion 3 or more lines better at 18wks in atropine group = proportion 3 or more lines better at 18wks in atropine plus plano group~Alternative hypothesis: proportion 3 or more lines better at 18wks in atropine group NOT equal to proportion 3 or more lines better at 18wks in atropine plus plano group"||||0.39
92234475|NCT00315302|184372281|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test to evaluate difference in change from baseline in stereoacuity by treatment group||All patients without respect to cause of amblyopia.||||0.39
92234476|NCT00315302|184372282|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test to evaluate difference in change from baseline in stereoacuity by treatment group||Among anisometropic patients only||||0.90
92386621|NCT03422536|184674614|SUPERIORITY||Cox Proportional Hazard|3.4||||0.07|TWO_SIDED|95.0|0.9|13.1|||Log Rank|||Post hoc comparison of PFS in the combination arm by HPV subgroup, adjusted for prognostic factors marginally associated with HPV status (P \< .10), was assessed using Cox proportional hazards models. Here we are looking at HGF expression in HPV+ patients in the combination arm.||13.1|0.9|.07
92416959|NCT00492063|184721627|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain A/H1N1, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain A/H1N1 after one vaccination in adults.||3|-3|
92416960|NCT00492063|184721627|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain A/H3N2, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|0.0|||||TWO_SIDED|95.0|-1.0|2.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain A/H3N2 after one vaccination in adults.||2|-1|
92234477|NCT00315302|184372284|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||"Null hypothesis: proportion 1 or more lines worse and worse than 20/20 at 18wks same in both groups;~Alternate: proportion 1 or more lines worse and worse than 20/20 at 18wks same in both groups"||||0.003
92416961|NCT00492063|184721627|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain B, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain B after one vaccination in adults.||3|-3|
92234478|NCT00440401|184372346|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Normal approximation to the binominal distribution is used to construct the asymptotic confidence intervals||||||<0.0001
92234479|NCT00440401|184372347|SUPERIORITY_OR_OTHER||||||<|0.0006||95.0|||||Cochran-Mantel-Haenszel|Normal approximation to the binominal distribution is used to construct the asymptotic confidence intervals||||||<0.0006
92234480|NCT00091793|184372362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|||<|0.0001||95.0|6.2|7.8|||ANCOVA|||||7.8|6.2|<0.0001
92234481|NCT02424149|184372380|SUPERIORITY_OR_OTHER|||||||0.77|||||||t-test, 2 sided|||||||0.77
92234482|NCT02424149|184372381|SUPERIORITY_OR_OTHER|||||||0.73|||||||t-test, 2 sided|||||||0.73
92234483|NCT02424149|184372382|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
92234484|NCT02424149|184372383|SUPERIORITY_OR_OTHER|||||||0.78|||||||t-test, 2 sided|||||||0.78
92234485|NCT02424149|184372384|SUPERIORITY_OR_OTHER|||||||0.04|||||||Fisher Exact|||||||0.04
92234486|NCT01238120|184372389|SUPERIORITY|||||||0.9168|||||||ANCOVA|||||||0.9168
92234487|NCT01238120|184372390|SUPERIORITY|||||||0.6536|||||||ANCOVA|||||||0.6536
92234488|NCT02498652|184372405|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|103.0|||||TWO_SIDED|90.0|90.7|117.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects.||||117|90.7|
92234489|NCT02498652|184372405|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|92.6|||||TWO_SIDED|90.0|78.1|110.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects.||||110|78.1|
92234490|NCT02498652|184372405|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|102.0|||||TWO_SIDED|90.0|85.7|120.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||120|85.7|
92234491|NCT02498652|184372405|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|88.9|||||TWO_SIDED|90.0|78.4|101.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||101|78.4|
92234492|NCT02498652|184372405|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|100.0|||||TWO_SIDED|90.0|87.7|114.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale||||114|87.7|
92234493|NCT02498652|184372405|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|101.0|||||TWO_SIDED|90.0|85.5|119.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||119|85.5|
92234494|NCT02498652|184372408|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|100.0|||||TWO_SIDED|90.0|94.3|107.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||107|94.3|
92234495|NCT02498652|184372408|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|98.0|||||TWO_SIDED|90.0|90.4|106.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||106|90.4|
92234496|NCT02498652|184372408|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|104.0|||||TWO_SIDED|90.0|94.5|114.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||114|94.5|
92386622|NCT01973998|184674618|EQUIVALENCE|The primary outcome is time from randomization to a composite outcome of all cause re-hospitalization and all-cause mortality, whichever comes first. The primary analysis will be a log-ranked test and associated Kaplan-Meier plot, unadjusted for any covariates|Hazard Ratio (HR)|1.654|STANDARD_DEVIATION|0.4789|<|0.1|TWO_SIDED|10.0|1.175|2.133||Because this is a pilot study the intent is to see if there is a signal that would justify a larger clinical trial. Therefore the significance level has been set to 0.1 and the power has been set at 0.7.|Log Rank|||||2.133|1.175|<0.1
92234497|NCT02498652|184372408|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|92.0|||||TWO_SIDED|90.0|86.7|97.7|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||97.7|86.7|
92234498|NCT02498652|184372408|NON_INFERIORITY|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|98.9|||||TWO_SIDED|90.0|91.0|107.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||107|91.0|
92234499|NCT02498652|184372408|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%|Geometric Least Squares Mean Ratio (%)|97.5|||||TWO_SIDED|90.0|92.8|102.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||102|92.8|
92234500|NCT01078753|184372414|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.813||||0.009|TWO_SIDED|95.0|0.462|3.163||Desmopressin was considered to be superior to Placebo if the p-value for the comparison was \< 0.05 and the reduction from Baseline in number of wet nights was larger in the FE992026 group than in the Placebo group.|ANCOVA|Factors in the analysis were Gender (male, female), age (6≤x≤9, 10≤x≤15), number of wet nights at Baseline (10≤x≤13, x=14), and treatment group.||||3.163|0.462|0.009
92234501|NCT01078753|184372415|SUPERIORITY_OR_OTHER||Least Squares mean Difference|1.629||||0.018|TWO_SIDED|95.0|0.287|2.972|||ANCOVA|Factors in the analysis were Gender (male, female), age (6≤x≤9, 10≤x≤15), number of wet nights at Baseline (10≤x≤13, x=14), and treatment group.||||2.972|0.287|0.018
92234502|NCT01078753|184372416|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.183||||0.752|TWO_SIDED|95.0|-0.968|1.335|||ANCOVA|Factors in the analysis included Gender (male, female), age (6≤x≤9, 10≤x≤15), number of wet nights at Baseline (10≤x≤13, x=14), and treatment group.||||1.335|-0.968|0.752
92234503|NCT00780403|184372471|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Statistical tests were performed at the significance level of 5%, without multiplicity adjustment.|Mainland-Gart Test|The p-value was derived from Mainland-Gart Test applied to a 2 (treatment sequence) by 2 (preferred period) contingency table.||The Mainland-Gart test was applied to the preference rates in the subjects who showed a preference, to assess the difference in preference rates between RediTab and Zyrtec.||||<0.0001
92234504|NCT01476787|184372476|SUPERIORITY|||||||0.128|||||||Cochran-Mantel-Haenszel|||||||0.128
92234505|NCT01476787|184372477|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.406|TWO_SIDED|95.0|0.756|1.12|||Log Rank|||||1.120|0.756|0.406
92234506|NCT01476787|184372479|SUPERIORITY||Hazard Ratio (HR)|1.038|||||TWO_SIDED|95.0|0.854|1.261||||||||1.261|0.854|
92234507|NCT01476787|184372480|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.775|1.395||||||||1.395|0.775|
92234508|NCT01476787|184372481|SUPERIORITY||Hazard Ratio (HR)|0.809|||||TWO_SIDED|95.0|0.651|1.006|||Regression, Cox|||||1.006|0.651|
92234509|NCT02234622|184372495|SUPERIORITY||Mean Difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|1.6||0.002|TWO_SIDED|95.0|-8.2|-1.8|||Mixed Models Analysis|||||-1.8|-8.2|0.002
92234510|NCT02234622|184372496|SUPERIORITY||Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|2.2||0.005|TWO_SIDED|95.0|-10.3|-1.8|||Mixed Models Analysis|||||-1.8|-10.3|0.005
92234511|NCT02234622|184372497|SUPERIORITY||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|2.6||0.042|TWO_SIDED|95.0|-11.9|-1.6|||Mixed Models Analysis|||||-1.6|-11.9|0.042
92234512|NCT02234622|184372498|SUPERIORITY||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|1.4||0.482|TWO_SIDED|95.0|-4.2|1.1|||Mixed Models Analysis|||||1.1|-4.2|0.482
92234513|NCT02234622|184372499|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.7||0.635|TWO_SIDED|95.0|-4.7|1.9|||Mixed Models Analysis|||||1.9|-4.7|0.635
92234514|NCT02234622|184372500|SUPERIORITY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|1.8||0.367|TWO_SIDED|95.0|-6.0|1.1|||Mixed Models Analysis|||||1.1|-6.0|0.367
92234515|NCT02234622|184372501|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.668|TWO_SIDED|95.0|-0.5|1.0|||Mixed Models Analysis|||||1.0|-0.5|0.668
92234516|NCT00144300|184372502|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||||95.0|0.71|1.6||||||||1.60|0.71|
92234517|NCT01650805|184372523|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified Analysis by Sokal score||||||0.074
92234518|NCT01650805|184372525|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified Analysis by Sokal score||||||<0.001
92234519|NCT01650805|184372526|SUPERIORITY_OR_OTHER|||||||0.317|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified Analysis by Sokal score||||||0.317
92234520|NCT05165394|184372589|SUPERIORITY||Least-Squares Mean Treatment Difference|-3.9|STANDARD_ERROR_OF_MEAN|3.5||0.8663|ONE_SIDED|90.0|-8.4|||Significance level = 0.1|ANCOVA||Confidence interval and p-value are one-sided for test of null hypothesis that the LS mean difference between NBI-1065846 and placebo in DARS total score at Day 57 is greater than or equal to zero.||||-8.4|0.8663
92234521|NCT05165394|184372590|SUPERIORITY||Least-Squares Mean Treatment Difference|-1.1|STANDARD_ERROR_OF_MEAN|3.0||0.7008|TWO_SIDED|95.0|-7.1|4.8|||ANCOVA||NBI-1065846 - Placebo|||4.8|-7.1|0.7008
92386623|NCT01973998|184674618|SUPERIORITY||Hazard Ratio (HR)|1.654|STANDARD_DEVIATION|0.4789||0.1|TWO_SIDED|10.0|1.175|2.133|||Log Rank|||A total of 100 patients is required in a 2 treatment parallel-design study. There is a 70% probability that the study will detect a treatment difference at a 2-sided 10% significance level, if the true hazard ratio is 1.654. This is based on the assumption that the accrual period will be 36 months and the follow up period will be 6 months and the median time to event is 8 months. The total number of events will be 73.||2.133|1.175|0.1
92171761|NCT00274469|184232992|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.05|TWO_SIDED|95.0|0.54|1.0|||Log Rank||HR\<1 favours Fulvestrant|||1.00|0.54|0.05
92234522|NCT05165394|184372591|SUPERIORITY|||||||0.9051|||||||Cochran-Mantel-Haenszel Chi-square test|||CGI-S scores at Day 57 for NBI-1065846 compared to placebo.||||0.9051
92234523|NCT02495077|184372597|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.099|TWO_SIDED|95.0|-10.73|0.93|||Mixed Models Analysis|||Mean eGFR of the two treatment groups was compared. The p-value, estimated month 24 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence intervals result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group. Random effects for the intercept and eGFR collection day were utilized in the model.||0.93|-10.73|0.099
92234524|NCT02495077|184372598|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92234525|NCT02495077|184372599|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92234526|NCT02495077|184372601|SUPERIORITY|||||||0.746|||||||Fisher Exact|||||||0.746
92234527|NCT02495077|184372602|SUPERIORITY|||||||0.242|||||||Chi-squared|||||||0.242
92234528|NCT02495077|184372604|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92234529|NCT02495077|184372605|SUPERIORITY|||||||0.497|||||||Fisher Exact|||||||0.497
92234530|NCT02495077|184372606|SUPERIORITY|||||||0.622|||||||Fisher Exact|||||||0.622
92234531|NCT02495077|184372608|SUPERIORITY|||||||0.011|||||||Chi-squared|||||||0.011
92234532|NCT02495077|184372609|SUPERIORITY|||||||0.135|||||||Cochran-Mantel-Haenszel|||||||0.135
92234533|NCT02495077|184372610|SUPERIORITY|||||||0.157|||||||Chi-squared|||||||0.157
92234534|NCT02495077|184372611|SUPERIORITY|||||||0.071|||||||Chi-squared|||||||0.071
92234535|NCT02495077|184372612|SUPERIORITY|||||||0.543|||||||t-test, 2 sided|||||||0.543
92234536|NCT02495077|184372613|SUPERIORITY|||||||0.617|||||||t-test, 2 sided|||||||0.617
92234537|NCT02495077|184372614|SUPERIORITY|||||||0.275|||||||t-test, 2 sided|||||||0.275
92234538|NCT02495077|184372615|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.300
92234539|NCT02495077|184372616|SUPERIORITY|||||||0.152|||||||t-test, 2 sided|||||||0.152
92234540|NCT02495077|184372617|SUPERIORITY|||||||0.181|||||||t-test, 2 sided|||||||0.181
92234541|NCT02495077|184372618|SUPERIORITY||Mean Difference (Final Values)|-1.03||||0.639|TWO_SIDED|95.0|-5.37|3.3|||Mixed Models Analysis|||Day 7. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 7 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from day 7 and months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 7. Random effects for the intercept and eGFR collection day were utilized in the model.||3.30|-5.37|0.639
92239721|NCT00410280|184383312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.76||||0.0423|TWO_SIDED|95.0|-19.16|-0.35|||ANOVA|||Day 14: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||-0.35|-19.16|0.0423
92169698|NCT04992390|184227907|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-2.29|||<=|0.001|TWO_SIDED|95.0|-3.52|-1.07||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for PTSD Checklist for DSM-5 (PCL-5) 4-item version (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons.(Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-1.07|-3.52|<= 0.001
92234542|NCT02495077|184372619|SUPERIORITY||Mean Difference (Final Values)|-1.56||||0.51|TWO_SIDED|95.0|-6.22|3.1|||Mixed Models Analysis|||Day 30. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 30 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 30. Random effects for the intercept and eGFR collection day were utilized in the model.||3.10|-6.22|0.510
92386624|NCT02160145|184674647|OTHER||Treatment difference|1.271|||<|0.0001|TWO_SIDED|95.0|0.859|1.684||A 2-sided alpha of 0.05 was applied to the primary analysis of the primary endpoint.|ANCOVA|Weighted Analysis of Covariance (ANCOVA) with effects of treatment and randomization stratification factors and covariate baseline.||Tolvaptan versus placebo. Treatment difference in the change of eGFR assessed the efficacy of tolvaptan treatment as compared with placebo in subjects with late-stage CKD due to ADPKD who tolerated tolvaptan during an initial run-in period.||1.684|0.859|<0.0001
92386625|NCT02160145|184674648|OTHER||Treatment difference|1.011|||<|0.0001|TWO_SIDED|95.0|0.618|1.403||A two-sided alpha of 0.05 was applied when the primary endpoint reached a two-sided alpha of 0.05.|Mixed Models Analysis|||Difference in treatment effect was derived from a linear mixed model with effects of treatment, time, treatment ime interaction, acute haemodynamic effect, pretreatment baseline, and randomization stratification factors. An unstructured variance matrix was assumed for the random intercept and time.||1.403|0.618|<0.0001
92386626|NCT00395850|184674658|SUPERIORITY_OR_OTHER||Slope|-1.02|||<|0.05|||||||Repeated Measures Logistic Regression|Repeated Measures Generalized Linear Models on a Binomial distribution, thus a Repeated Measures Logistic Regression||Used placebo group as contrast to determine whether slopes of disulfiram groups differed from slope of placebo group data||||<0.05
92386627|NCT00395850|184674659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92386628|NCT02540993|184674667|SUPERIORITY||Hazard Ratio (HR)|0.825|||=|0.0014|TWO_SIDED|95.0|0.732|0.928||P-value from stratified log-rank test. Significance was considered to be achieved if p-value ≤ 0.03282695.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||0.928|0.732|= 0.0014
92386629|NCT02540993|184674668|SUPERIORITY||Hazard Ratio (HR)|0.86|||=|0.0339|TWO_SIDED|95.0|0.747|0.989||P-value from stratified log-rank test. Significance was considered to be achieved if p-value ≤ 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||0.989|0.747|= 0.0339
92386630|NCT02540993|184674669|SUPERIORITY|If treatment effect on both primary and key secondary endpoint is significant, other secondary efficacy endpoints (i.e. all-cause mortality, all-cause hospitalization, change in UACR from baseline to Month 4, and secondary renal composite endpoint) will be tested hierarchically, starting with all-cause mortality. If treatment effect on all-cause mortality was not significant, all other endpoints would be tested in an exploratory manner.|Hazard Ratio (HR)|0.895|||=|0.2348|TWO_SIDED|95.0|0.746|1.075||P-value from stratified log-rank test. Significance was considered to be achieved if p-value ≤ 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||1.075|0.746|= 0.2348
92416962|NCT00492063|184721627|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain A/H1N1, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|-1.0|||||TWO_SIDED|95.0|-4.0|3.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain A/H1N1 after one vaccination in the elderly population.||3|-4|
92171762|NCT00274469|184232992|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.04|TWO_SIDED|95.0|0.52|0.98|||Regression, Cox|Cox regression analysis of TTTF controlling for baseline covariates.|HR\<1 favours Fulvestrant|||0.98|0.52|0.04
92171763|NCT00274469|184232993|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.01|TWO_SIDED|95.0|0.47|0.92|||Log Rank||HR\<1 favours Fulvestrant|||0.92|0.47|0.01
92234543|NCT02495077|184372619|SUPERIORITY||Mean Difference (Final Values)|-1.85||||0.43|TWO_SIDED|95.0|-6.45|2.76|||Mixed Models Analysis|||Day 90. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 90 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 90. Random effects for the intercept and eGFR collection day were utilized in the model.||2.76|-6.45|0.430
92386631|NCT02540993|184674670|SUPERIORITY|If treatment effect on both primary and key secondary endpoint is significant, other secondary efficacy endpoints (i.e. all-cause mortality, all-cause hospitalization, change in UACR from baseline to Month 4, and secondary renal composite endpoint) will be tested hierarchically, starting with all-cause mortality. If treatment effect on all-cause mortality was not significant, all other endpoints would be tested in an exploratory manner.|Hazard Ratio (HR)|0.946|||=|0.1623|TWO_SIDED|95.0|0.876|1.022||P-value from stratified log-rank test.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||1.022|0.876|= 0.1623
92386632|NCT02540993|184674671|SUPERIORITY|If treatment effect on both primary and key secondary endpoint is significant, other secondary efficacy endpoints (i.e. all-cause mortality, all-cause hospitalization, change in UACR from baseline to Month 4, and secondary renal composite endpoint) will be tested hierarchically, starting with all-cause mortality. If treatment effect on all-cause mortality was not significant, all other endpoints would be tested in an exploratory manner.|Ratio of least squares means|0.688|||<|0.0001|TWO_SIDED|95.0|0.662|0.715||P-value from F-test of equal means between the treatment groups.|ANCOVA|||||0.715|0.662|< 0.0001
92386633|NCT02540993|184674672|SUPERIORITY|If treatment effect on both primary and key secondary endpoint is significant, other secondary efficacy endpoints (i.e. all-cause mortality, all-cause hospitalization, change in UACR from baseline to Month 4, and secondary renal composite endpoint) will be tested hierarchically, starting with all-cause mortality. If treatment effect on all-cause mortality was not significant, all other endpoints would be tested in an exploratory manner.|Hazard Ratio (HR)|0.763|||=|0.0012|TWO_SIDED|95.0|0.648|0.9||P-value from stratified log-rank test.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||0.900|0.648|= 0.0012
92386634|NCT01620528|184674682|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386635|NCT01620528|184674682|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386636|NCT01620528|184674683|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386637|NCT01620528|184674683|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386638|NCT01620528|184674684|SUPERIORITY||Difference in LS Mean Change|-0.65|STANDARD_ERROR_OF_MEAN|0.155|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 1 of 7.||||< 0.001
92386639|NCT01620528|184674684|SUPERIORITY||Difference in LS Mean Change|-1.3|STANDARD_ERROR_OF_MEAN|0.156|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 1 of 7.||||< 0.001
92416963|NCT00492063|184721627|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain A/H3N2, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|-1.0|||||TWO_SIDED|95.0|-2.0|1.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain A/H3N2 after one vaccination in the elderly population.||1|-2|
92416964|NCT00492063|184721627|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain B, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain B after one vaccination in the elderly population.||4|-2|
92386640|NCT01620528|184674685|SUPERIORITY||Difference in LS Mean Change|-0.45|STANDARD_ERROR_OF_MEAN|0.074|<|0.001|TWO_SIDED|95.0|||||mixed-effects model|||Ranked secondary efficacy endpoint 2 of 7.||||< 0.001
92386641|NCT01620528|184674685|SUPERIORITY||Difference in Least Squares Mean|-1.32|STANDARD_ERROR_OF_MEAN|0.076|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 2 of 7.||||< 0.001
92386642|NCT01620528|184674686|SUPERIORITY||Difference in LS Mean Change|-0.16|STANDARD_ERROR_OF_MEAN|0.056||0.004|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 3 of 7.||||0.004
92386643|NCT01620528|184674686|SUPERIORITY||Least Squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.057|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 3 of 7.||||< 0.001
92386644|NCT01620528|184674687|SUPERIORITY||Difference in LS Mean Change|-0.01|STANDARD_ERROR_OF_MEAN|0.051||0.91|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 4 of 7.||||0.910
92234544|NCT02495077|184372619|SUPERIORITY||Mean Difference (Final Values)|-2.28||||0.328|TWO_SIDED|95.0|-6.86|2.31|||Mixed Models Analysis|||Day 180. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 180 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 180. Random effects for the intercept and eGFR collection day were utilized in the model.||2.31|-6.86|0.328
92278495|NCT01102777|184459207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|||||||||The determination of arm occurred after recruitment, and Study Reach is a recruitment value.||||
92386645|NCT01620528|184674687|SUPERIORITY||Difference in LS Mean Change|-0.26|STANDARD_ERROR_OF_MEAN|0.051|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 4 of 7.||||< 0.001
92386646|NCT01620528|184674688|SUPERIORITY||Difference in LS Mean Change|-0.07|STANDARD_ERROR_OF_MEAN|0.056||0.185|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 5 of 7.||||0.185
92386647|NCT01620528|184674688|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.057|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 5 of 7.||||< 0.001
92234545|NCT02495077|184372620|SUPERIORITY||Mean Difference (Final Values)|-0.85||||0.725|TWO_SIDED|95.0|-5.58|3.89|||Mixed Models Analysis|||Day 7. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 7 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from day 7 and months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 7. Random effects for the intercept and eGFR collection day were utilized in the model.||3.89|-5.58|0.725
92234546|NCT02495077|184372621|SUPERIORITY||Mean Difference (Final Values)|-1.35||||0.601|TWO_SIDED|95.0|-6.41|3.72|||Mixed Models Analysis|||Day 30. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 30 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 30. Random effects for the intercept and eGFR collection day were utilized in the model.||3.72|-6.41|0.601
92234547|NCT02495077|184372621|SUPERIORITY||Mean Difference (Final Values)|-1.64||||0.519|TWO_SIDED|95.0|-6.66|3.37|||Mixed Models Analysis|||Day 90. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 90 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 90. Random effects for the intercept and eGFR collection day were utilized in the model.||3.37|-6.66|0.519
92234548|NCT02495077|184372621|SUPERIORITY||Mean Difference (Final Values)|-2.09||||0.411|TWO_SIDED|95.0|-7.08|2.91|||Mixed Models Analysis|||Day 180. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 180 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 180. Random effects for the intercept and eGFR collection day were utilized in the model.||2.91|-7.08|0.411
92234549|NCT02495077|184372622|SUPERIORITY|||||||0.569|||||||Chi-squared|||||||0.569
92234550|NCT02495077|184372623|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92234551|NCT02495077|184372624|SUPERIORITY|||||||0.451|||||||Chi-squared|||||||0.451
92386648|NCT01620528|184674689|SUPERIORITY||Difference in LS Mean Change|-0.09|STANDARD_ERROR_OF_MEAN|0.065||0.144|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 6 of 7.||||0.144
92386649|NCT01620528|184674689|SUPERIORITY||Difference in LS Mean Change|-0.2|STANDARD_ERROR_OF_MEAN|0.067||0.003|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 6 of 7.||||0.003
92386650|NCT01620528|184674690|SUPERIORITY||Difference in LS Mean Change|0.03|STANDARD_ERROR_OF_MEAN|0.037||0.424|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 7 of 7.||||0.424
92386651|NCT01620528|184674690|SUPERIORITY||Difference in LS Mean Change|-0.12|STANDARD_ERROR_OF_MEAN|0.038||0.002|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 7 of 7.||||0.002
92234552|NCT02495077|184372625|SUPERIORITY|||||||0.614|||||||t-test, 2 sided|||||||0.614
92386652|NCT01620528|184674691|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386653|NCT01620528|184674691|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386654|NCT01620528|184674692|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386655|NCT01620528|184674692|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386656|NCT01620528|184674693|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386657|NCT01620528|184674693|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386658|NCT01620528|184674694|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92234553|NCT02495077|184372626|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.710
92234554|NCT02495077|184372627|SUPERIORITY|||||||0.622|||||||Fisher Exact|||||||0.622
92234555|NCT02495077|184372628|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.256|TWO_SIDED|95.0|-0.36|1.35|||Mixed Models Analysis|||24 Hours/Day 1. Mean serum creatinine of the two treatment groups was compared. The p-value, estimated 24 hour creatinine level within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available serum creatinine data from 24, 48, and 72 hours to compare the experimental group to the control group at 24 hours/day 1. A random effect for the intercept was utilized in the model.||1.35|-0.36|0.256
92234556|NCT02495077|184372628|SUPERIORITY||Mean Difference (Final Values)|0.37||||0.391|TWO_SIDED|95.0|-0.48|1.23|||Mixed Models Analysis|||48 Hours/Day 2. Mean serum creatinine of the two treatment groups was compared. The p-value, estimated 48 hour creatinine level within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available serum creatinine data from 24, 48, and 72 hours to compare the experimental group to the control group at 48 hours/day 2. A random effect for the intercept was utilized in the model.||1.23|-0.48|0.391
92234557|NCT02495077|184372628|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.199|TWO_SIDED|95.0|-0.3|1.42|||Mixed Models Analysis|||72 Hours/Day 3. Mean serum creatinine of the two treatment groups was compared. The p-value, estimated 72 hour creatinine level within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available serum creatinine data from 24, 48, and 72 hours to compare the experimental group to the control group at 72 hours/day 3. A random effect for the intercept was utilized in the model.||1.42|-0.30|0.199
92234558|NCT02495077|184372629|SUPERIORITY|||||||0.812|||||||Log Rank|||||||0.812
92234559|NCT02495077|184372630|SUPERIORITY|||||||0.576|||||||Chi-squared|||||||0.576
92234560|NCT02495077|184372631|SUPERIORITY|||||||0.311|||||||t-test, 2 sided|||||||0.311
92234561|NCT02495077|184372632|SUPERIORITY|||||||0.418|||||||t-test, 2 sided|||||||0.418
92234562|NCT02495077|184372633|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.030
92386659|NCT01620528|184674694|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386660|NCT01620528|184674695|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386661|NCT01620528|184674695|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386662|NCT01620528|184674696|SUPERIORITY|||||||0.103|||||||Regression, Logistic|||||||0.103
92386663|NCT01620528|184674696|SUPERIORITY|||||||0.023|||||||Regression, Logistic|||||||0.023
92386664|NCT01620528|184674697|SUPERIORITY|||||||0.031|||||||Regression, Logistic|||||||0.031
92386665|NCT01620528|184674697|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92234563|NCT02495077|184372634|SUPERIORITY|||||||0.153|||||||Chi-squared|||||||0.153
92234564|NCT02495077|184372635|SUPERIORITY|||||||0.171|||||||Fisher Exact|||||||0.171
92234565|NCT02495077|184372636|SUPERIORITY|||||||0.163|||||||Chi-squared|||||||0.163
92234566|NCT02495077|184372637|SUPERIORITY|||||||0.572|||||||Chi-squared|||||||0.572
92234567|NCT02495077|184372638|SUPERIORITY|||||||0.973|||||||Chi-squared|||||||0.973
92386666|NCT01620528|184674698|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386667|NCT01620528|184674698|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386668|NCT01620528|184674699|SUPERIORITY|||||||0.005|||||||Regression, Logistic|||||||0.005
92386669|NCT01620528|184674699|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92416965|NCT00492063|184721628|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain A/H1N1, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|2.0|||||TWO_SIDED|95.0|-3.0|7.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain A/H1N1 in adults.||7|-3|
92416966|NCT00492063|184721628|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain A/H3N2, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|-1.0|||||TWO_SIDED|95.0|-6.0|4.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain A/H3N2 in adults.||4|-6|
92416967|NCT00492063|184721628|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain B, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|4.0|||||TWO_SIDED|95.0|0.0|8.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain B in adults.||8|0|
92386670|NCT01620528|184674700|SUPERIORITY|||||||0.008|||||||Regression, Logistic|||||||0.008
92386671|NCT01620528|184674700|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386672|NCT01620528|184674701|SUPERIORITY|||||||0.306|||||||Regression, Logistic|||||||0.306
92234568|NCT02495077|184372639|SUPERIORITY|||||||0.152|||||||Chi-squared|||||||0.152
92234569|NCT02495077|184372640|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
92234570|NCT02495077|184372641|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92234571|NCT02495077|184372642|SUPERIORITY|||||||0.347|||||||Chi-squared|||||||0.347
92234572|NCT02839746|184372651|OTHER||||||<|0.0001|||||||non-parametric Wilcoxon signed-rank|||Within group comparison of Baseline convenience with that of Visit 2.||||<0.0001
92234573|NCT02839746|184372651|OTHER||||||<|0.0001|||||||non-parametric Wilcoxon signed-rank|||Within group comparison of Baseline satisfaction with that of Visit 2.||||<0.0001
92234574|NCT02839746|184372652|OTHER||||||<|0.0001|||||||non-parametric Wilcoxon signed-rank|||Within group comparison of Baseline convenience with that of Visit 3.||||<0.0001
92234575|NCT02839746|184372652|OTHER|Within group comparison of Baseline satisfaction with that of Visit 3.|||||<|0.0001|||||||non-parametric Wilcoxon signed-rank]|||||||<0.0001
92234576|NCT02839746|184372653|OTHER||||||<|0.0001|||||||non-parametric Wilcoxon signed-rank|||Within group comparison of visit 2 convenience with that of Visit 3.||||<0.0001
92234577|NCT02839746|184372653|OTHER||||||<|0.0001|||||||non-parametric Wilcoxon signed-rank|||Within group comparison of visit 2 satisfaction with that of Visit 3.||||<0.0001
92234578|NCT02333331|184372662|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.274|TWO_SIDED|95.0|-0.64|1.21|||Mixed Models Analysis|||||1.21|-0.64|0.274
92234579|NCT02333331|184372662|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.32|TWO_SIDED|95.0|-0.83|1.35|||Mixed Models Analysis|||||1.35|-0.83|0.320
92234580|NCT02333331|184372662|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.134|TWO_SIDED|95.0|-0.24|0.87|||Mixed Models Analysis|||||0.87|-0.24|0.134
92234581|NCT02333331|184372663|SUPERIORITY||Mean Difference (Final Values)|-3.32||||0.576|TWO_SIDED|95.0|-37.6|30.95|||Mixed Models Analysis|||||30.95|-37.6|0.576
92234582|NCT02333331|184372663|SUPERIORITY||Mean Difference (Final Values)|19.6||||0.178|TWO_SIDED|95.0|-22.2|61.41|||Mixed Models Analysis|||||61.41|-22.2|0.178
92386673|NCT01620528|184674701|SUPERIORITY|||||||0.239|||||||Regression, Logistic|||||||0.239
92386674|NCT01620528|184674702|SUPERIORITY|||||||0.855|||||||Regression, Logistic|||||||0.855
92386675|NCT01620528|184674702|SUPERIORITY|||||||0.012|||||||Regression, Logistic|||||||0.012
92386676|NCT01620528|184674703|SUPERIORITY|||||||0.01|||||||Regression, Logistic|||||||0.010
92386677|NCT01620528|184674703|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386678|NCT01620528|184674704|SUPERIORITY|||||||0.061|||||||Regression, Logistic|||||||0.061
92386679|NCT01620528|184674704|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386680|NCT01620528|184674705|SUPERIORITY|||||||0.126|||||||Regression, Logistic|||||||0.126
92386681|NCT01620528|184674705|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
92386682|NCT01620528|184674706|SUPERIORITY||LS Mean of Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|97.5|-0.65|-0.34|||mixed-effects model|||||-0.34|-0.65|< 0.001
92234583|NCT02333331|184372663|SUPERIORITY||Mean Difference (Final Values)|10.31||||0.163|TWO_SIDED|95.0|-10.4|30.98|||Mixed Models Analysis|||||30.98|-10.4|0.163
92386683|NCT01620528|184674706|SUPERIORITY||LS Mean of Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|97.5|-0.81|-0.49|||mixed-effects model|||||-0.49|-0.81|< 0.001
92234584|NCT02333331|184372664|SUPERIORITY||Mean Difference (Net)|0.0||||0.488|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||||0.10|-0.10|0.488
92278496|NCT01102777|184459208|SUPERIORITY_OR_OTHER|||||||0.11|||||||Regression, Linear|Adjusting for time, MMRC score, and urban versus rural residence.||||||.11
92386684|NCT01620528|184674707|SUPERIORITY||LS Mean of Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.067|<|0.001|TWO_SIDED|97.5|-0.79|-0.49|||mixed-effects model|||||-0.49|-0.79|< 0.001
92386685|NCT01620528|184674707|SUPERIORITY||LS Mean of Difference|-1.36|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|97.5|-1.51|-1.2|||mixed-effects model|||||-1.20|-1.51|< 0.001
92386686|NCT01620528|184674708|SUPERIORITY||LS Mean of Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|97.5|-0.83|-0.53|||mixed-effects model|||||-0.53|-0.83|< 0.001
92386687|NCT01620528|184674708|SUPERIORITY||LS Mean of Difference|-1.39|STANDARD_ERROR_OF_MEAN|0.069|<|0.001|TWO_SIDED|97.5|-1.54|-1.23|||mixed-effects model|||||-1.23|-1.54|< 0.001
92386688|NCT01620528|184674709|SUPERIORITY||LS Mean of Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.81|-0.49|||mixed-effects model|||||-0.49|-0.81|< 0.001
92386689|NCT01620528|184674709|SUPERIORITY||LS Mean of Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.072|<|0.001|TWO_SIDED|97.5|-1.49|-1.16|||mixed-effects model|||||-1.16|-1.49|< 0.001
92386690|NCT01620528|184674710|SUPERIORITY||LS Mean of Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.75|-0.43|||mixed-effects model|||||-0.43|-0.75|< 0.001
92386691|NCT01620528|184674710|SUPERIORITY||LS Mean of Difference|-1.41|STANDARD_ERROR_OF_MEAN|0.072|<|0.001|TWO_SIDED|97.5|-1.58|-1.25|||mixed-effects model|||||-1.25|-1.58|< 0.001
92416968|NCT00492063|184721628|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain A/H1N1, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|0.0|||||TWO_SIDED|95.0|-6.0|5.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain A/H1N1 in the elderly population.||5|-6|
92386692|NCT01620528|184674711|SUPERIORITY||LS Mean of Difference|-24.07|STANDARD_ERROR_OF_MEAN|3.288|<|0.001|TWO_SIDED|97.5|-31.45|-16.69|||mixed-effects model|||||-16.69|-31.45|< 0.001
92416969|NCT00492063|184721628|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain A/H3N2, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|3.0|||||TWO_SIDED|95.0|-2.0|8.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain A/H3N2 in the elderly population.||8|-2|
92386693|NCT01620528|184674711|SUPERIORITY||LS Mean of Difference|-31.01|STANDARD_ERROR_OF_MEAN|3.299|<|0.001|TWO_SIDED|97.5|-38.41|-23.6|||mixed-effects model|||||-23.60|-38.41|< 0.001
92386694|NCT01620528|184674712|SUPERIORITY||LS Mean of Difference|-30.79|STANDARD_ERROR_OF_MEAN|3.107||-30.79|TWO_SIDED|97.5|-37.77|-23.82|||mixed-effects model|||||-23.82|-37.77|-30.79
92386695|NCT01620528|184674712|SUPERIORITY||LS Mean of Difference|-63.78|STANDARD_ERROR_OF_MEAN|3.148|<|0.001|TWO_SIDED|97.5|-70.85|-56.71|||mixed-effects model|||||-56.71|-70.85|< 0.001
92386696|NCT01620528|184674713|SUPERIORITY||LS Mean of Difference|-32.21|STANDARD_ERROR_OF_MEAN|3.177|<|0.001|TWO_SIDED|97.5|-39.35|-25.08|||mixed-effects model|||||-25.08|-39.35|< 0.001
92386697|NCT01620528|184674713|SUPERIORITY||LS Mean of Difference|-64.94|STANDARD_ERROR_OF_MEAN|3.23|<|0.001|TWO_SIDED|97.5|-72.19|-57.68|||mixed-effects model|||||-57.68|-72.19|< 0.001
92386698|NCT01620528|184674714|SUPERIORITY||LS Mean of Difference|-29.94|STANDARD_ERROR_OF_MEAN|3.272|<|0.001|TWO_SIDED|97.5|-37.28|-22.59|||mixed-effects model|||||-22.59|-37.28|< 0.001
92386699|NCT01620528|184674714|SUPERIORITY||LS Mean of Difference|-61.9|STANDARD_ERROR_OF_MEAN|3.356|<|0.001|TWO_SIDED|97.5|-69.44|-54.36|||mixed-effects model|||||-54.36|-69.44|< 0.001
92386700|NCT01620528|184674715|SUPERIORITY||LS Mean of Difference|-28.63|STANDARD_ERROR_OF_MEAN|3.26|<|0.001|TWO_SIDED|97.5|-35.96|-21.31|||mixed-effects model|||||-21.31|-35.96|< 0.001
92171764|NCT00274469|184232993|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.01|TWO_SIDED|95.0|0.46|0.9|||Regression, Cox|Cox regression analysis of TTP (investigator assessed) controlling for baseline covariates.|HR\<1 favours Fulvestrant|||0.90|0.46|0.01
92234585|NCT02333331|184372664|SUPERIORITY||Mean Difference (Net)|0.1||||0.055|TWO_SIDED|95.0|-0.02|0.22|||Mixed Models Analysis|||||0.22|-0.02|0.055
92234586|NCT02333331|184372664|SUPERIORITY||Mean Difference (Net)|0.03||||0.161|TWO_SIDED|95.0|-0.03|0.09|||Mixed Models Analysis|||||0.09|-0.03|0.161
92234587|NCT02333331|184372665|SUPERIORITY||Mean Difference (Net)|1.01||||0.213|TWO_SIDED|95.0|0.99|1.03|||Mixed Models Analysis|||||1.03|0.99|0.213
92234588|NCT02333331|184372665|SUPERIORITY||Mean Difference (Net)|1.06|||<|0.001|TWO_SIDED|95.0|1.03|1.09|||Mixed Models Analysis|||||1.09|1.03|<0.001
92234589|NCT02333331|184372665|SUPERIORITY||Mean Difference (Net)|1.06|||<|0.001|TWO_SIDED|95.0|1.05|1.08|||Mixed Models Analysis|||||1.08|1.05|<0.001
92278497|NCT01102777|184459209|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|Based on mixed models, adjusting for time, MMRC score, and urban versus rural residence.||||||.01
92278498|NCT05056727|184459230|OTHER||Treatment difference in mean slope|-0.7354||||0.4691|TWO_SIDED|95.0|-2.7311|1.2604||Test of no treatment difference in mean total eGFR-slope|Mixed Models Analysis||SZC minus Placebo|||1.2604|-2.7311|0.4691
92278499|NCT05056727|184459231|OTHER|Test of no treatment difference in mean chronic eGFR slope|Treatment difference in mean slope|-2.0421||||0.1338|TWO_SIDED|95.0|-4.7156|0.6314|||Mixed Models Analysis||SZC minus Placebo|||0.6314|-4.7156|0.1338
92386701|NCT01620528|184674715|SUPERIORITY||LS Mean of Difference|-66.5|STANDARD_ERROR_OF_MEAN|3.321|<|0.001|TWO_SIDED|97.5|-73.95|-59.04|||mixed-effects model|||||-59.04|-73.95|< 0.001
92386702|NCT01620528|184674716|SUPERIORITY||LS Mean of Difference|-21.39|STANDARD_ERROR_OF_MEAN|3.479|<|0.001|TWO_SIDED|97.5|-29.2|-13.57|||mixed-effects model|||||-13.57|-29.20|< 0.001
92234590|NCT02333331|184372666|SUPERIORITY||Mean Difference (Net)|1.0||||0.458|TWO_SIDED|95.0|0.98|1.02|||Mixed Models Analysis|||||1.02|0.98|0.458
92234591|NCT02333331|184372666|SUPERIORITY||Mean Difference (Net)|1.05|||<|0.001|TWO_SIDED|95.0|1.03|1.08|||Mixed Models Analysis|||||1.08|1.03|<0.001
92234592|NCT02333331|184372666|SUPERIORITY||Mean Difference (Net)|1.06|||<|0.001|TWO_SIDED|95.0|1.04|1.07|||Mixed Models Analysis|||||1.07|1.04|<0.001
92386703|NCT01620528|184674716|SUPERIORITY||LS Mean of Difference|-60.78|STANDARD_ERROR_OF_MEAN|3.557|<|0.001|TWO_SIDED|97.5|-68.77|-52.79|||mixed-effects model|||||-52.79|-68.77|< 0.001
92386704|NCT01620528|184674717|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.036||0.111|TWO_SIDED|97.5|-0.14|0.02|||mixed-effects model|||||0.02|-0.14|0.111
92386705|NCT01620528|184674717|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.036||0.008|TWO_SIDED|97.5|-0.18|-0.01|||mixed-effects model|||||-0.01|-0.18|0.008
92386706|NCT01620528|184674718|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.045||0.092|TWO_SIDED|97.5|-0.18|0.02|||mixed-effects model|||||0.02|-0.18|0.092
92416970|NCT00492063|184721628|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain B, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|6.0|||||TWO_SIDED|95.0|2.0|11.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain B in the elderly population.||11|2|
92416971|NCT00492063|184721629|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain A/H1N1, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|1.07|||||TWO_SIDED|95.0|0.9|1.28||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain A/H1N1 in adults.||1.28|0.9|
92234593|NCT01494038|184372667|NON_INFERIORITY|Calculate the difference between the immediate arm incidence rate and the deferred arm incidence rate; if the upper bound of the 95% confidence interval is lower than a 5% difference in incidence rates, non-inferiority will be considered to be proven.|Incidence rate difference|0.1|||||TWO_SIDED|95.0|-4.77|4.98||||||||4.98|-4.77|
92386707|NCT01620528|184674718|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.045|<|0.001|TWO_SIDED|97.5|-0.28|-0.08|||mixed-effects model|||||-0.08|-0.28|< 0.001
92386708|NCT01620528|184674719|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.017|TWO_SIDED|97.5|-0.23|-0.01|||mixed-effects model|||||-0.01|-0.23|0.017
92386709|NCT01620528|184674719|SUPERIORITY||LS Mean of Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|97.5|-0.41|-0.18|||mixed-effects model|||||-0.18|-0.41|< 0.001
92386710|NCT01620528|184674720|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.053|<|0.001|TWO_SIDED|97.5|-0.31|-0.07|||mixed-effects model|||||-0.07|-0.31|< 0.001
92386711|NCT01620528|184674720|SUPERIORITY||LS Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.054|<|0.001|TWO_SIDED|97.5|-0.51|-0.27|||mixed-effects model|||||-0.27|-0.51|< 0.001
92386712|NCT01620528|184674721|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.053||0.004|TWO_SIDED|97.5|-0.27|-0.03|||mixed-effects model|||||-0.03|-0.27|0.004
92386713|NCT01620528|184674721|SUPERIORITY||LS Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.054|<|0.001|TWO_SIDED|97.5|-0.52|-0.27|||mixed-effects model|||||-0.27|-0.52|< 0.001
92386714|NCT01620528|184674722|SUPERIORITY||LS Mean of Difference|-6.23|STANDARD_ERROR_OF_MEAN|2.748||0.024|TWO_SIDED|97.5|-12.4|-0.06|||mixed-effects model|||||-0.06|-12.40|0.024
92171765|NCT00274469|184232994|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.041|TWO_SIDED|95.0|0.5|0.98|||Log Rank|||||0.98|0.50|0.041
92234594|NCT01494038|184372668|SUPERIORITY|||||||0.093|||||||Fisher Exact|mid-P adjustment||||||0.093
92234595|NCT01494038|184372670|SUPERIORITY|||||||0.288|||||||Fisher Exact|mid-P adjustment||||||0.288
92234596|NCT01494038|184372671|SUPERIORITY|||||||0.073|||||||Fisher Exact|mid-P adjustment||||||0.073
92234597|NCT01494038|184372672|SUPERIORITY|||||||0.264|||||||Fisher Exact|mid-P adjustment||||||0.264
92234598|NCT01494038|184372673|SUPERIORITY|||||||0.012|||||||Fisher Exact|Mid-P adjustment||||||0.012
92234599|NCT01494038|184372676|SUPERIORITY|||||||0.279|||||||Fisher Exact|mid-P adjustment||||||0.279
92234600|NCT01494038|184372677|SUPERIORITY|||||||0.893|||||||Fisher Exact|mid-P adjustment||||||.893
92234601|NCT01494038|184372678|SUPERIORITY||Incidence rate difference|0.01|||||TWO_SIDED|95.0|-0.94|0.96||||||||0.96|-0.94|
92234602|NCT01494038|184372679|SUPERIORITY||Incidence rate difference|0.02|||||TWO_SIDED|95.0|-1.02|1.07||||||||1.07|-1.02|
92234603|NCT01494038|184372680|SUPERIORITY||Incidence rate difference|-1.43|||||TWO_SIDED|95.0|-4.17|1.32||||||||1.32|-4.17|
92234604|NCT01494038|184372681|SUPERIORITY||Incidence rate difference|-0.39|||||TWO_SIDED|95.0|-1.33|0.56||||||||0.56|-1.33|
92234605|NCT01494038|184372682|SUPERIORITY||Incidence rate difference|-0.38|||||TWO_SIDED|95.0|-1.72|0.97||||||||0.97|-1.72|
92234606|NCT01494038|184372683|SUPERIORITY||Incidence rate difference|-1.69|||||TWO_SIDED|95.0|-4.48|1.1||||||||1.1|-4.48|
92234607|NCT01494038|184372684|SUPERIORITY||Incidence rate difference|-1.3|||||TWO_SIDED|95.0|-3.86|1.25||||||||1.25|-3.86|
92386715|NCT01620528|184674722|SUPERIORITY||LS Mean of Difference|-7.72|STANDARD_ERROR_OF_MEAN|2.756||0.005|TWO_SIDED|97.5|-13.9|-1.53|||mixed-effects model|||||-1.53|-13.90|0.005
92386716|NCT01620528|184674723|SUPERIORITY||LS Mean of Difference|-5.69|STANDARD_ERROR_OF_MEAN|3.226||0.078|TWO_SIDED|97.5|-12.93|1.56|||mixed-effects model|||||1.56|-12.93|0.078
92386717|NCT01620528|184674723|SUPERIORITY||LS Mean of Difference|-13.72|STANDARD_ERROR_OF_MEAN|3.249|<|0.001|TWO_SIDED|97.5|-21.01|-6.42|||mixed-effects model|||||-6.42|-21.01|< 0.001
92386718|NCT01620528|184674724|SUPERIORITY||LS Mean of Difference|-8.47|STANDARD_ERROR_OF_MEAN|3.475||0.015|TWO_SIDED|97.5|-16.27|-0.66|||mixed-effects model|||||-0.66|-16.27|0.015
92416972|NCT00492063|184721629|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain A/H3N2, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|0.85|||||TWO_SIDED|95.0|0.72|0.99||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain A/H3N2 in adults.||0.99|0.72|
92234608|NCT01494038|184372685|SUPERIORITY||Incidence rate difference|2.14|||||TWO_SIDED|95.0|-7.86|12.13||||||||12.13|-7.86|
92234609|NCT01494038|184372686|SUPERIORITY||Incidence rate difference|6.89|||||TWO_SIDED|95.0|-0.08|13.86||||||||13.86|-0.08|
92416973|NCT00492063|184721629|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain B, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|1.14|||||TWO_SIDED|95.0|0.99|1.3||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain B in adults.||1.3|0.99|
92416974|NCT00492063|184721629|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain A/H1N1, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|0.96|||||TWO_SIDED|95.0|0.82|1.12||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain A/H1N1 in the elderly population.||1.12|0.82|
92234610|NCT01494038|184372687|SUPERIORITY||Incidence rate difference|5.49|||||TWO_SIDED|95.0|-13.7|24.68||||||||24.68|-13.7|
92234611|NCT01494038|184372688|SUPERIORITY||Incidence rate difference|15.88|||||TWO_SIDED|95.0|2.11|29.65||||||||29.65|2.11|
92234612|NCT01494038|184372689|SUPERIORITY||Incidence rate difference|-0.82|||||TWO_SIDED|95.0|-4.63|3.0||||||||3|-4.63|
92234613|NCT01494038|184372690|SUPERIORITY||Incidence rate difference|3.38|||||TWO_SIDED|95.0|-1.31|8.07||||||||8.07|-1.31|
92234614|NCT01494038|184372691|SUPERIORITY||Incidence rate difference|-0.82|||||TWO_SIDED|95.0|-4.63|3.0||||||||3|-4.63|
92234615|NCT01494038|184372692|SUPERIORITY||Incidence rate difference|3.39|||||TWO_SIDED|95.0|-1.46|8.25||||||||8.25|-1.46|
92234616|NCT01494038|184372693|SUPERIORITY||Incidence rate difference|-0.82|||||TWO_SIDED|95.0|-4.63|3.0||||||||3|-4.63|
92234617|NCT01494038|184372694|SUPERIORITY||Incidence rate difference|3.38|||||TWO_SIDED|95.0|-1.31|8.07||||||||8.07|-1.31|
92234618|NCT01494038|184372695|SUPERIORITY||Incidence rate difference|-0.82|||||TWO_SIDED|95.0|-4.63|3.0||||||||3|-4.63|
92234619|NCT01494038|184372696|SUPERIORITY||Incidence rate difference|3.39|||||TWO_SIDED|95.0|-1.46|8.25||||||||8.25|-1.46|
92234620|NCT01494038|184372701|OTHER|Measuring agreement between the tests|||||<|0.0001|||||||Chi-squared|McNemars test||||||< 0.0001
92234621|NCT01494038|184372701|OTHER|Agreement between tests|Kappa coefficient|0.42|||||TWO_SIDED|95.0|0.35|0.5||||||||0.50|0.35|
92234622|NCT01494038|184372702|OTHER|Agreement between tests||||||0.22|||||||Chi-squared|McNemar's test||||||0.22
92234623|NCT01494038|184372702|OTHER|Agreement between tests|Kappa coefficient|0.11|||||TWO_SIDED|95.0|0.001|0.21||||||||0.21|0.001|
92234624|NCT01494038|184372703|OTHER|Agreement between tests|||||<|0.0001|||||||Chi-squared|McNemar's test||||||< 0.0001
92234625|NCT01494038|184372703|OTHER|Agreement between tests|Kappa coefficient|0.46|||||TWO_SIDED|95.0|0.39|0.53||||||||0.53|0.39|
92234626|NCT00537940|184372706|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.8708|TWO_SIDED|95.0|-6.0|7.0|||Ranked ANCOVA|||Rank analysis of covariance (ANCOVA) model was used to derive p-value with treatment as main effect and cluster as cofactor, percent change in 28-day seizure counts between Baseline and treatment periods as dependent variable. Median differences and 95% confidence interval (CI) were based on Hodges-Lehmann estimation.||7.0|-6.0|0.8708
92234627|NCT00537940|184372707|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92||||0.662|TWO_SIDED|95.0|0.635|1.335|||Regression, Logistic|||The odds ratio and its 95% CI are calculated by exponentiating the log odds ratio and 95% CI that correspond to the treatment contrast in the logistic regression model with treatment as fixed effect and Baseline term and country as covariate. All statistical tests for secondary efficacy parameters were two sided and performed at significance level of α = 0.05. The above statistical analysis applies to All Partial Seizures - FAS Population.||1.335|0.635|0.662
92234628|NCT00537940|184372708|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9232|TWO_SIDED|||||All partial seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.9232
92234629|NCT00537940|184372708|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6361|TWO_SIDED|||||Simple Partial: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.6361
92234630|NCT00537940|184372708|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9075|TWO_SIDED|||||Complex partial: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.9075
92234631|NCT00537940|184372708|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4203|TWO_SIDED|||||SGTC seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.4203
92234632|NCT00537940|184372709|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5069|TWO_SIDED|||||All partial seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.5069
92234633|NCT00537940|184372709|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4721|TWO_SIDED|||||Simple partial seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.4721
92234634|NCT00537940|184372709|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6054|TWO_SIDED|||||Complex partial seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.6054
92234635|NCT00537940|184372709|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6603|TWO_SIDED|||||SGTC seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.6603
92234636|NCT00537940|184372711|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1881|TWO_SIDED|||||p-value is calculated using Fisher Exact Test.|Fisher Exact|||||||0.1881
92234637|NCT00537940|184372712|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.38||0.5643|TWO_SIDED|95.0|-0.53|0.97|||ANCOVA|||Baseline, HADS-A: ANCOVA model was used to calculate least square (LS) mean estimates of the treatment difference along with 95% CI, with main effects of treatment and and country as covariates.||0.97|-0.53|0.5643
92278500|NCT05056727|184459232|OTHER|Test of treatment HR = 1|Hazard Ratio (HR)|1.72||||0.39|TWO_SIDED|95.0|0.5|5.9|||Regression, Cox||SZC relative to Placebo|||5.90|0.50|0.390
92386719|NCT01620528|184674724|SUPERIORITY||LS Mean of Difference|-22.49|STANDARD_ERROR_OF_MEAN|3.514|<|0.001|TWO_SIDED|97.5|-30.38|-14.6|||mixed-effects model|||||-14.60|-30.38|< 0.001
92386720|NCT01620528|184674725|SUPERIORITY||LS Mean of Difference|-14.11|STANDARD_ERROR_OF_MEAN|3.673|<|0.001|TWO_SIDED|97.5|-22.36|-5.87|||mixed-effects model|||||-5.87|-22.36|< 0.001
92386721|NCT01620528|184674725|SUPERIORITY||LS Mean of Difference|-30.41|STANDARD_ERROR_OF_MEAN|3.729|<|0.001|TWO_SIDED|97.5|-38.78|-22.04|||mixed-effects model|||||-22.04|-38.78|< 0.001
92386722|NCT01620528|184674726|SUPERIORITY||LS Mean of Difference|-11.55|STANDARD_ERROR_OF_MEAN|3.736||0.002|TWO_SIDED|97.5|-19.94|-3.16|||mixed-effects model|||||-3.16|-19.94|0.002
92386723|NCT01620528|184674726|SUPERIORITY||LS Mean of Difference|-29.68|STANDARD_ERROR_OF_MEAN|3.788|<|0.001|TWO_SIDED|97.5|-38.19|-21.18|||mixed-effects model|||||-21.18|-38.19|< 0.001
92386724|NCT01620528|184674727|SUPERIORITY||LS Mean of Difference|-12.37|STANDARD_ERROR_OF_MEAN|3.805||0.001|TWO_SIDED|97.5|-20.92|-3.83|||mixed-effects model|||||-3.83|-20.92|0.001
92386725|NCT01620528|184674727|SUPERIORITY||LS Mean of Difference|-29.97|STANDARD_ERROR_OF_MEAN|3.868|<|0.001|TWO_SIDED|97.5|-38.66|-21.28|||mixed-effects model|||||-21.28|-38.66|< 0.001
92416975|NCT00492063|184721629|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain A/H3N2, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|0.87|||||TWO_SIDED|95.0|0.74|1.02||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain A/H3N2 in the elderly population.||1.02|0.74|
92416976|NCT00492063|184721629|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain B, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|1.27|||||TWO_SIDED|95.0|1.11|1.4||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain B in the elderly population.||1.4|1.11|
92386726|NCT01620528|184674728|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.052||0.038|TWO_SIDED|97.5|-0.22|0.01|||mixed-effects model|||||0.01|-0.22|0.038
92386727|NCT01620528|184674728|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.053||0.488|TWO_SIDED|97.5|-0.16|0.08|||mixed-effects model|||||0.08|-0.16|0.488
92416977|NCT01816451|184721632|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||For pre-post training variables data were expressed as mean and standard deviation. Heart Rate and Blood Lactate, were by three-way ANOVA (Measure x Group x Time) with repeated measures for the factors Measure and Time. The variables absolute and relative VO2, tVO2, Body Fat, Body Mass, RPE, were made two-way ANOVAs (Group x Measure) with repeated measures on the factor Measure. Where the ANOVA was significant, the Tukey-Kramer as post-hoc was used.||||< 0.05
92171766|NCT00274469|184232994|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.126|TWO_SIDED|95.0|0.54|1.08|||Regression, Cox|Cox regression analysis of OS controlling for baseline covariates|HR\<1 favours Fulvestrant|||1.08|0.54|0.126
92386728|NCT01620528|184674729|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.06||0.252|TWO_SIDED|97.5|-0.2|0.07|||mixed-effects model|||||0.07|-0.20|0.252
92386729|NCT01620528|184674729|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.061||0.058|TWO_SIDED|97.5|-0.25|0.02|||mixed-effects model|||||0.02|-0.25|0.058
92386730|NCT01620528|184674730|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.069||0.009|TWO_SIDED|97.5|-0.34|-0.03|||mixed-effects model|||||-0.03|-0.34|0.009
92386731|NCT01620528|184674730|SUPERIORITY||LS Mean of Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.5|-0.18|||mixed-effects model|||||-0.18|-0.50|< 0.001
92386732|NCT01620528|184674731|SUPERIORITY||LS Mean of Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.073||0.06|TWO_SIDED|97.5|-0.3|0.03|||mixed-effects model|||||0.03|-0.30|0.060
92386733|NCT01620528|184674731|SUPERIORITY||LS Mean of Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.076|<|0.001|TWO_SIDED|97.5|-0.44|-0.1|||mixed-effects model|||||-0.10|-0.44|< 0.001
92386734|NCT01620528|184674732|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.074||0.118|TWO_SIDED|97.5|-0.28|0.05|||mixed-effects model|||||0.05|-0.28|0.118
92386735|NCT01620528|184674732|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.078|<|0.001|TWO_SIDED|97.5|-0.48|-0.13|||mixed-effects model|||||-0.13|-0.48|< 0.001
92386736|NCT01620528|184674733|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.044||0.313|TWO_SIDED|97.5|-0.14|0.05|||mixed-effects model|||||0.05|-0.14|0.313
92386737|NCT01620528|184674733|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.044||0.006|TWO_SIDED|97.5|-0.22|-0.02|||mixed-effects model|||||-0.02|-0.22|0.006
92386738|NCT01620528|184674734|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.047||0.519|TWO_SIDED|97.5|-0.13|0.07|||mixed-effects model|||||0.07|-0.13|0.519
92386739|NCT01620528|184674734|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.047|<|0.001|TWO_SIDED|97.5|-0.32|-0.11|||mixed-effects model|||||-0.11|-0.32|< 0.001
92386740|NCT01620528|184674735|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.053||0.037|TWO_SIDED|97.5|-0.23|0.01|||mixed-effects model|||||0.01|-0.23|0.037
92386741|NCT01620528|184674735|SUPERIORITY||LS Mean of Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.053|<|0.001|TWO_SIDED|97.5|-0.41|-0.17|||mixed-effects model|||||-0.17|-0.41|< 0.001
92386742|NCT01620528|184674736|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.053||0.2|TWO_SIDED|97.5|-0.19|0.05|||mixed-effects model|||||0.05|-0.19|0.200
92386743|NCT01620528|184674736|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.054|<|0.001|TWO_SIDED|97.5|-0.42|-0.18|||mixed-effects model|||||-0.18|-0.42|< 0.001
92386744|NCT01620528|184674737|SUPERIORITY||LS Mean of Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.094|<|0.001|TWO_SIDED|95.0|-0.72|-0.34|||ANOVA|||||-0.34|-0.72|< 0.001
92386745|NCT01620528|184674737|SUPERIORITY||LS Mean of Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.095|<|0.001|TWO_SIDED|95.0|-0.93|-0.56|||ANOVA|||||-0.56|-0.93|< 0.001
92386746|NCT01620528|184674738|SUPERIORITY||LS Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-0.58|-0.19|||ANOVA|||||-0.19|-0.58|< 0.001
92386747|NCT01620528|184674738|SUPERIORITY||LS Mean of Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-1.21|-0.82|||ANOVA|||||-0.82|-1.21|< 0.001
92386748|NCT01620528|184674739|SUPERIORITY||LS Mean of Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.101|<|0.001|TWO_SIDED|95.0|-0.81|-0.41|||ANOVA|||||-0.41|-0.81|< 0.001
92234638|NCT00537940|184372712|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.32||0.7712|TWO_SIDED|95.0|-0.73|0.54|||ANCOVA|||Change at Week 21 / ET , HADS-A: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country as covariates.||0.54|-0.73|0.7712
92386749|NCT01620528|184674739|SUPERIORITY||LS Mean of Difference|-1.12|STANDARD_ERROR_OF_MEAN|0.102|<|0.001|TWO_SIDED|95.0|-1.32|-0.92|||ANOVA|||||-0.92|-1.32|< 0.001
92386750|NCT01620528|184674740|SUPERIORITY||LS Mean of Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.106|<|0.001|TWO_SIDED|95.0|-0.83|-0.42|||ANOVA|||||-0.42|-0.83|< 0.001
92386751|NCT01620528|184674740|SUPERIORITY||LS Mean of Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.107|<|0.001|TWO_SIDED|95.0|-1.47|-1.05|||ANOVA|||||-1.05|-1.47|< 0.001
92386752|NCT01620528|184674741|SUPERIORITY||LS Mean of Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.111|<|0.001|TWO_SIDED|95.0|-0.91|-0.48|||ANOVA|||||-0.48|-0.91|< 0.001
92234639|NCT00537940|184372712|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.35||0.4236|TWO_SIDED|95.0|-0.41|0.97|||Ranked ANCOVA|||Baseline, HADS-D: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.97|-0.41|0.4236
92234640|NCT00537940|184372712|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.29||0.5492|TWO_SIDED|95.0|-0.75|0.4|||Ranked ANCOVA|||Change at Week 21/ET, HADS-D: ANCOVA model was used to calculate LS mean estimates of the treatment1difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.40|-0.75|0.5492
92386753|NCT01620528|184674741|SUPERIORITY||LS Mean of Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.112|<|0.001|TWO_SIDED|95.0|-1.54|-1.1|||ANOVA|||||-1.10|-1.54|< 0.001
92416978|NCT01816451|184721632|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||For pre; during (retest I 0-6weeks; retest II 0-10 weeks) and post training data were expressed as mean and standard deviation. HR and \[La\], were by three-way ANOVA (Measure x Group x Time) with repeated measures for the factors Measure and Time. The variables RPE, Velocity were made two-way ANOVAs (Group x Measure) with repeated measures on the factor Measure. Where the ANOVA was significant, the Tukey-Kramer as post-hoc was used. Control didn't do submaximal test for training intensities.||||<0.05
92416979|NCT04157673|184721648|SUPERIORITY|||||||0.0002||||||This is the overall treatment effect from the mixed model. p-value threshold set at p = 0.05.|Mixed Models Analysis|||Statistical analysis to support visual inspection of the multiple-baseline graphs included the phase changes from baseline to Episodic future thinking treatment. Phase changes were assessed using mixed model with fixed effects of level and trend for baseline phase and random effects for level and trend for treatment phase.||||0.0002
92416980|NCT04157673|184721649|OTHER|Effect size of mean differences|Mean Difference (Final Values)|2.75|STANDARD_DEVIATION|3.78|||TWO_SIDED||||||||Cohen's d effect size = 0.73|Statistical analysis to support visual inspection of the multiple-baseline graphs included the phase changes from baseline to Episodic future thinking treatment. Phase changes were assessed using mixed model with fixed effects of level and trend for baseline phase and random effects for level and trend for treatment phase.||||
92416981|NCT04157673|184721650|OTHER|Effect size of mean pre-post differences|Mean Difference (Final Values)|0.355|STANDARD_DEVIATION|0.295|||TWO_SIDED||||||||cohen's d effect size for mean differences pre to post-treatment = 1.20|||||
92234641|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|3.25|STANDARD_ERROR_OF_MEAN|2.07||0.116|TWO_SIDED|95.0|-0.81|7.31|||ANCOVA|||Baseline Sleep disturbance: ANCOVA model was used to calculate least square (LS) mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||7.31|-0.81|0.1160
92234642|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|1.68||0.849|TWO_SIDED|95.0|-3.62|2.98|||ANCOVA|||Week 21 Sleep disturbance: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||2.98|-3.62|0.8490
92278501|NCT05056727|184459233|OTHER|Test of treatment HR = 1|Hazard Ratio (HR)|0.34|||<|0.001|TWO_SIDED|95.0|0.25|0.47|||Regression, Cox||SZC relative to Placebo|||0.47|0.25|<0.001
92386754|NCT01620528|184674742|SUPERIORITY||LS Mean of Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.122|<|0.001|TWO_SIDED|95.0|-0.96|-0.48|||ANOVA|||||-0.48|-0.96|< 0.001
92386755|NCT01620528|184674742|SUPERIORITY||LS Mean of Difference|-1.35|STANDARD_ERROR_OF_MEAN|0.123|<|0.001|TWO_SIDED|95.0|-1.59|-1.11|||ANOVA|||||-1.11|-1.59|< 0.001
92386756|NCT01620528|184674743|SUPERIORITY||LS Mean of Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.109||0.011|TWO_SIDED|95.0|-0.52|-0.03|||mixed-effects model|||||-0.03|-0.52|0.011
92386757|NCT01620528|184674743|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|97.5|-0.65|-0.16|||mixed-effects model|||||-0.16|-0.65|< 0.001
92386758|NCT01620528|184674744|SUPERIORITY||LS Mean of Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.137|<|0.001|TWO_SIDED|97.5|-0.77|-0.16|||mixed-effects model|||||-0.16|-0.77|<0.001
92386759|NCT01620528|184674744|SUPERIORITY||LS Mean of Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.138||-0.96|TWO_SIDED|97.5|-1.27|-0.65|||mixed-effects model|||||-0.65|-1.27|-0.96
92386760|NCT01620528|184674745|SUPERIORITY||LS Mean of Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.163|<|0.001|TWO_SIDED|97.5|-1.17|-0.44|||mixed-effects model|||||-0.44|-1.17|< 0.001
92386761|NCT01620528|184674745|SUPERIORITY||LS Mean of Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.165|<|0.001|TWO_SIDED|97.5|-1.98|-1.24|||mixed-effects model|||||-1.24|-1.98|< 0.001
92386762|NCT01620528|184674746|SUPERIORITY||LS Mean of Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.167|<|0.001|TWO_SIDED|97.5|-1.05|-0.3|||mixed-effects model|||||-0.30|-1.05|< 0.001
92386763|NCT01620528|184674746|SUPERIORITY||LS Mean of Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|97.5|-1.99|-1.23|||mixed-effects model|||||-1.23|-1.99|< 0.001
92386764|NCT01620528|184674747|SUPERIORITY||LS Mean of Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.176|<|0.001|TWO_SIDED|97.5|-1.04|-0.25|||mixed-effects model|||||-0.25|-1.04|< 0.001
92386765|NCT01620528|184674747|SUPERIORITY||LS Mean of Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.179|<|0.001|TWO_SIDED|97.5|-2.0|-1.2|||mixed-effects model|||||-1.20|-2.00|< 0.001
92386766|NCT01620528|184674748|SUPERIORITY||Difference in LS Means|-6.29|STANDARD_ERROR_OF_MEAN|1.57|<|0.001|TWO_SIDED|95.0|-9.37|-3.21|||ANCOVA|||||-3.21|-9.37|< 0.001
92386767|NCT01620528|184674748|SUPERIORITY||Difference in LS Means|-9.76|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-12.91|-6.61|||ANCOVA|||||-6.61|-12.91|< 0.001
92386768|NCT01620528|184674749|SUPERIORITY||Difference in LS Means|-9.28|STANDARD_ERROR_OF_MEAN|1.72|<|0.001|TWO_SIDED|95.0|-12.66|-5.91|||ANCOVA|||||-5.91|-12.66|< 0.001
92386769|NCT01620528|184674749|SUPERIORITY||Difference in LS Means|-18.75|STANDARD_ERROR_OF_MEAN|1.77|<|0.001|TWO_SIDED|95.0|-22.22|-15.27|||ANCOVA|||||-15.27|-22.22|< 0.001
92386770|NCT01620528|184674750|SUPERIORITY||Difference in LS Means|-12.57|STANDARD_ERROR_OF_MEAN|1.99|<|0.001|TWO_SIDED|95.0|-16.48|-8.66|||ANCOVA|||||-8.66|-16.48|< 0.001
92386771|NCT01620528|184674750|SUPERIORITY||Difference in LS Means|-25.1|STANDARD_ERROR_OF_MEAN|2.04|<|0.001|TWO_SIDED|95.0|-29.12|-21.09|||ANCOVA|||||-21.09|-29.12|< 0.001
92386772|NCT01620528|184674751|SUPERIORITY||LS Mean of Difference|-0.78|STANDARD_ERROR_OF_MEAN|1.94||0.685|TWO_SIDED|95.0|-4.59|3.02|||ANCOVA|||||3.02|-4.59|0.685
92386773|NCT01620528|184674751|SUPERIORITY||Difference in LS Means|-5.04|STANDARD_ERROR_OF_MEAN|2.03||0.013|TWO_SIDED|95.0|-9.04|-1.05|||ANCOVA|||||-1.05|-9.04|0.013
92416982|NCT02282293|184721671|OTHER||Risk Ratio (RR)|1.96||||0.5|TWO_SIDED|95.0|0.5|7.61||Calculated p-value|Chi-squared|||||7.61|0.50|0.50
92234643|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|1.19|STANDARD_ERROR_OF_MEAN|2.82||0.6728|TWO_SIDED|95.0|-4.34|6.73|||ANCOVA|||Baseline snoring: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||6.73|-4.34|0.6728
92234644|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|1.96|STANDARD_ERROR_OF_MEAN|2.3||0.3954|TWO_SIDED|95.0|-2.56|6.47|||ANCOVA|||Week 21 snoring: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||6.47|-2.56|0.3954
92234645|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|4.03|STANDARD_ERROR_OF_MEAN|2.52||0.1106|TWO_SIDED|95.0|-0.92|8.98|||ANCOVA|||Baseline Awaken Short of Breath: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||8.98|-0.92|0.1106
92234646|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|2.11||0.3603|TWO_SIDED|95.0|-6.09|2.22|||ANCOVA|||Week 21 Awaken Short of Breath: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||2.22|-6.09|0.3603
92278502|NCT05056727|184459234|OTHER|Test of zero treatment difference|Mean Difference|301.1||||0.034|TWO_SIDED|95.0|23.15|579.11|||Regression, Linear||SZC minus Placebo|||579.11|23.15|0.034
92386774|NCT01620528|184674752|SUPERIORITY||Difference in LS Means|-4.74|STANDARD_ERROR_OF_MEAN|2.39||0.047|TWO_SIDED|95.0|-9.43|-0.05|||ANCOVA|||||-0.05|-9.43|0.047
92386775|NCT01620528|184674752|SUPERIORITY||Difference in LS Means|-13.86|STANDARD_ERROR_OF_MEAN|2.56|<|0.001|TWO_SIDED|95.0|-18.89|-8.84|||ANCOVA|||||-8.84|-18.89|< 0.001
92386776|NCT01620528|184674753|SUPERIORITY||Difference in LS Means|-4.71|STANDARD_ERROR_OF_MEAN|2.91||0.107|TWO_SIDED|95.0|-10.43|1.02|||ANCOVA|||||1.02|-10.43|0.107
92386777|NCT01620528|184674753|SUPERIORITY||Difference in LS Means|-17.51|STANDARD_ERROR_OF_MEAN|3.06|<|0.001|TWO_SIDED|95.0|-23.52|-11.5|||ANCOVA|||||-11.50|-23.52|< 0.001
92386778|NCT01620528|184674754|SUPERIORITY||Difference in LS Means|0.12|STANDARD_ERROR_OF_MEAN|0.37||0.741|TWO_SIDED|95.0|-0.61|0.85|||ANCOVA|||||0.85|-0.61|0.741
92386779|NCT01620528|184674754|SUPERIORITY||Difference in LS Means|-1.16|STANDARD_ERROR_OF_MEAN|0.38||0.002|TWO_SIDED|95.0|-1.9|-0.42|||ANCOVA|||||-0.42|-1.90|0.002
92386780|NCT01620528|184674755|SUPERIORITY||Difference in LS Means|-0.47|STANDARD_ERROR_OF_MEAN|0.35||0.172|TWO_SIDED|95.0|-1.16|0.21|||ANCOVA|||||0.21|-1.16|0.172
92386781|NCT01620528|184674755|SUPERIORITY||Difference in LS Means|-1.27|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-1.97|-0.57|||ANCOVA|||||-0.57|-1.97|< 0.001
92386782|NCT01620528|184674756|SUPERIORITY||LS Mean of Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.43||0.016|TWO_SIDED|95.0|-1.9|-0.19|||ANCOVA|||||-0.19|-1.90|0.016
92386783|NCT01620528|184674756|SUPERIORITY||Difference in LS Means|-1.78|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|-2.65|-0.91|||ANCOVA|||||-0.91|-2.65|< 0.001
92386784|NCT01620528|184674757|SUPERIORITY||Difference in LS Means|-0.77|STANDARD_ERROR_OF_MEAN|0.44||0.08|TWO_SIDED|95.0|-1.63|0.09|||ANCOVA|||||0.09|-1.63|0.080
92386785|NCT01620528|184674757|SUPERIORITY||Difference in LS Means|-1.37|STANDARD_ERROR_OF_MEAN|0.45||0.003|TWO_SIDED|95.0|-2.25|-0.48|||ANCOVA|||||-0.48|-2.25|0.003
92386786|NCT01620528|184674758|SUPERIORITY||Difference in LS Means|-0.65|STANDARD_ERROR_OF_MEAN|0.4||0.106|TWO_SIDED|95.0|-1.44|0.14|||ANCOVA|||||0.14|-1.44|0.106
92386787|NCT01620528|184674758|SUPERIORITY||Difference in LS Means|-1.85|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-2.67|-1.02|||ANCOVA|||||-1.02|-2.67|< 0.001
92386788|NCT01620528|184674759|SUPERIORITY||Difference in LS Means|-0.75|STANDARD_ERROR_OF_MEAN|0.62||0.232|TWO_SIDED|95.0|-1.97|0.48|||ANCOVA|||||0.48|-1.97|0.232
92386789|NCT01620528|184674759|SUPERIORITY||Difference in LS Means|-2.21|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|-3.48|-0.93|||ANCOVA|||||-0.93|-3.48|< 0.001
92386790|NCT01620528|184674760|SUPERIORITY||Difference in LS Means|-0.92|STANDARD_ERROR_OF_MEAN|0.37||0.013|TWO_SIDED|95.0|-1.65|-0.2|||ANCOVA|||||-0.20|-1.65|0.013
92386791|NCT01620528|184674760|SUPERIORITY||Difference in LS Means|-1.62|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.35|-0.9|||ANCOVA|||||-0.90|-2.35|< 0.001
92386792|NCT01620528|184674761|SUPERIORITY||Difference in LS Means|-1.33|STANDARD_ERROR_OF_MEAN|0.47||0.005|TWO_SIDED|95.0|-2.24|-0.41|||ANCOVA|||||-0.41|-2.24|0.005
92386793|NCT01620528|184674761|SUPERIORITY||Difference in LS Means|-1.64|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|-2.56|-0.71|||ANCOVA|||||-0.71|-2.56|< 0.001
92416983|NCT02282293|184721673|OTHER||Risk Ratio (RR)|1.96||||0.5|TWO_SIDED|95.0|0.5|7.61|||Chi-squared|||||7.61|0.50|0.50
92416984|NCT02282293|184721675|OTHER||Risk Ratio (RR)|0.45||||0.19|TWO_SIDED|95.0|0.13|1.48||Calculated p-value|GEE|||||1.48|0.13|0.19
92416985|NCT02282293|184721676|OTHER||Risk Ratio (RR)|1.33||||0.35|TWO_SIDED|95.0|0.72|2.45|||Chi-squared|||||2.45|0.72|0.35
92386794|NCT01620528|184674762|SUPERIORITY||Difference in LS Means|-1.63|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|-2.53|-0.72|||ANCOVA|||||-0.72|-2.53|< 0.001
92386795|NCT01620528|184674762|SUPERIORITY||Difference in LS Means|-2.1|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|-3.02|-1.19|||ANCOVA|||||-1.19|-3.02|< 0.001
92386796|NCT01620528|184674763|SUPERIORITY||Difference in LS Means|-1.21|STANDARD_ERROR_OF_MEAN|0.42||0.004|TWO_SIDED|95.0|-2.05|-0.38|||ANCOVA|||||-0.38|-2.05|0.004
92386797|NCT01620528|184674763|SUPERIORITY||Difference in LS Means|-2.23|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-3.06|-1.4|||ANCOVA|||||-1.40|-3.06|< 0.001
92386798|NCT01620528|184674764|SUPERIORITY||Difference in LS Means|-0.97|STANDARD_ERROR_OF_MEAN|0.39||0.013|TWO_SIDED|95.0|-1.74|-0.2|||ANCOVA|||||-0.20|-1.74|0.013
92386799|NCT01620528|184674764|SUPERIORITY||Difference in LS Means|-1.81|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-2.58|-1.04|||ANCOVA|||||-1.04|-2.58|< 0.001
92386800|NCT01620528|184674765|SUPERIORITY||Difference in LS Means|-1.28|STANDARD_ERROR_OF_MEAN|0.48||0.007|TWO_SIDED|95.0|-2.22|-0.34|||ANCOVA|||||-0.34|-2.22|0.007
92416986|NCT01894568|184721696|NON_INFERIORITY_OR_EQUIVALENCE|0.4% is the margin of Non-inferiority|LS Mean Difference|-0.24||||0.005|TWO_SIDED|95.0|-0.41|-0.07|||Mixed Models Analysis|||||-0.07|-0.41|0.005
92416987|NCT01514370|184721726|OTHER|||||||0.271|||||||Chi-squared|||||||0.271
92416988|NCT03207035|184721816|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92416989|NCT03207035|184721817|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
92234647|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8312|TWO_SIDED|95.0|-0.3|0.24|||ANCOVA|||Baseline Quantity of Sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||0.24|-0.30|0.8312
92234648|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.2||0.9101|TWO_SIDED|95.0|-0.38|0.42|||ANCOVA|||Week 21 Quantity of Sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||0.42|-0.38|0.9101
92280528|NCT00601484|184463646|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-17.9|||||TWO_SIDED|90.0|-42.04|4.37||||||Week 4: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\] as stratification variable.||4.37|-42.04|
92386801|NCT01620528|184674765|SUPERIORITY||Difference in LS Means|-2.49|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|-3.44|-1.54|||ANCOVA|||||-1.54|-3.44|< 0.001
92386802|NCT01620528|184674766|SUPERIORITY||Difference in LS Means|-0.86|STANDARD_ERROR_OF_MEAN|0.87||0.326|TWO_SIDED|95.0|-2.57|0.85|||ANCOVA|||||0.85|-2.57|0.326
92386803|NCT01620528|184674766|SUPERIORITY||Difference in LS Means|-1.93|STANDARD_ERROR_OF_MEAN|0.89||0.031|TWO_SIDED|95.0|-3.67|-0.18|||ANCOVA|||||-0.18|-3.67|0.031
92386804|NCT01620528|184674767|SUPERIORITY||Difference in LS Means|-1.41|STANDARD_ERROR_OF_MEAN|0.88||0.107|TWO_SIDED|95.0|-3.13|0.31|||ANCOVA|||||0.31|-3.13|0.107
92386805|NCT01620528|184674767|SUPERIORITY||Difference in LS Means|-3.52|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.28|-1.75|||ANCOVA|||||-1.75|-5.28|< 0.001
92386806|NCT01620528|184674768|SUPERIORITY||Difference in LS Means|-1.01|STANDARD_ERROR_OF_MEAN|0.82||0.219|TWO_SIDED|95.0|-2.63|0.6|||ANCOVA|||||0.60|-2.63|0.219
92386807|NCT01620528|184674768|SUPERIORITY||Difference in LS Means|-2.93|STANDARD_ERROR_OF_MEAN|0.84|<|0.001|TWO_SIDED|95.0|-4.59|-1.28|||ANCOVA|||||-1.28|-4.59|< 0.001
92386808|NCT01620528|184674769|SUPERIORITY||Difference in LS Means|-1.6|STANDARD_ERROR_OF_MEAN|0.72||0.026|TWO_SIDED|95.0|-3.01|-0.19|||ANCOVA|||||-0.19|-3.01|0.026
92386809|NCT01620528|184674769|SUPERIORITY||Difference in LS Means|-3.89|STANDARD_ERROR_OF_MEAN|0.74|<|0.001|TWO_SIDED|95.0|-5.34|-2.43|||ANCOVA|||||-2.43|-5.34|< 0.001
92386810|NCT01620528|184674770|SUPERIORITY||Difference in LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.76||0.502|TWO_SIDED|95.0|-2.0|0.98|||ANCOVA|||||0.98|-2.00|0.502
92386811|NCT01620528|184674770|SUPERIORITY||Difference in LS Means|-3.13|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-4.7|-1.56|||ANCOVA|||||-1.56|-4.70|< 0.001
92386812|NCT01620528|184674771|SUPERIORITY||Difference in LS Means|-1.36|STANDARD_ERROR_OF_MEAN|0.85||0.108|TWO_SIDED|95.0|-3.02|0.3|||ANCOVA|||||0.30|-3.02|0.108
92386813|NCT01620528|184674771|SUPERIORITY||Difference in LS Means|-4.47|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|-6.19|-2.74|||ANCOVA|||||-2.74|-6.19|< 0.001
92386814|NCT01620528|184674772|SUPERIORITY||Difference in LS Means|-1.19|STANDARD_ERROR_OF_MEAN|0.36||0.001|TWO_SIDED|95.0|-1.9|-0.48|||ANCOVA|||||-0.48|-1.90|0.001
92386815|NCT01620528|184674772|SUPERIORITY||Difference in LS Means|-1.05|STANDARD_ERROR_OF_MEAN|0.36||0.004|TWO_SIDED|95.0|-1.76|-0.34|||ANCOVA|||||-0.34|-1.76|0.004
92386816|NCT01620528|184674773|SUPERIORITY||Difference in LS Means|-0.76|STANDARD_ERROR_OF_MEAN|0.38||0.045|TWO_SIDED|95.0|-1.49|-0.02|||mixed-effects model|||||-0.02|-1.49|0.045
92386817|NCT01620528|184674773|SUPERIORITY||Difference in LS Means|-1.06|STANDARD_ERROR_OF_MEAN|0.38||0.006|TWO_SIDED|95.0|-1.81|-0.31|||ANCOVA|||||-0.31|-1.81|0.006
92386818|NCT01620528|184674774|SUPERIORITY||Difference in LS Means|-0.54|STANDARD_ERROR_OF_MEAN|0.33||0.103|TWO_SIDED|95.0|-1.19|0.11|||ANCOVA|||||0.11|-1.19|0.103
92386819|NCT01620528|184674774|SUPERIORITY||Difference in LS Means|-0.98|STANDARD_ERROR_OF_MEAN|0.34||0.003|TWO_SIDED|95.0|-1.64|-0.32|||ANCOVA|||||-0.32|-1.64|0.003
92416990|NCT03207035|184721818|OTHER|||||||0.7|||||||t-test, 2 sided|||||||0.70
92416991|NCT03207035|184721819|OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
92416992|NCT03207035|184721820|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
92416993|NCT03207035|184721821|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
92416994|NCT03207035|184721822|OTHER|||||||0.53|||||||Chi-squared|||||||0.53
92416995|NCT03207035|184721823|OTHER|||||||0.48|||||||Chi-squared|||||||0.48
92234649|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-2.37|STANDARD_ERROR_OF_MEAN|2.45||0.3346|TWO_SIDED|95.0|-7.19|2.45|||ANCOVA|||Baseline Adequacy of Sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||2.45|-7.19|0.3346
92234650|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|2.05||0.7491|TWO_SIDED|95.0|-4.69|3.37|||ANCOVA|||Week 21 Adequacy of Sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||3.37|-4.69|0.7491
92234651|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|2.98|STANDARD_ERROR_OF_MEAN|1.9||0.1162|TWO_SIDED|95.0|-0.74|6.71|||ANCOVA|||Baseline Somnolence: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||6.71|-0.74|0.1162
92234652|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|2.06|STANDARD_ERROR_OF_MEAN|1.66||0.2163|TWO_SIDED|95.0|-1.21|5.32|||ANCOVA|||Week 21 Somnolence: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||5.32|-1.21|0.2163
92234653|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|3.45|STANDARD_ERROR_OF_MEAN|1.61||0.0321|TWO_SIDED|95.0|0.3|6.61|||ANCOVA|||Baseline Sleep Problem Index (9): ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||6.61|0.30|0.0321
92278503|NCT04147715|184459284|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.9913|||||TWO_SIDED|90.0|0.9232|1.0645|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed by analysis of variance (ANOVA) fit with a linear mixed effect model with the natural log (ln)-transformed Cmax as the dependent variable, treatment as fixed effect, and participant as random effect. The difference and 90% confidence interval (CI) between the ln-transformed Cmax of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0645|0.9232|
92386820|NCT01620528|184674775|SUPERIORITY||Difference in LS Means|-0.31|STANDARD_ERROR_OF_MEAN|0.36||0.39|TWO_SIDED|95.0|-1.01|0.4|||ANCOVA|||||0.40|-1.01|0.390
92386821|NCT01620528|184674775|SUPERIORITY||Difference in LS Means|-1.05|STANDARD_ERROR_OF_MEAN|0.36||0.003|TWO_SIDED|95.0|-1.75|-0.35|||ANCOVA|||||-0.35|-1.75|0.003
92416996|NCT02519855|184721840|NON_INFERIORITY_OR_EQUIVALENCE|A lower bound of the 95% CI on the fold difference (GMT ratio \[Concomitant / Nonconcomitant\] at 4 weeks postvaccination) \>0.67 implied that the difference is statistically significantly noninferior to the prespecified clinically relevant decrease of 1.5-fold. A p-value ≤0.025 also supported a conclusion of noninferiority.|GMT Ratio at 4 weeks postvaccination|0.87|||<|0.001|TWO_SIDED|95.0|0.8|0.95|||Longitudinal regression model|GMT ratio, 95% CI and p-value were based on a longitudinal regression model adjusting for prevaccination titers and age.||||0.95|0.80|<0.001
92234654|NCT00537940|184372713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|1.28||0.7889|TWO_SIDED|95.0|-2.17|2.85|||ANCOVA|||Week 21 Sleep Problem Index (9): ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||2.85|-2.17|0.7889
92234655|NCT00537940|184372714|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.653||||0.0252|TWO_SIDED|95.0|0.449|0.948|||Regression, Logistic|||Baseline: Logistic regression model was used to estimate odds ratio and corresponding 95% CI of treatment difference, with treatment as fixed effect and for post-baseline assessments baseline was included as a covariate.||0.948|0.449|0.0252
92234656|NCT00537940|184372714|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.811||||0.3459|TWO_SIDED|95.0|0.524|1.254|||Regression, Logistic|||Week 21: Logistic regression model was used to estimate odds ratio and corresponding 95% CI of treatment difference, with treatment as fixed effect and for post-baseline assessments baseline was included as a covariate.||1.254|0.524|0.3459
92234657|NCT03952546|184372725|NON_INFERIORITY|The test for non-inferiority was carried out by calculating the upper 95% confidence limit (one sided confidence interval) for the difference in estimated blood loss (δ = Unipolar electrocautery system - Saline-coupled bipolar sealer), with the margin of inferiority (δ), set at 200 cc.||||||0.1254|||||||t-test, 1 sided|||||||0.1254
92234658|NCT03952546|184372726|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92234659|NCT00430781|184372738|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.535||90.0|0.65|1.7||Stratified log-rank test with one-sided p-value. p\<=0.0037 required for significance, and p\>0.4956 indicated futility.|Log Rank||The estimated value is the hazard ratio comparing combination to lapatinib monotherapy|||1.7|0.65|0.535
92234660|NCT00430781|184372741|SUPERIORITY_OR_OTHER|||||||0.237||95.0||||One-sided p-value.|Fisher Exact|||||||0.237
92386822|NCT01620528|184674776|SUPERIORITY||Difference in LS Means|-0.2|STANDARD_ERROR_OF_MEAN|0.27||0.46|TWO_SIDED|95.0|-0.72|0.32|||ANCOVA|||||0.32|-0.72|0.460
92386823|NCT01620528|184674776|SUPERIORITY||Difference in LS Means|-1.04|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.57|-0.52|||ANCOVA|||||-0.52|-1.57|< 0.001
92386824|NCT01620528|184674777|SUPERIORITY||LS Mean of Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.35||0.095|TWO_SIDED|95.0|-1.28|0.1|||ANCOVA|||||0.10|-1.28|0.095
92386825|NCT01620528|184674777|SUPERIORITY||Difference in LS Means|-1.3|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-2.01|-0.59|||ANCOVA|||||-0.59|-2.01|< 0.001
92386826|NCT01620528|184674778|SUPERIORITY||Difference in LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.97||0.462|TWO_SIDED|95.0|-2.61|1.19|||ANCOVA|||||1.19|-2.61|0.462
92386827|NCT01620528|184674778|SUPERIORITY||Difference in LS Means|-3.23|STANDARD_ERROR_OF_MEAN|0.98||0.001|TWO_SIDED|95.0|-5.16|-1.3|||ANCOVA|||||-1.30|-5.16|0.001
92386828|NCT01620528|184674779|SUPERIORITY||Difference in LS Means|-2.02|STANDARD_ERROR_OF_MEAN|0.97||0.039|TWO_SIDED|95.0|-3.93|-0.11|||ANCOVA|||||-0.11|-3.93|0.039
92234661|NCT00430781|184372745|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.66||||0.013||90.0|0.48|0.91||Stratified log-rank test with one-sided p-value.|Log Rank|||||0.91|0.48|0.013
92234662|NCT02158533|184372749|SUPERIORITY||Least squares mean difference|-1.8|STANDARD_ERROR_OF_MEAN|1.14||0.109|TWO_SIDED|95.0|-4.1|0.4||Hypothesis tests were two-sided with an alpha of 0.05. Control of type 1 error inflation due to multiplicity was achieved by pre-specifying a fixed sequence for statistical tests.|Mixed Models Analysis|ALKS 5461 was compared to pbo using stage-specific MMRM for MADRS-10 Change from Baseline. Model-derived estimates were combined using equal weights.|Estimates below zero favor ALKS 5461.|Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified equal weights. Within each stage ALKS 5461 2mg/2mg was compared to placebo (i.e., ALKS 5461 2mg/2mg S1 vs Placebo S1; and ALKS 5461 2mg/2mg S2 vs Placebo S2. The pre-specified order of hypothesis tests was ALKS 5461 2/2 compared to placebo followed by ALKS 5461 0.5mg/0.5mg compared to placebo.||0.4|-4.1|0.109
92234663|NCT02158533|184372749|SUPERIORITY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|1.17||0.975|TWO_SIDED|95.0|-2.3|2.3||Hypothesis tests were two-sided with an alpha of 0.05. Control of type 1 error inflation due to multiplicity was achieved by pre-specifying a fixed sequence for statistical tests.|Mixed Models Analysis|ALKS 5461 was compared to pbo using stage-specific MMRM for MADRS-10 Change from Baseline. Model-derived estimates were combined using equal weights.|Estimates below zero favor ALKS 5461.|Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified equal weights. Within each stage ALKS 5461 0.5mg/0.5mg was compared to placebo (i.e., ALKS 5461 0.5mg/0.5mg S1 vs Placebo S1; and ALKS 5461 0.5mg/0.5mg S2 vs Placebo S2). The pre-specified order of hypothesis tests was ALKS 5461 2/2 compared to placebo followed by ALKS 5461 0.5/0.5 compared to placebo.||2.3|-2.3|0.975
92386829|NCT01620528|184674779|SUPERIORITY||Difference in LS Means|-4.86|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|-6.82|-2.9|||ANCOVA|||||-2.90|-6.82|< 0.001
92386830|NCT01620528|184674780|SUPERIORITY||Difference in LS Means|-2.2|STANDARD_ERROR_OF_MEAN|1.03||0.032|TWO_SIDED|95.0|-4.21|-0.18|||ANCOVA|||||-0.18|-4.21|0.032
92416997|NCT02519855|184721841|SUPERIORITY_OR_OTHER||GMFR from Baseline|1.9|||<|0.001|TWO_SIDED|95.0|1.76|2.05||A lower bound of the 95% CI on the GMFR \> 1.4 indicated that the Concomitant Group induces an acceptable VZV antibody response. A p-value ≤0.025 also supported this conclusion.|Longitudinal regression||Estimated GMFR, 95% CI and p-value were based on a longitudinal regression model adjusting for age.|||2.05|1.76|<0.001
92416998|NCT02519855|184721842|NON_INFERIORITY_OR_EQUIVALENCE|A lower bound of the 95% CI on the fold difference (GMT ratio \[Concomitant / Nonconcomitant\] at 4 weeks postvaccination) \>0.67 implied that the difference is statistically significantly noninferior to the prespecified clinically relevant decrease of 1.5-fold. A p-value ≤0.025 also supported the conclusion of noninferiority.|GMT Ratio at 4 weeks postvaccination|1.02|||<|0.001|TWO_SIDED|95.0|0.88|1.18|||Longitudinal regression|GMT ratio, 95% CI and p-value were based on a longitudinal regression model adjusting for prevaccination titers and age.||||1.18|0.88|<0.001
92234664|NCT01475955|184372755|SUPERIORITY_OR_OTHER|||||||0.0041||95.0|||||Chi-squared|||Pearson chi-square||||0.0041
92234665|NCT01389128|184372828|OTHER||||||<|0.01|||||||Chi-squared|||||||<0.01
92386831|NCT01620528|184674780|SUPERIORITY||Difference in LS Means|-4.91|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-6.95|-2.86|||ANCOVA|||||-2.86|-6.95|< 0.001
92234666|NCT01389128|184372831|OTHER|||||||0.68|||||||Chi-squared|||||||0.68
92234667|NCT00756002|184372834|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|Least Squares (LS) means from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||One subject did not have postsleep questionnaire data on day 2; however, had polysomnography data recorded. Analysis was based on LOCF data.||||<0.001
92234668|NCT00756002|184372835|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92386832|NCT01620528|184674781|SUPERIORITY||Difference in LS Means|-2.42|STANDARD_ERROR_OF_MEAN|0.94||0.01|TWO_SIDED|95.0|-4.26|-0.58|||ANCOVA|||||-0.58|-4.26|0.010
92386833|NCT01620528|184674781|SUPERIORITY||Difference in LS Means|-5.25|STANDARD_ERROR_OF_MEAN|0.96|<|0.001|TWO_SIDED|95.0|-7.14|-3.36|||ANCOVA|||||-3.36|-7.14|< 0.001
92386834|NCT01620528|184674782|SUPERIORITY||Difference in LS Means|-1.17|STANDARD_ERROR_OF_MEAN|0.94||0.215|TWO_SIDED|95.0|-3.02|0.68|||ANCOVA|||||0.68|-3.02|0.215
92386835|NCT01620528|184674782|SUPERIORITY||Difference in LS Means|-5.13|STANDARD_ERROR_OF_MEAN|0.98|<|0.001|TWO_SIDED|95.0|-7.06|-3.2|||ANCOVA|||||-3.20|-7.06|< 0.001
92386836|NCT01620528|184674783|SUPERIORITY||Difference in LS Means|-2.25|STANDARD_ERROR_OF_MEAN|1.16||0.053|TWO_SIDED|95.0|-4.53|0.03|||ANCOVA|||||0.03|-4.53|0.053
92386837|NCT01620528|184674783|SUPERIORITY||Difference in LS Means|-6.79|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|-9.17|-4.41|||ANCOVA|||||-4.41|-9.17|< 0.001
92386838|NCT01620528|184674784|SUPERIORITY||Difference in LS Means|-2.12|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|-3.24|-1.01|||ANCOVA|||||-1.01|-3.24|< 0.001
92386839|NCT01620528|184674784|SUPERIORITY||Difference in LS Means|-2.6|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|-3.71|-1.49|||ANCOVA|||||-1.49|-3.71|< 0.001
92386840|NCT01620528|184674785|SUPERIORITY||Difference in LS Means|-2.09|STANDARD_ERROR_OF_MEAN|0.67||0.002|TWO_SIDED|95.0|-3.4|-0.78|||ANCOVA|||||-0.78|-3.40|0.002
92386841|NCT01620528|184674785|SUPERIORITY||Difference in LS Means|-2.65|STANDARD_ERROR_OF_MEAN|0.68|<|0.001|TWO_SIDED|95.0|-3.98|-1.32|||ANCOVA|||||-1.32|-3.98|< 0.001
92386842|NCT01620528|184674786|SUPERIORITY||Difference in LS Means|-2.17|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|-3.39|-0.95|||ANCOVA|||||-0.95|-3.39|< 0.001
92386843|NCT01620528|184674786|SUPERIORITY||Difference in LS Means|-3.0|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|-4.23|-1.76|||ANCOVA|||||-1.76|-4.23|< 0.001
92386844|NCT01620528|184674787|SUPERIORITY||Difference in LS Means|-1.54|STANDARD_ERROR_OF_MEAN|0.64||0.017|TWO_SIDED|95.0|-2.8|-0.27|||ANCOVA|||||-0.27|-2.80|0.017
92386845|NCT01620528|184674787|SUPERIORITY||Difference in LS Means|-3.24|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-4.5|-1.98|||ANCOVA|||||-1.98|-4.50|< 0.001
92234669|NCT00756002|184372836|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234670|NCT00756002|184372837|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||One subject did not have postsleep questionnaire data on day 2; however, had polysomnography data recorded. Analysis was based on LOCF data.||||0.003
92234671|NCT00756002|184372838|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234672|NCT00756002|184372839|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234673|NCT00756002|184372840|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234674|NCT00756002|184372841|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234675|NCT00756002|184372842|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234676|NCT00756002|184372843|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234677|NCT00756002|184372844|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234678|NCT00756002|184372845|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234679|NCT00756002|184372846|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||LS means from ANCOVA model with effects for treatment \& pooled center, with Baseline as a covariate. P-values from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|||||||<0.001
92234680|NCT00756002|184372847|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||LS means from ANCOVA model with effects for treatment \& pooled center, with Baseline as a covariate. P-values from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|||||||0.043
92234681|NCT00756002|184372848|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.005
92234682|NCT00756002|184372849|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.010
92234683|NCT00756002|184372850|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.002
92386846|NCT01620528|184674788|SUPERIORITY||Difference in LS Means|-1.14|STANDARD_ERROR_OF_MEAN|0.55||0.038|TWO_SIDED|95.0|-2.22|-0.07|||ANCOVA|||||-0.07|-2.22|0.038
92386847|NCT01620528|184674788|SUPERIORITY||Difference in LS Means|-2.83|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|-3.91|-1.74|||ANCOVA|||||-1.74|-3.91|< 0.001
92386848|NCT01620528|184674789|SUPERIORITY||Difference in LS Means|-1.83|STANDARD_ERROR_OF_MEAN|0.66||0.006|TWO_SIDED|95.0|-3.13|-0.54|||ANCOVA|||||-0.54|-3.13|0.006
92386849|NCT01620528|184674789|SUPERIORITY||Difference in LS Means|-3.75|STANDARD_ERROR_OF_MEAN|0.67|<|0.001|TWO_SIDED|95.0|-5.06|-2.44|||ANCOVA|||||-2.44|-5.06|< 0.001
92386850|NCT04569357|184674793|SUPERIORITY|||||||0.0199|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 25%.||||0.0199
92386851|NCT04569357|184674794|SUPERIORITY|||||||0.0096|||||||Wilcoxon (Mann-Whitney)|||Mean changes of ADHD-RS-V scores after 8 weeks of treatment were compared.||||0.0096
92386852|NCT04569357|184674795|SUPERIORITY|||||||0.0063|||||||Wilcoxon (Mann-Whitney)|||Mean changes of ADHD-RS-V scores (attention deficit subscale) after 8 weeks of treatment were compared.||||0.0063
92386853|NCT04569357|184674796|SUPERIORITY|||||||0.0525|||||||Wilcoxon (Mann-Whitney)|||Mean changes of ADHD-RS-V scores (hyperactivity/impulsivity subscale) after 8 weeks of treatment were compared.||||0.0525
92386854|NCT04569357|184674797|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||Therapeutic effect analysis.||||0.0024
92386855|NCT04569357|184674797|SUPERIORITY|||||||0.1722|||||||Wilcoxon (Mann-Whitney)|||Side effects analysis.||||0.1722
92386856|NCT04569357|184674797|SUPERIORITY|||||||0.0012|||||||Wilcoxon (Mann-Whitney)|||Efficacy index analysis.||||0.0012
92386857|NCT04569357|184674798|SUPERIORITY|||||||0.13||||||"The p-value associated with treatment\*visit interaction of changes from baseline visit 1 to visit 2 and 3 endpoint between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.13
92234684|NCT00756002|184372851|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.006
92234685|NCT00756002|184372852|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with the Baseline value as a covariate.||||||<0.001
92234686|NCT00756002|184372853|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with the Baseline value as a covariate.||||||<0.001
92234687|NCT00756002|184372854|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with the Baseline value as a covariate.||||||<0.001
92386858|NCT04569357|184674799|SUPERIORITY|||||||0.81||||||"The p-value associated with treatment\*visit interaction of changes from baseline visit 1 to visit 2 and 3 endpoint between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to Systolic pressure data.||||0.81
92386859|NCT04569357|184674799|SUPERIORITY|||||||0.22||||||"The p-value associated with treatment\*visit interaction of changes from baseline visit 1 to visit 2 and 3 endpoint between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to Diastolic pressure data.||||0.22
92386860|NCT04569357|184674800|SUPERIORITY|||||||0.13||||||"The p-value associated with treatment\*visit interaction of changes from baseline visit 1 to visit 2 and 3 endpoint between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.13
92416999|NCT02519855|184721843|NON_INFERIORITY_OR_EQUIVALENCE|A lower bound of the 95% CI on the fold difference (GMT ratio \[Concomitant / Nonconcomitant\] at 4 weeks postvaccination) \>0.67 implied that the difference is statistically significantly noninferior to the prespecified clinically relevant decrease of 1.5-fold. A p-value ≤0.025 also supported the conclusion of noninferiority.|GMT Ratio at 4 weeks postvaccination|1.1|||<|0.001|TWO_SIDED|95.0|0.94|1.29|||Longitudinal regression|GMT ratio, 95% CI and p-value were based on a longitudinal regression model adjusting for prevaccination titers and age.||||1.29|0.94|<0.001
92234688|NCT00756002|184372855|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234689|NCT00756002|184372856|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234690|NCT00756002|184372857|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234691|NCT00756002|184372858|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234692|NCT00756002|184372859|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234693|NCT00756002|184372860|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
92234694|NCT00756002|184372861|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.785
92234695|NCT00756002|184372862|SUPERIORITY_OR_OTHER|||||||0.422||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.422
92386861|NCT04569357|184674801|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.2
92386862|NCT04569357|184674802|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
92386863|NCT04569357|184674803|SUPERIORITY|||||||0.5|||||||Fisher Exact|||||||0.5
92386864|NCT04569357|184674804|SUPERIORITY|||||||0.0254|||||||Fisher Exact|||||||0.0254
92386865|NCT01122849|184674805|SUPERIORITY_OR_OTHER||Least Square (LS) Mean difference|-0.12||||0.5456|TWO_SIDED|95.0|-0.52|0.28||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q1 at Day 7||0.28|-0.52|0.5456
92386866|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS mean difference|-0.34||||0.1029|TWO_SIDED|95.0|-0.75|0.07||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q1 at Day 7||0.07|-0.75|0.1029
92386867|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS mean difference|0.22||||0.2879|TWO_SIDED|95.0|-0.19|0.62||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q1 at Day 7||0.62|-0.19|0.2879
92234696|NCT00756002|184372863|SUPERIORITY_OR_OTHER|||||||0.665||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.665
92234697|NCT00756002|184372864|SUPERIORITY_OR_OTHER|||||||0.228||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.228
92234698|NCT00756002|184372865|SUPERIORITY_OR_OTHER|||||||0.099||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.099
92234699|NCT00756002|184372866|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.005
92234700|NCT00756002|184372867|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.004
92234701|NCT00756002|184372868|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.001
92234702|NCT00756002|184372869|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.004
92386868|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.8213|TWO_SIDED|95.0|-0.45|0.56||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q3 at Day 7||0.56|-0.45|0.8213
92386869|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS Mean difference|-0.24||||0.3457||95.0|-0.74|0.27||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q3 at Day 7||0.27|-0.74|0.3457
92234703|NCT00756002|184372870|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.040
92234704|NCT00756002|184372871|SUPERIORITY_OR_OTHER|||||||0.814||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.814
92234705|NCT00756002|184372872|SUPERIORITY_OR_OTHER|||||||0.929||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.929
92234706|NCT00756002|184372873|SUPERIORITY_OR_OTHER|||||||0.591||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.591
92234707|NCT00756002|184372874|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.015
92234708|NCT00756002|184372875|SUPERIORITY_OR_OTHER|||||||0.097||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.097
92234709|NCT00756002|184372876|SUPERIORITY_OR_OTHER|||||||0.028||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.028
92234710|NCT00756002|184372877|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.003
92386870|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.2364|TWO_SIDED|95.0|-0.2|0.79|||ANCOVA|||Comparison for Q3 at Day 7||0.79|-0.20|0.2364
92386871|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.3553|TWO_SIDED|95.0|-0.21|0.57||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q17 at Day 7||0.57|-0.21|0.3553
92386872|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.3369|TWO_SIDED|95.0|-0.58|0.2||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q17 at Day 7||0.20|-0.58|0.3369
92386873|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.0591|TWO_SIDED|95.0|-0.01|0.76||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q17 at Day 7||0.76|-0.01|0.0591
92386874|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05||||0.7686|TWO_SIDED|95.0|-0.42|0.31||Between treatment p-values and confidence intervals.|ANCOVA|||Comparison of Q18 at Day 7||0.31|-0.42|0.7686
92386875|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.46||||0.0151|TWO_SIDED|95.0|-0.83|-0.09|||ANCOVA|||Comparison of Q18 at Day 7||-0.09|-0.83|0.0151
92386876|NCT01122849|184674805|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41||||0.0256|TWO_SIDED|95.0|0.05|0.77||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q18 at Day 7||0.77|0.05|0.0256
92386877|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11||||0.5958|TWO_SIDED|95.0|-0.52|0.3||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q1at Day 14||0.30|-0.52|0.5958
92386878|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31||||0.1429|TWO_SIDED|95.0|-0.73|0.11||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q1 at Day 14||0.11|-0.73|0.1429
92417000|NCT02519855|184721844|NON_INFERIORITY_OR_EQUIVALENCE|A lower bound of the 95% CI on the fold difference (GMT ratio \[Concomitant / Nonconcomitant\] at 4 weeks postvaccination) \>0.67 implied that the difference is statistically significantly noninferior to the prespecified clinically relevant decrease of 1.5-fold. A p-value ≤0.025 also supported the conclusion of noninferiority.|GMT Ratio at 4 weeks postvaccination|1.0|||<|0.001|TWO_SIDED|95.0|0.88|1.14|||Longitudinal regression|GMT ratio, 95% CI and p-value were based on a longitudinal regression model adjusting for prevaccination titers and age.||||1.14|0.88|<0.001
92417001|NCT02519855|184721845|NON_INFERIORITY_OR_EQUIVALENCE|A lower bound of the 95% CI on the fold difference (GMT ratio \[Concomitant / Nonconcomitant\] at 4 weeks postvaccination) \>0.67 implied that the difference is statistically significantly noninferior to the prespecified clinically relevant decrease of 1.5-fold. A p-value ≤0.025 also supported the conclusion of noninferiority.|GMT Ratio at 4 weeks postvaccination|0.99|||<|0.001|TWO_SIDED|95.0|0.87|1.13|||Longitudinal regression|GMT ratio, 95% CI and p-value were based on a longitudinal regression model adjusting for prevaccination titers and age.||||1.13|0.87|<0.001
92417002|NCT01545843|184721846|SUPERIORITY_OR_OTHER_LEGACY|||||||0.202|TWO_SIDED||||||Mixed Models Analysis|||||||.202
92417003|NCT03390842|184721857|SUPERIORITY||Difference in % of subjects|24.9|||=|0.0015|TWO_SIDED|95.0|10.2|38.7|||Fisher Exact|||% Subjects Who Met Endpoint (≥ 4 mEq/L Change from Baseline Serum Bicarbonate or Serum Bicarbonate in the Normal Range \[22 - 29 mEq/L\]): TRC101-Placebo||38.7|10.2|= 0.0015
92234711|NCT00756002|184372878|SUPERIORITY_OR_OTHER|||||||0.111||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.111
92234712|NCT04329923|184372890|SUPERIORITY||Cox Proportional Hazard|0.58||||0.28|TWO_SIDED||||||Regression, Cox|||||||0.28
92234713|NCT01272180|184372895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of ABCWY+OMV group was considered to be non-inferior to that of ACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+OMV - ACWY)|16.0|||||TWO_SIDED|95.0|5.0|29.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup A of two doses of MenABCWY combination vaccine to that of one dose of MenACWY vaccine.||29|5|
92234714|NCT01272180|184372895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of ABCWY+OMV group was considered to be non-inferior to that of ACWY group if the lower limit of the two-sided 95% confidence interval on the difference between MenABCWY and MenACWY groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+OMV - ACWY)|32.0|||||TWO_SIDED|95.0|21.0|44.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup C of two doses of ABCWY+OMV combination vaccine to that of one dose of MenACWY vaccine.||44|21|
92234715|NCT01272180|184372895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of ABCWY+OMV group was considered to be non-inferior to that of ACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+OMV - ACWY)|15.0|||||TWO_SIDED|95.0|0.0|30.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup W-135 of two doses of ABCWY+OMV combination vaccine to that of one dose of MenACWY vaccine.||30|0|
92386879|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.3348|TWO_SIDED|95.0|-0.21|0.62|||ANCOVA|||Comparison of Q1 at Day 14||0.62|-0.21|0.3348
92417004|NCT03390842|184721857|SUPERIORITY||Treatment difference in % of subjects|24.4|||=|0.0015|TWO_SIDED|95.0|9.7|38.2|||Fisher Exact|||% Subjects with ≥ 4mEq/L Change from Baseline in Serum Bicarbonate: TRC101-Placebo||38.2|9.7|= 0.0015
92417005|NCT03390842|184721857|SUPERIORITY||Treatment difference in % of subjects|30.2|||<|0.0001|TWO_SIDED|95.0|15.6|43.7|||Fisher Exact|||% Subjects with Serum Bicarbonate in Normal Range (22 - 29 mEq/L): TRC101-Placebo||43.7|15.6|< 0.0001
92386880|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.4425||95.0|-0.32|0.72||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q3 at Day 14||0.72|-0.32|0.4425
92386881|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.4795|TWO_SIDED|95.0|-0.71|0.34|||ANCOVA|||Comparison of Q3 at Day 14||0.34|-0.71|0.4795
92386882|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39||||0.1375|TWO_SIDED|95.0|-0.13|0.9||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q3 at Day 14||0.90|-0.13|0.1375
92386883|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12||||0.575|TWO_SIDED|95.0|-0.56|0.31||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q17 at Day 14||0.31|-0.56|0.5750
92386884|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48||||0.0337|TWO_SIDED|95.0|-0.92|-0.04||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q17 at Day 14||-0.04|-0.92|0.0337
92386885|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35||||0.1061|TWO_SIDED|95.0|-0.08|0.79||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q17 at Day 14||0.79|-0.08|0.1061
92386886|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.7092|TWO_SIDED|95.0|-0.5|0.34||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q18 at Day 14||0.34|-0.50|0.7092
92386887|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean difference|-0.49||||0.025|TWO_SIDED|95.0|-0.91|-0.06||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q18 at Day14||-0.06|-0.91|0.0250
92234716|NCT01272180|184372895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of ABCWY+OMV group was considered to be non-inferior to that of ACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+OMV - ACWY)|18.0|||||TWO_SIDED|95.0|5.0|31.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup Y of two doses MenABCWY combination vaccine to that of one dose of MenACWY vaccine.||31|5|
92386888|NCT01122849|184674806|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41||||0.0503|TWO_SIDED|95.0|0.0|0.82||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q18 at Day 14||0.82|0.00|0.0503
92386889|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean Difference|0.84||||0.5462|TWO_SIDED|95.0|-1.92|3.59||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for sleep problems at Day 7||3.59|-1.92|0.5462
92234717|NCT01272180|184372895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of MenABCWY+qOMV group was considered to be non-inferior to that of ACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+qOMV - ACWY)|18.0|||||TWO_SIDED|95.0|7.0|30.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup A of two doses of MenABCWY+qOMV combination vaccine to that of one dose of MenACWY vaccine.||30|7|
92234718|NCT01272180|184372895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of MenABCWY+qOMV group was considered to be non-inferior to that of MenACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+qOMV - ACWY)|30.0|||||TWO_SIDED|95.0|18.0|42.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup C of two doses of MenABCWY+qOMV combination vaccine to that of one dose of MenACWY vaccine.||42|18|
92234719|NCT01272180|184372895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of MenABCWY+qOMV group was considered to be non-inferior to that of MenACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+qOMV - ACWY)|19.0|||||TWO_SIDED|95.0|4.0|33.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup W-135 of two doses of MenABCWY+qOMV combination vaccine to that of one dose of MenACWY vaccine.||33|4|
92234720|NCT01272180|184372895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of MenABCWY+qOMV group was considered to be non-inferior to that of MenACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days.|Group Difference % (ABCWY+qOMV - ACWY)|15.0|||||TWO_SIDED|95.0|3.0|29.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup Y of two doses of MenABCWY+qOMV combination vaccine to that of one dose of MenACWY vaccine.||29|3|
92386890|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.37||||0.0942|TWO_SIDED|95.0|-5.16|0.42||Between treatment p-values and confidence intervals.|ANCOVA|||Comparison for sleep problems at Day 7||0.42|-5.16|0.0942
92417006|NCT03390842|184721858|SUPERIORITY||Treatment difference in LS means|1.99|STANDARD_ERROR_OF_MEAN|0.524|=|0.0002|TWO_SIDED|95.0|0.96|3.03|||Mixed-effect repeated measures model||Standard error presented above is for the LS mean.|Least Squares Mean Change from Baseline: TRC101-Placebo||3.03|0.96|= 0.0002
92417007|NCT03390842|184721859|SUPERIORITY||||||<|0.0001||||||p-value based on analysis of covariance model with rank of change from baseline in total score as dependent variable; treatment (PBO or TRC101) as a fixed effect; and baseline total score, Baseline eGFR, Baseline Bicarbonate as continuous covariates.|ANCOVA|||Mean Change from Baseline in KDQOL-PFD: TRC101-Placebo||||< 0.0001
92417008|NCT03390842|184721860|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Change from Baseline for Repeated Chair Stand Test: TRC101-Placebo||||< 0.0001
92234721|NCT01702805|184372914|SUPERIORITY||Risk Ratio (RR)|1.0||||0.93|TWO_SIDED|95.0|0.92|1.1|||Robust Poisson Regression|The relative risk was adjusted for birth-weight and center stratum.||Null hypothesis: A higher hemoglobin threshold for red-cell transfusions, as compared with a lower threshold, will not reduce nor increase the incidence of death or neurodevelopmental impairment in infants at 22 to 26 months of age corrected for prematurity.||1.10|0.92|0.93
92234722|NCT02439775|184372965|SUPERIORITY|||||||0.1194||||||p\<0.05 required for significance|ANCOVA|||||||0.1194
92234723|NCT05483127|184372994|NON_INFERIORITY|Noninferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.003|||ONE_SIDED|95.0||0.0||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens by visit interaction, period, sequence) and random (subject) effects. Difference=P1fA - MDT. Sign (negative or positive) is retained with the rounded value.|||-0.00||
92234724|NCT02951273|184372995|SUPERIORITY|||||||0.0276|||||||repeated measure mixed model|||||||0.0276
92234725|NCT02951273|184372996|SUPERIORITY||||||<|0.0001|||||||repeated measure mixed model|||||||<0.0001
92234726|NCT02951273|184372997|SUPERIORITY|||||||0.6025|||||||Regression, Linear|||||||0.6025
92386891|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean Difference|3.2||||0.0221|TWO_SIDED|95.0|0.48|5.93||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of sleep problems at Day 7||5.93|0.48|0.0221
92386892|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean difference|-0.72||||0.6731|TWO_SIDED|95.0|-4.11|2.68||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Sleep Time problems at Day 7||2.68|-4.11|0.6731
92386893|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.57||||0.1354|TWO_SIDED|95.0|-5.98|0.83||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Sleep time problems at Day 7||0.83|-5.98|0.1354
92386894|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean difference|1.86||||0.2722|TWO_SIDED|95.0|-1.5|5.21||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of sleep time problems at Day 7||5.21|-1.50|0.2722
92386895|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean difference|-0.71||||0.6195|TWO_SIDED|95.0|-3.55|2.14||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for symptoms on walking in the morning at Day 7||2.14|-3.55|0.6195
92386896|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.83||||0.0099|TWO_SIDED|95.0|-6.7|-0.96||Between treatment p-values and confidence intervals|ANCOVA|||Comparison at day 7 for symptoms for walking in the morning||-0.96|-6.70|0.0099
92171767|NCT03338816|184233016|SUPERIORITY||Rate ratio|0.26|||<|0.0001|TWO_SIDED|95.0|0.16|0.41||P=6.040E-09|Negative binomial regression model|||Negative binomial regression model with treatment group and stratification factors (prior hemin prophylaxis status and historical attack rates) as fixed effects and the logarithm of the follow-up time as an offset variable.||0.41|0.16|<0.0001
92386897|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean Difference|3.12||||0.0298|TWO_SIDED|95.0|0.32|5.93||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for symptoms on waking in the morning at Day 7||5.93|0.32|0.0298
92386898|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean difference|-0.3||||0.7211|TWO_SIDED|95.0|-2.01|1.4||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day 7||1.40|-2.01|0.7211
92386899|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean difference|-0.8||||0.35|TWO_SIDED|95.0|-2.51|0.9||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day 7||0.90|-2.51|0.3500
92386900|NCT01122849|184674807|SUPERIORITY_OR_OTHER||LS Mean difference|0.5||||0.5564|TWO_SIDED|95.0|-1.19|2.18||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day 7||2.18|-1.19|0.5564
92386901|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.6804|TWO_SIDED|95.0|-2.2|3.35||Between treatment p-values and confidence intervals.|ANCOVA|||Comparison for Sleep Problems at Day 14||3.35|-2.20|0.6804
92386902|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.31||||0.3524|TWO_SIDED|95.0|-4.12|1.49||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for sleep problems at Day 14||1.49|-4.12|0.3524
92386903|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean Difference|1.89||||0.1739|TWO_SIDED|95.0|-0.86|4.63||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for sleep problems at Day 14||4.63|-0.86|0.1739
92417009|NCT00713310|184721871|SUPERIORITY_OR_OTHER||High-Low Dose Difference Success Rates|-1.1||||0.924|TWO_SIDED|95.0|-22.7|20.5|||Cochran-Mantel-Haenszel|||A total of about 100 subjects were to be enrolled in the study with the expectation that about 80 subjects (40/dose level) would complete. Minimum of 9 subjects in 5-8 year old range were to be enrolled, 4-5 per dose level (high/low). A 2-sided α=0.05 Fisher's Exact test has an estimated power of P=0.50 with 40 subjects per dose level.||20.5|-22.7|0.9240
92417010|NCT00713310|184721872|SUPERIORITY_OR_OTHER||High-Low Dose Difference Success Rates|1.4||||0.8193|TWO_SIDED|95.0|-20.2|23.0|||Cochran-Mantel-Haenszel|||A total of about 100 subjects were to be enrolled in the study with the expectation that about 80 subjects (40/dose level) would complete. Minimum of 9 subjects in 5-8 year old range were to be enrolled, 4-5 per dose level (high/low). A 2-sided α=0.05 Fisher's Exact test has an estimated power of P=0.50 with 40 subjects per dose level.||23.0|-20.2|0.8193
92417011|NCT04369924|184721880|SUPERIORITY||F test for time by condition interaction|1.49||||0.25|TWO_SIDED||||||ANOVA|||||||.25
92234727|NCT02951273|184372998|SUPERIORITY|||||||0.3213|||||||repeated measure mixed model|||||||0.3213
92234728|NCT02951273|184372999|SUPERIORITY|||||||0.0005||||||The reported p-value was calculated|repeated measure mixed model|||||||0.0005
92234729|NCT02951273|184373000|SUPERIORITY|||||||0.5404|||||||repeated measure mixed model|||||||0.5404
92386904|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean difference|1.98||||0.2463|TWO_SIDED|95.0|-1.41|5.36||Between treatment p-values and confidence intervals|ANCOVA|Between treatment p-values and confidence intervals||Comparison for Sleep time problems at Day 14||5.36|-1.41|0.2463
92386905|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean difference|0.28||||0.8677|TWO_SIDED|95.0|-3.11|3.68|||ANCOVA|||Comparison for sleep time problems at Day 14||3.68|-3.11|0.8677
92386906|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.3136|TWO_SIDED|95.0|-1.65|5.04||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for sleep time problems at Day 14||5.04|-1.65|0.3136
92386907|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14||||0.9183|TWO_SIDED|95.0|-2.93|2.65||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for symptoms on waking in the morning at Day 14||2.65|-2.93|0.9183
92386908|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean difference|-2.68||||0.0614|TWO_SIDED|95.0|-5.5|0.13||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for symptoms on waking in the morning at Day 14||0.13|-5.50|0.0614
92386909|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean Difference|2.54||||0.0695|TWO_SIDED|95.0|-0.21|5.29||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for symptoms on waking in the morning at Day 14||5.29|-0.21|0.0695
92386910|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean difference|0.54||||0.4947|TWO_SIDED|95.0|-1.03|2.1||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day14||2.10|-1.03|0.4947
92386911|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean difference|0.15||||0.8454|TWO_SIDED|95.0|-1.42|1.72||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day 14||1.72|-1.42|0.8454
92386912|NCT01122849|184674808|SUPERIORITY_OR_OTHER||LS Mean difference|0.38||||0.6223|TWO_SIDED|95.0|-1.17|1.93||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day 14||1.93|-1.17|0.6223
92386913|NCT01122849|184674809|SUPERIORITY_OR_OTHER||LS Mean difference|-1.34||||0.4258|TWO_SIDED|95.0|-4.68|2.01||Between treatment p-values and confidence intervals|LS Mean Difference|||Comparison at Day 7||2.01|-4.68|0.4258
92386914|NCT01122849|184674809|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.05||||0.0764|TWO_SIDED|95.0|-6.43|0.33||Between treatment p-values and confidence intervals|ANCOVA|||Comparison at Day 7||0.33|-6.43|0.0764
92386915|NCT01122849|184674809|SUPERIORITY_OR_OTHER||LS Mean Difference|1.71||||0.2986|TWO_SIDED|95.0|-1.56|4.97||Between treatment p-values and confidence intervals|ANCOVA|||Comparison at Day 7||4.97|-1.56|0.2986
92386916|NCT01122849|184674810|SUPERIORITY_OR_OTHER||LS Mean Difference|1.12||||0.482|TWO_SIDED|95.0|-2.05|4.29||Between treatment p-values and confidence intervals|ANCOVA|||||4.29|-2.05|0.4820
92386917|NCT01122849|184674810|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.81||||0.2607|TWO_SIDED|95.0|-5.02|1.39||Between treatment p-values and confidence intervals|ANCOVA|||||1.39|-5.02|0.2607
92386918|NCT01122849|184674810|SUPERIORITY_OR_OTHER||LS Mean Difference|2.93||||0.0623|TWO_SIDED|95.0|-0.16|6.02||Between treatment p-values and confidence intervals|ANCOVA|||||6.02|-0.16|0.0623
92386919|NCT01122849|184674811|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.36||||0.5278|TWO_SIDED|95.0|-18.1|9.39||Between treatment p-values and confidence intervals|ANCOVA|||||9.39|-18.1|0.5278
92234730|NCT02951273|184373001|SUPERIORITY|||||||0.8947|||||||repeated measure mixed model|||||||0.8947
92234731|NCT02951273|184373002|SUPERIORITY|||||||0.0068|||||||Linear mixed models|||||||0.0068
92234732|NCT02951273|184373003|SUPERIORITY||||||<|0.0001|||||||repeated measure mixed model|||||||<0.0001
92234733|NCT02951273|184373004|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92234734|NCT02951273|184373005|SUPERIORITY||||||<|0.0001|||||||repeated measure mixed model|||||||<0.0001
92234735|NCT02951273|184373006|SUPERIORITY||||||<|0.0001|||||||repeated measure mixed model|||||||<0.0001
92386920|NCT01122849|184674811|SUPERIORITY_OR_OTHER||LS Mean Difference|10.14||||0.1458|TWO_SIDED|95.0|-3.64|23.93||Between treatment p-values and confidence intervals|ANCOVA|||||23.93|-3.64|0.1458
92386921|NCT01122849|184674811|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.5||||0.037|TWO_SIDED|95.0|-28.1|-0.91||Between treatment p-values and confidence intervals.|ANCOVA|||||-0.91|-28.1|0.0370
92417012|NCT04369924|184721881|SUPERIORITY||F test for time by condition interaction|2.8||||0.12|TWO_SIDED||||||ANOVA|||||||.12
92417013|NCT04369924|184721882|SUPERIORITY||F test for time by condition interaction|0.7||||0.7|TWO_SIDED||||||ANOVA|||||||.70
92234736|NCT00121225|184373011|SUPERIORITY|||||||0.029|||||||Fisher Exact|||||||0.029
92234737|NCT02723630|184373022|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|100.52||||0.8826|TWO_SIDED|90.0|94.84|106.53||P-value for the formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and mean treatment difference.|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||106.53|94.84|0.8826
92234738|NCT02723630|184373022|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|96.03||||0.1095|TWO_SIDED|90.0|92.11|100.12||P-value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and mean treatment difference.|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||100.12|92.11|0.1095
92234739|NCT02723630|184373023|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|100.8||||0.8121|TWO_SIDED|90.0|95.31|106.61||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||106.61|95.31|0.8121
92417014|NCT04369924|184721883|SUPERIORITY||F test for time by condition interaction|3.67||||0.07|TWO_SIDED||||||ANOVA|||||||.07
92417015|NCT04369924|184721884|SUPERIORITY||Slope|0.16||||0.82|TWO_SIDED||||||Mixed Models Analysis|||||||.82
92417016|NCT04369924|184721885|SUPERIORITY||Slope|-2.41||||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||.59
92169699|NCT04992390|184227908|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|5.38|||<=|0.001|TWO_SIDED|95.0|2.56|8.2||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Sleep Condition Indicator (SCI) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|8.20|2.56|<= 0.001
92234740|NCT02723630|184373023|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|96.51||||0.163|TWO_SIDED|90.0|92.53|100.65||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||100.65|92.53|0.1630
92239722|NCT00410280|184383312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.06||||0.3902|TWO_SIDED|95.0|-13.46|5.35|||ANOVA|||Day 35: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||5.35|-13.46|0.3902
92386922|NCT01122849|184674812|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.1||||0.4483|TWO_SIDED|95.0|-18.5|8.29|||ANCOVA|Between treatment p-values and confidence intervals||||8.29|-18.5|0.4483
92386923|NCT01122849|184674812|SUPERIORITY_OR_OTHER||LS Mean Difference|14.28||||0.0385|TWO_SIDED|95.0|0.79|27.77|||ANCOVA|Between treatment p-values and confidence intervals||||27.77|0.79|0.0385
92386924|NCT01122849|184674812|SUPERIORITY_OR_OTHER||LS Mean difference|-19.37||||0.0046|TWO_SIDED|95.0|-32.5|-6.23|||ANCOVA|Between treatment p-values and confidence intervals||||-6.23|-32.5|0.0046
92386925|NCT01122849|184674813|SUPERIORITY_OR_OTHER||LS Mean Difference|15.24||||0.0029|TWO_SIDED|95.0|5.45|25.02||Between treatment p-values and confidence intervals|ANCOVA|||||25.02|5.45|0.0029
92386926|NCT01122849|184674813|SUPERIORITY_OR_OTHER||LS Mean Difference|3.74||||0.4683|TWO_SIDED|95.0|-6.53|14.01||Between treatment p-values and confidence intervals|ANCOVA|||||14.01|-6.53|0.4683
92386927|NCT01122849|184674813|SUPERIORITY_OR_OTHER||LS Mean Difference|11.5||||0.0259|TWO_SIDED|95.0|1.44|21.55||Between treatment p-values and confidence intervals|ANCOVA|||||21.55|1.44|0.0259
92386928|NCT01122849|184674814|SUPERIORITY_OR_OTHER||LS Mean Difference|7.79||||0.1764|TWO_SIDED|95.0|-3.62|19.19||Between treatment p-values and confidence intervals|ANCOVA|||||19.19|-3.62|0.1764
92234741|NCT02723630|184373024|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|99.68||||0.9427|TWO_SIDED|90.0|92.45|107.47||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||107.47|92.45|0.9427
92234742|NCT02723630|184373024|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|93.5||||0.0403|TWO_SIDED|90.0|88.63|98.64||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||98.64|88.63|0.0403
92386929|NCT01122849|184674814|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63||||0.9183|TWO_SIDED|95.0|-11.7|12.94||Between treatment p-values and confidence intervals|ANCOVA|||||12.94|-11.7|0.9183
92386930|NCT01122849|184674814|SUPERIORITY_OR_OTHER||LS Mean Difference|7.16||||0.2313||95.0|-4.7|19.01||Between treatment p-values and confidence intervals|ANCOVA|||||19.01|-4.70|0.2313
92386931|NCT01122849|184674815|SUPERIORITY_OR_OTHER||LS Mean difference|0.27||||0.1345|TWO_SIDED|95.0|-0.09|0.63||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 7||0.63|-0.09|0.1345
92386932|NCT01122849|184674815|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32||||0.0815|TWO_SIDED|95.0|-0.68|0.04||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 7||0.04|-0.68|0.0815
92386933|NCT01122849|184674815|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59||||0.0015|TWO_SIDED|95.0|0.24|0.94||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 7||0.94|0.24|0.0015
92386934|NCT01122849|184674815|SUPERIORITY_OR_OTHER||LS mean differnence|-1.03||||0.0292||95.0|-1.96|-0.11||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 7||-0.11|-1.96|0.0292
92386935|NCT01122849|184674815|SUPERIORITY_OR_OTHER||LS Mean difference|0.54||||0.2497|TWO_SIDED|95.0|-0.39|1.47||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q4 at Day 7||1.47|-0.39|0.2497
92386936|NCT01122849|184674815|SUPERIORITY_OR_OTHER||LS Mean difference|-1.57||||0.0011|TWO_SIDED|95.0|-2.48|-0.66||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 7||-0.66|-2.48|0.0011
92234743|NCT02723630|184373025|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|100.29||||0.9373|TWO_SIDED|90.0|94.37|106.58||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||106.58|94.37|0.9373
92386937|NCT01122849|184674816|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.8063|TWO_SIDED|95.0|-0.4|0.51||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 14||0.51|-0.40|0.8063
92386938|NCT01122849|184674816|SUPERIORITY_OR_OTHER||LS Mean Differnence|-0.35||||0.1356|TWO_SIDED|95.0|-0.82|0.11||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 14||0.11|-0.82|0.1356
92386939|NCT01122849|184674816|SUPERIORITY_OR_OTHER||LS mean Difference|0.41||||0.0786|TWO_SIDED|95.0|-0.05|0.87|||ANCOVA|||Comparison for Q2 at Day 14||0.87|-0.05|0.0786
92386940|NCT01122849|184674816|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.72||||0.1693|TWO_SIDED|95.0|-1.75|0.32||Between treatment p-values and confidence intervals|ANCOVA|||Comparisons for Q4 at Day 14||0.32|-1.75|0.1693
92386941|NCT01122849|184674816|SUPERIORITY_OR_OTHER||LS Mean difference|1.08||||0.0438|TWO_SIDED|95.0|0.03|2.13||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 14||2.13|0.03|0.0438
92386942|NCT01122849|184674816|SUPERIORITY_OR_OTHER||LS Mean difference|-1.8||||0.0009|TWO_SIDED|95.0|-2.82|-0.78||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 14||-0.78|-2.82|0.0009
92386943|NCT01122849|184674817|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24||||0.1991|TWO_SIDED|95.0|-0.62|0.13||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 7||0.13|-0.62|0.1991
92386944|NCT01122849|184674817|SUPERIORITY_OR_OTHER||LS Mean difference|-0.21||||0.2964|TWO_SIDED|95.0|-0.6|0.19||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q2 at Day 7||0.19|-0.60|0.2964
92386945|NCT01122849|184674817|SUPERIORITY_OR_OTHER||LS mean difference|-0.04||||0.8495|TWO_SIDED|95.0|-0.42|0.35||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q2 at Day 7||0.35|-0.42|0.8495
92386946|NCT01122849|184674817|SUPERIORITY_OR_OTHER||LS mean difference|1.35||||0.0381|TWO_SIDED|95.0|0.08|2.62||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 7||2.62|0.08|0.0381
92386947|NCT01122849|184674817|SUPERIORITY_OR_OTHER||LS mean difference|0.54||||0.4005|TWO_SIDED|95.0|-0.74|1.82||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q4 at Day 7||1.82|-0.74|0.4005
92386948|NCT01122849|184674817|SUPERIORITY_OR_OTHER||LS mean difference|0.81||||0.202|TWO_SIDED|95.0|-0.45|2.07||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q4 at Day 7||2.07|-0.45|0.2020
92386949|NCT01122849|184674818|SUPERIORITY_OR_OTHER||LS Mean difference|-0.09||||0.5741|TWO_SIDED|95.0|-0.41|0.23||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 14||0.23|-0.41|0.5741
92386950|NCT01122849|184674818|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.6935|TWO_SIDED|95.0|-0.26|0.39||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 14||0.39|-0.26|0.6935
92386951|NCT01122849|184674818|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.333|TWO_SIDED|95.0|-0.47|0.16||Between treatment p-values and confidence intervals.|ANCOVA|||Comparison of Q2 at Day 14||0.16|-0.47|0.3330
92386952|NCT01122849|184674818|SUPERIORITY_OR_OTHER||LS Mean difference|1.39||||0.0434|TWO_SIDED|95.0|0.04|2.73||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 14||2.73|0.04|0.0434
92386953|NCT01122849|184674818|SUPERIORITY_OR_OTHER||LS Mean difference|0.32||||0.6333|TWO_SIDED|95.0|-1.02|1.67||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 14||1.67|-1.02|0.6333
92234744|NCT02723630|184373025|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|95.17||||0.0682|TWO_SIDED|90.0|91.03|99.5||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||99.50|91.03|0.0682
92234745|NCT02723630|184373026|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|98.73||||0.8448|TWO_SIDED|90.0|88.57|110.06||P value for formulation|Mixed Models Analysis||Geometric Least Squares Mean Ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||110.06|88.57|0.8448
92234746|NCT02723630|184373026|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|90.64||||0.0498|TWO_SIDED|90.0|83.51|98.38||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||98.38|83.51|0.0498
92234747|NCT00847613|184373031|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|36.48|||<|0.0001|TWO_SIDED|95.0|27.73|45.23||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690,550 to placebo.||45.23|27.73|<0.0001
92234748|NCT00847613|184373031|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|26.13|||<|0.0001|TWO_SIDED|95.0|17.28|34.97||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690,550 to placebo.||34.97|17.28|<0.0001
92234749|NCT00847613|184373032|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0376|TWO_SIDED|95.0|-0.79|-0.02||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in ACR20 had to be significant.|Mixed Models Analysis|||Change at Month 6: Linear mixed model with treatment effect and site location as fixed effects and baseline value as covariate was used for the analysis.||-0.02|-0.79|0.0376
92278504|NCT04147715|184459284|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.9754|||||TWO_SIDED|90.0|0.8916|1.0671|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed by an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cmax as the dependent variable, treatment as fixed effect, and participant as random effect. The difference and 90% CI between the ln-transformed Cmax of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0671|0.8916|
92234750|NCT00847613|184373032|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.2||0.0792|TWO_SIDED|95.0|-0.73|0.04||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in ACR20 had to be statistically significant.|Mixed Models Analysis|||Change at Month 6: Linear mixed model with treatment effect and site location as fixed effects and baseline value as covariate was used for the analysis.||0.04|-0.73|0.0792
92278505|NCT04147715|184459286|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.0353|||||TWO_SIDED|90.0|0.9421|1.1377|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cτ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cτ of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.1377|0.9421|
92278506|NCT04147715|184459286|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.9096|||||TWO_SIDED|90.0|0.8791|0.9411|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cτ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cτ of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||0.9411|0.8791|
92386954|NCT01122849|184674818|SUPERIORITY_OR_OTHER||LS mean difference|1.06||||0.1091|TWO_SIDED|95.0|-0.25|2.37||Between treatment p-values and confidence intervals.|ANCOVA|||Comparison for Q4 at Day 14||2.37|-0.25|0.1091
92386955|NCT01457846|184674832|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.57||||0.9581|TWO_SIDED|80.0|1.12|2.21||1-sided|Regression, Cox|||||2.21|1.12|0.9581
92386956|NCT01457846|184674833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.8156|TWO_SIDED|80.0|0.89|1.95||1-sided|Regression, Cox|||||1.95|0.89|0.8156
92386957|NCT01457846|184674834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.09||||0.997|TWO_SIDED|80.0|0.02|0.35||1-sided|Regression, Logistic|||||0.35|0.02|0.9970
92234751|NCT00847613|184373033|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.49|-0.31||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in mTSS had to be significant.|Mixed Models Analysis|||Change at Month 3: Least squares mean difference and corresponding 95% confidence interval (CI) was calculated using a mixed-effect repeated measure model with treatment, visit and treatment-by-visit interaction as fixed effect and participant as random effect.||-0.31|-0.49|<0.0001
92386958|NCT00383162|184674837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.5|||<|0.001||95.0|2.17|9.36|||Generalized Estimating Equations|||||9.36|2.17|<0.001
92386959|NCT03533244|184674899|SUPERIORITY|||||||0.218||||||To reserve the family-wise error rate, the main treatment effect will be first assessed at the global level at alpha = 0.05. If this is significant, then pairwise comparisons will be conducted using the Bonferroni adjustment for multiplicity.|Mixed Models Analysis|||An empirical sample size estimation was used as this was an exploratory study. The null hypothesis is that there is no difference between AG-86893 and AG-86893 Vehicle. It is expected that the active group is at least 50% better than the vehicle.||||0.218
92386960|NCT03533244|184674899|SUPERIORITY|||||||0.29|||||||Mixed Models Analysis|||||||0.290
92386961|NCT03533244|184674900|SUPERIORITY|||||||0.193|||||||Mixed Models Analysis|||||||0.193
92417017|NCT01653132|184721889|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.194|STANDARD_DEVIATION|0.61|||TWO_SIDED|95.0|-0.71|0.32|||||negative values correspond to a reduction in saliva weight with Inco-A.|Based on the primary outcome measure of mean reduction in saliva weight at 1 month post Inco-A /placebo as compared to baseline, using paired t-test with a two-sided nominal significance (alpha) of 0.05, assuming a correlation of 0.5 between observations, a sample size of 10 pairs has a power of 0.803 to detect a 50% difference in salivary weight.||0.32|-0.71|
92417018|NCT01653132|184721890|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.3|STANDARD_DEVIATION|0.34|||TWO_SIDED|95.0|-50.8|6.2|||||negative numbers represent reduction in saliva weight with Inco-A|||6.2|-50.8|
92417019|NCT01653132|184721891|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.33|STANDARD_DEVIATION|1.41|||TWO_SIDED|95.0|-1.16|0.69|||||negative values represent reduction in scores (improvement in drooling) with Inco-A|||0.69|-1.16|
92417020|NCT01653132|184721892|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.333|||||TWO_SIDED|95.0|-0.633|0.071||||||||0.071|-0.633|
92417021|NCT01653132|184721893|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.11|||||TWO_SIDED|95.0|-0.46|0.28||||||||0.28|-0.46|
92417022|NCT03828370|184721894|SUPERIORITY|||||||0.04|||||||ANOVA|||||||.04
92417023|NCT03828370|184721895|SUPERIORITY|||||||0.034|||||||Chi-squared|||||||.034
92417024|NCT00046891|184721912|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||t-test, 2 sided|||Total HSCS Area Under the Curve (AUC) scores between the two treatment arms.||||0.84
92386962|NCT03533244|184674900|SUPERIORITY|||||||0.399|||||||Mixed Models Analysis|||||||0.399
92386963|NCT03533244|184674901|SUPERIORITY|||||||0.015|||||||Fisher Exact|||||||0.015
92386964|NCT03533244|184674901|SUPERIORITY|||||||0.022|||||||Fisher Exact|||||||0.022
92386965|NCT03368235|184674948|OTHER||LS mean difference|0.472|STANDARD_ERROR_OF_MEAN|0.4569||0.315|TWO_SIDED|95.0|-0.487|1.431||Based on MMRM model with the baseline DAS28-CRP score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||MMRM = mixed model repeated measures.||1.431|-0.487|0.315
92386966|NCT03368235|184674949|OTHER||Odds Ratio (OR)|0.807||||0.807|TWO_SIDED|95.0|0.12|5.34||Logistic regression model with the treatment group, country and baseline DAS28-CRP as covariate.|Regression, Logistic|||Treatment comparison ACR20: AZD9567 Vs prednisolone||5.34|0.12|0.807
92386967|NCT03368235|184674949|OTHER|||||||0.198|||||||Fisher Exact|||Treatment comparison ACR50: AZD9567 Vs prednisolone||||0.198
92386968|NCT03368235|184674949|OTHER|||||||0.183|||||||Fisher Exact|||Treatment comparison ACR70: AZD9567 Vs prednisolone||||0.183
92386969|NCT03368235|184674950|OTHER||LS mean difference|0.42|STANDARD_ERROR_OF_MEAN|1.136||0.717|TWO_SIDED|95.0|-1.98|2.81||The MMRM with the baseline SJC66 score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||2.81|-1.98|0.717
92386970|NCT03368235|184674951|OTHER||LS mean difference|-1.12|STANDARD_ERROR_OF_MEAN|3.115||0.724|TWO_SIDED|95.0|-7.69|5.46||The MMRM with the baseline TJC68 score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||5.46|-7.69|0.724
92386971|NCT03368235|184674952|OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|1.6||0.973|TWO_SIDED|95.0|-3.43|3.32||The MMRM with the baseline TJC28 score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||3.32|-3.43|0.973
92386972|NCT03368235|184674953|OTHER||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.837||0.757|TWO_SIDED|95.0|-1.5|2.03||The MMRM with the baseline SJC28 score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||2.03|-1.50|0.757
92386973|NCT03368235|184674954|OTHER||LS mean difference|9.8|STANDARD_ERROR_OF_MEAN|9.67||0.325|TWO_SIDED|95.0|-10.5|30.1||The MMRM with the baseline GH score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||30.1|-10.5|0.325
92386974|NCT03368235|184674955|OTHER||LS mean difference|4.756|STANDARD_ERROR_OF_MEAN|3.4725||0.187|TWO_SIDED|95.0|-2.514|12.025||The MMRM with the baseline CRP score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||12.025|-2.514|0.187
92234752|NCT00847613|184373033|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.05||0.0002|TWO_SIDED|95.0|-0.34|-0.16||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in mTSS had to be statistically significant.|Mixed Models Analysis|||Change at Month 3: Least squares mean difference and corresponding 95% CI was calculated using a mixed-effect repeated measure model with treatment, visit and treatment-by-visit interaction as fixed effect and participant as random effect.||-0.16|-0.34|0.0002
92234753|NCT00847613|184373034|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|14.4|||<|0.0001|TWO_SIDED|95.0|9.44|19.36||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in HAQ-DI had to be significant.|Normal approximation|||Normal approximation to the binomial distribution was used to test the superiority of CP-690,550 10 mg to placebo and two-sided 95% CI was evaluated for the difference in percentages.||19.36|9.44|<0.0001
92234754|NCT00847613|184373034|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|5.61||||0.0034|TWO_SIDED|95.0|1.85|9.38||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in HAQ-DI had to be statistically significant.|Normal approximation|||Normal approximation to the binomial distribution was used to test the superiority of CP-690,550 10 mg to placebo and two-sided 95% CI was evaluated for the difference in percentages.||9.38|1.85|0.0034
92234755|NCT00754390|184373097|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Mixed Models Analysis|||Two-way mixed model analysis of variance was used to test for main effect of dietary calcium and phytate and their interaction. Null Hypothesis: Dietary calcium does not affect zinc absorption||||0.17
92234756|NCT00754390|184373097|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Mixed Models Analysis|||Two-way mixed model analysis of variance was used to test for main effect of dietary calcium and phytate and their interaction. Null Hypothesis: Dietary Phytate does not affect zinc absorption||||0.0002
92234757|NCT00754390|184373097|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Mixed Models Analysis|||Two-way mixed model analysis of variance was used to test for main effect of dietary calcium and phytate and their interaction. Null Hypothesis: Dietary calcium and dietary phytate do not affect zinc absorption. Eight women were required to detect a difference in zinc absorption of 7 percentage points with a power of 90%, alpha level of 0.05.||||0.09
92234758|NCT03476850|184373130|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.883|TWO_SIDED||||||Mixed Models Analysis|||An a priori sample size calculation found 24 subjects per group (48 total) provided \>80% power to detect a 2 unit difference in patient reported pain based on a 2-sided test and significance level a = 0.05 assuming at least 3 measures per subject and a within subject covariance having a compound symmetric structure with a standard deviation in pain score of 3 units and within subject correlation of 0.5.||||.883
92280529|NCT00601484|184463646|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-24.44|||||TWO_SIDED|90.0|-51.58|0.67||||||Week 6: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\] as stratification variable.||0.67|-51.58|
92386975|NCT03368235|184674956|OTHER||LS mean difference|16.0|STANDARD_ERROR_OF_MEAN|10.49||0.144|TWO_SIDED|95.0|-6.0|38.1||The MMRM with the baseline participant's assessment of pain score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||38.1|-6.0|0.144
92234759|NCT03476850|184373131|SUPERIORITY||Median Difference (Final Values)|0.25||||0.977|TWO_SIDED||||||ANOVA|||||||.977
92234760|NCT03476850|184373132|SUPERIORITY||Odds Ratio (OR)|4.9||||0.009|TWO_SIDED||||||Chi-squared|||||||.009
92234761|NCT03476850|184373134|SUPERIORITY||Median Difference (Final Values)|18.0||||0.11|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.110
92234762|NCT03476850|184373135|SUPERIORITY||Median Difference (Final Values)|0.26||||0.719|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.719
92234763|NCT01477450|184373144|SUPERIORITY_OR_OTHER|||||||0.3|||||||Chi-squared|||||||0.3
92234764|NCT01477450|184373144|SUPERIORITY_OR_OTHER|||||||0.47|||||||Chi-squared|||||||0.47
92234765|NCT01477450|184373144|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.00
92234766|NCT01145391|184373156|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence||||||0.5||95.0||||For systolic blood pressure|Mixed Models Analysis|||||||0.50
92234767|NCT01877655|184373168|SUPERIORITY||Odds Ratio (OR)|1.27||||0.205|TWO_SIDED|95.0|0.87|1.85||P-value based on CMH general association test stratified by donor-recipient relatedness and donor CMV serostatus.|Cochran-Mantel-Haenszel||Odds ratio (ASP0113 vs placebo) and 95% CI was based on CMH general association test stratified by donor-recipient relatedness \& donor CMV serostatus.|Analysis of all-cause mortality and adjudicated CMV EOD. Analysis was completed using the Cochran-Mantel-Haenszel (CMH) test at the 1-sided 5% level stratified by use of antithymocyte globulin (ATG) and by receipt of a kidney from a living or deceased donor.||1.85|0.87|0.205
92234768|NCT01877655|184373169|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.748|TWO_SIDED|95.0|0.76|1.22||P-value based on cox proportional hazards model parameter estimate for the treatment effect.|Cox Proportional Hazard Model|Parameter estimate from cox proportional hazard model (ASP0113 v placebo) with treatment \& randomization strata adjusted for death as a competing risk||Analysis of CMV viremia through 1 year posttransplant. CMV viremia was defined by the protocol as CMV plasma viral load ≥ 1000 IU/mL as assessed by the central laboratory. The 95% CI was based on cumulative incidence function CMV viremia rate at 1 year.||1.22|0.76|0.748
92386976|NCT03368235|184674957|OTHER||LS mean difference|3.8|STANDARD_ERROR_OF_MEAN|5.73||0.512|TWO_SIDED|95.0|-8.3|16.0||The MMRM with the baseline disease activity score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||16.0|-8.3|0.512
92234769|NCT01877655|184373170|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.888|TWO_SIDED|95.0|0.8|1.29||P-value based on cox proportional hazards model parameter estimate for the treatment effect.|Cox Proportional Hazard Model|Parameter estimate from cox proportional hazard model (ASP0113 v placebo) with treatment \& randomization strata adjusted for death as a competing risk||Analysis of CMV-specific antiviral therapy (AVT) through 1 year. Time to first adjudicated CMV-specific therapy was defined as time to the start of AVT for CMV viremia. CMV-specific AVT was determined by the adjudication committee. Rate was based on cumulative incidence function estimate at 1 year.||1.29|0.80|0.888
92386977|NCT03368235|184674958|OTHER||LS mean difference|0.131|STANDARD_ERROR_OF_MEAN|0.2381||0.589|TWO_SIDED|95.0|-0.37|0.631||The MMRM with the baseline physical function score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||0.631|-0.370|0.589
92386978|NCT01743040|184674964|NON_INFERIORITY|15% equivalency margin against performance of SPECT nuclear stress test OPC. Both sensitivity and specificity were measured and the equivalency margin was set the same for both parameters.The goal was to test the Sensitivity and specificity of CADence as compared to SPECT nuclear stress test OPC. Both were measured and reported in this study. The Sensitivity of CADence was 78% (95% CI 76.1-90.8%) while the specificity was 36% (95% CI 32-39%).||||||0.012|||||||Exact binomial test|||The goal was to test the Sensitivity and specificity of CADence as compared to SPECT nuclear stress test OPC. Both were measured and reported in this study. The Sensitivity of CADence was 78% (95% CI 76.1-90.8%) while the specificity was 36% (95% CI 32-39%).||||0.012
92386979|NCT03755661|184675013|OTHER|pilot data to estimate effect size f-squared as the parameter as primary outcome||||||0.048||||||provide inferential statistics for data completion. Study is not designed to detect significant differences between groups|Regression, Linear|R-square change = .12; F-change (1, 20) = 4.44||pilot study to calculate effect size, study is not powered to detect significant group differences|"Computed f-squared as effect size estimate where baseline value of heavy drinking episodes entered in step 1 and condition in step 2~f- squared = .22"|||.048
92386980|NCT03755661|184675014|SUPERIORITY|"The main outcome variable is f-squared as an estimate of differences between conditions controlling for baseline value.~A statistical test is provided only for completeness as this study is not powered to detect significant effects"||||||0.34||||||F-change (1, 20) = 0.97|Regression, Linear|||pilot trial to compute effect size estimate|Computed f-squared as effect size estimate where baseline value of CAI entered in step 1 and condition in step 2 f- squared = .05, r-squared change = .04|||.34
92386981|NCT03755661|184675015|SUPERIORITY|This is a pilot trial to estimate effect sizes and not powered to detect significant differences||||||0.2||||||data provided for completeness, not powered to test differences|Regression, Linear|F-change (1, 20) = 1.80|||Computed f-squared as effect size estimate where baseline value of CAI entered in step 1 and condition in step 2 f- squared = .09, r-squared change = .058|||.20
92386982|NCT03755661|184675016|SUPERIORITY|Pilot trial not powered to detect significant group differences. Data from analyses presented for completeness. Primary outcome is effect size estimates||||||0.19|||||||Regression, Linear|F-change (1, 20) = 1.83||Pilot trial not powered to detect significant group differences|Computed f-squared as effect size estimate where baseline value of CAI entered in step 1 and condition in step 2 f- squared = .09, r-squared change = .048|||.19
92386983|NCT03755661|184675017|SUPERIORITY|||||||0.26||||||F-change (1, 19) = 1.34|Regression, Linear|||Not powered to test significant differences. provide data on effect size estimate below|Computed f-squared as effect size estimate where baseline value of CAI entered in step 1 and condition in step 2 f- squared = .05, r-squared change = .04|||.26
92417025|NCT05072470|184721929|SUPERIORITY|When p-value is adjusted for multiple comparisons, the level of statistical significance must be \</= to .01666667 (.05/3)|||||<|0.01|||||||t-test, 2 sided|||Speech intelligibility will be better with hearing aids plus Roger device, than with hearing aids alone when tested using standardized speech test at 0 dB SNR||||<0.01
92417026|NCT05072470|184721929|SUPERIORITY|||||||0.031||||||When p value is adjusted for multiple comparisons, the level of statistical significance must be \</= to .01666667 (.05/3)|t-test, 2 sided|||Speech intelligibility will be better with hearing aids plus Roger device, than with hearing aids alone when tested using standardized speech test at -5 dB SNR||||.031
92417027|NCT05072470|184721929|SUPERIORITY|||||||0.046||||||When p-values are adjusted for multiple comparisons, the level of statistical significance must be \</= .01666667 (.05/3)|t-test, 2 sided|||Speech intelligibility will be equal or better with hearing aids plus Roger device than with hearing aids alone when tested using standardized speech test at +5 dB SNR.||||.046
92417028|NCT00924170|184721946|SUPERIORITY||||||<|0.0001|||||||Kaplan Meier|||Published response duration of 15 patients with leukemic adult T cell leukemia treated with Alemtuzumab.||||<0.0001
92386984|NCT02038075|184675018|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.38||||0.02|TWO_SIDED|95.0|0.16|0.87|||Regression, Cox|||To determine the effectiveness of brief CBT compared with treatment as usual, univariate and multivariate Cox proportional hazard regression models were used to analyze time to the first suicide attempt. Time to suicide attempt was measured by calculating the total number of days from enrollment to the first suicide attempt. For participants without a suicide attempt, the total number of days from enrollment to the last assessment was calculated.||.87|.16|.02
92417029|NCT00579436|184721960|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||.05
92417030|NCT00579436|184721961|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92417031|NCT00579436|184721962|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.5
92417032|NCT00579436|184721963|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.5
92417033|NCT01203852|184722023|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value for one sided t-test of mean change in blood pressure before and after treatment with metoprolol and chlorthalidone were \<0.0001.|t-test, 1 sided|||||||<0.0001
92386985|NCT04000581|184675028|SUPERIORITY|||||||0.329|||||||t-test, 1 sided|||The null hypothesis is that the mean change is equal between the groups, while the alternative is that an increased difference is observed in arm 2. The hypotheses are evaluated using a one-sided, two-sample t-test.||||0.329
92386986|NCT02519595|184675041|SUPERIORITY_OR_OTHER|||||||0.2|||||||Kruskal-Wallis|||||||0.2
92386987|NCT02519595|184675042|SUPERIORITY_OR_OTHER|||||||0.09|||||||Kruskal-Wallis|||||||0.09
92386988|NCT02519595|184675043|SUPERIORITY_OR_OTHER|||||||0.2|||||||Kruskal-Wallis|||||||0.2
92386989|NCT02519595|184675045|SUPERIORITY_OR_OTHER|||||||0.8|||||||Chi-squared|||Adverse events in ED||||0.8
92417034|NCT01203852|184722024|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value for one sided t-test for mean glucose change before and after treatment with chlorthalidone was \<0.0001.|t-test, 1 sided|||Mean glucose change after treatment with chlorthalidone||||<0.0001
92417035|NCT01203852|184722024|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED|||||P-value for one sided t-test for mean glucose change before and after treatment with metoprolol was 0.049.|t-test, 1 sided|||Mean glucose change after treatment with metoprolol||||0.049
92417036|NCT00899392|184722025|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Student's t test|t-test, 2 sided|||||||<0.0001
92417037|NCT00899392|184722026|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Mann Whitney Test-non parametric||||>0.05
92234770|NCT01877655|184373171|SUPERIORITY||Odds Ratio (OR)|1.05||||0.802|TWO_SIDED|95.0|0.73|1.51||P value based on CMH general association test stratified by donor-recipient relatedness and donor CMV serostatus.|Cochran-Mantel-Haenszel||Odds ratio (ASP0113 vs placebo) and 95% CI based on CMH general association test stratified by donor recipient relatedness and donor CMV serostatus.|Analysis of composite of CMV viremia and adjudicated CMV-AVT. The CMV viremia was defined by the protocol as CMV plasma viral load ≥ 1000 IU/mL as assessed by the central laboratory. CMV-specific AVT was determined by the adjudication committee. Participants with no posttransplant viral load data were excluded from the analysis.||1.51|0.73|0.802
92239723|NCT00410280|184383313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.05||||0.0302|TWO_SIDED|95.0|-36.21|-1.9|||ANOVA|||Day 14: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||-1.90|-36.21|0.0302
92386990|NCT02519595|184675045|SUPERIORITY_OR_OTHER|||||||0.5|||||||Chi-squared|||Post discharge Emesis||||0.5
92386991|NCT02519595|184675046|SUPERIORITY_OR_OTHER|||||||0.011|||||||Chi-squared|||||||0.011
92417038|NCT00899392|184722027|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|paired||||||>0.05
92417039|NCT00899392|184722028|SUPERIORITY_OR_OTHER|||||||0.0053||95.0|||||t-test, 2 sided|||||||0.0053
92386992|NCT00387036|184675047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.37||||90.0|-1.59|-0.25||||||||-0.25|-1.59|
92386993|NCT00387036|184675048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.17|STANDARD_ERROR_OF_MEAN|1.9||||90.0|-0.28|6.61||||||||6.61|-0.28|
92386994|NCT03188510|184675049|OTHER||Ratio of geometric least squares means|0.971|||||TWO_SIDED|90.0|0.805|1.17||||||||1.17|0.805|
92417040|NCT04876690|184722072|SUPERIORITY||||||=|0.1217|||||||t-test for Independent Samples|||PCS-12: Sex||||=0.1217
92417041|NCT04876690|184722072|SUPERIORITY||||||=|0.8241|||||||ANOVA|ANOVA=Analysis of variance||PCS-12: Employment Status||||=0.8241
92386995|NCT03188510|184675049|OTHER||Ratio of geometric least squares means|1.01|||||TWO_SIDED|90.0|0.841|1.22||||||||1.22|0.841|
92386996|NCT03188510|184675049|OTHER||Ratio of geometric least squares means|0.985|||||TWO_SIDED|90.0|0.819|1.18||||||||1.18|0.819|
92386997|NCT03188510|184675050|OTHER||Ratio of geometric least squares means|0.978|||||TWO_SIDED|90.0|0.811|1.18||||||||1.18|0.811|
92417042|NCT04876690|184722072|SUPERIORITY||||||=|0.3471|||||||ANOVA|||PCS-12: Smoking Status||||=0.3471
92417043|NCT04876690|184722072|SUPERIORITY||||||=|0.9951|||||||ANOVA|||PCS-12: Age at Onset||||=0.9951
92417044|NCT04876690|184722072|SUPERIORITY||||||=|0.0631|||||||ANOVA|||PCS-12: Disease Location||||=0.0631
92417045|NCT04876690|184722072|SUPERIORITY||||||=|0.7473|||||||ANOVA|||PCS-12: Disease Behavior||||=0.7473
92417046|NCT04876690|184722072|SUPERIORITY||||||=|0.4422|||||||t-test for Independent Samples|||PCS-12: Presence of any Extraintestinal Manifestation of CD||||=0.4422
92386998|NCT03188510|184675050|OTHER||Ratio of geometric least squares means|1.0|||||TWO_SIDED|90.0|0.833|1.21||||||||1.21|0.833|
92386999|NCT03188510|184675050|OTHER||Ratio of geometric least squares means|0.982|||||TWO_SIDED|90.0|0.817|1.18||||||||1.18|0.817|
92387000|NCT01736618|184675059|OTHER||Kaplan-Meier|92.9|||||ONE_SIDED|95.0|91.4|||||||"Ho: The Type I Complication Free Rate at 60 months (p1) does not exceed the performance goal of 85.0%.~Ho: p1 ≤ 85.0% Ha: The Type I Complication Free Rate at 60 months (p1) does exceed the performance goal of 85.0%.~Ha: p1 \> 85.0% The null hypothesis will be rejected if the lower one-sided 95% confidence bound of the proportional means model estimate, using the Peto method for standard error, exceeds the performance goal of 85.0%."|||91.4|
92387001|NCT01736618|184675060|OTHER||Clopper-Pearson exact confidence bound|98.6|||||ONE_SIDED|95.0|97.4|||||||"Ho: Overall Shock Effectiveness in Converting Spontaneous Discrete Episodes of VT/VF through 60 months (p1) does not exceed the performance goal of 94.0%.~Ho: p1 ≤ 94.0% Ha: Overall Shock Effectiveness in Converting Spontaneous Discrete Episodes of VT/VF through 60 months (p1) does exceed the performance goal of 94.0%.~Ha: p1 \>94.0% The null hypothesis will be rejected if the lower one-sided 95% exact confidence bound of the estimate exceeds the performance goal of 94.0%."|||97.4|
92387002|NCT01736618|184675061|OTHER||Kaplan-Meier|99.2|||||ONE_SIDED|95.0|98.8|||||||"Ho: The Electrode-Related Complication Free Rate at 60 months (p1) does not exceed the performance goal of 92.5%.~Ho: p1 ≤ 92.5% Ha: The Electrode-Related Complication Free Rate at 60 months (p1) does exceed the performance goal of 92.5%.~Ha: p1 \> 92.5% The null hypothesis will be rejected if the lower one-sided 95% confidence bound of the proportional means model estimate, using the Peto method for standard error, exceeds the performance goal of 92.5%."|||98.8|
92387003|NCT01736618|184675062|OTHER||Clopper-Pearson exact confidence bound|94.4|||||ONE_SIDED|95.0|93.5|||||||"Ho: The 1st Shock Effectiveness in Converting Induced (Acute) \& Spontaneous Discrete VT/VF Episodes to 60 months (p1) does not exceed the performance goal of 84.0%.~Ho: p1 ≤ 84.0% Ha: The 1st Shock Effectiveness in Converting Induced (Acute) \& Spontaneous Discrete VT/VF Episodes to 60 months (p1) does exceed the performance goal of 84.0%.~Ha: p1 \>84.0% The null hypothesis will be rejected if lower one-sided 95% exact confidence bound of the estimate exceeds the performance goal of 84.0%."|||93.5|
92387004|NCT04167137|184675071|OTHER|||||||||||||||||Because only 1 participant experienced a DLT (Grade 3 cytokine release syndrome in Arm 1 Cohort 6), no MTD could be reached.|Because only 1 participant experienced a DLT (Grade 3 cytokine release syndrome in Arm 1 Cohort 6), no MTD could be reached.|||
92387005|NCT02714283|184675109|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.19|TWO_SIDED|95.0|0.51|1.14|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use.|ICS (numerator) compared to macrolide monotherapy (denominator)|Due to the small sample size in the macrolide monotherapy group, for this outcome, the results are considered exploratory/descriptive only.||1.14|0.51|0.19
92417047|NCT04876690|184722072|SUPERIORITY||||||=|0.1796|||||||t-test for Independent Samples|||PCS-12: Fistula With High Intersphincteric Type||||=0.1796
92417048|NCT04876690|184722072|SUPERIORITY||||||=|0.3535|||||||t-test for Independent Samples|||PCS-12: Fistula With High Transsphincteric Type||||=0.3535
92417049|NCT04876690|184722072|SUPERIORITY||||||=|0.1508|||||||t-test for Independent Samples|||PCS-12: Fistula With Suprasphincteric Type||||=0.1508
92417050|NCT04876690|184722072|SUPERIORITY||||||=|0.2671|||||||t-test for Independent Samples|||PCS-12: Fistula with Extrasphincteric Type||||=0.2671
92417051|NCT04876690|184722072|SUPERIORITY||||||=|0.0594|||||||t-test for Independent Samples|||PCS-12: Fistula With Low Intersphincteric Type||||=0.0594
92417052|NCT04876690|184722072|SUPERIORITY||||||=|0.5484|||||||t-test for Independent Samples|||PCS-12: Fistula With Low Transsphincteric Type||||=0.5484
92417053|NCT04876690|184722072|SUPERIORITY||||||=|0.5387|||||||t-test for Independent Samples|||PCS-12: Fistula With Midline Position||||=0.5387
92417054|NCT04876690|184722072|SUPERIORITY||||||=|0.527|||||||t-test for Independent Samples|||PCS-12: Fistula With Lateral Position||||=0.5270
92280530|NCT00601484|184463646|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-7.5|||||TWO_SIDED|90.0|-41.71|17.33||||||Week 10: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\] as stratification variable.||17.33|-41.71|
92417055|NCT04876690|184722072|SUPERIORITY||||||=|0.3863|||||||t-test for Independent Samples|||PCS-12: Fistula With Seton||||=0.3863
92417056|NCT04876690|184722072|SUPERIORITY||||||=|0.4206|||||||ANOVA|||PCS-12: HBI Categories (Remission, Mild and Moderate Activity)||||=0.4206
92417057|NCT04876690|184722072|SUPERIORITY||||||=|0.0538|||||||t-test for Independent Samples|||PCS-12: Surgery-naïve||||=0.0538
92417058|NCT04876690|184722072|SUPERIORITY||||||=|0.9572|||||||t-test for Independent Samples|||PCS-12: Surgery - Fistulotomy||||=0.9572
92417059|NCT04876690|184722072|SUPERIORITY||||||=|0.4742|||||||t-test for Independent Samples|||PCS-12: Surgery - Loose Seton||||=0.4742
92417060|NCT04876690|184722072|SUPERIORITY||||||=|0.5735|||||||t-test for Independent Samples|||PCS-12: Surgery - Other||||=0.5735
92417061|NCT04876690|184722072|SUPERIORITY||||||=|0.376|||||||t-test for Independent Samples|||PCS-12: Presence of Perianal Abscess||||=0.3760
92417062|NCT04876690|184722073|SUPERIORITY||||||=|0.4814|||||||t-test for Independent Samples|||MCS-12: Sex||||=0.4814
92417063|NCT04876690|184722073|SUPERIORITY||||||=|0.3136|||||||Kruskal-Wallis|||MCS-12: Employment Status||||=0.3136
92417064|NCT04876690|184722073|SUPERIORITY||||||=|0.5808|||||||ANOVA|||MCS-12: Smoking Status||||=0.5808
92417065|NCT04876690|184722073|SUPERIORITY||||||=|0.2965|||||||ANOVA|||MCS-12: Age at Onset||||=0.2965
92417066|NCT04876690|184722073|SUPERIORITY||||||=|0.2874|||||||ANOVA|||MCS-12: Disease Location||||=0.2874
92417067|NCT04876690|184722073|SUPERIORITY||||||=|0.4269|||||||ANOVA|||MCS-12: Disease Behavior||||=0.4269
92417068|NCT04876690|184722073|SUPERIORITY||||||=|0.8931|||||||t-test for Independent Samples|||MCS-12: Presence of any Extraintestinal Manifestation of CD||||=0.8931
92417069|NCT04876690|184722073|SUPERIORITY||||||=|0.9384|||||||t-test for Independent Samples|||MCS-12: Fistula With High Intersphincteric Type||||=0.9384
92417070|NCT04876690|184722073|SUPERIORITY||||||=|0.8286|||||||Mann-Whitney|||MCS-12: Fistula With High Transsphincteric Type||||=0.8286
92417071|NCT04876690|184722073|SUPERIORITY||||||=|0.1919|||||||t-test for Independent Samples|||MCS-12: Fistula With Suprasphincteric Type||||=0.1919
92417072|NCT04876690|184722073|SUPERIORITY||||||=|0.6452|||||||t-test for Independent Samples|||MCS-12: Fistula with Extrasphincteric Type||||=0.6452
92417073|NCT04876690|184722073|SUPERIORITY||||||=|0.7218|||||||t-test for Independent Samples|||MCS-12: Fistula With Low Intersphincteric Type||||=0.7218
92417074|NCT04876690|184722073|SUPERIORITY||||||=|0.9738|||||||t-test for Independent Samples|||MCS-12: Fistula With Low Transsphincteric Type||||=0.9738
92417075|NCT04876690|184722073|SUPERIORITY||||||=|0.2419|||||||t-test for Independent Samples|||MCS-12: Fistula With Midline Position||||=0.2419
92417076|NCT04876690|184722073|SUPERIORITY||||||=|0.5524|||||||t-test for Independent Samples|||MCS-12: Fistula With Lateral Position||||=0.5524
92417077|NCT04876690|184722073|SUPERIORITY||||||=|0.4443|||||||t-test for Independent Samples|||MCS-12: Fistula With Seton||||=0.4443
92417078|NCT04876690|184722073|SUPERIORITY||||||=|0.4106|||||||ANOVA|||MCS-12: HBI Categories (Remission, Mild and Moderate Activity)||||=0.4106
92417079|NCT04876690|184722073|SUPERIORITY||||||=|0.7795|||||||t-test for Independent Samples|||MCS-12: Surgery-naïve||||=0.7795
92417080|NCT04876690|184722073|SUPERIORITY||||||=|0.2964|||||||t-test for Independent Samples|||MCS-12: Surgery - Fistulotomy||||=0.2964
92417081|NCT04876690|184722073|SUPERIORITY||||||=|0.3287|||||||t-test for Independent Samples|||MCS-12: Surgery - Loose Seton||||=0.3287
92417082|NCT04876690|184722073|SUPERIORITY||||||=|0.0091|||||||t-test for Independent Samples|||MCS-12: Surgery - Other||||=0.0091
92280531|NCT00601484|184463646|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-21.37|||||TWO_SIDED|90.0|-54.76|7.92||||||Week 16: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\] as stratification variable.||7.92|-54.76|
92417083|NCT04876690|184722073|SUPERIORITY||||||=|0.3889|||||||t-test for Independent Samples|||MCS-12: Presence of Perianal Abscess||||=0.3889
92417084|NCT04876690|184722074|SUPERIORITY||||||=|0.8001|||||||Pearson Correlation Coefficient|||PCS- 12: Age||||=0.8001
92417085|NCT04876690|184722074|SUPERIORITY||||||=|0.4532|||||||Pearson Correlation Coefficient|||PCS- 12: BMI||||=0.4532
92417086|NCT04876690|184722074|SUPERIORITY||||||=|0.9597|||||||Spearman Correlation Coefficient|||PCS- 12: Time Between CD Diagnosis Date and Date of Study Visit||||=0.9597
92417087|NCT04876690|184722074|SUPERIORITY||||||=|0.3304|||||||Spearman Correlation Coefficient|||PCS- 12: Total Number of CPFs per Participant||||=0.3304
92417088|NCT04876690|184722074|SUPERIORITY||||||=|0.6333|||||||Pearson Correlation Coefficient|||PCS- 12: Time Since Seton Replacement||||=0.6333
92387006|NCT02714283|184675110|SUPERIORITY||Hazard Ratio (HR)|1.39|||<|0.0001|TWO_SIDED|95.0|1.23|1.57|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history.|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.57|1.23|<0.0001
92387007|NCT02714283|184675111|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.21|TWO_SIDED|95.0|0.67|1.09|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history.|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.09|0.67|0.21
92387008|NCT02714283|184675112|SUPERIORITY||Hazard Ratio (HR)|0.73|||<|0.0001|TWO_SIDED|95.0|0.64|0.82|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history|ICS (numerator) compared to macrolide monotherapy (denominator)|||0.82|0.64|<0.0001
92387009|NCT02714283|184675113|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.87|TWO_SIDED|95.0|0.8|1.32|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.32|0.80|0.87
92387010|NCT02714283|184675114|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.23|TWO_SIDED|95.0|0.76|1.07|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history.|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.07|0.76|0.23
92387011|NCT02714283|184675115|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.2|TWO_SIDED|95.0|0.96|1.25|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history.|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.25|0.96|0.20
92417089|NCT04876690|184722074|SUPERIORITY||||||=|0.8003|||||||Spearman Correlation Coefficient|||PCS- 12: Time Between First CPF Diagnosis Date and Date of Study Visit||||=0.8003
92417090|NCT04876690|184722074|SUPERIORITY||||||=|0.0032|||||||Pearson Correlation Coefficient|||PCS- 12: PDAI Score||||=0.0032
92417091|NCT04876690|184722074|SUPERIORITY||||||=|0.0923|||||||Spearman Correlation Coefficient|||PCS- 12: Number of Internal Fistula Openings per Participant||||=0.0923
92387012|NCT02714283|184675116|SUPERIORITY||Hazard Ratio (HR)|1.15|||<|0.0001|TWO_SIDED|95.0|1.08|1.21|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.21|1.08|<0.0001
92417092|NCT04876690|184722074|SUPERIORITY||||||=|0.0994|||||||Spearman Correlation Coefficient|||PCS- 12: Number of External Fistula Openings per Participant||||=0.0994
92417093|NCT04876690|184722074|SUPERIORITY||||||=|0.0444|||||||Pearson Correlation Coefficient|||PCS- 12: SIBDQ Score||||=0.0444
92417094|NCT04876690|184722074|SUPERIORITY||||||=|0.086|||||||Pearson Correlation Coefficient|||PCS- 12: SQoL-M Score||||=0.0860
92417095|NCT04876690|184722074|SUPERIORITY||||||=|0.9415|||||||Pearson Correlation Coefficient|||PCS- 12: SQoL-F Score||||=0.9415
92417096|NCT04876690|184722074|SUPERIORITY||||||=|0.3709|||||||Pearson Correlation Coefficient|||PCS- 12: Wexner Score||||=0.3709
92417097|NCT04876690|184722075|SUPERIORITY||||||=|0.0674|||||||Pearson Correlation Coefficient|||MCS- 12: Age||||=0.0674
92417098|NCT04876690|184722075|SUPERIORITY||||||=|0.9392|||||||Pearson Correlation Coefficient|||MCS- 12: BMI||||=0.9392
92417099|NCT04876690|184722075|SUPERIORITY||||||=|0.6387|||||||Spearman Correlation Coefficient|||MCS- 12: Time Between CD Diagnosis Date and Date of Study Visit||||=0.6387
92417100|NCT04876690|184722075|SUPERIORITY||||||=|0.7846|||||||Spearman Correlation Coefficient|||MCS- 12: Total Number of CPFs per Participant||||=0.7846
92417101|NCT04876690|184722075|SUPERIORITY||||||=|0.3972|||||||Pearson Correlation Coefficient|||MCS- 12: Time Since Seton Placement||||=0.3972
92417102|NCT04876690|184722075|SUPERIORITY||||||=|0.9496|||||||Spearman Correlation Coefficient|||MCS- 12: Time Between First CPF Diagnosis Date and Date of Study Visit||||=0.9496
92417103|NCT04876690|184722075|SUPERIORITY||||||=|0.813|||||||Pearson Correlation Coefficient|||MCS- 12: PDAI Score||||=0.8130
92417104|NCT04876690|184722075|SUPERIORITY||||||=|0.4588|||||||Spearman Correlation Coefficient|||MCS- 12: Number of Internal Fistula Openings per Participant||||=0.4588
92417105|NCT04876690|184722075|SUPERIORITY||||||=|0.8663|||||||Spearman Correlation Coefficient|||MCS- 12: Number of External Fistula Openings per Participant||||=0.8663
92417106|NCT04876690|184722075|SUPERIORITY||||||=|0.1349|||||||Pearson Correlation Coefficient|||MCS- 12: SIBDQ Score||||=0.1349
92387013|NCT02714283|184675117|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.99|TWO_SIDED|95.0|0.66|1.51|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.51|0.66|0.99
92387014|NCT02714283|184675118|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.0005|TWO_SIDED|95.0|1.07|1.25|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.25|1.07|0.0005
92387015|NCT02964767|184675126|OTHER||||||<|0.049|||||||t-test, 2 sided|||||||<0.049
92387016|NCT03058692|184675131|OTHER|||||||0.53||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.53
92387017|NCT03058692|184675131|OTHER|||||||0.56||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.56
92387018|NCT03058692|184675132|OTHER|||||||0.74||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.74
92234771|NCT01877655|184373172|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.928|TWO_SIDED|95.0|0.8|1.28||P value based on cox proportional hazards model parameter estimate for the treatment effect.|Cox Proportional Hazards Model|Parameter estimate from cox proportional hazard model (ASP0113 v placebo) with treatment \& randomization strata adjusted for death as a competing risk||Analysis of rate of adjudicated CMV AVT or CMV EOD. Time to first CMV-specific AVT was defined as time to the start of AVT for CMV viremia or CMV EOD. CMV-specific AVT and EOD and were determined by the adjudication committee. Rate based on cumulative incidence function estimate at 1 year.||1.28|0.80|0.928
92387019|NCT03058692|184675132|OTHER|||||||0.73||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.73
92387020|NCT03058692|184675133|OTHER|||||||0.66||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.66
92387021|NCT03058692|184675133|OTHER|||||||0.48||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.48
92387022|NCT03058692|184675134|OTHER|||||||0.32||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.32
92234772|NCT01877655|184373173|SUPERIORITY||Odds Ratio (OR)|1.18||||0.393|TWO_SIDED|95.0|0.81|1.73||P value based on cox proportional hazards model parameter estimate for the treatment effect.|Cox Proportional Hazards Model||Odds ratio (ASP0113 vs placebo) and 95% CI based on CMH general association test stratified by donor-recipient relatedness and donor CMV serostatus.|Analysis of all-cause mortality at 1 year. Participants with unknown survival status at 1 year were considered dead for this analysis.||1.73|0.81|0.393
92387023|NCT03058692|184675134|OTHER||||||>|0.99||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||>0.99
92387024|NCT03058692|184675135|OTHER|||||||0.0078||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.0078
92387025|NCT03058692|184675135|OTHER|||||||0.94||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.94
92417107|NCT04876690|184722075|SUPERIORITY||||||=|0.5647|||||||Pearson Correlation Coefficient|||MCS- 12: SQoL-M Score||||=0.5647
92417108|NCT04876690|184722075|SUPERIORITY||||||=|0.9509|||||||Pearson Correlation Coefficient|||MCS- 12: SQoL-F Score||||=0.9509
92234773|NCT05248945|184373235|OTHER||Ratio of test and reference treatment|15.83|||||TWO_SIDED|90.0|13.26|18.9||||||||18.90|13.26|
92417109|NCT04876690|184722075|SUPERIORITY||||||=|0.5328|||||||Pearson Correlation Coefficient|||MCS- 12: Wexner Score||||=0.5328
92234774|NCT05248945|184373236|OTHER||Ratio of test and reference treatment|17.03|||||TWO_SIDED|90.0|13.59|21.33||||||||21.33|13.59|
92234775|NCT05248945|184373259|OTHER||Ratio of test and reference treatment|14.98|||||TWO_SIDED|90.0|12.6|17.82||||||||17.82|12.60|
92234776|NCT05248945|184373262|OTHER||Ratio of test and reference treatment|49.66|||||TWO_SIDED|90.0|44.93|54.9||||||||54.90|44.93|
92234777|NCT05248945|184373263|OTHER||Ratio of test and reference treatment|49.41|||||TWO_SIDED|90.0|44.79|54.51||||||||54.51|44.79|
92234778|NCT05248945|184373264|OTHER||Ratio of test and reference treatment|69.65|||||TWO_SIDED|90.0|60.34|80.4||||||||80.40|60.34|
92234779|NCT05090423|184373277|OTHER|||||||0.018|||||||ANOVA|||||||0.018
92387026|NCT03058692|184675136|OTHER|||||||||||||||||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
92387027|NCT03058692|184675136|OTHER|||||||0.5||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.5
92234780|NCT05733286|184373290|SUPERIORITY|||||||0.853||||||Given an SD of approximately 35 min for TST in healthy adults, a sample size of 58 subjects per group will provide 86% power to detect a 20 min difference in TST between treatment groups using a two-sample t-test with a two-sided alpha of 0.05.|t-test, 2 sided|||||||0.853
92387028|NCT03058692|184675137|OTHER|||||||||||||||||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
92234781|NCT05733286|184373291|SUPERIORITY|||||||0.34||||||Unadjusted. P \< 0.05 is considered significant. A sample size of 58 patients per group will provide 80% power to detect a 0.95-point difference between treatment groups using a two-sided t-test with an alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.340
92234782|NCT00685178|184373297|SUPERIORITY||F-value for main effect of Condition|2.21||||0.531|TWO_SIDED|||||Using the proportion of negative urine samples obtained, the four groups were compared to determine whether there are any group differences in cocaine abstinence (as measured by negative urine samples).|Chi-squared||F-value for main effect of Drug Condition|||||0.531
92234783|NCT00685178|184373298|SUPERIORITY||Spearmann's rank correlation|0.969|||<|0.001|TWO_SIDED||||||ANOVA||CR subjects only|Analyses were performed to measure the correlation between CR groups (topiramate + CR and Placebo + CR) and abstinence.||||<0.001
92387029|NCT03058692|184675137|OTHER|||||||||||||||||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
92417110|NCT02589600|184722076|SUPERIORITY||Incident Rate Ratio|1.05||||0.7251|TWO_SIDED|95.0|0.9|1.22|||Negative binomial regression||Placebo group is the reference group||Negative binomial regression implemented in the SAS®️ GENMOD procedure with fracture outcome as the dependent variable; duration of follow-up as an offset to account for each participant's exposure; treatment arm as the main independent factor of interest.|1.22|.90|0.7251
92234784|NCT00685178|184373298|SUPERIORITY||Spearmann's rank correlation|0.494|||<|0.001|TWO_SIDED||||||Generalized Estimating Equation (GEE)||NonCR subjects only|Analyses were performed to measure the correlation between Non-CR groups (topiramate + NonCR and Placebo + NonCR) and abstinence.||||<0.001
92234785|NCT05098015|184373310|SUPERIORITY||Slope|0.25|STANDARD_ERROR_OF_MEAN|4.16||0.95|TWO_SIDED||||||Regression, Linear|||||||0.95
92234786|NCT05098015|184373311|SUPERIORITY||Slope|4.38|STANDARD_ERROR_OF_MEAN|3.12||0.16|TWO_SIDED||||||Regression, Linear|||||||0.16
92234787|NCT05098015|184373312|SUPERIORITY||Slope|-0.46|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED||||||Regression, Linear|||||||<.001
92234788|NCT05098015|184373313|SUPERIORITY||Slope|0.67|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED||||||Regression, Linear|||||||<.001
92234789|NCT03334214|184373334|SUPERIORITY|||||||0.003|||||||ANOVA|||||||0.003
92234790|NCT03334214|184373335|SUPERIORITY|||||||0.026|||||||ANOVA|||||||0.026
92234791|NCT03334214|184373338|SUPERIORITY|||||||0.024|||||||ANOVA|||||||0.024
92234792|NCT03334214|184373339|SUPERIORITY|||||||0.0774|||||||Cochran-Mantel-Haenszel|The p-value is obtained using Cochran-Mantel-Haenszel (CMH) test stratified by the baseline liver fat stratum (\<20%, ≥20%) stratification factor.||||||0.0774
92234793|NCT03334214|184373340|SUPERIORITY|||||||0.183|||||||ANOVA|||||||0.183
92234794|NCT03334214|184373341|SUPERIORITY|||||||0.682|||||||ANOVA|||Total Cholesterol||||0.682
92234795|NCT03334214|184373341|SUPERIORITY|||||||0.716|||||||ANOVA|||ApoB||||0.716
92234796|NCT03334214|184373341|SUPERIORITY|||||||0.717|||||||ANOVA|||HDL||||0.717
92234797|NCT03334214|184373341|SUPERIORITY|||||||0.463|||||||ANOVA|||LDL-C||||0.463
92234798|NCT03334214|184373341|SUPERIORITY|||||||0.555|||||||ANOVA|||Non-HDL||||0.555
92234799|NCT03334214|184373341|SUPERIORITY|||||||0.619|||||||ANOVA|||Triglycerides||||0.619
92234800|NCT03334214|184373341|SUPERIORITY|||||||0.698|||||||ANOVA|||VLDL-C||||0.698
92234801|NCT03334214|184373342|SUPERIORITY|||||||0.902|||||||ANOVA|||FPG||||0.902
92234802|NCT03334214|184373342|SUPERIORITY|||||||0.267|||||||Van Elteren test|||HOMA-IR||||0.267
92234803|NCT03334214|184373342|SUPERIORITY|||||||0.2|||||||Van Elteren test|||Insulin||||0.200
92234804|NCT03334214|184373343|SUPERIORITY|||||||0.933|||||||ANOVA|||||||0.933
92387030|NCT03058692|184675138|OTHER|||||||||||||||||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
92234805|NCT04063215|184373359|OTHER|||||||0.048|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.048
92234806|NCT04063215|184373360|OTHER|||||||0.2|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.2
92234807|NCT04063215|184373361|OTHER|||||||0.6|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.6
92234808|NCT04063215|184373362|OTHER|||||||0.1|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.10
92234809|NCT04063215|184373363|OTHER|||||||0.4|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.4
92234810|NCT04063215|184373364|OTHER|||||||0.6|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.6
92234811|NCT04063215|184373365|OTHER|||||||0.5|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.5
92234812|NCT04063215|184373366|OTHER||||||>|0.9|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||>0.9
92278507|NCT04147715|184459287|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.0071|||||TWO_SIDED|90.0|0.9679|1.0479|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed AUC0-τ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-τ of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0479|0.9679|
92234813|NCT04063215|184373367|OTHER|||||||0.8|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.8
92234814|NCT04063215|184373368|OTHER|||||||0.002|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.002
92234815|NCT04063215|184373369|OTHER|||||||0.8|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.8
92234816|NCT04063215|184373370|OTHER|||||||0.069|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.069
92280532|NCT00601484|184463647|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.165|||TWO_SIDED|90.0|-0.591|-0.04||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.040|-0.591|
92417111|NCT01947855|184722092|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-104.87|STANDARD_ERROR_OF_MEAN|19.88|<|0.0001|TWO_SIDED|95.0|-144.77|-64.97|||ANCOVA|Model includes treatment, number of previous antidiabetic medication, baseline renal function, baseline HbA1c and baseline AUC1-4h for plasma glucose.||Difference calculated as empa 25 mg minus placebo. The analyses will be performed sequentially compared with placebo from high dose of empagliflozin and the full significance level (5%) will be maintained by the hierarchical procedure.||-64.97|-144.77|<0.0001
92234817|NCT04063215|184373371|OTHER|||||||0.6|||||||Mixed Models Analysis|||For inflammatory cytokines, time course data will be analyzed using a GLMM to test differences across time between pre- and post- treatment. The dependent variables will be the neuroinflammatory biomarkers with time (to model the trajectory) and GOSE (3-4 or 5-8) as covariates and a random subject effect (to account for within subject correlation). Point estimates of pre- and posttreatment differences will be reported along with 95% confidence interval.||||0.6
92234818|NCT04063215|184373372|OTHER||Odds Ratio (OR)|1.33||||0.63|TWO_SIDED|95.0|0.43|4.19||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Logistic|||A proportional odds logistic regression model was used to analyze the data over time. This model is used to predict an ordered categorical outcome over time by assuming the odds ratio between any two outcome categories is constant throughout all time points. Null hypothesis is that time has no effect on the cumulative odds for a patient to be in a higher category after being evaluated on the GOS-E. Odds ratio \>1 indicates higher likelihood of being in higher categories compared to at baseline.|This statistical analysis applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|4.19|0.43|0.63
92234819|NCT04063215|184373372|OTHER||Odds Ratio (OR)|1.71||||0.36|TWO_SIDED|95.0|0.55|5.45||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Logistic|||A proportional odds logistic regression model was used to analyze the data over time. This model is used to predict an ordered categorical outcome over time by assuming the odds ratio between any two outcome categories is constant throughout all time points. Null hypothesis is that time has no effect on the cumulative odds for a patient to be in a higher category after being evaluated on the GOS-E. Odds ratio \>1 indicates higher likelihood of being in higher categories compared to at baseline.|This statistical analysis applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|5.45|0.55|0.36
92234820|NCT04063215|184373373|OTHER||Mean Difference (Net)|-0.38||||0.047|TWO_SIDED|95.0|-0.75|-0.01||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.19|Effect size: 0.19|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||-0.01|-0.75|0.047
92234821|NCT04063215|184373373|OTHER||Mean Difference (Net)|-0.749||||0.00023|TWO_SIDED|95.0|-1.12|-0.379||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.19|Effect size: 0.19|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||-0.379|-1.12|0.00023
92234822|NCT04063215|184373374|OTHER||Mean Difference (Net)|4.86||||0.00027|TWO_SIDED|95.0|2.42|7.29||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.63|Effect size: 0.63|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||7.29|2.42|0.00027
92278508|NCT04147715|184459287|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.9852|||||TWO_SIDED|90.0|0.9605|1.0105|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed AUC0-τ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-τ of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0105|0.9605|
92278509|NCT04147715|184459289|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.1806|||||TWO_SIDED|90.0|1.1171|1.2477|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cmax as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cmax of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.2477|1.1171|
92280533|NCT00601484|184463647|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.225|||TWO_SIDED|90.0|-0.734|0.02||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.020|-0.734|
92234823|NCT04063215|184373374|OTHER||Mean Difference (Net)|4.9||||0.00019|TWO_SIDED|95.0|2.506|7.294||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.63|Effect size: 0.63|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||7.294|2.506|0.00019
92234824|NCT04063215|184373375|OTHER||Mean Difference (Net)|-2.43||||0.19|TWO_SIDED|95.0|-6.07|-1.18||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.38|Effect size: 0.38|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||-1.18|-6.07|0.19
92234825|NCT04063215|184373375|OTHER||Mean Difference (Net)|-3.7||||0.043|TWO_SIDED|95.0|-7.26|-0.14||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.38|Effect size: 0.38|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||-0.14|-7.26|0.043
92234826|NCT04063215|184373376|OTHER||Mean Difference (Net)|-3.63||||0.069|TWO_SIDED|95.0|-7.55|0.26||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.48|Effect size: 0.48|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||0.26|-7.55|0.069
92234827|NCT04063215|184373376|OTHER||Mean Difference (Net)|-6.15||||0.026|TWO_SIDED|95.0|-9.983|-2.317||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.48|Effect size: 0.48|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||-2.317|-9.983|0.026
92234828|NCT04063215|184373377|OTHER||Mean Difference (Net)|-4.43||||0.02|TWO_SIDED|95.0|-8.12|-0.79||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.53|Effect size: 0.53|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||-0.79|-8.12|0.020
92234829|NCT04063215|184373377|OTHER||Mean Difference (Net)|-5.7||||0.0029|TWO_SIDED|95.0|-9.297|-2.103||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.53|Effect size: 0.53|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||-2.103|-9.297|0.0029
92234830|NCT04063215|184373378|OTHER||Mean Difference (Net)|-3.64||||0.054|TWO_SIDED|95.0|-7.33|0.02||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.53|Effect size: 0.53|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||0.02|-7.33|0.054
92387031|NCT03058692|184675139|OTHER|||||||||||||||||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
92417112|NCT01947855|184722092|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-85.49|STANDARD_ERROR_OF_MEAN|20.18|<|0.0001|TWO_SIDED|95.0|-126.01|-44.97|||ANCOVA|Model includes treatment, number of previous antidiabetic medication, baseline renal function, baseline HbA1c and baseline AUC1-4h for plasma glucose.||Difference calculated as empa 10 mg minus placebo. The analyses will be performed sequentially compared with placebo from high dose of empagliflozin and the full significance level (5%) will be maintained by the hierarchical procedure.||-44.97|-126.01|<0.0001
92417113|NCT03445156|184722139|OTHER|ANCOVA||||||0.04|||||||ANCOVA|F(2, 273) = 3.16, p = .044, partial c\^2 = .023||||||0.04
92387032|NCT03058692|184675139|OTHER|||||||0.5||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.5
92417114|NCT03445156|184722139|OTHER|ANCOVA||||||0.0001|||||||ANCOVA|F(1, 36) = 44.42||||||.0001
92234831|NCT04063215|184373378|OTHER||Mean Difference (Net)|-5.85||||0.0023|TWO_SIDED|95.0|-9.456|-2.244||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.53|Effect size: 0.53|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||-2.244|-9.456|0.0023
92234832|NCT04063215|184373379|OTHER||Mean Difference (Net)|3.0||||0.0097|TWO_SIDED|95.0|0.79|5.22||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.51|Effect size: 0.51|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||5.22|0.79|0.0097
92278510|NCT04147715|184459289|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.048|||||TWO_SIDED|90.0|0.9656|1.1373|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cmax as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cmax of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.1373|0.9656|
92417115|NCT03445156|184722140|OTHER|ANCOVA|||||<|0.001|||||||ANCOVA|F(1, 36) = 44.42||Hypothesis: Participants who played a violent FPS game were expected to have more hits to targets with heads or faces than were participants who played a nonviolent shooting game.||||<.001
92417116|NCT03445156|184722140|OTHER|ANCOVA||||||0.044|||||||ANCOVA|F(2, 273) = 3.16||Hypothesis: Participants who played a violent FPS game were expected to hit the mannequin's head more often than were participants who played either the nonviolent shooting game or the nonviolent non-shooting game Covariates: participant gender, number of guns owned over their lifetime, attitudes toward guns, and number of times they had fired a gun.||||.044
92417117|NCT03445156|184722140|OTHER|ANCOVA||||||0.17|||||||t-test, 2 sided|t(274) = 2.40||"Hypothesis: Because the nonviolent shooting game rewards other shots, participants who played a nonviolent shooting game were expected to hit the mannequin's torso more often than were participants who played the nonviolent non-shooting game.~Covariates: participant gender, number of guns owned over their lifetime, attitudes toward guns, and number of times they had fired a gun."||||0.17
92417118|NCT03445156|184722140|OTHER|ANCOVA||||||0.449|||||||t-test, 2 sided|t(274) = -0.76||Hypothesis: participants who played a nonviolent shooting game were expected to hit the mannequin's head less often than were participants who played the nonviolent non-shooting game Covariates: participant gender, number of guns owned over their lifetime, attitudes toward guns, and number of times they had fired a gun.||||.449
92417119|NCT03445156|184722140|OTHER|ANCOVA||||||0.645|||||||t-test, 2 sided|t(273) = -0.46||"Hypothesis: participants who played a nonviolent shooting game were expected to hit the mannequin's torso more often than were participants who played the nonviolent non-shooting game.~Covariates: participant gender, number of guns owned over their lifetime, attitudes toward guns, and number of times they had fired a gun."||||.645
92417120|NCT03445156|184722140|OTHER|Zero-order correlation||||||0.032|||||||Zero-order correlation|||Hypothesis: A positive correlation was expected between the number of violent shooting games participants listed among their three favorite video games and hits to the mannequin's head.||||.032
92417121|NCT02889562|184722141|OTHER|Pearson chi-squared tests or Fisher exact tests||||||1|||||||Chi-squared|||||||1.0
92417122|NCT02889562|184722144|OTHER|t-test and Wilcoxon analysis||||||0.17|||||||t-test, 1 sided|||||||0.17
92417123|NCT01943474|184722146|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92417124|NCT01943474|184722147|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92417125|NCT01943474|184722148|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92417126|NCT01943474|184722149|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92417127|NCT01943474|184722150|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92417128|NCT01943474|184722153|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92417129|NCT01943474|184722154|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92417130|NCT03720652|184722176|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.18|||||||McNemar|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.18
92417131|NCT03720652|184722176|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.34|||||||McNemar|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.34
92387033|NCT03058692|184675140|OTHER||||||>|0.99||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||>0.99
92387034|NCT03058692|184675140|OTHER|||||||0.74||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.74
92387035|NCT03058692|184675141|OTHER|||||||0.5||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.50
92387036|NCT03058692|184675141|OTHER|||||||0.9||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.90
92417132|NCT03720652|184722176|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.13|||||||McNemar|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.13
92417133|NCT03720652|184722177|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.7|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.70
92417134|NCT03720652|184722177|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.66|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.66
92417135|NCT03720652|184722177|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.84|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.84
92417136|NCT03720652|184722178|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.015|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.015
92417137|NCT03720652|184722178|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.34|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.34
92417138|NCT03720652|184722178|OTHER|The statistical test is a paired test assessing change at the End-of-Program Interview relative to baseline.||||||0.002|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.002
92417139|NCT03720652|184722179|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.022|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.022
92417140|NCT03720652|184722179|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.02|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.020
92417141|NCT03720652|184722179|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.09|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.090
92417142|NCT03720652|184722180|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.051|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.051
92417143|NCT03720652|184722180|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.044|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.044
92417144|NCT03720652|184722180|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||1|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||1.00
92417145|NCT03720652|184722181|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.023|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.023
92234833|NCT04063215|184373379|OTHER||Mean Difference (Net)|4.51||||0.00017|TWO_SIDED|95.0|2.335|6.685||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.51|Effect size: 0.51|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||6.685|2.335|0.00017
92234834|NCT04063215|184373380|OTHER||Mean Difference (Net)|2.58||||0.049|TWO_SIDED|95.0|0.04|5.14||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.40|Effect size: 0.40|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||5.14|0.04|0.049
92234835|NCT04063215|184373380|OTHER||Mean Difference (Net)|3.555||||0.0069|TWO_SIDED|95.0|1.054|6.056||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.40|Effect size: 0.40|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||6.056|1.054|0.0069
92234836|NCT04063215|184373381|OTHER||Mean Difference (Net)|4.03||||0.0064|TWO_SIDED|95.0|1.21|6.82||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.57|Effect size: 0.57|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||6.82|1.21|0.0064
92234837|NCT04063215|184373381|OTHER||Mean Difference (Net)|5.005||||0.00076|TWO_SIDED|95.0|2.251|7.759||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.57|Effect size: 0.57|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||7.759|2.251|0.00076
92278511|NCT04147715|184459291|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.3445|||||TWO_SIDED|90.0|1.2352|1.4636|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cτ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cτ of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.4636|1.2352|
92387037|NCT03058692|184675142|OTHER|||||||0.87||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.87
92387038|NCT03058692|184675142|OTHER|||||||0.57||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.57
92417146|NCT03720652|184722181|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.56|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.56
92417147|NCT03720652|184722181|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.16|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.16
92417148|NCT03720652|184722182|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.15|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.15
92417149|NCT03720652|184722182|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.12|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.12
92417150|NCT03720652|184722182|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.018|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.018
92417151|NCT03720652|184722183|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.33|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.33
92417152|NCT03720652|184722183|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.88|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.88
92417153|NCT03720652|184722183|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.67|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.67
92417154|NCT03720652|184722184|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
92234838|NCT04063215|184373382|OTHER||Mean Difference (Net)|3.13||||0.0084|TWO_SIDED|95.0|0.86|5.38||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.23|Effect size: 0.23|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||5.38|0.86|0.0084
92234839|NCT04063215|184373382|OTHER||Mean Difference (Net)|2.72||||0.018|TWO_SIDED|95.0|0.5|4.94||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.23|Effect size: 0.23|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||4.94|0.5|0.018
92417155|NCT03720652|184722184|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
92417156|NCT03720652|184722184|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
92234840|NCT04063215|184373383|OTHER||Mean Difference (Net)|2.22||||0.024|TWO_SIDED|95.0|0.33|4.13||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.36|Effect size: 0.36|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||4.13|0.33|0.024
92280534|NCT00601484|184463647|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.211|||TWO_SIDED|90.0|-0.724|-0.015||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.015|-0.724|
92280535|NCT00601484|184463647|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.238|||TWO_SIDED|90.0|-0.806|-0.005||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.005|-0.806|
92417157|NCT03720652|184722185|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.17|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.17
92417158|NCT03720652|184722185|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.02|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.020
92417159|NCT03720652|184722185|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.062|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.062
92417160|NCT03720652|184722186|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.013|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.013
92417161|NCT03720652|184722186|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.001
92417162|NCT03720652|184722186|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.003|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.003
92234841|NCT04063215|184373383|OTHER||Mean Difference (Net)|2.31||||0.017|TWO_SIDED|95.0|0.445|4.175||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.36|Effect size: 0.36|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||4.175|0.445|0.017
92239724|NCT00410280|184383313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.19||||0.1289|TWO_SIDED|95.0|-30.34|3.97|||ANOVA|||Day 35: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||3.97|-30.34|0.1289
92387039|NCT03058692|184675143|OTHER|||||||0.82||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.82
92387040|NCT03058692|184675143|OTHER|||||||0.076||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.076
92387041|NCT03058692|184675144|OTHER||||||>|0.99||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||>0.99
92387042|NCT03058692|184675144|OTHER|||||||0.75||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.75
92417163|NCT03720652|184722187|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.001
92417164|NCT03720652|184722187|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.01|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.010
92417165|NCT03720652|184722187|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.085|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.085
92417166|NCT03720652|184722188|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
92417167|NCT03720652|184722188|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
92417168|NCT03720652|184722188|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
92417169|NCT03720652|184722189|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.046|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.046
92239725|NCT00410280|184383314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.8469|TWO_SIDED|95.0|-0.79|0.96|||Mixed Models Analysis|||Screening: Mixed model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participants was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-values were derived from the model.||0.96|-0.79|0.8469
92239726|NCT00410280|184383314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9995|TWO_SIDED|95.0|-0.86|0.86|||Mixed Models Analysis|||Day 14: Mixed model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participants was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-values were derived from the model.||0.86|-0.86|0.9995
92234842|NCT04063215|184373384|OTHER||Mean Difference (Net)|1.48||||0.11|TWO_SIDED|95.0|-0.35|3.31||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.24|Effect size: 0.24|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||3.31|-0.35|0.11
92234843|NCT04063215|184373384|OTHER||Mean Difference (Net)|2.69||||0.0046|TWO_SIDED|95.0|0.893|4.487||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|Effect size: 0.24|Effect size: 0.24|Neuropsychological and Functional outcome measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 and/or 12 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for all outcomes at 6 and 12 months after treatment.||4.487|0.893|0.0046
92234844|NCT04063215|184373385|OTHER||Mean Difference (Net)|5.69||||0.0081|TWO_SIDED|95.0|1.58|9.77||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.60|Effect size: 0.60|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||9.77|1.58|0.0081
92234845|NCT04063215|184373385|OTHER||Mean Difference (Net)|8.505||||0.00017|TWO_SIDED|95.0|4.42|12.606||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.60|Effect size: 0.60|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||12.606|4.42|0.00017
92234846|NCT04063215|184373386|OTHER||Mean Difference (Net)|0.846||||0.64|TWO_SIDED|95.0|-2.767|4.515||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.10|Effect size: 0.10|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||4.515|-2.767|0.64
92234847|NCT04063215|184373387|OTHER||Mean Difference (Net)|2.59||||0.21|TWO_SIDED|95.0|-1.52|6.65||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.48|Effect size: 0.48|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||6.65|-1.52|0.21
92234848|NCT04063215|184373387|OTHER||Mean Difference (Net)|4.318||||0.04|TWO_SIDED|95.0|0.241|8.399||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.48|Effect size: 0.48|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||8.399|0.241|0.040
92234849|NCT04063215|184373388|OTHER||Mean Difference (Net)|-0.86||||0.3|TWO_SIDED|95.0|-2.52|0.78||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.07|Effect size: 0.07|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||0.78|-2.52|0.30
92234850|NCT04063215|184373388|OTHER||Mean Difference (Net)|0.789||||0.33|TWO_SIDED|95.0|-0.83|2.409||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.07|Effect size: 0.07|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||2.409|-0.83|0.33
92417170|NCT03720652|184722189|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.14|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.14
92234851|NCT04063215|184373389|OTHER||Mean Difference (Net)|0.1||||0.96|TWO_SIDED|95.0|-3.49|3.66||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.31|Effect size: 0.31|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||3.66|-3.49|0.96
92234852|NCT04063215|184373389|OTHER||Mean Difference (Net)|2.985||||0.1|TWO_SIDED|95.0|-0.588|6.562||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.31|Effect size: 0.31|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||6.562|-0.588|0.10
92417171|NCT03720652|184722189|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.058|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.058
92417172|NCT03720652|184722190|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
92417173|NCT03720652|184722190|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
92417174|NCT03720652|184722190|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
92417175|NCT00167778|184722204|SUPERIORITY_OR_OTHER||||||>|0.99||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||>0.99
92417176|NCT00167778|184722205|SUPERIORITY_OR_OTHER||||||=|0.09||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=0.09
92417177|NCT00167778|184722206|SUPERIORITY_OR_OTHER||||||=|0.09||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=0.09
92417178|NCT00167778|184722207|SUPERIORITY_OR_OTHER||||||=|0.7||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=0.7
92417179|NCT00167778|184722208|SUPERIORITY_OR_OTHER||||||>|0.99||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||>0.99
92234853|NCT04063215|184373390|OTHER||Mean Difference (Net)|3.34||||0.043|TWO_SIDED|95.0|0.13|6.53||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.21|Effect size: 0.21|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||6.53|0.13|0.043
92234854|NCT04063215|184373390|OTHER||Mean Difference (Net)|2.718||||0.1|TWO_SIDED|95.0|-0.484|5.917||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.21|Effect size: 0.21|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||5.917|-0.484|0.10
92239727|NCT00410280|184383314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.528|TWO_SIDED|95.0|-1.14|0.59|||Mixed Models Analysis|||Day 35: Mixed model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participants was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-values were derived from the model.||0.59|-1.14|0.5280
92280536|NCT00601484|184463647|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.206|||TWO_SIDED|90.0|-0.47|0.223||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.223|-0.470|
92417180|NCT00167778|184722210|SUPERIORITY_OR_OTHER||||||=|0.8||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=0.8
92417181|NCT00167778|184722211|SUPERIORITY_OR_OTHER||||||=|0.7||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=0.7
92417182|NCT00167778|184722212|SUPERIORITY_OR_OTHER||||||=|0.4||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=.4
92417183|NCT00167778|184722213|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
92417184|NCT00167778|184722214|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
92417185|NCT00167778|184722215|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
92417186|NCT00167778|184722216|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
92417187|NCT00167778|184722217|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
92417188|NCT00167778|184722218|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
92417189|NCT00167778|184722219|SUPERIORITY_OR_OTHER||||||=|0.13||95.0||||Statistical significance was set a-prior at p\<0.05.|Wilcoxon (Mann-Whitney)|Wilcoon paired signed rank test for the differences between Rigid and Torsion Adapter pylons||||||=0.13
92417190|NCT00167778|184722220|SUPERIORITY_OR_OTHER||||||=|0.92||95.0||||Statistical significance was set a-prior at p\<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between Rigid and Torsion Adapter pylons.||||||=0.92
92417191|NCT00167778|184722221|SUPERIORITY_OR_OTHER||||||=|0.37||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.37
92417192|NCT00167778|184722222|SUPERIORITY_OR_OTHER||||||=|0.27||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.27
92417193|NCT00167778|184722223|SUPERIORITY_OR_OTHER||||||=|0.2||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.20
92387043|NCT03058692|184675145|OTHER|||||||0.5||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.50
92234855|NCT04063215|184373391|OTHER||Mean Difference (Net)|2.39||||0.24|TWO_SIDED|95.0|-1.73|6.44||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.20|Effect size: 0.20|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||6.44|-1.73|0.24
92387044|NCT03058692|184675145|OTHER|||||||0.5||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.50
92387045|NCT03058692|184675146|OTHER||||||>|0.99||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||>.99
92387046|NCT03058692|184675146|OTHER||||||>|0.99||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||>.99
92387047|NCT03058692|184675147|OTHER|||||||0.81||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.81
92387048|NCT03058692|184675147|OTHER|||||||0.47||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.47
92387049|NCT03058692|184675148|OTHER|||||||0.0061||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.0061
92387050|NCT03058692|184675148|OTHER|||||||0.28||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.28
92387051|NCT03058692|184675149|OTHER|||||||0.36||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.36
92234856|NCT04063215|184373391|OTHER||Mean Difference (Net)|3.79||||0.061|TWO_SIDED|95.0|-0.152|7.72||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.20|Effect size: 0.20|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||7.72|-0.152|0.061
92417194|NCT00167778|184722224|SUPERIORITY_OR_OTHER||||||=|0.59||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.59
92387052|NCT03058692|184675149|OTHER|||||||0.32||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.32
92387053|NCT03058692|184675150|OTHER|||||||0.42||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.42
92387054|NCT03058692|184675150|OTHER|||||||0.26||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.26
92387055|NCT03058692|184675151|OTHER|||||||0.53||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.53
92387056|NCT03058692|184675151|OTHER|||||||0.56||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.56
92387057|NCT03058692|184675152|OTHER|||||||0.97||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.97
92387058|NCT03058692|184675152|OTHER|||||||0.62||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.62
92387059|NCT03058692|184675153|OTHER|||||||0.15||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.15
92387060|NCT03058692|184675153|OTHER|||||||0.18||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.18
92417195|NCT00167778|184722225|SUPERIORITY_OR_OTHER||||||=|0.057||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.057
92417196|NCT00167778|184722226|SUPERIORITY_OR_OTHER||||||=|0.78||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.78
92417197|NCT01842633|184722291|SUPERIORITY_OR_OTHER||Treatment Difference|-0.47|||||TWO_SIDED|95.0|-1.36|0.42||||||||0.42|-1.36|
92417198|NCT02093351|184722308|EQUIVALENCE|If the 90% confidence interval (CI) for the tamoxifen treatment ratio falls within 0.7 to 1.43, olaparib can be considered to have had an effect on tamoxifen exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|1.13|||||TWO_SIDED|90.0|1.06|1.22|||||olaparib + tamoxifen vs. tamoxifen|Analysis of tamoxifen PK parameters.||1.22|1.06|
92417199|NCT02093351|184722309|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, tamoxifen can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|0.8|||||TWO_SIDED|90.0|0.71|0.9|||||olaparib + tamoxifen vs. olaparib|Analysis of olaparib PK parameters.||0.90|0.71|
92234857|NCT04063215|184373392|OTHER||Mean Difference (Net)|1.22||||0.49|TWO_SIDED|95.0|-2.28|4.71||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.43|Effect size: 0.43|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||4.71|-2.28|0.49
92387061|NCT03058692|184675154|OTHER|||||||0.94||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.94
92387062|NCT03058692|184675154|OTHER|||||||||||||||||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
92387063|NCT03058692|184675155|OTHER|||||||0.14||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.14
92387064|NCT03058692|184675155|OTHER|||||||0.26||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.26
92387065|NCT03058692|184675156|OTHER|||||||0.72||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.72
92387066|NCT03058692|184675156|OTHER|||||||0.31||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.31
92387067|NCT03058692|184675157|OTHER|||||||0.31||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.31
92387068|NCT03058692|184675157|OTHER|||||||0.22||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.22
92387069|NCT03058692|184675158|OTHER|||||||0.16||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.16
92417200|NCT02093351|184722310|EQUIVALENCE|If the 90% CI for the anastrozole treatment ratio falls within 0.8 to 1.25, olaparib can be considered to have had little or no effect on anastrozole exposure.|Geometric Least Squares (GLS) Mean Ratio|0.9|||||TWO_SIDED|90.0|0.84|0.97|||||olaparib + anastrozole vs. anastrozole|Analysis of anastrozole PK parameters.||0.97|0.84|
92417201|NCT02093351|184722311|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, anastrozole can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.84|1.04|||||olaparib + anastrozole vs. olaparib|Analysis of olaparib PK parameters.||1.04|0.84|
92417202|NCT02093351|184722312|EQUIVALENCE|If the 90% CI for the letrozole treatment ratio falls within 0.8 to 1.25, olaparib can be considered to have had little or no effect on letrozole exposure.|GLS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.91|0.98|||||olaparib + letrozole vs. letrozole|Analysis of letrozole PK parameters.||0.98|0.91|
92171768|NCT00976937|184233098|SUPERIORITY_OR_OTHER||Response rate difference|4.6|STANDARD_ERROR_OF_MEAN|3.28||0.1696|TWO_SIDED|95.0|-1.84|11.0||Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata of screening HbA1c (\<8.0 or \>=8.0%) and randomization strata of screening BMI (\<35 or \>=35 kg/m\^2) was used.|Cochran-Mantel-Haenszel|||To demonstrate the superiority of lixisenatide over sitagliptin, 150 patients in each arm would provide a power of 90% with a 2-sided test at the 5% significance level, assuming the percentage of patients defined as responders on HbA1c (\<7%) and weight (at least 5% loss) is 25% with lixisenatide and 10% with sitagliptin.||11.00|-1.84|0.1696
92234858|NCT04063215|184373392|OTHER||Mean Difference (Net)|7.001||||0.00026|TWO_SIDED|95.0|3.506|10.494||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.43|Effect size: 0.43|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||10.494|3.506|0.00026
92234859|NCT04063215|184373393|OTHER||Mean Difference (Net)|3.98||||0.083|TWO_SIDED|95.0|-0.51|8.46||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.61|Effect size: 0.61|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||8.46|-0.51|0.083
92234860|NCT04063215|184373393|OTHER||Mean Difference (Net)|9.033||||0.00025|TWO_SIDED|95.0|4.55|13.52||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.61|Effect size: 0.61|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||13.52|4.55|0.00025
92234861|NCT04063215|184373394|OTHER||Mean Difference (Net)|0.25||||0.53|TWO_SIDED|95.0|-0.55|1.05||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.20|Effect size: 0.20|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||1.05|-0.55|0.53
92234862|NCT04063215|184373394|OTHER||Mean Difference (Net)|1.043||||0.1|TWO_SIDED|95.0|0.284|1.805||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.20|Effect size: 0.20|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||1.805|0.284|0.10
92234863|NCT04063215|184373395|OTHER||Mean Difference (Net)|0.83||||0.034|TWO_SIDED|95.0|0.07|1.59||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.28|Effect size: 0.28|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||1.59|0.07|0.034
92387070|NCT03058692|184675158|OTHER|||||||0.44||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.44
92234864|NCT04063215|184373395|OTHER||Mean Difference (Net)|1.043||||0.009|TWO_SIDED|95.0|0.284|1.805||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.28|Effect size: 0.28|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||1.805|0.284|0.0090
92234865|NCT04063215|184373396|OTHER||Mean Difference (Net)|2.8||||0.13|TWO_SIDED|95.0|-0.84|6.41||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.25|Effect size: 0.25|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||6.41|-0.84|0.13
92234866|NCT04063215|184373396|OTHER||Mean Difference (Net)|4.486||||0.016|TWO_SIDED|95.0|0.938|8.026||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.25|Effect size: 0.25|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||8.026|0.938|0.016
92239728|NCT00696657|184383374|SUPERIORITY||Estimated treatment differences|-1.19|||<|0.0001|TWO_SIDED|95.0|-1.58|-0.8|||ANOVA|Confidence interval (CIs) for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 1.6 mg (with titration) - Placebo. The estimates are from an analysis of variance (ANOVA) model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.80|-1.58|<0.0001
92417203|NCT02093351|184722313|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, letrozole can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|1.09|||||TWO_SIDED|90.0|0.99|1.21|||||olaparib + letrozole vs. olaparib|Analysis of olaparib PK parameters||1.21|0.99|
92234867|NCT04063215|184373397|OTHER||Mean Difference (Net)|-0.11||||0.84|TWO_SIDED|95.0|-1.23|0.97||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.33|Effect size: 0.33|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||0.97|-1.23|0.84
92234868|NCT04063215|184373397|OTHER||Mean Difference (Net)|1.083||||0.053|TWO_SIDED|95.0|-0.028|2.162||This p-value applies to data regarding 1 year Post-Infusion (Visit 7 - Week 56) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Regression, Linear|Effect size: 0.33|Effect size: 0.33|Neurocognitive outcome measures will be analyzed using linear regression models to estimate differences across time points (pre- and post-treatment). Mean differences with 95% confidence intervals (CI) were determined for all outcomes at 6 and 12 months after treatment.||2.162|-0.028|0.053
92234869|NCT04063215|184373398|OTHER||Mean Difference (Net)|-1050.25||||0.27|TWO_SIDED|95.0|-2958.69|858.19||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||858.19|-2958.69|0.27
92234870|NCT04063215|184373399|OTHER||Mean Difference (Net)|-365.57||||0.61|TWO_SIDED|95.0|-1835.1|1103.97||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||1103.97|-1835.10|0.61
92278512|NCT04147715|184459291|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.0769|||||TWO_SIDED|90.0|1.0137|1.1441|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cτ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cτ of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.1441|1.0137|
92278513|NCT04147715|184459292|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.1939|||||TWO_SIDED|90.0|1.1176|1.2754|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed AUC0-τ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-τ of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.2754|1.1176|
92278514|NCT04147715|184459292|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.0482|||||TWO_SIDED|90.0|0.9881|1.1119|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed AUC0-τ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-τ of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.1119|0.9881|
92417204|NCT02093351|184722314|EQUIVALENCE|If the 90% CI for the tamoxifen treatment ratio falls within 0.7 to 1.43, olaparib can be considered to have had an effect on tamoxifen exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|1.16|||||TWO_SIDED|90.0|1.11|1.21|||||olaparib + tamoxifen vs. tamoxifen|Analysis of tamoxifen PK parameters.||1.21|1.11|
92278515|NCT04147715|184459294|OTHER||Slope|0.9857|||||TWO_SIDED|95.0|0.9341|1.0373||||||The dose proportionality of plasma PK parameters of S-648414 was examined for all fasted groups in Part 1 using the power model. The power model assumes a linear relationship between the ln-transformed parameter and ln-transformed dose where ln(Cmax) = Intercept + Slope × ln(Dose) + Random error||1.0373|0.9341|
92278516|NCT04147715|184459294|OTHER||Geometric Least Squares Mean Ratio|0.8786|||||TWO_SIDED|90.0|0.7705|1.0019|||||Ratio = Fed / Fasted|"The effect of food on the plasma PK of S-648414 was examined after a single dose of 100 mg S-648414 in the fed state and fasted state using an ANOVA fitted with a linear mixed effect model with ln-transformed Cmax as the dependent variable, treatment as a fixed effect, and participant as random effect.~The difference and 90% CI between the fed and fasted state ln-transformed Cmax were estimated, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||1.0019|0.7705|
92278517|NCT04147715|184459296|OTHER||Slope|1.0252|||||TWO_SIDED|95.0|0.984|1.0665||||||The dose proportionality of plasma PK parameters of S-648414 was examined for all fasted groups in Part 1 using the power model. The power model assumes a linear relationship between the ln-transformed parameter and ln-transformed dose where ln(AUC0-last) = Intercept + Slope × ln(Dose) + Random error||1.0665|0.9840|
92278518|NCT04147715|184459296|OTHER||Geometric Least Squares Mean Ratio|0.9598|||||TWO_SIDED|90.0|0.8585|1.073|||||Ratio = Fed / Fasted|The effect of food on the plasma PK of S-648414 was examined after a single dose of 100 mg S-648414 in the fed and fasted state using an ANOVA fitted with a linear mixed effect model, with ln-transformed AUC0-last as the dependent variable, treatment as a fixed effect, and participant as random effect. The difference and 90% CI between the fed and fasted state ln-transformed AUC0-last were estimated, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0730|0.8585|
92234871|NCT04063215|184373400|OTHER||Mean Difference (Net)|-13.17||||0.19|TWO_SIDED|95.0|-33.32|6.98||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||6.98|-33.32|0.19
92234872|NCT04063215|184373401|OTHER||Mean Difference (Net)|-32.35||||0.0072|TWO_SIDED|95.0|-54.61|-10.09||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||-10.09|-54.61|0.0072
92234873|NCT04063215|184373402|OTHER||Mean Difference (Net)|-21.88||||0.03|TWO_SIDED|95.0|-41.11|-2.65||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||-2.65|-41.11|0.03
92234874|NCT04063215|184373403|OTHER||Mean Difference (Net)|-42.03||||0.061|TWO_SIDED|95.0|-85.66|1.61||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||1.61|-85.66|0.061
92234875|NCT04063215|184373404|OTHER||Mean Difference (Net)|-39.56||||0.18|TWO_SIDED|95.0|-98.67|19.56||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||19.56|-98.67|0.18
92234876|NCT04063215|184373405|OTHER||Mean Difference (Net)|8.25||||0.63|TWO_SIDED|95.0|-26.01|42.51||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||42.51|-26.01|0.63
92234877|NCT04063215|184373406|OTHER||Mean Difference (Net)|1.47||||0.85|TWO_SIDED|95.0|-14.84|17.79||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||17.79|-14.84|0.85
92278519|NCT04147715|184459297|OTHER||Slope|1.028|||||TWO_SIDED|95.0|0.9866|1.0695||||||The dose proportionality of plasma PK parameters of S-648414 was examined for all fasted groups in Part 1 using the power model. The power model assumes a linear relationship between the ln-transformed parameter and ln-transformed dose where ln(AUC0-inf) = Intercept + Slope × ln(Dose) + Random error||1.0695|0.9866|
92278520|NCT04147715|184459297|OTHER||Geometric Least Squares Mean Ratio|0.9646|||||TWO_SIDED|90.0|0.8643|1.0766|||||Ratio = Fed / Fasted|The effect of food on the plasma PK of S-648414 was examined after a single dose of 100 mg S-648414 in the fed and fasted state using an ANOVA fitted with a linear mixed effect model, with ln-transformed AUC0-inf as the dependent variable, treatment as a fixed effect, and participant as random effect. The difference and 90% CI between the fed and fasted state ln-transformed AUC0-inf were estimated, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0766|0.8643|
92278521|NCT04147715|184459298|OTHER||Geometric Least Squares Mean Ratio|1.0272|||||TWO_SIDED|90.0|0.9949|1.0606|||||Ratio = Fed / Fasted|The effect of food on the plasma PK of S-648414 was examined after a single dose of 100 mg S-648414 in the fed and fasted state using an ANOVA fitted with a linear mixed effect model, with ln-transformed t1/2,z as the dependent variable, treatment as a fixed effect, and participant as random effect. The difference and 90% CI between the fed and fasted state ln-transformed t1/2,z were estimated, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0606|0.9949|
92278522|NCT04147715|184459305|OTHER||Geometric Least Squares Mean Ratio|1.5167|||||TWO_SIDED|90.0|1.2654|1.818|||||Ratio = 50 mg / 30 mg|"The dose proportionality of plasma S-648414 Cmax after a single dose of S-648414 (Day 1) was assessed using an ANOVA model fitted to the ln-transformed Cmax, with dose group fitted as a fixed factor.~The point estimates and 90% CIs were generated for the ratios of the 50 mg dose to 30 mg dose ln-transformed Cmax, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||1.8180|1.2654|
92280537|NCT00601484|184463648|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-15.34|STANDARD_ERROR_OF_MEAN|8.425|||TWO_SIDED|90.0|-29.468|-1.209||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-1.209|-29.468|
92278523|NCT04147715|184459305|OTHER||Geometric Least Squares Mean Ratio|1.8372|||||TWO_SIDED|90.0|1.5696|2.1506|||||Ratio = 50 mg / 30 mg|"The dose proportionality of plasma S-648414 Cmax after multiple doses of S-648414 (Day 14) was assessed using an ANOVA model fitted to the ln-transformed Cmax, with dose group fitted as a fixed factor.~The point estimates and 90% CIs were generated for the ratios of the 50 mg dose to 30 mg dose ln-transformed Cmax, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.1506|1.5696|
92278524|NCT04147715|184459305|OTHER||Geometric Least Squares Mean Ratio|1.7489|||||TWO_SIDED|90.0|1.525|2.0057|||||Ratio = Day 14 / Day 1|"The accumulation ratio of Cmax in the 30 mg dose group was calculated as the ratio of Day 14 to Day 1 using an ANOVA fitted with a linear mixed model with ln-transformed Cmax, Day as a fixed effect and participant as a random effect.~The difference and 90% CI between the ln-transformed Cmax on Day 1 and Day 14 were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.0057|1.5250|
92278525|NCT04147715|184459305|OTHER||Geometric Least Squares Mean Ratio|2.1453|||||TWO_SIDED|90.0|1.9741|2.3313|||||Ratio = Day 14 / Day 1|"The accumulation ratio of Cmax in the 50 mg dose group was calculated as the ratio of Day 14 to Day 1 using an ANOVA fitted with a linear mixed model with ln-transformed Cmax, Day as a fixed effect and participant as a random effect.~The difference and 90% CI between the ln-transformed Cmax on Day 1 and Day 14 were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.3313|1.9741|
92278526|NCT04147715|184459307|OTHER||Geometric Least Squares Mean Ratio|1.6277|||||TWO_SIDED|90.0|1.4038|1.8874|||||Ratio = 50 mg / 30 mg|"The dose proportionality of plasma S-648414 AUC0-τ after a single dose of S-648414 (Day 1) was assessed using an ANOVA model fitted to the ln-transformed AUC0-τ, with dose group fitted as a fixed factor.~The point estimates and 90% CIs were generated for the ratios of the 50 mg dose to 30 mg dose ln-transformed AUC0-τ, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||1.8874|1.4038|
92278527|NCT04147715|184459307|OTHER||Geometric Least Squares Mean Ratio|1.7454|||||TWO_SIDED|90.0|1.4785|2.0605|||||Ratio = 50 mg / 30 mg|"The dose proportionality of plasma S-648414 AUC0-τ after multiple doses of S-648414 (Day 14) was assessed using an ANOVA model fitted to the ln-transformed AUC0-τ, with dose group fitted as a fixed factor.~The point estimates and 90% CIs were generated for the ratios of the 50 mg dose to 30 mg dose ln-transformed AUC0-τ, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.0605|1.4785|
92278528|NCT04147715|184459307|OTHER||Geometric Least Squares Mean Ratio|1.9102|||||TWO_SIDED|90.0|1.7788|2.0513|||||Ratio = Day 14 / Day 1|"The accumulation ratio of AUC0-τ in the 30 mg dose group was calculated as the ratio of Day 14 to Day 1 using an ANOVA fitted with a linear mixed model with ln-transformed AUC0-τ, Day as a fixed effect and participant as a random effect.~The difference and 90% CI between the ln-transformed AUC0-τ on Day 1 and Day 14 were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.0513|1.7788|
92278529|NCT04147715|184459307|OTHER||Geometric Least Squares Mean Ratio|2.0478|||||TWO_SIDED|90.0|1.9203|2.1837|||||Ratio = Day 14 / Day 1|"The accumulation ratio of AUC0-τ in the 50 mg dose group was calculated as the ratio of Day 14 to Day 1 using an ANOVA fitted with a linear mixed model with ln-transformed AUC0-τ, Day as a fixed effect and participant as a random effect.~The difference and 90% CI between the ln-transformed AUC0-τ on Day 1 and Day 14 were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.1837|1.9203|
92278530|NCT04147715|184459314|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.9241|||||TWO_SIDED|90.0|0.8057|1.06|||||Ratio = 30 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed Cmax as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cmax of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.0600|0.8057|
92278531|NCT04147715|184459314|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.0303|||||TWO_SIDED|90.0|0.9299|1.1415|||||Ratio = 50 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed Cmax as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cmax of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.1415|0.9299|
92278532|NCT04147715|184459316|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500|Geometric Least Squares Mean Ratio|0.842|||||TWO_SIDED|90.0|0.6628|1.0696|||||Ratio = 30 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed AUC0-last as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-last of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.0696|0.6628|
92278533|NCT04147715|184459316|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.8542|||||TWO_SIDED|90.0|0.7185|1.0155|||||Ratio = 50 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed AUC0-last as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-last of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.0155|0.7185|
92417205|NCT02093351|184722315|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, tamoxifen can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|0.73|||||TWO_SIDED|90.0|0.63|0.84|||||olaparib + tamoxifen vs. olaparib|Analysis of olaparib PK parameters.||0.84|0.63|
92417206|NCT02093351|184722316|EQUIVALENCE|If the 90% CI for the anastrozole treatment ratio falls within 0.8 to 1.25, olaparib can be considered to have had little or no effect on anastrozole exposure.|GLS Mean Ratio|0.86|||||TWO_SIDED|90.0|0.8|0.93|||||olaparib + anastrozole vs. anastrozole|Analysis of anastrozole PK parameters.||0.93|0.80|
92234878|NCT04063215|184373407|OTHER||Mean Difference (Net)|-35.42||||0.24|TWO_SIDED|95.0|-95.21|24.36||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||24.36|-95.21|0.24
92234879|NCT04063215|184373408|OTHER||Mean Difference (Net)|-6.58||||0.31|TWO_SIDED|95.0|-19.5|6.34||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||6.34|-19.50|0.31
92234880|NCT04063215|184373409|OTHER||Mean Difference (Net)|-25.77||||0.018|TWO_SIDED|95.0|-46.25|-5.29||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||-5.29|-46.25|0.018
92234881|NCT04063215|184373410|OTHER||Mean Difference (Net)|-9.6||||0.067|TWO_SIDED|95.0|-19.79|0.59||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||0.59|-19.79|0.067
92234882|NCT04063215|184373411|OTHER||Mean Difference (Net)|-12.28||||0.069|TWO_SIDED|95.0|-25.45|0.88||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||0.88|-25.45|0.069
92278534|NCT04147715|184459317|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.8377|||||TWO_SIDED|90.0|0.6645|1.0561|||||Ratio = 30 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed AUC0-inf as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-inf of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.0561|0.6645|
92280538|NCT00601484|184463648|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-16.97|STANDARD_ERROR_OF_MEAN|11.102|||TWO_SIDED|90.0|-35.608|1.665||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.665|-35.608|
92417207|NCT02093351|184722317|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, anastrozole can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|0.89|||||TWO_SIDED|90.0|0.76|1.05|||||olaparib + anastrozole vs. olaparib|Analysis of olaparib PK parameters.||1.05|0.76|
92417208|NCT02093351|184722318|EQUIVALENCE|If the 90% CI for the letrozole treatment ratio falls within 0.8 to 1.25, olaparib can be considered to have had little or no effect on letrozole exposure.|GLS Mean Ratio|0.95|||||TWO_SIDED|90.0|0.91|0.99|||||olaparib + letrozole vs. letrozole|Analysis of letrozole PK parameters.||0.99|0.91|
92234883|NCT04063215|184373412|OTHER||Mean Difference (Net)|-26.47||||0.027|TWO_SIDED|95.0|-49.12|-3.61||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||-3.61|-49.12|0.027
92234884|NCT04063215|184373413|OTHER||Mean Difference (Net)|-15.66||||0.24|TWO_SIDED|95.0|-42.09|10.77||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||10.77|-42.09|0.24
92234885|NCT04063215|184373414|OTHER||Mean Difference (Net)|-17.91||||0.079|TWO_SIDED|95.0|-37.83|2.01||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||2.01|-37.83|0.079
92278535|NCT04147715|184459317|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.8529|||||TWO_SIDED|90.0|0.7213|1.0085|||||Ratio = 50 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed AUC0-inf as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-inf of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.0085|0.7213|
92387071|NCT03058692|184675159|OTHER|||||||0.67||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.67
92387072|NCT03058692|184675159|OTHER|||||||0.48||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.48
92387073|NCT03058692|184675160|OTHER||||||<|0.001||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||<0.001
92387074|NCT03058692|184675160|OTHER|||||||0.62||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.62
92387075|NCT03058692|184675161|OTHER|||||||0.0093||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.0093
92387076|NCT03058692|184675161|OTHER|||||||0.51||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.51
92387077|NCT03058692|184675162|OTHER|||||||0.54||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.54
92417209|NCT02093351|184722319|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, letrozole can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|1.15|||||TWO_SIDED|90.0|1.07|1.25|||||olaparib + letrozole vs. olaparib|Analysis of olaparib PK parameters.||1.25|1.07|
92417210|NCT02057042|184722322|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92417211|NCT02057042|184722323|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92417212|NCT02057042|184722324|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92417213|NCT02057042|184722325|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92417214|NCT02057042|184722326|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92417215|NCT02057042|184722327|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92234886|NCT04063215|184373415|OTHER||Mean Difference (Net)|-21.65||||0.29|TWO_SIDED|95.0|-62.91|19.61||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||19.61|-62.91|0.29
92234887|NCT04063215|184373416|OTHER||Mean Difference (Net)|-4.08||||0.24|TWO_SIDED|95.0|-11.01|2.84||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||2.84|-11.01|0.24
92278536|NCT00895583|184459364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.239|TWO_SIDED|95.0|0.4|1.3||Two-sided alpha equals (=) 0.05.|Fisher Exact|||||1.3|0.4|0.239
92417216|NCT01099709|184722328|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|105.0|||||TWO_SIDED|90.0|101.06|108.51|||||Bioequivalence was established when 90% Confidence Interval fell within 80%-125%.|||108.51|101.06|
92417217|NCT01099709|184722328|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|105.0|||||TWO_SIDED|90.0|101.06|108.51|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||108.51|101.06|
92417218|NCT01099709|184722329|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|95.6|||||TWO_SIDED|90.0|93.73|97.53|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||97.53|93.73|
92417219|NCT01099709|184722330|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric test/Ref Ratio x 100|95.7|||||TWO_SIDED|90.0|93.85|97.68|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||97.68|93.85|
92278537|NCT00895583|184459365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.422|TWO_SIDED|95.0|0.5|1.4||Alpha was unadjusted.|Fisher Exact|||||1.4|0.5|0.422
92417220|NCT00706849|184722331|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤ 0.05.|t-test, 2 sided|||Based upon prior clinical study experience with mipomersen, it was estimated that the standard deviation of the percent change in LDL-C is approximately 22%. With 20 patients in the control group and 40 patients in the mipomersen-treated group, this study would have at least 90% power to detect a 20% difference between the 2 treatment groups.||||<0.001
92417221|NCT00706849|184722333|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
92278538|NCT00895583|184459366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.524|TWO_SIDED|95.0|0.5|1.4||Alpha was unadjusted.|Fisher Exact|||Month 12||1.4|0.5|0.524
92278539|NCT00895583|184459366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.298|TWO_SIDED|95.0|0.4|1.2||Alpha was unadjusted.|Fisher Exact|||Month 24||1.2|0.4|0.298
92278540|NCT00895583|184459367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.055|TWO_SIDED|95.0|0.3|1.0||Alpha was unadjusted.|Fisher Exact|||Month 12||1.0|0.3|0.055
92278541|NCT00895583|184459367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.33|TWO_SIDED|95.0|0.4|1.3||Alpha was unadjusted.|Fisher Exact|||Month 24||1.3|0.4|0.330
92278542|NCT00895583|184459368|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.543|TWO_SIDED|95.0|0.4|1.5||Alpha was unadjusted.|Fisher Exact|||Month 12||1.5|0.4|0.543
92278543|NCT00895583|184459368|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.6|1.8||Alpha was unadjusted.|Fisher Exact|||Month 24||1.8|0.6|1.000
92278544|NCT00895583|184459370|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|1.3||0.019|TWO_SIDED|95.0|0.5|5.5||Alpha was unadjusted.|ANCOVA|Analysis of covariance (ANCOVA) with treatment as a factor and baseline GFR as a covariate.||Change from randomization at Month 6||5.5|0.5|0.019
92278545|NCT00895583|184459370|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.5||0.215|TWO_SIDED|95.0|-4.8|1.1||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline GFR as a covariate.||Change from randomization at Month 12||1.1|-4.8|0.215
92278546|NCT00895583|184459370|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.7||0.722|TWO_SIDED|95.0|-2.7|3.9||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline GFR as a covariate.||Change from randomization at Month 18||3.9|-2.7|0.722
92278547|NCT00895583|184459370|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.9||0.71|TWO_SIDED|95.0|-3.0|4.4||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline GFR as a covariate.||Change from randomization at Month 24||4.4|-3.0|0.710
92278548|NCT00895583|184459371|SUPERIORITY_OR_OTHER||Slope difference (SRL-TAC)|-1.8||||0.131|TWO_SIDED|95.0|-4.2|0.5|||Random coefficient model||Random coefficient model with GFR as the dependent variable and study day as the independent variable.|Slope difference (sirolimus \[SRL\] minus tacrolimus \[TAC\])||0.5|-4.2|0.131
92278549|NCT00895583|184459373|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|2.4||0.105|TWO_SIDED|95.0|-8.6|0.8||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline serum creatinine as a covariate.||Change from randomization at Month 6||0.8|-8.6|0.105
92417222|NCT00706849|184722335|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
92387078|NCT03058692|184675162|OTHER|||||||0.43||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.43
92387079|NCT03058692|184675163|OTHER|||||||0.44||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.44
92169700|NCT04992390|184227909|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.93|||<=|0.05|TWO_SIDED|95.0|-1.68|-0.17||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Generalised Anxiety Disorder 2-item scale (GAD-2) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.17|-1.68|<=0.05
92169701|NCT04992390|184227910|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.52|||>|0.05|TWO_SIDED|95.0|-1.23|0.19||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Patient Health Questionnaire 2-item version (PHQ-2) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons.(Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|0.19|-1.23|> .05
92169702|NCT04992390|184227911|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-6.49|||<=|0.001|TWO_SIDED|95.0|-8.48|-4.51||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Psychological Outcome Profiles (PSYCHLOPS) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-4.51|-8.48|<= 0.001
92171769|NCT04994509|184233178|SUPERIORITY||Rate Ratio|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.042||p-value for rate ratio vs bHIV is from likelihood ratio test.|Likelihood ratio test||Confidence Interval (CI) for rate ratio vs bHIV is from a likelihood-based method.|Null Hypothesis 01: LEN/bHIV\>= 1; Null hypothesis was to be rejected if HIV-1 incidence in LEN was significantly lower than bHIV.||0.042|0.000|<0.0001
92234888|NCT04063215|184373417|OTHER||Mean Difference (Net)|12.33||||0.44|TWO_SIDED|95.0|-19.69|44.36||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||44.36|-19.69|0.44
92417223|NCT00706849|184722337|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
92417224|NCT00706849|184722339|SUPERIORITY_OR_OTHER|||||||0.042||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||0.042
92417225|NCT00706849|184722341|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||<0.001
92239729|NCT00696657|184383374|SUPERIORITY||Estimated treatment differences|-0.95|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.57|||ANOVA|CIs for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 0.8 mg (with titration) - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.57|-1.33|<0.0001
92417226|NCT00706849|184722343|SUPERIORITY_OR_OTHER|||||||0.023||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||0.023
92417227|NCT00706849|184722345|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||<0.001
92417228|NCT00706849|184722347|SUPERIORITY_OR_OTHER|||||||0.004||||||No adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.004
92417229|NCT00706849|184722349|SUPERIORITY_OR_OTHER|||||||0.207||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||0.207
92417230|NCT00920907|184722360|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.01|||||TWO_SIDED|90.0|0.916|1.114|||Least squared linear regression|||Biocomparability of ipilimumab Process C to ipilimumab Process B was concluded if the 90% confidence intervals (CIs) for the ratio of geometric means for Cmax were contained within 80% to 125%.||1.114|0.916|
92417231|NCT00920907|184722364|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.032|||||TWO_SIDED|90.0|0.922|1.156|||Least squared linear regression|||Biocomparability of ipilimumab Process C to ipilimumab Process B was to be concluded if the 90% confidence intervals (CIs) for the ratio of geometric means for ipilimumab Cmax were contained within 80% to 125%. Point estimates and 90% CIs were constructed for the ratio of geometric means (Process C/Process B) for ipilimumab Cmax.||1.156|0.922|
92239730|NCT00696657|184383374|SUPERIORITY||Estimated treatment differences|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.35|-0.59|||ANOVA|CIs for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 0.8 mg - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.59|-1.35|<0.0001
92387080|NCT03058692|184675163|OTHER|||||||0.014||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.014
92387081|NCT03058692|184675164|OTHER||||||<|0.001||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||<0.001
92387082|NCT03058692|184675164|OTHER|||||||0.96||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.96
92387083|NCT03058692|184675165|OTHER|||||||0.65||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.65
92387084|NCT03058692|184675165|OTHER|||||||0.53||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.53
92387085|NCT03058692|184675166|OTHER|||||||0.35||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.35
92387086|NCT03058692|184675166|OTHER|||||||0.66||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.66
92387087|NCT03058692|184675167|OTHER|||||||0.86||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.86
92387088|NCT03058692|184675167|OTHER|||||||0.53||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.53
92234889|NCT04063215|184373418|OTHER||Mean Difference (Net)|-3.25||||0.23|TWO_SIDED|95.0|-8.67|2.17||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||2.17|-8.67|0.23
92417232|NCT00920907|184722369|SUPERIORITY_OR_OTHER||omnibus conditional F-test|0.4||||0.85||||||Not corrected for multiple testing|F-test|numerator 5 degrees freedom, denominator 782 degrees freedom||Time-by-process interaction. Null hypothesis that the pattern of mean ALC values over time is the same for both processes.||||0.85
92417233|NCT00920907|184722369|SUPERIORITY_OR_OTHER||F-statistic|4.35|||<|0.0001|||||||F-test|numerator 10 degrees freedom, denominator 782 degrees freedom||Overall time effect. Null hypothesis of no mean ALC changes over time in either process group (treatment arm).||||<0.0001
92417234|NCT02616601|184722377|EQUIVALENCE|If the 90% confidence interval on the percentage difference between generic fluorouracil cream and Carac (fluorouracil) cream lesion clearance were contained within the interval -0.20 to +0.20, and each of these percentages was greater than and statistically different (p\<0.05) from the vehicle cream percentage, then generic fluorouracil cream and Carac (fluorouracil) cream were considered to be therapeutically equivalent.|Mean Difference (Net)|0.04|||||TWO_SIDED|90.0|-11.03|11.11|||||90% Wald's confidence interval with a continuity correction for the difference (Generic Fluorouracil Cream - Carac \[Fluorouracil\] Cream) in complete clearance rates.|||11.11|-11.03|
92417235|NCT02616601|184722377|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92417236|NCT02616601|184722377|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92417237|NCT01555957|184722392|SUPERIORITY|||||||0.94|||||||Chi-squared|||we hypothesized that among ≥ 34 weeks GA infants with GISDs, infants receiving 1g/kg/day S-ILE (lipid minimizing strategy) would have decreased incidence of IFALD compared to those receiving 2g/kg/day S-ILE. We also hypothesized that the rate of rise of DB would be lower among ≥ 34 weeks GA infants with GISDs receiving 1g/kg/day versus 2g/kg/day of S-ILE.||||0.94
92278550|NCT00895583|184459373|SUPERIORITY_OR_OTHER||LS Mean Difference|7.7|STANDARD_ERROR_OF_MEAN|3.3||0.023|TWO_SIDED|95.0|1.1|14.3||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline serum creatinine as a covariate.||Change from randomization at Month 12||14.3|1.1|0.023
92278551|NCT00895583|184459373|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|3.4||0.955|TWO_SIDED|95.0|-6.8|6.4||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline serum creatinine as a covariate.||Change from randomization at Month 18||6.4|-6.8|0.955
92417238|NCT01555957|184722393|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|||We also hypothesized that the rate of rise of direct bilirubin would be lower among ≥ 34 weeks GA infants with GISDs receiving 1g/kg/day versus 2g/kg/day of S-ILE.||||0.0005
92417239|NCT01198158|184722403|SUPERIORITY|||||||0.739|||||||Log Rank|OS was analyzed based on an intent-to-treat approach using the stratified log-rank statistic adjusting on the stratification factors.||||||0.739
92278552|NCT00895583|184459373|SUPERIORITY_OR_OTHER||LS Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|5.8||0.582|TWO_SIDED|95.0|-8.2|14.6||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline serum creatinine as a covariate.||Change from randomization at Month 24||14.6|-8.2|0.582
92278553|NCT00895583|184459374|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||||||0.006
92278554|NCT00895583|184459375|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Post-randomization to Month 12 Post-transplantation||||1.000
92278555|NCT00895583|184459375|SUPERIORITY_OR_OTHER|||||||0.215|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Post-randomization to Month 24 post-transplantation||||0.215
92278556|NCT00895583|184459376|SUPERIORITY_OR_OTHER|||||||0.499|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 6||||0.499
92278557|NCT00895583|184459376|SUPERIORITY_OR_OTHER|||||||0.067|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 12||||0.067
92278558|NCT00895583|184459376|SUPERIORITY_OR_OTHER|||||||0.061|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 18||||0.061
92278559|NCT00895583|184459376|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 24||||0.020
92278560|NCT00895583|184459379|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||On-therapy Period||||1.000
92278561|NCT00895583|184459379|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Off-therapy Period||||1.000
92278562|NCT00895583|184459380|SUPERIORITY_OR_OTHER|||||||0.284|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Baseline||||0.284
92278563|NCT00895583|184459380|SUPERIORITY_OR_OTHER|||||||0.046|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 12||||0.046
92278564|NCT00895583|184459380|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 24||||1.000
92278565|NCT00895583|184459381|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.81|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||TC, Month 12||||<0.001
92278566|NCT00895583|184459381|SUPERIORITY_OR_OTHER||Difference in Adjusted Mean|0.61|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||TC, Month 24||||<0.001
92417240|NCT01198158|184722404|SUPERIORITY|||||||0.832|||||||Log Rank|PFS was analyzed based on an intent-to-treat approach using the stratified log-rank statistic adjusting on the stratification factors||||||0.832
92417241|NCT05478174|184722412|NON_INFERIORITY|Non inferiority margin is -8%|Risk Difference (RD)|-0.0078|||<|0.001|TWO_SIDED|95.0|-0.0411|0.0255||P-Value for non inferiority test|Farrington-Manning method|||||0.0255|-0.0411|<0.001
92417242|NCT05478174|184722413|SUPERIORITY||Risk Difference (RD)|-0.0716||||0.171|TWO_SIDED|95.0|-0.1742|0.031|||Cochran-Mantel-Haenszel|||||0.0310|-0.1742|0.171
92417243|NCT05478174|184722414|SUPERIORITY||Mean Difference (Final Values)|-1.76|STANDARD_ERROR_OF_MEAN|0.231|<|0.001|TWO_SIDED|95.0|-2.22|-1.31|||ANOVA|||||-1.31|-2.22|<0.001
92387089|NCT04255862|184675185|EQUIVALENCE|Bioequivalence (BE) was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for AUC.|Geometric Mean Ratio|103.4|||||TWO_SIDED|90.0|86.4|123.8||||||||123.8|86.4|
92169703|NCT04992390|184227912|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-9.78|||<=|0.001|TWO_SIDED|95.0|-15.06|-4.5||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for World Health Organization Disability Assessment Schedule 12-item version (WHODAS 2.0) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-4.50|-15.06|<= 0.001
92169704|NCT04992390|184227913|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|12.32|||<=|0.01|TWO_SIDED|95.0|4.61|20.04||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for 5-level European Quality of Life 5 Dimension (EQ-5D-5L) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 for EQ-5D-5L subscale comparisons and Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|20.04|4.61|<= 0.01
92234890|NCT04063215|184373419|OTHER||Mean Difference (Net)|4.73||||0.5|TWO_SIDED|95.0|-9.43|18.88||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||18.88|-9.43|0.5
92234891|NCT04063215|184373420|OTHER||Mean Difference (Net)|-9.23||||0.66|TWO_SIDED|95.0|-51.62|33.16||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||33.16|-51.62|0.66
92234892|NCT04063215|184373421|OTHER||Mean Difference (Net)|-26.19||||0.24|TWO_SIDED|95.0|-70.22|17.84||This p-value applies to data regarding 6 months Post-Infusion (Visit 6 - Week 28) compared to Infusion 1/Baseline (Visit 3 - Week 0).|Mixed Models Analysis|||Volumetric MRI measures were analyzed using general linear mixed models (GLMMs) to estimate differences across time points (pre- and post-treatment). Models will include time of assessment (baseline and 6 months after treatment) and baseline age as covariates with random intercepts for participants to account for within-participant correlation. Mean differences with 95% confidence intervals were determined for outcomes at 6 months after treatment.||17.84|-70.22|0.24
92234893|NCT04516967|184373480|SUPERIORITY|||||||0.0077|||||||Fisher Exact|||||||0.0077
92234894|NCT04516967|184373481|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92234895|NCT04516967|184373482|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92387090|NCT04255862|184675185|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for AUC.|Geometric Mean Ratio|115.0|||||TWO_SIDED|90.0|97.9|135.0||||||||135.0|97.9|
92387091|NCT04255862|184675186|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for AUC0-t.|Geometric Mean Ratio|102.8|||||TWO_SIDED|90.0|87.0|121.5||||||||121.5|87.0|
92234896|NCT04516967|184373483|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92234897|NCT04516967|184373484|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92234898|NCT04516967|184373485|SUPERIORITY|||||||0.0008|||||||Fisher Exact|||||||0.0008
92387092|NCT04255862|184675186|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for AUC0-t.|Geometric Mean Ratio|113.4|||||TWO_SIDED|90.0|97.4|131.9||||||||131.9|97.4|
92387093|NCT04255862|184675187|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for Cmax.|Geometric Mean Ratio|104.0|||||TWO_SIDED|90.0|90.3|119.7||||||||119.7|90.3|
92387094|NCT04255862|184675187|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for Cmax.|Geometric Mean Ratio|114.3|||||TWO_SIDED|90.0|99.5|131.4||||||||131.4|99.5|
92387095|NCT00555880|184675215|SUPERIORITY_OR_OTHER_LEGACY||Sign Statistic|3.0||||0.146|TWO_SIDED||||||Sign test||Sign test was performed per analysis plan.|||||0.1460
92387096|NCT00555880|184675216|SUPERIORITY_OR_OTHER_LEGACY||Sign statistic|2.5||||0.2266|TWO_SIDED||||||Sign test||Sign test was performed per analysis plan.|||||0.2266
92387097|NCT00555880|184675217|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|97.9||||0.0418|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period and treatment as fixed effects, and subject within sequence as a random effect|ANOVA||Least squares mean for treatment difference (Midodrine HCL-Placebo)|Analysis of treatment difference||||0.0418
92234899|NCT04516967|184373486|SUPERIORITY|||||||0.7175|||||||Fisher Exact|||||||0.7175
92234900|NCT04576949|184373499|SUPERIORITY||Odds Ratio (OR)|8.0|||<|0.0001|TWO_SIDED|95.0|3.94|16.25||Two-sided, calculated by exact computations with clinical site as a stratifier.|exact computations||Stratified by site|Abstinence from Week 3 to Week 6||16.25|3.94|< 0.0001
92234901|NCT04576949|184373499|SUPERIORITY||Odds Ratio (OR)|7.3|||<|0.0001|TWO_SIDED|95.0|3.92|14.38||Two-sided, derived from marginal odds ratio|Exact computations||Marginal (unadjusted) odds ratio|||14.38|3.92|<0.0001
92387098|NCT00555880|184675218|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|91.1||||0.1928|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a one-way ANOVA model|ANOVA||Least squares mean for treatment difference (Midodrine HCL-Placebo)|||||0.1928
92387099|NCT00555880|184675219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9479|TWO_SIDED|||||The P-value is from a 2-sample t-test for difference in mean|t-test, 2 sided|||||||0.9479
92387100|NCT00555880|184675220|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-5.7||||0.059|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA||Least squares mean for treatment difference (Midodrine HCl - Placebo)|Analysis of treatment||||0.0590
92387101|NCT00555880|184675221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0633|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Dizziness, Lightheadedness, and Feeling Faint-Analysis of treatment||||0.0633
92387102|NCT00555880|184675221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0191|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Problems with Vision-Analysis of treatment||||0.0191
92387103|NCT00555880|184675221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0727|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Weakness-Analysis of treatment||||0.0727
92387104|NCT00555880|184675221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.282|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Fatigue-Analysis of treatment||||0.2820
92417244|NCT01249118|184722416|SUPERIORITY_OR_OTHER||Ratio of LS Means|8.45|||||TWO_SIDED|90.0|7.08|10.08|||||The 90 percent (%) confidence intervals (CI) of test group (oral dose) means relative to reference group (IV dose) means were obtained by taking antilog of corresponding 90% CI for the differences between the means on the log scale.|Least squares (LS) mean was calculated from analysis of variance (ANOVA). Data for dose-normalized Cmax were natural log-transformed prior to analysis.||10.08|7.08|
92234902|NCT04576949|184373499|SUPERIORITY||Marginal Difference in Proportions|0.21|||<|0.0001|TWO_SIDED|95.0|0.16|0.25||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.25|0.16|<0.0001
92387105|NCT00555880|184675221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.088|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Trouble Concentrating-Analysis of treatment||||0.0880
92387106|NCT00555880|184675221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6439|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Head/Neck Discomfort-Analysis of treatment||||0.6439
92387107|NCT00555880|184675224|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0378|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Final systolic pressure-Analysis of treatment||||0.0378
92234903|NCT04576949|184373500|SUPERIORITY||Odds Ratio (OR)|6.29|||<|0.0001|TWO_SIDED|95.0|3.69|11.57||Two-sided, calculated by exact computations with clinical site as a stratifier.|exact computations||Stratified by site|Abstinence from Week 9 to Week 12||11.57|3.69|< 0.0001
92234904|NCT04576949|184373500|SUPERIORITY||Odds Ratio (OR)|6.41|||<|0.0001|TWO_SIDED|95.0|3.81|11.12||Two-sided, derived from marginal odds ratio.|Exact computations||Marginal (unadjusted) odds ratio|||11.12|3.81|<0.0001
92387108|NCT00555880|184675224|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0108|TWO_SIDED||||||ANOVA|||Final diastolic pressure-Analysis of treatment||||0.0108
92387109|NCT00555880|184675226|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|92.4||||0.0296|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA||Least squares mean for treatment difference (Midodrine HCl - Placebo)|Analysis of treatment difference||||0.0296
92387110|NCT00555880|184675231|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0342|TWO_SIDED||||||Signed Rank Test|||Analysis of treatment||||0.0342
92387111|NCT03004911|184675240|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||||||0.740
92387112|NCT03004911|184675241|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||||||0.890
92387113|NCT03004911|184675242|SUPERIORITY|||||||0.747|||||||t-test, 2 sided|||||||0.747
92234905|NCT04576949|184373500|SUPERIORITY||Marginal Difference in Proportions|0.26|||<|0.0001|TWO_SIDED|95.0|0.2|0.3||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.30|0.20|<0.0001
92234906|NCT04576949|184373501|SUPERIORITY||Odds Ratio (OR)|3.67||||0.0016|TWO_SIDED|95.0|1.5|10.24||Two-sided, calculated by exact computations with clinical site as a stratifier.|exact computations|||Abstinence from Week 6 to Week 24|Stratified by site|10.24|1.50|0.0016
92234907|NCT04576949|184373501|SUPERIORITY||Odds Ratio (OR)|3.69||||0.0015|TWO_SIDED|95.0|1.61|9.36||Two-sided, derived from marginal odds ratio.|Exact computations||Marginal (unadjusted) odds ratio|||9.36|1.61|0.0015
92234908|NCT04576949|184373501|SUPERIORITY||Marginal Difference in Proportions|0.06||||0.0015|TWO_SIDED|95.0|0.03|0.09||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.09|0.03|0.0015
92234909|NCT04576949|184373502|SUPERIORITY||Odds Ratio (OR)|5.32|||<|0.0001|TWO_SIDED|95.0|2.81|11.09||Two-sided, calculated by exact computations with clinical site as a stratifier.|exact computations||Stratified by site|Abstinence from Week 12 to Week 24||11.09|2.81|< 0.0001
92234910|NCT04576949|184373502|SUPERIORITY||Odds Ratio (OR)|5.31|||<|0.0001|TWO_SIDED|95.0|2.88|10.29||Two-sided, derived from marginal odds ratio.|Exact computations||Marginal (unadjusted) odds ratio|||10.29|2.88|<0.0001
92234911|NCT04576949|184373502|SUPERIORITY||Marginal Difference in Proportions|0.16|||<|0.0001|TWO_SIDED|95.0|0.11|0.2||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.20|0.11|<.0001
92234912|NCT04576949|184373503|SUPERIORITY||Odds Ratio (OR)|1.31||||0.3484|TWO_SIDED|95.0|0.75|2.33||Two-sided, calculated by exact computations with clinical site as a stratifier.|exact computations||Stratified by site|Relapse free from Week 6 to Week 24||2.33|0.75|0.3484
92234913|NCT04576949|184373503|SUPERIORITY||Odds Ratio (OR)|1.32||||0.3514|TWO_SIDED|95.0|0.78|2.26||Two-sided, derived from marginal odds ratio.|Exact computations||Marginal (unadjusted) odds ratio|||2.26|0.78|0.3514
92278567|NCT00895583|184459381|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.824|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||HDL-C, Month 12||||0.824
92387114|NCT03004911|184675243|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
92387115|NCT03004911|184675244|SUPERIORITY|||||||0.459|||||||t-test, 2 sided|||||||0.459
92387116|NCT02610777|184675271|SUPERIORITY||Hazard Ratio (HR)|0.861||||0.464|TWO_SIDED|95.0|0.577|1.286||P-value is from an unstratified log-rank test.|Log Rank||Hazard Ratio (HR) was based on an unstratified Cox proportional hazard regression model with treatment as a factor.|||1.286|0.577|0.464
92234914|NCT04576949|184373503|SUPERIORITY|||||||0.0317||||||p-value for homogeneity across sites|Zelen's exact test (Pr ≤ P)|||||||0.0317
92234915|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.32|0.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.46|0.32|
92234916|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.3|0.41|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.41|0.30|
92234917|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.44|0.61|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.61|0.44|
92278568|NCT00895583|184459381|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.735|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||HDL-C, Month 24||||0.735
92278569|NCT00895583|184459381|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.49|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||LDL-C, Month 12||||<0.001
92278570|NCT00895583|184459381|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.42|STANDARD_ERROR_OF_MEAN|0.13||0.001|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||LDL-C, Month 24||||0.001
92278571|NCT00895583|184459381|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.65|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||Triglycerides, Month 12||||<0.001
92278572|NCT00895583|184459381|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.37|STANDARD_ERROR_OF_MEAN|0.16||0.028|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||Triglycerides, Month 24||||0.028
92278573|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.429|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Anti-hypertensives, Baseline||||0.429
92278574|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.326|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Anti-hypertensives, Month 12||||0.326
92278575|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.517|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Anti-hypertensives, Month 24||||0.517
92278576|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agents (insulin), Baseline||||1.000
92278577|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agent (insulin), Month 12||||1.000
92278578|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.223|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agent (insulin), Month 24||||0.223
92278579|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.498|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agent (non-insulin), Baseline||||0.498
92278580|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.566|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agent (non-insulin), Month 12||||0.566
92278581|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.423|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agent (non-insulin), Month 24||||0.423
92278582|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Lipid-lowering agents, Baseline||||0.033
92278583|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Lipid-lowering agents, Month 12||||0.900
92278584|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.802|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Lipid-lowering agents, Month 24||||0.802
92278585|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||ESAs, Baseline||||0.260
92278586|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.086|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||ESAs, Month 12||||0.086
92278587|NCT00895583|184459382|SUPERIORITY_OR_OTHER|||||||0.723|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||ESAs, Month 24||||0.723
92278588|NCT00895583|184459383|SUPERIORITY_OR_OTHER||Treatment Ratio|1.71|||<|0.001|TWO_SIDED|95.0|1.38|2.11||Alpha was unadjusted.|ANCOVA|ANCOVA model with change in the logarithmic Upr/Cr as dependent variable, treatment and logarithmic pre-randomization value as covariate.||Change from pre-randomization at Month 12; treatment ratio (SRC/TAC) in adjusted geometric mean fold-change from baseline.||2.11|1.38|<0.001
92387117|NCT02610777|184675272|SUPERIORITY||Hazard Ratio (HR)|0.706|||=|0.092|TWO_SIDED|95.0|0.469|1.061||P-value comparing EFS between treatment groups was based on the unstratified log-rank test.|Log Rank||HR:unadjusted stratified Cox proportional hazard regression with stratification(low-blast AML,IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of EFS in combination arm than azacitidine arm.|Event-Free Survival (EFS)||1.061|0.469|=0.092
92387118|NCT02610777|184675275|SUPERIORITY||Hazard Ratio (HR)|0.562|||=|0.267|TWO_SIDED|95.0|0.2|1.579||P-value is from an unstratified log-rank test.|Log Rank||Hazard ratio (HR) is based on an unstratified Cox proportional hazard regression model with treatment as a factor.|||1.579|0.200|=0.267
92387119|NCT02610777|184675276|SUPERIORITY||Absolute Rate Difference|9.61|||=|0.312|TWO_SIDED|95.0|-8.83|28.04||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||28.04|-8.83|=0.312
92387120|NCT02610777|184675277|SUPERIORITY||Absolute Rate Difference|5.63||||0.56|TWO_SIDED|95.0|-13.19|24.44||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||24.44|-13.19|0.560
92387121|NCT02610777|184675278|SUPERIORITY||Absolute Rate Difference|8.64|||=|0.343|TWO_SIDED|95.0|-9.09|26.38||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||26.38|-9.09|=0.343
92387122|NCT02610777|184675279|SUPERIORITY||Absolute Rate Difference|-18.82|||=|0.296|TWO_SIDED|95.0|-52.91|15.26||P-value is from an unstratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||15.26|-52.91|=0.296
92387123|NCT02610777|184675280|SUPERIORITY||Absolute Rate Difference|13.16|||=|0.152|TWO_SIDED|95.0|-4.49|30.81||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||30.81|-4.49|=0.152
92387124|NCT02610777|184675281|SUPERIORITY||Absolute Rate Difference|10.53|||=|0.301|TWO_SIDED|95.0|-9.13|30.18||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||30.18|-9.13|=0.301
92387125|NCT02610777|184675282|SUPERIORITY||Absolute Rate Difference|13.16|||=|0.254|TWO_SIDED|95.0|-9.12|35.44||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||35.44|-9.12|=0.254
92387126|NCT02610777|184675283|SUPERIORITY||Absolute Rate Difference|-4.71|||=|0.787|TWO_SIDED|95.0|-38.33|28.92||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||28.92|-38.33|=0.787
92387127|NCT02610777|184675284|SUPERIORITY||Hazard Ratio (HR)|0.789|||=|0.62|TWO_SIDED|95.0|0.308|2.02||P-value is from an unstratified log-rank test.|Log Rank||Hazard ratio was based on an unstratified Cox proportional hazard regression model and treatment as a factor in the model.|||2.020|0.308|=0.620
92387128|NCT02610777|184675285|SUPERIORITY||Hazard Ratio (HR)|0.719|||=|0.436|TWO_SIDED|95.0|0.313|1.653||P-value is from an unstratified log-rank test.|Log Rank||Hazard ratio was based on an unstratified Cox proportional hazard regression model and treatment as a factor in the model.|||1.653|0.313|=0.436
92387129|NCT02610777|184675286|SUPERIORITY||Hazard Ratio (HR)|0.81|||=|0.565|TWO_SIDED|95.0|0.395|1.662||P-value is from an unstratified log-rank test.|Log Rank||Hazard ratio was based on an unstratified Cox proportional hazard regression model and treatment as a factor in the model.|||1.662|0.395|=0.565
92387130|NCT02610777|184675287|SUPERIORITY||Hazard Ratio (HR)|0.42|||=|0.383|TWO_SIDED|95.0|0.057|3.109||P-value comparing duration of CR in low blast AML between treatment groups is based on unstratified log-rank test.|Log Rank||Hazard ratio was based on an unstratified Cox proportional hazard regression model and treatment as a factor in the model.|||3.109|0.057|=0.383
92387131|NCT02610777|184675288|SUPERIORITY||Hazard Ratio (HR)|1.206|||=|0.498|TWO_SIDED|95.0|0.699|2.081||P-value is from an unstratified log-rank test.|Log Rank||HR is based on an unstratified Cox proportional hazard regression model with treatment as a factor. HR\>1 for the treatment indicates a shorter time to first CR, CRi or PR in the Pevonedistat Combination arm compared to the Azacitidine only arm.|||2.081|0.699|=0.498
92387132|NCT02610777|184675289|SUPERIORITY||Hazard Ratio (HR)|0.905|||=|0.888|TWO_SIDED|95.0|0.226|3.62||P-value is from an unstratified log-rank test.|Log Rank||HR is based on an unstratified Cox proportional hazard regression model with treatment as a factor. HR\<1for the treatment indicates a longer time to Subsequent Therapy in the Pevonedistat Combination arm compared to the Azacitidine only arm.|||3.620|0.226|=0.888
92387133|NCT02610777|184675290|SUPERIORITY||Absolute Rate Difference|19.231|||=|0.162|TWO_SIDED|95.0|-6.925|45.386||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Percentage of Participants With RBCs-transfusion Independence||45.386|-6.925|=0.162
92387134|NCT02610777|184675290|SUPERIORITY||Absolute Rate Difference|20.0|||=|0.454|TWO_SIDED|95.0|-26.381|66.381||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Percentage of Participants With Platelet-transfusion Independence||66.381|-26.381|=0.454
92387135|NCT02610777|184675292|SUPERIORITY||Hazard Ratio (HR)|0.79|||=|0.266|TWO_SIDED|95.0|0.521|1.198||P-value is from an unstratified log-rank test.|Log Rank||HR is based on an unstratified Cox proportional hazard regression model with treatment as a factor. HR\<1for the treatment indicates a longer time to PD, Relapse, or Death in the Pevonedistat Combination arm compared to the Azacitidine only arm.|||1.198|0.521|=0.266
92387136|NCT01724866|184675298|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.72||||0.296|TWO_SIDED|95.0|0.19|1.27|||Bootstrap method|||A 2-sided 95% confidence interval (CI) for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||1.27|0.19|0.296
92234918|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.17|0.25|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.25|0.17|
92234919|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.18|0.24|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.24|0.18|
92387137|NCT01724866|184675298|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.14||||0.002|TWO_SIDED|95.0|-0.28|0.64|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.64|-0.28|0.002
92387138|NCT01724866|184675298|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|-0.28|||<|0.001|TWO_SIDED|95.0|-0.56|-0.06|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-values was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||-0.06|-0.56|<0.001
92387139|NCT01724866|184675299|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.38||||0.001|TWO_SIDED|95.0|0.06|0.74|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.74|0.06|0.001
92387140|NCT01724866|184675299|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.04|||<|0.001|TWO_SIDED|95.0|-0.16|0.24|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.24|-0.16|<0.001
92387141|NCT01724866|184675299|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|-0.05|||<|0.001|TWO_SIDED|95.0|-0.19|0.06|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.06|-0.19|<0.001
92387142|NCT01724866|184675300|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.31||||0.002|TWO_SIDED|95.0|-0.07|0.72|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.72|-0.07|0.002
92417245|NCT01249118|184722420|SUPERIORITY_OR_OTHER||Ratio of LS Means|48.6|||||TWO_SIDED|90.0|41.43|56.94|||||The 90% CI of the test group (oral dose) means relative to the reference group (IV dose) means were obtained by taking the antilog of the corresponding 90% CI for the differences between the means on the log scale.|LS means was calculated from ANOVA. Data for dose-normalized AUC (0 - t) were natural log-transformed prior to analysis.||56.94|41.43|
92417246|NCT01249118|184722422|SUPERIORITY_OR_OTHER||Ratio of LS Means|45.9|||||TWO_SIDED|90.0|39.74|53.06|||||The 90% CI of the test group (oral dose) means relative to the reference group (IV dose) means were obtained by taking the antilog of the corresponding 90% CI for the differences between the means on the log scale.|LS mean was calculated from ANOVA. Data for dose-normalized AUC (0 - ∞) were natural log-transformed prior to analysis.||53.06|39.74|
92278589|NCT00895583|184459383|SUPERIORITY_OR_OTHER||Treatment Ratio|1.77|||<|0.001|TWO_SIDED|95.0|1.39|2.26||Alpha was unadjusted.|ANCOVA|ANCOVA model with change in the logarithmic Upr/Cr as dependent variable, treatment and logarithmic pre-randomization value as covariate.||Change from pre-randomization at Month 24; treatment ratio (SRC/TAC) in adjusted geometric mean fold-change from baseline.||2.26|1.39|<0.001
92387143|NCT01724866|184675300|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.02|||<|0.001|TWO_SIDED|95.0|-0.27|0.3|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.30|-0.27|<0.001
92387144|NCT01724866|184675300|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.01|||<|0.001|TWO_SIDED|95.0|-0.27|0.28|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.28|-0.27|<0.001
92387145|NCT01724866|184675301|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.94||||0.781|TWO_SIDED|95.0|-0.01|2.47|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||2.47|-0.01|0.781
92417247|NCT01063712|184722452|SUPERIORITY_OR_OTHER||||||<|0.01|||||||percentage|||It is not a analysis of two groups. Only one group of patients was analyzed.||||<0.01
92417248|NCT01063712|184722453|SUPERIORITY_OR_OTHER||||||<|0.01|||||||percentage|The analysis was made on the basis of the percentage of patients with completely regressed dilation.||It is a one arm clinical study. No comparison between groups was made.||||<0.01
92234920|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.31|0.41|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.41|0.31|
92278590|NCT00895583|184459384|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Pre-randomization||||1.000
92234921|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.19|0.32|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.32|0.19|
92234922|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.22|0.33|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.33|0.22|
92387146|NCT01724866|184675301|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.07|||<|0.001|TWO_SIDED|95.0|-0.17|0.38|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.38|-0.17|<0.001
92387147|NCT01724866|184675301|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|-0.02|||<|0.001|TWO_SIDED|95.0|-0.23|0.22|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.22|-0.23|<0.001
92417249|NCT00329901|184722504|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to Tdap + MenACWY-CRM was considered non-inferior to that of Tdap+saline if for all five antigens (diphtheria, tetanus, PT, FHA, PRN) the lower limit of the 95% CI of the difference \[(Tdap + MenACWY-CRM) minus(Tdap + saline)\] was greater than -10, at 1 month (Day 29) after vaccination|Vaccine Group difference|9.0|||||TWO_SIDED|95.0|5.0|14.0||||||Non-inferiority of anti-diphtheria immune response following concomitant administration of Tdap with MenACWY-CRM as compared to Tdap given with placebo saline||14|5|
92417250|NCT00329901|184722504|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to Tdap + MenACWY-CRM was considered non-inferior to that of Tdap+saline if for all five antigens (diphtheria, tetanus, PT, FHA, PRN) the lower limit of the 95% CI of the difference \[(Tdap + MenACWY-CRM) minus(Tdap + saline)\] was greater than -10, at 1 month (Day 29) after vaccination|Vaccine Group Difference|1.0|||||TWO_SIDED|95.0|-1.0|2.0||||||Non-inferiority of anti-tetanus immune response following concomitant administration of Tdap with MenACWY-CRM compared to Tdap given concomitantly with saline placebo||2|-1|
92417251|NCT00329901|184722504|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to Tdap + MenACWY-CRM was considered non-inferior to that of Tdap+saline if for all five antigens (diphtheria, tetanus, PT, FHA, PRN) the lower limit of the 95% CI of the difference \[(Tdap + MenACWY-CRM) minus (Tdap + saline)\] was greater than -10, at 1 month (Day 29) after vaccination|Vaccine Group difference|-5.0|||||TWO_SIDED|95.0|-12.0|1.0||||||Non-inferiority of anti-PT antigen immune response following concomitant administration of Tdap with MenACWY as compared to Tdap given concomitantly with saline placebo||1|-12|
92417252|NCT00329901|184722504|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to Tdap + MenACWY-CRM was considered non-inferior to that of Tdap+saline if for all five antigens (diphtheria, tetanus, PT, FHA, PRN) the lower limit of the 95% CI of the difference \[(Tdap + MenACWY-CRM) minus (Tdap + saline)\] was greater than -10, at 1 month (Day 29) after vaccination|Vaccine Group Difference|-3.0|||||TWO_SIDED|95.0|-9.0|3.0||||||Non-inferiority of anti-FHA antigen immune response following concomitant administration of Tdap with MenACWY as compared to Tdap given concomitantly with saline placebo||3|-9|
92234923|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.17|0.3|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.30|0.17|
92278591|NCT00895583|184459384|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||On-Therapy Period||||0.020
92278592|NCT00895583|184459384|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Off-Therapy Period||||0.021
92278593|NCT00895583|184459385|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Alpha is unadjusted.|Fisher Exact|||||||<0.001
92278594|NCT00895583|184459386|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||On-Therapy Period, any treatment||||<0.001
92278595|NCT00895583|184459386|SUPERIORITY_OR_OTHER|||||||0.685|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Off-Therapy Period, any treatment||||0.685
92387148|NCT01724866|184675302|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.002|TWO_SIDED|95.0|1.1|1.8|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.8|1.1|0.002
92387149|NCT01724866|184675302|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.711|TWO_SIDED|95.0|0.6|1.4|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.4|0.6|0.711
92387150|NCT01724866|184675302|SUPERIORITY||Hazard Ratio (HR)|0.3||||0.028|TWO_SIDED|95.0|0.1|0.9|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||0.9|0.1|0.028
92387151|NCT01724866|184675303|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.672|TWO_SIDED|95.0|0.8|1.4|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.4|0.8|0.672
92387152|NCT01724866|184675303|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.348|TWO_SIDED|95.0|0.5|1.3|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.3|0.5|0.348
92387153|NCT01724866|184675303|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.973|TWO_SIDED|95.0|0.4|2.9|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||2.9|0.4|0.973
92387154|NCT01724866|184675304|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.618|TWO_SIDED|95.0|0.8|1.4|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.4|0.8|0.618
92387155|NCT01724866|184675304|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.661|TWO_SIDED|95.0|0.5|1.6|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.6|0.5|0.661
92234924|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.25|0.39|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.39|0.25|
92234925|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.27|0.38|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.38|0.27|
92234926|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.44|0.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.60|0.44|
92234927|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.1|0.2|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.20|0.10|
92234928|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.17|0.25|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.25|0.17|
92417253|NCT00329901|184722504|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to Tdap + MenACWY-CRM was considered non-inferior to that of Tdap+saline if for all five antigens (diphtheria, tetanus, PT, FHA, PRN) the lower limit of the 95% CI of the difference \[(Tdap + MenACWY-CRM) minus (Tdap + saline)\] was greater than -10, at 1 month (Day 29) after vaccination|Vaccine Group Difference|-7.0|||||TWO_SIDED|95.0|-13.0|-2.0||||||Non-inferiority of anti-PRN antigen immune response following concomitant administration of Tdap with MenACWY as compared to Tdap given concomitantly with saline placebo||-2|-13|
92417254|NCT05028361|184722515|NON_INFERIORITY|One-sided non-inferiority test with the alpha level set at 0.025 and non-inferiority margin of 10%, stratified by site.|Difference in proportions|-5.6||||0.0007|TWO_SIDED|95.0|-15.2|4.0||The upper limit of the 95% CI of the difference was 4% with a noninferiority margin of 10%.|Cochran-Mantel-Haenszel|The upper bound of a site-stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting was used.||The null hypothesis is the Simultaneous group is inferior (i.e., Simultaneous group will have a higher proportion) to the Sequential group in regards to the proportion of participants with at least one moderate or severe fever, chills, myalgia, or arthralgia event after visits 1 and 2 using 10% non-inferiority margin.||4.0|-15.2|0.0007
92417255|NCT05028361|184722516|SUPERIORITY|||||||0.3851|||||||Mantel Haenszel|||||||0.3851
92417256|NCT05028361|184722517|SUPERIORITY|||||||0.2886|||||||Mantel Haenszel|||||||0.2886
92417257|NCT05028361|184722519|OTHER||Comparison of Frequencies|-0.01|||||TWO_SIDED|95.0|-1.66|1.64||The comparison in number of participants with reported SAEs regardless of relationship to study product were made using a difference in proportions along with a 95% confidence interval of the difference.||||||1.64|-1.66|
92278596|NCT00895583|184459387|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.521|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|||||||0.521
92417258|NCT01993836|184722520|OTHER||Spearman Correlation|-0.03|||||TWO_SIDED|95.0|-0.23|0.18||||||Correlation between 6-week change in Tau and continuous cognitive index||0.18|-0.23|
92417259|NCT01993836|184722520|OTHER||Spearman Correlation|-0.08|||||TWO_SIDED|95.0|-0.29|0.13||||||Correlation between 6-week change in Abeta and continuous cognitive index||0.13|-0.29|
92234929|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.09|0.16|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.16|0.09|
92234930|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.41|0.62|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.62|0.41|
92234931|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.43|0.62|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.62|0.43|
92234932|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.38|0.59|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.59|0.38|
92234933|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.6|1.0|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.00|0.60|
92417260|NCT01993836|184722520|OTHER||Spearman Correlation|0.12|||||TWO_SIDED|95.0|-0.08|0.32||||||Correlation between 6-week change in P-Tau and continuous cognitive index||0.32|-0.08|
92417261|NCT01993836|184722521|OTHER||Spearman Correlation|0.02|||||TWO_SIDED|95.0|-0.19|0.22||||||Correlation between 6-week change in Tau/Abeta ratio and continuous cognitive index||0.22|-0.19|
92417262|NCT01993836|184722521|OTHER||Spearman Correlation|0.16|||||TWO_SIDED|95.0|-0.05|0.34||||||Correlation between 6-week change in P-Tau/Abeta ratio and continuous cognitive index||0.34|-0.05|
92417263|NCT01993836|184722522|OTHER|||||||0.36|||||||t-test, 2 sided|||||||0.360
92417264|NCT01993836|184722523|OTHER|||||||0.532|||||||Wilcoxon (Mann-Whitney)|||Difference in 6-week Tau Change between anesthetic groups||||0.532
92417265|NCT01993836|184722523|OTHER|||||||0.565|||||||Wilcoxon (Mann-Whitney)|||Difference in 6-week Abeta Change between anesthetic groups||||0.565
92417266|NCT01993836|184722523|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Difference in 6-week P-Tau Change between anesthetic groups||||0.110
92417267|NCT01993836|184722524|OTHER|||||||0.439|||||||Wilcoxon (Mann-Whitney)|||Difference in 6-week Tau/Abeta ratio Change between anesthetic groups||||0.439
92417268|NCT01993836|184722524|OTHER|||||||0.082|||||||Wilcoxon (Mann-Whitney)|||Difference in 6-week P-Tau/Abeta Change between anesthetic groups||||0.082
92417269|NCT01993836|184722525|OTHER|||||||0.801|||||||Wilcoxon Signed Rank|||||||0.801
92278597|NCT00895583|184459388|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.28|STANDARD_ERROR_OF_MEAN|0.25||0.265|TWO_SIDED|||||Alpha is unadjusted.|ANCOVA||ANCOVA with treatment as a factor and baseline as a covariate.|||||0.265
92278598|NCT00895583|184459389|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|10.02|STANDARD_ERROR_OF_MEAN|23.61||0.672|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA||ANCOVA with treatment as a factor and baseline as a covariate.|||||0.672
92278599|NCT00895583|184459390|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.45|STANDARD_ERROR_OF_MEAN|0.67||0.504|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA||ANCOVA with treatment as a factor and baseline as a covariate.|||||0.504
92278600|NCT00895583|184459391|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.56|STANDARD_ERROR_OF_MEAN|1.18||0.637|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||||||0.637
92278601|NCT00895583|184459392|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.08|STANDARD_ERROR_OF_MEAN|1.48||0.955|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||||||0.955
92278602|NCT00895583|184459393|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|216.29|STANDARD_ERROR_OF_MEAN|198.84||0.279|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||||||0.279
92278603|NCT00895583|184459394|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.22|STANDARD_ERROR_OF_MEAN|0.23||0.337|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|||||||0.337
92278604|NCT00895583|184459395|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||New onset (from baseline up to On-Therapy Month 24)||||0.025
92278605|NCT00895583|184459395|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||New onset at 1 year (from baseline up to On-Therapy Month 12)||||0.012
92278606|NCT00895583|184459395|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||New onset at 2 years (from On-Therapy Month 12 to On-Therapy Month 24)||||1.000
92278607|NCT00895583|184459396|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Insulin (12-Month)||||1.000
92278608|NCT00895583|184459396|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Non-insulin (12-Month)||||1.000
92278609|NCT00895583|184459396|SUPERIORITY_OR_OTHER|||||||0.386|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Non-insulin (24-Month)||||0.386
92278610|NCT00895583|184459396|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Insulin (24-Month)||||1.000
92278611|NCT00895583|184459397|SUPERIORITY_OR_OTHER|||||||0.129|TWO_SIDED||||||Fisher Exact|||||||0.129
92278612|NCT00895583|184459398|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
92278613|NCT00895583|184459399|SUPERIORITY_OR_OTHER|||||||0.276|TWO_SIDED||||||Fisher Exact|||||||0.276
92278614|NCT00895583|184459400|SUPERIORITY_OR_OTHER|||||||0.158|TWO_SIDED||||||Fisher Exact|||||||0.158
92278615|NCT02100956|184459443|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Null hypothesis was that there was no difference in VAS pain scale scores after intrathecal study drug injection between oxytocin and placebo. To account for repeated measures across time and drug conditions, VAS apin scale scores were analyzed using a linear mixed-effects model with random intercepts at the level of participant. Each outcome was regressed on fixed-effects for order of study day, study drug, time after injection, and drug x time interaction.||||<0.05
92278616|NCT03529955|184459449|EQUIVALENCE|The student t test (paired) and ANOVA analysis of variance were used to assess the mean change in CDASI, MMT-8, DLQI and to compare the positive cell detection on immunohistochemistry for CCL5, pSTAT1 and pSTAT3 at baseline and 3 months post apremilast. All p values were two-sided, and values \<0.05 were considered statistically significant. Analyses were performed using GraphPad Prism 8 (GraphPad Software Inc.). The last observation carried forward approach was used for missing values.||||||0.01||||||The investigators hypothesized that genes identified as significantly differentially expressed between the two groups will have ≥2-fold change at p\<0.01.|ANOVA|||The student t test (paired) and ANOVA analysis of variance were used to assess the mean change in CDASI, MMT-8, DLQI and to compare the positive cell detection on immunohistochemistry for CCL5, pSTAT1 and pSTAT3 at baseline and 3 months post apremilast. All p values were two-sided, and values \<0.05 were considered statistically significant. Analyses were performed using GraphPad Prism 8 (GraphPad Software Inc.). The last observation carried forward approach was used for missing values.||||0.01
92278617|NCT04526899|184459466|SUPERIORITY|||||||0.0148|||||||1-sided exact binomial test|||||||0.0148
92278618|NCT00449072|184459513|SUPERIORITY_OR_OTHER||Difference (LS Mean)|-0.45||||0.0096|TWO_SIDED|95.0|-0.78|-0.11|||ANCOVA|The treatment arm, age group (at Visit 1) and sex were fixed effects, and baseline growth velocity was a covariate in the ANCOVA model||||-0.11|-0.78|0.0096
92278619|NCT00449072|184459514|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12||||0.7341|TWO_SIDED|95.0|-0.83|0.58|||ANCOVA||The treatment arm, sex and age group were fixed effects, and baseline value was a covariate in the ANCOVA model.|||0.58|-0.83|0.7341
92417270|NCT02514473|184722577|SUPERIORITY||Least Square (LS) Mean Difference|-1.09|||<|0.0001|TWO_SIDED|95.0|-1.43|-0.75|||MMRM|||Analysis was performed using mixed-effects model for repeated measures (MMRM). The model included treatment, visit and treatment-by-visit interaction as fixed effects; and participant as a random effect with adjustments for baseline, weight (less than \[\<\] 25 kilogram \[kg\] versus greater than or equal to \[\>=\] 25 kg) and percent predicted forced expiratory volume in 1 second (FEV1) severity (\<90 versus \>=90) at screening.||-0.75|-1.43|< 0.0001
92417271|NCT02106923|184722600|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|102.98|STANDARD_ERROR_OF_MEAN|1.014|<|0.0001|TWO_SIDED|90.0|100.505|105.514|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||105.514|100.505|<0.0001
92417272|NCT02106923|184722600|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|100.25|STANDARD_ERROR_OF_MEAN|1.021|<|0.0001|TWO_SIDED|90.0|96.809|103.823|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||103.823|96.809|<0.0001
92417273|NCT02106923|184722600|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|96.08|STANDARD_ERROR_OF_MEAN|1.016|<|0.0001|TWO_SIDED|90.0|93.507|98.721|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||98.721|93.507|<0.0001
92417274|NCT02106923|184722601|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|102.04|STANDARD_ERROR_OF_MEAN|1.06||0.0011|TWO_SIDED|90.0|92.3|112.81|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||112.81|92.30|0.0011
92234934|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.51|0.75|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.75|0.51|
92234935|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.86|1.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.46|0.86|
92417275|NCT02106923|184722601|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|98.93|STANDARD_ERROR_OF_MEAN|1.02|<|0.0001|TWO_SIDED|90.0|95.45|102.53|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||102.53|95.45|<0.0001
92417276|NCT02106923|184722601|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|101.7|STANDARD_ERROR_OF_MEAN|1.05||0.0002|TWO_SIDED|90.0|93.59|110.52|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||110.52|93.59|0.0002
92417277|NCT02106923|184722602|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|102.88|STANDARD_ERROR_OF_MEAN|1.014|<|0.0001|TWO_SIDED|90.0|100.446|105.373|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||105.373|100.446|<0.0001
92417278|NCT02106923|184722602|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|100.03|STANDARD_ERROR_OF_MEAN|1.021|<|0.0001|TWO_SIDED|90.0|96.448|103.738|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||103.738|96.448|<0.0001
92417279|NCT02106923|184722602|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|96.49|STANDARD_ERROR_OF_MEAN|1.017|<|0.0001|TWO_SIDED|90.0|93.758|99.311|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||99.311|93.758|<0.0001
92417280|NCT02106923|184722603|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|104.83|STANDARD_ERROR_OF_MEAN|1.031|<|0.0001|TWO_SIDED|90.0|99.522|110.412|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||110.412|99.522|<0.0001
92417281|NCT02106923|184722603|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|101.84|STANDARD_ERROR_OF_MEAN|1.041|<|0.0001|TWO_SIDED|90.0|95.03|109.134|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||109.134|95.030|<0.0001
92417282|NCT02106923|184722603|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|96.03|STANDARD_ERROR_OF_MEAN|1.037|<|0.0001|TWO_SIDED|90.0|90.217|102.211|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||102.211|90.217|<0.0001
92417283|NCT02106923|184722604|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|98.94|STANDARD_DEVIATION|1.071||0.0027|TWO_SIDED|90.0|87.925|111.329|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||111.329|87.925|0.0027
92417284|NCT02106923|184722604|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|108.18|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|102.792|113.859|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||113.859|102.792|<0.0001
92234936|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.41|0.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.80|0.41|
92234937|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.39|0.73|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.73|0.39|
92234938|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.78|1.67|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.67|0.78|
92234939|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.71|1.08|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.08|0.71|
92387156|NCT01724866|184675304|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.754|TWO_SIDED|95.0|0.3|2.8|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||2.8|0.3|0.754
92387157|NCT01724866|184675305|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.009|TWO_SIDED|95.0|1.1|1.7|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.7|1.1|0.009
92417285|NCT02106923|184722604|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|103.62|STANDARD_ERROR_OF_MEAN|1.071||0.006|TWO_SIDED|90.0|92.116|116.559|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||116.559|92.116|0.0060
92417286|NCT02106923|184722605|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|98.33|STANDARD_ERROR_OF_MEAN|1.06||0.0008|TWO_SIDED|90.0|89.13|108.47|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||108.47|89.13|0.0008
92417287|NCT02106923|184722605|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|98.71|STANDARD_ERROR_OF_MEAN|1.02|<|0.0001|TWO_SIDED|90.0|94.77|102.8|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||102.80|94.77|<0.0001
92417288|NCT02106923|184722605|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|103.9|STANDARD_ERROR_OF_MEAN|1.06||0.0021|TWO_SIDED|90.0|94.09|114.74|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||114.74|94.09|0.0021
92417289|NCT03485495|184722606|SUPERIORITY|||||||0.007||||||A priori threshold for statistical significance is split evenly between primary and secondary endpoints. α=0.025.|t-test, 2 sided|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.007
92417290|NCT03485495|184722607|SUPERIORITY|||||||0.0272||||||A priori threshold for statistical significance is split evenly between primary and secondary endpoints. α=0.025.|Fisher Exact|||||||0.0272
92417291|NCT03485495|184722608|SUPERIORITY|||||||0.8762|||||||t-test, 2 sided|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.8762
92234940|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.54|0.75|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.75|0.54|
92234941|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.78|1.06|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.06|0.78|
92387158|NCT01724866|184675305|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.527|TWO_SIDED|95.0|0.7|1.8|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.8|0.7|0.527
92387159|NCT01724866|184675305|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.815|TWO_SIDED|95.0|0.4|3.9|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||3.9|0.4|0.815
92387160|NCT01724866|184675306|SUPERIORITY|||||||0.008|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.008
92387161|NCT01724866|184675306|SUPERIORITY|||||||0.911|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.911
92387162|NCT01724866|184675306|SUPERIORITY|||||||0.002|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.002
92387163|NCT01724866|184675307|SUPERIORITY|||||||0.005|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.005
92387164|NCT01724866|184675307|SUPERIORITY|||||||0.633|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.633
92387165|NCT01724866|184675307|SUPERIORITY|||||||0.027|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.027
92387166|NCT01724866|184675308|SUPERIORITY|||||||0.015|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.015
92387167|NCT01724866|184675308|SUPERIORITY|||||||0.571|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.571
92417292|NCT03485495|184722609|SUPERIORITY|||||||0.2082|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.2082
92417293|NCT03485495|184722610|SUPERIORITY|||||||0.0038||||||"The p-value associated with treatment\*visit interaction between Divaza and Placebo treatment groups. Model includes cuff test status, treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to NO-3 data.||||0.0038
92417294|NCT03485495|184722610|SUPERIORITY|||||||0.0018||||||"The p-value associated with treatment\*visit interaction between Divaza and Placebo treatment groups. Model includes cuff test status, treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to NO-2 data.||||0.0018
92387168|NCT01724866|184675308|SUPERIORITY|||||||0.066|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.066
92234942|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.29|0.51|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.51|0.29|
92387169|NCT01724866|184675309|SUPERIORITY|||||||0.106|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.106
92417295|NCT03485495|184722610|SUPERIORITY|||||||0.46||||||"The p-value associated with treatment\*visit interaction between Divaza and Placebo treatment groups. Model includes cuff test status, treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to NO data.||||0.46
92417296|NCT03485495|184722611|SUPERIORITY|||||||0.88||||||"The p-value associated with treatment\*visit interaction between Divaza and Placebo treatment groups. Model includes cuff test status, treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to ADP-PA data.||||0.88
92417297|NCT03485495|184722611|SUPERIORITY|||||||0.93||||||"The p-value associated with treatment\*visit interaction between Divaza and Placebo treatment groups. Model includes cuff test status, treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to ADR-PA data.||||0.93
92417298|NCT01143701|184722692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.54|||<|0.05|TWO_SIDED|95.0|-5.89|-1.19|||Mixed Models Analysis|||Utilizing the full sample (n=577), an intent-to-treat analyses was conducted comparing patient outcomes across intervention and control groups using a three-level mixed model. Baseline ratings were entered as a covariate. Post-baseline ratings collected closest to 12-months post-baseline were entered as dependent variables.||-1.19|-5.89|<.05
92417299|NCT01143701|184722693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48|||<|0.05|TWO_SIDED|95.0|-4.71|1.75|||Mixed Models Analysis|||An intent-to-treat analyses was conducted comparing patient outcomes across intervention and control groups using a three-level mixed model. Baseline ratings were entered as a covariate. Post-baseline ratings collected closest to 12-months post-baseline were entered as dependent variables.||1.75|-4.71|<0.05
92417300|NCT01402427|184722696|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.01||||0.28|TWO_SIDED|95.0|-0.011|0.033|||Fisher Exact|||||0.033|-0.011|0.28
92417301|NCT01402427|184722697|SUPERIORITY_OR_OTHER|||||||0.11|||||||Fisher Exact|||||||0.11
92417302|NCT01402427|184722698|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92417303|NCT01402427|184722699|SUPERIORITY_OR_OTHER|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
92234943|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.39|0.56|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.56|0.39|
92387170|NCT01724866|184675309|SUPERIORITY|||||||0.156|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.156
92234944|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.53|0.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.69|0.53|
92387171|NCT01724866|184675309|SUPERIORITY|||||||0.005|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.005
92387172|NCT01724866|184675310|SUPERIORITY||Ratio|0.4|||||TWO_SIDED|95.0|0.25|0.8||||||||0.80|0.25|
92387173|NCT01724866|184675310|SUPERIORITY||Ratio|1.0|||||TWO_SIDED|95.0|0.53|2.04||||||||2.04|0.53|
92387174|NCT01724866|184675310|SUPERIORITY||Ratio|2.5|||||TWO_SIDED|95.0|1.4|4.54||||||||4.54|1.40|
92387175|NCT01724866|184675311|SUPERIORITY||Ratio|0.5|||||TWO_SIDED|95.0|0.3|0.8||||||||0.80|0.30|
92387176|NCT01724866|184675311|SUPERIORITY||Ratio|1.1|||||TWO_SIDED|95.0|0.7|1.79||||||||1.79|0.70|
92387177|NCT01724866|184675311|SUPERIORITY||Ratio|1.7|||||TWO_SIDED|95.0|1.07|2.79||||||||2.79|1.07|
92387178|NCT01724866|184675312|SUPERIORITY||Ratio|0.5|||||TWO_SIDED|95.0|0.34|0.89||||||||0.89|0.34|
92417304|NCT01402427|184722700|SUPERIORITY_OR_OTHER|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||||||0.28
92417305|NCT01402427|184722701|SUPERIORITY_OR_OTHER|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
92417306|NCT01402427|184722702|SUPERIORITY_OR_OTHER|||||||0.45|||||||Fisher Exact|||||||0.45
92417307|NCT00481507|184722709|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.82|||>|0.05|TWO_SIDED|95.0|0.54|1.43||Reply: Only one test was performed for the primary outcome. No covariates were entered into this model and p-value is unadjusted.|Chi-squared|The results obtained from the logistic regression are equivalent to the chi-square test with one degree of freedom.||Reply: The null hypothesis was the rates of diarrhea for Kefir vs. Placebo are not different. Post power calculation was not performed because the difference observed (21.9% vs. 18%) was less than a difference that which would be considered clinically important.||1.43|0.54|>.05
92417308|NCT04711837|184722728|NON_INFERIORITY|Non-inferiority margin equals to -8%|Risk Difference (RD)|-0.0057|STANDARD_ERROR_OF_MEAN|0.0246|||TWO_SIDED|95.0|-0.054|0.042||Non-inferiority margin equals to -8%: 95% CI; (-5.4%, 4.2%)|Farrington-Manning method|||||0.042|-0.054|
92417309|NCT01634191|184722745|OTHER||Geometric Mean Ratio|113.0|||||TWO_SIDED|90.0|94.2|135.0|||||Geometric mean ratio (Elderly/Young) and 90% confidence interval (CI) of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of age on the PK of apremilast after a single 30 mg dose, a 2-way analysis of variance (ANOVA) model was performed on the log-transformed AUC0-t. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||135|94.2|
92234945|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.49|0.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.69|0.49|
92234946|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.52|0.63|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.63|0.52|
92234947|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.53|0.66|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.66|0.53|
92417310|NCT01634191|184722747|OTHER||Geometric Mean Ratio|128.0|||||TWO_SIDED|90.0|107.0|154.0|||||Geometric mean ratio (Female/Male) and 90% CI of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of sex on the PK of apremilast after a single 30 mg dose, a 2-way analysis of variance (ANOVA) model was performed on the log-transformed AUC0-t. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||154|107|
92417311|NCT01634191|184722748|OTHER||Geometric Mean Ratio|113.0|||||TWO_SIDED|90.0|94.1|135.0|||||Geometric mean ratio (Elderly/Young) and 90% CI of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of age on the PK of apremilast after a single 30 mg dose, a 2-way analysis of variance (ANOVA) model was performed on the log-transformed AUC0-∞. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||135|94.1|
92417312|NCT01634191|184722749|OTHER||Geometric Mean Ratio|131.0|||||TWO_SIDED|90.0|109.0|157.0|||||Geometric mean ratio (Female/Male) and 90% CI of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of sex on the PK of apremilast after a single 30 mg dose, a 2-way ANOVA model was performed on the log-transformed AUC0-∞. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||157|109|
92234948|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.64|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.64|0.42|
92234949|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.44|0.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.60|0.44|
92417313|NCT01634191|184722750|OTHER||Geometric Mean Ratio|106.0|||||TWO_SIDED|90.0|90.5|123.0|||||Geometric mean ratio (Elderly/Young) and 90% CI of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of age on the PK of apremilast after a single 30 mg dose, a 2-way analysis of ANOVA model was performed on the log-transformed Cmax. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||123|90.5|
92234950|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.63|0.88|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.88|0.63|
92234951|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.15|0.26|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.26|0.15|
92234952|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.23|0.35|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.35|0.23|
92234953|NCT01025336|184373532|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.28|0.43|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.43|0.28|
92234954|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.56|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.56|0.42|
92387179|NCT01724866|184675312|SUPERIORITY||Ratio|1.1|||||TWO_SIDED|95.0|0.71|1.85||||||||1.85|0.71|
92387180|NCT01724866|184675312|SUPERIORITY||Ratio|1.6|||||TWO_SIDED|95.0|0.97|2.49||||||||2.49|0.97|
92387181|NCT01724866|184675313|SUPERIORITY||Ratio|0.7|||||TWO_SIDED|95.0|0.4|1.1||||||||1.10|0.40|
92387182|NCT01724866|184675313|SUPERIORITY||Ratio|1.4|||||TWO_SIDED|95.0|0.87|2.38||||||||2.38|0.87|
92387183|NCT01724866|184675313|SUPERIORITY||Ratio|1.9|||||TWO_SIDED|95.0|1.23|2.96||||||||2.96|1.23|
92417314|NCT01634191|184722751|OTHER||Geometric Mean Ratio|108.0|||||TWO_SIDED|90.0|92.3|126.0|||||Geometric mean ratio (Female/Male) and 90% CI of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of sex on the PK of apremilast after a single 30 mg dose, a 2-way ANOVA model was performed on the log-transformed Cmax. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||126|92.3|
92417315|NCT01634191|184722752|OTHER||Median Difference|0.5||||0.153|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon rank-sum test||Median difference (Elderly - Young) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||2.00|0.000|0.153
92417316|NCT01634191|184722753|OTHER||Median Difference|0.5||||0.169|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon rank-sum test||Median difference (Female - Male) and 90% CI of the difference calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||2.00|0.000|0.169
92417317|NCT01252732|184722780|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test is a one sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% CI for the difference in response rates in the mITT population is greater than -10% the NI of oritavancin to vancomycin is concluded.|Difference in Proportions|-2.7|||||TWO_SIDED|95.0|-7.5|2.0||||||||2.0|-7.5|
92417318|NCT01252732|184722781|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test is a one sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% CI for the difference in response rates in the mITT population is greater than -10% the NI of oritavancin to vancomycin is concluded.|Difference in Proportions|2.2|||||TWO_SIDED|95.0|-2.6|7.0||||||||7.0|-2.6|
92278620|NCT00449072|184459515|SUPERIORITY_OR_OTHER||LS Mean Differerence|-0.15||||0.1963|TWO_SIDED|95.0|-0.37|0.08|||ANCOVA||The treatment arm, sex and age group were fixed effects, and baseline value was a covariate in the ANCOVA model.|Change in nasal stuffiness||0.08|-0.37|0.1963
92387184|NCT01724866|184675318|SUPERIORITY||Percent Difference|2.1||||1|TWO_SIDED|95.0|-20.2|24.9|||Fisher Exact|||||24.9|-20.2|1.000
92387185|NCT01724866|184675318|SUPERIORITY||Percent Difference|-2.8||||1|TWO_SIDED|95.0|-26.7|21.4|||Fisher Exact|||||21.4|-26.7|1.000
92387186|NCT01724866|184675318|SUPERIORITY||Percent Difference|-2.8||||1|TWO_SIDED|95.0|-26.7|21.4|||Fisher Exact|||||21.4|-26.7|1.000
92387187|NCT01724866|184675320|SUPERIORITY||Percent Difference|-6.2||||0.469|TWO_SIDED|95.0|-28.5|16.9|||Fisher Exact|||||16.9|-28.5|0.469
92387188|NCT01724866|184675320|SUPERIORITY||Percent Difference|-5.6||||0.71|TWO_SIDED|95.0|-29.3|18.7|||Fisher Exact|||||18.7|-29.3|0.710
92387189|NCT01724866|184675320|SUPERIORITY||Percent Difference|-11.1||||0.199|TWO_SIDED|95.0|-34.6|13.3|||Fisher Exact|||||13.3|-34.6|0.199
92387190|NCT01340586|184675330|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.787|||||TWO_SIDED|90.0|0.616|1.006||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over Normal Renal Function||1.006|0.616|
92387191|NCT01340586|184675330|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.904|||||TWO_SIDED|90.0|0.697|1.173||||||Geometric Mean Ratio: ESRD Dose after hemodialysis over Normal Renal Function||1.173|0.697|
92387192|NCT01340586|184675330|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.871|||||TWO_SIDED|90.0|0.723|1.049||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over ESRD Dose after hemodialysis||1.049|0.723|
92387193|NCT01340586|184675332|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.187|||||TWO_SIDED|90.0|0.907|1.553||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over Normal Renal Function||1.553|0.907|
92387194|NCT01340586|184675332|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.389|||||TWO_SIDED|90.0|1.097|1.758||||||Geometric Mean Ratio: ESRD Dose after hemodialysis over Normal Renal Function||1.758|1.097|
92387195|NCT01340586|184675332|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.855|||||TWO_SIDED|90.0|0.707|1.033||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over ESRD Dose after hemodialysis||1.033|0.707|
92387196|NCT01340586|184675334|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.165|||||TWO_SIDED|90.0|0.88|1.543||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over Normal Renal Function||1.543|0.880|
92387197|NCT01340586|184675334|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.357|||||TWO_SIDED|90.0|1.066|1.728||||||Geometric Mean Ratio: ESRD Dose after hemodialysis over Normal Renal Function||1.728|1.066|
92387198|NCT01340586|184675334|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.858|||||TWO_SIDED|90.0|0.707|1.042||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over ESRD Dose after hemodialysis||1.042|0.707|
92387199|NCT01173601|184675359|SUPERIORITY_OR_OTHER|||||||0.338||||||In order to test the primary outcome between each LY2216684 dose and placebo while controlling the overall Type I error at 0.05, the significance level was a priori partitioned equally between the 2 LY2216684 dose-placebo comparisons at 0.025.|Mixed Models Analysis|||||||0.338
92387200|NCT01173601|184675359|SUPERIORITY_OR_OTHER|||||||0.201||||||In order to test the primary outcome between each LY2216684 dose and placebo while controlling the overall Type I error at 0.05, the significance level was a priori partitioned equally between the 2 LY2216684 dose-placebo comparisons at 0.025.|Mixed Models Analysis|||||||0.201
92387201|NCT04737278|184675380|OTHER|test of the hypothesis that the score on day 28 is different from the baseline score in the Placebo group|||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92387202|NCT04737278|184675380|OTHER|||||||0.01|||||||t-test, 2 sided|||test of the hypothesis that the score on day 28 is different than the baseline score||||0.01
92387203|NCT04737278|184675381|OTHER|||||||0.15|||||||t-test, 2 sided|||Day 28. Between group comparison was made using ANCOVA accounting for baseline values, no significance at p\<0.05. Within group comparisons were made using the paired Student's t test.||||0.15
92387204|NCT04737278|184675382|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
92387205|NCT04737278|184675382|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||comparison made between placebo and Cunermuspir at baseline||||0.03
92234955|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.56|0.72|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.72|0.56|
92387206|NCT04737278|184675382|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||comparison made at day 28||||0.01
92387207|NCT04737278|184675382|OTHER|||||||0.07|||||||t-test, 2 sided|||comparison between baseline and day 28||||0.07
92278621|NCT00449072|184459515|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.7193|TWO_SIDED|95.0|-0.24|0.17|||ANCOVA||The treatment arm, sex and age group were fixed effects, and baseline value was a covariate in the ANCOVA model.|Change in Nasal Discharge||0.17|-0.24|0.7193
92387208|NCT04737278|184675383|OTHER|||||||0.54|||||||Fisher Exact|||base line between group comparisons||||0.54
92387209|NCT04737278|184675383|OTHER|||||||0.14|||||||Fisher Exact|||||||0.14
92417319|NCT01252732|184722782|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test is a one sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% CI for the difference in response rates in the mITT population is greater than -10% the NI of oritavancin to vancomycin is concluded.|Difference in Proportions|0.6|||||TWO_SIDED|95.0|-3.7|5.0||||||||5.0|-3.7|
92417320|NCT03274999|184722783|SUPERIORITY|||||||0.156||||||Eye-opening, T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.156
92278622|NCT00449072|184459515|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.402|TWO_SIDED|95.0|-0.12|0.29|||ANCOVA||The treatment arm, sex and age group were fixed effects, and baseline value was a covariate in the ANCOVA model.|Change in Sneezing||0.29|-0.12|0.4020
92278623|NCT00449072|184459515|SUPERIORITY_OR_OTHER||LS mean Difference|-0.02||||0.8854|TWO_SIDED|95.0|-0.23|0.2|||ANCOVA||The treatment arm, sex and age group were fixed effects, and baseline value was a covariate in the ANCOVA model.|Change in Nasal Itching||0.20|-0.23|0.8854
92278624|NCT00449072|184459516|SUPERIORITY_OR_OTHER|||||||0.0951||95.0|||||Mixed model for repeated measures|The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.||Statistical Analysis for Day 120||||0.0951
92387210|NCT04737278|184675384|OTHER|||||||0.54|||||||ANCOVA|||||||0.54
92387211|NCT04737278|184675385|OTHER||||||<|0.01|||||||ANCOVA|||The original report from KGK Synergize/Science did not specify if the results are ANCOVA or a between group comparison at 2ay 28||||<0.01
92387212|NCT04737278|184675386|OTHER|||||||0.31|||||||ANCOVA|||||||0.31
92387213|NCT04737278|184675387|OTHER|||||||0.48|||||||ANCOVA|||||||0.48
92387214|NCT04737278|184675388|OTHER|||||||0.84|||||||ANCOVA|||||||0.84
92387215|NCT04737278|184675389|OTHER|||||||0.63|||||||ANCOVA|||||||0.63
92387216|NCT04737278|184675390|OTHER|||||||0.05|||||||ANCOVA|||||||0.05
92387217|NCT04737278|184675391|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
92387218|NCT04737278|184675392|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
92387219|NCT04737278|184675393|OTHER|||||||0.48|||||||ANCOVA|||||||0.48
92387220|NCT04737278|184675394|OTHER|||||||0.06|||||||ANCOVA|||||||0.06
92387221|NCT04737278|184675395|OTHER|||||||0.02|||||||ANCOVA|||||||0.02
92387222|NCT04737278|184675396|OTHER|||||||0.03|||||||ANCOVA|||||||0.03
92387223|NCT04737278|184675396|OTHER|||||||0.05|||||||t-test, 2 sided|||comparison of neutrophils from baseline to day 28||||0.05
92387224|NCT04737278|184675397|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
92387225|NCT04737278|184675398|OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||comparison of baseline values||||0.47
92387226|NCT04737278|184675398|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||comparison performed on data from day 28||||0.24
92387227|NCT04737278|184675399|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||comparison of eosinophil counts at day 28||||0.11
92387228|NCT04737278|184675400|OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||The day 28 basophil counts on day 28 were compared between the two arms of this study.||||0.98
92387229|NCT04737278|184675401|OTHER|||||||0.025||||||This p value is for the treatment source. Visits (p=0.422) and visits x treatments (p=0.153) did not meet the threshold of significance.|ANOVA|||"All other statistical analyses were performed by KGK Synergize. This site was used to determine that the NLR were normally distributed https://www.gigacalculator.com/calculators/normality-test-calculator.php~Because these data fulfilled the assumptions of ANOVA, the data were analyzed using this site:~http://vassarstats.net/anova2u.html"||||0.025
92387230|NCT04737278|184675402|OTHER|||||||0.06|||||||t-test, 2 sided|||Comparison of blood glucose in the Cunermuspir arm between enrollment baseline and day 28.||||0.06
92387231|NCT04737278|184675402|OTHER|||||||0.04|||||||t-test, 2 sided|||Comparison of enrollment baseline blood glucose and day 28 in the placebo arm||||0.04
92387232|NCT04737278|184675402|OTHER|||||||0.92|||||||ANCOVA|||||||0.92
92387233|NCT04737278|184675403|OTHER|||||||0.51|||||||ANCOVA|||||||0.51
92387234|NCT04737278|184675404|OTHER|||||||0.38|||||||ANCOVA|||||||0.38
92387235|NCT04737278|184675405|OTHER|||||||0.01|||||||ANCOVA|||||||0.01
92387236|NCT04737278|184675406|OTHER|||||||0.23|||||||ANCOVA|||||||0.23
92387237|NCT04737278|184675406|OTHER|||||||0.18|||||||t-test, 2 sided|||||||0.18
92387238|NCT04737278|184675406|OTHER|||||||0.01|||||||t-test, 2 sided|||Blood sodium concentration between baseline and day 28 in the Placebo group.||||0.01
92387239|NCT04737278|184675407|OTHER|||||||0.58|||||||ANCOVA|||||||0.58
92387240|NCT04737278|184675407|OTHER||||||<|0.001|||||||t-test, 2 sided|||comparison of blood potassium concentration upon enrollment and day 28 in the Cunermuspir participants||||<0.001
92387241|NCT04737278|184675407|OTHER||||||<|0.001|||||||t-test, 2 sided|||comparison of blood potassium concentrations from enrollment to day 28 in participants in the Placebo arm.||||<0.001
92387242|NCT04737278|184675408|OTHER|||||||0.87|||||||ANCOVA|||||||0.87
92387243|NCT04737278|184675408|OTHER|||||||0.003|||||||t-test, 2 sided|||comparison between baseline and day 28 chloride concentrations in the Cunermuspir group||||0.003
92387244|NCT04737278|184675408|OTHER|||||||0.003|||||||t-test, 2 sided|||comparison of blood chloride concentrations between baseline and day 28 in Placebo Arm participants||||0.003
92234956|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.35|0.45|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.45|0.35|
92387245|NCT04737278|184675409|OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||Bilirubin concentrations between Placebo and Cunermuspir compared at day 28||||0.36
92387246|NCT04737278|184675409|OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Signed-Rank||comparison of bilirubin concentrations between baseline and day 28 in the Cunermuspir Arm||||0.72
92387247|NCT04737278|184675409|OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||bilirubin concentrations compared between baseline and Day 28 in the Placebo Arm||||0.35
92417321|NCT03274999|184722783|SUPERIORITY|||||||0.395||||||Eye-opening, T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.395
92417322|NCT03274999|184722783|SUPERIORITY|||||||0.114||||||Eye-opening, T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.114
92417323|NCT03274999|184722783|SUPERIORITY|||||||0.211||||||Eye-opening, T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.211
92417324|NCT03274999|184722783|SUPERIORITY|||||||0.332||||||Eye-opening, T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.332
92417325|NCT03274999|184722783|SUPERIORITY|||||||0.318||||||Eye-opening, T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.318
92171770|NCT04994509|184233178|SUPERIORITY||Rate Ratio|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.042||p-value for rate ratio vs bHIV is from likelihood ratio test.|Likelihood ratio test||CI for rate ratio vs bHIV is based on a likelihood-based method.|Null Hypothesis 02: LEN/bHIV\>= 0.8; Null hypothesis was to be rejected if HIV-1 incidence in LEN was significantly and at least 20% lower than bHIV.||0.042|0.000|<0.0001
92234957|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.44|0.57|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.57|0.44|
92387248|NCT04737278|184675410|OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92387249|NCT04737278|184675410|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||comparison between baseline and day 28 values in Cunermuspir group||||0.4
92387250|NCT04737278|184675410|OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||comparison between baseline and day 28 values for the Placebo Arm||||0.8
92387251|NCT04737278|184675411|OTHER|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||comparison of AST enzyme activity in blood on day 28 between Cunermuspir and Placebo||||0.62
92387252|NCT04737278|184675411|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||baseline to day 28 comparison||||0.24
92387253|NCT04737278|184675411|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||baseline to day 28 comparison of AST activity in Placebo group||||0.11
92387254|NCT04737278|184675412|OTHER|||||||0.11||||||Comparison of GGT activities in blood of two arms: Cunermuspir and Placebo on Day 28|Wilcoxon (Mann-Whitney)|||comparison between placebo and Cunermuspir at day 28||||0.11
92387255|NCT04737278|184675412|OTHER|||||||0.01|||||||Wilcoxon Signed Rank|||Comparison of GGT activities in participants' blood at baseline and on day 28||||0.01
92387256|NCT04737278|184675412|OTHER|||||||0.97|||||||Wilcoxon Signed-Rank|||Comparison of GGT activity in blood between Placebo Arm participants at baseline and on day 28||||0.97
92387257|NCT04737278|184675413|OTHER|||||||0.03|||||||ANCOVA|||Between group comparisons were made using ANCOVA||||0.03
92387258|NCT04737278|184675413|OTHER|||||||0.1|||||||t-test, 2 sided|||comparison of baseline with day 28||||0.10
92387259|NCT04737278|184675413|OTHER|||||||0.89|||||||t-test, 2 sided|||comparison between baseline and day 28 serum copper concentrations in the Placebo Arm||||0.89
92387260|NCT03671213|184675414|SUPERIORITY|Non-inferiority is demonstrated if the 90% LB \> -10.0%. If non-inferiority was met, superiority could be tested. Superiority is demonstrated if 97.5% LB \> 0.0%.||||||||||||||||For missing data in both Arms/Groups, multiple imputation was performed for the primary CCS analysis|Device group differences and two-sided 90% and 97.5% confidence interval lower bounds (LB) adjusting for propensity score (PS) subclass based on PS subclass weights (ATT). Non-inferiority is demonstrated if the 90% LB \> -10.0%. Superiority is demonstrated if 97.5% LB \> 0.0%. Two-sided 97.5% LB is evaluated rather than two-sided 95.0% LB since the superiority type 1 error is split between testing superiority in terms of Month 24 CCS and then separately for a set of superiority secondary endpoints with type 1 error control maintained through the use of Hochberg approach (following demonstration of non-inferiority).|||
92387261|NCT03223337|184675423|OTHER||Ratio of Geometric Least Square(LS) Mean|1.9973|||||TWO_SIDED|90.0|1.1063|3.6057|||||Ratio of Geometric LS Mean for GSK1278863 (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||3.6057|1.1063|
92387262|NCT03223337|184675423|OTHER||Ratio of Geometric LS Mean|1.6471|||||TWO_SIDED|90.0|1.1267|2.4079|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.4079|1.1267|
92417326|NCT03274999|184722783|SUPERIORITY|||||||0.375||||||Eye-opening, T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.375
92171771|NCT04994509|184233178|SUPERIORITY||Rate Ratio|0.839||||0.20697|TWO_SIDED|95.0|0.55|1.279||p-value for rate ratio vs bHIV is from Wald test.|Wald test||CI for rate ratio vs bHIV is based on the delta method.|Null Hypothesis 03: F/TAF/bHIV\>= 1; Null hypothesis was to be rejected if HIV-1 incidence in F/TAF was significantly lower than bHIV.||1.279|0.550|0.20697
92234958|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.6|0.85|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.85|0.60|
92278625|NCT00449072|184459516|SUPERIORITY_OR_OTHER|||||||0.1247||95.0|||||Mixed model for repeated measures|The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.||Statistical analysis for Day 240||||0.1247
92387263|NCT03223337|184675423|OTHER||Ratio of Geometric LS Mean|1.6404|||||TWO_SIDED|90.0|1.0744|2.5048|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.5048|1.0744|
92234959|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.63|0.97|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.97|0.63|
92234960|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.81|1.08|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.08|0.81|
92234961|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.74|0.99|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.99|0.74|
92234962|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.19|0.29|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.29|0.19|
92234963|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.19|0.29|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations|Serotype 6A: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.29|0.19|
92234964|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.31|0.45|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.45|0.31|
92234965|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.4|0.59|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.59|0.40|
92234966|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.58|0.96|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations|Serotype 7F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.96|0.58|
92234967|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.67|1.13|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.13|0.67|
92234968|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.37|0.67|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.67|0.37|
92234969|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.57|1.12|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.12|0.57|
92234970|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.85|1.09|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.09|0.85|
92278626|NCT00449072|184459516|SUPERIORITY_OR_OTHER|||||||0.0207||95.0|||||Mixed model for repeated measures|The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.||Statistical analysis for Day 360||||0.0207
92278627|NCT00449072|184459517|SUPERIORITY_OR_OTHER|||||||0.2445||95.0|||||Mixed model for repeated measures|The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.||Statistical Analysis for Day 120||||0.2445
92278628|NCT00449072|184459517|SUPERIORITY_OR_OTHER|||||||0.4488||95.0|||||Mixed model for repeated measures|The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.||Statistical Analysis for Day 240||||0.4488
92278629|NCT00449072|184459517|SUPERIORITY_OR_OTHER|||||||0.0142||95.0||||The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.|Mixed model for repeated measures|||Statistical Analysis for Day 360||||0.0142
92278630|NCT03433274|184459552|OTHER|||||||0.0002|||||||one-sided 2.5% level of significance|||"The null and alternative hypotheses are:~H0: πD ≤ πPG H1: πD \> πPG where πD is the true event rate for freedom from all-cause mortality and HFH at 12 months and πPG is the performance goal (PG)."||||0.0002
92278631|NCT03433274|184459553|OTHER||||||<|0.0001|||||||Exact Binomial test|at a one-sided 2.5% level of significance||"The null and alternative hypotheses are stated as:~H0: PMR ≤ 1+ ≤ PPG H1: P MR ≤ 1+ \> PPG where PMR ≤ 1+ is the proportion of subjects who have MR ≤ 1+ at 30 days post index procedure."||||<0.0001
92234971|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.04|1.43|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.43|1.04|
92234972|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.48|0.62|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.62|0.48|
92234973|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.59|0.83|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.83|0.59|
92234974|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.57|0.72|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.72|0.57|
92234975|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.65|0.79|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.79|0.65|
92234976|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.66|0.93|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.93|0.66|
92234977|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.75|1.05|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.05|0.75|
92234978|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.27|0.37|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations|Serotype 23F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.37|0.27|
92387264|NCT03223337|184675423|OTHER||Ratio of Geometric LS Mean|1.4931|||||TWO_SIDED|90.0|1.0876|2.0498|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.0498|1.0876|
92234979|NCT01025336|184373533|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.34|0.48|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.48|0.34|
92234980|NCT01025336|184373534|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.85|1.22|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.22|0.85|
92234981|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.79|1.02|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.02|0.79|
92234982|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.69|0.9|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.90|0.69|
92234983|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.82|1.1|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.10|0.82|
92278632|NCT03433274|184459554|OTHER||||||<|0.0001|||||||Paired t-test|at a one-sided 2.5% level of significance||"The null and alternative hypotheses are:~H0: D12M ≤ 0 H1: D12M \> 0 Where D12M is the average change in KCCQ score from baseline at 12 months."||||<0.0001
92387265|NCT03223337|184675423|OTHER||Ratio of Geometric LS Mean|1.6222|||||TWO_SIDED|90.0|1.1594|2.2696|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.2696|1.1594|
92387266|NCT03223337|184675423|OTHER||Ratio of Geometric LS Mean|1.3145|||||TWO_SIDED|90.0|0.9896|1.7462|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.7462|0.9896|
92417327|NCT03274999|184722783|SUPERIORITY|||||||0.352||||||Eye-opening, T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.352
92234984|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.98|1.32|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.32|0.98|
92387267|NCT03223337|184675424|OTHER||Ratio of Geometric LS Mean|1.4574|||||TWO_SIDED|90.0|1.035|2.0523|||||Ratio of Geometric LS Mean for GSK1278863 (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.0523|1.0350|
92234985|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.62|0.81|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.81|0.62|
92387268|NCT03223337|184675424|OTHER||Ratio of Geometric LS Mean|1.9375|||||TWO_SIDED|90.0|1.3919|2.6968|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.6968|1.3919|
92387269|NCT03223337|184675424|OTHER||Ratio of Geometric LS Mean|1.8312|||||TWO_SIDED|90.0|1.3342|2.5133|||||Ratio of Geometric LS Mean for GSK2506104 (M3) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.5133|1.3342|
92417328|NCT03274999|184722783|SUPERIORITY|||||||0.312||||||Eye-opening, T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.312
92417329|NCT03274999|184722783|SUPERIORITY|||||||0.134||||||Pre-blink, T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.134
92417330|NCT03274999|184722783|SUPERIORITY|||||||0.315||||||Pre-blink, T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.315
92417331|NCT03274999|184722783|SUPERIORITY|||||||0.071||||||Pre-blink, T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.071
92417332|NCT03274999|184722783|SUPERIORITY|||||||0.26||||||Pre-blink, T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.260
92417333|NCT03274999|184722783|SUPERIORITY|||||||0.264||||||Pre-blink, T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.264
92387270|NCT03223337|184675424|OTHER||Ratio of Geometric LS Mean|2.003|||||TWO_SIDED|90.0|1.4654|2.7378|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.7378|1.4654|
92387271|NCT03223337|184675424|OTHER||Ratio of Geometric LS Mean|1.7113|||||TWO_SIDED|90.0|1.2818|2.2847|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.2847|1.2818|
92387272|NCT03223337|184675424|OTHER||Ratio of Geometric LS Mean|1.974|||||TWO_SIDED|90.0|1.5365|2.536|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.5360|1.5365|
92387273|NCT03223337|184675424|OTHER||Ratio of Geometric LS Mean|1.4603|||||TWO_SIDED|90.0|0.9081|2.3484|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.3484|0.9081|
92387274|NCT03223337|184675427|OTHER||Ratio of Geometric LS Mean|1.9973|||||TWO_SIDED|90.0|1.1061|3.6066|||||Ratio of Geometric LS Mean for GSK1278863 (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||3.6066|1.1061|
92387275|NCT03223337|184675427|OTHER||Ratio of Geometric LS Mean|1.6509|||||TWO_SIDED|90.0|1.1285|2.415|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.4150|1.1285|
92387276|NCT03223337|184675427|OTHER||Ratio of Geometric LS Mean|1.6421|||||TWO_SIDED|90.0|1.0732|2.5125|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.5125|1.0732|
92387277|NCT03223337|184675427|OTHER||Ratio of Geometric LS Mean|1.5169|||||TWO_SIDED|90.0|1.0994|2.093|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.0930|1.0994|
92387278|NCT03223337|184675427|OTHER||Ratio of Geometric LS Mean|1.624|||||TWO_SIDED|90.0|1.1599|2.2736|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.2736|1.1599|
92387279|NCT03223337|184675427|OTHER||Ratio of Geometric LS Mean|1.3143|||||TWO_SIDED|90.0|0.9887|1.747|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.7470|0.9887|
92387280|NCT03223337|184675428|OTHER||Ratio of Geometric LS Mean|1.4566|||||TWO_SIDED|90.0|1.0344|2.0513|||||Ratio of Geometric LS Mean for GSK1278863 (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.0513|1.0344|
92417334|NCT03274999|184722783|SUPERIORITY|||||||0.381||||||Pre-blink, T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.381
92417335|NCT03274999|184722783|SUPERIORITY|||||||0.249||||||Pre-blink, T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.249
92417336|NCT03274999|184722783|SUPERIORITY|||||||0.451||||||Pre-blink, T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.451
92417337|NCT03274999|184722783|SUPERIORITY|||||||0.393||||||Pre-blink, T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.393
92417338|NCT03274999|184722784|SUPERIORITY|||||||0.006||||||Eye-opening, T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.006
92417339|NCT03274999|184722784|SUPERIORITY|||||||0.063||||||Eye-opening, T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.063
92278633|NCT03433274|184459555|OTHER||||||<|0.0001|||||||McNemar|at a two-sided 5% level of significance||"The null and alternative hypotheses are stated as:~H0: PM12 = PB H1: PM12 ≠ PB where PM12 and PB represent the proportion of NYHA Classification I or II at 12 months and baseline, respectively."||||<0.0001
92417340|NCT03274999|184722784|SUPERIORITY|||||||0.005||||||Eye-opening, T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.005
92417341|NCT03274999|184722784|SUPERIORITY|||||||0.089||||||Eye-opening, T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.089
92417342|NCT03274999|184722784|SUPERIORITY|||||||0.112||||||Eye-opening, T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.112
92417343|NCT03274999|184722784|SUPERIORITY|||||||0.16||||||Eye-opening, T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.16
92417344|NCT03274999|184722784|SUPERIORITY|||||||0.077||||||Eye-opening, T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.077
92417345|NCT03274999|184722784|SUPERIORITY|||||||0.157||||||Eye-opening, T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.157
92417346|NCT03274999|184722784|SUPERIORITY|||||||0.111||||||Eye-opening, T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.111
92417347|NCT03274999|184722784|SUPERIORITY|||||||0.04||||||Pre-blink, T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.040
92417348|NCT03274999|184722784|SUPERIORITY|||||||0.241||||||Pre-blink, T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.241
92278634|NCT03433274|184459556|OTHER|||||||0.0338|||||||paired t-test|at a one-sided 2.5% significance level||"The null and alternative hypotheses are:~H0: D12M ≤ 0 H1: D12M \> 0 Where D12M is the average change in 6MWT distance from baseline at 12 months."||||0.0338
92278635|NCT04969939|184459585|SUPERIORITY||Treatment difference (%-point)|-2.15||||0.0437|TWO_SIDED|95.0|-4.24|-0.06|||ANCOVA|||Week 48 responses were analysed using an analysis of covariance model with randomised treatment as factors and baseline body weight (kg) as covariate.||-0.06|-4.24|0.0437
92417349|NCT03274999|184722784|SUPERIORITY|||||||0.284||||||Pre-blink, T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.284
92417350|NCT03274999|184722784|SUPERIORITY|||||||0.313||||||Pre-blink, T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.313
92417351|NCT03274999|184722784|SUPERIORITY|||||||0.433||||||Pre-blink, T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.433
92417352|NCT03274999|184722784|SUPERIORITY|||||||0.406||||||Pre-blink, T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.406
92234986|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.41|0.69|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.69|0.41|
92278636|NCT02667067|184459650|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
92417353|NCT03274999|184722784|SUPERIORITY|||||||0.318||||||Pre-blink, T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.318
92417354|NCT03274999|184722784|SUPERIORITY|||||||0.499||||||Pre-blink, T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.499
92417355|NCT03274999|184722784|SUPERIORITY|||||||0.39||||||Pre-blink, T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.390
92417356|NCT03274999|184722785|SUPERIORITY|||||||0.053||||||T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.053
92417357|NCT03274999|184722785|SUPERIORITY|||||||0.206||||||T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.206
92278637|NCT01149616|184459745|SUPERIORITY|||||||0.007|||||||ANOVA|||||||0.007
92278638|NCT01149616|184459746|SUPERIORITY|||||||0.006|||||||ANOVA|||||||0.006
92278639|NCT01149616|184459747|SUPERIORITY|||||||0.05||||||P value was calculated, and threshold for significance calculated at less than or equal to 0.05|ANOVA|||||||0.05
92278640|NCT04128696|184459800|SUPERIORITY||Hazard Ratio (HR)|1.51||||0.973|TWO_SIDED|95.0|0.99|2.29||Nominal p-value was calculated based on the one-sided log-rank test, stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||2.29|0.99|0.973
92278641|NCT04128696|184459801|SUPERIORITY||Hazard Ratio (HR)|4.44|||>|0.999|TWO_SIDED|95.0|2.01|9.82||Nominal p-value was calculated based on the one-sided log-rank test, stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||9.82|2.01|>0.999
92278642|NCT04128696|184459802|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.989|TWO_SIDED|95.0|1.05|1.86||Nominal p-value was calculated based on the log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||1.86|1.05|0.989
92278643|NCT04128696|184459803|SUPERIORITY||Hazard Ratio (HR)|1.48||||0.996|TWO_SIDED|95.0|1.1|1.99||Nominal p-value was calculated based on the log-rank test, stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the cox regression model with Efron's method of tie handling, a treatment covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx)||1.99|1.10|0.996
92278644|NCT04128696|184459804|SUPERIORITY||Hazard Ratio (HR)|1.55|||||TWO_SIDED|95.0|0.98|2.43|||Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx)||2.43|0.98|
92278645|NCT04128696|184459805|SUPERIORITY||Hazard Ratio (HR)|1.59|||||TWO_SIDED|95.0|1.0|2.53|||Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||2.53|1.00|
92278646|NCT04128696|184459810|OTHER||Difference in Percentage|-5.3|||||TWO_SIDED|95.0|-14.6|4.0||||||The comparison between the treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||4.0|-14.6|
92417358|NCT03274999|184722785|SUPERIORITY|||||||0.221||||||T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.221
92417359|NCT03274999|184722785|SUPERIORITY|||||||0.126||||||T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.126
92234987|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.6|0.82|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.82|0.60|
92387281|NCT03223337|184675428|OTHER||Ratio of Geometric LS Mean|1.9478|||||TWO_SIDED|90.0|1.3935|2.7224|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.7224|1.3935|
92387282|NCT03223337|184675428|OTHER||Ratio of Geometric LS Mean|1.8392|||||TWO_SIDED|90.0|1.335|2.534|||||Ratio of Geometric LS Mean for GSK2506104 (M3) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.5340|1.3350|
92387283|NCT03223337|184675428|OTHER||Ratio of Geometric LS Mean|2.0161|||||TWO_SIDED|90.0|1.4711|2.763|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.7630|1.4711|
92387284|NCT03223337|184675428|OTHER||Ratio of Geometric LS Mean|1.7303|||||TWO_SIDED|90.0|1.2932|2.3151|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.3151|1.2932|
92387285|NCT03223337|184675428|OTHER||Ratio of Geometric LS Mean|1.987|||||TWO_SIDED|90.0|1.5426|2.5594|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.5594|1.5426|
92387286|NCT03223337|184675428|OTHER||Ratio of Geometric LS Mean|1.4646|||||TWO_SIDED|90.0|0.9086|2.3609|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.3609|0.9086|
92387287|NCT03223337|184675429|OTHER||Ratio of Geometric LS Mean|1.9786|||||TWO_SIDED|90.0|1.0557|3.7084|||||Ratio of Geometric LS Mean for GSK1278863 (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||3.7084|1.0557|
92387288|NCT03223337|184675429|OTHER||Ratio of Geometric LS Mean|1.2791|||||TWO_SIDED|90.0|0.9241|1.7705|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.7705|0.9241|
92387289|NCT03223337|184675429|OTHER||Ratio of Geometric LS Mean|1.2487|||||TWO_SIDED|90.0|0.8675|1.7974|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.7974|0.8675|
92387290|NCT03223337|184675429|OTHER||Ratio of Geometric LS Mean|1.1802|||||TWO_SIDED|90.0|0.9165|1.5197|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.5197|0.9165|
92387291|NCT03223337|184675429|OTHER||Ratio of Geometric LS Mean|1.2726|||||TWO_SIDED|90.0|0.952|1.7012|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.7012|0.9520|
92417360|NCT03274999|184722785|SUPERIORITY|||||||0.124||||||T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.124
92417361|NCT03274999|184722785|SUPERIORITY|||||||0.167||||||T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.167
92234988|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.47|0.76|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.76|0.47|
92387292|NCT03223337|184675429|OTHER||Ratio of Geometric LS Mean|1.0409|||||TWO_SIDED|90.0|0.7927|1.3668|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.3668|0.7927|
92387293|NCT03223337|184675430|OTHER||Ratio of Geometric LS Mean|1.0097|||||TWO_SIDED|90.0|0.7122|1.4316|||||Ratio of Geometric LS Mean for GSK1278863 (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.4316|0.7122|
92387294|NCT03223337|184675430|OTHER||Ratio of Geometric LS Mean|1.7852|||||TWO_SIDED|90.0|1.2498|2.5498|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.5498|1.2498|
92387295|NCT03223337|184675430|OTHER||Ratio of Geometric LS Mean|1.7337|||||TWO_SIDED|90.0|1.2343|2.4353|||||Ratio of Geometric LS Mean for GSK2506104 (M3) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.4353|1.2343|
92387296|NCT03223337|184675430|OTHER||Ratio of Geometric LS Mean|1.7628|||||TWO_SIDED|90.0|1.2898|2.4092|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.4092|1.2898|
92387297|NCT03223337|184675430|OTHER||Ratio of Geometric LS Mean|1.6413|||||TWO_SIDED|90.0|1.2055|2.2347|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.2347|1.2055|
92387298|NCT03223337|184675430|OTHER||Ratio of Geometric LS Mean|1.8289|||||TWO_SIDED|90.0|1.3992|2.3904|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.3904|1.3992|
92387299|NCT03223337|184675430|OTHER||Ratio of Geometric LS Mean|1.3367|||||TWO_SIDED|90.0|0.8288|2.1557|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.1557|0.8288|
92387300|NCT03223337|184675431|OTHER||Ratio of Geometric LS Mean|0.905|||||TWO_SIDED|90.0|0.69|1.1869|||||Ratio of Geometric LS Mean for GSK1278863 (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.1869|0.6900|
92387301|NCT03223337|184675431|OTHER||Ratio of Geometric LS Mean|0.7415|||||TWO_SIDED|90.0|0.5617|0.9787|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||0.9787|0.5617|
92417362|NCT03274999|184722785|SUPERIORITY|||||||0.377||||||T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.377
92171772|NCT04994509|184233178|SUPERIORITY||Rate Ratio|0.839||||0.58674|TWO_SIDED|95.0|0.55|1.279||p-value for rate ratio vs bHIV is from Wald test.|Wald test||CI for rate ratio vs bHIV is based on the delta method.|Null Hypothesis 04: F/TAF/bHIV\>= 0.8; Null hypothesis was to be rejected if HIV-1 incidence in F/TAF was significantly and at least 20% lower than bHIV.||1.279|0.550|0.58674
92387302|NCT03223337|184675431|OTHER||Ratio of Geometric LS Mean|0.7299|||||TWO_SIDED|90.0|0.4387|1.2145|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.2145|0.4387|
92387303|NCT03223337|184675431|OTHER||Ratio of Geometric LS Mean|1.1703|||||TWO_SIDED|90.0|0.9|1.5219|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.5219|0.9000|
92387304|NCT03223337|184675431|OTHER||Ratio of Geometric LS Mean|0.9585|||||TWO_SIDED|90.0|0.6664|1.3786|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.3786|0.6664|
92387305|NCT03223337|184675431|OTHER||Ratio of Geometric LS Mean|1.0004|||||TWO_SIDED|90.0|0.7833|1.2778|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.2778|0.7833|
92387306|NCT03223337|184675432|OTHER||Ratio of Geometric LS Mean|1.0574|||||TWO_SIDED|90.0|0.7876|1.4197|||||Ratio of Geometric LS Mean for GSK1278863 (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.4197|0.7876|
92387307|NCT03223337|184675432|OTHER||Ratio of Geometric LS Mean|1.0143|||||TWO_SIDED|90.0|0.7332|1.4032|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.4032|0.7332|
92387308|NCT03223337|184675432|OTHER||Ratio of Geometric LS Mean|1.038|||||TWO_SIDED|90.0|0.7695|1.4002|||||Ratio of Geometric LS Mean for GSK2506104 (M3) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.4002|0.7695|
92387309|NCT03223337|184675432|OTHER||Ratio of Geometric LS Mean|1.3427|||||TWO_SIDED|90.0|0.7635|2.3615|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.3615|0.7635|
92387310|NCT03223337|184675432|OTHER||Ratio of Geometric LS Mean|1.0296|||||TWO_SIDED|90.0|0.6996|1.5151|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.5151|0.6996|
92387311|NCT03223337|184675432|OTHER||Ratio of Geometric LS Mean|1.2721|||||TWO_SIDED|90.0|0.8409|1.9245|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.9245|0.8409|
92387312|NCT03223337|184675432|OTHER||Ratio of Geometric LS Mean|1.2072|||||TWO_SIDED|90.0|0.9398|1.5508|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.5508|0.9398|
92387313|NCT03223337|184675433|OTHER||Median Difference (Final Values)|0.0||||0.6822|TWO_SIDED|90.0|-1.0|0.5||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK1278863 (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||0.50|-1.00|0.6822
92387314|NCT03223337|184675433|OTHER||Median Difference (Final Values)|0.0||||0.5767|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2391220 (M2)(Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.5767
92387315|NCT03223337|184675433|OTHER||Median Difference (Final Values)|0.0||||0.588|TWO_SIDED|90.0|-1.0|1.5||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2487818 (M4)(Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.50|-1.00|0.5880
92387316|NCT03223337|184675433|OTHER||Median Difference (Final Values)|0.0||||0.7716|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2506102 (M5)(Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.7716
92417363|NCT03274999|184722785|SUPERIORITY|||||||0.397||||||T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.397
92171773|NCT04994509|184233179|SUPERIORITY||Rate Ratio|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.101||p-value for rate ratio vs F/TDF is from an exact conditional Poisson model.|Poisson model||CI is from an exact conditional Poisson model.|||0.101|0.000|< 0.0001
92387317|NCT03223337|184675433|OTHER||Median Difference (Final Values)|0.5||||0.4093|TWO_SIDED|90.0|-1.0|2.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2531398 (M6) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.00|-1.00|0.4093
92387318|NCT03223337|184675433|OTHER||Median Difference (Final Values)|0.0||||0.9837|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2531401 (M13) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.9837
92387319|NCT03223337|184675434|OTHER||Median Difference (Final Values)|0.0||||0.6224|TWO_SIDED|90.0|-1.0|0.5||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK1278863 (Mild hepatic impairment participants versus Healthy participants) has been presented.|||0.50|-1.00|0.6224
92387320|NCT03223337|184675434|OTHER||Median Difference (Final Values)|0.0||||0.8042|TWO_SIDED|90.0|-1.0|0.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2391220 (M2) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||0.00|-1.00|0.8042
92387321|NCT03223337|184675434|OTHER||Median Difference (Final Values)|0.0||||0.8423|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2506104 (M3) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.8423
92387322|NCT03223337|184675434|OTHER||Median Difference (Final Values)|0.0||||0.5207|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2487818 (M4) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.5207
92417364|NCT03274999|184722785|SUPERIORITY|||||||0.441||||||T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.441
92417365|NCT03274999|184722786|SUPERIORITY|||||||0.034||||||T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.034
92387323|NCT03223337|184675434|OTHER||Median Difference (Final Values)|0.0||||0.8423|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2506102 (M5) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.8423
92417366|NCT03274999|184722786|SUPERIORITY|||||||0.143||||||T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.143
92417367|NCT03274999|184722786|SUPERIORITY|||||||0.328||||||T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.328
92417368|NCT03274999|184722786|SUPERIORITY|||||||0.25||||||T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.250
92417369|NCT03274999|184722786|SUPERIORITY|||||||0.09||||||T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.090
92417370|NCT03274999|184722786|SUPERIORITY|||||||0.328||||||T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.328
92417371|NCT03274999|184722786|SUPERIORITY|||||||0.055||||||T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.055
92417372|NCT03274999|184722786|SUPERIORITY|||||||0.09||||||T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.090
92417373|NCT03274999|184722786|SUPERIORITY|||||||0.233||||||T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.233
92417374|NCT03274999|184722787|SUPERIORITY|||||||0.072||||||T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.072
92171774|NCT04994509|184233179|SUPERIORITY||Rate Ratio|1.198||||0.7282|TWO_SIDED|95.0|0.669|2.143||p-value for rate ratio vs F/TDF is from a Poisson model.|Poisson model||CI is from a Poisson model.|||2.143|0.669|0.72820
92280539|NCT00601484|184463648|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-18.04|STANDARD_ERROR_OF_MEAN|10.358|||TWO_SIDED|90.0|-35.476|-0.613||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.613|-35.476|
92387324|NCT03223337|184675434|OTHER||Median Difference (Final Values)|0.0||||1|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2531398 (M6) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|1.0000
92387325|NCT03223337|184675434|OTHER||Median Difference (Final Values)|0.0||||0.8042|TWO_SIDED|90.0|0.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2531401 (M13) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.00|0.00|0.8042
92417375|NCT03274999|184722787|SUPERIORITY|||||||0.297||||||T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.297
92417376|NCT03274999|184722787|SUPERIORITY|||||||0.328||||||T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.328
92417377|NCT03274999|184722787|SUPERIORITY|||||||0.447||||||T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.447
92417378|NCT03274999|184722787|SUPERIORITY|||||||0.328||||||T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.328
92417379|NCT03274999|184722787|SUPERIORITY|||||||0.09||||||T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.090
92387326|NCT03688074|184675453|OTHER||Ratio of Geometric LSMeans|0.15|||<|0.001|TWO_SIDED|90.0|0.06|0.35||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter : Eosinophils (cells/mm\^2)||95% CI (0.05, 0.41)|0.35|0.06|<0.001
92387327|NCT03688074|184675453|OTHER||Ratio of Geometric LSMeans|1.36||||0.106|TWO_SIDED|90.0|0.99|1.86||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter: Neutrophils (cells/mm\^2)||95% CI (0.94, 1.97)|1.86|0.99|0.106
92387328|NCT03688074|184675453|OTHER||Ratio of Geometric LSMeans|1.12||||0.389|TWO_SIDED|90.0|0.9|1.4||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter: T cells CD3+ (cells/mm\^2)||95% CI (0.86, 1.46)|1.40|0.90|0.389
92387329|NCT03688074|184675453|OTHER||Ratio of Geometric LSMeans|1.18||||0.216|TWO_SIDED|90.0|0.94|1.48||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter: T cells CD4+ (cells/mm\^2)||95% CI (0.90, 1.55)|1.48|0.94|0.216
92387330|NCT03688074|184675453|OTHER||Ratio of Geometric LSMeans|0.83||||0.26|TWO_SIDED|90.0|0.64|1.09||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter: Mast cells Tryptase+ (cells/mm\^2)||95% CI (0.61, 1.15)|1.09|0.64|0.260
92387331|NCT03688074|184675453|OTHER||Ratio of Geometric LSMeans|1.19||||0.546|TWO_SIDED|90.0|0.74|1.92||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter: Mast cells Chymase+ (cells/mm\^2)||95% CI (0.67, 2.10)|1.92|0.74|0.546
92387332|NCT01362608|184675456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.69|||<|0.0001|TWO_SIDED|95.0|-28.2|-11.2|||ANCOVA|||||-11.2|-28.2|<0.0001
92387333|NCT01362608|184675457|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26||||0.0043|TWO_SIDED|95.0|0.1|0.71|||Regression, Cox|||||0.71|0.10|0.0043
92387334|NCT03928717|184675487|SUPERIORITY||Mean Difference (Final Values)|0.01|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92387335|NCT03928717|184675488|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92387336|NCT03350815|184675504|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.28|2.25||No P value as no hypothesis was tested|Regression, Logistic|||Statistical analysis (logistic regression) of ASDAS inactive disease response by visit - in Treatment Period 2 (nonresponder imputation)||2.25|0.28|
92387337|NCT03350815|184675505|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|2.08|||||TWO_SIDED|95.0|0.5|8.66||No P value as no hypothesis was tested|Regression, Logistic|||Statistical analysis (logistic regression) of reduction in ASDAS \>= 1.1 response by visit - in Treatment Period 2 (nonresponder imputation)||8.66|0.50|
92387338|NCT03350815|184675506|OTHER|Statistical hypothesis tests were not performed for this study|Least Square Mean of Treatment Differenc|0.23|STANDARD_ERROR_OF_MEAN|0.263|||TWO_SIDED|95.0|-0.29|0.75||Least squares means (LSMs) of the treatment groups, LSM treatment difference and 95% confidence interval for treatment difference are from mixed-effects model repeated measures (MMRM) with treatment, visit and TNF-alpha inhibitor status as factors|Mixed Models Analysis|||Statistical analysis of total BASDAI change from Week 16 using MMRM - in Treatment Period 2 (FAS)||0.75|-0.29|
92387339|NCT03350815|184675507|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.5|3.24||Odds ratio and 95% confidence interval for odds ratio are from a logistic regression model with treatment (2 treatment groups), TNF-alpha inhibitor status (naive, inadequate responder) and Week 16 body weight (kg) as explanatory variables.|Regression, Logistic|||Statistical analysis (logistic regression) of BASDAI50 response by visit - in Treatment Period 2 (nonresponder imputation) (FAS)||3.24|0.50|
92387340|NCT03350815|184675508|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.43|1.73||Odds ratio and 95% confidence interval for odds ratio are from a logistic regression model with treatment (2 treatment groups), TNF-alpha inhibitor status (naive, inadequate responder) and Week 16 body weight (kg) as explanatory variables|Regression, Logistic|||Statistical analysis (logistic regression) of BASDAI20 response by visit - in Treatment Period 2 (nonresponder imputation) (FAS)||1.73|0.43|
92387341|NCT03350815|184675509|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|1.31|||||TWO_SIDED|95.0|0.49|3.46||Odds ratio and 95% confidence interval for odds ratio are from a logistic regression model with treatment (2 treatment groups), TNF-alpha inhibitor status (naive, inadequate responder) and Week 16 body weight (kg) as explanatory variables.|Regression, Logistic|||Statistical analysis (logistic regression) of ASAS40 response by visit - in Treatment Period 2 (nonresponder imputation) (FAS)||3.46|0.49|
92387342|NCT03350815|184675510|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.44|2.41||Odds ratio and 95% confidence interval for odds ratio are from a logistic regression model with treatment (2 treatment groups), TNF-alpha inhibitor status(naive, inadequate responder) and Week 16 body weight (kg) as explanatory variables.|Regression, Logistic|||Statistical analysis (logistic regression) of ASAS partial remission response by visit - in Treatment Period 2 (nonresponder imputation) (FAS)||2.41|0.44|
92387343|NCT03350815|184675511|OTHER|Statistical hypothesis tests were not performed for this study|Mean Difference (Final Values)|0.13|||||TWO_SIDED|95.0|-0.74|1.01||Least squares means (LSMs) of the treatment groups, LSM treatment difference and 95% confidence interval for treatment difference are from mixed-effects model repeated measures (MMRM) with treatment, visit and TNF-alpha inhibitor status as factors|Regression, Logistic|||Statistical analysis of change from Week 16 in ASAS-Health Index using MMRM by visit - in Treatment Period 2 (FAS)||1.01|-0.74|
92387344|NCT03350815|184675512|OTHER|Statistical hypothesis tests were not performed for this study|Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-3.62|1.61||Least squares means (LSMs) of the treatment groups, LSM treatment difference and 95% confidence interval for treatment difference are from mixed-effects model repeated measures (MMRM) with treatment, visit and TNF-alpha inhibitor status as factors|Regression, Logistic|||||1.61|-3.62|
92234989|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.67|0.87|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.87|0.67|
92387345|NCT03526146|184675513|SUPERIORITY|||||||0.002|||||||paired t-test|||||||0.002
92387346|NCT03526146|184675514|SUPERIORITY|||||||0.047|||||||paired t-test|||||||0.047
92387347|NCT03526146|184675515|SUPERIORITY|||||||0.006|||||||paired t-test|||||||0.006
92387348|NCT03526146|184675516|SUPERIORITY|||||||0.05|||||||paired t-test|||||||0.05
92387349|NCT03526146|184675517|SUPERIORITY|||||||0.009|||||||paired t-test|||||||0.009
92387350|NCT01979952|184675571|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.176|STANDARD_ERROR_OF_MEAN|6.237|||TWO_SIDED|95.0|-9.227|15.579|||ANCOVA|As per the Clinical Trial Protocol, this is an exploratory trial hence p-values were not calculated.||Analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline HRCT QLF score as covariate||15.579|-9.227|
92234990|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.96|1.3|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.30|0.96|
92234991|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.75|1.02|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.02|0.75|
92417380|NCT03274999|184722787|SUPERIORITY|||||||0.055||||||T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.055
92234992|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.48|0.79|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.79|0.48|
92234993|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.32|0.46|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.46|0.32|
92234994|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.3|||||TWO_SIDED|95.0|0.94|1.75|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.75|0.94|
92387351|NCT01979952|184675572|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.519|STANDARD_ERROR_OF_MEAN|6.3829|||TWO_SIDED|95.0|-10.258|15.296|||ANCOVA|As per the Clinical Trial Protocol, this is an exploratory trial hence p-values were not calculated||Analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline HRCT QLF score as covariate||15.296|-10.258|
92387352|NCT01979952|184675573|SUPERIORITY_OR_OTHER||Adjusted mean difference|69.0|STANDARD_ERROR_OF_MEAN|39.182|||TWO_SIDED|95.0|-8.74|146.75|||Mixed Models Analysis|As per the Clinical Trial Protocol, this is an exploratory trial hence p-values were not calculated.||Mixed Model for Repeated Measures (MMRM) model with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix.||146.75|-8.74|
92387353|NCT01979952|184675574|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.36|||||TWO_SIDED|95.0|-0.29|5.0|||Mixed Models Analysis|As per the Clinical Trial Protocol, this is an exploratory trial hence p-values were not calculated.||MMRM model with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix.||5.00|-0.29|
92387354|NCT01979952|184675576|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.05|STANDARD_ERROR_OF_MEAN|2.434|||TWO_SIDED|95.0|-4.89|4.79|||Mixed Models Analysis|||MMRM model included treatment, visit, baseline value, treatment-by-visit and baseline-by-visit as fixed effects and patient as random effect. Unstructured covariance was assumed for within patient variation||4.79|-4.89|
92387355|NCT01979952|184675577|SUPERIORITY_OR_OTHER||Adjusted mean difference|17.94|STANDARD_ERROR_OF_MEAN|16.19|||TWO_SIDED|95.0|-14.21|50.09|||Mixed Models Analysis|||MMRM model included treatment, visit, baseline value, treatment-by-visit and baseline-by-visit as fixed effects and patient as random effect. Unstructured covariance was assumed for within patient variation||50.09|-14.21|
92387356|NCT01979952|184675578|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.89|||||TWO_SIDED|95.0|-1.47|11.25|||Mixed Models Analysis|||MMRM model included treatment, visit, baseline value, treatment-by-visit and baseline-by-visit as fixed effects and patient as random effect. Unstructured covariance was assumed for within patient variation||11.25|-1.47|
92387357|NCT01053988|184675597|SUPERIORITY_OR_OTHER||Least squares mean difference|0.053||||0.04|TWO_SIDED|95.0|0.003|0.104||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.104|0.003|0.040
92387358|NCT01053988|184675597|SUPERIORITY_OR_OTHER||Least squares mean difference|0.103|||<|0.001|TWO_SIDED|95.0|0.052|0.153|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.153|0.052|<0.001
92387359|NCT01053988|184675597|SUPERIORITY_OR_OTHER||Least squares mean difference|0.192|||<|0.001|TWO_SIDED|95.0|0.141|0.243||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.243|0.141|<0.001
92387360|NCT01053988|184675597|SUPERIORITY_OR_OTHER||Least squares mean difference|0.173|||<|0.001|TWO_SIDED|95.0|0.123|0.224|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.224|0.123|<0.001
92417381|NCT03274999|184722787|SUPERIORITY|||||||0.09||||||T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.090
92387361|NCT01053988|184675597|SUPERIORITY_OR_OTHER||Least squares mean difference|0.12|||<|0.001|TWO_SIDED|95.0|0.07|0.17|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.170|0.070|<0.001
92387362|NCT01053988|184675597|SUPERIORITY_OR_OTHER||Least squares mean difference|0.09|||<|0.001|TWO_SIDED|95.0|0.039|0.14||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.140|0.039|<0.001
92387363|NCT01053988|184675597|SUPERIORITY_OR_OTHER||Least squares mean difference|0.071||||0.006|TWO_SIDED|95.0|0.021|0.121||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.121|0.021|0.006
92387364|NCT01053988|184675598|SUPERIORITY_OR_OTHER||Least squares mean difference|0.033||||0.241|TWO_SIDED|95.0|-0.022|0.088|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.088|-0.022|0.241
92387365|NCT01053988|184675598|SUPERIORITY_OR_OTHER||Least squares mean difference|0.067||||0.017|TWO_SIDED|95.0|0.012|0.121|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.121|0.012|0.017
92387366|NCT01053988|184675598|SUPERIORITY_OR_OTHER||Least squares mean difference|0.129|||<|0.001|TWO_SIDED|95.0|0.074|0.184||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.184|0.074|<0.001
92387367|NCT01053988|184675598|SUPERIORITY_OR_OTHER||Least squares mean difference|0.115|||<|0.001|TWO_SIDED|95.0|0.06|0.169|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.169|0.060|<0.001
92387368|NCT01053988|184675598|SUPERIORITY_OR_OTHER||Least squares mean difference|0.082||||0.003|TWO_SIDED|95.0|0.028|0.136||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.136|0.028|0.003
92387369|NCT01053988|184675598|SUPERIORITY_OR_OTHER||Least squares mean difference|0.062||||0.025|TWO_SIDED|95.0|0.008|0.117||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.117|0.008|0.025
92387370|NCT01053988|184675598|SUPERIORITY_OR_OTHER||Least squares mean difference|0.048||||0.082|TWO_SIDED|95.0|-0.006|0.102|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.102|-0.006|0.082
92387371|NCT00719355|184675611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.25|STANDARD_DEVIATION|14.4||0.033|TWO_SIDED|95.0||||A priori level of significance was set at p \<0.05.|ANCOVA|Repeated-measures ANCOVA using intent-to-treat procedures, was used for the primary outcome variable. Analyses were adjusted for age.||Observed power for our primary analysis was 0.64.||||0.033
92387372|NCT00719355|184675612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|STANDARD_DEVIATION|3.65||0.109||95.0|||||ANCOVA|Repeated measures ANCOVA was used with intent to treat analysis. The co-variant was age.||||||0.109
92387373|NCT04260347|184675627|OTHER||Risk Ratio (RR)|1.064||||1|TWO_SIDED|95.0|0.345|1.784|||Chi-squared||Actilyse® (alteplase) pre-approval participants were used as reference group.|||1.784|0.345|1.000
92387374|NCT04260347|184675628|OTHER||Risk Ratio (RR)|0.889||||0.254|TWO_SIDED|95.0|0.699|1.08|||Chi-squared||Actilyse® (alteplase) pre-approval participants were used as reference group.|||1.08|0.699|0.254
92387375|NCT04260347|184675629|OTHER||Risk Ratio (RR)|1.089||||0.28|TWO_SIDED|95.0|0.942|1.237|||Chi-squared||Actilyse® (alteplase) pre-approval participants were used as reference group.|||1.237|0.942|0.280
92387376|NCT04260347|184675630|OTHER||Standardized Mean Difference (SMD)|0.016||||0.916|TWO_SIDED|95.0|-0.096|0.128|||Wilcoxon (Mann-Whitney)||SMD = Difference in the mean between groups / Standard deviation Actilyse® (alteplase) pre-approval participants were used as reference group.|||0.128|-0.096|0.916
92387377|NCT04260347|184675631|OTHER||Risk Ratio (RR)|1.066||||0.561|TWO_SIDED|95.0|0.872|1.261|||Chi-squared||Actilyse® (alteplase) pre-approval participants were used as reference group.|||1.261|0.872|0.561
92387378|NCT04260347|184675632|OTHER||Risk Ratio (RR)|1.231||||0.522|TWO_SIDED|95.0|0.707|1.756|||Chi-squared||Actilyse® (alteplase) pre-approval participants were used as reference group.|||1.756|0.707|0.522
92387379|NCT04260347|184675633|OTHER||Standardized Mean Difference (SMD)|-0.021||||0.81|TWO_SIDED|95.0|-0.133|0.091|||Wilcoxon (Mann-Whitney)||SMD = Difference in mean between groups / Standard deviation Actilyse® (alteplase) pre-approval participants were used as reference group.|||0.091|-0.133|0.810
92387380|NCT04260347|184675634|OTHER||Standardized Mean Difference (SMD)|-0.085||||0.179|TWO_SIDED|95.0|-0.199|0.03|||Wilcoxon (Mann-Whitney)||SMD = Difference in mean between groups / Standard deviation Actilyse® (alteplase) pre-approval participants were used as reference group.|||0.03|-0.199|0.179
92387381|NCT04260347|184675635|OTHER||Standardized Mean Difference (SMD)|0.042||||0.275|TWO_SIDED|95.0|-0.072|0.156|||Wilcoxon (Mann-Whitney)||SMD = Difference in mean between groups / Standard deviation Actilyse® (alteplase) pre-approval participants were used as reference group.|||0.156|-0.072|0.275
92387382|NCT02828020|184675818|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0023|TWO_SIDED|95.0|1.25|2.66||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.66|1.25|0.0023
92387383|NCT02828020|184675818|SUPERIORITY||Odds Ratio (OR)|2.04||||0.0003|TWO_SIDED|95.0|1.41|2.95||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.95|1.41|0.0003
92387384|NCT02828020|184675819|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0023|TWO_SIDED|95.0|1.27|2.28||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, underlying symptom as explanatory variables.||||2.28|1.27|0.0023
92387385|NCT02828020|184675819|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0023|TWO_SIDED|95.0|1.22|2.17||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, underlying symptom as explanatory variables.||||2.17|1.22|0.0023
92417382|NCT03274999|184722787|SUPERIORITY|||||||0.5||||||T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.500
92417383|NCT02233946|184722794|SUPERIORITY||Cox Proportional Hazard|0.69|||||TWO_SIDED|95.0|0.47|1.02||||||Participants who reported past-12-month use of alcohol or other drugs at baseline||1.02|0.47|
92417384|NCT02233946|184722794|SUPERIORITY||Cox Proportional Hazard|0.87|||||TWO_SIDED|95.0|0.57|1.31||||||Participants who reported no past-12-month use of alcohol or other drugs at baseline||1.31|0.57|
92417385|NCT02233946|184722795|SUPERIORITY||Cox Proportional Hazard|0.66|||||TWO_SIDED|95.0|0.4|1.1||||||Participants who reported past-12-month use of alcohol or other drugs at baseline||1.10|0.40|
92234995|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.32|2.19|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.19|1.32|
92234996|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.4|||||TWO_SIDED|95.0|1.14|1.6|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.60|1.14|
92234997|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.2|2.01|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.01|1.20|
92417386|NCT02233946|184722796|SUPERIORITY|Participants who reported past-12-month use of alcohol or other drugs at baseline|Cox Proportional Hazard|0.62|||||TWO_SIDED|95.0|0.41|0.94||||||||0.94|0.41|
92417387|NCT02233946|184722796|SUPERIORITY||Cox Proportional Hazard|0.76|||||TWO_SIDED|95.0|0.44|1.32||||||Participants who reported no past-12-month use of alcohol or other drugs at baseline||1.32|0.44|
92417388|NCT02233946|184722797|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.5|1.34||||||"Participants with riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 6 months follow-up, cSBI vs. TAU."||1.34|0.50|
92417389|NCT02233946|184722797|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.44|1.19||||||"Participants with riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 9 months follow-up, cSBI vs. TAU."||1.19|0.44|
92417390|NCT02233946|184722797|SUPERIORITY||Risk Ratio (RR)|0.58|||||TWO_SIDED|95.0|0.37|0.91||||||"Participants with riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 12 months follow-up, cSBI vs. TAU."||0.91|0.37|
92417391|NCT02233946|184722797|SUPERIORITY||Risk Ratio (RR)|0.72|||||TWO_SIDED|95.0|0.43|1.23||||||"Participants with no riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 6 months follow-up, cSBI vs. TAU."||1.23|0.43|
92417392|NCT02233946|184722797|SUPERIORITY||Risk Ratio (RR)|1.33|||||TWO_SIDED|95.0|0.67|2.66||||||"Participants with no riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 9 months follow-up, cSBI vs. TAU."||2.66|0.67|
92234998|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.24|2.26|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.26|1.24|
92234999|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|3.1|||||TWO_SIDED|95.0|2.26|4.3|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||4.30|2.26|
92417393|NCT02233946|184722797|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.5|1.99||||||"Participants with no riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 12 months follow-up, cSBI vs. TAU."||1.99|0.50|
92417394|NCT01527357|184722798|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||< 0.0001
92417395|NCT01527357|184722799|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||< 0.0001
92417396|NCT01527357|184722800|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||< 0.0001
92417397|NCT01527357|184722801|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||< 0.0001
92417398|NCT02927067|184722806|NON_INFERIORITY|Non-inferiority (NI) margin of primary efficacy endpoint was 7%. If lower limit of 95% confidence interval (CI) was greater than -7%, NI was assumed. Power calculation: Assuming 68% (maribavir), 60% (valganciclovir) participants achieve confirmed viremia clearance,494 participants (247 per group) would yield \>90% power to declare NI based on 2-group test of equivalence in proportions. Considering 10% dropout,550 participants (275 per group) were planned to be enrolled and randomized.|Difference in Percentage of Responders|-7.7|||||TWO_SIDED|95.0|-14.98|-0.36|||||Cochran-Mantel-Haenszel (CMH) weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for adjusted difference in percentage of responders (Maribavir-Valganciclovir), 95% CI, and p-value.|||-0.36|-14.98|
92417399|NCT02927067|184722807|NON_INFERIORITY|The non-inferiority margin of the key secondary efficacy endpoint was 7%. If the lower limit of the 95% CI was greater than -7%, then noninferiority (NI) was assumed. Because the NI of the primary efficacy endpoint was not established, the NI hypothesis of the key secondary endpoint was not tested formally.|Difference in Percentage of Responders|4.4|||||TWO_SIDED|95.0|-3.91|12.76|||||CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|||12.76|-3.91|
92417400|NCT02927067|184722808|SUPERIORITY||Difference in Percentage of Responders|8.0|||=|0.061|TWO_SIDED|95.0|-0.38|16.3||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||||16.30|-0.38|=0.061
92235000|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.0|||||TWO_SIDED|95.0|1.53|2.75|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.75|1.53|
92235001|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.48|2.95|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.95|1.48|
92235002|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.7|||||TWO_SIDED|95.0|1.97|3.7|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||3.70|1.97|
92387386|NCT02828020|184675820|SUPERIORITY||Odds Ratio (OR)|1.69||||0.0023|TWO_SIDED|95.0|1.28|2.23||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.23|1.28|0.0023
92387387|NCT02828020|184675820|SUPERIORITY||Odds Ratio (OR)|1.69||||0.0023|TWO_SIDED|95.0|1.28|2.21||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.21|1.28|0.0023
92387388|NCT02828020|184675821|SUPERIORITY||Odds Ratio (OR)|2.25||||0.0023|TWO_SIDED|95.0|1.65|3.07||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||3.07|1.65|0.0023
92387389|NCT02828020|184675821|SUPERIORITY||Odds Ratio (OR)|2.39||||0.0023|TWO_SIDED|95.0|1.77|3.24||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||3.24|1.77|0.0023
92387390|NCT02828020|184675822|SUPERIORITY||Odds Ratio (OR)|1.57||||0.0577|TWO_SIDED|95.0|1.01|2.44||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.44|1.01|0.0577
92387391|NCT02828020|184675822|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0037|TWO_SIDED|95.0|1.28|2.97||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.97|1.28|0.0037
92387392|NCT02828020|184675823|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0577|TWO_SIDED|95.0|1.22|2.19||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, photophobia were explanatory variables.||||2.19|1.22|0.0577
92235003|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.9|||||TWO_SIDED|95.0|1.99|4.29|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||4.29|1.99|
92387393|NCT02828020|184675823|SUPERIORITY||Odds Ratio (OR)|1.81||||0.0037|TWO_SIDED|95.0|1.36|2.42||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, photophobia were explanatory variables.||||2.42|1.36|0.0037
92387394|NCT02828020|184675824|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0577|TWO_SIDED|95.0|1.16|2.09||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, phonophobia were explanatory variables.||||2.09|1.16|0.0577
92387395|NCT02828020|184675824|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0577|TWO_SIDED|95.0|1.1|1.95||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, phonophobia were explanatory variables.||||1.95|1.10|0.0577
92387396|NCT02828020|184675825|SUPERIORITY||Odds Ratio (OR)|1.31||||0.0962|TWO_SIDED|95.0|0.96|1.79||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, nausea were explanatory variables.||||1.79|0.96|0.0962
92235004|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.23|2.05|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.05|1.23|
92387397|NCT02828020|184675825|SUPERIORITY||Odds Ratio (OR)|1.35||||0.0962|TWO_SIDED|95.0|1.0|1.83||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, nausea were explanatory variables.||||1.83|1.00|0.0962
92387398|NCT02578186|184675832|SUPERIORITY_OR_OTHER|||||||0.0312|||||||ANCOVA|||||||0.0312
92387399|NCT02713659|184675849|EQUIVALENCE|0.05||||||0.85|||||||t-test, 2 sided|||Auditory standard score between infants at 6 months and 24 months of age in the Early literacy arm and the standard literacy arm||||0.85
92387400|NCT02713659|184675849|EQUIVALENCE|0.05||||||0.53|||||||t-test, 2 sided|||Expressive standard score between infants at 6 months and 24 months of age in the Early literacy arm and the standard literacy arm||||0.53
92235005|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.4|||||TWO_SIDED|95.0|1.18|1.78|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.78|1.18|
92235006|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.04|1.42|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.42|1.04|
92387401|NCT02713659|184675849|EQUIVALENCE|0.05||||||0.49|||||||t-test, 2 sided|||Total standard score between infants at 6 months and 24 months of age in the Early literacy arm and the standard literacy arm||||0.49
92387402|NCT02713659|184675850|EQUIVALENCE|0.05||||||0.57|||||||t-test, 2 sided|||Total read scale score between infants at 6 months and 24 months of age in the early literacy arm and the standard literacy arm||||0.57
92387403|NCT02713659|184675851|EQUIVALENCE|0.05||||||0.23|||||||Chi-squared|||Number of up to date child well visits between the early literacy arm and the standard literacy arm at 6 months of age||||0.23
92387404|NCT02713659|184675851|EQUIVALENCE|0.05||||||0.71|||||||Chi-squared|||Number of up to date child vaccinations between the early literacy arm and the standard literacy arm at 6 months of age||||0.71
92387405|NCT00825812|184675876|SUPERIORITY_OR_OTHER||ratio of geometric mean time to recovery|5.7||||||95.0|4.9|6.6|||ANOVA|ANOVA, adjusted for center effects, on log transformed times from start of administration of IMP to recovery of the T4/T1 ratio to 0.9.|Ratio of time to recovery of 0.9 T4/T1 ratio (neostigmine time / sugammadex time).|The primary analysis was the comparison of the two treatments among Chinese subjects.||6.6|4.9|
92387406|NCT00825812|184675876|SUPERIORITY_OR_OTHER||ratio of geometric mean time to recovery|4.8||||||97.5|3.7|6.0|||ANOVA|ANOVA, adjusted for center effects, on log transformed times from start of administration of IMP to recovery of the T4/T1 ratio to 0.9.|Ratio of time to recovery of 0.9 T4/T1 ratio (neostigmine time / sugammadex time).|A key secondary analysis was the comparison of the two treatments among Caucasian subjects.||6.0|3.7|
92387407|NCT00825812|184675876|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was considered if the 97.5% confidence interval (CI) for median difference in recovery time (T4/T1 ratio to 0.9) was within the pre-specified range of -60 to +60 seconds.|median difference (seconds)|7.0||||||97.5|-5.0|21.0|||||Estimated median difference (Chinese - Caucasian) in seconds for the time to recovery of the T4/T1 ratio to 0.9 (after sugammadex).|A key secondary analysis was the comparison for equivalence between Chinese subjects and Caucasian subjects.||21|-5|
92387408|NCT00986362|184675879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.613||||0.679|TWO_SIDED|95.0|0.07|4.509|||Fisher Exact|||||4.509|0.070|0.679
92387409|NCT02697435|184675900|SUPERIORITY||||||<|0.05||||||P-value is calculated.|Mixed Models Analysis|||||||<0.05
92387410|NCT03777059|184675902|SUPERIORITY||Least Squares Mean Difference|-1.21|STANDARD_ERROR_OF_MEAN|0.291|<|0.0001|TWO_SIDED|95.0|-1.78|-0.64||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.64|-1.78|<.0001
92387411|NCT03777059|184675902|SUPERIORITY||Least Squares Mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|0.287|<|0.0001|TWO_SIDED|95.0|-1.94|-0.82||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.82|-1.94|<.0001
92387412|NCT03777059|184675902|SUPERIORITY||Least Squares Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|0.288|<|0.0001|TWO_SIDED|95.0|-2.28|-1.15||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.15|-2.28|<.0001
92387413|NCT03777059|184675903|SUPERIORITY||Least Squares Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|0.311|<|0.0001|TWO_SIDED|95.0|-2.03|-0.81||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.81|-2.03|<.0001
92387414|NCT03777059|184675903|SUPERIORITY||Least Squares Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.307|<|0.0001|TWO_SIDED|95.0|-2.13|-0.92||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.92|-2.13|<.0001
92387415|NCT03777059|184675903|SUPERIORITY||Least Squares Mean Difference|-1.71|STANDARD_ERROR_OF_MEAN|0.309|<|0.0001|TWO_SIDED|95.0|-2.32|-1.1||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.10|-2.32|<.0001
92387416|NCT03777059|184675904|SUPERIORITY||Least Squares Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.254|<|0.0001|TWO_SIDED|95.0|-1.81|-0.82||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.82|-1.81|<.0001
92387417|NCT03777059|184675904|SUPERIORITY||Least Squares Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.251|<|0.0001|TWO_SIDED|95.0|-1.82|-0.83||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.83|-1.82|<.0001
92235007|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.82|1.19|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.19|0.82|
92278647|NCT04128696|184459811|OTHER||Difference in Percentage|-13.3|||||TWO_SIDED|95.0|-27.8|1.5||||||The comparison between the treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||1.5|-27.8|
92417401|NCT02927067|184722809|SUPERIORITY||Difference in Percentage of Responders|8.0|||=|0.061|TWO_SIDED|95.0|-0.38|16.3||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 8||16.30|-0.38|=0.061
92417402|NCT02927067|184722809|SUPERIORITY||Difference in Percentage of Responders|13.4|||=|0.001|TWO_SIDED|95.0|5.23|21.62||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 12||21.62|5.23|=0.001
92278648|NCT04128696|184459812|OTHER||Difference in Percentage|-11.8|||||TWO_SIDED|95.0|-22.4|-1.1||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||-1.1|-22.4|
92278649|NCT04128696|184459813|OTHER||Difference in Percentage|-18.0|||||TWO_SIDED|95.0|-33.7|-1.4||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||-1.4|-33.7|
92278650|NCT04128696|184459822|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.783|TWO_SIDED|95.0|0.78|1.77||Nominal p-value was calculated based on the one-sided log-rank test, stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||1.77|0.78|0.783
92278651|NCT04128696|184459823|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.5|TWO_SIDED|95.0|0.5|2.0||Nominal p-value was calculated based on the log-rank test, stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the cox regression model with Efron's method of tie handling, a treatment covariate and stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||2.00|0.50|0.500
92278652|NCT04128696|184459824|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.329|TWO_SIDED|95.0|0.62|1.34||Nominal p-value was calculated based on the one-sided log-rank test, stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||1.34|0.62|0.329
92278653|NCT04128696|184459825|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.608|TWO_SIDED|95.0|0.6|2.0||Nominal p-value was calculated based on the one-sided log-rank test, stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||2.00|0.60|0.608
92278654|NCT01711021|184459866|SUPERIORITY||Least Square (LS) mean difference|-5.87|||<|0.001|TWO_SIDED|95.0|-6.76|-4.97|||Mixed Models Analysis|Mixed model repeated measure (MMRM) analysis for SKAMP total score in Double-Blind period||||-4.97|-6.76|< 0.001
92278655|NCT01711021|184459868|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92278656|NCT02833415|184459876|OTHER|Differences of Least Squares Means|Differences of Least Squares Means|0.9398|STANDARD_ERROR_OF_MEAN|0.2941||0.0053|TWO_SIDED||||||Mixed Models Analysis|||Baseline to Followup||||0.0053
92278657|NCT02833415|184459876|OTHER|Differences of Least Squares Means|Differences of Least Squares Means|0.152|STANDARD_ERROR_OF_MEAN|0.2424||0.5394|TWO_SIDED||||||Mixed Models Analysis|||Baseline to Followup||||0.5394
92278658|NCT02324972|184459947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.636|TWO_SIDED|95.0|-1.3|1.25|||ANCOVA|||A sample size of 20 subjects per group was assumed to have 80% power to allow detection of a statistically significant difference in change from baseline in TLSS between the 2 groups, if the effect size was approximately less than or equal to 0.9. This is equivalent to detecting a difference of -4.5 between the 2 groups with a common standard deviation of 5. The primary analysis was doing using last observation carried forward (LOCF) imputed data.||1.25|-1.30|0.636
92278659|NCT02324972|184459948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.677|TWO_SIDED|95.0|-0.44|0.68|||ANOVA|||||0.68|-0.44|0.677
92278660|NCT02324972|184459949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.219||||0.802|TWO_SIDED|95.0|-1.983|1.544|||ANOVA|||||1.544|-1.983|0.802
92278661|NCT02324972|184459950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108||||0.976|TWO_SIDED|95.0|-7.076|7.292|||ANOVA|||||7.292|-7.076|0.976
92387418|NCT03777059|184675904|SUPERIORITY||Least Squares Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.252|<|0.0001|TWO_SIDED|95.0|-2.0|-1.01||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.01|-2.00|<.0001
92235008|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.96|1.29|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.29|0.96|
92235009|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.89|1.2|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.20|0.89|
92235010|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.07|1.46|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.46|1.07|
92235011|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.4|||||TWO_SIDED|95.0|1.24|1.61|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.61|1.24|
92235012|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.96|1.27|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.27|0.96|
92387419|NCT03777059|184675905|SUPERIORITY||Odds Ratio (OR)|3.06|||<|0.0001|TWO_SIDED|95.0|2.05|4.56||Odds ratio and p-value was based on logistic regression with treatment group, Baseline value, and prior exposure to a migraine prevention medications with proven efficacy as explanatory variables.|Regression, Logistic|||||4.56|2.05|<.0001
92387420|NCT03777059|184675905|SUPERIORITY||Odds Ratio (OR)|3.53|||<|0.0001|TWO_SIDED|95.0|2.37|5.26||Odds ratio and p-value was based on logistic regression with treatment group, Baseline value, and prior exposure to a migraine prevention medications with proven efficacy as explanatory variables.|Regression, Logistic|||||5.26|2.37|<.0001
92387421|NCT03777059|184675905|SUPERIORITY||Odds Ratio (OR)|3.82|||<|0.0001|TWO_SIDED|95.0|2.56|5.71||Odds ratio and p-value was based on logistic regression with treatment group, Baseline value, and prior exposure to a migraine prevention medications with proven efficacy as explanatory variables.|Regression, Logistic|||||5.71|2.56|<.0001
92417403|NCT02927067|184722809|SUPERIORITY||Difference in Percentage of Responders|13.8|||<|0.001|TWO_SIDED|95.0|5.8|21.87||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 16||21.87|5.80|<0.001
92235013|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rises|2.1|||||TWO_SIDED|95.0|1.56|2.8|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.80|1.56|
92417404|NCT02927067|184722809|SUPERIORITY||Difference in Percentage of Responders|9.7|||=|0.014|TWO_SIDED|95.0|1.98|17.5||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 20||17.50|1.98|=0.014
92387422|NCT03777059|184675906|SUPERIORITY||Least Squares Mean Difference|9.9|STANDARD_ERROR_OF_MEAN|2.27|<|0.0001|TWO_SIDED|95.0|5.45|14.36||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||14.36|5.45|<.0001
92387423|NCT03777059|184675906|SUPERIORITY||Least Squares Mean Difference|10.08|STANDARD_ERROR_OF_MEAN|2.229|<|0.0001|TWO_SIDED|95.0|5.71|14.46||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||14.46|5.71|<.0001
92387424|NCT03777059|184675906|SUPERIORITY||Least Squares Mean Difference|10.8|STANDARD_ERROR_OF_MEAN|2.231|<|0.0001|TWO_SIDED|95.0|6.42|15.18||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||15.18|6.42|<.0001
92417405|NCT02927067|184722810|SUPERIORITY||Difference in Percentage of Responders|-7.3|||=|0.051|TWO_SIDED|95.0|-14.64|0.02||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 8||0.02|-14.64|=0.051
92278662|NCT02324972|184459951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.52||||0.233|TWO_SIDED|95.0|-1.68|6.72|||ANOVA|||||6.72|-1.68|0.233
92278663|NCT02398188|184459962|SUPERIORITY|||||||0.397|||||||Cochran-Mantel-Haenszel|||||||0.397
92278664|NCT02398188|184459963|SUPERIORITY|||||||0.379|||||||Cochran-Mantel-Haenszel|||||||0.379
92235014|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.3|||||TWO_SIDED|95.0|1.82|2.88|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.88|1.82|
92387425|NCT03777059|184675907|SUPERIORITY||Least Squares Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|0.693||0.0856|TWO_SIDED|95.0|-2.56|0.17||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||0.17|-2.56|0.0856
92387426|NCT03777059|184675907|SUPERIORITY||Least Squares Mean Difference|-2.54|STANDARD_ERROR_OF_MEAN|0.694||0.0003|TWO_SIDED|95.0|-3.91|-1.18||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.18|-3.91|0.0003
92387427|NCT03777059|184675907|SUPERIORITY||Least Squares Mean Difference|-3.32|STANDARD_ERROR_OF_MEAN|0.694|<|0.0001|TWO_SIDED|95.0|-4.68|-1.96||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.96|-4.68|<.0001
92387428|NCT03777059|184675908|SUPERIORITY||Least Squares Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.605||0.0743|TWO_SIDED|95.0|-2.27|0.11||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||0.11|-2.27|0.0743
92387429|NCT03777059|184675908|SUPERIORITY||Least Squares Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.606||0.0011|TWO_SIDED|95.0|-3.18|-0.8||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.80|-3.18|0.0011
92417406|NCT02927067|184722810|SUPERIORITY||Difference in Percentage of Responders|2.2|||=|0.606|TWO_SIDED|95.0|-6.05|10.37||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 12||10.37|-6.05|=0.606
92417407|NCT02927067|184722810|SUPERIORITY||Difference in Percentage of Responders|1.0|||=|0.809|TWO_SIDED|95.0|-7.27|9.31||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 20||9.31|-7.27|=0.809
92417408|NCT00718081|184722876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.48|STANDARD_ERROR_OF_MEAN|4.92|<|0.001|ONE_SIDED|95.0|||||ANCOVA|||||||<0.001
92417409|NCT00718081|184722876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.62|STANDARD_ERROR_OF_MEAN|4.86|<|0.001|ONE_SIDED|95.0|||||ANCOVA|||||||<0.001
92417410|NCT01931670|184722905|SUPERIORITY||||||<|0.001||||||An elagolix dose group was to be considered more efficacious than placebo for the co-primary endpoints if and only if both co-primary endpoints (DYS and NMPP) were statistically significant for the elagolix dose group at the 0.025 significance level.|Regression, Logistic|||||||< 0.001
92235015|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.5|||||TWO_SIDED|95.0|1.18|1.9|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.90|1.18|
92387430|NCT03777059|184675908|SUPERIORITY||Least Squares Mean Difference|-2.46|STANDARD_ERROR_OF_MEAN|0.605|<|0.0001|TWO_SIDED|95.0|-3.65|-1.28||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.28|-3.65|<.0001
92387431|NCT01449006|184675925|SUPERIORITY_OR_OTHER|||||||0.05||||||This pilot study was conducted to generate effect sizes for a potential larger investigation. The study design and small sample size had limited power to detect a statistically significant effect at p\<0.05, so no p-value threshold was strictly set.|Mixed Models Analysis|41 data points included (control n=14; maraviroc: n=27); n=1 control did not attend 12-month visit.||The primary outcome was analysed using a mixed-effect regression model with arm and time as fixed linear effects, arm\*time interaction as a non-linear fixed effect and participant as a random effect to account for participant attrition.||||0.05
92387432|NCT01449006|184675925|SUPERIORITY_OR_OTHER||Cohen's d|0.77|||||TWO_SIDED|90.0|-0.19|1.71|||||Positive value reflects improved neurocognitive functioning in maraviroc arm compared to control arm.|Clinical relevance of the effect size observed at 6-months was assessed by generating Cohen's d statistic and 90% confidence interval (CI) around the estimate.||1.71|-0.19|
92387433|NCT01449006|184675925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55|||||TWO_SIDED|90.0|-0.47|1.55|||||Positive value reflects improved neurocognitive functioning in maraviroc arm compared to control arm.|Clinical relevance of the effect size observed at 12-months was assessed by generating Cohen's d statistic and 90%CI around the estimate.||1.55|-0.47|
92417411|NCT01931670|184722905|SUPERIORITY||||||<|0.001||||||An elagolix dose group was to be considered more efficacious than placebo for the co-primary endpoints if and only if both co-primary endpoints (DYS and NMPP) were statistically significant for the elagolix dose group at the 0.025 significance level.|Regression, Logistic|||||||< 0.001
92417412|NCT01931670|184722906|SUPERIORITY|||||||0.003||||||An elagolix dose group was to be considered more efficacious than placebo for the co-primary endpoints if and only if both co-primary endpoints (DYS and NMPP) were statistically significant for the elagolix dose group at the 0.025 significance level.|Regression, Logistic|||||||0.003
92417413|NCT01931670|184722906|SUPERIORITY||||||<|0.001||||||An elagolix dose group was to be considered more efficacious than placebo for the co-primary endpoints if and only if both co-primary endpoints (DYS and NMPP) were statistically significant for the elagolix dose group at the 0.025 significance level.|Regression, Logistic|||||||< 0.001
92171775|NCT04994509|184233179|OTHER|Comparability to F/TDF is defined as the HIV-1 incidence in the LEN group at most 0.8/100 PY higher than in the F/TDF group.|Rate Difference|-1.685|||<|0.0001|TWO_SIDED|95.0|-2.737|-0.939||p-value for rate difference vs F/TDF is based on a hybrid approach.|Hybrid approach||Exact CI is based on a hybrid approach.|||-0.939|-2.737|<0.0001
92387434|NCT01449006|184675926|SUPERIORITY_OR_OTHER|||||||0.82|||||||ANOVA|||Change in CSF neopterin levels was analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.82
92387435|NCT01449006|184675927|SUPERIORITY_OR_OTHER|||||||0.49|||||||ANOVA|||Change in NAA/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.49
92387436|NCT01449006|184675927|SUPERIORITY_OR_OTHER|||||||0.94|||||||ANOVA|||Change in Cr/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.94
92387437|NCT01449006|184675927|SUPERIORITY_OR_OTHER|||||||0.8|||||||ANOVA|||Change in Cho/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.80
92387438|NCT01449006|184675927|SUPERIORITY_OR_OTHER|||||||0.72|||||||ANOVA|||Change in mIo/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.72
92387439|NCT01449006|184675928|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANOVA|||Change in NAA/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.95
92387440|NCT01449006|184675928|SUPERIORITY_OR_OTHER|||||||0.66|||||||ANOVA|||Change in Cr/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.66
92387441|NCT01449006|184675928|SUPERIORITY_OR_OTHER|||||||0.56|||||||ANOVA|||Change in Cho/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.56
92387442|NCT01449006|184675928|SUPERIORITY_OR_OTHER|||||||0.29|||||||ANOVA|||Change in mIo/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.29
92387443|NCT01449006|184675928|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANOVA|||Change in Glx/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.95
92387444|NCT02214290|184675929|OTHER||||||<|0.001|||||||ANOVA|post-hoc comparisons were used to determine within-group and between-group differences.||||||<0.001
92387445|NCT02214290|184675930|OTHER||||||<|0.001|||||||ANOVA|post-hoc comparisons were used to determine within-group and between-group differences.||||||<0.001
92387446|NCT02214290|184675931|OTHER||||||<|0.001|||||||ANOVA|post-hoc comparisons were used to determine within-group and between-group differences.||||||<0.001
92387447|NCT03369249|184675997|SUPERIORITY||log ratio of rate ratios|0.15|STANDARD_ERROR_OF_MEAN|0.31||0.635|TWO_SIDED|95.0|-0.46|0.75||A priori threshold for statistical significance was \<0.05|generalized estimating equations||Standard error of the Beta regression coefficient.|||0.75|-0.46|0.635
92387448|NCT02206035|184676021|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||Comparison at Baseline||||0.95
92387449|NCT02206035|184676021|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||Comparison at Day 28||||0.26
92387450|NCT02206035|184676021|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||Comparison at Day 100||||0.63
92387451|NCT02206035|184676021|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||Comparison at Day 180||||0.76
92387452|NCT02206035|184676022|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||Comparison at Baseline||||0.99
92387453|NCT02206035|184676022|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Comparison at Day 28||||0.48
92387454|NCT02206035|184676022|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.35
92387455|NCT02206035|184676022|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Comparison at Day 180||||0.96
92387456|NCT02206035|184676023|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Comparison at Baseline||||<0.001
92387457|NCT02206035|184676023|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Comparison at Day 28||||0.75
92387458|NCT02206035|184676023|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Comparison at Day 100||||0.28
92387459|NCT02206035|184676023|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Comparison at Day 180||||0.82
92387460|NCT02206035|184676024|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||Comparison at Baseline||||0.54
92387461|NCT02206035|184676024|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||Comparison at Day 28||||0.61
92387462|NCT02206035|184676024|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||Comparison at Day 100||||0.42
92387463|NCT02206035|184676024|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||Comparison at Day 180||||0.38
92387464|NCT02206035|184676025|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Comparison at Baseline||||0.10
92387465|NCT02206035|184676025|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||Comparison at Day 28||||0.32
92387466|NCT02206035|184676025|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||Comparison at Day 100||||0.63
92387467|NCT02206035|184676025|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Comparison at Day 180||||0.30
92387468|NCT01934010|184676026|SUPERIORITY|||||||0.128|||||||Fisher Exact|||Fisher's exact test to assess if there is a difference in deterioration of hearing threshold between subjects that received 1 treatment cycle with AM-101 or others who received 2 treatment cycles.||||0.128
92387469|NCT01934010|184676026|SUPERIORITY|||||||0.075|||||||Fisher Exact|||Fisher's exact test to assess if there is a difference in deterioration of hearing threshold between subjects that received 1 treatment cycle with AM-101 or others who received 3 treatment cycles.||||0.075
92387470|NCT01934010|184676026|SUPERIORITY|||||||1|||||||Fisher Exact|||Fisher's exact test to assess if there is a difference in deterioration of hearing threshold between subjects that received 2 treatment cycles with AM-101 or others who received 3 treatment cycles.||||1
92387471|NCT01934010|184676027|SUPERIORITY|||||||0.4403|||||||Fisher Exact|||||||0.4403
92387472|NCT01934010|184676029|SUPERIORITY|||||||0.2401|||||||Fisher Exact|||||||0.2401
92387473|NCT01934010|184676029|SUPERIORITY|||||||0.0022|||||||Fisher Exact|||||||0.0022
92387474|NCT01934010|184676029|SUPERIORITY|||||||0.1001|||||||Fisher Exact|||||||0.1001
92387475|NCT01934010|184676030|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92387476|NCT04112303|184676032|SUPERIORITY||||||<|0.001|||||||2-sided exact 1-sample binomial test|||The SVR12 rate was compared to the pre-specified efficacy threshold of 78% using a 2-sided exact 1-sample binomial test at the 0.05 significance level.||||<0.001
92387477|NCT03781414|184676069|NON_INFERIORITY|The primary objective would be demonstrated, if the composite efficacy failure rate difference between any of the two CFZ533 arms and the TAC arm is less than the pre-defined non-inferiority margin (0.15) with probability \>80%.|Rate difference|0.0759|||||TWO_SIDED|95.0|-0.0729|0.2165||||||||0.2165|-0.0729|
92387478|NCT03781414|184676069|NON_INFERIORITY|The primary objective would be demonstrated, if the composite efficacy failure rate difference between any of the two CFZ533 arms and the TAC arm is less than the pre-defined non-inferiority margin (0.15) with probability \>80%.|Rate difference|0.1696|||||TWO_SIDED|95.0|0.0072|0.3276||||||||0.3276|0.0072|
92417414|NCT01931670|184722907|SUPERIORITY||Difference in LS Mean Change|-0.57|STANDARD_ERROR_OF_MEAN|0.156|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 1 of 7.||||<0.001
92417415|NCT01931670|184722907|SUPERIORITY||Difference in LS Mean Change|-1.22|STANDARD_ERROR_OF_MEAN|0.156|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 1 of 7.||||< 0.001
92417416|NCT01931670|184722908|SUPERIORITY||Difference in LS Mean Change|-0.54|STANDARD_ERROR_OF_MEAN|0.074|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 2 of 7.||||< 0.001
92417417|NCT01931670|184722908|SUPERIORITY||Difference in LS Mean Change|-1.13|STANDARD_ERROR_OF_MEAN|0.074|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 2 of 7.||||< 0.001
92417418|NCT01931670|184722909|SUPERIORITY||Difference in LS Mean Change|-0.15|STANDARD_ERROR_OF_MEAN|0.056||0.009|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 3 of 7.||||0.009
92417419|NCT01931670|184722909|SUPERIORITY||Difference in LS Mean Change|-0.32|STANDARD_ERROR_OF_MEAN|0.056|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 3 of 7.||||< 0.001
92417420|NCT01931670|184722910|SUPERIORITY||Difference in LS Mean Change|-0.05|STANDARD_ERROR_OF_MEAN|0.044||0.26|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 4 of 7.||||0.26
92417421|NCT01931670|184722910|SUPERIORITY||Difference in LS Mean Change|-0.18|STANDARD_ERROR_OF_MEAN|0.044|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 4 of 7.||||< 0.001
92235016|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.89|1.48|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.48|0.89|
92387479|NCT03202134|184676099|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92387480|NCT03202134|184676100|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92387481|NCT03202134|184676101|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92417422|NCT01931670|184722911|SUPERIORITY||Difference in LS Mean Change|-0.08|STANDARD_ERROR_OF_MEAN|0.048||0.088|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 5 of 7.||||0.088
92387482|NCT03202134|184676102|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92387483|NCT03202134|184676103|SUPERIORITY|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||||||0.048
92387484|NCT00966550|184676107|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.0001
92387485|NCT01128946|184676108|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|23.06|||<|0.0001|TWO_SIDED|95.0|19.63|26.48||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||26.48|19.63|<0.0001
92417423|NCT01931670|184722911|SUPERIORITY||Difference in LS Mean Change|-0.21|STANDARD_ERROR_OF_MEAN|0.048|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 5 of 7.||||< 0.001
92235017|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.63|0.85|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.85|0.63|
92235018|NCT01025336|184373534|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|0.99|1.51|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.51|0.99|
92235019|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.03|1.31|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.31|1.03|
92417424|NCT01931670|184722912|SUPERIORITY||Difference in LS Mean Change|-0.09|STANDARD_ERROR_OF_MEAN|0.067||0.172|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 6 of 7.||||0.172
92417425|NCT01931670|184722912|SUPERIORITY||Difference in LS Mean Change|-0.3|STANDARD_ERROR_OF_MEAN|0.067|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 6 of 7.||||< 0.001
92417426|NCT01931670|184722913|SUPERIORITY||Difference in LS Mean Change|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.968|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 7 of 7.||||0.968
92417427|NCT01931670|184722913|SUPERIORITY||Difference in LS Mean Change|-0.08|STANDARD_ERROR_OF_MEAN|0.03||0.007|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 7 of 7.||||0.007
92417428|NCT01931670|184722914|SUPERIORITY||Odds Ratio (OR)|2.361|||<|0.001|TWO_SIDED|97.5|1.507|3.697|||Regression, Logistic|||Month 1||3.697|1.507|< 0.001
92235020|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.91|1.16|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.16|0.91|
92235021|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.07|1.37|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.37|1.07|
92278665|NCT00620763|184459970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|2.0||0.02||95.0|||||Mixed Models Analysis|Mixed model analysis of variance tested for treatment and feeding sequence effects.||16 subjects required to detect a difference in Calcium 47 absorption of 2 percentage points with 90% power, alpha = 0.05||||0.02
92417429|NCT01931670|184722914|SUPERIORITY||Odds Ratio (OR)|4.185|||<|0.001|TWO_SIDED|97.5|2.707|6.469|||Regression, Logistic|||Month 1||6.469|2.707|< 0.001
92417430|NCT01931670|184722914|SUPERIORITY||Odds Ratio (OR)|2.795|||<|0.001|TWO_SIDED|97.5|1.811|4.312|||Regression, Logistic|||Month 2||4.312|1.811|< 0.001
92417431|NCT01931670|184722914|SUPERIORITY||Odds Ratio (OR)|10.378|||<|0.001|TWO_SIDED|97.5|6.615|16.282|||Regression, Logistic|||Month 2||16.282|6.615|< 0.001
92417432|NCT01931670|184722914|SUPERIORITY||Odds Ratio (OR)|3.178|||<|0.001|TWO_SIDED|97.5|2.084|4.845|||Regression, Logistic|||Month 4||4.845|2.084|< 0.001
92417433|NCT01931670|184722914|SUPERIORITY||Odds Ratio (OR)|15.216|||<|0.001|TWO_SIDED|97.5|9.429|24.554|||Regression, Logistic|||Month 4||24.554|9.429|< 0.001
92417434|NCT01931670|184722914|SUPERIORITY||Odds Ratio (OR)|2.548|||<|0.001|TWO_SIDED|97.5|1.683|3.859|||Regression, Logistic|||Month 5||3.859|1.683|< 0.001
92417435|NCT01931670|184722914|SUPERIORITY||Odds Ratio (OR)|14.055|||<|0.001|TWO_SIDED|97.5|8.716|22.664|||Regression, Logistic|||Month 5||22.664|8.716|< 0.001
92417436|NCT01931670|184722914|SUPERIORITY||Odds Ratio (OR)|2.536|||<|0.001|TWO_SIDED|97.5|1.685|3.816|||Regression, Logistic|||Month 6||3.816|1.685|< 0.001
92417437|NCT01931670|184722914|SUPERIORITY||Odds Ratio (OR)|10.106|||<|0.001|TWO_SIDED|97.5|6.434|15.874|||Regression, Logistic|||Month 6||15.874|6.434|< 0.001
92417438|NCT01931670|184722915|SUPERIORITY||Odds Ratio (OR)|1.191||||0.376|TWO_SIDED|97.5|0.765|1.855|||Regression, Logistic|||Month 1||1.855|0.765|0.376
92417439|NCT01931670|184722915|SUPERIORITY||Odds Ratio (OR)|1.376||||0.101|TWO_SIDED|97.5|0.89|2.127|||Regression, Logistic|||Month 1||2.127|0.890|0.101
92417440|NCT01931670|184722915|SUPERIORITY||Odds Ratio (OR)|1.358||||0.088|TWO_SIDED|97.5|0.909|2.029|||Regression, Logistic|||Month 2||2.029|0.909|0.088
92417441|NCT01931670|184722915|SUPERIORITY||Odds Ratio (OR)|2.208|||<|0.001|TWO_SIDED|97.5|1.488|3.278|||Regression, Logistic|||Month 2||3.278|1.488|< 0.001
92417442|NCT01931670|184722915|SUPERIORITY||Odds Ratio (OR)|1.678||||0.003|TWO_SIDED|97.5|1.136|2.477|||Regression, Logistic|||Month 4||2.477|1.136|0.003
92417443|NCT01931670|184722915|SUPERIORITY||Odds Ratio (OR)|2.722|||<|0.001|TWO_SIDED|97.5|1.832|4.044|||Regression, Logistic|||Month 4||4.044|1.832|< 0.001
92417444|NCT01931670|184722915|SUPERIORITY||Odds Ratio (OR)|1.537||||0.013|TWO_SIDED|97.5|1.042|2.267|||Regression, Logistic|||Month 5||2.267|1.042|0.013
92417445|NCT01931670|184722915|SUPERIORITY||Odds Ratio (OR)|2.598|||<|0.001|TWO_SIDED|97.5|1.75|3.857|||Regression, Logistic|||Month 5||3.857|1.750|< 0.001
92278666|NCT00729859|184459971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.0075||0.28|TWO_SIDED|95.0|0.005|0.035|||paired t-test|||p value for the difference = 0.28||0.035|0.005|0.28
92387486|NCT01128946|184676109|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.75|||<|0.0001|TWO_SIDED|95.0|7.33|14.17||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||14.17|7.33|<0.0001
92387487|NCT01128946|184676109|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|12.2|||<|0.0001|TWO_SIDED|95.0|8.74|15.67||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||15.67|8.74|<0.0001
92387488|NCT01128946|184676109|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|12.31|||<|0.0001|TWO_SIDED|95.0|8.9|15.72||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||15.72|8.90|<0.0001
92387489|NCT01128946|184676109|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.46||||0.407|TWO_SIDED|95.0|-2.0|4.91||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||4.91|-2.00|0.4070
92387490|NCT01128946|184676109|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-10.85|||<|0.0001|TWO_SIDED|95.0|-14.3|-7.4||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||-7.40|-14.30|<0.0001
92387491|NCT01128946|184676110|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|13.21|||<|0.0001|TWO_SIDED|95.0|11.46|14.96||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||14.96|11.46|<0.0001
92387492|NCT01128946|184676110|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.79|||<|0.0001|TWO_SIDED|95.0|7.04|10.55||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||10.55|7.04|<0.0001
92387493|NCT01128946|184676110|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.03|||<|0.0001|TWO_SIDED|95.0|6.25|9.8||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||9.80|6.25|<0.0001
92417446|NCT01931670|184722915|SUPERIORITY||Odds Ratio (OR)|1.565||||0.01|TWO_SIDED|97.5|1.062|2.306|||Regression, Logistic|||Month 6||2.306|1.062|0.01
92417447|NCT01931670|184722915|SUPERIORITY||Odds Ratio (OR)|2.412|||<|0.001|TWO_SIDED|97.5|1.63|3.57|||Regression, Logistic|||Month 6||3.570|1.630|< 0.001
92417448|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|1.028||||0.901|TWO_SIDED|97.5|0.624|1.693|||Regression, Logistic|||Month 1||1.693|0.624|0.901
92417449|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|1.103||||0.65|TWO_SIDED|97.5|0.68|1.789|||Regression, Logistic|||Month 1||1.789|0.680|0.65
92417450|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|1.351||||0.154|TWO_SIDED|97.5|0.841|2.17|||Regression, Logistic|||Month 2||2.170|0.841|0.154
92417451|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|1.871||||0.003|TWO_SIDED|97.5|1.175|2.979|||Regression, Logistic|||Month 2||2.979|1.175|0.003
92417452|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|1.25||||0.294|TWO_SIDED|97.5|0.776|2.013|||Regression, Logistic|||Month 3||2.013|0.776|0.294
92417453|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|1.865||||0.003|TWO_SIDED|97.5|1.163|2.989|||Regression, Logistic|||Month 3||2.989|1.163|0.003
92417454|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|1.145||||0.521|TWO_SIDED|97.5|0.713|1.839|||Regression, Logistic|||Month 4||1.839|0.713|0.521
92417455|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|2.474|||<|0.001|TWO_SIDED|97.5|1.544|3.963|||Regression, Logistic|||Month 4||3.963|1.544|< 0.001
92278667|NCT05034731|184459991|NON_INFERIORITY|Non-inferiority analyses were based on paired t-tests looking at the differences in speech scores calculated using the investigational speech scores minus the control speech scores. The primary efficacy analyses tested the null hypothesis (inferiority) that the mean of the paired differences in AzBio sentence scores in quite (remote fitting - in-office fitting) are less than or equal to -10 percentile points.|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92171776|NCT04994509|184233179|OTHER|Comparability to F/TDF is defined as the HIV-1 incidence in the F/TAF group at most 0.8/100 PY higher than in the F/TDF group.|Rate Difference|0.333||||0.209|TWO_SIDED|95.0|-0.869|1.367||p-value for rate difference vs F/TDF is based on a hybrid approach.|Hybrid approach||Exact CI is based on a hybrid approach.|||1.367|-0.869|0.20900
92387494|NCT01128946|184676110|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.41|||<|0.0001|TWO_SIDED|95.0|2.66|6.16||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||6.16|2.66|<0.0001
92387495|NCT01128946|184676110|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.77||||0.3942|TWO_SIDED|95.0|-2.54|1.0||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||1.00|-2.54|0.3942
92387496|NCT01128946|184676110|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.18|||<|0.0001|TWO_SIDED|95.0|-6.95|-3.41||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||-3.41|-6.95|<0.0001
92387497|NCT02467842|184676112|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the upper limit of 95% confidence interval of the GMR (active comparator/experimental) was ≤1.5 for each strain.|GMR (pooled TIV/QIV)|1.02|||||TWO_SIDED|95.0|0.94|1.1||||||GMR of A/H1N1 strain (GMTs of pooled TIV/QIV)||1.10|0.94|
92387498|NCT02467842|184676112|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the upper limit of 95% confidence interval of the GMR (active comparator/experimental) was ≤1.5 for each strain.|GMR (pooled TIV/QIV)|0.94|||||TWO_SIDED|95.0|0.87|1.01||||||GMR of A/H3N2 strain (GMTs of pooled TIV/QIV)||1.01|0.87|
92387499|NCT02467842|184676112|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the upper limit of 95% confidence interval of the GMR (active comparator/experimental) was ≤1.5 for each strain.|GMR (TIV/QIV)|0.88|||||TWO_SIDED|95.0|0.82|0.95||||||GMR of B/Yamagata strain (GMTs of TIV/QIV)||0.95|0.82|
92387500|NCT02467842|184676112|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the upper limit of 95% confidence interval of the GMR (active comparator/experimental) was ≤1.5 for each strain.|GMR (TIV/QIV)|0.9|||||TWO_SIDED|95.0|0.83|0.97||||||GMR of A/H1N1 strain (GMTs of TIV/QIV)||0.97|0.83|
92387501|NCT02467842|184676113|NON_INFERIORITY|Non-inferiority of SCR was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator minus experimental) ≤10% for each strain.|Difference in percentage|-1.0|||||TWO_SIDED|95.0|-6.07|4.06||||||Diff. SCR of A/H1N1 strain (SCR of pooled TIV minus QIV)||4.06|-6.07|
92387502|NCT02467842|184676113|NON_INFERIORITY|Non-inferiority of SCR was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator minus experimental) ≤10% for each strain.|Difference in percentage|-5.02|||||TWO_SIDED|95.0|-10.08|0.04||||||Diff. SCR of A/H3N2 strain (SCR of pooled TIV minus QIV)||0.04|-10.08|
92387503|NCT02467842|184676113|NON_INFERIORITY|Non-inferiority of SCR was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator minus experimental) ≤10% for each strain.|Difference in percentage|-7.06|||||TWO_SIDED|95.0|-13.12|-1.0||||||Diff. SCR of B/Yamaga strain (SCR of TIV minus QIV)||-1.00|-13.12|
92387504|NCT02467842|184676113|NON_INFERIORITY|Non-inferiority of SCR was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator minus experimental) ≤10% for each strain.|Difference in percentage|-3.09|||||TWO_SIDED|95.0|-9.26|3.09||||||Diff. SCR of B/Victoria (SCR of TIV minus QIV)||3.09|-9.26|
92417456|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|1.262||||0.27|TWO_SIDED|97.5|0.787|2.023|||Regression, Logistic|||Month 5||2.023|0.787|0.27
92417457|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|2.416|||<|0.001|TWO_SIDED|97.5|1.5|3.891|||Regression, Logistic|||Month 5||3.891|1.500|< 0.001
92387505|NCT02467842|184676117|SUPERIORITY|Superiority of GMTs was concluded if the upper limit of 95% confidence interval for GMR (active comparator/experimental) was ≤1.0 for each B strain.|GMR (TIV/QIV)|0.75|||||TWO_SIDED|95.0|0.7|0.81||||||GMR of B/Yamagata strain (GMTs of TIV/QIV)||0.81|0.70|
92387506|NCT02467842|184676117|SUPERIORITY|Superiority of GMTs was concluded if the upper limit of 95% confidence interval for GMR (active comparator/experimental) was ≤1.0 for each B strain.|GMR (TIV/QIV)|0.75|||||TWO_SIDED|95.0|0.69|0.81||||||GMR of B/Victoria (GMTs of TIV/QIV)||0.81|0.69|
92387507|NCT02467842|184676118|SUPERIORITY|Superiority was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator-experimental) was ≤0% in each B strain.|Difference in percentage|-18.98|||||TWO_SIDED|95.0|-24.61|-13.36||||||Diff. SCR of B/Yamaga strain (SCR of TIV minus QIV)||-13.36|-24.61|
92417458|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|1.013||||0.953|TWO_SIDED|97.5|0.631|1.624|||Regression, Logistic|||Month 6||1.624|0.631|0.953
92417459|NCT01931670|184722916|SUPERIORITY||Odds Ratio (OR)|1.997|||<|0.001|TWO_SIDED|97.5|1.253|3.183|||Regression, Logistic|||Month 6||3.183|1.253|< 0.001
92417460|NCT01931670|184722917|SUPERIORITY||LS Mean of Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.69|-0.37|||mixed-effects model|||Month 1||-0.37|-0.69|< 0.001
92417461|NCT01931670|184722917|SUPERIORITY||LS Mean of Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.94|-0.62|||mixed-effects model|||Month 1||-0.62|-0.94|< 0.001
92417462|NCT01931670|184722917|SUPERIORITY||LS Mean of Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|97.5|-0.6|-0.29|||mixed-effects model|||Month 2||-0.29|-0.6|< 0.001
92171777|NCT04994509|184233181|SUPERIORITY||Exact Odds Ratio|9.0||||0.0006|TWO_SIDED|95.0|2.06|83.36||p-value is from exact conditional logistic regression model.|ExactConditionalLogisticRegressionModel||Exact odds ratio and and CI are from exact conditional logistic regression model.|||83.36|2.06|0.0006
92171778|NCT02396199|184233184|SUPERIORITY||Proportion of participants|0.917||||0.006|ONE_SIDED|95.0|0.827|||One-sided test|Fisher Exact||Exact test, One-sided 95%, with lower limit (0.827)||||0.827|0.006
92235022|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.91|1.13|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.13|0.91|
92387508|NCT02467842|184676118|SUPERIORITY|Superiority was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator-experimental) was ≤0% in each B strain.|Difference in percentage|-12.62|||||TWO_SIDED|95.0|-18.79|-6.45||||||Diff. SCR of B/Victoria strain (SCR of TIV minus QIV)||-6.45|-18.79|
92387509|NCT00766051|184676134|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.0|STANDARD_ERROR_OF_MEAN|1.76|<|0.005|TWO_SIDED|95.0|5.0|11.0||The P value is not adjusted for multiple comparisons or for statistical significance|t-test, 2 sided|||The expected outcome was that infants in the intervention group would exhibit significantly less number of days to attain oral feeding.||11|5|<0.005
92387510|NCT00766051|184676135|SUPERIORITY_OR_OTHER||Slope|0.275|||<|0.01|||||||Mixed Models Analysis|This correlation is between the intervention groups' initial level of relaxation and final level of relaxation during the oral feeding period.||Pearson Correlation, 2-tailed||||< 0.01
92387511|NCT00766051|184676136|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.6|STANDARD_DEVIATION|5.2|<|0.02|ONE_SIDED|95.0||6.7|||t-test, 1 sided||An increase in this test scale score means more parent confidence.|"Parent pre-post one sided t test of parents' global confidence, measured parental confidence in feeding, handling, and interacting with their infant."||6.7||< .02
92387512|NCT00766051|184676137|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8|STANDARD_DEVIATION|4.3|<|0.03|ONE_SIDED|95.0||4.54|||t-test, 1 sided||An increase in this test scale score means an increase in the parents' perception of their infants' easiness during caregiving.|Parent pre-post one sided t test on the Easiness Scale of the Mother and Baby Scales in how parents percieve their interactions (alert-responsiveness, mood) with their infant and infant sleep patterns .||4.54||< .03
92387513|NCT01320202|184676138|SUPERIORITY_OR_OTHER||Difference in LS Means between SFP & PBO|3.6|STANDARD_ERROR_OF_MEAN|1.4||0.011|TWO_SIDED|||||LS Mean (SE) and p-value are from ANCOVA model with baseline Hgb as covariate. Model also includes indicator variable for baseline ESA dose stratum.|ANCOVA|||||||0.011
92387514|NCT00635882|184676153|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||"Analysis of covariance (ANCOVA) model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||<0.001
92387515|NCT00635882|184676153|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||ANCOVA|||"ANCOVA model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||0.003
92387516|NCT00635882|184676153|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||ANCOVA|||"ANCOVA model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||0.018
92387517|NCT00635882|184676154|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||"ANCOVA model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||<0.001
92387518|NCT00635882|184676154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANCOVA|||"ANCOVA model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||0.002
92387519|NCT00635882|184676154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANCOVA|||"ANCOVA model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||0.002
92387520|NCT00635882|184676155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024|||||||ANCOVA|||"ANCOVA model with treatment and baseline eosinophils as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline EOS as a covariate."||||0.024
92387521|NCT00635882|184676155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.051|||||||ANCOVA|||"ANCOVA model with treatment and baseline eosinophils as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline EOS as a covariate."||||0.051
92387522|NCT00635882|184676155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.336|||||||ANCOVA|||"ANCOVA model with treatment and baseline eosinophils as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline EOS as a covariate."||||0.336
92387523|NCT00635882|184676156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12|||||||ANCOVA|Analysis applies to Mean Change from Baseline to Day 15.||"ANCOVA model with treatment and baseline PD15 as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline PD15 as a covariate."||||0.120
92417463|NCT01931670|184722917|SUPERIORITY||LS Mean of Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|97.5|-1.43|-1.12|||mixed-effects model|||Month 2||-1.12|-1.43|< 0.001
92417464|NCT01931670|184722917|SUPERIORITY||LS Mean of Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|97.5|-0.68|-0.37|||mixed-effects model|||Month 3||-0.37|-0.68|< 0.001
92417465|NCT01931670|184722917|SUPERIORITY||LS Mean of Difference|-1.25|STANDARD_ERROR_OF_MEAN|0.067|<|0.001|TWO_SIDED|97.5|-1.4|-1.09|||mixed-effects model|||Month 3||-1.09|-1.4|< 0.001
92417466|NCT01931670|184722917|SUPERIORITY||LS Mean of Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|97.5|-0.73|-0.42|||mixed-effects model|||Month 4||-0.42|-0.73|< 0.001
92387524|NCT00635882|184676156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.103|||||||ANCOVA|Analysis applies to Mean Change from Baseline to Day 15.||"ANCOVA model with treatment and baseline PD15 as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline PD15 as a covariate."||||0.103
92387525|NCT00635882|184676156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.048|||||||ANCOVA|Analysis applies to Mean Change from Baseline to Day 15.||"ANCOVA model with treatment and baseline PD15 as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline PD15 as a covariate."||||0.048
92235023|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.6|2.68|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.68|1.60|
92235024|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.4|||||TWO_SIDED|95.0|1.82|3.24|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||3.24|1.82|
92235025|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.8|||||TWO_SIDED|95.0|1.55|2.03|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.03|1.55|
92235026|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.8|||||TWO_SIDED|95.0|1.54|2.09|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.09|1.54|
92235027|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.79|1.07|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.07|0.79|
92235028|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.48|2.55|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.55|1.48|
92235029|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.05|1.53|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.53|1.05|
92235030|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.5|2.51|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.51|1.50|
92235031|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.6|||||TWO_SIDED|95.0|1.98|3.5|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||3.50|1.98|
92235032|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.31|2.18|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.18|1.31|
92278668|NCT05034731|184459992|NON_INFERIORITY|Non-inferiority analyses were based on paired t-tests looking at the differences in speech scores calculated using the investigational speech scores minus the control speech scores. The primary efficacy analyses tested the null hypothesis (inferiority) that the mean of the paired differences in AzBio sentence scores in quite (remote fitting - in-office fitting) are less than or equal to -10 percentile points.|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92417467|NCT01931670|184722917|SUPERIORITY||LS Mean of Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|97.5|-1.42|-1.11|||mixed-effects model|||Month 4||-1.11|-1.42|< 0.001
92417468|NCT01931670|184722917|SUPERIORITY||LS Mean of Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.65|-0.33|||mixed-effects model|||Month 5||-0.33|-0.65|< 0.001
92235033|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.37|2.61|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.61|1.37|
92235034|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.4|||||TWO_SIDED|95.0|1.76|3.38|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||3.38|1.76|
92235035|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.33|1.86|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.86|1.33|
92278669|NCT00358826|184460034|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
92278670|NCT00358826|184460034|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
92278671|NCT00358826|184460034|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
92278672|NCT00358826|184460035|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
92278673|NCT00358826|184460035|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
92387526|NCT00635882|184676157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way analysis of variance (ANOVA) model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.018
92387527|NCT00635882|184676157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.261|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.261
92387528|NCT00635882|184676157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.334|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.334
92387529|NCT00635882|184676158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.037
92387530|NCT00635882|184676158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.643|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.643
92387531|NCT00635882|184676158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.963|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.963
92387532|NCT00635882|184676159|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||<0.001
92387533|NCT00635882|184676159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.002
92417469|NCT01931670|184722917|SUPERIORITY||LS Mean of Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-1.42|-1.1|||mixed-effects model|||Month 5||-1.10|-1.42|< 0.001
92417470|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-25.31|STANDARD_ERROR_OF_MEAN|3.669|<|0.001|TWO_SIDED|97.5|-33.55|-17.07|||mixed-effects model|||Month 1||-17.07|-33.55|< 0.001
92387534|NCT00635882|184676159|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||<0.001
92387535|NCT00635882|184676160|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||<0.001
92417471|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-39.32|STANDARD_ERROR_OF_MEAN|3.657|<|0.001|TWO_SIDED|97.5|-47.53|-31.11|||mixed-effects model|||Month 1||-31.11|-47.53|< 0.001
92417472|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-21.9|STANDARD_ERROR_OF_MEAN|3.355|<|0.001|TWO_SIDED|97.5|-29.44|-14.36|||mixed-effects model|||Month 2||-14.36|-29.44|< 0.001
92417473|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-63.31|STANDARD_ERROR_OF_MEAN|3.365|<|0.001|TWO_SIDED|97.5|-70.87|-55.76|||mixed-effects model|||Month 2||-55.76|-70.87|< 0.001
92417474|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-25.15|STANDARD_ERROR_OF_MEAN|3.241|<|0.001|TWO_SIDED|97.5|-32.43|-17.88|||mixed-effects model|||Month 3||-17.88|-32.43|< 0.001
92387536|NCT00635882|184676160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.057
92387537|NCT00635882|184676160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.005
92417475|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-61.94|STANDARD_ERROR_OF_MEAN|3.233|<|0.001|TWO_SIDED|97.5|-69.2|-54.68|||mixed-effects model|||Month 3||-54.68|-69.20|< 0.001
92417476|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-26.97|STANDARD_ERROR_OF_MEAN|3.344|<|0.001|TWO_SIDED|97.5|-34.48|-19.46|||mixed-effects model|||Month 4||-19.46|-34.48|< 0.001
92417477|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-62.37|STANDARD_ERROR_OF_MEAN|3.346|<|0.001|TWO_SIDED|97.5|-69.89|-54.86|||mixed-effects model|||Month 4||-54.86|-69.89|< 0.001
92417478|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-23.36|STANDARD_ERROR_OF_MEAN|3.428|<|0.001|TWO_SIDED|97.5|-31.06|-15.66|||mixed-effects model|||Month 5||-15.66|-31.06|< 0.001
92417479|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-62.9|STANDARD_ERROR_OF_MEAN|3.42|<|0.001|TWO_SIDED|97.5|-70.58|-55.22|||mixed-effects model|||Month 5||-55.22|-70.58|< 0.001
92417480|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-25.89|STANDARD_ERROR_OF_MEAN|3.528|<|0.001|TWO_SIDED|97.5|-33.81|-17.97|||mixed-effects model|||Month 6||-17.97|-33.81|< 0.001
92417481|NCT01931670|184722918|SUPERIORITY||LS Mean of Difference|-56.62|STANDARD_ERROR_OF_MEAN|3.522|<|0.001|TWO_SIDED|97.5|-64.53|-48.7|||mixed-effects model|||Month 6||-48.70|-64.53|< 0.001
92417482|NCT01931670|184722919|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.549|TWO_SIDED|97.5|-0.11|0.07|||mixed-effects model|||Month 1||0.07|-0.11|0.549
92417483|NCT01931670|184722919|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.04||0.02|TWO_SIDED|97.5|-0.18|0.0|||mixed-effects model|||Month 1||0.00|-0.18|0.02
92417484|NCT01931670|184722919|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.044||0.11|TWO_SIDED|97.5|-0.17|0.03|||mixed-effects model|||Month 2||0.03|-0.17|0.11
92417485|NCT01931670|184722919|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.043|<|0.001|TWO_SIDED|97.5|-0.3|-0.11|||mixed-effects model|||Month 2||-0.11|-0.30|< 0.001
92417486|NCT01931670|184722919|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05||0.041|TWO_SIDED|97.5|-0.22|0.01|||mixed-effects model|||Month 3||0.01|-0.22|0.041
92417487|NCT01931670|184722919|SUPERIORITY||LS Mean of Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|97.5|-0.41|-0.18|||mixed-effects model|||Month 3||-0.18|-0.41|< 0.001
92417488|NCT01931670|184722919|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.052||0.081|TWO_SIDED|97.5|-0.21|0.03|||mixed-effects model|||Month 4||0.03|-0.21|0.081
92417489|NCT01931670|184722919|SUPERIORITY||LS Mean of Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.052|<|0.001|TWO_SIDED|97.5|-0.45|-0.22|||mixed-effects model|||Month 4||-0.22|-0.45|<0.001
92417490|NCT01931670|184722919|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.054||0.062|TWO_SIDED|97.5|-0.22|0.02|||mixed-effects model|||Month 5||0.02|-0.22|0.062
92169705|NCT04992390|184227914|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|0.46|||<=|0.001|TWO_SIDED|95.0|0.2|0.71||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Scale of Work Engagement and Burnout (SWEBO) - Work Engagement Subscale (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|0.71|0.20|<= 0.001
92235036|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.38|2.01|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.01|1.38|
92387538|NCT06037408|184676167|SUPERIORITY||Mean Difference (Final Values)|-57.13|STANDARD_ERROR_OF_MEAN|2.759||0.0001|TWO_SIDED|95.0|-63.99|-50.27||Sidak's test was used to adjust for multiple comparisons.|ANOVA|Degrees of freedom, 42.19||||-50.27|-63.99|0.0001
92387539|NCT06037408|184676168|SUPERIORITY||Mean Difference (Final Values)|25.12|STANDARD_ERROR_OF_MEAN|4.459|<|0.0001|TWO_SIDED|95.0|13.26|36.99|||ANOVA|Degrees of freedom, 28.16.||||36.99|13.26|<0.0001
92387540|NCT01211340|184676169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||The first analysis examined change from baseline to last available measure prior to death or the end of the study. The pre/post change was calculated for each participant and the Wilcoxon rank sum test was used to compare usual care and intervention groups with respect to changes. All randomized caregivers with at least 1 post baseline measure were included in the analysis.||||.18
92387541|NCT01211340|184676169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|TWO_SIDED|95.0|||||Regression, Linear|No significant difference found between groups||The secondary analysis used a linear mixed model to test for groups differences over time. To account for repeated- measures nature of the data and the varying duration of participation, both participant specific intercept and slopes were treated as random effects. To minimize the leverage of relatively small number of participants with extremely long follow-up times we limited the number of days followed to 122, which was the 75th percentile of the days in the combined study.||||.18
92387542|NCT01211340|184676169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|TWO_SIDED|95.0|||||Spearmans rank|No differences found||To test the effects of the dose of meetings on association with overall Caregiver Perceptions of Pain Medicine Questionaire (CPMQ) change we used Spearman rank correlation coefficient||||.18
92387543|NCT01211340|184676170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|TWO_SIDED|95.0|||||Wilcxon Rank Sum Test|||The first analysis examined change from baseline to last available measure prior to death or the end of the study. The pre/post change was calculated for each participant and the Wilcoxon rank sum test was used to compare usual care and intervention groups with respect to changes. All randomized caregivers with at least 1 post baseline measure were included in the analysis.||||.15
92387544|NCT01211340|184676170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|||||||Regression, Linear|||The secondary analysis used a linear mixed model to test for groups differences over time. To account for repeated- measures nature of the data and the varying duration of participation, both participant specific intercept and slopes were treated as random effects. To minimize the leverage of relatively small number of participants with extremely long follow-up times we limited the number of days followed to 122, which was the 75th percentile of the days in the combined study.||||.15
92387545|NCT01211340|184676171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||The first analysis examined change from baseline to last available measure prior to death or the end of the study. The pre/post change was calculated for each participant and the Wilcoxon rank sum test was used to compare usual care and intervention groups with respect to changes. All randomized caregivers with at least 1 post baseline measure were included in the analysis.||||.89
92417491|NCT01931670|184722919|SUPERIORITY||LS Mean of Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.054|<|0.001|TWO_SIDED|97.5|-0.46|-0.22|||mixed-effects model|||Month 5||-0.22|-0.46|< 0.001
92417492|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-3.04|STANDARD_ERROR_OF_MEAN|2.94||0.301|TWO_SIDED|97.5|-9.64|3.56|||mixed-effects model|||Month 1||3.56|-9.64|0.301
92417493|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-6.43|STANDARD_ERROR_OF_MEAN|2.92||0.028|TWO_SIDED|97.5|-12.99|0.13|||mixed-effects model|||Month 1||0.13|-12.99|0.028
92417494|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-5.17|STANDARD_ERROR_OF_MEAN|2.964||0.082|TWO_SIDED|97.5|-11.82|1.49|||mixed-effects model|||Month 2||1.49|-11.82|0.082
92417495|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-13.19|STANDARD_ERROR_OF_MEAN|2.956|<|0.001|TWO_SIDED|97.5|-19.83|-6.55|||mixed-effects model|||Month 2||-6.55|-19.83|< 0.001
92417496|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-6.84|STANDARD_ERROR_OF_MEAN|3.379||0.043|TWO_SIDED|97.5|-14.43|0.75|||mixed-effects model|||Month 3||0.75|-14.43|0.043
92417497|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-19.05|STANDARD_ERROR_OF_MEAN|3.364|<|0.001|TWO_SIDED|97.5|-26.61|-11.49|||mixed-effects model|||Month 3||-11.49|-26.61|< 0.001
92417498|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-6.25|STANDARD_ERROR_OF_MEAN|3.473||0.072|TWO_SIDED|97.5|-14.05|1.55|||mixed-effects model|||Month 4||1.55|-14.05|0.072
92387546|NCT01211340|184676171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89|||||||Regression, Linear|||The secondary analysis used a linear mixed model to test for groups differences over time. To account for repeated- measures nature of the data and the varying duration of participation, both participant specific intercept and slopes were treated as random effects. To minimize the leverage of relatively small number of participants with extremely long follow-up times we limited the number of days followed to 122, which was the 75th percentile of the days in the combined study.||||.89
92387547|NCT03139344|184676176|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92387548|NCT03139344|184676176|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92387549|NCT03139344|184676177|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92387550|NCT03139344|184676177|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92387551|NCT03139344|184676178|SUPERIORITY|||||||0.011|||||||ANOVA|||||||0.011
92387552|NCT03139344|184676178|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92387553|NCT03139344|184676179|SUPERIORITY|||||||0.148|||||||ANOVA|||||||0.148
92387554|NCT03139344|184676179|SUPERIORITY|||||||0.005|||||||ANOVA|||||||0.005
92387555|NCT03139344|184676180|SUPERIORITY|||||||0.069|||||||ANOVA|||||||0.069
92387556|NCT03139344|184676180|SUPERIORITY|||||||0.003|||||||ANOVA|||||||0.003
92417499|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-21.58|STANDARD_ERROR_OF_MEAN|3.46|<|0.001|TWO_SIDED|97.5|-29.35|-13.81|||mixed-effects model|||Month 4||-13.81|-29.35|< 0.001
92387557|NCT03139344|184676181|SUPERIORITY|||||||0.118|||||||ANOVA|||||||0.118
92387558|NCT03139344|184676181|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.010
92387559|NCT03139344|184676182|SUPERIORITY|||||||0.059|||||||ANOVA|||||||0.059
92417500|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-6.21|STANDARD_ERROR_OF_MEAN|3.536||0.08|TWO_SIDED|97.5|-14.15|1.73|||mixed-effects model|||Month 5||1.73|-14.15|0.08
92278674|NCT00358826|184460035|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
92278675|NCT00358826|184460036|SUPERIORITY_OR_OTHER|||||||0.656||||||Adjusted using Dunnett's method.|ANCOVA|||||||0.656
92278676|NCT00358826|184460036|SUPERIORITY_OR_OTHER|||||||0.863||||||Adjusted using Dunnett's method.|ANCOVA|||||||0.863
92278677|NCT00358826|184460036|SUPERIORITY_OR_OTHER|||||||0.996||||||Adjusted using Dunnett's method.|ANCOVA|||||||0.996
92278678|NCT00358826|184460037|SUPERIORITY_OR_OTHER|||||||0.331||||||Adjusted using Dunnett's method.|ANCOVA|||||||0.331
92278679|NCT00358826|184460037|SUPERIORITY_OR_OTHER|||||||0.606||||||Adjusted using Dunnett's method.|ANCOVA|||||||0.606
92278680|NCT00358826|184460037|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANOVA|||||||<0.001
92387560|NCT03139344|184676182|SUPERIORITY|||||||0.015|||||||ANOVA|||||||0.015
92387561|NCT03139344|184676183|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.010
92387562|NCT03139344|184676183|SUPERIORITY|||||||0.001|||||||ANOVA|||||||0.001
92387563|NCT03139344|184676184|SUPERIORITY|||||||0.036|||||||t-test, 2 sided|||||||0.036
92387564|NCT03139344|184676185|SUPERIORITY|||||||0.345|||||||t-test, 2 sided|||||||0.345
92278681|NCT00358826|184460038|SUPERIORITY_OR_OTHER|||||||0.22||||||Dunnett test compared with Placebo|ANCOVA|||||||0.22
92278682|NCT00358826|184460038|SUPERIORITY_OR_OTHER||||||<|0.005||||||Dunnett test compared with Placebo|ANCOVA|||||||<0.005
92387565|NCT03139344|184676186|SUPERIORITY|||||||0.264|||||||t-test, 2 sided|||||||0.264
92387566|NCT03139344|184676187|SUPERIORITY|||||||0.266|||||||t-test, 2 sided|||||||0.266
92387567|NCT03139344|184676188|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.040
92387568|NCT03139344|184676189|SUPERIORITY|||||||0.109|||||||t-test, 2 sided|||||||0.109
92387569|NCT03139344|184676190|SUPERIORITY|||||||0.895|||||||t-test, 2 sided|||||||0.895
92387570|NCT03139344|184676191|SUPERIORITY|||||||0.573|||||||t-test, 2 sided|paired t-test||||||0.573
92387571|NCT03139344|184676192|SUPERIORITY|||||||0.858|||||||t-test, 2 sided|paired t-test||||||0.858
92387572|NCT04230213|184676193|EQUIVALENCE|Equivalence was to be determined if the 90% confidence interval of the geometric mean ratio falls within the 80% to 125% range.|Geometric mean ratio (percentage)|102.56|||||TWO_SIDED|90.0|89.78|117.17|||||Analysis was performed using analysis of variance (ANOVA) model.|||117.17|89.78|
92387573|NCT04230213|184676194|EQUIVALENCE|Equivalence was to be determined if the 90% confidence interval of the geometric mean ratio falls within the 80% to 125% range.|Geometric mean ratio (Percentage)|105.31|||||TWO_SIDED|90.0|89.16|124.39|||||Analysis was performed using ANOVA model.|||124.39|89.16|
92387574|NCT00524472|184676224|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62||||0.0043|TWO_SIDED|95.0|0.39|0.97||"P-values for combined sites: significant if P \< 0.0085 for efficacy. Adjusted for interim analysis.~Confidence intervals adjusted for interim analysis."|Cochran-Mantel-Haenszel||Hyperinsulinemic-normoglycemic clamp|||0.97|0.39|0.0043
92387575|NCT00524472|184676225|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.29|TWO_SIDED|95.0|0.75|1.13|||Cochran-Mantel-Haenszel||HN vs. standard|||1.13|0.75|0.29
92387576|NCT00524472|184676226|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.99|TWO_SIDED|95.0|0.91|1.21|||Regression, Cox|||||1.21|0.91|0.99
92387577|NCT00524472|184676227|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.13||||0.025|TWO_SIDED|95.0|0.98|1.31|||Regression, Cox||HN vs. Standard|||1.31|0.98|0.025
92387578|NCT00524472|184676228|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.52||||0.12|TWO_SIDED|95.0|0.74|3.11|||Cochran-Mantel-Haenszel||HN vs. standard|||3.11|0.74|0.12
92387579|NCT00524472|184676229|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88||||0.085|TWO_SIDED|95.0|0.72|1.07|||Cochran-Mantel-Haenszel||HN vs. Standard|||1.07|0.72|0.085
92387580|NCT02748070|184676230|OTHER|||||||0.819|||||||t-test, 2 sided|||Comparison of baseline and 1 week||||0.819
92387581|NCT02748070|184676230|OTHER|||||||0.665|||||||t-test, 2 sided|||Comparison of baseline and 1 month||||0.665
92387582|NCT02748070|184676230|OTHER|||||||0.071|||||||t-test, 2 sided|||Comparison of baseline and 3 months||||0.071
92417501|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-21.66|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|97.5|-29.56|-13.75|||mixed-effects model|||Month 5||-13.75|-29.56|< 0.001
92417502|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-10.83|STANDARD_ERROR_OF_MEAN|3.744||0.004|TWO_SIDED|97.5|-19.24|-2.43|||mixed-effects model|||Month 6||-2.43|-19.24|0.004
92417503|NCT01931670|184722920|SUPERIORITY||LS Mean of Difference|-21.16|STANDARD_ERROR_OF_MEAN|3.729|<|0.001|TWO_SIDED|97.5|-29.54|-12.79|||mixed-effects model|||Month 6||-12.79|-29.54|< 0.001
92417504|NCT01931670|184722921|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.059||0.688|TWO_SIDED|97.5|-0.11|0.16|||mixed-effects model|||Month 1||0.16|-0.11|0.688
92417505|NCT01931670|184722921|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.058||0.431|TWO_SIDED|97.5|-0.18|0.08|||mixed-effects model|||Month 1||0.08|-0.18|0.431
92417506|NCT01931670|184722921|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.06||0.277|TWO_SIDED|97.5|-0.2|0.07|||mixed-effects model|||Month 2||0.07|-0.20|0.277
92417507|NCT01931670|184722921|SUPERIORITY||LS Mean of Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|97.5|-0.37|-0.1|||mixed-effects model|||Month 2||-0.10|-0.37|< 0.001
92417508|NCT01931670|184722921|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.071||0.494|TWO_SIDED|97.5|-0.21|0.11|||mixed-effects model|||Month 4||0.11|-0.21|0.494
92417509|NCT01931670|184722921|SUPERIORITY||LS Mean of Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.43|-0.11|||mixed-effects model|||Month 4||-0.11|-0.43|< 0.001
92417510|NCT01931670|184722921|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.072||0.765|TWO_SIDED|97.5|-0.18|0.14|||mixed-effects model|||Month 5||0.14|-0.18|0.765
92235037|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.1|1.42|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.42|1.10|
92417511|NCT01931670|184722921|SUPERIORITY||LS Mean of Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.073|<|0.001|TWO_SIDED|97.5|-0.47|-0.15|||mixed-effects model|||Month 5||-0.15|-0.47|< 0.001
92417512|NCT01931670|184722921|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_DEVIATION|0.076||0.468|TWO_SIDED|97.5|-0.23|0.12|||mixed-effects model|||Month 6||0.12|-0.23|0.468
92417513|NCT01931670|184722921|SUPERIORITY||LS Mean of Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.076|<|0.001|TWO_SIDED|97.5|-0.5|-0.16|||mixed-effects model|||Month 6||-0.16|-0.50|< 0.001
92417514|NCT01931670|184722922|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.04||0.029|TWO_SIDED|97.5|-0.18|0.0|||mixed-effects model|||Month 1||0.00|-0.18|0.029
92417515|NCT01931670|184722922|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.039||0.004|TWO_SIDED|97.5|-0.2|-0.03|||mixed-effects model|||Month 1||-0.03|-0.20|0.004
92417516|NCT01931670|184722922|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.042||0.076|TWO_SIDED|97.5|-0.17|0.02|||mixed-effects model|||Month 2||0.02|-0.17|0.076
92417517|NCT01931670|184722922|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.042|<|0.001|TWO_SIDED|97.5|-0.28|-0.09|||mixed-effects model|||Month 2||-0.09|-0.28|< 0.001
92278683|NCT00358826|184460038|SUPERIORITY_OR_OTHER|||||||0.6||||||Dunnett test compared with Placebo|ANCOVA|||||||0.60
92417518|NCT01931670|184722922|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.045||0.058|TWO_SIDED|97.5|-0.19|0.02|||mixed-effects model|||Month 4||0.02|-0.19|0.058
92417519|NCT01931670|184722922|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.045|<|0.001|TWO_SIDED|97.5|-0.32|-0.12|||mixed-effects model|||Month 4||-0.12|-0.32|< 0.001
92417520|NCT01931670|184722922|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.049||0.284|TWO_SIDED|97.5|-0.16|0.06|||mixed-effects model|||Month 5||0.06|-0.16|0.284
92417521|NCT01931670|184722922|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.048|<|0.001|TWO_SIDED|97.5|-0.33|-0.11|||mixed-effects model|||Month 5||-0.11|-0.33|< 0.001
92417522|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.56|-0.18|||ANOVA|||Month 1||-0.18|-0.56|< 0.001
92417523|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.84|-0.46|||ANOVA|||Month 1||-0.46|-0.84|< 0.001
92417524|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.102|<|0.001|TWO_SIDED|95.0|-0.82|-0.42|||ANOVA|||Month 2||-0.42|-0.82|< 0.001
92417525|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-1.09|STANDARD_ERROR_OF_MEAN|0.102|<|0.001|TWO_SIDED|95.0|-1.29|-0.89|||ANOVA|||Month 2||-0.89|-1.29|< 0.001
92417526|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.106|<|0.001|TWO_SIDED|95.0|-0.84|-0.42|||ANOVA|||Month 3||-0.42|-0.84|< 0.001
92417527|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.106|<|0.001|TWO_SIDED|95.0|-1.35|-0.93|||ANOVA|||Month 3||-0.93|-1.35|< 0.001
92417528|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.109|<|0.001|TWO_SIDED|95.0|-0.84|-0.41|||ANOVA|||Month 4||-0.41|-0.84|< 0.001
92417529|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-1.21|STANDARD_ERROR_OF_MEAN|0.109|<|0.001|TWO_SIDED|95.0|-1.43|-1.0|||ANOVA|||Month 4||-1.00|-1.43|< 0.001
92417530|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.113|<|0.001|TWO_SIDED|95.0|-1.01|-0.57|||ANOVA|||Month 5||-0.57|-1.01|< 0.001
92417531|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.113|<|0.001|TWO_SIDED|95.0|-1.47|-1.02|||ANOVA|||Month 5||-1.02|-1.47|< 0.001
92417532|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-0.95|-0.49|||ANOVA|||Month 6||-0.49|-0.95|< 0.001
92417533|NCT01931670|184722923|SUPERIORITY||LS Mean of Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.117|<|0.001|TWO_SIDED|95.0|-1.5|-1.04|||ANOVA|||Month 6||-1.04|-1.50|< 0.001
92417534|NCT01931670|184722924|SUPERIORITY||LS Mean of Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.12||0.02|TWO_SIDED|97.5|-0.55|-0.01|||mixed-effects model|||Month 1||-0.01|-0.55|0.02
92417535|NCT01931670|184722924|SUPERIORITY||LS Mean of Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.119|<|0.001|TWO_SIDED|97.5|-0.72|-0.18|||mixed-effects model|||Month 1||-0.18|-0.72|< 0.001
92417536|NCT01931670|184722924|SUPERIORITY||LS Mean of Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.137|<|0.001|TWO_SIDED|97.5|-0.85|-0.23|||mixed-effects model|||Month 2||-0.23|-0.85|< 0.001
92417537|NCT01931670|184722924|SUPERIORITY||LS Mean of Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.137|<|0.001|TWO_SIDED|97.5|-1.27|-0.65|||mixed-effects model|||Month 2||-0.65|-1.27|< 0.001
92417538|NCT01931670|184722924|SUPERIORITY||LS Mean of Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.164|<|0.001|TWO_SIDED|97.5|-0.95|-0.21|||mixed-effects model|||Month 4||-0.21|-0.95|< 0.001
92417539|NCT01931670|184722924|SUPERIORITY||LS Mean of Difference|-1.36|STANDARD_ERROR_OF_MEAN|0.164|<|0.001|TWO_SIDED|97.5|-1.72|-0.99|||mixed-effects model|||Month 4||-0.99|-1.72|< 0.001
92417540|NCT01931670|184722924|SUPERIORITY||LS Mean of Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.168|<|0.001|TWO_SIDED|97.5|-0.99|-0.23|||mixed-effects model|||Month 5||-0.23|-0.99|< 0.001
92417541|NCT01931670|184722924|SUPERIORITY||LS Mean of Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.168|<|0.001|TWO_SIDED|97.5|-1.75|-1.0|||mixed-effects model|||Month 5||-1.00|-1.75|< 0.001
92417542|NCT01931670|184722924|SUPERIORITY||LS Mean of Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.175|<|0.001|TWO_SIDED|97.5|-1.08|-0.3|||mixed-effects model|||Month 6||-0.30|-1.08|< 0.001
92417543|NCT01931670|184722924|SUPERIORITY||LS Mean of Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.175|<|0.001|TWO_SIDED|97.5|-1.67|-0.89|||mixed-effects model|||Month 6||-0.89|-1.67|< 0.001
92169706|NCT04992390|184227914|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.61|||<=|0.001|TWO_SIDED|95.0|-0.87|-0.34||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Scale of Work Engagement and Burnout (SWEBO) - Work Burnout Subscale (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.34|-0.87|<= 0.001
92235038|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.14|1.55|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.55|1.14|
92278684|NCT00358826|184460039|SUPERIORITY_OR_OTHER|||||||0.92||||||Dunnett test compared with Placebo|ANCOVA|||||||0.92
92278685|NCT00358826|184460039|SUPERIORITY_OR_OTHER|||||||0.96||||||Dunnett test compared with Placebo|ANCOVA|||||||0.96
92417544|NCT01931670|184722925|SUPERIORITY||Difference in LS Means|-4.2|STANDARD_ERROR_OF_MEAN|1.55||0.007|TWO_SIDED|95.0|-7.25|-1.16|||ANCOVA|||Month 1||-1.16|-7.25|0.007
92417545|NCT01931670|184722925|SUPERIORITY||Difference in LS Means|-7.55|STANDARD_ERROR_OF_MEAN|1.55|<|0.001|TWO_SIDED|95.0|-10.6|-4.5|||ANCOVA|||Month 1||-4.50|-10.6|< 0.001
92417546|NCT01931670|184722925|SUPERIORITY||Difference in LS Means|-7.33|STANDARD_ERROR_OF_MEAN|1.74|<|0.001|TWO_SIDED|95.0|-10.75|-3.91|||ANCOVA|||Month 3||-3.91|-10.75|< 0.001
92417547|NCT01931670|184722925|SUPERIORITY||Difference in LS Means|-15.43|STANDARD_ERROR_OF_MEAN|1.75|<|0.001|TWO_SIDED|95.0|-18.87|-11.99|||ANCOVA|||Month 3||-11.99|-18.87|< 0.001
92417548|NCT01931670|184722925|SUPERIORITY||Difference in LS Means|-8.7|STANDARD_ERROR_OF_MEAN|2.09|<|0.001|TWO_SIDED|95.0|-12.81|-4.6|||ANCOVA|||Month 6||-4.60|-12.81|< 0.001
92417549|NCT01931670|184722925|SUPERIORITY||Difference in LS Means|-16.92|STANDARD_ERROR_OF_MEAN|2.07|<|0.001|TWO_SIDED|95.0|-20.98|-12.86|||ANCOVA|||Month 6||-12.86|-20.98|< 0.001
92417550|NCT01931670|184722926|SUPERIORITY||Difference in LS Means|-0.57|STANDARD_ERROR_OF_MEAN|1.95||0.77|TWO_SIDED|95.0|-4.4|3.26|||ANCOVA|||Month 1||3.26|-4.40|0.77
92417551|NCT01931670|184722926|SUPERIORITY||Difference in LS Means|-4.4|STANDARD_ERROR_OF_MEAN|1.93||0.023|TWO_SIDED|95.0|-8.19|-0.61|||ANCOVA|||Month 1||-0.61|-8.19|0.023
92417552|NCT01931670|184722926|SUPERIORITY||Difference in LS Means|-2.74|STANDARD_ERROR_OF_MEAN|2.42||0.257|TWO_SIDED|95.0|-7.5|2.01|||ANCOVA|||Month 3||2.01|-7.50|0.257
92417553|NCT01931670|184722926|SUPERIORITY||Difference in LS Means|-10.69|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-15.37|-6.01|||ANCOVA|||Month 3||-6.01|-15.37|< 0.001
92417554|NCT01931670|184722926|SUPERIORITY||Difference in LS Means|-2.93|STANDARD_ERROR_OF_MEAN|2.91||0.315|TWO_SIDED|95.0|-8.66|2.8|||ANCOVA|||Month 6||2.80|-8.66|0.315
92417555|NCT01931670|184722926|SUPERIORITY||Difference in LS Means|-14.1|STANDARD_ERROR_OF_MEAN|2.82|<|0.001|TWO_SIDED|95.0|-19.64|-8.55|||ANCOVA|||Month 6||-8.55|-19.64|< 0.001
92417556|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-1.01|STANDARD_ERROR_OF_MEAN|0.43||0.019|TWO_SIDED|95.0|-1.86|-0.17|||ANCOVA|||Month 1||-0.17|-1.86|0.019
92417557|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-0.95|STANDARD_ERROR_OF_MEAN|0.433||0.028|TWO_SIDED|95.0|-1.8|-0.1|||ANCOVA|||Month 1||-0.10|-1.80|0.028
92417558|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-0.98|STANDARD_ERROR_OF_MEAN|0.397||0.014|TWO_SIDED|95.0|-1.76|-0.2|||ANCOVA|||Month 2||-0.20|-1.76|0.014
92417559|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-1.44|STANDARD_ERROR_OF_MEAN|0.397|<|0.001|TWO_SIDED|95.0|-2.22|-0.65|||ANCOVA|||Month 2||-0.65|-2.22|< 0.001
92417560|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.432||0.121|TWO_SIDED|95.0|-1.52|0.18|||ANCOVA|||Month 3||0.18|-1.52|0.121
92417561|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-1.41|STANDARD_ERROR_OF_MEAN|0.431||0.001|TWO_SIDED|95.0|-2.25|-0.56|||ANCOVA|||Month 3||-0.56|-2.25|0.001
92417562|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-1.25|STANDARD_ERROR_OF_MEAN|0.561||0.026|TWO_SIDED|95.0|-2.35|-0.15|||ANCOVA|||Month 4||-0.15|-2.35|0.026
92417563|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-1.48|STANDARD_ERROR_OF_MEAN|0.555||0.008|TWO_SIDED|95.0|-2.57|-0.39|||ANCOVA|||Month 4||-0.39|-2.57|0.008
92417564|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-0.73|STANDARD_ERROR_OF_MEAN|0.327||0.027|TWO_SIDED|95.0|-1.37|-0.08|||ANCOVA|||Month 5||-0.08|-1.37|0.027
92417565|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-1.11|STANDARD_ERROR_OF_MEAN|0.327|<|0.001|TWO_SIDED|95.0|-1.75|-0.47|||ANCOVA|||Month 5||-0.47|-1.75|< 0.001
92417566|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.391||0.143|TWO_SIDED|95.0|-1.34|0.2|||ANCOVA|||Month 6||0.20|-1.34|0.143
92417567|NCT01931670|184722927|SUPERIORITY||Difference in LS Means|-0.91|STANDARD_ERROR_OF_MEAN|0.385||0.019|TWO_SIDED|95.0|-1.67|-0.15|||ANCOVA|||Month 6||-0.15|-1.67|0.019
92417568|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.415||0.131|TWO_SIDED|95.0|-1.44|0.19|||ANCOVA|||Month 1||0.19|-1.44|0.131
92417569|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-0.85|STANDARD_ERROR_OF_MEAN|0.409||0.037|TWO_SIDED|95.0|-1.65|-0.05|||ANCOVA|||Month 1||-0.05|-1.65|0.037
92417570|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-1.12|STANDARD_ERROR_OF_MEAN|0.423||0.008|TWO_SIDED|95.0|-1.96|-0.29|||ANCOVA|||Month 2||-0.29|-1.96|0.008
92417571|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-1.44|STANDARD_ERROR_OF_MEAN|0.426|<|0.001|TWO_SIDED|95.0|-2.27|-0.6|||ANCOVA|||Month 2||-0.60|-2.27|< 0.001
92278686|NCT00358826|184460039|SUPERIORITY_OR_OTHER|||||||1||||||Dunnett test compared with Placebo|ANCOVA|||||||1.00
92278687|NCT00358826|184460040|SUPERIORITY_OR_OTHER|||||||0.99||||||Dunnett test compared with Placebo|ANCOVA|||||||0.99
92278688|NCT00358826|184460040|SUPERIORITY_OR_OTHER|||||||0.11||||||Dunnett test compared with Placebo|ANCOVA|||||||0.11
92278689|NCT00358826|184460040|SUPERIORITY_OR_OTHER|||||||0.99||||||Dunnett test compared with Placebo|ANCOVA|||||||0.99
92278690|NCT00283686|184460041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.52|TWO_SIDED|95.0|-0.8|5.0||adjusted for age, sex, race, baseline estimated GFR, and clinical site.|Mixed Models Analysis|Test for differences between treatment groups over time.||||5.0|-0.8|0.52
92278691|NCT00283686|184460041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.006|TWO_SIDED|95.0|-1.6|-0.2||adjusted for age, sex, race, baseline estimated GFR, and clinical site.|Mixed Models Analysis|Testing differences between blood pressure groups over time||||-0.2|-1.6|0.006
92278692|NCT00283686|184460042|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.52|TWO_SIDED|95.0|-0.6|0.3||adjusting for age, sex, race, and clinical site|Mixed Models Analysis|Testing for differences in treatment over time (differences in slopes over time).||||0.3|-0.6|0.52
92278693|NCT00283686|184460042|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.55|TWO_SIDED|95.0|-0.3|0.6||adjusted for age, sex, race, and clinical site|Mixed Models Analysis|Testing for differences between groups over time (differences in slopes over time)||||0.6|-0.3|0.55
92278694|NCT00283686|184460043|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.57|TWO_SIDED|95.0|-3.3|1.9|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||1.9|-3.3|0.57
92278695|NCT00283686|184460043|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|||<|0.0001|TWO_SIDED|95.0|-8.5|-3.4|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||-3.4|-8.5|<0.0001
92278696|NCT00283686|184460044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||0.18|TWO_SIDED|95.0|-3.1|0.6|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||0.6|-3.1|0.18
92278697|NCT00283686|184460044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.19|TWO_SIDED|95.0|-3.1|0.6|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||0.6|-3.1|0.19
92278698|NCT00283686|184460045|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.088||||0.58|TWO_SIDED|95.0|-0.4|0.22|||Mixed Models Analysis|adjusted for age, sex, race, baseline estimated GFR, and clinical site|comparing the annual change over time between ACE/ARB and ACE alone|||0.22|-0.40|0.58
92278699|NCT00283686|184460045|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.6||||0.0002|TWO_SIDED|95.0|-0.91|-0.29|||Mixed Models Analysis|adjusted for age, sex, race, baseline estimated GFR, and clinical site|comparing annual change in LVMI between Low Blood Pressure and Standard Blood Pressure groups|||-0.29|-0.91|0.0002
92278700|NCT00283686|184460046|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.97||||0.29|TWO_SIDED|95.0|-2.55|8.5|||Mixed Models Analysis|adjusted for age, sex, race, baseline estimated GFR, and clinical site|difference in annual change in mL/min/1.73 m\^2 for ACE+ARB compared to ACE alone|||8.50|-2.55|0.29
92278701|NCT00283686|184460046|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.98||||0.73|TWO_SIDED|95.0|-4.54|6.5|||Mixed Models Analysis|adjusting for age, sex, race, baseline estimated GFR, and clinical site|difference in annual change mL/min/1.73 m\^2 between low and standard blood pressure groups|||6.50|-4.54|0.73
92278702|NCT00283686|184460047|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.0228|TWO_SIDED|95.0|0.53|0.95|||Regression, Cox|adjusting for age, sex, race, and clinical site||||0.95|0.53|0.0228
92278703|NCT00283686|184460047|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.59|TWO_SIDED|95.0|0.7|1.22|||Regression, Cox|adjusting for age, sex, race, and clinical site||||1.22|0.70|0.59
92278704|NCT00283686|184460048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.016||||0.87|TWO_SIDED|95.0|-0.19|0.17|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||0.17|-0.19|0.87
92278705|NCT00283686|184460048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13||||0.14|TWO_SIDED|95.0|-0.046|0.31|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||0.31|-0.046|0.14
92278706|NCT00283686|184460049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25||||0.0221|TWO_SIDED|95.0|0.036|0.46|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||0.46|0.036|0.0221
92278707|NCT00283686|184460049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23||||0.0339|TWO_SIDED|95.0|-0.44|-0.018|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||-0.018|-0.44|0.0339
92278708|NCT00696709|184460052|OTHER||||||<|0.0001||||||The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|Longitudinal regression (LR)|Calculated based on LR model (adjusting for pre-vaccination immunogenicity level and incomplete data) with visit as covariate.||||||<0.0001
92278709|NCT00696709|184460053|OTHER||||||<|0.0001||||||The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|Longitudinal regression (LR)|Calculated based on LR model (adjusting for pre-vaccination immunogenicity level and incomplete data) with visit as covariate.||||||<0.0001
92387583|NCT02748070|184676230|OTHER|||||||0.097|||||||t-test, 2 sided|||Comparison of baseline and 6 months||||0.097
92387584|NCT02748070|184676231|OTHER|||||||0.376|||||||t-test, 2 sided|||Comparison of baseline and 1 week||||0.376
92387585|NCT02748070|184676231|OTHER|||||||0.685|||||||t-test, 2 sided|||Comparison of baseline and 1 month||||0.685
92387586|NCT02748070|184676231|OTHER|||||||0.388|||||||t-test, 2 sided|||Comparison of baseline and 3 months||||0.388
92387587|NCT02748070|184676231|OTHER|||||||0.233|||||||t-test, 2 sided|||Comparison of baseline and 6 months||||0.233
92417572|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-0.91|STANDARD_ERROR_OF_MEAN|0.434||0.036|TWO_SIDED|95.0|-1.76|-0.06|||ANCOVA|||Month 3||-0.06|-1.76|0.036
92417573|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-0.91|STANDARD_ERROR_OF_MEAN|0.431||0.035|TWO_SIDED|95.0|-1.76|-0.06|||ANCOVA|||Month 3||-0.06|-1.76|0.035
92235039|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.14|1.43|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.43|1.14|
92387588|NCT00928694|184676242|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence bounds = (0.80, 1.25) Study Primary Hypothesis: Single 160 mg doses of the U.S. and UK formulations of fenofibrate following consumption of a standard breakfast are bioequivalent (the true geometric mean ratios (GMRs) \[U.S./UK\] for the AUC(0 to infinity) and maximum plasma concentration (Cmax) of fenofibric acid after administration of the U.S. and UK formulations of fenofibrate with food are contained in the interval \[0.80, 1.25\]).|Geometric Mean Ratio|0.96||||||90.0|0.9|1.02||||||||1.02|0.90|
92387589|NCT00928694|184676243|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence bounds = (0.80, 1.25) Study Primary Hypothesis: Single 160 mg doses of the U.S. and UK formulations of fenofibrate following consumption of a standard breakfast are bioequivalent (the true GMRs \[U.S./UK\] for the AUC(0 to infinity) and Cmax of fenofibric acid after administration of the U.S. and UK formulations of fenofibrate with food are contained in the interval \[0.80, 1.25\]).|Geometric Mean Ratio|0.98||||||90.0|0.9|1.06||||||||1.06|0.90|
92387590|NCT04412707|184676271|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|Adjusted geometric mean ratio (GMR)|0.946|||||TWO_SIDED|90.0|0.849|1.053|||||CVC vs. PVC, where CVC is numerator and PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs. central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.053|0.849|
92387591|NCT04412707|184676272|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|Adjusted geometric mean ratio (GMR)|0.952|||||TWO_SIDED|90.0|0.861|1.053|||||CVC vs. PVC, where CVC is numerator and PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs. central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.053|0.861|
92387592|NCT04412707|184676273|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|Adjusted geometric mean ratio (GMR)|0.955|||||TWO_SIDED|90.0|0.863|1.058|||||CVC vs. PVC, where CVC is numerator and PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs. central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.058|0.863|
92417574|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-0.34|STANDARD_ERROR_OF_MEAN|0.453||0.452|TWO_SIDED|95.0|-1.23|0.55|||ANCOVA|||Month 4||0.55|-1.23|0.452
92417575|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-1.33|STANDARD_ERROR_OF_MEAN|0.432||0.002|TWO_SIDED|95.0|-2.18|-0.48|||ANCOVA|||Month 4||-0.48|-2.18|0.002
92417576|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-1.12|STANDARD_ERROR_OF_MEAN|0.443||0.012|TWO_SIDED|95.0|-1.99|-0.25|||ANCOVA|||Month 5||-0.25|-1.99|0.012
92417577|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-1.64|STANDARD_ERROR_OF_MEAN|0.439|<|0.001|TWO_SIDED|95.0|-2.5|-0.78|||ANCOVA|||Month 5||-0.78|-2.5|< 0.001
92169707|NCT04992390|184227915|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Incidence Rate Ratio|1.5|||>|0.05|TWO_SIDED|95.0|0.64|3.51||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Poisson|||ITT analysis for Sickness absence (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|3.51|0.64|> .05
92235040|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.5|||||TWO_SIDED|95.0|1.28|1.67|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.67|1.28|
92169708|NCT04992390|184227916|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.86|||>|0.05|TWO_SIDED|95.0|-2.2|0.49||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intention to leave job (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|0.49|-2.20|> .05
92235041|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.2|||||TWO_SIDED|95.0|1.8|2.6|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.60|1.80|
92387593|NCT04412707|184676275|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|adjusted geometric mean ratio (GMR)|0.948|||||TWO_SIDED|90.0|0.736|1.222|||||CVC vs PVC CVC is numerator and PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|For melflufen: Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.222|0.736|
92387594|NCT04412707|184676275|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|[adjusted geometric mean ratio (GMR)]|0.846|||||TWO_SIDED|90.0|0.748|0.957|||||CVC vs PVC CVC is numerator and PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|For desmethyl-melflufen: Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||0.957|0.748|
92387595|NCT04412707|184676276|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|adjusted geometric mean ratio (GMR)|0.877|||||TWO_SIDED|90.0|0.684|1.126|||||Data above refer to meflufen. CVC vs PVC CVC is numerator, PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.126|0.684|
92387596|NCT04412707|184676276|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|adjusted geometric mean ratio (GMR)|0.897|||||TWO_SIDED|90.0|0.819|0.982|||||Data above refer to desethyl-melflufen. CVC vs PVC CVC is numerator, PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||0.982|0.819|
92387597|NCT04412707|184676277|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|adjusted geometric mean ratio (GMR)|0.877|||||TWO_SIDED|90.0|0.684|1.124|||||Data above refer to melflufen. CVC vs PVC CVC is numerator, PVC is denominator. Linear Mixed Effect Model included terms for period, sequence \& administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.124|0.684|
92387598|NCT04412707|184676277|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|adjusted geometric mean ratio (GMR)|0.908|||||TWO_SIDED|90.0|0.833|0.989|||||Data above refer to desethyl-melflufen. CVC vs PVC CVC is numerator, PVC is denominator. Linear Mixed Effect Model included terms for period, sequence \& administration route as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||0.989|0.833|
92387599|NCT00699608|184676329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.267||95.0|-2.74|0.76|||ANCOVA|ANCOVA used (fixed effects: adjusted period baseline, participant baseline, age, gender, period and treatment group; random effect: participant).||||0.76|-2.74|0.267
92169709|NCT04992390|184227917|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Incidence Rate Ratio|0.8|||>|0.05|TWO_SIDED|95.0|0.6|1.07||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Poisson|||ITT analysis for number of days worked (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|1.07|0.60|>.05
92235042|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.53|2.31|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.31|1.53|
92417578|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-0.73|STANDARD_ERROR_OF_MEAN|0.478||0.13|TWO_SIDED|95.0|-1.67|0.21|||ANCOVA|||Month 6||0.21|-1.67|0.13
92278710|NCT00696709|184460054|OTHER||||||<|0.0001||||||The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|Longitudinal regression (LR)|Calculated based on LR model (adjusting for pre-vaccination immunogenicity level and incomplete data) with visit as covariate.||||||<0.0001
92278711|NCT00696709|184460055|OTHER|The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|||||<|0.0001|||||||Longitudinal data analysis (LDA)|LDA with log-transformed VZV responses at each visit as response variables and visit as covariate.||||||<0.0001
92278712|NCT00696709|184460056|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-10.8|5.7|||||Miettinen \& Nurminen|||5.7|-10.8|
92278713|NCT00696709|184460056|OTHER||Difference in Percentage|1.6|||||TWO_SIDED|95.0|-9.2|8.8|||||Miettinen \& Nurminen|||8.8|-9.2|
92278714|NCT00696709|184460057|OTHER||Difference in Percentage|35.9|||<|0.001|TWO_SIDED|95.0|15.2|52.6|||Miettinen & Nurminen|||||52.6|15.2|<0.001
92278715|NCT00696709|184460057|OTHER||Difference in Percentage|40.4|||<|0.001|TWO_SIDED|95.0|19.6|57.0|||Miettinen & Nurminen|||||57.0|19.6|<0.001
92278716|NCT00696709|184460058|OTHER||Difference in Percentage|-4.7|||||TWO_SIDED|95.0|-25.3|16.1|||||Miettinen \& Nurminen|||16.1|-25.3|
92278717|NCT00696709|184460058|OTHER||Difference in Percentage|4.1|||||TWO_SIDED|95.0|-16.9|24.9|||||Miettinen \& Nurminen|||24.9|-16.9|
92278718|NCT00696709|184460059|OTHER||Difference in Percentage|1.6||||0.48|TWO_SIDED|95.0|-9.3|8.4|||Miettinen & Nurminen|||||8.4|-9.3|0.480
92278719|NCT00696709|184460059|OTHER||Difference in Percentage|1.6||||0.469|TWO_SIDED|95.0|-9.2|8.8|||Miettinen & Nurminen|||||8.8|-9.2|0.469
92278720|NCT00696709|184460060|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-10.8|5.7|||||Miettinen \& Nurminen|||5.7|-10.8|
92278721|NCT00696709|184460060|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-10.8|6.0|||||Miettinen \& Nurminen|||6.0|-10.8|
92278722|NCT01261325|184460076|SUPERIORITY_OR_OTHER_LEGACY||Percent reduction over PBO|22.8|||<|0.001|TWO_SIDED|95.0|13.3|31.2||"Type I error rate of 0.05 based on a Hochberg multiple comparison procedure would be considered statistically significant or similar, as accurate and appropriate."|ANCOVA|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||31.2|13.3|<0.001
92278723|NCT01261325|184460076|SUPERIORITY_OR_OTHER_LEGACY||Percent reduction over PBO|23.2|||<|0.001|TWO_SIDED|95.0|13.8|31.6||Statistically significant with control of Type I error rate based on a Hochberg multiple comparison procedure.|ANCOVA|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||31.6|13.8|<0.001
92278724|NCT01261325|184460077|SUPERIORITY_OR_OTHER_LEGACY||Odds ratio (BRV versus PBO)|2.39|||<|0.001|TWO_SIDED|95.0|1.6|3.6||Statistically significant with control of Type I error rate based on a Hochberg multiple comparison procedure.|Regression, Logistic|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||3.6|1.6|<0.001
92278725|NCT01261325|184460077|SUPERIORITY_OR_OTHER_LEGACY||Odds ratio (BRV versus PBO)|2.19|||<|0.001|TWO_SIDED|95.0|1.5|3.3||Statistically significant with control of Type I error rate based on a Hochberg multiple comparison procedure.|Regression, Logistic|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||3.3|1.5|<0.001
92278726|NCT01261325|184460078|SUPERIORITY_OR_OTHER_LEGACY||Median difference vs placebo|15.8|||<|0.001|TWO_SIDED|95.0|7.6|24.2||Statistically significant at a nominal 0.050 significance level.|Wilcoxon (Mann-Whitney)||Hodges-Lehmann non-parametric effect estimates and corresponding two-sided 95% confidence intervals are provided above.|||24.2|7.6|<0.001
92278727|NCT01261325|184460078|SUPERIORITY_OR_OTHER_LEGACY||Median difference vs placebo|18.1|||<|0.001|TWO_SIDED|95.0|10.4|26.4||Statistically significant at a nominal 0.050 significance level.|Wilcoxon (Mann-Whitney)||Hodges-Lehmann non-parametric effect estimates and corresponding two-sided 95% confidence intervals are provided above.|||26.4|10.4|<0.001
92278728|NCT01261325|184460082|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|95.0|0.56|0.82||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.|Hazard ratio is Brivaracetam versus Placebo.|||0.82|0.56|<0.001
92278729|NCT01261325|184460082|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65|||<|0.001|TWO_SIDED|95.0|0.54|0.79||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.|Hazard ratio is Brivaracetam versus Placebo.|||0.79|0.54|<0.001
92417579|NCT01931670|184722928|SUPERIORITY||Difference in LS Means|-1.45|STANDARD_ERROR_OF_MEAN|0.454||0.001|TWO_SIDED|95.0|-2.34|-0.56|||ANCOVA|||Month 6||-0.56|-2.34|0.001
92387600|NCT03329092|184676367|OTHER||Difference in clinical cure rate|2.7|||||TWO_SIDED|95.0|-6.6|12.4|||||The confidence interval (CI) for the difference was calculated using the unstratified Miettinen and Nurminen method.|||12.4|-6.6|
92387601|NCT03329092|184676368|OTHER||Difference in clinical cure rate|2.7|||||TWO_SIDED|95.0|-7.0|13.2|||||The CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||13.2|-7.0|
92387602|NCT03329092|184676369|OTHER||Difference in clinical cure rate|0.5|||||TWO_SIDED|95.0|-10.2|12.1|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||12.1|-10.2|
92387603|NCT03329092|184676370|OTHER||Difference in clinical cure rate|2.6|||||TWO_SIDED|95.0|-8.4|14.7|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||14.7|-8.4|
92387604|NCT03329092|184676371|OTHER||Difference in clinical cure rate|2.4|||||TWO_SIDED|95.0|-7.4|13.0|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|cIAI||13.0|-7.4|
92387605|NCT03329092|184676371|OTHER||Difference in clinical cure rate|4.3|||||TWO_SIDED|95.0|-15.5|23.1|||Difference||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|HAP/VAP||23.1|-15.5|
92387606|NCT03329092|184676372|OTHER||Difference in clinical cure rate|5.6|||||TWO_SIDED|95.0|-4.0|16.6|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|cIAI||16.6|-4.0|
92387607|NCT03329092|184676372|OTHER||Difference in clinical cure rate|-7.9|||||TWO_SIDED|95.0|-31.9|17.3|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|HAP/VAP||17.3|-31.9|
92387608|NCT03329092|184676399|OTHER||Difference in clinical cure rate|2.3|||||TWO_SIDED|95.0|-6.2|11.5|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||11.5|-6.2|
92387609|NCT03329092|184676400|OTHER||Difference in clinical cure|-1.2|||||TWO_SIDED|95.0|-10.7|9.4|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||9.4|-10.7|
92387610|NCT03329092|184676401|OTHER||Difference in clinical cure|0.3|||||TWO_SIDED|95.0|-8.3|9.9|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||9.9|-8.3|
92387611|NCT03329092|184676402|OTHER||Difference in clinical cure rate|1.0|||||TWO_SIDED|95.0|-8.5|12.0|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||12.0|-8.5|
92387612|NCT03329092|184676403|OTHER||Difference in clinical cure rate|1.9|||||TWO_SIDED|95.0|-6.9|11.9|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|cIAI||11.9|-6.9|
92387613|NCT03329092|184676403|OTHER||Difference in clinical cure rate|3.9|||||TWO_SIDED|95.0|-15.2|23.4|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|HAP/VAP||23.4|-15.2|
92387614|NCT03329092|184676404|OTHER||Difference in clinical cure rate|3.1|||||TWO_SIDED|95.0|-5.2|13.2|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|cIAI||13.2|-5.2|
92387615|NCT03329092|184676404|OTHER||Difference in clinical cure rate|-10.4|||||TWO_SIDED|95.0|-32.6|14.9|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|HAP/VAP||14.9|-32.6|
92387616|NCT00856544|184676443|SUPERIORITY_OR_OTHER||Percent difference|27.04|||<|0.0001|TWO_SIDED|95.0|17.94|36.13||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation to the binomial distribution was used to test the superiority of each dose of CP-690,550 10 mg to placebo and 2-sided 95% confidence interval (CI) was evaluated for the difference in percentages.||36.13|17.94|<0.0001
92387617|NCT00856544|184676443|SUPERIORITY_OR_OTHER||Percent Difference|21.52|||<|0.0001|TWO_SIDED|95.0|12.39|30.65||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal Approximation|||Normal approximation to the binomial distribution was used to test the superiority of each dose of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||30.65|12.39|<0.0001
92387618|NCT00856544|184676444|SUPERIORITY_OR_OTHER||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.44|-0.26||A step-down procedure was used to control for multiple comparisons. For the comparison of 10 mg to placebo to be statistically significant, the comparison of 10 mg to placebo in ACR20 had to be significant.|Mixed Models Analysis|||Least squares mean difference (LS Mean Difference) and corresponding 95% CI was calculated using a mixed effect repeated measure model with treatments, visits and treatment-by-visit interaction as fixed effects and participants as a random effect.||-0.26|-0.44|<0.0001
92387619|NCT00856544|184676444|SUPERIORITY_OR_OTHER||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.35|-0.16||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in ACR20 had to be statistically significant.|Mixed Models Analysis|||LS Mean Difference and corresponding 95% CI was calculated using a mixed effect repeated measure model with treatments, visits and treatment-by-visit interaction as fixed effects and participants as a random effect.||-0.16|-0.35|<0.0001
92387620|NCT00856544|184676445|SUPERIORITY_OR_OTHER||Percent difference|10.63|||<|0.0001|TWO_SIDED|95.0|5.8|15.45||A step-down procedure was used to control for multiple comparisons. For the comparison of 10 mg to placebo to be statistically significant, the comparison of 10 mg to placebo in HAQ-DI had to be significant.|Normal Approximation|||Normal approximation to the binomial distribution was used to test the superiority of each dose of CP-690,550 10 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||15.45|5.80|<0.0001
92387621|NCT00856544|184676445|SUPERIORITY_OR_OTHER||Percent difference|6.42||||0.0038|TWO_SIDED|95.0|2.07|10.77||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in HAQ-DI had to be statistically significant.|Normal Approximation|||Normal approximation to the binomial distribution was used to test the superiority of each dose of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||10.77|2.07|0.0038
92417580|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-1.34|STANDARD_ERROR_OF_MEAN|1.01||0.186|TWO_SIDED|95.0|-3.32|0.65|||ANCOVA|||Month 1||0.65|-3.32|0.186
92417581|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-3.09|STANDARD_ERROR_OF_MEAN|1.013||0.002|TWO_SIDED|95.0|-5.08|-1.1|||ANCOVA|||Month 1||-1.10|-5.08|0.002
92169710|NCT04992390|184227918|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Incidence Rate Ratio|1.09|||<|0.05|TWO_SIDED|95.0|0.57|2.09||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Poisson|||ITT analysis for number of nights worked (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|2.09|0.57|<.05
92169711|NCT03358875|184227953|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.527|0.778||OS in the ITT population was tested at one-sided p value boundary of 0.0120.|1-sided Log Rank Test|Stratified by stratification factors: histology (squamous vs non-squamous), line of therapy (second vs third), and PDL1 expression (≥25% vs \<25% TC).|A stratified Cox proportional hazards model with Efron's method of tie handling was used to determine hazard ratio (HR) and its 95% confidence interval (CI).|||0.778|0.527|<0.0001
92169712|NCT03358875|184227954|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.407|0.702||OS in the PD-L1 positive analysis set was tested at the one-sided p-value boundary of 0.025.|1-sided Log Rank Test|Stratified by stratification factors: histology (squamous vs non-squamous) and line of therapy (second vs third).||||0.702|0.407|<0.0001
92417582|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-1.31|STANDARD_ERROR_OF_MEAN|1.005||0.195|TWO_SIDED|95.0|-3.28|0.67|||ANCOVA|||Month 2||0.67|-3.28|0.195
92417583|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-3.65|STANDARD_ERROR_OF_MEAN|1.007|<|0.001|TWO_SIDED|95.0|-5.63|-1.67|||ANCOVA|||Month 2||-1.67|-5.63|< 0.001
92417584|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-2.03|STANDARD_ERROR_OF_MEAN|1.02||0.047|TWO_SIDED|95.0|-4.03|-0.02|||ANCOVA|||Month 3||-0.02|-4.03|0.047
92169713|NCT03358875|184227955|SUPERIORITY||Odds Ratio (OR)|3.86|||<|0.0001|TWO_SIDED|95.0|2.336|6.393|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) chi-square test stratified by histology, line of therapy, and PDL1 expression.||||6.393|2.336|<0.0001
92169714|NCT03358875|184227956|SUPERIORITY||Odds Ratio (OR)|8.04|||<|0.0001|TWO_SIDED|95.0|3.721|17.379|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) chi-square test stratified by histology and line of therapy.||||17.379|3.721|<0.0001
92169715|NCT03358875|184227957|SUPERIORITY||Hazard Ratio (HR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.176|0.536|||Log Rank|Stratified by stratification factors: histology (squamous vs non-squamous), line of therapy (second vs third), and PDL1 expression (≥25% vs \<25% TC).|A stratified Cox proportional hazards model with Efron's method of tie handling was used to determine hazard ratio (HR) and its 95% CI.|||0.536|0.176|<0.0001
92169716|NCT03358875|184227958|SUPERIORITY||Hazard Ratio (HR)|0.16|||<|0.0001|TWO_SIDED|95.0|0.066|0.37|||Log Rank|Stratified by stratification factors: histology (squamous vs non-squamous) and line of therapy (second vs third).|A stratified Cox proportional hazards model with Efron's method of tie handling was used to determine hazard ratio (HR) and its 95% CI.|||0.370|0.066|<0.0001
92169717|NCT03358875|184227959|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.528|0.745|||Log Rank|Stratified by stratification factors: histology (squamous vs non-squamous), line of therapy (second vs third), and PDL1 expression (≥25% vs \<25% TC).|A stratified Cox proportional hazards model with Efron's method of tie handling was used to determine hazard ratio (HR) and its 95% CI.|||0.745|0.528|<0.0001
92417585|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-3.2|STANDARD_ERROR_OF_MEAN|1.021||0.002|TWO_SIDED|95.0|-5.21|-1.19|||ANCOVA|||Month 3||-1.19|-5.21|0.002
92278730|NCT01261325|184460083|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65|||<|0.001|TWO_SIDED|95.0|0.53|0.8||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.|Hazard ratio is Brivaracetam versus Placebo.|||0.80|0.53|<0.001
92169718|NCT03358875|184227960|SUPERIORITY||Hazard Ratio (HR)|0.38|||<|0.0001|TWO_SIDED|95.0|0.285|0.494|||Log Rank|Stratified by stratification factors: histology (squamous vs non-squamous) and line of therapy (second vs third).|A stratified Cox proportional hazards model with Efron's method of tie handling was used to determine hazard ratio (HR) and its 95% confidence interval (CI).|||0.494|0.285|<0.0001
92169719|NCT03358875|184227961|OTHER||Least Squares (LS) Mean Difference|5.7||||0.0008|TWO_SIDED|95.0|2.38|9.07|||Mixed Models Analysis|||The linear mixed-effect model for repeated measures (MMRM) includes baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects and visit as a repeated measure.||9.07|2.38|0.0008
92169720|NCT03358875|184227962|OTHER||LS Mean Difference|-8.3||||0.0007|TWO_SIDED|95.0|-13.02|-3.51|||Mixed Models Analysis|||Analysis of Change from Baseline in Coughing Scale. The linear mixed-effect model for repeated measures (MMRM) includes baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects and visit as a repeated measure.||-3.51|-13.02|0.0007
92417586|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-1.63|STANDARD_ERROR_OF_MEAN|0.998||0.103|TWO_SIDED|95.0|-3.59|0.33|||ANCOVA|||Month 4||0.33|-3.59|0.103
92417587|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-4.78|STANDARD_ERROR_OF_MEAN|0.99|<|0.001|TWO_SIDED|95.0|-6.72|-2.83|||ANCOVA|||Month 4||-2.83|-6.72|< 0.001
92417588|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-2.29|STANDARD_ERROR_OF_MEAN|0.97||0.019|TWO_SIDED|95.0|-4.2|-0.38|||ANCOVA|||Month 5||-0.38|-4.20|0.019
92417589|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-5.14|STANDARD_ERROR_OF_MEAN|0.975|<|0.001|TWO_SIDED|95.0|-7.06|-3.22|||ANCOVA|||Month 5||-3.22|-7.06|< 0.001
92417590|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-0.97|STANDARD_ERROR_OF_MEAN|1.112||0.383|TWO_SIDED|95.0|-3.16|1.22|||ANCOVA|||Month 6||1.22|-3.16|0.383
92417591|NCT01931670|184722929|SUPERIORITY||Difference in LS Means|-3.02|STANDARD_ERROR_OF_MEAN|1.092||0.006|TWO_SIDED|95.0|-5.17|-0.87|||ANCOVA|||Month 6||-0.87|-5.17|0.006
92417592|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|0.01|STANDARD_ERROR_OF_MEAN|0.422||0.975|TWO_SIDED|95.0|-0.81|0.84|||ANCOVA|||Month 1||0.84|-0.81|0.975
92417593|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|-0.02|STANDARD_ERROR_OF_MEAN|0.415||0.969|TWO_SIDED|95.0|-0.83|0.8|||ANCOVA|||Month 1||0.80|-0.83|0.969
92235043|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.44|2.06|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.06|1.44|
92235044|NCT01025336|184373535|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.5|||||TWO_SIDED|95.0|1.24|1.84|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.84|1.24|
92235045|NCT01025336|184373536|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.19|0.29|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.29|0.19|
92235046|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.17|0.25|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.25|0.17|
92278731|NCT01261325|184460083|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.47|0.71||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.|Hazard ratio is Brivaracetam versus Placebo.|||0.71|0.47|<0.001
92278732|NCT01261325|184460084|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.009|TWO_SIDED|95.0|0.6|0.93||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||0.93|0.60|0.009
92417594|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|-0.22|STANDARD_ERROR_OF_MEAN|0.389||0.569|TWO_SIDED|95.0|-0.99|0.54|||ANCOVA|||Month 2||0.54|-0.99|0.569
92417595|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|-0.4|STANDARD_ERROR_OF_MEAN|0.393||0.311|TWO_SIDED|95.0|-1.17|0.37|||ANCOVA|||Month 2||0.37|-1.17|0.311
92417596|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|0.43|STANDARD_ERROR_OF_MEAN|0.505||0.398|TWO_SIDED|95.0|-0.56|1.42|||ANCOVA|||Month 3||1.42|-0.56|0.398
92417597|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|-0.15|STANDARD_ERROR_OF_MEAN|0.505||0.761|TWO_SIDED|95.0|-1.15|0.84|||ANCOVA|||Month 3||0.84|-1.15|0.761
92278733|NCT01261325|184460084|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.68|||<|0.001|TWO_SIDED|95.0|0.55|0.85||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||0.85|0.55|<0.001
92278734|NCT02668302|184460085|SUPERIORITY|||||||0.4709|||||||t-test, 2 sided|P-values from two-sample T-test with equal variance assumption||||||0.4709
92278735|NCT03611309|184460108|SUPERIORITY||Mean Difference (Final Values)|-1.63||||0.623|TWO_SIDED|95.0|-8.15|4.89||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear||FACIT-Pal Total score|||4.89|-8.15|.623
92278736|NCT03611309|184460109|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.555|TWO_SIDED|95.0|-0.29|0.15||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|||Analysis of physical health score.||0.15|-0.29|.555
92278737|NCT03611309|184460109|SUPERIORITY||Mean Difference (Final Values)|-0.002||||0.983|TWO_SIDED|95.0|-0.2|0.2||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|||Analysis of mental health score.||0.20|-0.20|.983
92278738|NCT03611309|184460111|SUPERIORITY||Mean Difference (Final Values)|0.004||||0.997|TWO_SIDED|95.0|-2.09|2.1||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear||FACIT-Sp-12 Total Score|||2.10|-2.09|.997
92278739|NCT03611309|184460112|SUPERIORITY|||||||0.484||||||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|||"Analysis of question Help you live longer?"||||.484
92278740|NCT03611309|184460112|SUPERIORITY|||||||0.343||||||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|||"Analysis of question Cure your cancer?"||||.343
92278741|NCT03611309|184460112|SUPERIORITY|||||||0.908|||||||Regression, Linear|The a priori threshold for statistical significance was \< 0.05.||"Analysis of question Help you with problems you were having because of your cancer?"||||.908
92278742|NCT03611309|184460115|SUPERIORITY|||||||0.531||||||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|||||||.531
92278743|NCT03611309|184460116|SUPERIORITY|||||||0.871||||||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|||||||.871
92278744|NCT03611309|184460117|SUPERIORITY|||||||0.77||||||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|||"Analysis of question Help your loved one live longer?"||||.770
92278745|NCT03611309|184460117|SUPERIORITY|The a priori threshold for statistical significance was \< 0.05.||||||0.755|||||||Regression, Linear|||"Analysis of question Awareness after: Cure your loved one's cancer?"||||.755
92278746|NCT03611309|184460117|SUPERIORITY|||||||0.929||||||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|||"Analysis of question Awareness after: Help your loved one with problems due to the cancer?"||||.929
92278747|NCT03280537|184460119|SUPERIORITY||Difference in Least Squares Means|-0.59|STANDARD_ERROR_OF_MEAN|0.23||0.014|TWO_SIDED|95.0|-1.05|-0.12||Tested at the two-sided 0.05 significance level. There was no adjustment for multiplicity for the co-primary outcome measures.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NPS, treatment and baseline NPS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The primary analysis tested the null hypothesis that no treatment group difference existed for change from baseline in NPS at Week 24. As NPS and NCS are co-primary outcome measures, both null hypotheses for NPS and NCS must be rejected, with parameter estimates indicating a benefit of omalizumab over placebo, for the study to be deemed positive.||-0.12|-1.05|0.0140
92387622|NCT04808141|184676491|EQUIVALENCE|For a power of 80% and a two-sided 0.05 significance level, we calculated that 102 individuals would be necessary to detect a 10-point difference between the two groups. To guarantee that the study was adequately powered to detect equivalence, a posteriori analysis was conducted using the Two One-Sided Test (TOST) methodology (simulation-based power analysis).|Median Difference (Net)|-0.55||||0.412|TWO_SIDED|95.0|-2.42|5.81||the threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|robust method on the medians||||5.81|-2.42|0.412
92387623|NCT04808141|184676491|EQUIVALENCE||Odds Ratio (OR)|0.926||||0.849|TWO_SIDED|95.0|0.42|2.05||The threshold for statistical analysis was set at 0.05.|Regression, Logistic|||||2.05|0.42|0.849
92387624|NCT04808141|184676492|EQUIVALENCE||Median Difference (Net)|0.3||||0.666|TWO_SIDED|95.0|-0.71|1.1||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|robust method on the medians||||1.10|-0.71|0.666
92387625|NCT04808141|184676493|EQUIVALENCE||Median Difference (Net)|-2.62||||0.122|TWO_SIDED|95.0|-14.87|4.8||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust test on the medians||||4.80|-14.87|0.122
92387626|NCT04808141|184676494|EQUIVALENCE||Median Difference (Net)|3.32||||0.788|TWO_SIDED|95.0|-3.11|5.9||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust method on the medians||||5.90|-3.11|0.788
92387627|NCT04808141|184676495|EQUIVALENCE||Odds Ratio (OR)|0.92||||0.081|TWO_SIDED|95.0|0.0|1.23||The threshold for statistical significance was set at 0.05.|Regression, Logistic|LR to assess the odds between groups for consuming analgesics at 8 weeks using the CG as a reference.||||1.23|0.00|0.081
92387628|NCT04808141|184676495|EQUIVALENCE||Odds Ratio (OR)|0.26||||0.985|TWO_SIDED|95.0|0.0|1.71||The threshold for statistical significance was set at 0.05.|Regression, Logistic|LR to assess the odds between groups for consuming opioids at 8 weeks using the CG as a reference.||||1.71|0.00|0.985
92417598|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|0.08|STANDARD_ERROR_OF_MEAN|0.491||0.874|TWO_SIDED|95.0|-0.89|1.04|||ANCOVA|||Month 4||1.04|-0.89|0.874
92417599|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|-0.93|STANDARD_ERROR_OF_MEAN|0.468||0.048|TWO_SIDED|95.0|-1.85|-0.01|||ANCOVA|||Month 4||-0.01|-1.85|0.048
92417600|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|-0.89|STANDARD_ERROR_OF_MEAN|0.635||0.16|TWO_SIDED|95.0|-2.14|0.35|||ANCOVA|||Month 5||0.35|-2.14|0.16
92235047|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.2|0.29|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.29|0.20|
92387629|NCT04808141|184676496|EQUIVALENCE||Median Difference (Net)|-0.42||||0.871|TWO_SIDED|95.0|-2.1|1.78||the threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust method on the medians||||1.78|-2.10|0.871
92387630|NCT04808141|184676497|EQUIVALENCE||Median Difference (Final Values)|0.43||||0.36|TWO_SIDED|95.0|-0.59|1.59||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust method on the medians||||1.59|-0.59|0.360
92417601|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|-0.9|STANDARD_ERROR_OF_MEAN|0.63||0.152|TWO_SIDED|95.0|-2.14|0.33|||ANCOVA|||Month 5||0.33|-2.14|0.152
92417602|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|-0.83|STANDARD_ERROR_OF_MEAN|0.498||0.095|TWO_SIDED|95.0|-1.81|0.15|||ANCOVA|||Month 6||0.15|-1.81|0.095
92387631|NCT04808141|184676498|EQUIVALENCE||Mean Difference (Final Values)|0.09||||0.837|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|t-test, 2 sided|||||||0.837
92417603|NCT01931670|184722930|SUPERIORITY||Difference in LS Means|-0.86|STANDARD_ERROR_OF_MEAN|0.474||0.071|TWO_SIDED|95.0|-1.79|0.07|||ANCOVA|||Month 6||0.07|-1.79|0.071
92417604|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-1.83|STANDARD_ERROR_OF_MEAN|1.106||0.098|TWO_SIDED|95.0|-4.01|0.34|||ANCOVA|||Month 1||0.34|-4.01|0.098
92387632|NCT04808141|184676499|EQUIVALENCE||Z-score|-1.28||||0.886|TWO_SIDED|||||The threshold for statistical significance was 0.05.|Ordinal Regression|||||||0.886
92387633|NCT04808141|184676500|EQUIVALENCE||Median Difference (Net)|1.33||||0.095|TWO_SIDED|95.0|-2.2|2.46||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust method on the medians||||2.46|-2.20|0.095
92387634|NCT04808141|184676502|EQUIVALENCE||Mean Difference (Final Values)|65.8||||0.662|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.662
92387635|NCT04808141|184676503|EQUIVALENCE||Median Difference (Net)|-1.97||||0.246|TWO_SIDED|95.0|-12.69|3.33|||Quantile mixed-effects model|Robust method on the medians||||3.33|-12.69|0.246
92387636|NCT04808141|184676504|EQUIVALENCE||Median Difference (Net)|-0.73||||0.408|TWO_SIDED|95.0|-6.5|2.69||the threshold for statistical significance was set at 0.05|Quantile mixed-effects model|Robust method on the medians.||||2.69|-6.50|0.408
92387637|NCT04808141|184676505|EQUIVALENCE||Median Difference (Net)|0.35||||0.65|TWO_SIDED|95.0|-6.22|9.87||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust method on the medians||||9.87|-6.22|0.650
92387638|NCT04808141|184676506|EQUIVALENCE||Difference in proportions|18.6||||0.019|TWO_SIDED||||||Chi-squared|||||||0.019
92417605|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-3.72|STANDARD_ERROR_OF_MEAN|1.113|<|0.001|TWO_SIDED|95.0|-5.91|-1.54|||ANCOVA|||Month 1||-1.54|-5.91|< 0.001
92417606|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-2.02|STANDARD_ERROR_OF_MEAN|1.091||0.065|TWO_SIDED|95.0|-4.16|0.13|||ANCOVA|||Month 2||0.13|-4.16|0.065
92417607|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-5.1|STANDARD_ERROR_OF_MEAN|1.089|<|0.001|TWO_SIDED|95.0|-7.24|-2.96|||ANCOVA|||Month 2||-2.96|-7.24|< 0.001
92417608|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-2.65|STANDARD_ERROR_OF_MEAN|1.14||0.02|TWO_SIDED|95.0|-4.89|-0.41|||ANCOVA|||Month 3||-0.41|-4.89|0.02
92417609|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-4.64|STANDARD_ERROR_OF_MEAN|1.135|<|0.001|TWO_SIDED|95.0|-6.87|-2.41|||ANCOVA|||Month 3||-2.41|-6.87|< 0.001
92417610|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-2.72|STANDARD_ERROR_OF_MEAN|1.138||0.017|TWO_SIDED|95.0|-4.95|-0.48|||ANCOVA|||Month 4||-0.48|-4.95|0.017
92417611|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-6.27|STANDARD_ERROR_OF_MEAN|1.124|<|0.001|TWO_SIDED|95.0|-8.48|-4.06|||ANCOVA|||Month 4||-4.06|-8.48|< 0.001
92417612|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-2.49|STANDARD_ERROR_OF_MEAN|1.095||0.023|TWO_SIDED|95.0|-4.64|-0.34|||ANCOVA|||Month 5||-0.34|-4.64|0.023
92417613|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-5.83|STANDARD_ERROR_OF_MEAN|1.095|<|0.001|TWO_SIDED|95.0|-7.98|-3.68|||ANCOVA|||Month 5||-3.68|-7.98|< 0.001
92417614|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-1.28|STANDARD_ERROR_OF_MEAN|1.264||0.311|TWO_SIDED|95.0|-3.77|1.2|||ANCOVA|||Month 6||1.20|-3.77|0.311
92235048|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.2|0.3|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.30|0.20|
92235049|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.31|0.42|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.42|0.31|
92387639|NCT00377858|184676517|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin of 0.3% based on prior studies indicating an HbA1c difference of 0.6% in patients treated with lispro and sulfonylurea compared with those treated with sulfonylurea and metformin.|Mean Difference (Net)|0.17||||0.097||95.0|-0.03|0.37|||ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c Stratum + Sulfonylurea stratum + Country + Baseline HbA1c Stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for (Insulin Lispro Mid Mixture minus Insulin Glargine).|Assuming 15% drop-out rate after randomization, remaining 213 patients in each treatment group would allow confirmation of noninferiority with no treatment difference and a noninferiority limit of 0.3% using upper limit of 2-sided confidence interval at significance level of 0.05 with 80% power.||0.37|-0.03|0.097
92417615|NCT01931670|184722931|SUPERIORITY||Difference in LS Means|-3.97|STANDARD_ERROR_OF_MEAN|1.241||0.001|TWO_SIDED|95.0|-6.42|-1.53|||ANCOVA|||Month 6||-1.53|-6.42|0.001
92417616|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.62||0.335|TWO_SIDED|95.0|-1.81|0.62|||ANCOVA|||Month 1||0.62|-1.81|0.335
92417617|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-0.72|STANDARD_ERROR_OF_MEAN|0.611||0.242|TWO_SIDED|95.0|-1.91|0.48|||ANCOVA|||Month 1||0.48|-1.91|0.242
92417618|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-1.33|STANDARD_ERROR_OF_MEAN|0.652||0.042|TWO_SIDED|95.0|-2.61|-0.05|||ANCOVA|||Month 2||-0.05|-2.61|0.042
92417619|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-1.77|STANDARD_ERROR_OF_MEAN|0.656||0.007|TWO_SIDED|95.0|-3.06|-0.48|||ANCOVA|||Month 2||-0.48|-3.06|0.007
92417620|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.71||0.503|TWO_SIDED|95.0|-1.87|0.92|||ANCOVA|||Month 3||0.92|-1.87|0.503
92417621|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-0.97|STANDARD_ERROR_OF_MEAN|0.707||0.169|TWO_SIDED|95.0|-2.36|0.41|||ANCOVA|||Month 3||0.41|-2.36|0.169
92169721|NCT03358875|184227962|OTHER||LS Mean Difference|-3.2||||0.0579|TWO_SIDED|95.0|-6.52|0.11|||Mixed Models Analysis|||Analysis of Change from Baseline in Dyspnoea Scale. The linear mixed-effect model for repeated measures (MMRM) includes baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects and visit as a repeated measure.||0.11|-6.52|0.0579
92169722|NCT03358875|184227962|OTHER||LS Mean Difference|-2.2||||0.2472|TWO_SIDED|95.0|-6.05|1.56|||Mixed Models Analysis|||Analysis of Change from Baseline in Chest Pain Scale. The linear mixed-effect model for repeated measures (MMRM) includes baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects and visit as a repeated measure.||1.56|-6.05|0.2472
92235050|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.18|0.26|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.26|0.18|
92417622|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-0.31|STANDARD_ERROR_OF_MEAN|0.737||0.675|TWO_SIDED|95.0|-1.76|1.14|||ANCOVA|||Month 4||1.14|-1.76|0.675
92417623|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-2.17|STANDARD_ERROR_OF_MEAN|0.703||0.002|TWO_SIDED|95.0|-3.55|-0.79|||ANCOVA|||Month 4||-0.79|-3.55|0.002
92417624|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-2.04|STANDARD_ERROR_OF_MEAN|0.856||0.017|TWO_SIDED|95.0|-3.72|-0.36|||ANCOVA|||Month 5||-0.36|-3.72|0.017
92417625|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-2.54|STANDARD_ERROR_OF_MEAN|0.848||0.003|TWO_SIDED|95.0|-4.21|-0.87|||ANCOVA|||Month 5||-0.87|-4.21|0.003
92417626|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-1.59|STANDARD_ERROR_OF_MEAN|0.778||0.042|TWO_SIDED|95.0|-3.12|-0.06|||ANCOVA|||Month 6||-0.06|-3.12|0.042
92417627|NCT01931670|184722932|SUPERIORITY||Difference in LS Means|-2.28|STANDARD_ERROR_OF_MEAN|0.738||0.002|TWO_SIDED|95.0|-3.73|-0.83|||ANCOVA|||Month 6||-0.83|-3.73|0.002
92417628|NCT01992159|184722964|SUPERIORITY||Treatment Difference|7.5|||<|0.0001|ONE_SIDED|95.0|6.5|||P-values were adjusted for multiplicity using a combination of a sequential test procedure and Hochberg's method to control type 1 error for the primary endpoint.|Repeated Measures Model|||The primary analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||6.5|< 0.0001
92417629|NCT01992159|184722964|SUPERIORITY||Treatment Difference|12.4|||<|0.0001|ONE_SIDED|95.0|11.1|||P-values were adjusted for multiplicity using a combination of a sequential test procedure and Hochberg's method to control type 1 error for the primary endpoint.|Repeated Measures Model|||The primary analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||11.1|< 0.0001
92169723|NCT04337372|184227966|SUPERIORITY||||||=|0.002||||||F(2, 58) = 7.19|MANOVA|||To examine the impact of infant age and label condition on the proportion of infant's attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and infant's proportion of attention to the book was the dependent variable. The main effect of age is reported here.||||=.002
92387640|NCT00377858|184676518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.047||95.0|0.0|0.33||P-value for 12 Week Interval.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.33|0.00|0.047
92169724|NCT04337372|184227966|SUPERIORITY||||||=|0.09||||||F(1.78, 103.37) = 2.48|MANOVA|||To examine the impact of infant age and label condition on the proportion of infant's attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and infant's proportion of attention to the book was the dependent variable. The main effect of condition is reported here.||||=.09
92169725|NCT04337372|184227966|SUPERIORITY||||||<|0.05||||||F(3.56, 103.37) = 2.55|MANOVA|||To examine the impact of infant age and label condition on the proportion of infant's attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and infant's proportion of attention to the book was the dependent variable. The interaction between age and condition is reported here.||||<.05
92235051|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.1|0.18|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.18|0.10|
92387641|NCT00377858|184676518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18||||0.043||95.0|0.01|0.35||P-value for 24 Week Interval.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.35|0.01|0.043
92387642|NCT00377858|184676518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.343||95.0|-0.1|0.29||P-value for 36 Week Interval.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.29|-0.10|0.343
92387643|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.432||95.0||||P-value for Week 12: HbA1c ≤7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.432
92417630|NCT01992159|184722964|SUPERIORITY||Treatment Difference|16.0|||<|0.0001|ONE_SIDED|95.0|14.6|||One-sided p-values were adjusted for multiplicity using a combination of a sequential test procedure and Hochberg's method to control type 1 error for the primary endpoint.|Repeated Measures Model|||The primary analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||14.6|< 0.0001
92417631|NCT01992159|184722965|SUPERIORITY||Treatment Difference|5.3|||<|0.0001|ONE_SIDED|95.0|4.4||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||4.4|< 0.0001
92417632|NCT01992159|184722965|SUPERIORITY||Treatment Difference|9.0|||<|0.0001|ONE_SIDED|95.0|8.0||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||8.0|< 0.0001
92169726|NCT04337372|184227967|SUPERIORITY||||||=|0.557||||||F(2,47) = .592|MANOVA|||EEG power, as measured by the signal-to-noise ratio (SNR) was modulated by label condition across age, data were extracted from a mid-occipital cluster of Oz and its 6 nearest neighbors (channels 70, 71, 74, 75, 76, 82, 83) for each of the conditions. SNR data were then submitted to a two-factor MANOVA with Label (Individual, Category, Control/No Label) as a within-subjects factor and Age (6 months, 9 months, 12 months) as a between-subjects factor. The main effect of age is reported here.||||=.557
92235052|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.12|0.2|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.20|0.12|
92387644|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.602||95.0||||P-value for 12 Week: HbA1c \<7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.602
92387645|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||P-value for 12 Week: HbA1c ≤6.5%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.370
92387646|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||P-value for 24 Week: HbA1c ≤7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.198
92387647|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.636||95.0||||P-value for 24 Week: HbA1c \<7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.636
92235053|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.1|0.18|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.18|0.10|
92387648|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.185||95.0||||P-value for 24 Week: HbA1c ≤6.5%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.185
92387649|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value for 36 Week: HbA1c ≤7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.393
92387650|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.739||95.0||||P-value for 36 Week: HbA1c \<7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.739
92387651|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.396||95.0||||P-value for 36 Week: HbA1c ≤6.5%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.396
92387652|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.227||95.0||||P-value for Endpoint (LOCF): HbA1c ≤7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.227
92387653|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.482||95.0||||P-value for Endpoint (LOCF): HbA1c \<7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.482
92387654|NCT00377858|184676519|SUPERIORITY_OR_OTHER|||||||0.108||95.0||||P-value for Endpoint (LOCF): HbA1c ≤6.5%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.108
92387655|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58||||0.014||95.0|0.12|1.04||P-value for Baseline: Morning Pre-Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||1.04|0.12|0.014
92387656|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.735||95.0|-0.51|0.72||P-value for Baseline: Morning Postprandial Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.72|-0.51|0.735
92387657|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.54||||0.051||95.0|0.0|1.08||P-value for Baseline: Midday Pre-Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||1.08|-0.00|0.051
92417633|NCT01992159|184722965|SUPERIORITY||Treatment Difference|11.9|||<|0.0001|ONE_SIDED|95.0|10.6||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||10.6|< 0.0001
92417634|NCT01992159|184722966|SUPERIORITY||Treatment Difference|0.6||||0.125|ONE_SIDED|95.0|-0.3||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||-0.3|0.1250
92417635|NCT01992159|184722966|SUPERIORITY||Treatment Difference|1.7||||0.0002|ONE_SIDED|95.0|0.9||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||0.9|0.0002
92235054|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.13|0.22|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.22|0.13|
92387658|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18||||0.536||95.0|-0.39|0.75||P-value for Baseline: Midday Postprandial Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.75|-0.39|0.536
92387659|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.793||95.0|-0.48|0.62||P-value for Baseline: Evening Pre-Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.62|-0.48|0.793
92387660|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.693||95.0|-0.43|0.64||P-value for Baseline: Evening Postprandial Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.64|-0.43|0.693
92387661|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.499||95.0|-0.38|0.77||P-value for Baseline: 0300 Hours.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.77|-0.38|0.499
92387662|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.59|||<|0.001||95.0|0.26|0.92||P-value for 12 Week: Morning Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.92|0.26|<0.001
92169727|NCT04337372|184227967|SUPERIORITY||||||=|0.47||||||F(2,47) = .767|MANOVA|||EEG power, as measured by the signal-to-noise ratio (SNR) was modulated by label condition across age, data were extracted from a mid-occipital cluster of Oz and its 6 nearest neighbors (channels 70, 71, 74, 75, 76, 82, 83) for each of the conditions. SNR data were then submitted to a two-factor MANOVA with Label (Individual, Category, Control/No Label) as a within-subjects factor and Age (6 months, 9 months, 12 months) as a between-subjects factor. The main effect of condition is reported here.||||=.470
92235055|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.22|0.33|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.33|0.22|
92235056|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.25|0.38|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.38|0.25|
92387663|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28||||0.278||95.0|-0.22|0.78||P-value for 12 Week: Morning Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.78|-0.22|0.278
92387664|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.53||||0.009||95.0|0.14|0.93||P-value for 12 Week: Midday Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.93|0.14|0.009
92387665|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.49||||0.049||95.0|0.0|0.97||P-value for 12 Week: Midday Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.97|0.00|0.049
92387666|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77|||<|0.001||95.0|0.35|1.18||P-value for 12 Week: Evening Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||1.18|0.35|<0.001
92387667|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.17|||<|0.001||95.0|-1.63|-0.7||P-value for 12 Week: Evening Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||-0.70|-1.63|<0.001
92387668|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.506||95.0|-0.59|0.29||P-value for 12 Week: 0300 Hours.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.29|-0.59|0.506
92417636|NCT01992159|184722966|SUPERIORITY||Treatment Difference|2.6|||<|0.0001|ONE_SIDED|95.0|1.7||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||1.7|< 0.0001
92417637|NCT01992159|184722967|SUPERIORITY||Treatment Difference|1.5||||0.0012|ONE_SIDED|95.0|0.7||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||0.7|0.0012
92417638|NCT01992159|184722967|SUPERIORITY||Treatment Difference|2.6|||<|0.0001|ONE_SIDED|95.0|1.8||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||1.8|< 0.0001
92417639|NCT01992159|184722967|SUPERIORITY||Treatment Difference|4.1|||<|0.0001|ONE_SIDED|95.0|3.3||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||3.3|< 0.0001
92417640|NCT01992159|184722968|SUPERIORITY||Treatment Difference|0.3||||0.2846|ONE_SIDED|95.0|-0.6||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||-0.6|0.2846
92387669|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.65|||<|0.001||95.0|0.31|0.99||P-value for 24 Week: Morning Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.99|0.31|<0.001
92235057|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.08|0.14|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.14|0.08|
92387670|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.42||||0.094||95.0|-0.07|0.91||P-value for 24 Week: Morning Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.91|-0.07|0.094
92169728|NCT04337372|184227967|SUPERIORITY||||||=|0.046||||||F(4,94) = 2.524|MANOVA|||EEG power, as measured by signal-to-noise ratio (SNR) was modulated by label condition across age, data were extracted from a mid-occipital cluster of Oz and its 6 nearest neighbors (channels 70, 71, 74, 75, 76, 82, 83) for each condition. SNR data were then submitted to a two-factor MANOVA with Label (Individual, Category, Control/No Label) as a within-subjects factor and Age (6 months, 9 months, 12 months) as a between-subjects factor. The interaction of age and condition is reported here.||||=.046
92387671|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.408||95.0|-0.24|0.59||P-value for 24 Week: Midday Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.59|-0.24|0.408
92387672|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23||||0.351||95.0|-0.25|0.71||P-value for 24 Week: Midday Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.71|-0.25|0.351
92387673|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56||||0.01||95.0|0.13|0.98||P-value for 24 Week: Evening Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.98|0.13|0.010
92387674|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||0.029||95.0|-0.92|-0.05||P-value for 24 Week: Evening Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||-0.05|-0.92|0.029
92387675|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.816||95.0|-0.45|0.35||P-value for 24 Week: 0300 Hours.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.35|-0.45|0.816
92387676|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.49||||0.008||95.0|0.13|0.85||P-value for 36 Week: Morning Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.85|0.13|0.008
92387677|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.438||95.0|-0.71|0.31||P-value for 36 Week: Morning Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.31|-0.71|0.438
92387678|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.548||95.0|-0.54|0.29||P-value for 36 Week: Midday Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.29|-0.54|0.548
92387679|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.964||95.0|-0.5|0.52||P-value for 36 Week: Midday Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.52|-0.50|0.964
92387680|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.453||95.0|-0.27|0.6||P-value for 36 Week: Evening Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.60|-0.27|0.453
92387681|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.096||95.0|-0.84|0.07||P-value for 36 Week: Evening Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.07|-0.84|0.096
92387682|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.77||95.0|-0.51|0.37||P-value for 36 Week: 0300 Hours.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.37|-0.51|0.770
92387683|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45||||0.01||95.0|0.11|0.8||P-value for Endpoint: Morning Pre-Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.80|0.11|0.010
92387684|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31||||0.201||95.0|-0.8|0.17||P-value for Endpoint: Morning Postprandial Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.17|-0.80|0.201
92169729|NCT04337372|184227968|SUPERIORITY||||||=|0.664||||||F(2,45) = .413|MANOVA|||EEG Data were extracted from a mid-occipital cluster for each conditions for parents \& infants. Data were entered into a 2-factor MANOVA with Label (Individual, Category, No Label) as a within-subjects factor and Age (6 mo, 9 mo, 12 mo) as a between-subjects factor. The phase-locking index measures the extent to which the parent \& infant oscillatory response is in the same phase across time (bounded between 0 and 1, 1 being perfect synchrony. The main effect of age is reported here.||||=.664
92387685|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16||||0.43||95.0|-0.57|0.24||P-value for Endpoint: Midday Pre-Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.24|-0.57|0.430
92387686|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.814||95.0|-0.52|0.41||P-value for Endpoint: Midday Postprandial Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.41|-0.52|0.814
92387687|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.427||95.0|-0.24|0.57||P-value for Endpoint: Evening Pre-Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.57|-0.24|0.427
92387688|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57||||0.009||95.0|-1.0|-0.14||P-value for Endpoint: Evening Postprandial Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||-0.14|-1.00|0.009
92387689|NCT00377858|184676520|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.569||95.0|-0.51|0.28||P-value for Endpoint: 0300 Hours. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.28|-0.51|0.569
92387690|NCT00377858|184676521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.776||95.0|-0.14|0.19||P-value for Baseline MODD.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.19|-0.14|0.776
92387691|NCT00377858|184676521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.27||||0.737||95.0|-6.14|8.68||P-value for Baseline M-Value.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||8.68|-6.14|0.737
92387692|NCT00377858|184676521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.701||95.0|-0.19|0.13||P-value for 12 Week MODD.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.13|-0.19|0.701
92387693|NCT00377858|184676521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.58||||0.4||95.0|-2.11|5.27||P-value for 12 Week M-Value.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||5.27|-2.11|0.400
92387694|NCT00377858|184676521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.321||95.0|-0.26|0.09||P-value for 24 Week MODD.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.09|-0.26|0.321
92387695|NCT00377858|184676521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.52||||0.179||95.0|-1.16|6.21||P-value for 24 Week M-Value.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||6.21|-1.16|0.179
92387696|NCT00377858|184676521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.573||95.0|-0.22|0.12||P-value for 36 Week MODD.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.12|-0.22|0.573
92387697|NCT00377858|184676521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.95||||0.629||95.0|-4.79|2.9||P-value for 36 Week M-Value.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||2.90|-4.79|0.629
92387698|NCT00377858|184676521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.25||95.0|-0.26|0.07||P-value for Endpoint MODD. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.07|-0.26|0.250
92387699|NCT00377858|184676521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.72||||0.362||95.0|-5.44|1.99||P-value for Endpoint M-Value.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||1.99|-5.44|0.362
92387700|NCT00377858|184676522|SUPERIORITY_OR_OTHER|||||||0.094||95.0||||P-value for Endpoint Hypoglycemic Episodes.|Fisher Exact|||||||0.094
92387701|NCT00377858|184676522|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for Overall Hypoglycemic Episodes.|Fisher Exact|||||||1.00
92387702|NCT00377858|184676522|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||P-value for Endpoint Nocturnal Hypoglycemic Episodes.|Fisher Exact|||||||0.430
92387703|NCT00377858|184676522|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for Overall Nocturnal Hypoglycemic Episodes.|Fisher Exact|||||||1.00
92387704|NCT00377858|184676522|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Endpoint Non-Nocturnal Hypoglycemic Episodes.|Fisher Exact|||||||0.013
92387705|NCT00377858|184676522|SUPERIORITY_OR_OTHER|||||||0.756||95.0||||P-value for Overall Non-Nocturnal Hypoglycemic Episodes.|Fisher Exact|||||||0.756
92387706|NCT00377858|184676523|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for Endpoint Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.022
92387707|NCT00377858|184676523|SUPERIORITY_OR_OTHER|||||||0.218||95.0||||P-value for Overall Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.218
92387708|NCT00377858|184676523|SUPERIORITY_OR_OTHER|||||||0.311||95.0||||P-value for Endpoint Nocturnal Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.311
92387709|NCT00377858|184676523|SUPERIORITY_OR_OTHER|||||||0.615||95.0||||P-value for Overall Nocturnal Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.615
92387710|NCT00377858|184676523|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||P-value for Endpoint Non-Nocturnal Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.018
92387711|NCT00377858|184676523|SUPERIORITY_OR_OTHER|||||||0.255||95.0||||P-value for Overall Non-Nocturnal Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.255
92387712|NCT00377858|184676524|SUPERIORITY_OR_OTHER|||||||0.416||95.0||||P-value for Overall Severe Hypoglycemic Episodes.|Fisher Exact|||||||0.416
92387713|NCT00377858|184676525|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08|||<|0.001||95.0|-0.12|-0.05||P-value for Daily Basal.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||-0.05|-0.12|<0.001
92387714|NCT00377858|184676525|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|||<|0.001||95.0|0.04|0.11||P-value for Daily Prandial.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.11|0.04|<0.001
92387715|NCT00377858|184676525|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.017||95.0|0.01|0.12||P-value for Daily Total.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.12|0.01|0.017
92387716|NCT00377858|184676526|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.96|||<|0.001||95.0|-9.65|-4.26||P-value for Daily Basal.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||-4.26|-9.65|<0.001
92387717|NCT00377858|184676526|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.05|||<|0.001||95.0|3.39|8.71||P-value for Daily Prandial.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||8.71|3.39|<0.001
92387718|NCT00377858|184676526|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.2||||0.017||95.0|0.93|9.46||P-value for Daily Total.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||9.46|0.93|0.017
92387719|NCT00377858|184676527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|||<|0.001||95.0|0.24|0.42||P-value for Week 12.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.42|0.24|<0.001
92387720|NCT00377858|184676527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22||||0.003||95.0|0.07|0.36||P-value for Week 24.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.36|0.07|0.003
92387721|NCT00377858|184676527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24||||0.002||95.0|0.09|0.4||P-value for Week 30.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.40|0.09|0.002
92387722|NCT00377858|184676527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22||||0.005||95.0|0.07|0.38||P-value for Week 36.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.38|0.07|0.005
92387723|NCT00377858|184676527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19||||0.011||95.0|0.04|0.34||P-value for Endpoint. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.34|0.04|0.011
92387724|NCT00377858|184676528|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.803||95.0|-0.8|0.62||P-value for Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Sulfonylurea stratum + Country + Baseline HbA1c stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.62|-0.80|0.803
92235058|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.06|0.1|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.10|0.06|
92417641|NCT01992159|184722968|SUPERIORITY||Treatment Difference|1.3||||0.0151|ONE_SIDED|95.0|0.3||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||0.3|0.0151
92417642|NCT01992159|184722968|SUPERIORITY||Treatment Difference|2.6||||0.0001|ONE_SIDED|95.0|1.5||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||1.5|0.0001
92417643|NCT01992159|184722969|SUPERIORITY||Treatment Difference|1.6||||0.0067|ONE_SIDED|95.0|0.5||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||0.5|0.0067
92417644|NCT01992159|184722969|SUPERIORITY||Treatment Difference|2.6|||<|0.0001|ONE_SIDED|95.0|1.6||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||1.6|< 0.0001
92387725|NCT04042909|184676535|SUPERIORITY||beta coefficient|-0.309|STANDARD_ERROR_OF_MEAN|0.69||0.646|TWO_SIDED|95.0|-1.632|1.013||This is the p-value of the CAA vs AO factor in the model.|Regression, Linear|We used linear regression, controlling for baseline value of outcome and sex, to determine change in the outcome as a function of condition.||Our main hypothesis is that, relative to Assessment-Only control, the Counter Attitudinal Advocacy intervention will decrease alcohol consumption (drinks per week) from baseline to 6-months.||1.013|-1.632|.646
92387726|NCT04042909|184676536|SUPERIORITY||beta coefficient|-1.9|STANDARD_ERROR_OF_MEAN|0.77||0.014|TWO_SIDED|95.0|-3.41|-0.39|||Regression, Linear|We used regression, controlling for baseline value of outcome and sex, to determine pre-post change in the outcome as a function of condition.||Our main hypothesis is that, relative to Assessment-Only control, the Counter Attitudinal Advocacy intervention will decrease alcohol problems from baseline to 6-months.||-0.39|-3.41|.014
92387727|NCT01147055|184676548|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|18.21|||||TWO_SIDED|90.0|16.14|20.54||||||Natural log transformed AUC (0-∞) of crizotinib was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||20.54|16.14|
92387728|NCT01147055|184676549|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|31.49|||||TWO_SIDED|90.0|26.43|37.51||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||37.51|26.43|
92387729|NCT01147055|184676550|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|17.6|||||TWO_SIDED|90.0|15.48|20.02||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||20.02|15.48|
92387730|NCT01147055|184676555|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|5.49|||||TWO_SIDED|90.0|4.64|6.49||||||Natural log transformed AUClast of PF-06260182 was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||6.49|4.64|
92387731|NCT01147055|184676556|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|5.75|||||TWO_SIDED|90.0|4.86|6.81||||||Natural log transformed AUC (0 - ∞) of PF-06260182 was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||6.81|4.86|
92387732|NCT01147055|184676558|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|11.01|||||TWO_SIDED|90.0|9.02|13.45||||||Natural log transformed Cmax of PF-06260182 was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||13.45|9.02|
92417645|NCT01992159|184722969|SUPERIORITY||Treatment Difference|3.5|||<|0.0001|ONE_SIDED|95.0|2.3||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||2.3|< 0.0001
92417646|NCT01992159|184722974|SUPERIORITY||Treatment Difference|-15.3||||0.5084|TWO_SIDED|95.0|-60.8|30.2|||ANCOVA|ANCOVA model with the AUC of P1NP at month 12 as the dependent variable, and baseline P1NP and treatment (categorical) as the independent variables.||||30.2|-60.8|0.5084
92417647|NCT01992159|184722974|SUPERIORITY||Treatment Difference|84.1||||0.0002|TWO_SIDED|95.0|40.1|128.0|||ANCOVA|ANCOVA model with the AUC of P1NP at month 12 as the dependent variable, and baseline P1NP and treatment (categorical) as the independent variables.||||128.0|40.1|0.0002
92417648|NCT01992159|184722974|SUPERIORITY||Treatment Difference|153.8|||<|0.0001|TWO_SIDED|95.0|109.2|198.4|||ANCOVA|ANCOVA model with the AUC of P1NP at months 12 as the dependent variable, and baseline P1NP and treatment (categorical) as the independent variables.||||198.4|109.2|< 0.0001
92417649|NCT00095238|184722992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.8|1.3|||Mixed Models Analysis|baseline score used as covariate; treatment, visit, treatment-by-visit, \& baseline angiotensin-converting enzyme (ACE) inhibitors used as predictors||Comparison of 2 treatment arms at Month 6 (first 2 columns)||1.3|-0.8|
92417650|NCT00095238|184722992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.5|1.7|||Mixed Models Analysis|baseline score used as covariate; treatment, visit, treatment-by-visit, \& baseline angiotensin-converting enzyme (ACE) inhibitors used as predictors||comparison of 2 treatment arms at Month 14 (columns 3 and 4)||1.7|-0.5|
92417651|NCT05033002|184723019|SUPERIORITY||Slope|-0.41|||<|0.0001|TWO_SIDED|||||The p-value is for the t-test of the coefficient of linear (TimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of linear (TimeXGroup) trends. Controlled for significant covariates.|||||<.0001
92417652|NCT05033002|184723019|SUPERIORITY||Slope|0.002|||<|0.0001|TWO_SIDED|||||The p-value is for the t-test of the coefficient of quadratic (TimeXTimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of quadratic (TimeXTimeXGroup) trends. Controlled for significant covariates.|||||<.0001
92417653|NCT05033002|184723020|SUPERIORITY||Slope|0.06||||0.002|TWO_SIDED|||||The p-value is for the t-test of the coefficient of linear (TimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of linear (TimeXGroup) trends. Controlled for significant covariates.|||||.002
92417654|NCT05033002|184723020|SUPERIORITY||Slope|-0.0003||||0.01|TWO_SIDED|||||The p-value is for the t-test of the coefficient of quadratic (TimeXTimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of quadratic (TimeXTimeXGroup) trends. Controlled for significant covariates.|||||.010
92417655|NCT05033002|184723021|SUPERIORITY||Slope|0.05||||0.001|TWO_SIDED|||||The p-value is for the t-test of the coefficient of linear (TimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of linear (TimeXGroup) trends. Controlled for significant covariates.|||||.001
92417656|NCT05033002|184723021|SUPERIORITY||Slope|-0.0002||||0.032|TWO_SIDED|||||The p-value is for the t-test of the coefficient of quadratic (TimeXTimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of quadratic (TimeXTimeXGroup) trends. Controlled for significant covariates.|||||.032
92417657|NCT05033002|184723022|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.506|TWO_SIDED||||||t-test, 2 sided|||||||0.506
92417658|NCT05033002|184723023|SUPERIORITY|||||||0.441||||||The p-value is for the t-test of the coefficient of linear (TimeXGroup) trends.|Mixed Models Analysis|The estimated value is for the slope of linear (TimeXGroup) trends. Controlled for significant covariates.||||||.441
92235059|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.22|0.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.46|0.22|
92235060|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.4|0.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.60|0.40|
92417659|NCT05033002|184723023|SUPERIORITY||Slope|0.0002||||0.734|TWO_SIDED|||||The p-value is for the t-test of the coefficient of quadratic (TimeXTimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of quadratic (TimeXTimeXGroup) trends. Controlled for significant covariates.|||||.734
92417660|NCT05204381|184723046|OTHER|||||||0.783|||||||ANOVA|F-statistic is 0.077||Mixed-factors ANOVA for the interaction between stimulation frequency (theta or alpha) and synchrony (in-phase or anti-phase).||||0.783
92417661|NCT05204381|184723047|OTHER|||||||0.965|||||||ANOVA|F-statistic is 0.002||Mixed-factors ANOVA for the interaction between stimulation frequency (theta or alpha) and synchrony (in-phase or anti-phase).||||0.965
92417662|NCT05204381|184723048|OTHER|||||||0.089|||||||ANOVA|F-statistic is 3.046||Mixed-factors ANOVA for the interaction between stimulation frequency (theta or alpha) and synchrony (in-phase or anti-phase).||||0.089
92417663|NCT05171816|184723053|OTHER|Exploratory|Hazard Ratio (HR)|1.43||||0.2592|TWO_SIDED|95.0|0.83|2.48||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||2.48|0.83|0.2592
92417664|NCT05171816|184723054|OTHER|Exploratory|Hazard Ratio (HR)|1.14||||0.7251|TWO_SIDED|95.0|0.57|2.29||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||2.29|0.57|0.7251
92417665|NCT05171816|184723055|OTHER|Exploratory|Hazard Ratio (HR)|0.99||||0.9715|TWO_SIDED|95.0|0.6|1.64||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||1.64|0.60|0.9715
92417666|NCT05171816|184723056|OTHER|Exploratory|Hazard Ratio (HR)|0.68||||0.4937|TWO_SIDED|95.0|0.2|2.06||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||2.06|0.20|0.4937
92417667|NCT05171816|184723057|OTHER|Exploratory|Hazard Ratio (HR)|1.65||||0.4923|TWO_SIDED|95.0|0.61|4.87||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||4.87|0.61|0.4923
92417668|NCT05171816|184723059|OTHER|Exploratory|Hazard Ratio (HR)|1.45||||0.3407|TWO_SIDED|95.0|0.63|3.39||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||3.39|0.63|0.3407
92417669|NCT04902326|184723067|SUPERIORITY|||||||0.78|||||||Regression, Linear|||Compare the mean decrease of HbA1c of the Combo Arm, Financial Incentives arm, and the Tailored Messages arm each with the EUC arm.||||0.78
92417670|NCT04902326|184723068|SUPERIORITY|||||||0.64|||||||Regression, Linear|||Compare the mean decrease of HbA1c of the Combo Arm, Financial Incentives arm, and the Tailored Messages arm each with the EUC arm.||||0.64
92417671|NCT04902326|184723069|SUPERIORITY|||||||0.87|||||||Regression, Linear|||Compare the mean decrease of weight of the Combo Arm, Financial Incentives arm, and the Tailored Messages arm each with the EUC arm.||||0.87
92417672|NCT04902326|184723070|SUPERIORITY|||||||0.87|||||||Regression, Linear|||Compare the mean decrease of weight of the Combo Arm, Financial Incentives arm, and the Tailored Messages arm each with the EUC arm.||||0.87
92417673|NCT04902326|184723071|SUPERIORITY||||||<|0.0001|||||||Regression, Linear|||Compare the mean months engaged (with DPP or metformin) of the Combo Arm, Financial Incentives arm, and the Tailored Messages arm each with the EUC arm.||||<0.0001
92417674|NCT01857310|184723076|SUPERIORITY||Risk Difference (RD)|-0.9|||||TWO_SIDED|95.0|-4.7|2.8|||||Adjusted for infertility treatment stratum and study site|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Live birth will be compared using two sided tests conducted at the 0.05 level."||2.8|-4.7|
92417675|NCT01857310|184723076|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.88|1.09|||||Adjusted for infertility treatment stratum and study site|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Live birth will be compared using two sided tests conducted at the 0.05 level."||1.09|0.88|
92417676|NCT01857310|184723077|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.2|0.2|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Semen volume will be compared using two sided tests conducted at the 0.05 level."||0.2|-0.2|
92417677|NCT01857310|184723077|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.1|0.2|||||Weighted for loss to follow-up and adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Semen volume will be compared using two sided tests conducted at the 0.05 level."||0.2|-0.1|
92417678|NCT01857310|184723078|SUPERIORITY||Mean Difference (Final Values)|-4.3|||||TWO_SIDED|95.1|-12.5|3.9|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm concentration represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||3.9|-12.5|
92417679|NCT01857310|184723078|SUPERIORITY||Mean Difference (Final Values)|-5.2|||||TWO_SIDED|95.1|-13.6|3.1|||||Weighted for loss to follow-up and adjusted for fertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm concentration represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||3.1|-13.6|
92417680|NCT01857310|184723079|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.1|-2.5|1.5|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm motility represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||1.5|-2.5|
92417681|NCT01857310|184723079|SUPERIORITY||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.1|-2.7|1.4|||||Weighted for loss to follow-up and adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm motility represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||1.4|-2.7|
92417682|NCT01857310|184723080|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.1|-0.8|0.1|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm morphology represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||0.1|-0.8|
92417683|NCT01857310|184723080|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.1|-0.9|0.0|||||Weighted for loss to follow-up and adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm morphology represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||0|-0.9|
92278748|NCT03280537|184460120|SUPERIORITY||Difference in Least Squares Means|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.0017|TWO_SIDED|95.0|-0.8|-0.19||Tested at the two-sided 0.05 significance level. There was no adjustment for multiplicity for the co-primary outcome measures.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NCS, treatment and baseline NCS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The primary analysis tested the null hypothesis that no treatment group difference existed for change from baseline in NCS at Week 24. As NPS and NCS are co-primary outcome measures, both null hypotheses for NPS and NCS must be rejected, with parameter estimates indicating a benefit of omalizumab over placebo, for the study to be deemed positive.||-0.19|-0.80|0.0017
92387733|NCT02123823|184676641|OTHER||Hazard Ratio, log|0.97||||0.9057|TWO_SIDED|95.0|0.57|1.65|||Log Rank|Two-sided log-rank test stratified for visceral involvement.|Cox proportional hazards model stratified for visceral involvement.|||1.65|0.57|0.9057
92387734|NCT02123823|184676644|OTHER||Odds Ratio, log|0.7||||0.5598|TWO_SIDED|95.0|0.2|2.32|||Regression, Logistic|Odds ratio and p-value are obtained from logistic regression model adjusted for visceral involvement at screening.|An odds ratio \>1 indicates a benefit to the xentuzumab arm.|||2.32|0.20|0.5598
92387735|NCT02123823|184676645|OTHER||Hazard Ratio, log|1.03||||0.9146|TWO_SIDED|95.0|0.59|1.8|||Log Rank|Two-sided log-rank test stratified for visceral involvement.|Cox proportional hazards model stratified for visceral involvement.|||1.80|0.59|0.9146
92387736|NCT02123823|184676646|OTHER||Odds Ratio, log|0.7||||0.4008|TWO_SIDED|95.0|0.31|1.59|||Regression, Logistic|Odds ratio and p-value are obtained from logistic regression model adjusted for visceral involvement.|An odds ratio \>1 indicates a benefit to the xentuzumab arm.|||1.59|0.31|0.4008
92387737|NCT01635855|184676654|SUPERIORITY_OR_OTHER||One-sided binomial|8.5|||<|0.025|TWO_SIDED|95.0|3.5|13.6||Ho (null): Ps \>= 22% versus Ha (alternate): Ps \< 22% where Ps is the proportion of subjects with common severe adverse events in the post-approval study. Ho is rejected if upper limit of the 95% CI of Ps \< 22% and the one-sided p-value \<= 0.025.|One sided binomial distribution|The upper limit of the 95% two-sided CI for a proportion is equivalent to the 97.5% one-sided CI for that proportion for normal approximations.||The analysis was performed by comparing the proportion of subjects with severe common adverse events in the post-market study to that occurred in the pre-market studies. It was pre-specified in the protocol that the proportion of subjects with severe common adverse events in the pre-market studies was 22%.||13.6|3.5|< 0.025
92417684|NCT01857310|184723081|SUPERIORITY||Mean Difference (Final Values)|2.4|||||TWO_SIDED|95.0|0.5|4.4|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. DNA fragmentation will be compared using two sided tests conducted at the 0.05 level."||4.4|0.5|
92417685|NCT01857310|184723081|SUPERIORITY||Mean Difference (Final Values)|2.3|||||TWO_SIDED|95.0|0.3|4.3|||||Weighted for loss to follow-up and adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. DNA fragmentation will be compared using two sided tests conducted at the 0.05 level."||4.3|0.3|
92387738|NCT00095173|184676673|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.0002|TWO_SIDED|95.0|0.16|0.59|||Log Rank||Abatacept over placebo|||0.59|0.16|0.0002
92387739|NCT00095173|184676674|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92387740|NCT02161757|184676692|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate ratio|0.93||||0.5859|TWO_SIDED|95.0|0.72|1.21|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate ratio): Tralo 300 mg Q2W vs placebo.||1.21|0.72|0.5859
92387741|NCT02161757|184676692|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate ratio|0.9||||0.4406|TWO_SIDED|95.0|0.7|1.17|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate ratio): Tralo 300 mg Q4W vs placebo.||1.17|0.70|0.4406
92417686|NCT01857310|184723082|SUPERIORITY||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-19.7|22.5|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Total motile sperm count will be compared using two sided tests conducted at the 0.05 level."||22.5|-19.7|
92417687|NCT01857310|184723082|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-20.9|21.4|||||Weighted for loss to follow-up and adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Total motile sperm count will be compared using two sided tests conducted at the 0.05 level."||21.4|-20.9|
92387742|NCT02161757|184676692|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate reduction|7.01||||0.5859|TWO_SIDED|95.0|-20.76|28.39|||Negative binominal||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate reduction): Tralo 300 mg Q2W vs placebo.||28.39|-20.76|0.5859
92387743|NCT02161757|184676692|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate reduction|9.76||||0.4406|TWO_SIDED|95.0|-17.16|30.5|||Negative binominal||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate reduction): Tralo 300 mg Q4W vs placebo.||30.50|-17.16|0.4406
92235061|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.29|0.43|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.43|0.29|
92278749|NCT03280537|184460121|SUPERIORITY||Difference in Least Squares Means|-0.45|STANDARD_ERROR_OF_MEAN|0.14||0.0024|TWO_SIDED|95.0|-0.73|-0.16||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline SSS, treatment and baseline SSS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Sense of Smell Score (SSS) at Week 24.||-0.16|-0.73|0.0024
92387744|NCT02161757|184676693|SUPERIORITY||Least square (LS) Mean difference|6.03|||||TWO_SIDED|95.0|2.34|9.73|||||Fixed categorical effects of treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of percent change from baseline in pre-dose/pre-BD FEV1 at Week 52: Tralo 300 mg Q2W vs placebo.~Restricted maximum likelihood (REML) based repeated measures analysis performed on patients with a baseline pre-dose/pre-BD FEV1 assessment."||9.73|2.34|
92387745|NCT02161757|184676693|SUPERIORITY||LS Mean difference|2.1|||||TWO_SIDED|95.0|-1.58|5.77|||||Fixed categorical effects of treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of percent change from baseline in pre-dose/pre-BD FEV1 at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis performed on patients with a baseline pre-dose/pre-BD FEV1 assessment."||5.77|-1.58|
92387746|NCT02161757|184676694|SUPERIORITY||LS Mean difference|-0.09|||||TWO_SIDED|95.0|-0.23|0.04|||||Fixed categorical effects of baseline asthma symptom score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in total asthma symptom score at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||0.04|-0.23|
92387747|NCT02161757|184676694|SUPERIORITY||LS Mean difference|-0.02|||||TWO_SIDED|95.0|-0.15|0.12|||||Fixed categorical effects of baseline asthma symptom score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in total asthma symptom score at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||0.12|-0.15|
92387748|NCT02161757|184676695|SUPERIORITY||LS Mean difference|0.15|||||TWO_SIDED|95.0|-0.01|0.31|||||Fixed categorical effects of baseline AQLQ(S)+12 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for AQLQ(S)+12 at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||0.31|-0.01|
92387749|NCT02161757|184676695|SUPERIORITY||LS Mean difference|0.12|||||TWO_SIDED|95.0|-0.03|0.28|||||Fixed categorical effects of baseline AQLQ(S)+12 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for AQLQ(S)+12 at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||0.28|-0.03|
92387750|NCT02161757|184676696|SUPERIORITY||LS Mean difference|-0.16|||||TWO_SIDED|95.0|-0.29|-0.02|||||Fixed categorical effects of baseline ACQ-6 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for ACQ-6 at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||-0.02|-0.29|
92417688|NCT01857310|184723083|SUPERIORITY||Risk Difference (RD)|-0.9|||||TWO_SIDED|95.0|-4.7|3.0|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. hCG detected pregnancy will be compared using two sided tests conducted at the 0.05 level."||3.0|-4.7|
92387751|NCT02161757|184676696|SUPERIORITY||LS Mean difference|-0.12|||||TWO_SIDED|95.0|-0.26|0.01|||||Fixed categorical effects of baseline ACQ-6 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for ACQ-6 at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||0.01|-0.26|
92387752|NCT02161757|184676697|SUPERIORITY||Rate ratio|0.54||||0.0369|TWO_SIDED|95.0|0.3|0.96|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations resulting in hospitalisation or ER treatment (yes/no) in the year before the study.|Comparison of AAER associated with an ER/UC visit or hospitalisation: Tralo 300 mg Q2W vs placebo.||0.96|0.30|0.0369
92387753|NCT02161757|184676697|SUPERIORITY||Rate ratio|0.78||||0.3603|TWO_SIDED|95.0|0.46|1.33|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations resulting in hospitalisation or ER treatment (yes/no) in the year before the study.|Comparison of AAER associated with an ER/UC visit or hospitalisation: Tralo 300 mg Q4W vs placebo.||1.33|0.46|0.3603
92235062|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.29|0.59|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.59|0.29|
92280540|NCT00601484|184463648|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-19.48|STANDARD_ERROR_OF_MEAN|13.631|||TWO_SIDED|90.0|-42.418|3.46||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||3.460|-42.418|
92235063|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.17|0.38|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.38|0.17|
92387754|NCT02161757|184676699|SUPERIORITY||LS Mean difference|-0.11|||||TWO_SIDED|95.0|-0.51|0.29|||||Fixed categorical effects of baseline rescue medication use, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of mean change from baseline in rescue medication use at Week 52: Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||0.29|-0.51|
92387755|NCT02161757|184676699|SUPERIORITY||LS Mean difference|-0.16|||||TWO_SIDED|95.0|-0.56|0.24|||||Fixed categorical effects of baseline rescue medication use, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of mean change from baseline in rescue medication use at Week 52: Tralo 300 mg Q4W vs placebo. REML based repeated measures analysis.||0.24|-0.56|
92387756|NCT02161757|184676700|SUPERIORITY||LS Mean difference|6.25|||||TWO_SIDED|95.0|-3.53|16.03|||||Fixed categorical effects of baseline PEF (morning), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in morning PEF at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||16.03|-3.53|
92387757|NCT02161757|184676700|SUPERIORITY||LS Mean difference|1.77|||||TWO_SIDED|95.0|-7.99|11.53|||||Fixed categorical effects of baseline PEF (morning), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in morning PEF at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||11.53|-7.99|
92387758|NCT02161757|184676700|SUPERIORITY||LS Mean difference|7.14|||||TWO_SIDED|95.0|-2.6|16.87|||||Fixed categorical effects of baseline PEF (evening), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in evening PEF at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||16.87|-2.60|
92387759|NCT02161757|184676700|SUPERIORITY||LS Mean difference|0.61|||||TWO_SIDED|95.0|-9.13|10.35|||||Fixed categorical effects of baseline PEF (evening), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in evening PEF at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||10.35|-9.13|
92387760|NCT02161757|184676701|SUPERIORITY||LS Mean difference|-1.8|||||TWO_SIDED|95.0|-5.29|1.69|||||Fixed categorical effects of baseline number (%) of awakenings, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in number (%) of awakenings at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||1.69|-5.29|
92387761|NCT02161757|184676701|SUPERIORITY||LS Mean difference|-2.36|||||TWO_SIDED|95.0|-5.84|1.12|||||Fixed categorical effects of baseline number (%) of awakenings, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in number (%) of awakenings at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||1.12|-5.84|
92387762|NCT02161757|184676702|SUPERIORITY||Odds Ratio (OR)|0.95||||0.732|TWO_SIDED|95.0|0.71|1.28|||Cochran-Mantel-Haenszel||The estimate of each odds ratio was obtained from two separate models, from a Cochran-Mantel-Haenszel test controlling for geographical region, age group and periostin group at baseline.|Comparison of number of patients with ≥ 1 asthma exacerbations up to Week 52: Tralo 300 mg Q2W vs placebo.||1.28|0.71|0.732
92235064|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.21|0.36|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.36|0.21|
92235065|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.27|0.56|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.56|0.27|
92387763|NCT02161757|184676702|SUPERIORITY||Odds Ratio (OR)|0.88||||0.421|TWO_SIDED|95.0|0.65|1.19|||Cochran-Mantel-Haenszel||The estimate of each odds ratio was obtained from two separate models, from a Cochran-Mantel-Haenszel test controlling for geographical region, age group and periostin group at baseline.|Comparison of number of patients with ≥ 1 asthma exacerbations up to Week 52: Tralo 300 mg Q4W vs placebo.||1.19|0.65|0.421
92417689|NCT01857310|184723083|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.91|1.09|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. hCG detected pregnancy will be compared using two sided tests conducted at the 0.05 level."||1.09|0.91|
92417690|NCT01857310|184723084|SUPERIORITY||Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-4.9|2.8|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Clinical intrauterine pregnancy will be compared using two sided tests conducted at the 0.05 level."||2.8|-4.9|
92235066|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.13|0.28|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.28|0.13|
92417691|NCT01857310|184723084|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.89|1.08|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Clinical intrauterine pregnancy will be compared using two sided tests conducted at the 0.05 level."||1.08|0.89|
92169730|NCT04337372|184227968|SUPERIORITY||||||=|0.768||||||F(2,45) = .266|MANOVA|||EEG Data were extracted from a mid-occipital cluster for each conditions for parents \& infants. Data were entered into a 2-factor MANOVA with Label (Individual, Category, No Label) as a within-subjects factor and Age (6 mo, 9 mo, 12 mo) as a between-subjects factor. The phase-locking index measures the extent to which the parent \& infant oscillatory response is in the same phase across time (bounded between 0 and 1, 1 being perfect synchrony. The main effect of condition is reported here.||||=.768
92235067|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.2|0.39|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.39|0.20|
92387764|NCT02106403|184676727|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.46||||0.0659|TWO_SIDED|95.0|-0.37|11.29|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus negative control such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||11.29|-0.37|0.0659
92387765|NCT02106403|184676727|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.99||||0.0928|TWO_SIDED|95.0|-0.84|10.81|||ANCOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the reference product minus negative control such that a positive difference showed improved cooling in the reference product.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||10.81|-0.84|0.0928
92387766|NCT02106403|184676727|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.48||||0.8711|TWO_SIDED|95.0|-5.35|6.31|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus reference product such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||6.31|-5.35|0.8711
92417692|NCT01857310|184723085|SUPERIORITY||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.5|0.6|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Ectopic pregnancy will be compared using two sided tests conducted at the 0.05 level."||0.6|-0.5|
92417693|NCT01857310|184723085|SUPERIORITY||Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.37|3.97|||||Adjusted for fertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Ectopic pregnancy will be compared using two sided tests conducted at the 0.05 level."||3.97|0.37|
92417694|NCT01857310|184723086|SUPERIORITY||Risk Difference (RD)|-1.1|||||TWO_SIDED|95.0|-3.7|1.5|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Early pregnancy loss will be compared using two sided tests conducted at the 0.05 level."||1.5|-3.7|
92417695|NCT01857310|184723086|SUPERIORITY||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.75|1.15|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Early pregnancy loss will be compared using two sided tests conducted at the 0.05 level."||1.15|0.75|
92417696|NCT01857310|184723087|SUPERIORITY||Risk Difference (RD)|-0.3|||||TWO_SIDED|95.0|-1.9|1.3|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Preeclampsia/gestational hypertension will be compared using two sided tests conducted at the 0.05 level."||1.3|-1.9|
92417697|NCT01857310|184723087|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.63|1.36|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Preeclampsia/gestational hypertension will be compared using two sided tests conducted at the 0.05 level."||1.36|0.63|
92417698|NCT01857310|184723088|SUPERIORITY||Risk Difference (RD)|-0.7|||||TWO_SIDED|95.0|-1.9|0.6|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Gestational diabetes will be compared using two sided tests conducted at the 0.05 level."||0.6|-1.9|
92417699|NCT01857310|184723088|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.47|1.27|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Gestational diabetes will be compared using two sided tests conducted at the 0.05 level."||1.27|0.47|
92387767|NCT02106403|184676728|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.43||||0.0016|TWO_SIDED|95.0|4.43|18.42|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus negative control such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||18.42|4.43|0.0016
92387768|NCT02106403|184676728|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.69||||0.6323|TWO_SIDED|95.0|-5.31|8.69|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the reference product minus negative control such that a positive difference showed improved cooling in the reference product.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||8.69|-5.31|0.6323
92387769|NCT02106403|184676728|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.73||||0.0069|TWO_SIDED|95.0|2.74|16.73|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus reference product such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||16.73|2.74|0.0069
92387770|NCT02106403|184676729|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.13|||<|0.0001|TWO_SIDED|95.0|6.23|18.04|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus negative control such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||18.04|6.23|<0.0001
92387771|NCT02106403|184676729|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.18||||0.4645|TWO_SIDED|95.0|-8.09|3.72|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the reference product minus negative control such that a positive difference showed improved cooling in the reference product.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||3.72|-8.09|0.4645
92387772|NCT02106403|184676729|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.32|||<|0.0001|TWO_SIDED|95.0|8.41|20.22|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus reference product such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||20.22|8.41|<0.0001
92387773|NCT02106403|184676730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.41||||0.0357|TWO_SIDED|95.0|0.44|12.38|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus negative control such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||12.38|0.44|0.0357
92387774|NCT02106403|184676730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.02||||0.503|TWO_SIDED|95.0|-3.95|8.0|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the reference product minus negative control such that a positive difference showed improved cooling in the reference product.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||8.00|-3.95|0.5030
92417700|NCT01857310|184723089|SUPERIORITY||Risk Difference (RD)|1.2|||||TWO_SIDED|95.0|-1.4|3.8|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Cesarean delivery will be compared using two sided tests conducted at the 0.05 level."||3.8|-1.4|
92417701|NCT01857310|184723089|SUPERIORITY||Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|0.89|1.39|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Cesarean delivery will be compared using two sided tests conducted at the 0.05 level."||1.39|0.89|
92387775|NCT02106403|184676730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.39||||0.1482|TWO_SIDED|95.0|-1.59|10.36|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus reference product such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||10.36|-1.59|0.1482
92387776|NCT02343406|184676732|OTHER||Cox Proportional Hazard|0.71|||=|0.062|TWO_SIDED|95.0|0.5|1.02||2-sided|Log Rank|||Stratified at randomization by regions of the world (North America, Europe and Australia, Asia/Other Regions), WHO performance status (0, \> 0), timing of relapse (\< 16 weeks, ≥ 16 weeks after first day of last TMZ cycle).||1.02|0.5|= 0.062
92387777|NCT02343406|184676732|OTHER||Cox Proportional Hazard|1.04|||=|0.835|TWO_SIDED|95.0|0.73|1.48||2-sided|Log Rank|||Stratified at randomization by regions of the world (North America, Europe and Australia, Asia/Other Regions), WHO performance status (0, \> 0), timing of relapse (\< 16 weeks, ≥ 16 weeks after first day of last TMZ cycle).||1.48|0.73|= 0.835
92387778|NCT02343406|184676733|OTHER||Cox Proportional Hazard|0.77|||=|0.123|TWO_SIDED|95.0|0.55|1.07||2-sided|Log Rank|||||1.07|0.55|= 0.123
92387779|NCT02343406|184676733|OTHER||Cox Proportional Hazard|1.31|||=|0.117|TWO_SIDED|95.0|0.93|1.84||2-sided|Log Rank|||||1.84|0.93|= 0.117
92417702|NCT01857310|184723090|SUPERIORITY||Risk Difference (RD)|1.9|||||TWO_SIDED|95.0|0.2|3.6|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Preterm delivery will be compared using two sided tests conducted at the 0.05 level."||3.6|0.2|
92417703|NCT01857310|184723090|SUPERIORITY||Risk Ratio (RR)|1.49|||||TWO_SIDED|95.0|1.04|2.16|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Preterm delivery will be compared using two sided tests conducted at the 0.05 level."||2.16|1.04|
92417704|NCT01857310|184723091|SUPERIORITY||Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-1.5|2.0|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Small for gestational age will be compared using two sided tests conducted at the 0.05 level."||2.0|-1.5|
92417705|NCT01857310|184723091|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.75|1.49|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Small for gestational age will be compared using two sided tests conducted at the 0.05 level."||1.49|0.75|
92417706|NCT01857310|184723092|SUPERIORITY||Risk Difference (RD)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Gestational age will be compared using two sided tests conducted at the 0.05 level."||0.1|-0.5|
92387780|NCT02343406|184676741|OTHER||Odds Ratio (OR)|3.1|||=|0.06|TWO_SIDED|95.0|0.6|16.16||2-sided|Cochran-Mantel-Haenszel|||Comparison is based on Cochran-Mantel-Haenszel method with stratification factors. Stratified at randomization by regions of the world (North America, Europe and Australia, Asia/Other Regions), WHO performance status (0, \> 0), timing of relapse (\< 16 weeks, ≥ 16 weeks after first day of last TMZ cycle).||16.16|0.6|= 0.06
92387781|NCT02343406|184676741|OTHER||Odds Ratio (OR)|1.21|||=|0.767|TWO_SIDED|95.0|0.12|12.49||2-sided|Cochran-Mantel-Haenszel|||Comparison is based on Cochran-Mantel-Haenszel method with stratification factors. Stratified at randomization by regions of the world (North America, Europe and Australia, Asia/Other Regions), WHO performance status (0, \> 0), timing of relapse (\< 16 weeks, ≥ 16 weeks after first day of last TMZ cycle).||12.49|0.12|= 0.767
92387782|NCT02343406|184676742|OTHER||Cox Proportional Hazard|0.67|||=|0.127|TWO_SIDED|95.0|0.4|1.13||2-sided|Log Rank|||||1.13|0.4|= 0.127
92387783|NCT02343406|184676742|OTHER||Cox Proportional Hazard|0.88|||=|0.64|TWO_SIDED|95.0|0.52|1.49||2-sided|Log Rank|||||1.49|0.52|= 0.64
92387784|NCT00874848|184676750|SUPERIORITY_OR_OTHER|||||||0.2895|||||||Fisher Exact|||||||0.2895
92387785|NCT01496846|184676756|SUPERIORITY|||||||0.901|||||||Chi-squared|We used the Chi-Square Test or Fisher's Exact test on the raw data depending on the number of data points in the table cells.||||||.901
92387786|NCT01496846|184676756|SUPERIORITY|||||||0.004|||||||Chi-squared|We used the Chi-Square Test or Fisher's Exact test on the raw data depending on the number of data points in the table cells.||||||.004
92387787|NCT01496846|184676757|SUPERIORITY|||||||0.437|||||||Chi-squared|We used the Chi-Square Test or Fisher's Exact test on the raw data depending on the number of data points in the table cells.||||||.437
92387788|NCT03089541|184676758|SUPERIORITY||Odds Ratio (OR)|0.17||||0.002|TWO_SIDED|95.0|0.06|0.52|||Regression, Logistic|||Comparison on Eating/Drinking using a model adjusted for timing of the assessment (weekend, time of day (am vs. pm), and day of study (1 to 7). The significance level was 0.05.||0.52|0.06|0.002
92387789|NCT03089541|184676758|SUPERIORITY||Odds Ratio (OR)|2.65||||0.07|TWO_SIDED|95.0|0.92|7.65|||Regression, Logistic|||Comparison on Traveling using a model adjusted for timing of the assessment (weekend, time of day (am vs. pm), and day of study (1 to 7)). The significance level was 0.05.||7.65|0.92|0.07
92387790|NCT03089541|184676758|SUPERIORITY||Odds Ratio (OR)|1.46||||0.4|TWO_SIDED|95.0|0.59|3.64|||Regression, Logistic|||Comparison on Working/Reading/Studying using a model adjusted for timing of the assessment (weekend, time of day (am vs. pm), and day of study (1 to 7). The significance level was 0.05.||3.64|0.59|0.40
92387791|NCT03089541|184676758|SUPERIORITY||Odds Ratio (OR)|1.34||||0.6|TWO_SIDED|95.0|0.51|3.53|||Regression, Logistic|||Comparison on Socializing using a model adjusted for timing of the assessment (weekend, time of day (am vs. pm), and day of study (1 to 7). The significance level was 0.05.||3.53|0.51|0.60
92387792|NCT03089541|184676758|SUPERIORITY||Odds Ratio (OR)|1.8||||0.06|TWO_SIDED|95.0|0.96|3.38|||Regression, Logistic|||Model on Public Space adjusted for timing of the assessment (weekend, time of day (am vs. pm), and day of study (1 to 7)). The significance level was 0.05.||3.38|0.96|0.06
92387793|NCT02024724|184676759|SUPERIORITY||Median Difference (Final Values)|-30.0||||0.196|TWO_SIDED|95.0|-45.0|10.0|||Chi-squared|||||10.00|-45.00|.196
92387794|NCT05169424|184676766|OTHER|Comparison of Stiolto (reference group) versus Trelegy for incidence rate of exacerbation.|Hazard Ratio (HR)|1.133||||0.064|TWO_SIDED|95.0|0.993|1.293|||Regression, Cox|Cox regression was for time to first exacerbation and cohort as covariate.||||1.293|0.993|0.064
92387795|NCT05169424|184676766|OTHER|||||||0.045|||||||Wilcoxon (Mann-Whitney)|||||||0.045
92387796|NCT05169424|184676766|OTHER|||||||0.063|||||||Log Rank|||||||0.063
92387797|NCT05169424|184676767|OTHER|Comparison of Stiolto (reference group) versus Trelegy.|Hazard Ratio (HR)|1.169||||0.057|TWO_SIDED|95.0|0.996|1.372|||Regression, Cox|Cox regression was for time to first exacerbation and cohort as covariate.||||1.372|0.996|0.057
92387798|NCT05169424|184676768|OTHER|Comparison of Stiolto (reference group) versus Trelegy.|Hazard Ratio (HR)|1.116||||0.114|TWO_SIDED|95.0|0.974|1.279|||Regression, Cox|Cox regression was for time to first exacerbation and cohort as covariate.||||1.279|0.974|0.114
92387799|NCT05169424|184676769|OTHER|Comparison of Stiolto (reference group) versus Trelegy.|Hazard Ratio (HR)|1.374||||0.273|TWO_SIDED|95.0|0.779|2.424|||Regression, Cox|Cox regression was for time to first exacerbation and cohort as covariate.||||2.424|0.779|0.273
92387800|NCT05169424|184676770|OTHER|Comparison of Stiolto (reference) versus Trelegy for incidence rate of pneumonia hospitalization.|Hazard Ratio (HR)|1.183||||0.429|TWO_SIDED|95.0|0.78|1.792|||Regression, Cox|||||1.792|0.780|0.429
92387801|NCT05169424|184676770|OTHER|||||||0.896|||||||Wilcoxon (Mann-Whitney)|||||||0.896
92387802|NCT05169424|184676770|OTHER|||||||0.932|||||||Log Rank|||||||0.932
92387803|NCT05169424|184676771|OTHER|Comparison of Stiolto (reference) versus Trelegy for incidence rate of pneumonia hospitalization.|Hazard Ratio (HR)|0.979||||0.935|TWO_SIDED|95.0|0.582|1.645|||Regression, Cox|||||1.645|0.582|0.935
92387804|NCT05169424|184676772|OTHER|Comparison of Stiolto (reference) versus Trelegy for incidence rate of pneumonia hospitalization.|Hazard Ratio (HR)|1.159||||0.507|TWO_SIDED|95.0|0.75|1.79|||Regression, Cox|||||1.790|0.750|0.507
92387805|NCT05169424|184676773|OTHER|Comparison of Stiolto (reference) versus Trelegy for incidence rate of pneumonia hospitalization.|Hazard Ratio (HR)|1.291||||0.726|TWO_SIDED|95.0|0.309|5.405|||Regression, Cox|||||5.405|0.309|0.726
92387806|NCT05169424|184676774|OTHER|||||||0.874|||||||t-test, 2 sided|||||||0.874
92387807|NCT05169424|184676774|OTHER||Exponential estimate|0.895||||0.01|TWO_SIDED|95.0|0.823|0.974|||ZINB regression with log link|The costs were modeled using Zero Inflated Negative Binomial (ZINB) regression with log link with cohort as the only covariate.|The analysis was for Stiolto versus Trlegy (Trelegy was the reference group).|||0.974|0.823|0.01
92387808|NCT05169424|184676775|OTHER|||||||0.899|||||||t-test, 2 sided|||||||0.899
92387809|NCT05169424|184676775|OTHER||Exponential estimate|0.897||||0.012|TWO_SIDED|95.0|0.824|0.976|||ZINB regression with log link|The costs were modeled using Zero Inflated Negative Binomial (ZINB) regression with log link with cohort as the only covariate.|The analysis was for Stiolto versus Trlegy (Trelegy was the reference group).|||0.976|0.824|0.012
92387810|NCT05169424|184676776|OTHER|||||||0.974|||||||t-test, 2 sided|||||||0.974
92387811|NCT05169424|184676776|OTHER||Exponential estimate|1.135||||0.595|TWO_SIDED|95.0|0.711|1.812|||ZINB regression with log link|The costs were modeled using Zero Inflated Negative Binomial (ZINB) regression with log link with cohort as the only covariate.|The analysis was for Stiolto versus Trlegy (Trelegy was the reference group).|||1.812|0.711|0.595
92387812|NCT05169424|184676777|OTHER|||||||0.622|||||||t-test, 2 sided|||||||0.622
92387813|NCT05169424|184676777|OTHER||Exponential estimate|1.008||||0.855|TWO_SIDED|95.0|0.928|1.094|||ZINB regression with log link|The costs were modeled using Zero Inflated Negative Binomial (ZINB) regression with log link with cohort as the only covariate.|The analysis was for Stiolto versus Trlegy (Trelegy was the reference group).|||1.094|0.928|0.855
92387814|NCT05169424|184676778|OTHER|||||||0.328|||||||t-test, 2 sided|||||||0.328
92387815|NCT02019875|184676783|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.884|TWO_SIDED|95.0|-21.2|18.3|||Mixed Models Analysis|||||18.3|-21.2|0.884
92387816|NCT02019875|184676783|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.955|TWO_SIDED|95.0|-19.5|20.7|||Mixed Models Analysis|||||20.7|-19.5|0.955
92387817|NCT02019875|184676783|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.53|TWO_SIDED|95.0|-26.5|13.6|||Mixed Models Analysis|||||13.6|-26.5|0.53
92387818|NCT02019875|184676783|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.434|TWO_SIDED|95.0|-27.6|11.9|||Mixed Models Analysis|||||11.9|-27.6|0.434
92387819|NCT02019875|184676783|SUPERIORITY||Mean Difference (Final Values)|-2.8||||0.796|TWO_SIDED|95.0|-24.2|18.6|||Mixed Models Analysis|||||18.6|-24.2|0.796
92387820|NCT02019875|184676784|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.62|TWO_SIDED|95.0|-6.0|3.6|||Mixed Models Analysis|||||3.6|-6.0|0.62
92387821|NCT02019875|184676784|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.482|TWO_SIDED|95.0|-3.1|6.7|||Mixed Models Analysis|||||6.7|-3.1|0.482
92387822|NCT02019875|184676784|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.559|TWO_SIDED|95.0|-3.4|6.4|||Mixed Models Analysis|||||6.4|-3.4|0.559
92387823|NCT02019875|184676784|SUPERIORITY||Mean Difference (Final Values)|3.7||||0.138|TWO_SIDED|95.0|-1.2|8.5|||Mixed Models Analysis|||||8.5|-1.2|0.138
92387824|NCT02019875|184676784|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.477|TWO_SIDED|95.0|-7.1|3.3|||Mixed Models Analysis|||||3.3|-7.1|0.477
92387825|NCT02019875|184676785|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.98|TWO_SIDED|95.0|-11.0|11.3|||Mixed Models Analysis|||||11.3|-11.0|0.98
92387826|NCT02019875|184676785|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.81|TWO_SIDED|95.0|-10.0|12.7|||Mixed Models Analysis|||||12.7|-10.0|0.81
92387827|NCT02019875|184676785|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.91|TWO_SIDED|95.0|-10.8|12.2|||Mixed Models Analysis|||||12.2|-10.8|0.91
92387828|NCT02019875|184676785|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.68|TWO_SIDED|95.0|-8.9|13.8|||Mixed Models Analysis|||||13.8|-8.9|0.68
92387829|NCT02019875|184676785|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.96|TWO_SIDED|95.0|-11.9|12.6|||Mixed Models Analysis|||||12.6|-11.9|0.96
92387830|NCT02019875|184676786|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.17|TWO_SIDED|95.0|-2.7|0.5|||Mixed Models Analysis|||||0.5|-2.7|0.17
92387831|NCT02019875|184676786|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.44|TWO_SIDED|95.0|-1.0|2.2|||Mixed Models Analysis|||||2.2|-1.0|0.44
92387832|NCT02019875|184676786|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.94|TWO_SIDED|95.0|-1.7|1.6|||Mixed Models Analysis|||||1.6|-1.7|0.94
92387833|NCT02019875|184676786|SUPERIORITY||Mean Difference (Final Values)|3.7|||<|0.0001|TWO_SIDED|95.0|2.1|5.2|||Mixed Models Analysis|||||5.2|2.1|<0.0001
92387834|NCT02019875|184676786|SUPERIORITY||Mean Difference (Final Values)|3.9|||<|0.0001|TWO_SIDED|95.0|2.2|5.6|||Mixed Models Analysis|||||5.6|2.2|<0.0001
92387835|NCT02019875|184676787|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.43|TWO_SIDED|95.0|-0.027|0.012|||Mixed Models Analysis|||||0.012|-0.027|0.43
92387836|NCT02019875|184676787|SUPERIORITY||Mean Difference (Final Values)|-0.017||||0.09|TWO_SIDED|95.0|-0.037|0.003|||Mixed Models Analysis|||||0.003|-0.037|0.09
92169731|NCT04337372|184227968|SUPERIORITY||||||=|0.2||||||F(4,90) = 1.531|MANOVA|||EEG Data were extracted from a mid-occipital cluster for each conditions for parents \& infants. Data were entered into a 2-factor MANOVA with Label (Individual, Category, No Label) as a within-subjects factor and Age (6 mo, 9 mo, 12 mo) as a between-subjects factor. The phase-locking index measures the extent to which the parent \& infant oscillatory response is in the same phase across time (bounded between 0 and 1, 1 being perfect synchrony. The interaction of age and condition is reported.||||=.200
92387837|NCT02019875|184676787|SUPERIORITY||Mean Difference (Final Values)|-0.011||||0.29|TWO_SIDED|95.0|-0.031|0.009|||Mixed Models Analysis|||||0.009|-0.031|0.29
92387838|NCT02019875|184676787|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.61|TWO_SIDED|95.0|-0.025|0.015|||Mixed Models Analysis|||||0.015|-0.025|0.61
92387839|NCT02019875|184676787|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.46|TWO_SIDED|95.0|-0.03|0.014|||Mixed Models Analysis|||||0.014|-0.03|0.46
92387840|NCT02019875|184676788|SUPERIORITY||Mean Difference (Final Values)|-12.6||||0.53|TWO_SIDED|95.0|-52.0|26.7|||Mixed Models Analysis|||||26.7|-52.0|0.53
92387841|NCT02019875|184676788|SUPERIORITY||Mean Difference (Final Values)|-44.5||||0.03|TWO_SIDED|95.0|-84.5|-4.5|||Mixed Models Analysis|||||-4.5|-84.5|0.03
92387842|NCT02019875|184676788|SUPERIORITY||Mean Difference (Final Values)|-7.2||||0.72|TWO_SIDED|95.0|-47.3|32.8|||Mixed Models Analysis|||||32.8|-47.3|0.72
92387843|NCT02019875|184676788|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.89|TWO_SIDED|95.0|-36.6|42.2|||Mixed Models Analysis|||||42.2|-36.6|0.89
92387844|NCT02019875|184676788|SUPERIORITY||Mean Difference (Final Values)|38.0||||0.08|TWO_SIDED|95.0|-4.7|80.6|||Mixed Models Analysis|||||80.6|-4.7|0.08
92417707|NCT01857310|184723093|SUPERIORITY||Risk Difference (RD)|-64.7|||||TWO_SIDED|95.0|-156.0|26.4|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Birth weight will be compared using two sided tests conducted at the 0.05 level."||26.4|-156|
92417708|NCT01857310|184723094|SUPERIORITY||Risk Difference (RD)|-0.2|||||TWO_SIDED|95.0|-0.6|0.1|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Stillbirth will be compared using two sided tests conducted at the 0.05 level."||0.1|-0.6|
92417709|NCT01857310|184723094|SUPERIORITY||Risk Ratio (RR)|0.25|||||TWO_SIDED|95.0|0.03|2.24|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Stillbirth will be compared using two sided tests conducted at the 0.05 level."||2.24|0.03|
92417710|NCT01857310|184723095|SUPERIORITY||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.3|0.5|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Neonatal mortality will be compared using two sided tests conducted at the 0.05 level."||0.5|-0.3|
92387845|NCT02019875|184676789|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.96|TWO_SIDED|95.0|-104.5|110.2|||Mixed Models Analysis|||||110.2|-104.5|0.96
92387846|NCT02019875|184676789|SUPERIORITY||Mean Difference (Final Values)|15.0||||0.79|TWO_SIDED|95.0|-94.2|124.2|||Mixed Models Analysis|||||124.2|-94.2|0.79
92387847|NCT02019875|184676789|SUPERIORITY||Mean Difference (Final Values)|71.3||||0.2|TWO_SIDED|95.0|-37.9|180.5|||Mixed Models Analysis|||||180.5|-37.9|0.20
92387848|NCT02019875|184676789|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.96|TWO_SIDED|95.0|-110.1|104.7|||Mixed Models Analysis|||||104.7|-110.1|0.96
92387849|NCT02019875|184676789|SUPERIORITY||Mean Difference (Final Values)|51.8||||0.38|TWO_SIDED|95.0|-64.7|168.2|||Mixed Models Analysis|||||168.2|-64.7|0.38
92387850|NCT01371734|184676813|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.85||||0.587|TWO_SIDED|95.0|-2.23|3.94|||Mixed-effects model for repeated measure|Hochberg procedure was used to control for multiplicity||Adjusted mean difference = Placebo - DVS SR Low Dose||3.94|-2.23|0.587
92387851|NCT01371734|184676813|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.52||||0.333|TWO_SIDED|95.0|-1.56|4.61|||Mixed-effects model for repeated measure|Hochberg procedure was used to control for multiplicity||Adjusted mean difference = Placebo - DVS SR High Dose||4.61|-1.56|0.333
92387852|NCT01371734|184676814|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.015||||0.923|TWO_SIDED|95.0|-0.29|0.32|||Mixed-effects model for repeated measure|Hochberg procedure was used to control for multiplicity||Adjusted mean difference = Placebo - DVS SR Low Dose||0.32|-0.29|0.923
92387853|NCT01371734|184676814|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.161||||0.302|TWO_SIDED|95.0|-0.14|0.47|||Mixed-effects model for repeated measure|Hochberg procedure was used to control for multiplicity||Adjusted mean difference = Placebo - DVS SR High Dose||0.47|-0.14|0.302
92387854|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.729|||||||Cochran-Mantel-Haenszel|||Week 1||||0.729
92387855|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.756|||||||Cochran-Mantel-Haenszel|||Week 1||||0.756
92387856|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.765|||||||Cochran-Mantel-Haenszel|||Week 2||||0.765
92387857|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.475|||||||Cochran-Mantel-Haenszel|||Week 2||||0.475
92387858|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.31|||||||Cochran-Mantel-Haenszel|||Week 3||||0.310
92387859|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.105|||||||Chi-squared, Corrected|||Week 3||||0.105
92387860|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.254|||||||Cochran-Mantel-Haenszel|||Week 4||||0.254
92387861|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.887|||||||Cochran-Mantel-Haenszel|||Week 4||||0.887
92387862|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.475|||||||Cochran-Mantel-Haenszel|||Week 6||||0.475
92387863|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.407|||||||Cochran-Mantel-Haenszel|||Week 6||||0.407
92387864|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.696|||||||Cochran-Mantel-Haenszel|||Week 8||||0.696
92235068|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.28|0.67|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.67|0.28|
92235069|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.48|0.83|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.83|0.48|
92387865|NCT01371734|184676815|SUPERIORITY_OR_OTHER|||||||0.462|||||||Cochran-Mantel-Haenszel|||Week 8||||0.462
92387866|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.806||||0.633|TWO_SIDED|95.0|0.333|1.951|||Regression, Logistic|||Week 1||1.951|0.333|0.633
92387867|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.561||||0.172|TWO_SIDED|95.0|0.245|1.285|||Regression, Logistic|||Week 1||1.285|0.245|0.172
92387868|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.939||||0.826|TWO_SIDED|95.0|0.536|1.644|||Regression, Logistic|||Week 2||1.644|0.536|0.826
92387869|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.599|TWO_SIDED|95.0|0.489|1.511|||Regression, Logistic|||Week 2||1.511|0.489|0.599
92387870|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.713||||0.248|TWO_SIDED|95.0|0.402|1.265|||Regression, Logistic|||Week 3||1.265|0.402|0.248
92387871|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.564||||0.048|TWO_SIDED|95.0|0.32|0.995|||Regression, Logistic|||Week 3||0.995|0.320|0.048
92387872|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.708||||0.21|TWO_SIDED|95.0|0.412|1.216|||Regression, Logistic|||Week 4||1.216|0.412|0.210
92387873|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.964||||0.893|TWO_SIDED|95.0|0.564|1.646|||Regression, Logistic|||Week 4||1.646|0.564|0.893
92387874|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.714||||0.228|TWO_SIDED|95.0|0.413|1.235|||Regression, Logistic|||Week 6||1.235|0.413|0.228
92387875|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.916||||0.751|TWO_SIDED|95.0|0.531|1.579|||Regression, Logistic|||Week 6||1.579|0.531|0.751
92387876|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.974||||0.925|TWO_SIDED|95.0|0.561|1.689|||Regression, Logistic|||Week 8||1.689|0.561|0.925
92387877|NCT01371734|184676816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.764||||0.342|TWO_SIDED|95.0|0.438|1.331|||Regression, Logistic|||Week 8||1.331|0.438|0.342
92387878|NCT00145574|184676818|SUPERIORITY_OR_OTHER|||||||0.1122|||||||ANCOVA|||The primary null hypotheses were tested sequentially in the following order: 1) no difference between the high-dose colesevelam HCl and placebo for percent change in LDL-C from study baseline to Week 8 endpoint with the last observation carried forward (LOCF) and 2) no difference between the low-dose colesevelam HCl and placebo for percent change in LDL-C from study baseline to Week 8 endpoint with LOCF. The hypotheses were tested at a 2-sided significance level of 5%.||||0.1122
92387879|NCT00145574|184676818|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92387880|NCT00145574|184676819|SUPERIORITY_OR_OTHER|||||||0.526||95.0|||||ANCOVA|||||||0.5260
92387881|NCT00145574|184676819|SUPERIORITY_OR_OTHER|||||||0.0085||95.0|||||ANCOVA|||||||0.0085
92387882|NCT00145574|184676820|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92387883|NCT00145574|184676820|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||ANCOVA|||||||0.0008
92387884|NCT00145574|184676821|SUPERIORITY_OR_OTHER|||||||0.0155||95.0|||||ANCOVA|||||||0.0155
92387885|NCT00145574|184676821|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92387886|NCT00145574|184676822|SUPERIORITY_OR_OTHER|||||||0.3482||95.0|||||ANCOVA|||||||0.3482
92387887|NCT00145574|184676822|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|||||||0.0006
92387888|NCT00145574|184676823|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|||||||0.0002
92387889|NCT00145574|184676823|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92387890|NCT00145574|184676824|SUPERIORITY_OR_OTHER|||||||0.7433||95.0|||||ANCOVA|||||||0.7433
92387891|NCT00145574|184676824|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||ANCOVA|||||||0.0003
92387892|NCT00621140|184676832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.85|-0.53|||ANCOVA|||Linagliptin vs. Placebo||-0.53|-0.85|<0.0001
92387893|NCT00621140|184676833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|-0.58|-0.34|||ANCOVA|||Linagliptin vs. Placebo||-0.34|-0.58|<0.0001
92387894|NCT00621140|184676834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.76|-0.47|||ANCOVA|||Linagliptin vs. Placebo||-0.47|-0.76|<0.0001
92387895|NCT00621140|184676835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.82|-0.49|||ANCOVA|||Linagliptin vs. Placebo||-0.49|-0.82|<0.0001
92387896|NCT00621140|184676836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.31|STANDARD_ERROR_OF_MEAN|3.59|<|0.0001||95.0|-30.37|-16.26|||ANCOVA|||Linagliptin vs. Placebo||-16.26|-30.37|<0.0001
92387897|NCT00621140|184676837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6|STANDARD_ERROR_OF_MEAN|2.81|<|0.0001||95.0|-23.11|-12.08|||ANCOVA|||Linagliptin vs. Placebo||-12.08|-23.11|<0.0001
92387898|NCT00621140|184676838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.98|STANDARD_ERROR_OF_MEAN|3.17|<|0.0001||95.0|-27.21|-14.75|||ANCOVA|||Linagliptin vs. Placebo||-14.75|-27.21|<0.0001
92387899|NCT00621140|184676839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.36|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-27.05|-13.68|||ANCOVA|||Linagliptin vs. Placebo||-13.68|-27.05|<0.0001
92387900|NCT00621140|184676840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.869||||0.0006||95.0|1.575|5.225|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||5.225|1.575|0.0006
92387901|NCT00621140|184676842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.436||||0.0323||95.0|1.078|5.507|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||5.507|1.078|0.0323
92417711|NCT01857310|184723095|SUPERIORITY||Risk Ratio (RR)|1.5|||||TWO_SIDED|95.0|0.25|8.95|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Neonatal mortality will be compared using two sided tests conducted at the 0.05 level."||8.95|0.25|
92417712|NCT01857310|184723096|SUPERIORITY||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Major neonatal complications will be compared using two sided tests conducted at the 0.05 level."||0.4|-0.2|
92235070|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.49|0.74|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.74|0.49|
92387902|NCT00621140|184676844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.243|||<|0.0001||95.0|2.665|6.755|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||6.755|2.665|<0.0001
92387903|NCT00621140|184676845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-58.38|STANDARD_DEVIATION|12.05|<|0.0001||95.0|-82.33|-34.43|||ANCOVA|||Linagliptin vs. Placebo||-34.43|-82.33|<0.0001
92387904|NCT02669121|184676877|SUPERIORITY||Cox Proportional Hazard|0.8|||||TWO_SIDED|99.99|-13.181|0.997|||||||The vaccine efficacy was met if lower bound of confidence interval (CI) for vaccine efficacy was above 0. Vaccine efficacy (VE) was defined as 1-(hazard rate for NoV vaccine arm / hazard rate for placebo arm), where the hazard ratio is from the Cox proportional hazard (PH) model. The 99.99% CI for the VE was obtained by taking 1 minus the 99.99% CI of the hazard ratio from the PH model.|0.997|-13.181|
92387905|NCT02669121|184676878|SUPERIORITY||Cox Proportional Hazard|0.618|||||TWO_SIDED|95.01|0.208|0.816|||||||The vaccine efficacy was met if lower bound of CI for vaccine efficacy was above 0. Vaccine efficacy (VE) was defined as 1-(hazard rate for NoV vaccine arm / hazard rate for placebo arm), where the hazard ratio is from the PH model. The 95.01% CI for the VE was obtained by taking 1 minus the 95.01% CI of the hazard ratio from the PH model.|0.816|0.208|
92387906|NCT02669121|184676879|SUPERIORITY||Cox Proportional Hazard|0.618|||||TWO_SIDED|95.0|0.208|0.816|||||||The vaccine efficacy was met if lower bound of CI for vaccine efficacy was above 0. Vaccine efficacy (VE) was defined as 1-(hazard rate for NoV vaccine arm / hazard rate for placebo arm), where the hazard ratio is from the PH model. The 95% CI for the VE was obtained by taking 1 minus the 95% CI of the hazard ratio from the PH model.|0.816|0.208|
92387907|NCT02669121|184676880|SUPERIORITY||Cox Proportional Hazard|0.8|||||TWO_SIDED|95.0|-0.711|0.977|||||||The vaccine efficacy was met if lower bound of CI for vaccine efficacy was above 0. Vaccine efficacy (VE) was defined as 1-(hazard rate for NoV vaccine arm / hazard rate for placebo arm), where the hazard ratio is from the PH model. The 95% CI for the VE was obtained by taking 1 minus the 95% CI of the hazard ratio from the PH model.|0.977|-0.711|
92387908|NCT02708355|184676882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.028||||0.0442|TWO_SIDED|95.0|1.001|1.055|||Regression, Logistic|||Association between percentage of time with intragastric pH\>4 and relief of 24 -hour heartburn was assessed using logistic regression model with relief of 24- hour heartburn at Day 14 as dependent variable and change in percentage of time with intragastric pH\>4 as the independent variable, controlling for age, sex, and body mass index (BMI).||1.055|1.001|0.0442
92387909|NCT03216746|184676886|OTHER|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92387910|NCT00195663|184676899|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical tests were performed in a hierarchical manner. If there was a statistically significant difference in favor of adalimumab + MTX combination treatment, the second primary analysis of the modified Total Sharp Score was to be performed.|Chi-squared, Corrected|||The study was powered to demonstrate the superiority of adalimumab + MTX combination therapy vs. MTX monotherapy in the proportion of subjects who achieved an ACR50 response at 52 weeks. Power calculations were based on 250 subjects in each group using a chi-squared test with a continuity correction and an alpha = 0.05 significance level. With 250 subjects in each group, a difference of 0.13 in response rates could be detected with 80% power.||||<0.001
92387911|NCT00195663|184676900|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||Statistical tests were performed in a hierarchical manner. If there was a statistically significant difference in favor of adalimumab + MTX combination treatment on the ACR50 response, the second primary analysis of modified TSS would be performed.||||<0.001
92387912|NCT00195663|184676901|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92387913|NCT00195663|184676902|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92387914|NCT00195663|184676903|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||< 0.001
92387915|NCT00195663|184676904|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92387916|NCT00195663|184676905|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||< 0.001
92387917|NCT00195663|184676906|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92387918|NCT00195663|184676907|SUPERIORITY_OR_OTHER|||||||0.5402||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5402
92387919|NCT01100775|184676952|SUPERIORITY|||||||0.898|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean Target Hits between Galantamine and Placebo Arms||||0.898
92387920|NCT01100775|184676952|SUPERIORITY|||||||0.701|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean False Alarms between Galantamine and Placebo Arms||||0.701
92387921|NCT01100775|184676952|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean Target Hits between Galantamine and Placebo Arms||||0.16
92387922|NCT01100775|184676952|SUPERIORITY|||||||0.701|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean False Alarms between Galantamine and Placebo Arms||||0.701
92417713|NCT01857310|184723096|SUPERIORITY||Risk Ratio (RR)|1.99|||||TWO_SIDED|95.0|0.18|21.9|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Major neonatal complications will be compared using two sided tests conducted at the 0.05 level."||21.9|0.18|
92387923|NCT01100775|184676953|SUPERIORITY|||||||0.161|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean Target Reaction Time between Galantamine and Placebo Arms||||0.161
92387924|NCT01100775|184676953|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean False Alarm Reaction Time between Galantamine and Placebo Arms||||0.028
92387925|NCT01100775|184676953|SUPERIORITY|||||||0.899|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean Target Reaction Time between Galantamine and Placebo Arms||||0.899
92387926|NCT01100775|184676953|SUPERIORITY|||||||0.521|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean False Alarms Reaction Time between Galantamine and Placebo Arms||||0.521
92387927|NCT01100775|184676954|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Comparison of the mean total amount offered during the trust game between the galantamine and placebo groups||||0.67
92387928|NCT01100775|184676955|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Comparison of the mean correct responses between galantamine and placebo||||0.32
92387929|NCT01100775|184676956|SUPERIORITY|||||||0.659|||||||Wilcoxon (Mann-Whitney)|||Comparison of the number of correct response on Trial 1 between galantamine and placebo||||0.659
92387930|NCT01100775|184676956|SUPERIORITY|||||||0.541|||||||Wilcoxon (Mann-Whitney)|||Comparison of the number of correct response on Trial 2 between galantamine and placebo||||0.541
92387931|NCT01100775|184676956|SUPERIORITY|||||||0.838|||||||Wilcoxon (Mann-Whitney)|||Comparison of the number of correct response on Trial 3 between galantamine and placebo||||0.838
92387932|NCT01100775|184676957|SUPERIORITY|||||||0.548|||||||Wilcoxon (Mann-Whitney)|||A comparison the mean correct responses between galantamine and placebo||||0.548
92387933|NCT01100775|184676958|SUPERIORITY|||||||0.871|||||||Wilcoxon (Mann-Whitney)|||||||0.871
92387934|NCT01100775|184676959|SUPERIORITY|||||||0.626|||||||Wilcoxon (Mann-Whitney)|||Comparison of Overall Affect between galantamine and placebo||||0.626
92387935|NCT01100775|184676959|SUPERIORITY|||||||0.234|||||||Wilcoxon (Mann-Whitney)|||Comparison of Overall Social Skill between galantamine and placebo||||0.234
92387936|NCT01100775|184676960|SUPERIORITY|||||||0.797|||||||Wilcoxon (Mann-Whitney)|||Comparison of Facial Affect Total Responses between galantamine and placebo||||0.797
92387937|NCT01100775|184676960|SUPERIORITY|||||||0.669|||||||Wilcoxon (Mann-Whitney)|||Comparison of Facial Affect Total Hits between galantamine and placebo||||0.669
92387938|NCT01100775|184676960|SUPERIORITY|||||||0.668|||||||Wilcoxon (Mann-Whitney)|||Comparison of Facial Affect Total False Alarms between galantamine and placebo||||0.668
92387939|NCT04677504|184676969|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.51|1.14|||Regression, Cox|||"Stratified analysis. Stratification factors are: Location of primary tumor (iCCA vs.~eCCA vs. GBC), Geographic region (Asia vs. Rest of the World)."||1.14|0.51|
92387940|NCT04677504|184676970|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8857|TWO_SIDED|95.0|0.64|1.47|||Log Rank|||"Stratified analysis. Stratification factors are: Location of primary tumor (iCCA vs.~eCCA vs. GBC), Geographic region (Asia vs. Rest of the World)."||1.47|0.64|0.8857
92387941|NCT04677504|184676974|SUPERIORITY|Stratified analysis. Stratification factors are: Location of primary tumor (iCCA vs. eCCA vs. GBC), Geographic region (Asia vs. Rest of the World).|Hazard Ratio (HR)|1.56|||||TWO_SIDED|95.0|0.93|2.63|||Regression, Cox|||Quality of Life||2.63|0.93|
92387942|NCT04677504|184676974|SUPERIORITY|Stratified analysis. Stratification factors are: Location of primary tumor (iCCA vs. eCCA vs. GBC), Geographic region (Asia vs. Rest of the World).|Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.48|1.36|||Regression, Cox|||Physical Function Scale||1.36|0.48|
92387943|NCT04677504|184676974|SUPERIORITY|Stratified analysis. Stratification factors are: Location of primary tumor (iCCA vs. eCCA vs. GBC), Geographic region (Asia vs. Rest of the World).|Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.68|1.85|||Regression, Cox|||Role Function Scale||1.85|0.68|
92387944|NCT03182907|184676985|OTHER|The AUC0-inf of bezlotoxumab in Cohort 1 was compared to the AUC0-inf of bezlotoxumab in adults using an analysis of variance (ANOVA) model. The comparison adult PK dataset used was based on participants from 2 adult trials (NCT01241552 and NCT01513239) as a historical control.|Geometric Mean Ratio (GMR)|1.06|||||TWO_SIDED|90.0|0.95|1.18|||||GMR was calculated as the Cohort 1 geometric mean (GM) AUC0-inf / Adult GM AUC0-inf.|||1.18|0.95|
92387945|NCT03182907|184676985|OTHER|The AUC0-inf of bezlotoxumab in Cohort 2 was compared to the AUC0-inf of bezlotoxumab in adults using an analysis of variance (ANOVA) model. The comparison adult PK dataset used was based on participants from 2 adult trials (NCT01241552 and NCT01513239) as a historical control.|GMR|0.82|||||TWO_SIDED|90.0|0.75|0.89|||||GMR was calculated as the Cohort 2 GM AUC0-inf / Adult GM AUC0-inf.|||0.89|0.75|
92387946|NCT03182907|184676986|OTHER|Miettinen \& Nurminen method was used to generate the estimated difference in percentage and associated 95% confidence intervals (CIs) in bezlotoxumab versus placebo arms.|Difference in percentage|-5.7|||||TWO_SIDED|95.0|-14.5|7.7||||||||7.7|-14.5|
92387947|NCT03182907|184676987|OTHER|Miettinen \& Nurminen method was used to generate the estimated difference in percentage and associated 95% CIs in bezlotoxumab versus placebo arms.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-9.7|3.5||||||||3.5|-9.7|
92387948|NCT03182907|184676988|OTHER|Miettinen and Nurminen method stratified by age cohort (12 to \<18 years of age, 1 to \<12 years of age) with a Cochran-Mantel-Haenszel weight was used to generate the treatment difference, associated 95% CIs and a 2-sided p-value.|Adjusted difference|-3.7|||=|0.5701|TWO_SIDED|95.0|-20.0|8.0|||Stratified Miettinen and Nurminen method|||||8.0|-20.0|= 0.5701
92387949|NCT03182907|184676989|OTHER|Miettinen and Nurminen method stratified by age cohort (12 to \<18 years of age, 1 to \<12 years of age) with a Cochran-Mantel-Haenszel weight was used to generate the treatment difference, associated 95% CIs and a 2-sided p-value.|Adjusted difference|0.8|||=|0.9165|TWO_SIDED|95.0|-11.8|17.6|||Stratified Miettinen and Nurminen method|||||17.6|-11.8|= 0.9165
92169732|NCT04337372|184227969|SUPERIORITY||||||=|0.022||||||F(2, 57) = 4.11|MANOVA|||To examine the impact of infant age and label condition on the proportion of joint attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and the proportion of joint attention to the book was the dependent variable. The main effect of age is reported here.||||=.022
92169733|NCT04337372|184227969|SUPERIORITY||||||=|0.004||||||F(2, 114) = 5.69|MANOVA|||To examine the impact of infant age and label condition on the proportion of joint attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and the proportion of joint attention to the book was the dependent variable. The main effect of condition is reported here.||||=.004
92169734|NCT04337372|184227969|SUPERIORITY||||||=|0.168||||||F(4, 114) = 1.64|MANOVA|||To examine the impact of infant age and label condition on the proportion of joint attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and the proportion of joint attention to the book was the dependent variable. The interaction of age and condition is reported here.||||=.168
92169735|NCT03494504|184227971|SUPERIORITY||Odds Ratio (OR)|2.36|||||TWO_SIDED|95.0|1.46|3.84||||||||3.84|1.46|
92387950|NCT03182907|184676990|OTHER|Unstratified Miettinen and Nurminen method was used to generate the treatment difference, associated 95% CIs and a 2-sided p-value.|Adjusted Difference|-3.1|||=|0.6542|TWO_SIDED|95.0|-19.9|9.0|||Unstratified Miettinen & Nurminen method|||||9.0|-19.9|= 0.6542
92387951|NCT03182907|184676991|OTHER|Unstratified Miettinen and Nurminen method was used to generate treatment difference, associated 95% CIs and a 2-sided p-value.|Adjusted difference|0.1|||=|0.9873|TWO_SIDED|95.0|-13.0|17.4|||Unstratified Miettinen & Nurminen method|||||17.4|-13.0|= 0.9873
92387952|NCT03637517|184677037|EQUIVALENCE|2 comparisons performed: Reg. B vs. Reg. A, \& Reg.C vs. Reg. B. Bioavailability of each test reg. relative to that of each reference reg. assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model. Bioequivalence between a test reg. and the reference reg. is concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within 0.80 to 1.25 range.|Least Squares Means Log scale|0.926||||0.4847|TWO_SIDED|90.0|0.771|1.113|||ANOVA|||||1.113|0.771|0.4847
92387953|NCT03637517|184677037|EQUIVALENCE|2 comparisons performed: Reg. B vs. Reg. A, \& Reg.C vs. Reg. B. Bioavailability of each test reg. relative to that of each reference reg. assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model. Bioequivalence between a test reg. and the reference reg. is concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within 0.80 to 1.25 range.|Least Squares Means Log scale|0.79||||0.037|TWO_SIDED|90.0|0.658|0.95|||ANOVA|||||0.950|0.658|0.0370
92387954|NCT03637517|184677038|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|0.899||||0.1135|TWO_SIDED|90.0|0.805|1.004|||ANOVA|||||1.004|0.805|0.1135
92387955|NCT03637517|184677038|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|1.175||||0.0192|TWO_SIDED|90.0|1.051|1.312|||ANOVA|||||1.312|1.051|0.0192
92387956|NCT03637517|184677039|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|0.898||||0.1759|TWO_SIDED|90.0|0.787|1.024|||ANOVA||Regimen B to A|||1.024|0.787|0.1759
92387957|NCT03637517|184677039|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|1.172||||0.0496|TWO_SIDED|90.0|1.027|1.338|||ANOVA||Regimen C to B|||1.338|1.027|0.0496
92169736|NCT03494504|184227971|SUPERIORITY||Odds Ratio (OR)|1.81|||||TWO_SIDED|95.0|1.11|2.94||||||||2.94|1.11|
92387958|NCT03637517|184677040|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Least Squares Means|-0.2857|STANDARD_ERROR_OF_MEAN|1.866979|||TWO_SIDED|90.0|-3.4313|2.8599||||||||2.8599|-3.4313|
92169737|NCT06375421|184227977|SUPERIORITY|For preliminary efficacy, we used paired-samples t-tests within each group to compare free recall at the 1-week assessment between the two schedules.|Mean Difference (Net)|5.0|||<|0.001|TWO_SIDED||||||t-test, 2 sided|degrees of freedom: 17|Preliminary Intervention Effect = MEMI Free Recall - Blocked Free Recall|||||<0.001
92169738|NCT06375421|184227977|SUPERIORITY|For preliminary efficacy, we used paired-samples t-tests within each group to compare free recall at the 1-week assessment between the two schedules.|Mean Difference (Net)|6.8|||<|0.001|TWO_SIDED||||||t-test, 2 sided|degrees of freedom: 19|Preliminary Intervention Effect = MEMI Free Recall - Blocked Free Recall|||||<0.001
92235071|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.65|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.65|0.42|
92235072|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.2|0.32|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.32|0.20|
92387959|NCT03637517|184677040|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Least Squares Means|9.3571|STANDARD_ERROR_OF_MEAN|1.866979|||TWO_SIDED|90.0|6.2115|12.5028|||||Regimen C to B|||12.5028|6.2115|
92387960|NCT03637517|184677042|EQUIVALENCE|Bioequivalence between a test regimen and the respective reference regimen will be concluded if the 90% confidence intervals from the analyses of the natural logarithms of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|0.866||||0.1745|TWO_SIDED|90.0|0.727|1.032|||ANOVA|||(ANOVA) will be performed for Tmax, the terminal phase elimination rate constant β, and the natural logarithms of Cmax, AUCt, AUC168, AUCinf, and C168. The model will include the effects for regimen. For the tests on regimen effects, the denominator sum of squares will be the residual sum of squares for error. Within the ANOVA modeling framework, the test regimen will be compared to the respective reference regimen by a test with a significance level of 0.05.||1.032|0.727|0.1745
92387961|NCT03637517|184677042|EQUIVALENCE|Bioequivalence between a test regimen and the respective reference regimen will be concluded if the 90% confidence intervals from the analyses of the natural logarithms of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|1.185||||0.1105|TWO_SIDED|90.0|0.995|1.411||For tests on regimen effects, the denominator sum of squares is the residual sum of squares for error. Within the ANOVA modeling framework, the test regimen is compared to the respective reference regimen by a test with a significance level of 0.05.|ANOVA|||||1.411|0.995|0.1105
92387962|NCT03637517|184677043|EQUIVALENCE|Bioequivalence between a test regimen and the respective reference regimen will be concluded if the 90% confidence intervals from the analyses of the natural logarithms of Cmax and AUC are within the 0.80 to 1.25 range.|LEAST SQUARES MEANS FOR LOGARITHMS.|0.901||||0.31|TWO_SIDED|90.0|0.759|1.069|||ANOVA|||||1.069|0.759|0.3100
92417714|NCT01857310|184723097|SUPERIORITY||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.8|1.0|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Structural malformations will be compared using two sided tests conducted at the 0.05 level."||1.0|-0.8|
92417715|NCT01857310|184723097|SUPERIORITY||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.53|2.21|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Structural malformations will be compared using two sided tests conducted at the 0.05 level."||2.21|0.53|
92417716|NCT01857310|184723098|SUPERIORITY||Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Severe maternal morbidity will be compared using two sided tests conducted at the 0.05 level."||1.3|-0.4|
92417717|NCT01857310|184723098|SUPERIORITY||Risk Ratio (RR)|1.5|||||TWO_SIDED|95.0|0.68|3.32|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Severe maternal morbidity will be compared using two sided tests conducted at the 0.05 level."||3.32|0.68|
92417718|NCT01857310|184723099|SUPERIORITY||Mean Difference (Final Values)|-2.34|||||TWO_SIDED|95.0|-7.9|3.23||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Fertilization rate will be compared using generalized estimating equations accounting for multiple cycles per couple."||3.23|-7.90|
92417719|NCT01857310|184723100|SUPERIORITY||Mean Difference (Final Values)|-0.11|||||TWO_SIDED|95.0|-0.33|0.11||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of good quality embryos will be compared using Poisson regression with generalized estimating equations accounting for multiple cycles per couple."||0.11|-0.33|
92235073|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.28|0.43|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.43|0.28|
92235074|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.29|0.45|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.45|0.29|
92278750|NCT03280537|184460122|SUPERIORITY||Difference in Least Squares Means|-0.54|STANDARD_ERROR_OF_MEAN|0.14||0.0001|TWO_SIDED|95.0|-0.81|-0.27||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline PRS, treatment and baseline PRS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Posterior Rhinorrhea Score (PRS) at Week 24.||-0.27|-0.81|0.0001
92387963|NCT03637517|184677043|EQUIVALENCE|Bioequivalence between a test regimen and the respective reference regimen will be concluded if the 90% confidence intervals from the analyses of the natural logarithms of Cmax and AUC are within the 0.80 to 1.25 range.|LEAST SQUARES MEANS FOR LOGARITHMS.|1.156||||0.1619|TWO_SIDED|90.0|0.974|1.371|||ANOVA|||||1.371|0.974|0.1619
92387964|NCT00118430|184677046|SUPERIORITY_OR_OTHER||||||<|0.001||||||This reported p-value was calculated (and does not merely represent the threshold for significance.|Mixed Models Analysis|||||||<0.001
92387965|NCT00118430|184677047|SUPERIORITY_OR_OTHER||||||<|0.001||||||This reported p-value was calculated (and does not merely represent the threshold for significance.|Mixed Models Analysis|||||||< 0.001
92387966|NCT00118430|184677048|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92387967|NCT00118430|184677049|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Poisson|||||||<0.001
92387968|NCT00534976|184677050|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-4.65||||0.02||95.0|||||ANOVA||Montelukast minus placebo|||||0.020
92387969|NCT00534976|184677051|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-4.33||||0.005||95.0|||||ANOVA||Montelukast minus placebo|||||0.005
92387970|NCT00534976|184677052|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-120.86||||0.022||95.0|||||ANOVA||Montelukast minus placebo|||||0.022
92387971|NCT00534976|184677053|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-122.82||||0.013||95.0|||||ANOVA||Montelukast minus placebo|||||0.013
92387972|NCT00534976|184677054|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-8.27||||0.064||95.0|||||ANOVA||Montelukast minus placebo|||||0.064
92387973|NCT00534976|184677055|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-7.06||||0.054||95.0|||||ANOVA||Montelukast minus Placebo|||||0.054
92169739|NCT06375421|184227978|SUPERIORITY|We used paired-samples t-tests within each group to compare cued word recall at the 1-week assessment between the two schedules.|Mean Difference (Net)|5.2|||<|0.001|TWO_SIDED||||||t-test, 2 sided|degrees of freedom: 17|Preliminary Intervention Effect = MEMI Cued Word Recall - Blocked Cued Word Recall|||||<0.001
92387974|NCT00534976|184677056|SUPERIORITY_OR_OTHER_LEGACY||Difference in Proportions|-1.6||||1||95.0||||P-value provided is for comparison between the two proportions: Montelukast versus placebo.|McNemar||Montelukast minus placebo|||||1.000
92387975|NCT00534976|184677057|SUPERIORITY_OR_OTHER_LEGACY||Difference in Proportions|-3.2||||||95.0|||||||Montelukast minus placebo|||||
92387976|NCT00997594|184677102|NON_INFERIORITY_OR_EQUIVALENCE|Just a comparison of the percentage of hypertension between the 2 patient groups.|||||<|0.05||95.0|||||Chi-squared, Corrected|||||||<0.05
92387977|NCT00806988|184677132|OTHER|An intention-to-treat analysis using a two-tailed Wilcoxon rank-sum test, at a 0.05 alpha level was used. This analysis accommodated missing LVESVI outcomes owing to death by assigning deceased patients the worst ranks in order according to the time of death. In the case of data that were missing for reasons other than death, we used multiple imputation to calculate the 12-month LVESVI on the assumption that the data were missing at random.||||||0.61|||||||Wilcoxon (Mann-Whitney)|||The primary null hypothesis was that there would be no significant between-group difference in the LVESVI at 12 months.||||0.61
92387978|NCT00806988|184677133|OTHER|||||||0.83|||||||Chi-squared|||||||0.83
92387979|NCT04775953|184677140|SUPERIORITY|For participants with the same DOOR, quality-of-life (QoL) was used as a tiebreaker and was calculated as change from baseline QoL to Day 70 QoL score, as assessed by questions from the PROMIS physical function item bank (PROMIS Item Bank v2.0, short form 6b) on the Antibacterial Resistance Leadership Group (ARLG) Bloodstream Infection QoL Measure. Superiority of dalbavancin is concluded if the lower bound of the 95% confidence interval for the DOOR probability is greater than 50%.|Pr(Better DOOR in dalbavancin arm)|47.7|||||TWO_SIDED|95.0|39.84|55.68|||||The DOOR probability is calculated using the Wilcoxon-Mann-Whitney statistic corrected for ties.|Null Hypothesis: Probability that a participant in the dalbavancin arm has a better DOOR than a participant in the standard of care arm plus one-half the probability of equal DOOR is 50% (i.e., no difference in DOOR).||55.68|39.84|
92387980|NCT04775953|184677141|NON_INFERIORITY|The non-inferiority margin is -20%. Non-inferiority of dalbavancin is concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical efficacy is greater than -20%.|Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-12.0|14.0|||||Difference in proportions of clinical efficacy for dalbavancin compared to standard of care and 95% confidence interval obtained from a linear regression model.|Null Hypothesis: The proportion of clinical efficacy in the dalbavancin arm minus the proportion of clinical efficacy in the standard of care arm is -20%.||14|-12|
92387981|NCT01980095|184677168|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||One-sample Z-test, RHB-105 subjects only|||||||0.001
92387982|NCT00394706|184677202|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.2||||0.59|TWO_SIDED|95.0|-1.1|0.7||Two sided test with an a priori threshold of 0.05 for declaring statistical significance.|Mixed Models Analysis||Estimate of the rate of MRS \<= 3 in Analyze Later arm minus rate in Analyze early arm.|Comparison of the rates of MRS \<=3 in Analyze Early vs. Analyze Later arms using a linear mixed effect model with an identity link and random effects to account for the cluster randomization.||0.7|-1.1|0.59
92387983|NCT00394706|184677202|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1||||0.71|TWO_SIDED|95.0|-1.1|0.8||To adjust for group sequential monitoring, the point estimate was bias-adjusted (Whitehead 1986) and confidence intervals and P values calculated from the maximum likelihood based ordering of the outcome(Emerson and Fleming, 1990)|t-test, 2 sided||Estimate of the rate of MRS \<= 3 in the active ITD arm minus the rate in the Sham ITD arm.|Comparison of the rates of MRS \<=3 in Active ITD and Sham treatment arms, adjusted for sequential monitoring.||0.8|-1.1|0.71
92280541|NCT00601484|184463648|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.16|STANDARD_ERROR_OF_MEAN|10.097|||TWO_SIDED|90.0|-26.174|7.849||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||7.849|-26.174|
92235075|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.3|0.41|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.41|0.30|
92387984|NCT00394706|184677203|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1||||0.92|TWO_SIDED|95.0|-1.2|1.1||Two sided test with an a priori threshold of 0.05 for declaring statistical significance.|GEE||Estimate of the rate of survival to hospital discharge in Analyze Later arm minus rate in Analyze early arm.|Comparison of the rates of survival to hospital discharge in Analyze Early vs. Analyze Later arms using a generalized estimating equations model with an identity link, grouping on cluster.||1.1|-1.2|0.92
92387985|NCT00394706|184677203|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||0.99|TWO_SIDED|95.0|-1.2|1.1|||t-test, 2 sided||Estimate of the rate of survival to hospital discharge in the active ITD arm minus rate in the Sham ITD arm.|Comparison of the rates of survival to hospital discharge in Active ITD and Sham treatment arms.||1.1|-1.2|0.99
92387986|NCT00394706|184677204|SUPERIORITY||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-0.2|0.34|||||Mean MRS for Analyze Later minus mean MRS for Analyze Early (i.e. positive values favor Analyze Later).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.34|-0.20|
92387987|NCT00394706|184677204|SUPERIORITY||Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-0.17|0.44|||||Mean MRS for Active ITD minus mean MRS for Sham ITD (i.e. positive values favor the active device).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.44|-0.17|
92387988|NCT00394706|184677205|SUPERIORITY||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.71|0.83|||||Mean ALFI-MMSE for Analyze Later minus mean ALFI-MMSE for Analyze Early (i.e. positive values favor Analyze Later).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.83|-0.71|
92387989|NCT00394706|184677205|SUPERIORITY||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-1.61|0.28|||||Mean ALFI-MMSE for Active ITD minus mean ALFI-MMSE for Sham ITD (i.e. positive values favor the active device).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.28|-1.61|
92387990|NCT00394706|184677206|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.06|0.05|||||Mean HUI for Analyze Later minus mean HUI for Analyze Early (i.e. positive values favor Analyze Later).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.05|-0.06|
92387991|NCT00394706|184677206|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.08|0.05|||||Mean HUI for Active ITD minus mean HUI for Sham ITD (i.e. positive values favor the active device).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.05|-0.08|
92387992|NCT05274269|184677208|SUPERIORITY||LS Mean difference|9.2|||<|0.0001|TWO_SIDED|95.0|7.2|11.3|||Mixed Models for Repeated Measures|||||11.3|7.2|< 0.0001
92387993|NCT05274269|184677209|SUPERIORITY||LS Mean difference|-28.3|||<|0.0001|TWO_SIDED|95.0|-32.1|-24.5|||Mixed Models for Repeated Measures|||||-24.5|-32.1|< 0.0001
92387994|NCT05274269|184677210|SUPERIORITY||LS Mean difference|19.5|||<|0.0001|TWO_SIDED|95.0|15.5|23.5|||Mixed Models for Repeated Measures|||||23.5|15.5|< 0.0001
92417720|NCT01857310|184723101|SUPERIORITY||Mean Difference (Final Values)|-1.31|||||TWO_SIDED|95.0|-6.66|4.05||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Proportion of good quality embryos on day 5 will be compared using generalized estimating equations accounting for multiple cycles per couple."||4.05|-6.66|
92417721|NCT01857310|184723102|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.11|0.1||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of embryos transferred will be compared using Poisson regression with generalized estimating equations accounting for multiple cycles per couple."||0.10|-0.11|
92387995|NCT05274269|184677211|SUPERIORITY||LS Mean difference|0.47|||<|0.0001|TWO_SIDED|95.0|0.24|0.69|||Mixed Models for Repeated Measures|||||0.69|0.24|< 0.0001
92387996|NCT05274269|184677212|SUPERIORITY||LS Mean difference|1.3|||<|0.0001|TWO_SIDED|95.0|0.6|1.9|||Mixed Models for Repeated Measures|||||1.9|0.6|< 0.0001
92417722|NCT01857310|184723103|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.23|0.18||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of embryos cryopreserved will be compared using Poisson regression with generalized estimating equations accounting for multiple cycles per couple."||0.18|-0.23|
92235076|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.35|0.45|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.45|0.35|
92169740|NCT06375421|184227978|SUPERIORITY|We used paired-samples t-tests within each group to compare cued word recall at the 1-week assessment between the two schedules.|Mean Difference (Net)|5.3|||<|0.001|TWO_SIDED||||||t-test, 2 sided|degrees of freedom: 19|Preliminary Intervention Effect = MEMI Cued Word Recall - Blocked Cued Word Recall|||||<0.001
92169741|NCT06375421|184227979|SUPERIORITY|We used paired-samples t-tests within each group to compare cued definition recall at the 1-week assessment between the two schedules.|Mean Difference (Net)|3.6||||0.003|TWO_SIDED||||||t-test, 2 sided|degrees of freedom: 17|Preliminary Intervention Effect = MEMI Cued Definition Recall - Blocked Cued Definition Recall|||||0.003
92169742|NCT06375421|184227979|SUPERIORITY|We used paired-samples t-tests within each group to compare cued definition recall at the 1-week assessment between the two schedules.|Mean Difference (Net)|3.3||||0.002|TWO_SIDED||||||t-test, 2 sided|degrees of freedom: 19|Preliminary Intervention Effect = MEMI Cued Definition Recall - Blocked Cued Definition Recall|||||0.002
92387997|NCT00108862|184677215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|3.0||0.45|TWO_SIDED|95.08|-2.0|8.0||The analysis was stratified by screening CD4 (\<50 cells/mm3 vs =\>50). Interim reviews employed group sequential monitoring using an O'Brien-Fleming use function. At final analysis, the a priori threshold for statistical significance was 0.0492.|Z-test, 2-sided|A 2-sided Z-test was used to compare the two percents. The test was weighted by the inverse of the Greenwood's variance in each CD4 stratum.|The difference in percents was calculated as the percent failed in the Deferred ART arm minus the percent failed in the Immediate ART arm.|Assuming that immediate ART was better than deferred ART and that the combined rate in the deferred ART arm was 25% compared to 15% in the immediate ART arm (a 40% reduction), and assuming 10% loss to follow-up in a two-sided, two-sample 0.05-level asymptotically-normal test with 400 participants in each arm, there was 90% power. The percents tested were Kaplan-Meier estimators at week 48 with the associated Greenwood's variance.||8|-2|0.45
92387998|NCT00108862|184677216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|5.0||0.02|TWO_SIDED|95.08|2.0|21.0||Interim reviews employed group sequential monitoring using an\> O'Brien-Fleming use function. At final analysis, the a priori threshold for statistical significance was 0.0492.|Z-test, 2-sided||The difference in percents was calculated as the percent failed in the Deferred ART arm minus the percent failed in the Immediate ART arm.|The study was not powered for this pre-specified subgroup analysis.||21|2|0.02
92387999|NCT00108862|184677217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|3.0||0.67|TWO_SIDED|95.08|-7.0|4.0||Interim reviews employed group sequential monitoring using an O'Brien-Fleming use function. At final analysis, the a priori threshold for statistical significance was 0.0492.|Z-test, 2-sided||The difference in percents was calculated as the percent failed in the Deferred ART arm minus the percent failed in the Immediate ART arm.|The study was not powered for this pre-specified subgroup analysis.||4|-7|0.67
92388000|NCT00900666|184677227|NON_INFERIORITY_OR_EQUIVALENCE|a priori power calculation suggested N=26 for each group.||||||0.761|TWO_SIDED|95.0||||p\<0.05 threshold|ANOVA|Correlations with walking speed and time since injury were initially performed to determine whether ANCOVA would be be more appropriate.||ANOVA||||0.761
92388001|NCT00900666|184677228|SUPERIORITY_OR_OTHER|||||||0.896||95.0|||||ANOVA|||||||.896
92388002|NCT00709618|184677254|SUPERIORITY_OR_OTHER||percentage of participants|41.0|||||TWO_SIDED|95.0|26.4|55.4|||||The estimated value respresents the percentage of participants with a complete response or a partial response.|||55.4|26.4|
92388003|NCT00684775|184677303|SUPERIORITY||Odds Ratio (OR)|6.0|||=|0.002|TWO_SIDED|95.0|1.44|25.0|||General Estimating Equation (GEE)|||||25.0|1.44|=0.002
92388004|NCT00684775|184677304|SUPERIORITY|||||||0.0081|||||||t-test, 2 sided|||||||0.0081
92388005|NCT00684775|184677305|SUPERIORITY||Odds Ratio (OR)|1.34||||0.56|TWO_SIDED|95.0|0.5|3.6|||General Estimating Equation (GEE)|||||3.6|.5|0.56
92388006|NCT00684775|184677306|SUPERIORITY||Odds Ratio (OR)|1.45|||=|0.41|TWO_SIDED|95.0|0.6|3.53|||General Estimating Equation (GEE)|||||3.53|.6|=0.41
92417723|NCT01857310|184723104|SUPERIORITY||Mean Difference (Final Values)|-12.1|||||TWO_SIDED|95.0|-45.4|21.2||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Sperm penetration percentage will be compared using generalized estimating equations accounting for multiple cycles per couple."||21.2|-45.4|
92388007|NCT00684775|184677307|SUPERIORITY||Odds Ratio (OR)|1.19||||0.75|TWO_SIDED|95.0|0.42|3.36|||General Estimating Equation (GEE)|||||3.36|.42|0.75
92388008|NCT00684775|184677308|SUPERIORITY|||||||0.1543|||||||t-test, 2 sided|||||||0.1543
92388009|NCT00684775|184677309|SUPERIORITY||Odds Ratio (OR)|1.82||||0.15|TWO_SIDED|95.0|0.81|4.1|||General Estimating Equation (GEE)|||||4.1|.81|0.15
92388010|NCT00555672|184677318|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|27.3|||||TWO_SIDED|95.0|13.3|45.5|||Fisher Exact|Exact Method based on the F Distribution.||||45.5|13.3|
92388011|NCT04759157|184677328|SUPERIORITY|||||||0.3|||||||mixed model|||||||.30
92169743|NCT04500301|184228027|OTHER|No statistical test was performed.|Proportion|0.136|||||TWO_SIDED|95.0|0.054|0.219|||||The Wald 95% confidence interval for the binomial proportion was estimated.|No hypothesis was tested with regard to the primary outcome. The study planned to enroll 80 eligible subjects such that at least 65 would be evaluable for the primary outcome and the width of the 95% Clopper-Pearson confidence interval for the proportion would be less than or equal to .25.||0.219|0.054|
92169744|NCT03702725|184228028|OTHER||||||||||||||||||Estimate value DL 3|||
92169745|NCT00956007|184228040|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0747|TWO_SIDED|95.0|0.6|1.08||One-sided significance level = 0.0183|Log Rank|Stratified by EGFR and site/p16 status|Stratified by EGFR and site/p16 status. Reference level = IMRT.|This trial was designed to detect a hazard ratio (HR) of 0.74 with 80% statistical power and overall one-sided alpha of 0.025 (372 deaths) using a stratified log-rank test, assuming a control arm 3-year survival rate of 60.1%. The amended protocol based on ≥ 5 years potential follow-up projected 169 events, providing 55%, 66%, and 79% power to detect HRs of 0.71, 0.68, and 0.64, respectively, using the original one-sided alpha of 0.0183 the final analysis.||1.08|0.60|0.0747
92169746|NCT00956007|184228041|SUPERIORITY|||||||0.0075|||||||Fisher Exact|||Dysphagia||||0.0075
92169747|NCT00956007|184228041|SUPERIORITY|||||||0.2955|||||||Fisher Exact|||Dry mouth||||0.2955
92235077|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.36|0.51|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.51|0.36|
92280542|NCT00601484|184463649|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.404|||TWO_SIDED|90.0|-1.394|0.03||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.030|-1.394|
92388012|NCT04759157|184677329|SUPERIORITY||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|2.05||0.206|TWO_SIDED|95.0|-6.63|1.43|||Mixed Models Analysis||This estimate is comparing intervention to control from baseline to 3 month for both patients and partners|We conducted multilevel models evaluating sleep disturbance score by assessment, group and patient versus partner status.||1.43|-6.63|.206
92388013|NCT01746225|184677362|SUPERIORITY|||||||0.12||||||Not adjusted for multiple comparisons; One-sided .05 alpha-level test|Log Rank|One-sided test||For each arm separately, PFS was compared to the historic PFS of first-line docetaxel using a one-sample one-sided log-rank test, of the null hypothesis, H0: median PFS≤7 months vs. H1: median PFS\>7 months.||||0.12
92388014|NCT01746225|184677362|SUPERIORITY|||||||0.03||||||Not adjusted for multiple comparisons; One-sided .05 alpha-level test|Log Rank|One-sided test||For each arm separately, PFS was compared to the historic PFS of first-line docetaxel using a one-sample one-sided log-rank test, of the null hypothesis, H0: median PFS≤7 months vs. H1: median PFS\>7 months.||||.03
92388015|NCT01746225|184677362|SUPERIORITY|||||||0.2||||||Not adjusted for multiple comparisons; One-sided .05 alpha-level test|Log Rank|One-sided test||For each arm separately, PFS was compared to the historic PFS of first-line docetaxel using a one-sample one-sided log-rank test, of the null hypothesis, H0: median PFS≤7 months vs. H1: median PFS\>7 months.||||.20
92388016|NCT00595478|184677368|SUPERIORITY||Odds Ratio (OR)|0.8||||0.66|TWO_SIDED|95.0|0.29|2.18|||Poisson regression|Chi-square test with 1 degree of freedom|Odds ratio for 0 ETG-positive samples for MET/CBT+CM/BPT (numerator) vs. MET/CTB (denominator)|||2.18|0.29|0.66
92388017|NCT00595478|184677368|SUPERIORITY||mean ratio|0.93||||0.61|TWO_SIDED|95.0|0.71|1.22|||Poisson regression|Chi-square test with 1 degree of freedom|Mean ratio for number of ETG-positive samples, if \>0 ETG-positive samples: MET/CBT+CM/BPT (numerator) vs. MET/CTB (denominator)|||1.22|0.71|0.61
92388018|NCT00595478|184677369|SUPERIORITY||Odds Ratio (OR)|0.82||||0.74|TWO_SIDED|95.0|0.26|2.62|||Poisson regression|Chi-square test with 1 degree of freedom|Odds ratio for 0% days using alcohol during the 36 week follow-up period: MET/CBT+CM/BPT (numerator) vs. MET/CTB (denominator)|||2.62|0.26|0.74
92388019|NCT00595478|184677369|SUPERIORITY||mean ratio|0.74||||0.007|TWO_SIDED|95.0|0.59|0.92|||Poisson regression|Chi-square test with 1 degree of freedom|Mean ratio for percentage of days with alcohol use during the 36 week follow-up period, if alcohol was used: MET/CBT+CM/BPT (numerator) vs. MET/CTB (denominator)|||.92|.59|0.007
92388020|NCT04090242|184677376|OTHER||Mean Difference (Final Values)|-0.16||||0.392|TWO_SIDED|95.0|-0.53|0.21||The p value is for the comparison between interventional and control group on change of DES score between baseline and end of study.|Mixed Models Analysis|||With assumptions made in statistical analysis plan, a sample size of 43 subjects per arm had \>80% power to detect a significant difference between the two arms (based on a 2-sided t-test, 95% CI for DES difference between groups). Adding a 10% buffer, planned enrollment was 96 subjects. However, enrollment ended early with about 25 subjects in each arm (56 subjects total). Thus, power decreased to 56%. The study was not sufficiently powered under these conditions.||0.21|-0.53|0.392
92388021|NCT01898013|184677431|SUPERIORITY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.25||0.02|TWO_SIDED|||||a priori threshold set at 0.05|Mixed Models Analysis|||||||0.02
92388022|NCT01898013|184677432|SUPERIORITY||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.14||0.26|TWO_SIDED||||||Mixed Models Analysis|||||||0.26
92388023|NCT01898013|184677433|SUPERIORITY||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|0.12||0.79|TWO_SIDED||||||Mixed Models Analysis|||||||0.79
92388024|NCT01898013|184677434|SUPERIORITY||Mean Difference (Final Values)|1.18|STANDARD_ERROR_OF_MEAN|0.16||0.23|TWO_SIDED||||||Mixed Models Analysis|||||||0.23
92388025|NCT01898013|184677435|SUPERIORITY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.13||0.63|TWO_SIDED||||||Mixed Models Analysis|||||||0.63
92388026|NCT01898013|184677436|SUPERIORITY||Mean Difference (Final Values)|1.06|STANDARD_ERROR_OF_MEAN|0.13||0.62|TWO_SIDED||||||Mixed Models Analysis|||||||0.62
92417724|NCT01857310|184723105|SUPERIORITY||Mean Difference (Final Values)|-0.07|||||TWO_SIDED|95.0|-0.16|0.03||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of cells on day 3 will be compared with Poisson regression using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||0.03|-0.16|
92417725|NCT01857310|184723106|SUPERIORITY||Risk Ratio (RR)|1.19|||||TWO_SIDED|95.0|0.88|1.61|||||Fewer than 4 cells|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of cells on day 3 will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.61|0.88|
92417726|NCT01857310|184723107|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.77|1.43|||||Fewer than 8 cells|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of cells on day 5 will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.43|0.77|
92235078|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.35|0.58|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.58|0.35|
92417727|NCT01857310|184723108|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.87|1.09|||||Excellent or good morphology|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Embryo morphology on day 3 will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.09|0.87|
92417728|NCT01857310|184723109|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.63|1.06|||||Excellent or good morphology|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Embryo morphology on day 5 will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.06|0.63|
92417729|NCT01857310|184723110|SUPERIORITY||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.8|1.09|||||ICSI|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Method of fertilization will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.09|0.80|
92417730|NCT01857310|184723111|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.88|1.21|||||Excellent or good quality|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Quality of embryos transferred will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.21|0.88|
92417731|NCT01857310|184723112|SUPERIORITY||Risk Ratio (RR)|2.35|||||TWO_SIDED|95.0|0.74|7.43|||||Abnormal|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Chromosomal complement will be compared using generalized estimating equations accounting for multiple cycles per couple."||7.43|0.74|
92417732|NCT02360605|184723114|SUPERIORITY|||||||0.61||||||p-values control for age (in years), race (African American vs Caucasian and Hispanic), gender, and literacy (2 categories) The a priori threshold for statistical significance was p\<0.05|Mixed Models Analysis|||FIT completion rates were defined as the percentage of FIT tests returned. Screening ratios were defined as the PC to AC ratio of FIT completion rates. Multivariate analyses adjusting for age, race, gender, and literacy level were done using generalized linear models. Multivariate analyses adjusting for age, race, gender, and literacy level were done using generalized linear models. A test for interaction between literacy level and study arm were assessed.||||0.61
92169748|NCT00956007|184228041|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||Dermatitis radiation||||0.0001
92235079|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.39|0.62|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.62|0.39|
92235080|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.34|0.54|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.54|0.34|
92235081|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.23|0.42|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.42|0.23|
92388027|NCT02058563|184677482|NON_INFERIORITY_OR_EQUIVALENCE|Criteria for the determination of non-inferiority for measles, mumps, and rubella viruses: Lower limit (LL) of the 2-sided 95% Confidence Interval (CI) on GMC ratio (INV\_MMR over COM\_MMR) was to be equal to or above 0.67 for anti-measles, anti-mumps, and anti rubella antibodies.|Adjusted GMC ratio|1.0|||||TWO_SIDED|95.0|0.91|1.11|||||Number of subjects in the INV-MMR Group and in the COM-MMR Group considered for calculating the adjusted GMC ratio, are respectively 432 and 435 and adjusted GMCs = 1790.2 (LL=1669.6;UL=1919.5) and 1781.5 (LL=1661.8;UL=1909.7) respectively|Non-inferiority of INV\_MMR vaccine to COM\_MMR vaccine in terms of Geometric Mean Concentration (GMCs) for anti measles, anti mumps and anti rubella antibodies at Day 42.The 95% CI for adjusted geometric mean concentrations (GMCs) and the adjusted GMC ratio were obtained using an ANCOVA model on the logarithm-transformed concentrations including the vaccine group (for adjusted GMC ratio) as fixed effect, gender, age and country groups as continuous effects and the pre-vaccination log-transformed||1.11|0.91|
92169749|NCT00956007|184228041|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Rach acneiform||||<0.0001
92169750|NCT00956007|184228042|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92169751|NCT00956007|184228043|SUPERIORITY|||||||0.1641|||||||Fisher Exact|||Dysphagia||||0.1641
92169752|NCT00956007|184228043|SUPERIORITY|||||||0.2623|||||||Fisher Exact|||Dry mouth||||0.2623
92235082|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.15|0.24|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.24|0.15|
92235083|NCT01025336|184373536|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.69|0.42|
92169753|NCT00956007|184228043|SUPERIORITY|||||||0.5378|||||||Fisher Exact|||Dermatitis radiation||||0.5378
92169754|NCT00956007|184228043|SUPERIORITY|||||||0.057|||||||Fisher Exact|||Rash acneiform||||0.0570
92169755|NCT00956007|184228044|SUPERIORITY|||||||0.1575|||||||Fisher Exact|||||||0.1575
92235084|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.36|0.5|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.50|0.36|
92388028|NCT02058563|184677483|NON_INFERIORITY_OR_EQUIVALENCE|Criteria for the determination of non-inferiority for measles, mumps, and rubella viruses: Lower limit (LL) of the 2-sided 95% Confidence Interval (CI) on GMC ratio (INV\_MMR over COM\_MMR) was to be equal to or above 0.67 for anti-measles, anti-mumps, and anti rubella antibodies.|Adjusted GMC ratio|1.05|||||TWO_SIDED|95.0|0.96|1.16|||||Number of subjects in the INV-MMR Group and in the COM-MMR Group considered for calculating the adjusted GMC ratio, are respectively 432 and 435 and adjusted GMCs = 113.5 (LL=106.0;UL=121.6) and 107.8 (LL=100.7;UL=115.4) respectively.|Non-inferiority of INV\_MMR vaccine to COM\_MMR vaccine in terms of Geometric Mean Concentration (GMCs) for anti measles, anti mumps and anti rubella antibodies at Day 42.The 95% CI for adjusted geometric mean concentrations (GMCs) and the adjusted GMC ratio were obtained using an ANCOVA model on the logarithm-transformed concentrations including the vaccine group (for adjusted GMC ratio) as fixed effect, gender, age and country groups as continuous effects and the pre-vaccination log-transformed.||1.16|0.96|
92388029|NCT02058563|184677484|NON_INFERIORITY_OR_EQUIVALENCE|Criteria for the determination of non-inferiority for measles, mumps, and rubella viruses: Lower limit (LL) of the 2-sided 95% Confidence Interval (CI) on GMC ratio (INV\_MMR over COM\_MMR) was to be equal to or above 0.67 for anti-measles, anti-mumps, and anti rubella antibodies.|Adjusted GMC ratio|1.02|||||TWO_SIDED|95.0|0.93|1.11|||||Number of subjects in the INV-MMR Group and in the COM-MMR Group considered for calculating the adjusted GMC ratio, are respectively 432 and 435 and adjusted GMCs = 76.1 (LL=71.5;UL=81.0) and 74.6 (LL=70.2;UL=79.4) respectively.|Non-inferiority of INV\_MMR vaccine to COM\_MMR vaccine in terms of Geometric Mean Concentration (GMCs) for anti measles, anti mumps and anti rubella antibodies at Day 42.The 95% CI for adjusted geometric mean concentrations (GMCs) and the adjusted GMC ratio were obtained using an ANCOVA model on the logarithm-transformed concentrations including the vaccine group (for adjusted GMC ratio) as fixed effect, gender, age and country groups as continuous effects and the pre-vaccination log-transformed||1.11|0.93|
92388030|NCT00483938|184677504|SUPERIORITY_OR_OTHER|||||||0.51|||||||Fisher Exact|||SVR: Group A versus Group B||||0.510
92388031|NCT00483938|184677505|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||SVR: Group C versus Group D||||1.000
92388032|NCT00483938|184677505|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||SVR: Group E versus Group F||||1.000
92388033|NCT00483938|184677506|SUPERIORITY_OR_OTHER|||||||0.792|||||||Fisher Exact|||ETR: Group A versus Group B||||0.792
92388034|NCT00483938|184677506|SUPERIORITY_OR_OTHER|||||||0.612|||||||Fisher Exact|||ETR: Group C versus Group D||||0.612
92235085|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.36|0.48|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.48|0.36|
92235086|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.33|0.44|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.44|0.33|
92388035|NCT00483938|184677506|SUPERIORITY_OR_OTHER|||||||0.49|||||||Fisher Exact|||ETR: Group E versus Group F||||0.490
92388036|NCT00483938|184677506|SUPERIORITY_OR_OTHER|||||||0.363|||||||Fisher Exact|||Complete EVR: Group C versus Group D||||0.363
92388037|NCT00483938|184677506|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Complete EVR: Group E versus Group F||||1.000
92388038|NCT00264537|184677575|SUPERIORITY_OR_OTHER|||||||0.053||||||A positive test is concluded if there is a significant difference between golimumab+MTX and placebo+MTX and at least one of the pair-wise comparisons at a 0.05 level.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||Null hypothesis: No difference in ACR 50 response comparing Group 1 vs combined Groups 3 and 4. The sample size of 150 patients per treatment group will provide \>98% power to detect a difference in ACR 50 response between treatment groups at alpha=0.05, assuming 50% of patients with screening C-reactive protein (CRP)\<1.5mg/dL, and the difference in ACR 50 response of 15-20% in patients with screening CRP\<1.5mg/dL and 20-25% in subjects with screening CRP\>=1.5mg/dL, between Groups 1 vs 3 or 4||||0.053
92388039|NCT00264537|184677575|SUPERIORITY_OR_OTHER|||||||0.042|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||Null hypothesis: No difference in ACR 50 response comparing Groups 1 vs 3.||||0.042
92169756|NCT00956007|184228045|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0168|TWO_SIDED|95.0|0.57|0.98||One-sided|Log Rank|Stratified by EGFR and site/p16 status|Stratified by EGFR and site/p16 status. Reference level = IMRT.|||0.98|0.57|0.0168
92169757|NCT05228470|184228055|OTHER|Null hypothesis of ORR by BICR was 30%.||||||0.0076|||||||Exact binomial test|||||||0.0076
92169758|NCT01808339|184228095|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.077|||||TWO_SIDED|90.0|0.001|0.152|||||The estimated value represents the difference in Least Squares Means between FF 100 µg AM and Placebo (FF 100 µg AM minus Placebo).|||0.152|0.001|
92169759|NCT01808339|184228095|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.105|||||TWO_SIDED|90.0|0.029|0.18|||||The estimated value represents the difference in Least Squares Means between FF 100 µg PM and Placebo (FF 100 µg PM minus Placebo).|||0.180|0.029|
92169760|NCT01808339|184228095|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.028|||||TWO_SIDED|90.0|-0.102|0.045|||||The estimated value represents the difference in Least Squares Means between FF 100 µg AM and FF 100 µg PM (FF 100 µg AM minus FF 100 µg PM).|||0.045|-0.102|
92235087|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.26|0.37|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.37|0.26|
92235088|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.68|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.68|0.42|
92235089|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.64|1.14|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.14|0.64|
92235090|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.6|0.82|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.82|0.60|
92235091|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.86|1.18|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.18|0.86|
92235092|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.22|0.33|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.33|0.22|
92235093|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.81|1.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.46|0.81|
92235094|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.34|0.51|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.51|0.34|
92388040|NCT00264537|184677575|SUPERIORITY_OR_OTHER|||||||0.177|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||Null hypothesis: No difference in ACR 50 response comparing Groups 1 vs 4.||||0.177
92235095|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.66|1.09|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.09|0.66|
92235096|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.37|0.68|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.68|0.37|
92235097|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.43|0.77|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.77|0.43|
92278751|NCT03280537|184460123|SUPERIORITY||Difference in Least Squares Means|-0.91|STANDARD_ERROR_OF_MEAN|0.24||0.0002|TWO_SIDED|95.0|-1.39|-0.44||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NPS, treatment and baseline NPS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the NPS at Week 16.||-0.44|-1.39|0.0002
92417733|NCT02360605|184723115|SUPERIORITY|||||||0.3||||||p-values control for age (in years), race (African American vs Caucasian and Hispanic), gender, and literacy (2 categories) The a priori threshold for statistical significance was p\<0.05|Mixed Models Analysis|||Multivariate analyses adjusting for age, race, gender, and health literacy level were done using generalized linear models. A test for interaction between study arm and each of literacy level, age, gender and race was performed to determine whether treatment effect differed by levels of these factors. An unadjusted test for the main effect of each of health literacy level, age, gender, race and study arm was performed to determine whether screening rates differed by levels of these factors.||||0.30
92169761|NCT04929483|184228133|SUPERIORITY||Treatment Difference|34.65|||<|0.0001|TWO_SIDED|95.0|10.04|59.26|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with missing outcome measures handled by multiple imputation method.||||59.26|10.04|<0.0001
92235098|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.3|0.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.60|0.30|
92235099|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.47|0.98|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.98|0.47|
92169762|NCT04929483|184228133|SUPERIORITY||Treatment Difference|20.89||||0.0009|TWO_SIDED|95.0|9.05|32.72|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with missing outcome measures handled by multiple imputation method.||||32.72|9.05|0.0009
92169763|NCT04929483|184228133|SUPERIORITY||Treatment Difference|23.61||||0.0005|TWO_SIDED|95.0|10.04|37.18|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with missing outcome measures handled by multiple imputation method.||||37.18|10.04|0.0005
92169764|NCT04929483|184228134|SUPERIORITY||Treatment Difference|14.45||||0.1039|TWO_SIDED|95.0|-8.71|37.62|||Cochran-Mantel-Haenszel|||||37.62|-8.71|0.1039
92169765|NCT04929483|184228134|SUPERIORITY||Treatment Difference|18.87||||0.0085|TWO_SIDED|95.0|5.24|32.5|||Cochran-Mantel-Haenszel|||||32.50|5.24|0.0085
92169766|NCT04929483|184228134|SUPERIORITY||Treatment Difference|20.33||||0.0077|TWO_SIDED|95.0|5.26|35.4|||Cochran-Mantel-Haenszel|||||35.40|5.26|0.0077
92169767|NCT04083781|184228161|SUPERIORITY|Analyses of count endpoints were analysed using a negative binomial regression model with the logarithm of the length of the observation period included (in years) as an offset with randomised treatment regimen, type of haemophilia (HAwI or HBwI) and bleeding frequency (less than 9 or greater than or equal to 9 bleeding episodes during the past 24 weeks prior to screening) as factors comparing arm 1 (on-demand treatment) and arm 2.|Annualised bleeding rate ratio|0.14|||<|0.001|TWO_SIDED|95.0|0.07|0.29|||Two-sided test of no difference from 1|||||0.29|0.07|<0.001
92169768|NCT01061671|184228198|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||negative binomial regression|Adjustments of confidence intervals for between-participant variation (overdispersion).||||||0.54
92169769|NCT01061671|184228199|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Log Rank|||||||0.34
92235100|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.72|1.01|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.01|0.72|
92235101|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.71|1.0|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.00|0.71|
92169770|NCT01061671|184228200|SUPERIORITY_OR_OTHER|||||||0.1461|TWO_SIDED||||||t-test, 2 sided|||||||.1461
92235102|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.5|0.66|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.66|0.50|
92417734|NCT02360605|184723116|SUPERIORITY|||||||0.97||||||p-values control for age (in years), race (African American vs Caucasian and Hispanic), gender, and literacy (2 categories) The a priori threshold for statistical significance was p\<0.05|Mixed Models Analysis|||Multivariate analyses adjusting for age, race, gender, and health literacy level were done using generalized linear models. A test for interaction between study arm and each of literacy level, age, gender and race was performed to determine whether treatment effect differed by levels of these factors. An unadjusted test for the main effect of each of health literacy level, age, gender, race and study arm was performed to determine whether screening rates differed by levels of these factors.||||0.97
92235103|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.56|0.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.80|0.56|
92235104|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.54|0.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.69|0.54|
92169771|NCT02468128|184228202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-42.2|||<|0.01|TWO_SIDED|95.0|-71.68|-12.71|||ANOVA|||||-12.71|-71.68|<0.01
92169772|NCT02468128|184228203|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||ANOVA|||||||<0.01
92169773|NCT02468128|184228204|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
92169774|NCT02468128|184228205|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Log-rank tests|Log-rank tests were used to compare SDE and placebo with respect to the distribution of time to first post-surgical usage of ketorolac medication.||||||<0.05
92169775|NCT02468128|184228206|SUPERIORITY|ANOVA with Treatment, Center effect (and Treatment\*Center effect if p-value ≤ 0.1 in non-reduced model)|||||<|0.05||||||ANOVA with Treatment, Center effect (and Treatment\*Center effect if p-value ≤ 0.1 in non-reduced model)|ANOVA|ANOVA with Treatment, Center effect (and Treatment\*Center effect if p-value ≤ 0.1 in non-reduced model)||ANOVA with Treatment, Center effect (and Treatment\*Center effect if p-value ≤ 0.1 in non-reduced model)||||<0.05
92169776|NCT02468128|184228207|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||ANOVA|||||||<0.01
92169777|NCT02468128|184228208|SUPERIORITY_OR_OTHER_LEGACY|At the final visit, each subject was asked the questions for evaluation of satisfaction and a Cochran-Mantel-Haenszel test was used in comparison of subjects' satisfaction with post-surgical analgesic between treatment groups.|||||>|0.05||||||Satisfaction was evaluated using a patient-reported rating scale to assess the subject's overall satisfaction with postoperative analgesia. More participants indicate greater satisfaction with that treatment.|Cochran-Mantel-Haenszel|||At the final visit, each subject was asked the questions for evaluation of satisfaction and a Cochran-Mantel-Haenszel test was used in comparison of subjects' satisfaction with post-surgical analgesic between treatment groups.||||>0.05
92169778|NCT02468128|184228209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-115.2|||<|0.05|TWO_SIDED|95.0|-209.153|-21.26|||ANOVA|||||-21.26|-209.153|<0.05
92169779|NCT00440011|184228210|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||ANCOVA|||||||0.024
92169780|NCT01503749|184228213|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>0.05
92169781|NCT01172418|184228215|SUPERIORITY|||||||0.78|||||||Log Rank|||||||0.78
92169782|NCT01172418|184228216|SUPERIORITY|||||||0.37|||||||Log Rank|||||||0.37
92169783|NCT01172418|184228217|SUPERIORITY|||||||0.99|||||||Log Rank|||||||0.99
92235105|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.78|1.05|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.05|0.78|
92169784|NCT01172418|184228218|SUPERIORITY|||||||0.25|||||||Log Rank|||||||0.25
92388041|NCT00264537|184677575|NON_INFERIORITY_OR_EQUIVALENCE|This sample size (150 patients per treatment group) will provide approximately 85% power to claim non-inferiority of golimumab alone (Group 2) compared with MTX alone (Group 1) at alpha= 0.05 using a one-sided equivalence test assuming the proportion of golimumab alone (Group 2) treated patients with ACR 50 response is not less than 10% compared with proportion of patients with ACR 50 response in MTX alone (Group 1) treated group.|Difference in ACR 50 Response Rate(%)|3.3||||0.521||95.0|-6.8||The upper bound of 95% CI was not produced because it was not relevant to the pre-specified analysis||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)|The positive difference indicates in favor of golimumab+placebo compared to placebo+MTX; The upper bound of CI is not applicable.|"Null hypothesis: Group 2 is inferior to Group 1. Noninferiority of golimumab will be demonstrated if the lower bound of the 2-sided 95% CI is above -10%. The 10% non-inferiority margin was chosen because this difference is not clinically admissible. Under the above noted assumed response rates, this corresponds to preservation of at least 70% \[(33% - 10%)/33%\*100\] of the expected MTX benefit."|||-6.8|0.521
92388042|NCT00264537|184677576|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.011
92388043|NCT00264537|184677576|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Cochran-Mantel-Haenszel|CMH test stratified by screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.028
92388044|NCT00264537|184677576|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Cochran-Mantel-Haenszel|CMH test stratified by screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.028
92388045|NCT00264537|184677576|SUPERIORITY_OR_OTHER|||||||0.677||95.0|||||Cochran-Mantel-Haenszel|CMH test stratified by screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.677
92388046|NCT00264537|184677577|SUPERIORITY_OR_OTHER|||||||0.178||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.178
92388047|NCT00264537|184677577|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.250
92388048|NCT00264537|184677577|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.240
92388049|NCT00264537|184677577|SUPERIORITY_OR_OTHER|||||||0.339||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.339
92235106|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.59|0.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.80|0.59|
92388050|NCT00264537|184677578|SUPERIORITY_OR_OTHER|||||||0.006||||||If this test is significant, a pairwise comparison between Group 3 and Group 1, and between Group 4 and Group 1 will be performed|ANOVA|A 2-sided ANOVA on the van der Waerden normal scores with 1 factor: screening CRP (\< 1.5 mg/dL; ≥ 1.5 mg/dL)||Null Hypothesis: No difference in vdH-S score comparing Groups 1 vs Groups 3 and 4 combined. The sample size of 150 subjects in each treatment group (Group 1, Group 3, Group 4) will provide \> 95% power to detect a difference in the vdH-S score between treatment groups using a 2-sided t-test on van der Waerden normal scores of change from baseline in vdH-S score at α = 0.05, assuming a mean change from baseline in vdH-S score of 3.5 for the placebo group and 1 for Groups 3 and 4.||||0.006
92388051|NCT00264537|184677578|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANOVA|A 2-sided ANOVA on the van der Waerden normal scores with 1 factor: screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||Null hypothesis: No difference in vdH-S score comparing Groups 1 vs 3.||||0.015
92388052|NCT00264537|184677578|SUPERIORITY_OR_OTHER|||||||0.025|||||||ANOVA|A 2-sided ANOVA on the van der Waerden normal scores with 1 factor: screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||Null hypothesis: No difference in vdH-S score comparing Groups 1 vs 4.||||0.025
92388053|NCT00264537|184677579|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA|2-sided ANOVA on the van der Waerden normal scores||||||0.003
92388054|NCT00264537|184677579|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANOVA|2-sided ANOVA on the van der Waerden normal scores||||||0.010
92388055|NCT00264537|184677579|SUPERIORITY_OR_OTHER|||||||0.014|||||||ANOVA|2-sided ANOVA on the van der Waerden normal scores||||||0.014
92388056|NCT00264537|184677579|SUPERIORITY_OR_OTHER|||||||0.545|||||||ANOVA|2-sided ANOVA on the van der Waerden normal scores||||||0.545
92169785|NCT00419341|184228220|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of SCIG:IVIG treatment was concluded if the lower GMR confidence limit was 0.8 or more. With 18 evaluable subjects, the power to show this non-inferiority was calculated to be 85% based on the assumptions of an intra-individual variability with a coefficient of variation (CV) = 25% and a GMR equal to or greater than 1.|Geometric mean ratio (GMR)|1.002|||||TWO_SIDED|90.0|0.951|1.055||No P-value is provided as non-inferiority was assessed by the CI of the GMR.|t-test, 2 sided|Based on log-transformed individual differences.|Geometric mean ratio SCIG:IVIG non-inferiority was concluded if the lower GMR confidence limit was 0.8 or more|Individual sAUC values (standardized to a 7-day period) of the IV and adjusted SC sampling periods in each individual subject were log transformed and a parametric 2-sided 90% confidence interval (CI) for the mean of the individual differences was obtained. Back-transformation of the mean and its CI produced the geometric mean ratio (GMR) and its respective 90% CI.||1.055|0.951|
92169786|NCT02998528|184228248|SUPERIORITY||Cox Proportional Hazard|0.63||||0.0052|TWO_SIDED|97.38|0.43|0.91|||Log Rank|Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)||||0.91|0.43|0.0052
92235107|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.53|0.83|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.83|0.53|
92388057|NCT03937713|184677623|OTHER|Calculations were approximated by those of a simple two-sample t-test for mean differences in PSQI in response to BBTI||||||0.05|||||||Mixed Models Analysis|||The sample size selected for this preliminary trial was based on the analysis of the PSQI as the primary outcome. Assuming a correlation coefficient of 0.7 between pre-and post-treatment, 21 patients per arm were needed to achieve 80% power at a significance level of 5% in order to detect a clinically significant difference of 3 units in PSQI. To compensate for an anticipated attrition rate of 25%, the recruitment target was set at 52 participants.||||0.05
92388058|NCT02871635|184677628|OTHER||Risk Ratio (RR)|0.945|||||TWO_SIDED|90.0|0.87|1.028|||||BI 695501 as numerator Humira EU as denominator|Was analyzed using a log-linked binomial model, described as: response to treatment at Week 4 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.028|0.870|
92388059|NCT02871635|184677628|OTHER||Risk Ratio (RR)|0.945|||||TWO_SIDED|95.0|0.856|1.044|||||BI 695501 as numerator Humira EU as denominator|Was to be analyzed using a log-linked binomial model, described as: response to treatment at Week 4 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.044|0.856|
92388060|NCT02871635|184677629|OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|90.0|0.871|1.148|||||BI 695501 as numerator Humira EU as denominator|Was to be analyzed using a log-linked binomial model, described as: response to treatment at Week 24 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.148|0.871|
92235108|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.51|0.74|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.74|0.51|
92235109|NCT01025336|184373537|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.75|1.15|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.15|0.75|
92235110|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.0|||||TWO_SIDED|95.0|6.05|10.67|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||10.67|6.05|
92388061|NCT02871635|184677629|OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.848|1.178|||||BI 695501 as numerator Humira EU as denominator|Was to be analyzed using a log-linked binomial model, described as: response to treatment at Week 24 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.178|0.848|
92388062|NCT02871635|184677630|OTHER||Risk Ratio (RR)|0.9|||||TWO_SIDED|90.0|0.751|1.078|||||BI 695501 as numerator Humira EU as denominator|Was to be analyzed using a log-linked binomial model, described as: response to treatment at Week 24 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.078|0.751|
92417735|NCT02757950|184723120|OTHER|The comparison of the relative risk with its two sided 95% CI of each primary endpoint between the Exposed cohort and the Unexposed cohort was obtained by means of logistic regression model, using the exposure status as a binary independent variable in the model. Absence of increased relative risk was concluded if the respective 95% CI contained 1.|Incidence rate ratio|0.548||||0.1147|TWO_SIDED|95.0|0.259|1.157||A multiple logistic regression model was fitted with a backward selection to identify the possible confounding factors for each of the primary safety event using an alpha level of 0.1.|Regression, Logistic|||The analysis contained only the subjects with vaccination date in the Exposed cohort and subjects from the Unexposed cohort.||1.157|0.259|0.1147
92417736|NCT02757950|184723121|OTHER|The comparison of the relative risk with its two sided 95% CI of each primary endpoint between the Exposed cohort and the Unexposed cohort was obtained by means of logistic regression model, using the exposure status as a binary independent variable in the model. Absence of increased relative risk was concluded if the respective 95% CI contained 1.|Incidence rate ratio|0.428||||0.0155|TWO_SIDED|95.0|0.215|0.851||A multiple logistic regression model was fitted with a backward selection to identify the possible confounding factors for each of the primary safety event using an alpha level of 0.1.|Regression, Logistic|||The analysis contained only the subjects with vaccination date in the Exposed cohort and subjects from the Unexposed cohort.||0.851|0.215|0.0155
92417737|NCT02757950|184723122|OTHER|The comparison of the relative risk with its two sided 95% CI of each primary endpoint between the Exposed cohort and the Unexposed cohort was obtained by means of logistic regression model, using the exposure status as a binary independent variable in the model. Absence of increased relative risk was concluded if the respective 95% CI contained 1.|Incidence rate ratio|0.254||||0.0127|TWO_SIDED|95.0|0.086|0.746||A multiple logistic regression model was fitted with a backward selection to identify the possible confounding factors for each of the primary safety event using an alpha level of 0.1.|Regression, Logistic|||The analysis contained only the subjects with vaccination date in the Exposed cohort and subjects from the Unexposed cohort.||0.746|0.086|0.0127
92235111|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.3|||||TWO_SIDED|95.0|6.65|10.45|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||10.45|6.65|
92388063|NCT02871635|184677630|OTHER||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.725|1.116|||||BI 695501 as numerator Humira EU as denominator|Was to be analyzed using a log-linked binomial model, described as: response to treatment at Week 24 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.116|0.725|
92417738|NCT02757950|184723123|OTHER|The comparison of the relative risk with its two sided 95% CI of each primary endpoint between the Exposed cohort and the Unexposed cohort was obtained by means of logistic regression model, using the exposure status as a binary independent variable in the model. Absence of increased relative risk was concluded if the respective 95% CI contained 1.|Incidence rate ratio|0.638||||0.0036|TWO_SIDED|95.0|0.471|0.863||A multiple logistic regression model was fitted with a backward selection to identify the possible confounding factors for each of the primary safety event using an alpha level of 0.1.|Regression, Logistic|||The analysis contained only the subjects with vaccination date in the Exposed cohort and subjects from the Unexposed cohort.||0.863|0.471|0.0036
92235112|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.8|||||TWO_SIDED|95.0|3.71|6.14|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||6.14|3.71|
92417739|NCT02757950|184723124|OTHER|The comparison of the relative risk with its two sided 95% CI of each primary endpoint between the Exposed cohort and the Unexposed cohort was obtained by means of logistic regression model, using the exposure status as a binary independent variable in the model. Absence of increased relative risk was concluded if the respective 95% CI contained 1.|Incidence rate ratio|1.342||||0.0931|TWO_SIDED|95.0|0.952|1.89||A multiple logistic regression model was fitted with a backward selection to identify the possible confounding factors for each of the primary safety event using an alpha level of 0.1.|Regression, Logistic|||The analysis contained only the subjects with vaccination date in the Exposed cohort and subjects from the Unexposed cohort.||1.890|0.952|0.0931
92417740|NCT00814801|184723244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.49||||0.0113|TWO_SIDED|95.0|-2.64|-0.34|||Least Square Means|||||-0.34|-2.64|0.0113
92417741|NCT00814801|184723244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.59|||<|0.0001|TWO_SIDED|95.0|-3.74|-1.44|||Least Square Means|||||-1.44|-3.74|<0.0001
92417742|NCT00814801|184723246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.0774|TWO_SIDED|95.0|-0.2|3.7|||Least Square Means|||||3.7|-0.2|0.0774
92417743|NCT00814801|184723246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.6207|TWO_SIDED|95.0|-1.5|2.4|||Least Square Means|||||2.4|-1.5|0.6207
92417744|NCT00814801|184723247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.8419|TWO_SIDED|95.0|-0.6|0.8|||Least Square Means|||||0.8|-0.6|0.8419
92417745|NCT00814801|184723247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.7942|TWO_SIDED|95.0|-0.8|0.6|||Least Square Means|||||0.6|-0.8|0.7942
92169787|NCT02998528|184228249|SUPERIORITY||% Difference|21.6|||||TWO_SIDED|99.0|13.0|30.3|||||Strata adjusted difference (Arm C - Concurrent Arm B) based on the CMH method of weighting. Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)|||30.3|13.0|
92235113|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.2|||||TWO_SIDED|95.0|2.59|3.91|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.91|2.59|
92235114|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.4|||||TWO_SIDED|95.0|3.67|5.26|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||5.26|3.67|
92278752|NCT03280537|184460124|SUPERIORITY||Difference in Least Squares Means|-0.59|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.87|-0.3||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NCS, treatment and baseline NCS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily NCS at Week 16.||-0.30|-0.87|<0.0001
92280543|NCT00601484|184463649|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.454|||TWO_SIDED|90.0|-1.149|0.468||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.468|-1.149|
92417746|NCT00814801|184723248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.3141|TWO_SIDED|95.0|-1.6|0.5|||Least Square Means|||||0.5|-1.6|0.3141
92417747|NCT00814801|184723248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.6089|TWO_SIDED|95.0|-1.3|0.8|||Least Square Means|||||0.8|-1.3|0.6089
92417748|NCT02081248|184723270|SUPERIORITY|||||||0.37||||||Testing was performed at a significance level of 0.05|t-test, 2 sided|Two-sample t-test comparing mean QuIC-A scores performed using 150 degrees of freedom||The null hypothesis is that there is no difference in comprehension of the parent clinical trial, as measured by the QuIC-A, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Mean QuIC-A scores were compared between arms, which should be approximately equal under the null hypothesis.||||0.37
92417749|NCT02081248|184723271|SUPERIORITY|||||||0.39||||||Testing performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in participants' perception of their comprehension of the parent clinical trial, as measured by the QuIC-B, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median QuIC-B scores were compared between arms, which should be approximately equal under the null hypothesis.||||0.39
92417750|NCT02081248|184723272|SUPERIORITY|||||||0.17||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in participants' comprehension of the parent clinical trial, as measured by the DICCT, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median DICCT scores were compared between arms, which should be approximately equal under the null hypothesis.||||0.17
92417751|NCT02081248|184723275|SUPERIORITY|||||||0.21||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in participants' state anxiety, as measured by the STAI, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median state anxiety subscores of the STAI were compared between arms, which should be equal under the null hypothesis.||||0.21
92417752|NCT02081248|184723275|SUPERIORITY|||||||0.25||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in participants' trait anxiety, as measured by the STAI, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median trait anxiety subscores of the STAI were compared between arms, which should be equal under the null hypothesis.||||0.25
92417753|NCT02081248|184723276|SUPERIORITY|||||||0.8||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in satisfaction with the consent process, as measured by a study-specific questionnaire, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median participant satisfaction scores were compared between arms, which should be equal under the null hypothesis.||||0.80
92417754|NCT02081248|184723277|SUPERIORITY|||||||0.73||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the time required to find the main goal of the study between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median time required to find the main goal of the study was compared between arms, which should be equal under the null hypothesis.||||0.73
92417755|NCT02081248|184723277|SUPERIORITY|||||||0.26||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the time required to find who to contact for questions between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median time required to find who to contact for questions was compared between arms, which should be equal under the null hypothesis.||||0.26
92417756|NCT02081248|184723277|SUPERIORITY|||||||0.74||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the time required to find the risks and benefits section between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median time required to find the risks and benefits section was compared between arms, which should be equal under the null hypothesis.||||0.74
92417757|NCT02081248|184723277|SUPERIORITY|||||||0.56||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the time required to find how to leave the study between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median time required to find how to leave the study was compared between arms, which should be equal under the null hypothesis.||||0.56
92417758|NCT02081248|184723277|SUPERIORITY|||||||0.79||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the time required to find study procedures between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median time required to find study procedures was compared between arms, which should be equal under the null hypothesis.||||0.79
92417759|NCT02081248|184723278|SUPERIORITY|||||||1||||||Testing was performed at a significance level of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in the consent rates to BMT CTN 0901 between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Consent rates to BMT CTN 0901 were compared between arms in participants considering enrollment, which should be equal under the null hypothesis.||||1.00
92417760|NCT02081248|184723278|SUPERIORITY|||||||0.77||||||Testing was performed at a significance level of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in the consent rates to BMT CTN 1101 between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Consent rates to BMT CTN 1101 were compared between arms in participants considering enrollment, which should be approximately equal under the null hypothesis.||||0.77
92417761|NCT02081248|184723278|SUPERIORITY|||||||0.69||||||Testing was performed at a significance level of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in the consent rates to BMT CTN 1203 between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Consent rates to BMT CTN 1203 were compared between arms in participants considering enrollment, which should be approximately equal under the null hypothesis.||||0.69
92417762|NCT02081248|184723278|SUPERIORITY|||||||0.26||||||Testing was performed at a significance level of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in the consent rates to BMT CTN 1301 between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Consent rates to BMT CTN 1501 were compared between arms in participants considering enrollment, which should be approximately equal under the null hypothesis.||||0.26
92417763|NCT01037088|184723280|SUPERIORITY||||||>|0.05||||||not significant|Mixed Models Analysis|||Hour 1 after Administration of Cannabis||||>.05
92417764|NCT01037088|184723280|SUPERIORITY||||||=|0.0002|||||||Mixed Models Analysis|||Hour 2 after Administration of Cannabis||||=.0002
92235115|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.6|||||TWO_SIDED|95.0|2.2|3.14|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.14|2.20|
92417765|NCT01037088|184723280|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Hour 3 after Administration of Cannabis (after the second inhalation of cannabis)||||<.0001
92417766|NCT01037088|184723280|SUPERIORITY||||||=|0.0004|||||||Mixed Models Analysis|||Hour 4 after Administration of Cannabis||||=.0004
92417767|NCT01037088|184723280|SUPERIORITY||||||=|0.0018|||||||Mixed Models Analysis|||Hour 5 after Administration of Cannabis||||=.0018
92417768|NCT02216812|184723281|OTHER|||||||0.63|||||||Regression, Linear|||We tested the null hypothesis that there is no difference in DPC six weeks after fracture of the distal radius between patients taking vitamin C and placebo.||||0.63
92417769|NCT01986933|184723286|SUPERIORITY||Mean Difference (Final Values)|-21.39|STANDARD_ERROR_OF_MEAN|7.02||0.0027|TWO_SIDED|95.0|-35.25|-7.53||Since a hierarchical decision procedure can be regarded as a closed testing procedure, no inflation of the alpha level due to multiple comparisons was necessary, and the global 1-sided significance alpha level of 0.025 was maintained.|ANCOVA|||||-7.53|-35.25|0.0027
92417770|NCT01986933|184723286|SUPERIORITY||Mean Difference (Final Values)|-41.16|STANDARD_ERROR_OF_MEAN|7.1|<|0.0001|TWO_SIDED|95.0|-55.17|-27.15||Since a hierarchical decision procedure can be regarded as a closed testing procedure, no inflation of the alpha level due to multiple comparisons was necessary, and the global 1-sided significance alpha level of 0.025 was maintained.|ANCOVA|||||-27.15|-55.17|<0.0001
92235116|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.9|||||TWO_SIDED|95.0|7.8|21.34|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||21.34|7.80|
92388064|NCT00412893|184677696|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The upper bound of the 95% CI for the treatment difference was compared to the protocol prespecified non-inferiority margin of 10%. If the upper bound was smaller than 10%, isavuconazole was declared as non-inferior to voriconazole with respect to the primary outcome measure.|Adjusted Treatment Difference|-1.0|||||TWO_SIDED|95.0|-7.759|5.683|||||The treatment difference (isavuconazole minus voriconazole) was calculated using a stratified Cochran-Mantel-Haenszel (CMH) method. The strata included Geographical Regions, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Approximately 255 patients per group were to be enrolled to ensure at least 80% power to demonstrate that the upper bound of the 95% confidence interval (CI) for a treatment difference in favor of the comparator was no larger than 10%.||5.683|-7.759|
92388065|NCT00412893|184677697|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|1.6|||||TWO_SIDED|95.0|-9.336|12.572|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||12.572|-9.336|
92388066|NCT00412893|184677697|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|-0.5|||||TWO_SIDED|95.0|-11.277|10.329|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||10.329|-11.277|
92388067|NCT00412893|184677697|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|8.2|||||TWO_SIDED|95.0|-1.993|18.379|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||18.379|-1.993|
92388068|NCT00412893|184677698|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|-1.4|||||TWO_SIDED|95.0|-9.15|6.34|||||The treatment difference (isavuconazole minus voriconazole) was calculated using a stratified Cochran-Mantel-Haenszel (CMH) method. The strata included Geographical Regions, Allogeneic BMT Status and Uncontrolled Malignancy Status.|||6.340|-9.150|
92388069|NCT00412893|184677700|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|0.4|||||TWO_SIDED|95.0|-10.64|11.531|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment Comparison||11.531|-10.640|
92388070|NCT00412893|184677700|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|-5.8|||||TWO_SIDED|95.0|-17.368|5.802|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||5.802|-17.368|
92388071|NCT00412893|184677700|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|0.3|||||TWO_SIDED|95.0|-11.116|11.758|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||11.758|-11.116|
92388072|NCT00412893|184677701|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|3.8|||||TWO_SIDED|95.0|-7.429|15.087|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||15.087|-7.429|
92388073|NCT00412893|184677701|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|-0.7|||||TWO_SIDED|95.0|-11.917|10.586|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 Comparison||10.586|-11.917|
92388074|NCT00412893|184677701|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|9.1|||||TWO_SIDED|95.0|-1.624|19.83|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 Comparison||19.830|-1.624|
92235117|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|9.0|||||TWO_SIDED|95.0|6.26|12.92|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||12.92|6.26|
92388075|NCT00412893|184677702|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|5.7|||||TWO_SIDED|95.0|-4.936|16.268|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||16.268|-4.936|
92388076|NCT00412893|184677702|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|5.3|||||TWO_SIDED|95.0|-5.338|16.032|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||16.032|-5.338|
92388077|NCT00412893|184677702|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|9.0|||||TWO_SIDED|95.0|-1.231|19.186|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||19.186|-1.231|
92388078|NCT00412893|184677703|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|5.0|||||TWO_SIDED|95.0|-6.043|16.026|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||16.026|-6.043|
92417771|NCT01986933|184723286|SUPERIORITY||Mean Difference (Final Values)|-40.39|STANDARD_ERROR_OF_MEAN|6.95|<|0.0001|TWO_SIDED|95.0|-54.11|-26.67||Since a hierarchical decision procedure can be regarded as a closed testing procedure, no inflation of the alpha level due to multiple comparisons was necessary, and the global 1-sided significance alpha level of 0.025 was maintained.|ANCOVA|||||-26.67|-54.11|<0.0001
92388079|NCT00412893|184677703|SUPERIORITY_OR_OTHER_LEGACY||Adjusted treatment Difference|0.2|||||TWO_SIDED|95.0|-10.873|11.22|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||11.220|-10.873|
92388080|NCT00412893|184677703|SUPERIORITY_OR_OTHER_LEGACY||Adjusted treatment Difference|4.7|||||TWO_SIDED|95.0|-6.533|15.939|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||15.939|-6.533|
92388081|NCT00412893|184677704|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|4.4|||||TWO_SIDED|95.0|-8.429|17.218|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||17.218|-8.429|
92388082|NCT00412893|184677704|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|-2.5|||||TWO_SIDED|95.0|-15.071|10.073|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||10.073|-15.071|
92388083|NCT00412893|184677704|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|2.9|||||TWO_SIDED|95.0|-8.633|14.499|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||14.499|-8.633|
92388084|NCT00412893|184677705|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|6.3|||||TWO_SIDED|95.0|-5.145|17.696|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||17.696|-5.145|
92388085|NCT00412893|184677705|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|8.0|||||TWO_SIDED|95.0|-3.335|19.356|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||19.356|-3.335|
92388086|NCT00412893|184677705|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|5.1|||||TWO_SIDED|95.0|-6.187|16.332|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||16.332|-6.187|
92388087|NCT03401671|184677707|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|1.0229|||||TWO_SIDED|90.0|0.8473|1.2349||||||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and ethnic group as a fixed effect.||1.2349|0.8473|
92388088|NCT03401671|184677709|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|0.9324|||||TWO_SIDED|90.0|0.8016|1.0846||||||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and ethnic group as a fixed effect.||1.0846|0.8016|
92388089|NCT03401671|184677710|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|0.9318|||||TWO_SIDED|90.0|0.8005|1.0846||||||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and ethnic group as a fixed effect.||1.0846|0.8005|
92388090|NCT02305238|184677725|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) mean difference|-0.4|||||TWO_SIDED|95.0|-3.8|3.0||||||||3.0|-3.8|
92388091|NCT02305238|184677726|SUPERIORITY_OR_OTHER_LEGACY||Mantel-Haenszel (MH) adjusted difference|-0.9|||||TWO_SIDED|95.0|-5.7|4.0||||||||4.0|-5.7|
92235118|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.5|||||TWO_SIDED|95.0|3.71|8.07|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||8.07|3.71|
92388092|NCT02305238|184677727|SUPERIORITY_OR_OTHER_LEGACY||MH adjusted difference|-1.4|||||TWO_SIDED|95.0|-12.7|9.8||||||||9.8|-12.7|
92388093|NCT02305238|184677728|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-5.8|||||TWO_SIDED|95.0|-24.3|12.7||||||||12.7|-24.3|
92388094|NCT02305238|184677729|SUPERIORITY_OR_OTHER_LEGACY||MH adjusted difference|1.0|||||TWO_SIDED|95.0|-10.6|12.7||||||||12.7|-10.6|
92388095|NCT02815644|184677732|SUPERIORITY_OR_OTHER||T/R ratio|55.69|STANDARD_ERROR_OF_MEAN|1.087|||TWO_SIDED|90.0|48.22|64.33|||||Standard Error of the mean is actually geometric Standard Error of the mean.|"Relative bioavailability of linagliptin after food intake compared to while in the fasting state was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||64.33|48.22|
92388096|NCT02815644|184677733|SUPERIORITY_OR_OTHER||T/R ratio|74.89|STANDARD_ERROR_OF_MEAN|1.073|||TWO_SIDED|90.0|66.27|84.64|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of empagliflozin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||84.64|66.27|
92417772|NCT01077154|184723295|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.7|TWO_SIDED|95.0|0.82|1.14|||Stratified Log Rank|Stratified by breast cancer therapy/LN status, hormone receptor status, HER-2 status, age, and geographic region.|Based on a Cox proportional hazards model stratified by the randomization stratification factors; a hazard ratio \< 1 favors denosumab.|||1.14|0.82|0.70
92235119|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.2|||||TWO_SIDED|95.0|4.35|8.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||8.80|4.35|
92388097|NCT02815644|184677734|SUPERIORITY_OR_OTHER||T/R ratio|82.19|STANDARD_ERROR_OF_MEAN|1.028|||TWO_SIDED|90.0|78.38|86.18|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of linagliptin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||86.18|78.38|
92388098|NCT02815644|184677735|SUPERIORITY_OR_OTHER||T/R ratio|85.99|STANDARD_ERROR_OF_MEAN|1.018|||TWO_SIDED|90.0|83.38|88.68|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of empagliflozin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||88.68|83.38|
92388099|NCT02815644|184677736|SUPERIORITY_OR_OTHER||T/R ratio|88.13|STANDARD_ERROR_OF_MEAN|1.051|||TWO_SIDED|90.0|80.89|96.03|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of linagliptin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||96.03|80.89|
92388100|NCT02815644|184677737|SUPERIORITY_OR_OTHER||T/R ratio|86.33|STANDARD_ERROR_OF_MEAN|1.019|||TWO_SIDED|90.0|83.61|89.13|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of empagliflozin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||89.13|83.61|
92388101|NCT02815644|184677738|SUPERIORITY_OR_OTHER||T/R Ratio|82.19|STANDARD_ERROR_OF_MEAN|1.028|||TWO_SIDED|90.0|78.38|86.18|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of linagliptin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||86.18|78.38|
92388102|NCT02218008|184677747|SUPERIORITY||Least Squares Mean Difference|-1.5||||0.018|TWO_SIDED|95.0|-2.7|-0.3||Hypothesis tests were two-sided with an alpha of 0.05. Control of type 1 error inflation due to multiplicity was achieved by pre-specifying a fixed sequence for statistical tests.|Mixed Models Analysis|ALKS 5461 was compared to pbo using stage-specific MMRM for MADRS-10 Change from Baseline. Model-derived estimates were combined using equal weights.|Estimates below zero favor ALKS 5461.|Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified equal weights. Within each stage ALKS 5461 2mg/2mg was compared to placebo (i.e., ALKS 5461 2mg/2mg S1 vs Placebo S1; and ALKS 5461 2mg/2mg S2 vs Placebo S2. The pre-specified order of hypothesis tests was ALKS 5461 2/2 compared to placebo followed by ALKS 5461 1/1 compared to placebo.||-0.3|-2.7|0.018
92388103|NCT02218008|184677748|SUPERIORITY|Hypothesis tests were two-sided with an alpha of 0.05. Control of type 1 error inflation due to multiplicity was achieved by pre-specifying a fixed sequence for statistical tests.|Least Squares Mean Difference|-1.9||||0.026|TWO_SIDED|95.0|-3.6|-0.2||ALKS 5461 was compared to pbo using stage-specific MMRM for MADRS-10 Change from Baseline. Model-derived estimates were combined using equal weights.|Mixed Models Analysis||Estimates below zero favor ALKS 5461.|Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified equal weights. Within each stage ALKS 5461 2mg/2mg was compared to placebo (i.e., ALKS 5461 2mg/2mg S1 vs Placebo S1; and ALKS 5461 2mg/2mg S2 vs Placebo S2. The pre-specified order of hypothesis tests was ALKS 5461 2/2 compared to placebo followed by ALKS 5461 1/1 compared to placebo.||-0.2|-3.6|0.026
92388104|NCT02218008|184677749|SUPERIORITY|The primary hypotheses were evaluated using a 6-step, fixed sequence approach to adjust for multiple comparisons. Using this method, hypothesis testing (using alpha=0.05) continued through the sequence until statistical significance was not achieved. Steps 1-3 included testing the ALKS 5461 2mg/2mg dose vs placebo for the 3 primary endpoints.|Least Squares Mean Difference|-1.7||||0.076|TWO_SIDED|95.0|-3.6|0.2||ALKS 5461 is compared to placebo within each of the 2 stages, and resulting treatment effects from each stage are combined for a single hypothesis test using equal weights of 0.5 for both stages.|Mixed Models Analysis|||ALKS 5461 is compared to placebo within each of the 2 stages (i.e., ALKS 5461 2/2 S1 vs Placebo S1; and ALKS 5461 2/2 S2 vs Placebo S2). Efficacy was estimated as a weighted average across 2 stages using equal weights.||0.2|-3.6|0.076
92388105|NCT01278797|184677802|SUPERIORITY_OR_OTHER||Test/Reference ratio of geometric means|94.51||||0.005||90.0|91.6|97.51|||ANOVA|ANOVA was applied to log-transformed AUC72 and Included treatment, sequence, period and subject-within-sequence effects.||Telmisartan/Amlodipine 80 mg/10 mg versus Telmisartan 80 mg + Amlodipine 10 mg The two formulations are shown to be bioequivalent since the 90% confidence interval of the test to reference ratio is entirely contained within the 80-125% bioequivalence range.||97.51|91.60|0.005
92388106|NCT01278797|184677803|SUPERIORITY_OR_OTHER||Test/Reference ratio of geometric means|94.1||||0.0093||90.0|90.7|97.63|||ANOVA|ANOVA was applied to log-transformed CMAX and Included treatment, sequence, period and subject-within-sequence effects.||Telmisartan/Amlodipine 80 mg/10 mg versus Telmisartan 80 mg + Amlodipine 10 mg The two formulations are shown to be bioequivalent since the 90% confidence interval of the test to reference ratio is entirely contained within the 80-125% bioequivalence range.||97.63|90.70|0.0093
92388107|NCT01278797|184677804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.153|||||||ANOVA|ANOVA was applied to TMAX and Included treatment, sequence, period and subject-within-sequence effects.||Telmisartan/Amlodipine 80 mg/10 mg versus Telmisartan 80 mg + Amlodipine 10 mg||||0.153
92388108|NCT00588354|184677805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.54|STANDARD_ERROR_OF_MEAN|1.05||0.159|TWO_SIDED|95.0|-0.52|3.6|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||3.60|-0.52|0.159
92417773|NCT01077154|184723296|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.57|TWO_SIDED|95.0|0.91|1.19|||Stratified Log Rank|Stratified by breast cancer therapy/LN status, hormone receptor status, HER-2 status, age, and geographic region.|Based on a Cox proportional hazards model stratified by the randomization stratification factors; a hzard ratio \< 1 favors denosumab.|||1.19|0.91|0.57
92417774|NCT01077154|184723297|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.26|TWO_SIDED|95.0|0.92|1.36|||Stratified Log Rank|Stratified by breast cancer therapy/LN status, hormone receptor status, HER-2 status, age, and geographic region.|Based on a Cox proportional hazards model stratified by the randomization stratification factors; a hazard ratio \< 1 favors denosumab.|||1.36|0.92|0.26
92417775|NCT01077154|184723298|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.83|1.22|||Stratified Log Rank|Stratified by breast cancer therapy/LN status, hormone receptor status, HER-2 status, age, and geographic region.|Based on a Cox proportional hazards model stratified by the randomization stratification factors; a hazard ratio \< 1 favors denosumab.|||1.22|0.83|0.94
92417776|NCT01077154|184723299|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.41|TWO_SIDED|95.0|0.92|1.21|||Stratified Log Rank|Stratified by breast cancer therapy/LN status, hormone receptor status, HER-2 status, age, and geographic region.|Based on a Cox proportional hazards model stratified by the randomization stratification factors; a hazard ratio \< 1 favors denosumab.|||1.21|0.92|0.41
92417777|NCT00604214|184723300|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.088||||0.313|TWO_SIDED|95.0|0.923|1.283||No adjustment for multiple comparisons.|Chi-squared|||The study was planned to have 80% power to detect a 20% relative risk reduction in 28-day all-cause mortality in drotrecogin alpha (activated) compared to placebo. The final power was 75% because of the lower than anticipated placebo mortality.||1.283|0.923|0.313
92417778|NCT00604214|184723301|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93||||0.54|TWO_SIDED|95.0|0.737|1.173||No adjustments for multiple comparisons.|Chi-squared|||||1.173|0.737|0.540
92417779|NCT00604214|184723302|SUPERIORITY_OR_OTHER|||||||0.181||95.0||||No adjustments for multiple comparisons.|ANOVA|||||||0.181
92417780|NCT00604214|184723303|SUPERIORITY_OR_OTHER|||||||0.733||95.0||||No adjustments for multiple comparisons.|ANOVA|||||||0.733
92417781|NCT00604214|184723304|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||No adjustments for multiple comparisons.|ANOVA|||||||0.122
92417782|NCT00604214|184723305|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.042||||0.556|TWO_SIDED|95.0|0.909|1.193||No adjustments for multiple comparisons.|Chi-squared|||||1.193|0.909|0.556
92417783|NCT00604214|184723306|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02||||0.758|TWO_SIDED|95.0|0.898|1.16||No adjustments for multiple comparisons.|Chi-squared|||||1.160|0.898|0.758
92417784|NCT00604214|184723308|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||P-value is for Baseline, unadjusted for multiple comparisons.|ANOVA|||||||0.788
92417785|NCT00604214|184723308|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||P-value is for Day 28, unadjusted for multiple comparisons.|ANOVA|||||||0.730
92235120|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.6|||||TWO_SIDED|95.0|9.71|16.3|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.30|9.71|
92417786|NCT00604214|184723308|SUPERIORITY_OR_OTHER|||||||0.662||95.0||||P-value is for Day 90, unadjusted for multiple comparisons.|ANOVA|||||||0.662
92417787|NCT00604214|184723308|SUPERIORITY_OR_OTHER|||||||0.846||95.0||||P-value is for Day 180, unadjusted for multiple comparisons.|ANOVA|||||||0.846
92417788|NCT00604214|184723309|SUPERIORITY_OR_OTHER|||||||0.697||95.0||||P-value is for Baseline, unadjusted for multiple comparisons.|ANOVA|||||||0.697
92417789|NCT00604214|184723309|SUPERIORITY_OR_OTHER|||||||0.306||95.0||||P-value is for Day 28, unadjusted for multiple comparisons.|ANOVA|||||||0.306
92417790|NCT00604214|184723309|SUPERIORITY_OR_OTHER|||||||0.645||95.0||||P-value is for Day 90, unadjusted for multiple comparisons.|ANOVA|||||||0.645
92417791|NCT00604214|184723309|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||P-value is for Day 180, unadjusted for multiple comparisons.|ANOVA|||||||0.690
92417792|NCT00604214|184723310|SUPERIORITY_OR_OTHER|||||||0.482||95.0||||P-value is for physical component at Baseline, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.482
92417793|NCT00604214|184723310|SUPERIORITY_OR_OTHER|||||||0.584||95.0||||P-value is for physical component at Day 28, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.584
92417794|NCT00604214|184723310|SUPERIORITY_OR_OTHER|||||||0.164||95.0||||P-value is for physical component at Day 90, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.164
92235121|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.5|||||TWO_SIDED|95.0|5.59|10.02|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||10.02|5.59|
92417795|NCT00604214|184723310|SUPERIORITY_OR_OTHER|||||||0.666||95.0||||P-value is for physical component at Day 180, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.666
92417796|NCT00604214|184723310|SUPERIORITY_OR_OTHER|||||||0.786||95.0||||P-value is for mental component at Baseline, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.786
92417797|NCT00604214|184723310|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||P-value is for mental component at Day 28, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.160
92417798|NCT00604214|184723310|SUPERIORITY_OR_OTHER|||||||0.696||95.0||||P-value is for mental component at Day 90, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.696
92417799|NCT00604214|184723310|SUPERIORITY_OR_OTHER|||||||0.966||95.0||||P-value is for mental component at Day 180, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.966
92417800|NCT00604214|184723311|SUPERIORITY_OR_OTHER|||||||0.758||95.0||||P-value is for participants with ≥1 event. No adjustments for multiple comparisons.|Fisher Exact|||||||0.758
92417801|NCT00604214|184723312|SUPERIORITY_OR_OTHER|||||||0.154||95.0||||Unadjusted for multiple comparisons.|Fisher Exact|||||||0.154
92417802|NCT01879579|184723345|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Chi-squared|||||||<0.0001
92417803|NCT01879579|184723346|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Interval-censoring survival analysis|||||||0.007
92417804|NCT01879579|184723347|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.99
92417805|NCT01879579|184723348|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.78
92417806|NCT01879579|184723349|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.04
92417807|NCT01879579|184723350|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.13
92417808|NCT01879579|184723355|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Generalized estimating equation modeling|||||||0.008
92417809|NCT01879579|184723356|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.003
92417810|NCT04948866|184723368|SUPERIORITY|||||||0.522|||||||Poisson regression|||||||0.522
92417811|NCT04948866|184723369|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92417812|NCT04948866|184723370|SUPERIORITY|||||||0.402|||||||t-test, 2 sided|||||||0.402
92388109|NCT00588354|184677806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.97||0.91|TWO_SIDED|95.0|-1.79|2.01|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||2.01|-1.79|0.910
92388110|NCT00588354|184677807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.96|STANDARD_ERROR_OF_MEAN|2.04||0.162|TWO_SIDED|95.0|-1.04|6.96|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||6.96|-1.04|0.162
92388111|NCT00588354|184677808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.67|STANDARD_ERROR_OF_MEAN|2.27||0.022|TWO_SIDED|95.0|1.22|10.12|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||10.12|1.22|0.022
92388112|NCT00588354|184677809|SUPERIORITY_OR_OTHER||Median Difference (Net)|5.86|STANDARD_ERROR_OF_MEAN|3.28||0.089|TWO_SIDED|95.0|-0.57|12.29|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||12.29|-0.57|0.089
92388113|NCT00588354|184677810|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.04|STANDARD_ERROR_OF_MEAN|3.17||0.038|TWO_SIDED|95.0|0.83|13.25|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||13.25|0.83|0.038
92388114|NCT00588354|184677811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.83|STANDARD_ERROR_OF_MEAN|3.53||0.186|TWO_SIDED|95.0|-11.75|2.09|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||2.09|-11.75|0.186
92388115|NCT00588354|184677812|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|3.37||0.918|TWO_SIDED|95.0|-6.96|6.26|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||6.26|-6.96|0.918
92417813|NCT04948866|184723371|SUPERIORITY|||||||0.803|||||||t-test, 2 sided|||||||0.803
92417814|NCT04948866|184723372|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||||||0.045
92417815|NCT04948866|184723373|SUPERIORITY|||||||0.977|||||||Chi-squared|||||||0.977
92388116|NCT03364309|184677821|SUPERIORITY||Odds Ratio (OR)|99.99|||<|0.0001|TWO_SIDED|95.0|33.57|99.99|||Regression, Logistic|||||99.99|33.57|<0.0001
92388117|NCT03364309|184677821|SUPERIORITY||Odds Ratio (OR)|99.99|||<|0.001|TWO_SIDED|95.0|52.49|99.99|||Regression, Logistic|||||99.99|52.49|<0.001
92388118|NCT03364309|184677822|SUPERIORITY||Odds Ratio (OR)|79.95|||<|0.001|TWO_SIDED|95.0|32.76|99.99|||Regression, Logistic|||||99.99|32.76|<0.001
92388119|NCT03364309|184677822|SUPERIORITY||Odds Ratio (OR)|99.99|||<|0.001|TWO_SIDED|95.0|64.87|99.99|||Regression, Logistic|||||99.99|64.87|<0.001
92388120|NCT03364309|184677824|SUPERIORITY||Odds Ratio (OR)|99.99|||<|0.001|TWO_SIDED|95.0|31.88|99.99|||Regression, Logistic|||||99.99|31.88|<0.001
92388121|NCT03364309|184677824|SUPERIORITY||Odds Ratio (OR)|99.99|||<|0.001|TWO_SIDED|95.0|46.96|99.99|||Regression, Logistic|||||99.99|46.96|<0.001
92388122|NCT03364309|184677826|SUPERIORITY||Odds Ratio (OR)|37.24|||<|0.001|TWO_SIDED|95.0|13.68|99.99|||Regression, Logistic|||||99.99|13.68|<0.001
92417816|NCT04948866|184723374|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.010
92417817|NCT04948866|184723375|SUPERIORITY|||||||0.935|||||||Chi-squared|||||||0.935
92417818|NCT04948866|184723376|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92417819|NCT04948866|184723377|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92417820|NCT04948866|184723378|SUPERIORITY|||||||0.417|||||||Chi-squared|||||||0.417
92417821|NCT04948866|184723379|SUPERIORITY|||||||0.531|||||||Chi-squared|||||||0.531
92417822|NCT04948866|184723380|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
92417823|NCT04948866|184723381|SUPERIORITY|||||||0.876|||||||t-test, 2 sided|||||||0.876
92417824|NCT06460493|184723407|OTHER|The proportion of subjects classified as responders at week 12, standard errors, and corresponding 95% CI was estimated by negative binomial regression with background therapy (LABA/LAMA or LABA/LAMA/ICS) included as a fixed effect, and with baseline CAT score included as a covariate. The scale parameter in the negative binomial model was held fixed by specifying a noscale option.|Negative binomial regression|67.0|||||TWO_SIDED|95.0|38.0|100.0|||||A two-sided unadjusted 95% confidence interval for the proportion was used to determine study success with the lower bound of the CI \> 0 indicating success.|||100.0|38.0|
92417825|NCT06460493|184723408|OTHER|The proportion of subjects classified as responders at week 6, standard errors, and corresponding 95% CI was estimated by negative binomial regression with background therapy (LABA/LAMA or LABA/LAMA/ICS) included as a fixed effect, and with baseline CAT score included as a covariate. The scale parameter in the negative binomial model was held fixed by specifying a noscale option.|Negative binomial regression|44.4|||||TWO_SIDED|95.0|22.0|89.5|||||A two-sided unadjusted 95% confidence interval for the proportion was used to determine study success with the lower bound of the CI \> 0 indicating success.|||89.5|22.0|
92417826|NCT00075270|184723433|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.87||||0.142|TWO_SIDED|95.0|0.72|1.05||P-value from stratified log-rank test, stratifying for stage of disease and site of disease at screening|Log Rank||The estimate of the treatment hazard ratio is based on the log-rank test.|||1.05|0.72|0.142
92417827|NCT00075270|184723434|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.82||||0.094|TWO_SIDED|95.0|0.65|1.04||P-value from stratified log-rank test, stratifying for stage of disease and site of disease at screening|Log Rank||The estimate of the treatment hazard ratio was based on the log-rank test.|||1.04|0.65|0.094
92417828|NCT00246571|184723453|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.203||||0.8885|TWO_SIDED|95.0|0.8889|1.628||One-sided log-rank test stratified for the number of prior chemotherapy regiments (1 versus more than 1), which is from the interactive voice response system (IVRS).|Log Rank|||For core radiology laboratory assessment||1.6280|0.8889|0.8885
92235122|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|15.1|||||TWO_SIDED|95.0|9.56|23.81|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||23.81|9.56|
92388123|NCT03364309|184677826|SUPERIORITY||Odds Ratio (OR)|41.38|||<|0.001|TWO_SIDED|95.0|15.09|99.99|||Regression, Logistic|||||99.99|15.09|<0.001
92388124|NCT03364309|184677827|SUPERIORITY||LSMean Difference|-9.52|STANDARD_ERROR_OF_MEAN|0.604|<|0.001|TWO_SIDED|95.0|-10.71|-8.33|||Mixed Models Analysis|||||-8.33|-10.71|<0.001
92388125|NCT03364309|184677827|SUPERIORITY||LSMean Difference|-9.78|STANDARD_ERROR_OF_MEAN|0.603|<|0.001|TWO_SIDED|95.0|-10.96|-8.59|||Mixed Models Analysis|||||-8.59|-10.96|<0.001
92388126|NCT03364309|184677828|SUPERIORITY||LSMean Difference|-10.09|STANDARD_ERROR_OF_MEAN|1.673|<|0.001|TWO_SIDED|95.0|-13.38|-6.79|||Mixed Models Analysis|||||-6.79|-13.38|<0.001
92388127|NCT03364309|184677828|SUPERIORITY||LSMean Difference|-8.81|STANDARD_ERROR_OF_MEAN|1.677|<|0.001|TWO_SIDED|95.0|-12.11|-5.51|||Mixed Models Analysis|||||-5.51|-12.11|<0.001
92388128|NCT03364309|184677829|SUPERIORITY||LSMean Difference|-34.96|STANDARD_ERROR_OF_MEAN|2.023|<|0.001|TWO_SIDED|95.0|-38.94|-30.98|||Mixed Models Analysis|||||-30.98|-38.94|<0.001
92388129|NCT03364309|184677829|SUPERIORITY||LSMean Difference|-36.34|STANDARD_ERROR_OF_MEAN|2.018|<|0.001|TWO_SIDED|95.0|-40.3|-32.37|||Mixed Models Analysis|||||-32.37|-40.30|<0.001
92388130|NCT03364309|184677830|SUPERIORITY||LSMean Difference|-16.74|STANDARD_ERROR_OF_MEAN|0.957|<|0.001|TWO_SIDED|95.0|-18.62|-14.86|||Mixed Models Analysis|||||-14.86|-18.62|<0.001
92388131|NCT03364309|184677830|SUPERIORITY||LSMean Difference|-17.93|STANDARD_ERROR_OF_MEAN|0.954|<|0.001|TWO_SIDED|95.0|-19.8|-16.05|||Mixed Models Analysis|||||-16.05|-19.80|<0.001
92388132|NCT03364309|184677831|SUPERIORITY||LSMean Difference|6.228|STANDARD_ERROR_OF_MEAN|0.6681|<|0.001|TWO_SIDED|95.0|4.915|7.541|||Mixed Models Analysis|||||7.541|4.915|<0.001
92388133|NCT03364309|184677831|SUPERIORITY||LSMean Difference|6.536|STANDARD_ERROR_OF_MEAN|0.6668|<|0.001|TWO_SIDED|95.0|5.225|7.847|||Mixed Models Analysis|||||7.847|5.225|<0.001
92417829|NCT00246571|184723453|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1598||||0.8472|TWO_SIDED|95.0|0.8703|1.5457||One-sided log-rank test stratified for the number of prior chemotherapy regiments (1 versus more than 1), which is from IVRS.|Log Rank|||For investigator's assessment||1.5457|0.8703|0.8472
92388134|NCT03364309|184677832|SUPERIORITY||LSMean Difference|5.193|STANDARD_ERROR_OF_MEAN|0.9489|<|0.001|TWO_SIDED|95.0|3.328|7.058|||Mixed Models Analysis|||||7.058|3.328|<0.001
92388135|NCT03364309|184677832|SUPERIORITY||LSMean Difference|5.362|STANDARD_ERROR_OF_MEAN|0.946|<|0.001|TWO_SIDED|95.0|3.503|7.222|||Mixed Models Analysis|||||7.222|3.503|<0.001
92388136|NCT03364309|184677833|SUPERIORITY||LSMean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-2.9|-2.4|||Mixed Models Analysis|||||-2.4|-2.9|<0.001
92388137|NCT03364309|184677833|SUPERIORITY||LSMean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-2.9|-2.3|||Mixed Models Analysis|||||-2.3|-2.9|<0.001
92388138|NCT03364309|184677834|SUPERIORITY||LSMean Difference|-3.35|STANDARD_ERROR_OF_MEAN|1.11||0.003|TWO_SIDED|95.0|-5.56|-1.15|||Mixed Models Analysis|||||-1.15|-5.56|0.003
92388139|NCT03364309|184677834|SUPERIORITY||LSMean Difference|-4.79|STANDARD_ERROR_OF_MEAN|1.064|<|0.001|TWO_SIDED|95.0|-6.9|-2.67|||Mixed Models Analysis|||||-2.67|-6.90|<0.001
92235123|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.3|||||TWO_SIDED|95.0|8.66|17.38|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||17.38|8.66|
92388140|NCT03364309|184677835|SUPERIORITY||LSMean Difference|-27.4|STANDARD_ERROR_OF_MEAN|11.07||0.022|TWO_SIDED|95.0|-50.5|-4.3|||Mixed Models Analysis|||||-4.3|-50.5|0.022
92388141|NCT03364309|184677835|SUPERIORITY||LSMean Difference|-25.2|STANDARD_ERROR_OF_MEAN|10.87||0.031|TWO_SIDED|95.0|-47.8|-2.5|||Mixed Models Analysis|||||-2.5|-47.8|0.031
92388142|NCT04522141|184677847|OTHER|||||||0.038||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.038
92388143|NCT04522141|184677847|SUPERIORITY|||||||0.941||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.941
92388144|NCT04522141|184677848|OTHER|||||||0.003||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.003
92388145|NCT04522141|184677848|SUPERIORITY|||||||0.027||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.027
92388146|NCT04522141|184677849|OTHER||||||<|0.001||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||< .001
92388147|NCT04522141|184677849|SUPERIORITY|||||||0.411||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.411
92388148|NCT04522141|184677850|OTHER||||||<|0.001||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status|Mixed Models Analysis|||Main effect weekly self-control||||< .001
92388149|NCT04522141|184677850|SUPERIORITY|||||||0.176||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status|Mixed Models Analysis|||Time by condition interaction weekly self-control||||0.176
92388150|NCT04522141|184677851|OTHER||||||>|0.05||||||Analyses are controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||> .05
92388151|NCT04522141|184677851|SUPERIORITY||||||>|0.05||||||Analyses are controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||> .05
92388152|NCT04522141|184677852|OTHER|||||||0.031||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.031
92388153|NCT04522141|184677852|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.||Time by condition interaction||||0.260
92169788|NCT02998528|184228249|SUPERIORITY||Odds Ratio (OR)|13.94|||<|0.0001|TWO_SIDED|99.0|3.49|55.75|||Cochran-Mantel-Haenszel||Strata adjusted odds ratio (Arm C over Concurrent Arm B) the Mantel-Haenszel method. Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)|||55.75|3.49|<0.0001
92169789|NCT02998528|184228250|SUPERIORITY||Cox Proportional Hazard|0.68|||||TWO_SIDED|95.0|0.51|0.91||||Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)||||0.91|0.51|
92169790|NCT02998528|184228251|SUPERIORITY||% Difference|27.9|||||TWO_SIDED|95.0|19.6|36.1|||||Strata adjusted difference (Arm C - Concurrent Arm B) based on the CMH method of weighting. Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)|||36.1|19.6|
92388154|NCT04522141|184677853|OTHER|||||||0.016||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.016
92388155|NCT04522141|184677853|SUPERIORITY|||||||0.363||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.363
92388156|NCT04522141|184677854|OTHER||||||>|0.05||||||Analyses are controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||> .05
92388157|NCT04522141|184677854|SUPERIORITY||||||>|0.05||||||Analyses are controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||> .05
92388158|NCT04522141|184677855|OTHER|||||||0.389||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.389
92388159|NCT04522141|184677855|SUPERIORITY|||||||0.516||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.516
92388160|NCT04522141|184677856|OTHER|||||||0.005||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.005
92388161|NCT04522141|184677856|SUPERIORITY|||||||0.555||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.555
92388162|NCT04522141|184677857|OTHER|||||||0.206||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.206
92388163|NCT04522141|184677857|SUPERIORITY|||||||0.026||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.026
92388164|NCT03052049|184677858|OTHER|t-test|p value|0.05||||0.05|TWO_SIDED|0.0||||P value was calculated with threshold of significance \<0.05.|t-test, 2 sided||P value was calculated with threshold of significance \<0.05.|||||0.05
92388165|NCT03052049|184677859|OTHER|||||||0.05||||||P value was calculated and a value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.05
92388166|NCT03052049|184677860|OTHER|||||||0.05||||||P value was calculated and a value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.05
92388167|NCT03052049|184677861|OTHER|||||||0.05||||||P value was calculated and a value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.05
92388168|NCT03052049|184677862|SUPERIORITY|||||||0.05||||||P value was calculated and a value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.05
92388169|NCT03304873|184677880|SUPERIORITY|||||||0.0004|||||||t-test, 1 sided|||||||0.0004
92388170|NCT03304873|184677881|SUPERIORITY|||||||0.99|||||||t-test, 1 sided|||||||0.99
92388171|NCT01868477|184677900|OTHER|difference|Mean Difference (Final Values)|14.4|||||TWO_SIDED|95.0|-24.0|48.16||||||||48.16|-24.0|
92388172|NCT00620113|184677921|SUPERIORITY_OR_OTHER||Difference in LS Means|5.4|||<|0.001|TWO_SIDED|95.0|4.16|6.64||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an analysis of covariance (ANCOVA) model with terms for treatment and study center. Treatment effect was assessed by Least-Squares means (LS mean) and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||6.64|4.16|<0.001
92388173|NCT00620113|184677921|SUPERIORITY_OR_OTHER||Difference in LS Means|5.12|||<|0.001|TWO_SIDED|95.0|3.9|6.35||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||6.35|3.90|<0.001
92388174|NCT00620113|184677921|SUPERIORITY_OR_OTHER||Difference in LS Means|3.54|||<|0.001|TWO_SIDED|95.0|2.33|4.75||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||4.75|2.33|<0.001
92169791|NCT02998528|184228251|SUPERIORITY||Odds Ratio (OR)|5.7|||||TWO_SIDED|95.0|3.16|10.26|||||Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)|||10.26|3.16|
92169792|NCT02998528|184228253|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.49|0.9|||||Stratified by: PD-L1 status (≥ 1% vs \<1%/not evaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)|||0.90|0.49|
92169793|NCT02692417|184228254|OTHER|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test comparing FSFI score from baseline to time point.||||0.109
92169794|NCT02692417|184228254|OTHER|||||||0.225|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test comparing FSFI score from baseline to time point.||||0.225
92388175|NCT00620113|184677922|SUPERIORITY_OR_OTHER||Difference in LS Means|3.06|||<|0.001|TWO_SIDED|95.0|2.14|3.98||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||3.98|2.14|<0.001
92169795|NCT02692417|184228255|OTHER|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test comparing FSFI score from baseline to time point.||||0.109
92169796|NCT02692417|184228255|OTHER|||||||0.046|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test comparing FSFI score from baseline to time point.||||0.046
92235124|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.5|||||TWO_SIDED|95.0|4.29|9.89|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||9.89|4.29|
92388176|NCT00620113|184677922|SUPERIORITY_OR_OTHER||Difference in LS Means|2.2|||<|0.001|TWO_SIDED|95.0|1.29|3.12||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||3.12|1.29|<0.001
92388177|NCT00620113|184677922|SUPERIORITY_OR_OTHER||Difference in LS Means|1.67|||<|0.001|TWO_SIDED|95.0|0.77|2.57||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||2.57|0.77|<0.001
92388178|NCT00620113|184677925|SUPERIORITY_OR_OTHER||Difference in LS Means|3.08|||<|0.001|TWO_SIDED|95.0|1.85|4.31||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||4.31|1.85|<0.001
92388179|NCT00620113|184677925|SUPERIORITY_OR_OTHER||Difference in LS Means|1.86||||0.003|TWO_SIDED|95.0|0.64|3.08||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||3.08|0.64|0.003
92388180|NCT00620113|184677925|SUPERIORITY_OR_OTHER||Difference in LS Means|2.23|||<|0.001|TWO_SIDED|95.0|1.03|3.43||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||3.43|1.03|<0.001
92417830|NCT00246571|184723454|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38||||0.9624|TWO_SIDED|95.0|0.06|1.71||The stratified analysis was from Cochran-Mantel-Haenszel (CMH) test stratified by randomization stratification factor, the number of prior chemotherapy regimens (1 versus more than 1), which is from IVRS.|Cochran-Mantel-Haenszel|||Core radiology laboratory assessment||1.71|0.06|0.9624
92169797|NCT02692417|184228256|OTHER|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test comparing FSFI score from baseline to time point.||||0.109
92169798|NCT02692417|184228256|OTHER|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
92169799|NCT04310735|184228344|OTHER|Independent-samples t-tests were conducted to compare the mean contrast of parameter estimate (COPE) values, derived from the contrast of smoking-related versus neutral cue activation, between the Expect-Yes and Expect-No groups in the ventromedial prefrontal cortex region of interest.||||||0.13||||||Statistical significance was defined a priori as p\<0.05.|t-test, 2 sided|||The null hypothesis was that there is no difference in the population means of the two groups.||||0.13
92169800|NCT04310735|184228344|OTHER|Independent-samples t-tests were conducted to compare the mean contrast of parameter estimate (COPE) values, derived from the contrast of smoking-related versus neutral cue activation, between the Expect-Yes and Expect-No groups in the dorsal anterior cingulate cortex region of interest.||||||0.25||||||Statistical significance was defined a priori as p\<0.05.|t-test, 2 sided|||The null hypothesis was that there is no difference in the population means of the two groups.||||.25
92169801|NCT04310735|184228345|OTHER|Independent-samples t-tests were conducted to compare mean valence values during smoking-related cues between the Expect-Yes and Expect-No groups.||||||0.8|||||||t-test, 2 sided|Statistical significance was defined a priori as p\<0.05.||The null hypothesis was that there is no difference in the population means of the two groups.||||.80
92417831|NCT00246571|184723454|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.814|TWO_SIDED|95.0|0.27|1.98||The stratified analysis was from Cochran-Mantel-Haenszel (CMH) test stratified by randomization stratification factor, the number of prior chemotherapy regimens (1 versus more than 1), which is from IVRS.|Cochran-Mantel-Haenszel|||Investigator's assessment||1.98|0.27|0.8140
92417832|NCT00246571|184723457|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1599||||0.8394|TWO_SIDED|95.0|0.8648|1.5558||One-sided log rank test stratified for the number of prior chemotherapy regimens (1 versus more than 1), which is from IVRS.|Log Rank||Hazard ratio for sunitinib versus standard of care.|||1.5558|0.8648|0.8394
92417833|NCT00775203|184723473|SUPERIORITY_OR_OTHER|||||||0.0119|||||||ANCOVA|ANCOVA with treatment and study center as categorical factors and HAMD-17 baseline as covariate.||The primary null hypothesis for the HAMD-17 total score is that there is no difference between the Trazodone Contramid® OAD group and the placebo group at Week 8. A sample size of 133 in each group will have 90% power to detect a difference in the absolute mean Hamilton Rating Scale for Depression (HAMD-17) change from baseline of 3.0 units assuming that the common standard deviation is 7.5 using a two-group t-test with a 0.05 two-sided significance level.||||0.0119
92417834|NCT04251156|184723501|SUPERIORITY|Responses were analysed using an analysis of covariance model with randomized treatment and type 2 diabetes status as factors and baseline body weight as covariate.|Treatment difference|-8.47|||<|0.0001|TWO_SIDED|95.0|-10.17|-6.76|||ANCOVA|||Treatment policy estimand||-6.76|-10.17|<0.0001
92417835|NCT04251156|184723502|SUPERIORITY|Responses were analysed using a binary logistic regression model with randomized treatment and type 2 diabetes status as factors and baseline body weight as covariate.|Odds Ratio (OR)|13.07|||<|0.0001|TWO_SIDED|95.0|7.4|23.1|||Regression, Logistic|||Treatment policy estimand||23.10|7.40|<0.0001
92417836|NCT02397564|184723549|SUPERIORITY_OR_OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||||||0.019
92417837|NCT01848782|184723562|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.5|TWO_SIDED|95.0|-0.4|0.7|||Mixed Models Analysis|||||0.7|-0.4|0.5
92417838|NCT01848782|184723563|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.8|TWO_SIDED|95.0|-0.5|0.6|||Mixed Models Analysis|||||0.6|-0.5|0.8
92417839|NCT01848782|184723564|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.6|TWO_SIDED|95.0|-0.4|0.7|||Mixed Models Analysis|||||0.7|-0.4|0.6
92417840|NCT01848782|184723565|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.8|TWO_SIDED|95.0|-0.6|0.5|||Mixed Models Analysis|||||0.5|-0.6|0.8
92417841|NCT01848782|184723566|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.2|TWO_SIDED|95.0|-1.0|0.2|||Mixed Models Analysis|||||0.2|-1.0|0.2
92169802|NCT04310735|184228345|OTHER|Independent-samples t-tests were conducted to compare mean valence values during neutral cues between the Expect-Yes and Expect-No groups.||||||0.87||||||Statistical significance was defined a priori as p\<0.05.|t-test, 2 sided|||The null hypothesis was that there is no difference in the population means of the two groups.||||.87
92417842|NCT00461331|184723567|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|96.4|STANDARD_DEVIATION|8.5||0.52||95.0|87.9|100.0|||Regression, Linear|7 patients underwent early termination of either one or both of their test period due to loss of glycemic control||Glucose levels for patients when they were on each insulin were analyzed. All data was analyzed on an intention to treat basis. Repeated measures, paired t-test and Pearson's correlation on SPSS 14.0 for windows and statistical R-package were used to compare the various variables. This was a pilot study.||100.0|87.9|0.52
92417843|NCT00461331|184723568|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.35|STANDARD_DEVIATION|4.165||0.15||95.0|0.97|9.23|||Regression, Linear||This was between days 3 and 5 after the last pump infusion line change using Insulin Aspart and Insulin Lispro. Adequate samples were not available to do the analysis for day 2.|All data was analyzed on an intention to treat basis. Repeated measures, paired t-test and Pearson's correlation on SPSS 14.0 for windows and statistical R-package were used to compare the various variables.||9.23|0.97|0.15
92417844|NCT00461331|184723569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.7|STANDARD_DEVIATION|2.35||0.55||95.0|4.4|9.4|||Regression, Linear||This was for test period 1 between days 3 and 5 after the last pump infusion line change.|All data was analyzed on an intention to treat basis. Repeated measures, paired t-test and Pearson's correlation on SPSS 14.0 for windows and statistical R-package were used to compare the various variables.||9.4|4.4|0.55
92417845|NCT01155479|184723570|SUPERIORITY_OR_OTHER||Difference in Estimated Means|2.6||||0.0033|TWO_SIDED|95.0|0.86|4.3|||constrained longitudinal analysis|||Preladenant 2 mg (Part 1) vs Placebo (Part 1)||4.30|0.86|0.0033
92169803|NCT03012841|184228353|SUPERIORITY|The formal alternative hypothesis test for the primary effectiveness objective was that the Kaplan-Meier estimator of treatment success at 12 months (365 days) was greater than 40%, against the null hypothesis that it was less than or equal to 40%.|Kaplan-Meier (product-limit) estimator|54.8|||<|0.001|TWO_SIDED|95.0|46.7|62.1|||Exact binomial|Exact binomial p-value is shown, but the confidence intervals reported are calculated from Greenwood's approximation of the standard error.||||62.1|46.7|<0.001
92280544|NCT00601484|184463649|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.449|||TWO_SIDED|90.0|-1.443|0.156||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.156|-1.443|
92417846|NCT01155479|184723570|SUPERIORITY_OR_OTHER||Difference in Estimated Means|1.3||||0.1382|TWO_SIDED|95.0|-0.41|2.94|||constrained longitudinal analysis|||Preladenant 5 mg (Part 1) vs Placebo (Part 1)||2.94|-0.41|0.1382
92417847|NCT01155479|184723570|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.4||||0.6378|TWO_SIDED|95.0|-1.29|2.11|||constrained longitudinal analysis|||Preladenant 10 mg (Part 1) vs Placebo (Part 1)||2.11|-1.29|0.6378
92417848|NCT01155479|184723570|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.3||||0.6923|TWO_SIDED|95.0|-1.35|2.03|||constrained longitudinal analysis|||Rasagiline (Part 1) vs Placebo (Part 1)||2.03|-1.35|0.6923
92417849|NCT01155479|184723571|SUPERIORITY_OR_OTHER||Difference vs Placebo (%)|-9.7||||0.0785|TWO_SIDED|95.0|-21.0|1.82||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline UPDRS2+3 as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|generalized linear mixed model|||Preladenant 2 mg (Part 1) vs Placebo (Part 1)||1.82|-21.0|0.0785
92169804|NCT03012841|184228354|SUPERIORITY|The formal alternative hypothesis tested for the primary safety objective was that the Kaplan-Meier estimator of the proportion of subjects with primary safety events at 12 months (365 days) was less than 13%, against the null hypothesis that it was greater than or equal to 13%.|Kaplan-Meier (product-limit) estimator|0.6||||0.002|TWO_SIDED|95.0|0.1|4.4|||Exact binomial|Exact binomial p-value is shown, but the confidence intervals reported are calculated from Greenwood's approximation of the standard error.||||4.4|0.1|0.002
92169805|NCT03012841|184228355|SUPERIORITY||Mean Difference (Net)|25.8|||<|0.001|TWO_SIDED|95.0|22.1|29.5||A Hommel multiple testing procedure was utilized to maintain overall alpha of 0.025 for the 3 hypotheses tested for the secondary objective.|t-test, 1 sided|||The formal alternative hypothesis tested was that the mean 12-month change in AFEQT composite scores was greater than 0, against the null the hypothesis that it was equal to 0.||29.5|22.1|<0.001
92388181|NCT00620113|184677926|SUPERIORITY_OR_OTHER||Difference in LS Means|4.66|||<|0.001|TWO_SIDED|95.0|3.18|6.14||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||6.14|3.18|<0.001
92388182|NCT00620113|184677926|SUPERIORITY_OR_OTHER||Difference in LS Means|3.84|||<|0.001|TWO_SIDED|95.0|2.37|5.3||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||5.30|2.37|<0.001
92388183|NCT00620113|184677926|SUPERIORITY_OR_OTHER||Difference in LS Means|2.43||||0.002|TWO_SIDED|95.0|0.99|3.88||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||3.88|0.99|0.002
92417850|NCT01155479|184723571|SUPERIORITY_OR_OTHER||Difference vs Placebo (%)|-6.3||||0.2735|TWO_SIDED|95.0|-17.6|5.05||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline UPDRS2+3 as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|generalized linear mixed model|||Preladenant 5 mg (Part 1) vs Placebo (Part 1)||5.05|-17.6|0.2735
92417851|NCT01155479|184723571|SUPERIORITY_OR_OTHER||Difference vs Placebo (%)|-3.7||||0.4823|TWO_SIDED|95.0|-15.2|7.99||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline UPDRS2+3 as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|generalized linear mixed model|||Preladenant 10 mg (Part 1) vs Placebo (Part 1)||7.99|-15.2|0.4823
92417852|NCT01155479|184723571|SUPERIORITY_OR_OTHER||Difference vs Placebo (%)|-2.3||||0.6827|TWO_SIDED|95.0|-13.9|9.24||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline UPDRS2+3 as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|generalized linear mixed model|||Rasagiline (Part 1) vs Placebo (Part 1)||9.24|-13.9|0.6827
92417853|NCT01155479|184723572|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.7||||0.0235|TWO_SIDED|95.0|0.09|1.27|||constrained longitudinal analysis|||Preladenant 2 mg (Part 1) vs Placebo (Part 1)||1.27|0.09|0.0235
92417854|NCT01155479|184723572|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.5||||0.1093|TWO_SIDED|95.0|-0.11|1.04|||constrained longitudinal analysis|||Preladenant 5 mg (Part 1) vs Placebo (Part 1)||1.04|-0.11|0.1093
92417855|NCT01155479|184723572|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.2||||0.5756|TWO_SIDED|95.0|-0.42|0.75|||constrained longitudinal analysis|||Preladenant 10 mg (Part 1) vs Placebo (Part 1)||0.75|-0.42|0.5756
92417856|NCT01155479|184723572|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.1||||0.6657|TWO_SIDED|95.0|-0.45|0.7|||constrained longitudinal analysis|||Rasagiline (Part 1) vs Placebo (Part 1)||0.70|-0.45|0.6657
92417857|NCT01933789|184723590|SUPERIORITY||Probit regression coefficient|1.145|||<|0.001|TWO_SIDED|95.0|0.844|1.446||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Bivariate model; there were no confounders.|Control group coded 0; intervention group coded 1.|||1.446|0.844|<0.001
92417858|NCT01933789|184723591|SUPERIORITY||Probit regression coefficient|1.251|||<|0.001|TWO_SIDED|95.0|0.92|1.583||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Bivariate model; there were no confounders.|Control group coded 0; intervention group coded 1.|||1.583|0.920|<0.001
92417859|NCT01933789|184723592|SUPERIORITY||Probit regression coefficient|1.381|||<|0.001|TWO_SIDED|95.0|1.046|1.715||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Bivariate model; there were no confounders.|Control group coded 0; intervention group coded 1.|||1.715|1.046|<0.001
92169806|NCT03012841|184228356|SUPERIORITY||Mean Difference (Net)|5.0|||<|0.001|TWO_SIDED|95.0|3.5|6.5||A Hommel multiple testing procedure was utilized to maintain overall alpha of 0.025 for the 3 hypotheses tested for the secondary objective.|t-test, 1 sided|||The formal alternative hypothesis tested was that the mean 12-month change in SF-12 physical composite scores was greater than 0, against the null the hypothesis that it was equal to 0.||6.5|3.5|<0.001
92235125|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|20.8|||||TWO_SIDED|95.0|12.59|34.24|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||34.24|12.59|
92417860|NCT01933789|184723594|SUPERIORITY||Probit regression coefficient|0.334||||0.073|TWO_SIDED|95.0|-0.031|0.699||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for the patient's treatment preference (focus on life extension vs. comfort care).|Control group coded 0; intervention group coded 1.|Occurrence of goal-concordant care||0.699|-0.031|0.073
92235126|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|21.4|||||TWO_SIDED|95.0|14.56|31.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||31.46|14.56|
92388184|NCT00620113|184677927|SUPERIORITY_OR_OTHER||Difference in LS Means|-50.64|||<|0.001|TWO_SIDED|95.0|-66.43|-34.84||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-34.84|-66.43|<0.001
92388185|NCT00620113|184677927|SUPERIORITY_OR_OTHER||Difference in LS Means|-44.32|||<|0.001|TWO_SIDED|95.0|-60.42|-28.21||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-28.21|-60.42|<0.001
92388186|NCT00620113|184677927|SUPERIORITY_OR_OTHER||Difference in LS Means|-35.75|||<|0.001|TWO_SIDED|95.0|-52.33|-19.16||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-19.16|-52.33|<0.001
92388187|NCT00620113|184677928|SUPERIORITY_OR_OTHER||Difference in LS Means|-60.42|||<|0.001|TWO_SIDED|95.0|-85.7|-35.13||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-35.13|-85.70|<0.001
92417861|NCT01933789|184723595|SUPERIORITY||Probit regression coefficient|0.481||||0.017|TWO_SIDED|95.0|0.085|0.877||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for the patient's treatment preference (focus on life extension vs. comfort care).|Control group coded 0; intervention group coded 1.|||0.877|0.085|0.017
92417862|NCT01933789|184723596|SUPERIORITY||Probit regression coefficient|2.022||||0.01|TWO_SIDED|95.0|0.476|3.569||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for the latent variable as measured at baseline.|Control group coded 0; intervention group coded 1.|||3.569|0.476|0.010
92417863|NCT01933789|184723597|SUPERIORITY||Tobit regression coefficient|2.209||||0.001|TWO_SIDED|95.0|0.939|3.479||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about patient's feelings about getting sicker.~Variable with range 0-11, defined as censored from below because of strong floor effect."||3.479|0.939|0.001
92417864|NCT01933789|184723597|SUPERIORITY||Tobit regression coefficient|1.237||||0.122|TWO_SIDED|95.0|-0.33|2.804||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about details of getting sicker.~Variable with range 0-11, defined as censored from below because of strong floor effect."||2.804|-0.330|0.122
92417865|NCT01933789|184723597|SUPERIORITY||Tobit regression coefficient|2.329||||0.098|TWO_SIDED|95.0|-0.426|5.083||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline and clinician specialty.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about how long the patient might have to live.~Variable with range 0-11, defined as censored from below because of strong floor effect."||5.083|-0.426|0.098
92417866|NCT01933789|184723597|SUPERIORITY||Tobit regression coefficient|1.573||||0.352|TWO_SIDED|95.0|-1.742|4.887||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Pts clustered under clins. Adjusted for outcome variable as measured at baseline: pt. minority status, education, income; clinician type \& specialty.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about what dying might be like.~Variable with range 0-11, defined as censored from below because of strong floor effect."||4.887|-1.742|0.352
92235127|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.1|||||TWO_SIDED|95.0|7.24|17.01|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||17.01|7.24|
92169807|NCT03012841|184228357|SUPERIORITY||Mean Difference (Net)|4.9|||<|0.001|TWO_SIDED|95.0|3.2|6.6||A Hommel multiple testing procedure was utilized to maintain overall alpha of 0.025 for the 3 hypotheses tested for the secondary objective.|t-test, 1 sided|||The formal alternative hypothesis tested was that the mean 12-month change in SF-12 mental composite scores was greater than 0, against the null the hypothesis that it was equal to 0.||6.6|3.2|<0.001
92388188|NCT00620113|184677928|SUPERIORITY_OR_OTHER||Difference in LS Means|-60.7|||<|0.001|TWO_SIDED|95.0|-85.91|-35.49||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-35.49|-85.91|<0.001
92388189|NCT00620113|184677928|SUPERIORITY_OR_OTHER||Difference in LS Means|-38.73|||<|0.001|TWO_SIDED|95.0|-65.94|-11.52||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-11.52|-65.94|<0.001
92388190|NCT00620113|184677929|SUPERIORITY_OR_OTHER||Difference in LS Means|-42.91|||<|0.001|TWO_SIDED|95.0|-65.55|-20.27||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-20.27|-65.55|<0.001
92388191|NCT00620113|184677929|SUPERIORITY_OR_OTHER||Difference in LS Means|-37.45||||0.001|TWO_SIDED|95.0|-60.32|-14.59||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-14.59|-60.32|0.001
92388192|NCT00620113|184677929|SUPERIORITY_OR_OTHER||Difference in LS Means|-26.77||||0.017|TWO_SIDED|95.0|-50.37|-3.16||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-3.16|-50.37|0.017
92388193|NCT00620113|184677930|SUPERIORITY_OR_OTHER||Difference in LS Means|-15.52|||<|0.001|TWO_SIDED|95.0|-25.11|-5.93||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-5.93|-25.11|<0.001
92388194|NCT00620113|184677930|SUPERIORITY_OR_OTHER||Difference in LS Means|-12.55||||0.009|TWO_SIDED|95.0|-22.16|-2.94||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-2.94|-22.16|0.009
92169808|NCT03398200|184228367|SUPERIORITY|||||||0.89|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.89
92169809|NCT03398200|184228368|SUPERIORITY|||||||0.03|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.03
92169810|NCT03398200|184228369|SUPERIORITY|||||||0.35|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.35
92169811|NCT03398200|184228370|SUPERIORITY|||||||0.77|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.77
92169812|NCT03398200|184228371|SUPERIORITY|||||||0.5|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.50
92169813|NCT03398200|184228372|SUPERIORITY|||||||0.76|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.76
92169814|NCT04065048|184228373|OTHER|||||||0.469|||||||t-test, 2 sided|||||||0.469
92169815|NCT04065048|184228374|OTHER|||||||0.0093|||||||ANOVA|||||||0.0093
92169816|NCT04065048|184228376|OTHER|||||||0.2487|||||||Fisher Exact|||||||0.2487
92235128|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|32.2|||||TWO_SIDED|95.0|19.75|52.57|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||52.57|19.75|
92388195|NCT00620113|184677930|SUPERIORITY_OR_OTHER||Difference in LS Means|2.48||||0.598|TWO_SIDED|95.0|-7.79|12.74||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||12.74|-7.79|0.598
92388196|NCT00620113|184677931|SUPERIORITY_OR_OTHER||Difference in LS Means|-26.86|||<|0.001|TWO_SIDED|95.0|-43.3|-10.42||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-10.42|-43.30|<0.001
92388197|NCT00620113|184677931|SUPERIORITY_OR_OTHER||Difference in LS Means|-28.86|||<|0.001|TWO_SIDED|95.0|-44.97|-12.75||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-12.75|-44.97|<0.001
92169817|NCT03397108|184228377|SUPERIORITY|||||||0.89||||||The a priori threshold of significance was set at 0.05. Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk TNF levels at EARLY LACTATION PERIOD were compared between non-IBD control and women with IBD. Our hypothesis was that women with IBD have higher TNF in milk due to the underlying inflammatory condition (IBD).||||0.89
92169818|NCT03397108|184228377|SUPERIORITY|||||||0.024|||||||Kruskal-Wallis|||"Milk TNF at the EARLY LACTATION PERIOD was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. We hypothesized that the use of TNFmAb decreases milk TNF. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.024
92169819|NCT03397108|184228377|SUPERIORITY|||||||0.7||||||The a priori threshold of significance was set at 0.05. Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk MCP1 levels (TNF dependent chemokine) at the EARLY LACTATION PERIOD were compared between non-IBD control and IBD group to see if there is a difference.||||0.70
92169820|NCT03397108|184228377|SUPERIORITY|||||||0.93||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk levels of MIP-1 beta (TNF dependent chemokine) at the EARLY LACTATION PERIOD were compared between non-IBD control and IBD group to see if there is a difference.||||0.93
92169821|NCT03397108|184228377|SUPERIORITY|||||||0.12||||||The a priori threshold of significance was set at 0.05. Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk IP10 levels (one of the TNF dependent chemokines) at EARLY LACTATION PERIOD were compared between non-IBD control and IBD group to see if there is a difference.||||0.12
92169822|NCT03397108|184228377|SUPERIORITY|||||||0.12|||||||Kruskal-Wallis|||Milk levels of TNF-dependent chemokine, MCP1, at the EARLY LACTATION PERIOD was compared among the 3 groups: non-IBD control and the 2 IBD subgroups. We hypothesized that the use of TNFmAb decreases milk TNF and TNF-dependent chemokine including MCP1. Nonparametric comparison of the 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test.||||0.12
92235129|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|47.2|||||TWO_SIDED|95.0|34.0|65.43|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||65.43|34.00|
92388198|NCT00620113|184677931|SUPERIORITY_OR_OTHER||Difference in LS Means|-5.61||||0.458|TWO_SIDED|95.0|-23.79|12.56||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||12.56|-23.79|0.458
92388199|NCT00042991|184677936|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92388200|NCT00042991|184677937|SUPERIORITY_OR_OTHER|||||||0.0546||95.0|||||Wilcoxon (Mann-Whitney)|||19 patients had Enhancing tumor at both Baseline and Post-RT time points. Thus, the following test was based on these 19 patients.||||0.0546
92388201|NCT00042991|184677938|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92388202|NCT00042991|184677939|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.18
92388203|NCT04072887|184677956|SUPERIORITY||Least Squares Mean Difference|0.011|STANDARD_ERROR_OF_MEAN|0.0235||0.628|TWO_SIDED|90.0|-0.027|0.05|||ANCOVA|||||0.050|-0.027|0.628
92388204|NCT04072887|184677956|SUPERIORITY||Least Squares Mean Difference|0.012|STANDARD_ERROR_OF_MEAN|0.0144||0.425|TWO_SIDED|90.0|-0.012|0.035|||ANCOVA|||||0.035|-0.012|0.425
92388205|NCT04072887|184677956|SUPERIORITY||Least Squares Mean Difference|0.013|STANDARD_ERROR_OF_MEAN|0.0174||0.463|TWO_SIDED|90.0|-0.016|0.041|||ANCOVA|||||0.041|-0.016|0.463
92388206|NCT04072887|184677956|SUPERIORITY||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.0173||0.244|TWO_SIDED|90.0|-0.008|0.049|||ANCOVA|||||0.049|-0.008|0.244
92388207|NCT04072887|184677956|SUPERIORITY||Least Squares Mean Difference|0.005|STANDARD_ERROR_OF_MEAN|0.0176||0.793|TWO_SIDED|90.0|-0.024|0.034|||ANCOVA|||||0.034|-0.024|0.793
92388208|NCT03334812|184678009|SUPERIORITY||Mean Difference (Net)|0.18||||0.1219|TWO_SIDED|95.0|-0.15|0.51|||Mixed Effect Model Repeat Measurement|||SCD/HNWB||0.51|-0.15|0.1219
92388209|NCT03334812|184678009|SUPERIORITY||Mean Difference (Net)|-0.01||||0.5438|TWO_SIDED|95.0|-0.28|0.25|||Mixed Effect Model Repeat Measurement|||DTBT/HWB||0.25|-0.28|0.5438
92388210|NCT03334812|184678010|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.3067|TWO_SIDED|95.0|-0.19|0.31|||Mixed Effect Model Repeat Measurement|||||0.31|-0.19|0.3067
92388211|NCT03334812|184678012|SUPERIORITY||Mean Difference (Net)|26.23||||0.0404|TWO_SIDED|95.0|-3.86|56.32|||Mixed Effect Model Repeat Measurement|||Week 4||56.32|-3.86|0.0404
92388212|NCT03334812|184678012|SUPERIORITY||Mean Difference (Net)|27.82||||0.1381|TWO_SIDED|95.0|-26.5|82.1|||Mixed Effect Model Repeat Measurement|||Week 12||82.10|-26.5|0.1381
92417867|NCT01933789|184723597|SUPERIORITY||Tobit regression coefficient|4.625|||<|0.001|TWO_SIDED|95.0|2.06|7.19||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about patient's involvement in end-of-life treatment decisions.~Variable with range 0-11, defined as censored from below because of strong floor effect."||7.190|2.060|<0.001
92388213|NCT03334812|184678012|SUPERIORITY||Mean Difference (Net)|23.8||||0.1168|TWO_SIDED|96.0|-19.3|66.89|||Mixed Models Analysis|||Week 28 (EOS)||66.89|-19.3|0.1168
92388214|NCT03334812|184678013|SUPERIORITY||Mean Difference (Net)|-0.01||||0.5175|TWO_SIDED|95.0|-0.26|0.25|||Mixed Effect Model Repeat Measurement|||SCD/HNWB - Week 12||0.25|-0.26|0.5175
92388215|NCT03334812|184678013|SUPERIORITY||Mean Difference (Net)|0.19||||0.1476|TWO_SIDED|95.0|-0.22|0.6|||Mixed Effect Model Repeat Measurement|||SCD/HNWB - Week 28||0.60|-0.22|0.1476
92388216|NCT01153724|184678018|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|113.29|STANDARD_DEVIATION|13.6||0.0101|TWO_SIDED|90.0|105.893|121.197||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol||121.197|105.893|0.0101
92388217|NCT01153724|184678019|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|108.78|STANDARD_DEVIATION|15.5||0.0009|TWO_SIDED|90.0|101.59|116.487||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol for the category Olodaterol||116.487|101.590|0.0009
92388218|NCT01153724|184678019|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean|85.98|STANDARD_DEVIATION|19.4||0.0711|TWO_SIDED|90.0|79.277|93.253||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol for the category Olodaterol glucuronide||93.253|79.277|0.0711
92388219|NCT01153724|184678022|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|114.83|STANDARD_DEVIATION|33.5||0.1539|TWO_SIDED|90.0|99.94|131.932||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol for the category Olodaterol||131.932|99.940|0.1539
92388220|NCT01153724|184678022|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|74.48|STANDARD_DEVIATION|1.068||0.8574|TWO_SIDED|90.0|66.619|83.266||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol for the category Olodaterol glucuronide||83.266|66.619|0.8574
92388221|NCT01153724|184678023|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|74.08|STANDARD_DEVIATION|14.6||0.9646|TWO_SIDED|90.0|69.105|79.418||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol||79.418|69.105|0.9646
92388222|NCT02508428|184678026|EQUIVALENCE|Differences in survivorship among the Marathon and Enduron liners were evaluated with a Log Rank test.|||||<|0.001||||||A p-value of 0.05 was used as the threshold for statistical significance.|Log Rank|||Survivorship was evaluated using liner revision for wear/osteolysis as an endpoint using a Kaplan-Meier analysis.||||<0.001
92388223|NCT02508428|184678027|EQUIVALENCE|"Since the null hypothesis assumed that the wear rates were not different, Equivalence has been specified for the Type of Statistical Test"|Mean Difference (Net)|0.22|||<|0.001|TWO_SIDED|95.0|0.17|0.27||A p-value of 0.05 was used as the threshold for statistical significance.|t-test, 2 sided|||||0.27|0.17|<0.001
92417868|NCT01933789|184723597|SUPERIORITY||Tobit regression coefficient|2.404||||0.002|TWO_SIDED|95.0|0.898|3.909||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about things in life that are important to the patient.~Variable with range 0-11, defined as censored from below because of strong floor effect."||3.909|0.898|0.002
92417869|NCT01933789|184723597|SUPERIORITY||Tobit regression coefficient|2.455||||0.075|TWO_SIDED|95.0|-0.25|5.159||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline and clinician type.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about patient's religious/spiritual beliefs.~Variable with range 0-11, defined as censored from below because of strong floor effect."||5.159|-0.250|0.075
92169823|NCT03397108|184228377|SUPERIORITY|||||||0.051|||||||Kruskal-Wallis|||"Milk MIP-1beta at the EARLY LACTATION PERIOD was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. We hypothesized that the use of TNFmAb decreases milk TNF and TNF-dependent chemokine including MIP-1beta. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.051
92169824|NCT03397108|184228377|SUPERIORITY|||||||0.0046|||||||Kruskal-Wallis|||"Milk IP10 at the EARLY LACTATION PERIOD was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. We hypothesized that the use of TNFmAb decreases milk TNF and TNF-dependent chemokine including IP10. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.0046
92169825|NCT03397108|184228377|SUPERIORITY|||||||0.35||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Comparison of milk TNF level at the MID LACTATION POINT between non-IBD control and IBD group. The same analytical framework as the early lactation, but this is based on data at the mid-lactation point (13-14 postpartum weeks). Our hypothesis is the same as for the early-lactation point.||||0.35
92169826|NCT03397108|184228377|SUPERIORITY|||||||0.11|||||||Kruskal-Wallis|||"Milk TNF at MID LACTATION POINT was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. Hypothesis is the same as for the early lactation point. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.11
92169827|NCT03397108|184228377|SUPERIORITY|||||||0.26||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk MCP1 level comparison between non-IBD control and IBD group at the MID LACTATION POINT(13-14 postpartum weeks). Our hypothesis is the same as for the early-lactation point.||||0.26
92388224|NCT02508428|184678028|EQUIVALENCE|"Since the null hypothesis assumed that the incidences of clinically important osteolysis were not different, Equivalence has been specified for the Type of Statistical Test"|Risk Ratio (RR)|0.04|||<|0.001|TWO_SIDED|95.0|0.006|0.3||A p-value of 0.05 was used as the threshold for statistical significance.|Fisher Exact|||||0.30|0.006|<0.001
92388225|NCT02508428|184678029|EQUIVALENCE|"Since the null hypothesis assumed that the rate of satisfaction among the groups were not different, Equivalence has been specified for the Type of Statistical Test"||||||0.48||||||A p-value of 0.05 was used as the threshold for statistical significance.|Fisher Exact|||Since there were no patients with Marathon liners who were unsatisfied with the outcome of their hip replacement, a relative risk and the associated confidence interval could not be calculated.||||0.48
92388226|NCT02508428|184678030|EQUIVALENCE|"Since the null hypothesis assumed that the Harris Hip Scores among the groups were not different, Equivalence has been specified for the Type of Statistical Test"||||||0.4||||||A p-value of 0.05 was used as the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||.40
92417870|NCT01933789|184723598|SUPERIORITY||Probit regression coefficient|-0.103||||0.369|TWO_SIDED|95.0|-0.327|0.122||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for baseline level of the latent depression variable and for the patient racial/ethnic minority status.|Control group coded 0; intervention group coded 1.|Symptoms of depression - Two-indicator latent variable with measurement invariance imposed between groups and over time.||0.122|-0.327|0.369
92169828|NCT03397108|184228377|SUPERIORITY|||||||0.15||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk MIP-1beta level comparison between non-IBD control and IBD group at the MID LACTATION POINT (13-14 postpartum weeks). Our hypothesis is the same as for the early-lactation point.||||0.15
92388227|NCT01979133|184678031|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||.012
92388228|NCT01979133|184678032|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.005
92388229|NCT01979133|184678033|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.017
92388230|NCT01979133|184678034|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.038
92417871|NCT01933789|184723599|SUPERIORITY||Probit regression coefficient|0.263||||0.536|TWO_SIDED|95.0|-0.571|1.097||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered robust linear regression|Patients clustered under clinicians. Adjusted for baseline level of the PHQ-8 composite score.|Control group coded 0; intervention group coded 1.|Symptoms of depression: standard PHQ-8 composite score.||1.097|-0.571|0.536
92388231|NCT01979133|184678035|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.034
92388232|NCT01979133|184678036|SUPERIORITY_OR_OTHER|||||||0.231|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.231
92388233|NCT01979133|184678037|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.066
92388234|NCT00486824|184678038|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
92388235|NCT04371666|184678065|OTHER||Least square (LS) Mean Difference|0.083|STANDARD_ERROR_OF_MEAN|0.5494||0.8802|TWO_SIDED|95.0|-1.01|1.176||Threshold for significance at 0.05 level.|Random coefficient model|||||1.176|-1.010|0.8802
92169829|NCT03397108|184228377|SUPERIORITY|||||||0.31||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk IP10 level comparison between non-IBD control and IBD group at the MID LACTATION POINT (13-14 postpartum weeks). Our hypothesis is the same as for the early-lactation point.||||0.31
92235130|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|19.4|||||TWO_SIDED|95.0|12.95|29.17|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||29.17|12.95|
92388236|NCT00445770|184678070|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Based on rank transformed data: rank of change = rank baseline+treatment +pooled study center+prior methotrexate use. If overall treatment effect statistically significant, 3 pairwise comparisons conducted, otherwise no further testing was made.|ANCOVA|||It was estimated that with 180 participants per group, there would be 81% power for the overall test. With this sample size and 0.05 (2-sided) type I error, there was 88% power to detect a 1.33 difference for the change of mTSS from baseline to 52 weeks between the etanercept 25 mg twice weekly group and Methotrexate group, assuming that the common standard deviation of the change of mTSS from baseline was 4.||||<0.0001
92388237|NCT00445770|184678070|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||||||<0.0001
92388238|NCT00445770|184678070|NON_INFERIORITY_OR_EQUIVALENCE|An outcome showing that etanercept 10 mg was superior to methotrexate and the presence of numerical difference ≤0.5 mTSS units between etanercept 25 mg and etanercept 10 mg would support non-inferiority for the 2 etanercept treatments.||||||0.2634|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||||||0.2634
92388239|NCT00445770|184678071|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||||||<0.0001
92388240|NCT00445770|184678071|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||||||<0.0001
92417872|NCT01933789|184723600|SUPERIORITY||Probit regression coefficient|0.208||||0.106|TWO_SIDED|95.0|-0.044|0.461||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Pts clustered under clins. Adjusted for baseline level of the latent depression var; pt age, minority status, education, health status; clin specialty|Control group coded 0; intervention group coded 1.|Symptoms of depression: Two-indicator latent variable with measurement invariance imposed between groups and over time||0.461|-0.044|0.106
92417873|NCT01933789|184723601|SUPERIORITY||Probit regression coefficient|0.446||||0.343|TWO_SIDED|95.0|-0.476|1.368||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered robust linear regression|Patients clustered under clinicians. Adjusted for baseline level of the PHQ-8 composite score and clinician specialty.|Control group coded 0; intervention group coded 1.|Symptoms of depression: Standard PHQ-8 composite score||1.368|-0.476|0.343
92417874|NCT01933789|184723602|SUPERIORITY||Probit regression coefficient|-0.034||||0.734|TWO_SIDED|95.0|-0.232|0.163||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for baseline level of the latent anxiety variable.|Control group coded 0; intervention group coded 1.|Symptoms of anxiety: Two-indicator latent variable with measurement invariance imposed between groups and over time||0.163|-0.232|0.734
92417875|NCT01933789|184723603|SUPERIORITY||Tobit regression coefficient|0.041||||0.935|TWO_SIDED|95.0|-0.946|1.028||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Pts clustered under clins. Clustered Tobit regression because strong floor effect on composite score. Adjusted for baseline level of composite score.|Control group coded 0; intervention group coded 1.|Symptoms of anxiety: Standard GAD-7 composite score||1.028|-0.946|0.935
92417876|NCT01933789|184723604|SUPERIORITY||Probit regression coefficient|-0.042||||0.689|TWO_SIDED|95.0|-0.247|0.163||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for baseline level of the latent anxiety variable.|Control group coded 0; intervention group coded 1.|Symptoms of anxiety: Two-indicator latent variable with measurement invariance imposed between groups and over time||0.163|-0.247|0.689
92169830|NCT03397108|184228377|SUPERIORITY|||||||0.21|||||||Kruskal-Wallis|||"Milk MCP-1 at the MID LACTATION PERIOD was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. The hypothesis is the same as that for the early-lactation period. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.21
92388241|NCT00445770|184678071|SUPERIORITY_OR_OTHER|||||||0.2248|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||||||0.2248
92388242|NCT00445770|184678072|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||<0.0001
92388243|NCT00445770|184678072|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||<0.0001
92388244|NCT00445770|184678072|SUPERIORITY_OR_OTHER|||||||0.726|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||0.7260
92388245|NCT00445770|184678072|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||<0.0001
92388246|NCT00445770|184678072|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||<0.0001
92388247|NCT00445770|184678072|SUPERIORITY_OR_OTHER|||||||0.5717|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||0.5717
92169831|NCT03397108|184228377|SUPERIORITY|||||||0.12|||||||Kruskal-Wallis|||"Milk MIP-1beta at the MID LACTATION POINT was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. The hypothesis is the same as that for the early-lactation period. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.12
92169832|NCT03397108|184228377|SUPERIORITY|||||||0.29|||||||Kruskal-Wallis|||"Milk IP10 at the MID LACTATION POINT was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. The same hypothesis as that for the early-lactation period. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.29
92417877|NCT01933789|184723605|SUPERIORITY||Tobit regression coefficient|-0.105||||0.852|TWO_SIDED|95.0|-1.204|0.995||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians. Clustered Tobit regression because of strong floor effect on composite score."|Clustered Tobit regression|Adjusted for baseline level of the GAD-7 composite score.|Control group coded 0; intervention group coded 1.|||0.995|-1.204|0.852
92417878|NCT01933789|184723606|SUPERIORITY||probit regression coefficient|-0.221||||0.418|TWO_SIDED|95.0|-0.923|0.482||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|Adjusted for confounding by patient race and health status and by clinician type and specialty|Control group coded 0; intervention group coded 1.|||0.482|-0.923|0.418
92417879|NCT01933789|184723607|SUPERIORITY||probit regression coefficient|0.175||||0.568|TWO_SIDED|95.0|-0.613|0.962||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.962|-0.613|0.568
92388248|NCT00445770|184678073|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||<0.0001
92388249|NCT00445770|184678073|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||0.0013
92388250|NCT00445770|184678073|SUPERIORITY_OR_OTHER|||||||0.0186|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||0.0186
92388251|NCT00445770|184678073|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||<0.0001
92417880|NCT01933789|184723608|SUPERIORITY||probit regression coefficient|0.14||||0.592|TWO_SIDED|95.0|-0.534|0.815||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment|Control group coded 0; intervention group coded 1.|||0.815|-0.534|0.592
92417881|NCT01933789|184723611|SUPERIORITY||probit regression coefficient|-0.179||||0.705|TWO_SIDED|95.0|-1.398|1.04||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment|Control group coded 0; intervention group coded 1.|||1.040|-1.398|0.705
92417882|NCT01933789|184723612|SUPERIORITY||probit regression coefficient|0.123||||0.644|TWO_SIDED|95.0|-0.56|0.805||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment|Control group coded 0; intervention group coded 1.|||0.805|-0.560|0.644
92169833|NCT03397108|184228377|OTHER|Correlation analysis|Spearman rank correlation|0.7232|||<|0.0001|TWO_SIDED|95.0|0.5647|0.8303||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the EARLY LACTATION, we analyzed correlation between milk TNF and chemokine MCP1 to see if they are positively correlated. This is to show supportive evidence for TNF dependency of chemokine MCP1.||0.8303|0.5647|<0.0001
92388252|NCT00445770|184678073|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||0.0006
92388253|NCT00445770|184678073|SUPERIORITY_OR_OTHER|||||||0.1123|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||0.1123
92388254|NCT00445770|184678074|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=0.5||||<0.0001
92388255|NCT00445770|184678074|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=0.5||||0.0002
92388256|NCT00445770|184678074|SUPERIORITY_OR_OTHER|||||||0.3022|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=0.5||||0.3022
92169834|NCT03397108|184228377|OTHER|Correlation analysis|Spearman rank correlation|0.6835|||<|0.0001|TWO_SIDED|95.0|0.5088|0.8042||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the EARLY LACTATION, we analyzed correlation between milk TNF and chemokine MIP-1beta to see if they are positively correlated. This is to show supportive evidence for TNF dependency of chemokine MIP-1beta.||0.8042|0.5088|<0.0001
92388257|NCT00445770|184678074|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=3.0||||0.0001
92388258|NCT00445770|184678074|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=3.0||||0.0002
92388259|NCT00445770|184678074|SUPERIORITY_OR_OTHER|||||||0.312|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=3.0||||0.3120
92388260|NCT00445770|184678074|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use.|Cochran-Mantel-Haenszel|||Week 52 for progression \<=SDD||||0.0010
92388261|NCT00445770|184678074|SUPERIORITY_OR_OTHER|||||||0.0285|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=SDD||||0.0285
92388262|NCT00445770|184678074|SUPERIORITY_OR_OTHER|||||||0.0433|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=SDD||||0.0433
92388263|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.0032|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.0032
92388264|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388265|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.1224|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.1224
92388266|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388267|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388268|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.8037|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.8037
92388269|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388270|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388271|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.5495|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.5495
92388272|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92388273|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92388274|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.4948|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.4948
92388275|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
92388276|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
92388277|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.4663|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.4663
92388278|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
92388279|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
92388280|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.9357|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.9357
92388281|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92388282|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92388283|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.7439|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.7439
92388284|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388285|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388286|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.8611|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.8611
92388287|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388288|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388289|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.6731|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.6731
92388290|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
92388291|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
92388292|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.2616|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.2616
92388293|NCT00445770|184678075|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388294|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0001
92417883|NCT01933789|184723613|SUPERIORITY||probit regression coefficient|-0.165||||0.908|TWO_SIDED|95.0|-3.833|3.503||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|Adjusted for confounding by patient education and health status and by clinician gender.|Control group coded 0; intervention group coded 1.|||3.503|-3.833|0.908
92169835|NCT03397108|184228377|OTHER|Correlation analysis|Spearman rank correlation|0.6316|||<|0.0001|TWO_SIDED|95.0|0.4377|0.7693||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the EARLY LACTATION, we analyzed correlation between milk TNF and chemokine IP10 to see if they are positively correlated. This is to show supportive evidence for TNF dependency of chemokine IP10.||0.7693|0.4377|<0.0001
92388295|NCT00445770|184678075|SUPERIORITY_OR_OTHER|||||||0.1158|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.1158
92388296|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388297|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388298|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.4237|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.4237
92388299|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388300|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.0002
92388301|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.5738|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.5738
92388302|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388303|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388304|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.1606|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.1606
92388305|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92388306|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.0016
92388307|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.2412|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.2412
92388308|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
92388309|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
92388310|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.5882|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.5882
92388311|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
92388312|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0001
92388313|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.2257|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.2257
92388314|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92388315|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.0003
92388316|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.2075|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.2075
92388317|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388318|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0050
92388319|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.0461|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0461
92388320|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0002
92388321|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.0101|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0101
92388322|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.2351|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.2351
92388323|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0002
92388324|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.1179|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.1179
92388325|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.0214|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0214
92388326|NCT00445770|184678076|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388327|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0790
92388328|NCT00445770|184678076|SUPERIORITY_OR_OTHER|||||||0.0168|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0168
92417884|NCT01933789|184723614|SUPERIORITY||probit regression coefficient|-0.121||||0.552|TWO_SIDED|95.0|-0.646|0.403||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.403|-0.646|0.552
92417885|NCT01933789|184723615|SUPERIORITY||probit regression coefficient|-0.293||||0.372|TWO_SIDED|95.0|-1.139|0.553||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.553|-1.139|0.372
92417886|NCT01933789|184723616|SUPERIORITY||probit regression coefficient|-0.13||||0.501|TWO_SIDED|95.0|-0.63|0.369||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.369|-0.630|0.501
92417887|NCT01933789|184723617|SUPERIORITY||probit regression coefficient|-0.39||||0.192|TWO_SIDED|95.0|-1.16|0.38||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.380|-1.160|0.192
92417888|NCT01933789|184723618|SUPERIORITY||probit regression coefficient|-0.014||||0.94|TWO_SIDED|95.0|-0.489|0.461||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.461|-0.489|0.940
92417889|NCT01933789|184723619|SUPERIORITY||probit regression coefficient|-0.229||||0.47|TWO_SIDED|95.0|-1.044|0.587||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.587|-1.044|0.470
92417890|NCT01933789|184723620|SUPERIORITY||probit regression coefficient|-0.01||||0.955|TWO_SIDED|95.0|-0.474|0.454||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.454|-0.474|0.955
92417891|NCT01933789|184723621|SUPERIORITY||probit regression coefficient|-0.287||||0.303|TWO_SIDED|95.0|-1.005|0.431||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.431|-1.005|0.303
92417892|NCT03102190|184723642|OTHER||||||||||||||||||The analysis of the safety endpoints will be presented with means and standard deviations of their occurrence within the study population. The safety of the drug will be determined by analyzing the rate of adverse events in both phases of the trial. An occurrence of 10% within the study population will be considered significant.|||
92417893|NCT03036800|184723689|SUPERIORITY||Odds Ratio (OR)|5.19|||<|0.001|TWO_SIDED|95.0|2.09|12.88|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||12.88|2.09|<0.001
92417894|NCT03036800|184723690|SUPERIORITY||Odds Ratio (OR)|5.94|||<|0.001|TWO_SIDED|95.0|2.45|14.4|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||14.4|2.45|<0.001
92388329|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388330|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388331|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.6337|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.6337
92417895|NCT03036800|184723691|SUPERIORITY||Odds Ratio (OR)|5.04||||0.002|TWO_SIDED|95.0|1.81|14.01|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||14.01|1.81|0.002
92388332|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388333|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388334|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.7407|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.7407
92388335|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388336|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388337|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.3473|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.3473
92388338|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92388339|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92388340|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.7529|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.7529
92388341|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
92388342|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
92388343|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.5216|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.5216
92388344|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
92388345|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
92388346|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.1078|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.1078
92388347|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92388348|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92388349|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.128|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.1280
92388350|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388351|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388352|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.0291|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0291
92388353|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388354|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388355|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.0729|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0729
92388356|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
92417896|NCT03036800|184723692|SUPERIORITY||Odds Ratio (OR)|5.24||||0.002|TWO_SIDED|95.0|1.88|14.64|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||14.64|1.88|0.002
92388357|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
92388358|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.0271|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0271
92388359|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388360|NCT00445770|184678077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388361|NCT00445770|184678077|SUPERIORITY_OR_OTHER|||||||0.0453|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0453
92388362|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388363|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388364|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.7488|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.7488
92388365|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388366|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388367|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.568|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.5680
92388368|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92169836|NCT03397108|184228377|OTHER|Correlation analysis|Spearman rank correlation|0.572|||<|0.0001|TWO_SIDED|95.0|0.3445|0.736||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the MID LACTATION POINT, we analyzed correlation between milk TNF and MCP1 to see of they are positively correlated.||0.7360|0.3445|<0.0001
92388369|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388370|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.9241|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.9241
92388371|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92388372|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92388373|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.7146|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.7146
92388374|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
92388375|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0001
92388376|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.6574|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.6574
92388377|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
92388378|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0004
92388379|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.2936|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.2936
92388380|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92388381|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.0005
92388382|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.2179|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.2179
92388383|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388384|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388385|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.3704|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.3704
92388386|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388387|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388388|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.8047|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.8047
92388389|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
92388390|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
92388391|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.5277|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.5277
92388392|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388393|NCT00445770|184678078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388394|NCT00445770|184678078|SUPERIORITY_OR_OTHER|||||||0.9371|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.9371
92388395|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0027|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.0027
92388396|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.0015
92388397|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.8875|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.8875
92388398|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.0015
92388399|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0011|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.0011
92388400|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.9694|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.9694
92417897|NCT03036800|184723709|SUPERIORITY||Odds Ratio (OR)|10.12|||<|0.001|TWO_SIDED|95.0|5.26|19.48|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥5% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||19.48|5.26|<0.001
92388401|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.0020
92388402|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.0005
92388403|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.7271|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.7271
92388404|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0235|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.0235
92388405|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0061|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.0061
92388406|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.6427|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.6427
92388407|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0036|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0036
92388408|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0029
92388409|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.9713|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.9713
92388410|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0060
92388411|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0060
92388412|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.9762|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.9762
92388413|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0554|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.0554
92388414|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0181|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.0181
92388415|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.6642|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.6642
92388416|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0073|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0073
92388417|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0290
92388418|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.5919|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.5919
92417898|NCT03036800|184723710|SUPERIORITY||Odds Ratio (OR)|5.17|||<|0.001|TWO_SIDED|95.0|2.86|9.36|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥5% from baseline at 32 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||9.36|2.86|<0.001
92417899|NCT03036800|184723711|SUPERIORITY||Odds Ratio (OR)|4.16|||<|0.001|TWO_SIDED|95.0|2.39|7.22|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥5% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||7.22|2.39|<0.001
92417900|NCT03036800|184723712|SUPERIORITY||Odds Ratio (OR)|2.44||||0.01|TWO_SIDED|95.0|1.23|4.84|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥5% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||4.84|1.23|0.010
92417901|NCT03036800|184723713|SUPERIORITY||Odds Ratio (OR)|5.14|||<|0.001|TWO_SIDED|95.0|2.14|12.39|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||12.39|2.14|<0.001
92388419|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0371|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0371
92388420|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0346|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0346
92388421|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.9955|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.9955
92388422|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0187|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0187
92388423|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0645|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0645
92169837|NCT03397108|184228377|OTHER|Correlation analysis|Spearman rank correlation|0.7564|||<|0.0001|TWO_SIDED|95.0|0.6022|0.8562||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the MID LACTATION POINT, we analyzed correlation between milk TNF and MIP-1beta to see of they are positively correlated.||0.8562|0.6022|<0.0001
92235131|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.8|||||TWO_SIDED|95.0|7.79|21.13|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||21.13|7.79|
92235132|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.6|||||TWO_SIDED|95.0|8.56|18.68|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||18.68|8.56|
92235133|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.8|||||TWO_SIDED|95.0|4.54|10.1|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||10.10|4.54|
92235134|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.8|||||TWO_SIDED|95.0|8.16|20.02|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||20.02|8.16|
92388424|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.592|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.5920
92388425|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.0095|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0095
92388426|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.2112|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.2112
92388427|NCT00445770|184678079|SUPERIORITY_OR_OTHER|||||||0.1649|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.1649
92388428|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388429|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388430|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.8972|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.8972
92388431|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388432|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388433|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.3736|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.3736
92388434|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388435|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388436|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.9324|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.9324
92388437|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92388438|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92388439|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.8982|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.8982
92388440|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
92388441|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0007
92388442|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.318|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.3180
92388443|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
92388444|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.0011|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0011
92388445|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.3302|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.3302
92388446|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92388447|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.0002
92388448|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.6563|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.6563
92388449|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92235135|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.5|||||TWO_SIDED|95.0|8.15|16.23|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.23|8.15|
92235136|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.0|||||TWO_SIDED|95.0|5.75|11.25|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||11.25|5.75|
92235137|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|20.0|||||TWO_SIDED|95.0|12.99|30.76|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||30.76|12.99|
92235138|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|22.3|||||TWO_SIDED|95.0|16.5|30.06|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||30.06|16.50|
92235139|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|9.8|||||TWO_SIDED|95.0|7.07|13.63|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||13.63|7.07|
92388450|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388451|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.8894|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.8894
92388452|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388453|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388454|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.7826|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.7826
92388455|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
92388456|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0003
92388457|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.5343|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.5343
92388458|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388459|NCT00445770|184678080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388460|NCT00445770|184678080|SUPERIORITY_OR_OTHER|||||||0.9313|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.9313
92388461|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388462|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388463|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.8044|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.8044
92235140|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.0|||||TWO_SIDED|95.0|8.82|16.34|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.34|8.82|
92235141|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|13.0|||||TWO_SIDED|95.0|10.21|16.66|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.66|10.21|
92388464|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388465|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.0003
92388466|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.4652|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.4652
92388467|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388468|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388469|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.5612|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.5612
92388470|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.0002
92388471|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.0002
92388472|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.9749|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.9749
92388473|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0001
92388474|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0004
92388475|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.729|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.7290
92388476|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
92388477|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0003
92388478|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.5004|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.5004
92388479|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92388480|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92388481|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.5727|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.5727
92417902|NCT03036800|184723714|SUPERIORITY||Odds Ratio (OR)|6.53|||<|0.001|TWO_SIDED|95.0|3.32|12.86|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 32 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||12.86|3.32|<0.001
92388482|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388483|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388484|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.6713|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.6713
92417903|NCT03036800|184723715|SUPERIORITY||Odds Ratio (OR)|8.08|||<|0.001|TWO_SIDED|95.0|3.8|17.16|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||17.16|3.80|<0.001
92388485|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388486|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0001
92388487|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.7663|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.7663
92388488|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
92388489|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0002
92417904|NCT03036800|184723716|SUPERIORITY||Odds Ratio (OR)|2.28||||0.065|TWO_SIDED|95.0|0.95|5.47|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||5.47|0.95|0.065
92388490|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.7073|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.7073
92388491|NCT00445770|184678081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388492|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0001
92388493|NCT00445770|184678081|SUPERIORITY_OR_OTHER|||||||0.7973|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.7973
92388494|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||<0.0001
92388495|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||<0.0001
92388496|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.1053|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||0.1053
92388497|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
92235142|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.6|||||TWO_SIDED|95.0|5.86|9.94|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||9.94|5.86|
92235143|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.2|||||TWO_SIDED|95.0|8.05|18.34|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||18.34|8.05|
92235144|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|17.2|||||TWO_SIDED|95.0|12.77|23.24|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||23.24|12.77|
92235145|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.5|||||TWO_SIDED|95.0|8.01|16.45|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.45|8.01|
92235146|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.0|||||TWO_SIDED|95.0|7.89|18.19|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||18.19|7.89|
92388498|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
92388499|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.0144|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||0.0144
92388500|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
92388501|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
92388502|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.1851|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||0.1851
92388503|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||<0.0001
92388504|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||0.0001
92388505|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.2883|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||0.2883
92388506|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||<0.0001
92388507|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||0.0007
92388508|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.2221|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||0.2221
92388509|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||<0.0001
92388510|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.0147|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||0.0147
92388511|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.0201|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||0.0201
92388512|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||<0.0001
92388513|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.0036|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||0.0036
92388514|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.0789|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||0.0789
92388515|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||<0.0001
92388516|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||0.0008
92388517|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.1903|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||0.1903
92388518|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||<0.0001
92388519|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||0.0048
92388520|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.1059|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||0.1059
92388521|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||<0.0001
92388522|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.0018|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||0.0018
92388523|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.2589|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||0.2589
92388524|NCT00445770|184678082|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||<0.0001
92388525|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||0.0040
92388526|NCT00445770|184678082|SUPERIORITY_OR_OTHER|||||||0.2326|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||0.2326
92388527|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||<0.0001
92388528|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||<0.0001
92388529|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.4751|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.4751
92388530|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||<0.0001
92388531|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||<0.0001
92417905|NCT03036800|184723717|SUPERIORITY||Odds Ratio (OR)|2.84||||0.206|TWO_SIDED|95.0|0.56|14.34|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||14.34|0.56|0.206
92280545|NCT00601484|184463649|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.546|||TWO_SIDED|90.0|-1.046|0.931||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.931|-1.046|
92388532|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.4653|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||0.4653
92388533|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||<0.0001
92388534|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||<0.0001
92388535|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.7953|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||0.7953
92388536|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||<0.0001
92388537|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||<0.0001
92388538|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.0848|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.0848
92388539|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||<0.0001
92388540|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||<0.0001
92388541|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.6112|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.6112
92388542|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||<0.0001
92388543|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.0002
92388544|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.3671|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.3671
92388545|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||<0.0001
92388546|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||<0.0001
92388547|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.7618|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||0.7618
92388548|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||<0.0001
92388549|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||<0.0001
92388550|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.4358|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||0.4358
92388551|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||0.0008
92388552|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||<0.0001
92388553|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.6267|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||0.6267
92388554|NCT00445770|184678083|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||<0.0001
92388555|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.0004
92388556|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.3564|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.3564
92388557|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||0.0007
92388558|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.0035|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||0.0035
92417906|NCT03036800|184723718|SUPERIORITY||Odds Ratio (OR)|3.23||||0.023|TWO_SIDED|95.0|1.17|8.9|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥32% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||8.90|1.17|0.023
92417907|NCT03036800|184723719|SUPERIORITY||Odds Ratio (OR)|4.11||||0.07|TWO_SIDED|95.0|0.89|18.93|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||18.93|0.89|0.070
92417908|NCT03036800|184723720|SUPERIORITY||Odds Ratio (OR)|0.59||||0.601|TWO_SIDED|95.0|0.08|4.24|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||4.24|0.08|0.601
92417909|NCT03036800|184723721|SUPERIORITY||Mean Difference (Net)|-4.63|||<|0.001|TWO_SIDED|95.0|-5.85|-3.4|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute weight change (kg) from baseline at 16 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-3.4|-5.85|<0.001
92235147|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.7|||||TWO_SIDED|95.0|5.02|8.92|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||8.92|5.02|
92417910|NCT03036800|184723722|SUPERIORITY||Mean Difference (Net)|-5.89|||<|0.001|TWO_SIDED|95.0|-7.76|-4.02|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute weight change (kg) from baseline at 32 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-4.02|-7.76|<0.001
92417911|NCT03036800|184723723|SUPERIORITY||Mean Difference (Net)|-6.87|||<|0.001|TWO_SIDED|95.0|-9.03|-4.71|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute weight change (kg) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-4.71|-9.03|<0.001
92417912|NCT03036800|184723724|SUPERIORITY||Mean Difference (Net)|-5.44|||<|0.001|TWO_SIDED|95.0|-8.34|-2.53|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute weight change (kg) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-2.53|-8.34|<0.001
92388559|NCT00445770|184678083|SUPERIORITY_OR_OTHER|||||||0.4749|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||0.4749
92388560|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||<0.0001
92417913|NCT03036800|184723725|SUPERIORITY||Mean Difference (Net)|-3.72|||<|0.001|TWO_SIDED|95.0|-4.63|-2.8|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 16 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-2.80|-4.63|<0.001
92417914|NCT03036800|184723726|SUPERIORITY||Mean Difference (Net)|-4.7|||<|0.001|TWO_SIDED|95.0|-6.14|-3.25|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 32 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-3.25|-6.14|<0.001
92417915|NCT03036800|184723727|SUPERIORITY||Mean Difference (Net)|-5.37|||<|0.001|TWO_SIDED|95.0|-7.02|-3.71|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-3.71|-7.02|<0.001
92169838|NCT03397108|184228377|OTHER|Correlation analysis|Spearman rank correlation|0.32||||0.0227|TWO_SIDED|95.0|0.03869|0.552||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the MID LACTATION POINT, we analyzed correlation between milk TNF and IP10 to see of they are positively correlated.||0.5520|0.03869|0.0227
92169839|NCT03397108|184228377|OTHER|Correlation analysis|Spearman rank correlation|0.52||||0.0001|TWO_SIDED|95.0|0.2727|0.6975||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants, we assessed temporal tracking of milk TNF between early and mid-lactation points.||0.6975|0.2727|0.0001
92388561|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.0001
92388562|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.4376|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.4376
92388563|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||<0.0001
92388564|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||<0.0001
92388565|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.3947|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||0.3947
92388566|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||<0.0001
92235148|NCT01025336|184373538|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.7|||||TWO_SIDED|95.0|3.52|6.29|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||6.29|3.52|
92235149|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.7|||||TWO_SIDED|95.0|3.05|4.49|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||4.49|3.05|
92388567|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||<0.0001
92388568|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.7378|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||0.7378
92388569|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.0001
92388570|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||<0.0001
92388571|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.568|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.5680
92388572|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.0003
92388573|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||<0.0001
92388574|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.3978|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.3978
92388575|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||<0.0001
92388576|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.0001
92388577|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.7229|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.7229
92388578|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||<0.0001
92388579|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||<0.0001
92388580|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.7236|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||0.7236
92388581|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||<0.0001
92388582|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||<0.0001
92388583|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.9719|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||0.9719
92388584|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||<0.0001
92388585|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||<0.0001
92388586|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.9349|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||0.9349
92388587|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||<0.0001
92388588|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.0002
92388589|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.7226|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.7226
92388590|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||<0.0001
92388591|NCT00445770|184678084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||<0.0001
92388592|NCT00445770|184678084|SUPERIORITY_OR_OTHER|||||||0.5512|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||0.5512
92388593|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0162|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.0162
92388594|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0035|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.0035
92388595|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.8928|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.8928
92388596|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||0.0009
92388597|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||0.0007
92388598|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.6348|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||0.6348
92388599|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0026|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||0.0026
92388600|NCT00445770|184678085|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||<0.0001
92388601|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.4629|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||0.4629
92388602|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0841|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.0841
92388603|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.0007
92388604|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.1957|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.1957
92388605|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0093|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.0093
92388606|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0326|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.0326
92388607|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.7426|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.7426
92388608|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.0013
92388609|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.0015
92417916|NCT03036800|184723728|SUPERIORITY||Mean Difference (Net)|-4.1||||0.001|TWO_SIDED|95.0|-6.42|-1.77|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-1.77|-6.42|0.001
92417917|NCT03036800|184723729|SUPERIORITY||Mean Difference (Net)|-2.7|||<|0.001|TWO_SIDED|95.0|-3.5|-1.91|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute BMI change (kg/m2) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-1.91|-3.5|<0.001
92417918|NCT03036800|184723730|SUPERIORITY||Mean Difference (Net)|-1.89|||<|0.001|TWO_SIDED|95.0|-2.91|-0.86|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute BMI change (kg/m2) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-0.86|-2.91|<0.001
92388610|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.6552|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.6552
92388611|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||0.0005
92388612|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||0.0004
92388613|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.6294|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||0.6294
92388614|NCT00445770|184678085|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||<0.0001
92388615|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||0.0001
92388616|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.4652|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||0.4652
92388617|NCT00445770|184678085|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||<0.0001
92388618|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||0.0002
92388619|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.2233|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||0.2233
92388620|NCT00445770|184678085|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||<0.0001
92388621|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.0003
92388622|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.6772|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.6772
92388623|NCT00445770|184678085|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||<0.0001
92388624|NCT00445770|184678085|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||<0.0001
92388625|NCT00445770|184678085|SUPERIORITY_OR_OTHER|||||||0.616|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||0.6160
92388626|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||<0.0001
92388627|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||<0.0001
92388628|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.4929|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||0.4929
92388629|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
92388630|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
92388631|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.9693|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||0.9693
92235150|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.3|||||TWO_SIDED|95.0|1.92|2.81|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||2.81|1.92|
92388632|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
92388633|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
92388634|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.4139|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||0.4139
92417919|NCT03036800|184723731|SUPERIORITY||Mean Difference (Net)|-3.28||||0.01|TWO_SIDED|95.0|-5.77|-0.8|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute waist circumference change (cm) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-0.80|-5.77|0.01
92417920|NCT03036800|184723732|SUPERIORITY||Mean Difference (Net)|-5.51||||0.003|TWO_SIDED|95.0|-9.09|-1.94|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute waist circumference change (cm) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-1.94|-9.09|0.003
92417921|NCT03036800|184723752|SUPERIORITY||Odds Ratio (OR)|10.53|||<|0.001|TWO_SIDED|95.0|3.83|28.97|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥5% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||28.97|3.83|<0.001
92417922|NCT03036800|184723753|SUPERIORITY||Odds Ratio (OR)|23.1|||<|0.001|TWO_SIDED|95.0|7.55|70.67|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||70.67|7.55|<0.001
92417923|NCT03036800|184723756|SUPERIORITY||Odds Ratio (OR)|7.71|||<|0.001|TWO_SIDED|95.0|2.75|21.6|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||21.60|2.75|<0.001
92417924|NCT03036800|184723757|SUPERIORITY||Odds Ratio (OR)|6.14||||0.032|TWO_SIDED|95.0|1.16|32.32|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||32.32|1.16|0.032
92417925|NCT03036800|184723758|SUPERIORITY||Odds Ratio (OR)|11.48|||<|0.001|TWO_SIDED|95.0|3.8|34.67|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 32 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||34.67|3.80|<0.001
92388635|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||<0.0001
92388636|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||<0.0001
92388637|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.8905|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||0.8905
92388638|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||<0.0001
92388639|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||<0.0001
92388640|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.6877|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||0.6877
92388641|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||<0.0001
92388642|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||<0.0001
92388643|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.4511|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||0.4511
92388644|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||<0.0001
92388645|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||<0.0001
92388646|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.2786|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||0.2786
92388647|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||<0.0001
92388648|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||<0.0001
92388649|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.123|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||0.1230
92417926|NCT03036800|184723760|SUPERIORITY||Odds Ratio (OR)|13.63||||0.003|TWO_SIDED|95.0|2.47|75.09|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||75.09|2.47|0.003
92417927|NCT03036800|184723761|SUPERIORITY||Odds Ratio (OR)|0.59||||0.601|TWO_SIDED|95.0|0.08|4.24|||Regression, Logistic|||A logistic regression with a binary outcome of maintenance of weight loss of ≥15% at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||4.24|0.08|0.601
92417928|NCT03036800|184723762|SUPERIORITY||Mean Difference (Net)|-6.55|||<|0.001|TWO_SIDED|95.0|-7.81|-5.29|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 16 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-5.29|-7.81|<0.001
92417929|NCT03036800|184723763|SUPERIORITY||Mean Difference (Net)|-9.59|||<|0.001|TWO_SIDED|95.0|-11.3|-7.88|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 32 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-7.88|-11.30|<0.001
92417930|NCT03036800|184723764|SUPERIORITY||Mean Difference (Net)|-13.51|||<|0.001|TWO_SIDED|95.0|-15.51|-11.51|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-11.51|-15.51|<0.001
92417931|NCT03036800|184723765|SUPERIORITY||Mean Difference (Net)|-9.3|||<|0.001|TWO_SIDED|95.0|-12.35|-6.26|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-6.26|-12.35|<0.001
92417932|NCT03036800|184723766|SUPERIORITY||Mean Difference (Net)|-6.16|||<|0.001|TWO_SIDED|95.0|-7.03|-5.28|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute BMI change (kg/m2) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-5.28|-7.03|<0.001
92417933|NCT03036800|184723767|SUPERIORITY||Mean Difference (Net)|-4.22|||<|0.001|TWO_SIDED|95.0|-5.56|-2.89|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute BMI change (kg/m2) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-2.89|-5.56|<0.001
92417934|NCT03036800|184723768|SUPERIORITY||Median Difference (Net)|-8.8|||<|0.001|TWO_SIDED|95.0|-11.96|-5.64|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute waist circumference change (cm) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-5.64|-11.96|<0.001
92417935|NCT03036800|184723769|SUPERIORITY||Median Difference (Net)|-9.59||||0.001|TWO_SIDED|95.0|-14.91|-4.27|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute waist circumference change (cm) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-4.27|-14.91|0.001
92417936|NCT04030026|184723778|SUPERIORITY||Geometric Mean Ratio|0.32|||<|0.0001|TWO_SIDED|95.0|0.208|0.431||Mixed-effects model: unstructured, heterogeneous toeplitz and autoregressive covariance matrices. Dependent variable: change from baseline in log-transformed scale of Daytime Cough Frequency. Fixed effects: sequence (arm), period and treatment.|Mixed-effects model|||||0.431|0.208|< 0.0001
92417937|NCT04030026|184723780|SUPERIORITY||Geometric Mean Ratio|0.32|||<|0.0001|TWO_SIDED|95.0|0.208|0.431||Mixed-effects model: unstructured, heterogeneous toeplitz and autoregressive covariance matrices. Dependent variable: change from baseline in log-transformed scale of Daytime Cough Frequency. Fixed effects: sequence (arm), period and treatment.|Mixed-effects model|||||0.431|0.208|<0.0001
92417938|NCT04030026|184723781|SUPERIORITY||Geometric Mean Ratio|0.47||||0.0087|TWO_SIDED|95.0|0.23|0.717||Mixed-effects model: unstructured, heterogeneous toeplitz and autoregressive covariance matrices. Dependent variable: change from baseline in log-transformed scale of Daytime Cough Frequency. Fixed effects: sequence (arm), period and treatment.|Mixed-effects model|||||0.717|0.230|0.0087
92417939|NCT04030026|184723782|SUPERIORITY|||||||0.0014||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 9||||0.0014
92417940|NCT04030026|184723782|SUPERIORITY|||||||0.0001||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 16||||0.0001
92417941|NCT04030026|184723782|SUPERIORITY|||||||0.001||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 22||||0.001
92417942|NCT04030026|184723783|SUPERIORITY|||||||0.0198||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 9||||0.0198
92417943|NCT04030026|184723783|SUPERIORITY|||||||0.0374||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 16||||0.0374
92417944|NCT04030026|184723783|SUPERIORITY|||||||0.2982||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 22||||0.2982
92417945|NCT04030026|184723784|SUPERIORITY|||||||0.0054||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo)|Student's T-test|||Change from baseline at Day 8||||0.0054
92169840|NCT03397108|184228377|OTHER|Correlation analysis|Spearman rank correlation|0.4722||||0.0005|TWO_SIDED|95.0|0.2181|0.6664||Not adjusted for multiple comparison.|Spearman rank correlation|||Using the pooled data of all participants, we assessed temporal tracking of milk MCP1 between early and mid-lactation points.||0.6664|0.2181|0.0005
92388650|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||<0.0001
92388651|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||<0.0001
92388652|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.5061|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||0.5061
92388653|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||<0.0001
92388654|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||<0.0001
92388655|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.1354|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||0.1354
92388656|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||<0.0001
92388657|NCT00445770|184678086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||<0.0001
92417946|NCT04030026|184723784|SUPERIORITY||||||<|0.0001||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 15||||<0.0001
92169841|NCT03397108|184228377|OTHER|Correlation analysis|Spearman rank correlation|0.36||||0.01|TWO_SIDED|95.0|0.0802|0.5803||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants, we assessed temporal tracking of milk MIP-1beta between early and mid-lactation points.||0.5803|0.0802|0.01
92388658|NCT00445770|184678086|SUPERIORITY_OR_OTHER|||||||0.1734|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||0.1734
92388659|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388660|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
92388661|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.6417|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.6417
92388662|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388663|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
92388664|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.4698|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.4698
92388665|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388666|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
92388667|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.1214|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.1214
92388668|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92388669|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
92417947|NCT04030026|184723784|SUPERIORITY|||||||0.0001||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 21||||0.0001
92169842|NCT03397108|184228377|OTHER|Correlation analysis|Spearman rank correlation|0.66|||<|0.0001|TWO_SIDED|95.0|0.467|0.7964||Not adjusted for multiple comparison|Spearman rank correlation|Spearman r = 0.66 (95%CI: 0.4670 - 0.7964). Number of XY pairs: 51||Using the pooled data of all participants, we assessed temporal tracking of milk IP10 between early and mid-lactation points.||0.7964|0.4670|<0.0001
92280546|NCT00601484|184463649|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.673|||TWO_SIDED|90.0|-1.876|0.592||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.592|-1.876|
92388670|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.4654|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.4654
92388671|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
92388672|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
92388673|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.4006|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.4006
92417948|NCT04030026|184723785|SUPERIORITY|||||||0.0107||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 9||||0.0107
92235151|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.83|2.5|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||2.50|1.83|
92235152|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.5|||||TWO_SIDED|95.0|1.32|1.74|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||1.74|1.32|
92417949|NCT04030026|184723785|SUPERIORITY|||||||0.0051||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change for baseline at Day 16||||0.0051
92388674|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
92388675|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
92388676|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.1636|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.1636
92417950|NCT04030026|184723785|SUPERIORITY|||||||0.1513||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 22||||0.1513
92417951|NCT04030026|184723786|SUPERIORITY|||||||0.3601||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||||||0.3601
92417952|NCT06372782|184723821|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||Within-Subject Difference in VAS Score at the End of Injection (FAS)||||<0.0001
92235153|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.0|||||TWO_SIDED|95.0|5.82|11.09|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||11.09|5.82|
92235154|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.9|||||TWO_SIDED|95.0|4.25|8.21|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||8.21|4.25|
92388677|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92417953|NCT06661954|184723824|OTHER|paired t-tests were used to identify statistically significant differences|||||<|0.05||||||Paired t-tests compared pressure of Bed A and Bed B at each time at each head of bed position (4 tests, two-tailed test, alpha=0.05). A Holm-Bonferroni correction was used to control type 1 error.|t-test, 2 sided|||Peak sacral pressure (mmHg) was collected for every minute of the 10 minute recording. Two averages for each test condition were analyzed (Minutes 1-3 (Min1-3) and 6-8 (Min6-8)). These averages capture pressure during two different 5 minute cycles, when conceivably, sacral pressure would differ. Paired t-tests compared pressure of Bed A and Bed B at each time at each head of bed position (4 tests, two-tailed test, alpha=0.05). A Holm-Bonferroni correction controlled type 1 error.||||<0.05
92417954|NCT05772702|184723827|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||t-test, 2 sided|||HDRS-17 change score were submitted to a t-test to estimate the group difference from 0 (i.e., no change in depression symptoms from D1 to FU2). Null hypothesis: D1 == FU2||||<0.0005
92235155|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.9|||||TWO_SIDED|95.0|3.96|6.0|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||6.00|3.96|
92235156|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.1|||||TWO_SIDED|95.0|2.58|3.79|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.79|2.58|
92235157|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.9|||||TWO_SIDED|95.0|8.56|16.49|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.49|8.56|
92388678|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
92388679|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.2635|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.2635
92388680|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388681|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
92388682|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.0965|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0965
92388683|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388684|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
92388685|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.4437|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.4437
92388686|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
92388687|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
92417955|NCT05772702|184723828|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||t-test, 2 sided|||HDRS-17 change score were submitted to a t-test to estimate the group difference from 0 (i.e., no change in depression symptoms from D1 to D5). Note: D5 HDRS-17 were determined prior to receiving the final treatment on D5. Null hypothesis: D1 == D5||||<0.0005
92417956|NCT05772702|184723830|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||QIDS change score were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 QIDS surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
92417957|NCT05772702|184723831|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|||ASRM scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 ASRM surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
92388688|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.1663|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.1663
92388689|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388690|NCT00445770|184678087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
92388691|NCT00445770|184678087|SUPERIORITY_OR_OTHER|||||||0.1049|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.1049
92388692|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment||Week 2||||<0.0001
92388693|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment||Week 2||||<0.0001
92388694|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0442|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment||Week 2||||0.0442
92417958|NCT05772702|184723832|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||SHAPS scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 SHAPS surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
92417959|NCT05772702|184723833|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||DASS-42 OVERALL scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 DASS-42 surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
92417960|NCT05772702|184723833|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|This subscale did not require sphericity corrections.||DASS-42 DEPRESSION SUBSCORES were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 DASS-42 surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
92388695|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
92388696|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
92388697|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0681|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||0.0681
92388698|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
92388699|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
92388700|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0966|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||0.0966
92235158|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.5|||||TWO_SIDED|95.0|2.59|4.76|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||4.76|2.59|
92235159|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.5|||||TWO_SIDED|95.0|4.61|9.03|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||9.03|4.61|
92169843|NCT03397108|184228378|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||Cognitive development at 12 months of age. Animal data suggested that pups receiving milk with lower TNF and TNF-dependent chemokines showed enhanced cognitive development. Because there was no guiding information in humans regarding milk TNF level differences between women with and without IBD, our main goal was to measure milk TNF levels. The infant cognitive/language assessment, therefore, had to be designed as a pilot and exploratory in nature.||||0.12
92388701|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||<0.0001
92388702|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||0.0006
92388703|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.1242|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||0.1242
92388704|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||<0.0001
92388705|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||<0.001
92388706|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.1521|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||0.1521
92388707|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||<0.0001
92388708|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||0.0070
92388709|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||0.0140
92388710|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||<0.0001
92388711|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||<0.0001
92388712|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0815|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||0.0815
92388713|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||<0.0001
92388714|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||0.0002
92388715|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0886|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||0.0886
92388716|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||<0.0001
92388717|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||0.0003
92388718|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.1488|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||0.1488
92169844|NCT03397108|184228378|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||Language development at 12 months of age.||||0.56
92169845|NCT03397108|184228378|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Cognitive development at 18 months of age.||||0.16
92235160|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.1|||||TWO_SIDED|95.0|2.32|4.24|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||4.24|2.32|
92388719|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||<0.0001
92388720|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||0.0006
92388721|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0979|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||0.0979
92388722|NCT00445770|184678088|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||<0.0001
92388723|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||0.0001
92388724|NCT00445770|184678088|SUPERIORITY_OR_OTHER|||||||0.174|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||0.1740
92388725|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior Methotrexate use + treatment.||Week 2||||<0.0001
92417961|NCT05772702|184723833|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||DASS-42 ANXIETY SUBSCORES were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 DASS-42 surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
92417962|NCT05772702|184723833|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||DASS-42 STRESS SUBSCORES were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 DASS-42 surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
92417963|NCT05772702|184723834|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.||||||0.021|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||STAI scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 STAI surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||0.021
92169846|NCT03397108|184228378|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Language development at 18 months of age||||0.75
92388726|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 2||||<0.0001
92388727|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0274|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.|ANCOVA|||Week 2||||0.0274
92388728|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 4||||<0.0001
92388729|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 4||||<0.0001
92388730|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0344|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 4||||0.0344
92388731|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 8||||<0.0001
92388732|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 8||||<0.0001
92388733|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0293|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 8||||0.0293
92388734|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 12||||<0.0001
92388735|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 12||||<0.0001
92388736|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0452|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 12||||0.0452
92388737|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 16||||<0.0001
92388738|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 16||||<0.0001
92388739|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0313|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 16||||0.0313
92417964|NCT05772702|184723835|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|||QIDS scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 QIDS surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
92417965|NCT05772702|184723836|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|||CGI severity scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 CGI assessments were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU2||||<0.0005
92169847|NCT03397108|184228378|OTHER|Correlation analysis|Spearman rank correlation|0.2655||||0.0853|TWO_SIDED|95.0|-0.047|0.5307|||Spearman rank correlation|||Using pooled data of all participants at the early-lactation sample point, correlation between milk TNF levels and 12 month cognitive development was examined to investigate if they were inversely correlated.||0.5307|-0.047|0.0853
92388740|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 20||||<0.0001
92388741|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 20||||0.0019
92388742|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0781|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 20||||0.0781
92388743|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 24||||<0.0001
92388744|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 24||||0.0001
92388745|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.1279|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 24||||0.1279
92417966|NCT05772702|184723836|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.||||||0.006|||||||t-test, 2 sided|||CGI improvement scores were submitted to a paired t-test to measure difference between the improvement assessment on D5 and the assessment at FU2. Note: D5 CGI assessments were completed prior to receiving the final treatment on D5. Null hypothesis: D5 = FU2||||0.006
92417967|NCT04268823|184723845|SUPERIORITY||Least Squares mean|-0.203|STANDARD_ERROR_OF_MEAN|0.1938||0.298|TWO_SIDED|80.0|-0.524|0.119|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||0.119|-0.524|0.298
92417968|NCT04268823|184723846|SUPERIORITY||Least Squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.651|TWO_SIDED|80.0|-0.9|0.5|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||0.5|-0.9|0.651
92417969|NCT04268823|184723847|SUPERIORITY||Least Squares mean|-1.39|STANDARD_ERROR_OF_MEAN|1.29||0.288|TWO_SIDED|80.0|-3.55|0.78|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||0.78|-3.55|0.288
92417970|NCT04268823|184723848|SUPERIORITY||Least Squares mean|4.2|STANDARD_ERROR_OF_MEAN|4.336||0.338|TWO_SIDED|80.0|-3.09|11.48|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||11.48|-3.09|0.338
92417971|NCT04268823|184723849|SUPERIORITY||Least Squares mean|-0.82|STANDARD_ERROR_OF_MEAN|3.147||0.795|TWO_SIDED|80.0|-6.05|4.42|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Total score||4.42|-6.05|0.795
92417972|NCT04268823|184723849|SUPERIORITY||Least Squares mean|5.75|STANDARD_ERROR_OF_MEAN|4.155||0.17|TWO_SIDED|80.0|-1.16|12.66|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Symptoms score||12.66|-1.16|0.170
92417973|NCT04268823|184723849|SUPERIORITY||Least Squares mean|-0.61|STANDARD_ERROR_OF_MEAN|3.259||0.851|TWO_SIDED|80.0|-6.02|4.8|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Activity score||4.80|-6.02|0.851
92417974|NCT04268823|184723849|SUPERIORITY||Least Squares mean|-2.07|STANDARD_ERROR_OF_MEAN|4.035||0.61|TWO_SIDED|80.0|-8.78|4.65|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Impact score||4.65|-8.78|0.610
92417975|NCT04268823|184723850|SUPERIORITY||Least Squares mean|0.25|STANDARD_ERROR_OF_MEAN|4.557||0.956|TWO_SIDED|80.0|-7.3|7.8|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Cough symptom score||7.80|-7.30|0.956
92417976|NCT04268823|184723850|SUPERIORITY||Least Squares mean|4.22|STANDARD_ERROR_OF_MEAN|4.671||0.369|TWO_SIDED|80.0|-3.55|11.99|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Sputum symptom score||11.99|-3.55|0.369
92388746|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 32||||<0.0001
92388747|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 32||||0.0004
92388748|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0807|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 32||||0.0807
92388749|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 40||||<0.0001
92388750|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 40||||0.0002
92388751|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.418|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 40||||0.4180
92417977|NCT04268823|184723850|SUPERIORITY||Least Squares mean|2.03|STANDARD_ERROR_OF_MEAN|4.001||0.613|TWO_SIDED|80.0|-4.61|8.68|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Cough impact score||8.68|-4.61|0.613
92417978|NCT04268823|184723850|SUPERIORITY||Least Squares mean|0.94|STANDARD_ERROR_OF_MEAN|4.518||0.835|TWO_SIDED|80.0|-6.58|8.47|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Sputum impact score||8.47|-6.58|0.835
92417979|NCT04268823|184723852|SUPERIORITY||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.04||0.335|TWO_SIDED|80.0|0.0|0.1|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||0.1|0.0|0.335
92417980|NCT04268823|184723853|SUPERIORITY||Least Squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.645|TWO_SIDED|80.0|-0.1|0.1|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||0.1|-0.1|0.645
92417981|NCT04268823|184723854|SUPERIORITY||Least Squares mean|2.1|STANDARD_ERROR_OF_MEAN|0.8||0.01|TWO_SIDED|80.0|0.8|3.4|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||3.4|0.8|0.010
92417982|NCT00562627|184723863|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANOVA|||||||0.009
92417983|NCT00562627|184723864|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|||||||0.001
92417984|NCT00562627|184723865|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92417985|NCT05710185|184723883|OTHER||||||||||||||||||It was a descriptive study|||
92417986|NCT04972630|184723907|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0||||||||Baseline control vs. intervention||||
92417987|NCT04972630|184723907|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0||||||||Week 4 control vs. intervention||||
92417988|NCT04972630|184723907|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0||||||||Week 12, control vs. intervention||||
92388752|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 48||||<0.0001
92388753|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0061|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 48||||0.0061
92388754|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.1615|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 48||||0.1615
92388755|NCT00445770|184678089|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 52||||<0.0001
92388756|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 52||||0.0130
92388757|NCT00445770|184678089|SUPERIORITY_OR_OTHER|||||||0.0948|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 52||||0.0948
92388758|NCT03228212|184678121|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|5.1|STANDARD_DEVIATION|2.0|||TWO_SIDED|95.0|1.16|9.09|||Bayesian multivariate normal random-effe|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test - Control|It was calculated that 60 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect a 5 points difference in mean overall comfort at the 2-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05).||9.09|1.16|
92388759|NCT03228212|184678122|NON_INFERIORITY|A non-inferiority margin of 0.05 logmar was used. This margin corresponds to a half line difference.|Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.00621|||TWO_SIDED|95.0|0.01|0.03|||Bayesian multivariate normal random-effe|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test - Control|It was calculated that 40 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect a 0.05 difference in LogMAR visual acuity at the 2-week follow-up. Sample size was determined using simulations methods for repeated measures.||0.03|0.01|
92388760|NCT03228212|184678123|NON_INFERIORITY|A non-inferiority margin of 90% was used. Lower limit of 95% credible interval was compared to 90%|proportion|0.992|||||TWO_SIDED|95.0|0.96|1.0|||Bayesian Methods|Bayesian Methods-Jefferys prior for binomial proportion was used to calculate 95% credible interval.||It was calculated that 70 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect a the 2-week follow-up. Sample size was determined using simulations methods for repeated measures. Analysis was only performed on eyes wearing the Tesl lens.||1|0.96|
92388761|NCT03228212|184678124|NON_INFERIORITY|A non-inferiority margin of 5% was used. Upper limit of the 95% credible interval was compared to 5%|Mean Difference (Final Values)|-0.0043|STANDARD_DEVIATION|0.0089|||TWO_SIDED|95.0|-0.0237|0.0129|||Bayesian beta-binomial model|Bayesian beta-binomial model for correlated binary data|Mean difference calculated as Test - Control|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect 5% difference between the Test and Control lens with respect to the proportion of eyes with Grade 3 or higher slit lamp findings across all study visits. Sample size was determined using simulations methods. Sample size for this study was primarily driven by the slit lamp findings.||0.0129|-0.0237|
92388762|NCT03228212|184678125|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|7.2|STANDARD_DEVIATION|1.8|||TWO_SIDED|95.0|3.69|10.74|||Bayesian multivariate normal random-effe|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test - Control|Sample size calculations were based on the primary endpoints.||10.74|3.69|
92388763|NCT03228212|184678126|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|3.3|STANDARD_DEVIATION|1.5|||TWO_SIDED|95.0|0.36|6.29|||Bayesian multivariate normal random-effe|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test - Control|Sample size calculations were based on the primary endpoints.||6.29|0.36|
92388764|NCT01807299|184678154|OTHER||Mean Difference (Final Values)|5.0||||0.05|ONE_SIDED|5.0|||||Chi-squared, Corrected|||||||0.05
92388765|NCT01938040|184678170|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||ANOVA|||||||0.001
92388766|NCT02309944|184678174|SUPERIORITY|||||||0.27|TWO_SIDED|95.0|||||Chi-squared|||Negative Pressure Wound Therapy vs. Standard Wound Closure||||0.27
92388767|NCT02309944|184678174|SUPERIORITY|||||||0.24|||||||Regression, Logistic|Multivariate Model (adjusted for ascites and previous laparotomy)||Negative Pressure Wound Therapy vs. Standard Wound Closure||||0.24
92388768|NCT02848222|184678185|SUPERIORITY|||||||0.02||||||Threshold for significance was p \< 0.05|ANOVA|||||||0.02
92388769|NCT02451943|184678186|SUPERIORITY||Hazard Ratio (HR)|1.047||||0.6945|TWO_SIDED|95.0|0.841|1.303|||Log Rank|Stratified||||1.303|0.841|0.6945
92388770|NCT02451943|184678187|SUPERIORITY||Hazard Ratio (HR)|0.951||||0.7618|TWO_SIDED|95.0|0.69|1.312|||Log Rank|Stratified||||1.312|0.690|0.7618
92388771|NCT02451943|184678188|SUPERIORITY||Hazard Ratio (HR)|1.231||||0.0422|TWO_SIDED|95.0|1.009|1.502|||Log Rank|Stratified||||1.502|1.009|0.0422
92388772|NCT02451943|184678194|SUPERIORITY||Hazard Ratio (HR)|0.616||||0.0934|TWO_SIDED|95.0|0.347|1.093|||Log Rank|Stratified||||1.093|0.347|0.0934
92388773|NCT02451943|184678195|SUPERIORITY||Hazard Ratio (HR)|1.123||||0.3347|TWO_SIDED|95.0|0.892|1.413|||Log Rank|Stratified||||1.413|0.892|0.3347
92388774|NCT03951077|184678198|SUPERIORITY||Adjusted Response Rate Difference|-5.9||||0.3|TWO_SIDED|90.0|-15.38|3.49|||Cochran-Mantel-Haenszel|||Across the strata, 90% confidence interval (CI) for adjusted difference and p-value were calculated according to the Cochran-Mantel-Haenszel (CMH) test adjusted for strata (Baseline FG score \[\< 8, ≥ 8\], and baseline normal/obese status \[BMI \< 30, ≥ 30\]) for the comparison of between each elagolix group and placebo. If zero frequency occurred, the zero count was replaced by 0.1 to prevent dividing by zero.||3.49|-15.38|0.300
92169848|NCT03397108|184228378|OTHER|Correlation analysis|Spearman rank correlation|0.3705||||0.09|TWO_SIDED|95.0|-0.07385|0.6921|||Spearman rank correlation|||Using the pooled data of all participants, correlation analysis between milk TNF at early lactation and 12 month language score was done to see if they were inversely correlated.||0.6921|-0.07385|0.090
92169849|NCT03397108|184228380|SUPERIORITY|||||||0.97||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||This is to confirm that the 2 groups are not different for their sampling time points in the early lactation period.||||0.97
92169850|NCT03397108|184228380|SUPERIORITY|||||||0.96|||||||Kruskal-Wallis|||||||0.96
92235161|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.4|||||TWO_SIDED|95.0|5.23|10.33|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||10.33|5.23|
92278753|NCT03280537|184460125|SUPERIORITY||Difference in Least Squares Means|-15.04|STANDARD_ERROR_OF_MEAN|3.14|<|0.0001|TWO_SIDED|95.0|-21.26|-8.82||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the SNOT-22 score at Week 24.||-8.82|-21.26|<0.0001
92388775|NCT03951077|184678198|SUPERIORITY||Adjusted Response Rate Difference|-5.9||||0.32|TWO_SIDED|90.0|-15.65|3.86|||Cochran-Mantel-Haenszel|||Across the strata, 90% CI for adjusted difference and p-value were calculated according to the CMH test adjusted for strata (Baseline FG score \[\< 8, ≥ 8\], and baseline normal/obese status \[BMI \< 30, ≥ 30\]) for the comparison of between each elagolix group and placebo. If zero frequency occurred, the zero count was replaced by 0.1 to prevent dividing by zero.||3.86|-15.65|0.320
92388776|NCT03951077|184678198|SUPERIORITY||Adjusted Response Rate Difference|-5.6||||0.315|TWO_SIDED|90.0|-14.87|3.59|||Cochran-Mantel-Haenszel|||Across the strata, 90% CI for adjusted difference and p-value were calculated according to the CMH test adjusted for strata (Baseline FG score \[\< 8, ≥ 8\], and baseline normal/obese status \[BMI \< 30, ≥ 30\]) for the comparison of between each elagolix group and placebo. If zero frequency occurred, the zero count was replaced by 0.1 to prevent dividing by zero.||3.59|-14.87|0.315
92388777|NCT03951077|184678198|SUPERIORITY||Adjusted Response Rate Difference|-6.7||||0.265|TWO_SIDED|90.0|-16.63|3.19|||Cochran-Mantel-Haenszel|||Across the strata, 90% CI for adjusted difference and p-value were calculated according to the CMH test adjusted for strata (Baseline FG score \[\< 8, ≥ 8\], and baseline normal/obese status \[BMI \< 30, ≥ 30\]) for the comparison of between each elagolix group and placebo. If zero frequency occurred, the zero count was replaced by 0.1 to prevent dividing by zero.||3.19|-16.63|0.265
92388778|NCT03951077|184678198|SUPERIORITY||Adjusted Response Rate Difference|-0.8||||0.914|TWO_SIDED|90.0|-13.1|11.48|||Cochran-Mantel-Haenszel|||Across the strata, 90% CI for adjusted difference and p-value were calculated according to the CMH test adjusted for strata (Baseline FG score \[\< 8, ≥ 8\], and baseline normal/obese status \[BMI \< 30, ≥ 30\]) for the comparison of between each elagolix group and placebo. If zero frequency occurred, the zero count was replaced by 0.1 to prevent dividing by zero.||11.48|-13.10|0.914
92388779|NCT03951077|184678199|SUPERIORITY||Least Squares (LS) Mean of Difference|-5.93|STANDARD_ERROR_OF_MEAN|3.429||0.087|TWO_SIDED|90.0|-11.628|-0.231|||MMRM|||P-value is from mixed-effect model repeated measure (MMRM) with the fixed categorical effects of treatment, visit, treatment-by-visit interaction, baseline FG score (\< 8, ≥ 8), and baseline normal/obese status (BMI \< 30, ≥ 30), participant as a random effect, and the continuous fixed covariate of baseline measurement. Model is based on unstructured variance covariance structure.||-0.231|-11.628|0.087
92388780|NCT03951077|184678199|SUPERIORITY||LS Mean of Difference|-8.83|STANDARD_ERROR_OF_MEAN|3.435||0.012|TWO_SIDED|90.0|-14.533|-3.118|||MMRM|||P-value is from MMRM with the fixed categorical effects of treatment, visit, treatment-by-visit interaction, baseline FG score (\< 8, ≥ 8), and baseline normal/obese status (BMI \< 30, ≥ 30), participant as a random effect, and the continuous fixed covariate of baseline measurement. Model is based on unstructured variance covariance structure.||-3.118|-14.533|0.012
92388781|NCT03951077|184678199|SUPERIORITY||LS Mean of Difference|-16.1|STANDARD_ERROR_OF_MEAN|3.356|<|0.001|TWO_SIDED|90.0|-21.673|-10.519|||MMRM|||P-value is from MMRM with the fixed categorical effects of treatment, visit, treatment-by-visit interaction, baseline FG score (\< 8, ≥ 8), and baseline normal/obese status (BMI \< 30, ≥ 30), participant as a random effect, and the continuous fixed covariate of baseline measurement. Model is based on unstructured variance covariance structure.||-10.519|-21.673|<0.001
92417989|NCT04972630|184723907|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0||||||||Week 24, control vs. intervention||||
92417990|NCT04972630|184723908|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0||||||||||||
92417991|NCT04972630|184723909|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0||||||||||||
92169851|NCT03397108|184228381|SUPERIORITY|||||||0.56||||||No adjustment for multiple comparison.|Wilcoxon (Mann-Whitney)|||This is to confirm that there is no difference in the second sampling time points in the mid-lactation period between the groups.||||0.56
92169852|NCT03397108|184228381|SUPERIORITY|||||||0.51|||||||Kruskal-Wallis|||||||0.51
92169853|NCT01704079|184228398|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92169854|NCT01704079|184228399|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92169855|NCT01704079|184228400|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92169856|NCT01704079|184228401|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92169857|NCT01443845|184228414|SUPERIORITY_OR_OTHER||Rate Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.063||0.1634|TWO_SIDED|95.0|0.81|1.04|||negative binomial regression||p-values are based on a negative binomial regression with factors Treatment and LAMA use.|Rate ratio (Roflumilast/Placebo). A rate ratio \< 1 represents a favorable outcome for the test treatment.||1.04|0.81|0.1634
92280547|NCT00601484|184463650|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-34.25|STANDARD_ERROR_OF_MEAN|21.509|||TWO_SIDED|90.0|-72.879|4.375||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||4.375|-72.879|
92388782|NCT03951077|184678199|SUPERIORITY||LS Mean of Difference|-6.15|STANDARD_ERROR_OF_MEAN|3.593||0.091|TWO_SIDED|90.0|-12.116|-0.176|||MMRM|||P-value is from MMRM with the fixed categorical effects of treatment, visit, treatment-by-visit interaction, baseline FG score (\< 8, ≥ 8), and baseline normal/obese status (BMI \< 30, ≥ 30), participant as a random effect, and the continuous fixed covariate of baseline measurement. Model is based on unstructured variance covariance structure.||-0.176|-12.116|0.091
92169858|NCT01443845|184228414|SUPERIORITY_OR_OTHER||Rate Ratio|0.83|STANDARD_ERROR_OF_MEAN|0.08||0.0195|TWO_SIDED|95.0|0.71|0.97|||negative binomial regression|||Subgroup Analysis - By Sex - Male||0.97|0.71|0.0195
92388783|NCT03951077|184678199|SUPERIORITY||LS Mean of Difference|-11.72|STANDARD_ERROR_OF_MEAN|3.431|<|0.001|TWO_SIDED|90.0|-17.418|-6.016|||MMRM|||P-value is from MMRM with the fixed categorical effects of treatment, visit, treatment-by-visit interaction, baseline FG score (\< 8, ≥ 8), and baseline normal/obese status (BMI \< 30, ≥ 30), participant as a random effect, and the continuous fixed covariate of baseline measurement. Model is based on unstructured variance covariance structure.||-6.016|-17.418|< 0.001
92388784|NCT00086047|184678204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.39|STANDARD_DEVIATION|8.8||0.007|TWO_SIDED|95.0|1.57|9.22|||Mixed Models Analysis|||||9.22|1.57|0.007
92388785|NCT01395901|184678207|NON_INFERIORITY_OR_EQUIVALENCE|For the primary efficacy analysis, the confidence interval (CI) was built on the FAS using the stratum adjusted Mantel-Haenszel (MH) method with correction of continuity. The non-inferiority margin was -10%.|Risk Difference (RD)|-4.4|||||TWO_SIDED|95.0|-10.5|1.7||||||"The null hypothesis (H0) was stated as:~• H0 : CR 0-24 hr palonosetron - CR 0-24 hr ondansetron \<-10%~The alternative hypothesis (H1) was stated as:~• H1 : CR 0-24 hr palonosetron - CR 0-24 hr ondansetron \>-10%~A power of 80% was used for sample size computation."||1.7|-10.5|
92388786|NCT00853151|184678258|SUPERIORITY_OR_OTHER|||||||0.623||90.0||||p-value is for LY2428757 plus TT223 3 mg versus LY2428757 plus TT223 placebo.|Mixed Models Analysis|Model included treatment, baseline therapy, strata, visit, and treatment-by-visit interaction, and continuous fixed covariate of baseline HbA1c.||||||0.623
92388787|NCT00853151|184678258|SUPERIORITY_OR_OTHER|||||||0.809||95.0||||p-value is for LY2428757 plus TT223 2 mg versus LY2428757 plus TT223 placebo.|Mixed Models Analysis|Model included treatment, baseline therapy, strata, visit, and treatment-by-visit interaction, and continuous fixed covariate of baseline HbA1c.||||||0.809
92388788|NCT01751984|184678298|SUPERIORITY||Least squares mean difference|-28.7|||<|0.0001|TWO_SIDED|95.0|-35.4|-22.1|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-22.1|-35.4|<0.0001
92388789|NCT01751984|184678299|SUPERIORITY||Least squares mean difference|-18.0|||<|0.0001|TWO_SIDED|95.0|-24.3|-11.8|||ANCOVA||Estimation from Week 2. The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-11.8|-24.3|<0.0001
92388790|NCT01751984|184678299|SUPERIORITY||Least squares mean difference|-30.0|||<|0.0001|TWO_SIDED|95.0|-35.2|-24.7|||ANCOVA||Estimation from Week 4. The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-24.7|-35.2|<0.0001
92388791|NCT01751984|184678299|SUPERIORITY||Least squares mean difference|-28.8|||<|0.0001|TWO_SIDED|95.0|-36.9|-20.8|||ANCOVA||Estimation from Week 6. The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-20.8|-36.9|<0.0001
92388792|NCT01751984|184678299|SUPERIORITY||Least squares mean difference|-28.5|||<|0.0001|TWO_SIDED|95.0|-37.2|-19.8|||ANCOVA||Estimation from Week 8. The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-19.8|-37.2|<0.0001
92388793|NCT01751984|184678300|SUPERIORITY||Least squares mean difference|-5.8||||0.1892|TWO_SIDED|95.0|-14.5|2.9|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||2.9|-14.5|0.1892
92388794|NCT01751984|184678301|SUPERIORITY||Least squares mean difference|-20.9|||<|0.0001|TWO_SIDED|95.0|-28.0|-13.9|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-13.9|-28.0|<0.0001
92388795|NCT01751984|184678302|SUPERIORITY||Least squares mean difference|-18.4|||<|0.0001|TWO_SIDED|95.0|-24.2|-12.7|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-12.7|-24.2|<0.0001
92417992|NCT04972630|184723910|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-1.7|||||TWO_SIDED|95.0||||||||||||
92169859|NCT01443845|184228414|SUPERIORITY_OR_OTHER||Rate Ratio|1.11|STANDARD_ERROR_OF_MEAN|0.101||0.3164|TWO_SIDED|95.0|0.91|1.35|||negative binomial regression|||Subgroup Analysis - By Sex - Female||1.35|0.91|0.3164
92169860|NCT01443845|184228414|SUPERIORITY_OR_OTHER||Rate Ratio|0.85|STANDARD_ERROR_OF_MEAN|0.076||0.0385|TWO_SIDED|95.0|0.74|0.99|||negative binomial regression|||Subgroup analysis between patients taking Advair verses patients taking Symbicort as LABA/ICS therapy.||0.99|0.74|0.0385
92388796|NCT01751984|184678303|SUPERIORITY||Least squares mean difference|18.7|||=|0.0962|TWO_SIDED|95.0|-3.5|40.8|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||40.8|-3.5|=0.0962
92388797|NCT01751984|184678304|SUPERIORITY||Least squares mean difference|-15.3|||=|0.0019|TWO_SIDED|95.0|-24.6|-6.0|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-6.0|-24.6|=0.0019
92388798|NCT01751984|184678305|SUPERIORITY||Least squares mean difference|-4.2|||=|0.2555|TWO_SIDED|95.0|-11.7|3.2|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||3.2|-11.7|=0.2555
92388799|NCT01751984|184678306|SUPERIORITY||Least squares mean difference|11.7||||0.2563|TWO_SIDED|95.0|-8.8|32.1|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||32.1|-8.8|0.2563
92388800|NCT01751984|184678307|SUPERIORITY||Least squares mean difference|-23.7||||0.2565|TWO_SIDED|95.0|-65.4|18.0|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||18.0|-65.4|0.2565
92388801|NCT01751984|184678308|SUPERIORITY||Least squares mean difference|4.0||||0.776|TWO_SIDED|95.0|-24.1|32.0|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||32.0|-24.1|0.7760
92417993|NCT04972630|184723911|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-2.8|||||TWO_SIDED|95.0||||||||||||
92417994|NCT04972630|184723912|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-9.2|||||TWO_SIDED|95.0||||||||||||
92417995|NCT04972630|184723913|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|3.2|||||TWO_SIDED|95.0||||||||||||
92417996|NCT04972630|184723914|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-5.0|||||TWO_SIDED|95.0||||||||||||
92417997|NCT04972630|184723915|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-4.5|||||TWO_SIDED|95.0||||||||||||
92417998|NCT04972630|184723916|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-6.4|||||TWO_SIDED|95.0||||||||||||
92417999|NCT04972630|184723917|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-3.8|||||TWO_SIDED|95.0||||||||||||
92418000|NCT04972630|184723918|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-16.7|||||TWO_SIDED|95.0||||||||||||
92418001|NCT04972630|184723919|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0||||||||||||
92418002|NCT04972630|184723920|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0||||||||Baseline, control vs. intervention||||
92169861|NCT01443845|184228414|SUPERIORITY_OR_OTHER||Rate Ratio|1.05|STANDARD_ERROR_OF_MEAN|0.114||0.6475|TWO_SIDED|95.0|0.84|1.32|||negative binomial regression|||Subgroup analysis between patients taking Advair verses patients taking Symbicort as LABA/ICS therapy.||1.32|0.84|0.6475
92235162|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.6|||||TWO_SIDED|95.0|4.07|7.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||7.69|4.07|
92418003|NCT04972630|184723920|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|5.5|||||TWO_SIDED|95.0||||||||Week 4, control vs. intervention||||
92418004|NCT04972630|184723920|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0||||||||Week 12, control vs. intervention||||
92418005|NCT04972630|184723920|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|2.6|||||TWO_SIDED|95.0||||||||Week 24, control vs. intervention||||
92418006|NCT04972630|184723921|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-2.2|||||TWO_SIDED|95.0||||||||Baseline, control vs. intervention||||
92418007|NCT04972630|184723921|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0||||||||Week 4, control vs. intervention||||
92418008|NCT04972630|184723921|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0||||||||Week 12, control vs. intervention||||
92418009|NCT04972630|184723921|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0||||||||Week 24, control vs. intervention||||
92418010|NCT04214288|184723923|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0167||90.0|0.42|0.82|||Log Rank|The analysis was performed using a stratified Cox Proportional Hazards model.|A hazard ratio \< 1 favours AZD9833 to be associated with a longer progression-free survival than fulvestrant.|||0.82|0.42|0.0167
92418011|NCT04214288|184723923|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.009||90.0|0.46|0.89|||Log Rank|The analysis was performed using a stratified Cox Proportional Hazards model.|A hazard ratio \< 1 favours AZD9833 to be associated with a longer progression-free survival than fulvestrant.|||0.89|0.46|0.0090
92418012|NCT04214288|184723924|SUPERIORITY||Odds Ratio (OR)|1.42||||0.4828||90.0|0.63|3.31|||Regression, Logistic|The analysis was performed using logistic regression model adjusting for prior use of CDK4/6 inhibitors and presence of lung and/or liver metastasis.|An odds ratio \> 1 favours AZD9833.|||3.31|0.63|0.4828
92418013|NCT04214288|184723924|SUPERIORITY||Odds Ratio (OR)|1.57||||0.3691||90.0|0.69|3.67|||Regression, Logistic|The analysis was performed using logistic regression model adjusting for prior use of CDK4/6 inhibitors and presence of lung and/or liver metastasis.|An odds ratio \> 1 favours AZD9833.|||3.67|0.69|0.3691
92418014|NCT04214288|184723928|SUPERIORITY||Odds Ratio (OR)|1.48||||0.2554|TWO_SIDED|90.0|0.84|2.64|||Regression, Logistic|The analysis was performed using logistic regression model adjusting for prior use of CDK4/6 inhibitors and presence of lung and/or liver metastasis.|An odds ratio \> 1 favours AZD9833.|||2.64|0.84|0.2554
92169862|NCT01443845|184228415|SUPERIORITY_OR_OTHER||Rate Ratio|0.95|STANDARD_ERROR_OF_MEAN|0.118||0.6354|TWO_SIDED|95.0|0.75|1.19|||negative binomial regression|||||1.19|0.75|0.6354
92169863|NCT01443845|184228416|SUPERIORITY_OR_OTHER||Rate Ratio|0.9|STANDARD_ERROR_OF_MEAN|0.06||0.0884|TWO_SIDED|95.0|0.8|1.02|||negative binomial regression|||||1.02|0.8|0.0884
92418015|NCT04214288|184723928|SUPERIORITY||Odds Ratio (OR)|1.62||||0.1658||90.0|0.91|2.89|||Regression, Logistic|The analysis was performed using logistic regression model adjusting for prior use of CDK4/6 inhibitors and presence of lung and/or liver metastasis.|An odds ratio \> 1 favours AZD9833.|||2.89|0.91|0.1658
92418016|NCT02278341|184723938|NON_INFERIORITY|Non Inferiority, Margin = -0.75|LSM Difference|0.235|||<|0.001|TWO_SIDED|95.0|0.132|0.339||p-value for non-inferiority test based on 1-sided significance level.|Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb and baseline Hb by visit as continuous variable.||0.339|0.132|<0.001
92418017|NCT02278341|184723939|NON_INFERIORITY|Non-Inferiority, Margin = -0.75|LSM Difference|0.171|||<|0.001|TWO_SIDED|95.0|0.082|0.261||p-value for non-inferiority test based on 1-sided significance level.|ANCOVA|||The model includes treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable. Statistical analysis used was ANCOVA model with multiple imputations (MI). Missing hemoglobin data was imputed for each treatment relying on non-missing data from all participants within each treatment group using the MCMC imputation model.||0.261|0.082|<0.001
92418018|NCT02278341|184723940|NON_INFERIORITY|Non-inferiority of roxadustat versus ESA (the non-inferiority margin for the difference between groups is -15%).|Difference of Percentages|2.3|||<|0.05|TWO_SIDED|95.0|-2.9|7.6||p-value for non-inferiority test based on 1-sided significance level.|Miettinen and Nurminen|||A generalized linear model was used to estimate the difference in response rates between the arms, as an approximation for the Miettinen and Nurminen method, adjusting for following covariates: region, previous ESA treatment, cardiovascular history and baseline Hb as categorical variables.||7.6|-2.9|<0.05
92235163|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.6|||||TWO_SIDED|95.0|2.5|5.2|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||5.20|2.50|
92388802|NCT01751984|184678309|SUPERIORITY||Clopper-Pearson methodology|61.8|||<|0.0001|TWO_SIDED|95.0|45.4|78.1||Based on Fisher's exact test comparing the proportion of participants who achieved LDL-C goal at Week 8 (End of Study) in the ETC-1002 and placebo groups.|Fisher Exact||ETC-1002 minus placebo for the proportion of participants who achieved LDL-C goal at Week 8 (End of Study). The confidence interval was based on a normal approximation to the binomial distribution.|||78.1|45.4|<0.0001
92235164|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.9|||||TWO_SIDED|95.0|2.1|4.04|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||4.04|2.10|
92388803|NCT00587158|184678312|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Fisher Exact|||||||0.0005
92388804|NCT00587158|184678313|SUPERIORITY_OR_OTHER|||||||0.4571||95.0|||||Fisher Exact|||||||0.4571
92388805|NCT00587158|184678314|SUPERIORITY_OR_OTHER|||||||0.229||95.0|||||Fisher Exact|||||||0.2290
92388806|NCT00587158|184678315|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Wilcoxon (Mann-Whitney)|||The median PTH level at baseline was compared between the two treatment groups.||||0.17
92388807|NCT00587158|184678315|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|||The median PTH level at 21 days was compared between the two treatment groups.||||0.005
92388808|NCT00587158|184678315|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||The median PTH level at 90 days was compared between the two treatment groups.||||<0.0001
92388809|NCT00587158|184678315|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|||The median PTH level at one year was compared between the two treatment groups.||||0.0004
92388810|NCT00587158|184678316|SUPERIORITY_OR_OTHER|||||||0.833||95.0|||||Wilcoxon (Mann-Whitney)|||The median BAP level at baseline was compared between the two treatment groups.||||0.833
92388811|NCT00587158|184678316|SUPERIORITY_OR_OTHER|||||||0.553||95.0|||||Wilcoxon (Mann-Whitney)|||The median BAP level at 21 days was compared between the two treatment groups.||||0.553
92388812|NCT00587158|184678316|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Wilcoxon (Mann-Whitney)|||The median BAP level at 90 days was compared between the two treatment groups.||||0.035
92388813|NCT00587158|184678316|SUPERIORITY_OR_OTHER|||||||0.171||95.0|||||Wilcoxon (Mann-Whitney)|||The median BAP level at one year was compared between the two treatment groups.||||0.171
92388814|NCT00587158|184678317|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||t-test, 2 sided|||||||0.98
92388815|NCT00587158|184678318|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||t-test, 2 sided|||||||0.41
92418019|NCT02278341|184723941|SUPERIORITY||LSM Difference|-0.377|||<|0.001|TWO_SIDED|95.0|-0.451|-0.304||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline LDL, baseline Hb as continuous variables.||-0.304|-0.451|<0.001
92418020|NCT02278341|184723942|SUPERIORITY||LSM Difference|-31.9|||<|0.001|TWO_SIDED|95.0|-41.4|-22.4||p-value for superiority test based on 2-sided significance level|ANCOVA|||The model includes treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable.||-22.4|-41.4|<0.001
92388816|NCT00587158|184678321|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||t-test, 2 sided|||||||0.66
92388817|NCT00587158|184678322|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||t-test, 2 sided|||||||0.66
92388818|NCT00587158|184678323|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||t-test, 2 sided|||||||0.11
92388819|NCT00587158|184678324|SUPERIORITY_OR_OTHER|||||||1||95.0|||||t-test, 2 sided|||The number of subjects with mild interstitial fibrosis (Banff ci score \> 0 and \< 2) at one year was compared between treatment groups.||||1.0
92388820|NCT00587158|184678324|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||t-test, 2 sided|||The number of subjects with moderate to mild interstitial fibrosis (Banff ci score greater than or equal to 2) at one year was compared between treatment groups.||||0.04
92388821|NCT01510158|184678348|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|0.17|0.36|||Cochran-Mantel-Haenszel|||||0.36|0.17|<0.0001
92388822|NCT01510158|184678348|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.31|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|0.22|0.41|||Cochran-Mantel-Haenszel|||||0.41|0.22|<0.0001
92388823|NCT01510158|184678349|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99||||0.9796|TWO_SIDED|95.0|0.61|1.61|||Negative Binomial Regression|||||1.61|0.61|0.9796
92388824|NCT01510158|184678349|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88||||0.6125|TWO_SIDED|95.0|0.54|1.43|||Negative Binomial Regression|||||1.43|0.54|0.6125
92388825|NCT01510158|184678350|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.29||||0.0183|TWO_SIDED|95.0|-0.51|-0.08|||Cochran-Mantel-Haenszel|||||-0.08|-0.51|0.0183
92388826|NCT01510158|184678350|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.08||||0.5974|TWO_SIDED|95.0|-0.37|0.2|||Cochran-Mantel-Haenszel|||||0.2|-0.37|0.5974
92388827|NCT03078556|184678351|OTHER||Ratio|1.271|||||TWO_SIDED|90.0|1.1894|1.3582|||||Ratio (B/A) of plasma DTG has been presented.|||1.3582|1.1894|
92388828|NCT03078556|184678351|OTHER||Ratio|1.0341|||||TWO_SIDED|90.0|1.0097|1.0591|||||Ratio (B/A) of plasma 3TC has been presented.|||1.0591|1.0097|
92388829|NCT03078556|184678352|OTHER||Ratio|1.155|||||TWO_SIDED|90.0|1.0699|1.2468|||||Ratio (C/A) of plasma DTG has been presented.|||1.2468|1.0699|
92388830|NCT03078556|184678352|OTHER||Ratio|1.0635|||||TWO_SIDED|90.0|1.0413|1.0861|||||Ratio (C/A) of plasma 3TC has been presented.|||1.0861|1.0413|
92388831|NCT03078556|184678353|OTHER||Ratio|1.2756|||||TWO_SIDED|90.0|1.1919|1.3651|||||Ratio (B/A) of plasma DTG has been presented.|||1.3651|1.1919|
92388832|NCT03078556|184678353|OTHER||Ratio|1.0372|||||TWO_SIDED|90.0|1.0116|1.0634|||||Ratio (B/A) of plasma 3TC has been presented.|||1.0634|1.0116|
92388833|NCT03078556|184678354|OTHER||Ratio|1.1578|||||TWO_SIDED|90.0|1.0718|1.2507|||||Ratio (C/A) of plasma DTG has been presented.|||1.2507|1.0718|
92388834|NCT03078556|184678354|OTHER||Ratio|1.0702|||||TWO_SIDED|90.0|1.0464|1.0946|||||Ratio (C/A) of plasma 3TC has been presented.|||1.0946|1.0464|
92388835|NCT03078556|184678355|OTHER||Ratio|1.2805|||||TWO_SIDED|90.0|1.189|1.379|||||Ratio (B/A) of plasma DTG has been presented.|||1.3790|1.1890|
92388836|NCT03078556|184678355|OTHER||Ratio|1.1956|||||TWO_SIDED|90.0|1.1437|1.2498|||||Ratio (B/A) of plasma 3TC has been presented.|||1.2498|1.1437|
92388837|NCT03078556|184678356|OTHER||Ratio|1.141|||||TWO_SIDED|90.0|1.0533|1.2361|||||Ratio (C/A) of plasma DTG has been presented.|||1.2361|1.0533|
92388838|NCT03078556|184678356|OTHER||Ratio|1.3176|||||TWO_SIDED|90.0|1.2616|1.376|||||Ratio (C/A) of plasma 3TC has been presented.|||1.3760|1.2616|
92388839|NCT03078556|184678357|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||Median Difference of plasma DTG has been presented.|||0.000|0.000|
92388840|NCT03078556|184678357|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||Median Difference of plasma 3TC has been presented.|||0.000|0.000|
92388841|NCT03078556|184678358|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|-0.004|0.0|||||Median Difference of plasma DTG has been presented.|||0.000|-0.004|
92388842|NCT03078556|184678358|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||Median Difference of plasma 3TC has been presented.|||0.000|0.000|
92388843|NCT03078556|184678359|OTHER||Median Difference (Final Values)|-0.127|||||TWO_SIDED|90.0|-0.5|0.248|||||Median Difference of plasma DTG has been presented.|||0.248|-0.500|
92388844|NCT03078556|184678359|OTHER||Median Difference (Final Values)|-0.126|||||TWO_SIDED|90.0|-0.253|-0.001|||||Median Difference of plasma 3TC has been presented.|||-0.001|-0.253|
92388845|NCT03078556|184678360|OTHER||Median Difference (Final Values)|-0.127|||||TWO_SIDED|90.0|-0.497|0.132|||||Median Difference of plasma DTG has been presented.|||0.132|-0.497|
92388846|NCT03078556|184678360|OTHER||Median Difference (Final Values)|-0.248|||||TWO_SIDED|90.0|-0.376|-0.001|||||Median Difference of plasma 3TC has been presented.|||-0.001|-0.376|
92388847|NCT03078556|184678369|OTHER||Ratio|1.2774|||||TWO_SIDED|90.0|1.1931|1.3676|||||Ratio (B/A) of plasma DTG has been presented.|||1.3676|1.1931|
92388848|NCT03078556|184678369|OTHER||Ratio|1.0475|||||TWO_SIDED|90.0|1.0185|1.0773|||||Ratio (B/A) of plasma 3TC has been presented.|||1.0773|1.0185|
92388849|NCT03078556|184678370|OTHER||Ratio|1.1599|||||TWO_SIDED|90.0|1.0711|1.256|||||Ratio (C/A) of plasma DTG has been presented.|||1.2560|1.0711|
92388850|NCT03078556|184678370|OTHER||Ratio|1.0807|||||TWO_SIDED|90.0|1.0539|1.1081|||||Ratio (C/A) of plasma 3TC has been presented.|||1.1081|1.0539|
92388851|NCT03078556|184678371|OTHER||Ratio|0.7868|||||TWO_SIDED|90.0|0.7363|0.8408|||||Ratio (B/A) of plasma DTG has been presented.|||0.8408|0.7363|
92388852|NCT03078556|184678371|OTHER||Ratio|0.967|||||TWO_SIDED|90.0|0.9442|0.9904|||||Ratio (B/A) of plasma 3TC has been presented.|||0.9904|0.9442|
92388853|NCT03078556|184678372|OTHER||Ratio|0.8658|||||TWO_SIDED|90.0|0.8021|0.9347|||||Ratio (C/A) of plasma DTG has been presented.|||0.9347|0.8021|
92388854|NCT03078556|184678372|OTHER||Ratio|0.9403|||||TWO_SIDED|90.0|0.9207|0.9604|||||Ratio (C/A) of plasma 3TC has been presented.|||0.9604|0.9207|
92388855|NCT03078556|184678373|OTHER||Ratio|0.7859|||||TWO_SIDED|90.0|0.7318|0.844|||||Ratio (B/A) of plasma DTG has been presented.|||0.8440|0.7318|
92388856|NCT03078556|184678373|OTHER||Ratio|0.9704|||||TWO_SIDED|90.0|0.9157|1.0284|||||Ratio (B/A) of plasma 3TC has been presented.|||1.0284|0.9157|
92388857|NCT03078556|184678374|OTHER||Ratio|0.8571|||||TWO_SIDED|90.0|0.7914|0.9282|||||Ratio (C/A) of plasma DTG has been presented.|||0.9282|0.7914|
92388858|NCT03078556|184678374|OTHER||Ratio|0.9153|||||TWO_SIDED|90.0|0.8613|0.9728|||||Ratio (C/A) of plasma 3TC has been presented.|||0.9728|0.8613|
92388859|NCT03078556|184678375|OTHER||Ratio|1.2632|||||TWO_SIDED|90.0|1.1811|1.3511|||||Ratio (B/A) of plasma DTG has been presented.|||1.3511|1.1811|
92388860|NCT03078556|184678375|OTHER||Ratio|0.9598|||||TWO_SIDED|90.0|0.9268|0.9941|||||Ratio (B/A) of plasma 3TC has been presented.|||0.9941|0.9268|
92388861|NCT03078556|184678376|OTHER||Ratio|1.1425|||||TWO_SIDED|90.0|1.0597|1.2317|||||Ratio (C/A) of plasma DTG has been presented.|||1.2317|1.0597|
92388862|NCT03078556|184678376|OTHER||Ratio|0.9548|||||TWO_SIDED|90.0|0.9299|0.9804|||||Ratio (C/A) of plasma 3TC has been presented.|||0.9804|0.9299|
92388863|NCT03078556|184678377|OTHER||Ratio|1.1839|||||TWO_SIDED|90.0|1.0921|1.2834|||||Ratio (B/A) of plasma DTG has been presented|||1.2834|1.0921|
92388864|NCT03078556|184678377|OTHER||Ratio|0.8874|||||TWO_SIDED|90.0|0.834|0.9443|||||Ratio (B/A) of plasma 3TC has been presented|||0.9443|0.8340|
92388865|NCT03078556|184678378|OTHER||Ratio|1.078|||||TWO_SIDED|90.0|0.9958|1.167|||||Ratio (B/A) of plasma DTG has been presented|||1.1670|0.9958|
92388866|NCT03078556|184678378|OTHER||Ratio|0.9049|||||TWO_SIDED|90.0|0.8474|0.9663|||||Ratio (B/A) of plasma 3TC has been presented|||0.9663|0.8474|
92388867|NCT03078556|184678379|OTHER||Ratio|1.1545|||||TWO_SIDED|90.0|1.0208|1.3058|||||Ratio (Bfed/B) of plasma DTG has been presented|||1.3058|1.0208|
92388868|NCT03078556|184678379|OTHER||Ratio|0.9577|||||TWO_SIDED|90.0|0.9126|1.0049|||||Ratio (Bfed/B) of plasma 3TC has been presented|||1.0049|0.9126|
92388869|NCT03078556|184678380|OTHER||Ratio|1.3256|||||TWO_SIDED|90.0|1.1837|1.4845|||||Ratio (Cfed/C) of plasma DTG has been presented|||1.4845|1.1837|
92388870|NCT03078556|184678380|OTHER||Ratio|0.9114|||||TWO_SIDED|90.0|0.8658|0.9593|||||Ratio (Cfed/C) of plasma 3TC has been presented|||0.9593|0.8658|
92388871|NCT03078556|184678381|OTHER||Ratio|1.1481|||||TWO_SIDED|90.0|1.0154|1.2982|||||Ratio (Bfed/B) of plasma DTG has been presented|||1.2982|1.0154|
92388872|NCT03078556|184678381|OTHER||Ratio|0.9524|||||TWO_SIDED|90.0|0.9086|0.9983|||||Ratio (Bfed/B) of plasma 3TC has been presented|||0.9983|0.9086|
92388873|NCT03078556|184678382|OTHER||Ratio|1.3176|||||TWO_SIDED|90.0|1.175|1.4775|||||Ratio (Cfed/C) of plasma DTG has been presented|||1.4775|1.1750|
92388874|NCT03078556|184678382|OTHER||Ratio|0.9048|||||TWO_SIDED|90.0|0.8592|0.9528|||||Ratio (Cfed/C) of plasma 3TC has been presented|||0.9528|0.8592|
92388875|NCT03078556|184678383|OTHER||Ratio|1.0808|||||TWO_SIDED|90.0|0.9527|1.2261|||||Ratio (Bfed/B) of plasma DTG has been presented|||1.2261|0.9527|
92388876|NCT03078556|184678383|OTHER||Ratio|0.7097|||||TWO_SIDED|90.0|0.6474|0.7779|||||Ratio (Bfed/B) of plasma 3TC has been presented|||0.7779|0.6474|
92388877|NCT03078556|184678384|OTHER||Ratio|1.2096|||||TWO_SIDED|90.0|1.0521|1.3908|||||Ratio (Cfed/C) of plasma DTG has been presented|||1.3908|1.0521|
92388878|NCT03078556|184678384|OTHER||Ratio|0.6826|||||TWO_SIDED|90.0|0.5861|0.795|||||Ratio (Cfed/C) of plasma 3TC has been presented|||0.7950|0.5861|
92388879|NCT03078556|184678385|OTHER||Median Difference (Final Values)|0.254|||||TWO_SIDED|90.0|0.25|0.378|||||Median Difference of plasma DTG has been presented|||0.378|0.250|
92388880|NCT03078556|184678385|OTHER||Median Difference (Final Values)|0.125|||||TWO_SIDED|90.0|0.0|0.127|||||Median Difference of plasma 3TC has been presented|||0.127|0.000|
92388881|NCT03078556|184678386|OTHER||Median Difference (Final Values)|0.126|||||TWO_SIDED|90.0|0.0|0.25|||||Median Difference of plasma DTG has been presented|||0.250|0.000|
92388882|NCT03078556|184678386|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.125|||||Median Difference of plasma 3TC has been presented|||0.125|0.000|
92235165|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.9|||||TWO_SIDED|95.0|2.26|3.71|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.71|2.26|
92388883|NCT03078556|184678387|OTHER||Median Difference (Final Values)|3.017|||||TWO_SIDED|90.0|1.872|4.496|||||Median Difference of plasma DTG has been presented|||4.496|1.872|
92388884|NCT03078556|184678387|OTHER||Median Difference (Final Values)|2.113|||||TWO_SIDED|90.0|1.5|2.751|||||Median Difference of plasma 3TC has been presented|||2.751|1.500|
92388885|NCT03078556|184678388|OTHER||Median Difference (Final Values)|2.5|||||TWO_SIDED|90.0|1.748|3.751|||||Median Difference of plasma DTG has been presented|||3.751|1.748|
92388886|NCT03078556|184678388|OTHER||Median Difference (Final Values)|1.503|||||TWO_SIDED|90.0|0.998|2.252|||||Median Difference of plasma 3TC has been presented|||2.252|0.998|
92388887|NCT03078556|184678397|OTHER||Ratio|1.0849|||||TWO_SIDED|90.0|0.9613|1.2245|||||Ratio (Bfed/B) of plasma DTG has been presented|||1.2245|0.9613|
92388888|NCT03078556|184678397|OTHER||Ratio|0.9363|||||TWO_SIDED|90.0|0.8913|0.9836|||||Ratio (Bfed/B) of plasma 3TC has been presented|||0.9836|0.8913|
92388889|NCT03078556|184678398|OTHER||Median Difference (Final Values)|1.2477|||||TWO_SIDED|90.0|1.1013|1.4136|||||Median Difference of plasma DTG has been presented|||1.4136|1.1013|
92418021|NCT02278341|184723943|NON_INFERIORITY|The margin for non-inferiority was -3.|LSM Difference|0.205|||<|0.05|TWO_SIDED|95.0|-0.649|1.059||p-value for non-inferiority test based on 1-sided significance level|Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits (week 8, week 12, week 28) and visit by treatment as categorical variables, and baseline SF-36 PF, baseline Hb as continuous variables.||1.059|-0.649|<0.05
92235166|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.8|||||TWO_SIDED|95.0|2.23|3.63|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.63|2.23|
92235167|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.1|||||TWO_SIDED|95.0|3.16|5.2|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||5.20|3.16|
92388890|NCT03078556|184678398|OTHER||Median Difference (Final Values)|0.8836|||||TWO_SIDED|90.0|0.8351|0.935|||||Median Difference of plasma 3TC has been presented|||0.9350|0.8351|
92388891|NCT03078556|184678399|OTHER||Ratio|0.8661|||||TWO_SIDED|90.0|0.7658|0.9796|||||Ratio (Bfed/B) of plasma DTG has been presented|||0.9796|0.7658|
92388892|NCT03078556|184678399|OTHER||Ratio|1.0442|||||TWO_SIDED|90.0|0.9951|1.0957|||||Ratio (Bfed/B) of plasma 3TC has been presented|||1.0957|0.9951|
92388893|NCT03078556|184678400|OTHER||Ratio|0.7544|||||TWO_SIDED|90.0|0.6736|0.8448|||||Ratio (Cfed/C) of plasma DTG has been presented|||0.8448|0.6736|
92388894|NCT03078556|184678400|OTHER||Ratio|1.0972|||||TWO_SIDED|90.0|1.0424|1.155|||||Ratio (Cfed/C) of plasma 3TC has been presented|||1.1550|1.0424|
92388895|NCT03078556|184678403|OTHER||Ratio|0.8654|||||TWO_SIDED|90.0|0.7629|0.9816|||||Ratio (Bfed/B) of plasma DTG has been presented|||0.9816|0.7629|
92388896|NCT03078556|184678403|OTHER||Ratio|1.0841|||||TWO_SIDED|90.0|0.9139|1.286|||||Ratio (Bfed/B) of plasma 3TC has been presented|||1.2860|0.9139|
92388897|NCT03078556|184678404|OTHER||Ratio|0.7657|||||TWO_SIDED|90.0|0.6702|0.8749|||||Ratio (Cfed/C) of plasma DTG has been presented|||0.8749|0.6702|
92388898|NCT03078556|184678404|OTHER||Ratio|1.197|||||TWO_SIDED|90.0|1.0869|1.3182|||||Ratio (Cfed/C) of plasma 3TC has been presented|||1.3182|1.0869|
92388899|NCT03078556|184678405|OTHER||Ratio|1.2929|||||TWO_SIDED|90.0|1.1281|1.4819|||||Ratio (Bfed/B) of plasma DTG has been presented|||1.4819|1.1281|
92388900|NCT03078556|184678405|OTHER||Ratio|1.2015|||||TWO_SIDED|90.0|1.1074|1.3036|||||Ratio (Bfed/B) of plasma 3TC has been presented|||1.3036|1.1074|
92388901|NCT03078556|184678406|OTHER||Ratio|1.469|||||TWO_SIDED|90.0|1.3009|1.6588|||||Ratio (Cfed/C) of plasma DTG has been presented|||1.6588|1.3009|
92388902|NCT03078556|184678406|OTHER||Ratio|1.1935|||||TWO_SIDED|90.0|1.1142|1.2785|||||Ratio (Cfed/C) of plasma 3TC has been presented|||1.2785|1.1142|
92388903|NCT01466127|184678426|SUPERIORITY_OR_OTHER|||||||0.28|||||||t-test, 2 sided|||||||0.28
92388904|NCT02588261|184678463|SUPERIORITY||Hazard Ratio (HR)|1.611||||0.992|TWO_SIDED|95.0|1.086|2.391|||Log Rank|||Comparison between ASP8273 and Erlotinib or Gefitinib treatment groups was performed using log-rank test stratified by ECOG (0 and 1 vs 2), EGFR mutation type (exon 19 deletion or exon 21 L858R) and TKI chosen by the site (erlotinib or gefitinib) before randomization. Comparison was tested at 1-sided significance level of 0.025. Hazard ratio based on Cox proportional hazards model. Assuming proportional hazards, HR \< 1 indicated a reduction in hazard rate in favor of ASP8273 treatment group.||2.391|1.086|0.992
92388905|NCT02588261|184678465|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||Comparison between ASP8273 and Erlotinib or Gefitinib treatment groups was performed using stratified Cochran-Mantel-Haenszel (CMH) test, stratified by ECOG (0 and 1 vs 2), EGFR mutation type (exon 19 deletion or exon 21 L858R) and TKI chosen by the site (erlotinib or gefitinib) before randomization. Comparison was tested at 1-sided significance level of 0.025.||||1.000
92388906|NCT02588261|184678466|SUPERIORITY||Hazard Ratio (HR)|1.674||||0.998|TWO_SIDED|95.0|1.165|2.406|||Log Rank|||Comparison between ASP8273 and Erlotinib or Gefitinib treatment groups was performed using log-rank test stratified by ECOG (0 and 1 vs 2), EGFR mutation type (exon 19 deletion or exon 21 L858R) and TKI chosen by the site (erlotinib or gefitinib) before randomization. Comparison was tested at 1-sided significance level of 0.025. Hazard ratio based on Cox proportional hazards model. Assuming proportional hazards, HR \< 1 indicated a reduction in hazard rate in favor of ASP8273 treatment group.||2.406|1.165|0.998
92388907|NCT02588261|184678467|SUPERIORITY|||||||0.839|||||||Cochran-Mantel-Haenszel|||Comparison between ASP8273 and Erlotinib or Gefitinib treatment groups was performed using stratified Cochran-Mantel-Haenszel (CMH) test, stratified by ECOG (0 and 1 vs 2), EGFR mutation type (exon 19 deletion or exon 21 L858R) and TKI chosen by the site (erlotinib or gefitinib) before randomization. Comparison was tested at 1-sided significance level of 0.025.||||0.839
92235168|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.5|||||TWO_SIDED|95.0|2.06|3.14|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.14|2.06|
92235169|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.0|||||TWO_SIDED|95.0|2.46|3.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.60|2.46|
92388908|NCT02588261|184678468|SUPERIORITY||Hazard Ratio (HR)|1.298||||0.78|TWO_SIDED|95.0|0.661|2.548|||Log Rank|||Comparison between ASP8273 and Erlotinib or Gefitinib treatment groups was performed using log-rank test stratified by ECOG (0 and 1 vs 2), EGFR mutation type (exon 19 deletion or exon 21 L858R) and TKI chosen by the site (erlotinib or gefitinib) before randomization. Comparison was tested at 1-sided significance level of 0.025. Hazard ratio based on Cox proportional hazards model. Assuming proportional hazards, HR \< 1 indicated a reduction in hazard rate in favor of ASP8273 treatment group.||2.548|0.661|0.780
92388909|NCT02287467|184678481|SUPERIORITY||Odds Ratio (OR)|1.25||||0.33|TWO_SIDED|95.0|0.79|1.97|||Regression, Logistic|Adjusted for baseline clinical status, region, and participation in the pilot study.|Odds ratio is hIVIG vs. placebo. A value greater than 1 favors the hIVIG group.|Odds ratio of being in a better category, as assessed using a proportional odds model. Multiple imputation techniques were used to impute an outcome for 4 patients for whom the outcome was unknown.||1.97|0.79|.33
92388910|NCT02287467|184678482|SUPERIORITY||Odds Ratio (OR)|0.95||||0.84|TWO_SIDED|95.0|0.61|1.48|||Regression, Logistic|Adjusted for baseline clinical status, region, and participation in the pilot study.|Odds ratio is for hIVIG vs placebo. An odds ratio greater than 1 favors the hIVIG group.|Odds ratio for being in a better category, from a proportional odds model||1.48|0.61|.84
92388911|NCT02287467|184678483|SUPERIORITY||Odds Ratio (OR)|0.87||||0.52|TWO_SIDED|95.0|0.57|1.33|||Regression, Cox|adjusted for baseline clinical status, region, and participation in the pilot study.|Odds ratio is for hIVIG vs. placebo. An odds ratio \> 1 favors the hIVIG group.|Odds ratio for being in a better group, from a proportional odds model.||1.33|0.57|.52
92388912|NCT02287467|184678484|SUPERIORITY||Odds Ratio (OR)|1.49||||0.2|TWO_SIDED|95.0|0.81|2.74|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in the pilot study.|Odds ratio for hIVIG vs placebo. An odds ratio \> 1.0 favors the hIVIG group.|||2.74|0.81|.20
92388913|NCT02287467|184678485|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.44|TWO_SIDED|95.0|0.85|1.45|||Regression, Cox|Stratified by baseline clinical status, region, and participation in the pilot study.|hazard ratio is hIVIG vs placebo; a hazard ratio \>1 favors the hIVIG group.|Deaths during hospitalization are censored after day 7.||1.45|.85|.44
92388914|NCT02287467|184678486|SUPERIORITY||Hazard Ratio (HR)|1.72||||0.4|TWO_SIDED|95.0|0.48|6.15|||Regression, Cox|stratified by baseline clinical status, region, and participation in pilot study|hazard ratio is for hIVIG vs placebo; a hazard ratio \< 1.0 favors the hIVIG group.|||6.15|.48|.40
92388915|NCT02287467|184678487|SUPERIORITY||Odds Ratio (OR)|0.87||||0.74|TWO_SIDED|95.0|0.38|1.98|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|odds ratio is for hIVIG vs placebo; an odds ratio \> 1.0 favors hIVIG|||1.98|.38|.74
92388916|NCT02287467|184678488|SUPERIORITY||Mean Difference (Net)|0.14||||0.49|TWO_SIDED|95.0|-0.26|0.54|||Regression, Linear|Adjusted for baseline RNA, geographic region, and influenza subtype|Change is calculated as day 3 - baseline. Difference in changes is hIVIG - placebo.|||.54|-.26|.49
92388917|NCT02287467|184678489|SUPERIORITY||Odds Ratio (OR)|0.97||||0.93|TWO_SIDED|95.0|0.5|1.97|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study.|Odds ratio is for hIVIG vs placebo.|||1.97|0.5|.93
92388918|NCT02287467|184678490|SUPERIORITY||Odds Ratio (OR)|0.92||||0.81|TWO_SIDED|95.0|0.5|1.82|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|odds ratio is for hIVIG group vs placebo|||1.82|0.5|.81
92388919|NCT02287467|184678491|SUPERIORITY||Odds Ratio (OR)|1.17||||0.55|TWO_SIDED|95.0|0.7|1.95|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in the pilot study|Odds ratio (hIVIG vs placebo) of being in a better category. An odds ratio \> 1 favors the hIVIG group.|Proportional odds for being in a better category||1.95|0.70|.55
92388920|NCT02287467|184678492|SUPERIORITY||Odds Ratio (OR)|1.12||||0.77|TWO_SIDED|95.0|0.5|2.31|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|odds ratio is for hIVIG vs placebo|||2.31|.5|.77
92388921|NCT02287467|184678493|SUPERIORITY||Odds Ratio (OR)|1.32||||0.34|TWO_SIDED|95.0|0.7|2.34|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|odds ratio is expressed as hIVIG vs placebo|||2.34|0.7|.34
92388922|NCT02287467|184678494|SUPERIORITY||Odds Ratio (OR)|0.9||||0.73|TWO_SIDED|95.0|0.5|1.62||adjusted for baseline clinical status, region, and participation in pilot study|Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|odds ratio (hIVIG vs placebo) is for being in a better category. An odds ratio \>1 favors the hIVIG group.|||1.62|.50|.73
92388923|NCT02287467|184678495|SUPERIORITY||Odds Ratio (OR)|0.94||||0.82|TWO_SIDED|95.0|0.55|1.59|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in the pilot study.|Odds ratio (hIVIG vs placebo) is for being in a better category.|Multiple imputation was used to estimate the outcome for 3 participants for whom the outcome was partially unknown.||1.59|0.55|.82
92388924|NCT02287467|184678496|SUPERIORITY||Odds Ratio (OR)|3.19||||0.02|TWO_SIDED|95.0|1.21|8.42|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|Odds ratio (hIVIG vs placebo) for a better outcome. An odds ratio \> 1 favors the hIVIG group.|Multiple imputation was used to estimate the outcome for one participant.||8.42|1.21|.02
92388925|NCT02287467|184678497|SUPERIORITY||ratio of geometric means|1.5||||0.18|TWO_SIDED|95.0|0.84|2.7|||Mixed Models Analysis|longitudinal regression with adjustment for baseline titer|Ratio of hIVIG group to placebo group. A ratio \> 1.0 indicates higher titers for the hIVIG group.|HAI measurements were log-transformed to compute treatment differences and the model was adjusted for baseline titer.||2.7|0.84|.18
92235170|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.7|||||TWO_SIDED|95.0|2.24|3.15|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.15|2.24|
92235171|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.9|||||TWO_SIDED|95.0|4.55|7.76|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||7.76|4.55|
92235172|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.0|||||TWO_SIDED|95.0|3.13|5.17|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||5.17|3.13|
92235173|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.9|||||TWO_SIDED|95.0|5.16|9.25|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||9.25|5.16|
92388926|NCT02287467|184678498|SUPERIORITY||ratio of geometric means|1.31||||0.13|TWO_SIDED|95.0|0.93|1.8|||Mixed Models Analysis|longitudinal analysis of log-transformed titers adjust for baseline titer.|Ratio of geometric means of hIVIG vs placebo. A ratio \>1.0 indicates higher titers in the hIVIG group on day 7.|||1.8|0.93|.13
92388927|NCT02287467|184678499|SUPERIORITY||ratio of geometric means|0.94||||0.78|TWO_SIDED|95.0|0.58|1.5|||Mixed Models Analysis|log-transformed titers adjusted for baseline titer|ratio of geometric mean for hIVIG vs placebo. A ratio \> 1.0 indicates higher titers at day 7 for the hIVIG group.|||1.5|0.58|.78
92388928|NCT01915173|184678517|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Regression, Logistic|||All 4 arms were combined to compare the Standard Interview groups to the Expanded Interview groups. We calculated that we had 45-74% power to detect a 30-40% difference in responders between groups in the pre-specified primary outcome measure, the percent of subjects with a 50% or greater improvement in GERD symptom severity.||||0.01
92388929|NCT01915173|184678517|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||Regression, Logistic|||All 4 arms were combined to compare the Placebo groups to the Supplement groups. We calculated that we had 45-74% power to detect a 30-40% difference in responders between groups in the pre-specified primary outcome measure, the percent of subjects with a 50% or greater improvement in GERD symptom severity.||||0.33
92388930|NCT01456169|184678519|SUPERIORITY_OR_OTHER||LS mean difference|-14.7|||<|0.001|TWO_SIDED|95.0|-17.6|-11.8|||ANCOVA|ANCOVA model with treatment as a fixed effect and baseline trough, sitting, clinic SBP as a covariate.||The type I error was controlled using a 2-step hierarchical testing procedure. In the first step, the high dose (40/25 mg) of Azilsartan medoxomil + chlorthalidone was compared to Azilsartan medoxomil alone. If the comparison in step 1 was statistically significant at a significance level of 5%, then step 2 was performed by comparing the low dose (40/12.5 mg) and monotherapy at the 5% significance level.||-11.8|-17.6|<0.001
92388931|NCT01456169|184678519|SUPERIORITY_OR_OTHER||LS mean difference|-9.5|||<|0.001|TWO_SIDED|95.0|-12.4|-6.5|||ANCOVA|ANCOVA model with treatment as a fixed effect and baseline trough, sitting, clinic SBP as a covariate||||-6.5|-12.4|<0.001
92388932|NCT00479336|184678560|SUPERIORITY_OR_OTHER||Slope|-0.021|STANDARD_ERROR_OF_MEAN|0.02||0.3167|TWO_SIDED|95.0|-0.061|0.02|||Regression, Linear|||A linear regression model using change in body weight from baseline at the final timepoint as the criterion variable and dose as the explanatory variable was fitted to the dataset. The null hypothesis of whether the regression coefficient is zero (analysis using t-statistics) was tested at a two-tailed significance level of 0.05, and estimated values for the slope and 95% confidence interval were calculated.||0.020|-0.061|0.3167
92388933|NCT02631551|184678576|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||GSP 301 NS vs GSP 301 placebo NS comparison for rTNSS was tested at 0.05 significance level.||||<0.0001
92388934|NCT02631551|184678576|SUPERIORITY|||||||0.0029|||||||Mixed Models Analysis|||GSP 301 NS vs Olopatadine HCl NS comparison for rTNSS was tested at 0.05 significance level.||||0.0029
92388935|NCT02631551|184678576|SUPERIORITY|||||||0.0587|||||||Mixed Models Analysis|||GSP 301 NS vs Mometasone furoate NS comparison for rTNSS was tested at 0.05 significance level.||||0.0587
92388936|NCT02631551|184678576|SUPERIORITY|||||||0.0755|||||||Mixed Models Analysis|||Olopatadine HCl NS vs GSP 301 Placebo NS comparison for rTNSS was tested at 0.05 significance level.||||0.0755
92388937|NCT02631551|184678576|SUPERIORITY|||||||0.0043|||||||Mixed Models Analysis|||Mometasone furoate NS vs GSP 301 Placebo NS comparison for rTNSS was tested at 0.05 significance level.||||0.0043
92388938|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.86||||||No adjustment for multiple comparisons. A-priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||Arm A vs Arm B shift test on Angiopoietin -- 2 prior to cycle 2. Wilcoxon rank-sum test p-value.||||0.86
92388939|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.76||||||Angiopoietin -- 2 prior to cycle 3.|Wilcoxon (Mann-Whitney)|||Angiopoietin -- 2 prior to cycle 3||||0.76
92235174|NCT01025336|184373539|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.8|||||TWO_SIDED|95.0|2.24|3.4|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.40|2.24|
92388940|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.14||||||No adjustment for multiple comparison. A-priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||Tie--2 Prior to cycle 2||||0.14
92418022|NCT02278341|184723944|NON_INFERIORITY|The margin for non-inferiority was -3.|LSM Difference|0.856|||<|0.05|TWO_SIDED|95.0|-0.115|1.828|||Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits (week 8, week 12, week 28) and visit by treatment as categorical variables, and baseline SF-36 VT, baseline Hb as continuous variables.||1.828|-0.115|<0.05
92235175|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.02|2.08|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 1: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.08|1.02|
92235176|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|1.5|||||TWO_SIDED|95.0|1.14|1.99|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 3: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.99|1.14|
92388941|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.069||||||No adjustment for multiple comparisons. A-priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||Tie -- 2 prior to cycle 3||||0.069
92388942|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.19||||||P-value is not adjusted for multiple comparisons. A-priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||VEGF -- A prior to cycle 2||||0.19
92388943|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.046||||||P-value is not adjusted for multiple comparisons. The a-priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||VEGF--A prior to cycle 3||||0.046
92388944|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.029||||||Not adjusted for multiple comparisons. A-priori threshold for statistical significance is 0.05|Wilcoxon (Mann-Whitney)|||PIGF Prior to Cycle 2||||0.029
92388945|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.2||||||P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05|Wilcoxon (Mann-Whitney)|||PIGF prior to cycle 3||||0.20
92388946|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.11||||||The p-value was not adjusted for multiple comparisons. The a-priori threshold for statistical significance is 0.05|Wilcoxon (Mann-Whitney)|||VEGFR--3 prior to cycle 2||||0.11
92388947|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.068||||||P-value was not adjusted for multiple comparisons. The a-priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||VEGFR--3 prior to cycle 3||||0.068
92388948|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.61||||||The p-value was not adjusted for multiple comparisons. The a-priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|||VEGF--C prior to cycle 2||||0.61
92388949|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.27||||||Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.|Wilcoxon (Mann-Whitney)|||VEGF--C prior to cycle 3||||0.27
92388950|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.61||||||The p-value was not adjusted for multiple comparisons. The a-priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||IL--8 prior to cycle 2||||0.61
92388951|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.49||||||The p-value was not adjusted for multiple comparisons, and the a-priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|||IL--8 prior to cycle 3||||0.49
92388952|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.82||||||The p-value was not adjusted for multiple comparisons. The a-priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||ICAM--1 prior to cycle 2||||0.82
92388953|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.069||||||The p-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||ICAM--1 prior to cycle 3||||0.069
92388954|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.34||||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||VCAM--1 prior to cycle 2||||0.34
92388955|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.046||||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was set to 0.05.|Wilcoxon (Mann-Whitney)|||VCAM--1 prior to cycle 3||||0.046
92388956|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.11||||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was set to 0.05.|Wilcoxon (Mann-Whitney)|||FGF2 prior to cycle 2||||0.11
92388957|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.23||||||The p-value was adjusted for multiple comparisons. The a prior threshold for statistical significance was set to 0.05.|Wilcoxon (Mann-Whitney)|||FGF2 prior to cycle 3||||0.23
92388958|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.37||||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was set to 0.05.|Wilcoxon (Mann-Whitney)|||PDGF--AA prior to cycle 2||||0.37
92388959|NCT01664182|184678581|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.35||||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was set to 0.05.|Wilcoxon (Mann-Whitney)|||PDGF--AA prior to cycle 3||||0.35
92169864|NCT01443845|184228417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0532|STANDARD_ERROR_OF_MEAN|0.0067|<|0.0001|TWO_SIDED|95.0|0.04|0.0664||The MMRM analysis is based on all postbaseline observed data using a mixed model with terms for treatment, baseline, visit, LAMA use, treatment-by-visit and baseline-by-visit interactions.|Mixed Model for Repeated Measures (MMRM)|||||0.0664|0.04|< 0.0001
92388960|NCT05292131|184678591|EQUIVALENCE|Bioequivalence (BE) was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 0.8 to 1.25 for AUC.|Geometric Mean Ratio (percentage [%])|97.5|||||TWO_SIDED|90.0|90.2|105.4||||||||105.40|90.20|
92388961|NCT05292131|184678592|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 0.8 to 1.25 for AUC0-t.|Geometric Mean Ratio (%)|97.05|||||TWO_SIDED|90.0|90.1|104.55||||||||104.55|90.10|
92388962|NCT05292131|184678593|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 0.8 to 1.25 for Cmax.|Geometric Mean Ratio (%)|96.21|||||TWO_SIDED|90.0|88.6|104.47||||||||104.47|88.60|
92388963|NCT05292131|184678596|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 0.8 to 1.25 for t½.|Geometric Mean Ratio (%)|101.13|||||TWO_SIDED|90.0|94.18|108.59||||||||108.59|94.18|
92388964|NCT05292131|184678597|EQUIVALENCE|The point estimate and the 90% CI for the median treatment differences for tmax was computed according to the Hodges-Lehmann's method.|Hodges-Lehman Estimate|0.4897|||||TWO_SIDED|90.0|-0.0073|0.9567||||||||0.9567|-0.0073|
92388965|NCT01345188|184678598|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058|||||||Paired t test|||||||0.058
92388966|NCT01345188|184678599|SUPERIORITY_OR_OTHER_LEGACY|||||||0.048|||||||Paired t test|||||||0.048
92388967|NCT01345188|184678600|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Wilcoxon Signed rank|||||||>0.05
92388968|NCT04607837|184678618|SUPERIORITY||Risk Difference (RD)|7.35||||0.2524|TWO_SIDED|95.0|-5.24|19.94|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common risk difference using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the risk difference being 0.||19.94|-5.24|0.2524
92418023|NCT02278341|184723945|NON_INFERIORITY|The margin for non-inferiority was 1.|LSM Difference|-0.849|||<|0.05|TWO_SIDED|95.0|-1.971|0.273||p-value for non-inferiority test based on 1-sided significance level|Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables, and baseline MAP, baseline Hb as continuous variables.||0.273|-1.971|<0.05
92388969|NCT04607837|184678619|SUPERIORITY||Risk Difference (RD)|15.61||||0.0068|TWO_SIDED|95.0|4.31|26.91|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||26.91|4.31|0.0068
92388970|NCT04607837|184678620|SUPERIORITY||Risk Difference (RD)|8.24||||0.2302|TWO_SIDED|95.0|-5.22|21.71|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||21.71|-5.22|0.2302
92388971|NCT04607837|184678621|SUPERIORITY||Risk Difference (RD)|7.12||||0.3339|TWO_SIDED|95.0|-7.32|21.55|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||21.55|-7.32|0.3339
92388972|NCT04607837|184678622|SUPERIORITY||Risk Difference (RD)|0.68||||0.9141|TWO_SIDED|95.0|-11.76|13.13|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||13.13|-11.76|0.9141
92418024|NCT02278341|184723946|NON_INFERIORITY|Non-inferiority (hazard ratio margin of 1.3).|Hazard Ratio (HR)|0.924|||<|0.05|TWO_SIDED|95.0|0.669|1.276||p-value for non-inferiority test based on 1-sided significance level.|Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment, and adjusting on Hb at baseline as continuous covariate. Non-inferiority was declared if the upper bound of the 95% CI is below 1.3.||1.276|0.669|<0.05
92169865|NCT00520546|184228465|SUPERIORITY_OR_OTHER||sensitivity|97.0||||0.0526|TWO_SIDED|95.0|86.0|100.0|||Fisher Exact|||"results from FEC-PET as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||100|86|0.0526
92388973|NCT04607837|184678623|SUPERIORITY||Risk Difference (RD)|9.56||||0.1089|TWO_SIDED|95.0|-2.13|21.25|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||21.25|-2.13|0.1089
92388974|NCT04607837|184678624|SUPERIORITY||Risk Difference (RD)|11.19||||0.0104|TWO_SIDED|95.0|2.63|19.75|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||19.75|2.63|0.0104
92388975|NCT04607837|184678625|SUPERIORITY||Risk Difference (RD)|-1.07||||0.9203|TWO_SIDED|95.0|-22.06|19.92|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||19.92|-22.06|0.9203
92388976|NCT04607837|184678626|SUPERIORITY||Risk Difference (RD)|8.49||||0.1726|TWO_SIDED|95.0|-3.71|20.68|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||20.68|-3.71|0.1726
92388977|NCT04607837|184678627|SUPERIORITY||Risk Difference (RD)|-1.71||||0.9272|TWO_SIDED|95.0|-38.31|34.9|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||34.90|-38.31|0.9272
92235177|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|1.9|||||TWO_SIDED|95.0|1.22|3.06|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 4: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.06|1.22|
92235178|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|1.7|||||TWO_SIDED|95.0|1.15|2.56|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 5: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.56|1.15|
92235179|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|2.2|||||TWO_SIDED|95.0|1.36|3.53|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 6A: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.53|1.36|
92235180|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|1.8|||||TWO_SIDED|95.0|1.15|2.91|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 6B: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.91|1.15|
92388978|NCT04607837|184678628|SUPERIORITY||Risk Difference (RD)|8.49||||0.1726|TWO_SIDED|95.0|-3.71|20.68|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||20.68|-3.71|0.1726
92388979|NCT04607837|184678629|SUPERIORITY||Risk Difference (RD)|18.64||||0.0151|TWO_SIDED|95.0|3.61|33.67|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||33.67|3.61|0.0151
92388980|NCT04607837|184678630|SUPERIORITY||Risk Difference (RD)|5.96||||0.4419|TWO_SIDED|95.0|-9.22|21.13|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||21.13|-9.22|0.4419
92388981|NCT04607837|184678631|SUPERIORITY||Risk Difference (RD)|23.33||||0.0007|TWO_SIDED|95.0|9.78|36.89|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||36.89|9.78|0.0007
92388982|NCT04607837|184678632|SUPERIORITY||Risk Difference (RD)|14.99||||0.0128|TWO_SIDED|95.0|3.19|26.79|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||26.79|3.19|0.0128
92388983|NCT04607837|184678633|SUPERIORITY||Risk Difference (RD)|10.24||||0.1492|TWO_SIDED|95.0|-3.67|24.14|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||24.14|-3.67|0.1492
92388984|NCT04607837|184678634|SUPERIORITY||Risk Difference (RD)|0.18||||0.9774|TWO_SIDED|95.0|-12.18|12.53|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||12.53|-12.18|0.9774
92388985|NCT04607837|184678635|SUPERIORITY||Risk Difference (RD)|22.83||||0.0011|TWO_SIDED|95.0|9.17|36.49|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||36.49|9.17|0.0011
92388986|NCT04607837|184678636|SUPERIORITY||Risk Difference (RD)|10.8||||0.1513|TWO_SIDED|95.0|-3.95|25.56|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||25.56|-3.95|0.1513
92388987|NCT04607837|184678637|SUPERIORITY||Risk Difference (RD)|10.07||||0.1823|TWO_SIDED|95.0|-4.73|24.87|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||24.87|-4.73|0.1823
92388988|NCT05236257|184678655|OTHER||Hazard Ratio (HR)|0.21||||0.0058|TWO_SIDED|95.0|0.07|0.63|||Cox Proportional Hazards model|Unweighted||||0.63|0.07|0.0058
92388989|NCT05236257|184678655|OTHER|||||||0.0023|||||||Log Rank|Unweighted||||||0.0023
92418025|NCT02278341|184723947|SUPERIORITY||LSM Difference|-0.579|||=|0.308|TWO_SIDED|95.0|-1.694|0.536||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables, and baseline MAP, baseline Hb as continuous variables.||0.536|-1.694|=0.308
92388990|NCT05236257|184678656|OTHER||Hazard Ratio (HR)|0.23||||0.0703|TWO_SIDED|95.0|0.05|1.13|||Cox Proportional Hazards model|Unweighted||||1.13|0.05|0.0703
92388991|NCT05236257|184678656|OTHER|||||||0.0486|||||||Log Rank|Unweighted||||||0.0486
92388992|NCT05236257|184678657|OTHER||Hazard Ratio (HR)|0.23||||0.696|TWO_SIDED|95.0|0.05|1.12|||Cox Proportional Hazards model|Unweighted||||1.12|0.05|0.696
92388993|NCT05236257|184678657|OTHER|||||||0.0476|||||||Log Rank|Unweighted||||||0.0476
92388994|NCT05236257|184678659|OTHER||Hazard Ratio (HR)|0.79||||0.5713|TWO_SIDED|95.0|0.36|1.77|||Cox Proportional Hazards model|Unweighted||||1.77|0.36|0.5713
92388995|NCT05236257|184678659|OTHER|||||||0.5695|||||||Log Rank|Unweighted||||||0.5695
92388996|NCT05236257|184678660|OTHER||Hazard Ratio (HR)|0.32||||0.32|TWO_SIDED|95.0|0.03|3.06|||Cox Proportional Hazards model|Unweighted||||3.06|0.03|0.3200
92388997|NCT05236257|184678660|OTHER|||||||0.294|||||||Log Rank|Unweighted||||||0.2940
92418026|NCT02278341|184723948|SUPERIORITY||Hazard Ratio (HR)|0.915|||=|0.582|TWO_SIDED|95.0|0.668|1.254||p-value for superiority test based on 2-sided significance level.|Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment, and adjusting on Hb at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI is lower than 1.||1.254|0.668|=0.582
92418027|NCT02278341|184723949|SUPERIORITY||Difference of Percentages|1.4|||=|0.609|TWO_SIDED|95.0|-3.8|6.5||p-value for superiority test based on 2-sided significance level|Miettinen and Nurminen method|||A generalized linear model was used to estimate the difference in response rates between the arms, as an approximation for the Miettinen and Nurminen method, adjusting for following covariates: region, previous ESA treatment, cardiovascular history and baseline Hb as categorical variables.||6.5|-3.8|=0.609
92418028|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.164|||<|0.001|TWO_SIDED|95.0|0.072|0.256||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 1- The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.256|0.072|<0.001
92418029|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.443|||<|0.001|TWO_SIDED|95.0|0.339|0.546||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 2- The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.546|0.339|<0.001
92418030|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.561|||<|0.001|TWO_SIDED|95.0|0.451|0.672||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 3 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.672|0.451|<0.001
92418031|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.708|||<|0.001||95.0|0.588|0.828||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 4 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.828|0.588|<0.001
92418032|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.768|||<|0.001|TWO_SIDED|95.0|0.645|0.89||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 5 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.890|0.645|<0.001
92418033|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.729|||<|0.001|TWO_SIDED|95.0|0.604|0.855||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 6 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.855|0.604|<0.001
92418034|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.729|||<|0.001|TWO_SIDED|95.0|0.603|0.856||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 7 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.856|0.603|<0.001
92418035|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.574|0.826||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 8 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.826|0.574|<0.001
92235181|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|2.8|||||TWO_SIDED|95.0|1.8|4.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 7F: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||4.44|1.80|
92418036|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.659|||<|0.001|TWO_SIDED|95.0|0.53|0.788||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 10 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.788|0.530|<0.001
92418037|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.593|||<|0.001|TWO_SIDED|95.0|0.459|0.727||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 12 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.727|0.459|<0.001
92418038|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.503|||<|0.001|TWO_SIDED|95.0|0.366|0.64||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 14 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.640|0.366|<0.001
92418039|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.369|||<|0.001|TWO_SIDED|95.0|0.229|0.51||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 16 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.510|0.229|<0.001
92418040|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.363|||<|0.001|TWO_SIDED|95.0|0.23|0.496||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 18 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.496|0.230|<0.001
92418041|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.284|||<|0.001|TWO_SIDED|95.0|0.154|0.414||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 20 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.414|0.154|<0.001
92280548|NCT00601484|184463650|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-30.97|STANDARD_ERROR_OF_MEAN|24.418|||TWO_SIDED|90.0|-75.23|13.285||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||13.285|-75.230|
92169866|NCT00520546|184228465|SUPERIORITY_OR_OTHER||specificity|0.0||||0.0526|TWO_SIDED|95.0|0.0|98.0|||Fisher Exact|||"results from FEC-PET as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||98|0|0.0526
92235182|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|1.7|||||TWO_SIDED|95.0|0.99|2.96|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 9V: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.96|0.99|
92235183|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|1.1|||||TWO_SIDED|95.0|0.73|1.62|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 14: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.62|0.73|
92235184|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|1.6|||||TWO_SIDED|95.0|1.02|2.39|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 18C: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.39|1.02|
92388998|NCT05870865|184678662|SUPERIORITY||Mean Difference (Final Values)|4.28||||0.5483|TWO_SIDED||||||Mixed Models Analysis|||||||0.5483
92388999|NCT05870865|184678662|SUPERIORITY||Mean Difference (Final Values)|-5.89||||0.4123|TWO_SIDED||||||Mixed Models Analysis|||||||0.4123
92389000|NCT05870865|184678662|SUPERIORITY||Mean Difference (Final Values)|1.66||||0.8177|TWO_SIDED||||||Mixed Models Analysis|||||||0.8177
92389001|NCT05870865|184678663|SUPERIORITY||Odds Ratio (OR)|0.66||||0.4601|TWO_SIDED||||||Fisher Exact|||||||0.4601
92389002|NCT05870865|184678663|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0804|TWO_SIDED||||||Fisher Exact|||||||0.0804
92389003|NCT05870865|184678663|SUPERIORITY||Odds Ratio (OR)|1.06|||>|0.9999|TWO_SIDED||||||Fisher Exact|||||||>0.9999
92389004|NCT05870865|184678664|SUPERIORITY||Mean Difference (Final Values)|0.72||||0.2146|TWO_SIDED||||||Mixed Models Analysis|||||||0.2146
92389005|NCT05870865|184678664|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.8851|TWO_SIDED||||||Mixed Models Analysis|||||||0.8851
92389006|NCT05870865|184678664|SUPERIORITY||Mean Difference (Final Values)|0.81||||0.1835|TWO_SIDED||||||Mixed Models Analysis|||||||0.1835
92389007|NCT05870865|184678665|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.7982|TWO_SIDED||||||Mixed Models Analysis|||||||0.7982
92389008|NCT05870865|184678665|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.564|TWO_SIDED||||||Mixed Models Analysis|||||||0.5640
92389009|NCT05870865|184678665|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.2939|TWO_SIDED||||||Mixed Models Analysis|||||||0.2939
92169867|NCT00520546|184228465|SUPERIORITY_OR_OTHER||accuracy|95.0||||0.0526|TWO_SIDED|95.0|82.0|99.0|||Fisher Exact|||"results from FEC-PET as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||99|82|0.0526
92389010|NCT05870865|184678666|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.3579|TWO_SIDED||||||Mixed Models Analysis|||||||0.3579
92389011|NCT05870865|184678666|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0.3466|TWO_SIDED||||||Mixed Models Analysis|||||||0.3466
92389012|NCT05870865|184678666|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.9527|TWO_SIDED||||||Mixed Models Analysis|||||||0.9527
92389013|NCT03828019|184678676|SUPERIORITY||Odds Ratio (OR)|1.86||||0.029|TWO_SIDED|95.0|1.06|3.25|||Regression, Logistic|Adjusted for the 2 stratification variables (initial prednisone dose and immunosuppression use at baseline).|Estimated parameter is the Odds Ratios (ADA/CID). Result greater than 1 indicates ADA is superior in achieving successful corticosteroid sparing|The sample size estimation: Adalimumab was estimated to be successful in 75% of patients. The overall success rate with conventional immunosuppression was estimated to be 51%. A sample size of 222 (111 per treatment group) provided 90% power to detect a difference in cumulative percent of 75% versus 51%||3.25|1.06|0.029
92389014|NCT03828019|184678677|SUPERIORITY||Odds Ratio (OR)|1.91||||0.072|TWO_SIDED|95.0|0.94|3.86|||Regression, Logistic||Odds ADA/ Odds CID|Generalized estimating equations were used to fit logistic regression models to compare the cumulative proportion of corticosteroid sparing between the two treatment groups over time while accounting for correlation between replicate measurements on the same individual with an unstructured covariance matrix. 2 stratification variables (initial prednisone dose and immunosuppression use at baseline) were included||3.86|0.94|0.072
92389015|NCT03828019|184678678|SUPERIORITY||Odds Ratio (OR)|1.53||||0.3|TWO_SIDED|95.0|0.67|3.46|||Regression, Logistic||Odds ratio is ADA/CID where value greater than 1 indicates ADA is superior for corticosteroid (prednisone) discontinuation|Generalized estimating equations were used to fit logistic regression models to compare the cumulative proportion of corticosteroid sparing between the two treatment groups over time while accounting for correlation between replicate measurements on the same individual with an unstructured covariance matrix. 2 stratification variables (initial prednisone dose and immunosuppression use at baseline) were included||3.46|0.67|0.30
92389016|NCT03828019|184678679|SUPERIORITY||Odds Ratio (OR)|1.85||||0.028|TWO_SIDED|95.0|1.06|3.19|||Regression, Logistic||Odds ADA/ Odds CID where value greater than 1 indicate greater corticosteroid sparing success in the ADA group|Generalized estimating equations were used to fit logistic regression models to compare the cumulative proportion of corticosteroid discontinuation between the two treatment groups over time while accounting for correlation between replicate measurements on the same individual with an unstructured covariance matrix. 2 stratification variables (initial prednisone dose and immunosuppression use at baseline) were included||3.19|1.06|0.028
92389017|NCT03828019|184678680|SUPERIORITY||Ratio of rate of steroid (mg/day ADA/CID|0.86||||0.061|TWO_SIDED|95.0|0.73|1.01|||negative binomial model||Number greater than 1 would indicate rate of steroid use is higher in participants assigned to ADA|||1.01|0.73|0.061
92389018|NCT03828019|184678681|SUPERIORITY||Difference in mean change from BL|0.4||||0.77|TWO_SIDED|95.0|-2.3|3.1|||Mixed Models Analysis|||Mixed effects models were used with a linear link. The fixed effects included initial steroid dose and immunosuppression use at baseline. Additional visit indicators (months 1-12) and corresponding treatment by visit interaction terms. An unstructured correlation was used to model repeated measurements by eye . A person-level random intercept was added to account for between-eye correlations.||3.1|-2.3|0.77
92389019|NCT03828019|184678682|SUPERIORITY||Ratio of odds ratios|0.55||||0.028|TWO_SIDED|95.0|0.31|0.94|||Regression, Logistic||estimate is the ratio of odds ratios - OR ADA / OR CID. Value less than 1 indicates ADA is better at reducing macular edema.|Mixed effects models with a log link were used to assess treatment differences . The outcome measure was the odds ratio of having macular edema (OCT central subfield thickness \> 300 um) at 12 months compared to baseline (BL). The treatment effect was the ratio of Odds ratios (ADA/CID) at 12 months. Values less than one indicate improvement in macular edema for the ADA treatment group relative to the CID group. Decrease in subfield thickness is good||0.94|0.31|0.028
92389020|NCT03828019|184678683|SUPERIORITY||Risk Ratio (RR)|1.1||||0.76|TWO_SIDED|95.0|0.61|1.98|||negative binomial model|||||1.98|0.61|0.76
92389021|NCT03828019|184678684|SUPERIORITY||Cox Proportional Hazard|0.16||||0.014|TWO_SIDED|95.0|0.04|0.7|||Regression, Cox|||. Kaplan Meier techniques and Cox proportional hazards models were used to evaluate time to event outcomes||0.70|0.04|0.014
92389022|NCT03828019|184678685|SUPERIORITY||Cox Proportional Hazard|0.89||||0.74|TWO_SIDED|95.0|0.43|1.82|||Regression, Cox|||||1.82|0.43|0.74
92389023|NCT03828019|184678686|SUPERIORITY||Odds Ratio (OR)|0.76||||0.35|TWO_SIDED|95.0|0.43|1.34|||Ratio of odds ratios||Treatment comparison is the ratio of the odds ratios for each treatment group (ADA/CID) at 12 months. Values greater than one indicate greater improvement in health for the ADA treatment group relative to the CID group.|||1.34|0.43|0.35
92389024|NCT03828019|184678687|SUPERIORITY||Mean Difference (Net)|1.39||||0.24|TWO_SIDED|95.0|-0.95|3.73|||Mixed Models Analysis|||||3.73|-0.95|0.24
92389025|NCT03828019|184678688|SUPERIORITY||Mean Difference (Net)|0.59||||0.7|TWO_SIDED|95.0|-2.43|3.61|||Mixed Models Analysis|||||3.61|-2.43|0.70
92389026|NCT03828019|184678689|SUPERIORITY||Mean Difference (Net)|1.6||||0.28|TWO_SIDED|95.0|-1.4|4.6|||Mixed Models Analysis|||||4.6|-1.4|0.28
92389027|NCT03828019|184678690|SUPERIORITY||Hazard Ratio (HR)|0.21||||0.009|TWO_SIDED|95.0|0.07|0.67|||Regression, Cox|||||0.67|0.07|0.009
92389028|NCT02211456|184678702|SUPERIORITY||Mean Difference (Final Values)|3.7|||<|0.05|TWO_SIDED|95.0|1.0|6.3|||Mixed Models Analysis|||The data derived from this study was complex multi-level data with errors due to patient-level and intra-patient repeat factors. Accordingly, we used generalized multi-level modelling (GLMM) with random effects.||6.3|1|<0.05
92389029|NCT02324816|184678711|OTHER||success proportion|73.7|||||TWO_SIDED|95.0|48.8|90.9||||||||90.9|48.8|
92235185|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|1.8|||||TWO_SIDED|95.0|1.38|2.45|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 19A: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.45|1.38|
92389030|NCT02936635|184678736|SUPERIORITY||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|3.619||0.2821|TWO_SIDED|95.0|-11.035|3.23|||Mixed Models Analysis|||||3.23|-11.035|0.2821
92235186|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|2.2|||||TWO_SIDED|95.0|1.53|3.12|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 19F: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.12|1.53|
92235187|NCT01025336|184373540|SUPERIORITY_OR_OTHER||Ratio|1.8|||||TWO_SIDED|95.0|1.18|2.82|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 23F: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.82|1.18|
92389031|NCT02936635|184678737|SUPERIORITY||Median Difference (Final Values)|-5.32|STANDARD_ERROR_OF_MEAN|4.242||0.2118|TWO_SIDED|95.0|-13.711|3.067|||Mixed Models Analysis|||||3.067|-13.711|0.2118
92389032|NCT02936635|184678738|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|1.205||0.6354|TWO_SIDED|95.0|-2.946|1.801|||Mixed Models Analysis|||||1.801|-2.946|0.6354
92389033|NCT02936635|184678739|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|1.509||0.8887|TWO_SIDED|95.0|-3.186|2.763|||Mixed Models Analysis|||||2.763|-3.186|0.8887
92389034|NCT02451917|184678764|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18randomized to sequence INPH/IGlar) provided 90% power to detect a mean difference of 0.7% in the primary endpoint(A1c), considering a 15% dropout rate and assuming an SD of 0.85%, and a type I error of 5%.||||||0.00045||||||The intention-to-treat population consisted of all randomized participants.|ANOVA|||A sample size of 34 participants (16 randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power to detect a mean difference of 0.7% in the primary endpoint (A1c), considering a 15% dropout rate and assuming an SD of 0.85%, and a type I error of 5%. Test for data normality (Kolmogorov-Smirnov statistics) was performed at baseline for each sequence of the therapy.||||0.00045
92389035|NCT02451917|184678765|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16 randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%. Test for data normality (Kolmogorov-Smirnov statistics) was performed at baseline for each sequence of the therapy.|number of total events per patient|0.0||||0.35|TWO_SIDED|||||Analysis of covariance (ANOVA) model - total hypoglycemic events per patient during 24 weeks|ANOVA||The calculated value for the estimation parameter was zero, since the best treatment option for those with diabetes is reach a good glycemic control without hypoglycemia.|Analysis of covariance (ANOVA) model - total hypoglycemic events per patient during 24 weeks||||0.35
92389036|NCT02451917|184678765|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.|number of nocturnal events per patient|0.0||||0.047|TWO_SIDED|||||Analysis of covariance (ANOVA) model - number of nocturnal hypoglycemic events per patient during 24 weeks|ANOVA||The calculated value for the estimation parameter was zero, since the best treatment option for those with diabetes is reach a good glycemic control without hypoglycemia.|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||0.047
92389037|NCT02451917|184678766|NON_INFERIORITY_OR_EQUIVALENCE|t-test was applied to compare percentages of the time spent in hypoglycemia, hyperglycemia and euglycemia on CGM readings.|||||<|0.05|||||||t-test, 1 sided|||A sample size of 34 participants (16 randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||<0.05
92389038|NCT02451917|184678767|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||||0.668|||||||ANOVA|||A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||0.668
92389039|NCT02451917|184678768|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16 randomized to sequence IGlar/INPH and 18r andomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||||0.999|||||||ANOVA|||A sample size of 34 participants (16 randomized to sequence IGlar/INPH and 18r andomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||0.999
92389040|NCT02451917|184678769|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||||0.999|||||||ANOVA|||A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||0.999
92389041|NCT02451917|184678770|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||||0.994|||||||ANOVA|||A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||0.994
92280549|NCT00601484|184463650|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-37.18|STANDARD_ERROR_OF_MEAN|28.74|||TWO_SIDED|90.0|-90.62|16.265||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||16.265|-90.620|
92235188|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.02|2.25|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 1: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.25|1.02|
92389042|NCT03726489|184678773|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|7.2|||<|0.001|TWO_SIDED|95.0|0.8|13.5||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis including all skin phototypes||13.5|0.8|<0.001
92389043|NCT03726489|184678773|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|4.2|||<|0.001|TWO_SIDED|95.0|-5.4|13.8||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||13.8|-5.4|<0.001
92389044|NCT03726489|184678773|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|7.4|||<|0.001|TWO_SIDED|95.0|-2.2|17.0||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||17.0|-2.2|<0.001
92389045|NCT03726489|184678773|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%. The sample size for this subgroup did not meet our a priori sample size required for 80% power.|Risk Difference (RD)|18.7|||<|0.001|TWO_SIDED|95.0|0.8|36.6||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||36.6|0.8|<0.001
92389046|NCT03726489|184678773|OTHER|HTE was assessed using an omnibus Wald test of all interaction regression parameters in order to minimize multiple testing and consequent alpha inflation.||||||0.347||||||HTE was assessed using an omnibus Wald test of all interaction regression parameters in order to minimize multiple testing and consequent alpha inflation.|Regression, Logistic|We fit models for each of the two primary outcomes with skin type, treatment arm, and their interaction as predictors.||Analysis for heterogeneity of treatment effects (HTE) including all skin phototypes.||||0.347
92389047|NCT03726489|184678774|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|18.6|||<|0.001|TWO_SIDED|95.0|11.8|25.3||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis including all skin phototypes||25.3|11.8|<0.001
92389048|NCT03726489|184678774|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|21.2|||<|0.001|TWO_SIDED|95.0|11.0|31.5||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||31.5|11.0|<0.001
92389049|NCT03726489|184678774|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|16.5|||<|0.001|TWO_SIDED|95.0|6.4|26.6||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||26.6|6.4|<0.001
92418042|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.197|||=|0.003|TWO_SIDED|95.0|0.065|0.329||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 22 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.329|0.065|=0.003
92418043|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.187|||=|0.004|TWO_SIDED|95.0|0.059|0.316||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 24 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.316|0.059|=0.004
92418044|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.243|||<|0.001|TWO_SIDED|95.0|0.113|0.373||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 26 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.373|0.113|<0.001
92389050|NCT03726489|184678774|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%. The sample size for this subgroup did not meet our a priori sample size required for 80% power.|Risk Difference (RD)|16.1||||0.001|TWO_SIDED|95.0|-3.7|35.9||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||35.9|-3.7|0.001
92418045|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.207|||=|0.002|TWO_SIDED|95.0|0.074|0.34||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 28 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.340|0.074|=0.002
92418046|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.227|||<|0.001|TWO_SIDED|95.0|0.096|0.358||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 30 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.358|0.096|<0.001
92235189|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|1.1|||||TWO_SIDED|95.0|0.78|1.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 3: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.44|0.78|
92389051|NCT03726489|184678774|OTHER|||||||0.873||||||HTE was assessed using an omnibus Wald test of all interaction regression parameters in order to minimize multiple testing and consequent alpha inflation.|Regression, Logistic|We fit models for each of the two primary outcomes with skin type, treatment arm, and their interaction as predictors.||Analysis for heterogeneity of treatment effects (HTE) including all skin phototypes.||||0.873
92389052|NCT03726489|184678775|SUPERIORITY||Mean Difference (Final Values)|8.7|||<|0.0001|TWO_SIDED|95.0|7.1|10.4||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||10.4|7.1|<0.0001
92389053|NCT03726489|184678775|SUPERIORITY||Mean Difference (Final Values)|9.38|||<|0.0001|TWO_SIDED|95.0|7.05|11.71||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||11.71|7.05|<0.0001
92389054|NCT03726489|184678775|SUPERIORITY||Mean Difference (Final Values)|8.48|||<|0.0001|TWO_SIDED|95.0|5.82|11.14||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||11.14|5.82|<0.0001
92389055|NCT03726489|184678775|SUPERIORITY||Mean Difference (Final Values)|6.82||||0.0213|TWO_SIDED|95.0|1.06|12.58||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||12.58|1.06|0.0213
92389056|NCT03726489|184678776|SUPERIORITY||Mean Difference (Final Values)|14.6|||<|0.0001|TWO_SIDED|95.0|10.4|18.7||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||18.7|10.4|<0.0001
92389057|NCT03726489|184678776|SUPERIORITY||Mean Difference (Final Values)|11.47|||<|0.0001|TWO_SIDED|95.0|6.93|16.01||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||16.01|6.93|<0.0001
92389058|NCT03726489|184678776|SUPERIORITY||Mean Difference (Final Values)|13.87|||<|0.0001|TWO_SIDED|95.0|7.77|19.98||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||19.98|7.77|<0.0001
92389059|NCT03726489|184678776|SUPERIORITY||Mean Difference (Final Values)|32.84||||0.0127|TWO_SIDED|95.0|7.32|58.35||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||58.35|7.32|0.0127
92389060|NCT03726489|184678777|SUPERIORITY||Mean Difference (Final Values)|-0.81||||0.001|TWO_SIDED|95.0|-1.27|-0.35||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||-0.35|-1.27|0.001
92418047|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.199|||=|0.004|TWO_SIDED|95.0|0.064|0.334|||Mixed Models Analysis|p-value for superiority test based on 2-sided significance level.||Week 32 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.334|0.064|=0.004
92389061|NCT03726489|184678777|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.0158|TWO_SIDED|95.0|-1.51|-0.16||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||-0.16|-1.51|0.0158
92235190|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|1.8|||||TWO_SIDED|95.0|1.06|3.0|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 4: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.00|1.06|
92389062|NCT03726489|184678777|SUPERIORITY||Mean Difference (Final Values)|-0.88||||0.013|TWO_SIDED|95.0|-1.58|-0.19||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||-0.19|-1.58|0.0130
92389063|NCT03726489|184678777|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.591|TWO_SIDED|95.0|-1.94|1.11||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||1.11|-1.94|0.5910
92389064|NCT03726489|184678777|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.395|TWO_SIDED|95.0|-0.33|0.82||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes at Week 24||0.82|-0.33|0.395
92389065|NCT03726489|184678777|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.774|TWO_SIDED|95.0|-0.69|0.93||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II at Week 24||0.93|-0.69|0.774
92418048|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.279|||<|0.001||95.0|0.15|0.409||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 34 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.409|0.150|<0.001
92389066|NCT03726489|184678777|SUPERIORITY||Median Difference (Final Values)|0.53||||0.242|TWO_SIDED|95.0|-0.36|1.41||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV at Week 24||1.41|-0.36|0.242
92389067|NCT03726489|184678777|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.692|TWO_SIDED|95.0|-2.72|1.83||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI at Week 24||1.83|-2.72|0.692
92389068|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|-2.59||||0.1209|TWO_SIDED|95.0|-5.86|0.68||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes - Initiation||0.68|-5.86|0.1209
92389069|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|-2.13||||0.2581|TWO_SIDED|95.0|-6.0|1.75||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II - Initiation||1.75|-6.0|0.2581
92389070|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|-3.04||||0.2952|TWO_SIDED|95.0|-8.73|2.65||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV - Initiation||2.65|-8.73|0.2952
92389071|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|-2.61||||0.6324|TWO_SIDED|95.0|-13.12|7.89||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI - Initiation||7.89|-13.12|0.6324
92389072|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|0.15||||0.9163|TWO_SIDED|95.0|-2.56|2.85||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes - Discontinuation||2.85|-2.56|0.9163
92389073|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|0.31||||0.8551|TWO_SIDED|95.0|-3.03|3.66||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II - Discontinuation||3.66|-3.03|0.8551
92389074|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|0.72||||0.7678|TWO_SIDED|95.0|-4.05|5.48||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV - Discontinuation||5.48|-4.05|0.7678
92389075|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|-3.03||||0.3446|TWO_SIDED|95.0|-8.88|2.82||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI - Discontinuation||2.82|-8.88|0.3446
92418049|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.256|||<|0.001|TWO_SIDED|95.0|0.121|0.391||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 36- The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.391|0.121|<0.001
92418050|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.136|||=|0.06|TWO_SIDED|95.0|-0.006|0.277||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 40 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.277|-0.006|=0.060
92418051|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.082|||=|0.293|TWO_SIDED|95.0|-0.071|0.236||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 44 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.236|-0.071|=0.293
92418052|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.027|||=|0.723|TWO_SIDED|95.0|-0.123|0.177||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 48 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.177|-0.123|=0.723
92418053|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.199|||=|0.009|TWO_SIDED|95.0|0.049|0.348||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 52 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.348|0.049|=0.009
92418054|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.147|||=|0.056|TWO_SIDED|95.0|-0.004|0.298||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 56 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.298|-0.004|=0.056
92418055|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.196|||=|0.01|TWO_SIDED|95.0|0.047|0.346||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 60 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.346|0.047|=0.010
92418056|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.275|||<|0.001|TWO_SIDED|95.0|0.123|0.427||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 64 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.427|0.123|<0.001
92418057|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.206|||=|0.006|TWO_SIDED|95.0|0.059|0.353||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 68 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.353|0.059|=0.006
92418058|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.118|||=|0.127|TWO_SIDED|95.0|-0.033|0.269||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 72 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.269|-0.033|=0.127
92418059|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.211|||=|0.01|TWO_SIDED|95.0|0.051|0.371||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 76 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.371|0.051|=0.010
92169868|NCT00520546|184228465|SUPERIORITY_OR_OTHER||sensitivity|70.0|||<|0.0001|TWO_SIDED|95.0|53.0|84.0|||Fisher Exact|||"results from MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||84|53|<0.0001
92389076|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|-1.26||||0.5716|TWO_SIDED|95.0|-5.64|3.11||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes - Initiation at Week 24||3.11|-5.64|0.5716
92389077|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|-0.44||||0.8756|TWO_SIDED|95.0|-6.03|5.14||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II - Initiation at Week 24||5.14|-6.03|0.8756
92389078|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|-2.07||||0.5686|TWO_SIDED|95.0|-9.18|5.04||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV - Initiation at Week 24||5.04|-9.18|0.5686
92389079|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|-1.39||||0.866|TWO_SIDED|95.0|-17.5|14.7||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI - Initiation at Week 24||14.7|-17.5|0.8660
92389080|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|0.19||||0.8779|TWO_SIDED|95.0|-2.24|2.62||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes - Discontinuation at Week 24||2.62|-2.24|0.8779
92389081|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|0.38||||0.7985|TWO_SIDED|95.0|-2.52|3.28||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II - Discontinuation at Week 24||3.28|-2.52|0.7985
92389082|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|0.69||||0.7585|TWO_SIDED|95.0|-3.71|5.09||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV - Discontinuation at Week 24||5.09|-3.71|0.7585
92389083|NCT03726489|184678778|SUPERIORITY||Risk Difference (RD)|-2.78||||0.3422|TWO_SIDED|95.0|-8.15|2.59||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI - Discontinuation at Week 24||2.59|-8.15|0.3422
92389084|NCT03726489|184678779|SUPERIORITY||Mean Difference (Final Values)|-3.2||||0.094|TWO_SIDED|95.0|-6.95|0.55||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||0.55|-6.95|0.094
92389085|NCT03726489|184678779|SUPERIORITY||Mean Difference (Final Values)|-5.26||||0.0393|TWO_SIDED|95.0|-10.26|-0.26||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||-0.26|-10.26|0.0393
92389086|NCT03726489|184678779|SUPERIORITY||Mean Difference (Final Values)|-3.92||||0.1505|TWO_SIDED|95.0|-9.28|1.44||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||1.44|-9.28|0.1505
92389087|NCT03726489|184678779|SUPERIORITY||Mean Difference (Final Values)|10.42||||0.284|TWO_SIDED|95.0|-9.0|29.84||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||29.84|-9.0|0.2840
92389088|NCT03726489|184678780|OTHER||Mean|19.87|STANDARD_DEVIATION|61.6|||TWO_SIDED|||||P-value is not applicable.||||Overall analysis adjusted for all skin phototypes||||
92389089|NCT03726489|184678780|OTHER||Mean|18.06|STANDARD_DEVIATION|57.04|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes I/II||||
92389090|NCT03726489|184678780|OTHER||Mean|23.46|STANDARD_DEVIATION|70.71|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes III/IV||||
92389091|NCT03726489|184678780|OTHER||Mean|9.22|STANDARD_DEVIATION|5.66|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes V/VI||||
92389092|NCT03726489|184678781|OTHER||Mean|50.3|STANDARD_DEVIATION|46.7|||TWO_SIDED|||||P-value is not applicable.||||Overall analysis adjusted for all skin phototypes||||
92389093|NCT03726489|184678781|OTHER||Mean|53.19|STANDARD_DEVIATION|50.05|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes I/II||||
92389094|NCT03726489|184678781|OTHER||Mean|49.82|STANDARD_DEVIATION|47.43|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes III/IV||||
92389095|NCT03726489|184678781|OTHER||Mean|39.72|STANDARD_DEVIATION|20.47|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes V/VI||||
92169869|NCT00520546|184228465|SUPERIORITY_OR_OTHER||specificity|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|98.0|||Fisher Exact|||"results from MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||98|0|<0.0001
92389096|NCT03726489|184678782|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|11.97|||<|0.0001|TWO_SIDED|95.0|6.52|17.42||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes||17.42|6.52|<0.0001
92389097|NCT03726489|184678782|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|16.15|||<|0.0001|TWO_SIDED|95.0|7.54|24.75||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||24.75|7.54|<0.0001
92389098|NCT03726489|184678782|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|5.56|||<|0.0001|TWO_SIDED|95.0|-2.35|13.46||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||13.46|-2.35|<0.0001
92389099|NCT03726489|184678782|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|21.37|||<|0.0001|TWO_SIDED|95.0|7.65|35.09||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||35.09|7.65|<0.0001
92389100|NCT03726489|184678783|SUPERIORITY||Risk Difference (RD)|11.68||||0.0065|TWO_SIDED|95.0|3.27|20.08||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes||20.08|3.27|0.0065
92389101|NCT03726489|184678783|SUPERIORITY||Risk Difference (RD)|12.31||||0.0478|TWO_SIDED|95.0|0.03|24.49||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||24.49|0.03|0.0478
92389102|NCT03726489|184678783|SUPERIORITY||Risk Difference (RD)|13.25||||0.0431|TWO_SIDED|95.0|0.52|25.98||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||25.98|0.52|0.0431
92389103|NCT03726489|184678783|SUPERIORITY||Risk Difference (RD)|1.5||||0.9133|TWO_SIDED|95.0|-25.5|28.5||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||28.50|-25.50|0.9133
92389104|NCT03726489|184678784|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.048|TWO_SIDED|95.0|-15.73|-0.07||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||-0.07|-15.73|0.048
92389105|NCT03726489|184678784|SUPERIORITY||Mean Difference (Final Values)|-10.67||||0.1199|TWO_SIDED|95.0|-24.15|2.8||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||2.80|-24.15|0.1199
92389106|NCT03726489|184678784|SUPERIORITY||Mean Difference (Final Values)|-5.3||||0.2953|TWO_SIDED|95.0|-15.26|4.66||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||4.66|-15.26|0.2953
92389107|NCT03726489|184678784|SUPERIORITY||Mean Difference (Final Values)|-8.83||||0.5124|TWO_SIDED|95.0|-35.77|18.11||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||18.11|-35.77|0.5124
92389108|NCT03726489|184678785|SUPERIORITY||Risk Difference (RD)|10.9||||0.0173|TWO_SIDED|95.0|1.93|19.87||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes||19.87|1.93|0.0173
92389109|NCT03726489|184678785|SUPERIORITY||Risk Difference (RD)|13.06||||0.0662|TWO_SIDED|95.0|-0.81|26.94||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||26.94|-0.81|0.0662
92389110|NCT03726489|184678785|SUPERIORITY||Risk Difference (RD)|8.58||||0.1976|TWO_SIDED|95.0|-4.42|21.57||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||21.57|-4.42|0.1976
92418060|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.102|||=|0.191|TWO_SIDED|95.0|-0.051|0.255||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 80 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.255|-0.051|=0.191
92235191|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.41|1.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 5: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.04|0.41|
92389111|NCT03726489|184678785|SUPERIORITY||Risk Difference (RD)|13.04||||0.3595|TWO_SIDED|95.0|-14.6|40.69||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||40.69|-14.60|0.3595
92389112|NCT03726489|184678786|SUPERIORITY||Risk Difference (RD)|7.55||||0.0853|TWO_SIDED|95.0|-1.05|16.14||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes||16.14|-1.05|0.0853
92418061|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.192|||=|0.018|TWO_SIDED|95.0|0.033|0.351||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 84 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.351|0.033|=0.018
92418062|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.044|||=|0.576|TWO_SIDED|95.0|-0.111|0.2||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 88 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.200|-0.111|=0.576
92169870|NCT00520546|184228465|SUPERIORITY_OR_OTHER||accuracy|68.0|||<|0.0001|TWO_SIDED|95.0|51.0|83.0|||Fisher Exact|||"results from MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||83|51|<0.0001
92169871|NCT00520546|184228465|SUPERIORITY_OR_OTHER||sensitivity|95.0||||0.0043|TWO_SIDED|95.0|82.0|99.0|||Fisher Exact|||"results from PET/MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||99|82|0.0043
92235192|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|3.1|||||TWO_SIDED|95.0|1.82|5.24|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 6A: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||5.24|1.82|
92389113|NCT03726489|184678786|SUPERIORITY||Risk Difference (RD)|2.26||||0.7488|TWO_SIDED|95.0|-11.54|16.06||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||16.06|-11.54|0.7488
92389114|NCT03726489|184678786|SUPERIORITY||Risk Difference (RD)|10.12||||0.1051|TWO_SIDED|95.0|-2.03|22.26||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||22.26|-2.03|0.1051
92389115|NCT03726489|184678786|SUPERIORITY||Risk Difference (RD)|17.39||||0.1792|TWO_SIDED|95.0|-7.48|42.27||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||42.27|-7.48|0.1792
92389116|NCT03726489|184678787|SUPERIORITY||Mean Difference (Final Values)|3.07||||0.175|TWO_SIDED|95.0|-1.37|7.5||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||7.50|-1.37|0.175
92418063|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.203|||=|0.017|TWO_SIDED|95.0|0.037|0.369||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 92 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.369|0.037|=0.017
92418064|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.184|||=|0.019|TWO_SIDED|95.0|0.031|0.338||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 96 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.338|0.031|=0.019
92418065|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.164|||=|0.056||95.0|-0.004|0.333||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 100 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.333|-0.004|=0.056
92418066|NCT02278341|184723950|SUPERIORITY||LSM Difference|0.099|||=|0.267|TWO_SIDED|95.0|-0.076|0.273||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 104 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.273|-0.076|=0.267
92418067|NCT02278341|184723951|SUPERIORITY||LSM Difference|0.237|||<|0.001|TWO_SIDED|95.0|0.127|0.347||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Weeks 28-36 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.347|0.127|<0.001
92418068|NCT02278341|184723951|SUPERIORITY||LSM Difference|0.105|||=|0.086|TWO_SIDED|95.0|-0.015|0.225||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||Weeks 44-52 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.225|-0.015|=0.086
92418069|NCT02278341|184723951|SUPERIORITY||LSM Difference|0.149|||=|0.031|TWO_SIDED|95.0|0.014|0.284||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||Weeks 96-104 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.284|0.014|=0.031
92418070|NCT02278341|184723952|SUPERIORITY||LSM Difference|0.235|||<|0.001|TWO_SIDED|95.0|0.125|0.346|||Mixed Models Analysis|||Weeks 28-36 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.346|0.125|<0.001
92418071|NCT02278341|184723952|SUPERIORITY||LSM Difference|0.104|||=|0.11|TWO_SIDED|95.0|-0.024|0.232|||Mixed Models Analysis|||Weeks 44-52 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.232|-0.024|=0.110
92418072|NCT02278341|184723952|SUPERIORITY||LSM Difference|0.149|||=|0.036|TWO_SIDED|95.0|0.01|0.288|||Mixed Models Analysis|||Weeks 96-104 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.288|0.010|=0.036
92418073|NCT02278341|184723957|SUPERIORITY||Hazard Ratio (HR)|1.154|||=|0.164|TWO_SIDED|95.0|0.943|1.411||p-value for superiority test based on 2-sided significance level|Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment and adjusting on Hb at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.411|0.943|=0.164
92418074|NCT02278341|184723958|SUPERIORITY||Hazard Ratio (HR)|0.979|||=|0.917|TWO_SIDED|95.0|0.656|1.462|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment and adjusting on Hb at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.462|0.656|=0.917
92418075|NCT02278341|184723959|SUPERIORITY||Hazard Ratio (HR)|0.867|||=|0.501|TWO_SIDED|95.0|0.573|1.313||p-value for superiority test based on 2-sided significance level|Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment, and adjusting on Hb at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.313|0.573|=0.501
92418076|NCT02278341|184723960|SUPERIORITY||LSM Difference|-0.006|||=|0.507|TWO_SIDED|95.0|-0.02|0.01||p-value for superiority test based on 2-sided significance level|ANCOVA|||The model included treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable.||0.01|-0.02|=0.507
92418077|NCT02278341|184723961|SUPERIORITY||LSM Difference|0.132|||=|0.949|TWO_SIDED|95.0|-3.9|4.16|||ANCOVA|||The model included treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable.||4.16|-3.90|=0.949
92418078|NCT02278341|184723962|SUPERIORITY||Hazard Ratio (HR)|0.368|||<|0.001|TWO_SIDED|95.0|0.291|0.465|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment and adjusting on Hb at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI was below 1.0.||0.465|0.291|<0.001
92418079|NCT02278341|184723963|SUPERIORITY||LSM Difference|-35.1|||<|0.001|TWO_SIDED|95.0|-51.8|-18.4|||ANCOVA|||Weeks 37-52 - Participants with no or missing medication records of IV Iron had their monthly IV Iron use set to 0 mg. The model includes treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable.||-18.4|-51.8|<0.001
92418080|NCT02278341|184723963|SUPERIORITY||LSM Difference|-48.7|||<|0.001|TWO_SIDED|95.0|-70.3|-27.0|||ANCOVA|||Weeks 53-104 - Participants with no or missing medication records of IV Iron had their monthly IV Iron use set to 0 mg. The model includes treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable.||-27.0|-70.3|<0.001
92418081|NCT02278341|184723973|SUPERIORITY||LSM Difference|0.521|||=|0.161|TWO_SIDED|95.0|-0.208|1.25||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||The model includes treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline SF-36 PCS, baseline Hb, as continuous covariates.||1.250|-0.208|=0.161
92418082|NCT02278341|184723974|SUPERIORITY||LSM Difference|0.126|||=|0.845|TWO_SIDED|95.0|-1.135|1.387||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||The model includes treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline FACT-An Ans, baseline Hb, as continuous covariates.||1.387|-1.135|=0.845
92418083|NCT02278341|184723975|SUPERIORITY||LSM Difference|-0.128|||=|0.922|TWO_SIDED|95.0|-2.703|2.447||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||The model includes treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline FACT-An Ans, baseline Hb, as continuous covariates.||2.447|-2.703|=0.922
92235193|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|2.4|||||TWO_SIDED|95.0|1.43|4.11|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 6B: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||4.11|1.43|
92418084|NCT02047318|184723995|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in sBA levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|-94.4|STANDARD_DEVIATION|98.915||0.0012|TWO_SIDED|95.0|-145.26|-43.55||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in sBA levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||-43.55|-145.26|0.0012
92418085|NCT02047318|184723996|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in sBA levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|-141.94|STANDARD_DEVIATION|117.992||0.032|TWO_SIDED|95.0|-265.77|-18.12||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in sBA levels was observed over time (with Week 252 chosen as the end point, as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||-18.12|-265.77|0.032
92418086|NCT02047318|184723997|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in sBA levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|-1.095|STANDARD_DEVIATION|0.7173|<|0.0001|TWO_SIDED|95.0|-1.464|-0.726||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ItchRO(Obs) scores was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||-0.726|-1.464|< 0.0001
92418087|NCT02047318|184723998|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ItchRO(Obs) scores from baseline over time (to Week 158) was statistically significant.|Mean Difference (Net)|-0.958|STANDARD_DEVIATION|0.7868||0.0307|TWO_SIDED|95.0|-1.784|-0.132||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 158 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ItchRO(Obs) scores was observed over time (with Week 158 chosen as the end point, as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||-0.132|-1.784|0.0307
92418088|NCT02047318|184724001|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALP levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|7.4|STANDARD_DEVIATION|210.32||0.8863|TWO_SIDED|95.0|-100.7|115.6||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALP levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||115.6|-100.7|0.8863
92389117|NCT03726489|184678787|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.8904|TWO_SIDED|95.0|-6.34|5.51||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||5.51|-6.34|0.8904
92389118|NCT03726489|184678787|SUPERIORITY||Mean Difference (Final Values)|7.59||||0.0412|TWO_SIDED|95.0|0.31|14.88||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||14.88|0.31|0.0412
92389119|NCT03726489|184678787|SUPERIORITY||Mean Difference (Final Values)|5.5||||0.5481|TWO_SIDED|95.0|-13.38|24.38||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||24.38|-13.38|0.5481
92389120|NCT03726489|184678787|SUPERIORITY||Hazard Ratio (HR)|0.813||||0.458|TWO_SIDED|95.0|0.471|1.403|||Regression, Cox|Failure event corresponds to DLQI assessment greater than 5. Model adjusted for skin phototype.|Office phototherapy is the reference group.|Cox proportional hazards model for maintaining treatment response after week 12.||1.403|0.471|0.458
92389121|NCT03726489|184678788|SUPERIORITY||Risk Difference (RD)|38.1|||<|0.0001|TWO_SIDED|95.0|30.34|45.86||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes||45.86|30.34|<0.0001
92389122|NCT03726489|184678788|SUPERIORITY||Risk Difference (RD)|38.86|||<|0.0001|TWO_SIDED|95.0|27.39|50.33||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||50.33|27.39|<0.0001
92389123|NCT03726489|184678788|SUPERIORITY||Risk Difference (RD)|42.21|||<|0.0001|TWO_SIDED|95.0|30.73|53.68||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||53.68|30.73|<0.0001
92389124|NCT03726489|184678788|SUPERIORITY||Risk Difference (RD)|15.74||||0.234|TWO_SIDED|95.0|-9.63|41.11||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||41.11|-9.63|0.2340
92389125|NCT03726489|184678789|SUPERIORITY||Risk Difference (RD)|43.96|||<|0.0001|TWO_SIDED|95.0|37.25|50.66||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis including all skin phototypes||50.66|37.25|<0.0001
92389126|NCT03726489|184678789|SUPERIORITY||Risk Difference (RD)|39.85|||<|0.0001|TWO_SIDED|95.0|30.0|49.7||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||49.70|30.0|<0.0001
92389127|NCT03726489|184678789|SUPERIORITY||Risk Difference (RD)|50.18|||<|0.0001|TWO_SIDED|95.0|40.09|60.27||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||60.27|40.09|<0.0001
92389128|NCT03726489|184678789|SUPERIORITY||Risk Difference (RD)|36.11|||<|0.0001|TWO_SIDED|95.0|14.35|57.87||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||57.87|14.35|<0.0001
92389129|NCT03726489|184678790|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|-5.2||||0.1773|TWO_SIDED|95.0|-19.4|9.0||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis including all skin phototypes||9.0|-19.4|0.1773
92389130|NCT03726489|184678790|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|-6.88||||0.4073|TWO_SIDED|95.0|-26.09|12.33||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||12.33|-26.09|0.4073
92389131|NCT03726489|184678790|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|-12.42||||0.8247|TWO_SIDED|95.0|-35.24|10.41||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||10.41|-35.24|0.8247
92389132|NCT03726489|184678790|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|37.88||||0.0133|TWO_SIDED|95.0|-4.01|79.77||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||79.77|-4.01|0.0133
92389133|NCT03726489|184678791|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|6.52||||0.002|TWO_SIDED|95.0|-7.11|20.14||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis including all skin phototypes||20.14|-7.11|0.002
92389134|NCT03726489|184678791|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|7.77||||0.0137|TWO_SIDED|95.0|-10.35|25.89||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||25.89|-10.35|0.0137
92418089|NCT02047318|184724002|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALP levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|-184.3|STANDARD_DEVIATION|322.22||0.22|TWO_SIDED|95.0|-522.5|153.8||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALP levels was observed over time (with Week 252 chosen as the end point as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||153.8|-522.5|0.22
92418090|NCT02047318|184724003|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALT levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|51.6|STANDARD_DEVIATION|89.77||0.0307|TWO_SIDED|95.0|5.4|97.7||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALT levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||97.7|5.4|0.0307
92169872|NCT00520546|184228465|SUPERIORITY_OR_OTHER||specificity|100.0||||0.0043|TWO_SIDED|95.0|3.0|100.0|||Fisher Exact|||"results from PET/MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||100|3|0.0043
92239731|NCT00696657|184383374|SUPERIORITY||Estimated treatment differences|-0.61||||0.0002|TWO_SIDED|95.0|-0.98|-0.23|||ANOVA|CIs for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 0.4 mg - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.23|-0.98|0.0002
92389135|NCT03726489|184678791|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|1.0||||0.1656|TWO_SIDED|95.0|-21.61|23.61||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||23.61|-21.61|0.1656
92389136|NCT03726489|184678791|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|22.73||||0.1225|TWO_SIDED|95.0|-25.16|70.62||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||70.62|-25.16|0.1225
92389137|NCT03726489|184678792|SUPERIORITY||Risk Difference (RD)|0.105||||0.0183|TWO_SIDED|95.0|0.018|0.192|||Marginal contrast||Positive values indicate higher proportion in the home group.|Difference of proportion at week 16. Calculated using contrasts of predictive margins following logistic regression with robust variance estimators via generalized estimating equations and exchangeable correlation. Missing data for DLQI are imputed using multiple imputation via chained equations (10 imputations), and the estimates are combined using standard rules.||0.192|0.018|0.0183
92389138|NCT03726489|184678792|SUPERIORITY||Risk Difference (RD)|0.064||||0.177|TWO_SIDED|95.0|-0.029|0.158|||Marginal contrast||Positive values indicate higher proportion in the home group.|Difference of proportion at week 20. Calculated using contrasts of predictive margins following logistic regression with robust variance estimators via generalized estimating equations and exchangeable correlation. Missing data for DLQI are imputed using multiple imputation via chained equations (10 imputations), and the estimates are combined using standard rules.||0.158|-0.029|0.177
92389139|NCT03726489|184678792|SUPERIORITY||Risk Difference (RD)|-0.011||||0.815|TWO_SIDED|95.0|-0.101|0.079|||Marginal contrast||Positive values indicate higher proportion in the home group.|Difference of proportion at week 24. Calculated using contrasts of predictive margins following logistic regression with robust variance estimators via generalized estimating equations and exchangeable correlation. Missing data for DLQI are imputed using multiple imputation via chained equations (10 imputations), and the estimates are combined using standard rules.||0.079|-0.101|0.815
92389140|NCT02114606|184678802|OTHER|Overall agreement was calculated using Cohen's Kappa, with endoscopic biopsy as the gold standard.||||||0.0001||||||A p-value of \<0.05 was considered statistically significant.|Cohen's Kappa|||All participants enrolled (EoE Patients) provided both a Cytosponge specimen and endoscopic biopsy. The results of these specimens were compared to examine overall agreement.||||0.0001
92389141|NCT00571038|184678814|SUPERIORITY_OR_OTHER|||||||0.2417|TWO_SIDED||||||Mixed Models Analysis|||||||0.2417
92389142|NCT00571038|184678815|SUPERIORITY_OR_OTHER|||||||0.8586|TWO_SIDED||||||Mixed Models Analysis|||||||0.8586
92389143|NCT00571038|184678816|SUPERIORITY_OR_OTHER|||||||0.0432|TWO_SIDED||||||Mixed Models Analysis|||||||0.0432
92389144|NCT00571038|184678817|SUPERIORITY_OR_OTHER|||||||0.0604|TWO_SIDED||||||Mixed Models Analysis|||||||0.0604
92389145|NCT00571038|184678818|SUPERIORITY_OR_OTHER|||||||0.0438|TWO_SIDED||||||Kruskal-Wallis|||||||0.0438
92169873|NCT00520546|184228465|SUPERIORITY_OR_OTHER||accuracy|95.0||||0.0043|TWO_SIDED|95.0|82.0|99.0|||Fisher Exact|||"results from PET/MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||99|82|0.0043
92389146|NCT00571038|184678819|SUPERIORITY_OR_OTHER|||||||0.1418|TWO_SIDED||||||Kruskal-Wallis|||||||0.1418
92389147|NCT00571038|184678820|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Fisher Exact|Two-sided Pr \<= P||||||0.0070
92389148|NCT00571038|184678821|SUPERIORITY_OR_OTHER|||||||0.8395|TWO_SIDED||||||Kruskal-Wallis|||||||0.8395
92389149|NCT00571038|184678822|SUPERIORITY_OR_OTHER|||||||0.2194|TWO_SIDED||||||Kruskal-Wallis|||||||0.2194
92389150|NCT00571038|184678823|SUPERIORITY_OR_OTHER|||||||0.9191|TWO_SIDED||||||Kruskal-Wallis|||||||0.9191
92389151|NCT00571038|184678824|SUPERIORITY_OR_OTHER|||||||0.9633|TWO_SIDED||||||Kruskal-Wallis|||||||0.9633
92389152|NCT00571038|184678825|SUPERIORITY_OR_OTHER|||||||0.5901|TWO_SIDED||||||Kruskal-Wallis|||||||0.5901
92389153|NCT00571038|184678826|SUPERIORITY_OR_OTHER|||||||0.982|TWO_SIDED||||||Kruskal-Wallis|||||||0.9820
92418091|NCT02047318|184724004|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALT levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|42.3|STANDARD_DEVIATION|140.41||0.4934|TWO_SIDED|95.0|-105.0|189.7||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALT levels was observed over time (with Week 252 chosen as the end point, as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||189.7|-105|0.4934
92418092|NCT02047318|184724005|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in AST levels between MRX baseline and Week 48 was statistically significant|Mean Difference (Net)|21.2|STANDARD_DEVIATION|58.98||0.1571|TWO_SIDED|95.0|-9.1|51.6||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in AST levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||51.6|-9.1|0.1571
92418093|NCT02047318|184724006|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in AST levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|12.2|STANDARD_DEVIATION|101.84||0.7815|TWO_SIDED|95.0|-94.7|119.0||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in AST levels was observed over time (with Week 252 chosen as the end point as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||119|-94.7|0.7815
92235194|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|1.7|||||TWO_SIDED|95.0|0.96|3.0|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 7F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.00|0.96|
92235195|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|1.6|||||TWO_SIDED|95.0|0.88|3.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 9V: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.04|0.88|
92235196|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.64|1.54|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 14: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.54|0.64|
92235197|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|1.2|||||TWO_SIDED|95.0|0.71|1.93|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 18C: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.93|0.71|
92389154|NCT00571038|184678827|SUPERIORITY_OR_OTHER|||||||0.3979|TWO_SIDED||||||Kruskal-Wallis|||||||0.3979
92389155|NCT00571038|184678828|SUPERIORITY_OR_OTHER|||||||0.1471|TWO_SIDED||||||Kruskal-Wallis|||||||0.1471
92389156|NCT00571038|184678829|SUPERIORITY_OR_OTHER|||||||0.6123|TWO_SIDED||||||Kruskal-Wallis|||||||0.6123
92389157|NCT00571038|184678830|SUPERIORITY_OR_OTHER|||||||0.5861|TWO_SIDED||||||Kruskal-Wallis|||||||0.5861
92389158|NCT00571038|184678831|SUPERIORITY_OR_OTHER|||||||0.4489|TWO_SIDED||||||Kruskal-Wallis|||||||0.4489
92389159|NCT00571038|184678832|SUPERIORITY_OR_OTHER|||||||0.2527|TWO_SIDED||||||Kruskal-Wallis|||||||0.2527
92389160|NCT00571038|184678833|SUPERIORITY_OR_OTHER|||||||0.7314|TWO_SIDED||||||Kruskal-Wallis|||||||0.7314
92389161|NCT00571038|184678834|SUPERIORITY_OR_OTHER|||||||0.9839|TWO_SIDED||||||Kruskal-Wallis|||||||0.9839
92389162|NCT02660853|184678846|SUPERIORITY|||||||0.745|||||||t-test, 2 sided|||Baseline versus during exacerbation.||||0.745
92389163|NCT02660853|184678850|SUPERIORITY|||||||0.326|||||||t-test, 2 sided|||||||0.326
92389164|NCT03594773|184678856|SUPERIORITY||Mean Difference (Final Values)|-0.496|STANDARD_ERROR_OF_MEAN|1.56||0.752|TWO_SIDED|95.0|-3.62|2.63|||t-test, 2 sided|df=56, equal variances assumed||||2.63|-3.62|.752
92389165|NCT03594773|184678857|SUPERIORITY||Mean Difference (Final Values)|1.26|STANDARD_ERROR_OF_MEAN|2.62||0.633|TWO_SIDED|95.0|-4.01|6.52|||t-test, 2 sided|df=49, equal variances assumed||||6.52|-4.01|.633
92389166|NCT03594773|184678858|SUPERIORITY||Mean Difference (Final Values)|0.95|STANDARD_ERROR_OF_MEAN|1.73||0.586|TWO_SIDED|95.0|-2.53|4.44|||t-test, 2 sided|df=49, equal variances assumed||||4.44|-2.53|.586
92389167|NCT01284517|184678862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|1.08||0.176|||||||Mixed Models Analysis|||Null hypothesis (H0) assumes equal values between analysis groups in mean change from baseline in MADRS score, alternative hypothesis (HA) assumes unequal values between groups. Sample size determined by two-sample t-test. A mean difference of 3.25 units in change in MADRS score for the Lurasdone 20-120 mg arm over placebo with common standard deviation of 9 units was used. N=162 subjects per arm (total N=324) yields power of 90%. A 5% adjustment for drop-outs gives N=340, or N=170 per arm.||||0.176
92389168|NCT01284517|184678863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.141||0.095|||||||Mixed Models Analysis|||||||0.095
92389169|NCT01284517|184678864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|1.0||0.992|||||||ANCOVA|||||||0.992
92389170|NCT03393494|184678865|EQUIVALENCE|provides 85% power of success|Equivalence ratio|107.0|||||TWO_SIDED|90.0|97.8|112.2|||Fieller's method|||||112.2|97.8|
92389171|NCT03393494|184678866|EQUIVALENCE|provides 85% power of success|Equivalence ratio|104.0||||0.05|TWO_SIDED|90.0|94.1|108.5|||Fieller's method|||||108.5|94.1|0.05
92235198|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|1.01|2.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 19A: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.04|1.01|
92389172|NCT01521507|184678879|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Stage 1 primary and secondary outcomes were tested in order under a closed form testing method. Secondary outcome was tested only if primary outcome was statistically significant. If both outcomes were significant, overall study alpha was 0.025.|z-statistic|p-value was based on z-statistic of the sum of weighted average of difference in scores between groups at each site divided by the sum of the weights.||The null and alternative hypotheses are H0: µt ≤ µc vs. Ha: µt \> µc, where µt and µc are the mean changes in total meibomian gland scores from Baseline to 3 Months for the LipiFlow (test) and Warm Compress and Lid Hygiene (active control) groups, respectively. For the Stage 1 Primary Outcome, the minimum sample size was 24 subjects per group with a power of 90% and a one-sided alpha of 0.025.||||<0.0001
92389173|NCT01521507|184678879|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Mixed Models Analysis|||Supportive multivariate mixed model was also performed for this outcome controlling for significant demographic and baseline characteristics.||||0.0020
92389174|NCT01521507|184678880|SUPERIORITY_OR_OTHER|||||||0.9098|TWO_SIDED||||||Mixed Models Analysis|Stage 2 Primary Outcome was analyzed with a multivariate mixed model with the subgroup as a fixed effect while controlling for other covariates.||The null and alternative hypotheses for the Stage 2 Primary Outcome was: H0: µi= µj for all i and j where i≠j versus Ha: µi ≠ µj for at least one i and j, where µi is the mean total meibomian gland score at 12 Months for the ith subgroup. The null hypothesis was tested with a two-sided test at alpha=0.05. Since Stage 2 was an observational design, no minimum sample size was calculated for Stage 2.||||0.9098
92389175|NCT01521507|184678881|SUPERIORITY_OR_OTHER|||||||0.0068|TWO_SIDED|||||Stage 1 primary and secondary outcomes were tested in order under a closed form testing method. Secondary outcome was tested only if primary outcome was statistically significant. If both outcomes were significant, overall study alpha was 0.025.|t-test, 2 sided|||The null and alternative hypotheses are H0: µt ≤ µc vs. Ha: µt \> µc, where µt and µc are the mean changes in total OSDI scores from Baseline to 3 Months for the LipiFlow (test) and Warm Compress and Lid Hygiene (active control) groups, respectively. For the Stage 1 Secondary Outcome, the minimum sample size was 84 per group with a power of 80% and a one-sided alpha of 0.025.||||0.0068
92418094|NCT02047318|184724007|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in GGT levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|-3.9|STANDARD_DEVIATION|257.78||0.9513|TWO_SIDED|95.0|-136.4|128.7||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in GGT levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||128.7|-136.4|0.9513
92418095|NCT02047318|184724008|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in GGT levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|-56.7|STANDARD_DEVIATION|356.88||0.7133|TWO_SIDED|95.0|-431.2|317.9||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in GGT levels was observed over time (with Week 252 chosen as the end point as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||317.9|-431.2|0.7133
92418096|NCT02047318|184724009|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in total bilirubin levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|0.16|STANDARD_DEVIATION|2.348||0.7839|TWO_SIDED|95.0|-1.05|1.37||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in total bilirubin levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||1.37|-1.05|0.7839
92418097|NCT02047318|184724009|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in direct bilirubin levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|-0.15|STANDARD_DEVIATION|0.982||0.5298|TWO_SIDED|95.0|-0.66|0.35||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in direct bilirubin levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||0.35|-0.66|0.5298
92389176|NCT01521507|184678881|SUPERIORITY_OR_OTHER|||||||0.0419|TWO_SIDED||||||Mixed Models Analysis|||Supportive multivariate mixed model was also performed for this outcome controlling for significant demographic and baseline characteristics.||||0.0419
92389177|NCT01521507|184678882|SUPERIORITY_OR_OTHER|||||||0.0237|TWO_SIDED|||||Stage 2 Secondary Outcome was analyzed with a multivariate mixed model with the subgroup as a fixed effect while controlling for other covariates.|Mixed Models Analysis|||The null and alternative hypotheses for the Stage 2 Secondary Outcome was: H0: µi= µj for all i and j where i≠j versus Ha: µi ≠ µj for at least one i and j, where µi is the mean total OSDI score at 12 Months for the ith subgroup. The null hypothesis was tested with a two-sided test at alpha=0.05. Since Stage 2 was an observational design, no minimum sample size was calculated for Stage 2.||||0.0237
92389178|NCT04034004|184678883|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Pain ratings were collected while lying in the supine and after each straight leg rasise test (SLR 1; SLR 2). A 2 (group) X 2 (SLR 1-rest vs. SLR 2-meditation) X 2 (supine vs. SLR) X 3 (session) repeated measure mixed model ANOVA was conducted to determine if mindfulness and non-mindfulness meditation attenuate SLR induced pain through endogenous opioids. Simple effects tests tested significant main effects and interactions to test primary study hypotheses and between-group differences.||||.05
92389179|NCT04317040|184678889|OTHER|Hazard ratio (HR) and the associated 95% CIs were calculated based on Cox Regression model and p-value was calculated based on log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|1.398||||0.0367|TWO_SIDED|95.0|1.02|1.918|||Log Rank||Cox-Regression Model|||1.918|1.020|0.0367
92418098|NCT02047318|184724010|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in total bilirubin levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|-0.53|STANDARD_DEVIATION|5.505||0.8218|TWO_SIDED|95.0|-6.31|5.24||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in total bilirubin levels was observed over time (with Week 252 chosen as the end point as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||5.24|-6.31|0.8218
92418099|NCT02047318|184724010|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in direct bilirubin levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|-0.52|STANDARD_DEVIATION|2.001||0.5549|TWO_SIDED|95.0|-2.62|1.58||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in direct bilirubin levels was observed over time (with Week 252 chosen as the end point as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||1.58|-2.62|0.5549
92418100|NCT00708201|184724022|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.773|||<|0.0001|TWO_SIDED|95.0|1.359|2.311|||Wald's Chi-Square|||||2.311|1.359|<0.0001
92418101|NCT00708201|184724023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.7|||<|0.001|TWO_SIDED|95.0|-37.8|-11.5|||Log Rank|||||-11.5|-37.8|<0.001
92235199|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.84|2.06|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 19F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.06|0.84|
92235200|NCT01025336|184373541|SUPERIORITY_OR_OTHER||Ratio of GMT|3.1|||||TWO_SIDED|95.0|1.89|5.2|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 23F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||5.20|1.89|
92418102|NCT00708201|184724024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.4|||<|0.001|TWO_SIDED|95.0|-35.0|-9.9|||Log Rank|||||-9.9|-35.0|<0.001
92418103|NCT00708201|184724025|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92418104|NCT00708201|184724026|SUPERIORITY_OR_OTHER||Relative Risk|1.38|||<|0.01|TWO_SIDED|95.0|1.12|1.71|||Fisher Exact||This is the relative risk for being a responder (alvimopan/placebo).|||1.71|1.12|<0.01
92418105|NCT00708201|184724027|SUPERIORITY_OR_OTHER||Percent difference|-20.71|||<|0.001|TWO_SIDED||||||Fisher Exact||Percent difference = alvimopan - placebo|Statistical analysis for overall POM is presented.||||<0.001
92418106|NCT00708201|184724028|SUPERIORITY_OR_OTHER||Percent difference|27.05|||<|0.0001|TWO_SIDED||||||Fisher Exact||Percent difference = alvimopan - placebo|Statistical analysis for day of surgery (Day 0) through PSD 7 is presented.||||<0.0001
92418107|NCT00708201|184724029|SUPERIORITY_OR_OTHER||Percent difference|25.2|||<|0.0001|TWO_SIDED||||||Fisher Exact||Percent difference = alvimopan - placebo|Statistical analysis for day of surgery (Day 0) through PSD 7 is presented.||||<0.0001
92418108|NCT00708201|184724030|SUPERIORITY_OR_OTHER||Percent difference|-6.94||||0.0946|TWO_SIDED|95.0|-14.5|0.62|||Fisher Exact||Percent difference = alvimopan - placebo.|||0.62|-14.5|0.0946
92418109|NCT02554279|184724032|NON_INFERIORITY|The study had at least 80% power, to demonstrate the non-inferiority of menotropin to recombinant FSH at 1-sided significance level of 0.025 with a -12% non-inferiority margin.|Absolute difference|4.7|||||TWO_SIDED|95.0|-2.7|12.1||||||Null hypothesis was defined as the difference between ongoing pregnancy rate of participants randomized and treated with menotropin and recombinant FSH, as ≤-12%.||12.1|-2.7|
92418110|NCT02554279|184724033|OTHER||Absolute difference|1.2|||||TWO_SIDED|95.0|-6.6|8.9||||||||8.9|-6.6|
92418111|NCT02554279|184724034|OTHER||Absolute difference|3.8|||||TWO_SIDED|95.0|-3.8|11.3||||||||11.3|-3.8|
92418112|NCT02554279|184724035|OTHER||Absolute difference|-9.5|||||TWO_SIDED|95.0|-19.2|0.2||||||||0.2|-19.2|
92418113|NCT00998764|184724055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74||||0.324|TWO_SIDED|95.0|-0.74|2.23|||Mixed Models Analysis|||Change from baseline in Alzheimer's Disease Assesment Scale-Cognitive Subscale (ADAS-Cog) at week 13||2.23|-0.74|0.324
92280550|NCT00601484|184463650|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.77|STANDARD_ERROR_OF_MEAN|43.222|||TWO_SIDED|90.0|-74.604|86.142||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||86.142|-74.604|
92418114|NCT00998764|184724055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.723|TWO_SIDED|95.0|-1.33|1.92|||Mixed Models Analysis|||Change from baseline in Alzheimer's Disease Assesment Scale-Cognitive Subscale (ADAS-Cog) at week 26||1.92|-1.33|0.723
92418115|NCT00998764|184724055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.966|TWO_SIDED|95.0|-1.81|1.89|||Mixed Models Analysis|||Change from baseline in Alzheimer's Disease Assesment Scale-Cognitive Subscale (ADAS-Cog) at week 39||1.89|-1.81|0.966
92418116|NCT00998764|184724055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.996|TWO_SIDED|95.0|-1.93|1.92|||Mixed Models Analysis|||Change from baseline in Alzheimer's Disease Assesment Scale-Cognitive Subscale (ADAS-Cog) at week 52||1.92|-1.93|0.996
92418117|NCT00998764|184724055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.336|TWO_SIDED|95.0|-3.67|1.26|||Mixed Models Analysis|||Change from baseline in Alzheimer's Disease Assesment Scale-Cognitive Subscale (ADAS-Cog) at week 78||1.26|-3.67|0.336
92418118|NCT00998764|184724056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.737|TWO_SIDED|95.0|-1.11|0.79|||Mixed Models Analysis|||Change from extension study baseline in ADAS-Cog at week 13||0.79|-1.11|0.737
92418119|NCT00998764|184724056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.213|TWO_SIDED|95.0|-1.76|0.4|||Mixed Models Analysis|||Change from extension study baseline in ADAS-Cog at week 26||0.40|-1.76|0.213
92418120|NCT00998764|184724056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.168|TWO_SIDED|95.0|-2.19|0.38|||Mixed Models Analysis|||Change from extension study baseline in ADAS-Cog at week 39||0.38|-2.19|0.168
92235201|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.72|1.51|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 1: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.51|0.72|
92389180|NCT04317040|184678891|OTHER|Risk difference (RD) and the associated 95% CIs were calculated based on Mantel-Haenszel method and p-value was calculated based on Chi-squared test, in accordance with the statistical analysis plan.|Risk Difference (RD)|-0.0555||||0.3281|TWO_SIDED|95.0|-0.1665|0.0555|||Chi-squared||Mantel-Haenszel method|||0.0555|-0.1665|0.3281
92389181|NCT04317040|184678892|OTHER|Hazard ratio (HR) and the associated 95% CIs were calculated based on Cox Regression model and p-value was calculated based on log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.558||||0.0306|TWO_SIDED|95.0|0.327|0.954|||Log Rank||Cox Regression Model|||0.954|0.327|0.0306
92389182|NCT04317040|184678893|OTHER|Risk difference (RD) and the associated 95% CIs were calculated based on Mantel-Haenszel method and p-value was calculated based on Chi-squared test, in accordance with the statistical analysis plan.|Risk Difference (RD)|0.027||||0.4491|TWO_SIDED|95.0|-0.043|0.097|||Chi-squared||Mantel-Haenszel method used to report all-cause mortality by Day 15|Day 15||0.0970|-0.0430|0.4491
92389183|NCT04317040|184678893|OTHER|Risk difference (RD) and the associated 95% CIs were calculated based on Mantel-Haenszel method and p-value was calculated based on Chi-squared test, in accordance with the statistical analysis plan.|Risk Difference (RD)|-0.0146||||0.7512|TWO_SIDED|95.0|-0.1049|0.0756|||Chi-squared||Mantel-Haenszel method used to report all-cause mortality by Day 29|Day 29||0.0756|-0.1049|0.7512
92389184|NCT04317040|184678896|OTHER|Hazard ratio (HR) and the associated 95% CIs were calculated based on Cox Regression model and p-value was calculated based on log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|1.416||||0.0311|TWO_SIDED|95.0|1.031|1.945|||Log Rank||Cox Regression model|||1.945|1.031|0.0311
92389185|NCT00799903|184678913|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.199|TWO_SIDED|95.1|0.85|1.03||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.03|0.85|0.199
92389186|NCT00799903|184678914|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.045|TWO_SIDED|95.0|0.82|1.0||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.00|0.82|0.045
92389187|NCT00799903|184678915|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.019|TWO_SIDED|95.0|0.84|0.98||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||0.98|0.84|0.019
92389188|NCT00799903|184678916|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.594|TWO_SIDED|95.0|0.83|1.11||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.11|0.83|0.594
92389189|NCT00799903|184678917|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.108|TWO_SIDED|95.0|0.77|1.03||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.03|0.77|0.108
92389190|NCT00799903|184678918|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.92|TWO_SIDED|95.0|0.81|1.27||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.27|0.81|0.920
92389191|NCT00799903|184678919|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.397|TWO_SIDED|95.0|0.88|1.05||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.05|0.88|0.397
92389192|NCT00799903|184678920|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.87|TWO_SIDED|95.0|0.9|1.13||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.13|0.90|0.870
92389193|NCT02518971|184678921|OTHER|||||||0.345|||||||Chi-squared|||||||0.345
92389194|NCT02518971|184678922|OTHER|||||||0.378|||||||Student T-Test|||||||.378
92389195|NCT02518971|184678923|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92389196|NCT02518971|184678924|OTHER|||||||0.497|||||||Fisher Exact|||||||.497
92389197|NCT02518971|184678925|OTHER|||||||0.207|||||||Student T-test|||||||.207
92389198|NCT01514201|184678942|OTHER|This was descriptive in nature. Two of the first 5 patients who were escalated to 175 mg/m2 of temozolomide during the maintenance intra-patient dose escalation had dose-modifying toxicities (DMTs). Since the ad hoc stopping rule was met, intra-patient dose escalation was halted and all subsequent patients were to receive 135 mg/m2 of temozolomide during maintenance.|Percentage of patients with DMTs|40.0|||||TWO_SIDED|||||||||Intra-patient dose escalation of temozolomide during maintenance was assessed based on similar rules employed in traditional 3+3 designs. For example intra-patient dose escalation would be halted if at any time 2 out of first 2-6 patients experienced dose-modifying toxicities at a given dose level or if 4 out of first 12 patients experienced dose-modifying toxicities at a given dose level.||||
92389199|NCT00566852|184678971|SUPERIORITY_OR_OTHER|||||||0.059||||||Significance level was 0.025.|Wilcoxon (Mann-Whitney)|||Null hypothesis: patients on memantine will experience less decline than patients receiving placebo. Based on a one-sided Wilcoxon rank sum test with alpha=0.025, 221 patients per arm would be required to have 80% statistical power to detect a mean difference of 0.87 in the HVLT-R change scores between the two treatment arms. Assuming that 20% of patients may be ineligible, or die prior to the 24 week assessment, the target sample size for randomization was set to 536.||||0.059
92389200|NCT00566852|184678972|SUPERIORITY|||||||0.0692||||||One-sided significance level of 0.025|Wilcoxon (Mann-Whitney)|||8 weeks||||0.0692
92389201|NCT00566852|184678972|SUPERIORITY|||||||0.4541||||||One-sided significance level of 0.025|Wilcoxon (Mann-Whitney)|||16 weeks||||0.4541
92389202|NCT00566852|184678972|SUPERIORITY|||||||0.397||||||One-sided significance level of 0.025|Wilcoxon (Mann-Whitney)|||52 weeks||||0.3970
92235202|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.52|0.94|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 3: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||0.94|0.52|
92389203|NCT00566852|184678973|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.01|TWO_SIDED|95.0|0.62|0.99|||Gray's test|||A one-sided log-rank test with alpha 0.025 accruing 221 patients/arm with 12 months of follow-up would ensure 98% statistical power to detect a 33% relative reduction in the monthly hazard rate with the use of memantine. Gray's test was used to test for a statistically significant difference in the distribution of neurocognitive failure times and Cox proportional hazards regression model was used to determine hazard ratios and 95% confidence intervals for the treatment difference.||0.99|0.62|0.01
92389204|NCT00566852|184678974|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||Assuming normally distributions, the two sample t-test assuming equal variances would be used to compare the arms at the 0.025 significance level. If normality assumptions were not met, the Wilcoxon rank sum would be used.||||0.77
92389205|NCT00566852|184678975|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.27|TWO_SIDED|95.0|0.87|1.3|||Log Rank|||The stratified log-rank test was used to test for a statistically significant difference in survival distributions with a one-sided alpha of 0.025 . In addition, the Cox proportional hazards regression model was used to determine hazard ratios and 95% confidence intervals for the treatment difference.||1.3|0.87|0.27
92389206|NCT00566852|184678976|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.025|TWO_SIDED|95.0|0.86|1.31|||Log Rank|||The stratified log-rank test was used to test for a statistically significant difference in survival distributions with a one-sided alpha of 0.025 . In addition, the Cox proportional hazards regression model was used to determine hazard ratios and 95% confidence intervals for the treatment difference.||1.31|0.86|0.025
92389207|NCT04531241|184678980|NON_INFERIORITY|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect a 5 points difference in mean overall comfort and vision at the 1-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05). A non-inferiority margin of -5 points was used.|Least-Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|2.01|||TWO_SIDED|95.0|-6.8|1.1|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|||1.1|-6.8|
92389208|NCT04531241|184678981|NON_INFERIORITY|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have a 0.05 logMAR unit difference in logMAR visual acuity at LLHC and HLLC lighting conditions at the 1-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05). A non-inferiority margin of 0.05 logMAR units was used.|Least-Square Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.005|||TWO_SIDED|95.0|-0.0199|0.0|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|Low Luminance High Contrast||0.0|-0.0199|
92389209|NCT04531241|184678981|NON_INFERIORITY|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have a 0.05 logMAR unit difference in logMAR visual acuity at LLHC and HLLC lighting conditions at the 1-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05). A non-inferiority margin of 0.05 logMAR units was used.|Least-Square Mean Difference|-0.004|STANDARD_ERROR_OF_MEAN|0.0066|||TWO_SIDED|95.0|-0.0173|0.0087|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|High Luminance Low Contrast||0.0087|-0.0173|
92389210|NCT04531241|184678982|NON_INFERIORITY|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have a 1 hour difference in average daily wear time at the 1-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05). A non-inferiority margin of 1 hour was used.|Least-Square Mean Difference|-0.052|STANDARD_ERROR_OF_MEAN|0.0731|||TWO_SIDED|95.0|-0.1968|0.0933|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|||0.0933|-0.1968|
92389211|NCT04531241|184678983|NON_INFERIORITY|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect a 5 points difference in mean overall comfort and vision at the 1-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05). A non-inferiority margin of -5 points was used.|Least-Square Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|1.47|||TWO_SIDED|95.0|-5.5|0.3|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|||0.3|-5.5|
92389212|NCT01702246|184679003|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||Wilcoxon matched pairs signed rank test|Wilcoxon (Mann-Whitney)|||||||0.005
92389213|NCT01702246|184679004|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
92389214|NCT01702246|184679005|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
92389215|NCT04209205|184679031|SUPERIORITY||Marginal difference|25.02|||<|0.0001|TWO_SIDED|95.0|17.61|32.43|||Regression, Logistic|||||32.43|17.61|<.0001
92389216|NCT04209205|184679032|SUPERIORITY||Marginal difference|30.59|||<|0.0001|TWO_SIDED|95.0|21.14|40.05|||Regression, Logistic|||||40.05|21.14|<.0001
92389217|NCT04209205|184679033|SUPERIORITY||Marginal difference|17.17|||<|0.0001|TWO_SIDED|95.0|10.48|23.85|||Regression, Logistic|||||23.85|10.48|<.0001
92389218|NCT04209205|184679034|SUPERIORITY||Marginal difference|41.39|||<|0.0001|TWO_SIDED|95.0|30.64|52.13|||Regression, Logistic|||||52.13|30.64|<.0001
92389219|NCT04209205|184679035|SUPERIORITY||Least squares mean|-1.13|STANDARD_ERROR_OF_MEAN|0.129|<|0.0001|TWO_SIDED|95.0|-1.38|0.87|||Mixed Models Analysis|||||0.87|-1.38|<.0001
92389220|NCT04209205|184679036|SUPERIORITY||Least squares mean|-0.24|STANDARD_ERROR_OF_MEAN|-0.043|<|0.0001|TWO_SIDED|95.0|-0.32|0.15|||Mixed Models Analysis|||||0.15|-0.32|<.0001
92235203|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.58|1.47|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 4: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.47|0.58|
92235204|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|0.4|||||TWO_SIDED|95.0|0.25|0.59|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 5: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||0.59|0.25|
92389221|NCT04209205|184679037|SUPERIORITY||Least squares mean|4.13|STANDARD_ERROR_OF_MEAN|0.676|<|0.0001|TWO_SIDED|95.0|2.8|5.46|||Mixed Models Analysis|||||5.46|2.80|<.0001
92389222|NCT04209205|184679038|SUPERIORITY||Least squares mean|2.85|STANDARD_ERROR_OF_MEAN|0.933||0.0024|TWO_SIDED|95.0|1.01|4.68|||Mixed Models Analysis|||||4.68|1.01|0.0024
92389223|NCT04209205|184679039|SUPERIORITY||Least squares mean|-6.11|STANDARD_ERROR_OF_MEAN|1.447|<|0.0001|TWO_SIDED|95.0|-8.96|-3.26|||Mixed Models Analysis|||||-3.26|-8.96|<.0001
92389224|NCT04209205|184679040|SUPERIORITY||Marginal difference|27.49||||0.0003|TWO_SIDED|95.0|12.43|42.55|||Regression, Logistic|||||42.55|12.43|0.0003
92389225|NCT04209205|184679041|SUPERIORITY||Marginal difference|16.35||||0.0102|TWO_SIDED|95.0|3.88|28.82|||Regression, Logistic|||||28.82|3.88|0.0102
92389226|NCT02910102|184679070|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.3565|TWO_SIDED|95.0|-6.04|2.23||The threshold for statistical significance was p=0.05|Mixed Models Analysis|Each co-primary endpoint was tested at two-sided 5% level of significance, with no adjustments for multiplicity.||||2.23|-6.04|0.3565
92389227|NCT02910102|184679071|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.922|TWO_SIDED|95.0|-3.73|3.38||The threshold for statistical significance was p=0.05|Mixed Models Analysis|Each co-primary endpoint was tested at two-sided 5% level of significance, with no adjustments for multiplicity.||||3.38|-3.73|0.9220
92389228|NCT02863328|184679073|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand). A value of 0.4% (the non-inferiority margin) was added to imputed values at week 26 for the oral semaglutide treatment arm only.|Treatment difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.3||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.4%.|Pattern mixture model||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.3|-0.6|< 0.0001
92389229|NCT02863328|184679073|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.3||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.3|-0.6|< 0.0001
92389230|NCT02863328|184679073|NON_INFERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.4%.|MMRM||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.4|-0.7|<0.0001
92389231|NCT02863328|184679073|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.4|-0.7|<0.0001
92418121|NCT00998764|184724056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91||||0.197|TWO_SIDED|95.0|-2.3|0.48|||Mixed Models Analysis|||Change from extension study baseline in ADAS-Cog at week 52||0.48|-2.30|0.197
92418122|NCT00998764|184724056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13||||0.044|TWO_SIDED|95.0|-4.21|0.06|||Mixed Models Analysis|||Change from extension study baseline in ADAS-Cog at week 78||0.06|-4.21|0.044
92280551|NCT00601484|184463650|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-21.35|STANDARD_ERROR_OF_MEAN|70.862|||TWO_SIDED|90.0|-164.142|121.438||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||121.438|-164.142|
92235205|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.85|2.32|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 6A: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.32|0.85|
92235206|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.82|2.13|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 6B: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.13|0.82|
92389232|NCT02863328|184679074|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.1|||=|0.7593|TWO_SIDED|95.0|-0.7|0.5||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.5|-0.7|= 0.7593
92389233|NCT02863328|184679074|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-0.4|||=|0.1358|TWO_SIDED|95.0|-1.0|0.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.1|-1.0|= 0.1358
92389234|NCT02863328|184679102|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.85||||0.3552|TWO_SIDED|95.0|0.6|1.2||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Empagliflozin 25 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.20|0.60|0.3552
92389235|NCT02863328|184679103|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.75||||0.225|TWO_SIDED|95.0|0.47|1.19||Unadjusted two-sided p-value for test of no difference from 1.|Cox proportional hazards model||Oral semaglutide 14 mg / Empagliflozin 25 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.19|0.47|0.2250
92389236|NCT00429169|184679128|SUPERIORITY_OR_OTHER||regression coefficient|-0.29||||0.03|TWO_SIDED|95.0|-0.57|-0.023||The p-value applies to the interaction term of Treatment X Baseline Suicidal Ideation severity.|Mixed Models Analysis|||Generalized least squares model of Scale for Suicidal Ideation score during 8-week acute treatment of major depressive disorder.||-0.023|-0.57|0.03
92389237|NCT00999544|184679140|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"Area-under-the-curve (AUC) scores were derived from time course data and analyzed using two-factor ANOVA \[aprepitant dose (3 levels)x oxycodone dose (3 levels)\].~All analyses were conducted using SAS 9.1 for Windows (SAS Institute Inc., Cary, NC, USA) and were considered significant when P 0.05."||||<.05
92389238|NCT03652181|184679227|EQUIVALENCE|The null hypothesis is that the year 1 change is equivalent to year 2 change in mean QSM||||||0.033|||||||t-test, 2 sided|||||||0.033
92389239|NCT03652181|184679228|EQUIVALENCE|The null hypothesis is that the year 1 change is equivalent to year 2 change in mean DCEQP||||||0.3459|||||||t-test, 2 sided|||||||0.3459
92389240|NCT03652181|184679229|EQUIVALENCE|The null hypothesis is that the year 1 change is equivalent to year 2 numbers||||||1|||||||Chi-squared|||||||1.0
92389241|NCT01101035|184679244|NON_INFERIORITY|Noninferiority was declared if the upper 1-sided CI for the hazard ratio was less than 1.3. Critical boundary of 2.359 (75% interim) based on the Lan-DeMets-O'Brien-Fleming alpha spending function was used for CI estimation.|Cox Proportional Hazard|0.99|||||ONE_SIDED|97.0||1.23|||||Time from randomization to the first occurrence of any MACE was fitted using Cox Proportional Hazard model with treatment as a covariate and Baseline renal function as a stratification factor.|Statistical analysis for the primary endpoint was based on 1-sided repeated confidence intervals (CIs), using critical values from a 1-sided stopping boundary for a group sequential design (GSD), to preserve an overall false-rejection rate of 2.5%, to assess non-inferiority at each interim analysis and the final analysis.||1.23||
92389242|NCT01101035|184679245|OTHER||Cox Proportional Hazard|1.09|||||TWO_SIDED|95.0|0.92|1.28|||||Time from randomization to the first occurrence of any APTC event was fitted using Cox Proportional Hazard model with treatment as a covariate and Baseline renal function status as a stratification factor.|||1.28|0.92|
92389243|NCT01101035|184679246|OTHER||Cox Proportional Hazard|1.34|||||TWO_SIDED|95.0|1.03|1.73|||||Time from randomization to the first occurrence of cardiovascular death was fitted using Cox Proportional Hazard model with factors including treatment and baseline renal function.|||1.73|1.03|
92389244|NCT01101035|184679247|OTHER||Cox Proportional Hazard|0.93|||||TWO_SIDED|95.0|0.72|1.21|||||Time from randomization to the first occurrence of non-fatal MI was fitted using Cox Proportional Hazard model with factors including treatment and baseline renal function.|||1.21|0.72|
92235207|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|0.6|||||TWO_SIDED|95.0|0.37|0.97|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 7F: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||0.97|0.37|
92418123|NCT00998764|184724057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.99||||0.077|TWO_SIDED|95.0|-6.3|0.33|||Mixed Models Analysis|||Change from base study baseline in DAD score at Week 13||0.33|-6.30|0.077
92418124|NCT00998764|184724057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.67||||0.117|TWO_SIDED|95.0|-6.02|0.67|||Mixed Models Analysis|||Change from base study baseline in DAD score at Week 26||0.67|-6.02|0.117
92418125|NCT00998764|184724057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.063|TWO_SIDED|95.0|-7.38|0.19|||Mixed Models Analysis|||Change from base study baseline in DAD score at Week 39||0.19|-7.38|0.063
92235208|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.54|1.7|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 9V: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.70|0.54|
92418126|NCT00998764|184724057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.412|TWO_SIDED|95.0|-5.95|2.44|||Mixed Models Analysis|||Change from base study baseline in DAD score at Week 52||2.44|-5.95|0.412
92418127|NCT00998764|184724057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.78||||0.321|TWO_SIDED|95.0|-8.28|2.73|||Mixed Models Analysis|||Change from base study baseline in DAD score at Week 78||2.73|-8.28|0.321
92418128|NCT00998764|184724058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.329|TWO_SIDED|95.0|-3.24|1.09|||Mixed Models Analysis|||Change from extension study baseline in DAD score at Week 13||1.09|-3.24|0.329
92418129|NCT00998764|184724058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.601|TWO_SIDED|95.0|-3.31|1.92|||Mixed Models Analysis|||Change from extension study baseline in DAD score at Week 26||1.92|-3.31|0.601
92418130|NCT00998764|184724058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55||||0.328|TWO_SIDED|95.0|-4.67|1.56|||Mixed Models Analysis|||Change from extension study baseline in DAD score at Week 39||1.56|-4.67|0.328
92418131|NCT00998764|184724058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.68|TWO_SIDED|95.0|-2.7|4.13|||Mixed Models Analysis|||Change from extension study baseline in DAD score at Week 52||4.13|-2.70|0.680
92418132|NCT00998764|184724058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.954|TWO_SIDED|95.0|-5.05|4.77|||Mixed Models Analysis|||Change from extension study baseline in DAD score at Week 78||4.77|-5.05|0.954
92418133|NCT00998764|184724059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.931|TWO_SIDED|95.0|-2.4|2.62|||Mixed Models Analysis|||Change from base study baseline in NPI score at week 26.||2.62|-2.40|0.931
92418134|NCT00998764|184724059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.524|TWO_SIDED|95.0|-3.26|1.67|||Mixed Models Analysis|||Change from base study baseline in NPI score at week 52.||1.67|-3.26|0.524
92418135|NCT00998764|184724059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.03||||0.353|TWO_SIDED|95.0|-6.32|2.27|||Mixed Models Analysis|||Change from base study baseline in NPI score at week 78.||2.27|-6.32|0.353
92418136|NCT00998764|184724060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.531|TWO_SIDED|95.0|-2.92|1.51|||Mixed Models Analysis|||Change from extension study baseline in NPI score at week 26.||1.51|-2.92|0.531
92418137|NCT00998764|184724060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.84||||0.137|TWO_SIDED|95.0|-4.28|0.59|||Mixed Models Analysis|||Change from extension study baseline in NPI score at week 52.||0.59|-4.28|0.137
92418138|NCT00998764|184724060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.32||||0.128|TWO_SIDED|95.0|-7.6|0.96|||Mixed Models Analysis|||Change from extension study baseline in NPI score at week 78.||0.96|-7.60|0.128
92418139|NCT00998764|184724061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.811|TWO_SIDED|95.0|-0.49|0.63|||Mixed Models Analysis|||Change from base study baseline in MMSE score at Week 6.||0.63|-0.49|0.811
92418140|NCT00998764|184724061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.681|TWO_SIDED|95.0|-0.45|0.69|||Mixed Models Analysis|||Change from base study baseline in MMSE score at Week 19.||0.69|-0.45|0.681
92418141|NCT00998764|184724061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.742|TWO_SIDED|95.0|-0.51|0.72|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 32.||0.72|-0.51|0.742
92418142|NCT00998764|184724061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.598|TWO_SIDED|95.0|-0.48|0.83|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 45.||0.83|-0.48|0.598
92418143|NCT00998764|184724061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.922|TWO_SIDED|95.0|-0.85|0.77|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 78.||0.77|-0.85|0.922
92418144|NCT00998764|184724062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.099|TWO_SIDED|95.0|-0.08|0.9|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 6.||0.90|-0.08|0.099
92418145|NCT00998764|184724062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.089|TWO_SIDED|95.0|-0.07|1.01|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 19.||1.01|-0.07|0.089
92389245|NCT01101035|184679248|OTHER||Cox Proportional Hazard|1.01|||||TWO_SIDED|95.0|0.73|1.41|||||Time from randomization to the first occurrence of non-fatal stroke was fitted using Cox Proportional Hazard model with factors including treatment and baseline renal function.|||1.41|0.73|
92418146|NCT00998764|184724062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.152|TWO_SIDED|95.0|-0.17|1.08|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 32.||1.08|-0.17|0.152
92418147|NCT00998764|184724062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.16|TWO_SIDED|95.0|-0.21|1.25|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 45.||1.25|-0.21|0.160
92235209|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.59|1.41|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 14: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.41|0.59|
92235210|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.48|1.17|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 18C: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.17|0.48|
92235211|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.58|1.05|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 19A: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.05|0.58|
92235212|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|0.6|||||TWO_SIDED|95.0|0.41|0.88|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 19F: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||0.88|0.41|
92235213|NCT01025336|184373542|SUPERIORITY_OR_OTHER||Ratio of GMT|1.7|||||TWO_SIDED|95.0|1.05|2.81|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 23F: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.81|1.05|
92235214|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|1.7|||||TWO_SIDED|95.0|1.27|2.4|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 1: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.40|1.27|
92235215|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|1.2|||||TWO_SIDED|95.0|0.95|1.59|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 3: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||1.59|0.95|
92235216|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.03|2.29|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 4: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.29|1.03|
92235217|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.95|1.97|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 5: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||1.97|0.95|
92235218|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|2.2|||||TWO_SIDED|95.0|1.42|3.31|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 6A: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||3.31|1.42|
92389246|NCT01101035|184679249|OTHER||Cox Proportional Hazard|0.86|||||TWO_SIDED|95.0|0.59|1.26|||||Time from randomization to the first occurrence of unstable angina with urgent coronary revascularization was fitted using Cox Proportional Hazard model with factors including treatment and baseline renal function.|||1.26|0.59|
92418148|NCT00998764|184724062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.603|TWO_SIDED|95.0|-0.73|1.26|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 78.||1.26|-0.73|0.603
92418149|NCT04761627|184724067|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Geometric Least Squares (LS) Means Ratio|0.9325|||||TWO_SIDED|90.0|0.8874|0.9799|||||Switching group vs Continued-use group.|The ratio of geometric LS means, and 90% confidence intervals (CIs) were estimated using the analysis of covariance (ANCOVA) model adjusted for the actual stratification factors if prior biologic use for psoriasis, baseline body weight group, geographic region, and PK trough concentration at week 28.||0.9799|0.8874|
92418150|NCT04761627|184724068|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Geometric LS Means Ratio|0.9483|||||TWO_SIDED|90.0|0.8977|1.0018|||||Switching group vs Continued-use group.|The ratio of geometric LS means, and 90% CIs were estimated using the ANCOVA model adjusted for the actual stratification factors if prior biologic use for psoriasis, baseline body weight group, geographic region, and PK trough concentration at week 28.||1.0018|0.8977|
92418151|NCT04761627|184724070|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Geometric LS Means Ratio|0.9617|||||TWO_SIDED|90.0|0.8319|1.1119|||||Ctrough,ss at Week 28: Switching group vs Continued-use group|The ratio of Geometric LS means, and 90% CI for Ctrough,ss at week 28 were estimated based on an ANCOVA model adjusted for the actual stratification factors of prior biologic use for psoriasis, baseline body weight group, and geographic region.||1.1119|0.8319|
92235219|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.88|2.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 6B: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.04|0.88|
92235220|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|0.95|2.4|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 7F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.40|0.95|
92235221|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|1.2|||||TWO_SIDED|95.0|0.7|1.99|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 9V: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||1.99|0.70|
92235222|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.57|1.25|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 14: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||1.25|0.57|
92389247|NCT01101035|184679250|NON_INFERIORITY|Noninferiority was declared if the upper 1-sided CI for the hazard ratio was less than 1.3. Critical boundary of 2.014 (final analysis) based on the Lan-DeMets-O'Brien-Fleming alpha spending function was used for CI estimation.|Cox Proportional Hazard|1.03|||||TWO_SIDED|97.0|0.87|1.23|||||Time from randomization to the first occurrence of any MACE was fitted using Cox Proportional Hazard model with treatment as a covariate and Baseline renal function as a stratification factor.|Statistical analysis for the primary endpoint was based on 1-sided repeated confidence intervals (CIs), using critical values from a 1-sided stopping boundary for a group sequential design (GSD), to preserve an overall false-rejection rate of 2.5%, to assess non-inferiority at each interim analysis and the final analysis.||1.23|0.87|
92389248|NCT02178995|184679293|SUPERIORITY_OR_OTHER|||||||0.037||||||HRTSD p-value = 0.037; p \< 0.05 considered significant|ANOVA|Within-subjects contrasts, n=31, df=1||||||0.037
92418152|NCT04761627|184724070|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Geometric LS Means Ratio|0.9662|||||TWO_SIDED|90.0|0.8879|1.0515|||||Ctrough,ss at Week 40: Switching group vs Continued-use group|The ratio of geometric LS means, and 90% CI for Ctrough,ss at week 40 between the 2 treatment groups were estimated using an ANCOVA model adjusting for stratification factors and PK trough concentration at week 28.||1.0515|0.8879|
92418153|NCT04761627|184724070|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Geomtric LS Means Ratio|0.9806|||||TWO_SIDED|90.0|0.8916|1.0785|||||Ctrough,ss at Week 52: Switching group vs Continued-use group|The ratio of geometric LS means, and 90% CI for Ctrough,ss at week 52 between the 2 treatment groups were estimated using an ANCOVA model adjusting for stratification factors and PK trough concentration at week 28.||1.0785|0.8916|
92389249|NCT02178995|184679293|SUPERIORITY_OR_OTHER|||||||0.055||||||D' p = 0.055. p \< 0.05 considered significant.|ANOVA|Within-subjects contrasts, placebo v 10mg v 20mg.||||||0.055
92389250|NCT02178995|184679293|SUPERIORITY_OR_OTHER|||||||0.758|||||||t-test, 2 sided|||HRTSD 10mg vs 20mg||||0.758
92389251|NCT02178995|184679293|SUPERIORITY_OR_OTHER|||||||0.499|||||||t-test, 2 sided|||d' 10mg vs 20mg||||0.499
92389252|NCT02178995|184679294|SUPERIORITY_OR_OTHER|||||||0.008|||||||ANOVA|||||||0.008
92389253|NCT02178995|184679294|SUPERIORITY_OR_OTHER|||||||0.071|||||||t-test, 2 sided|||SDMT 10mg vs 20mg||||0.071
92389254|NCT02178995|184679295|SUPERIORITY_OR_OTHER|||||||0.154|||||||ANOVA|||||||0.154
92389255|NCT02178995|184679295|SUPERIORITY_OR_OTHER|||||||0.779|||||||t-test, 2 sided|||MCG 10mg vs 20mg||||0.779
92389256|NCT02178995|184679296|SUPERIORITY_OR_OTHER||||||<|0.0001||||||HRTSD P\<0.0001|t-test, 2 sided|||Intra-group comparison, HRTSD||||<0.0001
92389257|NCT02178995|184679296|SUPERIORITY_OR_OTHER|||||||0.001||||||HRTSD p \<0.001 for healthy controls|t-test, 2 sided|||Intra-group comparison, HRTSD, healthy controls||||0.001
92418154|NCT04761627|184724071|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Mean difference|0.07|||||TWO_SIDED|90.0|-2.62|2.77|||||Mean difference in PASI percent improvement from baseline at Week 64: Switching group - Continued-use group|Multiple imputation was applied for the point estimate and CI of the mean difference between the switching and continued-use groups. Missing PASI scores at the week 64 visit were imputed by MI.||2.77|-2.62|
92418155|NCT04761627|184724072|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Response difference|0.2|||||TWO_SIDED|90.0|-5.7|6.2|||||Response difference in PASI 75 Response at Week 64: Switching group - Continued-use group|Response difference was estimated by the Mantel-Haenszel estimate, and the 90% CIs were estimated by the stratified Newcombe confidence limits, adjusting for the prior biologic use of psoriasis, baseline body weight group, geographic region. Missing post-baseline binary response data were imputed by NRI.||6.2|-5.7|
92389258|NCT02178995|184679296|SUPERIORITY_OR_OTHER|||||||0.322|||||||ANOVA|||Between-group comparisons by 2-way ANOVA, HRTSD||||0.322
92389259|NCT02178995|184679296|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Intra-group comparison, epilepsy, D'||||<0.0001
92389260|NCT02178995|184679296|SUPERIORITY_OR_OTHER|||||||0.037|||||||t-test, 2 sided|||Intra-group analysis, healthy controls, d'||||0.037
92389261|NCT02178995|184679296|SUPERIORITY_OR_OTHER|||||||0.08|||||||ANOVA|||Intra-group analysis by 2-way ANOVA, d'||||0.08
92389262|NCT02178995|184679297|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
92389263|NCT02178995|184679297|SUPERIORITY_OR_OTHER|||||||0.022|||||||t-test, 2 sided|||||||0.022
92389264|NCT02178995|184679297|SUPERIORITY_OR_OTHER|||||||0.443|||||||ANOVA|||Group x time interaction by 2-way ANOVA||||0.443
92389265|NCT02178995|184679298|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92389266|NCT02178995|184679298|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||||||0.004
92278754|NCT03280537|184460126|SUPERIORITY||Difference in Least Squares Means|-0.63|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.9|-0.35||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline ARS, treatment and baseline ARS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Anterior Rhinorrhea Score (ARS) at Week 24.||-0.35|-0.90|<0.0001
92389267|NCT02178995|184679298|SUPERIORITY_OR_OTHER|||||||0.906|||||||ANOVA|||Between-groups analysis by 2-way ANOVA||||0.906
92389268|NCT02178995|184679299|SUPERIORITY_OR_OTHER|||||||0.274|||||||t-test, 2 sided|||||||0.274
92389269|NCT02178995|184679300|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92389270|NCT02178995|184679301|SUPERIORITY_OR_OTHER|||||||0.04||||||Hits p = 0.04|ANOVA|||||||0.04
92389271|NCT02178995|184679301|SUPERIORITY_OR_OTHER|||||||0.038||||||Omissions p = 0.038|ANOVA|||||||0.038
92418156|NCT04761627|184724073|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Response difference|0.2|||||TWO_SIDED|90.0|-7.4|7.8|||||Response difference in PASI 100 Response at Week 64: Switching group - Continued-use group|Response difference was estimated by the Mantel-Haenszel estimate, and the 90% CIs were estimated by the stratified Newcombe confidence limits, adjusting for the prior biologic use of psoriasis, baseline body weight group, geographic region. Missing post-baseline binary response data were imputed by NRI.||7.8|-7.4|
92389272|NCT02178995|184679301|SUPERIORITY_OR_OTHER|||||||0.329||||||Commissions p = 0.329|ANOVA|||||||0.329
92389273|NCT02178995|184679301|SUPERIORITY_OR_OTHER|||||||0.876|||||||t-test, 2 sided|||Hits 10mg vs 20mg||||0.876
92389274|NCT02178995|184679301|SUPERIORITY_OR_OTHER|||||||0.932|||||||t-test, 2 sided|||Omissions 10mg vs 20mg||||0.932
92389275|NCT02178995|184679301|SUPERIORITY_OR_OTHER|||||||0.898|||||||t-test, 2 sided|||Commissions 10mg vs 20mg||||0.898
92389276|NCT02178995|184679302|SUPERIORITY_OR_OTHER|||||||0.7116|||||||t-test, 2 sided|||Comparison of baseline rate of seizures (expressed as seizures per 28 days) pre-trial against the rate experienced during the double-blind portion of our trial.||||0.7116
92389277|NCT02178995|184679303|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Attention/Concentration subscale||||<0.0001
92389278|NCT02178995|184679303|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Memory subscale||||<0.0001
92389279|NCT02178995|184679303|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Language subscale||||0.002
92389280|NCT02178995|184679303|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||Energy/fatigue subscale||||0.001
92389281|NCT02178995|184679304|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||Hits v1 vs v5 epilepsy||||0.003
92389282|NCT02178995|184679304|SUPERIORITY_OR_OTHER|||||||0.033|||||||t-test, 2 sided|||Hits v1 vs v5 healthy||||0.033
92418157|NCT04761627|184724075|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Risk Difference (RD)|-0.48|||||TWO_SIDED|90.0|-4.17|3.1|||||Switching group - continued-use group|Risk difference for any EOI: risk difference and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.||3.10|-4.17|
92389283|NCT02178995|184679304|SUPERIORITY_OR_OTHER|||||||0.079|||||||ANOVA|||2-way ANOVA epilepsy vs healthy hits||||0.079
92389284|NCT02178995|184679304|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||Omissions epilepsy v1 vs v5||||0.001
92389285|NCT02178995|184679304|SUPERIORITY_OR_OTHER|||||||0.029|||||||t-test, 2 sided|||Omissions v1 vs v5 healthy||||0.029
92389286|NCT02178995|184679304|SUPERIORITY_OR_OTHER|||||||0.048|||||||t-test, 2 sided|||Epilepsy v healthy ANOVA Omissions||||0.048
92389287|NCT02178995|184679304|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Commissions v1 vs v5 epilepsy||||<0.0001
92389288|NCT02178995|184679304|SUPERIORITY_OR_OTHER|||||||0.42|||||||t-test, 2 sided|||Commissions v1 vs v5 healthy||||0.42
92389289|NCT02178995|184679304|SUPERIORITY_OR_OTHER|||||||0.019|||||||ANOVA|||Healthy vs epilepsy ANOVA (2-way) commissions||||0.019
92389290|NCT02178995|184679305|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92389291|NCT02178995|184679306|SUPERIORITY_OR_OTHER|||||||0.003||||||Note: Stimulant side-effect score \*decreased\* with addition of open-label stimulant.|t-test, 2 sided|||||||0.003
92389292|NCT02178995|184679307|SUPERIORITY_OR_OTHER|||||||0.014|||||||t-test, 2 sided|||BDI epilepsy v1 vs v5||||0.014
92389293|NCT02178995|184679307|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||Healthy controls BDI v1 vs v5||||0.04
92389294|NCT02178995|184679307|SUPERIORITY_OR_OTHER|||||||0.191|||||||t-test, 2 sided|||Between-group comparison 2-way ANOVA BDI||||0.191
92389295|NCT02178995|184679307|SUPERIORITY_OR_OTHER|||||||0.42|||||||t-test, 2 sided|||BAI visit 1 vs visit 5 epilepsy||||0.42
92389296|NCT02178995|184679307|SUPERIORITY_OR_OTHER|||||||0.477|||||||t-test, 2 sided|||BAI visit 1 vs visit 5 healthy controls||||0.477
92389297|NCT02178995|184679307|SUPERIORITY_OR_OTHER|||||||0.792|||||||ANOVA|||Between-groups comparison 2-way ANOVA BAI||||0.792
92389298|NCT02178995|184679307|SUPERIORITY_OR_OTHER|||||||0.045|||||||t-test, 2 sided|||AES visit 1 vs visit 5 epilepsy||||0.045
92389299|NCT02178995|184679307|SUPERIORITY_OR_OTHER|||||||0.646|||||||t-test, 2 sided|||AES visit 1 vs visit 5 healthy controls||||0.646
92389300|NCT02178995|184679307|SUPERIORITY_OR_OTHER|||||||0.222|||||||ANOVA|||Between-groups comparison 2-way ANOVA AES||||0.222
92389301|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.011|||||||t-test, 2 sided|||Health Perceptions||||0.011
92389302|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.01|||||||t-test, 2 sided|||Overall QOL (subjectively rated by participants on the scale)||||0.01
92389303|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.164|||||||t-test, 2 sided|||Physical Function||||0.164
92389304|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.065|||||||t-test, 2 sided|||Role Limitations (Emotional)||||0.065
92389305|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.014|||||||t-test, 2 sided|||Role Limitations (Physical)||||0.014
92389306|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.128|||||||t-test, 2 sided|||Pain||||0.128
92389307|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.026|||||||t-test, 2 sided|||Work/Driving/Social||||0.026
92389308|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.077|||||||t-test, 2 sided|||Emotional Wellbeing||||0.077
92389309|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.007|||||||t-test, 2 sided|||Health Discouragement||||0.007
92389310|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.063|||||||t-test, 2 sided|||Seizure Worry||||0.063
92169874|NCT00520546|184228466|SUPERIORITY_OR_OTHER||positive prediction|69.0||||0.09||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from FEC-PET as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.09
92389311|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.609|||||||t-test, 2 sided|||Medication Effects||||0.609
92389312|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.626|||||||t-test, 2 sided|||Social Support||||0.626
92418158|NCT01634178|184724077|OTHER|Food was considered to have no effect on the PK of apremilast if the 90% confidence interval (CI) of the geometric least squares (LS) mean ratios for AUC0-t and Cmax were completely contained within the range of 80% to 125%.|Ratio of Geometric Least Squares Means|98.3|||||TWO_SIDED|90.0|90.7|106.6|||||Ratio of the geometric LS means (Fed/Fasted), reported as percentages.|To assess the food effect, an analysis of variance model (ANOVA) with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax of apremilast.||106.6|90.7|
92418159|NCT01634178|184724079|OTHER||Median Difference|0.75||||0.0077|TWO_SIDED|90.0|0.25|1.25|||Wilcoxon signed-rank test||Median difference (Fed - Fasted) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.25|0.25|0.0077
92418160|NCT01634178|184724080|OTHER|Food was considered to have no effect on the PK of apremilast if the 90% CI of the geometric LS mean ratios for AUC0-t and Cmax were completely contained within the range of 80% to 125%.|Ratio of Geometric LS Means|112.4|||||TWO_SIDED|90.0|109.3|115.6|||||Ratio of the geometric LS means (Fed/Fasted), reported as percentages.|To assess the food effect, an analysis of variance model (ANOVA) with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t of apremilast.||115.6|109.3|
92169875|NCT00520546|184228466|SUPERIORITY_OR_OTHER||negative prediction|44.0||||0.09||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from FEC-PET as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.09
92235223|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.06|2.12|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 18C: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.12|1.06|
92389313|NCT02178995|184679308|SUPERIORITY_OR_OTHER|||||||0.103|||||||t-test, 2 sided|||Social Isolation||||0.103
92389314|NCT02178995|184679309|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Variability v1 vs v5 epilepsy||||<0.0001
92418161|NCT01634178|184724081|OTHER||Ratio of Geometric Least Squares Means|112.0|||||TWO_SIDED|90.0|108.9|115.1|||||Ratio of the geometric LS means (Fed/Fasted), reported as percentages.|To assess the food effect, an ANOVA with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞ of apremilast.||115.1|108.9|
92418162|NCT05867342|184724086|OTHER|||||||0.77||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.77
92418163|NCT05867342|184724087|OTHER|||||||0.002||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.002
92418164|NCT05867342|184724088|OTHER|||||||0.126||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.126
92169876|NCT00520546|184228466|SUPERIORITY_OR_OTHER||sensitivity|71.0||||0.09||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from FEC-PET as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.09
92169877|NCT00520546|184228466|SUPERIORITY_OR_OTHER||specificity|42.0||||0.09||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from FEC-PET as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.09
92389315|NCT02178995|184679309|SUPERIORITY_OR_OTHER|||||||0.096|||||||t-test, 2 sided|||Variability v1 vs v5 healthy||||0.096
92389316|NCT02178995|184679309|SUPERIORITY_OR_OTHER|||||||0.136|||||||ANOVA|||Variability 2-way ANOVA healthy vs epilepsy||||0.136
92389317|NCT02178995|184679309|SUPERIORITY_OR_OTHER|||||||0.17|||||||t-test, 2 sided|||Perseverations v1 vs v5 epilepsy||||0.17
92389318|NCT02178995|184679309|SUPERIORITY_OR_OTHER|||||||0.104|||||||t-test, 2 sided|||Perseverations v1 vs v5 healthy||||0.104
92389319|NCT02178995|184679309|SUPERIORITY_OR_OTHER|||||||0.661|||||||ANOVA|||Perseverations 2-way ANOVA healthy vs epilepsy||||0.661
92389320|NCT02178995|184679310|SUPERIORITY_OR_OTHER|||||||0.397|||||||ANOVA|||Variability ANOVA||||0.397
92389321|NCT02178995|184679310|SUPERIORITY_OR_OTHER|||||||0.745|||||||ANOVA|||Perseverations ANOVA||||0.745
92389322|NCT02178995|184679310|SUPERIORITY_OR_OTHER|||||||0.362|||||||t-test, 2 sided|||10mg vs 20mg variability||||0.362
92389323|NCT02178995|184679310|SUPERIORITY_OR_OTHER|||||||0.745|||||||t-test, 2 sided|||10mg vs 20mg perseverations||||0.745
92389324|NCT02178995|184679311|SUPERIORITY_OR_OTHER|||||||0.48|||||||ANOVA|||HRT ANOVA||||0.48
92389325|NCT02178995|184679311|SUPERIORITY_OR_OTHER|||||||0.793|||||||t-test, 2 sided|||HRT 10mg vs 20mg||||0.793
92389326|NCT02178995|184679312|SUPERIORITY_OR_OTHER|||||||0.5|||||||t-test, 2 sided|||HRT v1 vs v5 epilepsy||||0.5
92389327|NCT02178995|184679312|SUPERIORITY_OR_OTHER|||||||0.075|||||||t-test, 2 sided|||HRT v1 vs v5 healthy||||0.075
92389328|NCT02178995|184679312|SUPERIORITY_OR_OTHER|||||||0.2|||||||ANOVA|||HRT epilepsy vs healthy ANOVA||||0.2
92418165|NCT05867342|184724090|OTHER|||||||0.213||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.213
92418166|NCT05867342|184724091|OTHER|||||||0.418||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.418
92418167|NCT05867342|184724092|OTHER|||||||0.756||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.756
92418168|NCT00997113|184724094|SUPERIORITY_OR_OTHER|||||||0.94|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of the change in serum catecholamines from one minute before the procedure to one minute after. In order to detect a 20% difference in mean catecholamine values between groups, assuming a 30% standard deviation, with an alpha of 0.05 and a beta of 0.2 (80% power), power analysis indicated that 10 patients per group were required.||||0.940
92235224|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.97|1.69|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 19A: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||1.69|0.97|
92235225|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|1.8|||||TWO_SIDED|95.0|1.21|2.53|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 19F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.53|1.21|
92235226|NCT01025336|184373543|SUPERIORITY_OR_OTHER||Ratio of GMT|2.3|||||TWO_SIDED|95.0|1.54|3.42|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 23F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||3.42|1.54|
92280552|NCT00601484|184463653|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.24|STANDARD_ERROR_OF_MEAN|0.788|||TWO_SIDED|90.0|-2.562|0.081||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.081|-2.562|
92389329|NCT00287222|184679313|SUPERIORITY_OR_OTHER||percentage progression free at 27 weeks|28.0|STANDARD_ERROR_OF_MEAN|10.97||0.0006|TWO_SIDED|95.0|10.0|53.0|||one-sided exact binomial test|||Estimating the percentage of participants that remain free of disease progression at 27 weeks from the onset of treatment, and testing that proportion against a null-hypothesis proportion of 0.04 using the one-sided exact binomial test at 5% alpha, based upon historical data from the literature.||53|10|0.0006
92389330|NCT01910402|184679323|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Hypothesis was to show that the antiviral effect of the DTG/ABC/3TC FDC administered QD was non-inferior to QD ATV+RTV+TDF/FTC FDC. Non-inferiority was concluded if the lower bound of a two-sided 95% confidence interval for the difference in response rates between the two treatment arms was greater than -12%|Adjusted difference in proportion|10.5||||0.005|TWO_SIDED|95.0|3.1|17.8||If the primary and PP analyses both demonstrated non-inferiority, then as per pre-specified analysis, superiority of DTG/ABC/3TC FDC versus ATV+RTV+TDF/FTC FDC was tested in the ITT-E population at the 2-sided 5% level of significance.|Cochran-Mantel-Haenszel|||||17.8|3.1|0.005
92389331|NCT01910402|184679345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.026||||0.7053|TWO_SIDED|95.0|-0.159|0.107|||Multiple Imputed Dataset - MAR|||||0.107|-0.159|0.7053
92389332|NCT01910402|184679346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.106||||0.3165|TWO_SIDED|95.0|-0.313|0.101|||Multiple Imputed Dataset - MAR|||||0.101|-0.313|0.3165
92389333|NCT01910402|184679361|SUPERIORITY_OR_OTHER_LEGACY||Ratio of ratio|0.729|||<|0.001|TWO_SIDED|95.0|0.683|0.779|||ANCOVA||BSAP ratio of Week 48 result over Baseline|||0.779|0.683|<0.001
92389334|NCT01910402|184679361|SUPERIORITY_OR_OTHER_LEGACY||Ratio of ratio|0.693|||<|0.001|TWO_SIDED|95.0|0.647|0.741|||ANCOVA||PTP ratio of Week 48 result over Baseline|||0.741|0.647|<0.001
92389335|NCT01910402|184679361|SUPERIORITY_OR_OTHER_LEGACY||Ratio of ratio|0.629|||<|0.001|TWO_SIDED|95.0|0.581|0.68|||ANCOVA||Osteocalcin ratio of Week 48 result over Baseline|||0.680|0.581|<0.001
92389336|NCT01910402|184679361|SUPERIORITY_OR_OTHER_LEGACY||Ratio of ratio|0.655|||<|0.0001|TWO_SIDED|95.0|0.609|0.706|||ANCOVA||Type 1 Collagen C-Telopeptide ratio of Week 48 result over Baseline|||0.706|0.609|<0.0001
92389337|NCT01910402|184679361|SUPERIORITY_OR_OTHER_LEGACY||Ratio of ratio|0.852|||<|0.0001|TWO_SIDED|95.0|0.794|0.914|||ANCOVA||Vitamin D ratio of Week 48 result over Baseline|||0.914|0.794|<0.0001
92418169|NCT01150474|184724108|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||t-test, 2 sided|||||||0.82
92389338|NCT01910402|184679363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016||95.0||||Week 4|Wilcoxon (Mann-Whitney)|||||||0.016
92389339|NCT01910402|184679363|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Week 12|Wilcoxon (Mann-Whitney)|||||||<0.001
92389340|NCT01910402|184679363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Week 24|Wilcoxon (Mann-Whitney)|||||||0.002
92389341|NCT01910402|184679363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0||||Week 48|Wilcoxon (Mann-Whitney)|||||||0.007
92389342|NCT01957202|184679396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.255|||<|0.0001|TWO_SIDED|95.0|-2.895|-1.616|||Mixed Model ANOVA|||||-1.616|-2.895|<0.0001
92389343|NCT01957202|184679396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.566|||<|0.0001|TWO_SIDED|95.0|-3.208|-1.925|||Mixed Model ANOVA|||||-1.925|-3.208|<0.0001
92389344|NCT01957202|184679396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.531||||0.0003|TWO_SIDED|95.0|-2.342|-0.719|||Mixed Model ANOVA|||||-0.719|-2.342|0.0003
92389345|NCT01957202|184679396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.842|||<|0.0001|TWO_SIDED|95.0|-2.654|-1.029|||Mixed Model ANOVA|||||-1.029|-2.654|<0.0001
92389346|NCT01957202|184679396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.097|||<|0.0001|TWO_SIDED|95.0|-4.857|-3.337|||Mixed Model ANOVA|||||-3.337|-4.857|<0.0001
92389347|NCT01957202|184679396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.311||||0.3699|TWO_SIDED|95.0|-0.994|0.372|||Mixed Model ANOVA|||||0.372|-0.994|0.3699
92389348|NCT01957202|184679397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.364|||<|0.0001|TWO_SIDED|95.0|-1.853|-0.874|||Mixed Model ANOVA|||||-0.874|-1.853|<0.0001
92389349|NCT01957202|184679397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32||||0.1975|TWO_SIDED|95.0|-0.169|0.809|||Mixed Model ANOVA|||||0.809|-0.169|0.1975
92389350|NCT01957202|184679397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.252|||<|0.0001|TWO_SIDED|95.0|-1.87|-0.635|||Mixed Model ANOVA|||||-0.635|-1.870|<0.0001
92389351|NCT01957202|184679397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.432||||0.1648|TWO_SIDED|95.0|-0.179|1.042|||Mixed Model ANOVA|||||1.042|-0.179|0.1648
92389352|NCT01957202|184679397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.932||||0.0016|TWO_SIDED|95.0|-1.506|-0.358|||Mixed Model ANOVA|||||-0.358|-1.506|0.0016
92389353|NCT01957202|184679397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.684|||<|0.0001|TWO_SIDED|95.0|1.16|2.208|||Mixed Model ANOVA|||||2.208|1.160|<0.0001
92418170|NCT01150474|184724109|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||t-test, 2 sided|||||||0.75
92418171|NCT01150474|184724110|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||t-test, 2 sided|||||||0.07
92389354|NCT01957202|184679398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174||||0.3052|TWO_SIDED|95.0|-0.508|0.16|||Mixed Model ANOVA|||||0.160|-0.508|0.3052
92389355|NCT01957202|184679398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.187||||0.2725|TWO_SIDED|95.0|-0.149|0.523|||Mixed Model ANOVA|||||0.523|-0.149|0.2725
92418172|NCT01150474|184724111|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||t-test, 2 sided|||||||0.43
92418173|NCT01150474|184724112|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||||||0.30
92418174|NCT01150474|184724113|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||t-test, 2 sided|||||||0.14
92418175|NCT01150474|184724114|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
92389356|NCT01957202|184679398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.536||||0.0118|TWO_SIDED|95.0|-0.952|-0.12|||Mixed Model ANOVA|||||-0.120|-0.952|0.0118
92418176|NCT01150474|184724115|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||t-test, 2 sided|||||||0.55
92418177|NCT01150474|184724116|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||t-test, 2 sided|||||||0.59
92418178|NCT02581943|184724125|OTHER|||||||0.366|||||||Log Rank|||||||0.366
92418179|NCT02581943|184724126|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.327|||||||Wilcoxon (Mann-Whitney)|test for CD4+FoxP3||||||0.327
92418180|NCT02581943|184724126|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.142|||||||Wilcoxon (Mann-Whitney)|test for MDSC||||||0.142
92418181|NCT02581943|184724126|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.462||||||test for CD4+ICOS+|Wilcoxon (Mann-Whitney)|||||||0.462
92418182|NCT02581943|184724126|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.87||||||test for CD8+ICOS+|Wilcoxon (Mann-Whitney)|||||||0.870
92418183|NCT02581943|184724126|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.414||||||test for Plamacytoid DC|Wilcoxon (Mann-Whitney)|||||||0.414
92418184|NCT02581943|184724126|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.121||||||test for Monocytes|Wilcoxon (Mann-Whitney)|||||||0.121
92418185|NCT02581943|184724126|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.624||||||test for T cells (CD3+)|Wilcoxon (Mann-Whitney)|||||||0.624
92418186|NCT02581943|184724127|OTHER|||||||0.348|||||||Fisher Exact|||||||0.348
92418187|NCT02581943|184724128|OTHER|||||||0.63|||||||Log Rank|||||||0.63
92418188|NCT02581943|184724129|OTHER|||||||0.692|||||||Log Rank|||||||0.692
92418189|NCT02581943|184724130|OTHER|||||||0.345|||||||Fisher Exact|||||||0.345
92418190|NCT02581943|184724131|OTHER|||||||0.917|||||||Kruskal-Wallis|Test for CD8+ICOS||||||0.917
92418191|NCT02581943|184724131|OTHER|||||||0.746|||||||Kruskal-Wallis|test for MDSC||||||0.746
92418192|NCT02581943|184724131|OTHER|||||||0.302||||||test for CD4+ICOS|Kruskal-Wallis|||||||0.302
92389357|NCT01957202|184679398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.175||||0.4049|TWO_SIDED|95.0|-0.588|0.239|||Mixed Model ANOVA|||||0.239|-0.588|0.4049
92389358|NCT01957202|184679398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.349||||0.0793|TWO_SIDED|95.0|-0.739|0.041|||Mixed Model ANOVA|||||0.041|-0.739|0.0793
92389359|NCT01957202|184679398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.361||||0.0478|TWO_SIDED|95.0|0.004|0.719|||Mixed Model ANOVA|||||0.719|0.004|0.0478
92389360|NCT01957202|184679399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.215||||0.1502|TWO_SIDED|95.0|-0.509|0.079|||Mixed Model ANOVA|||||0.079|-0.509|0.1502
92389361|NCT01957202|184679399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.075||||0.6177|TWO_SIDED|95.0|-0.37|0.221|||Mixed Model ANOVA|||||0.221|-0.370|0.6177
92389362|NCT01957202|184679399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.701||||0.0004|TWO_SIDED|95.0|-1.08|-0.322|||Mixed Model ANOVA|||||-0.322|-1.080|0.0004
92389363|NCT01957202|184679399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.0035|TWO_SIDED|95.0|-0.934|-0.187|||Mixed Model ANOVA|||||-0.187|-0.934|0.0035
92389364|NCT01957202|184679399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.775|||<|0.0001|TWO_SIDED|95.0|-1.123|-0.428|||Mixed Model ANOVA|||||-0.428|-1.123|<0.0001
92389365|NCT01957202|184679399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.3807|TWO_SIDED|95.0|-0.175|0.456|||Mixed Model ANOVA|||||0.456|-0.175|0.3807
92418193|NCT02581943|184724131|OTHER|||||||0.13|||||||Kruskal-Wallis|test for CD8+ICOS+||||||0.130
92418194|NCT02581943|184724131|OTHER|||||||0.628||||||test for Plamacytoid DC|Kruskal-Wallis|||||||0.628
92418195|NCT02581943|184724131|OTHER|||||||0.567||||||test for Monocytes|Kruskal-Wallis|||||||0.567
92418196|NCT02581943|184724131|OTHER|||||||0.311||||||test for T cells (CD3+)|Kruskal-Wallis|||||||0.311
92418197|NCT02197234|184724141|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CIs being within 70% to 143%.|Geometric mean ratio|77.08|||||TWO_SIDED|90.0|63.41|93.7|||||Simvastatin + AZD9291 / Simvastatin alone. Based on linear mixed-effects model with treatment as fixed effect and patient as a random effect.|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AUC9291 being within 70-143% was 90% (95% for each parameter). Within patient CV assumed to be 45%. No change in exposure was also assumed.||93.70|63.41|
92418198|NCT02197234|184724142|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CIs being within 70% to 143%.|Geometric mean ratio|91.46|||||TWO_SIDED|90.0|77.16|108.41|||||Simvastatin + AZD9291 / Simvastatin alone. Based on linear mixed-effects model with treatment as fixed effect and patient as a random effect.|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AUC9291 being within 70-143% was 90% (95% for each parameter). Within patient CV assumed to be 45%. No change in exposure was also assumed.||108.41|77.16|
92418199|NCT02119676|184724173|OTHER||Hazard Ratio (HR)|1.04||||0.588|TWO_SIDED|95.0|0.73|1.49||1-sided|Log Rank|Log-rank test stratified by modified Glasgow Prognostic Score (mGPS) and geographical region.|Estimated using a Cox regression model with Efron's method used for ties, stratified by mGPS score and geographical region|||1.49|0.73|0.588
92389366|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was greater than (\>) -0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.2|2.1||||||Serotype 4: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95 percent (%) confidence interval (CI).||2.1|-2.2|
92389367|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|-1.7|||||TWO_SIDED|95.0|-5.2|1.1||||||Serotype 6B: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||1.1|-5.2|
92389368|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Serotype 9V: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.1|-2.1|
92389369|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Serotype 14: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.1|-2.1|
92418200|NCT02119676|184724173|OTHER||Hazard Ratio (HR)|0.77||||0.136|TWO_SIDED|95.0|0.48|1.23||1-sided|Log Rank|Log rank test stratified by geographical region.|Estimated using Cox regression model with Efron's method used for ties, stratified by geographical region|||1.23|0.48|0.136
92235227|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|1.1|||||TWO_SIDED|95.0|0.8|1.63|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 1: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.63|0.80|
92389370|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Serotype 18C: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.1|-2.1|
92389371|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|2.3|||||TWO_SIDED|95.0|-1.1|6.3||||||Serotype 19F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||6.3|-1.1|
92389372|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|-0.6|||||TWO_SIDED|95.0|-4.2|2.9||||||Serotype 23F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.9|-4.2|
92389373|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|3.4|||||TWO_SIDED|95.0|0.9|7.3||||||Serotype 1: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||7.3|0.9|
92389374|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|2.9|||||TWO_SIDED|95.0|-0.2|6.7||||||Serotype 3: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||6.7|-0.2|
92418201|NCT00219544|184724179|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.78|STANDARD_ERROR_OF_MEAN|0.25||0.0018||95.0|-1.27|-0.3|||ANCOVA||Difference = pregabalin minus placebo|The study is powered to detect clinically significant difference of 1.2 between treatment groups in mean pain score at end of treatment. The statistical sample size calculation requires a total of 144 subjects to complete the Double-Blind phase of the study: a sample size of 72 in each treatment group will have 90% power to detect a difference in treatment mean pain scores of 1.2 assuming that the common standard deviation is 2.2 using a two group t-test with a 0.05 two-sided significance level.||-0.30|-1.27|0.0018
92418202|NCT00219544|184724182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.72|STANDARD_ERROR_OF_MEAN|0.22||0.001||95.0|-1.15|-0.3|||ANCOVA||pregabalin minus placebo|Week 5||-0.30|-1.15|0.0010
92418203|NCT00219544|184724182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.97|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001||95.0|-1.41|-0.53|||ANCOVA||pregabalin minus placebo|Week 6||-0.53|-1.41|<.0001
92418204|NCT00219544|184724182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.93|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.39|-0.47|||ANCOVA||pregabalin minus placebo|Week 7||-0.47|-1.39|<.0001
92389375|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|2.9|||||TWO_SIDED|95.0|-0.2|6.7||||||Serotype 5: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||6.7|-0.2|
92389376|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|1.7|||||TWO_SIDED|95.0|-1.9|5.8||||||Serotype 6A: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||5.8|-1.9|
92389377|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|3.4|||||TWO_SIDED|95.0|0.9|7.3||||||Serotype 7F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||7.3|0.9|
92418205|NCT00219544|184724182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.93|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.39|-0.47|||ANCOVA||pregabalin minus placebo|Week 8||-0.47|-1.39|<.0001
92418206|NCT00219544|184724182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.69|STANDARD_ERROR_OF_MEAN|0.23||0.0022||95.0|-1.14|-0.25|||ANCOVA||pregabalin minus placebo|Week 9||-0.25|-1.14|0.0022
92389378|NCT01200368|184679444|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|3.4|||||TWO_SIDED|95.0|1.0|7.3||||||Serotype 19A: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||7.3|1.0|
92389379|NCT01200368|184679445|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for the IgG GMC ratio was \>0.5.|GMC ratio|0.81|||||TWO_SIDED|95.0|0.71|0.94||||||Serotype 4: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.94|0.71|
92389380|NCT01200368|184679445|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.79|||||TWO_SIDED|95.0|0.64|0.97||||||Serotype 6B: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.97|0.64|
92389381|NCT01200368|184679445|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.74|||||TWO_SIDED|95.0|0.64|0.86||||||Serotype 9V: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.86|0.64|
92389382|NCT01200368|184679445|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.83|||||TWO_SIDED|95.0|0.7|0.98||||||Serotype 14: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.98|0.70|
92389383|NCT01200368|184679445|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.73|||||TWO_SIDED|95.0|0.63|0.85||||||Serotype 18C: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.85|0.63|
92389384|NCT01200368|184679445|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.88|||||TWO_SIDED|95.0|0.72|1.08||||||Serotype 19F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.08|0.72|
92418207|NCT00219544|184724188|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|0.24||0.0031||95.0|-1.18|-0.24|||ANCOVA|||||-0.24|-1.18|0.0031
92418208|NCT00219544|184724191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.22||0.0177||95.0|-0.94|-0.09|||ANCOVA||pregabalin minus placebo|Week 5||-0.09|-0.94|0.0177
92418209|NCT00219544|184724191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.87|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001||95.0|-1.31|-0.44|||ANCOVA||pregabalin minus placebo|Week 6||-0.44|-1.31|<.0001
92418210|NCT00219544|184724191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.82|STANDARD_ERROR_OF_MEAN|0.23||0.0005||95.0|-1.28|-0.36|||ANCOVA||pregabalin minus placebo|Week 7||-0.36|-1.28|0.0005
92235228|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.77|1.39|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 3: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.39|0.77|
92418211|NCT00219544|184724191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.85|STANDARD_ERROR_OF_MEAN|0.23||0.0003||95.0|-1.31|-0.39|||ANCOVA||pregabalin minus placebo|Week 8||-0.39|-1.31|0.0003
92418212|NCT00219544|184724191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|0.22||0.0011||95.0|-1.18|-0.3|||ANCOVA||pregabalin minus placebo|Week 9||-0.30|-1.18|0.0011
92389385|NCT01200368|184679445|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.8|||||TWO_SIDED|95.0|0.66|0.98||||||Serotype 23F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.98|0.66|
92389386|NCT01200368|184679446|SUPERIORITY_OR_OTHER||Percent difference|-0.6|||||TWO_SIDED|95.0|-3.1|1.6||||||Difference in percentage of participants achieving predefined antibody levels for diphtheria toxoid and corresponding 2-sided 95% CI were calculated.||1.6|-3.1|
92389387|NCT01200368|184679446|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-2.1|2.2||||||Difference in percentage of participants achieving predefined antibody levels for tetanus toxoid and corresponding 2-sided 95% CI were calculated.||2.2|-2.1|
92389388|NCT01200368|184679446|SUPERIORITY_OR_OTHER||Percent difference|-0.6|||||TWO_SIDED|95.0|-3.1|1.6||||||Difference in percentage of participants achieving predefined antibody levels for pertussis toxoid and corresponding 2-sided 95% CI were calculated.||1.6|-3.1|
92389389|NCT01200368|184679446|SUPERIORITY_OR_OTHER||Percent difference|-0.6|||||TWO_SIDED|95.0|-3.1|1.6||||||Difference in percentage of participants achieving predefined antibody levels for filamentous hemagglutinin and corresponding 2-sided 95% CI were calculated.||1.6|-3.1|
92418213|NCT00219544|184724192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-9.0|STANDARD_ERROR_OF_MEAN|3.3||0.0069||95.0|-15.5|-2.5|||ANCOVA|||||-2.5|-15.5|0.0069
92418214|NCT00219544|184724193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|0.4||0.0023||95.0|-2.1|-0.5|||ANCOVA||pregabalin minus placebo|HADS-A||-0.5|-2.1|0.0023
92418215|NCT00219544|184724193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|0.4||0.0013||95.0|-1.9|-0.5|||ANCOVA||pregabalin minus placebo|HADS-D||-0.5|-1.9|0.0013
92418216|NCT00219544|184724194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.98|STANDARD_ERROR_OF_MEAN|3.42||0.0828||95.0|-0.79|12.75|||ANCOVA||pregabalin minus placebo|Impact||12.75|-0.79|0.0828
92418217|NCT00219544|184724194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.49|STANDARD_ERROR_OF_MEAN|2.75||0.0197||95.0|1.05|11.94|||ANCOVA||pregabalin minus placebo|Satisfaction||11.94|1.05|0.0197
92418218|NCT00219544|184724195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0278||95.0|||||Mantel Haenszel|||The distribution of the responses to the PGIC at EOT was compared between the 2 treatment groups using the 7 categories of the PGIC.||||0.0278
92418219|NCT00219544|184724196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.76|STANDARD_ERROR_OF_MEAN|0.26||0.0049||95.0|-1.28|-0.23|||ANCOVA|||Pain interference||-0.23|-1.28|0.0049
92418220|NCT00219544|184724196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.77|STANDARD_ERROR_OF_MEAN|0.26||0.0037||95.0|-1.29|-0.25|||ANCOVA|||Pain severity||-0.25|-1.29|0.0037
92418221|NCT00219544|184724197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.0719||95.0|0.0|0.11|||ANCOVA||pregabalin minus placebo|Health State Profile||0.11|-0.00|0.0719
92418222|NCT00219544|184724197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.07|STANDARD_ERROR_OF_MEAN|2.54||0.418||95.0|-2.96|7.1|||ANCOVA||pregabalin minus placebo|Visual Analog Scale||7.10|-2.96|0.4180
92418223|NCT05038904|184724202|SUPERIORITY|We estimated that 10 subjects allowed for 80% power to detect a 3-fold increase (1.1 natural log units; i.e. 1 food dose escalation) in the threshold food dose using a paired t test with p\<0.05. For this sample size determination, the primary endpoint was assumed to be normally distributed with a standard deviation of 1.1 natural log units.||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92389390|NCT01200368|184679447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.8|||||TWO_SIDED|95.0|1.5|2.15||||||Serotype 1: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||2.15|1.50|
92389391|NCT01200368|184679447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.08|||||TWO_SIDED|95.0|0.92|1.28||||||Serotype 3: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.28|0.92|
92418224|NCT05038904|184724203|SUPERIORITY|||||||0.0014|||||||t-test, 2 sided|||||||0.0014
92418225|NCT05038904|184724204|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92418226|NCT05038904|184724205|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Participants' ex vivo basophil activation during acalabrutinib treatment was compared to their own baseline level.||||0.002
92418227|NCT00873873|184724213|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||95.0|||||ANOVA|||Is there a difference in airway wall thickness among the 4 groups?||||0.2
92418228|NCT02207946|184724215|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.28||0.144|TWO_SIDED|95.0|-1.02|0.16|||ANCOVA|||Least square (LS) means are from analysis of covariance (ANCOVA) with treatment and site included as fixed factors and baseline included as covariate.||0.16|-1.02|0.144
92418229|NCT04035486|184724257|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.49|0.79|||Log Rank||A hazard ratio of less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.79|0.49|<0.0001
92418230|NCT04035486|184724258|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.0002|TWO_SIDED|95.0|0.48|0.8|||Log Rank||A hazard ratio of less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.80|0.48|0.0002
92169878|NCT00520546|184228466|SUPERIORITY_OR_OTHER||accuracy|61.0||||0.09||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from FEC-PET as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.09
92389392|NCT01200368|184679447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.86|1.22||||||Serotype 5: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.22|0.86|
92418231|NCT04035486|184724263|OTHER||Percentage of Participants|100.0|||||TWO_SIDED|95.0|88.43|100.0|||Clopper-Pearson|||A 95% CI was calculated on the percentage of participants with a Response or Stable Disease using the exact (Clopper-Pearson) method.||100.00|88.43|
92418232|NCT04035486|184724264|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.5238|TWO_SIDED|95.0|0.65|1.24|||Log Rank||A hazard ratio of less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).|An adjusted CI of (0.54, 1.51) was computed at the 2-sided 99.84% level, considering a 2-sided significance level of 0.00158 for the overall survival interim analysis, based on the O'Brien and Fleming spending function, assuming 334 deaths for the final overall survival analysis.|1.24|0.65|0.5238
92418233|NCT04035486|184724266|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0261|TWO_SIDED|95.0|1.06|2.44|||Regression, Logistic||And odds ratio of greater than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a logistic regression stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||2.44|1.06|0.0261
92169879|NCT00520546|184228466|SUPERIORITY_OR_OTHER||positive prediction|60.0||||0.27||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.27
92169880|NCT00520546|184228466|SUPERIORITY_OR_OTHER||negative prediction|30.0||||0.27||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.27
92235229|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|1.1|||||TWO_SIDED|95.0|0.68|1.69|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 4: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.69|0.68|
92389393|NCT01200368|184679447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.04|||||TWO_SIDED|95.0|0.87|1.25||||||Serotype 6A: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.25|0.87|
92389394|NCT01200368|184679447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.83|||||TWO_SIDED|95.0|1.54|2.16||||||Serotype 7F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||2.16|1.54|
92389395|NCT01200368|184679447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.89|||||TWO_SIDED|95.0|1.59|2.25||||||Serotype 19A: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||2.25|1.59|
92389396|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 4: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
92389397|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 6B: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
92389398|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 9V: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
92389399|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 14: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
92389400|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 18C: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
92389401|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|-0.6|||||TWO_SIDED|95.0|-3.9|2.4||||||Serotype 19F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-3.9|
92389402|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 23F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
92389403|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.9|3.0||||||Serotype 1: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.0|-2.9|
92389404|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.9|3.0||||||Serotype 3: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.0|-2.9|
92389405|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.6|||||TWO_SIDED|95.0|-1.7|3.6||||||Serotype 5: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.6|-1.7|
92418234|NCT04035486|184724268|SUPERIORITY||Least Square Mean Difference|-3.36||||0.1067|TWO_SIDED|95.0|-7.44|0.72|||ANCOVA||A difference in least square means less than 0 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using analysis of covariance with baseline tumor size and time from baseline scan to randomization as covariates and with factors race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.72|-7.44|0.1067
92418235|NCT04035486|184724269|SUPERIORITY||Odds Ratio (OR)|1.33||||0.4483|TWO_SIDED|95.0|0.63|2.81|||Regression, Logistic||An odds ratio greater than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a logistic regression stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||2.81|0.63|0.4483
92418236|NCT04035486|184724270|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0132|TWO_SIDED|95.0|0.52|0.93|||Log Rank||A hazard ratio less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.93|0.52|0.0132
92418237|NCT04035486|184724271|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0159|TWO_SIDED|95.0|0.56|0.94|||Log Rank||A hazard ratio less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.94|0.56|0.0159
92418238|NCT04035486|184724272|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0157|TWO_SIDED|95.0|0.51|0.93|||Log Rank||A hazard ratio less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.93|0.51|0.0157
92418239|NCT04035486|184724279|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.44|0.83|||Cox proportional hazards model||A hazard ratio less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|Subgroup analysis was performed using a Cox proportional hazards model including treatment, subgroup and a treatment-by subgroup interaction term.||0.83|0.44|
92418240|NCT04035486|184724280|SUPERIORITY||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.44|0.9|||||A hazard ratio less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|Subgroup analysis was performed using a Cox proportional hazards model including treatment, subgroup and a treatment-by subgroup interaction term.||0.90|0.44|
92235230|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.03|2.31|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 5: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.31|1.03|
92169881|NCT00520546|184228466|SUPERIORITY_OR_OTHER||sensitivity|48.0||||0.27||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.27
92418241|NCT01730937|184724288|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0554|TWO_SIDED|90.0|0.59|1.01|||Log Rank||Reference arm = Sorafenib Alone|Original design: Hypothesized 28% reduction (HR=0.72) with SBRT (corresponds to median OS = 14.5 months). Assuming an exponential distribution and constant hazards, 292 patients were required to reach 238 OS events, with 80% statistical power, a 1-sided α of 0.05. Revised design (see limitations/caveats): For same above hypotheses, at least 155 OS events from 193 randomized patients provided 65% statistical power, with a 1-sided α of 0.05.||1.01|0.59|0.0554
92418242|NCT01730937|184724289|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.034|TWO_SIDED|95.0|0.48|0.99||Two-sided significance level = 0.05|Gray's test||Reference arm = Sorafenib Alone|||0.99|0.48|0.034
92418243|NCT01730937|184724290|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.0001|TWO_SIDED|95.0|0.4|0.75||Two-sided significance level=0.05|Log Rank||Reference arm = Sorafenib Alone|||0.75|0.40|0.0001
92418244|NCT03947684|184724295|OTHER|Generalized linear model (GLM) with log link function and exchangeable correlation structure.|||||>|0.05|||||||F-test|||Significance was accepted for p values \<0.05.||||>0.05
92418245|NCT03947684|184724296|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
92418246|NCT03947684|184724296|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||<0.05
92235231|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|2.7|||||TWO_SIDED|95.0|1.66|4.55|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 6A: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||4.55|1.66|
92389406|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.6|||||TWO_SIDED|95.0|-1.7|3.6||||||Serotype 6A: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.6|-1.7|
92389407|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.6|||||TWO_SIDED|95.0|-1.7|3.6||||||Serotype 7F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.6|-1.7|
92389408|NCT01200368|184679448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.6|||||TWO_SIDED|95.0|-1.7|3.6||||||Serotype 19A: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.6|-1.7|
92389409|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.94|||||TWO_SIDED|95.0|0.77|1.15||||||Serotype 4: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.15|0.77|
92389410|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.23|||||TWO_SIDED|95.0|0.98|1.53||||||Serotype 6B: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.53|0.98|
92389411|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.81|||||TWO_SIDED|95.0|0.67|0.98||||||Serotype 9V: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.98|0.67|
92389412|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.95|||||TWO_SIDED|95.0|0.81|1.12||||||Serotype 14: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.12|0.81|
92389413|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.82|||||TWO_SIDED|95.0|0.67|1.01||||||Serotype 18C: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.01|0.67|
92389414|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.75|||||TWO_SIDED|95.0|1.39|2.21||||||Serotype 19F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||2.21|1.39|
92389415|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.86|||||TWO_SIDED|95.0|0.7|1.07||||||Serotype 23F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.07|0.70|
92389416|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.62|||||TWO_SIDED|95.0|1.31|1.99||||||Serotype 1: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.99|1.31|
92389417|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.29|||||TWO_SIDED|95.0|0.24|0.35||||||Serotype 3: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||0.35|0.24|
92389418|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.28|||||TWO_SIDED|95.0|1.07|1.54||||||Serotype 5: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.54|1.07|
92389419|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.76|||||TWO_SIDED|95.0|1.46|2.12||||||Serotype 6A: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||2.12|1.46|
92389420|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.26|||||TWO_SIDED|95.0|1.04|1.52||||||Serotype 7F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.52|1.04|
92418247|NCT03947684|184724297|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
92418248|NCT03947684|184724297|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||>0.05
92418249|NCT03947684|184724298|OTHER|Repeated measures ANOVA|||||>|0.05|||||||F-test|||Significance was accepted for p values \<0.05.||||>0.05
92389421|NCT01200368|184679449|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.85|||||TWO_SIDED|95.0|1.54|2.24||||||Serotype 19A: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||2.24|1.54|
92389422|NCT01200368|184679450|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.3||||||Difference in percentage of participants achieving predefined antibody levels for diphtheria toxoid and corresponding 2-sided 95% CI were calculated.||2.3|-2.4|
92389423|NCT01200368|184679450|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.3||||||Difference in percentage of participants achieving predefined antibody levels for tetanus toxoid and corresponding 2-sided 95% CI were calculated.||2.3|-2.4|
92389424|NCT01200368|184679450|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.3||||||Difference in percentage of participants achieving predefined antibody levels for pertussis toxoid and corresponding 2-sided 95% CI were calculated.||2.3|-2.4|
92389425|NCT01200368|184679450|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.3||||||Difference in percentage of participants achieving predefined antibody levels for filamentous hemagglutinin and corresponding 2-sided 95% CI were calculated.||2.3|-2.4|
92389426|NCT01200368|184679451|SUPERIORITY_OR_OTHER||GMC ratio|1.1|||||TWO_SIDED|95.0|0.97|1.24||||||GMC ratio for diphtheria toxoid and corresponding 2-sided 95% CI were calculated.||1.24|0.97|
92389427|NCT01200368|184679451|SUPERIORITY_OR_OTHER||GMC ratio|0.9|||||TWO_SIDED|95.0|0.77|1.06||||||GMC ratio for tetanus toxoid and corresponding 2-sided 95% CI were calculated.||1.06|0.77|
92389428|NCT01200368|184679452|SUPERIORITY_OR_OTHER||GMC ratio|0.98|||||TWO_SIDED|95.0|0.87|1.1||||||GMC ratio for pertussis toxoid and corresponding 2-sided 95% CI were calculated.||1.10|0.87|
92169882|NCT00520546|184228466|SUPERIORITY_OR_OTHER||specificity|40.0||||0.27||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.27
92389429|NCT01200368|184679452|SUPERIORITY_OR_OTHER||GMC ratio|0.92|||||TWO_SIDED|95.0|0.81|1.05||||||GMC ratio for filamentous hemagglutinin and corresponding 2-sided 95% CI were calculated.||1.05|0.81|
92389430|NCT01200368|184679453|SUPERIORITY_OR_OTHER||GMC ratio|1.01|||||TWO_SIDED|95.0|0.88|1.15||||||GMC ratio for diphtheria toxoid and corresponding 2-sided 95% CI were calculated.||1.15|0.88|
92389431|NCT01200368|184679453|SUPERIORITY_OR_OTHER||GMC ratio|1.0|||||TWO_SIDED|95.0|0.85|1.19||||||GMC ratio for tetanus toxoid and corresponding 2-sided 95% CI were calculated.||1.19|0.85|
92389432|NCT01200368|184679454|SUPERIORITY_OR_OTHER||GMC ratio|0.96|||||TWO_SIDED|95.0|0.84|1.11||||||GMC ratio for pertussis toxoid and corresponding 2-sided 95% CI were calculated.||1.11|0.84|
92389433|NCT01200368|184679454|SUPERIORITY_OR_OTHER||GMC ratio|0.8|||||TWO_SIDED|95.0|0.7|0.91||||||GMC ratio for filamentous hemagglutinin and corresponding 2-sided 95% CI were calculated.||0.91|0.70|
92389434|NCT01290757|184679468|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Scaled average BE is rejected, if the calculated upper 95% confidence limit of the linearized criterion is positive.|Upper 95% CI of the linearized criterion|-0.082|||||ONE_SIDED|95.0|||||Mixed Models Analysis||Linearized regulatory criterion according to Tothfalusi et al (Pharmaceutical Research, 2001). The square of the difference in treatment responses divided by within-subject variance of the reference formulation minus square of ln(1.25)/0.25|Capsugel minus Qualicaps||||
92389435|NCT01290757|184679468|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|126.33||||||90.0|119.45|133.6|||Mixed Models Analysis|||Capsugel vs Qualicaps||133.60|119.45|
92389436|NCT01290757|184679469|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Scaled average BE is rejected, if the calculated upper 95% confidence limit of the linearized criterion is positive.|Upper 95% CI of the linearized criterion|-0.085|||||ONE_SIDED|95.0|||||Mixed Models Analysis||Linearized regulatory criterion according to Tothfalusi et al (Pharmaceutical Research, 2001). The square of the difference in treatment responses divided by within-subject variance of the reference formulation minus square of ln(1.25)/0.25|Capsugel minus Qualicaps||||
92389437|NCT01290757|184679469|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|125.49||||||90.0|118.69|132.67|||Mixed Models Analysis|||Capsugel vs Qualicaps||132.67|118.69|
92389438|NCT01290757|184679470|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|124.74||||||90.0|118.32|131.51|||Mixed Models Analysis|||Capsugel vs Qualicaps||131.51|118.32|
92389439|NCT01290757|184679471|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|126.22||||||90.0|119.36|133.47|||Mixed Models Analysis|||Capsugel vs Qualicaps||133.47|119.36|
92169883|NCT00520546|184228466|SUPERIORITY_OR_OTHER||accuracy|45.0||||0.27||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.27
92389440|NCT01290757|184679472|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|125.3||||||90.0|118.42|132.59|||Mixed Models Analysis|||Capsugel vs Qualicaps||132.59|118.42|
92389441|NCT01290757|184679473|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|124.49||||||90.0|118.11|131.21|||Mixed Models Analysis|||Capsugel vs Qualicaps||131.21|118.11|
92389442|NCT00570310|184679474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.42||||0.003||90.0|-2.25|-0.6||1-sided, alpha = 0.05|ANOVA||Primary Hypothesis: In 'primary responder population', pregabalin is superior to placebo in maintaining pain control measured by change (3-day average: end of the randomization period versus end of maintenance period) in evening pain intensity.|||-0.60|-2.25|0.003
92389443|NCT00570310|184679475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.67|||<|0.001||95.0|5.26|10.08||1-sided, alpha = 0.05|ANOVA|||||10.08|5.26|<0.001
92389444|NCT00759161|184679484|SUPERIORITY_OR_OTHER||||||<|0.001|||||||2-sided sign test|||||||< 0.001
92389445|NCT01337336|184679496|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.002||95.0|1.08|1.56|||Chi-squared||Estimated value obtained from logistic regression model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.56|1.08|0.002
92389446|NCT01337336|184679497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.002||95.0|1.02|2.38||COPD-related hospitalization|Chi-squared||Estimated value obtained from logistic regression model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||2.38|1.02|0.002
92169884|NCT00520546|184228466|SUPERIORITY_OR_OTHER||positive prediction|87.0|||<|0.001||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from PET/MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92389447|NCT01337336|184679497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.002||95.0|1.14|2.39||COPD-related ER visit|Chi-squared||Estimated value obtained from logistic regression model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||2.39|1.14|0.002
92389448|NCT01337336|184679497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.503||95.0|0.93|1.4|||Chi-squared|COPD-related physician + Rx visit|Estimated value obtained from logistic regression model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.40|0.93|0.503
92389449|NCT01337336|184679497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71|||<|0.001||95.0|1.26|2.31|||Chi-squared|COPD-related hospitalization/ER visit|Estimated value obtained from logistic regression model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||2.31|1.26|<0.001
92389450|NCT01337336|184679499|SUPERIORITY_OR_OTHER||Incident Rate Ratio|1.46||||0.0004||95.0|1.01|2.09||COPD-related hospitalization|t-test, 2 sided||Estimated value obtained from zero-inflated negative binomial model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||2.09|1.01|0.0004
92389451|NCT01337336|184679499|SUPERIORITY_OR_OTHER||Incident Rate Ratio|1.27||||0.208||95.0|0.89|1.82||COPD-related ER visit|t-test, 2 sided||Estimated value obtained from zero-inflated negative binomial model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.82|0.89|0.208
92389452|NCT01337336|184679499|SUPERIORITY_OR_OTHER||Incident Rate Ratio|1.09||||0.671||95.0|0.9|1.32||COPD-related physician + Rx visit|t-test, 2 sided||Estimated value obtained from zero-inflated negative binomial model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.32|0.90|0.671
92389453|NCT01337336|184679499|SUPERIORITY_OR_OTHER||Incident Rate Ratio|1.31||||0.009||95.0|1.05|1.72||COPD-related hospitalization/ER visit|t-test, 2 sided||Estimated value obtained from zero-inflated negative binomial model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.72|1.05|0.009
92389454|NCT01337336|184679499|SUPERIORITY_OR_OTHER||Incident Rate Ratio|1.16||||0.052||95.0|0.98|1.37||COPD-related hospitalization/ER visit/physician + Rx visit|t-test, 2 sided||Estimated value obtained from zero-inflated negative binomial model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.37|0.98|0.052
92389455|NCT00757237|184679503|NON_INFERIORITY_OR_EQUIVALENCE|The treatment difference (TIS-AZLI) and standard error from the ANCOVA model were used to compute the two-sided 95% confidence interval. If the 95% upper boundary was less than the pre-specified non-inferiority margin of 4%, then the null hypothesis was rejected.|Mean Difference (Final Values)|-7.8||||0.0001|TWO_SIDED|95.0|-11.73|-3.86||Based on the Benjamini \& Hochberg method, non-inferiority at Day 28 for relative change in FEV1 percent predicted was assessed at the 0.05 level, given the significance of the coprimary endpoint (p\<0.05).|ANCOVA|ANCOVA model included treatment, Day 0 FEV1 percent predicted, and previous inhaled tobramycin use for all participants.|Treatment difference refers to TIS-AZLI.|Null hypothesis: AZLI was inferior to TIS by more than 4% in the mean relative change of FEV1 percent predicted at Day 28. With 120 subjects per treatment group there was at least 85% power to declare noninferiority based on relative change from baseline at Day 28 in FEV1 percent predicted using the upper bound of a 2-tailed 95% CI for the difference in means with a noninferiority margin of 4, assuming a common standard deviation of 18% and true difference in means \[TIS-AZLI\] of -3.2%.||-3.86|-11.73|0.0001
92389456|NCT00757237|184679504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.0023||||||Based on the Benjamini \& Hochberg method, superiority at Weeks 4, 12, and 20 of actual change in FEV1 percent predicted was tested at the 0.05 level, given the significance of the coprimary endpoint (p\<0.05).|MMRM analysis|MMRM analysis included Day 0 FEV1 percent predicted, previous inhaled tobramycin use, treatment, visit, and treatment/visit interaction.|Treatment difference refers to TIS-AZLI.|"Null hypothesis: there was no difference between AZLI and TIS treatment groups in the mean actual change of FEV1 percent predicted across 3 treatment courses among all participants.~With 120 subjects per treatment group, there was at least 90% power at a 5% significance level to detect differences based upon actual change from baseline in FEV1 percent predicted (3.61%, 2.98%, 2.32%) between AZLI and TIS at Weeks 4, 12, and 20 with a common standard deviation of 9%."||||0.0023
92389457|NCT00757237|184679505|NON_INFERIORITY_OR_EQUIVALENCE|The treatment difference (TIS-AZLI) and standard error from the ANCOVA model were used to compute the two-sided 95% confidence interval. If the 95% upper boundary was less than the pre-specified non-inferiority margin of 4%, then the null hypothesis was rejected.|Mean Difference (Final Values)|-9.5|||<|0.0001|TWO_SIDED|95.0|-13.86|-5.14||Secondary endpoints were tested sequentially by the closed testing procedure initiated by the significance of the primary endpoints. Given the coprimary endpoints were met at the 0.05 level, this non-inferiority endpoint was tested at the 0.05 level.|ANCOVA|ANCOVA model included treatment and Day 0 FEV1 percent predicted.|Treatment difference refers to TIS-AZLI.|Null hypothesis: AZLI was inferior to TIS by more than 4% in terms of the participant means in relative change of FEV1 percent predicted at Day 28 among all participants having \>= 84 days of inhaled tobramycin use in the previous 12 months.||-5.14|-13.86|<0.0001
92418250|NCT03947684|184724299|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data obtained during active pill phase.||||>0.05
92418251|NCT03947684|184724299|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data obtained during inactive pill phase.||||<0.05
92169885|NCT00520546|184228466|SUPERIORITY_OR_OTHER||negative prediction|57.0|||<|0.001||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from PET/MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92278755|NCT03280537|184460127|SUPERIORITY||Odds Ratio (OR)|0.2||||0.1594|TWO_SIDED|95.0|0.02|1.89||Tested at the two-sided 0.05 significance level.|Wald Chi-Square|Adjusted for geographic region and asthma/aspirin sensitivity comorbidity status.|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for requirement of rescue medication through Week 24.||1.89|0.02|0.1594
92278756|NCT03280537|184460128|SUPERIORITY||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0|20.61||Tested at the two-sided 0.05 significance level.|Fisher Exact|Unadjusted|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for having had surgery for nasal polyps through Week 24.||20.61|0.00|1.0000
92278757|NCT03280537|184460129|SUPERIORITY||Odds Ratio (OR)|4.04||||0.0396|TWO_SIDED|95.0|1.07|15.25|||Wald Chi-Square|Adjusted for Baseline AQLQ, geographic region, and aspirin sensitivity status.|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for number of participants with a change from baseline in AQLQ score of ≥0.5 at Week 24.||15.25|1.07|0.0396
92278758|NCT03280537|184460130|SUPERIORITY||Odds Ratio (OR)|0.2||||0.1594|TWO_SIDED|95.0|0.02|1.89||Tested at the two-sided 0.05 significance level.|Wald Chi-Square|Adjusted for geographic region and asthma/aspirin sensitivity comorbidity status.|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for requirement of rescue treatment through Week 24.||1.89|0.02|0.1594
92389458|NCT00757237|184679506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47||||0.0002||||||Secondary endpoints were tested sequentially to control the Type I error rate based on the closed testing procedure. Given the significance of the coprimary endpoints and previous secondary endpoint, this endpoint was also tested at the 0.05 level.|MMRM analysis|MMRM analysis included treatment, Day 0 FEV1 percent predicted, visit, treatment, and treatment/visit interaction for all participants.|Treatment difference refers to TIS-AZLI|Null hypothesis: there was no difference between AZLI and TIS treatment groups in the mean actual change of FEV1 percent predicted across 3 treatment courses in the stratum of subjects having \>=84 days of inhaled tobramycin use in the previous 12 months.||||0.0002
92389459|NCT00757237|184679507|SUPERIORITY_OR_OTHER|||||||0.0025|TWO_SIDED|||||Secondary endpoints were tested sequentially to control the Type I error rate based on the closed testing procedure. Given the significance of the coprimary endpoints and previous secondary endpoint, this endpoint was also tested at the 0.05 level.|Log Rank|||Null hypothesis: there was no difference between AZLI and TIS treatment groups with respect to time to need for IV antipseudomonal antibiotics for respiratory events.||||0.0025
92389460|NCT00757237|184679508|SUPERIORITY_OR_OTHER|||||||0.1114||||||Secondary endpoints were tested sequentially to control the Type I error rate based on the closed testing procedure. Given the significance of the coprimary endpoints and previous secondary endpoint, this endpoint was also tested at the 0.05 level.|Log Rank|||Null hypothesis: there was no difference between AZLI and TIS treatment groups with respect to time to first respiratory hospitalization.||||0.1114
92389461|NCT00757237|184679509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.61||||0.0048||0.0||||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, Day 0 FEV1 percent predicted, Day 0 CFQ-R RSS score, and previous inhaled tobramycin use.|Treatment difference refers to TIS-AZLI.|Null hypothesis: there was no difference between AZLI and TIS treatment groups in change from baseline in CFQ-R RSS scores at Day 28.||||0.0048
92389462|NCT00757237|184679510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.13||||0.0189||0.0||||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, Day 0 FEV1 percent predicted, Day 0 CFQ-R RSS score, and previous inhaled tobramycin use.|Treatment difference refers to TIS-AZLI.|Null hypothesis: there was no difference between AZLI and TIS treatment groups in the average actual change in respiratory symptoms at the end of each treatment course (Weeks 4, 12, and 20).||||0.0189
92418252|NCT03947684|184724300|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
92418253|NCT03947684|184724300|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||<0.05
92418254|NCT03947684|184724301|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
92278759|NCT03280537|184460131|SUPERIORITY||Odds Ratio (OR)|6.22||||0.0139|TWO_SIDED|95.0|1.23|60.23||Tested at the two-sided 0.05 significance level.|Fisher Exact|Unadjusted|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in reduction in the need for surgery for nasal polyps by Week 24.||60.23|1.23|0.0139
92278760|NCT03280537|184460132|SUPERIORITY||Difference in Least Squares Means|-2.09|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001|TWO_SIDED|95.0|-3.0|-1.18||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline TNSS, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Total Nasal Symptom Score (TNSS) at Week 24.||-1.18|-3.00|<0.0001
92278761|NCT03280537|184460133|SUPERIORITY||Difference in Least Squares Means|3.86|STANDARD_ERROR_OF_MEAN|1.16||0.0011|TWO_SIDED|95.0|1.57|6.15||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline UPSIT, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the UPSIT score at Week 24.||6.15|1.57|0.0011
92278762|NCT03118739|184460149|SUPERIORITY||Mean % Change from Baseline|-39.37|||||TWO_SIDED|90.0|-61.785|-3.814||||||||-3.814|-61.785|
92278763|NCT06268730|184460200|SUPERIORITY|||||||0.104||||||The a priori threshold for statistical significance \<0.05.|ANOVA|||||||0.104
92278764|NCT06268730|184460201|SUPERIORITY|||||||0.061||||||the a priori threshold for statistical significance was \<0.05|ANOVA|||||||0.061
92278765|NCT06268730|184460202|SUPERIORITY|||||||0.053||||||the a priori threshold for statistical significance was \<0.05|ANOVA|||||||0.053
92418255|NCT03947684|184724301|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||>0.05
92389463|NCT00757237|184679511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.12||||0.0097||0.0||||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, Day 0 FEV1 percent predicted, and previous inhaled tobramycin use.|Treatment difference refers to TIS-AZLI.|Null hypothesis: there was no difference between AZLI and TIS treatment groups in the global satisfaction results of the TSQM at Week 20 (Day 140).||||0.0097
92418256|NCT03947684|184724302|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
92418257|NCT03947684|184724302|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||>0.05
92418258|NCT03947684|184724303|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
92418259|NCT03947684|184724303|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||<0.05
92418260|NCT03947684|184724304|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||>0.05
92418261|NCT03947684|184724304|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||>0.05
92418262|NCT03947684|184724305|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||>0.05
92418263|NCT03947684|184724305|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||<0.05
92418264|NCT03947684|184724306|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||<0.05
92278766|NCT06268730|184460203|SUPERIORITY|||||||0.003||||||the a priori threshold for statistical significance was \<0.05|ANOVA|||||||0.003
92389464|NCT00757237|184679512|SUPERIORITY_OR_OTHER|||||||0.044||||||No adjustments were made for multiple comparisons.|negative binomial regression method|||Null hypothesis: there was no difference between AZLI and TIS treatment groups in the total number of respiratory hospitalizations from Day 0 to Day 168 (end of study).||||0.044
92418265|NCT03947684|184724306|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||<0.05
92418266|NCT03947684|184724307|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from follicular phase.||||>0.05
92418267|NCT03947684|184724307|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from luteal phase.||||>0.05
92418268|NCT03947684|184724309|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from follicular phase.||||>0.05
92418269|NCT03947684|184724309|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from luteal phase.||||>0.05
92418270|NCT03947684|184724310|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from follicular phase.||||>0.05
92418271|NCT03947684|184724310|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from luteal phase.||||<0.05
92418272|NCT03947684|184724311|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||>0.05
92418273|NCT03947684|184724311|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||>0.05
92418274|NCT03947684|184724312|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||<0.05
92418275|NCT03947684|184724312|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||>0.05
92278767|NCT06268730|184460204|SUPERIORITY|||||||0.58||||||the a priori threshold for statistical significance was \<0.05|ANOVA|||||||0.58
92278768|NCT07174544|184460229|SUPERIORITY|Superiority was assessed by comparing outcomes between the intervention and wait-list control groups over time.|||||||||||||Generalized estimating equations (GEE)|Generalized estimating equations were used to examine changes in outcomes over time between groups, accounting for repeated measurements.|||Analyses followed the intention-to-treat principle using available data at each assessment time point. Descriptive statistics were used to summarize baseline characteristics.|||
92278769|NCT03419234|184460239|SUPERIORITY|||||||0.049|||||||Log Rank|Stratified log rank test||||||0.049
92418276|NCT03947684|184724313|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||<0.05
92418277|NCT03947684|184724313|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||>0.05
92418278|NCT03947684|184724314|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||<0.05
92235232|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|3.7|||||TWO_SIDED|95.0|2.25|5.94|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 6B: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||5.94|2.25|
92389465|NCT00757237|184679513|SUPERIORITY_OR_OTHER|||||||0.004||0.0||||No adjustments were made for multiple comparisons.|negative binomial regression method|||Null hypothesis: there was no difference between AZLI and TIS treatment groups in the total number of respiratory events requiring IV and/or inhaled antipseudomonal antibiotics (other than randomized treatment) from Day 0 to Day 168 (end of study).||||0.004
92389466|NCT00757237|184679514|SUPERIORITY_OR_OTHER|||||||0.0004||||||No adjustments were made for multiple comparisons.|Log Rank|||Null hypothesis: there was no difference between AZLI and TIS treatment groups with respect to time to need for inhaled and/or IV antipseudomonal antibiotics for respiratory events.||||0.0004
92418279|NCT03947684|184724314|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||>0.05
92418280|NCT02186301|184724321|OTHER||Kaplan-Meier Median|274.0|||||TWO_SIDED|95.0|109.0||Upper Confidence Limit is not available because it cannot be calculated||||||||109|
92389467|NCT01843023|184679516|SUPERIORITY||Mean Difference (Final Values)|0.558|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92389468|NCT01843023|184679518|SUPERIORITY||Mean Difference (Final Values)|0.722|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92389469|NCT01397461|184679522|SUPERIORITY_OR_OTHER|||||||0.003|||||||Chi-squared|||"The treatment comparison was done using only the outcomes of Clinical success and Clinical failure. The p value of the chi square test (without continuity correction) and corresponding 95% asymptotic (Wald) CI for the difference in success rates for the ozenoxacin versus placebo were provided. The analysis was performed to test the superiority of ozenoxacin versus placebo.~Text extracted from the statistical analysis plan. No additional data was pre-specified for the statistical comparison"||||0.003
92389470|NCT00367835|184679610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92389471|NCT00367835|184679611|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92389472|NCT00367835|184679612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92389473|NCT00367835|184679613|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92389474|NCT00367835|184679614|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92389475|NCT00367835|184679615|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||ANCOVA|||||||0.002
92389476|NCT00367835|184679616|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92389477|NCT03453489|184679622|OTHER|||||||0.837|||||||t-test, 2 sided|||||||0.837
92389478|NCT04346654|184679625|SUPERIORITY|||||||0.5133|||||||Regression, Logistic|||||||0.5133
92389479|NCT04346654|184679626|SUPERIORITY|||||||0.5133|||||||Regression, Logistic|||||||0.5133
92389480|NCT00999518|184679650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.4|0.35||||||The 3 parameter E max dose-response model, including baseline as a covariate, was fitted to estimate mean difference (tanezumab minus placebo) and associated 95% confidence interval (CI).||0.35|-0.40|
92389481|NCT00999518|184679650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-0.8|0.68||||||The 3 parameter E max dose-response model, including baseline as a covariate, was fitted to estimate mean difference (tanezumab minus placebo) and associated 95% CI.||0.68|-0.80|
92418281|NCT02186301|184724321|OTHER||Kaplan-Meier Median|207.0|||||TWO_SIDED|95.0|112.0|260.0||||||||260.0|112.0|
92389482|NCT00999518|184679650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-1.15|0.83||||||The 3 parameter E max dose-response model, including baseline as a covariate, was fitted to estimate mean difference (tanezumab minus placebo) and associated 95% CI.||0.83|-1.15|
92235233|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|6.2|||||TWO_SIDED|95.0|3.85|9.98|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 7F: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||9.98|3.85|
92278770|NCT05918952|184460251|SUPERIORITY||Odds Ratio (OR)|2.19||||0.05|TWO_SIDED|95.0|1.21|3.98|||Regression, Logistic|||||3.98|1.21|.05
92389483|NCT00999518|184679650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|||||TWO_SIDED|95.0|-0.93|0.47||||||The 3 parameter E max dose-response model, including baseline as a covariate, was fitted to estimate mean difference (tanezumab minus placebo) and associated 95% CI.||0.47|-0.93|
92389484|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.66|||||TWO_SIDED|95.0|0.259|1.683||||||Week 8, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||1.683|0.259|
92418282|NCT02186301|184724321|OTHER||Kaplan Meier Median|390.0|||||TWO_SIDED|95.0|282.0|499.0||||||||499.0|282.0|
92418283|NCT02186301|184724322|OTHER||Percentage|25.0|||||TWO_SIDED|95.0|8.7|49.1||||||||49.1|8.7|
92418284|NCT02186301|184724322|OTHER||Percentage|40.0|||||TWO_SIDED|95.0|22.7|59.4||||||||59.4|22.7|
92418285|NCT02186301|184724322|OTHER||Percentage|78.0|||||TWO_SIDED|95.0|64.0|88.5||||||||88.5|64.0|
92418286|NCT02186301|184724323|OTHER||Kaplan Meier Median|225.0|||||TWO_SIDED|95.0|113.0||Upper Confidence Limit is not available because it cannot be calculated.||||||||113|
92418287|NCT02186301|184724323|OTHER||Kaplan Meier Median|195.5|||||TWO_SIDED|95.0|143.0|617.0||||||||617.0|143.0|
92418288|NCT02186301|184724323|OTHER||Kaplan Meier Median|335.0|||||TWO_SIDED|95.0|282.0|480.0||||||||480.0|282.0|
92418289|NCT00749580|184724324|SUPERIORITY_OR_OTHER|||||||0.935|||||||Fisher Exact|||||||0.935
92418290|NCT05128929|184724326|SUPERIORITY||Mean Difference (Final Values)|0.614||||0.541|TWO_SIDED|95.0|-1.47|2.79|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||"Null: There is no significant difference in the mean primary endpoint (PVR) at 24 weeks between the treatment (H01) and placebo group.~The following analysis utilizes PVR determined by TD."||2.79|-1.47|0.541
92418291|NCT05128929|184724328|SUPERIORITY||Mean Difference (Final Values)|1.47||||0.599|TWO_SIDED|95.0|-4.34|7.27|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||Null: There is no significant difference in the mean secondary endpoint (mPAP) at 24 weeks between the treatment (H01) and placebo group.||7.27|-4.34|0.599
92418292|NCT05128929|184724329|SUPERIORITY||Mean Difference (Final Values)|47.26||||0.166|TWO_SIDED|95.0|-21.43|115.95|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||Null: There is no significant difference in the mean secondary endpoint (6MWT distance) at 24 weeks between the treatment (H01) and placebo group.||115.95|-21.43|0.166
92389485|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.975|||||TWO_SIDED|95.0|0.387|2.457||||||Week 8, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.457|0.387|
92389486|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.969|||||TWO_SIDED|95.0|0.392|2.398||||||Week 8, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.398|0.392|
92389487|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.969|||||TWO_SIDED|95.0|0.392|2.398||||||Week 8, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.398|0.392|
92389488|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.629|||||TWO_SIDED|95.0|0.202|1.96||||||Week 8, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||1.960|0.202|
92389489|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.179|||||TWO_SIDED|95.0|0.411|3.376||||||Week 8, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||3.376|0.411|
92389490|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.222|||||TWO_SIDED|95.0|0.438|3.414||||||Week 8, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||3.414|0.438|
92389491|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.778|||||TWO_SIDED|95.0|0.259|2.335||||||Week 8, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.335|0.259|
92418293|NCT05128929|184724330|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.975|TWO_SIDED|95.0|-8.22|7.98|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||Null: There is no significant difference in the mean secondary endpoint (emPHasis-10 score) at 24 weeks between the treatment (H01) and placebo group.||7.98|-8.22|0.975
92389492|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.929|||||TWO_SIDED|95.0|0.37|2.327||||||Week 16, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.327|0.370|
92389493|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.083|||||TWO_SIDED|95.0|0.427|2.749||||||Week 16, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.749|0.427|
92389494|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.759|||||TWO_SIDED|95.0|0.295|1.952||||||Week 16, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||1.952|0.295|
92389495|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.759|||||TWO_SIDED|95.0|0.295|1.952||||||Week 16, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||1.952|0.295|
92389496|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.875|||||TWO_SIDED|95.0|0.285|2.682||||||Week 16, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.682|0.285|
92389497|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.366|||||TWO_SIDED|95.0|0.466|4.006||||||Week 16, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||4.006|0.466|
92389498|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.75|||||TWO_SIDED|95.0|0.235|2.394||||||Week 16, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.394|0.235|
92389499|NCT00999518|184679652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.063|||||TWO_SIDED|95.0|0.356|3.168||||||Week 16, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||3.168|0.356|
92418294|NCT05128929|184724331|SUPERIORITY||Mean Difference (Final Values)|-9.0||||0.086|TWO_SIDED|95.0|-19.4|1.4|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||Null: There is no significant difference in the mean secondary endpoint (SGRQ Score) at 24 weeks between the treatment (H01) and placebo group.||1.4|-19.40|0.086
92418295|NCT05128929|184724332|SUPERIORITY||Mean Difference (Final Values)|73.92||||0.215|TWO_SIDED|95.0|-45.61|193.46|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||Null: There is no significant difference in the mean secondary endpoint (serum HA) at 24 weeks between the treatment (H01) and placebo group.||193.46|-45.61|0.215
92389500|NCT00999518|184679655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.263||||0.5731|TWO_SIDED|95.0|0.56|2.848|||Regression, Logistic|||Week 8: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis.||2.848|0.560|0.5731
92389501|NCT00999518|184679655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.656||||0.2592|TWO_SIDED|95.0|0.689|3.98|||Regression, Logistic|||Week 8: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis.||3.980|0.689|0.2592
92389502|NCT00999518|184679655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.9181||||1.045|TWO_SIDED|95.0|0.452|2.417|||Regression, Logistic|||Week 8: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis.||2.417|0.452|1.045
92389503|NCT00999518|184679655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.306||||0.5289|TWO_SIDED|95.0|0.569|2.997|||Regression, Logistic|||Week 8: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis.||2.997|0.569|0.5289
92389504|NCT00999518|184679655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.893||||0.793|TWO_SIDED|95.0|0.385|2.074|||Regression, Logistic|||Week 16: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis. For Week 16, data scores were combined into 3 categories: Improved ('slightly improved', 'moderately improved', 'markedly improved'), No Change ('no change') and Worse ('markedly worse', 'moderately worse', 'slightly worse') for comparison.||2.074|0.385|0.7930
92389505|NCT00999518|184679655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.167||||0.7386|TWO_SIDED|95.0|0.471|2.892|||Regression, Logistic|||Week 16: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis. For Week 16, data scores were combined into 3 categories: Improved ('slightly improved', 'moderately improved', 'markedly improved'), No Change ('no change') and Worse ('markedly worse', 'moderately worse', 'slightly worse') for comparison.||2.892|0.471|0.7386
92389506|NCT00999518|184679655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.036||||0.9354|TWO_SIDED|95.0|0.437|2.46|||Regression, Logistic|||Week 16: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis. For Week 16, data scores were combined into 3 categories: Improved ('slightly improved', 'moderately improved', 'markedly improved'), No Change ('no change') and Worse ('markedly worse', 'moderately worse', 'slightly worse') for comparison.||2.460|0.437|0.9354
92389507|NCT00999518|184679655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.805||||0.6207|TWO_SIDED|95.0|0.341|1.899|||Regression, Logistic|||Week 16: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis. For Week 16, data scores were combined into 3 categories: Improved ('slightly improved', 'moderately improved', 'markedly improved'), No Change ('no change') and Worse ('markedly worse', 'moderately worse', 'slightly worse') for comparison.||1.899|0.341|0.6207
92389508|NCT03868254|184679686|OTHER||||||<|0.0001|||||||Paired t-test|||||||<.0001
92389509|NCT03868254|184679686|OTHER||||||<|0.0001|||||||Paired t-test|||||||<.0001
92389510|NCT03868254|184679687|OTHER||||||<|0.0001|||||||Paired t-test|||||||<.0001
92389511|NCT03868254|184679687|OTHER|||||||0.0001|||||||Paired t-test|||||||0.0001
92389512|NCT03868254|184679688|OTHER|||||||0.003|||||||Paired t-test|||||||0.0030
92389513|NCT03868254|184679688|OTHER|||||||0.0018|||||||Paired t-test|||||||0.0018
92389514|NCT03868254|184679689|OTHER|||||||0.0053|||||||Paired t-test|||||||0.0053
92389515|NCT03868254|184679689|OTHER|||||||0.0472|||||||Paired t-test|||||||0.0472
92389516|NCT00797277|184679715|NON_INFERIORITY_OR_EQUIVALENCE|There was no previous study comparing these 2 treatments. We hypothesized that the mean difference between the 2 treatments would be small.|Mean Difference (Final Values)|1.0|||<|0.05|||||||t-test, 2 sided|||we hypothesized that there would be no statistical significant difference between the 2 groups in the primary outcome.||||<0.05
92389517|NCT00786799|184679717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3|STANDARD_DEVIATION|6.1||0.4|||||||t-test, 2 sided|||The null hypothesis is that the mean change in Aberrant Behavior Checklist Hyperactivity subscale (ABC-H) score is the same for both groups.||||0.40
92389518|NCT04640311|184679732|OTHER||Geometric mean ratio|1.028|||||TWO_SIDED|90.0|0.9699|1.09|||||Geometric mean ratio of Daprodustat Process 1 to Process 2 Dissolution Profile 1 has been presented.|||1.090|0.9699|
92389519|NCT04640311|184679732|OTHER||Geometric mean ratio|1.019|||||TWO_SIDED|90.0|0.9602|1.081|||||Geometric mean ratio of Daprodustat Process 1 to Process 2 Dissolution Profile 2 has been presented.|||1.081|0.9602|
92389520|NCT04640311|184679733|EQUIVALENCE|Bioequivalence was to be determined if the 90 percent (%) confidence interval (CI) of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|1.029|||||TWO_SIDED|90.0|0.977|1.083|||||Geometric mean ratio of Daprodustat 1 mg Process 2 to Process 1 has been presented.|||1.083|0.9770|
92389521|NCT04640311|184679733|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9496|||||TWO_SIDED|90.0|0.8914|1.012|||||Geometric mean ratio of Daprodustat 2 mg Process 2 to Process 1 has been presented.|||1.012|0.8914|
92389522|NCT04640311|184679733|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|1.01|||||TWO_SIDED|90.0|0.9533|1.07|||||Geometric mean ratio of Daprodustat 4 mg Process 2 to Process 1 has been presented.|||1.070|0.9533|
92389523|NCT04640311|184679733|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9679|||||TWO_SIDED|90.0|0.9115|1.028|||||Geometric mean ratio of Daprodustat 6 mg Process 2 to Process 1 has been presented.|||1.028|0.9115|
92389524|NCT04640311|184679733|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9511|||||TWO_SIDED|90.0|0.8948|1.011|||||Geometric mean ratio of Daprodustat 8 mg Process 2 to Process 1 has been presented.|||1.011|0.8948|
92389525|NCT04640311|184679734|OTHER||Geometric mean ratio|1.042|||||TWO_SIDED|90.0|0.9308|1.166|||||Geometric mean ratio of Daprodustat Process 1 to Process 2 Dissolution Profile 1 has been presented.|||1.166|0.9308|
92389526|NCT04640311|184679734|OTHER||Geometric mean ratio|1.048|||||TWO_SIDED|90.0|0.9349|1.175|||||Geometric mean ratio of Daprodustat Process 1 to Process 2 Dissolution Profile 2 has been presented.|||1.175|0.9349|
92389527|NCT04640311|184679735|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9716|||||TWO_SIDED|90.0|0.8936|1.056|||||Geometric mean ratio of Daprodustat 1 mg Process 2 to Process 1 has been presented.|||1.056|0.8936|
92389528|NCT04640311|184679735|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9006|||||TWO_SIDED|90.0|0.8107|1.0|||||Geometric mean ratio of Daprodustat 2 mg Process 2 to Process 1 has been presented.|||1.000|0.8107|
92389529|NCT04640311|184679735|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9703|||||TWO_SIDED|90.0|0.8665|1.087|||||Geometric mean ratio of Daprodustat 4 mg Process 2 to Process 1 has been presented.|||1.087|0.8665|
92389530|NCT04640311|184679735|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9675|||||TWO_SIDED|90.0|0.8778|1.066|||||Geometric mean ratio of Daprodustat 6 mg Process 2 to Process 1 has been presented.|||1.066|0.8778|
92389531|NCT04640311|184679735|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.8606|||||TWO_SIDED|90.0|0.777|0.9532|||||Geometric mean ratio of Daprodustat 8 mg Process 2 to Process 1 has been presented.|||0.9532|0.7770|
92418296|NCT05128929|184724333|SUPERIORITY||Mean Difference (Final Values)|231.47||||0.442|TWO_SIDED|95.0|-377.26|840.2|||Mixed Models Analysis|||There is no significant difference in the mean secondary endpoint (NT-proBNP) at 24 weeks between the treatment (H01) and placebo group.||840.20|-377.26|0.442
92418297|NCT03553836|184724343|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.00046|TWO_SIDED|95.0|0.45|0.82||One-sided p-value based on log-rank test stratified by melanoma T Stage (T3b, T4a, T4b).|Log Rank||Hazard Ratio based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by melanoma T Stage (T3b, T4a, T4b).|||0.82|0.45|0.00046
92418298|NCT03553836|184724346|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in Percentage|4.1|||||TWO_SIDED|95.0|1.0|7.3||||||||7.3|1.0|
92169886|NCT00520546|184228466|SUPERIORITY_OR_OTHER||sensitivity|66.0|||<|0.001||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from PET/MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92389532|NCT03906071|184679746|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.144|TWO_SIDED|95.0|0.7|1.05||The p-value is based on a unstratified log-rank test. (2-Sided)|Log Rank||Based on the unstratified cox proportional hazards model.|||1.05|0.70|0.144
92389533|NCT02152761|184679760|SUPERIORITY||Treatment Group Ratio (BYM - Placebo)|1.057|||<|0.0001|TWO_SIDED|95.0|1.037|1.076|||Mixed Models Analysis||Holm-Bonferroni method: Used to adjust the Type I error for two comparisons (BYM338 700 mg/Placebo) at Week 24. No control for multiplicity was made at Week 12.|week 12||1.076|1.037|<.0001
92418299|NCT03553836|184724347|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in percentage|12.9|||||TWO_SIDED|95.0|9.1|16.9||||||||16.9|9.1|
92418300|NCT02524977|184724350|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared|||||||0.02
92389534|NCT02152761|184679760|SUPERIORITY||Treatment group rratio (BYM - Placebo)|1.043|||<|0.0001|TWO_SIDED|95.0|1.024|1.064|||Mixed Models Analysis||Holm-Bonferroni method: Used to adjust the Type I error for two comparisons (BYM338 700 mg/Placebo) at Week 24. No control for multiplicity was made at Week 12.|week 12||1.064|1.024|<.0001
92389535|NCT02152761|184679761|SUPERIORITY||LS Mean of Treatment Difference|-0.071||||0.1829|TWO_SIDED|95.0|-0.175|0.034||Treatment Difference (BYM-Placebo)|Mixed Models Analysis|||week 24||0.034|-0.175|0.1829
92389536|NCT02152761|184679761|SUPERIORITY||LS Mean of Treatment Difference|0.011||||0.8365|TWO_SIDED|95.0|-0.096|0.119|||Mixed Models Analysis|||week 24||0.119|-0.096|0.8365
92389537|NCT02152761|184679762|SUPERIORITY||LS Mean of Treatment Difference|-0.371||||0.5802|TWO_SIDED|95.0|-1.311|1.053|||Mixed Models Analysis|||week 24||1.053|-1.311|0.5802
92389538|NCT02152761|184679762|SUPERIORITY||LS Mean of the Treatment Difference|0.833||||0.0913|TWO_SIDED|95.0|-0.135|1.801|||Mixed Models Analysis|||week 24||1.801|-0.135|0.0913
92389539|NCT02152761|184679763|SUPERIORITY||Falls Rate Ratio|1.08||||0.8353|TWO_SIDED|95.0|0.53|2.21|||Negative binomial regression|||||2.21|0.53|0.8353
92389540|NCT02152761|184679763|SUPERIORITY||Falls Rate Ratio|1.58||||0.2015|TWO_SIDED|95.0|0.78|3.18|||Negative binomial regression|||||3.18|0.78|0.2015
92389541|NCT02152761|184679763|SUPERIORITY||Falls Rate Ratio|1.25||||0.3999|TWO_SIDED|95.0|0.52|3.0|||Negative binomial regression|||week 24||3.00|0.52|0.3999
92418301|NCT03935399|184724366|SUPERIORITY|Exploratory analysis without power calculation||||||0.83|||||||ANOVA|Repeated measures one factor ANOVA||Exploratory analysis without power calculation||||0.83
92418302|NCT03935399|184724367|SUPERIORITY|Exploratory analysis without power calculation||||||0.92|||||||ANOVA|One factor repeated measures ANOVA||Exploratory analysis without power calculation||||0.92
92418303|NCT03935399|184724368|SUPERIORITY|Exploratory analysis without power calculation||||||0.79|||||||ANOVA|One factor repeated measures ANOVA||Exploratory analysis without power calculation||||0.79
92418304|NCT03935399|184724369|SUPERIORITY|Exploratory analysis without power calculation||||||0.93||||||Exploratory analysis without power calculation|ANOVA|One factor repeated measures ANOVA||||||0.93
92418305|NCT03935399|184724370|SUPERIORITY|Exploratory analysis without power calculation||||||0.89||||||Exploratory analysis without power calculation|ANOVA|Two factor repeated measures ANOVA||||||0.89
92418306|NCT03935399|184724371|SUPERIORITY|Exploratory analysis without power calculation||||||0.83||||||Exploratory analysis without power calculation|ANOVA|Two way repeated measures ANOVA||||||0.83
92418307|NCT03935399|184724372|SUPERIORITY|Exploratory analysis without power caclulation||||||0.57||||||Exploratory analysis without power caclulation|ANOVA|Two way repeated measures ANOVA||||||0.57
92169887|NCT00520546|184228466|SUPERIORITY_OR_OTHER||specificity|82.0|||<|0.001||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from PET/MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92235234|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|4.2|||||TWO_SIDED|95.0|2.43|7.4|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 9V: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||7.40|2.43|
92389542|NCT00080301|184679793|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.0003||95.17|0.64|0.88||Test was stratified by 1) presence of visceral metastases in liver or lung, 2) minimum of either doxorubicin 420 mg/m2 or epirubicin 360 mg/m2, and relapse \> 6 months in adjuvant setting, and 3) prior chemotherapy for metastatic disease. (yes/no)|Log Rank|95.17% confidence interval is adjusted for the interim analysis.||Study required 615 events to achieve 90% power to detect a hazard ratio of 0.77 using a 2-sided α = 0.05 log-rank test. The analysis was a comparison between the 2 treatment arms using a 2-sided α=0.0483 log-rank test (adjusted for an interim analysis using the O'Brien Fleming spending function) to reject the null hypothesis of equality of progression free survival. The analysis was conducted when 639 events (310 in combination:329 in capecitabine) were observed from the 752 randomized patients.||0.88|0.64|.0003
92389543|NCT00080301|184679794|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.15|||<|0.0001||95.0|2.2|4.5|||Cochran-Mantel-Haenszel|||The study had 95 percent power to detect a significant difference in ORR if the true response rate was 32 percent in the combination arm and 20 percent in the capecitabine arm.||4.50|2.20|<.0001
92418308|NCT01112683|184724373|SUPERIORITY_OR_OTHER|||||||0.403|ONE_SIDED|90.0|||||Mixed Models Analysis|An alpha level of 0.05 or lower represents statistical significance, no correction was made for multiple comparisons to minimize type II errors.||20 subjects per group were expected to provide 60% power to detect a between-group mean difference of 1.2 correct patterns (change from baseline to week 16) on the Paired Associates Learning and to provide 40% power to detect a between-group mean difference of 1.2 patterns recognized on the Pattern Recognition Memory. A two-sided test at type I error rate of 5% was used. Sample size incorporated an inflation factor of 20% to account for ineligibility of 10% of randomized participants.||||0.403
92418309|NCT01112683|184724374|SUPERIORITY_OR_OTHER|||||||0.371|ONE_SIDED|90.0||||This P-Value refers to the SIB-R Broad independence score.|Mixed Models Analysis|An alpha level of 0.05 or lower represents statistical significance, no correction was made for multiple comparisons to minimize type II errors.||No power calculations were performed for the secondary measures.||||0.371
92418310|NCT02129777|184724376|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.008||||0.925|TWO_SIDED|95.0|-0.162|0.179|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Cochran-Mantel-Haenszel (CMH) P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.179|-0.162|0.925
92418311|NCT02129777|184724376|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.087||||0.162|TWO_SIDED|95.0|-0.202|0.028|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.028|-0.202|0.162
92418312|NCT02129777|184724376|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.034||||0.671|TWO_SIDED|95.0|-0.187|0.118|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.118|-0.187|0.671
92418313|NCT02129777|184724376|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.087||||0.182|TWO_SIDED|95.0|-0.202|0.028|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.028|-0.202|0.182
92418314|NCT02129777|184724378|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.75||0.435|TWO_SIDED|95.0|-2.1|4.9|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure.||4.9|-2.1|0.435
92418315|NCT02129777|184724378|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|1.74||0.279|TWO_SIDED|95.0|-1.6|5.4|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure.||5.4|-1.6|0.279
92418316|NCT02129777|184724378|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|1.74||0.085|TWO_SIDED|95.0|-0.4|6.5|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure.||6.5|-0.4|0.085
92418317|NCT02129777|184724378|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|1.76||0.11|TWO_SIDED|95.0|-0.7|6.3|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure.||6.3|-0.7|0.110
92235235|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.89|2.13|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 14: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.13|0.89|
92235236|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|1.7|||||TWO_SIDED|95.0|1.06|2.57|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 18C: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.57|1.06|
92389544|NCT00080301|184679797|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.1936||95.17|0.77|1.05||Test was stratified by presence of visceral metastases in liver or lung (y/n), minimum of either doxorubicin 420 mg/m2 or epirubicin 360 mg/m2, and relapse \> 6 months in adjuvant setting (y/n), and prior chemotherapy for metastatic disease (y/n).|Log Rank|Test was conducted at the α=0.05 level and no adjustments were performed.|Confidence Interval adjusted for interim analysis.|Study required 631 deaths to achieve 80% power to detect a Hazard ratio of 0.8 using a 2-sided α = 0.05 log rank test. The analysis was a comparison between the 2 treatment arms using a 2-sided α=0.05 log-rank test to reject the null hypothesis of equality of survival. The analysis was conducted when 639 deaths (318 in combination:321 in capecitabine) were observed from the 752 randomized patients.||1.05|0.77|0.1936
92389545|NCT00080301|184679799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0|||||Wei-Lachin|||There was a statistically significant difference between groups in change from baseline FBSI score favoring capecitabine. A mean change from baseline of 2.5 was considered a clinically meaningful difference (minimally important difference or MID). On-treatment mean changes in the FBSI did not reach the MID in either group.||||.0002
92389546|NCT00991939|184679800|SUPERIORITY_OR_OTHER||Difference of proportions|0.0|STANDARD_ERROR_OF_MEAN|0.58||1|TWO_SIDED|95.0|-0.975|0.708|||Fisher Exact||The estimated value is the proportion of success in the high dose pulse dexamethasone group minus the proportion of success in the standard prednisone group.|Four subjects were not included in this analysis because not enough data was available to assess the primary outcome at the time the study was terminated.||0.708|-0.975|1.00
92389547|NCT01965704|184679814|OTHER|||||||0.2|||||||Fisher Exact|||||||0.2
92389548|NCT01965704|184679815|OTHER||Mean Difference (Final Values)|-1.9||||0.56|TWO_SIDED|95.0|-8.0|4.3|||Wilcoxon Rank-Sum test||The 95% confidence interval between the ondansetron group and the placebo group was calculated with the use of Hodges-Lehmann estimator.|Difference in overall length of stay.||4.3|-8.0|0.56
92389549|NCT01965704|184679815|OTHER||Median Difference (Final Values)|-1.9||||0.07|TWO_SIDED|95.0|-4.0|0.2|||Wilcoxon Rank-Sum test||The 95% confidence interval between the ondansetron group and the placebo group was calculated with the use of Hodges-Lehmann estimator.|Difference in length of stay as calculated with maximum length capped at 15 days.||0.2|-4.0|0.07
92389550|NCT01965704|184679816|OTHER||Mean Difference (Final Values)|-1.8||||0.31|TWO_SIDED|95.0|-8.8|2.7|||Wilcoxon Rank-Sum test||The 95% confidence interval between the ondansetron group and the placebo group was calculated with the use of Hodges-Lehmann estimator.|||2.7|-8.8|0.31
92389551|NCT02524171|184679820|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|-0.1|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92389552|NCT02524171|184679820|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|-0.88|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
92389553|NCT02524171|184679821|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.06|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92235237|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|2.0|||||TWO_SIDED|95.0|1.5|2.78|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 19A: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.78|1.50|
92389554|NCT02524171|184679821|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.02|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
92389555|NCT02524171|184679822|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|10.98|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92389556|NCT02524171|184679822|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|14.64|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
92389557|NCT02524171|184679823|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|1.45|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews||||||>0.05
92389558|NCT02524171|184679823|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|1.22|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
92389559|NCT02524171|184679824|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.04|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92389560|NCT02524171|184679824|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.02|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||>0.05
92389561|NCT02524171|184679825|SUPERIORITY||Time x Condition at 6mo.(Beta value)|0.04|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92389562|NCT02524171|184679825|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.02|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
92418318|NCT02129777|184724379|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.027||||0.827|TWO_SIDED|95.0|-0.265|0.211|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.211|-0.265|0.827
92418319|NCT02129777|184724379|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.036||||0.768|TWO_SIDED|95.0|-0.269|0.198|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.198|-0.269|0.768
92418320|NCT02129777|184724379|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.112||||0.338|TWO_SIDED|95.0|-0.33|0.106|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.106|-0.330|0.338
92418321|NCT02129777|184724379|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.017||||0.89|TWO_SIDED|95.0|-0.261|0.226|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.226|-0.261|0.890
92418322|NCT02129777|184724380|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.048||||0.295|TWO_SIDED|95.0|-0.043|0.139|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12:CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.139|-0.043|0.295
92418323|NCT02129777|184724381|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.012||||0.906|TWO_SIDED|95.0|-0.191|0.216|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and sPGA response category controlling for visit.||0.216|-0.191|0.906
92418324|NCT02129777|184724381|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.04||||0.677|TWO_SIDED|95.0|-0.222|0.143|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and sPGA response category controlling for visit.||0.143|-0.222|0.677
92418325|NCT02129777|184724381|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.13||||0.107|TWO_SIDED|95.0|-0.268|0.007|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and sPGA response category controlling for visit.||0.007|-0.268|0.107
92418326|NCT02129777|184724381|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.08||||0.371|TWO_SIDED|95.0|-0.248|0.087|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and sPGA response category controlling for visit.||0.087|-0.248|0.371
92418327|NCT02129777|184724382|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.095||||0.134|TWO_SIDED|95.0|-0.03|0.221|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and sPGA response category controlling for visit.||0.221|-0.030|0.134
92418328|NCT02129777|184724383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.258|TWO_SIDED|95.0|-0.6|0.2|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an analysis of variance (ANOVA) model with terms for treatment and study site.||0.2|-0.6|0.258
92418329|NCT02129777|184724383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.365|TWO_SIDED|95.0|-0.5|0.2|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.2|-0.5|0.365
92418330|NCT02129777|184724383|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.18||0.757|TWO_SIDED|95.0|-0.3|0.4|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.4|-0.3|0.757
92418331|NCT02129777|184724383|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.825|TWO_SIDED|95.0|-0.4|0.3|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.3|-0.4|0.825
92418332|NCT02129777|184724384|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|2.163||0.931|TWO_SIDED|95.0|-4.48|4.1|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||4.10|-4.48|0.931
92418333|NCT02129777|184724384|SUPERIORITY_OR_OTHER||LS Mean Difference|1.59|STANDARD_ERROR_OF_MEAN|2.143||0.459|TWO_SIDED|95.0|-2.65|5.84|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.84|-2.65|0.459
92418334|NCT02129777|184724384|SUPERIORITY_OR_OTHER||LS Mean Difference|3.65|STANDARD_ERROR_OF_MEAN|2.161||0.094|TWO_SIDED|95.0|-0.63|7.93|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||7.93|-0.63|0.094
92418335|NCT02129777|184724384|SUPERIORITY_OR_OTHER||LS Mean Difference|2.78|STANDARD_ERROR_OF_MEAN|2.173||0.203|TWO_SIDED|95.0|-1.52|7.09|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||7.09|-1.52|0.203
92418336|NCT02129777|184724385|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.7||0.448|TWO_SIDED|95.0|-1.92|0.86|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.86|-1.92|0.448
92418337|NCT02129777|184724385|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.692||0.099|TWO_SIDED|95.0|-2.53|0.22|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.22|-2.53|0.099
92235238|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|3.4|||||TWO_SIDED|95.0|2.3|5.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 19F: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||5.04|2.30|
92418338|NCT02129777|184724385|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.69||0.396|TWO_SIDED|95.0|-1.96|0.78|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.78|-1.96|0.396
92418339|NCT02129777|184724385|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.697||0.102|TWO_SIDED|95.0|-2.54|0.23|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.23|-2.54|0.102
92418340|NCT02129777|184724386|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.626||0.099|TWO_SIDED|95.0|-2.29|-0.2|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||-0.20|-2.29|0.099
92418341|NCT02129777|184724386|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.619||0.045|TWO_SIDED|95.0|-2.49|-0.03|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||-0.03|-2.49|0.045
92169888|NCT00520546|184228466|SUPERIORITY_OR_OTHER||accuracy|72.0|||<|0.001||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from PET/MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92278771|NCT05918952|184460252|OTHER||Odds Ratio (OR)|1.81|||<|0.001|TWO_SIDED|95.0|1.35|2.41|||Regression, Logistic|||Hypothesis: Higher General Sentiment (GS) scores will be associated with greater likelihood of COVID-19 testing uptake.||2.41|1.35|<0.001
92418342|NCT02129777|184724386|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.62||0.118|TWO_SIDED|95.0|-2.21|0.25|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.25|-2.21|0.118
92418343|NCT02129777|184724386|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.616||0.05|TWO_SIDED|95.0|-2.44|0.0|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.00|-2.44|0.050
92418344|NCT02129777|184724387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.503||0.211|TWO_SIDED|95.0|-1.63|0.36|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.36|-1.63|0.211
92418345|NCT02129777|184724387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.497||0.087|TWO_SIDED|95.0|-1.85|0.13|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.13|-1.85|0.087
92418346|NCT02129777|184724387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.494||0.58|TWO_SIDED|95.0|-1.26|0.71|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.71|-1.26|0.580
92418347|NCT02129777|184724387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.496||0.873|TWO_SIDED|95.0|-1.06|0.9|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.90|-1.06|0.873
92418348|NCT02129777|184724388|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|6.7||0.803|TWO_SIDED|95.0|-15.2|11.8|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||11.8|-15.2|0.803
92235239|NCT01025336|184373544|SUPERIORITY_OR_OTHER||Ratio of GMT|2.1|||||TWO_SIDED|95.0|1.37|3.37|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 23F: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||3.37|1.37|
92235240|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.48|0.9|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 1: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.90|0.48|
92389563|NCT02524171|184679826|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.02|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92389564|NCT02524171|184679826|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|-0.08|||<|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||<0.05
92389565|NCT02524171|184679827|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.06|||<|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||<0.05
92389566|NCT02524171|184679827|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.06|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
92418349|NCT02129777|184724388|SUPERIORITY_OR_OTHER||LS Mean Difference|7.9|STANDARD_ERROR_OF_MEAN|6.73||0.248|TWO_SIDED|95.0|-5.7|21.4|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||21.4|-5.7|0.248
92418350|NCT02129777|184724388|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|6.67||0.914|TWO_SIDED|95.0|-12.7|14.2|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||14.2|-12.7|0.914
92235241|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.64|1.09|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 3: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.09|0.64|
92389567|NCT02524171|184679828|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta|0.69|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92389568|NCT02524171|184679828|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|-0.89|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
92389569|NCT02524171|184679829|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|0.07|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92389570|NCT02524171|184679829|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|0.01|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
92389571|NCT02524171|184679830|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|6.53|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92389572|NCT02524171|184679830|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|5.68|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63||||>0.05
92389573|NCT02524171|184679831|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|0.83|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92278772|NCT05918952|184460253|OTHER||Odds Ratio (OR)|3.54|||<|0.001|TWO_SIDED|95.0|2.01|6.2|||Regression, Logistic|||Hypothesis: Higher VFS scores will be associated with increased likelihood of test uptake.||6.20|2.01|<0.001
92169889|NCT00520546|184228467|SUPERIORITY_OR_OTHER||positive prediction|84.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92235242|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|0.3|||||TWO_SIDED|95.0|0.2|0.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 4: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.44|0.20|
92169890|NCT00520546|184228467|SUPERIORITY_OR_OTHER||negative prediction|73.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92169891|NCT00520546|184228467|SUPERIORITY_OR_OTHER||sensitivity|90.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92169892|NCT00520546|184228467|SUPERIORITY_OR_OTHER||specificity|84.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92235243|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.59|1.26|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 5: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.26|0.59|
92389574|NCT02524171|184679831|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|0.46|||<|0.01|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||<0.01
92389575|NCT02524171|184679832|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)|0.02|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92169893|NCT00520546|184228467|SUPERIORITY_OR_OTHER||accuracy|82.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92169894|NCT00520546|184228467|SUPERIORITY_OR_OTHER||positive prediction|71.0||||0.53||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.53
92389576|NCT02524171|184679832|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)|-0.08|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||>0.05
92389577|NCT02524171|184679833|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|-0.03|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92169895|NCT00520546|184228467|SUPERIORITY_OR_OTHER||negative prediction|33.0||||0.53||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.53
92169896|NCT00520546|184228467|SUPERIORITY_OR_OTHER||sensitivity|73.0||||0.53||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.53
92169897|NCT00520546|184228467|SUPERIORITY_OR_OTHER||specificity|31.0||||0.53||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.53
92235244|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|0.2|||||TWO_SIDED|95.0|0.11|0.26|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 6A: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.26|0.11|
92235245|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.49|1.22|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 6B: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.22|0.49|
92389578|NCT02524171|184679833|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|-0.07|||<|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||<0.05
92389579|NCT02524171|184679834|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|0.01|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
92389580|NCT02524171|184679834|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|-0.08|||<|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||<0.05
92389581|NCT02524171|184679835|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|0.07|||<|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||<0.05
92389582|NCT02524171|184679835|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|0.08|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||>0.05
92389583|NCT02868554|184679843|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.07|TWO_SIDED||||||ANOVA|||||||0.07
92389584|NCT02868554|184679844|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.02|TWO_SIDED||||||ANOVA|||||||0.02
92389585|NCT05282927|184679870|SUPERIORITY||Mean Difference (Net)|-0.05||||0.92|TWO_SIDED|95.0|-1.07|0.98|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization: site complexity level (high complexity '1a', '1b' or '1c' vs. all others) and rurality (high sites serving ≥50% rural/highly rural Veterans vs. low sites serving \<50% rural/highly rural Veterans)||0.98|-1.07|0.92
92389586|NCT05282927|184679871|SUPERIORITY||Mean Difference (Net)|0.94||||0.056|TWO_SIDED|95.0|-0.03|1.9|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization: site complexity level (high complexity '1a', '1b' or '1c' vs. all others) and rurality (high sites serving ≥50% rural/highly rural Veterans vs. low sites serving \<50% rural/highly rural Veterans).||1.90|-0.03|0.056
92389587|NCT01100320|184679887|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|99.9|||||TWO_SIDED|90.0|95.4|104.52|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||104.52|95.40|
92389588|NCT01100320|184679888|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|92.6|||||TWO_SIDED|90.0|90.11|95.09|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||95.09|90.11|
92389589|NCT01100320|184679889|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|92.6|||||TWO_SIDED|90.0|90.13|95.13|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||95.13|90.13|
92389590|NCT04181762|184679890|SUPERIORITY||Mean Difference (Final Values)|-12.7||||0.0662|TWO_SIDED|95.0|-26.3|0.9|||Regression, Logistic||Difference from placebo and 95% CI are from a logistic regression model with treatment group, stratification factor (SoC) and race as factors and baseline UPCR as a covariate using marginal standardization method.|Complete Renal Response (CRR) at Week 52||0.9|-26.3|0.0662
92389591|NCT04181762|184679892|OTHER||Mean Difference (Final Values)|-7.7|||||TWO_SIDED|95.0|-23.7|8.4|||||95% Confidence Intervals (CIs) are constructed using the exact binomial test.|Partial Renal Response (PRR) at Week 52||8.4|-23.7|
92389592|NCT02534909|184679939|OTHER|Bayesian analysis of response rate in serum LDH (period 1 completers only)|Median response rate|99.0|||||TWO_SIDED|95.0|81.9|100.0|||||95% Credibility Interval for Response Rate|Up to Week 4||100.0|81.9|
92389593|NCT02534909|184679940|OTHER||Geometric LS mean Ratio to Baseline|0.19|||<|0.001|TWO_SIDED|95.0|0.15|0.23|||Mixed Models Analysis||The longitudinal mixed effects model included timepoint, log baseline as a covariate and the log baseline by timepoint interaction. C5 variant status was included as a categorical covariate.|Period 1 Day 29 serum LDH levels||0.23|0.15|<0.001
92389594|NCT02534909|184679940|OTHER||Geometric LS mean Ratio to Baseline|0.19|||<|0.001|TWO_SIDED|95.0|0.15|0.23|||Mixed Models Analysis||The longitudinal mixed effects model included timepoint, log baseline as a covariate and the log baseline by timepoint interaction. C5 variant status was included as a categorical covariate.|Period 2 Day 365 serum LDH levels||0.23|0.15|<0.001
92389595|NCT02534909|184679940|OTHER||Geometric LS mean Ratio to Baseline|0.17|||<|0.001|TWO_SIDED|95.0|0.14|0.2|||Mixed Models Analysis||The longitudinal mixed effects model included timepoint, log baseline as a covariate and the log baseline by timepoint interaction. C5 variant status was included as a categorical covariate.|Period 3 Day 1429 serum LDH levels||0.20|0.14|<0.001
92389596|NCT02534909|184679940|OTHER||Geometric LS mean Ratio to Baseline|0.19|||<|0.001|TWO_SIDED|95.0|0.15|0.24|||Mixed Models Analysis||The longitudinal mixed effects model included timepoint, log baseline as a covariate and the log baseline by timepoint interaction. C5 variant status was included as a categorical covariate.|Period 4 Day 141 serum LDH levels||0.24|0.15|<0.001
92389597|NCT00676013|184679978|OTHER|ANOVA and all pairwise comparisons using Tukey test.|Multiple pairwise comparisons|0.05||||0.05|TWO_SIDED|||||0.05 is a threshold for statistical significance.|ANOVA|||We conducted a multiple four group comparison (all pairwise comparisons were conducted). An Anova was conducted to assess statistical significance.|0.05|||0.05
92389598|NCT00577824|184679979|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni's method was used to adjustment for multiplicity, and significant level was set to 2.5%(two-sided).|ANCOVA|ANCOVA model with treatment group as a factor and baseline value as the covariate.||||||<0.001
92389599|NCT00577824|184679980|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Armitage|||||||<0.001
92389600|NCT00577824|184679981|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Armitage|||||||<0.001
92389601|NCT00577824|184679982|SUPERIORITY_OR_OTHER||||||<|0.002||95.0||||No adjustment for multiplicity. Significance level was 5% (two-sided).|ANCOVA|||||||<0.002
92389602|NCT00577824|184679983|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||No adjustment for multiplicity. Significance level was 5% (two-sided).|ANCOVA|||||||0.026
92389603|NCT00577824|184679984|SUPERIORITY_OR_OTHER|||||||0.672||95.0|||||t-test, 2 sided|||||||0.672
92389604|NCT00577824|184679985|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||t-test, 2 sided|||||||0.580
92389605|NCT00577824|184679986|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||t-test, 2 sided|||||||0.014
92389606|NCT00577824|184679987|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||t-test, 2 sided|||||||0.490
92389607|NCT00577824|184679988|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
92389608|NCT00577824|184679989|SUPERIORITY_OR_OTHER|||||||0.208||95.0|||||t-test, 2 sided|||||||0.208
92389609|NCT00577824|184679991|SUPERIORITY_OR_OTHER|||||||0.708||95.0|||||t-test, 2 sided|||||||0.708
92389610|NCT00577824|184679992|SUPERIORITY_OR_OTHER|||||||0.974||95.0|||||t-test, 2 sided|||||||0.974
92389611|NCT00577824|184679994|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||t-test, 2 sided|||||||0.200
92389612|NCT00577824|184679995|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92389613|NCT00362648|184679996|SUPERIORITY_OR_OTHER||Efficacy = 1-Relative Risk|39.3|||<|0.001||95.0|19.1|54.7||Efficacy\>0%. Based on p\< 1/(1+k), where p is proportion of subjects with outcome in vaccine group relative to total number of subjects with outcome, and k is ratio of follow-up time; placebo / vaccine. Based on conditional binomial approach.|Exact binomial test||Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group.|The number randomized is different from the number analyzed because some data were excluded from the analysis: subjects were classified as unevaluable due to wildtype rotavirus in stool before 14 days Postdose 3, incomplete clinical and/or laboratory results, or stool samples collected out of day range. Rotavirus gastroenteritis cases are subjects with one or more positive episodes. The most severe positive episode is used for the date of the case.||54.7|19.1|<0.001
92389614|NCT00362648|184679996|SUPERIORITY_OR_OTHER||Efficacy = 1-Relative Risk|48.3|||<|0.001||95.0|22.3|66.1||Efficacy\>0%. Based on p\< 1/(1+k), where p is proportion of subjects with outcome in vaccine group relative to total number of subjects with outcome, and k is ratio of follow-up time; placebo / vaccine. Based on conditional binomial approach.|Exact binomial test||Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group.|The number randomized is different from the number analyzed because some data were excluded from the analysis: subjects were classified as unevaluable due to wildtype rotavirus in stool before 14 days Postdose 3, incomplete clinical and/or laboratory results, or stool samples collected out of day range. Rotavirus gastroenteritis cases are subjects with one or more positive episodes. The most severe positive episode is used for the date of the case.||66.1|22.3|<0.001
92389615|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|78.3||||||95.0|71.7|84.0||||||Anti-rotavirus IgA||84.0|71.7|
92389616|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|18.5||||||95.0|13.3|24.8||||||Serotype G1||24.8|13.3|
92389617|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|9.0||||||95.0|5.3|14.0||||||Serotype G2||14.0|5.3|
92389618|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|6.3||||||95.0|3.3|10.8||||||Serotype G3||10.8|3.3|
92389619|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|26.5||||||95.0|20.3|33.3||||||Serotype G4||33.3|20.3|
92389620|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|14.4||||||95.0|9.7|20.2||||||Serotype P1A\[8\]||20.2|9.7|
92389621|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|20.1||||||95.0|14.4|27.0||||||Anti-rotavirus IgA||27.0|14.4|
92389622|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|0.0||||||95.0|0.0|2.2||||||Serotype G1||2.2|0.0|
92389623|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|3.0||||||95.0|1.0|6.8||||||Serotype G2||6.8|1.0|
92389624|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|2.4||||||95.0|0.6|5.9||||||Serotype G3||5.9|0.6|
92389625|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|2.4||||||95.0|0.6|5.9||||||Serotype G4||5.9|0.6|
92389626|NCT00362648|184679997|SUPERIORITY_OR_OTHER||Percentage|4.7||||||95.0|2.1|9.1||||||Serotype P1A\[8\]||9.1|2.1|
92389627|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|87.8||||||95.0|80.9|92.9||||||Anti-rotavirus IgA||92.9|80.9|
92389628|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|32.1||||||95.0|24.2|40.8||||||Serotype G1||40.8|24.2|
92389629|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|9.9||||||95.0|5.4|16.4||||||Serotype G2||16.4|5.4|
92389630|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|28.2||||||95.0|20.7|36.8||||||Serotype G3||36.8|20.7|
92389631|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|18.3||||||95.0|12.1|26.0||||||Serotype G4||26.0|12.1|
92389632|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|27.5||||||95.0|20.0|36.0||||||Serotype P1A\[8\]||36.0|20.0|
92389633|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|18.2||||||95.0|12.0|25.8||||||Anti-rotavirus IgA||25.8|12.0|
92389634|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|2.3||||||95.0|0.5|6.5||||||Serotype G1||6.5|0.5|
92418351|NCT02129777|184724388|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3|STANDARD_ERROR_OF_MEAN|6.74||0.523|TWO_SIDED|95.0|-9.2|17.9|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||17.9|-9.2|0.523
92418352|NCT02129777|184724389|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.37||0.978|TWO_SIDED|95.0|-2.7|2.8|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an Analysis of covariance (ANCOVA) model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||2.8|-2.7|0.978
92418353|NCT02129777|184724389|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|1.36||0.389|TWO_SIDED|95.0|-3.9|1.5|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||1.5|-3.9|0.389
92389635|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|0.8||||||95.0|0.0|4.1||||||Serotype G2||4.1|0.0|
92389636|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|3.0||||||95.0|0.8|7.6||||||Serotype G3||7.6|0.8|
92389637|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|0.0||||||95.0|0.0|2.8||||||Serotype G4||2.8|0.0|
92389638|NCT00362648|184679998|SUPERIORITY_OR_OTHER||Percentage|5.3||||||95.0|2.2|10.6||||||Serotype P1A\[8\]||10.6|2.2|
92389639|NCT02204072|184680002|OTHER||Hazard Ratio (HR)|0.98||||0.9549|TWO_SIDED|95.0|0.57|1.7|||Two-sided log-rank test.||Cox proportional hazard model. Hazard ratio: Comparison vs Enzalutamide|||1.70|0.57|0.9549
92389640|NCT02204072|184680005|OTHER||Hazard Ratio (HR)|1.19||||0.5425|TWO_SIDED|95.0|0.68|2.06|||Two-sided log-rank test.||Cox proportional hazards model. Hazard ratio: Comparison vs. Enzaludamide.|||2.06|0.68|0.5425
92389641|NCT02204072|184680006|OTHER||Hazard Ratio (HR)|1.16||||0.5534|TWO_SIDED|95.0|0.71|1.9|||Two-sided log-rank test.||Cox proportional hazards model. Hazard ratio: Comparison vs. Enzalutamide.|||1.90|0.71|0.5534
92418354|NCT02129777|184724389|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|1.39||0.316|TWO_SIDED|95.0|-4.2|1.4|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||1.4|-4.2|0.316
92418355|NCT02129777|184724389|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.41||0.142|TWO_SIDED|95.0|-4.9|0.7|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.7|-4.9|0.142
92389642|NCT02204072|184680007|OTHER||Hazard Ratio (HR)|0.64||||0.1514|TWO_SIDED|95.0|0.35|1.18|||Two-sided log-rank test.||Cox proportional hazards model. Hazard ratio: Comparison vs. Enzalutamide.|||1.18|0.35|0.1514
92389643|NCT02204072|184680011|OTHER||Odds Ratio (OR)|1.579||||0.6186|TWO_SIDED|95.0|0.269|12.515|||Regression, Logistic|Odds ratio, p-value and confidence interval were obtained from logistic regression model.||||12.515|0.269|0.6186
92389644|NCT02204072|184680013|OTHER||Odds Ratio (OR)|1.891||||0.192|TWO_SIDED|95.0|0.727|5.059|||Regression, Logistic||Odds ratio, p-value and confidence interval were obtained from logistic regression model.|||5.059|0.727|0.1920
92389645|NCT03375489|184680015|EQUIVALENCE|Equivalence was established for patient-reported quality of life if the 90% confidence interval for the estimated difference in means was within the margin of ±4 points on the Functional Assessment of Cancer Therapy - Lung Questionnaire.|Mean Difference (Final Values)|2.0||||0.04|TWO_SIDED|90.0|0.1|3.9||The a priori threshold for statistical significance was p\<0.05.|Regression, Linear|||The difference in week-24 means between groups was estimated using a linear regression model with a main effect for group assignment and controlling for baseline Functional Assessment of Cancer Therapy - Lung Questionnaire scores.||3.9|0.1|0.04
92389646|NCT03375489|184680016|EQUIVALENCE|Equivalence was established for patient-reported communication with their clinicians about their end-of-life care preferences if the 90% confidence interval for the estimated difference in proportions was within the margin of ±8%.|Estimated Difference in Proportions|3.1||||0.26|TWO_SIDED|90.0|-1.8|8.1||Bonferroni-adjusted p-value|binomial generalized estimating equation|||The difference between groups in the proportions of patients reporting that they communicated with their clinicians about their end-of-life care preferences was estimated using a binomial generalized estimating equation model with robust standard errors, the identity link function, and a main effect for group assignment.||8.1|-1.8|0.26
92418356|NCT02129777|184724390|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.73||0.229|TWO_SIDED|95.0|-5.6|1.4|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Physical Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||1.4|-5.6|0.229
92418357|NCT02129777|184724390|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.65||0.863|TWO_SIDED|95.0|-3.6|3.0|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Physical Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||3.0|-3.6|0.863
92389647|NCT03375489|184680017|EQUIVALENCE|Equivalence was established for patient length of stay in hospice if the 90% confidence interval for the estimated difference in mean days was within the margin of ±6 days.|Mean Difference (Final Values)|0.2||||0.46|TWO_SIDED|90.0|-7.0|7.4||Bonferroni-adjusted p-value|Regression, Linear|||The difference in mean length of stay in hospice between groups was estimated using a linear regression model with a main effect for group assignment.||7.4|-7.0|0.46
92389648|NCT03375489|184680018|SUPERIORITY||Difference in estimated proportions|-13.0|||<|0.001|TWO_SIDED|95.0|-17.6|-8.6||Bonferroni-adjusted p-value|binomial generalized estimating equation|||The proportion of palliative care visits with caregiver participation was compared using a binomial generalized estimating equation model with robust standard errors, the identity link function, and a main effect for group assignment.||-8.6|-17.6|<0.001
92389649|NCT03375489|184680019|SUPERIORITY||Mean Difference (Final Values)|0.3|||>|0.99|TWO_SIDED|95.0|-1.0|1.7||Bonferroni-adjusted p-value|Regression, Linear|||The difference in week-24 means between groups was estimated using a linear regression model with a main effect for group assignment.||1.7|-1.0|>0.99
92389650|NCT03375489|184680020|SUPERIORITY||Mean Difference (Final Values)|0.4|||>|0.99|TWO_SIDED|95.0|-1.5|2.3||Bonferroni-adjusted p-value|Regression, Linear|||The difference in week-24 means between groups was estimated using a linear regression model with a main effect for group assignment.||2.3|-1.5|>0.99
92389651|NCT03838978|184680031|SUPERIORITY|Non-inferiority is demonstrated if the 90% LB \> -10.0%. If non-inferiority was met, superiority could be tested. Superiority is demonstrated if 97.5% LB \> 0.0%.||||||||||||||||For missing data in both Arms/Groups, multiple imputation was performed for the primary CCS analysis.|Device group differences and two-sided 90% and 97.5% confidence interval lower bounds (LB) adjusting for propensity score (PS) subclass based on PS subclass weights (ATT). Noninferiority is demonstrated if the 90% LB \> -10.0%. Superiority is demonstrated if 97.5% LB \>0.0%. Two-sided 97.5% LB is evaluated rather than two-sided 95.0% LB since the superiority type 1 error is split between testing superiority in terms of Month 24 CCS and then separately for a set of superiority secondary endpoints with type 1 error control maintained through the use of Hochberg approach (following demonstration of non-inferiority).|||
92389652|NCT02451514|184680040|OTHER||Geometric mean ratio|1.48|||||TWO_SIDED|95.0|1.03|2.12|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||2.12|1.03|
92418358|NCT02129777|184724390|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.67||0.403|TWO_SIDED|95.0|-1.9|4.7|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Physical Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||4.7|-1.9|0.403
92418359|NCT02129777|184724390|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.74||0.597|TWO_SIDED|95.0|-2.5|4.4|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Physical Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||4.4|-2.5|0.597
92389653|NCT02451514|184680040|OTHER||Geometric mean ratio|0.93|||||TWO_SIDED|95.0|0.67|1.28|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||1.28|0.67|
92389654|NCT02451514|184680040|OTHER||Geometric mean ratio|1.38|||||TWO_SIDED|95.0|0.97|1.96|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||1.96|0.97|
92389655|NCT02451514|184680040|OTHER||Geometric mean ratio|1.98|||||TWO_SIDED|95.0|1.27|3.09|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||3.09|1.27|
92389656|NCT02451514|184680040|OTHER||Geometric mean ratio|0.93|||||TWO_SIDED|95.0|0.63|1.37|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||1.37|0.63|
92389657|NCT02451514|184680040|OTHER||Geometric mean ratio|1.84|||||TWO_SIDED|95.0|1.2|2.84|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||2.84|1.20|
92389658|NCT02451514|184680040|OTHER||Geometric mean ratio|1.34|||||TWO_SIDED|95.0|0.96|1.85|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||1.85|0.96|
92389659|NCT02451514|184680040|OTHER||Geometric mean ratio|0.94|||||TWO_SIDED|95.0|0.7|1.25|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||1.25|0.70|
92389660|NCT02451514|184680040|OTHER||Geometric mean ratio|1.25|||||TWO_SIDED|95.0|0.91|1.72|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||1.72|0.91|
92389661|NCT02451514|184680040|OTHER||Geometric mean ratio|1.43|||||TWO_SIDED|95.0|0.81|2.53|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||2.53|0.81|
92389662|NCT02451514|184680040|OTHER||Geometric mean ratio|0.82|||||TWO_SIDED|95.0|0.49|1.37|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||1.37|0.49|
92389663|NCT02451514|184680040|OTHER||Geometric mean ratio|1.18|||||TWO_SIDED|95.0|0.67|2.06|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||2.06|0.67|
92389664|NCT02451514|184680040|OTHER||Geometric mean ratio|1.92|||||TWO_SIDED|95.0|1.33|2.78|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||2.78|1.33|
92389665|NCT02451514|184680040|OTHER||Geometric mean ratio|0.84|||||TWO_SIDED|95.0|0.61|1.17|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||1.17|0.61|
92389666|NCT02451514|184680040|OTHER||Geometric mean ratio|1.62|||||TWO_SIDED|95.0|1.13|2.32|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||2.32|1.13|
92389667|NCT02451514|184680040|OTHER||Geometric mean ratio|7.15|||||TWO_SIDED|95.0|4.25|12.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||12|4.25|
92418360|NCT02129777|184724390|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|2.32||0.416|TWO_SIDED|95.0|-2.7|6.5|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Mental Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||6.5|-2.7|0.416
92418361|NCT02129777|184724390|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|2.24||0.77|TWO_SIDED|95.0|-3.8|5.1|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Mental Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.1|-3.8|0.770
92418362|NCT02129777|184724390|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|2.31||0.798|TWO_SIDED|95.0|-4.0|5.2|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Mental Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.2|-4.0|0.798
92389668|NCT02451514|184680040|OTHER||Geometric mean ratio|0.94|||||TWO_SIDED|95.0|0.59|1.5|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||1.50|0.59|
92389669|NCT02451514|184680040|OTHER||Geometric mean ratio|6.73|||||TWO_SIDED|95.0|4.03|11.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||11|4.03|
92389670|NCT02451514|184680040|OTHER||Geometric mean ratio|0.61|||||TWO_SIDED|95.0|0.3|1.23|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||1.23|0.30|
92389671|NCT02451514|184680040|OTHER||Geometric mean ratio|5.53|||||TWO_SIDED|95.0|2.96|10.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||10|2.96|
92389672|NCT02451514|184680040|OTHER||Geometric mean ratio|3.38|||||TWO_SIDED|95.0|1.7|6.73|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||6.73|1.70|
92389673|NCT02451514|184680040|OTHER||Geometric mean ratio|2.58|||||TWO_SIDED|95.0|1.2|5.54|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||5.54|1.20|
92389674|NCT02451514|184680040|OTHER||Geometric mean ratio|1.3|||||TWO_SIDED|95.0|0.66|2.56|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||2.56|0.66|
92389675|NCT02451514|184680040|OTHER||Geometric mean ratio|3.34|||||TWO_SIDED|95.0|1.57|7.11|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||7.11|1.57|
92389676|NCT02451514|184680040|OTHER||Geometric mean ratio|1.14|||||TWO_SIDED|95.0|0.51|2.59|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||2.59|0.51|
92389677|NCT02451514|184680040|OTHER||Geometric mean ratio|2.93|||||TWO_SIDED|95.0|1.4|6.12|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||6.12|1.40|
92389678|NCT02451514|184680040|OTHER||Geometric mean ratio|3.35|||||TWO_SIDED|95.0|1.49|7.57|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||7.57|1.49|
92389679|NCT02451514|184680040|OTHER||Geometric mean ratio|0.52|||||TWO_SIDED|95.0|0.23|1.18|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||1.18|0.23|
92389680|NCT02451514|184680040|OTHER||Geometric mean ratio|5.94|||||TWO_SIDED|95.0|2.84|12.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||12|2.84|
92389681|NCT02451514|184680040|OTHER||Geometric mean ratio|3.09|||||TWO_SIDED|95.0|1.38|6.92|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||6.92|1.38|
92389682|NCT02451514|184680044|OTHER||Geometric mean ratio|8.5|||||TWO_SIDED|95.0|4.41|16.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||16|4.41|
92389683|NCT02451514|184680044|OTHER||Geometric mean ratio|0.7|||||TWO_SIDED|95.0|0.39|1.27|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||1.27|0.39|
92389684|NCT02451514|184680044|OTHER||Geometric mean ratio|5.97|||||TWO_SIDED|95.0|3.14|11.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||11|3.14|
92389685|NCT02451514|184680044|OTHER||Geometric mean ratio|197.0|||||TWO_SIDED|95.0|86.0|452.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||452|86|
92389686|NCT02451514|184680044|OTHER||Geometric mean ratio|0.98|||||TWO_SIDED|95.0|0.47|2.07|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||2.07|0.47|
92389687|NCT02451514|184680044|OTHER||Geometric mean ratio|193.0|||||TWO_SIDED|95.0|84.0|442.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||442|84|
92389688|NCT02451514|184680044|OTHER||Geometric mean ratio|3.51|||||TWO_SIDED|95.0|1.96|6.27|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||6.27|1.96|
92389689|NCT02451514|184680044|OTHER||Geometric mean ratio|0.62|||||TWO_SIDED|95.0|0.37|1.0|||Mixed Models Analysis|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||1.0|0.37|
92389690|NCT02451514|184680044|OTHER||Geometric mean ratio|2.17|||||TWO_SIDED|95.0|1.23|3.85|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||3.85|1.23|
92389691|NCT02451514|184680044|OTHER||Geometric mean ratio|3.57|||||TWO_SIDED|95.0|1.84|6.92|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||6.92|1.84|
92389692|NCT02451514|184680044|OTHER||Geometric mean ratio|0.72|||||TWO_SIDED|95.0|0.4|1.29|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||1.29|0.40|
92418363|NCT02129777|184724390|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|2.4||0.767|TWO_SIDED|95.0|-4.1|5.5|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Mental Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.5|-4.1|0.767
92418364|NCT02129777|184724391|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.043||0.57|TWO_SIDED|95.0|-0.11|0.06|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.06|-0.11|0.570
92389693|NCT02451514|184680044|OTHER||Geometric mean ratio|2.55|||||TWO_SIDED|95.0|1.33|4.89|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||4.89|1.33|
92389694|NCT02451514|184680044|OTHER||Geometric mean ratio|17.0|||||TWO_SIDED|95.0|8.18|35.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||35|8.18|
92389695|NCT02451514|184680044|OTHER||Geometric mean ratio|0.8|||||TWO_SIDED|95.0|0.41|1.53|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||1.53|0.41|
92389696|NCT02451514|184680044|OTHER||Geometric mean ratio|13.0|||||TWO_SIDED|95.0|6.59|28.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||28|6.59|
92389697|NCT02451514|184680044|OTHER||Geometric mean ratio|74.0|||||TWO_SIDED|95.0|34.0|160.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||160|34|
92389698|NCT02451514|184680044|OTHER||Geometric mean ratio|0.77|||||TWO_SIDED|95.0|0.38|1.53|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||1.53|0.38|
92389699|NCT02451514|184680044|OTHER||Geometric mean ratio|57.0|||||TWO_SIDED|95.0|27.0|121.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||121|27|
92389700|NCT02451514|184680044|OTHER||Geometric mean ratio|2.66|||||TWO_SIDED|95.0|1.46|4.83|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||4.83|1.46|
92389701|NCT02451514|184680044|OTHER||Geometric mean ratio|6.76|||||TWO_SIDED|95.0|3.96|12.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||12|3.96|
92389702|NCT02451514|184680044|OTHER||Geometric mean ratio|18.0|||||TWO_SIDED|95.0|10.0|32.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||32|10|
92389703|NCT02451514|184680044|OTHER||Geometric mean ratio|1.4|||||TWO_SIDED|95.0|0.72|2.71|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||2.71|0.72|
92389704|NCT02451514|184680044|OTHER||Geometric mean ratio|21.0|||||TWO_SIDED|95.0|12.0|37.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||37|12|
92389705|NCT02451514|184680044|OTHER||Geometric mean ratio|29.0|||||TWO_SIDED|95.0|15.0|55.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||55|15|
92389706|NCT02451514|184680044|OTHER||Geometric mean ratio|0.81|||||TWO_SIDED|95.0|0.47|1.38|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||1.38|0.47|
92389707|NCT02451514|184680044|OTHER||Geometric mean ratio|19.0|||||TWO_SIDED|95.0|12.0|31.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||31|12|
92389708|NCT02451514|184680044|OTHER||Geometric mean ratio|16.0|||||TWO_SIDED|95.0|9.27|26.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||26|9.27|
92389709|NCT02451514|184680044|OTHER||Geometric mean ratio|0.46|||||TWO_SIDED|95.0|0.17|1.28|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||1.28|0.17|
92389710|NCT02451514|184680044|OTHER||Geometric mean ratio|20.0|||||TWO_SIDED|95.0|8.2|48.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||48|8.20|
92389711|NCT02451514|184680044|OTHER||Geometric mean ratio|9.13|||||TWO_SIDED|95.0|3.78|22.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||22|3.78|
92389712|NCT02451514|184680057|OTHER||Geometric mean ratio|0.49|||||TWO_SIDED|95.0|0.28|0.87|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis Serogroup B, M14459||0.87|0.28|
92389713|NCT02451514|184680057|OTHER||Geometric mean ratio|0.91|||||TWO_SIDED|95.0|0.4|2.11|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis Serogroup B, M01-0240364||2.11|0.40|
92389714|NCT02451514|184680057|OTHER||Geometric mean ratio|0.83|||||TWO_SIDED|95.0|0.5|1.38|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup B, NZ98/254||1.38|0.50|
92389715|NCT02451514|184680057|OTHER||Geometric mean ratio|0.79|||||TWO_SIDED|95.0|0.44|1.44|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup B, M10713||1.44|0.44|
92389716|NCT02451514|184680057|OTHER||Geometric mean ratio|0.6|||||TWO_SIDED|95.0|0.34|1.07|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup B, H44/76||1.07|0.34|
92389717|NCT02451514|184680057|OTHER||Geometric mean ratio|0.77|||||TWO_SIDED|95.0|0.52|1.12|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup B, 5/99||1.12|0.52|
92418365|NCT02129777|184724391|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.042||0.619|TWO_SIDED|95.0|-0.1|0.06|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.06|-0.10|0.619
92418366|NCT02129777|184724391|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.043||0.597|TWO_SIDED|95.0|-0.06|0.11|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.11|-0.06|0.597
92235246|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|1.1|||||TWO_SIDED|95.0|0.68|1.76|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 7F: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.76|0.68|
92389718|NCT02451514|184680057|OTHER||Geometric mean ratio|2.99|||||TWO_SIDED|95.0|1.89|4.75|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup A||4.75|1.89|
92389719|NCT02451514|184680057|OTHER||Geometric mean ratio|4.69|||||TWO_SIDED|95.0|3.01|7.31|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup C||7.31|3.01|
92389720|NCT02451514|184680057|OTHER||Geometric mean ratio|8.6|||||TWO_SIDED|95.0|5.84|13.0|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup W||13|5.84|
92389721|NCT02451514|184680057|OTHER||Geometric mean ratio|7.03|||||TWO_SIDED|95.0|3.96|12.0|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup Y||12|3.96|
92389722|NCT01773187|184680076|SUPERIORITY|||||||0.0003|||||||Fisher Exact|||Pre-specified||||0.0003
92389723|NCT01773187|184680077|SUPERIORITY|||||||0.2368|||||||Fisher Exact|||Pre-specified||||0.2368
92389724|NCT00186901|184680084|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.02||||0.86||95.0|||||Wilcoxon Test|||Baseline where N=134||||0.86
92389725|NCT00186901|184680084|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.17||||0.99||95.0|||||Wilcoxon Test|||12 Month BMD Z-Score Calculation where N=109||||0.99
92389726|NCT00186901|184680084|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.04||||0.54||95.0|||||Wilcoxon Test|||24 Month BMD Z-Score calculation where N=91||||0.54
92389727|NCT00186901|184680084|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.04||||0.31||95.0|||||Wilcoxon Test|||36 Month (End of Study) BMD Z-Score calculation where N=84||||0.31
92389728|NCT00186901|184680085|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.32||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0004
92389729|NCT00186901|184680086|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.69||||0.0023||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0023
92389730|NCT00186901|184680087|SUPERIORITY_OR_OTHER|||||||0.0092||95.0|||||Kruskal-Wallis|||||||0.0092
92389731|NCT00186901|184680088|SUPERIORITY_OR_OTHER||Correlation coefficient|0.41|||<|0.0001|TWO_SIDED|95.0|0.25|0.55|||Z-test|||275 received a QCT and 121 received a DXA scan. 121 paired scans were evaluated.||0.55|0.25|<0.0001
92389732|NCT00186901|184680089|SUPERIORITY_OR_OTHER||Correlation coefficient|0.54|||<|0.0001|TWO_SIDED|95.0|0.38|0.67|||Z-test|||218 patients were assessed at 12 months and received a QCT Scan. 94 patients were also assessed using the DEXA Scan. Comparison of the two methods used 94 paired studies to arrive at a correlation coefficient.||0.67|0.38|<0.0001
92389733|NCT00186901|184680090|SUPERIORITY_OR_OTHER||Correlation coefficient|0.53|||<|0.0001|TWO_SIDED|95.0|0.36|0.66|||Z-test|||188 patients were assessed at baseline and received a QCT Scan. 90 patients were also assessed using the DEXA Scan. Comparison of the two methods used 90 paired studies to arrive at a correlation coefficient.||0.66|0.36|<0.0001
92389734|NCT00186901|184680091|SUPERIORITY_OR_OTHER||Correlation coefficient|0.48|||<|0.0001|TWO_SIDED|95.0|0.3|0.63|||Z-test|||180 patients were assessed at 36 months and received a QCT Scan. 89 patients were also assessed using the DXA Scan. Comparison of the two methods used 89 paired studies to arrive at a correlation coefficient.||0.63|0.30|<0.0001
92389735|NCT00186901|184680092|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Kruskal Wallis|||||||0.40
92389736|NCT00186901|184680093|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Kruskal Wallis|||||||0.21
92389737|NCT00870545|184680108|SUPERIORITY_OR_OTHER|||||||0.003||||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Change in scores measured across three time points (baseline, 6 and 12 months)||||.003
92389738|NCT00870545|184680109|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Analysis was change in score over time (baseline, 6 and 12 months)||||.20
92389739|NCT00870545|184680110|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Change in scores measured across three time points (baseline, 6 and 12 months)||||<.001
92389740|NCT00870545|184680111|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Analysis was change in score over time (baseline, 6 months, 12 months)||||.26
92389741|NCT00870545|184680112|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Analysis was change in scores over time (baseline, 6 months, and 12 months)||||.04
92418367|NCT02129777|184724391|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.044||0.509|TWO_SIDED|95.0|-0.06|0.12|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.12|-0.06|0.509
92418368|NCT02129777|184724392|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|5.32||0.845|TWO_SIDED|95.0|-11.7|9.6|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||9.6|-11.7|0.845
92418369|NCT02129777|184724392|SUPERIORITY_OR_OTHER||LS Mean Difference|4.8|STANDARD_ERROR_OF_MEAN|4.8||0.323|TWO_SIDED|95.0|-4.8|14.4|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||14.4|-4.8|0.323
92418370|NCT02129777|184724392|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|4.89||0.697|TWO_SIDED|95.0|-11.7|7.8|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||7.8|-11.7|0.697
92235247|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|0.9|2.55|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 9V: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.55|0.90|
92418371|NCT02129777|184724392|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|5.1||0.633|TWO_SIDED|95.0|-12.6|7.7|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||7.7|-12.6|0.633
92389742|NCT00870545|184680113|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Analysis was change in score over time (baseline, 6 months, and 12 months)||||.10
92389743|NCT02178696|184680114|OTHER||Mean Difference (Net)|0.12|STANDARD_DEVIATION|0.31|<|0.001|TWO_SIDED|95.0|0.016|0.23||A p\<0.001 was established for regions a priori hypothesized (e.g. nucleus accumbens).|t-test, 2 sided|||||0.23|0.016|<0.001
92389744|NCT03857542|184680172|SUPERIORITY||Percentage Difference|15.2|||<|0.0001|TWO_SIDED|95.0|7.7|22.7||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. The 95% confidence intervals for the proportion differences were calculated based on the normal approximation based on pooled variance without continuity correction.|||22.7|7.7|<.0001
92389745|NCT03857542|184680173|SUPERIORITY||Percentage Difference|6.5||||0.0548|TWO_SIDED|95.0|-0.1|13.1||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. The 95% confidence intervals for the proportion difference was calculated based on the normal approximation based on pooled variance without continuity correction.|||13.1|-0.1|0.0548
92389746|NCT03857542|184680174|SUPERIORITY||Percentage Difference|5.9||||0.0693|TWO_SIDED|95.0|-0.5|12.2||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. The 95% confidence intervals for the proportion difference was calculated based on the normal approximation based on pooled variance without continuity correction.|||12.2|-0.5|0.0693
92389747|NCT03857542|184680175|SUPERIORITY||Least Squares (LS) Mean Difference|4.1|STANDARD_ERROR_OF_MEAN|0.59|<|0.0001|TWO_SIDED|95.0|2.9|5.2||MMRM with study intervention group, visit, visit by study intervention group interaction, age group, Baseline binocular DCNVA severity, iris color, emmetrope/non-emmetrope, Baseline value; Baseline value by visit interaction as fixed effects.|MMRM|P-value was adjusted for multiplicity control.||||5.2|2.9|<.0001
92389748|NCT03857542|184680176|SUPERIORITY||Percentage Difference|9.9||||0.0141|TWO_SIDED|95.0|3.5|16.3||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using chi-square test. The 95% confidence intervals was calculated based on normal approximation based on pooled variance without continuity correction.|||16.3|3.5|0.0141
92389749|NCT03857542|184680177|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|0.5|1.0||Analysis of covariance (ANCOVA) with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control||||1.0|0.5|<.0001
92389750|NCT03857542|184680178|SUPERIORITY||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|0.52|<|0.0001|TWO_SIDED|95.0|2.4|4.4||MMRM with study intervention group, visit, visit by study intervention group interaction, age group, Baseline binocular DCNVA severity, iris color, emmetrope/non-emmetrope, Baseline value, and Baseline value by visit interaction as fixed effects.|MMRM|P-value was adjusted for multiplicity control.||||4.4|2.4|<.0001
92389751|NCT03857542|184680179|SUPERIORITY||Percentage Difference|3.8||||0.22|TWO_SIDED|95.0|-2.3|10.0||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using chi-square test. The 95% confidence intervals for the proportion differences were calculated based on the normal approximation based on pooled variance without continuity correction.|||10.0|-2.3|0.2200
92389752|NCT03857542|184680180|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|1.5|3.7||MMRM with study intervention group, visit, visit by study intervention group interaction, age group, Baseline binocular DCNVA severity, iris color, emmetrope/non-emmetrope, Baseline value, and Baseline value by visit interaction as fixed effects.|MMRM|P-value was adjusted for multiplicity control.||||3.7|1.5|<.0001
92389753|NCT03857542|184680181|SUPERIORITY||Percentage Difference|12.4||||0.0141|TWO_SIDED|95.0|5.2|19.5||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using chi-square test. The 95% confidence intervals was calculated based on normal approximation based on pooled variance without continuity correction.|||19.5|5.2|0.0141
92389754|NCT03857542|184680182|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|0.5|1.0||ANCOVA with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||1.0|0.5|<.0001
92389755|NCT03857542|184680183|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08||0.0002|TWO_SIDED|95.0|-0.5|-0.2||ANCOVA with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||-0.2|-0.5|0.0002
92389756|NCT03857542|184680184|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.07||0.0002|TWO_SIDED|95.0|-0.4|-0.2||ANCOVA with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||-0.2|-0.4|0.0002
92389757|NCT02709330|184680195|OTHER|||||||0.99|||||||Kolmogorov-Smirnov Test|||Matched historical controls will be identified from the PatientsLikeMe database.||||0.99
92389758|NCT02709330|184680196|OTHER|||||||0.0748|||||||ANOVA|||||||0.0748
92418372|NCT02129777|184724393|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.64||0.537|TWO_SIDED|95.0|-2.2|4.3|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site,treatment,visit and interaction between visit and treatment as fixed effects,baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||4.3|-2.2|0.537
92418373|NCT02129777|184724393|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|1.62||0.142|TWO_SIDED|95.0|-0.8|5.6|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site,treatment,visit and interaction between visit and treatment as fixed effects,baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.6|-0.8|0.142
92446325|NCT02942017|184779616|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|1.149||0.7852|TWO_SIDED|95.0|-2.6|1.97|||MMRM|||Change at Day 30: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.97|-2.60|0.7852
92389759|NCT02709330|184680197|OTHER||||||<|1e-05|||||||Lin's Concordance|||||||<0.00001
92389760|NCT02709330|184680201|OTHER||||||<|1e-05|||||||Lin's Concordance|||||||<0.00001
92389761|NCT03152591|184680209|OTHER||Ratio LIK066/Placebo|0.88||||0.353|TWO_SIDED|90.0|0.7|1.11|||t-test, 2 sided|Two-sided test at the 0.1 significance level|||Log transformed ratio of Day 15 to baseline in average fasting free testosterone was analyzed using an analysis of covariance model which included treatment as a categorical factor, baseline body weight and log transformed baseline average fasting free testosterone as a covariate.|1.11|0.70|0.353
92389762|NCT03152591|184680210|OTHER||Ratio LIK066/Placebo|1.25||||0.218|TWO_SIDED|90.0|0.92|1.68|||t-test, 2 sided|Two-sided test at the 0.1 significance level|||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.68|0.92|0.218
92389763|NCT03152591|184680211|OTHER||Ratio LIK066/Placebo|1.27||||0.249|TWO_SIDED|90.0|0.9|1.78|||t-test, 2 sided|Two-sided test at the 0.1 significance level|||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.78|0.90|0.249
92389764|NCT03152591|184680212|OTHER||Ratio LIK066/Placebo|1.15||||0.173|TWO_SIDED|90.0|0.97|1.36|||t-test, 2 sided|Two-sided test at the 0.1 significance level|Values \< LLOQ and values \> ULOQ are imputed as LLOQ/2 and ULOQ respectively.||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.36|0.97|0.173
92389765|NCT03152591|184680213|OTHER||Ratio LIK066/Placebo|0.82||||0.089|TWO_SIDED|90.0|0.68|0.99|||t-test, 2 sided|Two-sided test at the 0.1 significance level|Values \< LLOQ and values \> ULOQ are imputed as LLOQ/2 and ULOQ respectively||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|0.99|0.68|0.089
92389766|NCT03152591|184680214|OTHER||Ration LIK066/Placebo|0.69||||0.109|TWO_SIDED|90.0|0.48|1.01|||t-test, 2 sided|Two-sided test at the 0.1 significance level|Values \< LLOQ and values \> ULOQ are imputed as LLOQ/2 and ULOQ respectively.||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.01|0.48|0.109
92389767|NCT03152591|184680215|OTHER||Ration LIK066/Placebo|0.76||||0.008|TWO_SIDED|90.0|0.65|0.89|||t-test, 2 sided|Two-sided test at the 0.1 significance level|Values \< LLOQ and values \> ULOQ are imputed as LLOQ/2 and ULOQ respectively.||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|0.89|0.65|0.008
92389768|NCT03152591|184680216|OTHER||Ratio LIK066/Placebo|0.91||||0.34|TWO_SIDED|90.0|0.77|1.07|||t-test, 2 sided|Two-sided test at the 0.1 significance level|||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.07|0.77|0.340
92389769|NCT03152591|184680217|OTHER||Ratio LIK066/Placebo|0.79||||0.204|TWO_SIDED|90.0|0.58|1.08|||t-test, 2 sided|Two-sided test at the 0.1 significance level|Values \< LLOQ and values \> ULOQ are imputed as LLOQ/2 and ULOQ respectively.||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.08|0.58|0.204
92389770|NCT02968368|184680222|SUPERIORITY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.21||0.0149|TWO_SIDED|95.0|0.102|0.93|||ANCOVA|||||0.930|0.102|0.0149
92389771|NCT02968368|184680227|SUPERIORITY||Mean Difference (Final Values)|39.03|STANDARD_ERROR_OF_MEAN|11.097||0.0006|TWO_SIDED|95.0|17.07|60.992|||ANCOVA|||||60.992|17.070|0.0006
92389772|NCT02968368|184680230|SUPERIORITY||Mean Difference (Final Values)|4.46|STANDARD_ERROR_OF_MEAN|1.282||0.0007|TWO_SIDED|95.0|1.928|7.001|||ANCOVA|||||7.001|1.928|0.0007
92389773|NCT02968368|184680231|SUPERIORITY||Mean Difference (Final Values)|1.86|STANDARD_ERROR_OF_MEAN|0.708||0.0098|TWO_SIDED|95.0|0.457|3.261|||ANCOVA|||||3.261|0.457|0.0098
92389774|NCT05280717|184680234|OTHER||Ratio of geometric least square mean|0.9821|||||TWO_SIDED|90.0|0.8825|1.093|||||The ratio estimate and 90% confidence interval were obtained from an Analysis of covariance (ANCOVA) model, with AUC(D1- 29) as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.0930|0.8825|
92389775|NCT05280717|184680235|OTHER||Ratio of geometric least square mean|1.1258|||||TWO_SIDED|90.0|1.0108|1.2539|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with Cmax as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.2539|1.0108|
92446326|NCT03925727|184779705|SUPERIORITY||Mean Difference (Net)|1.4||||0.5533|TWO_SIDED|95.0|-3.2|6.0|||ANCOVA|||||6|-3.2|0.5533
92235248|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.02|2.3|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 14: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.30|1.02|
92235249|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.52|1.14|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 18C: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.14|0.52|
92389776|NCT05280717|184680238|OTHER||Ratio of geometric least square mean|1.876|||||TWO_SIDED|90.0|1.6391|2.1472|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with AUC(D1-29) as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||2.1472|1.6391|
92389777|NCT05280717|184680238|OTHER||Ratio of geometric least square mean|1.5991|||||TWO_SIDED|90.0|1.4086|1.8153|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with AUC(D1-29) as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.8153|1.4086|
92389778|NCT05280717|184680239|OTHER||Ratio of geometric least square mean|2.0798|||||TWO_SIDED|90.0|1.8223|2.3737|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with Cmax as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||2.3737|1.8223|
92389779|NCT05280717|184680239|OTHER||Ratio of geometric least square mean|1.6955|||||TWO_SIDED|90.0|1.4913|1.9276|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with Cmax as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.9276|1.4913|
92389780|NCT05280717|184680244|OTHER||Ratio of geometric least square mean|0.9476|||||TWO_SIDED|90.0|0.8578|1.0469|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with AUCinf as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.0469|0.8578|
92389781|NCT05280717|184680244|OTHER||Ratio of geometric least square mean|1.5482|||||TWO_SIDED|90.0|1.377|1.7407|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with AUCinf as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.7407|1.3770|
92389782|NCT05280717|184680244|OTHER||Ratio of geometric least square mean|1.4167|||||TWO_SIDED|90.0|1.2627|1.5894|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with AUCinf as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.5894|1.2627|
92389783|NCT02562716|184680266|SUPERIORITY|||||||0.15|||||||Log Rank|||For each arm, the observed 2-year overall survival (OS) was compared to the null hypothesis of 40%, assuming a 58% alternative hypothesis, 88% power, and a 1-sided significance of 0.05.||||.15
92446327|NCT03925727|184779706|SUPERIORITY||Mean Difference (Net)|-0.6||||0.0192|TWO_SIDED|95.0|-1.1|-0.1|||ANCOVA|||||-0.1|-1.1|0.0192
92389784|NCT02562716|184680266|SUPERIORITY|||||||0.14|||||||Log Rank|||For each arm, the observed 2-year overall survival (OS) was compared to the null hypothesis of 40%, assuming a 58% alternative hypothesis, 88% power, and a 1-sided significance of 0.05.||||.14
92389785|NCT01775371|184680287|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|95.0|0.6|1.5||The a priori threshold for statistical significance was 0.05.|Z-test 2-sided||The direction of the comparison is the Patient Controlled Analgesia minus the standard care group|The rate of change of NRS pain scores per hour was calculated using a mixed effects linear model. Time is represented as a linear spline with knot at 30 minutes to support the separate estimation of early and late phase rates of change. Fixed effects in the analysis includes study-group indicator, early and late phase time, and interactions between study-group and time. The principal hypothesis test was a z-test of the coefficient of the study group late phase interaction term.||1.5|0.6|<0.001
92389786|NCT01775371|184680288|SUPERIORITY|||||||0.025|||||||Chi-squared|||||||0.025
92389787|NCT01775371|184680289|SUPERIORITY|||||||0.003|||||||Chi-squared|||||||0.003
92389788|NCT01775371|184680290|OTHER|Responses occur with equal probability|||||<|0.001|||||||Chi-squared|One-sample chi-squared test of hypothesis that the responses occur with equal probability||These outcomes are based on the nurses who took care of patients in the study||||<0.001
92389789|NCT01775371|184680291|OTHER|All responses occur with equal probability|||||<|0.001|||||||Chi-squared|One-sample chi-squared test of hypothesis that the responses occur with equal probability||This outcome is based on the physicians who took care of the patients in the study||||<0.001
92389790|NCT04915729|184680314|NON_INFERIORITY|pre-specified non-inferiority margin for risk ratio = 0.937|Risk Ratio (RR)|1.0278|||||TWO_SIDED|95.0|0.9678|1.0915|||Modified Possion Regression Model|treatment = main effect; baseline NHISS, age + time to drug administration since stroke symptoms onset = continuous covariates|tenecteplase versus alteplase|||1.0915|0.9678|
92389791|NCT04915729|184680315|OTHER|log-binomial regression model|Risk Ratio (RR)|1.0671||||0.2412|TWO_SIDED|95.0|0.9573|1.1895||p-value was for superiority testing|Regression, Linear|treatment = main effect; baseline NHISS, age + time to drug administration since stroke symptoms onset = covariates|tenecteplase versus alteplase|||1.1895|0.9573|0.2412
92389792|NCT04915729|184680316|OTHER|Modified Poisson regression model|Risk Ratio (RR)|1.0078||||0.748|TWO_SIDED|95.0|0.9614|1.0564||p-value was for superiority testing|Regression, Linear|treatment = main effect; baseline NHISS, age + time to drug administration since stroke symptoms onset = continuous covariates|tenecteplase versus alteplase|||1.0564|0.9614|0.7480
92389793|NCT04915729|184680317|OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.48||0.3511|TWO_SIDED|95.0|-1.4|0.5|||Mixed Models Analysis|baseline NIHSS, age, time to administration since stroke symptoms onset = linear covariates; treatment = fixed effects|Difference in LSmean tenecteplase vs alteplase|||0.50|-1.40|0.3511
92389794|NCT04915729|184680318|OTHER||Odds Ratio (OR)|1.0418||||0.4806|||||||Regression, Logistic|Assumption-free ordinal analysis|tenecteplase versus alteplase|||||0.4806
92418374|NCT02129777|184724393|SUPERIORITY_OR_OTHER||LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|1.63||0.015|TWO_SIDED|95.0|0.8|7.3|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site,treatment,visit and interaction between visit and treatment as fixed effects,baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||7.3|0.8|0.015
92418375|NCT02129777|184724393|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.64||0.121|TWO_SIDED|95.0|-0.7|5.8|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site,treatment,visit and interaction between visit and treatment as fixed effects,baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.8|-0.7|0.121
92418376|NCT02915874|184724396|SUPERIORITY||Slope|-1.13|STANDARD_ERROR_OF_MEAN|0.47||0.02|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis|||||||0.02
92389795|NCT04915729|184680319|OTHER|Poisson regression model|Risk Ratio (RR)|1.0189||||0.5116|TWO_SIDED|95.0|0.9635|1.0774|||Regression, Linear|treatment = main effect; baseline NHISS, age + time to drug administration since stroke symptoms onset = covariates|tenecteplase versus alteplase|||1.0774|0.9635|0.5116
92389796|NCT04915729|184680320|OTHER||Risk Ratio (RR)|1.005||||1|TWO_SIDED|95.0|0.37|2.701|||Suissa-Shuster test||tenecteplase versus alteplase|||2.701|0.370|1.000
92389797|NCT04915729|184680321|OTHER||Risk Ratio (RR)|0.795||||0.303|TWO_SIDED|95.0|0.513|1.232|||Chi-squared||tenecteplase versus alteplase|||1.232|0.513|0.303
92389798|NCT04915729|184680322|OTHER|Modified Poisson regression model|Risk Ratio (RR)|0.9215||||0.6345|TWO_SIDED|95.0|0.6578|1.2908||p-value was for superiority testing|Regression, Linear|treatment = main effect; baseline NHISS, age + time to drug administration since stroke symptoms onset = continuous covariates|tenecteplase versus alteplase|||1.2908|0.6578|0.6345
92389799|NCT00587678|184680446|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Linear repeated measures model|||||||0.32
92389800|NCT00587678|184680446|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||vs. baseline|Linear repeated measures model|||||||<0.01
92389801|NCT00587678|184680447|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Linear repeated measures model|||||||0.31
92389802|NCT00587678|184680447|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||vs. baseline|Linear repeated measures model|||||||<0.05
92389803|NCT00587678|184680448|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Linear repeated measures model|||||||0.71
92389804|NCT00587678|184680449|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Linear repeated measures model|||||||0.67
92389805|NCT00587678|184680450|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Linear repeated measures model|||||||0.37
92389806|NCT00587678|184680450|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||vs. baseline|Linear repeated measures model|||||||<0.05
92389807|NCT00587678|184680451|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||Linear repeated measures model|||||||0.78
92389808|NCT00587678|184680452|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||Linear repeated measures model|||||||0.68
92389809|NCT00587678|184680453|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Linear repeated measures model|||||||<0.05
92389810|NCT00587678|184680454|SUPERIORITY_OR_OTHER||||||=|0.67||95.0|||||linear repeated measures model|||||||=0.67
92418377|NCT02915874|184724397|SUPERIORITY||Slope|-1.02|STANDARD_ERROR_OF_MEAN|0.78||0.19|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis|||||||0.19
92418378|NCT02915874|184724398|SUPERIORITY||Slope|2.07|STANDARD_ERROR_OF_MEAN|1.86||0.27|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis|||||||0.27
92418379|NCT02915874|184724399|SUPERIORITY||Slope|-0.49|STANDARD_ERROR_OF_MEAN|21.3||0.98|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis|||||||0.98
92418380|NCT02915874|184724400|SUPERIORITY||Slope|1.03|STANDARD_ERROR_OF_MEAN|2.58||0.69|TWO_SIDED|||||a priori: 0.05|Mixed Models Analysis|||||||0.69
92418381|NCT02915874|184724401|SUPERIORITY||Slope|-2.77|STANDARD_ERROR_OF_MEAN|4.93||0.58|TWO_SIDED||||||Mixed Models Analysis|||||||0.58
92418382|NCT02915874|184724402|SUPERIORITY||Slope|-1.02|STANDARD_ERROR_OF_MEAN|0.58||0.08|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis|||||||0.08
92418383|NCT04973137|184724426|SUPERIORITY||Hazard Ratio (HR)|0.915||||0.768|TWO_SIDED|95.0|0.508|1.649|||Log Rank|||||1.649|.508|0.7680
92418384|NCT04973137|184724427|SUPERIORITY||Hodge-Lehmann Median Difference (Net)|-8.5||||0.5288|TWO_SIDED|95.0|-35.47|18.46|||Rank ANCOVA|||||18.46|-35.47|0.5288
92418385|NCT04973137|184724428|SUPERIORITY||Hodge-Lehmann Median Difference (Net)|0.34||||0.9597|TWO_SIDED|95.0|-2.68|3.37|||Rank ANCOVA|||||3.37|-2.68|0.9597
92418386|NCT04391569|184724462|OTHER|||||||0||||||P-value from logistic regression is used for interim data, and Boschloo's test p-value is used for post interim data.|fixed weight combination test|P-value is derived by fixed weight (2/3 for interim and 1/3 for post interim) combination test.||||||0.0000
92418387|NCT04391569|184724463|OTHER|||||||0.1619||||||P-value from logistics regression is used for interim data, and Boschloo's test p-value is used for post interim data.|fixed weight combination test|P-value is derive by fixed weight (2/3 for interim and 1/3 for post interim) combination test.||||||0.1619
92418388|NCT04391569|184724465|OTHER|||||||0.2097|||||||fixed weight combination test|||||||0.2097
92418389|NCT04391569|184724466|OTHER|||||||0|||||||Log Rank|||||||0.0000
92418390|NCT04391569|184724467|OTHER|||||||0.0075||||||P-value is derived by fixed weight (2/3 for interim and 1/3 for post interim) combination test. P-value from logistics regression is used for interim data, and Boschloo's test p-value is used for post interim data.|fixed weight combination test|||||||0.0075
92418391|NCT04641221|184724472|SUPERIORITY||incidence rate ratio|1.1||||0.028|TWO_SIDED|90.0|1.02|1.18||main effect for one-on-one sessions.|zero-inflated negative-binomial (ZINB)|We specified a multilevel (week nested within participant) model which included terms for each main effect and each interaction effect and covariates.|Main effect for One-one sessions.|There were four potential intervention components. This study used a 2x2x2x2 factorial design. Thus, we analyzed main and interaction effects for the four potential intervention components.||1.18|1.02|0.028
92418392|NCT04641221|184724472|SUPERIORITY|Interaction effect for one-on-one sessions and incentives for participation|incidence rate ratio|1.09||||0.039|TWO_SIDED|90.0|1.02|1.17|||zero-inflated negative binomial||Interaction effect for one-on-one sessions and incentives for participation|There were four potential intervention components. This study used a 2x2x2x2 factorial design. Thus, we analyzed main and interaction effects for the four potential intervention components.||1.17|1.02|0.039
92418393|NCT04641221|184724472|SUPERIORITY||incident rate ratio|0.86||||0.001|TWO_SIDED|90.0|0.8|0.93||3-way interaction: study videos X one-on-one X incentives for class attendance|Zero-inflated negative binomial||3-way interaction: study videos X one-on-one X incentives for class attendance|There were four potential intervention components. This study used a 2x2x2x2 factorial design. Thus, we analyzed main and interaction effects for the four potential intervention components.||0.93|0.80|0.001
92418394|NCT01903252|184724473|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority, pre-defined non-inferiority margin 10% A two-sided 95% confidence interval about the difference in proportions was constructed. If the lower limit of the confidence interval was no less than -10% it would be concluded that the test product is non-inferior to the comparator.|Risk Difference (RD)|-2.2||||0.005|TWO_SIDED|95.0|-8.1|3.8|||Non-inferiority|||If the lower limit of the confidence interval was no less than -10% it would be concluded that the test product is non-inferior to the comparator.||3.8|-8.1|0.005
92418395|NCT01903252|184724474|SUPERIORITY_OR_OTHER||Percentag|75.3|||||TWO_SIDED|95.0|69.4|80.6||||||||80.6|69.4|
92418396|NCT01903252|184724476|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority|Risk Difference (RD)|-2.1|||<|0.001|TWO_SIDED|95.0|-6.5|2.2|||Non-inferiority|||||2.2|-6.5|<0.001
92418397|NCT01903252|184724477|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-3.1||||0.026|TWO_SIDED|95.0|-10.1|3.9|||Non-inferiority|||||3.9|-10.1|0.026
92418398|NCT01903252|184724478|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-4.8||||0.048|TWO_SIDED|95.0|-10.9|1.4|||Non-inferiority|||||1.4|-10.9|0.048
92418399|NCT01903252|184724479|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority|Risk Difference (RD)|-3.9||||0.042|TWO_SIDED|95.0|-10.8|3.1|||Non-inferiortiy|||||3.1|-10.8|0.042
92418400|NCT01903252|184724480|NON_INFERIORITY|Non-Inferiority|Risk Difference (RD)|-4.2||||0.048|TWO_SIDED|95.0|-11.0|2.7|||Non-inferiority|||||2.7|-11.0|0.048
92418401|NCT01903252|184724481|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-5.3||||0.068|TWO_SIDED|95.0|-11.5|0.9|||Non-inferiority|||||0.9|-11.5|0.068
92418402|NCT01903252|184724482|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-2.9||||0.021|TWO_SIDED|95.0|-9.8|4.0|||Non-inferiortiy|||||4.0|-9.8|0.021
92418403|NCT01903252|184724483|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-3.4||||0.031|TWO_SIDED|95.0|-10.3|3.7|||Non-inferiortiy|||||3.7|-10.3|0.031
92418404|NCT01903252|184724484|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-3.7||||0.013|TWO_SIDED|95.0|-9.2|1.8|||Non-inferiority|||||1.8|-9.2|0.013
92418405|NCT01903252|184724485|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-3.9||||0.042|TWO_SIDED|95.0|-10.8|3.0|||Non-inferiority|||||3.0|-10.8|0.042
92418406|NCT01903252|184724486|OTHER||Mean Difference (Net)|-0.1||||0.557|TWO_SIDED|95.0|-0.5|0.3|||t-test, 2 sided|||||0.3|-0.5|0.557
92418407|NCT01903252|184724487|OTHER||Mean Difference (Net)|0.0||||0.987|TWO_SIDED|95.0|-0.3|0.3|||t-test, 2 sided|||||0.3|-0.3|0.987
92418408|NCT01903252|184724488|OTHER||Mean Difference (Net)|0.1||||0.455|TWO_SIDED|95.0|-0.1|0.2|||t-test, 2 sided||The result of the mean difference is not corresponding to the values in the table due to rounding as specified in the Statistical Analysis Plan (SAP).|||0.2|-0.1|0.455
92169898|NCT00520546|184228467|SUPERIORITY_OR_OTHER||accuracy|60.0||||0.53||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.53
92389811|NCT00587678|184680455|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||Linear repeated measures model|||||||0.77
92389812|NCT00587678|184680456|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Linear repeated measures model|||||||0.85
92389813|NCT03710642|184680457|SUPERIORITY||Mean Difference (Net)|-0.008096||||0.9904|TWO_SIDED||||||Regression, Linear|||||||0.9904
92418409|NCT01903252|184724489|OTHER||Mean Difference (Net)|0.0||||0.937|TWO_SIDED|95.0|-0.1|0.1|||t-test, 2 sided||The apparent difference between the values in the table and the mean difference is due to rounding as defined in the SAP.|||0.1|-0.1|0.937
92418410|NCT01903252|184724490|OTHER||Mean Difference (Net)|-0.1||||0.357|TWO_SIDED|95.0|-0.2|0.1|||t-test, 2 sided|||||0.1|-0.2|0.357
92418411|NCT01903252|184724491|OTHER||Mean Difference (Net)|-0.1||||0.099|TWO_SIDED|95.0|-0.2|0.0|||t-test, 2 sided|||||0.0|-0.2|0.099
92418412|NCT01903252|184724492|OTHER||Percentage|21.8|||||TWO_SIDED|95.0|16.8|27.5||||||||27.5|16.8|
92418413|NCT01903252|184724493|OTHER||Percentage|60.1|||||TWO_SIDED|95.0|53.6|66.3||||||||66.3|53.6|
92418414|NCT01903252|184724494|OTHER||Percentage|26.3|||||TWO_SIDED|95.0|20.9|32.3||||||||32.3|20.9|
92418415|NCT01903252|184724495|OTHER||Percentage|44.9|||||TWO_SIDED|95.0|38.5|51.3||||||||51.3|38.5|
92418416|NCT01903252|184724496|OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|1.5||||||||1.5|0.0|
92418417|NCT00645788|184724522|SUPERIORITY_OR_OTHER|||||||0.076|||||||ANCOVA|||"Ho: \|Cipro 32.5 mg - matching placebo\|=0 and \|Cipro 48.75 mg - matching placebo\|=0"||||0.076
92418418|NCT00645788|184724524|SUPERIORITY_OR_OTHER|||||||0.068|||||||ANCOVA|||"At visit 7 (End of treatment) Ho: \|Cipro 32.5 - matching placebo\| =0 and~\|Cipro 48.75 - matching placebo\| =0"||||0.068
92418419|NCT00829985|184724555|SUPERIORITY_OR_OTHER||Risk Ratio, log|1.92|||<|0.0001|TWO_SIDED|95.0|1.51|2.45|||Mixed Models Analysis||The estimated value and associated confidence interval represent the ratio of baseline-to-post-baseline change in the placebo group (denominator = 1.12) vs. the extract group (numerator = 2.16).|||2.45|1.51|<0.0001
92418420|NCT00829985|184724556|SUPERIORITY_OR_OTHER||Risk Ratio, log|1.13||||0.088|TWO_SIDED|95.0|0.98|1.32|||Mixed Models Analysis||The estimated value and associated confidence interval represent the ratio of baseline-to-post-baseline change in the placebo group (denominator = 0.93) vs. the extract group (numerator = 1.06).|||1.32|0.98|0.088
92389814|NCT03710642|184680458|SUPERIORITY||Mean Difference (Net)|-11.54||||0.30328|TWO_SIDED||||||Regression, Linear|||||||0.30328
92389815|NCT03710642|184680459|SUPERIORITY||Mean Difference (Net)|0.31122||||0.21981|TWO_SIDED||||||Regression, Linear|||||||0.21981
92389816|NCT03710642|184680460|SUPERIORITY||Cox Proportional Hazard|-0.36277||||0.6366|TWO_SIDED||||||Regression, Cox|||||||0.6366
92389817|NCT03710642|184680461|SUPERIORITY||Slope|-0.12842|STANDARD_ERROR_OF_MEAN|1.39602||0.9267|TWO_SIDED||||||Regression, Logistic|||||||0.9267
92389818|NCT03710642|184680462|SUPERIORITY||Mean Difference (Net)|3.0694||||0.2038|TWO_SIDED||||||Regression, Linear|||||||0.2038
92389819|NCT03710642|184680463|SUPERIORITY||Mean Difference (Net)|-3.388||||0.54133|TWO_SIDED||||||Regression, Linear|||||||0.54133
92389820|NCT00226811|184680471|SUPERIORITY_OR_OTHER||CBR rate (percentage)|7.7||||||95.0|2.9|16.0|||||Clinical benefit response rate: percent of patients with confirmed complete response, confirmed partial response or stable disease for at least 24 wks according to Response Evaluation Criteria in Solid Tumors, relative to total treated patients|||16.0|2.9|
92389821|NCT00226811|184680476|SUPERIORITY_OR_OTHER||OR rate (percentage)|2.6||||||95.0|0.3|9.0|||||Percentage of patients with confirmed complete response or confirmed partial response according to the Response Evaluation Criteria in Solid Tumors (RECIST), relative to the total number of treated patients.|||9.0|0.3|
92389822|NCT01010971|184680519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|||<|0.0001|TWO_SIDED|95.0|0.59|1.45||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in rTNSS with a two-sided alpha level of 0.025.||1.45|0.59|<0.0001
92389823|NCT01010971|184680519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04|||<|0.0001|TWO_SIDED|95.0|0.61|1.46||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in rTNSS with a two-sided alpha level of 0.025.||1.46|0.61|<0.0001
92389824|NCT01010971|184680520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|||<|0.0001|TWO_SIDED|95.0|0.07|0.29|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.29|0.07|<0.0001
92418421|NCT00829985|184724557|SUPERIORITY_OR_OTHER||Treatment Effect|0.37||||0.37|TWO_SIDED|95.0|-4.89|12.99|||Mixed Models Analysis||Estimated value and associated confidence interval represent the treatment effect: change in the extract group (4.7) minus change in the placebo group (0.7).|||12.99|-4.89|0.37
92418422|NCT00829985|184724558|SUPERIORITY_OR_OTHER||Treatment Effect|5.4||||0.09|TWO_SIDED|95.0|-0.77|11.51|||Mixed Models Analysis||Estimated value and associated confidence interval represent the treatment effect: change in the extract group (4.0) minus change in the placebo group (-1.3).|||11.51|-0.77|0.09
92418423|NCT03764033|184724608|SUPERIORITY||Mean Difference (Net)|0.78|STANDARD_ERROR_OF_MEAN|2.27||0.729|TWO_SIDED|95.0|-3.66|5.24||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||5.24|-3.66|0.729
92418424|NCT03764033|184724609|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|2.31||0.975|TWO_SIDED|95.0|-4.46|4.61||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||4.61|-4.46|0.975
92418425|NCT03764033|184724610|SUPERIORITY||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|2.43||0.831|TWO_SIDED|95.0|-5.27|4.24||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||4.24|-5.27|0.831
92389825|NCT01010971|184680520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|||<|0.0001|TWO_SIDED|95.0|0.08|0.29|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.29|0.08|<0.0001
92389826|NCT01010971|184680521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.1444|TWO_SIDED|95.0|-0.03|0.71||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons|ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.71|-0.03|0.1444
92389827|NCT01010971|184680521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.0124|TWO_SIDED|95.0|0.15|0.89||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons|ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.89|0.15|0.0124
92389828|NCT01010971|184680522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62||||0.0124|TWO_SIDED|95.0|0.3|0.94||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons|ANCOVA|||||0.94|0.30|0.0124
92389829|NCT01010971|184680522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64|||||TWO_SIDED|95.0|0.33|0.95||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons|ANCOVA|||||0.95|0.33|
92418426|NCT03764033|184724611|SUPERIORITY||Mean Difference (Net)|-6.59|STANDARD_ERROR_OF_MEAN|2.42||0.006|TWO_SIDED|95.0|-11.31|-1.87||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||-1.87|-11.31|0.006
92418427|NCT03764033|184724612|SUPERIORITY||Mean Difference (Net)|-6.54|STANDARD_ERROR_OF_MEAN|2.44||0.008|TWO_SIDED|95.0|-11.34|-1.74||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||-1.74|-11.34|0.008
92418428|NCT03764033|184724613|SUPERIORITY||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.11||0.066|TWO_SIDED|95.0|-0.37|0.01||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||0.01|-0.37|0.066
92418429|NCT03764033|184724614|SUPERIORITY||Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|0.17||0.043|TWO_SIDED|95.0|-0.69|-0.01||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||-0.01|-0.69|0.043
92418430|NCT03764033|184724615|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.016|TWO_SIDED|95.0|-0.43|-0.04||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||-0.04|-0.43|0.016
92389830|NCT00773513|184680547|NON_INFERIORITY|The critical alpha level for the non-inferiority test was 0.025.|Hazard Ratio (HR)|1.03||||0.0039|TWO_SIDED|95.0|0.93|1.15|||Regression, Cox||The pre-specified upper non-inferiority limit was 95% CI \<1.20.|||1.15|0.93|0.0039
92418431|NCT03764033|184724616|SUPERIORITY||Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|0.18||0.028|TWO_SIDED|95.0|-0.74|-0.04||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||-0.04|-0.74|0.028
92418432|NCT04594369|184724617|SUPERIORITY||Rate ratio|0.789|||=|0.0019|TWO_SIDED|95.0|0.68|0.916||Adjusted p-value = 0.0038. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value for the primary endpoint was tested at two-sided alpha = 0.01.|Negative binomial regression|||Model treatment \& randomization stratification factor=geographic region, sputum sample (Pseudomonas aeruginosa) at start \& PE last 12 months, age group (fixed effects) \& time at risk (log scale) as offset variable. Robust sandwich covariance estimator used.||0.916|0.680|=0.0019
92389831|NCT00773513|184680548|NON_INFERIORITY|The critical alpha level for the non-inferiority test was 0.025|Hazard Ratio (HR)|1.06||||0.0166|TWO_SIDED|95.0|0.94|1.19|||Regression, Cox|||||1.19|0.94|0.0166
92389832|NCT00773513|184680549|NON_INFERIORITY|The critical alpha level for the non-inferiority test was 0.025|Hazard Ratio (HR)|0.95||||0.0219|TWO_SIDED|95.0|0.76|1.19|||Regression, Cox|||||1.19|0.76|0.0219
92389833|NCT00773513|184680550|NON_INFERIORITY|The critical alpha level for the non-inferiority test was 0.025|Hazard Ratio (HR)|0.94||||0.0459|TWO_SIDED|95.0|0.7|1.25|||Regression, Cox|||||1.25|0.70|0.0459
92389834|NCT00773513|184680551|NON_INFERIORITY|The critical alpha level for the non-inferiority test was 0.025|Hazard Ratio (HR)|0.91||||0.0048|TWO_SIDED|95.0|0.74|1.12|||Regression, Cox|||||1.12|0.74|0.0048
92389835|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
92389836|NCT01128426|184680555|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389837|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0 .99
92389838|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92389839|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.2|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0 .20
92389840|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.79|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.79
92389841|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.16|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.16
92389842|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92389843|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0 .03
92389844|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92389845|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92389846|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92235250|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.62|1.08|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 19A: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.08|0.62|
92389847|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
92389848|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
92389849|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
92389850|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92389851|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
92418433|NCT04594369|184724617|SUPERIORITY||Rate ratio|0.806|||=|0.0046|TWO_SIDED|95.0|0.694|0.936||Adjusted p-value = 0.0048. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value for the primary endpoint was tested at two-sided alpha = 0.01.|Negative binomial regression|||Model treatment \& randomization stratification factor=geographic region, sputum sample (Pseudomonas aeruginosa) at start \& PE last 12 months, age group (fixed effects) \& time at risk (log scale) as offset variable. Robust sandwich covariance estimator used.||0.936|0.694|=0.0046
92418434|NCT04594369|184724618|SUPERIORITY||Hazard Ratio (HR)|0.813|||=|0.01|TWO_SIDED|95.0|0.695|0.952||Adjusted p-value = 0.0200. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value for the secondary endpoints were tested at two-sided alpha = 0.05.|Cox proportional hazard|||Estimate of Cox proportional hazard model=effect for treatment, sputum sample for Pseudomonas aeruginosa at screening and PE \[\<3 or ≥3\] in last 12 months, stratification region and age group. Robust sandwich covariance estimator used.||0.952|0.695|=0.01
92389852|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
92389853|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
92389854|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
92389855|NCT01128426|184680555|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389856|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
92389857|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92389858|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
92389859|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92389860|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92389861|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92389862|NCT01128426|184680555|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389863|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92389864|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.26|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.26
92389865|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
92389866|NCT01128426|184680555|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389867|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.09|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.09
92389868|NCT01128426|184680555|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389869|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92389870|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92418435|NCT04594369|184724618|SUPERIORITY||Hazard Ratio (HR)|0.825|||=|0.0182|TWO_SIDED|95.0|0.703|0.968||Adjusted p-value = 0.0364. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value for the secondary endpoints were tested at two-sided alpha = 0.05.|Cox proportional hazard|||Estimate of Cox proportional hazard model=effect for treatment, sputum sample for Pseudomonas aeruginosa at screening and PE \[\<3 or ≥3\] in last 12 months, stratification region and age group. Robust sandwich covariance estimator used.||0.968|0.703|=0.0182
92418436|NCT04594369|184724619|SUPERIORITY||Odds Ratio (OR)|1.412|||=|0.0059|TWO_SIDED|95.0|1.105|1.806||Adjusted p-value = 0.0200. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value for the secondary endpoints were tested at two-sided alpha = 0.05.|Logistic Regression|||Missing responder status was imputed 100 times. Dataset was analyzed via logistic regression with treatment group, sputum P. aeruginosa status, prior PEs (\<3/≥3), region, and age group as fixed effects. Results were then combined using Rubin's rules.||1.806|1.105|=0.0059
92418437|NCT04594369|184724619|SUPERIORITY||Odds Ratio (OR)|1.4|||=|0.0074|TWO_SIDED|95.0|1.095|1.792||Adjusted p-value = 0.0364. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value for the secondary endpoints were tested at two-sided alpha = 0.05.|Logistic Regression|||Missing responder status was imputed 100 times. Dataset was analyzed via logistic regression with treatment group, sputum P. aeruginosa status, prior PEs (\<3/≥3), region, and age group as fixed effects. Results were then combined using Rubin's rules.||1.792|1.095|=0.0074
92418438|NCT04594369|184724620|SUPERIORITY||Difference in Least square (LS) Mean|0.011|STANDARD_ERROR_OF_MEAN|0.0132|=|0.3841|TWO_SIDED|95.0|-0.014|0.037||Adjusted p-value = 0.3841. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value was tested at two-sided alpha = 0.05.|Linear repeated measures model|||Analysis on linear repeated measure model=treatment visit, sputum sample for Pseudomonas aeruginosa at start, PE \[\<3 or ≥3\] last 12 months, stratification region, age group (fixed effect) \& baseline (covariate). Robust sandwich covariance estimator used.||0.037|-0.014|=0.3841
92389871|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
92389872|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.83|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.83
92389873|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.74|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.74
92389874|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92389875|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
92389876|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.79|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.79
92389877|NCT01128426|184680555|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389878|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92418439|NCT04594369|184724620|SUPERIORITY||Difference in LS Mean|0.038|STANDARD_ERROR_OF_MEAN|0.0136|=|0.0054|TWO_SIDED|95.0|0.011|0.065||Adjusted p-value = 0.0364. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value was tested at two-sided alpha = 0.05.|Linear repeated measures model|||Analysis on linear repeated measure model=treatment visit, sputum sample for Pseudomonas aeruginosa at start, PE \[\<3 or ≥3\] last 12 months, stratification region, age group (fixed effect) \& baseline (covariate). Robust sandwich covariance estimator used.||0.065|0.011|=0.0054
92418440|NCT04594369|184724621|SUPERIORITY||Rate ratio|0.742|||=|0.1277|TWO_SIDED|95.0|0.505|1.089||Adjusted p-value = 0.3841. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value was tested at two-sided alpha = 0.05.|Negative binomial regression|||Analysis based on a negative binomial model including treatment, sputum sample for Pseudomonas aeruginosa at screening, PE \[\<3 or ≥3\] in previous 12 months, stratification region and age group. Robust sandwich covariance estimator used.||1.089|0.505|=0.1277
92418441|NCT04594369|184724621|SUPERIORITY||Rate ratio|0.74|||=|0.1025|TWO_SIDED|95.0|0.515|1.062||Adjusted p-value = 0.2050. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value was tested at two-sided alpha = 0.05.|Negative binomial regression|||Analysis based on a negative binomial model including treatment, sputum sample for Pseudomonas aeruginosa at screening, PE \[\<3 or ≥3\] in previous 12 months, stratification region and age group. Robust sandwich covariance estimator used.||1.062|0.515|=0.1025
92418442|NCT04594369|184724622|SUPERIORITY||LS mean difference|2.031|STANDARD_ERROR_OF_MEAN|1.0775|=|0.0594|TWO_SIDED|95.0|-0.081|4.143||Adjusted p-value = 0.3841. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value was tested at two-sided alpha = 0.05.|linear repeated measures model|||Analysis based on a linear repeated measures model with treatment group, visit, sputum sample for Pseudomonas aeruginosa at screening, pulmonary exacerbations \[\<3 or ≥3\] in previous 12 months, stratification region fixed effect, baseline as covariate.||4.143|-0.081|=0.0594
92418443|NCT04594369|184724622|SUPERIORITY||LS mean difference|3.766|STANDARD_ERROR_OF_MEAN|1.0642|=|0.0004|TWO_SIDED|95.0|1.68|5.852||Adjusted p-value = 0.2050. The enhanced mixture-based gatekeeping procedure was used to control the overall type I error rate. Multiplicity adjusted p-value was tested at two-sided alpha = 0.05.|linear repeated measures model|||Analysis based on a linear repeated measures model with treatment group, visit, sputum sample for Pseudomonas aeruginosa at screening, pulmonary exacerbations \[\<3 or ≥3\] in previous 12 months, stratification region fixed effect, baseline as covariate.||5.852|1.680|=0.0004
92418444|NCT03875235|184724637|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.021|TWO_SIDED|97.0|0.64|0.99||The analysis was performed using a stratified log-rank test adjusting for disease status (initially unresectable versus recurrent) and primary tumor location (IHCC versus EHCC versus GBC), and tested at 0.03 significance level.|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for disease status and primary tumor location.|The 2-sided significance level for OS at the second interim analysis was 3%.|95% CI 0.66 to 0.97|0.99|0.64|0.021
92389879|NCT01128426|184680555|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92389880|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92389881|NCT01128426|184680556|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389882|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92389883|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92389884|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92389885|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92389886|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.61|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.61
92389887|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.42|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.42
92389888|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92389889|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
92389890|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.36|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.36
92389891|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.37|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.37
92389892|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.19|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.19
92418445|NCT03875235|184724640|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.001|TWO_SIDED|95.19|0.63|0.89||The p-value is based on a stratified log-rank test adjusting for disease status (initially unresectable versus recurrent) and primary tumor location (IHCC versus EHCC versus GBC), and tested at 0.0481 significance level.|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for disease status and primary tumor location.|The 2-sided significance level for PFS at the second interim analysis was 4.81%.|95% CI 0.63 to 0.89|0.89|0.63|0.001
92418446|NCT03875235|184724643|SUPERIORITY||Odds Ratio (OR)|1.6||||0.011|TWO_SIDED|95.0|1.11|2.31|||Cochran-Mantel-Haenszel||OR and CI were estimated from a stratified CMH test adjusting for disease status and primary tumor location.|||2.31|1.11|0.011
92418447|NCT03070444|184724657|OTHER|GEE analysis|GEE analysis|0.99||||0.0002|TWO_SIDED|95.0|0.48|1.51|||GEE analysis|||||1.51|0.48|0.0002
92418448|NCT03070444|184724658|OTHER|Mann-Whitney U test||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
92418449|NCT01373489|184724659|SUPERIORITY||Mean Difference (Final Values)|10.0|||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92418450|NCT02582255|184724660|OTHER|||||||0.05|||||||Clopper-Pearson|||||||0.05
92418451|NCT02582255|184724661|OTHER|||||||0.025|||||||Clopper-Pearson|||||||0.025
92418452|NCT02582255|184724662|OTHER|||||||0.025|||||||Clopper-Pearson|||||||0.025
92235251|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.89|1.98|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 19F: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.98|0.89|
92389893|NCT01128426|184680556|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92418453|NCT02582255|184724663|OTHER|||||||0.05|||||||Clopper-Pearson|||||||0.05
92235252|NCT01025336|184373545|SUPERIORITY_OR_OTHER||Ratio of GMT|0.4|||||TWO_SIDED|95.0|0.26|0.59|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 23F: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.59|0.26|
92418454|NCT01709578|184724664|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.711|||<|0.0001|TWO_SIDED|95.0|1.73|4.247||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 150 mg q2w vs Placebo q2w|A hierarchical testing procedure was used to control type I error rate at 0.05 and handle multiple endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level.||4.247|1.730|<0.0001
92418455|NCT01709578|184724664|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.284|||<|0.0001|TWO_SIDED|95.0|2.108|5.115||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.115|2.108|<0.0001
92418456|NCT01709578|184724665|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.202||||0.0007|TWO_SIDED|95.0|-0.318|-0.086||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.086|-0.318|0.0007
92418457|NCT01709578|184724665|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21||||0.0004|TWO_SIDED|95.0|-0.325|-0.095||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.095|-0.325|0.0004
92418458|NCT01709578|184724666|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.971|||<|0.0001|TWO_SIDED|95.0|-1.283|-0.658||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.658|-1.283|<0.0001
92418459|NCT01709578|184724666|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.444|||<|0.0001|TWO_SIDED|95.0|-1.752|-1.135||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-1.135|-1.752|<0.0001
92418460|NCT01709578|184724667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.958|||<|0.0001|TWO_SIDED|95.0|1.764|4.959||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.959|1.764|<0.0001
92235253|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.85|1.22|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.22|0.85|
92278773|NCT05918952|184460253|OTHER||Odds Ratio (OR)|11.01||||0.029|TWO_SIDED|95.0|1.27|95.17||Low sample size and power. Model considered unstable and potentially overfit. Results not reliable.|Regression, Logistic|||Hypothesis: Higher VFS scores will be associated with increased likelihood of completion of a follow-up test.||95.17|1.27|0.029
92389894|NCT01128426|184680556|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389895|NCT01128426|184680556|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389896|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
92389897|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92389898|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
92389899|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92389900|NCT01128426|184680556|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389901|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92389902|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.75|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.75
92389903|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92418461|NCT01709578|184724667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.374|||<|0.0001|TWO_SIDED|95.0|2.045|5.566||Threshold for significance was 0.025 level|Mantel Haenszel||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.566|2.045|<0.0001
92418462|NCT01709578|184724668|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.607||||0.0002|TWO_SIDED|95.0|1.774|7.332||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.332|1.774|0.0002
92418463|NCT01709578|184724668|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.653||||0.0056|TWO_SIDED|95.0|1.308|5.383||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.383|1.308|0.0056
92278774|NCT05918952|184460254|OTHER||Odds Ratio (OR)|1.69||||0.003|TWO_SIDED|95.0|1.19|2.4|||Regression, Logistic|||Hypothesis: Higher Practical Support (PS) scores will be associated with greater likelihood of COVID-19 testing uptake.||2.40|1.19|0.003
92389904|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92418464|NCT01709578|184724669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.622|||<|0.0001|TWO_SIDED|95.0|2.339|9.132||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9.132|2.339|<0.0001
92418465|NCT01709578|184724669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.801|||<|0.0001|TWO_SIDED|95.0|2.948|11.413||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||11.413|2.948|<0.0001
92418466|NCT01709578|184724670|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.306|||<|0.0001|TWO_SIDED|95.0|-10.444|-4.167||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-4.167|-10.444|<0.0001
92418467|NCT01709578|184724670|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.727|||<|0.0001|TWO_SIDED|95.0|-12.833|-6.622||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-6.622|-12.833|<0.0001
92278775|NCT00135707|184460296|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||0.42|TWO_SIDED|95.0|0.91|1.25|||Chi-squared|||The primary hypothesis states that antioxidant therapy initiated prior to 16 weeks gestation in women will reduce the frequency of serious maternal and infant complications associated with pregnancy related hypertension. We estimated that with a sample size of 10,000 women, the study would have 90% power to show a 30% reduction in the rate of the primary outcome, from 4% in the placebo to 2.8% in the vitamin group, with a two-sided type I error rate of 5%.||1.25|0.91|0.42
92389905|NCT01128426|184680556|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389906|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
92389907|NCT01128426|184680556|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389908|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
92389909|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.83|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.83
92389910|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
92389911|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.26|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.26
92389912|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.83|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.83
92389913|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
92389914|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92389915|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
92389916|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92389917|NCT01128426|184680556|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389918|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.74|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.74
92389919|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
92389920|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92389921|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92389922|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
92389923|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.62|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.62
92418468|NCT01709578|184724671|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.183||||0.0078|TWO_SIDED|95.0|-0.318|-0.048||Threshold for significance was 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.048|-0.318|0.0078
92418469|NCT01709578|184724671|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.242||||0.0004|TWO_SIDED|95.0|-0.376|-0.109||Threshold for significance was 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.109|-0.376|0.0004
92278776|NCT00135707|184460297|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||0.79|TWO_SIDED|95.0|0.85|1.24|||Chi-squared|||||1.24|0.85|0.79
92389924|NCT01128426|184680556|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
92389925|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
92389926|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389927|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92389928|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92389929|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.2|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.20
92389930|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92389931|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.79|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.79
92389932|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.09|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.09
92389933|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92389934|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92418470|NCT01709578|184724672|SUPERIORITY_OR_OTHER||LS Mean Difference|3.25||||0.0004|TWO_SIDED|95.0|1.45|5.049||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.049|1.450|0.0004
92418471|NCT01709578|184724672|SUPERIORITY_OR_OTHER||LS Mean Difference|4.075|||<|0.0001|TWO_SIDED|95.0|2.305|5.846||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.846|2.305|<0.0001
92418472|NCT01709578|184724673|SUPERIORITY_OR_OTHER||LS Mean Difference|1.515||||0.2026|TWO_SIDED|95.0|-0.818|3.848||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||3.848|-0.818|0.2026
92235254|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.82|1.1|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.10|0.82|
92389935|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.4|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.40
92389936|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92389937|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
92389938|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.36|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.36
92389939|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389940|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
92389941|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92418473|NCT01709578|184724673|SUPERIORITY_OR_OTHER||LS Mean Difference|2.013||||0.0854|TWO_SIDED|95.0|-0.282|4.309||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.309|-0.282|0.0854
92418474|NCT03505671|184724766|OTHER|||||||0.61|||||||ANCOVA|||||||0.61
92418475|NCT03505671|184724766|OTHER||Correlation Coefficient|0.15|||||TWO_SIDED||||||||Correlation between EORTC Sensory Subscale baseline and 12 weeks (overall, N=20)|||||
92418476|NCT03505671|184724766|OTHER||Correlation coefficient|0.25|||||TWO_SIDED||||||||Correlation between EORTC Sensory Subscale baseline and 12 weeks (intervention, N=9)|||||
92418477|NCT03505671|184724766|OTHER||Correlation coefficient|0.09|||||TWO_SIDED||||||||Correlation between EORTC Sensory Subscale baseline and 12 weeks (Usual Care, N=11)|||||
92418478|NCT03505671|184724767|OTHER|||||||0.91||||||P value for the motor subscale|ANCOVA|||||||0.91
92418479|NCT03505671|184724767|OTHER|||||||0.55||||||P value for autonomic subscale|ANCOVA|||||||0.55
92418480|NCT03505671|184724768|OTHER|||||||0.41||||||P value for baseline numbness or tingling severity data|Fisher Exact|||||||0.41
92235255|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.41|0.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.69|0.41|
92389942|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389943|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92389944|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92389945|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
92389946|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
92389947|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389948|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92389949|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92418481|NCT03505671|184724768|OTHER|||||||0.22||||||P value for baseline numbness or tingling interference data|Fisher Exact|||||||0.22
92418482|NCT03505671|184724768|OTHER|||||||0.58||||||Week 12 p value for numbness or tingling severity data|Fisher Exact|||||||0.58
92418483|NCT03505671|184724768|OTHER|||||||0.12||||||P value for Week 12 numbness or tingling interference data|Fisher Exact|||||||0.12
92418484|NCT03505671|184724768|OTHER|||||||0.57||||||Week 12 - Baseline p value for numbness or tingling severity data|Fisher Exact|||||||0.57
92418485|NCT03505671|184724768|OTHER|||||||0.55||||||Week 12 - Baseline p value for numbness or tingling interference|Fisher Exact|||||||0.55
92389950|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92389951|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
92389952|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92418486|NCT03505671|184724769|OTHER|||||||0.99||||||P value for baseline numbness or tingling severity Grade 1-3|Fisher Exact|||||||0.99
92418487|NCT03505671|184724769|OTHER|||||||0.99||||||P value for 12 weeks numbness or tingling severity Grade 1-3|Fisher Exact|||||||0.99
92418488|NCT03505671|184724769|OTHER|||||||0.99||||||P value for week 12 - baseline change in numbness or tingling severity|Fisher Exact|||||||0.99
92418489|NCT03505671|184724770|OTHER|||||||0.99|||||||Fisher Exact|||||||0.99
92418490|NCT03505671|184724771|OTHER|||||||0.69|||||||t-test, 2 sided|||||||0.69
92418491|NCT03505671|184724772|OTHER|||||||0.46||||||P value for cross sectional area sural data|ANCOVA|||||||0.46
92418492|NCT03505671|184724772|OTHER|||||||0.22||||||P value for cross sectional area for median data|ANCOVA|||||||0.22
92418493|NCT03505671|184724773|OTHER|||||||0.2||||||P value for amplitude - sural data|ANCOVA|||||||0.20
92418494|NCT03505671|184724773|OTHER|||||||0.28||||||P value for amplitude - tibial, ankle|ANCOVA|||||||0.28
92235256|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.67|0.87|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.87|0.67|
92418495|NCT03505671|184724773|OTHER|||||||0.13||||||P value for amplitude tibial, pop fossa|ANCOVA|||||||0.13
92389953|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
92389954|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389955|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92418496|NCT03505671|184724773|OTHER|||||||0.71||||||P value for amplitude median, wrist|ANCOVA|||||||0.71
92418497|NCT03505671|184724773|OTHER|||||||0.46||||||P value for amplitude, median, elbow|ANCOVA|||||||0.46
92418498|NCT03505671|184724774|OTHER|||||||0.81||||||P value for latency sural data|ANCOVA|||||||0.81
92418499|NCT03505671|184724774|OTHER|||||||0.76||||||P value for latency tibial, ankle data|ANCOVA|||||||0.76
92418500|NCT03505671|184724774|OTHER|||||||0.24||||||P value for latency tibial, pop fossa|ANCOVA|||||||0.24
92418501|NCT03505671|184724774|OTHER|||||||0.2||||||P value for latency median wrist data|ANCOVA|||||||0.20
92418502|NCT03505671|184724774|OTHER|||||||0.51||||||P value for latency median elbow data|ANCOVA|||||||0.51
92418503|NCT03505671|184724775|OTHER|||||||0.98||||||P value for velocity sural data|ANCOVA|||||||0.98
92418504|NCT03505671|184724775|OTHER|||||||0.03||||||P value for velocity tibial data|ANCOVA|||||||0.03
92418505|NCT03505671|184724775|OTHER|||||||0.81||||||P value for velocity median data|ANCOVA|||||||0.81
92446328|NCT02321462|184779715|NON_INFERIORITY|Non-inferiority would be demonstrated if the lower limit of the 95% confidence intervals (CI) of the difference was higher than the predefined noninferiority margin (-15%).|Adjusted difference|-0.46|||||TWO_SIDED|95.0|-4.22|3.29|||||To investigate noninferiority of Eziclen compared to Fortrans®, the adjusted difference between these 2 groups was calculated with 95% CI of the adjusted difference.|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status (No IBD, IBD) was used.||3.29|-4.22|
92446329|NCT02321462|184779716|SUPERIORITY||Adjusted difference|0.15|||=|0.0249|TWO_SIDED|95.0|0.02|0.28|||ANOVA|A 2-way analysis of variance model (ANOVA) with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Right Colon BBPS Score.||0.28|0.02|=0.0249
92389956|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389957|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389958|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.61|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.61
92389959|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389960|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
92389961|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389962|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92418506|NCT02038829|184724777|SUPERIORITY|A sample size of 66 subjects (rounding to 72 for using Williams squares and 96 with dropouts) provides \~90% power to detect a 100 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in trough FEV1 of 176 and a within-subject correlation of 0.3.|LS Mean (SE)|0.0126|STANDARD_ERROR_OF_MEAN|0.0225||0.973|TWO_SIDED|95.0|-0.0318|0.0569||P-values were adjusted using Dunnett's method for comparing the multiple treatments to placebo. The comparison of aclidinium to placebo was performed at the 0.05 significance level to establish assay sensitivity.|LS Mean (SE)|||An mixed effects model was used with mean change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.0569|-0.0318|0.9730
92418507|NCT02038829|184724777|SUPERIORITY|A sample size of 66 subjects (rounding to 72 for using Williams squares and 96 with dropouts) provides \~90% power to detect a 100 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in trough FEV1 of 176 and a within-subject correlation of 0.3.|LS Mean (SE)|0.0822|STANDARD_ERROR_OF_MEAN|0.0225||0.0014|TWO_SIDED|95.0|0.038|0.1264||P-values were adjusted using Dunnett's method for comparing the multiple treatments to placebo. The comparison of aclidinium to placebo was performed at the 0.05 significance level to establish assay sensitivity.|LS Mean (SE)|||An mixed effects model was used with mean change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.1264|0.0380|0.0014
92418508|NCT02038829|184724777|SUPERIORITY|A sample size of 66 subjects (rounding to 72 for using Williams squares and 96 with dropouts) provides \~90% power to detect a 100 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in trough FEV1 of 176 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1088|STANDARD_ERROR_OF_MEAN|0.0226|<|0.0001|TWO_SIDED|95.0|0.0644|0.1532||P-values were adjusted using Dunnett's method for comparing the multiple treatments to placebo. The comparison of aclidinium to placebo was performed at the 0.05 significance level to establish assay sensitivity.|LS Mean (SE)|||An mixed effects model was used with mean change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.1532|0.0644|<0.0001
92446330|NCT02321462|184779716|SUPERIORITY||Adjusted difference|0.11|||=|0.0382|TWO_SIDED|95.0|0.01|0.22|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Transverse Colon BBPS Score.||0.22|0.01|=0.0382
92446331|NCT02321462|184779716|SUPERIORITY||Adjusted difference|0.06|||=|0.2538|TWO_SIDED|95.0|-0.04|0.16|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Left Colon BBPS Score.||0.16|-0.04|=0.2538
92235257|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.48|0.79|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.79|0.48|
92235258|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.32|2.19|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.19|1.32|
92235259|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.24|2.26|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.26|1.24|
92235260|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.48|2.95|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.95|1.48|
92235261|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.23|2.05|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.05|1.23|
92235262|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.82|1.19|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.19|0.82|
92389963|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
92389964|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
92169899|NCT00520546|184228467|SUPERIORITY_OR_OTHER||positive prediction|96.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92235263|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.07|1.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.46|1.07|
92278777|NCT00135707|184460298|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79||||0.35|TWO_SIDED|95.0|0.47|1.31|||Chi-squared|||||1.31|0.47|0.35
92389965|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.97|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.97
92389966|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92389967|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.26|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.26
92389968|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92389969|NCT01128426|184680557|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389970|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
92389971|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.85|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.85
92389972|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92389973|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92389974|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92169900|NCT00520546|184228467|SUPERIORITY_OR_OTHER||negative prediction|73.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92278778|NCT00135707|184460299|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.68||||0.16|TWO_SIDED|95.0|0.39|1.17|||Chi-squared|||||1.17|0.39|0.16
92389975|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.09|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.09
92389976|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92389977|NCT01128426|184680557|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
92389978|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92389979|NCT01128426|184680558|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92389980|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92389981|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.91|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.91
92389982|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.86|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.86
92389983|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92418509|NCT02038829|184724777|SUPERIORITY|A sample size of 66 subjects (rounding to 72 for using Williams squares and 96 with dropouts) provides \~90% power to detect a 100 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in trough FEV1 of 176 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1375|STANDARD_ERROR_OF_MEAN|0.0226|<|0.0001|TWO_SIDED|95.0|0.0931|0.1818||P-values were adjusted using Dunnett's method for comparing the multiple treatments to placebo. The comparison of aclidinium to placebo was performed at the 0.05 significance level to establish assay sensitivity.|LS Mean (SE)|||An mixed effects model was used with mean change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation||0.1818|0.0931|<0.0001
92418510|NCT02038829|184724777|SUPERIORITY|A sample size of 66 subjects (rounding to 72 for using Williams squares and 96 with dropouts) provides \~90% power to detect a 100 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in trough FEV1 of 176 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1567|STANDARD_ERROR_OF_MEAN|0.0226|<|0.0001|TWO_SIDED|95.0|0.1121|0.2012||P-values were adjusted using Dunnett's method for comparing the multiple treatments to placebo. The comparison of aclidinium to placebo was performed at the 0.05 significance level to establish assay sensitivity.|LS Mean (SE)|||An mixed effects model was used with mean change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.2012|0.1121|<0.0001
92418511|NCT02038829|184724778|SUPERIORITY|A sample size of 78 subjects (rounding to 84 for using Williams squares) provides \~80% power to detect a 55 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in AUC(0-12) of 143 and a within-subject correlation of 0.3.|LS Mean (SE)|0.0526|STANDARD_ERROR_OF_MEAN|0.0184||0.0046|TWO_SIDED|95.0|0.0163|0.0888|||LS Mean (SE)|||An mixed effects model was used with standardized FEV1 AUC(0-12) on Day 7 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.0888|0.0163|0.0046
92418512|NCT02038829|184724778|SUPERIORITY|A sample size of 78 subjects (rounding to 84 for using Williams squares) provides \~80% power to detect a 55 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in AUC(0-12) of 143 and a within-subject correlation of 0.3.|LS Mean (SE)|0.0842|STANDARD_ERROR_OF_MEAN|0.0185|<|0.0001|TWO_SIDED|95.0|0.0478|0.1206|||LS Mean (SE)|||An mixed effects model was used with standardized FEV1 AUC(0-12) on Day 7 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.1206|0.0478|<0.0001
92418513|NCT02038829|184724778|NON_INFERIORITY|A sample size of 78 subjects (rounding to 84 for using Williams squares) provides \~80% power to detect a 55 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in AUC(0-12) of 143 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1255|STANDARD_ERROR_OF_MEAN|0.0186|<|0.0001|TWO_SIDED|95.0|0.089|0.1621|||LS Mean (SE)|||An mixed effects model was used with standardized FEV1 AUC(0-12) on Day 7 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.1621|0.0890|<0.0001
92418514|NCT02038829|184724778|SUPERIORITY|A sample size of 78 subjects (rounding to 84 for using Williams squares) provides \~80% power to detect a 55 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in AUC(0-12) of 143 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1963|STANDARD_ERROR_OF_MEAN|0.0184|<|0.0001|TWO_SIDED|95.0|0.1601|0.2325|||LS Mean (SE)|||An mixed effects model was used with standardized FEV1 AUC(0-12) on Day 7 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.2325|0.1601|<0.0001
92235264|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.56|2.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.80|1.56|
92235265|NCT01025336|184373546|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.89|1.48|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.48|0.89|
92169901|NCT00520546|184228467|SUPERIORITY_OR_OTHER||sensitivity|87.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92389984|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92389985|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.11|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.11
92389986|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92389987|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92389988|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92389989|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92389990|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.42|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.42
92389991|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
92389992|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.88|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.88
92389993|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.79|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.79
92389994|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
92278779|NCT00135707|184460300|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.63||||0.34|TWO_SIDED|95.0|0.25|1.63|||Chi-squared|||||1.63|0.25|0.34
92389995|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
92389996|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92389997|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92389998|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.42|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.42
92389999|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
92390000|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390001|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
92390002|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
92390003|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390004|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
92235266|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.48|0.92|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 1: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.92|0.48|
92235267|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.76|1.28|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 3: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.28|0.76|
92418515|NCT02038829|184724778|SUPERIORITY|A sample size of 78 subjects (rounding to 84 for using Williams squares) provides \~80% power to detect a 55 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in AUC(0-12) of 143 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1902|STANDARD_ERROR_OF_MEAN|0.0186|<|0.0001|TWO_SIDED|95.0|0.1537|0.2268|||LS Mean (SE)|||An mixed effects model was used with standardized FEV1 AUC(0-12) on Day 7 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.2268|0.1537|<0.0001
92278780|NCT00135707|184460301|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.49||||0.11|TWO_SIDED|95.0|0.78|7.94|||Chi-squared|||||7.94|0.78|0.11
92418516|NCT02604017|184724818|NON_INFERIORITY|The noninferiority of the rate of SVR12 for the 12-week treatment group as compared with the historical rate was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with SVR12 must exceed 91% to achieve noninferiority.|Percentage of Participants|99.7|||||TWO_SIDED|95.0|99.1|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of ≥97% in the 12-week arm, 270 participants provides \>90% power to demonstrate noninferiority of the 12-week arm to the historical control rate for HCV GT1 subjects who are treatment-naïve or treated with pegIFN/RBV (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|99.1|
92418517|NCT02604017|184724819|NON_INFERIORITY|The noninferiority of the rate of SVR12 for the 8-week treatment group as compared with the 12-week treatment group was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the difference in percentage of participants with SVR12 (8-week group minus 12-week group) must be above -5% to achieve noninferiority.|Difference in Percentage of Participants|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Based on a 2-sided significance level of 0.05 and an -5% noninferiority margin and an underlying rate of ≥97% in the 8-week arm (270 participants) and ≥97% in the 12-week arm (270 participants) provides \>90% power to demonstrate noninferiority of the 8-week arm to the 12-week arm.||1.1|-1.1|
92418518|NCT02604017|184724820|NON_INFERIORITY|The noninferiority of the rate of SVR12 for the 8-week treatment group as compared with the 12-week treatment group was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the difference in percentage of participants with SVR12 must be above -5% to achieve noninferiority.|Difference in Percentage of Participants|-0.6|||||TWO_SIDED|95.0|-1.8|0.6||||||Based on a 2-sided significance level of 0.05 and a -5% noninferiority margin, and an underlying rate of ≥97% in the 8-week arm (270 participants) and ≥97% in the 12-week arm (270 participants) provides \>90% power to demonstrate noninferiority of the 8-week arm to the 12-week arm.||0.6|-1.8|
92418519|NCT01315236|184724859|SUPERIORITY|||||||0.072||||||Conducted in the mITT population using a stratified Wilcoxon rank sum test, to compare the treatment arms at a 2-sided significance level of 0.05, adjusting for the randomization strata (presence/absence of CF and MAC versus Mycobacterium abscessus).|Wilcoxon rank sum test|||"The primary efficacy analysis tested the following hypotheses:~* H0: There is no difference at Day 84 between the LAI arm and the placebo arm~* Ha: There is a difference at Day 84 between the LAI arm and the placebo arm~Statistical analysis applies to all day 84 rows."||||0.072
92418520|NCT01315236|184724860|SUPERIORITY|||||||0.003|||||||Cochran-Mantel-Haenszel|||stratified Cochran-Mantel-Haenszel test||||0.003
92418521|NCT01315236|184724861|SUPERIORITY||Cox Proportional Hazard|5.68||||0.0129|TWO_SIDED|95.0|1.25|25.79|||Regression, Cox|||Cox proportional hazard model||25.79|1.25|0.0129
92418522|NCT01315236|184724862|SUPERIORITY|||||||0.077|||||||Regression, Logistic|||Ordinal Logistic Regressions Model||||0.077
92418523|NCT01315236|184724863|SUPERIORITY|||||||0.4545|||||||Wilcoxon (Mann-Whitney)|||Stratified Wilcoxon-rank sum||||0.4545
92235268|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.88|2.22|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 4: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.22|0.88|
92278781|NCT00135707|184460302|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||0.57|TWO_SIDED|95.0|0.39|1.68|||Chi-squared|||||1.68|0.39|0.57
92278782|NCT00135707|184460303|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.18|TWO_SIDED|95.0|0.89|1.9|||Chi-squared|||||1.90|0.89|0.18
92278783|NCT00135707|184460304|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.09||||0.84|TWO_SIDED|95.0|0.48|2.46|||Chi-squared|||||2.46|0.48|0.84
92278784|NCT00135707|184460305|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||0.33|TWO_SIDED|95.0|0.93|1.24|||Chi-squared|||||1.24|0.93|0.33
92278785|NCT00135707|184460306|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.004|TWO_SIDED|95.0|1.03|1.17|||Chi-squared|||||1.17|1.03|0.004
92278786|NCT00135707|184460307|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||0.25|TWO_SIDED|95.0|0.95|1.21|||Chi-squared|||||1.21|0.95|0.25
92418524|NCT01315236|184724865|SUPERIORITY||Cox Proportional Hazard|2.69||||0.0076|TWO_SIDED|95.0|1.28|5.64|||Regression, Cox|||Cox Proportional Hazard Model||5.64|1.28|0.0076
92390005|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.46|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.46
92390006|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390007|NCT01128426|184680558|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92390008|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.88|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.88
92390009|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92390010|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.93|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.93
92390011|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390012|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390013|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
92390014|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.9|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.90
92390015|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.11|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.11
92390016|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
92390017|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.09|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.09
92390018|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.34|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.34
92390019|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.92|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.92
92390020|NCT01128426|184680558|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92278787|NCT00135707|184460308|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.73||||0.15||95.0|0.47|1.12|||Chi-squared|||||1.12|0.47|0.15
92390021|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.62|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.62
92390022|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.49|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.49
92390023|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
92390024|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390025|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390026|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390027|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.11|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.11
92390028|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390029|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
92390030|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92390031|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390032|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.35|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.35
92390033|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
92390034|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
92390035|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92418525|NCT01277081|184724876|SUPERIORITY_OR_OTHER||Adjusted Mean difference|0.72|||<|0.0001|TWO_SIDED|95.0|0.58|0.86|||Repeated Measure Analysis|Repeated measures analysis with factors for time and treatment\*time interaction. Baseline score was adjusted as part of the repeated measures series.|Difference was first named treatment minus second named treatment such that a positive difference favours the first named treatment|Null Hypothesis considered no difference in treatments being compared for breathing score over the first 15 minutes compared to baseline.||0.86|0.58|<0.0001
92418526|NCT01277081|184724877|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.58|||<|0.0001|TWO_SIDED|95.0|0.44|0.72|||Repeated measures analysis|Repeated measures analysis with factors for time and treatment\*time interaction. Baseline score was adjusted as part of the repeated measures series.|Difference was first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered no difference in treatments being compared for breathing score over 60 minutes.||0.72|0.44|<0.0001
92418527|NCT01277081|184724878|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.5|||<|0.0001|TWO_SIDED|95.0|0.36|0.65|||Repeated measures analysis|Repeated measures analysis with factors for time and treatment\*time interaction. Baseline score was adjusted as part of the repeated measures series.|Difference was first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null Hypothesis considered no difference in treatments being compared for cold symptoms score after 60 minutes.||0.65|0.36|<0.0001
92418528|NCT01277081|184724879|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.52|||<|0.0001|TWO_SIDED|95.0|0.38|0.67|||Repeated measures analysis|Repeated measures analysis with factors for time and treatment\*time interaction. Baseline score was adjusted as part of the repeated measures series.|Difference was first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered two treatments being compared to be equal for cold symptom score after 60 minutes.||0.67|0.38|<0.0001
92418529|NCT01673282|184724894|SUPERIORITY_OR_OTHER||Least Square Mean|-0.24|STANDARD_ERROR_OF_MEAN|0.06|=|0.0003|TWO_SIDED|95.0|-0.36|-0.11|||ANCOVA|||Based on an ANCOVA model for absolute change in ratio of dose and DDD with group as a fixed effect and the ratio of dose and DDD at Baseline as a covariate.||-0.11|-0.36|=0.0003
92418530|NCT05040971|184724906|SUPERIORITY|Week 52 responses were analysed using an analysis of covariance model (ANCOVA) with randomised treatment as factor and baseline body weight as covariate.|Treatment difference|-11.19|||<|0.0001|TWO_SIDED|95.0|-12.97|-9.42|||ANCOVA|||Treatment policy estimand||-9.42|-12.97|<0.0001
92418531|NCT05040971|184724907|SUPERIORITY|Week 52 responses were analysed using a logistic regression model with randomised treatment as factor and baseline glycosylated haemoglobin (HbA1c) and fasting plasma glucose (FPG) as covariates.|Odds Ratio (OR)|19.81|||<|0.0001|TWO_SIDED|95.0|8.68|45.21|||Regression, Logistic|||Treatment policy estimand||45.21|8.68|<0.0001
92418532|NCT01293799|184724932|SUPERIORITY|Patients who stopped PD treatment due to causes other than peritonitis were managed according to the intention-to-treat principle. Patients were censored when the PD treatment was stopped.|Hazard Ratio (HR)|0.92||||0.51|TWO_SIDED|95.0|0.71|1.19||The threshold for statistical significance was P = 0.05|Log Rank|Log-rank follow-up was used to compare the peritonitis-free survival curves in the two arms.|Hazard ratio was the ratio between the hazard rate of the retraining group (nominator) and the hazard rate of the control group (denominator).|Time to the first peritonitis episode was analyzed as the cumulative time without peritonitis (peritonitis-free survival) using the Cox proportional hazards regression model from which unadjusted hazard ratios (HRs) were calculated. Actuarial survival curves showing proportions of of peritonitis-free participants over time in the two groups were estimated by means of the Kaplan-Meier method. Log-rank follow-up was used to compare the two peritonitis-free survival curves.||1.19|0.71|0.51
92418533|NCT01293799|184724933|OTHER|The number of peritonitis events between the two groups was tested by assuming a Poisson distribution of the number of events per follow-up time, log (follow-up time) as offset time, by using generalized linear models.|Risk Ratio (RR)|0.92||||0.51|TWO_SIDED|95.0|0.7|1.19||P-value \<0.05 is regarded as significant.|Generalized linear methods||In calculation of the Risk Ratio, data for the Retraining group represents the nominator and data for the Control group represents the denominator.|||1.19|0.70|0.51
92418534|NCT01293799|184724934|OTHER|The number of recurrent peritonitis events between the two groups was tested by assuming a Poisson distribution of the number of events per follow-up time, log (follow-up time) as offset time, by using generalized linear models.|Risk Ratio (RR)|0.93||||0.54|TWO_SIDED|95.0|0.75|1.16||P-value \<0.05 was significant.|Generalized linear methods|The analysis includes all peritonitis events in the study.|In the calculation of the relative risk, data for the retraining group represents the nominator and data for the control group represents the denominator.|||1.16|0.75|0.54
92418535|NCT01293799|184724935|OTHER|The association of factors associated with time to first peritonitis was analysed using the Cox proportional hazard regression model. Subjects were censored for various reasons to leave the study. Univariable Cox regression was used to identify factors associated with with time to first peritonitis episode. Multivariable Cox regression was performed using the backward elimination procedure, stopping when all remaining factors were significant at p \< 0.05.|Hazard Ratio (HR)|1.15||||0.0052|TWO_SIDED|95.0|1.04|1.27||Unit of measure: Age (hazard ratio per 10 years). The threshold for statistical significance was P = 0.05|Regression, Cox|The association of a age (HR per 10 years) and time to first peritonitis episode by univariable Cox regression.||The association of age and time to first peritonitis episode is analysed by univariable Cox regression. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the procedure was found.||1.27|1.04|0.0052
92418536|NCT01293799|184724935|OTHER||Hazard Ratio (HR)|1.16||||0.0041|TWO_SIDED|95.0|1.05|1.29||Unit of measure: Age (hazard ratio per 10 years) and time to first peritonitis episode by multivariable Cox regression. The threshold for statistical significance was P = 005.|Regression, Cox|Multivariable Cox regression||Univariable Cox regression was used to identify variables significantly associated with time to first peritonitis episode (see statistical analysis 1). Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the procedure was found.||1.29|1.05|0.0041
92278788|NCT00135707|184460309|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75||||0.51|TWO_SIDED|95.0|0.32|1.77|||Chi-squared|||||1.77|0.32|0.51
92278789|NCT00135707|184460310|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.21||||0.33|TWO_SIDED|95.0|0.82|1.79|||Chi-squared|||||1.79|0.82|0.33
92418537|NCT01293799|184724936|OTHER|The association of factors associated with time to first peritonitis was analysed using the Cox proportional hazard regression model. Subjects were censored for various reasons to leave the study. Univariable Cox regression was used to identify factors associated with with time to first peritonitis episode. Multivariable Cox regression was performed using the backward elimination procedure, stopping when all remaining factors were significant at p \< 0.05.|Hazard Ratio (HR)|1.25||||0.13|TWO_SIDED|95.0|0.93|1.66||Unit of measure: Gender (male vs. female). P \<0.05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression was used.||The association of gender (male vs. female) and time to first peritonitis episode was analysed by univariable Cox regression.||1.66|0.93|0.13
92418538|NCT01293799|184724937|OTHER|The association of factors associated with time to first peritonitis was analysed using the Cox proportional hazard regression model. Subjects were censored for various reasons to leave the study. Univariable Cox regression was used to identify factors associated with with time to first peritonitis episode.|Hazard Ratio (HR)|1.12||||0.0068|TWO_SIDED|95.0|1.03|1.21||Unit of measure: Body weight (hazard ratio per 10 kg). The threshold for statistical significance was P = 0.05.|Regression, Cox|Univariable Cox regression was used.||The association of body weight (HR per 10 kg) with time to first peritonitis episode was analysed by univariable Cox regression (Statistical analysis 1) and multivariable Cox regression (Statistical analysis 2)||1.21|1.03|0.0068
92418539|NCT01293799|184724937|OTHER||Hazard Ratio (HR)|1.1||||0.03|TWO_SIDED|95.0|1.01|1.19||Unit of measure: Body weight (hazard ratio per 10 kg). P \< 0.05 is considered significant.|Regression, Cox|Multivariable Cox regression||The association of body weight (HR per 10 kg) with time to first peritonitis episode was analysed by univariable Cox regression (Statistical analysis 1) and multivariable Cox regression (Statistical analysis 2)||1.19|1.01|0.03
92418540|NCT01293799|184724938|OTHER||Hazard Ratio (HR)|1.2||||0.012|TWO_SIDED|95.0|1.04|1.38||Unit of measure: Body mass index (hazard ratio per 5 kg/m2). P \< 0,05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression.||"The association of Diabetic nephropathy as primary cause of kidney failure with time to first peritonitis episode was analysed by univariable Cox regression. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the procedure was found."||1.38|1.04|0.012
92418541|NCT01293799|184724939|OTHER|The association of factors associated with time to first peritonitis was analysed using the Cox proportional hazard regression model. Subjects were censored for various reasons to leave the study. Univariable Cox regression was used to identify factors associated with with time to first peritonitis episode.|Hazard Ratio (HR)|0.91||||0.56|TWO_SIDED|95.0|0.66|1.25||Unit of measure: Diabetic nephropathy as primary cause of kidney failure vs. all other causes. P-value \< 0.05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression||"The association of Diabetic nephropathy as primary cause of kidney failure with time to first peritonitis episode was analysed by univariable Cox regression."||1.25|0.66|0.56
92418542|NCT01293799|184724940|OTHER||Hazard Ratio (HR)|1.05||||0.74|TWO_SIDED|95.0|0.78|1.42||Unit of measure: Glomerulonephritis as primary cause of kidney failure vs. all other causes. P-value \< 0.05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression||"The association of Glomerulonephritis as primary cause of kidney failure with time to first peritonitis episode was analysed by univariable Cox regression."||1.42|0.78|0.74
92418543|NCT01293799|184724941|OTHER||Hazard Ratio (HR)|1.25||||0.42|TWO_SIDED|95.0|0.73|2.15||Unit of measure: Tubulointerstitial nephritis as primary cause of kidney failure vs. all other causes. P-value \< 0.05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression||"The association of Tubulointerstitial Nephritis as primary cause of kidney failure with time to first peritonitis episode was analysed by univariable Cox regression."||2.15|0.73|0.42
92446332|NCT02321462|184779716|SUPERIORITY||Adjusted difference|0.33|||=|0.0256|TWO_SIDED|95.0|0.04|0.62|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Global BBPS Score.||0.62|0.04|=0.0256
92446333|NCT02321462|184779717|SUPERIORITY||Adjusted difference|0.11|||=|0.084|TWO_SIDED|95.0|-0.02|0.24|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Right Colon BBPS Score (per protocol population).||0.24|-0.02|=0.0840
92446334|NCT02321462|184779717|SUPERIORITY||Treatment difference|0.08|||=|0.132|TWO_SIDED|95.0|-0.02|0.18|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Transverse Colon BBPS Score (per protocol population).||0.18|-0.02|=0.1320
92169902|NCT00520546|184228467|SUPERIORITY_OR_OTHER||specificity|92.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92446335|NCT02321462|184779718|SUPERIORITY||Adjusted difference|-6.94|||=|0.2199|TWO_SIDED|95.0|-17.53|3.64|||Regression, Logistic|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status was used.||Treatment difference for detection of polyps.||3.64|-17.53|=0.2199
92446336|NCT02321462|184779718|SUPERIORITY||Adjusted difference|1.87|||=|0.6325|TWO_SIDED|95.0|-6.25|9.99|||Regression, Logistic|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status was used.||Treatment difference for detection of adenomas.||9.99|-6.25|=0.6325
92446337|NCT02321462|184779718|SUPERIORITY||Adjusted difference|-1.55|||=|0.7086|TWO_SIDED|95.0|-9.64|6.54|||Regression, Logistic|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status was used.||Treatment difference for detection of other lesions.||6.54|-9.64|=0.7086
92446338|NCT02321462|184779719|SUPERIORITY||Adjusted difference|0.01|||=|0.9927|TWO_SIDED|95.0|-3.12|3.14|||Regression, Logistic|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status was used.||||3.14|-3.12|=0.9927
92446339|NCT02321462|184779720|SUPERIORITY||Adjusted difference|-0.3|||=|0.7039|TWO_SIDED|95.0|-1.88|1.27|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||||1.27|-1.88|=0.7039
92278790|NCT00135707|184460311|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96||||0.74|TWO_SIDED|95.0|0.75|1.22|||Chi-squared|||||1.22|0.75|0.74
92418544|NCT01293799|184724942|OTHER||Hazard Ratio (HR)|0.56||||0.038|TWO_SIDED|95.0|0.33|0.97||Unit of measure: Polycystic kidney disease as primary cause of kidney failure vs. all other causes. P-value \< 0.05 is regarded as statistically significant.|Regression, Cox|Cox regression||"The association of Diabetic nephropathy as primary cause of kidney failure with time to first peritonitis episode was analysed by univariable Cox regression. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the procedure was found."||0.97|0.33|0.038
92418545|NCT01293799|184724943|OTHER||Hazard Ratio (HR)|1.92||||0.52|TWO_SIDED|95.0|0.27|13.68||Unit of measure: Ischemic kidney disease as primary cause of kidney failure vs. all other causes. P-value \< 0.05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression||"The association of Ischemic kidney disease as primary cause of kidney failure with time to first peritonitis episode was analysed by univariable Cox regression."||13.68|0.27|0.52
92418546|NCT01293799|184724944|OTHER||Hazard Ratio (HR)|1.26||||0.13|TWO_SIDED|95.0|0.93|1.71||Unit of measure: Nephrosclerosis/Hypertension as primary cause of kidney failure vs. all other causes. P \< 0.05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression||"The association of Nephrosclerosis/Hypertension as primary cause of kidney failure with time to first peritonitis episode was analysed by univariable Cox regression."||1.71|0.93|0.13
92418547|NCT01293799|184724945|OTHER||Hazard Ratio (HR)|0.92||||0.71|TWO_SIDED|95.0|0.58|1.45||"Unit of measure: Other Diagnosis as primary cause of kidney failure vs. all other causes. P-value \< 0.05 is regarded as statistically significant."|Regression, Cox|Univariable Cox regression||"The association of Other Diagnosis as primary cause of kidney failure (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression."||1.45|0.58|0.71
92418548|NCT01293799|184724946|OTHER||Hazard Ratio (HR)|1.04||||0.89|TWO_SIDED|95.0|0.57|1.91||Unit of measure: Unknown cause as primary cause of kidney failure vs. all other causes. P-value \< 0.05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression||"The association of Unknown Primary Cause of Kidney Failure as primary cause of kidney failure with time to first peritonitis episode was analysed by univariable Cox regression."||1.91|0.57|0.89
92418549|NCT01293799|184724947|OTHER||Hazard Ratio (HR)|1.16||||0.28|TWO_SIDED|95.0|0.88|1.53||Unit of measure: Comorbidity at PD start according to Stoke comorbidity score (1-2 vs. 0) i.e. 1-2 comorbidities vs. no comorbidity. P-value \< 0.05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression||"The association of Comorbidity according to Stoke comorbidity score with time to first peritonitis episode was analysed by univariable Cox regression."||1.53|0.88|0.28
92418550|NCT01293799|184724947|OTHER||Hazard Ratio (HR)|1.29||||0.44|TWO_SIDED|95.0|0.68|2.45||Unit of measure: Comorbidity at PD start according to Stoke comorbidity score (\>2 vs. 0) i.e. more than 2 comorbidities vs. no comorbidity. P-value \< 0.05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression||"The association of Comorbidity according to Stoke comorbidity score with time to first peritonitis episode was analysed by univariable Cox regression."||2.45|0.68|0.44
92390036|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.35|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.35
92390037|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
92418551|NCT01293799|184724948|OTHER||Hazard Ratio (HR)|1.35||||0.07|TWO_SIDED|95.0|0.97|1.87||Unit of measure: Ischemic heart disease as comorbidity at baseline (yes vs. no). P \< 0.5 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression||"The association of Ischemic Heart Disease as Comorbidity with time to first peritonitis episode was analysed by univariable Cox regression."||1.87|0.97|0.07
92418552|NCT01293799|184724949|OTHER||Hazard Ratio (HR)|1.06||||0.8|TWO_SIDED|95.0|0.69|1.63||"Unit of measure: Peripheral vascular disease or stroke as comorbidity at PD start (yes vs. no). P-value \<0.05 regarded as statistically significant."|Regression, Cox|Univariable Cox regression||"The association of Peripheral Vascular Disease or Stroke as Comorbidity with time to first peritonitis episode was analysed by univariable Cox regression."||1.63|0.69|0.80
92418553|NCT01293799|184724950|OTHER||Hazard Ratio (HR)|1.15||||0.53|TWO_SIDED|95.0|0.75|1.77||"Unit of measure: Left ventricular dysfunction as comorbidity (yes vs. no). P-value \<0.05 is significant."|Regression, Cox|Univariable Cox regression||"The association of Left ventricular dysfunction as comorbidity (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the procedure was found."||1.77|0.75|0.53
92418554|NCT01293799|184724951|OTHER||Hazard Ratio (HR)|1.44||||0.099|TWO_SIDED|95.0|0.93|2.22||"Unit of measure: Diabetes Mellitus as Comorbidity (yes vs. no). P-value \< 0.05 is regarded as statistically significant."|Regression, Cox|Univariable Cox regression||"The association of Diabetes Mellitus as Comorbidity (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression."||2.22|0.93|0.099
92278791|NCT00135707|184460312|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66||||0.12|TWO_SIDED|95.0|0.4|1.11|||Chi-squared|||||1.11|0.40|0.12
92446340|NCT02321462|184779721|SUPERIORITY||Adjusted difference|0.1|||=|0.1891|TWO_SIDED|95.0|-0.05|0.25|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||||0.25|-0.05|=0.1891
92390038|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.3|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.30
92278792|NCT00135707|184460313|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||0.35|TWO_SIDED|95.0|0.97|1.11|||Chi-squared|||||1.11|0.97|0.35
92390039|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390040|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92390041|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.45|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.45
92418555|NCT01293799|184724952|OTHER||Hazard Ratio (HR)|0.62||||0.22|TWO_SIDED|95.0|0.29|1.32||"Unit of measure: System Collagen Vascular Disease as Comorbidity (yes vs. no). P-value \<0.05 is regarded as statistically significant."|Regression, Cox|Univariable Cox regression||"The association of System Collagen Vascular Disease as Comorbidity (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression."||1.32|0.29|0.22
92418556|NCT01293799|184724953|OTHER||Hazard Ratio (HR)|0.94||||0.79|TWO_SIDED|95.0|0.61|1.46||"Unit of measure: Other Significant Pathology as Comorbidity (yes vs. no). P \< 0.05 is regarded as statistically significant."|Regression, Cox|Univariable Cox regression||"The association of Other Significant Pathology as Comorbidity (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression."||1.46|0.61|0.79
92418557|NCT01293799|184724954|OTHER||Hazard Ratio (HR)|1.06||||0.69|TWO_SIDED|95.0|0.8|1.4||"Unit of measure: Diabetes Mellitus as Comorbidity or Main Cause of Kidney Failure (yes vs. no. P-value \< 0.05 is regarded as significantly significant."|Regression, Cox|Univariable Cox regression||"The association of Diabetes Mellitus as Comorbidity or Main Cause of Kidney Failure with time to first peritonitis episode was analysed by univariable Cox regression."||1.40|0.80|0.69
92418558|NCT01293799|184724955|OTHER||Hazard Ratio (HR)|1.03||||0.86|TWO_SIDED|95.0|0.74|1.42||"Unit of measure: Previous Kidney Replacement Therapy (yes vs. no). P-value \< 0.05 is regarded as significant."|Regression, Cox|Univariable Cox regression||"The association of Previous Kidney Replacement Therapy (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression."||1.42|0.74|0.86
92418559|NCT01293799|184724956|OTHER||Hazard Ratio (HR)|1.0||||0.6|TWO_SIDED|95.0|0.98|1.01||Unit of measure: Functional status (Karnofsky score). Functional status was estimated by the Karnofsky Performance Scale. Scores from 100 (Normal, no complaints) to 0 = (dead). 90 = Able to carry on normal activity. 80 = Normal activity with effort.|Regression, Cox|Univariable Cox regression||"The association of Functional status (Karnofsky score) with time to first peritonitis episode was analysed by univariable Cox regression."||1.01|0.98|0.60
92235269|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.93|1.95|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 5: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.95|0.93|
92235270|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|0.4|||||TWO_SIDED|95.0|0.27|0.66|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 6A: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.66|0.27|
92446341|NCT02321462|184779722|SUPERIORITY||Adjusted difference|13.35|||=|0.0011|TWO_SIDED|95.0|6.37|20.32|||Regression, Logistic|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status was used.||||20.32|6.37|=0.0011
92446342|NCT01153581|184779732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92446343|NCT00245765|184779748|SUPERIORITY||Odds Ratio (OR)|40.2|||<|0.001|TWO_SIDED|95.0|13.7|150.3|||Regression, Logistic|Logistic regression with treatment and baseline severity of psoriasis as factors.|Confidence limits are based on likelihood ratio statistics.|||150.3|13.7|<0.001
92446344|NCT00245765|184779748|SUPERIORITY||Odds Ratio (OR)|73.4|||<|0.001|TWO_SIDED|95.0|23.5|292.6|||Regression, Logistic|Logistic regression with treatment and baseline severity of psoriasis as factors.|Confidence limits are based on likelihood ratio statistics.|||292.6|23.5|<0.001
92446345|NCT00245765|184779749|SUPERIORITY||Odds Ratio (OR)|64.1|||<|0.001|TWO_SIDED|95.0|12.7|1169.1|||Regression, Logistic|Logistic regression with treatment and baseline severity of psoriasis as factors. Confidence limits are based on likelihood ratio statistics.||||1169.1|12.7|<0.001
92446346|NCT00245765|184779749|SUPERIORITY||Odds Ratio (OR)|162.6|||<|0.001|TWO_SIDED|95.0|31.4|2999.2|||Regression, Logistic|Logistic regression with treatment and baseline severity of psoriasis as factors.|Confidence limits are based on likelihood ratio statistics.|||2999.2|31.4|<0.001
92446347|NCT02741115|184779760|SUPERIORITY||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.377||0.092|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|ANCOVA fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline maximal VO2. LOCF imputation used.||It was estimated that a sample size of 198 participants per group would provide 90% power to detect a mean treatment group difference in change from baseline to Week 26 in maximal VO2 scores of 10% (ie, an improvement of 2.8 mL/kg/min in the udenafil group compared to 0 in the control group, assuming a Type I error of 0.05 and standard deviation of 7.235). A difference of 2.8, equivalent to a 10% increase from a baseline of 28 mL/kg/min, represents approximately 0.4 standard deviations.||||0.092
92446348|NCT02741115|184779761|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.014||0.024|TWO_SIDED|||||LS mean was the estimated treatment difference from the analytical model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline maximal VO2.||||||0.024
92446349|NCT02741115|184779762|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.591||0.591|TWO_SIDED||||||ANCOVA|||||||0.591
92446350|NCT02741115|184779763|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.094||0.169|TWO_SIDED||||||ANCOVA|||||||0.169
92446351|NCT02741115|184779764|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Median Difference (Final Values)|0.78|STANDARD_ERROR_OF_MEAN|0.308||0.012|TWO_SIDED|||||LS mean was the estimated treatment mean difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group, with a continuous covariate of Baseline maximal VO2. LOCF imputation.||||||0.012
92446352|NCT02741115|184779765|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.46||0.029|TWO_SIDED|||||LS mean was the estimated treatment difference in the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group, with a continuous covariate of Baseline maximal VO2. LOCF imputation.||||||0.029
92278793|NCT00135707|184460315|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3||||0.05|TWO_SIDED|95.0|0.08|1.08|||Chi-squared|||||1.08|0.08|0.05
92390042|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
92390043|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390044|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390045|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.17|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.17
92390046|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
92390047|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
92390048|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390049|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
92390050|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.92|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.92
92390051|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.09|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.09
92390052|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
92418560|NCT01293799|184724956|OTHER||Hazard Ratio (HR)|1.13||||0.48|TWO_SIDED|95.0|0.81|1.57||Unit of measure: Functional status (Karnofsky score 80 - 90 vs. 100). Functional status was estimated by the Karnofsky Performance Scale (see Statistical analysis 1). P \< 0.05 is regarded as statistically significant.|Regression, Cox|Univariable Cox regression||"The association of Functional status (Karnofsky score 80 - 90 vs. 100) with time to first peritonitis episode was analysed by univariable Cox regression."||1.57|0.81|0.48
92418561|NCT01293799|184724956|OTHER|Univariable Cox regression|Hazard Ratio (HR)|1.13||||0.63|TWO_SIDED|95.0|0.69|1.85||Unit of measure: Functional status (Karnofsky score \< 80 vs. 100). Functional status was estimated by the Karnofsky Performance Scale (see Statistical analysis 1). P \< 0.05 is regarded as statistically significant.|Regression, Cox|||"The association of Functional status (Karnofsky score \< 80 vs. 100) with time to first peritonitis episode was analysed by univariable Cox regression."||1.85|0.69|0.63
92418562|NCT01293799|184724957|OTHER||Hazard Ratio (HR)|0.9||||0.71|TWO_SIDED|95.0|0.54|1.53||Unit of measure: Visual impairment (yes vs. no). P-value \< 0.05 is regarded as statistically significant.|Regression, Cox|||"The association of the Social Factor Visual Impairment (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression."||1.53|0.54|0.71
92278794|NCT00135707|184460316|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.67||||0.05|TWO_SIDED|95.0|0.45|1.01|||Chi-squared|||||1.01|0.45|0.05
92278795|NCT00135707|184460317|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.65
92278796|NCT00135707|184460318|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.21
92278797|NCT00135707|184460319|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.97||||0.63|TWO_SIDED|95.0|0.87|1.09|||Chi-squared|||\<37 weeks' gestation||1.09|0.87|0.63
92278798|NCT00135707|184460319|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.86||||0.16|TWO_SIDED|95.0|0.69|1.06|||Chi-squared|||\<32 weeks' gestation||1.06|0.69|0.16
92390053|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390054|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390055|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
92390056|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390057|NCT01128426|184680559|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92390058|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.91|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.91
92390059|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390060|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92390061|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390062|NCT01128426|184680559|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92169903|NCT00520546|184228467|SUPERIORITY_OR_OTHER||accuracy|88.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92169904|NCT00520546|184228468|SUPERIORITY_OR_OTHER||positive prediction|67.0||||0.002||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.002
92390063|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.59|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.59
92390064|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92390065|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390066|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
92390067|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.86|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.86
92390068|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390069|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92390070|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.1|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.10
92390071|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
92418563|NCT01293799|184724958|OTHER||Hazard Ratio (HR)|1.29||||0.29|TWO_SIDED|95.0|0.8|2.06||"Unit of measure: Impaired Hand Function (yes vs. no). P-value \< 0.05 is considered statistically significant."|Regression, Cox|Univariable Cox regression||"The association of Impaired Hand Function (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression."||2.06|0.80|0.29
92169905|NCT00520546|184228468|SUPERIORITY_OR_OTHER||negative prediction|69.0||||0.002||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.002
92390072|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390073|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.19|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.19
92390074|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
92390075|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
92390076|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.35|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.35
92169906|NCT00520546|184228468|SUPERIORITY_OR_OTHER||sensitivity|86.0||||0.002||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.002
92278799|NCT00135707|184460320|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.53|TWO_SIDED|95.0|0.72|1.19|||Chi-squared|||||1.19|0.72|0.53
92390077|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92390078|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.42|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.42
92390079|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.29|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.29
92390080|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.11|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.11
92390081|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||1|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||1.00
92390082|NCT01128426|184680560|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92390083|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.16|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.16
92390084|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.19|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.19
92418564|NCT01293799|184724959|OTHER||Hazard Ratio (HR)|0.68||||0.016|TWO_SIDED|95.0|0.5|0.93||"Units of measure: Working full or part time (yes vs no). P-value \< 0.05 is considered significant."|Regression, Cox|Univariable Cox regression||"The association of Working Full or Part Time (yes vs. no) with time to first peritonitis episode analysed by univariable Cox regression. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the procedure was found."||0.93|0.50|0.016
92418565|NCT01293799|184724960|OTHER||Hazard Ratio (HR)|1.32||||0.041|TWO_SIDED|95.0|1.01|1.73||"Unit of measure: Retired (yes vs. no). P-value \< 0.05 is considered significant."|Regression, Cox|Univariable Cox regression||"The association of being retired (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the procedure was found."||1.73|1.01|0.041
92235271|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.64|1.56|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 6B: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.56|0.64|
92235272|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|1.9|||||TWO_SIDED|95.0|1.14|3.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 7F: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||3.04|1.14|
92418566|NCT01293799|184724961|OTHER||Hazard Ratio (HR)|1.31||||0.064|TWO_SIDED|95.0|0.98|1.76||"Unit of measure: Living alone (yes vs. no). P-value \< 0.05 is considered significant."|Regression, Cox|Univariable Cox regression||"The association of Living alone (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression."||1.76|0.98|0.064
92418567|NCT01293799|184724962|OTHER||Hazard Ratio (HR)|0.48||||0.14|TWO_SIDED|95.0|0.18|1.29||"Unit of measure: Need for translation/interpreter (yes vs. no). P-value \< 0.05 is considered significant."|Regression, Cox|Univariable Cox regression||"The association of Need for translation/interpreter with time to first peritonitis episode was analysed by univariable Cox regression."||1.29|0.18|0.14
92235273|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|1.7|||||TWO_SIDED|95.0|1.01|2.85|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 9V: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.85|1.01|
92235274|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|1.9|||||TWO_SIDED|95.0|1.26|2.87|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 14: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.87|1.26|
92235275|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.57|1.19|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 18C: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.19|0.57|
92235276|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.75|1.31|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 19A: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.31|0.75|
92418568|NCT01293799|184724963|OTHER||Hazard Ratio (HR)|1.11||||0.6|TWO_SIDED|95.0|0.75|1.65||"Unit of measure: Current smoking (yes vs. no). P-value \< 0.05 is considered significant."|Regression, Cox|Univariable Cox regression||"The association of Current smoking (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression."||1.65|0.75|0.60
92169907|NCT00520546|184228468|SUPERIORITY_OR_OTHER||specificity|43.0||||0.002||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.002
92235277|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.93|2.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 19F: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.04|0.93|
92235278|NCT01025336|184373547|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.5|1.15|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 23F: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.15|0.50|
92235279|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.03|1.31|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.31|1.03|
92235280|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.07|1.37|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.37|1.07|
92278800|NCT00135707|184460321|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.55
92278801|NCT00135707|184460322|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.98|TWO_SIDED|95.0|0.79|1.27|||Chi-squared|||||1.27|0.79|0.98
92390085|NCT01128426|184680560|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92390086|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.4|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.40
92390087|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
92390088|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390089|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390090|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390091|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
92390092|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
92390093|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390094|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
92390095|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
92390096|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
92390097|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390098|NCT01128426|184680560|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92390099|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
92390100|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92390101|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92390102|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92390103|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390104|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
92390105|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.65|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.65
92390106|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390107|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.1|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.10
92390108|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
92390109|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
92390110|NCT01128426|184680560|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92390111|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.91|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.91
92390112|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390113|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92390114|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390115|NCT01128426|184680560|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92169908|NCT00520546|184228468|SUPERIORITY_OR_OTHER||accuracy|67.0||||0.002||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.002
92235281|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.6|2.68|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.68|1.60|
92390116|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
92390117|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
92390118|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92390119|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
92390120|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92418569|NCT01293799|184724964|OTHER||Hazard Ratio (HR)|0.96||||0.18|TWO_SIDED|95.0|0.9|1.02||"Unit of measure: Serum creatinine (HR per 100 micromol/L. P-value \< 0.05 is considered significant."|Regression, Cox|Univariable Cox regression||"The association of Serum creatinine (Hazard ratio per 100 micromol/L with time to first peritonitis episode was analysed by univariable Cox regression."||1.02|0.90|0.18
92418570|NCT01293799|184724965|OTHER||Hazard Ratio (HR)|0.96||||0.34|TWO_SIDED|95.0|0.9|1.04||Unit of measure: Serum urea (Hazard ratio per 5 mmol/L). P-value \< 0.05 is considered significant.|Regression, Cox|Univariable Cox regression||"The association of Serum urea (Hazard ratio per 5 mmol/l) with time to first peritonitis episode was analysed by univariable Cox regression."||1.04|0.90|0.34
92418571|NCT01293799|184724966|OTHER||Hazard Ratio (HR)|0.88||||0.019|TWO_SIDED|95.0|0.79|0.98||Unit of measure: Serum albumin (Hazard ratio per 5g/L). P-value \< 0.05 is considered significant.|Regression, Cox|Univariable Cox regression||The association of Serum albumin (Hazard ratio per 5 g/L) with time to first peritonitis episode was analysed by univariable Cox regression. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the procedure was found.||0.98|0.79|0.019
92418572|NCT01293799|184724967|OTHER||Hazard Ratio (HR)|1.41||||0.013|TWO_SIDED|95.0|1.08|1.82||Unit of measure: Serum albumin (\<35 g/L vs. 35 g/L or more). P-value \<0.05 is regarded as significant.|Regression, Cox|Univariable Cox regression||Analysis of the association of serum albumin (\<35 g/L vs. 35 g/l or more) with time to first peritonitis episode by univariable Cox regression. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the procedure was found.||1.82|1.08|0.013
92418573|NCT01293799|184724967|OTHER||Hazard Ratio (HR)|1.39||||0.015|TWO_SIDED|95.0|1.06|1.82||Unit of measure: Serum albumin (\<35 g/l vs. 35 g/l or more). P-value \<0.05 is regarded as significant.|Regression, Cox|Multivariable Cox regression||Analysis of the association of serum albumin (\<35 g/L vs. 35 g/L or more) with time to first peritonitis episode by multivariable Cox regression.||1.82|1.06|0.015
92418574|NCT01293799|184724968|OTHER||Hazard Ratio (HR)|0.76||||0.61|TWO_SIDED|95.0|0.27|2.17||Unit of measure: Haemoglobin (HR per 10 g/L). P-value \< 0.05 was considered significant.|Regression, Cox|Univariable Cox regression||The association of Haemoglobin (Hazard ratio per 10 g/L) with time to first peritonitis episode was analysed by univariable Cox regression.||2.17|0.27|0.61
92418575|NCT01293799|184724969|OTHER||Hazard Ratio (HR)|0.82||||0.33|TWO_SIDED|95.0|0.54|1.23||"Unit of measure. The time-dependent variable Corticosteroid treatment (yes vs. no). Time-updated data were used. P-value \< 0.05 was considered significant."|Regression, Cox|Time-dependent univariable Cox regression||"The association of the time-dependent variable Corticosteroid treatment (yes vs. no) with time to first peritonitis episode was analysed by time-dependent univariable Cox regression."||1.23|0.54|0.33
92418576|NCT01293799|184724970|OTHER||Hazard Ratio (HR)|1.14||||0.6|TWO_SIDED|95.0|0.7|1.84||Unit of measure: Cytotoxic treatment (yes vs. no). Time-updated data was used. P-value \< 0.05 was considered significant.|Regression, Cox|Time-updated univariable Cox regression||"The association of the time-dependent variable Cytotoxic treatment (yes vs. no) with time to first peritonitis episode was analysed by univariable time-dependent Cox regression."||1.84|0.70|0.60
92390121|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390122|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
92390123|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.19|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.19
92390124|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92390125|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
92390126|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
92390127|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92418577|NCT01293799|184724971|OTHER||Hazard Ratio (HR)|1.07||||0.72|TWO_SIDED|95.0|0.73|1.57||Unit of measure: Type of PD start (planned vs. acute). P-value \< 0.05 was considered significant.|Regression, Cox|Univariable Cox regression||"The association of Type of PD start with time to first peritonitis episode was analysed by univariable Cox regression."||1.57|0.73|0.72
92418578|NCT01293799|184724972|OTHER||Hazard Ratio (HR)|1.08||||0.77|TWO_SIDED|95.0|0.66|1.76||Unit of measure: Antibiotics prior to PD catheter insertion (yes vs. no). P-value \< 0.05 is considered significant.|Regression, Cox|Univariable Cox regression||"The association of Antibiotics prior to PD catheter insertion (yes vs. no) with time to first peritonitis episode was analysed by univariable Cox regression."||1.76|0.66|0.77
92418579|NCT01293799|184724973|OTHER||Hazard Ratio (HR)|0.94||||0.68|TWO_SIDED|95.0|0.68|1.28||Unit of measure: Type of PD-catheter (straight vs. coiled). P-value \< 0.05 is considered significant.|Regression, Cox|Univariable Cox regression||"The association of Type of PD catheter used (straight vs. coiled) with time to first peritonitis episode was analysed by univariable Cox regression."||1.28|0.68|0.68
92418580|NCT01293799|184724974|OTHER||Hazard Ratio (HR)|1.26||||0.1|TWO_SIDED|95.0|0.96|1.66||Unit of measure: PD modality (CAPD, continuous ambulatory peritoneal dialysis vs. APD, automated peritoneal dialysis). Time-updated data were used. P-value \< 0.05 is regarded as significant.|Regression, Cox|Univariable time-dependent Cox regression||The PD modality (CAPD or APD) may vary with time and is thus time-dependent. Data were included as time-varying covariates in a time-dependent Cox regression. Univariable Cox regression was used to identify variables significantly associated with time to first peritonitis episode. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the procedure was found.||1.66|0.96|0.10
92418581|NCT01293799|184724975|OTHER||Hazard Ratio (HR)|1.35|||<|0.0001|TWO_SIDED|95.0|1.17|1.57||Unit of measure: Number of PD bags used/24h. Time-updated data was used. P-value \<0.05 was regarded as significant.|Regression, Cox|Univariable time-dependent Cox regression. (The result of multivariable Cox regression is presented in Statistical analysis 2)||The data regarding the number of PD bags used/24h were included as time-varying covariates in a time-dependent Cox regression. Univariable Cox regression was used to identify variables significantly associated with time to first peritonitis episode. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity was found. The risk (hazard ratio) associated with the studied variable is reported.||1.57|1.17|< 0.0001
92418582|NCT01293799|184724975|OTHER||Hazard Ratio (HR)|1.32|||<|0.0005|TWO_SIDED|95.0|1.13|1.54||Unit of measure: Number of PD bags used /24h. Time-updated data was used. P-value \< 0.05 was regarded as significant.|Regression, Cox|Multivariable time-dependent Cox regression||"Analysis of the association of Number of PD bags used per 24 hours with time to first peritonitis episode by multivariable time-dependent Cox regression. The multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity among the factors affecting the backward elimination procedure was found. The risk (hazard ratio) associated with the studied variable is reported."||1.54|1.13|<0.0005
92418583|NCT01293799|184724976|OTHER||Hazard Ratio (HR)|1.03||||0.13|TWO_SIDED|95.0|0.99|1.08||Unit of measure: Volume of dialysis fluid/24h (L). Time-updated data was used. P-value \< 0.05 was considered significant.|Regression, Cox|Univariable time-dependent Cox regression||"Data regarding Volume of dialysis fluid used/24h was included as time-varying covariates in a time-dependent Cox regression. Univariable Cox regression was used to identify variables significantly associated with time to first peritonitis episode. Multivariable Cox regression was performed using a backward elimination procedure stopping when all remaining factors were significant at p \< 0.05. No collinearity was found. The risk (hazard ratio) associated with the studied variable is reported."||1.08|0.99|0.13
92418584|NCT01293799|184724977|OTHER||Hazard Ratio (HR)|1.04||||0.79|TWO_SIDED|95.0|0.77|1.41||Unit of measure: Help needed with exit-site care (yes vs. no). Time-updated data was used. P-value \< 0.05 was considered significant.|Regression, Cox|Univariable time-dependent Cox regression||"Data regarding the variable Help needed with exit-site care (yes vs. no) were included as time-varying covariates in a univariable time-dependent Cox regression in order to identify variables significantly associated with time to first peritonitis episode. The risk (hazard ratio) associated with the studied variable is reported.."||1.41|0.77|0.79
92418585|NCT01293799|184724978|OTHER||Hazard Ratio (HR)|0.92||||0.52|TWO_SIDED|95.0|0.71|1.19||Unit of measure: Study group (retraining group vs. control group). P-value \<0.05 is regarded as significant.|Regression, Cox|||Association ot the Retraining group vs. the Control group with time to first peritonitis episode by univariable Cox regression||1.19|0.71|0.52
92418586|NCT03160859|184724995|SUPERIORITY|||||||0.62|||||||Chi-squared|||Chi Square||||0.62
92418587|NCT01101191|184725032|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|103.0|||||TWO_SIDED|90.0|98.67|106.66|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||106.66|98.67|
92418588|NCT01101191|184725033|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|97.0|||||TWO_SIDED|90.0|94.2|99.81|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||99.81|94.20|
92418589|NCT01101191|184725034|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|97.1|||||TWO_SIDED|90.0|94.41|99.94|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||99.94|94.41|
92418590|NCT03044574|184725035|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92418591|NCT03044574|184725036|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.03
92418592|NCT03044574|184725037|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92418593|NCT03044574|184725038|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.03
92418594|NCT03044574|184725039|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92418595|NCT03044574|184725040|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92418596|NCT03044574|184725041|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92418597|NCT03044574|184725043|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92278802|NCT00135707|184460323|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93||||0.32|TWO_SIDED|95.0|0.81|1.07|||Chi-squared|||||1.07|0.81|0.32
92235282|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.8|||||TWO_SIDED|95.0|1.55|2.03|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.03|1.55|
92235283|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.79|1.07|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.07|0.79|
92235284|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.05|1.53|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.53|1.05|
92235285|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.6|||||TWO_SIDED|95.0|1.98|3.5|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||3.50|1.98|
92390128|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390129|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92390130|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
92390131|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.8|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.80
92418598|NCT04779216|184725051|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92418599|NCT02674854|184725059|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|PG324 vs. netarsudil||||||<0.0001
92418600|NCT02674854|184725059|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|PG324 vs. latanoprost||||||<0.0001
92418601|NCT02635646|184725060|OTHER|T test for mean comparisons between independent groups||||||0.844||||||Significant p value less than 0.05|t-test, 2 sided|||||||0.844
92418602|NCT02635646|184725061|OTHER|||||||0.624|||||||t-test, 2 sided|||||||0.624
92418603|NCT02635646|184725062|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92235286|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.37|2.61|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.61|1.37|
92235287|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.33|1.86|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.86|1.33|
92235288|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.1|1.42|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.42|1.10|
92278803|NCT00135707|184460324|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||0.58|TWO_SIDED|95.0|0.92|1.15|||Chi-squared|||||1.15|0.92|0.58
92278804|NCT00135707|184460325|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.04||||0.75|TWO_SIDED|95.0|0.83|1.3|||Chi-squared|||||1.30|0.83|0.75
92278805|NCT00135707|184460326|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.85||||0.78|TWO_SIDED|95.0|0.29|2.54|||Chi-squared|||||2.54|0.29|0.78
92390132|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
92418604|NCT02635646|184725063|OTHER|||||||0.516|||||||t-test, 2 sided|||||||0.516
92418605|NCT02635646|184725064|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92446353|NCT02741115|184779766|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.321||0.011|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline maximal VO2. LOCF imputation.||||||0.011
92446354|NCT02741115|184779767|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.903||0.696|TWO_SIDED||||||ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline VO2. LOCF imputation.||||||0.696
92446355|NCT02741115|184779768|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|1.319||0.915|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline maximal VO2. LOCF imputation.||||||0.915
92278806|NCT00135707|184460327|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.34|TWO_SIDED|95.0|0.76|2.23|||Chi-squared|||||2.23|0.76|0.34
92278807|NCT00135707|184460328|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.71||||0.41|TWO_SIDED|95.0|0.32|1.6|||Chi-squared|||||1.60|0.32|0.41
92278808|NCT00135707|184460329|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.18||||0.62|TWO_SIDED|95.0|0.61|2.3|||Chi-squared|||||2.30|0.61|0.62
92278809|NCT00135707|184460330|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.85||||0.56|TWO_SIDED|95.0|0.49|1.48|||Chi-squared|||||1.48|0.49|0.56
92390133|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
92418606|NCT02387476|184725067|NON_INFERIORITY|This analysis was planned to assume a non-inferiority (NI) margin of 5 units and a 1-sided alpha level of 2.5%. A 2-sided 95% confidence interval (CI) was also planned to be provided around the difference between treatments, where non-inferiority would also be demonstrated if the upper bound of the 95% CI is less than or equal to the NI margin of 5 units. In this scenario, the 2-sided 95% CI equates to testing the 1-sided non-inferiority hypothesis.|Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|1.13|<|0.001|TWO_SIDED|95.0|-1.7|2.9||The p-value to test non-inferiority of FRESCA Mask compared with CPAP Mask (FRESCA-CPAP\<5 units) assumes a 1-sided test using a level of significance of 2.5% and NI margin of 5 units.|t-test, 1 sided||The mean AHI is rounded to a single decimal point in the text of the report (3.0 and 2.4, respectively), in order to be consistent with standard reporting of AHI.|This analysis was planned to assume a non-inferiority (NI) margin of 5 units and a 1-sided alpha level of 2.5%. A 2-sided 95% confidence interval (CI) was also planned to be provided around the difference between treatments, where non-inferiority would also be demonstrated if the upper bound of the 95% CI is less than or equal to the NI margin of 5 units. In this scenario, the 2-sided 95% CI equates to testing the 1-sided non-inferiority hypothesis.||2.9|-1.7|<0.001
92418607|NCT02387476|184725068|NON_INFERIORITY|This analysis was planned to assume a non-inferiority (NI) margin of 5 units and a 1-sided alpha level of 2.5%. A 2-sided 95% confidence interval (CI) was also planned to be provided around the difference between treatments, where non-inferiority would also be demonstrated if the upper bound of the 95% CI is less than or equal to the NI margin of 5 units. In this scenario, the 2-sided 95% CI equates to testing the 1-sided non-inferiority hypothesis.|Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|0.36|<|0.001|TWO_SIDED|95.0|-0.4|1.0||The p-value to test non-inferiority of FRESCA Mask compared with CPAP Mask (FRESCA-CPAP\<5 units) assumes a 1-sided test using a level of significance of 2.5% and NI margin of 5 units.|t-test, 1 sided||The mean ODI values are rounded to a single decimal point value in the text of the table (1.4 and 1.1, respectively) to ensure consistency with ODI reporting standards.|This analysis was planned to assume a non-inferiority (NI) margin of 5 units and a 1-sided alpha level of 2.5%. A 2-sided 95% confidence interval (CI) was also planned to be provided around the difference between treatments, where non-inferiority would also be demonstrated if the upper bound of the 95% CI is less than or equal to the NI margin of 5 units. In this scenario, the 2-sided 95% CI equates to testing the 1-sided non-inferiority hypothesis.||1.0|-0.4|<0.001
92418608|NCT01076075|184725099|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.68|||<|0.001|TWO_SIDED|95.0|-0.87|-0.5|||ANCOVA|Based on an ANCOVA model controlling for treatment, stratum (type of sulfonylurea) and baseline value.||Pairwise comparison - Sitagliptin vs. Placebo, using the difference in the Least Squares Means.||-0.50|-0.87|<0.001
92390134|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.92|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.92
92390135|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.76|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.76
92390136|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.91|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.91
92390137|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
92418609|NCT01076075|184725100|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-33.5|||<|0.001|TWO_SIDED|95.0|-45.3|-21.7|||ANCOVA|Based on an ANCOVA model controlling for treatment, stratum (type of sulfonylurea) and baseline value.||Pairwise comparison - Sitagliptin vs. Placebo, difference in the Least Squares Means.||-21.7|-45.3|<0.001
92418610|NCT01076075|184725101|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-18.6|||<|0.001|TWO_SIDED|95.0|-26.4|-10.7|||ANCOVA|Based on an ANCOVA model controlling for treatment, stratum (type of sulfonylurea) and baseline value.||Pairwise comparison - Sitagliptin vs. Placebo, using the difference in the Least Squares Means.||-10.7|-26.4|<0.001
92418611|NCT02751931|184725104|OTHER||Mean Difference (Net)|72.09|||<|0.001|TWO_SIDED|95.0|45.28|98.89||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||98.89|45.28|<0.001
92418612|NCT02751931|184725104|OTHER||Mean Difference (Net)|113.21|||<|0.001|TWO_SIDED|95.0|78.95|147.47||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||147.47|78.95|<0.001
92169909|NCT00520546|184228468|SUPERIORITY_OR_OTHER||positive prediction|59.0||||0.41||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.41
92235289|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.14|1.43|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.43|1.14|
92390138|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390139|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390140|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390141|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390142|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92169910|NCT00520546|184228468|SUPERIORITY_OR_OTHER||negative prediction|46.0||||0.41||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.41
92235290|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.2|||||TWO_SIDED|95.0|1.8|2.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.60|1.80|
92390143|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.34|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.34
92390144|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
92390145|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390146|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
92390147|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390148|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92418613|NCT02751931|184725105|OTHER||Mean Difference (Net)|-4.09||||0.618|TWO_SIDED|95.0|-20.55|12.38||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||12.38|-20.55|0.618
92235291|NCT01025336|184373548|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.44|2.06|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.06|1.44|
92278810|NCT00135707|184460331|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.79
92390149|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390150|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.4|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.40
92390151|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390152|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390153|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92390154|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92390155|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390156|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390157|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.8|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.80
92390158|NCT01128426|184680561|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390159|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390160|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92390161|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
92390162|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390163|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
92390164|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.34|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.34
92390165|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390166|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
92169911|NCT00520546|184228468|SUPERIORITY_OR_OTHER||sensitivity|66.0||||0.41||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.41
92390167|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.35|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.35
92390168|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.84|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.84
92390169|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.64|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.64
92390170|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390171|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
92390172|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
92418614|NCT02751931|184725105|OTHER||Mean Difference (Net)|15.16||||0.005|TWO_SIDED|95.0|5.1|25.22||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||25.22|5.10|0.005
92418615|NCT02751931|184725105|OTHER||Mean Difference (Net)|14.62||||0.055|TWO_SIDED|95.0|-0.31|29.54||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||29.54|-0.31|0.055
92418616|NCT02751931|184725105|OTHER||Mean Difference (Net)|13.59|||<|0.001|TWO_SIDED|95.0|6.75|20.42||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||20.42|6.75|<0.001
92418617|NCT02751931|184725106|OTHER||Mean Difference (Net)|41.36|||<|0.001|TWO_SIDED|95.0|18.75|63.97||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change from Baseline at week 4 - Children.||63.97|18.75|<0.001
92418618|NCT02751931|184725106|OTHER||Mean Difference (Net)|80.78|||<|0.001|TWO_SIDED|95.0|39.2|122.36||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||122.36|39.20|<0.001
92418619|NCT02751931|184725107|OTHER||Mean Difference (Net)|0.44||||0.632|TWO_SIDED|95.0|-1.4|2.28||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||2.28|-1.40|0.632
92278811|NCT00135707|184460332|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02||||0.86|TWO_SIDED|95.0|0.82|1.26|||Chi-squared|||||1.26|0.82|0.86
92390173|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390174|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92390175|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
92390176|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390177|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390178|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
92390179|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.9|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.90
92390180|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
92390181|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390182|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390183|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390184|NCT01128426|184680562|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92390185|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390186|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
92390187|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.34|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.34
92390188|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.54|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.54
92235292|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|1.2|||||TWO_SIDED|95.0|0.87|1.64|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 1: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.64|0.87|
92235293|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|0.8|||||TWO_SIDED|95.0|0.63|1.08|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 3: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.08|0.63|
92235294|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|1.9|||||TWO_SIDED|95.0|1.25|2.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 4: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||2.80|1.25|
92390189|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92418620|NCT02751931|184725107|OTHER||Mean Difference (Net)|-0.64||||0.321|TWO_SIDED|95.0|-1.94|0.67|||t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||0.67|-1.94|0.321
92418621|NCT02751931|184725107|OTHER||Mean Difference (Net)|-1.86||||0.011|TWO_SIDED|95.0|-3.27|-0.45||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||-0.45|-3.27|0.011
92418622|NCT02751931|184725107|OTHER||Mean Difference (Net)|-0.77||||0.359|TWO_SIDED|95.0|-2.49|0.94||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||0.94|-2.49|0.359
92418623|NCT02751931|184725108|OTHER||Mean Difference (Net)|-12.38|||<|0.001|TWO_SIDED|95.0|-18.56|-6.21||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||-6.21|-18.56|<0.001
92418624|NCT02751931|184725108|OTHER||Mean Difference (Net)|-6.48||||0.334|TWO_SIDED|95.0|-20.09|7.13||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||7.13|-20.09|0.334
92418625|NCT02751931|184725108|OTHER||Mean Difference (Net)|-18.11|||<|0.001|TWO_SIDED|95.0|-24.87|-11.35||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||-11.35|-24.87|<0.001
92418626|NCT02751931|184725108|OTHER||Mean Difference (Net)|-13.19||||0.005||95.0|-22.02|-4.36||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||-4.36|-22.02|0.005
92235295|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|1.0|||||TWO_SIDED|95.0|0.71|1.53|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 5: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.53|0.71|
92235296|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|7.3|||||TWO_SIDED|95.0|4.67|11.44|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 6A: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||11.44|4.67|
92235297|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|2.6|||||TWO_SIDED|95.0|1.61|4.17|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 6B: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||4.17|1.61|
92390190|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92418627|NCT02751931|184725109|OTHER||||||<|0.001||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 4 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 4 - Children||||<0.001
92418628|NCT02751931|184725109|OTHER|||||||0.148||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 4 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 4 - Adolescents||||0.148
92418629|NCT02751931|184725109|OTHER|||||||0.002||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 24 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 24 - Children||||0.002
92418630|NCT02751931|184725109|OTHER|||||||0.039||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 24 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 24 - Adolescents||||0.039
92418631|NCT02751931|184725110|OTHER||||||<|0.001||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 4 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 4 - Children||||<0.001
92418632|NCT02751931|184725110|OTHER|||||||0.007||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 4 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 4 - Adolescents||||0.007
92390191|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390192|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390193|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92418633|NCT02751931|184725110|OTHER||||||<|0.001||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 24 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 24 - Children||||< 0.001
92418634|NCT02751931|184725110|OTHER||||||<|0.001||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 24 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 24 - Adolescents||||< 0.001
92169912|NCT00520546|184228468|SUPERIORITY_OR_OTHER||specificity|38.0||||0.41||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.41
92169913|NCT00520546|184228468|SUPERIORITY_OR_OTHER||accuracy|54.0||||0.41||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.41
92390194|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
92390195|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
92390196|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390197|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92390198|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390199|NCT01128426|184680562|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390200|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92390201|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
92390202|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92390203|NCT01128426|184680563|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92390204|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390205|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390206|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390207|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92278812|NCT00135707|184460333|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.12||||0.32|TWO_SIDED|95.0|0.89|1.42|||Chi-squared|||||1.42|0.89|0.32
92278813|NCT01681030|184460334|SUPERIORITY_OR_OTHER||Proportion|0.923|||||TWO_SIDED|95.0|0.64|0.998|||||CI for EVARREST Group|||0.998|0.640|
92390208|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
92390209|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.58|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.58
92390210|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
92390211|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.39|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.39
92390212|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
92390213|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
92390214|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390215|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92418635|NCT02751931|184725111|OTHER||||||<|0.001||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline was equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||||<0.001
92418636|NCT02751931|184725111|OTHER|||||||0.006||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline was equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||||0.006
92418637|NCT02751931|184725111|OTHER||||||<|0.001||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline was equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||||< 0.001
92235298|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|2.0|||||TWO_SIDED|95.0|1.22|3.29|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 7F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||3.29|1.22|
92235299|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|1.6|||||TWO_SIDED|95.0|0.96|2.77|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 9V: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||2.77|0.96|
92235300|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|0.8|||||TWO_SIDED|95.0|0.54|1.28|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 14: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.28|0.54|
92235301|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|1.4|||||TWO_SIDED|95.0|0.92|2.07|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 18C: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||2.07|0.92|
92278814|NCT01681030|184460334|SUPERIORITY_OR_OTHER||Proportion|0.333|||||TWO_SIDED|95.0|0.133|0.59|||||CI for Topical Hemostat group|||0.590|0.133|
92390216|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
92390217|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
92390218|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390219|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.32|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.32
92390220|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
92390221|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.76|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.76
92418638|NCT02751931|184725111|OTHER|||||||0.001||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline was equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||||0.001
92169914|NCT00520546|184228468|SUPERIORITY_OR_OTHER||positive prediction|86.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92235302|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|1.4|||||TWO_SIDED|95.0|1.01|1.83|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 19A: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.83|1.01|
92235303|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|1.2|||||TWO_SIDED|95.0|0.77|1.78|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 19F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.78|0.77|
92235304|NCT01025336|184373549|SUPERIORITY_OR_OTHER||Ratio|3.0|||||TWO_SIDED|95.0|1.97|4.64|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 23F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||4.64|1.97|
92235305|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|1.6|||||TWO_SIDED|95.0|1.15|2.15|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 1: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.15|1.15|
92278815|NCT01681030|184460334|SUPERIORITY_OR_OTHER||Proportion|0.455|||||TWO_SIDED|95.0|0.167|0.766|||||CI for Standard of Care group|||0.766|0.167|
92280553|NCT00601484|184463653|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.986|||TWO_SIDED|90.0|-2.782|0.535||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.535|-2.782|
92280554|NCT00601484|184463653|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.11|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|-3.036|0.819||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.819|-3.036|
92390222|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.29|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.29
92390223|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.58|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.58
92390224|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.92|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.92
92418639|NCT02751931|184725112|OTHER||Mean Difference (Net)|14.58||||0.035|TWO_SIDED|95.0|1.0|28.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||28.1|1.0|0.035
92418640|NCT02751931|184725112|OTHER||Mean Difference (Net)|35.99||||0.003|TWO_SIDED|95.0|13.1|58.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||58.9|13.1|0.003
92235306|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|1.0|||||TWO_SIDED|95.0|0.76|1.32|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 3: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||1.32|0.76|
92390225|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
92235307|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|1.8|||||TWO_SIDED|95.0|1.09|3.05|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 4: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||3.05|1.09|
92390226|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390227|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390228|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390229|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390230|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390231|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390232|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92390233|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
92390234|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390235|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.35|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.35
92390236|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390237|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.3|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.30
92390238|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.34|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.34
92390239|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390240|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
92390241|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390242|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390243|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390244|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
92390245|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92235308|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|1.4|||||TWO_SIDED|95.0|0.95|1.96|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 5: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||1.96|0.95|
92235309|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|4.8|||||TWO_SIDED|95.0|3.05|7.5|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 6A: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||7.50|3.05|
92390246|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92418641|NCT02751931|184725112|OTHER||Mean Difference (Net)|30.08|||<|0.001|TWO_SIDED|95.0|14.7|45.5||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||45.5|14.7|<0.001
92418642|NCT02751931|184725112|OTHER||Mean Difference (Net)|51.96|||<|0.001|TWO_SIDED|95.0|24.6|79.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||79.3|24.6|<0.001
92418643|NCT02751931|184725112|OTHER||Mean Difference (Net)|36.9|||<|0.001|TWO_SIDED|95.0|22.7|51.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||51.1|22.7|<0.001
92418644|NCT02751931|184725112|OTHER||Mean Difference (Net)|45.1|||<|0.001|TWO_SIDED|95.0|21.3|68.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||68.9|21.3|<0.001
92418645|NCT02751931|184725112|OTHER||Mean Difference (Net)|32.25|||<|0.001|TWO_SIDED|95.0|18.2|46.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||46.3|18.2|<0.001
92418646|NCT02751931|184725112|OTHER||Mean Difference (Net)|43.94||||0.001|TWO_SIDED|95.0|19.2|68.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||68.6|19.2|0.001
92235310|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|2.3|||||TWO_SIDED|95.0|1.4|3.64|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 6B: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||3.64|1.40|
92235311|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|1.0|||||TWO_SIDED|95.0|0.58|1.62|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 7F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||1.62|0.58|
92390247|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.76|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.76
92390248|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.54|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.54
92390249|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390250|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92390251|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390252|NCT01128426|184680563|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390253|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0 .63
92418647|NCT02751931|184725112|OTHER||Mean Difference (Net)|41.63|||<|0.001|TWO_SIDED|95.0|23.3|60.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||60.0|23.3|<0.001
92418648|NCT02751931|184725112|OTHER||Mean Difference (Net)|59.31||||0.002|TWO_SIDED|95.0|23.8|94.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||94.9|23.8|0.002
92418649|NCT02751931|184725112|OTHER||Mean Difference (Net)|53.87|||<|0.001|TWO_SIDED|95.0|24.5|83.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||83.2|24.5|<0.001
92418650|NCT02751931|184725112|OTHER||Mean Difference (Net)|52.14||||0.002|TWO_SIDED|95.0|20.5|83.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||83.8|20.5|0.002
92418651|NCT02751931|184725112|OTHER||Mean Difference (Net)|42.84|||<|0.001|TWO_SIDED|95.0|22.0|63.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||63.7|22.0|<0.001
92418652|NCT02751931|184725112|OTHER||Mean Difference (Net)|42.4||||0.008|TWO_SIDED|95.0|12.5|72.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||72.3|12.5|0.008
92235312|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|1.4|||||TWO_SIDED|95.0|0.83|2.32|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 9V: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.32|0.83|
92390254|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
92390255|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92390256|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.6|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.60
92390257|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
92418653|NCT02751931|184725113|OTHER||Mean Difference (Net)|17.5||||0.126|TWO_SIDED|95.0|-5.1|40.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||40.1|-5.1|0.126
92418654|NCT02751931|184725113|OTHER||Mean Difference (Net)|42.38||||0.014|TWO_SIDED|95.0|9.3|75.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||75.4|9.3|0.014
92418655|NCT02751931|184725113|OTHER||Mean Difference (Net)|46.69|||<|0.001|TWO_SIDED|95.0|21.7|71.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||71.7|21.7|<0.001
92418656|NCT02751931|184725113|OTHER||Mean Difference (Net)|73.25||||0.002|TWO_SIDED|95.0|29.3|117.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||117.2|29.3|0.002
92418657|NCT02751931|184725113|OTHER|Pre-Specified|Mean Difference (Net)|45.27|||<|0.001|TWO_SIDED|95.0|22.1|68.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||68.4|22.1|<0.001
92390258|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390259|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92390260|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92235313|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|0.9|||||TWO_SIDED|95.0|0.58|1.4|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 14: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||1.40|0.58|
92390261|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390262|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.11|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.11
92390263|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
92390264|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390265|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92390266|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390267|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
92390268|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
92390269|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.36|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.36
92418658|NCT02751931|184725113|OTHER||Mean Difference (Net)|42.86||||0.02|TWO_SIDED|95.0|7.4|78.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||78.3|7.4|0.020
92418659|NCT02751931|184725113|OTHER||Mean Difference (Net)|33.23||||0.003|TWO_SIDED|95.0|12.2|54.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||54.3|12.2|0.003
92418660|NCT02751931|184725113|OTHER||Mean Difference (Net)|47.29||||0.003|TWO_SIDED|95.0|17.8|76.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||76.8|17.8|0.003
92418661|NCT02751931|184725113|OTHER||Mean Difference (Net)|49.88||||0.004|TWO_SIDED|95.0|17.1|82.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||82.6|17.1|0.004
92418662|NCT02751931|184725113|OTHER||Mean Difference (Net)|84.39||||0.003|TWO_SIDED|95.0|31.6|137.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||137.1|31.6|0.003
92235314|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|1.6|||||TWO_SIDED|95.0|1.09|2.41|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 18C: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.41|1.09|
92235315|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|1.5|||||TWO_SIDED|95.0|1.1|2.03|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 19A: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.03|1.10|
92235316|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|1.3|||||TWO_SIDED|95.0|0.89|2.02|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 19F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.02|0.89|
92235317|NCT01025336|184373550|SUPERIORITY_OR_OTHER||Ratio|1.9|||||TWO_SIDED|95.0|1.27|2.97|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 23F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.97|1.27|
92235318|NCT02255838|184373576|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|paired t-test||||||<0.05
92235319|NCT04207710|184373580|SUPERIORITY|||||||0.317||||||A priori threshold for significance was p\<0.05.|Friedman|||Comparison of incidence of positive growth in samples obtained following application of ChloraPrep vs. ChloraPrep followed by Gebauer's Ethyl Chloride.||||0.317
92235320|NCT04207710|184373580|SUPERIORITY|||||||0.317||||||A priori threshold was p\<0.05|Friedman|||Comparison of incidence of positive growth in samples obtained following application of ChloraPrep vs. ChloraPrep followed by Gebauer's Ethyl Chloride.||||0.317
92235321|NCT04207710|184373580|SUPERIORITY|||||||0.317||||||A priori threshold was p\<0.05|Friedman|||Comparison of incidence of positive growth in samples obtained following application of ChloraPrep vs. ChloraPrep followed by Gebauer's Pain Ease.||||0.317
92235322|NCT04207710|184373580|SUPERIORITY|||||||0.317||||||A priori threshold was p\<0.05|Friedman|||Comparison of incidence of positive growth in samples obtained following application of ChloraPrep vs. ChloraPrep followed by Gebauer's Pain Ease.||||0.317
92235323|NCT01515072|184373581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.38|TWO_SIDED|95.0|-0.37|0.21||This is an unadjusted comparison. P value \< 0.05|t-test, 2 sided|Adjusted analyses for the RIPC effect are provided below.|0.08 less organs per donor in the RIPC group.|Sample Size and Power estimation: A sample size of at least 150 donors in each arm was estimated to provide 80% power to detect a difference of 0.44 of an organ recovered and 0.48 of an organ transplanted per donor. The difference criterion was chosen based on published results achieved with hormonal resuscitation in organ donors. 6 Pooled standard deviations (organs recovered: 1.35; organs transplanted: 1.5) from data of two OPOs were used.||0.21|-0.37|0.38
92390270|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
92390271|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92390272|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.81|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.81
92390273|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.75|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.75
92390274|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92390275|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92390276|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390277|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390278|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.37|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.37
92390279|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
92390280|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390281|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92390282|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92390283|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.78|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.78
92390284|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.84|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.84
92235324|NCT01515072|184373582|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.7|TWO_SIDED|95.0|-0.33|0.26||This is an unadjusted analysis. P \< 0.05|t-test, 2 sided|Adjusted analyses are provided below.|0.03 less organs per donor in the RIPC group.|Sample Size A sample size of at least 150 donors in each arm was estimated to provide 80% power to detect a difference of 0.44 of an organ recovered and 0.48 of an organ transplanted per donor. The difference criterion was chosen based on published results achieved with hormonal resuscitation in organ donors. 6 Pooled standard deviations (organs recovered: 1.35; organs transplanted: 1.5) from data of two OPOs were used.||0.26|-0.33|0.70
92235325|NCT01515072|184373583|SUPERIORITY_OR_OTHER|||||||0.63||||||P\<0.05|Wilcoxon (Mann-Whitney)|This is an unadjusted comparison||||||0.63
92235326|NCT01515072|184373584|SUPERIORITY_OR_OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||||||0.86
92235327|NCT01515072|184373585|SUPERIORITY_OR_OTHER|||||||0.55||||||P\<0.05|Wilcoxon (Mann-Whitney)|This is an unadjusted comparison||||||0.55
92235328|NCT01515072|184373586|SUPERIORITY_OR_OTHER|||||||0.55||||||P\<0.05|Wilcoxon (Mann-Whitney)|This is an unadjusted comparison||||||0.55
92235329|NCT01515072|184373587|SUPERIORITY_OR_OTHER|||||||0.48||||||P\<0.05|Wilcoxon (Mann-Whitney)|This is an unadjusted comparison||||||0.48
92235330|NCT01515072|184373588|SUPERIORITY_OR_OTHER|||||||0.04||||||P\<0.05|Wilcoxon (Mann-Whitney)|This is an unadjusted comparison||||||0.04
92235331|NCT01515072|184373589|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.7||||0.53|TWO_SIDED|95.0|-10.1|19.5||P\<0.05|Regression, Linear|Final flow was modeled on RIPC and adjusted for donor stratum and duration of perfusion|Data shown above is the the adjusted mean difference in final flow in RIPC group|||19.5|-10.1|0.53
92235332|NCT01515072|184373590|SUPERIORITY_OR_OTHER|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
92235333|NCT01515072|184373591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.07|TWO_SIDED|95.0|0.95|2.76||Adjusted analysis with recipient age as a continuous variable, sex, race as black versus not black, body mass index, diabetes, hypertension,antigen mismatches, donor age as a continuous variable and trial site.|Chi-squared|||||2.76|0.95|0.07
92235334|NCT01515072|184373591|SUPERIORITY_OR_OTHER|||||||0.36||||||Unadjusted analysis|Chi-squared|||||||0.36
92235335|NCT01515072|184373592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.006|TWO_SIDED|95.0|0.03|0.17|||Regression, Linear|Final resistance was modeled on RIPC and adjusted for donor stratum and duration of perfusion.|Data shown above is the adjusted mean difference in final resistance in the RIPC group.|||0.17|0.03|0.006
92235336|NCT01515072|184373593|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|This is an unadjusted comparison||||||0.50
92235337|NCT01515072|184373594|SUPERIORITY_OR_OTHER|||||||0.03|||||||Log Rank|This is an unadjusted comparison||||||0.03
92235338|NCT01515072|184373595|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.19||||0.01|TWO_SIDED|95.0|0.04|0.9|||Log Rank|Results of adjusted Cox proportional hazard analyses for six month death-censored kidney graft survival are shown below|The proportional hazard ratio favors RIPC group|||0.90|0.04|0.01
92235339|NCT01515072|184373596|SUPERIORITY_OR_OTHER|||||||0.37|||||||Log Rank|This is an unadjusted comparison||||||0.37
92235340|NCT00923091|184373597|SUPERIORITY_OR_OTHER|||||||0.0071||95.0|||||ANCOVA|||||||0.0071
92235341|NCT00923091|184373597|SUPERIORITY_OR_OTHER|||||||0.0323||95.0|||||ANCOVA|||||||0.0323
92235342|NCT00923091|184373597|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||ANCOVA|||||||0.0080
92235343|NCT00923091|184373597|SUPERIORITY_OR_OTHER|||||||0.0071||95.0|||||ANCOVA|||||||0.0071
92235344|NCT00923091|184373597|SUPERIORITY_OR_OTHER|||||||0.0107||95.0|||||ANCOVA|||||||0.0107
92235345|NCT00923091|184373598|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|||||||0.0006
92235346|NCT00923091|184373598|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||ANCOVA|||||||0.0008
92235347|NCT00923091|184373598|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92235348|NCT00923091|184373598|SUPERIORITY_OR_OTHER|||||||0.0034||95.0|||||ANCOVA|||||||0.0034
92235349|NCT00923091|184373598|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|||||||0.0006
92235350|NCT00923091|184373599|SUPERIORITY_OR_OTHER|||||||0.0295||95.0|||||Cochran-Mantel-Haenszel|||||||0.0295
92235351|NCT00923091|184373599|SUPERIORITY_OR_OTHER|||||||0.2529||95.0|||||Cochran-Mantel-Haenszel|||||||0.2529
92235352|NCT00923091|184373599|SUPERIORITY_OR_OTHER|||||||0.0037||95.0|||||Cochran-Mantel-Haenszel|||||||0.0037
92235353|NCT00923091|184373599|SUPERIORITY_OR_OTHER|||||||0.2033||95.0|||||Cochran-Mantel-Haenszel|||||||0.2033
92235354|NCT00923091|184373599|SUPERIORITY_OR_OTHER|||||||0.2529||95.0|||||Cochran-Mantel-Haenszel|||||||0.2529
92235355|NCT00923091|184373600|SUPERIORITY_OR_OTHER|||||||0.1135||95.0|||||ANCOVA|||||||0.1135
92235356|NCT00923091|184373601|SUPERIORITY_OR_OTHER|||||||0.2765||95.0|||||ANCOVA|||||||0.2765
92235357|NCT00923091|184373602|SUPERIORITY_OR_OTHER|||||||0.4964||95.0|||||Cochran-Mantel-Haenszel|||||||0.4964
92235358|NCT00923091|184373603|SUPERIORITY_OR_OTHER|||||||0.1301||95.0|||||ANCOVA|||||||0.1301
92235359|NCT00923091|184373603|SUPERIORITY_OR_OTHER|||||||0.01301||95.0|||||ANCOVA|||||||0.01301
92235360|NCT00923091|184373604|SUPERIORITY_OR_OTHER|||||||0.0503||95.0|||||ANCOVA|||||||0.0503
92235361|NCT03291197|184373608|OTHER|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||Our study was not powered to perform statistical analysis though was still conduct to look for a trend in reduction of VAS.||||0.043
92235362|NCT04246047|184373650|SUPERIORITY||Hazard Ratio (HR)|0.41|||<|1e-05||95.0|0.31|0.53|||one-sided stratified log-rank||Hazard ratio was estimated using a Cox Proportional Hazards model stratified by the number of lines of prior therapy, prior bortezomib and revised international staging system (R-ISS) at screening, with a covariate of treatment.|||0.53|0.31|<0.00001
92235363|NCT00624338|184373695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.518|TWO_SIDED|95.0|0.74|1.82||Odds ratios were calculated from a logistic regression model adjusted for race and disease severity reported at screening.|Regression, Logistic|||||1.82|0.74|0.518
92235364|NCT00624338|184373695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.003|TWO_SIDED|95.0|0.31|0.78||Odds ratios were calculated from a logistic regression model adjusted for race and disease severity reported at screening.|Regression, Logistic|Atacicept 150 mg arm was discontinued prematurely. The analysis of 150 mg was considered post-hoc.||||0.78|0.31|0.003
92235365|NCT00624338|184373696|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.984||||0.929|TWO_SIDED|95.0|0.69|1.4||Cox proportional hazards model was performed to calculate hazard ratios and adjusted for race and disease severity at time of screening.|Regression, Cox|||||1.40|0.69|0.929
92235366|NCT00624338|184373696|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.562||||0.009|TWO_SIDED|95.0|0.36|0.87||Cox proportional hazards model was performed to calculate hazard ratios and adjusted for race and disease severity at time of screening.|Regression, Cox|Atacicept 150 mg arm was discontinued prematurely. The analysis of 150 mg was considered post-hoc.||||0.87|0.36|0.009
92235367|NCT00624338|184373697|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.215||||0.412|TWO_SIDED|95.0|0.76|1.94||Odds ratios were calculated from a logistic regression model, adjusted for race and disease severity reported at screening.|Regression, Logistic|||||1.94|0.76|0.412
92235368|NCT00624338|184373697|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.722||||0.198|TWO_SIDED|95.0|0.44|1.19||Odds ratios were calculated from a logistic regression model, adjusted for race and disease severity reported at screening.|Regression, Logistic|Atacicept 150 mg arm was discontinued prematurely. The analysis of 150 mg was considered post-hoc.||||1.19|0.44|0.198
92235369|NCT02912364|184373700|OTHER||Mean Difference (Final Values)|0.23|||<|0.001|TWO_SIDED|95.0|0.13|0.34|||t-test, 2 sided|degrees of freedom = 22||||.34|.13|< .001
92235370|NCT02912364|184373701|OTHER||Mean Difference (Final Values)|0.54|||<|0.001|TWO_SIDED|95.0|0.3|0.79|||t-test, 2 sided|Degrees of freedom = 22.||||.79|.30|< .001
92235371|NCT01933672|184373707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.24|||||TWO_SIDED|80.0|-36.35|-26.12||||||Change from baseline||-26.12|-36.35|
92235372|NCT01933672|184373707|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-31.33|||||TWO_SIDED|80.0|-37.29|-25.37||||||Change from baseline||-25.37|-37.29|
92235373|NCT01933672|184373707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.24|||||TWO_SIDED|80.0|-24.99|-13.5||||||Change from baseline||-13.50|-24.99|
92235374|NCT01933672|184373707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.99|||||TWO_SIDED|80.0|-19.81|-4.17||||||There was no hypothesis to be tested. Difference in change from baseline in WMDG between the 2 treatment groups was calculated based on the mixed effects repeated measures model.||-4.17|-19.81|
92235375|NCT01933672|184373707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.09|||||TWO_SIDED|80.0|-19.81|-4.17||||||There was no hypothesis to be tested. Difference in change from baseline in WMDG between the 2 treatment groups was calculated based on the mixed effects repeated measures model.||-4.17|-19.81|
92235376|NCT01933672|184373708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.92|||||TWO_SIDED|80.0|-27.0|-16.85||||||Compared with Baseline||-16.85|-27.00|
92235377|NCT01933672|184373708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.7|||||TWO_SIDED|80.0|-26.3|-15.1||||||Compared with Baseline||-15.10|-26.30|
92235378|NCT01933672|184373708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.51|||||TWO_SIDED|80.0|-22.24|-10.78||||||Compared with Baseline||-10.78|-22.24|
92235379|NCT01933672|184373708|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-5.41|||||TWO_SIDED|80.0|-11.74|0.92||||||Change from baseline in FPG was analyzed in a mixed model analysis of covariance (ANCOVA) with regimen, period, sequence, treatment × period, and carryover as fixed effects. Subjects within sequences were modelled as random effects, with each subject's period-specific baseline response included, as fixed covariates.||0.92|-11.74|
92235380|NCT01933672|184373708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.19|||||TWO_SIDED|80.0|-10.86|2.49||||||Change from baseline in FPG was analyzed in a mixed model analysis of covariance (ANCOVA) with regimen, period, sequence, treatment × period, and carryover as fixed effects. Subjects within sequences were modelled as random effects, with each subject's period-specific baseline response included, as fixed covariates.||2.49|-10.86|
92235381|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|80.0|-0.19|0.07||||||Compared with Baseline （Pre-breakfast）||0.07|-0.19|
92235382|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|80.0|-0.09|0.21||||||Compared with Baseline (Pre-breakfast)||0.21|-0.09|
92235383|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|80.0|0.16|0.45||||||Compared with Baseline (Pre-breakfast)||0.45|0.16|
92235384|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|80.0|-0.56|-0.36||||||Pre-breakfast; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||-0.36|-0.56|
92235385|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|||||TWO_SIDED|80.0|-0.45|-0.03||||||Pre-breakfast; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||-0.03|-0.45|
92235386|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|80.0|-0.08|0.48||||||Compared with Baseline (Pre-lunch)||0.48|-0.08|
92235387|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|||||TWO_SIDED|80.0|0.38|1.03||||||Compared with Baseline (Pre-lunch)||1.03|0.38|
92235388|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|80.0|-0.26|0.37||||||Compared with Baseline (Pre-lunch)||0.37|-0.26|
92235389|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||||80.0|-0.28|0.57||||||Pre-lunch; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||0.57|-0.28|
92235390|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65|||||TWO_SIDED|80.0|0.19|1.11||||||Pre-lunch; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||1.11|0.19|
92235391|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36|||||TWO_SIDED|80.0|0.03|0.68||||||Compared with Baseline (Pre-dinner)||0.68|0.03|
92235392|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|80.0|-0.08|0.67||||||Compared with Baseline (Pre-dinner)||0.67|-0.08|
92235393|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32|||||TWO_SIDED|80.0|-0.05|0.68||||||Compared with Baseline (Pre-dinner)||0.68|-0.05|
92390285|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.44|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.44
92235394|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|||||TWO_SIDED|80.0|-0.45|0.53||||||Pre-dinner; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||0.53|-0.45|
92169915|NCT00520546|184228468|SUPERIORITY_OR_OTHER||negative prediction|76.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92235395|NCT01933672|184373709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|80.0|-0.55|0.51||||||Pre-dinner; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||0.51|-0.55|
92235396|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|||||TWO_SIDED|80.0|-0.75|1.07||||||Compared with Baseline （Pre-breakfast）||1.07|-0.75|
92235397|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46|||||TWO_SIDED|80.0|-0.58|1.51||||||Compared with Baseline (Pre-breakfast)||1.51|-0.58|
92235398|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||||TWO_SIDED|80.0|0.58|2.63||||||Compared with Baseline (Pre-breakfast)||2.63|0.58|
92235399|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.45|||||TWO_SIDED|80.0|-2.84|-0.05||||||Pre-breakfast; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||-0.05|-2.84|
92235400|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.14|||||TWO_SIDED|80.0|-2.63|0.35||||||Pre-breakfast; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||0.35|-2.63|
92235401|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|||||TWO_SIDED|80.0|-0.5|3.88||||||Compared with Baseline (Pre-lunch)||3.88|-0.50|
92235402|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.07|||||TWO_SIDED|80.0|1.56|6.58||||||Compared with Baseline (Pre-lunch)||6.58|1.56|
92235403|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|80.0|-2.42|2.4||||||Compared with Baseline (Pre-lunch)||2.40|-2.42|
92235404|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|||||TWO_SIDED|80.0|-1.62|5.01||||||Pre-lunch; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||5.01|-1.62|
92235405|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.08|||||TWO_SIDED|80.0|0.54|7.62||||||Pre-lunch; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||7.62|0.54|
92235406|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|80.0|-3.66|2.27||||||Compared with Baseline (Pre-dinner)||2.27|-3.66|
92235407|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.06|||||TWO_SIDED|80.0|1.7|8.43||||||Compared with Baseline (Pre-dinner)||8.43|1.70|
92235408|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.42|||||TWO_SIDED|80.0|-0.1|6.94||||||Compared with Baseline (Pre-dinner)||6.94|-0.10|
92235409|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.12|||||TWO_SIDED|80.0|-8.42|0.18||||||Pre-dinner; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||0.18|-8.42|
92235410|NCT01933672|184373710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.64|||||TWO_SIDED|80.0|-2.6|5.89||||||Pre-dinner; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||5.89|-2.60|
92235411|NCT01933672|184373713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|||||TWO_SIDED|80.0|0.21|1.39||||||Compared with baseline||1.39|0.21|
92235412|NCT01933672|184373713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||||TWO_SIDED|80.0|-0.43|0.93||||||Compared with baseline||0.93|-0.43|
92235413|NCT01933672|184373713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|||||TWO_SIDED|80.0|-0.92|0.4||||||Compared with baseline||0.40|-0.92|
92235414|NCT01933672|184373713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06|||||TWO_SIDED|80.0|0.17|1.95||||||||1.95|0.17|
92235415|NCT01933672|184373713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51|||||TWO_SIDED|80.0|-0.45|1.47||||||||1.47|-0.45|
92235416|NCT00524303|184373722|SUPERIORITY_OR_OTHER||Percent difference|-9.0|||||TWO_SIDED|95.0|-38.1|17.9|||||Approximate 95% confidence interval for the difference in response rates between the trastuzumab arm and the lapatinib arm was calculated.|||17.9|-38.1|
92235417|NCT00524303|184373722|SUPERIORITY_OR_OTHER||Percent difference|20.0|||||TWO_SIDED|95.0|-8.0|49.4|||||Approximate 95% confidence interval for the difference in response rates between the transtuzumab arm and the transtuzumab + lapatinib arm was calculated.|||49.4|-8.0|
92235418|NCT00524303|184373723|SUPERIORITY_OR_OTHER||Percent Difference|7.0||||0.627|TWO_SIDED|95.0|-17.8|32.5|||Fisher Exact||Approximate 95% confidence interval for the difference in response rates between the transtuzumab arm and the lapatinib arm was calculated.|||32.5|-17.8|0.627
92235419|NCT00524303|184373723|SUPERIORITY_OR_OTHER||Percent Difference|0.0||||1|TWO_SIDED|95.0|-25.1|25.1|||Fisher Exact||Approximate 95% confidence interval for the difference in response rates between the transtuzumab arm and the transtuzumab + lapatinib arm was calculated.|||25.1|-25.1|1.000
92278816|NCT01176448|184460370|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|With 12 scars (or pairs to compare), our power calculation had a 95 percent probability that the study will detect a treatment difference at a two-sided 0.05 percent significance level, if a significant difference between treatments is 1.5 units (based on a 0-4 scale as mentioned above). This is based on the assumption that the within-patient standard deviation of the response variable is 0.5 units.||||||0.77||95.0||||Appropriately powered, this study failed to reject the null hypothesis that fraxel achieves a similar cosmetic result at 3 months when compared to dermabrasion.|Wilcoxon (Mann-Whitney)|||efficacy outcomes analyzed by 3 surgeons blinded to the treatment and scars evaluated by halves comparing pre-treatment photos to 3-month photos and given a score on the quartile scale described in table 1. The ordinal rater scores of each evaluator were then averaged, and Wilcoxon Signed Ranks performed on the group's scores. (table 5) There were 4 Fraxel winners, 4 Dermabrasion winners, and 4 ties. There was a p value of 0.77 indicating no significant difference between the categories||||.77
92278817|NCT02584140|184460400|OTHER||||||<|0.001||||||The P-Value for Week 4 was \<0.001; The P-Value for Week 12 was 0.005; The P-Value for Week 24 was 0.029; The P-Value for Week 36 was 0.008; The P-Value for Week 48 was 0.03.|Wilcoxon (Mann-Whitney)|||||||<0.001
92278818|NCT01111110|184460437|SUPERIORITY_OR_OTHER_LEGACY||half the mean difference|21.0|STANDARD_ERROR_OF_MEAN|6.7||0.026|TWO_SIDED|95.0|3.8|41.7|||t-test, 2 sided|two sample effect size must be halved to account for mean difference estimates twice the effect size|See 4 Puff result|(Comparison of period 2 minus period 1) results Point and interval estimates are halved because this estimates twice the effect size.||41.7|3.8|0.026
92278819|NCT01111110|184460438|SUPERIORITY_OR_OTHER_LEGACY||half the mean difference|23.5|STANDARD_ERROR_OF_MEAN|6.8||0.018|TWO_SIDED|95.0|6.0|41.0||The effect size is half the difference between the means as (A-B)-(B-A)=2A-2B|t-test, 2 sided|Must take half the mean difference to estimate effect size|No comments|Study intended to get more subjects, but PI's review committee had to deal with candidate deadlines and a high rate of screen failures and allowed her to test seven subjects. Primary concern was the research experience, not the study questions. There was no bias in failing to meet accrual objectives thanks to the blinding.||41.0|6.0|0.018
92278820|NCT01111110|184460439|SUPERIORITY_OR_OTHER_LEGACY||Effect size=half the mean diff|24.7|STANDARD_ERROR_OF_MEAN|6.6||0.013|TWO_SIDED|95.0|7.7|41.7|||t-test, 2 sided||You kicked this out on another trial, but note that the period 2-Period 1 differences between the orderings estimate twice the effect size. The effect sizes herein take this into account.|Null hypothesis is that the Treatment order is independent of the dependent variable based on Period 2 minus Period 1||41.7|7.7|0.013
92390286|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390287|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
92418663|NCT02751931|184725113|OTHER||Mean Difference (Net)|60.09||||0.003|TWO_SIDED|95.0|21.2|99.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||99.0|21.2|0.003
92418664|NCT02751931|184725113|OTHER||Mean Difference (Net)|54.78||||0.017|TWO_SIDED|95.0|10.6|98.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||98.9|10.6|0.017
92235420|NCT00095121|184373730|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||End of double-blind treatment|Fisher Exact|||After unblinding the results, due to the small number of responders in the placebo group, it was determined that a statistical exact test would be more appropriate in the evaluation of treatment group differences than the originally planned 95% confidence intervals of the difference between the groups. Therefore, the results were analyzed by study visit, and a Fisher exact test was used to evaluate treatment differences between the adefovir dipivoxil and placebo groups.||||<0.001
92235421|NCT00095121|184373746|SUPERIORITY_OR_OTHER|||||||0.051||||||Comparison of HBeAg Loss|Fisher Exact|||||||0.051
92235422|NCT00095121|184373746|SUPERIORITY_OR_OTHER|||||||0.051||||||Comparison of HBeAg Seroconversion|Fisher Exact|||||||0.051
92278821|NCT01006707|184460495|SUPERIORITY_OR_OTHER|||||||0.042|||||||ANOVA|||Results were considered significant at p\<0.05.||||0.042
92278822|NCT01006707|184460496|SUPERIORITY_OR_OTHER|||||||0.322|||||||ANOVA|||Results were considered significant at p\<0.05.||||0.322
92278823|NCT01006707|184460497|SUPERIORITY_OR_OTHER|||||||0.261|||||||ANOVA|||Results were considered significant at p\<0.05.||||0.261
92278824|NCT01851590|184460528|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Proportions and 95% confidence intervals (CIs) were calculated for negative KOH staining, negative cultures, and a combination of these at 4- and 10-month time points. Cochran-Mantel-Haenszel and χ2-tests were used to analyse efficacy criteria.|Cochran-Mantel-Haenszel|||The sample size was estimated according to complete mycological cure at 10 months. Estimation was based on the design of a binary-outcome head-to-head superiority trial. Orally administered terbinafine treatment was considered the active control. Approximately 25 patients / arm were required to have 80% power (β=0.2) at a two-sided α=0.05 significance level to detect a decrease in primary outcome from 50% in the terbinafine arm to 15% in the amorolfine or resin lacquer treatment arms.||||<0.05
92278825|NCT01851590|184460529|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Differences between quantitative data were assessed with one-way analysis of variances, and pairwise comparisons were performed with Bonferroni's post hoc test.|ANOVA|||||||<0.05
92390288|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92390289|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92418665|NCT02751931|184725113|OTHER||Mean Difference (Net)|53.51||||0.001|TWO_SIDED|95.0|22.6|84.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||84.4|22.6|0.001
92418666|NCT02751931|184725113|OTHER||Mean Difference (Net)|54.3||||0.021|TWO_SIDED|95.0|9.0|99.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||99.6|9.0|0.021
92418667|NCT02751931|184725114|OTHER||Mean Difference (Net)|18.13||||0.113|TWO_SIDED|95.0|-4.5|40.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||40.7|-4.5|0.113
92418668|NCT02751931|184725114|OTHER||Mean Difference (Net)|35.58||||0.056|TWO_SIDED|95.0|-1.1|72.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||72.2|-1.1|0.056
92418669|NCT02751931|184725114|OTHER||Mean Difference (Net)|37.71||||0.005|TWO_SIDED|95.0|11.7|63.7|||t-test, 2 sided|From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.||Change From Baseline at Week 4 - Children||63.7|11.7|0.005
92418670|NCT02751931|184725114|OTHER||Mean Difference (Net)|70.35||||0.006|TWO_SIDED|95.0|22.2|118.5||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||118.5|22.2|0.006
92235423|NCT01225068|184373796|SUPERIORITY_OR_OTHER||effect size|0.22||||||||||no p value for effect size calculations ES is dimensionless; ES (Cohen's d) is a well described statistical construct and is calculated from the difference between the means (here at baseline and 6 weeks) divided by the pooled standard deviation.|effect size is endpoint and not comparis|no p value for effect size calculations||effect size is endpoint and not comparison||||
92418671|NCT02751931|184725114|OTHER||Mean Difference (Net)|43.91|||<|0.001|TWO_SIDED|95.0|21.0|66.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||66.8|21.0|<0.001
92418672|NCT02751931|184725114|OTHER||Mean Difference (Net)|38.11||||0.063|TWO_SIDED|95.0|-2.2|78.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||78.4|-2.2|0.063
92235424|NCT05176847|184373797|SUPERIORITY||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.97||0.09|TWO_SIDED|95.0|-3.71|0.09|||Mixed Models Analysis|Intent-to-treat (ITT) analysis was conducted; primary and secondary outcomes were addressed using repeated measure. Models: time, group, group x time.|||Intent-to-treat (ITT) analysis was conducted; primary and secondary outcomes were addressed using repeated measure. Models: time, group, group x time.|0.09|-3.71|0.09
92235425|NCT05299892|184373816|OTHER||Mean Difference (Final Values)|6.46153||||0.005|TWO_SIDED|95.0|1.79|12.99|||ANOVA|||An ANOVA was conducted for the three SE conditions (off, moderate, strong) at 50 dBA .Post -hoc comparisons were done using Bonferroni's correction. Below result is the mean comparison between SE of and SE moderate. Analysis of age effects was not completed.||12.99|1.79|.005
92418673|NCT02751931|184725114|OTHER||Mean Difference (Net)|29.05||||0.008|TWO_SIDED|95.0|8.2|49.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||49.9|8.2|0.008
92418674|NCT02751931|184725114|OTHER||Mean Difference (Net)|43.04||||0.009|TWO_SIDED|95.0|11.9|74.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||74.2|11.9|0.009
92418675|NCT02751931|184725114|OTHER||Mean Difference (Net)|44.2||||0.006|TWO_SIDED|95.0|13.2|75.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||75.2|13.2|0.006
92418676|NCT02751931|184725114|OTHER||Mean Difference (Net)|81.37||||0.003|TWO_SIDED|95.0|30.4|132.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||132.3|30.4|0.003
92418677|NCT02751931|184725114|OTHER||Mean Difference (Net)|58.49||||0.004|TWO_SIDED|95.0|19.8|97.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||97.2|19.8|0.004
92418678|NCT02751931|184725114|OTHER||Mean Difference (Net)|50.9||||0.039|TWO_SIDED|95.0|2.7|99.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||99.1|2.7|0.039
92418679|NCT02751931|184725114|OTHER||Mean Difference (Net)|53.76||||0.002|TWO_SIDED|95.0|21.7|85.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||85.8|21.7|0.002
92418680|NCT02751931|184725114|OTHER||Mean Difference (Net)|49.13||||0.057|TWO_SIDED|95.0|-1.6|99.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||99.8|-1.6|0.057
92418681|NCT02751931|184725115|OTHER||Mean Difference (Net)|7.98||||0.617|TWO_SIDED|95.0|-24.0|40.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||40.0|-24.0|0.617
92418682|NCT02751931|184725115|OTHER||Mean Difference (Net)|39.52||||0.035|TWO_SIDED|95.0|3.0|76.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||76.0|3.0|0.035
92418683|NCT02751931|184725115|OTHER||Mean Difference (Net)|19.81||||0.167|TWO_SIDED|95.0|-8.7|48.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||48.3|-8.7|0.167
92418684|NCT02751931|184725115|OTHER||Mean Difference (Net)|75.25||||0.005|TWO_SIDED|95.0|25.8|124.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||124.7|25.8|0.005
92418685|NCT02751931|184725115|OTHER||Mean Difference (Net)|34.01||||0.02|TWO_SIDED|95.0|5.7|62.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||62.3|5.7|0.020
92235426|NCT05299892|184373816|OTHER||Mean Difference (Final Values)|9.00961|||<|0.001|TWO_SIDED|95.0|3.91|15.11|||ANOVA|||An ANOVA was conducted for the three SE conditions (off, moderate, strong) at 50 dBA . Post -hoc comparisons were done using Bonferroni's correction. Below result is the mean comparison between SE of and SE strong. An analysis of age effects was not completed.||15.11|3.91|<.001
92235427|NCT05299892|184373816|OTHER||||||<|0.001|||||||t-test, 2 sided|||Null hypothesis: There will be no significant differences between the mean unaided CNC score at 50 dBA and the mean aided CNC score with SE off.||||<0.001
92278826|NCT01851590|184460530|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Differences between quantitative data were assessed with one-way analysis of variances, and pairwise comparisons were performed with Bonferroni's post hoc test.|ANOVA|||||||<0.05
92418686|NCT02751931|184725115|OTHER||Mean Difference (Net)|44.43||||0.033|TWO_SIDED|95.0|3.9|84.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||84.9|3.9|0.033
92418687|NCT02751931|184725115|OTHER||Mean Difference (Net)|8.68||||0.503|TWO_SIDED|95.0|-17.3|34.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0|t-test, 2 sided|||Change From Baseline at Week 12 - Children||34.7|-17.3|0.503
92418688|NCT02751931|184725115|OTHER||Mean Difference (Net)|38.23||||0.016|TWO_SIDED|95.0|7.8|68.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||68.6|7.8|0.016
92418689|NCT02751931|184725115|OTHER||Mean Difference (Net)|40.76||||0.043|TWO_SIDED|95.0|1.4|80.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||80.2|1.4|0.043
92169916|NCT00520546|184228468|SUPERIORITY_OR_OTHER||sensitivity|83.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92235428|NCT00149214|184373818|SUPERIORITY_OR_OTHER||Percentage of Participants|16.5||||||95.0|10.5|24.2||||||Confidence Interval for pathological complete response in the Pemetrexed treatment arm.||24.2|10.5|
92235429|NCT00149214|184373818|SUPERIORITY_OR_OTHER||Percentage of Participants|20.2||||||95.0|13.4|28.5||||||Confidence Interval for pathological complete response in the Cyclophosphamide treatment group.||28.5|13.4|
92235430|NCT05642442|184373823|SUPERIORITY||LS mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.895|=|0.2363|TWO_SIDED|95.0|-2.83|0.7|||Mixed-effect model with repeat measures|Includes baseline TETRAS score, treatment grp, week, treatment grp and baseline by week, randomization strata, and week repeated for each patient.||||0.70|-2.83|=0.2363
92278827|NCT01851590|184460531|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Differences between quantitative data were assessed with one-way analysis of variances, and pairwise comparisons were performed with Bonferroni's post hoc test.|ANOVA|||||||<0.05
92278828|NCT01851590|184460532|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Qualitative data are expressed as frequencies and percentages, and differences between parallel groups were compared with the χ2-test or Fisher's exact test, as appropriate.|Chi-squared|||||||<0.05
92418690|NCT02751931|184725115|OTHER||Mean Difference (Net)|86.66|||<|0.001|TWO_SIDED|95.0|41.5|131.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||131.8|41.5|<0.001
92418691|NCT02751931|184725115|OTHER||Mean Difference (Net)|31.08||||0.203|TWO_SIDED|95.0|-17.5|79.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||79.6|-17.5|0.203
92418692|NCT02751931|184725115|OTHER||Mean Difference (Net)|68.47||||0.019|TWO_SIDED|95.0|12.7|124.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||124.2|12.7|0.019
92418693|NCT02751931|184725115|OTHER||Mean Difference (Net)|31.83||||0.042|TWO_SIDED|95.0|1.3|62.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||62.4|1.3|0.042
92418694|NCT02751931|184725115|OTHER||Mean Difference (Net)|38.14||||0.121|TWO_SIDED|95.0|-11.0|87.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||87.3|-11.0|0.121
92418695|NCT02751931|184725116|OTHER||Mean Difference (Net)|0.35||||0.818|TWO_SIDED|95.0|-2.7|3.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||3.4|-2.7|0.818
92418696|NCT02751931|184725116|OTHER||Mean Difference (Net)|-0.53||||0.114|TWO_SIDED|95.0|-1.2|0.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||0.1|-1.2|0.114
92418697|NCT02751931|184725116|OTHER||Mean Difference (Net)|-1.14||||0.052|TWO_SIDED|95.0|-2.3|0.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||0.0|-2.3|0.052
92418698|NCT02751931|184725116|OTHER||Mean Difference (Net)|-0.87||||0.066|TWO_SIDED|95.0|-1.8|0.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||0.1|-1.8|0.066
92235431|NCT05642442|184373824|SUPERIORITY||Adjusted difference (%)|14.6|||=|0.0715|TWO_SIDED|95.0|-1.3|30.5|||Cochran-Mantel-Haenszel||Adjusted difference of proportions is the weighted average of differences across strata with the CMH weights. Stratification is based on baseline TETRAS Composite Outcome Score.|||30.5|-1.3|=0.0715
92235432|NCT05642442|184373825|SUPERIORITY||LS Mean Difference|-1.68|STANDARD_ERROR_OF_MEAN|1.084|=|0.1232|TWO_SIDED|95.0|-3.82|0.46|||Mixed-effect model with repeat measures|Includes baseline TETRAS-ADL score, treatment grp, week, treatment grp and baseline by week, randomization strata, and week repeated for each patient.||||0.46|-3.82|=0.1232
92235433|NCT05642442|184373826|SUPERIORITY||Adjusted Difference (%)|10.5|||=|0.1906|TWO_SIDED|95.0|-5.2|26.2|||Cochran-Mantel-Haenszel||Adjusted difference of proportions is the weighted average of differences across strata with the CMH weights. Stratification is based on baseline TETRAS Composite Outcome Score.|||26.2|-5.2|=0.1906
92418699|NCT02751931|184725116|OTHER||Mean Difference (Net)|1.16||||0.674|TWO_SIDED|95.0|-4.4|6.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||6.7|-4.4|0.674
92418700|NCT02751931|184725116|OTHER||Mean Difference (Net)|-0.65||||0.278|TWO_SIDED|95.0|-1.9|0.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||0.6|-1.9|0.278
92418701|NCT02751931|184725116|OTHER||Mean Difference (Net)|0.37||||0.871|TWO_SIDED|95.0|-4.2|5.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||5.0|-4.2|0.871
92418702|NCT02751931|184725116|OTHER||Mean Difference (Net)|-0.65||||0.153|TWO_SIDED|95.0|-1.6|0.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||0.3|-1.6|0.153
92418703|NCT02751931|184725116|OTHER||Mean Difference (Net)|0.18||||0.922|TWO_SIDED|95.0|-3.5|3.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||3.9|-3.5|0.922
92418704|NCT02751931|184725116|OTHER||Mean Difference (Net)|-0.75||||0.047|TWO_SIDED|95.0|-1.5|0.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||0.0|-1.5|0.047
92418705|NCT02751931|184725116|OTHER||Mean Difference (Net)|-1.98||||0.018|TWO_SIDED|95.0|-3.6|-0.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||-0.4|-3.6|0.018
92418706|NCT02751931|184725116|OTHER||Mean Difference (Net)|-0.81||||0.07|TWO_SIDED|95.0|-1.7|0.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||0.1|-1.7|0.070
92418707|NCT02751931|184725116|OTHER||Mean Difference (Net)|-0.94||||0.083|TWO_SIDED|95.0|-2.0|0.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||0.1|-2.0|0.083
92418708|NCT02751931|184725116|OTHER||Mean Difference (Net)|-1.12||||0.064|TWO_SIDED|95.0|-2.3|0.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||0.1|-2.3|0.064
92235434|NCT05642442|184373827|SUPERIORITY||Adjusted difference (%)|15.6|||=|0.0052|TWO_SIDED|95.0|4.7|26.6|||Cochran-Mantel-Haenszel||Adjusted difference of proportions is the weighted average of differences across strata with the CMH weights. Stratification is based on baseline TETRAS Composite Outcome Score.|||26.6|4.7|=0.0052
92235435|NCT05642442|184373828|SUPERIORITY||Adjusted Difference (%)|7.6|||=|0.145|TWO_SIDED|95.0|-2.6|17.7|||Cochran-Mantel-Haenszel||Adjusted difference of proportions is the weighted average of differences across strata with the CMH weights. Stratification is based on baseline TETRAS Composite Outcome Score.|||17.7|-2.6|=0.1450
92278829|NCT00321711|184460535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.032||||||95.0|0.153|6.95||||||||6.950|0.153|
92418709|NCT02751931|184725117|OTHER|||||||0.692||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||||0.692
92418710|NCT02751931|184725117|OTHER|||||||0.018||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||||0.018
92418711|NCT02751931|184725117|OTHER|||||||0.061||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||||0.061
92235436|NCT05642442|184373829|SUPERIORITY||LS Mean Difference|1.37|||=|0.1429|TWO_SIDED|95.0|-0.47|3.2|||Mixed-effect Model With Repeat Measure|Includes baseline TETRAS-PS score, treatment grp, week, treatment grp and baseline by week, randomization strata, and week repeated for each patient.||||3.20|-0.47|=0.1429
92235437|NCT05642442|184373830|SUPERIORITY||Least square mean difference|-0.05|STANDARD_ERROR_OF_MEAN|1.666|=|0.9739|TWO_SIDED|95.0|-3.35|3.24|||Mixed-effect model with repeat measures|Includes baseline TETRAS score, treatment grp, week, treatment grp and baseline by week, randomization strata, and week repeated for each patient.||||3.24|-3.35|=0.9739
92235438|NCT05642442|184373831|SUPERIORITY||Least square mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.694|=|0.3029|TWO_SIDED|95.0|-2.09|0.65|||Mixed-effect model with repeat measures|Includes baseline MDS-UPDR score, treatment grp, week, treatment grp and baseline by week, randomization strata, and week repeated for each patient.||||0.65|-2.09|=0.3029
92390290|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92390291|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92390292|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92418712|NCT02751931|184725117|OTHER|||||||0.008||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||||0.008
92418713|NCT02751931|184725117|OTHER|||||||0.612||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||||0.612
92418714|NCT02751931|184725117|OTHER|||||||0.018||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||||0.018
92418715|NCT02751931|184725117|OTHER|||||||0.858||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||||0.858
92390293|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
92390294|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
92418716|NCT02751931|184725117|OTHER|||||||0.004||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||||0.004
92418717|NCT02751931|184725117|OTHER|||||||0.003||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||||0.003
92235439|NCT01582282|184373898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.64||||0.028|||||||ANCOVA|||||||0.028
92235440|NCT01582282|184373898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.72||||0.009|||||||ANCOVA|||||||0.009
92235441|NCT01582282|184373899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53||||0.013|||||||ANCOVA|||||||0.013
92235442|NCT01582282|184373899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65||||0.003|||||||ANCOVA|||||||0.003
92235443|NCT01582282|184373900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.808|||||||ANCOVA|||||||0.808
92235444|NCT01582282|184373900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.328|||||||ANCOVA|||||||0.328
92235445|NCT01582282|184373901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1||||0.508|||||||ANCOVA|||||||0.508
92235446|NCT01582282|184373901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43||||0.962|||||||ANCOVA|||||||0.962
92235447|NCT01582282|184373902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.84||||0.363|||||||ANCOVA|||||||0.363
92390295|NCT01128426|184680564|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
92390296|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390297|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
92390298|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390299|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.55|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.55
92418718|NCT02751931|184725117|OTHER||||||<|0.001||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||||< 0.001
92418719|NCT02751931|184725117|OTHER|||||||0.045||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||||0.045
92418720|NCT02751931|184725117|OTHER|||||||0.002||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||||0.002
92418721|NCT02751931|184725117|OTHER|||||||0.006||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||||0.006
92418722|NCT02751931|184725117|OTHER|||||||0.007||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||||0.007
92418723|NCT02751931|184725118|OTHER||Mean Difference (Net)|0.34||||0.018|TWO_SIDED|95.0|0.1|0.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||0.6|0.1|0.018
92418724|NCT02751931|184725118|OTHER||Mean Difference (Net)|0.82||||0.045|TWO_SIDED|95.0|0.0|1.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||1.6|0.0|0.045
92418725|NCT02751931|184725118|OTHER||Mean Difference (Net)|0.68||||0.013|TWO_SIDED|95.0|0.1|1.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||1.2|0.1|0.013
92169917|NCT00520546|184228468|SUPERIORITY_OR_OTHER||specificity|80.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92235448|NCT01582282|184373902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.978|||||||ANCOVA|||||||0.978
92235449|NCT01582282|184373903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.14||||0.785|||||||ANCOVA|||||||0.785
92235450|NCT01582282|184373903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.45||||0.811|||||||ANCOVA|||||||0.811
92418726|NCT02751931|184725118|OTHER||Mean Difference (Net)|1.36||||0.002|TWO_SIDED|95.0|0.6|2.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||2.2|0.6|0.002
92418727|NCT02751931|184725118|OTHER||Mean Difference (Net)|1.14||||0.001|TWO_SIDED|95.0|0.5|1.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||1.8|0.5|0.001
92418728|NCT02751931|184725118|OTHER||Mean Difference (Net)|2.26|||<|0.001|TWO_SIDED|95.0|1.2|3.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||3.3|1.2|<0.001
92418729|NCT02751931|184725118|OTHER||Mean Difference (Net)|1.31||||0.001|TWO_SIDED|95.0|0.5|2.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||2.1|0.5|0.001
92418730|NCT02751931|184725118|OTHER||Mean Difference (Net)|1.93|||<|0.001|TWO_SIDED|95.0|0.9|3.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||3.0|0.9|<0.001
92169918|NCT00520546|184228468|SUPERIORITY_OR_OTHER||accuracy|82.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
92235451|NCT04426630|184373904|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||Heart failure patients in Uganda were enrolled in an mHealth program at the Uganda Heart Institute. The program intended to promote self-care for heart failure and improve patient healthcare quality of life.||||<0.001
92235452|NCT04426630|184373905|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||<0.001
92235453|NCT04426630|184373906|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||<0.001
92235454|NCT04426630|184373907|SUPERIORITY|||||||0.028|||||||Chi-squared|Wilcoxon sign-rank test used to compared baseline outcomes to 6 month outcomes.||Heart failure patients in Uganda were enrolled in an mHealth program at the Uganda Heart Institute. The program intended to promote self-care for heart failure and improve patient healthcare quality of life.||||0.028
92235455|NCT04426630|184373908|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92235456|NCT04426630|184373909|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92235457|NCT04426630|184373910|SUPERIORITY|||||||0.23|||||||Chi-squared|||||||0.23
92235458|NCT04426630|184373911|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92418731|NCT02751931|184725118|OTHER||Mean Difference (Net)|1.34|||<|0.001|TWO_SIDED|95.0|0.7|2.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||2.0|0.7|<0.001
92418732|NCT02751931|184725118|OTHER||Mean Difference (Net)|2.17|||<|0.001|TWO_SIDED|95.0|1.2|3.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||3.2|1.2|<0.001
92418733|NCT02751931|184725118|OTHER||Mean Difference (Net)|1.33||||0.002|TWO_SIDED|95.0|0.5|2.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||2.1|0.5|0.002
92418734|NCT02751931|184725118|OTHER||Mean Difference (Net)|1.88|||<|0.001|TWO_SIDED|95.0|1.0|2.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||2.8|1.0|<0.001
92418735|NCT02751931|184725118|OTHER||Mean Difference (Net)|1.38||||0.002|TWO_SIDED|95.0|0.5|2.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||2.2|0.5|0.002
92418736|NCT02751931|184725118|OTHER||Mean Difference (Net)|2.14|||<|0.001|TWO_SIDED|95.0|1.1|3.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||3.2|1.1|<0.001
92418737|NCT02751931|184725119|OTHER||Mean Difference (Net)|2.04||||0.352|TWO_SIDED|95.0|-2.4|6.49||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||6.49|-2.40|0.352
92418738|NCT02751931|184725119|OTHER||Mean Difference (Net)|-4.9||||0.127|TWO_SIDED|95.0|-11.34|1.53||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||1.53|-11.34|0.127
92235459|NCT04426630|184373912|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||<0.001
92390300|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390301|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.62|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.62
92390302|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390303|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92418739|NCT02751931|184725119|OTHER||Mean Difference (Net)|1.3||||0.613|TWO_SIDED|95.0|-3.96|6.57||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||6.57|-3.96|0.613
92418740|NCT02751931|184725119|OTHER||Mean Difference (Net)|-6.79||||0.056|TWO_SIDED|95.0|-13.78|0.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||0.20|-13.78|0.056
92418741|NCT02751931|184725120|OTHER||Mean Difference (Net)|0.36||||0.153|TWO_SIDED|95.0|-0.14|0.86||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||0.86|-0.14|0.153
92418742|NCT02751931|184725120|OTHER||Mean Difference (Net)|0.64||||0.007|TWO_SIDED|95.0|0.19|1.08||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||1.08|0.19|0.007
92418743|NCT02751931|184725120|OTHER||Mean Difference (Net)|0.42||||0.106|TWO_SIDED|95.0|-0.1|0.93||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||0.93|-0.10|0.106
92390304|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390305|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.43|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.43
92390306|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
92390307|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
92418744|NCT02751931|184725120|OTHER||Mean Difference (Net)|0.95||||0.003|TWO_SIDED|95.0|0.38|1.51||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||1.51|0.38|0.003
92418745|NCT04090411|184725135|SUPERIORITY||Risk Difference (RD)|13.9||||0.0545|TWO_SIDED|90.0|-0.2|27.65||One-sided P-value|Chan and Zhang Method|||||27.65|-0.20|0.0545
92418746|NCT04090411|184725135|SUPERIORITY||Risk Difference (RD)|11.71||||0.0823|TWO_SIDED|90.0|-1.7|24.09||One-sided P-value|Chan and Zhang Method|||||24.09|-1.70|0.0823
92418747|NCT04090411|184725135|SUPERIORITY||Risk Difference (RD)|12.24||||0.0642|TWO_SIDED|90.0|-0.64|22.91||One-sided P-value|Chan and Zhang Method|||||22.91|-0.64|0.0642
92418748|NCT04090411|184725142|SUPERIORITY||Risk Difference (RD)|7.92||||0.1398|TWO_SIDED|90.0|-3.62|20.04||One-sided P-value|Chan and Zhang Method|||||20.04|-3.62|0.1398
92418749|NCT04090411|184725142|SUPERIORITY||Risk Difference (RD)|6.36||||0.2038|TWO_SIDED|90.0|-4.88|17.06||One-sided P-value|Chan and Zhang Method|||||17.06|-4.88|0.2038
92235460|NCT04426630|184373913|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||<0.001
92390308|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92235461|NCT04426630|184373914|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||0.07
92235462|NCT04426630|184373915|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92278830|NCT00321711|184460535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.333||||||95.0|0.028|3.926||||||||3.926|0.028|
92278831|NCT00321711|184460535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.118||||||95.0|0.007|1.882|||||Adjusted by the stratification factor|||1.882|0.007|
92390309|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
92390310|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390311|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.85|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.85
92390312|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
92390313|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
92390314|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
92418750|NCT04090411|184725142|SUPERIORITY||Risk Difference (RD)|7.8||||0.1498|TWO_SIDED|90.0|-3.7|17.06||One-sided P-value|Chan and Zhang Method|||||17.06|-3.70|0.1498
92418751|NCT04090411|184725143|SUPERIORITY||Risk Difference (RD)|18.16||||0.0189|TWO_SIDED|90.0|3.25|32.23||One-sided P-value|Chan and Zhang Method|||||32.23|3.25|0.0189
92418752|NCT04090411|184725143|SUPERIORITY||Risk Difference (RD)|23.37||||0.0045|TWO_SIDED|90.0|6.24|36.28||One-sided P-value|Chan and Zhang Method|||||36.28|6.24|0.0045
92235463|NCT02786537|184373920|SUPERIORITY|Superiority test derived by comparing whether the 95% CI includes zero.|Mean Difference (Net)|-1.7|||||TWO_SIDED|95.0|-3.6|0.3|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|PROD vs. SOF/LDV based regimens as reported in PRO (ALL PATIENTS WHO STARTED TREATMENT BY ARM AS TREATED), population limited to as randomization date of the last PrOD patient start date - RBV FREE REGIMENS||0.3|-3.6|
92235464|NCT02786537|184373920|SUPERIORITY||Mean Difference (Net)|1.4|||||TWO_SIDED|95.0|-0.4|3.1|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method. CI for median derived from PROC QUANTREG.|RBV free EBR/GZR regimen compared to PrOD in consideration that RBV usage was determined by provider and not study randomization.||3.1|-0.4|
92235465|NCT02786537|184373921|SUPERIORITY|Superiority test completed by comparing whether the 95% CI includes zero.|Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-0.6|1.0|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|Analysis based on RBV free EBR/GZR regimen vs SOF/LDV (all patients who started treatment by arm as treated)||1.0|-0.6|
92235466|NCT02786537|184373923|SUPERIORITY|Superiority test comparison based on whether the 95% CI includes zero|Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|0.0|1.0|||||The comparisons between regimens can be viewed as superiority test, by comparing whether the 95% CI includes zero|Analysis of EBR/GZR vs. SOF/LDV irrespective of RBV usage in consideration that RBV usage was determined by provider and not study randomization.||1.0|0.0|
92235467|NCT02786537|184373924|SUPERIORITY|Superiority test comparison based on whether the 95% CI includes zero|Mean Difference (Net)|1.4|||||TWO_SIDED|95.0|-4.2|7.0|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method|Analysis based on RBV free SOF/LDV vs. PrOD in consideration that RBV usage was determined by provider and not study randomization and limited RBV sample size.||7.0|-4.2|
92235468|NCT02786537|184373924|SUPERIORITY|Superiority test comparison based on whether the 95% CI includes zero.|Mean Difference (Net)|1.4|||||TWO_SIDED|95.0|-4.2|7.0|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|RBV free PrOD vs. SOF/LDV regimens (all patients who started treatment by arm as treated, population is limited to as randomization date of the last PrOD patient start date)||7.0|-4.2|
92390315|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
92390316|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92390317|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
92390318|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
92418753|NCT04090411|184725143|SUPERIORITY||Risk Difference (RD)|20.19||||0.0117|TWO_SIDED|90.0|3.22|31.31||One-sided P-value|Chan and Zhang Method|||||31.31|3.22|0.0117
92235469|NCT02786537|184373925|SUPERIORITY|Superiority test comparison based on whether the 95% CI includes zero|Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-1.6|1.3|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|RBV free EBR/GZR vs. SOF/LDV (all patients who started treatment by arm as treated)||1.3|-1.6|
92235470|NCT02786537|184373928|SUPERIORITY|Superiority test based on whether the 95% CI includes zero|Mean Difference (Net)|1.8|||||TWO_SIDED|95.0|-1.9|5.5|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|RBV free EBR/GZR vs. PrOD regimens as reported in PRO (all patients who started treatment by arm as treated, population is limited to as randomization date of the last PrOD patient start date). Analysis limited to RBV free regimen in consideration RBV usage determined by provider and not study randomization.||5.5|-1.9|
92235471|NCT02786537|184373928|SUPERIORITY|Superiority test based on whether the 95% CI includes zero|Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-4.6|2.7|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|RBV free SOF/LDV vs. PrOD regimens as reported in PRO (all patients who started treatment by arm as treated, population is limited to as randomization date of the last PrOD patient start date)||2.7|-4.6|
92278832|NCT00321711|184460536|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||||95.0|0.063|15.988|||||Romiplostim/placebo|||15.988|0.063|
92278833|NCT00321711|184460537|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.827||||||95.0|0.347|9.618|||||Romiplostim/placebo|||9.618|0.347|
92390319|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
92390320|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.74|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.74
92390321|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92390322|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390323|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390324|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.82|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.82
92390325|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390326|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.55|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.55
92390327|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.26|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.26
92418754|NCT04090411|184725144|SUPERIORITY||Risk Difference (RD)|21.82||||0.0146|TWO_SIDED|90.0|4.14|37.3||One-sided P-value|Chan and Zhang Method|||||37.30|4.14|0.0146
92418755|NCT04090411|184725144|SUPERIORITY||Risk Difference (RD)|19.73||||0.0167|TWO_SIDED|90.0|2.76|34.05||One-sided P-value|Chan and Zhang Method|||||34.05|2.76|0.0167
92418756|NCT04090411|184725144|SUPERIORITY||Risk Difference (RD)|22.3||||0.0094|TWO_SIDED|90.0|3.22|34.95||One-sided P-value|Chan and Zhang Method|||||34.95|3.22|0.0094
92169919|NCT05052996|184228472|OTHER||Difference in percentage|1.9|||||TWO_SIDED|95.0|-6.8|11.6|||||The difference in percentages between treatment groups and their 95% CI were calculated based on unconditional exact method using 2 inverted 1-sided tests.|||11.6|-6.8|
92235472|NCT02786537|184373929|SUPERIORITY|Superiority test comparison based on presence of zero in 95% CI.|Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-1.4|1.6|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method|Analysis limited to RBV free regimens in consideration that RBV usage determined by provider and not study randomization. All patients who started treatment by arm as treated.||1.6|-1.4|
92235473|NCT02786537|184373932|SUPERIORITY|Superiority test determined by comparing presence of zero in CI.|Mean Difference (Net)|-4.3|||||TWO_SIDED|95.0|-9.9|1.3|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method|Analysis based on RBV free regimens -all patients who started treatment by arm as treated, population is limited to as randomization date of the last PrOD patient start date.||1.3|-9.9|
92235474|NCT02786537|184373932|SUPERIORITY|Superiority comparison by viewing presence of zero in CI.|Mean Difference (Net)|3.0|||||TWO_SIDED|95.0|-3.4|9.4||||||RBV free regimens as reported in PRO (all patients who started treatment by arm as treated, population limited to as randomization date of the last PrOD patient start date)||9.4|-3.4|
92418757|NCT04090411|184725145|SUPERIORITY||Risk Difference (RD)|12.17||||0.0489|TWO_SIDED|90.0|0.05|25.25||One-sided P-value|Chan and Zhang Method|||||25.25|0.05|0.0489
92418758|NCT04090411|184725145|SUPERIORITY||Risk Difference (RD)|3.02||||0.3396|TWO_SIDED|90.0|-7.66|12.88||One-sided P-value|Chan and Zhang Method|||||12.88|-7.66|0.3396
92418759|NCT04090411|184725145|SUPERIORITY||Risk Difference (RD)|3.25||||0.3995|TWO_SIDED|90.0|-7.42|11.58||One-sided P-value|Chan and Zhang Method|||||11.58|-7.42|0.3995
92418760|NCT02233478|184725164|OTHER||Mean Difference (Final Values)|0.001||||0.82|TWO_SIDED||||||t-test, 2 sided|||"Comparison of ellagic acid concentration 0 to 24 hours post-dose area under the curve was made to PJ alone vs. PJ with soy protein after intervention.~Due to the quality issue of soybean flour, data from this intervention group was not analyzed."||||0.82
92418761|NCT02477696|184725165|NON_INFERIORITY|Non-inferiority of acalabrutinib was demonstrated if the upper bound of the 2-sided 95% confidence interval (CI) of the hazard ratio was below 1.429.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.79|1.27|||||Cox Proportional Hazards model stratified by 17p deletion status (yes versus no) and number of prior therapies (1-3 versus \>=4).|||1.27|0.79|
92418762|NCT02104739|184725177|SUPERIORITY|||||||0.27|||||||Non-parametric Wilcoxon paired rank sum|||Exenatide at baseline and 2 hours after ingestion of meal is compared.||||0.27
92418763|NCT02104739|184725177|SUPERIORITY|||||||0.59|||||||Non-parametric Wilcoxon paired rank sum|||Saxagliptin at baseline and 2 hours after ingestion of meal is compared.||||0.59
92418764|NCT02104739|184725177|SUPERIORITY|||||||0.51|||||||Non-parametric Wilcoxon paired rank sum|||Placebo at baseline and 2 hours after ingestion of meal is compared.||||0.51
92418765|NCT02104739|184725177|SUPERIORITY|||||||0.31|||||||Non-parametric Wilcoxon paired rank sum|||Exenatide extended-release (ER) at baseline and 2 hours after ingestion of meal is compared.||||0.31
92418766|NCT02104739|184725179|SUPERIORITY|||||||0.02|||||||ANOVA|||||||0.02
92418767|NCT02104739|184725181|SUPERIORITY||||||<|0.05|||||||ANOVA|||The reported p-value compares exenatide and saxagliptin over all time points (2 hours, 4 hours, 6 hours).||||<0.05
92169920|NCT05052996|184228473|OTHER||Difference in percentage|-1.9|||||TWO_SIDED|95.0|-12.4|8.6|||||The difference in percentages between treatment groups and their 95% CI were calculated based on unconditional exact method using 2 inverted 1-sided tests.|||8.6|-12.4|
92235475|NCT02786537|184373934|SUPERIORITY||Mean Difference (Net)|-0.7|||||TWO_SIDED|95.0|-3.6|2.1|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|Analysis based on RBV free regimens in consideration that RBV usage was determined by provider and not study randomization. Population includes patients who started treatment by arm as treated.||2.1|-3.6|
92418768|NCT02104739|184725181|SUPERIORITY||||||<|0.05|||||||ANOVA|||The reported p-value compares exenatide and placebo over all time points (2 hours, 4 hours, 6 hours).||||<0.05
92418769|NCT02104739|184725183|SUPERIORITY|||||||0.018|||||||ANOVA|||||||0.018
92418770|NCT02104739|184725185|SUPERIORITY||||||<|0.05|||||||ANOVA|||The reported p-value compares exenatide and saxagliptin over all time points (2 hours, 4 hours, 6 hours).||||<0.05
92418771|NCT02104739|184725185|SUPERIORITY||||||<|0.05|||||||ANOVA|||The reported p-value compares exenatide and placebo over all time points (2 hours, 4 hours, 6 hours).||||<0.05
92418772|NCT02104739|184725187|SUPERIORITY|||||||0.5|||||||ANOVA|||||||0.5
92418773|NCT02104739|184725188|SUPERIORITY||||||>|0.05|||||||ANOVA|||The reported p-value compares exenatide and saxagliptin over all time points (3 hours, 6 hours).||||>0.05
92418774|NCT02104739|184725188|SUPERIORITY||||||>|0.05|||||||ANOVA|||The reported p-value compares exenatide and placebo over all time points (3 hours, 6 hours).||||>0.05
92418775|NCT04770753|184725194|SUPERIORITY||Percentage difference|40.9|||<|0.0001|TWO_SIDED|95.0|32.0|49.8|||Cochran-Mantel-Haenszel|||The estimated adjusted difference in response rate, 95% CI, and p-value are based on Mantel-Haenszel stratum weighted method adjusting for the randomization stratification factors.||49.8|32.0|<0.0001
92418776|NCT04770753|184725195|SUPERIORITY||Difference in Lean Square (LS) Mean|3.4||||0.0026|TWO_SIDED|95.0|1.21|5.59|||ANCOVA|||The estimates, 95% CIs, and 2-sided p-value are based on an analysis of covariance (ANCOVA) model which includes average change from baseline in FACIT-Fatigue subscale score from Week 12 through Week 24 as the dependent variable, treatment group as the independent variable, and baseline and the randomization stratification factors as covariates.||5.59|1.21|0.0026
92418777|NCT04770753|184725196|SUPERIORITY||Difference in LS Mean|9.63|||<|0.0001|TWO_SIDED|95.0|7.8|11.46|||ANCOVA|||The estimates, 95% CIs, and 2-sided p-value are based on an ANCOVA model which includes average change from baseline in Hb concentrations from Week 12 through Week 24 as the dependent variable, treatment group as the independent variable, and baseline Hb concentration and the randomization stratification factors as covariates.||11.46|7.80|<0.0001
92418778|NCT05281510|184725221|OTHER|||||||0.002|||||||Wilcoxon signed rank test|||The comparison was between plasma viral HIV-1 RNA data at set-point and at pre-ART within the same treatment group.||||0.0020
92418779|NCT06415305|184725268|SUPERIORITY||||||<|0.008|||||||Wilcoxon signed rank tests|||||||<0.008
92418780|NCT06415305|184725269|SUPERIORITY|||||||0.009|||||||Wilcoxon signed rank tests|||||||0.009
92418781|NCT06415305|184725270|SUPERIORITY|||||||0.008|||||||Wilcoxon signed rank tests|||||||0.008
92418782|NCT06415305|184725271|SUPERIORITY|||||||0.009|||||||Wilcoxon signed rank tests|||||||0.009
92418783|NCT04103346|184725284|SUPERIORITY|||||||0.588|||||||Mixed Effects Model|||||||0.588
92418784|NCT04103346|184725285|SUPERIORITY|||||||0.748|||||||Mixed Effects Model|||||||0.748
92418785|NCT04103346|184725286|SUPERIORITY||||||<|0.001|||||||Mixed Effects Model|||||||<0.001
92169921|NCT05052996|184228474|OTHER||Difference in percentage|1.9|||||TWO_SIDED|95.0|-8.6|12.4|||||The difference in percentages between treatment groups and their 95% CI were calculated based on unconditional exact method using 2 inverted 1-sided tests.|||12.4|-8.6|
92235476|NCT02786537|184373943|EQUIVALENCE|Pre-specified equivalence range +/-5%|Mean Difference (Net)|-2.3|||||TWO_SIDED|95.0|-15.3|11.3||||||||11.3|-15.3|
92235477|NCT01466751|184373944|SUPERIORITY_OR_OTHER||Type III Tests of Fixed Effects|8.687||||0.004|TWO_SIDED|||||A-priori threshold for statistical significance: p \< 0.05. No correction for multiple comparisons. The omnibus effect from the linear mixed model for the Treatment Arm x Time Interaction was utilized to establish significance of the effect.|Mixed Models Analysis|Numerator degrees of freedom=1, Denominator degrees of freedom = 168||A linear mixed model was utilized to test the null hypothesis that the intervention groups would show equivalent performance change on the outcome measure from baseline to the 3 month time points.||||0.004
92418786|NCT04103346|184725287|SUPERIORITY|||||||0.0764|||||||Mixed Effects Model|||||||0.0764
92418787|NCT04103346|184725288|SUPERIORITY||||||<|0.001|||||||Mixed Effects Model|||||||<0.001
92418788|NCT05380180|184725293|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||We implemented an intent-to-treat analysis, including all participants who were randomized in the analysis, regardless of their participation status. To analyze the main effects of the intervention, we conducted linear mixed-effects model. Fixed factors included time of assessment (baseline/Week 4/Week 8) and group (intervention/waitlist control). Participant was included as a random intercept to account for individual variability at baseline.||||<.05
92418789|NCT05380180|184725294|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||We implemented an intent-to-treat analysis, including all participants who were randomized in the analysis, regardless of their participation status. To analyze the main effects of the intervention, we conducted linear mixed-effects model. Fixed factors included time of assessment (baseline/Week 4/Week 8) and group (intervention/waitlist control). Participant was included as a random intercept to account for individual variability at baseline.||||<.05
92418790|NCT05380180|184725295|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||We implemented an intent-to-treat analysis, including all participants who were randomized in the analysis, regardless of their participation status. To analyze the main effects of the intervention, we conducted linear mixed-effects model. Fixed factors included time of assessment (baseline/Week 4/Week 8) and group (intervention/waitlist control). Participant was included as a random intercept to account for individual variability at baseline.||||<.05
92418791|NCT05380180|184725296|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||We implemented an intent-to-treat analysis, including all participants who were randomized in the analysis, regardless of their participation status. To analyze the main effects of the intervention, we conducted linear mixed-effects model. Fixed factors included time of assessment (baseline/Week 4/Week 8) and group (intervention/waitlist control). Participant was included as a random intercept to account for individual variability at baseline.||||<.05
92418792|NCT05380180|184725297|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||We implemented an intent-to-treat analysis, including all participants who were randomized in the analysis, regardless of their participation status. To analyze the main effects of the intervention, we conducted linear mixed-effects model. Fixed factors included time of assessment (baseline/Week 4/Week 8) and group (intervention/waitlist control). Participant was included as a random intercept to account for individual variability at baseline.||||<.05
92418793|NCT05411367|184725301|SUPERIORITY||Mean Difference (Net)|-0.12||||0.315|TWO_SIDED|95.0|-0.62|0.38|||ANCOVA|||||0.38|-0.62|0.315
92418794|NCT05411367|184725302|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.055||0.487|TWO_SIDED|95.0|-0.11|0.11|||Mixed Models Analysis|||||0.11|-0.11|0.487
92418795|NCT02032823|184725303|SUPERIORITY||Hazard Ratio (HR)|0.581||||7.3e-06|TWO_SIDED|99.5|0.409|0.816||A multiple testing procedure is employed across the primary and all key secondary endpoints to strongly control overall type I error at 5% (2 sided) accounting for all analysis timepoints.|Log Rank|Log rank test is stratified by chemotherapy type, hormone receptor status, and prior platinum therapy using a pre-specified pooling strategy.|Estimate of the treatment hazard ratio is based on a stratified Cox's Proportional Hazards Model, \<1 indicates a lower risk with olaparib compared with placebo arm. Stratification factors are the same as those used in the stratified log-rank test.|||0.816|0.409|0.0000073
92169922|NCT05052996|184228475|OTHER||difference in least squares means|-68.0||||0.3859|TWO_SIDED|95.0|-226.0|91.0|||ANOVA||P-value, difference in least squares means (Diff in LSM), and its 95% confidence interval (CI) were from ANOVA model with treatment group as a fixed effect in the model.|||91|-226|0.3859
92235478|NCT01466751|184373945|SUPERIORITY_OR_OTHER||Type III Tests of Fixed Effects|2.032||||0.156|TWO_SIDED|||||No adjustment for multiple comparisons. The a priori threshold was: p \< 0.05.|Mixed Models Analysis|Numerator degrees of freedom: 1, Denominator degrees of freedom: 168||A linear mixed model was used to test the null hypothesis that the two treatment groups would display no differential changes in amygdala BOLD signal from baseline to 3 months as a main effect or in interaction with facial affect type (fear or happy) or by brain hemisphere (left or right).||||0.156
92278834|NCT00321711|184460537|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.445||||||95.0|0.037|5.325|||||Romiplostim/placebo|||5.325|0.037|
92278835|NCT00321711|184460537|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.444||||||95.0|0.032|6.08|||||Romiplostim/placebo|||6.080|0.032|
92418796|NCT02032823|184725304|SUPERIORITY||Hazard Ratio (HR)|0.574||||2.57e-05|TWO_SIDED|99.5|0.392|0.831||A multiple testing procedure is employed across the primary and all key secondary endpoints to strongly control overall type I error at 5% (2 sided) accounting for all analysis timepoints.|Log Rank|Log rank test is stratified by chemotherapy type, hormone receptor status, and prior platinum therapy using a pre-specified pooling strategy.|Estimate of the treatment hazard ratio is based on a stratified Cox's Proportional Hazards Model, \<1 indicates a lower risk with olaparib compared with placebo arm. Stratification factors are the same as those used in the stratified log-rank test.|||0.831|0.392|0.0000257
92418797|NCT02032823|184725305|SUPERIORITY||Hazard Ratio (HR)|0.678||||0.0091|TWO_SIDED|98.5|0.468|0.973||A multiple testing procedure is employed across the primary and all key secondary endpoints to strongly control overall type I error at 5% (2 sided) accounting for all analysis timepoints.|Log Rank|Log rank test is stratified by chemotherapy type, hormone receptor status, and prior platinum therapy using a pre-specified pooling strategy.|Estimate of the treatment hazard ratio is based on a stratified Cox's Proportional Hazards Model, \<1 indicates a lower risk with olaparib compared with placebo arm. Stratification factors are the same as those used in the stratified log-rank test.|||0.973|0.468|0.0091
92418798|NCT02411448|184725311|OTHER||Hazard Ratio (HR)|0.591|||<|0.0001|TWO_SIDED|95.0|0.461|0.76|||Log Rank|||||0.760|0.461|<0.0001
92418799|NCT02411448|184725313|OTHER||Hazard Ratio (HR)|0.832||||0.4209|TWO_SIDED|95.0|0.532|1.303|||Log Rank|||||1.303|0.532|0.4209
92418800|NCT02411448|184725314|OTHER|||||||0.7413|||||||Cochran-Mantel-Haenszel|||||||0.7413
92418801|NCT02411448|184725315|OTHER|||||||1|||||||Cochran-Mantel-Haenszel|||||||1.0000
92418802|NCT02411448|184725316|OTHER||Hazard Ratio (HR)|0.619||||0.0003|TWO_SIDED|95.0|0.477|0.805|||Log Rank|||||0.805|0.477|0.0003
92418803|NCT02616562|184725333|OTHER||Estimated Treatment difference|-3.66|||||TWO_SIDED|95.0|-5.57|-1.76||||||The primary analysis tested the estimated treatment difference in HV after 26 weeks of treatment between once-weekly somapacitan 0.04 mg/kg and daily dosing of norditropin 0.034 mg/kg. It was analysed using a mixed model for repeated measurements, with treatment, age group, sex, region and sex by age group interaction as factors and height at baseline as a covariate, all nested within week as a factor.||-1.76|-5.57|
92169923|NCT05052996|184228475|OTHER||difference in least squares means|13.0||||0.7085|TWO_SIDED|95.0|-56.0|82.0|||ANCOVA||P-value, difference in least squares means (Diff in LSM), and its 95% CI were from ANCOVA model with baseline value as a covariate and treatment as a fixed effect in the model.|||82|-56|0.7085
92418804|NCT02616562|184725333|OTHER||Estimated treatment difference|-0.55|||||TWO_SIDED|95.0|-2.41|1.32||||||The primary analysis tested the estimated treatment difference in HV after 26 weeks of treatment between once-weekly somapacitan 0.08 mg/kg and daily dosing of norditropin 0.034 mg/kg. It was analysed using a mixed model for repeated measurements, with treatment, age group, sex, region and sex by age group interaction as factors and height at baseline as a covariate, all nested within week as a factor.||1.32|-2.41|
92418805|NCT02616562|184725333|OTHER||Estimated treatment difference|1.67|||||TWO_SIDED|95.0|-0.22|3.56||||||The primary analysis tested the estimated treatment difference in HV after 26 weeks of treatment between once-weekly somapacitan 0.16 mg/kg and daily dosing of norditropin 0.034 mg/kg. It was analysed using a mixed model for repeated measurements, with treatment, age group, sex, region and sex by age group interaction as factors and height at baseline as a covariate, all nested within week as a factor.||3.56|-0.22|
92418806|NCT03326206|184725375|SUPERIORITY||||||<|0.0001||||||A priori threshold for statistical significance \< 0.05|Regression, Linear|Mixed linear regression||Mixed linear regression models were performed to assess differences over time for continuous variables, comparing COPE versus control groups. The models included a random effect for patients to account for within-patient correlation over time in the outcome measures and a random effect for the primary health facility, to account for within-site correlation. In the sensitivity analyses we also adjusted the models for the random effect of matching groups.||||<0.0001
92418807|NCT03326206|184725376|SUPERIORITY|||||||0.004||||||a priori threshold for significance p\<0.05|Regression, Linear|Mixed linear regression as described in primary endpoint||||||0.004
92418808|NCT03326206|184725377|SUPERIORITY|||||||0.02||||||a priori threshold for significant p\<0.05|Regression, Linear|Mixed linear regression as described in primary endpoint||||||0.02
92418809|NCT03326206|184725378|SUPERIORITY|||||||0.93||||||a priori threshold for significance p\<0.05|Regression, Linear|Mixed linear regression model as described for primary endpoint||||||0.93
92418810|NCT03326206|184725379|SUPERIORITY|||||||0.0091||||||Primary result is coefficient on post intervention change in visits by COPE pts relative to controls: if significant and \>0, COPE visits have increased relative to controls; if significant and \<0, COPE visits have decreased relative to controls.|Regression, Linear|||Generalized linear mixed regression models were used for count outcomes (SAS 9.3: PROC GLIMMIX) to estimate change in health care visits by COPE pts relative to non-COPE pts. Random effects accounted for within-site correlation at service units. Adjusted for covariates: age, gender, language, primary care physician, and diagnoses: essential hypertension, major depression disorder, alcohol abuse, major cardiovascular disease, and dyslipidemia.||||0.0091
92418811|NCT03326206|184725380|SUPERIORITY|||||||0.0003|||||||Regression, Linear|||As described for primary outpatient services||||0.0003
92418812|NCT03326206|184725381|SUPERIORITY|||||||0.4296|||||||Regression, Linear|||as described for primary outpatient services||||0.4296
92418813|NCT03326206|184725382|SUPERIORITY||||||<|0.0001|||||||Regression, Linear|||As described for primary outpatient services||||<0.0001
92418814|NCT03326206|184725383|SUPERIORITY|||||||0.0431|||||||Regression, Linear|||||||0.0431
92418815|NCT03326206|184725384|SUPERIORITY|||||||0.0516|||||||Regression, Linear|||||||0.0516
92418816|NCT03326206|184725385|SUPERIORITY|||||||0.3582|||||||Regression, Linear|||||||0.3582
92418817|NCT03326206|184725386|SUPERIORITY|||||||0.2461|||||||Regression, Linear|||||||0.2461
92418818|NCT03326206|184725387|SUPERIORITY|||||||0.0613|||||||Regression, Linear|||||||0.0613
92169924|NCT05052996|184228476|OTHER||difference in least squares means|33.0||||0.3477|TWO_SIDED|95.0|-37.0|103.0|||ANCOVA||P-value, difference in least squares means (Diff in LSM), and its 95% CI were from ANCOVA model with baseline value as a covariate and treatment as a fixed effect in the model.|||103|-37|0.3477
92278836|NCT00321711|184460538|SUPERIORITY_OR_OTHER||Difference in incidence rate|-33.5||||||95.0|-69.0|2.0|||||Romiplostim - placebo|||2.0|-69.0|
92418819|NCT03326206|184725388|SUPERIORITY||||||<|0.0001|||||||Regression, Linear|||||||<0.0001
92418820|NCT03326206|184725389|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||0.54
92235479|NCT02413255|184373954|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0195||||0.465|TWO_SIDED|90.0|0.9752|1.0637|||Power Model|||||1.0637|0.9752|0.465
92235480|NCT02413255|184373955|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.1124||||0.126|TWO_SIDED|90.0|0.9913|1.2336|||Power Model|||Day 1||1.2336|0.9913|0.126
92235481|NCT02413255|184373955|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.09||||0.114|TWO_SIDED|90.0|0.9962|1.1838|||Power Model|||Day 9||1.1838|0.9962|0.114
92235482|NCT02413255|184373956|SUPERIORITY|||||||0.5402|||||||ANOVA|Statistical analysis results were obtained using Analysis of Variance (ANOVA) with dose level as a fixed effect.||||||0.5402
92235483|NCT02413255|184373957|SUPERIORITY|||||||0.7824|||||||ANOVA|Statistical analysis results were obtained using ANOVA with dose level as a fixed effect.||Day 1||||0.7824
92235484|NCT02413255|184373957|SUPERIORITY|||||||0.4056|||||||ANOVA|Statistical analysis results were obtained using ANOVA with dose level as a fixed effect.||Day 9||||0.4056
92235485|NCT02413255|184373958|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0606||||0.019|TWO_SIDED|90.0|1.0187|1.1026|||Power Model|||||1.1026|1.0187|0.019
92235486|NCT02413255|184373959|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0789||||0.258|TWO_SIDED|90.0|0.9628|1.195|||Power Model|||Day 1||1.1950|0.9628|0.258
92169925|NCT05052996|184228477|OTHER||difference in least squares means|-5.0||||0.8849|TWO_SIDED|95.0|-76.0|66.0|||ANCOVA||P-value, difference in least squares means (Diff in LSM), and its 95% CI were from ANCOVA model with baseline value as a covariate and treatment as a fixed effect in the model.|||66|-76|0.8849
92235487|NCT02413255|184373959|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0929||||0.144|TWO_SIDED|90.0|0.9878|1.198|||Power Model|||Day 9||1.1980|0.9878|0.144
92235488|NCT02413255|184373962|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0799||||0.003|TWO_SIDED|90.0|1.0371|1.1227|||Power Model|||||1.1227|1.0371|0.003
92418821|NCT03326206|184725390|SUPERIORITY|||||||0.19||||||P-value corresponds to patient-reported health compared to a year ago and compared to others their age|Chi-squared|||||||0.19
92418822|NCT03326206|184725391|SUPERIORITY|||||||0.0028||||||P value corresponds with Ability to cope with negative life events|Fisher Exact|||||||0.0028
92169926|NCT02088853|184228492|SUPERIORITY|Wilcoxon test|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92169927|NCT02088853|184228493|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92169928|NCT02088853|184228494|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92169929|NCT03351699|184228495|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).|Posterior Mean Difference|-1.53|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-4250 and placebo at least 1.4 log10 copies/mL was 78%.|||||
92235489|NCT02413255|184373963|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0897||||0.201|TWO_SIDED|90.0|0.9735|1.206|||Power Model|||||1.2060|0.9735|0.201
92235490|NCT02413255|184373964|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0188||||0.49|TWO_SIDED|90.0|0.9734|1.0642|||Power Model|||||1.0642|0.9734|0.490
92235491|NCT02413255|184373965|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0846||||0.224|TWO_SIDED|90.0|0.969|1.2002|||Power Model|||||1.2002|0.9690|0.224
92235492|NCT02413255|184373972|SUPERIORITY||||||<|0.0001|||||||ANOVA|Statistical analysis results were obtained using ANOVA with dose level as a fixed effect.||||||<.0001
92235493|NCT02413255|184373988|OTHER||Estimated Ratio|1.121|||||TWO_SIDED|90.0|0.772|1.628||||||||1.628|0.772|
92235494|NCT02413255|184373988|OTHER||Estimated Ratio|1.156|||||TWO_SIDED|90.0|0.796|1.678||||||||1.678|0.796|
92235495|NCT02413255|184373988|OTHER||Estimated Ratio|0.982|||||TWO_SIDED|90.0|0.676|1.425||||||||1.425|0.676|
92235496|NCT02413255|184373988|OTHER||Estimated Ratio|1.055|||||TWO_SIDED|90.0|0.701|1.587||||||||1.587|0.701|
92235497|NCT02413255|184373988|OTHER||Estimated Ratio|1.105|||||TWO_SIDED|90.0|0.761|1.604||||||||1.604|0.761|
92235498|NCT02413255|184373988|OTHER||Estimated Ratio|1.225|||||TWO_SIDED|90.0|0.844|1.778||||||||1.778|0.844|
92235499|NCT00077623|184373989|NON_INFERIORITY_OR_EQUIVALENCE|The two RO0503821 dosing schedules were compared separately to epoetin reference using ANCOVA, with Hb at BL and region as the covariates. The test for non-inferiority were based on the lower limit of the two-sided 97.5% confidence interval for the difference between the two groups. When the lower limit was greater than or equal to -0.75 g/dL, the RO0503821 groups were regarded as non-inferior to the epoetin reference group. The confidence level of 97.5% was chosen to adjust for multiplicity.|Mean Difference between groups|0.141|||<|0.0001|TWO_SIDED|97.5|-0.098|0.38||The p-value for the non-inferiority test can be derived via the t-test.|ANCOVA, CI for difference between groups|||The non-inferiority test for treatment differences in Hb change from baseline, based on ANCOVA analysis with a non-inferiority limit of -0.75 g/dL (Per Protocol Population)||0.380|-0.098|<0.0001
92418823|NCT04770779|184725407|SUPERIORITY||Common Risk Difference on Response Rate|17.6||||0.0003|TWO_SIDED|95.0|8.0|27.2|||Mantel Haenszel|||The p-value is based on the Mantel-Haenszel stratum weighted method adjusting for randomization stratification factors.||27.2|8.0|0.0003
92169930|NCT03351699|184228495|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).|Posterior Mean Difference|-1.73|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-4250 and placebo at least 1.4 log10 copies/mL was 95%.|||||
92235500|NCT00077623|184373989|NON_INFERIORITY_OR_EQUIVALENCE|The two RO0503821 dosing schedules were compared separately to epoetin reference using ANCOVA, with Hb at BL and region as the covariates. The test for non-inferiority were based on the lower limit of the two-sided 97.5% confidence interval for the difference between the two groups. When the lower limit was greater than or equal to -0.75 g/dL, the RO0503821 groups were regarded as non-inferior to the epoetin reference group. The confidence level of 97.5% was chosen to adjust for multiplicity .|Mean Difference between groups|-0.022|||<|0.0001|TWO_SIDED|97.5|-0.262|0.217||The p-value for the non-inferiority test can be derived via the t-test.|ANCOVA, CI for difference between groups|||The non-inferiority test for treatment differences in Hb change from baseline, based on ANCOVA analysis with a non-inferiority limit of -0.75 g/dL (Per Protocol Population)||0.217|-0.262|<0.0001
92278837|NCT00321711|184460538|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.315||||||95.0|0.029|3.412||||||||3.412|0.029|
92390328|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
92390329|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.81|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.81
92390330|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390331|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
92418824|NCT04770779|184725408|SUPERIORITY||Common Risk Difference on Response Rate|11.1||||0.0003|TWO_SIDED|95.0|5.1|17.0|||Mantel Haenszel|||The p-value is based on the Mantel-Haenszel stratum weighted method adjusting for randomization stratification factors.||17.0|5.1|0.0003
92418825|NCT04770779|184725409|SUPERIORITY||Common Risk Difference on Response Rate|13.4|||<|0.0001|TWO_SIDED|95.0|7.7|19.1|||Mantel Haenszel|||The p-value is based on the Mantel-Haenszel stratum weighted method adjusting for randomization stratification factors.||19.1|7.7|<0.0001
92418826|NCT04770779|184725410|SUPERIORITY||Common Risk Difference on Response Rate|6.4||||0.0056|TWO_SIDED|95.0|1.9|10.9|||Mantel Haenszel|||The p-value is based on the Mantel-Haenszel stratum weighted method adjusting for randomization stratification factors.||10.9|1.9|0.0056
92418827|NCT03692052|184725427|OTHER||||||<|0.0001|||||||Clopper-Pearson Method|Significance of p-value associated with the test of H0:Hb response rate =0.3 vs H1:Hb response rate \> 0.3.||||||<.0001
92418828|NCT04001829|184725503|SUPERIORITY|||||||0.27|||||||Fisher Exact|||||||0.27
92418829|NCT04001829|184725504|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
92418830|NCT04001829|184725505|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
92278838|NCT00321711|184460538|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.211||||||95.0|0.021|2.082||||||||2.082|0.021|
92390332|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390333|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390334|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.64|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.64
92390335|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.97|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.97
92418831|NCT04001829|184725506|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92418832|NCT04001829|184725507|SUPERIORITY|||||||0.019|||||||Fisher Exact|||||||0.019
92418833|NCT04001829|184725508|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
92418834|NCT04831216|184725525|OTHER|||||||0.0107||||||The p-value reflects results of analysis of change in HbA1c from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0107
92418835|NCT04831216|184725526|OTHER|||||||0.7927||||||The p-value reflects results of analysis of change in skin carotenoid levels from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.7927
92418836|NCT04831216|184725527|OTHER|||||||0.4651||||||The p-value reflects results of analysis of change in HEI score from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.4651
92418837|NCT04831216|184725528|OTHER|||||||0.2439||||||The p-value reflects results of analysis of change in BMI from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.2439
92390336|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.31|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.31
92390337|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390338|NCT01128426|184680565|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92390339|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
92418838|NCT04831216|184725530|OTHER|||||||0.6794||||||The p-value reflects results of analysis of change in DMSES scale score from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.6794
92418839|NCT04831216|184725531|OTHER|||||||0.1043||||||The p-value reflects results of analysis of change in oral health behavior from baseline to post-intervention.|Mixed Models Analysis|Cumulative logit mixed effects model included time, age, household size, gender, race, education, and employment.||Cumulative logit mixed effects model (using PROC GLIMMIX) for repeated measures used all available participant data. This model is specifically designed for ordinal outcomes. Analyses do not include imputed missing values.||||0.1043
92390340|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.78|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.78
92418840|NCT04831216|184725532|OTHER||||||<|0.0001||||||The p-value reflects results of analysis of change in PAID-5 scale score from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||<0.0001
92418841|NCT04831216|184725534|OTHER|||||||0.5332||||||The p-value reflects results of analysis of change in number of visits to food pantries in the past 30 days from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.5332
92418842|NCT04831216|184725535|OTHER|||||||0.0468||||||The p-value reflects results of analysis of change in ARMS-D scale scores from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0468
92418843|NCT04831216|184725538|OTHER||||||<|0.0001||||||The p-value reflects results of analysis of change in days per week following general healthful diet from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||<0.0001
92418844|NCT04831216|184725539|OTHER|||||||0.0649||||||The p-value reflects results of analysis of change in days per week following specific diet recommendations from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0649
92418845|NCT04831216|184725540|OTHER|||||||0.0049||||||The p-value reflects results of analysis of change in days per week engaging in exercise from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0049
92418846|NCT04831216|184725541|OTHER|||||||0.0086||||||The p-value reflects results of analysis of change in days per week conducted blood glucose testing from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0086
92418847|NCT04831216|184725542|OTHER|||||||0.0243||||||The p-value reflects results of analysis of change in days per week conducting food checks from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0243
92390341|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method.The null hypothesis was relative risk = 1.||||0.13
92390342|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
92390343|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
92390344|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.62|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.62
92390345|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390346|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92235501|NCT00401973|184373998|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||P-value for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|Mixed Models Analysis|Repeated Measures Analysis||To detect a difference between treatment arms of 3.06 kg in mean weight change from baseline to endpoint, 150 patients must be enrolled in stepped intervention arm and 50 in control arm. Assuming a standard deviation of 6.87 kg, there is 80% power to detect a difference between treatment arms on a 1-sided 2-sample t-test at the 5% significance level. Primary analysis was the comparison of mean weight change for 'olanzapine only' versus pooled 'olanzapine \& adjunctive treatment' arm at Week 22.||||0.065
92235502|NCT00401973|184373998|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||Mixed Models Analysis|Repeated Measures Analysis||Hypothesis=weight gain associated with olanzapine can be prevented or mitigated with an adjunctive pharmacological algorithm.||||0.113
92235503|NCT00401973|184373998|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||Mixed Models Analysis|Repeated Measures Analysis||||||0.036
92235504|NCT00401973|184373999|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.498
92390347|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92390348|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
92390349|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
92390350|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390351|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390352|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92418848|NCT04831216|184725543|OTHER|||||||0.2861||||||The p-value reflects results of analysis of change in smoking status (yes/no) from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.2861
92418849|NCT04831216|184725544|OTHER|||||||0.9933||||||The p-value reflects results of analysis of change in days per week adhering to prescribed medications from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.9933
92418850|NCT03470441|184725552|OTHER||||||||||||||descriptive||||As little data exists on the incidence of arrhythmias that occur over an extended period of time following AMI, descriptive analysis of the primary endpoints (Arrhythmias of Interest at 48 hours and 14 days for overall and anterior infarcts) was appropriate in this study due to the absence of an externally validated benchmark which would normally serve as the basis for hypothesis testing of FDY-5301's effect on arrhythmias.|||
92418851|NCT03470441|184725557|SUPERIORITY||Median Difference (Final Values)|-3.2||||0.32|TWO_SIDED|95.15|-10.8|3.1|||Wilcoxon (Mann-Whitney)|||Wilcoxon Mann-Whitney Test comparing placebo to FDY-5301 treated subjects (combined low dose, intermediate dose, and high dose).||3.1|-10.8|0.32
92418852|NCT03470441|184725559|SUPERIORITY||Median Difference (Final Values)|-4.4||||0.46|TWO_SIDED|95.16|-20.2|12.1|||Wilcoxon (Mann-Whitney)|||Wilcoxon Mann-Whitney Test Comparing placebo to anterior infarcts FDY-5301 treated subjects (low, intermediate, and high) combined into one group.||12.10|-20.2|0.46
92235505|NCT00401973|184373999|SUPERIORITY_OR_OTHER|||||||0.637||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.637
92235506|NCT00401973|184373999|SUPERIORITY_OR_OTHER|||||||0.125||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.125
92235507|NCT00401973|184374000|SUPERIORITY_OR_OTHER|||||||0.173||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.173
92390353|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
92390354|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
92390355|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
92390356|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
92390357|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.61|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.61
92390358|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
92390359|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.62|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.62
92390360|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92390361|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
92390362|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
92418853|NCT03470441|184725565|SUPERIORITY||Median Difference (Final Values)|3.7||||0.25|TWO_SIDED|95.11|-3.6|10.6|||Wilcoxon (Mann-Whitney)|||Wilcoxon Mann-Whitney Test comparing placebo to FDY-5301 treated subjects (combined low dose, intermediate dose, and high dose).||10.6|-3.6|0.25
92418854|NCT03470441|184725567|SUPERIORITY||Median Difference (Final Values)|4.9||||0.31|TWO_SIDED|95.16|-7.0|16.9|||Wilcoxon (Mann-Whitney)|||Wilcoxon Mann-Whitney Test comparing placebo to anterior infarcts FDY-5301 treated subjects (combined low dose, intermediate dose, and high dose).||16.9|-7|0.31
92418855|NCT05169567|184725582|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.02|TWO_SIDED|95.0|0.57|0.95|||Log Rank|||||0.95|0.57|0.02
92418856|NCT04576455|184725598|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.1757|TWO_SIDED|95.0|0.6|1.1|||Log Rank|Stratified analysis (strata are: site of disease, prior CDK4/6i treatment, and prior fulvestrant treatment).|Giredestrant vs. PCET|||1.10|0.60|0.1757
92418857|NCT04576455|184725599|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.3446|TWO_SIDED|95.0|0.85|1.6|||Log Rank|Stratified analysis (strata are: site of disease, prior CDK4/6i treatment, and prior fulvestrant treatment).|Giredestrant vs. PCET|||1.60|0.85|0.3446
92418858|NCT04576455|184725600|SUPERIORITY||Odds Ratio (OR)|1.87||||0.1126|TWO_SIDED|95.0|0.86|4.07|||Cochran-Mantel-Haenszel||Giredestrant vs. PCET|||4.07|0.86|0.1126
92418859|NCT04576455|184725600|SUPERIORITY||Difference in Objective Response Rates|5.35|||||TWO_SIDED|95.0|-1.97|12.78|||||Giredestrant vs. PCET|||12.78|-1.97|
92418860|NCT04576455|184725602|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0289|TWO_SIDED|95.0|1.06|3.04|||Cochran-Mantel-Haenszel||Giredestrant vs. PCET|||3.04|1.06|0.0289
92418861|NCT04576455|184725602|SUPERIORITY||Difference in Clinical Benefit Rates|10.74|||||TWO_SIDED|95.0|0.33|20.86|||||Giredestrant vs. PCET|||20.86|0.33|
92390363|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
92390364|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92418862|NCT04576455|184725603|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.061|TWO_SIDED|95.0|0.35|1.03|||Log Rank|Stratified analysis (strata are: site of disease, prior CDK4/6i treatment, and prior fulvestrant treatment).|Giredestrant vs. PCET|This statistical analysis is done for PFS by ESR1 mutation detected at baseline||1.03|0.35|0.0610
92235508|NCT00401973|184374000|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.016
92418863|NCT04576455|184725603|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.5947|TWO_SIDED|95.0|0.54|1.42|||Log Rank|Stratified analysis (strata are: site of disease, prior CDK4/6i treatment, and prior fulvestrant treatment).|Giredestrant vs. PCET|This statistical analysis is done for PFS by ESR1 Mutation not detected at baseline||1.42|0.54|0.5947
92418864|NCT04576455|184725604|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.58|1.4|||||Giredestrant vs. PCET|||1.40|0.58|
92418865|NCT04576455|184725605|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.49|1.12|||||Giredestrant vs. PCET|||1.12|0.49|
92418866|NCT04576455|184725606|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.53|1.35|||||Giredestrant vs. PCET|||1.35|0.53|
92418867|NCT04576455|184725607|OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.72|1.69|||||Giredestrant vs. PCET|||1.69|0.72|
92418868|NCT04576455|184725608|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.47|1.18|||||Giredestrant vs. PCET|||1.18|0.47|
92418869|NCT04449055|184725614|SUPERIORITY||chi-square|1.8311||||0.176|TWO_SIDED||||||Log Rank|||Log-rank test||||0.1760
92418870|NCT04449055|184725615|SUPERIORITY||chi-square|0.8||||0.3711|TWO_SIDED||||||Log Rank||Median and mean survival times were not estimable due to the small number of dropouts. Thus, we reported the proportion remaining in treatment at 18 days as the descriptive summary measure.|The null hypothesis is that time to discontinuation of psychosocial treatment is not different between groups.||||0.3711
92418871|NCT04449055|184725615|SUPERIORITY||chi-square|0.8||||0.3711|||||||Log Rank|||This test compared time to discontinuation of psychosocial treatment between groups||||0.3711
92418872|NCT04449055|184725616|SUPERIORITY|Exact Wilcoxon rank-sum test comparing changes in temporal correlations between intervention groups.|Difference in median change|-0.711789||||0.1333|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value reported as difference in median change from baseline to 4 weeks for the MPFC first group minus the median change from baseline to 4-weeks for the DPFC first group.|||||0.1333
92418873|NCT04449055|184725617|SUPERIORITY||Difference in median change|0.2729394||||0.1333|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Exact Wilcoxon rank-sum test of comparing changes in correlations between intervention groups.|Reported as difference in median change from baseline to 4 weeks for the MPFC first group minus median change for from baseline to 4-weeks for the DPFC first group.|||||0.1333
92390365|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92390366|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390367|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.37|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.37
92390368|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
92418874|NCT04449055|184725618|SUPERIORITY||Difference in median change|0.2676718||||0.2667|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Exact Wilcoxon rank-sum test comparing changes in functional connectivity from baseline to 4 weeks between intervention groups.|Reported as difference in median change from baseline to 4 weeks for the MPFC first minus the median change from baseline to 4 weeks for the DPFC first group.|||||0.2667
92418875|NCT04449055|184725619|SUPERIORITY||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|11.0972||0.6829|TWO_SIDED|||||Group by time interaction, with time as second measure date|Mixed Models Analysis||This is the adjusted difference in mean for mPFC first relative to DPFC first.|||||0.6829
92418876|NCT04449055|184725620|SUPERIORITY||Mean Difference (Final Values)|-0.3599|STANDARD_ERROR_OF_MEAN|1.1018||0.7654|TWO_SIDED|||||Group by time interaction p-value, with time as second (last) measure date|Mixed Models Analysis||This is the adjusted difference in mean for MPFC first relative to DPFC first.|||||0.7654
92235509|NCT00401973|184374000|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.029
92418877|NCT04449055|184725621|SUPERIORITY||Slope|0.007388|STANDARD_ERROR_OF_MEAN|0.06256||0.907|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Difference in slope for MPFC first versus DPFC first|||||0.9070
92418878|NCT04449055|184725622|SUPERIORITY||Odds Ratio, log|0.1095|STANDARD_ERROR_OF_MEAN|0.0747||0.1427|TWO_SIDED|95.0|-0.0369|0.2559||Based on group x continuous time interaction in generalized estimating equation logistic regression model clustered on subject. This is like a mixed model but uses empirical standard error estimates that are independent of covariance structure.|GEE logistic regression clustered on ID||Difference in change in log odds of positive UA for stimulant for MPFC first versus DPFC first. Estimated change in log odds per day in the study.|||0.2559|-0.0369|0.1427
92418879|NCT04449055|184725623|SUPERIORITY||Slope|0.02569|STANDARD_ERROR_OF_MEAN|0.02964||0.3917|TWO_SIDED||||||Mixed Models Analysis||This is the difference in slope for MPFC first relative to DPFC first.|||||0.3917
92418880|NCT04449055|184725624|SUPERIORITY||Slope|0.01759|STANDARD_ERROR_OF_MEAN|0.01948||0.3829|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Estimated difference in slope of change per day for MPFC first vs. DLPFC first|||||0.3829
92235510|NCT00401973|184374001|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.017
92235511|NCT00401973|184374001|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.015
92390369|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390370|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390371|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.82|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.82
92390372|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
92390373|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.78|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.78
92418881|NCT04449055|184725625|SUPERIORITY||Slope|0.01691|STANDARD_ERROR_OF_MEAN|0.054||0.7595|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Estimated difference in slope of change per day for MPFC first vs. DLPFC first|||||0.7595
92418882|NCT04449055|184725626|SUPERIORITY||Slope|0.04356|STANDARD_ERROR_OF_MEAN|0.04804||0.3839|TWO_SIDED||||||Mixed Models Analysis||Estimated difference in slope of change per day for MPFC first vs. DLPFC first|||||0.3839
92418883|NCT04449055|184725627|SUPERIORITY||Slope|0.005445|STANDARD_ERROR_OF_MEAN|0.01642||0.7455|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Estimated difference in slope of change per day for MPFC first vs. DLPFC first|||||0.7455
92235512|NCT00401973|184374001|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.071
92235513|NCT00401973|184374002|SUPERIORITY_OR_OTHER|||||||0.152||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.152
92418884|NCT04449055|184725628|SUPERIORITY||Slope|0.2125|STANDARD_ERROR_OF_MEAN|0.1159||0.0823|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Difference in estimated change per day for MPFC first versus DPFC first|||||0.0823
92418885|NCT04449055|184725629|SUPERIORITY||Slope|-0.04735|STANDARD_ERROR_OF_MEAN|0.07382||0.5289|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Difference in estimated change per day for MPFC first versus DPFC first|||||0.5289
92418886|NCT04449055|184725630|SUPERIORITY||Slope|-0.00231|STANDARD_ERROR_OF_MEAN|0.06359||0.9714|TWO_SIDED|||||Group by time interaction|Mixed Models Analysis||Estimated difference in change per day for MPFC first versus DPFC first|||||0.9714
92235514|NCT00401973|184374002|SUPERIORITY_OR_OTHER|||||||0.35||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.350
92235515|NCT00401973|184374002|SUPERIORITY_OR_OTHER|||||||0.123||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.123
92235516|NCT00401973|184374003|SUPERIORITY_OR_OTHER|||||||0.499||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.499
92235517|NCT00401973|184374003|SUPERIORITY_OR_OTHER|||||||0.833||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.833
92390374|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.65|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.65
92390375|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.17|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.17
92390376|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
92390377|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.81|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.81
92390378|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390379|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92390380|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92390381|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92390382|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
92390383|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390384|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92390385|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.97|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.97
92235518|NCT00401973|184374003|SUPERIORITY_OR_OTHER|||||||0.339||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.339
92390386|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.19|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.19
92390387|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
92390388|NCT01128426|184680566|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92390389|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92418887|NCT04449055|184725631|SUPERIORITY||Slope|0.1268|STANDARD_ERROR_OF_MEAN|0.1153||0.2914|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Difference in estimated change per day for MPFC first versus DLPFC first|||||0.2914
92418888|NCT04449055|184725632|SUPERIORITY||Slope|0.1609|STANDARD_ERROR_OF_MEAN|0.08||0.0573|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Difference in estimated change per day for MPFC first versus DPFC first|||||0.0573
92418889|NCT04449055|184725633|SUPERIORITY||Slope|0.008267|STANDARD_ERROR_OF_MEAN|0.08675||0.925|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Difference in estimated change per day for MPFC first versus DPFC first|||||0.9250
92418890|NCT04449055|184725634|SUPERIORITY||Slope|0.000766|STANDARD_ERROR_OF_MEAN|0.02679||0.9775|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Difference in estimated change per day for MPFC first versus DPFC first|||||0.9775
92418891|NCT04449055|184725635|SUPERIORITY||Slope|0.002498|STANDARD_ERROR_OF_MEAN|0.02518||0.9211|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Difference in estimated change per day for MPFC first versus DPFC first|||||0.9211
92235519|NCT00401973|184374004|SUPERIORITY_OR_OTHER|||||||0.278||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.278
92235520|NCT00401973|184374004|SUPERIORITY_OR_OTHER|||||||0.976||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.976
92235521|NCT00401973|184374004|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.049
92235522|NCT00401973|184374005|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.122
92235523|NCT00401973|184374005|SUPERIORITY_OR_OTHER|||||||0.225||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.225
92390390|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92390391|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92390392|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
92390393|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.26|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.26
92390394|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92390395|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.4|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.40
92390396|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.2|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.20
92390397|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
92390398|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.59|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.59
92390399|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.1|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.10
92390400|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390401|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390402|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92418892|NCT04449055|184725636|SUPERIORITY||Slope|-0.2995|STANDARD_ERROR_OF_MEAN|0.4196||0.5269|TWO_SIDED|||||Group by continuous time interaction|Mixed Models Analysis||Difference in estimated change per day for MPFC first versus DPFC first|||||0.5269
92390403|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.93|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.93
92418893|NCT06596005|184725637|OTHER||Difference in least squares means|-6.37|STANDARD_ERROR_OF_MEAN|0.871|<|0.0001|TWO_SIDED|95.0|-8.09|-4.64||The LSM, SE, and difference from placebo with 95% CI and nominal P-value are estimated using MMRM, with baseline MDS-UPDRS Part III scores and L-Dopa use as covariates, and treatment group, visit, and group-by-visit interaction as fixed effects.|MMRM|||||-4.64|-8.09|<0.0001
92418894|NCT06596005|184725637|OTHER||Difference in least squares means|-6.7|STANDARD_ERROR_OF_MEAN|0.886|<|0.0001|TWO_SIDED|95.0|-8.45|-4.95||The LSM, SE, and difference from placebo with 95% CI and nominal P-value are estimated using MMRM, with baseline MDS-UPDRS Part III scores and L-Dopa use as covariates, and treatment group, visit, and group-by-visit interaction as fixed effects.|MMRM|||||-4.95|-8.45|<0.0001
92418895|NCT02445391|184725638|NON_INFERIORITY|The null hypothesis for testing non-inferiority of platinum was defined as that the hazard ratio (HR) for platinum/capecitabine ≥ 1.154 (ie, HR of 1.154 was used as the non-inferiority margin). The alternative hypothesis was HR=0.754 for platinum/ capecitabine. The 4-year IDFS rate was expected to be 67% on capecitabine arm.|Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.62|1.81|||||The 95% confidence interval provided above was the Jennison and Turnbull repeated confidence interval.|||1.81|0.62|
92235524|NCT00401973|184374005|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.124
92418896|NCT03516942|184725644|EQUIVALENCE|No margin of equivalence|Slope|0.0||||0.74|TWO_SIDED|95.0|-0.1|0.2||P value: For the categorical variable with more than 2 levels, this is the p value from the overall test of the null hypothesis that all estimates are equal against the alternative that at least one is different.|Regression, Linear|||"Age covariate effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||0.2|-0.1|0.74
92390404|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.56|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.56
92235525|NCT00401973|184374006|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.020
92235526|NCT00401973|184374006|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value for Change from Baseline|ANCOVA|||||||0.037
92235527|NCT00401973|184374006|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.038
92235528|NCT00401973|184374007|SUPERIORITY_OR_OTHER|||||||0.474||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.474
92235529|NCT00401973|184374007|SUPERIORITY_OR_OTHER|||||||0.404||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.404
92235530|NCT00401973|184374007|SUPERIORITY_OR_OTHER|||||||0.652||95.0||||P-value for Change from Baseline|ANCOVA|||||||0.652
92390405|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.79|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.79
92390406|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.46|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.46
92390407|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.92|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.92
92390408|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
92235531|NCT04243369|184374041|OTHER|Only descriptive statistics was provided. The rate and the exact 95% CI of the rate using the Clopper-Pearson Exact method is calculated.|Rate|100.0|||||TWO_SIDED|95.0|88.4|100.0||||||||100|88.4|
92390409|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390410|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.4|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.40
92390411|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.93|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.93
92418897|NCT03516942|184725644|EQUIVALENCE|No margin of equivalence|Slope|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.3||P value: For the categorical variable with more than 2 levels, this is the p value from the overall test of the null hypothesis that all estimates are equal against the alternative that at least one is different.|Regression, Linear|||"Baseline COST effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||-0.3|-0.6|<0.001
92235532|NCT00320671|184374062|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence Analysis|Cumulative Response Rates|56.8||||0.61|TWO_SIDED|95.0|43.9|69.9|||Log Rank||Only the subjects taking risperidone were analysed in this section|||69.9|43.9|.61
92418898|NCT03516942|184725644|EQUIVALENCE|No margin of equivalence||||||0.002||||||This is the p value of the null hypothesis that COST estimates for all cancer types (Colon cancer, Rectal cancer and Rectosigmoid) are equal against the alternative that at least one is different.|Regression, Linear|||"Cancer type (Colon cancer, Rectal cancer and Rectosigmoid) effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||||0.002
92418899|NCT03516942|184725644|EQUIVALENCE|No margin of equivalence|Slope|0.3||||0.03|TWO_SIDED|95.0|0.0|0.6|||Regression, Linear|||"FACT-G7 effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||0.6|0.0|0.03
92235533|NCT00320671|184374062|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence Analysis|Cumulative Response Rates|62.8||||0.61|TWO_SIDED|95.0|50.8|74.8|||Log Rank||Only subjects taking aripiprazole were analysed in this section|||74.8|50.8|.61
92235534|NCT02532543|184374125|SUPERIORITY|||||||0.863|||||||ANOVA|||||||0.863
92235535|NCT02532543|184374126|SUPERIORITY|||||||0.718|||||||ANOVA|||Comparison between each arm/group at 2 mm from the height of the bone crest||||0.718
92235536|NCT02532543|184374126|SUPERIORITY|||||||0.853|||||||ANOVA|||Comparison between each arm/group at 4 mm from the height of the bone crest||||0.853
92235537|NCT02532543|184374127|SUPERIORITY|||||||0.718|||||||ANOVA|||Comparison between each arm/group of change in mid buccal bone height||||0.718
92390412|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.82|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.82
92390413|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390414|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92390415|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
92390416|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
92390417|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.59|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.59
92418900|NCT03516942|184725644|EQUIVALENCE|No margin of equivalence|Slope|1.6||||0.13|TWO_SIDED|95.0|-0.5|3.7|||Regression, Linear|||"Gender effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||3.7|-0.5|0.13
92418901|NCT03516942|184725644|EQUIVALENCE|No margin of equivalence||||||0.91||||||This is the p value of the null hypothesis that COST estimates for all RACES (White, Black, other) are equal against the alternative that at least one is different.|Regression, Linear|||"RACE (White. Black Other) effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||||0.91
92418902|NCT03516942|184725644|EQUIVALENCE|No margin of equivalence|Slope|0.0|||>|0.99|TWO_SIDED|95.0|-0.3|0.3|||Regression, Linear|||"Neighborhood Deprivation (NDI) effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Higher NDI = greater neighborhood deprivation"||0.3|-0.3|>0.99
92418903|NCT03516942|184725646|EQUIVALENCE|no margin||||||0.4142||||||alpha=0.05|McNemar|||Work Time Missed from Baseline to 6 Months||||0.4142
92418904|NCT03516942|184725646|EQUIVALENCE|no margin||||||0.1797|||||||McNemar|||Impairment of Activities at Work from Baseline to 6 Months||||0.1797
92418905|NCT03516942|184725646|EQUIVALENCE|no margin||||||0.8415|||||||McNemar|||Overall Work Impairment from Baseline to 6 Months||||0.8415
92418906|NCT03516942|184725646|EQUIVALENCE|no margin||||||0.6831|||||||McNemar|||Impairment of Activities Outside of Work from Baseline to 6 Months||||0.6831
92418907|NCT03516942|184725646|EQUIVALENCE|no margin|||||<|0.0001|||||||McNemar|||Work Time Missed from Baseline to 12 Months||||<.0001
92235538|NCT02532543|184374127|SUPERIORITY|||||||0.999|||||||ANOVA|||Comparison between each arm/group of change in mid palatal bone height||||0.999
92390418|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92418908|NCT03516942|184725646|EQUIVALENCE|no margin||||||0.0455|||||||McNemar|||Impairment of Activities at Work from Baseline to 12 Months||||0.0455
92418909|NCT03516942|184725646|EQUIVALENCE|no margin|||||<|0.0001|||||||McNemar|||Overall Work Impairment from Baseline to 12 Months||||<.0001
92418910|NCT03516942|184725646|EQUIVALENCE|no margin||||||0.0164|||||||McNemar|||3 Impairment of Activities Outside of Work from Baseline to 12 Months||||0.0164
92418911|NCT03516942|184725646|EQUIVALENCE|nomargin||||||0.0027|||||||McNemar|||Work Time Missed from Baseline to 24 Months||||0.0027
92418912|NCT03516942|184725646|EQUIVALENCE|no margin||||||0.0124|||||||McNemar|||Impairment of Activities at Work from Baseline to 24 Months||||0.0124
92418913|NCT03516942|184725646|EQUIVALENCE|no margin|||||<|0.0001|||||||McNemar|||Overall Work Impairment from Baseline to 24 Months||||<.0001
92235539|NCT02532543|184374127|SUPERIORITY|||||||0.44|||||||ANOVA|||Comparison between each arm/group of change in mesial bone height||||0.440
92418914|NCT03516942|184725646|EQUIVALENCE|no margin||||||0.0011|||||||McNemar|||Impairment of Activities Outside of Work from Baseline to 24 Months||||0.0011
92418915|NCT03516942|184725652|EQUIVALENCE|no equivalence margin was assumed||||||0.017|||||||McNemar|||the McNemar test was used to compare the results assuming a null of no difference.||||0.017
92418916|NCT06837116|184725672|OTHER||||||<|0.01|||||||Kruskal-Wallis|followed by Dunn's multiple comparisons test||Kruskal-Wallis test followed by Dunn's multiple comparisons test||||< 0.01
92418917|NCT00076024|184725698|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.237||||0.156|TWO_SIDED|95.0|0.819|1.867|||Log Rank|One-sided log-rank test at alpha = 0.1 significance level was used.||P-value was calculated using one-sided Log rank test, stratified for estrogen receptor (ER) status (ER-positive or ER-negative/unknown), prior adjuvant chemotherapy (yes or no), and Eastern Cooperative Oncology Group (ECOG) performance status (less than or equal to \[=\<1\] or 2). The stratified Cox proportional hazards model was fitted, using the same stratification variables as above.||1.867|0.819|0.156
92418918|NCT00076024|184725699|SUPERIORITY_OR_OTHER||Difference in response rates|17.4||||0.038|TWO_SIDED|95.0|3.0|31.9|||Fisher Exact|||||31.9|3.0|0.038
92235540|NCT02532543|184374127|SUPERIORITY|||||||0.729|||||||ANOVA|||Comparison between each arm/group of change in distal bone height||||0.729
92235541|NCT02532543|184374128|SUPERIORITY|||||||0.613|||||||ANOVA|||||||0.613
92235542|NCT02532543|184374129|SUPERIORITY|||||||0.492|||||||ANOVA|||Comparison between each arm/group at 2 mm from the height of the bone crest||||0.492
92390419|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390420|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
92390421|NCT01128426|184680567|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92418919|NCT00902161|184725704|SUPERIORITY_OR_OTHER||Least Squared Mean Treatment Difference|32.0||||0.005|TWO_SIDED|95.0|15.0|49.0||There was only 1 primary hypothesis, so no multiplicity adjustment was required.|A linear mixed effect (LME) model|||The p-value is for testing the null hypothesis that the difference on Rt(65) between the \[MK-0893 1g + Propranolol\] vs. \[PBO + Propranolol\] \>=60 min. If p-value \< 0.05, then the null hypothesis is rejected at the significance level of 0.05, thus supporting the primary hypothesis that the treatment difference is less than 60 minutes.||49|15|0.005
92418920|NCT00988325|184725720|SUPERIORITY_OR_OTHER||Median time to cessation of viral sheddi|119.0|||=|0.166|TWO_SIDED|95.0|113.0|230.0||p-value is for the comparison of the age cohorts (treatment groups)|Wilcoxon (Mann-Whitney)|Wilcoxon Test was used for testing homogeneity of survival curves|Median time was estimated from the Kaplan-Meier curve (unstratified)|||230|113|=0.166
92390422|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.85|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.85
92390423|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92390424|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method]|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
92390425|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.59|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.59
92390426|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390427|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390428|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
92390429|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390430|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92418921|NCT00988325|184725722|SUPERIORITY_OR_OTHER||Time to Resolution of Fever in Patients|14.5|||=|0.059|TWO_SIDED|95.0|12.0|20.0||The p-value is for the comparison of the age cohorts (not including Total)|Wilcoxon (Mann-Whitney)||Median time was estimated from the Kaplan-Meier curve (unstratified)|||20|12|=0.059
92418922|NCT01155219|184725726|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
92418923|NCT03052764|184725727|SUPERIORITY||Least Squares Mean Difference|-2.57|STANDARD_ERROR_OF_MEAN|0.561|<|0.0001|TWO_SIDED|95.0|-3.68|-1.46|||ANCOVA|||||-1.46|-3.68|<.0001
92390431|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
92390432|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92390433|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
92390434|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390435|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
92390436|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390437|NCT01128426|184680567|SUPERIORITY_OR_OTHER|||||||0.94|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.94
92390438|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.56|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.56
92390439|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.43|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.43
92390440|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390441|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
92390442|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390443|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.93|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.93
92390444|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390445|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.32|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.32
92390446|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
92390447|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
92418924|NCT03052764|184725728|SUPERIORITY||Odds Ratio (OR)|6.15|||||TWO_SIDED|95.0|0.75|50.37|||||Values obtained were from a Cochran Mantel-Haenszel test adjusting for the number of UUI episodes reported at Baseline (\<= 9 versus \> 9 daily episodes)at each scheduled visit.|||50.37|0.75|
92278839|NCT00543439|184460539|SUPERIORITY||Ratio of arithmetic means|0.03||||0.002|ONE_SIDED|95.0||0.08|||Paired t-test|||Ratio of the arithmetic means of the ABR for OD cohort: OD therapy to OD cohort: RP therapy 25 IU/kg was calculated. One-sided 95% CI for this ratio was reported.||0.08||0.0020
92235543|NCT02532543|184374129|SUPERIORITY|||||||0.917|||||||ANOVA|||Comparison between each arm/group at 4 mm from the height of the bone crest||||0.917
92235544|NCT02532543|184374130|SUPERIORITY|||||||0.353|||||||ANOVA|||Comparison between each arm/group of change in mid buccal soft tissue height||||0.353
92235545|NCT02532543|184374130|SUPERIORITY|||||||0.823|||||||ANOVA|||Comparison between each arm/group of change in mid palatal soft tissue height||||0.823
92235546|NCT02532543|184374130|SUPERIORITY|||||||0.243|||||||ANOVA|||Comparison between each arm/group of change in mesial soft tissue height||||0.243
92235547|NCT02532543|184374130|SUPERIORITY|||||||0.756|||||||ANOVA|||Comparison between each arm/group of change in distal soft tissue height||||0.756
92235548|NCT01144637|184374165|EQUIVALENCE|The equivalence margins to show that the 3 vaccine lots are equivalent in terms of PRNT GMTs at Week 6 was predefined as \[0.5; 2\] for the GMT ratios (pairwise)|GMT ratio (Group 1 / Group 2)|1.1012|||||TWO_SIDED|95.0|0.9992|1.2136||||||||1.2136|0.9992|
92278840|NCT00543439|184460540|EQUIVALENCE|90% 2-sided CI for the mean difference in ABRs for the 2 prophylaxis regimens for ITT participants was constructed using the t distribution with n-1 degrees of freedom (n equals the number of participants) to assess the equivalence of the 2 regimens. Equivalence was demonstrated and the null hypothesis rejected if the limits of the 90% CI fell wholly within the interval of (-4, 4) bleeds per year.|Mean Difference (Final Values)|1.1|||||TWO_SIDED|90.0|0.03|2.22||||||||2.22|0.03|
92390448|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
92418925|NCT03052764|184725729|SUPERIORITY||Least Squares Mean Difference|-2.24|STANDARD_ERROR_OF_MEAN|0.534|<|0.0001|TWO_SIDED|95.0|-3.3|-1.18|||ANCOVA|||||-1.18|-3.30|<.0001
92418926|NCT03052764|184725730|SUPERIORITY||Least Squares Mean Difference|-2.56|STANDARD_ERROR_OF_MEAN|0.59|<|0.0001|TWO_SIDED|95.0|-3.73|-1.39|||ANCOVA|||||-1.39|-3.73|<.0001
92235549|NCT01144637|184374165|EQUIVALENCE|The equivalence margins to show that the 3 vaccine lots are equivalent in terms of PRNT GMTs at Week 6 was predefined as \[0.5; 2\] for the GMT ratios (pairwise)|GMT ratio (Group 1 / Group 3)|0.9444|||||TWO_SIDED|95.0|0.8554|1.0427||||||||1.0427|0.8554|
92235550|NCT01144637|184374165|EQUIVALENCE|The equivalence margins to show that the 3 vaccine lots are equivalent in terms of PRNT GMTs at Week 6 was predefined as \[0.5; 2\] for the GMT ratios (pairwise)|GMT ratio (Group 2 / Group 3)|0.8577|||||TWO_SIDED|95.0|0.7753|0.9488||||||||0.9488|0.7753|
92235551|NCT03472534|184374177|OTHER|The p-value for the overall F-test was used to determine if the mean irritation scores were equal for all four products.|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92235552|NCT00906789|184374197|NON_INFERIORITY_OR_EQUIVALENCE|Given a continuous confidence score (0-100), the trapezoidal method was used to obtain the area under the LROC with bootstrapping at 10,000 iterations to obtain the 95% confidence interval (CI). Acceptance criteria for tests of non-inferiority and superiority were previously set at 95% CI upper bound of ΔAUCUA-SV less than δ=0.1 and δ=0, respectively. If the 95% CI upper bound difference of UA-SV is less than 0.1, then SV is non-inferior. If it is 0 or less than 0, then SV is superior.||||||0.05|||||||Bootstraping|||The sample size of 351 patients, in a 2:1 ratio of nodule absent to present patients was selected to provide 80% power to detect a difference in areas under the curve of 0.10 or greater. This sample size was calculated using PASS software (Hintze, 2008). Settings: • α = 0.025. • one-sided test • AUCA = 0.80 and AUCSV = 0.90.• 2:1 ratio of patients with nodules to those without • areas calculated for the entire curves • correlation 0.3\* • discrete data. • standard deviation ratios of 1\*.||||0.05
92235553|NCT01662999|184374229|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.943|||||TWO_SIDED|90.0|0.867|1.026|||Mixed Models Analysis|||The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.026|0.867|
92235554|NCT01662999|184374230|SUPERIORITY_OR_OTHER||Ration of adjusted geometric mean|0.984|||||TWO_SIDED|90.0|0.961|1.008|||Mixed Models Analysis|||Treatment B versus C in AUC(INF). The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.008|0.961|
92235555|NCT01662999|184374232|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.99|||||TWO_SIDED|90.0|0.966|1.014|||Mixed Models Analysis|||Treatment B versus C in AUC(0-T). The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.014|0.966|
92278841|NCT01484028|184460575|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.05 LogMAR was used.|Least-square mean difference|0.011|STANDARD_ERROR_OF_MEAN|0.0034|||TWO_SIDED|95.0|0.004|0.017|||Mixed Models Analysis|||The alternative hypothesis is the monocular distance Snellen VA (LogMAR scale) of etafilcon A with embedded print and PVP for dark/light eyes is non-inferior to that of etafilcon A control lenses.||0.017|0.004|
92278842|NCT02400710|184460578|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||ANOVA|||||||.05
92278843|NCT02400710|184460579|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Chi-squared|||||||.05
92278844|NCT02826603|184460614|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.72|2.84|||Regression, Logistic|||||2.84|1.72|<0.0001
92278845|NCT02826603|184460615|SUPERIORITY||Odds Ratio (OR)|2.1|||<|0.0001|TWO_SIDED|95.0|1.63|2.72|||Regression, Logistic|||||2.72|1.63|<0.0001
92278846|NCT02826603|184460616|SUPERIORITY||Odds Ratio (OR)|2.62|||<|0.0001|TWO_SIDED|95.0|1.89|3.62|||Regression, Logistic|||||3.62|1.89|<0.0001
92390449|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.31|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.31
92390450|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.43|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.43
92390451|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
92418927|NCT03052764|184725731|SUPERIORITY||Least Squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.192||0.0004|TWO_SIDED|95.0|-1.09|-0.32|||ANCOVA|||||-0.32|-1.09|0.0004
92235556|NCT01662999|184374234|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.927|||||TWO_SIDED|90.0|0.883|0.972|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of saxagliptin. The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||0.972|0.883|
92235557|NCT01662999|184374236|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.055|||||TWO_SIDED|90.0|1.004|1.109|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of 5-OH saxagliptin (metabolite of saxagliptin). The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.109|1.004|
92235558|NCT01662999|184374237|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.991|||||TWO_SIDED|90.0|0.96|1.022|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of saxagliptin. The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.022|0.960|
92235559|NCT01662999|184374238|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.991|||||TWO_SIDED|90.0|0.961|1.022|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of saxagliptin. The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.022|0.961|
92235560|NCT01662999|184374239|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.085|||||TWO_SIDED|90.0|1.058|1.113|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of 5-OH saxagliptin (metabolite). The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.113|1.058|
92235561|NCT01662999|184374240|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|1.085|||||TWO_SIDED|90.0|1.058|1.113|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of 5-OH saxagliptin (metabolite). The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.113|1.058|
92235562|NCT01662999|184374241|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.994|||||TWO_SIDED|90.0|0.96|1.03|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of saxagliptin total active moiety. The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.030|0.960|
92235563|NCT01662999|184374242|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.046|||||TWO_SIDED|90.0|1.029|1.064|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the AUC(0-T) of saxagliptin total active moiety. The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.064|1.029|
92235564|NCT00196937|184374255|NON_INFERIORITY|Non-inferiority with respect to seroconversion was shown if, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% confidence interval (CI) for the difference \[Cervarix (15-25 years) Group minus Cervarix (26-45 years) Group\] was below 10%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.97|2.29||||||Immune response to anti-HPV-16 in terms of SCR: To evaluate if the immunogenicity (as determined by ELISA) of the Cervarix vaccine, one month after the third dose (Month 7), in young women 26 - 45 years of age is non-inferior to that in women 15 - 25 years of age.||2.29|-1.97|
92239732|NCT00696657|184383374|SUPERIORITY||Estimated treatment differences|-0.41||||0.0324|TWO_SIDED|95.0|-0.79|-0.02|||ANOVA|CIs for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 0.2 mg - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.02|-0.79|0.0324
92390452|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
92390453|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
92390454|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.44|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.44
92390455|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
92390456|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
92390457|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92418928|NCT03052764|184725732|SUPERIORITY||Odds Ratio (OR)|13.03|||||TWO_SIDED|95.0|3.23|52.57|||||Values were obtained from a Cochran Mantel-Haenszel test adjusting for the number of UUI episodes reported at Baseline (\<= 9 versus \> 9 daily episodes) at each scheduled visit.|||52.57|3.23|
92446356|NCT02741115|184779769|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|1.363||0.891|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline maximal VO2. LOCF imputation.||LS mean differences between treatment groups were analyzed.||||0.891
92446357|NCT02741115|184779770|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.1||0.691|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group, with a continuous covariate of Baseline physical functioning (child reported)||||||0.691
92390458|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
92235565|NCT00196937|184374255|NON_INFERIORITY|Non-inferiority with respect to seroconversion was shown if, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% confidence interval (CI) for the difference \[Cervarix (15-25 years) Group minus Cervarix (26-45 years) Group\] was below 10%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.87|2.03||||||Immune response to anti-HPV-18 in terms of SCR: To evaluate if the immunogenicity (as determined by ELISA) of the Cervarix vaccine, one month after the third dose (Month 7), in young women 26 - 45 years of age is non-inferior to that in women 15 - 25 years of age.||2.03|-1.87|
92390459|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
92390460|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92418929|NCT01314911|184725733|SUPERIORITY||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|4.6||0.0097|TWO_SIDED|95.0|-21.4|-3.0||P-value was not adjusted for multiple interim analyses.|Z-test, 2-sided|Comparison of randomized arms was based on the normal approximation to the binomial distribution.|The difference in percents was calculated as the percent detectable in the Oseltamivir arm minus the percent detectable in the Placebo arm.|Assuming that pooled percentage of participants with virus detectable by PCR at Day 3 is 50%, assuming that the Oseltamivir arm was better than the placebo arm and that the detectable rate in the Oseltamivir arm was 42.5% compared to 57.5% in the placebo arm (a 15% reduction), and assuming 10% subjects with missing qPCR at Day 3, in a two-sided, two-sample 0.05-level t- test with 546 participants combined across both arms, there was 90% power.||-3.0|-21.4|0.0097
92235566|NCT03368404|184374270|NON_INFERIORITY|A sample size of 33 evaluable patients per treatment group was calculated to provide at least 90% power to demonstrate non-inferiority of CBL-102 to Vismed Multi. Assumptions included a non-inferiority margin of 2 grades and a standard deviation of 2.5|Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.34|0.13|||||Treatment difference : CBL-102 - Vismed Multi|||0.13|-1.34|
92235567|NCT03368404|184374271|SUPERIORITY|||||||0.0592||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0592
92235568|NCT03368404|184374272|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||>0.05
92235569|NCT03368404|184374273|SUPERIORITY||||||>|0.05||||||Significance level 0.05|ANCOVA|Adjustment for baseline||||||>0.05
92235570|NCT03368404|184374274|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||>0.05
92235571|NCT03368404|184374275|SUPERIORITY|||||||0.0176||||||Significance level 0.05|ANCOVA|||Change from Baseline in Global Sum Score of Dry Eye Symptoms at Day 28 (Visit 4)||||0.0176
92235572|NCT03368404|184374275|SUPERIORITY|||||||0.001||||||Significance level 0.05|ANCOVA|Adjustment to baseline||Change from Baseline in Global Sum Score of Dry Eye Symptoms at Day 90 (Visit 5)||||0.0010
92235573|NCT03368404|184374276|SUPERIORITY|||||||0.0251||||||Significance level 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality of Life (OSD-QoL®) dimension:~Daily Activities"||||0.0251
92235574|NCT03368404|184374276|SUPERIORITY|||||||0.0015||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality of Life (OSD-QoL®) dimension:~Difficulties with work and handicap"||||0.0015
92235575|NCT03368404|184374276|SUPERIORITY|||||||0.2024||||||Significance level 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality if Life (OSD-QoL®) dimension:~Giving up makeup"||||0.2024
92235576|NCT03368404|184374276|SUPERIORITY|||||||0.0421||||||Significance level 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality if Life (OSD-QoL®) dimension:~Acknowledgement of the Disease"||||0.0421
92235577|NCT03368404|184374276|SUPERIORITY|||||||0.3945||||||Significance level 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality if Life (OSD-QoL®) dimension:~Acceptance of the disease"||||0.3945
92235578|NCT03368404|184374276|SUPERIORITY|||||||0.0536||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality if Life (OSD-QoL®) dimension:~Fear for the Future"||||0.0536
92235579|NCT03368404|184374276|SUPERIORITY|||||||0.1998||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality if Life (OSD-QoL®) dimension:~Emotional well-being"||||0.1998
92235580|NCT03368404|184374276|SUPERIORITY|||||||0.0306||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality of Life (OSD-QoL®) questions:~Global Question"||||0.0306
92235581|NCT03368404|184374277|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||>0.05
92235582|NCT03368404|184374278|SUPERIORITY||||||>|0.05||||||Significance level 0.05|ANCOVA|Adjustment for baseline||||||>0.05
92235583|NCT03368404|184374279|SUPERIORITY|||||||0.0017||||||Significance level of 0.05|Wilcoxon (Mann-Whitney)|||||||0.0017
92235584|NCT02973815|184374289|OTHER||Mean Difference (Final Values)|-0.062|STANDARD_ERROR_OF_MEAN|0.065||0.342|TWO_SIDED|95.0|-0.194|0.067|||Regression, Linear|||This was adjusted for the baseline BMI-Z score, child sex, baseline child age, and economic assistance||0.067|-0.194|0.342
92235585|NCT02973815|184374290|OTHER||Mean Difference (Net)|1.25|STANDARD_ERROR_OF_MEAN|0.73104||0.09|TWO_SIDED|95.0|-0.2|2.71|||Regression, Linear|||Adjusted for: baseline HFI Fruit value, and economic assistance status||2.71|-0.20|0.09
92235586|NCT02973815|184374291|OTHER||Mean Difference (Net)|1.23|STANDARD_ERROR_OF_MEAN|0.61||0.047|TWO_SIDED|95.0|0.02|2.44|||Regression, Linear|||Adjusted for: baseline HFI Vegetable value, and economic assistance status||2.44|0.02|0.047
92235587|NCT02973815|184374292|OTHER||Mean Difference (Net)|0.48|STANDARD_ERROR_OF_MEAN|0.2||0.019|TWO_SIDED|95.0|0.08|0.88|||Regression, Linear|||Adjusted for: baseline healthfulness score and economic assistance status||0.88|0.08|0.019
92390461|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.37|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.37
92390462|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.16|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.16
92390463|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.85|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.85
92390464|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
92278847|NCT02826603|184460617|SUPERIORITY||Odds Ratio (OR)|3.53|||<|0.0001|TWO_SIDED|95.0|2.65|4.71|||Regression, Logistic|||||4.71|2.65|<0.0001
92390465|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
92390466|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
92235588|NCT02973815|184374293|OTHER||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.12||0.218|TWO_SIDED|95.0|-0.4|0.09|||Regression, Linear|||Adjusted for: baseline vegetable intake, child age (baseline), parent education status (bachelors or higher vs lower)||0.09|-0.4|0.218
92235589|NCT02973815|184374294|OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.2||0.066|TWO_SIDED|95.0|-0.03|0.77|||Regression, Linear|||Adjusted for: baseline fruit intake, child age (baseline), parent education status (bachelors or higher vs lower)||0.77|-0.03|0.066
92235590|NCT02973815|184374295|OTHER||Mean Difference (Net)|-4.79|STANDARD_ERROR_OF_MEAN|4.41||0.28|TWO_SIDED|95.0|-13.56|3.98|||Regression, Linear|||Adjusted for: baseline MVPA, child age (baseline), and child sex||3.98|-13.56|0.28
92390467|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92390468|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
92390469|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.31|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.31
92418930|NCT01314911|184725736|SUPERIORITY|||||||0.0243||||||P-value was not adjusted for multiple interim analyses.|Wilcoxon (Mann-Whitney)|||||||0.0243
92418931|NCT01314911|184725737|SUPERIORITY|||||||0.41||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.41
92235591|NCT02973815|184374296|OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.928|TWO_SIDED|95.0|-0.31|0.34|||Regression, Linear|||Adjusted for: baseline screentime, child age (baseline), and child sex||0.34|-0.31|0.928
92235592|NCT03037905|184374315|SUPERIORITY||Mean Difference (Final Values)|-6.7||||0.2|TWO_SIDED|95.0|-17.1|3.7|||Mixed Models Analysis|||||3.7|-17.1|0.20
92235593|NCT03037905|184374316|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.6|TWO_SIDED|95.0|-5.9|10.3|||Mixed Models Analysis|||||10.3|-5.9|0.60
92235594|NCT03037905|184374317|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.76|TWO_SIDED|95.0|-7.0|5.1|||Mixed Models Analysis|||||5.1|-7.0|.76
92235595|NCT03037905|184374318|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||.83
92278848|NCT02826603|184460618|SUPERIORITY||Odds Ratio (OR)|2.33|||<|0.0001|TWO_SIDED|95.0|1.8|3.01|||Regression, Logistic|||||3.01|1.80|<0.0001
92278849|NCT02826603|184460619|SUPERIORITY||Odds Ratio (OR)|2.57|||<|0.0001|TWO_SIDED|95.0|1.96|3.37|||Regression, Logistic|||||3.37|1.96|<0.0001
92278850|NCT02826603|184460620|SUPERIORITY||Odds Ratio (OR)|2.5|||<|0.0001|TWO_SIDED|95.0|1.89|3.31|||Regression, Logistic|||||3.31|1.89|<0.0001
92278851|NCT02826603|184460621|SUPERIORITY||Odds Ratio (OR)|2.86|||<|0.0001|TWO_SIDED|95.0|1.96|4.17|||Regression, Logistic|||||4.17|1.96|<0.0001
92278852|NCT02826603|184460622|SUPERIORITY||Odds Ratio (OR)|2.85|||<|0.0001|TWO_SIDED|95.0|2.19|3.71|||Regression, Logistic|||||3.71|2.19|<0.0001
92278853|NCT02826603|184460623|SUPERIORITY||Odds Ratio (OR)|1.84|||<|0.0001|TWO_SIDED|95.0|1.41|2.41|||Regression, Logistic|||||2.41|1.41|<0.0001
92390470|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
92390471|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
92390472|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
92390473|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
92390474|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
92390475|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390476|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.74|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.74
92390477|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
92390478|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
92390479|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.72|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.72
92390480|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390481|NCT01128426|184680568|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92418932|NCT01314911|184725738|SUPERIORITY|||||||0.88||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.88
92418933|NCT01314911|184725739|SUPERIORITY|||||||0.7461||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.7461
92235596|NCT02104180|184374338|NON_INFERIORITY|An estimate of the difference between the pain felt by patient during the two dressings removals along with a 95% confidence interval (CI) has been derived. If the upper limit of the confidence interval was less than 13 mm, clinical non-inferiority of Tulle Gras versus Urgotul has been demonstrated.|Mean Difference (Final Values)|0.26|||||TWO_SIDED|95.0|-1.339|1.864|||||The pain intensity has been analyzed using analysis of variance (ANOVA). The model for this cross-over study included sequence, period and treatment as fixed effects and subject within sequence as random effect.|||1.864|-1.339|
92235597|NCT03246529|184374339|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified Cochran-Mantel-Haenszel (CMH) test (by response status and baseline platelet count),||||||<0.0001
92278854|NCT00905489|184460624|SUPERIORITY_OR_OTHER||Ratio NVP XR: NVP IR (%)|91.2|STANDARD_ERROR_OF_MEAN|1.05||0.008|TWO_SIDED|90.0|83.47|99.64|||Mixed Models Analysis|Adjusted geometric means are estimated from the mixed model for intra-individual comparison.||||99.64|83.47|0.0080
92278855|NCT03558997|184460642|SUPERIORITY||Least Square (LS) Mean Difference|4.73||||0.7185|TWO_SIDED|95.0|-21.023|30.487|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab + SCIT vs SCIT) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||30.487|-21.023|0.7185
92278856|NCT03558997|184460643|SUPERIORITY||Least Square (LS) Mean Difference|0.3||||0.5438|TWO_SIDED|95.0|-0.661|1.254|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab + SCIT vs SCIT) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||1.254|-0.661|0.5438
92278857|NCT03558997|184460644|SUPERIORITY||Least Square (LS) Mean Difference|0.03||||0.9559|TWO_SIDED|95.0|-0.877|0.928|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab vs Placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||0.928|-0.877|0.9559
92278858|NCT03558997|184460645|SUPERIORITY||Least Square (LS) Mean Difference|7.25||||0.5416|TWO_SIDED|95.0|-16.028|30.53|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab vs Placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||30.530|-16.028|0.5416
92278859|NCT03558997|184460646|SUPERIORITY||Least Square (LS) Mean Difference|-0.94||||0.0414|TWO_SIDED|95.0|-1.848|-0.037|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab + SCIT vs Dupilumab) of LS mean difference using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||-0.037|-1.848|0.0414
92278860|NCT03558997|184460647|SUPERIORITY||Least Square (LS) Mean Difference|-30.45||||0.0108|TWO_SIDED|95.0|-53.874|-7.034|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab + SCIT vs Dupilumab) of LS mean difference using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||-7.034|-53.874|0.0108
92278861|NCT03558997|184460648|SUPERIORITY||Median Difference|0.665||||0.1449|TWO_SIDED|95.0|-0.77|3.21|||ANCOVA||P-value was based on treatment differences of median change using rank based ANCOVA model with baseline measurement as covariate \& treatment as fixed factors. Median difference \& its 95% CI estimated with Hodges-Lehmann method.|||3.2100|-0.770|0.1449
92278862|NCT03558997|184460649|SUPERIORITY||Median Difference|335.3||||0.1231|TWO_SIDED|95.0|-551.47|1746.55|||ANCOVA||P-value was based on treatment differences of median change using rank based ANCOVA model with baseline measurement as covariate \& treatment as fixed factors. Median difference \& its 95% CI estimated with Hodges-Lehmann method.|||1746.55|-551.47|0.1231
92278863|NCT03558997|184460650|SUPERIORITY||Median Difference|-13.325|||<|0.0001|TWO_SIDED|95.0|-23.94|-8.36|||ANCOVA||P-value was based on treatment differences of median change using rank based ANCOVA model with baseline measurement as covariate \& treatment as fixed factors. Median difference \& its 95% CI estimated with Hodges-Lehmann method.|||-8.3600|-23.9400|<0.0001
92278864|NCT03558997|184460651|SUPERIORITY||Median Difference|-134.6|||<|0.0001|TWO_SIDED|95.0|-205.51|-94.98|||ANCOVA||P-value was based on treatment differences of median change using rank based ANCOVA model with baseline measurement as covariate \& treatment as fixed factors. Median difference \& its 95% CI estimated with Hodges-Lehmann method.|||-94.98|-205.51|<0.0001
92390482|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390483|NCT01128426|184680568|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
92390484|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92418934|NCT01314911|184725740|SUPERIORITY|||||||0.1501||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.1501
92418935|NCT01314911|184725741|SUPERIORITY|||||||0.3025||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.3025
92235598|NCT03246529|184374340|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92235599|NCT03246529|184374341|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92235600|NCT01676116|184374351|SUPERIORITY_OR_OTHER||Treatment contrast|-0.94|||<|0.001|TWO_SIDED|95.0|-1.11|-0.78|||ANCOVA|||||-0.78|-1.11|<0.001
92235601|NCT01821677|184374362|SUPERIORITY|||||||0.16|||||||ANCOVA|||||||0.16
92235602|NCT01821677|184374362|SUPERIORITY|||||||0.07|||||||ANCOVA|||||||0.07
92235603|NCT01821677|184374362|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.03
92390485|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92235604|NCT01821677|184374363|SUPERIORITY|||||||0.42|||||||ANCOVA|||||||0.42
92235605|NCT01821677|184374363|SUPERIORITY|||||||0.28|||||||ANCOVA|||||||0.28
92235606|NCT01821677|184374363|SUPERIORITY|||||||0.14|||||||ANCOVA|||||||0.14
92235607|NCT03461965|184374377|OTHER|p-value \< 0.05 was considered statistically significant||||||0.007|||||||t-test, 2 sided|||Comparing total responses that were correct across all participants in both arms||||0.007
92235608|NCT03461965|184374378|OTHER|p-value \< 0.05 was considered statistically significant||||||0.0001|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||0.0001
92235609|NCT03461965|184374378|OTHER|p-value \< 0.05 was considered statistically significant|||||<|0.03|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||<0.03
92278865|NCT03558997|184460652|SUPERIORITY||Median Difference|0.84|||<|0.0001|TWO_SIDED|95.0|0.45|1.27|||ANCOVA||P-value was based on treatment differences of median change using rank based ANCOVA model with baseline measurement as covariate \& treatment as fixed factors. Median difference \& its 95% CI estimated with Hodges-Lehmann method.|||1.2700|0.4500|<0.0001
92278866|NCT00526890|184460675|OTHER|||||||0.3149|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney-Wilcoxon test was used to test the correlation between selenium levels and serious adverse events.||||0.3149
92390486|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
92235610|NCT03461965|184374378|OTHER|p-value \< 0.05 was considered statistically significant||||||0.352|||||||t-test, 2 sided|paired t-test||Comparing change in scores (post-stage minus baseline) between experimental and control groups||||0.352
92235611|NCT03461965|184374379|OTHER|p-value \< 0.05 was considered statistically significant|||||<|0.0001|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||<0.0001
92235612|NCT03461965|184374379|OTHER|p-value \< 0.05 was considered statistically significant||||||0.04|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||0.04
92235613|NCT03461965|184374379|OTHER|p-value \< 0.05 was considered statistically significant||||||0.052|||||||t-test, 2 sided|paired t-test||Comparing change in scores (post-stage minus baseline) between experimental and control groups||||0.052
92235614|NCT03461965|184374380|OTHER|p-value \< 0.05 was considered statistically significant|||||<|0.0001|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||<0.0001
92235615|NCT03461965|184374380|OTHER|p-value \< 0.05 was considered statistically significant|||||<|0.0001|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||<0.0001
92235616|NCT03461965|184374380|OTHER|p-value \< 0.05 was considered statistically significant||||||0.208|||||||t-test, 2 sided|paired t-test||Comparing change in scores (post-stage minus baseline) between experimental and control groups||||0.208
92235617|NCT03461965|184374381|OTHER|p-value \< 0.05 was considered statistically significant|||||<|0.03|||||||Chi-squared|||||||<0.03
92235618|NCT02680301|184374382|EQUIVALENCE|Wilcoxon sign- rank test values with ranks from change in cream efficacy ratings minus change in ointment efficacy ratings.||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
92235619|NCT00538642|184374389|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92235620|NCT05278104|184374411|OTHER|No formal hypothesis was tested.|Least square mean difference|-0.4|||||TWO_SIDED|95.0|-2.6|1.7|||ANCOVA||The treatment effect was estimated regardless of concomitant/rescue medication use or nausea/vomiting (treatment policy). Treatment discontinuation was handled with a while-on-treatment strategy.|Change from baseline was analyzed with an ANCOVA model with the BIS-11 score at baseline as covariate and treatment as fixed factor.||1.7|-2.6|
92235621|NCT05278104|184374412|OTHER|No formal hypothesis was tested.|Least square mean difference|-2.2|||||TWO_SIDED|95.0|-4.6|0.3|||ANCOVA||The treatment effect was estimated regardless of concomitant/rescue medication use or nausea/vomiting (treatment policy). Treatment discontinuation was handled with a while-on-treatment strategy.|Change from baseline was analyzed with an ANCOVA model with the BIS-11 score at baseline as covariate and treatment as fixed factor.||0.3|-4.6|
92235622|NCT05278104|184374413|OTHER|No formal hypothesis was tested.|Least square mean|0.2|||||TWO_SIDED|95.0|-2.1|2.4|||||The treatment effect was estimated regardless of concomitant/rescue medication use or nausea/vomiting (treatment policy). Treatment discontinuation was handled with a while-on-treatment strategy.|Change from baseline was analyzed with an ANCOVA model with the S-UPPS-P score at baseline as covariate and treatment as fixed factor.||2.4|-2.1|
92390487|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92390488|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
92390489|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.93|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.93
92390490|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92390491|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
92390492|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.17|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.17
92390493|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
92390494|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
92235623|NCT05278104|184374414|OTHER|No formal hypothesis was tested.|Least square mean difference|0.9|||||TWO_SIDED|95.0|-1.3|3.1|||ANCOVA||The treatment effect was estimated regardless of concomitant/rescue medication use or nausea/vomiting (treatment policy). Treatment discontinuation was handled with a while-on-treatment strategy.|Change from baseline was analyzed with an ANCOVA model with the S-UPPS-P score at baseline as covariate and treatment as fixed factor.||3.1|-1.3|
92390495|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
92390496|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.46|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.46
92390497|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.42|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.42
92390498|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.49|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.49
92418936|NCT01314911|184725742|SUPERIORITY|||||||0.5466||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.5466
92235624|NCT00492622|184374424|EQUIVALENCE|Primary study objective was to compare the pharmacokinetics of omeprazole between IR and DR omeprazole in patients with GERD associated with gastroparesis.|||||<|0.01||||||\<0.01 is used for determining the level of significance.|paired t-tests|||||||< 0.01
92235625|NCT00492622|184374425|EQUIVALENCE|Primary study objective was to compare the pharmacokinetics of omeprazole between IR and DR omeprazole in patients with GERD associated with gastroparesis.|||||||||||||||||P\<0.05 was used as the level of significance with ANOVA for this endpoint.|||
92235626|NCT00492622|184374426|EQUIVALENCE|Primary study objective was to compare the pharmacokinetics of omeprazole between IR and DR omeprazole in patients with GERD associated with gastroparesis.||||||0.95||||||An analysis of variance model was used to compare AUC between IR and DR omeprazole using the natural logarithmic transformation. The model included the following factors: treatment, period, sequence and patient nested within the sequence.|ANOVA|||||||0.95
92278867|NCT02473991|184460677|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Regression, Linear|||Null hypothesis In normal pregnant women, placental thickness during second trimesters may be correlated with birth weight at term.||||<0.01
92278868|NCT02473991|184460678|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Regression, Linear|||Null hypothesis In normal pregnant women, placental thickness during third trimesters may be correlated with birth weight at term.||||<0.01
92390499|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
92390500|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
92390501|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
92390502|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
92390503|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
92418937|NCT01314911|184725744|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.5311|TWO_SIDED|95.0|-1.4|3.0||P-value was not adjusted for multiple interim analyses.|two-sample binomial exact test|The two-sample binomial exact test was performed in PROC STATXACT.|The difference in percents was calculated as the percent in the Oseltamivir arm minus the percent in the placebo arm.|||3.0|-1.4|0.5311
92235627|NCT01269125|184374429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.28|STANDARD_ERROR_OF_MEAN|0.0||0.8|TWO_SIDED|95.0|-0.2|0.3|||Chi-squared|||||0.3|-0.2|0.80
92235628|NCT01269125|184374433|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.05|STANDARD_ERROR_OF_MEAN|0.0||0.8||95.0|-0.2|0.3|||Chi-squared|||||0.3|-0.2|0.80
92235629|NCT01269125|184374433|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.48||95.0|-0.4|0.2|||Chi-squared|||In order to handle the problem of small sample size combined with the inability to identify the theoretical statistical distribution of data, bootstrap techniques are used (10). Ader and co-workers recommend the bootstrap procedure when (a) the theoretical distribution is complicated or unknown, and/or (b) power calculations have to be performed and a small sample is available (11). Finally, the bootstrap distribution has been used in order to calculate all the confidence intervals.||0.2|-0.4|0.48
92235630|NCT01269125|184374433|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|-0.15|STANDARD_ERROR_OF_MEAN|0.0||0.22||95.0|-0.4|0.1|||Chi-squared|||In order to handle the problem of small sample size combined with the inability to identify the theoretical statistical distribution of data, bootstrap techniques are used (10). Ader and co-workers recommend the bootstrap procedure when (a) the theoretical distribution is complicated or unknown, and/or (b) power calculations have to be performed and a small sample is available (11). Finally, the bootstrap distribution has been used in order to calculate all the confidence intervals.||0.1|-0.4|0.22
92235631|NCT00151411|184374434|SUPERIORITY||Mean Difference (Final Values)|4.3||||0.54|TWO_SIDED|95.0|-9.9|18.4|||Mixed Models Analysis|||||18.4|-9.9|0.54
92278869|NCT03123549|184460691|SUPERIORITY|||||||0.017|||||||t-test, 1 sided|||||||0.017
92390504|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
92390505|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
92390506|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
92235632|NCT00151411|184374435|SUPERIORITY||Rate Ratio|2.5||||0.07|TWO_SIDED|95.0|0.9|6.6|||Zero-altered negative binomial model||Placebo is the reference group, i.e. for the rate ratio, Metformin represents the numerator and Placebo the denominator.|This statistical analysis models the probability of ovulation.||6.6|0.9|0.07
92235633|NCT00151411|184374435|SUPERIORITY||rate ratio|1.2||||0.51|TWO_SIDED|95.0|0.7|1.9|||Zero-altered negative binomial model||Placebo is the reference group, i.e. for the rate ratio, Metformin represents the numerator and Placebo the denominator.|This statistical analysis models the count of ovulations provided a woman actually ovulated.||1.9|0.7|0.51
92235634|NCT00151411|184374436|SUPERIORITY||Mean Difference (Final Values)|4.6||||0.05|TWO_SIDED|95.0|0.1|9.0|||Mixed Models Analysis|||||9.0|0.1|0.05
92235635|NCT00417612|184374437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|TWO_SIDED||||||ANOVA|||||||0.007
92235636|NCT01334125|184374453|SUPERIORITY_OR_OTHER|||||||0.903|TWO_SIDED|||||Individual two-way mixed ANOVA models were fitted for each of our outcomes of interest, with treatment type (metformin or placebo) as the fixed effect, and baseline values, age, gender, and BMI as covariates.|ANOVA|||Analyses were based on the intent-to-treat principle and were performed using SPSS v.22 (IBM Corporation, Armonk, NY).||||0.903
92235637|NCT01334125|184374454|SUPERIORITY_OR_OTHER|||||||0.578|TWO_SIDED|95.0||||Individual two-way mixed ANOVA models were fitted for each of our outcomes of interest, with treatment type (metformin or placebo) as the fixed effect, and baseline values, age, gender, and BMI as covariates.|ANOVA|||Analyses were based on the intent-to-treat principle and were performed using SPSS v.22 (IBM Corporation, Armonk, NY).||||0.578
92235638|NCT01334125|184374455|SUPERIORITY_OR_OTHER|||||||0.057|||||||ANOVA|||Two way ANOVA comparison of the means of the adiponectin/leptin ratios between the metformin and placebo groups||||0.057
92235639|NCT01334125|184374456|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||p value represents the analysis for minor hypoglycemia||||1.00
92235640|NCT01334125|184374456|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||p value represents the analysis of the nocturnal hypoglycemia||||1.00
92235641|NCT01165229|184374529|OTHER|The efficacy of Herpes Zoster subunit (HZ/su) vaccine against herpes zoster disease was demonstrated if the lower limit (LL) of the two-sided 95% Confidence Interval (CI) of VE was above 10%.|Vaccine efficacy|90.02|||<|0.0001|TWO_SIDED|95.0|83.54|94.32|||Poisson exact test|||Comparison of vaccine efficacy in prevention of Herpes Zoster (HZ) disease between Zoster-022 GSK1437173A 70-79 YOA group and Zoster-022 Placebo 70-79 YOA group.||94.32|83.54|<0.0001
92235642|NCT01165229|184374529|OTHER|The efficacy of HZ/su vaccine against herpes zoster disease was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 10%|Vaccine efficacy|89.08|||<|0.0001|TWO_SIDED|95.0|74.65|96.16|||Poisson exact method|||Comparison of vaccine efficacy in prevention of Herpes Zoster (HZ) disease between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo Zoster-022 Placebo \>=80YOA Group||96.16|74.65|<0.0001
92235643|NCT01165229|184374529|OTHER|The efficacy of HZ/su vaccine against herpes zoster disease was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 10%|Vaccine efficacy|89.79|||<|0.0001|TWO_SIDED|95.0|84.29|93.66|||Poisson exact test|||Comparison of vaccine efficacy in prevention of Herpes Zoster (HZ) disease between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo \>=70YOA Group||93.66|84.29|<0.0001
92235644|NCT01165229|184374530|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|93.04|||<|0.0001|TWO_SIDED|95.0|72.47|99.19|||Poisson exact test|||Comparison of vaccine efficacy in prevention of Post-Herpetic Neuralgia (PHN) between Zoster-022/006 Pooled GSK1437173A 70-79YOA Group and Zoster-022/006 Pooled Placebo 70-79YOA Group||99.19|72.47|<0.0001
92235645|NCT01165229|184374530|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|71.16||||0.1844|TWO_SIDED|95.0|-51.51|97.08|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022/006 Pooled GSK1437173A \>=80YOA Group and Zoster-022/006 Pooled Placebo \>=80YOA Group||97.08|-51.51|0.1844
92235646|NCT01165229|184374530|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|88.78|||<|0.0001|TWO_SIDED|95.0|68.7|97.1|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022/006 Pooled GSK1437173A \>=70YOA Group and Zoster-022/006 Pooled Placebo \>=70YOA Group||97.10|68.70|<0.0001
92235647|NCT01165229|184374531|OTHER|The efficacy of HZ/su vaccine against herpes zoster disease was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 10%|Vaccine efficacy|91.27|||<|0.0001|TWO_SIDED|95.0|86.04|94.85|||Poisson exact test|||Comparison of vaccine efficacy in prevention of herpes zoster disease between Zoster-022/006 Pooled GSK1437173A 70-79YOA Group and Zoster-022/006 Pooled Placebo 70-79YOA Group||94.85|86.04|<0.0001
92235648|NCT01165229|184374531|OTHER|The efficacy of HZ/su vaccine against herpes zoster disease was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 10%|Vaccine efficacy|91.37|||<|0.0001|TWO_SIDED|95.0|80.22|96.94|||Poisson exact test|||Comparison of vaccine efficacy in prevention of herpes zoster disease between Zoster-022/006 Pooled GSK1437173A \>=80YOA Group and Zoster-022/006 Pooled Placebo \>=80YOA Group||96.94|80.22|<0.0001
92235649|NCT01165229|184374531|OTHER|The efficacy of HZ/su vaccine against herpes zoster disease was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 10%|Vaccine efficacy|91.3|||<|0.0001|TWO_SIDED|95.0|86.88|94.46|||Poisson exact test|||Comparison of vaccine efficacy in prevention of herpes zoster disease between Zoster-022/006 pooled GSK1437173A \>=70 YOA Group and Zoster-022/006 Pooled Placebo \>=70YOA Group||94.46|86.88|<0.0001
92235650|NCT01165229|184374532|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|90.8|||<|0.0001|TWO_SIDED|95.0|62.57|98.95|||Poisson exact test|||Comparison of of Vaccine Efficacy (VE) in prevention of PHN between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 placebo 70-79YOA Group||98.95|62.57|<0.0001
92235651|NCT01165229|184374532|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|65.76||||0.3072|TWO_SIDED|95.0|-91.58|96.62|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo \>=80YOA Group||96.62|-91.58|0.3072
92278870|NCT04567615|184460713|SUPERIORITY||Strata adjusted difference in ORR|-2.7|||||TWO_SIDED|95.0|-10.7|5.3|||||Difference in ORR of Treatment B over ORR Treatment A|||5.3|-10.7|
92235652|NCT01165229|184374532|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|85.49|||<|0.0001|TWO_SIDED|95.0|58.52|96.3|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo \>=70YOA Group||96.30|58.52|<0.0001
92235653|NCT01165229|184374533|OTHER|The efficacy of HZ/su vaccine against duration of severe worst HZ associated pain was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|21.7||||0.3749|TWO_SIDED|95.0|-34.4|54.39|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 Placebo 70-79YOA Group||54.39|-34.40|0.3749
92235654|NCT01165229|184374533|OTHER|The efficacy of HZ/su vaccine against duration of severe worst HZ associated pain was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|51.76||||0.2466|TWO_SIDED|95.0|-65.55|85.95|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo\>=80YOA Group||85.95|-65.55|0.2466
92235655|NCT01165229|184374533|OTHER|The efficacy of HZ/su vaccine against duration of severe worst HZ associated pain was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|28.4||||0.1877|TWO_SIDED|95.0|-17.69|56.44|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo\>=70YOA Group||56.44|-17.69|0.1877
92235656|NCT01165229|184374536|OTHER|Efficacy of the HZ/su vaccine against overall and HZ related hospitalizations was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|100.0||||0.2533|TWO_SIDED|95.0|-144.13|100.0|||Poisson exact test|||Comparison of VE in reduction of overall and HZ related hospitalizations between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 Placebo 70-79YOA Group||100.00|-144.13|0.2533
92235657|NCT01165229|184374536|OTHER|Efficacy of the HZ/su vaccine against overall and HZ related hospitalizations was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|100.0||||0.5024|TWO_SIDED|95.0|-435.14|100.0|||Poisson exact test|||Comparison of VE in reduction of overall and HZ related hospitalizations between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo \>=80YOA Group||100.00|-435.14|0.5024
92235658|NCT01165229|184374536|OTHER|Efficacy of the HZ/su vaccine against overall and HZ related hospitalizations was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|100.0||||0.0636|TWO_SIDED|95.0|-9.92|100.0|||Poisson exact test|||Comparison of VE in reduction of overall and HZ related hospitalizations between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo \>=70YOA Group||100.00|-9.92|0.0636
92235659|NCT01165229|184374537|OTHER|Efficacy of the HZ/su vaccine against HZ related complications was demonstrated if the LL of the VE was above 0%.|Vaccine efficacy|-65.69||||0.4947|TWO_SIDED|95.0|-827.06|73.62|||Poisson exact test|||Comparison of VE in reduction of HZ related complications between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 Placebo 70-79YOA Group||73.62|-827.06|0.4947
92235660|NCT01165229|184374537|OTHER|Efficacy of the HZ/su vaccine against HZ related complications was demonstrated if the LL of the VE was above 0%|Vaccine efficacy|100.0||||1|TWO_SIDED|95.0|-558.05|100.0|||Poisson exact test|||Comparison of VE in reduction of HZ related complications between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo \>=80YOA Group||100.00|-558.05|1.0000
92235661|NCT01165229|184374537|OTHER|Efficacy of the HZ/su vaccine against HZ related complications was demonstrated if the LL of the VE was above 0%|Vaccine efficacy|0.97||||1|TWO_SIDED|95.0|-433.32|83.16|||Poisson exact test|||Comparison of VE in reduction of HZ related complications between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo \>=70YOA Group||83.16|-433.32|1.0000
92235662|NCT01165229|184374538|OTHER|Efficacy of the HZ/su vaccine against use of pain medications was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|43.42||||0.0112|TWO_SIDED|95.0|10.77|70.53|||Poisson exact test|||Comparison of VE in reduction in use of pain medication between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 Placebo 70-79YOA Group||70.53|10.77|0.0112
92235663|NCT01165229|184374538|OTHER|Efficacy of the HZ/su vaccine against use of pain medications was demonstrated if the LL of the two-sided 95% CI of the VE was above 0%|Vaccine efficacy|27.03||||0.3903|TWO_SIDED|95.0|-26.43|73.2|||Poisson exact test|||Comparison of VE in reduction in use of pain medication between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo \>=80YOA Group||73.20|-26.43|0.3903
92278871|NCT04567615|184460716|SUPERIORITY||Cox proportional hazard model|1.0|||||TWO_SIDED|95.0|0.75|1.33|||||HR of Treatment B over HR Treatment A|||1.33|0.75|
92235664|NCT01165229|184374538|OTHER|Efficacy of the HZ/su vaccine against use of pain medications was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|39.6||||0.0083|TWO_SIDED|95.0|10.79|64.75|||Poisson exact test|||Comparison of VE in reduction in use of pain medication between Zoster-022 GSK1437173A \>=70YOA group and Zoster-022 Placebo \>=70YOA Group||64.75|10.79|0.0083
92235665|NCT01165229|184374539|OTHER|Efficacy of the HZ/su vaccine against duration of pain medication associated with HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the hazard ratio was above 0%.|Vaccine efficacy|58.94||||0.0232|TWO_SIDED|95.0|11.45|80.96|||Poisson exact test|||Comparison of VE in reduction in duration of pain medication associated with HZ between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 Placebo 70-79YOA Group||80.96|11.45|0.0232
92235666|NCT01165229|184374539|OTHER|Efficacy of the HZ/su vaccine against duration of pain medication associated with HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the hazard ratio was above 0%.|Vaccine efficacy|-14.56||||0.8324|TWO_SIDED|95.0|-303.3|67.46|||Poisson exact test|||Comparison of VE in reduction in duration of pain medication associated with HZ between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo \>=80YOA Group||67.46|-303.30|0.8324
92278872|NCT04567615|184460717|SUPERIORITY||Strata adjusted difference in ORR|-0.9|||||TWO_SIDED|95.0|-9.2|7.4|||||Difference in ORR of Treatment B over ORR Treatment A|||7.4|-9.2|
92278873|NCT04567615|184460720|SUPERIORITY||Cox proportional hazard model|1.0|||||TWO_SIDED|95.0|0.75|1.33|||||HR of Treatment B over HR of Treatment A|||1.33|0.75|
92278874|NCT04567615|184460721|SUPERIORITY||Cox proportional hazard model|1.05|||||TWO_SIDED|95.0|0.74|1.49|||||HR of Treatment B over HR of Treatment A|||1.49|0.74|
92278875|NCT04680052|184460742|SUPERIORITY||Hazard Ratio (HR)|0.434|||<|0.0001|TWO_SIDED|95.0|0.324|0.58|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.580|0.324|<0.0001
92235667|NCT01165229|184374539|OTHER|Efficacy of the HZ/su vaccine against duration of pain medication associated with HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the hazard ratio was above 0%.|Vaccine efficacy|49.25||||0.0404|TWO_SIDED|95.0|2.92|73.47|||Poisson exact test|||Comparison of VE in reduction in duration of pain medication associated with HZ between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo \>=70YOA Group||73.47|2.92|0.0404
92390507|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.45|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.45
92390508|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
92390509|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
92390510|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
92390511|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92390512|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
92390513|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
92390514|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.16|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.16
92390515|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390516|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
92390517|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
92390518|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92235668|NCT01165229|184374548|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|100.0||||0.0081|TWO_SIDED|95.0|40.88|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022/006 Pooled GSK1437173A 50-59YOA Group and Zoster-022/006 Pooled Placebo 50-59YOA Group.Comparison of vaccine efficacy for groups 70-79 and above 80 YOA are presented in outcome measure 2.||100.00|40.88|0.0081
92235669|NCT01165229|184374548|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|100.0||||0.5097|TWO_SIDED|95.0|-442.83|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022/006 Pooled GSK1437173A 60-69YOA Group and Zoster-022/006 Pooled Placebo 60-69YOA Group||100.00|-442.83|0.5097
92278876|NCT04680052|184460744|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.383|0.653|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.653|0.383|<0.0001
92390519|NCT01128426|184680569|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92390520|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
92390521|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
92390522|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.17|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.17
92390523|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
92390524|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390525|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.54|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.54
92390526|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
92390527|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
92390528|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
92235670|NCT01165229|184374549|OTHER|The efficacy of HZ/su vaccine in reduction of PHN in subjects with confirmed HZ episodes was demonstrated if the LL of the two-sided 95% CI of VE was above 0%|Vaccine efficacy|100.0||||1|TWO_SIDED|95.0|-649.86|100.0|||Poisson exact test|||Comparison of Vaccine efficacy in reduction of PHN incidence in subjects with confirmed HZ episode in Zoster-022/006 Pooled GSK1437173A 50-59 YOA Group versus Zoster-022/006 Pooled Placebo 50-59 YOA Group||100.00|-649.86|1.0000
92235671|NCT01165229|184374549|OTHER|The efficacy of HZ/su vaccine in reduction of PHN in subjects with confirmed HZ episodes was demonstrated if the LL of the two-sided 95% CI of VE was above 0%|Vaccine efficacy|100.0||||1|TWO_SIDED|95.0|-3938.7|100.0|||Poisson exact test|||Comparison of Vaccine efficacy in reduction of PHN incidence in subjects with confirmed HZ episode in Zoster-022/006 Pooled GSK1437173A 60-69 YOA Group versus Zoster-022/006 Pooled Placebo 60-69 YOA Group||100.00|-3938.70|1.0000
92235672|NCT01165229|184374549|OTHER|The efficacy of HZ/su vaccine in reduction of PHN in subjects with confirmed HZ episodes was demonstrated if the LL of the two-sided 95% CI of VE was above 0%|Vaccine efficacy|21.6||||1|TWO_SIDED|95.0|-149.41|78.91|||Poisson exact test|||Comparison of Vaccine efficacy in reduction of PHN incidence in subjects with confirmed HZ episode in Zoster-022/006 Pooled GSK1437173A 70-79 YOA Group versus Zoster-022/006 Pooled Placebo 70-79 YOA Group||78.91|-149.41|1.0000
92235673|NCT01165229|184374549|OTHER|The efficacy of HZ/su vaccine in reduction of PHN in subjects with confirmed HZ episodes was demonstrated if the LL of the two-sided 95% CI of VE was above 0%|Vaccine efficacy|-223.81||||0.1528|TWO_SIDED|95.0|-883.05|18.84|||Poisson exact test|||Comparison of Vaccine efficacy in reduction of PHN incidence in subjects with confirmed HZ episode in Zoster-022/006 Pooled GSK1437173A \>=80 YOA Group versus Zoster-022/006 Pooled Placebo\>=80 YOA Group||18.84|-883.05|0.1528
92278877|NCT04680052|184460745|SUPERIORITY||Odds Ratio (OR)|1.5||||0.0286|TWO_SIDED|95.0|1.04|2.13|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||2.13|1.04|0.0286
92390529|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92390530|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
92390531|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.29|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.29
92390532|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
92390533|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.61|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.61
92235674|NCT01165229|184374549|OTHER|The efficacy of HZ/su vaccine in reduction of PHN in subjects with confirmed HZ episodes was demonstrated if the LL of the two-sided 95% CI of VE was above 0%|Vaccine efficacy|0.29||||0.5417|TWO_SIDED|95.0|-161.53|65.57|||Poisson exact test|||Comparison of Vaccine efficacy in reduction of PHN incidence in subjects with confirmed HZ episode in Zoster-022/006 Pooled GSK1437173A \>=50 YOA Group versus Zoster-022/006 Pooled Placebo \>=50 YOA Group||65.57|-161.53|0.5417
92235675|NCT01165229|184374550|OTHER|The VE of HZ/su against duration of severe worst pain in subjects with confirmed HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|23.75||||0.2885|TWO_SIDED|95.0|-25.8|53.78|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022/006 pooled GSK1437173A 70-79YOA Group and Zoster-022/006 pooled Placebo 70-79YOA Group||53.78|-25.80|0.2885
92235676|NCT01165229|184374550|OTHER|The VE of HZ/su against duration of severe worst pain in subjects with confirmed HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|54.93||||0.194|TWO_SIDED|95.0|-50.03|86.46|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022/006 pooled GSK1437173A \>=80 YOA Group and Zoster-022/006 pooled Placebo \>=80 YOA Group||86.46|-50.03|0.1940
92235677|NCT01165229|184374550|OTHER|The VE of HZ/su against duration of severe worst pain in subjects with confirmed HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|30.48||||0.1243|TWO_SIDED|95.0|-10.52|56.27|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022/006 pooled GSK1437173A \>=70 YOA Group and Zoster-022/006 pooled Placebo\>=70 YOA Group||56.27|-10.52|0.1243
92235678|NCT01873950|184374599|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||For each ECG biomarker and treatment, the null hypothesis is that there is no difference in the biomarker change from baseline between the treatment and placebo.|Mixed Models Analysis|For each ECG biomarker and treatment, the placebo-corrected change from baseline was computed using linear mixed effect model.||||||<0.05
92278878|NCT04680052|184460747|SUPERIORITY||Hazard Ratio (HR)|0.587||||0.1061|TWO_SIDED|95.0|0.306|1.128|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||1.128|0.306|0.1061
92278879|NCT04680052|184460748|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|1.5||||0.0221|TWO_SIDED|95.0|1.06|2.03|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||2.03|1.06|0.0221
92390534|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
92390535|NCT01128426|184680569|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
92390536|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
92278880|NCT04680052|184460749|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|1.4||||0.4093|TWO_SIDED|95.0|0.61|3.33|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||3.33|0.61|0.4093
92278881|NCT04680052|184460750|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|1.5||||0.2874|TWO_SIDED|95.0|0.69|3.47|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||3.47|0.69|0.2874
92278882|NCT04680052|184460751|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|2.0||||0.0014|TWO_SIDED|95.0|1.3|3.02|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||3.02|1.30|0.0014
92278883|NCT04680052|184460752|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|1.9||||0.0009|TWO_SIDED|95.0|1.29|2.74|||Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||2.74|1.29|0.0009
92278884|NCT04680052|184460754|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.473|||<|0.0001|TWO_SIDED|95.0|0.33|0.678|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.678|0.330|<0.0001
92278885|NCT04680052|184460756|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.55||||0.0003|TWO_SIDED|95.0|0.397|0.763|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.763|0.397|0.0003
92278886|NCT04680052|184460758|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.85||||0.5837|TWO_SIDED|95.0|0.476|1.519|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||1.519|0.476|0.5837
92390537|NCT01128426|184680569|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
92390538|NCT05729568|184680589|SUPERIORITY||Difference in least-squares means|-56.0||||0.1436|TWO_SIDED|95.0|-132.0|20.0|||ANCOVA||Difference in least-squares means (Diff in LSM), and its 95% CI were from ANCOVA model of change from baseline CD4 cell count with treatment as fixed effect and baseline CD4 cell count as a covariate.|||20|-132|0.1436
92390539|NCT00550953|184680602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.02|STANDARD_ERROR_OF_MEAN|0.82|<|0.0001|TWO_SIDED|95.0|6.41|9.63|||ANCOVA||Difference calculated as telmisartan 40 mg plus amlodipine 5 mg fixed-dose combination minus telmisartan 40 mg monotherapy|||9.63|6.41|<0.0001
92390540|NCT00632619|184680612|SUPERIORITY_OR_OTHER|||||||0.106|||||||ANOVA|||A 2 x 2 repeated measures analysis (with time as within-subject factor and group as between-subject factor) was performed to compare the two groups on this measure at two time points (i.e., baseline at week 0 and endpoint at week 12) and infer treatment success accordingly. The null hypothesis signified that there would be no difference between the groups over time, thus, there would be no difference in treatments. Statistical power was calculated as Cohen's d.||||0.106
92390541|NCT00632619|184680613|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANOVA|||A 2 x 2 repeated measures analysis (with time as within-subject factor and group as between-subject factor) was performed to compare the two groups on this measure at two time points (i.e., baseline which was week 0 and endpoint at week 12) and infer treatment success accordingly. The null hypothesis signified that there would be no difference between the groups over time, thus, there would be no difference in treatments. Statistical power was calculated as Cohen's d.||||0.015
92390542|NCT00632619|184680614|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||ANOVA|||A 2 x 2 repeated measures analysis (with time as within-subject factor and group as between-subject factor) was conducted to compare the two groups on this measure at two time points (i.e., baseline at week 0 and endpoint at week 12) and infer treatment success accordingly. The null hypothesis signified that there would be no difference between the groups over time, thus, there would be no difference in treatments. Statistical power was calculated as Cohen's d.||||0.38
92235679|NCT01873950|184374600|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||For each ECG biomarker and treatment, the null hypothesis is that there is no difference in the biomarker change from baseline between the treatment and placebo.|Mixed Models Analysis|For each ECG biomarker and treatment, the placebo-corrected change from baseline was computed using linear mixed effect model.||||||<0.05
92235680|NCT01873950|184374601|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||For each ECG biomarker and treatment, the null hypothesis is that there is no difference in the biomarker change from baseline between the treatment and placebo.|Mixed Models Analysis|For each ECG biomarker and treatment, the placebo-corrected change from baseline was computed using linear mixed effect model.||||||<0.05
92235681|NCT01745055|184374650|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|103.06|||||TWO_SIDED|90.0|99.0|107.29||||||Natural log transformed, AUC (0-12) of CP-690,550 was analyzed using mixed effect model with treatment as fixed effects and participant as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||107.29|99.00|
92235682|NCT01745055|184374651|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|102.71|||||TWO_SIDED|90.0|93.79|112.47||||||Natural log transformed, Cmax of CP-690,550 was analyzed using mixed effect model with treatment as fixed effects and participant as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||112.47|93.79|
92390543|NCT00632619|184680615|SUPERIORITY_OR_OTHER|||||||0.016|||||||ANOVA|||A 2 x 2 repeated measures analysis (with time as within-subject factor and group as between-subject factor) was performed to compare the two groups on this measure at two time points (i.e., baseline at week 0 and endpoint at week 12) and infer treatment success accordingly. The null hypothesis signified that there would be no difference between the groups over time, thus, there would be no difference in treatments. Statistical power was calculated as Cohen's d.||||0.016
92390544|NCT00632619|184680616|SUPERIORITY_OR_OTHER|||||||0.095|||||||ANOVA|||A 2 x 2 repeated measures analysis (with time as within-subject factor and group as between-subject factor) was performed to compare the two groups on this measure at two time points (i.e., baseline at week 0 and endpoint at week 12) and infer treatment success accordingly. The null hypothesis signified that there would be no difference between the groups over time, thus, there would be no difference in treatments. Statistical power was calculated as Cohen's d.||||0.095
92390545|NCT04739436|184680644|SUPERIORITY||Slope|5.29||||0.003|TWO_SIDED|95.0|1.8|8.79||Multiple comparisons were not conducted, so no adjustment of the p-value was necessary.|Regression, Linear|||A linear regression model was fit with outcome change in APHAB score between 3 months and baseline, predictor hearing aid fitting group (reference=bilateral), and covariate clinical site.||8.79|1.80|0.003
92390546|NCT04739436|184680645|SUPERIORITY|||||||0.584||||||No adjustments for multiple comparisons were done.|Kruskal-Wallis|||The null hypothesis is there is no difference in the GHABP question means between the groups at 3 months for the question: In this situation, what proportion of the time do you wear your hearing aid?||||0.584
92390547|NCT04739436|184680645|SUPERIORITY|||||||0.233|||||||Kruskal-Wallis|||The null hypothesis is there is no difference in the GHABP question means between the groups at 3 months for the question: In this situation, how much does your hearing aid help you?||||0.233
92390548|NCT04739436|184680645|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||The null hypothesis is there is no difference in the GHABP question means between the groups at 3 months for the question: In this situation, with your hearing aid, how much difficulty do you now have?||||0.010
92390549|NCT04739436|184680645|SUPERIORITY|||||||0.129|||||||Kruskal-Wallis|||The null hypothesis is there is no difference in the GHABP question means between the groups at 3 months for the question: For this situation, how satisfied are you with your hearing aid?||||0.129
92390550|NCT04739436|184680646|SUPERIORITY|||||||0.946|||||||Kruskal-Wallis|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the change from baseline to 3 months in the co-located BKB SIN test scores between the groups.||||0.946
92390551|NCT04739436|184680647|SUPERIORITY|||||||0.49|||||||Kruskal-Wallis|No adjustments for multiple comparisons were done.||The null hypotheses are there are no differences in the change from baseline to 3 months in WARRM recognition scores between the groups.||||0.490
92390552|NCT04739436|184680647|SUPERIORITY|||||||0.323||||||No adjustments for multiple comparisons were done.|t-test, 2 sided|||The null hypotheses are there are no differences in the change from baseline to 3 months in WARRM recall scores between the groups.||||0.323
92390553|NCT04739436|184680648|SUPERIORITY|||||||0.933||||||No adjustments for multiple comparisons were done.|t-test, 2 sided|||The null hypothesis is there is no difference in the SADL scores between the groups at 3 months.||||0.933
92390554|NCT04739436|184680648|SUPERIORITY|||||||0.929||||||No adjustments for multiple comparisons were done.|t-test, 2 sided|||The null hypothesis is there is no difference in the SADL scores between the groups at 6 months.||||0.929
92390555|NCT04739436|184680650|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||The null hypothesis is there is no difference in the change from baseline to 3 months in SSQ scores between the groups.||||0.015
92390556|NCT04739436|184680650|SUPERIORITY|||||||0.886|||||||t-test, 2 sided|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the change from baseline to 6 months in SSQ scores between the groups.||||0.886
92390557|NCT04739436|184680651|SUPERIORITY|||||||0.137|||||||t-test, 2 sided|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the number of hours of hearing aid use between the groups in the right ear.||||0.137
92390558|NCT04739436|184680651|SUPERIORITY|||||||0.612|||||||t-test, 2 sided|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the number of hours of hearing aid use between the groups in the left ear.||||0.612
92390559|NCT04739436|184680653|SUPERIORITY|||||||0.108|||||||t-test, 2 sided|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the IOI-HA total score between the groups at 3 months.||||0.108
92390560|NCT04739436|184680653|SUPERIORITY|||||||0.988||||||No adjustments for multiple comparisons were done.|t-test, 2 sided|||The null hypothesis is there is no difference in the IOI-HA total score between the groups at 6 months.||||0.988
92390561|NCT04739436|184680656|SUPERIORITY|||||||0.264|||||||t-test, 2 sided|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the change in APHAB score from baseline to 6 months between the groups.||||0.264
92390562|NCT00428948|184680657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.708|||<|0.0001|TWO_SIDED|95.0|-3.269|-2.147|||Linear mixed model||The variance of the random effect intercept was zero and resulted in a non-positive, definite variance-covariance matrix for the random effects.|The null hypothesis was that there was no difference in the percentage change per year in total kidney volume between the tolvaptan group and the placebo group.||-2.147|-3.269|<0.0001
92390563|NCT00428948|184680658|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.865||||0.0095|TWO_SIDED|95.0|0.775|0.965|||Recurrent event analysis||Tolvaptan divided by placebo.|The null hypothesis was that there was no difference in the ADPKD clinical progression events/100 follow-up years between the tolvaptan group and the placebo group.||0.965|0.775|0.0095
92390564|NCT00428948|184680659|SUPERIORITY_OR_OTHER||Difference in slope|0.977|||<|0.0001|TWO_SIDED|95.0|0.597|1.357|||Mixed Models Analysis|Derived from testing the time treatment interaction using linear mixed model in which both intercept and slope are fixed and random effects.||The null hypothesis was that there was no difference in the change in renal function per year between the tolvaptan group and the placebo group.||1.357|0.597|<0.0001
92390565|NCT00428948|184680660|SUPERIORITY_OR_OTHER||Difference in slope|-0.246||||0.552|TWO_SIDED|95.0|-1.059|0.566|||Mixed Models Analysis|Derived from testing the time treatment interaction using linear mixed model in which both intercept and slope are fixed and random effects.|Placebo minus tolvaptan.|The null hypothesis was that there was no difference in mean arterial blood pressure in non-hypertensive participants between the tolvaptan group and the placebo group.||0.566|-1.059|0.5520
92235683|NCT01745055|184374652|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|89.53|||||TWO_SIDED|90.0|77.38|103.57||||||Natural log transformed, AUClast of MTX was analyzed using mixed effect model with treatment as fixed effects and participant as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||103.57|77.38|
92390566|NCT00428948|184680661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.1604|TWO_SIDED|95.0|-0.2|0.03|||ANCOVA|The analysis included baseline renal pain as a covariate.|Derived from ANCOVA with factors of treatment and baseline stratification factor interaction and covariate renal pain baseline.|The null hypothesis was that there was no difference in the change in renal pain between the tolvaptan group and the placebo group.||0.03|-0.20|0.1604
92390567|NCT00428948|184680662|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.996||||0.9704|TWO_SIDED|95.0|0.805|1.233|||Recurrent event analysis||Derived from rate and mean model of time to recurrent event analysis with factor treatment.|The null hypothesis was that there was no difference in the hypertensive events per 100 follow-up years in non-hypertensive participants between the tolvaptan group and the placebo group.||1.233|0.805|0.9704
92390568|NCT00428948|184680663|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.7532|TWO_SIDED|95.0|0.602|2.017|||Cochran-Mantel-Haenszel||Tolvaptan divided by placebo.|The null hypothesis was that there was no difference in the percentage of participants with a clinically sustained decrease of blood pressure leading to a sustained reduction in antihypertensive therapy between the tolvaptan group and the placebo group.||2.017|0.602|0.7532
92390569|NCT05919888|184680664|SUPERIORITY|||||||0.275|||||||Chi-squared|||||||0.275
92390570|NCT05919888|184680665|SUPERIORITY|||||||0.0056|||||||Chi-squared|||||||0.0056
92390571|NCT05919888|184680666|SUPERIORITY|||||||0.286|||||||Chi-squared|||||||0.286
92390572|NCT03071393|184680667|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92390573|NCT03071393|184680668|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92390574|NCT03071393|184680669|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92390575|NCT03071393|184680670|SUPERIORITY||||||<|0.05||||||Uncorrected p values are reported.|Wilcoxon (Mann-Whitney)|||||||<0.05
92390576|NCT03559933|184680687|SUPERIORITY||Logistic regression model|95.0|STANDARD_ERROR_OF_MEAN|0.0152||0.0125|TWO_SIDED|95.0|93.15|96.66|||Mixed Models Analysis|Subject and stimulation within subject as random effects with multiple observations per subject was accounted for.||The proportion of successful capture was analyzed using a generalized linear mixed model accounting for subject and stimulation within subject as random effects with multiple observations per subject. The null hypothesis was tested comparing the lower bound of the 98.75% two-sided confidence interval for the estimated percent diaphragm capture rate to the performance goal of 80%. If the lower bound was greater than 80%, the null hypothesis was rejected, and the endpoint was considered met.||96.66|93.15|0.0125
92390577|NCT02119663|184680692|OTHER||Hazard Ratio (HR)|1.584|||||TWO_SIDED|95.0|0.886|2.83||||||||2.830|0.886|
92390578|NCT00286429|184680719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||<|0.001|TWO_SIDED|95.0|-0.72|-0.3||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 26. For comparison of either alogliptin dose vs. placebo (2-sample t test), study sample size \>=390 participants had 95% power to detect a treatment difference as small as 0.4% in the per protocol analysis set assuming a standard deviation of 0.8%, a 2-sided test at 0.05 significance level and \>=80% of subjects meeting the per protocol criteria.||-0.30|-0.72|<0.001
92390579|NCT00286429|184680719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||<|0.001|TWO_SIDED|95.0|-0.8|-0.37||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 26. For comparison of either alogliptin dose vs. placebo (2-sample t test), study sample size \>=390 participants had 95% power to detect a treatment difference as small as 0.4% in the per protocol analysis set assuming a standard deviation of 0.8%, a 2-sided test at 0.05 significance level and \>=80% of subjects meeting the per protocol criteria.||-0.37|-0.80|<0.001
92390580|NCT00286429|184680720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|||<|0.001|TWO_SIDED|95.0|-0.34|-0.09||No multiplicity adjustments|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.09|-0.34|<0.001
92390581|NCT00286429|184680720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|||<|0.001|TWO_SIDED|95.0|-0.45|-0.2||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.20|-0.45|<0.001
92169931|NCT03351699|184228495|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).|Posterior Mean Difference|-1.52|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-4250 and placebo at least 1.4 log10 copies/mL was 75%.|||||
92235684|NCT01745055|184374653|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|87.25|||||TWO_SIDED|90.0|76.03|100.12||||||Natural log transformed, Cmax of MTX was analyzed using mixed effect model with treatment as fixed effects and participant as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||100.12|76.03|
92390582|NCT00286429|184680721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|||<|0.001|TWO_SIDED|95.0|-0.65|-0.31||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.31|-0.65|<0.001
92390583|NCT00286429|184680721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|||<|0.001|TWO_SIDED|95.0|-0.73|-0.39||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.39|-0.73|<0.001
92390584|NCT00286429|184680722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001|TWO_SIDED|95.0|-0.77|-0.37||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.37|-0.77|<0.001
92390585|NCT00286429|184680722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.75|-0.34||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.34|-0.75|<0.001
92390586|NCT00286429|184680723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|||<|0.001|TWO_SIDED|95.0|-0.79|-0.37||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 16. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.37|-0.79|<0.001
92390587|NCT00286429|184680723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.75|-0.33||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 16. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.33|-0.75|<0.001
92390588|NCT00286429|184680724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||<|0.001|TWO_SIDED|95.0|-0.8|-0.37||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.37|-0.80|<0.001
92390589|NCT00286429|184680724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001|TWO_SIDED|95.0|-0.79|-0.35||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.35|-0.79|<0.001
92390590|NCT00286429|184680725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.3||||0.128|TWO_SIDED|95.0|-25.9|3.3||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 1. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||3.3|-25.9|0.128
92390591|NCT00286429|184680725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.1||||0.034|TWO_SIDED|95.0|-31.1|-1.2||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 1. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-1.2|-31.1|0.034
92235685|NCT01512368|184374664|SUPERIORITY_OR_OTHER||Slope|0.089|STANDARD_ERROR_OF_MEAN|0.063|<|0.001|TWO_SIDED|95.0|0.034|0.144||All reported p values are based on two-sided tests considering ≤0.05 as significant.|Regression, Linear|Adjusted for age, time of exercise, creatinine, waist to hip ratio, fat percentage, body mass index, mean rest heart rate, blood pressure.|Metabolic equivalents (METs) consumed were independently associated with the log of delta (final-basal) FGF21 levels.|"FGF21 was log transformed to approximate normality before analyses. Null hypothesis was Ho = Y1 (FGF21 level at baseline) = Y2 (FGF21 level after two weeks of exercising). Power calculation was 80% with 60 participants evaluated (one group). To evaluate the effect of exercise on clinical and biochemical parameters, we used the difference between final - basal levels (delta)."||0.144|0.034|<0.001
92235686|NCT01570491|184374677|SUPERIORITY_OR_OTHER|||||||0.83|||||||Kruskal-Wallis|||"We hypothesized that real-time US guidance would result in a 20% lower number of attempts compared to the control group.~At the 0.05 level of significance with a power of 0.8, we will require a minimum of 20 patients per group, therefore we planned to recruit 40 patients in total."||||0.83
92278887|NCT04680052|184460760|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.407|||<|0.0001|TWO_SIDED|95.0|0.294|0.563|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.563|0.294|<0.0001
92278888|NCT04680052|184460762|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.481|||<|0.0001|TWO_SIDED|95.0|0.357|0.647|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.647|0.357|<0.0001
92278889|NCT04680052|184460763|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|2.2||||0.0003|TWO_SIDED|95.0|1.43|3.43|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||3.43|1.43|0.0003
92390592|NCT00286429|184680726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.563|TWO_SIDED|95.0|-17.9|9.7||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 2. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||9.7|-17.9|0.563
92418938|NCT01314911|184725745|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.8498|TWO_SIDED|95.0|-3.8|4.7||P-value was not adjusted for multiple interim analyses.|Z test||The difference in percents was calculated as the percent in the Oseltamivir arm minus the percent in the placebo arm.|This test compared the difference in percentages of participants with at least one complication between two randomized arms.||4.7|-3.8|0.8498
92418939|NCT01314911|184725747|SUPERIORITY||Mean Difference (Final Values)|-13.6||||0.0021|TWO_SIDED|95.0|-22.2|-5.1||P-value was not adjusted for multiple interim analyses.|Z test||||The difference in percents was calculated as the percent with detectable in the Oseltamivir arm minus the percent with detectable in the placebo arm.|-5.1|-22.2|0.0021
92418940|NCT01314911|184725750|SUPERIORITY|||||||0.022||||||P-value was not adjusted for multiple interim analyses.|Wilcoxon (Mann-Whitney)|||||||0.022
92418941|NCT03150485|184725800|SUPERIORITY|Superiority was established is the lower limit of the 95% confidence interval was above 50%.|Estimated Proportion|77.27|||||TWO_SIDED|95.0|56.15|90.29|||Agresti-Coull|||The Agresti-Coull method was used to estimate the confidence interval of the binomial proportions of subjects with less than 2 lens modifications.||90.29|56.15|
92235687|NCT01570491|184374678|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92235688|NCT01570491|184374679|SUPERIORITY|||||||0.09|||||||Kruskal-Wallis|||||||0.09
92235689|NCT01570491|184374680|SUPERIORITY|||||||0.06|||||||Kruskal-Wallis|||||||0.06
92235690|NCT01720667|184374691|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Comparison of 24 hour seizure termination rates using a Fisher's exact test.||||<0.001
92235691|NCT01720667|184374692|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Comparison of seizure cessation at 48 hours using Fisher's exact test||||<0.001
92278890|NCT04680052|184460764|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|2.0||||0.0005|TWO_SIDED|95.0|1.33|2.86|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||2.86|1.33|0.0005
92235692|NCT02334267|184374704|SUPERIORITY_OR_OTHER||||||<|0.0001||||||trend analysis over time|Mixed Models Analysis|||||||<0.0001
92235693|NCT02334267|184374705|SUPERIORITY_OR_OTHER|||||||0.4||||||trend analysis over time|Mixed Models Analysis|||||||0.4
92235694|NCT02334267|184374706|SUPERIORITY_OR_OTHER|||||||0.003||||||trend analysis over time|Mixed Models Analysis|||||||0.003
92235695|NCT02334267|184374707|SUPERIORITY_OR_OTHER||||||<|0.0001||||||trend analysis over time|Mixed Models Analysis|||||||<0.0001
92235696|NCT00234104|184374708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||0.0074||95.0|||||t-test, 2 sided|Dunnett's test was used||||||0.0074
92235697|NCT00234104|184374708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.0459||95.0|||||t-test, 2 sided|Dunnett's test was used||||||0.0459
92235698|NCT00234104|184374708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32||||0.001||95.0|||||t-test, 2 sided|Dunnett's test was used||||||0.0010
92235699|NCT01254344|184374724|NON_INFERIORITY_OR_EQUIVALENCE|"Assuming a 70% rate (i.e., proportion of participants with success of prophylaxis) for both groups and a significance level of 0.025, at least 200 evaluable participants per group were needed to have 90% probability that the lower limit of the 95% (two-sided) confidence interval for the difference in the response rates between the 2 groups was greater than -15 percentage points."|Difference in percentage of prophylaxis|0.1|||||TWO_SIDED|95.0|-5.2|5.5|||Miettinen and Nurminen|||||5.5|-5.2|
92235700|NCT01254344|184374725|SUPERIORITY_OR_OTHER||Difference in percentage of prophylaxis|1.3|||||TWO_SIDED|95.0|-2.2|5.1|||Miettinen and Nurminen|||||5.1|-2.2|
92235701|NCT00467649|184374726|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Fisher Exact|||||||0.0180
92235702|NCT03114969|184374761|SUPERIORITY||Odds Ratio (OR)|4.657||||0.005|TWO_SIDED|95.0|1.584|13.686||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||13.686|1.584|0.005
92278891|NCT04680052|184460766|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.461|||<|0.0001|TWO_SIDED|95.0|0.312|0.681|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.681|0.312|<0.0001
92235703|NCT03114969|184374761|SUPERIORITY||Odds Ratio (OR)|2.478||||0.114|TWO_SIDED|95.0|0.805|7.632||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||7.632|0.805|0.114
92278892|NCT04680052|184460768|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|1.192||||0.7469|TWO_SIDED|95.0|0.409|3.475|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||3.475|0.409|0.7469
92235704|NCT03114969|184374761|SUPERIORITY||Odds Ratio (OR)|3.499||||0.026|TWO_SIDED|95.0|1.16|10.555||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||10.555|1.160|0.026
92235705|NCT03114969|184374761|SUPERIORITY||Odds Ratio (OR)|3.943||||0.012|TWO_SIDED|95.0|1.348|11.534||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||11.534|1.348|0.012
92235706|NCT03114969|184374761|SUPERIORITY||Odds Ratio (OR)|1.223||||0.746|TWO_SIDED|95.0|0.361|4.151||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||4.151|0.361|0.746
92235707|NCT03114969|184374761|SUPERIORITY||Odds Ratio (OR)|5.562||||0.001|TWO_SIDED|95.0|1.932|16.013||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||16.013|1.932|0.001
92235708|NCT03114969|184374761|SUPERIORITY||Odds Ratio (OR)|2.979||||0.05|TWO_SIDED|95.0|0.999|8.882||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||8.882|0.999|0.050
92235709|NCT03114969|184374761|SUPERIORITY||Odds Ratio (OR)|4.418||||0.006|TWO_SIDED|95.0|1.521|12.834||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||12.834|1.521|0.006
92390593|NCT00286429|184680726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4||||0.084|TWO_SIDED|95.0|-26.4|1.7||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 2. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||1.7|-26.4|0.084
92390594|NCT00286429|184680727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.3||||0.16|TWO_SIDED|95.0|-24.7|4.1||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||4.1|-24.7|0.160
92390595|NCT00286429|184680727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4||||0.02|TWO_SIDED|95.0|-32.1|-2.8||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-2.8|-32.1|0.020
92235710|NCT03114969|184374761|SUPERIORITY||Odds Ratio (OR)|4.165||||0.009|TWO_SIDED|95.0|1.425|12.178||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||12.178|1.425|0.009
92235711|NCT03114969|184374761|SUPERIORITY||Odds Ratio (OR)|1.209||||0.761|TWO_SIDED|95.0|0.357|4.095||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||4.095|0.357|0.761
92235712|NCT03114969|184374762|SUPERIORITY||Odds Ratio (OR)|2.292||||0.1|TWO_SIDED|95.0|0.853|6.163||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||6.163|0.853|0.100
92235713|NCT03114969|184374762|SUPERIORITY||Odds Ratio (OR)|2.642||||0.051|TWO_SIDED|95.0|0.994|7.022||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||7.022|0.994|0.051
92235714|NCT03114969|184374763|SUPERIORITY||Odds Ratio (OR)|3.995|||<|0.001|TWO_SIDED|95.0|1.808|8.829||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||8.829|1.808|<0.001
92235715|NCT03114969|184374763|SUPERIORITY||Odds Ratio (OR)|2.181||||0.069|TWO_SIDED|95.0|0.94|5.059||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.059|0.940|0.069
92446358|NCT02741115|184779771|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|1.544||0.985|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline physical functioning (parent reported).||||||0.985
92235716|NCT03114969|184374763|SUPERIORITY||Odds Ratio (OR)|4.855|||<|0.001|TWO_SIDED|95.0|2.339|10.08||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||10.080|2.339|<0.001
92235717|NCT03114969|184374763|SUPERIORITY||Odds Ratio (OR)|2.71||||0.01|TWO_SIDED|95.0|1.274|5.764||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.764|1.274|0.010
92235718|NCT03114969|184374764|SUPERIORITY||Odds Ratio (OR)|2.503||||0.108|TWO_SIDED|95.0|0.818|7.659||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||7.659|0.818|0.108
92235719|NCT03114969|184374764|SUPERIORITY||Odds Ratio (OR)|2.409||||0.122|TWO_SIDED|95.0|0.792|7.331||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||7.331|0.792|0.122
92446359|NCT02741115|184779772|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|1.039||0.273|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline psychosocial health summary score (child reported).||||||0.273
92446360|NCT02741115|184779773|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|1.327||0.966|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline psychosocial health summary score (parent reported).||||||0.966
92446361|NCT02741115|184779774|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|1.011||0.706|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline cardiac module scale (Treatment II).||||||0.706
92446362|NCT02741115|184779775|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|1.707||0.382|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline cardiac module scale (perceived physical appearance)||||||0.382
92235720|NCT03114969|184374765|SUPERIORITY||Odds Ratio (OR)|4.887||||0.001|TWO_SIDED|95.0|1.851|12.903||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||12.903|1.851|0.001
92235721|NCT03114969|184374765|SUPERIORITY||Odds Ratio (OR)|5.484|||<|0.001|TWO_SIDED|95.0|2.106|14.284||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||14.284|2.106|<0.001
92235722|NCT03114969|184374766|SUPERIORITY||Odds Ratio (OR)|3.941|||<|0.001|TWO_SIDED|95.0|1.863|8.337||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||8.337|1.863|<0.001
92235723|NCT03114969|184374766|SUPERIORITY||Odds Ratio (OR)|2.391||||0.03|TWO_SIDED|95.0|1.088|5.256||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.256|1.088|0.030
92235724|NCT03114969|184374766|SUPERIORITY||Odds Ratio (OR)|4.728|||<|0.001|TWO_SIDED|95.0|2.388|9.364||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||9.364|2.388|<0.001
92235725|NCT03114969|184374766|SUPERIORITY||Odds Ratio (OR)|2.957||||0.002|TWO_SIDED|95.0|1.473|5.936||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.936|1.473|0.002
92390596|NCT00286429|184680728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.9||||0.013|TWO_SIDED|95.0|-33.7|-4.0||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 8. The treatment effect was be evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-4.0|-33.7|0.013
92390597|NCT00286429|184680728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5||||0.011|TWO_SIDED|95.0|-34.5|-4.5||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-4.5|-34.5|0.011
92390598|NCT00286429|184680729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.624|TWO_SIDED|95.0|-18.9|11.3||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||11.3|-18.9|0.624
92390599|NCT00286429|184680729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.853|TWO_SIDED|95.0|-16.7|13.8||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||13.8|-16.7|0.853
92390600|NCT00286429|184680730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9||||0.19|TWO_SIDED|95.0|-24.7|4.9||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 16. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||4.9|-24.7|0.190
92235726|NCT03114969|184374767|SUPERIORITY||Odds Ratio (OR)|2.404||||0.045|TWO_SIDED|95.0|1.018|5.676||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||5.676|1.018|0.045
92235727|NCT03114969|184374767|SUPERIORITY||Odds Ratio (OR)|1.823||||0.172|TWO_SIDED|95.0|0.77|4.319||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||4.319|0.770|0.172
92169932|NCT03351699|184228495|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).|Posterior Mean Difference|-1.75|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-4250 and placebo at least 1.4 log10 copies/mL was 96%.|||||
92169933|NCT00567489|184228561|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.001|TWO_SIDED|95.0|0.2|0.9|||ANOVA|||Month 3||0.9|0.2|<0.001
92235728|NCT03114969|184374767|SUPERIORITY||Odds Ratio (OR)|2.989||||0.016|TWO_SIDED|95.0|1.229|7.272||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||7.272|1.229|0.016
92169934|NCT00567489|184228561|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.006|TWO_SIDED|95.0|0.1|0.8|||ANOVA|||Month 6||0.8|0.1|0.006
92169935|NCT00567489|184228562|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.312|TWO_SIDED|95.0|-4.7|14.7|||ANOVA|||Insulin-Month 3||14.7|-4.7|0.312
92169936|NCT00567489|184228562|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.342|TWO_SIDED|95.0|-5.0|14.4|||ANOVA|||Insulin-Month 6||14.4|-5.0|0.342
92169937|NCT00567489|184228564|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.01|TWO_SIDED|95.0|0.1|0.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 3||0.9|0.1|0.010
92169938|NCT00567489|184228564|SUPERIORITY||Median Difference (Final Values)|0.3||||0.073|TWO_SIDED|95.0|0.0|0.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 6||0.7|0|0.073
92235729|NCT03114969|184374767|SUPERIORITY||Odds Ratio (OR)|1.747||||0.179|TWO_SIDED|95.0|0.775|3.937||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||3.937|0.775|0.179
92235730|NCT03114969|184374767|SUPERIORITY||Odds Ratio (OR)|1.189||||0.69|TWO_SIDED|95.0|0.509|2.775||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||2.775|0.509|0.690
92278893|NCT01073020|184460780|SUPERIORITY||proportion|0.08||||0.6|TWO_SIDED||||||Chi-squared||Estimation parameter is the difference between the proportion of patients in the LAGB group vs. proportion of patients in the Intensive Medical Diabetes \& Weight Management (LAGB Grp) who achieved the primary outcome.|||||0.60
92235731|NCT03114969|184374767|SUPERIORITY||Odds Ratio (OR)|3.363||||0.004|TWO_SIDED|95.0|1.48|7.639||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||7.639|1.480|0.004
92235732|NCT03114969|184374767|SUPERIORITY||Odds Ratio (OR)|2.848||||0.012|TWO_SIDED|95.0|1.264|6.42||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||6.420|1.264|0.012
92278894|NCT01073020|184460780|SUPERIORITY||proportion|0.42||||0.005|TWO_SIDED||||||Chi-squared||Estimation parameter is the difference between the proportion of patients in the RYGB group vs. proportion of patients in the Intensive Medical Diabetes \& Weight Management (RYGB Grp) who achieved the primary outcome.|||||0.005
92278895|NCT01073020|184460781|SUPERIORITY||Mean Difference (Net)|1.0||||0.33|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between the change from baseline in HbA1c in the LAGB group vs. change from baseline in HbA1c in the Intensive Medical Diabetes \& Weight Management (LAGB Grp), adjusted for baseline HbA1c.|||||0.33
92278896|NCT01073020|184460781|SUPERIORITY||Mean Difference (Net)|1.4|||<|0.001|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between the change from baseline in HbA1c in the RYGB group vs. change from baseline in HbA1c in the Intensive Medical Diabetes \& Weight Management (RYGB Grp), adjusted for baseline HbA1c.|||||<0.001
92278897|NCT01073020|184460782|SUPERIORITY||Mean Difference (Net)|2.2|||<|0.001|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between the change from baseline in BMI in the LAGB group vs. change from baseline in BMI in the Intensive Medical Diabetes \& Weight Management (LAGB Grp), adjusted for baseline BMI.|||||<0.001
92278898|NCT01073020|184460782|SUPERIORITY||Mean Difference (Net)|4.6|||<|0.001|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between the change from baseline in BMI in the RYGB group vs. change from baseline in BMI in the Intensive Medical Diabetes \& Weight Management (RYGB Grp), adjusted for baseline BMI.|||||<0.001
92278899|NCT01073020|184460783|SUPERIORITY||Mean Difference (Net)|1.5||||0.81|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between change from baseline in CHD risk over 10 yrs. in LAGB group vs. change from baseline in CHD risk over 10 yrs. in Intensive Medical Diabetes \& Weight Management (LAGB Grp), adjusted for baseline CHD risk.|||||0.81
92278900|NCT01073020|184460783|SUPERIORITY||Mean Difference (Net)|2.6||||0.009|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between change from baseline in CHD risk over 10 yrs. in RYGB group vs. change from baseline in CHD risk over 10 yrs. in Intensive Medical Diabetes \& Weight Management (RYGB Grp), adjusted for baseline CHD risk.|||||0.009
92278901|NCT00094302|184460788|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.14|TWO_SIDED|95.0|0.77|1.04||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|Composite endpoint was compared by trial arm using logrank test of time to first event from time of randomization. Time to event was the time at which the first observed event component of the composite endpoint was observed. This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 320 subjects in the Spironolactone group and 351 subjects in Placebo group with a confirmed event. Subjects who did not experience this endpoint were censored at time of last contact.||1.04|0.77|0.14
92280555|NCT00601484|184463653|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.816|||TWO_SIDED|90.0|-1.534|1.221||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.221|-1.534|
92390601|NCT00286429|184680730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9||||0.154|TWO_SIDED|95.0|-25.8|4.1||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 16. The treatment effect was be evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||4.1|-25.8|0.154
92418942|NCT00478881|184725833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.045||||0.5293||95.0|-33.194|17.104||Bladder volume (mL) at first detrusor contraction tested first. If significant, the change in the average number of daily micturitions was to be tested using a P\<0.05.|ANCOVA||Placebo-Vardenafil|Countries were pooled into 2 clusters, which allowed for testing of Treatment by Center interaction. An ANCOVA including Baseline (Visit 2) as a covariate with main effects for treatment and country (see pooling above) was used to test treatment difference for the primary variable and co-primary variable.||17.104|-33.194|0.5293
92418943|NCT00478881|184725834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.668||||0.0575||95.0|-0.021|1.358||Bladder volume (mL) at first detrusor contraction tested first. If significant, the change in the average number of daily micturitions was to be tested using a P \<0.05.|ANCOVA||Placebo - Vardenafil|Countries were pooled into 2 clusters, which allowed for testing of Treatment by Center interaction. An ANCOVA including Baseline (Visit 2) as a covariate with main effects for treatment and country (see pooling above) was used to test treatment difference for the primary variable and co-primary variable.||1.358|-0.021|0.0575
92418944|NCT00478881|184725835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.657||||0.8533||95.0|-6.335|7.65||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||Placebo- Vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||7.650|-6.335|0.8533
92418945|NCT00478881|184725836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.59||||0.1539||95.0|-37.057|5.876||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||Placebo- Vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||5.876|-37.057|0.1539
92418946|NCT00478881|184725837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.374||||0.2348||95.0|-32.834|8.087||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||placebo - vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||8.087|-32.834|0.2348
92418947|NCT00478881|184725838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.195||||0.3289||95.0|-24.692|8.303||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||placebo - vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||8.303|-24.692|0.3289
92169939|NCT00567489|184228564|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.181|TWO_SIDED|95.0|-0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 3||0.5|-0.1|0.181
92169940|NCT00567489|184228564|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.593|TWO_SIDED|95.0|-0.2|0.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 6||0.4|-0.2|0.593
92418948|NCT00478881|184725839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.721||||0.0609||95.0|-0.033|1.476||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||placebo - vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||1.476|-0.033|0.0609
92235733|NCT03114969|184374767|SUPERIORITY||Odds Ratio (OR)|4.63|||<|0.001|TWO_SIDED|95.0|1.986|10.791||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||10.791|1.986|<0.001
92418949|NCT00478881|184725840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118||||0.4928||95.0|-0.22|0.456||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||placebo - vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||0.456|-0.220|0.4928
92418950|NCT00478881|184725841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.823||||0.3248||95.0|-2.476|0.829||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||placebo - vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||0.829|-2.476|0.3248
92169941|NCT00567489|184228564|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.198|TWO_SIDED|95.0|-0.2|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 3||0|-0.2|0.198
92418951|NCT00478881|184725842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.095||||0.5312||95.0|-4.533|2.342||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA|||ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||2.342|-4.533|0.5312
92418952|NCT05803603|184725867|SUPERIORITY||Odds Ratio (OR)|2.0||||0.125|TWO_SIDED|95.0|0.37|10.92|||McNemar|||We recruited 8 homeless individuals and followed them for 12 months. 4 individuals (50%) were housed at 6 months and 3 (37.5) were housed at 12 months.|See results above|10.92|.37|.125
92418953|NCT03977454|184725902|SUPERIORITY||Mean Difference (Net)|1.2||||0.69|TWO_SIDED||||||t-test, 2 sided|||The primary endpoint was a comparison between groups at 24 hours.||||0.69
92418954|NCT03977454|184725903|SUPERIORITY||Mean Difference (Net)|0.1||||0.92|TWO_SIDED||||||t-test, 2 sided|||Scores were compared at 2 days post operation.||||0.92
92418955|NCT03977454|184725904|SUPERIORITY||Mean Difference (Net)|0.5||||0.91|TWO_SIDED||||||t-test, 2 sided|||||||0.91
92418956|NCT03977454|184725906|SUPERIORITY||Mean Difference (Net)|0.0||||0.85|TWO_SIDED||||||t-test, 2 sided|||Scores were compared at 2 weeks.||||0.85
92418957|NCT00930982|184725907|SUPERIORITY_OR_OTHER||Difference in Least square means|-2.368|STANDARD_ERROR_OF_MEAN|2.674|<|0.001||||||p-value should be \< 0.023 (one-sided) for a significant result as an interim analysis was performed. Results based on the no-interaction model which was defined as primary analysis.|ANCOVA|Baseline cfu was covariate, treatment and pooled centers factors. As the p-value for interaction was 0.214, the no-interaction model is appropriate.|Least square mean Ciprofloxacin minus placebo|"Ho: CFU(EOT\|Cipro) - CFU(baseline\|Cipro) \> CFU(EOT\|Placebo) - CFU(baseline\|Placebo) CFU = colony forming units EOT=End of treatment (Day 29) Sample size was based a difference of 1.2 log10 CFU/g between placebo and Ciprofloxacin and a standard deviation of 2 log10 CFU/g"||||< 0.001
92418958|NCT00518973|184725922|SUPERIORITY|||||||0.15||||||t = 2.8|t-test, 2 sided|Hours occupied by preoccupations.||||||.15
92418959|NCT00518973|184725922|SUPERIORITY|||||||0.4||||||t = .56|t-test, 2 sided|Hours of rituals||||||.40
92418960|NCT00518973|184725923|SUPERIORITY|||||||0.72||||||t = .13|t-test, 2 sided|||||||.72
92169942|NCT00567489|184228564|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.298|TWO_SIDED|95.0|-0.1|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 6||0|-0.1|0.298
92169943|NCT00567489|184228564|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.001|TWO_SIDED|95.0|0.2|0.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 3||0.6|0.2|<0.001
92169944|NCT00567489|184228564|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.003|TWO_SIDED|95.0|0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 6||0.5|0.1|0.003
92169945|NCT00567489|184228564|SUPERIORITY||Mean Difference (Final Values)|0.8|||<|0.001|TWO_SIDED|95.0|0.4|1.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 3||1.3|0.4|<0.001
92418961|NCT00518973|184725924|SUPERIORITY|||||||0.48||||||t = .52|t-test, 2 sided|Reporting for Trait||||||.48
92418962|NCT00518973|184725924|SUPERIORITY|||||||0.77||||||t = .09|t-test, 2 sided|Reporting for State||||||.77
92418963|NCT00518973|184725925|SUPERIORITY|||||||0.83||||||t = .05|t-test, 2 sided|||||||.83
92418964|NCT00518973|184725926|SUPERIORITY|||||||0.4||||||t = .78|t-test, 2 sided|Positive Scale||||||.40
92418965|NCT00518973|184725926|SUPERIORITY|||||||0.11||||||t=3.0|t-test, 2 sided|Negative Scale||||||.11
92418966|NCT00518973|184725926|SUPERIORITY|||||||0.9||||||t = .02|t-test, 2 sided|General Scale||||||.90
92418967|NCT01923168|184725934|OTHER|Bayesian double criteria|Mean Difference (Final Values)|-1.3||||0.282|TWO_SIDED|80.0|-4.5|1.7|||Posterior mean diff. & credible interval|||||1.7|-4.5|0.282
92418968|NCT01923168|184725935|OTHER|Bayesian double criteria|Mean Difference (Final Values)|1.1||||0.697|TWO_SIDED|80.0|-1.9|4.2|||Posterior mean difference|Posterior mean difference||||4.2|-1.9|0.697
92418969|NCT01923168|184725936|OTHER|Bayesian double criteria|Mean Difference (Final Values)|-1.4||||0.435|TWO_SIDED|80.0|-12.5|9.7|||Posterior mean diff. & credible interval|||||9.7|-12.5|0.435
92418970|NCT01923168|184725937|OTHER|Bayesian double criteria|Mean Difference (Final Values)|2.4||||0.611|TWO_SIDED|80.0|-8.4|13.2|||Posterior mean diff. & credible interval|||||13.2|-8.4|0.611
92418971|NCT04193410|184725966|OTHER|Linear mixed model analyses assessed longitudinal intervention effects on children's BMI z-score. A two-level model with measurements as first level and participants as second was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at T0 (four/five/six), SES (low/middle/high), and children's weight status at T0 (underweight/normal weight/overweight). This analyses reports T1-T0.||||||0.21|||||||Mixed Models Analysis|||||||0.210
92278902|NCT00094302|184460789|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.35|TWO_SIDED|95.0|0.73|1.12||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 336 subjects (160 in the Spironolactone group and 176 in the Placebo group) with a confirmed event."||1.12|0.73|0.35
92278903|NCT00094302|184460790|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.48|TWO_SIDED|95.0|0.14|2.5||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 8 subjects (3 in the Spironolactone group and 5 in the Placebo group) with a confirmed event."||2.50|0.14|0.48
92278904|NCT00094302|184460791|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.04|TWO_SIDED|95.0|0.69|0.99||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 451 subjects (206 in the Spironolactone group and 245 in the Placebo group) who have been confirmed to have experienced the event"||0.99|0.69|0.04
92278905|NCT00094302|184460792|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.29|TWO_SIDED|95.0|0.77|1.08||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|Endpoint compared by trial arm using logrank test of time to event from randomization. Subjects who did not experience endpoint were censored at time of last contact. Attempts were made to determine vital status as of each subject's last potential visit, based on randomization, even if the subject ended study participation before then. This outcome was adjudicated. There were 252 events over 6,022 patient-years in Spironolactone arm and 274 events over 5,981 patient-years in Placebo arm.||1.08|0.77|0.29
92278906|NCT00094302|184460793|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.28|TWO_SIDED|95.0|0.8|1.06||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|Composite endpoint was compared by trial arm using logrank test of time to first event from time of randomization. Time to event was the time at which the first observed event component of the composite endpoint was observed. Component endpoints were adjudicated by the TOPCAT clinical endpoints committee. There were 382 subjects in Spironolactone group and 404 subjects in Placebo group with a confirmed event. Subjects who did not experience this endpoint were censored at time of last contact.||1.06|0.80|0.28
92278907|NCT00094302|184460794|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.15|TWO_SIDED|95.0|0.76|1.04||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|Endpoint was compared by trial arm using logrank test of time to first event from time of randomization. Time to event was the time at which the first observed event component of the composite endpoint was observed. Component endpoints were adjudicated by the TOPCAT clinical endpoints committee. There were 291 subjects in Spironolactone group and 320 subjects in Placebo group with a confirmed event. Subjects who did not experience this endpoint were censored at time of last contact.||1.04|0.76|0.15
92278908|NCT00094302|184460795|SUPERIORITY_OR_OTHER||incidence rate ratio|0.75||||0.03|TWO_SIDED|95.0|0.58|0.97||No covariate adjustment|Negative binomial regression||Spironolactone compared to Placebo|There were a total of 869 confirmed heart failure hospitalizations (394 in the Spironolactone group and 475 in the Placebo group) during the 11,471 person-years collected over the course of the TOPCAT trial (5,755 person-years in the Spironolactone group and 5,716 person-years in the Placebo group). The incidence rate of heart failure hospitalizations for each treatment group was compared using a negative binomial regression with a p-value threshold of 0.05 for statistical significance.||0.97|0.58|0.03
92280556|NCT00601484|184463653|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.54|STANDARD_ERROR_OF_MEAN|1.083|||TWO_SIDED|90.0|-2.398|1.32||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.320|-2.398|
92418972|NCT04193410|184725966|OTHER|||||||0.793|||||||Mixed Models Analysis|||Linear mixed model analyses assessed longitudinal intervention effects on children's BMI z-score. A two-level model with measurements as first level and participants as second was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at T0 (four/five/six), SES (low/middle/high), and children's weight status at T0 (underweight/normal weight/overweight). This analyses reports T2-T0.||||0.793
92418973|NCT04193410|184725967|OTHER|||||||0.444|||||||Mixed Models Analysis|||Linear mixed model analyses were used to assess longitudinal intervention effects on children's dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. This analysis reports T1-T0.||||0.444
92418974|NCT04193410|184725967|OTHER|||||||0.863|||||||Mixed Models Analysis|||Linear mixed model analyses were used to assess longitudinal intervention effects on children's dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. This analysis reports T2-T0.||||0.863
92169946|NCT00567489|184228564|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.002|TWO_SIDED|95.0|0.3|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 6||1.1|0.3|0.002
92169947|NCT00567489|184228565|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.485|TWO_SIDED|95.0|-8.6|4.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 3||4.1|-8.6|0.485
92390602|NCT00286429|184680731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.7||||0.097|TWO_SIDED|95.0|-27.8|2.3||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||2.3|-27.8|0.097
92235734|NCT03114969|184374767|SUPERIORITY||Odds Ratio (OR)|2.037||||0.081|TWO_SIDED|95.0|0.916|4.528||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||4.528|0.916|0.081
92169948|NCT00567489|184228565|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.556|TWO_SIDED|95.0|-8.2|4.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 6||4.4|-8.2|0.556
92235735|NCT03114969|184374767|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.438|2.283||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||2.283|0.438|1.000
92390603|NCT00286429|184680731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9||||0.01|TWO_SIDED|95.0|-35.1|-4.7||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-4.7|-35.1|0.010
92390604|NCT00286429|184680732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.662|TWO_SIDED|95.0|-19.2|12.2||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||12.2|-19.2|0.662
92390605|NCT00286429|184680732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6||||0.03|TWO_SIDED|95.0|-33.4|-1.7||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-1.7|-33.4|0.030
92390606|NCT00286429|184680733|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.551||||0.075|TWO_SIDED|95.0|0.286|1.063||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in number of participants with marked hyperglycemia. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||1.063|0.286|0.075
92390607|NCT00286429|184680733|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.364||||0.002|TWO_SIDED|95.0|0.191|0.695||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in number of participants with marked hyperglycemia. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||0.695|0.191|0.002
92390608|NCT00286429|184680734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.35|||<|0.001|TWO_SIDED|95.0|0.198|0.619||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) is alogliptin arm versus placebo arm. OR \<1.0 indicates lower incidence compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in number of participants requiring rescue. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||0.619|0.198|<0.001
92390609|NCT00286429|184680734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.339|||<|0.001|TWO_SIDED|95.0|0.189|0.608||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in number of participants requiring rescue. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||0.608|0.189|<0.001
92169949|NCT00567489|184228565|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.101|TWO_SIDED|95.0|-1.1|12.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 3||12.2|-1.1|0.101
92390610|NCT00286429|184680735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156||||0.286|TWO_SIDED|95.0|-0.131|0.443||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-Peptide at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.443|-0.131|0.286
92169950|NCT00567489|184228565|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.134|TWO_SIDED|95.0|-1.5|11.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 6||11.5|-1.5|0.134
92169951|NCT00567489|184228565|SUPERIORITY||Mean Difference (Final Values)|11.4||||0.004|TWO_SIDED|95.0|3.6|19.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 3||19.2|3.6|0.004
92169952|NCT00567489|184228565|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.03|TWO_SIDED|95.0|0.8|15.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 6||15.9|0.8|0.030
92235736|NCT03114969|184374768|SUPERIORITY||Odds Ratio (OR)|1.935||||0.067|TWO_SIDED|95.0|0.955|3.921||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||3.921|0.955|0.067
92235737|NCT03114969|184374768|SUPERIORITY||Odds Ratio (OR)|2.523||||0.007|TWO_SIDED|95.0|1.283|4.961||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||4.961|1.283|0.007
92235738|NCT03114969|184374769|SUPERIORITY||Odds Ratio (OR)|2.399||||0.008|TWO_SIDED|95.0|1.252|4.596||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||4.596|1.252|0.008
92278909|NCT00094302|184460796|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.82|TWO_SIDED|95.0|0.67|1.38||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|Composite endpoint was compared by trial arm using logrank test of time to first event from time of randomization. Time to event was the time at which the first observed event component of the composite endpoint was observed. Component endpoints were adjudicated by the TOPCAT clinical endpoints committee. There were 58 subjects in the Spironolactone group and 60 subjects in Placebo group with a confirmed event. Subjects who did not experience this endpoint were censored at time of last contact.||1.38|0.67|0.82
92280557|NCT00601484|184463654|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-10.99|STANDARD_ERROR_OF_MEAN|6.718|||TWO_SIDED|90.0|-22.25|0.277||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.277|-22.250|
92169953|NCT00567489|184228566|SUPERIORITY||Mean Difference (Final Values)|-56.5||||0.655|TWO_SIDED|95.0|-304.6|191.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 3||191.7|-304.6|0.655
92235739|NCT03114969|184374769|SUPERIORITY||Odds Ratio (OR)|1.812||||0.082|TWO_SIDED|95.0|0.926|3.544||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||3.544|0.926|0.082
92169954|NCT00567489|184228566|SUPERIORITY||Mean Difference (Final Values)|-29.2||||0.811|TWO_SIDED|95.0|-268.9|210.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 6||210.5|-268.9|0.811
92169955|NCT00567489|184228566|SUPERIORITY||Mean Difference (Final Values)|441.3||||0.419|TWO_SIDED|95.0|-630.4|1513.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 3||1513.1|-630.4|0.419
92169956|NCT00567489|184228566|SUPERIORITY||Mean Difference (Final Values)|121.8||||0.82|TWO_SIDED|95.0|-927.9|1171.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 6||1171.5|-927.9|0.820
92169957|NCT00567489|184228567|SUPERIORITY||Mean Difference (Final Values)|-4.2||||0.721|TWO_SIDED|95.0|-27.5|19.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 3||19|-27.5|0.721
92169958|NCT00567489|184228567|SUPERIORITY||Mean Difference (Final Values)|13.5||||0.247|TWO_SIDED|95.0|-9.4|36.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 6||36.4|-9.4|0.247
92169959|NCT00567489|184228568|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.624|TWO_SIDED|95.0|0.55|1.43|||ANOVA|||Estimates of Ratio-Month 6||1.43|0.55|0.624
92169960|NCT00567489|184228569|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.338|TWO_SIDED|95.0|-0.6|1.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 3||1.8|-0.6|0.338
92169961|NCT00567489|184228569|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.029|TWO_SIDED|95.0|0.1|2.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 6||2.5|0.1|0.029
92169962|NCT00567489|184228569|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.817|TWO_SIDED|95.0|-1.9|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 3||1.5|-1.9|0.817
92169963|NCT00567489|184228569|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.091|TWO_SIDED|95.0|-0.2|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 6||2.9|-0.2|0.091
92235740|NCT03114969|184374769|SUPERIORITY||Odds Ratio (OR)|3.84|||<|0.001|TWO_SIDED|95.0|2.135|6.905||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||6.905|2.135|<0.001
92169964|NCT00567489|184228570|SUPERIORITY||Mean Difference (Final Values)|-10.2||||0.127|TWO_SIDED|95.0|-23.3|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 3||2.9|-23.3|0.127
92235741|NCT03114969|184374769|SUPERIORITY||Odds Ratio (OR)|3.231|||<|0.001|TWO_SIDED|95.0|1.81|5.766||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.766|1.810|<0.001
92235742|NCT03114969|184374770|SUPERIORITY||Odds Ratio (OR)|1.931||||0.12|TWO_SIDED|95.0|0.842|4.428||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||4.428|0.842|0.120
92169965|NCT00567489|184228570|SUPERIORITY||Mean Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-16.4|-4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 6||-4.3|-16.4|<0.001
92278910|NCT00094302|184460797|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.76|TWO_SIDED|95.0|0.64|1.83||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 56 subjects (29 in the Spironolactone group and 27 in the Placebo group) with confirmed events."||1.83|0.64|0.76
92390611|NCT00286429|184680735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.477||||0.001|TWO_SIDED|95.0|0.188|0.765||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.765|0.188|0.001
92390612|NCT00286429|184680736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.202||||0.236|TWO_SIDED|95.0|-0.132|0.536||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-Peptide at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.536|-0.132|0.236
92390613|NCT00286429|184680736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.372||||0.032|TWO_SIDED|95.0|0.032|0.712||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-Peptide at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.712|0.032|0.032
92390614|NCT00286429|184680737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126||||0.562|TWO_SIDED|95.0|-0.302|0.554||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.554|-0.302|0.562
92390615|NCT00286429|184680737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183||||0.407|TWO_SIDED|95.0|-0.251|0.616||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.616|-0.251|0.407
92390616|NCT00286429|184680738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078||||0.716|TWO_SIDED|95.0|-0.344|0.5||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 16. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.500|-0.344|0.716
92390617|NCT00286429|184680738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156||||0.474|TWO_SIDED|95.0|-0.272|0.583||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 16. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.583|-0.272|0.474
92390618|NCT00286429|184680739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079||||0.7|TWO_SIDED|95.0|-0.324|0.482||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.482|-0.324|0.700
92280558|NCT00601484|184463654|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.43|STANDARD_ERROR_OF_MEAN|8.66|||TWO_SIDED|90.0|-23.001|6.132||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||6.132|-23.001|
92169966|NCT00567489|184228570|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.012|TWO_SIDED|95.0|-0.4|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 3||-0.1|-0.4|0.012
92169967|NCT00567489|184228570|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.001|TWO_SIDED|95.0|-0.3|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 6||-0.1|-0.3|<0.001
92280559|NCT00601484|184463654|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.14|STANDARD_ERROR_OF_MEAN|9.737|||TWO_SIDED|90.0|-24.602|8.327||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||8.327|-24.602|
92390619|NCT00286429|184680739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042||||0.839|TWO_SIDED|95.0|-0.366|0.45||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.450|-0.366|0.839
92390620|NCT00286429|184680740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.282||||0.091|TWO_SIDED|95.0|-0.045|0.61||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.610|-0.045|0.091
92390621|NCT00286429|184680740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125||||0.459|TWO_SIDED|95.0|-0.207|0.457||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.457|-0.207|0.459
92390622|NCT00286429|184680742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.65||||0.016|TWO_SIDED|95.0|1.589|100.682||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c ≤7.0%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||100.682|1.589|0.016
92390623|NCT00286429|184680742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.255||||0.023|TWO_SIDED|95.0|1.401|90.379||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c ≤7.0%. The treatment effect was evaluated as a contrast of each active dose versus placebo was evaluated inferentially with a Wald test at the 0.05 significance level||90.379|1.401|0.023
92390624|NCT00286429|184680743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.777|||<|0.001|TWO_SIDED|95.0|2.047|16.305||No multiplicity adjustments.|ANCOVA|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c ≤7.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||16.305|2.047|<0.001
92390625|NCT00286429|184680743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.784|||<|0.001|TWO_SIDED|95.0|3.54|27.039||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c ≤7.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||27.039|3.540|<0.001
92169968|NCT00567489|184228571|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.019|TWO_SIDED|95.0|0.5|5.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 3||5.8|0.5|0.019
92169969|NCT00567489|184228571|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.019|TWO_SIDED|95.0|0.5|5.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 6||5.6|0.5|0.019
92169970|NCT00567489|184228572|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.884|TWO_SIDED|95.0|-3.9|3.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 3||3.4|-3.9|0.884
92169971|NCT00567489|184228572|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.716|TWO_SIDED|95.0|-3.0|4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 6||4.3|-3|0.716
92169972|NCT00567489|184228573|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.961|TWO_SIDED|95.0|-1.2|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 3||1.1|-1.2|0.961
92390626|NCT00286429|184680744|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.674|||<|0.001|TWO_SIDED|95.0|1.579|4.53||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥0.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||4.530|1.579|<0.001
92390627|NCT00286429|184680744|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.819|||<|0.001|TWO_SIDED|95.0|1.653|4.808||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥0.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||4.808|1.653|<0.001
92390628|NCT00286429|184680745|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.163|||<|0.001|TWO_SIDED|95.0|1.651|6.06||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥1.0%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||6.060|1.651|<0.001
92418975|NCT04193410|184725968|OTHER|||||||0.053|||||||Mixed Models Analysis|||Linear mixed model analyses were used to assess longitudinal intervention effects on children's PA score. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. This analysis reports T1-T0.||||0.053
92418976|NCT04193410|184725968|OTHER|||||||0.209|||||||Mixed Models Analysis|||Linear mixed model analyses were used to assess longitudinal intervention effects on children's PA score. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. This analysis reports T2-T0.||||0.209
92418977|NCT04193410|184725969|OTHER|||||||0.003|||||||Mixed Models Analysis|||Linear mixed model analyses were used to assess longitudinal intervention effects on children's waist circumference. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. This analysis reports T1-T0.||||0.003
92418978|NCT04193410|184725969|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Linear mixed model analyses were used to assess longitudinal intervention effects on children's waist circumference. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. This analysis reports T2-T0.||||<0.001
92418979|NCT04193410|184725970|OTHER|||||||0.815|||||||Mixed Models Analysis|||Linear mixed model analyses were used to assess longitudinal intervention effects on children's dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. This analysis reports T1-T0.||||0.815
92235743|NCT03114969|184374770|SUPERIORITY||Odds Ratio (OR)|1.636||||0.232|TWO_SIDED|95.0|0.73|3.664||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||3.664|0.730|0.232
92235744|NCT03114969|184374771|SUPERIORITY||Odds Ratio (OR)|4.217|||<|0.001|TWO_SIDED|95.0|2.019|8.807||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||8.807|2.019|<0.001
92418980|NCT04193410|184725970|OTHER|||||||0.418|||||||Mixed Models Analysis|||Linear mixed model analyses were used to assess longitudinal intervention effects on children's dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. This analysis reports T2-T0.||||0.418
92235745|NCT03114969|184374771|SUPERIORITY||Odds Ratio (OR)|5.41|||<|0.001|TWO_SIDED|95.0|2.66|11.005||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||11.005|2.660|<0.001
92418981|NCT04193410|184725971|OTHER|||||||0.307|||||||Mixed Models Analysis|||Linear mixed model analyses were used to assess longitudinal intervention effects on children's dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. This analysis reports T1-T0.||||0.307
92418982|NCT04193410|184725971|OTHER|||||||0.263|||||||Mixed Models Analysis|||Linear mixed model analyses were used to assess longitudinal intervention effects on children's dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. This analysis reports T2-T0.||||0.263
92169973|NCT00567489|184228573|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.581|TWO_SIDED|95.0|-0.8|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 6||1.5|-0.8|0.581
92418983|NCT04193410|184725972|OTHER|||||||0.249|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T1-T0.||||0.249
92418984|NCT04193410|184725972|OTHER|||||||0.803|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T2-T0.||||0.803
92418985|NCT04193410|184725973|OTHER|||||||0.073|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T1-T0.||||0.073
92235746|NCT03114969|184374772|SUPERIORITY||Odds Ratio (OR)|2.477||||0.007|TWO_SIDED|95.0|1.274|4.815||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||4.815|1.274|0.007
92235747|NCT03114969|184374772|SUPERIORITY||Odds Ratio (OR)|2.748||||0.006|TWO_SIDED|95.0|1.328|5.683||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.683|1.328|0.006
92169974|NCT00567489|184228574|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.871|TWO_SIDED|95.0|-3.7|3.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Waist Circumference-Month 6||3.1|-3.7|0.871
92390629|NCT00286429|184680745|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.989|||<|0.001|TWO_SIDED|95.0|2.083|7.64||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥1.0%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||7.640|2.083|<0.001
92390630|NCT00286429|184680746|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.55||||0.002|TWO_SIDED|95.0|1.732|11.953||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥1.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||11.953|1.732|0.002
92390631|NCT00286429|184680746|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.58||||0.002|TWO_SIDED|95.0|1.74|12.052||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥1.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||12.052|1.740|0.002
92390632|NCT00286429|184680748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.291|TWO_SIDED|95.0|-0.81|0.24||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.24|-0.81|0.291
92390633|NCT00286429|184680748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.439|TWO_SIDED|95.0|-0.74|0.32||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.32|-0.74|0.439
92390634|NCT00286429|184680749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.841|TWO_SIDED|95.0|-0.67|0.55||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.55|-0.67|0.841
92418986|NCT04193410|184725973|OTHER|||||||0.658|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T2-T0.||||0.658
92235748|NCT03114969|184374772|SUPERIORITY||Odds Ratio (OR)|3.896|||<|0.001|TWO_SIDED|95.0|2.133|7.118||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||7.118|2.133|<0.001
92235749|NCT03114969|184374772|SUPERIORITY||Odds Ratio (OR)|4.777|||<|0.001|TWO_SIDED|95.0|2.508|9.1||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||9.100|2.508|<0.001
92235750|NCT03114969|184374773|SUPERIORITY||Odds Ratio (OR)|7.347||||0.176|TWO_SIDED|95.0|0.408|132.143||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||132.143|0.408|0.176
92235751|NCT03114969|184374773|SUPERIORITY||Odds Ratio (OR)|9.3||||0.128|TWO_SIDED|95.0|0.526|164.465||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||164.465|0.526|0.128
92169975|NCT00567489|184228575|SUPERIORITY||Mean Difference (Final Values)|5.2||||0.608|TWO_SIDED|95.0|-14.7|25.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 3||25|-14.7|0.608
92169976|NCT00567489|184228575|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.731|TWO_SIDED|95.0|-11.5|8.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 6||8.1|-11.5|0.731
92169977|NCT00567489|184228575|SUPERIORITY||Mean Difference (Final Values)|185.3||||0.377|TWO_SIDED|95.0|-227.5|598.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 3||598.1|-227.5|0.377
92169978|NCT00567489|184228575|SUPERIORITY||Mean Difference (Final Values)|-18.3||||0.854|TWO_SIDED|95.0|-214.4|177.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 6||177.8|-214.4|0.854
92169979|NCT00567489|184228576|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.412|TWO_SIDED|95.0|-0.03|0.07|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 3||0.07|-0.03|0.412
92169980|NCT00567489|184228576|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.485|TWO_SIDED|95.0|-0.07|0.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 6||0.03|-0.07|0.485
92169981|NCT00567489|184228577|SUPERIORITY||Mean Difference (Final Values)|2.18||||0.525|TWO_SIDED|95.0|-4.56|8.93|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 3||8.93|-4.56|0.525
92169982|NCT00567489|184228577|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.995|TWO_SIDED|95.0|-6.79|6.83|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 6||6.83|-6.79|0.995
92169983|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|-1.87||||0.526|TWO_SIDED|95.0|-7.64|3.91|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 3||3.91|-7.64|0.526
92235752|NCT03114969|184374773|SUPERIORITY||Odds Ratio (OR)|20.454||||0.038|TWO_SIDED|95.0|1.19|351.613||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||351.613|1.190|0.038
92235753|NCT03114969|184374773|SUPERIORITY||Odds Ratio (OR)|18.776||||0.041|TWO_SIDED|95.0|1.131|311.669||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||311.669|1.131|0.041
92235754|NCT03114969|184374773|SUPERIORITY||Odds Ratio (OR)|8.873||||0.141|TWO_SIDED|95.0|0.484|162.775||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||162.775|0.484|0.141
92235755|NCT03114969|184374773|SUPERIORITY||Odds Ratio (OR)|10.215||||0.126|TWO_SIDED|95.0|0.519|200.904||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||200.904|0.519|0.126
92235756|NCT03114969|184374773|SUPERIORITY||Odds Ratio (OR)|13.717||||0.082|TWO_SIDED|95.0|0.715|263.125||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||263.125|0.715|0.082
92235757|NCT03114969|184374773|SUPERIORITY||Odds Ratio (OR)|28.283||||0.024|TWO_SIDED|95.0|1.561|512.532||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||512.532|1.561|0.024
92235758|NCT03114969|184374773|SUPERIORITY||Odds Ratio (OR)|21.736||||0.038|TWO_SIDED|95.0|1.183|399.541||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||399.541|1.183|0.038
92235759|NCT03114969|184374773|SUPERIORITY||Odds Ratio (OR)|7.603||||0.188|TWO_SIDED|95.0|0.371|155.763||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||155.763|0.371|0.188
92235760|NCT03114969|184374774|SUPERIORITY||Odds Ratio (OR)|7.781||||0.147|TWO_SIDED|95.0|0.488|124.117||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||124.117|0.488|0.147
92280560|NCT00601484|184463654|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.45|STANDARD_ERROR_OF_MEAN|7.406|||TWO_SIDED|90.0|-13.948|11.04||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||11.040|-13.948|
92418987|NCT04193410|184725974|OTHER|||||||0.742|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T1-T0.||||0.742
92418988|NCT04193410|184725974|OTHER|||||||0.37|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T2-T0.||||0.370
92169984|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.779|TWO_SIDED|95.0|-5.01|6.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 6||6.68|-5.01|0.779
92169985|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|-2.95||||0.246|TWO_SIDED|95.0|-7.95|2.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 3||2.04|-7.95|0.246
92169986|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.78|TWO_SIDED|95.0|-5.78|4.34|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 6||4.34|-5.78|0.780
92169987|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.885|TWO_SIDED|95.0|-5.22|6.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 3||6.04|-5.22|0.885
92169988|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|4.41||||0.128|TWO_SIDED|95.0|-1.28|10.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 6||10.10|-1.28|0.128
92169989|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|1.07||||0.701|TWO_SIDED|95.0|-4.4|6.54|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 3||6.54|-4.40|0.701
92169990|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|7.21||||0.01|TWO_SIDED|95.0|1.7|12.73|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 6||12.73|1.70|0.010
92169991|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.934|TWO_SIDED|95.0|-4.63|5.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 3||5.03|-4.63|0.934
92169992|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|3.13||||0.209|TWO_SIDED|95.0|-1.75|8.01|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 6||8.01|-1.75|0.209
92169993|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.585|TWO_SIDED|95.0|-4.9|8.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 3||8.68|-4.90|0.585
92169994|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|1.62||||0.641|TWO_SIDED|95.0|-5.22|8.47|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 6||8.47|-5.22|0.641
92169995|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.586|TWO_SIDED|95.0|-6.89|3.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 3||3.90|-6.89|0.586
92169996|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.906|TWO_SIDED|95.0|-5.79|5.14|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 6||5.14|-5.79|0.906
92390635|NCT00286429|184680749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.556|TWO_SIDED|95.0|-0.8|0.43||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.43|-0.80|0.556
92390636|NCT00286429|184680750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.586|TWO_SIDED|95.0|-0.81|0.46||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.46|-0.81|0.586
92390637|NCT00286429|184680750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.404|TWO_SIDED|95.0|-0.91|0.37||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.37|-0.91|0.404
92390638|NCT00286429|184680751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.874|TWO_SIDED|95.0|-0.62|0.72||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.72|-0.62|0.874
92390639|NCT00286429|184680751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.948|TWO_SIDED|95.0|-0.7|0.65||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.65|-0.70|0.948
92418989|NCT04193410|184725975|OTHER|||||||0.483|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T1-T0.||||0.483
92418990|NCT04193410|184725975|OTHER|||||||0.626|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T2-T0.||||0.626
92390640|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for each serotype 1, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 1 GMC Ratio|0.96|||||TWO_SIDED|95.0|0.88|1.05||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.05|0.88|
92390641|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 5, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 5 GMC Ratio|0.75|||||TWO_SIDED|95.0|0.69|0.81||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.81|0.69|
92390642|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6A, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6A GMC Ratio|1.1|||||TWO_SIDED|95.0|0.96|1.26||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.26|0.96|
92418991|NCT04193410|184725976|OTHER|||||||0.771|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T1-T0.||||0.771
92418992|NCT04193410|184725976|OTHER|||||||0.861|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T1-T0.||||0.861
92418993|NCT04193410|184725977|OTHER|||||||0.766|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T1-T0.||||0.766
92418994|NCT04193410|184725977|OTHER|||||||0.995|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T2-T0.||||0.995
92418995|NCT04193410|184725978|OTHER|||||||0.437|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T1-T0.||||0.437
92418996|NCT04193410|184725978|OTHER|||||||0.798|||||||Mixed Models Analysis|||Logistic mixed model analyses were used to assess longitudinal intervention effects on children's binary dietary behaviours. A two-level model with measurements as first level and participants as second level was used. The model's fixed part consisted of group (medium/low implementers), time (T0/T1/T2), interaction term of group with time, and covariates sex (boy/girl), study year at baseline (four/five/six), SES (low/middle/high), and children's BMI z-score at baseline. Analysis reports T1-T0.||||0.798
92418997|NCT00773838|184725993|OTHER|||||||0.419|||||||Exact Test for Binomial Parameter|||||||0.419
92418998|NCT02522871|184726010|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|-0.132|||<|0.0001|ONE_SIDED|95.0||-0.049|||one-sided Farrington and Manning|||||-0.049||<0.0001
92418999|NCT02522871|184726010|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|-0.145|||<|0.0001|ONE_SIDED|95.0||-0.062|||one-sided Farrington and Manning|||||-0.062||<0.0001
92419000|NCT02522871|184726011|NON_INFERIORITY|non-inferiority margin of 1.0|Mean Difference (Final Values)|-0.03|||<|0.0001|TWO_SIDED|95.0|-0.084|0.025|||t-test, 1 sided|||||0.025|-0.084|<0.0001
92419001|NCT02522871|184726012|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|0.0||||0.0004|ONE_SIDED|95.0||0.036|||one-sided Farrington and Manning|||||0.036||0.0004
92419002|NCT02522871|184726012|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|0.0||||0.0004|ONE_SIDED|95.0||0.036|||one-sided Farrington and Manning|||||0.036||0.0004
92419003|NCT02522871|184726013|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|-0.001||||0.0006|ONE_SIDED|95.0||0.038|||one-sided Farrington and Manning|||||0.038||0.0006
92419004|NCT02522871|184726013|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|-0.001||||0.0006|ONE_SIDED|95.0||0.038|||one-sided Farrington and Manning|||||0.038||0.0006
92419005|NCT03149848|184726030|OTHER||Ratio|0.786|||||TWO_SIDED|90.0|0.743|0.831||||||||0.831|0.743|
92419006|NCT03149848|184726031|OTHER||Ratio|0.825|||||TWO_SIDED|90.0|0.761|0.895||||||||0.895|0.761|
92419007|NCT03149848|184726032|OTHER||Ratio|0.738|||||TWO_SIDED|90.0|0.702|0.776||||||||0.776|0.702|
92419008|NCT03149848|184726035|OTHER||Ratio|1.272|||||TWO_SIDED|90.0|1.204|1.345||||||||1.345|1.204|
92419009|NCT01892722|184726084|SUPERIORITY||||||<|0.001|||||||Negative binomial regression model|||||||<0.001
92419010|NCT05217927|184726091|SUPERIORITY||Least square mean (LSM) Difference|-0.6|||=|0.022|TWO_SIDED|97.5|-1.22|-0.01|||Mixed Models Analysis|||Linear mixed effects model with repeated measures with the number of total migraine days per month in the OP as a covariate; treatment group, randomization stratum (use of previous prophylactic migraine medication generally considered to have efficacy), month and month-by-treatment group interaction as fixed effects.||-0.01|-1.22|=0.0220
92419011|NCT05217927|184726091|SUPERIORITY||LSM Difference|-1.8|||<|0.0001|TWO_SIDED|97.5|-2.35|-1.19|||Mixed Models Analysis|||Linear mixed effects model with repeated measures with the number of total migraine days per month in the OP as a covariate; treatment group, randomization stratum (use of previous prophylactic migraine medication generally considered to have efficacy), month and month-by-treatment group interaction as fixed effects.||-1.19|-2.35|<0.0001
92419012|NCT05217927|184726092|SUPERIORITY||Difference in percentage|7.4|||=|0.0966|TWO_SIDED|97.5|-2.6|17.4|||Mantel Haenszel|||Mantel-Haenszel risk estimation was used.||17.4|-2.6|=0.0966
92419013|NCT05217927|184726092|SUPERIORITY||Difference in percentage|24.7|||<|0.0001|TWO_SIDED|97.5|14.6|34.8|||Mantel Haenszel|||Mantel-Haenszel risk estimation was used.||34.8|14.6|<0.0001
92419014|NCT05217927|184726093|SUPERIORITY||LS Mean Difference|-0.2|||=|0.5314|TWO_SIDED|97.5|-0.95|0.54|||Mixed Models Analysis|||Linear mixed effects model with repeated measures with the number of total migraine days per month in the OP as a covariate; treatment group, randomization stratum (use of previous prophylactic migraine medication generally considered to have efficacy) month and month-by-treatment group interaction as fixed effects.||0.54|-0.95|=0.5314
92390643|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6B, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6B GMC Ratio|1.41|||||TWO_SIDED|95.0|1.18|1.69||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.69|1.18|
92390644|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 7F, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 7F GMC Ratio|1.09|||||TWO_SIDED|95.0|0.99|1.2||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.20|0.99|
92390645|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 9V, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 9V GMC Ratio|1.08|||||TWO_SIDED|95.0|0.98|1.18||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.18|0.98|
92419015|NCT05217927|184726093|SUPERIORITY||LS Mean Difference|-1.4|||<|0.0001|TWO_SIDED|97.5|-2.12|-0.71|||Mixed Models Analysis|||Linear mixed effects model with repeated measures with the number of total migraine days per month in the OP as a covariate; treatment group, randomization stratum (use of previous prophylactic migraine medication generally considered to have efficacy) month and month-by-treatment group interaction as fixed effects.||-0.71|-2.12|<0.0001
92169997|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.97|TWO_SIDED|95.0|-4.93|4.75|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 3||4.75|-4.93|0.970
92235761|NCT03114969|184374774|SUPERIORITY||Odds Ratio (OR)|9.786||||0.12|TWO_SIDED|95.0|0.553|173.301||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||173.301|0.553|0.120
92419016|NCT05217927|184726094|SUPERIORITY||LS Mean Difference|-1.2|||=|0.0002|TWO_SIDED|97.5|-1.84|-0.47|||Mixed Models Analysis|||Linear mixed effects model with repeated measures with the number of total migraine days per month in the OP as a covariate; treatment group, randomization stratum (use of previous prophylactic migraine medication generally considered to have efficacy) month and month-by-treatment group interaction as fixed effects.||-0.47|-1.84|=0.0002
92419017|NCT05217927|184726094|SUPERIORITY||LS Mean Difference|-2.1|||<|0.0001|TWO_SIDED|97.5|-2.78|-1.46|||Mixed Models Analysis|||Linear mixed effects model with repeated measures with the number of total migraine days per month in the OP as a covariate; treatment group, randomization stratum (use of previous prophylactic migraine medication generally considered to have efficacy) month and month-by-treatment group interaction as fixed effects.||-1.46|-2.78|<0.0001
92419018|NCT05217927|184726095|SUPERIORITY||LS Mean Difference|-0.5|||=|0.144|TWO_SIDED|97.5|-1.2|0.25|||Mixed Models Analysis|||Linear mixed effects model with repeated measures has treatment group, randomization stratum, month, and month-by-treatment group interaction as fixed effects.||0.25|-1.20|=0.1440
92419019|NCT05217927|184726095|SUPERIORITY||LS Mean Difference|-1.3|||<|0.0001|TWO_SIDED|97.5|-1.97|-0.65|||Mixed Models Analysis|||Linear mixed effects model with repeated measures has treatment group, randomization stratum, month, and month-by-treatment group interaction as fixed effects.||-0.65|-1.97|<0.0001
92419020|NCT05217927|184726096|SUPERIORITY||LS Mean Difference|2.4|||=|0.2029|TWO_SIDED|97.5|-1.84|6.66|||Regression, Linear|||Linear regression model with treatment group and randomization stratum as fixed effects and baseline score as covariate for participants with non-missing domain scores at both baseline and Week 12.||6.66|-1.84|=0.2029
92390646|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 14, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 14 GMC Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.07||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.07|0.81|
92390647|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19A, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19A GMC Ratio|0.93|||||TWO_SIDED|95.0|0.83|1.04||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.04|0.83|
92419021|NCT05217927|184726096|SUPERIORITY||LS Mean Difference|10.1|||<|0.0001|TWO_SIDED|97.5|5.71|14.52|||Regression, Linear|||Linear regression model with treatment group and randomization stratum as fixed effects and baseline score as covariate for participants with non-missing domain scores at both baseline and Week 12.||14.52|5.71|<0.0001
92419022|NCT03560739|184726121|EQUIVALENCE|For reference-scaled average bioequivalence testing, both criteria have to be met: 1) geo-mean ratio needs to fall in \[0.8, 1.25\]; 2) 95% upper bound of the linearized criterion needs to be \<= 0. This part is regarding criterion 1.|Geo-mean ratio|1.03|||||TWO_SIDED|90.0|0.8|1.25|||||The confidence interval reported in the Point Estimate section below is the one from the criterion, not the estimated confidence interval.|Criteria 1 for bioequivalence testing of AUCtau||1.25|.8|
92169998|NCT00567489|184228578|SUPERIORITY||Mean Difference (Final Values)|2.38||||0.34|TWO_SIDED|95.0|-2.52|7.28|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 6||7.28|-2.52|0.340
92169999|NCT00567489|184228579|SUPERIORITY||Mean Difference (Final Values)|24.6||||0.495|TWO_SIDED|95.0|-46.9|96.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Subcutaneous Fat Volume-Month 6||96|-46.9|0.495
92235762|NCT03114969|184374775|SUPERIORITY||Odds Ratio (OR)|2.089||||0.395|TWO_SIDED|95.0|0.383|11.389||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||11.389|0.383|0.395
92390648|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19F, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19F GMC Ratio|0.84|||||TWO_SIDED|95.0|0.76|0.92||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.92|0.76|
92390649|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 23F, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 23F GMC Ratio|1.02|||||TWO_SIDED|95.0|0.91|1.15||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.15|0.91|
92390650|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 1, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 1 GMC Ratio|0.89|||||TWO_SIDED|95.0|0.82|0.97||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.97|0.82|
92390651|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 5, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 5 GMC Ratio|0.73|||||TWO_SIDED|95.0|0.67|0.8||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2||0.80|0.67|
92390652|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6A, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6A GMC Ratio|1.04|||||TWO_SIDED|95.0|0.91|1.2||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2||1.20|0.91|
92390653|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6B, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6B GMC Ratio|0.87|||||TWO_SIDED|95.0|0.74|1.04||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.04|0.74|
92390654|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 7F, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 7F GMC Ratio|0.75|||||TWO_SIDED|95.0|0.68|0.83||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.83|0.68|
92390655|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 9V, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 9V GMC Ratio|0.88|||||TWO_SIDED|95.0|0.8|0.97||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.97|0.80|
92390656|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 14, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 14 GMC Ratio|0.95|||||TWO_SIDED|95.0|0.83|1.09||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.09|0.83|
92390657|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19A, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19A GMC Ratio|0.88|||||TWO_SIDED|95.0|0.79|0.98||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.98|0.79|
92390658|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19F, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19F GMC Ratio|1.08|||||TWO_SIDED|95.0|0.97|1.2||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.20|0.97|
92390659|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 24F, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 23F GMC Ratio|1.03|||||TWO_SIDED|95.0|0.92|1.15||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.15|0.92|
92235763|NCT03114969|184374775|SUPERIORITY||Odds Ratio (OR)|3.25||||0.166|TWO_SIDED|95.0|0.612|17.244||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||17.244|0.612|0.166
92390660|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 1, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 1 GMC Ratio|0.93|||||TWO_SIDED|95.0|0.85|1.01||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.01|0.85|
92390661|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 5, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 5 GMC Ratio|0.98|||||TWO_SIDED|95.0|0.9|1.07||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.07|0.90|
92390662|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6A, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6A GMC Ratio|0.95|||||TWO_SIDED|95.0|0.82|1.09||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.09|0.82|
92390663|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6B, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6B GMC Ratio|0.62|||||TWO_SIDED|95.0|0.52|0.74||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.74|0.52|
92390664|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 7F, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 7F GMC Ratio|0.69|||||TWO_SIDED|95.0|0.62|0.76||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.76|0.62|
92390665|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 9V, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 9V GMC Ratio|0.82|||||TWO_SIDED|95.0|0.74|0.9||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.90|0.74|
92419023|NCT03560739|184726121|EQUIVALENCE|For reference-scaled average bioequivalence testing, both criteria have to be met: 1) geo-mean ratio needs to fall in \[0.8, 1.25\]; 2) 95% upper bound of the linearized criterion needs to be \<= 0. This part is regarding criterion 2.|95% upper bound of the linearized criter|-0.3131|||||ONE_SIDED|95.0||0.0|||||The upper limit reported in the Point Estimate section below is the limit on the 95% upper bound from the criterion, not the estimated upper limit of the 95% upper bound of the linearized criterion|Criteria 2 for bioequivalence testing of AUCtau||0||
92170000|NCT00567489|184228579|SUPERIORITY||Mean Difference (Final Values)|55.4||||0.081|TWO_SIDED|95.0|-7.0|117.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Visceral Fat Volume-Month 6||117.8|-7|0.081
92390666|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 14, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 14 GMC Ratio|1.02|||||TWO_SIDED|95.0|0.89|1.17||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.17|0.89|
92390667|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19A, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19A GMC Ratio|0.95|||||TWO_SIDED|95.0|0.85|1.06||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.06|0.85|
92390668|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19F, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19F GMC Ratio|1.29|||||TWO_SIDED|95.0|1.16|1.44||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.44|1.16|
92419024|NCT03560739|184726122|EQUIVALENCE|For reference-scaled average bioequivalence testing, both criteria have to be met: 1) geo-mean ratio needs to fall in \[0.8, 1.25\]; 2) 95% upper bound of the linearized criterion needs to be \<= 0. This part is regarding criterion 1.|geo-mean ratio|1.0|||||TWO_SIDED|90.0|0.8|1.25|||||The confidence interval reported in the Point Estimate section below is the one from the criterion, not the estimated confidence interval.|Criteria 1 for bioequivalence testing of Cmax||1.25|.8|
92390669|NCT03197376|184680753|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 23F, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 23F GMC Ratio|1.0|||||TWO_SIDED|95.0|0.89|1.13||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.13|0.89|
92390670|NCT03197376|184680754|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10%, for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 1|0.7|||||TWO_SIDED|97.5|0.0|1.9||||||||1.9|-0.0|
92390671|NCT03197376|184680754|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 5|2.8|||||TWO_SIDED|97.5|1.2|5.0||||||||5.0|1.2|
92390672|NCT03197376|184680754|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 6A|5.2|||||TWO_SIDED|97.5|1.1|9.5||||||Synflorix proportion of responders for serotype 6A was operationally defined as the lowest observed proportion of responders among the 8 serotypes in common with PNEUMOSIL||9.5|1.1|
92278911|NCT00094302|184460798|SUPERIORITY_OR_OTHER||Hazard Ratio, log|1.02||||0.94|TWO_SIDED|95.0|0.69|1.5||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 103 subjects (52 in the Spironolactone group and 51 in the Placebo group) with confirmed events."||1.50|0.69|0.94
92280561|NCT00601484|184463654|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.83|STANDARD_ERROR_OF_MEAN|9.352|||TWO_SIDED|90.0|-23.884|8.234||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||8.234|-23.884|
92390673|NCT03197376|184680754|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 6B|2.0|||||TWO_SIDED|97.5|-2.2|6.4||||||||6.4|-2.2|
92390674|NCT03197376|184680754|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 7F|1.0|||||TWO_SIDED|97.5|-0.1|2.7||||||||2.7|-0.1|
92390675|NCT03197376|184680754|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 9V|0.1|||||TWO_SIDED|97.5|-1.9|2.5||||||||2.5|-1.9|
92390676|NCT03197376|184680754|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 14|-0.3|||||TWO_SIDED|97.5|-1.4|1.0||||||||1.0|-1.4|
92390677|NCT03197376|184680754|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 19A|18.7|||||TWO_SIDED|97.5|15.1|22.5||||||Synflorix proportion of responders for serotype 19A was operationally defined as the lowest observed proportion of responders among the 8 serotypes in common with PNEUMOSIL||22.5|15.1|
92419025|NCT03560739|184726122|EQUIVALENCE|For reference-scaled average bioequivalence testing, both criteria have to be met: 1) geo-mean ratio needs to fall in \[0.8, 1.25\]; 2) 95% upper bound of the linearized criterion needs to be \<= 0. This part is regarding criterion 2.|95% upper bound of the linearized criter|-0.2446|||||ONE_SIDED|95.0||0.0|||||The upper limit reported in the Point Estimate section below is the limit on the 95% upper bound from the criterion, not the estimated upper limit of the 95% upper bound of the linearized criterion.|Criteria 2 for bioequivalence testing of Cmax||0||
92419026|NCT01362595|184726127|OTHER||||||||||||||||||Due to the small sample size, the statistical approach is primarily descriptive in nature.|||
92419027|NCT04243421|184726164|OTHER||Median Difference (Final Values)|6.0||||0.0007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0007
92419028|NCT04243421|184726165|OTHER||Median Difference (Final Values)|1.25||||0.0005|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0005
92419029|NCT04243421|184726165|OTHER||Median Difference (Final Values)|1.0||||0.0034|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0034
92419030|NCT04243421|184726166|OTHER|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
92419031|NCT02284178|184726167|SUPERIORITY|||||||0.432|||||||GEE analysis|||||||0.432
92419032|NCT02284178|184726168|SUPERIORITY|||||||0.684|||||||GEE|||||||0.684
92419033|NCT02284178|184726169|SUPERIORITY|||||||0.858|||||||Chi-squared|||||||0.858
92170001|NCT00567489|184228580|SUPERIORITY||Mean Difference (Final Values)|6.3||||0.626|TWO_SIDED|95.0|-19.3|31.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Diastolic Volume-Month 6||31.9|-19.3|0.626
92280562|NCT00601484|184463655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.064|||||TWO_SIDED|90.0|1.709|15.007||||||Week 6: Analysis was based on proportional odds analysis, to determine the odds ratio for the odds of responding (compared to not responding) on Tanezumab vs placebo.||15.007|1.709|
92419034|NCT02284178|184726171|SUPERIORITY|||||||0.46|||||||GEE analysis|||||||0.460
92419035|NCT02284178|184726172|SUPERIORITY|||||||0.214|||||||t-test, 2 sided|||||||0.214
92419036|NCT02284178|184726173|SUPERIORITY|||||||0.155|||||||t-test, 2 sided|||||||0.155
92419037|NCT02284178|184726174|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.050
92419038|NCT04123665|184726179|SUPERIORITY||Mean Difference (Net)|-0.07|||<|0.0001|TWO_SIDED|95.0|-0.11|-0.04|||ANCOVA|Analysis of Covariance (ANCOVA) with factors for treatment group and gender, and the baseline whole mouth mean BI and whole mouth MGI as covariates.|Difference is first named treatment (experimental) minus second named treatment (control).|||-0.04|-0.11|<0.0001
92419039|NCT00958789|184726218|NON_INFERIORITY|"For the primary efficacy hypothesis, H0, the total KSS change from preoperative to 2 years postoperative will be less than or equal to delta. The alternative hypothesis, Ha, will be that the total KSS change from preop to 2 years postoperative is greater than delta. When delta=63, the hypothesis will test for non-inferiority. When delta=70, the hypothesis will test for superiority.~H0: mean 2-year - mean preop less than or equal to delta. Ha: mean 2-year - mean preop greater than delta."|Mean Difference (Final Values)|70.7|||||ONE_SIDED|95.0|64.43||||||||||64.43|
92419040|NCT04190680|184726303|OTHER|||||||0.001|||||||Regression, Linear|A three-level linear mixed model analysis, with classes as third level, participants as second level, and measurements as first level, was used.||Statistical analysis at T1 (directly after the evaluation lesson).||||0.001
92419041|NCT04190680|184726303|OTHER|||||||0.31|||||||Regression, Linear|A three-level linear mixed model analysis, with classes as third level, participants as second level, and measurements as first level, was used.||Statistical analysis at T2 (three months after the evaluation lesson).||||0.31
92419042|NCT04190680|184726304|OTHER|||||||0.55|||||||Regression, Linear|A three-level linear mixed model analysis, with classes as third level, participants as second level, and measurements as first level, was used.||Statistical analysis at T1 (directly after evaluation lesson).||||0.55
92419043|NCT04190680|184726304|OTHER|||||||0.33|||||||Regression, Linear|A three-level linear mixed model analysis, with classes as third level, participants as second level, and measurements as first level, was used.||Statistical analysis at T2 (three months after evaluation lesson).||||0.33
92419044|NCT04190680|184726305|OTHER|||||||0.004|||||||Regression, Linear|A three-level linear mixed model analysis, with classes as third level, participants as second level, and measurements as first level, was used.||Statistical analysis at T1 (directly after evaluation lesson).||||0.004
92419045|NCT04190680|184726305|OTHER|||||||0.84|||||||Regression, Linear|A three-level linear mixed model analysis, with classes as third level, participants as second level, and measurements as first level, was used.||Statistical analysis at T2 (three months after evaluation lesson).||||0.84
92419046|NCT04190680|184726306|OTHER|||||||0.002|||||||Regression, Linear|A three-level linear mixed model analysis, with classes as third level, participants as second level, and measurements as first level, was used.||Statistical analysis at T1 (directly after evaluation lesson).||||0.002
92419047|NCT04190680|184726306|OTHER|||||||0.16|||||||Regression, Linear|A three-level linear mixed model analysis, with classes as third level, participants as second level, and measurements as first level, was used.||Statistical analysis at T2 (three months after evaluation lesson).||||0.16
92419048|NCT04190680|184726307|OTHER|||||||0.01|||||||Regression, Linear|A three-level linear mixed model analysis, with classes as third level, participants as second level, and measurements as first level, was used.||Statistical analysis at T1 (directly after evaluation lesson).||||0.01
92419049|NCT04190680|184726307|OTHER|||||||0.19|||||||Regression, Linear|A three-level linear mixed model analysis, with classes as third level, participants as second level, and measurements as first level, was used.||Statistical analysis at T2 (three months after evaluation lesson).||||0.19
92419050|NCT03780400|184726308|OTHER|test for within group change from baseline to 4 month follow-up||||||0.5145|||||||t-test, 2 sided|||||||0.5145
92419051|NCT03780400|184726309|OTHER|test for within group change from baseline to 4 month follow-up||||||0.3683|||||||t-test, 2 sided|||||||0.3683
92419052|NCT03780400|184726310|OTHER|test for within group change from baseline to 4 month follow-up||||||0.9858|||||||t-test, 2 sided|||||||0.9858
92419053|NCT03780400|184726311|OTHER|test for within group change from baseline to 4 month follow-up|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92419054|NCT03780400|184726312|OTHER|test for within group change from baseline to 4 month follow-up|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92419055|NCT01850602|184726313|NON_INFERIORITY|"Non-Inferiority margin: 1.0 mg/dL~Non-Inferiority was considerd to be confirmed if the upper limit of two-sided confidence interval became 1.0 mg/dL or less."|Mean Difference (Final Values)|-0.34||||0.02|TWO_SIDED|95.0|-0.63|-0.05|||ANCOVA|||||-0.05|-0.63|0.020
92419056|NCT00740051|184726323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.86|-0.29||No adjustment of p-values|ANCOVA|||Linagliptin versus Placebo||-0.29|-0.86|<0.0001
92419057|NCT00740051|184726324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.88|-0.32||No adjustment of p-values|ANCOVA|||Linagliptin versus Placebo. The primary analysis performed at the interim was re-run at the end of the study to accommodate changes made to the final study database.||-0.32|-0.88|<0.0001
92419058|NCT00740051|184726325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.5|STANDARD_ERROR_OF_MEAN|5.4||0.0002||95.0|-31.1|-9.9||No adjustment of p-values|ANCOVA|||Linagliptin versus Placebo||-9.9|-31.1|0.0002
92419059|NCT00740051|184726326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.576||||0.0374||95.0|1.057|6.279||No adjustment of p-values|Regression, Logistic|||Linagliptin versus Placebo||6.279|1.057|0.0374
92419060|NCT00740051|184726327|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.285||||0.1281||95.0|0.71|15.196||No adjustment of p-values|Regression, Logistic|||Linagliptin vs. Placebo||15.196|0.710|0.1281
92419061|NCT00740051|184726328|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.801||||0.0046||95.0|1.374|5.711||No adjustment of p-values|Regression, Logistic|||Linagliptin versus Placebo||5.711|1.374|0.0046
92419062|NCT02502006|184726369|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92419063|NCT02502006|184726370|SUPERIORITY|||||||0.0004|||||||ANOVA|||||||0.0004
92419064|NCT02502006|184726371|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92419065|NCT02502006|184726372|SUPERIORITY|||||||0.2217|||||||ANOVA|||||||0.2217
92419066|NCT02502006|184726373|SUPERIORITY|||||||0.77||||||Adjusted for multiple comparisons|ANOVA|||||||0.77
92419067|NCT02502006|184726373|SUPERIORITY|||||||0.18||||||Adjusted for multiple comparisons|ANOVA|||||||0.18
92419068|NCT02502006|184726374|SUPERIORITY|||||||0.57||||||Adjusted for multiple comparisons|ANOVA|||||||0.57
92419069|NCT02502006|184726374|SUPERIORITY|||||||0.07||||||Adjusted for multiple comparisons|ANOVA|||||||0.07
92419070|NCT02502006|184726375|SUPERIORITY|||||||0.88||||||Adjusted for multiple comparisons|ANOVA|||||||0.88
92419071|NCT02502006|184726375|SUPERIORITY||||||<|0.05||||||Adjusted for multiple comparisons|ANOVA|||||||<0.05
92419072|NCT02398227|184726376|SUPERIORITY|||||||0.968|||||||ANCOVA|p value reported for overall effect across all-time points between treatment arms||||||.968
92419073|NCT02398227|184726377|SUPERIORITY|||||||0.56|||||||ANCOVA|p value reported for overall effect across all-time points between treatment arms||||||.560
92419074|NCT04445792|184726426|SUPERIORITY|||||||0.7195|||||||Wilcoxon (Mann-Whitney)|||||||0.7195
92419075|NCT04445792|184726426|SUPERIORITY|||||||0.8054|||||||Wilcoxon (Mann-Whitney)|||||||0.8054
92419076|NCT04445792|184726426|SUPERIORITY|||||||0.861|||||||Wilcoxon (Mann-Whitney)|||||||0.861
92419077|NCT04445792|184726427|SUPERIORITY|||||||0.4385|||||||Wilcoxon (Mann-Whitney)|||||||0.4385
92419078|NCT04445792|184726427|SUPERIORITY|||||||0.7185|||||||Wilcoxon (Mann-Whitney)|||||||0.7185
92419079|NCT04445792|184726427|SUPERIORITY|||||||0.431|||||||Wilcoxon (Mann-Whitney)|||||||0.431
92419080|NCT04445792|184726428|SUPERIORITY|||||||0.9222|||||||Wilcoxon (Mann-Whitney)|||||||0.9222
92419081|NCT04445792|184726428|SUPERIORITY|||||||0.1918|||||||Wilcoxon (Mann-Whitney)|||||||0.1918
92419082|NCT04445792|184726428|SUPERIORITY|||||||0.0119|||||||Wilcoxon (Mann-Whitney)|||||||0.0119
92419083|NCT04445792|184726429|SUPERIORITY|||||||0.6971|||||||Wilcoxon (Mann-Whitney)|||||||0.6971
92419084|NCT04445792|184726429|SUPERIORITY|||||||0.2309|||||||Wilcoxon (Mann-Whitney)|||||||0.2309
92419085|NCT04445792|184726429|SUPERIORITY|||||||0.0441|||||||Wilcoxon (Mann-Whitney)|||||||0.0441
92419086|NCT04445792|184726430|SUPERIORITY|||||||0.7988|||||||Wilcoxon (Mann-Whitney)|||||||0.7988
92419087|NCT04445792|184726430|SUPERIORITY|||||||0.0483|||||||Wilcoxon (Mann-Whitney)|||||||0.0483
92390678|NCT03197376|184680754|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 19F|-0.8|||||TWO_SIDED|97.5|-1.9|0.5||||||||0.5|-1.9|
92390679|NCT03197376|184680754|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 23F|17.2|||||TWO_SIDED|97.5|13.6|21.1||||||||21.1|13.6|
92390680|NCT03197376|184680755|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 1 GMC Ratio|2.15|||||TWO_SIDED|97.5|2.0|2.32||||||||2.32|2.00|
92390681|NCT03197376|184680755|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 5 GMC Ratio|1.37|||||TWO_SIDED|97.5|1.28|1.47||||||||1.47|1.28|
92390682|NCT03197376|184680755|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 6A GMC Ratio|0.89|||||TWO_SIDED|97.5|0.78|1.01||||||Synflorix proportion of responders for serotype 6A was operationally defined as the lowest observed proportion of responders among the 8 serotypes in common with PNEUMOSIL||1.01|0.78|
92390683|NCT03197376|184680755|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 6B GMC Ratio|1.07|||||TWO_SIDED|97.5|0.93|1.24||||||||1.24|0.93|
92390684|NCT03197376|184680755|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 7F GMC Ratio|1.3|||||TWO_SIDED|97.5|1.19|1.41||||||||1.41|1.19|
92390685|NCT03197376|184680755|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 9V GMC Ratio|0.92|||||TWO_SIDED|97.5|0.85|1.0||||||||1.00|0.85|
92390686|NCT03197376|184680755|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 14 GMC Ratio|1.23|||||TWO_SIDED|97.5|1.1|1.37||||||||1.37|1.10|
92390687|NCT03197376|184680755|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 19A GMC Ratio|1.45|||||TWO_SIDED|97.5|1.3|1.63||||||Synflorix proportion of responders for serotype 19A was operationally defined as the lowest observed proportion of responders among the 8 serotypes in common with PNEUMOSIL||1.63|1.30|
92390688|NCT03197376|184680755|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 19F GMC Ratio|0.73|||||TWO_SIDED|97.5|0.67|0.8||||||||0.80|0.67|
92390689|NCT03197376|184680755|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 23F GMC Ratio|1.81|||||TWO_SIDED|97.5|1.63|2.01||||||||2.01|1.63|
92390690|NCT03197376|184680756|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for diphtheria|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
92390691|NCT03197376|184680756|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Tetanus|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
92390692|NCT03197376|184680756|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Hepatitis B|0.4|||||TWO_SIDED|95.0|-0.4|2.5||||||||2.5|-0.4|
92390693|NCT03197376|184680756|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Hib|-0.9|||||TWO_SIDED|95.0|-2.5|1.2||||||||1.2|-2.5|
92390694|NCT03197376|184680756|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Polio type 1|-0.2|||||TWO_SIDED|95.0|-1.3|1.5||||||||1.5|-1.3|
92390695|NCT03197376|184680756|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Polio type 2|2.8|||||TWO_SIDED|95.0|-3.2|9.3||||||||9.3|-3.2|
92390696|NCT03197376|184680756|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Polio type 3|-0.9|||||TWO_SIDED|95.0|-3.0|1.8||||||||1.8|-3.0|
92419088|NCT04445792|184726430|SUPERIORITY|||||||0.0104|||||||Wilcoxon (Mann-Whitney)|||||||0.0104
92419089|NCT04445792|184726431|SUPERIORITY|||||||0.521|||||||Wilcoxon (Mann-Whitney)|||||||0.521
92419090|NCT04445792|184726431|SUPERIORITY|||||||0.2348|||||||Wilcoxon (Mann-Whitney)|||||||0.2348
92419091|NCT04445792|184726431|SUPERIORITY|||||||0.0517|||||||Wilcoxon (Mann-Whitney)|||||||0.0517
92419092|NCT04445792|184726432|SUPERIORITY|||||||0.6835|||||||Wilcoxon (Mann-Whitney)|||||||0.6835
92419093|NCT04445792|184726432|SUPERIORITY|||||||0.0205|||||||Wilcoxon (Mann-Whitney)|||||||0.0205
92419094|NCT04445792|184726432|SUPERIORITY|||||||0.0036|||||||Wilcoxon (Mann-Whitney)|||||||0.0036
92419095|NCT04445792|184726433|SUPERIORITY|||||||0.5878|||||||Wilcoxon (Mann-Whitney)|||||||0.5878
92419096|NCT04445792|184726433|SUPERIORITY|||||||0.1051|||||||Wilcoxon (Mann-Whitney)|||||||0.1051
92419097|NCT04445792|184726433|SUPERIORITY|||||||0.0292|||||||Wilcoxon (Mann-Whitney)|||||||0.0292
92419098|NCT04445792|184726434|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92390697|NCT03197376|184680756|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Rotavirus|0.2|||||TWO_SIDED|95.0|-7.1|7.1||||||||7.1|-7.1|
92390698|NCT03197376|184680757|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI for the GMC ratio exceeded 0.5 (for pertussis antigens).|GMC Ratio for anti-pertussis toxoid|0.82|||||TWO_SIDED|95.0|0.62|1.09||||||||1.09|0.62|
92390699|NCT03197376|184680758|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI for the GMC ratio exceeded 0.5 (for pertussis antigens).|GMC Ratio for anti-fimbriae 2/3|0.98|||||TWO_SIDED|95.0|0.77|1.25||||||||1.25|0.77|
92390700|NCT03197376|184680765|SUPERIORITY|Proportions with IgG concentration ≥ 0.35 µg/mL will be compared using a z-test for proportions. The test will be done at the two-sided 2.5% significance level to adjust for the two superiority tests. 97.5% CIs for treatment-group differences in response, will also be reported|Difference for Type 6A|73.3|||||TWO_SIDED|97.5|69.8|76.3||||||||76.3|69.8|
92390701|NCT03197376|184680765|SUPERIORITY|Proportions with IgG concentration ≥ 0.35 µg/mL will be compared using a z-test for proportions. The test will be done at the two-sided 2.5% significance level to adjust for the two superiority tests. 97.5% CIs for treatment-group differences in response, will also be reported|Difference for Type 19A|54.7|||||TWO_SIDED|97.5|50.3|58.9||||||||58.9|50.3|
92390702|NCT03197376|184680766|SUPERIORITY|For each of the two serotypes, GMCs are compared by a two-sample t-test on the difference between means of log10 (antibody). The test was done at the two-sided 2.5% significance level to adjust for the two superiority tests. 97.5% CIs for treatment-group differences in response, are also be reported|Pn IgG type 6A GMC Ratio|8.51|||||TWO_SIDED|97.5|7.68|9.43||||||||9.43|7.68|
92390703|NCT03197376|184680766|SUPERIORITY|For each of the two serotypes, GMCs are compared by a two-sample t-test on the difference between means of log10 (antibody). The test was done at the two-sided 2.5% significance level to adjust for the two superiority tests. 97.5% CIs for treatment-group differences in response, are also be reported|Pn IgG type 19A GMC Ratio|5.64|||||TWO_SIDED|97.5|5.14|6.18||||||||6.18|5.14|
92390704|NCT03197376|184680767|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 1|17.2|||||TWO_SIDED|95.0|11.0|23.6||||||||23.6|11.0|
92390705|NCT03197376|184680767|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 5|2.8|||||TWO_SIDED|95.0|0.0|6.2||||||||6.2|-0.0|
92390706|NCT03197376|184680767|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 6A|82.2|||||TWO_SIDED|95.0|76.7|86.6||||||||86.6|76.7|
92390707|NCT03197376|184680767|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 6B|9.4|||||TWO_SIDED|95.0|4.5|14.6||||||||14.6|4.5|
92390708|NCT03197376|184680767|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 7F|0.4|||||TWO_SIDED|95.0|-1.1|2.2||||||||2.2|-1.1|
92390709|NCT03197376|184680767|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 9V|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
92390710|NCT03197376|184680767|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type14|-0.8|||||TWO_SIDED|95.0|-4.0|2.2||||||||2.2|-4.0|
92390711|NCT03197376|184680767|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 19A|53.3|||||TWO_SIDED|95.0|46.0|60.1||||||||60.1|46.0|
92390712|NCT03197376|184680767|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 19F|-1.6|||||TWO_SIDED|95.0|-4.9|1.2||||||||1.2|-4.9|
92390713|NCT03197376|184680767|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 23F|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
92390714|NCT03197376|184680768|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 1|3.09|||||TWO_SIDED|95.0|2.4|3.98||||||||3.98|2.40|
92390715|NCT03197376|184680768|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 5|1.39|||||TWO_SIDED|95.0|1.12|1.72||||||||1.72|1.12|
92390716|NCT03197376|184680768|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 6A|186.0|||||TWO_SIDED|95.0|144.0|241.0||||||||241|144|
92419099|NCT04445792|184726434|SUPERIORITY|||||||0.5973|||||||Chi-squared|||||||0.5973
92419100|NCT04445792|184726434|SUPERIORITY|||||||0.0046|||||||Chi-squared|||||||0.0046
92419101|NCT00472459|184726459|NON_INFERIORITY|Participant's number of new skin lesions between treated and contralateral control area were evaluated using a paired t-test for lesions of any type as well as stratified by lesion type.|Mean Difference (Final Values)|0.514||||0.012|TWO_SIDED|95.0|0.116|0.911|||t-test, 2 sided||The 95 % confidence intervals for the lesion complete response rates and lesion recurrence rates were estimated using the method of Clopper and Pearson.|||0.911|0.116|0.0120
92419102|NCT00472459|184726460|NON_INFERIORITY|Participant's number of new skin lesions between treated and contralateral control area were evaluated using a paired t-test for lesions of any type as well as stratified by lesion type.|Mean Difference (Final Values)|0.413||||0.1761|TWO_SIDED|95.0|-0.19|1.016|||t-test, 2 sided|||||1.016|-0.190|0.1761
92419103|NCT00472459|184726461|NON_INFERIORITY|Participant's number of new skin lesions between treated and contralateral control area were evaluated using a paired t-test for lesions of any type as well as stratified by lesion type.|Mean Difference (Final Values)|0.6||||0.1183|TWO_SIDED|95.0|-0.156|1.357|||t-test, 2 sided|||||1.357|-0.156|0.1183
92419104|NCT00472459|184726462|NON_INFERIORITY|Participant's number of new skin lesions between treated and contralateral control area were evaluated using a paired t-test for lesions of any type as well as stratified by lesion type.|Mean Difference (Final Values)|0.493||||0.2322|TWO_SIDED|95.0|-0.323|1.309|||t-test, 2 sided|||||1.309|-0.323|0.2322
92280563|NCT00601484|184463655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.722|||||TWO_SIDED|90.0|0.756|9.795||||||Week 16: Analysis was based on proportional odds analysis, to determine the odds ratio for the odds of responding (compared to not responding) on Tanezumab vs placebo.||9.795|0.756|
92390717|NCT03197376|184680768|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 6B|1.95|||||TWO_SIDED|95.0|1.42|2.69||||||||2.69|1.42|
92390718|NCT03197376|184680768|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 7F|1.16|||||TWO_SIDED|95.0|0.96|1.39||||||||1.39|0.96|
92390719|NCT03197376|184680768|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 9V|0.38|||||TWO_SIDED|95.0|0.29|0.49||||||||0.49|0.29|
92390720|NCT03197376|184680768|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 14|0.92|||||TWO_SIDED|95.0|0.67|1.27||||||||1.27|0.67|
92390721|NCT03197376|184680768|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 19A|13.4|||||TWO_SIDED|95.0|10.2|17.7||||||||17.7|10.2|
92390722|NCT03197376|184680768|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 19F|0.66|||||TWO_SIDED|95.0|0.54|0.81||||||||0.81|0.54|
92419105|NCT00472459|184726463|NON_INFERIORITY|Participant's number of new skin lesions between treated and contralateral control area were evaluated using a paired t-test for lesions of any type as well as stratified by lesion type.|Mean Difference (Final Values)|0.68||||0.1286|TWO_SIDED|95.0|-0.202|1.562|||t-test, 2 sided|||||1.562|-0.202|0.1286
92419106|NCT03228420|184726554|SUPERIORITY||||||<|0.001||||||2-sided alpha level of 0.05|Fisher Exact|||||||<0.001
92419107|NCT01083173|184726567|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||CD4 cell counts at 24 weeks as compared to baseline||||< 0.0001
92419108|NCT01083173|184726567|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||CD4 cell counts at 48 weeks as compared to baseline||||< 0.0001
92419109|NCT05454657|184726578|SUPERIORITY||Slope|-0.01|||<|0.05|TWO_SIDED|95.0|-0.015|-0.008|||Mixed Models Analysis||Cross-level interaction effect of Study Day X Treatment Group|To test the effect of HRVB vs control on negative affect, a multilevel model was estimated where study day predicted mean negative affect that same day (L1; within-person), while controlling for day-of-the-week. At Level 2 (between-person), treatment condition and sex were included as predictors of negative affect. The focal effects were the main effect of treatment condition (L2) and cross-level interactions between study day (L1) and treatment condition (L2) predicting daily negative affect.||-.008|-.015|<.05
92419110|NCT05454657|184726579|SUPERIORITY||Slope|0.01|||<|0.05|TWO_SIDED|95.0|-0.677|0.857|||Mixed Models Analysis||Cross-level interaction effect of Study Day X Treatment Group|To test the effect of HRVB vs. control on positive affect, a multilevel model was estimated where study day predicted mean positive affect that same day (L1; within-person), while controlling for day-of-the-week. At Level 2 (between-person), treatment condition and sex were included as predictors of positive affect. The focal effects were the main effect of treatment condition (L2) and cross-level interactions between study day (L1) and treatment condition (L2) predicting daily positive affect.||.857|-.677|<.05
92419111|NCT05454657|184726580|SUPERIORITY||Slope|-0.02|||<|0.05|TWO_SIDED|95.0|-0.026|-0.014|||Mixed Models Analysis||Cross-level interaction effect of Study Day X Treatment Group|To test the effect of HRVB vs. control on craving, a multilevel model was estimated where study day predicted mean craving that same day (L1; within-person), while controlling for day-of-the-week. At Level 2 (between-person), treatment condition and sex were included as predictors of craving. The focal effects were the main effect of treatment condition (L2) and cross-level interactions between study day (L1) and treatment condition (L2) predicting daily craving.||-.014|-.026|<.05
92419112|NCT05454657|184726581|SUPERIORITY||Odds Ratio (OR)|0.36|||<|0.05|TWO_SIDED|95.0|0.245|0.543||95% Bayesian Credible Intervals Intervals are used to determine significance, and significance is represented by credible intervals that do not include 0 or 1.00 when odds ratios are calculated.|Mixed Models Analysis||Main effect of treatment group|To test the effect of HRVB vs. control on AOD use A Bayesian logistic multilevel model was estimated where study day predicted AOD use that same day (L1; within-person), while controlling for day-of-the-week. At Level 2 (between-person), treatment condition and sex were included as predictors of AOD use. The focal effects were the main effect of treatment condition (L2) and cross-level interactions between study day (L1) and treatment condition (L2) predicting daily AOD use.||0.543|0.245|<0.05
92419113|NCT05454657|184726582|EQUIVALENCE|Two-sample t test with unequal variances|Mean Difference (Net)|-1.47|STANDARD_ERROR_OF_MEAN|3.33||0.66|TWO_SIDED|95.0|-8.07|5.13|||t-test, 2 sided|Unequal variances were specified as part of the model.||Two-sample t test with unequal variances||5.13|-8.07|.660
92390723|NCT03197376|184680768|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 23F|3.03|||||TWO_SIDED|95.0|2.25|4.09||||||||4.09|2.25|
92390724|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 1 GMC Ratio|1.41|||||TWO_SIDED|95.0|1.31|1.52||||||||1.52|1.31|
92390725|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 5 GMC Ratio|0.88|||||TWO_SIDED|95.0|0.81|0.95||||||||0.95|0.81|
92390726|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 6A GMC Ratio|4.46|||||TWO_SIDED|95.0|4.01|4.96||||||||4.96|4.01|
92390727|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 6B GMC Ratio|6.43|||||TWO_SIDED|95.0|5.7|7.26||||||||7.26|5.70|
92390728|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 7F GMC Ratio|2.04|||||TWO_SIDED|95.0|1.89|2.19||||||||2.19|1.89|
92278912|NCT00094302|184460799|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.71|1.42||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 129 subjects (65 in the Spironolactone group and 64 in the Placebo group) with confirmed events."||1.42|0.71|0.98
92390729|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 9V GMC Ratio|1.39|||||TWO_SIDED|95.0|1.29|1.5||||||||1.50|1.29|
92390730|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 14 GMC Ratio|1.35|||||TWO_SIDED|95.0|1.21|1.51||||||||1.51|1.21|
92390731|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 19A GMC Ratio|2.64|||||TWO_SIDED|95.0|2.4|2.91||||||||2.91|2.40|
92390732|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 19F GMC Ratio|1.49|||||TWO_SIDED|95.0|1.36|1.63||||||||1.63|1.36|
92419114|NCT04626310|184726587|SUPERIORITY||Linear slope difference DBT-ER-IP|0.096|STANDARD_ERROR_OF_MEAN|0.08||0.8|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-ER vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.8
92419115|NCT04626310|184726587|SUPERIORITY||Linear Slope difference DBT-IE-IP|-0.234|STANDARD_ERROR_OF_MEAN|0.385||0.544|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.544
92390733|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 23F GMC Ratio|2.5|||||TWO_SIDED|95.0|2.29|2.72||||||||2.72|2.29|
92390734|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 1 GMC Ratio|1.17|||||TWO_SIDED|95.0|1.06|1.28||||||||1.28|1.06|
92390735|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 5 GMC Ratio|0.67|||||TWO_SIDED|95.0|0.61|0.74||||||||0.74|0.61|
92390736|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 6A GMC Ratio|3.49|||||TWO_SIDED|95.0|2.97|4.11||||||||4.11|2.97|
92390737|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 6B GMC Ratio|3.85|||||TWO_SIDED|95.0|3.23|4.59||||||||4.59|3.23|
92390738|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 7F GMC Ratio|1.63|||||TWO_SIDED|95.0|1.47|1.82||||||||1.82|1.47|
92390739|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 9V GMC Ratio|1.46|||||TWO_SIDED|95.0|1.31|1.62||||||||1.62|1.31|
92390740|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 14 GMC Ratio|1.21|||||TWO_SIDED|95.0|1.03|1.42||||||||1.42|1.03|
92390741|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 19A GMC Ratio|3.6|||||TWO_SIDED|95.0|2.99|4.33||||||||4.33|2.99|
92390742|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 19F GMC Ratio|1.55|||||TWO_SIDED|95.0|1.38|1.75||||||||1.75|1.38|
92390743|NCT03197376|184680769|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 23F GMC Ratio|2.29|||||TWO_SIDED|95.0|1.98|2.65||||||||2.65|1.98|
92390744|NCT03197376|184680770|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 1 GMC Ratio|2.34|||||TWO_SIDED|95.0|2.02|2.71||||||||2.71|2.02|
92390745|NCT03197376|184680770|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 5 GMC Ratio|1.57|||||TWO_SIDED|95.0|1.38|1.79||||||||1.79|1.38|
92390746|NCT03197376|184680770|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 6A GMC Ratio|11.6|||||TWO_SIDED|95.0|9.67|14.0||||||||14.0|9.67|
92390747|NCT03197376|184680770|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 6B GMC Ratio|1.89|||||TWO_SIDED|95.0|1.65|2.15||||||||2.15|1.65|
92170002|NCT00567489|184228580|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.486|TWO_SIDED|95.0|-14.5|30.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Systolic Volume-Month 6||30.1|-14.5|0.486
92390748|NCT03197376|184680770|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 7F GMC Ratio|1.57|||||TWO_SIDED|95.0|1.37|1.8||||||||1.80|1.37|
92235764|NCT03114969|184374775|SUPERIORITY||Odds Ratio (OR)|3.196||||0.175|TWO_SIDED|95.0|0.596|17.14||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||17.140|0.596|0.175
92239733|NCT00696657|184383374|SUPERIORITY||Estimated treatment differences|-0.09||||0.9772|TWO_SIDED|95.0|-0.46|0.28|||ANOVA|CIs for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 0.1 mg - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.28|-0.46|0.9772
92390749|NCT03197376|184680770|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 9V GMC Ratio|0.87|||||TWO_SIDED|95.0|0.76|0.99||||||||0.99|0.76|
92170003|NCT00567489|184228581|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.832|TWO_SIDED|95.0|-18.9|23.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass with Pap Muscles-Month 6||23.4|-18.9|0.832
92170004|NCT00567489|184228581|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.82|TWO_SIDED|95.0|-18.3|23.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass without Pap Muscles-Month 6||23.1|-18.3|0.820
92170005|NCT00567489|184228582|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.955|TWO_SIDED|95.0|-6.9|6.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Ejection Fraction-Month 6||6.5|-6.9|0.955
92390750|NCT03197376|184680770|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 14 GMC Ratio|1.48|||||TWO_SIDED|95.0|1.21|1.82||||||||1.82|1.21|
92390751|NCT03197376|184680770|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 19A GMC Ratio|4.22|||||TWO_SIDED|95.0|3.52|5.06||||||||5.06|3.52|
92390752|NCT03197376|184680770|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 19F GMC Ratio|0.63|||||TWO_SIDED|95.0|0.55|0.73||||||||0.73|0.55|
92390753|NCT03197376|184680770|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 23F GMC Ratio|1.91|||||TWO_SIDED|95.0|1.63|2.24||||||||2.24|1.63|
92390754|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 1|3.47|||||TWO_SIDED|95.0|2.72|4.44||||||||4.44|2.72|
92419116|NCT04626310|184726587|SUPERIORITY||Linear Slope difference DBT-ER-DBT-IE|0.329|STANDARD_ERROR_OF_MEAN|0.429||0.442|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-ER vs. DBT-IE) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.442
92239734|NCT00696657|184383374|OTHER||Estimated treatment differences|-0.35|||||TWO_SIDED|95.0|-0.64|-0.06|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 1.6 mg (with titration) - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.06|-0.64|
92390755|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 5|2.54|||||TWO_SIDED|95.0|2.06|3.13||||||||3.13|2.06|
92390756|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 6A|2.5|||||TWO_SIDED|95.0|1.83|3.42||||||||3.42|1.83|
92390757|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 6B|3.76|||||TWO_SIDED|95.0|2.48|5.69||||||||5.69|2.48|
92390758|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 7F|3.89|||||TWO_SIDED|95.0|2.92|5.18||||||||5.18|2.92|
92390759|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 9V|6.85|||||TWO_SIDED|95.0|4.45|10.52||||||||10.52|4.45|
92390760|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 14|2.45|||||TWO_SIDED|95.0|1.64|3.65||||||||3.65|1.64|
92390761|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 19A|3.64|||||TWO_SIDED|95.0|2.47|5.36||||||||5.36|2.47|
92390762|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 19F|2.38|||||TWO_SIDED|95.0|1.8|3.14||||||||3.14|1.80|
92390763|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 23F|4.97|||||TWO_SIDED|95.0|3.49|7.06||||||||7.06|3.49|
92390764|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 1|6.29|||||TWO_SIDED|95.0|4.97|7.96||||||||7.96|4.97|
92419117|NCT04626310|184726588|SUPERIORITY||Linear slope difference DBT-ER-IP|1.951|STANDARD_ERROR_OF_MEAN|1.15||0.09|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-ER vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.09
92419118|NCT04626310|184726588|SUPERIORITY||Linear slope difference DBT-IE-IP|0.1|STANDARD_ERROR_OF_MEAN|1.228||0.93|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-ER vs. DBT-IE) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.93
92419119|NCT04626310|184726588|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|1.851|STANDARD_ERROR_OF_MEAN|1.103||0.93|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-ER vs. DBT-IE) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.93
92390765|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 5|3.19|||||TWO_SIDED|95.0|2.56|3.98||||||||3.98|2.56|
92390766|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 6A|6.21|||||TWO_SIDED|95.0|3.55|10.84||||||||10.84|3.55|
92390767|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 6B|3.25|||||TWO_SIDED|95.0|2.25|4.7||||||||4.70|2.25|
92419120|NCT04626310|184726588|SUPERIORITY||Quad slope difference DBT-ER-IP|-0.028|STANDARD_ERROR_OF_MEAN|0.15||0.93|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-ER vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.93
92419121|NCT04626310|184726588|SUPERIORITY||Quad slope difference DBT-IE-IP|-0.029|STANDARD_ERROR_OF_MEAN|0.145||0.836|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.836
92419122|NCT04626310|184726588|SUPERIORITY||Quad slope difference DBT-ER-DBT-IE|0.001|STANDARD_ERROR_OF_MEAN|0.145||0.994|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.994
92419123|NCT04626310|184726589|SUPERIORITY||Linear slope difference DBT-ER-IP|0.059|STANDARD_ERROR_OF_MEAN|0.083||0.475|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The slopes of the difference between neutral and negative-maintain were regressed on time (weeks, centered around the start of treatment) and calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.475
92419124|NCT04626310|184726589|SUPERIORITY||Linear slope difference DBT-IE-IP|0.037|STANDARD_ERROR_OF_MEAN|0.082||0.654|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The slopes of the difference between neutral and negative-maintain were regressed on time (weeks, centered around the start of treatment) and calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.654
92419125|NCT04626310|184726589|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|0.022|STANDARD_ERROR_OF_MEAN|0.085||0.791|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The slopes of the difference between neutral and negative-maintain were regressed on time (weeks, centered around the start of treatment) and calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.791
92419126|NCT04626310|184726590|SUPERIORITY||Linear slope difference DBT-ER-IP|-0.332|STANDARD_ERROR_OF_MEAN|0.095||0.001|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. We examined the effect of Negative Decrease vs. Negative Maintain over time per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.001
92419127|NCT04626310|184726590|SUPERIORITY||Linear slope difference DBT-IE-IP|-0.165|STANDARD_ERROR_OF_MEAN|0.094||0.078|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. We examined the effect of Negative Decrease vs. Negative Maintain over time per condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.078
92419128|NCT04626310|184726590|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|-0.167|STANDARD_ERROR_OF_MEAN|0.095||0.08|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. We examined the effect of Negative Decrease vs. Negative Maintain over time per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.080
92419129|NCT04626310|184726591|SUPERIORITY||Linear Slope Diff DBT-ER-IP|0.091|STANDARD_ERROR_OF_MEAN|0.06||0.13|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The Negative x Novel x time (weeks, centered around the start of treatment) slopes were calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.13
92278913|NCT00094302|184460800|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.73|TWO_SIDED|95.0|0.65|1.35||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 117 subjects (57 in the Spironolactone group and 60 in the Placebo group) with confirmed events."||1.35|0.65|0.73
92390768|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 7F|2.81|||||TWO_SIDED|95.0|2.13|3.69||||||||3.69|2.13|
92390769|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 9V|2.95|||||TWO_SIDED|95.0|2.15|4.04||||||||4.04|2.15|
92419130|NCT04626310|184726591|SUPERIORITY||Linear slope difference DBT-IE-IP|0.12|STANDARD_ERROR_OF_MEAN|0.06||0.046|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The Negative x Novel x time (weeks, centered around the start of treatment) slopes were calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.046
92390770|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 14|1.62|||||TWO_SIDED|95.0|1.06|2.46||||||||2.46|1.06|
92390771|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 19A|5.98|||||TWO_SIDED|95.0|3.88|9.21||||||||9.21|3.88|
92390772|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 19F|1.97|||||TWO_SIDED|95.0|1.45|2.68||||||||2.68|1.45|
92390773|NCT03197376|184680771|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 23F|5.73|||||TWO_SIDED|95.0|3.8|8.63||||||||8.63|3.80|
92390774|NCT03197376|184680772|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 1|1.84|||||TWO_SIDED|95.0|1.25|2.72||||||||2.72|1.25|
92390775|NCT03197376|184680772|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 5|1.14|||||TWO_SIDED|95.0|0.79|1.64||||||||1.64|0.79|
92419131|NCT04626310|184726591|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|-0.028|STANDARD_ERROR_OF_MEAN|0.057||0.617|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The Negative x Novel x time (weeks, centered around the start of treatment) slopes were calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.617
92278914|NCT00094302|184460801|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49|||<|0.01|TWO_SIDED|95.0|1.18|1.87||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~There were 295 subjects (175 in the Spironolactone group and 120 in the Placebo group) experiencing this endpoint. This endpoint did not undergo adjudication by the TOPCAT clinical endpoints committee."||1.87|1.18|<0.01
92390776|NCT03197376|184680772|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 6A|68.1|||||TWO_SIDED|95.0|37.07|125.09||||||||125.09|37.07|
92390777|NCT03197376|184680772|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 6B|1.75|||||TWO_SIDED|95.0|1.25|2.46||||||||2.46|1.25|
92390778|NCT03197376|184680772|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 7F|1.73|||||TWO_SIDED|95.0|1.28|2.34||||||||2.34|1.28|
92390779|NCT03197376|184680772|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 9V|0.93|||||TWO_SIDED|95.0|0.65|1.32||||||||1.32|0.65|
92390780|NCT03197376|184680772|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 14|2.21|||||TWO_SIDED|95.0|1.38|3.51||||||||3.51|1.38|
92390781|NCT03197376|184680772|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 19A|12.54|||||TWO_SIDED|95.0|7.36|21.37||||||||21.37|7.36|
92390782|NCT03197376|184680772|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 19F|1.01|||||TWO_SIDED|95.0|0.7|1.46||||||||1.46|0.70|
92390783|NCT03197376|184680772|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 23F|3.14|||||TWO_SIDED|95.0|2.21|4.45||||||||4.45|2.21|
92390784|NCT03197376|184680773|NON_INFERIORITY|Non-inferiority will be shown if a two-sided 95% CI for the treatment-group difference in response proportions (proportion with Synflorix co-administration minus proportion with PNEUMOSIL co-administration) has an upper limit of \< 0.10.|Absolute difference for measles|1.7|||||TWO_SIDED|95.0|-3.3|7.4||||||||7.4|-3.3|
92390785|NCT03197376|184680773|NON_INFERIORITY|Non-inferiority will be shown if a two-sided 95% CI for the treatment-group difference in response proportions (proportion with Synflorix co-administration minus proportion with PNEUMOSIL co-administration) has an upper limit of \< 0.10.|Absolute difference for rubella|1.0|||||TWO_SIDED|95.0|-0.9|4.0||||||||4.0|-0.9|
92390786|NCT03197376|184680773|NON_INFERIORITY|Non-inferiority will be shown if a two-sided 95% CI for the treatment-group difference in response proportions (proportion with Synflorix co-administration minus proportion with PNEUMOSIL co-administration) has an upper limit of \< 0.10.|Absolute difference for yellow fever|2.4|||||TWO_SIDED|95.0|0.2|5.9||||||||5.9|0.2|
92390787|NCT03197376|184680774|OTHER|Treatment group difference in proportions|Absolute Difference for Type 1|16.2|||||TWO_SIDED|95.0|8.0|23.7||||||||23.7|8.0|
92390788|NCT03197376|184680774|OTHER|Treatment group difference in proportions|Absolute Difference for Type 5|7.2|||||TWO_SIDED|95.0|-1.4|15.8||||||||15.8|-1.4|
92390789|NCT03197376|184680774|OTHER|Treatment group difference in proportions|Absolute Difference for Type 6A|30.0|||||TWO_SIDED|95.0|21.8|38.1||||||||38.1|21.8|
92390790|NCT03197376|184680774|OTHER|Treatment group difference in proportions|Absolute Difference for Type 6B|16.5|||||TWO_SIDED|95.0|10.1|23.6||||||||23.6|10.1|
92390791|NCT03197376|184680774|OTHER|Treatment group difference in proportions|Absolute Difference for Type 7F|16.4|||||TWO_SIDED|95.0|8.4|24.5||||||||24.5|8.4|
92390792|NCT03197376|184680774|OTHER|Treatment group difference in proportions|Absolute Difference for Type 9V|-0.2|||||TWO_SIDED|95.0|-8.8|8.5||||||||8.5|-8.8|
92390793|NCT03197376|184680774|OTHER|Treatment group difference in proportions|Absolute Difference for Type 14|14.7|||||TWO_SIDED|95.0|7.5|22.3||||||||22.3|7.5|
92390794|NCT03197376|184680774|OTHER|Treatment group difference in proportions|Absolute Difference for Type 19A|14.7|||||TWO_SIDED|95.0|7.3|22.5||||||||22.5|7.3|
92390795|NCT03197376|184680774|OTHER|Treatment group difference in proportions|Absolute Difference for Type 19F|-13.7|||||TWO_SIDED|95.0|-19.0|-8.0||||||||-8.0|-19.0|
92390796|NCT03197376|184680774|OTHER|Treatment group difference in proportions|Absolute Difference for Type 23F|16.9|||||TWO_SIDED|95.0|8.2|25.4||||||||25.4|8.2|
92390797|NCT03197376|184680775|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 1 GMC Ratio|1.64|||||TWO_SIDED|95.0|1.42|1.89||||||||1.89|1.42|
92390798|NCT03197376|184680775|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 5 GMC Ratio|1.2|||||TWO_SIDED|95.0|1.03|1.4||||||||1.40|1.03|
92390799|NCT03197376|184680775|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 6A GMC Ratio|2.36|||||TWO_SIDED|95.0|2.01|2.78||||||||2.78|2.01|
92390800|NCT03197376|184680775|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 6B GMC Ratio|1.45|||||TWO_SIDED|95.0|1.27|1.66||||||||1.66|1.27|
92390801|NCT03197376|184680775|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 7F GMC Ratio|1.29|||||TWO_SIDED|95.0|1.12|1.49||||||||1.49|1.12|
92390802|NCT03197376|184680775|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 9V GMC Ratio|0.94|||||TWO_SIDED|95.0|0.81|1.09||||||||1.09|0.81|
92390803|NCT03197376|184680775|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 14 GMC Ratio|1.41|||||TWO_SIDED|95.0|1.15|1.72||||||||1.72|1.15|
92390804|NCT03197376|184680775|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 19A GMC Ratio|1.38|||||TWO_SIDED|95.0|1.14|1.68||||||||1.68|1.14|
92390805|NCT03197376|184680775|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 19F GMC Ratio|0.61|||||TWO_SIDED|95.0|0.5|0.74||||||||0.74|0.50|
92390806|NCT03197376|184680775|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 23F GMC Ratio|1.5|||||TWO_SIDED|95.0|1.24|1.81||||||||1.81|1.24|
92390807|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 1 GMC Ratio|0.05|||||TWO_SIDED|95.0|0.05|0.06||||||||0.06|0.05|
92390808|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 5 GMC Ratio|0.3|||||TWO_SIDED|95.0|0.27|0.33||||||||0.33|0.27|
92390809|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 6A GMC Ratio|0.15|||||TWO_SIDED|95.0|0.13|0.16||||||||0.16|0.13|
92390810|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 6B GMC Ratio|0.11|||||TWO_SIDED|95.0|0.1|0.11||||||||0.11|0.10|
92390811|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 7F GMC Ratio|0.1|||||TWO_SIDED|95.0|0.09|0.11||||||||0.11|0.09|
92390812|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 9V GMC Ratio|0.21|||||TWO_SIDED|95.0|0.19|0.23||||||||0.23|0.19|
92390813|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 14 GMC Ratio|0.15|||||TWO_SIDED|95.0|0.13|0.17||||||||0.17|0.13|
92390814|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 19A GMC Ratio|0.23|||||TWO_SIDED|95.0|0.2|0.26||||||||0.26|0.20|
92390815|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 19F GMC Ratio|0.14|||||TWO_SIDED|95.0|0.12|0.15||||||||0.15|0.12|
92390816|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 23F GMC Ratio|0.11|||||TWO_SIDED|95.0|0.1|0.12||||||||0.12|0.10|
92390817|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 1 GMC Ratio|0.07|||||TWO_SIDED|95.0|0.06|0.08||||||||0.08|0.06|
92390818|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 5 GMC Ratio|0.4|||||TWO_SIDED|95.0|0.35|0.45||||||||0.45|0.35|
92390819|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 6A GMC Ratio|0.73|||||TWO_SIDED|95.0|0.62|0.86||||||||0.86|0.62|
92390820|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 6B GMC Ratio|0.14|||||TWO_SIDED|95.0|0.12|0.16||||||||0.16|0.12|
92419132|NCT04626310|184726592|SUPERIORITY||Linear slope difference DBT-ER-IP|-0.29|STANDARD_ERROR_OF_MEAN|0.103||0.005|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of change in this interaction effect were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.005
92419133|NCT04626310|184726592|SUPERIORITY||Linear slope difference DBT-IE-IP|-0.111|STANDARD_ERROR_OF_MEAN|0.103||0.281|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of change in this interaction effect were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.281
92419134|NCT04626310|184726592|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|-0.18|STANDARD_ERROR_OF_MEAN|0.098||0.066|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of change in this interaction effect were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.066
92419135|NCT04626310|184726593|SUPERIORITY||Linear slope difference DBT-ER-IP|1.049|STANDARD_ERROR_OF_MEAN|0.653||0.108|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. neutral images on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.108
92419136|NCT04626310|184726593|SUPERIORITY||Linear slope difference DBT-IE-IP|-1.21|STANDARD_ERROR_OF_MEAN|0.454||0.014|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. neutral images on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.014
92235765|NCT03114969|184374775|SUPERIORITY||Odds Ratio (OR)|5.408||||0.042|TWO_SIDED|95.0|1.059|27.61||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||27.610|1.059|0.042
92390821|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 7F GMC Ratio|0.12|||||TWO_SIDED|95.0|0.11|0.13||||||||0.13|0.11|
92390822|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 9V GMC Ratio|0.2|||||TWO_SIDED|95.0|0.18|0.22||||||||0.22|0.18|
92390823|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 14 GMC Ratio|0.15|||||TWO_SIDED|95.0|0.13|0.19||||||||0.19|0.13|
92390824|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 19A GMC Ratio|0.64|||||TWO_SIDED|95.0|0.52|0.78||||||||0.78|0.52|
92390825|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 19F GMC Ratio|0.14|||||TWO_SIDED|95.0|0.12|0.16||||||||0.16|0.12|
92390826|NCT03197376|184680776|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 23F GMC Ratio|0.14|||||TWO_SIDED|95.0|0.12|0.16||||||||0.16|0.12|
92419137|NCT04626310|184726593|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|2.17|STANDARD_ERROR_OF_MEAN|0.631||0.001|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. neutral images on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.001
92235766|NCT03114969|184374776|SUPERIORITY||Odds Ratio (OR)|12.145||||0.09|TWO_SIDED|95.0|0.68|216.818||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||216.818|0.680|0.090
92235767|NCT03114969|184374776|SUPERIORITY||Odds Ratio (OR)|9.991||||0.13|TWO_SIDED|95.0|0.508|196.435||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||196.435|0.508|0.130
92390827|NCT03197376|184680777|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 1|24.2|||||TWO_SIDED|95.0|4.5|42.1||||||||42.1|4.5|
92390828|NCT03197376|184680777|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 5|9.9|||||TWO_SIDED|95.0|-5.8|25.5||||||||25.5|-5.8|
92390829|NCT03197376|184680777|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 6A|65.6|||||TWO_SIDED|95.0|48.3|78.0||||||||78.0|48.3|
92390830|NCT03197376|184680777|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 6B|23.2|||||TWO_SIDED|95.0|6.4|39.4||||||||39.4|6.4|
92390831|NCT03197376|184680777|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 7F|2.0|||||TWO_SIDED|95.0|-5.2|10.8||||||||10.8|-5.2|
92390832|NCT03197376|184680777|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 9V|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
92390833|NCT03197376|184680777|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type14|4.6|||||TWO_SIDED|95.0|-8.5|18.3||||||||18.3|-8.5|
92390834|NCT03197376|184680777|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 19A|34.4|||||TWO_SIDED|95.0|16.5|50.8||||||||50.8|16.5|
92390835|NCT03197376|184680777|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 19F|5.0|||||TWO_SIDED|95.0|-8.4|19.2||||||||19.2|-8.4|
92390836|NCT03197376|184680777|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 23F|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
92390837|NCT03197376|184680778|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 1|1.3|||||TWO_SIDED|95.0|0.8|2.1||||||||2.1|0.8|
92390838|NCT03197376|184680778|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 5|1.3|||||TWO_SIDED|95.0|0.7|2.4||||||||2.4|0.7|
92390839|NCT03197376|184680778|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 6A|14.3|||||TWO_SIDED|95.0|6.3|32.1||||||||32.1|6.3|
92390840|NCT03197376|184680778|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 6B|3.7|||||TWO_SIDED|95.0|2.1|6.8||||||||6.8|2.1|
92390841|NCT03197376|184680778|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 7F|1.0|||||TWO_SIDED|95.0|0.6|1.6||||||||1.6|0.6|
92390842|NCT03197376|184680778|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 9V|0.7|||||TWO_SIDED|95.0|0.3|1.7||||||||1.7|0.3|
92390843|NCT03197376|184680778|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 14|1.1|||||TWO_SIDED|95.0|0.5|2.4||||||||2.4|0.5|
92390844|NCT03197376|184680778|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 19A|5.1|||||TWO_SIDED|95.0|2.4|10.8||||||||10.8|2.4|
92390845|NCT03197376|184680778|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 19F|1.0|||||TWO_SIDED|95.0|0.4|2.3||||||||2.3|0.4|
92390846|NCT03197376|184680778|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 23F|4.3|||||TWO_SIDED|95.0|2.0|9.4||||||||9.4|2.0|
92390847|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 1|0.04|||||TWO_SIDED|95.0|0.03|0.06||||||||0.06|0.03|
92390848|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 5|0.11|||||TWO_SIDED|95.0|0.09|0.14||||||||0.14|0.09|
92390849|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 6A|0.05|||||TWO_SIDED|95.0|0.03|0.08||||||||0.08|0.03|
92390850|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 6B|0.05|||||TWO_SIDED|95.0|0.03|0.07||||||||0.07|0.03|
92390851|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 7F|0.26|||||TWO_SIDED|95.0|0.18|0.38||||||||0.38|0.18|
92390852|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 9V|0.12|||||TWO_SIDED|95.0|0.06|0.23||||||||0.23|0.06|
92390853|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 14|0.07|||||TWO_SIDED|95.0|0.05|0.11||||||||0.11|0.05|
92390854|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 19A|0.16|||||TWO_SIDED|95.0|0.09|0.3||||||||0.30|0.09|
92390855|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 19F|0.09|||||TWO_SIDED|95.0|0.05|0.18||||||||0.18|0.05|
92390856|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 23F|0.12|||||TWO_SIDED|95.0|0.08|0.18||||||||0.18|0.08|
92390857|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 1|0.04|||||TWO_SIDED|95.0|0.03|0.06||||||||0.06|0.03|
92390858|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 5|0.07|||||TWO_SIDED|95.0|0.05|0.1||||||||0.10|0.05|
92390859|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 6A|0.21|||||TWO_SIDED|95.0|0.09|0.48||||||||0.48|0.09|
92390860|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 6B|0.02|||||TWO_SIDED|95.0|0.01|0.03||||||||0.03|0.01|
92390861|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 7F|0.44|||||TWO_SIDED|95.0|0.3|0.65||||||||0.65|0.30|
92390862|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 9V|0.11|||||TWO_SIDED|95.0|0.06|0.2||||||||0.20|0.06|
92390863|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 14|0.11|||||TWO_SIDED|95.0|0.06|0.22||||||||0.22|0.06|
92390864|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 19A|0.26|||||TWO_SIDED|95.0|0.14|0.49||||||||0.49|0.14|
92390865|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 19F|0.09|||||TWO_SIDED|95.0|0.06|0.14||||||||0.14|0.06|
92390866|NCT03197376|184680779|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 23F|0.07|||||TWO_SIDED|95.0|0.05|0.12||||||||0.12|0.05|
92390867|NCT00112125|184680780|NON_INFERIORITY|The primary safety analysis was a test of the non-inferiority of CCM therapy compared to OMT with respect to the proportion of subjects experiencing death or hospitalization within 50 weeks using the Blackwelder non-inferiority test12 with a prespecified non-inferiority margin of 0.125.||||||0.31|||||||Fisher Exact|||||||0.31
92390868|NCT00112125|184680781|NON_INFERIORITY|The noninferiority margin was selected to be 12.5% and α was set at .05, which resulted in a sample size of 198 subjects per group. A percentage of subjects (∼7%) were expected to be lost to followup, so that a total sample size of 428 subjects (214 per group) was selected.||||||0.125|||||||Blackwelder|||||||0.125
92390869|NCT00122369|184680790|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||Bonferoni correction was made so that results with p\<0.0167 are considered significant|t-test, 2 sided|||The impact of knowing or not knowing the diagnosis became so overwhelming and group composition with regard of whether and which result had been communicated changed daily in the post-biopsy follow-up, so that the originally planned analysis of the impact of Self-Hynotic Relaxation or Empathic Attention on cortisol measures became underpowered. Therefore we focused on the analysis of the impact of diagnosis.||||0.014
92390870|NCT00122369|184680790|SUPERIORITY_OR_OTHER|||||||0.421||95.0||||Bonferoni correction was made so that results with p\<0.0167 are considered significant.|t-test, 2 sided|||||||0.421
92390871|NCT00122369|184680790|SUPERIORITY_OR_OTHER|||||||0.138||95.0||||Bonferoni correction was made so that results with p\<0.0167 are considered significant.|t-test, 2 sided|||||||0.138
92390872|NCT00122369|184680791|SUPERIORITY_OR_OTHER|||||||0.56|||||||ANOVA|||The null-hypothesis was that there would be no difference among groups.||||0.56
92390873|NCT00122369|184680803|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ordinal regression|||||||<0.001
92390874|NCT00122369|184680803|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Ordinal regression|||||||0.45
92390875|NCT00122369|184680803|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ordinal regression|||||||<0.001
92390876|NCT00122369|184680803|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Proportional odds model|||||||<0.01
92390877|NCT00122369|184680803|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Proportional odds model|||||||<0.001
92390878|NCT00122369|184680803|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Proportional odds model|||||||<0.01
92390879|NCT00122369|184680816|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ordinal regression|||||||<0.001
92390880|NCT00122369|184680816|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ordinal regression|||||||<0.001
92390881|NCT00122369|184680816|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ordinal regression|||||||<0.001
92390882|NCT00122369|184680816|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Proportional odds model|||||||0.024
92390883|NCT00122369|184680816|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Proportional odds model|||||||0.018
92390884|NCT00122369|184680816|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Proportional odds model|||||||0.73
92390885|NCT01052077|184680829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18||||0.1416|TWO_SIDED|95.0|-2.75|0.39||ANCOVA model, with treatment and study center as main effects and Week 8 value as convariate, is used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||0.39|-2.75|0.1416
92419138|NCT04626310|184726594|OTHER||Linear Slope difference DBT-ER-IP|0.17|STANDARD_ERROR_OF_MEAN|0.136||0.211|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. negative decrease on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.211
92419139|NCT04626310|184726594|SUPERIORITY||Linear Slope difference DBT-IE-IP|-0.195|STANDARD_ERROR_OF_MEAN|0.135||0.148|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. negative decrease on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.148
92170006|NCT02570022|184228583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||t-test, 2 sided||This analysis corresponds to the visual analog scale and morphine equivalent data.|Our hypothesis was that in patients undergoing shoulder arthroplasty, treatment with LB would lead to no significant differences in average daily pain scores. A power analysis was performed prior to the study to assess the primary hypothesis that a significant difference in average daily pain of 13mm on VAS will not be found between the INB and LB groups. With a power of 80% (beta level = 0.80, alpha level = 0.05), a sample size of 25 patients per group was obtained||||<0.05
92170007|NCT00262730|184228589|NON_INFERIORITY_OR_EQUIVALENCE|study design has 85% power to detect 25% deduction in hazard rate compared to EORTC Phase 3 results.|Hazard Ratio (HR)|0.8|STANDARD_DEVIATION|0.025|>|0.1|TWO_SIDED|95.0|0.8|0.85|||Log Rank|||||0.85|0.8|>.1
92170008|NCT02020252|184228590|SUPERIORITY|||||||0.307||||||This is for the receptivity sub-scale, and the comparison between pre and post-test scores.|t-test, 2 sided|This was a paired t-test.||||||.307
92170009|NCT02020252|184228590|SUPERIORITY|||||||0.009||||||This is for the willingness sub-scale, and the comparison between pre and posttest scores.|t-test, 2 sided|This was a paired t-test.||||||.009
92239735|NCT00696657|184383374|OTHER||Estimated treatment differences|-0.11|||||TWO_SIDED|95.0|-0.39|0.18|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.8 mg (with titration) - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.18|-0.39|
92390886|NCT01052077|184680830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.3778|TWO_SIDED|95.0|-0.69|0.26||ANCOVA model, with treatment and study center as main effects and Week 8 value as covariate, is used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||0.26|-0.69|0.3778
92390887|NCT01052077|184680831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31||||0.0162|TWO_SIDED|95.0|-2.38|-0.24||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 9||-0.24|-2.38|0.0162
92390888|NCT01052077|184680831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.0031|TWO_SIDED|95.0|-3.15|-0.65||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 10||-0.65|-3.15|0.0031
92390889|NCT01052077|184680831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.01||||0.0061|TWO_SIDED|95.0|-3.44|-0.58||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 11||-0.58|-3.44|0.0061
92390890|NCT01052077|184680831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.21||||0.0038|TWO_SIDED|95.0|-3.69|-0.72||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 12||-0.72|-3.69|0.0038
92390891|NCT01052077|184680831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.82||||0.0174|TWO_SIDED|95.0|-3.32|-0.32||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 13||-0.32|-3.32|0.0174
92390892|NCT01052077|184680831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18||||0.1416|TWO_SIDED|95.0|-2.75|0.39||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||0.39|-2.75|0.1416
92390893|NCT01052077|184680832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.1481|TWO_SIDED|95.0|-0.21|0.03||ANCOVA model, with treatment and study center as main effects and Week 8 value as covariate, is used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 9||0.03|-0.21|0.1481
92390894|NCT01052077|184680832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0691|TWO_SIDED|95.0|-0.28|0.01||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 10||0.01|-0.28|0.0691
92390895|NCT01052077|184680832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.0457|TWO_SIDED|95.0|-0.35|0.0||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 11||-0.00|-0.35|0.0457
92390896|NCT01052077|184680832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.0061|TWO_SIDED|95.0|-0.45|-0.08||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 12||-0.08|-0.45|0.0061
92390897|NCT01052077|184680832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0572|TWO_SIDED|95.0|-0.38|0.01||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 13||0.01|-0.38|0.0572
92390898|NCT01052077|184680832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3318|TWO_SIDED|95.0|-0.29|0.1||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||0.10|-0.29|0.3318
92390899|NCT01052077|184680833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.6272|TWO_SIDED|95.0|-1.02|1.69||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 9||1.69|-1.02|0.6272
92390900|NCT01052077|184680833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.9697|TWO_SIDED|95.0|-1.48|1.54||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo||Week 10||1.54|-1.48|0.9697
92390901|NCT01052077|184680833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.749|TWO_SIDED|95.0|-2.0|1.44||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 11||1.44|-2.00|0.7490
92390902|NCT01052077|184680833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.9459|TWO_SIDED|95.0|-1.94|1.81||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 12||1.81|-1.94|0.9459
92390903|NCT01052077|184680833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9893|TWO_SIDED|95.0|-1.91|1.88||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 13||1.88|-1.91|0.9893
92390904|NCT01052077|184680833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.8918|TWO_SIDED|95.0|-1.89|2.17||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||2.17|-1.89|0.8918
92390905|NCT01052077|184680834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.3247|TWO_SIDED|95.0|-1.71|0.57||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||0.57|-1.71|0.3247
92390906|NCT01052077|184680835|SUPERIORITY_OR_OTHER|||||||0.5616||||||Cohran-Mantel-Haenszel (CMH) row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean: brexpiprazole - placebo.||Week 9||||0.5616
92390907|NCT01052077|184680835|SUPERIORITY_OR_OTHER|||||||0.19||||||CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 10||||0.1900
92390908|NCT01052077|184680835|SUPERIORITY_OR_OTHER|||||||0.0501||||||CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 11||||0.0501
92390909|NCT01052077|184680835|SUPERIORITY_OR_OTHER|||||||0.0137||||||CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 12||||0.0137
92390910|NCT01052077|184680835|SUPERIORITY_OR_OTHER|||||||0.0711||||||CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 13||||0.0711
92390911|NCT01052077|184680835|SUPERIORITY_OR_OTHER|||||||0.3438||||||CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||||0.3438
92390912|NCT01052077|184680836|SUPERIORITY_OR_OTHER||Ratio of Response rate|2.79||||0.0679|TWO_SIDED|95.0|0.88|8.81|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 9||8.81|0.88|0.0679
92390913|NCT01052077|184680836|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.78||||0.036|TWO_SIDED|95.0|1.01|3.14|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 10||3.14|1.01|0.0360
92390914|NCT01052077|184680836|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.53||||0.0521|TWO_SIDED|95.0|0.99|2.35|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 11||2.35|0.99|0.0521
92390915|NCT01052077|184680836|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.93||||0.0008|TWO_SIDED|95.0|1.31|2.86|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 12||2.86|1.31|0.0008
92390916|NCT01052077|184680836|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.64||||0.0074|TWO_SIDED|95.0|1.14|2.38|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 13||2.38|1.14|0.0074
92419140|NCT04626310|184726594|SUPERIORITY||Linear Slope difference DBT-ER-DBT-IE|-0.025|STANDARD_ERROR_OF_MEAN|0.137||0.857|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. negative decrease on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.857
92419141|NCT04626310|184726595|SUPERIORITY||Linear Slope Difference in DSS DBT-ER-IP|-0.313|STANDARD_ERROR_OF_MEAN|0.794||0.693|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DSS over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.693
92419142|NCT04626310|184726595|SUPERIORITY||Linear Slope Difference in DSS DBT-IE-IP|0.002|STANDARD_ERROR_OF_MEAN|0.767||0.998|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DSS over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.998
92419143|NCT04626310|184726595|SUPERIORITY||Linear Slope Diff in DSS DBT-ER-DBT-IE|-0.315|STANDARD_ERROR_OF_MEAN|0.765||0.68|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DSS over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.680
92390917|NCT01052077|184680836|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.47||||0.0339|TWO_SIDED|95.0|1.03|2.08|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 14||2.08|1.03|0.0339
92390918|NCT01052077|184680837|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|2.27||||0.2404|TWO_SIDED|95.0|0.55|9.3|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 9||9.30|0.55|0.2404
92390919|NCT01052077|184680837|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|2.04||||0.0983|TWO_SIDED|95.0|0.83|4.98|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 10||4.98|0.83|0.0983
92390920|NCT01052077|184680837|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.67||||0.0496|TWO_SIDED|95.0|0.99|2.82|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 11||2.82|0.99|0.0496
92390921|NCT01052077|184680837|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|2.12||||0.0019|TWO_SIDED|95.0|1.31|3.46|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 12||3.46|1.31|0.0019
92390922|NCT01052077|184680837|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.77||||0.0068|TWO_SIDED|95.0|1.17|2.67|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 13||2.67|1.17|0.0068
92390923|NCT01052077|184680837|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.71||||0.0089|TWO_SIDED|95.0|1.14|2.57||The CMH general association test controlling for trial center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||2.57|1.14|0.0089
92390924|NCT01052077|184680838|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.23||||0.4605|TWO_SIDED|95.0|0.7|2.18|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center.||Week 9||2.18|0.70|0.4605
92390925|NCT01052077|184680838|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.2||||0.3267|TWO_SIDED|95.0|0.83|1.72|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center.||Week 10||1.72|0.83|0.3267
92390926|NCT01052077|184680838|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.37||||0.023|TWO_SIDED|95.0|1.05|1.8|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center.||Week 11||1.80|1.05|0.0230
92390927|NCT01052077|184680838|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.36||||0.0105|TWO_SIDED|95.0|1.08|1.71|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center.||Week 12||1.71|1.08|0.0105
92390928|NCT01052077|184680838|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.26||||0.0417|TWO_SIDED|95.0|1.01|1.58|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center.||Week 13||1.58|1.01|0.0417
92390929|NCT01052077|184680838|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.15||||0.2345|TWO_SIDED|95.0|0.91|1.44||CMH general association test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||1.44|0.91|0.2345
92390930|NCT01099397|184680843|SUPERIORITY_OR_OTHER|||||||0.41||||||P-value at baseline|McNemar|McNemar was used at each of three time points to compare prediabetes diagnosis by fasting versus 2-hour OGTT||p\<0.05 was considered significant at baseline; the null hypothesis was that there was no difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose), the alternative hypothesis was that there was a significant difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose)||||0.41
92390931|NCT01099397|184680843|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||P-value at 9 weeks|McNemar|McNemar was used at each of three time points to compare prediabetes diagnosis by fasting versus 2-hour OGTT||p\<0.05 was considered significant at 9 week assessment; the null hypothesis was that there was no difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose), the alternative hypothesis was that there was a significant difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose)||||0.59
92390932|NCT01099397|184680843|SUPERIORITY_OR_OTHER|||||||0.41||95.0||||P-value at 18 weeks|McNemar|McNemar was used at each of three time points to compare prediabetes diagnosis by fasting versus 2-hour OGTT||p\<0.05 was considered significant at 18 week assessment; the null hypothesis was that there was no difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose), the alternative hypothesis was that there was a significant difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose)||||0.41
92390933|NCT00650845|184680877|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that in both MRI groups approximately 12% of the patients would have an increase in serum creatinine of at least 25% with respect to baseline values after imaging procedures, 120 evaluable patients (2 x 60) were needed to ensure with 80% power, at 5% one-sided significance level, that the difference between the two MRI procedures was less than 15% which was the non-inferiority clinical limit of the difference established for this study.|Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-7.9|6.7||||||The clinical non-inferiority limit of (non-enhanced - Dotarem®-enhanced) was fixed at -15%. The exact 95%Confidence Interval (CI) of the difference (non-enhanced - Dotarem®-enhanced) was \[-7.9%; +6.7%\]||6.7|-7.9|
92390934|NCT00650845|184680878|SUPERIORITY_OR_OTHER|||||||0.291|TWO_SIDED|||||p-value for main effect (difference between groups) adjusted on centers.|t-test, 2 sided|||Serum creatinine level fluctuation in terms of difference between baseline and 72 ±24hours after imaging procedure values was computed for both MRI procedures and compared between the 2 groups. A linear regression model was used to model the serum creatinine changes from baseline as a function of the MRI procedure with adjustment on centers.||||0.291
92390935|NCT00650845|184680879|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that in both MRI groups approximately 12% of the patients would have an increase in serum creatinine of at least 25% with respect to baseline values after imaging procedures, 120 evaluable patients (2 x 60) were needed to ensure with 80% power, at 5% one-sided significance level, that the difference between the two MRI procedures was less than 15% which was the non-inferiority clinical limit of the difference established for this study.|Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-14.1|8.9||||||The clinical non-inferiority limit of (non-enhanced - Dotarem®-enhanced) was fixed at -15%. The exact 95%CI of the difference (non-enhanced - Dotarem®-enhanced) was \[-14.1%; +8.9%\]||8.9|-14.1|
92390936|NCT00650845|184680880|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||p-value for main effect (difference between groups) adjusted on centers.|t-test, 2 sided|||Serum creatinine level fluctuation in terms of difference between baseline and 72 ±24hours after imaging procedure values was computed for both MRI procedures and compared between the 2 groups. A linear regression model was used to model the serum creatinine changes from baseline as a function of the MRI procedure with adjustment on centers.||||0.040
92390937|NCT00650845|184680881|SUPERIORITY_OR_OTHER|||||||0.301|TWO_SIDED|||||p-value for main effect (difference between groups) adjusted on centers.|t-test, 2 sided|||eGFR fluctuation in terms of percentage and mean difference between baseline and 72 ±24hours after imaging procedure values was computed for both MRI procedures and compared between the 2 groups. A linear regression model was used to model the relative or absolute eGFR variation from baseline as a function of the MRI procedure with adjustment on centers.||||0.301
92390938|NCT00650845|184680882|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED|||||p-value for main effect (difference between groups) adjusted on centers.|t-test, 2 sided|||eGFR fluctuation in terms of percentage and mean difference between baseline and 72 ±24hours after imaging procedure values was computed for both MRI procedures and compared between the 2 groups. A linear regression model was used to model the relative or absolute eGFR variation from baseline as a function of the MRI procedure with adjustment on centers.||||0.051
92419144|NCT04626310|184726595|SUPERIORITY||Linear Slope Difference in DC1 DBT-ER-IP|0.098|STANDARD_ERROR_OF_MEAN|0.101||0.333|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.333
92419145|NCT04626310|184726595|SUPERIORITY||Linear Slope Diff in DC1 DBT-IE-IP|-0.046|STANDARD_ERROR_OF_MEAN|0.097||0.632|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.632
92419146|NCT04626310|184726595|SUPERIORITY||Linear Slope Diff in DC1 DBT-ER-DBT-IE|0.144|STANDARD_ERROR_OF_MEAN|0.107||0.178|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to DBT-ER.||||.178
92419147|NCT04626310|184726595|SUPERIORITY||Linear Slope Diff in DC2 DBT-ER-IP|0.045|STANDARD_ERROR_OF_MEAN|0.112||0.689|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC2 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the slope differences DBT-ER to IP.||||.689
92419148|NCT04626310|184726595|SUPERIORITY||Linear Slope Diff in DC2 DBT-IE-IP|-0.011|STANDARD_ERROR_OF_MEAN|0.109||0.917|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC2 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the slope differences DBT-IE to IP.||||.917
92419149|NCT04626310|184726595|SUPERIORITY||Linear Slope Diff in DC2 DBT-ER-DBT-IE|0.056|STANDARD_ERROR_OF_MEAN|0.108||0.603|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC2 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the slope differences DBT-ER to DBT-IE.||||.603
92419150|NCT04626310|184726596|SUPERIORITY||Other[Quad Slope difference DBT-ER-IP]|0.013|STANDARD_ERROR_OF_MEAN|0.044||0.762|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-ER vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.762
92419151|NCT04626310|184726596|SUPERIORITY||Quad Slope difference DBT-IE-IP|0.034|STANDARD_ERROR_OF_MEAN|0.047||0.478|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.478
92170010|NCT02020252|184228590|SUPERIORITY||||||<|0.001||||||This is for knowledge sub scale, and the comparison between pre and posttest scores.|t-test, 2 sided|A paired t-test.||||||<.001
92419152|NCT04626310|184726596|SUPERIORITY||Quad Slope difference DBT-ER-DBT-IE|-0.089|STANDARD_ERROR_OF_MEAN|0.054||0.705|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-ER vs. DBT-IE) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.705
92419153|NCT04626310|184726597|SUPERIORITY||Quad slope difference DBT-ER-IP|-0.028|STANDARD_ERROR_OF_MEAN|0.15||0.93|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-ER vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.93
92419154|NCT04626310|184726597|SUPERIORITY||Quad slope difference DBT-IE-IP|-0.029|STANDARD_ERROR_OF_MEAN|0.145||0.836|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.836
92419155|NCT04626310|184726597|SUPERIORITY||Quad slope difference DBT-ER-DBT-IE|0.001|STANDARD_ERROR_OF_MEAN|0.145||0.994|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.994
92419156|NCT04626310|184726598|SUPERIORITY||Quad slope diff in DC1 DBT-ER-IP|0.013|STANDARD_ERROR_OF_MEAN|0.013||0.313|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the quadratic effects differed DBT-ER to IP.||||.313
92419157|NCT04626310|184726598|SUPERIORITY||Quad Slope in DC1 DBT-IE-IP|0.003|STANDARD_ERROR_OF_MEAN|0.01||0.747|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the quadratic effects differed DBT-IE to IP.||||.747
92170011|NCT02020252|184228590|SUPERIORITY|||||||0.004||||||This is for the positive attitudes sub scale, and the comparison between pre and posttest scores.|t-test, 2 sided|This was a paired t-test.||||||.004
92170012|NCT02020252|184228590|SUPERIORITY||||||<|0.001||||||This was for the self-efficacy sub scale, and the comparison between pre and posttest scores.|t-test, 2 sided|This was a paired t-test.||||||<.001
92170013|NCT01803555|184228659|NON_INFERIORITY|The noninferiority of BF Spiromax to Symbicort Turbohaler was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) for the treatment difference was greater than -15 L/min.|Least Square (LS) mean difference|-2.957||||0.3387|TWO_SIDED|95.0|-9.02|3.11|||Mixed Models Analysis|Analysis included effects due to baseline weekly average of daily trough AM PEF, gender, age, treatment, time, and treatment-by-time interaction.||||3.11|-9.02|0.3387
92419158|NCT04626310|184726598|SUPERIORITY||Quad slope diff in DC1 DBT-ER-DBT-IE|0.009|STANDARD_ERROR_OF_MEAN|0.012||0.444|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the quadratic effects differed DBT-ER to DBT-IE.||||.444
92419159|NCT01041495|184726600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.869||||0.869|TWO_SIDED|95.0||||P values below 0.05 were considered statistically significant|t-test, 2 sided|||||||.869
92419160|NCT01041495|184726601|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.0||||0.486|TWO_SIDED||||||t-test, 2 sided|||Visual Analogue Pain Scale (VAPS). The final visit VAPS at 8th week will be compared against baseline VAPS scores for both treatment groups||||.486
92419161|NCT01041495|184726601|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.486|TWO_SIDED||||||t-test, 1 sided|||||||.486
92419162|NCT01041495|184726602|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|17.0||||0.869|TWO_SIDED||||||t-test, 2 sided||As above- this was the difference between the groups on mean avg, it was used here|||||.869
92419163|NCT01041495|184726602|SUPERIORITY||Mean Difference (Final Values)|17.0||||0.275|TWO_SIDED||||||t-test, 1 sided|||||||.275
92419164|NCT03584373|184726603|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|-0.14||||0.7|TWO_SIDED|95.0|-0.89|0.6|||t-test, 2 sided|||||0.60|-0.89|0.70
92419165|NCT03584373|184726604|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|-0.23||||0.58|TWO_SIDED|95.0|-1.08|0.61|||t-test, 2 sided|||||0.61|-1.08|0.58
92419166|NCT03584373|184726605|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|-1.91||||0.006|TWO_SIDED|95.0|-3.25|-0.56|||t-test, 2 sided|||||-0.56|-3.25|0.006
92419167|NCT03584373|184726606|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|-1.16||||0.04|TWO_SIDED|95.0|-2.26|-0.06|||t-test, 2 sided|||||-0.06|-2.26|0.04
92419168|NCT03584373|184726607|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|-0.55||||0.33|TWO_SIDED|95.0|-1.67|0.56|||t-test, 2 sided|||||0.56|-1.67|0.33
92235768|NCT03114969|184374777|SUPERIORITY||Odds Ratio (OR)|11.907||||0.079|TWO_SIDED|95.0|0.753|188.208||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||188.208|0.753|0.079
92419169|NCT03584373|184726608|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|0.06||||0.47|TWO_SIDED|95.0|-0.1|0.21|||t-test, 2 sided|||||0.21|-0.10|0.47
92419170|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0081||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing total knowledge score change between groups from baseline to post intervention||||0.0081
92419171|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0243||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing zoster knowledge score change between groups from baseline to post intervention||||0.0243
92419172|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.071||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing pneumonia knowledge score change between groups from baseline to post intervention||||0.0710
92419173|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0008||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing influenza knowledge score change between groups from baseline to post intervention||||0.0008
92419174|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.1094||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing total knowledge score change between groups from baseline to one-month follow-up||||0.1094
92419175|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.2029||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing zoster knowledge score change between groups from baseline to one-month follow-up||||0.2029
92419176|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.8599||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing pneumonia knowledge score change between groups from baseline to one-month follow-up||||0.8599
92419177|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0007||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing influenza knowledge score change between groups from baseline to one-month follow-up||||0.0007
92419178|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0246||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing total knowledge score change between groups from post-intervention to one-month follow-up||||0.0246
92419179|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.078||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing zoster knowledge score change between groups from post-intervention to one-month follow-up||||0.0780
92390939|NCT01525615|184680911|SUPERIORITY_OR_OTHER||Treatment ratio|1.138|STANDARD_ERROR_OF_MEAN|0.063||0.0209|TWO_SIDED|95.0|1.02|1.269||Mixed effects Model for Repeated Measures (MMRM) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time), log10 (baseline endurance time) by test day interaction, and patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and placebo. This treatment comparison is the first one in the alpha-protected hierarchical testing chain.||1.269|1.020|0.0209
92390940|NCT01525615|184680911|SUPERIORITY_OR_OTHER||Treatment ratio|1.086|STANDARD_ERROR_OF_MEAN|0.061||0.1419|TWO_SIDED|95.0|0.973|1.213||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 2.5/5.0 and placebo. This treatment comparison is the second one in the alpha-protected hierarchical testing chain. Since the p-value for this treatment comparison is \>0.05, the hierarchical testing chain is broken and all of the following hypothesis tests in this hierarchical chain are considered as descriptive only.||1.213|0.973|0.1419
92390941|NCT01525615|184680911|SUPERIORITY_OR_OTHER||Treatment ratio|1.047|STANDARD_ERROR_OF_MEAN|0.057||0.397|TWO_SIDED|95.0|0.941|1.166||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and Tio+Olo 2.5/5.0. This treatment comparison is not included in the alpha-protected hierarchical testing chain.||1.166|0.941|0.3970
92390942|NCT01525615|184680912|SUPERIORITY_OR_OTHER||Tretament ratio|1.209|STANDARD_ERROR_OF_MEAN|0.119||0.0552|TWO_SIDED|95.0|0.996|1.467||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and placebo. Since the hierarchical testing chain has been broken, even though this treatment comparison is included as the 3rd one in the alpha-protected hierarchical testing chain, this hypothesis test is descriptive only.||1.467|0.996|0.0552
92390943|NCT01525615|184680912|SUPERIORITY_OR_OTHER||Treatment ratio|1.211|STANDARD_ERROR_OF_MEAN|0.121||0.0562|TWO_SIDED|95.0|0.995|1.475||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean, 95% confidence limits transformed from log10 to original scale. SE was calculated using the delta method. This hypothesis test is descriptive.||Treatment ratio between Tio+Olo 2.5/5.0 and placebo||1.475|0.995|0.0562
92390944|NCT01525615|184680912|SUPERIORITY_OR_OTHER||Treatment ratio|0.998|STANDARD_ERROR_OF_MEAN|0.095||0.9822|TWO_SIDED|95.0|0.826|1.205||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and Tio+Olo 2.5/5.0. This treatment comparison is not included in the alpha-protected hierarchical testing chain.||1.205|0.826|0.9822
92390945|NCT01525615|184680913|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.234|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|0.133|0.336||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|This hypothesis test is descriptive.|LSMean=Least square mean.|||0.336|0.133|<0.0001
92390946|NCT01525615|184680913|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.207|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|0.105|0.309||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|This hypothesis test is descriptive.||||0.309|0.105|<0.0001
92390947|NCT01525615|184680913|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.027|STANDARD_ERROR_OF_MEAN|0.05||0.5892|TWO_SIDED|95.0|-0.072|0.126||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|This hypothesis test is descriptive.||||0.126|-0.072|0.5892
92390948|NCT01525615|184680914|SUPERIORITY_OR_OTHER||Treatment ratio|1.126|STANDARD_ERROR_OF_MEAN|0.059||0.0245|TWO_SIDED|95.0|1.015|1.248||ANCOVA model for log10 (endurance time \[s\]) with categorical effects of treatment and (log10-transformed) baseline as continuous covariate.|ANCOVA|This hypothesis test is descriptive.||Treatment ratio between Tio+Olo 5.0/5.0 and placebo||1.248|1.015|0.0245
92419180|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0167||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing pneumonia knowledge score change between groups from post-intervention to one-month follow-up||||0.0167
92419181|NCT03239665|184726620|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.9417||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing influenza knowledge score change between groups from post-intervention to one-month follow-up||||0.9417
92419182|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0011||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from baseline to post-intervention"||||0.0011
92390949|NCT01525615|184680914|SUPERIORITY_OR_OTHER||Treatment ratio|1.103|STANDARD_ERROR_OF_MEAN|0.058||0.0655|TWO_SIDED|95.0|0.994|1.223|||ANCOVA|Descriptive||Treatment ratio between Tio+Olo 2.5/5.0 and placebo||1.223|0.994|0.0655
92390950|NCT01525615|184680914|SUPERIORITY_OR_OTHER||Treatment ratio|1.021|STANDARD_ERROR_OF_MEAN|0.053||0.6912|TWO_SIDED|95.0|0.921|1.132|||ANCOVA|Descriptive||Treatment ratio between Tio+Olo 5.0/5.0 and Tio+Olo 2.5/5.0||1.132|0.921|0.6912
92390951|NCT01525615|184680915|SUPERIORITY_OR_OTHER||Treatment ratio|1.229|STANDARD_ERROR_OF_MEAN|0.068||0.0002|TWO_SIDED|95.0|1.103|1.37||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and placebo. Hypothesis test is descriptive||1.370|1.103|0.0002
92390952|NCT01525615|184680915|SUPERIORITY_OR_OTHER||Treatment ratio|1.221|STANDARD_ERROR_OF_MEAN|0.068||0.0004|TWO_SIDED|95.0|1.095|1.362||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 2.5/5.0 and placebo. Hypothesis test is descriptive.||1.362|1.095|0.0004
92390953|NCT01525615|184680915|SUPERIORITY_OR_OTHER||Treatment ratio|1.006|STANDARD_ERROR_OF_MEAN|0.055||0.9062|TWO_SIDED|95.0|0.905|1.12||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and Tio+Olo 2.5/5.0. Hypothesis test is descriptive.||1.12|0.905|0.9062
92390954|NCT01525615|184680916|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.165|STANDARD_ERROR_OF_MEAN|0.058||0.0049|TWO_SIDED|95.0|0.051|0.279||ANCOVA model for inspiratory capacity (liters) with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||0.279|0.051|0.0049
92419183|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|||||<|0.0001||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from baseline to post-intervention"||||<0.0001
92419184|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0028||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from baseline to one-month follow-up"||||0.0028
92419185|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|||||<|0.0001||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from baseline to one-month follow-up"||||<0.0001
92419186|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||1||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from post-intervention to one-month follow-up"||||1.0
92419187|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.643||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from post-intervention to one-month follow-up"||||0.6430
92419188|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.1193||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from baseline to post-intervention"||||0.1193
92419189|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|||||<|0.0001||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from baseline to post-intervention"||||<0.0001
92419190|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.4861||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from baseline to one-month follow-up"||||0.4861
92419191|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0002||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from baseline to one-month follow-up"||||0.0002
92419192|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.3247||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from post-intervention to one-month follow-up"||||0.3247
92419193|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.4627||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from post-intervention to one-month follow-up"||||0.4627
92419194|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.1244||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.1244
92419195|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0575||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.0575
92419196|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.7489||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.7489
92390955|NCT01525615|184680916|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.202|STANDARD_ERROR_OF_MEAN|0.058||0.0006|TWO_SIDED|95.0|0.088|0.316||ANCOVA model for inspiratory capacity (liters) with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||0.316|0.088|0.0006
92390956|NCT01525615|184680916|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.037|STANDARD_ERROR_OF_MEAN|0.058||0.5162|TWO_SIDED|95.0|-0.151|0.076||ANCOVA model for inspiratory capacity (liters) with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||0.076|-0.151|0.5162
92390957|NCT01525615|184680917|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.225|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|0.124|0.326||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.326|0.124|<0.0001
92390958|NCT01525615|184680917|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.187|STANDARD_ERROR_OF_MEAN|0.052||0.0003|TWO_SIDED|95.0|0.086|0.288||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.288|0.086|0.0003
92390959|NCT01525615|184680917|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.038|STANDARD_ERROR_OF_MEAN|0.05||0.4541|TWO_SIDED|95.0|-0.061|0.137||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.137|-0.061|0.4541
92390960|NCT01525615|184680918|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.0468|TWO_SIDED|95.0|-0.004|0.0||ANCOVA model for mean slope of the intensity of breathing discomfort with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||-0.000|-0.004|0.0468
92390961|NCT01525615|184680918|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.018|TWO_SIDED|95.0|-0.005|0.0||ANCOVA model for mean slope of the intensity of breathing discomfort with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||-0.000|-0.005|0.0180
92390962|NCT01525615|184680918|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.6856|TWO_SIDED|95.0|-0.002|0.002||ANCOVA model for mean slope of the intensity of breathing discomfort with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||0.002|-0.002|0.6856
92390963|NCT01525615|184680919|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.003|STANDARD_ERROR_OF_MEAN|0.001||0.0081|TWO_SIDED|95.0|-0.005|-0.001||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||-0.001|-0.005|0.0081
92390964|NCT01525615|184680919|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.003|STANDARD_ERROR_OF_MEAN|0.001||0.0099|TWO_SIDED|95.0|-0.005|-0.001||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||-0.001|-0.005|0.0099
92390965|NCT01525615|184680919|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.9626|TWO_SIDED|95.0|-0.002|0.002||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.002|-0.002|0.9626
92390966|NCT01525615|184680920|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.0598|TWO_SIDED|95.0|-0.004|0.0||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.000|-0.004|0.0598
92390967|NCT01525615|184680920|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.003|STANDARD_ERROR_OF_MEAN|0.001||0.0218|TWO_SIDED|95.0|-0.005|0.0||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||-0.000|-0.005|0.0218
92390968|NCT01525615|184680920|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.6549|TWO_SIDED|95.0|-0.002|0.003||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.003|-0.002|0.6549
92390969|NCT01525615|184680921|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.17|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.116|0.224||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.224|0.116|<0.0001
92390970|NCT01525615|184680921|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.184|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.129|0.239||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.239|0.129|<0.0001
92390971|NCT01525615|184680921|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.014|STANDARD_ERROR_OF_MEAN|0.027||0.6105|TWO_SIDED|95.0|-0.067|0.04||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.040|-0.067|0.6105
92239736|NCT00696657|184383374|OTHER||Estimated treatment differences|-0.13|||||TWO_SIDED|95.0|-0.42|0.16|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.8 mg - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.16|-0.42|
92419197|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0098||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.0098
92419198|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.1797||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.1797
92419199|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.3613||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.3613
92419200|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.5972||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.5972
92419201|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.024||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.0240
92419202|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.2437||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.2437
92419203|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0631||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.0631
92419204|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.054||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.0540
92419205|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.7298||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.7298
92390972|NCT01525615|184680922|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.246|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.192|0.3||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.300|0.192|<0.0001
92170014|NCT03201562|184228664|SUPERIORITY||Odds Ratio (OR)|38.436||||0.0009|TWO_SIDED|90.0|6.262|235.936|||Generalized Estimating Equation (GEE)|GEE model includes 3-line improvement as response variable with sequence, period, treatment as fixed effect, subject within sequence as random effect.||||235.936|6.262|0.0009
92390973|NCT01525615|184680922|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.273|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.218|0.328||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.328|0.218|<0.0001
92390974|NCT01525615|184680922|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.027|STANDARD_ERROR_OF_MEAN|0.027||0.3236|TWO_SIDED|95.0|-0.08|0.027||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.027|-0.080|0.3236
92419206|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.4218||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.4218
92170015|NCT03201562|184228664|SUPERIORITY||Odds Ratio (OR)|36.893||||0.0012|TWO_SIDED|90.0|5.936|229.31|||Generalized Estimating Equation (GEE)|GEE model includes 3-line improvement as response variable with sequence, period, treatment as fixed effect, subject within sequence as random effect.||||229.310|5.936|0.0012
92390975|NCT01525615|184680923|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.251|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.196|0.305||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.305|0.196|<0.0001
92390976|NCT01525615|184680923|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.257|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.202|0.312||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.312|0.202|<0.0001
92390977|NCT01525615|184680923|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.006|STANDARD_ERROR_OF_MEAN|0.027||0.8156|TWO_SIDED|95.0|-0.06|0.047||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.047|-0.060|0.8156
92390978|NCT06083987|184680932|SUPERIORITY||Cohen's D|0.01||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|false discovery rate q-value calculated with Yekutieli method in Stata||||||0.86
92390979|NCT06083987|184680933|SUPERIORITY||Cohen's D|0.32||||0.31|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.31
92390980|NCT06083987|184680934|SUPERIORITY||Cohen's D|0.1||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.34
92390981|NCT06083987|184680935|SUPERIORITY||Cohen's D|0.45||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
92390982|NCT06083987|184680936|SUPERIORITY||Cohen's d|0.41||||0.22|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.22
92390983|NCT04473963|184680986|NON_INFERIORITY|Non-inferiority between subjects Randomized to Treatment vs subjects Randomized to Control||||||0.277|||||||Chi-squared|||||||0.277
92390984|NCT04473963|184680988|EQUIVALENCE|"Equivalence between subjects Randomized to Control and subjects Randomized to Treatment"||||||0.042|||||||Kaplan-Meyer Log Rank|||||||0.042
92419207|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.2282||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.2282
92390985|NCT04473963|184680993|EQUIVALENCE|"Equivalence between procedure time of subjects Randomized to Treatment and subjects Randomized to Control. The Not-Randomized group was not included in the analysis."|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92390986|NCT01717872|184680997|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||MAC blade lifting the tongue versus Miller blade lifting the epiglottis||||>0.05
92390987|NCT01717872|184680998|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92390988|NCT01717872|184680999|SUPERIORITY_OR_OTHER||||||<|0.0004|||||||Wilcoxon (Mann-Whitney)|||||||<0.0004
92390989|NCT03187119|184681005|SUPERIORITY||Slope|1.41||||0.42|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|linear mixed model|||The reference group for this model is the Pictorial Asthma Action Plan Group.||||0.42
92390990|NCT03187119|184681005|SUPERIORITY||Slope|-14.31||||0.03|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effect of time and the time x group interaction.|multiple linear regression.|||The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.03
92390991|NCT03187119|184681005|SUPERIORITY||Slope|-0.33||||0.89|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1 and 2 for the main effects of group and time.|multiple linear regression.|||The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.89
92390992|NCT03187119|184681006|SUPERIORITY||Slope|-1.59||||0.31|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|multiple linear regression.|||The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.31
92390993|NCT03187119|184681006|SUPERIORITY||Slope|1.9||||0.73|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effect of time and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.73
92390994|NCT03187119|184681006|SUPERIORITY||Slope|-0.21||||0.92|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1 and 2 for the main effects of group and time.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.92
92390995|NCT03187119|184681007|SUPERIORITY||Slope|0.52||||0.06|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|generalized linear mixed model|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.06
92390996|NCT03187119|184681007|SUPERIORITY||Slope|-1.57||||0.07|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 2 for the main effect of group and the time x group interaction.|generalized linear mixed model|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.07
92390997|NCT03187119|184681007|SUPERIORITY||Slope|0.37||||0.33|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 2 and 3 for the main effects of group and time.|generalized linear mixed model|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.33
92390998|NCT03187119|184681008|SUPERIORITY||Slope|-0.01||||0.002|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2-3 for the main effects of time and prescription and Analyses 4-6 for interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference group for this analysis is the Pictorial Asthma Action Plan group.||||.002
92419208|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.8711||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.8711
92390999|NCT03187119|184681008|SUPERIORITY||Slope|-0.16||||0.07|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effects of time and prescription and Analyses 4-6 for interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.07
92391000|NCT03187119|184681008|SUPERIORITY||Slope|0.43||||0.69|TWO_SIDED|||||The results listed here are for the main effect of prescription. Please see Analyses 1-2 for the main effects of time and group and Analyses 4-6 for interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference group for this analysis is the Pictorial Asthma Action Plan group.||||.69
92391001|NCT03187119|184681008|SUPERIORITY||Slope|0.02||||0.37|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1-3 for the main effects of group, time and prescription and Analyses 5-7 for other interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.37
92391002|NCT03187119|184681008|SUPERIORITY||Slope|-1.14||||0.12|TWO_SIDED|||||The results listed here are for the prescription x group interaction. Please see Analyses 1-3 for the main effects of group, time and prescription and Analyses 4 and 6 for other interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.12
92391003|NCT03187119|184681008|SUPERIORITY||Slope|0.01||||0.006|TWO_SIDED|||||The results listed here are for the time x PAAP group x prescription interaction. Please see Analyses 1-3 for the main effects of group, time and prescription and Analyses 4-5 for interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference groups for this analysis is the 2x per day group.||||0.006
92391004|NCT03187119|184681008|SUPERIORITY||Slope|0.04||||0.006|TWO_SIDED|||||The results listed here are for the time x WAAP group x prescription interaction. Please see Analyses 1-3 for the main effects of group, time and prescription and Analyses 4-5 for interactions.|generalized linear mixed model||These analyses are modeling lower adherence.|The reference group for this analysis is 2x per day group.||||0.006
92391005|NCT03187119|184681009|SUPERIORITY||Slope|0.08||||0.18|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.18
92391006|NCT03187119|184681009|SUPERIORITY||Slope|-0.09||||0.71|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effect of time and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.71
92391007|NCT03187119|184681009|SUPERIORITY||Slope|0.007||||0.96|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1 and 2 for the main effects of time and group.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.96
92391008|NCT03187119|184681011|SUPERIORITY||Slope|-0.02||||0.74|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.74
92391009|NCT03187119|184681011|SUPERIORITY||Slope|0.02||||0.83|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effect of time and the time x group interaction|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.83
92391010|NCT03187119|184681011|SUPERIORITY||Slope|-0.21||||0.03|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1 and 2 for the main effects of time and group.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.03
92391011|NCT03187119|184681012|SUPERIORITY||Slope|0.12||||0.08|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.08
92391012|NCT03187119|184681012|SUPERIORITY||Slope|-0.12||||0.25|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effect of time and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.25
92391013|NCT03187119|184681012|SUPERIORITY||Slope|-0.21||||0.03|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1 and 2 for the main effects of time and group.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.03
92391014|NCT03369418|184681024|SUPERIORITY|One tailed t-tests for independent groups were performed to test the hypothesis that active device will be superior to sham in decreasing the combined HAD score. This was accomplished by Contrast analysis within the framework of a random effects general linear mixed effects (RE GLMM) model.||||||0.013||||||A priori threshold for statistical significance was p\<.05.|t-test, 1 sided|||||||.013
92391015|NCT03369418|184681025|SUPERIORITY|||||||0.33|||||||t-test, 1 sided|||||||.33
92391016|NCT02859246|184681026|SUPERIORITY||||||<|0.04||||||A two tail P value of less than 0.05 was considered statistically significant.|Wilcoxon (Mann-Whitney)|||||||<0.04
92391017|NCT02859246|184681027|SUPERIORITY||||||<|0.2||||||A two tail P value of less than 0.05 was considered statistically significant.|Wilcoxon (Mann-Whitney)|||||||< 0.2
92391018|NCT00855816|184681032|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED|||||A priori threshold for significance: p\<.05.|Mixed Models Analysis|Mixed model based on intent to treat sample.||Null hypothesis: there will be no differences in PTSD hyperarousal symptom changes in individuals who did receive the experimental intervention vs. those who did not .||||.27
92391019|NCT01526213|184681033|SUPERIORITY_OR_OTHER||Geometric Mean AUC Ratio (GFJ/mGFJ)|0.96||||0.78|TWO_SIDED|90.0|0.4|1.5|||t-test, 2 sided|||For juice comparisons, fexofenadine + furanocoumarin-free grapefruit juice will be the test agent (numerator) and fexofenadine + grapefruit juice will be the reference standard (denominator).||1.5|0.4|0.78
92391020|NCT03573323|184681034|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92391021|NCT03573323|184681035|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92391022|NCT03573323|184681036|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92391023|NCT03573323|184681037|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92391024|NCT03573323|184681038|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92391025|NCT03573323|184681039|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92391026|NCT03573323|184681040|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92419209|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0027||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.0027
92391027|NCT03573323|184681041|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92391028|NCT03573323|184681042|SUPERIORITY|||||||0.414|||||||Cochran-Mantel-Haenszel|||||||0.414
92391029|NCT04502290|184681056|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Paired t-test was used, where null hypothesis stated that the percent change in the number of blocks after intervention will be not statistically significant.||||.04
92391030|NCT04502290|184681057|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Paired t-test was used, where null hypothesis stated that the percent change in the motor evoked potnetial after intervention will be not statistically significant.||||.02
92419210|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.7579||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.7579
92391031|NCT04502290|184681058|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Paired t-test was used, where null hypothesis stated that the percent change in the force after intervention will be not statistically significant.||||.04
92391032|NCT01290614|184681097|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||t-test, 2 sided|||||||0.57
92391033|NCT01290614|184681098|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92391034|NCT02109640|184681101|SUPERIORITY_OR_OTHER||Absolute percentage difference|17.1||||0.264|TWO_SIDED|95.0|-10.0|40.7||Absolute % difference 17.1 (95% CI -10.0,40.7)|Fisher Exact|||||40.7|-10.0|0.264
92391035|NCT02109640|184681102|SUPERIORITY_OR_OTHER|||||||0.222|||||||t-test, 2 sided|||||||0.222
92391036|NCT02109640|184681103|SUPERIORITY_OR_OTHER|||||||0.676|||||||t-test, 2 sided|||||||0.676
92391037|NCT02336230|184681106|OTHER|||||||0.0003||||||P-value was calculated from the binomial distribution under the assumption of a 0.45 success rate for the null hypothesis.|Binomial Distribution|||||||0.0003
92391038|NCT02336230|184681108|OTHER|||||||0.0032||||||P-value was from a Cochran-Mantel-Haenszel (CMH) test stratified by baseline aGVHD grade.|CHM test|||||||0.0032
92391039|NCT01379183|184681115|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92391040|NCT01379183|184681116|SUPERIORITY_OR_OTHER|||||||0.27|||||||ANCOVA|||||||0.27
92391041|NCT01379183|184681117|SUPERIORITY_OR_OTHER|||||||0.96|||||||ANCOVA|||||||0.96
92391042|NCT01379183|184681118|SUPERIORITY_OR_OTHER|||||||0.71|||||||ANCOVA|||||||0.71
92391043|NCT01379183|184681119|SUPERIORITY_OR_OTHER|||||||0.37|||||||ANCOVA|||||||0.37
92391044|NCT01379183|184681120|SUPERIORITY_OR_OTHER|||||||0.12|||||||ANCOVA|||||||0.12
92391045|NCT01695135|184681124|SUPERIORITY||Hazard Ratio (HR)|0.528||||0.0002|TWO_SIDED|95.0|0.376|0.74|||Log Rank|||||0.740|0.376|0.0002
92391046|NCT00216671|184681167|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of early initiation was inferred if the upper 95% confidence boundary for the difference of change in PANSS total score from baseline in favor of the routine approach is less than 6.|Mean Difference (Net)|-1.13|STANDARD_ERROR_OF_MEAN|4.1||0.784|TWO_SIDED|95.0|-9.24|6.99||An ANCOVA model with treatment as factor was used. The comparison between the 2 treatment groups was performed based on the least-squares means obtained from the ANCOVA model.|ANCOVA|||Assuming a difference of 3 points in favor of early initiation of treatment with Risperdal Consta, a sample size of 87 subjects per treatment arm has a power of 80% to demonstrate non-inferiority at the 0.025-level (1-sided). It was expected that about 20% of randomized subjects had to be excluded from the per-protocol (PP) analysis. Therefore, 220 subjects were to be included.||6.99|-9.24|0.784
92391047|NCT00216671|184681170|SUPERIORITY_OR_OTHER|||||||0.8||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon two sample test|||Between-group comparison of the change in CGI-S from baseline to endpoint was analyzed as is with no derived calculations. CGI-S scores were coded as follows: 0=normal, not at all ill, 1=borderline, etc. and 6=among the most extremely ill patients.The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||0.800
92391048|NCT00216671|184681170|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in CGI-S from baseline to endpoint was analyzed as is with no derived calculations. CGI-S scores were coded as follows: 0=normal, not at all ill, 1=borderline, etc. and 6=among the most extremely ill patients.||||<0.001
92391049|NCT00216671|184681170|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in CGI-S from baseline to endpoint was analyzed as is with no derived calculations. CGI-S scores were coded as follows: 0=normal, not at all ill, 1=borderline, etc. and 6=among the most extremely ill patients.||||<0.001
92391050|NCT00216671|184681171|SUPERIORITY_OR_OTHER|||||||0.798||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon two sample test|||Between-group comparison of the change in GAF from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||0.798
92391051|NCT00216671|184681171|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in GAF from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
92391052|NCT00216671|184681171|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in GAF from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
92391053|NCT00216671|184681172|SUPERIORITY_OR_OTHER|||||||0.519||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon two sample test|||Between-group comparison of the change in SF-12 PCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||0.519
92391054|NCT00216671|184681172|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in SF-12 PCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
92391055|NCT00216671|184681172|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in SF-12 PCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
92391056|NCT00216671|184681172|SUPERIORITY_OR_OTHER|||||||0.721||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon two sample test|||Between-group comparison of the change in SF-12 MCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||0.721
92419211|NCT03239665|184726621|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.1299||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.1299
92419212|NCT03239665|184726623|EQUIVALENCE|Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.||||||1||||||Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.|Fisher Exact|||Testing between-group differences in dichotomous engagement in the program immediately post-intervention via Fisher's Exact test||||1.0
92170016|NCT03201562|184228664|SUPERIORITY||Odds Ratio (OR)|1.042||||0.9298|TWO_SIDED|90.0|0.485|2.239|||Generalized Estimating Equation (GEE)|GEE model includes 3-line improvement as response variable with sequence, period, treatment as fixed effect, subject within sequence as random effect||||2.239|0.485|0.9298
92391057|NCT00216671|184681172|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in SF-12 MCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
92391058|NCT00216671|184681172|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in SF-12 MCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
92391059|NCT02714569|184681174|NON_INFERIORITY|Analyses were based on a pre-defined non-inferiority margin|Least Square Means Percentage|204.8|||||TWO_SIDED|90.0|161.9|259.0|||||Analysis was the estimate of the ratio fasted versus fed.|Geometric Mean Fed/Fasted Ratio of LY3202328 Cmax at 30 mg||259.0|161.9|
92391060|NCT02714569|184681176|NON_INFERIORITY|Analyses were based on a pre-defined non-inferiority margin|Least Squares Mean Percentage|193.3|||||TWO_SIDED|90.0|144.7|258.2||||||Geometric Mean Fed/Fasted Ratio of LY3202328 AUC(0-inf) at 30 mg||258.2|144.7|
92235769|NCT03114969|184374777|SUPERIORITY||Odds Ratio (OR)|15.06||||0.063|TWO_SIDED|95.0|0.866|262.042||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||262.042|0.866|0.063
92391061|NCT02714569|184681188|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|141.0|||||TWO_SIDED|90.0|67.9|293.0||||||Part B Placebo||293.0|67.9|
92391062|NCT02714569|184681188|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|70.8|||||TWO_SIDED|90.0|31.9|157.1||||||Part B 5 mg LY||157.1|31.9|
92391063|NCT02714569|184681188|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|109.2|||||TWO_SIDED|90.0|99.8|119.5||||||Part B 20 mg LY||119.5|99.8|
92391064|NCT02714569|184681188|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|107.7|||||TWO_SIDED|90.0|68.1|170.4||||||Part B 100 mg LY||170.4|68.1|
92391065|NCT02714569|184681188|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|213.3|||||TWO_SIDED|90.0|200.3|227.1||||||Part B 300 mg LY||227.1|200.3|
92391066|NCT02714569|184681188|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|115.4|||||TWO_SIDED|90.0|91.2|146.2||||||Part B Overall||146.2|91.2|
92391067|NCT02714569|184681189|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|155.0|||||TWO_SIDED|90.0|87.6|274.2||||||Part B Placebo||274.2|87.6|
92391068|NCT02714569|184681189|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|71.5|||||TWO_SIDED|90.0|40.7|125.3||||||Part B 5 mg LY||125.3|40.7|
92391069|NCT02714569|184681189|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratios (%)|122.4|||||TWO_SIDED|90.0|90.7|165.1||||||Part B 20 mg LY||165.1|90.7|
92419213|NCT03239665|184726623|EQUIVALENCE|Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.||||||0.6806||||||Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.|Fisher Exact|||Testing between-group differences in dichotomous engagement in the program at the one-month follow-up via Fisher's Exact test||||0.6806
92391070|NCT02714569|184681189|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|136.6|||||TWO_SIDED|90.0|89.8|207.7||||||Part B 100 mg LY||207.7|89.8|
92391071|NCT02714569|184681189|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|132.6|||||TWO_SIDED|90.0|90.5|194.4||||||Part B 300 mg LY||194.4|90.5|
92391072|NCT02714569|184681189|OTHER|Ratio estimate without hypothesis|Geometric Least Squares Mean Ratio (%)|112.2|||||TWO_SIDED|90.0|93.2|135.1||||||Part B Overall||135.1|93.2|
92391073|NCT02714569|184681190|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|97.3|||||TWO_SIDED|90.0|80.4|117.8||||||Part B Placebo||117.8|80.4|
92391074|NCT02714569|184681190|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|57.5|||||TWO_SIDED|90.0|31.3|106.0||||||||106.0|31.3|
92391075|NCT02714569|184681190|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|96.2|||||TWO_SIDED|90.0|66.8|138.7||||||Part B 20 mg LY||138.7|66.8|
92391076|NCT02714569|184681190|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|80.9|||||TWO_SIDED|90.0|45.8|142.7||||||Part B 100 mg LY||142.7|45.8|
92391077|NCT02714569|184681190|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|108.2|||||TWO_SIDED|90.0|40.2|291.2||||||Part B 300 mg LY||291.2|40.2|
92391078|NCT02714569|184681190|OTHER|Ratio estimate without hypothesis|Geometric Least Squares Mean Ratio (%)|87.9|||||TWO_SIDED|90.0|67.4|114.7||||||Part B Overall||114.7|67.4|
92391079|NCT02714569|184681191|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|96.0|||||TWO_SIDED|90.0|90.2|102.1||||||Part B Placebo||102.1|90.2|
92419214|NCT03239665|184726623|EQUIVALENCE|Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.||||||1||||||Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.|Fisher Exact|||Testing between-group differences in dichotomous satisfaction with the program's content immediately post-intervention via Fisher's Exact test||||1.0
92419215|NCT03239665|184726623|EQUIVALENCE|Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.||||||0.4908||||||Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.|Fisher Exact|||Testing between-group differences in dichotomous satisfaction with the program's content at the one-month follow-up via Fisher's Exact test||||0.4908
92391080|NCT02714569|184681191|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|90.7|||||TWO_SIDED|90.0|59.8|137.6||||||Part B 5 mg LY||137.6|59.8|
92391081|NCT02714569|184681191|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|99.9|||||TWO_SIDED|90.0|75.9|131.5||||||Part B 20 mg LY||131.5|75.9|
92391082|NCT02714569|184681191|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|91.0|||||TWO_SIDED|90.0|67.5|122.7||||||Part B 100 mg LY||122.7|67.5|
92391083|NCT02714569|184681191|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|87.0|||||TWO_SIDED|90.0|42.0|180.5||||||Part B 300 mg LY||180.5|42.0|
92391084|NCT02714569|184681191|OTHER|Ratio estimate without hypothesis|Geometric Least Squares Mean Ratio (%)|93.5|||||TWO_SIDED|90.0|81.8|106.9||||||Part B Overall||106.9|81.8|
92391085|NCT00666406|184681232|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.173|||||TWO_SIDED|90.0|1.089|1.262||||||||1.262|1.089|
92391086|NCT00666406|184681233|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.139|||||TWO_SIDED|90.0|1.043|1.243||||||||1.243|1.043|
92391087|NCT00666406|184681234|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.06|||||TWO_SIDED|90.0|0.866|1.297||||||||1.297|0.866|
92391088|NCT00666406|184681235|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.071|||||TWO_SIDED|90.0|0.972|1.179||||||||1.179|0.972|
92391089|NCT00666406|184681236|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.171|||||TWO_SIDED|90.0|1.099|1.247||||||||1.247|1.099|
92391090|NCT00666406|184681237|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.135|||||TWO_SIDED|90.0|1.092|1.18||||||||1.180|1.092|
92391091|NCT00666406|184681238|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.036|||||TWO_SIDED|90.0|0.857|1.253||||||||1.253|0.857|
92391092|NCT00666406|184681239|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.093|||||TWO_SIDED|90.0|1.007|1.186||||||||1.186|1.007|
92391093|NCT00666406|184681240|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.854|||||TWO_SIDED|90.0|0.798|0.913||||||||0.913|0.798|
92391094|NCT00666406|184681241|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.881|||||TWO_SIDED|90.0|0.847|0.916||||||||0.916|0.847|
92391095|NCT00666406|184681242|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.964|||||TWO_SIDED|90.0|0.799|1.164||||||||1.164|0.799|
92419216|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.7728|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive zoster vaccine at baseline via Chi-squared test||||0.7728
92391096|NCT00666406|184681243|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.915|||||TWO_SIDED|90.0|0.841|0.995||||||||0.995|0.841|
92419217|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.6871|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive zoster vaccine post-intervention via Chi-squared test||||0.6871
92235770|NCT03114969|184374778|SUPERIORITY||Odds Ratio (OR)|2.67||||0.239|TWO_SIDED|95.0|0.521|13.69||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||13.690|0.521|0.239
92419218|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8259|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive zoster vaccine at one-month follow-up via Chi-squared test||||0.8259
92419219|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8868|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive influenza vaccine at baseline via Chi-squared test||||0.8868
92419220|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8069|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive influenza vaccine post-intervention via Chi-squared test||||0.8069
92419221|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8489|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive influenza vaccine at one-month follow-up via Chi-squared test||||0.8489
92419222|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.3985|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive pneumonia vaccine at baseline via Chi-squared test||||0.3985
92419223|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.1722|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive pneumonia vaccine post-intervention via Chi-squared test||||0.1722
92419224|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.7318|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive pneumonia vaccine at one-month follow-up via Chi-squared test||||0.7318
92419225|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.6309|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive zoster vaccine post-intervention via Chi-squared test||||0.6309
92419226|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.7881|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive zoster vaccine at one-month follow-up via Chi-squared test||||0.7881
92391097|NCT00666406|184681244|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.177|||||TWO_SIDED|90.0|1.104|1.256||||||||1.256|1.104|
92419227|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.6798|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive influenza vaccine post-intervention via Chi-squared test||||0.6798
92419228|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8548|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive influenza vaccine at one-month follow-up via Chi-squared test||||0.8548
92419229|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.3182|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive pneumonia vaccine post-intervention via Chi-squared test||||0.3182
92419230|NCT03239665|184726624|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.7986|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive pneumonia vaccine at one-month follow-up via Chi-squared test||||0.7986
92419231|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0163|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of zoster vaccine at baseline via Chi-squared test||||0.0163
92419232|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0028|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of zoster vaccine post-intervention via Chi-squared test||||0.0028
92419233|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0433|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of zoster vaccine at one-month follow-up via Chi-squared test||||0.0433
92419234|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0592|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of influenza vaccine at baseline via Chi-squared test||||0.0592
92419235|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.1843|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of influenza vaccine post-intervention via Chi-squared test||||0.1843
92391098|NCT00666406|184681245|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.152|||||TWO_SIDED|90.0|1.039|1.277||||||||1.277|1.039|
92391099|NCT00666406|184681246|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.182|||||TWO_SIDED|90.0|1.029|1.359||||||||1.359|1.029|
92391100|NCT00666406|184681247|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.133|||||TWO_SIDED|90.0|1.01|1.27||||||||1.270|1.010|
92391101|NCT00666406|184681248|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.008|||||TWO_SIDED|90.0|0.969|1.05||||||||1.050|0.969|
92419236|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.5933|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of influenza vaccine at one-month follow-up via Chi-squared test||||0.5933
92419237|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.3942|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of pneumonia vaccine at baseline via Chi-squared test||||0.3942
92419238|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.9062|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of pneumonia vaccine post-intervention via Chi-squared test||||0.9062
92419239|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.9618|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of pneumonia vaccine at one-month follow-up via Chi-squared test||||0.9618
92419240|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.114|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants reporting positive history of zoster vaccine at one-month follow-up via Chi-squared test||||0.1140
92419241|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0141|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants reporting positive history of influenza vaccine at one-month follow-up via Chi-squared test||||0.0141
92419242|NCT03239665|184726625|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0457|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants reporting positive history of pneumonia vaccine at one-month follow-up via Chi-squared test||||0.0457
92235771|NCT03114969|184374778|SUPERIORITY||Odds Ratio (OR)|2.929||||0.2|TWO_SIDED|95.0|0.567|15.125||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||15.125|0.567|0.200
92391102|NCT00666406|184681249|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.964|||||TWO_SIDED|90.0|0.843|1.102||||||||1.102|0.843|
92419243|NCT03239665|184726626|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.6153|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their doctor at baseline via Chi-squared test||||0.6153
92419244|NCT03239665|184726626|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8299|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their doctor post-intervention via Chi-squared test||||0.8299
92419245|NCT03239665|184726626|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0405|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their doctor at one-month follow-up via Chi-squared test||||0.0405
92419246|NCT03239665|184726626|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.3776|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their pharmacist at baseline via Chi-squared test||||0.3776
92419247|NCT03239665|184726626|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.2856|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their pharmacist post-intervention via Chi-squared test||||0.2856
92239737|NCT00696657|184383374|OTHER||Estimated treatment differences|0.24|||||TWO_SIDED|95.0|-0.05|0.52|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.4 mg - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.52|-0.05|
92391103|NCT00666406|184681250|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.038|||||TWO_SIDED|90.0|0.926|1.163||||||||1.163|0.926|
92419248|NCT03239665|184726626|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0016|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their pharmacist at one-month follow-up via Chi-squared test||||0.0016
92239738|NCT00696657|184383374|OTHER||Estimated treatment differences|0.44|||||TWO_SIDED|95.0|0.15|0.73|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.2 mg - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.73|0.15|
92391104|NCT00666406|184681251|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.015|||||TWO_SIDED|90.0|0.901|1.144||||||||1.144|0.901|
92391105|NCT00666406|184681252|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.178|||||TWO_SIDED|90.0|1.106|1.254||||||||1.254|1.106|
92391106|NCT00666406|184681253|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.152|||||TWO_SIDED|90.0|1.038|1.279||||||||1.279|1.038|
92391107|NCT00666406|184681254|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.183|||||TWO_SIDED|90.0|1.027|1.362||||||||1.362|1.027|
92391108|NCT00666406|184681255|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.133|||||TWO_SIDED|90.0|1.012|1.27||||||||1.270|1.012|
92391109|NCT00666406|184681256|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.009|||||TWO_SIDED|90.0|0.964|1.056||||||||1.056|0.964|
92391110|NCT00666406|184681257|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.971|||||TWO_SIDED|90.0|0.849|1.112||||||||1.112|0.849|
92419249|NCT03239665|184726626|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.9449|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their family/friends at baseline via Chi-squared test||||0.9449
92419250|NCT03239665|184726626|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.6143|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their family/friends post-intervention via Chi-squared test||||0.6143
92391111|NCT00666406|184681258|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.02|||||TWO_SIDED|90.0|0.938|1.109||||||||1.109|0.938|
92391112|NCT00666406|184681259|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.996|||||TWO_SIDED|90.0|0.894|1.111||||||||1.111|0.894|
92391113|NCT00666406|184681260|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.0|||||TWO_SIDED|90.0|1.0|1.0||||||||1.000|1.000|
92391114|NCT00666406|184681261|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.303|||||TWO_SIDED|90.0|0.841|2.02||||||||2.020|0.841|
92391115|NCT00666406|184681262|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.724|||||TWO_SIDED|90.0|0.304|1.728||||||||1.728|0.304|
92391116|NCT00666406|184681263|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.059|||||TWO_SIDED|90.0|0.442|2.539||||||||2.539|0.442|
92391117|NCT00666406|184681264|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.862|||||TWO_SIDED|90.0|0.807|0.92||||||||0.920|0.807|
92391118|NCT00666406|184681265|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.855|||||TWO_SIDED|90.0|0.73|1.002||||||||1.002|0.730|
92419251|NCT03239665|184726626|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0036|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their family/friends at one-month follow-up via Chi-squared test||||0.0036
92419252|NCT03239665|184726627|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.|||||<|0.0001|||||||Chi-squared|||Testing between-group differences in number of participants having discussed vaccines with their doctor at one-month follow-up via Chi-squared test||||<0.0001
92280564|NCT02928848|184463676|OTHER|||||||0.14||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Repeated-measures analysis of variance (RM-ANOVA) with Condition (active, sham) and time point (baseline, 0-week) as within-subject factors. Analysis tests whether active vs. sham stimulation confers a greater improvement in overall language ability, as measured by the Western Aphasia Battery Aphasia Quotient (WAB-AQ), that endures over time.||||0.14
92391119|NCT00666406|184681266|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.984|||||TWO_SIDED|90.0|0.788|1.228||||||||1.228|0.788|
92419253|NCT03239665|184726627|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0012|||||||Chi-squared|||Testing between-group differences in number of participants having discussed vaccines with their pharmacist at one-month follow-up via Chi-squared test||||0.0012
92419254|NCT03239665|184726627|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0034|||||||Chi-squared|||Testing between-group differences in number of participants having discussed vaccines with their family/friends at one-month follow-up via Chi-squared test||||0.0034
92391120|NCT00666406|184681267|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.911|||||TWO_SIDED|90.0|0.8|1.039||||||||1.039|0.800|
92391121|NCT01219985|184681272|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||McNemar|||We performed a McNemar test to compare the sensitivities obtained for each PET image method||||<0.001
92419255|NCT04777331|184726666|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0657|TWO_SIDED|95.0|0.69|1.01|||Log Rank|||Stratified Analysis||1.01|0.69|0.0657
92419256|NCT04777331|184726667|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0914|TWO_SIDED|95.0|0.66|1.03|||Cox-regression adjusted|||||1.03|0.66|0.0914
92419257|NCT04777331|184726668|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1574|TWO_SIDED|95.0|0.73|1.05|||Cox-regression adjusted|||||1.05|0.73|0.1574
92419258|NCT04777331|184726669|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0622|TWO_SIDED|95.0|0.69|1.01|||Cox-regression adjusted|||||1.01|0.69|0.0622
92419259|NCT04777331|184726670|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.5515|TWO_SIDED|95.0|0.75|1.17|||Cox-regression adjusted|||||1.17|0.75|0.5515
92419260|NCT04777331|184726671|SUPERIORITY||Difference in Adjusted Means|-0.39||||0.5944|TWO_SIDED|95.0|-1.84|1.05|||Mixed-model for Repeated Measures (MMRM)|||||1.05|-1.84|0.5944
92391122|NCT01219985|184681273|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||The null hypothesis was : lesions' SUVmax are equivalent with our without application of the CT-Based respiratory-gated PET method.||||<0.001
92391123|NCT01369784|184681288|SUPERIORITY_OR_OTHER|||||||0.812|||||||Fisher Exact|||||||0.812
92391124|NCT01369784|184681289|SUPERIORITY_OR_OTHER|||||||0.612|||||||Chi-squared|||||||0.612
92391125|NCT01369784|184681290|SUPERIORITY_OR_OTHER|||||||0.402|||||||Chi-squared|||||||0.402
92391126|NCT01369784|184681291|SUPERIORITY_OR_OTHER|||||||0.557|||||||Chi-squared|||||||0.557
92391127|NCT01369784|184681292|SUPERIORITY_OR_OTHER|||||||0.234|||||||Chi-squared|||||||0.234
92391128|NCT01369784|184681293|SUPERIORITY_OR_OTHER|||||||0.057|||||||Fisher Exact|||||||0.057
92391129|NCT01369784|184681294|SUPERIORITY_OR_OTHER|||||||0.117|||||||Fisher Exact|||||||0.117
92391130|NCT02905266|184681306|SUPERIORITY||Percent Difference in incidence rates|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Fixed Ratio Combination over Sequential Combination|||0.0|0.0|
92391131|NCT02905266|184681314|SUPERIORITY||Percent Difference of ORRs|-7.5|||||TWO_SIDED|95.0|-26.1|11.0|||||Cochran-Mantel-Haenszel (CMH) method of weighting|||11.0|-26.1|
92391132|NCT02905266|184681314|SUPERIORITY||Odds Ratio (OR)|0.75|||||TWO_SIDED|95.0|0.35|1.58||||||||1.58|0.35|
92391133|NCT02905266|184681315|SUPERIORITY||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|0.78|2.37|||||Stratified Cox proportional hazard model|||2.37|0.78|
92391134|NCT02905266|184681316|SUPERIORITY||Cochran-Mantel-Haenszel Odds Ratio|0.87|||||TWO_SIDED|95.0|0.3|2.49|||||Fixed Ratio Combination over Sequential Combination|||2.49|0.30|
92391135|NCT02905266|184681316|SUPERIORITY||Percent difference in incidence rates|-1.9|||||TWO_SIDED|95.0|-16.0|12.2|||||Fixed Ratio Combination over Sequential Combination|||12.2|-16.0|
92391136|NCT00596752|184681321|SUPERIORITY_OR_OTHER|||||||0.2587||||||For confirmatory hypothesis testing the p-values of the normal approximation test for comparing two rates was used as input for the weighted inverse normal method. The 1-sided boundary p-value for stage 1 is given by p1=0.00587.|Cochran-Mantel-Haenszel|The 2 primary endpoints were tested at one-sided 0.0125 each so that the overall type I error rate of 0.025 was controlled in a strong sense.||"Primary goal was to test the following null hypothesis:~H01: πhealingPGE1≤ πhealingPlacebo, with πhealing=proportion of subjects with complete ulcer healing. The planned information rate for stage 1 of the two-stage group sequential test design with an overall one-sided comparison-wise α=0.0125 for this co-primary endpoint is given by 0.83.~This is the statistical analysis of stage 1."||||0.2587
92419261|NCT04777331|184726672|SUPERIORITY||Difference in Adjusted Means|0.08||||0.8955|TWO_SIDED|95.0|-1.08|1.24|||MMRM|||||1.24|-1.08|0.8955
92419262|NCT00400153|184726689|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.05 liter|Mean Difference (Final Values)|-0.0035|STANDARD_ERROR_OF_MEAN|0.0095||0.7135||95.0|-0.0222|0.0152|||ANCOVA|||||0.0152|-0.0222|0.7135
92419263|NCT00400153|184726690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001||95.0|0.028|0.066|||ANCOVA|||||0.066|0.028|< 0.0001
92419264|NCT00400153|184726691|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.05 liters|Mean Difference (Final Values)|-0.017|STANDARD_ERROR_OF_MEAN|0.011||0.1389||95.0|-0.039|0.005|||ANCOVA|||||0.005|-0.039|0.1389
92170017|NCT00780234|184228669|OTHER||Regression model parameter (α1)|-0.4|STANDARD_ERROR_OF_MEAN|0.63||0.53|TWO_SIDED|95.0|-1.68|0.89|||Regression, Linear|The estimates of treatment effect were adjusted for baseline histology values.||"The hypotheses tested were:~H0: α1 = 0 vs H1: α1 \~= 0"|The hypothesis test was a 2-sided t-test of the effect of group (i.e. the difference between the pioglitazone and placebo groups). The general form of the model is Y = α0 + α1GROUP + α2BASELINE. Y represents the 6-month value of the dependent variable (summary of the histology), GROUP represents a classification variable for the treatment group (1=pioglitazone, 2=placebo), BASELINE represents the value of the outcome measure at baseline, and α0, α1 and α2 represent the parameter estimates from the general linear model. The test of the difference between groups will be the formal test of significance of the α1 parameter.|0.89|-1.68|0.53
92391137|NCT00596752|184681321|SUPERIORITY_OR_OTHER|||||||0.3463||||||For confirmatory hypothesis testing the p-values of the normal approximation test for comparing two rates was used as input for the weighted inverse normal method. The 1-sided boundary p-value for stage 1 and 2 combined is given by p2=0.01085.|Cochran-Mantel-Haenszel|The 2 primary endpoints were tested at one-sided 0.0125 each so that the overall type I error rate of 0.025 was controlled in a strong sense.||"Primary goal was to test the following null hypothesis:~H01: πhealingPGE1≤ πhealingPlacebo, with πhealing=proportion of subjects with complete ulcer healing.~This is the statistical analysis of stage 1 and stage 2 combined."||||0.3463
92419265|NCT00400153|184726692|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established for this comparison.|Mean Difference (Final Values)|-0.016|STANDARD_ERROR_OF_MEAN|0.01||0.124||95.0|-0.036|0.004|||ANCOVA|||||0.004|-0.036|0.124
92419266|NCT00400153|184726693|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established for this comparison.|Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.01||0.4888||95.0|-0.026|0.013|||ANCOVA|||||0.013|-0.026|0.4888
92419267|NCT00400153|184726694|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established for this comparison.|Mean Difference (Final Values)|-0.014||||0.1433||95.0|-0.033|0.005|||ANCOVA|||||0.005|-0.033|0.1433
92419268|NCT00400153|184726695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.04|0.083|||ANCOVA|||This analysis is purely exploratory.||0.083|0.04|< 0.0001
92170018|NCT04690556|184228691|EQUIVALENCE|Therapeutic equivalence was assessed based on the two-sided 90% Confidence Interval (CI) of the difference in least squares mean changes in BCVA from baseline at month 12 between LUBT010 and Lucentis for the pre-defined equivalence margin of (-4 letters, 4 letters).|Least squares mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.945|||TWO_SIDED|90.0|-1.52|1.58|||||Therapeutic equivalence met|LUBT010 (Proposed Ranibizumab Biosimilar) - Lucentis||1.58|-1.52|
92280565|NCT02928848|184463677|OTHER|||||||0.02||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Repeated-measures analysis of variance (RM-ANOVA) with Condition (active, sham) and time point (baseline, 0-weeks) as within-subject factors. Analysis tests whether active vs. sham stimulation confers a greater improvement in naming ability, as measured by the naming subtest of the WAB, that endures over time.||||.02
92280566|NCT00663871|184463692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.04||||0.59|TWO_SIDED|95.0|-0.27|0.19|||ANOVA|||||0.19|-0.27|0.59
92419269|NCT00400153|184726696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001||95.0|0.024|0.065|||ANCOVA|||This analysis is purely exploratory.||0.065|0.024|< 0.0001
92419270|NCT00400153|184726697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001||95.0|0.027|0.067|||ANCOVA|||This analysis is purely exploratory.||0.067|0.027|< 0.0001
92419271|NCT00400153|184726698|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.026|STANDARD_ERROR_OF_MEAN|0.012||0.0258||95.0|0.003|0.049|||ANCOVA|||||0.049|0.003|0.0258
92419272|NCT00400153|184726699|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.011||0.3749||95.0|-0.032|0.012|||ANCOVA|||||0.012|-0.032|0.3749
92419273|NCT00400153|184726700|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.011||0.3355||95.0|-0.033|0.011|||ANCOVA|||||0.011|-0.033|0.3355
92419274|NCT00400153|184726701|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.011||0.0743||95.0|-0.042|0.002|||ANCOVA|||||0.002|-0.042|0.0743
92419275|NCT00400153|184726702|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.011||0.5711||95.0|-0.015|0.028|||ANCOVA|||||0.028|-0.015|0.5711
92419276|NCT00400153|184726703|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.011||0.2274||95.0|-0.033|0.008|||ANCOVA|||||0.008|-0.033|0.2274
92419277|NCT00400153|184726704|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.011||0.8065||95.0|-0.018|0.024|||ANCOVA|||||0.024|-0.018|0.8065
92419278|NCT00400153|184726705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.043|0.087|||ANCOVA|||This analysis is purely exploratory.||0.087|0.043|< 0.0001
92419279|NCT00400153|184726706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.044|0.087|||ANCOVA|||This analysis is purely exploratory.||0.087|0.044|< 0.0001
92419280|NCT00400153|184726707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.04|0.081|||ANCOVA|||This analysis is purely exploratory.||0.081|0.04|< 0.0001
92391138|NCT00596752|184681322|SUPERIORITY_OR_OTHER|||||||0.0173||||||For confirmatory hypothesis testing the p-values of the normal approximation test for comparing two rates was used as input for the weighted inverse normal method. The 1-sided boundary p-value for stage 1 is given by p1=0.00587.|Cochran-Mantel-Haenszel|The 2 primary endpoints were tested at one-sided 0.0125 each so that the overall type I error rate of 0.025 was controlled in a strong sense.||"Primary goal was to test the following null hypothesis:~H02: πampPGE1≥ πampPlacebo, with πamp=proportion of subjects with major amputations.~The planned information rate for stage 1 of the two-stage group sequential test design with an overall one-sided comparison-wise α=0.0125 for this co-primary endpoint is given by 0.83.~This is the statistical analysis of stage 1."||||0.0173
92391139|NCT00596752|184681322|SUPERIORITY_OR_OTHER|||||||0.1154||||||For confirmatory hypothesis testing the p-values of the normal approximation test for comparing two rates was used as input for the weighted inverse normal method. The 1-sided boundary p-value for stage 1 and 2 combined is given by p2=0.01085.|Cochran-Mantel-Haenszel|The 2 primary endpoints were tested at one-sided 0.0125 each so that the overall type I error rate of 0.025 was controlled in a strong sense.||"Primary goal was to test the following null hypothesis:~H02: πampPGE1≥ πampPlacebo, with πamp=proportion of subjects with major amputations.~This is the statistical analysis of stage 1 and stage 2 combined."||||0.1154
92419281|NCT00400153|184726708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.047|0.089|||ANCOVA|||This analysis is purely exploratory.||0.089|0.047|< 0.0001
92419282|NCT00400153|184726721|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.017|STANDARD_ERROR_OF_MEAN|0.021||0.417||95.0|-0.058|0.024|||ANCOVA|||||0.024|-0.058|0.417
92419283|NCT00400153|184726722|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.02||0.3505||95.0|-0.059|0.021|||ANCOVA|||||0.021|-0.059|0.3505
92419284|NCT00400153|184726723|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.02||0.3499||95.0|-0.058|0.021|||ANCOVA|||||0.021|-0.058|0.3499
92419285|NCT00400153|184726724|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.02||0.8288||95.0|-0.044|0.035|||ANCOVA|||||0.035|-0.044|0.8288
92419286|NCT00400153|184726725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.069|0.154|||ANCOVA|||This analysis is purely exploratory.||0.154|0.069|< 0.0001
92419287|NCT00400153|184726726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.049|0.132|||ANCOVA|||This analysis is purely exploratory.||0.132|0.049|< 0.0001
92280567|NCT00663871|184463693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.05||||0.21|TWO_SIDED|95.0|-0.24|0.19|||ANOVA|||||0.19|-0.24|0.21
92391140|NCT02538042|184681339|SUPERIORITY|||||||0.39|||||||ANOVA|||||||0.39
92419288|NCT00400153|184726727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.056|0.138|||ANCOVA|||This analysis is purely exploratory.||0.138|0.056|< 0.0001
92419289|NCT00400153|184726728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.054|0.135|||ANCOVA|||This analysis is purely exploratory.||0.135|0.054|< 0.0001
92419290|NCT00400153|184726729|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.024||0.0688||95.0|-0.003|0.09|||ANCOVA|||||0.09|-0.003|0.0688
92419291|NCT00400153|184726730|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.023||0.3895||95.0|-0.064|0.025|||ANCOVA|||||0.025|-0.064|0.3895
92391141|NCT04445662|184681345|SUPERIORITY|||||||0.71|||||||Chi-squared|||||||0.71
92391142|NCT04445662|184681346|SUPERIORITY|||||||0.48|||||||Chi-squared|||||||0.48
92235772|NCT03114969|184374778|SUPERIORITY||Odds Ratio (OR)|4.269||||0.078|TWO_SIDED|95.0|0.848|21.489||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||21.489|0.848|0.078
92391143|NCT01973413|184681361|NON_INFERIORITY_OR_EQUIVALENCE|Significance level of 0.05, 90% power, required 48 nights of OCL and 48 control nights to detect a 20% improvement.|||||=|0.037|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||=0.037
92391144|NCT01973413|184681362|SUPERIORITY_OR_OTHER||||||=|0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||=0.340
92391145|NCT03691571|184681372|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||Esophageal thermal injury was detected in 13/44 (30%) patients.||||>.05
92391146|NCT03691571|184681374|OTHER|feasibility/pilot study||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92391147|NCT03691571|184681375|OTHER|feasibility/pilot study||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
92391148|NCT03691571|184681376|OTHER|feasibility/pilot study||||||0.1|||||||Fisher Exact|||||||0.10
92391149|NCT02363959|184681377|OTHER||Odds Ratio (OR)|1.0||||1|TWO_SIDED||||||Fisher Exact|||||||1
92391150|NCT02363959|184681378|OTHER|||||||0.39|||||||Fisher Exact|||||||0.39
92391151|NCT02363959|184681379|OTHER|||||||1|||||||Fisher Exact|||||||1
92391152|NCT02363959|184681380|OTHER|||||||1|||||||Fisher Exact|||||||1
92391153|NCT02363959|184681381|OTHER|||||||1|||||||Fisher Exact|||||||1
92391154|NCT02363959|184681382|OTHER|||||||1|||||||Fisher Exact|||||||1
92391155|NCT03421106|184681384|SUPERIORITY||Mean Difference (Net)|2.53||||0.23|TWO_SIDED||||||Mixed Models Analysis|||||||0.23
92391156|NCT00330759|184681458|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A synthesis approach was used for a non-inferiority test of the hypothesis that denosumab preserves at least 50% of the effect of zoledronic acid vs. placebo.|Hazard Ratio (HR)|0.84||||0.0007||95.0|0.71|0.98|||Regression, Cox|Stratified by tumor type, previous skeletal-related event, and systematic anti-cancer therapy||||0.98|0.71|0.0007
92391157|NCT00330759|184681459|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.06||95.0|0.71|0.98|||Regression, Cox|P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure.|Stratified by tumor type, previous skeletal-related event, and systematic anti-cancer therapy|||0.98|0.71|0.060
92419292|NCT00400153|184726731|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.022||0.959||95.0|-0.045|0.042|||ANCOVA|||||0.042|-0.045|0.959
92419293|NCT00400153|184726732|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.023||0.7652||95.0|-0.053|0.039|||ANCOVA|||||0.039|-0.053|0.7652
92419294|NCT00400153|184726733|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.023||0.6244||95.0|-0.057|0.034|||ANCOVA|||||0.034|-0.057|0.6244
92419295|NCT00400153|184726734|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.023||0.873||95.0|-0.041|0.049|||ANCOVA|||||0.049|-0.041|0.873
92419296|NCT00400153|184726735|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.023||0.5294||95.0|-0.06|0.031|||ANCOVA|||||0.031|-0.06|0.5294
92419297|NCT00400153|184726736|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.013|STANDARD_ERROR_OF_MEAN|0.023||0.563||95.0|-0.032|0.058|||ANCOVA|||||0.058|-0.032|0.563
92419298|NCT00400153|184726737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.075|0.167|||ANCOVA|||This analysis is purely exploratory.||0.167|0.075|< 0.0001
92419299|NCT00400153|184726738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.084|0.174|||ANCOVA|||This analysis is purely exploratory.||0.174|0.084|< 0.0001
92419300|NCT00400153|184726739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.072|0.163|||ANCOVA|||This analysis is purely exploratory.||0.163|0.072|< 0.0001
92419301|NCT00400153|184726740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.081|0.171|||ANCOVA|||This analysis is purely exploratory.||0.171|0.081|< 0.0001
92391158|NCT00330759|184681460|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.145||95.0|0.77|1.04|||Anderson-Gill model|P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure.|Stratified by tumor type, previous skeletal-related event, and systematic anti-cancer therapy|||1.04|0.77|0.145
92391159|NCT02123849|184681479|NON_INFERIORITY|The non-inferiority margin is 10% of the coefficient of variation (i.e., standard deviation divided by mean) which means that the changes in the signature score in the intermittent arm is no less than 90% of the coefficient of variation of the changes in the signature score in the continuous arm.||||||0.04|||||||t-test, 1 sided|||||||0.04
92391160|NCT02123849|184681480|OTHER|||||||0.84|||||||t-test, 2 sided|||||||0.84
92391161|NCT02123849|184681481|OTHER|||||||0.61|||||||t-test, 2 sided|||||||0.61
92391162|NCT02123849|184681482|OTHER|||||||1|||||||Fisher Exact|||||||1.00
92391163|NCT02123849|184681483|OTHER|||||||0.42|||||||t-test, 2 sided|||||||0.42
92391164|NCT02123849|184681484|NON_INFERIORITY|The non-inferiority margin is 10% of the coefficient of variation (i.e., standard deviation divided by mean) which means that the changes in the signature score in the intermittent arm is no less than 90% of the coefficient of variation of the changes in the signature score in the continuous arm.||||||0.97|||||||t-test, 1 sided|||||||0.97
92391165|NCT02123849|184681485|NON_INFERIORITY|The non-inferiority margin is 10% of the coefficient of variation (i.e., standard deviation divided by mean) which means that the changes in the signature score in the intermittent arm is no less than 90% of the coefficient of variation of the changes in the signature score in the continuous arm.||||||0.97|||||||t-test, 1 sided|||||||0.97
92278915|NCT00094302|184460802|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.75|TWO_SIDED|95.0|0.66|1.35||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|Composite endpoint was compared by trial arm using logrank test of time to first event from time of randomization. Time to event was the time at which the first observed event component of the composite endpoint was observed. Component endpoints were adjudicated by the TOPCAT clinical endpoints committee. There were 58 subjects in the Spironolactone group and 61 subjects in Placebo group with a confirmed event. Subjects who did not experience this endpoint were censored at time of last contact.||1.35|0.66|0.75
92391166|NCT02123849|184681486|NON_INFERIORITY|The non-inferiority margin is 10% of the coefficient of variation (i.e., standard deviation divided by mean) which means that the changes in the signature score in the intermittent arm is no less than 90% of the coefficient of variation of the changes in the signature score in the continuous arm.||||||0.06|||||||t-test, 1 sided|||||||0.06
92391167|NCT00824473|184681499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4286|STANDARD_ERROR_OF_MEAN|0.351|<|0.001||95.0|-2.12|-0.74|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Overall change from baseline||-0.74|-2.12|<0.001
92391168|NCT00824473|184681500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6063|STANDARD_ERROR_OF_MEAN|0.1697|<|0.001||95.0|-0.94|-0.27|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.27|-0.94|<0.001
92391169|NCT00824473|184681501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3947|STANDARD_ERROR_OF_MEAN|0.3391|<|0.001||95.0|-2.06|-0.73|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Overall change from baseline||-0.73|-2.06|<0.001
92391170|NCT00824473|184681502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9284|STANDARD_ERROR_OF_MEAN|0.2741|<|0.001||95.0|-1.47|-0.39|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||reflective TOSS change in baseline||-0.39|-1.47|<0.001
92391171|NCT00824473|184681503|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||change from baseline||||0.010
92391172|NCT01359904|184681505|SUPERIORITY_OR_OTHER|||||||0.027|||||||Chi-squared|||||||0.027
92391173|NCT01359904|184681506|SUPERIORITY_OR_OTHER|||||||0.67|||||||Kruskal-Wallis|||post intervention hemoglobin A1c levels||||0.67
92391174|NCT01359904|184681507|SUPERIORITY_OR_OTHER|||||||0.2|||||||Kruskal-Wallis|||||||0.20
92391175|NCT01359904|184681508|SUPERIORITY_OR_OTHER|||||||0.32|||||||Chi-squared|||||||0.32
92391176|NCT00466440|184681509|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.2||||1|TWO_SIDED|90.0|-12.52|12.95|||Chi-squared||The objective response rates and the 90% confidence intervals were estimated for the qualified participants using unadjusted normal approximation for binomial proportions (z approximation).|||12.95|-12.52|1.0000
92391177|NCT00466440|184681510|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.6||||0.3606|TWO_SIDED|90.0|-28.21|4.95|||Chi-squared|||||4.95|-28.21|0.3606
92391178|NCT00466440|184681511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26||||0.072|TWO_SIDED|90.0|-0.02|0.55|||t-test, 1 sided|||||0.55|-0.02|0.0720
92419302|NCT00400153|184726745|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.00045|STANDARD_ERROR_OF_MEAN|0.06396||0.9943||95.0|-0.1259|0.125|||ANCOVA|||||0.125|-0.1259|0.9943
92419303|NCT00400153|184726745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01995|STANDARD_ERROR_OF_MEAN|0.06441||0.7569|TWO_SIDED|95.0|-0.1463|0.1064|||ANCOVA|||This analysis is purely exploratory.||0.1064|-0.1463|0.7569
92419304|NCT00400153|184726746|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.1091|STANDARD_ERROR_OF_MEAN|0.1206||0.3659||95.0|-0.1276|0.3458|||ANCOVA|||||0.3458|-0.1276|0.3659
92419305|NCT00400153|184726746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1554|STANDARD_ERROR_OF_MEAN|0.122||0.203|TWO_SIDED|95.0|-0.3947|0.08395|||ANCOVA|||This analysis is purely exploratory.||0.08395|-0.3947|0.203
92419306|NCT00400153|184726747|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.007734|STANDARD_ERROR_OF_MEAN|0.03199||0.809||95.0|-0.05503|0.0705|||ANCOVA|||||0.0705|-0.05503|0.809
92419307|NCT00400153|184726747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06501|STANDARD_ERROR_OF_MEAN|0.03225||0.044|TWO_SIDED|95.0|0.001746|0.1283|||ANCOVA|||This analysis is purely exploratory.||0.1283|0.001746|0.044
92419308|NCT00400153|184726748|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.0129|STANDARD_ERROR_OF_MEAN|0.03002||0.6674||95.0|-0.04598|0.07179|||ANCOVA|||||0.07179|-0.04598|0.6674
92419309|NCT00400153|184726748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01573|STANDARD_ERROR_OF_MEAN|0.03033||0.604|TWO_SIDED|95.0|-0.04376|0.07523|||ANCOVA|||This analysis is purely exploratory.||0.07523|-0.04376|0.604
92419310|NCT00400153|184726749|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|1.6526|STANDARD_ERROR_OF_MEAN|2.0653||0.4238||95.0|-2.3995|5.7047|||ANCOVA|||||5.7047|-2.3995|0.4238
92391179|NCT00466440|184681512|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15||||0.1697|TWO_SIDED|90.0|-0.07|0.37|||t-test, 1 sided|||||0.37|-0.07|0.1697
92391180|NCT00466440|184681513|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.524|TWO_SIDED|95.0|0.5|1.4|||Log Rank|||||1.4|0.5|0.5240
92391181|NCT00466440|184681514|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.4407|TWO_SIDED|95.0|0.3|1.6|||Log Rank|||||1.6|0.3|0.4407
92391182|NCT00466440|184681515|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.3449|TWO_SIDED|95.0|0.4|1.4|||Log Rank|||||1.4|0.4|0.3449
92391183|NCT02707146|184681523|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|||||Chi-squared|||||||
92391184|NCT01426958|184681539|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|119.3|STANDARD_DEVIATION|11.5||0.1009|TWO_SIDED|90.0|112.239|126.811||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||126.811|112.239|0.1009
92391185|NCT01426958|184681539|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|110.23|STANDARD_DEVIATION|10.9||0.0009|TWO_SIDED|90.0|103.837|117.006||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||117.006|103.837|0.0009
92391186|NCT01426958|184681539|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|91.9|STANDARD_DEVIATION|11.6||0.0004|TWO_SIDED|90.0|86.519|97.614||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||97.614|86.519|0.0004
92391187|NCT01426958|184681540|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|104.06|STANDARD_DEVIATION|14.2||0.0002|TWO_SIDED|90.0|96.681|112.002||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||112.002|96.681|0.0002
92391188|NCT01426958|184681540|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|105.09|STANDARD_DEVIATION|16.1||0.0012|TWO_SIDED|90.0|96.425|114.53||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||114.530|96.425|0.0012
92391189|NCT01426958|184681540|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|99.75|STANDARD_DEVIATION|12.8||0|TWO_SIDED|90.0|93.328|106.61||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||106.610|93.328|0.0000
92391190|NCT01426958|184681541|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|118.56|STANDARD_DEVIATION|11.5||0.0702|TWO_SIDED|90.0|111.712|125.822||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||125.822|111.712|0.0702
92391191|NCT01426958|184681541|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|110.76|STANDARD_DEVIATION|10.0||0.0005|TWO_SIDED|90.0|104.936|116.913||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||116.913|104.936|0.0005
92391192|NCT01426958|184681541|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|92.46|STANDARD_DEVIATION|11.9||0.0003|TWO_SIDED|90.0|86.928|98.341||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||98.341|86.928|0.0003
92391193|NCT00040443|184681542|OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|1.0|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<.05
92391194|NCT00413218|184681554|NON_INFERIORITY|The lower bound of the 95% CI for the adjusted treatment difference was compared to the protocol prespecified noninferiority margin (NIM) value of -15%. If the lower bound were greater than -15%, isavuconazole would be declared as noninferior to caspofungin.|Adjusted Treatment Difference (%)|-10.8|||||TWO_SIDED|95.0|-19.9|-1.8|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|The adjusted treatment difference (ISA-CAS) was calculated by a stratified Cochran-Mantel-Haenszel (CMH) method with the strata of geographical region and baseline neutropenic status.||-1.8|-19.9|
92391195|NCT00413218|184681555|OTHER||Adjusted Treatment Difference (%)|-2.7|||||TWO_SIDED|95.0|-12.2|6.8|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||6.8|-12.2|
92391196|NCT00413218|184681556|OTHER||Adjusted Treatment Difference %|-10.9|||||TWO_SIDED|95.0|-19.9|-1.9|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOT (Day 56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-1.9|-19.9|
92391197|NCT00413218|184681556|OTHER||Adjusted Treatment Difference %|-5.4|||||TWO_SIDED|95.0|-15.0|4.2|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at FU2 (6 weeks after end of treatment). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||4.2|-15.00|
92391198|NCT00413218|184681557|OTHER||Adjusted Treatment Difference (%)|-8.2|||||TWO_SIDED|95.0|-15.4|-0.9|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOIV (Days 11-56).The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-0.9|-15.4|
92419311|NCT00400153|184726749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4376|STANDARD_ERROR_OF_MEAN|2.0874||0.2431|TWO_SIDED|95.0|-1.6578|6.533|||ANCOVA|||This analysis is purely exploratory.||6.533|-1.6578|0.2431
92419312|NCT00400153|184726750|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.056||0.173||95.0|-0.034|0.187|||ANCOVA|||||0.187|-0.034|0.173
92391199|NCT00413218|184681557|OTHER||Adjusted Treatment Difference (%)|-8.6|||||TWO_SIDED|95.0|-15.8|-1.5|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOT (Day 56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-1.5|-15.8|
92391200|NCT00413218|184681557|OTHER||Adjusted Treatment Difference (%)|-0.4|||||TWO_SIDED|95.0|-9.1|8.3|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at FU1 (2 weeks after end of treatment). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||8.3|-9.1|
92391201|NCT00413218|184681557|OTHER||Adjusted Treatment Difference (%)|-5.8|||||TWO_SIDED|95.0|-15.3|3.6|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at FU2 (6 weeks after end of treatment).The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||3.6|-15.3|
92419313|NCT00400153|184726750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.056||0.336|TWO_SIDED|95.0|-0.165|0.056|||ANCOVA|||This analysis is purely exploratory.||0.056|-0.165|0.336
92419314|NCT00400153|184726751|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.062||0.924||95.0|-0.115|0.127|||ANCOVA|||||0.127|-0.115|0.924
92391202|NCT00413218|184681558|OTHER||Adjusted Treatment Difference (%)|-14.9|||||TWO_SIDED|95.0|-22.7|-7.0|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOIV (Days 11-56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-7.0|-22.7|
92419315|NCT00400153|184726751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.069|STANDARD_ERROR_OF_MEAN|0.062||0.266|TWO_SIDED|95.0|-0.19|0.053|||ANCOVA|||This analysis is purely exploratory.||0.053|-0.19|0.266
92419316|NCT00400153|184726752|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.065||0.139||95.0|-0.031|0.225|||ANCOVA|||||0.225|-0.031|0.139
92419317|NCT00400153|184726752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018|STANDARD_ERROR_OF_MEAN|0.066||0.788|TWO_SIDED|95.0|-0.111|0.146|||ANCOVA|||This analysis is purely exploratory.||0.146|-0.111|0.788
92419318|NCT00400153|184726757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.398|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
92419319|NCT00400153|184726758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.482|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||<0.0001
92171779|NCT03897686|184233251|SUPERIORITY|\[Not specified\]|LS-means difference|-179.3|STANDARD_ERROR_OF_MEAN|48.38||0.0003|TWO_SIDED|95.0|-274.96|-83.65||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||"It was determined that 144 participants randomized into 2 groups (1:1) would have at least 80% power to detect an effect size of 0.25. Sample size was calculated based on analysis of covariance adjusted for baseline value with fixed factors of group assuming α = 0.05 and 10% discontinuation rate.~The null hypothesis states that there is no difference between treatment groups in mean change from baseline to Week 25 in the total WOMAC score."||-83.65|-274.96|0.00030
92419320|NCT00400153|184726759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.612|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||<0.0001
92419321|NCT00400153|184726760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.508|STANDARD_ERROR_OF_MEAN|0.058|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||<0.0001
92419322|NCT00400153|184726761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.421|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
92419323|NCT00400153|184726762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
92419324|NCT00400153|184726763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
92419325|NCT00400153|184726764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.378|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
92419326|NCT00400153|184726765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.402|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
92391203|NCT00413218|184681558|OTHER||Adjusted Treatment Difference (%)|-15.9|||||TWO_SIDED|95.0|-23.5|-8.4|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOT (Day 56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-8.4|-23.5|
92419327|NCT00400153|184726766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.464|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
92419328|NCT01423604|184726775|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.733||||0.0494|TWO_SIDED|95.0|0.506|1.061||One-sided p-value.|Log Rank|||||1.061|0.506|0.0494
92419329|NCT01423604|184726775|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.502||||0.0081|TWO_SIDED|95.0|0.281|0.888||One-sided p-value.|Log Rank|||Cox Regression Analysis of Overall Survival: C-reactive protein (CRP) \> 13 μg/ml; Statistical analysis plan (SAP) specified subgroup analysis||0.888|0.281|0.0081
92419330|NCT01423604|184726776|SUPERIORITY_OR_OTHER||Efron approximation of hazard ratio|0.75||||0.134|TWO_SIDED|95.0|0.513|1.094||Two-sided p-value.|Cox proportional hazards model|||||1.094|0.513|0.1340
92419331|NCT01423604|184726778|SUPERIORITY_OR_OTHER|||||||0.0236|||||||Pearson's chi-square test|||||||0.0236
92419332|NCT05494632|184726788|SUPERIORITY||Median Difference (Net)|1.0|||<|0.001|TWO_SIDED|||||the threshold for statistical significance was \<=0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
92419333|NCT00403403|184726883|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.528||||0.0097||95.0|0.323|0.862|||Log Rank||HR estimated from a stratified Cox regression model, stratified for ECOG performance (0-1 vs. 2) and chemotherapy type (cisplatin vs. carboplatin)|||0.862|0.323|0.0097
92419334|NCT00403403|184726884|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.6054|TWO_SIDED|95.0|0.66|2.039|||Log Rank||HR estimated from a stratified Cox regression model, stratified for ECOG performance (0-1 vs. 2) and chemotherapy type (cisplatin vs. carboplatin)|||2.039|0.660|0.6054
92419335|NCT00403403|184726885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7||||0.3269||95.0|-9.6|29.0|||Chi-squared|||||29.0|-9.6|0.3269
92419336|NCT00403403|184726887|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.305||||0.0011|TWO_SIDED|95.0|0.144|0.644|||Log Rank||HR estimated from a stratified Cox regression model, stratified for ECOG performance (0-1 vs. 2) and chemotherapy type (cisplatin vs. carboplatin)|||0.644|0.144|0.0011
92419337|NCT01966692|184726909|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for AUC0-last fell completely within (80%, 125%).|ratio (%) of geometric means|106.0||||0.4132|TWO_SIDED|90.0|99.0|114.0||The threshold for statistical significane was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 2 (B-3.8 µm); Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed AUC0-last: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||114|99|0.4132
92419338|NCT01966692|184726909|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for AUC0-last fell completely within (80%, 125%).|ratio (%) of geometric means|109.0||||0.1295|TWO_SIDED|90.0|102.0|116.0||The threshold for statistical significane was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 3 (C-3.7 µm); Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed AUC0-last: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||116|102|0.1295
92419339|NCT01966692|184726909|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for AUC0-last fell completely within (80%, 125%).|ratio (%) of geometric means|114.0||||0.0078|TWO_SIDED|90.0|106.0|122.0||The threshold for statistical significane was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 3 (C-3.7 µm)\*; Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed AUC0-last: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||122|106|0.0078
92391204|NCT00413218|184681558|OTHER||Adjusted Treatment Difference (%)|-0.7|||||TWO_SIDED|95.0|-8.1|9.6|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at FU1 (2 weeks after end of treatment).The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||9.6|-8.1|
92419340|NCT01966692|184726910|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for Cmax fell completely within (80%, 125%).|ratio (%) of geometric means|182.0|||<|0.001|TWO_SIDED|90.0|159.0|208.0||The threshold for statistical significane was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 2 (B-3.8 µm); Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed Cmax: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||208|159|<0.001
92419341|NCT01966692|184726910|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for Cmax fell completely within (80%, 125%).|ratio (%) of geometric means|190.0|||<|0.001|TWO_SIDED|90.0|166.0|217.0||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 3 (C-3.7 µm); Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed Cmax: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||217|166|<0.001
92419342|NCT01966692|184726910|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for Cmax fell completely within (80%, 125%).|ratio (%) of geometric means|213.0|||<|0.001|TWO_SIDED|90.0|186.0|244.0||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 3 (C-3.7 µm)\*; Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed Cmax: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||244|186|<0.001
92419343|NCT01885871|184726976|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92419344|NCT00366340|184727004|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-2.5|2.6||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.6|-2.5|
92419345|NCT00366340|184727004|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-9.6|||||TWO_SIDED|95.0|-16.0|-3.3||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||-3.3|-16.0|
92419346|NCT00366340|184727004|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|2.2|||||TWO_SIDED|95.0|-0.4|5.2||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||5.2|-0.4|
92391205|NCT00413218|184681558|OTHER||Adjusted Treatment Difference (%)|-5.2|||||TWO_SIDED|95.0|-14.7|4.3|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at FU2 (6 weeks after end of treatment).The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||4.3|-14.7|
92419347|NCT00366340|184727004|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|1.5|||||TWO_SIDED|95.0|-0.9|4.1||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.1|-0.9|
92391206|NCT00413218|184681559|OTHER||Adjusted Treatment Difference (%)|-11.4|||||TWO_SIDED|95.0|-20.4|-2.5|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at Day 7. The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-2.5|-20.4|
92391207|NCT00413218|184681559|OTHER||Adjusted Treatment Difference (%)|-8.5|||||TWO_SIDED|95.0|-16.5|-0.4|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOT (Day 56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-0.4|-16.5|
92391208|NCT00413218|184681560|OTHER||Adjusted Treatment Difference (%)|-11.1|||||TWO_SIDED|95.0|-20.3|-1.9|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at Day 7. The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-1.9|-20.3|
92391209|NCT00413218|184681560|OTHER||Adjusted Treatment Difference (%)|-8.1|||||TWO_SIDED|95.0|-16.3|0.1|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOT (Day 56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||0.1|-16.3|
92391210|NCT00413218|184681561|OTHER||Adjusted Treatment Difference (%)|2.5|||||TWO_SIDED|95.0|-3.8|8.9||||||Statistical analysis of all-cause mortality on Day 14. Adjusted treatment difference (Isavuconazole-Caspofungin) is calculated by a stratified CMH method with the strata of geographical regions, and baseline neutropenic status.||8.9|-3.8|
92391211|NCT00413218|184681561|OTHER||Adjusted Treatment Difference (%)|1.4|||||TWO_SIDED|95.0|-7.1|10.0||||||Statistical analysis of all-cause mortality on Day 56. Adjusted treatment difference (Isavuconazole-Caspofungin) is calculated by a stratified CMH method with the strata of geographical regions, and baseline neutropenic status.||10.0|-7.1|
92391212|NCT01618669|184681583|NON_INFERIORITY_OR_EQUIVALENCE|If the lower confidence bound of the 1-sided alpha level of 0.025 of the difference in the proportion of participants with majority reader self-agreement exceeded -0.075, non-inferiority would be demonstrated.|Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.015|||TWO_SIDED|95.0|-0.06|0.0|||||Difference equals Regadenoson After Peak Exercise minus Regadenoson Alone|||-0.00|-0.06|
92419348|NCT00366340|184727004|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-1.4|||||TWO_SIDED|95.0|-4.2|1.2||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.2|-4.2|
92391213|NCT01618669|184681585|NON_INFERIORITY_OR_EQUIVALENCE|The lower confidence bound of the 1-sided alpha level of 0.025 of the difference in agreement rates must exceed -0.10 in order to demonstrate non-inferiority.|Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.063|||TWO_SIDED|95.0|-0.14|0.11|||||Difference equals Regadenoson After Peak Exercise minus Regadenoson Alone|||0.11|-0.14|
92391214|NCT01618669|184681586|NON_INFERIORITY_OR_EQUIVALENCE|The lower confidence bound of the 1-sided alpha level of 0.025 of the difference in agreement rates must exceed -0.133 in order to demonstrate non-inferiority. Non-inferiority could not be assessed because of insufficient data in the Regadenoson Alone group.|Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.027|||TWO_SIDED|95.0|-0.07|0.04||||||||0.04|-0.07|
92391215|NCT01618669|184681587|SUPERIORITY_OR_OTHER||Difference|0.02|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|95.0|-0.03|0.06||||||||0.06|-0.03|
92391216|NCT04950465|184681626|SUPERIORITY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.14||0.2639|TWO_SIDED|95.0|-0.12|0.43|||ANCOVA|||||0.43|-0.12|0.2639
92391217|NCT04950465|184681627|SUPERIORITY|||||||0.6978|||||||Van Elteren Test|Due to non-normal residual analyses from ANCOVA a Van Elteren Test was performed.||Week 4||||0.6978
92391218|NCT04950465|184681627|SUPERIORITY|||||||0.813|||||||Van Elteren Test|Due to non-normal residual analyses from ANCOVA a Van Elteren Test was performed.||Week 8||||0.8130
92391219|NCT04950465|184681628|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.115||0.7645|TWO_SIDED|95.0|-0.26|0.19|||ANCOVA|||||0.19|-0.26|0.7645
92391220|NCT04950465|184681629|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.114||0.9728|TWO_SIDED|95.0|-0.23|0.22|||ANCOVA|||Week 4||0.22|-0.23|0.9728
92391221|NCT04950465|184681629|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.14||0.2968|TWO_SIDED|95.0|-0.13|0.42|||ANCOVA|||Week 8||0.42|-0.13|0.2968
92391222|NCT04950465|184681630|SUPERIORITY|||||||0.1682|||||||Van Elteren Test|Due to non-normal residual analyses from ANCOVA a Van Elteren Test was performed.||Week 4||||0.1682
92391223|NCT04950465|184681630|SUPERIORITY|||||||0.3937|||||||Van Elteren Test|Due to non-normal residual analyses from ANCOVA a Van Elteren Test was performed.||Week 8||||0.3937
92391224|NCT00940901|184681635|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Null hypothesis: there would be no difference in the number of participants who experienced at least a 50% reduction in the frequency of priapic episodes between baseline and 8 weeks post intervention, between the sildenafil and placebo groups||||1
92391225|NCT00940901|184681636|SUPERIORITY_OR_OTHER|||||||0.55|||||||Fisher Exact|||||||0.55
92391226|NCT00740207|184681644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.7142|TWO_SIDED|95.0|-1.3|0.9|||t-test, 2 sided|||Paired t-test to compare difference between the investigational product's mean change from predose to postdose||0.9|-1.3|0.7142
92391227|NCT00740207|184681645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.0||||0.1698|TWO_SIDED|95.0|-79.2|-0.8|||Fisher Exact|||Paired t-test to compare the difference in percentage between the portions of patients who had motion artifacts.||-0.8|-79.2|0.1698
92391228|NCT00740207|184681646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.0||||1|TWO_SIDED|95.0|-28.6|8.6|||Fisher Exact|||Paired t-test to compare difference in percentage between the number of participants requiring repeat injections||8.6|-28.6|1.000
92391229|NCT02888106|184681678|SUPERIORITY|||||||0.0022|||||||Fisher Exact|||The proportions of negative HDV RNA response at week 72 in each of the MXB treatment groups were compared with the control group of PEG-IFNα by using Fisher's exact test and by presenting exact unconditional 95%-confidence intervals (CI) based on scores for the proportion differences.||||0.0022
92391230|NCT02888106|184681678|SUPERIORITY|||||||0.0996|||||||Fisher Exact|||||||0.0996
92391231|NCT02888106|184681678|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92391232|NCT02888106|184681678|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92391233|NCT02888106|184681678|SUPERIORITY|||||||0.0421|||||||Fisher Exact|||||||0.0421
92391234|NCT02888106|184681679|SUPERIORITY|||||||0.0052|||||||Fisher Exact|||Week 24||||0.0052
92391235|NCT02888106|184681679|SUPERIORITY|||||||0.0052|||||||Fisher Exact|||Week 24||||0.0052
92391236|NCT02888106|184681679|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
92419349|NCT00366340|184727004|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.3|||||TWO_SIDED|95.0|-3.8|3.3||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.3|-3.8|
92419350|NCT00366340|184727004|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.8|||||TWO_SIDED|95.0|-6.0|4.5||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.5|-6.0|
92419351|NCT00366340|184727005|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.73|||||TWO_SIDED|95.0|0.63|0.84||||||For serotype 4 the GMC ratio (13vPnC/7vPnC) was calculated||0.84|0.63|
92419352|NCT00366340|184727005|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.65|||||TWO_SIDED|95.0|0.52|0.82||||||For serotype 6B the GMC ratio (13vPnC/7vPnC) was calculated||0.82|0.52|
92419353|NCT00366340|184727005|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.84|||||TWO_SIDED|95.0|0.74|0.96||||||For serotype 9V the GMC ratio (13vPnC/7vPnC) was calculated||0.96|0.74|
92391237|NCT02888106|184681679|SUPERIORITY|||||||0.0017|||||||Fisher Exact|||Week 24||||0.0017
92239739|NCT00696657|184383374|OTHER||Estimated treatment differences|0.75|||||TWO_SIDED|95.0|0.48|1.03|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.1 mg - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||1.03|0.48|
92391238|NCT02888106|184681679|SUPERIORITY|||||||0.3295|||||||Fisher Exact|||Week 24||||0.3295
92391239|NCT02888106|184681679|SUPERIORITY|||||||0.0007|||||||Fisher Exact|||Week 48||||0.0007
92391240|NCT02888106|184681679|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||Week 48||||0.0001
92391241|NCT02888106|184681679|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
92391242|NCT02888106|184681679|SUPERIORITY|||||||0.0007|||||||Fisher Exact|||Week 48||||0.0007
92391243|NCT02888106|184681679|SUPERIORITY|||||||0.1086|||||||Fisher Exact|||Week 48||||0.1086
92391244|NCT02888106|184681680|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
92391245|NCT02888106|184681680|SUPERIORITY|||||||0.2241|||||||Fisher Exact|||Week 24||||0.2241
92391246|NCT02888106|184681680|SUPERIORITY|||||||0.0002|||||||Fisher Exact|||Week 24||||0.0002
92391247|NCT02888106|184681680|SUPERIORITY|||||||0.2241|||||||Fisher Exact|||Week 24||||0.2241
92391248|NCT02888106|184681680|SUPERIORITY|||||||0.0007|||||||Fisher Exact|||Week 24||||0.0007
92391249|NCT02888106|184681680|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
92391250|NCT02888106|184681680|SUPERIORITY|||||||0.4497|||||||Fisher Exact|||Week 48||||0.4497
92391251|NCT02888106|184681680|SUPERIORITY|||||||0.0268|||||||Fisher Exact|||Week 48||||0.0268
92391252|NCT02888106|184681680|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
92391253|NCT02888106|184681680|SUPERIORITY|||||||0.6999|||||||Fisher Exact|||Week 48||||0.6999
92391254|NCT02888106|184681680|SUPERIORITY|||||||0.0743|||||||Fisher Exact|||Week 72||||0.0743
92391255|NCT02888106|184681680|SUPERIORITY|||||||0.3449|||||||t-test, 1 sided|||Week 72||||0.3449
92391256|NCT02888106|184681680|SUPERIORITY|||||||0.6036|||||||Fisher Exact|||Week 72||||0.6036
92391257|NCT02888106|184681680|SUPERIORITY|||||||0.3408|||||||Fisher Exact|||Week 72||||0.3408
92391258|NCT02888106|184681680|SUPERIORITY|||||||0.3408|||||||Fisher Exact|||Week 72||||0.3408
92391259|NCT02888106|184681681|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
92391260|NCT02888106|184681681|SUPERIORITY|||||||0.2241|||||||Fisher Exact|||Week 24||||0.2241
92391261|NCT02888106|184681681|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 24||||0.4828
92391262|NCT02888106|184681681|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 24||||0.4828
92391263|NCT02888106|184681681|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 24||||0.4828
92391264|NCT02888106|184681681|SUPERIORITY|||||||0.5977|||||||Fisher Exact|||Week 48||||0.5977
92391265|NCT02888106|184681681|SUPERIORITY|||||||0.1686|||||||Fisher Exact|||Week 48||||0.1686
92391266|NCT02888106|184681681|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
92391267|NCT02888106|184681681|SUPERIORITY|||||||0.5977|||||||Fisher Exact|||Week 48||||0.5977
92391268|NCT02888106|184681681|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
92391269|NCT02888106|184681681|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||Week 72||||0.0063
92391270|NCT02888106|184681681|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 72||||0.4828
92391271|NCT02888106|184681681|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
92391272|NCT02888106|184681681|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
92391273|NCT02888106|184681681|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 72||||0.4828
92391274|NCT02888106|184681682|SUPERIORITY|||||||0.0801|||||||Fisher Exact|||Week 24||||0.0801
92391275|NCT02888106|184681682|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
92391276|NCT02888106|184681682|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
92391277|NCT02888106|184681682|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
92391278|NCT02888106|184681682|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
92391279|NCT02888106|184681682|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||Week 48||||0.0063
92391280|NCT02888106|184681682|SUPERIORITY|||||||0.2241|||||||Fisher Exact|||Week 48||||0.2241
92391281|NCT02888106|184681682|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
92391282|NCT02888106|184681682|SUPERIORITY|||||||0.0169|||||||Regression, Cox|||Week 72||||0.0169
92391283|NCT02888106|184681682|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 72||||0.4828
92391284|NCT02888106|184681682|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 72||||0.4828
92391285|NCT02888106|184681683|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 48||||0.4828
92391286|NCT02888106|184681683|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
92391287|NCT02888106|184681683|SUPERIORITY|||||||0.2292|||||||Fisher Exact|||Week 72||||0.2292
92391288|NCT02888106|184681683|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
92391289|NCT02888106|184681684|SUPERIORITY|||||||0.4621|||||||Fisher Exact|||Week 24||||0.4621
92391290|NCT02888106|184681684|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||Week 24||||1.0000
92391291|NCT02888106|184681684|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
92391292|NCT02888106|184681684|SUPERIORITY|||||||0.4621|||||||Fisher Exact|||Week 24||||0.4621
92391293|NCT02888106|184681684|SUPERIORITY|||||||0.0253|||||||Fisher Exact|||Week 24||||0.0253
92391294|NCT02888106|184681684|SUPERIORITY|||||||0.0268|||||||Fisher Exact|||Week 48||||0.0268
92391295|NCT02888106|184681684|SUPERIORITY|||||||0.6999|||||||Fisher Exact|||Week 48||||0.6999
92391296|NCT02888106|184681684|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
92391297|NCT02888106|184681684|SUPERIORITY|||||||0.0656|||||||Fisher Exact|||Week 48||||0.0656
92391298|NCT02888106|184681684|SUPERIORITY|||||||0.0005|||||||Fisher Exact|||Week 48||||0.0005
92391299|NCT02888106|184681684|SUPERIORITY|||||||0.1431|||||||Fisher Exact|||Week 72||||0.1431
92391300|NCT02888106|184681684|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
92391301|NCT02888106|184681684|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
92391302|NCT02888106|184681684|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
92391303|NCT02888106|184681684|SUPERIORITY|||||||0.7104|||||||Fisher Exact|||Week 72||||0.7104
92391304|NCT01425801|184681707|SUPERIORITY_OR_OTHER||Least Squares Mean DIfference|0.405|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.353|0.458|||ANCOVA|Sequence, treatment and period as fixed effect factors, patient within sequence as random effect and baseline peak FEV1 at each period as a covariate||||0.458|0.353|<0.0001
92391305|NCT01425801|184681707|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.371|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.318|0.424|||ANCOVA|Sequence, treatment and period as fixed effect factors, patient within sequence as random effect and baseline peak FEV1 at each period as a covariate||||0.424|0.318|<0.0001
92391306|NCT01425801|184681707|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.322|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.269|0.375|||ANCOVA|Sequence, treatment and period as fixed effect factors, patient within sequence as random effect and baseline peak FEV1 at each period as a covariate||||0.375|0.269|<0.0001
92391307|NCT01425801|184681707|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.274|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.221|0.327|||ANCOVA|Sequence, treatment and period as fixed effect factors, patient within sequence as random effect and baseline peak FEV1 at each period as a covariate||||0.327|0.221|<0.0001
92391308|NCT03066596|184681733|SUPERIORITY|A generalized linear model (GLM) with logit link function was used to compare the percentage of participants with corrected actions taken and GEE method was used to account for within-clinic correlation. The null hypothesis is that there is no difference between groups in the the percentage of participants with corrected actions taken. With 530 participants at baseline, ≤10% attrition at 12 months, the study has greater than 80% power to detect a difference of 15 percentage points.|Odds Ratio (OR)|3.47|||<|0.001|TWO_SIDED|95.0|1.98|6.08||The p-values reported above represented the calculated value rather than predetermined thresholds for significance. Statistical significance was defined as a p-value less than 0.05.|GLM with GEE|||||6.08|1.98|<.001
92391309|NCT03066596|184681733|SUPERIORITY|This analysis is similar to analysis 1, however, the model adjusting for sex, age, race/ethnicity, symptom free days (at baseline), nurse screening results, clinic characteristics, visit type, caregiver education, and smoking exposure (at baseline).|Odds Ratio (OR)|3.66|||<|0.001|TWO_SIDED|95.0|1.97|6.82||The p-values reported above represented the calculated value rather than predetermined thresholds for significance. Statistical significance was defined as a p-value less than 0.05.|GLM with GEE|||||6.82|1.97|<.001
92391310|NCT03066596|184681734|SUPERIORITY|A generalized linear model (GLM) with generalized estimating equations (GEE) was used to compare changes over time between the two groups in symptom-free days (SFDs) during the past two weeks, accounting for within-subject correlation. The null hypothesis at each time point was that there is no difference between groups in the change in SFDs. With 530 participants at baseline, ≤10% attrition at 12 months, the study has 80% power to detect a standardized effect size \>0.29.|Ratio of Rate Ratios|1.13||||0.174|TWO_SIDED|95.0|0.95|1.34|||GLM with GEE|||3 month follow up||1.34|0.95|0.174
92391311|NCT03066596|184681734|SUPERIORITY|A generalized linear model (GLM) with generalized estimating equations (GEE) was used to compare changes over time between the two groups in symptom-free days (SFDs) during the past two weeks, accounting for within-subject correlation. The null hypothesis at each time point was that there is no difference between groups in the change in SFDs. With 530 participants at baseline, ≤10% attrition at 12 months, the study has 80% power to detect a standardized effect size \>0.29.|Ratio of Rate Ratios|1.04||||0.741|TWO_SIDED|95.0|0.85|1.27|||GLM with GEE|||6 month follow up||1.27|0.85|0.741
92419354|NCT00366340|184727005|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.9|||||TWO_SIDED|95.0|0.76|1.07||||||For serotype 14 the GMC ratio (13vPnC/7vPnC) was calculated||1.07|0.76|
92419355|NCT00366340|184727005|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|2.25|||||TWO_SIDED|95.0|2.04|2.49||||||For serotype 18C the GMC ratio (13vPnC/7vPnC) was calculated||2.49|2.04|
92419356|NCT00366340|184727005|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.6|||||TWO_SIDED|95.0|0.51|0.71||||||For serotype 19F the GMC ratio (13vPnC/7vPnC) was calculated||0.71|0.51|
92419357|NCT00366340|184727005|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.88|||||TWO_SIDED|95.0|0.73|1.06||||||For serotype 23F the GMC ratio (13vPnC/7vPnC) was calculated||1.06|0.73|
92419358|NCT00366340|184727008|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|2.6|||||TWO_SIDED|95.0|-3.0|8.3||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15 µg/mL threshold was calculated||8.3|-3.0|
92419359|NCT00366340|184727008|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|4.5|||||TWO_SIDED|95.0|-4.1|13.0||||||For Haemophilus influenzae type b the difference in percentages between the two groups (13vPnC - 7vPnC) at 1.0 µg/mL threshold was calculated||13.0|-4.1|
92419360|NCT00366340|184727008|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.5||||||For diphtheria toxoid the difference in percentages between the two groups(13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.5|-1.4|
92278916|NCT00094302|184460803|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline quality of life scores as the dependent variable, and the baseline quality of life score, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.27
92419361|NCT00366340|184727008|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-4.5||||||95.0|-9.3|0.3||||||For diphtheria toxoid the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated||0.3|-9.3|
92419362|NCT00366340|184727008|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.5|1.5||||||For Haemophilus Influenzae Type b the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.15 µg/mL threshold was calculated||1.5|-1.5|
92419363|NCT00366340|184727008|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.3||||||95.0|-5.0|2.3||||||For hepatitis B the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥ 10.0 mIU/mL threshold was calculated||2.3|-5.0|
92419364|NCT00366340|184727008|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|1.7|||||TWO_SIDED|95.0|-0.4|4.4||||||For Haemophilus influenzae type b the difference in percentages between the two groups (13vPnC - 7vPnC) at 1.0 µg/mL threshold was calculated||4.4|-0.4|
92419365|NCT00366340|184727008|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For diphtheria toxoid the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.4|-1.4|
92419366|NCT00366340|184727008|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For diphtheria toxoid the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated||1.4|-1.4|
92419367|NCT00366340|184727008|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.8||||||95.0|-1.3|3.3||||||For hepatitis B the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥ 10.0 mIU/mL threshold was calculated||3.3|-1.3|
92419368|NCT00366340|184727009|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.23|||||TWO_SIDED|95.0|0.96|1.58||||||For Haemophilus influenzae type b the GMC ratio (13vPnC/7vPnC) was calculated||1.58|0.96|
92419369|NCT00366340|184727009|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.15|||||TWO_SIDED|95.0|0.95|1.39||||||For Haemophilus influenzae type b µg/mL the GMC ratio (13vPnC/7vPnC) was calculated||1.39|0.95|
92419370|NCT00366340|184727010|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.68|||||TWO_SIDED|95.0|0.57|0.8||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||0.80|0.57|
92419371|NCT00366340|184727010|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.87|||||TWO_SIDED|95.0|0.75|1.01||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||1.01|0.75|
92419372|NCT00366340|184727011|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.88|||||TWO_SIDED|95.0|0.69|1.11||||||For hepatitis B the GMC ratio (13vPnC/7vPnC) was calculated.||1.11|0.69|
92419373|NCT00366340|184727011|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.93|||||TWO_SIDED|95.0|0.71|1.22||||||For hepatitis B the GMC ratio (13vPnC/7vPnC) was calculated||1.22|0.71|
92419374|NCT02011893|184727063|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 7.5 points, where the Visual Analog Scale (VAS) scores were measured on a scale of 0 to 100. Testing was carried out at a 5% significance level.|||||<|0.001|||||||t-distribution|95% UCB and p-value for non-inferiority are based on t-distribution with n1 + n2-2 degrees of freedom where n1 and n2 are number of subjects per arm.||||||<0.001
92419375|NCT02011893|184727064|SUPERIORITY_OR_OTHER|||||||0.083||||||Superiority analysis performed|McNemar|||||||0.083
92419376|NCT02011893|184727066|SUPERIORITY_OR_OTHER|||||||0.017||||||Superiority analysis performed|t-distribution|95% UCB and p-value for superiority are based on t-distribution with n1 + n2-2 degrees of freedom where n1 and n2 are number of subjects per arm.||||||0.017
92419377|NCT01255787|184727109|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|1.123||0.907|TWO_SIDED|95.0|-3.258|2.035||Adjustment for multiplicity for the comparisons was based on the Dunnett-Hsu procedure.|ANCOVA|Analysis of covariance (ANCOVA), with treatment as a fixed factors and baseline MADRS as a covariate.||All statistical tests were 2-sided with the estimated P-values at the 5% level of significance.||2.035|-3.258|0.9070
92235773|NCT03114969|184374778|SUPERIORITY||Odds Ratio (OR)|5.132||||0.046|TWO_SIDED|95.0|1.031|25.55||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||25.550|1.031|0.046
92278917|NCT00094302|184460803|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||<0.01
92419378|NCT01255787|184727109|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.69|STANDARD_ERROR_OF_MEAN|1.114||0.3006|TWO_SIDED|95.0|-4.31|0.938|||ANCOVA|Analysis of covariance (ANCOVA), with treatment as a fixed factors and baseline MADRS as a covariate.||||0.938|-4.310|0.3006
92419379|NCT01255787|184727109|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.82|STANDARD_ERROR_OF_MEAN|1.11||0.2399|TWO_SIDED|95.0|-4.436|0.794|||ANCOVA|Analysis of covariance (ANCOVA), with treatment as a fixed factors and baseline MADRS as a covariate.||||0.794|-4.436|0.2399
92419380|NCT00509262|184727143|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin was 0.4%; i.e., non-inferiority required that the upper boundary of the 95% confidence interval for the treatment difference (sitagliptin minus glipizide) to be less than 0.4%.|Difference in least squares mean|-0.11|STANDARD_DEVIATION|0.74|||TWO_SIDED|95.0|-0.29|0.06|||ANCOVA||Based on analysis of covariance with terms for treatment, renal insufficiency stratum at Visit 4/Week -2 (moderate, or severe), prior diabetes pharmacotherapy (on or not on oral antihyperglycemic agent), and a covariate for baseline A1C.|||0.06|-0.29|
92419381|NCT00509262|184727144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8||||0.001|TWO_SIDED|95.0|-17.1|-4.8|||Miettirnen& Nurminen method||Miettirnen \& Nurminen method stratified by renal insufficiency stratum at Visit 4/Week -2 (moderate or severe) \& prior diabetes pharmacotherapy|||-4.8|-17.1|0.001
92419382|NCT00509262|184727145|SUPERIORITY_OR_OTHER||Difference in least squares mean|7.1|STANDARD_DEVIATION|38.3|||TWO_SIDED|95.0|-1.9|16.1|||ANCOVA||Analysis of covariance with terms for treatment, renal insufficiency stratum at Visit 4/Week -2 (moderate or severe), prior diabetes pharmacotherapy (on or not on oral antihyperglycemic agent), and a covariate for baseline Fasting Plasma Glucose.|||16.1|-1.9|
92419383|NCT00509262|184727146|SUPERIORITY_OR_OTHER||Difference in least squares mean|-1.8|STANDARD_DEVIATION|3.8|<|0.001|TWO_SIDED|95.0|-2.6|-1.0|||ANCOVA||Analysis of covariance with terms of treatment, renal insufficiency stratum at Visit 4/Week -2 (moderate or severe), prior diabetes pharmacotherapy (on or not on oral antihyperglycemic agent), and a covariate for baseline body weight.|||-1.0|-2.6|<0.001
92419384|NCT01244490|184727170|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-8.9|||<|0.001|TWO_SIDED|95.0|-11.9|-5.8|||ANCOVA|||||-5.8|-11.9|<0.001
92419385|NCT01244490|184727170|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-3.8||||0.017|TWO_SIDED|95.0|-6.8|-0.7|||ANCOVA|||||-0.7|-6.8|0.017
92419386|NCT01244490|184727171|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage Improvement|23.7|||<|0.001|TWO_SIDED|95.0|11.1|36.4|||Cochran-Mantel-Haenszel|||||36.4|11.1|<0.001
92419387|NCT01244490|184727171|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage Improvement|12.1||||0.024|TWO_SIDED|95.0|-0.9|25.1|||Cochran-Mantel-Haenszel|||||25.1|-0.9|0.024
92419388|NCT01244490|184727172|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.217||||0.003|TWO_SIDED|95.0|-0.358|-0.076|||ANCOVA|||||-0.076|-0.358|0.003
92391312|NCT03066596|184681734|SUPERIORITY|A generalized linear model (GLM) with generalized estimating equations (GEE) was used to compare changes over time between the two groups in symptom-free days (SFDs) during the past two weeks, accounting for within-subject correlation. The null hypothesis at each time point was that there is no difference between groups in the change in SFDs. With 530 participants at baseline, ≤10% attrition at 12 months, the study has 80% power to detect a standardized effect size \>0.29.|Ratio of Rate Ratios|1.03||||0.724|TWO_SIDED|95.0|0.85|1.25|||GLM with GEE|||9 month follow up||1.25|0.85|0.724
92391313|NCT03066596|184681734|SUPERIORITY|A generalized linear model (GLM) with generalized estimating equations (GEE) was used to compare changes over time between the two groups in symptom-free days (SFDs) during the past two weeks, accounting for within-subject correlation. The null hypothesis at each time point was that there is no difference between groups in the change in SFDs. With 530 participants at baseline, ≤10% attrition at 12 months, the study has 80% power to detect a standardized effect size \>0.29.|Ratio of Rate Ratios|1.12||||0.229|TWO_SIDED|95.0|0.93|1.34|||GLM with GEE|||12 month follow up||1.34|0.93|0.229
92391314|NCT03066596|184681734|SUPERIORITY|This analysis is similar to Analysis 1, with adjustment for baseline outcome (symptom-free days) and seasonality.|Ratio of Rate Ratios|1.13||||0.186|TWO_SIDED|95.0|0.94|1.34|||GLM with GEE|||3 month follow up||1.34|0.94|0.186
92391315|NCT03066596|184681734|SUPERIORITY|This analysis is similar to Analysis 2, with adjustment for baseline outcome (symptom-free days) and seasonality.|Ratio of Rate Ratios|1.04||||0.744|TWO_SIDED|95.0|0.84|1.27|||GLM with GEE|||6 month follow up||1.27|0.84|0.744
92419389|NCT01244490|184727172|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.162||||0.026|TWO_SIDED|95.0|-0.305|-0.019|||ANCOVA|||||-0.019|-0.305|0.026
92419390|NCT01244490|184727173|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.209||||0.006|TWO_SIDED|95.0|-0.358|-0.059|||ANCOVA|||||-0.059|-0.358|0.006
92419391|NCT01244490|184727173|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.09||||0.242|TWO_SIDED|95.0|-0.241|0.061|||ANCOVA|||||0.061|-0.241|0.242
92419392|NCT01244490|184727174|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Nominal p-value uncorrected for multiplicity.|Cochran-Mantel-Haenszel|||||||<0.001
92419393|NCT01244490|184727174|SUPERIORITY_OR_OTHER_LEGACY|||||||0.196||||||Nominal p-value uncorrected for multiplicity.|Cochran-Mantel-Haenszel|||||||0.196
92391316|NCT03066596|184681734|SUPERIORITY|This analysis is similar to Analysis 3, with adjustment for baseline outcome (symptom-free days) and seasonality.|Ratio of Rate Ratios|1.03||||0.765|TWO_SIDED|95.0|0.85|1.25|||GLM with GEE|||9 month follow up||1.25|0.85|0.765
92419394|NCT01244490|184727176|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.165||||0.001|TWO_SIDED|95.0|-0.266|-0.064||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.064|-0.266|0.001
92419395|NCT01244490|184727176|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.104||||0.048|TWO_SIDED|95.0|-0.207|-0.001||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.001|-0.207|0.048
92419396|NCT01244490|184727177|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.211||||0.043|TWO_SIDED|95.0|-0.416|-0.007||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.007|-0.416|0.043
92419397|NCT01244490|184727177|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.125||||0.231|TWO_SIDED|95.0|-0.331|0.08||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.080|-0.331|0.231
92419398|NCT01244490|184727178|SUPERIORITY_OR_OTHER_LEGACY||Diiference in Least Squares Mean|-0.229|||<|0.001|TWO_SIDED|95.0|-0.364|-0.094||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.094|-0.364|<0.001
92419399|NCT01244490|184727178|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.181||||0.009|TWO_SIDED|95.0|-0.317|-0.045||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.045|-0.317|0.009
92419400|NCT01244490|184727179|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.094||||0.096|TWO_SIDED|95.0|-0.204|0.017||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.017|-0.204|0.096
92419401|NCT01244490|184727179|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.067||||0.242|TWO_SIDED|95.0|-0.18|0.046||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.046|-0.180|0.242
92419402|NCT01244490|184727180|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.049||||0.5|TWO_SIDED|95.0|-0.191|0.094||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.094|-0.191|0.500
92419403|NCT01244490|184727180|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.078||||0.288|TWO_SIDED|95.0|-0.222|0.066||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.066|-0.222|0.288
92419404|NCT01244490|184727181|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.233||||0.001|TWO_SIDED|95.0|-0.374|-0.092||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.092|-0.374|0.001
92419405|NCT01244490|184727181|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.111||||0.124|TWO_SIDED|95.0|-0.253|0.031||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.031|-0.253|0.124
92419406|NCT01244490|184727182|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.056||||0.139|TWO_SIDED|95.0|-0.131|0.018||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.018|-0.131|0.139
92419407|NCT01244490|184727182|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.039||||0.315|TWO_SIDED|95.0|-0.115|0.037||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.037|-0.115|0.315
92419408|NCT00971620|184727187|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.7|TWO_SIDED|95.0|-2.0|4.0|||Wilcoxon rank sum test|||||4.00|-2.00|.70
92419409|NCT00971620|184727189|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon rank sum test|||||||.06
92419410|NCT00971620|184727190|SUPERIORITY_OR_OTHER|||||||0.007|||||||WIlcoxon rank sum test|||||||.007
92419411|NCT00971620|184727191|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon rank sum test|||||||0.48
92419412|NCT00971620|184727192|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon rank sum test|||||||.04
92419413|NCT00971620|184727194|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon rank sum test|||||||.07
92171780|NCT03897686|184233251|SUPERIORITY|\[Not specified\]|LS-means difference|-179.3|STANDARD_ERROR_OF_MEAN|48.38||0.0017|TWO_SIDED|95.0|-305.11|-53.5||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~1\) Group A (NOLTREX™) OA grade II versus Group B (Placebo) ОА grade II"||-53.50|-305.11|0.0017
92391317|NCT03066596|184681734|SUPERIORITY|This analysis is similar to Analysis 4, with adjustment for baseline outcome (symptom-free days) and seasonality.|Ratio of Rate Ratios|1.11||||0.241|TWO_SIDED|95.0|0.93|1.33|||GLM with GEE|||12 month follow up||1.33|0.93|0.241
92391318|NCT02915978|184681826|OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.89||0.0505|TWO_SIDED|95.0|-3.61|0.0|||ANCOVA|||NRS PID at 1 hour||0.00|-3.61|0.0505
92391319|NCT02915978|184681826|OTHER||LS Mean Difference|-1.06|STANDARD_ERROR_OF_MEAN|0.9||0.2493|TWO_SIDED|95.0|-2.89|0.77|||ANCOVA|||NRS PID at 1 hour||0.77|-2.89|0.2493
92391320|NCT02915978|184681826|OTHER||LS Mean Difference|-2.94|STANDARD_ERROR_OF_MEAN|0.99||0.0052|TWO_SIDED|95.0|-4.95|-0.94|||ANCOVA|||NRS PID at 16 hours||-0.94|-4.95|0.0052
92391321|NCT02915978|184681826|OTHER||LS Mean Difference|-1.67|STANDARD_ERROR_OF_MEAN|0.97||0.0926|TWO_SIDED|95.0|-3.62|0.29|||ANCOVA|||NRS PID at 16 hours||0.29|-3.62|0.0926
92391322|NCT02915978|184681826|OTHER||LS Means Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.82||0.0951|TWO_SIDED|95.0|-3.06|0.26|||ANCOVA|||NRS PID at 24 hours||0.26|-3.06|0.0951
92391323|NCT02915978|184681826|OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.8||0.9866|TWO_SIDED|95.0|-1.6|1.63|||ANCOVA|||NRS PID at 24 hours||1.63|-1.60|0.9866
92419414|NCT03324581|184727222|SUPERIORITY||Difference|0.81|||=|0.7554|TWO_SIDED|95.0|-4.3|5.92||The change from baseline in CAARS-O:SV was analyzed using a Mixed-effect Model Repeated Measures (MMRM) methodology with the unstructured variance covariance matrix.|Mixed-effect Model Repeated Measures|It included fixed class-effect terms: treatment,trial site,visit week, interaction term: treatment by visit week, Baseline CAARS-O:SV as a covariate.||||5.92|-4.30|=0.7554
92419415|NCT03324581|184727222|SUPERIORITY||Difference|-6.61|||=|0.0101|TWO_SIDED|95.0|-11.6|-1.6||The change from baseline in CAARS-O:SV was analyzed using a MMRM methodology with the unstructured variance covariance matrix.|Mixed-effect Model Repeated Measures|It included fixed class-effect terms: treatment,trial site,visit week, interaction term: treatment by visit week, Baseline CAARS-O:SV as a covariate.||||-1.60|-11.6|=0.0101
92419416|NCT03324581|184727222|SUPERIORITY||Difference|-7.42|||=|0.0033|TWO_SIDED|95.0|-12.3|-2.5||The change from baseline in CAARS-O:SV was analyzed using a MMRM methodology with the unstructured variance covariance matrix.|Mixed-effect Model Repeated Measures|It included fixed class-effect terms: treatment,trial site,visit week, interaction term: treatment by visit week, Baseline CAARS-O:SV as a covariate.||||-2.50|-12.3|=0.0033
92419417|NCT04473482|184727233|SUPERIORITY|Generalized estimating equations with robust sandwich estimators used with Wald 95% confidence intervals and conversion to odds ratios|Odds Ratio (OR)|2.25|||||TWO_SIDED|95.0|||||||Generalized estimating equations with robust sandwich estimators used with Wald 95% confidence intervals and conversion to odds ratios||Generalized estimating equations with robust sandwich estimators used with Wald 95% confidence intervals|||
92419418|NCT04473482|184727234|SUPERIORITY||Odds Ratio (OR)|2.31|||||TWO_SIDED|95.0|||||||GEEs with robust sandwich estimators and Wald 95% CIs with conversion to Odds Ratios|||||
92419419|NCT00266864|184727236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4|STANDARD_DEVIATION|2.7|<|0.01|TWO_SIDED|95.0||||One sample t -tests were performed on the percent change from baseline to month 12 \[(month 12- baseline)/baseline\*100\] for comparison to the null hypothesis. An a priori level of significance was set at p ≤ 0.05.|ANOVA|||Separate 2 factor (group: treatment, control) analysis of variance (ANOVA) with repeated measures on visit (baseline, month 12) were performed to identify changes in lean tissue mass across time. To further characterize significant main and interaction effects, post-hoc paired t -tests were performed within group.||||<0.01
92419420|NCT00266864|184727237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|101.0|STANDARD_DEVIATION|103.0||0.051|TWO_SIDED|95.0||||One sample t -tests were performed on the percent change from baseline to month 12 \[(month 12- baseline)/baseline\*100\] for comparison to the null hypothesis. An a priori level of significance was set at p ≤ 0.05.|ANOVA|||Separate 2 factor (group: treatment, control) analysis of variance (ANOVA) with repeated measures on visit (baseline, month 12) were performed to identify changes in resting energy expenditure across time. To further characterize significant main and interaction effects, post-hoc paired t -tests were performed within group.||||0.051
92419421|NCT00829933|184727241|SUPERIORITY_OR_OTHER|||||||0.429|TWO_SIDED||||||Chi-squared|||For the incidence of bleeding events, paired comparison between the DU-176b groups was performed using the χ2 test.||||0.429
92235774|NCT03114969|184374779|SUPERIORITY||Odds Ratio (OR)|3.483||||0.02|TWO_SIDED|95.0|1.218|9.961||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||9.961|1.218|0.020
92391324|NCT00892775|184681846|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for measles 42-56 days after vaccination was concluded if the lower limit of the 95% confidence interval around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|-0.64|||||TWO_SIDED|95.0|-2.29|1.76||||||||1.76|-2.29|
92391325|NCT00892775|184681846|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for mumps 42-56 days after vaccination was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|-0.74|||||TWO_SIDED|95.0|-6.14|5.58||||||||5.58|-6.14|
92391326|NCT00892775|184681846|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for rubella 42-56 days after vaccination was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|-0.32|||||TWO_SIDED|95.0|-1.78|2.08||||||||2.08|-1.78|
92391327|NCT00892775|184681846|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for varicella 42-56 days after vaccination was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|4.69|||||TWO_SIDED|95.0|0.72|10.34||||||||10.34|0.72|
92419422|NCT00829933|184727241|SUPERIORITY_OR_OTHER|||||||0.077|TWO_SIDED||||||Chi-squared|||||||0.077
92391328|NCT00250276|184681890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% Confidence Interval (CI) of the GMC ratio between lots was within \[0.5;2\] for the anti-HPV-16 antibodies.|GMC ratio for anti-HPV-16 antibody|1.04|||||TWO_SIDED|95.0|0.81|1.34|||ANOVA|The ANOVA model on the logarithm (log)10 transformation of the concentrations. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.34|0.81|
92419423|NCT00829933|184727241|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|-1.5|||||TWO_SIDED|95.0|-11.2|8.1|||Wilcoxon (Mann-Whitney)|||||8.1|-11.2|
92419424|NCT00829933|184727241|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Chi-squared|||||||0.320
92419425|NCT00829933|184727241|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.4|||||TWO_SIDED|95.0|-7.6|12.3|||Wilcoxon (Mann-Whitney)|||||12.3|-7.6|
92419426|NCT00829933|184727241|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|7.7|||||TWO_SIDED|95.0|-2.7|18.1|||Wilcoxon (Mann-Whitney)|||||18.1|-2.7|
92419427|NCT03687970|184727259|OTHER|Multivariable logistic regression was applied to predict binary outcome while controlling for other potential confounding factors (age, cumulative chemotherapy dose, chemotherapy group).|Slope|-0.13||||0.05|TWO_SIDED|||||threshold for p value is 0.05.|Regression, Logistic|||||||0.05
92419428|NCT03687970|184727260|OTHER|Spearman correlation coefficient between the Aδ:C fiber detection threshold ratio and the severity of painful CIPN on NPSI scale for patients with painful CIPN was calculated.|rho coefficient|0.22||||0.7525|TWO_SIDED|||||The thrshold for p value is 0.05.|Spearman's correlation coefficient|||||||0.7525
92419429|NCT03687970|184727260|OTHER|Spearman correlation coefficient between the Aδ:C fiber detection threshold ratio and the severity of painful CIPN on NPSI scale for Control group patients without painful CIPN was calculated.|rho coefficient|0.32||||0.1876|TWO_SIDED|||||The threshold for p value is 0.05.|Spearman's correlation coefficien|||||||0.1876
92419430|NCT03687970|184727260|OTHER|Spearman correlation coefficient between the Aδ:C fiber pain threshold ratio and the severity of painful CIPN on NPSI scale for patients with painful CIPN was calculated.|rho coefficient|0.13||||0.61|TWO_SIDED|||||The threshold for p value is 0.05.|Spearman's correlation coefficient|||||||0.61
92419431|NCT03687970|184727260|OTHER|Spearman correlation coefficient between the Aδ:C fiber detection threshold ratio and the severity of painful CIPN on NPSI scale for patients with painful CIPN was calculated.|rho coefficient|-0.2812205||||0.2914|TWO_SIDED|||||The threshold for p value is 0.05.|Spearman's correlation coefficient|||||||0.2914
92419432|NCT06374394|184727268|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the GMT ratio between the Control Group (at Day 61) versus Co-Ad Group (at Day 31) for RSV-A neutralizing titers 1-month after the RSVPreF3 OA vaccine dose was less than or equal to (≤) 1.5.|Geometric Mean Ratio (GMR)|1.12|||||TWO_SIDED|95.0|0.97|1.28|||ANCOVA|ANCOVA model included the treatment group and age category at vaccination as fixed effects and the pre-dose log10 titer as covariate.|The GMR is based on the back transformation of the group comparisons in the ANCOVA model applied to the logarithmically-transformed titers.|To demonstrate non-inferiority of humoral immune response to RSVPreF3 OA vaccine when co-administered with a COVID-19 mRNA vaccine compared to RSVPreF3 OA vaccine administered alone.||1.28|0.97|
92419433|NCT06374394|184727269|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio between the Control Group (at Day 61) versus Co-Ad Group (at Day 31) for RSV-B neutralizing titers 1-month after the RSVPreF3 OA vaccine dose was ≤1.5.|GMR|1.08|||||TWO_SIDED|95.0|0.94|1.23|||ANCOVA|ANCOVA model included the treatment group and age category at vaccination as fixed effects and the pre-dose log10 titer as covariate.|The GMR is based on the back transformation of the group comparisons in the ANCOVA model applied to the logarithmically-transformed titers.|To demonstrate non-inferiority of humoral immune response to RSVPreF3 OA vaccine when co-administered with a COVID-19 mRNA vaccine compared to RSVPreF3 OA vaccine administered alone.||1.23|0.94|
92419434|NCT06374394|184727270|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio between the Control Group (at Day 31) versus Co-Ad group (at Day 31) for SARS-CoV-2 neutralizing titers 1-month after the COVID-19 mRNA vaccine dose was ≤1.5.|GMR|1.31|||||TWO_SIDED|95.0|1.13|1.51|||ANCOVA|ANCOVA model included the treatment group and age category at vaccination as fixed effects and the pre-dose log10 titer as covariate.|The GMR is based on the back transformation of the group comparisons in the ANCOVA model applied to the logarithmically-transformed titers.|To demonstrate non-inferiority of humoral immune response to a COVID-19 mRNA vaccine when co-administered with the RSVPreF3 OA vaccine compared to COVID-19 mRNA vaccine administered alone.||1.51|1.13|
92419435|NCT00509392|184727304|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92419436|NCT00509392|184727305|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92419437|NCT00509392|184727306|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92419438|NCT00509392|184727307|SUPERIORITY_OR_OTHER|||||||0.2962||95.0|||||t-test, 2 sided|||||||0.2962
92419439|NCT00509392|184727308|SUPERIORITY_OR_OTHER|||||||0.0048||95.0|||||t-test, 2 sided|||||||0.0048
92419440|NCT00509392|184727309|SUPERIORITY_OR_OTHER|||||||0.0036||95.0|||||t-test, 2 sided|||||||0.0036
92419441|NCT00509392|184727310|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||t-test, 2 sided|||||||0.0005
92419442|NCT00509392|184727311|SUPERIORITY_OR_OTHER|||||||0.5761||95.0|||||t-test, 2 sided|||||||0.5761
92419443|NCT00509392|184727312|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92419444|NCT00509392|184727313|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92419445|NCT00509392|184727314|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92419446|NCT00509392|184727315|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Fisher Exact|||||||0.0050
92419447|NCT00509392|184727317|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||t-test, 2 sided|||||||0.0009
92419448|NCT00509392|184727318|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||t-test, 2 sided|||||||0.0002
92419449|NCT00509392|184727319|SUPERIORITY_OR_OTHER|||||||0.0035||95.0|||||t-test, 2 sided|||||||0.0035
92419450|NCT00509392|184727320|SUPERIORITY_OR_OTHER|||||||0.2825||95.0|||||t-test, 2 sided|||||||0.2825
92419451|NCT00509392|184727321|SUPERIORITY_OR_OTHER|||||||0.0854||95.0|||||t-test, 2 sided|||||||0.0854
92391329|NCT00250276|184681890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% CIs of the GMC ratio between lots were within \[0.5;2\] for the anti-HPV-18 antibodies.|GMC ratio for anti-HPV-18 antibody|1.19|||||TWO_SIDED|95.0|0.95|1.49|||ANOVA|The ANOVA model on the log10 transformation of theconcentrations. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.49|0.95|
92391330|NCT00250276|184681890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% CIs of the GMC ratio between lots were within \[0.5;2\] for the anti-HPV-16 antibodies.|GMC ratio for anti-HPV-16 antibody|1.26|||||TWO_SIDED|95.0|0.98|1.63|||ANOVA|The ANOVA model on the log10 transformation of the concnetration. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.63|0.98|
92391331|NCT00250276|184681890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% CIs of the GMC ratio between lots were within \[0.5;2\] for the anti-HPV-18 antibodies.|GMC ratio for anti-HPV-18 antibody|1.48|||||TWO_SIDED|95.0|1.18|1.85|||ANOVA|The ANOVA model on the log10 transformation of the concnetration. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.85|1.18|
92391332|NCT00250276|184681890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% CIs of the GMC ratio between lots were within \[0.5;2\] for the anti-HPV-16 antibodies.|GMT ratio for anti-HPV-16 antibody|1.21|||||TWO_SIDED|95.0|0.94|1.55|||ANOVA|The ANOVA model on the log10 transformation of the concentration. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.55|0.94|
92391333|NCT00250276|184681890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% CIs of the GMC ratio between lots were within \[0.5;2\] for the anti-HPV-18 antibodies.|GMC ratio for anti-HPV-18 antibody|1.24|||||TWO_SIDED|95.0|1.0|1.55|||ANOVA|The ANOVA model on the log10 transformation of the concentration. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.55|1.00|
92391334|NCT00250276|184681890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The second primary objective was reached as the upper limit of the 95% CI of the difference in seroconversion rates for anti-HPV-16 antibodies was below 5%.|Difference in seroconversion rate|0.0|||||TWO_SIDED|95.0|-3.63|1.02|||Proc StatXact 5.0|||To demonstrate that the Cervarix™ vaccine produced at 600L manufacturing scale was non-inferior in terms of immunogenicity to the Cervarix™ vaccine produced at 80L scale, one month after the third dose (Month 7).||1.02|-3.63|
92419452|NCT00509392|184727322|SUPERIORITY_OR_OTHER|||||||0.0044||95.0|||||t-test, 2 sided|||||||0.0044
92419453|NCT00509392|184727323|SUPERIORITY_OR_OTHER|||||||0.0457||95.0|||||t-test, 2 sided|||||||0.0457
92419454|NCT00509392|184727324|SUPERIORITY_OR_OTHER|||||||0.9463||95.0|||||t-test, 2 sided|||||||0.9463
92419455|NCT03954041|184727325|SUPERIORITY||LS mean difference|4.62|||=|0.3752|TWO_SIDED|95.0|-5.74|14.98||P-value was analyzed by ANCOVA model with covariates: treatment, interactive response technology (IRT) stratification factors at randomization, baseline total contusion volume based on central read, imaging modality at Hour 96 (MRI vs NCCT).|ANCOVA|||Statistical analysis of combined BIIB093 vs placebo||14.98|-5.74|= 0.3752
92419456|NCT03954041|184727326|SUPERIORITY||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.4|3.36||||||Statistical analysis of combined BIIB093 vs placebo||3.36|0.40|
92170019|NCT04869982|184228834|OTHER|VE was defined as 1 minus the relative risk (RR). RR was defined as the ratio of the incidence rates of the RZV Group over the Placebo Group. The VE of RZV against HZ was to be demonstrated if the lower limit (LL) of the two-sided 95% CI of VE was above 25%.|VE (1-RR)|100.0|||<|0.0001|TWO_SIDED|95.0|89.82|100.0||All p-values reported were related to the null hypothesis test VE = 0.|Poisson|The CI for VE is derived from the exact CI from RR.||To demonstrate the vaccine efficacy (VE) of RZV against HZ, the analysis considered the exact inference on the relative risk adjusted for age strata conditionally to the total number of confirmed HZ cases observed and time at risk. This method computed an exact confidence interval (CI) around the rate ratio (ratio of the event rates in the RZV Group versus Placebo Group) and accounted for the sum of the time at risk of the participants within each group.||100|89.82|<0.0001
92170020|NCT05215847|184228862|OTHER|Adverse event subject incidence and event frequency.|||||||||||||||||Adverse event subject incidence and event frequency.|||
92391335|NCT00250276|184681890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The second primary objective was reached as the upper limit of the 95% CI of the difference in seroconversion rates for anti-HPV-18 antibodies was below 5%.|Difference in seroconversion rate|0.0|||||TWO_SIDED|95.0|-3.18|0.94|||Proc StatXact 5.0|||To demonstrate that the Cervarix™ vaccine produced at 600L manufacturing scale was non-inferior in terms of immunogenicity to the Cervarix™ vaccine produced at 80L scale, on month after the third dose (Month 7).||0.94|-3.18|
92391336|NCT00250276|184681890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The second primary objective was reached as the upper limit of the 95% CI of the GMC rates for anti-HPV-16 was below 2%.|GMC ratio for anti-HPV-16 antibody|0.87|||||TWO_SIDED|95.0|0.7|1.08|||ANOVA|The ANOVA model on the log10 transformation of the concentration, included the vaccine groups as fixed effect (pooled 600L lot versus 80L lot).||To demonstrate that the Cervarix™ vaccine produced at 600L manufacturing scale was non-inferior in terms of immunogenicity to the Cervarix™ vaccine produced at 80L scale, on month after the third dose (Month 7).||1.08|0.70|
92391337|NCT00250276|184681890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The second primary objective was reached as the upper limit of the 95% CI of the GMC rates anti-HPV-18 antibodies was below 2%.|GMC ratio for anti-HPV-18 antibody|0.8|||||TWO_SIDED|95.0|0.66|0.97|||ANOVA|The ANOVA model on the log10 transformation of the concentration, included the vaccine groups as fixed effect (pooled 600L lot versus 80L lot).||To demonstrate that the Cervarix™ vaccine produced at 600L manufacturing scale was non-inferior in terms of immunogenicity to the Cervarix™ vaccine produced at 80L scale, on month after the third dose (Month 7).||0.97|0.66|
92391338|NCT02781610|184681907|NON_INFERIORITY|The non-inferiority margin is -3.5%.|Mean Difference (Final Values)|-0.7||||0.0164|TWO_SIDED|95.0|-3.3|2.0|||ANOVA|Adjusted for four dichotomous randomization strata.||The ERR non-inferiority test was a priori designed to be conducted on the per-protocol (PP) population for 93% power assuming 2-sided alpha=0.05 with 155 PP participants per arm. Difference between ERR treatment duration arms is ERR-10 - ERR-14.||2.0|-3.3|0.0164
92391339|NCT02781610|184681908|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.568|TWO_SIDED|95.0|-1.3|1.1|||ANOVA|Adjusted for four dichotomous randomization strata.||The NERR superiority test was a priori designed to be conducted on the Intent-to-Treat (ITT) population for 91% power to detect a 2.5% difference, assuming 2-sided alpha=0.05 with 285 ITT participants per arm. Difference between NERR treatment duration arms is NERR-21 - NERR-14.||1.1|-1.3|0.568
92391340|NCT02781610|184681909|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.546|TWO_SIDED|95.0|-2.4|4.6|||t-test, 2 sided|||Difference between ERR treatment duration arms is ERR-10 - ERR-14.||4.6|-2.4|0.546
92391341|NCT02781610|184681910|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.14|TWO_SIDED|95.0|-3.7|0.5|||t-test, 2 sided|||Difference between NERR treatment duration arms is NERR-21 - NERR-14.||0.5|-3.7|0.140
92419457|NCT03954041|184727327|SUPERIORITY||Odds Ratio (OR)|1.47|||=|0.4306|TWO_SIDED|95.0|0.56|3.86||P-value was analyzed by ordinal logistic regression on mRS adjusting for covariates: treatment, IRT stratification factors at randomization, baseline mRS score, and baseline total contusion volume based on central read.|Regression, Logistic|||Statistical analysis of combined BIIB093 vs placebo||3.86|0.56|=0.4306
92391342|NCT02781610|184681911|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.563|TWO_SIDED|95.0|-0.42|0.77|||t-test, 2 sided|||Difference between ERR treatment duration arms is ERR-10 - ERR-14.||0.77|-0.42|0.563
92391343|NCT02781610|184681912|SUPERIORITY|Difference between NERR treatment duration arms is NERR-21 - NERR-14.|Mean Difference (Final Values)|0.29||||0.083|TWO_SIDED|95.0|-0.04|0.61|||t-test, 2 sided|||||0.61|-0.04|0.083
92391344|NCT03057496|184682023|SUPERIORITY||Rate ratio|0.627|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.536|0.734||Since the outcome (contacts) represented over-dispersed count data and there were repeated measurements per subject, a generalized mixed effects model with a negative binomial family was used with each subject treated as a random intercept.|Mixed Models Analysis|Fixed factors were included in the model to account for factors other than device operating mode that might affect collision rates.|Silent mode is the denominator for the rate ratio.|A within-subject comparison was performed. Each subject included in the analysis used the device in both the active and the silent mode. Comparison was between the two device operating modes. The null hypothesis was that there was no difference in the rate of contacts between active and silent modes.||0.734|0.536|< 0.001
92391345|NCT00997035|184682047|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.29|TWO_SIDED|95.0|0.57|1.18|||Regression, Cox|Cox proportional hazards regression to estimate the hazard of perforation or need for TPK.||The sample size was determined based on the primary end point: perforation or the need for TPK within 3 months. Simulation-based analyses estimated that a sample sizeof 240 study participants (120 per arm) would provide 80% power to detect a 15% difference in the 3-month perforation or need for TPK rate between topical antifungal plus oral voriconazole vs topical antifungal alone,with a 2-tailed α value of .05 and approximately 15%loss to follow-up.||1.18|0.57|0.29
92391346|NCT00997035|184682052|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.65|TWO_SIDED|95.0|0.49|1.57|||Regression, Cox|||||1.57|.49|0.65
92391347|NCT00997035|184682054|SUPERIORITY||||||<|0.001||||||Statistically significant after Holms-Šidák correction for multiple comparisons.|Fisher Exact|||||||<0.001
92170021|NCT03830177|184228905|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92170022|NCT03830177|184228906|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92170023|NCT03830177|184228907|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92170024|NCT03830177|184228908|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92391348|NCT00790192|184682071|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92170025|NCT03830177|184228910|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92391349|NCT00790192|184682072|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92391350|NCT03456076|184682074|SUPERIORITY||Hazard Ratio (HR)|0.24||||0.0001|TWO_SIDED|95.0|0.13|0.45|||Log Rank|||||0.45|0.13|.0001
92391351|NCT03456076|184682074|SUPERIORITY||Hazard Ratio (HR)|0.24||||0.0001|TWO_SIDED|95.0|0.13|0.43|||Log Rank|||||0.43|0.13|.0001
92391352|NCT03187132|184682084|SUPERIORITY||Mean Difference (Final Values)|-1.86|STANDARD_ERROR_OF_MEAN|1.17||0.111|TWO_SIDED|95.0|-4.15|0.43|||Mixed Models Analysis||The estimate is for the Digital Pain Reduction Kit arm.|We used a repeated measures linear mixed model featuring fixed effects for time, study arm, and score at week 1, and random effects to account for within subject variation.||.43|-4.15|.111
92391353|NCT03187132|184682085|SUPERIORITY||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|1.27||0.612|TWO_SIDED|95.0|-1.84|3.12|||Mixed Models Analysis||The estimate is for the Digital Pain Reduction Kit arm.|We used a repeated measures linear mixed model featuring fixed effects for time, study arm, and score at week 1, and random effects to account for within subject variation.||3.12|-1.84|.612
92391354|NCT03187132|184682086|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|2.58||0.87|TWO_SIDED|95.0|-5.51|4.66|||t-test, 2 sided|||For work productivity measures, self-reported opioid utilization, and post-study measures of satisfaction, we used t-tests for normally distributed data and Wilcoxon Rank-Sum tests for non-normally distributed data.||4.66|-5.51|.87
92391355|NCT03187132|184682086|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.274||0.787|TWO_SIDED|95.0|-0.54|0.54|||t-test, 2 sided|||For work productivity measures, self-reported opioid utilization, and post-study measures of satisfaction, we used t-tests for normally distributed data and Wilcoxon Rank-Sum tests for non-normally distributed data.||.54|-.54|.787
92391356|NCT03187132|184682086|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.34||0.569|TWO_SIDED|95.0|-0.88|0.48|||t-test, 2 sided|||For work productivity measures, self-reported opioid utilization, and post-study measures of satisfaction, we used t-tests for normally distributed data and Wilcoxon Rank-Sum tests for non-normally distributed data.||.48|-.88|.569
92391357|NCT03187132|184682087|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.09||0.467|TWO_SIDED|95.0|-0.23|0.49|||t-test, 2 sided|||For work productivity measures, self-reported opioid utilization, and post-study measures of satisfaction, we used t-tests for normally distributed data and Wilcoxon Rank-Sum tests for non-normally distributed data.||.49|-.23|.467
92391358|NCT03187132|184682088|SUPERIORITY||Odds Ratio (OR)|0.79|STANDARD_ERROR_OF_MEAN|0.986||0.852|TWO_SIDED|95.0|0.07|9.07|||Regression, Logistic|||We used a multilevel logistic regression with random effects at the individual level and fixed effects for week and study-arm.||9.07|.07|.852
92391359|NCT01588561|184682144|OTHER||||||||||||||||||Increased signal: Insula, Putamen, Cingulate, Paracingulate, Calcarine cortex, Lingual gyrus, Frontal pole, Fusiform gyrus, Cerebellum. Decreased signal:Thalamus, Temporal gyri, Hippocampus (left), Caudate, Cerebellum|||
92391360|NCT01588561|184682145|OTHER||||||||||||||||||Increased signal: Insula, Putamen, Pallidum, Cingulate, Thalamus, Operculum, OBF cortex, Lingual gyrus, Cerebellum. Decreased signal: Hippocampus (left), Parahippocampus (left), Caudate, Cerebellum|||
92419458|NCT03954041|184727329|SUPERIORITY||LS Mean difference|-1.53|||=|0.6478|TWO_SIDED|95.0|-8.19|5.13||P-value was analyzed by ANCOVA model with covariates: treatment, IRT stratification factors at randomization, baseline total contusion volume based on central read.|ANCOVA|||Statistical analysis of combined BIIB093 vs placebo||5.13|-8.19|= 0.6478
92419459|NCT03954041|184727330|SUPERIORITY||LS Mean Difference|-0.09|||=|0.9314|TWO_SIDED|95.0|-2.2|2.02||P-value was analyzed by ANCOVA model with covariates: treatment, IRT stratification factors at randomization, baseline Glasgow Coma Scale (GCS) based on eCRF, and baseline absolute hematoma volume based on central read.|ANCOVA|||Statistical analysis of combined BIIB093 vs placebo||2.02|-2.20|=0.9314
92419460|NCT03954041|184727331|SUPERIORITY||LS Mean difference|2.18|||=|0.6569|TWO_SIDED|95.0|-7.61|11.98||P-value was analyzed by ANCOVA model with covariates: treatment, IRT stratification factors at randomization, baseline absolute edema volume based on central read, baseline GCS based on eCRF, and imaging modality at Hour 96 (MRI vs NCCT).|ANCOVA|||Statistical analysis of combined BIIB093 vs placebo||11.98|-7.61|= 0.6569
92391361|NCT01588561|184682146|OTHER||||||||||||||||||Increased signal: Insula (bilateral), Cingulate, Pretcentralgyrus, Thalamus (bilateral), Putamen (bilateral), Pallidum (bilateral), Amygdala (bilateral), Ventral tegmental area, Accumbens Nuclei. Decreased signal: Insula (left inferior), OBF cortex, Frontal\&Temporal poles, Hippocampus (bilateral), Parahippocampus (bilateral), Accumbens nuclei, Cerebellum|||
92391362|NCT01450761|184682148|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.936||||0.3775|TWO_SIDED|95.0|0.807|1.085|||Log Rank||HR = ipilimumab over placebo|||1.085|0.807|0.3775
92391363|NCT01450761|184682149|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.961||||0.5678|TWO_SIDED|95.0|0.838|1.102|||Log Rank||HR = ipilimumab over placebo|||1.102|0.838|0.5678
92391364|NCT01450761|184682150|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.851||||0.0161|TWO_SIDED|95.0|0.747|0.971|||Log Rank||HR = ipilimumab over placebo|||0.971|0.747|0.0161
92419461|NCT01896479|184727333|NON_INFERIORITY|The non-inferiority margin used was 1.58.|Cox Proportional Hazard|1.24||||0.1916|TWO_SIDED|95.0|0.9|1.7||Stratification factors comprised RET M918T mutational status (positive, negative, and unknown).|Log Rank|||||1.70|0.90|0.1916
92419462|NCT01896479|184727334|OTHER|Descriptive statistical analysis.|Odds Ratio (OR)|1.0195||||0.9437|TWO_SIDED|95.0|0.6|1.7|||Cochran-Mantel-Haenszel|Stratification factors comprised RET M918T mutational status (positive, negative, and unknown).||||1.7|0.6|0.9437
92446363|NCT02741115|184779776|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|1.91|STANDARD_ERROR_OF_MEAN|1.611||0.236|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline cardiac module scale (treatment anxiety).||||||0.236
92446364|NCT02741115|184779777|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.99|STANDARD_ERROR_OF_MEAN|1.622||0.543|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline cardiac module scale (cognitive problems).||||||0.543
92419463|NCT02325791|184727398|SUPERIORITY||percentage treatment difference|1.15||||0.5773|TWO_SIDED|95.0|-2.898|5.201|||Cochran-Mantel-Haenszel|||A hierarchical inferential approach was used to control Type-1 error at 0.05 for pairwise comparisons of each suptavumab dose regimen to placebo. Missing values were imputed to KM estimate from the placebo group. Randomization strata adjusted in CMH test include region (North America vs. Rest of World) \& gestational age category (\<= 31 weeks 6 days GA vs \>= 32 weeks 0 days and \<= 35 weeks 6 days GA). Threshold for significance at 0.05 level.||5.201|-2.898|0.5773
92419464|NCT02325791|184727398|SUPERIORITY||percentage treatment difference|-0.44|||||TWO_SIDED|95.0|-4.318|3.438||Analysis performed using CMH statistics with randomization stratum adjusted using Mantel-Haenzel (MH) method to assess pairwise treatment difference (i.e. absolute risk reduction of each suptavumab arm compared to placebo.|Cochran-Mantel-Haenszel|||A hierarchical inferential approach was used to control Type-1 error at 0.05 for pairwise comparisons of each Suptavumab dose regimen to placebo. Missing values were imputed to Kaplan-Meier (KM) estimate from the placebo group. Randomization strata adjusted in Cochran-Mantel-Haenszel (CMH) test include region (North America vs. Rest of World) \& gestational age category (\<= 31 weeks 6 days GA vs \>= 32 weeks 0 days and \<= 35 weeks 6 days GA). Threshold for significance at 0.05 level.||3.438|-4.318|
92419465|NCT02325791|184727402|SUPERIORITY||percentage treatment difference|-0.67|||||TWO_SIDED|95.0|-5.291|3.959|||Cochran-Mantel-Haenszel|||A hierarchical inferential approach was used to control Type-1 error at 0.05 for pairwise comparisons of each suptavumab dose regimen to placebo. Missing values were imputed to KM estimate from the placebo group. Randomization strata adjusted in CMH test include region (North America vs. Rest of World) \& gestational age category (\<= 31 weeks 6 days GA vs \>= 32 weeks 0 days and \<= 35 weeks 6 days GA). Threshold for significance at 0.05 level.||3.959|-5.291|
92446365|NCT02741115|184779778|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-1.66|STANDARD_ERROR_OF_MEAN|1.78||0.352|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline cardiac module scale (communication problems).||||||0.352
92446366|NCT02741115|184779779|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|3.59|STANDARD_ERROR_OF_MEAN|5.684||0.533|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors of ventricular morphology and treatment group with a continuous covariate of Baseline total score (age 8-12, child reported).||||||0.533
92170026|NCT02488863|184228931|OTHER|ANOVA||||||0.0561|||||||ANOVA|||H0: mean(SPPB\_older\_pain) = mean(SPPB\_older\_no pain) = mean(SPPB\_younger)||||0.0561
92170027|NCT06023082|184228958|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92170028|NCT06023082|184228959|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
92170029|NCT06023082|184228960|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92446367|NCT02741115|184779780|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|1.84|STANDARD_ERROR_OF_MEAN|4.057||0.654|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline total score (age 8-12, parent reported).||||||0.654
92446368|NCT02741115|184779781|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|1.069||0.963|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline total score (ages 13-18, child reported)||||||0.963
92446369|NCT02741115|184779782|SUPERIORITY|LS mean differences between treatment group were analyzed.|Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|1.171||0.246|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors of ventricular morphology and treatment group with a continuous covariate of Baseline total score (ages 13-18, parent reported).||||||0.246
92446370|NCT06425458|184779787|OTHER|||||||0.0011||||||Threshold for statistical significance: P \<= 0.05. As this was an exploratory analysis only, p-values were not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-tests were conducted to compare T1 and T2 Self-Esteem (MAPS20 subscale) scores. This analysis included participants who completed both T1 and T2 data collection (n = 18).||||0.0011
92446371|NCT06425458|184779787|OTHER|||||||0.0719||||||Threshold for statistical significance: P \<= .05. As this was an exploratory analysis only, p-values were not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-tests were conducted to compare T1 and T2 Purpose in Life (MAPS20 subscale) scores. This analysis included participants who completed both T1 and T2 data collection (n = 18).||||0.0719
92446372|NCT06425458|184779787|OTHER|||||||0.7991||||||Threshold for statistical significance: P \<= .05. As this was an exploratory analysis only, p-values were not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-tests were conducted to compare T1 and T2 Locus of Control (MAPS20 subscale) scores. This analysis included participants who completed both T1 and T2 data collection (n = 18).||||0.7991
92446373|NCT06425458|184779787|OTHER|||||||0.2208||||||Threshold for statistical significance: P \<= .05. As this was an exploratory analysis only, p-values were not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-tests were conducted to compare T1 and T2 Self-Efficacy (MAPS20 subscale) scores. This analysis included participants who completed both T1 and T2 data collection (n = 18).||||0.2208
92446374|NCT06425458|184779787|OTHER||Spearman partial correlation coefficient|0.37|||||TWO_SIDED|||||||||We conducted an exploratory, descriptive analysis investigating the relationship between leadership program attendance and identity capital at T2, accounting for T1 scores (MAPS20 subscale: Self-Esteem). This analysis included participants who completed both T1 and T2 data collection (n = 18). We calculated the Spearman correlation coefficient only. Power calculation does not apply for this analysis.||||
92446375|NCT06425458|184779787|OTHER||Spearman partial correlation coefficient|-0.29|||||TWO_SIDED|||||||||We conducted an exploratory, descriptive analysis investigating the relationship between leadership program attendance and identity capital at T2, accounting for T1 scores (MAPS20 subscale: Purpose in Life). This analysis included participants who completed both T1 and T2 data collection (n = 18). We calculated the Spearman correlation coefficient only. Power calculation does not apply for this analysis.||||
92391365|NCT01818596|184682154|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|30 participants with evaluable aGFR (measured by iohexol clearance) in either cohort would provide at least 90% power to show that aGFR change is \< 20% after participants were administered E/C/F/TAF. In this sample size/power computation, it was assumed that the intra-participant variation for aGFR is 0.17 mL/min on natural logarithm scale and a clinical meaningful boundary in aGFR change is 80% to 125%.|Difference in GLSM Ratio|98.94|||||TWO_SIDED|90.0|93.71|104.46|||||A parametric analysis of variance model using a mixed-effects model with repeated statement was fitted to the natural logarithm transferred aGFR obtained at postbaseline visits and baseline.|Comparison is made between the baseline value and the value from the Week 2, 4, or 8 visit and presented as a geometric least squares mean (GLSM) ratio with 90% confidence interval (CI). Postbaseline value and baseline value were used as test and reference, respectively.||104.46|93.71|
92391366|NCT01818596|184682154|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|30 participants with evaluable aGFR (measured by iohexol clearance) in either cohort would provide at least 90% power to show that aGFR change is \< 20% after participants were administered E/C/F/TAF. In this sample size/power computation, it was assumed that the intra-participant variation for aGFR is 0.17 mL/min on natural logarithm scale and a clinical meaningful boundary in aGFR change is 80% to 125%.|Difference in GLSM Ratio|102.66|||||TWO_SIDED|90.0|97.11|108.53|||||A parametric analysis of variance model using a mixed-effects model with repeated statement was fitted to the natural logarithm transferred aGFR obtained at postbaseline visits and baseline.|Comparison is made between the baseline value and the value from the Week 24 visit and presented as a GLSM ratio with 90% CI. Week 24 value and baseline value were used as test and reference, respectively.||108.53|97.11|
92391367|NCT04435366|184682178|SUPERIORITY||Least Squares Mean Difference|0.056|STANDARD_ERROR_OF_MEAN|0.02||0.0064|TWO_SIDED|95.0|0.016|0.096||Nominal p-value was used for the comparison between avacincaptad pegol versus sham.|MMRM|||Difference in least squares mean between groups calculated as (sham) minus (avacincaptad pegol). Mixed Model for repeated measures (MMRM) was used to compare the treatment groups.||0.096|0.016|0.0064
92391368|NCT04435366|184682179|SUPERIORITY||Least Squares Mean Difference|0.362|STANDARD_ERROR_OF_MEAN|0.15||0.0165|TWO_SIDED|95.0|0.066|0.657||Nominal p-value was used for the comparison between avacincaptad pegol versus sham.|MMRM|||Difference in least squares mean between groups calculated as (sham) minus (avacincaptad pegol).||0.657|0.066|0.0165
92391369|NCT04435366|184682179|SUPERIORITY||Least Squares Mean Difference|0.488|STANDARD_ERROR_OF_MEAN|0.152||0.0015|TWO_SIDED|95.0|0.189|0.788||Nominal p-value was used for the comparison between avacincaptad pegol and sham versus sham.|MMRM|||Difference in least squares mean between groups calculated as (sham) minus (avacincaptad pegol and sham).||0.788|0.189|0.0015
92391370|NCT04435366|184682180|SUPERIORITY||Least Squares Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.5||0.58|TWO_SIDED|95.0|-3.79|2.12||Nominal p-value was used for the comparison between avacincaptad pegol versus sham.|MMRM|||Difference in least squares mean between groups calculated as (sham) minus (avacincaptad pegol).||2.12|-3.79|0.58
92391371|NCT04435366|184682181|SUPERIORITY||Least Squares Mean Difference|-1.49|STANDARD_ERROR_OF_MEAN|1.68||0.38|TWO_SIDED|95.0|-4.79|1.81||Nominal p-value was used for the comparison between avacincaptad pegol versus sham.|MMRM|||Difference in least squares mean between groups calculated as (sham) minus (avacincaptad pegol).||1.81|-4.79|0.38
92391372|NCT04435366|184682183|SUPERIORITY||Least square mean difference|-0.712|STANDARD_ERROR_OF_MEAN|1.33||0.5929|TWO_SIDED|95.0|-3.326|1.903|||MMRM|||||1.903|-3.326|0.5929
92391373|NCT04435366|184682185|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6424|TWO_SIDED|95.0|0.57|1.42|||Log Rank|||||1.42|0.57|0.6424
92391374|NCT04152772|184682192|SUPERIORITY|||||||0.02||||||Significant Group (3 levels) by Stimulus (CS- vs CS+ extinguished) interaction. A priori threshold for statistical significance was set at p\<0.05.|Mixed Models Analysis|||Comparison of groups (3) on skin conductance reactivity to the previously extinguished stimulus versus never conditioned stimulus during extinction recall||||0.02
92391375|NCT05963022|184682193|SUPERIORITY||LS Mean Difference|-1.42|||<|0.001|TWO_SIDED|95.0|-1.76|-1.07|||ANCOVA|||||-1.07|-1.76|<0.001
92391376|NCT05963022|184682193|SUPERIORITY||LS Mean Difference|-0.98|||<|0.001|TWO_SIDED|95.0|-1.34|-0.63|||ANCOVA|||||-0.63|-1.34|<0.001
92391377|NCT05963022|184682193|SUPERIORITY||LS Mean Difference|-1.26|||<|0.001|TWO_SIDED|95.0|-1.61|-0.92|||ANCOVA|||||-0.92|-1.61|<0.001
92391378|NCT05963022|184682194|SUPERIORITY||Odds Ratio (OR)|17.04|||<|0.001|TWO_SIDED|95.0|5.62|51.73|||Regression, Logistic|||||51.73|5.62|<0.001
92391379|NCT05963022|184682194|SUPERIORITY||Odds Ratio (OR)|7.51|||<|0.001|TWO_SIDED|95.0|2.77|20.37|||Regression, Logistic|||||20.37|2.77|<0.001
92391380|NCT05963022|184682194|SUPERIORITY||Odds Ratio (OR)|7.24|||<|0.001|TWO_SIDED|95.0|2.74|19.14|||Regression, Logistic|||||19.14|2.74|<0.001
92419466|NCT02325791|184727402|SUPERIORITY||percentage treatment difference|2.02|||||TWO_SIDED|95.0|-2.836|6.867|||Cochran-Mantel-Haenszel|||A hierarchical inferential approach was used to control Type-1 error at 0.05 for pairwise comparisons of each suptavumab dose regimen to placebo. Missing values were imputed to KM estimate from the placebo group. Randomization strata adjusted in CMH test include region (North America vs. Rest of World) \& gestational age category (\<= 31 weeks 6 days GA vs \>= 32 weeks 0 days and \<= 35 weeks 6 days GA). Threshold for significance at 0.05 level.||6.867|-2.836|
92391381|NCT05963022|184682195|SUPERIORITY||LS Mean Difference|-24.8|||<|0.001|TWO_SIDED|95.0|-33.3|-16.3|||ANCOVA|||||-16.3|-33.3|<0.001
92391382|NCT05963022|184682195|SUPERIORITY||LS Mean Difference|-24.6|||<|0.001|TWO_SIDED|95.0|-33.2|-15.9|||ANCOVA|||||-15.9|-33.2|<0.001
92391383|NCT05963022|184682195|SUPERIORITY||LS Mean Difference|-25.2|||<|0.001|TWO_SIDED|95.0|-33.7|-16.7|||ANCOVA|||||-16.7|-33.7|<0.001
92391384|NCT05963022|184682196|SUPERIORITY||Odds Ratio (OR)|25.61|||<|0.001|TWO_SIDED|95.0|8.7|75.36|||Regression, Logistic|||||75.36|8.70|<0.001
92391385|NCT05963022|184682196|SUPERIORITY||Odds Ratio (OR)|7.25|||<|0.001|TWO_SIDED|95.0|2.88|18.25|||Regression, Logistic|||||18.25|2.88|<0.001
92391386|NCT05963022|184682196|SUPERIORITY||Odds Ratio (OR)|10.95|||<|0.001|TWO_SIDED|95.0|4.23|28.34|||Regression, Logistic|||||28.34|4.23|<0.001
92391387|NCT05963022|184682197|SUPERIORITY||LS Mean Difference|-4.8|||<|0.001|TWO_SIDED|95.0|-6.7|-2.9|||ANCOVA|||||-2.9|-6.7|<0.001
92391388|NCT05963022|184682197|SUPERIORITY||LS Mean Difference|-4.2|||<|0.001|TWO_SIDED|95.0|-6.2|-2.3|||ANCOVA|||||-2.3|-6.2|<0.001
92391389|NCT05963022|184682197|SUPERIORITY||LS Mean Difference|-7.3|||<|0.001|TWO_SIDED|95.0|-9.3|-5.4|||ANCOVA|||||-5.4|-9.3|<0.001
92391390|NCT05963022|184682198|SUPERIORITY||Odds Ratio (OR)|76.62||||0.003|TWO_SIDED|95.0|4.4|1333.29|||Regression, Logistic|||||1333.29|4.40|0.003
92391391|NCT05963022|184682198|SUPERIORITY||Odds Ratio (OR)|49.36|||<|0.001|TWO_SIDED|95.0|2.8|868.67|||Regression, Logistic|||||868.67|2.80|<0.001
92391392|NCT05963022|184682198|SUPERIORITY||Odds Ratio (OR)|118.22|||<|0.001|TWO_SIDED|95.0|6.8|2055.04|||Regression, Logistic|||||2055.04|6.80|<0.001
92391393|NCT05963022|184682199|SUPERIORITY||LS Mean Difference|-44.5|||<|0.001|TWO_SIDED|95.0|-57.5|-31.5|||Mixed Models Analysis|||||-31.5|-57.5|<0.001
92391394|NCT05963022|184682199|SUPERIORITY||LS Mean Difference|-44.3|||<|0.001|TWO_SIDED|95.0|-57.6|-31.1|||Mixed Models Analysis|||||-31.1|-57.6|<0.001
92391395|NCT05963022|184682199|SUPERIORITY||LS Mean Difference|-46.9|||<|0.001|TWO_SIDED|95.0|-60.1|-33.7|||Mixed Models Analysis|||||-33.7|-60.1|<0.001
92391396|NCT05963022|184682200|SUPERIORITY||Odds Ratio (OR)|18.19|||<|0.001|TWO_SIDED|95.0|5.27|62.73|||Regression, Logistic|||||62.73|5.27|<0.001
92391397|NCT05963022|184682200|SUPERIORITY||Odds Ratio (OR)|30.96|||<|0.001|TWO_SIDED|95.0|8.87|108.05|||Regression, Logistic|||||108.05|8.87|<0.001
92391398|NCT05963022|184682200|SUPERIORITY||Odds Ratio (OR)|73.42|||<|0.001|TWO_SIDED|95.0|19.36|278.4|||Regression, Logistic|||||278.40|19.36|<0.001
92391399|NCT05963022|184682201|SUPERIORITY||Odds Ratio (OR)|39.04||||0.011|TWO_SIDED|95.0|2.29|664.36|||Regression, Logistic|||||664.36|2.29|0.011
92391400|NCT05963022|184682201|SUPERIORITY||Odds Ratio (OR)|56.34||||0.005|TWO_SIDED|95.0|3.34|949.59|||Regression, Logistic|||||949.59|3.34|0.005
92391401|NCT05963022|184682201|SUPERIORITY||Odds Ratio (OR)|127.52|||<|0.001|TWO_SIDED|95.0|7.58|2145.42|||Regression, Logistic|||||2145.42|7.58|<0.001
92391402|NCT05963022|184682202|SUPERIORITY||Odds Ratio (OR)|13.86||||0.077|TWO_SIDED|95.0|0.75|254.78|||Regression, Logistic|||||254.78|0.75|0.077
92391403|NCT05963022|184682202|SUPERIORITY||Odds Ratio (OR)|15.65||||0.062|TWO_SIDED|95.0|0.87|281.74|||Regression, Logistic|||||281.74|0.87|0.062
92391404|NCT05963022|184682202|SUPERIORITY||Odds Ratio (OR)|66.69||||0.004|TWO_SIDED|95.0|3.9|1140.13|||Regression, Logistic|||||1140.13|3.90|0.004
92391405|NCT02501590|184682203|OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92391406|NCT00945282|184682229|SUPERIORITY||Mean Difference (Final Values)|-0.932||||0.042|TWO_SIDED|95.0|-1.812|-0.053|||ANCOVA|||||-0.053|-1.812|0.042
92391407|NCT00945282|184682230|SUPERIORITY||Mean Difference (Final Values)|-0.413||||0.221|TWO_SIDED|95.0|-1.173|0.347|||ANCOVA|||||0.347|-1.173|0.221
92391408|NCT00945282|184682231|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value is the value for GSK2248761 30 mg, at Day 1 to Day 8|Mixed Models Analysis|||Day 1 to Day 8||||<0.0001
92391409|NCT00945282|184682231|SUPERIORITY_OR_OTHER|||||||0.6922||||||The p-value is the value for placebo, at Day 1 to Day 8|Mixed Models Analysis|||Placebo, Day 1 to Day 8||||0.6922
92391410|NCT01825187|184682372|SUPERIORITY|||||||0.523|||||||t-test, 1 sided|||||||0.523
92391411|NCT01825187|184682373|SUPERIORITY|||||||0.371|||||||t-test, 1 sided|||Nasa Mental Demand||||0.371
92391412|NCT01825187|184682373|SUPERIORITY|||||||0.122|||||||t-test, 1 sided|||NASA Physical Demand||||0.122
92391413|NCT01825187|184682373|SUPERIORITY|||||||0.325|||||||t-test, 1 sided|||NASA Temporal Demand||||0.325
92391414|NCT01825187|184682373|SUPERIORITY|||||||0.0451|||||||t-test, 1 sided|||NASA Peformance||||0.0451
92391415|NCT01702558|184682385|SUPERIORITY||Difference in Response Rates|8.2||||0.336|TWO_SIDED|90.0|-4.5|20.9|||Fisher Exact||90% CI was estimated using Hauck-Anderson approach.|||20.9|-4.5|0.336
92391416|NCT03259087|184682449|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.25|||||TWO_SIDED|90.0|1.07|1.47|||||GMR is ratio of Experimental Group / Healthy Group|||1.47|1.07|
92391417|NCT03259087|184682449|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.7|||||TWO_SIDED|90.0|1.42|2.02|||||GMR is ratio of Experimental Group / Healthy Group|||2.02|1.42|
92391418|NCT03259087|184682449|OTHER||Geometric Least Squares Mean Ratio (GMR)|2.98|||||TWO_SIDED|90.0|2.2|4.04|||||GMR is ratio of Experimental Group / Healthy Group|||4.04|2.20|
92391419|NCT03259087|184682450|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.25|||||TWO_SIDED|90.0|1.06|1.46|||||GMR is ratio of Experimental Group / Healthy Group|||1.46|1.06|
92391420|NCT03259087|184682450|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.68|||||TWO_SIDED|90.0|1.41|1.99|||||GMR is ratio of Experimental Group / Healthy Group|||1.99|1.41|
92391421|NCT03259087|184682450|OTHER||Geometric Least Squares Mean Ratio (GMR)|2.91|||||TWO_SIDED|90.0|2.17|3.9|||||GMR is ratio of Experimental Group / Healthy Group|||3.90|2.17|
92391422|NCT03259087|184682451|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.21|||||TWO_SIDED|90.0|1.04|1.4|||||GMR is ratio of Experimental Group / Healthy Group|||1.40|1.04|
92391423|NCT03259087|184682451|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.59|||||TWO_SIDED|90.0|1.36|1.86|||||GMR is ratio of Experimental Group / Healthy Group|||1.86|1.36|
92391424|NCT03259087|184682451|OTHER||Geometric Least Squares Mean Ratio (GMR)|2.32|||||TWO_SIDED|90.0|1.82|2.97|||||GMR is ratio of Experimental Group / Healthy Group|||2.97|1.82|
92391425|NCT03259087|184682452|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.99|||||TWO_SIDED|90.0|0.84|1.16|||||GMR is ratio of Experimental Group / Healthy Group|||1.16|0.84|
92391426|NCT03259087|184682452|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.03|||||TWO_SIDED|90.0|0.9|1.18|||||GMR is ratio of Experimental Group / Healthy Group|||1.18|0.90|
92391427|NCT03259087|184682452|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.11|||||TWO_SIDED|90.0|0.95|1.29|||||GMR is ratio of Experimental Group / Healthy Group|||1.29|0.95|
92391428|NCT03259087|184682454|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.8|||||TWO_SIDED|90.0|0.68|0.94|||||GMR is ratio of Experimental Group / Healthy Group|||0.94|0.68|
92391429|NCT03259087|184682454|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.59|||||TWO_SIDED|90.0|0.49|0.7|||||GMR is ratio of Experimental Group / Healthy Group|||0.70|0.49|
92391430|NCT03259087|184682454|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.34|||||TWO_SIDED|90.0|0.25|0.45|||||GMR is ratio of Experimental Group / Healthy Group|||0.45|0.25|
92391431|NCT03259087|184682458|OTHER||Geometric Least Squares Mean Ratio (GMR)|3.97|||||TWO_SIDED|90.0|3.26|4.82|||||GMR is ratio of Experimental Group / Healthy Group|||4.82|3.26|
92170030|NCT06023082|184228961|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92170031|NCT06023082|184228962|OTHER|||||||0.4907||||||Baseline to Week 12 comparison.|ANOVA|||||||0.4907
92391432|NCT03259087|184682458|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.58|||||TWO_SIDED|90.0|1.3|1.92|||||GMR is ratio of Experimental Group / Healthy Group|||1.92|1.30|
92170032|NCT06023082|184228963|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92391433|NCT03259087|184682459|OTHER||Geometric Least Squares Mean Ratio (GMR)|3.63|||||TWO_SIDED|90.0|3.03|4.36|||||GMR is ratio of Experimental Group / Healthy Group|||4.36|3.03|
92391434|NCT03259087|184682459|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.46|||||TWO_SIDED|90.0|1.22|1.75|||||GMR is ratio of Experimental Group / Healthy Group|||1.75|1.22|
92391435|NCT03259087|184682460|OTHER||Geometric Least Squares Mean Ratio (GMR)|2.61|||||TWO_SIDED|90.0|2.23|3.06|||||GMR is ratio of Experimental Group / Healthy Group|||3.06|2.23|
92391436|NCT03259087|184682460|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.09|||||TWO_SIDED|90.0|0.95|1.25|||||GMR is ratio of Experimental Group / Healthy Group|||1.25|0.95|
92391437|NCT03259087|184682461|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.98|||||TWO_SIDED|90.0|0.84|1.14|||||GMR is ratio of Experimental Group / Healthy Group|||1.14|0.84|
92391438|NCT03259087|184682461|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.94|||||TWO_SIDED|90.0|0.75|1.2|||||GMR is ratio of Experimental Group / Healthy Group|||1.20|0.75|
92391439|NCT03259087|184682462|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.99|||||TWO_SIDED|90.0|0.85|1.16|||||GMR is ratio of Experimental Group / Healthy Group|||1.16|0.85|
92391440|NCT03259087|184682462|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.94|||||TWO_SIDED|90.0|0.75|1.2|||||GMR is ratio of Experimental Group / Healthy Group|||1.20|0.75|
92391441|NCT03259087|184682463|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.25|||||TWO_SIDED|90.0|0.21|0.31|||||GMR is ratio of Experimental Group / Healthy Group|||0.31|0.21|
92391442|NCT03259087|184682463|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.63|||||TWO_SIDED|95.0|0.52|0.77|||||GMR is ratio of Experimental Group / Healthy Group|||0.77|0.52|
92391443|NCT03259087|184682467|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.9|||||TWO_SIDED|90.0|0.74|1.11|||||GMR is ratio of Experimental Group / Healthy Group|||1.11|0.74|
92391444|NCT03259087|184682467|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.64|||||TWO_SIDED|90.0|0.47|0.88|||||GMR is ratio of Experimental Group / Healthy Group|||0.88|0.47|
92391445|NCT03259087|184682467|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.3|||||TWO_SIDED|90.0|0.21|0.43|||||GMR is ratio of Experimental Group / Healthy Group|||0.43|0.21|
92391446|NCT03259087|184682468|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.75|||||TWO_SIDED|90.0|0.57|0.98|||||GMR is ratio of Experimental Group / Healthy Group|||0.98|0.57|
92391447|NCT03259087|184682468|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.4|||||TWO_SIDED|90.0|0.31|0.53|||||GMR is ratio of Experimental Group / Healthy Group|||0.53|0.31|
92391448|NCT03259087|184682468|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.13|||||TWO_SIDED|90.0|0.08|0.22|||||GMR is ratio of Experimental Group / Healthy Group|||0.22|0.08|
92391449|NCT03259087|184682469|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.9|||||TWO_SIDED|90.0|0.74|1.11|||||GMR is ratio of Experimental Group / Healthy Group|||1.11|0.74|
92391450|NCT03259087|184682469|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.64|||||TWO_SIDED|90.0|0.47|0.88|||||GMR is ratio of Experimental Group / Healthy Group|||0.88|0.47|
92391451|NCT03259087|184682469|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.3|||||TWO_SIDED|90.0|0.21|0.43|||||GMR is ratio of Experimental Group / Healthy Group|||0.43|0.21|
92419467|NCT00718237|184727409|SUPERIORITY_OR_OTHER||Vaccine Efficacy (1-Relative Risk [RR])|80.2|||<|0.001|TWO_SIDED|95.0|47.4|94.1||Hypothesis: Efficacy \>0%. Based on p\< 1/(1+k); p = proportion of participants with outcome in vaccine group relative to total number of subjects with outcome; k = ratio of follow-up time; placebo/vaccine. Based on conditional binomial approach.|Exact Conditional Test|Exact Conditional Test based on Binomial Distribution|Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group, adjusted for the ratio of the follow-up period in each group.|||94.1|47.4|<0.001
92391452|NCT01623115|184682490|SUPERIORITY_OR_OTHER||LS mean difference|-57.9|||<|0.0001|TWO_SIDED|95.0|-63.3|-52.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-52.6|-63.3|<0.0001
92170033|NCT06023082|184228964|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92170034|NCT06023082|184228965|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92170035|NCT06023082|184228966|OTHER|||||||0.0016||||||Baseline to Week 12 comparison.|ANOVA|||||||0.0016
92391453|NCT01623115|184682491|SUPERIORITY_OR_OTHER||LS mean difference|-58.1|||<|0.0001|TWO_SIDED|95.0|-63.5|-52.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-52.7|-63.5|<0.0001
92170036|NCT06023082|184228967|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92391454|NCT01623115|184682492|SUPERIORITY_OR_OTHER||LS mean difference|-49.2|||<|0.0001|TWO_SIDED|95.0|-53.9|-44.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-44.5|-53.9|<0.0001
92391455|NCT01623115|184682493|SUPERIORITY_OR_OTHER||LS mean difference|-49.5|||<|0.0001|TWO_SIDED|95.0|-54.2|-44.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant)||-44.8|-54.2|<0.0001
92391456|NCT01623115|184682494|SUPERIORITY_OR_OTHER||LS mean difference|-45.8|||<|0.0001|TWO_SIDED|95.0|-49.8|-41.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-41.8|-49.8|<0.0001
92391457|NCT01623115|184682495|SUPERIORITY_OR_OTHER||LS mean difference|-45.9|||<|0.0001|TWO_SIDED|95.0|-49.9|-41.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-41.8|-49.9|<0.0001
92391458|NCT01623115|184682496|SUPERIORITY_OR_OTHER||LS mean difference|-52.4|||<|0.0001|TWO_SIDED|95.0|-57.2|-47.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-47.6|-57.2|<0.0001
92391459|NCT01623115|184682497|SUPERIORITY_OR_OTHER||LS mean difference|-52.6|||<|0.0001|TWO_SIDED|95.0|-57.5|-47.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-47.8|-57.5|<0.0001
92391460|NCT01623115|184682498|SUPERIORITY_OR_OTHER||LS mean difference|-38.7|||<|0.0001|TWO_SIDED|95.0|-42.4|-35.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-35|-42.4|<0.0001
92391461|NCT01623115|184682499|SUPERIORITY_OR_OTHER||LS mean difference|-37.5|||<|0.0001|TWO_SIDED|95.0|-41.2|-33.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-33.9|-41.2|<0.0001
92391462|NCT01623115|184682500|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.7|||<|0.0001|TWO_SIDED|95.0|-48.0|-39.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-39.4|-48|<0.0001
92391463|NCT01623115|184682501|SUPERIORITY_OR_OTHER||LS mean difference|-32.5|||<|0.0001|TWO_SIDED|95.0|-35.7|-29.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-29.2|-35.7|<0.0001
92391464|NCT01623115|184682502|SUPERIORITY_OR_OTHER||LS mean difference|-56.2|||<|0.0001|TWO_SIDED|95.0|-62.4|-50.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-50|-62.4|<0.0001
92391465|NCT01623115|184682503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|156.0|||<|0.0001|TWO_SIDED|95.0|48.9|498.1||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||498.1|48.9|<0.0001
92391466|NCT01623115|184682504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|156.6|||<|0.0001|TWO_SIDED|95.0|49.7|493.7||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||493.7|49.7|<0.0001
92391467|NCT01623115|184682505|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|244.9|||<|0.0001|TWO_SIDED|95.0|34.4|1744.4||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1744.4|34.4|<0.0001
92391468|NCT01623115|184682506|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|240.0|||<|0.0001|TWO_SIDED|95.0|33.9|1700.7||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1700.7|33.9|<0.0001
92391469|NCT01623115|184682507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.7|||<|0.0001|TWO_SIDED|95.0|-22.6|-12.9||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-12.9|-22.6|<0.0001
92391470|NCT01623115|184682508|SUPERIORITY_OR_OTHER||LS mean difference|8.0|||<|0.0001|TWO_SIDED|95.0|5.0|11.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||11|5|<0.0001
92391471|NCT01623115|184682509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-16.0|||<|0.0001|TWO_SIDED|95.0|-21.3|-10.6||Threshold for significance was ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-10.6|-21.3|<0.0001
92391472|NCT01623115|184682510|SUPERIORITY_OR_OTHER||LS mean difference|4.7|||=|0.0002|TWO_SIDED|95.0|2.3|7.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.2|2.3|= 0.0002
92391473|NCT01623115|184682511|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.3|||<|0.0001|TWO_SIDED|95.0|-21.5|-13.0||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13|-21.5|<0.0001
92391474|NCT01623115|184682512|SUPERIORITY_OR_OTHER||LS mean difference|4.3||||0.0031|TWO_SIDED|95.0|1.5|7.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.2|1.5|0.0031
92391475|NCT01623115|184682513|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.7||||0.0003|TWO_SIDED|95.0|-15.0|-4.4||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-4.4|-15|0.0003
92391476|NCT01623115|184682514|SUPERIORITY_OR_OTHER||LS mean difference|2.8||||0.0187|TWO_SIDED|95.0|0.5|5.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.2|0.5|0.0187
92391477|NCT04797780|184682518|SUPERIORITY||Difference in CR Rate|5.06||||0.2084|TWO_SIDED|95.0|-7.1|17.2|||Cochran-Mantel-Haenszel|||||17.2|-7.1|0.2084
92391478|NCT02940496|184682528|SUPERIORITY||Correlation Coefficient (2 sided test)|0.081||||0.008|TWO_SIDED||||||t-test, 2 sided|||||||0.008
92391479|NCT02940496|184682529|SUPERIORITY||Correlation Coefficient (2-sided test)|0.88||||0.009|TWO_SIDED||||||t-test, 2 sided|||||||0.009
92170037|NCT06023082|184228968|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92170038|NCT06023082|184228969|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92391480|NCT02940496|184682530|SUPERIORITY||Correlation Coefficient (2-sided test)|0.79||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
92391481|NCT01895946|184682620|SUPERIORITY_OR_OTHER||Least square mean difference (LSM)|1.02|||||TWO_SIDED|90.0|0.86|1.2|||Mixed Models Analysis|||||1.20|0.86|
92391482|NCT01895946|184682620|SUPERIORITY_OR_OTHER||Least square means difference (LSM)|0.67|||||TWO_SIDED|90.0|0.55|0.82|||Mixed Models Analysis|||||0.82|0.55|
92391483|NCT01895946|184682621|SUPERIORITY_OR_OTHER||Least square means difference (LSM)|0.9|||||TWO_SIDED|90.0|0.77|1.06|||Mixed Models Analysis|||||1.06|0.77|
92391484|NCT01895946|184682621|SUPERIORITY_OR_OTHER||Least square means difference (LSM)|0.89|||||TWO_SIDED|90.0|0.76|1.05|||Mixed Models Analysis|||||1.05|0.76|
92391485|NCT04186871|184682627|SUPERIORITY|RESPONSE DIFFERENCE (95% CI) VS PLACEBO|Response Difference|-27.8|||||TWO_SIDED|95.0|-77.5|21.9||||||||21.9|-77.5|
92391486|NCT04186871|184682627|SUPERIORITY|ODDS RATIO (95% CI) VS PLACEBO|Odds Ratio (OR)|0.32||||0.3117|TWO_SIDED|95.0|0.04|2.73|||Cochran-Mantel-Haenszel|||||2.73|0.04|0.3117
92391487|NCT04186871|184682628|SUPERIORITY|ADJUSTED MEAN DIFFERENCE VS PLACEBO|Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.8|4.9||||||||4.9|-2.8|
92391488|NCT04186871|184682628|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 24|Mean Difference (Final Values)|-8.3|||||TWO_SIDED|95.0|-11.5|-5.0||||||||-5.0|-11.5|
92391489|NCT04186871|184682628|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 24|Mean Difference (Final Values)|-7.2|||||TWO_SIDED|95.0|-9.3|-5.2||||||||-5.2|-9.3|
92391490|NCT04186871|184682629|SUPERIORITY|RESPONSE DIFFERENCE VS PLACEBO|Response Difference|16.7|||||TWO_SIDED|95.0|-31.8|65.2||||||||65.2|-31.8|
92391491|NCT04186871|184682629|SUPERIORITY|ODDS RATIO VS PLACEBO|Odds Ratio (OR)|2.0|||||TWO_SIDED|95.0|0.22|18.04||||||||18.04|0.22|
92391492|NCT04186871|184682630|SUPERIORITY|RESPONSE DIFFERENCE (95% CI) VS PLACEBO|Response Difference|-11.9|||||TWO_SIDED|95.0|-57.1|33.3||||||||33.3|-57.1|
92391493|NCT04186871|184682630|SUPERIORITY|ODDS RATIO (95% CI) VS PLACEBO|Odds Ratio (OR)|0.4||||0.593|TWO_SIDED|95.0|0.02|10.02|||Cochran-Mantel-Haenszel|||||10.02|0.02|0.5930
92391494|NCT04186871|184682631|SUPERIORITY|RESPONSE DIFFERENCE VS PLACEBO|Response Difference|-14.6|||||TWO_SIDED|95.0|-36.9|7.7||||||||7.7|-36.9|
92391495|NCT04186871|184682631|SUPERIORITY|ODDS RATIO VS PLACEBO|Odds Ratio (OR)|0.46||||0.1639|TWO_SIDED|95.0|0.15|1.39|||Chi-squared|||||1.39|0.15|0.1639
92391496|NCT04186871|184682632|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE WEEK 12|Mean Difference (Final Values)|-1.61|||||TWO_SIDED|95.0|-2.11|-1.11||||||||-1.110|-2.110|
92391497|NCT04186871|184682632|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 12|Mean Difference (Final Values)|-1.567|||||TWO_SIDED|95.0|-1.855|-1.28||||||||-1.280|-1.855|
92391498|NCT04186871|184682632|SUPERIORITY|ADJUSTED MEAN DIFFERENCE VS PLACEBO|Mean Difference (Final Values)|0.043|||||TWO_SIDED|95.0|-0.534|0.62||||||||0.620|-0.534|
92391499|NCT04186871|184682633|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 12|Mean Difference (Final Values)|-1.741|||||TWO_SIDED|95.0|-2.256|-1.226||||||||-1.226|-2.256|
92391500|NCT04186871|184682633|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 12|Mean Difference (Final Values)|-1.698|||||TWO_SIDED|95.0|-1.998|-1.399||||||||-1.399|-1.998|
92170039|NCT06023082|184228970|OTHER|||||||0.0002||||||Baseline to Week 12 comparison.|ANOVA|||||||0.0002
92170040|NCT06023082|184228971|OTHER|||||||0.001||||||Baseline to Week 12 comparison.|ANOVA|||||||0.001
92391501|NCT04186871|184682633|SUPERIORITY|ADJUSTED MEAN DIFFERENCE VS PLACEBO|Mean Difference (Final Values)|0.043|||||TWO_SIDED|95.0|-0.553|0.639||||||||0.639|-0.553|
92391502|NCT04186871|184682634|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 12|Mean Difference (Final Values)|-19.495|||||TWO_SIDED|95.0|-24.861|-14.128||||||||-14.128|-24.861|
92391503|NCT04186871|184682634|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 12|Mean Difference (Final Values)|-18.767|||||TWO_SIDED|95.0|-21.848|-15.686||||||||-15.686|-21.848|
92391504|NCT04186871|184682634|SUPERIORITY|ADJUSTED MEAN DIFFERENCE VS PLACEBO|Mean Difference (Final Values)|0.728|||||TWO_SIDED|95.0|-5.463|6.919||||||||6.919|-5.463|
92391505|NCT04186871|184682635|EQUIVALENCE|ADJUSTED MEAN AT DIFFERENCE WEEK 12|Mean Difference (Final Values)|-19.2|||||TWO_SIDED|95.0|-24.3|-14.1||||||||-14.1|-24.3|
92391506|NCT04186871|184682635|EQUIVALENCE|ADJUSTED MEAN AT DIFFERENCE WEEK 12|Mean Difference (Final Values)|-18.5|||||TWO_SIDED|95.0|-21.4|-15.5||||||||-15.5|-21.4|
92391507|NCT04186871|184682635|SUPERIORITY|ADJUSTED MEAN DIFFERENCE VS PLACEBO|Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-5.2|6.6||||||||6.6|-5.2|
92391508|NCT04186871|184682636|SUPERIORITY|RESPONSE DIFFERENCE VS PLACEBO|Response Difference|-4.1|||||TWO_SIDED|95.0|-28.1|19.9||||||||19.9|-28.1|
92391509|NCT04186871|184682636|SUPERIORITY|ODDS RATIO VS PLACEBO|Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.31|2.32||||||||2.32|0.31|
92391510|NCT04186871|184682637|SUPERIORITY|RESPONSE DIFFERENCE VS PLACEBO|Response Difference|-6.5|||||TWO_SIDED|95.0|-22.8|9.9||||||||9.9|-22.8|
92391511|NCT04186871|184682637|SUPERIORITY|ODDS RATIO VS PLACEBO|Odds Ratio (OR)|0.51|||||TWO_SIDED|95.0|0.11|2.34||||||||2.34|0.11|
92391512|NCT00555217|184682640|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.3|TWO_SIDED|95.0|0.7|1.12|||Log Rank||Combination ARB and ACEI vs. mono therapy ARB|||1.12|0.70|0.30
92391513|NCT00555217|184682641|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.1|TWO_SIDED|95.0|0.58|1.05|||Log Rank||Combination ARB and ACEI vs. mono therapy ARB|||1.05|0.58|0.10
92391514|NCT03543137|184682648|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for AUC0-t fell completely within the 0.80 - 1.25 range.|Geometric mean ratio|0.95|||||TWO_SIDED|90.0|0.88|1.02|||||GMR= (Prototype mini Lozenge/ Nicorette mini Lozenge)|||1.02|0.88|
92391515|NCT03543137|184682649|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for AUC0-inf fell completely within the range.|Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.88|1.01|||||GMR = (Prototype mini Lozenge/Nicorette mini Lozenge)|||1.01|0.88|
92391516|NCT03543137|184682654|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for Cmax fell completely within the range.|Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.9|1.04|||||GMR = (Prototype mini Lozenge/Nicorette mini Lozenge)|||1.04|0.90|
92391517|NCT01657292|184682665|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||1-sided, significance level = 0.025|Binomial test|||"All patients received both treatments and treatments were intra-individually compared.~Hypotheses tested: H0: s0 ≤0.5 and H1: s0 \>0.5 (with s0=rate of superiority of Oleogel-S10)."||||<0.0001
92170041|NCT06023082|184228972|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92391518|NCT02663622|184682711|SUPERIORITY||Cox Proportional Hazard|0.13||||0.0274|TWO_SIDED|95.0|0.01|0.62|||Log Rank|Log-rank test stratified by the matched sets||A hazard ratio was calculated based on a Cox proportional hazards regression model with treatment as a factor using the robust sandwich covariance estimator, comparing the CD24Fc 960 mg arm to a matched control group consisting of 92 participants from the Center for International Blood and Marrow Transplant Research (CIBMTR) observational databases of clinical information on HCT, whose mean grade III-IV AGFS in days was 135.8 with an SD of 64.66.||0.62|0.01|0.0274
92391519|NCT02663622|184682712|SUPERIORITY||Cox Proportional Hazard|0.57||||0.0988|TWO_SIDED|95.0|0.3|1.08|||Log Rank|||A hazard ratio was calculated based on a Cox proportional hazards regression model with treatment as a factor using the robust sandwich covariance estimator, comparing the CD24Fc 960 mg arm to a matched control group consisting of 92 participants from the Center for International Blood and Marrow Transplant Research (CIBMTR) observational databases of clinical information on HCT, whose mean grade II-IV AGFS in days was 104.7 with an SD of 72.28.||1.08|0.30|0.0988
92391520|NCT02663622|184682718|SUPERIORITY||Cox Proportional Hazard|1.12||||0.9088|TWO_SIDED|95.0|0.43|2.88|||Log Rank|||A hazard ratio was calculated based on a Cox proportional hazards regression model with treatment as a factor using the robust sandwich covariance estimator, comparing the CD24Fc 960 mg arm to a matched control group consisting of 92 participants from the Center for International Blood and Marrow Transplant Research (CIBMTR) observational databases of clinical information on HCT, whose mean OS in days was 319.3 with an SD of 93.83.||2.88|0.43|0.9088
92419468|NCT00718237|184727410|SUPERIORITY_OR_OTHER||Vaccine Efficacy (1-Relative Risk [RR])|74.5|||<|0.001|TWO_SIDED|95.0|39.9|90.6||Hypothesis: Efficacy \>0%. Based on p\< 1/(1+k); p = proportion of participants with outcome in vaccine group relative to total number of subjects with outcome; k = ratio of follow-up time; placebo/vaccine. Based on conditional binomial approach.|Exact Conditional Test|Exact Conditional Test based on Binomial Distribution|Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group, adjusted for the ratio of the follow-up period in each group.|||90.6|39.9|<0.001
92419469|NCT00718237|184727411|SUPERIORITY_OR_OTHER||Vaccine Efficacy (1-Relative Risk [RR])|100.0|||<|0.001|TWO_SIDED|95.0|55.4|100.0||Hypothesis: Efficacy \>0%. Based on p\< 1/(1+k); p = proportion of participants with outcome in vaccine group relative to total number of subjects with outcome; k = ratio of follow-up time; placebo/vaccine. Based on conditional binomial approach.|Exact Conditional Test|Exact Conditional Test based on Binomial Distribution|Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group, adjusted for the ratio of the follow-up period in each group.|||100.0|55.4|<0.001
92419470|NCT00322153|184727432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.001|TWO_SIDED|95.0|1.0|4.2|||ANCOVA|Least-squares mean (-0.4 in placebo and 2.2 in memantine ER) are controlled for center and adjusted for SIB baseline value.||The co-primary efficacy parameter was change from Baseline to Week 24 in SIB total score. Missing SIB total scores at Week 24 were imputed using the last-observation-carried-forward (LOCF) approach.||4.2|1.0|0.001
92419471|NCT00322153|184727433|SUPERIORITY_OR_OTHER|||||||0.008|||||||Cochran-Mantel-Haenszel|||The co-primary efficacy parameter was CIBIC-Plus total score at week 24. Missing CIBIC-Plus total scores at Week 24 were imputed using the last-observation-carried-forward (LOCF) approach.||||0.008
92419472|NCT00322153|184727434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.177|TWO_SIDED|95.0|-0.3|1.8|||ANCOVA|Least-squares mean (-1.7 in placebo and -1.0 in memantine ER) are controlled for center and adjusted for ADCS-ADL19 baseline value.||The secondary efficacy parameter was change from Baseline at Week 24 in the total score of the 19-Item Alzheimer's Disease Cooperative Study-Activities of Daily Living Inventory (ADCS-ADL19). Missing scores at week 24 were imputed using the last-observation-carried-forward (LOCF) approach.||1.8|-0.3|0.177
92419473|NCT02380690|184727465|SUPERIORITY|ECLIPSE was powered to detect an effect size of 0.45.||||||0.981||||||Statistical significance was set at p\<0.05|Regression, Linear|||||||0.981
92419474|NCT02380690|184727466|SUPERIORITY|||||||0.774|||||||Regression, Linear|||||||0.774
92419475|NCT02380690|184727467|SUPERIORITY|Power was based on primary outcome.||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.546.|Regression, Linear|||||||0.999
92419476|NCT02380690|184727468|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.403.|Regression, Linear|||||||0.999
92419477|NCT02380690|184727469|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.452.|Regression, Linear|||||||0.999
92419478|NCT02380690|184727470|SUPERIORITY|||||||0.98||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.243.|Regression, Linear|||||||0.980
92419479|NCT02380690|184727471|SUPERIORITY|||||||0.864||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.133.|Regression, Linear|||||||0.864
92419480|NCT02380690|184727472|SUPERIORITY|||||||0.78||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.102.|Regression, Linear|||||||0.780
92419481|NCT02380690|184727473|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.536.|Regression, Linear|||||||0.999
92419482|NCT02380690|184727474|SUPERIORITY|||||||0.997||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.340.|Regression, Linear|||||||0.997
92419483|NCT02380690|184727475|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.384.|Regression, Linear|||||||0.999
92391521|NCT02663622|184682720|SUPERIORITY||Cox Proportional Hazard|1.27||||0.6131|TWO_SIDED|95.0|0.66|2.46|||Log Rank|||A hazard ratio was calculated based on a Cox proportional hazards regression model with treatment as a factor using the robust sandwich covariance estimator, comparing the CD24Fc 960 mg arm to a matched control group consisting of 92 participants from the Center for International Blood and Marrow Transplant Research (CIBMTR) observational databases of clinical information on HCT, whose mean RFS in days was 296.0 with an SD of 115.32.||2.46|0.66|0.6131
92391522|NCT00857857|184682721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.1033|||TWO_SIDED|95.0|0.031|0.449||||||||0.449|0.031|
92391523|NCT00857857|184682721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.265|STANDARD_ERROR_OF_MEAN|0.1048|||TWO_SIDED|95.0|0.053|0.477||||||||0.477|0.053|
92391524|NCT00857857|184682721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.456|STANDARD_ERROR_OF_MEAN|0.0993|||TWO_SIDED|95.0|0.255|0.657||||||||0.657|0.255|
92391525|NCT00857857|184682721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.526|STANDARD_ERROR_OF_MEAN|0.1025|||TWO_SIDED|95.0|0.319|0.733||||||||0.733|0.319|
92391526|NCT00857857|184682722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.0975|||TWO_SIDED|95.0|0.013|0.407||||||||0.407|0.013|
92391527|NCT00857857|184682722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.154|STANDARD_ERROR_OF_MEAN|0.0988|||TWO_SIDED|95.0|-0.046|0.354||||||||0.354|-0.046|
92391528|NCT00857857|184682722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.303|STANDARD_ERROR_OF_MEAN|0.0937|||TWO_SIDED|95.0|0.113|0.492||||||||0.492|0.113|
92391529|NCT00857857|184682722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.404|STANDARD_ERROR_OF_MEAN|0.0966|||TWO_SIDED|95.0|0.209|0.599||||||||0.599|0.209|
92391530|NCT00857857|184682723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.025|STANDARD_ERROR_OF_MEAN|0.1372|||TWO_SIDED|95.0|-0.302|0.253|||||Comparison of Minimum FEV1 between Placebo and GW870086 0.25 mg.|||0.253|-0.302|
92391531|NCT00857857|184682723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.106|STANDARD_ERROR_OF_MEAN|0.1391|||TWO_SIDED|95.0|-0.176|0.387|||||Comparison of Minimum FEV1 between Placebo and GW870086 1 mg.|||0.387|-0.176|
92391532|NCT00857857|184682723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.239|STANDARD_ERROR_OF_MEAN|0.1319|||TWO_SIDED|95.0|-0.028|0.506|||||Comparison of Minimum FEV1 between Placebo and GW870086 3 mg.|||0.506|-0.028|
92391533|NCT00857857|184682723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.534|STANDARD_ERROR_OF_MEAN|0.1359|||TWO_SIDED|95.0|0.26|0.809|||||Comparison of Minimum FEV1 between Placebo and fluticasone propionate 0.25 mg BID.|||0.809|0.260|
92391534|NCT00857857|184682723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.0984|||TWO_SIDED|95.0|-0.145|0.253|||||Comparison of Weighted Mean FEV1 between Placebo and GW870086 0.25 mg.|||0.253|-0.145|
92391535|NCT00857857|184682723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.026|STANDARD_ERROR_OF_MEAN|0.0998|||TWO_SIDED|95.0|-0.176|0.228|||||Comparison of Weighted Mean FEV1 between Placebo and GW870086 1 mg.|||0.228|-0.176|
92391536|NCT00857857|184682723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.0945|||TWO_SIDED|95.0|-0.011|0.371|||||Comparison of Weighted Mean FEV1 between Placebo and GW870086 3 mg.|||0.371|-0.011|
92391537|NCT00857857|184682723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.0978|||TWO_SIDED|95.0|0.153|0.548|||||Comparison of Weighted Mean FEV1 between Placebo and fluticasone propionate 0.25 mg BID.|||0.548|0.153|
92391538|NCT00857857|184682724|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.71|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|0.56|0.9||||||||0.90|0.56|
92391539|NCT00857857|184682724|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.66|STANDARD_ERROR_OF_MEAN|0.107|||TWO_SIDED|95.0|0.53|0.82||||||||0.82|0.53|
92391540|NCT00857857|184682724|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.59|STANDARD_ERROR_OF_MEAN|0.112|||TWO_SIDED|95.0|0.47|0.74||||||||0.74|0.47|
92391541|NCT00857857|184682724|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.45|STANDARD_ERROR_OF_MEAN|0.107|||TWO_SIDED|95.0|0.36|0.55||||||||0.55|0.36|
92391542|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.021|STANDARD_ERROR_OF_MEAN|0.1086|||TWO_SIDED|95.0|-0.199|0.24|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 5 minutes|||0.240|-0.199|
92391543|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.164|STANDARD_ERROR_OF_MEAN|0.1285|||TWO_SIDED|95.0|-0.096|0.424|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 10 minutes|||0.424|-0.096|
92391544|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.024|STANDARD_ERROR_OF_MEAN|0.1526|||TWO_SIDED|95.0|-0.285|0.333|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 15 minutes|||0.333|-0.285|
92391545|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.069|STANDARD_ERROR_OF_MEAN|0.1471|||TWO_SIDED|95.0|-0.229|0.366|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 20 minutes|||0.366|-0.229|
92391546|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.011|STANDARD_ERROR_OF_MEAN|0.1313|||TWO_SIDED|95.0|-0.277|0.254|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 30 minutes|||0.254|-0.277|
92391547|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|95.0|-0.269|0.302|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 45 minutes|||0.302|-0.269|
92391548|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.046|STANDARD_ERROR_OF_MEAN|0.1265|||TWO_SIDED|95.0|-0.21|0.301|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 1 hour|||0.301|-0.210|
92391549|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.045|STANDARD_ERROR_OF_MEAN|0.1102|||TWO_SIDED|95.0|-0.178|0.268|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 1.5 hours|||0.268|-0.178|
92391550|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.096|STANDARD_ERROR_OF_MEAN|0.0985|||TWO_SIDED|95.0|-0.103|0.295|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 2 hours|||0.295|-0.103|
92391551|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.045|STANDARD_ERROR_OF_MEAN|0.0826|||TWO_SIDED|95.0|-0.121|0.212|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 2.5 hours|||0.212|-0.121|
92391552|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.027|STANDARD_ERROR_OF_MEAN|0.0832|||TWO_SIDED|95.0|-0.141|0.196|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 3 hours|||0.196|-0.141|
92391553|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.042|STANDARD_ERROR_OF_MEAN|0.0888|||TWO_SIDED|95.0|-0.138|0.221|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 3.5 hours|||0.221|-0.138|
92391554|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.027|STANDARD_ERROR_OF_MEAN|0.0934|||TWO_SIDED|95.0|-0.215|0.162|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 4 hour|||0.162|-0.215|
92391555|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.139|STANDARD_ERROR_OF_MEAN|0.1065|||TWO_SIDED|95.0|-0.076|0.354|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 4.5 hours|||0.354|-0.076|
92170042|NCT06023082|184228973|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92391556|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.149|STANDARD_ERROR_OF_MEAN|0.0955|||TWO_SIDED|95.0|-0.044|0.342|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 5 hours|||0.342|-0.044|
92391557|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.084|STANDARD_ERROR_OF_MEAN|0.1005|||TWO_SIDED|95.0|-0.119|0.288|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 5.5 hours|||0.288|-0.119|
92391558|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.212|STANDARD_ERROR_OF_MEAN|0.1122|||TWO_SIDED|95.0|-0.015|0.438|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 6 hours|||0.438|-0.015|
92391559|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.162|STANDARD_ERROR_OF_MEAN|0.1051|||TWO_SIDED|95.0|-0.051|0.374|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 6.5 hours|||0.374|-0.051|
92391560|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.222|STANDARD_ERROR_OF_MEAN|0.1181|||TWO_SIDED|95.0|-0.017|0.461|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 7 hour|||0.461|-0.017|
92391561|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.185|STANDARD_ERROR_OF_MEAN|0.1355|||TWO_SIDED|95.0|-0.089|0.458|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 7.5 hours|||0.458|-0.089|
92391562|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.247|STANDARD_ERROR_OF_MEAN|0.1187|||TWO_SIDED|95.0|0.007|0.487|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 8 hours|||0.487|0.007|
92391563|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.244|STANDARD_ERROR_OF_MEAN|0.1313|||TWO_SIDED|95.0|-0.021|0.509|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 8.5 hours|||0.509|-0.021|
92391564|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.154|STANDARD_ERROR_OF_MEAN|0.1189|||TWO_SIDED|95.0|-0.086|0.394|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 9 hours|||0.394|-0.086|
92391565|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.175|STANDARD_ERROR_OF_MEAN|0.1085|||TWO_SIDED|95.0|-0.044|0.394|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 9.5 hours|||0.394|-0.044|
92391566|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.085|STANDARD_ERROR_OF_MEAN|0.1024|||TWO_SIDED|95.0|-0.122|0.292|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 10 hours|||0.292|-0.122|
92391567|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.072|STANDARD_ERROR_OF_MEAN|0.1125|||TWO_SIDED|95.0|-0.155|0.3|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 5 minutes|||0.300|-0.155|
92391568|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.051|STANDARD_ERROR_OF_MEAN|0.1303|||TWO_SIDED|95.0|-0.213|0.314|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 10 minutes|||0.314|-0.213|
92419484|NCT02380690|184727476|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.730.|Regression, Linear|||||||0.999
92419485|NCT02380690|184727477|SUPERIORITY|||||||0.914||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.161.|Regression, Linear|||||||0.914
92170043|NCT06023082|184228974|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92170044|NCT06023082|184228975|OTHER||||||<|0.0001|||||||ANOVA|||Baseline to Week 12 comparison.||||<0.0001
92391569|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.142|STANDARD_ERROR_OF_MEAN|0.1572|||TWO_SIDED|95.0|-0.176|0.461|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 15 minutes|||0.461|-0.176|
92391570|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.094|STANDARD_ERROR_OF_MEAN|0.1494|||TWO_SIDED|95.0|-0.208|0.396|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 20 minutes|||0.396|-0.208|
92170045|NCT06023082|184228976|OTHER||||||<|0.0001||||||Baseline to Week 10 comparison.|ANOVA|||||||<0.0001
92170046|NCT06023082|184228977|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92170047|NCT06023082|184228978|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92170048|NCT06023082|184228979|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92170049|NCT06023082|184228980|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
92391571|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.058|STANDARD_ERROR_OF_MEAN|0.1332|||TWO_SIDED|95.0|-0.212|0.327|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 30 minutes|||0.327|-0.212|
92391572|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.065|STANDARD_ERROR_OF_MEAN|0.143|||TWO_SIDED|95.0|-0.224|0.354|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 45 minutes|||0.354|-0.224|
92391573|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.016|STANDARD_ERROR_OF_MEAN|0.1283|||TWO_SIDED|95.0|-0.276|0.243|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 1 hour|||0.243|-0.276|
92391574|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.017|STANDARD_ERROR_OF_MEAN|0.1118|||TWO_SIDED|95.0|-0.209|0.244|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 1.5 hours|||0.244|-0.209|
92391575|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.148|STANDARD_ERROR_OF_MEAN|0.0998|||TWO_SIDED|95.0|-0.35|0.053|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 2 hours|||0.053|-0.350|
92391576|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.086|STANDARD_ERROR_OF_MEAN|0.0829|||TWO_SIDED|95.0|-0.253|0.082|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 2.5 hours|||0.082|-0.253|
92391577|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.0843|||TWO_SIDED|95.0|-0.211|0.13|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 3 hours|||0.130|-0.211|
92391578|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.161|0.202|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 3.5 hours|||0.202|-0.161|
92391579|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.005|STANDARD_ERROR_OF_MEAN|0.0947|||TWO_SIDED|95.0|-0.196|0.186|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 4 hour|||0.186|-0.196|
92391580|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.113|STANDARD_ERROR_OF_MEAN|0.1079|||TWO_SIDED|95.0|-0.105|0.33|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 4.5 hours|||0.330|-0.105|
92391581|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.0968|||TWO_SIDED|95.0|-0.065|0.326|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 5 hours|||0.326|-0.065|
92419486|NCT02380690|184727478|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.930.|Regression, Linear|||||||0.999
92419487|NCT02380690|184727479|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.379.|Regression, Linear|||||||0.999
92419488|NCT02380690|184727480|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.969.|Regression, Linear|||||||0.999
92278918|NCT00094302|184460804|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline quality of life scores as the dependent variable, and the baseline quality of life score, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.87
92278919|NCT00094302|184460804|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.16
92391582|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.007|STANDARD_ERROR_OF_MEAN|0.1019|||TWO_SIDED|95.0|-0.213|0.199|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 5.5 hours|||0.199|-0.213|
92391583|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.178|STANDARD_ERROR_OF_MEAN|0.1138|||TWO_SIDED|95.0|-0.052|0.407|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 6 hours|||0.407|-0.052|
92391584|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.135|STANDARD_ERROR_OF_MEAN|0.1065|||TWO_SIDED|95.0|-0.08|0.351|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 6.5 hours|||0.351|-0.080|
92391585|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.179|STANDARD_ERROR_OF_MEAN|0.1198|||TWO_SIDED|95.0|-0.062|0.421|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 7 hour|||0.421|-0.062|
92391586|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.146|STANDARD_ERROR_OF_MEAN|0.1373|||TWO_SIDED|95.0|-0.131|0.423|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 7.5 hours|||0.423|-0.131|
92391587|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.168|STANDARD_ERROR_OF_MEAN|0.1203|||TWO_SIDED|95.0|-0.075|0.411|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 8 hours|||0.411|-0.075|
92391588|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.222|STANDARD_ERROR_OF_MEAN|0.1331|||TWO_SIDED|95.0|-0.047|0.49|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 8.5 hours|||0.490|-0.047|
92391589|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.143|STANDARD_ERROR_OF_MEAN|0.1206|||TWO_SIDED|95.0|-0.1|0.387|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 9 hours|||0.387|-0.100|
92391590|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.187|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.035|0.41|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 9.5 hours|||0.410|-0.035|
92391591|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.168|STANDARD_ERROR_OF_MEAN|0.1039|||TWO_SIDED|95.0|-0.042|0.378|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 10 hours|||0.378|-0.042|
92391592|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.221|STANDARD_ERROR_OF_MEAN|0.1036|||TWO_SIDED|95.0|0.011|0.431|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 5 minutes|||0.431|0.011|
92419489|NCT04854642|184727549|OTHER||Least square mean difference|71.62|||<|0.0001|TWO_SIDED|90.0|68.13|75.29|||ANOVA|||||75.29|68.13|<0.0001
92419490|NCT04854642|184727550|OTHER||Least square mean difference|90.93||||0.017|TWO_SIDED|90.0|85.3|96.93|||ANOVA|||||96.93|85.30|0.0170
92419491|NCT04854642|184727551|OTHER||Least square mean difference|90.9||||0.0213|TWO_SIDED|90.0|85.04|97.16|||ANOVA|||||97.16|85.04|0.0213
92391593|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.244|STANDARD_ERROR_OF_MEAN|0.1236|||TWO_SIDED|95.0|-0.006|0.494|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 10 minutes|||0.494|-0.006|
92391594|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.255|STANDARD_ERROR_OF_MEAN|0.1445|||TWO_SIDED|95.0|-0.038|0.548|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 15 minutes|||0.548|-0.038|
92391595|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.233|STANDARD_ERROR_OF_MEAN|0.1436|||TWO_SIDED|95.0|-0.057|0.524|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 20 minutes|||0.524|-0.057|
92391596|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.219|STANDARD_ERROR_OF_MEAN|0.1262|||TWO_SIDED|95.0|-0.036|0.474|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 30 minutes|||0.474|-0.036|
92391597|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.294|STANDARD_ERROR_OF_MEAN|0.1355|||TWO_SIDED|95.0|0.019|0.568|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 45 minutes|||0.568|0.019|
92170050|NCT05986565|184228982|SUPERIORITY|||||||0.587|||||||RMANOVA|1||||||0.587
92391598|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.227|STANDARD_ERROR_OF_MEAN|0.1216|||TWO_SIDED|95.0|-0.019|0.473|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 1 hour|||0.473|-0.019|
92391599|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.204|STANDARD_ERROR_OF_MEAN|0.1059|||TWO_SIDED|95.0|-0.01|0.418|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 1.5 hours|||0.418|-0.010|
92391600|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.116|STANDARD_ERROR_OF_MEAN|0.0947|||TWO_SIDED|95.0|-0.075|0.308|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 2 hours|||0.308|-0.075|
92391601|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.027|STANDARD_ERROR_OF_MEAN|0.0805|||TWO_SIDED|95.0|-0.136|0.19|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 2.5 hours|||0.190|-0.136|
92391602|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.046|STANDARD_ERROR_OF_MEAN|0.0801|||TWO_SIDED|95.0|-0.116|0.208|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 3 hours|||0.208|-0.116|
92419492|NCT04854642|184727552|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92419493|NCT01865084|184727575|SUPERIORITY_OR_OTHER_LEGACY|||||||0.307||||||The p-value is based on the treatment difference LS Mean changes from baseline between tadalafil and placebo.|Mixed Models Analysis|||||||0.307
92419494|NCT01865084|184727575|SUPERIORITY_OR_OTHER_LEGACY|||||||0.538||||||The p-value is based on the treatment difference LS Mean changes from baseline between tadalafil and placebo.|Mixed Models Analysis|||||||0.538
92419495|NCT03693170|184727586|OTHER|||||||||||||||||"The null hypothesis that the true response rate is 30% will be tested against a one-sided alternative.~The cORR will be provided with a corresponding Clopper-Pearson (exact) binomial 95% CI for the Efficacy Set.~This design yields a 1-sided type I error rate equal to 1.6% and power of 80% when the true response rate is 45%."|If 37 or more confirmed responses were observed in the 90 treated subjects with a centrally confirmed BRAFV600E mutation, corresponding to a lower limit of Clopper-Pearson (exact) binomial 95% CI exceeding 30%, the study was considered to have met its primary endpoint. If more than 90 subjects were enrolled, the lower limit of Clopper-Pearson was to be used for decision.|||
92419496|NCT00905827|184727671|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||Pairwise comparisons (ANOVA simple effect comparisons) adjusted for baseline scores||||<0.01
92419497|NCT00905827|184727671|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANOVA|||Pairwise comparisons (ANOVA simple effect comparisons) adjusted for baseline scores||||0.01
92391603|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.074|STANDARD_ERROR_OF_MEAN|0.0855|||TWO_SIDED|95.0|-0.099|0.247|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 3.5 hour|||0.247|-0.099|
92391604|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.131|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.051|0.313|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 4 hours|||0.313|-0.051|
92391605|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.204|STANDARD_ERROR_OF_MEAN|0.1025|||TWO_SIDED|95.0|-0.004|0.411|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 4.5 hours|||0.411|-0.004|
92391606|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.181|STANDARD_ERROR_OF_MEAN|0.0918|||TWO_SIDED|95.0|-0.004|0.367|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 5 hours|||0.367|-0.004|
92391607|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.178|STANDARD_ERROR_OF_MEAN|0.0967|||TWO_SIDED|95.0|-0.018|0.373|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 5.5 hours|||0.373|-0.018|
92391608|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.288|STANDARD_ERROR_OF_MEAN|0.1079|||TWO_SIDED|95.0|0.07|0.506|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 6 hours|||0.506|0.070|
92391609|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.283|STANDARD_ERROR_OF_MEAN|0.1011|||TWO_SIDED|95.0|0.079|0.488|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 6.5 hours|||0.488|0.079|
92391610|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.386|STANDARD_ERROR_OF_MEAN|0.1137|||TWO_SIDED|95.0|0.157|0.616|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 7 hour|||0.616|0.157|
92391611|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.372|STANDARD_ERROR_OF_MEAN|0.1306|||TWO_SIDED|95.0|0.108|0.636|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 7.5 hours|||0.636|0.108|
92391612|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.458|STANDARD_ERROR_OF_MEAN|0.1142|||TWO_SIDED|95.0|0.227|0.688|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 8 hours|||0.688|0.227|
92419498|NCT03347188|184727673|SUPERIORITY||LS Mean|1.5|STANDARD_ERROR_OF_MEAN|1.11||0.1876|TWO_SIDED|95.0|-0.73|3.67||Threshold for significance at 0.05 level.|ANCOVA|||||3.67|-0.73|0.1876
92419499|NCT03139604|184727688|OTHER||Odds Ratio (OR)|1.45||||0.0782|TWO_SIDED|95.0|0.959|2.204||Not adjusted for multiplicity with interim and final analyses|Cochran-Mantel-Haenszel|||binomial distribution||2.204|0.959|0.0782
92419500|NCT03577171|184727739|OTHER||LS Mean Difference|-1.154||||0.0077|TWO_SIDED|95.0|-1.986|-0.322|||Repeated measures analysis|||Least Squares (LS) Mean Difference ABI-H0731 + SOC ETV minus Placebo + SOC ETV at Week 12||-0.322|-1.986|0.0077
92419501|NCT03577171|184727739|OTHER||LS Mean Difference|-1.141||||0.0084|TWO_SIDED|95.0|-1.973|-0.309|||Repeated measures analysis|||Least Squares Mean Difference ABI-H0731 + SOC ETV minus Placebo + SOC ETV at Week 24||-0.309|-1.973|0.0084
92419502|NCT03190369|184727753|SUPERIORITY||LS Mean difference|0.125|STANDARD_ERROR_OF_MEAN|0.137||0.361|TWO_SIDED|95.0|-0.144|0.395||Threshold for significance at 0.05 level.|ANCOVA|Least-square (LS) means, standard errors (SE) were analyzed from repeated measures ANCOVA.||Least-square (LS) means, standard errors (SE) were analyzed from repeated measures analysis of covariance (ANCOVA). The model included treatment groups (Hylan G-F 20 and placebo), site, visit and visit by treatment interaction, as well as the baseline WOMAC A1 score as a covariate).||0.395|-0.144|0.3610
92419503|NCT04543409|184727784|SUPERIORITY||Odds Ratio (OR)|117.49|||<|0.0001|TWO_SIDED|95.0|38.17|361.64|||Cochran-Mantel-Haenszel||The OR estimate and p-value was obtained from the CMH test controlling for region (North America and Rest of the world), baseline steroid use, and presence of strictures at baseline. Odds ratio values \>1 favor Benra 30 mg treatment group.|Analysis completed at Week 24.||361.64|38.17|<0.0001
92170051|NCT05986565|184228983|SUPERIORITY|||||||0.874|||||||RMANOVA|1||||||0.874
92170052|NCT05986565|184228984|SUPERIORITY|||||||0.946|||||||RMANOVA|1||||||0.946
92170053|NCT05986565|184228985|SUPERIORITY|||||||0.267|||||||t-test, 2 sided|24||||||0.267
92391613|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.509|STANDARD_ERROR_OF_MEAN|0.1264|||TWO_SIDED|95.0|0.254|0.765|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 8.5 hours|||0.765|0.254|
92391614|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.492|STANDARD_ERROR_OF_MEAN|0.1144|||TWO_SIDED|95.0|0.261|0.723|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 9 hours|||0.723|0.261|
92391615|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.414|STANDARD_ERROR_OF_MEAN|0.1042|||TWO_SIDED|95.0|0.203|0.625|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 9.5 hours|||0.625|0.203|
92391616|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|0.0984|||TWO_SIDED|95.0|0.241|0.639|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 10 hours|||0.639|0.241|
92391617|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.348|STANDARD_ERROR_OF_MEAN|0.1056|||TWO_SIDED|95.0|0.135|0.562|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 5 minutes|||0.562|0.135|
92391618|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.494|STANDARD_ERROR_OF_MEAN|0.1273|||TWO_SIDED|95.0|0.237|0.751|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 10 minutes|||0.751|0.237|
92391619|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.499|STANDARD_ERROR_OF_MEAN|0.1484|||TWO_SIDED|95.0|0.199|0.8|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 15 minutes|||0.800|0.199|
92419504|NCT04543409|184727785|SUPERIORITY|For any patients with intercurrent events, the DSQ scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR). Analysis was repeated on 100 imputed datasets, and results were combined using Rubin's formula.|Difference in Least Squares Means|2.999||||0.177|TWO_SIDED|95.0|-1.36|7.35|||ANCOVA|Model: Change from baseline in DSQ = Treatment + baseline DSQ + Region + Baseline steroid use + Presence of strictures at baseline.||Analysis completed at Week 24.||7.35|-1.36|0.1770
92419505|NCT04543409|184727786|SUPERIORITY|For any patients with intercurrent events, the Peak Esophageal intraepithelial eosinophil (eos) counts after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-96.2|||<|0.0001|TWO_SIDED|95.0|-114.53|-77.85|||ANCOVA|Model: Percent change from baseline in Peak Esophageal intraepithelial eos counts = Treatment + baseline Peak Esophageal intraepithelial eos counts.||Analysis completed at Week 24.||-77.85|-114.53|<0.0001
92419506|NCT04543409|184727787|SUPERIORITY|For any patients with intercurrent events, the EoE-HSS total grade score after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.175|||<|0.0001|TWO_SIDED|95.0|-0.21|-0.14|||ANCOVA|Change from baseline in EoE-HSS TGS = Treatment + baseline EoE-HSS grade score + Region + Baseline steroid use + Presence of strictures at baseline||||-0.14|-0.21|<0.0001
92419507|NCT04543409|184727788|SUPERIORITY|For any patients with intercurrent events, the EoE-HSS total stage score after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.122|||<|0.0001|TWO_SIDED|95.0|-0.16|-0.09|||ANCOVA|Change from baseline in EoE-HSS TSS = Treatment + baseline EoE-HSS stage score + Region + Baseline steroid use + Presence of strictures at baseline||||-0.09|-0.16|<0.0001
92278920|NCT00094302|184460805|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline quality of life scores as the dependent variable, and the baseline quality of life score and treatment group as predictor variables. This tests whether the value of the post-baseline quality of life parameter differs by treatment group.||||0.99
92391620|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.573|STANDARD_ERROR_OF_MEAN|0.1481|||TWO_SIDED|95.0|0.274|0.872|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 20 minutes|||0.872|0.274|
92391621|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.488|STANDARD_ERROR_OF_MEAN|0.1303|||TWO_SIDED|95.0|0.225|0.751|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 30 minutes|||0.751|0.225|
92391622|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.38|STANDARD_ERROR_OF_MEAN|0.1398|||TWO_SIDED|95.0|0.098|0.663|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 45 minutes|||0.663|0.098|
92391623|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.342|STANDARD_ERROR_OF_MEAN|0.1254|||TWO_SIDED|95.0|0.089|0.596|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 1 hour|||0.596|0.089|
92391624|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.218|STANDARD_ERROR_OF_MEAN|0.1094|||TWO_SIDED|95.0|-0.003|0.439|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 1.5 hours|||0.439|-0.003|
92391625|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.127|STANDARD_ERROR_OF_MEAN|0.0974||||95.0|-0.07|0.323|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 2 hours|||0.323|-0.070|
92391626|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.058|STANDARD_ERROR_OF_MEAN|0.0818|||TWO_SIDED|95.0|-0.107|0.223|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 2.5 hours|||0.223|-0.107|
92391627|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.027|STANDARD_ERROR_OF_MEAN|0.0821|||TWO_SIDED|95.0|-0.192|0.139|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 3 hours|||0.139|-0.192|
92391628|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.091|STANDARD_ERROR_OF_MEAN|0.0876|||TWO_SIDED|95.0|-0.085|0.268|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 3.5 hours|||0.268|-0.085|
92391629|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.084|STANDARD_ERROR_OF_MEAN|0.0921|||TWO_SIDED|95.0|-0.102|0.269|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 4 hour|||0.269|-0.102|
92391630|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.249|STANDARD_ERROR_OF_MEAN|0.105|||TWO_SIDED|95.0|0.038|0.461|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 4.5 hours|||0.461|0.038|
92391631|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.238|STANDARD_ERROR_OF_MEAN|0.0945|||TWO_SIDED|95.0|0.047|0.429|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 5 hours|||0.429|0.047|
92391632|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.315|STANDARD_ERROR_OF_MEAN|0.0995|||TWO_SIDED|95.0|0.114|0.516|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 5.5 hours|||0.516|0.114|
92391633|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.367|STANDARD_ERROR_OF_MEAN|0.1111|||TWO_SIDED|95.0|0.143|0.591|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 6 hours|||0.591|0.143|
92391634|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.361|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|95.0|0.151|0.571|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 6.5 hours|||0.571|0.151|
92391635|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.367|STANDARD_ERROR_OF_MEAN|0.1168|||TWO_SIDED|95.0|0.131|0.602|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 7 hour|||0.602|0.131|
92391636|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.424|STANDARD_ERROR_OF_MEAN|0.1336|||TWO_SIDED|95.0|0.155|0.694|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 7.5 hours|||0.694|0.155|
92391637|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.556|STANDARD_ERROR_OF_MEAN|0.1174|||TWO_SIDED|95.0|0.319|0.793|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 8 hours|||0.793|0.319|
92391638|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.593|STANDARD_ERROR_OF_MEAN|0.1297||||95.0|0.331|0.854|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 8.5 hours|||0.854|0.331|
92239740|NCT00696657|184383374|OTHER||Estimated treatment differences|-0.84|||||TWO_SIDED|95.0|-1.12|-0.56|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Liraglutide 1.8 mg - Placebo . The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.56|-1.12|
92391639|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.559|STANDARD_ERROR_OF_MEAN|0.1177|||TWO_SIDED|95.0|0.322|0.797|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 9 hours|||0.797|0.322|
92391640|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.522|STANDARD_ERROR_OF_MEAN|0.1076||||95.0|0.304|0.739|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 9.5 hours|||0.739|0.304|
92391641|NCT00857857|184682730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.514|STANDARD_ERROR_OF_MEAN|0.1017||||95.0|0.308|0.719|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 10 hours|||0.719|0.308|
92391642|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.295|STANDARD_ERROR_OF_MEAN|0.1038||||95.0|0.086|0.503|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at Day 7|||0.503|0.086|
92391643|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.185|STANDARD_ERROR_OF_MEAN|0.0884|||TWO_SIDED|95.0|0.007|0.363|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at Day 13|||0.363|0.007|
92391644|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.144|STANDARD_ERROR_OF_MEAN|0.1026|||TWO_SIDED|95.0|-0.062|0.351|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at Day 14|||0.351|-0.062|
92391645|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.0979|||TWO_SIDED|95.0|0.133|0.527|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at Day 7|||0.527|0.133|
92391646|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.081|STANDARD_ERROR_OF_MEAN|0.0856|||TWO_SIDED|95.0|-0.092|0.253|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at Day 13|||0.253|-0.092|
92391647|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.126|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.076|0.327|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at Day 14|||0.327|-0.076|
92391648|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.297|STANDARD_ERROR_OF_MEAN|0.0976|||TWO_SIDED|95.0|0.1|0.493|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at Day 7|||0.493|0.100|
92391649|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.256|STANDARD_ERROR_OF_MEAN|0.0859|||TWO_SIDED|95.0|0.083|0.429|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at Day 13|||0.429|0.083|
92391650|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.462|STANDARD_ERROR_OF_MEAN|0.0991|||TWO_SIDED|95.0|0.262|0.662|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at Day 14|||0.662|0.262|
92391651|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.323|STANDARD_ERROR_OF_MEAN|0.0982|||TWO_SIDED|95.0|0.125|0.52|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at Day 7|||0.520|0.125|
92391652|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.229|STANDARD_ERROR_OF_MEAN|0.0858|||TWO_SIDED|95.0|0.057|0.402|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at Day 13|||0.402|0.057|
92391653|NCT00857857|184682732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.372|STANDARD_ERROR_OF_MEAN|0.0991|||TWO_SIDED|95.0|0.172|0.572|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at Day 14|||0.572|0.172|
92391654|NCT00857857|184682742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.482|||TWO_SIDED|95.0|-1.3|0.66|||||Doubling dose differences, that is a treatment doubling dose difference of 1 indicates that the concentration of methacholine required to cause a 20% fall in FEV1 in one treatment is twice that in the other (log2\[2\] = 1).|||0.66|-1.30|
92391655|NCT00857857|184682742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.495|||TWO_SIDED|95.0|-0.73|1.28|||||Doubling dose differences, that is a treatment doubling dose difference of 1 indicates that the concentration of methacholine required to cause a 20% fall in FEV1 in one treatment is twice that in the other (log2\[2\] = 1).|||1.28|-0.73|
92391656|NCT00857857|184682742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.28|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|0.36|2.19|||||Doubling dose differences, that is a treatment doubling dose difference of 1 indicates that the concentration of methacholine required to cause a 20% fall in FEV1 in one treatment is twice that in the other (log2\[2\] = 1).|||2.19|0.36|
92391657|NCT00857857|184682742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.79|STANDARD_ERROR_OF_MEAN|0.469|||TWO_SIDED|95.0|0.84|2.75|||||Doubling dose differences, that is a treatment doubling dose difference of 1 indicates that the concentration of methacholine required to cause a 20% fall in FEV1 in one treatment is twice that in the other (log2\[2\] = 1).|||2.75|0.84|
92391658|NCT03678311|184682754|OTHER|The correlation between the outcome and AHI was tested by Spearman's correlation.|Spearman's correlation|0.13||||0.73|TWO_SIDED|95.0|-0.75|1.0|||Spearman's correlation|||Spearman's correlation was used to evaluate the relationship between the outcome and the apnea hypopnea index.||1.00|-0.75|0.73
92391659|NCT01875159|184682790|SUPERIORITY_OR_OTHER||||||<|0.05|||||||GEE gamma regression models|||\>80% probability of detecting at least a 36% reduction in intermittent hypoxia events/hour of recording and in sec/hour \<90% oxygen saturation/hour of recording||||<0.05
92391660|NCT01389882|184682802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.007|STANDARD_DEVIATION|2.015||0.043|TWO_SIDED|95.0|0.036|1.978|||Paired t-test|||||1.978|0.036|0.043
92391661|NCT01389882|184682803|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.232|STANDARD_DEVIATION|0.841||0.245|TWO_SIDED|95.0|-0.637|0.174|||Paired t-test|||||0.174|-0.637|0.245
92391662|NCT01389882|184682804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026|STANDARD_DEVIATION|0.095||0.257|TWO_SIDED|95.0|-0.02|0.714|||Paired t-test|||||0.714|-0.020|0.257
92391663|NCT01389882|184682805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_DEVIATION|1.541||0.601|TWO_SIDED|95.0|-0.554|0.931|||Paired t-test|||||0.931|-0.554|0.601
92391664|NCT01389882|184682806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.149|STANDARD_DEVIATION|0.355||0.085|TWO_SIDED|95.0|-0.32|0.023|||Paired t-test|||||0.023|-0.320|0.085
92391665|NCT01389882|184682807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.516|STANDARD_DEVIATION|9.786||0.002|TWO_SIDED|95.0|1.799|11.232|||Wilcoxon signed-rank test|||||11.232|1.799|0.002
92419508|NCT04543409|184727789|SUPERIORITY|For any patients with intercurrent events, the centrally-read EREFS total score after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.1||||0.7322|TWO_SIDED|95.0|-0.52|0.32|||ANCOVA|Model: Change from baseline in EREFS TS = Treatment + baseline EREFS TS + Region + Baseline steroid use + Presence of strictures at baseline||Analysis completed at Week 24.||0.32|-0.52|0.7322
92419509|NCT04543409|184727790|SUPERIORITY||Odds Ratio (OR)|15.86|||<|0.0001|TWO_SIDED|95.0|5.79|43.47|||Cochran-Mantel-Haenszel||Controlling for region (North America and Rest of the world), baseline steroid use, and presence of strictures at baseline. OR values \>1 would favor Benra 30 mg treatment group.|||43.47|5.79|<0.0001
92235775|NCT03114969|184374779|SUPERIORITY||Odds Ratio (OR)|2.284||||0.143|TWO_SIDED|95.0|0.757|6.895||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||6.895|0.757|0.143
92235776|NCT03114969|184374779|SUPERIORITY||Odds Ratio (OR)|5.268||||0.006|TWO_SIDED|95.0|1.615|17.187||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||17.187|1.615|0.006
92278921|NCT00094302|184460806|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline quality of life scores as the dependent variable, and the baseline quality of life score, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.39
92419510|NCT04543409|184727794|SUPERIORITY|For any patients with intercurrent events, the EoE-3D scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.04||||0.8656|TWO_SIDED|95.0|-0.5|0.42|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Dysphagia-related pain.||0.42|-0.50|0.8656
92170054|NCT05986565|184228986|SUPERIORITY|||||||0.187|||||||t-test, 2 sided|df=25||||||0.187
92391666|NCT01389882|184682808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|STANDARD_DEVIATION|2.516||0.009|TWO_SIDED|95.0|0.478|2.904|||Paired t-test, 2-sided|||||2.904|0.478|0.009
92419511|NCT04543409|184727794|SUPERIORITY|For any patients with intercurrent events, the EoE-3D scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.181||||0.3926|TWO_SIDED|95.0|-0.6|0.23|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Dysphagia-related discomfort.||0.23|-0.60|0.3926
92419512|NCT04543409|184727794|SUPERIORITY|For any patients with intercurrent events, the EoE-3D scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.344||||0.0867|TWO_SIDED|95.0|-0.74|0.05|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Overall episode severity.||0.05|-0.74|0.0867
92419513|NCT04543409|184727796|SUPERIORITY|For any patients with intercurrent events, the EoE-3D scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.267||||0.2248|TWO_SIDED|95.0|-0.16|0.7|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Abdominal pain severity||0.70|-0.16|0.2248
92391667|NCT01389882|184682809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.692|STANDARD_DEVIATION|2.192||0.314|TWO_SIDED|95.0|-0.364|1.749|||Wilcoxon signed-rank test|||||1.749|-0.364|0.314
92419514|NCT04543409|184727796|SUPERIORITY|For any patients with intercurrent events, the EoE-3D scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.296||||0.1575|TWO_SIDED|95.0|-0.11|0.71|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Nausea severity.||0.71|-0.11|0.1575
92170055|NCT05986565|184228987|SUPERIORITY|||||||0.765|||||||t-test, 2 sided|df=24||||||0.765
92170056|NCT05986565|184228988|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|df=25||||||0.060
92170057|NCT05986565|184228989|SUPERIORITY|||||||0.608|||||||t-test, 2 sided|df=24||||||0.608
92391668|NCT01389882|184682810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007|STANDARD_DEVIATION|0.047||0.515|TWO_SIDED|95.0|-0.03|0.016|||Paired t-test|||||0.016|-0.030|0.515
92391669|NCT01389882|184682811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1105|STANDARD_DEVIATION|7.501||0.949|TWO_SIDED|95.0|-3.505|3.726|||Paired t-test|||||3.726|-3.505|0.949
92391670|NCT01389882|184682812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.053|STANDARD_DEVIATION|12.081||0.709|TWO_SIDED|95.0|-4.77|6.875|||Paired t-test|||||6.875|-4.770|0.709
92170058|NCT05986565|184228990|SUPERIORITY|||||||0.638|||||||t-test, 2 sided|df=25||||||0.638
92391671|NCT01389882|184682813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.274|STANDARD_DEVIATION|2.233||0.6|TWO_SIDED|95.0|-1.35|0.802|||Paired t-test|||||0.802|-1.350|0.600
92391672|NCT01045967|184682850|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.0|||||TWO_SIDED|90.0|90.7|122.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||122|90.7|
92391673|NCT01045967|184682851|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.2|||||TWO_SIDED|90.0|86.1|110.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||110|86.1|
92391674|NCT01045967|184682852|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.4|||||TWO_SIDED|90.0|86.3|110.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||110|86.3|
92391675|NCT05736874|184682855|SUPERIORITY|Decision rule based on Bayesian posterior probability of efficacy. The decision threshold was a posterior probability of 0.95. A prespecified skeptical prior for the treatment effect was used to preserve type I error below 0.05.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.91|1.12|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.12|0.91|
92391676|NCT05736874|184682856|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.19|4.68|||||Descriptive analysis is a maximum partial likelihood proportional hazards regression model. Low event rate precluded covariate adjustment.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||4.68|0.19|
92391677|NCT05736874|184682859|SUPERIORITY|Statistical analysis was a Bayesian proportional hazards regression model with covariate adjustment and weakly informative priors.|Hazard Ratio (HR)|1.9|||||TWO_SIDED|95.0|0.8|3.5|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||3.5|0.8|
92391678|NCT05736874|184682860|SUPERIORITY|Statistical analysis was a Bayesian cumulative probability ordinal regression model with covariate adjustment and weakly informative priors.|Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.62|1.63|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||1.63|0.62|
92391679|NCT05736874|184682861|SUPERIORITY|Statistical analysis was a Bayesian cumulative probability ordinal regression model with covariate adjustment and weakly informative priors.|Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.42|1.5|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||1.50|0.42|
92391680|NCT05736874|184682862|SUPERIORITY|Statistical analysis was a Bayesian cumulative probability ordinal regression model with covariate adjustment and weakly informative priors|Odds Ratio (OR)|2.74|||||TWO_SIDED|95.0|0.5|5.94|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||5.94|0.50|
92391681|NCT05736874|184682863|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.69|1.11|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.11|0.69|
92170059|NCT00914589|184229034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0482||||0.8648||95.0|0.6095|1.8029||P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||1.8029|0.6095|0.8648
92391682|NCT05736874|184682863|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.78|1.34|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.34|0.78|
92419515|NCT04543409|184727799|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.202||||0.8239|TWO_SIDED|95.0|-1.57|1.98|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Eating/Diet Impact||1.98|-1.57|0.8239
92419516|NCT04543409|184727799|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.147||||0.7623|TWO_SIDED|95.0|-0.8|1.1|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Social Impact||1.10|-0.80|0.7623
92419517|NCT04543409|184727799|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference of Least Squares Means|0.01||||0.9898|TWO_SIDED|95.0|-1.47|1.49|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Emotional Impact||1.49|-1.47|0.9898
92419518|NCT04543409|184727799|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.386||||0.4603|TWO_SIDED|95.0|-0.64|1.41|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Disease Anxiety||1.41|-0.64|0.4603
92419519|NCT04543409|184727799|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.162||||0.6613|TWO_SIDED|95.0|-0.89|0.56|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Swallowing Anxiety||0.56|-0.89|0.6613
92419520|NCT04543409|184727799|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|1.017||||0.6965|TWO_SIDED|95.0|-4.09|6.13|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Total Score||6.13|-4.09|0.6965
92419521|NCT04543409|184727801|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.3||||0.6852|TWO_SIDED|95.0|-1.93|1.27|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Physical functioning (PF)||1.27|-1.93|0.6852
92170060|NCT00914589|184229034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9871||||0.9634||95.0|0.5673|1.7176||P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||1.7176|0.5673|0.9634
92235777|NCT03114969|184374779|SUPERIORITY||Odds Ratio (OR)|4.655||||0.009|TWO_SIDED|95.0|1.478|14.666||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||14.666|1.478|0.009
92419522|NCT04543409|184727801|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.9||||0.2685|TWO_SIDED|95.0|-2.57|0.72|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Role limitations due to physical health (RP)||0.72|-2.57|0.2685
92235778|NCT03114969|184374779|SUPERIORITY||Odds Ratio (OR)|1.274||||0.679|TWO_SIDED|95.0|0.405|4.005||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.005|0.405|0.679
92171781|NCT03897686|184233251|SUPERIORITY||LS-means difference|-37.01|STANDARD_ERROR_OF_MEAN|61.85||0.9324|TWO_SIDED|95.0|-197.83|123.82||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~2\) Group A (NOLTREX™) OA grade II versus Group A (NOLTREX™) ОА grade III"||123.82|-197.83|0.9324
92391683|NCT05736874|184682863|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.78|1.45|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.45|0.78|
92391684|NCT05736874|184682863|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.79|1.53|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.53|0.79|
92391685|NCT05736874|184682864|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.72|1.09|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.09|0.72|
92391686|NCT05736874|184682864|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.84|1.27|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.27|0.84|
92391687|NCT05736874|184682864|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.76|1.2|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.20|0.76|
92391688|NCT05736874|184682864|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.84|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.32|0.84|
92391689|NCT05736874|184682865|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.58|0.93|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||0.93|0.58|
92391690|NCT05736874|184682865|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.76|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.32|0.76|
92391691|NCT05736874|184682865|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.94|||||TWO_SIDED|95.0|0.71|1.25|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.25|0.71|
92391692|NCT05736874|184682865|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.21|||||TWO_SIDED|95.0|0.89|1.64|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.64|0.89|
92391693|NCT05736874|184682866|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.7|1.15|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.15|0.70|
92419523|NCT04543409|184727801|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.8||||0.538|TWO_SIDED|95.0|-3.27|1.71|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Bodily pain (BP)||1.71|-3.27|0.5380
92419524|NCT04543409|184727801|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.0||||0.9734|TWO_SIDED|95.0|-1.81|1.75|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||General health perceptions (GH)||1.75|-1.81|0.9734
92419525|NCT04543409|184727801|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.0||||0.9653|TWO_SIDED|95.0|-2.09|2.19|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Vitality (VT)||2.19|-2.09|0.9653
92170061|NCT02214550|184229066|SUPERIORITY||Slope|-1.96|STANDARD_ERROR_OF_MEAN|0.69||0.02|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter reported indicates time x group interaction (OCP vs. No OCP). PBS participants are included in the OCP group|A linear mixed-effects model was estimated predicting bladder pain at first urge ratings (0-100 visual analog scale) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||.02
92419526|NCT04543409|184727801|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-1.5||||0.2326|TWO_SIDED|95.0|-4.04|0.98|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Social functioning (SF)||0.98|-4.04|0.2326
92419527|NCT04543409|184727801|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.7||||0.6274|TWO_SIDED|95.0|-3.44|2.08|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Role limitations due to emotional problems (RE)||2.08|-3.44|0.6274
92419528|NCT04543409|184727801|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.9||||0.4599|TWO_SIDED|95.0|-3.14|1.42|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Mental health (MH)||1.42|-3.14|0.4599
92419529|NCT04543409|184727801|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.4||||0.6456|TWO_SIDED|95.0|-2.07|1.28|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Psychometrically-based physical summary score (PCS)||1.28|-2.07|0.6456
92419530|NCT04543409|184727801|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.6||||0.6206|TWO_SIDED|95.0|-3.08|1.84|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Mental health component summary scores (MCS)||1.84|-3.08|0.6206
92419531|NCT01052844|184727813|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Chi-squared|||Complete protection from nausea and vomiting (CP) was defined as the absence of any episode of nausea or vomiting and no use of rescue medication. CP was further defined as either acute (ACP), when occurring during the first 24 hours after chemotherapy; delayed (DCP), when occurring during the period from days 2 through 5 after chemotherapy; or overall, when occurring over the entire period of the study (first 120 hours).||||0.04
92419532|NCT01052844|184727814|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||We evaluated associations between categorical variables using the Chi-Square test||||0.06
92419533|NCT01754909|184727838|SUPERIORITY|Occurrence rates, comparison by t test||||||0.05|||||||t-test, 2 sided|||||||0.05
92419534|NCT01466595|184727858|SUPERIORITY_OR_OTHER|||||||0.028||||||not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|no other adjustments||"Null hypothesis:~There is no difference between the two arms in the change in T-cell activation from baseline to week 4"||||0.028
92419535|NCT02313454|184727901|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_DEVIATION|0.8||0.008|TWO_SIDED|95.0|-1.0|-0.19|||Paired t-test||Intranasal Application relative to the Extranasal Application|||-0.19|-1.0|0.008
92239741|NCT00696657|184383374|OTHER||Estimated treatment differences|-0.51|||||TWO_SIDED|95.0|-0.8|-0.22|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 1.6 mg (with titration) - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.22|-0.80|
92419536|NCT02313454|184727902|SUPERIORITY||Mean Difference (Final Values)|-11.2|STANDARD_ERROR_OF_MEAN|15.7||0.004|TWO_SIDED|95.0|-19.0|-3.4|||Paired t-test||Intranasal application relative to Extranasal application|||-3.4|-19.0|0.004
92419537|NCT00450112|184727903|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||Fisher Exact|||||||>0.1
92419538|NCT00450112|184727904|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed.||||<0.0001
92419539|NCT00450112|184727904|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
92419540|NCT00450112|184727905|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed.||||<0.0001
92419541|NCT00450112|184727905|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
92419542|NCT00450112|184727906|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed.||||<0.0001
92419543|NCT00450112|184727906|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
92419544|NCT00450112|184727907|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed..||||<0.0001
92419545|NCT00450112|184727907|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
92419546|NCT00450112|184727909|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed.||||<0.0001
92419547|NCT00450112|184727909|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
92419548|NCT00450112|184727910|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed.||||<0.0001
92419549|NCT00450112|184727910|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
92419550|NCT00559754|184727917|SUPERIORITY_OR_OTHER|||||||0.4915|||||||Fisher Exact|||||||0.4915
92419551|NCT00559754|184727918|SUPERIORITY_OR_OTHER|||||||0.4864|||||||Chi-squared|||||||0.4864
92171782|NCT03897686|184233251|SUPERIORITY||LS-means difference|-216.31|STANDARD_ERROR_OF_MEAN|75.01||0.0233|TWO_SIDED|95.0|-411.37|-21.25||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~3\) Group A (NOLTREX™) OA grade II versus Group B (Placebo) ОА grade III"||-21.25|-411.37|0.0233
92278922|NCT00094302|184460806|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.01
92419552|NCT00559754|184727919|SUPERIORITY_OR_OTHER|||||||0.3613|||||||Fisher Exact|||||||0.3613
92419553|NCT00559754|184727920|SUPERIORITY_OR_OTHER|||||||0.6605|||||||Fisher Exact|||||||0.6605
92419554|NCT00559754|184727921|SUPERIORITY_OR_OTHER|||||||0.8311|||||||Fisher Exact|||||||0.8311
92419555|NCT00559754|184727922|SUPERIORITY_OR_OTHER|||||||0.223|||||||Fisher Exact|||||||0.2230
92419556|NCT00559754|184727923|SUPERIORITY_OR_OTHER|||||||0.8696|||||||Fisher Exact|||||||0.8696
92419557|NCT00559754|184727924|SUPERIORITY_OR_OTHER|||||||0.0074|||||||Fisher Exact|||||||0.0074
92419558|NCT00559754|184727925|SUPERIORITY_OR_OTHER|||||||0.3235|||||||Fisher Exact|||||||0.3235
92419559|NCT00559754|184727926|SUPERIORITY_OR_OTHER|||||||0.0693|||||||Fisher Exact|||||||0.0693
92419560|NCT00559754|184727928|SUPERIORITY_OR_OTHER|||||||0.4254|||||||Fisher Exact|||||||0.4254
92419561|NCT00559754|184727930|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92419562|NCT00559754|184727931|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92419563|NCT00559754|184727933|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92419564|NCT03595774|184727941|SUPERIORITY|||||||0.0833||||||a priori threshold for statistical significance of P\<0.05|ANOVA|One-way ANOVA for repeated measures followed by Holm-Šídák's multiple comparisons test||||||0.0833
92419565|NCT03595774|184727942|SUPERIORITY|||||||0.0131||||||a priori threshold for statistical significance of P\<0.05|ANOVA|One-way ANOVA for repeated measures followed by Holm-Šídák's multiple comparisons test||||||0.0131
92419566|NCT03595774|184727943|SUPERIORITY|||||||0.012728||||||a prior threshold for significant of P\<0.05|ANOVA|Two-way ANOVA for repeated measured followed by Holm-Šídák's multiple comparisons test||||||0.012728
92419567|NCT03595774|184727944|SUPERIORITY|||||||2e-08||||||a priori threshold for statistical significance of P\<0.05|ANOVA|Two-way ANOVA for repeated measures followed by Holm-Šídák's multiple comparisons test||||||0.00000002
92419568|NCT03595774|184727945|SUPERIORITY|||||||0.017215||||||a priori threshold for statistical significance of P\<0.05|ANOVA|Two-way ANOVA for repeated measures followed by Holm-Šídák's multiple comparisons test||||||0.017215
92235779|NCT03114969|184374779|SUPERIORITY||Odds Ratio (OR)|3.804||||0.01|TWO_SIDED|95.0|1.372|10.544||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||10.544|1.372|0.010
92235780|NCT03114969|184374779|SUPERIORITY||Odds Ratio (OR)|2.555||||0.083|TWO_SIDED|95.0|0.886|7.369||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||7.369|0.886|0.083
92419569|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs. Timolol|Mean Difference (Final Values)|-0.79|||||TWO_SIDED|95.0|-1.45|-0.13||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Day 10, 8AM Difference between Implant Group 2 and timolol||-0.13|-1.45|
92419570|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-1.24|||||TWO_SIDED|95.0|-1.92|-0.56||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Day 10, 10AM Difference between Implant Group 2 and timolol||-0.56|-1.92|
92280568|NCT00663871|184463694|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.92|TWO_SIDED|95.0|0.69|1.5||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time. The Negative Affect scores were categorized by quartiles of the baseline measures.|Mixed Models Analysis|Generalized Linear Mixed Modeling was used with a multinomial distribution with cumulative link.||||1.50|0.69|0.92
92391694|NCT05736874|184682866|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.75|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.29|0.75|
92391695|NCT05736874|184682866|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.72|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.26|0.72|
92419571|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-0.86|0.51||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Week 6, 8AM Difference between Implant Group 2 and timolol||0.51|-0.86|
92419572|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-0.77|||||TWO_SIDED|95.0|-1.43|-0.11||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Week 6, 10AM Difference between Implant Group 2 and timolol||-0.11|-1.43|
92419573|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.63|0.82||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Month 3, 8AM Difference between Implant Group 2 and timolol||0.82|-0.63|
92419574|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-0.89|0.57||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Month 3, 10AM Difference between Implant Group 2 and timolol||0.57|-0.89|
92419575|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs. Timolol|Mean Difference (Final Values)|-0.72|||||TWO_SIDED|95.0|-1.38|-0.06||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Day 10, 8AM Difference between Implant Group 1 vs. Timolol||-0.06|-1.38|
92419576|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|-1.15|||||TWO_SIDED|95.0|-1.83|-0.48||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Day 10, 10AM Difference between Implant Group 1 vs. Timolol||-0.48|-1.83|
92171783|NCT03897686|184233251|SUPERIORITY||LS-means difference|142.3|STANDARD_ERROR_OF_MEAN|81.89||0.3082|TWO_SIDED|95.0|-70.63|355.22||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~4\) Group A (NOLTREX™) OA grade III versus Group B (Placebo) ОА grade II"||355.22|-70.63|0.3082
92419577|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs. Timolol|Mean Difference (Final Values)|-0.25|||||TWO_SIDED|95.0|-0.93|0.43||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Week 6, 8AM Difference between Implant Group 1 and timolol||0.43|-0.93|
92280569|NCT00663871|184463695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.12||||0.86|TWO_SIDED|95.0|-1.21|1.44||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||1.44|-1.21|0.86
92419578|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|-0.74|||||TWO_SIDED|95.0|-1.4|-0.08||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Week 6, 10AM Difference between Implant Group 1 and timolol||-0.08|-1.40|
92235781|NCT03114969|184374779|SUPERIORITY||Odds Ratio (OR)|5.93||||0.002|TWO_SIDED|95.0|1.89|18.611||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||18.611|1.890|0.002
92419579|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs. Timolol|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.62|0.83||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Month 3, 8AM Difference between Implant Group 1 and timolol||0.83|-0.62|
92419580|NCT03519386|184727973|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.77|0.69||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Month 3, 10AM Difference between Implant Group 1 and timolol||0.69|-0.77|
92419581|NCT01582854|184727976|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.82||0.005|TWO_SIDED|95.0|-3.9|-0.7|||ANCOVA|||||-0.7|-3.9|0.005
92419582|NCT01582854|184727977|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.74||0.122|TWO_SIDED|95.0|-2.6|0.3|||ANCOVA|||Month 3||0.3|-2.6|0.122
92419583|NCT01582854|184727977|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.93|<|0.001|TWO_SIDED|95.0|-5.5|-1.9|||ANCOVA|||Month 12||-1.9|-5.5|<0.001
92280570|NCT00663871|184463696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.31||||0.63|TWO_SIDED|95.0|-1.57|0.94||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||0.94|-1.57|0.63
92280571|NCT00663871|184463697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.32||||0.5|TWO_SIDED|95.0|-1.25|0.61||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||0.61|-1.25|0.50
92419584|NCT01582854|184727978|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.111|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||End of Infusion Period||0.7|-0.1|0.111
92419585|NCT01582854|184727978|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.27||0.016|TWO_SIDED|95.0|0.1|1.2|||ANCOVA|||Month 3||1.2|0.1|0.016
92419586|NCT01582854|184727978|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.29||0.013|TWO_SIDED|95.0|0.2|1.3|||ANCOVA|||Month 6||1.3|0.2|0.013
92419587|NCT01582854|184727978|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.34||0.003|TWO_SIDED|95.0|0.3|1.7|||ANCOVA|||Month 12||1.7|0.3|0.003
92419588|NCT01582854|184727979|SUPERIORITY_OR_OTHER||Percent Difference|10.2||||0.032|TWO_SIDED|95.0|0.9|19.5|||Chi-squared|||Month 3||19.5|0.9|0.032
92419589|NCT01582854|184727979|SUPERIORITY_OR_OTHER||Percent Difference|10.2||||0.034|TWO_SIDED|95.0|0.8|19.5|||Chi-squared|||Month 6||19.5|0.8|0.034
92419590|NCT01582854|184727979|SUPERIORITY_OR_OTHER||Percent Difference|10.1||||0.035|TWO_SIDED|95.0|0.8|19.3|||Chi-squared|||Month 12||19.3|0.8|0.035
92419591|NCT01582854|184727980|SUPERIORITY_OR_OTHER||Percent Difference|-3.2||||0.251|TWO_SIDED|95.0|-8.5|2.1|||Fisher Exact|||Month 6||2.1|-8.5|0.251
92419592|NCT01582854|184727980|SUPERIORITY_OR_OTHER||Percent Difference|-4.0||||0.221|TWO_SIDED|95.0|-9.7|1.7|||Fisher Exact|||Month 12||1.7|-9.7|0.221
92419593|NCT01582854|184727981|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.239|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||End of Infusion Period||0.1|-0.4|0.239
92419594|NCT01582854|184727981|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.136|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||Month 3||0.1|-0.5|0.136
92419595|NCT01582854|184727981|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.89|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|||Month 6||0.2|-0.3|0.890
92419596|NCT01582854|184727981|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.455|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||Month 12||0.2|-0.4|0.455
92235782|NCT03114969|184374779|SUPERIORITY||Odds Ratio (OR)|4.929||||0.007|TWO_SIDED|95.0|1.556|15.612||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||15.612|1.556|0.007
92419597|NCT03101267|184727988|SUPERIORITY||Adjusted mean difference|0.09||||0.777|TWO_SIDED|95.0|-0.52|0.69|||Mixed model for repeated measures (MMRM)|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||3TNSS treatment comparison||0.69|-0.52|0.777
92235783|NCT03114969|184374779|SUPERIORITY||Odds Ratio (OR)|1.208||||0.746|TWO_SIDED|95.0|0.385|3.788||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||3.788|0.385|0.746
92419598|NCT03101267|184727988|SUPERIORITY||Adjusted mean difference|-0.01||||0.983||95.0|-0.61|0.59|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||3TNSS treatment comparison||0.59|-0.61|0.983
92419599|NCT03101267|184727989|SUPERIORITY||Adjusted mean difference|0.17||||0.71|TWO_SIDED|95.0|-0.75|1.1|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 127||1.10|-0.75|0.710
92419600|NCT03101267|184727989|SUPERIORITY||Adjusted mean difference|0.07||||0.872|TWO_SIDED|95.0|-0.84|0.99|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 127||0.99|-0.84|0.872
92419601|NCT03101267|184727989|SUPERIORITY||Adjusted mean difference|0.18||||0.701|TWO_SIDED|95.0|-0.73|1.08|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 155||1.08|-0.73|0.701
92419602|NCT03101267|184727989|SUPERIORITY||Adjusted mean difference|-0.04||||0.925||95.0|-0.95|0.86|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 155||0.86|-0.95|0.925
92419603|NCT03101267|184727989|SUPERIORITY||Adjusted mean difference|0.16||||0.69|TWO_SIDED|95.0|-0.64|0.97|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 183||0.97|-0.64|0.690
92419604|NCT03101267|184727989|SUPERIORITY||Adjusted mean difference|0.07||||0.868|TWO_SIDED|95.0|-0.73|0.87|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 183||0.87|-0.73|0.868
92419605|NCT03101267|184727990|SUPERIORITY||Adjusted mean difference|0.07||||0.502|TWO_SIDED|95.0|-0.14|0.29|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 127||0.29|-0.14|0.502
92419606|NCT03101267|184727990|SUPERIORITY||Adjusted mean difference|-0.02||||0.879|TWO_SIDED|95.0|-0.23|0.2|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 127||0.20|-0.23|0.879
92419607|NCT03101267|184727990|SUPERIORITY||Adjusted mean difference|0.06||||0.444|TWO_SIDED|95.0|-0.1|0.22|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 155||0.22|-0.10|0.444
92419608|NCT03101267|184727990|SUPERIORITY||Adjusted mean difference|0.0||||0.987|TWO_SIDED|95.0|-0.16|0.16|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 155||0.16|-0.16|0.987
92419609|NCT03101267|184727990|SUPERIORITY||Adjusted mean difference|0.03||||0.645|TWO_SIDED|95.0|-0.12|0.18|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 183||0.18|-0.12|0.645
92419610|NCT03101267|184727990|SUPERIORITY||Adjusted mean difference|-0.07||||0.357|TWO_SIDED|95.0|-0.22|0.08|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 183||0.08|-0.22|0.357
92235784|NCT03114969|184374780|SUPERIORITY||Odds Ratio (OR)|1.502||||0.404|TWO_SIDED|95.0|0.578|3.905||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||3.905|0.578|0.404
92419611|NCT03101267|184727991|SUPERIORITY||Adjusted mean difference|0.12||||0.472|TWO_SIDED|95.0|-0.2|0.44|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 127||0.44|-0.20|0.472
92419612|NCT03101267|184727991|SUPERIORITY||Adjusted mean difference|-0.11||||0.497|TWO_SIDED|95.0|-0.43|0.21|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 127||0.21|-0.43|0.497
92419613|NCT03101267|184727991|SUPERIORITY||Adjusted mean difference|0.04||||0.821|TWO_SIDED|95.0|-0.28|0.36|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 155||0.36|-0.28|0.821
92419614|NCT03101267|184727991|SUPERIORITY||Adjusted mean difference|-0.13||||0.414|TWO_SIDED|95.0|-0.45|0.19|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 155||0.19|-0.45|0.414
92419615|NCT03101267|184727991|SUPERIORITY||Adjusted mean difference|0.12||||0.414|TWO_SIDED|95.0|-0.17|0.41|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 183||0.41|-0.17|0.414
92419616|NCT03101267|184727991|SUPERIORITY||Adjusted mean difference|0.08||||0.566|TWO_SIDED|95.0|-0.2|0.37|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 183||0.37|-0.20|0.566
92419617|NCT03101267|184727992|SUPERIORITY||Adjusted mean difference|-0.04||||0.822||95.0|-0.37|0.3|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 127||0.30|-0.37|0.822
92419618|NCT03101267|184727992|SUPERIORITY||Adjusted mean difference|0.09||||0.587|TWO_SIDED|95.0|-0.24|0.42|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 127||0.42|-0.24|0.587
92419619|NCT03101267|184727992|SUPERIORITY||Adjusted mean difference|0.0||||0.975|TWO_SIDED|95.0|-0.3|0.31|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 155||0.31|-0.30|0.975
92419620|NCT03101267|184727992|SUPERIORITY||Adjusted mean difference|0.0||||0.98|TWO_SIDED|95.0|-0.31|0.31|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 155||0.31|-0.31|0.980
92419621|NCT03101267|184727992|SUPERIORITY||Adjusted mean difference|-0.07||||0.621|TWO_SIDED|95.0|-0.35|0.21|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 183||0.21|-0.35|0.621
92391696|NCT05736874|184682866|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.92|1.61|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.61|0.92|
92391697|NCT05736874|184682867|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.81|1.28|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.28|0.81|
92391698|NCT05736874|184682867|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.6|0.99|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||0.99|0.60|
92391699|NCT05736874|184682867|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.74|1.23|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.23|0.74|
92391700|NCT05736874|184682867|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.89|1.5|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.50|0.89|
92391701|NCT05736874|184682868|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.69|1.06|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.06|0.69|
92391702|NCT05736874|184682868|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.82|1.3|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.30|0.82|
92419622|NCT03101267|184727992|SUPERIORITY||Adjusted mean difference|-0.03||||0.831|TWO_SIDED|95.0|-0.31|0.25|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 183||0.25|-0.31|0.831
92419623|NCT03101267|184727993|SUPERIORITY||Adjusted mean difference|0.03||||0.864|TWO_SIDED|95.0|-0.29|0.35|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 127||0.35|-0.29|0.864
92419624|NCT03101267|184727993|SUPERIORITY||Adjusted mean difference|0.11||||0.502|TWO_SIDED|95.0|-0.21|0.43|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 127||0.43|-0.21|0.502
92419625|NCT03101267|184727993|SUPERIORITY||Adjusted mean difference|0.07||||0.652|TWO_SIDED|95.0|-0.25|0.4|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 155||0.40|-0.25|0.652
92419626|NCT03101267|184727993|SUPERIORITY||Adjusted mean difference|0.08||||0.633|TWO_SIDED|95.0|-0.25|0.41|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 155||0.41|-0.25|0.633
92419627|NCT03101267|184727993|SUPERIORITY||Adjusted mean difference|0.07||||0.596|TWO_SIDED|95.0|-0.2|0.35|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 183||0.35|-0.20|0.596
92419628|NCT03101267|184727993|SUPERIORITY||Adjusted mean difference|0.07||||0.621|TWO_SIDED|95.0|-0.21|0.34|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 183||0.34|-0.21|0.621
92419629|NCT03101267|184727994|SUPERIORITY||Adjusted mean difference|0.21||||0.336|TWO_SIDED|95.0|-0.22|0.65|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 127||0.65|-0.22|0.336
92419630|NCT03101267|184727994|SUPERIORITY||Adjusted mean difference|0.36||||0.102|TWO_SIDED|95.0|-0.07|0.8|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 127||0.80|-0.07|0.102
92419631|NCT03101267|184727994|SUPERIORITY||Adjusted mean difference|0.11||||0.625|TWO_SIDED|95.0|-0.34|0.56|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 155||0.56|-0.34|0.625
92391703|NCT05736874|184682868|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.8|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.32|0.80|
92419632|NCT03101267|184727994|SUPERIORITY||Adjusted mean difference|0.33||||0.145|TWO_SIDED|95.0|-0.12|0.78|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 155||0.78|-0.12|0.145
92419633|NCT03101267|184727994|SUPERIORITY||Adjusted mean difference|0.19||||0.364|TWO_SIDED|95.0|-0.22|0.59|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 183||0.59|-0.22|0.364
92419634|NCT03101267|184727994|SUPERIORITY||Adjusted mean difference|0.35||||0.082|TWO_SIDED|95.0|-0.05|0.76|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 183||0.76|-0.05|0.082
92419635|NCT03101267|184727995|SUPERIORITY||Adjusted mean difference|0.07||||0.623|TWO_SIDED|95.0|-0.21|0.35|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 127||0.35|-0.21|0.623
92419636|NCT03101267|184727995|SUPERIORITY||Adjusted mean difference|0.15||||0.288|TWO_SIDED|95.0|-0.13|0.43|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 127||0.43|-0.13|0.288
92419637|NCT03101267|184727995|SUPERIORITY||Adjusted mean difference|0.03||||0.83|TWO_SIDED|95.0|-0.24|0.3|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 155||0.30|-0.24|0.830
92419638|NCT03101267|184727995|SUPERIORITY||Adjusted mean difference|0.17||||0.208|TWO_SIDED|95.0|-0.1|0.44|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 155||0.44|-0.10|0.208
92419639|NCT03101267|184727995|SUPERIORITY||Adjusted mean difference|0.06||||0.616|TWO_SIDED|95.0|-0.19|0.31|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 183||0.31|-0.19|0.616
92419640|NCT03101267|184727995|SUPERIORITY||Adjusted mean difference|0.16||||0.207|TWO_SIDED|95.0|-0.09|0.41|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 183||0.41|-0.09|0.207
92419641|NCT03101267|184727996|SUPERIORITY||Adjusted mean difference|0.15||||0.157|TWO_SIDED|95.0|-0.06|0.35|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 127||0.35|-0.06|0.157
92391704|NCT05736874|184682868|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.75|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.29|0.75|
92391705|NCT05736874|184682869|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.62|0.93|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||0.93|0.62|
92419642|NCT03101267|184727996|SUPERIORITY||Adjusted mean difference|0.21||||0.039|TWO_SIDED|95.0|0.01|0.41|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 127||0.41|0.01|0.039
92419643|NCT03101267|184727996|SUPERIORITY||Adjusted mean difference|0.08||||0.459|TWO_SIDED|95.0|-0.14|0.3|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 155||0.30|-0.14|0.459
92419644|NCT03101267|184727996|SUPERIORITY||Adjusted mean difference|0.16||||0.153|TWO_SIDED|95.0|-0.06|0.38|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 155||0.38|-0.06|0.153
92419645|NCT03101267|184727996|SUPERIORITY||Adjusted mean difference|0.12||||0.195|TWO_SIDED|95.0|-0.06|0.31|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 183||0.31|-0.06|0.195
92419646|NCT03101267|184727996|SUPERIORITY||Adjusted mean difference|0.2||||0.038|TWO_SIDED|95.0|0.01|0.38|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 183||0.38|0.01|0.038
92419647|NCT03101267|184727997|SUPERIORITY||Adjusted mean difference|0.37||||0.433|TWO_SIDED|95.0|-0.56|1.29|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 127||1.29|-0.56|0.433
92419648|NCT03101267|184727997|SUPERIORITY||Adjusted mean difference|0.33||||0.479|TWO_SIDED|95.0|-0.59|1.24|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 127||1.24|-0.59|0.479
92419649|NCT03101267|184727997|SUPERIORITY||Adjusted mean difference|0.22||||0.648|TWO_SIDED|95.0|-0.71|1.14|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 155||1.14|-0.71|0.648
92419650|NCT03101267|184727997|SUPERIORITY||Adjusted mean difference|0.21||||0.654|TWO_SIDED|95.0|-0.72|1.14|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 155||1.14|-0.72|0.654
92419651|NCT03101267|184727997|SUPERIORITY||Adjusted mean difference|0.27||||0.514|TWO_SIDED|95.0|-0.55|1.09|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 183||1.09|-0.55|0.514
92419652|NCT03101267|184727997|SUPERIORITY||Adjusted mean difference|0.35||||0.4|TWO_SIDED|95.0|-0.47|1.17|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 183||1.17|-0.47|0.400
92419653|NCT03101267|184727998|SUPERIORITY||Adjusted mean difference,|0.39||||0.505|TWO_SIDED|95.0|-0.76|1.54||The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.|MMRM|||6TSS treatment comparison at day 127||1.54|-0.76|0.505
92391706|NCT05736874|184682869|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.78|1.18|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.18|0.78|
92391707|NCT05736874|184682869|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.74|1.12|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.12|0.74|
92391708|NCT05736874|184682869|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|1.02|1.56|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.56|1.02|
92391709|NCT05736874|184682870|SUPERIORITY||Difference in model estimate time unwell|-0.1|||||TWO_SIDED|95.0|-0.45|0.26|||||The interval is a highest-density credible interval.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||0.26|-0.45|
92391710|NCT05736874|184682871|SUPERIORITY||Difference in model estimated means|0.13|||||TWO_SIDED|95.0|-0.28|0.58|||||The interval is a highest-density credible interval.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||0.58|-0.28|
92391711|NCT02981368|184682889|SUPERIORITY|||||||0.1097|||||||Fisher Exact|||Tissue Site: Bone||||0.1097
92419654|NCT03101267|184727998|SUPERIORITY||Adjusted mean difference,|0.44||||0.451|TWO_SIDED|95.0|-0.71|1.58|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||6TSS treatment comparison at day 127||1.58|-0.71|0.451
92391712|NCT02981368|184682889|SUPERIORITY|||||||0.1087|||||||Fisher Exact|||Tissue Site: Bone||||0.1087
92391713|NCT02981368|184682889|SUPERIORITY|||||||0.1949|||||||Fisher Exact|||Tissue Site: Bone||||0.1949
92391714|NCT02981368|184682889|SUPERIORITY|||||||0.1315|||||||Fisher Exact|||Tissue Site: Bone||||0.1315
92391715|NCT02981368|184682889|SUPERIORITY|||||||0.1977|||||||Fisher Exact|||Tissue Site: Bone||||0.1977
92391716|NCT02981368|184682889|SUPERIORITY|||||||0.2149|||||||Fisher Exact|||Tissue Site: Bone||||0.2149
92391717|NCT02981368|184682889|SUPERIORITY|||||||0.2582|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.2582
92391718|NCT02981368|184682889|SUPERIORITY|||||||0.0009|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.0009
92391719|NCT02981368|184682889|SUPERIORITY|||||||0.3588|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.3588
92391720|NCT02981368|184682889|SUPERIORITY|||||||0.8791|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.8791
92391721|NCT02981368|184682889|SUPERIORITY|||||||0.9457|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.9457
92419655|NCT03101267|184727998|SUPERIORITY||Adjusted mean difference,|0.29||||0.623|TWO_SIDED|95.0|-0.88|1.46|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||6TSS treatment comparison at day 155||1.46|-0.88|0.623
92391722|NCT02981368|184682889|SUPERIORITY|||||||0.2705|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.2705
92391723|NCT02981368|184682889|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Type: Lymph nodes||||<0.0001
92391724|NCT02981368|184682889|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Type: Lymph nodes||||<0.0001
92391725|NCT02981368|184682889|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Type: Lymph nodes||||<0.0001
92391726|NCT02981368|184682889|SUPERIORITY|||||||0.5933|||||||Chi-squared|||Tissue Type: Lymph nodes||||0.5933
92391727|NCT02981368|184682889|SUPERIORITY|||||||0.7094|||||||Chi-squared|||Tissue Type: Lymph nodes||||0.7094
92391728|NCT02981368|184682889|SUPERIORITY|||||||0.5424|||||||Chi-squared|||Tissue Type: Lymph nodes||||0.5424
92391729|NCT02981368|184682889|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Site: Prostate Gland||||<0.0001
92391730|NCT02981368|184682889|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Tissue Site: Prostate Gland||||<0.0001
92391731|NCT02981368|184682889|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Tissue Site: Prostate Gland||||<0.0001
92391732|NCT02981368|184682889|SUPERIORITY|||||||0.0038|||||||Fisher Exact|||Tissue Site: Prostate Gland||||0.0038
92391733|NCT02981368|184682889|SUPERIORITY|||||||0.0647|||||||Fisher Exact|||Tissue Site: Prostate Gland||||0.0647
92391734|NCT02981368|184682889|SUPERIORITY|||||||0.0021|||||||Chi-squared|||Tissue Site: Prostate Gland||||0.0021
92391735|NCT02981368|184682889|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Site: All||||<0.0001
92391736|NCT02981368|184682889|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Site: All||||<0.0001
92391737|NCT02981368|184682889|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Site: All||||<0.0001
92391738|NCT02981368|184682889|SUPERIORITY|||||||0.0815|||||||Chi-squared|||Tissue Site: All||||0.0815
92391739|NCT02981368|184682889|SUPERIORITY|||||||0.7507|||||||Chi-squared|||Tissue Site: All||||0.7507
92391740|NCT02981368|184682889|SUPERIORITY|||||||0.562|||||||Chi-squared|||Tissue Site: All||||0.5620
92391741|NCT05104450|184682925|SUPERIORITY||Mean Difference (Net)|0.64||||0.001|TWO_SIDED|95.0|0.25|1.04|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||1.04|0.25|0.001
92419656|NCT03101267|184727998|SUPERIORITY||Adjusted mean difference,|0.29||||0.62|TWO_SIDED|95.0|-0.87|1.46|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||6TSS treatment comparison at day 155||1.46|-0.87|0.620
92419657|NCT03101267|184727998|SUPERIORITY||Adjusted mean difference,|0.35||||0.504|TWO_SIDED|95.0|-0.68|1.37|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||6TSS treatment comparison at day 183||1.37|-0.68|0.504
92419658|NCT03101267|184727998|SUPERIORITY||Adjusted mean difference,|0.42||||0.414|TWO_SIDED|95.0|-0.6|1.45|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||6TSS treatment comparison at day 183||1.45|-0.60|0.414
92280572|NCT00663871|184463698|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.33||||0.25|TWO_SIDED|95.0|-0.23|0.88||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||0.88|-0.23|0.25
92419659|NCT04644783|184728036|SUPERIORITY||||||<|0.0001|||||||Regression, non-linear mixed effects|||||||<0.0001
92419660|NCT04644783|184728037|SUPERIORITY||||||<|0.0001|||||||Regression, non-linear mixed effects|||||||<0.0001
92419661|NCT02290431|184728038|SUPERIORITY||||||<|0.0001|||||||single-sample binomial test|||||||< 0.0001
92419662|NCT04721067|184728064|SUPERIORITY||Mean Difference (Net)|-2.27||||0.607|TWO_SIDED|95.0|-15.14|10.6|||Regression, Logistic|Adjusted for baseline values||||10.60|-15.14|0.607
92419663|NCT04721067|184728065|SUPERIORITY||Mean Difference (Net)|-2.99||||0.766|TWO_SIDED|95.0|-10.74|4.76|||ANCOVA|||||4.76|-10.74|0.766
92419664|NCT04721067|184728066|SUPERIORITY||Mean Difference (Net)|145.54||||0.465|TWO_SIDED|95.0|-264.05|555.14|||ANCOVA|||||555.14|-264.05|0.465
92419665|NCT04721067|184728067|SUPERIORITY||Mean Difference (Net)|137.79||||0.178|TWO_SIDED|95.0|-68.71|344.3|||ANCOVA|||||344.30|-68.71|0.178
92419666|NCT04721067|184728068|SUPERIORITY||Mean Difference (Net)|1.87||||0.548|TWO_SIDED|95.0|-4.58|8.31|||ANCOVA|||||8.31|-4.58|0.548
92419667|NCT04721067|184728069|SUPERIORITY||Mean Difference (Net)|-0.67||||0.579|TWO_SIDED|95.0|-3.14|1.8|||ANCOVA|||||1.80|-3.14|0.579
92419668|NCT04721067|184728070|SUPERIORITY||Mean Difference (Net)|-0.63||||0.766|TWO_SIDED|95.0|-5.0|3.74|||ANCOVA|||||3.74|-5.00|0.766
92419669|NCT04721067|184728071|SUPERIORITY||Mean Difference (Net)|-1.23||||0.42|TWO_SIDED|95.0|-4.39|1.93|||ANCOVA|||||1.93|-4.39|0.42
92419670|NCT04721067|184728072|SUPERIORITY||Mean Difference (Net)|-0.07||||0.91|TWO_SIDED|95.0|-1.34|1.2|||ANCOVA|||||1.20|-1.34|0.91
92419671|NCT04721067|184728073|SUPERIORITY||Mean Difference (Net)|0.79||||0.73|TWO_SIDED|95.0|-4.03|5.6|||ANCOVA|||||5.60|-4.03|0.73
92171784|NCT03897686|184233251|SUPERIORITY||LS-means difference|-37.01|STANDARD_ERROR_OF_MEAN|61.85||0.9324|TWO_SIDED|95.0|-197.83|123.82||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~5\) versus Group B (Placebo) OA grade II versus Group B (Placebo) ОА grade III"||123.82|-197.83|0.9324
92419672|NCT04721067|184728074|SUPERIORITY||Mean Difference (Net)|0.19||||0.42|TWO_SIDED|95.0|-0.3|0.68|||ANCOVA|||||0.68|-0.30|0.42
92419673|NCT04721067|184728075|SUPERIORITY||Mean Difference (Net)|1.79||||0.18|TWO_SIDED|95.0|-0.9|4.48|||ANCOVA|||||4.48|-0.90|0.18
92419674|NCT04721067|184728076|SUPERIORITY||Mean Difference (Net)|-2.03||||0.48|TWO_SIDED|95.0|-7.97|3.9|||ANCOVA|||||3.90|-7.97|0.48
92419675|NCT04721067|184728077|SUPERIORITY||Mean Difference (Net)|1.42||||0.08|TWO_SIDED|95.0|-0.24|3.08|||ANCOVA|||||3.08|-0.24|0.08
92419676|NCT04721067|184728078|SUPERIORITY||Mean Difference (Net)|0.51||||0.94|TWO_SIDED|95.0|-13.5|14.52|||ANCOVA|||||14.52|-13.50|0.94
92419677|NCT04721067|184728081|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.32|TWO_SIDED|95.0|-0.45|1.32|||t-test, 2 sided|||||1.32|-0.45|0.32
92419678|NCT04721067|184728082|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.61|TWO_SIDED|95.0|-0.75|1.25|||t-test, 2 sided|||||1.25|-0.75|0.61
92419679|NCT04721067|184728083|SUPERIORITY||Mean Difference (Net)|-1.05||||0.52|TWO_SIDED|95.0|-4.42|2.31|||ANCOVA|||||2.31|-4.42|0.52
92419680|NCT04721067|184728084|SUPERIORITY||Mean Difference (Net)|-0.44||||0.61|TWO_SIDED|95.0|-2.2|1.32|||ANCOVA|||||1.32|-2.20|0.61
92419681|NCT04721067|184728085|SUPERIORITY||Mean Difference (Net)|3.68||||0.16|TWO_SIDED|95.0|-1.61|8.97|||ANCOVA|||||8.97|-1.61|0.16
92419682|NCT04721067|184728086|SUPERIORITY||Mean Difference (Net)|0.43||||0.13|TWO_SIDED|95.0|-0.13|1.0|||ANCOVA|||||1.00|-0.13|0.13
92419683|NCT04721067|184728087|SUPERIORITY||Mean Difference (Net)|3.88||||0.03|TWO_SIDED|95.0|0.35|7.41|||ANCOVA|||||7.41|0.35|0.03
92419684|NCT04721067|184728088|SUPERIORITY||Mean Difference (Net)|-3.2||||0.41|TWO_SIDED|95.0|-11.07|4.66|||ANCOVA|||||4.66|-11.07|0.41
92419685|NCT04721067|184728089|SUPERIORITY||Mean Difference (Net)|1.7||||0.17|TWO_SIDED|95.0|-0.83|4.22|||ANCOVA|||||4.22|-0.83|0.17
92419686|NCT04721067|184728090|SUPERIORITY||Mean Difference (Net)|3.49||||0.58|TWO_SIDED|95.0|-9.58|16.55|||ANCOVA|||||16.55|-9.58|0.58
92419687|NCT04721067|184728091|SUPERIORITY||Mean Difference (Net)|0.15||||0.74|TWO_SIDED|95.0|-0.79|1.1|||ANCOVA|||||1.10|-0.79|0.74
92419688|NCT04721067|184728092|SUPERIORITY||Mean Difference (Net)|129.077||||0.17|TWO_SIDED|95.0|-57.78|315.92|||ANCOVA|||||315.92|-57.78|0.17
92419689|NCT04721067|184728093|SUPERIORITY||Mean Difference (Net)|109.71||||0.31|TWO_SIDED|95.0|-108.37|327.78|||ANCOVA|||||327.78|-108.37|0.31
92419690|NCT04721067|184728094|SUPERIORITY||Mean Difference (Net)|0.24||||0.92|TWO_SIDED|95.0|-4.52|5.0|||ANCOVA|||||5.00|-4.52|0.92
92419691|NCT04721067|184728095|SUPERIORITY||Mean Difference (Net)|-1.11||||0.66|TWO_SIDED|95.0|-6.28|4.06|||ANCOVA|||||4.06|-6.28|0.66
92419692|NCT04894916|184728128|OTHER|single group|mean|81.9|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||"One-sample t-test comparing the sample mean to the threshold value of 71 indicative of good usability. The null hypothesis: true mean is equal to 71."||||<0.001
92419693|NCT04894916|184728131|SUPERIORITY||Mean Difference (Net)|0.73|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92419694|NCT04894916|184728132|OTHER||Mean Difference (Net)|1.17||||0.08|TWO_SIDED||||||t-test, 2 sided|||||||0.08
92419695|NCT04894916|184728133|OTHER|||||||0.68|||||||McNemar|||Analysis for pre-post change in knowledge of definition of A1C||||0.68
92419696|NCT04894916|184728133|OTHER|||||||0.18|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for hemoglobin A1c.||||0.18
92419697|NCT04894916|184728133|OTHER|||||||0.18|||||||McNemar|||Analysis for pre-post change in knowledge of definition of systolic blood pressure||||0.18
92419698|NCT04894916|184728133|OTHER|||||||0.17|||||||McNemar|||Analysis of pre-post change in knowledge of goal range for systolic blood pressure||||0.17
92239742|NCT00696657|184383374|OTHER||Estimated treatment differences|-0.27|||||TWO_SIDED|95.0|-0.56|0.02|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.8 mg (with titration) - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.02|-0.56|
92391742|NCT05104450|184682926|SUPERIORITY||Mean Difference (Net)|-1.06||||0.037|TWO_SIDED|95.0|-2.05|-0.06|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||-0.06|-2.05|0.037
92391743|NCT05104450|184682927|SUPERIORITY||Mean Difference (Net)|0.37||||0.135|TWO_SIDED|95.0|-0.12|0.86|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.86|-0.12|0.135
92391744|NCT05104450|184682928|SUPERIORITY||Mean Difference (Net)|-0.97||||0.068|TWO_SIDED|95.0|-2.01|0.07|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.07|-2.01|0.068
92391745|NCT05104450|184682929|SUPERIORITY||Mean Difference (Net)|-2.71|||<|0.001|TWO_SIDED|95.0|-3.83|-1.6|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||-1.60|-3.83|<0.001
92391746|NCT05104450|184682930|SUPERIORITY||Mean Difference (Net)|0.87||||0.401|TWO_SIDED|95.0|-1.16|2.89|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, Charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||2.89|-1.16|0.401
92391747|NCT05104450|184682931|SUPERIORITY||Mean Difference (Net)|-0.51||||0.034|TWO_SIDED|95.0|-0.98|-0.04|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||-0.04|-0.98|0.034
92391748|NCT05104450|184682932|SUPERIORITY||Mean Difference (Final Values)|-3.11||||0.061|TWO_SIDED|95.0|-6.37|0.15|||Mixed Models Analysis|one-time measures: Beta Estimates|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including each participant's outcome measure, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60).||0.15|-6.37|0.061
92391749|NCT05104450|184682933|SUPERIORITY||Mean Difference (Net)|-0.46||||0.469|TWO_SIDED|95.0|-1.69|0.78|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.78|-1.69|0.469
92391750|NCT05104450|184682934|SUPERIORITY||Mean Difference (Net)|0.78|||<|0.001|TWO_SIDED|95.0|0.42|1.13|||Mixed Models Analysis|treatment-by-time interaction||Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|1.13|0.42|<0.001
92419699|NCT04894916|184728133|OTHER|||||||0.33|||||||McNemar|||Analysis of pre-post change in knowledge of definition of LDL cholesterol||||0.33
92419700|NCT04894916|184728133|OTHER|||||||0.4|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for LDL cholesterol||||0.40
92419701|NCT04894916|184728133|OTHER|||||||1|||||||McNemar|||Analysis of pre-post change in knowledge of definition of flu vaccine||||1.00
92419702|NCT04894916|184728133|OTHER|||||||0.37|||||||McNemar|||Analysis of pre-post change in knowledge of recommended frequency of flu vaccination||||0.37
92419703|NCT04894916|184728134|OTHER||Mean Difference (Net)|-0.71||||0.16|TWO_SIDED||||||t-test, 2 sided|||||||0.16
92419704|NCT04894916|184728135|OTHER|||||||0.03|||||||McNemar|||Analysis of pre-post change in interest in information about how my diabetes health data compares to other patients like me (i.e., social comparison information)||||0.03
92419705|NCT04894916|184728135|OTHER|||||||0.45|||||||McNemar|||Analysis of pre-post change in interest in information about how their diabetes health data compares to the goal range (i.e., goal-based comparison information)||||0.45
92419706|NCT04894916|184728135|OTHER|||||||0.17|||||||McNemar|||Analysis of pre-post change in agreement with statement: 'Information about how my diabetes health data compares to other patients like me \[social comparison information\] is useful.||||0.17
92419707|NCT04894916|184728135|OTHER|||||||0.62|||||||McNemar|||Analysis of pre-post change in agreement with statement: 'Information about how my diabetes health data compares to the goals range \[goal-based comparison information\] is useful.||||0.62
92419708|NCT04894916|184728137|OTHER||Mean Difference (Net)|0.09||||0.53|TWO_SIDED||||||t-test, 2 sided|||||||0.53
92419709|NCT04894916|184728138|OTHER||Mean Difference (Net)|0.03||||0.86|TWO_SIDED||||||t-test, 2 sided|||||||0.86
92278923|NCT00094302|184460807|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.25|TWO_SIDED|95.0|0.85|1.04||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~There were a total of 1558 subjects (766 subjects in the Spironolactone group and 792 subjects in the Placebo) who were hospitalized for any cause while on study. This endpoint was not adjudicated by the TOPCAT clinical endpoints committee."||1.04|0.85|0.25
92419710|NCT04894916|184728139|OTHER||Mean Difference (Net)|0.28||||0.22|TWO_SIDED||||||t-test, 2 sided|||||||0.22
92419711|NCT04894916|184728140|OTHER||Mean Difference (Net)|0.25||||0.21|TWO_SIDED||||||t-test, 2 sided|||||||0.21
92419712|NCT04894916|184728141|OTHER||Mean Difference (Net)|-0.39||||0.18|TWO_SIDED||||||t-test, 2 sided|||||||0.18
92419713|NCT03437512|184728159|SUPERIORITY||||||<|0.001||||||familywise error rate (FWE) corrected to .05 with cluster threshold of 80 voxels.|t-test, 2 sided|||||||<.001
92419714|NCT03437512|184728160|SUPERIORITY|||||||0.936||||||Interaction between visit and group.|ANOVA|||Analyses conduced with a mixed ANOVA, with between-subjects factor of group (active, sham) and two within-subjects factors: time (post, follow up) and speech task (reading, conversation).||||.936
92419715|NCT03437512|184728161|SUPERIORITY|||||||0.619||||||Interaction between visit and group.|ANOVA|||||||.619
92419716|NCT03332771|184728169|NON_INFERIORITY|The non-inferiority hypothesis was declared significant if the upper bound of the 2-sided 95% confidence interval (CI) for the adjusted mean difference is \<0.3.|Difference in Least Squares (LS) Mean|0.12|STANDARD_ERROR_OF_MEAN|0.122||0.3306|TWO_SIDED|95.0|-0.12|0.357|||ANCOVA|||The change from baseline to Week 52 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.357|-0.120|0.3306
92419717|NCT03332771|184728169|NON_INFERIORITY|The non-inferiority hypothesis was declared significant if the upper bound of the 2-sided 95% CI for the adjusted mean difference is \<0.3.|Difference in LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.114||0.7112|TWO_SIDED|95.0|-0.265|0.181|||ANCOVA|||The change from baseline to Week 52 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.181|-0.265|0.7112
92419718|NCT03332771|184728170|SUPERIORITY||Difference in LS Mean|-0.21|STANDARD_ERROR_OF_MEAN|0.119||0.0827|TWO_SIDED|95.0|-0.44|0.027|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.027|-0.440|0.0827
92419719|NCT03332771|184728170|SUPERIORITY||Difference in LS Mean|-0.37|STANDARD_ERROR_OF_MEAN|0.103||0.0003|TWO_SIDED|95.0|-0.571|-0.167|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.167|-0.571|0.0003
92419720|NCT03332771|184728171|SUPERIORITY||Difference in LS Mean|-1.49|STANDARD_ERROR_OF_MEAN|0.349|<|0.0001|TWO_SIDED|95.0|-2.173|-0.803|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups (placebo, sotagliflozin 200 mg, sotagliflozin 400 mg, glimepiride), randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of SBP (\<130,≥ 130 mmHg) at screening, and country as fixed effects, and baseline body weight as a covariate.||-0.803|-2.173|<0.0001
92419721|NCT03332771|184728171|SUPERIORITY||Difference in LS Mean|-3.58|STANDARD_ERROR_OF_MEAN|0.544|<|0.0001|TWO_SIDED|95.0|-4.651|-2.517|||ANCOVA|||The change from baseline to Week 52 is analyzed using analysis of ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects and baseline body weight as a covariate.||-2.517|-4.651|< 0.0001
92419722|NCT03332771|184728172|SUPERIORITY||Difference in LS Mean|-4.18|STANDARD_ERROR_OF_MEAN|1.288||0.0012|TWO_SIDED|95.0|-6.701|-1.65|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, and country as fixed effects, and baseline SBP as a covariate.||-1.650|-6.701|0.0012
92419723|NCT03332771|184728172|SUPERIORITY||Difference in LS Mean|-2.7|STANDARD_ERROR_OF_MEAN|0.0973||0.0973|TWO_SIDED|95.0|-5.89|0.491|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, and country as fixed effects, and baseline SBP as a covariate.||0.491|-5.890|0.0973
92419724|NCT03332771|184728173|SUPERIORITY||Difference in LS Mean|-4.02|STANDARD_ERROR_OF_MEAN|0.87|<|0.0001|TWO_SIDED|95.0|-5.73|-2.319|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, and country as fixed effects, and baseline SBP as a covariate.||-2.319|-5.730|<0.0001
92419725|NCT03332771|184728174|SUPERIORITY||Percentage difference|-15.4|||<|0.0001|TWO_SIDED|95.0|-19.67|-11.12|||Cochran-Mantel-Haenszel|||Weighted average of percentage difference between treatment groups from each stratum \[randomization strata of HbA1c \[≤8.5%, \>8.5%\] at screening, randomization strata of mean SBP \[\<130, ≥130 mmHg\] at screening using Cochran-Mantel-Haenszel weights.||-11.12|-19.67|<0.0001
92419726|NCT03718871|184728177|SUPERIORITY||intracluster correlation coefficient|0.086|||<|0.001|TWO_SIDED|95.0|0.015|0.363||The threshold for significance was set at p \< 0.05.|Fisher Exact|||Given that the intervention arm showed 100% uptake, a multi-level regression model could not be created with a zero in the denominator in the intervention group. We therefore used Fisher's exact test to assess for significant differences in proportion of HIV testing between study arms.||0.363|0.015|<0.001
92419727|NCT03718871|184728178|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
92419728|NCT03718871|184728179|SUPERIORITY|||||||0.015|||||||Fisher Exact|||||||0.015
92419729|NCT03718871|184728180|OTHER|No comparison between study arm groups was made in this analysis, as it was limited to control arm only.|Odds Ratio (OR)|1.04|STANDARD_DEVIATION|0.039|<|0.01|TWO_SIDED|95.0|1.02|1.06||Significance threshold two-sided alpha = 0.05|Regression, Linear|||We considered variables that predicted the primary outcome of receiving an HIV test among control arm only, as uptake was 100% in the intervention. First we identified variables that were significant (two-sided p-value\<0.05) in univariate analysis and creating multivariate mixed-effects logistic regression model accounting for covariates and intercorrelation between participants from the same healer by including healers as random effects.||1.06|1.02|<0.01
92419730|NCT03718871|184728181|OTHER|No comparison was made with the intervention arm|Odds Ratio (OR)|0.56||||0.07|TWO_SIDED|95.0|0.3|1.04||Univariate analysis|Fisher Exact|||We considered variables that predicted the primary outcome of receiving an HIV test among control arm only, as uptake was 100% in the intervention. First we identified variables that were significant (two-sided p-value\<0.05) in univariate analysis and creating multivariate mixed-effects logistic regression model accounting for covariates and intercorrelation between participants from the same healer by including healers as random effects.||1.04|0.30|0.07
92419731|NCT03718871|184728182|OTHER|Comparison between study arms was not performed|Odds Ratio (OR)|0.43||||0.09|TWO_SIDED|95.0|0.16|1.18|||Fisher Exact|||We considered variables that predicted the primary outcome of receiving an HIV test among control arm only, as uptake was 100% in the intervention. First we identified variables that were significant (two-sided p-value\<0.05) in univariate analysis and creating multivariate mixed-effects logistic regression model accounting for covariates and intercorrelation between participants from the same healer by including healers as random effects.||1.18|0.16|0.09
92419732|NCT00737464|184728184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|||||TWO_SIDED|||||||||||||
92419733|NCT02742246|184728211|SUPERIORITY|||||||0.11||||||Group by Time interaction.|Regression, Linear|||||||0.11
92419734|NCT02742246|184728212|SUPERIORITY|||||||0.14||||||Group by time interaction.|Regression, Linear|||||||0.14
92419735|NCT00054717|184728214|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419736|NCT00054717|184728215|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
92419737|NCT00054717|184728216|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419738|NCT00054717|184728217|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419739|NCT00054717|184728218|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419740|NCT00054717|184728219|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419741|NCT00054717|184728220|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419742|NCT00054717|184728221|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419743|NCT00054717|184728222|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92391751|NCT05104450|184682935|SUPERIORITY||Mean Difference (Net)|0.47||||0.031|TWO_SIDED|95.0|0.04|0.89|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.89|0.04|0.031
92391752|NCT05104450|184682936|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.118|TWO_SIDED|95.0|-0.21|0.02|||Mixed Models Analysis|one-time measures: Beta Estimates|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including each participant's outcome measure, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60).||0.02|-0.21|0.118
92391753|NCT05104450|184682937|SUPERIORITY||Mean Difference (Net)|3.93||||0.011|TWO_SIDED|95.0|0.91|6.95|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||6.95|0.91|0.011
92391754|NCT05104450|184682938|SUPERIORITY||Mean Difference (Net)|0.44||||0.074|TWO_SIDED|95.0|-0.04|0.93|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.93|-0.04|0.074
92391755|NCT05104450|184682939|SUPERIORITY||Mean Difference (Net)|-1.71||||0.003|TWO_SIDED|95.0|-2.82|-0.59|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||-0.59|-2.82|0.003
92391756|NCT05104450|184682940|SUPERIORITY||Mean Difference (Net)|-0.7||||0.229|TWO_SIDED|95.0|-1.84|0.44|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.44|-1.84|0.229
92391757|NCT05104450|184682941|SUPERIORITY||Mean Difference (Net)|-2.51|||<|0.001|TWO_SIDED|95.0|-3.72|-1.29|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||-1.29|-3.72|<0.001
92391758|NCT05104450|184682942|SUPERIORITY||Mean Difference (Net)|-1.02||||0.116|TWO_SIDED|95.0|-2.3|0.25|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.25|-2.30|0.116
92419744|NCT00054717|184728223|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419745|NCT00054717|184728224|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419746|NCT00054717|184728225|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419747|NCT00054717|184728226|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419748|NCT00054717|184728227|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419749|NCT00054717|184728228|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419750|NCT00054717|184728229|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419751|NCT00054717|184728230|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
92419752|NCT00054717|184728231|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
92419753|NCT00054717|184728232|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
92391759|NCT05104450|184682943|SUPERIORITY||Mean Difference (Net)|0.05||||0.968|TWO_SIDED|95.0|-2.35|2.45|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||2.45|-2.35|0.968
92391760|NCT05104450|184682944|SUPERIORITY||Mean Difference (Net)|0.84||||0.218|TWO_SIDED|95.0|-0.49|2.17|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||2.17|-0.49|0.218
92391761|NCT05104450|184682945|SUPERIORITY||Mean Difference (Net)|1.02||||0.212|TWO_SIDED|95.0|-0.58|2.62|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||2.62|-0.58|0.212
92391762|NCT05104450|184682946|SUPERIORITY||Mean Difference (Net)|0.06||||0.8|TWO_SIDED|95.0|-0.44|0.57|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.57|-0.44|0.800
92391763|NCT05104450|184682947|SUPERIORITY||Mean Difference (Net)|0.27||||0.317|TWO_SIDED|95.0|-0.26|0.79|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.79|-0.26|0.317
92391764|NCT05104450|184682948|SUPERIORITY||Mean Difference (Final Values)|-0.3|||<|0.001|TWO_SIDED|95.0|-0.44|-0.17|||Mixed Models Analysis|one-time measures: Beta Estimates|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including each participant's outcome measure, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60).||-0.17|-0.44|<0.001
92391765|NCT05104450|184682949|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.107|TWO_SIDED|95.0|-0.27|0.03|||Mixed Models Analysis|one-time measures: Beta Estimates|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including each participant's outcome measure, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60).||0.03|-0.27|0.107
92391766|NCT05104450|184682950|SUPERIORITY||Mean Difference (Net)|4.07||||0.013|TWO_SIDED|95.0|0.86|7.27|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||7.27|0.86|0.013
92391767|NCT05104450|184682951|SUPERIORITY||Mean Difference (Net)|3.11||||0.065|TWO_SIDED|95.0|-0.2|6.42|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||6.42|-0.20|0.065
92419754|NCT00054717|184728233|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
92419755|NCT00054717|184728273|SUPERIORITY_OR_OTHER|||||||0.9894||95.0|||||Log Rank|||||||0.9894
92419756|NCT04218123|184728316|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||<|0.001|||||||ANOVA|||||||<0.001
92419757|NCT04218123|184728316|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent|||||<|0.05|||||||ANOVA|Anova Post Hoc Analysis||||||<0.05
92419758|NCT04218123|184728316|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent|||||<|0.05|||||||ANOVA|Anova Post Hoc Analysis||||||<0.05
92419759|NCT04218123|184728316|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent|||||>|0.05|||||||ANOVA|Anova Post Hoc Analysis||||||>0.05
92419760|NCT04218123|184728318|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.31|||||||ANOVA|||SF20 Physical Functioning||||=0.31
92391768|NCT05104450|184682952|SUPERIORITY||Mean Difference (Final Values)|-3.63||||0.041|TWO_SIDED|95.0|-7.11|-0.14|||Mixed Models Analysis|one-time measures: Beta Estimates|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including each participant's outcome measure, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60).||-0.14|-7.11|0.041
92391769|NCT01584232|184682953|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% Confidence Interval (CI) was \<0.4%, then LY2189265 was declared non-inferior to insulin glargine. If the upper limit of the 95% CI was \<0.0%, then LY2189265 was declared superior to insulin glargine.|LS Mean Difference|-0.54|||<|0.001|TWO_SIDED|95.0|-0.67|-0.41||P-value is from the pairwise comparison of LS means using a mixed effects model with repeated measurements (MMRM).|Mixed Models Analysis|||Approximately 360 participants were to be randomized in a 1:1 ratio to LY2189265 or insulin glargine (IG). Assuming no difference in HbA1c change from baseline at Week 26 between LY2189265 and IG, this sample size would provide approximately 90% power to confirm non-inferiority of LY2189265 to IG. This computation was based on a non-inferiority margin of 0.4% with a standard deviation of 1.1%, a 1-sided alpha level of 0.025, and an 11% dropout rate between randomization and Week 26.||-0.41|-0.67|<0.001
92391770|NCT01584232|184682954|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison for HbA1c \<=6.5%.|Regression, Logistic|||||||<0.001
92391771|NCT01584232|184682954|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison for HbA1c \<7%.|Regression, Logistic|||||||<0.001
92391772|NCT01584232|184682955|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5||||0.183|TWO_SIDED|95.0|-1.7|8.7|||Mixed Models Analysis|||||8.7|-1.7|0.183
92391773|NCT01584232|184682956|SUPERIORITY_OR_OTHER||LS Mean Difference|5.16||||0.022|TWO_SIDED|95.0|0.76|9.56||Treatment comparison for pre-morning meal.|ANCOVA|||||9.56|0.76|0.022
92391774|NCT01584232|184682956|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.4||||0.003|TWO_SIDED|95.0|-22.28|-4.52||Treatment comparison for 2 hours post-morning meal.|ANCOVA|||||-4.52|-22.28|0.003
92391775|NCT01584232|184682956|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.22||||0.025|TWO_SIDED|95.0|-15.37|-1.06||Treatment comparison for pre-midday meal.|ANCOVA|||||-1.06|-15.37|0.025
92391776|NCT01584232|184682956|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.22|||<|0.001|TWO_SIDED|95.0|-31.92|-14.51||Treatment comparison for 2 hours post-midday meal.|ANCOVA|||||-14.51|-31.92|<0.001
92391777|NCT01584232|184682956|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.63|||<|0.001|TWO_SIDED|95.0|-21.03|-6.24||Treatment comparison for pre-evening meal.|ANCOVA|||||-6.24|-21.03|<0.001
92391778|NCT01584232|184682956|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.13|||<|0.001|TWO_SIDED|95.0|-39.26|-23.0||Treatment comparison for 2 hours post-evening meal.|ANCOVA|||||-23.00|-39.26|<0.001
92391779|NCT01584232|184682956|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.73|||<|0.001|TWO_SIDED|95.0|-31.68|-15.79||Treatment comparison for bedtime.|ANCOVA|||||-15.79|-31.68|<0.001
92419761|NCT04218123|184728318|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent||||||0.633|||||||ANOVA|||SF20 Role Functioning||||0.633
92419762|NCT04218123|184728318|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent||||||0.424|||||||ANOVA|||SF20 Mental Health||||0.424
92235785|NCT03114969|184374780|SUPERIORITY||Odds Ratio (OR)|1.591||||0.33|TWO_SIDED|95.0|0.625|4.05||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.050|0.625|0.330
92391780|NCT01584232|184682956|SUPERIORITY_OR_OTHER||LS Mean Difference|6.21||||0.005|TWO_SIDED|95.0|1.92|10.5||Treatment comparison for second pre-morning meal.|ANCOVA|||||10.50|1.92|0.005
92391781|NCT01584232|184682957|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.42|||<|0.001|TWO_SIDED|95.0|-1.89|-0.94|||Mixed Models Analysis|||||-0.94|-1.89|<0.001
92391782|NCT01584232|184682958|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92391783|NCT01307319|184682959|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.63|||<|0.001|TWO_SIDED|95.0|-1.0|-0.3||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.3|-1.0|<0.001
92391784|NCT01307319|184682959|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.73|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.4|-1.1|<0.001
92391785|NCT01307319|184682960|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.71|||<|0.001|TWO_SIDED|95.0|-1.1|-0.3||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||The power calculation assumed the standard deviation (SD) for the change from baseline over two weeks in the average of AM and PM reflective TNSS is assumed to be 2.0. Using this standard deviation, 235 subjects per arm provides 90% power to detect a difference of 0.60 in TNSS change from baseline between treatment groups with a two-sided alpha level of 0.05.||-0.3|-1.1|<0.001
92391786|NCT01307319|184682960|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.76|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.4|-1.1|<0.001
92391787|NCT02152631|184682979|SUPERIORITY||Hazard Ratio (HR)|0.968||||0.771|TWO_SIDED|95.0|0.768|1.219|||Stratified Log-Rank||Hazard Ratio (HR) was estimated based on Stratified Cox proportional hazard model.|The stratification factors used in the analysis were: number of prior chemotherapy regimens (1 versus 2), Eastern Cooperative Oncology Group (ECOG) Performance Score (PS) (0 versus 1), gender (male versus female), and kirsten rat sarcoma (KRAS) mutation (GLY12CYS \[G12C\] vs. all others)||1.219|0.768|0.771
92391788|NCT02152631|184682980|SUPERIORITY|||||||0.01|||||||Cochran-Mantel-Haenszel|||Stratified by number of prior chemotherapy regimens (1 versus 2), ECOG PS (0 versus 1), gender (male versus female), and KRAS mutation (GLY12CYS \[G12C\] vs. all others)||||0.010
92171785|NCT03897686|184233251|SUPERIORITY||Slope|-179.3|STANDARD_ERROR_OF_MEAN|48.38||0.0017|TWO_SIDED|95.0|-305.11|-53.5||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~6\) Group A (NOLTREX™) OA grade III versus Group B (Placebo) ОА grade III"||-53.50|-305.11|0.0017
92235786|NCT03114969|184374781|SUPERIORITY||Odds Ratio (OR)|1.738||||0.189|TWO_SIDED|95.0|0.761|3.968||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||3.968|0.761|0.189
92391789|NCT02152631|184682981|SUPERIORITY||Hazard Ratio (HR)|0.583|||<|1e-06|TWO_SIDED|95.0|0.47|0.723|||Stratified Log-Rank|||||0.723|0.470|<0.000001
92391790|NCT02152631|184682982|SUPERIORITY||LS Mean Change Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.19||0.698|TWO_SIDED|95.0|-0.44|0.29|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Headache||0.29|-0.44|0.698
92391791|NCT02152631|184682982|SUPERIORITY||LS Mean Change Difference|0.59|STANDARD_ERROR_OF_MEAN|0.28||0.038|TWO_SIDED|95.0|0.03|1.15|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Diarrhea||1.15|0.03|0.038
92391792|NCT02152631|184682982|SUPERIORITY||LS Mean Change Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.94|-1.86|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Rash||-1.86|-2.94|<.001
92391793|NCT02152631|184682982|SUPERIORITY||LS Mean Change Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.16||0.142|TWO_SIDED|95.0|-0.56|0.08|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Mean Core Symptom Severity||0.08|-0.56|0.142
92391794|NCT02152631|184682982|SUPERIORITY||LS Mean Change Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.23||0.514|TWO_SIDED|95.0|-0.59|0.3|||Mixed Models Analysis|Analyzed by Type 3 sums of square, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Mean Interference||0.30|-0.59|0.514
92391795|NCT02152631|184682982|SUPERIORITY||LS Mean Change Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.15||0.646|TWO_SIDED|95.0|-0.37|0.23|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Mean Lung Cancer||0.23|-0.37|0.646
92391796|NCT02152631|184682982|SUPERIORITY||LS Mean Change Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.188|TWO_SIDED|95.0|-0.51|0.1|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Mean Core Plus Lung Cancer||0.10|-0.51|0.188
92391797|NCT02152631|184682984|SUPERIORITY||LS Mean Change Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.951|TWO_SIDED|95.0|-0.05|0.05|||Mixed Models Analysis|Analyzed By Type 3 sums of squares, Change from Baseline = Treatment + Visit + Treatment\*Visit + Baseline.||||0.05|-0.05|0.951
92391798|NCT03776747|184682989|OTHER|Analysis of variance between lung inflation levels|||||<|0.001|||||||ANOVA|||We hypothesized that the anisotropic deformation index (ADC) is dependent upon lung inflation level. (Thus, it is important to standardize lung inflation when using this method)||||<0.001
92391799|NCT01072188|184683006|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92391800|NCT01072188|184683007|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92391801|NCT00896298|184683008|SUPERIORITY|||||||0.2572|||||||Mixed Models Analysis|||||||0.2572
92391802|NCT00896298|184683009|SUPERIORITY|||||||0.71|||||||Mixed Models Analysis|||||||0.71
92391803|NCT00896298|184683010|SUPERIORITY|||||||0.68|||||||Mixed Models Analysis|||||||0.68
92391804|NCT00896298|184683011|SUPERIORITY|||||||0.0256|||||||Mixed Models Analysis|||||||0.0256
92391805|NCT00123123|184683021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.675||95.0|||||ANOVA|||A mixed effect model was used to compare overall treatment effects between groups for repeated measures data. The group comparison for each time point was performed using ANOVA.||||0.6750
92391806|NCT02073682|184683027|NON_INFERIORITY|Edoxaban Group was considered non-inferior to the Dalteparin Group if the upper limit of the 2-sided 95% confidence interval (CI) for the Hazard Ratio (\[LMW\] Edoxaban Group to Dalteparin Group) was less than 1.5.|Cox Proportional Hazard|0.97||||0.0056|TWO_SIDED|95.0|0.696|1.359|||Cox proportional hazard|||||1.359|0.696|0.0056
92391807|NCT02073682|184683027|SUPERIORITY|The hazard ratio (HR), two-sided confidence interval (CI) and p-value are based on the Cox proportional hazard model including treatment and the two stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||||||0.8712|||||||Cox proportional hazard|||||||0.8712
92391808|NCT02073682|184683028|SUPERIORITY||Hazard Ratio (HR)|2.0||||0.0254|TWO_SIDED|95.0|1.089|3.657|||Regression, Cox|||The HR, 2-sided CI and p-value are based on the Cox regression model with counting process approach for on-treatment including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||3.657|1.089|0.0254
92391809|NCT02073682|184683029|SUPERIORITY||Cox Proportional Hazard|0.71||||0.0931|TWO_SIDED|95.0|0.476|1.059|||Cox proportional hazard|||The HR, 2-sided CI, and p-value are based on the Cox proportional hazard model including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||1.059|0.476|0.0931
92391810|NCT02073682|184683030|SUPERIORITY||Cox Proportional Hazard|0.56||||0.0394|TWO_SIDED|95.0|0.318|0.972|||Cox proportional hazard|||The HR, 2-sided CI, and p-value are based on the Cox proportional hazard model including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||0.972|0.318|0.0394
92391811|NCT02073682|184683031|SUPERIORITY||Cox Proportional Hazard|0.9||||0.7324|TWO_SIDED|95.0|0.502|1.624|||Cox proportional hazard|||The HR, 2-sided CI, and p-value are based on the Cox proportional hazard model including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||1.624|0.502|0.7324
92419763|NCT04218123|184728318|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent||||||0.057|||||||ANOVA|||SF20 Social Functioning||||0.057
92171786|NCT03897686|184233252|SUPERIORITY|\[Not specified\]|S-means difference|-143.39|STANDARD_ERROR_OF_MEAN|46.88||0.00267|TWO_SIDED|95.0|-236.09|-50.69||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||It was determined that 144 participants randomized into 2 groups (1:1) would have at least 80% power to detect an effect size of 0.25. Sample size was calculated based on analysis of covariance adjusted for baseline value with fixed factors of group assuming α = 0.05 and 10% discontinuation rate.||-50.69|-236.09|0.00267
92391812|NCT02073682|184683032|SUPERIORITY||Cox Proportional Hazard|1.56||||0.4873|TWO_SIDED|95.0|0.444|5.505|||Cox proportional hazard|||The HR, 2-sided CI, and p-value are based on the Cox proportional hazard model including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||5.505|0.444|0.4873
92391813|NCT02073682|184683033|SUPERIORITY||Cox Proportional Hazard|1.08||||0.4199|TWO_SIDED|95.0|0.898|1.293|||Cox proportional hazard|||The HR, 2-sided CI, and p-value are based on the Cox proportional hazard model including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||1.293|0.898|0.4199
92391814|NCT03801174|184683034|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.92||0.804|TWO_SIDED|95.0|-2.0|1.6|||Mixed Models Analysis|||||1.6|-2.0|.804
92391815|NCT03801174|184683035|SUPERIORITY||Mean Difference (Net)|50.2|STANDARD_ERROR_OF_MEAN|93.0||0.59|TWO_SIDED|95.0|-132.0|233.0|||Mixed Models Analysis|||||233|-132|.590
92391816|NCT03801174|184683036|SUPERIORITY||Mean Difference (Net)|806.0|STANDARD_ERROR_OF_MEAN|443.0||0.069|TWO_SIDED|95.0|-64.0|1675.0|||Mixed Models Analysis|||||1675|-64|.069
92391817|NCT01687296|184683067|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated at the lower limit of the 95% confidence interval (5%, 2-sided significance level) for the treatment difference (FP minus prednisone) in the mean morning PEF on diary card over the treatment assessment period was greater than -12L/min.|Mean Difference (Final Values)|0.46||||0.931|TWO_SIDED|95.0|-9.85|10.76|||ANCOVA|||250 par were to be enrolled to achieve 200 total evaluable par or 100 evaluable par per group. Sample size was based on the primary efficacy endpoint (AM PEF) and had 80% power to reject the null hypothesis: nebulized FP (1 mg BID) was inferior to oral prednisone with regard to AM PEF using one-side t test at significance level 2.5%, and assuming true treatment difference (FP minus predisone) was 3.6 L/min, noninferiority margin was -12L/min, and common standard deviation was 39 L/min.||10.76|-9.85|0.931
92391818|NCT01687296|184683068|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated at the lower limit of the 95% confidence interval (5%, 2-sided significance level) for the treatment difference (FP minus prednisone) in the mean morning PEF on diary card over the treatment assessment period was greater than -12L/min.|Mean Difference (Final Values)|0.5||||0.922|TWO_SIDED|95.0|-9.64|10.65|||ANCOVA|||||10.65|-9.64|0.922
92391819|NCT01687296|184683069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.16||||0.822|TWO_SIDED|95.0|-9.02|11.34|||ANCOVA|||||11.34|-9.02|0.822
92391820|NCT01687296|184683070|SUPERIORITY_OR_OTHER|||||||0.717||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for day-time symptom score||||0.717
92391821|NCT01687296|184683070|SUPERIORITY_OR_OTHER|||||||0.683||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for night-time symptom score||||0.683
92391822|NCT01687296|184683071|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||Wilcoxon rank sum test|||||||0.996
92391823|NCT01687296|184683072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044||||0.348|TWO_SIDED|95.0|-0.135|0.048|||ANCOVA|||Fluticasone propionate versus Prednisone for FEV1 on Day 5||0.048|-0.135|0.348
92391824|NCT01687296|184683072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004||||0.914|TWO_SIDED|95.0|-0.074|0.083|||ANCOVA|||Fluticasone propionate versus Prednisone for FEV1 on Day 8||0.083|-0.074|0.914
92391825|NCT01687296|184683072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.067||||0.276|TWO_SIDED|95.0|-0.187|0.054|||ANCOVA|||Fluticasone propionate versus Prednisone for FVC on Day 5||0.054|-0.187|0.276
92391826|NCT01687296|184683072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039||||0.384|TWO_SIDED|95.0|-0.126|0.049|||ANCOVA|||Fluticasone propionate versus Prednisone for FVC on Day 8||0.049|-0.126|0.384
92391827|NCT01687296|184683073|SUPERIORITY_OR_OTHER|||||||0.507||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for clinical scoring index on Day 5||||0.507
92391828|NCT01687296|184683073|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for clinical scoring index on Day 8||||0.700
92391829|NCT01687296|184683074|SUPERIORITY_OR_OTHER|||||||0.633||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for participant/parent global evaluation||||0.633
92391830|NCT01687296|184683074|SUPERIORITY_OR_OTHER|||||||0.323||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for investigator global evaluation||||0.323
92391831|NCT03890588|184683081|SUPERIORITY||Risk Ratio (RR)|1.17|STANDARD_ERROR_OF_MEAN|0.12||0.21|TWO_SIDED|95.0|0.91|1.51|||Mixed Models Analysis|||||1.51|.91|.21
92391832|NCT03890588|184683082|SUPERIORITY||Risk Ratio (RR)|0.95|STANDARD_ERROR_OF_MEAN|0.11||0.61|TWO_SIDED|95.0|0.76|1.18|||Mixed Models Analysis|||||1.18|.76|.61
92391833|NCT03890588|184683083|SUPERIORITY||Risk Ratio (RR)|0.98|STANDARD_ERROR_OF_MEAN|0.08||0.84|TWO_SIDED|95.0|0.84|1.15|||Mixed Models Analysis|||||1.15|0.84|.84
92391834|NCT03890588|184683084|SUPERIORITY||Risk Ratio (RR)|1.0|STANDARD_ERROR_OF_MEAN|0.11||0.99|TWO_SIDED|95.0|0.8|1.24|||Mixed Models Analysis|||||1.24|.8|.99
92391835|NCT03890588|184683085|SUPERIORITY||Risk Ratio (RR)|1.02|STANDARD_ERROR_OF_MEAN|0.12||0.86|TWO_SIDED|95.0|0.79|1.32|||Mixed Models Analysis|||||1.32|.79|.86
92419764|NCT04218123|184728318|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent||||||0.296|||||||ANOVA|||SF20 Health Perceptions||||0.296
92419765|NCT04218123|184728318|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent||||||0.872|||||||ANOVA|||SF20 Pain||||0.872
92419766|NCT04218123|184728319|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.538|||||||ANOVA|||||||=0.538
92419767|NCT04218123|184728320|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.686|||||||ANOVA|||||||=0.686
92419768|NCT04218123|184728321|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.167|||||||ANOVA|||||||=0.167
92419769|NCT04218123|184728322|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.8|||||||ANOVA|||||||=0.8
92419770|NCT04218123|184728323|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.425|||||||ANOVA|||||||=0.425
92419771|NCT04218123|184728324|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent.|||||=|0.054|||||||ANOVA|||||||=0.054
92391836|NCT02052752|184683086|SUPERIORITY_OR_OTHER|||||||0.283||95.0|||||ANCOVA|||The ANCOVA results for the primary endpoint with treatment group as a main effect and average baseline value as a covariate showed no statistically significant differences in the percentage change from baseline in swelling of the target lesions between the 3% BPO group and the vehicle control group at Day 4 for the ITT population||||0.283
92391837|NCT03201419|184683092|SUPERIORITY||Mean Difference|-0.3|||||TWO_SIDED|95.0|-0.54|-0.07||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.07|-0.54|
92419772|NCT01082640|184728327|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.134||0.459|TWO_SIDED|95.0|-0.37|0.17||No adjustment for multiplicity was made.|ANCOVA|The model included treatment as a factor, and the baseline value and prior use of an ARB or an ACEi or none as covariates.||All statistical tests were two sided and conducted at the 0.05 significance level.||0.17|-0.37|0.459
92419773|NCT01082640|184728327|SUPERIORITY_OR_OTHER||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.133||0.789|TWO_SIDED|95.0|-0.23|0.3||No adjustment for multiplicity was made.|ANCOVA|The model included treatment as a factor, and the baseline value and prior use of an ARB or an ACEi or none as covariates.||All statistical tests were two sided and conducted at the 0.05 significance level.||0.30|-0.23|0.789
92419774|NCT01082640|184728328|SUPERIORITY_OR_OTHER||LS mean difference|2.38|STANDARD_ERROR_OF_MEAN|1.687||0.162|TWO_SIDED|95.0|-0.97|5.73||No adjustment for multiplicity was made.|ANCOVA|The model included treatment as a factor, and the baseline value and prior use of an ARB or an ACEi or none as covariates.||||5.73|-0.97|0.162
92419775|NCT01082640|184728328|SUPERIORITY_OR_OTHER||LS mean difference|1.19|STANDARD_ERROR_OF_MEAN|1.698||0.485|TWO_SIDED|95.0|-2.18|4.57||No adjustment for multiplicity was made.|ANCOVA|The model included treatment as a factor, and the baseline value and prior use of an ARB or an ACEi or none as covariates.||||4.57|-2.18|0.485
92419776|NCT01082640|184728329|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Prior use of an ARB, ACEi, or none was a stratification variable.||||||<0.001
92391838|NCT03201419|184683092|SUPERIORITY||Mean Difference|-0.23|||||TWO_SIDED|95.0|-0.46|-0.02||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.02|-0.46|
92419777|NCT01082640|184728329|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Prior use of an ARB, ACEi, or none was a stratification variable.||||||<0.001
92419778|NCT01082640|184728329|SUPERIORITY_OR_OTHER|||||||0.062|||||||Cochran-Mantel-Haenszel|Prior use of an ARB, ACEi, or none was a stratification variable.||||||0.062
92419779|NCT01289782|184728351|SUPERIORITY_OR_OTHER||Difference in proportions of SVR12|29.3|||<|0.001|TWO_SIDED|95.0|20.1|38.6|||Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference in proportions of SVR12 between the treatment groups.||38.6|20.1|<0.001
92419780|NCT01289782|184728352|SUPERIORITY_OR_OTHER||Difference in proportions of SVRW72|28.9|||<|0.001|TWO_SIDED|95.0|19.6|38.2|||Cochran-Mantel-Haenszel|||There is no difference in proportions of SVRW72 between the treatment groups.||38.2|19.6|<0.001
92419781|NCT01289782|184728353|SUPERIORITY_OR_OTHER||Difference in proportions of SVR24|30.1|||<|0.001|TWO_SIDED|95.0|20.8|39.3|||Cochran-Mantel-Haenszel|||There is no difference in proportions of SVR24 between the treatment groups.||39.3|20.8|<0.001
92419782|NCT01289782|184728354|SUPERIORITY_OR_OTHER||Difference in proportions of SVR4|25.8|||<|0.001|TWO_SIDED|95.0|16.8|34.8|||Cochran-Mantel-Haenszel|||There is no difference in proportions of SVR4 between the treatment groups.||34.8|16.8|<0.001
92419783|NCT01289782|184728381|SUPERIORITY_OR_OTHER||Mean differences|-20.679|STANDARD_ERROR_OF_MEAN|6.0979|<|0.001|TWO_SIDED|95.0|-32.6399|-8.7181|||Piecewise-Linear Model Approach|||Fatigue Severity Score AUC60||-8.7181|-32.6399|<0.001
92419784|NCT01289782|184728381|SUPERIORITY_OR_OTHER||Mean differences|-23.8|STANDARD_ERROR_OF_MEAN|7.2358|<|0.001|TWO_SIDED|95.0|-37.9931|-9.6064|||Piecewise Linear Model|||Fatigue Severity Score AUC72||-9.6064|-37.9931|<0.001
92419785|NCT01289782|184728382|SUPERIORITY_OR_OTHER||Mean differences|-230.464|STANDARD_ERROR_OF_MEAN|105.9203||0.03|TWO_SIDED|95.0|-438.2662|-22.6626|||Piecewise Linear Model|||Impairment in Work Productivity AUC60||-22.6626|-438.2662|0.030
92419786|NCT01289782|184728382|SUPERIORITY_OR_OTHER||Mean differences|-248.208|STANDARD_ERROR_OF_MEAN|124.6753||0.047|TWO_SIDED|95.0|-492.8253|-3.5916|||Piecewise Linear Model|||Impairment in Work Productivity AUC72||-3.5916|-492.8253|0.047
92419787|NCT01289782|184728383|SUPERIORITY_OR_OTHER||Mean Differences|-278.06|STANDARD_ERROR_OF_MEAN|105.6088||0.009|TWO_SIDED|95.0|-485.2529|-70.8668|||Piecewise linear model|||Impairment in Daily Activities AUC60||-70.8668|-485.2529|0.009
92419788|NCT01289782|184728383|SUPERIORITY_OR_OTHER||Mean differences|-307.722|STANDARD_ERROR_OF_MEAN|124.1956||0.013|TWO_SIDED|95.0|-551.4006|-64.0429|||Piecewise Linear Model|||Impairment in Daily Activities AUC72||-64.0429|-551.4006|0.013
92419789|NCT01289782|184728384|SUPERIORITY_OR_OTHER||Mean differences|46.399|STANDARD_ERROR_OF_MEAN|99.7966||0.642|TWO_SIDED|95.0|-149.6374|242.436|||Piecewise linear model|||Time Missed from Work AUC60||242.4360|-149.6374|0.642
92419790|NCT01289782|184728384|SUPERIORITY_OR_OTHER||Mean differences|57.164|STANDARD_ERROR_OF_MEAN|115.1548||0.62|TWO_SIDED|95.0|-169.1143|283.4414|||Piecewise Linear Model|||Time Missed from Work AUC72||283.4414|-169.1143|0.620
92446376|NCT06425458|184779787|OTHER||Spearman partial correlation coefficient|-0.58|||||TWO_SIDED|||||||||We conducted an exploratory, descriptive analysis investigating the relationship between leadership program attendance and identity capital at T2, accounting for T1 scores (MAPS20 subscale: Locus of Control). This analysis included participants who completed both T1 and T2 data collection (n = 18). We calculated the Spearman correlation coefficient only. Power calculation does not apply for this analysis.||||
92391839|NCT03201419|184683092|SUPERIORITY||Mean Difference|-0.14|||||TWO_SIDED|95.0|-0.36|0.0||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.00|-0.36|
92391840|NCT03201419|184683092|SUPERIORITY||Mean Difference|-0.04|||||TWO_SIDED|95.0|-0.23|0.0||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.00|-0.23|
92391841|NCT03201419|184683092|SUPERIORITY||Mean Difference|-0.02|||||TWO_SIDED|95.0|-0.14|0.0||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.00|-0.14|
92391842|NCT03201419|184683092|SUPERIORITY||Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.07|0.0||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.00|-0.07|
92391843|NCT03201419|184683093|SUPERIORITY||Mean Difference|-0.139||||0.4214|TWO_SIDED|95.0|-0.48|0.201||Threshold for significance at 0.05 level.|MMRM|||||0.201|-0.480|0.4214
92391844|NCT03201419|184683093|SUPERIORITY||Mean Difference|-0.587||||0.0101|TWO_SIDED|95.0|-1.034|-0.141||Threshold for significance at 0.05 level.|MMRM|||||-0.141|-1.034|0.0101
92419791|NCT00048061|184728448|NON_INFERIORITY_OR_EQUIVALENCE|The monthly dosing regimen (Ibandronate 50/50 mg monthly) was considered non-inferior to the 2.5 mg daily regimen if the lower bound of the two-sided 95% CI on the difference in mean percent change in BMD was greater or equal to -1 percentage point.|Mean Difference (Final Values)|0.615||||0.045|TWO_SIDED|95.0|0.013|1.216|||ANOVA||Treatment effect is the difference in the mean values of the monthly oral dose regimens (Ibandronate 50/50) and the active-control.|||1.216|0.013|0.045
92419792|NCT00048061|184728448|NON_INFERIORITY_OR_EQUIVALENCE|The monthly dosing regimen (Ibandronate 100 mg) was considered non-inferior to the 2.5 mg daily regimen if the lower bound of the two-sided 95% CI on the difference in mean percent change in BMD was greater or equal to -1 percentage point.|Mean Difference (Final Values)|0.297||||0.338|TWO_SIDED|95.0|-0.312|0.906|||ANOVA||Treatment effect is the difference in the mean values of the monthly oral dose regimens (Ibandronate 100 mg) and the active-control|||0.906|-0.312|0.338
92278924|NCT00094302|184460808|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline laboratory value as the dependent variable, and the baseline laboratory value, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.27
92278925|NCT00094302|184460808|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||<0.01
92391845|NCT03201419|184683093|SUPERIORITY||Mean Difference|-0.148||||0.5203|TWO_SIDED|95.0|-0.599|0.304||Threshold for significance at 0.05 level.|MMRM|||||0.304|-0.599|0.5203
92391846|NCT03201419|184683093|SUPERIORITY||Mean Difference|0.055||||0.8483|TWO_SIDED|95.0|-0.508|0.617||Threshold for significance at 0.05 level.|MMRM|||||0.617|-0.508|0.8483
92391847|NCT03201419|184683093|SUPERIORITY||Mean Difference|-0.147||||0.6357|TWO_SIDED|95.0|-0.759|0.464||Threshold for significance at 0.05 level.|MMRM|||||0.464|-0.759|0.6357
92391848|NCT03201419|184683093|SUPERIORITY||Mean Difference|0.25||||0.2222|TWO_SIDED|95.0|-0.152|0.652||Threshold for significance at 0.05 level.|MMRM|||||0.652|-0.152|0.2222
92391849|NCT03201419|184683094|SUPERIORITY||Mean Difference|-0.166||||0.2909|TWO_SIDED|95.0|-0.474|0.143||Threshold for significance at 0.05 level.|MMRM|||||0.143|-0.474|0.2909
92391850|NCT03201419|184683094|SUPERIORITY||Mean Difference|-0.418||||0.044|TWO_SIDED|95.0|-0.824|-0.011||Threshold for significance at 0.05 level.|MMRM|||||-0.011|-0.824|0.0440
92391851|NCT03201419|184683094|SUPERIORITY||Mean Difference|0.128||||0.5438|TWO_SIDED|95.0|-0.288|0.545||Threshold for significance at 0.05 level.|MMRM|||||0.545|-0.288|0.5438
92391852|NCT03201419|184683094|SUPERIORITY||Mean Difference|0.441||||0.096|TWO_SIDED|95.0|-0.079|0.962||Threshold for significance at 0.05 level.|MMRM|||||0.962|-0.079|0.0960
92391853|NCT03201419|184683094|SUPERIORITY||Mean Difference|-0.04||||0.8826|TWO_SIDED|95.0|-0.568|0.488||Threshold for significance at 0.05 level.|MMRM|||||0.488|-0.568|0.8826
92391854|NCT03201419|184683094|SUPERIORITY||Mean Difference|0.394||||0.0344|TWO_SIDED|95.0|0.029|0.759||Threshold for significance at 0.05 level.|MMRM|||||0.759|0.029|0.0344
92391855|NCT03201419|184683095|SUPERIORITY||Mean Difference|-0.132||||0.4732|TWO_SIDED|95.0|-0.496|0.231||Threshold for significance at 0.05 level.|MMRM|||||0.231|-0.496|0.4732
92391856|NCT03201419|184683095|SUPERIORITY||Mean Difference|-0.224||||0.3394|TWO_SIDED|95.0|-0.685|0.237||Threshold for significance at 0.05 level.|MMRM|||||0.237|-0.685|0.3394
92391857|NCT03201419|184683095|SUPERIORITY||Mean Difference|-0.012||||0.96|TWO_SIDED|95.0|-0.488|0.463||Threshold for significance at 0.05 level.|MMRM|||||0.463|-0.488|0.9600
92391858|NCT03201419|184683095|SUPERIORITY||Mean Difference|0.463||||0.1131|TWO_SIDED|95.0|-0.111|1.037||Threshold for significance at 0.05 level.|MMRM|||||1.037|-0.111|0.1131
92391859|NCT03201419|184683095|SUPERIORITY||Mean Difference|-0.124||||0.6853|TWO_SIDED|95.0|-0.729|0.48||Threshold for significance at 0.05 level.|MMRM|||||0.480|-0.729|0.6853
92391860|NCT03201419|184683095|SUPERIORITY||Mean Difference|0.166||||0.4364|TWO_SIDED|95.0|-0.254|0.587||Threshold for significance at 0.05 level.|MMRM|||||0.587|-0.254|0.4364
92391861|NCT03201419|184683096|SUPERIORITY||Mean Difference|-0.299||||0.1106|TWO_SIDED|95.0|-0.667|0.069||Threshold for significance at 0.05 level.|MMRM|||||0.069|-0.667|0.1106
92391862|NCT03201419|184683096|SUPERIORITY||Mean Difference|-0.163||||0.5005|TWO_SIDED|95.0|-0.639|0.313||Threshold for significance at 0.05 level.|MMRM|||||0.313|-0.639|0.5005
92391863|NCT03201419|184683096|SUPERIORITY||Mean Difference|0.107||||0.6604|TWO_SIDED|95.0|-0.372|0.586||Threshold for significance at 0.05 level.|MMRM|||||0.586|-0.372|0.6604
92391864|NCT03201419|184683096|SUPERIORITY||Mean Difference|0.283||||0.3178|TWO_SIDED|95.0|-0.275|0.842||Threshold for significance at 0.05 level.|MMRM|||||0.842|-0.275|0.3178
92391865|NCT03201419|184683096|SUPERIORITY||Mean Difference|-0.096||||0.7561|TWO_SIDED|95.0|-0.701|0.51||Threshold for significance at 0.05 level.|MMRM|||||0.510|-0.701|0.7561
92391866|NCT03201419|184683096|SUPERIORITY||Mean Difference|0.037||||0.8614|TWO_SIDED|95.0|-0.378|0.452||Threshold for significance at 0.05 level.|MMRM|||||0.452|-0.378|0.8614
92391867|NCT03201419|184683097|SUPERIORITY||Odds Ratio (OR)|1.759||||0.117|TWO_SIDED|95.0|0.869|3.56||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.560|0.869|0.117
92391868|NCT03201419|184683097|SUPERIORITY||Odds Ratio (OR)|2.505||||0.048|TWO_SIDED|95.0|1.01|6.214||Threshold for significance at 0.05 level.|Regression, Logistic|||||6.214|1.010|0.048
92391869|NCT03201419|184683097|SUPERIORITY||Odds Ratio (OR)|1.42||||0.46|TWO_SIDED|95.0|0.56|3.602||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.602|0.560|0.460
92391870|NCT03201419|184683097|SUPERIORITY||Odds Ratio (OR)|1.704||||0.367|TWO_SIDED|95.0|0.535|5.427||Threshold for significance at 0.05 level.|Regression, Logistic|||||5.427|0.535|0.367
92391871|NCT03201419|184683097|SUPERIORITY||Odds Ratio (OR)|1.689||||0.407|TWO_SIDED|95.0|0.489|5.825||Threshold for significance at 0.05 level.|Regression, Logistic|||||5.825|0.489|0.407
92391872|NCT03201419|184683097|SUPERIORITY||Odds Ratio (OR)|1.069||||0.876|TWO_SIDED|95.0|0.462|2.473||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.473|0.462|0.876
92278926|NCT00094302|184460809|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline laboratory value as the dependent variable, and the baseline laboratory value, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.53
92391873|NCT03201419|184683098|SUPERIORITY||Odds Ratio (OR)|0.971||||0.937|TWO_SIDED|95.0|0.47|2.005||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.005|0.470|0.937
92391874|NCT03201419|184683098|SUPERIORITY||Odds Ratio (OR)|4.738||||0.028|TWO_SIDED|95.0|1.183|18.968||Threshold for significance at 0.05 level.|Regression, Logistic|||||18.968|1.183|0.028
92391875|NCT03201419|184683098|SUPERIORITY||Odds Ratio (OR)|0.513||||0.166|TWO_SIDED|95.0|0.2|1.318||Threshold for significance at 0.05 level.|Regression, Logistic|||||1.318|0.200|0.166
92391876|NCT03201419|184683098|SUPERIORITY||Odds Ratio (OR)|0.433||||0.174|TWO_SIDED|95.0|0.129|1.447||Threshold for significance at 0.05 level.|Regression, Logistic|||||1.447|0.129|0.174
92391877|NCT03201419|184683098|SUPERIORITY||Odds Ratio (OR)|1.425||||0.608|TWO_SIDED|95.0|0.369|5.512||Threshold for significance at 0.05 level.|Regression, Logistic|||||5.512|0.369|0.608
92391878|NCT03201419|184683098|SUPERIORITY||Odds Ratio (OR)|0.553||||0.171|TWO_SIDED|95.0|0.237|1.292||Threshold for significance at 0.05 level.|Regression, Logistic|||||1.292|0.237|0.171
92391879|NCT03201419|184683099|SUPERIORITY||Odds Ratio (OR)|0.928||||0.85|TWO_SIDED|95.0|0.43|2.003||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.003|0.430|0.850
92391880|NCT03201419|184683099|SUPERIORITY||Odds Ratio (OR)|2.261||||0.15|TWO_SIDED|95.0|0.745|6.862||Threshold for significance at 0.05 level.|Regression, Logistic|||||6.862|0.745|0.150
92391881|NCT03201419|184683099|SUPERIORITY||Odds Ratio (OR)|1.283||||0.632|TWO_SIDED|95.0|0.462|3.566||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.566|0.462|0.632
92391882|NCT03201419|184683099|SUPERIORITY||Odds Ratio (OR)|0.583||||0.363|TWO_SIDED|95.0|0.183|1.863||Threshold for significance at 0.05 level.|Regression, Logistic|||||1.863|0.183|0.363
92391883|NCT03201419|184683099|SUPERIORITY||Odds Ratio (OR)|0.691||||0.555|TWO_SIDED|95.0|0.203|2.359||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.359|0.203|0.555
92391884|NCT03201419|184683099|SUPERIORITY||Odds Ratio (OR)|0.991||||0.984|TWO_SIDED|95.0|0.408|2.405||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.405|0.408|0.984
92391885|NCT03201419|184683100|SUPERIORITY||Odds Ratio (OR)|2.462||||0.046|TWO_SIDED|95.0|1.017|5.961||Threshold for significance at 0.05 level.|Regression, Logistic|||||5.961|1.017|0.046
92391886|NCT03201419|184683100|SUPERIORITY||Odds Ratio (OR)|1.19||||0.745|TWO_SIDED|95.0|0.418|3.386||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.386|0.418|0.745
92391887|NCT03201419|184683100|SUPERIORITY||Odds Ratio (OR)|1.147||||0.79|TWO_SIDED|95.0|0.417|3.155||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.155|0.417|0.790
92391888|NCT03201419|184683100|SUPERIORITY||Odds Ratio (OR)|0.537||||0.293|TWO_SIDED|95.0|0.169|1.71||Threshold for significance at 0.05 level.|Regression, Logistic|||||1.710|0.169|0.293
92391889|NCT03201419|184683100|SUPERIORITY||Odds Ratio (OR)|0.881||||0.843|TWO_SIDED|95.0|0.252|3.076||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.076|0.252|0.843
92391890|NCT03201419|184683100|SUPERIORITY||Odds Ratio (OR)|0.877||||0.763|TWO_SIDED|95.0|0.375|2.053||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.053|0.375|0.763
92391891|NCT03201419|184683101|SUPERIORITY||Odds Ratio (OR)|1.422|||||TWO_SIDED|95.0|0.868|2.597||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||2.597|0.868|
92391892|NCT03201419|184683101|SUPERIORITY||Odds Ratio (OR)|1.373|||||TWO_SIDED|95.0|0.905|2.45||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||2.450|0.905|
92391893|NCT03201419|184683101|SUPERIORITY||Odds Ratio (OR)|1.284|||||TWO_SIDED|95.0|0.927|2.264||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||2.264|0.927|
92391894|NCT03201419|184683101|SUPERIORITY||Odds Ratio (OR)|1.145|||||TWO_SIDED|95.0|0.957|1.896||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||1.896|0.957|
92391895|NCT03201419|184683101|SUPERIORITY||Odds Ratio (OR)|1.079|||||TWO_SIDED|95.0|0.972|1.638||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||1.638|0.972|
92391896|NCT03201419|184683101|SUPERIORITY||Odds Ratio (OR)|1.023|||||TWO_SIDED|95.0|0.991|1.313||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||1.313|0.991|
92391897|NCT03201419|184683102|SUPERIORITY||Mean Difference|0.52||||0.8463|TWO_SIDED|95.0|-4.75|5.78||Threshold for significance at 0.05 level.|MMRM|||||5.78|-4.75|0.8463
92391898|NCT03201419|184683102|SUPERIORITY||Mean Difference|-13.85||||0.0001|TWO_SIDED|95.0|-20.89|-6.81||Threshold for significance at 0.05 level.|MMRM|||||-6.81|-20.89|0.0001
92391899|NCT03201419|184683102|SUPERIORITY||Mean Difference|-2.84||||0.4355|TWO_SIDED|95.0|-9.99|4.32||Threshold for significance at 0.05 level.|MMRM|||||4.32|-9.99|0.4355
92391900|NCT03201419|184683102|SUPERIORITY||Mean Difference|-0.87||||0.8483|TWO_SIDED|95.0|-9.79|8.06||Threshold for significance at 0.05 level.|MMRM|||||8.06|-9.79|0.8483
92391901|NCT03201419|184683102|SUPERIORITY||Mean Difference|-1.61||||0.7336|TWO_SIDED|95.0|-10.91|7.69||Threshold for significance at 0.05 level.|MMRM|||||7.69|-10.91|0.7336
92391902|NCT03201419|184683102|SUPERIORITY||Mean Difference|-0.69||||0.8347|TWO_SIDED|95.0|-7.15|5.78||Threshold for significance at 0.05 level.|MMRM|||||5.78|-7.15|0.8347
92391903|NCT03201419|184683103|SUPERIORITY||Mean Difference|1.59||||0.5695|TWO_SIDED|95.0|-3.9|7.07||Threshold for significance at 0.05 level.|MMRM|||||7.07|-3.90|0.5695
92391904|NCT03201419|184683103|SUPERIORITY||Mean Difference|-3.23||||0.3784|TWO_SIDED|95.0|-10.46|3.99||Threshold for significance at 0.05 level.|MMRM|||||3.99|-10.46|0.3784
92391905|NCT03201419|184683103|SUPERIORITY||Mean Difference|-0.17||||0.9653|TWO_SIDED|95.0|-7.67|7.34||Threshold for significance at 0.05 level.|MMRM|||||7.34|-7.67|0.9653
92391906|NCT03201419|184683103|SUPERIORITY||Mean Difference|2.97||||0.5304|TWO_SIDED|95.0|-6.35|12.29||Threshold for significance at 0.05 level.|MMRM|||||12.29|-6.35|0.5304
92391907|NCT03201419|184683103|SUPERIORITY||Mean Difference|-8.02||||0.0968|TWO_SIDED|95.0|-17.51|1.46||Threshold for significance at 0.05 level.|MMRM|||||1.46|-17.51|0.0968
92391908|NCT03201419|184683103|SUPERIORITY||Mean Difference|0.91||||0.7885|TWO_SIDED|95.0|-5.79|7.62||Threshold for significance at 0.05 level.|MMRM|||||7.62|-5.79|0.7885
92391909|NCT03201419|184683104|SUPERIORITY||Mean Difference|-1.2||||0.6792|TWO_SIDED|95.0|-6.89|4.5||Threshold for significance at 0.05 level.|MMRM|||||4.50|-6.89|0.6792
92170062|NCT02214550|184229066|SUPERIORITY||Slope|-1.4597|STANDARD_ERROR_OF_MEAN|0.8245||0.08|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter estimated indicates the time x group (Continuous vs. Cyclic OCP) interaction. PBS participants are included in the continuous OCP group.|A linear mixed-effects model was estimated predicting bladder pain at first urge ratings (0-100 visual analog scale) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||.08
92391910|NCT03201419|184683104|SUPERIORITY||Mean Difference|-8.39||||0.0276|TWO_SIDED|95.0|-15.84|-0.93||Threshold for significance at 0.05 level.|MMRM|||||-0.93|-15.84|0.0276
92391911|NCT03201419|184683104|SUPERIORITY||Mean Difference|-0.27||||0.9445|TWO_SIDED|95.0|-7.97|7.42||Threshold for significance at 0.05 level.|MMRM|||||7.42|-7.97|0.9445
92391912|NCT03201419|184683104|SUPERIORITY||Mean Difference|2.79||||0.5637|TWO_SIDED|95.0|-6.71|12.28||Threshold for significance at 0.05 level.|MMRM|||||12.28|-6.71|0.5637
92391913|NCT03201419|184683104|SUPERIORITY||Mean Difference|-4.4||||0.387|TWO_SIDED|95.0|-14.39|5.6||Threshold for significance at 0.05 level.|MMRM|||||5.60|-14.39|0.3870
92391914|NCT03201419|184683104|SUPERIORITY||Mean Difference|0.72||||0.8373|TWO_SIDED|95.0|-6.19|7.63||Threshold for significance at 0.05 level.|MMRM|||||7.63|-6.19|0.8373
92391915|NCT03201419|184683105|SUPERIORITY||Mean Difference|0.53||||0.8646|TWO_SIDED|95.0|-5.54|6.59||Threshold for significance at 0.05 level.|MMRM|||||6.59|-5.54|0.8646
92391916|NCT03201419|184683105|SUPERIORITY||Mean Difference|-6.99||||0.087|TWO_SIDED|95.0|-15.0|1.02||Threshold for significance at 0.05 level.|MMRM|||||1.02|-15.00|0.0870
92391917|NCT03201419|184683105|SUPERIORITY||Mean Difference|2.77||||0.51|TWO_SIDED|95.0|-5.5|11.04||Threshold for significance at 0.05 level.|MMRM|||||11.04|-5.50|0.5100
92391918|NCT03201419|184683105|SUPERIORITY||Mean Difference|7.32||||0.1535|TWO_SIDED|95.0|-2.75|17.39||Threshold for significance at 0.05 level.|MMRM|||||17.39|-2.75|0.1535
92391919|NCT03201419|184683105|SUPERIORITY||Mean Difference|-5.14||||0.3369|TWO_SIDED|95.0|-15.66|5.38||Threshold for significance at 0.05 level.|MMRM|||||5.38|-15.66|0.3369
92391920|NCT03201419|184683105|SUPERIORITY||Mean Difference|0.27||||0.9417|TWO_SIDED|95.0|-7.05|7.59||Threshold for significance at 0.05 level.|MMRM|||||7.59|-7.05|0.9417
92391921|NCT03201419|184683106|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|-1.41|5.47||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||5.47|-1.41|
92391922|NCT03201419|184683106|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|-0.43|1.19||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||1.19|-0.43|
92391923|NCT03201419|184683106|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|-0.16|0.5||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.50|-0.16|
92391924|NCT03201419|184683106|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|-0.03|0.15||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.15|-0.03|
92391925|NCT03201419|184683106|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|-0.01|0.05||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.05|-0.01|
92391926|NCT03201419|184683106|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|0.0|0.01||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.01|-0.00|
92391927|NCT03201419|184683107|SUPERIORITY||Mean Difference|5.2||||0.3328|TWO_SIDED|95.0|-5.3|15.7||Threshold for significance at 0.05 level.|ANCOVA|||||15.7|-5.3|0.3328
92391928|NCT03201419|184683107|SUPERIORITY||Mean Difference|15.5||||0.0255|TWO_SIDED|95.0|1.9|29.2||Threshold for significance at 0.05 level.|ANCOVA|||||29.2|1.9|0.0255
92391929|NCT03201419|184683107|SUPERIORITY||Mean Difference|2.5||||0.7296|TWO_SIDED|95.0|-11.7|16.7||Threshold for significance at 0.05 level.|ANCOVA|||||16.7|-11.7|0.7296
92391930|NCT03201419|184683107|SUPERIORITY||Mean Difference|-6.7||||0.4586|TWO_SIDED|95.0|-24.5|11.1||Threshold for significance at 0.05 level.|ANCOVA|||||11.1|-24.5|0.4586
92391931|NCT03201419|184683107|SUPERIORITY||Mean Difference|11.2||||0.2327|TWO_SIDED|95.0|-7.2|29.5||Threshold for significance at 0.05 level.|ANCOVA|||||29.5|-7.2|0.2327
92391932|NCT03201419|184683107|SUPERIORITY||Mean Difference|-0.6||||0.924|TWO_SIDED|95.0|-13.3|12.1||Threshold for significance at 0.05 level.|ANCOVA|||||12.1|-13.3|0.9240
92391933|NCT03201419|184683108|SUPERIORITY||Mean Difference|0.3||||0.9499|TWO_SIDED|95.0|-7.9|8.5||Threshold for significance at 0.05 level.|ANCOVA|||||8.5|-7.9|0.9499
92391934|NCT03201419|184683108|SUPERIORITY||Mean Difference|5.8||||0.2842|TWO_SIDED|95.0|-4.8|16.4||Threshold for significance at 0.05 level.|ANCOVA|||||16.4|-4.8|0.2842
92391935|NCT03201419|184683108|SUPERIORITY||Mean Difference|-5.7||||0.31|TWO_SIDED|95.0|-16.8|5.4||Threshold for significance at 0.05 level.|ANCOVA|||||5.4|-16.8|0.3100
92391936|NCT03201419|184683108|SUPERIORITY||Mean Difference|-10.1||||0.1499|TWO_SIDED|95.0|-23.9|3.7||Threshold for significance at 0.05 level.|ANCOVA|||||3.7|-23.9|0.1499
92391937|NCT03201419|184683108|SUPERIORITY||Mean Difference|-8.2||||0.2571|TWO_SIDED|95.0|-22.5|6.0||Threshold for significance at 0.05 level.|ANCOVA|||||6.0|-22.5|0.2571
92391938|NCT03201419|184683108|SUPERIORITY||Mean Difference|-1.5||||0.7629|TWO_SIDED|95.0|-11.4|8.3||Threshold for significance at 0.05 level.|ANCOVA|||||8.3|-11.4|0.7629
92391939|NCT03201419|184683109|SUPERIORITY||Mean Difference|2.48||||0.4846|TWO_SIDED|95.0|-4.5|9.46||Threshold for significance at 0.05 level.|MMRM|||||9.46|-4.50|0.4846
92391940|NCT03201419|184683109|SUPERIORITY||Mean Difference|-16.93||||0.0004|TWO_SIDED|95.0|-26.26|-7.6||Threshold for significance at 0.05 level.|MMRM|||||-7.60|-26.26|0.0004
92391941|NCT03201419|184683109|SUPERIORITY||Mean Difference|-2.05||||0.6685|TWO_SIDED|95.0|-11.47|7.37||Threshold for significance at 0.05 level.|MMRM|||||7.37|-11.47|0.6685
92391942|NCT03201419|184683109|SUPERIORITY||Mean Difference|1.69||||0.7772|TWO_SIDED|95.0|-10.07|13.46||Threshold for significance at 0.05 level.|MMRM|||||13.46|-10.07|0.7772
92391943|NCT03201419|184683109|SUPERIORITY||Mean Difference|10.67||||0.0895|TWO_SIDED|95.0|-1.66|23.0||Threshold for significance at 0.05 level.|MMRM|||||23.00|-1.66|0.0895
92391944|NCT03201419|184683109|SUPERIORITY||Mean Difference|1.2||||0.782|TWO_SIDED|95.0|-7.34|9.74|||MMRM|||||9.74|-7.34|0.7820
92391945|NCT03201419|184683110|SUPERIORITY||Mean Difference|-0.41||||0.9175|TWO_SIDED|95.0|-8.25|7.42||Threshold for significance at 0.05 level.|MMRM|||||7.42|-8.25|0.9175
92391946|NCT03201419|184683110|SUPERIORITY||Mean Difference|-4.32||||0.4098|TWO_SIDED|95.0|-14.62|5.98||Threshold for significance at 0.05 level.|MMRM|||||5.98|-14.62|0.4098
92170063|NCT02214550|184229066|SUPERIORITY||Slope|1.9186|STANDARD_ERROR_OF_MEAN|0.8121||0.023|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter reported indicates a time x group interaction (D+COS-continuous microgestin vs. PBS-continuous microgestin).|A linear mixed-effects model was estimated predicting bladder pain at first urge ratings (0-100 visual analog scale) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||.023
92170064|NCT02214550|184229067|SUPERIORITY||Slope|0.3716|STANDARD_ERROR_OF_MEAN|0.3056||0.2315|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter reported indicates time\*group interaction (OCP vs. No OCP). PBS participants are included in the OCP group|A linear mixed-effects model was estimated predicting pressure pain thresholds (in Newtons of force transvaginally measured anteriorly against the bladder) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||0.2315
92170065|NCT02214550|184229067|SUPERIORITY||Slope|0.2703|STANDARD_ERROR_OF_MEAN|0.3244||0.4097|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter estimated indicates the time x group (Continuous vs. Cyclic OCP) interaction. PBS participants are included in the continuous OCP group.|A linear mixed-effects model was estimated predicting pressure pain thresholds (in Newtons of force transvaginally measured anteriorly against the bladder) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||0.4097
92170066|NCT02214550|184229067|SUPERIORITY||Slope|-0.1574|STANDARD_ERROR_OF_MEAN|0.3283||0.6341|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter estimated indicates the time x group (continuous microgestin: D+COS-vs. PBS) interaction.|A linear mixed-effects model was estimated predicting pressure pain thresholds (in Newtons of force transvaginally measured anteriorly against the bladder) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||0.6341
92171787|NCT03897686|184233253|SUPERIORITY||LS-means difference|-13.23|STANDARD_ERROR_OF_MEAN|9.995||0.16786|TWO_SIDED|95.0|-32.096|5.638||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in pain WOMAC score at visit 3 (week 6)||5.638|-32.096|0.16786
92280573|NCT00663871|184463699|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.45||||0.52|TWO_SIDED|95.0|-1.83|0.92||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||0.92|-1.83|0.52
92391947|NCT03201419|184683110|SUPERIORITY||Mean Difference|2.41||||0.6566|TWO_SIDED|95.0|-8.25|13.06||Threshold for significance at 0.05 level.|MMRM|||||13.06|-8.25|0.6566
92391948|NCT03201419|184683110|SUPERIORITY||Mean Difference|3.39||||0.6144|TWO_SIDED|95.0|-9.85|16.63||Threshold for significance at 0.05 level.|MMRM|||||16.63|-9.85|0.6144
92391949|NCT03201419|184683110|SUPERIORITY||Mean Difference|3.8||||0.5798|TWO_SIDED|95.0|-9.71|17.31||Threshold for significance at 0.05 level.|MMRM|||||17.31|-9.71|0.5798
92391950|NCT03201419|184683110|SUPERIORITY||Mean Difference|0.35||||0.9417|TWO_SIDED|95.0|-9.17|9.88||Threshold for significance at 0.05 level.|MMRM|||||9.88|-9.17|0.9417
92391951|NCT03201419|184683111|SUPERIORITY||Mean Difference|-2.81||||0.5148|TWO_SIDED|95.0|-11.31|5.68||Threshold for significance at 0.05 level.|MMRM|||||5.68|-11.31|0.5148
92391952|NCT03201419|184683111|SUPERIORITY||Mean Difference|-9.65||||0.0879|TWO_SIDED|95.0|-20.75|1.44||Threshold for significance at 0.05 level.|MMRM|||||1.44|-20.75|0.0879
92391953|NCT03201419|184683111|SUPERIORITY||Mean Difference|3.61||||0.5335|TWO_SIDED|95.0|-7.79|15.0||Threshold for significance at 0.05 level.|MMRM|||||15.00|-7.79|0.5335
92391954|NCT03201419|184683111|SUPERIORITY||Mean Difference|6.29||||0.3787|TWO_SIDED|95.0|-7.76|20.34||Threshold for significance at 0.05 level.|MMRM|||||20.34|-7.76|0.3787
92391955|NCT03201419|184683111|SUPERIORITY||Mean Difference|1.48||||0.8448|TWO_SIDED|95.0|-13.41|16.38||Threshold for significance at 0.05 level.|MMRM|||||16.38|-13.41|0.8448
92391956|NCT03201419|184683111|SUPERIORITY||Mean Difference|4.62||||0.3751|TWO_SIDED|95.0|-5.63|14.87||Threshold for significance at 0.05 level.|MMRM|||||14.87|-5.63|0.3751
92391957|NCT03201419|184683112|SUPERIORITY||Mean Difference|-0.43||||0.9245|TWO_SIDED|95.0|-9.43|8.57||Threshold for significance at 0.05 level.|MMRM|||||8.57|-9.43|0.9245
92391958|NCT03201419|184683112|SUPERIORITY||Mean Difference|-6.72||||0.2657|TWO_SIDED|95.0|-18.59|5.15||Threshold for significance at 0.05 level.|MMRM|||||5.15|-18.59|0.2657
92391959|NCT03201419|184683112|SUPERIORITY||Mean Difference|9.2||||0.1383|TWO_SIDED|95.0|-2.99|21.38||Threshold for significance at 0.05 level.|MMRM|||||21.38|-2.99|0.1383
92391960|NCT03201419|184683112|SUPERIORITY||Mean Difference|14.72||||0.0523|TWO_SIDED|95.0|-0.15|29.59||Threshold for significance at 0.05 level.|MMRM|||||29.59|-0.15|0.0523
92391961|NCT03201419|184683112|SUPERIORITY||Mean Difference|1.14||||0.8855|TWO_SIDED|95.0|-14.47|16.75||Threshold for significance at 0.05 level.|MMRM|||||16.75|-14.47|0.8855
92391962|NCT03201419|184683112|SUPERIORITY||Mean Difference|2.91||||0.5972|TWO_SIDED|95.0|-7.91|13.72||Threshold for significance at 0.05 level.|MMRM|||||13.72|-7.91|0.5972
92391963|NCT03201419|184683113|SUPERIORITY||Mean Difference|-0.54|||||TWO_SIDED|95.0|-6.09|2.28||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||2.28|-6.09|
92391964|NCT03201419|184683113|SUPERIORITY||Mean Difference|-0.28|||||TWO_SIDED|95.0|-4.3|0.75||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.75|-4.30|
92391965|NCT03201419|184683113|SUPERIORITY||Mean Difference|-0.15|||||TWO_SIDED|95.0|-2.44|0.33||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.33|-2.44|
92391966|NCT03201419|184683113|SUPERIORITY||Mean Difference|-0.04|||||TWO_SIDED|95.0|-0.92|0.07||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.07|-0.92|
92391967|NCT03201419|184683113|SUPERIORITY||Mean Difference|-0.02|||||TWO_SIDED|95.0|-0.48|0.02||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.02|-0.48|
92391968|NCT03201419|184683113|SUPERIORITY||Mean Difference|0.0|||||TWO_SIDED|95.0|-0.15|0.0||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.00|-0.15|
92391969|NCT03201419|184683114|SUPERIORITY||Mean Difference|-0.27||||0.055|TWO_SIDED|95.0|-0.545|0.006||Threshold for significance at 0.05 level.|MMRM|||||0.006|-0.545|0.0550
92391970|NCT03201419|184683114|SUPERIORITY||Mean Difference|-0.7||||0.0002|TWO_SIDED|95.0|-1.066|-0.335||Threshold for significance at 0.05 level.|MMRM|||||-0.335|-1.066|0.0002
92391971|NCT03201419|184683114|SUPERIORITY||Mean Difference|-0.037||||0.844|TWO_SIDED|95.0|-0.404|0.33||Threshold for significance at 0.05 level.|MMRM|||||0.330|-0.404|0.8440
92391972|NCT03201419|184683114|SUPERIORITY||Mean Difference|0.041||||0.861|TWO_SIDED|95.0|-0.417|0.498||Threshold for significance at 0.05 level.|MMRM|||||0.498|-0.417|0.8610
92391973|NCT03201419|184683114|SUPERIORITY||Mean Difference|0.036||||0.8871|TWO_SIDED|95.0|-0.46|0.532||Threshold for significance at 0.05 level.|MMRM|||||0.532|-0.460|0.8871
92391974|NCT03201419|184683114|SUPERIORITY||Mean Difference|0.013||||0.9396|TWO_SIDED|95.0|-0.313|0.338||Threshold for significance at 0.05 level.|MMRM|||||0.338|-0.313|0.9396
92391975|NCT03201419|184683115|SUPERIORITY||Mean Difference|-0.475||||0.005|TWO_SIDED|95.0|-0.806|-0.145||Threshold for significance at 0.05 level.|MMRM|||||-0.145|-0.806|0.0050
92391976|NCT03201419|184683115|SUPERIORITY||Mean Difference|-0.405||||0.0665|TWO_SIDED|95.0|-0.837|0.028||Threshold for significance at 0.05 level.|MMRM|||||0.028|-0.837|0.0665
92391977|NCT03201419|184683115|SUPERIORITY||Mean Difference|-0.149||||0.5245|TWO_SIDED|95.0|-0.608|0.31||Threshold for significance at 0.05 level.|MMRM|||||0.310|-0.608|0.5245
92419793|NCT00048061|184728448|NON_INFERIORITY_OR_EQUIVALENCE|The monthly dosing regimen (Ibandronate 150 mg) was considered non-inferior to the 2.5 mg daily regimen if the lower bound of the two-sided 95% CI on the difference in mean percent change in BMD was greater or equal to -1 percentage point.|Mean Difference (Final Values)|1.0||||0.001|TWO_SIDED|95.0|0.395|1.605|||ANOVA||Treatment effect is the difference in the mean values of the monthly oral dose regimens (Ibandronate 150 mg) and the active-control.|||1.605|0.395|0.001
92419794|NCT03583073|184728464|SUPERIORITY|||||||0.053|||||||Chi-squared, Corrected|DF = 1||||||.053
92419795|NCT03583073|184728465|SUPERIORITY||Mean Difference (Final Values)|1.94||||0.072|TWO_SIDED|95.0|-0.18|4.06|||Chi-squared, Corrected|||||4.06|-0.18|.072
92419796|NCT05714644|184728466|SUPERIORITY|FIT-DNA hypothesized to be higher than FIT|Risk Difference (RD)|4.7||||0.05|TWO_SIDED|95.0|0.8|8.7|||Regression, Logistic|logistic regression models with generalized estimating equations to account for clustering of data within CHCs, adjusting for age and race/ethnicity||||8.7|0.8|0.05
92391978|NCT03201419|184683115|SUPERIORITY||Mean Difference|-0.075||||0.7947|TWO_SIDED|95.0|-0.642|0.492||Threshold for significance at 0.05 level.|MMRM|||||0.492|-0.642|0.7947
92391979|NCT03201419|184683115|SUPERIORITY||Mean Difference|-0.211||||0.4625|TWO_SIDED|95.0|-0.777|0.355||Threshold for significance at 0.05 level.|MMRM|||||0.355|-0.777|0.4625
92391980|NCT03201419|184683115|SUPERIORITY||Mean Difference|-0.014||||0.9465|TWO_SIDED|95.0|-0.412|0.385||Threshold for significance at 0.05 level.|MMRM|||||0.385|-0.412|0.9465
92391981|NCT03201419|184683116|SUPERIORITY||Mean Difference|-0.73|||<|0.0001|TWO_SIDED|95.0|-1.078|-0.383||Threshold for significance at 0.05 level.|MMRM|||||-0.383|-1.078|<0.0001
92391982|NCT03201419|184683116|SUPERIORITY||Mean Difference|-0.686||||0.003|TWO_SIDED|95.0|-1.137|-0.236||Threshold for significance at 0.05 level.|MMRM|||||-0.236|-1.137|0.0030
92391983|NCT03201419|184683116|SUPERIORITY||Mean Difference|-0.045||||0.852|TWO_SIDED|95.0|-0.517|0.427||Threshold for significance at 0.05 level.|MMRM|||||0.427|-0.517|0.8520
92391984|NCT03201419|184683116|SUPERIORITY||Mean Difference|-0.287||||0.3205|TWO_SIDED|95.0|-0.856|0.281||Threshold for significance at 0.05 level.|MMRM|||||0.281|-0.856|0.3205
92391985|NCT03201419|184683116|SUPERIORITY||Mean Difference|-0.418||||0.1769|TWO_SIDED|95.0|-1.026|0.19||Threshold for significance at 0.05 level.|MMRM|||||0.190|-1.026|0.1769
92391986|NCT03201419|184683116|SUPERIORITY||Mean Difference|-0.3||||0.1584|TWO_SIDED|95.0|-0.717|0.118||Threshold for significance at 0.05 level.|MMRM|||||0.118|-0.717|0.1584
92391987|NCT03201419|184683117|SUPERIORITY||Mean Difference|-0.822|||<|0.0001|TWO_SIDED|95.0|-1.22|-0.424||Threshold for significance at 0.05 level.|MMRM|||||-0.424|-1.220|<0.0001
92419797|NCT05714644|184728467|SUPERIORITY|FIT-DNA greater than FIT|Risk Difference (RD)|4.5|||<|0.05|TWO_SIDED|95.0|0.4|8.5|||Regression, Logistic|||||8.5|0.4|<0.05
92419798|NCT01262352|184728471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.069||||0.0004|TWO_SIDED|95.0|-2.98|-1.15|||Mixed Models Analysis|||The primary analysis for the primary efficacy variable was based on a mixed effect model. The model included the absolute change from the baseline in each period as the dependent variable, sequence, treatment, and period as fixed effects, study baseline LCI as the covariate, and subject nested within sequence as the random effect.||-1.15|-2.98|0.0004
92419799|NCT01262352|184728472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.007||||0.0117|TWO_SIDED|95.0|1.8|12.21||P-value was not adjusted for multiple comparisons.|Mixed Models Analysis|||Analysis for this efficacy variable was performed in a similar way as the analysis for the primary efficacy variable.||12.21|1.80|0.0117
92419800|NCT01262352|184728473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-45.848|||<|0.0001|TWO_SIDED|95.0|-53.54|-38.16||P-value was not adjusted for multiple comparisons.|Mixed Models Analysis|||Analysis for change from baseline in average sweat chloride was similar to the analysis of the primary efficacy variable.||-38.16|-53.54|<0.0001
92419801|NCT01262352|184728474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.991||||0.3796|TWO_SIDED|95.0|-5.4|13.39||P-value was not adjusted for multiple comparisons.|Mixed Models Analysis|||The raw scores in CFQ-R were summarized into different domains of health (12 domains for adolescents and adults 14 years of age and older, 8 domains for children ages 12 and 13 years, 8 domains for children ages 6 to 11 years, and 11 domains for parents/caregivers). Each domain was analyzed in a similar way as for the primary efficacy variable. The primary analytical focus was the respiratory health domain which was analyzed by combining all self-response questionnaire versions.||13.39|-5.40|0.3796
92235787|NCT03114969|184374781|SUPERIORITY||Odds Ratio (OR)|2.079||||0.086|TWO_SIDED|95.0|0.901|4.799||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.799|0.901|0.086
92419802|NCT02925793|184728490|SUPERIORITY||Mean Difference|-2.9||||0.0106|TWO_SIDED||||||SAS Proc Mixed||For each subject, change in NRS score from baseline to week 8 was calculated as Week 8 NRS value minus Baseline NRS value. Mean change in NRS score from baseline to week 8 for each group was then calculated using a Generalized Linear Mixed Model.|Both 1% and 5% groups (statistical analysis 2) produced the same estimated value (-2.9)||||0.0106
92419803|NCT02925793|184728490|SUPERIORITY||Mean Difference|-2.9||||0.0483|TWO_SIDED||||||SAS Proc Mixed||For each subject, change in NRS score from baseline to week 8 was calculated as Week 8 NRS value minus Baseline NRS value. Mean change in NRS score from baseline to week 8 for each group was then calculated using a Generalized Linear Mixed Model.|Both 1%(statistical analysis 1) and 5% groups produced the same estimated value (-2.9)||||0.0483
92419804|NCT03475875|184728519|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|1.73|||TWO_SIDED|95.0|-7.7|-0.9|||Linear Mixed Model|Kenward and Roger Method was used for the Degrees of Freedom|Mean difference was calculated as Test - Control|It was calculated that 80 participants randomized in a 1:1 fashion between the two sequences would have at least 90% power to detect a 5 points difference in mean overall comfort at the 2-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05).||-0.9|-7.7|
92419805|NCT03475875|184728520|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|1.43|||TWO_SIDED|95.0|-4.7|1.0|||Linear Mixed Model|Kenward and Roger Method was used for the Degrees of Freedom|Mean difference was calculated as Test - Control|It was calculated that 80 participants randomized in a 1:1 fashion between the two sequences would have at least 90% power to detect a 5 points difference in mean overall comfort at the 2-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05).||1.0|-4.7|
92419806|NCT02431247|184728570|NON_INFERIORITY|One-sided p-value for non-inferiority of Test versus Control arm. The non-|Difference in percentage|2.7|||<|0.001|TWO_SIDED|95.0|-1.6|7.1||inferiority margin is 10%.|Mantel Haenszel|||||7.1|-1.6|< 0.001
92419807|NCT02431247|184728573|OTHER||Least square mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.063|=|0.437|TWO_SIDED|95.0|-0.171|0.074|||ANCOVA|||||0.074|-0.171|= 0.437
92419808|NCT02431247|184728574|OTHER||LS mean difference|18.48|STANDARD_ERROR_OF_MEAN|14.808|=|0.213|TWO_SIDED|95.0|-10.595|47.55|||ANCOVA|||||47.550|-10.595|= 0.213
92419809|NCT02431247|184728575|OTHER||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.008|<|0.001|TWO_SIDED|95.0|-0.05|-0.02|||ANCOVA|||||-0.02|-0.05|< 0.001
92419810|NCT02431247|184728576|OTHER||LS mean difference|3.12|STANDARD_ERROR_OF_MEAN|0.786|<|0.001|TWO_SIDED|95.0|1.57|4.66|||ANCOVA|||||4.66|1.57|< 0.001
92419811|NCT02431247|184728577|OTHER||LS mean difference|6.04|STANDARD_ERROR_OF_MEAN|1.126|<|0.001|TWO_SIDED|95.0|3.83|8.25|||ANCOVA|||||8.25|3.83|< 0.001
92419812|NCT02431247|184728578|OTHER||LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|0.747|=|0.001|TWO_SIDED|95.0|0.93|3.87|||ANCOVA|||||3.87|0.93|= 0.001
92419813|NCT02431247|184728580|OTHER||||||=|0.033|||||||Wilcoxon rank sum test|||||||= 0.033
92419814|NCT02431247|184728581|OTHER||||||=|0.033|||||||Wilcoxon rank sum test|||||||= 0.033
92419815|NCT02431247|184728582|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||< 0.001
92419816|NCT02431247|184728583|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||< 0.001
92419817|NCT02431247|184728584|OTHER||||||=|0.147|||||||Wilcoxon rank sum test|||||||= 0.147
92419818|NCT02431247|184728589|OTHER||LS mean difference|1.95|STANDARD_ERROR_OF_MEAN|0.368|<|0.001|TWO_SIDED|95.0|1.227|2.678|||ANCOVA|||Hip region BMD (Week 24)||2.678|1.227|< 0.001
92419819|NCT02431247|184728589|OTHER||LS mean difference|2.86|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|1.934|3.791|||ANCOVA|||Hip region BMD (Week 48)||3.791|1.934|< 0.001
92419820|NCT02431247|184728589|OTHER||LS mean difference|2.09|STANDARD_ERROR_OF_MEAN|0.421|<|0.001|TWO_SIDED|95.0|1.259|2.919|||ANCOVA|||Spine region BMD (Week 24)||2.919|1.259|< 0.001
92419821|NCT02431247|184728589|OTHER||LS mean difference|1.7|STANDARD_ERROR_OF_MEAN|0.588|=|0.004|TWO_SIDED|95.0|0.539|2.858|||ANCOVA|||Spine region BMD (Week 48)||2.858|0.539|= 0.004
92419822|NCT01723696|184728711|SUPERIORITY||Mean Difference (Final Values)|12.1||||0.19|TWO_SIDED|95.0|-6.1|30.3||P-value adjusted for design factors of site, gestational age at randomization and covariates of length, race, and sex of infant.|ANCOVA|||Our targeted sample size of 218 infants with successful FEFs at 3 months of age was determined to detect with 90% power, at a significance level of 0.05, increases of 15% in mean FEF75 in the vitamin C group compared to the placebo group.||30.3|-6.1|0.19
92419823|NCT01306877|184728716|NON_INFERIORITY_OR_EQUIVALENCE|The objective is to reject H0 at the 0.05 significance level. A one-sided 95% confidence upper limit for PC - PE will be constructed by Newcombe's generalized Wilson score method (Newcombe 1998). H0 will be rejected at the 0.05 significance level if this upper limit is \<7%.|Risk Difference (RD)|-0.314||||0.0001|ONE_SIDED|95.0||-0.18||P-value calculated from per protocol analysis set|Chi-squared|||||-0.18||0.0001
92419824|NCT01306877|184728720|SUPERIORITY_OR_OTHER|||||||0.1844|||||||Wilcoxon (Mann-Whitney)|||||||0.1844
92419825|NCT01306877|184728721|SUPERIORITY_OR_OTHER|||||||0.5647|||||||Wilcoxon (Mann-Whitney)|||||||0.5647
92419826|NCT01306877|184728722|SUPERIORITY_OR_OTHER|||||||0.9062|||||||Wilcoxon (Mann-Whitney)|||||||0.9062
92391988|NCT03201419|184683117|SUPERIORITY||Mean Difference|-0.818||||0.0019|TWO_SIDED|95.0|-1.331|-0.306||Threshold for significance at 0.05 level.|MMRM|||||-0.306|-1.331|0.0019
92391989|NCT03201419|184683117|SUPERIORITY||Mean Difference|0.167||||0.551|TWO_SIDED|95.0|-0.383|0.716||Threshold for significance at 0.05 level.|MMRM|||||0.716|-0.383|0.5510
92391990|NCT03201419|184683117|SUPERIORITY||Mean Difference|-0.038||||0.9086|TWO_SIDED|95.0|-0.685|0.61||Threshold for significance at 0.05 level.|MMRM|||||0.610|-0.685|0.9086
92391991|NCT03201419|184683117|SUPERIORITY||Mean Difference|-0.812||||0.0185|TWO_SIDED|95.0|-1.486|-0.138||Threshold for significance at 0.05 level.|MMRM|||||-0.138|-1.486|0.0185
92391992|NCT03201419|184683117|SUPERIORITY||Mean Difference|-0.106||||0.6537|TWO_SIDED|95.0|-0.569|0.357||Threshold for significance at 0.05 level.|MMRM|||||0.357|-0.569|0.6537
92391993|NCT03201419|184683118|SUPERIORITY||Least Square Mean Difference|-0.146||||0.235|TWO_SIDED|95.0|-0.388|0.096||Threshold for significance at 0.05 level.|MMRM|||||0.096|-0.388|0.2350
92391994|NCT03201419|184683118|SUPERIORITY||Least Square Mean Difference|-0.377||||0.0215|TWO_SIDED|95.0|-0.699|-0.056||Threshold for significance at 0.05 level.|MMRM|||||-0.056|-0.699|0.0215
92391995|NCT03201419|184683118|SUPERIORITY||Least Square Mean Difference|-0.218||||0.1818|TWO_SIDED|95.0|-0.54|0.103||Threshold for significance at 0.05 level.|MMRM|||||0.103|-0.540|0.1818
92391996|NCT03201419|184683118|SUPERIORITY||Least Square Mean Difference|-0.05||||0.8063|TWO_SIDED|95.0|-0.45|0.35||Threshold for significance at 0.05 level.|MMRM|||||0.350|-0.450|0.8063
92391997|NCT03201419|184683118|SUPERIORITY||Least Square Mean Difference|0.176||||0.4414|TWO_SIDED|95.0|-0.274|0.627||Threshold for significance at 0.05 level.|MMRM|||||0.627|-0.274|0.4414
92391998|NCT03201419|184683118|SUPERIORITY||Least Square Mean Difference|-0.126||||0.4179|TWO_SIDED|95.0|-0.432|0.18||Threshold for significance at 0.05 level.|MMRM|||||0.180|-0.432|0.4179
92391999|NCT03201419|184683119|SUPERIORITY||Least Square Mean Difference|0.061||||0.6042|TWO_SIDED|95.0|-0.17|0.292||Threshold for significance at 0.05 level.|MMRM|||||0.292|-0.170|0.6042
92392000|NCT03201419|184683119|SUPERIORITY||Least Square Mean Difference|-0.127||||0.4114|TWO_SIDED|95.0|-0.432|0.177||Threshold for significance at 0.05 level.|MMRM|||||0.177|-0.432|0.4114
92392001|NCT03201419|184683119|SUPERIORITY||Least Square Mean Difference|0.099||||0.5394|TWO_SIDED|95.0|-0.219|0.418||Threshold for significance at 0.05 level.|MMRM|||||0.418|-0.219|0.5394
92392002|NCT03201419|184683119|SUPERIORITY||Least Square Mean Difference|0.149||||0.459|TWO_SIDED|95.0|-0.246|0.544||Threshold for significance at 0.05 level.|MMRM|||||0.544|-0.246|0.4590
92392003|NCT03201419|184683119|SUPERIORITY||Least Square Mean Difference|0.242||||0.2397|TWO_SIDED|95.0|-0.163|0.647||Threshold for significance at 0.05 level.|MMRM|||||0.647|-0.163|0.2397
92392004|NCT03201419|184683119|SUPERIORITY||Least Square Mean Difference|-0.039||||0.7954|TWO_SIDED|95.0|-0.332|0.254||Threshold for significance at 0.05 level.|MMRM|||||0.254|-0.332|0.7954
92392005|NCT03201419|184683120|SUPERIORITY||Least Square Mean Difference|-0.332||||0.0077|TWO_SIDED|95.0|-0.576|-0.089||Threshold for significance at 0.05 level.|MMRM|||||-0.089|-0.576|0.0077
92392006|NCT03201419|184683120|SUPERIORITY||Least Square Mean Difference|-0.61||||0.0002|TWO_SIDED|95.0|-0.927|-0.293||Threshold for significance at 0.05 level.|MMRM|||||-0.293|-0.927|0.0002
92392007|NCT03201419|184683120|SUPERIORITY||Least Square Mean Difference|-0.026||||0.8778|TWO_SIDED|95.0|-0.352|0.301||Threshold for significance at 0.05 level.|MMRM|||||0.301|-0.352|0.8778
92392008|NCT03201419|184683120|SUPERIORITY||Least Square Mean Difference|0.157||||0.4309|TWO_SIDED|95.0|-0.235|0.549||Threshold for significance at 0.05 level.|MMRM|||||0.549|-0.235|0.4309
92392009|NCT03201419|184683120|SUPERIORITY||Least Square Mean Difference|-0.017||||0.9392|TWO_SIDED|95.0|-0.444|0.411||Threshold for significance at 0.05 level.|MMRM|||||0.411|-0.444|0.9392
92392010|NCT03201419|184683120|SUPERIORITY||Least Square Mean Difference|-0.213||||0.1734|TWO_SIDED|95.0|-0.521|0.094||Threshold for significance at 0.05 level.|MMRM|||||0.094|-0.521|0.1734
92392011|NCT03201419|184683121|SUPERIORITY||Least Square Mean Difference|-0.328||||0.0133|TWO_SIDED|95.0|-0.587|-0.069||Threshold for significance at 0.05 level.|MMRM|||||-0.069|-0.587|0.0133
92392012|NCT03201419|184683121|SUPERIORITY||Least Square Mean Difference|-0.484||||0.0048|TWO_SIDED|95.0|-0.819|-0.15||Threshold for significance at 0.05 level.|MMRM|||||-0.150|-0.819|0.0048
92392013|NCT03201419|184683121|SUPERIORITY||Least Square Mean Difference|-0.04||||0.8223|TWO_SIDED|95.0|-0.395|0.314||Threshold for significance at 0.05 level.|MMRM|||||0.314|-0.395|0.8223
92392014|NCT03201419|184683121|SUPERIORITY||Least Square Mean Difference|0.215||||0.3083|TWO_SIDED|95.0|-0.2|0.63||Threshold for significance at 0.05 level.|MMRM|||||0.630|-0.200|0.3083
92392015|NCT03201419|184683121|SUPERIORITY||Least Square Mean Difference|-0.315||||0.1556|TWO_SIDED|95.0|-0.75|0.121||Threshold for significance at 0.05 level.|MMRM|||||0.121|-0.750|0.1556
92392016|NCT03201419|184683121|SUPERIORITY||Least Square Mean Difference|-0.188||||0.2423|TWO_SIDED|95.0|-0.504|0.128||Threshold for significance at 0.05 level.|MMRM|||||0.128|-0.504|0.2423
92392017|NCT03201419|184683122|SUPERIORITY||Least Square Mean Difference|-0.079||||0.6381|TWO_SIDED|95.0|-0.409|0.251||Threshold for significance at 0.05 level.|MMRM|||||0.251|-0.409|0.6381
92392018|NCT03201419|184683122|SUPERIORITY||Least Square Mean Difference|-0.502||||0.0221|TWO_SIDED|95.0|-0.931|-0.073||Threshold for significance at 0.05 level.|MMRM|||||-0.073|-0.931|0.0221
92392019|NCT03201419|184683122|SUPERIORITY||Least Square Mean Difference|-0.177||||0.4112|TWO_SIDED|95.0|-0.602|0.247||Threshold for significance at 0.05 level.|MMRM|||||0.247|-0.602|0.4112
92392020|NCT03201419|184683122|SUPERIORITY||Least Square Mean Difference|0.112||||0.6761|TWO_SIDED|95.0|-0.416|0.64||Threshold for significance at 0.05 level.|MMRM|||||0.640|-0.416|0.6761
92392021|NCT03201419|184683122|SUPERIORITY||Least Square Mean Difference|0.224||||0.4898|TWO_SIDED|95.0|-0.414|0.861||Threshold for significance at 0.05 level.|MMRM|||||0.861|-0.414|0.4898
92392022|NCT03201419|184683122|SUPERIORITY||Least Square Mean Difference|0.194||||0.3311|TWO_SIDED|95.0|-0.198|0.585||Threshold for significance at 0.05 level.|MMRM|||||0.585|-0.198|0.3311
92392023|NCT03201419|184683123|SUPERIORITY||Least Square Mean Difference|-0.23||||0.1583|TWO_SIDED|95.0|-0.551|0.09||Threshold for significance at 0.05 level.|MMRM|||||0.090|-0.551|0.1583
92392024|NCT03201419|184683123|SUPERIORITY||Least Square Mean Difference|-0.275||||0.1884|TWO_SIDED|95.0|-0.685|0.136||Threshold for significance at 0.05 level.|MMRM|||||0.136|-0.685|0.1884
92392025|NCT03201419|184683123|SUPERIORITY||Least Square Mean Difference|-0.047||||0.8256|TWO_SIDED|95.0|-0.463|0.369||Threshold for significance at 0.05 level.|MMRM|||||0.369|-0.463|0.8256
92419827|NCT00491556|184728752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.08|STANDARD_DEVIATION|5.13|<|0.0001|TWO_SIDED|95.0|-12.2|-7.97|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48|Null hypothesis is no changes between Baseline and Week 48.||-7.97|-12.20|<0.0001
92419828|NCT00491556|184728753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81|STANDARD_DEVIATION|5.0||0.0834|TWO_SIDED|95.0|-3.87|0.26|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152|Null hypothesis is no changes between Week 48 and Week 152||0.26|-3.87|0.0834
92419829|NCT00491556|184728754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-317.36|STANDARD_DEVIATION|176.07|<|0.0001|TWO_SIDED|95.0|-390.04|-244.68|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48|Null hypothesis is no changes between Baseline and Week 48.||-244.68|-390.04|<0.0001
92419830|NCT00491556|184728755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.2|STANDARD_DEVIATION|242.38||0.6222|TWO_SIDED|95.0|-124.25|75.85|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152|Null hypothesis is no changes between Week 48 and Week 152||75.85|-124.25|0.6222
92392026|NCT03201419|184683123|SUPERIORITY||Least Square Mean Difference|0.059||||0.8198|TWO_SIDED|95.0|-0.455|0.574||Threshold for significance at 0.05 level.|MMRM|||||0.574|-0.455|0.8198
92392027|NCT03201419|184683123|SUPERIORITY||Least Square Mean Difference|-0.431||||0.1793|TWO_SIDED|95.0|-1.061|0.199||Threshold for significance at 0.05 level.|MMRM|||||0.199|-1.061|0.1793
92392028|NCT03201419|184683123|SUPERIORITY||Least Square Mean Difference|-0.196||||0.3155|TWO_SIDED|95.0|-0.581|0.189||Threshold for significance at 0.05 level.|MMRM|||||0.189|-0.581|0.3155
92392029|NCT03201419|184683124|SUPERIORITY||Least Square Mean Difference|-0.241||||0.183|TWO_SIDED|95.0|-0.596|0.114||Threshold for significance at 0.05 level.|MMRM|||||0.114|-0.596|0.1830
92392030|NCT03201419|184683124|SUPERIORITY||Least Square Mean Difference|-0.313||||0.1618|TWO_SIDED|95.0|-0.751|0.126||Threshold for significance at 0.05 level.|MMRM|||||0.126|-0.751|0.1618
92392031|NCT03201419|184683124|SUPERIORITY||Least Square Mean Difference|-0.26||||0.2519|TWO_SIDED|95.0|-0.706|0.186||Threshold for significance at 0.05 level.|MMRM|||||0.186|-0.706|0.2519
92392032|NCT03201419|184683124|SUPERIORITY||Least Square Mean Difference|0.232||||0.4044|TWO_SIDED|95.0|-0.316|0.781||Threshold for significance at 0.05 level.|MMRM|||||0.781|-0.316|0.4044
92392033|NCT03201419|184683124|SUPERIORITY||Least Square Mean Difference|-0.28||||0.4348|TWO_SIDED|95.0|-0.986|0.426||Threshold for significance at 0.05 level.|MMRM|||||0.426|-0.986|0.4348
92392034|NCT03201419|184683124|SUPERIORITY||Least Square Mean Difference|-0.15||||0.4786|TWO_SIDED|95.0|-0.565|0.266||Threshold for significance at 0.05 level.|MMRM|||||0.266|-0.565|0.4786
92392035|NCT03201419|184683125|SUPERIORITY||Least Square Mean Difference|-0.223||||0.2412|TWO_SIDED|95.0|-0.598|0.151||Threshold for significance at 0.05 level.|MMRM|||||0.151|-0.598|0.2412
92392036|NCT03201419|184683125|SUPERIORITY||Least Square Mean Difference|-0.48||||0.0501|TWO_SIDED|95.0|-0.959|0.0||Threshold for significance at 0.05 level.|MMRM|||||0.000|-0.959|0.0501
92392037|NCT03201419|184683125|SUPERIORITY||Least Square Mean Difference|0.069||||0.7788|TWO_SIDED|95.0|-0.417|0.556||Threshold for significance at 0.05 level.|MMRM|||||0.556|-0.417|0.7788
92392038|NCT03201419|184683125|SUPERIORITY||Least Square Mean Difference|-0.111||||0.7111|TWO_SIDED|95.0|-0.698|0.477||Threshold for significance at 0.05 level.|MMRM|||||0.477|-0.698|0.7111
92392039|NCT03201419|184683125|SUPERIORITY||Least Square Mean Difference|-0.205||||0.5816|TWO_SIDED|95.0|-0.937|0.527||Threshold for significance at 0.05 level.|MMRM|||||0.527|-0.937|0.5816
92392040|NCT03201419|184683125|SUPERIORITY||Least Square Mean Difference|-0.152||||0.4981|TWO_SIDED|95.0|-0.595|0.29||Threshold for significance at 0.05 level.|MMRM|||||0.290|-0.595|0.4981
92392041|NCT03201419|184683126|SUPERIORITY||Least Square Mean Difference|-1.313||||0.1733|TWO_SIDED|95.0|-3.207|0.582||Threshold for significance at 0.05 level.|MMRM|||||0.582|-3.207|0.1733
92392042|NCT03201419|184683126|SUPERIORITY||Least Square Mean Difference|-1.375||||0.2538|TWO_SIDED|95.0|-3.745|0.994||Threshold for significance at 0.05 level.|MMRM|||||0.994|-3.745|0.2538
92392043|NCT03201419|184683126|SUPERIORITY||Least Square Mean Difference|-0.353||||0.7782|TWO_SIDED|95.0|-2.818|2.113||Threshold for significance at 0.05 level.|MMRM|||||2.113|-2.818|0.7782
92392044|NCT03201419|184683126|SUPERIORITY||Least Square Mean Difference|-0.151||||0.9218|TWO_SIDED|95.0|-3.182|2.88||Threshold for significance at 0.05 level.|MMRM|||||2.880|-3.182|0.9218
92419831|NCT00491556|184728756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-58.79|STANDARD_DEVIATION|152.57||0.0781|TWO_SIDED|95.0|-124.77|7.18|||t-test, 2 sided|||Null hypothesis is no changes between Baseline and Week 48.||7.18|-124.77|0.0781
92392045|NCT03201419|184683126|SUPERIORITY||Least Square Mean Difference|0.767||||0.6823|TWO_SIDED|95.0|-2.923|4.457||Threshold for significance at 0.05 level.|MMRM|||||4.457|-2.923|0.6823
92392046|NCT03201419|184683126|SUPERIORITY||Least Square Mean Difference|-1.095||||0.3436|TWO_SIDED|95.0|-3.369|1.179||Threshold for significance at 0.05 level.|MMRM|||||1.179|-3.369|0.3436
92392047|NCT03201419|184683127|SUPERIORITY||Least Square Mean Difference|-1.235||||0.2042|TWO_SIDED|95.0|-3.146|0.676||Threshold for significance at 0.05 level.|MMRM|||||0.676|-3.146|0.2042
92392048|NCT03201419|184683127|SUPERIORITY||Least Square Mean Difference|-1.683||||0.1591|TWO_SIDED|95.0|-4.031|0.665||Threshold for significance at 0.05 level.|MMRM|||||0.665|-4.031|0.1591
92392049|NCT03201419|184683127|SUPERIORITY||Least Square Mean Difference|-0.285||||0.8168|TWO_SIDED|95.0|-2.708|2.138||Threshold for significance at 0.05 level.|MMRM|||||2.138|-2.708|0.8168
92392050|NCT03201419|184683127|SUPERIORITY||Least Square Mean Difference|-0.551||||0.7148|TWO_SIDED|95.0|-3.517|2.416||Threshold for significance at 0.05 level.|MMRM|||||2.416|-3.517|0.7148
92392051|NCT03201419|184683127|SUPERIORITY||Least Square Mean Difference|0.701||||0.7141|TWO_SIDED|95.0|-3.066|4.468||Threshold for significance at 0.05 level.|MMRM|||||4.468|-3.066|0.7141
92419832|NCT00491556|184728757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-103.53|STANDARD_DEVIATION|176.61||0.0102|TWO_SIDED|95.0|-179.9|-27.16|||t-test, 2 sided|||Null hypothesis is no changes between Week 48 and Week 152||-27.16|-179.90|0.0102
92419833|NCT00491556|184728758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.13|STANDARD_DEVIATION|56.72||0.1616|TWO_SIDED|95.0|-41.66|7.4|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48|Null hypothesis is no changes between Baseline and Week 48.||7.40|-41.66|0.1616
92419834|NCT00491556|184728759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.08|STANDARD_DEVIATION|75.17||0.0117|TWO_SIDED|95.0|-75.59|-10.58|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152|Null hypothesis is no changes between Week 48 and Week 152||-10.58|-75.59|0.0117
92419835|NCT00491556|184728760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-76.92|STANDARD_DEVIATION|56.31|<|0.0001|TWO_SIDED|95.0|-101.27|-52.57|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48|Null hypothesis is no changes between Week 48 and Week 152||-52.57|-101.27|< 0.0001
92419836|NCT00491556|184728761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.87|STANDARD_DEVIATION|68.75||0.2519|TWO_SIDED|95.0|-12.86|46.6|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152|Null hypothesis is no changes between Week 48 and Week 152||46.60|-12.86|0.2519
92419837|NCT00491556|184728762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-126.79|STANDARD_DEVIATION|105.61|<|0.0001|TWO_SIDED|95.0|-172.46|-81.12|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||-81.12|-172.46|< 0.0001
92419838|NCT00491556|184728763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|87.64|STANDARD_DEVIATION|97.71||0.0003|TWO_SIDED|95.0|45.39|129.9|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||129.90|45.39|0.0003
92419839|NCT00491556|184728764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.46|STANDARD_DEVIATION|213.77||0.3739|TWO_SIDED|95.0|-51.98|132.9|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||132.90|-51.98|0.3739
92419840|NCT00491556|184728765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-91.86|STANDARD_DEVIATION|166.4||0.0147|TWO_SIDED|95.0|-163.82|-19.9|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||-19.90|-163.82|0.0147
92419841|NCT00491556|184728766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|79.81|STANDARD_DEVIATION|76.07|<|0.0001|TWO_SIDED|95.0|46.92|112.71|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||112.71|46.92|< 0.0001
92419842|NCT00491556|184728767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.4|STANDARD_DEVIATION|58.18||0.1067|TWO_SIDED|95.0|-45.56|4.76|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||4.76|-45.56|0.1067
92419843|NCT00491556|184728768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|90.82|STANDARD_DEVIATION|107.8||0.0005|TWO_SIDED|95.0|44.2|137.43|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||137.43|44.20|0.0005
92419844|NCT00491556|184728769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.49|STANDARD_DEVIATION|64.41||0.0207|TWO_SIDED|95.0|5.64|61.34|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||61.34|5.64|0.0207
92392052|NCT03201419|184683127|SUPERIORITY||Least Square Mean Difference|-0.759||||0.5041|TWO_SIDED|95.0|-2.995|1.477||Threshold for significance at 0.05 level.|MMRM|||||1.477|-2.995|0.5041
92392053|NCT03201419|184683128|SUPERIORITY||Least Square Mean Difference|-1.129||||0.2896|TWO_SIDED|95.0|-3.226|0.967||Threshold for significance at 0.05 level.|MMRM|||||0.967|-3.226|0.2896
92392054|NCT03201419|184683128|SUPERIORITY||Least Square Mean Difference|-2.652||||0.0498|TWO_SIDED|95.0|-5.301|-0.003||Threshold for significance at 0.05 level.|MMRM|||||-0.003|-5.301|0.0498
92392055|NCT03201419|184683128|SUPERIORITY||Least Square Mean Difference|0.323||||0.8159|TWO_SIDED|95.0|-2.409|3.055||Threshold for significance at 0.05 level.|MMRM|||||3.055|-2.409|0.8159
92392056|NCT03201419|184683128|SUPERIORITY||Least Square Mean Difference|0.485||||0.7719|TWO_SIDED|95.0|-2.809|3.779||Threshold for significance at 0.05 level.|MMRM|||||3.779|-2.809|0.7719
92392057|NCT03201419|184683128|SUPERIORITY||Least Square Mean Difference|1.676||||0.4193|TWO_SIDED|95.0|-2.407|5.76||Threshold for significance at 0.05 level.|MMRM|||||5.760|-2.407|0.4193
92392058|NCT03201419|184683128|SUPERIORITY||Least Square Mean Difference|-1.23||||0.3333|TWO_SIDED|95.0|-3.73|1.27||Threshold for significance at 0.05 level.|MMRM|||||1.270|-3.730|0.3333
92392059|NCT03201419|184683129|SUPERIORITY||Mean Difference|41.8||||0.0853|TWO_SIDED|95.0|-5.9|89.6||Threshold for significance at 0.05 level.|MMRM|||||89.6|-5.9|0.0853
92392060|NCT03201419|184683129|SUPERIORITY||Mean Difference|105.9||||0.001|TWO_SIDED|95.0|43.4|168.4||Threshold for significance at 0.05 level.|MMRM|||||168.4|43.4|0.0010
92392061|NCT03201419|184683129|SUPERIORITY||Mean Difference|24.9||||0.4418|TWO_SIDED|95.0|-38.8|88.6||Threshold for significance at 0.05 level.|MMRM|||||88.6|-38.8|0.4418
92392062|NCT03201419|184683129|SUPERIORITY||Mean Difference|10.7||||0.7902|TWO_SIDED|95.0|-68.2|89.6||Threshold for significance at 0.05 level.|MMRM|||||89.6|-68.2|0.7902
92392063|NCT03201419|184683129|SUPERIORITY||Mean Difference|1.8||||0.9664|TWO_SIDED|95.0|-84.2|87.9||Threshold for significance at 0.05 level.|MMRM|||||87.9|-84.2|0.9664
92392064|NCT03201419|184683129|SUPERIORITY||Mean Difference|-29.8||||0.2977|TWO_SIDED|95.0|-85.9|26.4||Threshold for significance at 0.05 level.|MMRM|||||26.4|-85.9|0.2977
92392065|NCT03201419|184683130|SUPERIORITY||Mean Difference|14.3||||0.5523|TWO_SIDED|95.0|-33.0|61.5||Threshold for significance at 0.05 level.|MMRM|||||61.5|-33.0|0.5523
92419845|NCT00491556|184728770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.37|STANDARD_DEVIATION|145.62||0.2082|TWO_SIDED|95.0|-102.34|23.6|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Week 48 and Week 152.||23.60|-102.34|0.2082
92419846|NCT00491556|184728771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|86.98|STANDARD_DEVIATION|139.33||0.0067|TWO_SIDED|95.0|26.73|147.23|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||147.23|26.73|0.0067
92419847|NCT00491556|184728772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.07|STANDARD_DEVIATION|13.2|<|0.0001|TWO_SIDED|95.0|-23.78|-12.36|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||-12.36|-23.78|< 0.0001
92170067|NCT02214550|184229068|SUPERIORITY||Slope|0.086|STANDARD_ERROR_OF_MEAN|0.1||0.393|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter reported indicates time x group interaction (OCP vs. No OCP). PBS participants are included in the OCP group.|A linear mixed-effects model was estimated for parieto-occipital peak alpha (Hz) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The OCP vs No OCP contrast was estimated here:||||.393
92235788|NCT03114969|184374781|SUPERIORITY||Odds Ratio (OR)|1.95||||0.082|TWO_SIDED|95.0|0.918|4.142||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.142|0.918|0.082
92239743|NCT00696657|184383374|OTHER||Estimated treatment differences|-0.29|||||TWO_SIDED|95.0|-0.58|0.01|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.8 mg - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.01|-0.58|
92239744|NCT00696657|184383374|OTHER||Estimated treatment differences|0.08|||||TWO_SIDED|95.0|-0.22|0.37|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.4 mg - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.37|-0.22|
92392066|NCT03201419|184683130|SUPERIORITY||Mean Difference|60.8||||0.0556|TWO_SIDED|95.0|-1.5|123.0||Threshold for significance at 0.05 level.|MMRM|||||123.0|-1.5|0.0556
92392067|NCT03201419|184683130|SUPERIORITY||Mean Difference|-17.9||||0.5837|TWO_SIDED|95.0|-82.0|46.3||Threshold for significance at 0.05 level.|MMRM|||||46.3|-82.0|0.5837
92392068|NCT03201419|184683130|SUPERIORITY||Mean Difference|-60.7||||0.1363|TWO_SIDED|95.0|-140.7|19.3||Threshold for significance at 0.05 level.|MMRM|||||19.3|-140.7|0.1363
92392069|NCT03201419|184683130|SUPERIORITY||Mean Difference|-28.2||||0.4938|TWO_SIDED|95.0|-109.1|52.8||Threshold for significance at 0.05 level.|MMRM|||||52.8|-109.1|0.4938
92392070|NCT03201419|184683130|SUPERIORITY||Mean Difference|-54.7||||0.0535|TWO_SIDED|95.0|-110.2|0.8||Threshold for significance at 0.05 level.|MMRM|||||0.8|-110.2|0.0535
92392071|NCT03201419|184683131|SUPERIORITY||Mean Difference|-0.7||||0.9829|TWO_SIDED|95.0|-62.2|60.9||Threshold for significance at 0.05 level.|MMRM|||||60.9|-62.2|0.9829
92392072|NCT03201419|184683131|SUPERIORITY||Mean Difference|64.4||||0.1038|TWO_SIDED|95.0|-13.3|142.1||Threshold for significance at 0.05 level.|MMRM|||||142.1|-13.3|0.1038
92392073|NCT03201419|184683131|SUPERIORITY||Mean Difference|29.2||||0.4764|TWO_SIDED|95.0|-51.4|109.8||Threshold for significance at 0.05 level.|MMRM|||||109.8|-51.4|0.4764
92392074|NCT03201419|184683131|SUPERIORITY||Mean Difference|-24.2||||0.6204|TWO_SIDED|95.0|-120.5|72.0||Threshold for significance at 0.05 level.|MMRM|||||72.0|-120.5|0.6204
92392075|NCT03201419|184683131|SUPERIORITY||Mean Difference|2.2||||0.966|TWO_SIDED|95.0|-100.1|104.6||Threshold for significance at 0.05 level.|MMRM|||||104.6|-100.1|0.9660
92392076|NCT03201419|184683131|SUPERIORITY||Mean Difference|3.3||||0.9275|TWO_SIDED|95.0|-67.4|73.9||Threshold for significance at 0.05 level.|MMRM|||||73.9|-67.4|0.9275
92392077|NCT03201419|184683132|SUPERIORITY||Mean Difference|15.7||||0.5964|TWO_SIDED|95.0|-42.7|74.2||Threshold for significance at 0.05 level.|MMRM|||||74.2|-42.7|0.5964
92392078|NCT03201419|184683132|SUPERIORITY||Mean Difference|-2.8||||0.9418|TWO_SIDED|95.0|-78.5|72.9||Threshold for significance at 0.05 level.|MMRM|||||72.9|-78.5|0.9418
92392079|NCT03201419|184683132|SUPERIORITY||Mean Difference|18.0||||0.6452|TWO_SIDED|95.0|-58.8|94.7||Threshold for significance at 0.05 level.|MMRM|||||94.7|-58.8|0.6452
92392080|NCT03201419|184683132|SUPERIORITY||Mean Difference|-51.3||||0.2565|TWO_SIDED|95.0|-140.2|37.6||Threshold for significance at 0.05 level.|MMRM|||||37.6|-140.2|0.2565
92392081|NCT03201419|184683132|OTHER||Mean Difference|-21.6||||0.6605|TWO_SIDED|95.0|-118.6|75.4||Threshold for significance at 0.05 level.|MMRM|||||75.4|-118.6|0.6605
92392082|NCT03201419|184683132|SUPERIORITY||Mean Difference|3.4||||0.9191|TWO_SIDED|95.0|-62.6|69.4||Threshold for significance at 0.05 level.|MMRM|||||69.4|-62.6|0.9191
92392083|NCT03201419|184683133|SUPERIORITY||Mean Difference|17.52|||||TWO_SIDED|95.0|-6.19|62.09||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||62.09|-6.19|
92392084|NCT03201419|184683133|SUPERIORITY||Mean Difference|12.78|||||TWO_SIDED|95.0|-0.73|55.89||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||55.89|-0.73|
92392085|NCT03201419|184683133|SUPERIORITY||Mean Difference|8.5|||||TWO_SIDED|95.0|-0.14|47.28||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||47.28|-0.14|
92392086|NCT03201419|184683133|SUPERIORITY||Mean Difference|3.29|||||TWO_SIDED|95.0|-0.01|28.07||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||28.07|-0.01|
92392087|NCT03201419|184683133|SUPERIORITY||Mean Difference|1.74|||||TWO_SIDED|95.0|0.0|17.9||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||17.90|-0.00|
92392088|NCT03201419|184683133|SUPERIORITY||Mean Difference|0.68|||||TWO_SIDED|95.0|0.0|7.55||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||7.55|-0.00|
92392089|NCT03201419|184683134|SUPERIORITY||Mean Difference|-0.173||||0.0196|TWO_SIDED|95.0|-0.318|-0.028||Threshold for significance at 0.05 level.|MMRM|||||-0.028|-0.318|0.0196
92392090|NCT03201419|184683134|SUPERIORITY||Mean Difference|-0.233||||0.0167|TWO_SIDED|95.0|-0.423|-0.043||Threshold for significance at 0.05 level.|MMRM|||||-0.043|-0.423|0.0167
92392091|NCT03201419|184683134|SUPERIORITY||Mean Difference|-0.208||||0.0352|TWO_SIDED|95.0|-0.401|-0.015||Threshold for significance at 0.05 level.|MMRM|||||-0.015|-0.401|0.0352
92392092|NCT03201419|184683134|SUPERIORITY||Mean Difference|-0.057||||0.6402|TWO_SIDED|95.0|-0.295|0.182||Threshold for significance at 0.05 level.|MMRM|||||0.182|-0.295|0.6402
92392093|NCT03201419|184683134|SUPERIORITY||Mean Difference|-0.121||||0.3602|TWO_SIDED|95.0|-0.381|0.139||Threshold for significance at 0.05 level.|MMRM|||||0.139|-0.381|0.3602
92392094|NCT03201419|184683134|SUPERIORITY||Mean Difference|0.074||||0.4018|TWO_SIDED|95.0|-0.099|0.247||Threshold for significance at 0.05 level.|MMRM|||||0.247|-0.099|0.4018
92392095|NCT03201419|184683135|SUPERIORITY||Mean Difference|-0.133||||0.1354|TWO_SIDED|95.0|-0.308|0.042||Threshold for significance at 0.05 level.|MMRM|||||0.042|-0.308|0.1354
92392096|NCT03201419|184683135|SUPERIORITY||Mean Difference|-0.091||||0.4238|TWO_SIDED|95.0|-0.315|0.133||Threshold for significance at 0.05 level.|MMRM|||||0.133|-0.315|0.4238
92392097|NCT03201419|184683135|SUPERIORITY||Mean Difference|-0.22||||0.0574|TWO_SIDED|95.0|-0.446|0.007||Threshold for significance at 0.05 level.|MMRM|||||0.007|-0.446|0.0574
92392098|NCT03201419|184683135|SUPERIORITY||Mean Difference|0.058||||0.6579|TWO_SIDED|95.0|-0.199|0.315||Threshold for significance at 0.05 level.|MMRM|||||0.315|-0.199|0.6579
92419848|NCT00491556|184728773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.66|STANDARD_DEVIATION|14.2||0.5815|TWO_SIDED|95.0|-4.48|7.8|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||7.80|-4.48|0.5815
92419849|NCT00491556|184728774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.24|STANDARD_DEVIATION|7.82|<|0.0001|TWO_SIDED|95.0|7.85|14.62|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||14.62|7.85|< 0.0001
92419850|NCT00491556|184728775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.87|STANDARD_DEVIATION|6.93||0.0594|TWO_SIDED|95.0|-5.87|0.12|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||0.12|-5.87|0.0594
92419851|NCT00491556|184728776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.58|STANDARD_DEVIATION|10.24||0.0001|TWO_SIDED|95.0|8.15|17.01|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||17.01|8.15|0.0001
92419852|NCT00491556|184728777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.93|STANDARD_DEVIATION|10.95||0.0995|TWO_SIDED|95.0|-0.81|8.66|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||8.66|-0.81|0.0995
92392099|NCT03201419|184683135|SUPERIORITY||Mean Difference|-0.17||||0.2337|TWO_SIDED|95.0|-0.45|0.11||Threshold for significance at 0.05 level.|MMRM|||||0.110|-0.450|0.2337
92392100|NCT03201419|184683135|SUPERIORITY||Mean Difference|-0.136||||0.1639|TWO_SIDED|95.0|-0.328|0.056||Threshold for significance at 0.05 level.|MMRM|||||0.056|-0.328|0.1639
92392101|NCT03201419|184683136|SUPERIORITY||Mean Difference|-87.2||||0.047|TWO_SIDED|95.0|-173.2|-1.2|||MMRM|||||-1.2|-173.2|0.0470
92392102|NCT03201419|184683136|SUPERIORITY||Mean Difference|-130.2||||0.0237|TWO_SIDED|95.0|-242.9|-17.6|||MMRM|||||-17.6|-242.9|0.0237
92419853|NCT00491556|184728778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.95|STANDARD_DEVIATION|2.07||0.0002|TWO_SIDED|95.0|1.05|2.84|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||2.84|1.05|0.0002
92419854|NCT00491556|184728779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|1.49||0.915|TWO_SIDED|95.0|-0.61|0.68|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||0.68|-0.61|0.9150
92419855|NCT00491556|184728780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.52|STANDARD_DEVIATION|13.79|<|0.0001|TWO_SIDED|95.0|-29.48|-17.55|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||-17.55|-29.48|< 0.0001
92419856|NCT00491556|184728781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.95|STANDARD_DEVIATION|16.96||0.5864|TWO_SIDED|95.0|-5.38|9.28|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||9.28|-5.38|0.5864
92419857|NCT00491556|184728782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.98|STANDARD_DEVIATION|8.48|<|0.0001|TWO_SIDED|95.0|18.31|25.65|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||25.65|18.31|< 0.0001
92392103|NCT03201419|184683136|SUPERIORITY||Mean Difference|-110.8||||0.0569|TWO_SIDED|95.0|-224.9|3.3|||MMRM|||||3.3|-224.9|0.0569
92392104|NCT03201419|184683136|SUPERIORITY||Mean Difference|-23.9||||0.7383|TWO_SIDED|95.0|-164.8|117.0|||MMRM|||||117.0|-164.8|0.7383
92392105|NCT03201419|184683136|SUPERIORITY||Mean Difference|-71.0||||0.3626|TWO_SIDED|95.0|-224.3|82.3|||MMRM|||||82.3|-224.3|0.3626
92392106|NCT03201419|184683136|SUPERIORITY||Mean Difference|23.4||||0.6524|TWO_SIDED|95.0|-78.9|125.7|||MMRM|||||125.7|-78.9|0.6524
92392107|NCT03201419|184683137|SUPERIORITY||Mean Difference|-49.5||||0.3273|TWO_SIDED|95.0|-148.9|49.9||Threshold for significance at 0.05 level.|MMRM|||||49.9|-148.9|0.3273
92392108|NCT03201419|184683137|SUPERIORITY||Mean Difference|-74.6||||0.25|TWO_SIDED|95.0|-202.0|52.9||Threshold for significance at 0.05 level.|MMRM|||||52.9|-202.0|0.2500
92392109|NCT03201419|184683137|SUPERIORITY||Mean Difference|-93.5||||0.1537|TWO_SIDED|95.0|-222.3|35.2||Threshold for significance at 0.05 level.|MMRM|||||35.2|-222.3|0.1537
92392110|NCT03201419|184683137|SUPERIORITY||Mean Difference|33.6||||0.6515|TWO_SIDED|95.0|-113.1|180.3||Threshold for significance at 0.05 level.|MMRM|||||180.3|-113.1|0.6515
92392111|NCT03201419|184683137|SUPERIORITY||Mean Difference|-75.7||||0.3506|TWO_SIDED|95.0|-235.3|83.9||Threshold for significance at 0.05 level.|MMRM|||||83.9|-235.3|0.3506
92392112|NCT03201419|184683137|SUPERIORITY||Mean Difference|-85.4||||0.1255|TWO_SIDED|95.0|-194.8|24.1||Threshold for significance at 0.05 level.|MMRM|||||24.1|-194.8|0.1255
92392113|NCT02701283|184683158|NON_INFERIORITY|Absolute non-inferiority margin was 0.06|Posterior Median of the Difference|0.999|||||TWO_SIDED|95.0||||The posterior probability of non-inferiority is \> 0.999. The posterior probability is the probability of the event rate by updating the prior probability distribution with observed data at the interim analysis using Bayes' Theorem.|Bayesian||95% Bayesian credible interval for the difference (TAVR-SAVR) was (-4.4%, 0.4%). The 95% credible interval is the 2.5th and 97.5th percentiles of the posterior distribution.|Primary Hypothesis: TAVR with the Medtronic TAVR system is non-inferior to SAVR for all-cause mortality or disabling stroke rate during a fixed follow-up of 24 months for the Randomized Controlled Trial||||
92392114|NCT04266795|184683191|SUPERIORITY||Hazard Ratio (HR)|0.99|||=|0.477|TWO_SIDED|95.0|0.61|1.6|||Log Rank|P-value was comparison of EFS between treatment groups and was based on the 1-sided stratified log-rank test statistic.|Hazard ratio was based on an unadjusted stratified Cox proportional hazard regression model with stratification factors (randomization strata of age and AML subtype) and treatment as a factor in the model.|||1.60|0.61|=0.477
92235789|NCT03114969|184374781|SUPERIORITY||Odds Ratio (OR)|2.415||||0.018|TWO_SIDED|95.0|1.161|5.024||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||5.024|1.161|0.018
92392115|NCT00699660|184683208|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Comparison of CAPS/WHODAS vs Nonstructured Interview study arms: linear and logistic mixed effects regression with clinical examiner stratified by study group as a random effect and study group as a fixed effect.|Regression, Linear|Covariates included experience, use of template,tests,reviewing records,age,education, study site,reviewer, and expert reviewer by group interaction.||Our sample size calculation yielded 466 for a power of 0.80 to detect a 10% absolute difference in sensitivity and adjusted for intraclass correlation. The number of covariates in regression models was limited to ensure the effective sample size remained ten times greater than the degrees of freedom in the model.||||<.001
92392116|NCT00699660|184683209|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Regression, Logistic|||||||<.01
92392117|NCT00699660|184683210|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Descriptive statistics on mean and standard deviation.|t-test, 2 sided|||||||>.05
92392118|NCT00699660|184683211|SUPERIORITY_OR_OTHER||Slope|47.3|STANDARD_ERROR_OF_MEAN|18.86||0.012|TWO_SIDED|||||0.05 level based on a two tailed test.|Regression, Linear|Covariates included years of experience, use of template, use of tests, age, education, study site.||Estimates of the influence on total time and tests of statistical significance were derived from multilevel mixed-effects linear regression (xtmixed in Stata)||||.012
92392119|NCT03160898|184683220|SUPERIORITY||least squares mean treatment difference|1.61|STANDARD_ERROR_OF_MEAN|1.003||0.1095|TWO_SIDED|95.0|-0.36|3.58|||Mixed Models Analysis|Analyzed by an MMRM with contrast (-5, -1, 3, 3) to reflect the assumed relationship for the 4 groups: placebo, 150, 300, and 450 mg twice daily.||"The statistical null hypothesis was as follows: there was no assumed dose-response relationship in percent predicted SVC change from baseline to Week 12 among all three active doses and placebo, expressed as:~H0: -5 x µ placebo - 1 x µ 150 mg twice daily + 3 x µ 300 mg twice daily + 3 x µ 450 mg twice daily = 0 where µ was the mean of the efficacy endpoint for the designated group."||3.58|-0.36|0.1095
92392120|NCT03160898|184683220|SUPERIORITY||Least squares mean difference|1.49|STANDARD_ERROR_OF_MEAN|1.291||0.2501|TWO_SIDED|95.0|-1.05|4.03|||Mixed Models Analysis|||||4.03|-1.05|0.2501
92392121|NCT03160898|184683220|SUPERIORITY||Least squares mean difference|1.84|STANDARD_ERROR_OF_MEAN|1.29||0.1549|TWO_SIDED|95.0|-0.7|4.38|||Mixed Models Analysis|||||4.38|-0.7|0.1549
92392122|NCT03160898|184683220|SUPERIORITY||Least squares mean difference|1.88|STANDARD_ERROR_OF_MEAN|1.274||0.1417|TWO_SIDED|95.0|-0.63|4.38|||Mixed Models Analysis|||||4.38|-0.63|0.1417
92392123|NCT03160898|184683220|SUPERIORITY||Least squares mean difference|1.86|STANDARD_ERROR_OF_MEAN|1.115||0.0964|TWO_SIDED|95.0|-0.33|4.05|||Mixed Models Analysis|||||4.05|-0.33|0.0964
92392124|NCT03160898|184683221|SUPERIORITY||Least squares mean difference|0.56|STANDARD_ERROR_OF_MEAN|0.335||0.093|TWO_SIDED|95.0|-0.09|1.22|||Mixed Models Analysis|Analyzed by an MMRM with contrast (-5, -1, 3, 3) to reflect the assumed relationship for the 4 groups: placebo, 150, 300, and 450 mg twice daily.||||1.22|-0.09|0.0930
92392125|NCT03160898|184683221|SUPERIORITY||Least squares mean difference|1.13|STANDARD_ERROR_OF_MEAN|0.427||0.0087|TWO_SIDED|95.0|0.29|1.97|||Mixed Models Analysis|||||1.97|0.29|0.0087
92392126|NCT03160898|184683221|SUPERIORITY||Least squares mean difference|0.91|STANDARD_ERROR_OF_MEAN|0.43||0.0351|TWO_SIDED|95.0|0.06|1.75|||Mixed Models Analysis|||||1.75|0.06|0.0351
92392127|NCT03160898|184683221|SUPERIORITY||Least squares mean difference|0.59|STANDARD_ERROR_OF_MEAN|0.425||0.1642|TWO_SIDED|95.0|-0.24|1.43|||Mixed Models Analysis|||||1.43|-0.24|0.1642
92392128|NCT03160898|184683221|SUPERIORITY||Least squares mean difference|0.75|STANDARD_ERROR_OF_MEAN|0.371||0.0435|TWO_SIDED|95.0|0.02|1.48|||Mixed Models Analysis|||||1.48|0.02|0.0435
92392129|NCT03160898|184683222|SUPERIORITY||Slope difference|0.0276|STANDARD_ERROR_OF_MEAN|0.02734||0.3134|TWO_SIDED|95.0|-0.0261|0.0813|||Mixed Models Analysis|Analyzed by an MMRM with contrast (-5, -1, 3, 3) to reflect the assumed relationship for the 4 groups: placebo, 150, 300, and 450 mg twice daily.||||0.0813|-0.0261|0.3134
92392130|NCT03160898|184683222|SUPERIORITY||Least squares mean difference|0.0246||||0.4824|TWO_SIDED|95.0|-0.0442|0.0935|||Mixed Models Analysis|||||0.0935|-0.0442|0.4824
92392131|NCT03160898|184683222|SUPERIORITY||Least squares mean difference|0.0146||||0.6787|TWO_SIDED|95.0|-0.0544|0.0835|||Mixed Models Analysis|||||0.0835|-0.0544|0.6787
92392132|NCT03160898|184683222|SUPERIORITY||Least squares mean difference|0.0488||||0.1604|TWO_SIDED|95.0|-0.0194|0.1171|||Mixed Models Analysis|||||0.1171|-0.0194|0.1604
92392133|NCT03160898|184683222|SUPERIORITY||Least squares mean difference|0.0317||||0.2966|TWO_SIDED|95.0|-0.0279|0.0913|||Mixed Models Analysis|||||0.0913|-0.0279|0.2966
92392134|NCT00549445|184683289|OTHER|Student t test||||||0.045||||||Threshold for significance is P-Value \< 0.05|t-test, 1 sided|||||||0.045
92419858|NCT00491556|184728783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_DEVIATION|7.25||0.1592|TWO_SIDED|95.0|-5.34|0.93|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||0.93|-5.34|0.1592
92419859|NCT00491556|184728784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.97|STANDARD_DEVIATION|11.04||0.042|TWO_SIDED|95.0|0.2|9.74|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||9.74|0.20|0.0420
92419860|NCT00491556|184728785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_DEVIATION|12.39||0.4029|TWO_SIDED|95.0|-7.56|3.16|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||3.16|-7.56|0.4029
92419861|NCT00491556|184728786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.6|STANDARD_DEVIATION|6.03|<|0.0001|TWO_SIDED|95.0|11.99|17.21|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||17.21|11.99|< 0.0001
92419862|NCT00491556|184728787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.14|STANDARD_DEVIATION|6.2||0.0239|TWO_SIDED|95.0|-5.81|-0.46|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||-0.46|-5.81|0.0239
92392135|NCT03932760|184683290|OTHER|Mean differences at the tested timepoints between VCI and AC. Models were also examined with the covariates of medication use and pregnant/post-partum status.|Mean estimates by time|0.913|STANDARD_ERROR_OF_MEAN|1.085||0.612|TWO_SIDED|95.0|-1.228|3.055|||Mixed Models Analysis||Time was treated as a categorical variable to allow for non-linear change over time. We present group, time, and group\*time estimates and their associated SE and CIs below. AC group and baseline timepoint are the reference categories.|We used multilevel generalized mixed modeling under an intent-to-treat approach to compare the outcome measures of EPDS between group 1 (VCI) and Group 2 (AC) at 6 time points during pregnancy and postpartum controlling for screening EPDS score. We powered for the fixed effect of Intervention X Time using RMANOVA with alpha = 0.5, 6 time points, 0.3 for correlation between repeated measures, and a sample size of 192 total participants gives greater than 90% power to detect an effect size of 0.1.|"Overall test of significance for Fixed Effects. Higher EPDS scores signify worsened symptoms of depression. Time uses start of study as reference controlling for screen EPDS.~Group VCI (AC reference): F=0.260, p=0.612~Time (Baseline as reference): F=9.021, p\<0.001~Group\*Time: F=0.537, p=0.748~Estimates for group, time, and group\*time interactions~Group:~Estimate=0.913 (SE=1.085) \[CI LB=-1.228, UB=3.055\]~Time:~Post: estimate=-2.766 (0.853) \[-4.445, -1.087\]~2 months: estimate=-1.517 (0.862) \[-3.214, 0.180\]~4 months: estimate=-3.186 (0.862) \[-4.883, -1.489\]~6 months: estimate=-2.781 (0.872) \[-4.498, -1.065\]~8 months: estimate=-3.103 (0.872) \[-4.819, -1.386\]~Group\*Time:~Post: estimate=-1.157 (1.214) \[-3.547, 1.232\]~2 months: estimate=-1.361 (1.210) \[-3.742, 1.019\]~4 months: estimate= 0.183 (1.209) \[-2.196, 2.562\]~6 months: estimate=-0.508 (1.223) \[-2.914, 1.898\]~8 months: estimate=-0.127 (1.220) \[-2.529, 2.275\]"|3.055|-1.228|0.612
92392136|NCT03932760|184683291|OTHER|Mean differences at the tested timepoints between VCI and AC. Models were also examined with the covariates of medication use and pregnant/post-partum status.|Mean estimates by time|0.016|STANDARD_ERROR_OF_MEAN|0.859||0.558|TWO_SIDED|95.0|-1.709|1.677|||Mixed Models Analysis||Time was treated as a categorical variable to allow for non-linear change over time. We present group, time, and group\*time estimates and their associated SE and CIs below. AC group and baseline timepoint are the reference categories.|We used multilevel generalized mixed modeling under an intent-to-treat approach to compare the outcome measures of GAD-7 between group 1 (VCI) and Group 2 (AC) at 6 time points during pregnancy and postpartum. We powered for the fixed effect of Intervention X Time using RMANOVA with alpha = 0.5, 6 time points, 0.3 for correlation between repeated measures, and a sample size of 192 total participants gives greater than 90% power to detect an effect size of 0.1.|"Overall test of significance for Fixed Effects. Higher GAD-7 scores signify worsened symptoms of depression.~Group VCI (AC reference): F=0.347, p=0.558~Time (Baseline as reference): F=4.973, p\<0.001~Group\*Time: F=0.417, p=0.837~Estimates for group, time, and group\*time interactions~Group:~Estimate=-0.0160 (SE=0.859) \[CI LB=-1.709, UB=1.677\]~Time:~Post: estimate=-1.780 (0.708) \[-3.173, -0.387\]~2 months: estimate=-0.615 (0.715) \[-2.023, 0.792\]~4 months: estimate=-1.416 (0.715) \[-2.824, -0.008\]~6 months: estimate=-1.625 (0.723) \[-3.049, -0.201\]~8 months: estimate=-1.542 (0.723) \[-2.966, -0.118\]~Group\*Time:~Post: estimate=-1.157 (1.214) \[-3.547, 1.232\]~2 months: estimate=-1.361 (1.210) \[-3.742, 1.019\]~4 months: estimate= 0.183 (1.209) \[-2.196, 2.562\]~6 months: estimate=-0.508 (1.223) \[-2.914, 1.898\]~8 months: estimate=-0.127 (1.220) \[-2.529, 2.275\]"|1.677|-1.709|0.558
92392137|NCT04437485|184683320|SUPERIORITY|||||||0.64|||||||ANCOVA|ANCOVA models were run on post-treatment outcome level adjusting for baseline somatic depressive symptoms group (a stratification variable).||||||0.64
92392138|NCT04437485|184683321|SUPERIORITY|||||||0.046|||||||ANCOVA|ANCOVA models were run on post-treatment outcome level adjusting for baseline somatic depressive symptoms group (a stratification variable).||||||0.046
92392139|NCT04437485|184683322|SUPERIORITY|||||||0.09|||||||ANCOVA|ANCOVA models were run on post-treatment outcome level adjusting for baseline somatic depressive symptoms group (a stratification variable).||||||0.09
92392140|NCT00527735|184683347|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.806||||0.1302|TWO_SIDED|95.0|0.553|1.174|||1-sided log rank|||||1.174|0.553|0.1302
92392141|NCT00527735|184683347|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.724||||0.0473|TWO_SIDED|95.0|0.495|1.059|||1-sided log rank|||||1.059|0.495|0.0473
92392142|NCT00527735|184683348|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.882||||0.2502|TWO_SIDED|95.0|0.612|1.271|||One-sided log rank|||||1.271|0.612|0.2502
92392143|NCT00527735|184683348|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.691||||0.024|TWO_SIDED|95.0|0.478|0.999|||One-sided log rank|||||0.999|0.478|0.0240
92392144|NCT00527735|184683349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.988||||0.4759|TWO_SIDED|95.0|0.669|1.46|||1-sided log rank|||||1.460|0.669|0.4759
92392145|NCT00527735|184683349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.866||||0.234|TWO_SIDED|95.0|0.587|1.278|||1-sided log rank|||||1.278|0.587|0.2340
92392146|NCT00527735|184683356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.751||||0.1098|TWO_SIDED|95.0|0.475|1.188|||1-sided log rank|||||1.188|0.475|0.1098
92419863|NCT00491556|184728788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.35|STANDARD_DEVIATION|10.26|<|0.0001|TWO_SIDED|95.0|-23.79|-14.91|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||-14.91|-23.79|< 0.0001
92239745|NCT00696657|184383374|OTHER||Estimated treatment differences|0.28|||||TWO_SIDED|95.0|-0.02|0.57|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.2 mg - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.57|-0.02|
92392147|NCT00527735|184683356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.0282|TWO_SIDED|95.0|0.403|1.1016|||1-sided log rank|||||1.1016|0.403|0.0282
92392148|NCT00527735|184683365|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.933||||0.3846|TWO_SIDED|95.0|0.588|1.481|||1-sided Log Rank|||||1.481|0.588|0.3846
92392149|NCT00527735|184683365|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.927||||0.37|TWO_SIDED|95.0|0.591|1.453|||1-sided Log Rank|||||1.453|0.591|0.3700
92392150|NCT00527735|184683368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.947||||0.4132|TWO_SIDED|95.0|0.585|1.536|||1-sided Log Rank|||||1.536|0.585|0.4132
92392151|NCT00527735|184683368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.753||||0.1287|TWO_SIDED|95.0|0.461|1.232|||1-sided Log Rank|||||1.232|0.461|0.1287
92392152|NCT00181363|184683374|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92419864|NCT00491556|184728789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.45|STANDARD_DEVIATION|13.6||0.2363|TWO_SIDED|95.0|-9.33|2.43|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||2.43|-9.33|0.2363
92419865|NCT00491556|184728790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.69|STANDARD_DEVIATION|8.7|<|0.0001|TWO_SIDED|95.0|15.93|23.45|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||23.45|15.93|< 0.0001
92419866|NCT00491556|184728791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.03|STANDARD_ERROR_OF_MEAN|5.55||0.0929|TWO_SIDED|95.0|-4.43|0.37|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||0.37|-4.43|0.0929
92419867|NCT00491556|184728792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.53|STANDARD_DEVIATION|8.94||0.1886|TWO_SIDED|95.0|-6.4|1.34|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||1.34|-6.40|0.1886
92419868|NCT00491556|184728793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.87|STANDARD_DEVIATION|8.13||0.2831|TWO_SIDED|95.0|-1.65|5.38|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||5.38|-1.65|0.2831
92419869|NCT00491556|184728794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.52|STANDARD_DEVIATION|5.59|<|0.0001|TWO_SIDED|95.0|9.1|13.94|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||13.94|9.10|< 0.0001
92419870|NCT00491556|184728795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.21|STANDARD_DEVIATION|5.88||0.0157|TWO_SIDED|95.0|-5.75|-0.67|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||-0.67|-5.75|0.0157
92419871|NCT00491556|184728796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.65|STANDARD_DEVIATION|12.93|<|0.0001|TWO_SIDED|95.0|-28.24|-17.06|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||-17.06|-28.24|< 0.0001
92419872|NCT00491556|184728797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.23|STANDARD_DEVIATION|15.37||0.1999|TWO_SIDED|95.0|-2.41|10.88|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||10.88|-2.41|0.1999
92419873|NCT00491556|184728798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.47|STANDARD_DEVIATION|6.81|<|0.0001|TWO_SIDED|95.0|9.52|15.41|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||15.41|9.52|< 0.0001
92239746|NCT00696657|184383374|OTHER||Estimated treatment differences|0.59|||||TWO_SIDED|95.0|0.31|0.88|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.1 mg - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.88|0.31|
92419874|NCT00491556|184728799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.95|STANDARD_DEVIATION|5.12||0.0808|TWO_SIDED|95.0|-4.17|0.26|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||0.26|-4.17|0.0808
92419875|NCT00491556|184728800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7|STANDARD_DEVIATION|13.83||0.0005|TWO_SIDED|95.0|5.72|17.69|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||17.69|5.72|0.0005
92419876|NCT00491556|184728801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|14.12||0.9198|TWO_SIDED|95.0|-6.41|5.81|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||5.81|-6.41|0.9198
92419877|NCT00491556|184728802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.69|STANDARD_DEVIATION|2.97|<|0.0001|TWO_SIDED|95.0|2.4|4.97|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||4.97|2.40|< 0.0001
92419878|NCT00491556|184728803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31|STANDARD_DEVIATION|2.54||0.0215|TWO_SIDED|95.0|-2.41|-0.21|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||-0.21|-2.41|0.0215
92419879|NCT04480424|184728804|SUPERIORITY||Risk Difference|-4.0||||0.8275|TWO_SIDED|95.0|-22.3|14.5||p-value was calculated using Fisher's exact method with 5% level of significance to test the null hypothesis of no difference in mortality rate between the two treatment groups.|Fisher Exact|||||14.5|-22.3|0.8275
92419880|NCT04480424|184728805|SUPERIORITY|||||||0.8599||||||p-value was calculated using Gray's test for equality of the Cumulative Incidence Function (CIF) between treatment groups.|Gray's test|||||||0.8599
92419881|NCT04480424|184728806|SUPERIORITY||Least Square Mean (LSM) Difference|2.58||||0.2626|TWO_SIDED|95.0|-1.96|7.12||p-value was calculated using an Analysis of Variance (ANOVA) model, including the number of days on mechanical ventilation as a dependent variable and treatment group as a fixed effect.|ANOVA|||||7.12|-1.96|0.2626
92419882|NCT04480424|184728807|SUPERIORITY|||||||0.6854||||||p-value was calculated using Gray's test for equality of the CIF between treatment groups.|Gray's test|||||||0.6854
92419883|NCT04480424|184728808|SUPERIORITY||LSM Difference|-0.02||||0.9917|TWO_SIDED|95.0|-3.82|3.78||95% CI for difference in least square mean (LSM) between treatment groups and the associated p-value were calculated using an ANOVA model, including the number of days on oxygen as a dependent variable and treatment group as a fixed effect.|ANOVA|||||3.78|-3.82|0.9917
92419884|NCT04480424|184728809|SUPERIORITY||LSM Difference|0.05||||0.7557|TWO_SIDED|95.0|-0.29|0.4|||Kenward-Roger|p-value were calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.||||0.40|-0.29|0.7557
92419885|NCT04480424|184728810|SUPERIORITY||LSM Difference|0.4||||0.0922|TWO_SIDED|95.0|-0.07|0.86||p-value were calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Kenward-Roger|||||0.86|-0.07|0.0922
92419886|NCT04480424|184728814|SUPERIORITY||Kenward-Roger|0.4||||0.3611|TWO_SIDED|95.0|-0.47|1.28||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|LSM Difference|||||1.28|-0.47|0.3611
92419887|NCT04480424|184728814|SUPERIORITY||Kenward-Roger|-0.1||||0.9238|TWO_SIDED|95.0|-2.13|1.94||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|LSM Difference|||||1.94|-2.13|0.9238
92419888|NCT04480424|184728814|SUPERIORITY||Kenward-Roger|0.08||||0.9541|TWO_SIDED|95.0|-2.58|2.73||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|LSM Difference|||||2.73|-2.58|0.9541
92419889|NCT04480424|184728815|SUPERIORITY||LSM Difference|0.06||||0.9366|TWO_SIDED|95.0|-1.42|1.53||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|LSM Difference|||||1.53|-1.42|0.9366
92419890|NCT00734747|184728820|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<.001
92235790|NCT03114969|184374782|SUPERIORITY||Odds Ratio (OR)|1.51||||0.472|TWO_SIDED|95.0|0.492|4.633||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.633|0.492|0.472
92235791|NCT03114969|184374782|SUPERIORITY||Odds Ratio (OR)|1.402||||0.553|TWO_SIDED|95.0|0.459|4.283||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.283|0.459|0.553
92419891|NCT04233034|184728832|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.89|TWO_SIDED|95.0|-0.11|0.1|||Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and drug group as fixed effects and clinical site as a random effect.|Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.10|-0.11|0.89
92392153|NCT00181363|184683375|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92392154|NCT00181363|184683376|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92392155|NCT00181363|184683377|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92392156|NCT00181363|184683378|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92392157|NCT01276639|184683384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.46|||<|0.0001|TWO_SIDED|95.0|4.4|15.03||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||15.03|4.40|<0.0001
92419892|NCT04233034|184728832|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.04|TWO_SIDED|95.0|0.01|0.27|||Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and Intensive group as fixed effects and clinical site as a random effect.|Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.27|0.01|0.04
92419893|NCT04233034|184728833|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.8|TWO_SIDED|95.0|-0.1|0.08||P-value adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and drug group as fixed effects and clinical site as a random effect.|Mean difference (HCL - Non-HCL) at 13 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.08|-0.10|0.80
92419894|NCT04233034|184728833|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.8|TWO_SIDED|95.0|-0.08|0.13||P-value adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and drug group as fixed effects and clinical site as a random effect.|Mean difference (HCL - Non-HCL) at 26 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.13|-0.08|0.80
92419895|NCT04233034|184728833|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.8|TWO_SIDED|95.0|-0.13|0.09||P-value was adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and drug group as fixed effects and clinical site as a random effect.|Mean difference (HCL - Non-HCL) at 39 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.09|-0.13|0.80
92419896|NCT04233034|184728833|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.69|TWO_SIDED|95.0|-0.09|0.13||P-value adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and Intensive group as fixed effects and clinical site as a random effect.|Mean difference (Verapamil - Placebo) at 13 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.13|-0.09|0.69
92419897|NCT04233034|184728833|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.08|TWO_SIDED|95.0|-0.02|0.25||P-value was adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and Intensive group as fixed effects and clinical site as a random effect.|Mean difference (Verapamil - Placebo) at 26 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.25|-0.02|0.08
92419898|NCT04233034|184728833|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.08|TWO_SIDED|95.0|-0.01|0.28||P-value adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and Intensive group as fixed effects and clinical site as a random effect.|Mean difference (Verapamil - Placebo) at 39 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.28|-0.01|0.08
92419899|NCT04233034|184728836|SUPERIORITY||Mean Difference (Final Values)|-25.0|||<|0.001|TWO_SIDED|95.0|-37.0|-14.0|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||-14|-37|<0.001
92419900|NCT04233034|184728836|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.74|TWO_SIDED|95.0|-25.0|16.0|||Mixed Models Analysis||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||16|-25|0.74
92419901|NCT04233034|184728837|SUPERIORITY||Mean Difference (Final Values)|16.0|||<|0.001|TWO_SIDED|95.0|10.0|22.0|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||22|10|<0.001
92392158|NCT01276639|184683384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.45|||<|0.0001|TWO_SIDED|95.0|9.01|31.88||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||31.88|9.01|<0.0001
92392159|NCT01276639|184683384|SUPERIORITY_OR_OTHER||Percent difference|17.29|STANDARD_ERROR_OF_MEAN|3.66|<|0.0001|TWO_SIDED|95.0|10.11|24.47|||Normal approximation|||||24.47|10.11|<0.0001
92392160|NCT01276639|184683385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.93|||<|0.0001|TWO_SIDED|95.0|5.25|21.84||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||21.84|5.25|<0.0001
92392161|NCT01276639|184683385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.81|||<|0.0001|TWO_SIDED|95.0|11.9|49.86||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||49.86|11.90|<0.0001
92419902|NCT04233034|184728837|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.74|TWO_SIDED|95.0|-9.0|13.0|||Mixed Models Analysis||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||13|-9|0.74
92419903|NCT04233034|184728838|SUPERIORITY||Mean Difference (Final Values)|16.0|||<|0.001|TWO_SIDED|95.0|10.0|22.0|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||22|10|<0.001
92419904|NCT04233034|184728838|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.95|TWO_SIDED|95.0|-8.0|14.0|||Mixed Models Analysis||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||14|-8|0.95
92419905|NCT04233034|184728839|SUPERIORITY||Risk Difference (RD)|0.38|||<|0.001|TWO_SIDED|95.0|0.21|0.53|||Regression, Logistic|||||0.53|0.21|<0.001
92419906|NCT04233034|184728839|SUPERIORITY||Risk Difference (RD)|0.03||||0.79|TWO_SIDED|95.0|-0.26|0.32|||Regression, Logistic|||||0.32|-0.26|0.79
92419907|NCT04233034|184728841|SUPERIORITY||Mean Difference (Final Values)|-16.0|||<|0.001|TWO_SIDED|95.0|-22.0|-9.0|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||-9|-22|<0.001
92419908|NCT04233034|184728841|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.74|TWO_SIDED|95.0|-13.0|9.0|||Mixed Models Analysis||Mean difference at 52 weeks (verapamil - placebo) adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||9|-13|0.74
92419909|NCT04233034|184728842|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.003|TWO_SIDED|95.0|-7.0|-1.0|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||-1|-7|0.003
92419910|NCT04233034|184728842|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.74|TWO_SIDED|95.0|-6.0|4.0|||Mixed Models Analysis||Mean difference (verapamil - placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||4|-6|0.74
92392162|NCT01276639|184683385|SUPERIORITY_OR_OTHER||Percent difference|19.22|STANDARD_ERROR_OF_MEAN|3.65|<|0.0001|TWO_SIDED|95.0|12.07|26.37|||Normal approximation|||||26.37|12.07|<0.0001
92392163|NCT01276639|184683386|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-53.56|STANDARD_ERROR_OF_MEAN|4.34|<|0.0001|TWO_SIDED|95.0|-62.08|-45.04||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16,PASI90 response at Week 16, change in Dermatology Life Quality Index(DLQI) total score at Week 16,PGA response at Week 4,PASI75 at Week 4, change in DLQI total score at Week 4, percent change in Nail Psoriasis Severity Index(NAPSI) score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-45.04|-62.08|<0.0001
92392164|NCT01276639|184683386|SUPERIORITY_OR_OTHER||LS mean difference|-68.82|STANDARD_ERROR_OF_MEAN|4.34|<|0.0001|TWO_SIDED|95.0|-77.33|-60.31||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16,PASI90 response at Week 16, change in Dermatology Life Quality Index(DLQI) total score at Week 16,PGA response at Week 4,PASI75 at Week 4, change in DLQI total score at Week 4, percent change in Nail Psoriasis Severity Index(NAPSI) score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-60.31|-77.33|<0.0001
92392165|NCT01276639|184683386|SUPERIORITY_OR_OTHER||LS mean difference|-15.26|STANDARD_ERROR_OF_MEAN|3.46|<|0.0001|TWO_SIDED|95.0|-22.04|-8.48|||Mixed Models Analysis|||LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-8.48|-22.04|<0.0001
92392166|NCT01276639|184683387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|34.55|||<|0.0001|TWO_SIDED|95.0|7.46|1786.9||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||1786.9|7.46|<0.0001
92392167|NCT01276639|184683387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|98.05|||<|0.0001|TWO_SIDED|95.0|23.49|5689.8||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||5689.8|23.49|<0.0001
92392168|NCT01276639|184683387|SUPERIORITY_OR_OTHER||Percent difference|19.61|STANDARD_ERROR_OF_MEAN|3.32|<|0.0001|TWO_SIDED|95.0|13.1|26.11|||Normal approximation|||||26.11|13.10|<0.0001
92419911|NCT04233034|184728843|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.23|TWO_SIDED|95.0|-0.04|0.17|||Regression, Linear||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.17|-0.04|0.23
92419912|NCT04233034|184728843|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.79|TWO_SIDED|95.0|-1.0|0.6|||Regression, Linear||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.6|-1.0|0.79
92392169|NCT01276639|184683389|SUPERIORITY_OR_OTHER||LS mean difference|-3.9|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-4.75|-3.05||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week4: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-3.05|-4.75|<0.0001
92392170|NCT01276639|184683389|SUPERIORITY_OR_OTHER||LS mean difference|-4.71|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-5.56|-3.86||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 4: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-3.86|-5.56|<0.0001
92392171|NCT01276639|184683389|SUPERIORITY_OR_OTHER||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.35||0.0212|TWO_SIDED|95.0|-1.5|-0.12|||Mixed Models Analysis|||Week 4: LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-0.12|-1.50|0.0212
92392172|NCT01276639|184683389|SUPERIORITY_OR_OTHER||LS mean difference|-4.98|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-6.02|-3.95||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 16: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-3.95|-6.02|<0.0001
92392173|NCT01276639|184683389|SUPERIORITY_OR_OTHER||LS mean difference|-6.97|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-8.0|-5.94||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 16: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-5.94|-8.00|<0.0001
92392174|NCT01276639|184683389|SUPERIORITY_OR_OTHER||LS mean difference|-1.99|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-2.8|-1.17|||Mixed Models Analysis|||Week 16: LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-1.17|-2.80|<0.0001
92392175|NCT01276639|184683390|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.34|||<|0.0001|TWO_SIDED|95.0|3.23|35.12||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||35.12|3.23|<0.0001
92392176|NCT01276639|184683390|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.53|||<|0.0001|TWO_SIDED|95.0|5.06|54.42||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||54.42|5.06|<0.0001
92392177|NCT01276639|184683390|SUPERIORITY_OR_OTHER||Percent difference|5.98|STANDARD_ERROR_OF_MEAN|2.97||0.0443|TWO_SIDED|95.0|0.15|11.8|||Normal approximation|||||11.80|0.15|0.0443
92392178|NCT01276639|184683391|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.76||||0.0003|TWO_SIDED|95.0|2.11|35.77||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||35.77|2.11|0.0003
92392179|NCT01276639|184683391|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.55|||<|0.0001|TWO_SIDED|95.0|3.64|59.98||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||59.98|3.64|<0.0001
92171788|NCT03897686|184233253|SUPERIORITY||LS-means difference|-26.695|STANDARD_ERROR_OF_MEAN|9.995||0.00847|TWO_SIDED|95.0|-46.46|-6.93||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in pain WOMAC score at visit 4 (week 13)||-6.93|-46.46|0.00847
92392180|NCT01276639|184683391|SUPERIORITY_OR_OTHER||Percent difference|5.09|STANDARD_ERROR_OF_MEAN|2.5||0.0415|TWO_SIDED|95.0|0.19|9.98|||Normal approximation|||||9.98|0.19|0.0415
92392181|NCT01276639|184683392|SUPERIORITY_OR_OTHER||LS mean difference|-69.7|STANDARD_ERROR_OF_MEAN|17.6|<|0.0001|TWO_SIDED|95.0|-104.27|-35.13||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-35.13|-104.27|<0.0001
92392182|NCT01276639|184683392|SUPERIORITY_OR_OTHER||LS mean difference|-97.03|STANDARD_ERROR_OF_MEAN|17.47|<|0.0001|TWO_SIDED|95.0|-131.35|-62.72||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-62.72|-131.35|<0.0001
92392183|NCT01276639|184683392|SUPERIORITY_OR_OTHER||LS mean difference|-27.33|STANDARD_ERROR_OF_MEAN|13.22||0.0391|TWO_SIDED|95.0|-53.29|-1.37|||Mixed Models Analysis|||LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-1.37|-53.29|0.0391
92392184|NCT01276639|184683396|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92392185|NCT01276639|184683396|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92392186|NCT01276639|184683396|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92392187|NCT01276639|184683397|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92392188|NCT01276639|184683397|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92392189|NCT01276639|184683397|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92392190|NCT01276639|184683398|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92392191|NCT01276639|184683398|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92392192|NCT01276639|184683398|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92392193|NCT02271698|184683499|SUPERIORITY_OR_OTHER|||||||0.052||||||6 hour pain at rest|t-test, 2 sided|||||||0.052
92392194|NCT02271698|184683499|SUPERIORITY_OR_OTHER|||||||0.064||||||6 hour pain with movement|t-test, 2 sided|||||||0.064
92392195|NCT02271698|184683499|SUPERIORITY_OR_OTHER|||||||0.139|||||||t-test, 2 sided|12 hour pain at rest||||||0.139
92392196|NCT02271698|184683499|SUPERIORITY_OR_OTHER|||||||0.35||||||12 hour pain at rest|t-test, 2 sided|||||||0.350
92392197|NCT02271698|184683499|SUPERIORITY_OR_OTHER|||||||0.021||||||18 hour pain at rest|t-test, 2 sided|||||||0.021
92392198|NCT02271698|184683499|SUPERIORITY_OR_OTHER|||||||0.198||||||18 hour pain with movement|t-test, 2 sided|||||||0.198
92392199|NCT02271698|184683499|SUPERIORITY_OR_OTHER|||||||0.806|||||||t-test, 2 sided|24 hour pain at rest||||||0.806
92392200|NCT02271698|184683499|SUPERIORITY_OR_OTHER|||||||0.228||||||24 hour pain with movement|t-test, 2 sided|||||||0.228
92392201|NCT02271698|184683499|SUPERIORITY_OR_OTHER|||||||0.457||||||36 hour pain at rest|t-test, 2 sided|||||||0.457
92392202|NCT02271698|184683499|SUPERIORITY_OR_OTHER|||||||0.394||||||36 hour pain with movement|t-test, 2 sided|||||||0.394
92392203|NCT02271698|184683500|SUPERIORITY_OR_OTHER|||||||0.181||||||6 hours|t-test, 2 sided|||||||0.181
92392204|NCT02271698|184683500|SUPERIORITY_OR_OTHER|||||||0.364||||||12 hours|t-test, 2 sided|||||||0.364
92392205|NCT02271698|184683500|SUPERIORITY_OR_OTHER|||||||0.605|||||||t-test, 2 sided|18 hours||||||0.605
92392206|NCT02271698|184683500|SUPERIORITY_OR_OTHER|||||||0.733|||||||t-test, 2 sided|24 hours||||||0.733
92392207|NCT02271698|184683500|SUPERIORITY_OR_OTHER|||||||0.6||||||36 hours|t-test, 2 sided|||||||0.600
92419913|NCT04233034|184728844|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.39|TWO_SIDED|95.0|-0.3|0.7|||Regression, Linear||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.7|-0.3|0.39
92419914|NCT04233034|184728844|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.74|TWO_SIDED|95.0|-1.0|0.6|||Regression, Linear||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.6|-1.0|0.74
92419915|NCT04233034|184728846|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.1|-0.3|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||-0.3|-1.1|<0.001
92419916|NCT04233034|184728846|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.65|TWO_SIDED|95.0|-1.0|0.4|||Mixed Models Analysis||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.4|-1.0|0.65
92419917|NCT04233034|184728849|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.07|TWO_SIDED|95.0|-0.01|0.2|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.20|-0.01|0.07
92419918|NCT04233034|184728849|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.52|TWO_SIDED|95.0|-0.3|0.05|||Mixed Models Analysis||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.05|-0.30|0.52
92392208|NCT01507688|184683536|SUPERIORITY||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.17||0.05|TWO_SIDED|||||P-value was not adjusted for multiple comparisons. Models adjusted for: VA vs Non Va, admission diagnosis (transient ischemic attack vs stroke), sex (male vs female), white vs nonwhite, and baseline total Stroke Specific Quality of life score.|Mixed Models Analysis|Repeated measurements of change GEE analyses of Total Stroke Specific Quality of Life score change at 6 months from baseline.|The adjusted positive mean (standard error) change at 6 months from baseline was higher in the intervention arm compared to in the control arm. Intervention group had 0.14 (SE 0.17) higher improvement compared to the control group.|"All the sample size calculations were powered at 80% with a 5% Type I error. We estimated based on our pilot study a change difference of 0.25 on Total Stroke Specific Quality of Life in the intervention group compared to no change in the control group at 6 months. Our power calculations estimated a sample of 226 (113) per group was needed to detect this effect. We used primary outcome row Mean Change from 0 to 6 months for this analysis."||||0.0500
92170068|NCT02214550|184229068|SUPERIORITY||Slope|0.007|STANDARD_ERROR_OF_MEAN|0.09||0.941|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameters reported indicates time x group (Continuous vs. Cyclic OCP) interaction. PBS participants are included in the continuous OCP group.|A linear mixed-effects model was estimated for parieto-occipital peak alpha (Hz) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The cyclic vs. continuous microgestin contrast was run here||||0.941
92392209|NCT01507688|184683536|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.04||0.26|TWO_SIDED|||||Adjusted least square means (standard errors) adjusted for treatment (Intervention vs control), time of outcome from baseline (3, 6, 12 months), baseline SSQoL, Site (VA vs NonVA), Stroke/TIA diagnosis, sex (m vs f) and race (white vs nonwhite).|Mixed Models Analysis||Adjusted intervention arm's positive change (regression coefficient with standard error) in Total Stroke Specific Quality of Life was not significantly different at 12 months compared to the control group.|"We evaluated the mean difference on Total Stroke Specific Quality of Life compared to baseline between the intervention and control groups at 12 months using repeated measures ANCOVA models. We used primary outcome row Mean change from 0 to 12 months for this analysis."||||0.26
92392210|NCT00964496|184683547|SUPERIORITY_OR_OTHER||Differences in proportions|0.677||||1.3e-07|TWO_SIDED|95.0|0.547|0.807||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|Fisher Exact|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the participants whose rebleeds decreased from baseline by ≥ 50% at 12 months.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the participants whose rebleeds decreased from baseline by ≥ 50% at 12 months.~Comparisons were performed with the use of the chi-square test, Fisher's exact test."||0.807|0.547|0.00000013
92392211|NCT00964496|184683548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.08|||<|0.001|TWO_SIDED|95.0|-4.02|-2.13||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|t-test, 2 sided|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the change from baseline in hemoglobin level at 12 months.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the change from baseline in hemoglobin level at 12 months.~Comparisons were performed with the use of the independent-samples t test."||-2.13|-4.02|<0.001
92392212|NCT00964496|184683549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.95|||<|0.01|TWO_SIDED|95.0|6.0|9.9||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|t-test, 2 sided|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the change from baseline in bleeding episodes at 12 months.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the change from baseline in bleeding episodes at 12 months.~Comparisons were performed with the use of the independent-samples t test."||9.90|6.00|<0.01
92419919|NCT02417844|184728853|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Geometric mean ratio (%)|99.66|STANDARD_DEVIATION|19.15|||TWO_SIDED|90.0|92.19|107.74|||||"The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation.~Ratio calculated as test divided by reference."|||107.74|92.19|
92419920|NCT02417844|184728854|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Geometric mean ratio (%)|99.58|STANDARD_DEVIATION|13.51|||TWO_SIDED|90.0|94.23|105.24|||||"The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation.~Ratio calculated as test divided by reference."|||105.24|94.23|
92419921|NCT02417844|184728855|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Geometric mean ratio (%)|99.48|STANDARD_DEVIATION|14.12|||TWO_SIDED|90.0|93.9|105.39|||||"The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation.~Ratio calculated as test divided by reference."|||105.39|93.90|
92419922|NCT05523323|184728892|OTHER||Estimate difference|29.5||||0.0002014|TWO_SIDED|95.0|14.0|43.9|||Unstratified Miettinen & Nurminen method|One-sided p-value was calculated using the unstratified Miettinen \& Nurminen method.|The exact binomial method by Clopper and Pearson was used to generate the estimate difference and the associated 95% confidence intervals (CIs).|||43.9|14.0|0.0002014
92419923|NCT05523323|184728893|OTHER||Hazard Ratio (HR)|0.34||||3.7e-06|TWO_SIDED|95.0|0.21|0.55|||unstratified Log-rank test.|One-sided p-value was calculated using unstratified Log-rank test.|The unstratified Cox-Regression model with Efron's method of tie handling with treatment as covariate was used to generate Hazard Ratio (HR) and the associated 95%CI.|||0.55|0.21|0.0000037
92419924|NCT05523323|184728894|OTHER||Hazard Ratio (HR)|0.86||||0.30933|TWO_SIDED|95.0|0.49|1.54|||Unstratified Log-rank test|One-sided p-value was calculated using unstratified Log-rank test.|The unstratified Cox-Regression model with Efron's method of tie handling with treatment as covariate was used to generate Hazard Ratio (HR) and the associated 95%CI.|||1.54|0.49|0.30933
92419925|NCT05654441|184728898|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92419926|NCT05654441|184728899|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92419927|NCT05654441|184728900|OTHER|||||||0.007|||||||ANOVA|||||||0.007
92419928|NCT05654441|184728901|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92419929|NCT05654441|184728902|OTHER|||||||0.886|||||||t-test, 2 sided|||||||0.886
92419930|NCT05654441|184728903|OTHER|||||||0.666|||||||t-test, 2 sided|||||||.666
92419931|NCT05654441|184728904|OTHER|||||||0.522|||||||t-test, 2 sided|||||||.522
92419932|NCT05654441|184728905|OTHER|||||||0.438|||||||t-test, 2 sided|||||||.438
92419933|NCT05654441|184728906|OTHER|||||||0.181|||||||t-test, 2 sided|||||||.181
92419934|NCT05654441|184728907|OTHER|||||||0.833|||||||t-test, 2 sided|||||||.833
92419935|NCT05654441|184728908|OTHER|||||||0.455|||||||t-test, 2 sided|||||||.455
92419936|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-1.25|||||TWO_SIDED|95.0|-1.99|-0.5||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Day 10, 8AM Difference between Implant Group 2 and timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||-0.50|-1.99|
92170069|NCT02214550|184229068|SUPERIORITY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.1||0.005|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter reported indicates time x group interaction (D+COS-continuous microgestin vs. PBS-continuous microgestin).|A linear mixed-effects model was estimated for parieto-occipital peak alpha (Hz) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The PBS-continuous microgestin vs. D+COS-continuous microgestin contrast was evaluated here||||0.005
92170070|NCT01736215|184229070|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.343||||0.266|TWO_SIDED|95.0|0.052|2.261||The binary logistic regression analysis was performed using a crude model between predictor variable endogenous EPO (EPO less than or equal to 45.2 and EPO greater than 45.3)|Regression, Logistic|||||2.261|0.052|0.266
92419937|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-1.88|-0.52||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Month 3, 10AM Difference between Implant Group 2 and timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||-0.52|-1.88|
92419938|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.76|0.69||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Week 6, 8AM Difference between Implant Group 2 and timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||0.69|-0.76|
92419939|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|0.32|||||TWO_SIDED|95.0|-0.37|1.01||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Week 6, 10AM Difference between Implant Group 2 and Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||1.01|-0.37|
92419940|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|0.16|||||TWO_SIDED|95.0|-0.59|0.91||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Month 3, 8AM Difference between Implant Group 2 and timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||0.91|-0.59|
92419941|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.77|0.71||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Month 3, 10AM Difference between Implant Group 2 and timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||0.71|-0.77|
92278927|NCT00094302|184460809|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||<0.01
92392213|NCT00964496|184683550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4||||0.0002474|TWO_SIDED|95.0|2.15|6.64||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|t-test, 2 sided|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the change from baseline in bleeding duration at 12 months.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the change from baseline in bleeding duration at 12 months.~Comparisons were performed with the use of the independent-samples t test."||6.64|2.15|0.00024740
92392214|NCT00964496|184683551|SUPERIORITY_OR_OTHER||Differences in proportions|-0.374||||0.00298881|TWO_SIDED|95.0|-0.563|-0.185||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|Fisher Exact|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the participants dependent on blood transfusions.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the participants dependent on blood transfusions.~Comparisons were performed with the use of the chi-square test, Fisher's exact test."||-0.185|-0.563|0.00298881
92392215|NCT00964496|184683552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1557.14|||<|0.01|TWO_SIDED|95.0|1294.53|1819.76||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|t-test, 2 sided|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the change from baseline in total transfused red cell requirements at 12 months.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the change from baseline in total transfused red cell requirements at 12 months.~Comparisons were performed with the use of the independent-samples t test."||1819.76|1294.53|<0.01
92392216|NCT00964496|184683553|SUPERIORITY_OR_OTHER||Differences in proportions|0.464||||3.962e-05|TWO_SIDED|95.0|0.28|0.649|||Fisher Exact|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the cessation of bleeding.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the cessation of bleeding.~Comparisons were performed with the use of the chi-square test, Fisher's exact test."||0.649|0.28|0.00003962
92392217|NCT04308941|184683556|OTHER|The mean and standard deviation was analyzed.||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
92392218|NCT02230566|184683557|SUPERIORITY||LS Mean|-64.82|||<|0.0001|TWO_SIDED|95.0|-69.66|-59.98||P-values are from GEE model including baseline value, and the post UX003 Treatment Week as a categorical variable. The covariance structure within participants was assumed to be exchangeable.|GEE|||||-59.98|-69.66|< 0.0001
92392219|NCT02230566|184683558|SUPERIORITY|||||||0.0527|||||||t-test|"P value from t-test of no change (0 change) from baseline"||||||0.0527
92392220|NCT02230566|184683559|SUPERIORITY||LS Mean|20.8||||0.2137|TWO_SIDED|95.0|-12.0|53.7||P-values are from GEE model including baseline value, and the post UX003 Treatment Week as a categorical variable. The covariance structure within participants was assumed to be exchangeable.|GEE|||||53.7|-12.0|0.2137
92419942|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs. Timolol|Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-1.84|-0.36||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Day 10, 8AM Difference between Implant Group 1 vs. Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||-0.36|-1.84|
92419943|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|-1.13|||||TWO_SIDED|95.0|-1.81|-0.45||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Day 10, 10AM Difference between Implant Group 1 vs. Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||-0.45|-1.81|
92419944|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|0.33|||||TWO_SIDED|95.0|-0.39|1.06||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Week 6, 8AM Difference between Implant Group 1 vs. Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||1.06|-0.39|
92446377|NCT06425458|184779787|OTHER||Spearman partial correlation coefficient|-0.14|||||TWO_SIDED|||||||||We conducted an exploratory, descriptive analysis investigating the relationship between leadership program attendance and identity capital at T2, accounting for T1 scores (MAPS20 subscale: Self-Efficacy). This analysis included participants who completed both T1 and T2 data collection (n = 18). We calculated the Spearman correlation coefficient only. Power calculation does not apply for this analysis.||||
92446378|NCT03750903|184779812|OTHER|||||||0.05|||||||ANOVA|||||||0.05
92392221|NCT02230566|184683562|SUPERIORITY||LS Mean|-6.5||||0.1778|TWO_SIDED|95.0|-16.1|3.0|||GEE|||Shoulder Flexion - Left||3.0|-16.1|0.1778
92392222|NCT02230566|184683562|SUPERIORITY||LS Mean|-1.5||||0.7632|TWO_SIDED|95.0|-10.9|8.0|||GEE|||Shoulder Extension - Left||8.0|-10.9|0.7632
92392223|NCT02230566|184683562|SUPERIORITY||LS Mean|-1.8||||0.6034|TWO_SIDED|95.0|-8.8|5.1|||GEE|||Shoulder Flexion - Right||5.1|-8.8|0.6034
92419945|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|0.23|||||TWO_SIDED|95.0|-0.46|0.93||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Week 6, 10AM Difference between Implant Group 1 vs. Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||0.93|-0.46|
92419946|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|0.53|||||TWO_SIDED|95.0|-0.23|1.28||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Month 3, 8AM Difference between Implant Group 1 and Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||1.28|-0.23|
92419947|NCT03868124|184728912|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|0.55|||||TWO_SIDED|95.0|-0.19|1.29||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Month 3, 10AM Difference between Implant Group 1 and Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||1.29|-0.19|
92419948|NCT05007717|184728947|SUPERIORITY||Risk Ratio (RR)|1.04||||0.631|TWO_SIDED|95.0|0.89|1.2|||Mixed Models Analysis|Adjusted for ever missing a visit during a 6 months pre-enrollment period and always coming to clinic by yourself.||||1.20|0.89|0.631
92419949|NCT05007717|184728948|SUPERIORITY||Risk Ratio (RR)|0.79||||0.237|TWO_SIDED|95.0|0.54|1.16|||Mixed Models Analysis|Adjusted for ever being virally unsuppressed during a 6 months pre-enrollment period and always coming to clinic by yourself.||||1.16|0.54|0.237
92419950|NCT05007717|184728949|SUPERIORITY||Risk Ratio (RR)|0.98||||0.386|TWO_SIDED|95.0|0.94|1.02|||Mixed Models Analysis|Adjusted for always having \>80% coverage during a 6 months pre-enrollment period and always coming to clinic by yourself.||||1.02|0.94|0.386
92419951|NCT05007717|184728950|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.991|TWO_SIDED|95.0|0.71|1.41|||Regression, Cox|Adjusted for always coming to clinic by yourself.||||1.41|0.71|0.991
92419952|NCT05007717|184728951|SUPERIORITY||Risk Ratio (RR)|1.21||||0.037|TWO_SIDED|95.0|1.01|1.46|||Mixed Models Analysis|Adjusted for having been given fast track visits during a 6 months pre-enrollment period and always coming to clinic by yourself.||||1.46|1.01|0.037
92419953|NCT05007717|184728952|SUPERIORITY||Risk Ratio (RR)|1.04||||0.276|TWO_SIDED|95.0|0.97|1.12|||Mixed Models Analysis|Adjusted for having been given long intervals during a 6 months pre-enrollment period and always coming to clinic by yourself.||||1.12|0.97|0.276
92419954|NCT01117051|184728953|SUPERIORITY_OR_OTHER_LEGACY|||||||0.305||95.0|||||Cochran-Mantel-Haenszel|||||||0.305
92419955|NCT03355664|184729004|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.38|TWO_SIDED|95.0|0.2|1.9|||Regression, Cox|||||1.9|0.2|0.38
92419956|NCT02821910|184729038|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|96.7|STANDARD_DEVIATION|5.9|||TWO_SIDED|90.0|92.89|100.66|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||100.66|92.89|
92419957|NCT02821910|184729038|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|100.8|STANDARD_DEVIATION|4.8|||TWO_SIDED|90.0|97.99|103.7|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.70|97.99|
92419958|NCT02821910|184729038|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|99.83|STANDARD_DEVIATION|5.9|||TWO_SIDED|90.0|95.96|103.85|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.85|95.96|
92419959|NCT02821910|184729039|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|96.82|STANDARD_DEVIATION|9.7|||TWO_SIDED|90.0|90.65|103.42|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.42|90.65|
92280574|NCT00663871|184463700|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.22||||0.52|TWO_SIDED|95.0|0.67|2.24||The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time. The Type A personality scores were categorized by quartiles of the baseline measures.|Mixed Models Analysis|Generalized Linear Mixed Modeling was used with a multinomial distribution with cumulative link.||||2.24|0.67|0.52
92170071|NCT01736215|184229071|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.125||||0.05|TWO_SIDED|95.0|0.016|0.999||The binary logistic regression analysis was performed using a crude model between predictor variable CRP (CRP less than or equal to 10.3 and CRP greater than 10.4)|Regression, Logistic|||||0.999|0.016|0.05
92170072|NCT03447249|184229078|SUPERIORITY||Least Squares (LS) Mean Difference|14.0|||<|0.0001|TWO_SIDED|95.0|12.4|15.7|||Mixed-effects model for repeated measure|||The data presented for Primary endpoint was based on interim analysis at Week 4.||15.7|12.4|<0.0001
92392224|NCT02230566|184683562|SUPERIORITY||LS Mean|-3.4||||0.3332|TWO_SIDED|95.0|-10.2|3.4|||GEE|||Shoulder Extension - Right||3.4|-10.2|0.3332
92170073|NCT03447249|184229079|SUPERIORITY||LS Mean Difference|14.2|||<|0.0001|TWO_SIDED|95.0|12.6|15.7|||Mixed-effects model for repeated measure|||||15.7|12.6|<0.0001
92278928|NCT00094302|184460810|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline laboratory value as the dependent variable, and the baseline laboratory value, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.11
92392225|NCT02230566|184683562|SUPERIORITY||LS Mean|-9.4||||0.0415|TWO_SIDED|95.0|-18.4|-0.4|||GEE|||Tighter Shoulder Flexion||-0.4|-18.4|0.0415
92392226|NCT02230566|184683562|SUPERIORITY||LS Mean|-6.7||||0.0563|TWO_SIDED|95.0|-13.6|0.2|||GEE|||Tighter Shoulder Extension||0.2|-13.6|0.0563
92392227|NCT02230566|184683563|SUPERIORITY||LS Mean|1.0||||0.114|TWO_SIDED|95.0|-0.2|2.2|||GEE|||for the left eye||2.2|-0.2|0.1140
92392228|NCT02230566|184683563|SUPERIORITY||LS Mean|0.9||||0.0906|TWO_SIDED|95.0|-0.1|1.8|||GEE|||for the right eye||1.8|-0.1|0.0906
92419960|NCT02821910|184729039|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|95.67|STANDARD_DEVIATION|15.5|||TWO_SIDED|90.0|87.44|104.68|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.68|87.44|
92419961|NCT02821910|184729039|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|98.47|STANDARD_DEVIATION|9.9|||TWO_SIDED|90.0|92.12|105.25|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||105.25|92.12|
92419962|NCT02821910|184729040|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|94.94|STANDARD_DEVIATION|13.8|||TWO_SIDED|90.0|86.6|104.08|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.08|86.60|
92419963|NCT02821910|184729040|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|106.63|STANDARD_DEVIATION|9.9|||TWO_SIDED|90.0|100.65|112.96|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||112.96|100.65|
92419964|NCT02821910|184729040|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|100.41|STANDARD_DEVIATION|8.9|||TWO_SIDED|90.0|94.54|106.64|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||106.64|94.54|
92170074|NCT03447249|184229080|SUPERIORITY||Rate ratio|0.14|||<|0.0001|TWO_SIDED|95.0|0.09|0.24|||Negative binomial regression model|||||0.24|0.09|<0.0001
92170075|NCT03447249|184229081|SUPERIORITY||LS Mean Difference|-44.6|||<|0.0001|TWO_SIDED|95.0|-47.2|-41.9|||Mixed-effects model for repeated measure|||||-41.9|-47.2|<0.0001
92170076|NCT03447249|184229082|SUPERIORITY||LS Mean Difference|20.1|||<|0.0001|TWO_SIDED|95.0|17.2|23.0|||Mixed-effects model for repeated measure|||||23.0|17.2|<0.0001
92392229|NCT02230566|184683564|SUPERIORITY||LS Mean|0.8||||0.0883|TWO_SIDED|95.0|-0.1|1.7|||GEE|||Scale-BALANCE||1.7|-0.1|0.0883
92392230|NCT02230566|184683564|SUPERIORITY||LS Mean|-0.2||||0.3528|TWO_SIDED|95.0|-0.7|0.2|||GEE|||Scale: FINE MOTOR PRECISION||0.2|-0.7|0.3528
92392231|NCT02230566|184683564|SUPERIORITY||LS Mean|0.2||||0.4094|TWO_SIDED|95.0|-0.2|0.6|||GEE|||Scale-MANUAL DEXTERITY||0.6|-0.2|0.4094
92392232|NCT02230566|184683564|SUPERIORITY||LS Mean|0.2||||0.102|TWO_SIDED|95.0|0.0|0.4|||GEE|||Scale-RUNNING SPEED AND AGILITY||0.4|0.0|0.1020
92392233|NCT02230566|184683565|SUPERIORITY||LS Mean|3.4||||0.1953|TWO_SIDED|95.0|-1.8|8.6|||GEE|||||8.6|-1.8|0.1953
92392234|NCT02230566|184683567|SUPERIORITY||LS Mean|-1.2||||0.2022|TWO_SIDED|95.0|-3.0|0.6|||GEE|||||0.6|-3.0|0.2022
92392235|NCT02021565|184683581|SUPERIORITY|||||||0.973||||||alpha = 0.025|ANOVA|Repeated measures||Analysis 1 is for the caregiver reported confidence that Veteran care recipient can perform 10 transfer tasks with assistance from the informal caregiver.||||0.973
92392236|NCT02021565|184683581|SUPERIORITY|Alpha = .025||||||0.223|||||||ANOVA|||Analysis 2 is for the caregiver reported confidence that Veteran care recipient can perform 10 transfer tasks independently.||||0.223
92392237|NCT02021565|184683582|SUPERIORITY|||||||0.547|||||||ANOVA|||Analysis 1 is for the Veteran care recipient reported task efficacy||||0.547
92392238|NCT02021565|184683582|SUPERIORITY|||||||0.891|||||||ANOVA|||Analysis 2 is for the Veteran reported confidence that he/she can perform 10 transfer tasks independently.||||0.891
92419965|NCT02821910|184729041|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|97.97|STANDARD_DEVIATION|10.2|||TWO_SIDED|90.0|91.46|104.94|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.94|91.46|
92419966|NCT02821910|184729041|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|100.04|STANDARD_DEVIATION|17.9|||TWO_SIDED|90.0|90.23|110.91|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||110.91|90.23|
92419967|NCT02821910|184729041|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|101.24|STANDARD_DEVIATION|10.1|||TWO_SIDED|90.0|94.58|108.38|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||108.38|94.58|
92419968|NCT02821910|184729042|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|97.5|STANDARD_DEVIATION|12.0|||TWO_SIDED|90.0|89.94|105.71|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||105.71|89.94|
92419969|NCT02821910|184729042|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|117.31|STANDARD_DEVIATION|22.0|||TWO_SIDED|90.0|103.41|133.07|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||133.07|103.41|
92419970|NCT02821910|184729042|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|102.74|STANDARD_DEVIATION|6.2|||TWO_SIDED|90.0|98.56|107.1|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||107.10|98.56|
92419971|NCT02821910|184729043|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|96.34|STANDARD_DEVIATION|6.6|||TWO_SIDED|90.0|92.13|100.75|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||100.75|92.13|
92419972|NCT02821910|184729043|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|105.07|STANDARD_DEVIATION|8.6|||TWO_SIDED|90.0|99.95|110.45|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||110.45|99.95|
92419973|NCT02821910|184729043|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|100.31|STANDARD_DEVIATION|5.9|||TWO_SIDED|90.0|96.41|104.38|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.38|96.41|
92446379|NCT03548584|184779820|SUPERIORITY||LS Mean Difference|-5.32||||0.0026|TWO_SIDED|95.0|-8.77|-1.87||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||||-1.87|-8.77|0.0026
92280575|NCT00663871|184463701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.03||||0.68|TWO_SIDED|95.0|-0.16|0.1||The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||0.10|-0.16|0.68
92392239|NCT02021565|184683583|SUPERIORITY|||||||0.729|||||||ANOVA|||||||0.729
92392240|NCT01332994|184683604|SUPERIORITY_OR_OTHER|||||||0.1648|TWO_SIDED|||||Exact one-sided binomial test on single proportions with a significance level of alpha equals (=) 0.025. Null hypothesis: Proportion of participants reaching DAS28 remission (\<2.6) at Week 16 is ≤45 percent (%).|Exact one-sided binomial test|||||||0.1648
92170077|NCT03447249|184229083|SUPERIORITY||LS Mean Difference|1.11|||<|0.0001|TWO_SIDED|95.0|0.91|1.31|||Mixed-effects model for repeated measure|||||1.31|0.91|<0.0001
92392241|NCT01332994|184683640|SUPERIORITY_OR_OTHER|||||||0.7559|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Naive B-cell compartment||||0.7559
92392242|NCT01332994|184683640|SUPERIORITY_OR_OTHER|||||||0.8961|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Transitional B-cells||||0.8961
92392243|NCT01332994|184683640|SUPERIORITY_OR_OTHER|||||||0.7915|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Naive B-cells||||0.7915
92392244|NCT01332994|184683640|SUPERIORITY_OR_OTHER|||||||0.8081|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Memory B-cells||||0.8081
92392245|NCT01332994|184683640|SUPERIORITY_OR_OTHER|||||||0.6574|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Pre-switch memory B-cells||||0.6574
92392246|NCT01332994|184683640|SUPERIORITY_OR_OTHER|||||||0.4553|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Post-switch memory B-cells||||0.4553
92392247|NCT01332994|184683640|SUPERIORITY_OR_OTHER|||||||0.2215|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||IgG-positive class-switched B-cells||||0.2215
92392248|NCT01332994|184683640|SUPERIORITY_OR_OTHER|||||||0.886|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||IgA-positive class-switched B-cells||||0.8860
92392249|NCT01332994|184683640|SUPERIORITY_OR_OTHER|||||||0.8693|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Double-negative B-cells||||0.8693
92392250|NCT01332994|184683640|SUPERIORITY_OR_OTHER|||||||0.9564|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Plasmablasts||||0.9564
92392251|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.9993|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Naive B-cell compartment||||0.9993
92392252|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.3596|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Transitional B-cells||||0.3596
92392253|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.7435|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Naive B-cells||||0.7435
92392254|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.7671|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Memory B-cells||||0.7671
92392255|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.7912|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Pre-switch memory B-cells||||0.7912
92392256|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.5595|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Post-switch memory B-cells||||0.5595
92392257|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.3817|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, IgG-positive class-switched B-cells||||0.3817
92392258|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.3623|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, IgA-positive class-switched B-cells||||0.3623
92392259|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.7108|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Double-negative B-cells||||0.7108
92392260|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.0639|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Plasmablasts||||0.0639
92392261|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.0186|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Naive B-cell compartment||||0.0186
92392262|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Transitional B-cells||||0.0050
92392263|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.0463|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Naive B-cells||||0.0463
92392264|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.1919|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Memory B-cells||||0.1919
92446380|NCT03548584|184779821|SUPERIORITY||LS Mean Difference|-0.27||||0.0078|TWO_SIDED|95.0|-0.47|-0.07||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||||-0.07|-0.47|0.0078
92392265|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.3071|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Pre-switch memory B-cells||||0.3071
92419974|NCT02821910|184729044|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|96.63|STANDARD_DEVIATION|5.8|||TWO_SIDED|90.0|92.86|100.54|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||100.54|92.86|
92419975|NCT02821910|184729044|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|100.87|STANDARD_DEVIATION|5.0|||TWO_SIDED|90.0|97.96|103.86|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.86|97.96|
92419976|NCT02821910|184729044|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|99.75|STANDARD_DEVIATION|6.0|||TWO_SIDED|90.0|95.81|103.86|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.86|95.81|
92419977|NCT02821910|184729045|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|96.57|STANDARD_DEVIATION|8.9|||TWO_SIDED|90.0|90.94|102.56|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||102.56|90.94|
92419978|NCT02821910|184729045|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|95.4|STANDARD_DEVIATION|14.9|||TWO_SIDED|90.0|87.5|104.01|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.01|87.50|
92419979|NCT02821910|184729045|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|98.45|STANDARD_DEVIATION|9.4|||TWO_SIDED|90.0|92.44|104.85|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.85|92.44|
92419980|NCT02821910|184729046|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|95.08|STANDARD_DEVIATION|12.6|||TWO_SIDED|90.0|87.36|103.48|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.48|87.36|
92419981|NCT02821910|184729046|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|105.72|STANDARD_DEVIATION|11.7|||TWO_SIDED|90.0|98.78|113.15|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||113.15|98.78|
92419982|NCT02821910|184729046|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|101.61|STANDARD_DEVIATION|14.9|||TWO_SIDED|90.0|92.0|112.22|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||112.22|92.00|
92170078|NCT03447249|184229084|SUPERIORITY||LS Mean Difference|-43.4|||<|0.0001|TWO_SIDED|95.0|-46.3|-40.5|||Mixed-effects model for repeated measure|||||-40.5|-46.3|<0.0001
92170079|NCT03447249|184229085|SUPERIORITY||LS Mean Difference|17.9|||<|0.0001|TWO_SIDED|95.0|14.5|21.3|||Mixed-effects model for repeated measure|||||21.3|14.5|<0.0001
92392266|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.1714|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Post-switch memory B-cells||||0.1714
92392267|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.1746|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, IgG-positive class-switched B-cells||||0.1746
92419983|NCT00423670|184729047|SUPERIORITY_OR_OTHER||Percent difference in SVR|16.7||||0.0126|TWO_SIDED|95.0|3.5|30.0|||Cochran-Mantel Haenszel Chi-square test|Adjusted for baseline stratification factors: black versus non-black, and cirrhosis versus no cirrhosis.||||30|3.5|0.0126
92419984|NCT00423670|184729047|SUPERIORITY_OR_OTHER||Percent difference in SVR|18.8||||0.0048|TWO_SIDED|95.0|5.5|32.2|||Cochran-Mantel Haenszel Chi-square test|Adjusted for baseline stratification factors: black versus non-black, and cirrhosis versus no cirrhosis.||||32.2|5.5|0.0048
92392268|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.1626|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, IgA-positive class-switched B-cells||||0.1626
92392269|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.6304|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Double-negative B-cells||||0.6304
92392270|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.3449|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Plasmablasts||||0.3449
92392271|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.0919|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Naive B-cell compartment||||0.0919
92392272|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.2189|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Transitional B-cells||||0.2189
92392273|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.1386|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Naive B-cells||||0.1386
92392274|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.6199|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Memory B-cells||||0.6199
92392275|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.1019|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Pre-switch memory B-cells||||0.1019
92392276|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.4353|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Post-switch memory B-cells||||0.4353
92392277|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.3934|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, IgG-positive class-switched B-cells||||0.3934
92392278|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.4196|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, IgA-positive class-switched B-cells||||0.4196
92392279|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.5546|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Double-negative B-cells||||0.5546
92392280|NCT01332994|184683641|SUPERIORITY_OR_OTHER|||||||0.7695|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Plasmablasts||||0.7695
92392281|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.6551|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Naive B-cell compartment||||0.6551
92392282|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.6905|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Transitional B-cells||||0.6905
92392283|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.9678|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Naive B-cells||||0.9678
92392284|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.208|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Memory B-cells||||0.2080
92392285|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.4778|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Pre-switch memory B-cells||||0.4778
92392286|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.8526|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Post-switch memory B-cells||||0.8526
92419985|NCT00423670|184729047|SUPERIORITY_OR_OTHER||Percent difference in SVR|29.5|||<|0.0001|TWO_SIDED|95.0|16.5|42.5|||Cochran-Mantel Haenszel Chi-square test|Adjusted for baseline stratification factors: black versus non-black, and cirrhosis versus no cirrhosis.||||42.5|16.5|<0.0001
92419986|NCT00423670|184729047|SUPERIORITY_OR_OTHER||Percent difference in SVR|37.3|||<|0.0001|TWO_SIDED|95.0|24.7|49.8|||Cochran-Mantel Haenszel Chi-square test|Adjusted for baseline stratification factors: black versus non-black, and cirrhosis versus no cirrhosis.||||49.8|24.7|<0.0001
92419987|NCT00423670|184729048|SUPERIORITY_OR_OTHER||Percent difference in SVR rates|5.1||||0.2864|TWO_SIDED|95.0|-4.2|14.3|||Cochran-Mantel-Haenszel Chi-Square Test|Adjusted for baseline stratification factors: black versus non black, and cirrhosis versus no cirrhosis.||||14.3|-4.2|0.2864
92170080|NCT03447249|184229087|SUPERIORITY||LS Mean Difference|0.39|||||TWO_SIDED|95.0|0.24|0.54||||||||0.54|0.24|
92419988|NCT00423670|184729049|SUPERIORITY_OR_OTHER||Percent difference in SVR rates|15.6||||0.0009|TWO_SIDED|95.0|6.5|24.8|||Cochran-Mantel-Haenszel Chi-Square Test|Adjusted for the baseline stratification factors: black versus non black, and cirrhosis versus no cirrhosis.||||24.8|6.5|0.0009
92419989|NCT02131532|184729058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.25|STANDARD_ERROR_OF_MEAN|3.321||0.03|TWO_SIDED|95.0|1.398|17.102|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in fatigue scores between baseline and three-month assessments||17.102|1.398|0.03
92419990|NCT02131532|184729059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.625|STANDARD_ERROR_OF_MEAN|1.401||0.1|TWO_SIDED|95.0|-0.687|5.937|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in depression scores between baseline and three-month assessments||5.937|-0.687|0.10
92419991|NCT02131532|184729060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.313||0.45|TWO_SIDED|95.0|-0.991|0.491|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in independence scores between baseline and three-month assessments||0.491|-0.991|0.45
92419992|NCT02131532|184729061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.875|STANDARD_ERROR_OF_MEAN|5.03||0.03|TWO_SIDED|95.0|-25.769|-1.981|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in scores of general rating of recovery between baseline and three-month assessments||-1.981|-25.769|0.03
92419993|NCT02131532|184729062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.781|STANDARD_ERROR_OF_MEAN|5.594||0.89|TWO_SIDED|95.0|-14.01|12.448|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in physical strength scores between baseline and three-month assessments||12.448|-14.010|0.89
92419994|NCT02131532|184729063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.105|STANDARD_ERROR_OF_MEAN|2.378||0.009|TWO_SIDED|95.0|-7.729|3.519|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in memory and thinking scores between baseline and three-month assessments||3.519|-7.729|0.009
92419995|NCT02131532|184729064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.403|STANDARD_ERROR_OF_MEAN|5.168||0.009|TWO_SIDED|95.0|-30.624|-6.183|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in emotion scores between baseline and three-month assessments||-6.183|-30.624|0.009
92419996|NCT02131532|184729065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.142|STANDARD_ERROR_OF_MEAN|3.696||0.1|TWO_SIDED|95.0|-15.883|1.598|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in communication scores between baseline and three-month assessments||1.598|-15.883|0.10
92170081|NCT03447249|184229088|SUPERIORITY||LS Mean Difference|3.2|||||TWO_SIDED|95.0|2.7|3.8||||||||3.8|2.7|
92278929|NCT00094302|184460810|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||<0.01
92280576|NCT00663871|184463702|SUPERIORITY_OR_OTHER_LEGACY|The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mean Difference (Net)|-0.17||||0.16|TWO_SIDED|95.0|-0.41|0.07|||Mixed Models Analysis|||||0.07|-0.41|0.16
92419997|NCT02131532|184729066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|1.25||0.09|TWO_SIDED|95.0|-5.455|0.455|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in daily activities scores between baseline and three-month assessments||0.455|-5.455|0.09
92419998|NCT02131532|184729067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.821|STANDARD_ERROR_OF_MEAN|1.382||0.03|TWO_SIDED|95.0|-7.091|-0.551|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in mobility scores between baseline and three-month assessments||-0.551|-7.091|0.03
92419999|NCT02131532|184729068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.875|STANDARD_ERROR_OF_MEAN|3.264||0.58|TWO_SIDED|95.0|-9.594|5.844||The critical level was adjusted for the multiple comparisons for the eight subscales of the Stroke Impact Scale|t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in hand function scores between baseline and three-month assessments||5.844|-9.594|0.58
92420000|NCT02131532|184729069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.576|STANDARD_ERROR_OF_MEAN|3.691||0.006|TWO_SIDED|95.0|-23.304|-5.847||The critical level was adjusted for the multiple comparisons for the eight subscales of the Stroke Impact Scale|t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in social activity scores between baseline and three-month assessments||-5.847|-23.304|0.006
92420001|NCT01856023|184729074|SUPERIORITY|one -sample binomial test - 1-year estimated OS for these 28 patients was 75% (95%CI: 51%, 88%)||||||0.001||||||compared to the historical control rate of 46% one year survival|Log Rank|||OS rates of the Evaluable population in entire cohort was compared with the historical control rate of 46% (Hodi, et al NEJM 2010) using a one-sample binomial test due to early termination of enrollment without reaching target accrual; planned analysis to be the difference between treatment arms using log-rank test. One year OS along with 95% CI estimated for entire population and each treatment arm separately.||||.001
92171789|NCT03897686|184233253|SUPERIORITY||LS-means difference|-33.96|STANDARD_ERROR_OF_MEAN|10.29||0.00123|TWO_SIDED|95.0|-54.31|-13.62||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in pain WOMAC score at visit 5 (week 25)||-13.62|-54.31|0.00123
92420002|NCT00424255|184729078|SUPERIORITY_OR_OTHER|||||||0.2251||95.0||||The one-sided p-value is unstratified as there are too few events per stratum to perform a stratified test.|Non-stratified log-rank test|||||||0.2251
92420003|NCT00424255|184729078|SUPERIORITY_OR_OTHER|||||||0.4502||95.0||||The two-sided p-value is unstratified as there are too few events per stratum to perform a stratified test.|Non-stratified log-rank test|||||||0.4502
92420004|NCT00424255|184729078|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.85|1.43|||||Hazard Ratios were estimated using a Pike estimator.|||1.43|0.85|
92278930|NCT00094302|184460811|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline laboratory value as the dependent variable, and the baseline laboratory value, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.59
92420005|NCT00591578|184729103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.64|||<|0.001|TWO_SIDED|95.0|-5.59|-1.69||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-1.69|-5.59|<0.001
92420006|NCT00591578|184729103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.03|||<|0.001|TWO_SIDED|95.0|-6.01|-2.06||Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-2.06|-6.01|<0.001
92420007|NCT00591578|184729104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.27||||0.015|TWO_SIDED|95.0|-5.9|-0.63||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.63|-5.90|0.015
92420008|NCT00591578|184729104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.34|||<|0.001|TWO_SIDED|95.0|-8.0|-2.68||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-2.68|-8.00|<0.001
92392287|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.7266|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, IgG-positive class-switched B-cells||||0.7266
92392288|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.2011|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, IgA-positive class-switched B-cells||||0.2011
92392289|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.7872|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Double-negative B-cells||||0.7872
92392290|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.5377|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Plasmablasts||||0.5377
92392291|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.6238|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Naive B-cell compartment||||0.6238
92392292|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.2848|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Transitional B-cells||||0.2848
92392293|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.6238|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Naive B-cells||||0.6238
92392294|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.2848|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Pre-switch memory B-cells||||0.2848
92392295|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.7471|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Post-switch memory B-cells||||0.7471
92392296|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.7471|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, IgG-positive class-switched B-cells||||0.7471
92392297|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.391|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, IgA-positive class-switched B-cells||||0.3910
92392298|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.8729|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Plasmablasts||||0.8729
92392299|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.7261|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Naive B-cell compartment||||0.7261
92392300|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.9338|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Transitional B-cells||||0.9338
92392301|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.9074|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Naive B-cells||||0.9074
92392302|NCT01332994|184683642|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Memory B-cells||||<0.0001
92392303|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.9338|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Pre-switch memory B-cells||||0.9338
92392304|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.6515|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Post-switch memory B-cells||||0.6515
92420009|NCT00591578|184729105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16|||<|0.001|TWO_SIDED|95.0|-3.44|-0.88||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.88|-3.44|<0.001
92420010|NCT00591578|184729105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.69|||<|0.001|TWO_SIDED|95.0|-3.99|-1.4||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.40|-3.99|<0.001
92392305|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.8413|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, IgG-positive class-switched B-cells||||0.8413
92420011|NCT00591578|184729106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.52||||0.001|TWO_SIDED|95.0|-4.06|-0.98||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.98|-4.06|0.001
92420012|NCT00591578|184729106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.76|||<|0.001|TWO_SIDED|95.0|-4.32|-1.21||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.21|-4.32|<0.001
92420013|NCT00591578|184729107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.49|||<|0.001|TWO_SIDED|95.0|-5.53|-1.44||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.44|-5.53|<0.001
92392306|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.7244|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, IgA-positive class-switched B-cells||||0.7244
92392307|NCT01332994|184683642|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Double-negative B-cells||||<0.0001
92392308|NCT01332994|184683642|SUPERIORITY_OR_OTHER|||||||0.3848|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Plasmablasts||||0.3848
92392309|NCT00731679|184683666|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Regression, Logistic|The p-value was obtained from a logistic regression model with fixed effects for treatment arm and analysis center.||||||0.01
92392310|NCT00731679|184683667|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Regression, Logistic|The p-value was obtained from a logistic regression model with fixed effects for treatment arm and analysis center.||||||0.005
92392311|NCT02412098|184683671|OTHER||Geometric Least Square Mean (GLSM) Ratio|73.54|||||TWO_SIDED|90.0|41.92|129.01|||||A 90% CI was constructed for the GLSM ratio of AUCinf in the hepatic impairment group versus matched control.|An analysis of variance (ANOVA) appropriate for a parallel design was fit to the natural logarithmic transformation of eleclazine AUCinf.||129.01|41.92|
92392312|NCT02412098|184683671|OTHER||GLSM Ratio (%)|127.8|||||TWO_SIDED|90.0|73.57|222.01|||||A 90% CI was constructed for the GLSM ratio of AUCinf in the hepatic impairment group versus matched control.|An analysis of variance (ANOVA) appropriate for a parallel design was fit to the natural logarithmic transformation of eleclazine AUCinf.||222.01|73.57|
92392313|NCT02412098|184683672|OTHER||GLSM Ratio (%)|80.82|||||TWO_SIDED|90.0|45.11|144.79|||||A 90% CI was constructed for the GLSM ratio of AUCinf in the hepatic impairment group versus matched control.|ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of GS-623134 AUCinf.||144.79|45.11|
92392314|NCT02412098|184683672|OTHER||GLSM Ratio (%)|73.52|||||TWO_SIDED|90.0|47.83|113.02||ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of GS-623134 AUCinf.|||A 90% CI was constructed for the GLSM ratio of AUCinf in the hepatic impairment group versus matched control.|||113.02|47.83|
92392315|NCT02412098|184683673|OTHER||GLSM Ratio (%)|66.55|||||TWO_SIDED|90.0|53.33|83.04|||||A 90% CI was constructed for the GLSM ratio of Cmax in the hepatic impairment group versus matched control.|ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of eleclazine Cmax.||83.04|53.33|
92392316|NCT02412098|184683673|OTHER||GLSM Ratio (%)|102.06|||||TWO_SIDED|90.0|83.03|125.45|||||A 90% CI was constructed for the GLSM ratio of Cmax in the hepatic impairment group versus matched control.|ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of eleclazine Cmax.||125.45|83.03|
92392317|NCT02412098|184683674|OTHER||GLSM Ratio (%)|76.24|||||TWO_SIDED|90.0|50.65|114.77|||||A 90% CI was constructed for the GLSM ratio of Cmax in the hepatic impairment group versus matched control.|ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of GS-623134 Cmax.||114.77|50.65|
92420014|NCT00591578|184729107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|||<|0.001|TWO_SIDED|95.0|-5.96|-1.83||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.83|-5.96|<0.001
92420015|NCT00591578|184729108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.17||||0.002|TWO_SIDED|95.0|-3.54|-0.79||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.79|-3.54|0.002
92420016|NCT00591578|184729108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.67|||<|0.001|TWO_SIDED|95.0|-4.06|-1.28||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.28|-4.06|<0.001
92392318|NCT02412098|184683674|OTHER||GLSM Ratio (%)|71.06|||||TWO_SIDED|90.0|44.59|113.25|||||A 90% CI was constructed for the GLSM ratio of Cmax in the hepatic impairment group versus matched control.|ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of GS-623134 Cmax.||113.25|44.59|
92420017|NCT00591578|184729109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.79|||<|0.001|TWO_SIDED|95.0|-5.96|-1.62||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.62|-5.96|<0.001
92420018|NCT00591578|184729109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.44|||<|0.001|TWO_SIDED|95.0|-6.63|-2.24||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-2.24|-6.63|<0.001
92420019|NCT00591578|184729110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.008|TWO_SIDED|95.0|-3.48|-0.53||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.53|-3.48|0.008
92420020|NCT00591578|184729110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.84|||<|0.001|TWO_SIDED|95.0|-4.33|-1.35||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.35|-4.33|<0.001
92420021|NCT00591578|184729111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44||||0.002|TWO_SIDED|95.0|-5.57|-1.3||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.30|-5.57|0.002
92420022|NCT00591578|184729111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.01|||<|0.001|TWO_SIDED|95.0|-6.16|-1.85||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.85|-6.16|<0.001
92420023|NCT00591578|184729112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.18||||0.003|TWO_SIDED|95.0|-3.63|-0.72||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.72|-3.63|0.003
92280577|NCT00663871|184463703|SUPERIORITY_OR_OTHER_LEGACY|The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mean Difference (Net)|-0.05||||0.59|TWO_SIDED|95.0|-0.24|0.14|||Mixed Models Analysis|||||0.14|-0.24|0.59
92392319|NCT03089580|184683677|SUPERIORITY|Paired, Student's t-test was used to contrast the outcome variable of TBUT in the treated eye versus the sham eye from visit 1 to visit 5. The null hypothesis to be tested is one of no change from pre- to post treatment, with a Type I error probability of 0.05 for the primary outcome assessment. The pattern of change over the 4 treatment visits in these continuous variables will be assessed using mixed, linear regression. SAS version 9.4 statistical software (SAS Institute, Cary, NC) was used.||||||0.3|||||||paired t test|||The primary study outcome of pre to post change in TBUT within the treated eye and also the untreated, control eye dictated the use of a paired statistical approach to sample size estimation. Clinically relevant pre to post TBUT increase of 3 seconds with a standard deviation of 4.5 seconds was used. Type I and II error estimates used were standard for a non-pivotal study, 0.05 \& 0.20. The estimated the sample size needed detect this difference in TBUT is 27 subjects.||||0.3
92392320|NCT03089580|184683678|SUPERIORITY|The p-value results from a test of the hypothesis that the change in OSDI from visit 1 does not differ from zero. Change distributions that met normal distribution test criteria (Shapiro-Wilk p-value \>0.05) were tested with the paired Student's t-test; non-normal change distributions (at visits 2 \& 4) were tested with the non-parametric Wilcoxon signed rank test.||||||0.2026|||||||paired t test|||||||0.2026
92420024|NCT00591578|184729112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.73|||<|0.001|TWO_SIDED|95.0|-4.2|-1.25||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.25|-4.20|<0.001
92420025|NCT00591578|184729113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.38||||0.005|TWO_SIDED|95.0|-5.76|-1.0||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.00|-5.76|0.005
92420026|NCT00591578|184729113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47||||0.005|TWO_SIDED|95.0|-5.87|-1.06||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.06|-5.87|0.005
92420027|NCT00591578|184729114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.31||||0.009|TWO_SIDED|95.0|-4.04|-0.59||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.59|-4.04|0.009
92420028|NCT00591578|184729114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.59||||0.004|TWO_SIDED|95.0|-4.34|-0.84||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.84|-4.34|0.004
92420029|NCT00591578|184729115|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.016|TWO_SIDED|95.0|1.07|2.0||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||2.00|1.07|0.016
92420030|NCT00591578|184729115|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63||||0.002|TWO_SIDED|95.0|1.19|2.23||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||2.23|1.19|0.002
92420031|NCT00591578|184729116|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.041|TWO_SIDED|95.0|1.02|2.1||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||2.10|1.02|0.041
92420032|NCT00591578|184729116|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.015|TWO_SIDED|95.0|1.09|2.28||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||2.28|1.09|0.015
92420033|NCT00591578|184729117|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.018|TWO_SIDED|95.0|1.07|1.99||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||1.99|1.07|0.018
92420034|NCT00591578|184729117|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.24|2.33||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||2.33|1.24|<0.001
92420035|NCT01369485|184729124|SUPERIORITY_OR_OTHER|||||||0.3636|||||||Chi-squared|||The sample size calculation was determined using the 2-sided Chi-square test with a significance level of 5% and 80% power based upon the following assumptions: (1) proportion of responders at end of 12 weeks of treatment would be 50% in the active (test) group and 25% in the inactive (control) group; (2) a responder was defined as a subject who experienced decrease of ≥50% in mean urgency urinary incontinence episodes (leaks) between baseline and Week 12 of the study; (3) 20 % dropout rate.||||0.3636
92420036|NCT01369485|184729124|SUPERIORITY_OR_OTHER|||||||0.4849|||||||Chi-squared|||||||0.4849
92420037|NCT01369485|184729125|SUPERIORITY_OR_OTHER|||||||0.2893|||||||Wilcoxon (Mann-Whitney)|||||||0.2893
92420038|NCT01369485|184729125|SUPERIORITY_OR_OTHER|||||||0.3223|||||||Wilcoxon (Mann-Whitney)|||||||0.3223
92420039|NCT01369485|184729126|SUPERIORITY_OR_OTHER|||||||0.3387|||||||Wilcoxon (Mann-Whitney)|||||||0.3387
92420040|NCT01369485|184729127|SUPERIORITY_OR_OTHER|||||||0.6557|||||||Wilcoxon (Mann-Whitney)|||||||0.6557
92420041|NCT01369485|184729128|SUPERIORITY_OR_OTHER|||||||0.4354|||||||Wilcoxon (Mann-Whitney)|||||||0.4354
92420042|NCT01369485|184729129|SUPERIORITY_OR_OTHER|||||||0.9918|||||||Wilcoxon (Mann-Whitney)|||||||0.9918
92420043|NCT01369485|184729129|SUPERIORITY_OR_OTHER|||||||0.377|||||||Wilcoxon (Mann-Whitney)|||||||0.3770
92420044|NCT01369485|184729130|SUPERIORITY_OR_OTHER|||||||0.4147|||||||Fisher Exact|||||||0.4147
92420045|NCT01369485|184729130|SUPERIORITY_OR_OTHER|||||||0.0877|||||||Fisher Exact|||||||0.0877
92420046|NCT01369485|184729131|SUPERIORITY_OR_OTHER|||||||0.2032|||||||Fisher Exact|||||||0.2032
92420047|NCT01369485|184729132|SUPERIORITY_OR_OTHER|||||||0.4151||||||Calculated for only those patients who had prior OAB treatment only.|Wilcoxon (Mann-Whitney)|||||||0.4151
92420048|NCT01369485|184729133|SUPERIORITY_OR_OTHER|||||||0.9814|||||||Fisher Exact|||"Endpoint defined as percentage of patients that much improved or very much improved following treatment."||||0.9814
92235792|NCT03114969|184374783|SUPERIORITY||Odds Ratio (OR)|2.523||||0.052|TWO_SIDED|95.0|0.993|6.407||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||6.407|0.993|0.052
92420049|NCT01369485|184729133|SUPERIORITY_OR_OTHER|||||||0.7305|||||||Fisher Exact|||||||0.7305
92420050|NCT01369485|184729134|SUPERIORITY_OR_OTHER|||||||0.2191|||||||Wilcoxon (Mann-Whitney)|||||||0.2191
92420051|NCT01369485|184729134|SUPERIORITY_OR_OTHER|||||||0.5357|||||||Wilcoxon (Mann-Whitney)|||||||0.5357
92420052|NCT00586196|184729180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.4|2.3|||GEE|||||2.3|0.4|
92420053|NCT00586196|184729181|SUPERIORITY_OR_OTHER||Effect Size|-0.2|||||TWO_SIDED|95.0|-1.5|1.2|||GEE|||||1.2|-1.5|
92420054|NCT02730208|184729207|OTHER|Treatment effect outcomes are estimates.|Least Squares (LS) Mean Difference|-1.48|||||TWO_SIDED|95.0|-7.47|4.52||||||||4.52|-7.47|
92420055|NCT00245219|184729231|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420056|NCT00245219|184729231|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the education condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420057|NCT00245219|184729231|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420058|NCT00245219|184729231|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the education condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420059|NCT00245219|184729231|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and control condition at Time 2, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92420060|NCT00245219|184729231|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and control condition at Time 3, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92420061|NCT00245219|184729231|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The interaction between the peer support condition and cancer stage at Time 2. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92446381|NCT03548584|184779822|SUPERIORITY||LS Mean Difference|-1.95||||0.004|TWO_SIDED|95.0|-3.28|-0.63||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Aggressive Behavior||-0.63|-3.28|0.0040
92446382|NCT03548584|184779822|SUPERIORITY||LS Mean Difference|-1.41||||0.0296|TWO_SIDED|95.0|-2.68|-0.14||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Physically Nonaggressive Behavior||-0.14|-2.68|0.0296
92420062|NCT00245219|184729231|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The interaction between the peer support condition and cancer stage at Time 3. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92420063|NCT00245219|184729232|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420064|NCT00245219|184729232|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the education condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420065|NCT00245219|184729232|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420066|NCT00245219|184729232|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the education condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420067|NCT00245219|184729232|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and control condition at Time 2, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92420068|NCT00245219|184729232|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The interaction between the peer support condition and breast cancer stage at Time 2. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92420069|NCT00245219|184729232|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and control condition at Time 3, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92239747|NCT00696657|184383374|OTHER||Estimated treatment differences|-0.68|||||TWO_SIDED|95.0|-0.97|-0.4|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Liraglutide 1.2 mg - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.40|-0.97|
92420070|NCT00245219|184729232|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The interaction between the peer support condition and breast cancer stage at Time 3. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92420071|NCT00245219|184729233|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the peer support condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420072|NCT00245219|184729233|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the education condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420073|NCT00245219|184729233|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the peer support condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420074|NCT00245219|184729233|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the education condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
92420075|NCT00245219|184729233|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the peer support condition and control condition at Time 2, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92420076|NCT00245219|184729233|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The interaction between the peer support condition and breast cancer stage at Time 2. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92235793|NCT03114969|184374783|SUPERIORITY||Odds Ratio (OR)|2.757||||0.029|TWO_SIDED|95.0|1.107|6.862||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||6.862|1.107|0.029
92235794|NCT03114969|184374784|SUPERIORITY||Odds Ratio (OR)|2.434||||0.024|TWO_SIDED|95.0|1.123|5.276||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||5.276|1.123|0.024
92235795|NCT03114969|184374784|SUPERIORITY||Odds Ratio (OR)|2.389||||0.035|TWO_SIDED|95.0|1.061|5.376||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||5.376|1.061|0.035
92420077|NCT00245219|184729233|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the peer support condition and control condition at Time 3, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92420078|NCT00245219|184729233|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The interaction between the peer support condition and breast cancer stage at Time 3. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
92420079|NCT02021656|184729241|SUPERIORITY||||||<|0.001|||||||Binomial Exact Test|||A sample size of 100 Chinese participants in the treatment naive group provided at least 90% power to detect a 17% improvement in SVR12 rate from the historical control rate of 57% using 2-sided exact one-sample binomial test at significant level of 0.05.||||<0.001
92420080|NCT01827358|184729250|OTHER|For strong control of the family-wise error rate at the 0.05 confidence level, the Holm procedure (Holm 1979) is used. Under this procedure, the p-values from the two tests are sorted as p\_((1)) (smaller p-value) and p\_((2)) (larger p-value). If p\_((1))=0.025 and p\_((2))=0.05, then the null hypotheses for both tests are rejected. If p\_((1))=0.025 and p\_((2))\>0.05, then only the null hypothesis associated with the smaller p-value is rejected. In any other case, neither null hypothesis is rejected|Odds Ratio (OR)|315.2|||<|0.001|TWO_SIDED|97.5|49.6|2698.8|||Fisher Exact|||||2698.8|49.6|<0.001
92420081|NCT01827358|184729251|OTHER|For strong control of the family-wise error rate at the 0.05 confidence level, the Holm procedure (Holm 1979) is used. Under this procedure, the p-values from the two tests are sorted as p\_((1)) (smaller p-value) and p\_((2)) (larger p-value). If p\_((1))=0.025 and p\_((2))=0.05, then the null hypotheses for both tests are rejected. If p\_((1))=0.025 and p\_((2))\>0.05, then only the null hypothesis associated with the smaller p-value is rejected. In any other case, neither null hypothesis is rejected|Odds Ratio (OR)|39.5|||<|0.001|TWO_SIDED|95.0|5.5|1666.3|||Fisher Exact|||||1666.3|5.5|<0.001
92420082|NCT01827358|184729252|OTHER||Hazard Ratio (HR)|1.0||||0.997|TWO_SIDED|95.0|0.3|3.28|||Cox proportional hazards model|||The association between mupirocin treatment and non-clinical SA Infection on or before Day 85 was assessed via a Cox Proportional Hazards Model. Onset time was defined as the first day of non-SA infection. Infants were right-censored at the time of discharge from the hospital or at Day 85, whichever came first.||3.28|0.30|0.997
92420083|NCT01827358|184729253|OTHER||Hazard Ratio (HR)|1.33||||0.656|TWO_SIDED|95.0|0.37|4.76|||Cox proportional hazards model|||The association between mupirocin treatment and non-clinical SA Infection on or before Day 85 was assessed via a Cox Proportional Hazards Model. Onset time was defined as the first day of non-SA infection. Infants were right-censored at the time of discharge from the hospital or at Day 85, whichever came first.||4.76|0.37|0.656
92420084|NCT01827358|184729255|OTHER||Hazard Ratio (HR)|0.23||||0.182|TWO_SIDED|95.0|0.03|2.01|||Cox proportional hazards models|||The time to clinical infection with SA on or prior to Day 22 was analyzed using Kaplan-Meier estimates of the survival curve and Cox proportional hazards models (with treatment as the only independent variable). Infants were censored at Day 22 or completion or early termination from the study. Estimates of the hazard ratio (values less than one indicating a treatment benefit) with Wald 95% confidence intervals and accompanying p-values were calculated.||2.01|0.03|0.182
92420085|NCT01827358|184729256|OTHER||Hazard Ratio (HR)|0.24||||0.198|TWO_SIDED|95.0|0.03|2.12|||Cox proportional hazards model|||The time to clinical infection with SA on or prior to Day 22 was analyzed using Kaplan-Meier estimates of the survival curve and Cox proportional hazards models (with treatment as the only independent variable). Infants were censored at Day 22 or completion or early termination from the study. Estimates of the hazard ratio (values less than one indicating a treatment benefit) with Wald 95% confidence intervals and accompanying p-values were calculated.||2.12|0.03|0.198
92420086|NCT02338336|184729261|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92420087|NCT02043379|184729290|NON_INFERIORITY_OR_EQUIVALENCE|We used alpha level of 0.05 and power of 0.8 to calculate the sample size necessary to detect a meaningful clinical difference for our primary endpoint.||||||1||||||A p-value of \<0.05 represents the threshold for statistical significance.|Chi-squared|||||||1
92420088|NCT02043379|184729291|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||1||||||A p-value of \<0.05 represents the threshold for statistical significance.|Chi-squared|||||||1
92278931|NCT00094302|184460811|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.54
92420089|NCT02043379|184729292|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.38||||||A p-value of \<0.05 represents the threshold for statistical significance.|Chi-squared|||||||0.38
92420090|NCT02043379|184729293|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.26||||||A p-value of \<0.05 represents the threshold for statistical significance.|Chi-squared|||||||0.26
92420091|NCT02043379|184729294|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.42|TWO_SIDED|95.0||||A p-value of \<0.05 represents the threshold for statistical significance.|t-test, 2 sided|||24 hour post-CPB albumin||||0.42
92420092|NCT02043379|184729294|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.06||||||a p-value of \<0.05 represents the threshold for test signficance|t-test, 2 sided|||48 hour post CPB albumin||||0.06
92420093|NCT02043379|184729295|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.52||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.52
92420094|NCT02043379|184729296|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.81||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||Admit Inotrope Score||||0.81
92420095|NCT02043379|184729296|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation||||||0.82||||||a p value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hours post-operative inotrope score||||0.82
92420096|NCT02043379|184729296|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation||||||0.9||||||a p value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hours post-operative inotrope score||||0.9
92420097|NCT02043379|184729296|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation||||||0.23||||||a p-value of \<0.05 represents the threshold for statistical signficance|Wilcoxon (Mann-Whitney)|||48 hours post-operative inotrope score||||0.23
92420098|NCT02043379|184729297|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.49||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.49
92420099|NCT02043379|184729298|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.79||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.79
92420100|NCT02043379|184729299|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.32||||||A p-value of \<0.05 represents the threshold for statistical significance.|t-test, 2 sided|||pre-operative IgG level||||0.32
92420101|NCT02043379|184729299|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation||||||0.36||||||a p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hours post-operative IgG level||||0.36
92171790|NCT03897686|184233254|SUPERIORITY||LS-means difference|-0.146|STANDARD_ERROR_OF_MEAN|5.121||0.97733|TWO_SIDED|95.0|-10.271|9.98||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in stiffness WOMAC score, visit 3||9.980|-10.271|0.97733
92280578|NCT00663871|184463704|SUPERIORITY_OR_OTHER_LEGACY|The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mean Difference (Net)|0.06||||0.35|TWO_SIDED|95.0|-0.06|0.18|||Mixed Models Analysis|||||0.18|-0.06|0.35
92420102|NCT02043379|184729299|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation|||||<|0.01||||||p-value of \<0.05 represents the threshold for statistical signficance|Wilcoxon (Mann-Whitney)|||post-operative day 3 (72 hours) IgG level||||<0.01
92420103|NCT02043379|184729299|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation|||||<|0.01||||||p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||post-operative day 5 (120 hours) IgG level||||<0.01
92420104|NCT02043379|184729300|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.6||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.60
92420105|NCT02043379|184729300|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.06||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.06
92420106|NCT02043379|184729300|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.06||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.06
92420107|NCT02043379|184729300|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.33||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hours post-operative||||0.33
92420108|NCT02043379|184729300|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.05||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hours post-operative||||0.05
92420109|NCT02043379|184729300|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.83||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hours post-operative||||0.83
92420110|NCT02043379|184729301|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.27||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||0 hour levels||||0.27
92420111|NCT02043379|184729301|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.34||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||4 hour level||||0.34
92420112|NCT02043379|184729301|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.14||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||8 hour level||||0.14
92420113|NCT02043379|184729301|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.13||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||12 hour level||||0.13
92420114|NCT02043379|184729301|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.02||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||24 hour level||||0.02
92420115|NCT02043379|184729302|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||1||||||A p-value of \<0.05 represents the threshold for statistical significance.|Chi-squared|||||||1
92420116|NCT02043379|184729303|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.4||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.4
92420117|NCT02043379|184729304|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.09||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||0-48 hours post-CPB||||0.09
92420118|NCT02043379|184729304|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.52||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||0-24 hours post CPB||||0.52
92420119|NCT02043379|184729305|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.72||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.72
92235796|NCT03114969|184374784|SUPERIORITY||Odds Ratio (OR)|2.889||||0.003|TWO_SIDED|95.0|1.434|5.819||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||5.819|1.434|0.003
92420120|NCT02043379|184729306|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.63||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.63
92420121|NCT02043379|184729307|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.41||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.41
92420122|NCT02043379|184729307|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.34||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.34
92420123|NCT02043379|184729307|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.47||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.47
92420124|NCT02043379|184729307|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.42||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.42
92420125|NCT02043379|184729307|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.82||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.82
92420126|NCT02043379|184729307|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.44||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.44
92420127|NCT02043379|184729308|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.28||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.28
92420128|NCT02043379|184729308|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.37||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.37
92420129|NCT02043379|184729308|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.42||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.42
92420130|NCT02043379|184729308|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.31||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.31
92420131|NCT02043379|184729308|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.38||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.38
92420132|NCT02043379|184729308|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.4||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.4
92420133|NCT02043379|184729309|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.1||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.1
92420134|NCT02043379|184729309|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.12||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.12
92420135|NCT02043379|184729309|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.51||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.51
92170082|NCT02376790|184229091|SUPERIORITY||Treatment Difference|13.9||||0.005|TWO_SIDED|95.0|5.8|22.0||Adjusted p-value was obtained by applying a Bonferroni-based testing procedure for multiplicity adjustment to control the family-wise, two-sided type one error rate at 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|The primary hypothesis of this study is that etanercept plus methotrexate therapy and etanercept monotherapy are more efficacious than methotrexate monotherapy as measured by the percentage of participants with psoriatic arthritis achieving ACR 20 response at week 24.||22.0|5.8|0.005
92420136|NCT02043379|184729309|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.27||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.27
92420137|NCT02043379|184729309|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.88||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.88
92420138|NCT02043379|184729309|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.38||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.38
92420139|NCT02043379|184729310|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.35||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.35
92420140|NCT02043379|184729310|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.39||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.39
92420141|NCT02043379|184729310|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.58||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.58
92420142|NCT02043379|184729310|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.36||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.36
92420143|NCT02043379|184729310|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.61||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.61
92420144|NCT02043379|184729310|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.38||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.38
92420145|NCT02043379|184729311|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.1||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.1
92420146|NCT02043379|184729311|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.02||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.02
92420147|NCT02043379|184729311|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.34||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.34
92420148|NCT02043379|184729311|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.35||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.35
92420149|NCT02043379|184729311|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.67||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.67
92420150|NCT02043379|184729311|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.47||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.47
92420151|NCT02043379|184729312|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.46||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.46
92420152|NCT02043379|184729312|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.04||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.04
92420153|NCT02043379|184729312|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.14||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.14
92420154|NCT02043379|184729312|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.82||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.82
92420155|NCT02043379|184729312|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.9||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.9
92420156|NCT02043379|184729312|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.78||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.78
92420157|NCT02043379|184729313|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.37||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||0 hour level||||0.37
92420158|NCT02043379|184729313|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.47||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||4 hour level||||0.47
92171791|NCT03897686|184233254|SUPERIORITY||LS-means difference|-14.5|STANDARD_ERROR_OF_MEAN|5.29||0.00693|TWO_SIDED|95.0|-24.95|-4.04||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in stiffness WOMAC score, visit 4||-4.04|-24.95|0.00693
92420159|NCT02043379|184729313|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.47||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||8 hour level||||0.47
92420160|NCT02043379|184729313|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.79||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||12 hour level||||0.79
92420161|NCT02043379|184729313|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.04||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||24 hour level||||0.04
92420162|NCT02043379|184729314|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.43||||||A p-value of \<0.05 represents the threshold for statistical significance.|t-test, 2 sided|||pre-operative||||0.43
92420163|NCT02043379|184729314|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.68||||||A p-value of \<0.05 represents the threshold for statistical significance|t-test, 2 sided|||max||||0.68
92420164|NCT02043379|184729315|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.87||||||A p-value of \<0.05 represents the threshold for statistical significance.|t-test, 2 sided|||pre-operative||||0.87
92420165|NCT02043379|184729315|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.79||||||A p-value of \<0.05 represents the threshold for statistical significance|t-test, 2 sided|||24 hour post-operative max||||0.79
92420166|NCT05985980|184729316|EQUIVALENCE|The null hypothesis is true that the ST/HR index (μV/bpm) ıs similar between the early and late follicular phases||||||0.521|||||||t-test, 2 sided|||||||0.521
92420167|NCT05985980|184729317|EQUIVALENCE|High-sensitive cardiac troponin T (hs-cTnT) levels before and after ETT at the early and late follicular phases are compared.||||||0.109|||||||ANOVA|||High-sensitive cardiac troponin T (hs-cTnT) levels before and after ETT at the early and late follicular phases are compared.||||0.109
92420168|NCT05985980|184729318|EQUIVALENCE|ETT maximal exercise capacity (METs score) is compared between the early and late follicular phases of menstrual cycle||||||0.111|||||||t-test, 2 sided|||ETT maximal exercise capacity (METs score) is compared between the early and late follicular phases of menstrual cycle||||0.111
92420169|NCT05985980|184729319|EQUIVALENCE|ETT ST/HR slope (μV/bpm) is compared between the early and late follicular phases of menstrual cycle||||||0.414|||||||t-test, 2 sided|||ETT ST/HR slope (μV/bpm) is compared between the early and late follicular phases of menstrual cycle||||0.414
92420170|NCT05985980|184729320|EQUIVALENCE|Maximal horizontal or down slope ST segment depression (mm) during exercise treadmill test is compared between the early and late follicular phases of menstrual cycle||||||0.062|||||||t-test, 2 sided|||Maximal horizontal or down slope ST segment depression (mm) during exercise treadmill test is compared between the early and late follicular phases of menstrual cycle||||0.062
92420171|NCT05985980|184729321|EQUIVALENCE|Estrogen levels increase at the late follicular phase.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92420172|NCT00282347|184729364|SUPERIORITY_OR_OTHER|||||||0.5538|TWO_SIDED||||||Stratified Wilcoxon-Rank Sum Test|||||||0.5538
92420173|NCT02101112|184729373|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|1.054|||||TWO_SIDED|90.0|0.994|1.118||||||Apixaban, 10 mg (crushed and suspended in water) vs. Apixaban, 10 mg (whole tablets)||1.118|0.994|
92420174|NCT02101112|184729373|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.788|||||TWO_SIDED|90.0|0.741|0.839||||||Apixaban, 10 mg (crushed and mixed with applesauce) vs. Apixaban, 10 mg (whole tablets)||0.839|0.741|
92420175|NCT02101112|184729374|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|1.027|||||TWO_SIDED|90.0|0.981|1.076||||||Apixaban, 10 mg (crushed and suspended in water) vs. Apixaban, 10 mg (whole tablets)||1.076|0.981|
92420176|NCT02101112|184729374|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.835|||||TWO_SIDED|90.0|0.797|0.875||||||Apixaban, 10 mg (crushed and mixed with applesauce) vs. Apixaban, 10 mg (whole tablets)||0.875|0.797|
92420177|NCT02101112|184729375|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|1.027|||||TWO_SIDED|90.0|0.981|1.075||||||Apixaban, 10 mg (crushed and suspended in water) vs. Apixaban, 10 mg (whole tablets)||1.075|0.981|
92420178|NCT02101112|184729375|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.832|||||TWO_SIDED|90.0|0.794|0.871||||||Apixaban, 10 mg (crushed and mixed with applesauce) vs. Apixaban, 10 mg (whole tablets)||0.871|0.794|
92420179|NCT04340063|184729380|OTHER||Odds Ratio, log|0.4|||<|0.001|TWO_SIDED|95.0|0.25|0.55||Effect of time (pre-, mid-, and post- assessments)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the effect of training (pre-, mid-, and post- assessments). Random effect of participant was used and fixed effects were time (assessment order) and a time by group interaction (Treadmill or Movement Amplification). A binomial distribution was used for this model.||0.55|0.25|<0.001
92420180|NCT04340063|184729380|OTHER||Odds Ratio, log|-0.03||||0.8|TWO_SIDED|95.0|-0.22|0.16||Interaction effect for time (pre-, mid-, and post- assessments) by group (Movement Amplification)|Mixed Models Analysis|||||0.16|-0.22|0.8
92420181|NCT04340063|184729380|OTHER||Odds Ratio, log|0.09||||0.5|TWO_SIDED|95.0|-0.18|0.36||Effect of time (post-training and follow-up assessments)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the post-training and follow-up assessments if an effect was found during training. Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used. A binomial distribution was used for this model.||0.36|-0.18|0.5
92420182|NCT04340063|184729380|OTHER||Odds Ratio, log|-0.07||||0.6|TWO_SIDED|95.0|-0.31|0.17||Interaction effect of time (post-training and follow-up assessments) by group (Movement Amplification)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the post-training and follow-up assessments if an effect was found during training. Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used. A binomial distribution was used for this model.||0.17|-0.31|0.6
92420183|NCT04340063|184729381|OTHER||Slope|0.06||||0.8|TWO_SIDED|95.0|-0.5|0.62||Effect of time (pre-, mid-, and post- assessments)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the effect of training (pre-, mid-, and post- assessments). Random effect of participant and fixed effects of time (assessment order) and time by group (Treadmill or Movement Amplification) interaction were used||0.62|-0.50|0.8
92420184|NCT04340063|184729381|OTHER||Slope|-0.7||||0.012|TWO_SIDED|95.0|-1.2|-0.16||Interaction effect of time by group (Movement Amplification)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the effect of training (pre-, mid-, and post- assessments). Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used.||-0.16|-1.2|0.012
92420185|NCT04340063|184729381|OTHER||Slope|0.26||||0.3|TWO_SIDED|95.0|-0.22|0.75||Effect of time (post-training to follow-up)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the post-training and follow-up assessments if an effect was found during training. Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used.||0.75|-0.22|0.3
92420186|NCT04340063|184729381|OTHER||Slope|-0.2||||0.4|TWO_SIDED|95.0|-0.69|0.29||Interaction effect of time (post-training to follow-up) by group|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the post-training and follow-up assessments if an effect was found during training. Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used.||0.29|-0.69|0.4
92420187|NCT04340063|184729382|OTHER||Slope|-52.0||||0.9|TWO_SIDED|95.0|-651.0|456.0||Effect of time (pre-, mid-, and post- assessments)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the effect of training (pre-, mid-, and post- assessments). Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used.||456|-651|0.9
92420188|NCT04340063|184729382|OTHER||Slope|79.0||||0.8|TWO_SIDED|95.0|-622.0|780.0||Interaction effect of time by group (Movement Amplification)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the effect of training (pre-, mid-, and post- assessments). Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used.||780|-622|0.8
92420189|NCT00920829|184729426|SUPERIORITY|||||||0.724|||||||Mixed Models Analysis|||A linear mixed model with unstructured variance/covariance matrices was used to evaluate the primary outcome measure.||||0.724
92420190|NCT00920829|184729426|SUPERIORITY|||||||0.023|||||||Mixed Models Analysis|||This is a test of the main effect of medication, with a null hypothesis of no difference between Naltrexone and Placebo groups.||||0.023
92420191|NCT02237911|184729429|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.071|TWO_SIDED|98.3|-4.9|0.7|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.7|-4.9|0.071
92420192|NCT02237911|184729429|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.074|TWO_SIDED|98.3|-5.0|0.7|||Mixed Models Analysis|||Contrasts from a linear mixed models analysis at 6 months adjusted by baseline age, gender, BMI, WOMAC-PF, knee flexion.||0.7|-5.0|0.074
92420193|NCT02237911|184729429|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.93|TWO_SIDED|98.3|-2.7|2.9|||Mixed Models Analysis|||Contrasts from a linear mixed models analysis at 3 months adjusted by baseline age, gender, BMI, WOMAC-PF, knee flexion.||2.9|-2.7|0.930
92420194|NCT02237911|184729429|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.491|TWO_SIDED|98.3|-3.7|2.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||2.0|-3.7|0.491
92420195|NCT02237911|184729429|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.021|TWO_SIDED|98.3|-4.5|0.1|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.1|-4.5|0.021
92420196|NCT02237911|184729429|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.179|TWO_SIDED|98.3|-3.6|1.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||1.0|-3.6|0.179
92420197|NCT02237911|184729430|SUPERIORITY||Mean Difference (Final Values)|0.3|||<|0.0001|TWO_SIDED|98.3|0.1|0.4|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.4|0.1|<0.0001
92171792|NCT03897686|184233254|SUPERIORITY||LS-means difference|-16.18|STANDARD_ERROR_OF_MEAN|4.68||0.00073|TWO_SIDED|95.0|-25.44|-6.92||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in pain WOMAC score at visit 5 (week 25)||-6.92|-25.44|0.00073
92420198|NCT02237911|184729430|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.012|TWO_SIDED|98.3|0.01|0.4|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.4|0.01|0.012
92420199|NCT02237911|184729430|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.005|TWO_SIDED|98.3|0.02|0.3|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.3|0.02|0.005
92420200|NCT02237911|184729430|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.052|TWO_SIDED|98.3|-0.003|0.3|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.3|-0.003|0.052
92420201|NCT02237911|184729430|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.015|TWO_SIDED|98.3|0.02|0.3|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.3|0.02|0.015
92420202|NCT02237911|184729430|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.489|TWO_SIDED|98.3|-0.003|0.3|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.3|-0.003|0.489
92420203|NCT02237911|184729431|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.943|TWO_SIDED|95.0|-106.0|114.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||114|-106|0.943
92420204|NCT02237911|184729431|SUPERIORITY||Mean Difference (Final Values)|15.0||||0.814|TWO_SIDED|95.0|-112.0|142.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||142|-112|0.814
92420205|NCT02237911|184729431|SUPERIORITY||Mean Difference (Final Values)|-15.0||||0.787|TWO_SIDED|95.0|-125.0|95.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||95|-125|0.787
92420206|NCT02237911|184729431|SUPERIORITY||Mean Difference (Final Values)|-36.0||||0.581|TWO_SIDED|95.0|-164.0|92.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||92|-164|0.581
92420207|NCT02237911|184729431|SUPERIORITY||Mean Difference (Final Values)|19.0||||0.676|TWO_SIDED|95.0|-71.0|109.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||109|-71|0.676
92420208|NCT02237911|184729431|SUPERIORITY||Mean Difference (Final Values)|51.0||||0.33|TWO_SIDED|95.0|-52.0|154.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||154|-52|0.330
92420209|NCT03981822|184729455|SUPERIORITY|||||||0.0048||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Part B summary is pooled with its respective treatments from Part A.||||0.0048
92420210|NCT03981822|184729455|SUPERIORITY|||||||0.0075||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Part B summary is pooled with its respective treatments from Part A.||||0.0075
92420211|NCT03981822|184729456|SUPERIORITY|||||||0.3642||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 2 - Part B summary is pooled with its respective treatments from Part A.||||0.3642
92420212|NCT03981822|184729456|SUPERIORITY|||||||0.0967||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||||0.0967
92420213|NCT03981822|184729456|SUPERIORITY|||||||0.0648||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.0648
92420214|NCT03981822|184729456|SUPERIORITY|||||||0.1357||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.1357
92420215|NCT03981822|184729456|SUPERIORITY|||||||0.019||||||P-value is based on the CMH test stratified by gender. Part B summary is pooled with its respective treatments from|Cochran-Mantel-Haenszel|||Treatment Visit 4 Part B summary is pooled with its respective treatments from Part A.||||0.0190
92420216|NCT03981822|184729456|SUPERIORITY|||||||0.0184||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 4 Part B summary is pooled with its respective treatments from Part A.||||0.0184
92420217|NCT03981822|184729456|SUPERIORITY|||||||0.0048||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Study Day 84 EOT Visit - Part B summary is pooled with its respective treatments from Part A.||||0.0048
92420218|NCT03981822|184729456|SUPERIORITY|||||||0.0075||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Study Day 84 EOT Visit - Part B summary is pooled with its respective treatments from Part A.||||0.0075
92420219|NCT03981822|184729456|SUPERIORITY|||||||0.0539||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 112 - Part B summary is pooled with its respective treatments from Part A.||||0.0539
92420220|NCT03981822|184729456|SUPERIORITY|||||||0.1638||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 112 - Part B summary is pooled with its respective treatments from Part A.||||0.1638
92420221|NCT03981822|184729456|SUPERIORITY|||||||0.4766||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 147 EOS - Part B summary is pooled with its respective treatments from Part A.||||0.4766
92420222|NCT03981822|184729456|SUPERIORITY|||||||0.1588||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 147 EOS - Part B summary is pooled with its respective treatments from Part A.||||0.1588
92420223|NCT03981822|184729457|SUPERIORITY|||||||0.3642||||||P-value is based on the CMH test stratified by gender. Part B summary is pooled with its respective treatments from Part A.|Cochran-Mantel-Haenszel|||Treatment Visit 2 Part B summary is pooled with its respective treatments from Part A.||||0.3642
92420224|NCT03981822|184729457|SUPERIORITY|||||||0.0356|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 3 Part B summary is pooled with its respective treatments from Part A.||||0.0356
92420225|NCT03981822|184729457|SUPERIORITY|||||||0.0118|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender||Treatment Visit 4 Part B summary is pooled with its respective treatments from Part A.||||0.0118
92420226|NCT03981822|184729457|SUPERIORITY|||||||0.0026||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Study Day84 EOT Part B summary is pooled with its respective treatments from Part A.||||0.0026
92420227|NCT03981822|184729457|SUPERIORITY|||||||0.0174|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up Visit Day 112 Part B summary is pooled with its respective treatments from Part A.||||0.0174
92420228|NCT03981822|184729457|SUPERIORITY|||||||0.1311|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up Visit Day 147 EOS Part B summary is pooled with its respective treatments from Part A.||||0.1311
92420229|NCT03981822|184729457|SUPERIORITY|||||||0.0967|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 2 Part B summary is pooled with its respective treatments from Part A.||||0.0967
92420230|NCT03981822|184729457|SUPERIORITY|||||||0.1357|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 3 Part B summary is pooled with its respective treatments from Part A.||||0.1357
92420231|NCT03981822|184729457|SUPERIORITY|||||||0.0184|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 4 Part B summary is pooled with its respective treatments from Part A.||||0.0184
92171793|NCT03897686|184233254|SUPERIORITY||LS-means difference|-57.14|STANDARD_ERROR_OF_MEAN|32.1||0.07725|TWO_SIDED|95.0|-120.62|6.33||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in functionality WOMAC score, visit 3||6.33|-120.62|0.07725
92392321|NCT03087513|184683679|SUPERIORITY||||||<|0.01||||||In all cases of motor evoked potential changes, a P-value of 0.05 was considered significant.|Mixed Models Analysis|As the amplitude values were non-normally distributed, the Mann-Whitney U test was performed to compare the two groups.||In total, 40 patients were randomised for the study. Data from 2 patients were excluded as the crossover arm could not be completed due to intraoperative MEP change (n=1) and the equipment malfunction (n=1). The data distributions were tested for normality with the Kolmogorov-Smirnov test.||||<0.01
92392322|NCT04170543|184683684|OTHER||LS Mean Difference in Percent Change|-2.85||||0.8338|TWO_SIDED|90.0|-22.61|21.94||Unadjusted two-sided p-value|MMRM||MEDI3506 30 mg - Placebo|||21.94|-22.61|0.8338
92392323|NCT04170543|184683684|OTHER||LS Mean Difference in Percent Change|-19.52||||0.1169|TWO_SIDED|90.0|-35.92|1.07||Unadjusted two-sided p-value|MMRM||MEDI3506 60 mg - Placebo|||1.07|-35.92|0.1169
92392324|NCT04170543|184683684|OTHER||LS Mean Difference in Percent Change|-17.47||||0.1774|TWO_SIDED|90.0|-34.71|4.32||Unadjusted two-sided p-value|MMRM||MEDI3506 120 mg - Placebo|||4.32|-34.71|0.1774
92392325|NCT04170543|184683684|OTHER||LS Mean Difference in Percent Change|-7.22||||0.5379|TWO_SIDED|90.0|-24.05|13.35||Unadjusted two-sided p-value|MMRM|||||13.35|-24.05|0.5379
92392326|NCT04170543|184683685|OTHER||LS Mean Difference in Percent Change|-13.02||||0.1929|TWO_SIDED|90.0|-27.08|3.75||Unadjusted two-sided p-value|MMRM||MEDI3506 30 mg - Placebo|||3.75|-27.08|0.1929
92392327|NCT04170543|184683685|OTHER||LS Mean Difference in Percent Change|-25.71||||0.0062|TWO_SIDED|90.0|-37.83|-11.22||Unadjusted two-sided p-value|MMRM||MEDI3506 60 mg - Placebo|||-11.22|-37.83|0.0062
92392328|NCT04170543|184683685|OTHER||LS Mean Difference in Percent Change|-18.2||||0.0705|TWO_SIDED|90.0|-31.86|-1.81||Unadjusted two-sided p-value|MMRM||MEDI3506 120 mg - Placebo|||-1.81|-31.86|0.0705
92392329|NCT04170543|184683685|OTHER||LS Mean Difference in Percent Change|-15.56||||0.0764|TWO_SIDED|90.0|-27.82|-1.21||Unadjusted two-sided p-value|MMRM|||||-1.21|-27.82|0.0764
92392330|NCT04170543|184683686|OTHER||LS Mean Difference in Percent Change|7.25||||0.5474|TWO_SIDED|90.0|-11.45|29.88||Unadjusted two-sided p-value|MMRM||MEDI3506 30 mg - Placebo|||29.88|-11.45|0.5474
92392331|NCT04170543|184683686|OTHER||LS Mean Difference in Percent Change|3.11||||0.792|TWO_SIDED|90.0|-14.83|24.82||Unadjusted two-sided p-value|MMRM||MEDI3506 60 mg - Placebo|||24.82|-14.83|0.7920
92392332|NCT04170543|184683686|OTHER||LS Mean Difference in Percent Change|-3.4||||0.7711|TWO_SIDED|90.0|-20.59|17.51||Unadjusted two-sided p-value|MMRM||MEDI3506 120 mg - Placebo|||17.51|-20.59|0.7711
92420232|NCT03981822|184729457|SUPERIORITY|||||||0.0024|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Study Day 84 EOT Visit Part B summary is pooled with its respective treatments from Part A.||||0.0024
92420233|NCT03981822|184729457|SUPERIORITY|||||||0.1034|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up Visit Day 112 Part B summary is pooled with its respective treatments from Part A.||||0.1034
92420234|NCT03981822|184729457|SUPERIORITY|||||||0.1029|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up Visit Day 147 EOS Part B summary is pooled with its respective treatments from Part A.||||0.1029
92392333|NCT04170543|184683686|OTHER||LS Mean Difference in Percent Change|5.27||||0.6163|TWO_SIDED|90.0|-11.08|24.62||Unadjusted two-sided p-value|MMRM|||||24.62|-11.08|0.6163
92392334|NCT04170543|184683688|OTHER||LS Mean Difference in Percent Change|2.43||||0.8537|TWO_SIDED|90.0|-17.35|26.95||Unadjusted two-sided p-value|MMRM||MEDI3506 30 mg - Placebo|||26.95|-17.35|0.8537
92392335|NCT04170543|184683688|OTHER||LS Mean Difference in Percent Change|-15.63||||0.1989|TWO_SIDED|90.0|-32.14|4.89||Unadjusted two-sided p-value|MMRM||MEDI3506 60 mg - Placebo|||4.89|-32.14|0.1989
92392336|NCT04170543|184683688|OTHER||LS Mean Difference in Percent Change|-17.96||||0.1346|TWO_SIDED|90.0|-34.01|1.99||Unadjusted two-sided p-value|MMRM||MEDI3506 120 mg - Placebo|||1.99|-34.01|0.1346
92392337|NCT04170543|184683688|OTHER||LS Mean Difference in Percent Change|-6.38||||0.5683|TWO_SIDED|90.0|-22.59|13.23||Unadjusted two-sided p-value|MMRM|||||13.23|-22.59|0.5683
92392338|NCT04170543|184683689|OTHER||LS Mean Difference in Percent Change|-7.93||||0.4226|TWO_SIDED|90.0|-22.3|9.1||Unadjusted two-sided p-value|MMRM||MEDI3506 30 mg - Placebo|||9.10|-22.30|0.4226
92392339|NCT04170543|184683689|OTHER||LS Mean Difference in Percent Change|-20.61||||0.0287|TWO_SIDED|90.0|-33.25|-5.58||Unadjusted two-sided p-value|MMRM||MEDI3506 60 mg - Placebo|||-5.58|-33.25|0.0287
92392340|NCT04170543|184683689|OTHER||LS Mean Difference in Percent Change|-18.73||||0.0498|TWO_SIDED|90.0|-31.7|-3.3||Unadjusted two-sided p-value|MMRM||MEDI3506 120 mg - Placebo|||-3.30|-31.70|0.0498
92392341|NCT04170543|184683689|OTHER||LS Mean Difference in Percent Change|-13.27||||0.1236|TWO_SIDED|90.0|-25.51|0.98||Unadjusted two-sided p-value|MMRM|||||0.98|-25.51|0.1236
92392342|NCT03884790|184683716|OTHER|Descriptive statistical analysis|||||||||||||||||Descriptive statistical analysis|||
92392343|NCT04378270|184683752|OTHER||Mean Difference (Final Values)|2.93|STANDARD_ERROR_OF_MEAN|1.61||0.0796|TWO_SIDED|95.0|-0.3687|6.2287|||t-test, 2 sided|Degrees of Freedom (DF)- 28||This procedure calculates the difference between the observed means in two independent samples (two collected assessment timepoints, screening and 4 week follow up visits). A significance value (P-value) and 95% Confidence Interval (CI) of the difference is reported. The P-value is the probability of obtaining the observed difference between the samples if the null hypothesis were true. The null hypothesis is the hypothesis that the difference is 0.||6.2287|-0.3687|0.0796
92392344|NCT04378270|184683753|OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.879||0.0634|TWO_SIDED|95.0|-3.5014|0.1014|||t-test, 2 sided|Degrees of Freedom (DF)- 28||This procedure calculates the difference between the observed means in two independent samples (two collected assessment timepoints, screening and 4 week follow up visits). A significance value (P-value) and 95% Confidence Interval (CI) of the difference is reported. The P-value is the probability of obtaining the observed difference between the samples if the null hypothesis were true. The null hypothesis is the hypothesis that the difference is 0.||0.1014|-3.5014|0.0634
92420235|NCT03981822|184729458|SUPERIORITY|||||||0.0356|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||||0.0356
92420236|NCT03981822|184729458|SUPERIORITY|||||||0.1477|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||||0.1477
92420237|NCT03981822|184729458|SUPERIORITY|||||||0.0062|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.0062
92420238|NCT03981822|184729458|SUPERIORITY|||||||0.0046|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.0046
92420239|NCT03981822|184729458|SUPERIORITY|||||||0.0177|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||||0.0177
92420240|NCT03981822|184729458|SUPERIORITY|||||||0.0054|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||||0.0054
92420241|NCT03981822|184729458|SUPERIORITY|||||||0.0013|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Study Day 84 (EOT) visit: Part B summary is pooled with its respective treatments from Part A.||||0.0013
92170083|NCT02376790|184229091|SUPERIORITY||Treatment Difference|9.2||||0.029|TWO_SIDED|95.0|1.0|17.3||Adjusted p-value was obtained by applying a Bonferroni-based testing procedure for multiplicity adjustment to control the family-wise, two-sided type one error rate at 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|The primary hypothesis of this study is that etanercept plus methotrexate therapy and etanercept monotherapy are more efficacious than methotrexate monotherapy as measured by the percentage of participants with psoriatic arthritis achieving ACR 20 response at week 24.||17.3|1.0|0.029
92170084|NCT02376790|184229092|SUPERIORITY||Treatment Difference|12.2||||0.005|TWO_SIDED|95.0|4.9|19.6||Adjusted p-value was obtained by applying a Bonferroni-based testing procedure for multiplicity adjustment to control the family-wise, two-sided type one error rate at 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|The secondary hypothesis of this study was that etanercept plus methotrexate therapy and etanercept monotherapy are more efficacious than methotrexate monotherapy as measured by the percentage of participants with PsA achieving MDA response at week 24.||19.6|4.9|0.005
92420242|NCT03981822|184729458|SUPERIORITY|||||||0.0034|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Study Day 84 (EOT) Visit: Part B summary is pooled with its respective treatments from Part A.||||0.0034
92420243|NCT03981822|184729458|SUPERIORITY|||||||0.0156|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up visit day 112: Part B summary is pooled with its respective treatments from Part A.||||0.0156
92420244|NCT03981822|184729458|SUPERIORITY|||||||0.0367|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up visit day 112: Part B summary is pooled with its respective treatments from Part A.||||0.0367
92420245|NCT03981822|184729458|SUPERIORITY|||||||0.1746|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up visit day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||||0.1746
92420246|NCT03981822|184729458|SUPERIORITY|||||||0.0123|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up visit day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||||0.0123
92420247|NCT03981822|184729459|SUPERIORITY||LS mean difference|-3.96||||0.0021|TWO_SIDED|95.0|-5.41|-1.24||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, Tx by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||-1.24|-5.41|0.0021
92420248|NCT03981822|184729459|SUPERIORITY||LS mean difference|-4.72||||0.015|TWO_SIDED|95.0|-5.95|-0.66|||Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||-0.66|-5.95|0.0150
92420249|NCT03981822|184729459|SUPERIORITY||LS mean difference|-5.31||||0.0011|TWO_SIDED|95.0|-6.54|-1.69||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||-1.69|-6.54|0.0011
92420250|NCT03981822|184729459|SUPERIORITY||LS mean difference|-6.5||||0.0007|TWO_SIDED|95.0|-8.25|-2.32||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Study Day 84 EOT Visit: Part B summary is pooled with its respective treatments from Part A.||-2.32|-8.25|0.0007
92420251|NCT03981822|184729459|SUPERIORITY||LS mean difference|-6.15||||0.0012|TWO_SIDED|95.0|-7.5|-1.91||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow-up day 112: Part B summary is pooled with its respective treatments from Part A.||-1.91|-7.50|0.0012
92420252|NCT03981822|184729459|SUPERIORITY||LS mean difference|-5.02||||0.0349|TWO_SIDED|95.0|-6.78|-0.26||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow-up visit day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||-0.26|-6.78|0.0349
92420253|NCT03981822|184729459|SUPERIORITY||LS mean difference|-4.76|||<|0.0001|TWO_SIDED|95.0|-7.47|-2.85||P-value is based on MMRM mode|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment visit 2: Part B summary is pooled with its respective treatments from Part A.||-2.85|-7.47|<0.0001
92420254|NCT03981822|184729459|SUPERIORITY||LS mean difference|-6.0||||0.0005|TWO_SIDED|95.0|-8.37|-2.43||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 3: Degrees of freedom associated with the error term were computed using Kenward-Rogers method.||-2.43|-8.37|0.0005
92420255|NCT03981822|184729459|SUPERIORITY||LS mean difference|-6.64|||<|0.0001|TWO_SIDED|95.0|-9.65|-4.12||Analysis based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment visit 4: Part B summary is pooled with its respective treatments from Part A.||-4.12|-9.65|<0.0001
92420256|NCT03981822|184729459|SUPERIORITY||LS mean difference|-6.49||||0.0004|TWO_SIDED|95.0|-9.67|-2.92||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Study Day 84 (EOT): Part B summary is pooled with its respective treatments from Part A.||-2.92|-9.67|0.0004
92420257|NCT03981822|184729459|SUPERIORITY||LS mean difference|-6.96|||<|0.0001|TWO_SIDED|95.0|-9.89|-3.57||Analysis based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow-up day 112: Part B summary is pooled with its respective treatments from Part A.||-3.57|-9.89|<0.0001
92420258|NCT03981822|184729459|SUPERIORITY||LS mean difference|-6.99||||0.0005|TWO_SIDED|95.0|-10.2|-2.94||Analysis based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow up day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||-2.94|-10.20|0.0005
92171794|NCT03897686|184233254|SUPERIORITY||LS-means difference|-103.27|STANDARD_ERROR_OF_MEAN|33.92||0.00279|TWO_SIDED|95.0|-170.35|-36.2||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in functionality WOMAC score, visit 4||-36.20|-170.35|0.00279
92420259|NCT03981822|184729460|SUPERIORITY||LS mean difference|-41.47|||<|0.0001|TWO_SIDED|95.0|-51.31|-20.87||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||-20.87|-51.31|<0.0001
92420260|NCT03981822|184729460|SUPERIORITY||LS mean difference|-50.95||||0.0004|TWO_SIDED|95.0|-66.18|-19.56||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||-19.56|-66.18|0.0004
92420261|NCT03981822|184729460|SUPERIORITY||LS mean difference|-66.21|||<|0.0001|TWO_SIDED|95.0|-88.15|-35.87||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||-35.87|-88.15|<0.0001
92420262|NCT03981822|184729460|SUPERIORITY||LS mean difference|-79.37|||<|0.0001|TWO_SIDED|95.0|-111.44|-49.77||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Study Day 84 End of Treatment Visit: Part B summary is pooled with its respective treatments from Part A.||-49.77|-111.44|<0.0001
92235797|NCT03114969|184374784|SUPERIORITY||Odds Ratio (OR)|2.974||||0.003|TWO_SIDED|95.0|1.461|6.055||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||6.055|1.461|0.003
92420263|NCT03981822|184729460|SUPERIORITY||LS mean difference|-69.79||||0.0001|TWO_SIDED|95.0|-103.17|-35.25||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow up Day 112: Part B summary is pooled with its respective treatments from Part A.||-35.25|-103.17|0.0001
92420264|NCT03981822|184729460|SUPERIORITY||LS mean difference|-41.22||||0.1033|TWO_SIDED|95.0|-90.61|8.56||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow up Visit Day 147 End of Study: Part B summary is pooled with its respective treatments from Part A.||8.56|-90.61|0.1033
92420265|NCT03981822|184729460|SUPERIORITY||LS mean difference|-58.43|||<|0.0001|TWO_SIDED|95.0|-73.26|-39.39||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||-39.39|-73.26|<0.0001
92420266|NCT03981822|184729460|SUPERIORITY||LS mean difference|-69.86|||<|0.0001|TWO_SIDED|95.0|-81.61|-28.8||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||-28.80|-81.61|<0.0001
92420267|NCT03981822|184729460|SUPERIORITY||LS mean difference|-76.55|||<|0.0001|TWO_SIDED|95.0|-107.19|-45.61||P-value is based on MMRM model with gender, treatment, visit, treatment by visit interaction, and baseline wart count as factors.|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||-45.61|-107.19|<0.0001
92420268|NCT03981822|184729460|SUPERIORITY||LS mean difference|-74.29||||0.0003|TWO_SIDED|95.0|-102.96|-31.55||P-value is based on MMRM model with gender, treatment, visit, treatment by visit interaction, and baseline wart count as factors.|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Study Day 84 End of Treatment Visit: Part B summary is pooled with its respective treatments from Part A.||-31.55|-102.96|0.0003
92420269|NCT03981822|184729460|SUPERIORITY||LS mean difference|-77.1||||0.0004|TWO_SIDED|95.0|-110.32|-32.78||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow-up Day 112: Part B summary is pooled with its respective treatments from Part A.||-32.78|-110.32|0.0004
92235798|NCT01852344|184374831|SUPERIORITY|||||||0.159|||||||t-test, 2 sided|||||||0.159
92235799|NCT01852344|184374831|SUPERIORITY|||||||0.159|||||||t-test, 2 sided|||||||0.159
92235800|NCT01852344|184374832|SUPERIORITY|||||||0.236|||||||t-test, 2 sided|||||||0.236
92420270|NCT03981822|184729460|SUPERIORITY||LS mean difference|-77.52||||0.0178|TWO_SIDED|95.0|-120.82|-11.88||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow-up Visit Day 147 End of Study: Part B summary is pooled with its respective treatments from Part A.||-11.88|-120.82|0.0178
92420271|NCT03981822|184729461|SUPERIORITY|||||||0.0004||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||||0.0004
92235801|NCT01852344|184374833|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||||||0.032
92278932|NCT00094302|184460812|SUPERIORITY_OR_OTHER|||||||0.98|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline laboratory value as the dependent variable, and the baseline laboratory value, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.98
92420272|NCT03981822|184729461|SUPERIORITY|||||||0.0005||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||||0.0005
92420273|NCT03981822|184729461|SUPERIORITY|||||||0.0698||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.0698
92420274|NCT03981822|184729461|SUPERIORITY|||||||0.01||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.0100
92420275|NCT03981822|184729461|SUPERIORITY|||||||0.0101||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||||0.0101
92420276|NCT03981822|184729461|SUPERIORITY|||||||0.0077||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||||0.0077
92420277|NCT03981822|184729461|SUPERIORITY|||||||0.064||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Study Day 84 EOT Visit: Part B summary is pooled with its respective treatments from Part A.||||0.0640
92420278|NCT03981822|184729461|SUPERIORITY|||||||0.0045||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Study Day 84 EOT: Part B summary is pooled with its respective treatments from Part A.||||0.0045
92420279|NCT03981822|184729461|SUPERIORITY|||||||0.284||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 112: Part B summary is pooled with its respective treatments from Part A.||||0.2840
92420280|NCT03981822|184729461|SUPERIORITY|||||||0.0132||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 112: Part B summary is pooled with its respective treatments from Part A.||||0.0132
92420281|NCT03981822|184729461|SUPERIORITY|||||||0.4668||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 147 EOS: Part B summary is pooled with its respective treatments from Part A.||||0.4668
92420282|NCT03981822|184729461|SUPERIORITY|||||||0.0064||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 147 EOS: Part B summary is pooled with its respective treatments from Part A.||||0.0064
92420283|NCT03981822|184729462|SUPERIORITY|||||||0.0364|||||||Mantel Haenszel|Stratified by gender||Part B summary is pooled with its respective treatments from Part A.||||0.0364
92420284|NCT03981822|184729462|SUPERIORITY|||||||0.0215|||||||Cochran-Mantel-Haenszel|Stratified by gender||Part B summary is pooled with its respective treatments from Part A.||||0.0215
92420285|NCT03981822|184729463|SUPERIORITY||LS mean difference|-59.63||||0.1222|TWO_SIDED|95.0|-76.1|9.23||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Study Day 84 (EOT: Part B summary is pooled with its respective treatments from Part A.||9.23|-76.10|0.1222
92420286|NCT03981822|184729463|SUPERIORITY||LS mean difference|-69.51||||0.0403|TWO_SIDED|95.0|-81.3|-1.9||Analysis based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Study Day 112 (EOT: Part B summary is pooled with its respective treatments from Part A.||-1.90|-81.30|0.0403
92420287|NCT03981822|184729463|SUPERIORITY||LS mean difference|-58.88||||0.0863|TWO_SIDED|95.0|-77.79|5.33||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Visit Day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||5.33|-77.79|0.0863
92420288|NCT03981822|184729463|SUPERIORITY||LS mean difference|-62.13||||0.0428|TWO_SIDED|95.0|-100.76|-1.73||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Study Day 84 (EOT): Part B summary is pooled with its respective treatments from Part A.||-1.73|-100.76|0.0428
92420289|NCT03981822|184729463|SUPERIORITY||LS mean difference|-71.93||||0.0084|TWO_SIDED|95.0|-110.46|-17.0||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Day 112: Part B summary is pooled with its respective treatments from Part A.||-17.00|-110.46|0.0084
92235802|NCT03443024|184374861|SUPERIORITY|||||||0.0165|||||||ANCOVA|||||||0.0165
92235803|NCT03443024|184374861|SUPERIORITY|||||||0.0022|TWO_SIDED|95.0|||||ANCOVA|||||||0.0022
92235804|NCT03443024|184374861|SUPERIORITY|||||||0.0005|TWO_SIDED|95.0|||||ANCOVA|||||||0.0005
92235805|NCT03443024|184374862|SUPERIORITY|||||||0.061|||||||Cochran-Mantel-Haenszel|||||||0.0610
92420290|NCT03981822|184729463|SUPERIORITY||LS mean difference|-63.11||||0.0273|TWO_SIDED|95.0|-103.08|-6.35||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Visit Day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||-6.35|-103.08|0.0273
92420291|NCT03981822|184729464|SUPERIORITY|Analysis is based on MMRM model|LS mean difference|-44.65||||0.3083|TWO_SIDED|95.0|-69.96|22.47|||Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Study Day 84 (EOT): Part B summary is pooled with its respective treatments from Part A.||22.47|-69.96|0.3083
92420292|NCT03981822|184729464|SUPERIORITY||LS mean difference|-55.8||||0.1686|TWO_SIDED|95.0|-86.93|15.56||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Day 112: Part B summary is pooled with its respective treatments from Part A.||15.56|-86.93|0.1686
92420293|NCT03981822|184729464|SUPERIORITY||LS mean difference|-38.06||||0.2384|TWO_SIDED|95.0|-87.04|22.1||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Visit Day 147 End of Study: Part B summary is pooled with its respective treatments from Part A.||22.10|-87.04|0.2384
92420294|NCT03981822|184729464|SUPERIORITY||LS mean difference|-61.96||||0.0603|TWO_SIDED|95.0|-103.37|2.27||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Study Day 84 (EOT): Part B summary is pooled with its respective treatments from Part A.||2.27|-103.37|0.0603
92420295|NCT03981822|184729464|SUPERIORITY||LS mean difference|-74.87||||0.0109|TWO_SIDED|95.0|-138.71|-18.83||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Visit Day 112: Part B summary is pooled with its respective treatments from Part A.||-18.83|-138.71|0.0109
92420296|NCT03981822|184729464|SUPERIORITY||LS mean difference|-66.62||||0.0467|TWO_SIDED|95.0|-127.64|-0.99||Analysis is base on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Visit Day 147 End of Study: Part B summary is pooled with its respective treatments from Part A.||-0.99|-127.64|0.0467
92420297|NCT01617148|184729478|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92420298|NCT01617148|184729479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92420299|NCT01617148|184729480|SUPERIORITY_OR_OTHER|||||||0.038|||||||t-test, 2 sided|||||||0.038
92420300|NCT01617148|184729481|SUPERIORITY_OR_OTHER|||||||0.038|||||||t-test, 2 sided|||||||0.038
92170085|NCT02376790|184229092|SUPERIORITY||Treatment Difference|11.6||||0.005|TWO_SIDED|95.0|4.2|18.9||Adjusted p-value was obtained by applying a Bonferroni-based testing procedure for multiplicity adjustment to control the family-wise, two-sided type one error rate at 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|The secondary hypothesis of this study was that etanercept plus methotrexate therapy and etanercept monotherapy are more efficacious than methotrexate monotherapy as measured by the percentage of participants with PsA achieving MDA response at week 24.||18.9|4.2|0.005
92170086|NCT02376790|184229094|SUPERIORITY||Treatment Difference|14.7|||<|0.001|TWO_SIDED|95.0|6.4|23.0||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of the percentage of participants with an ACR50 response at week 24.||23.0|6.4|<0.001
92420301|NCT03463031|184729524|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17||0.001|TWO_SIDED|95.0|-0.9|-0.2|||Mixed Models Analysis|||||-0.2|-0.9|0.001
92420302|NCT03463031|184729525|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.0|-0.3|||Mixed Models Analysis|||||-0.3|-1.0|<0.001
92420303|NCT03463031|184729526|SUPERIORITY||Least Square Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|||||-0.1|-0.5|< 0.001
92420304|NCT03463031|184729527|SUPERIORITY||Least Square Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.233|TWO_SIDED|95.0|-0.6|0.1|||Mixed Models Analysis|||||0.1|-0.6|0.233
92420305|NCT02117414|184729618|SUPERIORITY_OR_OTHER||Percentage|100.0|||<|0.0001|ONE_SIDED|95.0|97.75|||A priori threshold for statistical significance was 0.025.|one-proportion binomial exact test|||The alternative hypothesis is that the MRI-related event-free rate between the MRI procedure and one month post-MRI is greater than 90%. The null hypothesis will be rejected if the one-sided 97.5% lower confidence bound is greater than 90% or, equivalently, if the p-value is less than 0.025. Assuming type I error rate 0.025, even-free rate under null hypothesis 90% and true even-free rate 0.995, the minimum required sample size is 54 MRI scanned subjects in order to obtain 90% power.|||97.75|<0.0001
92420306|NCT02117414|184729619|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Difference in percentages|1.2|||<|0.0001|ONE_SIDED|95.0|-3.8|||A priori threshold for statistical significance was 0.025.|Farrington-Manning non-inferiority test|||"The percentage of subjects who experience a VPCT increase less than or equal to 0.5V from the pre-MRI/waiting period to one month post-MRI/waiting period in the MRI group is greater than that in the Control group minus 10%.~H0: % successes MRI group ≤ % successes Control group - 10% HA: % successes MRI group \> % successes Control group - 10%"|||-3.8|<0.0001
92420307|NCT02117414|184729620|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 8%.|Difference in percentages|0.6||||0.0001|ONE_SIDED|95.0|-4.1|||A priori threshold for statistical significance was 0.025.|Farrington-Manning non-inferiority test|||"The percentage of subjects who do not experience a significant decrease in ventricular sensing amplitude from the pre-MRI/waiting period to one month post-MRI/waiting period is greater than that in the Control group minus 8%.~H0: % successes MRI group ≤ % successes Control group - 8% HA: % successes MRI group \> % successes Control group - 8%"|||-4.1|0.0001
92420308|NCT02117414|184729621|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis will be rejected if the one-sided 95% log-log transformed lower confidence bound at 120 days post-implant calculated using Kaplan-Meier (K-M) method is greater than 80%.|Complication-free rate|95.9|||<|0.0001|ONE_SIDED|95.0|93.0|||A priori threshold for statistical significance was 0.05.|Kaplan-Meier method|||"The system-related complication-free rate between the implant procedure and the one month post-MRI/waiting period is greater than 80%.~H0: p ≤ 0.80 HA: p \> 0.80 where p is the system-related complication-free rate between the implant procedure and 120 days (the approximate time of the one month post-MRI/waiting period visit)."|||93.0|<0.0001
92420309|NCT02117414|184729622|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 10%.|Difference in percentages|1.2|||<|1e-05|ONE_SIDED|90.0|-3.1|||A priori threshold for statistical significance was 0.05.|Farrington-Manning non-inferiority test|||"The percentage of subjects who have a defibrillation impedance between 20 and 100 ohms at the one month post-MRI/waiting period visit in the MRI group is greater than that in the Control group minus 10%.~H0: % successes MRI group ≤ % successes Control group - 10% HA: % successes MRI group \> % successes Control group - 10% Where % successes means the % of subjects whose defibrillation impedance at the one month post-MRI/waiting period visit is between 20 and 100 ohms."|||-3.1|<0.00001
92420310|NCT02117414|184729623|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 10%|Difference in percentages|0.0|||||TWO_SIDED|||||A priori threshold for statistical significance was 0.05. Because the success rate was 100% in each group, a p-value could not be calculated.|Farrington-Manning non-inferiority test|||"The percentage of subjects who have a SVC defibrillation impedance between 20 and 100 ohms at the one month post-MRI/waiting period visit in the MRI group is greater than that in the Control group minus 10%.~H0: % successes MRI group ≤ % successes Control group - 10% HA: % successes MRI group \> % successes Control group - 10% Where % successes means the % of subjects whose SVC defibrillation impedance at the one month post-MRI/waiting period visit is between 20 and 100 ohms."||||
92420311|NCT02117414|184729624|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 10%.|Difference in percentages|-1.3||||0.006|ONE_SIDED|90.0|-7.0||||Farrington-Manning non-inferiority test|||"The percentage of subjects who experience an APCT increase less than or equal to 0.5V from the pre-MRI/waiting period to one month post-MRI/waiting period in the MRI group is greater than that in the Control group minus 10%.~H0: % successes MRI group ≤ % successes Control group - 10% HA: % successes MRI group \> % successes Control group - 10%"|||-7.0|0.006
92235806|NCT03443024|184374862|SUPERIORITY|||||||0.0021|||||||Cochran-Mantel-Haenszel|||||||0.0021
92235807|NCT03443024|184374862|SUPERIORITY|||||||0.0005|||||||Cochran-Mantel-Haenszel|||||||0.0005
92420312|NCT02117414|184729625|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 10%.|Difference in percentages|0.3||||0.005|ONE_SIDED|90.0|-6.2|||A priori threshold for statistical significance was 0.05|Farrington-Manning non-inferiority test|||"The percentage of subjects who do not experience a 50% decrease in atrial sensing amplitude from the pre-MRI/waiting period to one month post-MRI/waiting period is greater than that in the Control group minus 10%.~H0: % successes MRI group ≤ % successes Control group - 10% HA: % successes MRI group \> % successes Control group - 10%"|||-6.2|0.005
92420313|NCT00701376|184729626|SUPERIORITY||Mean Difference (Net)|-6.32||||0.03|TWO_SIDED|99.8|-15.6|2.94|||paired t-test|||||2.94|-15.6|0.03
92420314|NCT00701376|184729627|SUPERIORITY||Mean Difference (Net)|-7.56||||0.08|TWO_SIDED|99.8|-22.0|6.83|||Wilcoxon (Mann-Whitney)|||||6.83|-22.0|0.08
92420315|NCT00701376|184729628|SUPERIORITY||Mean Difference (Net)|5.84||||0.14|TWO_SIDED|99.8|-7.55|19.2|||paired t-test|||||19.2|-7.55|0.14
92420316|NCT00701376|184729630|SUPERIORITY||Mean Difference (Net)|-0.2|||<|0.001|TWO_SIDED|99.8|-0.38|-0.02|||paired t-test|||||-0.02|-0.38|<0.001
92420317|NCT00701376|184729631|SUPERIORITY||Mean Difference (Net)|-0.23||||0.1|TWO_SIDED|99.8|-0.68|0.23|||paired t-test|||||0.23|-0.68|0.10
92170087|NCT02376790|184229094|SUPERIORITY||Treatment Difference|11.8||||0.006|TWO_SIDED|95.0|3.4|20.2||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of the percentage of participants with an ACR50 response at week 24.||20.2|3.4|0.006
92420318|NCT00701376|184729632|SUPERIORITY||Mean Difference (Net)|-1.72||||0.21|TWO_SIDED|99.8|-8.68|5.25|||paired t-test|||||5.25|-8.68|0.21
92420319|NCT00701376|184729634|SUPERIORITY|||||||0.002|||||||Wilcoxon signed-rank test|||||||0.002
92420320|NCT00701376|184729635|SUPERIORITY|||||||0.04|||||||Wilcoxon signed-rank test|||||||0.04
92420321|NCT00701376|184729636|SUPERIORITY|||||||0.005|||||||Wilcoxon signed-rank test|||||||0.005
92420322|NCT00701376|184729637|SUPERIORITY|||||||0.001|||||||Wilcoxon signed-rank test|||||||0.001
92235808|NCT03443024|184374863|SUPERIORITY|||||||0.1917|||||||Cochran-Mantel-Haenszel|||||||0.1917
92420323|NCT00417482|184729658|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.94||||0.02|TWO_SIDED|95.0|1.09|3.45|||Stratified Cox analysis|||The primary hypothesis of a difference in survival functions between the initial Phase B placebo (Arm 3) and risperidone continuation (Arms 1+2) conditions was tested in the primary analysis using the stratified Cox analysis. For descriptive purposes, the overall rate of relapse was assessed as the number of follow-up or for secondary interpretative support, as a simple proportion of patients entering a 16-week period.||3.45|1.09|0.02
92420324|NCT00417482|184729659|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.88||||0.02|TWO_SIDED|95.0|1.08|21.98|||stratified cox analyses|||Similar analyses were used to test the secondary hypothesis in the relapse risk in weeks 17 to 32 of Phase B between the patients who continued to receive risperidone (Arm 1) \& the patients who discontinued risperidone at week 16 \& were switched to placebo (Arm 2). Patients who died \& those in whom a relapse was considered to be imminent before they were dropped out in Phase B were classified as having relapse.||21.98|1.08|0.02
92420325|NCT00417482|184729660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.36||0.08|TWO_SIDED|95.0|-0.08|1.35|||t-test, 2 sided|||The null hypothesis is that there is no difference between the risperidone and placebo groups over the 16 week period post randomization, with respect to change in MMSE.||1.35|-0.08|0.08
92420326|NCT00417482|184729661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.49||0.94||95.0|-1.01|0.93|||t-test, 2 sided|||The null hypothesis is that there is no difference between the risperidone and placebo groups over the 16 week period post randomization, with respect to change in TESS.||0.93|-1.01|0.94
92420327|NCT00417482|184729662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.48||0.26|TWO_SIDED|95.0|-1.5|0.41|||t-test, 2 sided|||The null hypothesis is that the difference between placebo and risperidone groups in terms of mean change in EPS, between randomization and week 16, is zero.||0.41|-1.50|0.26
92420328|NCT00417482|184729663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.14||0.13|TWO_SIDED|95.0|-0.5|0.07|||t-test, 2 sided|||The null hypothesis is that the difference between placebo and risperidone groups in terms of mean change in AIMS, between randomization and week 16, is zero.||0.07|-0.50|0.13
92420329|NCT00417482|184729664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.43||0.149|TWO_SIDED|95.0|-1.47|0.23|||t-test, 2 sided|||The null hypothesis is that the difference between placebo and risperidone groups in terms of mean change in PSMS, between randomization and week 16, is zero.||0.23|-1.47|0.149
92420330|NCT00417482|184729665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|1.69||0.81|TWO_SIDED|95.0|-3.77|2.95|||t-test, 2 sided|||The null hypothesis is that the difference between placebo and risperidone groups in terms of mean change in weight, between randomization and week 16, is zero.||2.95|-3.77|0.81
92420331|NCT00251004|184729708|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%.|Difference in percentage|2.2||||0.001|TWO_SIDED|95.0|-2.9|7.3||To control for multiple comparisons, the two-sided significance level was set at 0.025.|Z-test|||Everolimus is non-inferior to mycophenolic acid (MPA) if the upper limit of the 95% confidence interval for the difference in combined graft loss, death or loss to follow-up rates is \<10%.||7.3|-2.9|0.001
92420332|NCT00251004|184729708|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%.|Difference in Percentage|0.3|||<|0.001|TWO_SIDED|95.0|-4.6|5.2||To control for multiple comparisons, the two-sided significance level was set at 0.025.|Z-test|||Everolimus is non-inferior to MPA if the upper limit of the 95% confidence interval for the difference in combined graft loss, death or loss to follow-up rates is \<10%.||5.2|-4.6|<0.001
92235809|NCT03443024|184374863|SUPERIORITY|||||||0.0392|||||||Cochran-Mantel-Haenszel|||||||0.0392
92235810|NCT03443024|184374863|SUPERIORITY|||||||0.0023|||||||Cochran-Mantel-Haenszel|||||||0.0023
92235811|NCT03443024|184374864|SUPERIORITY|||||||0.2043|||||||Cochran-Mantel-Haenszel|||||||0.2043
92235812|NCT03443024|184374864|SUPERIORITY|||||||0.0021|||||||Cochran-Mantel-Haenszel|||||||0.0021
92420333|NCT00251004|184729709|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%.|Difference in percentage|1.8||||0.014|TWO_SIDED|95.0|-5.5|9.1||To control for multiple comparisons, the two-sided significance level was set at 0.025.|Z - test|||Everolimus is non-inferior to mycophenolic acid (MPA) if the upper limit of the 95% confidence interval for the difference in percentage of participants composite efficacy failure is \<10%.||9.1|-5.5|0.014
92420334|NCT00251004|184729709|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%.|Difference in percentage|-3.8|||<|0.001|TWO_SIDED|95.0|-10.8|3.3||To control for multiple comparisons, the two-sided significance level was set at 0.025.|Z-test|||Everolimus is non-inferior to MPA if the upper limit of the 95% confidence interval for the difference in composite efficacy failure rates is \<10%.||3.3|-10.8|<0.001
92420335|NCT00251004|184729710|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at -8 mL/min/1.73m\^2.|Mean Difference (Net)|2.42|||<|0.001|TWO_SIDED|95.0|-1.6|6.5||To control for multiple comparisons, the two-sided significance level was set at 0.025.|t-test, 2 sided|||The null hypothesis: the mean GFR of the everolimus arm is lower (worse) than that of the MPA arm by 8 mL/min/1.73m\^2 or more.||6.5|-1.6|<0.001
92420336|NCT00251004|184729710|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at -8 mL/min/1.73m\^2.|Mean Difference (Net)|-0.83|||<|0.001|TWO_SIDED|95.0|-4.9|3.3||To control for multiple comparisons, the two-sided significance level was set at 0.025.|t-test, 2 sided|||The null hypothesis: the mean GFR of the everolimus arm is lower (worse) than that of the MPA arm by 8 mL/min/1.73m\^2 or more.||3.3|-4.9|<0.001
92420337|NCT01569464|184729717|SUPERIORITY_OR_OTHER||LS Mean|-0.27|STANDARD_ERROR_OF_MEAN|1.36||0.8451|TWO_SIDED|95.0|-2.96|2.42||A hierarchical test procedure was done for the primary efficacy variables at an α-level of 5 %. If a test was statistically significant, a test for the next variable was performed. If a test was not statistically significant the procedure stopped.|ANCOVA|||ANCOVA model was used for analysis with fixed effects for treatment assignment (main factor) and the subject's investigational center (stratifying factor) and a covariate for the Baseline Visit value of the IRLS sum score.||2.42|-2.96|0.8451
92420338|NCT01569464|184729718|SUPERIORITY_OR_OTHER||LS Mean|0.07|STANDARD_ERROR_OF_MEAN|0.34||0.8336|TWO_SIDED|95.0|-0.61|0.75||A hierarchical test procedure was done for the primary efficacy variables at an α-level of 5 %. If a test was statistically significant, a test for the next variable was performed. If a test was not statistically significant the procedure stopped.|ANCOVA|||ANCOVA model was used for analysis with fixed effects for treatment assignment (main factor) and the subject's investigational center (stratifying factor) and a covariate for the Baseline Visit value of the IRLS sum score.||0.75|-0.61|0.8336
92420339|NCT04025710|184729739|OTHER|single arm design|SADE-free rate|0.97||||0.05|TWO_SIDED|95.0|0.9|1.0|||t-test, 2 sided|||The primary hypothesis evaluates the SADE free rate (pSADE\_free) at 3 months. Ho: SADE-free rate through 3 months post-implant ≤ 90.0% Ha: SADE-free rate through 3 months post-implant \> 90.0%||1|0.9|0.05
92420340|NCT00633867|184729778|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Log Rank|||||||<0.01
92420341|NCT05308290|184729779|OTHER|||||||0.6||||||the a priori threshold for statistical significance was \<0.05|t-test, 2 sided|||||||0.60
92420342|NCT05308290|184729780|OTHER|||||||0.6||||||the a priori threshold for statistical significance was \<0.05|t-test, 2 sided|||||||0.60
92420343|NCT05308290|184729781|OTHER|||||||1||||||the a priori threshold for statistical significance was \<0.05|Fisher Exact|||||||1.0
92420344|NCT05308290|184729782|OTHER|||||||1||||||the a priori threshold for statistical significance was \<0.05|Fisher Exact|||||||1.0
92420345|NCT05308290|184729783|OTHER|||||||0.28||||||the a priori threshold for statistical significance was \<0.05|Fisher Exact|||||||0.28
92420346|NCT00410202|184729793|SUPERIORITY_OR_OTHER||Difference Estimate|8.9||||0.1336|TWO_SIDED|95.0|-2.0|19.9|||Hochberg procedure|||||19.9|-2.0|0.1336
92420347|NCT00410202|184729793|SUPERIORITY_OR_OTHER||Difference Estimate|5.7||||0.2619|TWO_SIDED|95.0|-4.2|15.5|||Hochberg procedure|||||15.5|-4.2|0.2619
92420348|NCT00410202|184729794|SUPERIORITY_OR_OTHER||Difference estimate|15.0||||0.0095|TWO_SIDED|95.0|3.7|26.4|||Hochberg procedure|||||26.4|3.7|0.0095
92420349|NCT00410202|184729795|SUPERIORITY_OR_OTHER||Difference Estimate|11.8|||||TWO_SIDED|95.0|2.5|21.1||||||||21.1|2.5|
92420350|NCT00410202|184729795|SUPERIORITY_OR_OTHER||Difference Estimate|8.6|||||TWO_SIDED|95.0|-1.1|18.2||||||||18.2|-1.1|
92420351|NCT00410202|184729796|SUPERIORITY_OR_OTHER||Difference estimate|12.9|||||TWO_SIDED|95.0|1.8|23.9||||||||23.9|1.8|
92420352|NCT00410202|184729797|SUPERIORITY_OR_OTHER||Difference Estimate|8.9|||||TWO_SIDED|95.0|0.3|17.4||||||||17.4|0.3|
92420353|NCT00410202|184729797|SUPERIORITY_OR_OTHER||Difference Estimate|8.6|||||TWO_SIDED|95.0|-0.1|17.3||||||||17.3|-0.1|
92420354|NCT00410202|184729798|SUPERIORITY_OR_OTHER||Difference estimate|12.9|||||TWO_SIDED|95.0|2.4|23.4||||||||23.4|2.4|
92420355|NCT00410202|184729801|SUPERIORITY_OR_OTHER||Difference Estimate|-1.26|||||TWO_SIDED|95.0|-1.534|-0.994|||Regression, Linear|||||-0.994|-1.534|
92420356|NCT00410202|184729801|SUPERIORITY_OR_OTHER||Difference Estimate|-0.55|||||TWO_SIDED|95.0|-0.824|-0.281|||Regression, Linear|||||-0.281|-0.824|
92420357|NCT00410202|184729803|SUPERIORITY_OR_OTHER||Difference Estimate|-2.4|||||TWO_SIDED|95.0|-15.5|10.7||||||||10.7|-15.5|
92420358|NCT00410202|184729803|SUPERIORITY_OR_OTHER||Difference Estimate|-1.2|||||TWO_SIDED|95.0|-15.0|12.6||||||||12.6|-15.0|
92420359|NCT00410202|184729804|SUPERIORITY_OR_OTHER||Difference Estimate|-2.8|||||TWO_SIDED|95.0|-16.2|10.6||||||||10.6|-16.2|
92420360|NCT00410202|184729805|SUPERIORITY_OR_OTHER||Difference Estimate|0.8|||||TWO_SIDED|95.0|-5.2|6.7||||||||6.7|-5.2|
92420361|NCT00410202|184729805|SUPERIORITY_OR_OTHER||Difference Estimate|1.3|||||TWO_SIDED|95.0|-4.6|7.2||||||||7.2|-4.6|
92420362|NCT00410202|184729806|SUPERIORITY_OR_OTHER||Difference Estimate|-1.5|||||TWO_SIDED|95.0|-9.5|6.4||||||||6.4|-9.5|
92420363|NCT00410202|184729807|SUPERIORITY_OR_OTHER||Difference Estimate|2.2|||||TWO_SIDED|95.0|-2.4|6.8||||||||6.8|-2.4|
92420364|NCT00410202|184729807|SUPERIORITY_OR_OTHER||Difference Estimate|1.4|||||TWO_SIDED|95.0|-3.5|6.2||||||||6.2|-3.5|
92420365|NCT00410202|184729808|SUPERIORITY_OR_OTHER||Difference Estimate|2.1|||||TWO_SIDED|95.0|-3.6|7.8||||||||7.8|-3.6|
92420366|NCT00410202|184729809|SUPERIORITY_OR_OTHER||Difference Estimate|0.7|||||TWO_SIDED|95.0|-0.7|2.1||||||||2.1|-0.7|
92420367|NCT00410202|184729809|SUPERIORITY_OR_OTHER||Difference Estimate|0.0|||||TWO_SIDED|95.0|-2.0|2.0||||||||2.0|-2.0|
92420368|NCT00410202|184729811|SUPERIORITY_OR_OTHER||Difference Estimate|0.7|||||TWO_SIDED|95.0|-0.7|2.1||||||||2.1|-0.7|
92170088|NCT02376790|184229095|SUPERIORITY||Treatment Difference|13.4|||<|0.001|TWO_SIDED|95.0|6.5|20.4||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of the percentage of participants with an ACR70 response at week 24.||20.4|6.5|<0.001
92392345|NCT04378270|184683754|OTHER||Mean Difference (Final Values)|18.7|STANDARD_ERROR_OF_MEAN|5.492||0.002|TWO_SIDED|95.0|7.4498|29.9502|||t-test, 2 sided|Degrees of Freedom (DF)- 28||This procedure calculates the difference between the observed means in two independent samples (two collected assessment timepoints, screening and 4 week follow up visits). A significance value (P-value) and 95% confidence interval (CI) of the difference is reported. The P value is the probability of obtaining the observed difference between the samples if the null hypothesis were true. The null hypothesis is the hypothesis that the difference is 0.||29.9502|7.4498|0.0020
92392346|NCT04378270|184683755|OTHER||Mean Difference (Net)|16.67|STANDARD_ERROR_OF_MEAN|4.327||0.0006|TWO_SIDED|95.0|7.8069|25.5331|||t-test, 2 sided|Degrees of freedom (DF)- 28||||25.5331|7.8069|0.0006
92392347|NCT04378270|184683758|OTHER||Mean pain scale|17.87|STANDARD_DEVIATION|2.39||0.0001|TWO_SIDED|95.0|16.5465|19.1935|||t-test, 2 sided|Degrees of freedom (DF)- 14||This procedure calculates the difference of an observed mean (from the assessment collected at the 4 week visit) with a hypothesized mean value (10, a mid level scale score). A significance value (P-value) and 95% Confidence Interval (CI) of the observed mean is reported. The P-value is the probability of obtaining the observed mean in the sample if the null hypothesis value were the true value.||19.1935|16.5465|0.0001
92392348|NCT01236521|184683773|SUPERIORITY||Mean Difference (Net)|0.39|STANDARD_DEVIATION|0.13||0.0385|TWO_SIDED||||||Mixed Models Analysis|||||||0.0385
92392349|NCT01236521|184683774|SUPERIORITY||Mean Difference (Net)|0.44|STANDARD_DEVIATION|0.11||0.0067|TWO_SIDED||||||Mixed Models Analysis|||||||0.0067
92392350|NCT01236521|184683775|SUPERIORITY||Median Difference (Net)|0.39|STANDARD_DEVIATION|0.15||0.074|TWO_SIDED||||||Mixed Models Analysis|||||||0.0740
92392351|NCT02784171|184683795|SUPERIORITY|||||||0.0372|||||||Log Rank|||||||0.0372
92392352|NCT04661150|184683798|SUPERIORITY||Treatment difference|23.8||||0.079|TWO_SIDED|90.0|1.3|44.7|||Chi-squared|||||44.7|1.3|0.079
92392353|NCT04661150|184683803|SUPERIORITY||Treatment difference|-4.8||||0.739|TWO_SIDED|90.0|-27.9|18.9|||Chi-squared|||||18.9|-27.9|0.739
92392354|NCT04661150|184683804|SUPERIORITY||Treatment difference|4.8|||>|0.999|TWO_SIDED|90.0|-10.9|21.4|||Fisher Exact|||||21.4|-10.9|>0.999
92392355|NCT00369577|184683814|SUPERIORITY|||||||0.088||||||p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||0.0880
92420369|NCT00410202|184729811|SUPERIORITY_OR_OTHER||Difference Estimate|0.7|||||TWO_SIDED|95.0|-0.7|2.1||||||||2.1|-0.7|
92392356|NCT00369577|184683814|SUPERIORITY|||||||0.0002||||||p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||0.0002
92392357|NCT00369577|184683815|SUPERIORITY|||||||0.0583|||||||Wilcoxon (Mann-Whitney)|||||||0.0583
92420370|NCT01352468|184729818|SUPERIORITY_OR_OTHER|||||||0.35|||||||ANCOVA|Controlling for baseline scores||||||.35
92420371|NCT01352468|184729819|SUPERIORITY_OR_OTHER|||||||0.68|||||||ANCOVA|Controlling for baseline scores||||||.68
92392358|NCT00369577|184683815|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
92235813|NCT03443024|184374864|SUPERIORITY|||||||0.0018|||||||Cochran-Mantel-Haenszel|||||||0.0018
92235814|NCT03443024|184374865|SUPERIORITY|||||||0.0554|||||||Cochran-Mantel-Haenszel|||||||0.0554
92235815|NCT03443024|184374865|SUPERIORITY|||||||0.0037|||||||Cochran-Mantel-Haenszel|||||||0.0037
92235816|NCT03443024|184374865|SUPERIORITY|||||||0.0008|||||||Cochran-Mantel-Haenszel|||||||0.0008
92235817|NCT03443024|184374866|SUPERIORITY|||||||0.08|||||||Cochran-Mantel-Haenszel|||||||0.0800
92235818|NCT03443024|184374866|SUPERIORITY|||||||0.0062|||||||Cochran-Mantel-Haenszel|||||||0.0062
92392359|NCT00369577|184683816|SUPERIORITY|||||||0.0067|||||||Wilcoxon (Mann-Whitney)|||||||0.0067
92392360|NCT00369577|184683816|SUPERIORITY|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||||||0.0003
92392361|NCT00369577|184683817|SUPERIORITY|||||||0.0076|||||||Fisher Exact|||||||0.0076
92392362|NCT00369577|184683817|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
92392363|NCT01454791|184683839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.45|TWO_SIDED||||||t-test, 2 sided|||||||0.45
92392364|NCT01454791|184683840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.6059|TWO_SIDED||||||t-test, 2 sided||not significant|||||0.6059
92392365|NCT01454791|184683841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.705|TWO_SIDED||||||t-test, 2 sided||not significant|||||0.705
92392366|NCT02719171|184683842|OTHER||Mean Difference (Final Values)|24.0||||0.007|TWO_SIDED|90.0|9.3|38.7|||Cochran-Mantel-Haenszel|||The 90% confidence interval (CI) for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior tumor necrosis factor inhibitor (TNFi) use and concurrent methotrexate use.||38.7|9.3|0.007
92392367|NCT02719171|184683843|OTHER||Mean Difference (Final Values)|12.0||||0.074|TWO_SIDED|90.0|1.0|23.0|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||23.0|1.0|0.074
92392368|NCT02719171|184683843|OTHER||Mean Difference (Final Values)|19.0||||0.007|TWO_SIDED|90.0|7.4|30.6|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||30.6|7.4|0.007
92392369|NCT02719171|184683844|OTHER||Mean Difference (Final Values)|10.3||||0.006|TWO_SIDED|90.0|4.1|16.4|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||16.4|4.1|0.006
92420372|NCT01352468|184729820|SUPERIORITY_OR_OTHER|||||||0.57|||||||ANCOVA|Controlling for baseline scores||||||.57
92420373|NCT01178073|184729821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.502||||0.0002|TWO_SIDED|95.0|0.348|0.724|||Stratified Log Rank||Analysis of time to first adjudicated clinical failure event through FAV. HR is calculated using the Cox proportional hazards model. HR is for Combination Therapy: Ambrisentan + Tadalafil / Monotherapy Pooled: Ambrisentan or Tadalafil.|||0.724|0.348|0.0002
92392370|NCT02719171|184683844|OTHER||Mean Difference (Final Values)|15.7|||<|0.001|TWO_SIDED|90.0|8.5|22.9|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||22.9|8.5|<0.001
92392371|NCT02719171|184683845|OTHER||Mean Difference (Final Values)|-0.8||||0.69|TWO_SIDED|90.0|-4.0|2.5|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||2.5|-4.0|0.690
92392372|NCT02719171|184683845|OTHER||Mean Difference (Final Values)|-2.1||||0.26|TWO_SIDED|90.0|-5.3|1.0|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||1.0|-5.3|0.260
92392373|NCT02719171|184683846|OTHER||Mean Difference (Final Values)|-0.3||||0.791|TWO_SIDED|90.0|-2.1|1.5|||Cochran-Mantel-Haenszel|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||1.5|-2.1|0.791
92392374|NCT02719171|184683846|OTHER||Mean Difference (Final Values)|-1.1||||0.32|TWO_SIDED|90.0|-2.8|0.7|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.7|-2.8|0.320
92392375|NCT02719171|184683847|OTHER||mixed model repeated measures model|-0.082||||0.341|TWO_SIDED|90.0|-0.225|0.06|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.060|-0.225|0.341
92392376|NCT02719171|184683847|OTHER||Mean Difference (Final Values)|-0.114||||0.181|TWO_SIDED|90.0|-0.254|0.027|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.027|-0.254|0.181
92392377|NCT02719171|184683848|OTHER||Mean Difference (Final Values)|1.7||||0.174|TWO_SIDED|90.0|-0.36|3.77|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||3.77|-0.36|0.174
92392378|NCT02719171|184683848|OTHER||Mean Difference (Final Values)|1.35||||0.284|TWO_SIDED|90.0|-0.73|3.44|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||3.44|-0.73|0.284
92392379|NCT02719171|184683849|OTHER||Mean Difference (Final Values)|0.59||||0.718|TWO_SIDED|90.0|-2.12|3.3|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||3.30|-2.12|0.718
92392380|NCT02719171|184683849|OTHER||Mean Difference (Final Values)|2.06||||0.204|TWO_SIDED|90.0|-0.61|4.74|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||4.74|-0.61|0.204
92392381|NCT02719171|184683850|OTHER||Mean Difference (Final Values)|1.2||||0.243|TWO_SIDED|90.0|-0.5|2.8|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||2.8|-0.5|0.243
92392382|NCT02719171|184683850|OTHER||Mean Difference (Final Values)|0.1||||0.906|TWO_SIDED|90.0|-1.0|1.1|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||1.1|-1.0|0.906
92392383|NCT02719171|184683851|OTHER||Mean Difference (Final Values)|-0.7||||0.325|TWO_SIDED|90.0|-1.8|0.5|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.5|-1.8|0.325
92392384|NCT02719171|184683851|OTHER||Mean Difference (Final Values)|-0.9||||0.16|TWO_SIDED|90.0|-2.1|0.2|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.2|-2.1|0.160
92420374|NCT01178073|184729821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.477||||0.0004|TWO_SIDED|95.0|0.314|0.723|||Stratified Log Rank||Analysis of time to first adjudicated clinical failure event through FAV. HR is calculated using the Cox proportional hazards model. HR is for Combination Therapy: Ambrisentan + Tadalafil / Ambrisentan Monotherapy.|||0.723|0.314|0.0004
92420375|NCT01178073|184729821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.528||||0.0045|TWO_SIDED|95.0|0.338|0.827|||Stratified Log Rank||Analysis of time to first adjudicated clinical failure event through FAV. HR is calculated using the Cox proportional hazards model. HR is for Combination Therapy: Ambrisentan + Tadalafil / Tadalafil Monotherapy.|||0.827|0.338|0.0045
92235819|NCT03443024|184374866|SUPERIORITY|||||||0.0006|||||||Cochran-Mantel-Haenszel|||||||0.0006
92235820|NCT03443024|184374867|SUPERIORITY|||||||0.0773|||||||ANCOVA|||||||0.0773
92235821|NCT03443024|184374867|SUPERIORITY|||||||0.0459|||||||ANCOVA|||||||0.0459
92235822|NCT03443024|184374867|SUPERIORITY|||||||0.0062|TWO_SIDED|95.0|||||ANCOVA|||||||0.0062
92235823|NCT03443024|184374868|SUPERIORITY|||||||0.0047|||||||ANCOVA|||||||0.0047
92235824|NCT03443024|184374868|SUPERIORITY|||||||0.0002|TWO_SIDED|95.0|||||ANCOVA|||||||0.0002
92235825|NCT03443024|184374868|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92235826|NCT03443024|184374869|SUPERIORITY|||||||0.6674|||||||Cochran-Mantel-Haenszel|||||||0.6674
92235827|NCT03443024|184374869|SUPERIORITY|||||||0.1166|||||||Cochran-Mantel-Haenszel|||||||0.1166
92235828|NCT03443024|184374869|SUPERIORITY|||||||0.0119|||||||Cochran-Mantel-Haenszel|||||||0.0119
92235829|NCT03443024|184374870|SUPERIORITY|||||||0.2371|||||||Cochran-Mantel-Haenszel|||||||0.2371
92235830|NCT03443024|184374870|SUPERIORITY|||||||0.1067|||||||Cochran-Mantel-Haenszel|||||||0.1067
92235831|NCT03443024|184374870|SUPERIORITY|||||||0.0008|||||||Cochran-Mantel-Haenszel|||||||0.0008
92235832|NCT03443024|184374871|SUPERIORITY|||||||0.4631|||||||ANCOVA|||||||0.4631
92235833|NCT03443024|184374871|SUPERIORITY|||||||0.0368|||||||ANCOVA|||||||0.0368
92235834|NCT03443024|184374871|SUPERIORITY|||||||0.0232|||||||ANCOVA|||||||0.0232
92392385|NCT02719171|184683852|OTHER||Mean Difference (Final Values)|-1.2||||0.453|TWO_SIDED|90.0|-4.0|1.5|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||1.5|-4.0|0.453
92235835|NCT03443024|184374872|SUPERIORITY|||||||0.4729|||||||ANCOVA|||||||0.4729
92235836|NCT03443024|184374872|SUPERIORITY|||||||0.0282|||||||ANCOVA|||||||0.0282
92392386|NCT02719171|184683852|OTHER||Mean Difference (Final Values)|-2.8||||0.111|TWO_SIDED|90.0|-5.7|0.1|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.1|-5.7|0.111
92235837|NCT03443024|184374872|SUPERIORITY|||||||0.0506|||||||ANCOVA|||||||0.0506
92235838|NCT01065428|184374888|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92235839|NCT01065428|184374889|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92235840|NCT01751646|184374915|OTHER|||||||0.1166||||||P-value from Wilcoxon rank sum test for change between baseline and Week 48 Vitamin D vs. Placebo|Wilcoxon (Mann-Whitney)|||||||0.1166
92235841|NCT01751646|184374917|OTHER|||||||0.8383|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.8383
92235842|NCT01751646|184374920|OTHER|||||||0.1378|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.1378
92235843|NCT01751646|184374922|OTHER|||||||0.4686|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.4686
92235844|NCT01751646|184374924|OTHER|||||||0.7601|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.7601
92235845|NCT01751646|184374926|OTHER|||||||0.3978|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.3978
92235846|NCT01751646|184374928|OTHER|||||||0.1187|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.1187
92235847|NCT01751646|184374931|OTHER|||||||0.5098|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.5098
92235848|NCT01751646|184374932|OTHER|||||||0.255|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.2550
92235849|NCT01751646|184374933|OTHER|||||||0.6499|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.6499
92235850|NCT01751646|184374934|OTHER|||||||0.2348|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.2348
92235851|NCT01751646|184374937|OTHER|||||||0.2648|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.2648
92235852|NCT01751646|184374940|OTHER|||||||0.3728|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.3728
92235853|NCT01751646|184374943|OTHER|||||||0.7825|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.7825
92235854|NCT01751646|184374946|OTHER|||||||0.195|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.1950
92235855|NCT01751646|184374949|OTHER|||||||0.7127|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.7127
92235856|NCT01751646|184374952|OTHER|||||||0.4676|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.4676
92235857|NCT01751646|184374955|OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.0210
92235858|NCT01751646|184374958|OTHER|||||||0.0144|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.0144
92235859|NCT01751646|184374961|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||< 0.0001
92235860|NCT01751646|184374964|OTHER|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.0814
92235861|NCT01751646|184374967|OTHER|||||||0.4808|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.4808
92235862|NCT01751646|184374970|OTHER|||||||0.387|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.3870
92235863|NCT01751646|184374973|OTHER|||||||0.429|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.4290
92392387|NCT02719171|184683853|OTHER||Mean Difference (Final Values)|53.5|||<|0.001|TWO_SIDED|90.0|35.9|71.1|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||71.1|35.9|<0.001
92392388|NCT02719171|184683853|OTHER||Mean Difference (Final Values)|48.8|||<|0.001|TWO_SIDED|90.0|33.1|64.5|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||64.5|33.1|<0.001
92392389|NCT05298202|184683871|SUPERIORITY|time x treatment ANOVA||||||0.284||||||difference between treatment and control|ANOVA|||||||0.284
92392390|NCT05298202|184683872|SUPERIORITY|||||||0.177|||||||t-test, 2 sided|||||||.177
92392391|NCT05298202|184683873|SUPERIORITY|||||||0.122|||||||t-test, 2 sided|||||||.122
92392392|NCT05298202|184683874|SUPERIORITY|||||||0.038|||||||ANOVA|time x treatment anova||||||.038
92392393|NCT05298202|184683875|SUPERIORITY|||||||0.976|||||||ANOVA|||||||.976
92392394|NCT05298202|184683876|SUPERIORITY|||||||0.747|||||||ANOVA|||||||.747
92392395|NCT02107703|184683878|OTHER||Hazard Ratio (HR)|0.553|||<|1e-07|TWO_SIDED|95.0|0.449|0.681||This is two sided P value and it is statistically significant.|Log Rank|Log rank test is stratified by endocrine sensitivity and natural of disease by interactive web response system (IWRS).||The final analysis was planned at 378 PFS events, which would provide approximately 90% power assuming a hazard ratio (HR) of 0.703 at a one-sided α of 0.025.||0.681|0.449|<0.0000001
92392396|NCT03170661|184683889|SUPERIORITY|||||||0.94|||||||GEEGLM|Effects of GEEGLM covariates: surgeon, p = 0.24; surgery length, p= 0.73 and body mass index, p= 0.22).||||||0.94
92392397|NCT01217463|184683945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.4109|TWO_SIDED|95.0|0.6|3.43|||Regression, Logistic|||||3.43|0.60|0.4109
92392398|NCT01217463|184683946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37|||||TWO_SIDED|95.0|0.78|2.4|||Regression, Logistic|||||2.4|0.78|
92392399|NCT03507036|184683965|OTHER||||||||||||||||||A paired t-test was performed for skin lab measurement and biopsies.|||
92420376|NCT01178073|184729822|SUPERIORITY_OR_OTHER||Mean Percent Difference|-33.81|||<|0.0001|TWO_SIDED|95.0|-44.78|-20.66|||ANCOVA||Mean percent difference is for Combination Therapy: Ambrisentan + Tadalafil - Monotherapy Pooled: Ambrisentan or Tadalafil.|||-20.66|-44.78|<0.0001
92420377|NCT01178073|184729822|SUPERIORITY_OR_OTHER||Mean Percent Difference|-25.09||||0.0111|TWO_SIDED|95.0|-40.04|-6.4|||ANCOVA||Mean percent difference is for Combination Therapy: Ambrisentan + Tadalafil - Ambrisentan Monotherapy.|||-6.40|-40.04|0.0111
92420378|NCT01178073|184729822|SUPERIORITY_OR_OTHER||Mean Percent Difference|-41.51|||<|0.0001|TWO_SIDED|95.0|-53.16|-26.97|||ANCOVA||Mean percent difference is for Combination Therapy: Ambrisentan + Tadalafil - Tadalafil Monotherapy.|||-26.97|-53.16|<0.0001
92420379|NCT01178073|184729823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.563||||0.0264|TWO_SIDED|95.0|1.054|2.319|||Regression, Logistic||Odds ratio is for Combination Therapy: Ambrisentan + Tadalafil / Monotherapy Pooled: Ambrisentan or Tadalafil.|||2.319|1.054|0.0264
92392400|NCT03901144|184683980|SUPERIORITY||Mean Difference (Final Values)|-9.026|||<|0.001|TWO_SIDED|95.0|-12.562|-5.489|||ANCOVA|||Summary of TEWL (g/m2h) change from day 29 to day 31||-5.489|-12.562|<0.001
92392401|NCT03901144|184683980|SUPERIORITY||Mean Difference (Final Values)|-4.194||||0.021|TWO_SIDED|95.0|-7.76|-0.629|||ANCOVA|||Summary of TEWL (g/m2h) change from day 29 to day 31||-0.629|-7.760|0.021
92392402|NCT03901144|184683980|SUPERIORITY||Mean Difference (Final Values)|-9.021|||<|0.001|TWO_SIDED|95.0|-12.602|-5.44|||ANCOVA|||Summary of TEWL (g/m2h) change from day 29 to day 31||-5.440|-12.602|<0.001
92392403|NCT03901144|184683981|SUPERIORITY||Mean Difference (Final Values)|-3.538|||<|0.001|TWO_SIDED|95.0|-5.114|-1.962|||ANCOVA|||Summary of Objective Erythema (2D Skin Imaging) change from day 29 to day 31||-1.962|-5.114|<0.001
92392404|NCT03901144|184683981|SUPERIORITY||Mean Difference (Final Values)|-1.748||||0.031|TWO_SIDED|95.0|-3.332|-0.164|||ANCOVA|||Summary of Objective Erythema (2D Skin Imaging) change from day 29 to day 31||-0.164|-3.332|0.031
92392405|NCT03901144|184683981|SUPERIORITY||Mean Difference (Final Values)|-4.744|||<|0.001|TWO_SIDED|95.0|-6.332|-3.156|||ANCOVA|||Summary of Objective Erythema (2D Skin Imaging) change from day 29 to day 31||-3.156|-6.332|<0.001
92392406|NCT03901144|184683982|SUPERIORITY||Mean Difference (Final Values)|-19.077||||0.002|TWO_SIDED|95.0|-31.325|-6.829|||ANCOVA|||Summary of Redness-Mexameter change from day 29 to day 31||-6.829|-31.325|0.002
92392407|NCT03901144|184683982|SUPERIORITY||Mean Difference (Final Values)|-4.493||||0.471|TWO_SIDED|95.0|-16.787|7.801|||ANCOVA|||||7.801|-16.787|0.471
92392408|NCT03901144|184683982|SUPERIORITY||Mean Difference (Final Values)|-27.035|||<|0.001|TWO_SIDED|95.0|-39.372|-14.698|||ANCOVA|||Summary of Redness - Mexameter change from day 29 to day 31||-14.698|-39.372|<0.001
92392409|NCT03901144|184683984|SUPERIORITY||Mean Difference (Net)|-0.354|||<|0.001|TWO_SIDED|95.0|-0.558|-0.15|||ANCOVA|||Summary of Visual Redness at day 31||-0.150|-0.558|<0.001
92392410|NCT03901144|184683984|SUPERIORITY||Mean Difference (Final Values)|-0.089||||0.392|TWO_SIDED|95.0|-0.292|0.115|||ANCOVA|||Summary of Visual Redness at day 31||0.115|-0.292|0.392
92392411|NCT03901144|184683984|SUPERIORITY||Mean Difference (Final Values)|-0.447|||<|0.001|TWO_SIDED|95.0|-0.652|-0.242|||ANCOVA|||Summary of Visual Redness at day 31||-0.242|-0.652|<0.001
92392412|NCT00279916|184683987|SUPERIORITY|||||||0.18|||||||Chi-squared|||||||0.18
92392413|NCT00279916|184683988|SUPERIORITY|||||||0.24|||||||Chi-squared|||||||0.24
92392414|NCT04532034|184683995|OTHER||Mean Difference (Final Values)|0.067||||0.95|TWO_SIDED||||||t-test, 2 sided|||||||.95
92392415|NCT01598922|184683998|OTHER|Intent-to-treat (ITT) analyses following multiple imputation. Generalized Linear Models (GENLIN) predicting post-treatment HRSD scores in the imputed dataset. Covarying for pre-treatment HRSD scores, age and sex.|Odds Ratio (OR)|6.11|STANDARD_ERROR_OF_MEAN|1.68|<|0.0001|TWO_SIDED|95.0|2.814|9.403|||GENLIN|||||9.403|2.814|<0.0001
92392416|NCT01598922|184683999|OTHER||Cohen's d measure of effect size|-0.79||||0.024|TWO_SIDED|95.0|-1.25|-0.32||Hierarchical Linear Modeling (HLM) was applied to PHQ-9 data, adjusting for baseline PHQ-9 score. Group x Time interactions tested for between-group differences in slope of improvement of PHQ-9 scores.|hierarchical linear modeling|Age and sex were covariates. Cohen's d effect sizes are reported.||||-0.32|-1.25|.024
92420380|NCT01178073|184729823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.424||||0.1518|TWO_SIDED|95.0|0.878|2.308|||Regression, Logistic||Odds ratio is for Combination Therapy: Ambrisentan + Tadalafil / Ambrisentan Monotherapy.|||2.308|0.878|0.1518
92420381|NCT01178073|184729823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.723||||0.0321|TWO_SIDED|95.0|1.047|2.833|||Regression, Logistic||Odds ratio is for Combination Therapy: Ambrisentan + Tadalafil / Tadalafil Monotherapy.|||2.833|1.047|0.0321
92170089|NCT02376790|184229095|SUPERIORITY||Treatment Difference|13.7|||<|0.001|TWO_SIDED|95.0|6.7|20.7||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of the percentage of participants with an ACR70 response at week 24.||20.7|6.7|<0.001
92170090|NCT02376790|184229104|SUPERIORITY||LS Mean Treatment Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.91|-0.34||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in PASDAS at week 24||-0.34|-0.91|<0.001
92170091|NCT02376790|184229104|SUPERIORITY||LS Mean Treatment Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.92|-0.34||P-value is unadjusted and considered descriptive|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in PASDAS at week 24||-0.34|-0.92|<0.001
92170092|NCT02376790|184229105|SUPERIORITY||LS Mean Treatment Difference|-0.63|STANDARD_ERROR_OF_MEAN|1.18||0.59|TWO_SIDED|95.0|-2.93|1.68||P-value is unadjusted and considered descriptive|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in CDAI at week 24||1.68|-2.93|0.59
92170093|NCT02376790|184229105|SUPERIORITY||LS Mean Treatment Difference|-1.32|STANDARD_ERROR_OF_MEAN|1.18||0.26|TWO_SIDED|95.0|-3.63|0.99||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in CDAI at week 24||0.99|-3.63|0.26
92235864|NCT01751646|184374974|OTHER|||||||0.9186|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.9186
92420382|NCT01178073|184729824|SUPERIORITY_OR_OTHER||Median Difference|22.75|||<|0.0001|TWO_SIDED|95.0|12.0|33.5|||Stratified Wilcoxon Rank Sum Test||Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Monotherapy Pooled: Ambrisentan or Tadalafil.|||33.50|12.00|<0.0001
92420383|NCT01178073|184729824|SUPERIORITY_OR_OTHER||Median Difference|24.75||||0.0005|TWO_SIDED|95.0|11.0|38.5|||Stratified Wilcoxon Rank Sum Test||Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Ambrisentan Monotherapy.|||38.50|11.00|0.0005
92170094|NCT02376790|184229106|SUPERIORITY||LS Mean Treatment Difference|-0.98|STANDARD_ERROR_OF_MEAN|1.2||0.41|TWO_SIDED|95.0|-3.35|1.38||P-value is unadjusted and considered descriptive|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in SDAI at week 24||1.38|-3.35|0.41
92235865|NCT01751646|184374975|OTHER|||||||0.4016|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.4016
92235866|NCT01751646|184374976|OTHER|||||||0.581|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.5810
92420384|NCT01178073|184729824|SUPERIORITY_OR_OTHER||Median Difference|20.85||||0.003|TWO_SIDED|95.0|8.0|33.7|||Stratified Wilcoxon Rank Sum Test||Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Tadalafil Monotherapy.|||33.70|8.00|0.0030
92420385|NCT01178073|184729825|SUPERIORITY_OR_OTHER||Median Difference|0.0||||0.2287|TWO_SIDED|95.0|0.0|0.0|||Stratified Wilcoxon Rank Sum Test||Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Monotherapy Pooled: Ambrisentan or Tadalafil.|||0.0|0.0|0.2287
92420386|NCT01178073|184729825|SUPERIORITY_OR_OTHER||Median Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||Stratified Wilcoxon Rank Sum Test|This comparison was not formally tested according to the pre-defined hierarchical testing procedure.|Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Ambrisentan Monotherapy.|||0.0|0.0|
92170095|NCT02376790|184229106|SUPERIORITY||LS Mean Treatment Difference|-1.72|STANDARD_ERROR_OF_MEAN|1.21||0.15|TWO_SIDED|95.0|-4.09|0.65||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in SDAI at week 24||0.65|-4.09|0.15
92420387|NCT01178073|184729825|SUPERIORITY_OR_OTHER||Median Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||Stratified Wilcoxon Rank Sum Test|This comparison was not formally tested according to the pre-defined hierarchical testing procedure.|Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Tadalafil Monotherapy.|||0.0|0.0|
92170096|NCT02376790|184229107|SUPERIORITY||LS Mean Treatment Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.11||0.01|TWO_SIDED|95.0|-0.52|-0.07||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in DAS28 at week 24||-0.07|-0.52|0.010
92170097|NCT02376790|184229107|SUPERIORITY||LS Mean Treatment Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.62|-0.17||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in DAS28 at week 24||-0.17|-0.62|<0.001
92170098|NCT02376790|184229108|SUPERIORITY||LS Mean Treatment Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.34|TWO_SIDED|95.0|-0.15|0.05||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||0.05|-0.15|0.34
92235867|NCT01751646|184374977|OTHER|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.1570
92235868|NCT01751646|184374983|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Test of change from baseline to week 48||||<0.0001
92235869|NCT01751646|184374983|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Test of change from baseline to Week 48||||<0.0001
92420388|NCT01178073|184729826|SUPERIORITY_OR_OTHER||Median Difference|-0.38|||||TWO_SIDED|95.0|-0.75|0.0|||Stratified Wilcoxon Rank Sum Test|This endpoint was not formally tested according to the pre-defined hierarchical testing procedure.|Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Monotherapy Pooled: Ambrisentan or Tadalafil.|||0.00|-0.75|
92392417|NCT01598922|184684000|OTHER|Hierarchical Linear Modeling (HLM) was applied to K-10 data, adjusting for baseline K-10 score. Group x Time interactions tested for between-group differences in slope of improvement of K-10 scores.|Cohen's d measure of effect size|-0.95||||0.003|TWO_SIDED|95.0|-1.42|-0.48|||HLM|||The Kessler Psychological Distress Scale (K-10) is a 10-item scale with total scores that can range from 0 to 50. Higher scores represent worse (more severe) psychological distress.||-0.48|-1.42|.003
92392418|NCT04184297|184684169|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.76|0.96|||Regression, Cox|The method was used to calculate hazard ratios with 95% confidence intervals.|Hazard ratio of Tiotropium+Olodaterol versus LABA/LAMA/ICS.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid (LABA/LAMA/ICS) therapy combination on the risk of first COPD exacerbation for overall population.||0.96|0.76|
92392419|NCT04184297|184684170|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.64|1.07|||Regression, Cox|This method was used to calculate hazard ratios with 95% confidence intervals.|Hazard ratio of Tiotropium+Olodaterol versus LABA/LAMA/ICS.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid (LABA/LAMA/ICS) therapy combination on the risk of a hospitalization for community-acquired pneumonia for overall population.||1.07|0.64|
92392420|NCT04184297|184684171|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.91|1.19|||Regression, Cox|The method was used to calculate hazard ratios with 95% confidence intervals.|Hazard ratio of Tiotropium+Olodaterol versus LABA/LAMA/ICS.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid (LABA/LAMA/ICS) therapy combination on the risk of first COPD exacerbation for overall population.||1.19|0.91|
92392421|NCT03775486|184684226|OTHER||Hazard Ratio (HR)|0.76||||0.074|TWO_SIDED|95.0|0.57|1.02|||Log Rank|||||1.02|0.57|0.074
92392422|NCT03775486|184684226|OTHER||Median|7.2|||||TWO_SIDED|95.0|5.3|7.9||||||Median progression-free survival (months)||7.9|5.3|
92392423|NCT03775486|184684226|OTHER||Median|5.3|||||TWO_SIDED|95.0|3.7|5.8||||||Median progression-free survival (months)||5.8|3.7|
92392424|NCT03775486|184684227|OTHER||Hazard Ratio (HR)|0.9||||0.604|TWO_SIDED|95.0|0.59|1.36|||Log Rank|||||1.36|0.59|0.604
92392425|NCT03775486|184684227|OTHER||Median|17.4|||||TWO_SIDED|95.0|14.1||NA = insufficient number of participants with events|||||Median overall survival (months)|||14.1|
92392426|NCT03775486|184684227|OTHER||Median overall survival (months)|11.8|||||TWO_SIDED|95.0|11.8||NA = insufficient number of participants with events||||The CI lower limit is included as the estimated value as there was an insufficient number of participants with events to calculate a median value|Median overall survival (months)|||11.8|
92392427|NCT03775486|184684229|OTHER|Median duration of response (months)|Median duration of response|6.5|||||TWO_SIDED|95.0|6.5||NA = insufficient number of participants with events||||The CI lower limit is included as the estimated value as there was an insufficient number of participants with events to calculate a median value||||6.5|
92392428|NCT03775486|184684229|OTHER|Median duration of response (months)|Median duration of response|3.8|||||TWO_SIDED|95.0|3.8||NA = insufficient number of participants with events||||The CI lower limit is included as the estimated value as there was an insufficient number of participants with events to calculate a median value||||3.8|
92392429|NCT03775486|184684230|OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.07|2.0||||||||2.00|0.07|
92420389|NCT01178073|184729826|SUPERIORITY_OR_OTHER||Median Difference|-0.5|||||TWO_SIDED|95.0|-1.0|0.0|||Stratified Wilcoxon Rank Sum Test|This endpoint was not formally tested according to the pre-defined hierarchical testing procedure.|Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Ambrisentan Monotherapy.|||0.00|-1.00|
92392430|NCT03775486|184684230|OTHER||Median (months)|3.7|||||TWO_SIDED|95.0|1.7||NA = insufficient number of participants with events|||||Median progression-free survival (months)|||1.7|
92392431|NCT03775486|184684230|OTHER||Median (months)|3.7|||||TWO_SIDED|95.0|1.2|16.6||||||Median progression-free survival (months)||16.6|1.2|
92392432|NCT03775486|184684232|OTHER||Estimated difference in adjusted mean|-0.51|||||TWO_SIDED|95.0|-4.47|3.46||||||EORTC QLQ-LC13: Dyspnoea Estimated difference in adjusted mean change from baseline.||3.46|-4.47|
92392433|NCT03775486|184684232|OTHER||Estimated difference in adjusted mean|0.95|||||TWO_SIDED|95.0|-4.81|6.71||||||EORTC QLQ-LC13: Coughing Estimated difference in adjusted mean change from baseline.||6.71|-4.81|
92392434|NCT03775486|184684232|OTHER||Estimated difference in adjusted mean|-2.26|||||TWO_SIDED|95.0|-6.39|1.88||||||EORTC QLQ-LC13: Pain in chest Estimated difference in adjusted mean change from baseline.||1.88|-6.39|
92392435|NCT03775486|184684234|OTHER||Estimated difference in adjusted mean|1.64|||||TWO_SIDED|95.0|-2.2|5.47||||||EORTC QLQ-C30: Fatigue Estimated difference in adjusted mean change from baseline.||5.47|-2.20|
92392436|NCT03775486|184684234|OTHER||Estimated difference in adjusted mean|3.22|||||TWO_SIDED|95.0|-1.46|7.9||||||EORTC QLQ-C30: Appetite loss Estimated difference in adjusted mean change from baseline.||7.90|-1.46|
92392437|NCT05214768|184684252|SUPERIORITY||Least Square Mean Difference|-223.2|STANDARD_ERROR_OF_MEAN|74.98||0.003|TWO_SIDED|95.0|-370.2|-76.3|||ANCOVA|||||-76.3|-370.2|0.003
92392438|NCT03043872|184684285|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0047|TWO_SIDED|95.0|0.591|0.909||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and confidence intervals (CIs) were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. The global cohort interim analysis of OS was based on a Lan-DeMets alpha spending function with O'Brien Fleming type boundary, using the actual number of events observed as a proportion of the planned total. Boundary for declaring statistical significance was 0.0178 for a 4% overall alpha. Hazard Ratio (HR) \<1 favors D + EP to be associated with a longer OS than EP.||0.909|0.591|0.0047
92420390|NCT01178073|184729826|SUPERIORITY_OR_OTHER||Median Difference|-0.5|||||TWO_SIDED|95.0|-1.0|0.0|||Stratified Wilcoxon Rank Sum Test|This endpoint was not formally tested according to the pre-defined hierarchical testing procedure.|Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Tadalafil Monotherapy.|||0.00|-1.00|
92420391|NCT04533685|184729866|SUPERIORITY||Adjusted Risk Ratio|1.01|||||TWO_SIDED|95.0|1.0|1.02|||||Adjusted risk ratio. These results compare arms which received reminder letters to the arm receiving no reminder letter (control)|Comparing the risk of receiving an influenza vaccination||1.02|1.00|
92420392|NCT04533685|184729866|SUPERIORITY||Adjusted Risk Ratio|1.0|||||TWO_SIDED|95.0|0.98|1.01|||||These results compare arms which received direct appointment scheduling to the arms not receiving direct appointment scheduling.|Comparing the risk of receiving an influenza vaccination||1.01|0.98|
92420393|NCT04533685|184729866|SUPERIORITY||Adjusted Risk Ratio|1.0|||||TWO_SIDED|95.0|1.0|1.01|||||These results compare arms which received pre-commitment reminders to the arms not receiving pre-commitment reminders.|Comparing the risk of receiving an influenza vaccination||1.01|1.00|
92420394|NCT04533685|184729866|SUPERIORITY||Adjusted Risk Ratio|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||These results compare arms which received pre-appointment reminder to the arms not receiving pre-appointment reminder.|Comparing the risk of receiving an influenza vaccination||1.01|0.99|
92420395|NCT01226043|184729867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3|||<|0.0001|TWO_SIDED|95.0|2.15|2.44|||ANOVA|The last observation carried forward (LOCF) method was applied to impute missing Week 4 overall patient preference values for ANOVA analysis.||The hypothesis was to determine whether patients have higher preference score for Lantus® SoloSTAR® pen compared to Lantus® vial/syringe. Differences of patient preference score greater than 0.5 were considered clinically meaningful. The power for detecting a true difference of 0.5 considering a standard deviation from 1.6 to 2.5, assuming 130 evaluable patients per arm and a two-sided test at 0.05 significance level ranged from 89% to more than 99%.||2.44|2.15|<0.0001
92420396|NCT00510952|184729888|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin was 0.4%.|Mean Difference (Net)|-0.05||||0.551||95.0|-0.21|0.11||P-value for Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|Hypothesis: Basal analog insulin lispro protamine suspension, injected once or twice daily is noninferior to basal analog insulin glargine, injected once a day, with regard to glycemic control as measured by change in HbA1c from baseline to 24 week endpoint (last observation carried forward).||0.11|-0.21|0.551
92392439|NCT03043872|184684286|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0032|TWO_SIDED|95.0|0.625|0.91||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. HR \<1 favors D + EP to be associated with a longer OS than EP.||0.910|0.625|0.0032
92392440|NCT03043872|184684286|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0451|TWO_SIDED|95.0|0.682|0.995||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|"D + T + EP vs EP. The alpha level applied at the global cohort final analysis was adjusted (using a generalized Haybittle-Peto method) to account for actual alpha spent at the interim analysis based on the actual final total number of events, and thus maintain control of overall Type I error. Boundary for declaring statistical significance was 0.0418 for a 5% overall alpha.~HR \<1 favors D + T + EP to be associated with a longer OS than EP."||0.995|0.682|0.0451
92392441|NCT03043872|184684287|OTHER||Hazard Ratio (HR)|0.65||||0.0664|TWO_SIDED|95.0|0.414|1.029||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. HR \<1 favors D + EP to be associated with a longer OS than EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.029|0.414|0.0664
92392442|NCT03043872|184684288|OTHER||Hazard Ratio (HR)|0.75||||0.1455|TWO_SIDED|95.0|0.504|1.106||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. HR \<1 favors D + EP to be associated with a longer OS than EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.106|0.504|0.1455
92392443|NCT03043872|184684288|OTHER||Hazard Ratio (HR)|0.65||||0.0314|TWO_SIDED|95.0|0.439|0.964||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs EP. HR \<1 favors D + T + EP to be associated with a longer OS than EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||0.964|0.439|0.0314
92420397|NCT00510952|184729889|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.427||95.0|-0.21|0.09||P-value for Week 12 HbA1c.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|||0.09|-0.21|0.427
92420398|NCT00510952|184729889|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.427||95.0|-0.21|0.09||P-value for Week 12 Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|||0.09|-0.21|0.427
92392444|NCT03043872|184684289|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.4352|TWO_SIDED|95.0|0.89|1.309||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs D + EP. HR \<1 favors D + T + EP to be associated with a longer OS than D + EP.||1.309|0.890|0.4352
92392445|NCT03043872|184684290|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0157|TWO_SIDED|95.0|0.665|0.959||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. HR \<1 favors D + EP to be associated with a longer PFS than EP.||0.959|0.665|0.0157
92392446|NCT03043872|184684290|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0568|TWO_SIDED|95.0|0.696|1.005||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs EP. HR \<1 favors D + T + EP to be associated with a longer PFS than EP.||1.005|0.696|0.0568
92392447|NCT03043872|184684290|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.754|TWO_SIDED|95.0|0.857|1.235||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs D + EP. HR \<1 favors D + T + EP to be associated with a longer PFS than D + EP.||1.235|0.857|0.7540
92392448|NCT03043872|184684291|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0177|TWO_SIDED|95.0|1.086|2.401||Analysis was performed using a logistic regression model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin). P-value is based on twice the change in log-likelihood resulting from addition of a treatment factor to the model.|Regression, Logistic|||D + EP vs EP. An odds ratio \>1 favors D + EP.||2.401|1.086|0.0177
92392449|NCT03043872|184684291|SUPERIORITY||Odds Ratio (OR)|1.19||||0.3611|TWO_SIDED|95.0|0.817|1.746||Analysis was performed using a logistic regression model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin). P-value is based on twice the change in log-likelihood resulting from addition of a treatment factor to the model.|Regression, Logistic|||D + T + EP vs EP. An odds ratio \>1 favors D + T + EP.||1.746|0.817|0.3611
92392450|NCT03043872|184684303|OTHER||Hazard Ratio (HR)|0.86||||0.447|TWO_SIDED|95.0|0.574|1.277||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs D + EP. HR \<1 favors D + T + EP to be associated with a longer OS than D + EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.277|0.574|0.4470
92392451|NCT03043872|184684304|OTHER||Hazard Ratio (HR)|0.97||||0.8934|TWO_SIDED|95.0|0.661|1.437||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. HR \<1 favors D + EP to be associated with a longer PFS than EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.437|0.661|0.8934
92420399|NCT00510952|184729889|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.254||95.0|-0.25|0.07||P-value for Week 24 HbA1c.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|||0.07|-0.25|0.254
92420400|NCT00510952|184729889|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.254||95.0|-0.25|0.07||P-value for Week 24 Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|||0.07|-0.25|0.254
92420401|NCT00510952|184729890|SUPERIORITY_OR_OTHER|||||||0.634||95.0||||P-value for HbA1c \<7.0%.|Fisher Exact|||||||0.634
92420402|NCT00510952|184729890|SUPERIORITY_OR_OTHER|||||||0.504||95.0||||P-value for HbA1c ≤6.5%.|Fisher Exact|||||||0.504
92420403|NCT00510952|184729891|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin of 0.8 millimoles per liter (mmol/L).|Mean Difference (Net)|0.06||||0.323||95.0|-0.06|0.19|||ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatment groups (Insulin Lispro Protamine Suspension minus Glargine).|Hypothesis: Insulin lispro protamine suspension is noninferior to glargine at actual morning pre-meal at endpoint.||0.19|-0.06|0.323
92420404|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.302||95.0||||P-value for Actual Morning Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.302
92420405|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.144||95.0||||P-value for Actual Morning Postprandial Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.144
92420406|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.279||95.0||||P-value for Actual Midday Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.279
92392452|NCT03043872|184684304|OTHER||Hazard Ratio (HR)|0.72||||0.1035|TWO_SIDED|95.0|0.487|1.068||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs EP. HR \<1 favors D + T + EP to be associated with a longer PFS than EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.068|0.487|0.1035
92392453|NCT03043872|184684304|OTHER||Hazard Ratio (HR)|0.76||||0.1673|TWO_SIDED|95.0|0.522|1.116||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs D + EP. HR \<1 favors D + T + EP to be associated with a longer PFS than D + EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.116|0.522|0.1673
92420407|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.928||95.0||||P-value for Actual Midday Postprandial Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.928
92420408|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.918||95.0||||P-value for Actual Evening Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.918
92420409|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||P-value for Actual Evening Postprandial Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.875
92420410|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.316||95.0||||P-value for Actual 0300 Hours.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.316
92420411|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.389||95.0||||P-value for Daily Mean 7-Point SMBG.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.389
92420412|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.836||95.0||||P-value for Daily Mean Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.836
92420413|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.394||95.0||||P-value for Daily Mean Postprandial Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.394
92420414|NCT00510952|184729892|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||P-value for Daily Mean Morning+Evening Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.609
92420415|NCT00510952|184729893|SUPERIORITY_OR_OTHER|||||||0.468||95.0||||P-value for All Hypoglycemic Episodes.|Fisher Exact|||||||0.468
92420416|NCT00510952|184729893|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for Nocturnal Hypoglycemic Episodes.|Fisher Exact|||||||0.011
92420417|NCT00510952|184729893|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||P-value for Severe Hypoglycemic Episodes.|Fisher Exact|||||||0.036
92420418|NCT00510952|184729894|SUPERIORITY_OR_OTHER|||||||0.316||95.0||||P-value for Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group. Hypoglycemic Rate (1 year) was used.||||||0.316
92420419|NCT00510952|184729894|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Nocturnal Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group. Hypoglycemic Rate (1 year) was used.||||||<0.001
92420420|NCT00510952|184729894|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||P-value for Severe Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group. Hypoglycemic Rate (1 year) was used.||||||0.102
92420421|NCT00510952|184729896|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin of 1.5 kilograms (kg).|Mean Difference (Net)|-0.01||||0.975||95.0|-0.61|0.59||P-value for Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline HbA1c + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|Hypothesis: insulin lispro protamine suspension is noninferior to glargine with regard to change in absolute body weight from baseline to endpoint.||0.59|-0.61|0.975
92420422|NCT00510952|184729897|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||ANCOVA|ANCOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group + Change in HbA1c from Baseline.||||||0.031
92420423|NCT00510952|184729898|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANCOVA|ANCOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group + Change in HbA1c from Baseline.||||||0.015
92420424|NCT05063318|184729960|SUPERIORITY||Least-squares geometric mean ratio|272.73|||||TWO_SIDED|90.0|213.22|348.86|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence as fixed effects, and patient (sequence) as a random effect||||348.86|213.22|
92420425|NCT05063318|184729961|SUPERIORITY||Least-squares geometric mean ratio|236.73|||||TWO_SIDED|90.0|177.35|316.0|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence as fixed effects, and patient (sequence) as a random effect||||316.00|177.35|
92420426|NCT05063318|184729962|SUPERIORITY||least-squares geometric mean ratio.|115.51|||||TWO_SIDED|90.0|100.07|133.33|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence as fixed effects, and patient (sequence) as a random effect||||133.33|100.07|
92420427|NCT05063318|184729963|SUPERIORITY||Least-squares geometric mean ratio.|217.57|||||TWO_SIDED|90.0|151.81|311.82|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence (TR or RT) as fixed effects, and patient (sequence) as a random effect.||||311.82|151.81|
92420428|NCT05063318|184729964|SUPERIORITY||Least-squares geometric mean ratio|36.67|||||TWO_SIDED|90.0|28.66|46.9|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence as fixed effects, and patient (sequence) as a random effect||||46.9|28.66|
92420429|NCT05063318|184729965|SUPERIORITY||Least-squares geometric mean ratio|99.89|||||TWO_SIDED|90.0|65.76|151.74|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence as fixed effects, and patient (sequence) as a random effect||||151.74|65.76|
92420430|NCT02247531|184729974|SUPERIORITY||Difference in Adjusted Means|0.157||||0.0479|TWO_SIDED|95.0|0.001|0.313|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.313|0.001|0.0479
92420431|NCT02247531|184729974|SUPERIORITY||Difference in Adjusted Means|0.087||||0.2739|TWO_SIDED|95.0|-0.069|0.243|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.243|-0.069|0.2739
92420432|NCT02247531|184729975|SUPERIORITY||Difference in Adjusted Means|-0.4||||0.84|TWO_SIDED|95.0|-4.8|3.9|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline number of absolute scotomatous points, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||3.9|-4.8|0.8400
92420433|NCT02247531|184729975|SUPERIORITY||Difference in Adjusted Means|1.3||||0.5587|TWO_SIDED|95.0|-3.1|5.7|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline number of absolute scotomatous points, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||5.7|-3.1|0.5587
92420434|NCT02247531|184729976|SUPERIORITY||Difference in Adjusted Means|0.1||||0.8358|TWO_SIDED|95.0|-0.88|1.09|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline mean macular sensitivity, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||1.09|-0.88|0.8358
92420435|NCT02247531|184729976|SUPERIORITY||Difference in Adjusted Means|-0.26||||0.6117|TWO_SIDED|95.0|-1.25|0.74|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline mean macular sensitivity, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.74|-1.25|0.6117
92420436|NCT02247531|184729977|SUPERIORITY||Difference in Adjusted Means|0.7||||0.4651|TWO_SIDED|95.0|-1.2|2.5|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline BCVA, GA lesion location, biomarker status, and sex.||2.5|-1.2|0.4651
92420437|NCT02247531|184729977|SUPERIORITY||Difference in Adjusted Means|0.3||||0.7885|TWO_SIDED|95.0|-1.6|2.1|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline BCVA, GA lesion location, biomarker status, and sex.||2.1|-1.6|0.7885
92420438|NCT02247531|184729978|SUPERIORITY||Odds Ratio (OR)|1.1||||0.6892|TWO_SIDED|95.0|0.7|1.8|||Regression, Logistic|||||1.8|0.7|0.6892
92420439|NCT02247531|184729978|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9104|TWO_SIDED|95.0|0.6|1.6|||Regression, Logistic|||||1.6|0.6|0.9104
92420440|NCT02247531|184729979|SUPERIORITY||Difference in Adjusted Means|-0.1||||0.8931|TWO_SIDED|95.0|-1.8|1.5|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline LLVA, GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||1.5|-1.8|0.8931
92420441|NCT02247531|184729979|SUPERIORITY||Difference in Adjusted Means|-1.1||||0.1754|TWO_SIDED|95.0|-2.8|0.5|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline LLVA, GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||0.5|-2.8|0.1754
92420442|NCT02247531|184729980|SUPERIORITY||Odds Ratio (OR)|1.3||||0.3707|TWO_SIDED|95.0|0.7|2.2|||Regression, Logistic|||||2.2|0.7|0.3707
92420443|NCT02247531|184729980|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8382|TWO_SIDED|95.0|0.6|1.6|||Regression, Logistic|||||1.6|0.6|0.8382
92420444|NCT02247531|184729981|SUPERIORITY||Difference in Adjusted Means|1.35||||0.6841|TWO_SIDED|95.0|-5.16|7.85|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, type of reading charts, baseline BCVA of better seeing eye, biomarker status, and sex.||7.85|-5.16|0.6841
92420445|NCT02247531|184729981|SUPERIORITY||Difference in Adjusted Means|1.07||||0.7443|TWO_SIDED|95.0|-5.37|7.52|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, type of reading charts, baseline BCVA of better seeing eye, biomarker status, and sex.||7.52|-5.37|0.7443
92420446|NCT02247531|184729982|SUPERIORITY||Difference in Adjusted Means|0.12||||0.9713|TWO_SIDED|95.0|-6.28|6.52|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, biomarker status, modified baseline BCVA, and sex.||6.52|-6.28|0.9713
92420447|NCT02247531|184729982|SUPERIORITY||Difference in Adjusted Means|-1.72||||0.5945|TWO_SIDED|95.0|-8.08|4.63|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, biomarker status, modified baseline BCVA, and sex.||4.63|-8.08|0.5945
92420448|NCT02247531|184729983|SUPERIORITY||Difference in Adjusted Means|1.22||||0.2438|TWO_SIDED|95.0|-0.83|3.27|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||3.27|-0.83|0.2438
92420449|NCT02247531|184729983|SUPERIORITY||Difference in Adjusted Means|1.03||||0.3202|TWO_SIDED|95.0|-1.01|3.07|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||3.07|-1.01|0.3202
92420450|NCT02247531|184729984|SUPERIORITY||Difference in Adjusted Means|2.64||||0.0388|TWO_SIDED|95.0|0.14|5.14|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||5.14|0.14|0.0388
92420451|NCT02247531|184729984|SUPERIORITY||Difference in Adjusted Means|2.2||||0.0833|TWO_SIDED|95.0|-0.29|4.68|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||4.68|-0.29|0.0833
92420452|NCT02247531|184729985|SUPERIORITY||Difference in Adjusted Means|1.04||||0.4795|TWO_SIDED|95.0|-1.84|3.91|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||3.91|-1.84|0.4795
92278933|NCT00094302|184460812|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.02
92392454|NCT03043872|184684305|OTHER||Odds Ratio (OR)|1.39||||0.432|TWO_SIDED|95.0|0.61|3.244||Analysis was performed using a logistic regression model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin). P-value is based on twice the change in log-likelihood resulting from addition of a treatment factor to the model.|Regression, Logistic|||D + EP vs EP. An odds ratio \>1 favors D + EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||3.244|0.610|0.4320
92392455|NCT03043872|184684305|OTHER||Odds Ratio (OR)|2.07||||0.0986|TWO_SIDED|95.0|0.874|5.118||Analysis was performed using a logistic regression model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin). P-value is based on twice the change in log-likelihood resulting from addition of a treatment factor to the model.|Regression, Logistic|||D + T + EP vs EP. An odds ratio \>1 favors D + T + EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||5.118|0.874|0.0986
92392456|NCT02777827|184684335|SUPERIORITY||Least square mean|0.2221|STANDARD_ERROR_OF_MEAN|0.0453|<|0.0001|TWO_SIDED|95.0|0.1324|0.3118|||ANCOVA|||||0.3118|0.1324|<0.0001
92392457|NCT02777827|184684335|SUPERIORITY||Least Square Mean|0.4042|STANDARD_ERROR_OF_MEAN|0.0453|<|0.0001|TWO_SIDED|95.0|0.3146|0.4938|||ANCOVA|||||0.4938|0.3146|<0.0001
92392458|NCT02777827|184684335|SUPERIORITY||Least Square Mean|0.1056|STANDARD_ERROR_OF_MEAN|0.0451||0.0207|TWO_SIDED|95.0|0.0164|0.1949|||ANCOVA|||||0.1949|0.0164|0.0207
92392459|NCT02777827|184684335|SUPERIORITY||Least Square Mean|0.1701|STANDARD_ERROR_OF_MEAN|0.045||0.0002|TWO_SIDED|95.0|0.081|0.2592|||ANCOVA|||||0.2592|0.0810|0.0002
92392460|NCT02777827|184684335|SUPERIORITY||Least Square Mean|0.4062|STANDARD_ERROR_OF_MEAN|0.0451|<|0.0001|TWO_SIDED|95.0|0.317|0.4955|||ANCOVA|||||0.4955|0.3170|<0.0001
92392461|NCT04551066|184684359|SUPERIORITY||Odds Ratio (OR)|1.27||||0.4224|TWO_SIDED|95.0|0.71|2.26||calculated from Cochran Mantel-Haenszel test stratified by Baseline platelet count ≥100 x 10\^9/Liters versus 50 to \<100 x 10\^9/Liters inclusive|Cochran-Mantel-Haenszel|||||2.26|0.71|0.4224
92392462|NCT04551066|184684360|SUPERIORITY||Odds Ratio (OR)|0.84||||0.5728|TWO_SIDED|95.0|0.46|1.53||calculated from Cochran Mantel-Haenszel test stratified by Baseline platelet count ≥100 x 10\^9/Liters versus 50 to \<100 x 10\^9/Liters inclusive|Cochran-Mantel-Haenszel|||||1.53|0.46|0.5728
92392463|NCT04551066|184684362|SUPERIORITY|||||||0.949||||||calculated from log-rank test stratified by Baseline platelet count ≥100 × 10\^9/Liters versus 50 to \<100 × 10\^9/Liters inclusive|Log Rank|||||||0.9490
92392464|NCT04551066|184684366|SUPERIORITY|||||||0.1085||||||calculated from log-rank test stratified by Baseline platelet count ≥100 × 10\^9/Liters versus 50 to \<100 × 10\^9/Liters inclusive|Log Rank|||||||0.1085
92392465|NCT04551066|184684367|SUPERIORITY|||||||0.6127||||||calculated from log-rank test stratified by Baseline platelet count ≥100 × 10\^9/Liters versus 50 to \<100 × 10\^9/Liters inclusive|Log Rank|||||||0.6127
92392466|NCT04491136|184684368|OTHER||||||>|0.9999|||||||McNemar|||At least one SVT occurred||||>0.9999
92392467|NCT04491136|184684368|OTHER|||||||0.7905|||||||McNemar|||At least one NSVT occurred||||0.7905
92392468|NCT04491136|184684368|OTHER|||||||0.625|||||||McNemar|||At least one PVC occurred||||0.6250
92392469|NCT04491136|184684370|OTHER||Mean Difference (Final Values)|2.41|STANDARD_ERROR_OF_MEAN|0.653||0.0008|TWO_SIDED|95.0|1.11|3.7|||Wilcoxon signed-rank|||||3.70|1.11|0.0008
92392470|NCT04491136|184684371|OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.028||0.5733|TWO_SIDED|95.0|-0.07|0.04|||Ridit analysis|||||0.04|-0.07|0.5733
92392471|NCT04491136|184684372|OTHER||Mean Difference (Final Values)|-231.46|STANDARD_ERROR_OF_MEAN|93.03||0.0006|TWO_SIDED|95.0|-415.9|-47.02|||Wilcoxon signed rank test|||||-47.02|-415.90|0.0006
92392472|NCT04491136|184684374|OTHER||||||>|0.9999|||||||McNemar|||Occurrence of at least one shock||||>0.9999
92392473|NCT04491136|184684374|OTHER|||||||0.0654|||||||McNemar|||Occurrence of at least one ATP event||||0.0654
92392474|NCT01712204|184684396|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81|STANDARD_ERROR_OF_MEAN|0.113||0.1356|TWO_SIDED|95.0|0.62|1.07|||Possion regression|||||1.07|0.62|0.1356
92392475|NCT01059318|184684401|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|76.0|||||TWO_SIDED|95.0|-45.0|196.0|||Bayesian analysis|A Bayesian posterior distribution of the treatment effect at 26 weeks was evaluated using a non-informative prior.|MILES study and current study had different study designs, so change from baseline to 26 weeks in MILES study was estimated from the publicly reported rate of change per month in order to provide a meaningful comparison based on Bayesian analysis.|"Proof of Concept was proposed as follows:~* 90% level of proof that difference in FVC change from baseline everolimus vs. Historical Placebo Control arm from MILES study \> 0 mL~* 50% level of proof that difference in FVC change from baseline everolimus vs. Historical Placebo Control arm from MILES study \>= 100 mL~Historical data from 43 patients treated with placebo from the MILES study were down weighted to an effective sample size of 18 for comparison."||196|-45|
92420453|NCT02247531|184729985|SUPERIORITY||Difference in Adjusted Means|0.6||||0.6822|TWO_SIDED|95.0|-2.26|3.45|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||3.45|-2.26|0.6822
92420454|NCT02247531|184729986|SUPERIORITY||Difference in Adjusted Means|0.04||||0.5227|TWO_SIDED|95.0|-0.07|0.14|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline Mean FRI Index score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.14|-0.07|0.5227
92392476|NCT01059318|184684402|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|186.0|||||TWO_SIDED|95.0|93.0|279.0|||Bayesian analysis|A Bayesian posterior distribution of the treatment effect at 26 weeks was evaluated using a non-informative prior.|MILES study and current study had different study designs, so change from baseline to 26 weeks in MILES study was estimated from the publicly reported rate of change per month in order to provide a meaningful comparison based on Bayesian analysis.|"Proof of Concept was proposed as follows:~* 90% level of proof that difference in FEV1 change from baseline everolimus vs. Historical Placebo Control arm from MILES study \> 0 mL~* 50% level of proof that difference in FEV1 change from baseline everolimus vs. Historical Placebo Control arm from MILES study \>= 100 mL~Historical data from 43 patients treated with placebo from the MILES study were down weighted to an effective sample size of 18 for comparison."||279|93|
92392477|NCT00291486|184684422|SUPERIORITY|||||||0.144|||||||t-test, 1 sided|||Comparison of CL between initial infusion and therapy infusion||||0.144
92392478|NCT00291486|184684423|SUPERIORITY|||||||0.361|||||||ANOVA|||||||0.361
92420455|NCT02247531|184729986|SUPERIORITY||Difference in Adjusted Means|0.02||||0.7475|TWO_SIDED|95.0|-0.09|0.13|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline Mean FRI Index score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.13|-0.09|0.7475
92420456|NCT02247531|184729987|SUPERIORITY||Difference in Adjusted Means|0.049||||0.6333|TWO_SIDED|95.0|-0.153|0.252|||MMRM|||CFI Positive: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.252|-0.153|0.6333
92420457|NCT02247531|184729987|SUPERIORITY||Difference in Adjusted Means|0.025||||0.8105|TWO_SIDED|95.0|-0.18|0.23|||MMRM|||CFI Positive: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.230|-0.180|0.8105
92420458|NCT02247531|184729987|SUPERIORITY||Difference in Adjusted Means|0.34||||0.0063|TWO_SIDED|95.0|0.097|0.584|||MMRM|||CFI Negative: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.584|0.097|0.0063
92420459|NCT02247531|184729987|SUPERIORITY||Difference in Adjusted Means|0.182||||0.1359|TWO_SIDED|95.0|-0.058|0.422|||MMRM|||CFI Negative: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.422|-0.058|0.1359
92420460|NCT02882074|184730020|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.158|TWO_SIDED|95.0|-0.11|0.64|||Regression, Linear|||||0.64|-0.11|0.158
92420461|NCT02882074|184730021|SUPERIORITY||Ratio of geometric means|0.86||||0.388|TWO_SIDED|97.5|0.57|1.28||The significance criterion is p-value \< 0.025 (i.e. 0.05/2), corrected for multiple comparisons.|Mixed Models Analysis||Syndecan values were all log-transformed to meet the linearity requirement. Thus the treatment effect was presented as the ratio of geometric means.|||1.28|0.57|0.388
92392479|NCT01025830|184684461|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was defined as a 90% Confidence Interval of the geometric mean ratio between 0.8 and 1.25. Differences between treatments with respect to the outcome and intra- and inter-subject variances were assessed using the mixed effects model. Bootstrapped random errors were used.|Geometric Mean Ratio|1.1||||||90.0|0.87|1.38||p value not required for this analysis. What counts is the 90% confidence interval of the geometric mean ratio between the two formulation parameters.|Non-compartmental model|Mixed random effects model was used to assess difference between treatments and intra- and inter-subject variances.|the generic is the numerator while the brand is the denominator|The null hypothesis was that there is a difference in the relative bioavailability of Triomune and brand-name stavudine/lamivudine/nevirapine in HIV-infected Africans. 18 participants were required to provide 80% power to detect approximately a 20% difference on a log scale in AUC0-12h between the brand formulation and the generic formulation. Alpha level of 0.05.||1.38|0.87|
92420462|NCT02882074|184730022|SUPERIORITY||Ratio of geometric means|1.19||||0.257|TWO_SIDED|97.5|0.84|1.68||The significance criterion is p-value \< 0.025 (i.e. 0.05/2), corrected for multiple comparisons.|Mixed Models Analysis||Endocan values were all log-transformed to meet the linearity requirement. Thus the treatment effect was presented as the ratio of geometric means.|||1.68|0.84|0.257
92392480|NCT01025830|184684461|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was defined as a 90% Confidence Interval of the geometric mean ratio between 0.8 and 1.25. Differences between treatments with respect to the outcome and intra- and inter-subject variances were assessed using the mixed effects model. Bootstrapped random errors were used.|Geometric Mean Ratio|1.1||||||90.0|0.95|1.31||p value not required for this analysis. What counts is the 90% confidence interval of the geometric mean ratio between the two formulation parameters.|Non-compartmental model|Mixed random effects model was used to assess difference between treatments and intra- and inter-subject variances.|the generic is the numerator while the brand is the denominator|The null hypothesis was that there is a difference in the relative bioavailability of Triomune and brand-name stavudine/lamivudine/nevirapine in HIV-infected Africans. 18 participants were required to provide 80% power to detect approximately a 20% difference on a log scale in AUC0-12h between the brand formulation and the generic formulation. Alpha level of 0.05.||1.31|0.95|
92420463|NCT02882074|184730023|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.003|TWO_SIDED|95.0|0.23|1.01|||Regression, Linear|||||1.01|0.23|0.003
92446383|NCT03548584|184779822|SUPERIORITY||LS Mean Difference|-1.24||||0.0113|TWO_SIDED|95.0|-2.21|-0.28||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Verbally Agitated Behavior||-0.28|-2.21|0.0113
92446384|NCT03548584|184779822|SUPERIORITY||LS Mean Difference|-0.36||||0.1941|TWO_SIDED|95.0|-0.9|0.18||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Hiding and Hoarding||0.18|-0.90|0.1941
92446385|NCT03548584|184779823|SUPERIORITY||LS Mean Difference|0.85||||0.4242|TWO_SIDED|95.0|-1.24|2.93||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change From Baseline at Week 2||2.93|-1.24|0.4242
92446386|NCT03548584|184779823|SUPERIORITY||LS Mean Difference|-1.14||||0.3665|TWO_SIDED|95.0|-3.63|1.34||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change From Baseline at Week 4||1.34|-3.63|0.3665
92235870|NCT01751646|184374986|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Test of Week 48 difference from baseline||||< 0.0001
92420464|NCT01068652|184730044|NON_INFERIORITY_OR_EQUIVALENCE|The treatment comparison was based on a non-inferiority criterion and the following hypotheses were tested: H0: μDetemir - μBIAsp 30 ≥0.4% against the alternative hypothesis (Detemir non-inferior to BIAsp 30) HA: μDetemir - μBIAsp 30 \<0.4% where μBIAsp 30 and μDetemir are the mean HbA1c after 50 weeks of treatment with the two treatment regimens.|Mean Difference (Final Values)|0.11||||0.3406||95.0|-0.12|0.34|||ANCOVA|||To investigate the effect of different treatments, an analysis of covariance (ANCOVA) model was used to analyse HbA1c at week 50 with treatment group (2 categories: insulin detemir and aspart; BIAsp 30), country and pre-trial OAD(s) treatment (one OAD vs. more OADs) as factors and HbA1c at baseline (week 0) as a covariate. The treatment difference was estimated and a 95% confidence interval (CI) for the difference was calculated.||0.34|-0.12|0.3406
92420465|NCT03170232|184730064|OTHER||Mean Difference (Final Values)|-67.2|STANDARD_ERROR_OF_MEAN|159.7||0.679|TWO_SIDED|95.0|-400.6|266.2|||Repeated measures random coefficient|||||266.2|-400.6|0.679
92420466|NCT02537574|184730086|SUPERIORITY||Odds Ratio (OR)|1.02|STANDARD_ERROR_OF_MEAN|0.264||0.94|TWO_SIDED|95.0|0.61|1.7|||Regression, Logistic|||||1.70|0.61|0.940
92420467|NCT02537574|184730086|SUPERIORITY||Odds Ratio (OR)|0.8|STANDARD_ERROR_OF_MEAN|0.207||0.383|TWO_SIDED|95.0|0.48|1.33|||Regression, Logistic|||||1.33|0.48|0.383
92420468|NCT00107952|184730094|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 20% was specified based on historical regulatory precedent.|Risk Difference (RD)|-1.6||||||95.0|-8.6|5.5||p-values were not calculated in deference to confidence intervals.|||"Statistical analysis applies to cure"|||5.5|-8.6|
92235871|NCT01751646|184374986|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Test of Week 48 difference from baseline||||< 0.0001
92420469|NCT02797054|184730112|OTHER|||||||0.069|||||||Chi-squared|||||||0.069
92278934|NCT02761980|184460828|SUPERIORITY||LSM difference|3.14||||0.002|TWO_SIDED|95.0|1.13|5.15|||ANCOVA|||Treatment difference and 95 percent (%) confidence interval (CI) were based on Least Square Mean (LSM) from analysis of covariance (ANCOVA) with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.||5.15|1.13|0.002
92278935|NCT02761980|184460828|SUPERIORITY||LSM difference|0.91||||0.21|TWO_SIDED|95.0|-0.52|2.33|||ANCOVA|||Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.||2.33|-0.52|0.210
92420470|NCT02797054|184730113|OTHER|||||||0.303|||||||Chi-squared|||||||0.303
92420471|NCT02797054|184730114|OTHER|||||||0.001|||||||Chi-squared|||||||0.001
92420472|NCT02797054|184730115|OTHER|||||||0.895|||||||Chi-squared|||||||0.895
92420473|NCT02797054|184730116|OTHER|||||||0.58|||||||Chi-squared|||||||0.58
92420474|NCT02797054|184730117|OTHER|||||||0.0015|||||||Chi-squared|||||||0.0015
92420475|NCT02797054|184730118|OTHER|||||||0.0056|||||||Chi-squared|||||||0.0056
92420476|NCT02797054|184730119|OTHER|||||||0.21|||||||Chi-squared|||||||0.21
92420477|NCT02398409|184730132|SUPERIORITY||Mean Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.117||0.8407|TWO_SIDED|||||Adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression.|Mixed Models Analysis|||12 weeks compared to Baseline (BL)||||.8407
92420478|NCT02398409|184730132|SUPERIORITY||Median Difference (Net)|0.201|STANDARD_ERROR_OF_MEAN|0.12||0.015|TWO_SIDED|||||Adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression.|Mixed Models Analysis|||At 6 months compared to BL||||.0150
92278936|NCT02761980|184460828|SUPERIORITY||LSM difference|0.79||||0.28|TWO_SIDED|95.0|-0.64|2.21|||ANCOVA|||Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.||2.21|-0.64|0.280
92278937|NCT02761980|184460828|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|2.23||||0.03|TWO_SIDED|95.0|0.22|4.25|||ANCOVA|||||4.25|0.22|0.030
92420479|NCT02398409|184730132|SUPERIORITY||Median Difference (Net)|0.114|STANDARD_ERROR_OF_MEAN|0.188||0.8373|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||1 year compared BL||||.8373
92420480|NCT02398409|184730133|SUPERIORITY||Median Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.173||0.6445|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||12 weeks compared to BL||||.6445
92420481|NCT02398409|184730133|SUPERIORITY||Median Difference (Net)|0.033|STANDARD_ERROR_OF_MEAN|0.158||0.5247|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||6 months compared to BL||||.5247
92420482|NCT02398409|184730133|SUPERIORITY||Median Difference (Net)|0.1224|STANDARD_ERROR_OF_MEAN|0.187||0.9974|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||1 year compared to BL||||.9974
92420483|NCT02398409|184730134|SUPERIORITY||Median Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.087||0.1918|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||12 weeks compared to BL||||.1918
92420484|NCT02398409|184730134|SUPERIORITY||Median Difference (Net)|0.046|STANDARD_ERROR_OF_MEAN|0.078||0.9212|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||6 months compared to BL||||.9212
92420485|NCT02398409|184730134|SUPERIORITY||Median Difference (Net)|0.026|STANDARD_ERROR_OF_MEAN|0.083||0.2358|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||1 year compared to BL||||.2358
92420486|NCT02398409|184730135|SUPERIORITY|adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Median Difference (Net)|0.008|STANDARD_ERROR_OF_MEAN|0.168||0.1107|TWO_SIDED||||||Mixed Models Analysis|||12 weeks compared to BL||||.1107
92420487|NCT02398409|184730135|SUPERIORITY|adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Median Difference (Net)|0.251|STANDARD_ERROR_OF_MEAN|0.211||0.0562|TWO_SIDED||||||Mixed Models Analysis|||6 months compared to BL||||.0562
92420488|NCT02398409|184730135|SUPERIORITY||Median Difference (Net)|0.226|STANDARD_ERROR_OF_MEAN|0.218||0.8579|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||1 year compared to BL||||.8579
92420489|NCT00708071|184730150|SUPERIORITY_OR_OTHER||Difference in Proportions|0.25||||0.143||95.0|-0.04|0.49|||McNemar||Difference in Proportions = SoC - FS VH S/D 4|||0.49|-0.04|0.143
92420490|NCT00708071|184730151|SUPERIORITY_OR_OTHER||Difference in proportions|0.31|||||TWO_SIDED|90.0|0.12|0.48|||||Difference in proportions = SoC - FS VH S/D 4|||0.48|0.12|
92420491|NCT00708071|184730152|SUPERIORITY_OR_OTHER||Difference in proportions|0.111|||||TWO_SIDED|90.0|-0.11|0.32|||||Difference in proportions = SoC - FS VH S/D 4|||0.32|-0.11|
92420492|NCT00708071|184730153|SUPERIORITY_OR_OTHER||Difference in proportions|-0.032|||||TWO_SIDED|90.0|-0.24|0.18|||||Difference in proportions = SoC - FS VH S/D 4|||0.18|-0.24|
92420493|NCT00708071|184730154|SUPERIORITY_OR_OTHER||Difference in proportions|0.0|||||TWO_SIDED|90.0|-0.21|0.21|||||Difference in proportions = SoC - FS VH S/D 4|||0.21|-0.21|
92420494|NCT00708071|184730155|SUPERIORITY_OR_OTHER||Difference in proportions|0.038|||||TWO_SIDED|90.0|-0.17|0.24|||||Difference in proportions = SoC - FS VH S/D 4|||0.24|-0.17|
92235872|NCT01151137|184375001|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.294||||0.0019|TWO_SIDED|95.0|1.337|3.936||A priori threshold for statistical significance: 0.05|Log Rank|2-sided Log-rank's asymptotic test|"Hazard ratio (HR) of Dronedarone versus placebo for stroke, systemic arterial embolism, myocardial infarction or cardiovascular death~HR and confidence interval were estimated using Cox regression model with treatment group as the only factor."|As a consequence of the early termination of the study, the analysis was performed for information only without any adjustment.||3.936|1.337|0.0019
92420495|NCT00708071|184730156|SUPERIORITY_OR_OTHER|||||||0.645|||||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.645
92392481|NCT01025830|184684461|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was defined as a 90% Confidence Interval of the geometric mean ratio between 0.8 and 1.25. Differences between treatments with respect to the outcome and intra- and inter-subject variances were assessed using the mixed effects model. Bootstrapped random errors were used.|Geometric Mean Ratio|0.8||||||90.0|0.65|0.99||p value not required for this analysis. What counts is the 90% confidence interval of the geometric mean ratio between the two formulation parameters.|Non-compartmental model|Mixed random effects model was used to assess difference between treatments and intra- and inter-subject variances.|the generic is the numerator while the brand is the denominator|The null hypothesis was that there is a difference in the relative bioavailability of Triomune and brand-name stavudine/lamivudine/nevirapine in HIV-infected Africans. 18 participants were required to provide 80% power to detect approximately a 20% difference on a log scale in AUC0-12h between the brand formulation and the generic formulation. Alpha level of 0.05.||0.99|0.65|
92392482|NCT01025830|184684462|NON_INFERIORITY_OR_EQUIVALENCE|same as for AUC|Geometric Mean Ratio|1.3||||||90.0|0.99|1.71||same as for AUC|Non-compartmental model|same as for AUC|same as AUC|Same as for AUC||1.71|0.99|
92392483|NCT01025830|184684462|NON_INFERIORITY_OR_EQUIVALENCE|same for all three drugs.|Geometric Mean Ratio|1.1||||||90.0|0.95|1.23||Same for all three drugs.|Non-compartmental model|Same for all three drugs.|Same for all three drugs.|Same for all three drugs.||1.23|0.95|
92392484|NCT01025830|184684462|NON_INFERIORITY_OR_EQUIVALENCE|Same for all three drugs.|Geometric Mean Ratio|0.8||||||90.0|0.63|0.98||Same for all three drugs.|Non-compartmental model|Same for all three drugs.|Same for all three drugs.|Same for all three drugs.||0.98|0.63|
92392485|NCT02267538|184684465|OTHER||Odds Ratio (OR)|0.62||||0.341|TWO_SIDED|95.0|0.23|1.65|||Regression, Logistic|||||1.65|0.23|0.341
92392486|NCT02267538|184684466|OTHER||Median Difference (Final Values)|0.0||||0.83|TWO_SIDED|||||MMSE|Wilcoxon (Mann-Whitney)|||||||0.830
92392487|NCT02267538|184684466|OTHER||Median Difference (Final Values)|0.0||||0.405|TWO_SIDED|||||m-TICS|Wilcoxon (Mann-Whitney)|||||||0.405
92392488|NCT02267538|184684467|OTHER||Odds Ratio (OR)|0.74||||0.214|TWO_SIDED|95.0|0.47|1.19|||Regression, Logistic|||Incidence of total non-delirium complications within 30 days after surgery||1.19|0.47|0.214
92392489|NCT02267538|184684467|OTHER|stroke|Odds Ratio (OR)|1.01||||0.993|TWO_SIDED|95.0|0.2|5.08|||Regression, Logistic|||Incidence of stroke within 30 days after surgery||5.08|0.20|0.993
92392490|NCT02267538|184684467|OTHER|New onset arrythmia|Odds Ratio (OR)|0.76||||0.274|TWO_SIDED|95.0|0.46|1.25|||Regression, Logistic|||||1.25|0.46|0.274
92392491|NCT02267538|184684467|OTHER|Pulmonary complications|Odds Ratio (OR)|0.51||||0.05|TWO_SIDED|95.0|0.26|1.0|||Regression, Logistic|||||1.00|0.26|0.050
92392492|NCT02267538|184684467|OTHER||Odds Ratio (OR)|0.5||||0.423|TWO_SIDED|95.0|0.09|2.75||Upper gastrointestinal bleeding|Regression, Logistic|||||2.75|0.09|0.423
92392493|NCT02267538|184684467|OTHER||Odds Ratio (OR)|1.01||||0.993|TWO_SIDED|95.0|0.2|5.08||Surgical bleeding|Regression, Logistic|||||5.08|0.20|0.993
92420496|NCT00708071|184730157|SUPERIORITY_OR_OTHER|||||||0.103||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.103
92420497|NCT00708071|184730158|SUPERIORITY_OR_OTHER|||||||0.833||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.833
92420498|NCT00708071|184730159|SUPERIORITY_OR_OTHER|||||||0.501||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.501
92420499|NCT00708071|184730160|SUPERIORITY_OR_OTHER|||||||0.247||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.247
92420500|NCT00708071|184730161|SUPERIORITY_OR_OTHER|||||||0.715||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.715
92420501|NCT00708071|184730163|SUPERIORITY_OR_OTHER|||||||0.754||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.754
92420502|NCT00708071|184730164|SUPERIORITY_OR_OTHER|||||||0.388||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.388
92420503|NCT00708071|184730165|SUPERIORITY_OR_OTHER|||||||0.234||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.234
92420504|NCT00708071|184730166|SUPERIORITY_OR_OTHER|||||||0.688||90.0||||Two-sided Wilcoxon paired sample tests|Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.688
92278938|NCT02761980|184460828|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|2.35||||0.023|TWO_SIDED|95.0|0.33|4.37|||ANCOVA|||||4.37|0.33|0.023
92278939|NCT02761980|184460828|SUPERIORITY||LSM difference|-0.12||||0.864|TWO_SIDED|95.0|-1.54|1.29|||ANCOVA|||Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.||1.29|-1.54|0.864
92392494|NCT02267538|184684467|OTHER||Odds Ratio (OR)|1.63||||0.326|TWO_SIDED|95.0|0.61|4.34||Wound dehiscence or infection|Regression, Logistic|||||4.34|0.61|0.326
92392495|NCT02267538|184684467|OTHER||Odds Ratio (OR)|0.79||||0.378|TWO_SIDED|95.0|0.47|1.33||Acute kidney injur|Regression, Logistic|||||1.33|0.47|0.378
92392496|NCT02267538|184684467|OTHER||Odds Ratio (OR)|0.48||||0.156|TWO_SIDED|95.0|0.18|1.32||IABP assistance|Regression, Logistic|||||1.32|0.18|0.156
92392497|NCT02267538|184684468|OTHER||Median Difference (Final Values)|0.0||||0.596|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the first row in Outcome 4, i.e., Pain score in Day 1 after surgery, at rest between DEX Group and CTRL group||0|-1|0.596
92392498|NCT02267538|184684468|OTHER||Median Difference (Final Values)|0.0||||0.743|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the second row in Outcome 4, i.e., Pain score in Day 2 after surgery, at rest between DEX Group and CTRL group||0|-1|0.743
92392499|NCT02267538|184684468|OTHER||Median Difference (Final Values)|0.0||||0.282|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the third row in Outcome 4, i.e., Pain score in Day 3 after surgery, at rest between DEX Group and CTRL group||0|-1|0.282
92392500|NCT02267538|184684468|OTHER||Median Difference (Final Values)|0.0||||0.368|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the fourth row in Outcome 4, i.e., Pain score in Day 4 after surgery, at rest between DEX Group and CTRL group||0|0|0.368
92392501|NCT02267538|184684468|OTHER||Median Difference (Final Values)|0.0||||0.397|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the fifth row in Outcome 4, i.e., Pain score in Day 5 after surgery, at rest between DEX Group and CTRL group||0|0|0.397
92392502|NCT02267538|184684468|OTHER||Median Difference (Final Values)|0.0||||0.486|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the sixth row in Outcome 4, i.e., Pain score in Day 1 after surgery, with coughing between DEX Group and CTRL group||0|-1|0.486
92392503|NCT02267538|184684468|OTHER||Median Difference (Final Values)|0.0||||0.414|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the seventh row in Outcome 4, i.e., Pain score in Day 2 after surgery, with coughing between DEX Group and CTRL group||0|-1|0.414
92392504|NCT02267538|184684468|OTHER||Median Difference (Final Values)|0.0||||0.187|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the eighth row in Outcome 4, i.e., Pain score in Day 3 after surgery, with coughing between DEX Group and CTRL group||0|-1|0.187
92392505|NCT02267538|184684468|OTHER||Median Difference (Final Values)|0.0||||0.127|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the ninth row in Outcome 4, i.e., Pain score in Day 4 after surgery, with coughing between DEX Group and CTRL group||0|-1|0.127
92392506|NCT02267538|184684468|OTHER||Median Difference (Final Values)|0.0||||0.378|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the tenth row in Outcome 4, i.e., Pain score in Day 5 after surgery, with coughing between DEX Group and CTRL group||0|0|0.378
92392507|NCT02267538|184684469|OTHER||Median Difference (Final Values)|0.0||||0.777|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the first row in Outcome 5, i.e., subjective sleep quality in Day 1 after surgery, between DEX Group and CTRL group||0|0|0.777
92392508|NCT02267538|184684469|OTHER||Median Difference (Final Values)|0.0||||0.919|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the second row in Outcome 5, i.e., subjective sleep quality in Day 2 after surgery, between DEX Group and CTRL group||1|-1|0.919
92392509|NCT02267538|184684469|OTHER||Median Difference (Final Values)|0.0||||0.835|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the third row in Outcome 5, i.e., subjective sleep quality in Day 3 after surgery, between DEX Group and CTRL group||0|0|0.835
92392510|NCT02267538|184684469|OTHER||Median Difference (Final Values)|0.0||||0.321|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the fourth row in Outcome 5, i.e., subjective sleep quality in Day 4 after surgery, between DEX Group and CTRL group||0|0|0.321
92392511|NCT02267538|184684469|OTHER||Median Difference (Final Values)|0.0||||0.174|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the fifth row in Outcome 5, i.e., subjective sleep quality in Day 5 after surgery, between DEX Group and CTRL group||0|0|0.174
92392512|NCT02267538|184684470|OTHER||Hazard Ratio (HR)|1.03||||0.788|TWO_SIDED|95.0|0.82|1.31|||Log Rank|||||1.31|0.82|0.788
92392513|NCT02267538|184684471|OTHER||Hazard Ratio (HR)|0.97||||0.826|TWO_SIDED|95.0|0.77|1.23|||Log Rank|||||1.23|0.77|0.826
92392514|NCT01223183|184684484|EQUIVALENCE|alpha=0.05|||||<|0.001|||||||t-test, 2 sided|||Comparing DTPA absorption after hypertonic saline inhalation to DTPA absorption after isotonic saline inhalation||||<0.001
92392515|NCT01223183|184684486|EQUIVALENCE|alpha=0.05||||||0.003|||||||t-test, 2 sided|||Comparing mucociliary clearance after isotonic saline inhalation to mucociliary clearance after hypertonic saline inhalation||||0.003
92392516|NCT01279681|184684487|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.03||||0.93|TWO_SIDED|95.0|0.49|2.17|||Regression, Cox|||||2.17|0.49|0.93
92392517|NCT02796677|184684523|SUPERIORITY||LS mean difference|0.084|||<|0.0001|TWO_SIDED|95.0|0.051|0.117|||Mixed model for repeated measures|||||0.117|0.051|<0.0001
92392518|NCT02796677|184684524|SUPERIORITY||LS mean difference|0.055||||0.0009|TWO_SIDED|95.0|0.023|0.088|||Mixed model for repeated measures|||||0.088|0.023|0.0009
92392519|NCT02796677|184684525|NON_INFERIORITY|Non-inferiority was established by showing that the lower bound of the two-sided 95% confidence interval for change from baseline in morning pre-dose (trough) FEV1 at week 24 when compared AB 400 μg versus TIO 18 μg was higher than -50 mL (non-inferiority limit).|LS mean difference|0.007||||0.6377|TWO_SIDED|95.0|-0.021|0.035|||Mixed model for repeated measures|||||0.035|-0.021|0.6377
92392520|NCT02796677|184684526|SUPERIORITY||LS mean difference|0.075|||<|0.0001|TWO_SIDED|95.0|0.043|0.107|||Mixed model for repeated measures|||||0.107|0.043|<0.0001
92392521|NCT02796677|184684526|SUPERIORITY||LS mean difference|0.087|||<|0.0001|TWO_SIDED|95.0|0.052|0.122|||Mixed model for repeated measures|||||0.122|0.052|<0.0001
92420505|NCT00708071|184730167|SUPERIORITY_OR_OTHER|||||||0.625||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.625
92420506|NCT00708071|184730168|SUPERIORITY_OR_OTHER|||||||0.688||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.688
92420507|NCT00708071|184730169|SUPERIORITY_OR_OTHER|||||||1||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||1.000
92420508|NCT00708071|184730170|SUPERIORITY_OR_OTHER|||||||0.521||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.521
92420509|NCT00708071|184730171|SUPERIORITY_OR_OTHER|||||||0.324||90.0||||alpha = 10%|Two-sided Wilcoxon paired sample tests|||||||0.324
92392522|NCT02796677|184684527|SUPERIORITY||Odds ratio|0.96||||0.8714|TWO_SIDED|95.0|0.61|1.51|||Logistic random-effect model|||||1.51|0.61|0.8714
92392523|NCT02796677|184684527|SUPERIORITY||Odds ratio|0.97||||0.8873|TWO_SIDED|95.0|0.59|1.58|||Logistic random-effect model|||||1.58|0.59|0.8873
92420510|NCT00708071|184730172|SUPERIORITY_OR_OTHER|||||||0.661||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.661
92420511|NCT00708071|184730173|SUPERIORITY_OR_OTHER|||||||1||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||1.000
92420512|NCT00708071|184730174|SUPERIORITY_OR_OTHER|||||||0.699||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.699
92392524|NCT03270943|184684569|SUPERIORITY|||||||0.02|||||||Log Rank|||||||0.02
92420513|NCT00708071|184730177|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||two-sided paired t-test|alpha = 5%||||||0.0010
92420514|NCT00708071|184730179|SUPERIORITY_OR_OTHER||Difference in proportions|0.182||||0.014|TWO_SIDED|95.0|0.04|0.34|||McNemar's test of paired proportions|Alpha = 5%|Difference in Proportions = (Number of SoC Participants with Hematoma/Seroma) - (Number of FS VH S/D 4 Participants with Hematoma/Seroma)|||0.34|0.04|0.014
92420515|NCT02140775|184730185|SUPERIORITY|||||||0.602|||||||Chi-squared|degrees of freedom = 1||A Chi-Square test was conducted between the treatment groups and the dichotomous outcome of successful achievement of employment goal.||||.602
92420516|NCT02140775|184730186|SUPERIORITY||Mean Difference (Final Values)|-3.74|STANDARD_ERROR_OF_MEAN|2.0||0.066|TWO_SIDED|95.0|-7.75|0.26|||t-test, 2 sided|||||0.26|-7.75|.066
92392525|NCT03270943|184684570|OTHER|within group|Mean Difference (Net)|-1.01|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-6.06|3.84|||||Difference between score at 8 weeks and score at baseline.|||3.84|-6.06|
92392526|NCT03270943|184684570|OTHER|within group|Mean Difference (Net)|-4.46|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|-8.7|-0.22|||||Difference between score at 8 weeks and score at baseline.|||-0.22|-8.70|
92420517|NCT02140775|184730187|SUPERIORITY||Mean Difference (Final Values)|-3.25|STANDARD_ERROR_OF_MEAN|7.68||0.674|TWO_SIDED|95.0|-18.59|12.09|||t-test, 2 sided|||||12.09|-18.59|.674
92420518|NCT01858636|184730218|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED||||||Fisher Exact|A one-sided Fisher's exact test was performed with a 95% upper confidence bound of 5.5%||Ho: Pt ≥ 8% Ha: Pt \< 8%, where Pt is the proportion of deployed subjects with a protocol-defined vascular complication.||||0.0029
92420519|NCT01858636|184730219|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|A one-sided Fisher's exact test was performed with a 95% lower confidence bound of 96.4%||Ho: St ≤ 90% Ha: St \> 90%, where St is the proportion of deployed subjects achieving hemostasis within 5 minutes.||||<0.0001
92392527|NCT03270943|184684571|OTHER|within group change|Mean Difference (Net)|-0.64|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-2.72|0.2|||||Difference between score at 8 weeks and score at baseline.|||0.2|-2.72|
92392528|NCT03270943|184684571|OTHER|within group change|Mean Difference (Net)|-1.72|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-3.6|0.16|||||Difference between score at 8 weeks and score at baseline.|||0.16|-3.60|
92392529|NCT03270943|184684572|OTHER|Within group change|Mean Difference (Net)|0.23|||||TWO_SIDED|95.0|-0.15|0.61|||||Difference between score at 8 weeks and score at baseline.|||0.61|-0.15|
92392530|NCT03270943|184684572|OTHER|within group change|Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.07|0.63|||||Difference between score at 8 weeks and score at baseline.|||0.63|0.07|
92392531|NCT01116401|184684584|SUPERIORITY_OR_OTHER|||||||0.007|||||||Regression, Linear|||||||0.007
92420520|NCT01227564|184730225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002||||0.9538|TWO_SIDED|95.0|-0.075|0.071||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 52.||0.071|-0.075|0.9538
92420521|NCT01227564|184730225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006||||0.8787|TWO_SIDED|95.0|-0.07|0.081||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 10 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 52.||0.081|-0.070|0.8787
92446387|NCT03548584|184779823|SUPERIORITY||LS Mean Difference|-2.32||||0.1065|TWO_SIDED|95.0|-5.15|0.5||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 6||0.50|-5.15|0.1065
92446388|NCT03548584|184779823|SUPERIORITY||LS Mean Difference|-5.08||||0.0011|TWO_SIDED|95.0|-8.12|-2.05||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 8||-2.05|-8.12|0.0011
92170099|NCT02376790|184229108|SUPERIORITY||LS Mean Treatment Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.67|TWO_SIDED|95.0|-0.12|0.08||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||0.08|-0.12|0.67
92392532|NCT01116401|184684585|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Regression, Linear|||||||<0.01
92392533|NCT00754377|184684589|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||0.02
92392534|NCT00754377|184684590|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
92392535|NCT04057807|184684605|SUPERIORITY|||||||0.14|||||||unpaired t-tests (continuous variables)|||||||0.14
92392536|NCT04057807|184684606|SUPERIORITY|||||||0.82|||||||univariate linear regression analysis|two-tailed P value was obtained from a univariate linear regression analysis||||||0.82
92392537|NCT03985761|184684612|SUPERIORITY|||||||0.182|||||||ANOVA|||||||.182
92392538|NCT03985761|184684613|SUPERIORITY|||||||0.296|||||||ANOVA|||||||.296
92392539|NCT03985761|184684614|SUPERIORITY|||||||0.483|||||||ANOVA|||||||.483
92392540|NCT03985761|184684615|SUPERIORITY|||||||0.995|||||||ANOVA|||||||.995
92392541|NCT03985761|184684616|SUPERIORITY|||||||0.22|||||||ANOVA|||||||.220
92392542|NCT03985761|184684617|SUPERIORITY|||||||0.538|||||||ANOVA|||||||.538
92392543|NCT03985761|184684620|SUPERIORITY|||||||0.121|||||||ANOVA|||||||.121
92392544|NCT03609177|184684737|SUPERIORITY||Risk Difference (RD)|6.8|||<|0.05|TWO_SIDED|95.0|2.8|10.8|||binomial regression with identity link|||||10.8|2.8|<0.05
92392545|NCT03609177|184684738|SUPERIORITY||Risk Difference (RD)|-0.1|||<|0.05|TWO_SIDED|95.0|-0.7|0.6|||binomial regression with identity link|||||0.6|-0.7|<0.05
92392546|NCT03609177|184684739|SUPERIORITY||Risk Difference (RD)|0.7|||<|0.05|TWO_SIDED|95.0|-0.5|1.9|||binomial regression with identity link|||||1.90|-0.5|<0.05
92392547|NCT03609177|184684740|SUPERIORITY||Risk Difference (RD)|0.3|||<|0.05|TWO_SIDED|95.0|-0.4|1.0|||binomial regression with identity link|||||1.0|-0.4|<0.05
92392548|NCT03246789|184684744|SUPERIORITY||Mean Difference (Final Values)|2.15||||0.31|TWO_SIDED|95.0|-2.09|6.39|||t-test, 2 sided|||Week 12||6.39|-2.09|0.31
92278940|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.9||||0.004|TWO_SIDED|95.0|0.29|1.51|||ANCOVA|||WSTD 0-2 hours||1.51|0.29|0.004
92392549|NCT03246789|184684745|SUPERIORITY||Mean Difference (Final Values)|-1.47||||0.28|TWO_SIDED|95.0|-4.22|1.28|||t-test, 2 sided|||Domain #1, Week 12||1.28|-4.22|0.28
92392550|NCT03246789|184684745|SUPERIORITY||Mean Difference (Final Values)|-0.87||||0.5|TWO_SIDED|95.0|-3.48|1.74|||t-test, 2 sided|||Domain #2, Week 12||1.74|-3.48|0.50
92392551|NCT03246789|184684745|SUPERIORITY||Mean Difference (Final Values)|-1.58||||0.02|TWO_SIDED|95.0|-2.88|-0.28|||t-test, 2 sided|||Domain #3, Week 12||-0.28|-2.88|0.02
92392552|NCT03246789|184684745|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.98|TWO_SIDED|95.0|-3.63|3.53|||t-test, 2 sided|||Domain 4, Week 12||3.53|-3.63|0.98
92392553|NCT03246789|184684746|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.92|TWO_SIDED|95.0|-0.64|0.58|||t-test, 2 sided|||Domain #1, Week 12||0.58|-0.64|0.92
92392554|NCT03246789|184684746|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.48|TWO_SIDED|95.0|-0.69|0.33|||t-test, 2 sided|||Domain #2, Week 12||0.33|-0.69|0.48
92392555|NCT03246789|184684746|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.48|TWO_SIDED|95.0|-0.33|0.69|||t-test, 2 sided|||||0.69|-0.33|0.48
92392556|NCT00101686|184684757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.433||||0.0152||95.0|1.09|1.89||p-value corresponds to the log-rank test for comparing Kaplan-Meier survival curves.|Log Rank||Hazard ratio \[mIRI:FOLFIRI\] is from the Cox Proportional Hazard Model using treatment (FOLFIRI, mIRI, CapeIRI), age (\<=70 vs \>70), performance status (0 vs 1), aspirin (Yes vs No), celecoxib (Yes or No) as the covariates.|||1.89|1.09|0.0152
92392557|NCT00101686|184684758|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.512||||0.0042||95.0|1.16|1.97|||Log Rank|||||1.97|1.16|0.0042
92392558|NCT00101686|184684758|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.368||||0.0156||95.0|1.04|1.8|||Log Rank|||||1.80|1.04|0.0156
92392559|NCT00101686|184684758|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.057||||0.4659||95.0|0.81|1.38|||Log Rank|||||1.38|0.81|0.4659
92392560|NCT00101686|184684759|SUPERIORITY_OR_OTHER||F-distribution method|47.2||||||95.0|38.85|55.71|||||Exact confidence interval for binomial proportion using the F-distribution method (unit: %)|||55.71|38.85|
92392561|NCT00101686|184684759|SUPERIORITY_OR_OTHER||F-distribution method|43.3||||||95.0|34.95|51.86|||||Exact confidence interval for binomial proportion using the F-distribution method (unit: %)|||51.86|34.95|
92392562|NCT00101686|184684759|SUPERIORITY_OR_OTHER||F-distribution method|38.6||||||95.0|30.66|47.06|||||Exact confidence interval for binomial proportion using the F-distribution method (unit: %)|||47.06|30.66|
92392563|NCT00101686|184684759|SUPERIORITY_OR_OTHER|||||||0.4751|||||||Cochran-Mantel-Haenszel|||||||0.4751
92392564|NCT00101686|184684759|SUPERIORITY_OR_OTHER|||||||0.1591|||||||Cochran-Mantel-Haenszel|||||||0.1591
92392565|NCT00101686|184684759|SUPERIORITY_OR_OTHER|||||||0.4395|||||||Cochran-Mantel-Haenszel|||||||0.4395
92392566|NCT00101686|184684760|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.268||||0.0879||95.0|0.96|1.68|||Log Rank|||||1.68|0.96|0.0879
92392567|NCT00101686|184684760|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.2765||95.0|0.9|1.58|||Log Rank|||||1.58|0.90|0.2765
92392568|NCT00101686|184684760|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.049||||0.9364||95.0|0.8|1.38|||Log Rank|||||1.38|0.80|0.9364
92392569|NCT00101686|184684762|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.068||||0.7163||95.0|0.86|1.33|||Log Rank|||||1.33|0.86|0.7163
92392570|NCT00101686|184684763|SUPERIORITY_OR_OTHER||F-distribution method|39.4||||||95.0|32.83|46.34|||||confidence interval for binomial proportion using the F-distribution method (unit: %)|||46.34|32.83|
92392571|NCT00101686|184684763|SUPERIORITY_OR_OTHER||F-distribution method|46.5||||||95.0|39.76|53.42|||||confidence interval for binomial proportion using the F-distribution method (unit: %)|||53.42|39.76|
92392572|NCT00101686|184684763|SUPERIORITY_OR_OTHER|||||||0.1559|||||||Cochran-Mantel-Haenszel|||||||0.1559
92392573|NCT00101686|184684764|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.5316||95.0|0.86|1.36|||Log Rank|||||1.36|0.86|0.5316
92392574|NCT00101686|184684765|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.269||||0.2835||95.0|0.75|2.15|||Log Rank|||||2.15|0.75|0.2835
92392575|NCT00101686|184684766|SUPERIORITY_OR_OTHER||F-distribution method|57.9||||||95.0|44.08|70.86|||||Exact confidence interval for binomial proportion using the F-distribution method (unit: %)|||70.86|44.08|
92392576|NCT00101686|184684766|SUPERIORITY_OR_OTHER||F-distribution method|53.3||||||95.0|40.0|66.33|||||Exact confidence interval for binomial proportion using the F-distribution method (unit: %)|||66.33|40.00|
92392577|NCT00101686|184684766|SUPERIORITY_OR_OTHER|||||||0.7388|||||||Cochran-Mantel-Haenszel|||||||0.7388
92392578|NCT00101686|184684768|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.794||||0.037||95.0|1.12|2.88|||Log Rank|||||2.88|1.12|0.0370
92392579|NCT01292187|184684780|SUPERIORITY_OR_OTHER|||||||0.0265|||||||Mixed Models Analysis|||||||0.0265
92392580|NCT01292187|184684781|SUPERIORITY_OR_OTHER|||||||0.034|||||||Mixed Models Analysis|||||||0.0340
92392581|NCT00721396|184684790|NON_INFERIORITY_OR_EQUIVALENCE|Immune response of Group B+R246 was considered non-inferior to response of Group B246\_R357, if at one month after the third rMenB+OMV NZ injection the 2-sided 95% lower confidence interval of the difference in the percentage of subjects with hSBA titer ≥1:5 was greater than -10% for each of the 3 strains.|Difference % (B+R246 minus B246_R357)|0.0|||||TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against 44/76-SL strain when rMenB+OMV NZ vaccine was administered concomitantly with routine infant vaccines as compared to when rMenB+OMV NZ vaccine and routine vaccines were given separately.||1|-1|
92392582|NCT00721396|184684790|NON_INFERIORITY_OR_EQUIVALENCE|Immune response of Group B+R246 was considered non-inferior to response of Group B246\_R357, if at one month after the third rMenB+OMV NZ injection the 2-sided 95% lower confidence limit of the difference in the percentage of subjects with hSBA titer ≥5 was greater than -10% for each of the 3 strains.|Difference %(B+R246 minus B246_R357)|0.0|||||TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against 5/99 strain when rMenB+OMV NZ vaccine was administered concomitantly with routine infant vaccines as compared to when rMenB+OMV NZ vaccine and routine vaccines were given separately.||1|-1|
92170100|NCT02376790|184229109|SUPERIORITY||LS Mean Treatment Difference|1.94|STANDARD_ERROR_OF_MEAN|0.8||0.015|TWO_SIDED|95.0|0.37|3.51||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in Physical Component Summary at week 24||3.51|0.37|0.015
92392583|NCT00721396|184684790|NON_INFERIORITY_OR_EQUIVALENCE|Immune response of Group B+R246 was considered non-inferior to response of Group B246\_R357, if at one month after the third rMenB+OMV NZ injection the 2-sided 95% lower confidence limit of the difference in the percentage of subjects with hSBA titer ≥5 was greater than -10% for each of the 3 strains.|Difference % (B+R246 minus B246_R357)|-8.0|||||TWO_SIDED|95.0|-12.0|-4.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against NZ98/254 strain when rMenB+OMV NZ vaccine was administered concomitantly with routine infant vaccines as compared to when rMenB+OMV NZ vaccine and routine vaccines were given separately.||-4|-12|
92392584|NCT00721396|184684791|NON_INFERIORITY_OR_EQUIVALENCE|Immune response of Group B+R234 was considered non-inferior to response of Group R234, if at one month after the third injection the 2-sided 95% lower confidence limit for the difference in the percentage of subjects with antibody response greater than the pre-specified cut off of for diphtheria (≥0.1 IU/mL) was \>-10%.|Difference %(B+R234 minus R234)|0.0|||||TWO_SIDED|95.0|-1.0|2.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against Diphtheria antigen when routine vaccine was administered concomitantly with rMenB+OMV NZ vaccine to when only routine vaccines were administered.||2|-1|
92392585|NCT00721396|184684791|NON_INFERIORITY_OR_EQUIVALENCE|Immune response of Group B+R234 was considered non-inferior to response of Group R234, if at one month after the third injection the 2-sided 95% lower confidence limit for the difference in the percentage of subjects with antibody response greater than the pre-specified cut off of for tetanus toxoid (≥0.1 IU/mL) was \>-10%.|Difference %(B+R234 minus R234)|0.0|||||TWO_SIDED|95.0|-1.0|2.0|||Miettinen and Nurminen|||Non-inferiority of immune response to Tetanus antigens when routine vaccines are administered concomitantly with rMen+OMV NZ vaccine.||2|-1|
92392586|NCT00721396|184684796|NON_INFERIORITY_OR_EQUIVALENCE|Group B+R234 was to be considered non-inferior to Group R234 if the 2-sided 95% lower confidence limit of this difference at 30 days after the last injection was greater than -10% for each of the antigens of the routine vaccinations.|Difference %(B+R234 minus R234)|-1.0|||||TWO_SIDED|95.0|-5.0|4.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against Pertussis antigen FHA when routine vaccine was administered concomitantly with rMenB+OMV NZ vaccine to when only routine vaccines were administered.||4|-5|
92392587|NCT00721396|184684796|NON_INFERIORITY_OR_EQUIVALENCE|Group B+R234 was to be considered non-inferior to Group R234 if the 2-sided 95% lower confidence limit of this difference at 30 days after the last injection was greater than -10% for each of the antigens of the routine vaccinations.|Difference %(B+R234 minus R234)|-2.0|||||TWO_SIDED|95.0|-7.0|2.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against Pertussis antigen pertactin antigen when routine vaccine was administered concomitantly with rMenB+OMV NZ vaccine to when only routine vaccines were administered.||2|-7|
92170101|NCT02376790|184229109|SUPERIORITY||LS Mean Treatment Difference|1.71|STANDARD_ERROR_OF_MEAN|0.8||0.033|TWO_SIDED|95.0|0.13|3.28||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in Physical Component Summary at week 24||3.28|0.13|0.033
92392588|NCT00721396|184684796|NON_INFERIORITY_OR_EQUIVALENCE|Group B+R234 was to be considered non-inferior to Group R234 if the 2-sided 95% lower confidence limit of this difference at 30 days after the last injection was greater than -10% for each of the antigens of the routine vaccinations.|Difference %(B+R234 minus R234)|-1.0|||||TWO_SIDED|95.0|-4.0|2.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against Pertussis antigen PT when routine vaccine was administered concomitantly with rMenB+OMV NZ vaccine to when only routine vaccines were administered.||2|-4|
92392589|NCT01126723|184684809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15||||||The a priori threshold for statistical significance was set to 0.05.|Fisher Exact|||||||0.15
92392590|NCT00430716|184684810|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|24.15||||0.011|ONE_SIDED|97.5|3.37||||ANOVA|||An analysis of variance (ANOVA) model followed by the Williams trend test (one-sided, at the 2.5% level of significance) was used. The Williams trend test firstly determined if there was a significant downward trend in response for the descending doses, and then subsequently determined the highest dose that was statistically inferior to 20 mg (known to be an effective dose of sildenafil). A corresponding 97.5% lower confidence limit for the difference was presented.|||3.37|0.011
92392591|NCT00430716|184684810|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.17||||0.545|ONE_SIDED|97.5|-21.48||||ANOVA|||ANOVA model followed by the Williams trend test (one-sided, at the 2.5% level of significance) was used. The Williams trend test firstly determined if there was a significant downward trend in response for the descending doses, and then subsequently determined the highest dose that was statistically inferior to 20 mg (known to be an effective dose of sildenafil). A corresponding 97.5% lower confidence limit for the difference was presented.|||-21.48|0.545
92392592|NCT00430716|184684811|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.51||||0.278|TWO_SIDED|95.0|-7.07|2.05|||ANCOVA|||The analysis of change from baseline in week 12 mean PAP used Analysis of Covariance (ANCOVA), with etiology and baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (1 mg) was presented along with the p-value for the test.||2.05|-7.07|0.278
92392593|NCT00430716|184684811|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.44||||0.846|TWO_SIDED|95.0|-4.98|4.09|||ANCOVA|||The analysis of change from baseline in week 12 mean PAP used ANCOVA, with etiology and baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (5 mg) was presented along with the p-value for the test.||4.09|-4.98|0.846
92392594|NCT00430716|184684813|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.448|TWO_SIDED|95.0|0.5|4.78|||Regression, Logistic|||The analysis of the week 12 PAH functional class was done with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates.The odds ratio and corresponding two-sided 95% CI for the odds ratio for the treatment comparisons was presented along with the p-value for the tests.||4.78|0.50|0.448
92392595|NCT00430716|184684813|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.08||||0.897|TWO_SIDED|95.0|0.35|3.32|||Regression, Logistic|||The analysis of the week 12 PAH functional class was done with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates.The odds ratio and corresponding two-sided 95% CI for the odds ratio for the treatment comparisons was presented along with the p-value for the tests.||3.32|0.35|0.897
92392596|NCT00430716|184684814|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-104.8||||0.005|TWO_SIDED|95.0|-177.44|-32.16|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (1 mg) was presented along with the p-value for the test.||-32.16|-177.44|0.005
92392597|NCT00430716|184684814|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-25.0||||0.496|TWO_SIDED|95.0|-97.5|47.5|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (5 mg) was presented along with the p-value for the test.||47.50|-97.50|0.496
92420522|NCT01227564|184730225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.002||||0.9544|TWO_SIDED|95.0|-0.062|0.066||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg or ACC 10 µg + QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 52.||0.066|-0.062|0.9544
92446389|NCT03548584|184779823|SUPERIORITY||LS Mean Difference|-6.47|||<|0.0001|TWO_SIDED|95.0|-9.54|-3.4||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 10||-3.40|-9.54|<.0001
92392598|NCT00430716|184684815|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-462.12||||0.009|TWO_SIDED|95.0|-807.53|-116.71|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (1 mg) was presented along with the p-value for the test.||-116.71|-807.53|0.009
92392599|NCT00430716|184684815|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|-141.45||||0.414|TWO_SIDED|95.0|-483.48|200.58|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (5 mg) was presented along with the p-value for the test.||200.58|-483.48|0.414
92446390|NCT03548584|184779823|SUPERIORITY||LS Mean Difference|-5.32||||0.0026|TWO_SIDED|95.0|-8.77|-1.87||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 12||-1.87|-8.77|0.0026
92392600|NCT00430716|184684816|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.01||||0.89|TWO_SIDED|95.0|-0.17|0.15|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (1 mg) was presented along with the p-value for the test.||0.15|-0.17|0.890
92420523|NCT01227564|184730225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003||||0.955|TWO_SIDED|95.0|-0.106|0.112||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 78.||0.112|-0.106|0.9550
92420524|NCT01227564|184730225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008||||0.8874|TWO_SIDED|95.0|-0.121|0.105||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 10 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 78.||0.105|-0.121|0.8874
92420525|NCT01227564|184730225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002||||0.9595|TWO_SIDED|95.0|-0.099|0.095||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg or ACC 10 µg + QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 78.||0.095|-0.099|0.9595
92420526|NCT01227564|184730225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.3826|TWO_SIDED|95.0|-0.164|0.064||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 104.||0.064|-0.164|0.3826
92446391|NCT03548584|184779824|SUPERIORITY||LS Mean Difference|0.05||||0.3048|TWO_SIDED|95.0|-0.05|0.16||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 2||0.16|-0.05|0.3048
92446392|NCT03548584|184779824|SUPERIORITY||LS Mean Difference|-0.03||||0.7058|TWO_SIDED|95.0|-0.17|0.12||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 4||0.12|-0.17|0.7058
92392601|NCT00430716|184684816|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.13||||0.124|TWO_SIDED|95.0|-0.29|0.04|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (5 mg) was presented along with the p-value for the test.||0.04|-0.29|0.124
92446393|NCT03548584|184779824|SUPERIORITY||LS Mean Difference|-0.06||||0.4516|TWO_SIDED|95.0|-0.23|0.1||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 6||0.10|-0.23|0.4516
92392602|NCT00430716|184684817|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|0.0||||0.382|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Van-Elteren)|||A stratified Wilcoxon test (Van-Elteren) was used. The stratified median difference and corresponding two-sided 95% CI (calculated using the Hodges-Lehmann estimator) was presented along with the p-value for the test.||0.00|-1.00|0.382
92446394|NCT03548584|184779824|SUPERIORITY||LS Mean Difference|-0.27||||0.0052|TWO_SIDED|95.0|-0.46|-0.08||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 8||-0.08|-0.46|0.0052
92446395|NCT03548584|184779824|SUPERIORITY||LS Mean Difference|-0.27||||0.006|TWO_SIDED|95.0|-0.47|-0.08||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 10||-0.08|-0.47|0.0060
92446396|NCT03548584|184779824|SUPERIORITY||LS Mean Difference|-0.27||||0.0078|TWO_SIDED|95.0|-0.47|-0.07||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 12||-0.07|-0.47|0.0078
92446397|NCT03548584|184779825|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.1975|TWO_SIDED|95.0|-0.05|0.26|||Cochran-Mantel-Haenszel|||Week 2||0.26|-0.05|0.1975
92446398|NCT03548584|184779825|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.0084|TWO_SIDED|95.0|-0.44|-0.06|||Cochran-Mantel-Haenszel|||Week 4||-0.06|-0.44|0.0084
92446399|NCT03548584|184779825|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.0101|TWO_SIDED|95.0|-0.46|-0.06|||Cochran-Mantel-Haenszel|||Week 6||-0.06|-0.46|0.0101
92392603|NCT00430716|184684817|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.141|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Van-Elteren)|||A stratified Wilcoxon test (Van-Elteren) was used. The stratified median difference and corresponding two-sided 95% CI (calculated using the Hodges-Lehmann estimator) was presented along with the p-value for the test.||1.00|0.00|0.141
92278941|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.39||||0.078|TWO_SIDED|95.0|-0.04|0.82|||ANCOVA|||WSTD 0-2 hours||0.82|-0.04|0.078
92392604|NCT00064792|184684852|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||The primary outcome variable will be the serum cholesterol/total sterol ratio.||||0.002
92392605|NCT00064792|184684853|SUPERIORITY_OR_OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.22
92392606|NCT04177212|184684871|OTHER||||||<|0.0001||||||P-value for testing null-hypothesis that response of Pooled Group was less or equal to 50 percent (%).|One-sided binomial test|||Between Groups calculation were not done because comparing Groups A and B was not part of the objective of this investigation.||||< 0.0001
92392607|NCT04177212|184684872|OTHER|||||||0.0003||||||P-value for testing null-hypothesis that response of Pooled Group was less or equal to 50%.|One-sided binomial test|||Between Groups calculation were not done because comparing Groups A and B was not part of the objective of this investigation.||||0.0003
92392608|NCT02831764|184684886|NON_INFERIORITY|Treatment with DTG+ 3TC was to be declared non-inferior to treatment with DTG+TDF/FTC if the lower end of a two-sided 95% confidence interval for the difference between the two groups in response rates at Week 48 was greater than -10%.|Adjusted difference in proportion|-0.7|||||TWO_SIDED|95.0|-4.3|2.9|||||Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 copies per milliliter) and CD4+ cell count (\<= vs. \>200 cells per cubic millimeter \[cells/mm\^3\]).|||2.9|-4.3|
92392609|NCT02831764|184684887|NON_INFERIORITY|Treatment with DTG+ 3TC was to be declared non-inferior to treatment with DTG+TDF/FTC if the lower end of a two-sided 95% confidence interval for the difference between the two groups in response rates at Week 24 was greater than -10%.|Adjusted difference in proportion|0.1|||||TWO_SIDED|95.0|-3.4|3.6|||||Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells/mm\^3).|||3.6|-3.4|
92392610|NCT02831764|184684888|OTHER||Adjusted difference in proportion|-1.8|||||TWO_SIDED|95.0|-6.4|2.7|||||Week 96. Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells/mm\^3).|||2.7|-6.4|
92392611|NCT02831764|184684889|OTHER||Adjusted difference in proportion|0.0|||||TWO_SIDED|95.0|-5.3|5.3|||||Week 144. Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells/mm\^3).|||5.3|-5.3|
92392612|NCT02831764|184684890|OTHER||Hazard Ratio (HR)|1.02||||0.797|TWO_SIDED|95.0|0.88|1.19||The generalised Wilcoxon procedure was used to estimate a p-value for detecting a difference in cumulative incidence curves between treatment groups.|Generalised Wilcoxon procedure||Hazard ratios were estimated using the Cox proportional hazard regression model.|||1.19|0.88|0.797
92392613|NCT02831764|184684894|OTHER||Mean Difference (Net)|25.6||||0.043|TWO_SIDED|95.0|0.8|50.4|||Mixed Model Repeated Measures (MMRM)||Week 24. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||50.4|0.8|0.043
92392614|NCT02831764|184684894|OTHER||Mean Difference (Net)|8.5||||0.523|TWO_SIDED|95.0|-17.7|34.8|||MMRM||Week 48. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||34.8|-17.7|0.523
92392615|NCT02831764|184684895|OTHER||Mean Difference (Net)|7.4||||0.635|TWO_SIDED|95.0|-23.2|38.0|||Mixed Model Repeated Measures (MMRM)||Week 96. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||38.0|-23.2|0.635
92392616|NCT02831764|184684896|OTHER||Mean Difference (Net)|5.1||||0.777|TWO_SIDED|95.0|-29.9|40.0|||MMRM||Week 144.Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||40.0|-29.9|0.777
92392617|NCT02831764|184684907|OTHER||Mean Difference (Net)|-0.03|||<|0.001|TWO_SIDED|95.0|-0.05|-0.02|||MMRM||Week 24. Serum Cystatin C.|||-0.02|-0.05|<0.001
92392618|NCT02831764|184684907|OTHER||Mean Difference (Net)|-0.02||||0.022|TWO_SIDED|95.0|-0.03|0.0|||MMRM||Week 48. Serum Cystatin C.|||0.00|-0.03|0.022
92392619|NCT02831764|184684907|OTHER||Mean Difference (Net)|-0.2||||0.797|TWO_SIDED|95.0|-1.4|1.1|||MMRM||Week 24. Serum RBP|||1.1|-1.4|0.797
92392620|NCT02831764|184684907|OTHER||Mean Difference (Net)|0.7||||0.258|TWO_SIDED|95.0|-0.5|1.9|||MMRM||Week 48. Serum RBP|||1.9|-0.5|0.258
92392621|NCT02831764|184684908|OTHER||Mean Difference (Net)|-0.02||||0.034|TWO_SIDED|95.0|-0.03|0.0|||MMRM||Week 96. Serum Cystatin C.|||0.00|-0.03|0.034
92392622|NCT02831764|184684909|OTHER||Mean Difference (Net)|-0.02||||0.006|TWO_SIDED|95.0|-0.04|-0.01|||MMRM||Week 144. Serum Cystatin C.|||-0.01|-0.04|0.006
92392623|NCT02831764|184684912|OTHER||Mean Difference (Net)|3.6|||<|0.001|TWO_SIDED|95.0|1.8|5.4|||MMRM||Week 24. GFR Cystatin C adjusted.|||5.4|1.8|<0.001
92420527|NCT01227564|184730225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.049||||0.3912|TWO_SIDED|95.0|-0.164|0.065||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 10 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 104.||0.065|-0.164|0.3912
92420528|NCT01227564|184730225|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.05||||0.3221|TWO_SIDED|95.0|-0.149|0.05||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg or ACC 10 µg + QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 104.||0.050|-0.149|0.3221
92446400|NCT03548584|184779825|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.0008|TWO_SIDED|95.0|-0.59|-0.15|||Cochran-Mantel-Haenszel|||Week 8||-0.15|-0.59|0.0008
92392624|NCT02831764|184684912|OTHER||Mean Difference (Net)|1.7||||0.056|TWO_SIDED|95.0|0.0|3.5|||MMRM||Week 48. GFR Cystatin C adjusted.|||3.5|0.0|0.056
92392625|NCT02831764|184684912|OTHER||Mean Difference (Net)|3.4|||<|0.001|TWO_SIDED|95.0|1.7|5.2|||MMRM||Week 24. GFR creatinine adjusted.|||5.2|1.7|<0.001
92392626|NCT02831764|184684912|OTHER||Mean Difference (Net)|3.3|||<|0.001|TWO_SIDED|95.0|1.6|5.0|||MMRM||Week 48. GFR creatinine adjusted.|||5.0|1.6|<0.001
92392627|NCT02831764|184684915|OTHER||Mean Difference (Net)|-3.02|||<|0.001|TWO_SIDED|95.0|-4.49|-1.55|||MMRM||Week 24. Serum or Plasma Creatinine|||-1.55|-4.49|<0.001
92446401|NCT03548584|184779825|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.0023|TWO_SIDED|95.0|-0.55|-0.12|||Cochran-Mantel-Haenszel|||Week 10||-0.12|-0.55|0.0023
92392628|NCT02831764|184684915|OTHER||Mean Difference (Net)|-3.12|||<|0.001|TWO_SIDED|95.0|-4.59|-1.65|||MMRM||Week 48. Serum or Plasma creatinine|||-1.65|-4.59|<0.001
92392629|NCT02831764|184684916|OTHER||Mean Difference (Net)|-3.04|||<|0.001|TWO_SIDED|95.0|-4.56|-1.53|||MMRM||Week 96. Serum or Plasma creatinine|||-1.53|-4.56|<0.001
92392630|NCT02831764|184684917|OTHER||Mean Difference (Net)|-2.86|||<|0.001|TWO_SIDED|95.0|-4.52|-1.19|||MMRM||Week 144. Serum or Plasma creatinine|||-1.19|-4.52|<0.001
92392631|NCT02831764|184684918|OTHER||Ratio of geometric means|0.917|||<|0.001|TWO_SIDED|95.0|0.893|0.941|||MMRM||Week 24. Serum B2M.|||0.941|0.893|<0.001
92392632|NCT02831764|184684918|OTHER||Ratio of geometric means|0.914|||<|0.001|TWO_SIDED|95.0|0.89|0.939|||MMRM||Week 48. Serum B2M.|||0.939|0.890|<0.001
92392633|NCT02831764|184684918|OTHER||Ratio of geometric means|0.748||||0.002|TWO_SIDED|95.0|0.621|0.901|||MMRM||Week 24. Urine B2M.|||0.901|0.621|0.002
92392634|NCT02831764|184684918|OTHER||Ratio of geometric means|0.693||||0.005|TWO_SIDED|95.0|0.538|0.892|||MMRM||Week 48. Urine B2M.|||0.892|0.538|0.005
92392635|NCT02831764|184684918|OTHER||Ratio of geometric means|0.889||||0.036|TWO_SIDED|95.0|0.796|0.992|||MMRM||Week 24. Urine Albumin/Creatinine.|||0.992|0.796|0.036
92392636|NCT02831764|184684918|OTHER||Ratio of geometric means|0.938||||0.308|TWO_SIDED|95.0|0.83|1.061|||MMRM||Week 48. Urine Albumin/Creatinine.|||1.061|0.830|0.308
92392637|NCT02831764|184684918|OTHER||Ratio of geometric means|0.781||||0.007|TWO_SIDED|95.0|0.654|0.934|||MMRM||Week 24. Urine B2M/Urine Creatinine.|||0.934|0.654|0.007
92392638|NCT02831764|184684918|OTHER||Ratio of geometric means|0.742||||0.012|TWO_SIDED|95.0|0.588|0.935|||MMRM||Week 48. Urine B2M/Urine Creatinine.|||0.935|0.588|0.012
92392639|NCT02831764|184684918|OTHER||Ratio of geometric means|0.979||||0.728|TWO_SIDED|95.0|0.868|1.104|||MMRM||Week 24. Urine Phosphate.|||1.104|0.868|0.728
92392640|NCT02831764|184684918|OTHER||Ratio of geometric means|1.062||||0.311|TWO_SIDED|95.0|0.945|1.194|||MMRM||Week 48. Urine Phosphate.|||1.194|0.945|0.311
92392641|NCT02831764|184684918|OTHER||Ratio of geometric means|0.826|||<|0.001|TWO_SIDED|95.0|0.769|0.887|||MMRM||Week 24. Urine Protein/Creatinine.|||0.887|0.769|<0.001
92392642|NCT02831764|184684918|OTHER||Ratio of geometric means|0.86|||<|0.001|TWO_SIDED|95.0|0.795|0.93|||MMRM||Week 48. Urine Protein/Creatinine.|||0.930|0.795|<0.001
92392643|NCT02831764|184684918|OTHER||Ratio of geometric means|0.796||||0.003|TWO_SIDED|95.0|0.683|0.927|||MMRM||Week 24. Urine RBP 4|||0.927|0.683|0.003
92392644|NCT02831764|184684918|OTHER||Ratio of geometric means|0.903||||0.2|TWO_SIDED|95.0|0.773|1.056|||MMRM||Week 48. Urine RBP 4|||1.056|0.773|0.200
92392645|NCT02831764|184684918|OTHER||Ratio of geometric means|0.826||||0.003|TWO_SIDED|95.0|0.728|0.936|||MMRM||Week 24. Urine RBP 4/Urine Creatinine|||0.936|0.728|0.003
92392646|NCT02831764|184684918|OTHER||Ratio of geometric means|0.888||||0.052|TWO_SIDED|95.0|0.787|1.001|||MMRM||Week 48. Urine RBP 4/Urine Creatinine|||1.001|0.787|0.052
92392647|NCT02831764|184684919|OTHER||Ratio of geometric means|0.942||||0.338|TWO_SIDED|95.0|0.833|1.065|||MMRM||Week 96. Urine Albumin/Creatinine.|||1.065|0.833|0.338
92392648|NCT02831764|184684919|OTHER||Ratio of geometric means|0.671|||<|0.001|TWO_SIDED|95.0|0.545|0.826|||MMRM||Week 96. Urine B2M/Urine Creatinine.|||0.826|0.545|<0.001
92392649|NCT02831764|184684919|OTHER||Ratio of geometric means|1.082||||0.174|TWO_SIDED|95.0|0.966|1.213|||MMRM||Week 96. Urine Phosphate.|||1.213|0.966|0.174
92392650|NCT02831764|184684919|OTHER||Ratio of geometric means|0.873|||<|0.001|TWO_SIDED|95.0|0.806|0.946|||MMRM||Week 96. Urine Protein/Creatinine.|||0.946|0.806|<0.001
92446402|NCT03548584|184779825|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.007|TWO_SIDED|95.0|-0.57|-0.09|||Cochran-Mantel-Haenszel|||Week 12||-0.09|-0.57|0.0070
92446403|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.1||||0.729|TWO_SIDED|95.0|0.64|1.91|||Cochran-Mantel-Haenszel|||\>/= 20%: Week 2||1.91|0.64|0.7290
92446404|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.09||||0.6196|TWO_SIDED|95.0|0.78|1.52|||Cochran-Mantel-Haenszel|||\>/=20%: Week 4||1.52|0.78|0.6196
92420529|NCT01227564|184730226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.18||||0.9384|TWO_SIDED|95.0|-1197.07|1293.42||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||Analysis of Covariance (ANCOVA) was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||1293.42|-1197.07|0.9384
92420530|NCT01227564|184730226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|581.98||||0.3945|TWO_SIDED|95.0|-778.17|1942.13||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||1942.13|-778.17|0.3945
92420531|NCT01227564|184730226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|315.08||||0.5773|TWO_SIDED|95.0|-812.15|1442.3||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||1442.30|-812.15|0.5773
92420532|NCT01227564|184730227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.16||||0.5818|TWO_SIDED|95.0|-63.31|111.62||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||111.62|-63.31|0.5818
92420533|NCT01227564|184730227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|84.42||||0.0648|TWO_SIDED|95.0|-5.37|174.21||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||174.21|-5.37|0.0648
92420534|NCT01227564|184730227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|54.29||||0.1672|TWO_SIDED|95.0|-23.47|132.05||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||132.05|-23.47|0.1672
92420535|NCT01227564|184730228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.36||||0.3106|TWO_SIDED|95.0|-9.94|3.22||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||3.22|-9.94|0.3106
92420536|NCT01227564|184730228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.51||||0.1876|TWO_SIDED|95.0|-11.28|2.27||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||2.27|-11.28|0.1876
92420537|NCT01227564|184730228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.93||||0.1742|TWO_SIDED|95.0|-9.66|1.79||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||1.79|-9.66|0.1742
92420538|NCT01227564|184730229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.36||||0.4089|TWO_SIDED|95.0|-103.52|42.81||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||42.81|-103.52|0.4089
92420539|NCT01227564|184730229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.4||||0.0327|TWO_SIDED|95.0|-159.69|-7.11||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||-7.11|-159.69|0.0327
92420540|NCT01227564|184730229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-56.88||||0.0801|TWO_SIDED|95.0|-120.82|7.06||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||7.06|-120.82|0.0801
92420541|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.78||||0.4892|TWO_SIDED|95.0|-37.15|76.71||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 12.||76.71|-37.15|0.4892
92446405|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.16||||0.2718|TWO_SIDED|95.0|0.88|1.53|||Cochran-Mantel-Haenszel|||\>/=20%: Week 6||1.53|0.88|0.2718
92446406|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.52||||0.0004|TWO_SIDED|95.0|1.19|1.93|||Cochran-Mantel-Haenszel|||\>/=20%: Week 8||1.93|1.19|0.0004
92446407|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.42||||0.0006|TWO_SIDED|95.0|1.15|1.76|||Cochran-Mantel-Haenszel|||\>/=20%: Week 10||1.76|1.15|0.0006
92446408|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.41||||0.0004|TWO_SIDED|95.0|1.15|1.72|||Cochran-Mantel-Haenszel|||\>/=20%: Week 12||1.72|1.15|0.0004
92392651|NCT02831764|184684919|OTHER||Ratio of geometric means|0.8|||<|0.001|TWO_SIDED|95.0|0.716|0.894|||MMRM||Week 96. Urine RBP 4/Urine Creatinine|||0.894|0.716|<0.001
92392652|NCT02831764|184684920|OTHER||Ratio of geometric means|0.971||||0.658|TWO_SIDED|95.0|0.852|1.107|||MMRM||Week 144. Urine Albumin/Creatinine.|||1.107|0.852|0.658
92392653|NCT02831764|184684920|OTHER||Ratio of geometric means|0.584|||<|0.001|TWO_SIDED|95.0|0.483|0.706|||MMRM||Week 144. Urine B2M/Urine Creatinine.|||0.706|0.483|<0.001
92392654|NCT02831764|184684920|OTHER||Ratio of geometric means|1.0||||0.993|TWO_SIDED|95.0|0.892|1.12|||MMRM||Week 144. Urine Phosphate.|||1.120|0.892|0.993
92392655|NCT02831764|184684920|OTHER||Ratio of geometric means|0.847|||<|0.001|TWO_SIDED|95.0|0.785|0.913|||MMRM||Week 144. Urine Protein/Creatinine.|||0.913|0.785|<0.001
92420542|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.06||||0.0915|TWO_SIDED|95.0|-8.51|110.63||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 12.||110.63|-8.51|0.0915
92446409|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.22||||0.7211|TWO_SIDED|95.0|0.39|3.85|||Cochran-Mantel-Haenszel|||\>/=30%: Week 2||3.85|0.39|0.7211
92392656|NCT02831764|184684920|OTHER||Ratio of geometric means|0.739|||<|0.001|TWO_SIDED|95.0|0.667|0.819|||MMRM||Week 144. Urine RBP 4/Urine Creatinine|||0.819|0.667|<0.001
92392657|NCT02831764|184684921|OTHER||Mean Difference (Net)|-2.66|||<|0.001|TWO_SIDED|95.0|-3.25|-2.08|||MMRM||Week 24, Bone ALP|||-2.08|-3.25|<0.001
92392658|NCT02831764|184684921|OTHER||Mean Difference (Net)|-3.09|||<|0.001|TWO_SIDED|95.0|-3.75|-2.44|||MMRM||Week 48, Bone ALP|||-2.44|-3.75|<0.001
92392659|NCT02831764|184684921|OTHER||Mean Difference (Net)|-4.67|||<|0.001|TWO_SIDED|95.0|-5.63|-3.71|||MMRM||Week 28, Serum Osteocalcin|||-3.71|-5.63|<0.001
92392660|NCT02831764|184684921|OTHER||Mean Difference (Net)|-5.9|||<|0.001|TWO_SIDED|95.0|-6.89|-4.91|||MMRM||Week 48, Serum Osteocalcin|||-4.91|-6.89|<0.001
92392661|NCT02831764|184684921|OTHER||Mean Difference (Net)|-13.5|||<|0.001|TWO_SIDED|95.0|-16.4|-10.6|||MMRM||Week 24, Serum PINP|||-10.6|-16.4|<0.001
92392662|NCT02831764|184684921|OTHER||Mean Difference (Net)|-12.8|||<|0.001|TWO_SIDED|95.0|-15.4|-10.2|||MMRM||Week 48, Serum PINP|||-10.2|-15.4|<0.001
92392663|NCT02831764|184684921|OTHER||Mean Difference (Net)|-0.127|||<|0.001|TWO_SIDED|95.0|-0.164|-0.09|||MMRM||Week 24, CTX-1|||-0.0900|-0.1640|<0.001
92392664|NCT02831764|184684921|OTHER||Mean Difference (Net)|-0.2043|||<|0.001|TWO_SIDED|95.0|-0.2532|-0.1554|||MMRM||Week 48, CTX-1|||-0.1554|-0.2532|<0.001
92392665|NCT02831764|184684922|OTHER||Mean Difference (Net)|-2.13|||<|0.001|TWO_SIDED|95.0|-2.72|-1.54|||MMRM||Week 96, Bone ALP|||-1.54|-2.72|<0.001
92392666|NCT02831764|184684922|OTHER||Mean Difference (Net)|-3.77|||<|0.001|TWO_SIDED|95.0|-4.69|-2.85|||MMRM||Week 96, Serum Osteocalcin|||-2.85|-4.69|<0.001
92392667|NCT02831764|184684922|OTHER||Mean Difference (Net)|-12.6|||<|0.001|TWO_SIDED|95.0|-16.8|-8.3|||MMRM||Week 96, Serum PINP|||-8.3|-16.8|<0.001
92392668|NCT02831764|184684922|OTHER||Mean Difference (Net)|-0.1183|||<|0.001|TWO_SIDED|95.0|-0.1529|-0.0838|||MMRM||Week 96, CTX-1|||-0.0838|-0.1529|<0.001
92392669|NCT02831764|184684923|OTHER||Mean Difference (Net)|-2.13|||<|0.001|TWO_SIDED|95.0|-2.74|-1.53|||MMRM||Week 144, Bone ALP|||-1.53|-2.74|<0.001
92392670|NCT02831764|184684923|OTHER||Mean Difference (Net)|-3.89|||<|0.001|TWO_SIDED|95.0|-4.87|-2.91|||MMRM||Week 144, Serum Osteocalcin|||-2.91|-4.87|<0.001
92392671|NCT02831764|184684923|OTHER||Mean Difference (Net)|-9.5|||<|0.001|TWO_SIDED|95.0|-12.8|-6.2|||MMRM||Week 144, Serum PINP|||-6.2|-12.8|<0.001
92392672|NCT02831764|184684923|OTHER||Mean Difference (Net)|-0.1364|||<|0.001|TWO_SIDED|95.0|-0.1739|-0.0988|||MMRM||Week 144, CTX-1|||-0.0988|-0.1739|<0.001
92392673|NCT02831764|184684924|OTHER||Mean Difference (Net)|-4.2||||0.015|TWO_SIDED|95.0|-7.5|-0.8|||MMRM||Week 24|||-0.8|-7.5|0.015
92392674|NCT02831764|184684924|OTHER||Mean Difference (Net)|-0.1||||0.96|TWO_SIDED|95.0|-2.8|2.6|||MMRM||Week 48|||2.6|-2.8|0.960
92446410|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.11||||0.7606|TWO_SIDED|95.0|0.57|2.14|||Cochran-Mantel-Haenszel|||\>/=30%: Week 4||2.14|0.57|0.7606
92446411|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.12||||0.5902|TWO_SIDED|95.0|0.74|1.68|||Cochran-Mantel-Haenszel|||\>/=30%: Week 6||1.68|0.74|0.5902
92446412|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.7||||0.0054|TWO_SIDED|95.0|1.14|2.54|||Cochran-Mantel-Haenszel|||\>/=30%: Week 8||2.54|1.14|0.0054
92392675|NCT02831764|184684925|OTHER||Mean Difference (Net)|-3.0||||0.048|TWO_SIDED|95.0|-5.9|0.0|||MMRM||Week 96, Serum Vitamin D|||0.0|-5.9|0.048
92392676|NCT02831764|184684926|OTHER||Mean Difference (Net)|-0.2||||0.887|TWO_SIDED|95.0|-3.6|3.1|||MMRM||Week 144, Serum Vitamin D|||3.1|-3.6|0.887
92392677|NCT02831764|184684933|OTHER||Mean Difference (Final Values)|3.5|||<|0.001|TWO_SIDED|95.0|1.5|5.6|||Fisher Exact||Week 24|||5.6|1.5|<0.001
92392678|NCT02831764|184684933|OTHER||Mean Difference (Final Values)|2.8||||0.037|TWO_SIDED|95.0|0.2|5.4|||Fisher Exact||Week 48|||5.4|0.2|0.037
92392679|NCT02831764|184684934|OTHER||Mean Difference (Final Values)|3.1||||0.045|TWO_SIDED|95.0|0.2|6.1|||Fisher Exact||Week 96|||6.1|0.2|0.045
92392680|NCT02831764|184684935|OTHER||Mean Difference (Final Values)|2.6||||0.16|TWO_SIDED|95.0|-0.8|6.0|||Fisher Exact||Week 144|||6.0|-0.8|0.160
92392681|NCT02831764|184684940|OTHER||Mean Difference (Net)|37.8|||||TWO_SIDED|95.0|9.98|65.62|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||65.62|9.98|
92392682|NCT02831764|184684940|OTHER||Mean Difference (Net)|-26.81|||||TWO_SIDED|95.0|-82.72|29.1|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and Baseline plasma HIV-1 RNA interaction.|||29.10|-82.72|
92446413|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.59||||0.0066|TWO_SIDED|95.0|1.11|2.26|||Cochran-Mantel-Haenszel|||\>/=30%: Week 10||2.26|1.11|0.0066
92420543|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.42||||0.1638|TWO_SIDED|95.0|-14.88|85.72||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 12.||85.72|-14.88|0.1638
92420544|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|99.29||||0.2006|TWO_SIDED|95.0|-54.28|252.86||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||252.86|-54.28|0.2006
92420545|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|225.63||||0.0067|TWO_SIDED|95.0|65.18|386.09||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||386.09|65.18|0.0067
92420546|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|162.46||||0.0204|TWO_SIDED|95.0|26.05|298.87||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||298.87|26.05|0.0204
92420547|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|114.13||||0.0766|TWO_SIDED|95.0|-12.63|240.89||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||240.89|-12.63|0.0766
92420548|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|226.82||||0.0181|TWO_SIDED|95.0|40.23|413.41||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||413.41|40.23|0.0181
92420549|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|167.33||||0.0387|TWO_SIDED|95.0|9.03|325.63||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||325.63|9.03|0.0387
92420550|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|107.84||||0.2277|TWO_SIDED|95.0|-69.29|284.97||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||284.97|-69.29|0.2277
92420551|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|226.82||||0.0181|TWO_SIDED|95.0|40.23|413.41||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||413.41|40.23|0.0181
92420552|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|167.33||||0.0387|TWO_SIDED|95.0|9.03|325.63||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||325.63|9.03|0.0387
92392683|NCT02831764|184684940|OTHER||Mean Difference (Net)|61.72|||||TWO_SIDED|95.0|-26.94|150.39|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||150.39|-26.94|
92392684|NCT02831764|184684940|OTHER||Mean Difference (Net)|22.57|||||TWO_SIDED|95.0|-3.42|48.55|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||48.55|-3.42|
92392685|NCT02831764|184684940|OTHER||Mean Difference (Net)|38.99|||||TWO_SIDED|95.0|5.88|72.09|||||Age Group,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||72.09|5.88|
92392686|NCT02831764|184684940|OTHER||Mean Difference (Net)|-9.9|||||TWO_SIDED|95.0|-53.1|33.3|||||Age Group,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||33.30|-53.10|
92420553|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|141.92||||0.0747|TWO_SIDED|95.0|-14.62|298.45||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||298.45|-14.62|0.0747
92420554|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|204.4||||0.0151|TWO_SIDED|95.0|41.02|367.79||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||367.79|41.02|0.0151
92420555|NCT01227564|184730230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|173.16||||0.0161|TWO_SIDED|95.0|33.25|313.07||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||313.07|33.25|0.0161
92446414|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.62||||0.0017|TWO_SIDED|95.0|1.18|2.23|||Cochran-Mantel-Haenszel|||\>/=30%: Week 12||2.23|1.18|0.0017
92446415|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.11||||0.9074|TWO_SIDED|95.0|0.2|5.97|||Cochran-Mantel-Haenszel|||\>/=40%: Week 2||5.97|0.20|0.9074
92392687|NCT02831764|184684940|OTHER||Mean Difference (Net)|65.53|||||TWO_SIDED|95.0|-14.43|145.5|||||Age Group,\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||145.50|-14.43|
92392688|NCT02831764|184684940|OTHER||Mean Difference (Net)|59.66|||||TWO_SIDED|95.0|-8.62|127.94|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||127.94|-8.62|
92392689|NCT02831764|184684940|OTHER||Mean Difference (Net)|19.23|||||TWO_SIDED|95.0|-7.65|46.1|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||46.10|-7.65|
92392690|NCT02831764|184684940|OTHER||Mean Difference (Net)|19.04|||||TWO_SIDED|95.0|-11.06|49.13|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||49.13|-11.06|
92392691|NCT02831764|184684940|OTHER||Mean Difference (Net)|43.25|||||TWO_SIDED|95.0|-30.59|117.09|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||117.09|-30.59|
92392692|NCT02831764|184684940|OTHER||Mean Difference (Net)|12.8|||||TWO_SIDED|95.0|-72.14|97.73|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||97.73|-72.14|
92392693|NCT02831764|184684940|OTHER||Mean Difference (Net)|62.01|||||TWO_SIDED|95.0|-16.09|140.12|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||140.12|-16.09|
92392694|NCT02831764|184684941|OTHER||Mean Difference (Net)|6.9|||||TWO_SIDED|95.0|-22.7|36.6|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||36.6|-22.7|
92392695|NCT02831764|184684941|OTHER||Mean Difference (Net)|13.2|||||TWO_SIDED|95.0|-46.8|73.2|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and Baseline plasma HIV-1 RNA interaction.|||73.2|-46.8|
92392696|NCT02831764|184684941|OTHER||Mean Difference (Net)|57.7|||||TWO_SIDED|95.0|-37.2|152.5|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||152.5|-37.2|
92392697|NCT02831764|184684941|OTHER||Mean Difference (Net)|4.1|||||TWO_SIDED|95.0|-23.5|31.7|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||31.7|-23.5|
92446416|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|0.98||||0.9625|TWO_SIDED|95.0|0.36|2.64|||Cochran-Mantel-Haenszel|||\>/=40%: Week 4||2.64|0.36|0.9625
92446417|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.26||||0.512|TWO_SIDED|95.0|0.63|2.53|||Cochran-Mantel-Haenszel|||\>/=40%: Week 6||2.53|0.63|0.5120
92420556|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.652||||0.1807|TWO_SIDED|95.0|-6.57|1.267||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||1.267|-6.570|0.1807
92420557|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.497||||0.8051|TWO_SIDED|95.0|-3.515|4.508||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||4.508|-3.515|0.8051
92420558|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.078||||0.5331|TWO_SIDED|95.0|-4.519|2.364||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||2.364|-4.519|0.5331
92420559|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174||||0.9274|TWO_SIDED|95.0|-3.99|3.641||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||3.641|-3.990|0.9274
92420560|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.549||||0.0743|TWO_SIDED|95.0|-0.36|7.458||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||7.458|-0.360|0.0743
92420561|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.687||||0.3163|TWO_SIDED|95.0|-1.656|5.031||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||5.031|-1.656|0.3163
92420562|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.645||||0.519|TWO_SIDED|95.0|-6.721|3.43||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||3.430|-6.721|0.5190
92420563|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.758||||0.074|TWO_SIDED|95.0|-0.476|9.991||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||9.991|-0.476|0.0740
92420564|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.394||||0.4909|TWO_SIDED|95.0|-2.937|6.049||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||6.049|-2.937|0.4909
92278942|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.3||||0.172|TWO_SIDED|95.0|-0.13|0.74|||ANCOVA|||WSTD 0-2 hours||0.74|-0.13|0.172
92446418|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.98||||0.0244|TWO_SIDED|95.0|1.03|3.79|||Cochran-Mantel-Haenszel|||\>/=40%: Week 8||3.79|1.03|0.0244
92446419|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.86||||0.0161|TWO_SIDED|95.0|1.08|3.18|||Cochran-Mantel-Haenszel|||\>/=40%: Week 10||3.18|1.08|0.0161
92392698|NCT02831764|184684941|OTHER||Mean Difference (Net)|32.5|||||TWO_SIDED|95.0|-2.7|67.7|||||Age Group-1,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||67.7|-2.7|
92278943|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.51||||0.098|TWO_SIDED|95.0|-0.1|1.13|||ANCOVA|||WSTD 0-2 hours||1.13|-0.10|0.098
92392699|NCT02831764|184684941|OTHER||Mean Difference (Net)|-31.5|||||TWO_SIDED|95.0|-77.1|14.2|||||Age Group-1,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||14.2|-77.1|
92392700|NCT02831764|184684941|OTHER||Mean Difference (Net)|5.2|||||TWO_SIDED|95.0|-81.4|91.8|||||Age Group-1,\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||91.8|-81.4|
92392701|NCT02831764|184684941|OTHER||Mean Difference (Net)|8.6|||||TWO_SIDED|95.0|-19.4|36.5|||||Age Group-2, \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||36.5|-19.4|
92392702|NCT02831764|184684941|OTHER||Mean Difference (Net)|4.5|||||TWO_SIDED|95.0|-82.3|91.3|||||Age Group-2, \>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||91.3|-82.3|
92420565|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.383||||0.9151|TWO_SIDED|95.0|-7.549|6.783||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||6.783|-7.549|0.9151
92392703|NCT02831764|184684941|OTHER||Mean Difference (Net)|-27.3|||||TWO_SIDED|95.0|-100.8|46.1|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||46.1|-100.8|
92392704|NCT02831764|184684941|OTHER||Mean Difference (Net)|12.8|||||TWO_SIDED|95.0|-15.7|41.2|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||41.2|-15.7|
92392705|NCT02831764|184684941|OTHER||Mean Difference (Net)|11.3|||||TWO_SIDED|95.0|-20.4|43.1|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||43.1|-20.4|
92392706|NCT02831764|184684941|OTHER||Mean Difference (Net)|-37.8|||||TWO_SIDED|95.0|-119.6|44.0|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||44.0|-119.6|
92392707|NCT02831764|184684941|OTHER||Mean Difference (Net)|15.6|||||TWO_SIDED|95.0|-74.4|105.7|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||105.7|-74.4|
92392708|NCT02831764|184684941|OTHER||Mean Difference (Net)|37.6|||||TWO_SIDED|95.0|-45.4|120.5|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||120.5|-45.4|
92392709|NCT02831764|184684942|OTHER||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-34.1|35.0|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||35.0|-34.1|
92392710|NCT02831764|184684942|OTHER||Mean Difference (Net)|14.7|||||TWO_SIDED|95.0|-55.6|84.9|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and Baseline plasma HIV-1 RNA interaction.|||84.9|-55.6|
92392711|NCT02831764|184684942|OTHER||Mean Difference (Net)|26.5|||||TWO_SIDED|95.0|-87.3|140.3|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||140.3|-87.3|
92392712|NCT02831764|184684942|OTHER||Mean Difference (Net)|2.8|||||TWO_SIDED|95.0|-29.4|35.1|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||35.1|-29.4|
92392713|NCT02831764|184684942|OTHER||Mean Difference (Net)|8.3|||||TWO_SIDED|95.0|-32.5|49.1|||||Age Group,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||49.1|-32.5|
92446420|NCT03548584|184779826|SUPERIORITY||Ratio of Response Rate|1.62||||0.0347|TWO_SIDED|95.0|1.0|2.61|||Cochran-Mantel-Haenszel|||\>/=40%: Week 12||2.61|1.00|0.0347
92446421|NCT03548584|184779827|SUPERIORITY||Ratio of Response Rate|0.64||||0.1503|TWO_SIDED|95.0|0.35|1.16|||Cochran-Mantel-Haenszel|||Week 2||1.16|0.35|0.1503
92278944|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.6||||0.054|TWO_SIDED|95.0|-0.01|1.21|||ANCOVA|||WSTD 0-2 hours||1.21|-0.01|0.054
92392714|NCT02831764|184684942|OTHER||Mean Difference (Net)|-13.3|||||TWO_SIDED|95.0|-67.6|41.1|||||Age Group,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||41.1|-67.6|
92392715|NCT02831764|184684942|OTHER||Mean Difference (Net)|32.7|||||TWO_SIDED|95.0|-68.5|133.9|||||Age Group,\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||133.9|-68.5|
92392716|NCT02831764|184684942|OTHER||Mean Difference (Net)|5.1|||||TWO_SIDED|95.0|-80.7|90.8|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||90.8|-80.7|
92420566|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.394||||0.1533|TWO_SIDED|95.0|-2.069|12.857||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||12.857|-2.069|0.1533
92420567|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.506||||0.4371|TWO_SIDED|95.0|-3.904|8.915||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||8.915|-3.904|0.4371
92170102|NCT02376790|184229109|SUPERIORITY||LS Mean Treatment Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.84||0.97|TWO_SIDED|95.0|-1.69|1.63||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in Mental Component Summary at week 24||1.63|-1.69|0.97
92392717|NCT02831764|184684942|OTHER||Mean Difference (Net)|2.1|||||TWO_SIDED|95.0|-31.1|35.3|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||35.3|-31.1|
92392718|NCT02831764|184684942|OTHER||Mean Difference (Net)|13.7|||||TWO_SIDED|95.0|-23.2|50.6|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||50.6|-23.2|
92392719|NCT02831764|184684942|OTHER||Mean Difference (Net)|-57.4|||||TWO_SIDED|95.0|-155.3|40.4|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||40.4|-155.3|
92392720|NCT02831764|184684942|OTHER||Mean Difference (Net)|-40.1|||||TWO_SIDED|95.0|-144.2|64.0|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||64.0|-144.2|
92392721|NCT02831764|184684942|OTHER||Mean Difference (Net)|33.1|||||TWO_SIDED|95.0|-63.3|129.6|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||129.6|-63.3|
92392722|NCT02831764|184684943|OTHER||Mean Difference (Net)|9.1|||||TWO_SIDED|95.0|-31.1|49.2|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||49.2|-31.1|
92392723|NCT02831764|184684943|OTHER||Mean Difference (Net)|-16.6|||||TWO_SIDED|95.0|-98.9|65.8|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and Baseline plasma HIV-1 RNA interaction.|||65.8|-98.9|
92392724|NCT02831764|184684943|OTHER||Mean Difference (Net)|56.0|||||TWO_SIDED|95.0|-77.2|189.1|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||189.1|-77.2|
92392725|NCT02831764|184684943|OTHER||Mean Difference (Net)|2.4|||||TWO_SIDED|95.0|-35.2|39.9|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||39.9|-35.2|
92392726|NCT02831764|184684943|OTHER||Mean Difference (Net)|25.8|||||TWO_SIDED|95.0|-22.3|74.0|||||Age Group,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||74.0|-22.3|
92392727|NCT02831764|184684943|OTHER||Mean Difference (Net)|-36.4|||||TWO_SIDED|95.0|-98.6|25.8|||||Age Group,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||25.8|-98.6|
92392728|NCT02831764|184684943|OTHER||Mean Difference (Net)|24.1|||||TWO_SIDED|95.0|-89.0|137.2|||||Age Group,\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||137.2|-89.0|
92392729|NCT02831764|184684943|OTHER||Mean Difference (Net)|-26.9|||||TWO_SIDED|95.0|-125.9|72.2|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||72.2|-125.9|
92392730|NCT02831764|184684943|OTHER||Mean Difference (Net)|8.1|||||TWO_SIDED|95.0|-30.3|46.5|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||46.5|-30.3|
92392731|NCT02831764|184684943|OTHER||Mean Difference (Net)|3.5|||||TWO_SIDED|95.0|-39.4|46.3|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||46.3|-39.4|
92392732|NCT02831764|184684943|OTHER||Mean Difference (Net)|-121.2|||||TWO_SIDED|95.0|-237.2|-5.1|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||-5.1|-237.2|
92392733|NCT02831764|184684943|OTHER||Mean Difference (Net)|13.1|||||TWO_SIDED|95.0|-106.4|132.6|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||132.6|-106.4|
92392734|NCT02831764|184684943|OTHER||Mean Difference (Net)|114.3|||||TWO_SIDED|95.0|4.6|224.0|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||224.0|4.6|
92392735|NCT02831764|184684944|OTHER||Mean Difference (Net)|-0.0019||||0.759|TWO_SIDED|95.0|-0.0137|0.01|||MMRM||Week 4. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA , Baseline CD4+ cell count , and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0100|-0.0137|0.759
92392736|NCT02831764|184684944|OTHER||Mean Difference (Net)|0.0003||||0.943|TWO_SIDED|95.0|-0.0088|0.0095|||MMRM||Week 24. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA , Baseline CD4+ cell count , and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0095|-0.0088|0.943
92392737|NCT02831764|184684944|OTHER||Mean Difference (Net)|-0.0019||||0.703|TWO_SIDED|95.0|-0.0117|0.0079|||MMRM||Week 48. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA , Baseline CD4+ cell count , and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0079|-0.0117|0.703
92420568|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.21||||0.6167|TWO_SIDED|95.0|-10.999|6.579||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||6.579|-10.999|0.6167
92278945|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|-0.09||||0.692|TWO_SIDED|95.0|-0.52|0.34|||ANCOVA|||WSTD 0-2 hours||0.34|-0.52|0.692
92392738|NCT02831764|184684945|OTHER||Mean Difference (Net)|-0.0003||||0.957|TWO_SIDED|95.0|-0.011|0.0104|||MMRM||Week 96. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count, and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0104|-0.0110|0.957
92446422|NCT03548584|184779827|SUPERIORITY||Ratio of Response Rate|1.07||||0.7559|TWO_SIDED|95.0|0.69|1.67|||Cochran-Mantel-Haenszel|||Week 4||1.67|0.69|0.7559
92392739|NCT02831764|184684946|OTHER||Mean Difference (Net)|0.0079||||0.162|TWO_SIDED|95.0|-0.0032|0.0189|||MMRM||Week 144. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count, and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0189|-0.0032|0.162
92392740|NCT02831764|184684947|OTHER||Mean Difference (Net)|-1.3||||0.045|TWO_SIDED|95.0|-2.6|0.0|||MMRM||Week 4. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0|-2.6|0.045
92392741|NCT02831764|184684947|OTHER||Mean Difference (Net)|-0.6||||0.358|TWO_SIDED|95.0|-1.9|0.7|||MMRM||Week 24. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.7|-1.9|0.358
92392742|NCT02831764|184684947|OTHER||Mean Difference (Net)|-0.6||||0.328|TWO_SIDED|95.0|-1.9|0.6|||MMRM||Week 48. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count, and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.6|-1.9|0.328
92392743|NCT02831764|184684948|OTHER||Mean Difference (Net)|-0.7||||0.318|TWO_SIDED|95.0|-2.1|0.7|||MMRM||Week 96. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.7|-2.1|0.318
92392744|NCT02831764|184684949|OTHER||Mean Difference (Net)|0.3||||0.674|TWO_SIDED|95.0|-1.0|1.6|||MMRM||Week 144. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||1.6|-1.0|0.674
92392745|NCT01790594|184684953|SUPERIORITY||Mean Difference (Final Values)|2.088||||0.75|TWO_SIDED|95.0|-11.067|15.242|||Mixed Models Analysis|||The p-value compares Investigational arm and control arm.||15.242|-11.067|0.750
92392746|NCT00346216|184684998|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non inferiority required a hazard ratio of 1.12 or lower, as well as an upper 95% confidence limit of 1.33 or lower in the ITT population and of 1.40 or lower in the MITT population.|Hazard Ratio (HR)|0.93||||0.0002|TWO_SIDED|95.0|0.76|1.13||Non inferiority P value, α=0.025|Regression, Cox|||ITT Population||1.13|0.76|0.0002
92392747|NCT00346216|184684998|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority requires the hazard ratio does not exceed 1.12, and the upper bound of the two-sided 95% CI for the hazard ratio estimate does not exceed 1.40|Hazard Ratio (HR)|0.9||||0.0001|TWO_SIDED|95.0|0.72|1.14||Non inferiority P value, α=0.025|Regression, Cox|||MITT Population||1.14|0.72|0.0001
92446423|NCT03548584|184779827|SUPERIORITY||Ratio of Response Rate|1.23||||0.2246|TWO_SIDED|95.0|0.88|1.72|||Cochran-Mantel-Haenszel|||Week 6||1.72|0.88|0.2246
92446424|NCT03548584|184779827|SUPERIORITY||Ratio of Response Rate|1.38||||0.0276|TWO_SIDED|95.0|1.02|1.87|||Cochran-Mantel-Haenszel|||Week 8||1.87|1.02|0.0276
92446425|NCT03548584|184779827|SUPERIORITY||Ratio of Response Rate|1.46||||0.0031|TWO_SIDED|95.0|1.12|1.89|||Cochran-Mantel-Haenszel|||Week 10||1.89|1.12|0.0031
92446426|NCT03548584|184779827|SUPERIORITY||Ratio of Response Rate|1.47||||0.0017|TWO_SIDED|95.0|1.14|1.89|||Cochran-Mantel-Haenszel|||Week 12||1.89|1.14|0.0017
92446427|NCT03548584|184779828|SUPERIORITY||Ratio of Response Rate|1.1||||0.8549|TWO_SIDED|95.0|0.4|3.03|||Cochran-Mantel-Haenszel|||Week 2||3.03|0.40|0.8549
92446428|NCT03548584|184779828|SUPERIORITY||Ratio of Response Rate|1.95||||0.0093|TWO_SIDED|95.0|1.14|3.32|||Cochran-Mantel-Haenszel|||Week 4||3.32|1.14|0.0093
92392748|NCT00346216|184684998|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority requires the hazard ratio does not exceed 1.12, and the upper bound of the two-sided 95% CI for the hazard ratio estimate does not exceed 1.33|Hazard Ratio (HR)|0.86|||<|0.0001|TWO_SIDED|95.0|0.7|1.04||Non inferiority P value, α=0.025|Regression, Cox|||ITT Population||1.04|0.70|<0.0001
92392749|NCT00346216|184684998|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority requires the hazard ratio does not exceed 1.12, and the upper bound of the two-sided 95% CI for the hazard ratio (HR) estimate does not exceed 1.40|Hazard Ratio (HR)|0.81|||<|0.0001|TWO_SIDED|95.0|0.64|1.02||Non-inferiority P-value, α=0.025|Regression, Cox|||MITT Population||1.02|0.64|<0.0001
92392750|NCT00346216|184684998|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority requires the hazard ratio does not exceed 1.12, and the upper bound of the two-sided 95% CI for the hazard ratio (HR) estimate does not exceed 1.33|Hazard Ratio (HR)|1.08||||0.0182|TWO_SIDED|95.0|0.89|1.31||Non-inferiority P-value, α=0.025|Regression, Cox|||ITT Population||1.31|0.89|0.0182
92420569|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.11||||0.1844|TWO_SIDED|95.0|-2.993|15.212||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||15.212|-2.993|0.1844
92420570|NCT01227564|184730231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.95||||0.6205|TWO_SIDED|95.0|-5.888|9.878||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||9.878|-5.888|0.6205
92420571|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.418||||0.1695|TWO_SIDED|95.0|-0.183|1.018||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||1.018|-0.183|0.1695
92420572|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147||||0.6331|TWO_SIDED|95.0|-0.465|0.759||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.759|-0.465|0.6331
92420573|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.282||||0.2907|TWO_SIDED|95.0|-0.247|0.812||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.812|-0.247|0.2907
92392751|NCT00346216|184684998|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority requires the hazard ratio does not exceed 1.12, and the upper bound of the two-sided 95% CI for the hazard ratio (HR) estimate does not exceed 1.40|Hazard Ratio (HR)|1.12||||0.025|TWO_SIDED|95.0|0.89|1.4||Non-inferiority P-value, α=0.025|Regression, Cox|||MITT Population||1.40|0.89|0.0250
92392752|NCT00346216|184684999|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.6427|TWO_SIDED|95.0|0.83|1.12|||Regression, Cox|||ITT Population||1.12|0.83|0.6427
92446429|NCT03548584|184779828|SUPERIORITY||Ratio of Response Rate|1.56||||0.0083|TWO_SIDED|95.0|1.1|2.22|||Cochran-Mantel-Haenszel|||Week 6||2.22|1.10|0.0083
92446430|NCT03548584|184779828|SUPERIORITY||Ratio of Response Rate|1.85|||<|0.0001|TWO_SIDED|95.0|1.32|2.58|||Cochran-Mantel-Haenszel|||Week 8||2.58|1.32|<.0001
92446431|NCT03548584|184779828|SUPERIORITY||Ratio of Response Rate|1.57||||0.0005|TWO_SIDED|95.0|1.18|2.09|||Cochran-Mantel-Haenszel|||Week 10||2.09|1.18|0.0005
92446432|NCT03548584|184779828|SUPERIORITY||Ratio of Response Rate|1.32||||0.016|TWO_SIDED|95.0|1.03|1.69|||Cochran-Mantel-Haenszel|||Week 12||1.69|1.03|0.0160
92392753|NCT00346216|184684999|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.0597|TWO_SIDED|95.0|0.75|1.01|||Regression, Cox|||ITT Population||1.01|0.75|0.0597
92392754|NCT00346216|184684999|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.11||||0.1481|TWO_SIDED|95.0|0.96|1.29|||Regression, Cox|||ITT Population||1.29|0.96|0.1481
92392755|NCT00346216|184684999|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.95||||0.5758|TWO_SIDED|95.0|0.8|1.13|||Regression, Cox|||MITT Population||1.13|0.80|0.5758
92446433|NCT02215070|184779841|OTHER|||||||0.12|||||||Chi-squared|||||||0.12
92446434|NCT02215070|184779843|OTHER|||||||0.006|||||||Log Rank|||||||0.006
92446435|NCT02215070|184779844|OTHER|||||||0.002|||||||Log Rank|||||||0.002
92392756|NCT00346216|184684999|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.0204|TWO_SIDED|95.0|0.69|0.97|||Regression, Cox|||MITT Population||0.97|0.69|0.0204
92392757|NCT00346216|184684999|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17||||0.0751|TWO_SIDED|95.0|0.98|1.38|||Regression, Cox|||MITT Population||1.38|0.98|0.0751
92392758|NCT00346216|184685000|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.8576|TWO_SIDED|95.0|0.67|1.4|||Regression, Cox|||ITT Population||1.40|0.67|0.8576
92420574|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007||||0.9846|TWO_SIDED|95.0|-0.675|0.688||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.688|-0.675|0.9846
92420575|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.304||||0.3845|TWO_SIDED|95.0|-1.0|0.392||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.392|-1.000|0.3845
92446436|NCT02449356|184779847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73|||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
92446437|NCT02449356|184779848|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92446438|NCT02096835|184779853|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Chi-squared|||||||0.021
92446439|NCT02096835|184779854|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Chi-squared|||||||0.021
92446440|NCT02096835|184779855|SUPERIORITY_OR_OTHER|||||||0.503|TWO_SIDED||||||Chi-squared|||||||0.503
92446441|NCT02096835|184779856|SUPERIORITY_OR_OTHER|||||||0.571|TWO_SIDED||||||Chi-squared|||||||0.571
92446442|NCT04368429|184779858|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% Confidence Interval (CI) of the difference in percentage was greater than (\>) -10% for the serogroup A.|Difference in percentage|20.27|||||TWO_SIDED|95.0|11.38|28.75|||||95% CI of the difference in percentage was calculated from the Wilson Score method without continuity correction.|Serogroup A||28.75|11.38|
92235873|NCT01151137|184375002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.947|||<|0.0001|TWO_SIDED|95.0|1.448|2.617||A priori threshold for statistical significance: 0.05|Log Rank|2-sided Log-rank's asymptotic test|"Hazard ratio (HR) of Dronedarone versus placebo for unscheduled cardiovascular hospitalization or death from any cause~HR and confidence interval were estimated using Cox regression model with treatment group as the only factor."|As a consequence of the early termination of the study, the analysis was performed for information only without any adjustment.||2.617|1.448|<0.0001
92235874|NCT01151137|184375004|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.115||||0.046|TWO_SIDED|95.0|0.996|4.49||A priori threshold for statistical significance: 0.05|Log Rank|2-sided Log-rank's asymptotic test|"Hazard ratio (HR) of Dronedarone versus placebo for cardiovascular death~HR and confidence interval were estimated using Cox regression model with treatment group as the only factor."|As a consequence of the early termination of the study, the analysis was performed for information only without any adjustment.||4.490|0.996|0.0460
92392759|NCT00346216|184685000|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||0.1202|TWO_SIDED|95.0|0.53|1.08|||Regression, Cox|||ITT Population||1.08|0.53|0.1202
92392760|NCT00346216|184685000|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.27||||0.1734|TWO_SIDED|95.0|0.9|1.81|||Regression, Cox|||ITT Population||1.81|0.90|0.1734
92392761|NCT00346216|184685000|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51||||0.0041|TWO_SIDED|95.0|0.32|0.81|||Regression, Cox|||MITT Population||0.81|0.32|0.0041
92392762|NCT00346216|184685000|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.43||||0.0003|TWO_SIDED|95.0|0.27|0.68|||Regression, Cox|||MITT Population||0.68|0.27|0.0003
92392763|NCT00346216|184685000|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.16||||0.4243|TWO_SIDED|95.0|0.8|1.69|||Regression, Cox|||MITT Population||1.69|0.80|0.4243
92392764|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|1.01|2.53|||Mixed Models Analysis|||Change from baseline to Month 1 (ITT)||2.53|1.01|<0.0001
92392765|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|0.39||0.0373|TWO_SIDED|95.0|0.05|1.56|||Mixed Models Analysis|||Change from baseline to Month 1 (ITT)||1.56|0.05|0.0373
92392766|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|0.39||0.0129|TWO_SIDED|95.0|0.2|1.72|||Mixed Models Analysis|||Change from baseline to Month 1 (ITT)||1.72|0.20|0.0129
92392767|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.39||0.183|TWO_SIDED|95.0|-0.25|1.29|||Mixed Models Analysis|||Change from baseline to Month 2 (ITT)||1.29|-0.25|0.1830
92392768|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.39||0.7777|TWO_SIDED|95.0|-0.88|0.66|||Mixed Models Analysis|||Change from baseline to Month 2 (ITT)||0.66|-0.88|0.7777
92392769|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.39||0.1072|TWO_SIDED|95.0|-0.14|1.4|||Mixed Models Analysis|||Change from baseline to Month 2 (ITT)||1.40|-0.14|0.1072
92392770|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|0.4||0.8237|TWO_SIDED|95.0|-0.12|1.46|||Mixed Models Analysis|||Change from baseline to Month 4 (ITT)||1.46|-0.12|0.8237
92392771|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.4||0.8237|TWO_SIDED|95.0|-0.88|0.7|||Mixed Models Analysis|||Change from baseline to Month 4 (ITT)||0.70|-0.88|0.8237
92392772|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.4||0.0587|TWO_SIDED|95.0|-0.03|1.55|||Mixed Models Analysis|||Change from baseline to Month 4 (ITT)||1.55|-0.03|0.0587
92392773|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.41||0.3129|TWO_SIDED|95.0|-0.39|1.23|||Mixed Models Analysis|||Change from baseline to Month 8 (ITT)||1.23|-0.39|0.3129
92392774|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.41||0.6526|TWO_SIDED|95.0|-0.63|1.0|||Mixed Models Analysis|||Change from baseline to Month 8 (ITT)||1.00|-0.63|0.6526
92392775|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.42||0.5774|TWO_SIDED|95.0|-0.58|1.05|||Mixed Models Analysis|||Change from baseline to Month 8 (ITT)||1.05|-0.58|0.5774
92392776|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|0.42||0.0632|TWO_SIDED|95.0|-0.04|1.62|||Mixed Models Analysis|||Change from baseline to Month 12 (ITT)||1.62|-0.04|0.0632
92392777|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.43||0.454|TWO_SIDED|95.0|-0.52|1.15|||Mixed Models Analysis|||Change from baseline to Month 12 (ITT)||1.15|-0.52|0.4540
92392778|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.43||0.2705|TWO_SIDED|95.0|-0.37|1.3|||Mixed Models Analysis|||Change from baseline to Month 12 (ITT)||1.30|-0.37|0.2705
92392779|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.44||0.5225|TWO_SIDED|95.0|-0.58|1.14|||Mixed Models Analysis|||Change from baseline to Month 18 (ITT)||1.14|-0.58|0.5225
92392780|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.44||0.5996|TWO_SIDED|95.0|-1.1|0.63|||Mixed Models Analysis|||Change from baseline to Month 18 (ITT)||0.63|-1.10|0.5996
92392781|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.44||0.2461|TWO_SIDED|95.0|-0.35|1.38|||Mixed Models Analysis|||Change from baseline to Month 18 (ITT)||1.38|-0.35|0.2461
92420576|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.149||||0.6204|TWO_SIDED|95.0|-0.748|0.45||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.450|-0.748|0.6204
92420577|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014||||0.981|TWO_SIDED|95.0|-1.221|1.192||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||1.192|-1.221|0.9810
92420578|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.796||||0.2034|TWO_SIDED|95.0|-2.034|0.443||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.443|-2.034|0.2034
92446443|NCT04368429|184779858|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in percentage was \>-10% for the serogroup C.|Difference in percentage|33.98|||||TWO_SIDED|95.0|26.2|41.5|||||95% CI of the difference in percentage was calculated from the Wilson Score method without continuity correction.|Serogroup C||41.50|26.20|
92392782|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.46||0.8127|TWO_SIDED|95.0|-0.79|1.0|||Mixed Models Analysis|||Change from baseline to Month 24 (ITT)||1.00|-0.79|0.8127
92392783|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.46||0.9641|TWO_SIDED|95.0|-0.92|0.87|||Mixed Models Analysis|||Change from baseline to Month 24 (ITT)||0.87|-0.92|0.9641
92392784|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.46||0.7784|TWO_SIDED|95.0|-0.77|1.03|||Mixed Models Analysis|||Change from baseline to Month 24 (ITT)||1.03|-0.77|0.7784
92392785|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.49||0.2105|TWO_SIDED|95.0|-0.34|1.56|||Mixed Models Analysis|||Change from baseline to Month 30 (ITT)||1.56|-0.34|0.2105
92392786|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.49||0.2909|TWO_SIDED|95.0|-0.44|1.46|||Mixed Models Analysis|||Change from baseline to Month 30 (ITT)||1.46|-0.44|0.2909
92392787|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.49||0.8459|TWO_SIDED|95.0|-0.86|1.05|||Mixed Models Analysis|||Change from baseline to Month 30 (ITT)||1.05|-0.86|0.8459
92392788|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|0.51||0.1116|TWO_SIDED|95.0|-0.19|1.8|||Mixed Models Analysis|||Change from baseline to Month 36 (ITT)||1.80|-0.19|0.1116
92392789|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.51||0.9751|TWO_SIDED|95.0|-0.98|1.01|||Mixed Models Analysis|||Change from baseline to Month 36 (ITT)||1.01|-0.98|0.9751
92392790|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|0.51||0.1202|TWO_SIDED|95.0|-0.21|1.79|||Mixed Models Analysis|||Change from baseline to Month 36 (ITT)||1.79|-0.21|0.1202
92392791|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.52||0.3767|TWO_SIDED|95.0|-0.56|1.48|||Mixed Models Analysis|||Change from baseline to Month 42 (ITT)||1.48|-0.56|0.3767
92392792|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.52||0.1123|TWO_SIDED|95.0|-1.85|0.19|||Mixed Models Analysis|||Change from baseline to Month 42 (ITT)||0.19|-1.85|0.1123
92278946|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|1.87|||<|0.001|TWO_SIDED|95.0|0.86|2.88|||ANCOVA|||WSTD 0-4 hours||2.88|0.86|< 0.001
92392793|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.29|STANDARD_ERROR_OF_MEAN|0.52||0.0137|TWO_SIDED|95.0|0.26|2.31|||Mixed Models Analysis|||Change from baseline to Month 42 (ITT)||2.31|0.26|0.0137
92392794|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|1.07|2.47|||Mixed Models Analysis|||Change from Baseline to Month 1 (MITT)||2.47|1.07|<0.0001
92420579|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.405||||0.4491|TWO_SIDED|95.0|-1.469|0.659||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.659|-1.469|0.4491
92420580|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.255||||0.8074|TWO_SIDED|95.0|-1.827|2.337||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||2.337|-1.827|0.8074
92420581|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.029||||0.3444|TWO_SIDED|95.0|-3.189|1.131||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||1.131|-3.189|0.3444
92392795|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.84|STANDARD_ERROR_OF_MEAN|0.36||0.0197|TWO_SIDED|95.0|0.13|1.54|||Mixed Models Analysis|||Change from Baseline to Month 1 (MITT)||1.54|0.13|0.0197
92392796|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.36||0.0094|TWO_SIDED|95.0|0.23|1.64|||Mixed Models Analysis|||Change from Baseline to Month 1 (MITT)||1.64|0.23|0.0094
92420582|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.387||||0.6772|TWO_SIDED|95.0|-2.239|1.464||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||1.464|-2.239|0.6772
92420583|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.652||||0.6325|TWO_SIDED|95.0|-2.063|3.367||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||3.367|-2.063|0.6325
92446444|NCT04368429|184779858|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in percentage was \>-10% for the serogroup Y.|Difference in percentage|34.22|||||TWO_SIDED|95.0|26.66|41.64|||||95% CI of the difference in percentage was calculated from the Wilson Score method without continuity correction.|Serogroup Y||41.64|26.66|
92446445|NCT04368429|184779858|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in percentage was \>-10% for the serogroup W.|Difference in percentage|38.19|||||TWO_SIDED|95.0|28.93|46.53|||||95% CI of the difference in percentage was calculated from the Wilson Score method without continuity correction.|Serogroup W||46.53|28.93|
92392797|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.37||0.1247|TWO_SIDED|95.0|-0.16|1.31|||Mixed Models Analysis|||Change from baseline to Month 2 (MITT)||1.31|-0.16|0.1247
92392798|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.37||0.8278|TWO_SIDED|95.0|-0.81|0.65|||Mixed Models Analysis|||Change from baseline to Month 2 (MITT)||0.65|-0.81|0.8278
92392799|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.37||0.0802|TWO_SIDED|95.0|-0.08|1.39|||Mixed Models Analysis|||Change from baseline to Month 2 (MITT)||1.39|-0.08|0.0802
92392800|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.39||0.0822|TWO_SIDED|95.0|-0.09|1.46|||Mixed Models Analysis|||Change from baseline to Month 4 (MITT)||1.46|-0.09|0.0822
92392801|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.39||0.8314|TWO_SIDED|95.0|-0.86|0.69|||Mixed Models Analysis|||Change from baseline to Month 4 (MITT)||0.69|-0.86|0.8314
92392802|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|0.39||0.0516|TWO_SIDED|95.0|-0.01|1.54|||Mixed Models Analysis|||Change from baseline to Month 4 (MITT)||1.54|-0.01|0.0516
92420584|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.5706|TWO_SIDED|95.0|-3.606|2.007||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.007|-3.606|0.5706
92392803|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.42||0.3202|TWO_SIDED|95.0|-0.4|1.24|||Mixed Models Analysis|||Change from baseline to Month 8 (MITT)||1.24|-0.40|0.3202
92392804|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.42||0.5893|TWO_SIDED|95.0|-0.6|1.05|||Mixed Models Analysis|||Change from baseline to Month 8 (MITT)||1.05|-0.60|0.5893
92392805|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.42||0.651|TWO_SIDED|95.0|-0.63|1.01|||Mixed Models Analysis|||Change from baseline to Month 8 (MITT)||1.01|-0.63|0.6510
92392806|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.44||0.0796|TWO_SIDED|95.0|-0.09|1.62|||Mixed Models Analysis|||Change from baseline to Month 12 (MITT)||1.62|-0.09|0.0796
92392807|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.44||0.5061|TWO_SIDED|95.0|-0.57|1.15|||Mixed Models Analysis|||Change from baseline to Month 12 (MITT)||1.15|-0.57|0.5061
92392808|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.44||0.2796|TWO_SIDED|95.0|-0.38|1.33|||Mixed Models Analysis|||Change from baseline to Month 12 (MITT)||1.33|-0.38|0.2796
92278947|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.61||||0.094|TWO_SIDED|95.0|-0.1|1.33|||ANCOVA|||WSTD 0-4 hours||1.33|-0.10|0.094
92392809|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.45||0.6725|TWO_SIDED|95.0|-0.69|1.08|||Mixed Models Analysis|||Change from baseline to Month 18 (MITT)||1.08|-0.69|0.6725
92392810|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.45||0.6381|TWO_SIDED|95.0|-1.1|0.67|||Mixed Models Analysis|||Change from baseline to Month 18 (MITT)||0.67|-1.10|0.6381
92392811|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.45||0.3737|TWO_SIDED|95.0|-0.49|1.29|||Mixed Models Analysis|||Change from baseline to Month 18 (MITT)||1.29|-0.49|0.3737
92392812|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.47||0.9139|TWO_SIDED|95.0|-0.87|0.97|||Mixed Models Analysis|||Change from baseline to Month 24 (MITT)||0.97|-0.87|0.9139
92392813|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.47||0.9998|TWO_SIDED|95.0|-0.92|0.92|||Mixed Models Analysis|||Change from baseline to Month 24 (MITT)||0.92|-0.92|0.9998
92392814|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.47||0.9144|TWO_SIDED|95.0|-0.88|0.98|||Mixed Models Analysis|||Change from baseline to Month 24 (MITT)||0.98|-0.88|0.9144
92392815|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|0.51||0.225|TWO_SIDED|95.0|-0.38|1.61|||Mixed Models Analysis|||Change from baseline to Month 30 (MITT)||1.61|-0.38|0.2250
92392816|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|0.51||0.2758|TWO_SIDED|95.0|-0.44|1.55|||Mixed Models Analysis|||Change from baseline to Month 30 (MITT)||1.55|-0.44|0.2758
92392817|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.51||0.903|TWO_SIDED|95.0|-0.94|1.06|||Mixed Models Analysis|||Change from baseline to Month 30 (MITT)||1.06|-0.94|0.9030
92392818|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.53||0.091|TWO_SIDED|95.0|-0.14|1.94|||Mixed Models Analysis|||Change from baseline to Month 36 (MITT)||1.94|-0.14|0.0910
92392819|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.53||0.7668|TWO_SIDED|95.0|-0.88|1.2|||Mixed Models Analysis|||Change from baseline to Month 36 (MITT)||1.20|-0.88|0.7668
92420585|NCT01227564|184730232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.074||||0.9513|TWO_SIDED|95.0|-2.485|2.337||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.337|-2.485|0.9513
92420586|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015||||0.6054|TWO_SIDED|95.0|-0.074|0.043||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.043|-0.074|0.6054
92392820|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|0.53||0.1653|TWO_SIDED|95.0|-0.31|1.78|||Mixed Models Analysis|||Change from baseline to Month 36 (MITT)||1.78|-0.31|0.1653
92392821|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.55||0.4323|TWO_SIDED|95.0|-0.65|1.52|||Mixed Models Analysis|||Change from baseline to Month 42 (MITT)||1.52|-0.65|0.4323
92392822|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.55||0.1439|TWO_SIDED|95.0|-1.89|0.28|||Mixed Models Analysis|||Change from baseline to Month 42 (MITT)||0.28|-1.89|0.1439
92392823|NCT00346216|184685001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.24|STANDARD_ERROR_OF_MEAN|0.55||0.0251|TWO_SIDED|95.0|0.16|2.33|||Mixed Models Analysis|||Change from baseline to Month 42 (MITT)||2.33|0.16|0.0251
92392824|NCT02163824|184685012|SUPERIORITY||Difference in % of responders|16.1||||0.0024|TWO_SIDED|95.0|5.9|26.4|||Chi-squared||Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|"All statistical tests of hypotheses performed for the pairwise comparison of means were two-sided.~All statistical tests employed a level of significance of alpha = 0.05."||26.4|5.9|.0024
92392825|NCT02163824|184685012|SUPERIORITY||Difference in % of responders|22.1|||<|0.0001|TWO_SIDED|95.0|11.7|32.6|||Chi-squared||Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|"All statistical tests of hypotheses performed for the pairwise comparison of means were two-sided.~All statistical tests employed a level of significance of alpha = 0.05."||32.6|11.7|<.0001
92392826|NCT02163824|184685013|SUPERIORITY||Difference in % of responders|19.5||||0.0019|TWO_SIDED|95.0|7.4|31.5|||Chi-squared||Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|"All statistical tests of hypotheses performed for the pairwise comparison of means were two-sided.~All statistical tests employed a level of significance of alpha = 0.05."||31.5|7.4|.0019
92392827|NCT02163824|184685013|SUPERIORITY||Difference in % of responders|22.5||||0.0003|TWO_SIDED|95.0|10.6|34.4|||Chi-squared||Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|"All statistical tests of hypotheses performed for the pairwise comparison of means were two-sided.~All statistical tests employed a level of significance of alpha = 0.05."||34.4|10.6|.0003
92392828|NCT02163824|184685014|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.0007|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean AC grade at Day 8.|||||0.0007
92278948|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.45||||0.217|TWO_SIDED|95.0|-0.27|1.17|||ANCOVA|||WSTD 0-4 hours||1.17|-0.27|0.217
92392829|NCT02163824|184685014|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.044|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean grade AC at Day 8.|||||0.0440
92392830|NCT02163824|184685015|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.0391|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean AC grade at Day 15.|||||0.0391
92392831|NCT02163824|184685015|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.1811|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean AC grade at Day 15.|||||0.1811
92392832|NCT02163824|184685016|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.1953|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean ocular pain grade at Day 8.|||||0.1953
92392833|NCT02163824|184685016|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.0307|TWO_SIDED||||||ANCOVA||Estimated value is the between group difference of mean ocular pain grade at Day 8.|||||0.0307
92392834|NCT02163824|184685017|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.2589|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference on mean ocular pain score at Day 15.|||||0.2589
92392835|NCT02163824|184685017|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.2132|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean ocular pain score at Day 15.|||||0.2132
92392836|NCT01794000|184685033|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.83||||0.117|TWO_SIDED|95.0|0.66|1.05|||Andersen-Gill model||The rate ratio and 2-sided 95% Confidence Interval (CI) were estimated from the Andersen-Gill model.|The time to a recurrent episode of VOC was analyzed using Andersen-Gill model. A robust variance estimate was used, with treatment, hydroxyurea use at baseline and age group included as factors in the model.||1.05|0.66|.117
92392837|NCT01794000|184685034|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.242||||0.912|TWO_SIDED|95.0|-4.564|4.079||Mixed Model Repeated Measures (MMRM) included fixed effects of treatment, baseline value of the pain-diary outcome measure, hydroxyurea use, age group, time and treatment-by-time interaction.|Mixed Models Analysis||The Least Square (LS) Mean difference of prasugrel minus placebo and the corresponding 2-sided 95% CI were estimated from the MMRM model.|||4.079|-4.564|.912
92420587|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.025||||0.4087|TWO_SIDED|95.0|-0.035|0.084||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.084|-0.035|0.4087
92420588|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005||||0.8518|TWO_SIDED|95.0|-0.046|0.056||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.056|-0.046|0.8518
92420589|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025||||0.4216|TWO_SIDED|95.0|-0.085|0.036||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.036|-0.085|0.4216
92420590|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034||||0.273|TWO_SIDED|95.0|-0.028|0.097||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.097|-0.028|0.2730
92420591|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005||||0.8549|TWO_SIDED|95.0|-0.048|0.058||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.058|-0.048|0.8549
92392838|NCT01794000|184685035|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.0968||||0.365|TWO_SIDED|95.0|-0.1132|0.3068||MMRM model included fixed effects of treatment, baseline value of the pain-diary outcome measure, hydroxyurea use, age group, time and treatment-by-time interaction.|Mixed Models Analysis||The LS Mean difference of prasugrel minus placebo and the corresponding 2-sided 95% CI were estimated from the MMRM model.|||0.3068|-0.1132|.365
92392839|NCT01794000|184685036|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.82||||0.109|TWO_SIDED|95.0|0.65|1.04||The time to a recurrent episode of painful crisis was analyzed using Andersen-Gill model.|Andersen-Gill Model|A robust variance estimate was used, with treatment, hydroxyurea use at baseline and age group included as factors in the model.|The rate ratio and 2-sided 95% CI were estimated from the Andersen-Gill model.|||1.04|0.65|.109
92392840|NCT01794000|184685037|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.94||||0.759|TWO_SIDED|95.0|0.65|1.37||The time to a recurrent episode of hospitalization was analyzed using Andersen-Gill model.|Andersen-Gill model|A robust variance estimate was used, with treatment, hydroxyurea use at baseline and age group included as factors in the model.|The rate ratio and 2-sided 95% CI were estimated from the Andersen-Gill model.|||1.37|0.65|.759
92392841|NCT01794000|184685038|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.96||||0.916|TWO_SIDED|95.0|0.48|1.93||The time to a recurrent episode of acute chest syndrome was analyzed using Andersen-Gill model.|Andersen-Gill model|A robust variance estimate was used, with treatment, hydroxyurea use at baseline and age group included as factors in the model.|The rate ratio and 2-sided 95% CI were estimated from the Andersen-Gill model.|||1.93|0.48|.916
92278949|NCT02761980|184460829|SUPERIORITY||LSM difference|1.26||||0.015|TWO_SIDED|95.0|0.24|2.27||Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|ANCOVA|||WSTD 0-4 hours||2.27|0.24|0.015
92278950|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|1.42||||0.006|TWO_SIDED|95.0|0.4|2.44|||ANCOVA|||WSTD 0-4 hours||2.44|0.40|0.006
92392842|NCT01794000|184685039|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|1.17||||0.544|TWO_SIDED|95.0|0.71|1.91||The time to a recurrent episode of RBC transfusion was analyzed using Andersen-Gill model.|Andersen-Gill model|A robust variance estimate was used, with treatment, hydroxyurea use at baseline and age group included as factors in the model.|The rate ratio and 2-sided 95% CI were estimated from the Andersen-Gill model.|||1.91|0.71|.544
92392843|NCT01794000|184685040|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.513||||0.602|TWO_SIDED|95.0|-4.186|7.213||The MMRM model included the fixed effects of treatment, the baseline value of the pain-diary measure, hydroxyurea use, age group, time and treatment-by-time interaction.|Mixed Models Analysis||The Least Square Mean difference of prasugrel minus placebo and the corresponding 2-sided 95% CI were estimated from the MMRM model.|||7.213|-4.186|.602
92278951|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|-0.16||||0.659|TWO_SIDED|95.0|-0.87|0.55|||ANCOVA|||WSTD 0-4 hours||0.55|-0.87|0.659
92392844|NCT01794000|184685041|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.272||||0.459|TWO_SIDED|95.0|-2.109|4.652||The MMRM model included the fixed effects of treatment, the baseline value of the pain-diary measure, hydroxyurea use, age group, time and treatment-by-time interaction.|Mixed Models Analysis||The LS Mean difference of prasugrel minus placebo and the corresponding 2-sided 95% CI were estimated from the MMRM model.|||4.652|-2.109|.459
92392845|NCT01794000|184685043|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.94||||0.662|TWO_SIDED|95.0|-3.31|5.19||The ANCOVA model included the factors of treatment, hydroxyurea use, age group, and length of follow-up.|ANCOVA||The LS Mean difference of prasugrel minus placebo and 2-sided 95% CI were estimated from the ANCOVA model.|||5.19|-3.31|.662
92392846|NCT01794000|184685044|SUPERIORITY_OR_OTHER_LEGACY|||||||0.317|||||||Log Rank|A stratified log-rank test were performed with hydroxyurea use and age group as the stratification factors.||Time from Randomization to the First VOC||||.317
92392847|NCT01794000|184685044|SUPERIORITY_OR_OTHER_LEGACY|||||||0.133|||||||Log Rank|A stratified log-rank test were performed with hydroxyurea use and age group as the stratification factors.||Time from Randomization to the Second VOC||||.133
92392848|NCT01794000|184685045|SUPERIORITY_OR_OTHER_LEGACY|||||||0.638|||||||Fisher Exact|||||||.638
92392849|NCT00255190|184685046|SUPERIORITY_OR_OTHER|||||||0.042||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.042
92392850|NCT00255190|184685047|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.006
92392851|NCT00255190|184685048|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using a one-way analysis of covariance (ANCOVA) model with treatment as the factor and baseline score as the covariate.||||||0.204
92392852|NCT00255190|184685049|SUPERIORITY_OR_OTHER|||||||0.109||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.109
92392853|NCT00255190|184685050|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||<0.001
92392854|NCT00255190|184685051|SUPERIORITY_OR_OTHER|||||||0.494||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.494
92392855|NCT00255190|184685052|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.026
92392856|NCT00255190|184685053|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.220
92392857|NCT00255190|184685054|SUPERIORITY_OR_OTHER|||||||0.843||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.843
92392858|NCT00255190|184685055|SUPERIORITY_OR_OTHER|||||||0.923||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.923
92392859|NCT00255190|184685056|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||<0.001
92392860|NCT00255190|184685057|SUPERIORITY_OR_OTHER|||||||0.758||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.758
92392861|NCT00255190|184685058|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.737
92392862|NCT00255190|184685059|SUPERIORITY_OR_OTHER|||||||0.673||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.673
92392863|NCT00255190|184685060|SUPERIORITY_OR_OTHER|||||||0.817||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.817
92392864|NCT00255190|184685061|SUPERIORITY_OR_OTHER|||||||0.601||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.601
92392865|NCT00255190|184685062|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.065
92420592|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026||||0.5847|TWO_SIDED|95.0|-0.12|0.068||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.068|-0.120|0.5847
92420593|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067||||0.174|TWO_SIDED|95.0|-0.03|0.163||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.163|-0.030|0.1740
92420594|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.02||||0.6255|TWO_SIDED|95.0|-0.063|0.103||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.103|-0.063|0.6255
92420595|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023||||0.7658|TWO_SIDED|95.0|-0.177|0.131||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.131|-0.177|0.7658
92420596|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079||||0.3309|TWO_SIDED|95.0|-0.082|0.24||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.240|-0.082|0.3309
92420597|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028||||0.6872|TWO_SIDED|95.0|-0.11|0.166||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.166|-0.110|0.6872
92420598|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003||||0.9752|TWO_SIDED|95.0|-0.196|0.202||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.202|-0.196|0.9752
92392866|NCT00255190|184685063|SUPERIORITY_OR_OTHER|||||||0.319||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.319
92392867|NCT00255190|184685064|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.011
92392868|NCT00255190|184685065|SUPERIORITY_OR_OTHER|||||||0.207||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.207
92420599|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143||||0.1715|TWO_SIDED|95.0|-0.064|0.349||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.349|-0.064|0.1715
92420600|NCT01227564|184730233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073||||0.4145|TWO_SIDED|95.0|-0.105|0.25||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.250|-0.105|0.4145
92420601|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.011||||0.5134|TWO_SIDED|95.0|-0.043|0.022||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.022|-0.043|0.5134
92420602|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008||||0.6083|TWO_SIDED|95.0|-0.024|0.041||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.041|-0.024|0.6083
92420603|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001||||0.9401|TWO_SIDED|95.0|-0.029|0.027||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.027|-0.029|0.9401
92420604|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.018||||0.295|TWO_SIDED|95.0|-0.051|0.016||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.016|-0.051|0.2950
92420605|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003||||0.8817|TWO_SIDED|95.0|-0.031|0.037||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.037|-0.031|0.8817
92420606|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008||||0.6072|TWO_SIDED|95.0|-0.037|0.022||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.022|-0.037|0.6072
92420607|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012||||0.6259|TWO_SIDED|95.0|-0.06|0.036||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.036|-0.060|0.6259
92278952|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|2.62|||<|0.001|TWO_SIDED|95.0|1.16|4.08|||ANCOVA|||WSTD 0-6 hours||4.08|1.16|< 0.001
92235875|NCT03478683|184375009|NON_INFERIORITY|Non-inferiority was to be demonstrated, if the lower bound of the two-sided 95 percentage (%) confidence interval around the (FF/UMEC/VI versus BUD/FOR+TIO) treatment difference was above -50 milliliter.|Mean Difference (Net)|0.015|STANDARD_ERROR_OF_MEAN|0.0143|||TWO_SIDED|95.0|-0.013|0.043|||||The primary treatment effect estimated (hypothetical effect) excluded data following intercurrent events: discontinuation of treatment, taking wrong treatment, taking prohibited medication, unblinding, noncompliance, COPD exacerbation or pneumonia.|||0.043|-0.013|
92392869|NCT00255190|184685066|SUPERIORITY_OR_OTHER|||||||0.286||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.286
92392870|NCT00255190|184685067|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.102
92392871|NCT00255190|184685068|SUPERIORITY_OR_OTHER|||||||0.656||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.656
92392872|NCT00255190|184685069|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.176
92392873|NCT00255190|184685070|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.030
92392874|NCT00255190|184685071|SUPERIORITY_OR_OTHER|||||||0.243||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.243
92392875|NCT00255190|184685072|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.005
92392876|NCT00255190|184685073|SUPERIORITY_OR_OTHER|||||||0.469||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.469
92392877|NCT03367858|184685115|SUPERIORITY|||||||0.0173||||||At 12 month follow up.|ANCOVA|||We conducted a repeated measures ANCOVA of Time (Post-Treatment: 3, 6, 12 months) × Treatment (MI, BAM) with the covariate of pre-treatment problem drinking.||||.0173
92420608|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027||||0.2807|TWO_SIDED|95.0|-0.023|0.076||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.076|-0.023|0.2807
92392878|NCT02485561|184685166|SUPERIORITY||F-value|1.019||||0.362|TWO_SIDED||||||ANOVA|||||||.362
92392879|NCT02485561|184685167|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.098||0.024|TWO_SIDED||||||t-test, 2 sided|||||||.024
92392880|NCT02485561|184685167|SUPERIORITY||Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.074||0.75|TWO_SIDED||||||t-test, 2 sided|||||||.75
92392881|NCT02485561|184685168|SUPERIORITY||F-value|6.482||||0.002|TWO_SIDED||||||ANOVA|||||||.002
92392882|NCT02485561|184685168|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.15||0.91|TWO_SIDED||||||t-test, 2 sided|||||||.91
92392883|NCT02485561|184685168|SUPERIORITY||Mean Difference (Final Values)|0.716|STANDARD_ERROR_OF_MEAN|0.182|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
92392884|NCT02485561|184685169|SUPERIORITY||F-value|0.608||||0.55|TWO_SIDED||||||ANOVA|||||||0.55
92392885|NCT02485561|184685170|SUPERIORITY||F-value|16.31|||<|0.001|TWO_SIDED||||||ANOVA|||||||<.001
92392886|NCT02485561|184685170|SUPERIORITY||F-value|2.0||||0.14|TWO_SIDED||||||ANOVA|||||||0.14
92392887|NCT02485561|184685171|SUPERIORITY||F-value|1.68||||0.19|TWO_SIDED||||||ANOVA|||||||.19
92392888|NCT02485561|184685171|SUPERIORITY||F-value|0.021||||0.98|TWO_SIDED||||||ANOVA|||||||.98
92392889|NCT02485561|184685171|SUPERIORITY||F-value|0.312||||0.73|TWO_SIDED||||||ANOVA|||||||.73
92392890|NCT02485561|184685171|SUPERIORITY||F-value|0.702||||0.496|TWO_SIDED||||||ANOVA|||||||.496
92392891|NCT02485561|184685171|SUPERIORITY||F-value|1.88||||0.154|TWO_SIDED||||||ANOVA|||||||.154
92392892|NCT02485561|184685171|SUPERIORITY||F-value|0.667||||0.514|TWO_SIDED||||||ANOVA|||||||.514
92392893|NCT02485561|184685171|SUPERIORITY||F-value|0.666||||0.514|TWO_SIDED||||||ANOVA|||||||.514
92392894|NCT02485561|184685172|SUPERIORITY||F-value|0.59||||0.56|TWO_SIDED||||||ANOVA|||||||.56
92235876|NCT03478683|184375010|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.0139||0.481|TWO_SIDED|95.0|-0.037|0.018||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 2 using p-values.|Mixed model repeated measures||Day 2|||0.018|-0.037|0.481
92235877|NCT03478683|184375010|SUPERIORITY||Mean Difference (Net)|0.061|STANDARD_ERROR_OF_MEAN|0.0124|<|0.001|TWO_SIDED|95.0|0.037|0.086||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 28 using p-values.|Mixed model repeated measures||Day 28|||0.086|0.037|<0.001
92235878|NCT03478683|184375010|SUPERIORITY||Mean Difference (Net)|0.058|STANDARD_ERROR_OF_MEAN|0.0133|<|0.001|TWO_SIDED|95.0|0.032|0.084||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 84 using p-values.|Mixed model repeated measures||Day 84|||0.084|0.032|<0.001
92392895|NCT02485561|184685173|SUPERIORITY||F-value|0.18||||0.84|TWO_SIDED||||||ANOVA|||||||.84
92392896|NCT02485561|184685174|SUPERIORITY||F-value|1.16||||0.31|TWO_SIDED||||||ANOVA|||||||.31
92392897|NCT02485561|184685175|SUPERIORITY||F-value|1.17||||0.31|TWO_SIDED||||||ANOVA|||||||.31
92392898|NCT02485561|184685175|SUPERIORITY||F-value|0.056||||0.95|TWO_SIDED||||||ANOVA|||||||.95
92392899|NCT03101566|184685189|OTHER||||||||||||||||||PFS at 6 months was estimated for this trial using the product-limit method of Kaplan and Meier with 95% confidence intervals calculated using Greenwood's formula. All statistical analyses were completed using the SAS System, v9.4 \[Cary, NC, USA\].|||
92392900|NCT02366195|184685219|OTHER|||||||0.387|||||||Regression, Logistic|||||||0.387
92392901|NCT02366195|184685220|OTHER|Primary completion data.||||||0.056|||||||Regression, Logistic|||||||0.056
92392902|NCT02366195|184685220|OTHER|Final analysis data.||||||0.222|||||||Regression, Logistic|||||||0.222
92392903|NCT02366195|184685221|OTHER|Primary completion data||||||0.335|||||||Cox proportional hazards|||||||0.335
92392904|NCT02366195|184685221|OTHER|Final analysis data||||||0.597|||||||Cox proportional hazards|||||||0.597
92392905|NCT02366195|184685222|OTHER|Primary completion||||||0.82|||||||Fisher's Z transformation|||||||0.82
92392906|NCT02366195|184685222|OTHER|Final analysis data||||||0.9|||||||Fisher's Z transformation|||||||0.90
92392907|NCT02366195|184685223|OTHER|Primary completion data||||||0.66|||||||Regression, Logistic|||||||0.660
92392908|NCT02366195|184685223|OTHER|Final analysis data||||||0.881|||||||Regression, Logistic|||||||0.881
92392909|NCT02366195|184685224|OTHER|Primary completion data||||||0.974|||||||Regression, Logistic|||||||0.974
92392910|NCT02366195|184685224|OTHER|Final analysis data||||||0.612|||||||Regression, Logistic|||||||0.612
92392911|NCT02366195|184685225|OTHER|Primary completion data||||||0.626|||||||Cox proportional hazards|||||||0.626
92392912|NCT02366195|184685225|OTHER|Final analysis data||||||0.579|||||||Cox proportional hazards|||||||0.579
92392913|NCT02366195|184685226|OTHER|Primary completion data||||||0.18|||||||Pearson's correlation coefficient|||||||0.18
92392914|NCT02366195|184685226|OTHER|Final analysis data||||||0.14|||||||Pearson's correlation coefficient|||||||0.14
92392915|NCT00113841|184685234|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||t-test, 2 sided|||||||0.16
92392916|NCT03324802|184685243|SUPERIORITY|||||||1|||||||Log Rank|||||||1.0
92392917|NCT03324802|184685244|SUPERIORITY|||||||1|||||||Log Rank|||||||1.0
92392918|NCT03324802|184685246|SUPERIORITY|||||||0.32|||||||Chi-squared|||||||0.320
92392919|NCT03324802|184685247|SUPERIORITY|||||||0.163|||||||Chi-squared|||||||0.163
92392920|NCT03324802|184685248|SUPERIORITY|||||||0.97|||||||Log Rank|||||||0.97
92392921|NCT03324802|184685249|SUPERIORITY|||||||0.5|||||||Gray Test P-value|||||||0.5
92392922|NCT03324802|184685250|SUPERIORITY|||||||0.54|||||||Log Rank|||||||0.54
92392923|NCT02927392|184685280|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
92392924|NCT01708317|184685284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|||<|0.001||||||We used a cutoff of P\<0.05 as statistically significant.|Chi-squared|3 degrees of freedom to compare 4 time periods.||We compared testing in the 4 time frames described, including the time frame in which we enrolled patients in the ACASI.||||<.001
92392925|NCT02756572|184685403|OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92392926|NCT02756572|184685404|OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92392927|NCT02756572|184685405|OTHER|||||||0.049|||||||Fisher Exact|||||||0.049
92392928|NCT02756572|184685406|OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
92392929|NCT00599872|184685430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.418|||<|0.05|TWO_SIDED|95.0|-1.15|0.48|||ANCOVA|||||0.48|-1.15|<0.05
92392930|NCT00599872|184685431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.36|||<|0.05|TWO_SIDED|95.0|-1.72|0.63|||ANCOVA|||||0.63|-1.72|<0.05
92392931|NCT00387881|184685440|SUPERIORITY_OR_OTHER||Percent difference|18.0|||<|0.001||95.0|10.0|25.0||Endpoints were co-primary and both needed to have p-value of \<0.05 to be considered indicative of efficacy.|Cochran-Mantel-Haenszel||Analysis for Migraine Pain-Free at 2 hours Post-Dose|Pain-Free (2 hours)||25|10|<0.001
92392932|NCT00387881|184685440|SUPERIORITY_OR_OTHER||Percent difference|15.0|||<|0.001||95.0|8.0|22.0|||Cochran-Mantel-Haenszel||Analysis for Sustained Pain Free from 2-24 hours Post-dose|Sustained Pain-Free (2-24 hours)||22|8|<0.001
92392933|NCT00453154|184685451|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using a 1-sided significance level of 0.15, the study has approximately 89% power to reject the null hypothesis|Hazard Ratio (HR)|1.62||||0.02|TWO_SIDED|70.0|1.27|2.08||All randomization was done using a permuted-block scheme with a block size of 6, stratified by combination chemotherapy (cisplatin vs carboplatin) and number of combination chemotherapy cycles (\< 6 vs 6 cycles)|Log Rank|||||2.08|1.27|0.02
92392934|NCT03629886|184685464|OTHER|The IR (n/T) of incident cervical infection with HPV-16 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100 Person-years|0.15|||||TWO_SIDED|95.0|0.09|0.23||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=1963). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||0.23|0.09|
92392935|NCT03629886|184685464|OTHER|The IR (n/T) of incident cervical infection with HPV-16 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.88|||||TWO_SIDED|95.0|0.73|1.05||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=1917). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||1.05|0.73|
92392936|NCT03629886|184685464|OTHER|The IR (n/T) of incident cervical infection with HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.09|||||TWO_SIDED|95.0|0.05|0.15||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-18 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2356). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||0.15|0.05|
92392937|NCT03629886|184685464|OTHER|The IR (n/T) of incident cervical infection with HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.44|||||TWO_SIDED|95.0|0.35|0.56||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-18 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2357). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||0.56|0.35|
92392938|NCT03629886|184685464|OTHER|The IR (n/T) of incident cervical infection with HPV-16 and/or HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100 Person-years|0.2|||||TWO_SIDED|95.0|0.14|0.27||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16/18 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2534). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||0.27|0.14|
92392939|NCT03629886|184685464|OTHER|The IR (n/T) of incident cervical infection with HPV-16 and/or HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100 Person-years|1.02|||||TWO_SIDED|95.0|0.88|1.18||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16/18 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2547). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||1.18|0.88|
92392940|NCT03629886|184685465|OTHER|The IR (n/T) of incident cervical infection with HPV-16 and/or HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.25|||||TWO_SIDED|95.0|0.19|0.33||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16/18 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2818). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.33|0.19|
92392941|NCT03629886|184685465|OTHER|The IR (n/T) of incident cervical infection with HPV-16 and/or HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|1.21|||||TWO_SIDED|95.0|1.06|1.37||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16/18 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2815). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.37|1.06|
92420609|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.008||||0.7224|TWO_SIDED|95.0|-0.035|0.05||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.050|-0.035|0.7224
92235879|NCT03478683|184375010|SUPERIORITY||Mean Difference (Net)|0.038|STANDARD_ERROR_OF_MEAN|0.014||0.007|TWO_SIDED|95.0|0.01|0.066||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 85 using p-values.|Mixed model repeated measures||Day 85|||0.066|0.010|0.007
92392942|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.17|||||TWO_SIDED|95.0|0.11|0.24||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-16 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2718). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.24|0.11|
92392943|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.85|||||TWO_SIDED|95.0|0.72|0.99||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-16 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2722). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.99|0.72|
92392944|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.1|||||TWO_SIDED|95.0|0.06|0.15||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-18 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2781). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.15|0.06|
92392945|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.47||||||95.0|0.38|0.58||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-18 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2781). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.58|0.38|
92392946|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.21|||||TWO_SIDED|95.0|0.15|0.28||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-31 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2786). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.28|0.15|
92392947|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.48|||||TWO_SIDED|95.0|0.39|0.59||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-31 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2782). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.59|0.39|
92392948|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.25|||||TWO_SIDED|95.0|0.18|0.33||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-33 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2779). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.33|0.18|
92392949|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.41|||||TWO_SIDED|95.0|0.33|0.51||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-33 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2784). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.51|0.33|
92392950|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.3|||||TWO_SIDED|95.0|0.23|0.39||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-35 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2806). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.39|0.23|
92392951|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.36|||||TWO_SIDED|95.0|0.28|0.46||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-35 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2803). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.46|0.28|
92392952|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.88||||||95.0|0.75|1.02||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-39 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2759). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.02|0.75|
92392953|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.79|||||TWO_SIDED|95.0|0.67|0.93||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-39 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2773). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.93|0.67|
92392954|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.11|||||TWO_SIDED|95.0|0.07|0.16||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-45 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2794). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.16|0.07|
92392955|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.21|||||TWO_SIDED|95.0|0.15|0.28||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-45 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2802). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.28|0.15|
92278953|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.79||||0.135|TWO_SIDED|95.0|-0.25|1.82|||ANCOVA|||WSTD 0-6 hours||1.82|-0.25|0.135
92420610|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007||||0.8532|TWO_SIDED|95.0|-0.08|0.067||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.067|-0.080|0.8532
92420611|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039||||0.3116|TWO_SIDED|95.0|-0.038|0.116||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.116|-0.038|0.3116
92420612|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016||||0.6246|TWO_SIDED|95.0|-0.049|0.082||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.082|-0.049|0.6246
92420613|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008||||0.8697|TWO_SIDED|95.0|-0.092|0.108||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.108|-0.092|0.8697
92392956|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|1.02|||||TWO_SIDED|95.0|0.88|1.18||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-51 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2753). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.18|0.88|
92392957|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|1.18|||||TWO_SIDED|95.0|1.03|1.34||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-51 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2756). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.34|1.03|
92420614|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.072||||0.1707|TWO_SIDED|95.0|-0.032|0.176||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.176|-0.032|0.1707
92420615|NCT01227564|184730234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.3732|TWO_SIDED|95.0|-0.049|0.129||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.129|-0.049|0.3732
92420616|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006||||0.7259|TWO_SIDED|95.0|-0.04|0.028||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.028|-0.040|0.7259
92420617|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016||||0.3517|TWO_SIDED|95.0|-0.018|0.051||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.051|-0.018|0.3517
92420618|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005||||0.7311|TWO_SIDED|95.0|-0.024|0.035||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.035|-0.024|0.7311
92420619|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008||||0.6446|TWO_SIDED|95.0|-0.041|0.026||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.026|-0.041|0.6446
92420620|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.064|TWO_SIDED|95.0|-0.002|0.066||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.066|-0.002|0.0640
92420621|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012||||0.4057|TWO_SIDED|95.0|-0.017|0.041||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.041|-0.017|0.4057
92420622|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015||||0.5742|TWO_SIDED|95.0|-0.066|0.037||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.037|-0.066|0.5742
92420623|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.1336|TWO_SIDED|95.0|-0.013|0.093||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.093|-0.013|0.1336
92420624|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.013||||0.5734|TWO_SIDED|95.0|-0.033|0.058||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.058|-0.033|0.5734
92278954|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.7||||0.186|TWO_SIDED|95.0|-0.34|1.74|||ANCOVA|||WSTD 0-6 hours||1.74|-0.34|0.186
92392958|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|1.67|||||TWO_SIDED|95.0|1.48|1.87||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-52 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2666). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.87|1.48|
92392959|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|1.8|||||TWO_SIDED|95.0|1.61|2.0||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-52 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2663). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||2.00|1.61|
92420625|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.016||||0.7067|TWO_SIDED|95.0|-0.104|0.071||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.071|-0.104|0.7067
92446446|NCT03633396|184779883|OTHER||Least Squares (LS) Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.98||0.944|TWO_SIDED|95.0|-4.05|3.77|||Mixed-model Repeated Measures (MMRM)|MMRM including fixed effects of treatment, history of plaque psoriasis, visit, treatment by visit interaction, and Baseline PPPASI score as covariate.|Least-squares mean difference = Imsidolimab - Placebo|The change from Baseline in PPPASI at Week 16 was analyzed using a a general linear mixed model for repeated measures (MMRM). The model included fixed effects for treatment, history of plaque psoriasis (Yes/No), visit, treatment by visit interaction, and Baseline PPPASI score as covariate.||3.77|-4.05|0.944
92235880|NCT03478683|184375011|SUPERIORITY||Mean Difference (Net)|-0.009|STANDARD_ERROR_OF_MEAN|0.011||0.415|TWO_SIDED|95.0|-0.03|0.013||Only if superiority is achieved on the primary study endpoint, then inferences can be made on weighted mean change from Baseline in FEV1 over 0-24 hours on Day 1 using p-values.|Mixed model repeated measures||The treatment effect to be estimated was hypothetical effect if all participants stayed on their randomized study treatment. Only on treatment data was included in analysis.|||0.013|-0.030|0.415
92235881|NCT03478683|184375012|SUPERIORITY||Mean Difference (Net)|0.013|STANDARD_ERROR_OF_MEAN|0.0138||0.335|TWO_SIDED|95.0|-0.014|0.04||The analysis was performed using mixed model repeated measures analysis, which included covariates of Baseline FEV1, geographical region, treatment, visit, visit by treatment and visit by Baseline interaction.|Mixed model repeated measures||The treatment effect to be estimated was hypothetical effect if all participants stayed on their randomized study treatment. Only on treatment data was included in analysis.|||0.040|-0.014|0.335
92235882|NCT02273973|184375029|SUPERIORITY||Difference in Response Rates|10.71||||0.049|TWO_SIDED|95.0|0.11|21.32|||Cochran-Mantel-Haenszel|||||21.32|0.11|0.0490
92235883|NCT02273973|184375030|SUPERIORITY||Difference in Response Rates|1.21||||0.3698|TWO_SIDED|95.0|-1.12|3.55|||Fisher Exact|||||3.55|-1.12|0.3698
92235884|NCT02273973|184375031|SUPERIORITY||Difference in Response Rates|18.19||||0.0332|TWO_SIDED|95.0|2.57|33.81|||Cochran-Mantel-Haenszel|||||33.81|2.57|0.0332
92235885|NCT02273973|184375032|SUPERIORITY||Difference in Response Rates|1.37||||0.4803|TWO_SIDED|95.0|-1.3|4.04|||Fisher Exact|||||4.04|-1.30|0.4803
92235886|NCT02273973|184375033|SUPERIORITY||Difference in Response Rates|5.2||||0.5017|TWO_SIDED|95.0|-9.2|19.61|||Cochran-Mantel-Haenszel|||||19.61|-9.20|0.5017
92235887|NCT02273973|184375034|SUPERIORITY||Difference in Response Rates|1.05||||1|TWO_SIDED|95.0|-2.65|4.75|||Fisher Exact|||||4.75|-2.65|1.0000
92235888|NCT02273973|184375035|SUPERIORITY||Difference in Response Rates|21.14||||0.0115|TWO_SIDED|95.0|5.59|36.68|||Cochran-Mantel-Haenszel|||||36.68|5.59|0.0115
92235889|NCT02273973|184375036|SUPERIORITY||Difference in Response Rates|2.66||||0.7928|TWO_SIDED|95.0|-11.88|17.2|||Cochran-Mantel-Haenszel|||||17.20|-11.88|0.7928
92235890|NCT02273973|184375037|SUPERIORITY||Difference in Response Rates|9.45||||0.2659|TWO_SIDED|95.0|-5.8|24.7|||Cochran-Mantel-Haenszel|||||24.70|-5.80|0.2659
92235891|NCT02273973|184375038|SUPERIORITY||Difference in Response Rates|7.63||||0.3299|TWO_SIDED|95.0|-6.34|21.6|||Cochran-Mantel-Haenszel|||||21.60|-6.34|0.3299
92235892|NCT02273973|184375039|SUPERIORITY||Difference in Response Rates|10.68||||0.1554|TWO_SIDED|95.0|-3.96|25.32|||Cochran-Mantel-Haenszel|||||25.32|-3.96|0.1554
92278955|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|1.83||||0.014|TWO_SIDED|95.0|0.37|3.29|||ANCOVA|||WSTD 0-6 hours||3.29|0.37|0.014
92278956|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|1.92||||0.011|TWO_SIDED|95.0|0.45|3.39|||ANCOVA|||WSTD 0-6 hours||3.39|0.45|0.011
92235893|NCT02273973|184375040|SUPERIORITY||Difference in Response Rates|2.41||||0.787|TWO_SIDED|95.0|-11.82|16.63|||Cochran-Mantel-Haenszel|||||16.63|-11.82|0.7870
92235894|NCT02273973|184375041|SUPERIORITY||Ratio of Least square mean|0.83||||0.117|TWO_SIDED|95.0|0.65|1.05|||Regression, Linear|||Statistical analysis for changes in Ki67 levels from Baseline to Week 3.||1.05|0.65|0.117
92420626|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042||||0.36|TWO_SIDED|95.0|-0.049|0.132||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.132|-0.049|0.3600
92420627|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.013||||0.7454|TWO_SIDED|95.0|-0.065|0.09||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.090|-0.065|0.7454
92420628|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006||||0.9037|TWO_SIDED|95.0|-0.113|0.1||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.100|-0.113|0.9037
92420629|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.2082|TWO_SIDED|95.0|-0.04|0.181||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.181|-0.040|0.2082
92420630|NCT01227564|184730235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.5044|TWO_SIDED|95.0|-0.063|0.127||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.127|-0.063|0.5044
92420631|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.7687|TWO_SIDED|95.0|-0.23|0.17||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.17|-0.23|0.7687
92278957|NCT02761980|184460829|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|-0.09||||0.865|TWO_SIDED|95.0|-1.12|0.94|||ANCOVA|||WSTD 0-6 hours||0.94|-1.12|0.865
92420632|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.6804|TWO_SIDED|95.0|-0.16|0.24||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.24|-0.16|0.6804
92420633|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9452|TWO_SIDED|95.0|-0.17|0.18||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.18|-0.17|0.9452
92446447|NCT03633396|184779885|OTHER||Odds Ratio (OR)|0.879|||||TWO_SIDED|95.0|0.288|2.686|||||Odds ratio from a logistic regression model including treatment as fixed effect, history of plaque psoriasis and Baseline PPPASI score as covariates and using multiple imputation for missing data.|||2.686|0.288|
92446448|NCT03633396|184779886|OTHER||Odds Ratio (OR)|2.6|||||TWO_SIDED|95.0|0.5|13.9|||||Odds ratio from a logistic regression model including treatment as fixed effect, history of plaque psoriasis and Baseline PPPIGA score as covariates and using multiple imputation for missing data.|||13.9|0.5|
92278958|NCT02761980|184460830|SUPERIORITY|||||||0.449||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.449
92278959|NCT02761980|184460830|SUPERIORITY|||||||0.142||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.142
92420634|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.8825|TWO_SIDED|95.0|-0.27|0.23||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.23|-0.27|0.8825
92420635|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.8791|TWO_SIDED|95.0|-0.28|0.24||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.24|-0.28|0.8791
92420636|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.02||||0.8628|TWO_SIDED|95.0|-0.24|0.2||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.20|-0.24|0.8628
92420637|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.7843|TWO_SIDED|95.0|-0.35|0.26||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.26|-0.35|0.7843
92420638|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.0857|TWO_SIDED|95.0|-0.04|0.6||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.60|-0.04|0.0857
92420639|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.3878|TWO_SIDED|95.0|-0.15|0.39||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.39|-0.15|0.3878
92420640|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.8918|TWO_SIDED|95.0|-0.39|0.45||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.45|-0.39|0.8918
92446449|NCT00023673|184779890|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|2-sided significance level = 0.05||Lung toxicity (\<Grade 3 vs. \>= Grade 3): Lung V20||||0.62
92170103|NCT02376790|184229109|SUPERIORITY||LS Mean Treatment Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.85||0.56|TWO_SIDED|95.0|-2.16|1.16||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in Mental Component Summary at week 24||1.16|-2.16|0.56
92278960|NCT02761980|184460830|SUPERIORITY|||||||0.822||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.822
92446450|NCT00023673|184779890|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|2-sided significance level = 0.05||Esophagitis toxicity (\<Grade 2 vs. \>= Grade 2): Lung V20||||0.22
92446451|NCT00023673|184779891|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|2-sided significance level = 0.05||Lung toxicity (\<Grade 3 vs. \>= Grade 3): Mean Lung Dose||||0.30
92446452|NCT00023673|184779891|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|2-sided significance level = 0.05||Esophagitis toxicity (\<Grade 2 vs. \>= Grade 2): Mean Lung Dose||||0.17
92278961|NCT02761980|184460830|SUPERIORITY|||||||0.671||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.671
92278962|NCT02761980|184460830|SUPERIORITY|||||||0.514||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.514
92170104|NCT02376790|184229110|SUPERIORITY||LS Mean Treatment Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.24||0.02|TWO_SIDED|95.0|-1.03|-0.09||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||-0.09|-1.03|0.020
92420641|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.1233|TWO_SIDED|95.0|-0.09|0.76||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.76|-0.09|0.1233
92392960|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.61|||||TWO_SIDED|95.0|0.5|0.73||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-56 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2783). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.73|0.50|
92392961|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.64|||||TWO_SIDED|95.0|0.53|0.76||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-56 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2779). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.76|0.53|
92392962|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.51|||||TWO_SIDED|95.0|0.42|0.62||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-58 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2772). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.62|0.42|
92392963|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.65||||||95.0|0.55|0.77||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-58 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2768). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.77|0.55|
92420642|NCT01227564|184730236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.3302|TWO_SIDED|95.0|-0.19|0.55||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.55|-0.19|0.3302
92420643|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.65||||0.1597|TWO_SIDED|95.0|-0.67|3.97||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||3.97|-0.67|0.1597
92446453|NCT00023673|184779891|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|2-sided significance level = 0.05||Esophagitis toxicity (\<Grade 2 vs. \>= Grade 2): Mean Esophageal Dose||||0.08
92446454|NCT00667342|184779917|OTHER|The association between response and Ktrans at Week 10 was evaluated.||||||0.0863|||||||Logistic Regression|||||||0.0863
92446455|NCT00667342|184779918|OTHER|The association between response and Vp at Week 10 was evaluated.||||||0.0573|||||||Logistic Regression|||||||0.0573
92170105|NCT02376790|184229110|SUPERIORITY||LS Mean Treatment Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.1|TWO_SIDED|95.0|-0.88|0.08||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||0.08|-0.88|0.10
92235895|NCT02273973|184375041|SUPERIORITY||Ratio of Least square mean|1.25||||0.105|TWO_SIDED|95.0|0.95|1.65|||Regression, Linear|||Statistical analysis for changes in Ki67 levels from Baseline to Surgery.||1.65|0.95|0.105
92235896|NCT02273973|184375043|SUPERIORITY||Least squares mean difference|-13.32||||0.002|TWO_SIDED|95.0|-21.67|-4.96|||Regression, Linear|||||-4.96|-21.67|0.002
92235897|NCT02531035|184375075|SUPERIORITY||Percentage difference|13.4|||<|0.001|TWO_SIDED|95.0|8.97|17.81||P-values from Cochran-Mantel-Haenszel test stratified by different levels of stratification factors of BMI at Screening(\<25 kg/m\^2,\>=25 kg/m\^2),Week -2 A1C(\<=9.0%, \>9.0%),and using continuous subcutaneous insulin infusion(CSII) at Screening(yes,no).|Cochran-Mantel-Haenszel|||||17.81|8.97|< 0.001
92392964|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.31|||||TWO_SIDED|95.0|0.24|0.4||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-59 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2814). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.40|0.24|
92420644|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55||||0.213|TWO_SIDED|95.0|-4.01|0.91||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.91|-4.01|0.2130
92446456|NCT00667342|184779919|OTHER|The association between response and Ve at Week 10 was evaluated.||||||0.0863|||||||Logistic Regression|||||||0.0863
92446457|NCT00293384|184779939|SUPERIORITY_OR_OTHER||proportion|0.57||||0.1|TWO_SIDED|||||85% statistical power|Simon optimal design|||Optimal Simon design for phase II study. p0=45% p1=65%.||||0.10
92170106|NCT02376790|184229112|SUPERIORITY||LS Mean Treatment Difference|13.92|STANDARD_ERROR_OF_MEAN|33.23||0.68|TWO_SIDED|95.0|-51.52|79.36||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||79.36|-51.52|0.68
92392965|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.36|||||TWO_SIDED|95.0|0.28|0.45||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-59 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2797). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.45|0.28|
92392966|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.62|||||TWO_SIDED|95.0|0.51|0.74||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-66 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2779). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.74|0.51|
92392967|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.64|||||TWO_SIDED|95.0|0.54|0.77||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-66 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2763). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.77|0.54|
92392968|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.56||||||95.0|0.46|0.68||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-68 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2775). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.68|0.46|
92392969|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.59|||||TWO_SIDED|95.0|0.49|0.71||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-68 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2785). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.71|0.49|
92446458|NCT00293384|184779940|SUPERIORITY_OR_OTHER||proportion|0.63||||||||||||||||||
92446459|NCT00293384|184779942|SUPERIORITY_OR_OTHER||proportion|0.06|||||TWO_SIDED|||||||||||||
92170107|NCT02376790|184229112|SUPERIORITY||LS Mean Treatment Difference|6.34|STANDARD_ERROR_OF_MEAN|33.05||0.85|TWO_SIDED|95.0|-58.75|71.42||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||71.42|-58.75|0.85
92392970|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.5|||||TWO_SIDED|95.0|0.41|0.61||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-31/33/45 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2823). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.61|0.41|
92420645|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.9616|TWO_SIDED|95.0|-2.06|2.16||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||2.16|-2.06|0.9616
92420646|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.78||||0.2143|TWO_SIDED|95.0|-1.06|4.62||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||4.62|-1.06|0.2143
92420647|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.87||||0.2151|TWO_SIDED|95.0|-4.87|1.12||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||1.12|-4.87|0.2151
92420648|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.05||||0.9704|TWO_SIDED|95.0|-2.61|2.51||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||2.51|-2.61|0.9704
92420649|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.7857|TWO_SIDED|95.0|-3.0|3.95||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||3.95|-3.00|0.7857
92420650|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.79||||0.1323|TWO_SIDED|95.0|-6.45|0.87||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.87|-6.45|0.1323
92446460|NCT00326612|184779982|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||||95.0||||||||||||
92278963|NCT02761980|184460830|SUPERIORITY|||||||0.191||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.191
92446461|NCT00326612|184779983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||||95.0|0.2|3.9||||||||3.9|0.2|
92446462|NCT00326612|184779984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||||95.0|0.4|2.7||||||||2.7|0.4|
92446463|NCT00326612|184779985|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||||95.0|0.2|8.2||||||||8.2|0.2|
92278964|NCT02761980|184460831|SUPERIORITY|||||||0.997||||||P-value, hazard ratio (HR) and corresponding 95% CI were calculated based on the proportional hazards (PH) model with treatment term in the model.|hazard ratio|||||||0.997
92278965|NCT02761980|184460831|SUPERIORITY|||||||0.998||||||P-value, HR and corresponding 95% CI were calculated based on the PH model with treatment term in the model.|Hazard Ratio|||||||0.998
92446464|NCT00326612|184779986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||||95.0|0.0|67.3||||||||67.3|0.0|
92446465|NCT00326612|184779987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6||||||95.0|0.2|140.7||||||||140.7|0.2|
92446466|NCT00640510|184779991|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||t-test, 2 sided|||A sample size of at least 15 patients per group was necessary to verify that the decrease in PANSS-EC total score was significantly greater in the IM olanzapine group than the placebo group using Student's t-test with a power of 90% at a two-sided significance level of 5%.||||0.940
92446467|NCT00640510|184779992|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for Change from Baseline to 15 minutes. Change = Timepoint minus Baseline.|t-test, 2 sided|||||||1.000
92446468|NCT00640510|184779992|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||P-value for Change from Baseline to 30 minutes. Change = Timepoint minus baseline.|t-test, 2 sided|||||||0.620
92392971|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.97|||||TWO_SIDED|95.0|0.84|1.12||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-31/33/45 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2824). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.12|0.84|
92420651|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.4618|TWO_SIDED|95.0|-4.29|1.97||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.97|-4.29|0.4618
92278966|NCT02761980|184460831|SUPERIORITY|||||||0.997||||||P-value, HR and corresponding 95% CI were calculated based on the PH model with treatment term in the model.|Hazard Ratio|||||||0.997
92278967|NCT02761980|184460832|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.67||||0.101|TWO_SIDED|95.0|-0.13|1.48|||ANCOVA|||||1.48|-0.13|0.101
92278968|NCT02761980|184460832|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.16||||0.582|TWO_SIDED|95.0|-0.41|0.73|||ANCOVA|||||0.73|-0.41|0.582
92392972|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.75|||||TWO_SIDED|95.0|0.63|0.88||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-16/18/33/31/45 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2823). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.88|0.63|
92392973|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|2.11|||||TWO_SIDED|95.0|1.91|2.33||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-16/18/33/31/45 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2825). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||2.33|1.91|
92392974|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|5.13|||||TWO_SIDED|95.0|4.79|5.49||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HRW-HPV incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2823). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||5.49|4.79|
92392975|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|5.72|||||TWO_SIDED|95.0|5.36|6.1||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HRW-HPV incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2825). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||6.10|5.36|
92392976|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|5.29|||||TWO_SIDED|95.0|4.94|5.65||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HR-HPV incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2823). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||5.65|4.94|
92392977|NCT03629886|184685466|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|6.29|||||TWO_SIDED|95.0|5.91|6.69||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HR-HPV incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2825). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||6.69|5.91|
92392978|NCT00496015|184685535|SUPERIORITY|Superiority criteria: The lower limit (LL) of the standardized asymptotic 95% confidence interval (CI) for the difference between groups (Synflorix PRE Group minus Synflorix I Group) was above 0%.|Difference in percentages|22.18|||||TWO_SIDED|95.0|11.78|32.11||||||||32.11|11.78|
92392979|NCT00669214|184685582|SUPERIORITY_OR_OTHER||Difference in proportion|0.163||||0.1054||95.0|-0.063|0.393|||Fisher Exact|The p-value was based on the Fisher exact test for a 2x2 contingency table.||||0.393|-0.063|0.1054
92392980|NCT00669214|184685584|SUPERIORITY_OR_OTHER||Difference in proportion|0.155||||0.2404||95.0|-0.072|0.388|||Fisher Exact|The p-value was based on the Fisher exact test for a 2x2 contingency table.||||0.388|-0.072|0.2404
92392981|NCT00669214|184685586|SUPERIORITY_OR_OTHER||Difference in proportion|0.228||||0.0366||95.0|0.003|0.452|||Fisher Exact|The p-value was based on the Fisher exact test for a 2x2 contingency table.||||0.452|0.003|0.0366
92392982|NCT00669214|184685588|SUPERIORITY_OR_OTHER||Difference in mean change from Day 0|3.33||||0.1816||95.0|-2.811|9.471|||Student T-test|||||9.471|-2.811|0.1816
92392983|NCT00669214|184685590|SUPERIORITY_OR_OTHER||Difference in mean change from Day 0|1.19||||0.0435||95.0|-0.161|2.532|||Student T-test|||||2.532|-0.161|0.0435
92392984|NCT00669214|184685592|SUPERIORITY_OR_OTHER|||||||0.0224||95.0|||||Wilcoxon rank sum|||||||0.0224
92392985|NCT03956550|184685604|SUPERIORITY|||||||0.2978|||||||Mixed Models Analysis|||||||0.2978
92392986|NCT03956550|184685604|SUPERIORITY|||||||0.689|||||||Mixed Models Analysis|||||||0.6890
92392987|NCT03956550|184685605|SUPERIORITY|||||||0.1973|||||||Mixed Models Analysis|||||||0.1973
92392988|NCT03956550|184685605|SUPERIORITY|||||||0.942|||||||Mixed Models Analysis|||||||0.9420
92392989|NCT03956550|184685606|SUPERIORITY|||||||0.1597|||||||Mixed Models Analysis|||||||0.1597
92392990|NCT03956550|184685606|SUPERIORITY|||||||0.9719|||||||Mixed Models Analysis|||||||0.9719
92392991|NCT03956550|184685607|SUPERIORITY|||||||0.1365|||||||Mixed Models Analysis|||||||0.1365
92392992|NCT03956550|184685607|SUPERIORITY|||||||0.0604|||||||Mixed Models Analysis|||||||0.0604
92392993|NCT03956550|184685608|SUPERIORITY|||||||0.0989|||||||Mixed Models Analysis|||||||0.0989
92392994|NCT03956550|184685608|SUPERIORITY|||||||0.5487|||||||Mixed Models Analysis|||||||0.5487
92392995|NCT03956550|184685609|SUPERIORITY|||||||0.3572|||||||Cochran-Mantel-Haenszel|||||||0.3572
92392996|NCT03956550|184685609|SUPERIORITY|||||||0.5747|||||||Cochran-Mantel-Haenszel|||||||0.5747
92170108|NCT02376790|184229113|SUPERIORITY||Treatment Difference|12.9||||0.057|TWO_SIDED|95.0|-0.4|26.2||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||26.2|-0.4|0.057
92392997|NCT02341235|184685644|SUPERIORITY|||||||0.35|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.35
92392998|NCT02341235|184685645|SUPERIORITY|||||||0.22|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||0.22
92392999|NCT02341235|184685646|SUPERIORITY|||||||0.97|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.97
92393000|NCT02341235|184685647|SUPERIORITY|||||||0.98|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.98
92393001|NCT02341235|184685648|SUPERIORITY|||||||0.83|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.83
92393002|NCT02341235|184685649|SUPERIORITY|||||||0.055|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.055
92393003|NCT02341235|184685650|SUPERIORITY|||||||0.71|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.71
92393004|NCT02341235|184685651|SUPERIORITY|||||||0.33|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.33
92393005|NCT02341235|184685652|SUPERIORITY|||||||0.94|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.94
92393006|NCT02341235|184685653|SUPERIORITY|||||||0.57|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.57
92393007|NCT02341235|184685654|SUPERIORITY|||||||0.3|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.30
92393008|NCT02341235|184685655|SUPERIORITY|||||||0.44|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.44
92393009|NCT02341235|184685656|SUPERIORITY|||||||0.62|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.62
92393010|NCT02341235|184685657|SUPERIORITY|||||||0.7|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.70
92393011|NCT02341235|184685658|SUPERIORITY|||||||0.41|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.41
92393012|NCT02341235|184685659|SUPERIORITY|||||||0.72|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.72
92393013|NCT02341235|184685666|SUPERIORITY|||||||0.084|||||||ANCOVA|||||||0.084
92393014|NCT02341235|184685668|SUPERIORITY|||||||0.58|||||||ANCOVA|||||||0.580
92393015|NCT02341235|184685676|SUPERIORITY|||||||0.461|||||||ANCOVA|||||||0.461
92393016|NCT02341235|184685678|SUPERIORITY|||||||0.934|||||||ANCOVA|||||||0.934
92393017|NCT04244253|184685688|SUPERIORITY||Difference of score|-1.1||||0.288|TWO_SIDED|95.0|-3.3|1.0|||Mixed-model repeated measures|MMRM included treatment, visit, treatment-by-visit interaction, baseline, and baseline-by-visit interaction using an unstructured covariance matrix.||The statistical analysis was performed at Week 6 to compare the OPC-64005 20-mg group and placebo group.||1.0|-3.3|0.288
92393018|NCT04244253|184685689|OTHER||Difference in response rate|5.6||||0.329|TWO_SIDED|95.0|-5.6|16.8|||χ2 test|The MADRS response rate in the OPC-64005 20-mg group and the placebo group were compared using the χ2 test in the LOCF dataset.||The statistical analysis was performed at Week 6 to compare the OPC-64005 20-mg group and placebo group.||16.8|-5.6|0.329
92393019|NCT04244253|184685690|OTHER||Difference of Proportion|1.5||||0.731|TWO_SIDED|95.0|-7.2|10.3|||χ2 test|The MADRS remission rate in the OPC-64005 20-mg group and placebo group were compared using the χ2 test in the LOCF dataset.||The statistical analysis was performed at Week 6 to compare the OPC-64005 20-mg group and placebo group.||10.3|-7.2|0.731
92393020|NCT01544920|184685691|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower bound of the 95% CI of the difference in SVR24 % exceeded -10%.|Difference in SVR24% in Arm 2 vs. Arm 1|1.7|||||TWO_SIDED|95.0|-3.2|6.5||||||Difference in percentage of participants achieving SVR24||6.5|-3.2|
92393021|NCT01544920|184685692|NON_INFERIORITY_OR_EQUIVALENCE|The observed lower bound of the 95% CI for the difference was 2.5% (which exceeds 0) for BOC added to peg-IFN + RBV in contrast to peg-IFN + RBV alone.|Difference in SVR24%|10.3|||||TWO_SIDED|95.0|2.5|18.1||||||||18.1|2.5|
92393022|NCT00411749|184685693|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92393023|NCT00411749|184685694|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92393024|NCT00411749|184685695|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92393025|NCT00411749|184685696|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92393026|NCT00411749|184685697|SUPERIORITY_OR_OTHER||Geometric Mean|155.2|||||TWO_SIDED|95.0|126.2|190.9||||||||190.9|126.2|
92420652|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.24||||0.2622|TWO_SIDED|95.0|-1.74|6.22||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||6.22|-1.74|0.2622
92393027|NCT00411749|184685697|SUPERIORITY_OR_OTHER||Geometric Mean|198.2|||||TWO_SIDED|95.0|160.9|244.2||||||||244.2|160.9|
92393028|NCT00411749|184685697|SUPERIORITY_OR_OTHER||Geometric Mean|617.1|||||TWO_SIDED|95.0|491.7|774.5||||||||774.5|491.7|
92393029|NCT00411749|184685697|SUPERIORITY_OR_OTHER||Geometric Mean|90.0|||||TWO_SIDED|95.0|68.8|117.8||||||||117.8|68.8|
92393030|NCT03001557|184685706|SUPERIORITY||Least square mean (LSM) difference|3.177||||0.1099|TWO_SIDED|95.0|-0.741|7.096||Based on a mixed model for repeated measure (MMRM) analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||7.096|-0.741|0.1099
92393031|NCT03001557|184685706|SUPERIORITY||LSM Difference|2.802||||0.1576|TWO_SIDED|95.0|-1.119|6.723||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||6.723|-1.119|0.1576
92393032|NCT03001557|184685706|SUPERIORITY||LSM Difference|-0.96||||0.616|TWO_SIDED|95.0|-4.777|2.857||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2.857|-4.777|0.6160
92420653|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55||||0.4499|TWO_SIDED|95.0|-5.64|2.55||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.55|-5.64|0.4499
92420654|NCT01227564|184730237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.8454|TWO_SIDED|95.0|-3.21|3.91||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||3.91|-3.21|0.8454
92420655|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.1796|TWO_SIDED|95.0|-0.18|0.96||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.96|-0.18|0.1796
92420656|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.7281|TWO_SIDED|95.0|-0.49|0.69||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.69|-0.49|0.7281
92420657|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.3347|TWO_SIDED|95.0|-0.26|0.75||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.75|-0.26|0.3347
92393033|NCT03001557|184685706|SUPERIORITY||LSM Difference|0.713||||0.7135|TWO_SIDED|95.0|-3.16|4.585||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||4.585|-3.160|0.7135
92393034|NCT03001557|184685710|SUPERIORITY||LSM Difference|-5.098||||0.1582|TWO_SIDED|95.0|-12.24|2.045||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2.045|-12.240|0.1582
92393035|NCT03001557|184685710|SUPERIORITY||LSM Difference|-6.105||||0.0961|TWO_SIDED|95.0|-13.332|1.122||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1.122|-13.332|0.0961
92393036|NCT03001557|184685710|SUPERIORITY||LSM Difference|0.68||||0.8449|TWO_SIDED|95.0|-6.262|7.623||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||7.623|-6.262|0.8449
92393037|NCT03001557|184685710|SUPERIORITY||LSM Difference|-3.14||||0.3747|TWO_SIDED|95.0|-10.178|3.897||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||3.897|-10.178|0.3747
92393038|NCT03001557|184685714|SUPERIORITY||LSM Difference|1.932||||0.3966|TWO_SIDED|95.0|-2.601|6.465||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||6.465|-2.601|0.3966
92420658|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.3425|TWO_SIDED|95.0|-0.43|1.2||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||1.20|-0.43|0.3425
92420659|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.4501|TWO_SIDED|95.0|-1.16|0.52||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.52|-1.16|0.4501
92420660|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.04||||0.9227|TWO_SIDED|95.0|-0.68|0.75||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.75|-0.68|0.9227
92420661|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.345|TWO_SIDED|95.0|-0.51|1.45||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.45|-0.51|0.3450
92420662|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.274|TWO_SIDED|95.0|-1.58|0.45||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.45|-1.58|0.2740
92420663|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.914|TWO_SIDED|95.0|-0.92|0.82||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.82|-0.92|0.9140
92420664|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03||||0.0923|TWO_SIDED|95.0|-0.18|2.24||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.24|-0.18|0.0923
92420665|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.8482|TWO_SIDED|95.0|-1.11|1.35||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||1.35|-1.11|0.8482
92446469|NCT00640510|184779992|SUPERIORITY_OR_OTHER|||||||0.784||95.0||||P-value for Change from Baseline to 60 minutes. Change = Timepoint minus baseline.|t-test, 2 sided|||||||0.784
92171795|NCT03897686|184233254|SUPERIORITY||LS-means difference|-133.29|STANDARD_ERROR_OF_MEAN|35.26||0.00023|TWO_SIDED|95.0|-203.03|-63.55||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in functionality WOMAC score, visit 5||-63.55|-203.03|0.00023
92446470|NCT00640510|184779992|SUPERIORITY_OR_OTHER|||||||0.756||95.0||||P-value for Change from Baseline to 90 minutes. Change = Timepoint minus baseline.|t-test, 2 sided|||||||0.756
92446471|NCT00640510|184779993|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.000
92446472|NCT00640510|184779994|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for 30 Minutes.|Fisher Exact|||||||1.000
92446473|NCT00640510|184779994|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for 60 Minutes.|Fisher Exact|||||||1.000
92446474|NCT00640510|184779994|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for 90 Minutes.|Fisher Exact|||||||1.000
92446475|NCT00640510|184779994|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for 2 Hours.|Fisher Exact|||||||1.000
92420666|NCT01227564|184730238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57||||0.284|TWO_SIDED|95.0|-0.49|1.64||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||1.64|-0.49|0.2840
92420667|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99||||0.1767|TWO_SIDED|95.0|-4.9|0.92||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.92|-4.90|0.1767
92420668|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.26||||0.0057|TWO_SIDED|95.0|-7.23|-1.29||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||-1.29|-7.23|0.0057
92420669|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.13||||0.0176|TWO_SIDED|95.0|-5.69|-0.57||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||-0.57|-5.69|0.0176
92420670|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.679|TWO_SIDED|95.0|-3.98|2.61||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||2.61|-3.98|0.6790
92420671|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.9028|TWO_SIDED|95.0|-3.62|3.2||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||3.20|-3.62|0.9028
92170109|NCT02376790|184229113|SUPERIORITY||Treatment Difference|10.9||||0.12|TWO_SIDED|95.0|-2.5|24.4||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||24.4|-2.5|0.12
92420672|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.45||||0.76|TWO_SIDED|95.0|-3.36|2.47||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||2.47|-3.36|0.7600
92278969|NCT02761980|184460832|SUPERIORITY||LSM difference|0.15||||0.614|TWO_SIDED|95.0|-0.43|0.72|||ANCOVA|||Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.||0.72|-0.43|0.614
92170110|NCT02376790|184229114|SUPERIORITY||LS Mean Treatment Difference|0.16|STANDARD_ERROR_OF_MEAN|0.42||0.7|TWO_SIDED|95.0|-0.66|0.98||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||0.98|-0.66|0.70
92393039|NCT03001557|184685714|SUPERIORITY||LSM Difference|3.386||||0.1381|TWO_SIDED|95.0|-1.125|7.897||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||7.897|-1.125|0.1381
92393040|NCT03001557|184685714|SUPERIORITY||LSM Difference|1.337||||0.5487|TWO_SIDED|95.0|-3.104|5.778||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||5.778|-3.104|0.5487
92393041|NCT03001557|184685714|SUPERIORITY||LSM Difference|4.32||||0.0581|TWO_SIDED|95.0|-0.153|8.793||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||8.793|-0.153|0.0581
92393042|NCT03001557|184685718|SUPERIORITY||LSM Difference|-3.437||||0.1777|TWO_SIDED|95.0|-8.481|1.608||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1.608|-8.481|0.1777
92393043|NCT03001557|184685718|SUPERIORITY||LSM Difference|1.458||||0.563|TWO_SIDED|95.0|-3.564|6.479||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||6.479|-3.564|0.5630
92393044|NCT03001557|184685718|SUPERIORITY||LSM Difference|-4.994||||0.0482|TWO_SIDED|95.0|-9.946|-0.041||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||-0.041|-9.946|0.0482
92393045|NCT03001557|184685718|SUPERIORITY||LSM Difference|-2.593||||0.3036|TWO_SIDED|95.0|-7.599|2.413||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2.413|-7.599|0.3036
92393046|NCT03001557|184685722|SUPERIORITY||LSM Difference|4.845||||0.1991|TWO_SIDED|95.0|-2.624|12.313||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||12.313|-2.624|0.1991
92393047|NCT03001557|184685722|SUPERIORITY||LSM Difference|-3.872||||0.2982|TWO_SIDED|95.0|-11.263|3.518||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||3.518|-11.263|0.2982
92393048|NCT03001557|184685722|SUPERIORITY||LSM Difference|6.776||||0.0664|TWO_SIDED|95.0|-0.474|14.025||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||14.025|-0.474|0.0664
92278970|NCT02761980|184460832|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.51||||0.212|TWO_SIDED|95.0|-0.29|1.32|||ANCOVA|||||1.32|-0.29|0.212
92393049|NCT03001557|184685722|SUPERIORITY||LSM Difference|3.017||||0.4148|TWO_SIDED|95.0|-4.344|10.379||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||10.379|-4.344|0.4148
92393050|NCT03001557|184685726|SUPERIORITY||LSM Difference|0.063||||0.9599|TWO_SIDED|95.0|-2.452|2.579||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2.579|-2.452|0.9599
92393051|NCT03001557|184685726|SUPERIORITY||LSM Difference|-0.238||||0.8541|TWO_SIDED|95.0|-2.817|2.342||Based on a MMRM analysis adjusted for baseline value, country, Visit and treatment by Visit interaction.|MMRM|||||2.342|-2.817|0.8541
92393052|NCT03001557|184685726|SUPERIORITY||LSM Difference|-0.293||||0.8117|TWO_SIDED|95.0|-2.745|2.16||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2.160|-2.745|0.8117
92393053|NCT03001557|184685726|SUPERIORITY||LSM Difference|-1.557||||0.2274|TWO_SIDED|95.0|-4.113|1.0||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1.000|-4.113|0.2274
92393054|NCT03001557|184685730|SUPERIORITY||LSM Difference|0.086||||0.2421|TWO_SIDED|95.0|-0.06|0.232||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.232|-0.060|0.2421
92393055|NCT03001557|184685730|SUPERIORITY||LSM Difference|-0.012||||0.8661|TWO_SIDED|95.0|-0.155|0.131||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.131|-0.155|0.8661
92393056|NCT03001557|184685730|SUPERIORITY||LSM Difference|0.057||||0.4251|TWO_SIDED|95.0|-0.085|0.199||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.199|-0.085|0.4251
92278971|NCT02761980|184460832|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.53||||0.202|TWO_SIDED|95.0|-0.28|1.34|||ANCOVA|||||1.34|-0.28|0.202
92393057|NCT03001557|184685730|SUPERIORITY||LSM Difference|0.025||||0.7248|TWO_SIDED|95.0|-0.116|0.166||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.166|-0.116|0.7248
92393058|NCT03001557|184685734|SUPERIORITY||LSM Difference|-0.032||||0.2991|TWO_SIDED|95.0|-0.094|0.029||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.029|-0.094|0.2991
92393059|NCT03001557|184685734|SUPERIORITY||LSM Difference|0.033||||0.2861|TWO_SIDED|95.0|-0.028|0.095||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.095|-0.028|0.2861
92393060|NCT03001557|184685734|SUPERIORITY||LSM Difference|-0.052||||0.0938|TWO_SIDED|95.0|-0.113|0.009||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.009|-0.113|0.0938
92393061|NCT03001557|184685734|SUPERIORITY||LSM Difference|0.005||||0.8618|TWO_SIDED|95.0|-0.055|0.066||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.066|-0.055|0.8618
92393062|NCT03001557|184685738|SUPERIORITY||LSM Difference|-389.873||||0.0294|TWO_SIDED|95.0|-739.177|-40.569||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||-40.569|-739.177|0.0294
92393063|NCT03001557|184685738|SUPERIORITY||LSM Difference|-402.994||||0.0243|TWO_SIDED|95.0|-751.67|-54.319||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||-54.319|-751.670|0.0243
92393064|NCT03001557|184685738|SUPERIORITY||LSM Difference|-141.026||||0.4209|TWO_SIDED|95.0|-489.805|207.752||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||207.752|-489.805|0.4209
92393065|NCT03001557|184685738|SUPERIORITY||LSM Difference|-367.845||||0.0398|TWO_SIDED|95.0|-717.87|-17.82||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||-17.820|-717.870|0.0398
92393066|NCT03001557|184685742|SUPERIORITY||LSM Difference|-1276.18||||0.1162|TWO_SIDED|95.0|-2878.587|326.226||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||326.226|-2878.587|0.1162
92393067|NCT03001557|184685742|SUPERIORITY||LSM Difference|227.464||||0.7781|TWO_SIDED|95.0|-1382.85|1837.777||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1837.777|-1382.850|0.7781
92393068|NCT03001557|184685742|SUPERIORITY||LSM Difference|-620.581||||0.4255|TWO_SIDED|95.0|-2170.342|929.179||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||929.179|-2170.342|0.4255
92393069|NCT03001557|184685742|SUPERIORITY||LSM Difference|-577.82||||0.4672|TWO_SIDED|95.0|-2160.337|1004.697||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1004.697|-2160.337|0.4672
92393070|NCT03001557|184685746|SUPERIORITY||LSM Difference|-839.088||||0.2984|TWO_SIDED|95.0|-2440.854|762.678||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||762.678|-2440.854|0.2984
92393071|NCT03001557|184685746|SUPERIORITY||LSM Difference|651.922||||0.4218|TWO_SIDED|95.0|-962.835|2266.678||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2266.678|-962.835|0.4218
92393072|NCT03001557|184685746|SUPERIORITY||LSM Difference|-447.245||||0.5655|TWO_SIDED|95.0|-1998.44|1103.95||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1103.950|-1998.440|0.5655
92420673|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32||||0.4089|TWO_SIDED|95.0|-4.51|1.86||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.86|-4.51|0.4089
92235898|NCT02531035|184375076|SUPERIORITY||Least Squares Mean Difference|-0.46|||<|0.001|TWO_SIDED|95.0|-0.54|-0.38|||MMRM|||Testing according to hierarchical procedure. Post-Baseline LS means and p-values were obtained from MMRM model with treatment, randomization stratum of BMI at Screening (\<25 kg/m\^2, \>=25 kg/m\^2), randomization stratum of Week -2 A1C (\<=9.0%, \>9.0%), randomization stratum of use of CSII at Screening (yes, no), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline A1C-by-time interaction as a covariate.||-0.38|-0.54|< 0.001
92235899|NCT02531035|184375077|SUPERIORITY||Least squares mean difference|-2.98|||<|0.001|TWO_SIDED|95.0|-3.31|-2.66|||MMRM|||Testing according to hierarchical procedure. Post-Baseline LS means and p-values were obtained from MMRM model with treatment, randomization stratum of BMI at Screening (\<25 kg/m\^2, \>=25 kg/m\^2), randomization stratum of Week -2 A1C (\<=9%, \>9%), randomization stratum of Use of CSII at Screening (Yes, No), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline weight-by-time interaction as a covariate.||-2.66|-3.31|< 0.001
92235900|NCT02531035|184375078|SUPERIORITY||Least Squares Mean Difference|-3.5|||=|0.002|TWO_SIDED|95.0|-5.7|-1.3|||MMRM|||Testing according to the hierarchical procedure. Post-Baseline LS means and p-values were obtained from MMRM model with treatment, randomization stratum of BMI at Screening (\<25 kg/m2, \>=25 kg/m2), randomization stratum of Week -2 A1C (\<=9.0%, \>9.0%), randomization stratum of use of CSII at Screening (yes, no), time (study week), and a treatment-by- time interaction as fixed categorical effects, and Baseline SBP-by-time interaction as a covariate.||-1.3|-5.7|= 0.002
92278972|NCT02761980|184460832|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|-0.01||||0.965|TWO_SIDED|95.0|-0.58|0.55|||ANCOVA|||||0.55|-0.58|0.965
92280579|NCT00663871|184463705|SUPERIORITY_OR_OTHER_LEGACY|The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mean Difference (Net)|0.04||||0.74|TWO_SIDED|95.0|-0.18|0.25|||Mixed Models Analysis|||||0.25|-0.18|0.74
92393073|NCT03001557|184685746|SUPERIORITY||LSM Difference|-130.603||||0.8686|TWO_SIDED|95.0|-1706.478|1445.272||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1445.272|-1706.478|0.8686
92393074|NCT03001557|184685750|SUPERIORITY||LSM Difference|0.02||||0.4638|TWO_SIDED|95.0|-0.034|0.074||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.074|-0.034|0.4638
92280580|NCT00663871|184463706|SUPERIORITY_OR_OTHER_LEGACY|The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mean Difference (Net)|-0.1||||0.28|TWO_SIDED|95.0|-0.27|0.08|||Mixed Models Analysis|||||0.08|-0.27|0.28
92393075|NCT03001557|184685750|SUPERIORITY||LSM Difference|0.06||||0.0322|TWO_SIDED|95.0|0.005|0.115||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.115|0.005|0.0322
92393076|NCT03001557|184685750|SUPERIORITY||LSM Difference|0.003||||0.9144|TWO_SIDED|95.0|-0.051|0.056||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.056|-0.051|0.9144
92393077|NCT03001557|184685750|SUPERIORITY||LSM Difference|0.057||||0.0364|TWO_SIDED|95.0|0.004|0.11||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction|MMRM|||||0.110|0.004|0.0364
92393078|NCT01272232|184685756|SUPERIORITY_OR_OTHER||Treatment contrast|-3.97|||<|0.0001||95.0|-4.84|-3.11||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-3.11|-4.84|<0.0001
92420674|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.17||||0.1964|TWO_SIDED|95.0|-5.49|1.15||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.15|-5.49|0.1964
92420675|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.2234|TWO_SIDED|95.0|-4.58|1.09||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.09|-4.58|0.2234
92393079|NCT01272232|184685756|SUPERIORITY_OR_OTHER||Treatment contrast|-2.62|||<|0.0001||95.0|-3.63|-1.62||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-1.62|-3.63|<0.0001
92393080|NCT01272232|184685756|SUPERIORITY_OR_OTHER||Treatment contrast|-1.35||||0.0024||95.0|-2.23|-0.48||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.48|-2.23|0.0024
92393081|NCT01272232|184685757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.81|||<|0.0001||95.0|4.34|10.68||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||10.68|4.34|<0.0001
92420676|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.6186|TWO_SIDED|95.0|-3.52|2.12||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.12|-3.52|0.6186
92235901|NCT02531035|184375079|SUPERIORITY||Least squares mean difference|-12.32|||<|0.001|TWO_SIDED|95.0|-18.17|-6.48|||MMRM|||Testing according to hierarchical procedure. Post-Baseline LS means and p-values were obtained from MMRM model with treatment, randomization stratum of BMI at Screening (\<25 kg/m2, \>=25 kg/m2), randomization stratum of Week -2 A1C (\<=9.0%, \>9.0%), randomization stratum of use of CSII at Screening (yes, no), time (study week), a treatment-by-time interaction as fixed categorical effects, and Baseline mean daily bolus insulin dose-by-time interaction as a covariate.||-6.48|-18.17|< 0.001
92280581|NCT00663871|184463707|SUPERIORITY_OR_OTHER_LEGACY||standardized mean difference|0.15||||0.76|TWO_SIDED|95.0|-0.09|0.39|||Repeated Measures MANOVA|||||0.39|-0.09|0.76
92278973|NCT00101582|184460834|SUPERIORITY_OR_OTHER||Chi-Square Statistic|4.1764||||0.041||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants having no assessment were assumed as having WHO grade 3 or 4 oral mucositis in hypothesis testing.|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||Sample size calculations were based on the number of participants needed to detect, with 90% power and 5% type 1 error rate, at least a 25% difference in the incidence of severe OM between the treatment groups. A 25% absolute reduction in the incidence of severe OM from the placebo group was considered by investigators as clinically meaningful in this clinical setting.||||0.0410
92278974|NCT00101582|184460835|SUPERIORITY_OR_OTHER||Chi-Square Statistic|5.8002||||0.016||95.0||||Generalized Cochran-Mantel-Haenszel test for mean score difference.|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.0160
92278975|NCT00101582|184460835|SUPERIORITY_OR_OTHER|||||||0.1122||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||To protect the overall type 1 error, the Hochberg procedure was used to adjust for multiple statistical testing of the secondary efficacy endpoints.||||0.1122
92278976|NCT00101582|184460836|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6603||||0.0261|TWO_SIDED|95.0|0.4546|0.9592|||Stratified Log-Rank test|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).|Hazard ratio of palifermin over placebo based on Stratified Cox proportional hazard model.|||0.9592|0.4546|0.0261
92278977|NCT00101582|184460836|SUPERIORITY_OR_OTHER|||||||0.1566||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Stratified Log-Rank test|||||||0.1566
92278978|NCT00101582|184460837|SUPERIORITY_OR_OTHER||Chi-Square Statistic|3.9715||||0.0463||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants having no assessment were assumed to have the event.|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.0463
92420677|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77||||0.5853|TWO_SIDED|95.0|-3.6|2.06||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.06|-3.60|0.5853
92420678|NCT01227564|184730239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74||||0.5541|TWO_SIDED|95.0|-3.23|1.75||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||1.75|-3.23|0.5541
92278979|NCT00101582|184460837|SUPERIORITY_OR_OTHER|||||||0.2314||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||||||0.2314
92278980|NCT00101582|184460838|SUPERIORITY_OR_OTHER||Chi-Square Statistic|3.2548||||0.0712||95.0||||Generalized Cochran-Mantel-Haenszel test for mean score difference using modified ridit score|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.0712
92278981|NCT00101582|184460838|SUPERIORITY_OR_OTHER|||||||0.2849||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||||||0.2849
92278982|NCT00101582|184460839|SUPERIORITY_OR_OTHER||Chi-Square Statistic|1.3901||||0.2384||95.0||||Generalized Cochran-Mantel-Haenszel test for mean score difference using modified ridit score.|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.2384
92278983|NCT00101582|184460839|SUPERIORITY_OR_OTHER|||||||0.6835||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||||||0.6835
92278984|NCT00101582|184460840|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.9039||||0.3417||95.0||||Generalized Cochran-Mantel-Haenszel test for general association|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.3417
92278985|NCT00101582|184460840|SUPERIORITY_OR_OTHER|||||||0.6835||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||||||0.6835
92278986|NCT00101582|184460841|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.0027||||0.9587||95.0||||Generalized Cochran-Mantel-Haenszel test for general association.|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.9587
92278987|NCT00101582|184460841|SUPERIORITY_OR_OTHER|||||||0.9587||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||||||0.9587
92280582|NCT00663871|184463708|SUPERIORITY_OR_OTHER_LEGACY||standardized mean difference|0.06||||0.62|TWO_SIDED|95.0|-0.18|0.3|||Repeated Measures MANOVA|||||0.30|-0.18|0.62
92278988|NCT01907087|184460842|OTHER|Inference is by an exact binomial test of the null hypothesis H0: Prob(response) \<= 0.50 vs. the alternative hypothesis H1: Prob(response) \> 0.50, where Prob(response) denotes the population probability of a response. The confidence interval is an exact interval with significance level α=0.05.|Proportion of responders|0.87||||0.0002|TWO_SIDED|95.0|0.66|0.97|||exact binomial test|||"Responder Analysis using ITT Population: Proportion of Subjects without an Unreversed Two-point Decline or Score of 0 in ML Scale Score at 48 Weeks.~A 'response' is defined as the absence of an unreversed two-point decline or score of 0 in the 0-to-6 point CLN2 score at 48 weeks."||0.97|0.66|0.0002
92278989|NCT01907087|184460842|OTHER|"Subject rate of decline per 48 weeks is estimated: (baseline CLN2 score - last CLN2 score)/(time elapsed in units of 48 weeks).~P-value computed as a two-sided t-test for the hypothesis H0: Rate=2.0 points lost/48 weeks vs. H1: Rate not equal 2.0 points lost/48 weeks."|Slope|0.4|STANDARD_DEVIATION|0.809|<|0.0001|TWO_SIDED|95.0|0.05|0.75|||t-test, 2 sided|||Slopes Analysis using ITT Population: Estimated Rate of Decline (300 mg Dosing Period).||0.75|0.05|<0.0001
92278990|NCT01919190|184460848|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.8|TWO_SIDED||||||ANCOVA|||||||>0.8
92278991|NCT01919190|184460849|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0456|TWO_SIDED||||||Mixed Models Analysis|||||||0.0456
92278992|NCT01082952|184460859|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||The p value is calculated for the results of ASM proliferation following incubation with eosinophils isolated from patients in each group. p\< 0.05 was considered significant.|ANOVA|Proliferation data was evaluated using two-way factorial ANOVA followed by Bonferroni post hoc test.||||||<0.05
92278993|NCT02337933|184460861|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92278994|NCT02337933|184460862|OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92278995|NCT02337933|184460863|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92278996|NCT02337933|184460864|OTHER|||||||0.308|||||||Wilcoxon (Mann-Whitney)|||||||0.308
92278997|NCT02337933|184460865|OTHER|||||||0.575|||||||Wilcoxon (Mann-Whitney)|||||||0.575
92278998|NCT02337933|184460866|OTHER|||||||0.169|||||||Wilcoxon (Mann-Whitney)|||||||0.169
92278999|NCT02337933|184460867|OTHER|||||||0.373|||||||Wilcoxon (Mann-Whitney)|||||||0.373
92420679|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.937|TWO_SIDED|95.0|-2.09|1.93||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||1.93|-2.09|0.9370
92420680|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.2597|TWO_SIDED|95.0|-3.19|0.88||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.88|-3.19|0.2597
92279000|NCT02337933|184460868|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92279001|NCT02337933|184460869|OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||0.049
92279002|NCT02337933|184460870|OTHER|||||||0.224|||||||Wilcoxon (Mann-Whitney)|||||||0.224
92279003|NCT02337933|184460871|OTHER|||||||0.116|||||||Wilcoxon (Mann-Whitney)|||||||0.116
92279004|NCT02337933|184460872|OTHER|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||||||0.953
92279005|NCT02337933|184460873|OTHER|||||||0.999|||||||Wilcoxon (Mann-Whitney)|||||||0.999
92279006|NCT02743702|184460891|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92279007|NCT00755326|184460910|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92279008|NCT00662025|184460925|SUPERIORITY_OR_OTHER||Objective Response Rate (percentage)|30.2|||||TWO_SIDED|95.0|19.2|43.0||||||||43.0|19.2|
92279009|NCT00662025|184460926|SUPERIORITY_OR_OTHER||Objective Response Rate (percentage)|27.0|||||TWO_SIDED|95.0|16.6|39.7||||||||39.7|16.6|
92279010|NCT00662025|184460927|SUPERIORITY_OR_OTHER||CBR Rate (percentage)|50.8|||||TWO_SIDED|95.0|37.9|63.6||||||||63.6|37.9|
92279011|NCT00662025|184460928|SUPERIORITY_OR_OTHER||CBR Rate (percentage)|52.4|||||TWO_SIDED|95.0|39.4|65.1||||||||65.1|39.4|
92279012|NCT01333033|184460943|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92279013|NCT03588390|184460949|OTHER||Slope|0.696|STANDARD_ERROR_OF_MEAN|0.0971|||TWO_SIDED|95.0|0.5006|0.8914|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of the mean is actually standard error of slope.|The basic model for the investigation of dose proportionality was a power model that described the functional relationship between the dose and PK endpoints.||0.8914|0.5006|
92279014|NCT03588390|184460949|OTHER||Slope|0.9244|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|95.0|0.6764|1.1724|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of the mean is actually standard error of slope.|The basic model for the investigation of dose proportionality was a power model that described the functional relationship between the dose and PK endpoints.||1.1724|0.6764|
92279015|NCT03588390|184460950|OTHER||Slope|0.6533|STANDARD_ERROR_OF_MEAN|0.0982|||TWO_SIDED|95.0|0.4556|0.851|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of the mean is actually standard error of slope.|The basic model for the investigation of dose proportionality was a power model that described the functional relationship between the dose and PK endpoints.||0.8510|0.4556|
92280583|NCT00663871|184463709|SUPERIORITY_OR_OTHER_LEGACY||standardized mean difference|0.03||||0.42|TWO_SIDED|95.0|-0.21|0.26|||Repeated Measures MANOVA|||||0.26|-0.21|0.42
92279016|NCT03588390|184460950|OTHER||Slope|0.8586|STANDARD_ERROR_OF_MEAN|0.1307|||TWO_SIDED|95.0|0.5929|1.1242|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of the mean is actually standard error of slope.|The basic model for the investigation of dose proportionality was a power model that described the functional relationship between the dose and PK endpoints.||1.1242|0.5929|
92279017|NCT00384033|184460951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.198|TWO_SIDED|95.0|-0.6|2.7||The analysis was done at a significance level of alpha = 0.05, 2-sided. Global F-test was used to adjust for multiplicity. If global F-test was significant at 0.05 level, pair wise analysis was interpreted without any further p-value adjustment.|ANCOVA|||For DVS SR 50 mg, HAM-D17 total score was evaluated using analysis of covariance (ANCOVA) with treatment and site as factors and baseline HAM-D17 score as the covariate.||2.70|-0.60|0.198
92279018|NCT00384033|184460951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.028|TWO_SIDED|95.0|0.2|3.4||The analysis was done at a significance level of alpha = 0.05, 2-sided. Global F-test was used to adjust for multiplicity. If global F-test was significant at 0.05 level, pair wise analysis was interpreted without any further p-value adjustment.|ANCOVA|||For DVS SR 100 mg, HAM-D17 total score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D17 score as the covariate.||3.40|0.20|0.028
92279019|NCT00384033|184460951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.047|TWO_SIDED|95.0|0.0|3.4||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, HAM-D17 total score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D17 score as the covariate.||3.40|0.00|0.047
92279020|NCT00384033|184460952|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED|||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||For DVS SR 50 mg, CGI-I was evaluated using Cochran-Mantel-Haenszel (CMH) test with treatment as a factor and controlling for center.||||0.110
92279021|NCT00384033|184460952|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||For DVS SR 100 mg, CGI-I was evaluated using CMH test with treatment as a factor and controlling for center.||||0.009
92279022|NCT00384033|184460952|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||For Duloxetine 60 mg, CGI-I was evaluated using CMH test with treatment as a factor and controlling for center.||||0.008
92279023|NCT00384033|184460953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.248|TWO_SIDED|95.0|-0.1|0.4||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, CGI-S was evaluated using ANCOVA with treatment and site as factors and baseline CGI-S score as the covariate.||0.40|-0.10|0.248
92279024|NCT00384033|184460953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.011|TWO_SIDED|95.0|0.1|0.6||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, CGI-S was evaluated using ANCOVA with treatment and site as factors and baseline CGI-S score as the covariate.||0.60|0.10|0.011
92279025|NCT00384033|184460953|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.3||||0.026|TWO_SIDED|95.0|0.0|0.6||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, CGI-S was evaluated using ANCOVA with treatment and site as factors and baseline CGI-S score as the covariate.||0.60|0.00|0.026
92279026|NCT00384033|184460954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.149|TWO_SIDED|95.0|-0.6|4.0||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, MADRS total score was evaluated using ANCOVA with treatment and site as factors and baseline MADRS score as the covariate.||4.00|-0.60|0.149
92279027|NCT00384033|184460954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.004|TWO_SIDED|95.0|1.1|5.6||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, MADRS total score was evaluated using ANCOVA with treatment and site as factors and baseline MADRS score as the covariate.||5.60|1.10|0.004
92279028|NCT00384033|184460954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4||||0.005|TWO_SIDED|95.0|1.1|5.8||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, MADRS total score was evaluated using ANCOVA with treatment and site as factors and baseline MADRS score as the covariate.||5.80|1.10|0.005
92279029|NCT00384033|184460955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.473|TWO_SIDED|95.0|-0.22|0.46||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, lassitude item of the MADRS score was evaluated using ANCOVA with treatment and site as factors and baseline lassitude item of the MADRS score as the covariate.||0.46|-0.22|0.473
92393082|NCT01272232|184685757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.69|||<|0.0001||95.0|2.24|6.09||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||6.09|2.24|<0.0001
92279030|NCT00384033|184460955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.119|TWO_SIDED|95.0|-0.07|0.61||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, lassitude item of the MADRS score was evaluated using ANCOVA with treatment and site as factors and baseline lassitude item of the MADRS score as the covariate.||0.61|-0.07|0.119
92279031|NCT00384033|184460955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.71|TWO_SIDED|95.0|-0.27|0.4||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, lassitude item of the MADRS score was evaluated using ANCOVA with treatment and site as factors and baseline lassitude item of the MADRS score as the covariate.||0.40|-0.27|0.710
92279032|NCT00384033|184460956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.215|TWO_SIDED|95.0|-0.3|1.5||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, HAM-D6 score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D6 score as the covariate.||1.50|-0.30|0.215
92279033|NCT00384033|184460956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.005|TWO_SIDED|95.0|0.4|2.3||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, HAM-D6 score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D6 score as the covariate.||2.30|0.40|0.005
92279034|NCT00384033|184460956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.024|TWO_SIDED|95.0|0.2|2.1||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, HAM-D6 score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D6 score as the covariate.||2.10|0.20|0.024
92279035|NCT00384033|184460957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53||||0.1|TWO_SIDED|95.0|-0.1|1.17||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, HAM-D energy subscale score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D energy score as the covariate.||1.17|-0.10|0.100
92279036|NCT00384033|184460957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79||||0.014|TWO_SIDED|95.0|0.16|1.42||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, HAM-D energy subscale score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D energy score as the covariate.||1.42|0.16|0.014
92279037|NCT00384033|184460957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72||||0.032|TWO_SIDED|95.0|0.06|1.38||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, HAM-D energy subscale score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D energy score as the covariate.||1.38|0.06|0.032
92279038|NCT00384033|184460958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.445|TWO_SIDED|95.0|-0.2|0.5||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, Covi anxiety scale was evaluated using ANCOVA with treatment and site as factors and baseline Covi anxiety score as the covariate.||0.50|-0.20|0.445
92279039|NCT00384033|184460958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.056|TWO_SIDED|95.0|0.0|0.7||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, Covi anxiety scale was evaluated using ANCOVA with treatment and site as factors and baseline Covi anxiety score as the covariate.||0.70|-0.00|0.056
92279040|NCT00384033|184460958|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.5||||0.006|TWO_SIDED|95.0|0.1|0.9||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, Covi anxiety scale was evaluated using ANCOVA with treatment and site as factors and baseline Covi anxiety score as the covariate.||0.90|0.10|0.006
92279041|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.124|TWO_SIDED|95.0|-0.9|7.9||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, overall VAS-PI score was evaluated using ANCOVA with treatment and site as factors and baseline VAS-PI score as the covariate.||7.90|-0.90|0.124
92279042|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7||||0.035|TWO_SIDED|95.0|0.3|9.1||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, overall VAS-PI score was evaluated using ANCOVA with treatment and site as factors and baseline VAS-PI score as the covariate.||9.10|0.30|0.035
92279043|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.1||||0.093|TWO_SIDED|95.0|-0.7|8.8||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, overall VAS-PI score was evaluated using ANCOVA with treatment and site as factors and baseline VAS-PI score as the covariate.||8.80|-0.70|0.093
92279044|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1||||0.177|TWO_SIDED|95.0|-1.4|7.7||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, stomach pain score was evaluated using ANCOVA with treatment and site as factors and baseline stomach pain score as the covariate.||7.70|-1.40|0.177
92279045|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6||||0.048|TWO_SIDED|95.0|0.1|9.1||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, stomach pain score was evaluated using ANCOVA with treatment and site as factors and baseline stomach pain score as the covariate.||9.10|0.10|0.048
92393083|NCT01272232|184685757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.0008||95.0|1.29|2.64||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||2.64|1.29|0.0008
92393084|NCT01272232|184685758|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.1|||<|0.0001||95.0|3.48|14.48||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||14.48|3.48|<0.0001
92279046|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8||||0.088|TWO_SIDED|95.0|-0.5|8.1||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, stomach pain score was evaluated using ANCOVA with treatment and site as factors and baseline stomach pain score as the covariate.||8.10|-0.50|0.088
92279047|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.122|TWO_SIDED|95.0|-1.0|8.4||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, back pain score was evaluated using ANCOVA with treatment and site as factors and baseline back pain score as the covariate.||8.40|-1.00|0.122
92279048|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8||||0.015|TWO_SIDED|95.0|1.1|10.5||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, back pain score was evaluated using ANCOVA with treatment and site as factors and baseline back pain score as the covariate.||10.50|1.10|0.015
92279049|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2||||0.103|TWO_SIDED|95.0|-0.8|9.2||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, back pain score was evaluated using ANCOVA with treatment and site as factors and baseline back pain score as the covariate.||9.20|-0.80|0.103
92279050|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.384|TWO_SIDED|95.0|-1.7|4.5||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, chest pain score was evaluated using ANCOVA with treatment and site as factors and baseline chest pain score as the covariate.||4.50|-1.70|0.384
92279051|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.221|TWO_SIDED|95.0|-1.2|5.1||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, chest pain score was evaluated using ANCOVA with treatment and site as factors and baseline chest pain score as the covariate.||5.10|-1.20|0.221
92279052|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.411|TWO_SIDED|95.0|-1.9|4.7||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, chest pain score was evaluated using ANCOVA with treatment and site as factors and baseline chest pain score as the covariate.||4.70|-1.90|0.411
92279053|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.412|TWO_SIDED|95.0|-2.8|6.7||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, arms, legs, joint pain score was evaluated using ANCOVA with treatment and site as factors and baseline arms, legs, pain score as the covariate.||6.70|-2.80|0.412
92279054|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9||||0.042|TWO_SIDED|95.0|0.2|9.6||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, arms, legs, joint pain score was evaluated using ANCOVA with treatment and site as factors and baseline arms, legs, pain score as the covariate.||9.60|0.20|0.042
92279055|NCT00384033|184460959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.155|TWO_SIDED|95.0|-1.2|7.8||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, arms, legs, joint pain score was evaluated using ANCOVA with treatment and site as factors and baseline arms, legs, pain score as the covariate.||7.80|-1.20|0.155
92279056|NCT01842958|184461001|NON_INFERIORITY|The test arm will be considered non-inferior to the control arm if the 95% upper confidence interval of the estimated difference between the test and control arms is less than -0.5mm.||||||0.02|||||||ANCOVA|||The primary efficacy endpoint is change in crestal bone level from loading to 12 months post-loading. The primary analysis is a test for non-inferiority of the test implant to the control implant at the one-sided 5% significance level. The null hypothesis is that µ3.3 ≥ µ4.1 + δ, where µ3.3 is the mean change in crestal bone level for the test implants, µ4.1 is the mean change in crestal bone level for control implants, and δ is a pre-specified clinically significant difference.||||0.02
92279057|NCT00818623|184461034|SUPERIORITY_OR_OTHER_LEGACY|||||||5.86e-05||95.0|||||Log Rank|||||||0.0000586
92279058|NCT00818623|184461035|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014||95.0|||||Kruskal-Wallis|||||||0.0014
92279059|NCT00818623|184461035|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|87.5||||||95.0|66.1|95.8||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||95.8|66.1|
92393085|NCT01272232|184685758|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.84||||0.0008||95.0|1.75|8.41||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||8.41|1.75|0.0008
92393086|NCT01272232|184685758|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.0099||95.0|1.16|2.95||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||2.95|1.16|0.0099
92279060|NCT00818623|184461035|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|66.7||||||95.0|33.7|86.0||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||86|33.7|
92393087|NCT01272232|184685759|SUPERIORITY_OR_OTHER||Treatment contrast|-0.93|||<|0.0001||95.0|-1.08|-0.78||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.78|-1.08|<0.0001
92420681|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.4852|TWO_SIDED|95.0|-2.38|1.14||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||1.14|-2.38|0.4852
92420682|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.4542|TWO_SIDED|95.0|-2.69|1.22||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||1.22|-2.69|0.4542
92420683|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.3061|TWO_SIDED|95.0|-3.04|0.97||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.97|-3.04|0.3061
92420684|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.88||||0.3082|TWO_SIDED|95.0|-2.61|0.84||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.84|-2.61|0.3082
92420685|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.2672|TWO_SIDED|95.0|-3.09|0.87||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.87|-3.09|0.2672
92420686|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.11||||0.0427|TWO_SIDED|95.0|-4.15|-0.07||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||-0.07|-4.15|0.0427
92420687|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.61||||0.0716|TWO_SIDED|95.0|-3.37|0.15||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.15|-3.37|0.0716
92420688|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46||||0.7184|TWO_SIDED|95.0|-2.09|3.0||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||3.00|-2.09|0.7184
92420689|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49||||0.7004|TWO_SIDED|95.0|-2.06|3.03||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||3.03|-2.06|0.7004
92420690|NCT01227564|184730240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.6723|TWO_SIDED|95.0|-1.77|2.71||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.71|-1.77|0.6723
92420691|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.9535|TWO_SIDED|95.0|-1.58|1.68||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||1.68|-1.58|0.9535
92420692|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9914|TWO_SIDED|95.0|-1.63|1.65||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||1.65|-1.63|0.9914
92279061|NCT00818623|184461035|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|54.5||||||95.0|22.9|78.0||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||78|22.9|
92279062|NCT00818623|184461035|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|100.0||||||95.0|85.8|100.0||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||100|85.8|
92279063|NCT00818623|184461035|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|75.0||||||95.0|52.6|87.9||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||87.9|52.6|
92279064|NCT00818623|184461035|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|95.7||||||95.0|72.9|99.4||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||99.4|72.9|
92279065|NCT00818623|184461035|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|62.5||||||95.0|40.3|78.4||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||78.4|40.3|
92279066|NCT00818623|184461035|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|88.9||||||95.0|69.4|96.3||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||96.3|69.4|
92279067|NCT00818623|184461036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0031||95.0|||||Kruskal-Wallis|||||||0.0031
92279068|NCT00818623|184461036|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|45.8||||||95.0|25.6|64.0||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||64|25.6|
92279069|NCT00818623|184461036|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|38.1||||||95.0|12.1|64.3||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||64.3|12.1|
92279070|NCT00818623|184461036|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|32.7||||||95.0|8.3|60.6||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||60.6|8.3|
92279071|NCT00818623|184461036|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|83.3||||||95.0|61.5|93.4||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||93.4|61.5|
92279072|NCT00818623|184461036|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|49.4||||||95.0|28.3|67.4||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||67.4|28.3|
92279073|NCT00818623|184461036|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|82.0||||||95.0|58.8|92.8||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||92.8|58.8|
92279074|NCT00818623|184461036|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|50.0||||||95.0|29.1|67.8||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||67.8|29.1|
92279075|NCT00818623|184461036|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|70.4||||||95.0|49.4|83.9||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||83.9|49.4|
92279076|NCT00818623|184461037|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0866||95.0|||||Log Rank|||||||0.0866
92279077|NCT00818623|184461038|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033||95.0|||||Log Rank|||||||0.033
92279078|NCT00818623|184461039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131||95.0|||||Log Rank|||||||0.131
92279079|NCT01166568|184461043|SUPERIORITY||binomial distribution|0.75||||0.025|ONE_SIDED|97.5|0.75|||the p-value is adjusted for multiple comparisons|Fisher Exact|||"The PSI procedure is defined as successful if 75% of subjects achieve the first primary endpoint or second primary endpoint. The corresponding statistical hypotheses are as follows:~H0 (null hypothesis): p1 ≤ 0.75 Ha (alternative hypothesis): p1 \> 0.75, Where, p1 is the probability of subjects achieving the first primary endpoint. H0 (null hypothesis): p2 ≤ 0.75 Ha (alternative hypothesis): p2 \> 0.75, Where, p2 is the probability of subjects achieving the second primary endpoint."|||0.75|0.025
92279080|NCT00320593|184461086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|||||TWO_SIDED|95.0|0.01|0.55|||ANCOVA|||The primary analysis was a comparison of treatment groups using an analysis of covariance (ANCOVA) model in which myopia at 3 years was adjusted for myopia at baseline and prior SVL wear. The sample size was computed to reach a 90% power and type I error rate of 5%, so that a difference in 3-year myopia progression between treatment groups would be detected if the true difference was at least 0.60 D, assuming a standard deviation of 0.85 D in each group and loss of follow up of 10%.||0.55|0.01|
92279081|NCT00320593|184461086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27|||||TWO_SIDED|95.0|0.02|0.53|||ANCOVA|||An adjusted analysis for the treatment group difference of change in spherical equivalent from baseline to 3 years was performed by including in an analysis of covariance (ANCOVA) model the following covariates in addition to baseline myopia and prior single vision lens wear, which are known to be related to myopia progression: age, sex, ethnicity, accommodative lag, and magnitude of near esophoria.||0.53|0.02|
92280584|NCT00663871|184463710|SUPERIORITY_OR_OTHER_LEGACY||Standardized mean difference|-0.06||||0.54|TWO_SIDED|95.0|-0.3|0.18|||Repeated Measures MANOVA|Repeated Measures MANOVA||||0.18|-0.30|0.54
92279082|NCT00320593|184461089|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14|||||TWO_SIDED|95.0|-0.005|0.28|||ANCOVA|||A secondary analysis was conducted to assess the treatment effect on myopia at the interim time point of 1 year, using an analysis of covariance (ANCOVA) model for the treatment group difference of change in spherical equivalent refractive error from baseline to 1 year, in which myopia at 1 year was adjusted for myopia at baseline and prior single vision lenses wear. Only complete cases (cases in which both baseline and 1 year values were known) were included.||0.28|-0.005|
92279083|NCT00320593|184461090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|||||TWO_SIDED|95.0|0.02|0.45|||ANCOVA|||A secondary analysis was conducted to assess the treatment effect on myopia at the interim time point of 2 years, using an analysis of covariance (ANCOVA) model for the treatment group difference of change in spherical equivalent refractive error from baseline to 2 years, in which myopia at 2 years was adjusted for myopia at baseline and prior single vision lenses wear. Only complete cases (cases in which both baseline and 2 year values were known) were included.||0.45|0.02|
92279084|NCT04281485|184461100|SUPERIORITY||Least Square Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.78|=|0.9116|TWO_SIDED|95.0|-1.46|1.64|||Mixed Models Analysis||||The Mixed Model Repeated Measures (MMRM) model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for baseline value (continuous variable), screening age (continuous variable), baseline value by visit interaction, and screening age by visit interaction with an unstructured variance-covariance matrix.|1.64|-1.46|=0.9116
92279085|NCT04281485|184461101|SUPERIORITY||Least Square Mean Difference|85.75|STANDARD_ERROR_OF_MEAN|17.17|=|0.0002|TWO_SIDED|95.0|49.15|122.35|||ANCOVA|The ANCOVA model contained treatment group (categorical variable) and screening age (continuous variable).||||122.35|49.15|=0.0002
92279086|NCT04281485|184461102|SUPERIORITY||Least Square Mean Difference|51.46|STANDARD_ERROR_OF_MEAN|9.49|<|0.0001|TWO_SIDED|95.0|31.43|71.49|||ANCOVA|The ANCOVA model contained treatment group (categorical variable) and screening age (continuous variable).||||71.49|31.43|<0.0001
92279087|NCT04281485|184461103|SUPERIORITY||Geometric Ratio of LS Means|0.64|||=|0.0002|TWO_SIDED|95.0|0.5|0.81|||Mixed Models Analysis||||MMRM approach for log transformed data including visits through Week 52 where serum CK concentration was assessed with fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction, and with additional fixed effects for natural log of baseline (continuous variable), screening age covariate (continuous variable), natural log of baseline by visit interaction, and screening age covariate by visit interaction with an unstructured variance-covariance matrix.|0.81|0.50|=0.0002
92279088|NCT04281485|184461104|SUPERIORITY||Odds Ratio (OR)|1.73|||=|0.2784|TWO_SIDED|95.0|0.64|4.62|||Binomial regression||||The generalized mixed linear model assumed a binomial distribution with logit link \& contains fixed effects for treatment group (categorical variable) \& screening age (continuous variable).|4.62|0.64|=0.2784
92279089|NCT04281485|184461105|SUPERIORITY||Odds Ratio (OR)|0.9|||=|0.5437|TWO_SIDED|95.0|0.63|1.28|||Binomial Regression||||The generalized mixed linear model assumed a binomial distribution with a logit link and contained fixed effects for treatment group (categorical variable) and screening age (continuous variable).|1.28|0.63|=0.5437
92393088|NCT01272232|184685759|SUPERIORITY_OR_OTHER||Treatment contrast|-0.74|||<|0.0001||95.0|-0.91|-0.57||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.57|-0.91|<0.0001
92393089|NCT01272232|184685759|SUPERIORITY_OR_OTHER||Treatment contrast|-0.19||||0.0125||95.0|-0.34|-0.04||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.04|-0.34|0.0125
92393090|NCT01272232|184685760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.79|||<|0.0001||95.0|5.74|13.4||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||13.4|5.74|<0.0001
92393091|NCT01272232|184685760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.71|||<|0.0001||95.0|4.76|12.51||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||12.51|4.76|<0.0001
92393092|NCT01272232|184685760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.5319||95.0|0.76|1.71||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||1.71|0.76|0.5319
92420693|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.9682|TWO_SIDED|95.0|-1.39|1.44||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||1.44|-1.39|0.9682
92393093|NCT01272232|184685761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.61|||<|0.0001||95.0|6.05|15.26||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||15.26|6.05|<0.0001
92393094|NCT01272232|184685761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.98|||<|0.0001||95.0|3.59|9.97||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||9.97|3.59|<0.0001
92420694|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.2008|TWO_SIDED|95.0|-2.96|0.64||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.64|-2.96|0.2008
92420695|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.7988|TWO_SIDED|95.0|-2.07|1.6||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||1.60|-2.07|0.7988
92420696|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.7||||0.3764|TWO_SIDED|95.0|-2.27|0.87||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.87|-2.27|0.3764
92420697|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86||||0.4177|TWO_SIDED|95.0|-2.98|1.25||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.25|-2.98|0.4177
92420698|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.6494|TWO_SIDED|95.0|-2.67|1.68||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.68|-2.67|0.6494
92420699|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.4674|TWO_SIDED|95.0|-2.54|1.18||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.18|-2.54|0.4674
92279090|NCT04281485|184461106|SUPERIORITY||Least Square Mean Difference|-0.079|STANDARD_ERROR_OF_MEAN|0.082|=|0.3343|TWO_SIDED|95.0|-0.242|0.083|||Mixed Models Analysis||||The MMRM model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for baseline value (continuous variable), screening age (continuous variable), baseline value by visit interaction, and screening age by visit interaction with an unstructured variance-covariance matrix.|0.083|-0.242|=0.3343
92420700|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||0.4709|TWO_SIDED|95.0|-3.85|1.81||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||1.81|-3.85|0.4709
92420701|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19||||0.4128|TWO_SIDED|95.0|-1.7|4.07||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||4.07|-1.70|0.4128
92420702|NCT01227564|184730241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.9478|TWO_SIDED|95.0|-2.41|2.58||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.58|-2.41|0.9478
92420703|NCT01227564|184730242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.7146|TWO_SIDED|95.0|-3.4|2.35||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 54.||2.35|-3.40|0.7146
92420704|NCT01227564|184730242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.64||||0.2733|TWO_SIDED|95.0|-4.6|1.33||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 54.||1.33|-4.60|0.2733
92420705|NCT01227564|184730242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.3969|TWO_SIDED|95.0|-3.62|1.46||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 54.||1.46|-3.62|0.3969
92420706|NCT01227564|184730242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.8566|TWO_SIDED|95.0|-2.43|2.92||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 86.||2.92|-2.43|0.8566
92420707|NCT01227564|184730242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.346|TWO_SIDED|95.0|-3.98|1.42||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 86.||1.42|-3.98|0.3460
92420708|NCT01227564|184730242|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.52||||0.6582|TWO_SIDED|95.0|-2.86|1.82||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 86.||1.82|-2.86|0.6582
92420709|NCT01227564|184730244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.7537|TWO_SIDED|95.0|-18.36|13.36||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||13.36|-18.36|0.7537
92420710|NCT01227564|184730244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.51||||0.1266|TWO_SIDED|95.0|-28.86|3.65||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||3.65|-28.86|0.1266
92235902|NCT01543490|184375083|SUPERIORITY|Statistical hypotheses testing for the primary efficacy endpoint was 2-sided and performed using a significance (alpha) level of 0.05.|Risk Difference (RD)|8.5|STANDARD_ERROR_OF_MEAN|4.03||0.0354|TWO_SIDED|95.0|0.2|16.6||The p-value was from a 2-sided Fisher's exact test.|Fisher Exact|The point estimate of treatment effect (ISV-305 compared with Vehicle) was reported using Fisher's exact test.|The risk difference was obtained by taking the difference in proportions (ISV-305 minus Vehicle). A 2-sided exact unconditional 95% confidence interval (CI) was calculated.|||16.6|0.2|0.0354
92420711|NCT01227564|184730244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.96||||0.6724|TWO_SIDED|95.0|-28.34|18.41||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||18.41|-28.34|0.6724
92420712|NCT01227564|184730244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.7||||0.017|TWO_SIDED|95.0|-53.89|-5.5||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||-5.50|-53.89|0.0170
92420713|NCT01227564|184730244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.94||||0.3196|TWO_SIDED|95.0|-92.67|30.78||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||30.78|-92.67|0.3196
92420714|NCT01227564|184730244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-64.97||||0.049|TWO_SIDED|95.0|-129.64|-0.31||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||-0.31|-129.64|0.0490
92170111|NCT02376790|184229114|SUPERIORITY||LS Mean Treatment Difference|0.04|STANDARD_ERROR_OF_MEAN|0.42||0.93|TWO_SIDED|95.0|-0.79|0.86||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||0.86|-0.79|0.93
92420715|NCT01227564|184730244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.04||||0.2969|TWO_SIDED|95.0|-14.7|46.79||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||46.79|-14.70|0.2969
92420716|NCT01227564|184730244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.2||||0.0973|TWO_SIDED|95.0|-57.42|5.03||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||5.03|-57.42|0.0973
92171796|NCT03897686|184233255|SUPERIORITY||||||<|0.005||||||The level of significance was set to p \<0.05.|Chi-squared|P-value generated by Chi-squared test was ≤0.005 for each time point.||The Chi-Square test was used to determine whether there was a statistically significant difference in disposition of results between two groups.||||<0.005
92420717|NCT01227564|184730245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.42||||0.6653|TWO_SIDED|95.0|-7.94|5.1||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||5.10|-7.94|0.6653
92420718|NCT01227564|184730245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.48||||0.4613|TWO_SIDED|95.0|-4.2|9.15||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||9.15|-4.20|0.4613
92170112|NCT02376790|184229115|SUPERIORITY||Treatment Difference|3.2||||0.55|TWO_SIDED|95.0|-7.3|13.7||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||13.7|-7.3|0.55
92420719|NCT01227564|184730245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72||||0.771|TWO_SIDED|95.0|-4.18|5.61||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||5.61|-4.18|0.7710
92420720|NCT01227564|184730245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.02||||0.2328|TWO_SIDED|95.0|-1.99|8.04||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||8.04|-1.99|0.2328
92420721|NCT01227564|184730245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.3693|TWO_SIDED|95.0|-0.97|2.58||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||2.58|-0.97|0.3693
92420722|NCT01227564|184730245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74||||0.422|TWO_SIDED|95.0|-1.09|2.56||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||2.56|-1.09|0.4220
92420723|NCT01227564|184730245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.51||||0.3728|TWO_SIDED|95.0|-24.25|9.23||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||9.23|-24.25|0.3728
92420724|NCT01227564|184730245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.07||||0.3452|TWO_SIDED|95.0|-25.05|8.91||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||8.91|-25.05|0.3452
92420725|NCT02376283|184730288|OTHER|A p value \< 0.05 was considered to be statistically significant.Comparison of means between groups assessed using ANOVA allowing comparison of more than 2 means and enabled assessment made of the relationship between different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||<|0.05||||||Assessment made of relationship between groups-clop vs pras vs tic,rows of STEMI vs NSTEMI/UA and different time points.P-values reported are calculated values based on data collated during sample collection and review of clinical characteristics.|ANOVA|||Continuous variables expressed as mean ± SD (standard deviation) and categorical variables as frequencies (%).Continuous variables analysed individually using student's independent sample t-tests. Categorical variables assessed using separate Fisher's exact (Chi-square) test.||||<0.05
92420726|NCT02376283|184730288|OTHER|Comparison of means between groups assessed using ANOVA allowing comparison of more than 2 means and enabled assessment made of the relationship between different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||<|0.0001|||||||ANOVA|ANOVA F(3,36) = 12.282||STEMI- clop vs prasl vs tic||||< 0.0001
92420727|NCT02376283|184730288|OTHER|Comparison of means between groups assessed using ANOVA allowing comparison of more than 2 means and enabled assessment made of the relationship between different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||<|0.0001||||||Assessment made of relationship between groups-clop vs pras vs tic,rows of STEMI vs NSTEMI/UA and different time points.P-values reported are calculated values based on data collated during sample collection and review of clinical characteristics.|ANOVA|ANOVA F(2,40) = 29.097||NSTEMI- clopidogrel vs prasugrel vs ticagrelor||||< 0.0001
92420728|NCT02376283|184730289|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel active metabolite vs prasugrel active metabolite vs ticagrelor parent compound and active metabolite), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||<|0.05||||||Assessment made of relationship between groups-clop vs pras vs tic, rows of STEMI vs NSTEMI/UA and different time points. P-values reported are calculated values based on data collated during sample collection and review of clinical characteristics.|ANOVA|||"Continuous variables were expressed as mean ± SEM (Standard Error of Measurement) and categorical variables as frequencies (%).~Continuous variables were analysed individually using student's independent sample t-tests. Categorical variables were assessed using separate Fisher's exact (Chi-square) test."||||<0.05
92420729|NCT02376283|184730289|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel active metabolite vs prasugrel active metabolite vs ticagrelor parent compound and active metabolite), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||=|0.123|||||||ANOVA|ANOVA F(6,56)=1.707||STEMI- different drugs (as stated above)||||=0.123
92420730|NCT02376283|184730289|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel active metabolite vs prasugrel active metabolite vs ticagrelor parent compound and active metabolite), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||<|0.0001||||||Assessment made of relationship between groups-clop vs pras vs tic, rows of STEMI vs NSTEMI/UA and different time points. P-values reported are calculated values based on data collated during sample collection and review of clinical characteristics.|ANOVA|ANOVA F(4,62)=18.932||NSTEMI- different drugs (as stated above)||||<0.0001
92420731|NCT02376283|184730290|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA) and different time points.|||||<|0.05||||||Assessment made of relationship between groups-clop vs pras vs tic, rows of STEMI vs NSTEMI/UA and different time points. P-values reported are calculated values based on data collated during sample collection and review of clinical characteristics.|ANOVA|||"Continuous variables were expressed as mean ± SD and categorical variables as frequencies (%).~Continuous variables were analysed individually using student's independent sample t-tests. Categorical variables were assessed using separate Fisher's exact (Chi-square) test."||||<0.05
92420732|NCT02376283|184730290|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA) and different time points.|||||=|0.81||||||STEMI- clopidogrel vs prasugrel vs ticagrelor|ANOVA|ANOVA F(3,17) = 0.321||"Continuous variables were expressed as mean ± SD and categorical variables as frequencies (%).~Continuous variables were analysed individually using student's independent sample t-tests. Categorical variables were assessed using separate Fisher's exact (Chi-square) test."||||=0.810
92420733|NCT02376283|184730290|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA) and different time points.|||||<|0.0001||||||NSTEMI- clopi vs pras vs tic|ANOVA|ANOVA F(2,25) = 14.103||"Continuous variables were expressed as mean ± SD and categorical variables as frequencies (%).~Continuous variables were analysed individually using student's independent sample t-tests. Categorical variables were assessed using separate Fisher's exact (Chi-square) test."||||< 0.0001
92420734|NCT02378025|184730291|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||.25
92420735|NCT02378025|184730292|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||.08
92170113|NCT02376790|184229115|SUPERIORITY||Treatment Difference|8.8||||0.11|TWO_SIDED|95.0|-1.9|19.4||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||19.4|-1.9|0.11
92170114|NCT02376790|184229116|SUPERIORITY||LS Mean Treatment Difference|9.36|STANDARD_ERROR_OF_MEAN|4.33||0.031|TWO_SIDED|95.0|0.85|17.87||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||17.87|0.85|0.031
92420736|NCT02378025|184730293|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||.04
92420737|NCT02378025|184730294|SUPERIORITY|||||||0.25|||||||Regression, Logistic|||||||.25
92420738|NCT02378025|184730295|SUPERIORITY|||||||0.22|||||||Regression, Logistic|||||||.22
92420739|NCT02378025|184730296|SUPERIORITY|||||||0.41|||||||Regression, Logistic|||||||.41
92170115|NCT02376790|184229116|SUPERIORITY||LS Mean Treatment Difference|3.02|STANDARD_ERROR_OF_MEAN|4.33||0.49|TWO_SIDED|95.0|-5.49|11.54||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||11.54|-5.49|0.49
92170116|NCT02376790|184229117|SUPERIORITY||LS Mean Treatment Difference|15.95|STANDARD_ERROR_OF_MEAN|4.55|<|0.001|TWO_SIDED|95.0|6.99|24.9||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of percent improvement from baseline in the percentage of BSA involved in psoriasis in the subgroup of participants with ≥ 10% BSA involvement at baseline.||24.90|6.99|<0.001
92420740|NCT00744471|184730348|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.87|-0.69||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: Analysis of Covariance (ANCOVA) was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.69|-1.87|<0.001
92420741|NCT00744471|184730348|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.69|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.28|-1.1||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.10|-2.28|<0.001
92420742|NCT00744471|184730348|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.75|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.34|-1.16||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.16|-2.34|<0.001
92170117|NCT02376790|184229117|SUPERIORITY||LS Mean Treatment Difference|6.97|STANDARD_ERROR_OF_MEAN|4.5||0.12|TWO_SIDED|95.0|-1.89|15.83||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of percent improvement from baseline in the percentage of BSA involved in psoriasis in the subgroup of participants with ≥ 10% BSA involvement at baseline.||15.83|-1.89|0.12
92420743|NCT00744471|184730349|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.74|-0.61||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value, as a covariate, and study site as a random effect.||-0.61|-1.74|<0.001
92420744|NCT00744471|184730349|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.49|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.06|-0.92||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA model includes treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.92|-2.06|<0.001
92420745|NCT00744471|184730349|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.17|-1.04||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA model includes treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.04|-2.17|<0.001
92420746|NCT00744471|184730350|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.51|-0.13||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA model includes treatment as main effect, baseline value as a covariate, and study site as a random effect.||-0.13|-0.51|0.001
92420747|NCT00744471|184730350|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.64|-0.25||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA model includes treatment as main effect, baseline value as a covariate, and study site as a random effect.||-0.25|-0.64|<0.001
92170118|NCT02376790|184229122|SUPERIORITY||Treatment Difference|11.4||||0.019|TWO_SIDED|95.0|2.0|20.8||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||20.8|2.0|0.019
92420748|NCT00744471|184730350|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.66|-0.28||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA model includes treatment as main effect, baseline value as a covariate, and study site as a random effect.||-0.28|-0.66|<0.001
92420749|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.41|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.93|-0.88||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA model includes treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.88|-1.93|<0.001
92420750|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.73|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.26|-1.2||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA model includes treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.20|-2.26|<0.001
92420751|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.85|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA model includes treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.80|-1.85|<0.001
92420752|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.57|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.11|-1.02||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.02|-2.11|<0.001
92420753|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.03|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.57|-1.48||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.48|-2.57|<0.001
92420754|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.95|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.5|-1.41||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.41|-2.50|<0.001
92420755|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.09|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.65|-0.53||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.53|-1.65|<0.001
92420756|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.2|-1.08||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.08|-2.20|<0.001
92420757|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.56|-1.45||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.45|-2.56|<0.001
92420758|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.49|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.1|-0.88||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.88|-2.10|<0.001
92420759|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.85|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.46|-1.25||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.25|-2.46|<0.001
92420760|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.97|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.57|-1.37||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.37|-2.57|<0.001
92420761|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.75|-0.56||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.56|-1.75|<0.001
92420762|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.52|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.12|-0.92||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.92|-2.12|<0.001
92420763|NCT00744471|184730351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.2|-1.01||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.01|-2.20|<0.001
92420764|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.41|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.93|-0.88||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.88|-1.93|<0.001
92420765|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.73|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.26|-1.2||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.20|-2.26|<0.001
92420766|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.85|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.80|-1.85|<0.001
92420767|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.55|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.08|-1.02||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.02|-2.08|<0.001
92420768|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.52|-1.46||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.46|-2.52|<0.001
92420769|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.01|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.54|-1.48||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.48|-2.54|<0.001
92420770|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.71|-0.63||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.63|-1.71|<0.001
92420771|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.21|-1.12||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.12|-2.21|<0.001
92420772|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.06|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.6|-1.52||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.52|-2.60|<0.001
92420773|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.55|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.11|-0.99||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.99|-2.11|<0.001
92420774|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.88|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.45|-1.32||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.32|-2.45|<0.001
92420775|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.26|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.82|-1.7||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.70|-2.82|<0.001
92420776|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.82|-0.71||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.71|-1.82|<0.001
92420777|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.59|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.15|-1.03||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.03|-2.15|<0.001
92420778|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.96|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.51|-1.4||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.40|-2.51|<0.001
92420779|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.85|-0.72||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.72|-1.85|<0.001
92420780|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.58|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.15|-1.01||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.01|-2.15|<0.001
92420781|NCT00744471|184730352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.83|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.4|-1.27||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.27|-2.40|<0.001
92420782|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.83|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.80|-1.83|<0.001
92420783|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.71|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.23|-1.19||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.19|-2.23|<0.001
92420784|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.83|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.80|-1.83|<0.001
92420785|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.12|-1.08||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.08|-2.12|<0.001
92420786|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.12|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.64|-1.6||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.60|-2.64|<0.001
92420787|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.94|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.46|-1.43||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.43|-2.46|<0.001
92420788|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.72|-0.64||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.64|-1.72|<0.001
92171797|NCT03897686|184233256|SUPERIORITY||||||<|0.005||||||The level of significance was set to p \<0.05.|Chi-squared|P-value generated by Chi-squared test was ≤0.005 for each time point.||The Chi-Square test was used to determine whether there was a statistically significant difference in disposition of results between two groups.||||<0.005
92420789|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.18|-1.09||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.09|-2.18|<0.001
92420790|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.89|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.43|-1.35||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.35|-2.43|<0.001
92420791|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.35|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.93|-0.77||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.77|-1.93|<0.001
92420792|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.73|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.31|-1.15||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12 :Analysis of Covariance (ANCOVA) was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.15|-2.31|<0.001
92420793|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.89|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.47|-1.32||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.32|-2.47|<0.001
92420794|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.52|-0.4||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24 : ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.40|-1.52|<0.001
92420795|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.35|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.91|-0.78||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24 :Analysis of Covariance (ANCOVA) was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.78|-1.91|<0.001
92420796|NCT00744471|184730353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.09|-0.97||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24 :Analysis of Covariance (ANCOVA) was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.97|-2.09|<0.001
92420797|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.83|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.80|-1.83|<0.001
92420798|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.71|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.23|-1.19||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.19|-2.23|<0.001
92393095|NCT01272232|184685761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.0142||95.0|1.1|2.34||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||2.34|1.10|0.0142
92420799|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.83|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.80|-1.83|<0.001
92279091|NCT04281485|184461107|SUPERIORITY||Least Square Mean Difference|-0.004|STANDARD_ERROR_OF_MEAN|0.024|=|0.8826|TWO_SIDED|95.0|-0.052|0.045|||Mixed Models Analysis||||The MMRM model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for baseline value (continuous variable), screening age (continuous variable), baseline value by visit interaction, and screening age by visit interaction with an unstructured variance-covariance matrix.|0.045|-0.052|=0.8826
92393096|NCT01272232|184685762|SUPERIORITY_OR_OTHER||Treatment contrast|-3.22|||<|0.0001||95.0|-4.2|-2.23||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-2.23|-4.20|<0.0001
92393097|NCT01272232|184685762|SUPERIORITY_OR_OTHER||Treatment contrast|-2.06||||0.0004||95.0|-3.2|-0.92||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.92|-3.20|0.0004
92279092|NCT04281485|184461108|SUPERIORITY||Least Square Mean Difference|2.01|STANDARD_ERROR_OF_MEAN|1.63|=|0.219|TWO_SIDED|95.0|-1.22|5.24|||Mixed Models Analysis||||The MMRM model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for baseline value (continuous variable), screening age (continuous variable), baseline value by visit interaction, and screening age by visit interaction with an unstructured variance-covariance matrix.|5.24|-1.22|=0.2190
92279093|NCT04281485|184461109|SUPERIORITY||Least Square Mean Difference|1.11|STANDARD_ERROR_OF_MEAN|2.96|=|0.7096||95.0|-4.79|7.0|||Mixed Models Analysis||||The MMRM model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for baseline value (continuous variable), screening age (continuous variable), baseline value by visit interaction, and screening age by visit interaction with an unstructured variance-covariance matrix.|7.00|-4.79|=0.7096
92279094|NCT01211769|184461114|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||TIME COMPARISON||||<0.001
92393098|NCT01272232|184685762|SUPERIORITY_OR_OTHER||Treatment contrast|-1.16||||0.0224||95.0|-2.16|-0.16||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.16|-2.16|0.0224
92393099|NCT01272232|184685763|SUPERIORITY_OR_OTHER||Treatment contrast|-2.17||||0.0002||95.0|-3.32|-1.02||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-1.02|-3.32|0.0002
92393100|NCT01272232|184685763|SUPERIORITY_OR_OTHER||Treatment contrast|-1.2||||0.0725||95.0|-2.51|0.11||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||0.11|-2.51|0.0725
92279095|NCT01211769|184461114|SUPERIORITY_OR_OTHER||Variance (F)|0.71||||0.69||95.0|||||ANOVA|||GROUP COMPARISON||||0.69
92279096|NCT01211769|184461115|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||TIME COMPARISON||||<0.001
92279097|NCT01211769|184461115|SUPERIORITY_OR_OTHER||Variance (F)|0.73||||0.53||95.0|||||ANOVA|||GROUP COMPARISON||||0.53
92279098|NCT01211769|184461116|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||TIME COMPARISON||||<0.001
92393101|NCT01272232|184685763|SUPERIORITY_OR_OTHER||Treatment contrast|-0.97||||0.0717||95.0|-2.02|0.09||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||0.09|-2.02|0.0717
92393102|NCT01272232|184685765|SUPERIORITY_OR_OTHER||Treatment contrast|-2.49|||<|0.0001||95.0|-3.75|-1.24||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-1.24|-3.75|<0.0001
92393103|NCT01272232|184685765|SUPERIORITY_OR_OTHER||Treatment contrast|-1.47||||0.0457||95.0|-2.92|-0.03||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.03|-2.92|0.0457
92393104|NCT01272232|184685765|SUPERIORITY_OR_OTHER||Treatment contrast|-1.02||||0.0961||95.0|-2.22|0.18||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||0.18|-2.22|0.0961
92393105|NCT00796666|184685812|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8616||||0.5416|TWO_SIDED|95.0|0.602|1.233|||Log Rank|||||1.233|0.602|0.5416
92393106|NCT00796666|184685813|SUPERIORITY_OR_OTHER|||||||0.0049|TWO_SIDED|||||P-value was based on the analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO Functional Class (FC) as fixed effects and baseline 6 Minute Walk Distance (6MWD) as a covariate.|ANCOVA|||Baseline to Week 12||||0.0049
92420800|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.59|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.1|-1.08|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.08|-2.10|<0.001
92420801|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.61|-1.59||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.59|-2.61|<0.001
92420802|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.51|-1.49||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.49|-2.51|<0.001
92420803|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.83|-0.76||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.76|-1.83|<0.001
92420804|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.26|-1.19||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.19|-2.26|<0.001
92420805|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.99|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.53|-1.46||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.46|-2.53|<0.001
92420806|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.56|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.11|-1.0||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.00|-2.11|<0.001
92170119|NCT02376790|184229122|SUPERIORITY||Treatment Difference|4.2||||0.4|TWO_SIDED|95.0|-5.6|14.0||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||14.0|-5.6|0.40
92170120|NCT02376790|184229123|SUPERIORITY||Treatment Difference|20.1||||0.004|TWO_SIDED|95.0|6.8|33.3||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of percentage of participants with an sPGA of 0 or 1 at Week 24 in participants with baseline BSA involvement with psoriasis ≥ 10%.||33.3|6.8|0.004
92420807|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.93|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.49|-1.37||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.37|-2.49|<0.001
92420808|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.28|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.83|-1.72||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.72|-2.83|<0.001
92420809|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.87|-0.75||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.75|-1.87|<0.001
92420810|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.58|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.14|-1.02||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.02|-2.14|<0.001
92420811|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.92|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.47|-1.36||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.36|-2.47|<0.001
92420812|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.86|-0.74||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.74|-1.86|<0.001
92420813|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.17|-1.05||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.05|-2.17|<0.001
92420814|NCT00744471|184730354|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.91|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.47|-1.36||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.36|-2.47|<0.001
92420815|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.18||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.18|-0.55|<0.001
92420816|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.83|-0.45||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.45|-0.83|<0.001
92420817|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.6|-0.22||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.22|-0.60|<0.001
92420818|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.65|-0.27||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.27|-0.65|<0.001
92420819|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.88|-0.5||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.50|-0.88|<0.001
92420820|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.73|-0.36||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.36|-0.73|<0.001
92420821|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.054|TWO_SIDED|95.0|-0.39|0.0||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||0.00|-0.39|0.054
92420822|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.68|-0.29||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.29|-0.68|<0.001
92420823|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.65|-0.26||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.26|-0.65|<0.001
92420824|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.15||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.15|-0.55|<0.001
92420825|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.81|-0.4||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.40|-0.81|<0.001
92420826|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.73|-0.32||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.32|-0.73|<0.001
92420827|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.1||0.008|TWO_SIDED|95.0|-0.45|-0.07||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.07|-0.45|0.008
92420828|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.22||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.22|-0.60|<0.001
92420829|NCT00744471|184730355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.012|TWO_SIDED|95.0|-0.43|-0.05||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.05|-0.43|0.012
92420830|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.18||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.18|-0.55|<0.001
92420831|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.83|-0.45||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.45|-0.83|<0.001
92420832|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.6|-0.22||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.22|-0.60|<0.001
92420833|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.65|-0.27||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.27|-0.65|<0.001
92420834|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.87|-0.5||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.50|-0.87|<0.001
92420835|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.76|-0.39||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.39|-0.76|<0.001
92420836|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.1||0.022|TWO_SIDED|95.0|-0.43|-0.03||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.03|-0.43|0.022
92420837|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.67|-0.27||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.27|-0.67|<0.001
92279099|NCT01211769|184461116|SUPERIORITY_OR_OTHER||Variance (F)|1.08||||0.37||95.0|||||ANOVA|||GROUP COMPARISON||||0.37
92279100|NCT01709383|184461118|SUPERIORITY_OR_OTHER|||||||0.57|||||||Mixed Models Analysis|||||||.57
92279101|NCT01709383|184461120|SUPERIORITY_OR_OTHER|||||||0.64|||||||Mixed Models Analysis|||||||.64
92279102|NCT01688037|184461127|OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.8||0.2966|TWO_SIDED|95.0|-2.3|0.7|||ANCOVA|||||0.7|-2.3|0.2966
92279103|NCT01688037|184461128|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.743|TWO_SIDED|95.0|-0.3|0.4|||ANOVA|||||0.4|-0.3|0.743
92279104|NCT01688037|184461129|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1151|TWO_SIDED|95.0|-0.7|0.1|||ANOVA|||||0.1|-0.7|0.1151
92279105|NCT01688037|184461129|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0277|TWO_SIDED|95.0|-0.8|0.0|||ANOVA|||||0.0|-0.8|0.0277
92393107|NCT00796666|184685814|SUPERIORITY_OR_OTHER|||||||0.8223|TWO_SIDED|||||Missing values at Week 12 and Week 24 were imputed with the last non-missing WHO FC based on the last observation carried forward (LOCF) method.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test used modified ridit scores and the p-value corresponding to the ANCOVA (row mean scores) statistic was reported.||Baseline to Week 12||||0.8223
92393108|NCT00796666|184685815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|-3.13|1.2|||||Least squared (LS) mean and p-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Physical Functioning Score as a covariate.|Baseline to Week 12||1.20|-3.13|
92393109|NCT00796666|184685815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.33|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|95.0|0.31|4.36|||||Least squared (LS) mean and p-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Physical Functioning Score as a covariate.|Baseline to Week 12||4.36|0.31|
92393110|NCT00796666|184685815|SUPERIORITY_OR_OTHER|||||||0.0094|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Physical Functioning Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0094
92393111|NCT00796666|184685816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|95.0|-3.92|1.2|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitations Due to Physical Health Problems Score as a covariate.|Baseline to Week 12||1.20|-3.92|
92393112|NCT00796666|184685816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.99|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|95.0|-0.38|4.35|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitations Due to Physical Health Problems Score as a covariate.|Baseline to Week 12||4.35|-0.38|
92393113|NCT00796666|184685816|SUPERIORITY_OR_OTHER|||||||0.0244|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitations Due to Physical Health Problems Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0244
92393114|NCT00796666|184685817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-3.78|2.04|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Bodily Pain Score as a covariate.|Baseline to Week 12||2.04|-3.78|
92393115|NCT00796666|184685817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.24|STANDARD_ERROR_OF_MEAN|1.34|||TWO_SIDED|95.0|-0.41|4.9|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Bodily Pain Score as a covariate.|Baseline to Week 12||4.90|-0.41|
92279106|NCT03065283|184461134|EQUIVALENCE|p\< or = 0.05|Mean Difference (Final Values)|0.09||||0.05|TWO_SIDED|95.0|-0.38|0.57|||t-test, 2 sided|||A paired t-test was used for intragroup analysis, and an independent Student's t-test was used for intergroup analysis. Data are represented in mean between-group difference with a 95% CI, and analysis was by intention to treat.||0.57|-0.38|0.05
92279107|NCT04828161|184461219|SUPERIORITY||Least square (LS) mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.138|<|0.001|TWO_SIDED|95.0|-0.86|-0.32|||ANCOVA|||||-0.32|-0.86|<0.001
92279108|NCT04828161|184461219|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.135||0.014|TWO_SIDED|95.0|-0.6|-0.07|||ANCOVA|||||-0.07|-0.60|0.014
92279109|NCT04828161|184461219|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.135||0.002|TWO_SIDED|95.0|-0.68|-0.15|||ANCOVA|||||-0.15|-0.68|0.002
92279110|NCT03093454|184461237|EQUIVALENCE|Linear mixed effects models were used to investigate HADS scores (total, anxiety, and depression), sleep scores, and pain scores. Variables for time point (preoperative/Post-op Day 1/final Post-op Day) \& arm were analyzed. Adjustment for multiple pairwise comparisons used the Scheffe method. Analyses were conducted based on the intent to treat principle. P-values\<0.05 were considered statistically significant. Each time point, the mean and corresponding 95% confidence interval has been plotted.|Odds Ratio (OR)|95.0|STANDARD_DEVIATION|1.0||0.05|TWO_SIDED|95.0||||The p value is calculated and adjusted for multiple comparisons.|Fisher Exact|||Lavender group compared to control group||||0.05
92279111|NCT01884025|184461244|SUPERIORITY_OR_OTHER|||||||0.59|||||||t-test, 2 sided|t-Value: 0.55||Change in total BADS score.||||0.59
92279112|NCT01884025|184461244|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|t Value: 0.03||Change in Activation Subscale||||0.98
92279113|NCT01884025|184461244|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|"DF: 18~1 Value: -0.04"||Change in Avoidance/Rumination Subscale||||0.96
92393116|NCT00796666|184685817|SUPERIORITY_OR_OTHER|||||||0.0624|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Bodily Pain Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0624
92393117|NCT00796666|184685818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|1.17|||TWO_SIDED|95.0|-2.57|2.06|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FCvas fixed effects and baseline General Health Score as a covariate.|Baseline to Week 12||2.06|-2.57|
92279114|NCT01884025|184461244|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|t Value: 1.31||Change in Work/School Impairment Subscale||||0.21
92279115|NCT01884025|184461244|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|t Value: 0.99||Change in Social Impairment Subscale||||0.34
92279116|NCT01884025|184461245|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|t Value: 0.33||||||0.75
92279117|NCT01884025|184461246|SUPERIORITY_OR_OTHER|||||||0.72|||||||t-test, 2 sided|t Value: -0.36||Change in overall physical activity frequency were compared between the two groups.||||0.72
92279118|NCT01884025|184461246|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|t Value: -0.39||Change in moderate physical activity frequency between the two groups.||||0.70
92279119|NCT01884025|184461247|SUPERIORITY|||||||0.45|ONE_SIDED|95.0|||||t-test, 2 sided|t Value: 0.77||Change in the physical health scale of the RAND 12 were compared.||||0.45
92279120|NCT01884025|184461247|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|t Value: 0.76||Change in the mental health scale of the RAND 12 were compared.||||0.45
92279121|NCT01884025|184461248|SUPERIORITY_OR_OTHER|||||||0.72|||||||t-test, 2 sided|t Value: -0.36||||||0.72
92279122|NCT01884025|184461249|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|t Value: 0.15||||||0.88
92279123|NCT01884025|184461250|SUPERIORITY|||||||0.08|ONE_SIDED|95.0|||||t-test, 2 sided|t Value: 1.83||||||.08
92279124|NCT01884025|184461251|SUPERIORITY|||||||0.16||||||Chi Squared 1.98|Chi-squared|||||||.16
92279125|NCT01884025|184461252|SUPERIORITY|||||||0.85||||||t value: .19|t-test, 2 sided|||||||.85
92279126|NCT01884025|184461253|SUPERIORITY|||||||0.6||||||t value: .54|t-test, 2 sided|||||||.60
92393118|NCT00796666|184685818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.65|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|0.48|4.82|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline General Health Score as a covariate.|Baseline to Week 12||4.82|0.48|
92393119|NCT00796666|184685818|SUPERIORITY_OR_OTHER|||||||0.0324|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline General Health Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0324
92171798|NCT03897686|184233258|SUPERIORITY|||||||0.05||||||The threshold for statistical significance was p \<0.05.|ANCOVA|||The mean number of paracetamol tablets was calculated taking into account only patients who had received paracetamol. ANCOVA was used to detect a difference in means of 2 groups at visit 3 (week 6).||||0.050
92279127|NCT01884025|184461254|SUPERIORITY|||||||0.26||||||t value: -1.17|t-test, 2 sided|||||||.26
92420838|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.65|-0.26||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.26|-0.65|<0.001
92279128|NCT01884025|184461255|SUPERIORITY|||||||0.08||||||t value: 1.85|t-test, 2 sided|||||||.08
92279129|NCT01700621|184461287|NON_INFERIORITY|A noninferiority margin of -10% was chosen as the maximal absolute reduction in proportion seroprotection allowed in the concomitant measles-rubella and rotavirus vaccine group as compared to the measles-rubella vaccine alone group.|Seroconversion proportion difference|1.1|||||TWO_SIDED|95.0|-6.9|9.0||||||||9.0|-6.9|
92279130|NCT02300025|184461314|SUPERIORITY_OR_OTHER||LS means ratio|92.2|||||TWO_SIDED|90.0|59.2|143.4|||||The 90% CI for differences in LS means between test and reference treatments obtained from mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|Cmax was analyzed using a mixed model analysis of variance (ANOVA) to determine 90% confidence interval (CI) of the ratio between normal hepatic function (reference) and mild hepatic impairment (test) where hepatic impairment group was a fixed factor. The least squares (LS) means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||143.4|59.2|
92279131|NCT02300025|184461314|SUPERIORITY_OR_OTHER||LS means ratio|84.9|||||TWO_SIDED|90.0|54.6|132.1|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|Cmax was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and moderate hepatic impairment (test) where hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||132.1|54.6|
92279132|NCT02300025|184461314|SUPERIORITY_OR_OTHER||LS means ratio|39.0|||||TWO_SIDED|90.0|25.1|60.7|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|Cmax was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and severe hepatic impairment (test) where hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||60.7|25.1|
92279133|NCT02300025|184461316|SUPERIORITY_OR_OTHER||LS means ratio|98.4|||||TWO_SIDED|90.0|52.0|186.0|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0-t) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and mild hepatic impairment (test) where, hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||186.0|52.0|
92279134|NCT02300025|184461316|SUPERIORITY_OR_OTHER||LS means ratio|102.2|||||TWO_SIDED|90.0|54.0|193.2|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0-t) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and moderate hepatic impairment (test) where, hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||193.2|54.0|
92420839|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.19||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.19|-0.60|<0.001
92420840|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.88|-0.47||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.47|-0.88|<0.001
92420841|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.79|-0.39||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.39|-0.79|<0.001
92420842|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.53|-0.14||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.14|-0.53|<0.001
92420843|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.68|-0.28||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.28|-0.68|<0.001
92420844|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.71|-0.32||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.32|-0.71|<0.001
92420845|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.1||0.01|TWO_SIDED|95.0|-0.47|-0.06||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.06|-0.47|0.010
92420846|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.66|-0.25||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.25|-0.66|<0.001
92420847|NCT00744471|184730356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.53|-0.13||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.13|-0.53|0.001
92420848|NCT04706416|184730379|SUPERIORITY||Odds Ratio (OR)|0.6||||0.297|TWO_SIDED|95.0|0.26|1.48|||Fisher Exact|||||1.48|0.26|0.297
92420849|NCT04706416|184730379|SUPERIORITY||Odds Ratio (OR)|0.68||||0.541|TWO_SIDED|95.0|0.19|2.3|||Regression, Logistic|||||2.30|0.19|0.541
92420850|NCT04706416|184730380|SUPERIORITY||Odds Ratio (OR)|0.37||||0.039|TWO_SIDED|95.0|0.15|0.91|||Fisher Exact|||||0.91|0.15|0.039
92420851|NCT04706416|184730380|SUPERIORITY||Odds Ratio (OR)|0.34||||0.081|TWO_SIDED|95.0|0.09|1.07|||Regression, Logistic|||||1.07|0.09|0.081
92420852|NCT04706416|184730381|SUPERIORITY||Hodges-Lehmann estimator|0.0||||0.643|TWO_SIDED|95.0|-1.0|3.0|||Wilcoxon (Mann-Whitney)|||||3.0|-1.0|0.643
92420853|NCT04706416|184730381|SUPERIORITY||β-coefficient|-4.27||||0.001|TWO_SIDED|95.0|-5.67|-2.87|||Regression, Linear|||||-2.87|-5.67|0.001
92420854|NCT04706416|184730382|SUPERIORITY||Odds Ratio (OR)|0.53||||0.133|TWO_SIDED|95.0|0.25|1.19|||Fisher Exact|||||1.19|0.25|0.133
92420855|NCT04706416|184730383|SUPERIORITY||Hodges-Lehmann estimator|4.0||||0.092|TWO_SIDED|95.0|-1.0|12.0|||Wilcoxon (Mann-Whitney)|||||12.0|-1.0|0.092
92420856|NCT04706416|184730384|SUPERIORITY||Hodges-Lehmann estimator|0.0||||0.834|TWO_SIDED|95.0|-2.0|2.0|||Wilcoxon (Mann-Whitney)|||||2.0|-2.0|0.834
92420857|NCT04706416|184730385|SUPERIORITY||Odds Ratio (OR)|0.001||||0.149|TWO_SIDED|95.0|0.0|1.52|||Fisher Exact|||||1.52|0|0.149
92420858|NCT04706416|184730386|SUPERIORITY||Odds Ratio (OR)|0.3||||0.015|TWO_SIDED|95.0|0.12|0.8|||Fisher Exact|||||0.80|0.12|0.015
92420859|NCT01484054|184730415|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -5 points(CLUE) was used.|Least square mean difference|1.0|STANDARD_ERROR_OF_MEAN|2.117|||TWO_SIDED|95.0|-3.2|5.2|||Mixed Models Analysis|||The alternative hypothesis is that etafilcon A with PVP lenses is non-inferior to etafilcon A control lenses for the Overall Quality of Lens Vision at 7-9 days of follow-up.||5.20|-3.20|
92420860|NCT01484054|184730416|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -5 points(CLUE) was used.|Least square mean difference|4.7|STANDARD_ERROR_OF_MEAN|2.772|||TWO_SIDED|95.0|-0.79|10.19|||Mixed Models Analysis|||The alternative hypothesis is that etafilcon A with PVP lenses is non-inferior to etafilcon A control lenses for the Overall Lens Comfort at 7-9 days of follow-up.||10.19|-0.79|
92420861|NCT01484054|184730417|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -5 points(CLUE) was used.|Least square mean difference|9.44|STANDARD_ERROR_OF_MEAN|1.829|||TWO_SIDED|95.0|5.81|13.07|||Mixed Models Analysis|||Ho: The test lens is non-inferior to the active comparator lens for Handling at 7-9 days follow-up.||13.07|5.81|
92420862|NCT03737851|184730452|OTHER|a statistical test was not performed|Odds Ratio (OR)|1.202|||||TWO_SIDED|95.0|0.559|2.584||||||Logistic regression model for EDSS+ includes baseline values for EDSS, Timed 25-Foot Walk, 9-Hole Peg Test-dominant, 9-Hole Peg Test-nondominant, and treatment as a main effect. Subjects with missing values were imputed as non-responders.||2.584|0.559|
92420863|NCT03737851|184730452|OTHER|a statistical test was not performed|Odds Ratio (OR)|0.615|||||TWO_SIDED|95.0|0.266|1.421||||||Logistic regression model for EDSS+ includes baseline values for EDSS, Timed 25-Foot Walk, 9-Hole Peg Test-dominant, 9-Hole Peg Test-nondominant, and treatment as a main effect. Subjects with missing values were imputed as non-responders.||1.421|0.266|
92420864|NCT03496571|184730463|SUPERIORITY||LSM Difference from Placebo|-95.0|||<|0.001|TWO_SIDED|95.0|-122.0|-68.0|||ANCOVA|||||-68|-122|<0.001
92420865|NCT03496571|184730463|SUPERIORITY||LSM Difference from Placebo|-102.0|||<|0.001|TWO_SIDED|95.0|-128.0|-76.0|||ANCOVA|||||-76|-128|<0.001
92420866|NCT03496571|184730463|SUPERIORITY||LSM Difference from Placebo|-98.0|||<|0.001|TWO_SIDED|95.0|-121.0|-76.0|||ANCOVA|||||-76|-121|<0.001
92420867|NCT03496571|184730464|SUPERIORITY||Percent Difference from Placebo|55.0|||<|0.001|TWO_SIDED|95.0|27.0|76.0|||Fisher Exact|||||76|27|<0.001
92420868|NCT03496571|184730464|SUPERIORITY||Percent Difference from Placebo|62.0|||<|0.001|TWO_SIDED|95.0|34.0|82.0|||Fisher Exact|||||82|34|<0.001
92420869|NCT03496571|184730464|SUPERIORITY||Percent Difference from Placebo|58.0|||<|0.001|TWO_SIDED|95.0|36.0|74.0|||Fisher Exact|||||74|36|<0.001
92420870|NCT03496571|184730465|SUPERIORITY||LSM Difference from Placebo|-20.0||||0.05|TWO_SIDED|95.0|-40.0|0.0|||ANCOVA|||||0|-40|0.05
92420871|NCT03496571|184730465|SUPERIORITY||LSM Difference from Placebo|-33.0||||0.002|TWO_SIDED|95.0|-53.0|-13.0|||ANCOVA|||||-13|-53|0.002
92420872|NCT03496571|184730465|SUPERIORITY||LSM Difference from Placebo|-26.0||||0.004|TWO_SIDED|95.0|-44.0|-9.0|||ANCOVA|||||-9|-44|0.004
92420873|NCT03119701|184730468|SUPERIORITY||Odds Ratio (OR)|1.3||||0.78|TWO_SIDED|95.0|0.21|8.19||The threshold for statistical significance was p = 0.05.|Regression, Logistic|||||8.19|0.21|0.78
92420874|NCT03119701|184730469|SUPERIORITY||Odds Ratio (OR)|1.7||||0.57|TWO_SIDED|95.0|0.28|10.52||The threshold for statistical significance was p = 0.05.|Regression, Logistic|||||10.52|0.28|0.57
92420875|NCT03119701|184730470|SUPERIORITY|||||||0.08||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||||||0.08
92420876|NCT03119701|184730472|SUPERIORITY||||||>|0.999||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||||||>0.999
92420877|NCT03119701|184730475|SUPERIORITY|||||||0.362||||||The threshold for statistical significance was p = 0.05.|Mantel Haenszel|Exact Mantel-Haenszel Chi-Square Test||||||0.3620
92420878|NCT03119701|184730478|SUPERIORITY||||||<|0.0001||||||Day 2, Day 3, Day 4, Day 5, and Day 6.|ANOVA|Repeated measures ANOVA||The lower limit of quantification (LLOQ) is equal 5 ng/ml. Values below the LLOQ were set to LLOQ/2 = 2.5 ng/ml. Values over the upper limit of quantitation (ULOQ) were set to 320 ng/ml.||||<.0001
92420879|NCT03119701|184730478|SUPERIORITY|||||||0.13||||||Baseline visit|ANOVA|Repeated measures ANOVA||The lower limit of quantification (LLOQ) is equal 5 ng/ml. Values below the LLOQ were set to LLOQ/2 = 2.5 ng/ml. Values over the upper limit of quantitation (ULOQ) were set to 320 ng/ml.||||0.13
92420880|NCT03119701|184730478|SUPERIORITY|||||||0.0035||||||Day 1|ANOVA|Repeated measures ANOVA||The lower limit of quantification (LLOQ) is equal 5 ng/ml. Values below the LLOQ were set to LLOQ/2 = 2.5 ng/ml. Values over the upper limit of quantitation (ULOQ) were set to 320 ng/ml.||||0.0035
92420881|NCT03119701|184730478|SUPERIORITY|||||||0.009||||||Day 9|ANOVA|Repeated measures ANOVA||The lower limit of quantification (LLOQ) is equal 5 ng/ml. Values below the LLOQ were set to LLOQ/2 = 2.5 ng/ml. Values over the upper limit of quantitation (ULOQ) were set to 320 ng/ml.||||0.009
92420882|NCT03119701|184730478|SUPERIORITY|||||||0.1||||||Day 13|ANOVA|Repeated measures ANOVA||The lower limit of quantification (LLOQ) is equal 5 ng/ml. Values below the LLOQ were set to LLOQ/2 = 2.5 ng/ml. Values over the upper limit of quantitation (ULOQ) were set to 320 ng/ml.||||0.10
92420883|NCT03119701|184730479|SUPERIORITY|||||||0.66||||||The threshold for statistical significance was p = 0.05.|ANOVA|Repeated measures ANOVA||Patients with an observation below the lower limit of quantification (LLOQ) value at baseline for CD73 were set to have the LLOQ value (LLOQ = 4 ng/ml) at baseline for subgroup determination purposes (2-fold increase in CD73 from baseline). Values below the LLOQ were set to LLOQ/2 = 2 ng/mL.||||0.66
92420884|NCT03119701|184730480|SUPERIORITY|||||||0.3||||||The threshold for statistical significance was p = 0.05.|ANOVA|Repeated measures ANOVA||Observations of zero were imputed as 1 pg/ml before logarithmic transformation.||||0.3
92420885|NCT00396032|184730517|SUPERIORITY_OR_OTHER|||||||0.0044||95.0||||Stratified by baseline BFR: 0-199 mL/min, 200-274 mL/min, and 275-299 mL/min.|Cochran-Mantel-Haenszel|||||||0.0044
92420886|NCT00396032|184730517|SUPERIORITY_OR_OTHER|||||||0.0035||95.0|||||Chi-squared|||||||0.0035
92420887|NCT00396032|184730519|SUPERIORITY_OR_OTHER|||||||0.0396||95.0||||Stratified by baseline BFR: 0-199 mL/min, 200-274 mL/min, and 275-299 mL/min.|Cochran-Mantel-Haenszel|||||||0.0396
92420888|NCT01593722|184730573|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.68
92420889|NCT03739840|184730645|SUPERIORITY||Percent reduction|-5.6|||=|0.687|TWO_SIDED|95.0|-38.1|19.2||Adjusted p-values are from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||19.2|-38.1|=0.687
92420890|NCT03739840|184730645|SUPERIORITY||Percent reduction|6.5|||=|0.687|TWO_SIDED|95.0|-22.7|28.7||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||28.7|-22.7|=0.687
92420891|NCT03739840|184730645|SUPERIORITY||Percent reduction|6.3|||=|0.687|TWO_SIDED|95.0|-22.9|28.6||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||28.6|-22.9|=0.687
92420892|NCT03739840|184730649|SUPERIORITY||Odds Ratio (OR)|1.15|||=|0.803|TWO_SIDED|95.0|0.39|3.38||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate.||3.38|0.39|=0.803
92420893|NCT03739840|184730649|SUPERIORITY||Odds Ratio (OR)|0.84|||=|0.772|TWO_SIDED|95.0|0.27|2.65||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate.||2.65|0.27|=0.772
92420894|NCT03739840|184730649|SUPERIORITY||Odds Ratio (OR)|1.01|||=|0.989|TWO_SIDED|95.0|0.33|3.08||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate.||3.08|0.33|=0.989
92420895|NCT03739840|184730650|SUPERIORITY||Odds Ratio (OR)|1.4|||=|0.425|TWO_SIDED|95.0|0.61|3.18||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate.||3.18|0.61|=0.425
92420896|NCT03739840|184730650|SUPERIORITY||Odds Ratio (OR)|1.23|||=|0.625|TWO_SIDED|95.0|0.53|2.85||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate||2.85|0.53|=0.625
92420897|NCT03739840|184730650|SUPERIORITY||Odds Ratio (OR)|1.9|||=|0.125|TWO_SIDED|95.0|0.84|4.34||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate||4.34|0.84|=0.125
92420898|NCT03739840|184730651|SUPERIORITY||Median Difference (Final Values)|3.25|||=|0.737|TWO_SIDED|95.0|-17.08|20.36||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value are based on the Wilcoxon-Mann-Whitney test. Hodges Lehmann nonparametric effect estimates and corresponding two-sided 95% asymptotic confidence intervals are provided for the effect difference between each PSL dose and placebo.||20.36|-17.08|=0.737
92420899|NCT03739840|184730651|SUPERIORITY||Median Difference (Net)|6.17|||=|0.458|TWO_SIDED|95.0|-10.0|21.91||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value are based on the Wilcoxon-Mann-Whitney test. Hodges Lehmann nonparametric effect estimates and corresponding two-sided 95% asymptotic confidence intervals are provided for the effect difference between each PSL dose and placebo.||21.91|-10.00|=0.458
92420900|NCT03739840|184730651|SUPERIORITY||Median Difference (Net)|9.31|||=|0.341|TWO_SIDED|95.0|-10.92|28.21||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value are based on the Wilcoxon-Mann-Whitney test. Hodges Lehmann nonparametric effect estimates and corresponding two-sided 95% asymptotic confidence intervals are provided for the effect difference between each PSL dose and placebo.||28.21|-10.92|=0.341
92420901|NCT02788474|184730656|OTHER||Adjusted mean difference|-0.00066|STANDARD_ERROR_OF_MEAN|0.00282||0.8146|TWO_SIDED|95.0|-0.00621|0.00488||random coefficient regression (random slopes and intercepts) model including sex, age and height as covariates (Due to the low number of measurements per patient, baseline CRPM was included as a response rather than as a covariate in the analysis)|random coefficient regression|The Kenward-Roger approximation was used to estimate denominators degrees of freedom.|Difference calculated as Nintedanib minus Placebo|"The rate of change (slope) in blood CRPM was assumed to be linear in each subject over the 12 weeks of treatment. The intercepts and slopes were assumed to be normally distributed with arbitrary covariance matrix.~Since the distribution of the data was not normal, a log10 transformation was performed before conducting the statistical analyses.~Significance tests were based on least-square means using 2-sided 95% confidence intervals (2-sided α=0.05)."||0.00488|-0.00621|0.8146
92420902|NCT02788474|184730657|OTHER||slope estimate|22.001||||0.2084|TWO_SIDED|95.0|-11.83|57.58|||Regression, Logistic||Slope estimate is the monthly rate of change in CRPM up to week 12|To assess the association between disease progression (as defined by absolute forced vital capacity (FVC) decline \>=10% or death) and the change in the Extracellular matrix (ECM) biomarker CRPM in the first 12 weeks, a logistic regression analysis including baseline blood CRPM and the monthly rate of change (slope) in blood CRPM in the first 12 weeks as covariates was applied for placebo-treated patients only to evaluate the potential of CRPM as a prognostic biomarker.||57.58|-11.83|0.2084
92420903|NCT02788474|184730657|OTHER||slope estimate|-45.566||||0.1537|TWO_SIDED|95.0|-109.55|16.37|||Regression, Logistic||Slope estimate is the monthly rate of change in CRPM up to week 12|To assess how nintedanib treatment affected the association between disease progression (as defined by absolute forced vital capacity (FVC) decline \>=10% or death) and the change in CRPM in the first 12 weeks, a logistic regression analysis including baseline blood CRPM, the monthly rate of change (slope) in blood CRPM up to Week 12, treatment and treatment-CRPM slope interaction as covariates was applied.||16.37|-109.55|0.1537
92420904|NCT02788474|184730657|OTHER||Odds Ratio (OR)|0.769||||0.3116|TWO_SIDED|95.0|0.46|1.27|||Regression, Logistic|||To assess whether the overall treatment regimen affected disease progression (as defined by absolute forced vital capacity (FVC) decline \>=10% or death), a logistic regression analysis including baseline blood CRPM and randomised treatment as covariates was applied.||1.27|0.46|0.3116
92420905|NCT02788474|184730657|OTHER||Odds Ratio (OR)|0.772||||0.3175|TWO_SIDED|95.0|0.46|1.27|||Regression, Logistic|||To assess whether the monthly rate of change (slope) in blood CRPM in the first 12 weeks could explain the effect of treatment on disease progression (as defined by absolute forced vital capacity (FVC) decline \>=10% or death), a logistic regression analysis including baseline blood CRPM, the rate of change (slope) in blood CRPM in the first 12 weeks and randomised treatment as covariates was applied.||1.27|0.46|0.3175
92420906|NCT02788474|184730658|OTHER||Adjusted mean difference|0.00121|STANDARD_ERROR_OF_MEAN|0.002||0.5469|TWO_SIDED|95.0|-0.00273|0.00515||random coefficient regression model (C1M (negative reciprocal root-transformed)) with fixed effects for gender, age, height and random effect of patient specific intercept and time.|random coefficient regression||Difference calculated as Nintedanib minus Placebo. Inter-individual variability is modelled by a Variance-Components variance-covariance matrix.|"The rate of change (slope) in blood C1M was assumed to be linear in each subject over the 12 weeks of treatment.~Within-patient errors are modelled by an Unstructured variance-covariance matrix."||0.00515|-0.00273|0.5469
92420907|NCT02788474|184730659|OTHER||Adjusted mean difference|-0.00307|STANDARD_ERROR_OF_MEAN|0.00262||0.2429|TWO_SIDED|95.0|-0.00823|0.00209||random coefficient regression model (C3M (log10-transformed)) with fixed effects for gender, age, height and random effect of patient specific intercept and time.|random coefficient regression||Difference calculated as Nintedanib minus Placebo. Inter-individual variability is modelled by a Variance-Components variance-covariance matrix.|"The rate of change (slope) in blood C3M was assumed to be linear in each subject over the 12 weeks of treatment.~Within-patient errors are modelled by an Unstructured variance-covariance matrix."||0.00209|-0.00823|0.2429
92279135|NCT02300025|184461316|SUPERIORITY_OR_OTHER||LS means ratio|42.5|||||TWO_SIDED|90.0|22.5|80.5|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0-t) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and severe hepatic impairment (test) where, hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||80.5|22.5|
92279136|NCT02300025|184461317|SUPERIORITY_OR_OTHER||LS means ratio|97.6|||||TWO_SIDED|90.0|59.3|160.6|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0 - ∞) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and mild hepatic impairment (test) where hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||160.6|59.3|
92279137|NCT02300025|184461317|SUPERIORITY_OR_OTHER||LS means ratio|103.0|||||TWO_SIDED|90.0|62.6|169.6|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0 - ∞) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and moderate hepatic impairment (test) where hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||169.6|62.6|
92279138|NCT02300025|184461317|SUPERIORITY_OR_OTHER||LS means ratio|68.5|||||TWO_SIDED|90.0|40.4|116.2|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0 - ∞) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and severe hepatic impairment (test) where hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||116.2|40.4|
92279139|NCT01227668|184461356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.097|TWO_SIDED|95.0|0.28|1.12|||Stratified log rank|||||1.12|0.28|0.097
92279140|NCT01227668|184461357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.051|TWO_SIDED|95.0|-8.82|0.02||For secondary endpoints, hierarchical testing aimed to keep the overall experiment-wise type I error rate to \<=0.05. Difference in chg from BL was tested at 0.05 significance only if APR arm significantly differed vs placebo from primary analysis.|ANCOVA|||||0.02|-8.82|0.051
92279141|NCT01227668|184461358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.09|TWO_SIDED|95.0|-1.3|0.1||Treatment diff in chg from BL to endpnt in IS score was tested at 0.05 signif only if ARP arm signif differed vs pb from PA. Thus, if ARP arm signif differed vs pb in IS score, treatment diff in mean CGI-I score at endpnt was tested at 0.05 signfnce.|ANCOVA|||||0.1|-1.3|0.090
92279142|NCT00891878|184461381|SUPERIORITY|||||||0.43|||||||Log Rank|||||||0.43
92279143|NCT00891878|184461382|SUPERIORITY|||||||0.45|||||||Fisher Exact|||||||0.45
92279144|NCT01360450|184461387|OTHER||Mean Difference (Final Values)|0.05|||>|0.05|TWO_SIDED|||||yes the P value was adjusted for multiple comparisons.|ANOVA|2 sided ANOVA|Mean difference between the two treatment arms|||||>0.05
92279145|NCT03211416|184461401|SUPERIORITY||Response Rate|0.296|||||TWO_SIDED|95.0|0.151|0.483||||||||0.483|0.151|
92393120|NCT00796666|184685819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.28|||TWO_SIDED|95.0|-2.1|2.97|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Vitality Score as a covariate.|Baseline to Week 12||2.97|-2.10|
92393121|NCT00796666|184685819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.09|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|95.0|1.74|6.45|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Vitality Score as a covariate.|Baseline to Week 12||6.45|1.74|
92393122|NCT00796666|184685819|SUPERIORITY_OR_OTHER|||||||0.0136|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Vitality Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0136
92420908|NCT05014490|184730701|EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. The level of significance was set to the standard value of 5% (0.05) for all statistical tests.|Ratio of the T/R geometric mean x 100|102.15|||||TWO_SIDED|90.0|94.54|110.37|||||The ratio of geometric LSmeans with corresponding 90% CI calculated from the exponential of the difference between the test and reference products for the ln-transformed parameters should be within the acceptance interval of 80.00 - 125.00%.|||110.37|94.54|
92420909|NCT05014490|184730702|EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. The level of significance was set to the standard value of 5% (0.05) for all statistical tests.|Ratio of the T/R geometric mean x 100|99.23|||||TWO_SIDED|90.0|96.97|101.54|||||The ratio of geometric LSmeans with corresponding 90% CI calculated from the exponential of the difference between the test and reference products for the ln-transformed parameters should be within the acceptance interval of 80.00 - 125.00%.|||101.54|96.97|
92279146|NCT03211416|184461404|SUPERIORITY|||||||0.4||||||Significance level of 0.05.|Two-sided, one-sample t-test|||The null hypothesis is that the mean ratio of T effect cells (post / pre) is equal to 1 (no change).||||0.40
92279147|NCT00494806|184461410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7279|STANDARD_ERROR_OF_MEAN|0.15|<|0.05||95.0|0.3174|1.1383|||t-test, 2 sided|df = 64|Relative risk not calculated.|"No differences in time to first flatus between the rocking and non rocking groups is the null hypothesis.~Sample size calculations by setting the criterion for significance at .05, two-tailed test (an effect in either directions was accepted), and power at .80. A total sample of 54 participants was determined necessary to yield statistically significant results (27 in Group A and 27 in Group B)."||1.1383|0.3174|<0.05
92279148|NCT04071769|184461439|OTHER|||||||0.27|||||||t-test, 2 sided|||Null hypothesis: there is no difference in the Xenon MRI measure of RBC-to-Membrane (RBC:M) at baseline vs. 3 months after initiating anti-fibrotic therapy.||||0.27
92279149|NCT04071769|184461440|OTHER|Baseline to 3 months||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.23
92279150|NCT04071769|184461440|OTHER|Baseline to 6 months||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
92420910|NCT02017171|184730714|SUPERIORITY||Mean Difference (Final Values)|0.001||||0.999|TWO_SIDED|95.0|-1.9|1.9||p value is not adjusted for multiple comparisons, a priori threshold for statistical significance: p\<0.05|linear model for correlated errors||Treatment difference = Allopurinol-Placebo|||1.9|-1.9|0.999
92420911|NCT02017171|184730715|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-1.6|2.2||For secondary outcomes, 95% confidence intervals are reported, without P values. The confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||Treatment difference = Allopurinol - Placebo|||2.2|-1.6|
92420912|NCT02017171|184730716|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-1.7|2.3||For secondary outcomes, 95% confidence intervals are reported, without P values. The confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||Treatment difference = Allopurinol - Placebo|||2.3|-1.7|
92420913|NCT02017171|184730717|SUPERIORITY||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-1.5|0.4||For secondary outcomes, 95% confidence intervals are reported, without P values.|||Treatment difference = Allopurinol - Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||0.4|-1.5|
92420914|NCT02017171|184730718|SUPERIORITY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.0|0.5||For secondary outcomes, 95% confidence intervals are reported, without P values.|||Treatment difference = Allopurinol - Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||0.5|-1.0|
92279151|NCT04071769|184461440|OTHER|Baseline to 12 months||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92420915|NCT02017171|184730719|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.5|2.9||For secondary outcomes, 95% confidence intervals are reported, without P values.|||Hazard ratio = Allopurinol / Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||2.9|0.5|
92420916|NCT02017171|184730720|SUPERIORITY||Ratio (Final Values)|1.4|||||TWO_SIDED|95.0|1.0|1.8||For secondary outcomes, 95% confidence intervals are reported, without P values.|||Ratio = Allopurinol / Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||1.8|1.0|
92420917|NCT02017171|184730721|SUPERIORITY||Ratio (Final Values)|1.3|||||TWO_SIDED|95.0|1.0|1.6||For secondary outcomes, 95% confidence intervals are reported, without P values.|||||Ratio = Allopurinol / Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|1.6|1.0|
92279152|NCT04071769|184461441|OTHER|Baseline to 3 months||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92420918|NCT02017171|184730722|SUPERIORITY||Hazard Ratio (HR)|1.9|||||TWO_SIDED|95.0|0.8|4.5||For secondary outcomes, 95% confidence intervals are reported, without P values.|||Hazard Ratio = Allopurinol / Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||4.5|0.8|
92420919|NCT02220998|184730723|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 120 per treatment group provided 90% power to establish non-inferiority in the SVR12 rates between the SOF/VEL group and the SOF+RBV group. It was based on the assumptions that the non-inferiority margin is 10%, both groups have a SVR12 rate of 94%, and the significance level is 0.025 one-sided.|Difference in proportions|5.2|||||TWO_SIDED|95.0|0.2|10.3|||||Difference in proportions between treatment groups and associated 95% confidence intervals (CI) are calculated based on stratum-adjusted Mantel-Haenszel proportions.|||10.3|0.2|
92420920|NCT02220998|184730723|SUPERIORITY_OR_OTHER|||||||0.018||||||P-value was stratified by cirrhosis status and prior treatment experience.|Cochran-Mantel-Haenszel|||The superiority of SOF/VEL for 12 weeks over SOF+RBV for 12 weeks was to be tested if the efficacy of SOF/VEL for 12 weeks was demonstrated to be statistically noninferior to SOF+RBV for 12 weeks (ie, if the lower bound of the 95% CI for the strata-adjusted difference in the proportions between groups was greater than the prespecified noninferiority margin of -10%).||||0.018
92420921|NCT00873860|184730729|SUPERIORITY_OR_OTHER|||||||0.573||||||Change at Day 92: p-value was based on analysis of variance (ANOVA).|ANOVA|||||||0.573
92420922|NCT00873860|184730729|SUPERIORITY_OR_OTHER|||||||0.64||||||Change at Day 92: p-value was based on ANOVA.|ANOVA|||||||0.640
92420923|NCT00873860|184730729|SUPERIORITY_OR_OTHER|||||||0.224||||||Change at Day 92: p-value was based on ANOVA.|ANOVA|||||||0.224
92446476|NCT02506816|184780010|OTHER|The P-valor Wilcoxon method is a non-parametric statistical hypothesis test used to evaluate changes from baseline H-score values of the three biomarkers.||||||0.033||||||In order to adjust the multiple comparisons made, Benjamini-Hochberg's false discovery rate (FDR) 10% method was used.|Wilcoxon (Mann-Whitney)|||After having analyzed the H-score for each of 3 biomarkers, we calculated the change from baseline subtracting post-treatment H-score from baseline H-score. Data were expressed as mean value and relative standard deviation.||||0.033
92279153|NCT04071769|184461441|OTHER|Baseline to 6 months||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
92279154|NCT04071769|184461441|OTHER|Baseline to 12 months||||||0.56|||||||Wilcoxon (Mann-Whitney)|||||||0.56
92279155|NCT00717977|184461446|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||Adjusted for CGM device type. Age was analyzed as continuous.|Regression, Linear|||The associations of mean sensor glucose and glucose variability measures with age were assessed using least-squares regression models adjusting for device type.||||0.009
92279156|NCT00717977|184461447|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||Adjusted for CGM device type. Age was analyzed as continuous.|Regression, Linear|||The associations of mean sensor glucose and glucose variability measures with age were assessed using least-squares regression models adjusting for device type.||||0.04
92279157|NCT00717977|184461448|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Adjusted for device type. Age was analyzed as continuous.|Regression, Linear|||The associations of mean sensor glucose and glucose variability measures with age were assessed using least-squares regression models adjusting for device type.||||<0.001
92279158|NCT05440097|184461492|OTHER||Difference in percentage|12.79|||<|0.0001|TWO_SIDED|95.0|9.079|13.431|||Mixed Models Analysis|The primary analysis used mixed effect logistic regression model, taking the timepoint as the fixed effect, hospital and patient as random effects.||||13.431|9.079|<.0001
92170121|NCT02376790|184229123|SUPERIORITY||Treatment Difference|17.1||||0.012|TWO_SIDED|95.0|4.0|30.2||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of percentage of participants with an sPGA of 0 or 1 at Week 24 in participants with baseline BSA involvement with psoriasis ≥ 10%.||30.2|4.0|0.012
92279159|NCT05440097|184461493|SUPERIORITY||Difference in percentage|30.5|||||TWO_SIDED|95.0|26.82|34.25|||Normal approximation|||||34.25|26.82|
92279160|NCT05440097|184461494|SUPERIORITY||Difference in percentage|2.2|||||TWO_SIDED|95.0|0.77|3.58|||Normal approximation||Change from baseline in proportion at week 12|||3.58|0.77|
92279161|NCT05440097|184461494|SUPERIORITY||Difference in percentage|2.1|||||TWO_SIDED|95.0|0.57|3.56|||Normal approximation||Change from baseline in proportion at week 24|||3.56|0.57|
92279162|NCT05440097|184461494|SUPERIORITY||Difference in percentage|12.2||||||95.0|9.25|15.13|||Normal approximation||Change from baseline in proportion at week 36|||15.13|9.25|
92279163|NCT05440097|184461494|SUPERIORITY||Difference in percentage|13.1||||||95.0|10.32|15.79|||Normal approximation||Change from baseline in proportion at week 48|||15.79|10.32|
92279164|NCT05440097|184461496|SUPERIORITY||Difference in percentage|13.0|||||TWO_SIDED|95.0|9.21|16.85|||Normal approximation||Change from baseline in the Proportion at week 12|||16.85|9.21|
92279165|NCT05440097|184461496|SUPERIORITY||Difference in percentage|4.4|||||TWO_SIDED|95.0|0.61|8.23|||Normal approximation||Change from baseline in the proportion at week 24|||8.23|0.61|
92279166|NCT05440097|184461496|SUPERIORITY||Difference in percentage|6.5|||||TWO_SIDED|95.0|2.68|10.36|||Normal approximation||Change from baseline in the proportion at week 36|||10.36|2.68|
92279167|NCT01806688|184461508|EQUIVALENCE|The study is designed to detect a 10.0% difference in area under the curve (AUC) appetite ratings between foods. The required number of Participants is 38.|||||<|0.05|||||||ANCOVA|Sources of variation included in the model: snack, visit number, baseline score, visit number × snack, and snack × overweight.||Items #1 were compared to each other and Items #2 were compared to each other||||<0.05
92279168|NCT01806688|184461509|EQUIVALENCE|The study is designed to detect a 10.0% difference in area under the curve (AUC) appetite ratings between foods. The required number of Participants is 38.|||||<|0.05|||||||ANCOVA|Sources of variation included in the model: snack, visit number, baseline score, visit number × snack, and snack × overweight.||Items #1 were compared to each other and Items #2 were compared to each other||||<0.05
92279169|NCT01806688|184461511|EQUIVALENCE|The study is designed to detect a 10.0% difference in area under the curve (AUC) appetite ratings between foods. The required number of Participants is 38.|||||<|0.05|||||||ANCOVA|Sources of variation included in the model: snack, visit number, baseline score, visit number × snack, and snack × overweight.||Items #1 were compared to each other and Items #2 were compared to each other||||<0.05
92279170|NCT02146430|184461512|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.187||0.187|TWO_SIDED|95.0|-0.61|0.12|||Difference of means|||||0.12|-0.61|0.1870
92279171|NCT02146430|184461512|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.185||0.0944|TWO_SIDED|95.0|-0.67|0.05|||Difference of means|||||0.05|-0.67|0.0944
92420924|NCT00873860|184730730|SUPERIORITY_OR_OTHER|||||||0.4686||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.4686
92446477|NCT02506816|184780011|OTHER|The differences in the change from baseline of different biomarkers were evaluated by the P-valor Wilcoxon method, a non-parametric statistical hypothesis test.||||||0.03||||||In order to adjust the multiple comparisons made, Benjamini-Hochberg's false discovery rate (FDR) 10% method was used.|Wilcoxon (Mann-Whitney)|||After having analyzed the H-score for each of several biomarkers, we calculated the change from baseline subtracting post-treatment H-score from baseline H-score. Data were expressed as mean value and relative standard deviation.||||0.03
92279172|NCT02146430|184461512|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.187||0.1391|TWO_SIDED|95.0|-0.64|0.09|||Difference of means|||||0.09|-0.64|0.1391
92279173|NCT02146430|184461512|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.187||0.7338|TWO_SIDED|95.0|-0.43|0.3|||Difference of means|||||0.30|-0.43|0.7338
92279174|NCT02146430|184461512|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.19||0.8705|TWO_SIDED|95.0|-0.4|0.34|||Difference of means|||||0.34|-0.40|0.8705
92279175|NCT02146430|184461514|SUPERIORITY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|1.592||0.0326|TWO_SIDED|95.0|-6.52|-0.28|||Difference of means|||||-0.28|-6.52|0.0326
92279176|NCT02146430|184461514|SUPERIORITY||Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|1.592||0.422|TWO_SIDED|95.0|-4.4|1.84|||Difference of means|||||1.84|-4.40|0.4220
92279177|NCT02146430|184461514|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|1.615||0.9659|TWO_SIDED|95.0|-3.1|3.23|||Difference of means|||||3.23|-3.10|0.9659
92279178|NCT02146430|184461514|SUPERIORITY||Mean Difference (Final Values)|2.12|STANDARD_ERROR_OF_MEAN|1.608||0.1867|TWO_SIDED|95.0|-1.03|5.28|||Difference of means|||||5.28|-1.03|0.1867
92279179|NCT02146430|184461514|SUPERIORITY||Mean Difference (Final Values)|3.47|STANDARD_ERROR_OF_MEAN|1.631||0.0333|TWO_SIDED|95.0|0.27|6.67|||Difference of means|||||6.67|0.27|0.0333
92279180|NCT02146430|184461516|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.28||0.2474|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||||0.2|-0.9|0.2474
92279181|NCT02146430|184461516|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.28||0.3347|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||||0.3|-0.8|0.3347
92279182|NCT02146430|184461516|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.3999|TWO_SIDED|95.0|-0.3|0.8|||ANCOVA|||||0.8|-0.3|0.3999
92279183|NCT02146430|184461516|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.28||0.8435|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||||0.6|-0.5|0.8435
92420925|NCT00873860|184730730|SUPERIORITY_OR_OTHER|||||||0.317||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.3170
92446478|NCT02477020|184780036|SUPERIORITY_OR_OTHER||Least square mean difference|-5.46|STANDARD_ERROR_OF_MEAN|3.442||0.115|TWO_SIDED|95.0|-12.26|1.35||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using MMRM|MMRM||TAK-063 - Placebo. Baseline Positive and Negative Symptom Scale (PANSS) total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|||1.35|-12.26|0.115
92279184|NCT02146430|184461516|SUPERIORITY||Difference in least squares means|0.6|STANDARD_ERROR_OF_MEAN|0.28||0.0446|TWO_SIDED|95.0|0.0|1.1|||ANCOVA|||||1.1|0.0|0.0446
92279185|NCT02146430|184461517|SUPERIORITY||Difference of least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.24||0.9775|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Anxiety: Placebo vs Pregabalin 150 mg BID||0.5|-0.5|0.9775
92279186|NCT02146430|184461517|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.65|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg QD||0.4|-0.6|0.6500
92279187|NCT02146430|184461517|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.6546|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg BID||0.4|-0.6|0.6546
92279188|NCT02146430|184461517|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.6692|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.4|-0.6|0.6692
92279189|NCT02146430|184461517|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.6737|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.4|-0.6|0.6737
92279190|NCT02146430|184461517|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.27||0.3888|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||Depression: Placebo vs Pregabalin 150 mg BID||0.3|-0.8|0.3888
92279191|NCT02146430|184461517|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.27||0.92|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg QD||0.6|-0.5|0.9200
92279192|NCT02146430|184461517|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.7061|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg BID||0.6|-0.4|0.7061
92279193|NCT02146430|184461517|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.3337|TWO_SIDED|95.0|-0.3|0.8|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|-0.3|0.3337
92279194|NCT02146430|184461517|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.2139|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|-0.2|0.2139
92279195|NCT02146430|184461518|SUPERIORITY||Difference in least squares means|2.197|STANDARD_ERROR_OF_MEAN|1.4933||0.1416|TWO_SIDED|95.0|-0.733|5.126|||ANCOVA|||Physical Component: Placebo vs Pregabalin 150 mg BID||5.126|-0.733|0.1416
92279196|NCT02146430|184461518|SUPERIORITY||Difference in least squares means|0.249|STANDARD_ERROR_OF_MEAN|1.492||0.8677|TWO_SIDED|95.0|-2.679|3.176|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg QD||3.176|-2.679|0.8677
92279197|NCT02146430|184461518|SUPERIORITY||Difference in least squares means|-0.899|STANDARD_ERROR_OF_MEAN|1.4959||0.5481|TWO_SIDED|95.0|-3.834|2.036|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg BID||2.036|-3.834|0.5481
92279198|NCT02146430|184461518|SUPERIORITY||Difference in least squares means|-1.948|STANDARD_ERROR_OF_MEAN|1.4875||0.1906|TWO_SIDED|95.0|-4.866|0.971|||ANCOVA|||Physical Component: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.971|-4.866|0.1906
92279199|NCT02146430|184461518|SUPERIORITY||Difference in least squares means|-3.095|STANDARD_ERROR_OF_MEAN|1.4883||0.0378|TWO_SIDED|95.0|-6.015|-0.175|||ANCOVA|||Physical Component: Pregabalin 150 mg BID vs DS-5565 15 mg BID||-0.175|-6.015|0.0378
92279200|NCT02146430|184461518|SUPERIORITY||Difference in least squares means|0.664|STANDARD_ERROR_OF_MEAN|0.6865||0.3337|TWO_SIDED|95.0|-0.683|2.011|||ANCOVA|||Mental Component: Placebo vs Pregabalin 150 mg BID||2.011|-0.683|0.3337
92279201|NCT02146430|184461518|SUPERIORITY||Difference in least squares means|-0.194|STANDARD_ERROR_OF_MEAN|0.686||0.7778|TWO_SIDED|95.0|-1.54|1.152|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg QD||1.152|-1.540|0.7778
92279202|NCT02146430|184461518|SUPERIORITY||Difference in least squares means|-0.087|STANDARD_ERROR_OF_MEAN|0.6879||0.8991|TWO_SIDED|95.0|-1.437|1.262|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg BID||1.262|-1.437|0.8991
92279203|NCT02146430|184461518|SUPERIORITY||Difference in least squares means|-0.857|STANDARD_ERROR_OF_MEAN|0.6833||0.2098|TWO_SIDED|95.0|-2.198|0.483|||ANCOVA|||Mental Component: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.483|-2.198|0.2098
92279204|NCT02146430|184461518|SUPERIORITY||Difference in least squares means|-0.751|STANDARD_ERROR_OF_MEAN|0.6842||0.2725|TWO_SIDED|95.0|-2.093|0.591|||ANCOVA|||Mental Component: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.591|-2.093|0.2725
92279205|NCT02146430|184461519|SUPERIORITY||Difference in least squares means|0.0018|STANDARD_ERROR_OF_MEAN|0.01329||0.8923|TWO_SIDED|95.0|-0.0243|0.0279|||ANCOVA|||||0.0279|-0.0243|0.8923
92279206|NCT02146430|184461519|SUPERIORITY||Difference in least squares means|-0.0021|STANDARD_ERROR_OF_MEAN|0.01327||0.8749|TWO_SIDED|95.0|-0.0281|0.024|||ANCOVA|||||0.0240|-0.0281|0.8749
92279207|NCT02146430|184461519|SUPERIORITY||Difference in least squares means|-0.0091|STANDARD_ERROR_OF_MEAN|0.01332||0.4932|TWO_SIDED|95.0|-0.0353|0.017|||ANCOVA|||||0.0170|-0.0353|0.4932
92279208|NCT02146430|184461519|SUPERIORITY||Difference in least squares means|-0.0039|STANDARD_ERROR_OF_MEAN|0.01323||0.7688|TWO_SIDED|95.0|-0.0298|0.0221|||ANCOVA|||||0.0221|-0.0298|0.7688
92279209|NCT02146430|184461519|SUPERIORITY||Difference in least squares means|-0.0109|STANDARD_ERROR_OF_MEAN|0.01326||0.4099|TWO_SIDED|95.0|-0.0369|0.0151|||ANCOVA|||||0.0151|-0.0369|0.4099
92279210|NCT02146430|184461520|SUPERIORITY||Difference in least squares means|-0.55|STANDARD_ERROR_OF_MEAN|0.166||0.0009|TWO_SIDED|95.0|-0.88|-0.23|||Mixed Models Analysis|||||-0.23|-0.88|0.0009
92279211|NCT02146430|184461520|SUPERIORITY||Difference in least squares means|-0.63|STANDARD_ERROR_OF_MEAN|0.166||0.0001|TWO_SIDED|95.0|-0.96|-0.31|||Mixed Models Analysis|||||-0.31|-0.96|0.0001
92279212|NCT02146430|184461520|SUPERIORITY||Difference in least squares means|-0.85|STANDARD_ERROR_OF_MEAN|0.167|<|0.0001|TWO_SIDED|95.0|-1.17|-0.52|||Mixed Models Analysis|||||-0.52|-1.17|<0.0001
92279213|NCT02146430|184461520|SUPERIORITY||Difference in least squares means|-0.08|STANDARD_ERROR_OF_MEAN|0.167||0.6408|TWO_SIDED|95.0|-0.4|0.25|||Mixed Models Analysis|||||0.25|-0.40|0.6408
92279214|NCT02146430|184461520|SUPERIORITY||Difference in least squares means|-0.29|STANDARD_ERROR_OF_MEAN|0.167||0.0786|TWO_SIDED|95.0|-0.62|0.03|||Mixed Models Analysis|||||0.03|-0.62|0.0786
92279215|NCT02146430|184461522|SUPERIORITY||Difference of least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0541|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|||Worst pain: Placebo vs Pregabalin 150 mg BID||0.0|-0.7|0.0541
92279216|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.7771|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg QD||0.3|-0.4|0.7771
92279217|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.5488|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg BID||0.3|-0.5|0.5488
92279218|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.19||0.0987|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.1|0.0987
92279219|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.19||0.184|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.6|-0.1|0.1840
92279220|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.1903|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||Least pain: Placebo vs Pregabalin 150 mg BID||0.1|-0.6|0.1903
92279221|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5787|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg QD||0.2|-0.4|0.5787
92279222|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5535|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg BID||0.2|-0.5|0.5535
92279223|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.18||0.4476|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.2|0.4476
92393123|NCT00796666|184685820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|-2.33|3.23|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Social Functioning Score as a covariate.|Baseline to Week 12||3.23|-2.33|
92393124|NCT00796666|184685820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.73|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|95.0|0.14|5.32|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Social Functioning Score as a covariate.|Baseline to Week 12||5.32|0.14|
92420926|NCT00873860|184730730|SUPERIORITY_OR_OTHER|||||||0.1664||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.1664
92393125|NCT00796666|184685820|SUPERIORITY_OR_OTHER|||||||0.1582|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Social Functioning Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.1582
92279224|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.18||0.4737|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.2|0.4737
92279225|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.0814|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||Average pain: Placebo vs Pregabalin 150 mg BID||0.0|-0.6|0.0814
92279226|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.3069|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg QD||0.2|-0.5|0.3069
92279227|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.16||0.3916|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg BID||0.2|-0.5|0.3916
92279228|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.16||0.4667|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.4|-0.2|0.4667
92279229|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.16||0.3744|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.2|0.3744
92279230|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.2959|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Pain right now: Placebo vs Pregabalin 150 mg BID||0.2|-0.6|0.2959
92279231|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.19||0.9119|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg QD||0.4|-0.4|0.9119
92279232|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.19||0.9399|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg BID||0.4|-0.4|0.9399
92279233|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.19||0.2455|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Pain right now: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.6|-0.2|0.2455
92279234|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.19||0.3311|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Pain right now: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.6|-0.2|0.3311
92393126|NCT00796666|184685821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|95.0|-3.09|3.18|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitation Due to Emotional Problems Score as a covariate.|Baseline to Week 12||3.18|-3.09|
92235903|NCT01543490|184375084|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoint was 2-sided and performed using a significance (alpha) level of 0.05, and missing data imputed using the LOCF approach.|Risk Difference (RD)|7.1|STANDARD_ERROR_OF_MEAN|4.07||0.1036|TWO_SIDED|95.0|-1.3|15.0||The p-value was from a 2-sided Fisher's exact test.|Fisher Exact|The point estimate of treatment effect (ISV-305 compared with Vehicle) was reported using Fisher's exact test.|The risk difference was obtained by taking the difference in proportions (ISV-305 minus Vehicle). A 2-sided exact unconditional 95% CI was calculated.|||15.0|-1.3|0.1036
92235904|NCT01335971|184375089|SUPERIORITY_OR_OTHER|||||||0.45|||||||Kruskal-Wallis|||Applies to gene expression of NAD(P)H Quinone Dehydrogenase 1 (NQ01) in alveolar macrophages||||0.45
92170122|NCT02238483|184229137|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.39||||0.2371|TWO_SIDED|95.0|0.81|2.4|||Regression, Cox||A hazard ratio greater than 1 indicates a higher rate of incidence in the AZD7624 group.|H0: Hazard Ratio (AZD7624/placebo) equals 1 vs. H1: Hazard Ratio does not equal 1.||2.40|0.81|0.2371
92235905|NCT01335971|184375089|SUPERIORITY_OR_OTHER|||||||0.4|||||||Kruskal-Wallis|||Applies to gene expression of Heme Oxygenase 1 (HO1) in alveolar macrophages||||0.40
92235906|NCT01335971|184375089|SUPERIORITY_OR_OTHER|||||||0.75|||||||Kruskal-Wallis|||Applies to gene expression of Aldo-Keto Reductase Family 1 Member C1 (AKR1C1) in alveolar macrophages||||0.75
92235907|NCT01335971|184375089|SUPERIORITY_OR_OTHER|||||||0.49|||||||Kruskal-Wallis|||Applies to gene expression of Aldo-Keto Reductase Family 1 Member C3 (AKR1C3) in alveolar macrophages||||0.49
92235908|NCT01335971|184375089|SUPERIORITY_OR_OTHER|||||||0.88|||||||Kruskal-Wallis|||Applies to gene expression of nuclear factor erythroid 2 like 2 (Nrf2) in alveolar macrophages||||0.88
92235909|NCT01335971|184375089|SUPERIORITY_OR_OTHER|||||||0.71|||||||Kruskal-Wallis|||Applies to gene expression of Kelch Like ECH Associated Protein 1 (Keap1) in alveolar macrophages||||0.71
92235910|NCT01335971|184375090|SUPERIORITY_OR_OTHER|||||||0.68|||||||Kruskal-Wallis|||Applies to gene expression of Nrf2 in bronchial epithelial cells||||0.68
92235911|NCT01335971|184375091|SUPERIORITY_OR_OTHER|||||||0.69|||||||Kruskal-Wallis|||Applies to gene expression of NAD(P)H Quinone Dehydrogenase 1 (NQ01) in bronchial epithelial cells||||0.69
92235912|NCT01335971|184375091|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Kruskal-Wallis|||Applies to gene expression of Kelch Like ECH Associated Protein 1 (Keap1) in bronchial epithelial cells||||<0.01
92235913|NCT01335971|184375092|SUPERIORITY_OR_OTHER|||||||0.53|||||||Kruskal-Wallis|||Applies to gene expression of Heme Oxygenase 1 (HO1) in bronchial epithelial cells||||0.53
92235914|NCT01335971|184375093|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Kruskal-Wallis|||Applies to gene expression of Aldo-Keto Reductase Family 1 Member C1 (AKR1C1) in bronchial epithelial cells.||||<0.01
92235915|NCT01335971|184375094|SUPERIORITY_OR_OTHER|||||||0.06|||||||Kruskal-Wallis|||Applies to gene expression of Aldo-Keto Reductase Family 1 Member C3 (AKR1C3) in bronchial epithelial cells.||||0.06
92235916|NCT01335971|184375095|SUPERIORITY_OR_OTHER|||||||0.2|||||||Kruskal-Wallis|||||||0.20
92235917|NCT01335971|184375096|SUPERIORITY_OR_OTHER|||||||0.41|||||||Kruskal-Wallis|||Applies to C-reactive protein concentration||||0.41
92235918|NCT01335971|184375096|SUPERIORITY_OR_OTHER|||||||0.07|||||||Kruskal-Wallis|||Applies to Interleukin-6 concentration||||0.07
92235919|NCT01335971|184375096|SUPERIORITY_OR_OTHER|||||||0.65|||||||Kruskal-Wallis|||Applies to Interleukin-8 concentration||||0.65
92235920|NCT01335971|184375097|SUPERIORITY_OR_OTHER|||||||0.71|||||||Kruskal-Wallis|||Applies to interleukin-8 results||||0.71
92235921|NCT01335971|184375097|SUPERIORITY_OR_OTHER|||||||0.33|||||||Kruskal-Wallis|||Applies to secretory leukoprotease inhibitor results||||0.33
92235922|NCT01335971|184375098|SUPERIORITY_OR_OTHER|||||||0.8|||||||Kruskal-Wallis|||Applies to isoprostane results.||||0.80
92235923|NCT01335971|184375098|SUPERIORITY_OR_OTHER|||||||0.35|||||||Kruskal-Wallis|||Applies to thiobarbituric acid reactive substances results.||||0.35
92235924|NCT01335971|184375098|SUPERIORITY_OR_OTHER|||||||0.53|||||||Kruskal-Wallis|||Applies to total antioxidants results.||||0.53
92235925|NCT03351244|184375105|OTHER||Hazard Ratio (HR)|1.097||||0.7735|TWO_SIDED|95.0|0.585|2.056|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||2.056|0.585|0.7735
92235926|NCT03351244|184375105|OTHER||Hazard Ratio (HR)|0.91||||0.7809|TWO_SIDED|95.0|0.468|1.77|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||1.770|0.468|0.7809
92235927|NCT03351244|184375105|OTHER||Hazard Ratio (HR)|1.005||||0.9862|TWO_SIDED|95.0|0.576|1.753|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||1.753|0.576|0.9862
92235928|NCT03351244|184375106|OTHER|A restricted maximum likelihood-based approach using a mixed model with repeated measurements was applied.|Placebo-corrected adjusted mean|0.38||||0.5289|TWO_SIDED|95.0|-0.809|1.57|||Mixed model with repeated measurements|The analysis included the fixed, categorical effects of treatment at each visit, and the fixed continuous effects of baseline at each visit.||||1.570|-0.809|0.5289
92235929|NCT03351244|184375106|OTHER|A restricted maximum likelihood-based approach using a mixed model with repeated measurements was applied.|Placebo-corrected adjusted mean|0.21||||0.744|TWO_SIDED|95.0|-1.055|1.475|||Mixed model with repeated measurements|The analysis included the fixed, categorical effects of treatment at each visit, and the fixed continuous effects of baseline at each visit.||||1.475|-1.055|0.7440
92235930|NCT03351244|184375106|OTHER|A restricted maximum likelihood-based approach using a mixed model with repeated measurements was applied.|Placebo-corrected adjusted mean|0.31||||0.5659|TWO_SIDED|95.0|-0.745|1.358|||Mixed model with repeated measurements|The analysis included the fixed, categorical effects of treatment at each visit, and the fixed continuous effects of baseline at each visit.||||1.358|-0.745|0.5659
92235931|NCT03351244|184375109|OTHER||Hazard Ratio (HR)|1.006||||0.9938|TWO_SIDED|95.0|0.203|4.989|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||4.989|0.203|0.9938
92235932|NCT03351244|184375109|OTHER||Hazard Ratio (HR)|1.116||||0.893|TWO_SIDED|95.0|0.225|5.531|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||5.531|0.225|0.8930
92420927|NCT00873860|184730730|SUPERIORITY_OR_OTHER|||||||0.3234||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.3234
92420928|NCT00873860|184730730|SUPERIORITY_OR_OTHER|||||||0.3133||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.3133
92235933|NCT03351244|184375109|OTHER||Hazard Ratio (HR)|1.058||||0.936|TWO_SIDED|95.0|0.265|4.233|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||4.233|0.265|0.9360
92235934|NCT03351244|184375111|OTHER||Hazard Ratio (HR)|0.788||||0.6362|TWO_SIDED|95.0|0.293|2.118|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||2.118|0.293|0.6362
92235935|NCT03351244|184375111|OTHER||Hazard Ratio (HR)|0.612||||0.3782|TWO_SIDED|95.0|0.205|1.826|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||1.826|0.205|0.3782
92235936|NCT03351244|184375111|OTHER||Hazard Ratio (HR)|0.703||||0.4253|TWO_SIDED|95.0|0.296|1.671|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||1.671|0.296|0.4253
92235937|NCT01499576|184375115|SUPERIORITY_OR_OTHER||percent agreement|89.2|||||TWO_SIDED|||||||||||||
92235938|NCT01499576|184375116|SUPERIORITY_OR_OTHER||Kappa index of agreement|0.808|||<|0.01|TWO_SIDED||||||Kappa index of agreement|||||||<0.01
92235939|NCT01499576|184375117|SUPERIORITY_OR_OTHER||persent of adverse event|10.48|||||TWO_SIDED|||||||||||||
92235940|NCT03237845|184375162|SUPERIORITY||Risk Difference (RD)|7.6||||0.0006|TWO_SIDED|95.0|3.3|11.9|||Cochran-Mantel-Haenszel|||||11.9|3.3|0.0006
92235941|NCT03237845|184375163|SUPERIORITY||Risk Difference (RD)|12.4|||<|0.0001|TWO_SIDED|95.0|6.9|17.9|||Cochran-Mantel-Haenszel|||||17.9|6.9|< 0.0001
92235942|NCT03237845|184375164|SUPERIORITY||Risk Difference (RD)|15.1|||<|0.0001|TWO_SIDED|95.0|9.4|20.8|||Cochran-Mantel-Haenszel|||||20.8|9.4|< 0.0001
92235943|NCT03237845|184375165|SUPERIORITY||Risk Difference (RD)|9.9||||0.0039|TWO_SIDED|95.0|3.2|16.6|||Cochran-Mantel-Haenszel|||||16.6|3.2|0.0039
92235944|NCT03237845|184375166|SUPERIORITY||Risk Difference (RD)|15.3|||<|0.0001|TWO_SIDED|95.0|9.4|21.2|||Cochran-Mantel-Haenszel|||||21.2|9.4|< 0.0001
92235945|NCT03237845|184375167|SUPERIORITY||Risk Difference (RD)|4.8||||0.2084|TWO_SIDED|95.0|-2.7|12.2||P-Value ≥ 0.05; therefore, all secondary outcome measures listed after this outcome measure in the hierarchy were not tested.|Cochran-Mantel-Haenszel|||||12.2|-2.7|0.2084
92235946|NCT01221233|184375175|SUPERIORITY||Median Difference (Final Values)|17.6||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.000
92235947|NCT03865407|184375181|SUPERIORITY|||||||0.1839|||||||t-test, 2 sided|||||||0.1839
92235948|NCT03865407|184375182|SUPERIORITY|||||||0.3036|||||||t-test, 2 sided|||||||0.3036
92235949|NCT03865407|184375183|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92235950|NCT03865407|184375184|SUPERIORITY|||||||0.1421|||||||t-test, 2 sided|||||||0.1421
92235951|NCT03865407|184375185|SUPERIORITY|||||||0.0022|||||||t-test, 2 sided|||||||0.0022
92235952|NCT03865407|184375186|SUPERIORITY|||||||0.3032|||||||t-test, 2 sided|||||||0.3032
92235953|NCT01645280|184375193|SUPERIORITY_OR_OTHER|||||||0.184|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.184
92235954|NCT01645280|184375193|SUPERIORITY_OR_OTHER|||||||0.13|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.130
92235955|NCT01645280|184375193|SUPERIORITY_OR_OTHER|||||||0.642|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.642
92235956|NCT01645280|184375193|SUPERIORITY_OR_OTHER|||||||0.832|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.832
92235957|NCT01645280|184375194|SUPERIORITY_OR_OTHER|||||||0.019|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.019
92235958|NCT01645280|184375194|SUPERIORITY_OR_OTHER|||||||0.025|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.025
92235959|NCT01645280|184375194|SUPERIORITY_OR_OTHER|||||||0.248|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.248
92235960|NCT01645280|184375194|SUPERIORITY_OR_OTHER|||||||0.045|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.045
92235961|NCT01645280|184375195|SUPERIORITY_OR_OTHER|||||||0.381|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.381
92235962|NCT01645280|184375195|SUPERIORITY_OR_OTHER|||||||0.543|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.543
92235963|NCT01645280|184375195|SUPERIORITY_OR_OTHER|||||||0.629|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.629
92235964|NCT01645280|184375195|SUPERIORITY_OR_OTHER|||||||0.273|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.273
92235965|NCT01645280|184375196|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.060
92170123|NCT02238483|184229138|SUPERIORITY_OR_OTHER||Rate Ratio|1.33|STANDARD_ERROR_OF_MEAN|0.33||0.249|TWO_SIDED|95.0|0.82|2.16|||regression, negative binomial||A hazard ratio greater than 1 indicates a higher rate of incidence in the AZD7624 group.|||2.16|0.82|0.249
92170124|NCT02238483|184229139|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||0.1261|TWO_SIDED|95.0|0.89|2.5|||Regression, Cox||A hazard ratio greater than 1 indicates a higher rate of incidence in the AZD7624 group.|||2.50|0.89|0.1261
92279235|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.254|STANDARD_ERROR_OF_MEAN|0.1647||0.1233|TWO_SIDED|95.0|-0.577|0.069|||ANCOVA|||Severity score: Placebo vs Pregabalin 150 mg BID||0.069|-0.577|0.1233
92279236|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.072|STANDARD_ERROR_OF_MEAN|0.1643||0.661|TWO_SIDED|95.0|-0.394|0.25|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg QD||0.250|-0.394|0.6610
92279237|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.098|STANDARD_ERROR_OF_MEAN|0.1649||0.5514|TWO_SIDED|95.0|-0.422|0.225|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg BID||0.225|-0.422|0.5514
92279238|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.182|STANDARD_ERROR_OF_MEAN|0.1638||0.2673|TWO_SIDED|95.0|-0.14|0.503|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.503|-0.140|0.2673
92279239|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.156|STANDARD_ERROR_OF_MEAN|0.1644||0.3439|TWO_SIDED|95.0|-0.167|0.478|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.478|-0.167|0.3439
92279240|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|2.6|STANDARD_ERROR_OF_MEAN|2.4||0.2708|TWO_SIDED|95.0|-2.1|7.4|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs Pregabalin 150 mg BID||7.4|-2.1|0.2708
92279241|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|1.2|STANDARD_ERROR_OF_MEAN|2.4||0.6285|TWO_SIDED|95.0|-3.5|5.9|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs DS-5565 15 mg QD||5.9|-3.5|0.6285
92279242|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|2.41||0.9177|TWO_SIDED|95.0|-5.0|4.5|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs DS-5565 150 mg BID||4.5|-5.0|0.9177
92279243|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-1.5|STANDARD_ERROR_OF_MEAN|2.38||0.5334|TWO_SIDED|95.0|-6.2|3.2|||ANCOVA|||Relief (%) by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||3.2|-6.2|0.5334
92279244|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-2.9|STANDARD_ERROR_OF_MEAN|2.39||0.2261|TWO_SIDED|95.0|-7.6|1.8|||ANCOVA|||Relief (%) by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||1.8|-7.6|0.2261
92279245|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-3.87|STANDARD_ERROR_OF_MEAN|1.758||0.0281|TWO_SIDED|95.0|-7.32|-0.42|||ANCOVA|||Interference: Placebo vs Pregabalin 150 mg BID||-0.42|-7.32|0.0281
92279246|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-1.42|STANDARD_ERROR_OF_MEAN|1.756||0.419|TWO_SIDED|95.0|-4.87|2.03|||ANCOVA|||Interference: Placebo vs DS-5565 15 mg QD||2.03|-4.87|0.4190
92279247|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-1.61|STANDARD_ERROR_OF_MEAN|1.763||0.3622|TWO_SIDED|95.0|-5.06|1.85|||ANCOVA|||Interference: Placebo vs DS-5565 15 mg BID||1.85|-5.06|0.3622
92279248|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|2.45|STANDARD_ERROR_OF_MEAN|1.75||0.1623|TWO_SIDED|95.0|-0.99|5.88|||ANCOVA|||Interference: Pregabalin 150 mg BID vs DS-5565 15 mg QD||5.88|-0.99|0.1623
92446479|NCT02477020|184780037|SUPERIORITY_OR_OTHER||Least square mean difference|-0.79|STANDARD_ERROR_OF_MEAN|1.508||0.602|TWO_SIDED|95.0|-3.77|2.19||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using MMRM.|MMRM||TAK-063 - Placebo. Baseline PANSS total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|Change at Week 1||2.19|-3.77|0.602
92170125|NCT02238483|184229140|SUPERIORITY_OR_OTHER||Rate ratio|1.4|STANDARD_ERROR_OF_MEAN|0.33||0.157|TWO_SIDED|95.0|0.88|2.21|||regression, negative binomial|||||2.21|0.88|0.157
92170126|NCT02238483|184229141|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.53||||0.1529|TWO_SIDED|95.0|0.85|2.76|||Regression, Cox|||||2.76|0.85|0.1529
92279249|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|2.26|STANDARD_ERROR_OF_MEAN|1.753||0.1978|TWO_SIDED|95.0|-1.18|5.7|||ANCOVA|||Interference: Pregabalin 150 mg BID vs DS-5565 15 mg BID||5.70|-1.18|0.1978
92279250|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0867|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||General activity: Placebo vs Pregabalin 150 mg BID||0.1|-0.8|0.0867
92279251|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.6993|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||General activity: Placebo vs DS-5565 15 mg QD||0.3|-0.5|0.6993
92279252|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.21||0.8702|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||General activity: Placebo vs DS-5565 15 mg BID||0.4|-0.4|0.8702
92279253|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1826|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||General activity: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.1|0.1826
92279254|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1206|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||General activity: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.1|0.1206
92279255|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0211|TWO_SIDED|95.0|-0.9|-0.1|||ANCOVA|||Mood: Placebo vs Pregabalin 150 mg BID||-0.1|-0.9|0.0211
92279256|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.4963|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Mood: Placebo vs DS-5565 15 mg QD||0.3|-0.6|0.4963
92279257|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.3031|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Mood: Placebo vs DS-5565 15 mg BID||0.2|-0.6|0.3031
92279258|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1019|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Mood: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|-0.1|0.1019
92279259|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.201|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Mood: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.1|0.2010
92279260|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0331|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||Walking ability: Placebo vs Pregabalin 150 mg BID||-0.0|-0.9|0.0331
92235966|NCT01645280|184375196|SUPERIORITY_OR_OTHER|||||||0.134|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.134
92393127|NCT00796666|184685821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.27|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-0.62|5.16|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitation Due to Emotional Problems Score as a covariate.|Baseline to Week 12||5.16|-0.62|
92170127|NCT02238483|184229142|SUPERIORITY_OR_OTHER||rate ratio|1.5|STANDARD_ERROR_OF_MEAN|0.4||0.129|TWO_SIDED|95.0|0.89|2.52|||regression, negative binomial|||||2.52|0.89|0.129
92170128|NCT02238483|184229143|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.8543|TWO_SIDED|95.0|0.43|2.01|||Regression, Cox||A hazard ratio greater than 1 indicates a higher rate of incidence in the AZD7624 group.|||2.01|0.43|0.8543
92235967|NCT01645280|184375196|SUPERIORITY_OR_OTHER|||||||0.28|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.280
92235968|NCT01645280|184375196|SUPERIORITY_OR_OTHER|||||||0.345|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.345
92235969|NCT02052960|184375202|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.86|TWO_SIDED|95.0|0.736|1.359|||Log Rank|||||1.359|0.736|0.86
92235970|NCT02052960|184375203|SUPERIORITY||Mean Difference (Net)|-1.9||||0.77|TWO_SIDED|95.0|-14.5|10.7|||Chi-squared|||||10.7|-14.5|0.77
92420929|NCT00873860|184730730|SUPERIORITY_OR_OTHER|||||||0.2108||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.2108
92420930|NCT00873860|184730737|SUPERIORITY_OR_OTHER|||||||0.934||||||ACQ score \<=0.75, Day 92: Fisher exact test was used to compare all arms.|Fisher Exact|||||||0.934
92420931|NCT00873860|184730737|SUPERIORITY_OR_OTHER|||||||0.592||||||ACQ score \<=0.75, Day 169: Fisher exact test was used to compare all arms.|Fisher Exact|||||||0.592
92420932|NCT00873860|184730742|SUPERIORITY_OR_OTHER|||||||1||||||Day 92: Fisher exact test was used for the analysis.|Fisher Exact|||||||1.0000
92420933|NCT00873860|184730742|SUPERIORITY_OR_OTHER|||||||0.6022||||||Day 92: Fisher exact test was used for the analysis.|Fisher Exact|||||||0.6022
92420934|NCT00873860|184730742|SUPERIORITY_OR_OTHER|||||||1||||||Day 92: Fisher exact test was used for the analysis.|Fisher Exact|||||||1.0000
92420935|NCT00873860|184730742|SUPERIORITY_OR_OTHER|||||||1||||||Day 169: Fisher exact test was used for the analysis.|Fisher Exact|||||||1.0000
92420936|NCT00873860|184730742|SUPERIORITY_OR_OTHER|||||||1||||||Day 169: Fisher exact test was used for the analysis.|Fisher Exact|||||||1.0000
92420937|NCT00873860|184730742|SUPERIORITY_OR_OTHER|||||||1||||||Day 169: Fisher exact test was used for the analysis.|Fisher Exact|||||||1.0000
92420938|NCT00873860|184730743|SUPERIORITY_OR_OTHER|||||||0.551||||||Day 1 to 92: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.551
92420939|NCT00873860|184730743|SUPERIORITY_OR_OTHER|||||||0.492||||||Day 1 to 92: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.492
92420940|NCT00873860|184730743|SUPERIORITY_OR_OTHER|||||||0.983||||||Day 1 to 92: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.983
92420941|NCT00873860|184730743|SUPERIORITY_OR_OTHER|||||||0.991||||||Day 1 to 169: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.991
92420942|NCT00873860|184730743|SUPERIORITY_OR_OTHER|||||||0.9||||||Day 1 to 169: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.900
92420943|NCT00873860|184730743|SUPERIORITY_OR_OTHER|||||||0.673||||||Day 1 to 169: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.673
92420944|NCT00873860|184730744|SUPERIORITY_OR_OTHER|||||||0.546||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.546
92420945|NCT00873860|184730744|SUPERIORITY_OR_OTHER|||||||0.534||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.534
92420946|NCT00873860|184730744|SUPERIORITY_OR_OTHER|||||||0.847||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.847
92420947|NCT00873860|184730744|SUPERIORITY_OR_OTHER|||||||0.987||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.987
92420948|NCT00873860|184730744|SUPERIORITY_OR_OTHER|||||||0.992||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.992
92420949|NCT00873860|184730744|SUPERIORITY_OR_OTHER|||||||0.688||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.688
92420950|NCT00945854|184730747|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANCOVA|||||||<0.05
92420951|NCT04437368|184730791|SUPERIORITY||LS Mean Difference|0.291|STANDARD_ERROR_OF_MEAN|0.2838|||TWO_SIDED|90.0|-0.195|0.777|||mixed model repeated measures|||Week 12||0.777|-0.195|
92420952|NCT04437368|184730791|SUPERIORITY||LS Mean Difference|0.282|STANDARD_ERROR_OF_MEAN|0.2843|||TWO_SIDED|90.0|-0.206|0.769|||mixed model repeated measures|||Week 12||0.769|-0.206|
92420953|NCT04437368|184730791|SUPERIORITY||LS Mean Difference|0.658|STANDARD_ERROR_OF_MEAN|0.373|||TWO_SIDED|90.0|0.017|1.299|||mixed model repeated measures|||Week 24||1.299|0.017|
92420954|NCT04437368|184730791|SUPERIORITY||LS Mean Difference|0.84|STANDARD_ERROR_OF_MEAN|0.3791|||TWO_SIDED|90.0|0.189|1.49|||mixed model repeated measures|||Week 24||1.490|0.189|
92420955|NCT04437368|184730791|SUPERIORITY||LS Mean Difference|0.668|STANDARD_ERROR_OF_MEAN|0.4954|||TWO_SIDED|90.0|-0.177|1.512|||mixed model repeated measures|||Week 36||1.512|-0.177|
92420956|NCT04437368|184730791|SUPERIORITY||LS Mean Difference|0.912|STANDARD_ERROR_OF_MEAN|0.4887|||TWO_SIDED|90.0|0.078|1.746|||mixed model repeated measures|||Week 36||1.746|0.078|
92420957|NCT04437368|184730791|SUPERIORITY||LS Mean Difference|0.976|STANDARD_ERROR_OF_MEAN|0.4813|||TWO_SIDED|90.0|0.15|1.803|||mixed model repeated measures|||Week 48||1.803|0.150|
92420958|NCT04437368|184730791|SUPERIORITY||LS Mean Difference|1.233|STANDARD_ERROR_OF_MEAN|0.4573|||TWO_SIDED|90.0|0.445|2.022|||mixed model repeated measures|||Week 48||2.022|0.445|
92420959|NCT04437368|184730792|SUPERIORITY||LS Mean Difference|1.769|STANDARD_ERROR_OF_MEAN|1.2808|||TWO_SIDED|90.0|-0.441|3.979|||mixed model repeated measures|||Week 72||3.979|-0.441|
92420960|NCT04437368|184730792|SUPERIORITY||LS Mean Difference|1.274|STANDARD_ERROR_OF_MEAN|1.2349|||TWO_SIDED|90.0|-0.863|3.412|||mixed model repeated measures|||Week 72||3.412|-0.863|
92420961|NCT04437368|184730792|SUPERIORITY||LS Mean Difference|2.041|STANDARD_ERROR_OF_MEAN|1.4177|||TWO_SIDED|90.0|-0.386|4.468|||mixed model repeated measures|||Week 96||4.468|-0.386|
92420962|NCT04437368|184730792|SUPERIORITY||LS Mean|1.278|STANDARD_ERROR_OF_MEAN|1.3857|||TWO_SIDED|90.0|-1.099|3.655|||mixed model repeated measures|||Week 96||3.655|-1.099|
92420963|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|5.49|||TWO_SIDED|90.0|-10.3|8.1|||mixed model repeated measures|||Week 12||8.1|-10.3|
92420964|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|5.96|||TWO_SIDED|90.0|-16.3|3.7|||mixed model repeated measures|||Week 12||3.7|-16.3|
92279261|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.7478|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Walking ability: Placebo vs DS-5565 15 mg QD||0.3|-0.5|0.7478
92420965|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|5.54|||TWO_SIDED|90.0|-14.5|4.1|||mixed model repeated measures|||Week 24||4.1|-14.5|
92420966|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|-11.7|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|90.0|-21.7|-1.6|||mixed model repeated measures|||Week 24||-1.6|-21.7|
92420967|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|5.63|||TWO_SIDED|90.0|-18.4|0.5|||mixed model repeated measures|||Week 36||0.5|-18.4|
92420968|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|-11.9|STANDARD_ERROR_OF_MEAN|6.08|||TWO_SIDED|90.0|-22.1|-1.7|||mixed model repeated measures|||Week 36||-1.7|-22.1|
92279262|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.694|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Walking ability: Placebo vs DS-5565 15 mg BID||0.3|-0.5|0.6940
92393128|NCT00796666|184685821|SUPERIORITY_OR_OTHER|||||||0.2161|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitation Due to Emotional Problems Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.2161
92393129|NCT00796666|184685822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44|STANDARD_ERROR_OF_MEAN|1.54|||TWO_SIDED|95.0|-1.61|4.5|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Mental Health Score as a covariate.|Baseline to Week 12||4.50|-1.61|
92393130|NCT00796666|184685822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.66|STANDARD_ERROR_OF_MEAN|1.43|||TWO_SIDED|95.0|0.82|6.5|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Mental Health Score as a covariate.|Baseline to Week 12||6.50|0.82|
92393131|NCT00796666|184685822|SUPERIORITY_OR_OTHER|||||||0.2087|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Mental Health Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.2087
92393132|NCT00796666|184685823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.18|STANDARD_ERROR_OF_MEAN|1.21|||TWO_SIDED|95.0|-1.21|3.58|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Mental Health Score as a covariate.|Baseline to Week 12||3.58|-1.21|
92393133|NCT00796666|184685823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.71|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|95.0|0.37|5.05|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Mental Health Score as a covariate.|Baseline to Week 12||5.05|0.37|
92393134|NCT00796666|184685823|SUPERIORITY_OR_OTHER|||||||0.2897|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Mental Health Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.2897
92393135|NCT00796666|184685824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|95.0|-2.05|1.38|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Physical Health Score as a covariate.|Baseline to Week 12||1.38|-2.05|
92393136|NCT00796666|184685824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.14|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|0.46|3.82|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Physical Health Score as a covariate.|Baseline to Week 12||3.82|0.46|
92393137|NCT00796666|184685824|SUPERIORITY_OR_OTHER|||||||0.0179|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Physical Health Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0179
92393138|NCT00628030|184685830|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Chi-squared|||||||.008
92279263|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.21||0.069|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Walking ability: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|-0.0|0.0690
92279264|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0816|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Walking ability: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.8|-0.0|0.0816
92393139|NCT00628030|184685831|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED||||||Chi-squared|||||||.041
92393140|NCT00628030|184685832|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Chi-squared|||||||.61
92393141|NCT00628030|184685833|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Chi-squared|||||||0.13
92393142|NCT00628030|184685834|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Chi-squared|||||||.024
92393143|NCT02119871|184685839|SUPERIORITY||Median Difference (Final Values)|14.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
92393144|NCT02119871|184685840|SUPERIORITY||Median Difference (Final Values)|10.0||||0.656|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.656
92393145|NCT02119871|184685841|SUPERIORITY||Median Difference (Final Values)|4.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1
92393146|NCT02673918|184685859|EQUIVALENCE|Differences (the number of participants in each of the three categories) between baseline and follow-up was calculated using a Wilcoxon signed-rank test. This was a feasibility test and no power calculation was performed.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92393147|NCT02673918|184685860|EQUIVALENCE|Differences (the number of participants in each of the three categories) between baseline and follow-up was calculated using a Wilcoxon signed-rank test. This was a feasibility test and no power calculation was performed.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92393148|NCT01787461|184685864|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.14||||0.358|TWO_SIDED|95.0|-0.16|0.44|||ANOVA|||Change at Week 24: Analysis was performed using an analysis of variance (ANOVA) model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.44|-0.16|0.358
92420969|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|5.88|||TWO_SIDED|90.0|-12.7|6.9|||mixed model repeated measures|||Week 48||6.9|-12.7|
92420970|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|6.14|||TWO_SIDED|90.0|-17.9|2.7|||mixed model repeated measures|||Week 48||2.7|-17.9|
92420971|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|5.96|||TWO_SIDED|90.0|-7.4|12.5|||mixed model repeated measures|||Week 72||12.5|-7.4|
92420972|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|6.18|||TWO_SIDED|90.0|-11.1|9.6|||mixed model repeated measures|||Week 72||9.6|-11.1|
92420973|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|6.07|||TWO_SIDED|90.0|-8.7|11.5|||mixed model repeated measures|||Week 96||11.5|-8.7|
92420974|NCT04437368|184730798|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|6.47|||TWO_SIDED|90.0|-13.8|7.8|||mixed model repeated measures|||Week 96||7.8|-13.8|
92420975|NCT00495131|184730821|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Null hypothesis: no difference between 2 groups SVR estimation: 24 weeks (60%), 48 weeks (75%) alfa erros: 0.05, power: 0.80||||< 0.001
92420976|NCT01539317|184730874|SUPERIORITY_OR_OTHER|||||||0.0149|||||||Wilcoxon (Mann-Whitney)|||Phase II: During Blinded 4 weeks||||0.0149
92420977|NCT01539317|184730874|SUPERIORITY_OR_OTHER|||||||0.412|||||||Wilcoxon (Mann-Whitney)|||Phase III||||0.412
92420978|NCT01539317|184730875|SUPERIORITY_OR_OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Desire||||0.66
92420979|NCT01539317|184730875|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Arousal (S)||||0.11
92420980|NCT01539317|184730875|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Arousal (L)||||0.15
92420981|NCT01539317|184730875|SUPERIORITY_OR_OTHER|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Arousal (C)||||0.28
92420982|NCT01539317|184730875|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Orgasm||||0.07
92420983|NCT01539317|184730875|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Pain||||0.004
92279265|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1174|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Normal work: Placebo vs Pregabalin 150 mg BID||0.1|-0.7|0.1174
92420984|NCT01539317|184730875|SUPERIORITY_OR_OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||Enjoyment||||0.54
92420985|NCT01539317|184730875|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||Partner||||0.92
92420986|NCT01539317|184730876|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Each of 8 site comparisons had its own P-value and a value of \<0.001 was the difference at the most tender sites|Wilcoxon (Mann-Whitney)|||||||<0.001
92420987|NCT00364130|184730905|SUPERIORITY_OR_OTHER|||||||0.38||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.38
92420988|NCT00364130|184730906|SUPERIORITY_OR_OTHER|||||||0.8||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.80
92420989|NCT00364130|184730907|SUPERIORITY_OR_OTHER|||||||0.02||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.02
92420990|NCT00364130|184730908|SUPERIORITY_OR_OTHER|||||||0.27||||||The outcome was not adjusted for multiple comparisons|Regression, Linear|||||||0.27
92420991|NCT00364130|184730909|SUPERIORITY_OR_OTHER|||||||0.84||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.84
92420992|NCT00364130|184730910|SUPERIORITY_OR_OTHER|||||||0.66||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.66
92420993|NCT00364130|184730911|SUPERIORITY_OR_OTHER|||||||0.7||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.70
92420994|NCT00364130|184730912|SUPERIORITY_OR_OTHER|||||||0.98||||||Outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.98
92420995|NCT04616027|184730913|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|99.67|||||TWO_SIDED|90.0|70.15|141.6||||||"T2DM Normal Renal Function was test, Healthy and Normal Renal Function was reference."||141.60|70.15|
92420996|NCT04616027|184730913|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|101.34|||||TWO_SIDED|90.0|70.51|145.63||||||"T2DM Mild Renal Impairment was test, T2DM Normal Renal Function was reference."||145.63|70.51|
92420997|NCT04616027|184730913|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|146.56|||||TWO_SIDED|90.0|103.16|208.22||||||"T2DM Moderate Renal Impairment was test, T2DM Normal Renal Function was reference."||208.22|103.16|
92420998|NCT04616027|184730913|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|101.31|||||TWO_SIDED|90.0|71.31|143.92||||||"T2DM Severe Renal Impairment was test, T2DM Normal Renal Function was reference."||143.92|71.31|
92420999|NCT04616027|184730914|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|111.71|||||TWO_SIDED|90.0|79.52|156.93||||||"T2DM Normal Renal Function was test, Healthy and Normal Renal Function was reference."||156.93|79.52|
92421000|NCT04616027|184730914|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|120.31|||||TWO_SIDED|90.0|83.49|173.38||||||"T2DM Mild Renal Impairment was test, T2DM Normal Renal Function was reference."||173.38|83.49|
92421001|NCT04616027|184730914|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|134.18|||||TWO_SIDED|90.0|94.46|190.62||||||"T2DM Moderate Renal Impairment was test, T2DM Normal Renal Function was reference."||190.62|94.46|
92421002|NCT04616027|184730914|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|100.99|||||TWO_SIDED|90.0|71.89|141.87||||||"T2DM Severe Renal Impairment was test, T2DM Normal Renal Function was reference."||141.87|71.89|
92421003|NCT04616027|184730915|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|111.02|||||TWO_SIDED|90.0|79.6|154.86||||||"T2DM Normal Renal Function was test, Healthy and Normal Renal Function was reference."||154.86|79.60|
92421004|NCT04616027|184730915|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|116.7|||||TWO_SIDED|90.0|82.76|164.56||||||"T2DM Mild Renal Impairment was test, T2DM Normal Renal Function was reference."||164.56|82.76|
92421005|NCT04616027|184730915|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|134.68|||||TWO_SIDED|90.0|96.56|187.85||||||"T2DM Moderate Renal Impairment was test, T2DM Normal Renal Function was reference."||187.85|96.56|
92421006|NCT04616027|184730915|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|101.31|||||TWO_SIDED|90.0|72.63|141.3||||||"T2DM Severe Renal Impairment was test, T2DM Normal Renal Function was reference."||141.30|72.63|
92421007|NCT04616027|184730916|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|101.52|||||TWO_SIDED|90.0|88.89|115.94||||||"T2DM Normal Renal Function was test, Healthy and Normal Renal Function was reference."||115.94|88.89|
92235971|NCT02052960|184375204|SUPERIORITY||Mean Difference (Net)|-1.21||||0.83|TWO_SIDED|95.0|-12.05|9.63|||Chi-squared|||||9.63|-12.05|0.83
92235972|NCT02052960|184375205|SUPERIORITY||Hazard Ratio (HR)|1.057||||0.7|TWO_SIDED|95.0|0.814|1.372|||Log Rank|||||1.372|0.814|0.70
92235973|NCT02052960|184375206|SUPERIORITY||Hazard Ratio (HR)|1.012||||0.96|TWO_SIDED|95.0|0.734|1.396|||Log Rank|||||1.396|0.734|0.96
92235974|NCT03849560|184375214|NON_INFERIORITY|Odds ratio was calculated to compare seroconversion for antigen H1N1 in group Grippol® Quadri and groups Grippol® Plus, trivalent (Yamagata lineage)+Grippol® Plus, trivalent (Victoria lineage)|Odds Ratio, log|1.22|||||TWO_SIDED|95.0|0.82|1.82||||||||1.82|0.82|
92235975|NCT03849560|184375214|NON_INFERIORITY|Odds ratio was calculated to compare seroconversion for antigen H3N2 in group Grippol® Quadri and groups Grippol® Plus, trivalent (Yamagata lineage)+Grippol® Plus, trivalent (Victoria lineage)|Odds Ratio, log|1.54|||||TWO_SIDED|95.0|1.08|2.3||||||||2.30|1.08|
92235976|NCT03849560|184375214|NON_INFERIORITY|Odds ratio was calculated to compare seroconversion for YAMA antigen in group Grippol® Quadri and group Grippol® Plus, trivalent (Yamagata lineage)|Odds Ratio, log|1.39|||||TWO_SIDED|95.0|0.9|2.15||||||||2.15|0.90|
92235977|NCT03849560|184375214|NON_INFERIORITY|Odds ratio was calculated to compare seroconversion for VICT antigen in group Grippol® Quadri and group Grippol® Plus, trivalent (Victoria lineage)|Odds Ratio, log|1.05|||||TWO_SIDED|95.0|0.68|1.63||||||||1.63|0.68|
92235978|NCT03849560|184375215|NON_INFERIORITY|The Grippol® Quadri vaccine considered non-inferior to Grippol® Plus, trivalent (Yamagata lineage) and Grippol® Plus, trivalent (Victoria lineage) vaccines for the strain A/H1N1 if the upper limit of the two-sided 95% Confidence Interval (CI) of the ratio of means of geometric antibody titers for H1N1 was ≤1.5|Mean Difference (Final Values)|0.8933|||||TWO_SIDED|95.0|0.7762|1.03||||||Non-inferiority of Grippol® Quadri over Grippol® Plus, trivalent (Yamagata lineage) and Grippol® Plus, trivalent (Victoria lineage) for the strain A/H1N1||1.030|0.7762|
92235979|NCT03849560|184375215|NON_INFERIORITY|The Grippol® Quadri vaccine considered non-inferior to Grippol® Plus, trivalent (Yamagata lineage) and Grippol® Plus, trivalent (Victoria lineage) vaccines for the strain A/H3N2 if the upper limit of the two-sided 95% CI of the ratio of means of geometric antibody titers for H3N2 was ≤1.5|Median Difference (Final Values)|0.8913|||||TWO_SIDED|95.0|0.7516|1.0593||||||Non-inferiority of Grippol® Quadri over Grippol® Plus, trivalent (Yamagata lineage) and Grippol® Plus, trivalent (Victoria lineage) for the strain A/H3N2||1.0593|0.7516|
92279266|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.21||0.925|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Normal work: Placebo vs DS-5565 15 mg QD||0.4|-0.4|0.9250
92235980|NCT03849560|184375215|NON_INFERIORITY|The Grippol® Quadri vaccine considered non-inferior to Grippol® Plus, trivalent (Yamagata lineage) vaccine for the strain B/Yamagata if the upper limit of the two-sided 95% CI of the ratio of means of geometric antibody titers for Yamagata antigen was ≤1|Mean Difference (Final Values)|0.8185|||||TWO_SIDED|95.0|0.6918|0.9683||||||Non-inferiority of Grippol® Quadri over Grippol® Plus, trivalent (Yamagata lineage) for the strain B/Yamagata||0.9683|0.6918|
92235981|NCT03849560|184375215|NON_INFERIORITY|The Grippol® Quadri vaccine considered non-inferior to Grippol® Plus, trivalent (Victoria lineage) vaccine for the strain B/Victoria if the upper limit of the two-sided 95% CI of the ratio of means of geometric antibody titers for Victoria antigen was ≤1|Mean Difference (Final Values)|1.0328||||0.05|TWO_SIDED|95.0|0.857|1.2445|||ANCOVA|||Non-inferiority of Grippol® Quadri over Grippol® Plus, trivalent (Victoria lineage) for the strain B/Victoria||1.2445|0.8570|0.05
92235982|NCT03849560|184375216|NON_INFERIORITY|Seroprotection for strain A/H1N1 in Grippol® Quadri group in comparison to Grippol® Plus, trivalent (Yamagata lineage)+Grippol® Plus, trivalent (Victoria lineage) groups||||||0.758|||||||Fisher Exact|||||||0.758
92235983|NCT03849560|184375216|NON_INFERIORITY|Seroprotection for strain A/H3N2 in Grippol® Quadri group in comparison to Grippol® Plus, trivalent (Yamagata lineage)+Grippol® Plus, trivalent (Victoria lineage) groups||||||0.282|||||||Fisher Exact|||||||0.282
92235984|NCT03849560|184375216|NON_INFERIORITY|Seroprotection for strain B/Yamagata in Grippol® Quadri group in comparison to Grippol® Plus, trivalent (Yamagata lineage) group||||||0.352|||||||Fisher Exact|||||||0.352
92235985|NCT03849560|184375216|NON_INFERIORITY|Seroprotection for strain B/Victoria in Grippol® Quadri group in comparison to Grippol® Plus, trivalent (Victoria lineage) group||||||0.815|||||||Fisher Exact|||||||0.815
92170129|NCT02238483|184229144|SUPERIORITY_OR_OTHER||rate ratio|1.12|STANDARD_ERROR_OF_MEAN|0.41||0.751|TWO_SIDED|95.0|0.55|2.29|||regression, negative binomial|||||2.29|0.55|0.751
92235986|NCT03849560|184375217|OTHER|||||||0.452|||||||Log Rank|||||||0.452
92235987|NCT03849560|184375217|OTHER|||||||0.639|||||||Log Rank|||||||0.639
92235988|NCT03849560|184375219|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H1N1 should be ˃ 2.5|Coefficient of increase of mean geometri|4.86|||||TWO_SIDED|95.0|4.22|5.6||||||Coefficient of increase of mean geometric antibody titer for H1N1 in Grippol® Quadri group||5.60|4.22|
92235989|NCT03849560|184375219|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H3N2 should be ˃ 2.5|Coefficient of increase of GMT|5.32|||||TWO_SIDED|95.0|4.53|6.24||||||Coefficient of increase of mean geometric antibody titer for H3N2 in Grippol® Quadri group||6.24|4.53|
92235990|NCT03849560|184375219|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for Yamagata should be ˃ 2.5|Coefficient of increase of GMT|5.47|||||TWO_SIDED|95.0|4.78|6.25||||||Coefficient of increase of mean geometric antibody titer for Yamagata in Grippol® Quadri group||6.25|4.78|
92235991|NCT03849560|184375219|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for Victoria should be ˃ 2.5|Coefficient of increase of GMT|4.77|||||TWO_SIDED|95.0|4.14|5.49||||||Coefficient of increase of mean geometric antibody titer for Victoria in Grippol® Quadri group||5.49|4.14|
92235992|NCT03849560|184375219|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H1N1 should be ˃ 2.5|Coefficient of increase of GMT|4.21|||||TWO_SIDED|95.0|3.59|4.94||||||Coefficient of increase of mean geometric antibody titer for H1N1 in Grippol® Plus, trivalent (Yamagata lineage) group||4.94|3.59|
92279267|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.21||0.8555|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Normal work: Placebo vs DS-5565 15 mg BID||0.4|-0.4|0.8555
92170130|NCT02238483|184229145|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.5381|TWO_SIDED|95.0|0.54|1.38|||Regression, Cox||A hazard ratio greater than 1 indicates a higher rate of incidence in the AZD7624 group.|||1.38|0.54|0.5381
92170131|NCT02238483|184229146|SUPERIORITY_OR_OTHER||rate ratio|0.84|STANDARD_ERROR_OF_MEAN|0.19||0.44|TWO_SIDED|95.0|0.55|1.3|||regression, negative binomial|||||1.30|0.55|0.440
92279268|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.0956|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Normal work: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.1|0.0956
92279269|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1659|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Normal work: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.1|0.1659
92279270|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0468|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Relations with other people: Placebo vs Pregabalin 150 mg BID||-0.0|-0.8|0.0468
92279271|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1083|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Relations with other people: Placebo vs DS-5565 15 mg QD||0.1|-0.7|0.1083
92279272|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0505|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Relations with other people: Placebo vs DS-5565 15 mg BID||0.0|-0.8|0.0505
92279273|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.6993|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Relations with other people: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.3|0.6993
92279274|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.21||0.9781|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Relations with other people: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.4|-0.4|0.9781
92170132|NCT02238483|184229147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37||||0.5474|TWO_SIDED|95.0|-1.6|0.85|||Mixed Models Analysis||LSMean difference for overall treatment effect. Negative values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||0.85|-1.60|0.5474
92170133|NCT02238483|184229148|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.83||||0.6352|TWO_SIDED|95.0|-2.62|4.29|||Mixed Models Analysis||LSMean difference for overall treatment effect. Positive values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||4.29|-2.62|0.6352
92170134|NCT02238483|184229149|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.2694|TWO_SIDED|95.0|-0.34|0.1|||Mixed Models Analysis||LSMean difference for overall treatment effect. Positive values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||0.10|-0.34|0.2694
92170135|NCT02238483|184229150|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.5144|TWO_SIDED|95.0|-0.03|0.07|||Mixed Models Analysis||LSMean difference for overall treatment effect. Positive values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||0.07|-0.03|0.5144
92279275|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.23||0.0154|TWO_SIDED|95.0|-1.0|-0.1|||ANCOVA|||Sleep: Placebo vs Pregabalin 150 mg BID||-0.1|-1.0|0.0154
92279276|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.23||0.0731|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||Sleep: Placebo vs DS-5565 15 mg QD||0.0|-0.9|0.0731
92279277|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.23||0.0259|TWO_SIDED|95.0|-1.0|-0.1|||ANCOVA|||Sleep: Placebo vs DS-5565 15 mg BID||-0.1|-1.0|0.0259
92279278|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.23||0.5243|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||Sleep: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.3|0.5243
92279279|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.8488|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||Sleep: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.4|0.8488
92279280|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.2746|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Enjoyment of life: Placebo vs Pregabalin 150 mg BID||0.2|-0.7|0.2746
92421008|NCT04616027|184730916|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|110.17|||||TWO_SIDED|90.0|96.05|126.37||||||"T2DM Mild Renal Impairment was test, T2DM Normal Renal Function was reference."||126.37|96.05|
92421009|NCT04616027|184730916|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|120.63|||||TWO_SIDED|90.0|105.63|137.77||||||"T2DM Moderate Renal Impairment was test, T2DM Normal Renal Function was reference."||137.77|105.63|
92421010|NCT04616027|184730916|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|127.06|||||TWO_SIDED|90.0|111.26|145.12||||||"T2DM Severe Renal Impairment was test, T2DM Normal Renal Function was reference."||145.12|111.26|
92421011|NCT04221230|184730986|OTHER||Least square mean difference|-1.7|STANDARD_ERROR_OF_MEAN|1.08||0.121|TWO_SIDED|95.0|-3.8|0.4|||Mixed Model Repeated Measures|||||0.4|-3.8|0.121
92235993|NCT03849560|184375219|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H3N2 should be ˃ 2.5|Coefficient of increase of GMT|5.22|||||TWO_SIDED|95.0|4.45|6.12||||||Coefficient of increase of mean geometric antibody titer for H3N2 in Grippol® Plus, trivalent (Yamagata lineage) group||6.12|4.45|
92235994|NCT03849560|184375219|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for Yamagata should be ˃ 2.5|Coefficient of increase of GMT|4.04|||||TWO_SIDED|95.0|3.48|4.69||||||Coefficient of increase of mean geometric antibody titer for Yamagata in Grippol® Plus, trivalent (Yamagata lineage) group||4.69|3.48|
92235995|NCT03849560|184375219|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H1N1 should be ˃ 2.5|Coefficient of increase of GMT|4.6|||||TWO_SIDED|95.0|3.97|5.34||||||Coefficient of increase of mean geometric antibody titer for H1N1 in Grippol® Plus, trivalent (Victoria lineage) group||5.34|3.97|
92235996|NCT03849560|184375219|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H3N2 should be ˃ 2.5|Coefficient of increase of GMT|5.17|||||TWO_SIDED|95.0|4.38|6.12||||||Coefficient of increase of mean geometric antibody titer for H3N2 in Grippol® Plus, trivalent (Victoria lineage) group||6.12|4.38|
92235997|NCT03849560|184375219|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for Victoria should be ˃ 2.5|Coefficient of increase of GMT|4.72|||||TWO_SIDED|95.0|4.0|5.56||||||Coefficient of increase of mean geometric antibody titer for Victoria in Grippol® Plus, trivalent (Victoria lineage) group||5.56|4.00|
92235998|NCT01633060|184375231|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.67|||<|0.001|ONE_SIDED|95.0|0.53||||Log Rank||||||0.53|<0.001
92235999|NCT03494725|184375418|SUPERIORITY|||||||0.757||||||Outcome was subjected to transformation to meet model assumptions. The threshold for statistical significance was p=0.05.|Mixed Models Analysis|Linear mixed model||The sample size was computed for a repeated measurement ANOVA with two groups and seven repeated measurements (power=0.85, α=0.05, f=0.1). The calculation resulted in a group size of 56 participants each, which was rounded up to 60 participants per treatment group to account for attrition.||||0.757
92236000|NCT05593432|184375459|SUPERIORITY||Response Rate Difference|29.4|STANDARD_ERROR_OF_MEAN|11.17||0.0129|TWO_SIDED|95.0|7.55|51.33||stratified by Baseline Investigator's Global Assessment (IGA) score (3 or 4)|Cochran-Mantel-Haenszel||stratified by Baseline IGA score (3 or 4)|||51.33|7.55|0.0129
92236001|NCT05593432|184375459|SUPERIORITY||Odds Ratio (OR)|4.04|||||TWO_SIDED|95.0|1.32|12.38|||||stratified by Baseline IGA score (3 or 4)|||12.38|1.32|
92236002|NCT05593432|184375460|EQUIVALENCE|A Cochran-Mantel-Haenszel test stratified by Baseline IGA score (3 or 4) at a 2-sided α = 0.05 level was used for the comparison between ruxolitinib 1.5% cream BID and vehicle cream BID at Week 16.|Response Rate Difference|30.6|STANDARD_ERROR_OF_MEAN|11.68||0.0141|TWO_SIDED|95.0|7.71|53.51|||Cochran-Mantel-Haenszel|stratified by Baseline IGA score (3 or 4)||||53.51|7.71|0.0141
92236003|NCT05593432|184375460|EQUIVALENCE|A Cochran-Mantel-Haenszel test stratified by Baseline IGA score (3 or 4) at a 2-sided α = 0.05 level was used for the comparison between ruxolitinib 1.5% cream BID and vehicle cream BID at Week 16.|Odds Ratio (OR)|4.16|||||TWO_SIDED|95.0|1.31|13.17|||||stratified by Baseline IGA score (3 or 4)|||13.17|1.31|
92236004|NCT05593432|184375462|EQUIVALENCE|A Cochran-Mantel-Haenszel test stratified by Baseline IGA score (3 or 4) at a 2-sided α = 0.05 level was used for the comparison between ruxolitinib 1.5% cream BID and vehicle cream BID at Week 16.|Response Rate Difference|40.3|STANDARD_ERROR_OF_MEAN|12.09||0.0027|TWO_SIDED|95.0|16.61|64.0|||Cochran-Mantel-Haenszel|stratified by Baseline IGA score (3 or 4)||||64.00|16.61|0.0027
92236005|NCT05593432|184375462|EQUIVALENCE|A Cochran-Mantel-Haenszel test stratified by Baseline IGA score (3 or 4) at a 2-sided α = 0.05 level was used for the comparison between ruxolitinib 1.5% cream BID and vehicle cream BID at Week 16.|Odds Ratio (OR)|6.67|||||TWO_SIDED|95.0|1.85|24.02|||||stratified by Baseline IGA score (3 or 4)|||24.02|1.85|
92421012|NCT00191646|184731053|SUPERIORITY_OR_OTHER|||||||0.199||95.0|||||Log Rank|||Using a two-sided log-rank test with a Type I error of 0.05, 636 events for PFS out of the 919 patients would give an 80% statistical power under the alternative hypothesis that the hazard ratio of the G/C arm versus the P/C arm was 0.08.||||0.199
92421013|NCT00191646|184731054|SUPERIORITY_OR_OTHER|||||||0.771||95.0|||||Fisher Exact|||||||0.771
92421014|NCT00191646|184731054|SUPERIORITY_OR_OTHER|||||||0.784||95.0|||||Fisher Exact|||||||0.784
92421015|NCT00191646|184731055|SUPERIORITY_OR_OTHER|||||||0.621||95.0|||||Log Rank|||||||0.621
92421016|NCT00191646|184731056|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||Log Rank|||||||0.013
92421017|NCT00252629|184731086|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||t-test, 2 sided|||The change of fatigue complaint from baseline (before treatment) to post treatment ( after 3 weeks treatment) on either therapeutic CPAP or sham CPAP was compared with student t-test.||||0.0002
92421018|NCT00252629|184731087|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||t-test, 2 sided|||The change of pain symptom from baseline (before treatment) to post treatment ( after 3 weeks treatment) on either therapeutic CPAP or sham CPAP was compared with student t-test.||||0.0008
92421019|NCT00252629|184731088|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||The change of cognitive dysfunction complaint from baseline (before treatment) to post treatment ( after 3 weeks treatment) on either therapeutic CPAP or sham CPAP was compared with student t-test.||||0.004
92421020|NCT00252629|184731089|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||t-test, 2 sided|||The p value was based on t-test||||0.0001
92421021|NCT04090957|184731091|SUPERIORITY||Least square mean difference|-8.42||||0.0436|TWO_SIDED|95.0|-16.64|-0.2|||Mixed Model for Repeated Measures|||1\_Week 4; E4 15 mg vs Placebo||-0.20|-16.64|0.0436
92421022|NCT04090957|184731091|SUPERIORITY||Least square mean difference|-10.21||||0.0117|TWO_SIDED|95.0|-18.44|-1.98|||Mixed Model for Repeated Measures|||2\_Week 4; E4 20 mg vs Placebo||-1.98|-18.44|0.0117
92421023|NCT04090957|184731091|SUPERIORITY||Least square mean difference|-12.2||||0.0029|TWO_SIDED|95.0|-20.69|-3.71|||Mixed Model for Repeated Measures|||3\_Week 12; E4 15 mg vs Placebo||-3.71|-20.69|0.0029
92421024|NCT04090957|184731091|SUPERIORITY||Least square mean difference|-15.49||||0.0001|TWO_SIDED|95.0|-24.04|-6.94|||Mixed Model for Repeated Measures|||4\_Week 12; E4 20 mg vs Placebo||-6.94|-24.04|0.0001
92421025|NCT04090957|184731092|SUPERIORITY||Least square mean difference|-0.04||||0.7786|TWO_SIDED|95.0|-0.2|0.12|||Mixed Model for Repeated Measures|||1\_Week 4; E4 15 mg vs Placebo||0.12|-0.20|0.7786
92421026|NCT04090957|184731092|SUPERIORITY||Least square mean difference|-0.17||||0.031|TWO_SIDED|95.0|-0.33|-0.01|||Mixed Model for Repeated Measures|||2\_Week 4; E4 20 mg vs Placebo||-0.01|-0.33|0.0310
92421027|NCT04090957|184731092|SUPERIORITY||Least square mean difference|-0.04||||0.7941|TWO_SIDED|95.0|-0.21|0.12|||Mixed Model for Repeated Measures|||3\_Week 12; E4 15 mg vs Placebo||0.12|-0.21|0.7941
92421028|NCT04090957|184731092|SUPERIORITY||Least square mean difference|-0.35|||<|0.0001|TWO_SIDED|95.0|-0.51|-0.18|||Mixed Model for Repeated Measures|||4\_Week 12; E4 20 mg vs Placebo||-0.18|-0.51|<.0001
92421029|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|-0.2||||0.9666|TWO_SIDED|95.0|-8.0|7.7|||Chi-squared|||1\_Week 1, ≥50% reduction, E4 15 mg vs placebo||7.7|-8.0|0.9666
92170136|NCT02238483|184229151|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.5416|TWO_SIDED|95.0|-0.1|0.05|||Mixed Models Analysis||LSMean difference for overall treatment effect. Positive values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||0.05|-0.10|0.5416
92170137|NCT02238483|184229152|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.1965|TWO_SIDED|95.0|0.0|0.02|||Mixed Models Analysis||LSMean difference for overall treatment effect. Positive values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||0.02|0.00|0.1965
92421030|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|3.6||||0.3759|TWO_SIDED|95.0|-4.4|11.7|||Chi-squared|||2\_Week 1, ≥50% reduction, E4 20 mg vs placebo||11.7|-4.4|0.3759
92421031|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|0.9||||0.7164|TWO_SIDED|95.0|-3.9|5.6|||Chi-squared|||3\_Week 1, ≥75% reduction, E4 15 mg vs placebo||5.6|-3.9|0.7164
92421032|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|-0.6||||0.7859|TWO_SIDED|95.0|-4.9|3.7|||Chi-squared|||4\_Week 1, ≥75% reduction, E4 20 mg vs placebo||3.7|-4.9|0.7859
92421033|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|2.1||||0.6744|TWO_SIDED|95.0|-7.5|11.6|||Chi-squared|||5\_Week 2, ≥50% reduction, E4 15 mg vs placebo||11.6|-7.5|0.6744
92170138|NCT02538341|184229153|OTHER|||||||0.0023||||||p values, from a generalized linear model on the rank order of the week 6 - baseline change using normal distribution and reciprocal link.|a generalized linear model|p value,from a generalized linear model on the rank order of the week 6 - baseline change using normal distribution and reciprocal link.||Study protocol defined measure for immunogenicity samples. Participants must have at least 1 post vaccine immunogenicity measure to determine the GMFR (a priori analysis)||||0.0023
92421034|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|2.6||||0.5931|TWO_SIDED|95.0|-6.9|12.0|||Chi-squared|||6\_Week 2, ≥50% reduction, E4 20 mg vs placebo||12.0|-6.9|0.5931
92421035|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|-0.2||||0.964|TWO_SIDED|95.0|-7.5|7.1|||Chi-squared|||7\_Week 2, ≥75% reduction, E4 15 mg vs placebo||7.1|-7.5|0.9640
92421036|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|-1.2||||0.7449|TWO_SIDED|95.0|-8.2|5.9|||Chi-squared|||8\_Week 2, ≥75% reduction, E4 20 mg vs placebo||5.9|-8.2|0.7449
92421037|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|5.1||||0.3271|TWO_SIDED|95.0|-5.1|15.4|||Chi-squared|||9\_Week 3, ≥50% reduction, E4 15 mg vs placebo||15.4|-5.1|0.3271
92421038|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|6.9||||0.1842|TWO_SIDED|95.0|-3.2|17.0|||Chi-squared|||10\_Week 3, ≥50% reduction, E4 20 mg vs placebo||17.0|-3.2|0.1842
92421039|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|-1.2||||0.7716|TWO_SIDED|95.0|-9.4|6.9|||Chi-squared|||11\_Week 3, ≥75% reduction, E4 15 mg vs placebo||6.9|-9.4|0.7716
92421040|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|4.6||||0.2934|TWO_SIDED|95.0|-3.9|13.0|||Chi-squared|||12\_Week 3, ≥75% reduction, E4 20 mg vs placebo||13.0|-3.9|0.2934
92421041|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|7.3||||0.1701|TWO_SIDED|95.0|-3.1|17.8|||Chi-squared|||13\_Week 4, ≥50% reduction, E4 15 mg vs placebo||17.8|-3.1|0.1701
92421042|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|9.5||||0.0723|TWO_SIDED|95.0|-0.8|19.8|||Chi-squared|||14\_Week 4, ≥50% reduction, E4 20 mg vs placebo||19.8|-0.8|0.0723
92421043|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|6.7||||0.1258|TWO_SIDED|95.0|-1.9|15.2|||Chi-squared|||15\_Week 4, ≥75% reduction, E4 15 mg vs placebo||15.2|-1.9|0.1258
92421044|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|11.2||||0.0126|TWO_SIDED|95.0|2.5|19.9|||Chi-squared|||16\_Week 4, ≥75% reduction, E4 20 mg vs placebo||19.9|2.5|0.0126
92421045|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|10.9||||0.0436|TWO_SIDED|95.0|0.4|21.5|||Chi-squared|||17\_Week 5, ≥50% reduction, E4 15 mg vs placebo||21.5|0.4|0.0436
92421046|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|17.5||||0.001|TWO_SIDED|95.0|7.3|27.8|||Chi-squared|||18\_Week 5, ≥50% reduction, E4 20 mg vs placebo||27.8|7.3|0.0010
92421047|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|6.6||||0.1623|TWO_SIDED|95.0|-2.7|15.9|||Chi-squared|||19\_Week 5, ≥75% reduction, E4 15 mg vs placebo||15.9|-2.7|0.1623
92171799|NCT03897686|184233258|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was p \<0.05.|ANCOVA|||The mean number of paracetamol tablets was calculated taking into account only patients who had received paracetamol. ANCOVA was used to detect a difference in means of 2 groups at visit 4 (week 13).||||0.004
92171800|NCT04505774|184233273|SUPERIORITY|||||||0.6778|||||||t-test, 2 sided|||||||.6778
92236006|NCT05593432|184375464|EQUIVALENCE|A log-rank test stratified by randomization stratification factor, Baseline IGA score (3 or 4), was used for between-treatment group comparisons. The hazard ratio and its 95% confidence interval was estimated based on the stratified Cox regression model. using Efron's method accounting for ties.|Hazard Ratio (HR)|2.85||||0.0008|TWO_SIDED|95.0|1.51|5.381|||Log Rank|stratified by Baseline IGA score (3 or 4) between ruxolitinib 1.5% cream and vehicle cream|Cox regression model stratified by Baseline IGA score (3 or 4) was conducted to compare the difference in hazard rate between ruxolitinib 1.5% cream and vehicle cream|||5.381|1.510|0.0008
92236007|NCT00069121|184375475|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0038|TWO_SIDED|95.0|0.69|0.93||This test used a two-sided significance level of 5%.|Log Rank||The hazard ratio was calculated as XELOX versus 5-FU/LV arms.|||0.93|0.69|0.0038
92236008|NCT00069121|184375476|OTHER|Descriptive analysis only.|Hazard Ratio (HR)|0.78||||0.0015|TWO_SIDED|95.0|0.67|0.91|||Log Rank||The hazard ratio was calculated as XELOX versus 5-FU/LV arms.|||0.91|0.67|0.0015
92236009|NCT00069121|184375478|OTHER|Descriptive analysis only.|Hazard Ratio (HR)|0.83||||0.0367|TWO_SIDED|95.0|0.7|0.99|||Log Rank||The hazard ratio was calculated as XELOX versus 5-FU/LV arms.|||0.99|0.70|0.0367
92236010|NCT03851510|184375480|OTHER|95% confidence of prevalence measure.|prevalence|46.3|||||TWO_SIDED|95.0|32.6|60.4||||||All participants that were consented, eligible, and completed the Vector EFL screening (supine).||60.4|32.6|
92236011|NCT01287117|184375516|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.96||||0.001|TWO_SIDED|95.0|-4.71|-1.21||A multiplicity type I error control plan was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided).|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups.||-1.21|-4.71|0.0010
92236012|NCT01287117|184375516|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.95||||0.0012|TWO_SIDED|95.0|-4.72|-1.18||A multiplicity type I error control plan was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided).|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||-1.18|-4.72|0.0012
92236013|NCT01287117|184375516|SUPERIORITY_OR_OTHER||Least squares mean difference|-5.8|||<|0.0001|TWO_SIDED|95.0|-7.49|-4.1||A multiplicity type I error control plan was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided).|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-4.10|-7.49|<0.0001
92236014|NCT01287117|184375517|SUPERIORITY_OR_OTHER||Least squares mean difference|-5.75||||0.0035|TWO_SIDED|95.0|-9.59|-1.92||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups.||-1.92|-9.59|0.0035
92236015|NCT01287117|184375517|SUPERIORITY_OR_OTHER||Least squares mean difference|-6.54||||0.0008|TWO_SIDED|95.0|-10.33|-2.75||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||-2.75|-10.33|0.0008
92236016|NCT01287117|184375517|SUPERIORITY_OR_OTHER||Least squares mean difference|-12.8|||<|0.0001|TWO_SIDED|95.0|-16.44|-9.16||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-9.16|-16.44|<0.0001
92236017|NCT01287117|184375518|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.75||||0.0149|TWO_SIDED|95.0|-4.95|-0.54||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups.||-0.54|-4.95|0.0149
92236018|NCT01287117|184375518|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.44||||0.0017|TWO_SIDED|95.0|-5.57|-1.32||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||-1.32|-5.57|0.0017
92236019|NCT01287117|184375518|SUPERIORITY_OR_OTHER||Least squares mean difference|-6.93|||<|0.0001|TWO_SIDED|95.0|-9.1|-4.76||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-4.76|-9.10|<0.0001
92170139|NCT02538341|184229154|OTHER|||||||0.31||||||p values, from a generalized linear model on the rank order of the week 6 - baseline change using normal distribution and reciprocal link.|a generalized linear model|p values, from a generalized linear model on the rank order of the week 6 - baseline change using normal distribution and reciprocal link.||Study protocol defined measure for immunogenicity samples. Participants must have at least 1 post vaccine immunogenicity measure to determine the GMFR (a priori analysis)||||0.31
92279281|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.9349|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Enjoyment of life: Placebo vs DS-5565 15 mg QD||0.4|-0.4|0.9349
92279282|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.22||0.5164|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||Enjoyment of life: Placebo vs DS-5565 15 mg BID||0.6|-0.3|0.5164
92279283|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.2382|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Enjoyment of life: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.2|0.2382
92279284|NCT02146430|184461522|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0807|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Enjoyment of life: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.8|-0.0|0.0807
92279285|NCT02146430|184461523|SUPERIORITY||Difference in least squares means|-0.045|STANDARD_ERROR_OF_MEAN|0.0237||0.0601|TWO_SIDED|95.0|-0.091|0.002|||ANCOVA|||||0.002|-0.091|0.0601
92279286|NCT02146430|184461523|SUPERIORITY||Difference in least squares means|-0.005|STANDARD_ERROR_OF_MEAN|0.0237||0.8299|TWO_SIDED|95.0|-0.052|0.041|||ANCOVA|||||0.041|-0.052|0.8299
92279287|NCT02146430|184461523|SUPERIORITY||Difference in least squares means|-0.05|STANDARD_ERROR_OF_MEAN|0.0237||0.0347|TWO_SIDED|95.0|-0.096|0.004|||ANCOVA|||||0.004|-0.096|0.0347
92279288|NCT02146430|184461523|SUPERIORITY||Difference in least squares means|0.04|STANDARD_ERROR_OF_MEAN|0.0237||0.0951|TWO_SIDED|95.0|-0.007|0.086|||ANCOVA|||||0.086|-0.007|0.0951
92421048|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|16.5||||0.0009|TWO_SIDED|95.0|7.0|26.1|||Chi-squared|||20\_Week 5, ≥75% reduction, E4 20 mg vs placebo||26.1|7.0|0.0009
92421049|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|9.9||||0.0677|TWO_SIDED|95.0|-0.7|20.4|||Chi-squared|||21\_Week 6, ≥50% reduction, E4 15 mg vs placebo||20.4|-0.7|0.0677
92421050|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|18.5||||0.0005|TWO_SIDED|95.0|8.2|28.7|||Chi-squared|||22\_Week 6, ≥50% reduction, E4 20 mg vs placebo||28.7|8.2|0.0005
92421051|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|-1.0||||0.8432|TWO_SIDED|95.0|-11.0|9.0|||Chi-squared|||23\_Week 6, ≥75% reduction, E4 15 mg vs placebo||9.0|-11.0|0.8432
92421052|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|14.3||||0.0073|TWO_SIDED|95.0|4.0|24.6|||Chi-squared|||24\_Week 6, ≥75% reduction, E4 20 mg vs placebo||24.6|4.0|0.0073
92421053|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|7.1||||0.1894|TWO_SIDED|95.0|-3.5|17.7|||Chi-squared|||25\_Week 7, ≥50% reduction, E4 15 mg vs placebo||17.7|-3.5|0.1894
92421054|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|15.8||||0.0028|TWO_SIDED|95.0|5.6|26.1|||Chi-squared|||26\_Week 7, ≥50% reduction, E4 20 mg vs placebo||26.1|5.6|0.0028
92421055|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|3.6||||0.4844|TWO_SIDED|95.0|-6.5|13.8|||Chi-squared|||27\_Week 7, ≥75% reduction, E4 15 mg vs placebo||13.8|-6.5|0.4844
92421056|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|18.0||||0.0009|TWO_SIDED|95.0|7.6|28.4|||Chi-squared|||28\_Week 7, ≥75% reduction, E4 20 mg vs placebo||28.4|7.6|0.0009
92279289|NCT02146430|184461523|SUPERIORITY||Difference in least squares means|-0.005|STANDARD_ERROR_OF_MEAN|0.0237||0.8199|TWO_SIDED|95.0|-0.052|0.041|||ANCOVA|||||0.041|-0.052|0.8199
92279290|NCT03093324|184461524|SUPERIORITY||Rate ratio|0.542||||0.0003|TWO_SIDED|95.0|0.39|0.754|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||0.754|0.390|0.0003
92421057|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|8.3||||0.122|TWO_SIDED|95.0|-2.2|18.9|||Chi-squared|||29\_Week 8, ≥50% reduction, E4 15 mg vs placebo||18.9|-2.2|0.1220
92279291|NCT03093324|184461525|SUPERIORITY||Rate ratio|0.52||||0.0007|TWO_SIDED|95.0|0.356|0.76|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||0.760|0.356|0.0007
92279292|NCT03093324|184461526|SUPERIORITY||Rate ratio|0.714||||0.009|TWO_SIDED|95.0|0.554|0.921|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||0.921|0.554|0.009
92279293|NCT03093324|184461527|SUPERIORITY||Rate ratio|0.555||||0.009|TWO_SIDED|95.0|0.357|0.862|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||0.862|0.357|0.009
92279294|NCT03093324|184461528|SUPERIORITY||Rate ratio|0.696||||0.033|TWO_SIDED|95.0|0.499|0.972|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||0.972|0.499|0.033
92421058|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|14.7||||0.0058|TWO_SIDED|95.0|4.4|25.0|||Chi-squared|||30\_Week 8, ≥50% reduction, E4 20 mg vs placebo||25.0|4.4|0.0058
92421059|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|4.2||||0.4151|TWO_SIDED|95.0|-5.9|14.4|||Chi-squared|||31\_Week 8, ≥75% reduction, E4 15 mg vs placebo||14.4|-5.9|0.4151
92421060|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|20.7||||0.0001|TWO_SIDED|95.0|10.3|31.2|||Chi-squared|||32\_Week 8, ≥75% reduction, E4 20 mg vs placebo||31.2|10.3|0.0001
92421061|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|16.7||||0.0015|TWO_SIDED|95.0|6.6|26.9|||Chi-squared|||33\_Week 9, ≥50% reduction, E4 15 mg vs placebo||26.9|6.6|0.0015
92279295|NCT03093324|184461529|SUPERIORITY||Rate ratio|0.662||||0.068|TWO_SIDED|95.0|0.425|1.031|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||1.031|0.425|0.068
92279296|NCT03093324|184461530|SUPERIORITY||Rate ratio|0.713||||0.215|TWO_SIDED|95.0|0.417|1.217|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||1.217|0.417|0.215
92279297|NCT03093324|184461531|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.043|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||Nausea: DMF is used as a referenced group in the model, adjusting for study parts, region (US and non-US), age and BMI.||-0.0|-0.6|0.043
92279298|NCT03093324|184461531|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.7|-0.2|||ANCOVA|||Vomiting: DMF is used as a referenced group in the model, adjusting for study parts, region (US and non-US), age and BMI.||-0.2|-0.7|<0.001
92279299|NCT03093324|184461531|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.16||0.001|TWO_SIDED|95.0|-0.9|-0.2|||ANCOVA|||Upper Abdominal Pain: DMF is used as a referenced group in the model, adjusting for study parts, region (US and non-US), age and BMI.||-0.2|-0.9|0.001
92279300|NCT03093324|184461531|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.403|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||Lower Abdominal Pain: DMF is used as a referenced group in the model, adjusting for study parts, region (US and non-US), age and BMI.||0.2|-0.4|0.403
92279301|NCT03093324|184461531|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.261|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Diarrhea: DMF is used as a referenced group in the model, adjusting for study parts, region (US and non-US), age and BMI.||0.2|-0.6|0.261
92393149|NCT01787461|184685865|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.037||||0.568|TWO_SIDED|95.0|-0.19|0.27|||Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for Glogau classification of photoaging and site.||0.27|-0.19|0.568
92421062|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|15.3||||0.0036|TWO_SIDED|95.0|5.1|25.5|||Chi-squared|||34\_Week 9, ≥50% reduction, E4 20 mg vs placebo||25.5|5.1|0.0036
92421063|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|5.3||||0.333|TWO_SIDED|95.0|-5.4|15.9|||Chi-squared|||35\_Week 9, ≥75% reduction, E4 15 mg vs placebo||15.9|-5.4|0.3330
92279302|NCT01767597|184461533|SUPERIORITY_OR_OTHER|||||||0.5||||||No p-value adjustments for multiple comparisons were required. Significance was determined using a p-value \<0.05.|Chi-squared|||Power calculations were performed to detect \>15% difference in immediate linkage-to-care and vaccination. We hypothesized from discussions with an expert panel that \~30% of participants would have appropriate care with standard HBV serology. Assuming type 1 error=0.05 and power=80%, 152 participants per arm would be needed. As \~40% of the population would be nonimmunized or HBsAg-positive from previous data, a minimum 375 participants per arm would be required.||||0.5
92393150|NCT01787461|184685866|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04||||0.797|TWO_SIDED|95.0|-0.25|0.33|||ANOVA|||Change at Week 12: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.33|-0.25|0.797
92393151|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01||||0.965|TWO_SIDED|95.0|-0.29|0.3|||ANOVA|||Change at Week 12, Fine lines/wrinkles (Periocular area): Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.30|-0.29|0.965
92393152|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05||||0.674|TWO_SIDED|95.0|-0.2|0.3|||ANOVA|||Change at Week 12, Fine lines/wrinkles (Perioral area): Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.30|-0.20|0.674
92393153|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.916|TWO_SIDED|95.0|-0.35|0.32|||ANOVA|||Change at Week 12, Under eye dark circles or bags: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.32|-0.35|0.916
92393154|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.915|TWO_SIDED|95.0|-0.39|0.35|||ANOVA|||Change at Week 12, Mottled hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.35|-0.39|0.915
92393155|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.672|TWO_SIDED|95.0|-0.4|0.26|||ANOVA|||Change at Week 12, Sallowness/yellowing: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.26|-0.40|0.672
92393156|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08||||0.655|TWO_SIDED|95.0|-0.27|0.43|||ANOVA|||Change at Week 12, Roughness/texture: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.43|-0.27|0.655
92393157|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.561|TWO_SIDED|95.0|-0.23|0.43|||ANOVA|||Change at Week 24, Fine lines/wrinkles(Periocular area): Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.43|-0.23|0.561
92393158|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.356|TWO_SIDED|95.0|-0.14|0.4|||ANOVA|||Change at Week 24, Fine lines/wrinkles(Perioral area): Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.40|-0.14|0.356
92393159|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08||||0.669|TWO_SIDED|95.0|-0.28|0.43|||ANOVA|||Change at Week 24, Under eye dark circles or bags: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.43|-0.28|0.669
92170140|NCT01551355|184229161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|||<|0.001|TWO_SIDED|95.0|1.64|6.16|||t-test, 2 sided|The intervention was evaluated using generalized estimating equation models, controlling for cluster effect, sex, age, weight, and education level.||||6.16|1.64|<.001
92279303|NCT04583579|184461555|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
92279304|NCT02006706|184461557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.98|STANDARD_ERROR_OF_MEAN|0.606|<|0.001|TWO_SIDED|95.0|1.73|4.22|||t-test, 2 sided||The null hypothesis was that there was no difference between the DAS28 at baseline and DAS28 after 24 weeks of follow-up|||4.22|1.73|<0.001
92279305|NCT02006706|184461558|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92279306|NCT02173704|184461581|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sufficiency: The criterion for a sufficient immune response was that the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:5 should be ≥ 70%.|Single binomial proportion|100.0|||||TWO_SIDED|95.0|97.2|100.0|||Exact test of binomial proportion|||Statistical analysis 5/99 strain: The power to reject the null hypothesis associated with the primary objective for strain 5/99 was 99%.||100|97.2|
92279307|NCT02173704|184461581|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sufficiency: The criterion for a sufficient immune response was that the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥ 1:5 should be ≥ 70%.|single binomial proportion|79.0|||||TWO_SIDED|95.0|71.4|85.8|||Exact test of binomial proportion|||Statistical analysis NZ98/254 strain: The power to reject the null hypothesis associated with the primary objective for strain NZ98/25 was 94%.||85.8|71.4|
92279308|NCT02173704|184461583|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sufficiency: The criterion for a sufficient immune response was that the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:5 should be ≥ 70%.|Single binomial proportion|99.0|||||TWO_SIDED|95.0|95.7|99.98|||Exact test of binomial proportion|||Statistical analysis H44/76 strain: The null hypothesis associated with the primary objective is that the proportion of subjects with hSBA titers ≥ 1:5 one month after the third dose of the Bexsero® vaccine was ≤ 0.70. Assuming the results for the three strains are independent, the power to reject the null hypothesis associated with the primary objectives to demonstrate sufficiency of response (for all three strains was 92%.||99.98|95.7|
92279309|NCT02173704|184461583|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sufficiency: The criterion for a sufficient immune response was that the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:5 should be ≥ 75%.|Single binomial proportion|99.0|||||TWO_SIDED|95.0|94.7|99.82|||Exact test for binomial proportion|||Statistical analysis 5/99 strain: The power to reject the null hypothesis associated with the secondary objective for strain 5/99 was 99%.||99.82|94.7|
92170141|NCT01551355|184229162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.08|||<|0.001|TWO_SIDED|95.0|2.03|6.12|||t-test, 2 sided|||||6.12|2.03|<.001
92171801|NCT04505774|184233273|SUPERIORITY|||||||0.6292|||||||t-test, 2 sided|||||||.6292
92393160|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01||||0.954|TWO_SIDED|95.0|-0.32|0.34|||ANOVA|||Change at Week 24, Mottled hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.34|-0.32|0.954
92393161|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.684|TWO_SIDED|95.0|-0.34|0.22|||ANOVA|||Change at Week 24, Sallowness/yellowing: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.22|-0.34|0.684
92393162|NCT01787461|184685867|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.886|TWO_SIDED|95.0|-0.35|0.3|||ANOVA|||Change at Week 24, Roughness/texture: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.30|-0.35|0.886
92393163|NCT01787461|184685868|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.901|TWO_SIDED|95.0|-0.33|0.37|||ANOVA|||Change at Week 12, Decolletage-Crepyness: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.37|-0.33|0.901
92393164|NCT01787461|184685868|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.399|TWO_SIDED|95.0|-0.19|0.47|||ANOVA|||Change at Week 12, Decolletage-Mottled Hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.47|-0.19|0.399
92393165|NCT01787461|184685868|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.875|TWO_SIDED|95.0|-0.38|0.32|||ANOVA|||Change at Week 12, Back of Hands-Crepyness: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.32|-0.38|0.875
92393166|NCT01787461|184685868|SUPERIORITY_OR_OTHER||LS Mean Difference|0.43||||0.005|TWO_SIDED|95.0|0.13|0.73|||ANOVA|||Change at Week 12, Back of Hands-Mottled Hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.73|0.13|0.005
92393167|NCT01787461|184685868|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.876|TWO_SIDED|95.0|-0.33|0.38|||ANOVA|||Change at Week 24, Decolletage-Crepyness: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.38|-0.33|0.876
92393168|NCT01787461|184685868|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05||||0.789|TWO_SIDED|95.0|-0.29|0.38|||ANOVA|||Change at Week 24, Decolletage-Mottled Hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.38|-0.29|0.789
92393169|NCT01787461|184685868|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04||||0.901|TWO_SIDED|95.0|-0.31|0.38|||ANOVA|||Change at Week 24, Back of Hands- Crepyness: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.38|-0.31|0.901
92393170|NCT01787461|184685868|SUPERIORITY_OR_OTHER||LS Mean Difference|0.38||||0.027|TWO_SIDED|95.0|0.04|0.72|||ANOVA|||Change at Week 24, Back of Hands - Mottled Hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.72|0.04|0.027
92170142|NCT01551355|184229163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.36|||=|0.06|TWO_SIDED|95.0|-0.29|11.01|||t-test, 2 sided|||||11.01|-0.29|=.06
92279310|NCT02173704|184461583|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sufficiency: The criterion for a sufficient immune response was that the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:5 should be ≥ 75%.|Single binomial proportion|94.0|||||TWO_SIDED|95.0|88.7|97.4|||Exact test for binomial proportions|||Statistical analysis NZ98/254 strain: The power to reject the null hypothesis associated with the secondary objective for strain NZ98/254 was 99%.||97.4|88.7|
92279311|NCT03901963|184461592|SUPERIORITY||Odds Ratio (OR)|4.51|||<|0.0001|TWO_SIDED|95.0|2.37|8.57||Tested at 2-sided 0.05 significance level through stratified CMH method. Stratification factor included baseline cytogenetic risk per investigator'|stratified Cochran-Mantel-Haenszel (CMH)||Odds ratio and 95% CI were estimated by Mantel-Haenszel method. Stratification factor included baseline cytogenetic risk per investigator's assessment (high risk versus standard/unknown risk) as used for randomization of the study.|||8.57|2.37|<0.0001
92279312|NCT02909673|184461604|EQUIVALENCE|Null Hypothesis: No difference between Fourth R Treatment and Control treatment in the rate of Physical DV perpetration. Power analyses were conducted to ensure adequate statistical power to detect minimum detectible differences of 3-6%. An intra-class correlation coefficient (ICC) =0.01 was assumed among observations of students attending the same school and was accounted for in the power estimation though the use of a variance inflation factor (VIF)|Odds Ratio (OR)|0.66||||0.05|TWO_SIDED|95.0|0.43|1.0||P-value was not adjusted for multiple test. ICC was estimated at 0.006. Type I error rate was set at 0.05|Regression, Logistic|Multilevel logistic regression used to adjust for the clustered sample design (students nested within schools).|Odds of Physical DV perpetration in the control group relative to the treatment group|||1.00|0.43|0.05
92279313|NCT01288859|184461612|NON_INFERIORITY_OR_EQUIVALENCE|The results from LC-MS/MS analysis of parent polyphenols were analyzed and expressed as the absolute changes from the baseline to reduce possible effects of inter-subject fasting variability|Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.1||0.02|TWO_SIDED|95.0|||||ANOVA|||||||0.02
92279314|NCT01288859|184461613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.01||0.01|TWO_SIDED|95.0|||||ANOVA|||Statistical analysis was performed using the statistical package SPSS for Windows (version15). By the analysis of variance (ANOVA) for repeated measures the subjective time curves for all measured compounds were compared and tested for the effect of treatment and of time as factors. For all tests, following a significant main effect in the ANOVA, individual means were compared using the Bonferroni test (p \< 0.05). Results were considered significant at p \< 0.05.||||0.01
92279315|NCT01288859|184461614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.01||0.04|TWO_SIDED|95.0|||||ANOVA|||||||0.04
92279316|NCT00780026|184461732|SUPERIORITY_OR_OTHER|||||||0.841||||||P value for Bacterial infection|Chi-squared|||||||0.841
92279317|NCT00780026|184461732|SUPERIORITY_OR_OTHER|||||||0.298||||||P-value for fungal infection|Chi-squared|||||||0.298
92279318|NCT00780026|184461732|SUPERIORITY_OR_OTHER|||||||0.585||||||P value for transplant incision wound|Chi-squared|||||||0.585
92279319|NCT00780026|184461732|SUPERIORITY_OR_OTHER|||||||0.505||||||P value for viral infection|Chi-squared|||||||0.505
92279320|NCT00780026|184461733|SUPERIORITY_OR_OTHER|||||||0.999|||||||Fisher Exact|||||||0.999
92279321|NCT00780026|184461734|EQUIVALENCE|If the p-value for the means is \> 0.05 between the groups then they will be deemed equivalent.||||||0.384|||||||Wilcoxon (Mann-Whitney)|||||||0.384
92279322|NCT00780026|184461736|SUPERIORITY_OR_OTHER|||||||0.401|||||||Fisher Exact|||||||0.401
92279323|NCT00780026|184461737|SUPERIORITY_OR_OTHER|||||||0.826||||||P value for bile leak|Chi-squared|||||||0.826
92170143|NCT03010631|184229171|SUPERIORITY||Ratio of Geometric LS Means|1.441|||||TWO_SIDED|90.0|1.166|1.782||||||||1.782|1.166|
92393171|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.083||||0.688|TWO_SIDED|95.0|-0.1|0.27|||Cochran-Mantel-Haenszel|||Improvement Week 12, Overall appearance of facial skin: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.27|-0.10|0.688
92170144|NCT03010631|184229172|SUPERIORITY||Ratio of Geometric LS Means|2.045|||||TWO_SIDED|90.0|1.615|2.589||||||||2.589|1.615|
92170145|NCT03010631|184229173|OTHER||Ratio of Geometric LS Means|0.888|||||TWO_SIDED|90.0|0.675|1.168||||||||1.168|0.675|
92170146|NCT03010631|184229174|OTHER||Ratio of Geometric LS Means|0.413|||||TWO_SIDED|90.0|0.339|0.502||||||||0.502|0.339|
92170147|NCT01255670|184229178|OTHER|Mann-Whitney U-test and Fisher's exact test||||||0.05|||||||Fisher Exact|||||||0.05
92170148|NCT01255670|184229179|OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U-test and Fisher's exact test||||0.05
92170149|NCT03570892|184229250|SUPERIORITY||Unadjusted stratified cox model hazard r|1.07|||=|0.694|TWO_SIDED|95.0|0.82|1.4|||Stratified log-rank test one-sided|||||1.40|0.82|= 0.694
92279324|NCT00780026|184461737|SUPERIORITY_OR_OTHER|||||||0.137||||||This is the p value for Biliary Stricture|Chi-squared|||||||0.137
92279325|NCT00780026|184461738|SUPERIORITY_OR_OTHER|||||||0.999|||||||Fisher Exact|||||||0.999
92279326|NCT01816477|184461766|SUPERIORITY_OR_OTHER|||||||0.55|||||||t-test, 2 sided|||||||0.55
92279327|NCT01816477|184461767|SUPERIORITY_OR_OTHER|||||||0.0872|||||||Unequal Variance T-Test|||Comparison between the groups for day 1.||||0.0872
92279328|NCT01816477|184461767|SUPERIORITY_OR_OTHER|||||||0.6751|||||||Unequal Variance T-Test|||Comparison between groups for day 2.||||0.6751
92279329|NCT01816477|184461767|SUPERIORITY_OR_OTHER|||||||0.1203|||||||Unequal Variance T-Test|||Comparison between groups for day 3.||||0.1203
92279330|NCT01816477|184461767|SUPERIORITY_OR_OTHER|||||||0.3582|||||||Unequal Variance T-Test|||Comparison between groups for day 4.||||0.3582
92279331|NCT01816477|184461767|SUPERIORITY_OR_OTHER|||||||0.0625|||||||Unequal Variance T-Test|||Comparison between groups for day 5||||0.0625
92279332|NCT01816477|184461767|SUPERIORITY_OR_OTHER|||||||0.0484|||||||Unequal Variance T-Test|||Comparison between groups for day 6.||||0.0484
92279333|NCT01816477|184461768|SUPERIORITY_OR_OTHER|||||||0.6465|||||||Unequal Variance T-Test|||Comparison between the groups for day 1.||||0.6465
92279334|NCT01816477|184461768|SUPERIORITY_OR_OTHER|||||||0.9233|||||||Unequal Variance T-Test|||Comparison between groups for day 2.||||0.9233
92421064|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|16.9||||0.0023|TWO_SIDED|95.0|6.2|27.5|||Chi-squared|||36\_Week 9, ≥75% reduction, E4 20 mg vs placebo||27.5|6.2|0.0023
92421065|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|12.6||||0.0146|TWO_SIDED|95.0|2.6|22.7|||Chi-squared|||37\_Week 10, ≥50% reduction, E4 15 mg vs placebo||22.7|2.6|0.0146
92421066|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|14.2||||0.0055|TWO_SIDED|95.0|4.3|24.1|||Chi-squared|||38\_Week 10, ≥50% reduction, E4 20 mg vs placebo||24.1|4.3|0.0055
92421067|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|7.8||||0.1635|TWO_SIDED|95.0|-3.1|18.8|||Chi-squared|||39\_Week 10, ≥75% reduction, E4 15 mg vs placebo||18.8|-3.1|0.1635
92421068|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|14.2||||0.0119|TWO_SIDED|95.0|3.3|25.2|||Chi-squared|||40\_Week 10, ≥75% reduction, E4 20 mg vs placebo||25.2|3.3|0.0119
92421069|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|16.5||||0.0014|TWO_SIDED|95.0|6.5|26.5|||Chi-squared|||41\_Week 11, ≥50% reduction, E4 15 mg vs placebo||26.5|6.5|0.0014
92421070|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|17.7||||0.0006|TWO_SIDED|95.0|7.8|27.6|||Chi-squared|||42\_Week 11, ≥50% reduction, E4 20 mg vs placebo||27.6|7.8|0.0006
92421071|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|15.0||||0.0075|TWO_SIDED|95.0|4.1|25.8|||Chi-squared|||43\_Week 11, ≥75% reduction, E4 15 mg vs placebo||25.8|4.1|0.0075
92421072|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|18.5||||0.001|TWO_SIDED|95.0|7.6|29.3|||Chi-squared|||44\_Week 11, ≥75% reduction, E4 20 mg vs placebo||29.30|7.6|0.0010
92421073|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|20.0||||0.0001|TWO_SIDED|95.0|10.0|29.9|||Chi-squared|||45\_Week 12, ≥50% reduction, E4 15 mg vs placebo||29.9|10.0|0.0001
92421074|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|20.4|||<|0.0001|TWO_SIDED|95.0|10.5|30.3|||Chi-squared|||46\_Week 12, ≥50% reduction, E4 20 mg vs placebo||30.3|10.5|<0.0001
92421075|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|11.7||||0.0392|TWO_SIDED|95.0|0.7|22.7|||Chi-squared|||47\_Week 12, ≥75% reduction, E4 15 mg vs placebo||22.7|0.7|0.0392
92421076|NCT04090957|184731096|SUPERIORITY||Risk Difference (RD)|19.5||||0.0007|TWO_SIDED|95.0|8.5|30.6|||Chi-squared|||48\_Week 12, ≥75% reduction, E4 20 mg vs placebo||30.6|8.5|0.0007
92170150|NCT05028582|184229262|SUPERIORITY||Odds Ratio, log|5.19|||<|0.0001|TWO_SIDED|97.5|2.9|9.31|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|S-IGA Success at Week 8||9.31|2.90|<0.0001
92421077|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|1.8||||0.7283|TWO_SIDED|95.0|-8.4|12.0|||Chi-squared|||1\_Week 4, CID, E4 15 mg vs Placebo||12.0|-8.4|0.7283
92421078|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|16.7||||0.0017|TWO_SIDED|95.0|6.4|27.0|||Chi-squared|||2\_Week 4, CID, E4 20 mg vs Placebo||27.0|6.4|0.0017
92421079|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|8.9||||0.095|TWO_SIDED|95.0|-1.5|19.3|||Chi-squared|||3\_Week 4, MCID, E4 15 mg vs Placebo||19.3|-1.5|0.0950
92171802|NCT04505774|184233273|SUPERIORITY|||||||0.6858|||||||t-test, 2 sided|||||||.6858
92421080|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|-7.9||||0.1208|TWO_SIDED|95.0|-17.8|2.0|||Chi-squared|||4\_Week 4, MCID, E4 20 mg vs Placebo||2.0|-17.8|0.1208
92421081|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|-10.7||||0.0154|TWO_SIDED|95.0|-19.3|-2.1|||Chi-squared|||5\_Week 4, Worsen/No change, E4 15 mg vs Placebo||-2.1|-19.3|0.0154
92421082|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|-8.9||||0.0461|TWO_SIDED|95.0|-17.6|-0.2|||Chi-squared|||6\_Week 4, Worsen/No change, E4 20 mg vs Placebo||-0.2|-17.6|0.0461
92421083|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|10.7||||0.0629|TWO_SIDED|95.0|-0.5|22.0|||Chi-squared|||7\_Week 12, CID, E4 15 mg vs Placebo||22.0|-0.5|0.0629
92421084|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|18.6||||0.0012|TWO_SIDED|95.0|7.5|29.6|||Chi-squared|||8\_Week 12, CID, E4 20 mg vs Placebo||29.6|7.5|0.0012
92171803|NCT04505774|184233273|SUPERIORITY|||||||0.1351|||||||t-test, 2 sided|||||||.1351
92171804|NCT04505774|184233274|SUPERIORITY|||||||0.1959|||||||Chi-squared|||||||.1959
92421085|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|-4.9||||0.3552|TWO_SIDED|95.0|-15.3|5.5|||Chi-squared|||9\_Week 12, MCID, E4 15 mg vs Placebo||5.5|-15.3|0.3552
92421086|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|-13.1||||0.0103|TWO_SIDED|95.0|-22.9|-3.2|||Chi-squared|||10\_Week 12, MCID, E4 20 mg vs Placebo||-3.2|-22.9|0.0103
92421087|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|-5.8||||0.1383|TWO_SIDED|95.0|-13.5|1.9|||Chi-squared|||11\_Week 12, Worsen/No change, E4 15 mg vs Placebo||1.9|-13.5|0.1383
92421088|NCT04090957|184731097|SUPERIORITY||Risk Difference (RD)|-5.5||||0.1706|TWO_SIDED|95.0|-13.3|2.3|||Chi-squared|||12\_Week 12, Worsen/No change, E4 20 mg vs Placebo||2.3|-13.3|0.1706
92421089|NCT04090957|184731098|SUPERIORITY||Least square mean difference|-0.15||||0.1565|TWO_SIDED|95.0|-0.34|0.04|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||0.04|-0.34|0.1565
92421090|NCT04090957|184731098|SUPERIORITY||Least square mean difference|-0.14||||0.1823|TWO_SIDED|95.0|-0.33|0.05|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||0.05|-0.33|0.1823
92421091|NCT04090957|184731098|SUPERIORITY||Least square mean difference|-0.23||||0.046|TWO_SIDED|95.0|-0.46|0.0|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||-0.00|-0.46|0.0460
92421092|NCT04090957|184731098|SUPERIORITY||Least square mean difference|-0.24||||0.0417|TWO_SIDED|95.0|-0.47|-0.01|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||-0.01|-0.47|0.0417
92421093|NCT04090957|184731100|SUPERIORITY||Least square mean difference|-0.08||||0.4616|TWO_SIDED|95.0|-0.24|0.09|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||0.09|-0.24|0.4616
92421094|NCT04090957|184731100|SUPERIORITY||Least square mean difference|-0.2||||0.0112|TWO_SIDED|95.0|-0.37|-0.04|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||-0.04|-0.37|0.0112
92421095|NCT04090957|184731100|SUPERIORITY||Least square mean difference|-0.12||||0.2773|TWO_SIDED|95.0|-0.32|0.07|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||0.07|-0.32|0.2773
92421096|NCT04090957|184731100|SUPERIORITY||Least square mean difference|-0.09||||0.4881|TWO_SIDED|95.0|-0.29|0.11|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||0.11|-0.29|0.4881
92421097|NCT04090957|184731102|SUPERIORITY||Least square mean difference|-0.02||||0.7875|TWO_SIDED|95.0|-0.08|0.04|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||0.040|-0.08|0.7875
92421098|NCT04090957|184731102|SUPERIORITY||Least square mean difference|0.04||||0.3092|TWO_SIDED|95.0|-0.02|0.1|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||0.10|-0.02|0.3092
92421099|NCT04090957|184731102|SUPERIORITY||Least square mean difference|-0.01||||0.9129|TWO_SIDED|95.0|-0.08|0.06|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||0.06|-0.08|0.9129
92421100|NCT04090957|184731102|SUPERIORITY||Least square mean difference|-0.02||||0.8023|TWO_SIDED|95.0|-0.09|0.06|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||0.06|-0.09|0.8023
92421101|NCT04090957|184731104|SUPERIORITY||Least square mean difference|-0.23||||0.0084|TWO_SIDED|95.0|-0.41|-0.05|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||-0.05|-0.41|0.0084
92421102|NCT04090957|184731104|SUPERIORITY||Least square mean difference|-0.21||||0.0146|TWO_SIDED|95.0|-0.39|-0.04|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||-0.04|-0.39|0.0146
92421103|NCT04090957|184731104|SUPERIORITY||Least square mean difference|-0.3||||0.0029|TWO_SIDED|95.0|-0.51|-0.09|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||-0.09|-0.51|0.0029
92421104|NCT04090957|184731104|SUPERIORITY||Least square mean difference|-0.3||||0.0045|TWO_SIDED|95.0|-0.51|-0.08|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||-0.08|-0.51|0.0045
92421105|NCT04090957|184731106|SUPERIORITY||Least square mean difference|-3.34||||0.0026|TWO_SIDED|95.0|-5.63|-1.05|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||-1.05|-5.63|0.0026
92279335|NCT01816477|184461768|SUPERIORITY_OR_OTHER|||||||0.5788|||||||Unequal Variance T-Test|||Comparison between groups for day 3.||||0.5788
92421106|NCT04090957|184731106|SUPERIORITY||Least square mean difference|-4.03||||0.0002|TWO_SIDED|95.0|-6.31|-1.75|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||-1.75|-6.31|0.0002
92421107|NCT04090957|184731106|SUPERIORITY||Least square mean difference|-3.01||||0.0295|TWO_SIDED|95.0|-5.75|-0.26|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||-0.26|-5.75|0.0295
92421108|NCT04090957|184731106|SUPERIORITY||Least square mean difference|-2.73||||0.0564|TWO_SIDED|95.0|-5.53|0.06|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||0.06|-5.53|0.0564
92421109|NCT04090957|184731108|SUPERIORITY||Least square mean difference|0.24||||0.0051|TWO_SIDED|95.0|0.06|0.42|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||0.42|0.06|0.0051
92421110|NCT04090957|184731108|SUPERIORITY||Least square mean difference|0.22||||0.0126|TWO_SIDED|95.0|0.04|0.4|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||0.40|0.04|0.0126
92421111|NCT04090957|184731108|SUPERIORITY||Least square mean difference|0.14||||0.2372|TWO_SIDED|95.0|-0.07|0.35|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||0.35|-0.07|0.2372
92421112|NCT04090957|184731108|SUPERIORITY||Least square mean difference|0.2||||0.0644|TWO_SIDED|95.0|-0.01|0.42|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||0.42|-0.01|0.0644
92421113|NCT04090957|184731110|SUPERIORITY||Least square mean difference|-0.04||||0.5631|TWO_SIDED|95.0|-0.12|0.05|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||0.05|-0.12|0.5631
92421114|NCT04090957|184731110|SUPERIORITY||Least square mean difference|-0.11||||0.0174|TWO_SIDED|95.0|-0.2|-0.02|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||-0.02|-0.20|0.0174
92421115|NCT04090957|184731110|SUPERIORITY||Least square mean difference|0.0||||0.9992|TWO_SIDED|95.0|-0.1|0.1|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||0.10|-0.10|0.9992
92421116|NCT04090957|184731110|SUPERIORITY||Least square mean difference|-0.07||||0.2941|TWO_SIDED|95.0|-0.17|0.04|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||0.04|-0.17|0.2941
92421117|NCT04090957|184731112|SUPERIORITY||Least square mean difference|-0.06||||0.7112|TWO_SIDED|95.0|-0.24|0.12|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||0.12|-0.24|0.7112
92421118|NCT04090957|184731112|SUPERIORITY||Least square mean difference|-0.1||||0.3618|TWO_SIDED|95.0|-0.28|0.08|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||0.08|-0.28|0.3618
92279336|NCT01816477|184461768|SUPERIORITY_OR_OTHER|||||||0.1036|||||||Unequal Variance T-Test|||Comparison between the groups for day 4.||||0.1036
92279337|NCT01816477|184461768|SUPERIORITY_OR_OTHER|||||||0.5314|||||||Unequal Variance T-Test|||Comparison between groups for day 5.||||0.5314
92421119|NCT04090957|184731112|SUPERIORITY||Least square mean difference|-0.01||||0.9933|TWO_SIDED|95.0|-0.23|0.21|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||0.21|-0.23|0.9933
92421120|NCT04090957|184731112|SUPERIORITY||Least square mean difference|0.099||||0.9024|TWO_SIDED|95.0|-0.18|0.26|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||0.26|-0.18|0.9024
92421121|NCT04090957|184731114|SUPERIORITY||Least square mean difference|-0.16||||0.8961|TWO_SIDED|95.0|-1.05|0.74|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||0.74|-1.05|0.8961
92421122|NCT04090957|184731114|SUPERIORITY||Least square mean difference|-0.09||||0.9619|TWO_SIDED|95.0|-0.99|0.81|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||0.81|-0.99|0.9619
92421123|NCT04090957|184731114|SUPERIORITY||Least square mean difference|-0.2||||0.892|TWO_SIDED|95.0|-1.33|0.92|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||0.92|-1.33|0.8920
92421124|NCT04090957|184731114|SUPERIORITY||Least square mean difference|0.73||||0.2826|TWO_SIDED|95.0|-0.43|1.89|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||1.89|-0.43|0.2826
92421125|NCT04090957|184731116|SUPERIORITY||Least square mean difference|-3.87||||0.9039|TWO_SIDED|95.0|-26.86|19.12|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||19.12|-26.86|0.9039
92421126|NCT04090957|184731116|SUPERIORITY||Least square mean difference|-2.24||||0.966|TWO_SIDED|95.0|-25.12|20.63|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||20.63|-25.12|0.9660
92421127|NCT04090957|184731116|SUPERIORITY||Least square mean difference|-5.73||||0.8708|TWO_SIDED|95.0|-34.55|23.08|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||23.08|-34.55|0.8708
92421128|NCT04090957|184731116|SUPERIORITY||Least square mean difference|17.15||||0.3357|TWO_SIDED|95.0|-12.48|46.77|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||46.77|-12.48|0.3357
92421129|NCT04090957|184731118|SUPERIORITY||Least square mean difference|17.36|||<|0.0001|TWO_SIDED|95.0|12.76|21.96|||Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||21.96|12.76|< 0.0001
92421130|NCT04090957|184731118|SUPERIORITY||Least square mean difference|19.39|||<|0.0001|TWO_SIDED|95.0|14.8|23.98|||Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||23.98|14.80|<0.0001
92421131|NCT04090957|184731118|SUPERIORITY||Least square mean difference|17.44|||<|0.0001|TWO_SIDED|95.0|12.05|22.83|||Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||22.83|12.05|<0.0001
92421132|NCT04090957|184731118|SUPERIORITY||Least square mean difference|20.19|||<|0.0001|TWO_SIDED|95.0|14.5|25.89|||Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||25.89|14.50|<0.0001
92421133|NCT04090957|184731119|SUPERIORITY||Least square mean difference|-8.28|||<|0.0001|TWO_SIDED|95.0|-11.86|-4.7|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||-4.70|-11.86|<0.0001
92421134|NCT04090957|184731119|SUPERIORITY||Least square mean difference|-8.25|||<|0.0001|TWO_SIDED|95.0|-11.9|-4.61|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||-4.61|-11.90|< 0.0001
92421135|NCT04090957|184731119|SUPERIORITY||Least square mean difference|-7.68||||0.0002|TWO_SIDED|95.0|-12.07|-3.29|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||-3.29|-12.07|0.0002
92421136|NCT04090957|184731119|SUPERIORITY||Least square mean difference|-5.51||||0.0181|TWO_SIDED|95.0|-10.21|-0.82|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||-0.82|-10.21|0.0181
92421137|NCT04090957|184731120|SUPERIORITY||Least square mean difference|-0.01||||0.8862|TWO_SIDED|95.0|-0.08|0.05|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||0.05|-0.08|0.8862
92421138|NCT04090957|184731120|SUPERIORITY||Least square mean difference|-0.02||||0.6013|TWO_SIDED|95.0|-0.09|0.04|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||0.04|-0.09|0.6013
92421139|NCT04090957|184731120|SUPERIORITY||Least square mean difference|-0.01||||0.9723|TWO_SIDED|95.0|-0.08|0.07|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||0.07|-0.08|0.9723
92421140|NCT04090957|184731120|SUPERIORITY||Least square mean difference|-0.03||||0.5778|TWO_SIDED|95.0|-0.11|0.05|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||0.05|-0.11|0.5778
92421141|NCT04090957|184731121|SUPERIORITY||Least square mean difference|5.86||||0.9865|TWO_SIDED|95.0|-89.5|101.23|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||101.23|-89.50|0.9865
92421142|NCT04090957|184731121|SUPERIORITY||Least square mean difference|-7.05||||0.9814|TWO_SIDED|95.0|-104.73|90.63|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||90.63|-104.73|0.9814
92421143|NCT04090957|184731121|SUPERIORITY||Least square mean difference|-46.46||||0.6049|TWO_SIDED|95.0|-167.23|74.3|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||74.30|-167.23|0.6049
92421144|NCT04090957|184731121|SUPERIORITY||Least square mean difference|-71.64||||0.3717|TWO_SIDED|95.0|-202.08|58.81|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||58.81|-202.08|0.3717
92421145|NCT04090957|184731122|SUPERIORITY||Least square mean difference|1.93||||0.8439|TWO_SIDED|95.0|-6.89|10.74|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||10.74|-6.89|0.8439
92421146|NCT04090957|184731122|SUPERIORITY||Least square mean difference|5.66||||0.2727|TWO_SIDED|95.0|-3.28|14.61|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||14.61|-3.28|0.2727
92421147|NCT04090957|184731122|SUPERIORITY||Least square mean difference|-3.86||||0.6389|TWO_SIDED|95.0|-14.53|6.81|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||6.81|-14.53|0.6389
92421148|NCT04090957|184731122|SUPERIORITY||Least square mean difference|5.52||||0.4544|TWO_SIDED|95.0|-5.84|16.88|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||16.88|-5.84|0.4544
92421149|NCT04090957|184731123|SUPERIORITY||Least square mean difference|0.57||||0.0084|TWO_SIDED|95.0|0.13|1.02|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||1.02|0.13|0.0084
92421150|NCT04090957|184731123|SUPERIORITY||Least square mean difference|0.77||||0.0002|TWO_SIDED|95.0|0.33|1.2|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||1.20|0.33|0.0002
92236020|NCT01287117|184375519|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.39||||0.0879|TWO_SIDED|95.0|0.95|2.03||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups.||2.03|0.95|0.0879
92239748|NCT00738543|184383409|NON_INFERIORITY_OR_EQUIVALENCE|A minimal sample of 20 volunteers was calculated to to find a difference of 200 CFU/mL, with a power of 80% and bilateral error of 5%.|||||<|0.05||||||Post-hoc test of Kruskal-Wallis for multiple comparisons of Z values was used to determine which arm was different.|Kruskal-Wallis|2 degrees of freedom corrected for ties||The null hypothesis established that the three medians were equal. To test significant differences for non-normally distributed data, a range test (Kruskal-Wallis) was used.||||<0.05
92421151|NCT04090957|184731123|SUPERIORITY||Least square mean difference|0.19||||0.6337|TWO_SIDED|95.0|-0.33|0.72|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||0.72|-0.33|0.6337
92421152|NCT04090957|184731123|SUPERIORITY||Least square mean difference|0.44||||0.1287|TWO_SIDED|95.0|-0.1|0.98|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||0.98|-0.10|0.1287
92421153|NCT04090957|184731124|SUPERIORITY||Least square mean difference|-2.45||||0.3445|TWO_SIDED|95.0|-6.76|1.86|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||1.86|-6.76|0.3445
92421154|NCT04090957|184731124|SUPERIORITY||Least square mean difference|0.03||||0.9998|TWO_SIDED|95.0|-4.33|4.4|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||4.40|-4.33|0.9998
92421155|NCT04090957|184731124|SUPERIORITY||Least square mean difference|-2.38||||0.4874|TWO_SIDED|95.0|-7.51|2.76|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||2.76|-7.51|0.4874
92421156|NCT04090957|184731124|SUPERIORITY||Least square mean difference|-0.17||||0.9964|TWO_SIDED|95.0|-5.61|5.26|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||5.26|-5.61|0.9964
92421157|NCT04090957|184731125|SUPERIORITY||Least square mean difference|-3.94||||0.0119|TWO_SIDED|95.0|-7.12|-0.76|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||-0.76|-7.12|0.0119
92421158|NCT04090957|184731125|SUPERIORITY||Least square mean difference|-4.77||||0.0017|TWO_SIDED|95.0|-7.93|-1.62|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||-1.62|-7.93|0.0017
92421159|NCT04090957|184731125|SUPERIORITY||Least square mean difference|-4.56||||0.0186|TWO_SIDED|95.0|-8.46|-0.66|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||-0.66|-8.46|0.0186
92421160|NCT04090957|184731125|SUPERIORITY||Least square mean difference|-3.79||||0.0687|TWO_SIDED|95.0|-7.81|0.24|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||0.24|-7.81|0.0687
92421161|NCT04090957|184731126|SUPERIORITY||Least square mean difference|27.9|||<|0.0001|TWO_SIDED|95.0|16.4|39.41|||Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||39.41|16.40|<0.0001
92421162|NCT04090957|184731126|SUPERIORITY||Least square mean difference|44.99|||<|0.0001|TWO_SIDED|95.0|33.53|56.44|||Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||56.44|33.53|<0.0001
92421163|NCT04090957|184731126|SUPERIORITY||Least square mean difference|29.92|||<|0.0001|TWO_SIDED|95.0|17.13|42.71|||Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||42.71|17.13|<0.0001
92421164|NCT04090957|184731126|SUPERIORITY||Least square mean difference|49.15|||<|0.0001|TWO_SIDED|95.0|35.92|62.37|||Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||62.37|35.92|<0.0001
92421165|NCT04090957|184731127|SUPERIORITY||Least square mean difference|-0.04||||0.0004|TWO_SIDED|95.0|-0.07|-0.02|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||-0.02|-0.07|0.0004
92421166|NCT04090957|184731127|SUPERIORITY||Least square mean difference|-0.08|||<|0.0001|TWO_SIDED|95.0|-0.1|-0.05|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||-0.05|-0.10|<0.0001
92421167|NCT04090957|184731127|SUPERIORITY||Least square mean difference|-0.03||||0.0898|TWO_SIDED|95.0|-0.06|0.0|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||0.00|-0.06|0.0898
92421168|NCT04090957|184731127|SUPERIORITY||Least square mean difference|-0.07|||<|0.0001|TWO_SIDED|95.0|-0.1|-0.04|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||-0.04|-0.10|<0.0001
92421169|NCT04090957|184731128|SUPERIORITY||Least square mean difference|-0.13|||<|0.0001|TWO_SIDED|95.0|-0.18|-0.08|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||-0.08|-0.18|<0.0001
92421170|NCT04090957|184731128|SUPERIORITY||Least square mean difference|-0.14|||<|0.0001|TWO_SIDED|95.0|-0.18|-0.09|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||-0.09|-0.18|<0.0001
92421171|NCT04090957|184731128|SUPERIORITY||Least square mean difference|-0.17|||<|0.0001|TWO_SIDED|95.0|-0.23|-0.11|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||-0.11|-0.23|<0.0001
92421172|NCT04090957|184731128|SUPERIORITY||Least square mean difference|-0.14|||<|0.0001|TWO_SIDED|95.0|-0.2|-0.08|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||-0.08|-0.20|<0.0001
92421173|NCT04090957|184731129|SUPERIORITY||Least square mean difference|-6.22||||0.022|TWO_SIDED|95.0|-11.67|-0.78|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||-0.78|-11.67|0.0220
92171805|NCT04505774|184233274|SUPERIORITY|||||||0.9496|||||||Chi-squared|||||||0.9496
92421174|NCT04090957|184731129|SUPERIORITY||Least square mean difference|-11.61|||<|0.0001|TWO_SIDED|95.0|-17.02|-6.21|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||-6.21|-17.02|<0.0001
92421175|NCT04090957|184731129|SUPERIORITY||Least square mean difference|-15.93|||<|0.0001|TWO_SIDED|95.0|-22.7|-9.17|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||-9.17|-22.70|<0.0001
92421176|NCT04090957|184731129|SUPERIORITY||Least square mean difference|-13.68|||<|0.0001|TWO_SIDED|95.0|-20.63|-6.74|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||-6.74|-20.63|<0.0001
92421177|NCT04090957|184731130|SUPERIORITY||Least square mean difference|1.86||||0.7531|TWO_SIDED|95.0|-4.69|8.42|||Linear Mixed Model for Repeated Measures|||1\_Week 12 Estetrol 15 mg vs Placebo||8.42|-4.69|0.7531
92421178|NCT04090957|184731130|SUPERIORITY||Least square mean difference|-2.7||||0.5548|TWO_SIDED|95.0|-9.18|3.79|||Linear Mixed Model for Repeated Measures|||2\_Week 12 Estetrol 20 mg vs Placebo||3.79|-9.18|0.5548
92421179|NCT04090957|184731130|SUPERIORITY||Least square mean difference|6.81||||0.117|TWO_SIDED|95.0|-1.36|14.99|||Linear Mixed Model for Repeated Measures|||3\_Week 52 Estetrol 15 mg vs Placebo||14.99|-1.36|0.1170
92421180|NCT04090957|184731130|SUPERIORITY||Least square mean difference|-1.55||||0.8885|TWO_SIDED|95.0|-9.97|6.87|||Linear Mixed Model for Repeated Measures|||4\_Week 52 Estetrol 20 mg vs Placebo||6.87|-9.97|0.8885
92421181|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.45||||0.0781|TWO_SIDED|95.0|-0.95|0.04|||Mixed Model for Repeated Measures|||1\_Week 12, Vasomotor Domain, E4 15 mg vs Placebo||0.04|-0.95|0.0781
92421182|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.78||||0.0011|TWO_SIDED|95.0|-1.27|-0.28|||Mixed Model for Repeated Measures|||2\_Week 12, Vasomotor Domain, E4 20 mg vs Placebo||-0.28|-1.27|0.0011
92421183|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.76||||0.0085|TWO_SIDED|95.0|-1.35|-0.17|||Linear Mixed Model for Repeated Measures|||3\_Week 52, Vasomotor Domain, E4 15 mg vs Placebo||-0.17|-1.35|0.0085
92421184|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.75||||0.0127|TWO_SIDED|95.0|-1.35|-0.14|||Mixed Model for Repeated Measures|||4\_Week 52, Vasomotor Domain, E4 20 mg vs Placebo||-0.14|-1.35|0.0127
92421185|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.12||||0.6211|TWO_SIDED|95.0|-0.46|0.21|||Mixed Model for Repeated Measures|||5\_Week 12, Psychosocial Domain, E4 15 mg vs Placebo||0.21|-0.46|0.6211
92170151|NCT05028582|184229263|SUPERIORITY||Odds Ratio (OR)|3.17|||<|0.0001|TWO_SIDED|97.5|1.75|5.73|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|B-IGA Success at Week 8||5.73|1.75|<0.0001
92170152|NCT05028582|184229264|OTHER|SI-NRS Success at Week 4|Odds Ratio (OR)|4.67||||0.0005|TWO_SIDED|97.5|1.6|13.62|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|||13.62|1.60|0.0005
92421186|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.16||||0.4544|TWO_SIDED|95.0|-0.5|0.17|||Mixed Model for Repeated Measures|||6\_Week 12, Psychosocial Domain, E4 20 mg vs Placebo||0.17|-0.50|0.4544
92421187|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.32||||0.1349|TWO_SIDED|95.0|-0.72|0.08|||Mixed Model for Repeated Measures|||7\_Week 52, Psychosocial Domain, E4 15 mg vs Placebo||0.08|-0.72|0.1349
92421188|NCT04090957|184731131|SUPERIORITY||Least square mean difference|0.08||||0.8875|TWO_SIDED|95.0|-0.33|0.49|||Mixed Model for Repeated Measures|||8\_Week 52, Psychosocial Domain, E4 20 mg vs Placebo||0.49|-0.33|0.8875
92421189|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.08||||0.8109|TWO_SIDED|95.0|-0.4|0.24|||Mixed Model for Repeated Measures|||9\_Week 12, Physical Domain, E4 15 mg vs Placebo||0.24|-0.40|0.8109
92421190|NCT04090957|184731131|SUPERIORITY||Least square mean difference|0.12||||0.6184|TWO_SIDED|95.0|-0.2|0.44|||Mixed Model for Repeated Measures|||10\_Week 12, Physical Domain, E4 20 mg vs Placebo||0.44|-0.20|0.6184
92421191|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.25||||0.2548|TWO_SIDED|95.0|-0.63|0.13|||Mixed Model for Repeated Measures|||11\_Week 52, Physical Domain, E4 15 mg vs Placebo||0.13|-0.63|0.2548
92170153|NCT05028582|184229265|SUPERIORITY||Odds Ratio (OR)|4.39|||<|0.0001|TWO_SIDED|97.5|2.01|9.55|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|SI-NRS Success at Week 4||9.55|2.01|<0.0001
92170154|NCT05028582|184229266|OTHER|SI-NRS Success at Week 8|Odds Ratio (OR)|5.41|||<|0.0001|TWO_SIDED|97.5|2.49|11.78|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|||11.78|2.49|<0.0001
92171806|NCT04505774|184233274|SUPERIORITY|||||||0.9902|||||||Chi-squared|||||||.9902
92171807|NCT04505774|184233274|SUPERIORITY|||||||0.0814|||||||Chi-squared|||||||.0814
92236021|NCT01287117|184375519|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||0.0301|TWO_SIDED|95.0|1.04|2.14||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||2.14|1.04|0.0301
92236022|NCT01287117|184375519|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.34|||<|0.0001|TWO_SIDED|95.0|1.63|3.36||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||3.36|1.63|<0.0001
92236023|NCT01287117|184375520|SUPERIORITY_OR_OTHER|||||||0.0148||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.0148
92236024|NCT01287117|184375520|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||||<0.0001
92421192|NCT04090957|184731131|SUPERIORITY||Least square mean difference|0.09||||0.8282|TWO_SIDED|95.0|-0.3|0.48|||Mixed Model for Repeated Measures|||12\_Week 52, Physical Domain, E4 20 mg vs Placebo||0.48|-0.30|0.8282
92421193|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.27||||0.3299|TWO_SIDED|95.0|-0.75|0.2|||Mixed Model for Repeated Measures|||13\_Week 12, Sexual Domain, E4 15 mg vs Placebo||0.20|-0.75|0.3299
92421194|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.22||||0.48|TWO_SIDED|95.0|-0.69|0.25|||Mixed Model for Repeated Measures|||14\_Week 12, Sexual Domain, E4 20 mg vs Placebo||0.25|-0.69|0.4800
92171808|NCT04505774|184233275|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
92421195|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.39||||0.2133|TWO_SIDED|95.0|-0.96|0.17|||Mixed Model for Repeated Measures|||15\_Week 52, Sexual Domain, E4 15 mg vs Placebo||0.17|-0.96|0.2133
92421196|NCT04090957|184731131|SUPERIORITY||Least square mean difference|0.14||||0.8116|TWO_SIDED|95.0|-0.44|0.73|||Mixed Model for Repeated Measures|||16\_Week 52, Sexual Domain, E4 20 mg vs Placebo||0.73|-0.44|0.8116
92421197|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.23||||0.1853|TWO_SIDED|95.0|-0.53|0.08|||Mixed Model for Repeated Measures|||17\_Week 12, Total MENQOL, E4 15 mg vs Placebo||0.08|-0.53|0.1853
92421198|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.26||||0.1176|TWO_SIDED|95.0|-0.57|0.05|||Mixed Model for Repeated Measures|||18\_Week 12, Total MENQOL, E4 20 mg vs Placebo||0.05|-0.57|0.1176
92421199|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.43||||0.0176|TWO_SIDED|95.0|-0.79|-0.06|||Mixed Model for Repeated Measures|||19\_Week 52, Total MENQOL, E4 15 mg vs Placebo||-0.06|-0.79|0.0176
92421200|NCT04090957|184731131|SUPERIORITY||Least square mean difference|-0.12||||0.6909|TWO_SIDED|95.0|-0.49|0.25|||Mixed Model for Repeated Measures|||20\_Week 52, Total MENQOL, E4 20 mg vs Placebo||0.25|-0.49|0.6909
92421201|NCT01557894|184731229|SUPERIORITY_OR_OTHER||||||<|0.01|ONE_SIDED|95.0||||The a priori threshold for statistical significance was set at .05|ANCOVA|Changes in primary outcome measures were evaluated using univariate ANCOVA, with pre-intervention scores as covariates, and group as a fixed factor||||||<0.01
92421202|NCT01557894|184731230|SUPERIORITY_OR_OTHER||||||<|0.01|ONE_SIDED|95.0||||The a priori threshold for statistical significance was set at .05|ANCOVA|Changes in primary outcome measures were evaluated using univariate ANCOVA, with pre-intervention scores as covariates, and group as a fixed factor||||||<0.01
92279338|NCT01816477|184461768|SUPERIORITY_OR_OTHER|||||||0.7166|||||||Unequal Variance T-Test|||Comparison between groups for day 6.||||0.7166
92421203|NCT01557894|184731231|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|Changes in primary outcome measures were evaluated using univariate ANCOVA, with pre-intervention scores as covariates, and group as a fixed factor.||||||<0.01
92421204|NCT01557894|184731232|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|||||||<0.01
92421205|NCT01557894|184731233|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|||||||<0.01
92421206|NCT03402659|184731234|OTHER||Mean Difference (Final Values)|-0.06098|STANDARD_ERROR_OF_MEAN|0.105548||0.564|TWO_SIDED|95.0|-0.26973|0.14777|||Mixed Models Analysis|||Mean change from baseline neflamapimod vs placebo||0.14777|-0.26973|0.564
92421207|NCT03402659|184731235|OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.72||0.823|TWO_SIDED|95.0|-6.0|4.8|||Mixed Models Analysis|||Mean change from baseline neflamapimod vs placebo||4.8|-6.0|0.823
92421208|NCT03402659|184731236|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.25||0.806|TWO_SIDED|95.0|-0.4|0.6|||Mixed Models Analysis|||Mean change from baseline neflamapimod vs placebo||0.6|-0.4|0.806
92421209|NCT03402659|184731237|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.39||0.489|TWO_SIDED|95.0|-1.0|0.5|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||0.5|-1.0|0.489
92421210|NCT03402659|184731238|OTHER||Mean Difference (Final Values)|-18.8|STANDARD_ERROR_OF_MEAN|8.6||0.031|TWO_SIDED|95.0|-35.8|-1.8|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||-1.8|-35.8|0.031
92421211|NCT03402659|184731239|OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.79||0.012|TWO_SIDED|95.0|-3.6|-0.5|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||-0.5|-3.6|0.012
92421212|NCT03402659|184731240|OTHER||Mean Difference (Final Values)|-117.4|STANDARD_ERROR_OF_MEAN|314.0||0.709|TWO_SIDED|95.0|-738.9|504.2|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||504.2|-738.9|0.709
92421213|NCT03402659|184731241|OTHER||Mean Difference (Final Values)|-21.0|STANDARD_ERROR_OF_MEAN|16.03||0.192|TWO_SIDED|95.0|-52.7|10.7|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||10.7|-52.7|0.192
92421214|NCT03402659|184731242|OTHER||Mean Difference (Final Values)|-21.0|STANDARD_ERROR_OF_MEAN|11.43||0.068|TWO_SIDED|95.0|-43.6|1.6|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||1.6|-43.6|0.068
92421215|NCT03402659|184731243|OTHER||Mean Difference (Final Values)|-110.1|STANDARD_ERROR_OF_MEAN|77.11||0.156|TWO_SIDED|95.0|-262.7|42.4|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||42.4|-262.7|0.156
92171809|NCT04505774|184233275|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92421216|NCT03402659|184731244|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.59|TWO_SIDED|95.0|0.0|0.0|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||0.0|-0.0|0.590
92421217|NCT02128828|184731250|SUPERIORITY|||||||0.0079|||||||Wilcoxon (Mann-Whitney)|||||||0.0079
92421218|NCT00090051|184731252|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.0218|TWO_SIDED|95.0|0.6|0.96|||Log Rank|non-stratified|The hazard ratio was estimated using Cox regression. The hazard ratio is relative to the fludarabine+cyclophosphamide(FC) group.|The null hypothesis was that there was no difference between the 2 treatment groups. The alternative hypothesis was that progression-free survival was longer in the fludarabine+cyclophosphamide+rituximab (FCR) group.||0.96|0.60|0.0218
92421219|NCT00090051|184731253|SUPERIORITY_OR_OTHER|||||||0.2874||95.0|||||Log Rank|non-stratified||||||0.2874
92421220|NCT00090051|184731255|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Log Rank|non-stratified||||||0.0002
92421221|NCT00090051|184731258|SUPERIORITY_OR_OTHER|||||||0.8842||95.0|||||Log Rank|non-stratified||||||0.8842
92421222|NCT00090051|184731260|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.54|0.8|||Log Rank|||||0.80|0.54|<.0001
92421223|NCT00090051|184731261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.5976|TWO_SIDED|95.0|0.74|1.19|||Log Rank|||||1.19|0.74|0.5976
92421224|NCT00090051|184731262|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.54|0.79|||Log Rank|||||0.79|0.54|<.0001
92421225|NCT00090051|184731263|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.15||||0.0005|TWO_SIDED|95.0|1.39|3.35|||Chi-squared|||||3.35|1.39|0.0005
92421226|NCT00090051|184731264|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.3085|TWO_SIDED|95.0|0.46|1.28|||Log Rank|||||1.28|0.46|0.3085
92421227|NCT00090051|184731265|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.0007|TWO_SIDED|95.0|0.51|0.84|||Log Rank|||||0.84|0.51|0.0007
92421228|NCT00090051|184731266|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0002|TWO_SIDED|95.0|0.55|0.84|||Log Rank|||||0.84|0.55|0.0002
92421229|NCT03646643|184731281|SUPERIORITY||Hazard Ratio (HR)|0.12||||0.047|TWO_SIDED|95.0|0.02|0.97||A priori threshold \<0.05. Multiple comparisons adjustments: not needed.|Log Rank||The distal CS to LA connection elimination group had fewer recurrences (6.7%) compared with the standard group (46.7%), which translated to an 88% lower hazard of recurrence compared with the standard group.|Power calculation: assuming alpha 0.05, power 0.8, 1:1 randomization, and estimated relative risk of 14.4 for AF susceptibility with rate-dependent CS-LA conduction block, we anticipated a minimum sample size of 6 patients per group would be necessary to detect a difference using the log-rank test. Additional patients were recruited to account for potential losses to follow-up and a smaller detectable difference.||0.97|0.02|0.047
92421230|NCT02840240|184731289|NON_INFERIORITY|Noninferiority deltas were defined a priori as 1.1 for the ratio in geometric means of opioid consumption converted to IV morphine equivalents (ie, no more than 10% difference between group's median doses) and 1 point for pain score (ie, no more than 1 point worse).|Mean Difference (Final Values)|-0.19||||0.003|TWO_SIDED|95.0|-1.07|0.69|||Regression, Linear|||||0.69|-1.07|0.003
92421231|NCT02840240|184731290|NON_INFERIORITY|Noninferiority deltas were defined a priori as 1.1 for the ratio in geometric means of opioid consumption converted to IV morphine equivalents (ie, no more than 10% difference between group's median doses) and 1 point for pain score (ie, no more than 1 point worse).|Ratio of geometric means|2.12||||0.77|TWO_SIDED|95.0|0.21|18.54|||Regression, Linear|||Comparisons of opioid consumption were conducted independently for each study site. This analysis is for patients at the Cleveland Clinic main campus.||18.54|0.21|0.77
92421232|NCT02840240|184731290|NON_INFERIORITY|Noninferiority deltas were defined a priori as 1.1 for the ratio in geometric means of opioid consumption converted to IV morphine equivalents (ie, no more than 10% difference between group's median doses) and 1 point for pain score (ie, no more than 1 point worse).|Ratio of geometric means|0.32||||0.09|TWO_SIDED|95.0|0.03|3.16|||Regression, Linear|||Comparisons of opioid consumption were conducted independently for each study site. This analysis is for patients at the Cleveland Clinic Fairview hospital.||3.16|0.03|0.09
92421233|NCT02840240|184731291|SUPERIORITY||Odds Ratio (OR)|3.5||||0.11|TWO_SIDED|98.75|0.5|24.3|||Regression, Logistic|||||24.3|0.5|0.11
92421234|NCT02840240|184731292|SUPERIORITY||Odds Ratio (OR)|0.7||||0.6|TWO_SIDED|98.75|0.2|3.1|||Regression, Logistic|||||3.1|0.2|0.60
92421235|NCT04824365|184731315|SUPERIORITY||Mean Difference (Final Values)|-0.3379|STANDARD_ERROR_OF_MEAN|0.1438||0.0197|TWO_SIDED|95.0|-0.6213|-0.0545|||ANOVA|two-way ANOVA||||-0.0545|-0.6213|0.0197
92421236|NCT04824365|184731316|SUPERIORITY||Mean Difference (Final Values)|0.0381|STANDARD_ERROR_OF_MEAN|0.1129||0.736|TWO_SIDED|95.0|-0.1843|0.2605|||ANOVA|Two-way ANOVA||||0.2605|-0.1843|0.736
92421237|NCT04824365|184731317|SUPERIORITY||Mean Difference (Final Values)|0.3131|STANDARD_ERROR_OF_MEAN|0.1049||0.003|TWO_SIDED|95.0|0.1069|0.5193|||ANOVA|Two-way ANOVA||||0.5193|0.1069|0.0030
92421238|NCT04824365|184731318|SUPERIORITY||Mean Difference (Final Values)|1.704|STANDARD_ERROR_OF_MEAN|0.3035|<|0.0001|TWO_SIDED|95.0|1.105|2.302|||ANOVA|Two-way ANOVA||||2.302|1.105|<0.0001
92421239|NCT04824365|184731319|SUPERIORITY||Mean Difference (Final Values)|1.633|STANDARD_ERROR_OF_MEAN|0.3362|<|0.0001|TWO_SIDED|95.0|0.9672|2.298|||ANOVA|Two-way ANOVA||||2.298|0.9672|<0.0001
92421240|NCT04824365|184731320|SUPERIORITY||Mean Difference (Final Values)|1.964|STANDARD_ERROR_OF_MEAN|0.2473|<|0.0001|TWO_SIDED|95.0|1.477|2.452|||ANOVA|Two-way ANOVA||||2.452|1.477|<0.0001
92421241|NCT04824365|184731321|SUPERIORITY||Mean Difference (Final Values)|-0.4831|STANDARD_ERROR_OF_MEAN|0.2382||0.0435|TWO_SIDED|95.0|-0.9521|-0.01413|||ANOVA|Two-way ANOVA||||-0.01413|-0.9521|0.0435
92421242|NCT04824365|184731322|SUPERIORITY||Mean Difference (Final Values)|-0.05102|STANDARD_ERROR_OF_MEAN|0.2711||0.8509|TWO_SIDED|95.0|-0.5862|0.4841|||ANOVA|Two-way ANOVA||||0.4841|-0.5862|0.8509
92421243|NCT04824365|184731323|SUPERIORITY||Mean Difference (Final Values)|0.1339|STANDARD_ERROR_OF_MEAN|0.3177||0.6738|TWO_SIDED|95.0|-0.4921|0.76|||ANOVA|Two-way ANOVA||||0.7600|-0.4921|0.6738
92421244|NCT04824365|184731324|SUPERIORITY||Mean Difference (Final Values)|0.3095|STANDARD_ERROR_OF_MEAN|0.2832||0.2753|TWO_SIDED|95.0|-0.2478|0.8669|||ANOVA|Two-way ANOVA||||0.8669|-0.2478|0.2753
92421245|NCT04824365|184731325|SUPERIORITY||Mean Difference (Final Values)|-1.426|STANDARD_ERROR_OF_MEAN|0.2636|<|0.0001|TWO_SIDED|95.0|-1.948|-0.9043|||ANOVA|Two-way ANOVA||||-0.9043|-1.948|<0.0001
92421246|NCT02694523|184731328|OTHER||difference in percentage of participants|24.9|||<|0.001|TWO_SIDED|95.0|17.5|32.4|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to tumor necrosis factor (TNF) antagonists (0 vs ≥1).||32.4|17.5|<0.001
92421247|NCT02694523|184731329|OTHER||difference in percentage of participants|23.3|||<|0.001|TWO_SIDED|95.0|16.6|30.1|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||30.1|16.6|<0.001
92421248|NCT02694523|184731330|OTHER||difference in percentage of participants|45.0|||<|0.001|TWO_SIDED|95.0|28.9|61.1|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||61.1|28.9|<0.001
92421249|NCT02694523|184731331|OTHER||difference in percentage of participants|18.9|||<|0.001|TWO_SIDED|95.0|13.0|24.9|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||24.9|13.0|<0.001
92421250|NCT02694523|184731332|OTHER||difference in percentage of participants|16.7|||<|0.001|TWO_SIDED|95.0|9.5|23.9|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||23.9|9.5|<0.001
92421251|NCT02694523|184731333|OTHER||difference in percentage of participants|32.8|||<|0.001|TWO_SIDED|95.0|18.8|46.9|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||46.9|18.8|<0.001
92421252|NCT02694523|184731334|OTHER||difference in percentage of participants|32.8|||<|0.001|TWO_SIDED|95.0|18.8|46.9|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||46.9|18.8|<0.001
92421253|NCT02694523|184731335|OTHER||difference in percentage of participants|38.9|||<|0.001|TWO_SIDED|95.0|22.0|55.8|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||55.8|22.0|<0.001
92421254|NCT01058265|184731336|SUPERIORITY_OR_OTHER|||||||0.487||95.0|||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in PCS between two groups.||||0.487
92421255|NCT01058265|184731337|SUPERIORITY_OR_OTHER|||||||0.817||95.0|||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in MCS between two groups.||||0.817
92421256|NCT02169284|184731338|OTHER|||||||0.208|||||||Wilcoxon rank-sum test|||Nucleus P-EGFR in benign tissue between erlotinib and placebo||||0.208
92421257|NCT02169284|184731338|OTHER|||||||0.208|||||||Wilcoxon rank-sum test|||Cytoplasm P-EGFR in benign tissue between erlotinib and placebo||||0.208
92421258|NCT02169284|184731338|OTHER|||||||0.272|||||||Wilcoxon rank-sum test|||Membrane P-EGFR in benign tissue between erlotinib and placebo||||0.272
92170155|NCT05028582|184229267|SUPERIORITY|SI-NRS Change from Baseline Day 1|LS Mean Difference|-0.35||||0.0164|TWO_SIDED|97.5|-0.68|-0.02|||ANCOVA|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|||-0.02|-0.68|0.0164
92170156|NCT05028582|184229268|SUPERIORITY|SI-NRS Change from Baseline Day 1|LS Mean Difference|-0.76|||<|0.0001|TWO_SIDED|97.5|-1.12|-0.39|||ANCOVA|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|||-0.39|-1.12|<0.0001
92236025|NCT01287117|184375520|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
92279339|NCT01399736|184461782|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.001|TWO_SIDED|95.0|0.22|0.55|||Chi-squared|||||0.55|0.22|<0.001
92421259|NCT02169284|184731338|OTHER|||||||0.22|||||||Wilcoxon rank-sum test|||Entire Cell P-EGFR in benign tissue between erlotinib and placebo||||0.220
92421260|NCT02169284|184731339|OTHER|||||||0.361|||||||Wilcoxon rank-sum test|||Nucleus P-EGFR in Tumor Tissue, p-value between placebo and Erlotinib||||0.361
92421261|NCT02169284|184731339|OTHER|||||||0.383|||||||Wilcoxon rank-sum test|||Cytoplasm P-EGFR in Tumor Tissue, p-value between placebo and Erlotinib||||0.383
92421262|NCT02169284|184731339|OTHER|||||||0.427|||||||Wilcoxon rank-sum test|||Membrane P-EGFR in Tumor Tissue, p-value between placebo and Erlotinib||||0.427
92421263|NCT02169284|184731339|OTHER|||||||0.416|||||||Wilcoxon rank-sum test|||Entire Cell P-EGFR in Tumor Tissue, p-value between placebo and Erlotinib||||0.416
92421264|NCT02169284|184731340|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Baseline visit - p-value between erlotinib and placebo arms||||1.000
92421265|NCT02169284|184731340|OTHER|||||||0.199|||||||Wilcoxon rank-sum test|||Day 8 - p-value between erlotinib and placebo arms||||0.199
92421266|NCT02169284|184731340|OTHER||||||<|0.001|||||||Wilcoxon rank-sum test|||Surgery visit - p-value between erlotinib and placebo arms||||<0.001
92421267|NCT02169284|184731341|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Baseline visit - p-value between erlotinib and placebo arms||||1.000
92421268|NCT02169284|184731341|OTHER|||||||0.288|||||||Wilcoxon rank-sum test|||Day 8 - p-value between erlotinib and placebo arms||||0.288
92421269|NCT02169284|184731341|OTHER||||||<|0.001|||||||Wilcoxon rank-sum test|||Surgery visit - p-value between erlotinib and placebo arms||||<0.001
92171810|NCT04505774|184233275|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92421270|NCT02169284|184731342|OTHER|||||||0.792|||||||Wilcoxon rank-sum test|||P-value between groups at Baseline||||0.792
92421271|NCT02169284|184731342|OTHER|||||||0.261|||||||Wilcoxon rank-sum test|||P-value between groups at surgery visit||||0.261
92421272|NCT02169284|184731343|OTHER|||||||0.721|||||||Wilcoxon rank-sum test|||Expression of e-cadherin in Benign Tissue, P-Value between arms||||0.721
92421273|NCT02169284|184731343|OTHER|||||||0.108|||||||Wilcoxon rank-sum test|||Expression of e-cadherin in Tumor Tissue, P-Value between arms||||0.108
92421274|NCT02169284|184731344|OTHER|||||||0.444|||||||Wilcoxon rank-sum test|||Expression of KI-67 in Benign Tissue, P-Value between arms||||0.444
92421275|NCT02169284|184731344|OTHER|||||||0.663|||||||Wilcoxon rank-sum test|||Expression of KI-67 in Tumor Tissue, P-Value between arms||||0.663
92421276|NCT02169284|184731345|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Difference in p-ERK between Normal and Tumor Tissue, P-Value between arms||||1.000
92421277|NCT02169284|184731345|OTHER|||||||0.792|||||||Wilcoxon rank-sum test|||Difference in Cytoplasm p-ERK between Normal and Tumor Tissue, P-Value between arms||||0.792
92421278|NCT02169284|184731345|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Difference in Entire Cell p-ERK between Normal and Tumor Tissue, p-value between arms||||1.000
92421279|NCT02169284|184731346|OTHER|||||||0.772|||||||Wilcoxon rank-sum test|||||||0.772
92421280|NCT01367119|184731348|SUPERIORITY_OR_OTHER|||||||0.171||95.0|||||t-test, 2 sided|||P-values take into account variability across treatments and within subject.||||0.171
92421281|NCT01367119|184731349|SUPERIORITY_OR_OTHER|||||||0.258||95.0|||||t-test, 2 sided|||P-values take into account variability across treatments and within subject.||||0.258
92421282|NCT01367119|184731350|SUPERIORITY_OR_OTHER|||||||0.091||95.0|||||t-test, 2 sided|||Comparison between groups for nausea||||0.091
92421283|NCT01367119|184731350|SUPERIORITY_OR_OTHER|||||||0.763||95.0|||||t-test, 2 sided|||Comparison between groups for headache||||0.763
92421284|NCT01367119|184731350|SUPERIORITY_OR_OTHER|||||||0.356||95.0|||||t-test, 2 sided|||Comparison between groups for myalgia||||0.356
92421285|NCT01367119|184731350|SUPERIORITY_OR_OTHER|||||||0.093||95.0|||||t-test, 2 sided|||Comparison between groups for visual disturbance||||0.093
92421286|NCT01367119|184731350|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||Comparison between groups for confusion||||0.003
92421287|NCT01367119|184731350|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||t-test, 2 sided|||Comparison between groups for recovery room agitation||||0.860
92393172|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.121||||0.445|TWO_SIDED|95.0|-0.08|0.33|||Cochran-Mantel-Haenszel|||Improvement Week 12, Fine lines/wrinkles: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.33|-0.08|0.445
92393173|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.205||||0.318|TWO_SIDED|95.0|0.01|0.4|||Cochran-Mantel-Haenszel|||Improvement Week 12, Under eye dark circles or bags: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.40|0.01|0.318
92393174|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.012||||0.633|TWO_SIDED|95.0|-0.15|0.12|||Cochran-Mantel-Haenszel|||Improvement Week 12, Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.12|-0.15|0.633
92393175|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.018||||0.996|TWO_SIDED|95.0|-0.23|0.19|||Cochran-Mantel-Haenszel|||Improvement Week 12, Complexion/Glow: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.19|-0.23|0.996
92170157|NCT05028582|184229269|SUPERIORITY|Change from Baseline in Weekly SI-NRS at Week 1|LS Mean Difference|-0.55||||0.0002|TWO_SIDED|97.5|-0.87|-0.22|||ANCOVA|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|||-0.22|-0.87|0.0002
92236026|NCT01287117|184375521|SUPERIORITY_OR_OTHER|||||||0.0118||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.0118
92236027|NCT01287117|184375521|SUPERIORITY_OR_OTHER|||||||0.0226||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||||0.0226
92236028|NCT01287117|184375521|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
92236029|NCT01287117|184375522|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.34||||0.0124|TWO_SIDED|95.0|-4.17|-0.51||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||-0.51|-4.17|0.0124
92236030|NCT01287117|184375522|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.16||||0.0012|TWO_SIDED|95.0|-5.05|-1.27||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||-1.27|-5.05|0.0012
92236031|NCT01287117|184375522|SUPERIORITY_OR_OTHER||Least squares mean difference|-5.73|||<|0.0001|TWO_SIDED|95.0|-7.59|-3.87||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-3.87|-7.59|<0.0001
92236032|NCT01287117|184375523|SUPERIORITY_OR_OTHER||Least squares mean difference|0.26||||0.7956|TWO_SIDED|95.0|-1.76|2.28||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||2.28|-1.76|0.7956
92279340|NCT01399736|184461783|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.7|TWO_SIDED|95.0|0.25|2.56|||Chi-squared|||||2.56|0.25|0.70
92171811|NCT04505774|184233276|SUPERIORITY|||||||0.0577|||||||Chi-squared|||||||.0577
92171812|NCT04505774|184233276|SUPERIORITY|||||||0.5015|||||||Chi-squared|||||||.5015
92393176|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.059||||0.432|TWO_SIDED|95.0|-0.13|0.25|||Cochran-Mantel-Haenszel|||Improvement Week 12, Smoothness: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.25|-0.13|0.432
92393177|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.03||||0.833|TWO_SIDED|95.0|-0.13|0.19|||Cochran-Mantel-Haenszel|||Improvement Week 24, Overall appearance of facial skin: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.19|-0.13|0.833
92171813|NCT04505774|184233276|SUPERIORITY|||||||0.5892|||||||Chi-squared|||||||.5892
92170158|NCT05028582|184229270|OTHER|WI-NRS Success at Week 8|Odds Ratio (OR)|4.14|||<|0.0001|TWO_SIDED|97.5|2.01|8.52|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA|||8.52|2.01|<0.0001
92279341|NCT01399736|184461784|SUPERIORITY||Hazard Ratio (HR)|1.0||||1|TWO_SIDED|95.0|0.25|4.01|||Chi-squared|||||4.01|0.25|1.00
92279342|NCT01399736|184461785|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.1|TWO_SIDED|95.0|0.22|1.13|||Chi-squared|||||1.13|0.22|0.10
92279343|NCT01399736|184461786|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.29|TWO_SIDED|95.0|0.22|1.59|||Chi-squared|||||1.59|0.22|0.29
92279344|NCT01399736|184461787|SUPERIORITY||Hazard Ratio (HR)|0.37|||<|0.001|TWO_SIDED|95.0|0.24|0.57|||Chi-squared|||||0.57|0.24|<0.001
92279345|NCT01399736|184461788|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.8|TWO_SIDED|95.0|0.29|5.02|||Chi-squared|||||5.02|0.29|0.80
92279346|NCT00948675|184461823|SUPERIORITY_OR_OTHER_LEGACY|||||||0.176||95.0|||||Log Rank|||||||0.176
92279347|NCT00948675|184461824|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61||95.0|||||Log Rank|||||||0.610
92279348|NCT00948675|184461825|SUPERIORITY_OR_OTHER_LEGACY|||||||0.615||95.0|||||Log Rank|||||||0.615
92279349|NCT00948675|184461826|SUPERIORITY_OR_OTHER_LEGACY|||||||0.414||95.0|||||Pearson Chi-square Test|||||||0.414
92279350|NCT00948675|184461827|SUPERIORITY_OR_OTHER_LEGACY|||||||0.575||95.0|||||Pearson Chi-square Test|||||||0.575
92279351|NCT04128007|184461836|SUPERIORITY||Odds Ratio (OR)|14.65|||<|0.0001|TWO_SIDED|95.0|6.64|32.32|||Cochran-Mantel-Haenszel|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|S-IGA Success at Week 8 Odds Ratio||32.32|6.64|<0.0001
92279352|NCT04128007|184461837|SUPERIORITY||Odds Ratio (OR)|8.8|||<|0.0001|TWO_SIDED|95.0|3.65|21.18|||Cochran-Mantel-Haenszel|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|B-IGA Success at Week 8 Odds Ratio||21.18|3.65|<0.0001
92279353|NCT04128007|184461838|SUPERIORITY||Odds Ratio (OR)|4.06|||<|0.0001|TWO_SIDED|95.0|2.14|7.71|||Cochran-Mantel-Haenszel|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|SI-NRS Success at Week 2 Odds Ratio||7.71|2.14|<0.0001
92279354|NCT04128007|184461838|SUPERIORITY||Odds Ratio (OR)|5.36|||<|0.0001|TWO_SIDED|95.0|2.93|9.78||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Cochran-Mantel-Haenszel||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|SI-NRS Success at Week 4 Odds Ratio||9.78|2.93|<0.0001
92279355|NCT04128007|184461838|SUPERIORITY||Odds Ratio (OR)|9.74|||<|0.0001|TWO_SIDED|95.0|5.02|18.89||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Cochran-Mantel-Haenszel||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|SI-NRS Success at Week 8 Odds Ratio||18.89|5.02|<0.0001
92170159|NCT05028582|184229271|SUPERIORITY|PASI-75 at Week 8|Odds Ratio (OR)|5.42|||<|0.0001|TWO_SIDED|97.5|2.73|10.75|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||10.75|2.73|<0.0001
92279356|NCT04128007|184461839|SUPERIORITY||Least Squares Mean Difference|-19.6|||<|0.0001|TWO_SIDED|95.0|-27.4|-11.8|||ANCOVA|ANCOVA with country; treatment; and baseline S-IGA, B-IGA, and PSD scores as independent variables with multiple imputation of missing data.|ANCOVA with country; treatment; and baseline S-IGA, B-IGA, and PSD scores as independent variables with multiple imputation of missing data.|Comparison of Week 4 Change from Baseline||-11.8|-27.4|<0.0001
92171814|NCT04505774|184233276|SUPERIORITY|||||||0.1714|||||||Chi-squared|||||||.1714
92171815|NCT04505774|184233277|SUPERIORITY|||||||0.0732|||||||Chi-squared|||||||.0732
92279357|NCT04128007|184461839|SUPERIORITY||Least Squares Mean Difference|-27.5|||<|0.0001|TWO_SIDED|95.0|-35.5|-19.5|||ANCOVA|ANCOVA with country; treatment; and baseline S-IGA, B-IGA, and PSD scores as independent variables with multiple imputation of missing data.|ANCOVA with country; treatment; and baseline S-IGA, B-IGA, and PSD scores as independent variables with multiple imputation of missing data.|Comparison of Week 8 Change from Baseline||-19.5|-35.5|<0.0001
92279358|NCT04128007|184461840|SUPERIORITY||Hazard Ratio (HR)|3.94|||<|0.0001|TWO_SIDED|95.0|2.764|5.616||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization.|Log Rank||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization.|Time to PSSI-50 Hazard Ratio||5.616|2.764|<0.0001
92279359|NCT04128007|184461841|SUPERIORITY||Odds Ratio (OR)|9.46|||<|0.0001|TWO_SIDED|95.0|4.81|18.61||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Cochran-Mantel-Haenszel||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|PSSI-75 at Week 8 Odds Ratio||18.61|4.81|<0.0001
92279360|NCT04128007|184461842|SUPERIORITY||Odds Ratio (OR)|34.45|||<|0.0001|TWO_SIDED|95.0|8.49|139.77|||Cochran-Mantel-Haenszel|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|PSSI-90 at Week 8 Odds Ratio||139.77|8.49|<0.0001
92279361|NCT00481247|184461845|SUPERIORITY_OR_OTHER|||||||0.0056||||||A priori threshold for statistical significance=0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Hasford Score.||||||0.0056
92279362|NCT00481247|184461846|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.55|1.13||||||||1.13|0.55|
92279363|NCT00481247|184461848|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.46|||||TWO_SIDED|95.0|1.2|1.77||||||Hazard Ratio and Confidence Interval were based on analyses on all randomized subjects||1.77|1.20|
92279364|NCT00481247|184461849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|1.25|1.89||||||Hazard Ratio, and Confidence Interval were based on analyses on all randomized subjects||1.89|1.25|
92279365|NCT01716754|184461854|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.576|TWO_SIDED|95.0|0.35|1.78|||Regression, Logistic|||||1.78|0.35|0.576
92279366|NCT01716754|184461854|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.556|TWO_SIDED|95.0|0.46|1.52|||Regression, Logistic|||||1.52|0.46|0.556
92421288|NCT02675231|184731409|SUPERIORITY|The abemaciclib plus trastuzumab plus fulvestrant arm will be compared to the standard of care (SOC) chemotherapy plus trastuzumab arm first, and the abemaciclib doublet arm will be compared to the SOC chemotherapy plus trastuzumab arm only if the test for the triplet vs the SOC chemotherapy plus trastuzumab arm is significant.||||||0.0506|||||||Log Rank|Stratified by number of prior systemic regimens for advanced breast cancer (2 to 3 versus(vs) \>3) and status of disease(measurable vs non-measurable).||PFS analysis was planned after approximately 165 PFS events occurred in the enrolled population, yielding greater than or equal to (≥) 80% power assuming a Hazard ration (HR) of 0·667 at an experiment-wise 2-sided alpha level of 0·2.||||0.0506
92421289|NCT02675231|184731409|SUPERIORITY|The abemaciclib plus trastuzumab plus fulvestrant arm will be compared to the standard of care (SOC) chemotherapy plus trastuzumab arm first, and the abemaciclib doublet arm will be compared to the SOC chemotherapy plus trastuzumab arm only if the test for the triplet vs the SOC chemotherapy plus trastuzumab arm is significant.||||||0.7695|||||||Log Rank|Stratified by number of prior systemic regimens for advanced breast cancer (2 to 3 versus(vs) \>3) and status of disease(measurable vs non-measurable).||PFS analysis was planned after approximately 165 PFS events occurred in the enrolled population, yielding greater than or equal to (≥) 80% power assuming a Hazard ration (HR) of 0·667 at an experiment-wise 2-sided alpha level of 0·2.||||0.7695
92421290|NCT02675231|184731410|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.241|TWO_SIDED|95.0|0.36|1.3|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.30|0.36|0.241
92279367|NCT01716754|184461856|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.483|TWO_SIDED|95.0|0.61|2.86|||Regression, Logistic|||||2.86|0.61|0.483
92421291|NCT02675231|184731410|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.313|TWO_SIDED|95.0|0.38|1.36|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.36|0.38|0.313
92421292|NCT02675231|184731411|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.104|TWO_SIDED|95.0|0.42|1.08|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.08|0.42|0.104
92421293|NCT02675231|184731411|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.12|TWO_SIDED|95.0|0.43|1.1|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.10|0.43|0.120
92421294|NCT02675231|184731412|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.049|TWO_SIDED|95.0|0.42|1.0|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.00|0.42|0.049
92421295|NCT02675231|184731412|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.153|TWO_SIDED|95.0|0.48|1.12|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.12|0.48|0.153
92421296|NCT02675231|184731417|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.232|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||||||0.232
92421297|NCT02675231|184731418|SUPERIORITY||Least Square (LS) Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|2.4||0.689|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Global health status||||0.689
92170160|NCT05028582|184229272|SUPERIORITY|PSD Aggregate Score Change at Week 8|LS Mean Difference|-5.12|||<|0.0001|TWO_SIDED|97.5|-6.64|-3.6|||ANCOVA|Covariate terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA and baseline PSD aggregate score \& multiple imputation of missing data|Covariate terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA and baseline PSD aggregate score \& multiple imputation of missing data|||-3.60|-6.64|<0.0001
92279368|NCT01716754|184461856|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.261|TWO_SIDED|95.0|0.79|2.44|||Regression, Logistic|||||2.44|0.79|0.261
92421298|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|2.3||0.141|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Functional scales: Physical functioning||||0.141
92421299|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|3.3||0.095|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Functional scale: Role functioning||||0.095
92421300|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|2.5||0.591|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Functional scale: Emotional functioning||||0.591
92421301|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|2.1||0.935|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Functional scale: Cognitive functioning||||0.935
92421302|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|2.7||0.578|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Functional scale: Social functioning||||0.578
92421303|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|2.8||0.308|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Fatigue||||0.308
92421304|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|4.1|STANDARD_ERROR_OF_MEAN|2.0||0.043|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Nausea and vomiting||||0.043
92279369|NCT01716754|184461858|SUPERIORITY_OR_OTHER|||||||0.604|||||||Repeated measures mixed model|||Morning||||0.604
92421305|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|3.0||0.026|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Pain||||0.026
92421306|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|2.8||0.276|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Dyspnoea||||0.276
92421307|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|3.1||0.041|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Insomnia||||0.041
92421308|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|3.4||0.262|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Appetite loss||||0.262
92421309|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|2.7||0.285|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Constipation||||0.285
92421310|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|19.3|STANDARD_ERROR_OF_MEAN|3.2|<|0.001|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Diarrhoea||||< 0.001
92421311|NCT02675231|184731418|SUPERIORITY||LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|3.0||0.18|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Financial difficulties||||0.180
92421312|NCT02675231|184731419|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.033|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model: Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||||||0.033
92421313|NCT02675231|184731419|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.275|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model: Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||||||0.275
92421314|NCT02675231|184731420|SUPERIORITY||LS Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|2.02||0.546|TWO_SIDED||||||MMRM Model|||||||0.546
92421315|NCT02675231|184731420|SUPERIORITY||LS Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|2.1||0.62|TWO_SIDED||||||MMRM Model|||||||0.620
92421316|NCT00591266|184731482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.19|||<|0.001|TWO_SIDED|95.0|-13.29|-9.09||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-9.09|-13.29|<0.001
92421317|NCT00591266|184731482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.91|||<|0.001|TWO_SIDED|95.0|-13.0|-8.81||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-8.81|-13.00|<0.001
92421318|NCT00591266|184731483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.02|||<|0.001|TWO_SIDED|95.0|-13.93|-8.1||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-8.10|-13.93|<0.001
92421319|NCT00591266|184731483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.56|||<|0.001|TWO_SIDED|95.0|-12.48|-6.63||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-6.63|-12.48|<0.001
92279370|NCT01716754|184461858|SUPERIORITY_OR_OTHER|||||||0.26|||||||Repeated measures mixed model|||Morning||||0.260
92279371|NCT01716754|184461858|SUPERIORITY_OR_OTHER|||||||0.937|||||||Repeated measures mixed model|||Evening||||0.937
92421320|NCT00591266|184731484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.48|||<|0.001|TWO_SIDED|95.0|-8.84|-6.11||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.11|-8.84|<0.001
92421321|NCT00591266|184731484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.65|||<|0.001|TWO_SIDED|95.0|-9.01|-6.28||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.28|-9.01|<0.001
92421322|NCT00591266|184731485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.93|||<|0.001|TWO_SIDED|95.0|-6.62|-3.23||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.23|-6.62|<0.001
92421323|NCT00591266|184731485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.58|||<|0.001|TWO_SIDED|95.0|-7.28|-3.88||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.88|-7.28|<0.001
92279372|NCT01716754|184461858|SUPERIORITY_OR_OTHER|||||||0.88|||||||Repeated measures mixed model|||Evening||||0.880
92279373|NCT01716754|184461858|SUPERIORITY_OR_OTHER|||||||0.762|||||||Repeated measures mixed model|||Overall daily||||0.762
92279374|NCT01716754|184461858|SUPERIORITY_OR_OTHER|||||||0.408|||||||Repeated measures mixed model|||Overall daily||||0.408
92421324|NCT00591266|184731486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.64|||<|0.001|TWO_SIDED|95.0|-13.86|-9.41||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.41|-13.86|<0.001
92421325|NCT00591266|184731486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.17|||<|0.001|TWO_SIDED|95.0|-13.39|-8.95||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.95|-13.39|<0.001
92421326|NCT00591266|184731487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.99|||<|0.001|TWO_SIDED|95.0|-9.47|-6.5||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.50|-9.47|<0.001
92421327|NCT00591266|184731487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.04|||<|0.001|TWO_SIDED|95.0|-9.52|-6.55||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.55|-9.52|<0.001
92421328|NCT00591266|184731488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.7|||<|0.001|TWO_SIDED|95.0|-12.07|-7.34||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.34|-12.07|<0.001
92421329|NCT00591266|184731488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.67|||<|0.001|TWO_SIDED|95.0|-12.03|-7.31||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.31|-12.03|<0.001
92421330|NCT00591266|184731489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.26|||<|0.001|TWO_SIDED|95.0|-7.94|-4.57||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.57|-7.94|<0.001
92421331|NCT00591266|184731489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.28|||<|0.001|TWO_SIDED|95.0|-7.96|-4.6||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.60|-7.96|<0.001
92421332|NCT00591266|184731490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.27|||<|0.001|TWO_SIDED|95.0|-14.63|-9.92||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.92|-14.63|<0.001
92421333|NCT00591266|184731490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.58|||<|0.001|TWO_SIDED|95.0|-13.93|-9.23||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.23|-13.93|<0.001
92421334|NCT00591266|184731491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.39|||<|0.001|TWO_SIDED|95.0|-9.98|-6.79||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.79|-9.98|<0.001
92421335|NCT00591266|184731491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.23|||<|0.001|TWO_SIDED|95.0|-9.82|-6.64||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.64|-9.82|<0.001
92236033|NCT01287117|184375523|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.31||||0.2286|TWO_SIDED|95.0|-3.46|0.84||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||0.84|-3.46|0.2286
92421336|NCT00591266|184731492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.83|||<|0.001|TWO_SIDED|95.0|-11.45|-6.22||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.22|-11.45|<0.001
92421337|NCT00591266|184731492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.91|||<|0.001|TWO_SIDED|95.0|-11.51|-6.3||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.30|-11.51|<0.001
92421338|NCT00591266|184731493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.94|||<|0.001|TWO_SIDED|95.0|-7.88|-4.0||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.00|-7.88|<0.001
92421339|NCT00591266|184731493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.54|||<|0.001|TWO_SIDED|95.0|-8.47|-4.61||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.61|-8.47|<0.001
92421340|NCT00591266|184731494|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.37|||<|0.001|TWO_SIDED|95.0|2.15|5.26||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.26|2.15|<0.001
92421341|NCT00591266|184731494|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.21|||<|0.001|TWO_SIDED|95.0|2.05|5.03||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.03|2.05|<0.001
92421342|NCT00591266|184731495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.54|||<|0.001|TWO_SIDED|95.0|2.08|6.02||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||6.02|2.08|<0.001
92421343|NCT00591266|184731495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.9|||<|0.001|TWO_SIDED|95.0|2.25|6.75||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||6.75|2.25|<0.001
92421344|NCT00591266|184731496|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.62|||<|0.001|TWO_SIDED|95.0|1.71|4.02||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||4.02|1.71|<0.001
92421345|NCT00591266|184731496|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.12|||<|0.001|TWO_SIDED|95.0|2.01|4.82||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||4.82|2.01|<0.001
92421346|NCT00395538|184731555|OTHER|A contrast statement within the mixed models analysis tested for differences in the cn.BV/TV between the baseline and the year 1 biopsy.||||||0.015||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.BV/TV at biopsy baseline, year 1, 2 \& 4 combined as the dependent variable; biopsy year as the independent variable, covariate for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2. No bone biopsy baseline covariate was included because it would over-parameterize the model.||||0.015
92421347|NCT00395538|184731555|OTHER|A contrast statement within the mixed models analysis tested for differences in the cn.BV/TV between the baseline and the years 2 and 4 (combined) biopsy.||||||0.002||||||No adjustments were made for multiple comparisons, because the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.BV/TV at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2. No bone biopsy baseline covariate included because it would over-parameterize the model.||||0.002
92421348|NCT00395538|184731555|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the cn.BV/TV between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.649||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Cn.BV/TV change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Cn.BV/TV, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.649
92421349|NCT00395538|184731556|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.N between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ct.Po.N values for both their baseline and year 1 biopsies.||||||0.371||||||No adjustments were made for multiple comparisons, because the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Po.N at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.371
92421350|NCT00395538|184731556|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.N between the baseline and the years 2 and 4 (combined) biopsy.||||||0.129||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Ct.Po.N change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Ct.Po.N, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.129
92421351|NCT00395538|184731556|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.N between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.538||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Po.N at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.538
92171816|NCT04505774|184233277|SUPERIORITY|||||||0.9018|||||||Chi-squared|||||||.9018
92171817|NCT04505774|184233277|SUPERIORITY|||||||0.5075|||||||Chi-squared|||||||.5075
92421352|NCT00395538|184731557|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.BFR/BS between the baseline and the year 1 biopsy.||||||0.009||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|A baseline covariate not added to model since it would over-parameterize the model.||Mixed models analysis: Cn.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.009
92421353|NCT00395538|184731557|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.BFR/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
92421354|NCT00395538|184731557|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Cn.BFR/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.374||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.374
92421355|NCT00395538|184731558|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.MS/BS between the baseline and the year 1 biopsy.||||||0.002||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.002
92421356|NCT00395538|184731558|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.MS/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
92421357|NCT00395538|184731558|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Cn.MS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.168||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.168
92421358|NCT00395538|184731559|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.BFR/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.BFR/BS values for both their baseline and year 1 biopsies.||||||0.083||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.083
92170161|NCT05028582|184229273|SUPERIORITY|PSD Itching Week 8|Odds Ratio (OR)|4.59|||<|0.0001|TWO_SIDED|97.5|2.1|10.04|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||10.04|2.10|<0.0001
92171818|NCT04505774|184233277|SUPERIORITY|||||||0.145|||||||Chi-squared|||||||.1450
92171819|NCT04505774|184233278|SUPERIORITY|||||||0.8837|||||||Chi-squared|||||||.8837
92236034|NCT01287117|184375523|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.08|||<|0.0001|TWO_SIDED|95.0|-5.96|-2.2||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-2.20|-5.96|<0.0001
92236035|NCT01287117|184375524|SUPERIORITY_OR_OTHER|||||||0.4867||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.4867
92236036|NCT01287117|184375524|SUPERIORITY_OR_OTHER|||||||0.1747||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.1747
92421359|NCT00395538|184731559|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.BFR/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
92421360|NCT00395538|184731559|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ec.BFR/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.164||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.164
92421361|NCT00395538|184731560|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.MS/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.MS/BS values for both their baseline and year 1 biopsies.||||||0.031||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.031
92421362|NCT00395538|184731560|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.MS/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
92421363|NCT00395538|184731560|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ec.MS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.178||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.178
92446480|NCT02477020|184780037|SUPERIORITY_OR_OTHER||Least square mean difference|-2.22|STANDARD_ERROR_OF_MEAN|2.229||0.322|TWO_SIDED|95.0|-6.62|2.19||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PANSS total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|Change at Week 2||2.19|-6.62|0.322
92171820|NCT04505774|184233278|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92171821|NCT04505774|184233278|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92236037|NCT01287117|184375524|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
92236038|NCT01287117|184375525|SUPERIORITY_OR_OTHER|||||||0.458||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.4580
92171822|NCT04505774|184233278|SUPERIORITY|||||||0.5343|||||||Chi-squared|||||||.5343
92236039|NCT01287117|184375525|SUPERIORITY_OR_OTHER|||||||0.2087||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.2087
92236040|NCT01287117|184375525|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
92236041|NCT01274897|184375526|SUPERIORITY_OR_OTHER||Lower limit of the two-sided 95% CI|71.0|||||TWO_SIDED|95.0|71.0|81.0||The immune response considered sufficient if for serogroup A the lower limit of the two-sided 95% Clopper-Pearson confidence interval (CI) of the percentage of subjects with hSBA seroresponse is ≥50%.|Clopper and Pearson||For serogroup A.|The null hypothesis associated with the primary immunogenicity objective is that for at least one of the four serogroups, the percentage of subjects with hSBA seroresponse at 29 days postvaccination is \< 50%.||81|71|
92236042|NCT01274897|184375526|SUPERIORITY_OR_OTHER||Lower limit of the two-sided 95% CI|82.0|||||TWO_SIDED|95.0|82.0|90.0||The immune response was considered sufficient if for serogroup C, the lower limit of the two-sided 95% CI of the percentage of subjects with hSBA seroresponse was ≥50%.|Clopper and Pearson||For the serogroup C|The null hypothesis associated with the primary immunogenicity objective is that for at least one of the four serogroups, the percentage of subjects with hSBA seroresponse at 29 days postvaccination is \< 50%.||90|82|
92236043|NCT01274897|184375526|SUPERIORITY_OR_OTHER||Lower limit of the two-sided 95% CI|23.0|||||TWO_SIDED|95.0|23.0|33.0||The immune response was considered sufficient if for serogroup W, the lower limit of the two-sided 95% CI of the percentage of subjects with hSBA seroresponse was ≥50%.|Clopper and Pearson||For the serogroup W|The null hypothesis associated with the primary immunogenicity objective is that for at least one of the four serogroups, the percentage of subjects with hSBA seroresponse at 29 days postvaccination is \< 50%.||33|23|
92236044|NCT01274897|184375526|SUPERIORITY_OR_OTHER||Lower limit of the two-sided 95% CI|63.0|||||TWO_SIDED|95.0|63.0|74.0||The immune response was considered sufficient if for serogroup Y, the lower limit of the two-sided 95% CI of the percentage of subjects with hSBA seroresponse was ≥50%.|Clopper and Pearson||For serogroup Y|The null hypothesis associated with the primary immunogenicity objective is that for at least one of the four serogroups, the percentage of subjects with hSBA seroresponse at 29 days postvaccination is \< 50%.||74|63|
92236045|NCT02042131|184375530|SUPERIORITY|||||||0.082|||||||Log Rank|||Omnibus test of all three groups||||.082
92236046|NCT02042131|184375530|SUPERIORITY|||||||0.028|||||||Log Rank|||Planned contrast #1: TAU vs. S-CRP/E-CRP||||.028
92236047|NCT02042131|184375530|SUPERIORITY||Cox Proportional Hazard|0.24||||0.04|TWO_SIDED|95.0|0.06|0.96|||Regression, Cox|||Planned contrast #1: TAU vs. S-CRP/E-CRP||0.96|0.06|.040
92236048|NCT02042131|184375531|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Omnibus test comparing all three groups.||||<0.001
92236049|NCT02042131|184375531|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Planned contrast #1: TAU vs. S-CRP/E-CRP||||<0.001
92236050|NCT02042131|184375532|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Planned contrast #1: TAU vs. S-CRP/E-CRP||||<0.001
92236051|NCT02042131|184375533|SUPERIORITY|||||||0.04|||||||Chi-squared|||Omnibus test of all groups||||0.040
92236052|NCT02042131|184375533|SUPERIORITY||Odds Ratio (OR)|0.1||||0.045|TWO_SIDED|95.0|0.002|0.9|||Chi-squared|||Planned contrast #2: E-CRP vs. TAU/S-CRP||0.9|0.002|0.045
92236053|NCT00035815|184375537|SUPERIORITY_OR_OTHER|||||||0.529||95.0|||||Wilcoxon (Mann-Whitney)|||Analysis of MMT was calculated as a ratio of change from baseline to last follow-up to time to duration until last follow-up. For the patients that died during the study period, the last follow-up time was considered as the time of death with a zero score for MMT measurement. Analysis was performed using intention to treat approach. Comparison of rate of change in MMT scores between the placebo and IGF-1 group was made using two sample t-test or Wilcoxon rank sum test as appropriate.||||0.529
92236054|NCT00035815|184375538|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.04||||0.415|TWO_SIDED|95.0|0.77|1.4|||Regression, Cox|||Patients who elected to proceed to tracheostomy were assessed on the day of their procedure. Subjects who continuously utilized NIPPV for greater than 10 days were assessed as being ventilator-dependent on the first day they began continuous NIPPV. Survival between groups was compared using the Cox-proportional Hazards model.||1.4|0.77|0.415
92393178|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.226||||0.171|TWO_SIDED|95.0|0.06|0.39|||Cochran-Mantel-Haenszel|||Improvement Week 24, Fine lines/wrinkles: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.39|0.06|0.171
92171823|NCT04505774|184233279|SUPERIORITY|||||||0.6636|||||||t-test, 2 sided|||||||.6636
92421364|NCT00395538|184731561|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.BFR/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.BFR/BS values for both their baseline and year 1 biopsies.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
92421365|NCT00395538|184731561|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.BFR/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.022||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.022
92421366|NCT00395538|184731561|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ic.BFR/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.172||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.172
92421367|NCT00395538|184731562|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.MS/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.MS/BS values for both their baseline and year 1 biopsies.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
92421368|NCT00395538|184731562|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.MS/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.018||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.018
92170162|NCT05028582|184229274|SUPERIORITY|PSD Pain Week 8|Odds Ratio (OR)|3.23|||<|0.0001|TWO_SIDED|97.5|1.83|5.68|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||5.68|1.83|<0.0001
92170163|NCT05028582|184229275|SUPERIORITY|PSD Scaling Week 8|Odds Ratio (OR)|4.56|||<|0.0001|TWO_SIDED|97.5|2.28|9.08|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||9.08|2.28|<0.0001
92170164|NCT05028582|184229276|OTHER|PSD Total Score 0 at Week 8|Odds Ratio (OR)|3.27||||0.0012|TWO_SIDED|97.5|1.39|7.68|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA|||7.68|1.39|0.0012
92393179|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.02||||0.796|TWO_SIDED|95.0|-0.16|0.12|||Cochran-Mantel-Haenszel|||Improvement Week 24, Under eye dark circles or bags: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.12|-0.16|0.796
92171824|NCT04505774|184233279|SUPERIORITY|||||||0.5878|||||||t-test, 2 sided|||||||.5878
92171825|NCT04505774|184233279|SUPERIORITY|||||||0.7148|||||||t-test, 2 sided|||||||.7148
92171826|NCT04505774|184233279|SUPERIORITY|||||||0.1117|||||||t-test, 2 sided|||||||.1117
92393180|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.033||||0.942|TWO_SIDED|95.0|-0.23|0.16|||Cochran-Mantel-Haenszel|||Improvement Week 24, Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.16|-0.23|0.942
92393181|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.118||||0.405|TWO_SIDED|95.0|-0.05|0.28|||Cochran-Mantel-Haenszel|||Improvement Week 24, Complexion/Glow: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.28|-0.05|0.405
92393182|NCT01787461|184685869|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.061||||0.687|TWO_SIDED|95.0|-0.14|0.26|||Cochran-Mantel-Haenszel|||Improvement Week 24, Smoothness: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.26|-0.14|0.687
92393183|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.384||||0.017|TWO_SIDED|95.0|0.23|0.54|||Cochran-Mantel-Haenszel|||Improvement Week 12, Decolletage-Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.54|0.23|0.017
92393184|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.248||||0.073|TWO_SIDED|95.0|0.09|0.4|||Cochran-Mantel-Haenszel|||Improvement Week 12, Decolletage-Wrinkling/crinkling: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.40|0.09|0.073
92393185|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.057||||0.117|TWO_SIDED|95.0|-0.11|0.22|||Cochran-Mantel-Haenszel|||Improvement Week 12, Decolletage-Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.22|-0.11|0.117
92393186|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.096||||0.662|TWO_SIDED|95.0|-0.31|0.12|||Cochran-Mantel-Haenszel|||Improvement Week 12, Back of Hands-Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.12|-0.31|0.662
92393187|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.1||||0.373|TWO_SIDED|95.0|-0.05|0.25|||Cochran-Mantel-Haenszel|||Improvement Week 12, Back of Hands - Fine lines/wrinkles: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.25|-0.05|0.373
92393188|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.031||||0.294|TWO_SIDED|95.0|-0.19|0.12|||Cochran-Mantel-Haenszel|||Improvement Week 12, Back of Hands - Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.12|-0.19|0.294
92393189|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.035||||0.857|TWO_SIDED|95.0|-0.2|0.13|||Cochran-Mantel-Haenszel|||Improvement Week 12, Body - Dryness Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.13|-0.20|0.857
92393190|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.206||||0.088|TWO_SIDED|95.0|0.02|0.39|||Cochran-Mantel-Haenszel|||Improvement Week 24, Decolletage-Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.39|0.02|0.088
92393191|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.193||||0.11|TWO_SIDED|95.0|-0.02|0.41|||Cochran-Mantel-Haenszel|||Improvement Week 24, Decolletage-Wrinkling/crinkling: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.41|-0.02|0.110
92393192|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.205||||0.112|TWO_SIDED|95.0|0.07|0.34|||Cochran-Mantel-Haenszel|||Improvement Week 24, Decolletage-Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.34|0.07|0.112
92393193|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.003||||0.614|TWO_SIDED|95.0|-0.13|0.13|||Cochran-Mantel-Haenszel|||Improvement Week 24, Back of Hands-Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.13|-0.13|0.614
92393194|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.011||||0.693|TWO_SIDED|95.0|-0.18|0.16|||Cochran-Mantel-Haenszel|||Improvement Week 24, Back of Hands - Fine lines/wrinkles: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.16|-0.18|0.693
92421369|NCT00395538|184731562|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ic.MS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.155||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.155
92421370|NCT00395538|184731563|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Th between the baseline and the year 1 biopsy.||||||0.72||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.720
92421371|NCT00395538|184731563|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Th between the baseline and the years 2 and 4 (combined) biopsy.||||||0.944||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.944
92421372|NCT00395538|184731563|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Th between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.73||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.730
92421373|NCT00395538|184731564|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.N between the baseline and the year 1 biopsy.||||||0.019||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Tb.N change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Tb.N, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.019
92421374|NCT00395538|184731564|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.N between the baseline and the years 2 and 4 (combined) biopsy.||||||0.017||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Tb.N change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Tb.N, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.017
92421375|NCT00395538|184731564|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.N between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.843||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Tb.N change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Tb.N, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.843
92446481|NCT02477020|184780037|SUPERIORITY_OR_OTHER||Least square mean difference|-3.46|STANDARD_ERROR_OF_MEAN|2.813||0.221|TWO_SIDED|95.0|-9.02|2.1||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PANSS total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|Change at Week 3||2.10|-9.02|0.221
92236055|NCT00035815|184375539|SUPERIORITY_OR_OTHER|||||||0.321||95.0|||||Wilcoxon (Mann-Whitney)|||The final secondary outcome measure was the rate of change in the ALSFRS-r score. The ALSFRS-r was completed at each visit (randomization and then at 3, 6, 12, 18 and 24 months post-randomization). As with the MMT scores a score of 0 was imputed on the day of death. Analysis of the ALSFRS-r scores as a secondary outcome was performed in similar manner as MMT score.||||0.321
92171827|NCT04505774|184233280|SUPERIORITY|||||||0.678|||||||t-test, 2 sided|||||||.6780
92171828|NCT04505774|184233280|SUPERIORITY|||||||0.6638|||||||t-test, 2 sided|||||||.6638
92421376|NCT00395538|184731565|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Sp between the baseline and the year 1 biopsy.||||||0.013||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Sp at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.013
92421377|NCT00395538|184731565|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Sp between the baseline and the years 2 and 4 (combined) biopsy.||||||0.025||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Sp at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.025
92421378|NCT00395538|184731565|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Sp between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.608||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Sp at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.608
92421379|NCT00395538|184731566|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Th between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ct.Th values for both their baseline and year 1 biopsies.||||||0.043||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.043
92421380|NCT00395538|184731566|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Th between the baseline and the years 2 and 4 (combined) biopsy.||||||0.334||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.334
92421381|NCT00395538|184731566|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Th between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.269||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Ct.Th change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Ct.Th, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.269
92170165|NCT05028582|184229277|SUPERIORITY|PSSI-75 at Week 8|Odds Ratio (OR)|5.4|||<|0.0001|TWO_SIDED|97.5|2.98|9.77|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S IGA, and baseline B IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S IGA, and baseline B IGA with multiple imputation to handle missing data|||9.77|2.98|<0.0001
92171829|NCT04505774|184233280|SUPERIORITY|||||||0.7645|||||||t-test, 2 sided|||||||.7645
92279375|NCT02110706|184461874|OTHER|"A futility (non-superiority) design is a screening tool to identify whether agents should be candidates for phase III trials while minimizing costs/sample size If futility is declared, results would imply not cost effective to conduct a future phase III clinical trial If futility is not declared, suggests that there could be a clinically meaningful effect - supports exploration in a larger, phase III trial"|Odds Ratio (OR)|1.14||||0.03|ONE_SIDED|90.0||2.41|||Regression, Logistic|||"This futility design tests the following hypothesis:~H0: Rituximab improves outcome by at least 30% compared to placebo (pR - pP ≥ 0.30 - not futile) versus HA: Rituximab does not improve outcome by at least 30% compared to placebo (pR - pP \< 0.30 - futile)"||2.41||0.03
92279376|NCT02110706|184461875|SUPERIORITY||Odds Ratio (OR)|0.72||||0.63|TWO_SIDED|90.0|0.23|2.21|||t-test, 2 sided|||% of study participants with treatment related AEs||2.21|0.23|0.63
92279377|NCT02110706|184461875|SUPERIORITY||Odds Ratio (OR)|0.75||||0.65|TWO_SIDED|90.0|0.27|2.11|||t-test, 2 sided|||% study participants with treatment related SAEs||2.11|0.27|0.65
92171830|NCT04505774|184233280|SUPERIORITY|||||||0.0987|||||||t-test, 2 sided|||||||0.0987
92170166|NCT05028582|184229278|SUPERIORITY|S-IGA Clear at Week 8|Odds Ratio (OR)|6.77|||<|0.0001|TWO_SIDED|97.5|3.04|15.05|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||15.05|3.04|<0.0001
92170167|NCT05028582|184229279|SUPERIORITY|S-IGA Success Week 2|Odds Ratio (OR)|4.1|||<|0.0001|TWO_SIDED|97.5|1.84|9.13|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||9.13|1.84|<0.0001
92171831|NCT04505774|184233281|SUPERIORITY|||||||0.4016|||||||t-test, 2 sided|||||||.4016
92236056|NCT02606877|184375566|OTHER||T1/R1 Ratio (%)|88.58|STANDARD_DEVIATION|45.1|||TWO_SIDED|90.0|65.4|119.97|||ANOVA|The analysis of variance (ANOVA) model on a logarithmic scale including effects: 'subject' and 'treatment'.|To get,geometric mean ratio and Confidence Interval,least square estimates of log-transformed PK endpoint for T1 and R1 were back transformed to original scale. Standard Deviation is actually the intra-individual geometric Coefficient of Variance(%).|||119.97|65.40|
92236057|NCT02606877|184375567|OTHER||T1/R1 Ratio (%)|80.63|STANDARD_DEVIATION|74.6|||TWO_SIDED|90.0|51.27|126.79|||ANOVA|The analysis of variance (ANOVA) model on a logarithmic scale including effects: 'subject' and 'treatment'.|To get,geometric mean ratio and Confidence Interval,least square estimates of log-transformed PK endpoint for T1 and R1 were back transformed to original scale. Standard Deviation is actually the intra-individual geometric Coefficient of Variance(%).|||126.79|51.27|
92236058|NCT02606877|184375568|OTHER||T2/R2 Ratio (%)|97.17|STANDARD_DEVIATION|14.1|||TWO_SIDED|90.0|87.84|107.48|||ANOVA|The analysis of variance (ANOVA) model on a logarithmic scale including effects: 'subject' and 'treatment'.|To get,geometric mean ratio and Confidence Interval,least square estimates of log-transformed PK endpoint for T2 and R2 were back transformed to original scale. Standard Deviation is actually the intra-individual geometric Coefficient of Variance(%).|||107.48|87.84|
92236059|NCT02606877|184375569|OTHER||T2/R2 Ratio (%)|99.49|STANDARD_DEVIATION|17.4|||TWO_SIDED|90.0|87.94|112.56|||ANOVA|The analysis of variance (ANOVA) model on a logarithmic scale including effects: 'subject' and 'treatment'.|To get,geometric mean ratio and Confidence Interval,least square estimates of log-transformed PK endpoint for T2 and R2 were back transformed to original scale. Standard Deviation is actually the intra-individual geometric Coefficient of Variance(%).|||112.56|87.94|
92236060|NCT02606877|184375570|OTHER||T1/R1 Ratio (%)|89.49|STANDARD_DEVIATION|44.3|||TWO_SIDED|90.0|66.33|120.73|||ANOVA|The analysis of variance (ANOVA) model on a logarithmic scale including effects: 'subject' and 'treatment'.|To get,geometric mean ratio and Confidence Interval,least square estimates of log-transformed PK endpoint for T1 and R1 were back transformed to original scale. Standard Deviation is actually the intra-individual geometric Coefficient of Variance(%).|||120.73|66.33|
92236061|NCT03165981|184375582|SUPERIORITY||Risk Ratio (RR)|0.87||||0.7588|TWO_SIDED|95.0|0.36|2.1|||Mantel Haenszel|Mantel Haenzel is stratified by site.|RR is adjusted by site.|||2.10|0.36|0.7588
92236062|NCT03165981|184375583|SUPERIORITY||Risk Ratio (RR)|0.97||||0.9412|TWO_SIDED|95.0|0.39|2.4|||Mantel Haenszel|Mantel Haenzel is stratified by site.|RR is adjusted by site.|||2.40|0.39|.9412
92236063|NCT03165981|184375584|SUPERIORITY|||||||0.3408|||||||Mantel Haenszel|Mantel Haenzel is stratified by site.||||||0.3408
92236064|NCT03165981|184375585|SUPERIORITY||Risk Ratio (RR)|0.87||||0.8325|TWO_SIDED|95.0|0.24|3.13|||Mantel Haenszel|Mantel Haenzel is stratified by site.|RR is adjusted by site.|||3.13|0.24|0.8325
92236065|NCT03165981|184375586|SUPERIORITY|||||||0.3408|||||||Mantel Haenszel|Mantel Haenzel is stratified by site.||||||0.3408
92236066|NCT03165981|184375587|SUPERIORITY||Risk Ratio (RR)|0.73||||0.6101|TWO_SIDED|95.0|0.21|2.48|||Mantel Haenszel|Mantel Haenzel is stratified by site.|RR is adjusted by site.|||2.48|0.21|0.6101
92236067|NCT03165981|184375588|SUPERIORITY|||||||0.848|||||||Wilcoxon (Mann-Whitney)|||||||0.848
92236068|NCT03165981|184375590|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92236069|NCT05635838|184375600|SUPERIORITY|Response Variable = Treatment + Baseline AN Count Category (≥3 to 4, ≥5 to 10) + Visit + Treatment\*Visit|least squares mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.506||0.0215|TWO_SIDED|95.0|-2.21|-0.18|||ANCOVA|||||-0.18|-2.21|0.0215
92236070|NCT05635838|184375602|SUPERIORITY|Response Variable = Treatment + Baseline AN Count Category (≥3 to 4, ≥5 to 10) + Visit + Treatment\*Visit|least squares mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.485||0.1671|TWO_SIDED|95.0|-1.65|0.29|||ANCOVA|||||0.29|-1.65|0.1671
92171832|NCT04505774|184233281|SUPERIORITY|||||||0.5815|||||||t-test, 2 sided|||||||.5815
92279378|NCT02110706|184461876|OTHER||Mean Difference (Final Values)|-0.11||||0.93|ONE_SIDED|90.0||2.02|||Regression, Linear|||This objective was assessed longitudinally by comparing the final score at the end of the study to the score obtained at baseline. The outcome was defined as the change from baseline to week 52 in the MGC. This hypothesis was assessed using a linear regression model, adjusted for differences in baseline MGC scores.||2.02||0.93
92279379|NCT02110706|184461877|OTHER||Mean Difference (Final Values)|-1.09||||0.39|ONE_SIDED|90.0||1.03|||Regression, Linear|||This objective was assessed longitudinally by comparing the final score at the end of the study to the score obtained at baseline. The outcome was defined as the change from baseline to week 52 in the QMG. This hypothesis was assessed using a linear regression model, adjusted for differences in baseline QMG scores.||1.03||0.39
92170168|NCT05028582|184229280|SUPERIORITY|S-IGA Success at Week 4|Odds Ratio (OR)|4.82|||<|0.0001|TWO_SIDED|97.5|2.62|8.84|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||8.84|2.62|<0.0001
92279380|NCT01832090|184461887|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92171833|NCT04505774|184233281|SUPERIORITY|||||||0.9085|||||||t-test, 2 sided|||||||.9085
92279381|NCT01832090|184461888|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92279382|NCT01832090|184461889|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92236071|NCT05635838|184375603|SUPERIORITY|Response Variable = Treatment + Baseline AN Count Category (≥3 to 4, ≥5 to 10) + Visit + Treatment\*Visit|least squares mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.728||0.7982|TWO_SIDED|95.0|-1.27|1.64|||ANCOVA|||||1.64|-1.27|0.7982
92421382|NCT00395538|184731567|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Ar between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ct.Ar values for both their baseline and year 1 biopsies.||||||0.358||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.358
92421383|NCT00395538|184731567|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Ar between the baseline and the years 2 and 4 (combined) biopsy.||||||0.76||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.760
92446482|NCT02477020|184780037|SUPERIORITY_OR_OTHER||Least square mean difference|-2.11|STANDARD_ERROR_OF_MEAN|3.147||0.504|TWO_SIDED|95.0|-8.33|4.11||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PANSS total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|Change at Week 4||4.11|-8.33|0.504
92446483|NCT02477020|184780037|SUPERIORITY_OR_OTHER||Least square mean difference|-3.91|STANDARD_ERROR_OF_MEAN|3.231||0.229|TWO_SIDED|95.0|-10.3|2.48||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PANSS total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|Change at Week 5||2.48|-10.30|0.229
92446484|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.562||0.195|TWO_SIDED|95.0|-1.84|0.38||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 1||0.38|-1.84|0.195
92446485|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-1.19|STANDARD_ERROR_OF_MEAN|0.786||0.132|TWO_SIDED|95.0|-2.74|0.36||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 2||0.36|-2.74|0.132
92446486|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-1.94|STANDARD_ERROR_OF_MEAN|0.959||0.045|TWO_SIDED|95.0|-3.84|-0.05||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 3||-0.05|-3.84|0.045
92170169|NCT05028582|184229281|SUPERIORITY|Change from Baseline in PASI Week 2|LS Mean Difference|-1.28|||<|0.0001|TWO_SIDED|97.5|-1.71|-0.85|||ANCOVA|Covariate terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline PASI score \& multiple imputation to handle missing data|Covariate terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline PASI score \& multiple imputation to handle missing data|||-0.85|-1.71|<0.0001
92236072|NCT05635838|184375604|SUPERIORITY|Response Variable = Treatment + Baseline AN Count Category (≥3 to 4, ≥5 to 10) + Visit + Treatment\*Visit|least squares mean difference|0.94|STANDARD_ERROR_OF_MEAN|0.73||0.2031|TWO_SIDED|95.0|-0.52|2.4|||ANCOVA|||||2.40|-0.52|0.2031
92236073|NCT05635838|184375606|SUPERIORITY|Response Variable = Treatment + Baseline AN Count Category (≥3 to 4, ≥5 to 10) + Visit + Treatment\*Visit|least squares mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.683||0.2387|TWO_SIDED|95.0|-2.2|0.56|||ANCOVA|||||0.56|-2.20|0.2387
92171834|NCT04505774|184233281|SUPERIORITY|||||||0.082|||||||t-test, 2 sided|||||||.0820
92171835|NCT04505774|184233282|SUPERIORITY|||||||0.3135|||||||Chi-squared|||||||.3135
92171836|NCT04505774|184233282|SUPERIORITY|||||||0.9581|||||||Chi-squared|||||||.9581
92236074|NCT02858193|184375639|EQUIVALENCE|Acceptance criterion for bioequivalence was that 94.12% confidence intervals (CIs) of the T/R ratios of the geometric means of the analysed PK parameters were within the 80.00-125.00% range according to the current guidelines for bioequivalence studies.|Geometric means ratio|111.63||||0.0482|TWO_SIDED|94.12|100.51|123.99||"treatment p-value reported"|ANOVA||Estimated value and limits are expressed in %|||123.99|100.51|0.0482
92236075|NCT02858193|184375641|EQUIVALENCE|Acceptance criterion for bioequivalence was that 94.12% confidence intervals (CIs) of the T/R ratios of the geometric means of the analysed PK parameters were within the 80.00-125.00% range according to the current guidelines for bioequivalence studies|geometric means ratio|109.41||||0.0002|TWO_SIDED|94.12|104.93|114.07||"treatment p-value is reported"|ANOVA||Estimated value and limits are expressed in%|||114.07|104.93|0.0002
92279383|NCT01832090|184461890|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92279384|NCT01832090|184461891|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||||||>0.05
92393195|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.079||||0.762|TWO_SIDED|95.0|-0.06|0.22|||Cochran-Mantel-Haenszel|||Improvement Week 24, Back of Hands - Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.22|-0.06|0.762
92393196|NCT01787461|184685870|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.013||||0.662|TWO_SIDED|95.0|-0.16|0.13|||Cochran-Mantel-Haenszel|||Improvement Week 24, Body - Dryness Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.13|-0.16|0.662
92393197|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|3.93||||0.587|TWO_SIDED|95.0|-10.32|18.18|||ANOVA|||Change at Week 6, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||18.18|-10.32|0.587
92393198|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.08||||0.814|TWO_SIDED|95.0|-14.49|12.32|||ANOVA|||Change at Week 12, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||12.32|-14.49|0.814
92393199|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.57||||0.453|TWO_SIDED|95.0|-16.14|8.99|||ANOVA|||Change at Week 18, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||8.99|-16.14|0.453
92393200|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.16||||0.191|TWO_SIDED|95.0|-22.92|4.61|||ANOVA|||Change at Week 24, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||4.61|-22.92|0.191
92393201|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|2.61||||0.685|TWO_SIDED|95.0|-10.07|15.28|||ANOVA|||Change at Week 6, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||15.28|-10.07|0.685
92393202|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|5.74||||0.48|TWO_SIDED|95.0|-11.67|23.15|||ANOVA|||Change at Week 12, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||23.15|-11.67|0.480
92393203|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.98||||0.299|TWO_SIDED|95.0|-17.29|5.34|||ANOVA|||Change at Week 18, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||5.34|-17.29|0.299
92393204|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.07||||0.107|TWO_SIDED|95.0|-20.04|1.9|||ANOVA|||Change at Week 24, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.90|-20.04|0.107
92393205|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.82||||0.776|TWO_SIDED|95.0|-14.39|10.76|||ANOVA|||Change at Week 6, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||10.76|-14.39|0.776
92393206|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.33||||0.603|TWO_SIDED|95.0|-15.96|9.29|||ANOVA|||Change at Week 12, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||9.29|-15.96|0.603
92393207|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.82||||0.51|TWO_SIDED|95.0|-15.23|7.6|||ANOVA|||Change at Week 18, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||7.60|-15.23|0.510
92393208|NCT01787461|184685871|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.75||||0.225|TWO_SIDED|95.0|-17.7|4.2|||ANOVA|||Change at Week 24, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||4.20|-17.70|0.225
92393209|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78||||0.214|TWO_SIDED|95.0|-0.46|2.02|||ANOVA|||Change at Week 6, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.02|-0.46|0.214
92393210|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.027|TWO_SIDED|95.0|0.12|2.09|||ANOVA|||Change at Week 12, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.09|0.12|0.027
92393211|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|0.99||||0.049|TWO_SIDED|95.0|0.01|1.96|||ANOVA|||Change at Week 18, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.96|0.01|0.049
92393212|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17||||0.019|TWO_SIDED|95.0|0.2|2.14|||ANOVA|||Change at Week 24, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.14|0.20|0.019
92393213|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.449|TWO_SIDED|95.0|-0.36|0.8|||ANOVA|||Change at Week 6, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.80|-0.36|0.449
92393214|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.105|TWO_SIDED|95.0|-0.07|0.8|||ANOVA|||Change at Week 12, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.80|-0.07|0.105
92421384|NCT00395538|184731567|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Ar between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.57||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.570
92421385|NCT00395538|184731568|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.Ar between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ct.Po.Ar values for both their baseline and year 1 biopsies.||||||0.166||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Po.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.166
92421386|NCT00395538|184731568|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.Ar between the baseline and the years 2 and 4 (combined) biopsy.||||||0.895||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Po.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.895
92421387|NCT00395538|184731568|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.Ar between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.282||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Po.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.282
92421388|NCT00395538|184731569|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.O.Th between the baseline and the year 1 biopsy.||||||0.003||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.003
92421389|NCT00395538|184731569|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.O.Th between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
92421390|NCT00395538|184731569|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.O.Th between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.68||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.680
92421391|NCT00395538|184731570|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.MAR between the baseline and the year 1 biopsy.||||||0.006||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.006
92279385|NCT01832090|184461892|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||||||>0.05
92279386|NCT01832090|184461895|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92279387|NCT01832090|184461896|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92279388|NCT04182204|184461902|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0017|TWO_SIDED|95.0|0.43|0.83|||Log Rank|||||0.83|0.43|0.0017
92279389|NCT04182204|184461903|SUPERIORITY||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.27|0.51|||Log Rank|||||0.51|0.27|<0.0001
92421392|NCT00395538|184731570|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.MAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.004||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.004
92421393|NCT00395538|184731570|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.MAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.904||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.904
92279390|NCT04182204|184461904|SUPERIORITY||Difference in Response Rate|21.26|||<|0.0001|TWO_SIDED|95.0|9.58|32.94|||Cochran-Mantel-Haenszel|||||32.94|9.58|<0.0001
92421394|NCT00395538|184731571|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.OS/BS between the baseline and the year 1 biopsy.||||||0.002||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.002
92421395|NCT00395538|184731571|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.OS/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
92421396|NCT00395538|184731571|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.OS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.01||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.010
92446487|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-1.54|STANDARD_ERROR_OF_MEAN|1.025||0.135|TWO_SIDED|95.0|-3.56|0.49||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 4||0.49|-3.56|0.135
92279391|NCT04182204|184461905|SUPERIORITY||Difference in Response Rate|28.11|||<|0.0001|TWO_SIDED|95.0|15.89|40.33|||Cochran-Mantel-Haenszel|||||40.33|15.89|<0.0001
92171837|NCT04505774|184233282|SUPERIORITY|||||||0.9661|||||||Chi-squared|||||||.9661
92171838|NCT04505774|184233282|SUPERIORITY|||||||0.1073|||||||Chi-squared|||||||.1073
92171839|NCT04505774|184233283|SUPERIORITY|||||||0.3575|||||||Chi-squared|||||||.3575
92279392|NCT04182204|184461906|SUPERIORITY||Difference in Response Rate|30.2|||||TWO_SIDED|95.0|17.71|42.68||||||||42.68|17.71|
92279393|NCT04182204|184461907|SUPERIORITY||Difference in Response Rate|17.4|||||TWO_SIDED|95.0|5.95|28.86||||||||28.86|5.95|
92279394|NCT04182204|184461908|SUPERIORITY||Difference in Response Rate|20.36|||||TWO_SIDED|95.0|8.16|32.56||||||||32.56|8.16|
92279395|NCT04182204|184461910|SUPERIORITY||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.3|0.53||||||||0.53|0.30|
92279396|NCT04182204|184461911|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.4|0.83||||||||0.83|0.40|
92279397|NCT04182204|184461912|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.62|1.17||||||||1.17|0.62|
92279398|NCT04182204|184461913|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.45|0.91||||||||0.91|0.45|
92279399|NCT04182204|184461918|SUPERIORITY||Difference in Response Rate|10.13|||||TWO_SIDED|95.0|-2.37|22.63||||||||22.63|-2.37|
92279400|NCT04182204|184461919|SUPERIORITY||Difference in Response Rate|9.78|||||TWO_SIDED|95.0|-3.22|22.78||||||||22.78|-3.22|
92279401|NCT04182204|184461920|SUPERIORITY||Difference in Response Rate|18.25|||||TWO_SIDED|95.0|5.54|30.97||||||||30.97|5.54|
92421397|NCT00395538|184731572|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.ES/BS between the baseline and the year 1 biopsy.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
92421398|NCT00395538|184731572|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.ES/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
92421399|NCT00395538|184731572|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.ES/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.02||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.020
92421400|NCT00395538|184731573|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.AjAR between the baseline and the year 1 biopsy.||||||0.002||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.002
92446488|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-2.01|STANDARD_ERROR_OF_MEAN|1.09||0.067|TWO_SIDED|95.0|-4.17|0.14||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 5||0.14|-4.17|0.067
92170170|NCT02576509|184229286|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0752|TWO_SIDED|95.0|0.71|1.02||A priori threshold for statistical significance is 0.0419|Log Rank|Log-rank Test stratified by the stratification factors as entered into the IVRS|Nivolumab over Sorafenib; Stratified Cox proportional hazard model||95.81% CI ADJUSTED FOR MULTIPLICITY: (0.72 to 1.02)|1.02|0.71|0.0752
92236076|NCT02858193|184375642|EQUIVALENCE|Acceptance criterion for bioequivalence was that 94.12% confidence intervals (CIs) of the T/R ratios of the geometric means of the analysed PK parameters were within the 80.00-125.00% range according to the current guidelines for bioequivalence studies.||||||0.593|||||||Friedman|||||||0.5930
92236077|NCT02031146|184375646|OTHER|||||||0.29|||||||Two sample test of proportion in Stata|||||||0.29
92236078|NCT02031146|184375647|OTHER|||||||0.69|||||||Log Rank|||||||0.69
92170171|NCT02576509|184229287|OTHER|no test was performed due to OS p-value result above the prior threshold|Difference of ORRs|8.3|||||TWO_SIDED|95.0|3.9|12.7|||||Estimate of (Nivolumab - Sorafenib) is based on CMH method of weighting, stratified by stratification factors|||12.7|3.9|
92171840|NCT04505774|184233283|SUPERIORITY|||||||0.591|||||||Chi-squared|||||||.5910
92236079|NCT02031146|184375648|OTHER|||||||0.04|||||||Log Rank|||||||0.04
92236080|NCT00112151|184375652|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.025|TWO_SIDED|||||A one-sided P-value of \<0.025 was used to define statistical significance|Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (any T). The primary analysis was conducted in the PRT groups and compared CS-PFP at 12 months with any T to placebo, adjusted for baseline CS-PFP score.||||<0.025
92236081|NCT00112151|184375652|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.025|TWO_SIDED|||||A one-sided P-value of \<0.025 was used to define statistical significance.|Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (any T). To address whether the effects of any T on physical function are the same without PRT, the analysis was also conducted in the No PRT groups, comparing CS-PFP at 12 months with any T to placebo, adjusted for baseline CS-PFP score.||||<0.025
92236082|NCT00112151|184375653|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in average upper body strength with any T to placebo in subjects assigned to PRT.||||<0.05
92236083|NCT00112151|184375653|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in average upper body strength with any T to placebo in subjects assigned to no PRT.||||<0.05
92279402|NCT00947427|184461953|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86|||||||ANCOVA|||||||0.86
92279403|NCT03212170|184461986|OTHER|Pearson correlation statistical test||||||0.1347|||||||two-sided hypothesis test|||||||0.1347
92421401|NCT00395538|184731573|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.AjAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.022||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.022
92421402|NCT00395538|184731573|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.AjAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.228||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.228
92421403|NCT00395538|184731574|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.O.Th between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.O.Th values for both their baseline and year 1 biopsies.||||||0.004||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.004
92421404|NCT00395538|184731574|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.O.Th between the baseline and the years 2 and 4 (combined) biopsy.||||||0.006||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.006
92421405|NCT00395538|184731574|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.O.Th between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.67||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.670
92421406|NCT00395538|184731575|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.MAR between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.MAR values for both their baseline and year 1 biopsies.||||||0.003||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.003
92446489|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.119||0.092|TWO_SIDED|95.0|-4.11|0.31||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 6||0.31|-4.11|0.092
92446490|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.566||0.548|TWO_SIDED|95.0|-0.78|1.46||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 1||1.46|-0.78|0.548
92446491|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.756||0.42|TWO_SIDED|95.0|-2.11|0.88||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 2||0.88|-2.11|0.420
92279404|NCT03212170|184461988|OTHER|Bland-Altman statistical test|Mean Difference (Final Values)|0.1308|||||TWO_SIDED|95.0|-0.282|0.544||||||||0.544|-0.282|
92421407|NCT00395538|184731575|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.MAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
92421408|NCT00395538|184731575|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.MAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.712||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.712
92421409|NCT00395538|184731576|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.OS/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.OS/BS values for both their baseline and year 1 biopsies.||||||0.029||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.029
92421410|NCT00395538|184731576|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.OS/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
92421411|NCT00395538|184731576|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.OS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.104||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.104
92421412|NCT00395538|184731577|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.ES/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.ES/BS values for both their baseline and year 1 biopsies.||||||0.088||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.088
92446492|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.818||0.857|TWO_SIDED|95.0|-1.47|1.76||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 3||1.76|-1.47|0.857
92171841|NCT04505774|184233283|SUPERIORITY|||||||0.867|||||||Chi-squared|||||||.8670
92171842|NCT04505774|184233283|SUPERIORITY|||||||0.0645|||||||Chi-squared|||||||.0645
92279405|NCT03212170|184461989|OTHER|||||||0.2521|||||||Pearson Correlation Statistical Test|||||||0.2521
92421413|NCT00395538|184731577|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.ES/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.009||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.009
92421414|NCT00395538|184731577|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.ES/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.325||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.325
92421415|NCT00395538|184731578|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.AjAR between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 3 participants with non-missing Ec.AjAR values for both their baseline and year 1 biopsies.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
92170172|NCT02576509|184229287|OTHER|no test was performed due to OS p-value result above the prior threshold|Odds Ratio (OR)|2.41|||||TWO_SIDED|95.0|1.48|3.92|||||Nivolumab over Sorafenib; Mantel-Haenszel estimator|||3.92|1.48|
92236084|NCT00112151|184375654|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in average lower body strength with any T to placebo in subjects assigned to PRT.||||<0.05
92170173|NCT02576509|184229288|OTHER|no test was performed due to OS p-value result above the prior threshold|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.79|1.1|||||Nivolumab over Sorafenib; Stratified Cox proportional hazard model|||1.10|0.79|
92170174|NCT02576509|184229289|OTHER|PD-L1 \>= 1%, OS; no test was performed|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.54|1.19|||||Nivolumab over Sorafenib|||1.19|0.54|
92421416|NCT00395538|184731578|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.AjAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
92421417|NCT00395538|184731578|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.AjAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.974||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.974
92421418|NCT00395538|184731579|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.O.Th between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.O.Th values for both their baseline and year 1 biopsies.||||||0.004||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.004
92421419|NCT00395538|184731579|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.O.Th between the baseline and the years 2 and 4 (combined) biopsy.||||||0.023||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.023
92421420|NCT00395538|184731579|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.O.Th between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.288||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.288
92421421|NCT00395538|184731580|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.MAR between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.MAR values for both their baseline and year 1 biopsies.||||||0.202||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.202
92421422|NCT00395538|184731580|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.MAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.486||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.486
92446493|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.936||0.527|TWO_SIDED|95.0|-2.44|1.26||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 4||1.26|-2.44|0.527
92279406|NCT01937364|184461992|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4||||0.0334|TWO_SIDED|90.0|-0.7275|-0.0206||One-sided p-value|z-statistic with pooled estimate||RD = Baclofen - Placebo|||-0.0206|-0.7275|0.0334
92279407|NCT01937364|184461993|SUPERIORITY_OR_OTHER|||||||0.3744|||||||Mixed Models Analysis|||Baclofen - Placebo; 24 hours||||0.3744
92279408|NCT01937364|184461993|SUPERIORITY_OR_OTHER|||||||0.7616|||||||Mixed Models Analysis|||Baclofen - Placebo; 48 hours||||0.7616
92279409|NCT01937364|184461993|SUPERIORITY_OR_OTHER|||||||0.1393|||||||Mixed Models Analysis|||Baclofen - Placebo; 72 hours||||0.1393
92421423|NCT00395538|184731580|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.MAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.535||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.535
92279410|NCT01937364|184461994|SUPERIORITY_OR_OTHER|||||||0.33||||||Baclofen - Placebo; Peak Ativan 1mg PO equivalent dose|Wilcoxon (Mann-Whitney)|||||||0.33
92279411|NCT01937364|184461994|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||Baclofen - Placebo; Total Ativan 1mg PO equivalent dose||||0.80
92421424|NCT00395538|184731581|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.OS/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.OS/BS values for both their baseline and year 1 biopsies.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
92421425|NCT00395538|184731581|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.OS/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.003||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.003
92446494|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.94||0.875|TWO_SIDED|95.0|-2.01|1.71||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 5||1.71|-2.01|0.875
92170175|NCT02576509|184229289|OTHER|PD-L1 \>=1%, PFS; no test was performed|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.48|1.03|||||Nivolumab over Sorafenib|||1.03|0.48|
92279412|NCT01533428|184462010|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.6||||0.025|TWO_SIDED|95.0|-12.3|-0.8|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||All statistical comparisons were made using two-sided tests at the 5% significance level||-0.8|-12.3|0.025
92279413|NCT01533428|184462011|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.1||||0.018|TWO_SIDED|95.0|-12.9|-1.2|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||All statistical comparisons were made using two-sided tests at the 5% significance level.||-1.2|-12.9|0.018
92170176|NCT02576509|184229289|OTHER|PD-L1 \<1%, OS; no test was performed|Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.69|1.02|||||Nivolumab over Sorafenib|||1.02|0.69|
92170177|NCT02576509|184229289|OTHER|PD-L1 \<1%, PFS; no test was performed|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.81|1.17|||||Nivolumab over Sorafenib|||1.17|0.81|
92279414|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.1||||0.208|TWO_SIDED|95.0|-10.4|2.3|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 2.||2.3|-10.4|0.208
92279415|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.7||||0.036|TWO_SIDED|95.0|-13.1|-0.4|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 3.||-0.4|-13.1|0.036
92279416|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.2||||0.027|TWO_SIDED|95.0|-13.5|-0.8|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 4.||-0.8|-13.5|0.027
92279417|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.3||||0.024|TWO_SIDED|95.0|-13.6|-1.0|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 5.||-1.0|-13.6|0.024
92279418|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.3||||0.051|TWO_SIDED|95.0|-12.6|0.0|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 6.||0.0|-12.6|0.051
92170178|NCT02576509|184229289|OTHER|without PD-L1 quantifiable, OS; no test was performed|Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|0.34|4.74|||||Nivolumab over Sorafenib|||4.74|0.34|
92279419|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.1||||0.012|TWO_SIDED|95.0|-14.4|-1.8|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 7.||-1.8|-14.4|0.012
92279420|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.2||||0.026|TWO_SIDED|95.0|-13.5|-0.8|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 8.||-0.8|-13.5|0.026
92279421|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.9||||0.032|TWO_SIDED|95.0|-13.2|-0.6|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 9.||-0.6|-13.2|0.032
92279422|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.5||||0.02|TWO_SIDED|95.0|-13.9|-1.2|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 10.||-1.2|-13.9|0.020
92279423|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.4||||0.022|TWO_SIDED|95.0|-13.7|-1.1|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 11.||-1.1|-13.7|0.022
92279424|NCT01533428|184462012|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.0||||0.005|TWO_SIDED|95.0|-15.3|-2.7|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 12.||-2.7|-15.3|0.005
92393215|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27||||0.205|TWO_SIDED|95.0|-0.14|0.68|||ANOVA|||Change at Week 18, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.68|-0.14|0.205
92393216|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35||||0.1|TWO_SIDED|95.0|-0.06|0.77|||ANOVA|||Change at Week 24, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.77|-0.06|0.100
92393217|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.244|TWO_SIDED|95.0|-0.17|0.66|||ANOVA|||Change at Week 6, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.66|-0.17|0.244
92393218|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12||||0.594|TWO_SIDED|95.0|-0.32|0.56|||ANOVA|||Change at Week 12, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.56|-0.32|0.594
92393219|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.317|TWO_SIDED|95.0|-0.2|0.63|||ANOVA|||Change at Week 18, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.63|-0.20|0.317
92393220|NCT01787461|184685872|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.264|TWO_SIDED|95.0|-0.17|0.64|||ANOVA|||Change at Week 24, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.64|-0.17|0.264
92421426|NCT00395538|184731581|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.OS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.328||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.328
92446495|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.94||0.441|TWO_SIDED|95.0|-2.58|1.13||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 6||1.13|-2.58|0.441
92393221|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.16||||0.266|TWO_SIDED|95.0|-69.63|19.31|||ANOVA|||Change at Week 6, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||19.31|-69.63|0.266
92393222|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.79||||0.21|TWO_SIDED|95.0|-73.99|16.41|||ANOVA|||Change at Week 12, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||16.41|-73.99|0.210
92393223|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.78||||0.753|TWO_SIDED|95.0|-56.55|40.99|||ANOVA|||Change at Week 18, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||40.99|-56.55|0.753
92393224|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.9||||0.632|TWO_SIDED|95.0|-76.32|46.51|||ANOVA|||Change at Week 24, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||46.51|-76.32|0.632
92421427|NCT00395538|184731582|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.ES/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.ES/BS values for both their baseline and year 1 biopsies.||||||0.002||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.002
92421428|NCT00395538|184731582|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.ES/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
92421429|NCT00395538|184731582|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ic.ES/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.789||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.789
92421430|NCT00395538|184731583|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.AjAR between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.AjAR values for both their baseline and year 1 biopsies.||||||0.651||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.651
92421431|NCT00395538|184731583|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.AjAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.58||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.580
92421432|NCT00395538|184731583|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.AjAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.338||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.338
92421433|NCT00395538|184731584|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Mean between the baseline and the year 1 biopsy.||||||0.02||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Mean as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.020
92421434|NCT00395538|184731584|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Mean between the baseline and the years 2 and 4 (combined) biopsy.||||||0.11||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Mean as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.110
92421435|NCT00395538|184731584|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Mean between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.764||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Mean as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.764
92421436|NCT00395538|184731585|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Peak between the baseline and the year 1 biopsy.||||||0.227||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Peak as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.227
92421437|NCT00395538|184731585|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Peak between the baseline and the years 2 and 4 (combined) biopsy.||||||0.194||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Peak as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.194
92421438|NCT00395538|184731585|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Peak between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.434||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Peak as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.434
92421439|NCT00395538|184731586|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Width between the baseline and the year 1 biopsy.||||||0.003||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Width as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.003
92421440|NCT00395538|184731586|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Width between the baseline and the years 2 and 4 (combined) biopsy.||||||0.002||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Width as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.002
92421441|NCT00395538|184731586|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Width between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.787||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Width as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.787
92170179|NCT02576509|184229289|OTHER|without PD-L1 quantifiable, PFS; no test was performed|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.27|3.52|||||Nivolumab over Sorafenib|||3.52|0.27|
92421442|NCT00395538|184731587|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Low between the baseline and the year 1 biopsy.||||||0.082||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Low as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.082
92170180|NCT02576509|184229290|OTHER|PD-L1 \>=1%, ORR; no test was performed|Odds Ratio (OR)|3.79|||||TWO_SIDED|95.0|1.41|10.17|||||Odds ratio (Nivolumab over Sorafenib) and associated unstratified 95% exact CI.|||10.17|1.41|
92421443|NCT00395538|184731587|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Low between the baseline and the years 2 and 4 (combined) biopsy.||||||0.057||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Low as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.057
92421444|NCT00395538|184731587|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Low between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.547||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Low as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.547
92421445|NCT00395538|184731588|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium High between the baseline and the year 1 biopsy.||||||0.922||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium High as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.922
92421446|NCT00395538|184731588|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium High between the year 1 and the years 2 and 4 (combined) biopsy.||||||0.342||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium High as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.342
92421447|NCT00395538|184731588|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium High between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.449||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium High as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.449
92421448|NCT01074047|184731621|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0829|TWO_SIDED|95.0|0.69|1.02|||Log Rank|The p-value is two-sided from an unstratified log-rank test|The hazard ratio is from a Cox proportional hazards model stratified by ECOG performance status and cytogenetic risk status.|||1.02|0.69|0.0829
92421449|NCT01074047|184731621|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1009|TWO_SIDED|95.0|0.69|1.03|||Log Rank||The hazard ratio is from a Cox proportional hazards model stratified by ECOG performance status and cytogenetic risk status.|||1.03|0.69|0.1009
92421450|NCT01074047|184731622|SUPERIORITY_OR_OTHER||Difference|12.26|||||TWO_SIDED|95.0|3.5|21.0|||||Estimates of the 1-year (365 day) survival probabilities and corresponding 95% confidence intervals (CI) were presented by treatment group. The CI for the difference in the 1-year survival probabilities was derived using Greenwoods variance estimate.|||21.0|3.5|
92421451|NCT01074047|184731623|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1495|TWO_SIDED|95.0|0.72|1.05|||Log Rank|2 sided unstratified|The hazard ratio is from an unstratified Cox proportional hazards model.|Median is estimated from a Kaplan-Meier distribution of EFS||1.05|0.72|0.1495
92421452|NCT01074047|184731624|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.5832|TWO_SIDED|95.0|0.75|1.66|||Log Rank|2 sided unstratified|The hazard ratio is from an unstratified Cox proportional hazards model.|Median is estimated from a Kaplan-Meier distribution of RFS||1.66|0.75|0.5832
92421453|NCT01074047|184731625|SUPERIORITY_OR_OTHER|||||||0.5384|||||||Fisher Exact|P-value is from Fishers exact test||||||0.5384
92421454|NCT01074047|184731627|SUPERIORITY_OR_OTHER|||||||0.0376|||||||Fisher Exact|P-value is from Fishers exact test||||||0.0376
92421455|NCT01074047|184731651|SUPERIORITY_OR_OTHER||Relative Ratio|0.79||||0.0721|TWO_SIDED|95.0|0.62|1.02|||negative binomial regression analysis|||||1.02|0.62|0.0721
92421456|NCT05419908|184731681|SUPERIORITY||LSMean Difference|-12.34|||<|0.001|TWO_SIDED|95.0|-16.89|-7.79||Least square (LS) mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|Analysis of Covariance (ANCOVA)||||-7.79|-16.89|<0.001
92421457|NCT05419908|184731682|SUPERIORITY||LSMean Difference|-1.134|||<|0.001|TWO_SIDED|95.0|-1.466|-0.802||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 4||-0.802|-1.466|<0.001
92421458|NCT05419908|184731682|SUPERIORITY||LSMean Difference|-0.948|||<|0.001||95.0|-1.362|-0.535||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 8||-0.535|-1.362|<0.001
92421459|NCT05419908|184731682|SUPERIORITY||LSMean Difference|-1.122|||<|0.001|TWO_SIDED|95.0|-1.504|-0.741||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 12||-0.741|-1.504|<0.001
92236085|NCT00112151|184375654|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in average lower body strength with any T to placebo in subjects assigned to no PRT.||||<0.05
92236086|NCT00112151|184375655|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in leg extensor power with any T to placebo in subjects assigned to PRT.||||<0.05
92236087|NCT00112151|184375655|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in leg extensor power with any T to placebo in subjects assigned to no PRT.||||<0.05
92393225|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|4.54||||0.715|TWO_SIDED|95.0|-19.94|29.01|||ANOVA|||Change at Week 6, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||29.01|-19.94|0.715
92236088|NCT00112151|184375656|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in fat mass measured by dual x-ray absorptiometry (DXA) with any T to placebo in subjects assigned to PRT.||||<0.05
92236089|NCT00112151|184375656|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in fat mass measured by dual x-ray absorptiometry (DXA) with any T to placebo in subjects assigned to no PRT.||||<0.05
92236090|NCT00112151|184375657|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in fat free mass measured by dual x-ray absorptiometry (DXA) with any T to placebo in subjects assigned to PRT.||||<0.05
92236091|NCT00112151|184375657|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in fat free mass measured by dual x-ray absorptiometry (DXA) with any T to placebo in subjects assigned to no PRT.||||<0.05
92236092|NCT00945750|184375665|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the AUC geometric mean ratio (famotidine CT without water/famotidine FCT with water) is within the hypothesized interval (0.80 and 1.25), then the primary hypothesis of bioequivalence between CT without water and FCT with water is accepted.|Geometric Mean Ratio|1.01||||||90.0|0.94|1.09||||||||1.09|0.94|
92236093|NCT00945750|184375666|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the Cmax geometric mean ratio (famotidine CT without water/famotidine FCT with water) is within the hypothesized interval (0.80 and 1.25), then the primary hypothesis of bioequivalence between CT without water and FCT with water is accepted.|Geometric Mean Ratio|1.03||||||90.0|0.93|1.14||||||||1.14|0.93|
92236094|NCT00945750|184375667|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.11||||||90.0|1.04|1.2||||||||1.20|1.04|
92236095|NCT00945750|184375668|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.12||||||90.0|1.02|1.24||||||||1.24|1.02|
92170181|NCT02576509|184229290|OTHER|PD-L1 \<1%, ORR; no test was performed|Odds Ratio (OR)|1.95|||||TWO_SIDED|95.0|1.1|3.45|||||Odds ratio (Nivolumab over Sorafenib) and associated unstratified 95% exact CI|||3.45|1.10|
92236096|NCT02340104|184375672|EQUIVALENCE|Geometric Least Square (LS) Means values were calculated using Log pharmacokinetic (PK) model with treatment, participant, random error as model with treatment as a fixed effect and participant and error as random effects.|Ratio of Geometric LS Means|0.789|||||TWO_SIDED|90.0|0.769|0.81|||||Geometric Least Square (LS) Means values were calculated using Log pharmacokinetic (PK) model with treatment, participant, random error as independent variables, where participant was fitted as a random effect.|||0.810|0.769|
92421460|NCT05419908|184731683|SUPERIORITY||LSMean Difference|-13.28|||<|0.001||95.0|-17.02|-9.54||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 4||-9.54|-17.02|<0.001
92421461|NCT05419908|184731683|SUPERIORITY||LSMean Difference|-11.78|||<|0.001|TWO_SIDED|95.0|-16.3|-7.27||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 8||-7.27|-16.30|<0.001
92421462|NCT05419908|184731683|SUPERIORITY||LSMean Difference|-12.42|||<|0.001||95.0|-17.0|-7.83||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 12||-7.83|-17.00|<0.001
92421463|NCT05419908|184731684|SUPERIORITY||LSMean Difference|-39.8|||<|0.001|TWO_SIDED|95.0|-50.5|-29.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as factor. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 4||-29.1|-50.5|<0.001
92421464|NCT05419908|184731684|SUPERIORITY||LSMean Difference|-35.5|||<|0.001|TWO_SIDED|95.0|-47.9|-23.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as factor. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 8||-23.0|-47.9|<0.001
92421465|NCT05419908|184731684|SUPERIORITY||LSMean Difference|-35.0|||<|0.001||95.0|-47.9|-22.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as factor. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 12||-22.1|-47.9|<0.001
92421466|NCT05419908|184731685|SUPERIORITY||Percentage Difference|65.1|||<|0.001|TWO_SIDED|95.0|49.15|81.0||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||81.00|49.15|<0.001
92170182|NCT02721381|184229308|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||<.001
92421467|NCT05419908|184731685|SUPERIORITY||Percentage Difference|48.5|||<|0.001||95.0|30.37|66.59||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 8||66.59|30.37|<0.001
92236097|NCT01040832|184375673|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.793|TWO_SIDED|95.0|0.7|1.6|||Stratified log rank|||||1.6|0.7|0.793
92421468|NCT05419908|184731685|SUPERIORITY||Percentage Difference|52.5|||<|0.001|TWO_SIDED|95.0|35.76|69.24||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 12||69.24|35.76|<0.001
92421469|NCT05419908|184731686|SUPERIORITY||Percentage Difference|69.0|||<|0.001|TWO_SIDED|95.0|53.7|84.21||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||84.21|53.70|<0.001
92421470|NCT05419908|184731686|SUPERIORITY||Percentage Difference|50.7|||<|0.001||95.0|31.93|69.42||Likelihood-ratio test based 95% confidence interval of the percentage difference|Likelihood-Ratio Chi-Square Test|||Week 8||69.42|31.93|<0.001
92421471|NCT05419908|184731686|SUPERIORITY||Percentage Difference|57.5|||<|0.001|TWO_SIDED|95.0|39.99|75.01||Likelihood-ratio test based 95% confidence interval of the percentage difference|Likelihood-Ratio Chi-Square Test|||Week 12||75.01|39.99|<0.001
92421472|NCT05419908|184731687|SUPERIORITY||Percentage Difference|54.2|||<|0.001|TWO_SIDED|95.0|37.47|70.84||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||70.84|37.47|<0.001
92421473|NCT05419908|184731687|SUPERIORITY||Percentage Difference|47.8|||<|0.001||95.0|29.62|65.99||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 8||65.99|29.62|<0.001
92421474|NCT05419908|184731687|SUPERIORITY||Percentage Difference|47.5|||<|0.001||95.0|28.86|66.14||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 12||66.14|28.86|<0.001
92421475|NCT05419908|184731688|SUPERIORITY||Percentage Difference|49.7|||<|0.001||95.0|33.54|65.79||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||65.79|33.54|<0.001
92236098|NCT01040832|184375674|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Cochran-Mantel-Haenszel|||||||>0.999
92236099|NCT01040832|184375675|SUPERIORITY_OR_OTHER|||||||0.557||95.0|||||Cochran-Mantel-Haenszel|||||||0.557
92421476|NCT05419908|184731688|SUPERIORITY||Percentage Difference|43.8|||<|0.001|TWO_SIDED|95.0|27.83|59.85||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 8||59.85|27.83|<0.001
92421477|NCT05419908|184731688|SUPERIORITY||Percentage Difference|42.5|||<|0.001||95.0|26.34|58.66||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 12||58.66|26.34|<0.001
92421478|NCT05419908|184731689|SUPERIORITY||Percentage Difference|62.8|||<|0.001|TWO_SIDED|95.0|46.56|79.05||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||79.05|46.56|<0.001
92421479|NCT05419908|184731689|SUPERIORITY||Percentage Difference|46.2|||<|0.001|TWO_SIDED|95.0|28.85|63.47||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 8||63.47|28.85|<0.001
92421480|NCT05419908|184731689|SUPERIORITY||Percentage Difference|57.5|||<|0.001|TWO_SIDED|95.0|41.57|73.43||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 12||73.43|41.57|<0.001
92421481|NCT05419908|184731690|SUPERIORITY||Percentage Difference|61.5|||<|0.001||95.0|45.4|77.55||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||77.55|45.40|<0.001
92421482|NCT05419908|184731690|SUPERIORITY||Percentage Difference|43.1|||<|0.001|TWO_SIDED|95.0|23.53|62.69||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 8||62.69|23.53|<0.001
92421483|NCT05419908|184731690|SUPERIORITY||Percentage Difference|52.5|||<|0.001||95.0|33.92|71.08||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 12||71.08|33.92|<0.001
92393226|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|6.35||||0.648|TWO_SIDED|95.0|-21.04|33.75|||ANOVA|||Change at Week 12, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||33.75|-21.04|0.648
92393227|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.49||||0.315|TWO_SIDED|95.0|-48.81|15.83|||ANOVA|||Change at Week 18, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||15.83|-48.81|0.315
92393228|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|14.42||||0.402|TWO_SIDED|95.0|-19.5|48.34|||ANOVA|||Change at Week 24, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||48.34|-19.50|0.402
92393229|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|12.43||||0.381|TWO_SIDED|95.0|-15.49|40.35|||ANOVA|||Change at Week 6, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||40.35|-15.49|0.381
92421484|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.53|||<|0.001|TWO_SIDED|95.0|-3.45|-1.6||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Work||-1.60|-3.45|<0.001
92421485|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.29|||<|0.001|TWO_SIDED|95.0|-3.15|-1.42||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Work||-1.42|-3.15|<0.001
92421486|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.11|||<|0.001|TWO_SIDED|95.0|-3.03|-1.2||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Work||-1.20|-3.03|<0.001
92421487|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.33|||<|0.001|TWO_SIDED|95.0|-3.19|-1.46||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Social Activities||-1.46|-3.19|<0.001
92421488|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.34|||<|0.001|TWO_SIDED|95.0|-3.21|-1.47||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Social Activties||-1.47|-3.21|<0.001
92393230|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|1.49||||0.916|TWO_SIDED|95.0|-26.44|29.43|||ANOVA|||Change at Week 12, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||29.43|-26.44|0.916
92421489|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.19|||<|0.001|TWO_SIDED|95.0|-3.09|-1.29||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Social Activties||-1.29|-3.09|<0.001
92421490|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.15|||<|0.001|TWO_SIDED|95.0|-2.99|-1.31||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Leisure Activities||-1.31|-2.99|<0.001
92421491|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.37|||<|0.001|TWO_SIDED|95.0|-3.19|-1.55||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Leisure Activties||-1.55|-3.19|<0.001
92421492|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.64||||0.002|TWO_SIDED|95.0|-2.66|-0.62||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Leisure Activties||-0.62|-2.66|0.002
92421493|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.93|||<|0.001|TWO_SIDED|95.0|-4.08|-1.78||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Sleep||-1.78|-4.08|<0.001
92421494|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.71|||<|0.001|TWO_SIDED|95.0|-3.86|-1.57||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Sleep||-1.57|-3.86|<0.001
92236100|NCT02767570|184375686|SUPERIORITY||Mean Difference (Net)|-1.2||||0.001|TWO_SIDED|95.0|-1.9|-0.5||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|For the primary hypothesis that there would be a greater reduction in pain for the altered compared to the consistent FPA group, an effect size of 0.57 was assumed. To achieve 80% power with an alpha of 0.05, 39 participants per group were needed, so our recruitment goal was 40 subjects per group.||-0.5|-1.9|0.001
92393231|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.88||||0.566|TWO_SIDED|95.0|-43.81|24.05|||ANOVA|||Change at Week 18, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||24.05|-43.81|0.566
92393232|NCT01787461|184685873|SUPERIORITY_OR_OTHER||LS Mean Difference|8.58||||0.667|TWO_SIDED|95.0|-30.78|47.94|||ANOVA|||Change at Week 24, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||47.94|-30.78|0.667
92393233|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.458|TWO_SIDED|95.0|-2.21|1.0|||ANOVA|||Change at Week 6, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.00|-2.21|0.458
92393234|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.53||||0.497|TWO_SIDED|95.0|-2.07|1.01|||ANOVA|||Change at Week 12, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.01|-2.07|0.497
92393235|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.36||||0.113|TWO_SIDED|95.0|-3.05|0.33|||ANOVA|||Change at Week 18, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.33|-3.05|0.113
92393236|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34||||0.708|TWO_SIDED|95.0|-2.11|1.44|||ANOVA|||Change at Week 24, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.44|-2.11|0.708
92393237|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|1.24||||0.495|TWO_SIDED|95.0|-2.34|4.82|||ANOVA|||Change at Week 6, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||4.82|-2.34|0.495
92393238|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.85||||0.243|TWO_SIDED|95.0|-4.96|1.27|||ANOVA|||Change at Week 12, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.27|-4.96|0.243
92393239|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.36||||0.453|TWO_SIDED|95.0|-4.96|2.23|||ANOVA|||Change at Week 18, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.23|-4.96|0.453
92393240|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|0.55||||0.745|TWO_SIDED|95.0|-2.79|3.89|||ANOVA|||Change at Week 24, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||3.89|-2.79|0.745
92393241|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.987|TWO_SIDED|95.0|-2.44|2.48|||ANOVA|||Change at Week 6, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.48|-2.44|0.987
92393242|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.42||||0.218|TWO_SIDED|95.0|-3.69|0.85|||ANOVA|||Change at Week 12, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.85|-3.69|0.218
92421495|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.61|||<|0.001|TWO_SIDED|95.0|-3.67|-1.54||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Sleep||-1.54|-3.67|<0.001
92393243|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.67||||0.63|TWO_SIDED|95.0|-3.41|2.08|||ANOVA|||Change at Week 18, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.08|-3.41|0.630
92421496|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.74|||<|0.001|TWO_SIDED|95.0|-2.67|-0.81||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Mood||-0.81|-2.67|<0.001
92393244|NCT01787461|184685874|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.576|TWO_SIDED|95.0|-2.06|3.68|||ANOVA|||Change at Week 24, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||3.68|-2.06|0.576
92393245|NCT03259555|184685875|SUPERIORITY||Treatment difference|0.14|||=|0.8797|TWO_SIDED|95.0|-1.74|2.03|||Mixed-effect Model Repeated Measure|"An unstructured covariance was used."|"Comparison between treatment groups was carried out using MMRM, with study center, treatment group, visit, and treatment group-by-visit interaction as factor and baseline-by-visit interaction as a covariate. An unstructured covariance was used."|||2.03|-1.74|=0.8797
92393246|NCT02717494|184685884|OTHER||% with grade 3+ AEs, up to week 4 Step 1|2.0|||||TWO_SIDED|90.0|0.0|5.0|||||Confidence intervals were Exact Clopper-Pearson.|||5|0|
92421497|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.12|||<|0.001|TWO_SIDED|95.0|-3.09|-1.16||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Mood||-1.16|-3.09|<0.001
92421498|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.79|||<|0.001|TWO_SIDED|95.0|-2.69|-0.88||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Mood||-0.88|-2.69|<0.001
92393247|NCT02717494|184685884|OTHER||% with grade 3+ AEs, up to week 4 Step 1|3.0|||||TWO_SIDED|90.0|1.0|7.0|||||Confidence intervals were Exact Clopper-Pearson.|||7|1|
92393248|NCT02717494|184685884|OTHER||% with grade 3+ AEs up to week 4, Step 1|3.0|||||TWO_SIDED|90.0|1.0|8.0|||||Confidence intervals were Exact Clopper-Pearson.|||8|1|
92393249|NCT02717494|184685884|OTHER||% with grade 4+ AEs after week 4, Step 1|1.0|||||TWO_SIDED|90.0|0.0|4.0|||||Confidence intervals were Exact Clopper-Pearson.|||4|0|
92393250|NCT02717494|184685884|OTHER||% with grade 4+ AEs after week 4, Step 1|2.0|||||TWO_SIDED|90.0|0.0|5.0|||||||Confidence intervals were Exact Clopper-Pearson.|5|0|
92421499|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.92|||<|0.001|TWO_SIDED|95.0|-2.86|-0.97||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Concentration||-0.97|-2.86|<0.001
92421500|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.23|||<|0.001|TWO_SIDED|94.0|-3.21|-1.25||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Concentration||-1.25|-3.21|<0.001
92421501|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.9|||<|0.001|TWO_SIDED|95.0|-2.91|-0.88||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Concentration||-0.88|-2.91|<0.001
92421502|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.33||||0.003|TWO_SIDED|95.0|-2.2|-0.46||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Relations With Others||-0.46|-2.20|0.003
92393251|NCT02717494|184685884|OTHER||% with grade 4+ AEs, after week 4 Step 1|3.0|||||TWO_SIDED|90.0|1.0|8.0|||||Confidence intervals were Exact Clopper-Pearson.|||8|1|
92421503|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.85|||<|0.001|TWO_SIDED|95.0|-2.8|-0.9||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Relations With others||-0.90|-2.80|<0.001
92393252|NCT02717494|184685884|OTHER||% with Grade 3+ related to treatment|1.0|||||TWO_SIDED|90.0|0.0|4.0|||||Confidence intervals were Exact Clopper-Pearson.|||4|0|
92393253|NCT02717494|184685884|OTHER||% with Grade 3+ related to treatment|1.0|||||TWO_SIDED|90.0|0.0|4.0|||||Confidence intervals were Exact Clopper-Pearson.|||4|0|
92421504|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.72|||<|0.001|TWO_SIDED|95.0|-2.66|-0.77||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Relations With Others||-0.77|-2.66|<0.001
92421505|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.06||||0.081|TWO_SIDED|95.0|-2.25|0.13||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Sexuality||0.13|-2.25|0.081
92421506|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.4||||0.05|TWO_SIDED|95.0|-2.8|0.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Sexuality||0.00|-2.80|0.050
92421507|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.51||||0.026|TWO_SIDED|95.0|-2.84|-0.19||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Sexuality||-0.19|-2.84|0.026
92393254|NCT02717494|184685884|OTHER||% with Grade 3+ related to treatment|1.0|||||TWO_SIDED|90.0|0.0|4.0|||||Confidence intervals were Exact Clopper-Pearson.|||4|0|
92393255|NCT02717494|184685885|OTHER||% with grade 3+ AEs, up to week 4 Step 2|0.0|||||TWO_SIDED|90.0|0.0|5.0|||||Confidence intervals were Exact Clopper-Pearson.|||5|0|
92393256|NCT02717494|184685885|OTHER||% with grade 3+ AEs, up to week 4 Step 2|0.0|||||TWO_SIDED|90.0|0.0|5.0|||||Confidence intervals were Exact Clopper-Pearson.|||5|0|
92393257|NCT02717494|184685886|OTHER||% infants with grade 3+ AEs|21.0|||||TWO_SIDED|90.0|14.0|28.0|||||Confidence intervals were Exact Clopper-Pearson.|||28|14|
92393258|NCT02717494|184685886|OTHER||% infants with grade 3+ AEs|20.0|||||TWO_SIDED|90.0|14.0|27.0|||||||Confidence intervals were Exact Clopper-Pearson.|27|14|
92393259|NCT02717494|184685886|OTHER||% infants with grade 3+ AEs|20.0|||||TWO_SIDED|90.0|14.0|27.0|||||Confidence intervals were Exact Clopper-Pearson.|||27|14|
92393260|NCT02717494|184685886|OTHER||% infants with congenital anomalies|17.0|||||TWO_SIDED|90.0|11.0|24.0|||||||Confidence intervals were Exact Clopper-Pearson.|24|11|
92393261|NCT02717494|184685886|OTHER||% infants with congenital anomalies|22.0|||||TWO_SIDED|90.0|15.0|29.0|||||||Confidence intervals were Exact Clopper-Pearson.|29|15|
92393262|NCT02717494|184685886|OTHER||% infants with congenital anomalies|13.0|||||TWO_SIDED|90.0|8.0|19.0|||||Confidence intervals were Exact Clopper-Pearson.|||19|8|
92393263|NCT02717494|184685886|OTHER||% infants with HIV infection|0.0|||||TWO_SIDED|90.0|0.0|3.0|||||||Confidence intervals were Exact Clopper-Pearson.|3|0|
92393264|NCT02717494|184685886|OTHER||% infants with HIV infection|0.0|||||TWO_SIDED|90.0|0.0|3.0|||||Confidence intervals were Exact Clopper-Pearson.|||3|0|
92421508|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.65|||<|0.001|TWO_SIDED|95.0|-2.51|-0.79||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Enjoyment of Life||-0.79|-2.51|<0.001
92421509|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.07|||<|0.001|TWO_SIDED|95.0|-2.97|-1.18||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Enjoyment of Life||-1.18|-2.97|<0.001
92421510|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.83|||<|0.001|TWO_SIDED|95.0|-2.88|-0.78||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Enjoyment of Life||-0.78|-2.88|<0.001
92421511|NCT05419908|184731691|SUPERIORITY||LSMean difference|-1.92|||<|0.001|TWO_SIDED|95.0|-2.86|-0.97||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week4: Overall Quality of Life||-0.97|-2.86|<0.001
92421512|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.51|||<|0.001|TWO_SIDED|95.0|-3.41|-1.61||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Overall Quality of Life||-1.61|-3.41|<0.001
92421513|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.36|||<|0.001|TWO_SIDED|95.0|-3.31|-1.41||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Overall Quality of Life||-1.41|-3.31|<0.001
92421514|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.98|||<|0.001|TWO_SIDED|95.0|-2.73|-1.23||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Overall Mean Score||-1.23|-2.73|<0.001
92421515|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-2.21|||<|0.001|TWO_SIDED|95.0|-3.02|-1.4||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Overall Mean Score||-1.40|-3.02|<0.001
92421516|NCT05419908|184731691|SUPERIORITY||LSMean Difference|-1.98|||<|0.001|TWO_SIDED|95.0|-2.83|-1.13||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Overall Mean Score||-1.13|-2.83|<0.001
92421517|NCT05419908|184731692|SUPERIORITY||LSMean Difference|1.375|||<|0.001|TWO_SIDED|95.0|0.651|2.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 4: Getting to Sleep||2.100|0.651|<0.001
92421518|NCT05419908|184731692|SUPERIORITY||LSMean Difference|1.166|||<|0.001|TWO_SIDED|95.0|0.505|1.827||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 8: Getting to Sleep||1.827|0.505|<0.001
92421519|NCT05419908|184731692|SUPERIORITY||LSMean Difference|0.895||||0.014|TWO_SIDED|95.0|0.19|1.599||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 12: Getting to Sleep||1.599|0.190|0.014
92421520|NCT05419908|184731692|SUPERIORITY||LSMean Difference|2.423|||<|0.001|TWO_SIDED|95.0|1.308|3.539||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 4: Quality of Sleep||3.539|1.308|<0.001
92421521|NCT05419908|184731692|SUPERIORITY||LSMean Difference|2.291|||<|0.001|TWO_SIDED|95.0|1.31|3.251||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 8: Quality of Sleep||3.251|1.31|<0.001
92421522|NCT05419908|184731692|SUPERIORITY||LSMean Difference|2.433|||<|0.001|TWO_SIDED|95.0|1.334|3.532||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 12: Quality of Sleep||3.532|1.334|<0.001
92421523|NCT05419908|184731692|SUPERIORITY||LSMean Difference|0.877||||0.059|TWO_SIDED|95.0|-0.034|1.789||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 4: Awake Following Sleep||1.789|-0.034|0.059
92421524|NCT05419908|184731692|SUPERIORITY||LSMean Difference|1.457||||0.001|TWO_SIDED|95.0|0.579|2.335||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 8: Awake Following Sleep||2.335|0.579|0.001
92421525|NCT05419908|184731692|SUPERIORITY||LSMean Difference|1.113||||0.031|TWO_SIDED|95.0|0.107|2.12||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 12: Awake Following Sleep||2.120|0.107|0.031
92421526|NCT05419908|184731692|SUPERIORITY||LSMean Difference|1.203||||0.008|TWO_SIDED|95.0|0.317|2.088||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 4: Behaviour Following Wakening||2.088|0.317|0.008
92421527|NCT05419908|184731692|SUPERIORITY||LSMean Difference|1.597||||0.001|TWO_SIDED|95.0|0.639|2.556||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 8: Behaviour Following Wakening||2.556|0.639|0.001
92421528|NCT05419908|184731692|SUPERIORITY||LSMean Difference|0.842||||0.084|TWO_SIDED|95.0|-0.116|1.8||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 12: Behaviour Following Sleep||1.800|-0.116|0.084
92393265|NCT02717494|184685886|OTHER||% infants with HIV infection|0.0|||||TWO_SIDED|90.0|0.0|2.0|||||Confidence intervals were Exact Clopper-Pearson.|||2|0|
92393266|NCT02717494|184685886|OTHER||% with pneumonia, meningitis or IPD|4.0|||||TWO_SIDED|90.0|2.0|9.0|||||Confidence intervals were Exact Clopper-Pearson.|||9|2|
92393267|NCT02717494|184685886|OTHER||% with pneumonia, meningitis or IPD|7.0|||||TWO_SIDED|90.0|3.0|12.0|||||Confidence intervals were Exact Clopper-Pearson.|||12|3|
92393268|NCT02717494|184685886|OTHER||% with pneumonia, meningitis or IPD|7.0|||||TWO_SIDED|90.0|3.0|12.0|||||Confidence intervals were Exact Clopper-Pearson.|||12|3|
92393269|NCT02717494|184685887|SUPERIORITY|This is the test to compare the two vaccine arms with respect to proportion of participants with \>=2 fold increase at day 28.||||||0.44||||||The threshold for statistical significance is 0.05.|Fisher Exact|Fisher's exact test was used because 50% of the cells had expected counts less than 5.||||||0.44
92393270|NCT02717494|184685887|SUPERIORITY|This is the test to compare the two vaccine arms with respect to proportion of participants with values \>=0.35ug/mL at day 28.||||||0.49||||||The threshold for statistical significance is 0.05.|Fisher Exact|Fisher's exact test was used because 50% of the cells had expected counts less than 5.||||||0.49
92393271|NCT02717494|184685887|OTHER||% vaccinees with >=2fold increase|96.0|||||TWO_SIDED|95.0|91.0|99.0|||||Confidence intervals were Exact Clopper-Pearson.|||99|91|
92393272|NCT02717494|184685887|OTHER||% vaccinees with >=2fold increase|98.0|||||TWO_SIDED|95.0|94.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|94|
92393273|NCT02717494|184685887|OTHER||% with >=2 fold increase|6.0|||||TWO_SIDED|95.0|3.0|12.0|||||Confidence intervals were Exact Clopper-Pearson.|||12|3|
92393274|NCT02717494|184685887|OTHER||% vaccinees with >=0.35ug/mL at day 28|99.0|||||TWO_SIDED|95.0|95.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|95|
92393275|NCT02717494|184685887|OTHER||% vaccinees with >=0.35ug/mL at day 28|100.0|||||TWO_SIDED|95.0|97.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|97|
92393276|NCT02717494|184685887|OTHER||% with >=0.35ug/mL at day 28|94.0|||||TWO_SIDED|95.0|88.0|97.0|||||Confidence intervals were Exact Clopper-Pearson.|||97|88|
92393277|NCT02717494|184685888|SUPERIORITY|||||||0.29||||||The threshold for statistical significance is 0.05.|Chi-squared|||||||0.29
92393278|NCT02717494|184685889|SUPERIORITY|||||||0.08||||||The threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.08
92393279|NCT02717494|184685890|SUPERIORITY|This is the test to compare the two vaccine arms with respect to proportion of participants with \>=2 fold increase at labor and delivery.||||||0.37||||||The threshold for statistical significance is 0.05.|Chi-squared|||||||0.37
92393280|NCT02717494|184685890|SUPERIORITY|This is the test to compare the two vaccine arms with respect to proportion of participants with \>=2 fold increase at 24 weeks post partum.||||||0.21|||||||Fisher Exact|Fisher's exact test was used because 50% of the cells had expected counts less than 5.||||||0.21
92393281|NCT02717494|184685891|OTHER||% vaccinees with >=2fold increase|96.0|||||TWO_SIDED|95.0|91.0|99.0||The threshold for statistical significance is 0.05.|||Confidence intervals were Exact Clopper-Pearson.|||99|91|
92393282|NCT02717494|184685891|OTHER||% vaccinees with >=2fold increase|98.0|||||TWO_SIDED|95.0|89.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|89|
92393283|NCT02717494|184685892|OTHER||% vaccinees with >=2fold increase|98.0|||||TWO_SIDED|95.0|94.0|100.0|||||||Confidence intervals were Exact Clopper-Pearson.|100|94|
92393284|NCT02717494|184685892|OTHER||% vaccinees with >=2fold increase|100.0|||||TWO_SIDED|95.0|93.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|93|
92236101|NCT02767570|184375687|SUPERIORITY||Mean Difference (Net)|-0.26|||<|0.001|TWO_SIDED|95.0|-0.39|-0.13||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|||-0.13|-0.39|<0.001
92393285|NCT02717494|184685893|OTHER||% infants with >=0.35ug/mL at week 16|100.0|||||TWO_SIDED|95.0|96.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|96|
92393286|NCT02717494|184685893|OTHER||% infants with >=0.35ug/mL at week 16|98.0|||||TWO_SIDED|95.0|93.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|93|
92393287|NCT02717494|184685893|OTHER||% infants with >=0.35ug/mL at week 16|97.0|||||TWO_SIDED|95.0|91.0|99.0|||||||Confidence intervals were Exact Clopper-Pearson.|99|91|
92421529|NCT05419908|184731693|SUPERIORITY||LSMean Difference|0.0||||0.881|TWO_SIDED|95.0|-0.3|0.3||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 4: Loss of Interest in Sex||0.3|-0.3|0.881
92421530|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-0.2||||0.383|TWO_SIDED|95.0|-0.6|0.2||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 8: Loss of Interest in Sex||0.2|-0.6|0.383
92421531|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-0.2||||0.301|TWO_SIDED|95.0|-0.6|0.2||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 12: Loss of Interest in Sex||0.2|-0.6|0.301
92393288|NCT02717494|184685893|OTHER||% infants with >=0.35ug/mL at week 24|100.0|||||TWO_SIDED|95.0|96.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|96|
92236102|NCT02767570|184375688|SUPERIORITY||Mean Difference (Net)|-3.74||||0.006|TWO_SIDED|95.0|-6.42|-1.05||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|||-1.05|-6.42|0.006
92393289|NCT02717494|184685893|OTHER||% infants with >=0.35ug/mL at week 24|99.0|||||TWO_SIDED|95.0|95.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|95|
92393290|NCT02717494|184685893|OTHER||% infants with >=0.35ug/mL at week 24|98.0|||||TWO_SIDED|95.0|93.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|93|
92393291|NCT00479713|184685916|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.72|STANDARD_ERROR_OF_MEAN|1.72|<=|0.001||95.0|-14.1|-7.33|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center||||-7.33|-14.10|<=0.001
92393292|NCT00479713|184685917|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.1|||<=|0.001||95.0|1.5|3.0|||Regression, Logistic|Model terms: treatment, stratum and baseline LDL-C (continuous)||Percentage of Participants who Attained Target LDL-C Goal of \< 100 mg/dL (2.59 mmol/L)||3.0|1.5|<=0.001
92393293|NCT00479713|184685917|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.8|||<=|0.001||95.0|1.8|4.4|||Regression, Logistic|Model terms: treatment, stratum and baseline LDL-C (continuous)||Percentage of Participants who Attained Target LDL-C Goal of \< 70 mg/dL (1.81 mmol/L)||4.4|1.8|<=0.001
92393294|NCT00479713|184685918|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|1.2|<=|0.001||95.0|-9.56|-4.84|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center||||-4.84|-9.56|<=0.001
92393295|NCT00479713|184685919|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-5.06||||0.056||95.0|-9.56|-0.3|||Nonparametric ANOVA|ANOVA model based on Tukey's normalized ranks with term for treatment, stratum, baseline (categorized based on quartiles) and center.|The median difference between treatments is based on the Hodges-Lehmann estimates of shift with a corresponding distribution-free Confidence Interval (CI) based on Wilcoxon's rank.|||-0.30|-9.56|0.056
92393296|NCT00479713|184685920|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|1.17||0.433||95.0|-3.21|1.38|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center.||||1.38|-3.21|0.433
92393297|NCT00479713|184685921|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.41|STANDARD_ERROR_OF_MEAN|1.58|<=|0.001||95.0|-12.5|-6.31|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center.||||-6.31|-12.50|<=0.001
92393298|NCT00479713|184685922|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.59|STANDARD_ERROR_OF_MEAN|1.98|<=|0.001||95.0|-13.49|-5.69|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center.||||-5.69|-13.49|<=0.001
92393299|NCT00479713|184685923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.25|STANDARD_ERROR_OF_MEAN|1.44|<=|0.001||95.0|-9.07|-3.43|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center.||||-3.43|-9.07|<=0.001
92393300|NCT00479713|184685924|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.11|STANDARD_ERROR_OF_MEAN|1.43|<=|0.001||95.0|-10.91|-5.3|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center||||-5.30|-10.91|<=0.001
92393301|NCT00479713|184685925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.67||||0.172||95.0|-16.67|2.87|||Nonparametric ANOVA|ANOVA model based on Tukey's normalized ranks with term for treatment, stratum, baseline (categorized based on quartiles) and center|The median difference between treatments is based on the Hodges-Lehmann estimates of shift with a corresponding distribution-free CI based on Wilcoxon's rank|||2.87|-16.67|0.172
92393302|NCT00141102|184685948|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.32|||<|0.0001|TWO_SIDED||||||Life Table Extension|Stratified by history of GD ulceration and by region.||||||<0.0001
92393303|NCT00141102|184685949|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.93|||<|0.0001|TWO_SIDED||||||Life Table Extension|Stratified by history of GD ulceration and by region.||||||<0.0001
92393304|NCT00141102|184685950|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.019|STANDARD_ERROR_OF_MEAN|0.023||0.4146|TWO_SIDED|95.0|-0.06|0.03|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||0.03|-0.06|0.4146
92393305|NCT00141102|184685951|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.29||||0.1132|TWO_SIDED||||||Life Table Extension|Stratified by history of GD ulceration and by region.||||||0.1132
92393306|NCT00141102|184685953|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.26||||0.0495|TWO_SIDED||||||Life Table Extension|Stratified by history of GD ulceration and by region.||||||0.0495
92393307|NCT00141102|184685954|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.52||||0.0006|TWO_SIDED||||||Life Table Extension|Stratified by history of GD ulceration and by region.||||||0.0006
92393308|NCT00141102|184685955|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.406|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.36|0.45|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||0.45|0.36|<0.0001
92393309|NCT00141102|184685956|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.118|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001|TWO_SIDED|95.0|0.98|1.25|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||1.25|0.98|<0.0001
92393310|NCT00141102|184685957|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|2.748|||<|0.0001|TWO_SIDED|95.0|1.96|3.84|||Cochran-Mantel-Haenszel|Stratified by history of GD ulceration and by region.||||3.84|1.96|<0.0001
92393311|NCT00141102|184685958|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|3.329|||<|0.0001|TWO_SIDED|95.0|2.156|5.141|||Fisher Exact|||GGT||5.141|2.156|<0.0001
92393312|NCT00141102|184685958|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|1.509||||0.3809|TWO_SIDED|95.0|0.618|3.684|||Fisher Exact|||AST||3.684|0.618|0.3809
92393313|NCT00141102|184685958|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|2.089||||0.0264|TWO_SIDED|95.0|1.081|4.038|||Fisher Exact|||ALT||4.038|1.081|0.0264
92393314|NCT00141102|184685959|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-10.144|STANDARD_ERROR_OF_MEAN|0.697|<|0.0001|TWO_SIDED|95.0|-11.51|-8.78|||ANCOVA|||GGT||-8.78|-11.51|<0.0001
92393315|NCT00141102|184685959|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.391|STANDARD_ERROR_OF_MEAN|0.281|<|0.0001|TWO_SIDED|95.0|-2.94|-1.84|||ANCOVA|||AST||-1.84|-2.94|<0.0001
92393316|NCT00141102|184685959|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.364|STANDARD_ERROR_OF_MEAN|0.428|<|0.0001|TWO_SIDED|95.0|-7.2|-5.52|||ANCOVA|||ALT||-5.52|-7.20|<0.0001
92393317|NCT00141102|184685960|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.565|STANDARD_ERROR_OF_MEAN|1.366||0.6795|TWO_SIDED|95.0|-2.11|3.24|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||3.24|-2.11|0.6795
92393318|NCT00141102|184685961|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.406|STANDARD_ERROR_OF_MEAN|2.624||0.592|TWO_SIDED|95.0|-6.55|3.74|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||3.74|-6.55|0.5920
92393319|NCT00141102|184685962|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.015|STANDARD_ERROR_OF_MEAN|0.038||0.6819|TWO_SIDED|95.0|-0.09|0.06|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||0.06|-0.09|0.6819
92393320|NCT05274958|184685968|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||Patient measures for both groups were first summarized descriptively with means and standard deviations. To compare the two groups, a t-test was used.||||<0.05
92393321|NCT02679287|184686015|SUPERIORITY||Mean Difference (Final Values)|1.8|||<|0.0001|TWO_SIDED|95.0|1.2|2.4|||Mixed Models Analysis|||The null hypothesis is that there is no difference in percentage of time \<70 mg/dL in SAP vs. evening-overnight CLC session. Change in HbA1c during study sessions was used as a covariate of the model.||2.4|1.2|<0.0001
92393322|NCT03628976|184686041|SUPERIORITY|||||||0.0096|||||||ANOVA|||||||0.0096
92393323|NCT03628976|184686042|SUPERIORITY|||||||0.764|||||||ANOVA|||||||0.764
92393324|NCT03628976|184686043|SUPERIORITY|||||||0.446|||||||ANOVA|||||||0.446
92393325|NCT00851786|184686045|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.45|0.69||The p-value was adjusted for baseline gpELISA titer, measurement time (week 6 vs. week 12), CD4 stratum and age.|Linear mixed effect model|Natural log transformed gpELISA titers after one or two doses of vaccine was modeled.||Null hypothesis: VZV antibody titer measured by gpELISA, after 1 or 2 doses of ZOSTAVAX/placebo is the same between ZOSTAVAX arm and the placebo arm||0.69|0.45|<.001
92393326|NCT04290039|184686056|OTHER|Estimation only|Geometric ratio of least-square means|0.579|||||TWO_SIDED|90.0|0.5265|0.636|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.6360|0.5265|
92393327|NCT04290039|184686056|OTHER|Estimation only|Geometric ratio of least-square means|0.349|||||TWO_SIDED|90.0|0.3171|0.3839|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.3839|0.3171|
92393328|NCT04290039|184686056|OTHER|Estimation only|Geometric ratio of least-square means|0.603|||||TWO_SIDED|90.0|0.5524|0.6582|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.6582|0.5524|
92393329|NCT04290039|184686057|OTHER|Estimation only|Geometric ratio of least-square means|0.546|||||TWO_SIDED|90.0|0.4971|0.6004|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.6004|0.4971|
92393330|NCT04290039|184686057|OTHER|Estimation only|Geometric ratio of least-square means|0.306|||||TWO_SIDED|90.0|0.2788|0.3367|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.3367|0.2788|
92393331|NCT04290039|184686057|OTHER|Estimation only|Geometric ratio of least-square means|0.561|||||TWO_SIDED|90.0|0.5104|0.6164|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.6164|0.5104|
92393332|NCT04290039|184686058|OTHER|Estimation only|Geometric ratio of least-square means|0.549|||||TWO_SIDED|90.0|0.4273|0.7118|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.7118|0.4273|
92393333|NCT04290039|184686058|OTHER|Estimation only|Geometric ratio of least-square means|0.049|||||TWO_SIDED|90.0|0.0381|0.0641|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.0641|0.0381|
92393334|NCT04290039|184686058|OTHER|Estimation only|Geometric ratio of least-square means|0.09|||||TWO_SIDED|90.0|0.0695|0.1167|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.1167|0.0695|
92393335|NCT02849418|184686081|OTHER||Mean Difference (Net)|-3.02|||||TWO_SIDED|95.0|-5.85|-0.19|||||The analysis method was mixed-model for repeated measures (MMRM) with treatment, visit, treatment-by-visit interaction, Baseline value, Baseline-by-visit interaction as fixed effects.|||-0.19|-5.85|
92393336|NCT01405768|184686161|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||.13
92393337|NCT01405768|184686163|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||.13
92393338|NCT05552027|184686180|SUPERIORITY||||||<|0.001||||||At the completion of scenario A (a full child safety seat installation), the participants using the CCS app had significantly fewer errors present compared to the control group.|Chi-squared|||||||<.001
92393339|NCT05552027|184686180|SUPERIORITY||||||<|0.01||||||At the end of scenario B (loose harness straps), participants using the CCS app had significantly fewer errors present compared to the control group.|Chi-squared|||||||<.01
92393340|NCT05552027|184686180|SUPERIORITY||||||<|0.01||||||At the end of scenario C (loose attachment at the base), like the other two scenarios, participants using the CCS app had significantly fewer errors present compared to the control group.|Chi-squared|||||||<.01
92393341|NCT01147666|184686200|OTHER|||||||1||||||Threshold for significance at 0.05 level.|Fisher Exact|||||||1.0000
92393342|NCT01147666|184686200|OTHER|||||||0.0698||||||Threshold for significance at 0.05 level.|Fisher Exact|||||||0.0698
92393343|NCT01147666|184686200|OTHER|||||||0.1534||||||Threshold for significance at 0.05 level.|Fisher Exact|||||||0.1534
92393344|NCT01147666|184686200|OTHER|||||||0.2657||||||Threshold for significance at 0.05 level.|Fisher Exact|||||||0.2657
92393345|NCT01147666|184686201|OTHER|||||||1||||||Threshold for significance at 0.05 level.|Fisher Exact|||||||1.0000
92393346|NCT02748863|184686219|SUPERIORITY||Odds Ratio (OR)|717.42|||<|0.0001|TWO_SIDED|95.0|68.0|7569.56|||Regression, Logistic|||||7569.56|68.00|< 0.0001
92421532|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-2.5||||0.02|TWO_SIDED|95.0|-4.5|-0.4||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 4: Psychological||-0.4|-4.5|0.020
92421533|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-3.3||||0.003|TWO_SIDED|95.0|-5.4|-1.2||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 8: Psychological||-1.2|-5.4|0.003
92421534|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-3.1||||0.005|TWO_SIDED|95.0|-5.2|-1.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 12: Psychological||-1.0|-5.2|0.005
92421535|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-0.2||||0.732|TWO_SIDED|95.0|-1.2|0.9||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 4: Physical||0.9|-1.2|0.732
92421536|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-0.7||||0.282|TWO_SIDED|95.0|-1.9|0.6||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 8: Physical||0.6|-1.9|0.282
92421537|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-0.6||||0.254|TWO_SIDED|95.0|-1.7|0.5||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 12: Physical||0.5|-1.7|0.254
92393347|NCT02748863|184686220|SUPERIORITY||Odds Ratio (OR)|168.39|||<|0.0001|TWO_SIDED|95.0|21.2|1337.22|||Regression, Logistic|||||1337.22|21.20|< 0.0001
92393348|NCT02748863|184686221|SUPERIORITY||Risk Difference (RD)|38.75|||<|0.0001|TWO_SIDED|95.0|27.41|50.09|||t-test, 2 sided|||||50.09|27.41|< 0.0001
92393349|NCT02748863|184686221|SUPERIORITY||Risk Difference (RD)|36.48|||<|0.0001|TWO_SIDED|95.0|25.19|47.76|||t-test, 2 sided|||||47.76|25.19|< 0.0001
92421538|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-2.0|||<|0.001|TWO_SIDED|95.0|-2.7|-1.4||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 4: Vasomotor||-1.4|-2.7|<0.001
92421539|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-1.8|||<|0.001|TWO_SIDED|95.0|-2.4|-1.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 8: Vasomotor||-1.1|-2.4|<0.001
92421540|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-2.0|||<|0.001|TWO_SIDED|95.0|-2.6|-1.3||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 12: Vasomotor||-1.3|-2.6|<0.001
92421541|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-4.6||||0.013|TWO_SIDED|95.0|-8.2|-1.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 4: Total Symptom Score||-1.0|-8.2|0.013
92421542|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-6.9|||<|0.001|TWO_SIDED|95.0|-10.7|-3.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 8: Total Symptom Score||-3.1|-10.7|<0.001
92236103|NCT02767570|184375689|SUPERIORITY||Mean Difference (Net)|-0.06||||0.93|TWO_SIDED|95.0|-1.42|1.3||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|||1.30|-1.42|0.93
92421543|NCT05419908|184731693|SUPERIORITY||LSMean Difference|-6.3|||<|0.001|TWO_SIDED|95.0|-9.9|-2.8||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 12: Total Symptom Score||-2.8|-9.9|<0.001
92421544|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-2.7|-0.8||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Work/School||-0.8|-2.7|<0.001
92421545|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-2.0|||<|0.001|TWO_SIDED|95.0|-2.8|-1.3||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Work/School||-1.3|-2.8|<0.001
92421546|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-1.6|||<|0.001|TWO_SIDED|95.0|-2.5|-0.8||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Work/School||-0.8|-2.5|<0.001
92421547|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-1.4|||<|0.001|TWO_SIDED|95.0|-2.2|-0.6||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Social Life||-0.6|-2.2|<0.001
92421548|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-1.9|||<|0.001|TWO_SIDED|95.0|-2.7|-1.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Social Life||-1.1|-2.7|<0.001
92421549|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-1.6|||<|0.001|TWO_SIDED|95.0|-2.4|-0.7||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Social Life||-0.7|-2.4|<0.001
92170183|NCT02721381|184229309|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||<.001
92393350|NCT02748863|184686223|SUPERIORITY||Odds Ratio (OR)|400.58|||<|0.0001|TWO_SIDED|95.0|47.48|3379.99|||Regression, Logistic|||||3379.99|47.48|< 0.0001
92393351|NCT01135134|184686224|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92393352|NCT01135134|184686225|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92393353|NCT03865446|184686255|OTHER||Geometric Means Ratio|130.91|||||TWO_SIDED|90.0|86.03|199.22|||||The model was an analysis of variance (ANOVA) model with unequal variance assumption and hepatic impairment group as fixed effect. Values were back-transformed from the log scale.|||199.22|86.03|
92393354|NCT03865446|184686256|OTHER||Geometric Means Ratio|104.41|||||TWO_SIDED|90.0|72.12|151.16|||||The model was an ANOVA model with unequal variance assumption and hepatic impairment group as fixed effect. Values are back-transformed from the log scale.|||151.16|72.12|
92393355|NCT01329978|184686263|SUPERIORITY_OR_OTHER||Difference in proportions|-1.4||||0.77|TWO_SIDED|95.0|-12.2|9.4||The p-value is based on the Cochran-Mantel-Haenszel (CMH) test stratified by randomization stratification factors.|Cochran-Mantel-Haenszel||The difference in proportions and its 95% confidence interval (CI) were calculated based on stratum-adjusted Mantel-Haenszel (MH) proportions.|The analyses was stratified by IL28B (CC versus any T allele) and plasma HCV RNA (\< 800,000 IU/mL versus ≥ 800,000 IU/mL). Only participants with genotype 1 were included in the comparison due to the fact that participants with genotype 4 and 6 were only enrolled in the SOF+PEG+RBV 24 weeks group.||9.4|-12.2|0.77
92393356|NCT01329978|184686263|SUPERIORITY_OR_OTHER||Difference in proportions|-0.4||||0.93|TWO_SIDED|95.0|-10.8|9.9||The p-value is based on the CMH test stratified by randomization stratification factors.|Cochran-Mantel-Haenszel|The difference in proportions and its 95% CI were calculated based on stratum-adjusted MH proportions.||The analyses was stratified by IL28B (CC versus any T allele) and plasma HCV RNA (\< 800,000 IU/mL versus ≥ 800,000 IU/mL).||9.9|-10.8|0.93
92393357|NCT00287716|184686299|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.023|TWO_SIDED|95.0|0.44|0.95|||Log Rank|||The null hypothesis is that there is no treatment difference between the pirfenidone 2403 mg/day treatment group and the placebo treatment group.||0.95|0.44|0.023
92393358|NCT00287716|184686305|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.515|TWO_SIDED|95.0|0.5|1.42|||Log Rank|||The null hypothesis is that there is no treatment difference between the pirfenidone 2403-mg/d treatment group and the placebo treatment group.||1.42|0.50|0.515
92393359|NCT02294058|184686308|SUPERIORITY||Rate Ratio|0.518|||<|0.0001|TWO_SIDED|95.0|0.405|0.663||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.025 level.|Poisson regression model|Adjusted for region, Baseline age, number of gadolinium enhancing (GdE) lesions and included the natural log transformation of time as an offset term.||||0.663|0.405|<0.0001
92393360|NCT02294058|184686308|SUPERIORITY||Rate Ratio|0.688||||0.0013|TWO_SIDED|95.0|0.547|0.864||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.025 level.|Poisson Regression Model|Adjusted for region, Baseline age and the number of GdE lesions, and included the natural log transformation of time on study as an offset term.||||0.864|0.547|0.0013
92393361|NCT02294058|184686309|SUPERIORITY||Rate Ratio|0.517|||<|0.0001|TWO_SIDED|95.0|0.427|0.625||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.05 level.|Negative Binomial Regression Model|Adjusted for region, Baseline age and GdE lesions; included the natural log transformation of available MRI scans over 12 months as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.625|0.427|<0.0001
92393362|NCT02294058|184686309|SUPERIORITY||Rate Ratio|0.754||||0.0032|TWO_SIDED|95.0|0.625|0.91||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.05 level.|Negative binomial regression model|Adjusted for region, Baseline age and GdE lesions; included the natural log transformation of available MRI scans over 12 months as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.910|0.625|0.0032
92393363|NCT02294058|184686310|SUPERIORITY||Rate Ratio|0.37|||<|0.0001|TWO_SIDED|95.0|0.256|0.536||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.05 level.|Negative Binomial Regression Model|Adjusted for region, Baseline age and GdE lesions; included the natural log transformation of available MRI scans as an offset term.||||0.536|0.256|<0.0001
92393364|NCT02294058|184686310|SUPERIORITY||Rate Ratio|0.662||||0.0182|TWO_SIDED|95.0|0.471|0.932||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.05 level.|Negative binomial regression model|Adjusted for region, Baseline age and GdE lesions; included the natural log transformation of available MRI scans as an offset term.||||0.932|0.471|0.0182
92393365|NCT02294058|184686311|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.3055|TWO_SIDED|95.0|0.34|1.402|||Cox proportional hazards model|Based on the Cox proportional hazard model with factors for treatment group, adjusted for region, Baseline age, and Baseline EDSS score|Hazard Ratio (Ozanimod / IFN β-1a)|||1.402|0.340|0.3055
92421550|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-1.3||||0.005|TWO_SIDED|95.0|-2.2|-0.4||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Family Life/Home Responsibilities||-0.4|-2.2|0.005
92421551|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-2.5|-0.9||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Family Life/Home Responsibilities||-0.9|-2.5|<0.001
92170184|NCT02721381|184229310|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||.85
92393366|NCT02294058|184686311|SUPERIORITY||Hazard Ratio (HR)|0.886||||0.7163|TWO_SIDED|95.0|0.46|1.705|||Cox proportional hazards model|Based on the Cox proportional hazard model with factors for treatment group, adjusted for region, Baseline age and Baseline EDSS score|Hazard Ratio (Ozanimod / IFN β-1a)|||1.705|0.460|0.7163
92393367|NCT02294058|184686312|SUPERIORITY||Hazard Ratio (HR)|1.238||||0.6725|TWO_SIDED|95.0|0.46|3.337|||Cox proportional hazards model|Based on the Cox proportional hazard model with factors for treatment group, adjusted for region, Baseline age and Baseline EDSS score|Hazard Ratio (Ozanimod / IFN β-1a)|||3.337|0.460|0.6725
92393368|NCT02294058|184686312|SUPERIORITY||Hazard Ratio (HR)|1.535||||0.3755|TWO_SIDED|95.0|0.595|3.963|||Cox proportional hazard model|Based on the Cox proportional hazard model with factors for treatment group, adjusted for region, Baseline age and Baseline EDSS score|Hazard Ratio (Ozanimod / IFN β-1a)|||3.963|0.595|0.3755
92393369|NCT02294058|184686313|SUPERIORITY||Difference in Percentages|10.88||||0.0006|TWO_SIDED|95.0|4.84|16.92|||Cochran-Mantel-Haenszel|Based on the CMH test stratified by region and EDSS category per Interactive Voice Response System (IVRS)||||16.92|4.84|0.0006
92421552|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-1.6|||<|0.001|TWO_SIDED|95.0|-2.4|-0.7||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Family Life/Home Responsibilities||-0.7|-2.4|<0.001
92421553|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-4.4|||<|0.001|TWO_SIDED|95.0|-6.9|-2.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Global Functional Impairment||-2.0|-6.9|<0.001
92421554|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-5.8|||<|0.001|TWO_SIDED|95.0|-8.0|-3.6||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Global Functional Impairment||-3.6|-8.0|<0.001
92421555|NCT05419908|184731694|SUPERIORITY||LSMean Difference|-5.3|||<|0.001|TWO_SIDED|95.0|-7.8|-2.8||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Global Functional Impairment||-2.8|-7.8|<0.001
92421556|NCT05419908|184731695|SUPERIORITY||LSMean difference|0.0||||0.936|TWO_SIDED|95.0|-0.5|0.6||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Days Lost||0.6|-0.5|0.936
92421557|NCT05419908|184731695|SUPERIORITY||LSMean difference|0.0||||0.884|TWO_SIDED|95.0|-0.1|0.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Days Lost||0.1|-0.1|0.884
92421558|NCT05419908|184731695|SUPERIORITY||LSMean difference|-0.2||||0.124|TWO_SIDED|95.0|-0.4|0.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Days Lost||0.1|-0.4|0.124
92421559|NCT05419908|184731695|SUPERIORITY||LSMean difference|-0.9||||0.052|TWO_SIDED|95.0|-1.8|0.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Days Unproductive||0.0|-1.8|0.052
92421560|NCT05419908|184731695|SUPERIORITY||LSMean difference|-0.9||||0.06||95.0|-1.7|0.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Days Unproductive||0.0|-1.7|0.060
92421561|NCT05419908|184731695|SUPERIORITY||LSMean difference|-0.8||||0.049|TWO_SIDED|95.0|-1.7|0.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Days Unproductive||0.0|-1.7|0.049
92421562|NCT01659658|184731707|SUPERIORITY||Odds Ratio (OR)|1.1|||=|0.7623|TWO_SIDED|95.0|0.6|2.01||P-value was calculated from the unstratified Cochran-Mantel-Haenszel (CMH) test to compare hematologic response rate between the treatment arms.|Cochran-Mantel-Haenszel||Odds ratio was derived from a logistic regression model with treatment and 95% confidence interval (CI) for the odds ratio was based on the Wald approximation.|Statistical analysis was planned to be collected and analyzed in a combined manner for the non-ixazomib arm groups versus ixazomib group in this outcome measure.||2.01|0.60|=0.7623
92170185|NCT02721381|184229311|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||.85
92421563|NCT01659658|184731708|SUPERIORITY||Odds Ratio (OR)|0.75|||=|0.351|TWO_SIDED|95.0|0.41|1.38||P-value was calculated from the unstratified CMH test to make comparisons between the 2 treatment arms.|Cochran-Mantel-Haenszel||Odds ratio was derived from a logistic regression model with treatment and 95% CI for the odds ratio was based on the Wald approximation.|||1.38|0.41|=0.3510
92421564|NCT01659658|184731710|SUPERIORITY||Hazard Ratio (HR)|0.82|||=|0.389|TWO_SIDED|95.0|0.52|1.29||P-value was calculated using log-rank test stratified by the stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|1.29|0.52|=0.389
92421565|NCT01659658|184731711|SUPERIORITY||Hazard Ratio (HR)|0.76|||=|0.135|TWO_SIDED|95.0|0.52|1.09||P-value was calculated using stratified log-rank test with stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|1.09|0.52|=0.135
92421566|NCT01659658|184731712|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.2421|TWO_SIDED|95.0|0.48|1.21||P-value was calculated using log-rank test stratified by the stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|1.21|0.48|0.2421
92421567|NCT01659658|184731713|SUPERIORITY||Hazard Ratio (HR)|0.62|||=|0.036|TWO_SIDED|95.0|0.39|0.97||P-value was calculated using log-rank test stratified by the stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|0.97|0.39|=0.036
92421568|NCT01659658|184731714|SUPERIORITY||Odds Ratio (OR)|1.69|||=|0.226|TWO_SIDED|95.0|0.72|3.99||P-value was calculated from the unstratified CMH test to compare vital organ response rate between the 2 treatment arms.|Cochran-Mantel-Haenszel||Odds ratio was calculated from a logistic regression model with treatment and 95% CI for the odds ratio was based on the Wald approximation.|||3.99|0.72|=0.2260
92421569|NCT01659658|184731715|SUPERIORITY||Hazard Ratio (HR)|0.76|||=|0.163|TWO_SIDED|95.0|0.52|1.12||P-value was calculated using stratified log-rank test with stratification factors.|Log Rank||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|||1.12|0.52|=0.163
92421570|NCT01659658|184731718|SUPERIORITY||Hazard Ratio (HR)|0.68|||=|0.025|TWO_SIDED|95.0|0.49|0.96||P-value was calculated using stratified log-rank test with stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|0.96|0.49|=0.025
92421571|NCT01659658|184731719|SUPERIORITY||Hazard Ratio (HR)|0.58|||=|0.01|TWO_SIDED|95.0|0.38|0.88||P-value was calculated using stratified log-rank test with stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|0.88|0.38|=0.010
92170186|NCT02721381|184229312|SUPERIORITY|||||||0.98|||||||ANCOVA|||||||.98
92170187|NCT02721381|184229313|SUPERIORITY|||||||0.69|||||||ANCOVA|||||||.69
92393370|NCT02294058|184686313|SUPERIORITY||Difference in Percentages|5.12||||0.113|TWO_SIDED|95.0|-1.07|11.32|||Cochran-Mantel-Haenszel|Based on the CMH test stratified by region and EDSS category per IVRS.||||11.32|-1.07|0.1130
92393371|NCT02294058|184686314|SUPERIORITY||Difference in Percentages|4.53||||0.118|TWO_SIDED|95.0|-1.19|10.24|||Cochran-Mantel-Haenszel|Based on the CMH test stratified by region and EDSS Scale category per IVRS.||||10.24|-1.19|0.1180
92393372|NCT02294058|184686314|SUPERIORITY||Difference in percentages|2.95||||0.3023|TWO_SIDED|95.0|-2.7|8.6|||Cochran-Mantel-Haenszel|Based on the CMH test stratified by region and EDSS Scale category per IVRS.||||8.60|-2.70|0.3023
92393373|NCT02294058|184686315|SUPERIORITY||||||<|0.0001|||||||Rank ANCOVA|Adjusted for region and EDSS category per IVRS||Due to the non-normal distribution of the data for brain volume loss, the analyses for percent change from baseline in normalized brain volume were compared using rank-ANCOVA, adjusted for region (Eastern Europe vs Rest of World), and EDSS category per IVRS, with the dependent variable as the residual of the rank of brain volume at Baseline regressed on rank of percent change.||||<0.0001
92393374|NCT02294058|184686315|SUPERIORITY|||||||0.0615|||||||Rank ANCOVA|Adjusted for region and EDSS Scale per IVRS||Due to the non-normal distribution of the data for brain volume loss, the analyses for percent change from baseline in normalized brain volume were compared using rank-ANCOVA, adjusted for region (Eastern Europe vs Rest of World), and EDSS category per IVRS, with the dependent variable as the residual of the rank of brain volume at Baseline regressed on rank of percent change.||||0.0615
92393375|NCT02294058|184686316|SUPERIORITY||LS Mean Difference|0.034||||0.129|TWO_SIDED|95.0|-0.01|0.077|||ANCOVA|Adjusted for region, EDSS category per IVRS and the Baseline MSFC score.||||0.077|-0.010|0.1290
92421572|NCT00674973|184731739|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.1909|TWO_SIDED|95.0|0.63|1.1|||Log Rank|||Cox proportional hazards model was used to estimate the Hazard Ratio (erlotinib compared with placebo), including 95 percent (%) confidence intervals (CIs).||1.10|0.63|0.1909
92421573|NCT00763048|184731749|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||<0.05
92421574|NCT00763048|184731750|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||<0.05
92421575|NCT00763048|184731751|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||<0.05
92421576|NCT00763048|184731752|SUPERIORITY_OR_OTHER|||||||0.05|ONE_SIDED|95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92421577|NCT00763048|184731753|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92421578|NCT00763048|184731754|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92421579|NCT00763048|184731755|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92421580|NCT00763048|184731756|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92421581|NCT00763048|184731757|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
92421582|NCT00518687|184731778|SUPERIORITY_OR_OTHER||Vaccine Efficacy (VE)|18.5||||0.584|TWO_SIDED|95.0|-48.6|55.8||A 1-sided p-value \<0.025 implies that the V710 vaccine efficacy is statistically significantly greater than 20%|Exact 1-sided binomial test||VE = 1 - Relative Risk of V710 compared with placebo|||55.8|-48.6|0.584
92170188|NCT02721381|184229314|SUPERIORITY|||||||0.038|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||.038
92393376|NCT02294058|184686316|SUPERIORITY||LS Mean Difference|0.015||||0.4942|TWO_SIDED|95.0|-0.028|0.059|||ANCOVA|Adjusted for region, EDSS category per IVRS and the Baseline MSFC score||||0.059|-0.028|0.4942
92393377|NCT02294058|184686317|SUPERIORITY||Mean Difference (Final Values)|1.642||||0.0364|TWO_SIDED|95.0|0.104|3.18|||ANCOVA|Adjusted for region, EDSS category per IVRS, and the Baseline summary score.||Analysis of Physical Health Composite Summary||3.180|0.104|0.0364
92393378|NCT02294058|184686317|SUPERIORITY||Mean Difference (Final Values)|1.024||||0.1905|TWO_SIDED|95.0|-0.51|2.559|||ANCOVA|Adjusted for region, EDSS category per IVRS, and the Baseline summary score.||Analysis of Physical Health Composite Summary||2.559|-0.510|0.1905
92421583|NCT00518687|184731779|SUPERIORITY_OR_OTHER||Estimated rate difference|0.0||||0.997|TWO_SIDED|95.0|-0.1|0.1|||Miettinen and Nurminen|||||0.1|-0.1|0.997
92421584|NCT00518687|184731780|SUPERIORITY_OR_OTHER||Vaccine Efficacy (VE)|12.9||||0.347|TWO_SIDED|95.0|-50.8|50.0||A 1-sided p-value \<0.025 implies that the V710 vaccine efficacy is statistically significant|Exact 1-sided binomial test||VE = 1 - Relative Risk of V710 compared with placebo|||50.0|-50.8|0.347
92421585|NCT00518687|184731781|SUPERIORITY_OR_OTHER||Vaccine Efficacy (VE)|29.3||||0.032|TWO_SIDED|95.0|-1.8|51.2||A 1-sided p-value \<0.025 implies that the V710 vaccine efficacy is statistically significant|Exact 1-sided binomial test||VE = 1 - Relative Risk of V710 compared with placebo|||51.2|-1.8|0.032
92421586|NCT01442038|184731783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.948||||0.48|TWO_SIDED|95.0|0.818|1.099||The p-value and hazard ratio are from Cox proportional hazards model stratifying by reason for qualifying percutaneous coronary intervention (PCI): acute coronary syndrome (ACS) versus non-ACS indication, and history of diabetes (yes versus no).|Cox Proportional Hazards Model|||||1.099|0.818|0.48
92421587|NCT01442038|184731784|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.665||||0.4|TWO_SIDED|95.0|0.244|1.691||The p-value and hazard ratio are from Cox proportional hazards model stratifying by reason for qualifying PCI: ACS versus non-ACS indication, and history of diabetes (yes versus no).|Cox Proportional Hazards Model|||||1.691|0.244|0.40
92393379|NCT02294058|184686317|SUPERIORITY||Mean Difference (Final Values)|0.356||||0.7104|TWO_SIDED|95.0|-1.523|2.234|||ANCOVA|Adjusted for region, EDSS category per IVRS, and the Baseline summary score.||Analysis of Mental Health Composite Summary||2.234|-1.523|0.7104
92421588|NCT01442038|184731785|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.073||||0.82|TWO_SIDED|95.0|0.579|1.994||The p-value and hazard ratio are from Cox proportional hazards model stratifying by reason for qualifying PCI: ACS versus non-ACS indication, and history of diabetes (yes versus no).|Cox Proportional Hazards Model|||||1.994|0.579|0.82
92393380|NCT02294058|184686317|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.8587|TWO_SIDED|95.0|-2.045|1.705|||ANCOVA|Adjusted for region, EDSS category per IVRS, and the Baseline summary score.||Analysis of Mental Health Composite Summary||1.705|-2.045|0.8587
92393381|NCT02741245|184686397|OTHER||Difference in M-estimates|-35.9|||<|0.001|TWO_SIDED|95.0|-39.9|-32.0|||Shapiro-Wilk test|Robust regression model with terms for treatment, risk category and baseline, after imputing missing values by a multiple imputation approach||||-32.0|-39.9|<0.001
92393382|NCT02741245|184686397|OTHER|Robust regression model with terms for treatment, risk category and baseline, after imputing missing values by a multiple imputation approach|Difference in M-estimates|-14.8|||<|0.001|TWO_SIDED|95.0|-18.0|-11.6|||Shapiro-Wilk test|||||-11.6|-18.0|<0.001
92393383|NCT02741245|184686397|OTHER|Robust regression model with terms for treatment, risk category and baseline, after imputing missing values by a multiple imputation approach|Difference in M-estimates|-41.8|||<|0.001|TWO_SIDED|95.0|-45.8|-37.9|||Shapiro-Wilk test|||||-37.9|-45.8|<0.001
92393384|NCT02741245|184686397|OTHER|Robust regression model with terms for treatment, risk category and baseline, after imputing missing values by a multiple imputation approach|Differecne in M-estimates|-13.3|||<|0.001|TWO_SIDED|95.0|-16.6|-10.1|||Shapiro-Wilk test|||||-10.1|-16.6|<0.001
92393385|NCT00607087|184686436|SUPERIORITY_OR_OTHER|||||||0.039||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.039
92393386|NCT00607087|184686436|SUPERIORITY_OR_OTHER|||||||0.031||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025.|McNemar|||||||0.031
92393387|NCT00607087|184686437|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
92393388|NCT00607087|184686437|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
92393389|NCT00607087|184686438|SUPERIORITY_OR_OTHER|||||||0.08||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.080
92393390|NCT00607087|184686438|SUPERIORITY_OR_OTHER|||||||0.107||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.107
92393391|NCT00607087|184686439|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
92421589|NCT01442038|184731786|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.968||||0.81|TWO_SIDED|95.0|0.745|1.256||The p-value and hazard ratio are from Cox proportional hazards model stratifying by reason for qualifying PCI: ACS versus non-ACS indication, and history of diabetes (yes versus no).|Cox Proportional Hazards Model|||||1.256|0.745|0.81
92421590|NCT00137631|184731792|SUPERIORITY_OR_OTHER||Rate Ratio|0.58|||<|0.05||95.0|0.33|1.01|||negative binomial regression|||||1.01|0.33|< 0.05
92393392|NCT00607087|184686439|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||<0.001
92393393|NCT00607087|184686440|SUPERIORITY_OR_OTHER|||||||0.079||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.079
92393394|NCT00607087|184686440|SUPERIORITY_OR_OTHER|||||||0.063||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.063
92393395|NCT00607087|184686441|SUPERIORITY_OR_OTHER|||||||0.015||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.015
92393396|NCT00607087|184686441|SUPERIORITY_OR_OTHER|||||||0.073||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.073
92421591|NCT00137631|184731793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33|||<|0.05||95.0|1.05|1.68|||generalized estimating equations|Tests intervention efficacy over all study periods (baseline, 3-months, and 6-months)||||1.68|1.05|< 0.05
92421592|NCT00137631|184731794|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17|||<|0.05||95.0|0.69|1.98|||Mixed Models Analysis|||||1.98|0.69|< 0.05
92393397|NCT00607087|184686442|SUPERIORITY_OR_OTHER|||||||0.017||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.017
92421593|NCT00137631|184731795|SUPERIORITY_OR_OTHER||Rate Ratio|0.49|||<|0.05||95.0|0.28|0.87|||generalized estimating equations|Tests intervention efficacy over all study periods (baseline, 3-months, and 6-months)||||0.87|0.28|< 0.05
92421594|NCT00137631|184731796|SUPERIORITY_OR_OTHER||Rate Ratio|0.8|||<|0.05||95.0|0.42|1.53|||generalized estimating equations|Tests intervention efficacy over all study periods (baseline, 3-months, and 6-months)||||1.53|0.42|< 0.05
92421595|NCT02611960|184731797|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.2262|TWO_SIDED|95.0|0.67|1.19||One-sided p-value based on log-rank test stratified by presence of liver metastasis.|Stratified Log-Rank Test|||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by presence of liver metastasis.||1.19|0.67|0.2262
92421596|NCT02611960|184731798|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.9419|TWO_SIDED|95.0|0.94|1.75||One-sided p-value based on log-rank test stratified by presence of liver metastasis.|Stratified Log-Rank Test|||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by presence of liver metastasis.||1.75|0.94|0.9419
92421597|NCT02611960|184731799|SUPERIORITY||Difference in Percentage|-1.9||||0.63479|TWO_SIDED|95.0|-12.7|8.9||One-sided p-value for testing. H0: difference in percentage = 0 versus H1: difference in percentage \> 0.|Stratified Miettinen and Nurminen Method|||Comparison based on Miettinen \& Nurminen method stratified by presence of liver metastasis.||8.9|-12.7|0.63479
92421598|NCT00351000|184731821|SUPERIORITY_OR_OTHER|||||||0.956||95.0|||||t-test, 2 sided|||||||0.956
92421599|NCT00351000|184731822|SUPERIORITY_OR_OTHER|||||||0.988||95.0|||||t-test, 2 sided|||||||0.988
92421600|NCT00085709|184731823|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Cox|The interim analysis only reported a p-value for testing whether the hazard ratio was not equal to 1.5.||Interim futility analysis of the alternative hypothesis for disease-free survival. The design specified a hazard ratio of (observation: GO) of 1.5.||||<0.001
92170189|NCT02721381|184229315|SUPERIORITY|||||||0.45|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||.45
92421601|NCT00085709|184731824|SUPERIORITY_OR_OTHER||||||<|0.0025||95.0|||||Test of difference of proportions|||Interim futility analysis alternative hypothesis based on the design specification that the 7+3+GO arm would have a 12% increase in CR rate.||||<0.0025
92421602|NCT04131556|184731826|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least square means|67.76|||||TWO_SIDED|90.0|59.5|77.16|||ANOVA|||||77.16|59.50|
92421603|NCT04131556|184731826|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least squares means|62.29|||||TWO_SIDED|90.0|54.73|70.9|||ANOVA|||||70.90|54.73|
92421604|NCT04131556|184731827|OTHER||Median Difference (Final Values)|1.25|||<|0.001|TWO_SIDED|90.0|0.75|1.75|||Wilcoxon signed rank test|||Statistical analysis of tmax was performed using a nonparametric test. The median difference of tmax between treatments and 90% CIs of the median differences were calculated from Hodges-Lehman estimate, and p-value was produced from Wilcoxon signed rank test.||1.75|0.75|<.001
92421605|NCT04131556|184731827|OTHER||Median Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|90.0|0.75|1.25|||Wilcoxon signed rank test|||Statistical analysis of tmax was performed using a nonparametric test. The median difference of tmax between treatments and 90% CIs of the median differences were calculated from Hodges-Lehman estimate, and p-value was produced from Wilcoxon signed rank test.||1.25|0.75|<.001
92421606|NCT04131556|184731828|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least squares means|81.27|||||TWO_SIDED|90.0|73.88|89.4|||ANOVA|||||89.40|73.88|
92393398|NCT00607087|184686442|SUPERIORITY_OR_OTHER|||||||0.032||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.032
92393399|NCT00607087|184686443|SUPERIORITY_OR_OTHER|||||||0.009||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.009
92393400|NCT00607087|184686443|SUPERIORITY_OR_OTHER|||||||0.019||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.019
92421607|NCT04131556|184731828|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least squares means|78.0|||||TWO_SIDED|90.0|70.92|85.79|||ANOVA|||||85.79|70.92|
92421608|NCT04131556|184731829|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least squares means|83.52|||||TWO_SIDED|90.0|76.12|91.64|||ANOVA|||||91.64|76.12|
92421609|NCT04131556|184731829|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least squares means|80.36|||||TWO_SIDED|90.0|73.26|88.16|||ANOVA|||||88.16|73.26|
92421610|NCT04131556|184731832|OTHER||Median Difference (Final Values)|0.13||||0.006|TWO_SIDED|90.0|0.13|0.25|||Wilcoxon signed rank test|||Statistical analysis of Tlag was performed using a nonparametric test. The median difference of Tlag between treatments and 90% CIs of the median differences were calculated from Hodges-Lehman estimate, and p-value was produced from Wilcoxon signed rank test.||0.25|0.13|0.006
92421611|NCT04131556|184731832|OTHER||Median Difference (Final Values)|0.13||||0.011|TWO_SIDED|90.0|0.13|0.25|||Wilcoxon signed rank test|||Statistical analysis of Tlag was performed using a nonparametric test. The median difference of Tlag between treatments and 90% CIs of the median differences were calculated from Hodges-Lehman estimate, and p-value was produced from Wilcoxon signed rank test.||0.25|0.13|0.011
92421612|NCT04622735|184731842|SUPERIORITY|||||||0.0031|||||||Mixed Models Analysis|||||||0.0031
92393401|NCT00607087|184686444|SUPERIORITY_OR_OTHER|||||||0.008||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.008
92393402|NCT00607087|184686444|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
92393403|NCT00607087|184686445|SUPERIORITY_OR_OTHER|||||||0.563||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.563
92421613|NCT04622735|184731842|SUPERIORITY|||||||0.6787|||||||Mixed Models Analysis|||||||0.6787
92421614|NCT00145600|184731867|SUPERIORITY_OR_OTHER_LEGACY||KM Event-free survival estimate|0.886|||||TWO_SIDED|95.0|0.82|0.953||||||||0.953|0.820|
92421615|NCT00145600|184731867|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.844|||||TWO_SIDED|95.0|0.739|0.95||||||||0.950|0.739|
92421616|NCT00145600|184731867|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.667|||||TWO_SIDED|95.0|0.4|0.933||||||||0.933|0.400|
92421617|NCT00145600|184731867|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.793|||||TWO_SIDED|95.0|0.726|0.86||||||||0.860|0.726|
92421618|NCT00145600|184731868|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3097||95.0|||||Wilcoxon signed rank test|||||||0.3097
92421619|NCT00145600|184731868|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.6|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421620|NCT00145600|184731868|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
92421621|NCT00145600|184731868|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.5|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421622|NCT00145600|184731868|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
92421623|NCT00145600|184731868|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.37|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421624|NCT00145600|184731868|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0197||95.0|||||Wilcoxon signed rank test|||||||0.0197
92421625|NCT00145600|184731868|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.51|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421626|NCT00145600|184731869|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
92421627|NCT00145600|184731869|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.46|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421628|NCT00145600|184731869|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Wilcoxon signed rank test|||||||0.0001
92421629|NCT00145600|184731869|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.41|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421630|NCT00145600|184731869|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
92421631|NCT00145600|184731869|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.42|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92393404|NCT00607087|184686445|SUPERIORITY_OR_OTHER|||||||0.186||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.186
92393405|NCT00607087|184686446|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
92393406|NCT00607087|184686446|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
92393407|NCT00607087|184686447|SUPERIORITY_OR_OTHER|||||||1||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||1.000
92393408|NCT00607087|184686447|SUPERIORITY_OR_OTHER|||||||0.701||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.701
92393409|NCT00607087|184686450|SUPERIORITY_OR_OTHER|||||||0.078||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|ANCOVA|ANCOVA adjusted on HbA1c value at the start of the first period||||||0.078
92393410|NCT00607087|184686450|SUPERIORITY_OR_OTHER|||||||0.938||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|ANCOVA|ANCOVA adjusted on HbA1c level at the start of the first period||||||0.938
92393411|NCT01774799|184686455|SUPERIORITY||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.69|1.69||||||||1.69|0.69|
92393412|NCT01774799|184686456|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.66|2.2||||||||2.20|0.66|
92393413|NCT01774799|184686457|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.58|1.58||||||||1.58|0.58|
92393414|NCT01774799|184686458|SUPERIORITY||Odds Ratio (OR)|1.79|||||TWO_SIDED|95.0|1.13|2.82||||||||2.82|1.13|
92393415|NCT01774799|184686459|SUPERIORITY|||||||0.32|||||||Regression, Linear|||||||0.32
92393416|NCT00965250|184686520|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Kaplan Meier|||||||<0.0001
92393417|NCT00965250|184686521|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Kaplan Meier|||||||<0.0001
92393418|NCT05051579|184686533|SUPERIORITY||LS Mean difference (Final Values)|-6.5|||<|0.001|TWO_SIDED|95.0|-8.9|-4.2|||Mixed Models Analysis|||||-4.2|-8.9|<0.001
92393419|NCT05051579|184686533|SUPERIORITY||LS Mean difference (Final Values)|-9.2|||<|0.001|TWO_SIDED|95.0|-11.5|-6.9|||Mixed Models Analysis|||||-6.9|-11.5|<0.001
92393420|NCT05051579|184686533|SUPERIORITY||LS Mean difference (Final Values)|-10.2|||<|0.001|TWO_SIDED|95.0|-12.4|-8.0|||Mixed Models Analysis|||||-8.0|-12.4|<0.001
92393421|NCT05051579|184686533|SUPERIORITY||LS Mean difference (Final Values)|-10.6|||<|0.001|TWO_SIDED|95.0|-12.7|-8.4|||Mixed Models Analysis|||||-8.4|-12.7|<0.001
92393422|NCT05051579|184686534|OTHER||LS Mean difference (Final Values)|-7.1|||<|0.001|TWO_SIDED|95.0|-9.9|-4.2|||Mixed Models Analysis|||||-4.2|-9.9|<0.001
92393423|NCT05051579|184686534|OTHER||LS Mean difference (Final Values)|-10.1|||<|0.001|TWO_SIDED|95.0|-12.9|-7.3|||Mixed Models Analysis|||||-7.3|-12.9|<0.001
92393424|NCT05051579|184686534|OTHER||LS Mean difference (Final Values)|-11.1|||<|0.001|TWO_SIDED|95.0|-13.8|-8.4|||Mixed Models Analysis|||||-8.4|-13.8|<0.001
92393425|NCT05051579|184686534|OTHER||LS Mean difference (Final Values)|-12.3|||<|0.001|TWO_SIDED|95.0|-15.0|-9.6|||Mixed Models Analysis|||||-9.6|-15.0|<0.001
92393426|NCT05051579|184686535|OTHER||LS Mean difference (Final Values)|-6.9|||<|0.001|TWO_SIDED|95.0|-9.3|-4.4|||Mixed Models Analysis|||||-4.4|-9.3|<0.001
92393427|NCT05051579|184686535|OTHER||LS Mean difference (Final Values)|-10.2|||<|0.001|TWO_SIDED|95.0|-12.5|-7.8|||Mixed Models Analysis|||||-7.8|-12.5|<0.001
92393428|NCT05051579|184686535|OTHER||LS Mean difference (Final Values)|-10.8|||<|0.001|TWO_SIDED|95.0|-13.1|-8.5|||Mixed Models Analysis|||||-8.5|-13.1|<0.001
92393429|NCT05051579|184686535|OTHER||LS Mean difference (Final Values)|-11.2|||<|0.001|TWO_SIDED|95.0|-13.5|-8.9|||Mixed Models Analysis|||||-8.9|-13.5|<0.001
92393430|NCT05051579|184686536|OTHER||LS Mean difference (Final Values)|-7.4|||<|0.001|TWO_SIDED|95.0|-10.4|-4.3|||Mixed Models Analysis|||||-4.3|-10.4|<0.001
92393431|NCT05051579|184686536|OTHER||LS Mean difference (Final Values)|-11.2|||<|0.001|TWO_SIDED|95.0|-14.2|-8.3|||Mixed Models Analysis|||||-8.3|-14.2|<0.001
92393432|NCT05051579|184686536|OTHER||LS Mean difference (Final Values)|-11.8|||<|0.001|TWO_SIDED|95.0|-14.7|-9.0|||Mixed Models Analysis|||||-9.0|-14.7|<0.001
92393433|NCT05051579|184686536|OTHER||LS Mean difference (Final Values)|-13.0|||<|0.001|TWO_SIDED|95.0|-15.8|-10.2|||Mixed Models Analysis|||||-10.2|-15.8|<0.001
92393434|NCT05051579|184686537|OTHER||LS Mean difference (Final Values)|-4.4||||0.002|TWO_SIDED|95.0|-7.2|-1.6|||Mixed Models Analysis|||||-1.6|-7.2|0.002
92393435|NCT05051579|184686537|OTHER||LS Mean difference (Final Values)|-5.2|||<|0.001|TWO_SIDED|95.0|-8.0|-2.4|||Mixed Models Analysis|||||-2.4|-8.0|<0.001
92393436|NCT05051579|184686537|OTHER||LS Mean difference (Final Values)|-6.5|||<|0.001|TWO_SIDED|95.0|-9.2|-3.8|||Mixed Models Analysis|||||-3.8|-9.2|<0.001
92393437|NCT05051579|184686537|OTHER||LS Mean difference (Final Values)|-8.7|||<|0.001|TWO_SIDED|95.0|-11.3|-6.0|||Mixed Models Analysis|||||-6.0|-11.3|<0.001
92393438|NCT05051579|184686538|OTHER||LS Mean difference (Final Values)|-5.6|||<|0.001|TWO_SIDED|95.0|-8.8|-2.4|||Mixed Models Analysis|||||-2.4|-8.8|<0.001
92393439|NCT05051579|184686538|OTHER||LS Mean difference (Final Values)|-7.2|||<|0.001|TWO_SIDED|95.0|-10.3|-4.0|||Mixed Models Analysis|||||-4.0|-10.3|<0.001
92421632|NCT00145600|184731869|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3624||95.0|||||Wilcoxon signed rank test|||||||0.3624
92421633|NCT00145600|184731869|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.52|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421634|NCT00145600|184731870|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0254||95.0|||||Wilcoxon signed rank test|||||||0.0254
92421635|NCT00145600|184731870|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.44|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421636|NCT00145600|184731870|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||95.0|||||Wilcoxon signed rank test|||||||0.0004
92421637|NCT00145600|184731870|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.32||||0.0001||95.0|||||Spearman Correlation Coefficients|||||||0.0001
92421638|NCT00145600|184731870|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon Correlation Coefficients|||||||<0.0001
92421639|NCT00145600|184731870|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.39|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421640|NCT00145600|184731870|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014||95.0|||||Wilcoxon signed rank test|||||||0.0014
92421641|NCT00145600|184731870|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.26||||0.0061||95.0|||||Spearman Correlation Coefficients|||||||0.0061
92236104|NCT02767570|184375690|SUPERIORITY||Mean Difference (Net)|-0.29||||0.85|TWO_SIDED|95.0|-3.38|2.8||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|||2.80|-3.38|0.85
92170190|NCT02721381|184229316|SUPERIORITY|||||||0.92|||||||ANCOVA|||ANCOVA controlling for T1 measure||||.92
92421642|NCT00145600|184731871|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0687||95.0|||||Wilcoxon signed rank test|||||||0.0687
92421643|NCT00145600|184731871|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.65|||<|0.0001||95.0|||||Spearman Correlation Coefficient|||||||<0.0001
92421644|NCT00145600|184731871|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9478||95.0|||||Wilcoxon signed rank test|||||||0.9478
92421645|NCT00145600|184731871|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.42|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421646|NCT00145600|184731871|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2999||95.0|||||Wilcoxon signed rank test|||||||0.2999
92421647|NCT00145600|184731871|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.49|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421648|NCT00145600|184731871|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3121||95.0|||||Wilcoxon signed rank test|||||||0.3121
92421649|NCT00145600|184731871|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.52|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421650|NCT00145600|184731872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014||95.0|||||Wilcoxon signed rank test|||||||0.0014
92421651|NCT00145600|184731872|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.57|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421652|NCT00145600|184731872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0282||95.0|||||Wilcoxon signed rank test|||||||0.0282
92421653|NCT00145600|184731872|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.35||||0.0002||95.0|||||Spearman Correlation Coefficients|||||||0.0002
92421654|NCT00145600|184731872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0038||95.0|||||Wilcoxon signed rank test|||||||0.0038
92421655|NCT00145600|184731872|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.43|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421656|NCT00145600|184731872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1474||95.0|||||Wilcoxon signed rank test|||||||0.1474
92170191|NCT02721381|184229317|SUPERIORITY|||||||0.42|||||||ANCOVA|||ANCOVA controlling for T1 measure||||.42
92421657|NCT00145600|184731872|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.49|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421658|NCT00145600|184731873|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0281||95.0|||||Wilcoxon signed rank test|||||||0.0281
92421659|NCT00145600|184731873|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.63|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421660|NCT00145600|184731873|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||Wilcoxon signed rank test|||||||0.0050
92421661|NCT00145600|184731873|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.45|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421662|NCT00145600|184731873|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||95.0|||||Wilcoxon signed rank test|||||||0.0005
92421663|NCT00145600|184731873|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.37||||0.0001||95.0|||||Spearman Correlation Coefficients|||||||0.0001
92421664|NCT00145600|184731873|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0552||95.0|||||Wilcoxon signed rank test|||||||0.0552
92421665|NCT00145600|184731873|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.54|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421666|NCT00145600|184731874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
92421667|NCT00145600|184731874|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.53|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421668|NCT00145600|184731874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxan signed rank test|||||||<0.0001
92421669|NCT00145600|184731874|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.68|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421670|NCT00145600|184731874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0|||||Wilcoxon signed rank test|||||||0.0017
92421671|NCT00145600|184731874|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.5|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421672|NCT00145600|184731875|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2758||95.0|||||Wilcoxon signed rank test|||||||0.2758
92421673|NCT00145600|184731875|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.6|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421674|NCT00145600|184731875|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1731||95.0|||||Wilcoxon signed rank test|||||||0.1731
92421675|NCT00145600|184731875|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.6|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421676|NCT00145600|184731875|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0846||95.0|||||Wilcoxon signed rank test|||||||0.0846
92421677|NCT00145600|184731875|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.46|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92236105|NCT02767570|184375691|SUPERIORITY||Mean Difference (Net)|0.0||||0.99|TWO_SIDED|95.0|-0.89|0.9||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|||0.90|-0.89|0.99
92236106|NCT01981122|184375709|SUPERIORITY|||||||0.095|||||||Mixed Models Analysis|Repeated Measures||||||.095
92393440|NCT05051579|184686538|OTHER||LS Mean difference (Final Values)|-6.6|||<|0.001|TWO_SIDED|95.0|-9.7|-3.6|||Mixed Models Analysis|||||-3.6|-9.7|<0.001
92393441|NCT05051579|184686538|OTHER||LS Mean difference (Final Values)|-9.6|||<|0.001|TWO_SIDED|95.0|-12.7|-6.6|||Mixed Models Analysis|||||-6.6|-12.7|<0.001
92393442|NCT05051579|184686539|OTHER||LS Mean difference (Final Values)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.2|-1.6|||Mixed Models Analysis|||||-1.6|-3.2|<0.001
92393443|NCT05051579|184686539|OTHER||LS Mean difference (Final Values)|-3.5|||<|0.001|TWO_SIDED|95.0|-4.3|-2.6|||Mixed Models Analysis|||||-2.6|-4.3|<0.001
92393444|NCT05051579|184686539|OTHER||LS Mean difference (Final Values)|-3.8|||<|0.001|TWO_SIDED|95.0|-4.6|3.0|||Mixed Models Analysis|||||3.0|-4.6|<0.001
92393445|NCT05051579|184686539|OTHER||LS Mean difference (Final Values)|-3.9|||<|0.001|TWO_SIDED|95.0|-4.7|-3.1|||Mixed Models Analysis|||||-3.1|-4.7|<0.001
92393446|NCT05051579|184686540|OTHER||LS Mean difference (Final Values)|-2.5|||<|0.001|TWO_SIDED|95.0|-3.6|-1.5|||Mixed Models Analysis|||||-1.5|-3.6|<0.001
92393447|NCT05051579|184686540|OTHER||LS Mean difference (Final Values)|-3.8|||<|0.001|TWO_SIDED|95.0|-4.8|-2.8|||Mixed Models Analysis|||||-2.8|-4.8|<0.001
92393448|NCT05051579|184686540|OTHER||LS Mean difference (Final Values)|-4.2|||<|0.001|TWO_SIDED|95.0|-5.2|-3.2|||Mixed Models Analysis|||||-3.2|-5.2|<0.001
92393449|NCT05051579|184686540|OTHER||LS Mean difference (Final Values)|-4.6|||<|0.001|TWO_SIDED|95.0|-5.6|-3.6|||Mixed Models Analysis|||||-3.6|-5.6|<0.001
92393450|NCT05051579|184686541|OTHER||Odds Ratio (OR)|9.96|||<|0.001|TWO_SIDED|95.0|3.61|27.44|||Regression, Logistic|||||27.44|3.61|<0.001
92393451|NCT05051579|184686541|OTHER||Odds Ratio (OR)|27.97|||<|0.001|TWO_SIDED|95.0|8.15|96.01|||Regression, Logistic|||||96.01|8.15|<0.001
92393452|NCT05051579|184686541|OTHER||Odds Ratio (OR)|27.36|||<|0.001|TWO_SIDED|95.0|8.71|85.91|||Regression, Logistic|||||85.91|8.71|<0.001
92393453|NCT05051579|184686541|OTHER||Odds Ratio (OR)|23.59|||<|0.001|TWO_SIDED|95.0|7.65|72.77|||Regression, Logistic|||||72.77|7.65|<0.001
92393454|NCT05051579|184686542|OTHER||Odds Ratio (OR)|19.93|||<|0.001|TWO_SIDED|95.0|3.47|114.4|||Regression, Logistic|||||114.40|3.47|<0.001
92236107|NCT00089843|184375710|SUPERIORITY_OR_OTHER_LEGACY||Percent change between 0 and 12 months|3.2|||<|0.0001|TWO_SIDED|95.0|1.8|4.6||This p value was for the effect of Actonel (risedronate) on bone mineral density of the spine.|Factorial analysis|||Factorial analysis||4.6|1.8|<0.0001
92393455|NCT05051579|184686542|OTHER||Odds Ratio (OR)|39.52|||<|0.001|TWO_SIDED|95.0|6.95|224.83|||Regression, Logistic|||||224.83|6.95|<0.001
92393456|NCT05051579|184686542|OTHER||Odds Ratio (OR)|74.97|||<|0.001|TWO_SIDED|95.0|13.16|427.18|||Regression, Logistic|||||427.18|13.16|<0.001
92393457|NCT05051579|184686542|OTHER||Odds Ratio (OR)|72.23|||<|0.001|TWO_SIDED|95.0|12.62|413.21|||Regression, Logistic|||||413.21|12.62|<0.001
92393458|NCT05051579|184686543|OTHER||Odds Ratio (OR)|7.79|||<|0.001|TWO_SIDED|95.0|2.9|20.92|||Regression, Logistic|||||20.92|2.90|<0.001
92393459|NCT05051579|184686543|OTHER||Odds Ratio (OR)|25.07|||<|0.001|TWO_SIDED|95.0|7.49|83.91|||Regression, Logistic|||||83.91|7.49|<0.001
92393460|NCT05051579|184686543|OTHER||Odds Ratio (OR)|34.76|||<|0.001|TWO_SIDED|95.0|8.17|147.86|||Regression, Logistic|||||147.86|8.17|<0.001
92393461|NCT05051579|184686543|OTHER||Odds Ratio (OR)|28.01|||<|0.001|TWO_SIDED|95.0|8.15|96.29|||Regression, Logistic|||||96.29|8.15|<0.001
92393462|NCT05051579|184686544|OTHER||Odds Ratio (OR)|8.27|||<|0.001|TWO_SIDED|95.0|2.59|26.45|||Regression, Logistic|||||26.45|2.59|<0.001
92393463|NCT05051579|184686544|OTHER||Odds Ratio (OR)|15.64|||<|0.001|TWO_SIDED|95.0|4.83|50.68|||Regression, Logistic|||||50.68|4.83|<0.001
92393464|NCT05051579|184686544|OTHER||Odds Ratio (OR)|27.24|||<|0.001|TWO_SIDED|95.0|8.39|88.38|||Regression, Logistic|||||88.38|8.39|<0.001
92393465|NCT05051579|184686544|OTHER||Odds Ratio (OR)|20.88|||<|0.001|TWO_SIDED|95.0|6.59|66.17|||Regression, Logistic|||||66.17|6.59|<0.001
92393466|NCT06172348|184686551|OTHER||Ratio of Adjusted Geometric Means|21.89|||||TWO_SIDED|90.0|19.31|24.8|||||Ratios (Test/Reference) and 90 percent (%) confidence intervals were expressed as percentages. Test = MR1 capsule; Reference = Oral solution.|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||24.80|19.31|
92393467|NCT06172348|184686551|OTHER||Ratio of Adjusted Geometric Means|12.65|||||TWO_SIDED|90.0|11.21|14.27|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR2 capsule; Reference = Oral solution.|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||14.27|11.21|
92421678|NCT00145600|184731876|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4263||95.0|||||Wilcoxon signed rank test|||||||0.4263
92421679|NCT00145600|184731876|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.51|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421680|NCT00145600|184731876|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
92236108|NCT00089843|184375710|SUPERIORITY_OR_OTHER_LEGACY||Percent change between 0 and 12 months|-0.6||||0.41|TWO_SIDED|95.0|-2.0|0.8||This p value was for the effect of testosterone on bone mineral density of the spine.|Factorial analysis|||Factorial analysis||0.8|-2.0|0.41
92393468|NCT06172348|184686552|OTHER||Ratio of Adjusted Geometric Means|86.49|||||TWO_SIDED|90.0|79.11|94.54|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR1 capsule; Reference = Oral solution.|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||94.54|79.11|
92393469|NCT06172348|184686552|OTHER||Ratio of Adjusted Geometric Means|76.99|||||TWO_SIDED|90.0|70.65|83.9|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR2 capsule; Reference = Oral solution.|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||83.90|70.65|
92393470|NCT06172348|184686553|OTHER||Ratio of Adjusted Geometric Means|123.92|||||TWO_SIDED|90.0|105.16|146.02|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR1 capsule (fed); Reference = MR1 capsule (fasted).|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||146.02|105.16|
92393471|NCT06172348|184686553|OTHER||Ratio of Adjusted Geometric Means|129.79|||||TWO_SIDED|90.0|111.51|151.06|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR2 capsule (fed); Reference = MR2 capsule (fasted).|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||151.06|111.51|
92393472|NCT06172348|184686554|OTHER||Ratio of Adjusted Geometric Means|107.48|||||TWO_SIDED|90.0|96.46|119.76|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR1 capsule (fed); Reference = MR1 capsule (fasted).|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||119.76|96.46|
92393473|NCT06172348|184686554|OTHER||Ratio of Adjusted Geometric Means|109.63|||||TWO_SIDED|90.0|99.19|121.17|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR2 capsule (fed); Reference = MR2 capsule (fasted).|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||121.17|99.19|
92393474|NCT01116648|184686559|OTHER||Maximum Tolerated Dose (mg)|30.0|||||TWO_SIDED||||||||Cediranib|||||
92393475|NCT01116648|184686559|OTHER||Maximum Tolerated Dose (mg BID)|200.0|||||TWO_SIDED||||||||Olaparib|||||
92393476|NCT01116648|184686561|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.006|TWO_SIDED|95.0|0.3|0.83|||Kaplan-Meier Plot|||||0.83|0.30|0.006
92393477|NCT04037891|184686581|SUPERIORITY||Difference of percentage of participants|16.7|||||TWO_SIDED|95.0|-53.57|72.99||||||||72.99|-53.57|
92393478|NCT04037891|184686581|SUPERIORITY||Difference of percentage of participants|33.3|||||TWO_SIDED|95.0|-25.45|78.39||||||Comparison of incidence of ocular TEAE in all patients receiving rVA576 (part 1 and 2) vs placebo||78.39|-25.45|
92393479|NCT04194944|184686590|SUPERIORITY||Hazard Ratio (HR)|0.465||||0.0002|TWO_SIDED|95.0|0.309|0.699|||Log Rank|||||0.699|0.309|0.0002
92393480|NCT04194944|184686591|SUPERIORITY||Hazard Ratio (HR)|0.482||||0.0001|TWO_SIDED|95.0|0.331|0.7|||Log Rank|||||0.700|0.331|0.0001
92393481|NCT04194944|184686592|SUPERIORITY||Odds Ratio (OR)|1.5||||0.3996|TWO_SIDED|95.0|0.7|3.4|||Cochran-Mantel-Haenszel|||||3.4|0.7|0.3996
92393482|NCT04194944|184686593|SUPERIORITY||Odds Ratio (OR)|1.7||||0.139|TWO_SIDED|95.0|0.9|3.6|||Cochran-Mantel-Haenszel|||||3.6|0.9|0.1390
92393483|NCT04194944|184686596|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0028|TWO_SIDED|95.0|1.4|5.1|||Cochran-Mantel-Haenszel|||||5.1|1.4|0.0028
92393484|NCT04194944|184686597|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0003|TWO_SIDED|95.0|1.6|5.2|||Cochran-Mantel-Haenszel|||||5.2|1.6|0.0003
92421681|NCT00145600|184731876|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.54|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421682|NCT00145600|184731876|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0468||95.0|||||Wilcoxon signed rank test|||||||0.0468
92421683|NCT00145600|184731876|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.55|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421684|NCT00145600|184731877|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
92393485|NCT04194944|184686598|SUPERIORITY||Hazard Ratio (HR)|0.377||||0.0001|TWO_SIDED|95.0|0.224|0.633|||Log Rank|||||0.633|0.224|0.0001
92393486|NCT04194944|184686599|SUPERIORITY||Hazard Ratio (HR)|0.418||||0.0004|TWO_SIDED|95.0|0.256|0.684|||Log Rank|||||0.684|0.256|0.0004
92393487|NCT04194944|184686602|SUPERIORITY||Odds Ratio (OR)|3.2||||0.1809|TWO_SIDED|95.0|0.8|12.8|||Cochran-Mantel-Haenszel|||||12.8|0.8|0.1809
92393488|NCT04194944|184686603|SUPERIORITY||Odds Ratio (OR)|5.2||||0.0167|TWO_SIDED|95.0|1.4|19.6|||Cochran-Mantel-Haenszel|||||19.6|1.4|0.0167
92393489|NCT03400475|184686615|SUPERIORITY||Mean Difference (Final Values)|-2.088||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
92421685|NCT00145600|184731877|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.26||||0.0019||95.0|||||Spearman Correlation Coefficients|||||||0.0019
92421686|NCT00145600|184731877|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
92421687|NCT00145600|184731877|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.16||||0.0704||95.0|||||Spearman Correlation Coefficients|||||||0.0704
92421688|NCT00145600|184731877|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Wilcoxon signed rank test|||||||0.0200
92421689|NCT00145600|184731877|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.42|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421690|NCT00145600|184731878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7192||95.0|||||Wilcoxon signed rank test|||||||0.7192
92421691|NCT00145600|184731878|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.42|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421692|NCT00145600|184731878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8663||95.0|||||Wilcoxon signed rank test|||||||0.8663
92421693|NCT00145600|184731878|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.41|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92393490|NCT03400475|184686616|SUPERIORITY||Mean Difference (Final Values)|3.59||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
92393491|NCT03400475|184686617|SUPERIORITY||Mean Difference (Final Values)|3.596||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
92393492|NCT03400475|184686618|SUPERIORITY||Mean Difference (Final Values)|-0.083||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
92393493|NCT03400475|184686619|SUPERIORITY||Mean Difference (Final Values)|0.581||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
92393494|NCT03400475|184686620|SUPERIORITY||Mean Difference (Final Values)|0.029||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
92393495|NCT03400475|184686621|SUPERIORITY||Mean Difference (Final Values)|-64.696||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.86
92393496|NCT03400475|184686622|SUPERIORITY||Mean Difference (Final Values)|111.03||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.86
92393497|NCT03400475|184686623|SUPERIORITY||Mean Difference (Final Values)|213.314||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.86
92393498|NCT03400475|184686624|SUPERIORITY||Mean Difference (Final Values)|37.356||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.41
92393499|NCT03400475|184686625|SUPERIORITY||Mean Difference (Final Values)|1.6537||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.41
92393500|NCT03400475|184686626|SUPERIORITY||Mean Difference (Final Values)|1.552||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.41
92393501|NCT03400475|184686627|SUPERIORITY|||||||0.071|||||||Fisher Exact|||||||0.071
92393502|NCT03400475|184686628|SUPERIORITY|||||||0.071|||||||Fisher Exact|||||||0.071
92393503|NCT03400475|184686629|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92393504|NCT03400475|184686630|SUPERIORITY|||||||0.062|||||||Fisher Exact|||||||0.062
92393505|NCT03400475|184686631|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||0.54
92393506|NCT03400475|184686632|SUPERIORITY|||||||0.34|||||||Fisher Exact|||||||0.34
92393507|NCT03096834|184686675|SUPERIORITY||Odds Ratio (OR)|2.73||||0.002|TWO_SIDED|95.0|1.43|5.19|||Cochran-Mantel-Haenszel|Adjusted for stratification factor (4-7 vs. 8-14) migraine days at Baseline after missing data are imputed as non-response (NRI).||||5.19|1.43|0.002
92393508|NCT03096834|184686676|SUPERIORITY||Mean Difference (Final Values)|-1.59|STANDARD_ERROR_OF_MEAN|0.55||0.004|TWO_SIDED|95.0|-2.67|-0.51|||Mixed Models Analysis|||Month 3||-0.51|-2.67|0.004
92393509|NCT03096834|184686677|SUPERIORITY||Mean Difference (Final Values)|-3.46|STANDARD_ERROR_OF_MEAN|1.13||0.003|TWO_SIDED|95.0|-5.7|-1.23|||Mixed Models Analysis|||Physical impairment domain||-1.23|-5.70|0.003
92393510|NCT03096834|184686677|SUPERIORITY||Mean Difference (Final Values)|-3.91|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|-6.12|-1.7|||Mixed Models Analysis|||Everyday activities domain||-1.70|-6.12|<0.001
92393511|NCT03096834|184686678|SUPERIORITY||Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-2.43|-0.99|||Mixed Models Analysis|||||-0.99|-2.43|<0.001
92393512|NCT03096834|184686679|SUPERIORITY||Odds Ratio (OR)|3.16||||0.025|TWO_SIDED|95.0|1.11|9.01|||Cochran-Mantel-Haenszel|Adjusted for stratification factor (4-7 vs. 8-14) migraine days at Baseline after missing data are imputed as non-response||||9.01|1.11|0.025
92393513|NCT01600326|184686684|OTHER|Pair-wise comparison at Time point 1 compared to baseline|||||<|0.0001||||||One way repeated measure analysis of variance for outcome of total pain score over time adjusted for treatment with post hoc Tukey correction to adjust for multiple comparison|Tukey|See comments on P value||||||<0.0001
92393514|NCT01600326|184686684|SUPERIORITY||||||<|0.0001||||||One way repeated measure analysis of variance for outcome of total pain score over time adjusted for treatment with post hoc Tukey correction to adjust for multiple comparison|Tukey|||One way repeated measure analysis of variance for outcome of total pain score over time adjusted for treatment with post hoc Tukey correction to adjust for multiple comparison||||<0.0001
92393515|NCT01600326|184686685|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>.99
92421694|NCT00145600|184731878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7626||95.0|||||Wilcoxon signed rank test|||||||0.7626
92421695|NCT00145600|184731878|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.58|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421696|NCT00145600|184731879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4807||95.0|||||Wilcoxon signed rank test|||||||0.4807
92421697|NCT00145600|184731879|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.36|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421698|NCT00145600|184731879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0824||95.0|||||Wilcoxon signed rank test|||||||0.0824
92421699|NCT00145600|184731879|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.39|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421700|NCT00145600|184731879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0496||95.0|||||Wilcoxon signed rank test|||||||0.0496
92421701|NCT00145600|184731879|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.5|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421702|NCT00145600|184731880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0157||95.0|||||Wilcoxon signed rank test|||||||0.0157
92421703|NCT00145600|184731880|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.37|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421704|NCT00145600|184731880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014||95.0|||||Wilcoxon signed rank test|||||||0.0014
92421705|NCT00145600|184731880|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.43|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421706|NCT00145600|184731880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1478||95.0|||||Wilcoxon signed rank test|||||||0.1478
92421707|NCT00145600|184731880|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.56|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421708|NCT00145600|184731881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0831||95.0|||||Wilcoxon signed rank test|||||||0.0831
92421709|NCT00145600|184731881|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.25||||0.0027||95.0|||||Spearman Correlation Coefficients|||||||0.0027
92421710|NCT00145600|184731881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0135||95.0|||||Wilcoxon signed rank test|||||||0.0135
92421711|NCT00145600|184731881|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.27||||0.0024||95.0|||||Spearman Correlation Coefficients|||||||0.0024
92421712|NCT00145600|184731881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9848||95.0|||||Wilcoxon signed rank test|||||||0.9848
92421713|NCT00145600|184731881|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.16||||0.0974||95.0|||||Spearman Correlation Coefficients|||||||0.0974
92393516|NCT01169103|184686692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7||95.0|||||t-test, 2 sided|||We assumed that mean decrease in visceral fat in our population would be 0.85\*standard deviation score (SDS). Therefore, 18 subjects in each group would be required in order for us to have an 81.7% chance of detecting a significant difference in the mean 6-month changes in visceral adiposity between the groups at a 5% significance level by rejecting the null hypothesis that there is no difference in change in visceral fat following administration of rhGH or placebo in obese adolescent girls.||||0.70
92393517|NCT01169103|184686692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||t-test, 2 sided|||Change in SAT p-value||||0.30
92393518|NCT01169103|184686693|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.93
92393519|NCT01169103|184686694|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||t-test, 2 sided|||Change in Total Cholesterol p-value||||0.03
92393520|NCT01169103|184686694|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Change in Triglyceride p-value||||0.57
92393521|NCT01169103|184686694|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||t-test, 2 sided|||Change in Low-density lipoprotein p-value||||0.062
92393522|NCT01169103|184686694|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0396|||||||t-test, 2 sided|||Change in High-density lipoprotein p-value||||0.0396
92393523|NCT01169103|184686695|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58||95.0|||||t-test, 2 sided|||||||0.58
92393524|NCT01169103|184686696|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04||95.0|||||t-test, 2 sided|||||||0.04
92393525|NCT02792231|184686720|SUPERIORITY||rate ratio|0.416|||<|0.001|TWO_SIDED|95.0|0.309|0.56|||negative binomial regression model|||Obtained from fitting a negative binomial regression model with log-link to the number of relapses, adjusted for treatment and region as factors, number of relapses in previous year, baseline EDSS, baseline number of Gd-enhancing lesions and the patient's age at baseline as covariates. The natural log of the time-in-study was used as offset to annualize the relapse rate.||0.560|0.309|<0.001
92393526|NCT02792231|184686721|SUPERIORITY||Hazard Ratio (HR)|0.657||||0.003|TWO_SIDED|95.0|0.5|0.863|||Regression, Cox|||Pooled data - this study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||0.863|0.500|0.003
92393527|NCT02792231|184686722|SUPERIORITY||Hazard Ratio (HR)|0.662||||0.038|TWO_SIDED|95.0|0.449|0.977|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||0.977|0.449|0.038
92393528|NCT02792231|184686723|SUPERIORITY||Hazard Ratio (HR)|0.676||||0.012|TWO_SIDED|95.0|0.498|0.917|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||0.917|0.498|0.012
92393529|NCT02792231|184686724|SUPERIORITY||Hazard Ratio (HR)|0.759||||0.215|TWO_SIDED|95.0|0.49|1.174|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||1.174|0.490|0.215
92393530|NCT02792231|184686725|SUPERIORITY||Hazard Ratio (HR)|1.355||||0.092|TWO_SIDED|95.0|0.952|1.928|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||1.928|0.952|0.092
92393531|NCT02792231|184686726|SUPERIORITY||Hazard Ratio (HR)|1.523||||0.09|TWO_SIDED|95.0|0.936|2.477|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||2.477|0.936|0.090
92421714|NCT00145600|184731882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0|||||Wilcoxon signed rank test|||||||0.0040
92236109|NCT00089843|184375711|SUPERIORITY_OR_OTHER_LEGACY||Percent change between 0 and 12 months|-41.0||||0.002|TWO_SIDED|95.0||||This p value was for the effect of Actonel (risedronate).|Factorial analysis|||Factorial analysis||||0.002
92393532|NCT02792231|184686727|SUPERIORITY||rate ratio|0.061|||<|0.001|TWO_SIDED|95.0|0.037|0.101|||negative binomial regression model|||||0.101|0.037|<.001
92393533|NCT02792231|184686728|SUPERIORITY||rate ratio|0.21|||<|0.001|TWO_SIDED|95.0|0.17|0.27|||negative binomial regression model|||Month 12||0.27|0.17|<.001
92393534|NCT02792231|184686728|SUPERIORITY||rate ratio|0.19|||<|0.001|TWO_SIDED|95.0|0.12|0.31|||negative binomial regression model|||Month 24||0.31|0.12|<.001
92393535|NCT02792231|184686728|SUPERIORITY||rate ratio|0.15|||<|0.001|TWO_SIDED|95.0|0.13|0.19|||negative binomial regression model|||End of Study||0.19|0.13|<.001
92393536|NCT02792231|184686729|SUPERIORITY||Geo-mean ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.85|0.93|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 3||0.93|0.85|<.001
92393537|NCT02792231|184686729|SUPERIORITY||Geo-mean ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.7|0.79|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 12||0.79|0.70|<.001
92393538|NCT02792231|184686729|SUPERIORITY||Geo-mean ratio|0.76|||<|0.001|TWO_SIDED|95.0|0.71|0.81|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 24||0.81|0.71|<.001
92393539|NCT02792231|184686730|SUPERIORITY||Mean Difference (Net)|0.07||||0.128|TWO_SIDED|95.0|-0.02|0.15|||random coefficient model|||||0.15|-0.02|0.128
92393540|NCT02792231|184686733|SUPERIORITY||Hazard Ratio (HR)|0.641||||0.002|TWO_SIDED|95.0|0.486|0.847|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||0.847|0.486|0.002
92393541|NCT02792231|184686734|SUPERIORITY||Hazard Ratio (HR)|0.657||||0.008|TWO_SIDED|95.0|0.481|0.898|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||0.898|0.481|0.008
92421715|NCT00145600|184731882|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.43|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421716|NCT00145600|184731882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012||95.0|||||Wilcoxon signed rank test|||||||0.0012
92421717|NCT00145600|184731882|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.54|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92421718|NCT00145600|184731882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8108||95.0|||||Wilcoxon signed rank test|||||||0.8108
92421719|NCT00145600|184731882|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.55|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
92170192|NCT02721381|184229318|SUPERIORITY|||||||0.65|||||||ANCOVA|||ANCOVA controlling for T1 measure||||.65
92421720|NCT00145600|184731883|SUPERIORITY_OR_OTHER_LEGACY||KM Event-free survival estimate|0.874|||||TWO_SIDED|95.0|0.805|0.944||||||||0.944|0.805|
92421721|NCT00145600|184731883|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.844|||||TWO_SIDED|95.0|0.739|0.95||||||||0.950|0.739|
92421722|NCT00145600|184731883|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.667|||||TWO_SIDED|95.0|0.4|0.933||||||||0.933|0.400|
92421723|NCT00145600|184731883|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.785|||||TWO_SIDED|95.0|0.716|0.853||||||||0.853|0.716|
92170193|NCT02721381|184229319|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Independent samples t-test||||.001
92393542|NCT00558246|184686758|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence is demonstrated if the upper limit of the 95% confidence interval (when subtracting the percentage of DERMABOND PROTAPE successful subjects from the percentage of INTRADERMAL SUTURE successful subjects) does not exceed 12%.|Differences in proportion of successes|0.0||||1|TWO_SIDED|95.0|-5.9|5.9|||McNemar||The level of significance for statistical testing was 0.05 for this study.|||5.9|-5.9|1.0000
92393543|NCT00558246|184686759|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92393544|NCT00558246|184686760|SUPERIORITY_OR_OTHER|||||||1||95.0|||||McNemar|||||||1.0000
92421724|NCT00736879|184731887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.1672|<|0.0001|TWO_SIDED|95.0|-1.02|-0.37||Tested at alpha=0.019 applying Dunnett's adjustment|ANCOVA|||||-0.37|-1.02|<0.0001
92421725|NCT00736879|184731887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.1679|<|0.0001|TWO_SIDED|95.0|-1.07|-0.41|||ANCOVA|Tested at alpha=0.019 applying Dunnett's adjustment.||||-0.41|-1.07|<0.0001
92421726|NCT00736879|184731887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.171|<|0.0001|TWO_SIDED|95.0|-1.17|-0.5|||ANCOVA|Tested at alpha=0.019 applying Dunnett's adjustment.||||-0.50|-1.17|<0.0001
92421727|NCT00736879|184731888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|0.5481||0.0018|TWO_SIDED|95.0|-2.81|-0.65||Test was performed at alpha=0.05.|ANCOVA|||By applying sequential testing procedure, the testing was performed since the primary endpoint was significant.||-0.65|-2.81|0.0018
92421728|NCT00736879|184731888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|0.5474||0.0024|TWO_SIDED|95.0|-2.76|-0.6||Test was performed at alpha=0.05.|ANCOVA|||||-0.60|-2.76|0.0024
92421729|NCT00736879|184731888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|0.5598||0.0022|TWO_SIDED|95.0|-2.83|-0.63||Test was performed at alpha=0.05.|ANCOVA|||||-0.63|-2.83|0.0022
92421730|NCT00736879|184731889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.1|STANDARD_ERROR_OF_MEAN|5.859||0.0103|TWO_SIDED|95.0|-26.7|-3.6||Test was performed at alpha=0.05.|ANCOVA|||||-3.6|-26.7|0.0103
92421731|NCT00736879|184731889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.7|STANDARD_ERROR_OF_MEAN|5.816|<|0.0001|TWO_SIDED|95.0|-37.2|-14.3||Test was performed at alpha=0.05.|ANCOVA|||||-14.3|-37.2|<0.0001
92421732|NCT00736879|184731889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.6|STANDARD_ERROR_OF_MEAN|5.962|<|0.0001|TWO_SIDED|95.0|-44.3|-20.8||Test was performed at alpha=0.05.|ANCOVA|||||-20.8|-44.3|<0.0001
92421733|NCT00736879|184731890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.1|STANDARD_ERROR_OF_MEAN|8.8681|<|0.0001|TWO_SIDED|95.0|-59.56|-24.61||Test was performed at alpha=0.05.|ANCOVA|||||-24.61|-59.56|<0.0001
92421734|NCT00736879|184731890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.1|STANDARD_ERROR_OF_MEAN|9.1963|<|0.0001|TWO_SIDED|95.0|-66.27|-30.03||Test was performed at alpha=0.05.|ANCOVA|||||-30.03|-66.27|<0.0001
92421735|NCT00736879|184731890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.6|STANDARD_ERROR_OF_MEAN|9.1796|<|0.0001|TWO_SIDED|95.0|-78.67|-42.5||Test was performed at alpha=0.05.|ANCOVA|||||-42.50|-78.67|<0.0001
92421736|NCT00736879|184731891|SUPERIORITY_OR_OTHER||percent difference|18.9|STANDARD_ERROR_OF_MEAN|7.38||0.0157|TWO_SIDED|95.0|3.6|34.3||Test was performed at alpha=0.05.|Regression, Logistic|Logistic regression based on the methodology of Zhang, Tsiatis and Davidian and Tsiatis, Davidian, Zhang and Lu, with adjustment for baseline HbA1c.||The probability of response was modeled using a logistic regression model with baseline HbA1c as the covariate. Treatment group estimates of response rate were then obtained by integrating each group's modeled probability of response over the observed distribution of baseline covariate (combined across groups).||34.3|3.6|0.0157
92170194|NCT05687903|184229384|SUPERIORITY||Estimate of LS Mean Difference|13.65|STANDARD_ERROR_OF_MEAN|2.983|=|0.001|TWO_SIDED|95.0|7.74|19.57||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.|LS in LS Mean Difference denotes least squares.|||19.57|7.74|=0.001
92393545|NCT00558246|184686761|SUPERIORITY_OR_OTHER|||||||0.2266|||||||McNemar|||||||0.2266
92393546|NCT00558246|184686762|SUPERIORITY_OR_OTHER|||||||0.5078||0.0|||||McNemar|||||||0.5078
92393547|NCT00657046|184686779|SUPERIORITY_OR_OTHER|||||||0.693|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.693
92393548|NCT00657046|184686779|SUPERIORITY_OR_OTHER|||||||0.807|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.807
92421737|NCT00736879|184731891|SUPERIORITY_OR_OTHER||Percent Difference|8.8|STANDARD_ERROR_OF_MEAN|7.65||0.2512|TWO_SIDED|95.0|-6.2|23.8||Test was performed at alpha=0.05.|Regression, Logistic|Logistic regression based on the methodology of Zhang, Tsiatis and Davidian and Tsiatis, Davidian, Zhang and Lu, with adjustment for baseline HbA1c||The probability of response was modeled using a logistic regression model with baseline HbA1c as the covariate. Treatment group estimates of response rate were then obtained by integrating each group's modeled probability of response over the observed distribution of baseline covariate (combined across groups).||23.8|-6.2|0.2512
92421738|NCT00736879|184731891|SUPERIORITY_OR_OTHER||Percent Difference|14.5|STANDARD_ERROR_OF_MEAN|8.069||0.0726|TWO_SIDED|95.0|-1.3|30.3||Test was performed at alpha=0.05.|Regression, Logistic|Logistic regression based on the methodology of Zhang, Tsiatis and Davidian and Tsiatis, Davidian, Zhang and Lu, with adjustment for baseline HbA1c||The probability of response was modeled using a logistic regression model with baseline HbA1c as the covariate. Treatment group estimates of response rate were then obtained by integrating each group's modeled probability of response over the observed distribution of baseline covariate (combined across groups).||30.3|-1.3|0.0726
92421739|NCT00736879|184731892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.7954||0.3163|TWO_SIDED|95.0|-2.37|0.77||Test was performed at alpha=0.05.|ANCOVA|||||0.77|-2.37|0.3163
92421740|NCT00736879|184731892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.8154|||TWO_SIDED|95.0|-2.22|0.99|||ANCOVA|||Following a sequential testing procedure, this comparison was not statistically tested, ie, the previous comparison did not meet the criterion for statistical significance.||0.99|-2.22|
92421741|NCT00736879|184731892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|0.8238|||TWO_SIDED|95.0|-3.09|0.16|||ANCOVA|||Following a sequential testing procedure, this comparison was not statistically tested, ie, the previous comparison did not meet the criterion for statistical significance.||0.16|-3.09|
92421742|NCT02869438|184731942|SUPERIORITY||Mean Difference (Final Values)|0.077||||0.0707|TWO_SIDED|95.0|-0.007|0.161|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 28|||0.161|-0.007|0.0707
92421743|NCT02869438|184731942|SUPERIORITY||Mean Difference (Final Values)|0.013||||0.7747|TWO_SIDED|95.0|-0.077|0.104|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 56|||0.104|-0.077|0.7747
92421744|NCT02869438|184731942|SUPERIORITY||Mean Difference (Final Values)|0.079||||0.0969|TWO_SIDED|95.0|-0.014|0.173|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 84|||0.173|-0.014|0.0969
92393549|NCT00657046|184686780|SUPERIORITY_OR_OTHER|||||||0.212|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.212
92393550|NCT00657046|184686780|SUPERIORITY_OR_OTHER|||||||0.23|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.230
92421745|NCT02869438|184731942|SUPERIORITY||Mean Difference (Final Values)|0.057||||0.1558|TWO_SIDED|95.0|-0.022|0.135|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For average over Day 28, 56, and 84|||0.135|-0.022|0.1558
92421746|NCT02869438|184731943|SUPERIORITY||Mean Difference (Final Values)|-0.176||||0.2847|TWO_SIDED|95.0|-0.505|0.153|||Mixed Models Analysis|Model includes covariates of treatment, baseline RV, region, visit, treatment by visit interaction.||||0.153|-0.505|0.2847
92421747|NCT02869438|184731944|SUPERIORITY||Mean Difference (Final Values)|-101.0|||<|0.0001|TWO_SIDED|95.0|-118.9|-83.06|||Mixed Models Analysis|Model includes covariates of treatment, baseline eosinophils counts, region, visit, treatment by visit interaction.||||-83.06|-118.9|<0.0001
92236110|NCT00089843|184375711|SUPERIORITY_OR_OTHER_LEGACY||Percent change between 0 and 12 months|-11.0||||0.39||95.0||||This p value was for the effect of testosterone.|Factorial analysis|||Factorial analysis||||0.39
92421748|NCT02869438|184731945|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.6384|TWO_SIDED|95.0|-0.049|0.08|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 3|||0.08|-0.049|0.6384
92421749|NCT02869438|184731945|SUPERIORITY||Mean Difference (Final Values)|0.046||||0.148|TWO_SIDED|95.0|-0.016|0.109|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 7|||0.109|-0.016|0.148
92421750|NCT02869438|184731945|SUPERIORITY||Mean Difference (Final Values)|0.026||||0.4959|TWO_SIDED|95.0|-0.049|0.101|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 14|||0.101|-0.049|0.4959
92421751|NCT02869438|184731946|SUPERIORITY||Mean Difference (Final Values)|0.006||||0.8667|TWO_SIDED|95.0|-0.062|0.073|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 3|||0.073|-0.062|0.8667
92421752|NCT02869438|184731946|SUPERIORITY||Mean Difference (Final Values)|0.041||||0.2734|TWO_SIDED|95.0|-0.033|0.115|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 7|||0.115|-0.033|0.2734
92421753|NCT02869438|184731946|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.7252|TWO_SIDED|95.0|-0.068|0.098|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 14|||0.098|-0.068|0.7252
92236111|NCT01330381|184375712|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9002|||||||Cochran-Mantel-Haenszel|||||||0.9002
92393551|NCT00657046|184686781|SUPERIORITY_OR_OTHER|||||||0.712|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.712
92393552|NCT00657046|184686781|SUPERIORITY_OR_OTHER|||||||0.607|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.607
92393553|NCT00657046|184686782|SUPERIORITY_OR_OTHER|||||||0.4602|||||||ANCOVA|GLM model with baseline as a covariate||||||0.4602
92393554|NCT00657046|184686782|SUPERIORITY_OR_OTHER|||||||0.94|||||||ANCOVA|GLM model with baseline as a covariate||||||0.940
92393555|NCT00657046|184686783|SUPERIORITY_OR_OTHER|||||||0.376|||||||ANCOVA|GLM model with baseline as a covariate||||||0.376
92421754|NCT02869438|184731946|SUPERIORITY||Mean Difference (Final Values)|0.075||||0.0976|TWO_SIDED|95.0|-0.014|0.164|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 28|||0.164|-0.014|0.0976
92421755|NCT02869438|184731946|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.6536|TWO_SIDED|95.0|-0.077|0.122|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 56|||0.122|-0.077|0.6536
92421756|NCT02869438|184731946|SUPERIORITY||Mean Difference (Final Values)|0.092||||0.0595|TWO_SIDED|95.0|-0.004|0.188|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 84|||0.188|-0.004|0.0595
92421757|NCT02869438|184731946|SUPERIORITY||Mean Difference (Final Values)|0.063||||0.1377|TWO_SIDED|95.0|-0.02|0.147|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For average of Day 28, 56, 84.|||0.147|-0.02|0.1377
92421758|NCT02869438|184731947|SUPERIORITY||Odds Ratio (OR)|1.49||||0.1604|TWO_SIDED|95.0|0.85|2.58|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 3|||2.58|0.85|0.1604
92421759|NCT02869438|184731947|SUPERIORITY||Odds Ratio (OR)|1.29||||0.34|TWO_SIDED|95.0|0.76|2.19|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 7|||2.19|0.76|0.3400
92421760|NCT02869438|184731947|SUPERIORITY||Odds Ratio (OR)|1.58||||0.0924|TWO_SIDED|95.0|0.93|2.7|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 14|||2.70|0.93|0.0924
92421761|NCT02869438|184731947|SUPERIORITY||Odds Ratio (OR)|1.57||||0.1052|TWO_SIDED|95.0|0.91|2.71|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 28|||2.71|0.91|0.1052
92421762|NCT02869438|184731947|SUPERIORITY||Odds Ratio (OR)|1.3||||0.3271|TWO_SIDED|95.0|0.77|2.21|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 56|||2.21|0.77|0.3271
92393556|NCT00657046|184686783|SUPERIORITY_OR_OTHER|||||||0.903|||||||ANCOVA|GLM model with baseline as a covariate||||||0.903
92421763|NCT02869438|184731947|SUPERIORITY||Odds Ratio (OR)|1.33||||0.3017|TWO_SIDED|95.0|0.77|2.29|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 84|||2.29|0.77|0.3017
92421764|NCT02869438|184731948|SUPERIORITY||Mean Difference (Final Values)|-0.293||||0.0024|TWO_SIDED|95.0|-0.481|-0.105|||Mixed Models Analysis|Model includes covariates of treatment, baseline ACQ-6 score, region, visit, treatment by visit interaction.|For Day 14|||-0.105|-0.481|0.0024
92421765|NCT02869438|184731948|SUPERIORITY||Mean Difference (Final Values)|-0.402||||0.0002|TWO_SIDED|95.0|-0.609|-0.195|||Mixed Models Analysis|Model includes covariates of treatment, baseline ACQ-6 score, region, visit, treatment by visit interaction.|For Day 28|||-0.195|-0.609|0.0002
92421766|NCT02869438|184731948|SUPERIORITY||Mean Difference (Final Values)|-0.312||||0.0117|TWO_SIDED|95.0|-0.554|-0.07|||Mixed Models Analysis|Model includes covariates of treatment, baseline ACQ-6 score, region, visit, treatment by visit interaction.|For Day 56|||-0.07|-0.554|0.0117
92236112|NCT01330381|184375713|SUPERIORITY_OR_OTHER_LEGACY|||||||0.352|||||||Cochran-Mantel-Haenszel|||||||0.3520
92236113|NCT01330381|184375714|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5228|||||||Cochran-Mantel-Haenszel|||||||0.5228
92421767|NCT02869438|184731948|SUPERIORITY||Mean Difference (Final Values)|-0.472||||0.0004|TWO_SIDED|95.0|-0.731|-0.213|||Mixed Models Analysis|Model includes covariates of treatment, baseline ACQ-6 score, region, visit, treatment by visit interaction.|For Day 84|||-0.213|-0.731|0.0004
92421768|NCT02869438|184731948|SUPERIORITY||Mean Difference (Final Values)|-0.395||||0.0002|TWO_SIDED|95.0|-0.603|-0.188|||Mixed Models Analysis|Model includes covariates of treatment, baseline ACQ-6 score, region, visit, treatment by visit interaction.|For average of Day 28, 56, 84.|||-0.188|-0.603|0.0002
92421769|NCT02869438|184731949|SUPERIORITY||Mean Difference (Final Values)|-7.229||||0.0001|TWO_SIDED|95.0|-10.832|-3.626|||Mixed Models Analysis|Model includes covariates of treatment, baseline SGRQ score, region, visit, treatment by visit interaction.|For Day 28|||-3.626|-10.832|0.0001
92421770|NCT02869438|184731949|SUPERIORITY||Mean Difference (Final Values)|-5.942||||0.0115|TWO_SIDED|95.0|-10.538|-1.346|||Mixed Models Analysis|Model includes covariates of treatment, baseline SGRQ score, region, visit, treatment by visit interaction.|For Day 56|||-1.346|-10.538|0.0115
92421771|NCT02869438|184731949|SUPERIORITY||Mean Difference (Final Values)|-8.599||||0.0004|TWO_SIDED|95.0|-13.3|-3.898|||Mixed Models Analysis|Model includes covariates of treatment, baseline SGRQ score, region, visit, treatment by visit interaction.|For Day 84|||-3.898|-13.3|0.0004
92421772|NCT02869438|184731949|SUPERIORITY||Mean Difference (Final Values)|-7.257||||0.0003|TWO_SIDED|95.0|-11.133|-3.38|||Mixed Models Analysis|Model includes covariates of treatment, baseline SGRQ score, region, visit, treatment by visit interaction.|For average of Day 28, 56, 84.|||-3.38|-11.133|0.0003
92421773|NCT02869438|184731950|SUPERIORITY||Mean Difference (Final Values)|5.414||||0.2825|TWO_SIDED|95.0|-4.492|15.321|||Mixed Models Analysis|Model includes covariates of treatment, baseline FeNO value, region, visit, treatment by visit interaction.||||15.321|-4.492|0.2825
92236114|NCT01330381|184375723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.377|||||||Chi-squared|||||||0.377
92236115|NCT01330381|184375726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1599|||||||Van Elteren test|||||||0.1599
92236116|NCT01330381|184375727|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||Van Elteren test|||||||0.0003
92236117|NCT01330381|184375728|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4647|||||||Van Elteren test|||||||0.4647
92393557|NCT00657046|184686784|SUPERIORITY_OR_OTHER|||||||0.319|||||||ANCOVA|GLM model with baseline as a covariate||||||0.319
92393558|NCT00657046|184686784|SUPERIORITY_OR_OTHER|||||||0.408|||||||ANCOVA|GLM model with baseline as a covariate||||||0.408
92393559|NCT00657046|184686785|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANCOVA|GLM model with baseline as a covariate||||||0.004
92393560|NCT00657046|184686785|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANCOVA|GLM model with baseline as a covariate||||||0.030
92421774|NCT02869438|184731960|SUPERIORITY||Mean Difference (Final Values)|-0.365||||0.012|TWO_SIDED|95.0|-0.649|-0.081|||Mixed Models Analysis|Model includes covariates of treatment, baseline PGI-S score, region, visit, treatment by visit interaction.|For Day 84|||-0.081|-0.649|0.0120
92421775|NCT02869438|184731961|SUPERIORITY||Odds Ratio (OR)|2.97||||0.0018|TWO_SIDED|95.0|1.5|5.88|||Regression, Logistic|Model includes covariates of treatment, region.|For Day 84|Responder analysis: responder is defined as Very much improved, improved, and minimally improved.||5.88|1.50|0.0018
92421776|NCT02869438|184731962|SUPERIORITY||Odds Ratio (OR)|2.51||||0.0107|TWO_SIDED|95.0|1.24|5.09|||Regression, Logistic|Model includes covariates of treatment, region.|For Day 84|Responder analysis: responder is defined as Very much improved, improved, and minimally improved.||5.09|1.24|0.0107
92393561|NCT00657046|184686786|SUPERIORITY_OR_OTHER|||||||0.025|||||||ANCOVA|GLM model with baseline as a covariate||||||0.025
92393562|NCT00657046|184686786|SUPERIORITY_OR_OTHER|||||||0.022|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.022
92393563|NCT00657046|184686787|SUPERIORITY_OR_OTHER|||||||0.082|||||||Fisher Exact|||||||0.082
92393564|NCT00657046|184686787|SUPERIORITY_OR_OTHER|||||||0.008|||||||Fisher Exact|||||||0.008
92393565|NCT03827655|184686796|SUPERIORITY||Hazard Ratio (HR)|0.92|||=|0.649|TWO_SIDED|90.0|0.63|1.33||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% confidence intervals (CIs) and associated Wald Chi-square p-values between TAK-954 dose levels and placebo were obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.33|0.63|=0.649
92393566|NCT03827655|184686796|SUPERIORITY||Hazard Ratio (HR)|1.0|||=|0.505|TWO_SIDED|90.0|0.69|1.43||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.43|0.69|=0.505
92393567|NCT03827655|184686797|SUPERIORITY||Hazard Ratio (HR)|1.03|||=|0.449|TWO_SIDED|90.0|0.71|1.49||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.49|0.71|=0.449
92393568|NCT03827655|184686797|SUPERIORITY||Hazard Ratio (HR)|1.0|||=|0.507|TWO_SIDED|90.0|0.69|1.44||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.44|0.69|=0.507
92393569|NCT03827655|184686798|SUPERIORITY||Hazard Ratio (HR)|1.05|||=|0.406|TWO_SIDED|90.0|0.73|1.52||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.52|0.73|=0.406
92393570|NCT03827655|184686798|SUPERIORITY||Hazard Ratio (HR)|0.77|||=|0.88|TWO_SIDED|90.0|0.54|1.11||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.11|0.54|=0.880
92393571|NCT03827655|184686799|SUPERIORITY||Hazard Ratio (HR)|1.03|||=|0.446|TWO_SIDED|90.0|0.72|1.48||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.48|0.72|=0.446
92421777|NCT02343081|184731966|NON_INFERIORITY_OR_EQUIVALENCE|Assuming an intrasubject CV of 15%, an enrollment of 16 subjects was selected to provide a minimum of 80% power for the 90% CI of the ratio of the mean for Cmax for Temozolomide reference and test to fall within the 80-125% confidence range.|Cmax|94.37|||<|0.05|TWO_SIDED|90.0|82.69|107.69|||ANOVA|Primary parameters were analyzed using ANOVA. A linear, mixed model for crossover designs (two-period, two-sequence, two-treatment) was used.|Cmax Test/Reference Ratio|Bioequivalence assessment was made for the 90% CI for the ratio of log transformed pharmacokinetic parameters μT / μR and with the two one-sided Schuirmann T-test procedure under the null hypothesis||107.69|82.69|<0.05
92421778|NCT02343081|184731970|NON_INFERIORITY_OR_EQUIVALENCE|Assuming an intrasubject CV of 15%, an enrollment of 16 subjects was selected to provide a minimum of 80% power for the 90% CI of the means ratio for AUC0-t for Temozolomide reference and test to fall within the 80-125% confidence range.|AUC0-t|100.99|||<|0.05|TWO_SIDED|90.0|97.81|104.28|||ANOVA||AUC0-t Test/Reference Ratio|||104.28|97.81|<0.05
92421779|NCT02343081|184731971|NON_INFERIORITY_OR_EQUIVALENCE|Assuming an intrasubject CV of 15%, an enrollment of 16 subjects was selected to provide a minimum of 80% power for the 90% CI of the means ratio for AUC0-inf for Temozolomide reference and test to fall within the 80-125% confidence range.|AUC0-inf|101.53|||<|0.05|TWO_SIDED|90.0|98.6|104.54|||ANOVA||AUC0-inf Test/Reference Ratio|||104.54|98.60|<0.05
92236118|NCT01330381|184375729|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren test|||||||<0.0001
92393572|NCT03827655|184686799|SUPERIORITY||Hazard Ratio (HR)|0.76|||=|0.892|TWO_SIDED|90.0|0.53|1.09||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.09|0.53|=0.892
92236119|NCT01330381|184375730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3044|||||||Van Elteren test|||||||0.3044
92421780|NCT01680887|184731972|SUPERIORITY|||||||0.403|||||||Chi-squared|||||||.403
92421781|NCT00573248|184731974|SUPERIORITY_OR_OTHER||||||<|0.025|ONE_SIDED|||||Adjusted for multiple comparisons|ANOVA|||2 (nicotine versus placebo) x 2 (smokers versus nonsmokers) ANOVA for each diary item||||<0.025
92421782|NCT00573248|184731975|SUPERIORITY_OR_OTHER||||||<|0.025|ONE_SIDED||||||ANOVA|||2 (nicotine versus placebo) x 2 (smoker versus nonsmoker) ANOVA||||<0.025
92421783|NCT00573248|184731976|SUPERIORITY_OR_OTHER||||||<|0.025|ONE_SIDED|||||Adjusted for multiple comparisons|ANOVA|||2 (nicotine versus placebo) x 2 (smokers versus nonsmokers) ANOVA for each diary item||||<0.025
92421784|NCT00573248|184731977|SUPERIORITY_OR_OTHER||||||<|0.025|ONE_SIDED|||||Adjusted for multiple comparisons|ANOVA|||2 (nicotine versus placebo) x 2 (smokers versus nonsmokers) ANOVA for each diary item||||<0.025
92421785|NCT05323656|184731978|SUPERIORITY||LS Mean Difference|5.05|STANDARD_ERROR_OF_MEAN|13.077||0.7008|TWO_SIDED|80.0|-11.98|22.0|||ANCOVA||The LS Mean difference is for the Setanaxib Group minus the Placebo Group|Null hypothesis: the mean best percentage change in the tumour size between the treatment groups are the same. With 25 patients per treatment group, using a 2-sided t-test, there will be 85% power to detect a 20% mean difference between the treatment groups in best percentage change in tumour size, with an estimated standard deviation of 30% and a 2 sided alpha of 20%.||22.0|-11.98|0.7008
92421786|NCT05323656|184731979|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.1023|TWO_SIDED|80.0|0.38|0.89|||Regression, Cox|||Null hypothesis: The risk for progression, as defined by RECIST v1.1, is the same between treatment groups. If the true hazard ratio is 0.5, approximately 38 progression events as defined by RECIST v1.1 will be required to have \> 80% power to demonstrate a statistically significant difference in PFS with 2-sided p\<0.2||0.89|0.38|.1023
92421787|NCT05323656|184731980|SUPERIORITY||LS Mean Difference|9.5|STANDARD_ERROR_OF_MEAN|8.89||0.2986|TWO_SIDED|80.0|-2.3|21.3||a priori threshold for significance (0.2) not met.|ANCOVA||The LS Mean difference is for the Setanaxib Group minus the Placebo Group.|Null Hypothesis: Mean difference in postbaseline CAF levels does not differ between treatment groups. ANCOVA model is on postbaseline CAFs level with a fixed factor for treatment and a covariate for baseline.||21.3|-2.3|0.2986
92421788|NCT05323656|184731981|SUPERIORITY||LS Mean Difference|6.83|STANDARD_ERROR_OF_MEAN|12.48||0.5918|TWO_SIDED|80.0|-9.86|23.52|||ANCOVA||The LS Mean difference is for the Setanaxib Group minus the Placebo Group.|Null Hypothesis: Mean difference in postbaseline CD8+ TILs does not differ between treatment groups. ANCOVA model is on postbaseline CD8+ TILs level with a fixed factor for treatment and a covariate for baseline.||23.52|-9.86|0.5918
92421789|NCT05323656|184731982|SUPERIORITY||LS Mean Difference|10.84|STANDARD_ERROR_OF_MEAN|8.37||0.2135|TWO_SIDED|80.0|-0.34|22.02|||ANCOVA||The LS Mean difference is for the Setanaxib Group minus the Placebo Group.|Null Hypothesis: Mean difference in postbaseline number of regulatory T-cells in tumour tissue does not differ between treatment groups. ANCOVA model is on postbaseline number of regulatory T-cells in tumour tissue level with a fixed factor for treatment and a covariate for baseline.||22.02|-0.34|0.2135
92421790|NCT05323656|184731986|SUPERIORITY||Hazard Ratio (HR)|0.448|||||TWO_SIDED|80.0|0.24|0.85||||||No formal test of significance undertaken.||0.85|0.24|
92421791|NCT05323656|184731989|SUPERIORITY||Mean Difference (Final Values)|17.76|STANDARD_ERROR_OF_MEAN|9.4||0.0782|TWO_SIDED|80.0|5.17|30.36|||ANCOVA|The LS Mean difference is for the Setanaxib Group minus the Placebo Group.||Null Hypothesis: Mean difference in postbaseline PD-L1 combined positive score (CPS) does not differ between treatment groups. ANCOVA model is on postbaseline PD-L1 CPS with a fixed factor for treatment and a covariate for baseline. Threshold for statistical significance = 0.2.||30.36|5.17|0.0782
92421792|NCT05323656|184731990|OTHER||Mean Difference (Net)|0.11|STANDARD_DEVIATION|0.578||0.22|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.22
92421793|NCT05323656|184731990|OTHER||Mean Difference (Net)|-0.18|STANDARD_DEVIATION|0.395||0.2|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.20
92421794|NCT05323656|184731991|OTHER||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.069||0.037|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.037
92421795|NCT05323656|184731991|OTHER||Mean Difference (Net)|-0.02|STANDARD_DEVIATION|0.039||0.123|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.123
92421796|NCT05323656|184731992|OTHER||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.017||0.41|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.41
92421797|NCT05323656|184731992|OTHER||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.023||0.11|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.11
92421798|NCT03880461|184731999|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
92421799|NCT03880461|184732000|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
92421800|NCT03880461|184732001|SUPERIORITY|||||||0.108|||||||ANOVA|||||||0.108
92421801|NCT04718103|184732070|SUPERIORITY|Analysis performed using a generalized linear model assuming a negative binomial distribution and covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region and baseline pre-bronchodilator percent predicted Forced Expiratory Volume in one second (FEV1) and offset of log (total time in the study in years).|Rate Ratio|0.52|||<|0.001|TWO_SIDED|95.0|0.36|0.73|||Negative Binomial Distribution|||To demonstrate the superiority of GSK3511294 100 mg SC + SoC following two doses (at Week 0 and at Week 26) compared with placebo + SoC, assessed by the annualized rate of clinically significant exacerbations measured over the study intervention period of 52 weeks.||0.73|0.36|<0.001
92421802|NCT04718103|184732071|SUPERIORITY||Least-square (LS) means|-2.31||||0.2|TWO_SIDED|95.0|-5.84|1.23|||Mixed Models Repeated Measures (MMRM)|||To demonstrate the superiority of GSK3511294 100 mg SC + SoC following two doses (at Week 0 and at Week 26) compared with placebo + SoC, assessed by SGRQ Total Score measured over the study intervention period of 52 weeks.||1.23|-5.84|0.200
92421803|NCT04718103|184732072|SUPERIORITY||Difference in Least-Square Mean|-0.11||||0.333|TWO_SIDED|95.0|-0.33|0.11|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ACQ-5 score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ACQ-5 score and visit by treatment group.||0.11|-0.33|0.333
92421804|NCT04718103|184732073|SUPERIORITY||Difference in Least-Square Means|0.056||||0.267|TWO_SIDED|95.0|-0.043|0.154|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline pre-bronchodilator FEV1, visit, visit by baseline pre-bronchodilator FEV1 and visit by treatment group.||0.154|-0.043|0.267
92421805|NCT04718103|184732074|SUPERIORITY||Difference in Least square means|-0.21||||0.173|TWO_SIDED|95.0|-0.52|0.09|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ANSD weekly mean score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ANSD weekly mean score and visit by treatment group.||0.09|-0.52|0.173
92393573|NCT03827655|184686800|SUPERIORITY||Hazard Ratio (HR)|0.86|||=|0.76|TWO_SIDED|90.0|0.6|1.23||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.23|0.60|=0.760
92393574|NCT03827655|184686800|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.81|TWO_SIDED|90.0|0.58|1.18||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-squared test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.18|0.58|=0.810
92393575|NCT03827655|184686801|SUPERIORITY||Hazard Ratio (HR)|1.13|||=|0.288|TWO_SIDED|90.0|0.78|1.64||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.64|0.78|=0.288
92393576|NCT03827655|184686801|SUPERIORITY||Hazard Ratio (HR)|1.03|||=|0.453|TWO_SIDED|90.0|0.72|1.47||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.47|0.72|=0.453
92393577|NCT03827655|184686802|SUPERIORITY||Risk Difference (RD)|-0.09|||=|0.046|TWO_SIDED|90.0|-0.17|0.0||P-value was derived using a one-sided test with Ha: Risk Difference\<0.|Stratified Miettinen and Nurminen||The p-values, risk differences and corresponding 90% CIs were obtained using a stratified Miettinen and Nurminen approach with strata weighting by sample size.|||0.00|-0.17|=0.046
92393578|NCT03827655|184686802|SUPERIORITY||Risk Difference (RD)|0.0|||=|0.516|TWO_SIDED|90.0|-0.11|0.11||P-value was derived using a one-sided test with Ha: Risk Difference\<0.|Stratified Miettinen and Nurminen||The p-values, risk differences and corresponding 90% CIs were obtained using a stratified Miettinen and Nurminen approach with strata weighting by sample size.|||0.11|-0.11|=0.516
92393579|NCT03827655|184686803|SUPERIORITY||Risk Difference (RD)|-0.03|||=|0.296|TWO_SIDED|90.0|-0.12|0.06||P-value was derived using a one-sided test with Ha: Risk Difference\<0.|Stratified Miettinen and Nurminen||The p-values, risk differences and corresponding 90% CIs were obtained using a stratified Miettinen and Nurminen approach with strata weighting by sample size.|||0.06|-0.12|=0.296
92393580|NCT03827655|184686803|SUPERIORITY||Risk Difference (RD)|0.03|||=|0.677|TWO_SIDED|90.0|-0.07|0.13||P-value was derived using a one-sided test with Ha: Risk Difference\<0.|Stratified Miettinen and Nurminen||The p-values, risk differences and corresponding 90% CIs were obtained using a stratified Miettinen and Nurminen approach with strata weighting by sample size.|||0.13|-0.07|=0.677
92393581|NCT03827655|184686804|SUPERIORITY||Hazard Ratio (HR)|1.1|||=|0.338|TWO_SIDED|90.0|0.76|1.57||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.57|0.76|=0.338
92393582|NCT03827655|184686804|SUPERIORITY||Hazard Ratio (HR)|1.04|||=|0.422|TWO_SIDED|90.0|0.73|1.49||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.49|0.73|=0.422
92393583|NCT03318549|184686912|OTHER|||||||0.011|||||||t-test, 2 sided|||||||0.011
92393584|NCT03318549|184686912|OTHER|||||||0.022|||||||t-test, 2 sided|||||||0.022
92393585|NCT03318549|184686913|OTHER|||||||0.303|||||||Chi-squared|||||||0.303
92393586|NCT03318549|184686916|OTHER|||||||0.132|||||||t-test, 2 sided|||||||0.132
92393587|NCT03318549|184686916|OTHER|||||||0.647|||||||t-test, 2 sided|||||||0.647
92393588|NCT00104650|184686917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.28|||<|0.001||95.0|3.35|45.03|||Cochran-Mantel-Haenszel|Adjusted for cancer type stratification factor||||45.03|3.35|<0.001
92393589|NCT00104650|184686917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.33||||0.002||95.0|1.74|16.36|||Cochran-Mantel-Haenszel|Adjusted for cancer type stratification factor||||16.36|1.74|0.002
92393590|NCT00104650|184686917|SUPERIORITY_OR_OTHER||Percentage of participants|77.8||||||95.0|60.8|89.9||||||||89.9|60.8|
92393591|NCT00104650|184686917|SUPERIORITY_OR_OTHER||Percentage of participants|63.6||||||95.0|45.1|79.6||||||||79.6|45.1|
92393592|NCT00104650|184686917|SUPERIORITY_OR_OTHER||Percentage of participants|28.6||||||95.0|14.6|46.3||||||||46.3|14.6|
92393593|NCT00104650|184686918|SUPERIORITY_OR_OTHER||Percentage of participants|63.9||||||95.0|46.2|79.2||||||||79.2|46.2|
92393594|NCT00104650|184686918|SUPERIORITY_OR_OTHER||Percentage of participants|63.6||||||95.0|45.1|79.6||||||||79.6|45.1|
92393595|NCT00104650|184686918|SUPERIORITY_OR_OTHER||Percentage of participants|37.1||||||95.0|21.5|55.1||||||||55.1|21.5|
92393596|NCT00104650|184686919|SUPERIORITY_OR_OTHER|||||||0.388|||||||ANCOVA|Adjusted for the stratum to which participants were originally assigned by the Interactive Voice Response System (IVRS)||||||0.388
92393597|NCT00104650|184686920|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.79|||<|0.001||95.0|2.01|7.15|||Regression, Cox|Stratified by cancer type and screening uNTx level||||7.15|2.01|<0.001
92393598|NCT00104650|184686920|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.32|||<|0.001||95.0|2.23|8.36|||Regression, Cox|Stratified by cancer type and screening uNTx level||||8.36|2.23|<0.001
92393599|NCT00104650|184686921|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.274||||0.006||95.0|0.11|0.687|||Regression, Cox|Adjusted for cancer type stratification factor and screening uNTx level||||0.687|0.110|0.006
92393600|NCT00104650|184686921|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.199||||0.001||95.0|0.076|0.523|||Regression, Cox|Adjusted for cancer type stratification factor and screening uNTx level||||0.523|0.076|0.001
92393601|NCT00104650|184686922|SUPERIORITY_OR_OTHER|||||||0.056|||||||ANCOVA|Adjusted for the stratum to which participants were originally assigned by the Interactive Voice Response System (IVRS)||||||0.056
92393602|NCT00104650|184686923|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.162||||0.105||95.0|0.018|1.465|||Regression, Cox|||||1.465|0.018|0.105
92421806|NCT04718103|184732075|SUPERIORITY||Difference in Least square means|-0.21||||0.138|TWO_SIDED|95.0|-0.48|0.07|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ADSD weekly mean score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ADSD weekly mean score and visit by treatment group.||0.07|-0.48|0.138
92393603|NCT00104650|184686923|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.573||||0.43||95.0|0.143|2.289|||Regression, Cox|||||2.289|0.143|0.430
92393604|NCT00104650|184686924|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.26||||||95.0|0.05|1.44||||||||1.44|0.05|
92393605|NCT00104650|184686924|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||||95.0|0.08|1.76||||||||1.76|0.08|
92393606|NCT03515824|184686926|OTHER|Bayesian posterior credible interval|Pooled-adjacent-violator algorithm|0.0|||||TWO_SIDED|80.0|0.0|33.1||||||||33.1|0.0|
92393607|NCT03515824|184686926|OTHER|Bayesian posterior credible interval|Pooled-adjacent-violator algorithm|0.0|||||TWO_SIDED|80.0|0.0|33.1||||||||33.1|0.0|
92393608|NCT03515824|184686926|OTHER|Bayesian posterior credible interval|Pooled-adjacent-violator algorithm|15.4|||||TWO_SIDED|80.0|5.8|30.2||||||||30.2|5.8|
92393609|NCT03515824|184686929|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate (ORR)|0.0|||||TWO_SIDED|95.0|0.0|70.8||||||||70.8|0.0|
92393610|NCT03515824|184686929|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate (ORR)|0.0|||||TWO_SIDED|95.0|0.0|60.2||||||||60.2|0.0|
92393611|NCT03515824|184686929|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate (ORR)|0.0|||||TWO_SIDED|95.0|0.0|21.8||||||||21.8|0.0|
92421807|NCT04718103|184732076|SUPERIORITY|Analysis performed using a generalized linear model assuming a negative binomial distribution and covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region and baseline pre-bronchodilator percent predicted FEV1.|Rate Ratio|0.42||||0.087|TWO_SIDED|95.0|0.16|1.13|||Negative binomial distribution|||||1.13|0.16|0.087
92393612|NCT03515824|184686930|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate (ORR)|0.0|||||TWO_SIDED|95.0|0.0|84.2||||||||84.2|0.0|
92393613|NCT03515824|184686930|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate (ORR)|0.0|||||TWO_SIDED|95.0|0.0|70.8||||||||70.8|0.0|
92393614|NCT03515824|184686930|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate )ORR)|0.0|||||TWO_SIDED|95.0|0.0|28.5||||||||28.5|0.0|
92393615|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|0.068||||0.037|TWO_SIDED|95.0|0.003|0.132|||Mixed Models Analysis|||"Comparison groups were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates.~Adjusted for multiplicity based on the parametric simulation method by Edwards and Berry."||0.132|0.003|0.037
92393616|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|0.116|||<|0.001|TWO_SIDED|95.0|0.051|0.181|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis for was performed as described for the statistical analysis 1 for this outcome measure.~Adjusted for multiplicity based on the parametric simulation method by Edwards and Berry."||0.181|0.051|<0.001
92393617|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|0.151|||<|0.001|TWO_SIDED|95.0|0.086|0.216|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis for was performed as described for the statistical analysis 1 for this outcome measure.~Adjusted for multiplicity based on the parametric simulation method by Edwards and Berry."||0.216|0.086|<0.001
92393618|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|0.145|||<|0.001|TWO_SIDED|95.0|0.081|0.209|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis for was performed as described for the statistical analysis 1 for this outcome measure.~Adjusted for multiplicity based on the parametric simulation method by Edwards and Berry."||0.209|0.081|<0.001
92393619|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|0.211|||<|0.001|TWO_SIDED|95.0|0.159|0.263|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.263|0.159|<0.001
92421808|NCT02393690|184732111|SUPERIORITY|||||||0.0787|||||||Fisher Exact|||||||0.0787
92393620|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.066|TWO_SIDED|95.0|-0.003|0.1|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.100|-0.003|0.066
92393621|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|0.083||||0.002|TWO_SIDED|95.0|0.031|0.135|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.135|0.031|0.002
92393622|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|0.077||||0.003|TWO_SIDED|95.0|0.026|0.128|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.128|0.026|0.003
92393623|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|0.035||||0.189|TWO_SIDED|95.0|-0.017|0.087|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD.~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.087|-0.017|0.189
92393624|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|0.029||||0.273|TWO_SIDED|95.0|-0.023|0.08|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.080|-0.023|0.273
92421809|NCT02393690|184732112|SUPERIORITY|||||||0.0787|||||||Fisher Exact|||||||0.0787
92421810|NCT02393690|184732113|SUPERIORITY|||||||0.1764|||||||Log Rank|||||||0.1764
92421811|NCT02393690|184732114|SUPERIORITY|||||||0.0756|||||||Wilcoxon (Mann-Whitney)|||||||0.0756
92421812|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.25||||0.5196|TWO_SIDED|95.0|-1.02|0.52||No adjustment for multiple comparisons was made due to the exploratory nature of the study|Mixed Models Analysis||Difference is LAT8881 minus placebo|Change from baseline VAS score at 0.25 hours||0.52|-1.02|0.5196
92421813|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.32||||0.3983|TWO_SIDED|95.0|-1.09|0.44||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is LAT8881 minus placebo|Change in VAS score from baseline at 0.5 hours||0.44|-1.09|0.3983
92393625|NCT03084796|184686938|SUPERIORITY||Mean Difference (Final Values)|-0.006||||0.813|TWO_SIDED|95.0|-0.058|0.045|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.045|-0.058|0.813
92421814|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.26||||0.489|TWO_SIDED|95.0|-1.03|0.5||No adjustment for multiple comparisons was made due to the exploratory nature of the study|Mixed Models Analysis||Difference is LAT8881 minus placebo|Change from baseline VAS score at 0.75 hours||0.5|-1.03|0.4890
92393626|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.002|TWO_SIDED|95.0|0.022|0.095|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model for repeated measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.095|0.022|0.002
92393627|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.077|||<|0.001|TWO_SIDED|95.0|0.04|0.113|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.113|0.040|<0.001
92393628|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.126|||<|0.001|TWO_SIDED|95.0|0.089|0.163|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.163|0.089|<0.001
92421815|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.21||||0.5903|TWO_SIDED|95.0|-0.97|0.56||No adjustment for multiple comparisons was made due to the exploratory nature of the study|Mixed Models Analysis||Difference is LAT8881 minus placebo|Change from baseline VAS score at 1 hour||0.56|-0.97|0.5903
92421816|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.13||||0.7352|TWO_SIDED|95.0|-0.9|0.64||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 1.5 hours||0.64|-0.90|0.7352
92393629|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.14|||<|0.001|TWO_SIDED|95.0|0.104|0.177|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.177|0.104|<0.001
92393630|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.183|||<|0.001|TWO_SIDED|95.0|0.147|0.22|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.220|0.147|<0.001
92393631|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.322|TWO_SIDED|95.0|-0.018|0.055|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.055|-0.018|0.322
92393632|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.067|||<|0.001|TWO_SIDED|95.0|0.031|0.104|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.104|0.031|<0.001
92393633|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.082|||<|0.001|TWO_SIDED|95.0|0.045|0.118|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.118|0.045|<0.001
92393634|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.049||||0.008|TWO_SIDED|95.0|0.013|0.086|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD.~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.086|0.013|0.008
92393635|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.063|||<|0.001|TWO_SIDED|95.0|0.027|0.1|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.100|0.027|<0.001
92393636|NCT03084796|184686939|SUPERIORITY||Mean Difference (Final Values)|0.014||||0.443|TWO_SIDED|95.0|-0.022|0.051|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.051|-0.022|0.443
92421817|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.15||||0.6892|TWO_SIDED|95.0|-0.92|0.61||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 2 hours||0.61|-0.92|0.6892
92393637|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.072|||<|0.001|TWO_SIDED|95.0|0.038|0.105|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model for repeated measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.105|0.038|<0.001
92421818|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.01||||0.9767|TWO_SIDED|95.0|-0.78|0.76||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 2.5 hours||0.76|-0.78|0.9767
92421819|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Median Difference (Net)|0.32||||0.3964|TWO_SIDED|95.0|-0.44|1.09||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 3 hours||1.09|-0.44|0.3964
92421820|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|0.22||||0.5669|TWO_SIDED|95.0|-0.55|0.98||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 3.5 hours||0.98|-0.55|0.5669
92421821|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.15||||0.7006|TWO_SIDED|95.0|-0.91|0.62||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 4 hours||0.62|-0.91|0.7006
92421822|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.1||||0.794|TWO_SIDED|95.0|-0.87|0.67||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 5 hours||0.67|-0.87|0.7940
92421823|NCT05298306|184732118|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.15||||0.6892|TWO_SIDED|95.0|-0.92|0.61|||Mixed Models Analysis|No adjustment for multiple comparisons was made due to the exploratory nature of the study.||Change from baseline VAS score at 6 hours|Difference is LAT8881 minus placebo.|0.61|-0.92|0.6892
92236120|NCT03216265|184375747|OTHER||Least Square Mean difference|-1.44|||<|0.0001|TWO_SIDED|95.0|-2.1|-0.78|||ANCOVA|Analysis model (ANCOVA) included participant as random effect, treatment arm and side of body as fixed effects, and baseline value as covariate.|Difference is the first named treatment adjusted (LS) mean change from baseline (Visit 2) minus the second named treatment adjusted mean change from baseline (Visit 2).|||-0.78|-2.10|<0.0001
92236121|NCT01306058|184375781|NON_INFERIORITY|Paired T-test. Two tailed.|||||<|0.05|||||||Wilcoxon signed rank test|||||||<0.05
92421824|NCT05080660|184732136|SUPERIORITY||Posterior Mean Difference|0.23|||||TWO_SIDED|95.0|-0.26|0.73|||||Posterior mean difference with 95% credible interval is reported.|||0.73|-0.26|
92236122|NCT01306058|184375782|NON_INFERIORITY|Paired T-test. Two tailed.|||||<|0.0001||||||Cycle 1 day 15 vs. cycle 1 day 1|Wilcoxon signed rank test|||||||<0.0001
92170195|NCT05687903|184229384|SUPERIORITY||Estimate of LS Mean Difference|24.67|STANDARD_ERROR_OF_MEAN|2.921|<|0.001|TWO_SIDED|95.0|18.87|30.46||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||30.46|18.87|<0.001
92393638|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.086|||<|0.001|TWO_SIDED|95.0|0.052|0.119|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.119|0.052|<0.001
92393639|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.143|||<|0.001|TWO_SIDED|95.0|0.109|0.177|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.177|0.109|<0.001
92393640|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.001|TWO_SIDED|95.0|0.127|0.194|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.194|0.127|<0.001
92393641|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.164|||<|0.001|TWO_SIDED|95.0|0.131|0.198|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.198|0.131|<0.001
92393642|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.014||||0.418|TWO_SIDED|95.0|-0.02|0.048|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.048|-0.020|0.418
92393643|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.071|||<|0.001|TWO_SIDED|95.0|0.038|0.105|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.105|0.038|<0.001
92393644|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.089|||<|0.001|TWO_SIDED|95.0|0.055|0.122|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.122|0.055|<0.001
92393645|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.057|||<|0.001|TWO_SIDED|95.0|0.024|0.091|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.091|0.024|<0.001
92393646|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.075|||<|0.001|TWO_SIDED|95.0|0.041|0.108|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.108|0.041|<0.001
92393647|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.308|TWO_SIDED|95.0|-0.016|0.051|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.051|-0.016|0.308
92393648|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.092|||<|0.001|TWO_SIDED|95.0|0.038|0.147|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.147|0.038|<0.001
92393649|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.133|||<|0.001|TWO_SIDED|95.0|0.079|0.188|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Analyzed, using linear mixed model repeated measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.188|0.079|<0.001
92393650|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.174|||<|0.001|TWO_SIDED|95.0|0.12|0.229|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.229|0.120|<0.001
92393651|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.181|||<|0.001|TWO_SIDED|95.0|0.127|0.235|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.235|0.127|<0.001
92393652|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.229|||<|0.001|TWO_SIDED|95.0|0.175|0.284|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.284|0.175|<0.001
92236123|NCT01306058|184375782|NON_INFERIORITY|Cycle 2 day 1 vs. cycle 1 day 1. Paired T-test. Two tailed.|||||<|0.0001|||||||Wilcoxon signed rank test|||||||<0.0001
92393653|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.041||||0.141|TWO_SIDED|95.0|-0.013|0.095|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.095|-0.013|0.141
92393654|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.082||||0.003|TWO_SIDED|95.0|0.028|0.137|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.137|0.028|0.003
92393655|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.088||||0.001|TWO_SIDED|95.0|0.035|0.142|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.142|0.035|0.001
92393656|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.041||||0.137|TWO_SIDED|95.0|-0.013|0.096|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.096|-0.013|0.137
92393657|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.082|TWO_SIDED|95.0|-0.006|0.101|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.101|-0.006|0.082
92393658|NCT03084796|184686940|SUPERIORITY||Mean Difference (Final Values)|0.006||||0.823|TWO_SIDED|95.0|-0.048|0.06|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.060|-0.048|0.823
92393659|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.061||||0.002|TWO_SIDED|95.0|0.022|0.1|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.100|0.022|0.002
92393660|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.075|||<|0.001|TWO_SIDED|95.0|0.036|0.113|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.113|0.036|<0.001
92393661|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.124|||<|0.001|TWO_SIDED|95.0|0.085|0.163|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.163|0.085|<0.001
92393662|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.152|||<|0.001|TWO_SIDED|95.0|0.113|0.19|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.190|0.113|<0.001
92393663|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.163|||<|0.001|TWO_SIDED|95.0|0.124|0.202|||MMRM|||"Day 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.202|0.124|<0.001
92393664|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.014||||0.485|TWO_SIDED|95.0|-0.025|0.052|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.052|-0.025|0.485
92393665|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.063||||0.001|TWO_SIDED|95.0|0.025|0.102|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.102|0.025|0.001
92393666|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.091|||<|0.001|TWO_SIDED|95.0|0.053|0.13|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.130|0.053|<0.001
92421825|NCT05080660|184732137|SUPERIORITY||Posterior Mean Difference|0.19|||||TWO_SIDED|95.0|-0.39|0.76|||||Posterior mean difference with 95% credible interval is reported.|||0.76|-0.39|
92421826|NCT05080660|184732138|SUPERIORITY||Posterior Mean Difference|0.62|||||TWO_SIDED|95.0|-0.23|1.47|||||Posterior mean difference with 95% credible interval is reported.|||1.47|-0.23|
92421827|NCT05080660|184732139|SUPERIORITY||Posterior Mean Difference|0.34|||||TWO_SIDED|95.0|-0.67|1.34|||||Posterior mean difference with 95% credible interval is reported.|||1.34|-0.67|
92421828|NCT05080660|184732140|SUPERIORITY||Posterior Mean Difference|0.08|||||TWO_SIDED|95.0|-0.35|0.5|||||Posterior mean difference with 95% credible interval is reported.|||0.50|-0.35|
92421829|NCT05080660|184732141|SUPERIORITY||Posterior Mean Difference|0.1|||||TWO_SIDED|95.0|-0.35|0.55|||||Posterior mean difference with 95% credible interval is reported.|||0.55|-0.35|
92170196|NCT05687903|184229384|SUPERIORITY||Estimate of LS Mean Difference|26.58|STANDARD_ERROR_OF_MEAN|2.91|<|0.001|TWO_SIDED|95.0|20.81|32.35||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||32.35|20.81|<0.001
92170197|NCT05687903|184229384|SUPERIORITY||Estimate of LS Mean Difference|16.13|STANDARD_ERROR_OF_MEAN|2.842|<|0.001|TWO_SIDED|95.0|10.49|21.76||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||21.76|10.49|<0.001
92170198|NCT05687903|184229385|SUPERIORITY||Estimate of LS Mean Difference|-6.42|STANDARD_ERROR_OF_MEAN|1.564|=|0.004|TWO_SIDED|95.0|-9.53|-3.32||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||-3.32|-9.53|=0.004
92170199|NCT05687903|184229385|SUPERIORITY||Estimate of LS Mean Difference|-11.3|STANDARD_ERROR_OF_MEAN|1.581|<|0.001|TWO_SIDED|95.0|-14.44|-8.16||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||-8.16|-14.44|<0.001
92170200|NCT05687903|184229385|SUPERIORITY||Estimate of LS Mean Difference|-10.31|STANDARD_ERROR_OF_MEAN|1.53|<|0.001|TWO_SIDED|95.0|-13.35|-7.27||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||-7.27|-13.35|<0.001
92170201|NCT05687903|184229385|SUPERIORITY||Estimate of LS Mean Difference|-8.79|STANDARD_ERROR_OF_MEAN|1.535|<|0.001|TWO_SIDED|95.0|-11.84|-5.75||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||-5.75|-11.84|<0.001
92170202|NCT05687903|184229386|SUPERIORITY||IRR|0.48|||=|0.25|TWO_SIDED|95.0|0.25|0.93||GEE model featuring a negative binomial distribution was used for analysis where incidence rate was exponentiated LS mean \& incidence rate ratio (IRR) was exponentiated LS mean difference from placebo. Reported p-value is adjusted for multiplicity.|GEE|||The GEE model was used for analysis with fixed effects for visit, treatment, treatment-by-visit interaction, Baseline WCR, age, and prior use of narcolepsy medications.||0.93|0.25|=0.250
92170203|NCT05687903|184229386|SUPERIORITY||IRR|0.36|||=|0.034|TWO_SIDED|95.0|0.16|0.79||The GEE model featuring a negative binomial distribution was used for analysis where the incidence rate was the exponentiated LS mean and the IRR was the exponentiated LS mean difference from placebo. Reported p-value is adjusted for multiplicity.|GEE|||The GEE model was used for analysis with fixed effects for visit, treatment, treatment-by-visit interaction, Baseline WCR, age, and prior use of narcolepsy medications.||0.79|0.16|=0.034
92170204|NCT05687903|184229386|SUPERIORITY||IRR|0.28|||=|0.003|TWO_SIDED|95.0|0.13|0.6||The GEE model featuring a negative binomial distribution was used for analysis where the incidence rate was the exponentiated LS mean and the IRR was the exponentiated LS mean difference from placebo. Reported p-value is adjusted for multiplicity.|GEE|||The GEE model was used for analysis with fixed effects for visit, treatment, treatment-by-visit interaction, Baseline WCR, age, and prior use of narcolepsy medications.||0.60|0.13|=0.003
92393667|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.012|TWO_SIDED|95.0|0.011|0.088|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.088|0.011|0.012
92393668|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.077|||<|0.001|TWO_SIDED|95.0|0.039|0.116|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.116|0.039|<0.001
92421830|NCT05080660|184732142|SUPERIORITY||Posterior Mean Difference|1.98|||||TWO_SIDED|95.0|-0.88|4.88|||||Posterior mean difference with 95% credible interval is reported.|||4.88|-0.88|
92421831|NCT05080660|184732143|SUPERIORITY||Posterior Mean Difference|3.05|||||TWO_SIDED|95.0|-0.29|6.38|||||Posterior mean difference with 95% credible interval is reported.|||6.38|-0.29|
92421832|NCT05080660|184732144|SUPERIORITY||Posterior Mean Difference|0.13|||||TWO_SIDED|95.0|-0.23|0.5|||||Posterior mean difference with 95% credible interval is reported.|||0.50|-0.23|
92421833|NCT05080660|184732145|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.39|0.37|||||Posterior mean difference with 95% credible interval is reported.|||0.37|-0.39|
92421834|NCT05080660|184732146|SUPERIORITY||Posterior Mean Difference|0.3|||||TWO_SIDED|95.0|-0.21|0.81|||||Posterior mean difference with 95% credible interval is reported.|||0.81|-0.21|
92421835|NCT05080660|184732147|SUPERIORITY||Posterior Mean Difference|0.29|||||TWO_SIDED|95.0|-0.31|0.9|||||Posterior mean difference with 95% credible interval is reported.|||0.90|-0.31|
92170205|NCT05687903|184229386|SUPERIORITY||IRR|0.67|||=|0.25|TWO_SIDED|95.0|0.35|1.29||The GEE model featuring a negative binomial distribution was used for analysis where the incidence rate was the exponentiated LS mean and the IRR was the exponentiated LS mean difference from placebo. Reported p-value is adjusted for multiplicity.|GEE|||The GEE model was used for analysis with fixed effects for visit, treatment, treatment-by-visit interaction, Baseline WCR, age, and prior use of narcolepsy medications.||1.29|0.35|=0.250
92170206|NCT04840199|184229407|SUPERIORITY||Mean Difference (Net)|-0.031||||0.2|TWO_SIDED|95.0|-0.08|0.018||No adjustment for multiple comparisons|Regression, Linear||Treatment effect was estimated as the difference in mean change in log10 sTNFRII with randomized letermovir compared to no anti-CMV treatment from a linear regression model (0 reflects no difference between arms).|||0.018|-0.080|0.20
92421836|NCT05080660|184732148|SUPERIORITY||Posterior Mean Difference|6.14|||||TWO_SIDED|95.0|-0.24|12.52|||||Posterior mean difference with 95% credible interval is reported.|||12.52|-0.24|
92393669|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.028||||0.157|TWO_SIDED|95.0|-0.011|0.066|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.066|-0.011|0.157
92393670|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.069||||0.021|TWO_SIDED|95.0|0.011|0.128|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.128|0.011|0.021
92393671|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.112|||<|0.001|TWO_SIDED|95.0|0.053|0.17|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.170|0.053|<0.001
92393672|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.162|||<|0.001|TWO_SIDED|95.0|0.103|0.22|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.220|0.103|<0.001
92393673|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.157|||<|0.001|TWO_SIDED|95.0|0.099|0.215|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.215|0.099|<0.001
92393674|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.213|||<|0.001|TWO_SIDED|95.0|0.154|0.271|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.271|0.154|<0.001
92393675|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.043||||0.149|TWO_SIDED|95.0|-0.015|0.101|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.101|-0.015|0.149
92393676|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.092||||0.002|TWO_SIDED|95.0|0.034|0.151|||Mixed Models Analysis|||"week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.151|0.034|0.002
92393677|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.088||||0.003|TWO_SIDED|95.0|0.031|0.146|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.146|0.031|0.003
92393678|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.096|TWO_SIDED|95.0|-0.009|0.108|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.108|-0.009|0.096
92393679|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.122|TWO_SIDED|95.0|-0.012|0.103|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.103|-0.012|0.122
92170207|NCT04840199|184229408|SUPERIORITY||Risk Difference (RD)|0.172||||0.19|TWO_SIDED|95.0|-0.073|0.438||No adjustment for multiple comparisons|Chan/Zhang exact test diff. proportions||An exact 95% confidence interval around the observed difference in proportions (and the associated p-value) was constructed based on the standardized statistic and inverting two 1-sided tests (Chan-Zhang method).|||0.438|-0.073|0.19
92393680|NCT03084796|184686941|SUPERIORITY||Mean Difference (Final Values)|-0.004||||0.886|TWO_SIDED|95.0|-0.062|0.054|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.054|-0.062|0.886
92393681|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.074||||0.029|TWO_SIDED|95.0|0.008|0.141|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.141|0.008|0.029
92393682|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.121|||<|0.001|TWO_SIDED|95.0|0.055|0.188|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.188|0.055|<0.001
92393683|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.184|||<|0.001|TWO_SIDED|95.0|0.117|0.25|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.250|0.117|<0.001
92393684|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.208|||<|0.001|TWO_SIDED|95.0|0.142|0.275|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.275|0.142|<0.001
92421837|NCT05080660|184732149|SUPERIORITY||Posterior Mean Difference|5.15|||||TWO_SIDED|95.0|-1.9|12.18|||||Posterior mean difference with 95% credible interval is reported.|||12.18|-1.90|
92236124|NCT01306058|184375782|NON_INFERIORITY|eos (end of study) vs. cycle 1 day 1. Paired T-test. Two tailed.||||||0.0009|||||||Wilcoxon signed rank test|||||||0.0009
92393685|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.293|||<|0.001|TWO_SIDED|95.0|0.227|0.36|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.360|0.227|<0.001
92393686|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.161|TWO_SIDED|95.0|-0.019|0.113|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.113|-0.019|0.161
92393687|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.109||||0.001|TWO_SIDED|95.0|0.043|0.176|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.176|0.043|0.001
92393688|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.134|||<|0.001|TWO_SIDED|95.0|0.068|0.201|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.201|0.068|<0.001
92393689|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.062||||0.066|TWO_SIDED|95.0|-0.004|0.128|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.128|-0.004|0.066
92393690|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.087||||0.01|TWO_SIDED|95.0|0.021|0.153|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.153|0.021|0.010
92393691|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.025||||0.465|TWO_SIDED|95.0|-0.042|0.091|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.091|-0.042|0.465
92393692|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.112||||0.008|TWO_SIDED|95.0|0.03|0.195|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.195|0.030|0.008
92393693|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.173|||<|0.001|TWO_SIDED|95.0|0.091|0.256|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.256|0.091|<0.001
92393694|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.219|||<|0.001|TWO_SIDED|95.0|0.136|0.302|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.302|0.136|<0.001
92393695|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.213|||<|0.001|TWO_SIDED|95.0|0.131|0.295|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.295|0.131|<0.001
92393696|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.326|||<|0.001|TWO_SIDED|95.0|0.244|0.409|||McNemar|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.409|0.244|<0.001
92393697|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.061||||0.144|TWO_SIDED|95.0|-0.021|0.143|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.143|-0.021|0.144
92393698|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.107||||0.011|TWO_SIDED|95.0|0.024|0.189|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.189|0.024|0.011
92393699|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.101||||0.016|TWO_SIDED|95.0|0.019|0.182|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.182|0.019|0.016
92393700|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.28|TWO_SIDED|95.0|-0.037|0.128|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.128|-0.037|0.280
92421838|NCT05080660|184732150|SUPERIORITY||Posterior Mean Difference|-0.02|||||TWO_SIDED|95.0|-0.32|0.27|||||Posterior mean difference with 95% credible interval is reported.|||0.27|-0.32|
92236125|NCT01539837|184375785|SUPERIORITY||||||<|0.01||||||calculated|Pairwise comparisons,post-hoc Bonferoni|||||||<0.01
92236126|NCT00849693|184375786|SUPERIORITY_OR_OTHER|||||||0.193||95.0|||||Mixed Models Analysis|||||||0.193
92236127|NCT01183858|184375814|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.671|TWO_SIDED|95.0|0.83|1.33||Unstratified analysis.|Log Rank|||||1.33|0.83|0.671
92393701|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|0.039||||0.342|TWO_SIDED|95.0|-0.042|0.121|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.121|-0.042|0.342
92393702|NCT03084796|184686942|SUPERIORITY||Mean Difference (Final Values)|-0.006||||0.886|TWO_SIDED|95.0|-0.088|0.076|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.076|-0.088|0.886
92393703|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.097||||0.003|TWO_SIDED|95.0|0.032|0.163|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.163|0.032|0.003
92393704|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.156|||<|0.001|TWO_SIDED|95.0|0.091|0.221|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.221|0.091|<0.001
92393705|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.208|||<|0.001|TWO_SIDED|95.0|0.143|0.273|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.273|0.143|<0.001
92421839|NCT05080660|184732151|SUPERIORITY||Posterior Mean Difference|-0.2|||||TWO_SIDED|95.0|-0.52|0.13|||||Posterior mean difference with 95% credible interval is reported.|||0.13|-0.52|
92421840|NCT05080660|184732152|SUPERIORITY||Posterior Mean Difference|98.35|||||TWO_SIDED|95.0|-51.95|250.88|||||Posterior mean difference with 95% credible interval is reported.|||250.88|-51.95|
92421841|NCT05080660|184732153|SUPERIORITY||Posterior Mean Difference|123.36|||||TWO_SIDED|95.0|-46.51|293.69|||||Posterior mean difference with 95% credible interval is reported.|||293.69|-46.51|
92421842|NCT05080660|184732154|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.06|0.05|||||Posterior mean difference with 95% credible interval is reported.|||0.05|-0.06|
92393706|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.237|||<|0.001|TWO_SIDED|95.0|0.172|0.302|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.302|0.172|<0.001
92393707|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.276|||<|0.001|TWO_SIDED|95.0|0.211|0.341|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.341|0.211|<0.001
92393708|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.076|TWO_SIDED|95.0|-0.006|0.124|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.124|-0.006|0.076
92393709|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.111|||<|0.001|TWO_SIDED|95.0|0.046|0.176|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.176|0.046|<0.001
92393710|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.14|||<|0.001|TWO_SIDED|95.0|0.075|0.205|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.205|0.075|<0.001
92393711|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.116|TWO_SIDED|95.0|-0.013|0.117|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.117|-0.013|0.116
92421843|NCT05080660|184732155|SUPERIORITY||Posterior Mean Difference|0.0|||||TWO_SIDED|95.0|-0.07|0.07|||||Posterior mean difference with 95% credible interval is reported.|||0.07|-0.07|
92421844|NCT03911843|184732189|SUPERIORITY||Mean Difference (Net)|-0.14|||<|0.05|TWO_SIDED|95.0||||the p-value of significance was calculated using the analysis system|Wilcoxon (Mann-Whitney)|||||||<0.05
92421845|NCT03911843|184732189|SUPERIORITY||Mean Difference (Net)|-0.14|||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
92421846|NCT03911843|184732190|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92171843|NCT05386355|184233284|SUPERIORITY||Risk Ratio (RR)|1.79|||||TWO_SIDED|95.0|0.59|5.35|||||The General Health App is the reference group.|A mixed-effect Poisson regression with robust variance estimation was used report the adjusted RR with 95% CI accounting for the clinic-specific random intercepts. Given the small number of COVID-19 vaccination completion, we were unable to account for children nested with parent/caregiver or adjusting for covariates.||5.35|0.59|
92421847|NCT03911843|184732191|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
92421848|NCT02750943|184732201|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-25.34|||<|0.0001|TWO_SIDED|95.0|-30.682|-19.998||From ANCOVA analysis with treatment group, gender and baseline MGI stratification as factors baseline as covariates.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||-19.998|-30.682|<0.0001
92421849|NCT01711372|184732303|OTHER||||||||||||||Chi-squared|||AUC or ROC for Groundskeeper Game|AUC of ROC is 0.78|||
92421850|NCT01711372|184732304|OTHER||||||||||||||||||AUC of ROC. Proportion of accurate ADHD diagnoses is 0.76|||
92421851|NCT01711372|184732305|OTHER|AUC of ROC|||||||||||||||||AUC of ROC. Proportion of accurate ADHD diagnosis is 0.62|||
92421852|NCT00891462|184732318|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.086|||<|0.0001|TWO_SIDED|95.0|0.05|0.13|||ANCOVA|||||0.13|0.05|<0.0001
92421853|NCT00891462|184732318|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.124|||<|0.0001|TWO_SIDED|95.0|0.08|0.16|||ANCOVA|||||0.16|0.08|<0.0001
92421854|NCT01298531|184732347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.27||||0.0019|TWO_SIDED|95.0|-44.17|-10.38|||ANCOVA|Not specifed.||The primary analysis of the primary endpoint was an Analysis of covariance (ANCOVA)with Baseline NSAID score and treatment as explanatory variables. The hypothesis tested for the primary endpoint was as follows: H0: ΔETN = ΔPlacebo; H1: ΔETN ≠ ΔPlacebo.||-10.38|-44.17|0.0019
92393712|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.081||||0.014|TWO_SIDED|95.0|0.016|0.146|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.146|0.016|0.014
92393713|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.029||||0.384|TWO_SIDED|95.0|-0.036|0.094|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.094|-0.036|0.384
92393714|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.15|||<|0.001|TWO_SIDED|95.0|0.064|0.236|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.236|0.064|<0.001
92393715|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.204|||<|0.001|TWO_SIDED|95.0|0.118|0.29|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.290|0.118|<0.001
92393716|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.248|||<|0.001|TWO_SIDED|95.0|0.162|0.335|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.335|0.162|<0.001
92393717|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.254|||<|0.001|TWO_SIDED|95.0|0.168|0.339|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.339|0.168|<0.001
92393718|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.354|||<|0.001|TWO_SIDED|95.0|0.268|0.439|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.439|0.268|<0.001
92393719|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.054||||0.214|TWO_SIDED|95.0|-0.031|0.14|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.140|-0.031|0.214
92393720|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.098||||0.025|TWO_SIDED|95.0|0.012|0.184|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.184|0.012|0.025
92393721|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.104||||0.016|TWO_SIDED|95.0|0.019|0.189|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.189|0.019|0.016
92393722|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.044||||0.313|TWO_SIDED|95.0|-0.042|0.13|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.130|-0.042|0.313
92393723|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.25|TWO_SIDED|95.0|-0.035|0.135|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure.~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.135|-0.035|0.250
92393724|NCT03084796|184686943|SUPERIORITY||Mean Difference (Final Values)|0.006||||0.898|TWO_SIDED|95.0|-0.08|0.091|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.091|-0.080|0.898
92393725|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.079||||0.035|TWO_SIDED|95.0|0.006|0.153|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed, using linear mixed model for repeated measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.153|0.006|0.035
92393726|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.158|||<|0.001|TWO_SIDED|95.0|0.085|0.232|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.232|0.085|<0.001
92421855|NCT01298531|184732348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.78||||0.0115|TWO_SIDED|95.0|-34.99|-4.57|||ANCOVA|||The analysis of secondary endpoints was an ANCOVA using linear regression with Baseline NSAID score and MMRM was run using the model and using the repeated measures for the changes from Baseline in each outcome at Week 8.||-4.57|-34.99|0.0115
92393727|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.201|||<|0.001|TWO_SIDED|95.0|0.127|0.275|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.275|0.127|<0.001
92393728|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.241|||<|0.001|TWO_SIDED|95.0|0.168|0.315|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.315|0.168|<0.001
92421856|NCT01298531|184732349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93||||0.0153|TWO_SIDED|95.0|-1.68|-0.18|||ANCOVA|||The analysis of secondary endpoints was an ANCOVA using linear regression with Baseline NSAID score and MMRM was run using the model as detailed for the primary endpoint and using the repeated measures for the changes from Baseline in each outcome at Week 4.||-0.18|-1.68|0.0153
92421857|NCT01298531|184732350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88||||0.051|TWO_SIDED|95.0|-1.76|0.0|||ANCOVA|||The analysis of secondary endpoints was an ANCOVA using linear regression with Baseline NSAID score and MMRM was run using the model as detailed for the primary endpoint and using the repeated measures for the changes from Baseline in each outcome at Week 8.||0.00|-1.76|0.0510
92421858|NCT01298531|184732352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.209||||0.0066|TWO_SIDED|95.0|0.07|0.65|||Regression, Logistic|||Logistic regression with baseline score and treatment group included as covariates.||0.65|0.07|0.0066
92421859|NCT01298531|184732353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-53.7||||0.0053|TWO_SIDED|95.0|-91.01|-16.38|||ANCOVA|||The changes from baseline in the continuous endpoints of mini BASDAI was analyzed using ANCOVA. The total NSAID score for the first 8 weeks of randomized treatment was calculated as an AUC using the linear trapezoidal rule.||-16.38|-91.01|0.0053
92421860|NCT01298531|184732354|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.963||||0.0324|TWO_SIDED|95.0|1.1|8.01|||Regression, Logistic|||Logistic regression with baseline morning stiffness score and treatment group included as covariates.||8.01|1.10|0.0324
92421861|NCT01298531|184732357|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.696||||0.0501|TWO_SIDED|95.0|1.0|7.27|||Regression, Logistic|||Week 8 was analyzed using a logistic regression to assess treatment effect. Logistic regression with baseline morning stiffness score and treatment group included as covariates.||7.27|1.00|0.0501
92421862|NCT01298531|184732359|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.103||||0.0284|TWO_SIDED|95.0|1.13|8.54|||Regression, Logistic|||Week 8 was analyzed using a logistic regression to assess treatment effect. Logistic regression with baseline morning stiffness score and treatment group included as covariates.||8.54|1.13|0.0284
92421863|NCT01298531|184732361|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.3291|TWO_SIDED|95.0|0.47|9.72|||Regression, Logistic|||Week 8 was analyzed using a logistic regression to assess treatment effect. Logistic regression with baseline morning stiffness score and treatment group included as covariates.||9.72|0.47|0.3291
92421864|NCT01298531|184732362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED|95.0|-1.11|-0.44|||ANCOVA|||ANCOVA model on change from baseline ASDAS CRP score fitting baseline ASDAS CRP score as a covariate, plus treatment as a factor.||-0.44|-1.11|<0.0001
92236128|NCT01183858|184375820|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.625|TWO_SIDED|95.0|0.84|1.33|||Log Rank|||||1.33|0.84|0.625
92393729|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.277|||<|0.001|TWO_SIDED|95.0|0.204|0.351|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.351|0.204|<0.001
92421865|NCT01298531|184732363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.0011|TWO_SIDED|95.0|-1.09|-0.28|||ANCOVA|||ANCOVA model on change from baseline ASDAS CRP score fitting baseline ASDAS CRP score as a covariate, plus treatment as a factor.||-0.28|-1.09|0.0011
92421866|NCT01298531|184732365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0011|TWO_SIDED|95.0|-0.9|-0.24|||ANCOVA|||ANCOVA model on change from baseline ASDAS ESR score fitting baseline ASDAS ESR score as a covariate, plus treatment as a factor.||-0.24|-0.90|0.0011
92421867|NCT01298531|184732366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.0037|TWO_SIDED|95.0|-1.11|-0.22|||ANCOVA|||ANCOVA model on change from baseline ASDAS ESR score fitting baseline ASDAS ESR score as a covariate, plus treatment as a factor.||-0.22|-1.11|0.0037
92421868|NCT01298531|184732370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.005|TWO_SIDED|95.0|-2.2|-0.4|||ANCOVA|||ANCOVA model on change from baseline BAS-G score fitting baseline BAS-G score as a covariate, plus treatment as a factor.||-0.40|-2.20|0.0050
92236129|NCT00984659|184375830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.713|TWO_SIDED|95.0|-0.03|0.05|||t-test, 2 sided|||||0.05|-0.03|0.713
92393730|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.079||||0.035|TWO_SIDED|95.0|0.005|0.152|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.152|0.005|0.035
92393731|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.121||||0.001|TWO_SIDED|95.0|0.048|0.195|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.195|0.048|0.001
92421869|NCT01298531|184732371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.0256|TWO_SIDED|95.0|-2.33|-0.16|||ANCOVA|||ANCOVA model on change from baseline BAS-G score fitting baseline BAS-G score as a covariate, plus treatment as a factor.||-0.16|-2.33|0.0256
92393732|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.162|||<|0.001|TWO_SIDED|95.0|0.088|0.235|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.235|0.088|<0.001
92393733|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.043||||0.256|TWO_SIDED|95.0|-0.031|0.116|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.116|-0.031|0.256
92393734|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.083||||0.027|TWO_SIDED|95.0|0.01|0.156|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.156|0.010|0.027
92393735|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.281|TWO_SIDED|95.0|-0.033|0.114|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.114|-0.033|0.281
92393736|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.141||||0.003|TWO_SIDED|95.0|0.05|0.232|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.232|0.050|0.003
92393737|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.197|||<|0.001|TWO_SIDED|95.0|0.106|0.288|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.288|0.106|<0.001
92393738|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.249|||<|0.001|TWO_SIDED|95.0|0.157|0.34|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.340|0.157|<0.001
92393739|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.245|||<|0.001|TWO_SIDED|95.0|0.155|0.336|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.336|0.155|<0.001
92393740|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.348|||<|0.001|TWO_SIDED|95.0|0.258|0.439|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.439|0.258|<0.001
92393741|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.056||||0.222|TWO_SIDED|95.0|-0.034|0.147|||Mixed Models Analysis|||"week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.147|-0.034|0.222
92393742|NCT03084796|184686944|SUPERIORITY||Hazard Ratio, log|0.108||||0.02|TWO_SIDED|95.0|0.017|0.199|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.199|0.017|0.020
92393743|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.105||||0.022|TWO_SIDED|95.0|0.015|0.195|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.195|0.015|0.022
92393744|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.262|TWO_SIDED|95.0|-0.039|0.143|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.143|-0.039|0.262
92393745|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.29|TWO_SIDED|95.0|-0.041|0.138|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.138|-0.041|0.290
92393746|NCT03084796|184686944|SUPERIORITY||Mean Difference (Final Values)|-0.004||||0.938|TWO_SIDED|95.0|-0.094|0.087|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.087|-0.094|0.938
92393747|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|1.64||||0.002|TWO_SIDED|95.0|1.21|2.24|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using Cox proportional hazards model, including treatment, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and baseline FEV1 value as covariate."||2.24|1.21|0.002
92393748|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|2.18|||<|0.001|TWO_SIDED|95.0|1.61|2.94|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.94|1.61|<0.001
92393749|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|2.79|||<|0.001|TWO_SIDED|95.0|2.07|3.78|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||3.78|2.07|<0.001
92393750|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|3.07|||<|0.001|TWO_SIDED|95.0|2.27|4.15|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||4.15|2.27|<0.001
92393751|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|3.1|||<|0.001|TWO_SIDED|95.0|2.3|4.17|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||4.17|2.30|<0.001
92393752|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.052|TWO_SIDED|95.0|1.0|1.76|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.76|1.00|0.052
92421870|NCT01298531|184732373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.0474|TWO_SIDED|95.0|-2.0|-0.01|||ANCOVA|||ANCOVA model on change from baseline total back pain fitting baseline total back pain as a covariate, plus treatment as a factor.||-0.01|-2.00|0.0474
92421871|NCT01298531|184732374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.0212|TWO_SIDED|95.0|-2.36|-0.2|||ANCOVA|||ANCOVA model on change from baseline total back pain fitting baseline total back pain as a covariate, plus treatment as a factor||-0.20|-2.36|0.0212
92421872|NCT01298531|184732376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31||||0.0198|TWO_SIDED|95.0|-2.4|-0.21|||ANCOVA|||ANCOVA model on change from baseline nocturnal back pain fitting baseline nocturnal back pain as a covariate, plus treatment as a factor||-0.21|-2.40|0.0198
92421873|NCT01298531|184732377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51||||0.0132|TWO_SIDED|95.0|-2.69|-0.32|||ANCOVA|||ANCOVA model on change from baseline nocturnal back pain fitting baseline nocturnal back pain as a covariate, plus treatment as a factor||-0.32|-2.69|0.0132
92421874|NCT01298531|184732379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.0237|TWO_SIDED|95.0|-1.5|-0.11|||ANCOVA|||ANCOVA model on change from baseline BASFI score fitting baseline BASFI score as a covariate, plus treatment as a factor.||-0.11|-1.50|0.0237
92421875|NCT01298531|184732380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91||||0.0297|TWO_SIDED|95.0|-1.74|-0.09|||ANCOVA|||ANCOVA model on change from baseline BASFI score fitting baseline BASFI score as a covariate, plus treatment as a factor.||-0.09|-1.74|0.0297
92421876|NCT01298531|184732381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.0152|TWO_SIDED|95.0|-2.09|-0.23|||ANCOVA|||ANCOVA model on change from each baseline BASDAI component score fitting each baseline component score as a covariate, plus treatment as a factor.||-0.23|-2.09|0.0152
92421877|NCT01298531|184732382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15||||0.0344|TWO_SIDED|95.0|-2.22|-0.09|||ANCOVA|||ANCOVA model on change from each baseline BASDAI component score fitting each baseline component score as a covariate, plus treatment as a factor.||-0.09|-2.22|0.0344
92236130|NCT00984659|184375834|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Analysis of covariance (ANCOVA) adjusted for age, gender, and percent predicted Forced Expiratory volume in one second (FEV1) at Screening.|ANCOVA|||||||<0.001
92393753|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|1.7|||<|0.001|TWO_SIDED|95.0|1.28|2.26|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.26|1.28|<0.001
92393754|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|1.87|||<|0.001|TWO_SIDED|95.0|1.41|2.48|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.48|1.41|<0.001
92393755|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.074|TWO_SIDED|95.0|0.98|1.69|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.69|0.98|0.074
92393756|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|1.41||||0.013|TWO_SIDED|95.0|1.08|1.85|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.85|1.08|0.013
92421878|NCT01298531|184732384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.0017|TWO_SIDED|95.0|-2.16|-0.52|||ANCOVA|||ANCOVA model on change from baseline PGA score fitting baseline PGA score as a covariate, plus treatment as a factor||-0.52|-2.16|0.0017
92421879|NCT01298531|184732385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12||||0.0233|TWO_SIDED|95.0|-2.07|-0.16|||ANCOVA|||ANCOVA model on change from baseline PGA score fitting baseline PGA score as a covariate, plus treatment as a factor.||-0.16|-2.07|0.0233
92421880|NCT01298531|184732394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01||||0.126|TWO_SIDED|95.0|0.822|4.901|||Regression, Logistic|||Week 8 was analyzed using logistic regression with baseline score and treatment group included as covariates.||4.901|0.822|0.1260
92421881|NCT01298531|184732397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.47||||0.0498|TWO_SIDED|95.0|1.0|6.08|||Regression, Logistic|||Logistic regression with baseline morning stiffness score and treatment group included as covariates. Week 8 was analyzed using a logistic regression to assess treatment effect.||6.08|1.00|0.0498
92421882|NCT01298531|184732399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.1601|TWO_SIDED|95.0|-0.87|0.15|||ANCOVA|||ANCOVA model on change from baseline BASMI score fitting baseline BASMI score as a covariate, plus treatment as a factor||0.15|-0.87|0.1601
92421883|NCT01298531|184732400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.2967|TWO_SIDED|95.0|-0.86|0.27|||ANCOVA|||ANCOVA model on change from baseline BASMI score fitting baseline BASMI score as a covariate, plus treatment as a factor||0.27|-0.86|0.2967
92421884|NCT01298531|184732406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.41||||0.2735|TWO_SIDED|95.0|-1.94|6.75|||ANCOVA|||ANCOVA model on change from baseline in chest expansion mobility score fitting baseline chest expansion mobility score as a covariate, plus treatment as a factor.||6.75|-1.94|0.2735
92236131|NCT00984659|184375835|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||ANCOVA adjusted for age, gender, and percent predicted FEV1 at Screening.|ANCOVA|||||||<0.001
92421885|NCT01298531|184732407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.0422|TWO_SIDED|95.0|0.02|1.34|||ANCOVA|||ANCOVA model on change from baseline in chest expansion mobility score fitting baseline chest expansion mobility score as a covariate, plus treatment as a factor.||1.34|0.02|0.0422
92421886|NCT02360995|184732425|SUPERIORITY_OR_OTHER|||||||0.652|TWO_SIDED||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.652
92421887|NCT02360995|184732426|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
92421888|NCT02360995|184732427|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
92421889|NCT02360995|184732428|SUPERIORITY_OR_OTHER|||||||0.533|TWO_SIDED||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.533
92421890|NCT02360995|184732429|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
92421891|NCT02360995|184732430|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
92421892|NCT02476422|184732431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2||||0.211|TWO_SIDED|95.0|-1.8|8.3|||ANCOVA|||||8.3|-1.8|0.211
92236132|NCT00984659|184375836|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||ANCOVA adjusted for age, gender, and percent predicted FEV1 at Screening|ANCOVA|||||||0.008
92170208|NCT04840199|184229410|SUPERIORITY||Odds Ratio (OR)|0.91||||0.12|TWO_SIDED|95.0|0.8|1.03||No adjustment for multiple comparisons|GEE model for repeated binary outcomes|P-value is from the time and treatment group interaction in the early treatment phase.|Treatment effect was estimated as the odds ratio of weekly rate of change (slope) in odds of CMV DNA detection with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Early treatment phase comparison||1.03|0.80|0.12
92236133|NCT00984659|184375838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||<|0.001||95.0|0.18|0.31||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 8|ANCOVA|||||0.31|0.18|<0.001
92236134|NCT00984659|184375838|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.12|||<|0.001||95.0|0.06|0.19||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 15|ANCOVA|||||0.19|0.06|<0.001
92393757|NCT03084796|184686945|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.494|TWO_SIDED|95.0|0.84|1.44|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.44|0.84|0.494
92393758|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.017|TWO_SIDED|95.0|0.011|0.107|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.107|0.011|0.017
92393759|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.001|TWO_SIDED|95.0|0.032|0.128|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.128|0.032|0.001
92393760|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.122|||<|0.001|TWO_SIDED|95.0|0.074|0.17|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.170|0.074|<0.001
92393761|NCT03084796|184686947|SUPERIORITY||Hazard Ratio, log|0.111|||<|0.001|TWO_SIDED|95.0|0.063|0.159|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.159|0.063|<0.001
92393762|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.122|||<|0.001|TWO_SIDED|95.0|0.074|0.17|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.170|0.074|<0.001
92393763|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.021||||0.377|TWO_SIDED|95.0|-0.026|0.069|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.069|-0.026|0.377
92393764|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.063||||0.01|TWO_SIDED|95.0|0.015|0.111|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.111|0.015|0.010
92393765|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.031|TWO_SIDED|95.0|0.005|0.1|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.100|0.005|0.031
92393766|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.042||||0.085|TWO_SIDED|95.0|-0.006|0.089|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.089|-0.006|0.085
92393767|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.031||||0.199|TWO_SIDED|95.0|-0.016|0.079|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.079|-0.016|0.199
92421893|NCT00994318|184732444|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.026|TWO_SIDED|95.0|0.44|0.95|||Log Rank|||"FCM (Ferinject / Injectafer) targeting high ferritin level (400 - 600 mcg/L) compared with Oral Iron (Ferrous sulphate 100 mg iron twice daily).~Three primary comparisons using a hierarchical step-down procedure on the log-rank test to preserve the overall alpha level of 0.05, performed in the following order:~1. FCM (high ferritin target) compared with oral iron.~2. FCM (high ferritin target) compared with FCM (low ferritin target).~3. FCM (low ferritin target) compared with oral iron."||0.95|0.44|0.026
92421894|NCT00994318|184732444|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.082|TWO_SIDED|95.0|0.45|1.05|||Log Rank|||"FCM (Ferinject / Injectafer) targeting high ferritin level (400-600mcg/L) compared with FCM targeting low ferritin level (100 - 200 mcg/L).~Three primary comparisons using a hierarchical step-down procedure on the log-rank test to preserve the overall alpha level of 0.05, performed in the following order:~1. FCM (high ferritin target) compared with oral iron.~2. FCM (high ferritin target) compared with FCM (low ferritin target).~3. FCM (low ferritin target) compared with oral iron."||1.05|0.45|0.082
92421895|NCT00994318|184732444|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.02|TWO_SIDED|95.0|0.39|0.93|||Log Rank|||"Sensitivity analysis of the primary endpoint. Time to initiation of additional or alternative anaemia management without taking into account the Hb trigger.~FCM (Ferinject / Injectafer) targeting high ferritin level (400 - 600 mcg/L) compared with Oral Iron (Ferrous sulphate 100 mg iron twice daily)."||0.93|0.39|0.020
92421896|NCT00994318|184732444|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.008|TWO_SIDED|95.0|0.43|0.88|||Log Rank|||"Sensitivity analysis of the primary endpoint. Time to initiation of additional or alternative anaemia management taking into account the Hb trigger based on local laboratory data, instead of central laboratory data.~FCM (Ferinject / Injectafer) targeting high ferritin level (400 - 600 mcg/L) compared with Oral Iron (Ferrous sulphate 100 mg iron twice daily)."||0.88|0.43|0.008
92236135|NCT00984659|184375838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|||<|0.001||95.0|0.06|0.16||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 22|ANCOVA|||||0.16|0.06|<0.001
92393768|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|-0.011||||0.657|TWO_SIDED|95.0|-0.058|0.037|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.037|-0.058|0.657
92393769|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.032||||0.246|TWO_SIDED|95.0|-0.022|0.086|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.086|-0.022|0.246
92393770|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.1|||<|0.001|TWO_SIDED|95.0|0.046|0.154|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.154|0.046|<0.001
92393771|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.119|||<|0.001|TWO_SIDED|95.0|0.064|0.173|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.173|0.064|<0.001
92393772|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.142|||<|0.001|TWO_SIDED|95.0|0.088|0.196|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.196|0.088|<0.001
92393773|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.124|||<|0.001|TWO_SIDED|95.0|0.07|0.178|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.178|0.070|<0.001
92393774|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.068||||0.014|TWO_SIDED|95.0|0.014|0.121|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.121|0.014|0.014
92393775|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.087||||0.002|TWO_SIDED|95.0|0.032|0.141|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.141|0.032|0.002
92393776|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.11|||<|0.001|TWO_SIDED|95.0|0.057|0.163|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.163|0.057|<0.001
92421897|NCT00994318|184732444|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.12|TWO_SIDED|95.0|0.45|1.1|||Log Rank|||"Sensitivity analysis of the primary endpoint. Time to initiation of additional or alternative anaemia management taking into account the Hb trigger based on subjects with a complete set of Hb values from central laboratory.~FCM (Ferinject / Injectafer) targeting high ferritin level (400 - 600 mcg/L) compared with Oral Iron (Ferrous sulphate 100 mg iron twice daily)"||1.10|0.45|0.12
92421898|NCT02545075|184732451|SUPERIORITY|||||||0.5059|||||||Chi-squared|One-sided p-value based on unstratified chi-square test||||||0.5059
92421899|NCT02545075|184732452|SUPERIORITY|||||||0.6202|||||||Chi-squared|One-sided unstratified chi-square||||||0.6202
92421900|NCT02545075|184732453|SUPERIORITY||Stratified cox proportional hazard model|1.13||||0.7267|TWO_SIDED|80.0|0.87|1.45|||Log Rank|One-sided p-value from Log-rank Test stratified by M substage (M1a+M1b vs. M1c)||||1.45|0.87|0.7267
92393777|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.019||||0.493|TWO_SIDED|95.0|-0.035|0.073|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.073|-0.035|0.493
92236136|NCT00984659|184375838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|||<|0.001||95.0|0.06|0.17||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 29|ANCOVA|||||0.17|0.06|<0.001
92393778|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.042||||0.119|TWO_SIDED|95.0|-0.011|0.096|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.096|-0.011|0.119
92393779|NCT03084796|184686947|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.392|TWO_SIDED|95.0|-0.03|0.077|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.077|-0.030|0.392
92393780|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.109||||0.023|TWO_SIDED|95.0|0.015|0.203|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model for repeated measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.203|0.015|0.023
92393781|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.058|TWO_SIDED|95.0|-0.003|0.184|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.184|-0.003|0.058
92393782|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.215|TWO_SIDED|95.0|-0.035|0.153|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.153|-0.035|0.215
92393783|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.093||||0.051|TWO_SIDED|95.0|-0.001|0.187|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.187|-0.001|0.051
92393784|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.044||||0.364|TWO_SIDED|95.0|-0.051|0.138|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.138|-0.051|0.364
92393785|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|-0.019||||0.694|TWO_SIDED|95.0|-0.112|0.074|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.074|-0.112|0.694
92393786|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.297|TWO_SIDED|95.0|-0.143|0.044|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.044|-0.143|0.297
92393787|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|-0.016||||0.734|TWO_SIDED|95.0|-0.109|0.077|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.077|-0.109|0.734
92421901|NCT02545075|184732454|SUPERIORITY||Stratified Cox proportional hazard|0.9||||0.2503|TWO_SIDED|80.0|0.71|1.15|||Log Rank|One-sided p-value from Log-rank Test stratified by M substage (M1a+M1b vs. M1c) and BRAF mutation status as entered into the IVRS||||1.15|0.71|0.2503
92421902|NCT02545075|184732455|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9932|TWO_SIDED|80.0|0.64|1.55|||Cochran-Mantel-Haenszel|||||1.55|0.64|0.9932
92421903|NCT02545075|184732456|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9738|TWO_SIDED|80.0|0.48|2.03|||Cochran-Mantel-Haenszel|||||2.03|0.48|0.9738
92393788|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|-0.031||||0.514|TWO_SIDED|95.0|-0.124|0.062|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.062|-0.124|0.514
92393789|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.003||||0.957|TWO_SIDED|95.0|-0.09|0.095|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.095|-0.090|0.957
92393790|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.479|TWO_SIDED|95.0|-0.06|0.127|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.127|-0.060|0.479
92393791|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.687|TWO_SIDED|95.0|-0.079|0.12|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.120|-0.079|0.687
92421904|NCT06400979|184732478|SUPERIORITY|||||||0.008|||||||ANCOVA|||||||0.008
92421905|NCT06400979|184732479|SUPERIORITY|To assess the reduction of nausea following aromatherapy, pre- and post- aromatherapy scores were compared using paired t-tests||||||0.13|||||||ANCOVA|||||||0.13
92421906|NCT06400979|184732480|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92421907|NCT06400979|184732481|OTHER|Perceived effectiveness of aromatherapy for patient satisfaction were compared with respect to post-aromatherapy scores and pre-post changes in scores using two-sample t-tests||||||0.02|TWO_SIDED|73.4|||||t-test, 2 sided|||||||0.02
92421908|NCT06400979|184732482|SUPERIORITY|||||||0.02|||||||ANCOVA|||||||0.02
92393792|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.066||||0.195|TWO_SIDED|95.0|-0.034|0.165|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.165|-0.034|0.195
92393793|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.111||||0.03|TWO_SIDED|95.0|0.011|0.212|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.212|0.011|0.030
92393794|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.112|TWO_SIDED|95.0|-0.019|0.179|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.179|-0.019|0.112
92393795|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.074||||0.147|TWO_SIDED|95.0|-0.026|0.174|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.174|-0.026|0.147
92393796|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.37|TWO_SIDED|95.0|-0.054|0.144|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.144|-0.054|0.370
92393797|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.091||||0.074|TWO_SIDED|95.0|-0.009|0.19|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.190|-0.009|0.074
92393798|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.233|TWO_SIDED|95.0|-0.039|0.158|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.158|-0.039|0.233
92421909|NCT06400979|184732483|SUPERIORITY|||||||0.02|||||||ANCOVA|||||||0.02
92393799|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.046||||0.369|TWO_SIDED|95.0|-0.054|0.145|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.145|-0.054|0.369
92393800|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|0.014||||0.773|TWO_SIDED|95.0|-0.084|0.112|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.112|-0.084|0.773
92421910|NCT00277446|184732536|SUPERIORITY_OR_OTHER||||||<|0.03||95.0|||||t-test, 2 sided|||"The two groups tested were baseline and after 4 weeks of treatment with the soy isoflavone supplement."||||<0.03
92421911|NCT00277446|184732537|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|95.0|||||t-test, 2 sided|||"The two groups tested were baseline and after 4 weeks of treatment with the soy isoflavone supplement."||||0.02
92421912|NCT00277446|184732538|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||t-test, 2 sided|||"The two groups tested were baseline and after 4 weeks of treatment with the soy isoflavone supplement."||||0.88
92393801|NCT03084796|184686948|SUPERIORITY||Mean Difference (Final Values)|-0.031||||0.536|TWO_SIDED|95.0|-0.13|0.068|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.068|-0.130|0.536
92393802|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.05||||0.848|TWO_SIDED|95.0|0.62|1.77|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analysis based on logistic regression model - multiple logistic regression model, with treatment, US regions, smoking status at screening, and BDI as covariates."||1.77|0.62|0.848
92393803|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.35||||0.264|TWO_SIDED|95.0|0.8|2.28|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.28|0.80|0.264
92393804|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.29||||0.343|TWO_SIDED|95.0|0.76|2.18|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.18|0.76|0.343
92393805|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.74||||0.042|TWO_SIDED|95.0|1.02|2.98|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.98|1.02|0.042
92421913|NCT03091777|184732558|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
92421914|NCT03091777|184732558|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
92421915|NCT02536833|184732559|SUPERIORITY||Mean Difference (Final Values)|-1.46||||0.575|TWO_SIDED|95.0|-6.57|3.65|||ANCOVA|||||3.65|-6.57|0.575
92421916|NCT02536833|184732559|SUPERIORITY||Mean Difference (Final Values)|-1.27||||0.643|TWO_SIDED|95.0|-6.63|4.09|||ANCOVA|||||4.09|-6.63|0.643
92421917|NCT02536833|184732559|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.901|TWO_SIDED|95.0|-5.07|5.75|||ANCOVA|||||5.75|-5.07|0.901
92421918|NCT02536833|184732560|SUPERIORITY||Mean Difference (Final Values)|-2.99||||0.271|TWO_SIDED|95.0|-8.31|2.33|||ANCOVA|||||2.33|-8.31|0.271
92421919|NCT02536833|184732560|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.898|TWO_SIDED|95.0|-6.06|5.32|||ANCOVA|||||5.32|-6.06|0.898
92393806|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.2||||0.503|TWO_SIDED|95.0|0.71|2.02|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.02|0.71|0.503
92393807|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.28||||0.354|TWO_SIDED|95.0|0.76|2.16|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.16|0.76|0.354
92393808|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.22||||0.447|TWO_SIDED|95.0|0.73|2.07|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.07|0.73|0.447
92393809|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.66||||0.064|TWO_SIDED|95.0|0.97|2.83|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.83|0.97|0.064
92421920|NCT02536833|184732560|SUPERIORITY||Mean Difference (Final Values)|0.72||||0.795|TWO_SIDED|95.0|-4.74|6.18|||ANCOVA|||||6.18|-4.74|0.795
92421921|NCT02536833|184732561|SUPERIORITY||Mean Difference (Final Values)|-2.74||||0.283|TWO_SIDED|95.0|-7.74|2.26|||ANCOVA|||||2.26|-7.74|0.283
92421922|NCT02536833|184732561|SUPERIORITY||Mean Difference (Final Values)|-1.48||||0.588|TWO_SIDED|95.0|-6.82|3.86|||ANCOVA|||||3.86|-6.82|0.588
92421923|NCT02536833|184732561|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.853|TWO_SIDED|95.0|-5.76|4.76|||ANCOVA|||||4.76|-5.76|0.853
92421924|NCT02536833|184732562|SUPERIORITY||Mean Difference (Final Values)|-2.89||||0.292|TWO_SIDED|95.0|-8.26|2.49|||ANCOVA|||||2.49|-8.26|0.292
92421925|NCT02536833|184732562|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.931|TWO_SIDED|95.0|-5.34|5.83|||ANCOVA|||||5.83|-5.34|0.931
92421926|NCT02536833|184732562|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.878|TWO_SIDED|95.0|-4.92|5.76|||ANCOVA|||||5.76|-4.92|0.878
92421927|NCT02536833|184732563|SUPERIORITY||Mean Difference (Final Values)|1.16||||0.648|TWO_SIDED|95.0|-3.83|6.16|||ANCOVA|||||6.16|-3.83|0.648
92421928|NCT02536833|184732563|SUPERIORITY||Mean Difference (Final Values)|-3.14||||0.209|TWO_SIDED|95.0|-8.02|1.75|||ANCOVA|||||1.75|-8.02|0.209
92421929|NCT02536833|184732563|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.915|TWO_SIDED|95.0|-4.78|5.33|||ANCOVA|||||5.33|-4.78|0.915
92421930|NCT02536833|184732564|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.969|TWO_SIDED|95.0|-5.16|5.36|||ANCOVA|||||5.36|-5.16|0.969
92393810|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|0.96||||0.867|TWO_SIDED|95.0|0.57|1.62|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.62|0.57|0.867
92393811|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.29||||0.347|TWO_SIDED|95.0|0.76|2.22|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.22|0.76|0.347
92393812|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.35||||0.269|TWO_SIDED|95.0|0.79|2.32|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.32|0.79|0.269
92421931|NCT02536833|184732564|SUPERIORITY||Mean Difference (Final Values)|-3.64||||0.174|TWO_SIDED|95.0|-8.89|1.61|||ANCOVA|||||1.61|-8.89|0.174
92421932|NCT02536833|184732564|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.908|TWO_SIDED|95.0|-4.97|5.59|||ANCOVA|||||5.59|-4.97|0.908
92421933|NCT02536833|184732565|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.334|TWO_SIDED|95.0|-0.1|0.29|||ANCOVA|||||0.29|-0.10|0.334
92421934|NCT02536833|184732565|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.124|TWO_SIDED|95.0|-0.04|0.3|||ANCOVA|||||0.30|-0.04|0.124
92421935|NCT02536833|184732565|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.032|TWO_SIDED|95.0|0.02|0.36|||ANCOVA|||||0.36|0.02|0.032
92421936|NCT02536833|184732566|SUPERIORITY||Mean Difference (Final Values)|-2.38||||0.405|TWO_SIDED|95.0|-8.0|3.24|||ANCOVA|||||3.24|-8.00|0.405
92421937|NCT02536833|184732566|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.552|TWO_SIDED|95.0|-4.37|8.16|||ANCOVA|||||8.16|-4.37|0.552
92421938|NCT02536833|184732566|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.763|TWO_SIDED|95.0|-4.91|6.68|||ANCOVA|||||6.68|-4.91|0.763
92421939|NCT02536833|184732567|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.173|TWO_SIDED|95.0|-9.5|1.71|||ANCOVA|||||1.71|-9.50|0.173
92421940|NCT02536833|184732567|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.724|TWO_SIDED|95.0|-5.12|7.36|||ANCOVA|||||7.36|-5.12|0.724
92421941|NCT02536833|184732567|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.914|TWO_SIDED|95.0|-6.17|5.53|||ANCOVA|||||5.53|-6.17|0.914
92421942|NCT02536833|184732568|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.529|TWO_SIDED|95.0|-0.12|0.24|||ANCOVA|||||0.24|-0.12|0.529
92421943|NCT02536833|184732568|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.259|TWO_SIDED|95.0|-0.08|0.28|||ANCOVA|||||0.28|-0.08|0.259
92421944|NCT02536833|184732568|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.807|TWO_SIDED|95.0|-0.21|0.16|||ANCOVA|||||0.16|-0.21|0.807
92421945|NCT02536833|184732569|SUPERIORITY||Mean Difference (Final Values)|-8.73||||0.049|TWO_SIDED|95.0|-17.44|-0.03|||ANCOVA|||||-0.03|-17.44|0.049
92421946|NCT02536833|184732569|SUPERIORITY||Mean Difference (Final Values)|-6.03||||0.211|TWO_SIDED|95.0|-15.49|3.43|||ANCOVA|||||3.43|-15.49|0.211
92421947|NCT02536833|184732569|SUPERIORITY||Mean Difference (Final Values)|-5.23||||0.254|TWO_SIDED|95.0|-14.24|3.78|||ANCOVA|||||3.78|-14.24|0.254
92421948|NCT02536833|184732570|SUPERIORITY||Mean Difference (Final Values)|-10.26||||0.036|TWO_SIDED|95.0|-19.82|-0.69|||ANCOVA|||||-0.69|-19.82|0.036
92421949|NCT02536833|184732570|SUPERIORITY||Mean Difference (Final Values)|-7.07||||0.17|TWO_SIDED|95.0|-17.18|3.05|||ANCOVA|||||3.05|-17.18|0.170
92421950|NCT02536833|184732570|SUPERIORITY||Mean Difference (Final Values)|-6.29||||0.171|TWO_SIDED|95.0|-15.33|2.74|||ANCOVA|||||2.74|-15.33|0.171
92421951|NCT02536833|184732571|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.021|TWO_SIDED|95.0|0.06|0.72|||ANCOVA|||||0.72|0.06|0.021
92421952|NCT02536833|184732571|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.131|TWO_SIDED|95.0|-0.07|0.55|||ANCOVA|||||0.55|-0.07|0.131
92421953|NCT02536833|184732571|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.789|TWO_SIDED|95.0|-0.35|0.26|||ANCOVA|||||0.26|-0.35|0.789
92421954|NCT00089674|184732572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|||<|0.0001||95.0|6.2|7.1|||ANCOVA|||||7.1|6.2|<0.0001
92421955|NCT00089674|184732573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|||<|0.0001||95.0|3.5|4.4||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|ANCOVA|||||4.4|3.5|<0.0001
92421956|NCT00089674|184732574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|||<|0.0001||95.0|4.4|5.1||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|ANCOVA|||||5.1|4.4|<0.0001
92421957|NCT00089674|184732575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9|||<|0.0001||95.0|7.4|8.4||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|ANCOVA|||||8.4|7.4|<0.0001
92421958|NCT00089674|184732576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9|||<|0.0001||95.0|4.4|5.4||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|ANCOVA|||||5.4|4.4|<0.0001
92421959|NCT00089674|184732577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.7|||<|0.0001||95.0|5.4|6.1||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|ANCOVA|||||6.1|5.4|<0.0001
92421960|NCT00089674|184732578|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.1048||95.0|0.46|1.08||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|Regression, Logistic|||||1.08|0.46|0.1048
92421961|NCT00089674|184732579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.37||||0.0125||95.0|0.18|0.78||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|Regression, Logistic|||||0.78|0.18|0.0125
92421962|NCT00089674|184732580|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.7961||95.0|0.57|1.55||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|Regression, Cox|||||1.55|0.57|0.7961
92421963|NCT00089674|184732581|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.7961||95.0|0.44|1.11||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|Regression, Logistic|||||1.11|0.44|0.7961
92279425|NCT01533428|184462014|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.108|TWO_SIDED|95.0|0.9|2.2|||Regression, Logistic|Analysis of regression logistics model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Percentage of participants with 30% reduction in average daily pain score assessed in Weeks 2-8. The comparison of the odds ratio of capsaicin 8% to placebo for percent change from baseline was performed using a logistic regression model.||2.2|0.9|0.108
92421964|NCT01476644|184732603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Regression, Linear|||||||<0.01
92421965|NCT04105543|184732612|OTHER|nonparametric rank test|Median Difference (Final Values)|-4.22||||0.173|TWO_SIDED|95.0|-12.64|4.24|||Wilcoxon Signed Rank Tests|||Wilcoxon Signed Rank Tests for MDADI Composite Baseline to 3 months (n=9)||4.24|-12.64|0.173
92421966|NCT04105543|184732612|OTHER|nonparametric rank test|Median Difference (Final Values)|-9.998||||0.225|TWO_SIDED|95.0|-28.43|7.39|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for MDADI Composite Baseline to 6 months (n=5)||7.39|-28.43|0.225
92421967|NCT04105543|184732613|OTHER|nonparametric rank test|Median Difference (Final Values)|-0.037||||0.779|TWO_SIDED|95.0|-0.246|0.09|||Wilcoxon Signed Rank Tests|||Wilcoxon Signed Rank Tests for Stimulated Saliva Flow Baseline to 3 months (n=8)||0.09|-0.246|0.779
92421968|NCT04105543|184732613|OTHER|nonparametric rank test|Median Difference (Final Values)|-0.049||||0.465|TWO_SIDED|95.0|-0.218|0.12|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for Stimulated Saliva Flow Baseline to 6 months (n=4)||0.12|-0.218|0.465
92421969|NCT04105543|184732614|OTHER|nonparametric rank test|Median Difference (Final Values)|-4.444||||0.213|TWO_SIDED|95.0|-14.4|4.4|||Wilcoxon Signed Rank Tests|||Wilcoxon Signed Rank Tests for EORTC QLQ-C30 Functional Score Baseline to 3 months (n=9)||4.4|-14.4|0.213
92421970|NCT04105543|184732614|OTHER|nonparametric rank test|Median Difference (Final Values)|-6.667||||0.686|TWO_SIDED|95.0|-17.8|20.0|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for EORTC QLQ-C30 Functional Scores Baseline to 6 months (n=5)||20|-17.8|0.686
92421971|NCT04105543|184732614|OTHER|nonparametric rank test|Median Difference (Final Values)|3.846||||0.498|TWO_SIDED|95.0|-0.769|12.82|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Tests for EORTC QLQ-C30 Symptom Score Baseline to 3 months (n=9)||12.82|-0.769|0.498
92421972|NCT04105543|184732614|OTHER|nonparametric rank test|Median Difference (Final Values)|10.256||||0.416|TWO_SIDED|95.0|-15.39|35.89|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for EORTC QLQ-C30 Symptom Scores Baseline to 6 months (n=5)||35.89|-15.39|0.416
92421973|NCT04105543|184732614|OTHER|nonparametric rank test|Median Difference (Final Values)|-8.33||||0.778|TWO_SIDED|95.0|-20.84|16.67|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Tests for EORTC QLQ-C30 Global Health Status Score Baseline to 3 months (n=9)||16.67|-20.84|0.778
92421974|NCT04105543|184732614|OTHER|nonparametric rank test|Median Difference (Final Values)|0.0||||0.89|TWO_SIDED|95.0|-25.0|25.0|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for EORTC QLQ-C30 Global Health Status Scores Baseline to 6 months (n=5)||25|-25|0.89
92421975|NCT04105543|184732615|OTHER|nonparametric rank test|Median Difference (Final Values)|3.5||||0.138|TWO_SIDED|95.0|-2.0|9.5|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Tests for XeQOL Baseline to 3 months (n=9)||9.5|-2|0.138
92421976|NCT04105543|184732615|OTHER|nonparametric rank test|Median Difference (Final Values)|6.0||||0.225|TWO_SIDED|95.0|-10.0|16.0|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for XeQOL Baseline to 6 months (n=5)||16|-10|0.225
92421977|NCT04105543|184732616|OTHER|nonparametric rank test|Median Difference (Final Values)|0.5||||0.674|TWO_SIDED|95.0|-3.0|5.0|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Tests for Xerostomia Inventory Baseline to 3 months (n=9)||5|-3|0.674
92393813|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.92||||0.018|TWO_SIDED|95.0|1.12|3.3|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure.~Analysis based on logistic regression model - multiple logistic regression model, with treatment, US regions, smoking status at screening, and BDI as covariates."||3.30|1.12|0.018
92393814|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|2.59|||<|0.001|TWO_SIDED|95.0|1.5|4.49|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||4.49|1.50|<0.001
92393815|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|3.08|||<|0.001|TWO_SIDED|95.0|1.75|5.44|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||5.44|1.75|<0.001
92393816|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|3.42|||<|0.001|TWO_SIDED|95.0|1.94|6.02|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||6.02|1.94|<0.001
92393817|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|2.45||||0.001|TWO_SIDED|95.0|1.41|4.26|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||4.26|1.41|0.001
92421978|NCT04105543|184732616|OTHER|nonparametric rank test|Median Difference (Final Values)|0.0||||0.892|TWO_SIDED|95.0|-6.0|6.0|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for Xerostomia Inventory Baseline to 6 months (n=5)||6|-6|0.892
92421979|NCT00144027|184732627|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.57||||0.03|TWO_SIDED|95.0|1.21|47.53|||Regression, Logistic|logistic regression predicting 6-month adherence, controling for baseline depression, extrapyramidal side effects, and baseline adherence.||||47.53|1.21|0.03
92421980|NCT00910988|184732628|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||This p-value corresponds to the two way interaction between time and order and is not adjusted for multiple comparisons. The a priori threshold for statistical significance is alpha equal to 0.05. There was no 3 way interaction.|ANCOVA|Repeated measures ANCOVA with time as the repeated measure, drug assignment as a fixed factor, and order as a fixed factor.||The hypothesis being tested is whether there is a significant effect of one or both antipsychotics on whole body insulin sensitivity. Sample size was calculated using power calculations to detect significant effects of treatment on insulin sensitivity. Drug assignment is a 2-level fixed factor (olanzapine vs ziprasidone) as is order (drug first vs placebo first). Baseline of the dependent variable as well as baseline DEXA total fat were entered into the model as covariates.||||0.001
92171844|NCT05386355|184233285|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.42|1.65|||||The General Health App is the reference group.|A mixed-effect Poisson regression with robust variance estimation was used report the adjusted RR with 95% CI accounting for the clinic-specific random intercepts. Given the small number of COVID-19 vaccination completion, we were unable to account for children nested with parent/caregiver or adjusting for covariates.||1.65|0.42|
92393818|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.35||||0.284|TWO_SIDED|95.0|0.78|2.35|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.35|0.78|0.284
92393819|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.61||||0.103|TWO_SIDED|95.0|0.91|2.84|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.84|0.91|0.103
92393820|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.78||||0.045|TWO_SIDED|95.0|1.01|3.14|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||3.14|1.01|0.045
92393821|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.19||||0.557|TWO_SIDED|95.0|0.67|2.12|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.12|0.67|0.557
92393822|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.32||||0.345|TWO_SIDED|95.0|0.74|2.34|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.34|0.74|0.345
92421981|NCT00910988|184732631|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED|95.0||||This p-value corresponds to the 3 way interaction between time, drug (olanzapine vs ziprasidone), and order (drug first vs placebo first) and is not adjusted for multiple comparisons.|ANCOVA|||The null hypothesis is that olanzapine and ziprasidone would result in acute decreases in insulin sensitivity compared to placebo at adipose tissue, which was measured by evaluating the rate of appearance of labeled glycerol. The alternative hypothesis is that olanzapine, but not ziprasidone, would result in acute decreases in insulin sensitivity compared to placebo at adipose tissue.||||0.57
92446496|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.406||0.362|TWO_SIDED|95.0|-1.17|0.43||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 1||0.43|-1.17|0.362
92421982|NCT01977937|184732632|OTHER|Differences in average pre-operative \& total post-operative average VAS scores were compared between groups using an unpaired Mann-Whitney rank sum test. Hospitalization outcomes including number of days to transition off PCA, number of days with Foley catheter, \& episodes of nausea, emesis, or POSS \> 3 were compared between groups using an unpaired two-tailed Student's t-test. Statistical significance was defined as p\<0.05 for all unpaired parametric and non-parametric comparisons.||||||0.07|||||||t-test, 2 sided|||D'Agostino \& Pearson normality test was used to assess for normal distribution. Experimental \& control groups were assessed for significant differences in age, hospital days, \& spinal levels fused using unpaired two-tailed Student's t-test. Differences in weight \& BMI were assessed using unpaired Mann-Whitney rank sum test. Differences in average VAS scores on the operative day, each post-operative day, and average total daily opioid were compared using an unpaired two-tailed Student's t-test.||||0.07
92393823|NCT03084796|184686949|SUPERIORITY||Odds Ratio (OR)|1.11||||0.732|TWO_SIDED|95.0|0.61|2.0|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.00|0.61|0.732
92393824|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.666|TWO_SIDED|95.0|-0.52|0.81|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the BDI, BDI by visit interaction as covariates."||0.81|-0.52|0.666
92393825|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.224|TWO_SIDED|95.0|-0.25|1.07|||Mixed Models Analysis|||"week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.07|-0.25|0.224
92393826|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.239|TWO_SIDED|95.0|-0.27|1.06|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.06|-0.27|0.239
92393827|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.019|TWO_SIDED|95.0|0.13|1.46|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.46|0.13|0.019
92393828|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.124|TWO_SIDED|95.0|-0.14|1.19|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.19|-0.14|0.124
92393829|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.432|TWO_SIDED|95.0|-0.39|0.92|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.92|-0.39|0.432
92393830|NCT03084796|184686950|SUPERIORITY||Mean Difference (Net)|0.25||||0.454|TWO_SIDED|95.0|-0.41|0.91|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.91|-0.41|0.454
92393831|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.65||||0.053|TWO_SIDED|95.0|-0.01|1.31|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.31|-0.01|0.053
92393832|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.973|TWO_SIDED|95.0|-0.67|0.65|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.65|-0.67|0.973
92393833|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.247|TWO_SIDED|95.0|-0.27|1.04|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.04|-0.27|0.247
92393834|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.235|TWO_SIDED|95.0|-0.26|1.06|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.06|-0.26|0.235
92393835|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.071|TWO_SIDED|95.0|-0.05|1.28|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.28|-0.05|0.071
92393836|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.98||||0.004|TWO_SIDED|95.0|0.32|1.64|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.64|0.32|0.004
92236137|NCT00984659|184375838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|||<|0.001||95.0|0.08|0.18||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 36|ANCOVA|||||0.18|0.08|<0.001
92393837|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|1.01||||0.003|TWO_SIDED|95.0|0.35|1.68|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.68|0.35|0.003
92393838|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|1.52|||<|0.001|TWO_SIDED|95.0|0.86|2.18|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.18|0.86|<0.001
92171845|NCT05386355|184233286|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.638|TWO_SIDED|95.0|-1.19|0.73|||Mixed Models Analysis|The analytical method was based on a linear mixed model adjusting for baseline SAGE vaccine hesitancy composite scores and random clinic effect.||||0.73|-1.19|0.638
92393839|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|1.08||||0.002|TWO_SIDED|95.0|0.41|1.75|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.75|0.41|0.002
92393840|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.37||||0.271|TWO_SIDED|95.0|-0.29|1.03|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.03|-0.29|0.271
92393841|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.235|TWO_SIDED|95.0|-0.26|1.06|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.06|-0.26|0.235
92393842|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.007|TWO_SIDED|95.0|0.25|1.56|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.56|0.25|0.007
92393843|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.923|TWO_SIDED|95.0|-0.63|0.69|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.69|-0.63|0.923
92393844|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.108|TWO_SIDED|95.0|-0.12|1.19|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.19|-0.12|0.108
92393845|NCT03084796|184686950|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.134|TWO_SIDED|95.0|-0.16|1.16|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.16|-0.16|0.134
92393846|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|7.88||||0.022|TWO_SIDED|95.0|1.13|14.63|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including inter-visit period, treatment by inter-visit period interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by inter-visit period interaction as covariates."||14.63|1.13|0.022
92393847|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|6.78||||0.048|TWO_SIDED|95.0|0.07|13.48|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||13.48|0.07|0.048
92393848|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|6.65||||0.053|TWO_SIDED|95.0|-0.09|13.4|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||13.40|-0.09|0.053
92421983|NCT01977937|184732633|OTHER|||||||0.02|||||||t-test, 2 sided|||Differences in the average total daily opioid were compared between groups using an unpaired two-tailed Student's t-test||||0.02
92421984|NCT02819518|184732642|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.012|TWO_SIDED|95.0|0.7|0.98||One-sided p-value based on log-rank test stratified by chemotherapy (taxane versus \[vs\] gemcitabine/carboplatin), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs. no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, tumor PD-L1 status, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||0.98|0.70|0.0120
92421985|NCT02819518|184732643|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0016|TWO_SIDED|95.0|0.62|0.91||One-sided p-value based on log-rank test stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||0.91|0.62|0.0016
92421986|NCT02819518|184732644|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0018|TWO_SIDED|95.0|0.5|0.88||One-sided p-value based on log-rank test stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||0.88|0.50|0.0018
92421987|NCT02819518|184732645|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.0797|TWO_SIDED|95.0|0.76|1.05||One-sided p-value based on log-rank test stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, tumor PD-L1 status, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||1.05|0.76|0.0797
92421988|NCT02819518|184732646|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0563|TWO_SIDED|95.0|0.72|1.04||One-sided p-value based on log-rank test stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||1.04|0.72|0.0563
92421989|NCT02819518|184732647|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0093|TWO_SIDED|95.0|0.55|0.95||One-sided p-value based on log-rank test stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||0.95|0.55|0.0093
92421990|NCT02819518|184732648|SUPERIORITY||Difference in ORR (%) vs. Control|3.8||||0.1413|TWO_SIDED|95.0|-3.2|10.6|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|||10.6|-3.2|0.1413
92421991|NCT02819518|184732649|SUPERIORITY||Difference in ORR (%) vs. Control|6.1||||0.0725|TWO_SIDED|95.0|-2.1|14.0|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|||14.0|-2.1|0.0725
92421992|NCT02819518|184732650|SUPERIORITY||Difference in ORR(%) vs. Control|12.1||||0.0213|TWO_SIDED|95.0|0.4|23.4|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin) and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|||23.4|0.4|0.0213
92421993|NCT02819518|184732654|SUPERIORITY||Difference in DCR (%) vs. control|4.7||||0.0966|TWO_SIDED|95.0|-2.4|11.8|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and prior treatment with same class of chemotherapy in the (neo) adjuvant setting (yes vs no).|||11.8|-2.4|0.0966
92421994|NCT02819518|184732655|SUPERIORITY||Difference in DCR (%) vs. Control|5.0||||0.1164|TWO_SIDED|95.0|-3.2|13.1|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin) and prior treatment with same class of chemotherapy in the (neo) adjuvant setting (yes vs no).|||13.1|-3.2|0.1164
92421995|NCT02819518|184732656|SUPERIORITY||Difference in DCR (%) vs. Control|10.8||||0.0327|TWO_SIDED|95.0|-0.7|22.3|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin) and prior treatment with same class of chemotherapy in the (neo) adjuvant setting (yes vs no).|||22.3|-0.7|0.0327
92421996|NCT02766465|184732666|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing severe vaso-occlusive pain (VOC) with hospitalization or parenteral opioid drugs in outpatient setting between two biologically assigned arms during the first year after biologic assignment. The null hypothesis is that there is no difference in biologically assigned arms during the first year after assignment.||||<0.001
92421997|NCT02766465|184732666|SUPERIORITY|||||||0.027||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing significant cerebrovascular event between two biologically assigned arms during the first year after biologic assignment. Significant cerebrovascular event includes stroke, transient ischemic attack, and seizure. The null hypothesis is that there is no difference in biologically assigned arms during the first year after assignment.||||0.027
92171846|NCT04788537|184233287|SUPERIORITY|Linear mixed model regression|Slope|-1.58||||0.006|TWO_SIDED||||||Mixed Models Analysis||Slope reported is for Time x Group Interaction|||||.006
92171847|NCT05161715|184233303|OTHER|||||||0.425||||||No multiple testing correction was performed|Wilcoxon (Mann-Whitney)|||||||0.425
92171848|NCT05161715|184233304|OTHER|||||||0.0002||||||No multiple testing correction was performed|Wilcoxon (Mann-Whitney)|||||||0.0002
92170209|NCT04840199|184229410|SUPERIORITY||Odds Ratio (OR)|0.92||||0.009|TWO_SIDED|95.0|0.87|0.98||No adjustment for multiple comparisons|GEE model for repeated binary outcomes|P-value is from the time and treatment group interaction in the late treatment phase.|Treatment effect was estimated as the odds ratio of weekly rate of change (slope) in odds of CMV DNA detection with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Late treatment phase comparison||0.98|0.87|0.009
92393849|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|9.29||||0.007|TWO_SIDED|95.0|2.55|16.04|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||16.04|2.55|0.007
92393850|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|4.61||||0.191|TWO_SIDED|95.0|-2.31|11.53|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||11.53|-2.31|0.191
92393851|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.747|TWO_SIDED|95.0|-7.8|5.6|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||5.60|-7.80|0.747
92393852|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|-1.23||||0.72|TWO_SIDED|95.0|-7.96|5.5|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||5.50|-7.96|0.720
92393853|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|1.41||||0.68|TWO_SIDED|95.0|-5.31|8.14|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||8.14|-5.31|0.680
92393854|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.971|TWO_SIDED|95.0|-6.82|6.57|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||6.57|-6.82|0.971
92393855|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|2.52||||0.46|TWO_SIDED|95.0|-4.17|9.21|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||9.21|-4.17|0.460
92170210|NCT04840199|184229410|SUPERIORITY||Odds Ratio (OR)|1.17||||0.24|TWO_SIDED|95.0|0.9|1.53||No adjustment for multiple comparisons|GEE model for repeated binary outcomes|P-value is from the time and treatment group interaction in the post treatment phase.|Treatment effect was estimated as the odds ratio of weekly rate of change (slope) in odds of CMV DNA detection with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Post treatment phase comparison||1.53|0.90|0.24
92170211|NCT04840199|184229413|SUPERIORITY||Mean Difference (Net)|0.0002||||0.95|TWO_SIDED|95.0|-0.0062|0.0066||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the early treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sCD163 with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between treatment groups).|Early treatment phase comparison||0.0066|-0.0062|0.95
92393856|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|2.64||||0.441|TWO_SIDED|95.0|-4.09|9.37|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||9.37|-4.09|0.441
92393857|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|6.76||||0.07|TWO_SIDED|95.0|-0.55|14.08|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||14.08|-0.55|0.070
92393858|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|8.44||||0.023|TWO_SIDED|95.0|1.16|15.72|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||15.72|1.16|0.023
92393859|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|6.96||||0.064|TWO_SIDED|95.0|-0.4|14.31|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||14.31|-0.40|0.064
92393860|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|11.08||||0.003|TWO_SIDED|95.0|3.79|18.38|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||18.38|3.79|0.003
92393861|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|4.2||||0.274|TWO_SIDED|95.0|-3.32|11.72|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||11.72|-3.32|0.274
92171849|NCT05161715|184233305|OTHER|||||||0.0424||||||No multiple testing correction was performed|Wilcoxon (Mann-Whitney)|||||||0.0424
92171850|NCT05161715|184233306|OTHER|||||||0.001||||||No multiple testing correction was performed|Wilcoxon (Mann-Whitney)|||||||0.001
92393862|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|1.68||||0.649|TWO_SIDED|95.0|-5.57|8.93|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||8.93|-5.57|0.649
92393863|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.958|TWO_SIDED|95.0|-7.12|7.51|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||7.51|-7.12|0.958
92393864|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|4.32||||0.242|TWO_SIDED|95.0|-2.93|11.58|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||11.58|-2.93|0.242
92393865|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|-1.48||||0.69|TWO_SIDED|95.0|-8.77|5.81|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||5.81|-8.77|0.690
92393866|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|2.64||||0.473|TWO_SIDED|95.0|-4.58|9.87|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||9.87|-4.58|0.473
92393867|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|4.13||||0.267|TWO_SIDED|95.0|-3.17|11.43|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||11.43|-3.17|0.267
92393868|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|7.32||||0.032|TWO_SIDED|95.0|0.65|13.99|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||13.99|0.65|0.032
92393869|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|7.61||||0.025|TWO_SIDED|95.0|0.97|14.24|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||14.24|0.97|0.025
92393870|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|6.8||||0.046|TWO_SIDED|95.0|0.12|13.49|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||13.49|0.12|0.046
92393871|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|10.19||||0.003|TWO_SIDED|95.0|3.52|16.85|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||16.85|3.52|0.003
92393872|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.207|TWO_SIDED|95.0|-2.45|11.25|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||11.25|-2.45|0.207
92393873|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|0.29||||0.932|TWO_SIDED|95.0|-6.33|6.91|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||6.91|-6.33|0.932
92393874|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|-0.52||||0.879|TWO_SIDED|95.0|-7.17|6.14|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||6.14|-7.17|0.879
92393875|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|2.87||||0.396|TWO_SIDED|95.0|-3.77|9.5|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||9.50|-3.77|0.396
92393876|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.812|TWO_SIDED|95.0|-7.44|5.83|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||5.83|-7.44|0.812
92393877|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|2.58||||0.444|TWO_SIDED|95.0|-4.03|9.19|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||9.19|-4.03|0.444
92393878|NCT03084796|184686951|SUPERIORITY||Mean Difference (Final Values)|3.38||||0.319|TWO_SIDED|95.0|-3.27|10.04|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||10.04|-3.27|0.319
92393879|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.43|||<|0.001|TWO_SIDED|95.0|-0.67|-0.18|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed, using linear mixed model repeated for measurements (MMRM), including treatment, inter-visit period, treatment by inter-visit period interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by inter-visit period interaction as covariates."||-0.18|-0.67|<0.001
92393880|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.023|TWO_SIDED|95.0|-0.53|-0.04|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.04|-0.53|0.023
92421998|NCT02766465|184732666|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing severe Vaso-occlusive pain (VOC) with hospitalization or parenteral opioid drugs in outpatient setting between two biologically assigned arms during the second year after biologic assignment. The null hypothesis is that there is no difference in biologically assigned arms during the second year after assignment.||||< 0.001
92421999|NCT02766465|184732667|SUPERIORITY|||||||0.869||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing 6MWD from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.869
92422000|NCT02766465|184732668|SUPERIORITY|||||||0.636||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing TRJV from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.636
92422001|NCT02766465|184732670|SUPERIORITY|||||||0.242||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing Physical Function changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.242
92422002|NCT02766465|184732671|SUPERIORITY|||||||0.343||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing Anxiety changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.343
92422003|NCT02766465|184732672|SUPERIORITY|||||||0.491||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing Depression changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.491
92422004|NCT02766465|184732673|SUPERIORITY|||||||0.003||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing fatigue score changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.003
92422005|NCT02766465|184732674|SUPERIORITY|||||||0.594||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing Sleep Disturbance changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.594
92236138|NCT00984659|184375838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.18||95.0|-0.03|0.15||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 43|ANCOVA|||||0.15|-0.03|0.180
92236139|NCT00984659|184375838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.307||95.0|-0.07|0.23||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Visit 3/PD|ANCOVA|||||0.23|-0.07|0.307
92422006|NCT02766465|184732675|SUPERIORITY|||||||0.003||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing social roles score changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.003
92422007|NCT02766465|184732676|SUPERIORITY|||||||0.071||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing pain interference score changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.071
92422008|NCT02766465|184732677|SUPERIORITY|||||||0.146||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing Pain Intensity changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.146
92422009|NCT02766465|184732678|SUPERIORITY|||||||0.649||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing 28-Day Pain Diary Average Pain Intensity changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.649
92422010|NCT02766465|184732679|SUPERIORITY|||||||0.207||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing ASCQ-Me Stiffness changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.207
92422011|NCT02766465|184732680|SUPERIORITY|||||||0.596||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing FEV1 changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.596
92422012|NCT02766465|184732681|SUPERIORITY|||||||0.684||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing FVC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.684
92422013|NCT02766465|184732682|SUPERIORITY|||||||0.863||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing FEV1/FVC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.863
92393881|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.067|TWO_SIDED|95.0|-0.47|0.02|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.02|-0.47|0.067
92422014|NCT02766465|184732683|SUPERIORITY|||||||0.455||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing VC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.455
92422015|NCT02766465|184732684|SUPERIORITY|||||||0.767||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing TLC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.767
92393882|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.66|-0.17|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.17|-0.66|<0.001
92393883|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.084|TWO_SIDED|95.0|-0.47|0.03|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.03|-0.47|0.084
92393884|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.243|TWO_SIDED|95.0|-0.1|0.39|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.39|-0.10|0.243
92393885|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.112|TWO_SIDED|95.0|-0.05|0.44|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.44|-0.05|0.112
92393886|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.929|TWO_SIDED|95.0|-0.23|0.26|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.26|-0.23|0.929
92393887|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.668|TWO_SIDED|95.0|-0.19|0.3|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.30|-0.19|0.668
92393888|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.281|TWO_SIDED|95.0|-0.38|0.11|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.11|-0.38|0.281
92393889|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.134|TWO_SIDED|95.0|-0.43|0.06|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.06|-0.43|0.134
92393890|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.003|TWO_SIDED|95.0|-0.7|-0.14|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.14|-0.70|0.003
92393891|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.02|TWO_SIDED|95.0|-0.61|-0.05|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.05|-0.61|0.020
92393892|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.017|TWO_SIDED|95.0|-0.62|-0.06|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.06|-0.62|0.017
92393893|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.8|-0.24|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.24|-0.80|<0.001
92422016|NCT02766465|184732685|SUPERIORITY|||||||0.241||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing RV changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.241
92393894|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.115|TWO_SIDED|95.0|-0.52|0.06|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.06|-0.52|0.115
92422017|NCT02766465|184732686|SUPERIORITY|||||||0.268||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing ERV changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.268
92170212|NCT04840199|184229413|SUPERIORITY||Mean Difference (Net)|-0.0007||||0.28|TWO_SIDED|95.0|-0.0019|0.0005||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the late treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sCD163 with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between treatment groups).|Late treatment phase comparison||0.0005|-0.0019|0.28
92170213|NCT04840199|184229413|SUPERIORITY||Mean Difference (Net)|0.0056||||0.077|TWO_SIDED|95.0|-0.0006|0.0118||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the post treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sCD163 with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between treatment groups).|Post treatment phase comparison||0.0118|-0.0006|0.077
92170214|NCT04840199|184229414|SUPERIORITY||Mean Difference (Net)|0.0009||||0.72|TWO_SIDED|95.0|-0.004|0.0058||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the early treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sTNFRII with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Early treatment phase comparison||0.0058|-0.0040|0.72
92393895|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.532|TWO_SIDED|95.0|-0.19|0.36|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.36|-0.19|0.532
92393896|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.603|TWO_SIDED|95.0|-0.21|0.35|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.35|-0.21|0.603
92393897|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.46|TWO_SIDED|95.0|-0.38|0.17|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.17|-0.38|0.460
92393898|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.921|TWO_SIDED|95.0|-0.29|0.26|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD.~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.26|-0.29|0.921
92393899|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.172|TWO_SIDED|95.0|-0.47|0.08|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.08|-0.47|0.172
92393900|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.21|TWO_SIDED|95.0|-0.46|0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.10|-0.46|0.210
92393901|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.67|-0.17|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.17|-0.67|<0.001
92393902|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.016|TWO_SIDED|95.0|-0.55|-0.06|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.06|-0.55|0.016
92393903|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.025|TWO_SIDED|95.0|-0.54|-0.04|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.04|-0.54|0.025
92393904|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.72|-0.22|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.22|-0.72|<0.001
92393905|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.083|TWO_SIDED|95.0|-0.48|0.03|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.03|-0.48|0.083
92171851|NCT05161715|184233311|OTHER|||||||0.556||||||No multiple testing correction was performed|Wilcoxon (Mann-Whitney)|||||||0.556
92393906|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.355|TWO_SIDED|95.0|-0.13|0.36|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.36|-0.13|0.355
92393907|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.283|TWO_SIDED|95.0|-0.11|0.38|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.38|-0.11|0.283
92393908|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.712|TWO_SIDED|95.0|-0.29|0.2|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.20|-0.29|0.712
92393909|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.877|TWO_SIDED|95.0|-0.23|0.27|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.27|-0.23|0.877
92393910|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.195|TWO_SIDED|95.0|-0.41|0.08|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.08|-0.41|0.195
92393911|NCT03084796|184686952|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.15|TWO_SIDED|95.0|-0.43|0.07|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.07|-0.43|0.150
92393912|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.967||||0.016|TWO_SIDED|95.0|-1.753|-0.181|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, inter-visit period, treatment by inter-visit period interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by inter-visit period interaction as covariates."||-0.181|-1.753|0.016
92393913|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.824||||0.039|TWO_SIDED|95.0|-1.606|-0.043|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.043|-1.606|0.039
92393914|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-1.227||||0.002|TWO_SIDED|95.0|-2.012|-0.441|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.441|-2.012|0.002
92393915|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.949||||0.018|TWO_SIDED|95.0|-1.733|-0.164|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.164|-1.733|0.018
92393916|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.566||||0.169|TWO_SIDED|95.0|-1.374|0.242|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.242|-1.374|0.169
92393917|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|0.142||||0.72|TWO_SIDED|95.0|-0.638|0.923|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.923|-0.638|0.720
92393918|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.515|TWO_SIDED|95.0|-1.043|0.523|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.523|-1.043|0.515
92393919|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.963|TWO_SIDED|95.0|-0.764|0.8|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.800|-0.764|0.963
92393920|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.402||||0.311|TWO_SIDED|95.0|-1.182|0.377|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.377|-1.182|0.311
92393921|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.124||||0.754|TWO_SIDED|95.0|-0.903|0.654|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.654|-0.903|0.754
92393922|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|0.278||||0.485|TWO_SIDED|95.0|-0.503|1.06|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.060|-0.503|0.485
92393923|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-1.349||||0.005|TWO_SIDED|95.0|-2.294|-0.403|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.403|-2.294|0.005
92422018|NCT02766465|184732687|SUPERIORITY||||||>|0.999||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing IC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||>0.999
92422019|NCT02766465|184732688|SUPERIORITY|||||||0.832||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing FRC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.832
92422020|NCT02766465|184732689|SUPERIORITY|||||||0.37||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing DLCO changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.370
92393924|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-1.159||||0.016|TWO_SIDED|95.0|-2.1|-0.218|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.218|-2.100|0.016
92393925|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-1.466||||0.003|TWO_SIDED|95.0|-2.416|-0.516|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.516|-2.416|0.003
92393926|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-1.396||||0.004|TWO_SIDED|95.0|-2.337|-0.454|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.454|-2.337|0.004
92393927|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.824||||0.097|TWO_SIDED|95.0|-1.797|0.15|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.150|-1.797|0.097
92393928|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.69|TWO_SIDED|95.0|-0.746|1.126|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.126|-0.746|0.690
92393929|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.117||||0.808|TWO_SIDED|95.0|-1.061|0.827|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.827|-1.061|0.808
92393930|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.047||||0.922|TWO_SIDED|95.0|-0.983|0.889|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.889|-0.983|0.922
92393931|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.307||||0.522|TWO_SIDED|95.0|-1.248|0.634|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.634|-1.248|0.522
92393932|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.237||||0.618|TWO_SIDED|95.0|-1.17|0.696|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.696|-1.170|0.618
92393933|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.884|TWO_SIDED|95.0|-0.871|1.012|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.012|-0.871|0.884
92393934|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-1.158||||0.006|TWO_SIDED|95.0|-1.978|-0.337|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.337|-1.978|0.006
92393935|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.992||||0.017|TWO_SIDED|95.0|-1.808|-0.175|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.175|-1.808|0.017
92422021|NCT02766465|184732690|SUPERIORITY|||||||0.094||||||Statistical significance was determined using a pre-specified threshold of 0.05;|Wilcoxon (Mann-Whitney)|||This is the result comparing oxygen saturation changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.094
92422022|NCT02766465|184732692|SUPERIORITY|||||||0.313||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of grade II-IV acute GVHD in patients who received different donor type at transplant||||0.313
92422023|NCT02766465|184732693|SUPERIORITY|||||||0.233||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of chronic GVHD in patients who received different donor type at transplant||||0.233
92393936|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-1.346||||0.001|TWO_SIDED|95.0|-2.168|-0.524|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.524|-2.168|0.001
92236140|NCT00984659|184375842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||<|0.001||95.0|0.14|0.34||ANCOVA adjusted for age, gender, and SOBDA Baseline score; comparision of mean SOBDA score for CGI-C responders and non-responders|ANCOVA|||||0.34|0.14|<0.001
92393937|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-1.172||||0.005|TWO_SIDED|95.0|-1.991|-0.353|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.353|-1.991|0.005
92393938|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.695||||0.107|TWO_SIDED|95.0|-1.539|0.149|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.149|-1.539|0.107
92393939|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|0.166||||0.689|TWO_SIDED|95.0|-0.648|0.98|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.980|-0.648|0.689
92393940|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.188||||0.651|TWO_SIDED|95.0|-1.007|0.63|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.630|-1.007|0.651
92393941|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.014||||0.973|TWO_SIDED|95.0|-0.83|0.801|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.801|-0.830|0.973
92393942|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.355||||0.393|TWO_SIDED|95.0|-1.17|0.461|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.461|-1.170|0.393
92393943|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|-0.181||||0.663|TWO_SIDED|95.0|-0.993|0.632|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.632|-0.993|0.663
92393944|NCT03084796|184686953|SUPERIORITY||Mean Difference (Final Values)|0.174||||0.676|TWO_SIDED|95.0|-0.643|0.991|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.991|-0.643|0.676
92393945|NCT02586623|184686962|SUPERIORITY||Cox Proportional Hazard|1.04||||0.803|TWO_SIDED|95.0|0.67|1.62|||Log Rank||Droxidopa / Placebo|||1.62|0.67|0.803
92393946|NCT03799341|184686969|OTHER|||||||0.177|||||||Wilcoxon (Mann-Whitney)|||||||0.177
92393947|NCT03799341|184686970|OTHER|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||||||0.033
92393948|NCT03799341|184686971|OTHER|||||||0.126|||||||Wilcoxon (Mann-Whitney)|||||||0.126
92393949|NCT03799341|184686972|OTHER|||||||0.384|||||||Wilcoxon (Mann-Whitney)|||||||0.384
92393950|NCT03799341|184686973|OTHER|||||||0.308|||||||Wilcoxon (Mann-Whitney)|||||||0.308
92393951|NCT03799341|184686974|OTHER|||||||0.976|||||||Wilcoxon (Mann-Whitney)|||||||0.976
92393952|NCT03799341|184686975|OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.920
92393953|NCT03799341|184686976|OTHER|||||||0.873|||||||Wilcoxon (Mann-Whitney)|||||||0.873
92393954|NCT03799341|184686977|OTHER||||||<|0.001|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit inclusion of covariates. A median split approach was therefore used to examine the influence of Contingency Management session attendance. The design included 4 factors: time (2 levels), stimulus condition (3 levels), electrode pair (4 levels), and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||<0.001
92393955|NCT03799341|184686977|OTHER||||||<|0.001|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit covariates. A median split approach was therefore used to examine the influence of self-reported cocaine abstinence during treatment. The design included 4 factors: time (2 levels), stimulus condition (3 levels), electrode pair (4 levels), and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||<0.001
92393956|NCT03799341|184686977|OTHER|||||||0.022|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit inclusion of covariates. A median split approach was therefore used to examine the influence of Contingency Management session attendance. The design included 4 factors: time (2 levels), response accuracy (2 levels), electrode pair (4 levels), and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||0.022
92393957|NCT03799341|184686977|OTHER|||||||0.024|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit covariates. A median split approach was therefore used to examine the influence of self-reported cocaine abstinence during treatment. The design included 4 factors: time (2 levels), response accuracy (2 levels), electrode pair (4 levels), and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||0.024
92236141|NCT00984659|184375843|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.3|||<|0.001|TWO_SIDED|95.0|0.21|0.4||ANCOVA adjusted for age, gender, and SOBDA Baseline score; comparision of mean SOBDA score for CRQ-SAS Dyspnea Domain responders and non-responders|ANCOVA|||||0.40|0.21|<0.001
92393958|NCT03799341|184686978|OTHER|||||||0.973|||||||ANOVA|||No violations of normality assumptions were identified. A repeated measures ANOVA was conducted. To maintain consistency with other outcome measures, a median split approach was used to examine the potential influence of Contingency Management session attendance. The design included two factors: time (2 levels) and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||0.973
92422024|NCT01505647|184732695|NON_INFERIORITY_OR_EQUIVALENCE|The GMT induced by ZOSTAVAX™ (AMP) vaccine is statistically non-inferior to that induced by the current process vaccine if the lower bound of the 95% confidence interval of the GMT ratio is \>0.67.|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.98|1.2||The threshold for statistical significance is 0.025 (1-sided). The P-value was not adjusted.|Longitudinal regression model|The analyzed GMT ratio, 95% confidence interval, and P-value were based on a longitudinal regression model adjusting for age and vaccination group||The hypothesis tested is that the GMT at Week 6 postvaccination with ZOSTAVAX™ (AMP) vaccine is non-inferior to that with the current process vaccine||1.20|0.98|<0.001
92422025|NCT01505647|184732696|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The threshold for statistical significance is 0.025 (1-sided). The P-value was not adjusted.|t-test, 1 sided|||The hypothesis tested was that ZOSTAVAX™ (AMP) induces an acceptable GMFR in VZV antibody titer from prevaccination to 6 weeks postvaccination||||<0.001
92236142|NCT00984659|184375844|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.03||||0.535||95.0|-0.08|0.15||ANCOVA adjusted for age, gender, and SOBDA Baseline score; comparision of mean SOBDA score for Physician-Completed mMRC responders and non-responders|ANCOVA|||||0.15|-0.08|0.535
92393959|NCT03799341|184686978|OTHER|||||||0.662|||||||ANOVA|||No violations of normality assumptions were identified. A repeated measures ANOVA was conducted. To maintain consistency with other outcome measures, a median split approach was used to examine the potential influence of self-reported cocaine abstinence during the 12-week treatment interval. The design included two factors: time (2 levels) and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||0.662
92393960|NCT03799341|184686979|OTHER|||||||0.878|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit inclusion of covariates. A median split approach was therefore used to examine the potential influence of Contingency Management session attendance. The design included 3 factors: time (2 levels), condition (2 levels), and median split group membership (2 levels). Reported results reflect the interaction between time, condition, and median split group.||||0.878
92393961|NCT03799341|184686979|OTHER|||||||0.645|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit inclusion of covariates. A median split approach was therefore used to examine the potential influence of self-reported cocaine abstinence during treatment. The design included 3 factors: time (2 levels), condition (2 levels), and median split group membership (2 levels). Reported results reflect the interaction between time, condition, and median split group.||||0.645
92393962|NCT05579977|184687027|OTHER||LS Mean Difference|-0.95|||<|0.0001|TWO_SIDED|90.0|-1.2|-0.7|||Mixed Models Analysis|||||-0.70|-1.20|<.0001
92393963|NCT05579977|184687027|OTHER||LS Mean Difference|-1.3|||<|0.0001|TWO_SIDED|90.0|-1.55|-1.04|||Mixed Models Analysis|||||-1.04|-1.55|<.0001
92393964|NCT05579977|184687027|OTHER||LS Mean Difference|-1.37|||<|0.0001||90.0|-1.62|-1.11|||Mixed Models Analysis|||||-1.11|-1.62|<.0001
92393965|NCT05579977|184687027|OTHER||LS Mean Difference|-1.26|||<|0.0001|TWO_SIDED|90.0|-1.52|-1.01|||Mixed Models Analysis|||||-1.01|-1.52|<.0001
92422026|NCT01907100|184732700|OTHER||Hazard Ratio (HR)|0.555||||0.0174|TWO_SIDED|95.0|0.34|0.907|||Proportional hazards mode||Hazard ratio, confidence interval and p-value obtained from proportional hazards model stratified by tumour histology (epithelioid vs. biphasic).|Phase II Part||0.907|0.340|0.0174
92393966|NCT05579977|184687027|OTHER||LS Mean Difference|-1.29|||<|0.0001||90.0|-1.55|-1.03|||Mixed Models Analysis|||||-1.03|-1.55|<.0001
92393967|NCT05579977|184687027|OTHER||LS Mean Difference|-0.86|||<|0.0001|TWO_SIDED|90.0|-1.12|-0.61|||Mixed Models Analysis|||||-0.61|-1.12|<.0001
92393968|NCT05579977|184687028|OTHER||LS Mean Difference|-2.44||||0.0055|TWO_SIDED|90.0|-3.88|-1.0|||Mixed Models Analysis|||||-1.00|-3.88|0.0055
92393969|NCT05579977|184687028|OTHER||LS Mean Difference|-4.37|||<|0.0001|TWO_SIDED|90.0|-5.84|-2.89|||Mixed Models Analysis|||||-2.89|-5.84|<.0001
92393970|NCT05579977|184687028|OTHER||LS Mean Difference|-5.63|||<|0.0001|TWO_SIDED|90.0|-7.07|-4.18|||Mixed Models Analysis|||||-4.18|-7.07|<.0001
92393971|NCT05579977|184687028|OTHER||LS Mean Difference|-5.04|||<|0.0001|TWO_SIDED|90.0|-6.5|-3.58|||Mixed Models Analysis|||||-3.58|-6.50|<.0001
92393972|NCT05579977|184687028|OTHER||LS Mean Difference|-5.42|||<|0.0001|TWO_SIDED|90.0|-6.91|-3.93|||Mixed Models Analysis|||||-3.93|-6.91|<.0001
92393973|NCT05579977|184687031|OTHER||LS Mean Difference|-0.86|||<|0.0001|TWO_SIDED|90.0|-1.12|-0.61|||Mixed Models Analysis|||||-0.61|-1.12|<.0001
92393974|NCT01928927|184687044|SUPERIORITY||Theta statistic|0.5||||0.97|TWO_SIDED|95.0|0.26|0.73||No adjustment for multiple comparisons|Theta statistic; DeLong & Clarke-Pearson||The theta statistic estimates the probability that a randomly selected outcome from the telmisartan arm is \<= a randomly selected outcome from the control arm.|Null hypothesis: theta = 0.50||0.73|0.26|0.97
92393975|NCT01928927|184687045|SUPERIORITY||Theta statistic|0.57||||0.61|TWO_SIDED|95.0|0.31|0.83||No adjustment for multiple comparisons|Theta statistic; DeLong & Clarke-Pearson||The theta statistic estimates the probability that a randomly selected outcome from the telmisartan arm is \<= a randomly selected outcome from the control arm.|Null hypothesis: theta = 0.50||0.83|0.31|0.61
92393976|NCT01420926|184687114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Stratified 1-sided log-rank|||||||0.30
92236143|NCT00984659|184375844|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.08||||0.08||95.0|-0.02|0.19||ANCOVA adjusted for age, gender, and SOBDA Baseline score; comparison of mean SOBDA score for Participant-Completed mMRC responders and non-responders|ANCOVA|||||0.19|-0.02|0.08
92236144|NCT00909090|184375870|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92236145|NCT00909090|184375871|SUPERIORITY|||||||0.21|||||||Regression, Linear|||Analysis compared mean differences between placebo and intervention at the 12-month time point.||||0.21
92393977|NCT00932321|184687120|NON_INFERIORITY_OR_EQUIVALENCE|Primary hypothesis tested was the independence (lack of association) of mean number of IB days in Cycles 2-6 across treatment groups.||||||0.311|||||||Cochran-Mantel-Haenszel|Stratified by investigational site.||||||0.311
92393978|NCT04564846|184687121|OTHER||Risk Ratio (RR)|0.974||||0.1628|TWO_SIDED|95.0|0.938|1.011|||Analysis of Covariance||Estimated Difference from Placebo Across All Time Points. Log transformed values analyzed using an Analysis of Covariance model with treatment and time point as effects and baseline HbA1c as a covariate.|Comparison to Placebo Across All Time Points||1.011|0.938|0.1628
92393979|NCT04564846|184687123|OTHER||Risk Ratio (RR)|0.784||||0.0674|TWO_SIDED|95.0|0.605|1.017|||Analysis of Covariance|||Estimated Difference from Placebo Across All Time Points|Log transformed values analyzed using an Analysis of Covariance model with treatment and time point as effects and baseline HbA1c as a covariate.|1.017|0.605|0.0674
92393980|NCT04564846|184687124|OTHER|Log transformed values analyzed using an Analysis of Covariance model with treatment and time point as effects and baseline HbA1c as a covariate.|Risk Ratio, log|1.067||||0.8182|TWO_SIDED|95.0|0.976|1.167|||Analysis of Covariance|||Estimated Difference from Placebo Across All Time Points.||1.167|0.976|0.8182
92393981|NCT04564846|184687125|OTHER|AUC Parameters analyzed using an Analysis of Covariance model with treatment as the main effect and baseline HbA1c as a covariate.|Risk Ratio, log|1.007||||0.8182|TWO_SIDED|95.0|0.951|1.066|||Analysis of Covariance|||||1.066|0.951|0.8182
92393982|NCT04564846|184687126|OTHER||Analysis of Variance|0.4628|||||TWO_SIDED|||||Parameter analyzed using an Analysis of Variance model with treatment as the main effect.||||||||
92393983|NCT00179621|184687134|SUPERIORITY_OR_OTHER||||||<|0.001||||||To compare the response rates of Lenalidomide 5 mg QD vs. placebo, the Hochberg procedure was used to control the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Stratified by International Prognostic Scoring System (IPSS) score (IPSS combined score =0 versus \>0) to compare lenalidomide treatment with placebo.||||||<0.001
92393984|NCT00179621|184687134|SUPERIORITY_OR_OTHER||||||<|0.001||||||To compare the response rates of Lenalidomide 10 mg QD vs. placebo, the Hochberg procedure was used to control the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Stratified by International Prognostic Scoring System (IPSS) score (IPSS combined score =0 versus \>0) to compare lenalidomide treatment with placebo.||||||<0.001
92236146|NCT00909090|184375872|SUPERIORITY|||||||0.01|||||||t-test, 1 sided|||Analysis compared mean change from baseline to 12-month time points.||||0.01
92236147|NCT00909090|184375873|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||analysis conducted on mean change over one year, between groups||||0.02
92236148|NCT02926573|184375876|SUPERIORITY||Median Difference (Final Values)|0.26|||||TWO_SIDED|95.0|-0.27|0.94||||||||0.94|-0.27|
92393985|NCT00179621|184687135|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by International Prognostic Scoring System (IPSS) score (IPSS combined score =0 versus \>0) to compare lenalidomide treatment with placebo.||||||<0.001
92393986|NCT00179621|184687135|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by International Prognostic Scoring System (IPSS) score (IPSS combined score =0 versus \>0) to compare lenalidomide treatment with placebo.||||||<0.001
92393987|NCT00179621|184687145|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92393988|NCT00179621|184687145|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92393989|NCT00179621|184687146|SUPERIORITY_OR_OTHER|||||||0.054||95.0|||||ANOVA|||||||0.054
92393990|NCT00179621|184687146|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANOVA|||||||0.080
92393991|NCT00179621|184687147|SUPERIORITY_OR_OTHER|||||||0.062||95.0|||||ANOVA|||||||0.062
92393992|NCT00179621|184687147|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||ANOVA|||||||0.113
92393993|NCT00865345|184687149|SUPERIORITY_OR_OTHER||Intercept from ANCOVA model|70.0|STANDARD_ERROR_OF_MEAN|2.0|<|0.05|TWO_SIDED|95.0|60.0|100.0|||ANCOVA|null model ANOVA is used to calculate 95% CI around accuracy rate. Intercept was fit in the abscence of other predictors.||||100|60|<0.05
92393994|NCT03692208|184687158|OTHER|Quantitative outcomes from chart and survey data were summarized by basic descriptive statistics.|||||<|0.01||||||P-values were calculated. Only P values of \<0.05 were considered statistically significant.|Chi-squared|Chi-squared tests, Fisher's Exact tests, two-sample t-tests, and paired two-sample t-tests were utilized to assess the outcomes between study arms.||||||<0.01
92393995|NCT05482308|184687185|OTHER||Mean differences(Test-Reference)|98.35|||||TWO_SIDED|90.0|92.92|104.1|||Mixed effect model|"Mixed effect model was fitted to obtain:~1.Adjusted mean differences 2.90% Confidence intervals(CI)"||||104.10|92.92|
92393996|NCT05482308|184687186|OTHER||Mean difference (Test-Reference)|91.58|||||TWO_SIDED|90.0|81.5|102.9|||Mixed effect model|"Mixed effect model was fitted to obtain:~1.Adjusted mean differences 2.90% Confidence intervals(CI)"||||102.90|81.50|
92393997|NCT01693029|184687189|EQUIVALENCE|"Equivalence margin (-0.5, 0.5) g/dL. Results from ANCOVA with factors treatment group and covariates mean baseline Hb and mean weekly dose during the evaluation period (Week 21-28)"|Mean Difference (Final Values)|-0.0926|||||TWO_SIDED|90.0|-0.2264|0.0413|||||||95% confidence interval for the difference is (-0.2522, 0.0670).|0.0413|-0.2264|
92393998|NCT04233008|184687206|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92393999|NCT04233008|184687207|SUPERIORITY|||||||0.14|||||||Chi-squared|||||||0.14
92394000|NCT04233008|184687208|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92394001|NCT04233008|184687209|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
92394002|NCT04233008|184687210|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
92394003|NCT04233008|184687212|SUPERIORITY|||||||0.8|||||||Chi-squared|||||||0.8
92236149|NCT02926573|184375877|SUPERIORITY||Percent Difference|9.2|||||TWO_SIDED|95.0|-3.0|21.0||||||||21|-3.0|
92236150|NCT02926573|184375879|SUPERIORITY||Percent Difference|-2.0|||||TWO_SIDED|95.0|-15.0|11.0|||||"The estimation parameter is based on those participants who answered they were very satisfied with overall pain control."|||11|-15|
92236151|NCT02926573|184375880|SUPERIORITY||Mean Difference (Final Values)|7.4|||||TWO_SIDED|95.0|-3.4|18.3|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7AM.|||18.3|-3.4|
92236152|NCT02926573|184375880|SUPERIORITY||Mean Difference (Final Values)|8.7|||||TWO_SIDED|95.0|-2.9|20.3|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 10AM.|||20.3|-2.9|
92236153|NCT02926573|184375880|SUPERIORITY||Mean Difference (Final Values)|7.2|||||TWO_SIDED|95.0|-4.6|18.9|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7PM.|||18.9|-4.6|
92236154|NCT02926573|184375880|SUPERIORITY||Mean Difference (Final Values)|5.1|||||TWO_SIDED|95.0|-6.6|16.8|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7AM.|||16.8|-6.6|
92394004|NCT01173016|184687242|OTHER|||||||0.038|||||||Regression, Logistic|||Impact of anti-laronidase antibody status on the change in 6MWT outcome was tested||||0.038
92394005|NCT00141453|184687243|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.79||95.0|0.75|1.24|||Regression, Cox|The covariates were urinary albumin:creatinine ratio and serum creatinine at baseline \& regions (Japan/Hong Kong) for the renal composite event rate.||We planned to collect 400 patients to detect 35% risk reduction for renal outcome in olmesartan group with 80% power at 2-sided .05 alpha level. The Cox regression model was applied to estimate the hazard ratios (HR)between treatment groups with 95% confidence intervals for the renal and cardiovascular composite event rate.||1.24|0.75|0.79
92394006|NCT00141453|184687244|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.039||95.0|0.43|0.98|||Regression, Cox|Covariates baseline urinary albumin:creatinine ratio, age and history of cardiovascular disease for cardiovascular composite event rate.||||0.98|0.43|0.039
92394007|NCT02656017|184687254|SUPERIORITY||Mean Difference (Net)|0.07||||0.5|TWO_SIDED|95.0|-0.13|0.26|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in GSRS score as a function of time, the interaction between time and study arm, and clinical site.||0.26|-0.13|0.50
92394008|NCT02656017|184687255|SUPERIORITY|||||||0.12|||||||Gray's test|||The Gray's test of homogeneity for competing risks was used to compare cumulative incidence of tolerating the drug between study arms.||||0.12
92394009|NCT02656017|184687256|SUPERIORITY|||||||0.98|||||||Regression, Logistic|||Cumulative incidence between study arms and logistic regression was used to assess the association between study arms.||||0.98
92394010|NCT02656017|184687257|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.72|TWO_SIDED|95.0|-1.81|2.6|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in SF-36 PCS as a function of time, the interaction between time and study arm, and clinical site.||2.60|-1.81|0.72
92394011|NCT02656017|184687258|SUPERIORITY||Mean Difference (Final Values)|1.11||||0.49|TWO_SIDED|95.0|-2.02|4.25|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in SF-36 MCS as a function of time, the interaction between time and study arm, and clinical site.||4.25|-2.02|0.49
92394012|NCT02656017|184687259|SUPERIORITY|||||||0.44|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept and slope was used to compare back pain frequency as a function of time, the interaction between time and study arm, and clinical site.||||0.44
92394013|NCT02656017|184687260|SUPERIORITY||Mean Difference (Final Values)|2.73||||0.2|TWO_SIDED|95.0|-1.4|6.87|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in eGFR as a function of time, the interaction between time and study arm, and clinical site.||6.87|-1.40|0.20
92394014|NCT02656017|184687261|SUPERIORITY||Mean Difference (Final Values)|1.68||||0.38|TWO_SIDED|95.0|-2.11|5.62|||Mixed Models Analysis|||Linear mixed model with random intercept and slope was used to compare the annual percent change of ln(htTKV) as a function of time, the interaction between time and study arm, and clinical site.||5.62|-2.11|0.38
92394015|NCT02656017|184687262|SUPERIORITY||Mean Difference (Final Values)|3.81||||0.31|TWO_SIDED|95.0|-3.48|11.65|||Mixed Models Analysis|||Linear mixed model with random intercept and slope was used to compare the annual percent change of ln(htTKCV) as a function of time, the interaction between time and study arm, and clinical site.||11.65|-3.48|0.31
92394016|NCT02656017|184687263|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.72|TWO_SIDED|95.0|-1.78|2.61|||Mixed Models Analysis|||Linear mixed model with random intercept and slope was used to compare the annual percent change of ln(htLV) as a function of time, the interaction between time and study arm, and clinical site.||2.61|-1.78|0.72
92394017|NCT02656017|184687264|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.8|TWO_SIDED|95.0|-10.05|14.76|||Mixed Models Analysis|||Linear mixed model with random intercept and slope was used to compare the annual percent change of ln(htLCV) as a function of time, the interaction between time and study arm, and clinical site.||14.76|-10.05|0.80
92394018|NCT02656017|184687265|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept and slope was used to compare abdominal fullness interfered as a function of time, the interaction between time and study arm, and clinical site.||||0.83
92236155|NCT02926573|184375880|SUPERIORITY||Mean Difference (Final Values)|7.4|||||TWO_SIDED|95.0|-3.6|18.3|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 10AM.|||18.3|-3.6|
92236156|NCT02926573|184375880|SUPERIORITY||Mean Difference (Final Values)|8.0|||||TWO_SIDED|95.0|-5.6|21.6|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7PM.|||21.6|-5.6|
92236157|NCT02926573|184375880|SUPERIORITY||Mean Difference (Final Values)|10.1|||||TWO_SIDED|95.0|-3.5|23.8|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 3 7AM.|||23.8|-3.5|
92236158|NCT02926573|184375881|SUPERIORITY||Mean Difference (Final Values)|10.7|||||TWO_SIDED|95.0|-0.9|22.3|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7AM.|||22.3|-0.9|
92394019|NCT02656017|184687266|SUPERIORITY|||||||0.72|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept and slope was used to compare interference of pain with sleep frequency as a function of time, the interaction between time and study arm, and clinical site.||||0.72
92394020|NCT02656017|184687267|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept and slope was used to compare interference of pain with strenuous physical activity frequency as a function of time, the interaction between time and study arm, and clinical site.||||0.28
92394021|NCT04245111|184687268|OTHER|No other statistical analysis completed other than percentage of patients completed as reported in the data table section||||||||||||||||No other statistical analysis completed other than percentage of patients completed as reported in the data table section|No other statistical analysis completed other than percentage of patients completed as reported in the data table section|||
92394022|NCT00861705|184687281|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0018|||||||Chi-squared|Reported p-values are unadjusted and 1-sided||The study was designed to detect an increase in the incidence of pCR from 35% in the control arm to 55% in the experimental arm using a 1-sided chi square test of proportions. With a target sample of 362 patients and assuming a 10% dropout rate, an overall assessable sample size of 326 patients resulted in \> 95% power.||||0.0018
92394023|NCT00861705|184687282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0089|||||||Chi-squared|Reported p-values are unadjusted and 1-sided||The study was designed to detect an increase in the incidence of pCR from 35% in the control arm to 55% in the experimental arm using a 1-sided chi square test of proportions. With a target sample of 362 patients and assuming a 10% dropout rate, an overall assessable sample size of 326 patients resulted in \> 95% power.||||0.0089
92394024|NCT00861705|184687283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0029|||||||Chi-squared|Reported p-values are unadjusted and 1-sided||||||0.0029
92394025|NCT00861705|184687284|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057|||||||Chi-squared|Reported p-values are unadjusted and 1-sided||||||0.057
92422027|NCT01907100|184732700|OTHER||Hazard Ratio (HR)|1.01||||0.543|TWO_SIDED|95.0|0.79|1.3||one-sided p-value|Proportional hazards model||Hazard ratio, confidence interval and p-value obtained from a non-stratified proportional hazards model.|"Phase III part:~A Cox proportional hazards model was fitted to estimate hazard ratios (HRs) and corresponding 95% confidence intervals (CIs) for the comparison of treatment arms (Nintedanib vs Placebo).~If the hazard ratio is below 1 then it favours nintedanib."||1.30|0.79|0.5430
92170215|NCT04840199|184229414|SUPERIORITY||Mean Difference (Net)|-0.0009||||0.13|TWO_SIDED|95.0|-0.0022|0.0003||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the late treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sTNFRII with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Late treatment phase comparison||0.0003|-0.0022|0.13
92394026|NCT00861705|184687288|SUPERIORITY||Cox Proportional Hazard|1.19|||||TWO_SIDED|95.0|0.67|2.1||||||||2.10|0.67|
92394027|NCT00861705|184687288|SUPERIORITY||Cox Proportional Hazard|1.43|||||TWO_SIDED|95.0|0.82|2.47||||||||2.47|0.82|
92394028|NCT00861705|184687288|SUPERIORITY||Cox Proportional Hazard|0.82|||||TWO_SIDED|95.0|0.49|1.37||||||||1.37|0.49|
92394029|NCT00861705|184687289|SUPERIORITY||Cox Proportional Hazard|1.08|||||TWO_SIDED|95.0|0.66|1.75||||||||1.75|0.66|
92394030|NCT00861705|184687289|SUPERIORITY||Cox Proportional Hazard|1.2|||||TWO_SIDED|95.0|0.74|1.92||||||||1.92|0.74|
92394031|NCT00861705|184687289|SUPERIORITY||Cox Proportional Hazard|0.82|||||TWO_SIDED|95.0|0.49|1.37||||||||1.37|0.49|
92422028|NCT01907100|184732701|OTHER||Hazard Ratio (HR)|0.782||||0.4132|TWO_SIDED|95.0|0.433|1.412|||Proportional hazards mode||Hazard ratio, confidence interval and p-value obtained from proportional hazards model stratified by tumour histology (epithelioid vs. biphasic).|Phase II||1.412|0.433|0.4132
92422029|NCT01907100|184732701|OTHER||Hazard Ratio (HR)|1.12||||0.7306|TWO_SIDED|95.0|0.79|1.58||one-sided p-value|Proportional hazards model||Hazard ratio, confidence interval and p-value obtained from a non-stratified proportional hazards model.|"Phase III:~A Cox proportional hazards model was fitted to estimate hazard ratios (HRs) and corresponding 95% confidence intervals (CIs) for the comparison of treatment arms (Nintedanib vs Placebo).~If the hazard ratio is below 1 then it favours nintedanib."||1.58|0.79|0.7306
92394032|NCT00861705|184687290|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.66|2.03||||||||2.03|0.66|
92394033|NCT00861705|184687290|SUPERIORITY||Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|0.72|2.16||||||||2.16|0.72|
92394034|NCT00861705|184687290|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.53|1.7||||||||1.70|0.53|
92394035|NCT04864249|184687305|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||||||0.54
92394036|NCT04864249|184687306|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92394037|NCT04864249|184687307|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||||||0.89
92394038|NCT04864249|184687308|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
92394039|NCT04864249|184687309|SUPERIORITY|||||||0.15|||||||Chi-squared|||||||0.15
92394040|NCT04864249|184687310|SUPERIORITY|||||||0.84|||||||Chi-squared|||||||0.84
92394041|NCT04864249|184687311|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
92394042|NCT04864249|184687312|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
92394043|NCT04864249|184687313|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
92394044|NCT04864249|184687314|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|||||||0.62
92394045|NCT04864249|184687315|SUPERIORITY|||||||0.19|||||||Chi-squared|||||||0.19
92394046|NCT04864249|184687316|SUPERIORITY|||||||0.66|||||||Chi-squared|||||||0.66
92394047|NCT04864249|184687317|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
92394048|NCT04864249|184687318|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
92394049|NCT04864249|184687319|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||||||0.56
92394050|NCT04864249|184687320|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.80
92394051|NCT04864249|184687321|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||||||0.48
92394052|NCT04864249|184687322|SUPERIORITY|||||||0.62|||||||Chi-squared|||||||0.62
92394053|NCT04864249|184687323|SUPERIORITY|||||||0.21|||||||Chi-squared|||||||0.21
92394054|NCT04864249|184687324|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
92394055|NCT04864249|184687325|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
92394056|NCT04864249|184687326|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.51
92394057|NCT04864249|184687327|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
92394058|NCT04864249|184687328|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.68
92422030|NCT01907100|184732702|OTHER||Odds Ratio (OR)|1.09||||0.3189|TWO_SIDED|95.0|0.76|1.58||one-sided p-value|Regression, Logistic|Odds ratio and one-sided p-value are obtained from an un-adjusted logistic regression model (Nintedanib vs Placebo).|Odds ratio above 1 favours nintedanib.||Exact 95% CI by Clopper and Pearson.|1.58|0.76|0.3189
92422031|NCT01907100|184732703|OTHER||Odds Ratio (OR)|0.79||||0.7512|TWO_SIDED|95.0|0.4|1.55||one-sided p-value|Regression, Logistic|Odds ratio and one-sided p-value are obtained from an un-adjusted logistic regression model (Nintedanib vs Placebo).|Odds ratio above 1 favours nintedanib.|||1.55|0.40|0.7512
92422032|NCT00667602|184732720|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC)|Percentage Difference|-8.0|||||TWO_SIDED|95.0|-15.0|-1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||The primary criterion for immunogenicity was that the lower limit of the two-sided 95% confidence interval (CI) for the difference between one dose of MenACWY-CRM197 and MenC in the percentage of subjects with hSBA ≥1:8 for serogroup C at 1 month following the 12 months vaccination was greater than -10% .||-1|-15|
92422033|NCT00667602|184732721|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC)|Percentage difference|-7.0|||||TWO_SIDED|95.0|-13.0|-2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||The primary criterion for immunogenicity was that the lower limit of the two-sided 95% confidence interval (CI) for the difference between one dose of MenACWY-CRM197 and MenC in the percentage of subjects with hSBA ≥ 1:4 for serogroup C at 1 month following the 12 months vaccination was greater than -10%.||-2|-13|
92422034|NCT00667602|184732722|NON_INFERIORITY_OR_EQUIVALENCE|(PMenACWY - PMenC \> -10%).|Mean Difference (Final Values)|72.0|||||TWO_SIDED|95.0|64.0|79.0|||Percentage difference|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Comparisons to MenC were based on the percentages of subjects with response (hSBA ≥1:8, prevaccination) to serogroup C. MenACWY was determined to be noninferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY and MenC in the percentage of subjects with response towards serogroup C was greater than -10%.||79|64|
92422035|NCT00667602|184732722|NON_INFERIORITY_OR_EQUIVALENCE|(PMenACWY - PMenC \> -10%).|Mean Difference (Net)|7.0|||||TWO_SIDED|95.0|3.0|13.0|||Percentage difference|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Comparisons to MenC were based on the percentages of subjects with response (hSBA ≥1:8, one month postvaccination) to serogroup C. MenACWY was determined to be noninferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY and MenC in the percentage of subjects with response towards serogroup C was greater than -10%.||13|3|
92422036|NCT00667602|184732722|NON_INFERIORITY_OR_EQUIVALENCE|(PMenACWY - PMenC \> -10%).|Mean Difference (Final Values)|80.0|||||TWO_SIDED|95.0|73.0|86.0|||Percentage difference|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Comparisons to MenC were based on the percentages of subjects with response (hSBA ≥1:4, prevaccination) to serogroup C. MenACWY was determined to be noninferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY and MenC in the percentage of subjects with response towards serogroup C was greater than -10%.||86|73|
92422037|NCT00667602|184732722|NON_INFERIORITY_OR_EQUIVALENCE|(PMenACWY - PMenC \> -10%).|Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.0|5.0|||Percentage difference|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Comparisons to MenC were based on the percentages of subjects with response (hSBA ≥1:4, one month postvaccination) to serogroup C. MenACWY was determined to be noninferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY and MenC in the percentage of subjects with response towards serogroup C was greater than -10%.||5|-2|
92422038|NCT00667602|184732724|NON_INFERIORITY_OR_EQUIVALENCE|(GMTMenACWY/GMTMenC \> 0.5).|Ratio|0.92|||||TWO_SIDED|95.0|0.76|1.12|||ANOVA|||For comparison of the Geometric Mean Titers, prevaccination at 12 months of age, MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the 2-sided 95% CI for the ratio of the MenACWY-CRM197 to MenC Geometric Mean Titers for serogroup C was greater than 0.5.||1.12|0.76|
92170216|NCT04840199|184229414|SUPERIORITY||Mean Difference (Net)|0.0023||||0.17|TWO_SIDED|95.0|-0.001|0.0055||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the post treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sTNFRII with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Post treatment phase comparison||0.0055|-0.0010|0.17
92422039|NCT00667602|184732724|NON_INFERIORITY_OR_EQUIVALENCE|(GMTMenACWY/GMTMenC \> 0.5).|Ratio|0.73|||||TWO_SIDED|95.0|0.57|0.93|||ANOVA|||For comparison of the Geometric Mean Titers, one month postvaccination at 12 months of age, MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the 2-sided 95% CI for the ratio of the MenACWY-CRM197 to MenC Geometric Mean Titers for serogroup C was greater than 0.5.||0.93|0.57|
92170217|NCT03433339|184229415|SUPERIORITY||||||=|0.04||||||p-value threshold for statistical significance \<0.05|ANOVA|Mixed ANOVA model considering all available data.||||||=0.040
92422040|NCT00667602|184732726|NON_INFERIORITY_OR_EQUIVALENCE|(GMTMenACWY/GMTMenjugate \> 0.5).|Ratio|10.0|||||TWO_SIDED|95.0|8.43|13.0|||ANOVA|||For comparison of the GMTs (prevaccination), MenACWY was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the ratio of the MenACWY to MenC GMTs for serogroup C was greater than 0.5 .||13|8.43|
92422041|NCT00667602|184732726|NON_INFERIORITY_OR_EQUIVALENCE|(GMTMenACWY/GMTMenjugate \> 0.5).|Ratio|8.1|||||TWO_SIDED|95.0|6.35|10.0|||ANOVA|||For comparison of the GMTs (one month postvaccination), MenACWY was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the ratio of the MenACWY to MenC GMTs for serogroup C was greater than 0.5.||10|6.35|
92170218|NCT04970407|184229432|SUPERIORITY||Treatment difference|-1.16||||0.8769|TWO_SIDED|95.0|-16.25|13.93|||MMRM model|||The adjusted mean, standard error (SE) and 95% confidence interval (CI) of the adjusted mean as well as difference in % relative to baseline and p-value were obtained from a MMRM with Fisher scoring with treatment, time (corresponding to all study visits when CMAP was measured), treatment by time interaction and baseline CMAP amplitude as factors and an unstructured variance covariance matrix.||13.93|-16.25|0.8769
92422042|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Diptheria Toxin ≥0.1 IU/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
92422043|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Diptheria Toxin ≥0.1 IU/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
92422044|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|1.0|||||TWO_SIDED|95.0|-3.0|5.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Diptheria Toxin ≥1.0 IU/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||5|-3|
92422045|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-3.0|4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Diptheria Toxin ≥1.0 IU/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||4|-3|
92422046|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Tetanus Toxin ≥ 0.1 IU/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
92422047|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Tetanus Toxin ≥ 0.1 IU/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, for any of the antigens, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
92422048|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-2.0|||||TWO_SIDED|95.0|-6.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Tetanus Toxin ≥ 1.0 IU/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-6|
92422049|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-1.0|||||TWO_SIDED|95.0|-6.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Tetanus Toxin ≥ 1.0 IU/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-6|
92422050|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (polio 1, one month postvaccination), given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||4|-2|
92422051|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (polio 1, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||4|-2|
92236159|NCT02926573|184375881|SUPERIORITY||Mean Difference (Final Values)|9.1|||||TWO_SIDED|95.0|-3.4|21.6|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 10AM.|||21.6|-3.4|
92170219|NCT04970407|184229432|SUPERIORITY||Treatment difference|-10.61||||0.162|TWO_SIDED|95.0|-25.69|4.47|||MMRM model|||The adjusted mean, SE and 95% CI of the adjusted mean as well as difference in % relative to baseline and p-value were obtained from a MMRM with Fisher scoring with treatment, time (corresponding to all study visits when CMAP was measured), treatment by time interaction and baseline CMAP amplitude as factors and an unstructured variance covariance matrix.||4.47|-25.69|0.1620
92394059|NCT04864249|184687329|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
92394060|NCT04864249|184687330|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||0.94
92236160|NCT02926573|184375881|SUPERIORITY||Mean Difference (Final Values)|6.3|||||TWO_SIDED|95.0|-6.1|18.6|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7PM.|||18.6|-6.1|
92394061|NCT04864249|184687331|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92394062|NCT04864249|184687332|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
92394063|NCT04864249|184687333|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
92394064|NCT04864249|184687334|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
92394065|NCT04864249|184687335|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
92394066|NCT04864249|184687336|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
92394067|NCT04864249|184687337|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
92394068|NCT04864249|184687338|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
92394069|NCT04864249|184687339|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92394070|NCT04864249|184687340|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92394071|NCT00300755|184687341|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group analysis of final week change from baseline.||||<0.001
92394072|NCT00300755|184687341|SUPERIORITY_OR_OTHER|||||||0.063|||||||t-test, 2 sided|||Within group analysis of final week change from baseline.||||0.063
92394073|NCT00300755|184687341|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group analysis of final week change from baseline.||||< 0.001
92236161|NCT02926573|184375881|SUPERIORITY||Mean Difference (Final Values)|5.3|||||TWO_SIDED|95.0|-7.3|17.8|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7AM.|||17.8|-7.3|
92394074|NCT00300755|184687341|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANCOVA|Analysis with treatment group and baseline age as fixed effects, and baseline GERD symptom score and baseline antacid use as covariates||Between group analysis of final week change from baseline.||||0.004
92394075|NCT00300755|184687341|SUPERIORITY_OR_OTHER|||||||0.082|||||||ANCOVA|Analysis with treatment group and baseline age as fixed effects, and baseline GERD symptom score and baseline antacid use as covariates||Between group analysis of final week change from baseline.||||0.082
92394076|NCT00300755|184687341|SUPERIORITY_OR_OTHER|||||||0.217|||||||ANCOVA|Analysis with treatment group and baseline age as fixed effects, and baseline GERD symptom score and baseline antacid use as covariates||Between group analysis of final week change from baseline.||||0.217
92394077|NCT00300755|184687342|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Vomiting/regurgitation.||||0.002
92394078|NCT00300755|184687342|SUPERIORITY_OR_OTHER|||||||0.033|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Vomiting/regurgitation.||||0.033
92394079|NCT00300755|184687342|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Choking/gagging.||||<0.001
92394080|NCT00300755|184687342|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Choking/gagging.||||0.002
92394081|NCT00300755|184687342|SUPERIORITY_OR_OTHER|||||||0.009|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Refusal to eat.||||0.009
92394082|NCT00300755|184687342|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Difficulty swallowing.||||0.004
92394083|NCT00300755|184687342|SUPERIORITY_OR_OTHER|||||||0.044|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Difficulty swallowing.||||0.044
92394084|NCT00300755|184687342|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Abdominal/belly pain.||||0.002
92394085|NCT00300755|184687342|SUPERIORITY_OR_OTHER|||||||0.026|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Abdominal/belly pain.||||0.026
92394086|NCT00300755|184687342|SUPERIORITY_OR_OTHER|||||||0.026|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Abdominal/belly pain.||||0.026
92394087|NCT00300755|184687343|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for Cough without cold.||||0.004
92394088|NCT00300755|184687343|SUPERIORITY_OR_OTHER|||||||0.047|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for Noisy breathing.||||0.047
92236162|NCT02926573|184375881|SUPERIORITY||Mean Difference (Final Values)|11.2|||||TWO_SIDED|95.0|-1.4|23.8|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 10AM.|||23.8|-1.4|
92394089|NCT02694744|184687345|OTHER||||||||||||||||||If the 95% confidence interval for the w/out food Arm overlapped the confidence interval for the w/ food Arm, the study will conclude that there is no evidence of a statistically significant difference between treatment arms.|||
92394090|NCT02694744|184687346|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.7893|TWO_SIDED|95.0|-0.17|0.22|||ANCOVA|||Estimation of mean change in serum potassium from Baseline to week 4.||0.22|-0.17|0.7893
92394091|NCT00883779|184687347|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.46|0.7|||Log Rank|||||0.70|0.46|<0.0001
92394092|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.39|0.64|||Log Rank|||PFS in adenocarcinoma subgroup||0.64|0.39|<0.0001
92394093|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||=|0.579|TWO_SIDED|95.0|0.6|1.33|||Log Rank|||PFS in non-adenocarcinoma subgroup||1.33|0.60|=0.579
92394094|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.0001|TWO_SIDED|95.0|0.28|0.53|||Log Rank|||PFS in never smoked subgroup||0.53|0.28|<0.0001
92394095|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84|||=|0.2067|TWO_SIDED|95.0|0.64|1.1|||Log Rank|||PFS in former/current smoker subgroup||1.10|0.64|=0.2067
92394096|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.12|0.35|||Log Rank|||PFS in subgroup EGFR mutation||0.35|0.12|<0.0001
92394097|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95|||=|0.7511|TWO_SIDED|95.0|0.67|1.34|||Log Rank|||PFS in subgroup EGFR wild-type||1.34|0.67|=0.7511
92394098|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||=|0.3169|TWO_SIDED|95.0|0.25|1.58|||Log Rank|||PFS in subgroup KRAS mutation||1.58|0.25|=0.3169
92394099|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.37|0.7|||Log Rank|||PFS in subgroup KRAS wild-type||0.70|0.37|<0.0001
92394100|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51|||=|0.0091|TWO_SIDED|95.0|0.31|0.86|||Log Rank|||PFS in subgroup EGFR IHC positive||0.86|0.31|=0.0091
92394101|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||=|0.0179|TWO_SIDED|95.0|0.18|0.88|||Log Rank|||PFS in subgroup EGFR IHC negative||0.88|0.18|=0.0179
92394102|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26|||=|0.0017|TWO_SIDED|95.0|0.11|0.64|||Log Rank|||PFS in subgroup EGFR FISH positive||0.64|0.11|=0.0017
92394103|NCT00883779|184687349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67|||=|0.188|TWO_SIDED|95.0|0.37|1.22|||Log Rank|||PFS in subgroup EGFR FISH negative||1.22|0.37|=0.1880
92394104|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85|||=|0.1213|TWO_SIDED|95.0|0.7|1.04|||Log Rank|||OS in overall participants (FAS population)||1.04|0.70|=0.1213
92394105|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||=|0.0356|TWO_SIDED|95.0|0.62|0.98|||Log Rank|||OS in subgroup adenocarcinoma||0.98|0.62|=0.0356
92394106|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.37|||=|0.1157|TWO_SIDED|95.0|0.92|2.03|||Log Rank|||OS in subgroup non-adenocarcinoma||2.03|0.92|=0.1157
92394107|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66|||=|0.0056|TWO_SIDED|95.0|0.49|0.89|||Log Rank|||OS in subgroup never smoked||0.89|0.49|=0.0056
92394108|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14|||=|0.3473|TWO_SIDED|95.0|0.87|1.5|||Log Rank|||OS in subgroup current/former smoker||1.50|0.87|=0.3473
92394109|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||=|0.1614|TWO_SIDED|95.0|0.45|1.14|||Log Rank|||OS in subgroup EGFR mutation||1.14|0.45|=0.1614
92394110|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||=|0.1691|TWO_SIDED|95.0|0.55|1.11|||Log Rank|||OS in subgroup EGFR wild-type||1.11|0.55|=0.1691
92394111|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||=|0.1415|TWO_SIDED|95.0|0.19|1.28|||Log Rank|||OS in subgroup KRAS mutation||1.28|0.19|=0.1415
92394112|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||=|0.1447|TWO_SIDED|95.0|0.59|1.08|||Log Rank|||OS in subgroup KRAS wild-type||1.08|0.59|=0.1447
92394113|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||=|0.031|TWO_SIDED|95.0|0.35|0.96|||Log Rank|||OS in EGFR IHC positive||0.96|0.35|=0.0310
92394114|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||=|0.0581|TWO_SIDED|95.0|0.21|1.05|||Log Rank|||OS in subgroup EGFR IHC negative||1.05|0.21|=0.0581
92394115|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.32|||=|0.0063|TWO_SIDED|95.0|0.14|0.75|||Log Rank|||OS of subgroup EGFR FISH positive||0.75|0.14|=0.0063
92394116|NCT00883779|184687350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||=|0.3268|TWO_SIDED|95.0|0.4|1.36|||Log Rank|||OS of subgroup EGFR FISH negative||1.36|0.40|=0.3268
92394117|NCT00883779|184687352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.81|||=|0.5289|TWO_SIDED|95.0|-6.2|11.8|||Chi-squared|||Difference in non-progression response rates||11.8|-6.2|=0.5289
92394118|NCT00883779|184687353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.14|||<|0.0001|TWO_SIDED|95.0|16.7|33.5|||Chi-squared|||Difference in objective response rates||33.5|16.7|<0.0001
92394119|NCT00883779|184687354|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.32|||<|0.0001|TWO_SIDED|95.0|0.21|0.5|||Log Rank|||||0.50|0.21|<0.0001
92394120|NCT00883779|184687355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.45|0.69|||Log Rank|||||0.69|0.45|<0.0001
92394121|NCT00883779|184687357|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79|||=|0.0364|TWO_SIDED|95.0|0.63|0.99|||Log Rank|||||0.99|0.63|=0.0364
92394122|NCT00883779|184687359|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||=|0.0181|TWO_SIDED|95.0|0.61|0.96|||Log Rank|||||0.96|0.61|=0.0181
92394123|NCT00883779|184687361|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.73|||=|0.0035|TWO_SIDED|95.0|0.59|0.9|||Log Rank|||||0.90|0.59|=0.0035
92394124|NCT00883779|184687362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.913|TWO_SIDED|95.0|0.6|1.59|||Log Rank|||||1.59|0.60|0.9130
92394125|NCT03748823|184687378|NON_INFERIORITY|Noninferiority was determined based on the 90% Confidence interval calculated from the combination z-score that accounts for the interim analysis.|Ratio of Geometric Least Squares Mean|1.257|||<|0.0001|TWO_SIDED|90.0|1.16|1.361||Analysis of variance (ANOVA) was performed on log-transformed Ctrough and included treatment and stratified weight group as fixed effects.|ANOVA||Geometric least squares mean are the least squares mean from the mixed model after back transformation to the original scale. The 90% confidence interval is presented after back transformation to the original scale.|||1.361|1.160|<0.0001
92394126|NCT04678115|184687394|OTHER|Power Calculation: Sample size was estimated based on the treatment condition (three-level factor) effect size on the spontaneous blink IPF measurements (0.55) after eight participants had completed the crossover using one-way analysis of variance power calculation. This led to a sample size of 12 participants with power of 0.80 and type II error of alpha 0.05. To account for possible attrition, 16 were enrolled, with 15 completing the crossover.|||||<|0.001||||||a priori threshold for statistical significance was p\<0.05|Mixed Models Analysis|||Linear mixed-effects regression was used to determine the effect of treatment condition on the spontaneous blink and resting state open IPF, with participant as random intercept. Covariates of age, gender, blink sequence, and crossover order were investigated alone, and significant (P \< 0.05) covariates were included in the final model, from which the estimated marginal means and their 95% confidence interval were reported. Hypothesis: MLP allows a more complete spontaneous blink.||||<0.001
92394127|NCT04678115|184687395|OTHER|||||||0.001|||||||Mixed Models Analysis|||Hypothesis was that both devices (MLP and KFTS) would open the eye equally well, and that both would be better than sham treatment.||||0.001
92394128|NCT04678115|184687396|OTHER|||||||0.001|||||||test of proportionality|||A test of proportionality was performed to determine the effect of the three treatments on the probability of the eyelid not fully closing.||||0.001
92394129|NCT01363700|184687398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.001|TWO_SIDED|95.0|-1.52|-1.11|||t-test, 2 sided|||||-1.11|-1.52|<0.001
92394130|NCT01363700|184687399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.001|TWO_SIDED|95.0|-1.71|-0.92|||t-test, 2 sided|||||-0.92|-1.71|<0.001
92394131|NCT01363700|184687400|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority in Mean Ocular itching score compared to Olopatadine was assessed on the non-inferiority margin (0.5) with the upper limit of the confidence interval of the difference between the Epinastine (DE-114) and Olopatadine treatment groups.|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.21|0.08||||||||0.08|-0.21|
92394132|NCT01363700|184687401|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority in Mean Ocular hyperemia score compared to Olopatadine was assessed on the non-inferiority margin (0.5) with the upper limit of the confidence interval of the difference between the Epinastine (DE-114) and Olopatadine treatment groups.|Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.81|0.22||||||||0.22|-0.81|
92394133|NCT03649217|184687402|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||.0001
92394134|NCT03649217|184687403|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||.0001
92394135|NCT03649217|184687404|SUPERIORITY|||||||0.001|||||||ANOVA|||||||.001
92394136|NCT03649217|184687405|SUPERIORITY|||||||0.0002|||||||ANOVA|||||||.0002
92394137|NCT03649217|184687406|SUPERIORITY|||||||0.006|||||||ANOVA|||||||.006
92394138|NCT02552966|184687415|OTHER|||||||0.61|||||||t-test, 2 sided|This t-test was applied to determine if the mean salivary pepsin concentration changed between baseline and 2 week post UESAD measurements.||||||0.61
92394139|NCT02552966|184687416|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92394140|NCT02552966|184687417|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92394141|NCT02552966|184687418|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92394142|NCT03483896|184687432|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
92394143|NCT03483896|184687433|SUPERIORITY||Mean Difference (Final Values)|-6.0||||0.17|TWO_SIDED||||||Mixed Models Analysis|||||||0.17
92394144|NCT02365649|184687434|SUPERIORITY||Adjusted risk difference from placebo|9.9||||0.056|TWO_SIDED|95.0|-0.3|20.1||Statistical significance was prespecified at α = 0.1. Based on Cochran-Mantel-Haenszel (CMH) test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||20.1|-0.3|0.056
92394145|NCT02365649|184687434|SUPERIORITY||Adjusted risk difference from placebo|7.4||||0.108|TWO_SIDED|95.0|-1.6|16.4||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||16.4|-1.6|0.108
92394146|NCT02365649|184687434|SUPERIORITY||Adjusted risk difference from placebo|7.7||||0.099|TWO_SIDED|95.0|-1.5|16.8||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||16.8|-1.5|0.099
92394147|NCT02365649|184687434|SUPERIORITY||Adjusted risk difference from placebo|21.0||||0.004|TWO_SIDED|95.0|6.8|35.2||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||35.2|6.8|0.004
92394148|NCT02365649|184687434|SUPERIORITY||Adjusted risk difference from placebo|13.6||||0.025|TWO_SIDED|95.0|1.8|25.5||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||25.5|1.8|0.025
92394149|NCT02365649|184687435|SUPERIORITY||Adjusted risk difference from placebo|2.5||||0.74|TWO_SIDED|95.0|-12.3|17.3||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||17.3|-12.3|0.74
92394150|NCT02365649|184687435|SUPERIORITY||Adjusted risk difference from placebo|16.2||||0.082|TWO_SIDED|95.0|-2.0|34.3||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||34.3|-2.0|0.082
92236163|NCT02926573|184375881|SUPERIORITY||Mean Difference (Final Values)|14.9|||||TWO_SIDED|95.0|-0.1|29.9|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7PM.|||29.9|-0.1|
92236164|NCT02926573|184375881|SUPERIORITY||Mean Difference (Final Values)|11.6|||||TWO_SIDED|95.0|-2.8|26.0|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 3 7AM.|||26.0|-2.8|
92236165|NCT02926573|184375882|SUPERIORITY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-14.7|11.9|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7AM.|||11.9|-14.7|
92394151|NCT02365649|184687435|SUPERIORITY||Adjusted risk difference from placebo|0.5||||0.952|TWO_SIDED|95.0|-14.1|15.0||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||15.0|-14.1|0.952
92394152|NCT02365649|184687435|SUPERIORITY||Adjusted risk difference from placebo|11.2||||0.205|TWO_SIDED|95.0|-6.1|28.5||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||28.5|-6.1|0.205
92394153|NCT02365649|184687435|SUPERIORITY||Adjusted risk difference from placebo|4.1||||0.607|TWO_SIDED|95.0|-11.5|19.6||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||19.6|-11.5|0.607
92394154|NCT02365649|184687436|SUPERIORITY||Adjusted risk difference from placebo|5.2||||0.564|TWO_SIDED|95.0|-12.5|22.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||22.9|-12.5|0.564
92394155|NCT02365649|184687436|SUPERIORITY||Adjusted risk difference from placebo|12.0||||0.221|TWO_SIDED|95.0|-7.2|31.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||31.2|-7.2|0.221
92394156|NCT02365649|184687436|SUPERIORITY||Adjusted risk difference from placebo|22.2||||0.036|TWO_SIDED|95.0|1.4|43.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||43|1.4|0.036
92394157|NCT02365649|184687436|SUPERIORITY||Adjusted risk difference from placebo|13.4||||0.179|TWO_SIDED|95.0|-6.2|33.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||33.1|-6.2|0.179
92394158|NCT02365649|184687436|SUPERIORITY||Adjusted risk difference from placebo|3.9||||0.677|TWO_SIDED|95.0|-14.3|22.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||22|-14.3|0.677
92394159|NCT02365649|184687437|SUPERIORITY||Adjusted risk difference from placebo|10.4||||0.363|TWO_SIDED|95.0|-12.0|32.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.9|-12|0.363
92394160|NCT02365649|184687437|SUPERIORITY||Adjusted risk difference from placebo|17.3||||0.137|TWO_SIDED|95.0|-5.5|40.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||40|-5.5|0.137
92394161|NCT02365649|184687437|SUPERIORITY||Adjusted risk difference from placebo|7.5||||0.512|TWO_SIDED|95.0|-14.9|29.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||29.9|-14.9|0.512
92394162|NCT02365649|184687437|SUPERIORITY||Adjusted risk difference from placebo|25.0||||0.035|TWO_SIDED|95.0|-1.8|48.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||48.2|-1.8|0.035
92394163|NCT02365649|184687437|SUPERIORITY||Adjusted risk difference from placebo|12.5||||0.29|TWO_SIDED|95.0|-10.7|35.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||35.6|-10.7|0.29
92394164|NCT02365649|184687438|SUPERIORITY||Adjusted risk difference from placebo|-0.9||||0.896|TWO_SIDED|95.0|-15.0|13.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||13.1|-15.0|0.896
92394165|NCT02365649|184687438|SUPERIORITY||Adjusted risk difference from placebo|18.6||||0.05|TWO_SIDED|95.0|0.0|37.3||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||37.3|0.0|0.05
92422052|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (polio 2, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-2|
92422053|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (polio 2, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-3|
92422054|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (polio 3, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-3|
92394166|NCT02365649|184687438|SUPERIORITY||Adjusted risk difference from placebo|3.0||||0.702|TWO_SIDED|95.0|-12.4|18.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||18.4|-12.4|0.702
92394167|NCT02365649|184687438|SUPERIORITY||Adjusted risk difference from placebo|14.3||||0.117|TWO_SIDED|95.0|-3.6|32.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.2|-3.6|0.117
92394168|NCT02365649|184687438|SUPERIORITY||Adjusted risk difference from placebo|-2.4||||0.736|TWO_SIDED|95.0|-16.4|11.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||11.6|-16.4|0.736
92394169|NCT02365649|184687439|SUPERIORITY||Adjusted risk difference from placebo|2.9||||0.276|TWO_SIDED|95.0|-2.3|8.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||8.1|-2.3|0.276
92394170|NCT02365649|184687439|SUPERIORITY||Adjusted risk difference from placebo|4.9||||0.195|TWO_SIDED|95.0|-2.5|12.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||12.4|-2.5|0.195
92394171|NCT02365649|184687439|SUPERIORITY||Adjusted risk difference from placebo|2.6||||0.355|TWO_SIDED|95.0|-2.9|8.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||8.0|-2.9|0.355
92394172|NCT02365649|184687439|SUPERIORITY||Adjusted risk difference from placebo|7.7||||0.099|TWO_SIDED|95.0|-1.5|16.8||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||16.8|-1.5|0.099
92422055|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.0|3.0||Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.|Miettinen and Nurminen|||Immunogenicity of DTPa-IPV-HepB-Hib (Polio 3, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-2|
92394173|NCT02365649|184687439|SUPERIORITY||Adjusted risk difference from placebo|5.2||||0.185|TWO_SIDED|95.0|-2.5|12.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||12.9|-2.5|0.185
92394174|NCT02365649|184687440|SUPERIORITY||Adjusted risk difference from placebo|13.2||||0.05|TWO_SIDED|95.0|0.0|26.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||26.5|0.0|0.05
92422056|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0||Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.|Miettinen and Nurminen|||Immunogenicity of DTPa-IPV-HepB-Hib (Anti- PRP ≥ 0.15 μg/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
92394175|NCT02365649|184687440|SUPERIORITY||Adjusted risk difference from placebo|29.5||||0.001|TWO_SIDED|95.0|11.9|47.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||47.1|11.9|0.001
92394176|NCT02365649|184687440|SUPERIORITY||Adjusted risk difference from placebo|25.2||||0.003|TWO_SIDED|95.0|8.5|42.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||42.0|8.5|0.003
92394177|NCT02365649|184687440|SUPERIORITY||Adjusted risk difference from placebo|36.5|||<|0.001|TWO_SIDED|95.0|17.6|55.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||55.4|17.6|< 0.001
92394178|NCT02365649|184687440|SUPERIORITY||Adjusted risk difference from placebo|32.0|||<|0.001|TWO_SIDED|95.0|13.9|50.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||50.2|13.9|< 0.001
92394179|NCT02365649|184687441|SUPERIORITY||Adjusted risk difference from placebo|10.5||||0.243|TWO_SIDED|95.0|-7.2|28.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||28.2|-7.2|0.243
92422057|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti- PRP ≥ 0.15 μg/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
92236166|NCT02926573|184375882|SUPERIORITY||Mean Difference (Final Values)|5.3|||||TWO_SIDED|95.0|-8.6|19.2|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 10AM.|||19.2|-8.6|
92394180|NCT02365649|184687441|SUPERIORITY||Adjusted risk difference from placebo|29.1||||0.006|TWO_SIDED|95.0|8.3|49.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||49.9|8.3|0.006
92394181|NCT02365649|184687441|SUPERIORITY||Adjusted risk difference from placebo|24.2||||0.017|TWO_SIDED|95.0|4.4|44.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||44.1|4.4|0.017
92394182|NCT02365649|184687441|SUPERIORITY||Adjusted risk difference from placebo|36.5|||<|0.001|TWO_SIDED|95.0|14.8|58.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||58.1|14.8|< 0.001
92394183|NCT02365649|184687441|SUPERIORITY||Adjusted risk difference from placebo|36.8|||<|0.001|TWO_SIDED|95.0|15.2|58.3||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||58.3|15.2|< 0.001
92394184|NCT02365649|184687442|SUPERIORITY||Adjusted risk difference from placebo|10.5||||0.353|TWO_SIDED|95.0|-11.7|32.7||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.7|-11.7|0.353
92394185|NCT02365649|184687442|SUPERIORITY||Adjusted risk difference from placebo|22.7||||0.05|TWO_SIDED|95.0|0.0|45.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||45.5|0.0|0.05
92394186|NCT02365649|184687442|SUPERIORITY||Adjusted risk difference from placebo|12.5||||0.268|TWO_SIDED|95.0|-9.6|34.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||34.6|-9.6|0.268
92236167|NCT02926573|184375882|SUPERIORITY||Mean Difference (Final Values)|10.9|||||TWO_SIDED|95.0|-2.4|24.2|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7PM.|||24.2|-2.4|
92394187|NCT02365649|184687442|SUPERIORITY||Adjusted risk difference from placebo|28.0||||0.018|TWO_SIDED|95.0|4.8|51.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||51.2|4.8|0.018
92394188|NCT02365649|184687442|SUPERIORITY||Adjusted risk difference from placebo|14.9||||0.204|TWO_SIDED|95.0|-8.1|37.8||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||37.8|-8.1|0.204
92394189|NCT02365649|184687443|SUPERIORITY||Adjusted risk difference from placebo|10.0||||0.421|TWO_SIDED|95.0|-14.4|34.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||34.4|-14.4|0.421
92394190|NCT02365649|184687443|SUPERIORITY||Adjusted risk difference from placebo|11.5||||0.371|TWO_SIDED|95.0|-13.8|36.8||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||36.8|-13.8|0.371
92394191|NCT02365649|184687443|SUPERIORITY||Adjusted risk difference from placebo|9.2||||0.445|TWO_SIDED|95.0|-14.4|32.8||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.8|-14.4|0.445
92394192|NCT02365649|184687443|SUPERIORITY||Adjusted risk difference from placebo|19.5||||0.198|TWO_SIDED|95.0|-10.2|49.3||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||49.3|-10.2|0.198
92394193|NCT02365649|184687443|SUPERIORITY||Adjusted risk difference from placebo|5.0||||0.654|TWO_SIDED|95.0|-17.0|27.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||27.0|-17.0|0.654
92394194|NCT02365649|184687444|SUPERIORITY||Adjusted risk difference from placebo|18.7||||0.093|TWO_SIDED|95.0|-3.1|40.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||40.5|-3.1|0.093
92394195|NCT02365649|184687444|SUPERIORITY||Adjusted risk difference from placebo|13.5||||0.176|TWO_SIDED|95.0|-6.1|33.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||33.1|-6.1|0.176
92394196|NCT02365649|184687444|SUPERIORITY||Adjusted risk difference from placebo|35.9||||0.017|TWO_SIDED|95.0|6.3|65.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||65.5|6.3|0.017
92394197|NCT02365649|184687444|SUPERIORITY||Adjusted risk difference from placebo|26.1||||0.044|TWO_SIDED|95.0|0.7|51.5|||Cochran-Mantel-Haenszel|||||51.5|0.7|0.044
92394198|NCT02365649|184687444|SUPERIORITY||Adjusted risk difference from placebo|13.1||||0.121|TWO_SIDED|95.0|-3.5|29.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||29.6|-3.5|0.121
92394199|NCT02365649|184687445|SUPERIORITY||Adjusted risk difference from placebo|3.4||||0.564|TWO_SIDED|95.0|-8.1|14.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||14.9|-8.1|0.564
92394200|NCT02365649|184687445|SUPERIORITY||Adjusted risk difference from placebo|3.4||||0.584|TWO_SIDED|95.0|-8.8|15.7||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||15.7|-8.8|0.584
92394201|NCT02365649|184687445|SUPERIORITY||Adjusted risk difference from placebo|8.7||||0.326|TWO_SIDED|95.0|-8.7|26.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||26.1|-8.7|0.326
92394202|NCT02365649|184687446|SUPERIORITY||Adjusted risk difference from placebo|12.2||||0.195|TWO_SIDED|95.0|-6.2|30.7||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||30.7|-6.2|0.195
92394203|NCT02365649|184687446|SUPERIORITY||Adjusted risk difference from placebo|17.9||||0.116|TWO_SIDED|95.0|-4.4|40.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||40.1|-4.4|0.116
92394204|NCT02365649|184687446|SUPERIORITY||Adjusted risk difference from placebo|12.8||||0.178|TWO_SIDED|95.0|-5.8|31.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||31.5|-5.8|0.178
92394205|NCT02365649|184687446|SUPERIORITY||Adjusted risk difference from placebo|30.4||||0.031|TWO_SIDED|95.0|2.8|58.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||58.0|2.8|0.031
92394206|NCT02365649|184687446|SUPERIORITY||Adjusted risk difference from placebo|13.1||||0.121|TWO_SIDED|95.0|-3.5|29.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||29.6|-3.5|0.121
92394207|NCT02365649|184687447|SUPERIORITY||Adjusted risk difference from placebo|6.8||||0.392|TWO_SIDED|95.0|-8.7|22.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||22.2|-8.7|0.392
92394208|NCT02365649|184687447|SUPERIORITY||Adjusted risk difference from placebo|3.4||||0.584|TWO_SIDED|95.0|-8.8|15.7||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||15.7|-8.8|0.584
92394209|NCT02365649|184687447|SUPERIORITY||Adjusted risk difference from placebo|13.0||||0.199|TWO_SIDED|95.0|-6.8|32.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.9|-6.8|0.199
92394210|NCT02365649|184687447|SUPERIORITY||Adjusted risk difference from placebo|6.9||||0.439|TWO_SIDED|95.0|-10.6|24.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||24.5|-10.6|0.439
92422058|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0||Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.|Miettinen and Nurminen|||Immunogenicity of DTPa-IPV-HepB-Hib (Anti- PRP ≥ 1.0 μg/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||4|-2|
92394211|NCT02365649|184687448|SUPERIORITY||LS Mean Difference|-103.9||||0.788|TWO_SIDED|95.0|-865.69|657.87||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 4||657.87|-865.69|0.788
92394212|NCT02365649|184687448|SUPERIORITY||LS Mean Difference|-364.3||||0.325|TWO_SIDED|95.0|-1092.83|364.29||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 4||364.29|-1092.83|0.325
92394213|NCT02365649|184687448|SUPERIORITY||LS Mean Difference|-926.2||||0.015|TWO_SIDED|95.0|-1672.78|-179.63||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-179.63|-1672.78|0.015
92394214|NCT02365649|184687448|SUPERIORITY||LS Mean Difference|-763.1||||0.053|TWO_SIDED|95.0|-1534.52|8.39||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 4||8.39|-1534.52|0.053
92394215|NCT02365649|184687448|SUPERIORITY||LS Mean Difference|-359.5||||0.352|TWO_SIDED|95.0|-1119.52|400.56||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 4||400.56|-1119.52|0.352
92394216|NCT02365649|184687448|SUPERIORITY||LS Mean Difference|-396.2||||0.503|TWO_SIDED|95.0|-1565.39|772.9||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||772.90|-1565.39|0.503
92394217|NCT02365649|184687448|SUPERIORITY||LS Mean Difference|-364.3||||0.537|TWO_SIDED|95.0|-1531.04|802.44||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||802.44|-1531.04|0.537
92394218|NCT02365649|184687448|SUPERIORITY||LS Mean Difference|-483.2||||0.425|TWO_SIDED|95.0|-1677.87|711.52||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||711.52|-1677.87|0.425
92422059|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-4.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti- PRP ≥ 1.0 μg/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-4|
92422060|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Hep B, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-3|
92394219|NCT02365649|184687448|SUPERIORITY||LS Mean Difference|-1025.6||||0.134|TWO_SIDED|95.0|-2373.24|322.08||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||322.08|-2373.24|0.134
92394220|NCT02365649|184687448|SUPERIORITY||LS Mean Difference|-637.9||||0.293|TWO_SIDED|95.0|-1833.82|557.96||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||557.96|-1833.82|0.293
92394221|NCT02365649|184687449|SUPERIORITY||LS Mean Difference|0.5||||0.921|TWO_SIDED|95.0|-9.02|9.97||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||9.97|-9.02|0.921
92394222|NCT02365649|184687449|SUPERIORITY||LS Mean Difference|-1.6||||0.75|TWO_SIDED|95.0|-11.19|8.08||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||8.08|-11.19|0.75
92394223|NCT02365649|184687449|SUPERIORITY||LS Mean Difference|-1.9||||0.7|TWO_SIDED|95.0|-11.7|7.87||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||7.87|-11.7|0.7
92394224|NCT02365649|184687449|SUPERIORITY||LS Mean Difference|-11.4||||0.024|TWO_SIDED|95.0|-21.38|-1.51||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-1.51|-21.38|0.024
92394225|NCT02365649|184687449|SUPERIORITY||LS Mean Difference|-1.0||||0.845|TWO_SIDED|95.0|-10.72|8.79||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||8.79|-10.72|0.845
92394226|NCT02365649|184687450|SUPERIORITY||LS Mean Difference|1.7||||0.83|TWO_SIDED|95.0|-13.6|16.92||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 8||16.92|-13.60|0.830
92394227|NCT02365649|184687450|SUPERIORITY||LS Mean Difference|17.5||||0.027|TWO_SIDED|95.0|2.03|33.0||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 8||33.00|2.03|0.027
92394228|NCT02365649|184687450|SUPERIORITY||LS Mean Difference|8.9||||0.263|TWO_SIDED|95.0|-6.72|24.47||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 8||24.47|-6.72|0.263
92394229|NCT02365649|184687450|SUPERIORITY||LS Mean Difference|21.6||||0.008|TWO_SIDED|95.0|5.68|37.52||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 8||37.52|5.68|0.008
92394230|NCT02365649|184687450|SUPERIORITY||LS Mean Difference|8.8||||0.269|TWO_SIDED|95.0|-6.88|24.53||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 8||24.53|-6.88|0.269
92394231|NCT02365649|184687450|SUPERIORITY||LS Mean Difference|10.3||||0.231|TWO_SIDED|95.0|-6.63|27.25||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||27.25|-6.63|0.231
92446497|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.53||0.687|TWO_SIDED|95.0|-1.26|0.83||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 2||0.83|-1.26|0.687
92170220|NCT04732494|184229461|SUPERIORITY|The primary endpoint ORR was tested at a 2-sided alpha of 0.05.|Risk Difference (RD)|9.9||||0.2114|TWO_SIDED|95.0|-5.4|25.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel method stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|||25.3|-5.4|0.2114
92394232|NCT02365649|184687450|SUPERIORITY||LS Mean Difference|27.9||||0.002|TWO_SIDED|95.0|10.68|45.15||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||45.15|10.68|0.002
92394233|NCT02365649|184687450|SUPERIORITY||LS Mean Difference|17.1||||0.057|TWO_SIDED|95.0|-0.51|34.72||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||34.72|-0.51|0.057
92394234|NCT02365649|184687450|SUPERIORITY||LS Mean Difference|28.8||||0.002|TWO_SIDED|95.0|11.12|46.56||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||46.56|11.12|0.002
92394235|NCT02365649|184687450|SUPERIORITY||LS Mean Difference|12.3||||0.165|TWO_SIDED|95.0|-5.12|29.72||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||29.72|-5.12|0.165
92394236|NCT02365649|184687451|SUPERIORITY||Adjusted risk difference from placebo|20.0||||0.167|TWO_SIDED|95.0|-8.4|48.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||48.4|-8.4|0.167
92394237|NCT02365649|184687451|SUPERIORITY||Adjusted risk difference from placebo|16.7||||0.221|TWO_SIDED|95.0|-10.0|43.3||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||43.3|-10.0|0.221
92394238|NCT02365649|184687451|SUPERIORITY||Adjusted risk difference from placebo|20.0||||0.18|TWO_SIDED|95.0|-9.2|49.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||49.2|-9.2|0.18
92394239|NCT02365649|184687451|SUPERIORITY||LS Mean Difference|20.0||||0.167|TWO_SIDED|95.0|-8.4|48.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||48.4|-8.4|0.167
92394240|NCT02365649|184687452|SUPERIORITY||Adjusted risk difference from placebo|5.5||||0.607|TWO_SIDED|95.0|-15.5|26.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||26.5|-15.5|0.607
92394241|NCT02365649|184687452|SUPERIORITY||Adjusted risk difference from placebo|12.2||||0.272|TWO_SIDED|95.0|-9.6|33.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||33.9|-9.6|0.272
92394242|NCT02365649|184687452|SUPERIORITY||Adjusted risk difference from placebo|15.9||||-0.157|TWO_SIDED|95.0|-6.1|37.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||37.9|-6.1|-0.157
92394243|NCT02365649|184687452|SUPERIORITY||LS Mean Difference|27.7||||0.017|TWO_SIDED|95.0|4.9|50.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||50.6|4.9|0.017
92394244|NCT02365649|184687452|SUPERIORITY||Adjusted risk difference from placebo|2.8||||0.798|TWO_SIDED|95.0|-18.4|23.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||23.9|-18.4|0.798
92394245|NCT02365649|184687453|SUPERIORITY||Adjusted risk difference from placebo|9.8||||0.119|TWO_SIDED|95.0|-2.5|22.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||22.1|-2.5|0.119
92394246|NCT02365649|184687453|SUPERIORITY||Adjusted risk difference from placebo|15.4||||0.034|TWO_SIDED|95.0|1.1|29.7||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||29.7|1.1|0.034
92394247|NCT02365649|184687453|SUPERIORITY||Adjusted risk difference from placebo|23.2||||0.004|TWO_SIDED|95.0|7.3|39.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||39.2|7.3|0.004
92394248|NCT02365649|184687453|SUPERIORITY||Adjusted risk difference from placebo|32.4|||<|0.001|TWO_SIDED|95.0|14.2|50.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||50.5|14.2|< 0.001
92394249|NCT02365649|184687453|SUPERIORITY||Adjusted risk difference from placebo|22.9|||<|0.006|TWO_SIDED|95.0|6.6|39.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||39.2|6.6|< 0.006
92394250|NCT02365649|184687454|SUPERIORITY||Adjusted risk difference from placebo|3.9||||0.647|TWO_SIDED|95.0|-12.7|20.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||20.5|-12.7|0.647
92394251|NCT02365649|184687454|SUPERIORITY||Adjusted risk difference from placebo|17.1||||0.093|TWO_SIDED|95.0|-2.9|37.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||37.1|-2.9|0.093
92394252|NCT02365649|184687454|SUPERIORITY||Adjusted risk difference from placebo|13.6||||0.165|TWO_SIDED|95.0|-5.6|32.8||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.8|-5.6|0.165
92394253|NCT02365649|184687454|SUPERIORITY||Adjusted risk difference from placebo|24.9||||0.023|TWO_SIDED|95.0|3.4|46.3||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||46.3|3.4|0.023
92394254|NCT02365649|184687454|SUPERIORITY||Adjusted risk difference from placebo|7.0||||0.448|TWO_SIDED|95.0|-11.0|25.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||25.0|-11.0|0.448
92422061|NCT00667602|184732727|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC)|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-4.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Hep B, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-4|
92394255|NCT02365649|184687455|SUPERIORITY||LS Mean Difference|0.4||||0.412|TWO_SIDED|95.0|-0.62|1.5||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||1.5|-0.62|0.412
92394256|NCT02365649|184687455|SUPERIORITY||LS Mean Difference|-1.4||||0.01|TWO_SIDED|95.0|-2.47|-0.34||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-0.34|-2.47|0.01
92394257|NCT02365649|184687455|SUPERIORITY||LS Mean Difference|-1.0||||0.082|TWO_SIDED|95.0|-2.13|0.13||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||0.13|-2.13|0.082
92394258|NCT02365649|184687455|SUPERIORITY||LS Mean Difference|-1.6||||0.004|TWO_SIDED|95.0|-2.73|-0.52||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-0.52|-2.73|0.004
92394259|NCT02365649|184687455|SUPERIORITY||LS Mean Difference|0.2||||0.766|TWO_SIDED|95.0|-0.93|1.26||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||1.26|-0.93|0.766
92394260|NCT02365649|184687456|SUPERIORITY||LS Mean Difference|-0.6||||0.314|TWO_SIDED|95.0|-1.75|0.56||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||0.56|-1.75|0.314
92394261|NCT02365649|184687456|SUPERIORITY||LS Mean Difference|-1.8||||0.002|TWO_SIDED|95.0|-3.01|-0.68||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-0.68|-3.01|0.002
92394262|NCT02365649|184687456|SUPERIORITY||LS Mean Difference|-0.7||||0.255|TWO_SIDED|95.0|-1.94|0.52||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||0.52|-1.94|0.255
92394263|NCT02365649|184687456|SUPERIORITY||LS Mean Difference|-1.4||||0.022|TWO_SIDED|95.0|-2.61|-0.2||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-0.2|-2.61|0.022
92394264|NCT02365649|184687456|SUPERIORITY||LS Mean Difference|-0.7||||0.239|TWO_SIDED|95.0|-1.92|0.48||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||0.48|-1.92|0.239
92394265|NCT02365649|184687457|SUPERIORITY||Risk Difference (RD)|-7.5||||1|TWO_SIDED|95.0|-36.4|21.4||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||21.4|-36.4|1.000
92394266|NCT02365649|184687457|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-22.5|32.5||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||32.5|-22.5|1.000
92394267|NCT02365649|184687457|SUPERIORITY||Risk Difference (RD)|-20.0||||0.272|TWO_SIDED|95.0|-37.5|-2.5||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||-2.5|-37.5|0.272
92394268|NCT02365649|184687457|SUPERIORITY||Risk Difference (RD)|2.9||||1|TWO_SIDED|95.0|-2.7|8.6||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders||8.6|-2.7|1.000
92394269|NCT02365649|184687457|SUPERIORITY||Risk Difference (RD)|13.0||||0.068|TWO_SIDED|95.0|-0.7|26.8||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders||26.8|-0.7|0.068
92422062|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-13.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC4, one month postvaccination)given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-13|
92422063|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-6.0|||||TWO_SIDED|95.0|-12.0|-1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7(PNC 6B, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||-1|-12|
92422064|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-11.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7(PnC 9V, one month postvaccination) given concomitantly with MenACWY-CRM197 or MenC was considered non-inferior, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than -10%.||2|-11|
92422065|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC 14, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-3|
92422066|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-10.0|||||TWO_SIDED|95.0|-19.0|-2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7( PNC 18C, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||-2|-19|
92422067|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-10.0|||||TWO_SIDED|95.0|-17.0|-2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC 19F, one month postvaccination), given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||-2|-17|
92422068|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-12.0|1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC 23F, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||1|-12|
92394270|NCT02365649|184687457|SUPERIORITY||Risk Difference (RD)|-5.4||||1|TWO_SIDED|95.0|-23.1|12.3||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||12.3|-23.1|1.0000
92170221|NCT04732494|184229462|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.58|1.45|||||Hazard ratio and 95% confidence intervals (CIs) were estimated using a Cox regression model stratified by the selected stratification factors (ECOG PS score \[0 vs 1\] and the number of organs with metastases \[≤ 1 vs ≥ 2\]).|||1.45|0.58|
92394271|NCT02365649|184687457|SUPERIORITY||Risk Difference (RD)|1.3||||1|TWO_SIDED|95.0|-15.7|18.3||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||18.3|-15.7|1.000
92170222|NCT04732494|184229463|OTHER||Risk Difference (RD)|6.6|||||TWO_SIDED|95.0|-9.2|22.5|||||Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|||22.5|-9.2|
92170223|NCT04732494|184229464|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.64|1.59|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by the selected stratification factors (ECOG PS score \[0 vs 1\] and the number of organs with metastases \[≤ 1 vs ≥ 2\]).|||1.59|0.64|
92170224|NCT04732494|184229465|OTHER||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.71|1.61|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by the selected stratification factors (ECOG PS score \[0 vs 1\] and the number of organs with metastases \[≤ 1 vs ≥ 2\]).|||1.61|0.71|
92170225|NCT04732494|184229468|OTHER||Risk Difference (RD)|2.7|||||TWO_SIDED|95.0|-14.4|19.9|||||Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|Analysis of Disease Control Rate Assessed by the Investigator||19.9|-14.4|
92394272|NCT02365649|184687457|SUPERIORITY||Risk Difference (RD)|3.3||||1|TWO_SIDED|95.0|-16.7|23.3||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||23.3|-16.7|1.000
92394273|NCT02365649|184687457|SUPERIORITY||Risk Difference (RD)|4.8||||1|TWO_SIDED|95.0|-4.3|13.9||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders||13.9|-4.3|1.000
92394274|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-35.5|35.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||35.5|-35.5|1.000
92394275|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|12.5||||0.483|TWO_SIDED|95.0|-17.9|42.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||42.9|-17.9|0.483
92394276|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|-15.0||||0.633|TWO_SIDED|95.0|-41.6|11.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||11.6|-41.6|0.633
92394277|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|6.9||||0.424|TWO_SIDED|95.0|-12.7|26.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||26.4|-12.7|0.424
92394278|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|5.7||||0.614|TWO_SIDED|95.0|-5.6|17.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||17.0|-5.6|0.614
92394279|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|14.3||||0.149|TWO_SIDED|95.0|-2.4|30.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||30.9|-2.4|0.149
92394280|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|5.8||||0.684|TWO_SIDED|95.0|-19.1|30.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||30.7|-19.1|0.684
92394281|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|8.5||||0.404|TWO_SIDED|95.0|-11.5|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||28.5|-11.5|0.404
92394282|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|10.7||||0.47|TWO_SIDED|95.0|-12.8|34.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||34.1|-12.8|0.470
92394283|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
92394284|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|4.5||||1|TWO_SIDED|95.0|-11.3|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||20.3|-11.3|1.000
92422069|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-12.0|4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC4, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||4|-12|
92422070|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-11.0|0.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC6B, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||0|-11|
92422071|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-3.0|||||TWO_SIDED|95.0|-10.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC 9V, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-10|
92422072|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-1.0|||||TWO_SIDED|95.0|-4.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC14, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-4|
92422073|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-15.0|||||TWO_SIDED|95.0|-24.0|-6.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC18C, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||-6|-24|
92422074|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-9.0|||||TWO_SIDED|95.0|-17.0|-1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC19F, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||-1|-17|
92422075|NCT00667602|184732728|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-6.0|||||TWO_SIDED|95.0|-13.0|0.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC23F, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||0|-13|
92422076|NCT00667602|184732733|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|71.0|||||TWO_SIDED|95.0|63.0|78.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:8, prevaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||78|63|
92422077|NCT00667602|184732733|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|2.0|||||TWO_SIDED|95.0|-3.0|6.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:8, one month postvaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||6|-3|
92236168|NCT02926573|184375882|SUPERIORITY||Mean Difference (Final Values)|7.0|||||TWO_SIDED|95.0|-6.6|20.7|||||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7AM.|20.7|-6.6|
92236169|NCT02926573|184375882|SUPERIORITY||Mean Difference (Final Values)|8.0|||||TWO_SIDED|95.0|-6.4|22.3|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 10AM.|||22.3|-6.4|
92236170|NCT02926573|184375882|SUPERIORITY||Mean Difference (Final Values)|15.7|||||TWO_SIDED|95.0|-0.4|31.7|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7PM.|||31.7|-0.4|
92236171|NCT02926573|184375882|SUPERIORITY||Mean Difference (Final Values)|16.7|||||TWO_SIDED|95.0|0.0|33.4|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 3 7AM.|||33.4|0.0|
92170226|NCT04732494|184229468|OTHER||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-11.7|21.8|||||Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|Analysis of Disease Control Rate Assessed by the Independent Review Committee||21.8|-11.7|
92236172|NCT03240081|184375934|NON_INFERIORITY|We set 2 points (20%) as the margin of difference when defining and evaluating non-inferiority in comparing the 2 arms at 4 weeks.|Median Difference (Final Values)|2.0||||0.08|TWO_SIDED|||||Threshold for significance \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.08
92170227|NCT04732494|184229469|OTHER||Risk Difference (RD)|3.9|||||TWO_SIDED|95.0|-12.7|20.4|||||Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|Analysis of Clinical Benefit Rate Assessed by the Investigator||20.4|-12.7|
92394285|NCT02365649|184687458|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
92394286|NCT02365649|184687459|SUPERIORITY||Risk Difference (RD)|-16.9||||0.624|TWO_SIDED|95.0|-48.4|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||14.6|-48.4|0.624
92394287|NCT02365649|184687459|SUPERIORITY||Risk Difference (RD)|3.9||||1|TWO_SIDED|95.0|-28.3|36.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||36.1|-28.3|1.000
92394288|NCT02365649|184687459|SUPERIORITY||Risk Difference (RD)|-19.4||||0.363|TWO_SIDED|95.0|-48.0|9.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||9.1|-48.0|0.363
92394289|NCT02365649|184687459|SUPERIORITY||Risk Difference (RD)|6.1||||0.495|TWO_SIDED|95.0|-2.1|14.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||14.2|-2.1|0.495
92394290|NCT02365649|184687459|SUPERIORITY||Risk Difference (RD)|15.0||||0.066|TWO_SIDED|95.0|-0.6|30.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||30.6|-0.6|0.066
92394291|NCT02365649|184687459|SUPERIORITY||Risk Difference (RD)|-10.7||||0.645|TWO_SIDED|95.0|-30.3|8.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||8.9|-30.3|0.645
92236173|NCT03240081|184375935|NON_INFERIORITY|We set 2 points (20%) as the margin of difference when evaluating non-inferiority in comparing the 2 arms at 4 weeks.|Median Difference (Final Values)|2.0||||0.95|ONE_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.95
92394292|NCT02365649|184687459|SUPERIORITY||Risk Difference (RD)|4.4||||0.686|TWO_SIDED|95.0|-16.8|25.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||25.5|-16.8|0.686
92236174|NCT00949650|184375936|SUPERIORITY_OR_OTHER|||||||0.0002||||||Two-sided p-value from log-rank test stratified by EGFR mutation group and race.|Log Rank|||||||0.0002
92394293|NCT02365649|184687459|SUPERIORITY||Risk Difference (RD)|4.4||||0.721|TWO_SIDED|95.0|-19.5|28.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||28.2|-19.5|0.721
92422078|NCT00667602|184732733|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|2.0|||||TWO_SIDED|95.0|-2.0|7.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:8, prevaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||7|-2|
92422079|NCT00667602|184732733|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-11.0|1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:8, one month postvaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||1|-11|
92446498|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.618||0.458|TWO_SIDED|95.0|-1.68|0.76||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 3||0.76|-1.68|0.458
92236175|NCT00949650|184375936|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.576||||0.0002||95.0|0.426|0.778|||Regression, Cox|Cox Proportional Hazard (PH) regression stratified by epidermal growth factor receptor (EGFR) mutation group and race.|Afatinib 40 mg versus Pemetrexed/Cisplatin Chemotherapy.|||0.778|0.426|0.0002
92170228|NCT04732494|184229469|OTHER||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-11.0|21.0|||||Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|Analysis of Clinical Benefit Rate Assessed by the Independent Review Committee||21.0|-11.0|
92394294|NCT02365649|184687459|SUPERIORITY||Risk Difference (RD)|4.8||||1|TWO_SIDED|95.0|-4.3|13.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||13.9|-4.3|1.000
92394295|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-7.5||||1|TWO_SIDED|95.0|-47.5|32.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||32.5|-47.5|1.000
92394296|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|5.0||||0.765|TWO_SIDED|95.0|-27.8|37.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||37.8|-27.8|0.765
92394297|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-42.4|32.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||32.4|-42.4|1.000
92394298|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-7.5||||1|TWO_SIDED|95.0|-47.5|32.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||32.5|-47.5|1.000
92394299|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|11.3||||0.502|TWO_SIDED|95.0|-21.4|43.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||43.9|-21.4|0.502
92394300|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-32.9|42.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||42.9|-32.9|1.000
92394301|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-2.5||||1|TWO_SIDED|95.0|-42.3|37.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||37.3|-42.3|1.000
92422080|NCT00667602|184732733|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|31.0|||||TWO_SIDED|95.0|24.0|39.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:128, prevaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||39|24|
92422081|NCT00667602|184732733|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:128, one month postvaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||4|-2|
92236176|NCT00949650|184375937|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.802|||<|0.0001||95.0|2.855|8.075|||Regression, Logistic|Logistic regression stratified for EGFR mutation group and race.|Afatinib 40 mg-Pemetrexed/Cisplatin Chemotherapy.|||8.075|2.855|<0.0001
92236177|NCT00949650|184375938|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.288||||0.0118||95.0|1.202|4.356|||Regression, Logistic|Logistic regression stratified for EGFR mutation group and race.|Afatinib 40 mg-Pemetrexed/Cisplatin Chemotherapy.|||4.356|1.202|0.0118
92236178|NCT00949650|184375939|SUPERIORITY_OR_OTHER|||||||0.7916||||||Two-sided p-value from log-rank test stratified by EGFR mutation group and race.|Log Rank|||||||0.7916
92394302|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|22.5||||0.18|TWO_SIDED|95.0|-9.5|54.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||54.5|-9.5|0.180
92236179|NCT00949650|184375939|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.385||95.0|0.66|1.174|||Regression, Cox|Cox PH regression stratified by EGFR mutation group and race.|Afatinib 40 mg-Pemetrexed/Cisplatin Chemotherapy.|||1.174|0.660|0.3850
92236180|NCT00949650|184375940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.82|||<|0.0001||95.0|-13.64|-5.99|||ANCOVA|Adjusted for baseline SoD, EGFR mutation group and race.|Afatinib 40 mg-Pemetrexed/Cisplatin Chemotherapy.|||-5.99|-13.64|<0.0001
92236181|NCT00949650|184375943|SUPERIORITY_OR_OTHER|||||||0.0062||||||Two-sided p-value from log-rank test stratified by EGFR mutation group and race.|Log Rank|||||||0.0062
92394303|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-10.0||||0.702|TWO_SIDED|95.0|-45.6|25.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||25.6|-45.6|0.702
92394304|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-27.5||||0.214|TWO_SIDED|95.0|-58.9|3.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||3.9|-58.9|0.214
92394305|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|28.8||||0.086|TWO_SIDED|95.0|-2.5|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||60.0|-2.5|0.086
92394306|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-37.2|37.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||37.2|-37.2|1.000
92394307|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|7.5||||1|TWO_SIDED|95.0|-31.6|46.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||46.6|-31.6|1.000
92394308|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|32.5||||0.051|TWO_SIDED|95.0|1.4|63.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||63.6|1.4|0.051
92394309|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-34.8|34.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||34.8|-34.8|1.000
92394310|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|27.5||||0.075|TWO_SIDED|95.0|-5.0|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||60.0|-5.0|0.075
92394311|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-3.7||||0.705|TWO_SIDED|95.0|-18.6|11.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||11.2|-18.6|0.705
92394312|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-3.8||||1|TWO_SIDED|95.0|-20.0|12.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||12.4|-20.0|1.000
92394313|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|27.5||||0.075|TWO_SIDED|95.0|-5.0|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||60.0|-5.0|0.075
92394314|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-3.7||||0.705|TWO_SIDED|95.0|-18.6|11.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||11.2|-18.6|0.705
92394315|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|0.5||||1|TWO_SIDED|95.0|-17.4|18.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||18.5|-17.4|1.000
92446499|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.704||0.991|TWO_SIDED|95.0|-1.38|1.4||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 4||1.40|-1.38|0.991
92422082|NCT00667602|184732733|NON_INFERIORITY_OR_EQUIVALENCE|PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage Difference|4.0|||||TWO_SIDED|95.0|-3.0|11.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:128, prevaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||11|-3|
92422083|NCT00667602|184732733|NON_INFERIORITY_OR_EQUIVALENCE|PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage Difference|-13.0|||||TWO_SIDED|95.0|-22.0|-5.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:128, one month postvaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||-5|-22|
92422084|NCT00667602|184732733|NON_INFERIORITY_OR_EQUIVALENCE|PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage Difference|-10.0|||||TWO_SIDED|95.0|-17.0|-4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (four-fold rise in titers), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||-4|-17|
92422085|NCT00667602|184732733|NON_INFERIORITY_OR_EQUIVALENCE|PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage Difference|-5.0|||||TWO_SIDED|95.0|-11.0|1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (four-fold rise in titers), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||1|-11|
92422086|NCT00667602|184732735|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC)|Ratio|1.33|||||TWO_SIDED|95.0|0.96|1.83|||ANOVA|||For comparison of the Geometric Mean Titers at one month postvaccination at 12 months of age, MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the 2-sided 95% CI for the ratio of the MenACWY-CRM197 to MenC Geometric Mean Titers for serogroup C was greater than 0.5.||1.83|0.96|
92422087|NCT01436162|184732754|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.92||0.583|TWO_SIDED|95.0|-2.3|1.3|||Mixed-effects Model for Repeat Measures|||||1.3|-2.3|0.583
92422088|NCT01436162|184732755|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.65||0.354|TWO_SIDED|95.0|-1.9|0.7|||Mixed-effects Model for Repeat Measures|||||0.7|-1.9|0.354
92422089|NCT02567552|184732768|OTHER|||||||0.3395|||||||Chi-squared|||||||0.3395
92422090|NCT02567552|184732769|OTHER|||||||0.1523|||||||Chi-squared|||||||0.1523
92422091|NCT02567552|184732770|OTHER|||||||0.1189|||||||t-test, 2 sided|||comparison between groups||||0.1189
92170229|NCT04732494|184229470|OTHER||Least Squares (LS) Mean Difference|1.8|||||TWO_SIDED|95.0|-8.4|11.9||||||Analysis of Change from Baseline in Global Health Status/QoL at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||11.9|-8.4|
92236182|NCT00949650|184375943|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.589||||0.2133||95.0|0.401|0.866|||Regression, Cox|Cox PH regression stratified by EGFR mutation group and race.|Afatinib 40 mg vs. Pemetrexed/Cisplatin Chemotherapy, if HR\<1 then favours Afatinib 40 mg.|||0.866|0.401|0.2133
92236183|NCT00949650|184375944|SUPERIORITY_OR_OTHER|||||||0.0129||||||Two-sided p-value from log-rank test stratified by EGFR mutation group and race.|Log Rank|||||||0.0129
92422092|NCT02567552|184732772|OTHER|||||||0.2042|||||||t-test, 2 sided|||||||0.2042
92422093|NCT02567552|184732773|OTHER|||||||0.6262|||||||t-test, 2 sided|||||||0.6262
92236184|NCT00949650|184375944|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0078||95.0|0.499|0.927|||Regression, Cox|Cox PH regression stratified by EGFR mutation group and race.|Afatinib 40 mg vs. Pemetrexed/Cisplatin Chemotherapy, if HR\<1 then favours Afatinib 40 mg.|||0.927|0.499|0.0078
92236185|NCT00949650|184375945|SUPERIORITY_OR_OTHER|||||||0.1882||||||Two-sided p-value from log-rank test stratified by EGFR mutation group and race.|Log Rank|||||||0.1882
92236186|NCT00949650|184375945|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.826||||0.0427||95.0|0.618|1.104|||Regression, Cox|Cox PH regression stratified by EGFR mutation group and race.|Afatinib 40 mg vs. Pemetrexed/Cisplatin Chemotherapy, if HR\<1 then favours Afatinib 40 mg.|||1.104|0.618|0.0427
92422094|NCT02567552|184732774|OTHER|||||||0.2301|||||||t-test, 2 sided|||||||0.2301
92422095|NCT02567552|184732775|OTHER|||||||0.5118|||||||t-test, 2 sided|||||||0.5118
92422096|NCT02567552|184732776|OTHER|||||||0.8371|||||||t-test, 2 sided|||||||0.8371
92422097|NCT02567552|184732777|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92422098|NCT02567552|184732778|OTHER|||||||0.3107|||||||t-test, 2 sided|||||||0.3107
92422099|NCT02567552|184732779|OTHER|||||||0.5|||||||Fisher Exact|||||||0.5
92422100|NCT05032859|184732782|SUPERIORITY||Risk Ratio, log|2.27|||<|0.0001|TWO_SIDED|95.0|1.54|3.32|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|H0: The proportion of subjects who achieve a vIGA-AD score of clear (0) or almost clear (1) and at least a 2-grade reduction from Baseline at Week 8 is equal between tapinarof cream, 1% and vehicle cream; H1: The proportion of subjects who achieve a vIGA-AD score of clear (0) or almost clear (1) and at least a 2-grade reduction from Baseline at Week 8 is different between the tapinarof cream, 1% and vehicle cream.||3.32|1.54|<0.0001
92236187|NCT01678846|184375956|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|||<|0.0001|TWO_SIDED|95.0|0.26|0.64|||Regression, Logistic||An odds ratio of less than 1 would demonstrate a protective effect of the intervention. Unadjusted odds ratio presented, accounting for correlation between students within schools.|Does the Toolkit intervention reduce physical violence from school staff to Ugandan primary school students.||0.64|0.26|<0.0001
92422101|NCT05032859|184732783|SUPERIORITY||Risk Ratio, log|2.14|||<|0.0001|TWO_SIDED|95.0|1.53|3.0|||Cochran-Mantel-Haenszel|Stratified by vIGA-AD score at Baseline (vIGA-AD scores of 3 or 4) and age group (2-6 yrs, 7-11 yrs, 12-17 yrs, 18+ yrs)|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|||3.00|1.53|<0.0001
92422102|NCT05032859|184732784|SUPERIORITY||Least squares mean difference|-6.6|STANDARD_ERROR_OF_MEAN|0.803|<|0.0001|TWO_SIDED|95.0|-8.17|-5.02|||ANCOVA|age\*vIGA cohort and treatment as categorical covariates, and baseline %BSA as a continuous covariate||||-5.02|-8.17|<0.0001
92422103|NCT05032859|184732785|SUPERIORITY||Risk Ratio, log|2.34||||0.0013|TWO_SIDED|95.0|1.39|3.94|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.||Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|3.94|1.39|0.0013
92422104|NCT05032859|184732786|SUPERIORITY||Risk Ratio, log|2.17||||0.0015|TWO_SIDED|95.0|1.34|3.5|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|||3.50|1.34|0.0015
92422105|NCT01876810|184732792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1|TWO_SIDED|95.0||||For all analyses, results are considered significant at p\<.05.|t-test, 2 sided|||||||0.1
92422106|NCT01876810|184732792|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.1|TWO_SIDED|95.0||||For all analyses, results were considered significant at p\< 0.05|t-test, 2 sided|||||||0.1
92422107|NCT01876810|184732793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|0.034||0.9|TWO_SIDED|95.0||||For all analyses, results were considered significant at p\< 0.05|t-test, 2 sided|||||||0.9
92422108|NCT01876810|184732793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|0.05||0.9|TWO_SIDED|95.0||||For all analyses, results were considered significant at p\< 0.05|t-test, 2 sided|||||||0.9
92422109|NCT01876810|184732794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.3|STANDARD_ERROR_OF_MEAN|31.7||0.4|TWO_SIDED|95.0|||||ANOVA|Repeated-measures ANOVA on Drug X Cue X Time were used|participants self-reportd VAS craving at the time of neutral cue presentation|||||0.4
92422110|NCT01876810|184732794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.7|STANDARD_ERROR_OF_MEAN|26.5||0.4|TWO_SIDED|95.0||||For all analyses, results were considered significant at p\< 0.05|ANOVA|Repeated-measures ANOVA on Drug X Cue X Time were used||||||0.4
92422111|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.68|||||TWO_SIDED|95.0|0.48|0.94|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 4||0.94|0.48|
92422112|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.81|||||TWO_SIDED|95.0|0.64|1.04|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 6B||1.04|0.64|
92422113|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.95|||||TWO_SIDED|95.0|0.74|1.23|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 9V||1.23|0.74|
92422114|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.67|||||TWO_SIDED|95.0|0.45|1.01|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 14||1.01|0.45|
92422115|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.96|||||TWO_SIDED|95.0|0.7|1.31|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 18C||1.31|0.70|
92422116|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.56|||||TWO_SIDED|95.0|0.4|0.77|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 19F||0.77|0.40|
92422117|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.82|||||TWO_SIDED|95.0|0.64|1.05|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 23F||1.05|0.64|
92422118|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|1.97|||||TWO_SIDED|95.0|1.39|2.8|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 4||2.80|1.39|
92422119|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|3.04|||||TWO_SIDED|95.0|2.41|3.84|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 6B||3.84|2.41|
92236188|NCT03322657|184375960|SUPERIORITY||Hazard Ratio (HR)|3.8|||<|0.001|TWO_SIDED|95.0|2.2|6.5|||Cox proportional hazard model|||||6.5|2.2|<0.001
92236189|NCT03322657|184375961|SUPERIORITY||Median Difference (Final Values)|6.3||||0.13|TWO_SIDED|95.0|-2.0|14.0|||Wilcoxon (Mann-Whitney)|||||14|-2.0|0.13
92236190|NCT03322657|184375962|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.3|TWO_SIDED|95.0|0.43|1.34|||Cox proportional hazard model|||||1.34|0.43|0.30
92394316|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|0.6||||1|TWO_SIDED|95.0|-20.5|21.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||21.8|-20.5|1.000
92422120|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|1.26|||||TWO_SIDED|95.0|0.98|1.62|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 9V||1.62|0.98|
92236191|NCT03322657|184375963|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.21|TWO_SIDED|95.0|-0.35|1.0|||t-test, 2 sided|||||1.00|-0.35|0.21
92394317|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-6.4||||0.348|TWO_SIDED|95.0|-18.0|5.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||5.2|-18.0|0.348
92394318|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|3.7||||0.686|TWO_SIDED|95.0|-13.4|20.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||20.7|-13.4|0.686
92394319|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|7.5||||0.616|TWO_SIDED|95.0|-19.8|34.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||34.8|-19.8|0.616
92394320|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-6.6||||0.42|TWO_SIDED|95.0|-20.5|7.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||7.3|-20.5|0.420
92422121|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|6.66|||||TWO_SIDED|95.0|4.53|9.79|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 14||9.79|4.53|
92422122|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|2.34|||||TWO_SIDED|95.0|1.68|3.24|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 18C||3.24|1.68|
92422123|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|4.47|||||TWO_SIDED|95.0|3.29|6.07|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 19F||6.07|3.29|
92422124|NCT01298544|184732795|SUPERIORITY_OR_OTHER||Ratio of GMCs|2.08|||||TWO_SIDED|95.0|1.65|2.63|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 23F||2.63|1.65|
92422125|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|-18.5|||||TWO_SIDED|95.0|-29.4|-7.3|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 4||-7.3|-29.4|
92422126|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-3.1|3.0|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 6B||3.0|-3.1|
92236192|NCT03322657|184375964|SUPERIORITY||Mean Difference (Final Values)|0.82||||0.04|TWO_SIDED|95.0|-0.18|1.81|||t-test, 2 sided|||||1.81|-0.18|0.04
92236193|NCT01088412|184375965|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.77|||||TWO_SIDED|95.0|2.24|5.96||||||Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.||5.96|2.24|
92236194|NCT01088412|184375966|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.71|||||TWO_SIDED|95.0|0.39|1.2||||||Epidemiological comparison between incidence of primary malignancies in study versus general population registry data, stratified by age and gender.||1.20|0.39|
92236195|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.03|||||TWO_SIDED|95.0|2.14|4.15||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for All DM (T1, T2 and DM Not Otherwise Specified \[NOS\] Combined)"||4.15|2.14|
92394321|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-3.8||||1|TWO_SIDED|95.0|-20.0|12.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||12.4|-20.0|1.000
92394322|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|0.6||||1|TWO_SIDED|95.0|-20.5|21.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||21.8|-20.5|1.000
92394323|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-0.6||||1|TWO_SIDED|95.0|-14.4|13.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||13.3|-14.4|1.000
92394324|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|3.7||||0.686|TWO_SIDED|95.0|-13.4|20.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||20.7|-13.4|0.686
92422127|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-5.9|7.3|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 9V||7.3|-5.9|
92422128|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|-3.4|||||TWO_SIDED|95.0|-10.3|3.1|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 14||3.1|-10.3|
92422129|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|-11.9|||||TWO_SIDED|95.0|-22.7|-1.0|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 18C||-1.0|-22.7|
92422130|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-7.1|0.6|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 19F||0.6|-7.1|
92422131|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-4.5|2.3|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 23F||2.3|-4.5|
92422132|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|25.0|||||TWO_SIDED|95.0|12.7|37.0|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 4||37.0|12.7|
92422133|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-0.011|7.715|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 6B||7.715|-0.011|
92422134|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|10.3|||||TWO_SIDED|95.0|1.9|19.6|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 9V||19.6|1.9|
92279426|NCT01533428|184462014|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.05|TWO_SIDED|95.0|1.0|2.4|||Regression, Logistic|Analysis of regression logistics model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Percentage of participants with 30% reduction in average daily pain score assessed in Weeks 2-12. The comparison of the odds ratio of capsaicin 8% to placebo for percent change from baseline was performed using a logistic regression model.||2.4|1.0|0.050
92394325|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|9.4||||0.555|TWO_SIDED|95.0|-21.9|40.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||40.6|-21.9|0.555
92394326|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-2.7||||0.83|TWO_SIDED|95.0|-27.2|21.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||21.8|-27.2|0.830
92422135|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|29.7|||||TWO_SIDED|95.0|19.4|40.5|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 14||40.5|19.4|
92422136|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|30.0|||||TWO_SIDED|95.0|17.9|41.5|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 18C||41.5|17.9|
92422137|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|6.5|||||TWO_SIDED|95.0|1.2|13.9|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 19F||13.9|1.2|
92422138|NCT01298544|184732796|SUPERIORITY_OR_OTHER||Difference in proportions|6.2|||||TWO_SIDED|95.0|1.8|13.0|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 23F||13.0|1.8|
92446500|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.782||0.354|TWO_SIDED|95.0|-2.27|0.82||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 5||0.82|-2.27|0.354
92394327|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-9.0||||0.518|TWO_SIDED|95.0|-36.0|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||17.9|-36.0|0.518
92279427|NCT01533428|184462015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.403|TWO_SIDED|95.0|0.7|2.1|||Regression, Logistic|Analysis of regression logistics model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Percentage of participants with 50% reduction in average daily pain score assessed in Weeks 2-8. The comparison of the odds ratio of capsaicin 8% to placebo for percent change from baseline was performed using a logistic regression model.||2.1|0.7|0.403
92394328|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|12.5||||0.428|TWO_SIDED|95.0|-18.6|43.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||43.6|-18.6|0.428
92394329|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|3.9||||0.757|TWO_SIDED|95.0|-20.7|28.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||28.4|-20.7|0.757
92394330|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|4.6||||0.745|TWO_SIDED|95.0|-23.2|32.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||32.4|-23.2|0.745
92422139|NCT02160782|184732814|EQUIVALENCE|The P-value for testing if the treatment group least squares (LS) means were equal was calculated to determine if the change in sBA levels between the treatment groups was statistically significant.|Mean Difference (Net)|-117.28|STANDARD_ERROR_OF_MEAN|52.828||0.0464|TWO_SIDED|95.0|-232.38|-2.18|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in fasting sBA levels was evaluated using an analysis of covariance (ANCOVA) model with treatment group as a factor, and Week 18 sBA as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the MITT population, which included all participants who were enrolled, received study drug through Week 18, and had a reduction from baseline in sBA of ≥50% at the Week 12 or Week 18 measurement.||-2.18|-232.38|0.0464
92422140|NCT02160782|184732815|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in sBA levels between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-87.73|STANDARD_DEVIATION|119.979||0.0005|TWO_SIDED|95.0|-133.37|-42.09||Data for this analysis were obtained from 31 participants at baseline; 29 of those participants contributed Week 18 data.|Student's t-test|||This analysis investigated whether a statistically significant change in sBA levels was observed when comparing baseline to Week 18 (the open-label period, during which all participants received MRX). The analysis was based on the ITT population.||-42.09|-133.37|0.0005
92422141|NCT02160782|184732816|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ItchRO(Obs) scores between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-1.704|STANDARD_DEVIATION|0.9114|<|0.0001|TWO_SIDED|95.0|-2.051|-1.357|||Student's t-test|||This analysis investigated whether a statistically significant change in ItchRO(Obs) score was observed when comparing baseline to Week 18 (the open-label period, during which all participants received MRX). The analysis was based on the ITT population. ItchRO scores range from 0 to 4; the higher score indicates increasing itch severity.||-1.357|-2.051|< 0.0001
92422142|NCT02160782|184732817|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ItchRO(Pt) scores between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-2.072|STANDARD_DEVIATION|0.9931|<|0.0001|TWO_SIDED|95.0|-2.645|-1.498|||Student's t-test|||This analysis investigated whether a statistically significant change in ItchRO(Pt) score was observed when comparing baseline to Week 18 (the open-label period, during which all participants received MRX). The analysis was based on the ITT population. ItchRO scores range from 0 to 4; the higher score indicates increasing itch severity.||-1.498|-2.645|< 0.0001
92422143|NCT02160782|184732818|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in ItchRO(Obs) between the treatment groups was statistically significant.|Mean Difference (Net)|-1.483|STANDARD_ERROR_OF_MEAN|0.3103|<|0.0001|TWO_SIDED|95.0|-2.122|-0.844|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in ItchRO(Obs) was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 ItchRO(Obs) as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||-0.844|-2.122|< 0.0001
92279428|NCT01533428|184462015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.446|TWO_SIDED|95.0|0.7|2.0|||Regression, Logistic|Analysis of regression logistics model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Percentage of participants with 50% reduction in average daily pain score assessed in Weeks 2-12. The comparison of the odds ratio of capsaicin 8% to placebo for percent change from baseline was performed using a logistic regression model.||2.0|0.7|0.446
92394331|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-5.8||||1|TWO_SIDED|95.0|-34.6|23.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||23.0|-34.6|1.000
92170230|NCT04732494|184229470|OTHER||LS Mean Difference|3.1|||||TWO_SIDED|95.0|-5.0|11.2||||||Analysis of Change from Baseline in Global Health Status/QoL at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||11.2|-5.0|
92170231|NCT04732494|184229470|SUPERIORITY||LS Mean Difference|-1.7|||||TWO_SIDED|95.0|-7.1|3.7||||||Analysis of Change from Baseline in Physical Functioning at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||3.7|-7.1|
92170232|NCT04732494|184229470|OTHER||LS Mean Difference|-0.5|||||TWO_SIDED|95.0|-10.3|9.3||||||Analysis of Change from Baseline in Physical Functioning at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||9.3|-10.3|
92394332|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|3.6||||0.773|TWO_SIDED|95.0|-20.6|27.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||27.7|-20.6|0.773
92394333|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-2.8||||0.838|TWO_SIDED|95.0|-29.4|23.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||23.8|-29.4|0.838
92394334|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-12.9||||0.497|TWO_SIDED|95.0|-40.0|14.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||14.1|-40.0|0.497
92394335|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|10.5||||0.404|TWO_SIDED|95.0|-14.0|34.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||34.9|-14.0|0.404
92394336|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-2.8||||0.838|TWO_SIDED|95.0|-29.4|23.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||23.8|-29.4|0.838
92394337|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|3.6||||1|TWO_SIDED|95.0|-24.4|31.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||31.6|-24.4|1.000
92394338|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|16.4||||0.174|TWO_SIDED|95.0|-7.0|39.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||39.8|-7.0|0.174
92394339|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|6.6||||0.611|TWO_SIDED|95.0|-19.1|32.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||32.3|-19.1|0.611
92422144|NCT02160782|184732819|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in ItchRO(Pt) between the treatment groups was statistically significant. While the number of participants included in analysis for the end point indicates 28, there were only 14; n = 5 for ItchRO(Pt): MRX and n = 9 for ItchRO(Pt): placebo.|Mean Difference (Net)|-1.988|STANDARD_ERROR_OF_MEAN|0.4641||0.0013|TWO_SIDED|95.0|-3.009|-0.967|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in ItchRO (Pt) was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 ItchRO(Pt) as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||-0.967|-3.009|0.0013
92170233|NCT04732494|184229471|OTHER||LS Mean Difference|-9.9|||||TWO_SIDED|95.0|-21.5|1.6||||||Analysis of Change from Baseline in Dysphagia at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||1.6|-21.5|
92394340|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||4.6|-14.6|1.000
92170234|NCT04732494|184229471|OTHER||LS Mean Difference|-10.8|||||TWO_SIDED|95.0|-27.8|6.3||||||Analysis of Change from Baseline in Dysphagia at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||6.3|-27.8|
92279429|NCT01533428|184462016|SUPERIORITY_OR_OTHER|||||||0.072|TWO_SIDED||||||Cochran-Mantel-Haenszel|Analysis of Cochran-Mantel-Haenszel test model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for counts by category using a Cochran-Mantel-Haenszel test.||||0.072
92394341|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-5.0||||0.488|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||4.6|-14.6|0.488
92394342|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||4.6|-14.6|1.000
92394343|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||4.6|-14.6|1.000
92394344|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-5.0||||0.488|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||4.6|-14.6|0.488
92394345|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||4.6|-14.6|1.000
92422145|NCT02160782|184732820|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALP levels between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-27.8|STANDARD_DEVIATION|118.33||0.2163|TWO_SIDED|95.0|-72.8|17.2||Data for this analysis were obtained from 31 participants at baseline; 29 of those participants contributed Week 18 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALP levels was observed when comparing baseline to Week 18 (the open-label period, during which all participants received MRX). The analysis was based on the ITT population.||17.2|-72.8|0.2163
92422146|NCT02160782|184732821|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in ALP levels between the treatment groups was statistically significant.|Mean Difference (Net)|10.0|STANDARD_ERROR_OF_MEAN|30.44||0.7455|TWO_SIDED|95.0|-52.6|72.6|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in ALP levels was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 ALP as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||72.6|-52.6|0.7455
92422147|NCT02160782|184732822|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALT levels between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-1.3|STANDARD_DEVIATION|84.54||0.9358|TWO_SIDED|95.0|-33.4|30.9||Data for this analysis were obtained from 31 participants at baseline; 29 of those participants contributed Week 18 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALT levels was observed when comparing baseline to Week 18 (the open-label period, during which all participants received MRX). The analysis was based on the ITT population.||30.9|-33.4|0.9358
92422148|NCT02160782|184732823|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in ALT levels between the treatment groups was statistically significant.|Mean Difference (Net)|15.1|STANDARD_ERROR_OF_MEAN|19.53||0.4472|TWO_SIDED|95.0|-25.1|55.2|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in ALT levels was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 ALT as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||55.2|-25.1|0.4472
92422149|NCT02160782|184732824|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in total bilirubin levels between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-0.47|STANDARD_DEVIATION|1.424||0.0893|TWO_SIDED|95.0|-1.01|0.08|||Student's t-test|||||0.08|-1.01|0.0893
92446501|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-1.26|STANDARD_ERROR_OF_MEAN|0.804||0.119|TWO_SIDED|95.0|-2.85|0.33||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 6||0.33|-2.85|0.119
92394346|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||4.6|-14.6|1.000
92170235|NCT04732494|184229471|OTHER||LS Mean Difference|-0.4|||||TWO_SIDED|95.0|-7.3|6.6||||||Analysis of Change from Baseline in Eating at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||6.6|-7.3|
92170236|NCT04732494|184229471|OTHER||LS Mean Difference|-9.4|||||TWO_SIDED|95.0|-18.5|-0.3||||||Analysis of Change from Baseline in Eating at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||-0.3|-18.5|
92422150|NCT02160782|184732825|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in total bilirubin between the treatment groups was statistically significant.|Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.361||0.7|TWO_SIDED|95.0|-0.88|0.6|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in total bilirubin was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 total bilirubin as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||0.6|-0.88|0.7
92422151|NCT02160782|184732826|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in direct bilirubin levels between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-0.5|STANDARD_DEVIATION|1.012||0.0139|TWO_SIDED|95.0|-0.9|-0.11|||Student's t-test|||||-0.11|-0.9|0.0139
92422152|NCT02160782|184732827|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in direct bilirubin between the treatment groups was statistically significant.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.265||0.9517|TWO_SIDED|95.0|-0.56|0.53|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in direct bilirubin levels was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 direct bilirubin as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||0.53|-0.56|0.9517
92422153|NCT00729924|184732828|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||The p-value is not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The hypothesis was that the ratio of the 4-hour CSF concentration value to the partial plasma area-under-the-curve 0-4h value would differ between participants with ABCB1 C/C and T/T genotypes.||||0.43
92422154|NCT00729924|184732829|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||The p-value is not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||We explored post-hoc whether the ratio of the 4-hour CSF concentration value to the 2-hour plasma concentration differs between participants with ABCB1 C/C and T/T genotypes.||||0.43
92422155|NCT00413400|184732830|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||ANCOVA|||treatment effect (etanercept vs. placebo) using ANCOVA including baseline CRP, age, and race||||0.20
92422156|NCT00413400|184732831|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||Repeated Measures ANCOVA|||within subject percent changes calculated for each timepoint and repeated measures ANCOVA controlling for age and race performed||||0.92
92422157|NCT00413400|184732832|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Repeated Measures ANCOVA|||within subject percent changes were calculated for each time point, then repeated measures ANCOVA controlling for age and race performed||||0.02
92422158|NCT00413400|184732833|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||repeated measures ANCOVA|||percent change calculated then repeated measures ANCOVA performed controlling for age and race||||0.02
92422159|NCT00413400|184732834|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANCOVA|||ANCOVA controlling for baseline value, age, race||||0.46
92422160|NCT00413400|184732835|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||t-test, 2 sided|||||||0.78
92422161|NCT00413400|184732836|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||t-test, 2 sided|||||||0.11
92422162|NCT00413400|184732837|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||ANCOVA|||ANCOVA controlling for baseline value, age, race||||0.59
92422163|NCT00413400|184732838|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Repeated measures ANCOVA|||within subject percent changes calculated then repeated measures ANCOVA controlling for age and race performed||||<0.0001
92422164|NCT00413400|184732839|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Repeated Measures ANCOVA|||within subject percent changes calculated then repeated measures ANCOVA performed controlling for age and race||||0.08
92422165|NCT00413400|184732840|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||ANCOVA|||ANCOVA controlling for baseline value, age, and race||||0.55
92236196|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|2.74|||||TWO_SIDED|95.0|1.72|4.15||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for GHD DM (T1, T2 and DM NOS Combined)"||4.15|1.72|
92422166|NCT01083485|184732854|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.5|0.3||A P value was not part of the analysis plan. A within SD 1.7, and expected treatment difference of 0 and a non-inferiority margin was -1.0 meaning that OXN PR can be one unit inferior to OXY PR and still be considered non-inferior.|ANCOVA|The primary efficacy endpoint was analysed on the PP data using a mixed-model repeat measure analysis of covariance RMANCOVA.||The sample size was calculated for a significance level of 2.5% (1 sided) with 90% power. A within SD 1.7, and expected treatment difference of 0 and a non-inferiority margin of 1.0 were assumed.||0.3|-0.5|
92422167|NCT01948310|184732896|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||2-0 weeks||||>0.05
92422168|NCT01948310|184732896|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||0-14 weeks||||0.03
92236197|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|4.91|||||TWO_SIDED|95.0|1.8|10.69||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for TS DM (T1, T2 and DM NOS Combined)"||10.69|1.80|
92422169|NCT01948310|184732896|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||2-0 weeks||||>0.05
92422170|NCT01948310|184732896|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||14-0 weeks||||0.005
92422171|NCT01948310|184732897|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||2-0 weeks||||>0.05
92422172|NCT01948310|184732897|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||14-0 weeks||||>0.05
92394347|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-0.2||||1|TWO_SIDED|95.0|-13.4|13.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||13.0|-13.4|1.000
92394348|NCT02365649|184687460|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||4.6|-14.6|1.000
92394349|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-72.2|45.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||45.5|-72.2|1.000
92422173|NCT01948310|184732897|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||2-0 weeks||||0.03
92422174|NCT01948310|184732897|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||14-0 weeks||||>0.05
92422175|NCT01948310|184732898|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||2-0 weeks||||>0.05
92422176|NCT01948310|184732898|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||0-14 weeks||||0.13
92279430|NCT01533428|184462017|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||Cochran-Mantel-Haenszel|Analysis of Cochran-Mantel-Haenszel test model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for counts by category using a Cochran-Mantel-Haenszel test.||||0.075
92422177|NCT01948310|184732898|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||2-0 weeks||||>0.05
92422178|NCT01948310|184732898|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||14-0 weeks||||0.013
92422179|NCT05015530|184732957|SUPERIORITY|||||||0.908|||||||Kruskal-Wallis|||α-diversity assessed using the Kruskal-Wallis test||||0.908
92422180|NCT02600351|184733016|NON_INFERIORITY|With a 10% non-inferiority margin, a sample size of 90 participants per treatment group was required to provide at least 90% power to establish non-inferiority at the 1-sided 0.025 level, assuming the SVR12 rates were 98% for both groups.|Difference in percentages|-18.8||||0.065|TWO_SIDED|95.0|-40.7|3.2|||Cochran-Mantel-Haenszel|||||3.2|-40.7|0.065
92394350|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-8.6||||1|TWO_SIDED|95.0|-50.2|33.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||33.1|-50.2|1.000
92422181|NCT02600351|184733016|NON_INFERIORITY|With a 10% non-inferiority margin, a sample size of 125 participants per treatment group was required to provide at least 90% power to establish non-inferiority at the 1-sided 0.025 level, assuming the SVR12 rates were 95% for both groups.|Difference in percentages|-11.7||||0.25|TWO_SIDED|95.0|-32.1|8.8|||Cochran-Mantel-Haenszel|||||8.8|-32.1|0.25
92422182|NCT00567593|184733040|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum test||||||.01
92422183|NCT01272284|184733058|SUPERIORITY_OR_OTHER_LEGACY||Proportion successful|85.4|||<|0.0001|ONE_SIDED|95.81|78.1||||Fisher Exact|||The final significance level is 0.04191 accounting for one interim analysis conducted at 80% of final information, thus a 95.81% Confidence Limit (CL) was used.|||78.1|<0.0001
92422184|NCT01086423|184733075|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The upper limit (UL) of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|0.68|||||TWO_SIDED|95.0|-1.88|3.76||||||To demonstrate that the immunogenicity of Infanrix™ -IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-D, one month after the third vaccine dose.||3.76|-1.88|
92422185|NCT01086423|184733075|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.56|2.56||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-T, one month after the third vaccine dose.||2.56|-2.56|
92422186|NCT01086423|184733076|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|-7.93|||||TWO_SIDED|95.0|-14.44|-2.13||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-PRP antibodies, one month after the third vaccine dose.||-2.13|-14.44|
92446502|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.469||0.493|TWO_SIDED|95.0|-1.25|0.6||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 1||0.60|-1.25|0.493
92446503|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.504||0.949|TWO_SIDED|95.0|-0.96|1.03||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 2||1.03|-0.96|0.949
92236198|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.1|||||TWO_SIDED|95.0|0.84|7.93||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for ISS DM (T1, T2 and DM NOS Combined)"||7.93|0.84|
92422187|NCT01086423|184733077|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.51|2.56||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-Polio type 1 antibodies, one month after the third vaccine dose.||2.56|-2.51|
92422188|NCT01086423|184733077|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.51|2.56||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-Polio type 2 antibodies, one month after the third vaccine dose.||2.56|-2.51|
92422189|NCT01086423|184733077|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.51|2.56||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-Polio type 3 antibodies, one month after the third vaccine dose.||2.56|-2.51|
92422190|NCT01086423|184733078|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|-0.68|||||TWO_SIDED|95.0|-3.74|1.89||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-PT antigens, one month after the third vaccine dose.||1.89|-3.74|
92422191|NCT01086423|184733078|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|-2.7|||||TWO_SIDED|95.0|-6.75|-0.11||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-FHA antigens, one month after the third vaccine dose.||-0.11|-6.75|
92422192|NCT01086423|184733078|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|-0.67|||||TWO_SIDED|95.0|-4.6|3.04||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-PRN antigens, one month after the third vaccine dose.||3.04|-4.6|
92236199|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|11.83||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SHOX-D DM (T1, T2 and DM NOS Combined)"||11.83|0.00|
92236200|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.0|||||TWO_SIDED|95.0|0.36|10.83||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SGA DM (T1, T2 and DM NOS Combined)"||10.83|0.36|
92236201|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|4.55|||||TWO_SIDED|95.0|1.24|11.66||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Other DM (T1, T2 and DM NOS Combined)"||11.66|1.24|
92236202|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|24.3||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Unknown DM (T1, T2 and DM NOS Combined)"||24.30|0.00|
92394351|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|20.0||||1|TWO_SIDED|95.0|-4.8|44.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||44.8|-4.8|1.000
92394352|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-23.3||||0.423|TWO_SIDED|95.0|-79.8|33.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||33.2|-79.8|0.423
92394353|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-32.9||||0.25|TWO_SIDED|95.0|-74.0|8.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||8.2|-74.0|0.250
92394354|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|10.0||||1|TWO_SIDED|95.0|-8.6|28.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||28.6|-8.6|1.000
92394355|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|20.0||||1|TWO_SIDED|95.0|-4.8|44.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||44.8|-4.8|1.000
92394356|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-8.6||||1|TWO_SIDED|95.0|-50.2|33.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||33.1|-50.2|1.000
92394357|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-72.2|45.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||45.5|-72.2|1.000
92394358|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-46.7||||0.203|TWO_SIDED|95.0|-100.0|12.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||12.2|-100.0|0.203
92394359|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-8.6||||1|TWO_SIDED|95.0|-50.2|33.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||33.1|-50.2|1.000
92394360|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-72.2|45.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||45.5|-72.2|1.000
92394361|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|6.7||||1|TWO_SIDED|95.0|-54.7|68.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||68.0|-54.7|1.000
92422193|NCT02652767|184733088|SUPERIORITY||Mean Difference (Net)|-0.012||||0.889|TWO_SIDED|95.0|-0.182|0.158|||ANCOVA|||A mixed model of analysis of covariance (ANCOVA) was used with change from baseline at Week 48 as the response, and participants, eyes of the participant as random factor, treatment and baseline LogMAR value as covariates in the model. P-value is used to assess the significance of the difference between All-GS010 and All-Sham with respect to change of LogMAR from baseline.||0.158|-0.182|0.8890
92422194|NCT01130103|184733100|SUPERIORITY_OR_OTHER||incident rate ratio|0.5||||0.01|TWO_SIDED|95.0|0.3|0.85|||Mixed Models Analysis|||caps total score at weeks 5 and 10||.85|.30|.01
92394362|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|11.4||||1|TWO_SIDED|95.0|-33.8|56.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||56.6|-33.8|1.000
92394363|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|6.7||||1|TWO_SIDED|95.0|-54.7|68.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||68.0|-54.7|1.000
92422195|NCT01130103|184733100|SUPERIORITY_OR_OTHER||incident rate ratio|0.56|||<|0.001|TWO_SIDED|95.0|0.43|0.74|||Mixed Models Analysis|||rate of change in CAPS total from week 5 to week 10||.74|.43|<.001
92422196|NCT01130103|184733104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.6||||0.03|TWO_SIDED|95.0|1.23|129.0|||Mixed Models Analysis|||treatment group effect: remission rate at weeks 5 and 10||129|1.23|.03
92422197|NCT01130103|184733104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.8||||0.007|TWO_SIDED|95.0|2.44|176.0|||Mixed Models Analysis|||rate of change over time in remission rate from week 5 to 10||176|2.44|0.007
92422198|NCT00471146|184733120|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.014||||0.5436|TWO_SIDED|95.0|0.786|1.309||One-sided log-rank test at alpha = 0.025 significance level was used.|Log Rank|||Differences in OS between treatment arms was analyzed by 1-sided log rank test, stratified for extent of disease (locally advanced cancer versus metastatic cancer).||1.309|0.786|0.5436
92422199|NCT00471146|184733121|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.006||||0.5203|TWO_SIDED|95.0|0.779|1.298||One-sided log-rank test at alpha = 0.025 significance level was used.The p-value was not adjusted for multiple testing.|Log Rank|||Differences in PFS between treatment arms was analyzed by 1-sided log rank test, stratified for extent of disease (locally advanced cancer versus metastatic cancer).||1.298|0.779|0.5203
92422200|NCT00471146|184733122|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.2||||0.038|TWO_SIDED|95.0|1.0|10.1|||Cochran-Mantel-Haenszel|||Differences in OR between treatment arms was analyzed by 1-sided Cochran-Mantel-Haenszel (CMH) test, stratified for extent of disease (locally advanced cancer versus metastatic cancer).||10.1|1.0|0.038
92422201|NCT02001181|184733148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.8|STANDARD_ERROR_OF_MEAN|8.48|<|0.0001|TWO_SIDED|80.0|-62.8|-40.8|||Mixed Models Analysis|The mixed model for repeated measures analysis included all the participants in FAS.||||-40.8|-62.8|<0.0001
92422202|NCT02436681|184733157|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92422203|NCT02436681|184733159|SUPERIORITY||||||=|0.0468|||||||t-test, 1 sided|||||||= 0.0468
92422204|NCT02436681|184733161|SUPERIORITY||||||=|0.014|||||||t-test, 1 sided|||||||=0.014
92422205|NCT02436681|184733162|SUPERIORITY||||||=|0.018|||||||t-test, 1 sided|||||||= 0.018
92422206|NCT02103218|184733168|SUPERIORITY|||||||0.62|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.62
92170237|NCT04732494|184229471|OTHER||LS Mean Difference|2.3|||||TWO_SIDED|95.0|-6.7|11.2||||||Analysis of Change from Baseline in Reflux at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||11.2|-6.7|
92422207|NCT02103218|184733169|SUPERIORITY|||||||0.15|||||||logistic GEE|||Results from logistic GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares predicted probabilities converted to %, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.15
92422208|NCT02103218|184733170|SUPERIORITY|||||||0.47|||||||logistic GEE|||Results from logistic GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares predicted probabilities converted to %, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.47
92422209|NCT02103218|184733171|SUPERIORITY|||||||0.29|||||||logistic GEE|||Results from logistic GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares predicted probabilities converted to %, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.29
92422210|NCT02103218|184733172|SUPERIORITY||||||<|0.001|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||<0.001
92422211|NCT02103218|184733173|SUPERIORITY|||||||0.02||||||Omnibus overall test for any group x time interaction was p = 0.77.|linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.02
92422212|NCT02103218|184733174|SUPERIORITY|||||||0.67|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.67
92236203|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.92|||||TWO_SIDED|95.0|0.56|1.44||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for All T1 DM."||1.44|0.56|
92394364|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||86.7|-20.0|1.000
92394365|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||70.8|-100.0|1.000
92394366|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||86.7|-20.0|1.000
92394367|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||86.7|-20.0|1.000
92394368|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||70.8|-100.0|1.000
92394369|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||86.7|-20.0|1.000
92394370|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-33.3||||1|TWO_SIDED|95.0|-100.0|42.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||42.1|-100.0|1.000
92394371|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||70.8|-100.0|1.000
92394372|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||86.7|-20.0|1.000
92394373|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-75.4|75.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||75.4|-75.4|1.000
92422213|NCT02103218|184733175|SUPERIORITY|||||||0.45|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.45
92422214|NCT02103218|184733176|SUPERIORITY|||||||0.7|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.70
92422215|NCT02103218|184733177|SUPERIORITY|||||||0.42|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.42
92394374|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||70.8|-100.0|1.000
92394375|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||86.7|-20.0|1.000
92170238|NCT04732494|184229471|OTHER||LS Mean Difference|-1.4|||||TWO_SIDED|95.0|-11.8|9.0||||||Analysis of Change from Baseline in Reflux at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||9.0|-11.8|
92279431|NCT01533428|184462018|SUPERIORITY_OR_OTHER|||||||0.169|TWO_SIDED||||||Cochran-Mantel-Haenszel|Analysis of Cochran-Mantel-Haenszel test model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for counts by category using a Cochran-Mantel-Haenszel test.||||0.169
92394376|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-75.4|75.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||75.4|-75.4|1.000
92394377|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-33.3||||1|TWO_SIDED|95.0|-86.7|20.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||20.0|-86.7|1.000
92394378|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|66.7||||1|TWO_SIDED|95.0|13.3|100.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||100.0|13.3|1.000
92394379|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|6.4||||1|TWO_SIDED|90.0|-31.2|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||44.0|-31.2|1.000
92394380|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-10.3||||0.655|TWO_SIDED|95.0|-48.6|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||28.1|-48.6|0.655
92394381|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|23.1||||0.541|TWO_SIDED|95.0|0.2|46.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||46.0|0.2|0.541
92394382|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-1.3||||1|TWO_SIDED|95.0|-37.0|34.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||34.4|-37.0|1.000
92394383|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-29.1||||0.178|TWO_SIDED|95.0|-67.0|8.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||8.9|-67.0|0.178
92394384|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|15.4||||1|TWO_SIDED|95.0|-4.2|35.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||35.0|-4.2|1.000
92394385|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-10.3||||1|TWO_SIDED|95.0|-54.4|33.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||33.9|-54.4|1.000
92170239|NCT04732494|184229471|OTHER||LS Mean Difference|0.7|||||TWO_SIDED|95.0|-7.0|8.5||||||Analysis of Change from Baseline in Pain at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||8.5|-7.0|
92394386|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-10.3||||0.655|TWO_SIDED|95.0|-48.6|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||28.1|-48.6|0.655
92394387|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-1.9||||1|TWO_SIDED|95.0|-50.1|46.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||46.3|-50.1|1.000
92236204|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.76|||||TWO_SIDED|95.0|0.36|1.4||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for GHD T1DM."||1.40|0.36|
92236205|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|1.5|||||TWO_SIDED|95.0|0.31|4.38||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for TS T1DM."||4.38|0.31|
92394388|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-26.9||||0.32|TWO_SIDED|95.0|-73.0|19.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||19.2|-73.0|0.320
92394389|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-10.3||||0.655|TWO_SIDED|95.0|-48.6|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||28.1|-48.6|0.655
92394390|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-1.9||||1|TWO_SIDED|95.0|-50.1|46.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||46.3|-50.1|1.000
92394391|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|-3.8||||1|TWO_SIDED|95.0|-52.2|44.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||44.5|-52.2|1.000
92394392|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|1.7||||1|TWO_SIDED|95.0|-40.6|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||44.0|-40.6|1.000
92394393|NCT02365649|184687461|SUPERIORITY||Risk Difference (RD)|21.2||||0.603|TWO_SIDED|95.0|-29.2|71.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||71.5|-29.2|0.603
92394394|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|15.4||||0.673|TWO_SIDED|95.0|-25.6|56.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||56.5|-25.6|0.673
92394395|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|19.6||||0.265|TWO_SIDED|95.0|-14.0|53.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||53.3|-14.0|0.265
92394396|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|12.9||||0.695|TWO_SIDED|95.0|-25.6|51.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||51.5|-25.6|0.695
92236206|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|1.42|||||TWO_SIDED|95.0|0.29|4.14||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for ISS T1DM."||4.14|0.29|
92394397|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-20.6||||0.394|TWO_SIDED|95.0|-61.4|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||20.3|-61.4|0.394
92394398|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-3.9||||1|TWO_SIDED|95.0|-36.1|28.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||28.3|-36.1|1.000
92170240|NCT04732494|184229471|OTHER||LS Mean Difference|-5.3|||||TWO_SIDED|95.0|-12.3|1.7||||||Analysis of Change from Baseline in Pain at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||1.7|-12.3|
92394399|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-10.6||||0.683|TWO_SIDED|95.0|-47.9|26.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||26.7|-47.9|0.683
92394400|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|28.7||||0.205|TWO_SIDED|95.0|-4.1|61.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||61.4|-4.1|0.205
92394401|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|14.5||||0.388|TWO_SIDED|95.0|-17.9|46.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||46.9|-17.9|0.388
92394402|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-28.8||||0.236|TWO_SIDED|95.0|-65.6|8.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||8.0|-65.6|0.236
92394403|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-9.6||||1|TWO_SIDED|95.0|-50.6|31.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||31.5|-50.6|1.000
92394404|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|26.3||||0.131|TWO_SIDED|95.0|-6.3|58.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||58.9|-6.3|0.131
92394405|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-7.1||||1|TWO_SIDED|95.0|-45.6|31.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||31.5|-45.6|1.000
92394406|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|21.3||||0.411|TWO_SIDED|95.0|-19.6|62.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||62.2|-19.6|0.411
92422216|NCT02103218|184733178|SUPERIORITY|||||||0.63|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.63
92422217|NCT02103218|184733179|SUPERIORITY|||||||0.05||||||Omnibus overall test for any group x time interaction was p = 0.78.|count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.05
92422218|NCT02103218|184733180|SUPERIORITY|||||||0.5|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.50
92170241|NCT02728557|184229476|OTHER|MLM models||||||0.016|||||||MLM|MLM||A model with two three-way interactions of time by treatment condition by attachment orientation (Time Å\~ Treatment condition Å\~ Attachment anxiety, Time Å\~ Treatment condition Å\~ Attachment avoidance) along the lower-level effects to predict differences in the slope of change in outcome. The threshold for statistical significance was p\>0.05.||||.016
92394407|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|32.2||||0.067|TWO_SIDED|95.0|-0.2|64.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||64.5|-0.2|0.067
92394408|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-1.2||||1|TWO_SIDED|95.0|-39.5|37.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||37.2|-39.5|1.000
92422219|NCT02103218|184733182|SUPERIORITY|||||||0.86|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.86
92422220|NCT02103218|184733183|SUPERIORITY|||||||0.46|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.46
92422221|NCT02103218|184733184|SUPERIORITY|||||||0.7|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.70
92422222|NCT02103218|184733185|SUPERIORITY|||||||0.29|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.29
92422223|NCT02103218|184733186|SUPERIORITY|||||||0.43|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.43
92422224|NCT02520661|184733187|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.62|1.22||||||treatment relevant change in number of ED visits by 14 days||1.22|0.62|
92422225|NCT02520661|184733187|SUPERIORITY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.72|1.3||||||treatment relevant change in number of ED visits by 30 days||1.30|0.72|
92170242|NCT03416010|184229482|OTHER||||||<|0.001|||||||two-way ANOVA|||Null Hypothesis: There was no significant difference in Health Beliefs across those 4 time points.||||<0.001
92170243|NCT03416010|184229482|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference between the full intervention group, COPE-P, and the attention-control group, Preg+, in Health Beliefs, as measured by the Healthy Lifestyle Beliefs measure, at T0 baseline, as well as at time points 1, immediately following the intervention, 2, 6 weeks after the infants' birth, and 3, 6 months after the infants' birth||||<0.001
92279432|NCT01533428|184462019|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.32|TWO_SIDED|95.0|-1.6|5.0|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||The statistical comparison between Baseline and Week 8 was made using two-sided tests at the 5% significance level.||5.0|-1.6|0.320
92422226|NCT02443519|184733199|SUPERIORITY||Slope|1.6||||0.027|TWO_SIDED|95.0|-0.7|3.9||Significance threshold set a priori at .025 to adjust for two co-primary outcomes.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates greater reduction in the proportino of people with Severe MIDAS scores (Score \>=21) in the MBCT-M group vs. the WL/TAU group.|||3.9|-0.7|.027
92422227|NCT02443519|184733200|SUPERIORITY||Slope|14.1|||<|0.004|TWO_SIDED|95.0|0.8|21.8||Significance threshold set a priori at .025 to account for two co-primary outcomes.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|Positive slope indicated larger reductions in HDI in the MBCT-M group compared to the WL/TAU group.|||21.8|0.8|<.004
92422228|NCT02443519|184733201|SUPERIORITY||Slope|-0.05||||0.773|TWO_SIDED|95.0|-3.7|2.8||Threshold for statistical significance set a priori at .05.|Mixed Models Analysis|Key test was the Treatment (MBCT-M vs. WL/TAU) X Time (Month 1 vs. 4) interaction with Treatment and Time in the model|A positive slope indicates greater reduction in headache days in the MBCT-M group vs. the WL/TAU group.|||2.8|-3.7|.773
92422229|NCT02443519|184733202|SUPERIORITY||Slope|0.01||||0.888|TWO_SIDED|95.0|-0.14|0.16||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates a greater reduction in headache attack pain intensity in the MBCT-M group vs. WL/TAU.|||0.16|-0.14|.888
92170244|NCT03416010|184229482|OTHER|||||||0.009|||||||two-way ANOVA|||Null hypothesis: There was no statistically significant interaction between the intervention group and time.||||0.009
92170245|NCT03416010|184229483|OTHER||||||<|0.001||||||Threshold for significance: p \<0.01|two-way ANOVA|||Null hypothesis: there was no significant difference in anxiety across the 4 time points.||||<0.001
92236207|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|7.23||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SHOX-D T1DM."||7.23|0.00|
92236208|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|3.38||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SGA T1DM."||3.38|0.00|
92236209|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio]|2.09|||||TWO_SIDED|95.0|0.43|6.1||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Other T1DM."||6.10|0.43|
92422230|NCT02443519|184733203|SUPERIORITY||Slope|7.45||||0.035|TWO_SIDED|95.0|2.48|12.42|||Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates a greater reduction in Pain Catastrophizing Scale in the MBCT-M group vs. WL/TAU.|||12.42|2.48|.035
92422231|NCT02443519|184733204|SUPERIORITY||Slope|-3.05||||0.572|TWO_SIDED|95.0|-10.83|4.74|||Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A negative slope indicates a greater improvement in Chronic Pain Acceptance in the MBCT-M group vs. WL/TAU.|||4.74|-10.83|.572
92422232|NCT02443519|184733205|SUPERIORITY||Slope|-2.65||||0.609|TWO_SIDED|95.0|-11.76|6.46||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A negative slope indicates a smaller decrease in the Five Factor Mindfulness Questionnaire in the MBCT-M group vs. WL/TAU.|||6.46|-11.76|.609
92422233|NCT02443519|184733206|SUPERIORITY||Slope|8.45||||0.022|TWO_SIDED|95.0|2.99|13.91||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates a greater reduction in Headache Specific Locus of Control Scale score in the MBCT-M group vs. WL/TAU.|||13.91|2.99|.022
92422234|NCT02443519|184733207|SUPERIORITY||Slope|-2.01||||0.124|TWO_SIDED|95.0|-7.56|3.53||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A negative slope indicates a greater improvement in Headache Management Self-Efficacy Scale score in the MBCT-M group vs. WL/TAU.|||3.53|-7.56|.124
92422235|NCT02443519|184733208|SUPERIORITY||Slope|3.48||||0.017|TWO_SIDED|95.0|0.63|6.33||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates a greater reduction in PROMIS-Depression score in the MBCT-M group vs. WL/TAU.|||6.33|0.63|.017
92422236|NCT02443519|184733209|SUPERIORITY||Slope|2.82||||0.259|TWO_SIDED|95.0|-0.03|5.68||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates a greater reduction in PROMIS-Anxiety score in the MBCT-M group vs. WL/TAU.|||5.68|-0.03|.259
92422237|NCT02443519|184733210|SUPERIORITY||Slope|-1.0||||0.007|TWO_SIDED|95.0|-1.6|-0.3|||Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL/TAU) X Time (Month 1 vs. 4) interaction with both Treatment and Time in the model.|A negative slope indicated a larger decrease in MIDI scores in the MBCT-M group vs. WL/TAU|||-0.3|-1.6|.007
92422238|NCT02301988|184733230|SUPERIORITY||Difference in Response Rates|3.77||||0.519||95.0|-8.99|16.54|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified Analysis||16.54|-8.99|0.519
92422239|NCT02301988|184733231|SUPERIORITY||Difference in response rates|3.29||||0.7817|TWO_SIDED|95.0|-25.52|32.1|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified analysis||32.10|-25.52|0.7817
92422240|NCT02301988|184733232|SUPERIORITY||Difference in Response Rates|7.7||||0.2234|TWO_SIDED|95.0|-5.95|21.35|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified analysis||21.35|-5.95|0.2234
92422241|NCT02301988|184733233|SUPERIORITY||Difference in response rates|-2.96||||0.8169|TWO_SIDED|95.0|-33.91|27.99|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified analysis||27.99|-33.91|0.8169
92422242|NCT02301988|184733234|SUPERIORITY||Difference in response rate|11.11||||0.1607||95.0|-5.64|27.85|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified analysis||27.85|-5.64|0.1607
92422243|NCT02301988|184733235|SUPERIORITY||Difference in Response Rates|23.68||||0.1486|TWO_SIDED|95.0|-13.57|60.94|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified Analysis||60.94|-13.57|0.1486
92422244|NCT02301988|184733236|SUPERIORITY||Difference in Response Rates|6.09||||0.498|TWO_SIDED|95.0|-15.01|27.2|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction method.|||27.20|-15.01|0.4980
92422245|NCT02301988|184733237|SUPERIORITY||Difference in Response Rates|9.66||||0.3032||95.0|-12.25|31.58|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction method.|||31.58|-12.25|0.3032
92422246|NCT02301988|184733239|SUPERIORITY||Difference in Response Rates|4.2||||0.628|TWO_SIDED|95.0|-14.37|22.76|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction method.|||22.76|-14.37|0.6280
92422247|NCT02301988|184733240|SUPERIORITY||Difference in Response Rates|8.33||||0.6291|TWO_SIDED|95.0|-33.04|49.71|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction method.|||49.71|-33.04|0.6291
92394409|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|26.6||||0.178|TWO_SIDED|95.0|-8.8|62.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||62.0|-8.8|0.178
92422248|NCT01535664|184733252|SUPERIORITY_OR_OTHER||Difference in least square means|4.04|STANDARD_ERROR_OF_MEAN|1.51||0.015|TWO_SIDED|95.0|0.87|7.2||A step-down procedure using the primary statistical analysis was followed. If the p-value for the overall gait was less than 0.05, then overall balance was tested in the same manner. Otherwise, the testing procedure was stopped.|Mixed Models Analysis|P-value is based on a mixed model ANOVA with a fixed effect for treatment.||The co-primary efficacy variable was overall gait. This novel composite score was created from standardized individual NeuroCom test results (Z-scores). Overall gait was the average of WA, TW, and SQT; a higher score is indicative of better performance.||7.20|0.87|0.015
92394410|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.7||||0.72|TWO_SIDED|95.0|-23.8|12.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||12.3|-23.8|0.720
92394411|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-7.9||||0.683|TWO_SIDED|95.0|-27.2|11.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||11.5|-27.2|0.683
92394412|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|23.0||||0.215|TWO_SIDED|95.0|-12.8|58.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||58.9|-12.8|0.215
92394413|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-12.3||||0.279|TWO_SIDED|95.0|-30.4|5.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||5.8|-30.4|0.279
92394414|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-6.4||||0.716|TWO_SIDED|95.0|-28.2|15.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||15.4|-28.2|0.716
92394415|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-3.2||||1|TWO_SIDED|95.0|-27.5|21.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||21.1|-27.5|1.000
92394416|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-8.2||||0.4|TWO_SIDED|95.0|-23.5|7.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||7.1|-23.5|0.400
92394417|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|0.7||||1|TWO_SIDED|95.0|-19.6|21.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||21.0|-19.6|1.000
92422249|NCT01535664|184733253|SUPERIORITY_OR_OTHER||Difference in least square means|1.7|STANDARD_ERROR_OF_MEAN|0.5||0.003|TWO_SIDED|95.0|0.7|2.8|||Mixed Models Analysis|P-value is based on a mixed model ANOVA with a fixed effect for treatment||||2.8|0.7|0.003
92422250|NCT01535664|184733254|SUPERIORITY_OR_OTHER||Difference in least square means|7.729|STANDARD_ERROR_OF_MEAN|2.495||0.006|TWO_SIDED|95.0|2.507|12.95|||Mixed Models Analysis|P-value is based on a mixed model ANOVA with a fixed effect for treatment||||12.950|2.507|0.006
92422251|NCT01535664|184733255|SUPERIORITY_OR_OTHER||Difference in least square means|0.36|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.19|0.54|||Mixed Models Analysis|P-value is based on a mixed model ANOVA with a fixed effect for treatment||||0.54|0.19|<.001
92394418|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|7.9||||0.62|TWO_SIDED|95.0|-22.2|38.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||38.0|-22.2|0.620
92394419|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-8.2||||0.4|TWO_SIDED|95.0|-23.5|7.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||7.1|-23.5|0.400
92394420|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-4.3||||1|TWO_SIDED|95.0|-22.7|14.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||14.2|-22.7|1.000
92394421|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|4.0||||1|TWO_SIDED|95.0|-18.7|26.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||26.6|-18.7|1.000
92394422|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|5.0||||0.678|TWO_SIDED|95.0|-9.7|19.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||19.6|-9.7|0.678
92394423|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|7.9||||0.636|TWO_SIDED|95.0|-10.5|26.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||26.2|-10.5|0.636
92422252|NCT01535664|184733256|SUPERIORITY_OR_OTHER||Difference in least square means|-2.38|STANDARD_ERROR_OF_MEAN|2.97||0.434|TWO_SIDED|95.0|-8.6|3.84||A step-down procedure using the primary statistical analysis was followed. If the p-value for the overall gait was less than 0.05, then overall balance was tested in the same manner. Otherwise, the testing procedure was stopped.|Mixed Models Analysis|P-value is based on a mixed model ANOVA with a fixed effect for treatment||The co-primary efficacy variable was overall balance. This novel composite score was created from standardized individual NeuroCom test results (Z-scores). Overall balance was a weighted average of SOT, LOS, and ADT.||3.84|-8.60|0.434
92422253|NCT01857583|184733283|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|12.6|||||TWO_SIDED|95.0|-10.0|33.6|||ANCOVA|||||33.6|-10.0|
92422254|NCT01857583|184733283|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|17.3|||||TWO_SIDED|95.0|-10.2|42.1|||ANCOVA|||||42.1|-10.2|
92422255|NCT00859027|184733289|OTHER|||||||0.004|||||||One way ANOVA|||Percent change in femoral neck BMD from baseline||||0.004
92170246|NCT03416010|184229483|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference between the two groups in anxiety at T0 baseline, as well as at timepoint 1(immediately following the intervention), timepoint 2 (6 weeks after the infants' birth), and timepoint 3 (6 months after the infants' birth).||||<0.001
92394424|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|21.4||||0.19|TWO_SIDED|95.0|-9.7|52.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||52.5|-9.7|0.190
92394425|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|9.0||||0.504|TWO_SIDED|95.0|-17.3|35.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||35.3|-17.3|0.504
92394426|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|1.6||||0.916|TWO_SIDED|95.0|-27.8|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||31.0|-27.8|0.916
92422256|NCT00859027|184733289|OTHER|||||||0.001|||||||One way ANOVA|||Percent change in total hip BMD from baseline||||0.001
92422257|NCT00859027|184733289|OTHER|||||||0.04|||||||One way ANOVA|||Percent change in lumbar spine BMD from baseline||||0.04
92422258|NCT00859027|184733289|OTHER||||||<|0.01|||||||ANOVA|||Between group difference of percent change for the femoral neck BMD||||<0.01
92422259|NCT00859027|184733289|OTHER||||||<|0.01|||||||ANOVA|||Between group difference of percent change for total hip BMD||||<0.01
92422260|NCT00859027|184733290|OTHER|||||||0.015|||||||ANOVA|||Between group difference of percent change for NTX||||0.015
92422261|NCT00859027|184733290|OTHER|||||||0.01|||||||ANOVA|||Between group difference of percent change for CTX||||0.01
92422262|NCT02775903|184733298|SUPERIORITY|||||||0.1838|||||||Wald asymptotic two-sided test|||||||0.1838
92422263|NCT02775903|184733299|SUPERIORITY|||||||0.618|||||||Wald asymptotic two-sided test|||||||0.6180
92422264|NCT02775903|184733300|OTHER|P-values were not part of the formal testing.||||||0.7016|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor)||||||0.7016
92422265|NCT02775903|184733301|OTHER|P-values were not part of the formal testing.||||||0.6076|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor).||||||0.6076
92422266|NCT02775903|184733302|OTHER|P-values were not part of the formal testing.||||||0.384|||||||Wald asymptotic two-sided test|||||||0.3840
92422267|NCT02775903|184733303|OTHER|P-values were not part of the formal testing.||||||0.8961|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor).||||||0.8961
92170247|NCT03416010|184229483|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no statistically significant interaction between the intervention group and time.||||<0.001
92170248|NCT03416010|184229484|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference in health behaviors across those 4 time points.||||<0.001
92422268|NCT02775903|184733304|OTHER|P-values were not part of the formal testing.||||||0.3591|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor).||||||0.3591
92422269|NCT02775903|184733305|OTHER|P-values were not part of the formal testing.||||||0.9031|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor).||||||0.9031
92422270|NCT02775903|184733307|OTHER|P-values were not part of the formal testing.||||||0.2409|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very intermediate vs poor).||||||0.2409
92422271|NCT02775903|184733308|OTHER|P-values were not part of the formal testing.||||||0.0688|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (intermediate vs poor).||||||0.0688
92422272|NCT02775903|184733309|OTHER|P-values were not part of the formal testing.||||||0.4894|||||||Wald asymptotic two-sided test|||||||0.4894
92422273|NCT02775903|184733311|OTHER|P-values were not part of the formal testing.||||||0.0381|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (intermediate vs poor).||||||0.0381
92170249|NCT03416010|184229484|OTHER||||||<|0.001|||||||two-way ANOVA|||||||<0.001
92236210|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio]|0.0|||||TWO_SIDED|95.0|0.0|14.84||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Unknown T1DM."||14.84|0.00|
92422274|NCT02775903|184733313|OTHER|P-values were not part of the formal testing.||||||0.8973|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor).||||||0.8973
92422275|NCT02775903|184733313|OTHER|P-values were not part of the formal testing.||||||0.0691|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (intermediate vs poor).||||||0.0691
92170250|NCT03416010|184229484|OTHER||||||<|0.001|||||||two-way ANOVA|||Null Hypothesis: There was no statistically significant interaction between the intervention group and time.||||<0.001
92170251|NCT03416010|184229485|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference in depressive symptoms across those 4 timepoints.||||<0.001
92170252|NCT03416010|184229485|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference between the two groups in depressive symptoms at T0 baseline, as well as at time points 1, immediately following the intervention, 2, 6 weeks after the infants' birth, and 3, 6 months after the infants' birth.||||<0.001
92422276|NCT03552965|184733345|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=1.14, SD=0.378, Range=1, 25th percentile=1, Median=1, 75th percentile=1, n=7 Robust: Mean=1.17, SD=0.577, Range=2, 25th percentile=1, Median=1, 75th percentile=1, n=12"|||
92422277|NCT03552965|184733346|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=2, SD=0.894, Range=2, 25th percentile=1, Median=2, 75th percentile=3, n=6 Robust: Mean=2.91, SD=1.136, Range=3, 25th percentile=2, Median=3, 75th percentile=4, n=11"|||
92422278|NCT03552965|184733347|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=2.5, SD=0.577, Range=1, 25th percentile=2, Median=2.5, 75th percentile=3, n=4 Robust: Mean=2.33, SD=1.225, Range=3, 25th percentile=1, Median=2, 75th percentile=3.5, n=9"|||
92422279|NCT03552965|184733348|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=1.83, SD=0.753, Range=2, 25th percentile=1, Median=2, 75th percentile=2.25, n=6 Robust: Mean=2.33, SD=1, Range=3, 25th percentile=1.5, Median=2, 75th percentile=3, n=9"|||
92236211|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.79|||||TWO_SIDED|95.0|2.24|5.96||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for All T2 DM."||5.96|2.24|
92422280|NCT03552965|184733349|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=2, SD=0.707, Range=2, 25th percentile=1.5, Median=2, 75th percentile=2.5, n=5 Robust: Mean=2.38, SD=1.188, Range=3, 25th percentile=1.25, Median=2, 75th percentile=3.75, n=8"|||
92422281|NCT03552965|184733350|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=15.5, SD=23.76242, Range=75, 25th percentile=0, Median=5, 75th percentile=21.25, n=10 Robust: Mean=14.1346, SD=17.87095, Range=52.5, 25th percentile=0, Median=6.25, 75th percentile=27.5, n=13"|||
92422282|NCT03552965|184733351|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=45.625, SD=30.68744, Range=71.25, 25th percentile=11.25, Median=58.125, 75th percentile=71.25, n=6 Robust: Mean=64.3182, SD=15.0142, Range=48.75, 25th percentile=66.25, Median=70, 75th percentile=71.25, n=11"|||
92236212|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.93|||||TWO_SIDED|95.0|2.03|6.87||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for GHD T2DM."||6.87|2.03|
92422283|NCT03552965|184733352|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=60, SD=23.68412, Range=60, 25th percentile=38.125, Median=68.75, 75th percentile=77.5, n=5 Robust: Mean=54.8611, SD=29.91815, Range=80, 25th percentile=24.375, Median=66.25, 75th percentile=80, n=9"|||
92422284|NCT03552965|184733353|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=31.67, SD=31.38139, Range=85, 25th percentile=5.625, Median=25, 75th percentile=56.875, n=6 Robust: Mean=54.0278, SD=24.57274, Range=67.5, 25th percentile=33.75, Median=62.5, 75th percentile=72.5, n=9"|||
92422285|NCT03552965|184733354|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=50.75, SD=30.29284, Range=72.5, 25th percentile=21.875, Median=48.75, 75th percentile=80.625, n=5 Robust: Mean=38.4375, SD=26.69897, Range=66.25, 25th percentile=15, Median=29.375, 75th percentile=68.75, n=8"|||
92422286|NCT05108922|184733377|SUPERIORITY||Odds Ratio (OR)|29.26|||<|0.001|TWO_SIDED|95.0|5.3|100.0|||Regression, Logistic|||Analysis was based on logistic regression model with treatment, Apolipoprotein (ApoE) ε4 Carrier Status, baseline amyloid Level, baseline age as factors.||100.0|5.30|<0.001
92422287|NCT05108922|184733378|SUPERIORITY||Odds Ratio (OR)|15.18||||0.008|TWO_SIDED|95.0|2.04|100.0|||Regression, Logistic|||Analysis was based on logistic regression model with treatment, ApoE ε4 Carrier Status, baseline amyloid Level, baseline age as factors.||100.0|2.04|0.008
92422288|NCT05108922|184733379|SUPERIORITY||LS Mean difference (Final Values)|-45.691|STANDARD_ERROR_OF_MEAN|4.6132|<|0.001|TWO_SIDED|95.0|-54.84|-36.54||Analysis between treatment group comparison p-value using analysis of covariance (ANCOVA) model for endpoint measures: Change (CHG) = Baseline + ApoE ε4 Carrier Status + Baseline Age + Treatment|ANCOVA|||||-36.54|-54.84|<0.001
92422289|NCT05108922|184733380|SUPERIORITY||LS Mean difference (Final Values)|-48.213|STANDARD_ERROR_OF_MEAN|4.9276|<|0.001|TWO_SIDED|95.0|-57.99|-38.44||Analysis between treatment group comparison p-value using ANCOVA model for endpoint measures: Percent change (PCHG) = Baseline + ApoE ε4 Carrier Status + Baseline Age + Treatment|ANCOVA|||||-38.44|-57.99|<0.001
92170253|NCT03416010|184229485|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no statistically significant interaction between the intervention group and time.||||<0.001
92422290|NCT05108922|184733381|SUPERIORITY||LS Mean difference (Final Values)|-40.252|STANDARD_ERROR_OF_MEAN|10.551|<|0.001|TWO_SIDED|95.0|-61.87|-18.64||Analysis between treatment group comparison p-value using ANCOVA model for endpoint measures: CHG = Baseline + ApoE ε4 Carrier Status + Baseline Age + Treatment|ANCOVA|||||-18.64|-61.87|<0.001
92422291|NCT05108922|184733382|SUPERIORITY||LS Mean difference (Final Values)|-23.97|STANDARD_ERROR_OF_MEAN|4.231|<|0.001|TWO_SIDED|95.0|-32.35|-15.6||Analysis between treatment group comparison p-value using mixed model for repeated measures (MMRM) model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-15.60|-32.35|<0.001
92422292|NCT05108922|184733383|SUPERIORITY||LS Mean difference (Final Values)|-25.82|STANDARD_ERROR_OF_MEAN|4.381|<|0.001|TWO_SIDED|95.0|-34.49|-17.15||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-17.15|-34.49|<0.001
92422293|NCT05108922|184733384|SUPERIORITY||Odds Ratio (OR)|8.38|||<|0.001|TWO_SIDED|95.0|3.37|20.81||Analysis was based on logistic regression model with 1 (Screening) value, ApoE4 Status, Age, Treatment, Time, and Treatment-by-time interaction as factors. Variance-Covariance structure = Unstructured|Regression, Logistic|||||20.81|3.37|<0.001
92236213|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|6.46|||||TWO_SIDED|95.0|1.33|18.89||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for TS T2DM."||18.89|1.33|
92236214|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|7.52||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for ISS T2DM."||7.52|0.00|
92236215|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|31.16||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SHOX-D T2DM."||31.16|0.00|
92394427|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-31.7|31.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||31.7|-31.7|1.000
92394428|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-9.0||||0.504|TWO_SIDED|95.0|-35.3|17.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||17.3|-35.3|0.504
92394429|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-7.1||||0.635|TWO_SIDED|95.0|-36.6|22.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||22.3|-36.6|0.635
92394430|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|10.7||||0.513|TWO_SIDED|95.0|-21.1|42.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||42.5|-21.1|0.513
92394431|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|1.7||||0.898|TWO_SIDED|95.0|-24.7|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||28.1|-24.7|0.898
92394432|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-13.1||||0.379|TWO_SIDED|95.0|-41.7|15.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||15.5|-41.7|0.379
92394433|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-3.6||||0.822|TWO_SIDED|95.0|-34.5|27.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||27.4|-34.5|0.822
92394434|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|8.9||||0.508|TWO_SIDED|95.0|-17.3|35.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||35.0|-17.3|0.508
92422294|NCT05108922|184733385|SUPERIORITY||Odds Ratio (OR)|37.73|||<|0.001|TWO_SIDED|95.0|5.71|99.99||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Regression, Logistic|||||99.99|5.71|<.001
92422295|NCT05108922|184733386|SUPERIORITY||LS Mean difference (Final Values)|-26.75|STANDARD_ERROR_OF_MEAN|6.479|<|0.001|TWO_SIDED|95.0|-39.78|-13.73||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-13.73|-39.78|<0.001
92170254|NCT03416010|184229486|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference in stress across those 4 time points.||||<0.001
92236216|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|7.9|||||TWO_SIDED|95.0|0.96|28.52||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SGA T2DM."||28.52|0.96|
92236217|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.0|||||TWO_SIDED|95.0|0.08|16.7||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Other T2DM."||16.70|0.08|
92236218|NCT01088412|184375973|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|63.97||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Unknown T2DM."||63.97|0.00|
92394435|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-6.0||||0.683|TWO_SIDED|95.0|-34.3|22.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||22.4|-34.3|0.683
92394436|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|14.3||||0.49|TWO_SIDED|95.0|-16.6|45.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||45.1|-16.6|0.490
92236219|NCT01450137|184375979|SUPERIORITY||Risk Difference (RD)|0.45||||0.0301|TWO_SIDED|95.0|0.11|0.79|||Fisher Exact|||||0.79|0.11|0.0301
92236220|NCT01450137|184375980|SUPERIORITY||Risk Difference (RD)|0.65||||0.001|TWO_SIDED|95.0|0.36|0.94|||Fisher Exact|||||0.94|0.36|0.0010
92394437|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|23.3||||0.078|TWO_SIDED|95.0|-1.9|48.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||48.5|-1.9|0.078
92394438|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|10.3||||0.466|TWO_SIDED|95.0|-17.7|38.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||38.4|-17.7|0.466
92236221|NCT01450137|184375981|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||||||0.0005
92394439|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||5.3|-17.1|1.000
92394440|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||0.447|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||5.3|-17.1|0.447
92394441|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||5.3|-17.1|1.000
92394442|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-11.8||||1|TWO_SIDED|95.0|-27.1|3.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||3.6|-27.1|1.000
92394443|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-11.8||||0.193|TWO_SIDED|95.0|-27.1|3.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||3.6|-27.1|0.193
92394444|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-11.8||||0.498|TWO_SIDED|95.0|-27.1|3.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||3.6|-27.1|0.498
92394445|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||5.3|-17.1|1.000
92394446|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||0.447|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||5.3|-17.1|0.447
92394447|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||5.3|-17.1|1.000
92394448|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||5.3|-17.1|1.000
92236222|NCT01450137|184375982|SUPERIORITY||Mean Difference (Final Values)|25.0||||0.0005|TWO_SIDED|95.0|11.0|39.0|||z-test||Difference between restricted mean survival time at 12 months|||39|11|0.0005
92236223|NCT04800315|184376024|SUPERIORITY||Mean Difference (Final Values)|-21.76||||0.003|TWO_SIDED|95.0|-35.81|-7.7|||ANCOVA|||||-7.70|-35.81|0.003
92236224|NCT04800315|184376024|SUPERIORITY||Mean Difference (Final Values)|-13.38||||0.057|TWO_SIDED|95.0|-27.19|0.43|||ANCOVA|||||0.43|-27.19|0.057
92236225|NCT04800315|184376024|SUPERIORITY||Mean Difference (Final Values)|-16.28||||0.029|TWO_SIDED|95.0|-30.88|-1.68|||ANCOVA|||||-1.68|-30.88|0.029
92236226|NCT04800315|184376025|OTHER|Risk Difference|Risk Difference VS Placebo|24.0||||0.004|TWO_SIDED|95.0|8.8|39.2|||Cochran-Mantel-Haenszel|||||39.2|8.8|0.004
92236227|NCT04800315|184376025|OTHER|Risk Difference|Risk Difference VS Placebo|15.3||||0.061|TWO_SIDED|95.0|0.8|29.8|||Cochran-Mantel-Haenszel|||||29.8|0.8|0.061
92236228|NCT04800315|184376025|OTHER|Risk Difference|Risk Difference VS Placebo|28.9|||<|0.001|TWO_SIDED|95.0|13.6|44.2|||Cochran-Mantel-Haenszel|||||44.2|13.6|<0.001
92236229|NCT04800315|184376026|OTHER|Risk Difference|Difference VS Placebo|23.7||||0.018|TWO_SIDED|95.0|6.2|41.2|||Cochran-Mantel-Haenszel|||||41.2|6.2|0.018
92236230|NCT04800315|184376026|OTHER|Risk Difference|Difference VS Placebo|21.8||||0.033|TWO_SIDED|95.0|4.3|39.3|||Cochran-Mantel-Haenszel|||||39.3|4.3|0.033
92394449|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||0.447|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||5.3|-17.1|0.447
92394450|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||5.3|-17.1|1.000
92394451|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||5.3|-17.1|1.000
92394452|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-1.1||||1|TWO_SIDED|95.0|-15.5|13.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||13.3|-15.5|1.000
92394453|NCT02365649|184687462|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||5.3|-17.1|1.000
92394454|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-6.7||||1|TWO_SIDED|95.0|-57.2|43.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||43.9|-57.2|1.000
92394455|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|23.3||||0.323|TWO_SIDED|95.0|-9.2|55.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||55.8|-9.2|0.323
92394456|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|33.3||||0.516|TWO_SIDED|95.0|6.7|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||60.0|6.7|0.516
92394457|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-31.7||||0.191|TWO_SIDED|95.0|-77.4|14.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||14.0|-77.4|0.191
92394458|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-1.7||||1|TWO_SIDED|95.0|-26.0|22.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||22.6|-26.0|1.000
92394459|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-7.3|24.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||24.0|-7.3|1.000
92394460|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|33.3||||0.261|TWO_SIDED|95.0|6.7|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||60.0|6.7|0.261
92394461|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|23.3||||0.323|TWO_SIDED|95.0|-9.2|55.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||55.8|-9.2|0.323
92422296|NCT05108922|184733387|SUPERIORITY||LS Mean difference (Final Values)|-7.931|STANDARD_ERROR_OF_MEAN|4.1187||0.0558|TWO_SIDED|95.0|-16.06|0.199||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||0.199|-16.060|0.0558
92236231|NCT04800315|184376026|OTHER|Risk Difference|Difference VS Placebo|26.7||||0.006|TWO_SIDED|95.0|9.3|44.0|||Cochran-Mantel-Haenszel|||||44.0|9.3|0.006
92236232|NCT04800315|184376027|OTHER|Risk Difference|Risk Difference|18.1|||||TWO_SIDED|95.0|2.3|33.9|||Cochran-Mantel-Haenszel|||||33.9|2.3|
92236233|NCT04800315|184376027|OTHER|Risk Difference|Risk Difference|10.5|||||TWO_SIDED|95.0|-4.6|25.7|||Cochran-Mantel-Haenszel|||||25.7|-4.6|
92422297|NCT05108922|184733388|NON_INFERIORITY|Non-inferiority margin of interest: 5 Centiloids|LS Mean difference (Final Values)|-7.931|STANDARD_ERROR_OF_MEAN|4.1187|||TWO_SIDED|95.0|-16.06|0.199||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||0.199|-16.060|
92422298|NCT05108922|184733389|SUPERIORITY||LS Mean difference (Final Values)|-12.04|STANDARD_ERROR_OF_MEAN|4.12||0.004|TWO_SIDED|95.0|-20.19|-3.88||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-3.88|-20.19|0.004
92422299|NCT05108922|184733390|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92422300|NCT05108922|184733391|SUPERIORITY||LS Mean difference (Final Values)|-13.45|STANDARD_ERROR_OF_MEAN|4.3||0.002|TWO_SIDED|95.0|-21.96|-4.93||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-4.93|-21.96|0.002
92422301|NCT05108922|184733392|SUPERIORITY||Odds Ratio (OR)|4.68|||<|0.001|TWO_SIDED|95.0|1.93|11.34||Analysis was based on logistic regression model with 1 (Screening) value, ApoE4 Status, Age, Treatment, Time, and Treatment-by-time interaction as factors. Variance-Covariance structure = Unstructured.|Regression, Logistic|||||11.34|1.93|<0.001
92236234|NCT04800315|184376027|SUPERIORITY||Risk Difference|15.9|||||TWO_SIDED|95.0|0.4|31.4|||Cochran-Mantel-Haenszel|||||31.4|0.4|
92422302|NCT05108922|184733393|SUPERIORITY||Odds Ratio (OR)|6.34||||0.022|TWO_SIDED|95.0|1.32|30.54||Analysis was based on logistic regression model with 1 (Screening) value, ApoE4 Status, Age, Treatment, Time, and Treatment-by-time interaction as factors. Variance-Covariance structure = Unstructured.|Regression, Logistic|||||30.54|1.32|0.022
92236235|NCT04800315|184376028|SUPERIORITY||Mean Difference (Final Values)|-28.16|||||TWO_SIDED|95.0|-41.89|-14.44|||ANCOVA|||||-14.44|-41.89|
92236236|NCT04800315|184376028|SUPERIORITY||Mean Difference (Final Values)|-14.36|||||TWO_SIDED|95.0|-27.26|-1.46|||ANCOVA|||||-1.46|-27.26|
92236237|NCT04800315|184376028|SUPERIORITY||Mean Difference (Final Values)|-19.07|||||TWO_SIDED|95.0|-33.53|-4.62|||ANCOVA|||||-4.62|-33.53|
92236238|NCT04800315|184376029|OTHER|Adjusted Mean Difference VS Placebo|Adjusted Mean Difference VS Placebo|-22.5|||||TWO_SIDED|95.0|-41.46|-3.54|||ANCOVA|||||-3.54|-41.46|
92236239|NCT04800315|184376029|OTHER|Adjusted Mean Difference VS Placebo|Adjusted Mean Difference VS Placebo|-13.17|||||TWO_SIDED|95.0|-30.67|4.33|||ANCOVA|||||4.33|-30.67|
92422303|NCT05108922|184733394|SUPERIORITY||LS Mean difference (Final Values)|-14.33|STANDARD_ERROR_OF_MEAN|6.333||0.028|TWO_SIDED|95.0|-27.07|-1.59||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-1.59|-27.07|0.028
92422304|NCT05108922|184733395|NON_INFERIORITY|Non-inferiority margin of interest: 5 Centiloids.|LS Mean difference (Final Values)|7.831|STANDARD_ERROR_OF_MEAN|4.087|||TWO_SIDED|95.0|-0.226|15.889||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||15.889|-0.226|
92422305|NCT01854658|184733427|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
92422306|NCT01854658|184733427|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
92422307|NCT01854658|184733427|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
92236240|NCT04800315|184376029|OTHER|Adjusted Mean Difference VS Placebo|Adjusted Mean Difference VS Placebo|-16.32|||||TWO_SIDED|95.0|-36.4|3.75|||ANCOVA|||||3.75|-36.40|
92422308|NCT01854658|184733427|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
92422309|NCT01854658|184733427|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
92422310|NCT01854658|184733427|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
92170255|NCT03416010|184229486|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference between the two groups in stress, as measured by the GAD-7, at T0 baseline, as well as at timepoint 1 (immediately following the intervention), timepoint 2 (6 weeks after the infants' birth) and timepoint 3 (6 months after the infants' birth).||||<0.001
92279433|NCT01533428|184462019|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2||||0.473|TWO_SIDED|95.0|-2.1|4.5|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||The statistical comparison between Baseline and Week 12 was made using two-sided tests at the 5% significance level.||4.5|-2.1|0.473
92422311|NCT02007512|184733453|OTHER||Hazard Ratio (HR)|0.82||||0.3631|TWO_SIDED|95.0|0.535|1.257|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.257|0.535|0.3631
92422312|NCT02007512|184733453|OTHER||Hazard Ratio (HR)|1.022||||0.9212|TWO_SIDED|95.0|0.659|1.586|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.586|0.659|0.9212
92422313|NCT02007512|184733454|OTHER||Hazard Ratio (HR)|0.442||||0.0335|TWO_SIDED|95.0|0.205|0.955|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||0.955|0.205|0.0335
92422314|NCT02007512|184733454|OTHER||Hazard Ratio (HR)|0.554||||0.1936|TWO_SIDED|95.0|0.225|1.363|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.363|0.225|0.1936
92422315|NCT02007512|184733471|OTHER||Hazard Ratio (HR)|0.928||||0.7378|TWO_SIDED|95.0|0.599|1.438|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.438|0.599|0.7378
92422316|NCT02007512|184733471|OTHER||Hazard Ratio (HR)|0.968||||0.8817|TWO_SIDED|95.0|0.632|1.483|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.483|0.632|0.8817
92422317|NCT02007512|184733472|OTHER||Hazard Ratio (HR)|0.522||||0.127|TWO_SIDED|95.0|0.224|1.217|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.217|0.224|0.1270
92170256|NCT03416010|184229486|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no statistically significant interaction between the intervention group and time.||||<0.001
92170257|NCT05136404|184229526|OTHER||Ratio of Geometric Least Squares Mean|1.0|||||TWO_SIDED|90.0|0.937|1.08|||Mixed Models Analysis|||||1.08|0.937|
92422318|NCT02007512|184733472|OTHER||Hazard Ratio (HR)|0.37||||0.0359|TWO_SIDED|95.0|0.143|0.961|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||0.961|0.143|0.0359
92422319|NCT03875768|184733541|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_DEVIATION|1.72||0.89|TWO_SIDED|95.0|-0.44|0.5||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Results presented are unadjusted.||The expected effect size is 0.5. The investigators hypothesize that the intervention will lead to an increase in average DASH score of 2 units. The investigators used a standard deviation for 2 units for both intervention and attention control groups since higher variability may be observed with a bigger sample size than the pilot study.||0.50|-0.44|0.89
92422320|NCT03875768|184733542|SUPERIORITY||Mean Difference (Net)|-1.9|STANDARD_DEVIATION|13.0||0.26|TWO_SIDED|95.0|-5.3|1.4||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Results presented are unadjusted.||The expected effect size for change in systolic blood pressure (SBP) between intervention and control group is 0.6 based on the pilot study. With a 90% power and a type I error rate (alpha) of .01, the investigators can detect the expected effect size with the proposed sample size of 121 per study arm.||1.4|-5.3|0.26
92422321|NCT03875768|184733543|SUPERIORITY||Mean Difference (Net)|-0.9|STANDARD_DEVIATION|8.3||0.39|TWO_SIDED|95.0|-3.1|1.2||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Results presented are unadjusted.||The expected effect size for change in diastolic blood pressure (DBP) between intervention and control group is 0.75 based on the pilot study. With a 90% power and a type I error rate (alpha) of .01, the investigators can detect the expected effect size with the proposed sample size of 121 per study arm.||1.2|-3.1|0.39
92422322|NCT01925274|184733546|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.71||||0.164|TWO_SIDED|95.0|-83.4|12.0|||Chi-squared|||||12.0|-83.4|0.164
92422323|NCT05402020|184733610|OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.87|1.15|||||Ratio calculated as \[Tio/Olo\]/\[ICS/LABA\]|Univariate proportional hazards regression was used to compare the time to event (first moderate or severe COPD exacerbations) between the two treatment groups. In the event that there were baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) were included in a multiple regression model in addition to the exposure status (Tio/Olo or ICS/LABA).||1.15|0.87|
92422324|NCT05402020|184733611|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.53|0.85|||||Ratio calculated as \[Tio/Olo\]/\[ICS/LABA\]|Univariate proportional hazards regression was used to compare the time to event (triple therapy escalation) between the two treatment groups. In the event that there were baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) were included in a multiple regression model in addition to the exposure status (Tio/Olo or ICS/LABA).||0.85|0.53|
92279434|NCT01533428|184462019|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.514|TWO_SIDED|95.0|-4.4|2.2|||ANCOVA|||The statistical comparison between Baseline and Week 2 was made using two-sided tests at the 5% significance level.||2.2|-4.4|0.514
92394462|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-41.8|58.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||58.5|-41.8|1.000
92394463|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-26.7||||0.593|TWO_SIDED|95.0|-77.2|23.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||23.9|-77.2|0.593
92394464|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|23.3||||0.323|TWO_SIDED|95.0|-9.2|55.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||55.8|-9.2|0.323
92394465|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-41.8|58.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||58.5|-41.8|1.000
92422325|NCT05402020|184733612|OTHER||Incidence difference|-37.9|||||TWO_SIDED|95.0|-60.1|-15.8|||||Incidence difference calculated as \[incidence rate of Tio/Olo\]-\[incidence rate of ICS/LABA\].|The rate ratio of Tio+Olo - exposed group relative to LABA/ICS group, along with 95% CIs were derived using a univariate negative binomial model. In the event that there are baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) will be included in a multiple regression model in addition to the exposure status (Tio/Olo or LABA/ICS).||-15.8|-60.1|
92422326|NCT05402020|184733612|OTHER||Incidence Rate Ratio|0.66|||||TWO_SIDED|95.0|0.51|0.85|||||Ratio calculated as \[incidence rate of Tio/Olo\]/\[incidence rate of ICS/LABA\].|The rate ratio of Tio+Olo - exposed group relative to LABA/ICS group, along with 95% CIs were derived using a univariate negative binomial model. In the event that there are baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) will be included in a multiple regression model in addition to the exposure status (Tio/Olo or LABA/ICS).||0.85|0.51|
92422327|NCT05402020|184733613|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.36|1.93|||||Ratio calculated as \[Tio/Olo\]/\[ICS/LABA\]|Univariate proportional hazards regression was used to compare the time to event (first hospitalization for community-acquired pneumonia after initiation of study drug) between the two treatment groups. In the event that there were baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) were included in a multiple regression model in addition to the exposure status (Tio/Olo or ICS/LABA).||1.93|0.36|
92422328|NCT05402020|184733614|OTHER||Annualized rate ratio|0.92|||||TWO_SIDED|95.0|0.81|1.03|||||Annualized rate ratio calculated as \[annualized rate of Tio/Olo\]/\[annualized rate of ICS/LABA\].|The rate ratio of Tio+Olo - exposed group relative to LABA/ICS group, along with 95% CIs were derived using a univariate negative binomial model. In the event that there are baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) will be included in a multiple regression model in addition to the exposure status (Tio/Olo or LABA/ICS).||1.03|0.81|
92422329|NCT05402020|184733615|OTHER||Annualized rate ratio|1.01|||||TWO_SIDED|95.0|0.87|1.18|||||Annualized rate ratio calculated as \[annualized rate of Tio/Olo\]/\[annualized rate of ICS/LABA\].|The rate ratio of Tio+Olo - exposed group relative to LABA/ICS group, along with 95% CIs were derived using a univariate negative binomial model. In the event that there are baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) will be included in a multiple regression model in addition to the exposure status (Tio/Olo or LABA/ICS).||1.18|0.87|
92422330|NCT03180684|184733687|SUPERIORITY|||||||0.0071|||||||Clopper Pearson|A 1-sided p-value was calculated to prove superiority over historical control of 2%. Superiority of VGX-3100 alone was declared if p-value is \<0.025.||||||0.0071
92422331|NCT03180684|184733687|SUPERIORITY|||||||0.0004|||||||Clopper Pearson|1-sided p-value was calculated to prove superiority over historical control of 2%.Superiority of VGX-3100+imiquimod was declared if p-value is \<0.025.||||||0.0004
92422332|NCT01460368|184733733|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.63|||||TWO_SIDED|90.0|-1.38|2.63|||||Treatment comparison at 2 hours.|||2.63|-1.38|
92422333|NCT01460368|184733733|SUPERIORITY_OR_OTHER||Least Squares Means Difference|3.69|||||TWO_SIDED|90.0|1.67|5.71|||||Treatment comparison at 4 hours.|||5.71|1.67|
92422334|NCT01460368|184733733|SUPERIORITY_OR_OTHER||Least Squares Means Difference|9.14|||||TWO_SIDED|90.0|7.12|11.16|||||Treatment comparison at 6 hours.|||11.16|7.12|
92422335|NCT01460368|184733733|SUPERIORITY_OR_OTHER||Least Squares Means Difference|9.08|||||TWO_SIDED|90.0|7.1|11.07|||||Treatment comparison at 8 hours.|||11.07|7.10|
92422336|NCT01460368|184733733|SUPERIORITY_OR_OTHER||Least Squares Means Difference|-0.15|||||TWO_SIDED|90.0|-2.14|1.85|||||Treatment comparison at 12 hours.|||1.85|-2.14|
92422337|NCT01460368|184733733|SUPERIORITY_OR_OTHER||Least Squares Means Difference|3.63|||||TWO_SIDED|90.0|1.63|5.63|||||Treatment comparison at 24 hours.|||5.63|1.63|
92422338|NCT01460368|184733734|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|8.07|||||TWO_SIDED|90.0|5.21|10.94|||||Treatment comparison at 2 hours.|||10.94|5.21|
92422339|NCT01460368|184733734|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|10.56|||||TWO_SIDED|90.0|7.69|13.43|||||Treatment comparison at 4 hours.|||13.43|7.69|
92422340|NCT02047227|184733735|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.235||||0.054|TWO_SIDED|95.0|-0.4741|0.003|||Poisson Regression Model|||||0.003|-0.4741|0.054
92422341|NCT01385371|184733746|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.98|||<|0.001||95.0|-1.2|-0.4|||Wilcoxon Rank Sum Test|||||-0.4|-1.2|<0.001
92394466|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|21.7||||0.6|TWO_SIDED|95.0|-23.1|66.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||66.5|-23.1|0.600
92394467|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|31.7||||0.162|TWO_SIDED|95.0|-1.9|65.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||65.2|-1.9|0.162
92394468|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|16.7||||1|TWO_SIDED|95.0|-34.1|67.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||67.4|-34.1|1.000
92394469|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|13.3||||1|TWO_SIDED|95.0|-50.5|77.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||77.2|-50.5|1.000
92394470|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||70.8|-100.0|1.000
92394471|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||86.7|-20.0|1.000
92394472|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-40.0||||0.464|TWO_SIDED|95.0|-82.9|2.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||2.9|-82.9|0.464
92394473|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-50.0||||0.4|TWO_SIDED|95.0|-100.0|19.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||19.3|-100.0|0.400
92394474|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-46.7||||0.464|TWO_SIDED|95.0|-100.0|17.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||17.2|-100.0|0.464
92394475|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||70.8|-100.0|1.000
92394476|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||86.7|-20.0|1.000
92422342|NCT01385371|184733747|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.64||||0.001|TWO_SIDED|95.0|-0.7|-0.2|||Wilcoxon Rank Sum Test|||||-0.2|-0.7|0.001
92422343|NCT01385371|184733748|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.33|||<|0.001|TWO_SIDED|95.0|-1.4|-0.5|||Wilcoxon Rank Sum Test|||||-0.5|-1.4|<0.001
92422344|NCT01385371|184733749|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.13||||0.027||95.0|-0.2|0.0|||Wilcoxon Rank Sum Test|||||0.0|-0.2|0.027
92422345|NCT01385371|184733750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.0003|TWO_SIDED|95.0|-0.73|-0.22||A zero-inflated log-normal mixed distribution model was used with treatment, baseline asthma status, age category (\<18 or \>=18 years) and pollen region as covariates.|Zero-Inflated Log-Normal Model|||||-0.22|-0.73|0.0003
92170258|NCT05136404|184229526|OTHER||Ratio of Geometric Least Squares Mean|1.04|||||TWO_SIDED|90.0|0.968|1.11|||Mixed Models Analysis|||||1.11|0.968|
92422346|NCT01385371|184733751|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.69|||<|0.001|TWO_SIDED|95.0|-0.9|-0.2|||Wilcoxon Rank Sum Test|||||-0.2|-0.9|<0.001
92422347|NCT01385371|184733752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.0001|TWO_SIDED|95.0|-0.94|-0.31||A zero-inflated log-normal mixed distribution model was used with treatment, baseline asthma status, age category (\<18 or \>=18 years) and pollen region as covariates.|Zero-Inflated Log-Normal Model|||||-0.31|-0.94|0.0001
92170259|NCT05136404|184229527|OTHER||Ratio of Geometric Least Squares Mean|0.989|||||TWO_SIDED|90.0|0.953|1.03|||Mixed Models Analysis|||||1.03|0.953|
92170260|NCT05136404|184229527|OTHER||Ratio of Geometric Least Squares Mean|1.02|||||TWO_SIDED|90.0|0.982|1.06|||Mixed Models Analysis|||||1.06|0.982|
92170261|NCT05136404|184229528|OTHER||Ratio of Geometric Least Squares Mean|1.01|||||TWO_SIDED|90.0|0.972|1.06|||Mixed Models Analysis|||||1.06|0.972|
92170262|NCT05136404|184229528|OTHER||Ratio of Geometric Least Squares Mean|1.03|||||TWO_SIDED|90.0|0.992|1.08|||Mixed Models Analysis|||||1.08|0.992|
92170263|NCT05136404|184229529|SUPERIORITY||Median Difference (Final Values)|0.0||||0.4728|TWO_SIDED|90.0|-0.5|0.0|||Sign test|||||0.00|-0.50|0.4728
92170264|NCT05136404|184229529|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0142|TWO_SIDED|90.0|-0.5|0.0|||Sign test|||||0.00|-0.50|0.0142
92236241|NCT04800315|184376030|OTHER|Risk Difference VS Placebo|Risk Difference VS Placebo|18.5||||0.042|TWO_SIDED|95.0|2.7|34.3|||Cochran-Mantel-Haenszel|||||34.3|2.7|0.042
92236242|NCT04800315|184376030|OTHER|Risk Difference VS Placebo|Risk Difference VS Placebo|19.9||||0.029|TWO_SIDED|95.0|4.1|35.7|||Cochran-Mantel-Haenszel|||||35.7|4.1|0.029
92236243|NCT04800315|184376030|OTHER|Risk Difference VS Placebo|Risk Difference VS Placebo|18.0||||0.052|TWO_SIDED|95.0|2.3|33.6|||Cochran-Mantel-Haenszel|||||33.6|2.3|0.052
92236244|NCT04800315|184376032|OTHER|Adjusted mean difference VS Placebo|Adjusted mean difference VS Placebo|-23.12|||||TWO_SIDED|95.0|-41.48|-4.76|||ANCOVA|||||-4.76|-41.48|
92422348|NCT01385371|184733753|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.15||||0.644|TWO_SIDED|95.0|-0.4|0.6|||Wilcoxon Rank Sum Test|||||0.6|-0.4|0.644
92422349|NCT03635788|184733772|SUPERIORITY|The study had approximately 80% power to show superiority of the LA ART compared to daily SOC with respect to the Step 2, week 48, cumulative probability of regimen failure|Cumulative probability difference|-18.4|||||TWO_SIDED|98.4|-32.4|-4.3|||||Treatment difference was calculated as LA-ART minus SOC. 98.4% is nominal confidence interval.|Treatment comparison was conducted by cumulative probability of regimen failure in Step 2 up to Step 2 Week 48 visit by treatment arm. The treatment difference was assessed using the 95% repeated confidence interval adjusted for interim efficacy analyses, i.e., a nominal 98.4% confidence interval.||-4.3|-32.4|
92422350|NCT03635788|184733773|SUPERIORITY|The study had at least 80% power to show superiority of the LA ART compared to daily SOC with respect to the Step 2, week 48, cumulative probability of virologic failure|cumulative probability difference|-21.4|||||TWO_SIDED|98.4|-33.5|-9.3|||||Treatment difference was calculated as LA-ART minus SOC.98.4% is nominal confidence interval.|Treatment comparison was conducted by cumulative probability of virologic failure in Step 2 up to Step 2 Week 48 visit by treatment arm. The treatment difference was assessed using the 95% repeated confidence interval adjusted for interim efficacy analyses, i.e., a nominal 98.4% confidence interval.||-9.3|-33.5|
92422351|NCT03635788|184733774|SUPERIORITY||cumulative probability diffeence|-19.2|||||TWO_SIDED|98.4|-31.6|-6.9||||||Treatment comparison was conducted by cumulative probability of treatment-related failure in Step 2 up to Step 2 Week 48 visit by treatment arm. The treatment difference was assessed using the 95% repeated confidence interval adjusted for interim efficacy analyses, i.e., a nominal 98.4% confidence interval.|Treatment difference was calculated as LA-ART minus SOC.98.4% is nominal confidence interval.|-6.9|-31.6|
92422352|NCT03635788|184733775|SUPERIORITY|The proportions of participants with HIV-1 RNA ≥ 50 copies/ml was compared by Fisher's Exact Test.|Mean Difference (Final Values)|-21.8|||<|0.001|TWO_SIDED|95.0|-35.6|-8.1|||Fisher Exact||||Treatment difference in the proportions of participants with HIV-1 RNA ≥ 50 copies/ml was calculated as LA-ART minus SOC.|-8.1|-35.6|<0.001
92422353|NCT03635788|184733776|SUPERIORITY||Mean Difference (Final Values)|-24.5|||<|0.001|TWO_SIDED|95.0|-36.1|-12.8|||Fisher Exact||Difference in the proportions of participants with HIV-1 RNA ≥ 200 copies was calculated as LA-ART minus SOC.|The proportions of participants with HIV-1 RNA ≥ 200 copies/ml was compared by Fisher's Exact Test.||-12.8|-36.1|<0.001
92422354|NCT03635788|184733781|SUPERIORITY||Cumulative probability difference|-8.4|||||TWO_SIDED|98.4|-21.3|4.5|||||Treatment difference in cumulative of permanent treatment discontinuation was calculated as LA-ART minus SOC.98.4% is nominal confidence interval.|Treatment comparison was conducted by cumulative probability of permanent treatment discontinuation in Step 2 up to Step 2 Week 48 visit by treatment arm. The treatment difference was assessed using the 95% repeated confidence interval adjusted for interim efficacy analyses, i.e., a nominal 98.4% confidence interval.||4.5|-21.3|
92422355|NCT05595382|184733792|SUPERIORITY|Repeated measures of likelihood to enroll (on a 1 to 7 scale with higher numbers indicating a greater likelihood) pre/post intervention||||||0.001|||||||ANOVA|Degrees of freedom (1, 359)||||||.001
92422356|NCT05595382|184733793|SUPERIORITY|||||||0.357|||||||ANOVA|Degrees of freedom (1, 358)||Repeated measures ANOVA comparing mood (rated on a 1-10 scale with higher scores indicating better mood) given to participants before and after the study manipulation by group||||.357
92422357|NCT05595382|184733794|SUPERIORITY|||||||0.102|||||||ANOVA|||||||.102
92422358|NCT03722173|184733795|OTHER|Since the main focus was on estimation and not testing, a formal hypothesis test and associated acceptance range was not specified; no hypothesis was tested.|gMeans ratio (T/R) %|141.62|STANDARD_ERROR_OF_MEAN|13.3|||TWO_SIDED|90.0|129.64|154.71|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects for 'subjects' and 'treatment' was used.|Standard error of the mean is actually an intra-individual coefficient variation (CV). Confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t distribution.|Point estimates for the ratios of the geometric means (gMeans) (T/R) for AUC0-tz and their 2-sided 90% confidence intervals (CIs) were provided. The difference between the expected means for log(T) - log(R) were estimated by the difference in the corresponding adjusted means (Least Squares Means).||154.71|129.64|
92236245|NCT04800315|184376032|OTHER|Adjusted mean difference VS Placebo|Adjusted mean difference VS Placebo|-8.28|||||TWO_SIDED|95.0|-25.16|8.59|||ANCOVA|||||8.59|-25.16|
92422359|NCT03722173|184733796|OTHER|Since the main focus was on estimation and not testing, a formal hypothesis test and associated acceptance range was not specified; no hypothesis was tested.|gMeans ratio (T/R) %|113.32|STANDARD_ERROR_OF_MEAN|15.1|||TWO_SIDED|90.0|102.47|125.32|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects for 'subjects' and 'treatment' was used.|Standard error of the mean is actually an intra-individual coefficient variation (CV). Confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t distribution.|Point estimates for the ratios of the gMeans (T/R) for Cmax and their 2-sided 90% CIs were provided. The difference between the expected means for log(T) - log(R) were estimated by the difference in the corresponding adjusted means (Least Squares Means).||125.32|102.47|
92422360|NCT03722173|184733797|OTHER|Since the main focus was on estimation and not testing, a formal hypothesis test and associated acceptance range was not specified; no hypothesis was tested.|gMeans ratio (T/R) %|142.54|STANDARD_ERROR_OF_MEAN|13.5|||TWO_SIDED|90.0|130.3|155.93|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects for 'subjects' and 'treatment' was used.|Standard error of the mean is actually an intra-individual coefficient variation (CV). Confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t distribution.|Point estimates for the ratios of the gMeans (T/R) for AUC0-∞ and their 2-sided 90% CIs were provided. The difference between the expected means for log(T) - log(R) were estimated by the difference in the corresponding adjusted means (Least Squares Means).||155.93|130.30|
92422361|NCT04571515|184733798|SUPERIORITY||Mean Difference (Final Values)|28.3|STANDARD_ERROR_OF_MEAN|9.25||0.003|TWO_SIDED|95.0|9.9|46.6|||Emax|||||46.6|9.9|0.003
92170265|NCT05568004|184229530|SUPERIORITY|||||||0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.Two-tailed testing was used in nature of hypothesis testing.|ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.|||Statistical analysis was conducted by a researcher using the Statistical Package for Social Sciences (SPSS) version 26.0. The Shapiro-Wilk test and histograms evaluated the data for normal distribution, and the Levene test confirmed homogeneous variances between groups (p \> 0.05). Continuous data following a normal distribution are presented as mean ± standard deviation (SD). The independent samples t test or Mann-Whitney U test was used to compare independent continuous data between groups, while the chi-square or Fisher's exact test was used to compare categorical data. Friedman two-way ANOVA was used to analyze dependent variables, while the two-way mixed ANOVA was used to examine the changes between groups over time. Before the two-way mixed ANOVA, boxplot evaluation confirmed no outliers. Mauchly's sphericity test showed that the assumption of sphericity for two-way interaction was met. Tukey's correction was used for pairwise subgroup comparisons.|||0.001
92394477|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-26.7||||1|TWO_SIDED|95.0|-95.1|41.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||41.8|-95.1|1.000
92394478|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||70.8|-100.0|1.000
92394479|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||86.7|-20.0|1.000
92394480|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-77.2|50.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||50.5|-77.2|1.000
92422362|NCT04571515|184733798|SUPERIORITY||Mean Difference (Final Values)|29.6|STANDARD_ERROR_OF_MEAN|7.94|<|0.001|TWO_SIDED|95.0|13.8|45.3|||Emax|||||45.3|13.8|<0.001
92422363|NCT04571515|184733798|SUPERIORITY||Mean Difference (Final Values)|30.3|STANDARD_ERROR_OF_MEAN|8.04|<|0.001|TWO_SIDED|95.0|14.4|46.2|||Emax|||||46.2|14.4|<0.001
92422364|NCT04571515|184733798|SUPERIORITY||Mean Difference (Final Values)|31.1|STANDARD_ERROR_OF_MEAN|8.87|<|0.001|TWO_SIDED|95.0|13.5|48.6|||Emax|||||48.6|13.5|<0.001
92422365|NCT04571515|184733799|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-1.4|1.1||||||||1.1|-1.4|
92422366|NCT04571515|184733799|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-1.5|0.9||||||||0.9|-1.5|
92236246|NCT04800315|184376032|OTHER|Adjusted mean difference VS Placebo|Adjusted mean difference VS Placebo|-10.87|||||TWO_SIDED|95.0|-29.39|7.66|||ANCOVA|||||7.66|-29.39|
92394481|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|16.7||||1|TWO_SIDED|95.0|-70.8|100.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||100.0|-70.8|1.000
92394482|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|66.7||||1|TWO_SIDED|95.0|13.3|100.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||100.0|13.3|1.000
92422367|NCT04571515|184733799|OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.8|0.6||||||||0.6|-1.8|
92422368|NCT04571515|184733799|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.1|1.3||||||||1.3|-1.1|
92422369|NCT04571515|184733800|SUPERIORITY||Mean Difference (Final Values)|15.2|STANDARD_ERROR_OF_MEAN|3.99|<|0.001|TWO_SIDED|95.0|7.3|23.1|||Emax|||||23.1|7.3|<0.001
92422370|NCT04571515|184733800|SUPERIORITY||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|3.43|<|0.001|TWO_SIDED|95.0|9.3|22.9|||Emax|||||22.9|9.3|<0.001
92422371|NCT04571515|184733800|SUPERIORITY||Mean Difference (Final Values)|16.5|STANDARD_ERROR_OF_MEAN|3.47|<|0.001|TWO_SIDED|95.0|9.7|23.4|||Emax|||||23.4|9.7|<0.001
92422372|NCT04571515|184733800|SUPERIORITY||Mean Difference (Final Values)|17.1|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|9.4|24.7|||Emax|||||24.7|9.4|<0.001
92422373|NCT04571515|184733801|SUPERIORITY|||||||0.208|||||||Log Rank|||Time to Perceptible Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.208
92422374|NCT04571515|184733801|SUPERIORITY|||||||0.005|||||||Log Rank|||Time to Perceptible Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.005
92422375|NCT04571515|184733801|SUPERIORITY|||||||0.192|||||||Log Rank|||Time to Perceptible Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.192
92422376|NCT04571515|184733801|SUPERIORITY|||||||0.067|||||||Log Rank|||Time to Perceptible Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.067
92422377|NCT04571515|184733801|SUPERIORITY|||||||0.059|||||||Log Rank|||Time to Meaningful Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.059
92422378|NCT04571515|184733801|SUPERIORITY||||||<|0.001|||||||Log Rank|||Time to Meaningful Pain Relief Subjects are censored at 24 hours if they do not report relief.||||<0.001
92394483|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|3.3||||1|TWO_SIDED|95.0|-33.8|40.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||40.4|-33.8|1.000
92394484|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|16.7||||0.408|TWO_SIDED|95.0|-15.2|48.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||48.5|-15.2|0.408
92394485|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|33.3||||0.266|TWO_SIDED|95.0|9.5|57.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||57.2|9.5|0.266
92394486|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-33.3||||0.121|TWO_SIDED|95.0|-66.2|-0.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||-0.5|-66.2|0.121
92394487|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-10.0||||-10|TWO_SIDED|95.0|-34.6|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||14.6|-34.6|-10.0
92394488|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|6.7||||1|TWO_SIDED|95.0|-6.0|19.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||19.3|-6.0|1.000
92394489|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-6.7||||1|TWO_SIDED|95.0|-45.3|31.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||31.9|-45.3|1.000
92394490|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|16.7||||0.408|TWO_SIDED|95.0|-15.2|48.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||48.5|-15.2|0.408
92422379|NCT04571515|184733801|SUPERIORITY|||||||0.017|||||||Log Rank|||Time to Meaningful Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.017
92394491|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|13.3||||1|TWO_SIDED|95.0|-29.1|55.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||55.7|-29.1|1.000
92422380|NCT04571515|184733801|SUPERIORITY|||||||0.002|||||||Log Rank|||Time to Meaningful Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.002
92394492|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-26.7||||0.241|TWO_SIDED|95.0|-65.3|11.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||11.9|-65.3|0.241
92394493|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|16.7||||0.408|TWO_SIDED|95.0|-15.2|48.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||48.5|-15.2|0.408
92422381|NCT04571515|184733802|SUPERIORITY|||||||0.051|||||||Regression, Logistic|||||||0.051
92422382|NCT04571515|184733802|SUPERIORITY|||||||0.035|||||||Regression, Logistic|||||||0.035
92422383|NCT04571515|184733802|SUPERIORITY|||||||0.016|||||||Regression, Logistic|||||||0.016
92422384|NCT04571515|184733802|SUPERIORITY|||||||0.18|||||||Regression, Logistic|||||||0.180
92422385|NCT04571515|184733803|SUPERIORITY|||||||0.022|||||||Wilcoxon Rank Sum|||||||0.022
92422386|NCT04571515|184733803|SUPERIORITY|||||||0.028|||||||Wilcoxon Rank Sum|||||||0.028
92422387|NCT04571515|184733803|SUPERIORITY|||||||0.007|||||||Wilcoxon Rank Sum|||||||0.007
92422388|NCT04571515|184733803|SUPERIORITY|||||||0.005|||||||Wilcoxon Rank Sum|||||||0.005
92422389|NCT06624449|184733807|SUPERIORITY||Mean Difference (Final Values)|0.09|||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.05
92422390|NCT05098938|184733809|SUPERIORITY|||||||0.716|||||||Log Rank|||||||0.716
92422391|NCT05098938|184733810|SUPERIORITY|||||||0.102|||||||Chi-squared|||||||0.102
92422392|NCT05098938|184733811|SUPERIORITY|||||||0.712|||||||Chi-squared|||||||0.712
92422393|NCT05098938|184733812|SUPERIORITY|||||||0.575|||||||Log Rank|||||||0.575
92422394|NCT00942448|184733815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.2|||<|0.001|||||||ANCOVA|||"The sample size calculation was based on a hypothesis of superiority of diclofenac HPBCD s.c. 25mg/ml and 50 mg/ml compared to Placebo with regard to the primary efficacy variable (PID at 1.5 hours following drug administration).~A sample size of 60 in each group had 95% power to detect a difference between diclofenac HPBCD s.c. 25 mg/ml and placebo in means of 15 mm, assuming that the common standard deviation was 22.5 and using a two group t-test with a 0.05 two-sided significance level."||||< 0.001
92394494|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|13.3||||1|TWO_SIDED|95.0|-29.1|55.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||55.7|-29.1|1.000
92394495|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|-3.3||||1|TWO_SIDED|95.0|-43.3|36.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||36.6|-43.3|1.000
92394496|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|30.0||||0.217|TWO_SIDED|95.0|-2.9|62.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||62.9|-2.9|0.217
92394497|NCT02365649|184687463|SUPERIORITY||Risk Difference (RD)|26.7||||0.603|TWO_SIDED|95.0|-16.5|69.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||69.9|-16.5|0.603
92394498|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|12.5||||0.686|TWO_SIDED|95.0|-27.6|52.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||52.6|-27.6|0.686
92394499|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|18.8||||0.257|TWO_SIDED|95.0|-12.8|50.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||50.3|-12.8|0.257
92394500|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|-10.0||||0.709|TWO_SIDED|95.0|-47.4|27.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||27.4|-47.4|0.709
92394501|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|3.7||||1|TWO_SIDED|95.0|-16.6|24.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||24.1|-16.6|1.000
92422395|NCT00942448|184733815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.1||||0.001|TWO_SIDED|95.0|18.4|31.7|||ANCOVA|||||31.7|18.4|0.001
92422396|NCT00942448|184733828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.2|||<|0.001|TWO_SIDED|95.0|17.6|30.8|||ANCOVA|||"The sample size calculation was based on a hypothesis of superiority of diclofenac HPBCD s.c. 25mg/ml and 50 mg/ml compared to Placebo with regard to the primary efficacy variable (PID at 1.5 hours following drug administration).~A sample size of 60 in each group had 95% power to detect a difference between diclofenac HPBCD s.c. 25 mg/ml and placebo in means of 15 mm, assuming that the common standard deviation was 22.5 and using a two group t-test with a 0.05 two-sided significance level."||30.8|17.6|< 0.001
92422397|NCT00942448|184733828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.1|||<|0.001|TWO_SIDED|95.0|18.4|31.7|||ANCOVA|||"The sample size calculation was based on a hypothesis of superiority of diclofenac HPBCD s.c. 25mg/ml and 50 mg/ml compared to Placebo with regard to the primary efficacy variable (PID at 1.5 hours following drug administration).~A sample size of 60 in each group had 95% power to detect a difference between diclofenac HPBCD s.c. 25 mg/ml and placebo in means of 15 mm, assuming that the common standard deviation was 22.5 and using a two group t-test with a 0.05 two-sided significance level."||31.7|18.4|<0.001
92422398|NCT01859143|184733856|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified equivalence criterion for fever within 7 days of vaccination mentioned that the upper limit of 95 percent (%) confidence interval (CI) for difference in percentage of participants with fever \>=101 degrees F should be less than 5 percentage points.|Percent difference|0.4|||||TWO_SIDED|95.0|-5.3|2.6|||||A two-sided 95% CI was constructed using the exact method based on the score statistic proposed by Chan and Zhang.|||2.6|-5.3|
92422399|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|11.9|||||TWO_SIDED|95.0|-1.9|23.9|||||Any symptom within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||23.9|-1.9|
92422400|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|0.8|||||TWO_SIDED|95.0|-4.9|3.3|||||Fever \>100 degrees F within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||3.3|-4.9|
92422401|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-6.1|1.8|||||Fever \>102 degrees F within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||1.8|-6.1|
92422402|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-6.1|1.8|||||Fever \>103 degrees F within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||1.8|-6.1|
92170266|NCT05568004|184229530|SUPERIORITY|||||||0.001|||||||ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.||A p-value of \< 0.05 was considered statistically significant for all analyses.Two-tailed testing was used in nature of hypothesis testing.||||0.001
92170267|NCT05568004|184229530|SUPERIORITY|||||||0.166||||||A p-value of \< 0.05 was considered statistically significant for all analyses.Two-tailed testing was used in nature of hypothesis testing.|ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.||||||0.166
92170268|NCT05568004|184229531|SUPERIORITY|||||||0.074||||||A p-value of \< 0.05 was considered statistically significant for all analyses.Two-tailed testing was used in nature of hypothesis testing.|ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||0.074
92394502|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|8.5||||0.428|TWO_SIDED|95.0|-6.1|23.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||23.0|-6.1|0.428
92394503|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|6.8||||0.639|TWO_SIDED|95.0|-9.3|22.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||22.9|-9.3|0.639
92394504|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|8.5||||0.583|TWO_SIDED|95.0|-22.2|39.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||39.2|-22.2|0.583
92394505|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|17.3||||0.171|TWO_SIDED|95.0|-7.2|41.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||41.9|-7.2|0.171
92394506|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|2.5||||0.859|TWO_SIDED|95.0|-24.8|29.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||29.7|-24.8|0.859
92394507|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
92394508|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|-0.2||||1|TWO_SIDED|95.0|-13.4|13.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||13.0|-13.4|1.000
92394509|NCT02365649|184687464|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
92394510|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|2.5||||1|TWO_SIDED|95.0|-23.9|28.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||28.9|-23.9|1.000
92394511|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|21.3||||0.204|TWO_SIDED|95.0|-5.0|47.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||47.5|-5.0|0.204
92394512|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|-10.0||||0.54|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||3.1|-23.1|0.540
92394513|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|-6.3||||1|TWO_SIDED|95.0|-14.6|2.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||2.1|-14.6|1.000
92394514|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|2.6||||1|TWO_SIDED|95.0|-10.1|15.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||15.3|-10.1|1.000
92422403|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|8.9|||||TWO_SIDED|95.0|-2.6|17.7|||||Runny nose within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||17.7|-2.6|
92422404|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|6.2|||||TWO_SIDED|95.0|-2.2|11.6|||||Sore throat within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||11.6|-2.2|
92236247|NCT01438710|184376069|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED|95.0|||||t-test, 2 sided|||The mean change (i.e., absolute change) from baseline (Day 7, pre-conversion) on FTM overall score to Day 14 (post-conversion) was evaluated using paired t-test (at 0.05 significance level, two sided). An estimation of mean change from baseline and the corresponding 95% confidence interval (CI) were provided.||||0.0048
92279435|NCT01533428|184462020|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.719|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 2 was completed using ANCOVA model.||0.7|-0.5|0.719
92394515|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|2.4||||1|TWO_SIDED|95.0|-11.8|16.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||16.7|-11.8|1.000
92422405|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|-0.5|||||TWO_SIDED|95.0|-9.3|4.7|||||Cough within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||4.7|-9.3|
92422406|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-6.1|1.8|||||Vomiting within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||1.8|-6.1|
92422407|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|-0.1|||||TWO_SIDED|95.0|-8.0|4.3|||||Muscle aches within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||4.3|-8.0|
92422408|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|1.7|||||TWO_SIDED|95.0|-4.1|4.4|||||Chills within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||4.4|-4.1|
92422409|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|3.2|||||TWO_SIDED|95.0|-6.5|9.8|||||Decreased activity (tiredness) within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||9.8|-6.5|
92422410|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|3.5|||||TWO_SIDED|95.0|-7.8|11.9|||||Headache within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||11.9|-7.8|
92422411|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|12.3|||||TWO_SIDED|95.0|-1.6|24.4|||||Any symptom within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||24.4|-1.6|
92422412|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|1.2|||||TWO_SIDED|95.0|-4.5|3.9|||||Fever \>100 degrees F within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||3.9|-4.5|
92422413|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|0.8|||||TWO_SIDED|95.0|-4.9|3.3|||||Fever \>=101 degrees F within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||3.3|-4.9|
92422414|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-6.1|1.8|||||Fever \>102 degrees F within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||1.8|-6.1|
92422415|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-6.1|1.8|||||Fever \>103 degrees F within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||1.8|-6.1|
92422416|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|9.7|||||TWO_SIDED|95.0|-1.8|18.6|||||Runny nose within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||18.6|-1.8|
92422417|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|4.4|||||TWO_SIDED|95.0|-5.3|11.2|||||Sore throat within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||11.2|-5.3|
92422418|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|0.3|||||TWO_SIDED|95.0|-8.6|5.7|||||Cough within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||5.7|-8.6|
92422419|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|0.4|||||TWO_SIDED|95.0|-5.3|2.6|||||Vomiting within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||2.6|-5.3|
92422420|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|0.3|||||TWO_SIDED|95.0|-7.8|4.8|||||Muscle aches within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||4.8|-7.8|
92279436|NCT01533428|184462020|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.334|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 8 was completed using ANCOVA model.||0.3|-0.8|0.334
92422421|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|2.5|||||TWO_SIDED|95.0|-3.3|5.5|||||Chills within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||5.5|-3.3|
92422422|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|4.4|||||TWO_SIDED|95.0|-5.3|11.2|||||Decreased activity (tiredness) within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||11.2|-5.3|
92422423|NCT01859143|184733857|SUPERIORITY_OR_OTHER||Percent difference|3.0|||||TWO_SIDED|95.0|-8.7|12.0|||||Headache within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||12.0|-8.7|
92422424|NCT00760214|184733861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.41|||<|0.001|TWO_SIDED|95.0|-11.04|-5.78||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-5.78|-11.04|<.001
92236248|NCT02773758|184376090|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.509|-1.071|||ANCOVA|From ANCOVA model with change from baseline in Schiff Sensitivity Score as response and treatment and baseline Schiff sensitivity score as covariates.|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|||-1.071|-1.509|<0.0001
92422425|NCT00760214|184733861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.03|||<|0.001|TWO_SIDED|95.0|-11.66|-6.39||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-6.39|-11.66|<.001
92422426|NCT00760214|184733862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.31|||<|0.001|TWO_SIDED|95.0|-6.85|-3.78||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-3.78|-6.85|<.001
92422427|NCT00760214|184733862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.66|||<|0.001|TWO_SIDED|95.0|-7.21|-4.12||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-4.12|-7.21|<.001
92422428|NCT00760214|184733863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.82|||<|0.001|TWO_SIDED|95.0|-7.64|-2.01||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-2.01|-7.64|<.001
92422429|NCT00760214|184733863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.47||||0.002|TWO_SIDED|95.0|-7.27|-1.66||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.66|-7.27|0.002
92422430|NCT00760214|184733864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.77||||0.003|TWO_SIDED|95.0|-4.61|-0.94||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.94|-4.61|0.003
92422431|NCT00760214|184733864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.06||||0.001|TWO_SIDED|95.0|-4.89|-1.24||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.24|-4.89|0.001
92422432|NCT00760214|184733865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.77||||0.017|TWO_SIDED|95.0|-6.87|-0.68||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.68|-6.87|0.017
92422433|NCT00760214|184733865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.43||||0.029|TWO_SIDED|95.0|-6.5|-0.36||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.36|-6.50|0.029
92422434|NCT00760214|184733866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06||||0.052|TWO_SIDED|95.0|-4.15|0.02||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||0.02|-4.15|0.052
92236249|NCT03069690|184376150|SUPERIORITY||Mean Difference (Net)|-0.3996|STANDARD_ERROR_OF_MEAN|2.665||0.8|TWO_SIDED|95.0|-5.649|4.85||The value was not adjusted for multiple comparisons.|ANCOVA|||||4.850|-5.649|.80
92422435|NCT00760214|184733866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.42||||0.022|TWO_SIDED|95.0|-4.49|-0.35||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.35|-4.49|0.022
92422436|NCT00760214|184733867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.53||||0.003|TWO_SIDED|95.0|-7.46|-1.59||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.59|-7.46|0.003
92422437|NCT00760214|184733867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.26||||0.004|TWO_SIDED|95.0|-7.18|-1.35||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.35|-7.18|0.004
92422438|NCT00760214|184733868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.64||||0.008|TWO_SIDED|95.0|-4.6|-0.68||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.68|-4.60|0.008
92422439|NCT00760214|184733868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.98||||0.003|TWO_SIDED|95.0|-4.93|-1.04||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.04|-4.93|0.003
92422440|NCT00760214|184733869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.95|||<|0.001|TWO_SIDED|95.0|-9.12|-2.77||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-2.77|-9.12|<.001
92236250|NCT03069690|184376150|SUPERIORITY||Mean Difference (Net)|-3.387|STANDARD_ERROR_OF_MEAN|2.755||0.8|TWO_SIDED|95.0|-8.813|2.039||The value was not adjusted for multiple comparisons.|ANCOVA|||||2.039|-8.813|.80
92422441|NCT00760214|184733869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.82|||<|0.001|TWO_SIDED|95.0|-8.96|-2.67||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-2.67|-8.96|<.001
92422442|NCT00760214|184733870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.01||||0.006|TWO_SIDED|95.0|-5.15|-0.88||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.88|-5.15|0.006
92236251|NCT03069690|184376150|SUPERIORITY||Mean Difference (Net)|-1.1729|STANDARD_ERROR_OF_MEAN|2.72||0.8|TWO_SIDED|95.0|-6.53|4.184||The value was not adjusted for multiple comparisons.|ANCOVA|||||4.184|-6.530|.80
92236252|NCT00641147|184376166|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
92236253|NCT00641147|184376166|SUPERIORITY|||||||0.57|||||||ANCOVA|||||||0.57
92422443|NCT00760214|184733870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.77|||<|0.001|TWO_SIDED|95.0|-5.89|-1.65||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.65|-5.89|<.001
92394516|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|0.9||||1|TWO_SIDED|95.0|-15.0|16.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||16.8|-15.0|1.000
92422444|NCT00760214|184733871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.87|||<|0.001|TWO_SIDED|95.0|-12.15|-5.6||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-5.60|-12.15|<.001
92236254|NCT00641147|184376167|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||0.76
92422445|NCT00760214|184733871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2|||<|0.001|TWO_SIDED|95.0|-11.46|-4.95||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-4.95|-11.46|<.001
92422446|NCT00760214|184733872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.68|||<|0.001|TWO_SIDED|95.0|-8.19|-3.17||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-3.17|-8.19|<.001
92422447|NCT00760214|184733872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.32|||<|0.001|TWO_SIDED|95.0|-7.81|-2.82||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-2.82|-7.81|<.001
92394517|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|14.4||||0.135|TWO_SIDED|95.0|-2.5|31.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||31.4|-2.5|0.135
92394518|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|4.3||||0.623|TWO_SIDED|95.0|-11.9|20.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||20.4|-11.9|0.623
92394519|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||3.1|-23.1|1.000
92394520|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|-0.5||||1|TWO_SIDED|95.0|-18.7|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||17.7|-18.7|1.000
92394521|NCT02365649|184687465|SUPERIORITY||Risk Difference (RD)|-10.0||||0.501|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||3.1|-23.1|0.501
92394522|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|2.5||||1|TWO_SIDED|95.0|-23.9|28.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||28.9|-23.9|1.000
92394523|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|21.3||||0.204|TWO_SIDED|95.0|-5.0|47.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||47.5|-5.0|0.204
92422448|NCT00700570|184733875|SUPERIORITY_OR_OTHER|||||||0.1341|TWO_SIDED||||||Log Rank|||||||0.1341
92422449|NCT00700570|184733877|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Fisher Exact|||||||0.0010
92422450|NCT05896748|184733946|OTHER||Ratio of geometric least square mean|0.948|||||TWO_SIDED|90.0|0.901|0.998|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within CAB||0.998|0.901|
92236255|NCT00641147|184376168|SUPERIORITY|||||||0.85|||||||Chi-squared|||||||0.85
92236256|NCT00641147|184376169|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
92236257|NCT00641147|184376170|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
92394524|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|-10.0||||0.54|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||3.1|-23.1|0.540
92422451|NCT05896748|184733946|OTHER||Ratio of geometric least square mean|0.935|||||TWO_SIDED|90.0|0.877|0.995|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within CAB||0.995|0.877|
92422452|NCT05896748|184733946|OTHER||Ratio of geometric least square mean|0.934|||||TWO_SIDED|90.0|0.872|1.0|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within CAB||1.000|0.872|
92422453|NCT05896748|184733946|OTHER||Ratio of geometric least square mean|0.999|||||TWO_SIDED|90.0|0.943|1.059|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for Ctau within CAB||1.059|0.943|
92236258|NCT00641147|184376171|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||||||0.63
92236259|NCT00641147|184376172|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
92422454|NCT05896748|184733947|OTHER||Ratio of geometric least square mean|1.002|||||TWO_SIDED|90.0|0.952|1.056|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within RPV||1.056|0.952|
92422455|NCT05896748|184733947|OTHER||Ratio of geometric least square mean|0.961|||||TWO_SIDED|90.0|0.921|1.002|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within RPV||1.002|0.921|
92422456|NCT05896748|184733947|OTHER||Ratio of geometric least square mean|0.928|||||TWO_SIDED|90.0|0.885|0.973|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within RPV||0.973|0.885|
92422457|NCT05896748|184733947|OTHER||Ratio of geometric least square mean|1.003|||||TWO_SIDED|90.0|0.955|1.053|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for Ctau within RPV||1.053|0.955|
92422458|NCT05896748|184733948|OTHER||Ratio of geometric least square mean|0.942|||||TWO_SIDED|90.0|0.897|0.99|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within CAB||0.990|0.897|
92422459|NCT05896748|184733948|OTHER||Ratio of geometric least square mean|0.911|||||TWO_SIDED|90.0|0.86|0.965|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within CAB||0.965|0.860|
92422460|NCT05896748|184733948|OTHER||Ratio of geometric least square mean|0.91|||||TWO_SIDED|90.0|0.857|0.966|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within CAB||0.966|0.857|
92422461|NCT05896748|184733948|OTHER||Ratio of geometric least square mean|1.003|||||TWO_SIDED|90.0|0.938|1.074|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for Cmax within CAB||1.074|0.938|
92422462|NCT05896748|184733949|OTHER||Ratio of geometric least square mean|0.938|||||TWO_SIDED|90.0|0.895|0.982|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within RPV||0.982|0.895|
92236260|NCT00641147|184376173|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||||||0.63
92422463|NCT05896748|184733949|OTHER||Ratio of geometric least square mean|0.918|||||TWO_SIDED|90.0|0.876|0.963|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within RPV||0.963|0.876|
92422464|NCT05896748|184733949|OTHER||Ratio of geometric least square mean|0.905|||||TWO_SIDED|90.0|0.861|0.952|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within RPV||0.952|0.861|
92422465|NCT05896748|184733949|OTHER||Ratio of geometric least square mean|0.937|||||TWO_SIDED|90.0|0.891|0.986|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for Cmax within RPV||0.986|0.891|
92422466|NCT05896748|184733950|OTHER||Ratio of geometric least square mean|0.944|||||TWO_SIDED|90.0|0.906|0.983|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within CAB||0.983|0.906|
92422467|NCT05896748|184733950|OTHER||Ratio of geometric least square mean|0.944|||||TWO_SIDED|90.0|0.895|0.995|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within CAB||0.995|0.895|
92422468|NCT05896748|184733950|OTHER||Ratio of geometric least square mean|0.933|||||TWO_SIDED|90.0|0.876|0.994|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within CAB||0.994|0.876|
92422469|NCT05896748|184733950|OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|0.979|1.105|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for AUC\[0-tau\] within CAB||1.105|0.979|
92422470|NCT05896748|184733951|OTHER||Ratio of geometric least square mean|0.966|||||TWO_SIDED|90.0|0.932|1.002|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within RPV||1.002|0.932|
92422471|NCT05896748|184733951|OTHER||Ratio of geometric least square mean|0.955|||||TWO_SIDED|90.0|0.922|0.989|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within RPV||0.989|0.922|
92422472|NCT05896748|184733951|OTHER||Ratio of geometric least square mean|0.948|||||TWO_SIDED|90.0|0.907|0.991|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within RPV||0.991|0.907|
92422473|NCT05896748|184733951|OTHER||Ratio of geometric least square mean|1.014|||||TWO_SIDED|90.0|0.972|1.058|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for AUC\[0-tau\] within RPV||1.058|0.972|
92236261|NCT00641147|184376174|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||0.93
92236262|NCT00641147|184376175|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
92236263|NCT00641147|184376176|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
92236264|NCT00641147|184376177|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92236265|NCT00641147|184376181|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
92236266|NCT01629667|184376187|SUPERIORITY_OR_OTHER||Least square mean difference|-1.77||||0.14|TWO_SIDED|95.0|-4.13|0.59|||ANCOVA|||||0.59|-4.13|0.140
92236267|NCT01629667|184376187|SUPERIORITY_OR_OTHER||Least square mean difference|-1.41||||0.234|TWO_SIDED|95.0|-3.73|0.91|||ANCOVA|||||0.91|-3.73|0.234
92422474|NCT06138145|184733996|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92422475|NCT06138145|184733996|OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mann-Whitney U test|||||||<0.05
92422476|NCT06138145|184733996|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92422477|NCT00857415|184734004|SUPERIORITY_OR_OTHER||Correlation coefficient|0.78|STANDARD_ERROR_OF_MEAN|0.194|<|0.0001|TWO_SIDED|95.0|0.58|0.89||A one-sided test (rho \> 0) was performed with a significance level of alpha=0.05 to assess a significant correlation.|Spearman's Rank Correlation test||Asymptotic standard error and 95 percent CI used Fisher z-transformation.|Spearman's Rank Order Correlation of the median semiquantitative read (three readers) and the quantitative IHC measurement of cortical amyloid plaque density averaged across six brain regions.||0.89|0.58|<0.0001
92422478|NCT00857415|184734005|SUPERIORITY_OR_OTHER||Specificity|100.0|||||TWO_SIDED|95.0|91.0|100.0|||||95% CI calculated by Wilson score method|Proportion of subjects who had a negative scan based on majority of 3 blinded readers||100|91|
92422479|NCT03614975|184734048|OTHER|||||||0.28||||||A/H1N1|Chi-squared|||||||0.28
92422480|NCT03614975|184734048|OTHER|||||||0.64||||||A/H3N2|Chi-squared|||||||0.64
92422481|NCT03614975|184734048|OTHER|||||||0.64||||||B/Colorado|Chi-squared|||||||0.64
92422482|NCT03614975|184734048|OTHER|||||||0.23||||||B/Phuket|Chi-squared|||||||0.23
92236268|NCT00201201|184376216|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic (1,161)=4.44,p=0.035).||Repeated measures linear-mixed model ANOVA methodology was employed as each participant was measured on 4 visits and the 4 repeated measures are likely dependent. We used study group (intervention vs. control) and visit as categorical variables and controlled for gender, age, APRN, income, education, computer use. Non-parametric tests (Cochran-Mantel-Haenszel statistic), based on rank scores, controlling for participant code were used for the transformed behavior risk scores within groups.||||0.035
92236269|NCT00201201|184376217|SUPERIORITY_OR_OTHER|||||||0.0204||95.0|||||ANOVA|||Repeated measures linear-mixed model ANOVA methodology was employed as each participant was measured on 4 visits and the 4 repeated measures are likely dependent. We used study group (intervention vs. control) and visit as categorical variables and controlled for gender, age, APRN, income, education, computer use.||||.0204
92394525|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|-3.1||||1|TWO_SIDED|95.0|-9.2|2.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||2.9|-9.2|1.000
92394526|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|5.7||||0.614|TWO_SIDED|95.0|-5.6|17.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||17.0|-5.6|0.614
92394527|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|1.2||||1|TWO_SIDED|95.0|-9.1|11.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||11.5|-9.1|1.000
92394528|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|0.9||||1|TWO_SIDED|95.0|-15.0|16.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||16.8|-15.0|1.000
92394529|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|14.4||||0.135|TWO_SIDED|95.0|-2.5|31.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||31.4|-2.5|0.135
92394530|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|-1.0||||1|TWO_SIDED|95.0|-14.1|12.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||12.1|-14.1|1.000
92394531|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
92394532|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|4.5||||1|TWO_SIDED|95.0|-11.3|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||20.3|-11.3|1.000
92394533|NCT02365649|184687466|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
92394534|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|15.0||||0.669|TWO_SIDED|95.0|-21.9|51.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||51.9|-21.9|0.669
92394535|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|15.0||||0.343|TWO_SIDED|95.0|-15.2|45.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||45.2|-15.2|0.343
92236270|NCT00201201|184376218|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANOVA|||Repeated measures linear-mixed model ANOVA methodology was employed as each participant was measured on 4 visits and the 4 repeated measures are likely dependent. We used study group (intervention vs. control) and visit as categorical variables and controlled for gender, age, APRN, income, education, computer use.||||.0001
92394536|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|-20.0||||0.442|TWO_SIDED|95.0|-57.2|17.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||17.2|-57.2|0.442
92394537|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|4.4||||1|TWO_SIDED|95.0|-23.4|32.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||32.2|-23.4|1.000
92422483|NCT03614975|184734049|OTHER|||||||0.42||||||Vaccine Strain: A/H1N1:Day 0|Chi-squared|||||||0.42
92236271|NCT00201201|184376219|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANOVA|||Repeated measures linear-mixed model ANOVA methodology was employed as each participant was measured on 4 visits and the 4 repeated measures are likely dependent. We used study group (intervention vs. control) and visit as categorical variables and controlled for gender, age, APRN, income, education, computer use.||||0.0001
92422484|NCT03614975|184734049|OTHER|||||||0.16||||||Vaccine Strain: A/H1N1: Day 21|Chi-squared|||||||0.16
92422485|NCT03614975|184734049|OTHER|||||||0.42||||||Vaccine Strain: A/H3N2: Day 0|Chi-squared|||||||0.42
92422486|NCT03614975|184734049|OTHER|||||||0.94||||||Vaccine Strain: A/H3N2: Day 21|Chi-squared|||||||0.94
92422487|NCT03614975|184734049|OTHER|||||||0.87||||||Vaccine Strain: B/Colorado :Day 0|Chi-squared|||||||0.87
92422488|NCT03614975|184734049|OTHER|||||||0.77||||||Vaccine Strain: B/Colorado : Day 21|Chi-squared|||||||0.77
92422489|NCT03614975|184734049|OTHER|||||||0.33||||||Vaccine Strain: B/Phuket: Day 0|Chi-squared|||||||0.33
92422490|NCT03614975|184734049|OTHER|||||||0.21||||||Vaccine Strain: B/Phuket: Day 21|Chi-squared|||||||0.21
92422491|NCT03614975|184734050|OTHER|||||||0.49||||||Vaccine Strain: A/H1N1: Day 0|Kruskal-Wallis|||||||0.49
92422492|NCT03614975|184734050|OTHER|||||||0.23||||||Vaccine Strain: A/H1N1: Day 21|Kruskal-Wallis|||||||0.23
92236272|NCT00201201|184376220|SUPERIORITY_OR_OTHER|||||||0.0431||95.0|||||t-test, 2 sided|||||||0.0431
92422493|NCT03614975|184734050|OTHER|||||||0.1||||||Vaccine Strain: A/H3N2: Day 0|Kruskal-Wallis|||||||0.10
92422494|NCT03614975|184734050|OTHER|||||||0.86||||||Vaccine Strain: A/H3N2: Day 21|Kruskal-Wallis|||||||0.86
92422495|NCT03614975|184734050|OTHER|||||||0.73||||||Vaccine Strain: B/Colorado: Day 0|Kruskal-Wallis|||||||0.73
92422496|NCT03614975|184734050|OTHER|||||||0.67||||||Vaccine Strain: B/Colorado: Day 21|Kruskal-Wallis|||||||0.67
92422497|NCT03614975|184734050|OTHER|||||||0.36||||||Vaccine Strain: B/Phuket: Day 0|Kruskal-Wallis|||||||0.36
92422498|NCT03614975|184734050|OTHER|||||||0.65||||||Vaccine Strain: B/Phuket: Day 21|Kruskal-Wallis|||||||0.65
92422499|NCT01390220|184734051|SUPERIORITY|||||||0.0109|||||||Fisher Exact|2-sided||||||0.0109
92422500|NCT01390220|184734052|SUPERIORITY|||||||0.0043|||||||Fisher Exact|2-sided||||||0.0043
92422501|NCT01390220|184734053|SUPERIORITY|||||||0.0124|||||||Log Rank|||||||0.0124
92422502|NCT01390220|184734054|SUPERIORITY|||||||0.0124|||||||Log Rank|||Kaplan-Meier estimates.||||0.0124
92236273|NCT00201201|184376221|SUPERIORITY_OR_OTHER||||||<|0.1||95.0|||||t-test, 2 sided|||Analyzed at 0 and 12 weeks.||||<.10
92236274|NCT04382651|184376288|SUPERIORITY||Mean Difference (Final Values)|0.98|STANDARD_ERROR_OF_MEAN|2.225||0.33|TWO_SIDED|90.0|-2.7|4.7||1-Sided|ANCOVA|||||4.7|-2.7|0.33
92422503|NCT00943124|184734055|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|1.14||||||90.0|1.09|1.2||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||1.20|1.09|
92422504|NCT00943124|184734056|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|1.11||||||90.0|1.05|1.16||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||1.16|1.05|
92422505|NCT00943124|184734057|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|0.97||||||90.0|0.93|1.0||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||1.00|0.93|
92422506|NCT00943124|184734058|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|0.92||||||90.0|0.87|0.97||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||0.97|0.87|
92422507|NCT00943124|184734059|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|1.02||||||90.0|0.99|1.04||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||1.04|0.99|
92422508|NCT00943124|184734060|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|1.08||||||90.0|1.02|1.14||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||1.14|1.02|
92422509|NCT00943124|184734061|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|0.77||||||90.0|0.72|0.82||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||0.82|0.72|
92170269|NCT05568004|184229531|SUPERIORITY|A p-value of \< 0.05 was considered statistically significant for all analyses.Two-tailed testing was used in nature of hypothesis testing.||||||0.074|||||||ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.||||||0.074
92422510|NCT00943124|184734062|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|0.92||||||90.0|0.89|0.94||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||0.94|0.89|
92422511|NCT02992132|184734064|SUPERIORITY||Difference in LSM|5.1|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-4.8|15.0||||||Mixed-effect model repeated measures (MMRM), with the dependent variable being the change from Baseline in CMAI total score.||15.0|-4.8|
92422512|NCT02992132|184734064|SUPERIORITY||Difference in LSM|1.0|STANDARD_ERROR_OF_MEAN|4.8|||TWO_SIDED|95.0|-8.5|10.5||||||Mixed-effect model repeated measures (MMRM), with the dependent variable being the change from Baseline in CMAI total score.||10.5|-8.5|
92422513|NCT02448810|184734066|OTHER||Hazard Ratio (HR)|0.8||||0.246|TWO_SIDED|70.0|0.5|1.1||P-value is based on a one-sided log-rank test.|Log Rank||||Hazard Ratio and 70% CI are based on a Cox proportional hazards model with a covariate for treatment (imalumab vs SoC).|1.1|0.5|0.246
92422514|NCT02448810|184734066|OTHER||Hazard Ratio (HR)|0.8||||0.354|TWO_SIDED|70.0|0.5|1.4||P-value is based on a one-sided log-rank test.|Log Rank||||Hazard Ratio and 70% CI are based on a Cox proportional hazards model with a covariate for treatment (imalumab vs SoC).|1.4|0.5|0.354
92422515|NCT00136604|184734074|NON_INFERIORITY|Criterion for non-inferiority evaluation: The lower limit (LL) of the standardized asymptotic 95% confidence interval (CI) on the difference in the percentage of subjects with SBA-MenC titre ≥ 1:128 between the Tritanrix-Hepb/Hib-MenAC-TT Group and (minus) the TRITANRIX-HEPB+Mencevax + Meningitec control group was above -10%.|Difference in percentage of subjects|0.0|||||TWO_SIDED|95.0|-1.53|3.05||||||Demonstration of non-inferiority of a fourth dose of the Tritanrix-HepB/Hib-MenAC-TT vaccine versus a fourth dose of the Tritanrix-HepB/Hiberix and Meningitec vaccine given concomitantly in terms of the percentage of subjects with an SBA-MenC titre ≥ 1:128.||3.05|-1.53|
92422516|NCT00136604|184734076|NON_INFERIORITY|Criterion for non-inferiority evaluation: The lower limit (LL) of the standardized asymptotic 95% CI on the difference in seroprotection (anti-PRP concentration ≥ 1.0 µg/mL) between the Tritanrix-Hepb/Hib-MenAC-TT Group and (minus) the Tritanrix-Hepb/Mencevax+Tritanrix-HepB/Hiberix Group was above -10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.53|3.05||||||Demonstration of non-inferiority of the Tritanrix-HepB/Hib-MenAC-TT vaccine versus the Tritanrix-HepB/Hiberix vaccine when used as a booster vaccine in Tritanrix-HepB/Hib-MenAC-TT primed subjects in terms of the percentage of subjects with an anti-PRP concentration ≥ 1.0 µg/mL.||3.05|-1.53|
92422517|NCT04795622|184734099|SUPERIORITY||Odds Ratio (OR)|1.3545|||||TWO_SIDED|95.0|0.753|2.4365||||||||2.4365|0.7530|
92422518|NCT04795622|184734100|SUPERIORITY||Point Estimate|-0.0856|||||TWO_SIDED|95.0|-0.2395|0.0683||||||X-axis||0.0683|-0.2395|
92422519|NCT04795622|184734100|SUPERIORITY||Point Estimate|-0.033|||||TWO_SIDED|95.0|-0.2268|0.1608||||||Y-axis||0.1608|-0.2268|
92422520|NCT04795622|184734100|SUPERIORITY||Point Estimate|0.1791|||||TWO_SIDED|95.0|-0.1551|0.5133||||||Z-axis||0.5133|-0.1551|
92422521|NCT03963401|184734113|SUPERIORITY||Mean Difference (Final Values)|21.23|STANDARD_ERROR_OF_MEAN|10.51||0.1172|TWO_SIDED|90.0|3.94|38.52|||Normal approximation, Dunnett's method|||||38.52|3.94|0.1172
92422522|NCT03963401|184734113|SUPERIORITY||Median Difference (Final Values)|23.38|STANDARD_ERROR_OF_MEAN|8.58||0.0197|TWO_SIDED|90.0|9.26|37.5|||Normal approximation, Dunnett's Method|||||37.50|9.26|0.0197
92422523|NCT03963401|184734113|SUPERIORITY||Median Difference (Final Values)|31.29|STANDARD_ERROR_OF_MEAN|8.29||0.0006|TWO_SIDED|90.0|17.65|44.93|||Normal approximation, Dunnett's Method|||||44.93|17.65|0.0006
92422524|NCT03963401|184734114|SUPERIORITY||Mean Difference (Final Values)|20.95|STANDARD_ERROR_OF_MEAN|11.09||0.0588|TWO_SIDED|90.0|2.72|39.19|||Normal approximation method|||||39.19|2.72|0.0588
92170270|NCT05568004|184229531|SUPERIORITY|||||||0.311||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.||||||0.311
92236275|NCT01753518|184376297|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.053
92236276|NCT01753518|184376298|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Chi-squared|||||||0.73
92236277|NCT01753518|184376299|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Fisher Exact|||Comparison for staple expulsion or suture trimming||||0.25
92422525|NCT03963401|184734114|SUPERIORITY||Median Difference (Final Values)|26.31|STANDARD_ERROR_OF_MEAN|8.87||0.003|TWO_SIDED|90.0|11.72|40.9|||Normal approximation method|||||40.90|11.72|0.0030
92422526|NCT03963401|184734114|SUPERIORITY||Median Difference (Final Values)|31.21|STANDARD_ERROR_OF_MEAN|8.68||0.0003|TWO_SIDED|90.0|16.93|45.5|||Normal approximation method|||||45.50|16.93|0.0003
92236278|NCT01753518|184376299|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Fisher Exact|||Comparison for Surgical Site Infection||||0.06
92394538|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|5.0||||0.601|TWO_SIDED|95.0|-13.6|23.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||23.5|-13.6|0.601
92394539|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|1.8||||1|TWO_SIDED|95.0|-18.2|21.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||21.7|-18.2|1.000
92236279|NCT01753518|184376299|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Fisher Exact|||Comparison for Superficial Wound Separation||||0.21
92394540|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|16.5||||0.301|TWO_SIDED|95.0|-14.5|47.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||47.5|-14.5|0.301
92394541|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|14.5||||0.256|TWO_SIDED|95.0|-10.3|39.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||39.4|-10.3|0.256
92394542|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|1.5||||0.917|TWO_SIDED|95.0|-26.5|29.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||29.5|-26.5|0.917
92394543|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|-20.2||||1|TWO_SIDED|95.0|-37.5|-2.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||-2.5|-37.5|1.000
92394544|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|-5.7||||0.697|TWO_SIDED|95.0|-28.8|17.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||17.3|-28.8|0.697
92394545|NCT02365649|184687467|SUPERIORITY||Risk Difference (RD)|-20.0||||0.126|TWO_SIDED|95.0|-37.5|-2.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||-2.5|-37.5|0.126
92394546|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|10.0||||0.691|TWO_SIDED|95.0|-30.8|50.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||50.8|-30.8|0.691
92394547|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|28.8||||0.086|TWO_SIDED|95.0|-2.5|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||60.0|-2.5|0.086
92236280|NCT01753518|184376299|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Fisher Exact|||Comparison for Seroma||||0.49
92394548|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|-10.0||||0.702|TWO_SIDED|95.0|-45.6|25.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||25.6|-45.6|0.702
92394549|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|-12.5||||0.557|TWO_SIDED|95.0|-24.0|-1.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||-1.0|-24.0|0.557
92394550|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|-0.7||||1|TWO_SIDED|95.0|-16.5|15.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||15.0|-16.5|1.000
92394551|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|4.9||||0.707|TWO_SIDED|95.0|-14.4|24.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||24.2|-14.4|0.707
92236281|NCT01753518|184376299|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Fisher Exact|||Comparison for Hematoma||||0.50
92236282|NCT01753518|184376300|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the arms for Tylenol use.||||0.48
92394552|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|0.4||||1|TWO_SIDED|95.0|-27.9|28.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||28.8|-27.9|1.000
92236283|NCT01753518|184376300|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the arms for Ibuprofen use.||||0.30
92236284|NCT01753518|184376300|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the arms for Toradol use.||||0.85
92236285|NCT01753518|184376300|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the arms for Oxycodone use.||||0.78
92394553|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|16.7||||0.175|TWO_SIDED|95.0|-7.2|40.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||40.6|-7.2|0.175
92394554|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|8.7||||0.517|TWO_SIDED|95.0|-18.0|35.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||35.4|-18.0|0.517
92394555|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|-15.0||||1|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|1.000
92394556|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|-5.5||||0.663|TWO_SIDED|95.0|-25.5|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||14.6|-25.5|0.663
92394557|NCT02365649|184687468|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|0.251
92394558|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-41.0|41.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||41.0|-41.0|1.000
92394559|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|18.8||||0.257|TWO_SIDED|95.0|-12.8|50.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||50.3|-12.8|0.257
92236286|NCT01753518|184376302|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||Fisher Exact|||"Comparison for negative responses to Appearance of incision question."||||0.51
92394560|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|-20.0||||0.44|TWO_SIDED|95.0|-55.9|15.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||15.9|-55.9|0.440
92394561|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|-2.5||||1|TWO_SIDED|95.0|-24.3|19.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||19.3|-24.3|1.000
92394562|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|-0.7||||1|TWO_SIDED|95.0|-16.5|15.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||15.0|-16.5|1.000
92422527|NCT01916967|184734143|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-1.17|||<|0.001|TWO_SIDED|95.0|-1.69|-0.65|||Constrained Longitudinal Data Analysis|Model with terms of visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable||Difference in least squares (LS) means of Desloratadine 5 mg and Placebo||-0.65|-1.69|<0.001
92422528|NCT01916967|184734143|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-1.13|||<|0.001|TWO_SIDED|95.0|-1.66|-0.61|||Constrained Longitudinal Data Analysis|Model with terms of visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable||Difference in LS means of Desloratadine 10 mg and Placebo||-0.61|-1.66|<0.001
92422529|NCT00337350|184734154|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANCOVA|||||||0.08
92236287|NCT01753518|184376302|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED||||||Chi-squared|||"Comparison for negative responses to Would recommend treatment to friends question."||||0.098
92422530|NCT00337350|184734155|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||||||.05
92422531|NCT00337350|184734156|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||ANCOVA|||||||0.21
92422532|NCT01231230|184734169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0|||<|0.001|TWO_SIDED||||||ANOVA|||mean difference from baseline relative to placebo||||< 0.001
92236288|NCT01753518|184376302|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Chi-squared|||"Comparison of negative responses to Willingness to use treatment again question."||||0.57
92236289|NCT01753518|184376302|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Fisher Exact|||"Comparison of negative responses to Overall satisfaction question."||||0.41
92422533|NCT01231230|184734169|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||mean difference from baseline relative to placebo||||<0.001
92394563|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|-20.0||||0.44|TWO_SIDED|95.0|-55.9|15.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||15.9|-55.9|0.440
92394564|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|1.3||||1|TWO_SIDED|95.0|-28.7|31.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||31.4|-28.7|1.000
92394565|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|10.5||||0.404|TWO_SIDED|95.0|-14.0|34.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||34.9|-14.0|0.404
92394566|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|2.5||||0.859|TWO_SIDED|95.0|-24.8|29.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||29.7|-24.8|0.859
92394567|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|-15.0||||1|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|1.000
92394568|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|-5.5||||0.663|TWO_SIDED|95.0|-25.5|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||14.6|-25.5|0.663
92394569|NCT02365649|184687469|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|0.251
92394570|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|10.0||||0.606|TWO_SIDED|95.0|-23.8|43.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||43.8|-23.8|0.606
92394571|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|35.0||||0.034|TWO_SIDED|95.0|5.9|64.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significant at the 0.5 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||64.1|5.9|0.034
92394572|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|-15.0||||0.532|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||0.6|-30.6|0.532
92394573|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|0.6||||1|TWO_SIDED|95.0|-20.5|21.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||21.8|-20.5|1.000
92394574|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|-0.6||||1|TWO_SIDED|95.0|-14.4|13.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||13.3|-14.4|1.000
92394575|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|-0.7||||1|TWO_SIDED|95.0|-16.0|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||14.6|-16.0|1.000
92422534|NCT01231230|184734169|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||mean difference from baseline relative to placebo||||>0.05
92422535|NCT01610271|184734170|SUPERIORITY|ABS was expected to be superior to Control.|Odds Ratio (OR)|0.11|STANDARD_ERROR_OF_MEAN|0.16||0.067|TWO_SIDED|95.0|0.01|2.05||a priori threshold was 0.05|Regression, Logistic|penalized maximum likelihood (Firth) logistic regression, because infection rate was very low (\<3%), as expected|The dispersion is the SE of the OR. ABS was the numerator group, Control was the denominator.|A sample size of 150 per group provided a power of 80% to detect a statistically significant (α≤0.05) 3% difference in SSI rate based on a historical infection rate of 6% in the facility where operations were performed.||2.05|0.01|0.067
92236290|NCT01753518|184376303|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||Chi-squared|||"Comparison between arms for appearance of incision."||||0.85
92236291|NCT01753518|184376303|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Chi-squared|||"Comparison between arms for recommend treatment."||||0.004
92236292|NCT01753518|184376303|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"Comparison between arms for willingness to use treatment again."||||<0.001
92236293|NCT01753518|184376304|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92236294|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar painful.||||0.35
92236295|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar itching.||||0.48
92236296|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar color is different.||||0.034
92236297|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar stiffness is different.||||0.041
92279437|NCT01533428|184462020|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.726|TWO_SIDED|95.0|-0.7|0.5|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 12 was completed using ANCOVA model.||0.5|-0.7|0.726
92394576|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|12.1||||0.35|TWO_SIDED|95.0|-11.7|35.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||35.8|-11.7|0.350
92394577|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|21.7||||0.034|TWO_SIDED|95.0|2.0|41.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significant at the 0.5 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||41.3|2.0|0.034
92394578|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|1.2||||1|TWO_SIDED|95.0|-15.9|18.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||18.3|-15.9|1.000
92394579|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|-15.0||||1|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|1.000
92394580|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|-5.5||||0.663|TWO_SIDED|95.0|-25.5|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||14.6|-25.5|0.663
92394581|NCT02365649|184687470|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|0.251
92394582|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|15.0||||0.536|TWO_SIDED|95.0|-0.6|30.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||30.6|-0.6|0.536
92394583|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|15.0||||0.238|TWO_SIDED|95.0|-0.6|30.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||30.6|-0.6|0.238
92394584|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-34.3|24.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||24.3|-34.3|1.000
92394585|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-10.0||||0.606|TWO_SIDED|95.0|-43.8|23.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||23.8|-43.8|0.606
92394586|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-3.8||||1|TWO_SIDED|95.0|-28.5|21.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||21.0|-28.5|1.000
92394587|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-25.0||||0.181|TWO_SIDED|95.0|-59.2|9.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||9.2|-59.2|0.181
92422536|NCT02038452|184734174|SUPERIORITY||Mean Difference (Final Values)|-0.32|||<|0.001|TWO_SIDED|95.0|-0.48|-0.16|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||-0.16|-0.48|<0.001
92279438|NCT01533428|184462021|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.841|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 2 was completed using ANCOVA model.||0.5|-0.6|0.841
92394588|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|25.0||||0.281|TWO_SIDED|95.0|6.0|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||44.0|6.0|0.281
92394589|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-28.5|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||28.5|-28.5|1.000
92394590|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-25.0||||0.231|TWO_SIDED|95.0|-61.3|11.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||11.3|-61.3|0.231
92394591|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|37.5||||0.099|TWO_SIDED|95.0|5.8|69.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||69.2|5.8|0.099
92394592|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|31.3||||0.052|TWO_SIDED|95.0|2.2|60.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||60.3|2.2|0.052
92394593|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-10.0||||0.709|TWO_SIDED|95.0|-47.4|27.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||27.4|-47.4|0.709
92394594|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|32.5||||0.194|TWO_SIDED|95.0|0.9|64.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||64.1|0.9|0.194
92394595|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|13.8||||0.4|TWO_SIDED|95.0|-17.7|45.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||45.2|-17.7|0.400
92394596|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-42.9|32.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||32.9|-42.9|1.000
92394597|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|16.3||||0.477|TWO_SIDED|95.0|-18.6|51.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||51.1|-18.6|0.477
92394598|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-2.6||||0.833|TWO_SIDED|95.0|-26.4|21.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||21.3|-26.4|0.833
92394599|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-4.6||||0.732|TWO_SIDED|95.0|-30.9|21.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||21.7|-30.9|0.732
92394600|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|19.4||||0.468|TWO_SIDED|95.0|-15.4|54.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||54.2|-15.4|0.468
92394601|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-11.2||||0.339|TWO_SIDED|95.0|-34.1|11.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||11.7|-34.1|0.339
92394602|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-14.5||||0.263|TWO_SIDED|95.0|-39.3|10.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||10.2|-39.3|0.263
92279439|NCT01533428|184462021|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.171|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 8 was completed using ANCOVA model.||0.2|-0.9|0.171
92394603|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|11.9||||0.697|TWO_SIDED|95.0|-22.3|46.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||46.0|-22.3|0.697
92394604|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-1.7||||0.88|TWO_SIDED|95.0|-23.2|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||19.9|-23.2|0.880
92394605|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-10.7||||0.355|TWO_SIDED|95.0|-32.7|11.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||11.2|-32.7|0.355
92422537|NCT02038452|184734175|SUPERIORITY||Mean Difference (Final Values)|-0.35|||<|0.001|TWO_SIDED|95.0|-0.53|-0.17|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||-0.17|-0.53|<0.001
92394606|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-27.1|37.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||37.1|-27.1|1.000
92422538|NCT02038452|184734176|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.003|TWO_SIDED|95.0|-0.43|-0.09|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||-0.09|-0.43|0.003
92422539|NCT02038452|184734177|SUPERIORITY||Mean Difference (Final Values)|-0.97||||0.005|TWO_SIDED|95.0|-1.64|-0.3|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||-0.30|-1.64|0.005
92422540|NCT02038452|184734178|SUPERIORITY||Odds Ratio (OR)|0.44||||0.018|TWO_SIDED|95.0|0.22|0.87|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||0.87|0.22|0.018
92422541|NCT02038452|184734181|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.5|TWO_SIDED|95.0|-0.11|0.23|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||0.23|-0.11|0.500
92394607|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|1.5||||0.891|TWO_SIDED|95.0|-19.6|22.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||22.6|-19.6|0.891
92394608|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-3.3||||0.779|TWO_SIDED|95.0|-25.8|19.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||19.3|-25.8|0.779
92422542|NCT02038452|184734182|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.21|TWO_SIDED|95.0|-0.07|0.33|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms||The main treatment analyses were based on intention to treat approach||0.33|-0.07|0.21
92422543|NCT02038452|184734183|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.96|TWO_SIDED|95.0|-0.175|0.166|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||0.166|-0.175|0.96
92422544|NCT02038452|184734184|SUPERIORITY||Mean Difference (Final Values)|0.79||||0.055|TWO_SIDED|95.0|-0.02|1.59|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||1.59|-0.02|0.055
92422545|NCT02038452|184734185|SUPERIORITY||Odds Ratio (OR)|1.12||||0.76|TWO_SIDED|95.0|0.55|2.2|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||2.20|0.55|0.76
92422546|NCT02038452|184734186|SUPERIORITY||Odds Ratio (OR)|1.66||||0.23|TWO_SIDED|95.0|0.73|3.77|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression for sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||3.77|0.73|0.23
92422547|NCT02038452|184734187|SUPERIORITY||Odds Ratio (OR)|1.28||||0.66|TWO_SIDED|95.0|0.41|3.98|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||3.98|0.41|0.66
92422548|NCT02038452|184734188|SUPERIORITY||Odds Ratio (OR)|1.43||||0.66|TWO_SIDED|95.0|0.28|7.34|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||7.34|0.28|0.66
92279440|NCT01533428|184462021|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.595|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 12 was completed using ANCOVA model.||0.4|-0.7|0.595
92279441|NCT01533428|184462023|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.0||||0.03|TWO_SIDED|95.0|-17.2|-0.9|||ANCOVA|Analysis of covariance model including treatment,gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||All statistical comparisons were made using two-sided tests at the 5% significance level.||-0.9|-17.2|0.030
92422549|NCT02038452|184734189|SUPERIORITY||Odds Ratio (OR)|1.42||||0.4|TWO_SIDED|95.0|0.63|3.18|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||3.18|0.63|0.40
92422550|NCT02038452|184734190|SUPERIORITY||Odds Ratio (OR)|1.99||||0.2|TWO_SIDED|95.0|0.7|5.66|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||5.66|0.70|0.20
92422551|NCT02038452|184734191|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.001|TWO_SIDED|95.0|-0.53|-0.14||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||-0.14|-0.53|0.001
92422552|NCT02038452|184734192|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.74|TWO_SIDED|95.0|-0.17|0.24||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||0.24|-0.17|0.74
92422553|NCT02038452|184734193|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.41|TWO_SIDED|95.0|-0.3|0.12||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||0.12|-0.30|0.41
92422554|NCT02038452|184734194|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.58|TWO_SIDED|95.0|-0.16|0.28||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||0.28|-0.16|0.58
92422555|NCT02038452|184734195|SUPERIORITY||Mean Difference (Final Values)|-0.98||||0.009|TWO_SIDED|95.0|-1.72|-0.24||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||-0.24|-1.72|0.009
92422556|NCT02038452|184734196|SUPERIORITY||Mean Difference (Final Values)|0.76||||0.058|TWO_SIDED|95.0|-0.02|1.54||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||1.54|-0.02|0.058
92422557|NCT02038452|184734197|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.95|TWO_SIDED|95.0|-0.79|0.85||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||0.85|-0.79|0.95
92422558|NCT02038452|184734198|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.35|TWO_SIDED|95.0|-0.45|1.26||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||1.26|-0.45|0.35
92422559|NCT02038452|184734199|SUPERIORITY||Mean Difference (Final Values)|-0.36|||<|0.001|TWO_SIDED|95.0|-0.54|-0.19|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.19|-0.54|<0.001
92422560|NCT02038452|184734200|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.59|-0.21|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.21|-0.59|<0.001
92422561|NCT02038452|184734201|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.005|TWO_SIDED|95.0|-0.44|-0.08|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.08|-0.44|0.005
92422562|NCT02038452|184734202|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.002|TWO_SIDED|95.0|-1.72|-0.38|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.38|-1.72|0.002
92422563|NCT02038452|184734203|SUPERIORITY||Odds Ratio (OR)|0.35||||0.006|TWO_SIDED|95.0|0.17|0.74|||Regression, Logistic|Complete case analysis as a sensitivity analysis was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.74|0.17|0.006
92422564|NCT02038452|184734204|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.58|TWO_SIDED|95.0|-0.13|0.24|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.24|-0.13|0.58
92422565|NCT02038452|184734205|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.25|TWO_SIDED|95.0|-0.09|0.35|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.35|-0.09|0.25
92422566|NCT02038452|184734206|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.93|TWO_SIDED|95.0|-0.17|0.18|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.18|-0.17|0.93
92394609|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|8.1||||0.678|TWO_SIDED|95.0|-23.7|39.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||39.9|-23.7|0.678
92394610|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|4.6||||0.663|TWO_SIDED|95.0|-16.0|25.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||25.2|-16.0|0.663
92394611|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-8.8||||0.494|TWO_SIDED|95.0|-28.7|11.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||11.0|-28.7|0.494
92394612|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|21.9||||0.083|TWO_SIDED|95.0|7.6|36.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||36.2|7.6|0.083
92394613|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|15.0||||0.151|TWO_SIDED|95.0|-2.1|32.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||32.0|-2.1|0.151
92394614|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|0.8||||1|TWO_SIDED|95.0|-22.4|24.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||24.1|-22.4|1.000
92394615|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|0.4||||1|TWO_SIDED|95.0|-25.4|26.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||26.3|-25.4|1.000
92394616|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-9.2||||0.417|TWO_SIDED|95.0|-31.3|12.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||12.9|-31.3|0.417
92394617|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-20.2||||0.125|TWO_SIDED|95.0|-46.7|6.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||6.2|-46.7|0.125
92394618|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|12.9||||0.497|TWO_SIDED|95.0|-14.1|40.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||40.0|-14.1|0.497
92394619|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-0.1||||0.993|TWO_SIDED|95.0|-24.0|23.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||23.8|-24.0|0.993
92422567|NCT02038452|184734207|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.052|TWO_SIDED|95.0|-0.01|1.61|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||1.61|-0.01|0.052
92422568|NCT02038452|184734208|SUPERIORITY||Odds Ratio (OR)|1.29||||0.53|TWO_SIDED|95.0|0.58|2.88|||Regression, Logistic|Complete case analysis as a sensitivity analysis was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||||2.88|0.58|0.53
92279442|NCT01533428|184462023|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.5||||0.02|TWO_SIDED|95.0|-17.4|-1.5|||ANCOVA|Analysis of covariance model including treatment,gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||All statistical comparisons were made using two-sided tests at the 5% significance level.||-1.5|-17.4|0.020
92394620|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-18.3||||0.2|TWO_SIDED|95.0|-46.1|9.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||9.6|-46.1|0.200
92422569|NCT02038452|184734209|SUPERIORITY||Odds Ratio (OR)|1.43||||0.41|TWO_SIDED|95.0|0.61|3.34|||Regression, Logistic|Complete case analysis as a sensitivity analysis was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||3.34|0.61|0.41
92422570|NCT02038452|184734211|SUPERIORITY||Odds Ratio (OR)|1.32||||0.52|TWO_SIDED|95.0|0.57|3.06|||Regression, Logistic|Complete case analysis as a sensitivity analysis was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||3.06|0.57|0.52
92394621|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|21.4||||0.177|TWO_SIDED|95.0|-7.9|50.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||50.8|-7.9|0.177
92422571|NCT02038452|184734212|SUPERIORITY||Odds Ratio (OR)|2.05||||0.18|TWO_SIDED|95.0|0.72|5.78|||Regression, Logistic|Complete case analysis as a sensitivity analysis was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||5.78|0.72|0.18
92422572|NCT02038452|184734213|SUPERIORITY||Mean Difference (Final Values)|-0.36|||<|0.001|TWO_SIDED|95.0|-0.55|-0.18|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.18|-0.55|<0.001
92394622|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|22.4||||0.074|TWO_SIDED|95.0|-1.4|46.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||46.2|-1.4|0.074
92394623|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-7.9||||0.585|TWO_SIDED|95.0|-36.1|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||20.3|-36.1|0.585
92394624|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|21.4||||0.177|TWO_SIDED|95.0|-7.9|50.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||50.8|-7.9|0.177
92394625|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|12.1||||0.343|TWO_SIDED|95.0|-12.7|36.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||36.8|-12.7|0.343
92394626|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-7.9||||0.585|TWO_SIDED|95.0|-36.1|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||20.3|-36.1|0.585
92394627|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-30.0||||0.539|TWO_SIDED|95.0|-50.1|-9.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||-9.9|-50.1|0.539
92394628|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-15.7||||0.277|TWO_SIDED|95.0|-40.8|9.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||9.3|-40.8|0.277
92394629|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-15.7||||0.422|TWO_SIDED|95.0|-42.9|11.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||11.5|-42.9|0.422
92394630|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-46.5|46.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||46.5|-46.5|1.000
92394631|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-10.7||||0.454|TWO_SIDED|95.0|-34.9|13.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||13.5|-34.9|0.454
92394632|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-17.9||||0.364|TWO_SIDED|95.0|-41.1|5.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||5.4|-41.1|0.364
92422573|NCT02038452|184734214|SUPERIORITY||Mean Difference (Final Values)|-0.39|||<|0.001|TWO_SIDED|95.0|-0.59|-0.19|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.19|-0.59|<0.001
92422574|NCT02038452|184734215|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.003|TWO_SIDED|95.0|-0.46|-0.09|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.09|-0.46|0.003
92422575|NCT02038452|184734216|SUPERIORITY||Mean Difference (Final Values)|-1.16||||0.001|TWO_SIDED|95.0|-1.85|-0.48|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.48|-1.85|0.001
92422576|NCT02038452|184734217|SUPERIORITY||Odds Ratio (OR)|0.34||||0.007|TWO_SIDED|95.0|0.16|0.74|||Regression, Logistic|Per protocol analysis on complete date was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.74|0.16|0.007
92422577|NCT02038452|184734218|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.63|TWO_SIDED|95.0|-0.15|0.25|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.25|-0.15|0.63
92422578|NCT02038452|184734219|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.28|TWO_SIDED|95.0|-0.1|0.35|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.35|-0.10|0.28
92422579|NCT02038452|184734220|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.9|TWO_SIDED|95.0|-0.18|0.2|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.20|-0.18|0.900
92422580|NCT02038452|184734221|SUPERIORITY||Mean Difference (Final Values)|0.74||||0.09|TWO_SIDED|95.0|-0.11|1.59|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||1.59|-0.11|0.09
92422581|NCT02038452|184734222|SUPERIORITY||Odds Ratio (OR)|1.26||||0.58|TWO_SIDED|95.0|0.56|2.85|||Regression, Logistic|Per protocol analysis on complete date was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||||2.85|0.56|0.58
92422582|NCT02038452|184734223|SUPERIORITY||Odds Ratio (OR)|1.31||||0.52|TWO_SIDED|95.0|0.57|3.01|||Regression, Logistic|Per protocol analysis on complete date was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||3.01|0.57|0.52
92422583|NCT02038452|184734225|SUPERIORITY||Odds Ratio (OR)|1.25||||0.61|TWO_SIDED|95.0|0.53|2.95|||Regression, Logistic|Per protocol analysis on complete date was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||2.95|0.53|0.61
92422584|NCT02038452|184734226|SUPERIORITY||Odds Ratio (OR)|2.24||||0.14|TWO_SIDED|95.0|0.77|6.58|||Regression, Logistic|Per protocol analysis on complete date was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||6.58|0.77|0.14
92422585|NCT02038452|184734227|SUPERIORITY||Mean Difference (Final Values)|-0.52||||0.014|TWO_SIDED|95.0|-0.93|-0.12|||Regression, Linear|Sub group analysis on complete data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.12|-0.93|0.014
92422586|NCT02038452|184734228|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.53|TWO_SIDED|95.0|-0.5|0.26|||Regression, Linear|Sub group analysis on complete data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.26|-0.50|0.53
92236298|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar thickness is different.||||0.23
92422587|NCT02038452|184734229|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.015|TWO_SIDED|95.0|-0.44|-0.05|||Regression, Linear|Sub group analysis on complete data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.05|-0.44|0.015
92422588|NCT02038452|184734230|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.002|TWO_SIDED|95.0|-0.97|-0.23|||Regression, Linear|Sub group analysis on complete data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.23|-0.97|0.002
92422589|NCT02038452|184734231|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.25|TWO_SIDED|95.0|-0.6|0.16|||Regression, Linear|Sub group analysis on complete data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.16|-0.60|0.25
92422590|NCT02038452|184734232|SUPERIORITY||Mean Difference (Final Values)|33.54|||||TWO_SIDED|95.0|-94.57|145.59|||Regression, Linear|Comparison of outcome between treatment groups performed on multiply imputed data||||145.59|-94.57|
92422591|NCT02038452|184734233|SUPERIORITY||Mean Difference (Final Values)|47.06|||||TWO_SIDED|95.0|-104.84|187.31|||Regression, Linear|Comparison of outcome between treatment groups on complete data.||||187.31|-104.84|
92422592|NCT02038452|184734234|SUPERIORITY||Mean Difference (Final Values)|113.15|||||TWO_SIDED|95.0|-37.09|279.21|||Regression, Linear|Comparison of outcome between treatment groups||||279.21|-37.09|
92422593|NCT02038452|184734235|SUPERIORITY||Mean Difference (Final Values)|71.1|||||TWO_SIDED|95.0|-120.84|291.24|||Regression, Linear|Comparison of outcome between treatment groups||||291.24|-120.84|
92422594|NCT02038452|184734236|SUPERIORITY||Mean Difference (Final Values)|0.008|||||TWO_SIDED|95.0|-0.01|0.02|||Regression, Linear|||||0.02|-0.01|
92422595|NCT02038452|184734237|SUPERIORITY||Mean Difference (Final Values)|-0.003|||||TWO_SIDED|95.0|-0.034|0.027|||Regression, Linear|||||0.027|-0.034|
92422596|NCT02038452|184734238|SUPERIORITY||Mean Difference (Final Values)|-0.022|||||TWO_SIDED|95.0|-0.093|0.045|||Regression, Linear|||||0.045|-0.093|
92422597|NCT02337738|184734240|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84||||0.0006|TWO_SIDED|95.0|-1.32|-0.364|||ANCOVA||Estimated Value was reported for the difference between TVP-1012 1mg and Placebo (TVP-1012 1mg - Placebo).|||-0.364|-1.320|0.0006
92422598|NCT02337738|184734240|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.014|TWO_SIDED|95.0|-1.07|-0.122|||ANCOVA||Estimated Value was reported for the difference between TVP-1012 0.5mg and Placebo (TVP-1012 0.5mg - Placebo).|||-0.122|-1.070|0.0140
92422599|NCT02035475|184734266|SUPERIORITY_OR_OTHER|||||||0.412|||||||McNemar|||The null hypothesis is that there is no difference in the incidence of detected lymphoceles whether the EndoWrist 1 Vessel Sealer or the Fenestrated Maryland BiPolar Instrument were used.||||0.412
92422600|NCT01302379|184734272|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.05|TWO_SIDED|95.0|-97.5|97.5||No adjustment for multiple comparisons|Mixed Models Analysis|||||97.5|-97.5|<0.05
92422601|NCT01842815|184734288|SUPERIORITY|||||||0.0077||||||The value looked at for statistical significance is if p\<.05.|t-test, 2 sided|t-tailed, paired t-test||This t-test is to test the statistical significance of the right side of the tattoo clearance vs. the left side of the tattoo clearance. It tests if there is a difference between the tattoo being treated twice per visit (right side) vs. being treated once per visit (left side).||||.0077
92236299|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar more irregular.||||0.13
92236300|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: overall opinion.||||0.11
92236301|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: vascularity.||||0.68
92236302|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: pigmentation.||||0.18
92394633|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|10.0||||0.544|TWO_SIDED|95.0|-35.2|55.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||55.2|-35.2|0.544
92394634|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-5.5||||0.663|TWO_SIDED|95.0|-25.5|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||14.6|-25.5|0.663
92394635|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||0.6|-30.6|0.251
92394636|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared|||Clinical non-responders, Week 44||3.1|-23.1|1.000
92394637|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-5.2||||0.606|TWO_SIDED|95.0|-21.2|10.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||10.8|-21.2|0.606
92394638|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-2.9||||1|TWO_SIDED|95.0|-21.7|16.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||16.0|-21.7|1.000
92394639|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||3.1|-23.1|1.000
92394640|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-0.5||||1|TWO_SIDED|95.0|-18.7|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||17.7|-18.7|1.000
92394641|NCT02365649|184687471|SUPERIORITY||Risk Difference (RD)|-10.0||||0.501|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||3.1|-23.1|0.501
92394642|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|17.5||||0.633|TWO_SIDED|95.0|-13.0|48.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||48.0|-13.0|0.633
92394643|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|30.0||||0.0024|TWO_SIDED|95.0|9.9|50.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||50.1|9.9|0.0024
92394644|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-34.8|34.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||34.8|-34.8|1.000
92236303|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: thickness||||0.75
92394645|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-39.8|29.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||29.8|-39.8|1.000
92394646|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|1.3||||1|TWO_SIDED|95.0|-24.7|27.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||27.2|-24.7|1.000
92394647|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-20.0||||0.384|TWO_SIDED|95.0|-55.1|15.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||15.1|-55.1|0.384
92394648|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|25.0||||0.281|TWO_SIDED|95.0|6.0|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||44.0|6.0|0.281
92394649|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-28.5|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||28.5|-28.5|1.000
92394650|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-35.0||||0.108|TWO_SIDED|95.0|-70.8|0.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||0.8|-70.8|0.108
92394651|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|12.5||||0.686|TWO_SIDED|95.0|-27.6|52.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||52.6|-27.6|0.686
92394652|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|25.0||||0.126|TWO_SIDED|95.0|-5.5|55.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||55.5|-5.5|0.126
92394653|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-10.0||||0.709|TWO_SIDED|95.0|-47.4|27.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||27.4|-47.4|0.709
92394654|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|37.5||||0.099|TWO_SIDED|95.0|5.8|69.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||69.2|5.8|0.099
92394655|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|18.8||||0.257|TWO_SIDED|95.0|-12.8|50.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||50.3|-12.8|0.257
92394656|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-38.0|38.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||38.0|-38.0|1.000
92394657|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|15.6||||0.465|TWO_SIDED|95.0|-19.5|50.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||50.7|-19.5|0.465
92394658|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|3.9||||0.745|TWO_SIDED|95.0|-19.3|27.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||27.0|-19.3|0.745
92236304|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: relief.||||0.36
92236305|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: pliability.||||0.78
92236306|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: surface area.||||0.76
92236307|NCT01753518|184376305|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: overall opinion.||||0.97
92422602|NCT01842815|184734289|SUPERIORITY|||||||0.00012||||||The value looked at for statistical significance is if p\<.05.|t-test, 2 sided|t-tailed, paired t-test||This t-test is to test the statistical significance of the right side of the tattoo clearance vs. the left side of the tattoo clearance. It tests if there is a difference between the tattoo being treated twice per visit (right side) vs. being treated once per visit (left side).||||.00012
92422603|NCT01842815|184734290|SUPERIORITY|||||||0.0034||||||The value looked at for statistical significance is if p\<.05.|t-test, 2 sided|t-tailed, paired t-test||This t-test is to test the statistical significance of the right side of the tattoo clearance vs. the left side of the tattoo clearance. It tests if there is a difference between the tattoo being treated twice per visit (right side) vs. being treated once per visit (left side).||||.0034
92422604|NCT02979197|184734303|NON_INFERIORITY|A two-sample t-test was used to test the one-sided hypothesis that treatment with Amlodipine+Celecoxib (arm 1) was non-inferior to half of the effect achieved with Amlodipine+Placebo (arm 2). The primary efficacy endpoint was considered met if the lower limits of the 97.5% one-side confidence interval (CI) for the difference in SBPday change in arm 1 and 50% of the mean change in arm 2 was less than 0.||||||0.024|||||||t-test, 2 sided|||LOCF method was used. Primary efficacy analysis was based on the difference between the Amlodipine+Celecoxib and Amlodipine+Placebo (arms 1 and 2, respectively) in the mean change in SBPday from Baseline to final (Day 13), where a subject completed the 14-day treatment plan, or to Day 6, where a subject was withdrawn from treatment before the Day 13 dose but after the Day 6 dose, or to baseline, where a subject was withdrawn before the Day 6 dose.||||0.024
92422605|NCT02979197|184734304|OTHER|ANOVA F-test was used to compare the mean changes in body weight from baseline to end of treatment among the three treatment arms. The omni-bus test was to conclude if any differences existed.||||||0.006|||||||ANOVA|||A serial gatekeeping strategy was used for secondary efficacy analyses. If, and only if, statistical significance was achieved for the primary endpoint (SBPday), a secondary hierarchical analysis was to be used to evaluate secondary efficacy endpoints and was only to proceed from one to the next if the alpha was met for the prior; if the alpha was not met, analysis was performed for informational purposes only. Mean change in body weight was the 1st of the four secondary efficacy endpoints.||||0.006
92394659|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-8.3||||0.512|TWO_SIDED|95.0|-32.6|16.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||16.1|-32.6|0.512
92394660|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|22.5||||0.281|TWO_SIDED|95.0|-12.2|57.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||57.2|-12.2|0.281
92394661|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-8.1||||0.486|TWO_SIDED|95.0|-30.8|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||14.6|-30.8|0.486
92394662|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-15.8||||0.212|TWO_SIDED|95.0|-39.5|8.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||8.0|-39.5|0.212
92394663|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|11.9||||0.697|TWO_SIDED|95.0|-22.3|46.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||46.0|-22.3|0.697
92394664|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-1.7||||0.88|TWO_SIDED|95.0|-23.2|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||19.9|-23.2|0.880
92394665|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-10.7||||0.355|TWO_SIDED|95.0|-32.7|11.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||11.2|-32.7|0.355
92394666|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|8.1||||0.678|TWO_SIDED|95.0|-23.7|39.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||39.9|-23.7|0.678
92394667|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|1.7||||0.873|TWO_SIDED|95.0|-18.6|21.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||21.9|-18.6|0.873
92394668|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-0.1||||0.99|TWO_SIDED|95.0|-22.3|22.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||22.0|-22.3|0.990
92394669|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|8.1||||0.678|TWO_SIDED|95.0|-23.7|39.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||39.9|-23.7|0.678
92422606|NCT02979197|184734305|SUPERIORITY|A two-sample t-test for superiority was used to test the one-sided hypothesis that treatment with Amlodipine+Celecoxib lowered SBP24h to a greater degree than Amlodipine+Placebo.||||||0.826|||||||t-test, 2 sided|||A serial gatekeeping strategy was used for secondary efficacy analyses. If, and only if, statistical significance was achieved for the primary endpoint (SBPday), a secondary hierarchical analysis was to be used to evaluate secondary efficacy endpoints and was only to proceed from one to the next if the alpha was met for the prior; if the alpha was not met, analysis was performed for informational purposes only. Mean change in SBP24h was the 2nd of the four secondary efficacy endpoints.||||0.826
92422607|NCT02979197|184734306|SUPERIORITY|A two-sample t-test for superiority was used to test the one-sided hypothesis that treatment with Amlodipine+Celecoxib lowered DBP24h to a greater degree than Amlodipine+Placebo.||||||0.5|||||||t-test, 2 sided|||A serial gatekeeping strategy was used for secondary efficacy analyses. If, and only if, statistical significance was achieved for the primary endpoint (SBPday), a secondary hierarchical analysis was to be used to evaluate secondary efficacy endpoints and was only to proceed from one to the next if the alpha was met for the prior; if the alpha was not met, analysis was performed for informational purposes only. Mean change in DBP24h was the 3rd of the 4 secondary efficacy endpoints.||||0.500
92422608|NCT02979197|184734307|SUPERIORITY|A two-sample t-test for superiority was used to test the one-sided hypothesis that treatment with Amlodipine+Celecoxib improved creatinine clearance to a greater degree than Amlodipine+Placebo.||||||0.668|||||||t-test, 2 sided|||A serial gatekeeping strategy was used for secondary efficacy analyses. If, and only if, statistical significance was achieved for the primary endpoint (SBPday), a secondary hierarchical analysis was to be used to evaluate secondary efficacy endpoints and was only to proceed from one to the next if the alpha was met for the prior; if the alpha was not met, analysis was performed for informational purposes only. Mean change in creatinine clearance was the 4th of 4 secondary efficacy endpoints.||||0.668
92422609|NCT02979197|184734308|SUPERIORITY|Differences in the occurrence of TEAEs between treatment arms were evaluated using Chi-square test.||||||0.675|||||||Chi-squared|Computed on the number of subjects who had at least one TEAE.||||||0.675
92170271|NCT05568004|184229532|SUPERIORITY|||||||0.018||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||0.018
92394670|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|4.6||||0.663|TWO_SIDED|95.0|-16.0|25.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||25.2|-16.0|0.663
92394671|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-8.8||||0.494|TWO_SIDED|95.0|-28.7|11.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||11.0|-28.7|0.494
92394672|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|23.2||||0.169|TWO_SIDED|95.0|-1.6|48.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||48.1|-1.6|0.169
92394673|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|30.6||||0.005|TWO_SIDED|95.0|11.5|49.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||49.7|11.5|0.005
92394674|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|0.7||||0.963|TWO_SIDED|95.0|-26.8|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||28.1|-26.8|0.963
92394675|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|6.7||||0.729|TWO_SIDED|95.0|-19.8|33.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||33.2|-19.8|0.729
92394676|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-2.9||||0.804|TWO_SIDED|95.0|-25.8|20.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||20.0|-25.8|0.804
92394677|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-14.0||||0.306|TWO_SIDED|95.0|-41.1|13.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||13.1|-41.1|0.306
92394678|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|12.9||||0.497|TWO_SIDED|95.0|-14.1|40.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||40.0|-14.1|0.497
92394679|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-0.1||||0.993|TWO_SIDED|95.0|-24.0|23.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||23.8|-24.0|0.993
92394680|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-23.5||||0.101|TWO_SIDED|95.0|-51.2|4.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||4.1|-51.2|0.101
92394681|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|7.1||||0.655|TWO_SIDED|95.0|-24.0|38.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||38.3|-24.0|0.655
92394682|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|15.5||||0.221|TWO_SIDED|95.0|-9.0|40.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||40.0|-9.0|0.221
92394683|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-7.9||||0.585|TWO_SIDED|95.0|-36.1|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||20.3|-36.1|0.585
92394684|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|24.6||||0.124|TWO_SIDED|95.0|-4.8|53.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||53.9|-4.8|0.124
92394685|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|15.2||||0.234|TWO_SIDED|95.0|-9.5|39.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||39.9|-9.5|0.234
92394686|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-4.8||||0.741|TWO_SIDED|95.0|-32.9|23.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||23.4|-32.9|0.741
92394687|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-25.0||||0.544|TWO_SIDED|95.0|-44.0|-6.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||-6.0|-44.0|0.544
92422610|NCT02979197|184734308|SUPERIORITY|||||||0.555|||||||Regression, Logistic|TEAE (1=at least one TEAE occurred for the subject; 0=otherwise) as dependent variable and treatment as fixed effect.||||||0.555
92394688|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-15.5||||0.238|TWO_SIDED|95.0|-38.2|7.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||7.3|-38.2|0.238
92394689|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-17.9||||0.364|TWO_SIDED|95.0|-41.1|5.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||5.4|-41.1|0.364
92422611|NCT02979197|184734309|SUPERIORITY|||||||0.226|||||||t-test, 2 sided|||For this analysis, all values below the limit of quantification were treated as 0.||||0.226
92422612|NCT02979197|184734310|SUPERIORITY|||||||0.215|||||||t-test, 2 sided|||For this analysis, all values below the limit of quantification (BLQ) were treated as 0.04 ng/mL. Assignment of BLQ values to a nonzero number allowed computation of the log transformation. The selection of 0.04 ng/mL was based on the lower limit of quantification of the validated bioanalytical method (0.05 ng/mL) and selecting the next lowest number at the hundredth decimal place.||||0.215
92422613|NCT02979197|184734311|SUPERIORITY|||||||0.0005|||||||ANCOVA|Adjusted mean = -3.48 μmol/L; 95% confidence interval = -5.4 to -1.6||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the Amlodipine+Celecoxib arm from baseline to Day 14.||||0.0005
92422614|NCT02979197|184734311|SUPERIORITY|||||||0.075|||||||ANCOVA|Adjusted mean = -1.72 μmol/L; 95% confidence interval = -3.6 to 0.2||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the Amlodipine+Placebo arm from baseline to Day 14.||||0.0750
92422615|NCT02979197|184734311|SUPERIORITY|||||||0.4184|||||||ANCOVA|Adjusted mean = -1.92 μmol/L; 95% confidence interval = -6.6 to 2.8||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the Placebo+Placebo arm from baseline to Day 14.||||0.4184
92422616|NCT02979197|184734311|SUPERIORITY|||||||0.2022|||||||ANCOVA|Adjusted mean = -1.76 μmol/L; 95% confidence interval = -4.5 to 1.0||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the comparison between the Amlodipine+Celecoxib and Amlodipine+Placebo arms.||||0.2022
92422617|NCT02979197|184734311|SUPERIORITY|||||||0.541|||||||ANCOVA|Adjusted mean = -1.56 μmol/L; 95% confidence interval = -6.6 to 3.5||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the comparison between the Amlodipine+Celecoxib and Placebo+Placebo arms.||||0.5410
92422618|NCT02979197|184734311|SUPERIORITY|||||||0.9397|||||||ANCOVA|Adjusted mean = 0.19 μmol/L; 95% confidence interval = -4.9 to 5.2||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the comparison between the Amlodipine+Placebo and Placebo+Placebo arms.||||0.9397
92422619|NCT01532973|184734316|SUPERIORITY_OR_OTHER||Difference in LS Means|4.26|||||TWO_SIDED|90.0|3.77|4.74||||||||4.74|3.77|
92422620|NCT01532973|184734316|SUPERIORITY_OR_OTHER||Difference in LS Means|4.41|||||TWO_SIDED|90.0|3.92|4.9||||||||4.90|3.92|
92422621|NCT01532973|184734316|SUPERIORITY_OR_OTHER||Difference in LS Means|3.56|||||TWO_SIDED|90.0|3.08|4.05||||||||4.05|3.08|
92422622|NCT01532973|184734317|SUPERIORITY_OR_OTHER||Difference in LS Means|1.02|||||TWO_SIDED|90.0|0.34|1.69||||||||1.69|0.34|
92422623|NCT01532973|184734317|SUPERIORITY_OR_OTHER||Difference in LS Means|2.07|||||TWO_SIDED|90.0|1.39|2.74||||||||2.74|1.39|
92422624|NCT01532973|184734317|SUPERIORITY_OR_OTHER||Difference in LS Means|2.72|||||TWO_SIDED|90.0|2.05|3.39||||||||3.39|2.05|
92422625|NCT01532973|184734318|SUPERIORITY_OR_OTHER||Difference in LS Means|3.2|||||TWO_SIDED|90.0|2.68|3.72||||||||3.72|2.68|
92422626|NCT01532973|184734318|SUPERIORITY_OR_OTHER||Difference in LS Means|3.95|||||TWO_SIDED|90.0|3.44|4.47||||||||4.47|3.44|
92422627|NCT01532973|184734319|SUPERIORITY_OR_OTHER||Difference in LS Means|3.89|||||TWO_SIDED|90.0|3.2|4.58||||||||4.58|3.20|
92422628|NCT01532973|184734319|SUPERIORITY_OR_OTHER||Difference in LS Means|4.67|||||TWO_SIDED|90.0|3.98|5.36||||||||5.36|3.98|
92422629|NCT01532973|184734319|SUPERIORITY_OR_OTHER||Difference in LS Means|3.61|||||TWO_SIDED|90.0|2.92|4.3||||||||4.30|2.92|
92422630|NCT01532973|184734320|SUPERIORITY_OR_OTHER||Difference in LS Means|0.72|||||TWO_SIDED|90.0|-0.09|1.54||||||||1.54|-0.09|
92422631|NCT01532973|184734320|SUPERIORITY_OR_OTHER||Difference in LS Means|2.57|||||TWO_SIDED|90.0|1.75|3.39||||||||3.39|1.75|
92422632|NCT01532973|184734320|SUPERIORITY_OR_OTHER||Difference in LS Means|2.84|||||TWO_SIDED|90.0|2.02|3.66||||||||3.66|2.02|
92422633|NCT01532973|184734321|SUPERIORITY_OR_OTHER||Difference in LS Means|3.17|||||TWO_SIDED|90.0|2.55|3.8||||||||3.80|2.55|
92422634|NCT01532973|184734321|SUPERIORITY_OR_OTHER||Difference in LS Means|3.63|||||TWO_SIDED|90.0|3.0|4.26||||||||4.26|3.00|
92422635|NCT01828320|184734355|SUPERIORITY||d (effect size)|-0.08||||0.34|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.34
92422636|NCT01828320|184734356|SUPERIORITY||d (effect size)|-0.06||||0.93|TWO_SIDED||||||intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.93
92422637|NCT01828320|184734357|SUPERIORITY||d (effect size)|-0.5||||0.01|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.01
92422638|NCT01828320|184734358|SUPERIORITY||d (effect size)|0.18||||0.17|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.17
92422639|NCT01828320|184734359|SUPERIORITY||d (effect size)|0.07||||0.31|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.31
92422640|NCT01828320|184734360|SUPERIORITY||d (effect size)|0.001||||0.8|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.80
92422641|NCT01828320|184734361|SUPERIORITY||d (effect size)|0.04||||0.96|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.96
92422642|NCT01828320|184734362|SUPERIORITY||d (effect size)|-0.05||||0.83|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.83
92422643|NCT01828320|184734363|SUPERIORITY||d (effect size)|0.35||||0.02|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.02
92422644|NCT01828320|184734364|SUPERIORITY||d (effect size)|0.28||||0.04|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.04
92422645|NCT01828320|184734365|SUPERIORITY||d (effect size)|0.29||||0.04|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.04
92170272|NCT05568004|184229532|SUPERIORITY|||||||0.152||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||0.152
92394690|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-46.5|46.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||46.5|-46.5|1.000
92394691|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-10.7||||0.454|TWO_SIDED|95.0|-34.9|13.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||13.5|-34.9|0.454
92394692|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-25.0||||0.063|TWO_SIDED|95.0|-44.0|-6.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||-6.0|-44.0|0.063
92394693|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|10.0||||0.544|TWO_SIDED|95.0|-35.2|55.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||55.2|-35.2|0.544
92394694|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-5.5||||0.663|TWO_SIDED|95.0|-25.5|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||14.6|-25.5|0.663
92394695|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||0.6|-30.6|0.251
92394696|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||4.6|-14.6|1.000
92394697|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-0.2||||1|TWO_SIDED|95.0|-13.4|13.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||13.0|-13.4|1.000
92394698|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|2.1||||1|TWO_SIDED|95.0|-14.4|18.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||18.7|-14.4|1.000
92422646|NCT01828320|184734366|SUPERIORITY||d (effect size)|-0.44||||0.03|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.03
92422647|NCT01828320|184734367|SUPERIORITY||d (effect size)|0.07||||0.71|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.71
92170273|NCT05568004|184229532|SUPERIORITY|||||||0.438||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied||||||0.438
92394699|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||3.1|-23.1|1.000
92394700|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-0.5||||1|TWO_SIDED|95.0|-18.7|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||17.7|-18.7|1.000
92394701|NCT02365649|184687472|SUPERIORITY||Risk Difference (RD)|-10.0||||0.501|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||3.1|-23.1|0.501
92422648|NCT01828320|184734368|SUPERIORITY||d (effect size)|0.02||||0.83|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.83
92422649|NCT01828320|184734369|SUPERIORITY||d (effect size)|-0.11||||0.85|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.85
92422650|NCT01828320|184734370|SUPERIORITY||d (effect size)|-0.55||||0.02|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.02
92394702|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|30.0||||0.155|TWO_SIDED|95.0|9.9|50.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||50.1|9.9|0.155
92394703|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|30.0||||0.024|TWO_SIDED|95.0|9.9|50.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||50.1|9.9|0.024
92394704|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-3.3||||1|TWO_SIDED|95.0|-40.1|33.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||33.4|-40.1|1.000
92394705|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-8.6||||0.633|TWO_SIDED|95.0|-46.4|29.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||29.2|-46.4|0.633
92394706|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|1.3||||1|TWO_SIDED|95.0|-24.7|27.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||27.2|-24.7|1.000
92394707|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-24.4||||0.209|TWO_SIDED|95.0|-61.3|12.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||12.5|-61.3|0.209
92394708|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|25.0||||0.283|TWO_SIDED|95.0|6.0|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||44.0|6.0|0.283
92394709|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-28.5|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||28.5|-28.5|1.000
92394710|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-41.7||||0.048|TWO_SIDED|95.0|-77.8|-5.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||-5.5|-77.8|0.048
92422651|NCT01828320|184734371|SUPERIORITY||d (effect size)|-0.33||||0.05|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.05
92394711|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|21.4||||0.408|TWO_SIDED|95.0|-18.6|61.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||61.4|-18.6|0.408
92394712|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|25.0||||0.126|TWO_SIDED|95.0|-5.5|55.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||55.5|-5.5|0.126
92394713|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-16.7||||0.454|TWO_SIDED|95.0|-54.5|21.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||21.1|-54.5|0.454
92394714|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|35.7||||0.183|TWO_SIDED|95.0|1.8|69.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||69.7|1.8|0.183
92422652|NCT01828320|184734372|SUPERIORITY||d (effect size)|0.04||||0.88|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.88
92422653|NCT01828320|184734373|SUPERIORITY||d (effect size)|0.04||||0.97|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.97
92236308|NCT03249350|184376309|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.49|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.49
92422654|NCT01828320|184734374|SUPERIORITY||d (effect size)|0.01||||0.88|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||"Composite Risk Score of Functioning in Social Domain measured via Ecological Momentary Assessment: Alone"||||0.88
92422655|NCT01828320|184734374|SUPERIORITY||d (effect size)|-0.18||||0.43|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||"Composite Risk Score of Functioning in Social Domain measured via Ecological Momentary Assessment: With a family member"||||0.43
92422656|NCT01828320|184734374|SUPERIORITY||d (effect size)|0.21||||0.37|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||"Composite Risk Score of Functioning in Social Domain measured via Ecological Momentary Assessment: With a peer"||||0.37
92422657|NCT01828320|184734375|SUPERIORITY||d (effect size)|0.29||||0.02|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.02
92422658|NCT01828320|184734376|SUPERIORITY||d (effect size)|0.07||||0.49|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.49
92422659|NCT01828320|184734377|SUPERIORITY||d (effect size)|0.11||||0.6|TWO_SIDED||||||intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.60
92236309|NCT03249350|184376310|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.19||0.92|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.92
92422660|NCT01828320|184734378|SUPERIORITY||d (effect size)|0.08||||0.42|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.42
92422661|NCT01828320|184734379|SUPERIORITY||d (effect size)|0.4||||0.01|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.01
92422662|NCT00866788|184734414|SUPERIORITY_OR_OTHER|||||||0.1601||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.1601
92236310|NCT03249350|184376311|SUPERIORITY||||||<|0.001|||||||ANOVA|Main effect of group, F=13.58.||Cognitive Behavioral Components||||<0.001
92236311|NCT03249350|184376311|SUPERIORITY|||||||0.08|||||||ANOVA|Main effect of group, F=3.02.||Behavioral Modification Components||||0.08
92236312|NCT03249350|184376312|SUPERIORITY||Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.09|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.09
92422663|NCT00866788|184734414|SUPERIORITY_OR_OTHER|||||||0.0003||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0003
92422664|NCT00866788|184734414|SUPERIORITY_OR_OTHER|||||||0.0473||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0473
92422665|NCT00866788|184734415|SUPERIORITY_OR_OTHER|||||||0.164||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.1640
92422666|NCT00866788|184734415|SUPERIORITY_OR_OTHER|||||||0.0005||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0005
92422667|NCT00866788|184734415|SUPERIORITY_OR_OTHER|||||||0.0558||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0558
92394715|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|18.8||||0.257|TWO_SIDED|95.0|-12.8|50.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||50.3|-12.8|0.257
92394716|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-5.6||||1|TWO_SIDED|95.0|-44.7|33.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|ANOVA||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||33.6|-44.7|1.000
92394717|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|33.3||||0.307|TWO_SIDED|95.0|-9.7|76.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||76.3|-9.7|0.307
92394718|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|33.3||||0.172|TWO_SIDED|95.0|-4.1|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||70.8|-4.1|0.172
92394719|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|7.1||||1|TWO_SIDED|95.0|-40.9|55.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||55.1|-40.9|1.000
92394720|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|13.3||||1|TWO_SIDED|95.0|-27.8|54.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||54.5|-27.8|1.000
92394721|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-11.7||||0.675|TWO_SIDED|95.0|-51.5|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||28.1|-51.5|0.675
92394722|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-12.9||||0.644|TWO_SIDED|95.0|-59.2|33.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||33.5|-59.2|0.644
92394723|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-50.6|50.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||50.6|-50.6|1.000
92422668|NCT00866788|184734416|SUPERIORITY_OR_OTHER|||||||0.1411||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.1411
92422669|NCT00866788|184734416|SUPERIORITY_OR_OTHER|||||||0.0003||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0003
92394724|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-33.4|50.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||50.0|-33.4|1.000
92394725|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|7.1||||1|TWO_SIDED|95.0|-40.9|55.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||55.1|-40.9|1.000
92394726|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-50.6|50.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||50.6|-50.6|1.000
92422670|NCT00866788|184734416|SUPERIORITY_OR_OTHER|||||||0.0248||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0248
92422671|NCT00866788|184734417|SUPERIORITY_OR_OTHER|||||||0.5507||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.5507
92422672|NCT00866788|184734417|SUPERIORITY_OR_OTHER|||||||0.1525||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.1525
92422673|NCT00866788|184734417|SUPERIORITY_OR_OTHER|||||||0.0449||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0449
92394727|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-33.4|50.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||50.0|-33.4|1.000
92422674|NCT00866788|184734418|SUPERIORITY_OR_OTHER|||||||0.7261||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.7261
92422675|NCT00866788|184734418|SUPERIORITY_OR_OTHER|||||||0.162||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.162
92422676|NCT00866788|184734418|SUPERIORITY_OR_OTHER|||||||0.6504||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.6504
92422677|NCT02349061|184734428|SUPERIORITY||Odds Ratio (OR)|3.28||||0.0057|TWO_SIDED|95.0|1.41|7.63|||Regression, Logistic|||||7.63|1.41|0.0057
92422678|NCT02349061|184734429|SUPERIORITY||Least Squares (LS) Mean Difference|-1.36||||0.0929|TWO_SIDED|95.0|-2.94|0.23|||Mixed model repeated measures model|||||0.23|-2.94|0.0929
92394728|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|7.1||||1|TWO_SIDED|95.0|-40.9|55.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||55.1|-40.9|1.000
92422679|NCT02349061|184734430|SUPERIORITY||LS Means Difference|-0.383||||0.3944|TWO_SIDED|95.0|-1.271|0.506|||Mixed model repeated measures model|||||0.506|-1.271|0.3944
92422680|NCT02349061|184734431|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9939|TWO_SIDED|95.0|0.43|2.34|||Regression, Logistic|||||2.34|0.43|0.9939
92422681|NCT02349061|184734432|SUPERIORITY||LS Means Difference|-2.17||||0.1032|TWO_SIDED|95.0|-4.78|0.45|||Mixed model repeated measures model|||||0.45|-4.78|0.1032
92422682|NCT02339285|184734444|OTHER|F-test; Treatment effect|||||>|0.1|||||||ANOVA|F(2, 29)||"Null hypothesis: There is no difference baseline and the 4 week follow up in MADRS score between treatment groups.~Alternative hypothesis: There is a difference between baseline and the 4 week follow up MADRS score between treatment groups."||||>0.10
92422683|NCT02339285|184734444|OTHER|F-test; Session effect|||||<|0.001|||||||ANOVA|F(1, 31)||"Null hypothesis: There is no difference baseline and the 4 week follow up in MADRS score between treatment groups.~Alternative hypothesis: There is a difference between baseline and the 4 week follow up MADRS score between treatment groups."||||<0.001
92422684|NCT02339285|184734444|OTHER|F-test; Interaction effect (session x treatment)|||||>|0.1|||||||ANOVA|F(2,29)||||||>0.10
92422685|NCT02339285|184734445|OTHER|F-test; Condition effect|||||<|0.05|||||||ANOVA|F(2,21.595)||"Null hypothesis: There is no difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups.~Alternative hypothesis: There is a difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups."||||<0.05
92422686|NCT02339285|184734445|OTHER|F-test; Region effect (region defined as region of brain - frontal, parietal, occipital temporal)|||||<|0.001|||||||ANOVA|F(3, 79.358)||"Null hypothesis: There is no difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups.~Alternative hypothesis: There is a difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups."||||<0.001
92394729|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|10.0||||1|TWO_SIDED|95.0|-40.2|60.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||60.2|-40.2|1.000
92394730|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|18.3||||0.392|TWO_SIDED|95.0|-22.9|59.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||59.6|-22.9|0.392
92394731|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|2.9||||1|TWO_SIDED|95.0|-44.7|50.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||50.5|-44.7|1.000
92394732|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|29.0||||0.07|TWO_SIDED|95.0|6.5|51.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||51.5|6.5|0.070
92394733|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|29.5||||0.007|TWO_SIDED|95.0|9.8|49.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||49.2|9.8|0.007
92394734|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|3.3||||0.826|TWO_SIDED|95.0|-26.1|32.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||32.8|-26.1|0.826
92394735|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|0.3||||1|TWO_SIDED|95.0|-27.2|27.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||27.7|-27.2|1.000
92394736|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-5.2||||0.649|TWO_SIDED|95.0|-27.8|17.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||17.3|-27.8|0.649
92394737|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-16.7||||0.304|TWO_SIDED|95.0|-45.7|12.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||12.4|-45.7|0.304
92394738|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|10.3||||0.72|TWO_SIDED|95.0|-18.2|38.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||38.7|-18.2|0.720
92394739|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|1.2||||0.923|TWO_SIDED|95.0|-23.0|25.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||25.4|-23.0|0.923
92394740|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-20.0||||0.197|TWO_SIDED|95.0|-50.4|10.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||10.4|-50.4|0.197
92394741|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|11.5||||0.486|TWO_SIDED|95.0|-20.4|43.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||43.5|-20.4|0.486
92394742|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|17.9||||0.168|TWO_SIDED|95.0|-7.0|42.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||42.7|-7.0|0.168
92236313|NCT03249350|184376313|SUPERIORITY||Slope|-0.004|STANDARD_ERROR_OF_MEAN|0.06||0.95|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.95
92236314|NCT03249350|184376314|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.11||0.88|TWO_SIDED||||||Mixed Models Analysis|||APQ - Poor Monitoring - Parent Report Mixed effects regression model tested for between-group differences in change over time.||||0.88
92236315|NCT03249350|184376315|SUPERIORITY||Slope|0.16|STANDARD_ERROR_OF_MEAN|0.09||0.06|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.06
92236316|NCT03249350|184376316|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.5|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.50
92236317|NCT03249350|184376317|SUPERIORITY||Slope|0.32|STANDARD_ERROR_OF_MEAN|0.15||0.03|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.03
92394743|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|-3.3||||0.833|TWO_SIDED|95.0|-34.3|27.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||27.6|-34.3|0.833
92394744|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|22.6||||0.173|TWO_SIDED|95.0|-8.2|53.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||53.4|-8.2|0.173
92394745|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|17.6||||0.178|TWO_SIDED|95.0|-7.6|42.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||42.8|-7.6|0.178
92394746|NCT02365649|184687473|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-30.9|30.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|ANCOVA||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||30.9|-30.9|1.000
92394747|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-27.8||||0.58|TWO_SIDED|95.0|-71.9|16.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||16.3|-71.9|0.580
92394748|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-6.9||||1|TWO_SIDED|95.0|-53.6|39.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||39.7|-53.6|1.000
92394749|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-24.4||||0.58|TWO_SIDED|95.0|-72.2|23.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||23.3|-72.2|0.580
92394750|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-38.9||||0.287|TWO_SIDED|95.0|-83.0|5.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||5.2|-83.0|0.287
92394751|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-5.6||||1|TWO_SIDED|95.0|-53.0|41.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||41.9|-53.0|1.000
92394752|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-15.6||||1|TWO_SIDED|95.0|-69.4|38.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||38.3|-69.4|1.000
92394753|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-27.8||||0.58|TWO_SIDED|95.0|-71.9|16.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||16.3|-71.9|0.580
92422687|NCT02339285|184734445|OTHER|F-test; Interaction effect (region x condition)|||||>|0.1|||||||ANOVA|F(6, 68.284)||"Null hypothesis: There is no difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups.~Alternative hypothesis: There is a difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups."||||>0.10
92422688|NCT02339285|184734446|OTHER||||||>|0.1|||||||ANOVA|||"Null hypothesis: There is no difference in changes of alpha frequency power between baseline EEG and EEG 4 weeks after completion of the intervention between treatment groups.~Alternative hypothesis: There is a difference in changes of alpha frequency power between baseline EEG and EEG 4 weeks after completion of the intervention between treatment groups."||||>0.10
92422689|NCT02053051|184734451|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
92236318|NCT03249350|184376318|SUPERIORITY||Slope|-0.21|STANDARD_ERROR_OF_MEAN|0.33||0.54|TWO_SIDED||||||Mixed Models Analysis|||GAIN - Substance Frequency Mixed effects regression model tested for between-group differences in change over time.||||0.54
92236319|NCT03249350|184376319|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.09||0.89|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.89
92236320|NCT03249350|184376320|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.31|TWO_SIDED||||||Mixed Models Analysis|||BISBAS Drive - Youth Report. Mixed effects regression model tested for between-group differences in change over time.||||0.31
92422690|NCT01920555|184734456|SUPERIORITY||Mean Difference (Final Values)|-3.18||||0.14|TWO_SIDED|95.0|-5.93|-0.43||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.43|-5.93|0.14
92422691|NCT01920555|184734456|SUPERIORITY||Mean Difference (Final Values)|-1.13||||0.79|TWO_SIDED|95.0|-3.75|1.49||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||1.49|-3.75|0.79
92422692|NCT01920555|184734456|SUPERIORITY||Mean Difference (Final Values)|-4.79|||<|0.01|TWO_SIDED|95.0|-7.35|-2.24||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-2.24|-7.35|<0.01
92422693|NCT01920555|184734456|SUPERIORITY||Mean Difference (Final Values)|-3.76||||0.04|TWO_SIDED|95.0|-6.37|-1.15|||Mixed Models Analysis|||"Ketamine 1.0mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-1.15|-6.37|0.04
92422694|NCT01920555|184734456|SUPERIORITY||Mean Difference (Final Values)|-2.04||||0.72|TWO_SIDED|95.0|-5.04|0.95||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.95|-5.04|0.72
92422695|NCT01920555|184734456|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.8|TWO_SIDED|95.0|-3.18|2.46||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||2.46|-3.18|0.80
92422696|NCT01920555|184734456|SUPERIORITY||Mean Difference (Final Values)|-3.12||||0.14|TWO_SIDED|95.0|-5.97|-0.44||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.44|-5.97|0.14
92236321|NCT03249350|184376321|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.05||0.35|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.35
92422697|NCT01920555|184734456|SUPERIORITY||Mean Difference (Final Values)|-1.84||||0.72|TWO_SIDED|95.0|-4.65|0.96||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.96|-4.65|0.72
92446504|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.604||0.153|TWO_SIDED|95.0|-2.06|0.33||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 3||0.33|-2.06|0.153
92236322|NCT03249350|184376322|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.05||0.13|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.13
92446505|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.681||0.994|TWO_SIDED|95.0|-1.34|1.35||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 4||1.35|-1.34|0.994
92422698|NCT01920555|184734457|SUPERIORITY||Mean Difference (Final Values)|-5.15||||0.33|TWO_SIDED|95.0|-12.44|2.14||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were four pairwise comparisons of interest (see Analysis 1-4), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||2.14|-12.44|0.33
92422699|NCT01920555|184734457|SUPERIORITY||Mean Difference (Final Values)|-2.16||||0.53|TWO_SIDED|95.0|-9.03|4.72||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were four pairwise comparisons of interest (see Analysis 1-4), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||4.72|-9.03|0.53
92422700|NCT01920555|184734457|SUPERIORITY||Mean Difference (Final Values)|-9.85||||0.02|TWO_SIDED|95.0|-16.56|-3.15||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were four pairwise comparisons of interest (see Analysis 1-4), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-3.15|-16.56|0.02
92422701|NCT01920555|184734457|SUPERIORITY||Mean Difference (Final Values)|-7.72||||0.08|TWO_SIDED|95.0|-14.52|-0.93||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were four pairwise comparisons of interest (see Analysis 1-4), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.93|-14.52|0.08
92422702|NCT01920555|184734458|SUPERIORITY||Mean Difference (Final Values)|-1.03||||0.08|TWO_SIDED|95.0|-1.83|-0.22|||Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.22|-1.83|0.08
92236323|NCT03249350|184376323|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.04||0.3|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.30
92446506|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.679||0.365|TWO_SIDED|95.0|-1.96|0.73||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 5||0.73|-1.96|0.365
92446507|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.653||0.088|TWO_SIDED|95.0|-2.41|0.17||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 6||0.17|-2.41|0.088
92446508|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|0.25|STANDARD_ERROR_OF_MEAN|0.397||0.535|TWO_SIDED|95.0|-0.54|1.03||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 1||1.03|-0.54|0.535
92236324|NCT03249350|184376324|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.7|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.70
92446509|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.502||0.412|TWO_SIDED|95.0|-1.4|0.58||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 2||0.58|-1.40|0.412
92446510|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.522||0.354|TWO_SIDED|95.0|-1.52|0.55||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 3||0.55|-1.52|0.354
92446511|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.59||0.589|TWO_SIDED|95.0|-1.49|0.85||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 4||0.85|-1.49|0.589
92422703|NCT01920555|184734458|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.82|TWO_SIDED|95.0|-1.02|0.51||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.51|-1.02|0.82
92394754|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|5.6||||1|TWO_SIDED|95.0|-41.9|53.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||53.0|-41.9|1.000
92394755|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-24.4||||0.58|TWO_SIDED|95.0|-72.2|23.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||23.3|-72.2|0.580
92394756|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-44.4||||0.103|TWO_SIDED|95.0|-76.9|-12.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||-12.0|-76.9|0.103
92394757|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|5.6||||1|TWO_SIDED|95.0|-41.9|53.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||53.0|-41.9|1.000
92394758|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-4.4||||1|TWO_SIDED|95.0|-58.3|49.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||49.4|-58.3|1.000
92394759|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-48.7|48.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||48.7|-48.7|1.000
92394760|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|16.7||||0.637|TWO_SIDED|95.0|-29.7|63.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||63.0|-29.7|0.637
92394761|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-60.0|33.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||33.3|-60.0|1.000
92394762|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|18.6||||0.57|TWO_SIDED|95.0|-29.4|66.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||66.6|-29.4|0.570
92394763|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-14.8||||0.33|TWO_SIDED|95.0|-39.7|10.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||10.2|-39.7|0.330
92394764|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-10.3||||1|TWO_SIDED|95.0|-40.0|19.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||19.4|-40.0|1.000
92394765|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|18.6||||0.57|TWO_SIDED|95.0|-29.4|66.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||66.6|-29.4|0.570
92422704|NCT01920555|184734458|SUPERIORITY||Mean Difference (Final Values)|-1.28||||0.0072|TWO_SIDED|95.0|-2.02|-0.54||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.54|-2.02|0.00720
92394766|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-14.8||||0.33|TWO_SIDED|95.0|-39.7|10.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||10.2|-39.7|0.330
92422705|NCT01920555|184734458|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.04884|TWO_SIDED|95.0|-1.81|-0.29||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.29|-1.81|0.04884
92422706|NCT01920555|184734458|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.48|TWO_SIDED|95.0|-1.7|0.28||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.28|-1.70|0.48
92422707|NCT01920555|184734458|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.82|TWO_SIDED|95.0|-1.32|0.55||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.55|-1.32|0.82
92422708|NCT01920555|184734458|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.16|TWO_SIDED|95.0|-1.91|-0.09||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.09|-1.91|0.16
92422709|NCT01920555|184734458|SUPERIORITY||Mean Difference (Final Values)|-0.86||||0.27|TWO_SIDED|95.0|-1.78|0.07||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.07|-1.78|0.27
92422710|NCT01920555|184734459|SUPERIORITY||Mean Difference (Net)|-0.54||||0.54|TWO_SIDED|95.0|-1.25|0.17||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.17|-1.25|0.54
92422711|NCT01920555|184734459|SUPERIORITY||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.78|0.58||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.58|-0.78|1.00
92422712|NCT01920555|184734459|SUPERIORITY||Mean Difference (Final Values)|-0.98||||0.03|TWO_SIDED|95.0|-1.64|-0.31||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.31|-1.64|0.03
92422713|NCT01920555|184734459|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.54|TWO_SIDED|95.0|-1.24|0.11||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.11|-1.24|0.54
92422714|NCT01920555|184734459|SUPERIORITY||Mean Difference (Final Values)|-0.19||||1|TWO_SIDED|95.0|-0.96|0.57||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.57|-0.96|1.00
92394767|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|0.8||||1|TWO_SIDED|95.0|-33.8|35.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||35.4|-33.8|1.000
92394768|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-1.4||||1|TWO_SIDED|95.0|-42.6|39.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||39.7|-42.6|1.000
92394769|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-21.4||||0.1|TWO_SIDED|95.0|-42.9|0.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||0.1|-42.9|0.100
92394770|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|0.8||||1|TWO_SIDED|95.0|-33.8|35.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||35.4|-33.8|1.000
92394771|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|5.7||||1|TWO_SIDED|95.0|-33.8|45.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||45.3|-33.8|1.000
92394772|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-7.6||||0.598|TWO_SIDED|95.0|-29.9|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||14.6|-29.9|0.598
92422715|NCT01920555|184734459|SUPERIORITY||Mean Difference (Final Values)|-0.21||||1|TWO_SIDED|95.0|-0.93|0.51||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.51|-0.93|1.00
92422716|NCT01920555|184734459|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.52|TWO_SIDED|95.0|-1.35|0.06||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.06|-1.35|0.52
92422717|NCT01920555|184734459|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.54|TWO_SIDED|95.0|-1.33|0.1||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.10|-1.33|0.54
92422718|NCT01920555|184734460|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.74|TWO_SIDED|95.0|-0.79|0.08||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.08|-0.79|0.74
92394773|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-3.2||||1|TWO_SIDED|95.0|-30.7|24.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||24.3|-30.7|1.000
92394774|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|12.9||||0.468|TWO_SIDED|95.0|-24.7|50.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared|||Non-responders, Week 52|Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|50.4|-24.7|0.468
92394775|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|6.2||||1|TWO_SIDED|95.0|-15.7|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||28.1|-15.7|1.000
92394776|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|15.1||||0.538|TWO_SIDED|95.0|-15.2|45.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||45.4|-15.2|0.538
92394777|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-11.2||||0.692|TWO_SIDED|95.0|-48.0|25.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||25.6|-48.0|0.692
92394778|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-14.5||||0.388|TWO_SIDED|95.0|-46.9|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||17.9|-46.9|0.388
92394779|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-19.0||||0.418|TWO_SIDED|95.0|-54.8|16.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||16.9|-54.8|0.418
92394780|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-17.1||||0.448|TWO_SIDED|95.0|-54.1|20.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||20.0|-54.1|0.448
92394781|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-13.7||||0.43|TWO_SIDED|95.0|-47.4|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||19.9|-47.4|0.430
92394782|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-2.6||||1|TWO_SIDED|95.0|-42.8|37.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||37.6|-42.8|1.000
92394783|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-21.2||||0.406|TWO_SIDED|95.0|-55.3|12.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||12.9|-55.3|0.406
92394784|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-14.5||||0.388|TWO_SIDED|95.0|-46.9|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||17.9|-46.9|0.388
92394785|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-7.8||||1|TWO_SIDED|95.0|-46.5|30.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||30.8|-46.5|1.000
92394786|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-25.3||||0.204|TWO_SIDED|95.0|-54.7|4.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||4.1|-54.7|0.204
92394787|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-2.0||||0.907|TWO_SIDED|95.0|-34.9|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||31.0|-34.9|0.907
92422719|NCT01920555|184734460|SUPERIORITY||Mean Difference (Final Values)|0.04||||1|TWO_SIDED|95.0|-0.37|0.45||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.45|-0.37|1.00
92422720|NCT01920555|184734460|SUPERIORITY||Mean Difference (Final Values)|-0.61||||0.02|TWO_SIDED|95.0|-1.01|-0.21||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.21|-1.01|0.02
92422721|NCT01920555|184734460|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.8|TWO_SIDED|95.0|-0.72|0.1||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.10|-0.72|0.80
92422722|NCT01920555|184734460|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.88|TWO_SIDED|95.0|-0.83|0.18||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.18|-0.83|0.88
92422723|NCT01920555|184734460|SUPERIORITY||Mean Difference (Final Values)|-0.05||||1|TWO_SIDED|95.0|-0.53|0.44||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.44|-0.53|1.00
92422724|NCT01920555|184734460|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.88|TWO_SIDED|95.0|-0.79|0.15||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.15|-0.79|0.88
92422725|NCT01920555|184734460|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.88|TWO_SIDED|95.0|-0.76|0.19||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.19|-0.76|0.88
92422726|NCT01920555|184734461|SUPERIORITY||Mean Difference (Final Values)|11.18||||0.49|TWO_SIDED|95.0|-0.94|23.29||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||23.29|-0.94|0.49
92422727|NCT01920555|184734461|SUPERIORITY||Mean Difference (Final Values)|1.37||||1|TWO_SIDED|95.0|-10.19|12.93||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||12.93|-10.19|1.00
92394788|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|-2.0||||1|TWO_SIDED|95.0|-40.2|36.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||36.3|-40.2|1.000
92236325|NCT03249350|184376325|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.89|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.89
92394789|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|6.5||||1|TWO_SIDED|95.0|-28.4|41.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||41.3|-28.4|1.000
92394790|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|16.5||||0.45|TWO_SIDED|95.0|-15.5|48.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||48.4|-15.5|0.450
92394791|NCT02365649|184687474|SUPERIORITY||Risk Difference (RD)|9.8||||0.661|TWO_SIDED|95.0|-27.0|46.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||46.6|-27.0|0.661
92394792|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-77.5|77.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||77.5|-77.5|1.000
92394793|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|25.0||||0.608|TWO_SIDED|95.0|-20.8|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||70.8|-20.8|0.608
92394794|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-50.0||||0.105|TWO_SIDED|95.0|-84.6|-15.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||-15.4|-84.6|0.105
92394795|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-77.5|77.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||77.5|-77.5|1.000
92394796|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-49.0|49.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||49.0|-49.0|1.000
92394797|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-30.0||||0.565|TWO_SIDED|95.0|-79.3|19.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|ANOVA||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||19.3|-79.3|0.565
92394798|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|50.0||||0.467|TWO_SIDED|95.0|15.4|84.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||84.6|15.4|0.467
92422728|NCT01920555|184734461|SUPERIORITY||Mean Difference (Final Values)|16.54||||0.03|TWO_SIDED|95.0|5.31|27.77||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||27.77|5.31|0.03
92394799|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-49.0|49.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||49.0|-49.0|1.000
92394800|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-50.0||||0.105|TWO_SIDED|95.0|-84.6|-15.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||-15.4|-84.6|0.105
92394801|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-64.5|89.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||89.5|-64.5|1.000
92394802|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-35.7|60.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||60.7|-35.7|1.000
92394803|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-17.5||||1|TWO_SIDED|95.0|-66.0|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||31.0|-66.0|1.000
92394804|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|50.0||||0.467|TWO_SIDED|95.0|15.4|84.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||84.6|15.4|0.467
92394805|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-35.7|60.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||60.7|-35.7|1.000
92394806|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-50.0||||0.105|TWO_SIDED|95.0|-84.6|-15.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||-15.4|-84.6|0.105
92394807|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|26.7||||0.249|TWO_SIDED|95.0|-19.6|72.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||72.9|-19.6|0.249
92394808|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-28.2|18.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||18.2|-28.2|1.000
92394809|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-13.3||||0.511|TWO_SIDED|95.0|-30.5|3.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||3.9|-30.5|0.511
92394810|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|33.3||||0.14|TWO_SIDED|95.0|-11.4|78.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||78.1|-11.4|0.140
92394811|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|10.0||||0.569|TWO_SIDED|95.0|-14.6|34.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||34.6|-14.6|0.569
92394812|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|4.4||||1|TWO_SIDED|95.0|-19.7|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||28.5|-19.7|1.000
92394813|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|26.7||||0.249|TWO_SIDED|95.0|-19.6|72.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||72.9|-19.6|0.249
92394814|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-28.2|18.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||18.2|-28.2|1.000
92394815|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-2.2||||1|TWO_SIDED|95.0|-29.0|24.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||24.6|-29.0|1.000
92394816|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|13.3||||0.613|TWO_SIDED|95.0|-35.1|61.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||61.8|-35.1|0.613
92422729|NCT01920555|184734461|SUPERIORITY||Mean Difference (Final Values)|8.68||||0.82|TWO_SIDED|95.0|-2.81|20.16||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||20.16|-2.81|0.82
92422730|NCT01920555|184734461|SUPERIORITY||Mean Difference (Final Values)|5.11||||1|TWO_SIDED|95.0|-8.83|19.05||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||19.05|-8.83|1.00
92422731|NCT01920555|184734461|SUPERIORITY||Mean Difference (Final Values)|-6.64||||1|TWO_SIDED|95.0|-19.87|6.59||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||6.59|-19.87|1.00
92422732|NCT01920555|184734461|SUPERIORITY||Mean Difference (Final Values)|7.64||||1|TWO_SIDED|95.0|-5.26|20.53||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||20.53|-5.26|1.00
92446512|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.569||0.36|TWO_SIDED|95.0|-1.65|0.6||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 5||0.60|-1.65|0.360
92394817|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-1.7||||1|TWO_SIDED|95.0|-34.8|31.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||31.5|-34.8|1.000
92394818|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-15.6||||0.615|TWO_SIDED|95.0|-45.9|14.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||14.8|-45.9|0.615
92394819|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|20.0||||0.56|TWO_SIDED|95.0|-27.5|67.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||67.5|-27.5|0.560
92394820|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-26.8|36.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared|||Non-responders, Week 52||36.8|-26.8|1.000
92446513|NCT02477020|184780038|SUPERIORITY_OR_OTHER||Least square mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.635||0.288|TWO_SIDED|95.0|-1.93|0.58||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 6||0.58|-1.93|0.288
92446514|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.59||0.238|TWO_SIDED|95.0|-1.87|0.47||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 1||0.47|-1.87|0.238
92446515|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.784||0.359|TWO_SIDED|95.0|-2.27|0.83||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 2||0.83|-2.27|0.359
92422733|NCT01920555|184734461|SUPERIORITY||Mean Difference (Final Values)|4.8||||1|TWO_SIDED|95.0|-8.31|17.91||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||17.91|-8.31|1.00
92422734|NCT01920555|184734462|SUPERIORITY||Mean Difference (Final Values)|-1.21||||1|TWO_SIDED|95.0|-3.99|1.56||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||1.56|-3.99|1.00
92422735|NCT01920555|184734462|SUPERIORITY||Mean Difference (Final Values)|0.76||||0.17|TWO_SIDED|95.0|-1.9|3.43||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||3.43|-1.90|0.17
92422736|NCT01920555|184734462|SUPERIORITY||Mean Difference (Final Values)|-2.74||||0.3|TWO_SIDED|95.0|-5.32|-0.16||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.16|-5.32|0.30
92422737|NCT01920555|184734462|SUPERIORITY||Mean Difference (Final Values)|-0.71||||1|TWO_SIDED|95.0|-3.35|1.93||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||1.93|-3.35|1.00
92422738|NCT01920555|184734462|SUPERIORITY||Mean Difference (Final Values)|-0.29||||1|TWO_SIDED|95.0|-3.25|2.66||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||2.66|-3.25|1.00
92422739|NCT01920555|184734462|SUPERIORITY||Mean Difference (Final Values)|2.76||||0.39|TWO_SIDED|95.0|-0.06|5.59||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||5.59|-0.06|0.39
92422740|NCT01920555|184734462|SUPERIORITY||Mean Difference (Final Values)|-1.17||||1|TWO_SIDED|95.0|-3.91|1.58||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||1.58|-3.91|1.00
92422741|NCT01920555|184734462|SUPERIORITY||Mean Difference (Final Values)|-0.43||||1|TWO_SIDED|95.0|-3.22|2.35||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||2.35|-3.22|1.00
92422742|NCT01193660|184734473|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|2.59|||<|0.05||95.0|||||Repeated Measure ANOVA|||In our analysis, the null hypothesis is that the effects of 3 experimental groups are same, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
92422743|NCT01193660|184734474|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|3.94|||<|0.05||95.0|||||Repeated Measure ANOVA|||The null hypothesis is that in terms of K-BSID-II MENTAL Scale, the effects of 3 groups are same, and the alternative one is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
92422744|NCT01193660|184734475|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|2.7|||<|0.05||95.0|||||Repeated Measure ANOVA|||The null hypothesis is that in terms of K-BSID-II MOTOR Scale, the effects of 3 groups are same, and the alternative one is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
92422745|NCT01193660|184734477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0||||The baseline and post-therapy data of each group were compared using paired t-test statistics.|t-test, 2 sided|Voxels with an uncorrected p-value of \<0.05 were considered significant, and an extent threshold Ke of 100 voxels was set by SPM implanted in Matlab.||In our analysis, the null hypothesis is that the effects of three experimental groups are same each other, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) has much higher than that of either Erythropoietin + Rehabilitation Group or Rehabilitation Group. This study is a pilot study and therefore, power calculation was not applicable in our study. The sample size of each group is more than 30.||||0.05
92422746|NCT01193660|184734479|SUPERIORITY_OR_OTHER_LEGACY||interaction of group and visit|0.9|||<|0.05||95.0|||||Repeated Measure ANOVA|||In our analysis, the null hypothesis is that the effects of 3 experimental groups are same, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
92422747|NCT01193660|184734480|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|1.279|||<|0.05||95.0|||||Repeated Measure ANOVA|||In our analysis, the null hypothesis is that the effects of 3 experimental groups are same, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
92422748|NCT01193660|184734481|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|0.996|||<|0.05||95.0|||||Repeated Measure ANOVA|||In our analysis, the null hypothesis is that the effects of 3 experimental groups are same, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
92422749|NCT01193660|184734482|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|0.56|||<|0.05||95.0|||||Repeated Measure ANOVA|||In our analysis, the null hypothesis is that the effects of 3 experimental groups are same, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
92422750|NCT01193660|184734483|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Fisher Exact|We compared the ratio of participants with a certain adverse event (AE) and without the AE between three groups using Fisher Exact test.||||||<0.05
92422751|NCT00195273|184734484|SUPERIORITY_OR_OTHER|||||||0.6081||||||Calculated for 12 month analysis|ANOVA|Analysis of variance with treatment group and center as factors||||||0.6081
92422752|NCT00195273|184734487|SUPERIORITY_OR_OTHER|||||||0.4662|||||||ANOVA|Calculated for 3 month analysis||||||0.4662
92394821|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-8.9||||1|TWO_SIDED|95.0|-37.7|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||19.9|-37.7|1.000
92394822|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|10.0||||1|TWO_SIDED|95.0|-37.1|57.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||57.1|-37.1|1.000
92394823|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|10.0||||0.588|TWO_SIDED|95.0|-26.1|46.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||46.1|-26.1|0.588
92394824|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-40.0||||0.058|TWO_SIDED|95.0|-64.8|-15.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||-15.2|-64.8|0.058
92394825|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|16.7||||0.631|TWO_SIDED|95.0|-29.9|63.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||63.2|-29.9|0.631
92394826|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|9.5||||0.597|TWO_SIDED|95.0|-25.7|44.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||44.8|-25.7|0.597
92394827|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-8.3||||1|TWO_SIDED|95.0|-46.7|30.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||30.0|-46.7|1.000
92394828|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|26.7||||0.361|TWO_SIDED|95.0|-18.5|71.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||71.8|-18.5|0.361
92394829|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-4.3||||0.812|TWO_SIDED|95.0|-39.6|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||31.0|-39.6|0.812
92394830|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-27.5||||0.345|TWO_SIDED|95.0|-61.3|6.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||6.3|-61.3|0.345
92394831|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|10.0||||1|TWO_SIDED|95.0|-37.1|57.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||57.1|-37.1|1.000
92394832|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|10.0||||0.588|TWO_SIDED|95.0|-26.1|46.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||46.1|-26.1|0.588
92394833|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-15.0||||0.657|TWO_SIDED|95.0|-53.9|23.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||23.9|-53.9|0.657
92422753|NCT01886716|184734488|SUPERIORITY_OR_OTHER||Slope|-0.8|STANDARD_ERROR_OF_MEAN|0.95|=|0.4|TWO_SIDED||||||Mixed Models Analysis||F(1,517) = .71|"The analyses used multilevel modeling to capture both the trajectories of symptoms within individuals (i.e., level 1) and the hypothesized between-subject moderators of these trajectories, alcohol and anxiety attention training (i.e., level 2) across all 7 time points.~Note, although all 4 groups are included in this analysis, this analysis specifically compares anxiety vs. control training."||||=.40
92422754|NCT01886716|184734488|SUPERIORITY_OR_OTHER||Slope|0.27|STANDARD_ERROR_OF_MEAN|0.95|=|0.78|TWO_SIDED||||||Mixed Models Analysis||F(1,517) = .08|"The analyses used multilevel modeling to capture both the trajectories of symptoms within individuals (i.e., level 1) and the hypothesized between-subject moderators of these trajectories, alcohol and anxiety attention training (i.e., level 2) across all 7 time points.~Note, although all 4 groups are included in this analysis, this analysis specifically compares alcohol vs. control training."||||=.78
92394834|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|20.0||||0.635|TWO_SIDED|95.0|-25.4|65.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||65.4|-25.4|0.635
92394835|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|10.5||||0.573|TWO_SIDED|95.0|-25.7|46.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||46.7|-25.7|0.573
92394836|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-34.2||||0.176|TWO_SIDED|95.0|-68.3|-0.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||-0.1|-68.3|0.176
92394837|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-12.5||||1|TWO_SIDED|95.0|-35.4|10.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||10.4|-35.4|1.000
92394838|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-12.5||||1|TWO_SIDED|95.0|-35.4|10.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||10.4|-35.4|1.000
92394839|NCT02365649|184687475|SUPERIORITY||Risk Difference (RD)|-12.5||||1|TWO_SIDED|95.0|-35.4|10.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||10.4|-35.4|1.000
92394840|NCT02365649|184687476|SUPERIORITY||Risk Difference (RD)|-25.0||||1|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||5.0|-55.0|1.000
92394841|NCT02365649|184687476|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-32.5|57.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||57.5|-32.5|1.000
92394842|NCT02365649|184687476|SUPERIORITY||Risk Difference (RD)|-25.0||||0.487|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||5.0|-55.0|0.487
92394843|NCT02365649|184687476|SUPERIORITY||Risk Difference (RD)|11.1||||0.375|TWO_SIDED|95.0|-9.4|31.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ|Non-respoonders||31.6|-9.4|0.375
92394844|NCT02365649|184687476|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-30.5|3.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||3.9|-30.5|1.000
92394845|NCT02365649|184687476|SUPERIORITY||Risk Difference (RD)|8.1||||0.651|TWO_SIDED|95.0|-19.4|35.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||35.6|-19.4|0.651
92394846|NCT02365649|184687476|SUPERIORITY||Risk Difference (RD)|-0.8||||1|TWO_SIDED|95.0|-29.5|27.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||27.8|-29.5|1.000
92422755|NCT01886716|184734489|SUPERIORITY_OR_OTHER||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.07|=|0.67|TWO_SIDED||||||Mixed Models Analysis||F(1,517) = .18|"The analyses used multilevel modeling to capture both the trajectories of symptoms within individuals (i.e., level 1) and the hypothesized between-subject moderators of these trajectories, alcohol and anxiety attention training (i.e., level 2) across all 7 time points.~Note, although all 4 groups are included in this analysis, this analysis specifically compares alcohol vs. control training"||||=.67
92422756|NCT01886716|184734489|SUPERIORITY_OR_OTHER||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.07|=|0.32|TWO_SIDED||||||Mixed Models Analysis||F(1,517) = 1.01|"The analyses used multilevel modeling to capture both the trajectories of symptoms within individuals (i.e., level 1) and the hypothesized between-subject moderators of these trajectories, alcohol and anxiety attention training (i.e., level 2) across all 7 time points.~Note, although all 4 groups are included in this analysis, this analysis specifically compares anxiety vs. control training"||||=.32
92422757|NCT01051466|184734581|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||The significance level was 0.05 for a 2-sided test.|Mixed Models Analysis|||||||0.457
92422758|NCT01051466|184734582|SUPERIORITY_OR_OTHER|||||||0.627||||||The p-value is for change from baseline activation (BOLD response) in the anterior cingulate.|Mixed Models Analysis|||||||0.627
92394847|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-77.5|77.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||77.5|-77.5|1.000
92394848|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-49.0|49.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||49.0|-49.0|1.000
92394849|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-50.0||||0.105|TWO_SIDED|95.0|-84.6|-15.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||-15.4|-84.6|0.105
92394850|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-64.5|89.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||89.5|-64.5|1.000
92394851|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-35.7|60.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||60.7|-35.7|1.000
92394852|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-17.5||||1|TWO_SIDED|95.0|-66.0|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||31.0|-66.0|1.000
92394853|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|62.5||||0.444|TWO_SIDED|95.0|29.0|96.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||96.0|29.0|0.444
92394854|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|25.0||||0.619|TWO_SIDED|95.0|-22.4|72.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||72.4|-22.4|0.619
92394855|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-37.5||||0.231|TWO_SIDED|95.0|-71.0|-4.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||-4.0|-71.0|0.231
92394856|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-37.5||||1|TWO_SIDED|95.0|-71.0|-4.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||-4.0|-71.0|1.000
92394857|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|25.0||||0.619|TWO_SIDED|95.0|-22.4|72.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||72.4|-22.4|0.619
92394858|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-17.5||||1|TWO_SIDED|95.0|-66.0|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||31.0|-66.0|1.000
92394859|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|75.0||||0.133|TWO_SIDED|95.0|45.0|100.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||100.0|45.0|0.133
92394860|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|37.5||||0.315|TWO_SIDED|95.0|-7.5|82.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||82.5|-7.5|0.315
92394861|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-25.0||||0.487|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||5.0|-55.0|0.487
92422759|NCT01051466|184734582|SUPERIORITY_OR_OTHER|||||||0.338||||||The p-value is for change from baseline activation (BOLD response) in the left amygdala.|Mixed Models Analysis|||||||0.338
92422760|NCT01051466|184734582|SUPERIORITY_OR_OTHER|||||||0.518||||||The p-value is for change from baseline activation (BOLD response) in the right amygdala.|Mixed Models Analysis|||||||0.518
92422761|NCT01051466|184734583|SUPERIORITY_OR_OTHER|||||||0.03||||||The p-value is for change from baseline volume in the subgenual anterior cingulate.|Mixed Models Analysis|||||||0.030
92394862|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|26.7||||0.249|TWO_SIDED|95.0|-19.6|72.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||72.9|-19.6|0.249
92422762|NCT01051466|184734583|SUPERIORITY_OR_OTHER|||||||0.208||||||The p-value is for change from baseline volume in the left amygdalae.|Mixed Models Analysis|||||||0.208
92422763|NCT01051466|184734583|SUPERIORITY_OR_OTHER|||||||0.031||||||The p-value is for change from baseline volume in the right amygdalae.|Mixed Models Analysis|||||||0.031
92422764|NCT01051466|184734583|SUPERIORITY_OR_OTHER|||||||0.35||||||The p-value is for change from baseline volume in the left hippocampus.|Mixed Models Analysis|||||||0.350
92422765|NCT01051466|184734583|SUPERIORITY_OR_OTHER|||||||0.191||||||The p-value is for change from baseline volume in the right hippocampus.|Mixed Models Analysis|||||||0.191
92422766|NCT01051466|184734584|SUPERIORITY_OR_OTHER|||||||0.174||||||The p-value is for Gsα translocation in RBCs at Week 1.|Mixed Models Analysis|||||||0.174
92422767|NCT01051466|184734584|SUPERIORITY_OR_OTHER|||||||0.488||||||The p-value is for Gsα translocation in RBCs at Week 8.|Mixed Models Analysis|||||||0.488
92422768|NCT01051466|184734584|SUPERIORITY_OR_OTHER|||||||0.48||||||The p-value is for Gsα translocation in RBCs at Week 12.|Mixed Models Analysis|||||||0.480
92422769|NCT01051466|184734584|SUPERIORITY_OR_OTHER|||||||0.925||||||The p-value is for Gsα translocation in platelets at Week 1.|Mixed Models Analysis|||||||0.925
92422770|NCT01051466|184734584|SUPERIORITY_OR_OTHER|||||||0.697||||||The p-value is for Gsα translocation in platelets at Week 8.|Mixed Models Analysis|||||||0.697
92422771|NCT01051466|184734584|SUPERIORITY_OR_OTHER|||||||0.276||||||The p-value is for Gsα translocation in platelets at Week 12.|Mixed Models Analysis|||||||0.276
92422772|NCT01051466|184734586|SUPERIORITY_OR_OTHER|||||||0.904||||||The p-value is for change from baseline BDNF.|Mixed Models Analysis|||||||0.904
92422773|NCT01051466|184734586|SUPERIORITY_OR_OTHER|||||||0.819||||||The p-value is for change from baseline proBDNF.|Mixed Models Analysis|||||||0.819
92422774|NCT01051466|184734587|SUPERIORITY_OR_OTHER|||||||0.273||||||The p-value is for change from baseline trkB.|Mixed Models Analysis|||||||0.273
92422775|NCT01051466|184734588|SUPERIORITY_OR_OTHER|||||||0.797||||||The p-value is for change from baseline cytokine TNFα.|Mixed Models Analysis|||||||0.797
92422776|NCT01051466|184734588|SUPERIORITY_OR_OTHER|||||||0.269||||||The p-value is for change from baseline cytokine IL-1.|Mixed Models Analysis|||||||0.269
92422777|NCT01051466|184734588|SUPERIORITY_OR_OTHER|||||||0.925||||||The p-value is for change from baseline cytokine IL-6.|Mixed Models Analysis|||||||0.925
92422778|NCT00810108|184734597|NON_INFERIORITY_OR_EQUIVALENCE|The geometric mean and 90% confidence interval assessed whether the crushed and whole tablet administration AUCs were equivalent.|Ratio of Crushed/Whole Tablet AUC|0.55|||<|0.05|TWO_SIDED|90.0|0.45|0.69|||t-test, 2 sided|||Lopinavir AUC was compared between whole tablet and crushed tablet administration by using a ratio of crushed/whole AUC.||0.69|0.45|<0.05
92422779|NCT04806503|184734603|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.006|STANDARD_ERROR_OF_MEAN|0.0258||0.817|TWO_SIDED|95.0|-0.045|0.056|||Mixed-effect Model for Repeated Measures|||||0.056|-0.045|0.817
92422780|NCT04806503|184734603|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.002|STANDARD_ERROR_OF_MEAN|0.0262||0.946|TWO_SIDED|95.0|-0.05|0.053|||Mixed-effect Model for Repeated Measures|||||0.053|-0.050|0.946
92422781|NCT04806503|184734603|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|-0.024|STANDARD_ERROR_OF_MEAN|0.027||0.38|TWO_SIDED|95.0|-0.077|0.029|||Mixed-effect Model for Repeated Measures|||||0.029|-0.077|0.380
92422782|NCT04806503|184734603|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.011|STANDARD_ERROR_OF_MEAN|0.0258||0.667|TWO_SIDED|95.0|-0.039|0.062|||Mixed-effect Model for Repeated Measures|||||0.062|-0.039|0.667
92422783|NCT04806503|184734604|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.022|STANDARD_ERROR_OF_MEAN|0.0304||0.474|TWO_SIDED|95.0|-0.038|0.081|||Mixed-effect Model for Repeated Measures|||||0.081|-0.038|0.474
92422784|NCT04806503|184734604|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.025|STANDARD_ERROR_OF_MEAN|0.0309||0.419|TWO_SIDED|95.0|-0.036|0.086|||Mixed-effect Model for Repeated Measures|||||0.086|-0.036|0.419
92422785|NCT04806503|184734604|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.003|STANDARD_ERROR_OF_MEAN|0.0322||0.914||95.0|-0.06|0.067|||Mixed-effect Model for Repeated Measures|||||0.067|-0.060|0.914
92422786|NCT04806503|184734604|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.034|STANDARD_ERROR_OF_MEAN|0.0305||0.263|TWO_SIDED|95.0|-0.026|0.094|||Mixed-effect Model for Repeated Measures|||||0.094|-0.026|0.263
92422787|NCT04806503|184734605|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.029|STANDARD_ERROR_OF_MEAN|0.0273||0.284|TWO_SIDED|95.0|-0.024|0.083|||Mixed-effect Model for Repeated Measures|||||0.083|-0.024|0.284
92422788|NCT04806503|184734605|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.01|STANDARD_ERROR_OF_MEAN|0.0278||0.711|TWO_SIDED|95.0|-0.044|0.065|||Mixed-effect Model for Repeated Measures|||||0.065|-0.044|0.711
92422789|NCT04806503|184734605|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.005|STANDARD_ERROR_OF_MEAN|0.0284||0.871|TWO_SIDED|95.0|-0.051|0.06|||Mixed-effect Model for Repeated Measures|||||0.060|-0.051|0.871
92422790|NCT04806503|184734605|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.027|STANDARD_ERROR_OF_MEAN|0.0273||0.329|TWO_SIDED|95.0|-0.027|0.08|||Mixed-effect Model for Repeated Measures|||||0.080|-0.027|0.329
92422791|NCT04806503|184734606|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.95||||0.516|TWO_SIDED|95.0|0.083|10.847|||Multiple Imputation, Logistic Regression|||||10.847|0.083|0.516
92422792|NCT04806503|184734606|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|2.45||||0.177|TWO_SIDED|95.0|0.367|16.398|||Multiple Imputation, Logistic Regression|||||16.398|0.367|0.177
92422793|NCT04806503|184734606|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|3.65||||0.079|TWO_SIDED|95.0|0.604|22.094|||Multiple Imputation, Logistic Regression|||||22.094|0.604|0.079
92422794|NCT04806503|184734606|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|1.07||||0.476|TWO_SIDED|95.0|0.136|8.381|||Multiple Imputation, Logistic Regression|||||8.381|0.136|0.476
92422795|NCT04806503|184734607|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.87||||0.577|TWO_SIDED|95.0|0.201|3.726|||Multiple Imputation, Logistic Regression|||||3.726|0.201|0.577
92422796|NCT04806503|184734607|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.52||||0.804|TWO_SIDED|95.0|0.113|2.353|||Multiple Imputation, Logistic Regression|||||2.353|0.113|0.804
92422797|NCT04806503|184734607|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.34||||0.85|TWO_SIDED|95.0|0.045|2.602|||Multiple Imputation, Logistic Regression|||||2.602|0.045|0.850
92422798|NCT04806503|184734607|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.69||||0.684|TWO_SIDED|95.0|0.157|3.08|||Multiple Imputation, Logistic Regression|||||3.080|0.157|0.684
92422799|NCT04806503|184734608|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.56||||0.728|TWO_SIDED|95.0|0.089|3.593|||Multiple Imputation, Logistic Regression|||||3.593|0.089|0.728
92422800|NCT04806503|184734608|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|1.16||||0.428|TWO_SIDED|95.0|0.242|5.529|||Multiple Imputation, Logistic Regression|||||5.529|0.242|0.428
92422801|NCT04806503|184734608|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.0||||0.5|TWO_SIDED|95.0|0.0||NA when n = 1.||Multiple Imputation, Logistic Regression||||||0.000|0.500
92422802|NCT04806503|184734608|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.28||||0.851|TWO_SIDED|95.0|0.026|3.07|||Multiple Imputation, Logistic Regression|||||3.070|0.026|0.851
92422803|NCT01288027|184734658|SUPERIORITY_OR_OTHER|||||||0.186|TWO_SIDED||||||one sample t-test|||Statistical significance for change from Baseline was measured using one sample t-test||||0.1860
92422804|NCT02556203|184734667|NON_INFERIORITY|1-sided Confidence interval|Hazard Ratio (HR)|1.2089302|||||ONE_SIDED|97.5||1.7040824||||||"H0: HR(t)\>=1.20 for all time points t\>=0, (i.e. the hazard for the primary efficacy endpoint in the rivaroxaban-based treatment group is more than 20% larger than that in the antiplatelet-based control group)"||1.7040824||
92422805|NCT02556203|184734668|SUPERIORITY|2-sided Log Rank test|Hazard Ratio (HR)|1.35|||=|0.04223|TWO_SIDED|95.0|1.01|1.81|||Log Rank|||||1.81|1.01|= 0.04223
92422806|NCT02556203|184734669|OTHER|Descriptive. 2-sided Log Rank test.|Hazard Ratio (HR)|1.5|||=|0.07745|TWO_SIDED|95.0|0.95|2.37|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||2.37|0.95|= 0.07745
92422807|NCT02556203|184734670|SUPERIORITY|2-sided Log Rank test|Hazard Ratio (HR)|1.39|||=|0.01156|TWO_SIDED|95.0|1.08|1.8|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||1.80|1.08|= 0.01156
92422808|NCT02556203|184734671|SUPERIORITY|2-sided Log Rank test|Hazard Ratio (HR)|1.22|||=|0.21595|TWO_SIDED|95.0|0.89|1.69|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||1.69|0.89|= 0.21595
92422809|NCT02556203|184734672|OTHER|Descriptive. 2-sided Log Rank test.|Hazard Ratio (HR)|1.78|||=|0.02216|TWO_SIDED|95.0|1.08|2.94|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||2.94|1.08|= 0.02216
92422810|NCT02556203|184734673|OTHER|Descriptive. 2-sided Log Rank test.|Hazard Ratio (HR)|1.66|||=|0.02702|TWO_SIDED|95.0|1.05|2.62|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||2.62|1.05|= 0.02702
92422811|NCT02556203|184734674|OTHER|Descriptive. 2-sided Log Rank test.|Hazard Ratio (HR)|1.84|||=|1e-05|TWO_SIDED|95.0|1.41|2.41|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||2.41|1.41|= 0.00001
92422812|NCT00739999|184734675|SUPERIORITY_OR_OTHER_LEGACY||Atorvastatin CL/F based on 70 kg BW|699.0|||||TWO_SIDED|95.0|570.0|881.0|||non-linear mixed-effects model|Measures of parameter estimation uncertainty (95% CI) were determined by non-parametric bootstrap analysis.||Atorvastatin apparent clearance (CL/F) was described as a function of body weight using an allometric equation. The estimated parameter given is an extrapolation of the model for participants who weigh 70 kg.||881|570|
92422813|NCT00369122|184734723|OTHER||||||||||||||||||Based on a report by Laciano, et al. an SAE rate of 5% and AE rate of 35% were considered tolerable and an SAE rate \>=20% and AE rate \>=55% excessive. If there were \>=6 pts with SAES or \>=22 pts with AEs then the treatment would be rejected. This study design provides alpha of 0.05 and power of 90%.|||
92422814|NCT03633617|184734731|SUPERIORITY||Difference in proportion|55.3|||<|0.0001|TWO_SIDED|95.0|39.58|71.04|||Cochran-Mantel-Haenszel||Difference is dupilumab minus placebo|||71.04|39.58|<0.0001
92422815|NCT03633617|184734731|SUPERIORITY||Difference in proportion|56.0|||<|0.0001|TWO_SIDED|95.0|43.44|68.54|||Cochran-Mantel-Haenszel||Difference is dupilumab minus placebo|||68.54|43.44|<0.0001
92422816|NCT03633617|184734731|SUPERIORITY||Difference in proportion|53.5|||<|0.0001|TWO_SIDED|95.0|41.2|65.79|||Cochran-Mantel-Haenszel||Difference is dupilumab minus placebo|||65.79|41.20|<0.0001
92422817|NCT03633617|184734732|SUPERIORITY||LS Mean Difference|-12.32||||0.0004|TWO_SIDED|95.0|-19.107|-5.537|||ANCOVA||Dupilumab group vs. Placebo|||-5.537|-19.107|0.0004
92422818|NCT03633617|184734732|SUPERIORITY||LS Mean Difference|-0.51||||0.8393|TWO_SIDED|95.0|-5.423|4.406|||ANCOVA||Dupilumab group vs. Placebo|||4.406|-5.423|0.8393
92394863|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-13.3||||0.487|TWO_SIDED|95.0|-30.5|3.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||3.9|-30.5|0.487
92422819|NCT03633617|184734732|SUPERIORITY||LS Mean Difference|-9.92|||<|0.0001|TWO_SIDED|95.0|-14.811|-5.022|||ANCOVA||Dupilumab group vs. Placebo|||-5.022|-14.811|<0.0001
92422820|NCT03633617|184734733|SUPERIORITY||LS Mean Difference|-68.26|||<|0.0001|TWO_SIDED|95.0|-86.896|-49.615|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-49.615|-86.896|<0.0001
92422821|NCT03633617|184734733|SUPERIORITY||LS Mean Difference|-79.22|||<|0.0001|TWO_SIDED|95.0|-103.098|-55.338|||ANCOVA||Dupilumab 300 mg Q2W vs Placebo|||-55.338|-103.098|<0.0001
92422822|NCT03633617|184734733|SUPERIORITY||LS Mean Difference|-88.62|||<|0.0001|TWO_SIDED|95.0|-112.194|-65.046|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-65.046|-112.194|<0.0001
92422823|NCT03633617|184734734|SUPERIORITY||LS Mean Difference|-37.48||||0.0002|TWO_SIDED|95.0|-57.222|-17.745|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-17.745|-57.222|0.0002
92422824|NCT03633617|184734734|SUPERIORITY||LS Mean Difference|-4.35||||0.5243|TWO_SIDED|95.0|-17.734|9.038|||ANCOVA||Dupilumab 300 mg Q2W vs Placebo|||9.038|-17.734|0.5243
92422825|NCT03633617|184734734|SUPERIORITY||LS Mean Difference|-22.89||||0.0008|TWO_SIDED|95.0|-36.272|-9.513|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-9.513|-36.272|0.0008
92422826|NCT03633617|184734735|SUPERIORITY||LS Mean Difference|-0.759|||<|0.0001|TWO_SIDED|95.0|-0.9061|-0.6127|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-0.6127|-0.9061|<0.0001
92422827|NCT03633617|184734735|SUPERIORITY||LS Mean Difference|-0.666|||<|0.0001|TWO_SIDED|95.0|-0.7773|-0.5538|||ANCOVA||Dupilumab 300 mg Q2W vs Placebo|||-0.5538|-0.7773|<0.0001
92422828|NCT03633617|184734735|SUPERIORITY||LS Mean Difference|-0.682|||<|0.0001|TWO_SIDED|95.0|-0.7929|-0.5707|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-0.5707|-0.7929|<0.0001
92422829|NCT03633617|184734736|SUPERIORITY||LS Mean Difference|-0.741|||<|0.0001|TWO_SIDED|95.0|-0.8842|-0.5978|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-0.5978|-0.8842|<0.0001
92422830|NCT03633617|184734736|SUPERIORITY||LS Mean Difference|-0.661|||<|0.0001|TWO_SIDED|95.0|-0.7674|-0.554|||ANCOVA||Dupilumab 300 mg Q2W vs Placebo|||-0.5540|-0.7674|<0.0001
92422831|NCT03633617|184734736|SUPERIORITY||LS Mean Difference|-0.672|||<|0.0001|TWO_SIDED|95.0|-0.7778|-0.5655|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-0.5655|-0.7778|<0.0001
92422832|NCT03633617|184734737|SUPERIORITY||LS Mean Difference|-2.9|||<|0.0001|TWO_SIDED|95.0|-3.91|-1.84|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-1.84|-3.91|<0.0001
92394864|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-13.3||||0.511|TWO_SIDED|95.0|-30.5|3.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||3.9|-30.5|0.511
92422833|NCT03633617|184734737|SUPERIORITY||LS Mean Difference|-3.9|||<|0.0001|TWO_SIDED|95.0|-4.86|-3.02|||ANCOVA||Dupilumab 300 mg Q2W vs Placebo|||-3.02|-4.86|<0.0001
92422834|NCT03633617|184734737|SUPERIORITY||LS Mean Difference|-3.8|||<|0.0001|TWO_SIDED|95.0|-4.77|-2.93|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-2.93|-4.77|<0.0001
92422835|NCT03633617|184734738|SUPERIORITY||Difference in proportion|57.5|||<|0.0001|TWO_SIDED|95.0|41.69|73.33|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||73.33|41.69|<0.0001
92422836|NCT03633617|184734738|SUPERIORITY||Difference in proportion|72.4|||<|0.0001|TWO_SIDED|95.0|61.05|83.7|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||83.70|61.05|<0.0001
92422837|NCT03633617|184734738|SUPERIORITY||Difference in proportion|74.9|||<|0.0001|TWO_SIDED|95.0|64.25|85.5|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||85.50|64.25|<0.0001
92422838|NCT03633617|184734739|SUPERIORITY||Hodges-Lehmann estimator|-2.25|||<|0.0001|TWO_SIDED|95.0|-2.72|-1.73|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.7300|-2.7200|<0.0001
92422839|NCT03633617|184734739|SUPERIORITY||Hodges-Lehmann estimator|-1.84|||<|0.0001|TWO_SIDED|95.0|-2.42|-1.11|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.1100|-2.4200|<0.0001
92422840|NCT03633617|184734739|SUPERIORITY||Hodges-Lehmann estimator|-1.85|||<|0.0001|TWO_SIDED|95.0|-2.44|-1.15|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.1500|-2.4400|<0.0001
92422841|NCT03633617|184734740|SUPERIORITY||Hodges-Lehmann estimator|-1.59|||<|0.0001|TWO_SIDED|95.0|-1.74|-1.27|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.2700|-1.7400|<0.0001
92422842|NCT03633617|184734740|SUPERIORITY||Hodges-Lehmann estimator|-1.255|||<|0.0001|TWO_SIDED|95.0|-1.73|-1.05|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.0500|-1.7300|<0.0001
92422843|NCT03633617|184734740|SUPERIORITY||Hodges-Lehmann estimator|-1.275|||<|0.0001|TWO_SIDED|95.0|-1.82|-1.07|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.0700|-1.8200|<0.0001
92422844|NCT03633617|184734741|SUPERIORITY||Difference in proportion|21.9||||0.0017|TWO_SIDED|95.0|9.42|34.38|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||34.38|9.42|0.0017
92422845|NCT03633617|184734741|SUPERIORITY||Difference in proportion|27.6|||<|0.0001|TWO_SIDED|95.0|17.2|38.09|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||38.09|17.20|<0.0001
92422846|NCT03633617|184734741|SUPERIORITY||Difference in proportion|28.9|||<|0.0001|TWO_SIDED|95.0|18.36|39.46|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||39.46|18.36|<0.0001
92422847|NCT03633617|184734742|SUPERIORITY||LS Mean Difference|-0.368||||0.0077|TWO_SIDED|95.0|-0.6388|-0.0975|||ANCOVA||Dupilumab group vs Placebo|||-0.0975|-0.6388|0.0077
92422848|NCT03633617|184734742|SUPERIORITY||LS Mean Difference|-0.015||||0.8586|TWO_SIDED|95.0|-0.1782|0.1485|||ANCOVA||Dupilumab group vs. Placebo|||0.1485|-0.1782|0.8586
92422849|NCT03633617|184734742|SUPERIORITY||LS Mean Difference|-0.309||||0.0002|TWO_SIDED|95.0|-0.4703|-0.1471|||ANCOVA||Dupilumab group vs. Placebo|||-0.1471|-0.4703|0.0002
92422850|NCT03633617|184734743|SUPERIORITY||LS Mean Difference|-2.0||||0.0467|TWO_SIDED|95.0|-3.87|-0.03|||ANCOVA||Dupilumab group vs. Placebo|||-0.03|-3.87|0.0467
92422851|NCT03633617|184734743|SUPERIORITY||LS Mean Difference|-0.5||||0.5469||95.0|-2.03|1.08|||ANCOVA||Dupilumab group vs. Placebo|||1.08|-2.03|0.5469
92422852|NCT03633617|184734743|SUPERIORITY||LS Mean Difference|-1.5||||0.0718|TWO_SIDED|95.0|-3.0|0.13|||ANCOVA||Dupilumab group vs. Placebo|||0.13|-3.0|0.0718
92422853|NCT03633617|184734744|SUPERIORITY||LS Mean Difference|-1.7||||0.0051|TWO_SIDED|95.0|-2.93|-0.52|||ANCOVA||Dupilumab group vs. Placebo|||-0.52|-2.93|0.0051
92422854|NCT03633617|184734744|SUPERIORITY||LS Mean Difference|-0.5||||0.3152|TWO_SIDED|95.0|-1.38|0.44|||ANCOVA||Dupilumab group vs. Placebo|||0.44|-1.38|0.3152
92422855|NCT03633617|184734744|SUPERIORITY||LS Mean Difference|-1.4||||0.0037|TWO_SIDED|95.0|-2.3|0.45|||ANCOVA||Dupilumab group vs. Placebo|||0.45|-2.30|0.0037
92422856|NCT03633617|184734745|SUPERIORITY||Difference in proportion|-12.7||||0.017|TWO_SIDED|95.0|-23.21|-2.26|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||-2.26|-23.21|0.0170
92422857|NCT03633617|184734745|SUPERIORITY||Difference in proportion|-1.3||||0.5493|TWO_SIDED|95.0|-5.51|2.93|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||2.93|-5.51|0.5493
92422858|NCT03633617|184734745|SUPERIORITY||Difference in proportion|0.0||||0.9887|TWO_SIDED|95.0|-4.9|5.02|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||5.02|-4.9|0.9887
92422859|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.28|-0.57|||ANCOVA|||Analysis was based on analysis of co-variance (ANCOVA) model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.57|-1.28|<0.001
92422860|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.06|-0.33|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.33|-1.06|<0.001
92422861|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.18||0.001|TWO_SIDED|95.0|-0.94|-0.23|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.23|-0.94|0.001
92422862|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.015|TWO_SIDED|95.0|-0.81|-0.09|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.81|0.015
92422863|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.18||0.453|TWO_SIDED|95.0|-0.49|0.22|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.49|0.453
92422864|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.18||0.177|TWO_SIDED|95.0|-0.61|0.11|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.61|0.177
92422865|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.18||0.062|TWO_SIDED|95.0|-0.7|0.02|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.70|0.062
92422866|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.18||0.212|TWO_SIDED|95.0|-0.59|0.13|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.59|0.212
92422867|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.34|-0.54|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.54|-1.34|<0.001
92422868|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.15|-0.35|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.35|-1.15|<0.001
92422869|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.2||0.004|TWO_SIDED|95.0|-0.98|-0.18|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.18|-0.98|0.004
92422870|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.2||0.007|TWO_SIDED|95.0|-0.95|-0.15|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.15|-0.95|0.007
92422871|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.2||0.879|TWO_SIDED|95.0|-0.43|0.37|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.37|-0.43|0.879
92422872|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.33|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.20|-0.60|0.330
92422873|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.2||0.083|TWO_SIDED|95.0|-0.75|0.05|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.75|0.083
92422874|NCT00809354|184734778|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.36|TWO_SIDED|95.0|-0.59|0.21|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.21|-0.59|0.360
92422875|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.23|-0.53|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.53|-1.23|<0.001
92422876|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.13|-0.43|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.43|-1.13|<0.001
92394865|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|33.3||||0.14|TWO_SIDED|95.0|-11.4|78.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||78.1|-11.4|0.140
92394866|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|10.0||||0.569|TWO_SIDED|95.0|-14.6|34.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||34.6|-14.6|0.569
92394867|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|4.4||||1|TWO_SIDED|95.0|-19.7|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||28.5|-19.7|1.000
92394868|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|13.3||||0.447|TWO_SIDED|95.0|-23.9|50.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||50.6|-23.9|0.447
92394869|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-6.7||||1|TWO_SIDED|95.0|-19.3|6.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||6.0|-19.3|1.000
92394870|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|4.4||||1|TWO_SIDED|95.0|-19.7|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||28.5|-19.7|1.000
92394871|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|20.0||||0.56|TWO_SIDED|95.0|-27.5|67.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||67.5|-27.5|0.560
92394872|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-20.0||||0.231|TWO_SIDED|95.0|-40.2|0.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||0.2|-40.2|0.231
92394873|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-8.9||||1|TWO_SIDED|95.0|-37.7|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||19.9|-37.7|1.000
92394874|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|6.7||||1|TWO_SIDED|95.0|-32.4|45.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||45.7|-32.4|1.000
92394875|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-28.2|18.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||18.2|-28.2|1.000
92394876|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-2.2||||1|TWO_SIDED|95.0|-29.0|24.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||24.6|-29.0|1.000
92394877|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|10.0||||1|TWO_SIDED|95.0|-37.1|57.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||57.1|-37.1|1.000
92394878|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-11.4||||0.7|TWO_SIDED|95.0|-45.7|22.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||22.8|-45.7|0.700
92422877|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.18||0.003|TWO_SIDED|95.0|-0.87|-0.17|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.17|-0.87|0.003
92422878|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.18||0.007|TWO_SIDED|95.0|-0.83|-0.13|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.13|-0.83|0.007
92422879|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.18||0.824|TWO_SIDED|95.0|-0.39|0.31|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.39|0.824
92422880|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.18||0.1|TWO_SIDED|95.0|-0.64|0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.64|0.100
92422881|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.18||0.044|TWO_SIDED|95.0|-0.7|-0.01|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.70|0.044
92422882|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.565|TWO_SIDED|95.0|-0.45|0.25|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.25|-0.45|0.565
92422883|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.4|-0.62|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.62|-1.40|<0.001
92422884|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.2|-0.42|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.42|-1.20|<0.001
92422885|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.2||0.002|TWO_SIDED|95.0|-1.02|-0.24|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.24|-1.02|0.002
92422886|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.2||0.002|TWO_SIDED|95.0|-1.02|-0.24|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.24|-1.02|0.002
92422887|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.2||0.98|TWO_SIDED|95.0|-0.39|0.4|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.40|-0.39|0.980
92422888|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.2||0.383|TWO_SIDED|95.0|-0.56|0.22|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.56|0.383
92422889|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.2||0.057|TWO_SIDED|95.0|-0.77|0.01|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.77|0.057
92236326|NCT03249350|184376326|SUPERIORITY||Slope|-0.5|STANDARD_ERROR_OF_MEAN|0.27||0.06|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.06
92422890|NCT00809354|184734779|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.312|TWO_SIDED|95.0|-0.59|0.19|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.59|0.312
92422891|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.008|TWO_SIDED|95.0|-0.32|-0.05|||ANCOVA|||Analysis was based on analysis of co-variance (ANCOVA) model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.05|-0.32|0.008
92422892|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.251|TWO_SIDED|95.0|-0.22|0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.22|0.251
92422893|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.251|TWO_SIDED|95.0|-0.22|0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.22|0.251
92422894|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.961|TWO_SIDED|95.0|-0.14|0.13|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.14|0.961
92422895|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.272|TWO_SIDED|95.0|-0.21|0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.21|0.272
92422896|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.271|TWO_SIDED|95.0|-0.21|0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.21|0.271
92422897|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.128|TWO_SIDED|95.0|-0.24|0.03|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.24|0.128
92422898|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.133|TWO_SIDED|95.0|-0.24|0.03|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.24|0.133
92394879|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-40.0||||0.058|TWO_SIDED|95.0|-64.8|-15.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||-15.2|-64.8|0.058
92394880|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|23.3||||0.354|TWO_SIDED|95.0|-22.5|69.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||69.2|-22.5|0.354
92394881|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|16.2||||0.45|TWO_SIDED|95.0|-18.1|50.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||50.4|-18.1|0.450
92394882|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-1.7||||1|TWO_SIDED|95.0|-39.1|35.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||35.8|-39.1|1.000
92394883|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|23.3||||0.354|TWO_SIDED|95.0|-22.5|69.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||69.2|-22.5|0.354
92394884|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|9.0||||0.7|TWO_SIDED|95.0|-24.6|42.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||42.7|-24.6|0.700
92394885|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-14.2||||0.621|TWO_SIDED|95.0|-46.2|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||17.9|-46.2|0.621
92394886|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-6.7||||1|TWO_SIDED|95.0|-51.8|38.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||38.5|-51.8|1.000
92394887|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-4.3||||0.812|TWO_SIDED|95.0|-39.6|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||31.0|-39.6|0.812
92394888|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-15.0||||0.657|TWO_SIDED|95.0|-53.9|23.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||23.9|-53.9|0.657
92394889|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|23.3||||0.354|TWO_SIDED|95.0|-22.5|69.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||69.2|-22.5|0.354
92394890|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|16.2||||0.45|TWO_SIDED|95.0|-18.1|50.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||50.4|-18.1|0.450
92394891|NCT02365649|184687477|SUPERIORITY||Risk Difference (RD)|-14.2||||0.621|TWO_SIDED|95.0|-46.2|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||17.9|-46.2|0.621
92422899|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|-0.35|-0.08|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.08|-0.35|0.002
92422900|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.004|TWO_SIDED|95.0|-0.34|-0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.06|-0.34|0.004
92422901|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.414|TWO_SIDED|95.0|-0.2|0.08|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.20|0.414
92422902|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.057|TWO_SIDED|95.0|-0.27|0.0|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.00|-0.27|0.057
92422903|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.07||0.277|TWO_SIDED|95.0|-0.06|0.21|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.21|-0.06|0.277
92422904|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.07||0.328|TWO_SIDED|95.0|-0.21|0.07|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.21|0.328
92422905|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.026|TWO_SIDED|95.0|-0.3|-0.02|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.30|0.026
92422906|NCT00809354|184734780|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.864|TWO_SIDED|95.0|-0.15|0.13|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.15|0.864
92422907|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.16||0.927|TWO_SIDED|95.0|-0.31|0.34|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.34|-0.31|0.927
92422908|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.17||0.057|TWO_SIDED|95.0|-0.64|0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.64|0.057
92422909|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.16||0.779|TWO_SIDED|95.0|-0.37|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.37|0.779
92422910|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.16||0.798|TWO_SIDED|95.0|-0.36|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.36|0.798
92422911|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.16||0.98|TWO_SIDED|95.0|-0.33|0.32|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.32|-0.33|0.980
92422912|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.16||0.098|TWO_SIDED|95.0|-0.6|0.05|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.60|0.098
92422913|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.709|TWO_SIDED|95.0|-0.26|0.38|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.38|-0.26|0.709
92422914|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.16||0.045|TWO_SIDED|95.0|0.01|0.65|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.65|0.01|0.045
92422915|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.17||0.71|TWO_SIDED|95.0|-0.28|0.41|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.41|-0.28|0.710
92422916|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.17||0.504|TWO_SIDED|95.0|-0.46|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.46|0.504
92422917|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.17||0.183|TWO_SIDED|95.0|-0.11|0.58|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.58|-0.11|0.183
92422918|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.17||0.919|TWO_SIDED|95.0|-0.36|0.33|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.33|-0.36|0.919
92422919|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.17||0.152|TWO_SIDED|95.0|-0.09|0.59|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.59|-0.09|0.152
92422920|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.572|TWO_SIDED|95.0|-0.44|0.24|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.24|-0.44|0.572
92422921|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.17||0.337|TWO_SIDED|95.0|-0.51|0.18|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.51|0.337
92422922|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.17||0.299|TWO_SIDED|95.0|-0.16|0.52|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.52|-0.16|0.299
92422923|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.17|-0.5|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.50|-1.17|<0.001
92422924|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.22|-0.55|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.55|-1.22|<0.001
92236327|NCT03249350|184376327|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.11|TWO_SIDED||||||Mixed Models Analysis|||EATQ Effortful Control - Youth Report Mixed effects regression model tested for between-group differences in change over time.||||0.11
92236328|NCT03249350|184376328|SUPERIORITY||Slope|-0.0001|STANDARD_ERROR_OF_MEAN|0.009||0.99|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.99
92236329|NCT03249350|184376329|SUPERIORITY||Slope|-0.0007|STANDARD_ERROR_OF_MEAN|0.003||0.82|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.82
92236330|NCT03249350|184376330|SUPERIORITY||Slope|0.25|STANDARD_ERROR_OF_MEAN|0.21||0.23|TWO_SIDED||||||Mixed Models Analysis|||Peer Delinquency||||0.23
92236331|NCT03249350|184376331|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.73|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.73
92236332|NCT03249350|184376332|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.11||0.31|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.31
92236333|NCT00553787|184376334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|0.328|<|0.0001|TWO_SIDED|95.0|7.96|9.25||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||9.25|7.96|<0.0001
92236334|NCT00553787|184376334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.58|STANDARD_ERROR_OF_MEAN|0.403|<|0.0001|TWO_SIDED|95.0|5.79|7.37||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||7.37|5.79|<0.0001
92422925|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.01|-0.34|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.34|-1.01|<0.001
92422926|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.17||0.003|TWO_SIDED|95.0|-0.85|-0.18|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.18|-0.85|0.003
92422927|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.17||0.341|TWO_SIDED|95.0|-0.5|0.17|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.50|0.341
92422928|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.17||0.031|TWO_SIDED|95.0|-0.71|-0.03|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.71|0.031
92422929|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.17||0.349|TWO_SIDED|95.0|-0.49|0.17|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.49|0.349
92422930|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.17||0.78|TWO_SIDED|95.0|-0.29|0.38|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.38|-0.29|0.780
92422931|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.31|-0.58|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.58|-1.31|<0.001
92422932|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.29|-0.56|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.56|-1.29|<0.001
92422933|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-0.99|-0.26|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.26|-0.99|<0.001
92422934|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.19||0.005|TWO_SIDED|95.0|-0.88|-0.15|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.15|-0.88|0.005
92422935|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.19||0.562|TWO_SIDED|95.0|-0.47|0.26|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.26|-0.47|0.562
92422936|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.19||0.028|TWO_SIDED|95.0|-0.77|-0.04|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.77|0.028
92422937|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.19||0.084|TWO_SIDED|95.0|-0.68|0.04|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.68|0.084
92422938|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.19||0.91|TWO_SIDED|95.0|-0.38|0.34|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.34|-0.38|0.910
92422939|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.4|-0.69|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.69|-1.40|<0.001
92422940|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.27|-0.56|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.56|-1.27|<0.001
92422941|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.25|-0.55|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.55|-1.25|<0.001
92422942|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.18||0.003|TWO_SIDED|95.0|-0.88|-0.17|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.17|-0.88|0.003
92422943|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.18||0.039|TWO_SIDED|95.0|-0.72|-0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.72|0.039
92422944|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.18||0.032|TWO_SIDED|95.0|-0.74|-0.03|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.74|0.032
92422945|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.18||0.409|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.20|-0.50|0.409
92394892|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|16.7||||1|TWO_SIDED|95.0|-62.2|95.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20%of the cells have expected cell count \<5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||95.6|-62.2|1.000
92422946|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.18||0.461|TWO_SIDED|95.0|-0.49|0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.49|0.461
92422947|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.21|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.59|-0.84|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.84|-1.59|<0.001
92422948|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.4|-0.65|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.65|-1.40|<0.001
92422949|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.17|-0.43|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.43|-1.17|<0.001
92422950|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.19||0.002|TWO_SIDED|95.0|-0.97|-0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.22|-0.97|0.002
92422951|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.19||0.281|TWO_SIDED|95.0|-0.58|0.17|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.58|0.281
92422952|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.19||0.023|TWO_SIDED|95.0|-0.81|-0.06|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.06|-0.81|0.023
92422953|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.19||0.031|TWO_SIDED|95.0|-0.79|-0.04|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.79|0.031
92422954|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.19||0.331|TWO_SIDED|95.0|-0.56|0.19|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.56|0.331
92422955|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.47|-0.75|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.75|-1.47|<0.001
92394893|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|29.2||||0.592|TWO_SIDED|95.0|-21.3|79.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||79.6|-21.3|0.592
92394894|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-64.8|38.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||38.2|-64.8|1.000
92422956|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.33|-0.6|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.60|-1.33|<0.001
92422957|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.03|-0.31|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.31|-1.03|<0.001
92422958|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-0.98|-0.26|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.26|-0.98|<0.001
92422959|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.18||0.781|TWO_SIDED|95.0|-0.41|0.31|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.41|0.781
92422960|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.18||0.057|TWO_SIDED|95.0|-0.71|0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.71|0.057
92422961|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.18||0.016|TWO_SIDED|95.0|-0.8|-0.08|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.08|-0.80|0.016
92422962|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.18||0.45|TWO_SIDED|95.0|-0.5|0.22|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.50|0.450
92422963|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.47|-0.69|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.69|-1.47|<0.001
92422964|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.2|-0.42|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.42|-1.20|<0.001
92422965|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.12|-0.34|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.34|-1.12|<0.001
92422966|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED|95.0|-1.04|-0.26|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.26|-1.04|0.001
92422967|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.2||0.699|TWO_SIDED|95.0|-0.47|0.31|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.47|0.699
92422968|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.2||0.408|TWO_SIDED|95.0|-0.55|0.22|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.55|0.408
92422969|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.2||0.077|TWO_SIDED|95.0|-0.74|0.04|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.74|0.077
92422970|NCT00809354|184734781|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.2||0.182|TWO_SIDED|95.0|-0.65|0.12|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.65|0.182
92422971|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.16||0.798|TWO_SIDED|95.0|-0.36|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.36|0.798
92422972|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.16||0.779|TWO_SIDED|95.0|-0.37|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.37|0.779
92422973|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.17||0.057|TWO_SIDED|95.0|-0.64|0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.64|0.057
92422974|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.16||0.927|TWO_SIDED|95.0|-0.31|0.34|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.34|-0.31|0.927
92422975|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.16||0.98|TWO_SIDED|95.0|-0.33|0.32|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.32|-0.33|0.980
92422976|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.16||0.098|TWO_SIDED|95.0|-0.6|0.05|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.60|0.098
92422977|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.709|TWO_SIDED|95.0|-0.26|0.38|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.38|-0.26|0.709
92422978|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.16||0.045|TWO_SIDED|95.0|0.01|0.65|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.65|0.01|0.045
92422979|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.17||0.919|TWO_SIDED|95.0|-0.36|0.33|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.33|-0.36|0.919
92422980|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.17||0.183|TWO_SIDED|95.0|-0.11|0.58|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.58|-0.11|0.183
92422981|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.17||0.504|TWO_SIDED|95.0|-0.46|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.46|0.504
92422982|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.17||0.71|TWO_SIDED|95.0|-0.28|0.41|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.41|-0.28|0.710
92422983|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.17||0.152|TWO_SIDED|95.0|-0.09|0.59|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.59|-0.09|0.152
92422984|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.572|TWO_SIDED|95.0|-0.44|0.24|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.24|-0.44|0.572
92422985|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.17||0.337|TWO_SIDED|95.0|-0.51|0.18|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.51|0.337
92422986|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.17||0.299|TWO_SIDED|95.0|-0.16|0.52|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.52|-0.16|0.299
92422987|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.17||0.005|TWO_SIDED|95.0|-0.82|-0.14|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.14|-0.82|0.005
92422988|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.05|-0.38|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.38|-1.05|<0.001
92422989|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.25|-0.57|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.57|-1.25|<0.001
92422990|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.23|-0.56|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.56|-1.23|<0.001
92422991|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.17||0.177|TWO_SIDED|95.0|-0.57|0.1|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.57|0.177
92422992|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.17||0.014|TWO_SIDED|95.0|-0.76|-0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.76|0.014
92394895|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-80.0|80.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||80.0|-80.0|1.000
92394896|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-39.7|64.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||64.7|-39.7|1.000
92394897|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-30.0||||0.545|TWO_SIDED|95.0|-83.2|23.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||23.2|-83.2|0.545
92394898|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|50.0||||0.464|TWO_SIDED|95.0|10.0|90.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||90.0|10.0|0.464
92394899|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-39.7|64.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||64.7|-39.7|1.000
92394900|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-50.0||||0.182|TWO_SIDED|95.0|-90.0|-10.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||-10.0|-90.0|0.182
92394901|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|16.7||||1|TWO_SIDED|95.0|-62.2|95.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||95.6|-62.2|1.000
92394902|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|29.2||||0.592|TWO_SIDED|95.0|-21.3|79.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||79.6|-21.3|0.592
92394903|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-64.8|38.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||38.2|-64.8|1.000
92394904|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|66.7||||0.429|TWO_SIDED|95.0|28.9|100.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||100.0|28.9|0.429
92422993|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.17||0.286|TWO_SIDED|95.0|-0.52|0.15|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.52|0.286
92422994|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.952|TWO_SIDED|95.0|-0.33|0.35|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.35|-0.33|0.952
92422995|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.19||0.002|TWO_SIDED|95.0|-0.95|-0.21|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.21|-0.95|0.002
92422996|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.19||0.003|TWO_SIDED|95.0|-0.94|-0.2|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.20|-0.94|0.003
92422997|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.26|-0.52|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.52|-1.26|<0.001
92422998|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.29|-0.55|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.55|-1.29|<0.001
92422999|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.19||0.972|TWO_SIDED|95.0|-0.36|0.38|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.38|-0.36|0.972
92423000|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.19||0.096|TWO_SIDED|95.0|-0.69|0.06|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.69|0.096
92423001|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.19||0.069|TWO_SIDED|95.0|-0.72|0.03|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.72|0.069
92423002|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.19||0.902|TWO_SIDED|95.0|-0.39|0.35|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.35|-0.39|0.902
92423003|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.18||0.002|TWO_SIDED|95.0|-0.93|-0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.22|-0.93|0.002
92423004|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.33|-0.61|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.61|-1.33|<0.001
92423005|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.38|-0.66|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.66|-1.38|<0.001
92423006|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.55|-0.84|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.84|-1.55|<0.001
92423007|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.028|TWO_SIDED|95.0|-0.75|-0.04|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.75|0.028
92423008|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.013|TWO_SIDED|95.0|-0.81|-0.09|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.81|0.013
92423009|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.18||0.217|TWO_SIDED|95.0|-0.58|0.13|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.58|0.217
92423010|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.18||0.351|TWO_SIDED|95.0|-0.53|0.19|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.53|0.351
92423011|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.05|-0.28|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.28|-1.05|<0.001
92423012|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.22|-0.45|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.45|-1.22|<0.001
92423013|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.38|-0.62|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.62|-1.38|<0.001
92423014|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.57|-0.8|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.80|-1.57|<0.001
92423015|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.2||0.389|TWO_SIDED|95.0|-0.55|0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.55|0.389
92423016|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.2||0.087|TWO_SIDED|95.0|-0.72|0.05|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.72|0.087
92423017|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.2||0.072|TWO_SIDED|95.0|-0.74|0.03|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.74|0.072
92423018|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.34|TWO_SIDED|95.0|-0.57|0.2|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.20|-0.57|0.340
92423019|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.06|-0.33|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.33|-1.06|<0.001
92423020|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.11|-0.39|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.39|-1.11|<0.001
92423021|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.42|-0.69|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.69|-1.42|<0.001
92423022|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.59|-0.87|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.87|-1.59|<0.001
92423023|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.18||0.762|TWO_SIDED|95.0|-0.42|0.31|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.42|0.762
92170274|NCT05568004|184229533|SUPERIORITY|||||||0.135||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||0.135
92170275|NCT05568004|184229533|SUPERIORITY|||||||0.203||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied||||||0.203
92170276|NCT05568004|184229533|SUPERIORITY|||||||0.593||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied||||||0.593
92394905|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|29.2||||0.592|TWO_SIDED|95.0|-21.3|79.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||79.6|-21.3|0.592
92394906|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-33.3||||0.455|TWO_SIDED|95.0|-71.1|4.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||4.4|-71.1|0.455
92394907|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|31.7||||0.191|TWO_SIDED|95.0|-14.0|77.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||77.4|-14.0|0.191
92394908|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-22.1|22.1|||Chi-squared|P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||22.1|-22.1|1.000
92394909|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-8.3||||1|TWO_SIDED|95.0|-24.0|7.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||7.3|-24.0|1.000
92394910|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|23.3||||0.538|TWO_SIDED|95.0|-24.5|71.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||71.2|-24.5|0.538
92170277|NCT05568004|184229534|SUPERIORITY|||||||0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||0.001
92170278|NCT05568004|184229534|SUPERIORITY|||||||0.021||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||0.021
92170279|NCT05568004|184229534|SUPERIORITY|||||||0.081||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||0.081
92170280|NCT05568004|184229535|SUPERIORITY||||||<|0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||<0.001
92170281|NCT05568004|184229535|SUPERIORITY||||||<|0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||<0.001
92170282|NCT05568004|184229535|SUPERIORITY|||||||0.747||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||0.747
92394911|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-29.8|29.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||29.8|-29.8|1.000
92423024|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.19||0.056|TWO_SIDED|95.0|-0.72|0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.72|0.056
92423025|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.18||0.01|TWO_SIDED|95.0|-0.84|-0.12|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.12|-0.84|0.010
92394912|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-4.2||||1|TWO_SIDED|95.0|-35.3|27.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||27.0|-35.3|1.000
92394913|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|11.7||||0.515|TWO_SIDED|95.0|-26.7|50.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||50.1|-26.7|0.515
92394914|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-22.1|22.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||22.1|-22.1|1.000
92394915|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|4.2||||1|TWO_SIDED|95.0|-23.6|31.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||31.9|-23.6|1.000
92394916|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|23.3||||0.538|TWO_SIDED|95.0|-24.5|71.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||71.2|-24.5|0.538
92394917|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-16.7||||0.478|TWO_SIDED|95.0|-37.8|4.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||4.4|-37.8|0.478
92394918|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-4.2||||1|TWO_SIDED|95.0|-35.3|27.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||27.0|-35.3|1.000
92394919|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|11.7||||0.515|TWO_SIDED|95.0|-26.7|50.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||50.1|-26.7|0.515
92394920|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-17.9|34.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||34.6|-17.9|1.000
92394921|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|4.2||||1|TWO_SIDED|95.0|-23.6|31.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||31.9|-23.6|1.000
92394922|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|25.0||||0.344|TWO_SIDED|95.0|-21.9|71.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 20||71.9|-21.9|0.344
92394923|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|17.9||||0.429|TWO_SIDED|95.0|-17.8|53.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 20||53.5|-17.8|0.429
92394924|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-10.7||||1|TWO_SIDED|95.0|-46.4|25.0|||Chi-squared|P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 20||25.0|-46.4|1.000
92423026|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.19||0.335|TWO_SIDED|95.0|-0.54|0.19|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.54|0.335
92423027|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.18|-0.38|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.38|-1.18|<0.001
92423028|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.24|-0.44|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.44|-1.24|<0.001
92423029|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.25|-0.46|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.46|-1.25|<0.001
92170283|NCT05568004|184229536|SUPERIORITY|||||||0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||0.001
92394925|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-40.4|57.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 28||57.1|-40.4|1.000
92394926|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|8.3||||0.671|TWO_SIDED|95.0|-29.9|46.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 28||46.6|-29.9|0.671
92394927|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-13.1||||0.656|TWO_SIDED|95.0|-56.7|30.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 28||30.5|-56.7|0.656
92394928|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|16.7||||0.627|TWO_SIDED|95.0|-31.4|64.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 36||64.7|-31.4|0.627
92394929|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|9.5||||0.701|TWO_SIDED|95.0|-27.7|46.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 36||46.7|-27.7|0.701
92394930|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-19.0||||0.603|TWO_SIDED|95.0|-56.2|18.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 36||18.1|-56.2|0.603
92394931|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|16.7||||0.627|TWO_SIDED|95.0|-31.4|64.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 44||64.7|-31.4|0.627
92394932|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|2.4||||1|TWO_SIDED|95.0|-34.2|39.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 44||39.0|-34.2|1.000
92394933|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-4.8||||1|TWO_SIDED|95.0|-47.6|38.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 44||38.0|-47.6|1.000
92423030|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.52|-0.73|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.73|-1.52|<0.001
92423031|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.2||0.782|TWO_SIDED|95.0|-0.46|0.34|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.34|-0.46|0.782
92394934|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|25.0||||0.344|TWO_SIDED|95.0|-21.9|71.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 52||71.9|-21.9|0.344
92423032|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.2||0.719|TWO_SIDED|95.0|-0.47|0.33|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.33|-0.47|0.719
92423033|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.2||0.158|TWO_SIDED|95.0|-0.69|0.11|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.69|0.158
92423034|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.2||0.183|TWO_SIDED|95.0|-0.67|0.13|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.67|0.183
92423035|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.18||0.004|TWO_SIDED|95.0|-0.9|-0.18|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.18|-0.90|0.004
92423036|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.05|-0.33|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.33|-1.05|<0.001
92423037|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.2|0.48|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.48|-1.20|<0.001
92423038|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.48|-0.76|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.76|-1.48|<0.001
92423039|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.18||0.408|TWO_SIDED|95.0|-0.51|0.21|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.21|-0.51|0.408
92423040|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.18||0.097|TWO_SIDED|95.0|-0.67|0.06|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.67|0.097
92423041|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.018|TWO_SIDED|95.0|-0.79|-0.07|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.07|-0.79|0.018
92423042|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.132|TWO_SIDED|95.0|-0.64|0.08|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.64|0.132
92423043|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.21||0.001|TWO_SIDED|95.0|-1.08|-0.26|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||-0.26|-1.08|0.001
92423044|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.21||0.002|TWO_SIDED|95.0|-1.07|-0.25|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||-0.25|-1.07|0.002
92423045|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-1.19|-0.37|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||-0.37|-1.19|<0.001
92423046|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-1.37|-0.55|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||-0.55|-1.37|<0.001
92423047|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.21||0.959|TWO_SIDED|95.0|-0.4|0.42|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||0.42|-0.40|0.959
92423048|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.618|TWO_SIDED|95.0|-0.51|0.31|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||0.31|-0.51|0.618
92423049|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.149|TWO_SIDED|95.0|-0.71|0.11|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||0.11|-0.71|0.149
92423050|NCT00809354|184734782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.21||0.37|TWO_SIDED|95.0|-0.6|0.22|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||0.22|-0.60|0.370
92423051|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.16||0.887|TWO_SIDED|95.0|-0.33|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.33|0.887
92423052|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.16||0.046|TWO_SIDED|95.0|-0.62|-0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.62|0.046
92423053|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.16||0.771|TWO_SIDED|95.0|-0.26|0.35|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.35|-0.26|0.771
92423054|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.16||0.032|TWO_SIDED|95.0|0.03|0.64|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.64|0.03|0.032
92423055|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.17||0.223|TWO_SIDED|95.0|-0.13|0.54|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.54|-0.13|0.223
92423056|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.17||0.718|TWO_SIDED|95.0|-0.39|0.27|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.27|-0.39|0.718
92423057|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.17||0.495|TWO_SIDED|95.0|-0.45|0.22|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.45|0.495
92423058|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.17||0.371|TWO_SIDED|95.0|-0.18|0.49|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.49|-0.18|0.371
92423059|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.16||0.647|TWO_SIDED|95.0|-0.4|0.25|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.25|-0.40|0.647
92423060|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.073|TWO_SIDED|95.0|-0.62|0.03|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.62|0.073
92423061|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.16||0.161|TWO_SIDED|95.0|-0.55|0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.55|0.161
92423062|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.16||0.961|TWO_SIDED|95.0|-0.33|0.32|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.32|-0.33|0.961
92423063|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.18||0.697|TWO_SIDED|95.0|-0.42|0.28|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.42|0.697
92423064|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.18||0.139|TWO_SIDED|95.0|-0.62|0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.62|0.139
92423065|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.12|TWO_SIDED|95.0|-0.64|0.07|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.64|0.120
92423066|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.18||0.637|TWO_SIDED|95.0|-0.44|0.27|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.27|-0.44|0.637
92423067|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.17||0.028|TWO_SIDED|95.0|-0.72|-0.04|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.72|0.028
92423068|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.17||0.024|TWO_SIDED|95.0|-0.74|-0.05|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.05|-0.74|0.024
92423069|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.17||0.339|TWO_SIDED|95.0|-0.51|0.17|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.51|0.339
92423070|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.17||0.381|TWO_SIDED|95.0|-0.5|0.19|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.50|0.381
92170284|NCT05568004|184229536|SUPERIORITY||||||<|0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||<0.001
92170285|NCT05568004|184229536|SUPERIORITY|||||||0.05||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||0.05
92423071|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.19||0.438|TWO_SIDED|95.0|-0.51|0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.51|0.438
92423072|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.111|TWO_SIDED|95.0|-0.66|0.07|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.66|0.111
92423073|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.19||0.059|TWO_SIDED|95.0|-0.72|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.72|0.059
92423074|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.282|TWO_SIDED|95.0|-0.57|0.17|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.57|0.282
92423075|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.18||0.927|TWO_SIDED|95.0|-0.37|0.33|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.33|-0.37|0.927
92423076|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.094|TWO_SIDED|95.0|-0.65|0.05|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.65|0.094
92423077|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.012|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.10|-0.80|0.012
92423078|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.18||0.363|TWO_SIDED|95.0|-0.51|0.19|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.51|0.363
92423079|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.2||0.742|TWO_SIDED|95.0|-0.32|0.45|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.45|-0.32|0.742
92423080|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.19||0.436|TWO_SIDED|95.0|-0.53|0.23|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.53|0.436
92236335|NCT00553787|184376334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03|STANDARD_ERROR_OF_MEAN|0.402|<|0.0001|TWO_SIDED|95.0|1.24|2.82||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||2.82|1.24|<0.0001
92423081|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.2||0.038|TWO_SIDED|95.0|-0.79|-0.02|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.79|0.038
92423082|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.332|TWO_SIDED|95.0|-0.57|0.19|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.57|0.332
92423083|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.16||0.284|TWO_SIDED|95.0|-0.47|0.14|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.14|-0.47|0.284
92423084|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.16||0.224|TWO_SIDED|95.0|-0.5|0.12|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.50|0.224
92423085|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.16||0.002|TWO_SIDED|95.0|-0.79|-0.17|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.17|-0.79|0.002
92423086|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.16||0.355|TWO_SIDED|95.0|-0.45|0.16|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.16|-0.45|0.355
92423087|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.17||0.172|TWO_SIDED|95.0|-0.57|0.1|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.57|0.172
92423088|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.17||0.882|TWO_SIDED|95.0|-0.36|0.31|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.36|0.882
92423089|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.17||0.084|TWO_SIDED|95.0|-0.63|0.04|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.63|0.084
92423090|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.17||0.405|TWO_SIDED|95.0|-0.47|0.19|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.47|0.405
92423091|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-0.99|-0.34|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.34|-0.99|<0.001
92423092|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.06|-0.42|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.42|-1.06|<0.001
92423093|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.29|-0.64|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.64|-1.29|<0.001
92423094|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.29|-0.65|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.65|-1.29|<0.001
92279443|NCT00095199|184462037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.756|TWO_SIDED|95.0|0.87|1.21||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|Kaplan-Meier method estimated median PFS time. HR was calculated with unstratified Cox proportional hazards model. HR\<1 favours Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.21|0.87|0.756
92423095|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-0.95|-0.25|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.25|-0.95|<0.001
92423096|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.02|-0.32|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.32|-1.02|<0.001
92423097|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.22|-0.51|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.51|-1.22|<0.001
92423098|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.31|-0.6|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.60|-1.31|<0.001
92423099|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.17||0.003|TWO_SIDED|95.0|-0.86|-0.18|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.18|-0.86|0.003
92423100|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.24|-0.56|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.56|-1.24|<0.001
92236336|NCT00553787|184376335|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.03|STANDARD_ERROR_OF_MEAN|0.955|<|0.0001|TWO_SIDED|95.0|7.34|11.11||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||11.11|7.34|<0.0001
92423101|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.26|-0.57|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.57|-1.26|<0.001
92394935|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|25.0||||0.248|TWO_SIDED|95.0|-10.9|60.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 52||60.9|-10.9|0.248
92394936|NCT02365649|184687478|SUPERIORITY||Risk Difference (RD)|-10.7||||1|TWO_SIDED|95.0|-46.4|25.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 52||25.0|-46.4|1.000
92394937|NCT02365649|184687479|SUPERIORITY||Risk Difference (RD)|-25.0||||1|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||5.0|-55.0|1.000
92394938|NCT02365649|184687479|SUPERIORITY||Risk Difference (RD)|25.0||||0.608|TWO_SIDED|95.0|-20.8|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||70.8|-20.8|0.608
92394939|NCT02365649|184687479|SUPERIORITY||Risk Difference (RD)|-25.0||||0.487|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||5.0|-55.0|0.487
92394940|NCT02365649|184687479|SUPERIORITY||Risk Difference (RD)|20.0||||0.25|TWO_SIDED|95.0|-15.1|55.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders||55.1|-15.1|0.250
92394941|NCT02365649|184687479|SUPERIORITY||Risk Difference (RD)|8.3||||0.444|TWO_SIDED|95.0|-7.3|24.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders||24.0|-7.3|0.444
92394942|NCT02365649|184687479|SUPERIORITY||Risk Difference (RD)|11.1||||0.375|TWO_SIDED|95.0|-9.4|31.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders||31.6|-9.4|0.375
92394943|NCT02365649|184687479|SUPERIORITY||Risk Difference (RD)|3.3||||1|TWO_SIDED|95.0|-31.1|37.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||37.8|-31.1|1.000
92394944|NCT02365649|184687479|SUPERIORITY||Risk Difference (RD)|22.4||||0.215|TWO_SIDED|95.0|-8.0|52.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||52.8|-8.0|0.215
92394945|NCT02365649|184687479|SUPERIORITY||Risk Difference (RD)|-0.8||||1|TWO_SIDED|95.0|-29.5|27.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||27.8|-29.5|1.000
92394946|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-15.0||||0.671|TWO_SIDED|95.0|-55.5|25.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||25.5|-55.5|0.671
92394947|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|10.0||||0.718|TWO_SIDED|95.0|-19.8|39.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||39.8|-19.8|0.718
92394948|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-15.0||||0.461|TWO_SIDED|95.0|-52.4|22.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||22.4|-52.4|0.461
92394949|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-50.0||||0.03|TWO_SIDED|95.0|-85.5|-14.5||Statistically significant at 0.05 level. P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||-14.5|-85.5|0.030
92394950|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-12.5||||0.483|TWO_SIDED|95.0|-42.9|17.9|||Chi-squared|P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||17.9|-42.9|0.483
92394951|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-15.0||||0.431|TWO_SIDED|95.0|-50.8|20.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||20.8|-50.8|0.431
92394952|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-31.1|41.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||41.1|-31.1|1.000
92394953|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-7.5||||0.635|TWO_SIDED|95.0|-38.6|23.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||23.6|-38.6|0.635
92394954|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-40.0||||0.056|TWO_SIDED|95.0|-74.8|-5.2||Statistically significant at 0.1 level. P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||-5.2|-74.8|0.056
92394955|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-7.5||||1|TWO_SIDED|95.0|-47.5|32.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||32.5|-47.5|1.000
92394956|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|17.5||||0.296|TWO_SIDED|95.0|-14.7|49.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||49.7|-14.7|0.296
92394957|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-42.4|32.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||32.4|-42.4|1.000
92394958|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-45.9|35.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||35.9|-45.9|1.000
92394959|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|13.8||||0.4|TWO_SIDED|95.0|-17.7|45.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||45.2|-17.7|0.400
92394960|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-15.0||||0.439|TWO_SIDED|95.0|-52.4|22.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||22.4|-52.4|0.439
92394961|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|21.9||||0.259|TWO_SIDED|95.0|-12.8|56.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||56.6|-12.8|0.259
92394962|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-10.5||||0.31|TWO_SIDED|95.0|-30.6|9.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||9.7|-30.6|0.310
92170286|NCT01820260|184229580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|TWO_SIDED|||||To account for multiple testing, the 4 pairwise tests with corresponding vehicle group were performed using Bonferroni method testing at a 1.25% significance level, securing that the overall significance level did not exceed 5%|Fisher Exact|||Complete clearance of AKs at Week 8 was to be analysed by log binomial regression with factors treatment group, anatomical location (face/chest or scalp) and analysis site. Due to the low numbers of subjects obtaining complete clearance in the vehicle groups,the proposed model did not converge and Fisher's exact test was used instead to compare active treatments with the respective vehicle arm.||||0.0002
92423102|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.41|-0.73|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.73|-1.41|<0.001
92394963|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-19.4||||0.097|TWO_SIDED|95.0|-38.8|-0.1||Statistically significant at 0.1 level. P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||-0.1|-38.8|0.097
92394964|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|24.4||||0.181|TWO_SIDED|95.0|-8.5|57.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||57.2|-8.5|0.181
92394965|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|2.0||||0.826|TWO_SIDED|95.0|-15.9|20.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||20.0|-15.9|0.826
92394966|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-2.6||||1|TWO_SIDED|95.0|-21.2|16.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||16.1|-21.2|1.000
92394967|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|14.4||||0.369|TWO_SIDED|95.0|-16.7|45.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||45.4|-16.7|0.369
92394968|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-0.9||||1|TWO_SIDED|95.0|-18.2|16.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||16.4|-18.2|1.000
92423103|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.06|-0.33|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.33|-1.06|<0.001
92423104|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.21|-0.47|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.47|-1.21|<0.001
92423105|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.36|-0.63|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.63|-1.36|<0.001
92423106|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.56|-0.83|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.83|-1.56|<0.001
92423107|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.18||0.001|TWO_SIDED|95.0|-0.93|-0.23|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.23|-0.93|0.001
92394969|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-2.6||||1|TWO_SIDED|95.0|-21.2|16.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||16.1|-21.2|1.000
92423108|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.24|-0.53|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.53|-1.24|<0.001
92423109|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.24|-0.53|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.53|-1.24|<0.001
92423110|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.4|-0.7|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.70|-1.40|<0.001
92423111|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.17|-0.4|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.40|-1.17|<0.001
92423112|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.11|-0.34|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.34|-1.11|<0.001
92423113|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.32|-0.56|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.56|-1.32|<0.001
92423114|NCT00809354|184734783|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.51|-0.75|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.75|-1.51|<0.001
92423115|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.16||0.887|TWO_SIDED|95.0|-0.33|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.33|0.887
92423116|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.16||0.046|TWO_SIDED|95.0|-0.62|-0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.62|0.046
92423117|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.16||0.771|TWO_SIDED|95.0|-0.26|0.35|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.35|-0.26|0.771
92170287|NCT01820260|184229580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0037|TWO_SIDED|||||see comments in analysis 1|Fisher Exact|||See comment in analysis 1||||0.0037
92423118|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.16||0.032|TWO_SIDED|95.0|0.03|0.64|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.64|0.03|0.032
92423119|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.17||0.223|TWO_SIDED|95.0|-0.13|0.54|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.54|-0.13|0.223
92423120|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.17||0.718|TWO_SIDED|95.0|-0.39|0.27|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.27|-0.39|0.718
92423121|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.17||0.495|TWO_SIDED|95.0|-0.45|0.22|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.45|0.495
92423122|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.16||0.389|TWO_SIDED|95.0|-0.47|0.18|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.47|0.389
92423123|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.17||0.035|TWO_SIDED|95.0|-0.68|-0.02|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.68|0.035
92423124|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.16||0.155|TWO_SIDED|95.0|-0.56|0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.56|0.155
92394970|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|11.3||||0.66|TWO_SIDED|95.0|-20.2|42.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||42.7|-20.2|0.660
92394971|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-1.1||||0.908|TWO_SIDED|95.0|-19.7|17.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||17.5|-19.7|0.908
92394972|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-10.1||||0.446|TWO_SIDED|95.0|-27.8|7.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||7.7|-27.8|0.446
92394973|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|20.6||||0.135|TWO_SIDED|95.0|-9.5|50.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||50.8|-9.5|0.135
92394974|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|11.2||||0.306|TWO_SIDED|95.0|-5.7|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||28.1|-5.7|0.306
92394975|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|3.7||||0.686|TWO_SIDED|95.0|-13.4|20.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||20.7|-13.4|0.686
92394976|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|4.9||||0.754|TWO_SIDED|95.0|-25.4|35.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||35.2|-25.4|0.754
92394977|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-7.7||||0.548|TWO_SIDED|95.0|-32.6|17.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||17.3|-32.6|0.548
92394978|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-22.5||||0.12|TWO_SIDED|95.0|-50.1|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||5.0|-50.1|0.120
92394979|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-13.4||||0.403|TWO_SIDED|95.0|-44.5|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||17.7|-44.5|0.403
92394980|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-8.0||||0.533|TWO_SIDED|95.0|-33.0|17.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||17.0|-33.0|0.533
92423125|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.17||0.876|TWO_SIDED|95.0|-0.35|0.3|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.30|-0.35|0.876
92423126|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.18||0.864|TWO_SIDED|95.0|-0.33|0.39|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.39|-0.33|0.864
92423127|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.18||0.338|TWO_SIDED|95.0|-0.54|0.18|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.54|0.338
92394981|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-8.9||||0.539|TWO_SIDED|95.0|-37.2|19.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||19.4|-37.2|0.539
92423128|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.101|TWO_SIDED|95.0|-0.66|0.06|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.66|0.101
92423129|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.18||0.605|TWO_SIDED|95.0|-0.46|0.27|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.27|-0.46|0.605
92423130|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.17||0.013|TWO_SIDED|95.0|-0.78|-0.09|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.78|0.013
92423131|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.005|TWO_SIDED|95.0|-0.84|-0.15|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.15|-0.84|0.005
92423132|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.17||0.199|TWO_SIDED|95.0|-0.57|0.12|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.57|0.199
92423133|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.18||0.363|TWO_SIDED|95.0|-0.5|0.18|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.50|0.363
92423134|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.613|TWO_SIDED|95.0|-0.47|0.28|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.47|0.613
92423135|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.19||0.416|TWO_SIDED|95.0|-0.53|0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.53|0.416
92423136|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.19||0.143|TWO_SIDED|95.0|-0.66|0.09|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.66|0.143
92423137|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.19||0.245|TWO_SIDED|95.0|-0.6|0.15|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.60|0.245
92423138|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.18||0.745|TWO_SIDED|95.0|-0.41|0.29|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.29|-0.41|0.745
92423139|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.18||0.062|TWO_SIDED|95.0|-0.69|0.02|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.69|0.062
92423140|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.18||0.014|TWO_SIDED|95.0|-0.8|-0.09|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.80|0.014
92423141|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.18||0.367|TWO_SIDED|95.0|-0.52|0.19|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.52|0.367
92423142|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.995|TWO_SIDED|95.0|-0.39|0.39|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.39|-0.39|0.995
92423143|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.2||0.735|TWO_SIDED|95.0|-0.46|0.32|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.32|-0.46|0.735
92423144|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.2||0.169|TWO_SIDED|95.0|-0.67|0.12|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.67|0.169
92423145|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.2||0.295|TWO_SIDED|95.0|-0.6|0.18|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.60|0.295
92423146|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.16||0.284|TWO_SIDED|95.0|-0.47|0.14|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.14|-0.47|0.284
92423147|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.16||0.224|TWO_SIDED|95.0|-0.5|0.12|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.50|0.224
92423148|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.16||0.002|TWO_SIDED|95.0|-0.79|-0.17|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.17|-0.79|0.002
92423149|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.16||0.355|TWO_SIDED|95.0|-0.45|0.16|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.16|-0.45|0.355
92423150|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.17||0.172|TWO_SIDED|95.0|-0.57|0.1|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.57|0.172
92423151|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.17||0.882|TWO_SIDED|95.0|-0.36|0.31|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.36|0.882
92423152|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.17||0.084|TWO_SIDED|95.0|-0.63|0.04|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.63|0.084
92423153|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.17||0.405|TWO_SIDED|95.0|-0.47|0.19|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.47|0.405
92423154|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-0.94|-0.3|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.30|-0.94|<0.001
92394982|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|4.9||||0.754|TWO_SIDED|95.0|-25.4|35.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||35.2|-25.4|0.754
92394983|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-14.5||||0.256|TWO_SIDED|95.0|-39.4|10.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||10.3|-39.4|0.256
92394984|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-27.8||||0.055|TWO_SIDED|95.0|-54.7|-0.8||Statistically significant at 0.1 level.|Chi-squared|P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||-0.8|-54.7|0.055
92423155|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.09|-0.44|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.44|-1.09|<0.001
92423156|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.3|-0.64|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.64|-1.30|<0.001
92423157|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.32|-0.67|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.67|-1.32|<0.001
92423158|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.02|-0.3|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.30|-1.02|<0.001
92423159|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-0.99|-0.27|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.27|-0.99|<0.001
92423160|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.19|-0.48|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.48|-1.19|<0.001
92423161|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.29|-0.57|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.57|-1.29|<0.001
92423162|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.18||0.002|TWO_SIDED|95.0|-0.89|-0.2|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.20|-0.89|0.002
92423163|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.32|-0.63|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.63|-1.32|<0.001
92394985|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|2.2||||0.887|TWO_SIDED|95.0|-28.8|33.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||33.2|-28.8|0.887
92423164|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.39|-0.7|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.70|-1.39|<0.001
92170288|NCT01820260|184229580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0171|TWO_SIDED|||||See comments in analysis 1|Fisher Exact|||See comments in analysis 1||||0.0171
92423165|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.55|-0.86|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.86|-1.55|<0.001
92423166|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.18|-0.43|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.43|-1.18|<0.001
92423167|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.28|-0.53|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.53|-1.28|<0.001
92423168|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.33|-0.58|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.58|-1.33|<0.001
92423169|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.56|-0.81|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.81|-1.56|<0.001
92394986|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|14.5||||0.256|TWO_SIDED|95.0|-10.3|39.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||39.4|-10.3|0.256
92170289|NCT01820260|184229580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED||||||Fisher Exact|||||||0.0001
92394987|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-9.0||||0.518|TWO_SIDED|95.0|-36.0|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||17.9|-36.0|0.518
92394988|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|6.3||||0.695|TWO_SIDED|95.0|-25.1|37.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||37.6|-25.1|0.695
92394989|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|11.4||||0.373|TWO_SIDED|95.0|-13.5|36.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||36.4|-13.5|0.373
92394990|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-6.9||||0.628|TWO_SIDED|95.0|-34.6|20.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||20.8|-34.6|0.628
92394991|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-15.0||||1|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||0.6|-30.6|1.000
92394992|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-0.7||||1|TWO_SIDED|95.0|-22.4|20.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||20.9|-22.4|1.000
92394993|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||0.6|-30.6|0.251
92394994|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||3.1|-23.1|1.000
92394995|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-0.5||||1|TWO_SIDED|95.0|-18.7|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||17.7|-18.7|1.000
92394996|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-10.0||||0.501|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||3.1|-23.1|0.501
92394997|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|9.5||||0.488|TWO_SIDED|95.0|-3.0|22.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 36||22.1|-3.0|0.488
92394998|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||3.1|-23.1|1.000
92394999|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-10.0||||0.232|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||3.1|-23.1|0.232
92423170|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.02|-0.31|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.31|-1.02|<0.001
92423171|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.08|-0.37|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.37|-1.08|<0.001
92279444|NCT00095199|184462037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.391|TWO_SIDED|95.0|0.73|1.13||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|Kaplan-Meier method estimated median PFS time. HR was calculated with unstratified Cox proportional hazards model. HR\<1 favours Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.13|0.73|0.391
92395000|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|-10.0||||0.501|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||3.1|-23.1|0.501
92395001|NCT02365649|184687480|SUPERIORITY||Risk Difference (RD)|9.5||||0.488|TWO_SIDED|95.0|-3.0|22.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 52||22.1|-3.0|0.488
92395002|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|20.0||||0.295|TWO_SIDED|95.0|2.5|37.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||37.5|2.5|0.295
92395003|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|13.8||||0.355|TWO_SIDED|95.0|-7.4|34.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||34.9|-7.4|0.355
92395004|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-20.0||||0.384|TWO_SIDED|95.0|-55.1|15.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||15.1|-55.1|0.384
92395005|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-22.5||||0.311|TWO_SIDED|95.0|-59.5|14.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||14.5|-59.5|0.311
92395006|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-16.3||||0.422|TWO_SIDED|95.0|-43.8|11.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||11.3|-43.8|0.422
92395007|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-25.0||||0.181|TWO_SIDED|95.0|-59.2|9.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||9.2|-59.2|0.181
92395008|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|25.0||||0.281|TWO_SIDED|95.0|6.0|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||44.0|6.0|0.281
92395009|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-28.5|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||28.5|-28.5|1.000
92395010|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-25.0||||0.231|TWO_SIDED|95.0|-61.3|11.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||11.3|-61.3|0.231
92395011|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|27.5||||0.214|TWO_SIDED|95.0|-3.9|58.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||58.9|-3.9|0.214
92395012|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|21.3||||0.277|TWO_SIDED|95.0|-7.5|50.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||50.0|-7.5|0.277
92423172|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.36|-0.65|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.65|-1.36|<0.001
92423173|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.52|-0.81|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.81|-1.52|<0.001
92395013|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-20.0||||0.442|TWO_SIDED|95.0|-57.2|17.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||17.2|-57.2|0.442
92395014|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|20.0||||0.419|TWO_SIDED|95.0|-17.1|57.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||57.1|-17.1|0.419
92395015|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|20.0||||0.214|TWO_SIDED|95.0|-10.4|50.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||50.4|-10.4|0.214
92395016|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-15.0||||0.439|TWO_SIDED|95.0|-52.4|22.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||22.4|-52.4|0.439
92395017|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|23.1||||0.284|TWO_SIDED|95.0|-10.1|56.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||56.4|-10.1|0.284
92395018|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|0.2||||0.988|TWO_SIDED|95.0|-23.9|24.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||24.3|-23.9|0.988
92395019|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-12.1||||0.37|TWO_SIDED|95.0|-38.1|13.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||13.9|-38.1|0.370
92395020|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|25.6||||0.268|TWO_SIDED|95.0|-8.9|60.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||60.2|-8.9|0.268
92395021|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-5.0||||0.665|TWO_SIDED|95.0|-27.4|17.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||17.5|-27.4|0.665
92395022|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-3.9||||0.759|TWO_SIDED|95.0|-28.9|21.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||21.0|-28.9|0.759
92395023|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|21.9||||0.259|TWO_SIDED|95.0|-12.8|56.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||56.6|-12.8|0.259
92395024|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-1.7||||0.88|TWO_SIDED|95.0|-23.2|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||19.9|-23.2|0.880
92395025|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-10.7||||0.355|TWO_SIDED|95.0|-32.7|11.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||11.2|-32.7|0.355
92395026|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-27.1|37.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||37.1|-27.1|1.000
92423174|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.29|-0.51|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.51|-1.29|<0.001
92423175|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.3|-0.51|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.51|-1.30|<0.001
92423176|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.36|-0.58|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.58|-1.36|<0.001
92395027|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|4.4||||0.688|TWO_SIDED|95.0|-17.0|25.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||25.9|-17.0|0.688
92395028|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|1.1||||0.927|TWO_SIDED|95.0|-22.3|24.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||24.5|-22.3|0.927
92395029|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|27.5||||0.075|TWO_SIDED|95.0|-5.0|60.0||Statistically significant at 0.1 level. P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||60.0|-5.0|0.075
92395030|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|14.0||||0.154|TWO_SIDED|95.0|-4.8|32.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||32.7|-4.8|0.154
92395031|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|4.9||||0.707|TWO_SIDED|95.0|-14.4|24.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||24.2|-14.4|0.707
92395032|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|25.0||||0.085|TWO_SIDED|95.0|10.0|40.0||Statistically significant at 0.1 level. P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||40.0|10.0|0.085
92395033|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|14.7||||0.137|TWO_SIDED|95.0|-4.0|33.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||33.3|-4.0|0.137
92423177|NCT00809354|184734784|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.2|<|0.01|TWO_SIDED|95.0|-1.57|-0.79|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.79|-1.57|<0.01
92423178|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.469|TWO_SIDED|95.0|-0.08|0.17|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.08|0.469
92423179|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.387|TWO_SIDED|95.0|-0.18|0.07|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.18|0.387
92423180|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.887|TWO_SIDED|95.0|-0.11|0.13|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.11|0.887
92423181|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.084|TWO_SIDED|95.0|-0.01|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.01|0.084
92423182|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.018|TWO_SIDED|95.0|0.03|0.29|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.29|0.03|0.018
92423183|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.783|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.11|0.783
92423184|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.762|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.11|0.762
92423185|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.017|TWO_SIDED|95.0|0.03|0.29|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.29|0.03|0.017
92423186|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.06||0.207|TWO_SIDED|95.0|-0.2|0.04|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.20|0.207
92395034|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-11.8||||0.37|TWO_SIDED|95.0|-38.2|14.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||14.5|-38.2|0.370
92395035|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-3.6||||1|TWO_SIDED|95.0|-31.6|24.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||24.4|-31.6|1.000
92236337|NCT00553787|184376335|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.27|STANDARD_ERROR_OF_MEAN|0.768|<|0.0001|TWO_SIDED|95.0|4.93|7.97||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||7.97|4.93|<0.0001
92395036|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-16.4||||0.174|TWO_SIDED|95.0|-39.8|7.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||7.0|-39.8|0.174
92395037|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-17.1||||0.203|TWO_SIDED|95.0|-43.9|9.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||9.7|-43.9|0.203
92395038|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|20.1||||0.286|TWO_SIDED|95.0|-4.5|44.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||44.7|-4.5|0.286
92395039|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-3.6||||0.773|TWO_SIDED|95.0|-27.7|20.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||20.6|-27.7|0.773
92423187|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.06||0.02|TWO_SIDED|95.0|-0.27|-0.02|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.27|0.020
92423188|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.941|TWO_SIDED|95.0|-0.13|0.12|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.13|0.941
92423189|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.494|TWO_SIDED|95.0|-0.18|0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.18|0.494
92423190|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.089|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.089
92423191|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.467|TWO_SIDED|95.0|-0.18|0.08|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.18|0.467
92395040|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-23.5||||0.101|TWO_SIDED|95.0|-51.2|4.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||4.1|-51.2|0.101
92395041|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|15.2||||0.332|TWO_SIDED|95.0|-14.1|44.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||44.4|-14.1|0.332
92395042|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|16.2||||0.189|TWO_SIDED|95.0|-7.5|39.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||39.8|-7.5|0.189
92423192|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.774|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.11|0.774
92395043|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-14.1||||0.329|TWO_SIDED|95.0|-42.2|13.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||13.9|-42.2|0.329
92423193|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.06||0.315|TWO_SIDED|95.0|-0.06|0.19|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.06|0.315
92423194|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.088|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.088
92423195|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.084|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.084
92423196|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.066|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.25|0.066
92423197|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.073|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.25|0.073
92395044|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|24.6||||0.124|TWO_SIDED|95.0|-4.8|53.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||53.9|-4.8|0.124
92395045|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|15.2||||0.234|TWO_SIDED|95.0|-9.5|39.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||39.9|-9.5|0.234
92395046|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-10.0||||0.484|TWO_SIDED|95.0|-37.8|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||17.7|-37.8|0.484
92395047|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-57.3|37.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||37.3|-57.3|1.000
92395048|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-11.2||||0.431|TWO_SIDED|95.0|-38.9|16.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||16.5|-38.9|0.431
92395049|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-20.7||||0.25|TWO_SIDED|95.0|-48.5|7.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||7.1|-48.5|0.250
92423198|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.682|TWO_SIDED|95.0|-0.16|0.1|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.16|0.682
92423199|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.014|TWO_SIDED|95.0|-0.3|-0.03|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.30|0.014
92395050|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-40.9|50.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||50.9|-40.9|1.000
92395051|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-1.0||||1|TWO_SIDED|95.0|-25.2|23.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||23.3|-25.2|1.000
92395052|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-5.7||||1|TWO_SIDED|95.0|-31.1|19.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||19.6|-31.1|1.000
92395053|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|10.0||||0.544|TWO_SIDED|95.0|-35.2|55.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 36||55.2|-35.2|0.544
92395054|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-0.7||||1|TWO_SIDED|95.0|-22.4|20.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 36||20.9|-22.4|1.000
92395055|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-7.9||||0.627|TWO_SIDED|95.0|-28.5|12.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 36||12.8|-28.5|0.627
92423200|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.027|TWO_SIDED|95.0|-0.28|-0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.28|0.027
92423201|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.871|TWO_SIDED|95.0|-0.14|0.12|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.14|0.871
92423202|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.07||0.301|TWO_SIDED|95.0|-0.21|0.06|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.21|0.301
92279445|NCT00095199|184462038|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.864|TWO_SIDED|95.0|0.86|1.2||The 2-sided unstratified log-rank test was employed at the 5% significance level|Log Rank|Kaplan-Meier method estimated median OS time. HR was calculated with unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.20|0.86|0.864
92395056|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||3.1|-23.1|1.000
92395057|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|-0.5||||1|TWO_SIDED|95.0|-18.7|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||17.7|-18.7|1.000
92395058|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|4.3||||1|TWO_SIDED|95.0|-18.3|26.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||26.8|-18.3|1.000
92395059|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|14.3||||0.232|TWO_SIDED|95.0|-0.7|29.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 52||29.3|-0.7|0.232
92395060|NCT02365649|184687481|SUPERIORITY||Risk Difference (RD)|7.1||||0.412|TWO_SIDED|95.0|-6.3|20.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 52||20.6|-6.3|0.412
92395061|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-745.7||||0.356|TWO_SIDED|95.0|-2369.73|878.37||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||878.37|-2369.73|0.356
92395062|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-1119.5||||0.158|TWO_SIDED|95.0|-2698.52|459.5||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||459.50|-2698.52|0.158
92395063|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-1166.0||||0.322|TWO_SIDED|95.0|-3531.3|1199.32||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||1199.32|-3531.30|0.322
92395064|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-828.2||||0.287|TWO_SIDED|95.0|-2387.16|730.75||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 52||730.75|-2387.16|0.287
92423203|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.181|TWO_SIDED|95.0|-0.23|0.04|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.23|0.181
92395065|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-1286.1||||0.088|TWO_SIDED|95.0|-2772.59|200.43||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.1 level.||Responders, Week 52||200.43|-2772.59|0.088
92395066|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-502.2||||0.613|TWO_SIDED|95.0|-2505.74|1501.38||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 52||1501.38|-2505.74|0.613
92423204|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.013|TWO_SIDED|95.0|-0.3|-0.04|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.30|0.013
92423205|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.031|TWO_SIDED|95.0|-0.28|-0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.28|0.031
92395067|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|283.4||||0.609|TWO_SIDED|95.0|-823.64|1390.49||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||1390.49|-823.64|0.609
92395068|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-78.2||||0.855|TWO_SIDED|95.0|-930.47|774.16||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||774.16|-930.47|0.855
92423206|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.874|TWO_SIDED|95.0|-0.15|0.13|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.15|0.874
92423207|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.447|TWO_SIDED|95.0|-0.19|0.08|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.19|0.447
92423208|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.059|TWO_SIDED|95.0|-0.27|0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.27|0.059
92423209|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.196|TWO_SIDED|95.0|-0.23|0.05|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.23|0.196
92423210|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.36|TWO_SIDED|95.0|-0.18|0.06|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.18|0.360
92423211|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.845|TWO_SIDED|95.0|-0.13|0.11|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.13|0.845
92279446|NCT00095199|184462038|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.307|TWO_SIDED|95.0|0.9|1.41||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|Kaplan-Meier method estimated median OS time. HR was calculated with unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.41|0.90|0.307
92423212|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.076|TWO_SIDED|95.0|-0.23|0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.23|0.076
92423213|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.957|TWO_SIDED|95.0|-0.12|0.12|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.12|0.957
92423214|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.404|TWO_SIDED|95.0|-0.19|0.08|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.19|0.404
92423215|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.128|TWO_SIDED|95.0|-0.03|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.03|0.128
92395069|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|283.5||||0.584|TWO_SIDED|95.0|-751.66|1318.57||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||1318.57|-751.66|0.584
92395070|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|356.6||||0.624|TWO_SIDED|95.0|-1095.03|1808.19||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||1808.19|-1095.03|0.624
92423216|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.577|TWO_SIDED|95.0|-0.17|0.09|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.17|0.577
92423217|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.07||0.068|TWO_SIDED|95.0|-0.01|0.25|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.25|-0.01|0.068
92423218|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.06||0.011|TWO_SIDED|95.0|-0.28|-0.04|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.28|0.011
92423219|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.36|-0.11|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.11|-0.36|<0.001
92423220|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.43|-0.18|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.18|-0.43|<0.001
92279447|NCT00095199|184462039|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.2|TWO_SIDED|95.0|0.78|3.26||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||3.26|0.78|0.200
92395071|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-135.1||||0.806|TWO_SIDED|95.0|-1233.48|963.25||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||963.25|-1233.48|0.806
92395072|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|186.2||||0.793|TWO_SIDED|95.0|-1229.59|1602.06||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||1602.06|-1229.59|0.793
92395073|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-304.8||||0.561|TWO_SIDED|95.0|-1350.04|740.44||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 28||740.44|-1350.04|0.561
92395074|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-1119.0||||0.024|TWO_SIDED|95.0|-2083.81|-154.11||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Clinical responders, Week 28||-154.11|-2083.81|0.024
92395075|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-819.3||||0.156|TWO_SIDED|95.0|-1959.79|321.21||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 28||321.21|-1959.79|0.156
92395076|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-346.6||||0.58|TWO_SIDED|95.0|-1592.66|899.45||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 52||899.45|-1592.66|0.580
92395077|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-1275.9||||0.029|TWO_SIDED|95.0|-2415.88|-135.92||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Clinical responders, Week 52||-135.92|-2415.88|0.029
92395078|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-534.9||||0.431|TWO_SIDED|95.0|-1883.23|813.5||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 52||813.50|-1883.23|0.431
92395079|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|-25.4||||0.965|TWO_SIDED|95.0|-1200.67|1149.95||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||1149.95|-1200.67|0.965
92395080|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|623.6||||0.123|TWO_SIDED|95.0|-183.52|1430.64||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||1430.64|-183.52|0.123
92395081|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|368.2||||0.591|TWO_SIDED|95.0|-1031.23|1767.6||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||1767.60|-1031.23|0.591
92395082|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|192.2||||0.642|TWO_SIDED|95.0|-648.22|1032.68||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 52||1032.68|-648.22|0.642
92395083|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|455.8||||0.093|TWO_SIDED|95.0|-81.37|992.95||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.1 level.||Clinical non-responders, Week 52||992.95|-81.37|0.093
92395084|NCT02365649|184687482|SUPERIORITY||LS Mean of Difference|463.6||||0.296|TWO_SIDED|95.0|-428.99|1356.2||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 52||1356.20|-428.99|0.296
92395085|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-2.0||||0.822|TWO_SIDED|95.0|-19.83|15.83||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 20||15.83|-19.83|0.822
92395086|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-6.4||||0.386|TWO_SIDED|95.0|-20.97|8.25||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 20||8.25|-20.97|0.386
92423221|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.36|-0.12|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.12|-0.36|<0.001
92395087|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|12.9||||0.136|TWO_SIDED|95.0|-4.22|29.95||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 20||29.95|-4.22|0.136
92395088|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|1.0||||0.912|TWO_SIDED|95.0|-17.87|19.97||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||19.97|-17.87|0.912
92395089|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-12.3||||0.118|TWO_SIDED|95.0|-27.77|3.25||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||3.25|-27.77|0.118
92395090|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|12.5||||0.171|TWO_SIDED|95.0|-5.61|30.65||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||30.65|-5.61|0.171
92395091|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-6.9||||0.479|TWO_SIDED|95.0|-26.5|12.63||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 36||12.63|-26.50|0.479
92395092|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-17.1||||0.037|TWO_SIDED|95.0|-33.12|-1.04||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Responders, Week 36||-1.04|-33.12|0.037
92395093|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|6.9||||0.463|TWO_SIDED|95.0|-11.86|25.65||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 36||25.65|-11.86|0.463
92395094|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-4.6||||0.627|TWO_SIDED|95.0|-23.59|14.37||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 44||14.37|-23.59|0.627
92395095|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-12.2||||0.122|TWO_SIDED|95.0|-27.75|3.37||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 44||3.37|-27.75|0.122
92395096|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|10.7||||0.243|TWO_SIDED|95.0|-7.49|28.89||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 44||28.89|-7.49|0.243
92395097|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-4.2||||0.658|TWO_SIDED|95.0|-22.95|14.63||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 52||14.63|-22.95|0.658
92395098|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-12.3||||0.115|TWO_SIDED|95.0|-27.69|3.12||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 52||3.12|-27.69|0.115
92395099|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|10.0||||0.267|TWO_SIDED|95.0|-7.96|28.06||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 52||28.06|-7.96|0.267
92395100|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|0.2||||0.974|TWO_SIDED|95.0|-9.74|10.06||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 20||10.06|-9.74|0.974
92395101|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-0.5||||0.882|TWO_SIDED|95.0|-7.61|6.55||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 20||6.55|-7.61|0.882
92395102|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-0.1||||0.982|TWO_SIDED|95.0|-7.92|7.75||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 20||7.75|-7.92|0.982
92423222|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.07||0.043|TWO_SIDED|95.0|-0.27|0.0|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.00|-0.27|0.043
92423223|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.007|TWO_SIDED|95.0|-0.31|-0.05|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.05|-0.31|0.007
92423224|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.38|-0.12|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.12|-0.38|<0.001
92423225|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.36|-0.1|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.10|-0.36|<0.001
92423226|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.074|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.25|0.074
92423227|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.37|-0.1|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.10|-0.37|<0.001
92423228|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.37|-0.1|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.10|-0.37|<0.001
92423229|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.49|-0.23|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.23|-0.49|<0.001
92423230|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.236|TWO_SIDED|95.0|-0.21|0.05|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.21|0.236
92423231|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.112|TWO_SIDED|95.0|-0.24|0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.24|0.112
92423232|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.38|-0.11|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.11|-0.38|<0.001
92423233|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.39|-0.12|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.12|-0.39|<0.001
92236338|NCT00553787|184376335|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44|STANDARD_ERROR_OF_MEAN|0.169||0.0018|TWO_SIDED|95.0|1.15|1.81||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||1.81|1.15|0.0018
92423234|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.059|TWO_SIDED|95.0|-0.26|0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.26|0.059
92423235|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|95.0|-0.33|-0.07|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.07|-0.33|0.003
92423236|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.07||0.001|TWO_SIDED|95.0|-0.36|-0.09|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.36|0.001
92423237|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.51|-0.24|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.24|-0.51|<0.001
92423238|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.055|TWO_SIDED|95.0|-0.27|0.0|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.00|-0.27|0.055
92423239|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.038|TWO_SIDED|95.0|-0.28|-0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.28|0.038
92423240|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.07||0.007|TWO_SIDED|95.0|-0.33|-0.05|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.05|-0.33|0.007
92423241|NCT00809354|184734785|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.42|-0.14|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.14|-0.42|<0.001
92423242|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.469|TWO_SIDED|95.0|-0.08|0.17|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.08|0.469
92423243|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.387|TWO_SIDED|95.0|-0.18|0.07|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.18|0.387
92423244|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.887|TWO_SIDED|95.0|-0.11|0.13|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.11|0.887
92423245|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.084|TWO_SIDED|95.0|-0.01|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.01|0.084
92395103|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|2.2||||0.673|TWO_SIDED|95.0|-8.11|12.51||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||12.51|-8.11|0.673
92395104|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|2.7||||0.467|TWO_SIDED|95.0|-4.64|10.04||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||10.04|-4.64|0.467
92395105|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|2.2||||0.583|TWO_SIDED|95.0|-5.79|10.23||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||10.23|-5.79|0.583
92395106|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|5.5||||0.564|TWO_SIDED|95.0|-13.33|24.31||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 36||24.31|-13.33|0.564
92395107|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-2.4||||0.728|TWO_SIDED|95.0|-15.74|11.04||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 36||11.04|-15.74|0.728
92395108|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|5.5||||0.46|TWO_SIDED|95.0|-9.16|20.08||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 36||20.08|-9.16|0.460
92395109|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|12.0||||0.253|TWO_SIDED|95.0|-8.72|32.75||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 44||32.75|-8.72|0.253
92395110|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|1.1||||0.884|TWO_SIDED|95.0|-13.67|15.84||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 44||15.84|-13.67|0.884
92395111|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|5.8||||0.474|TWO_SIDED|95.0|-10.28|21.95||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 44||21.95|-10.28|0.474
92395112|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|3.6||||0.727|TWO_SIDED|95.0|-17.03|24.3||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||24.30|-17.03|0.727
92395113|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|2.1||||0.78|TWO_SIDED|95.0|-12.63|16.78||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||16.78|-12.63|0.780
92395114|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|6.5||||0.424|TWO_SIDED|95.0|-9.57|22.54||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||22.54|-9.57|0.424
92395115|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-1.3||||0.841|TWO_SIDED|95.0|-14.23|11.62||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 20||11.62|-14.23|0.841
92395116|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-2.1||||0.702|TWO_SIDED|95.0|-12.94|8.75||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 20||8.75|-12.94|0.702
92395117|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|5.7||||0.353|TWO_SIDED|95.0|-6.43|17.83||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 20||17.83|-6.43|0.353
92395118|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|2.1||||0.77|TWO_SIDED|95.0|-11.89|16.0||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 28||16.00|-11.89|0.770
92395119|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-5.3||||0.367|TWO_SIDED|95.0|-17.04|6.37||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 28||6.37|-17.04|0.367
92395120|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|7.0||||0.291|TWO_SIDED|95.0|-6.09|20.07||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 28||20.07|-6.09|0.291
92395121|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-0.7||||0.942|TWO_SIDED|95.0|-20.87|19.4||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 36||19.40|-20.87|0.942
92423246|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.018|TWO_SIDED|95.0|0.03|0.29|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.29|0.03|0.018
92423247|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.783|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.11|0.783
92395122|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-12.0||||0.162|TWO_SIDED|95.0|-28.89|4.91||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 36||4.91|-28.89|0.162
92423248|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.762|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.11|0.762
92423249|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.017|TWO_SIDED|95.0|0.03|0.29|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.29|0.03|0.017
92423250|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.091|TWO_SIDED|95.0|-0.23|0.02|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.23|0.091
92423251|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.06||0.009|TWO_SIDED|95.0|-0.29|-0.04|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.29|0.009
92423252|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.835|TWO_SIDED|95.0|-0.13|0.11|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.13|0.835
92170290|NCT01820260|184229581|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||z-test|||To account for multiple testing among the secondary endpoints, a hierarchical order of testing was determined, where the following evaluation was done separately for each of the four active groups: Provided the primary endpoint was significant at a 1.25% level, the comparison to vehicle in terms of reduction in AK count from baseline to week 8 was tested at a 1.25% level. Provided this test was significant, the second secondary endpoint,partial clearance, was tested(vs. vehicle) at a 1.25% level||||< 0.001
92170291|NCT01820260|184229581|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||z-test|||See comment in analysis 1||||< 0.001
92170292|NCT01820260|184229581|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||z-test|||See comment analysis 1||||< 0.001
92170293|NCT01820260|184229581|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||z-test|||See comment in analysis 1||||< 0.001
92395123|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|10.9||||0.253|TWO_SIDED|95.0|-7.96|29.82||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 36||29.82|-7.96|0.253
92423253|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.06||0.463|TWO_SIDED|95.0|-0.08|0.17|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.08|0.463
92423254|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.713|TWO_SIDED|95.0|-0.16|0.11|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.16|0.713
92423255|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.267|TWO_SIDED|95.0|-0.21|0.06|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.21|0.267
92423256|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.552|TWO_SIDED|95.0|-0.17|0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.17|0.552
92423257|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.885|TWO_SIDED|95.0|-0.12|0.14|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.14|-0.12|0.885
92423258|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.47|TWO_SIDED|95.0|-0.26|0.0|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.00|-0.26|0.47
92423259|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.056|TWO_SIDED|95.0|-0.26|0.0|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.00|-0.26|0.056
92423260|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.117|TWO_SIDED|95.0|-0.24|0.03|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.24|0.117
92423261|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.106|TWO_SIDED|95.0|-0.24|0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.24|0.106
92170294|NCT01820260|184229582|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||Analysis of partial clearance of AK's at Week 8 was done in the same way as for the primary outcome (endpoint)||||<0.001
92170295|NCT01820260|184229582|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
92170296|NCT01820260|184229582|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
92170297|NCT01820260|184229582|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
92279448|NCT00095199|184462039|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.683|TWO_SIDED|95.0|0.52|2.74||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||2.74|0.52|0.683
92395124|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|5.5||||0.617|TWO_SIDED|95.0|-16.25|27.21||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 44||27.21|-16.25|0.617
92170298|NCT01046136|184229598|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0096|||||||Regression, Logistic|p-value is from a logistic regression model with terms for treatment group and center||Investigator's End-of-Study Assessment NOTE: All assessments of efficacy were considered exploratory and were given equal consideration, and were carried out on both the MITT and PP populations. LOCF method was applied to missing post baseline measurements in analyses of the MITT population.||||0.0096
92170299|NCT01046136|184229600|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0293|||||||Wilcoxon (Mann-Whitney)|P-value is from a Wilcoxon rank sum test comparing the two treatment groups.||||||0.0293
92170300|NCT02058108|184229601|OTHER|Missing assessment imputed using the closest available assessment|Mean Difference (Net)|-0.3||||1|TWO_SIDED|95.0|-37.03|36.75|||Fisher Exact|||HBV DNA level of \<300 copies/mL (51 IU/mL) at Week 24|Exact confidence interval for the difference in percentage|36.75|-37.03|1.0000
92170301|NCT02058108|184229603|OTHER||Mean Difference (Net)|32.43||||0.2984|TWO_SIDED|95.0|-14.62|74.6|||Fisher Exact||Exact confidence interval for the difference in percentage. P-value from Fishers exact test comparing proportions in Initial LdT and Initial Placebo groups.|ALT levels at Week 24||74.60|-14.62|0.2984
92170302|NCT02058108|184229604|OTHER||Mean Difference (Net)|2.7||||1|TWO_SIDED|95.0|-53.7|60.2|||Fisher Exact||Exact confidence interval for the difference in percentage. P-value from Fishers exact test comparing proportions in Initial LdT and Initial Placebo groups.|HBeAg loss at Week 24||60.20|-53.70|1.0000
92170303|NCT02058108|184229604|OTHER||Mean Difference (Net)|2.7||||1|TWO_SIDED|95.0|-53.7|60.2|||Fisher Exact||Exact confidence interval for the difference in percentage. P-value from Fishers exact test comparing proportions in Initial LdT and Initial Placebo groups.|HBeAg seroconversion at Week 24||60.20|-53.70|1.0000
92170304|NCT02058108|184229605|OTHER||Mean Difference (Net)|2.44||||1|TWO_SIDED|95.0|-37.54|42.17|||Fisher Exact||Exact confidence interval for the difference in percentage. P-value from Fishers exact test comparing proportions in Initial LdT and Initial Placebo groups.|HBsAg loss at Week 24||42.17|-37.54|1.0000
92170305|NCT02058108|184229608|OTHER||Mean Difference (Net)|2.5||||1|TWO_SIDED|95.0|-37.05|41.83|||Fisher Exact||Exact confidence interval for the difference in percentage. P-value from Fishers exact test comparing proportions in Initial LdT and Initial Placebo groups.|Treatment emergent genotypic resistance at Week 24||41.83|-37.05|1.0000
92170306|NCT05623345|184229628|SUPERIORITY||Risk Difference (RD)|36.22|STANDARD_ERROR_OF_MEAN|17.43||0.0377|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0377
92170307|NCT05623345|184229628|SUPERIORITY||Risk Difference (RD)|27.69|STANDARD_ERROR_OF_MEAN|5.68|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92170308|NCT05623345|184229628|SUPERIORITY||Risk Difference (RD)|24.44|STANDARD_ERROR_OF_MEAN|5.65|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92170309|NCT05623345|184229629|SUPERIORITY||Risk Difference (RD)|43.71|STANDARD_ERROR_OF_MEAN|22.14||0.0483|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0483
92170310|NCT05623345|184229629|SUPERIORITY||Risk Difference (RD)|46.15|STANDARD_ERROR_OF_MEAN|7.62|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92170311|NCT05623345|184229629|SUPERIORITY||Risk Difference (RD)|52.8|STANDARD_ERROR_OF_MEAN|7.56|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92170312|NCT05623345|184229630|SUPERIORITY||Risk Difference (RD)|32.26|STANDARD_ERROR_OF_MEAN|18.93||0.0883|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0883
92170313|NCT05623345|184229630|SUPERIORITY||Risk Difference (RD)|9.19|STANDARD_ERROR_OF_MEAN|8.35||0.2713|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.2713
92395125|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-6.0||||0.515|TWO_SIDED|95.0|-24.22|12.24||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 44||12.24|-24.22|0.515
92395126|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|13.8||||0.18|TWO_SIDED|95.0|-6.53|34.23||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 44||34.23|-6.53|0.180
92395127|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-0.4||||0.972|TWO_SIDED|95.0|-21.86|21.09||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 52||21.09|-21.86|0.972
92395128|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-4.9||||0.589|TWO_SIDED|95.0|-22.94|13.1||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 52||13.10|-22.94|0.589
92395129|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|14.1||||0.168|TWO_SIDED|95.0|-6.07|34.22||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 52||34.22|-6.07|0.168
92395130|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|1.9||||0.712|TWO_SIDED|95.0|-8.5|12.36||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 20||12.36|-8.50|0.712
92395131|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-2.3||||0.465|TWO_SIDED|95.0|-8.41|3.9||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 20||3.90|-8.41|0.465
92395132|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|0.3||||0.924|TWO_SIDED|95.0|-6.83|7.52||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 20||7.52|-6.83|0.924
92395133|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|0.4||||0.938|TWO_SIDED|95.0|-8.88|9.6||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||9.60|-8.88|0.938
92395134|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|2.2||||0.41|TWO_SIDED|95.0|-3.17|7.64||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||7.64|-3.17|0.410
92395135|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|0.2||||0.941|TWO_SIDED|95.0|-5.89|6.35||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||6.35|-5.89|0.941
92395136|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|0.7||||0.872|TWO_SIDED|95.0|-8.23|9.67||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 36||9.67|-8.23|0.872
92395137|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-1.0||||0.692|TWO_SIDED|95.0|-6.27|4.2||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 36||4.20|-6.27|0.692
92395138|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-0.4||||0.896|TWO_SIDED|95.0|-6.32|5.54||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 36||5.54|-6.32|0.896
92423262|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.673|TWO_SIDED|95.0|-0.16|0.1|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.16|0.673
92423263|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.089|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.089
92423264|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.065|TWO_SIDED|95.0|-0.26|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.26|0.065
92423265|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.567|TWO_SIDED|95.0|-0.17|0.09|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.17|0.567
92423266|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.135|TWO_SIDED|95.0|-0.24|0.03|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.24|0.135
92170314|NCT05623345|184229630|SUPERIORITY||Risk Difference (RD)|-1.2|STANDARD_ERROR_OF_MEAN|8.44||0.8872|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.8872
92395139|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|1.0||||0.826|TWO_SIDED|95.0|-7.92|9.87||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 44||9.87|-7.92|0.826
92395140|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|0.4||||0.885|TWO_SIDED|95.0|-4.82|5.58||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 44||5.58|-4.82|0.885
92395141|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-0.1||||0.964|TWO_SIDED|95.0|-6.03|5.76||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 44||5.76|-6.03|0.964
92395142|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|1.1||||0.806|TWO_SIDED|95.0|-7.59|9.72||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 52||9.72|-7.59|0.806
92395143|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|0.4||||0.871|TWO_SIDED|95.0|-4.65|5.47||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 52||5.47|-4.65|0.871
92395144|NCT02365649|184687483|SUPERIORITY||LS Mean of Difference|-0.5||||0.85|TWO_SIDED|95.0|-6.28|5.19||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 52||5.19|-6.28|0.850
92423267|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.094|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.094
92170315|NCT05623345|184229631|SUPERIORITY||Risk Difference (RD)|23.45|STANDARD_ERROR_OF_MEAN|16.9||0.1654|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.1654
92170316|NCT05623345|184229631|SUPERIORITY||Risk Difference (RD)|26.58|STANDARD_ERROR_OF_MEAN|5.53|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92170317|NCT05623345|184229631|SUPERIORITY||Risk Difference (RD)|25.84|STANDARD_ERROR_OF_MEAN|5.55|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92170318|NCT05623345|184229632|SUPERIORITY||Risk Difference (RD)|43.09|STANDARD_ERROR_OF_MEAN|16.85||0.0106|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0106
92170319|NCT05623345|184229632|SUPERIORITY||Risk Difference (RD)|28.46|STANDARD_ERROR_OF_MEAN|6.22|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92236339|NCT00514449|184376347|OTHER||number of voxels in a cluster|2037.0||||0.004|TWO_SIDED|||||p value is adjusted for multiple comparisons|ANCOVA||Time by treatment group interaction term|||||0.004
92170320|NCT05623345|184229632|SUPERIORITY||Risk Difference (RD)|23.7|STANDARD_ERROR_OF_MEAN|6.4||0.0002|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0002
92236340|NCT04083144|184376349|SUPERIORITY||η2|0.01||||0.98|TWO_SIDED||||||Mixed Models Analysis|||||||0.98
92236341|NCT04083144|184376350|SUPERIORITY||η2|0.16||||0.76|TWO_SIDED||||||Mixed Models Analysis|||||||0.76
92236342|NCT04083144|184376351|SUPERIORITY||η2|0.02||||0.98|TWO_SIDED||||||Mixed Models Analysis|||||||0.98
92395145|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|-3.9||||0.792|TWO_SIDED|95.0|-33.73|25.9||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||25.90|-33.73|0.792
92395146|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|18.1||||0.179|TWO_SIDED|95.0|-8.62|44.75||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||44.75|-8.62|0.179
92395147|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|-19.1||||0.23|TWO_SIDED|95.0|-50.87|12.63||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||12.63|-50.87|0.230
92395148|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|16.4||||0.337|TWO_SIDED|95.0|-17.54|50.4||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||50.40|-17.54|0.337
92395149|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|1.1||||0.924|TWO_SIDED|95.0|-21.75|23.93||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||23.93|-21.75|0.924
92395150|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|-11.7||||0.373|TWO_SIDED|95.0|-37.69|14.35||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||14.35|-37.69|0.373
92423268|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.055|TWO_SIDED|95.0|-0.27|0.0|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.00|-0.27|0.055
92423269|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.087|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.087
92279449|NCT00095199|184462040|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.31|TWO_SIDED|95.0|0.86|1.62||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.62|0.86|0.310
92395151|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|-3.1||||0.813|TWO_SIDED|95.0|-28.94|22.79||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders||22.79|-28.94|0.813
92170321|NCT05623345|184229633|SUPERIORITY||Risk Difference (RD)|30.15|STANDARD_ERROR_OF_MEAN|19.11||0.1147|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.1147
92423270|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.542|TWO_SIDED|95.0|-0.18|0.1|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.18|0.542
92423271|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.643|TWO_SIDED|95.0|-0.17|0.11|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.17|0.643
92423272|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.07||0.301|TWO_SIDED|95.0|-0.21|0.07|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.21|0.301
92423273|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.237|TWO_SIDED|95.0|-0.22|0.05|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.22|0.237
92423274|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.36|TWO_SIDED|95.0|-0.18|0.06|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.18|0.360
92423275|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.854|TWO_SIDED|95.0|-0.13|0.11|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.13|0.854
92423276|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.076|TWO_SIDED|95.0|-0.23|0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.23|0.076
92423277|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.957|TWO_SIDED|95.0|-0.12|0.12|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.12|0.957
92423278|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.404|TWO_SIDED|95.0|-0.19|0.08|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.19|0.404
92423279|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.128|TWO_SIDED|95.0|-0.03|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.03|0.128
92170322|NCT05623345|184229633|SUPERIORITY||Risk Difference (RD)|29.04|STANDARD_ERROR_OF_MEAN|5.92|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92423280|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.577|TWO_SIDED|95.0|-0.17|0.09|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.17|0.577
92423281|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.07||0.068|TWO_SIDED|95.0|-0.01|0.25|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.25|-0.01|0.068
92236343|NCT04083144|184376352|SUPERIORITY||η2|0.07||||0.24|TWO_SIDED||||||Mixed Models Analysis|||||||0.24
92236344|NCT04083144|184376353|SUPERIORITY||η2|0.17||||0.26|TWO_SIDED||||||Mixed Models Analysis|||||||0.26
92236345|NCT02708212|184376368|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||The two-sample t test will be used to compare the total doses of fentanyl and midazolam between the two study groups.||||<0.0001
92236346|NCT02708212|184376369|SUPERIORITY_OR_OTHER|||||||0.0012|||||||t-test, 2 sided|||The two-sample t test will be used to compare the total doses of midazolam between the two study groups.||||0.0012
92423282|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.06||0.016|TWO_SIDED|95.0|-0.27|-0.03|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.27|0.016
92423283|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.38|-0.13|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.13|-0.38|<0.001
92423284|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.44|-0.19|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.19|-0.44|<0.001
92423285|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.39|-0.15|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.15|-0.39|<0.001
92423286|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.07||0.037|TWO_SIDED|95.0|-0.27|-0.01|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.27|0.037
92423287|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.015|TWO_SIDED|95.0|-0.3|-0.03|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.30|0.015
92423288|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||0.07|-0.22||||0.001|TWO_SIDED|95.0|-0.35|-0.08|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.08|-0.35|0.001
92423289|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|-0.34|-0.07|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.07|-0.34|0.002
92170323|NCT05623345|184229633|SUPERIORITY||Risk Difference (RD)|24.99|STANDARD_ERROR_OF_MEAN|5.81|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92423290|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.07||0.042|TWO_SIDED|95.0|-0.27|0.0|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.00|-0.27|0.042
92170324|NCT05623345|184229634|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.166||0.514|TWO_SIDED|95.0|-0.22|0.44|||Mixed model repeated measures analysis|||||0.44|-0.22|0.514
92423291|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.4|-0.14|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.14|-0.40|<0.001
92423292|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.4|-0.13|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.13|-0.40|<0.001
92170325|NCT05623345|184229634|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.061||0.01|TWO_SIDED|95.0|-0.28|-0.04|||Mixed model repeated measures analysis|||||-0.04|-0.28|0.010
92170326|NCT05623345|184229634|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.061||0.006|TWO_SIDED|95.0|-0.29|-0.05|||Mixed model repeated measures analysis|||||-0.05|-0.29|0.006
92170327|NCT06459401|184229663|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.131|TWO_SIDED|95.0|-0.01|0.07||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.525|Difference = Preferred Timing - Non-Preferred Timing|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.07|-0.01|0.131
92170328|NCT06459401|184229664|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|0.35||0.001|TWO_SIDED|95.0|0.99|2.56||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 1.623|Difference = Preferred Timing - Non-Preferred Timing|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||2.56|0.99|0.001
92236347|NCT02708212|184376370|SUPERIORITY_OR_OTHER|||||||0.6967|||||||t-test, 2 sided|||||||0.6967
92423293|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.5|-0.24|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.24|-0.50|<0.001
92423294|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.182|TWO_SIDED|95.0|-0.22|0.04|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.22|0.182
92423295|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.08|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.25|0.080
92279450|NCT00095199|184462040|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.1|TWO_SIDED|95.0|0.93|2.4||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||2.40|0.93|0.100
92395152|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|5.3||||0.651|TWO_SIDED|95.0|-18.02|28.65||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders||28.65|-18.02|0.651
92395153|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|-23.8||||0.065|TWO_SIDED|95.0|-49.12|1.49||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.1 level.||Clinical responders||1.49|-49.12|0.065
92395154|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|5.3||||0.802|TWO_SIDED|95.0|-37.61|48.28||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||48.28|-37.61|0.802
92395155|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|0.6||||0.955|TWO_SIDED|95.0|-20.46|21.63||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||21.63|-20.46|0.955
92395156|NCT02365649|184687484|SUPERIORITY||LS Mean of Difference|-10.6||||0.395|TWO_SIDED|95.0|-35.73|14.47||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||14.47|-35.73|0.395
92395157|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|-0.0082||||0.893|TWO_SIDED|95.0|-0.1299|0.1136||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||0.1136|-0.1299|0.893
92395158|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|0.0685||||0.182|TWO_SIDED|95.0|-0.0334|0.1705||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||0.1705|-0.0334|0.182
92395159|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|-0.1323||||0.036|TWO_SIDED|95.0|-0.2552|-0.0093||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Responders||-0.0093|-0.2552|0.036
92395160|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|0.0768||||0.316|TWO_SIDED|95.0|-0.0749|0.2286||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||0.2286|-0.0749|0.316
92423296|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|-0.34|-0.07|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.07|-0.34|0.002
92395161|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|0.0573||||0.277|TWO_SIDED|95.0|-0.0471|0.1617||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||0.1617|-0.0471|0.277
92395162|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|0.0428||||0.467|TWO_SIDED|95.0|-0.0741|0.1597||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||0.1597|-0.0741|0.467
92395163|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|-0.036||||0.464|TWO_SIDED|95.0|-0.1336|0.0616||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders||0.0616|-0.1336|0.464
92395164|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|0.0404||||0.345|TWO_SIDED|95.0|-0.0444|0.1252||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders||0.1252|-0.0444|0.345
92395165|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|-0.0873||||0.071|TWO_SIDED|95.0|-0.1822|0.0076||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.1 level.||Clinical responders||0.0076|-0.1822|0.071
92395166|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|0.1109||||0.317|TWO_SIDED|95.0|-0.1109|0.3326||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||0.3326|-0.1109|0.317
92395167|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|0.0848||||0.125|TWO_SIDED|95.0|-0.0248|0.1945||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||0.1945|-0.0248|0.125
92395168|NCT02365649|184687485|SUPERIORITY||LS Mean of Difference|0.0559||||0.39|TWO_SIDED|95.0|-0.0745|0.1864||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||0.1864|-0.0745|0.390
92395169|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|8.7||||0.263|TWO_SIDED|95.0|-6.79|24.16||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||24.16|-6.79|0.263
92395170|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|15.2||||0.031|TWO_SIDED|95.0|1.47|28.93||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Responders||28.93|1.47|0.031
92395171|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|-12.0||||0.135|TWO_SIDED|95.0|-27.93|3.9||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||3.90|-27.93|0.135
92395172|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|6.3||||0.458|TWO_SIDED|95.0|-10.61|23.27||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||23.27|-10.61|0.458
92395173|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|1.9||||0.738|TWO_SIDED|95.0|-9.59|13.45||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||13.45|-9.59|0.738
92395174|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|-5.4||||0.412|TWO_SIDED|95.0|-18.32|7.6||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||7.60|-18.32|0.412
92395175|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|3.9||||0.534|TWO_SIDED|95.0|-8.56|16.36||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders||16.36|-8.56|0.534
92395176|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|11.0||||0.052|TWO_SIDED|95.0|-0.1|22.01||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.1 level.||Clinical responders||22.01|-0.10|0.052
92395177|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|-13.9||||0.027|TWO_SIDED|95.0|-26.15|-1.63||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Clinical responders||-1.63|-26.15|0.027
92395178|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|-1.0||||0.928|TWO_SIDED|95.0|-24.02|21.97||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||21.97|-24.02|0.928
92395179|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|-2.5||||0.658|TWO_SIDED|95.0|-13.72|8.77||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||8.77|-13.72|0.658
92395180|NCT02365649|184687486|SUPERIORITY||LS Mean of Difference|-3.5||||0.601|TWO_SIDED|95.0|-16.96|9.96||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||9.96|-16.96|0.601
92395181|NCT02365649|184687488|SUPERIORITY||Risk Difference (RD)|-50.0||||1|TWO_SIDED|95.0|-99.0|-1.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||-1.0|-99.0|1.000
92395182|NCT02365649|184687488|SUPERIORITY||Risk Difference (RD)|-25.0||||1|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical Responders||5.0|-55.0|1.000
92395183|NCT02365649|184687488|SUPERIORITY||Risk Difference (RD)|-25.0||||1|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical Responders||5.0|-55.0|1.000
92395184|NCT02365649|184687488|SUPERIORITY||Risk Difference (RD)|-25.0||||1|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical Responders||5.0|-55.0|1.000
92395185|NCT02365649|184687489|SUPERIORITY||Risk Difference (RD)|-66.7||||1|TWO_SIDED|95.0|-100.0|-13.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||-13.3|-100.0|1.000
92170329|NCT06459401|184229665|OTHER|Single group test of difference.|Mean Difference (Final Values)|3.32|STANDARD_ERROR_OF_MEAN|1.14||0.017|TWO_SIDED|95.0|0.75|5.89||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.923|Difference = Preferred Timing - Non-Preferred Timing|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||5.89|0.75|0.017
92395186|NCT02365649|184687489|SUPERIORITY||Risk Difference (RD)|33.3||||0.25|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||86.7|-20.0|0.250
92395187|NCT02365649|184687489|SUPERIORITY||Risk Difference (RD)|16.7||||1|TWO_SIDED|95.0|-62.2|95.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||95.6|-62.2|1.000
92395188|NCT02365649|184687489|SUPERIORITY||Risk Difference (RD)|-33.3||||0.5|TWO_SIDED|95.0|-71.1|4.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||4.4|-71.1|0.500
92395189|NCT02365649|184687489|SUPERIORITY||Risk Difference (RD)|-33.3||||1|TWO_SIDED|95.0|-71.1|4.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||4.4|-71.1|1.000
92395190|NCT01506271|184687490|NON_INFERIORITY|Non-inferiority test based on unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|1.1|||<|0.001|TWO_SIDED|95.0|-6.2|8.6|||Miettinen and Nurminen||Relebactam minus Placebo|MK-7655 250 mg - Placebo: Percentage Difference||8.6|-6.2|< 0.001
92395191|NCT01506271|184687490|NON_INFERIORITY|Non-inferiority test based on unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|3.7|||<|0.001|TWO_SIDED|95.0|-2.0|10.8|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||10.8|-2.0|< 0.001
92170330|NCT06459401|184229666|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.016||0.874|TWO_SIDED|95.0|-0.034|0.039||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.052|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.039|-0.034|0.874
92395192|NCT01506271|184687491|OTHER|Test for a non-zero difference.|Percentage Difference|0.0||||0.979|TWO_SIDED|95.0|-4.7|4.5|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||4.5|-4.7|0.979
92395193|NCT01506271|184687491|OTHER|Test for a non-zero difference.|Percentage Difference|-1.8||||0.153|TWO_SIDED|95.0|-6.2|1.5|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||1.5|-6.2|0.153
92395194|NCT01506271|184687492|OTHER|Test for a non-zero difference.|Percentage Difference|0.9||||0.324|TWO_SIDED|95.0|-2.4|4.7|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||4.7|-2.4|0.324
92395195|NCT01506271|184687492|OTHER|Test for a non-zero difference|Percentage Difference|0.0|||>|0.999|TWO_SIDED|95.0|-3.3|3.2|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||3.2|-3.3|> 0.999
92395196|NCT01506271|184687493|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|7.5|||||TWO_SIDED|95.0|-5.4|20.1|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||20.1|-5.4|
92395197|NCT01506271|184687493|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|6.2|||||TWO_SIDED|95.0|-6.7|18.8|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||18.8|-6.7|
92395198|NCT01506271|184687494|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-3.6|||||TWO_SIDED|95.0|-10.3|2.4|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||2.4|-10.3|
92395199|NCT01506271|184687494|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|2.5|||||TWO_SIDED|95.0|-5.0|10.1|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||10.1|-5.0|
92395200|NCT01506271|184687495|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.0|||||TWO_SIDED|95.0|-4.5|12.7|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||12.7|-4.5|
92423297|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.37|-0.11|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.11|-0.37|<0.001
92395201|NCT01506271|184687495|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.1|||||TWO_SIDED|95.0|-4.4|12.8|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||12.8|-4.4|
92423298|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.016|TWO_SIDED|95.0|-0.3|-0.03|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.30|0.016
92423299|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.4|-0.13|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.13|-0.40|<0.001
92423300|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.42|-0.15|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.15|-0.42|<0.001
92423301|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.53|-0.27|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.27|-0.53|<0.001
92423302|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.032|TWO_SIDED|95.0|-0.29|-0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.29|0.032
92423303|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.07||0.006|TWO_SIDED|95.0|-0.33|-0.06|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.06|-0.33|0.006
92423304|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.009|TWO_SIDED|95.0|-0.32|-0.05|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.05|-0.32|0.009
92423305|NCT00809354|184734786|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.41|-0.13|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.13|-0.41|<0.001
92423306|NCT04010539|184734902|NON_INFERIORITY|The difference in microbiological success rates between treatment groups (Gepotidacin - Ceftriaxone plus azithromycin) was calculated using the Miettinen-Nurminen Summary Score Method adjusted for sex and sexual orientation combination. Non-inferiority was declared if the lower limit of the 2-sided 95% confidence interval for the difference was above -10.0%.|Adjusted Difference in Percent|-0.1|||||TWO_SIDED|95.0|-5.6|5.5||||||||5.5|-5.6|
92423307|NCT04010539|184734902|SUPERIORITY|The difference in microbiological success rates between treatment groups (Gepotidacin - Ceftriaxone plus azithromycin) was calculated using the Miettinen-Nurminen Summary Score Method adjusted for sex and sexual orientation combination. Superiority was declared if the lower limit of the 2-sided 95% confidence interval for the difference was above 0.0%.|Adjusted Difference in Percent|-0.1||||0.5072|TWO_SIDED|95.0|-5.6|5.5|||1-sided p-value for Test of Superiority|||||5.5|-5.6|0.5072
92170331|NCT06459401|184229667|OTHER|Single group test of difference.|Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.36||0.345|TWO_SIDED|95.0|-1.18|0.46||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = -0.315|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.46|-1.18|0.345
92236348|NCT00149825|184376385|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||Chi-squared|This is a one-tailed test||We hypothesized that compared with MED+CTRL, a greater percent of participants randomized to MED+CBTI will experience remission of depression||||.13
92395202|NCT01506271|184687496|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.0|||||TWO_SIDED|95.0|-4.0|3.9|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||3.9|-4.0|
92395203|NCT01506271|184687496|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|-0.9|||||TWO_SIDED|95.0|-4.8|2.4|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||2.4|-4.8|
92423308|NCT02314143|184734930|OTHER||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.224|4.459|||Cochran-Mantel-Haenszel||The odds ratio for dabrafenib followed by combination therapy versus combination therapy has been presented.|||4.459|0.224|1.0000
92423309|NCT02314143|184734930|OTHER||Odds Ratio (OR)|1.97||||0.4216|TWO_SIDED|95.0|0.382|10.166|||Cochran-Mantel-Haenszel||The odds ratio for trametinib followed by combination therapy versus combination therapy has been presented.|||10.166|0.382|0.4216
92423310|NCT03194503|184734949|SUPERIORITY||Odds Ratio (OR)|0.65||||0.015|TWO_SIDED|95.0|0.47|0.92|||t-test, 2 sided|||This statistical analysis applies to all three rows in the post-intervention column. ITT analysis: Multivariable analysis for Any TIAEs, Severe TIAEs, and Severe desaturation(\>20%)||0.92|0.47|0.015
92423311|NCT03194503|184734950|SUPERIORITY||Odds Ratio (OR)|0.77||||0.25|TWO_SIDED|95.0|0.5|1.2|||t-test, 2 sided|||This statistical analysis applies to all three rows and is a per-protocol analysis: Multivariable analysis for Any TIAEs, Severe TIAEs, and Severe desaturation(\>20%)||1.20|0.50|0.250
92423312|NCT00457366|184734951|OTHER|We used an analysis of covariance (ANCOVA) with baseline as the covariate to analyze the PANSS-EC at hour 2.|||||>|0.05|||||||ANCOVA|||||||>0.05
92423313|NCT04231318|184734952|SUPERIORITY|||||||0.0406|||||||ANOVA|||||||0.0406
92423314|NCT04231318|184734952|SUPERIORITY|||||||0.0795|||||||ANOVA|||||||0.0795
92423315|NCT04231318|184734952|SUPERIORITY|||||||0.7601|||||||ANOVA|||||||0.7601
92423316|NCT04231318|184734953|SUPERIORITY|||||||0.1942|||||||ANOVA|||||||0.1942
92423317|NCT04231318|184734953|SUPERIORITY|||||||0.0957|||||||ANOVA|||||||0.0957
92423318|NCT04231318|184734953|SUPERIORITY|||||||0.4526|||||||ANOVA|||||||0.4526
92423319|NCT04231318|184734954|SUPERIORITY|||||||0.1309|||||||ANOVA|||||||0.1309
92423320|NCT04231318|184734954|SUPERIORITY|||||||0.17|||||||ANOVA|||||||0.1700
92423321|NCT04231318|184734954|SUPERIORITY|||||||0.7609|||||||ANOVA|||||||0.7609
92423322|NCT04231318|184734955|SUPERIORITY|||||||0.1|||||||ANOVA|||||||0.1000
92395204|NCT01506271|184687497|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-6.7|2.3|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||2.3|-6.7|
92423323|NCT04231318|184734955|SUPERIORITY|||||||0.0423|||||||ANOVA|||||||0.0423
92423324|NCT04231318|184734955|SUPERIORITY|||||||0.383|||||||ANOVA|||||||0.3830
92423325|NCT04231318|184734956|SUPERIORITY|||||||0.0298|||||||ANOVA|||||||0.0298
92423326|NCT04231318|184734956|SUPERIORITY|||||||0.0217|||||||ANOVA|||||||0.0217
92423327|NCT04231318|184734956|SUPERIORITY|||||||0.4451|||||||ANOVA|||||||0.4451
92395205|NCT01506271|184687497|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.7|||||TWO_SIDED|95.0|-3.7|7.4|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||7.4|-3.7|
92395206|NCT01506271|184687498|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-2.6|||||TWO_SIDED|95.0|-7.5|0.6|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||0.6|-7.5|
92395207|NCT01506271|184687498|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-6.7|2.4|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||2.4|-6.7|
92423328|NCT04231318|184734957|SUPERIORITY|||||||0.1197|||||||ANOVA|||||||0.1197
92423329|NCT04231318|184734957|SUPERIORITY|||||||0.0008|||||||ANOVA|||||||0.0008
92423330|NCT04231318|184734957|SUPERIORITY|||||||0.0223|||||||ANOVA|||||||0.0223
92423331|NCT04231318|184734958|SUPERIORITY|||||||0.1067|||||||ANOVA|||||||0.1067
92423332|NCT04231318|184734959|SUPERIORITY|||||||0.1715|||||||ANOVA|||||||0.1715
92423333|NCT04231318|184734959|SUPERIORITY|||||||0.0736|||||||ANOVA|||||||0.0736
92423334|NCT04231318|184734959|SUPERIORITY|||||||0.4098|||||||ANOVA|||||||0.4098
92423335|NCT04231318|184734960|SUPERIORITY|||||||0.2718|||||||ANOVA|||||||0.2718
92423336|NCT04231318|184734960|SUPERIORITY|||||||0.0182|||||||ANOVA|||||||0.0182
92423337|NCT04231318|184734960|SUPERIORITY|||||||0.1131|||||||ANOVA|||||||0.1131
92423338|NCT04231318|184734961|SUPERIORITY|||||||0.2143|||||||ANOVA|||||||0.2143
92423339|NCT04231318|184734961|SUPERIORITY|||||||0.1628|||||||ANOVA|||||||0.1628
92423340|NCT04231318|184734961|SUPERIORITY|||||||0.6036|||||||ANOVA|||||||0.6036
92423341|NCT04231318|184734962|SUPERIORITY|||||||0.222|||||||ANOVA|||||||0.2220
92423342|NCT04231318|184734962|SUPERIORITY|||||||0.141|||||||ANOVA|||||||0.1410
92423343|NCT04231318|184734962|SUPERIORITY|||||||0.5418|||||||ANOVA|||||||0.5418
92423344|NCT04231318|184734963|SUPERIORITY|||||||0.1619|||||||ANOVA|||||||0.1619
92423345|NCT04231318|184734963|SUPERIORITY|||||||0.1683|||||||ANOVA|||||||0.1683
92423346|NCT04231318|184734963|SUPERIORITY|||||||0.6969|||||||ANOVA|||||||0.6969
92423347|NCT04231318|184734964|SUPERIORITY|||||||0.0701|||||||ANOVA|||||||0.0701
92423348|NCT04231318|184734964|SUPERIORITY|||||||0.0925|||||||ANOVA|||||||0.0925
92423349|NCT04231318|184734964|SUPERIORITY|||||||0.6981|||||||ANOVA|||||||0.6981
92423350|NCT04231318|184734965|SUPERIORITY|||||||0.0275|||||||ANOVA|||||||0.0275
92423351|NCT04231318|184734965|SUPERIORITY|||||||0.1738|||||||ANOVA|||||||0.1738
92170332|NCT06459401|184229668|OTHER|Single group test of difference.|Mean Difference (Final Values)|-2.13|STANDARD_ERROR_OF_MEAN|0.78||0.024|TWO_SIDED|95.0|-3.9|-0.36||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = -0.859|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||-0.36|-3.90|0.024
92395208|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.6|||||TWO_SIDED|95.0|-4.7|8.1|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Diarrhoea||8.1|-4.7|
92423352|NCT04231318|184734965|SUPERIORITY|||||||0.8364|||||||ANOVA|||||||0.8364
92423353|NCT04231318|184734966|SUPERIORITY|||||||0.2227|||||||ANOVA|||||||0.2227
92423354|NCT04231318|184734966|SUPERIORITY|||||||0.1114|||||||ANOVA|||||||0.1114
92423355|NCT04231318|184734966|SUPERIORITY|||||||0.4635|||||||ANOVA|||||||0.4635
92423356|NCT01278160|184735001|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.12||||95.0|-0.24|0.22|||ANCOVA|The estimates were from a normal linear regression model with treatment and previous insulin as factors, and baseline value as a covariate.||The null hypothesis is H0: μBIAsp 30 (2:1) - μBIAsp 30 (1:1) = 0 against the alternative hypothesis HA: μBIAsp 30 (2:1) - μBIAsp 30 (1:1) ≠ 0. This trial is an extension to BIAsp-3756 (NCT01123980), hence no particular sample size calculation was made.||0.22|-0.24|
92423357|NCT01278160|184735002|SUPERIORITY_OR_OTHER||Mixed models analysis|0.2||||0.2569||95.0|-0.15|0.56||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is before breakfast profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp 30 OD/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.56|-0.15|0.2569
92423358|NCT01278160|184735002|SUPERIORITY_OR_OTHER||Mixed models analysis|0.09||||0.812||95.0|-0.63|0.8||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is two hours after breakfast profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.80|-0.63|0.8120
92170333|NCT06459401|184229669|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.01||0.044|TWO_SIDED|95.0|0.0|0.06||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.739|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.06|0.00|0.044
92170334|NCT06459401|184229670|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.41|STANDARD_ERROR_OF_MEAN|0.48||0.017|TWO_SIDED|95.0|0.32|2.5||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.928|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||2.50|0.32|0.017
92236349|NCT00149825|184376386|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||We hypothesized that compared with MED+CTRL, a greater percent of participants in MED+CBTI will experience remission of insomnia.||||.05
92395209|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.6|||||TWO_SIDED|95.0|-4.6|8.2|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Diarrhoea||8.2|-4.6|
92395210|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.2|||||TWO_SIDED|95.0|-7.3|6.9|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Nausea||6.9|-7.3|
92423359|NCT01278160|184735002|SUPERIORITY_OR_OTHER||Mixed model analysis|0.35||||0.2843||95.0|-0.29|0.99||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is before lunch profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.99|-0.29|0.2843
92423360|NCT01278160|184735002|SUPERIORITY_OR_OTHER||Mixed model analysis|0.3||||0.4614||95.0|-0.5|1.11||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is two hours after lunch profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||1.11|-0.50|0.4614
92236350|NCT04458857|184376398|OTHER||LS mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.44||0.021|TWO_SIDED|95.0|-1.9|-0.16|||ANCOVA|||||-0.16|-1.90|0.0210
92395211|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.7|||||TWO_SIDED|95.0|-6.5|8.0|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Nausea||8.0|-6.5|
92395212|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|3.4|||||TWO_SIDED|95.0|-2.3|9.6|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Vomiting||9.6|-2.3|
92395213|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|5.1|||||TWO_SIDED|95.0|-0.7|11.8|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Vomiting||11.8|-0.7|
92395214|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-7.6|3.5|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Postoperative Infection||3.5|-7.6|
92395215|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-2.7|||||TWO_SIDED|95.0|-8.4|2.2|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Postoperative Infection||2.2|-8.4|
92395216|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.9|||||TWO_SIDED|95.0|-2.4|4.7|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Seroma||4.7|-2.4|
92395217|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.3|||||TWO_SIDED|95.0|1.0|9.7|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Seroma||9.7|1.0|
92423361|NCT01278160|184735002|SUPERIORITY_OR_OTHER||Mixed model analysis|0.44||||0.1591||95.0|-0.17|1.04||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is before dinner profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||1.04|-0.17|0.1591
92395218|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.8|||||TWO_SIDED|95.0|-5.0|6.6|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - ALT increased||6.6|-5.0|
92395219|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.8|||||TWO_SIDED|95.0|-4.9|6.7|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - ALT increased||6.7|-4.9|
92395220|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.6|||||TWO_SIDED|95.0|-3.7|7.3|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - AST increased||7.3|-3.7|
92395221|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.7|||||TWO_SIDED|95.0|-3.7|7.4|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - AST increased||7.4|-3.7|
92395222|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.9|||||TWO_SIDED|95.0|-6.5|4.2|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Lipase increased||4.2|-6.5|
92395223|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-7.2|3.0|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Lipase increased||3.0|-7.2|
92395224|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-3.5|||||TWO_SIDED|95.0|-8.7|-0.3|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Hypertension||-0.3|-8.7|
92395225|NCT01506271|184687499|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.9|||||TWO_SIDED|95.0|-6.4|4.3|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Hypertension||4.3|-6.4|
92395226|NCT01506271|184687500|SUPERIORITY||Percentage Difference|0.0|||>|0.999|TWO_SIDED|95.0|0.0|0.0|||Fisher Exact||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||0|0|> 0.999
92395227|NCT01506271|184687500|SUPERIORITY||Percentage Difference|0.0|||>|0.999|TWO_SIDED|95.0|0.0|0.0|||Fisher Exact||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||0|0|> 0.999
92395228|NCT01506271|184687501|NON_INFERIORITY|Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|-1.4||||0.001|TWO_SIDED|95.0|-9.1|6.0|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||6.0|-9.1|0.001
92395229|NCT01506271|184687501|NON_INFERIORITY|Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|-2.1||||0.002|TWO_SIDED|95.0|-9.7|5.3|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||5.3|-9.7|0.002
92395230|NCT01506271|184687502|NON_INFERIORITY|Two participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|0.0|||<|0.001|TWO_SIDED|95.0|-6.3|6.2|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||6.2|-6.3|< 0.001
92395231|NCT01506271|184687502|NON_INFERIORITY|Two participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|2.4|||<|0.001|TWO_SIDED|95.0|-2.0|8.3|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||8.3|-2.0|< 0.001
92395232|NCT01506271|184687503|NON_INFERIORITY|Eight participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|-0.1|||<|0.001|TWO_SIDED|95.0|-6.7|6.4|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||6.4|-6.7|< 0.001
92423362|NCT01278160|184735002|SUPERIORITY_OR_OTHER||Mixed model analysis|0.03||||0.9327||95.0|-0.63|0.69||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is two hours after dinner profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.69|-0.63|0.9327
92423363|NCT01278160|184735002|SUPERIORITY_OR_OTHER||Mixed model analysis|-0.25||||0.4063||95.0|-0.84|0.34||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is bedtime profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.34|-0.84|0.4063
92423364|NCT01278160|184735002|SUPERIORITY_OR_OTHER||Mixed model analysis|0.3||||0.2198||95.0|-0.18|0.79||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is 2.00 - 4.00 a.m. profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.79|-0.18|0.2198
92423365|NCT01278160|184735002|SUPERIORITY_OR_OTHER||Mixed model analysis|-0.04||||0.8424||95.0|-0.47|0.38|||Mixed Models Analysis||Confidence interval is before breakfast the following day profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.38|-0.47|0.8424
92423366|NCT01278160|184735003|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.7312||95.0|0.36|2.06|||Regression, Logistic||The odds ratio and 95% confidence interval for the HbA1c below 7% treatment target were included.|Responder analyses were based on logistics regression model using treatment and previous therapy (BIAsp 30 OD or insulin glargine OD) as factors and baseline HbA1c as covariate.||2.06|0.36|0.7312
92423367|NCT01278160|184735004|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.1257||95.0|0.05|1.44|||Regression, Logistic|The estimates were from a normal linear regression model with treatment and previous insulin as factors, and baseline value as a covariate|The odds ratio and 95% confidence interval for the HbA1c below or equal to 6.5% treatment target were included.|Responder analyses were based on logistics regression model using treatment and previous therapy (BIAsp 30 OD or insulin glargine OD) as factors and baseline HbA1c as covariate.||1.44|0.05|0.1257
92423368|NCT01278160|184735005|SUPERIORITY_OR_OTHER||Rate ratio|0.72||||0.1911||95.0|0.43|1.18|||Negative binomial regression model||For all episodes.|The number of hypos was analysed using a negative binomial regression model with a log-link function and the logarithm of the time period in which a hypo is considered emergent as offset. The model included treatment and previous therapy (BIAsp 30 OD/insulin glargine OD) as factors. The rate ratio was estimated and 95% confidence intervals were calculated accordingly.||1.18|0.43|0.1911
92423369|NCT01278160|184735005|SUPERIORITY_OR_OTHER||Rate ratio|1.61||||0.2949||95.0|0.66|3.92|||Negative binomial regression model||For nocturnal episodes.|The number of hypos was analysed using a negative binomial regression model with a log-link function and the logarithm of the time period in which a hypo is considered emergent as offset. The model included treatment and previous therapy (BIAsp 30 OD/insulin glargine OD) as factors. The rate ratio was estimated and 95% confidence intervals were calculated accordingly.||3.92|0.66|0.2949
92423370|NCT01278160|184735005|SUPERIORITY_OR_OTHER||Rate ratio|0.63||||0.077||95.0|0.38|1.05|||Negative binomial regression model||For diurnal episodes.|The number of hypos was analysed using a negative binomial regression model with a log-link function and the logarithm of the time period in which a hypo is considered emergent as offset. The model included treatment and previous therapy (BIAsp 30 OD/insulin glargine OD) as factors. The rate ratio was estimated and 95% confidence intervals were calculated accordingly.||1.05|0.38|0.0770
92423371|NCT01278160|184735005|SUPERIORITY_OR_OTHER||Rate ratio|0.56||||0.1687||95.0|0.25|1.27|||Negative binomial regression model||For minor episodes.|The number of hypos was analysed using a negative binomial regression model with a log-link function and the logarithm of the time period in which a hypo is considered emergent as offset. The model included treatment and previous therapy (BIAsp 30 OD/insulin glargine OD) as factors. The rate ratio was estimated and 95% confidence intervals were calculated accordingly.||1.27|0.25|0.1687
92423372|NCT02595970|184735082|SUPERIORITY|adjusted for multiplicity using the Hochberg procedure.|Mean Difference (Net)|-22.6|STANDARD_ERROR_OF_MEAN|0.99|<|0.0001|TWO_SIDED|95.0|-24.52|20.59|||t-test, 2 sided|||||20.59|-24.52|<0.0001
92423373|NCT02595970|184735092|SUPERIORITY|adjusted|Mean Difference (Net)|-21.6|STANDARD_ERROR_OF_MEAN|0.99|<|0.0001|TWO_SIDED|95.0|-23.52|19.58|||t-test, 2 sided|||||19.58|-23.52|<0.0001
92423374|NCT03793556|184735103|OTHER||Mean Difference (Final Values)|-2.5|STANDARD_DEVIATION|9.27||0.276|TWO_SIDED|95.0|-7.03|2.04|||Unpaired t test|||||2.04|-7.03|0.276
92423375|NCT03793556|184735104|OTHER|||||||0.0157|||||||ANOVA|The ANOVA model examined the entire curve profile.||||||0.0157
92423376|NCT03793556|184735114|OTHER|||||||0.0496|||||||Chi-squared|||||||0.0496
92423377|NCT03793556|184735116|OTHER|||||||0.0065|||||||ANOVA|||||||0.0065
92423378|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.375|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to EMU Discharge||||0.375
92423379|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.156|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 3 Months||||0.156
92423380|NCT01325623|184735138|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 6 months||||>0.999
92423381|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.906|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 12 Months||||0.906
92423382|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.188|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 18 Months||||0.188
92423383|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.906|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 24 Months||||0.906
92423384|NCT01325623|184735138|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to EMU Discharge||||<0.001
92423385|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.106|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 3 Months||||0.106
92423386|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 6 Months||||0.012
92423387|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||s|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 12 Months||||0.008
92423388|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 18 Months||||0.009
92423389|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 24 Months||||0.029
92423390|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||s|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to EMU Discharge||||0.500
92423391|NCT01325623|184735138|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 3 Months||||>0.999
92423392|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 6 Months||||0.500
92423393|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 12 Months||||0.500
92423394|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.188|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 18 Months||||0.188
92423395|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 24 Months||||0.500
92423396|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to EMU Discharge||||0.500
92236351|NCT01748695|184376419|SUPERIORITY_OR_OTHER|||||||0.834||||||Based on a linear mixed measures model with treatment and period included as fixed effects, subject included as a random effect and between- and within- subject baseline covariates included.|Regression, Linear|||||||0.834
92423397|NCT01325623|184735138|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 3 Months||||>0.999
92423398|NCT01325623|184735138|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 6 Months||||>0.999
92423399|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 12 Months||||0.125
92423400|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 18 Months||||0.500
92423401|NCT01325623|184735138|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 24 Months||||0.500
92423402|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.1529|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.1529
92423403|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.0942|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.0942
92423404|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.2831|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.2831
92423405|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.3639|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.3639
92423406|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.447|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.4470
92423407|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.1311|TWO_SIDED||||||s|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.1311
92423408|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.3898|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.3898
92423409|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.0511|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0511
92423410|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.0019
92423411|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.1106|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.1106
92423412|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.1273|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.1273
92423413|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.1305|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.1305
92423414|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.1123|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.1123
92423415|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.2309|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.2309
92423416|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.3191|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.3191
92423417|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.0679|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.0679
92423418|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.2082|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.2082
92423419|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.179|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.1790
92423420|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.6869|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.6869
92423421|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.6094|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.6094
92423422|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.153|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.1530
92423423|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.3339|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.3339
92423424|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.1473|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.1473
92423425|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.5035|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.5035
92423426|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.6653|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.6653
92423427|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.8622|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.8622
92423428|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.4456|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.4456
92423429|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.6876|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.6876
92423430|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.0328|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0328
92423431|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.0067|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.0067
92423432|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.5928|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.5928
92236352|NCT01333189|184376422|SUPERIORITY_OR_OTHER||||||=|0.329|TWO_SIDED||||||Mixed Models Analysis|||||||=0.329
92236353|NCT01333189|184376423|SUPERIORITY_OR_OTHER||||||=|0.891|TWO_SIDED||||||Mixed Models Analysis|||||||=0.891
92423433|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.7179|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.7179
92423434|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.5014|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.5014
92423435|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.964|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.9640
92423436|NCT01325623|184735139|SUPERIORITY_OR_OTHER|||||||0.8537|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.8537
92423437|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.2079|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total||||0.2079
92423438|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.6562|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final Score||||0.6562
92170335|NCT06459401|184229671|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.19|STANDARD_ERROR_OF_MEAN|1.26||0.372|TWO_SIDED|95.0|-1.67|4.04||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.297|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||4.04|-1.67|0.372
92236354|NCT01333189|184376424|SUPERIORITY_OR_OTHER||||||=|0.021|TWO_SIDED||||||Mixed Models Analysis|||||||=0.021
92170336|NCT06459401|184229672|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.03||0.001|TWO_SIDED|95.0|0.07|0.2||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 1.508|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.20|0.07|0.001
92236355|NCT01333189|184376425|SUPERIORITY_OR_OTHER||||||=|0.509|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the hip||||=0.509
92395233|NCT01506271|184687503|NON_INFERIORITY|Eight participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|0.1|||<|0.001|TWO_SIDED|95.0|-6.3|6.5|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||6.5|-6.3|< 0.001
92170337|NCT06459401|184229673|OTHER|Single group test of difference.|Mean Difference (Final Values)|2.24|STANDARD_ERROR_OF_MEAN|0.95||0.043|TWO_SIDED|95.0|0.09|4.39||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.746|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||4.39|0.09|0.043
92236356|NCT01333189|184376425|SUPERIORITY_OR_OTHER||||||=|0.5|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the knee||||=0.500
92236357|NCT01333189|184376425|SUPERIORITY_OR_OTHER||||||=|0.607|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the ankle||||=0.607
92236358|NCT01333189|184376426|SUPERIORITY_OR_OTHER||||||=|0.068|TWO_SIDED||||||Mixed Models Analysis|||||||=0.068
92236359|NCT01333189|184376427|SUPERIORITY_OR_OTHER||||||=|0.48|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the hip||||=0.480
92236360|NCT01333189|184376427|SUPERIORITY_OR_OTHER||||||=|0.12|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the knee||||=0.120
92236361|NCT01333189|184376427|SUPERIORITY_OR_OTHER||||||=|0.668|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the ankle||||=0.668
92395234|NCT01506271|184687504|NON_INFERIORITY|Non-inferiority test based on Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|-1.3||||0.002|TWO_SIDED|95.0|-9.6|6.9|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||6.9|-9.6|0.002
92395235|NCT01506271|184687504|NON_INFERIORITY|Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|0.4|||<|0.001|TWO_SIDED|95.0|-7.2|8.2|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||8.2|-7.2|< 0.001
92395236|NCT01506271|184687505|NON_INFERIORITY|Eight participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|0.0|||<|0.001|TWO_SIDED|95.0|-7.4|7.4|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||7.4|-7.4|< 0.001
92395237|NCT01506271|184687505|NON_INFERIORITY|Eight participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|1.4|||<|0.001|TWO_SIDED|95.0|-5.2|8.6|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||8.6|-5.2|< 0.001
92395238|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-7.3|5.1|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Blood, lymphatic||5.1|-7.3|
92395239|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-4.4|||||TWO_SIDED|95.0|-10.3|0.1|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Blood, lymphatic||0.1|-10.3|
92395240|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-5.2|5.0|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Cardiac disorder||5.0|-5.2|
92395241|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.8|||||TWO_SIDED|95.0|-4.5|6.3|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Cardiac disorder||6.3|-4.5|
92395242|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|5.6|||||TWO_SIDED|95.0|-3.9|15.3|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - GI disorders||15.3|-3.9|
92395243|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.1|||||TWO_SIDED|95.0|-5.4|13.6|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - GI disorders||13.6|-5.4|
92395244|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.2|||||TWO_SIDED|95.0|-2.0|11.0|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Gen. dis \& admin.||11.0|-2.0|
92395245|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.7|||||TWO_SIDED|95.0|-4.2|7.8|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Gen. dis \& admin.||7.8|-4.2|
92395246|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.1|||||TWO_SIDED|95.0|-3.6|12.0|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Infect. \& Infest.||12.0|-3.6|
92395247|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.7|||||TWO_SIDED|95.0|-6.5|8.0|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Infect. \& Infest.||8.0|-6.5|
92395248|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-7.3|5.1|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Injury, poison.||5.1|-7.3|
92395249|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.6|||||TWO_SIDED|95.0|-5.0|8.5|||||Relebactam minus Placebo|Relebactam 1250mg - Placebo: Percentage Difference - Injury, poison.||8.5|-5.0|
92395250|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.2|||||TWO_SIDED|95.0|-9.8|7.4|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Investigations||7.4|-9.8|
92395251|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.9|||||TWO_SIDED|95.0|-10.5|6.5|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Investigations||6.5|-10.5|
92395252|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-2.7|||||TWO_SIDED|95.0|-8.4|2.2|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Nervous System||2.2|-8.4|
92423439|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.9376|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being Final Score||||0.9376
92423440|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final Score||||0.0100
92423441|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.8532|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive functioning Final Score||||0.8532
92423442|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.4954|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects Final Score||||0.4954
92423443|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.1877|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry Final Score||||0.1877
92170338|NCT06459401|184229674|OTHER|Single group test of difference.|Mean Difference (Final Values)|4.53|STANDARD_ERROR_OF_MEAN|1.9||0.041|TWO_SIDED|95.0|0.22|8.83||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.752|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||8.83|0.22|0.041
92236362|NCT01333189|184376428|SUPERIORITY_OR_OTHER||||||=|0.511|TWO_SIDED||||||Mixed Models Analysis|||||||=0.511
92236363|NCT01333189|184376429|SUPERIORITY_OR_OTHER||||||=|0.402|TWO_SIDED||||||Mixed Models Analysis|||||||=0.402
92395253|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-2.7|||||TWO_SIDED|95.0|-8.4|2.2|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Nervous System||2.2|-8.4|
92395254|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.1|||||TWO_SIDED|95.0|-5.7|5.4|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Psychiatric disorders||5.4|-5.7|
92395255|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.1|||||TWO_SIDED|95.0|-5.7|5.5|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Psychiatric disorders||5.5|-5.7|
92395256|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-7.2|3.0|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Renal \& Urinary||3.0|-7.2|
92395257|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-7.2|3.0|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Renal \& Urinary||3.0|-7.2|
92395258|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-4.4|||||TWO_SIDED|95.0|-10.7|0.7|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Resp. \& chest||0.7|-10.7|
92395259|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-8.4|4.4|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Resp. \& chest||4.4|-8.4|
92395260|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|2.5|||||TWO_SIDED|95.0|-2.4|8.1|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Skin \& subcutan.||8.1|-2.4|
92395261|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.0|||||TWO_SIDED|95.0|-4.7|4.5|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Skin \& subcutan.||4.5|-4.7|
92395262|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-3.6|||||TWO_SIDED|95.0|-9.9|2.0|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Vascular disorders||2.0|-9.9|
92423444|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.4189|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life Final Score||||0.4189
92423445|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.2365|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total Score||||0.2365
92423446|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.4138|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final Score||||0.4138
92423447|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.8701|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being Final Score||||0.8701
92423448|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0527|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final Score||||0.0527
92423449|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.1353|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive functioning Final Score||||0.1353
92423450|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.6927|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects Final Score||||0.6927
92423451|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.4964|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry Final Score||||0.4964
92170339|NCT06459401|184229675|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.04||0.013|TWO_SIDED|95.0|0.03|0.21||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.983|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.21|0.03|0.013
92423452|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0238|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life Final Score||||0.0238
92423453|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0139|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total Score||||0.0139
92423454|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.2822|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final Score||||0.2822
92423455|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.1363|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being Final Score||||0.1363
92423456|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final Score||||0.0019
92423457|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.1293|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive functioning Final Score||||0.1293
92423458|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.5252|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects Final Score||||0.5252
92423459|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0642|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry Final Score||||0.0642
92423460|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0025|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life Final Score||||0.0025
92423461|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total Score||||0.0024
92423462|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.4464|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final Score||||0.4464
92423463|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0511|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being Final Score||||0.0511
92170340|NCT06459401|184229676|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.61|STANDARD_ERROR_OF_MEAN|0.52||0.012|TWO_SIDED|95.0|0.44|2.78||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.985|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||2.78|0.44|0.012
92423464|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final Score||||0.0002
92423465|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0296|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning Final Score||||0.0296
92423466|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.3115|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects Final Score||||0.3115
92423467|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry Final Score||||0.0270
92236364|NCT01333189|184376430|SUPERIORITY_OR_OTHER||||||=|0.021|TWO_SIDED||||||Mixed Models Analysis|||||||=0.021
92236365|NCT01333189|184376431|SUPERIORITY_OR_OTHER||||||=|0.686|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the hip||||=0.686
92423468|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life Final Score||||0.0008
92395263|NCT01506271|184687507|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.1|||||TWO_SIDED|95.0|-6.9|6.6|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Vascular disorders||6.6|-6.9|
92395264|NCT00539994|184687531|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92395265|NCT00539994|184687531|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92395266|NCT02775916|184687608|SUPERIORITY||Mean Difference (Net)|-0.69|STANDARD_DEVIATION|1.332|||TWO_SIDED|95.0|-3.343|1.937||||||||1.937|-3.343|
92395267|NCT02775916|184687609|SUPERIORITY||Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|1.466|||TWO_SIDED|95.0|-2.52|3.55||||||||3.55|-2.52|
92395268|NCT02775916|184687610|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|3.119|||TWO_SIDED|95.0|-6.08|6.89||||||||6.89|-6.08|
92395269|NCT02775916|184687610|SUPERIORITY||Mean Difference (Net)|4.33|STANDARD_ERROR_OF_MEAN|4.615|||TWO_SIDED|95.0|-5.27|13.93||||||||13.93|-5.27|
92423469|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0683|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total Score||||0.0683
92395270|NCT02775916|184687611|SUPERIORITY||Mean Difference (Net)|-6.55|STANDARD_ERROR_OF_MEAN|7.27|||TWO_SIDED|95.0|-21.76|8.66||||||||8.66|-21.76|
92395271|NCT02775916|184687612|SUPERIORITY||Mean Difference (Net)|-10.97|STANDARD_ERROR_OF_MEAN|9.626|||TWO_SIDED|95.0|-30.94|9.0||||||||9.00|-30.94|
92395272|NCT02775916|184687613|SUPERIORITY||Mean Difference (Net)|-7.69|STANDARD_ERROR_OF_MEAN|10.595|||TWO_SIDED|95.0|-29.75|14.37||||||||14.37|-29.75|
92395273|NCT02722564|184687614|OTHER||||||<|0.001||||||p value associated with the change between estimated and actual BrAC when the participants BrAC was ascending to 0.1.|t-test, 2 sided|||||||<0.001
92395274|NCT02722564|184687614|OTHER||||||<|0.0001||||||p value associated with change between estimated and actual BrAC as participants BrAC descended to 0.08.|t-test, 2 sided|||||||<0.0001
92395275|NCT00762359|184687616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.0989|||<|0.0001|TWO_SIDED|95.0|0.0425|0.23|||Log Rank|||||0.2300|0.0425|<0.0001
92395276|NCT00762359|184687617|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92395277|NCT00762359|184687618|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92395278|NCT00762359|184687619|SUPERIORITY_OR_OTHER|||||||0.0079||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0079
92395279|NCT00762359|184687620|SUPERIORITY_OR_OTHER|||||||0.0433||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0433
92395280|NCT00762359|184687622|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92395281|NCT00762359|184687623|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0006
92395282|NCT00762359|184687624|SUPERIORITY_OR_OTHER|||||||0.0025||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0025
92395283|NCT00762359|184687625|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0010
92395284|NCT00762359|184687627|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<0.0001
92395285|NCT00762359|184687628|SUPERIORITY_OR_OTHER|||||||0.6148||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6148
92395286|NCT00762359|184687629|SUPERIORITY_OR_OTHER|||||||0.805||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8050
92395287|NCT00762359|184687630|SUPERIORITY_OR_OTHER|||||||0.8678||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8678
92395288|NCT00762359|184687631|SUPERIORITY_OR_OTHER|||||||0.2688||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2688
92395289|NCT00762359|184687633|SUPERIORITY_OR_OTHER|||||||0.7054||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7054
92395290|NCT00762359|184687634|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3400
92395291|NCT00762359|184687635|SUPERIORITY_OR_OTHER|||||||0.8813||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8813
92395292|NCT00762359|184687636|SUPERIORITY_OR_OTHER|||||||0.1862||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1862
92395293|NCT00762359|184687638|SUPERIORITY_OR_OTHER|||||||0.8604||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8604
92395294|NCT00762359|184687639|SUPERIORITY_OR_OTHER|||||||0.5485||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5485
92395295|NCT00762359|184687640|SUPERIORITY_OR_OTHER|||||||0.7382||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7382
92395296|NCT00762359|184687641|SUPERIORITY_OR_OTHER|||||||0.7619||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7619
92395297|NCT00762359|184687643|SUPERIORITY_OR_OTHER|||||||0.0204||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0204
92395298|NCT00762359|184687644|SUPERIORITY_OR_OTHER|||||||0.0046||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0046
92395299|NCT00762359|184687645|SUPERIORITY_OR_OTHER|||||||0.0059||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0059
92395300|NCT00762359|184687646|SUPERIORITY_OR_OTHER|||||||0.1229||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1229
92395301|NCT00762359|184687648|SUPERIORITY_OR_OTHER|||||||0.2694||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2694
92395302|NCT00762359|184687649|SUPERIORITY_OR_OTHER|||||||0.0141||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0141
92395303|NCT00762359|184687650|SUPERIORITY_OR_OTHER|||||||0.3128||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3128
92395304|NCT00762359|184687651|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1450
92395305|NCT00762359|184687653|SUPERIORITY_OR_OTHER|||||||0.6175||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6175
92395306|NCT00762359|184687654|SUPERIORITY_OR_OTHER|||||||0.4496||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4496
92395307|NCT00762359|184687655|SUPERIORITY_OR_OTHER|||||||0.4718||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4718
92395308|NCT00762359|184687656|SUPERIORITY_OR_OTHER|||||||0.4484||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4484
92395309|NCT00762359|184687658|SUPERIORITY_OR_OTHER|||||||0.2604||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2604
92395310|NCT00762359|184687659|SUPERIORITY_OR_OTHER|||||||0.6818||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6818
92423470|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.2226|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final Score||||0.2226
92423471|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0823|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being Final Score||||0.0823
92423472|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.1459|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final Score||||0.1459
92423473|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.261|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning Final Score||||0.2610
92423474|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.9119|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||||||0.9119
92423475|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0826|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry Final Score||||0.0826
92423476|NCT01325623|184735143|SUPERIORITY_OR_OTHER|||||||0.0036|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life Final Score||||0.0036
92423477|NCT01539642|184735147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.02|STANDARD_ERROR_OF_MEAN|15.25||0.001|TWO_SIDED|95.0|19.89|80.14|||ANCOVA|||||80.14|19.89|0.001
92423478|NCT00438451|184735152|SUPERIORITY_OR_OTHER|||||||0.0201||95.0|||||Fisher Exact|||||||0.0201
92423479|NCT00438451|184735152|SUPERIORITY_OR_OTHER|||||||0.1536||95.0|||||Fisher Exact|||||||0.1536
92423480|NCT00438451|184735152|SUPERIORITY_OR_OTHER|||||||0.3615||95.0|||||Fisher Exact|||||||0.3615
92423481|NCT00438451|184735152|SUPERIORITY_OR_OTHER|||||||0.0478||95.0|||||Fisher Exact|||||||0.0478
92423482|NCT00438451|184735152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.838||||0.0578|TWO_SIDED|95.0|1.092|3.093|||Regression, Logistic|adjusted for treatment (p=0.0578), country (p=0.4649), pooled sites (p=0.4420) and number of concurrent diseases (p=0.0192)|"Odds ratio given here is for comparison LEV vs CBZ: OR=1.838 KI=(1.092-3.093) LEV vs LTG: OR=1.169 KI=(0.689-1.984) CBZ vs LTG: OR=0.636 KI=(0.377-1.073) Number of concurrent diseases: OR=0.921 KI=(0.859-0.987)"|||3.093|1.092|0.0578
92423483|NCT00438451|184735153|SUPERIORITY_OR_OTHER|||||||0.0596||95.0|||||Log Rank|||||||0.0596
92423484|NCT00438451|184735154|SUPERIORITY_OR_OTHER|||||||0.2517||95.0|||||Fisher Exact|||||||0.2517
92423485|NCT00438451|184735155|SUPERIORITY_OR_OTHER|||||||0.3303||95.0|||||Fisher Exact|||||||0.3303
92423486|NCT00438451|184735156|SUPERIORITY_OR_OTHER|||||||0.5022||95.0|||||Log Rank|||||||0.5022
92423487|NCT02413372|184735164|SUPERIORITY||Mean Difference (Final Values)|-7.17|||||TWO_SIDED|90.0|-9.09|-5.26|||||mean difference in adjusted change from baseline vs placebo|Day 57||-5.26|-9.09|
92236366|NCT01333189|184376431|SUPERIORITY_OR_OTHER||||||=|0.434|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the knee||||=0.434
92423488|NCT02413372|184735164|SUPERIORITY||Mean Difference (Final Values)|-5.19|||||TWO_SIDED|90.0|-7.14|-3.25|||||mean difference in adjusted change from baseline vs placebo|Day 57||-3.25|-7.14|
92423489|NCT02413372|184735164|SUPERIORITY||Mean Difference (Final Values)|-5.43||||0.0004|TWO_SIDED|90.0|-8.01|-2.84|||t-test, 1 sided||mean difference in adjusted change from baseline vs placebo|Day 112||-2.84|-8.01|0.0004
92423490|NCT02413372|184735164|SUPERIORITY||Mean Difference (Final Values)|-3.85||||0.0084|TWO_SIDED|90.0|-6.47|-1.23|||t-test, 1 sided||mean difference in adjusted change from baseline vs placebo|Day 112||-1.23|-6.47|0.0084
92423491|NCT01480089|184735180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.308|STANDARD_ERROR_OF_MEAN|0.777||0.098|TWO_SIDED|95.0|-2.83|0.214|||t-test, 2 sided|||The null hypothesis is that the mean VAS score 2 hours post surgery is equivalent for individuals randomized to Intraperitoneal Ropivacaine(AIR) and those randomized to Atomized Intraperitoneal Saline (AIS).||0.214|-2.830|.098
92423492|NCT01480089|184735181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.065|STANDARD_ERROR_OF_MEAN|0.53||0.9|TWO_SIDED|95.0|-1.103|0.973|||t-test, 2 sided|||The null hypothesis is that the mean VAS score 12 hours post surgery is equivalent for individuals randomized to Intraperitoneal Ropivacaine(AIR) and those randomized to Atomized Intraperitoneal Saline (AIS).||0.973|-1.103|.90
92423493|NCT03053271|184735195|OTHER|No statistical test was done as only 4 subjects could be enrolled, none met criteria for randomization, and the study was discontinued by the Sponsor.|||||||||||||||||No statistical test was done as only 4 subjects could be enrolled, none met criteria for randomization, and the study was discontinued by the Sponsor.|||
92423494|NCT00580970|184735200|SUPERIORITY_OR_OTHER|||||||0.9138||||||Considering all late rectal toxicities, 38% (20/53) of participants developed physician reported Grade 2 or higher GI toxicity during 2 year follow up. The threshold for significance was p \< 0.05.|t-test, 1 sided|A one sided t-test, with 5% level of significance, and 83% power was used which required 53 subjects.||||||0.9138
92423495|NCT03161093|184735205|SUPERIORITY||Least Squares Mean|-0.68|STANDARD_ERROR_OF_MEAN|0.18||0.0002|TWO_SIDED|95.0|-1.028|-0.324|||Mixed Models Analysis|||||-0.324|-1.028|0.0002
92236367|NCT01333189|184376431|SUPERIORITY_OR_OTHER||||||=|0.227|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the ankle||||=0.227
92236368|NCT01333189|184376432|SUPERIORITY_OR_OTHER||||||=|0.068|TWO_SIDED||||||Mixed Models Analysis|||||||=0.068
92423496|NCT03161093|184735206|SUPERIORITY||Least Squares Mean|-0.7|STANDARD_ERROR_OF_MEAN|0.178|<|0.0001|TWO_SIDED|95.0|-1.046|-0.346|||Mixed Models Analysis|||||-0.346|-1.046|<0.0001
92423497|NCT03161093|184735207|SUPERIORITY||Least Squares Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.254||0.7036|TWO_SIDED|95.0|-0.594|0.401|||Mixed Models Analysis|||||0.401|-0.594|0.7036
92423498|NCT03161093|184735208|SUPERIORITY||Least Squares Mean|-0.18|STANDARD_ERROR_OF_MEAN|0.243||0.4605|TWO_SIDED|95.0|-0.657|0.297|||Mixed Models Analysis|||||0.297|-0.657|0.4605
92423499|NCT00570765|184735254|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Treatment arms compared using 2-sided Wilcoxon-Mann-Whitney test at 5% significance level. Treatment groups were pairwise compared versus placebo.||Hierarchical testing strategy was proposed to account for multiple comparisons. Statistical significance was evaluated as follows: if statistical significance at alpha=0.05 is shown for the 10 mg OCA versus placebo, then the statistical significance at alpha=0.05 for the 50 mg OCA versus placebo was evaluated. If no statistical significance was shown at alpha=0.05 at the first step, then the subsequent comparison was not considered statistically significant.||||<0.0001
92423500|NCT00570765|184735255|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Treatment arms compared using 2-sided Wilcoxon-Mann-Whitney test at 5% significance level. Treatment groups were pairwise compared versus placebo.||||||<0.0001
92423501|NCT00570765|184735256|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|Tx arms will be compared using the 2-sided Wilcoxon-Mann-Whitney test, at 5% significance level. Tx groups will be pairwise compared vs. placebo.||||||<0.01
92423502|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.12||||||Serotype 1: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.12|0.74|
92423503|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.7|0.98||||||Serotype 3: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||0.98|0.70|
92423504|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.55|0.91||||||Serotype 4: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||0.91|0.55|
92423505|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.78|1.18||||||Serotype 5: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.18|0.78|
92423506|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.53|0.85||||||Serotype 6A: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||0.85|0.53|
92423507|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.64|1.08||||||Serotype 6B: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.08|0.64|
92423508|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.83|1.14||||||Serotype 7F: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.14|0.83|
92423509|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.69|1.0||||||Serotype 9V: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.0|0.69|
92423510|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.62|0.92||||||Serotype 14: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||0.92|0.62|
92423511|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.64|1.06||||||Serotype 18C: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.06|0.64|
92170341|NCT06459401|184229677|OTHER|Single group test of difference.|Mean Difference (Final Values)|4.75|STANDARD_ERROR_OF_MEAN|1.93||0.036|TWO_SIDED|95.0|0.39|9.11||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.779|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||9.11|0.39|0.036
92395311|NCT00762359|184687660|SUPERIORITY_OR_OTHER|||||||0.9015||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9015
92395312|NCT00762359|184687661|SUPERIORITY_OR_OTHER|||||||0.4497||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4497
92395313|NCT00833040|184687682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.3|STANDARD_ERROR_OF_MEAN|4.49|<|0.001||95.0|||||ANCOVA|||difference between the active and placebo groups||||<0.001
92395314|NCT00416624|184687683|NON_INFERIORITY_OR_EQUIVALENCE|If the hematopoietic response rate in the standard therapy group is far from 50% (\<25% or \>75%), the\> above sample size will provide an 80% power to detect a difference as small as\> 25%.|||||>|0.41|TWO_SIDED||||||Fisher Exact|||With 80 patients per treatment arm, there will be\> about 80% power to detect a difference through Fisher's exact test across two\> treatment arms of 25% in the true percentage of patients that experience a\> hematopoietic response as defined previously, if that percentage is at least 30% in\> the superior group, again with a 1.7% type I error rate.||||>0.41
92423512|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.72|1.04||||||Serotype 19A: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.04|0.72|
92423513|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.71|1.14||||||Serotype 19F: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.14|0.71|
92423514|NCT02124161|184735271|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.56|1.03||||||Serotype 23F: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.03|0.56|
92423515|NCT02124161|184735272|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.88|1.18||||||Strain A/H1N1: CIs for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.18|0.88|
92170342|NCT06459401|184229682|OTHER|Single group test of difference.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.54||0.962|TWO_SIDED|95.0|-1.24|1.19||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = -0.015|Difference = Preferred Timing - Non-Preferred Timing|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||1.19|-1.24|0.962
92423516|NCT02124161|184735272|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.2|||||TWO_SIDED|95.0|1.01|1.32||||||Strain A/H3N2: CIs for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.32|1.01|
92423517|NCT02124161|184735272|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.95|1.24||||||Strain B/Brisbane: CIs for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.24|0.95|
92170343|NCT06459401|184229683|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.09||0.146|TWO_SIDED|95.0|-0.06|0.35||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.504|Difference = Preferred Timing - Non-Preferred Timing|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.35|-0.06|0.146
92236369|NCT01333189|184376433|SUPERIORITY_OR_OTHER||||||=|0.16|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the hip||||=0.160
92236370|NCT01333189|184376433|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the knee||||=0.008
92395315|NCT00416624|184687685|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 80 patients per arm will provide\> 80% power to detect differences between average hemoglobin levels in the\> reference arm and another treatment of 50% of the standard deviation. Note that\> typically one would expect the estimates for the standard deviation at a single time\> point to differ from the standard deviation for the difference from baseline.|||||>|0.13|TWO_SIDED||||||Fisher Exact|||||||>0.13
92395316|NCT00416624|184687687|NON_INFERIORITY_OR_EQUIVALENCE|If the hematopoietic response rate in the standard therapy group is far from 50% (\<25% or \>75%), the\> above sample size will provide an 80% power to detect a difference as small as\> 25%.|||||>|0.49|TWO_SIDED||||||Fisher Exact|||With 80 patients per treatment arm, there will be\> about 80% power to detect a difference through Fisher's exact test across two\> treatment arms of 25% in the true percentage of patients that experience a\> hematopoietic response as defined previously, if that percentage is at least 30% in\> the superior group, again with a 1.7% type I error rate.||||>0.49
92395317|NCT00416624|184687690|NON_INFERIORITY_OR_EQUIVALENCE|If the hematopoietic response rate in the standard therapy group is far from 50% (\<25% or \>75%), the above sample size will provide an 80% power to detect a difference as small as 25%.|||||>|0.56|TWO_SIDED||||||Fisher Exact|||With 80 patients per treatment arm, there will be about 80% power to detect a difference through Fisher's exact test across two treatment arms of 25% in the true percentage of patients that experience a hematopoietic response as defined previously, if that percentage is at least 30% in the superior group, again with a 1.7% type I error rate.||||>0.56
92170344|NCT06459401|184229684|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.48|STANDARD_ERROR_OF_MEAN|0.95||0.152|TWO_SIDED|95.0|-0.66|3.63||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.495|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||3.63|-0.66|0.152
92395318|NCT00904813|184687699|NON_INFERIORITY|In the initial protocol treatment groups were deemed non-inferior if the upper limit of a two-sided 90% CI for the hazard ratio did not exceed 1.7. With a cumulative incidence of local recurrence at 15%, a sample size of 840 participants were determined to provide a power of 80%. However, due to lower recurrence rate, the trial was re-powered in the amendment 1999 to deem non-inferiority at an HR not exceeding 2.5 or 3.6 depending on the frequency of local recurrence.|Hazard Ratio (HR)|0.38||||0.52|TWO_SIDED|90.0|0.06|2.56||The threshold for statistical significance was p=0.05.|Log Rank|An overall p-value was calculated.|SRT was used as reference group. Estimation described above is for SRT-delay. For LRT-delay HR (90% CI) was 1.22 with lower limit: 0.33, and upper limit: 3.45.|The effect of treatment regimen on local recurrence as first event in the three-armed group comparison (n = 385) was estimated with proportional hazards regression, stratified by participating centre.||2.56|0.06|0.52
92395319|NCT00904813|184687699|NON_INFERIORITY|In the initial protocol treatment groups were deemed non-inferior if the upper limit of a two-sided 90% CI for the hazard ratio did not exceed 1.7. With a cumulative incidence of local recurrence at 15%, a sample size of 840 participants were determined to provide a power of 80%. However, due to lower recurrence rate, the trial was re-powered in the amendment 1999 to deem non-inferiority at an HR not exceeding 2.5 or 3.6 depending on the frequency of local recurrence.|Hazard Ratio (HR)|0.93||||0.92|TWO_SIDED|95.0|0.64|1.35||The threshold for statistical significance was p=0.05.|Log Rank|An overall p-value was calculated.|SRT was used as reference group (1.00). Estimation described above is for SRT-delay. For LRT-delay HR (95% CI) was 0.99 with lower limit: 0.68, and upper limit: 1.42.|The effect of treatment regimen on recurrence-free survival in the three armed randomisation comparison (n = 385) was estimated with proportional hazards regression, stratified by participating centre.||1.35|0.64|0.92
92395320|NCT00904813|184687699|NON_INFERIORITY|In the initial protocol treatment groups were deemed non-inferior if the upper limit of a two-sided 90% CI for the hazard ratio did not exceed 1.7. With a cumulative incidence of local recurrence at 15%, a sample size of 840 participants were determined to provide a power of 80%. However, due to lower recurrence rate, the trial was re-powered in the amendment 1999 to deem non-inferiority at an HR not exceeding 2.5 or 3.6 depending on the frequency of local recurrence.|Hazard Ratio (HR)|0.91||||0.59|TWO_SIDED|90.0|0.36|2.27||The threshold for statistical significance was p=0.05.|Log Rank||SRT was used as reference group (1.00). Estimation described above is for SRT-delay.|The effect of treatment regimen on local recurrence as first event in the pooled short-course RT comparison (n = 712) was estimated with proportional hazards regression, stratified by participating centre.||2.27|0.36|0.59
92423518|NCT02124161|184735272|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.9|1.21||||||Strain B/Massachusetts: CIs for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.21|0.90|
92423519|NCT02124161|184735275|SUPERIORITY_OR_OTHER||Percentage Difference|2.8|||||TWO_SIDED|95.0|-1.9|7.4||||||AE: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC+QIV /placebo - placebo+QIV/13vPnC, expressed as a percentage.||7.4|-1.9|
92423520|NCT02124161|184735275|SUPERIORITY_OR_OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.8|1.7||||||SAE: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC+QIV /placebo - placebo+QIV/13vPnC, expressed as a percentage.||1.7|-1.8|
92423521|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-2.8||||0.333|TWO_SIDED|95.0|-8.3|2.8|||Chan and Zhang method|||Serotype 1: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||2.8|-8.3|0.333
92423522|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-4.3||||0.105|TWO_SIDED|95.0|-9.6|0.9|||Chan and Zhang method|||Serotype 3: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||0.9|-9.6|0.105
92423523|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-3.5||||0.09|TWO_SIDED|95.0|-7.6|0.6|||Chan and Zhang method|||Serotype 4: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||0.6|-7.6|0.090
92423524|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|1.8||||0.59|TWO_SIDED|95.0|-4.2|7.8|||Chan and Zhang method|||Serotype 5: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||7.8|-4.2|0.590
92423525|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-3.7||||0.044|TWO_SIDED|95.0|-7.5|-0.1|||Chan and Zhang method|||Serotype 6A: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||-0.1|-7.5|0.044
92423526|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-1.4||||0.574|TWO_SIDED|95.0|-6.2|3.4|||Chan and Zhang method|||Serotype 6B: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||3.4|-6.2|0.574
92423527|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-1.2||||0.648|TWO_SIDED|95.0|-6.3|3.9|||Chan and Zhang method|||Serotype 7F: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||3.9|-6.3|0.648
92236371|NCT01333189|184376433|SUPERIORITY_OR_OTHER||||||=|0.877|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the ankle||||=0.877
92236372|NCT00969618|184376528|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for total ADHD symptoms score.|Paired t-test|||||||<0.001
92236373|NCT00969618|184376528|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for inattention subscale score.|Paired t-test|||||||<0.001
92236374|NCT00969618|184376528|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for hyperactivity/impulsivity subscale score.|Paired t-test|||||||<0.001
92236375|NCT00969618|184376528|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for ADHD index subscale score.|Paired t-test|||||||<0.001
92423528|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-6.2||||0.057|TWO_SIDED|95.0|-12.5|0.2|||Chan and Zhang method|||Serotype 9V: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||0.2|-12.5|0.057
92423529|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-3.7||||0.03|TWO_SIDED|95.0|-7.3|-0.3|||Chan and Zhang method|||Serotype 14: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||-0.3|-7.3|0.030
92423530|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-2.5||||0.233|TWO_SIDED|95.0|-6.6|1.6|||Chan and Zhang method|||Serotype 18C: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||1.6|-6.6|0.233
92423531|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-1.8||||0.152|TWO_SIDED|95.0|-4.5|0.7|||Chan and Zhang method|||Serotype 19A: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||0.7|-4.5|0.152
92423532|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|0.3||||0.926|TWO_SIDED|95.0|-5.1|5.8|||Chan and Zhang method|||Serotype 19F: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||5.8|-5.1|0.926
92423533|NCT02124161|184735277|SUPERIORITY_OR_OTHER||Percentage Difference|-3.9||||0.143|TWO_SIDED|95.0|-9.1|1.3|||Chan and Zhang method|||Serotype 23F: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||1.3|-9.1|0.143
92423534|NCT02124161|184735280|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|Percentage Difference|5.1||||0.094|TWO_SIDED|95.0|-0.9|11.0|||Chan and Zhang method|||Strain A/H1N1: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||11.0|-0.9|0.094
92423535|NCT02124161|184735280|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|Percentage Difference|-3.8||||0.232|TWO_SIDED|95.0|-9.9|2.4|||Chan and Zhang method|||Strain A/H3N2: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||2.4|-9.9|0.232
92423536|NCT02124161|184735280|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|Percentage Difference|-1.0||||0.734|TWO_SIDED|95.0|-6.6|4.5|||Chan and Zhang method|||Strain B/Brisbane: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||4.5|-6.6|0.734
92423537|NCT02124161|184735280|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|Percentage Difference|-1.5||||0.627|TWO_SIDED|95.0|-7.2|4.3|||Chan and Zhang method|||Strain B/Massachusetts: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||4.3|-7.2|0.627
92423538|NCT02439879|184735293|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t test|||All data were analyzed using the SPSS v16 statistical package software. To compare categorical variables, the chi2 test was used, and, for continuous variables,the T-test for independent or paired samples was applied.Data are expressed as percent values with 95% confidence intervals (CI) or mean ± SD or mean ± SEM||||< 0.05
92423539|NCT02437383|184735305|SUPERIORITY||LSM Difference (Final Values)|-1.8||||0.414|TWO_SIDED|95.0|-6.2|2.6||P-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05.|Mixed Models Analysis|Covariates for site, baseline value, sex, race, treatment, visit, a treatment\*visit interaction, and an unstructured covariance structure.||||2.6|-6.2|0.414
92423540|NCT03789214|184735378|OTHER|One-way ANOVA||||||0.95|||||||ANOVA|||||||.950
92423541|NCT03789214|184735379|OTHER|One-way ANOVA||||||0.048|||||||ANOVA|||||||.048
92423542|NCT03789214|184735380|OTHER|One-way ANOVA||||||0.691|||||||ANOVA|||||||.691
92423543|NCT03789214|184735381|OTHER|One-way ANOVA||||||0.62|||||||ANOVA|||||||.620
92423544|NCT03789214|184735382|OTHER|One-way ANOVA||||||0.067|||||||ANOVA|||||||.067
92423545|NCT00406354|184735404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.0|-1.5||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-1.5|-5.0|<.001
92423546|NCT00406354|184735405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.4|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-11.0|-3.8||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-3.8|-11.0|<.001
92423547|NCT00406354|184735406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.3|-1.8||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-1.8|-5.3|<.001
92423548|NCT00406354|184735407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|-5.8|-2.0||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-2.0|-5.8|<.001
92423549|NCT00406354|184735408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.2|-0.6|<.001
92423550|NCT00406354|184735409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.006|TWO_SIDED|95.0|-0.4|-0.1||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.1|-0.4|0.006
92423551|NCT00406354|184735410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|1.4||0.01|TWO_SIDED|95.0|-6.2|-0.9||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.9|-6.2|0.010
92423552|NCT00406354|184735411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.7||0.01|TWO_SIDED|95.0|-3.2|-0.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.4|-3.2|0.010
92423553|NCT00406354|184735412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.7||0.406|TWO_SIDED|95.0|-4.9|2.0||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Negative values are in favor of the atomoxetine arms.|||2.0|-4.9|0.406
92423554|NCT00406354|184735413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.1|-0.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.4|-1.1|<.001
92423555|NCT00406354|184735414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.1|-0.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.4|-1.1|<.001
92423556|NCT00406354|184735415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.1|-0.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.4|-1.1|<.001
92423557|NCT00406354|184735416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|2.2||0.021|TWO_SIDED|95.0|0.8|9.3||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||9.3|0.8|0.021
92423558|NCT00406354|184735417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6|STANDARD_ERROR_OF_MEAN|3.1||0.017|TWO_SIDED|95.0|-13.8|-1.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||-1.4|-13.8|0.017
92423559|NCT00406354|184735418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|STANDARD_ERROR_OF_MEAN|2.8||0.05|TWO_SIDED|95.0|0.0|10.9||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||10.9|-0.0|0.050
92395321|NCT00904813|184687699|NON_INFERIORITY|In the initial protocol treatment groups were deemed non-inferior if the upper limit of a two-sided 90% CI for the hazard ratio did not exceed 1.7. With a cumulative incidence of local recurrence at 15%, a sample size of 840 participants were determined to provide a power of 80%. However, due to lower recurrence rate, the trial was re-powered in the amendment 1999 to deem non-inferiority at an HR not exceeding 2.5 or 3.6 depending on the frequency of local recurrence.|Hazard Ratio (HR)|0.9||||0.39|TWO_SIDED|95.0|0.69|1.18||The threshold for statistical significance was p=0.05.|Log Rank||SRT was used as reference group. Estimation described above is for SRT-delay.|The effect of treatment regimen on recurrence-free survival in the pooled short-course RT comparison (n = 712) was estimated with proportional hazards regression, stratified by participating centre.||1.18|0.69|0.39
92395322|NCT00904813|184687700|SUPERIORITY||Odds Ratio (OR)|0.72||||0.289|TWO_SIDED|95.0|0.4|1.32||The threshold of statistical significance was p=0.05.|Regression, Logistic|Model was adjusted for sex, age over 75 years, type of surgery and ASA fitness grade.|Group B was used as the reference group.|The association between postoperative complications and short-course RT by overall treatment time was assessed using logistic regression analysis.||1.32|0.40|0.289
92395323|NCT00904813|184687700|SUPERIORITY||Odds Ratio (OR)|0.5||||0.009|TWO_SIDED|95.0|0.3|0.84||The threshold for statistical significance was p=0.05.|Regression, Logistic|Model was adjusted for sex, age over 75 years, type of surgery and ASA fitness grade.|Group B was used as the reference group.|The association between postoperative complications and short-course RT by overall treatment time was assessed using logistic regression analysis.||0.84|0.30|0.009
92395324|NCT00904813|184687700|SUPERIORITY||Odds Ratio (OR)|0.39|||<|0.001|TWO_SIDED|95.0|0.23|0.65||The threshold for statistical significance was p-value=0.05.|Regression, Logistic|Model was adjusted for sex, age over 75 years, type of surgery and ASA fitness grade.|Group B was used as the reference group.|The association between postoperative complications and short-course RT by overall treatment time was assessed using logistic regression analysis.||0.65|0.23|<0.001
92395325|NCT00904813|184687700|SUPERIORITY||Odds Ratio (OR)|1.58||||0.521|TWO_SIDED|95.0|0.39|6.37||The threshold for statistical significance was p-value = 0.05.|Regression, Logistic|Model was adjusted for sex, age over 75 years, type of surgery and ASA fitness grade.|Group E was used as the reference group.|The association between postoperative complications and long-course RT by overall treatment time was assessed using logistic regression analysis.||6.37|0.39|0.521
92395326|NCT00904813|184687701|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.046|TWO_SIDED|95.0|0.26|0.99||The threshold for statistical significance was p=0.05.|Regression, Cox|Model adjusted for age, sex and type of surgery.|No pCR was used as reference group.|The association between pathological complete response (pCR), eg no signs of viable tumour or metastatic nodes (T0N0) and overall survival (OS) was assessed using Cox-regression model.||0.99|0.26|0.046
92395327|NCT00657540|184687702|SUPERIORITY_OR_OTHER|||||||0.0185|||||||Chi-squared|The proportion of treatment failures was compared between groups using a one-sided test at the 0.025 level of significance.||||||0.0185
92395328|NCT00657540|184687703|SUPERIORITY_OR_OTHER|||||||0.2302|||||||Chi-squared|Chi-squared tests at the 0.025 level of significance were used to test for a difference in proportions between the treatment groups.||||||0.2302
92236376|NCT00969618|184376529|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|||||||<0.001
92395329|NCT00657540|184687704|SUPERIORITY_OR_OTHER|||||||0.8213|||||||Chi-squared|The proportion of subjects with at least one drug-related adverse event by treatment groups using a two-sided test at the 0.05 level of significance.||||||0.8213
92395330|NCT00657540|184687705|SUPERIORITY_OR_OTHER|||||||0.2765|||||||Chi-squared|The proportion of subjects with decreased pain at any time point between treatment groups using a one-sided test at the 0.025 level of significance.||||||0.2765
92395331|NCT04755816|184687730|OTHER|Estimates and confidence intervals are provided|Win Ratio|1.29|||||TWO_SIDED|95.0|1.08|1.54||||||"Dietary Sodium Intervention includes those in treatment group B and D. No Dietary Sodium Intervention includes those in treatment group A and C. By the unmatched pairs win ratio method, each participant receiving the intervention will be compared to each participant not receiving the intervention. For each comparison, winners will be determined according to the hierarchy described above. The win ratio is the number winners divided by the number of losers associated with the intervention."||1.54|1.08|
92395332|NCT04755816|184687731|OTHER|Estimates and confidence intervals are provided|Win Ratio|1.29|||||TWO_SIDED|95.0|1.08|1.54||||||"Clinical Worsening Intervention includes those in treatment group C and D. No Clinical Worsening Intervention includes those in group A and B. By the unmatched pairs win ratio method, each participant receiving the intervention will be compared to each participant not receiving the intervention. For each comparison, winners will be determined according to the hierarchy described above. The win ratio is the number winners divided by the number of losers associated with the intervention."||1.54|1.08|
92395333|NCT04755816|184687733|OTHER|Estimates and confidence intervals are provided|Hazard Ratio (HR)|1.096|||||TWO_SIDED|95.0|0.321|3.743||||||Dietary Sodium Intervention includes those in treatment group B and D. No Dietary Sodium Intervention includes those in treatment group A and C.||3.743|0.321|
92395334|NCT04755816|184687734|OTHER|Estimates and confidence intervals are provided|Slope|-15.37|||||TWO_SIDED|95.0|-37.5|6.76|||||"The total score for the MLHFQ ranges from 0 to 105, with higher scores indicating more significant impairment in health-related quality of life. The change in MLHFQ is defined as MLHFQ at Week 12 minus MLHFQ at Week 0."|Dietary Sodium Intervention includes those in treatment group B and D. No Dietary Sodium Intervention includes those in treatment group A and C. Simple linear regression models will be used to assess the outcome of change in MLHFQ over 12 weeks as a function of treatment group assignment. Beta coefficients and 95% confidence intervals will be reported.||6.76|-37.5|
92395335|NCT04755816|184687735|OTHER|Estimates and confidence intervals are provided|Hazard Ratio (HR)|0.556|||||TWO_SIDED|95.0|0.163|1.901||||||Clinical Worsening Intervention includes those in treatment group C and D. No Clinical Worsening Intervention includes those in treatment group A and B.||1.901|0.163|
92395336|NCT04755816|184687736|OTHER|Estimates and confidence intervals are provided|Slope|-12.98|||||TWO_SIDED|95.0|-33.67|7.72|||||"The total score for the MLHFQ ranges from 0 to 105, with higher scores indicating more significant impairment in health-related quality of life. The change in MLHFQ is defined as MLHFQ at Week 12 minus MLHFQ at Week 0."|Clinical Worsening Intervention includes those in treatment group C and D. No Clinical Worsening Intervention includes those in treatment group A and B. Simple linear regression models will be used to assess the outcome of change in MLHFQ over 12 weeks as a function of treatment group assignment. Beta coefficients and 95% confidence intervals will be reported.||7.72|-33.67|
92170345|NCT06459401|184229685|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.08||0.153|TWO_SIDED|95.0|-0.06|0.31||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.494|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.31|-0.06|0.153
92170346|NCT06459401|184229686|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.46|STANDARD_ERROR_OF_MEAN|0.94||0.155|TWO_SIDED|95.0|-0.67|3.58||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.491|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||3.58|-0.67|0.155
92395337|NCT02653326|184687749|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||||||0.63
92395338|NCT02653326|184687750|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||0.32
92395339|NCT04664153|184687761|SUPERIORITY||Mean Difference (Final Values)|-39.4|STANDARD_ERROR_OF_MEAN|11.74||0.0004|TWO_SIDED|90.0|-58.76|-20.12|||t-test, 1 sided|||||-20.12|-58.76|0.0004
92395340|NCT04664153|184687762|SUPERIORITY||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|1.29|<|0.0001|TWO_SIDED|90.0|-7.02|-2.77|||t-test, 1 sided|||||-2.77|-7.02|<0.0001
92395341|NCT00474123|184687810|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Wilcoxon (Mann-Whitney)|||The sample size was determined as 78 patients. Continuous data were presented as means ± SD, or median (interquartile range) when the distribution was non-normal. For qualitative variables, we presented counts and relative frequencies. For between-group comparison we used multiple regression with adjustment for baseline values of the outcome variable (ANCOVA), or Wilcoxon rank-sum test when the variable had a non-normal distribution.||||0.3
92395342|NCT00474123|184687811|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||ANCOVA|||The sample size was determined as 78 patients. Continuous data were presented as means ± SD, or median (interquartile range) when the distribution was non-normal. For qualitative variables, we presented counts and relative frequencies. For between-group comparison we used multiple regression with adjustment for baseline values of the outcome variable (ANCOVA), or Wilcoxon rank-sum test when the variable had a non-normal distribution.||||0.65
92423560|NCT00406354|184735419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.7|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|4.9|16.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||16.4|4.9|<.001
92423561|NCT00406354|184735420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1|STANDARD_ERROR_OF_MEAN|3.3||0.015|TWO_SIDED|95.0|1.6|14.6||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||14.6|1.6|0.015
92423562|NCT00406354|184735421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|3.4||0.018|TWO_SIDED|95.0|1.4|14.7||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive results are in favor of the atomoxetine arms.|||14.7|1.4|0.018
92423563|NCT00406354|184735422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9|STANDARD_ERROR_OF_MEAN|3.3||0.138|TWO_SIDED|95.0|-1.6|11.5||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||11.5|-1.6|0.138
92170347|NCT06459401|184229687|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.07||0.004|TWO_SIDED|95.0|0.11|0.43||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 1.199|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.43|0.11|0.004
92395343|NCT00474123|184687812|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANCOVA|||The sample size was determined as 78 patients. Continuous data were presented as means ± SD, or median (interquartile range) when the distribution was non-normal. For qualitative variables, we presented counts and relative frequencies. For between-group comparison we used multiple regression with adjustment for baseline values of the outcome variable (ANCOVA), or Wilcoxon rank-sum test when the variable had a non-normal distribution.||||0.02
92395344|NCT00474123|184687813|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANCOVA|||The sample size was determined as 78 patients. Continuous data were presented as means ± SD, or median (interquartile range) when the distribution was non-normal. For qualitative variables, we presented counts and relative frequencies. For between-group comparison we used multiple regression with adjustment for baseline values of the outcome variable (ANCOVA), or Wilcoxon rank-sum test when the variable had a non-normal distribution.||||0.85
92395345|NCT00702468|184687820|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.335||||0.013|TWO_SIDED|90.0|0.162|0.691|||Chi-squared|||||0.691|0.162|0.013
92395346|NCT00702468|184687821|SUPERIORITY_OR_OTHER_LEGACY||Estimated treatment difference|-0.21||||0.72|TWO_SIDED|90.0|-1.22|0.79|||ANCOVA||Negative difference indicates the comparison is in favour of Sativex|||0.79|-1.22|0.720
92395347|NCT00702468|184687822|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|0.53||||0.86|TWO_SIDED|90.0|-4.68|5.74|||ANCOVA|||||5.74|-4.68|0.86
92395348|NCT00702468|184687824|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.78||||0.81|TWO_SIDED|90.0|-14.52|10.96|||ANCOVA||Negative difference indicates the comparison is in favour of Sativex|It is important to emphasise that only four placebo subjects were included in the analysis and 11 of the Sativex subjects - this sample size is too small for a meaningful comparison between treatments. The reason for not including some of the data in this analysis is that a number of the subjects who withdrew early from the study restarted their own Sativex before the assessment was done.||10.96|-14.52|0.81
92395349|NCT00702468|184687825|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-0.64||||0.271|TWO_SIDED|90.0|-1.6|0.33|||ANCOVA||A negative difference indicates the comparison is in favour of Sativex|||0.33|-1.60|0.271
92395350|NCT00702468|184687826|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.562||||0.017|TWO_SIDED|90.0|1.585|13.997|||Regression, Logistic|||||13.997|1.585|0.017
92395351|NCT00702468|184687827|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|18.55||||0.0011|TWO_SIDED|90.0|3.942|118.773|||Regression, Logistic|||||118.773|3.942|0.0011
92395352|NCT00702468|184687828|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.444||||0.1151|TWO_SIDED|90.0|0.948|13.718|||Regression, Logistic|||||13.718|0.948|0.1151
92423564|NCT00406354|184735423|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.193||||0.016||95.0|1.16|4.146||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Log Rank|||||4.146|1.160|0.016
92423565|NCT00406354|184735424|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||p-value is from comparison of atomoxetine fast group versus atomoxetine slow group for any clinically relevant categories of adverse events during the initial three weeks of study treatment|Fisher Exact|||||||0.102
92423566|NCT00406354|184735425|SUPERIORITY_OR_OTHER|||||||0.101||95.0||||p-value is from comparison of atomoxetine fast group versus atomoxetine slow group for any clinically relevant categories of adverse events during the nine-week study treatment period.|Fisher Exact|||||||0.101
92423567|NCT02080637|184735430|OTHER||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|0.5||0.01|TWO_SIDED||||||Paired t-test|||Baseline versus 2 hours post-ambrisentan||||0.01
92423568|NCT02080637|184735431|OTHER||Slope|-27.0||||0.94|TWO_SIDED|95.0|-775.0|723.0|||Regression, Linear|||||723|-775|0.94
92423569|NCT02080637|184735432|OTHER||Slope|1.2||||0.61|TWO_SIDED|95.0|-3.9|6.3|||Regression, Linear|||||6.3|-3.9|0.61
92170348|NCT06459401|184229688|OTHER|Single group test of difference.|Mean Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|0.72||0.014|TWO_SIDED|95.0|-3.82|-0.56||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = -0.962|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||-0.56|-3.82|0.014
92423570|NCT01483807|184735433|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.254|ONE_SIDED||||||t-test, 1 sided|||Comparison of performance (change in articulation accuracy) with SPT-R versus SPT-B items. Based on the existing literature, it was predicted that the mean effect size associated with SPT-R would be greater than that for SPT-B.||||.254
92423571|NCT01483807|184735434|SUPERIORITY||Mean Difference (Final Values)|8.25||||0.043|ONE_SIDED||||||t-test, 1 sided|||On the basis of existing literature. SPT-R was predicted to be associated with greater increase in articulatory accuracy over baseline levels than SPT-B.||||.043
92423572|NCT01483807|184735435|SUPERIORITY|||||||0.396|||||||t-test, 1 sided|||Comparison of change in accuracy of articulation of untreated items: SPT-R versus SPT-B items. It was predicted that there would be a greater increase in accuracy for SPT-R items.||||.396
92423573|NCT01483807|184735436|SUPERIORITY|||||||0.212|||||||t-test, 1 sided|||Comparison of effect sizes obtained for untreated SPT-R versus untreated SPT-B items. It was predicted that effect sizes would be greater for SPT-R untreated items.||||.212
92423574|NCT03438383|184735437|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.88||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h before surgery (pre-operative or baseline values)||||0.88
92423575|NCT03438383|184735437|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.23||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h post-operatively||||0.23
92423576|NCT03438383|184735437|SUPERIORITY|We checked for equivalence of the pre-op (baseline) values between the two groups. We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.008||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||48 hours post-operatively||||0.008
92423577|NCT03438383|184735437|SUPERIORITY|We checked for equivalence of the pre-op (baseline) values between the two groups. We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.001||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||72 h post-operatively||||0.001
92423578|NCT03438383|184735438|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) quantitative research sample size calculator (available online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.75||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h before surgery (pre-operative or baseline values)||||0.75
92423579|NCT03438383|184735438|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.09||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h post-operatively||||0.09
92423580|NCT03438383|184735438|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.008||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||48 h post-operatively||||0.008
92423581|NCT03438383|184735438|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.013||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||72 h post-operatively||||0.013
92423582|NCT03438383|184735439|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) quantitative research sample size calculator (available online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.05||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h before surgery (pre-operative or baseline values)||||0.05
92423583|NCT03438383|184735439|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.55||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h post-operatively||||0.55
92423584|NCT03438383|184735439|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.13||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||48h post-operatively||||0.13
92423585|NCT03438383|184735439|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.011||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||72 h post-operatively||||0.011
92423586|NCT03438383|184735440|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) quantitative research sample size calculator (available online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.83||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h before surgery (pre-operative or baseline values)||||0.83
92423587|NCT03438383|184735440|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.37||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h post-operatively||||0.37
92423588|NCT03438383|184735440|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.0035||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||48 h post-operatively||||0.0035
92423589|NCT03438383|184735440|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||1.5e-05||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||72 h post-operatively||||0.000015
92423590|NCT02435069|184735446|SUPERIORITY|||||||0.069751||||||significance level set at \<0.05 a priori|two-sample pooled variance t-test|Two-tailed||"Inferential statistical analysis was accomplished using a two-tailed, two-sample pooled variance t test with a significance level set at 0.05. and calculated on the data from the last day of the completed NS and USP Glycerin phases of the study.~Power analysis conducted using data from this study with α = 0.5, power of .80, correlation between two means of .598, and effect size of 1.554 estimated a sample size of 11 would be needed to minimize the risk of a Type II error to (20%)."||||0.069751
92423591|NCT02435069|184735447|SUPERIORITY|||||||0.172|||||||two-sample pooled variance t-test|two tailed||Inferential statistical analysis was accomplished using a two-tailed, two-sample pooled variance t test with a significance level set at 0.05. and calculated on the data from the last day of the completed NS and USP Glycerin phases of the study.||||0.172
92423592|NCT02435069|184735450|SUPERIORITY|||||||0.8028|||||||two-sample pooled variance t-test|two-sided||Inferential statistical analysis was accomplished using a two-tailed, two-sample pooled variance t test with a significance level set at 0.05. and calculated on the data from the difference in calprotectin levels between samples obtained at baseline and samples obtained following the completion of the NS and USP Glycerin flush in the dosing phase of the study.||||0.8028
92423593|NCT02435069|184735451|SUPERIORITY|||||||0.346594|||||||two-sample pooled variance t test|two tailed||Inferential statistical analysis was accomplished using a two-tailed, two-sample pooled variance t test with a significance level set at 0.05. and calculated on the data from the last day of the completed NS and USP Glycerin phases of the study.||||0.346594
92423594|NCT01599832|184735465|OTHER|||||||0.083||||||P-value was from test of significance of log-transformed baseline K\^trans.|Regression, Cox|Multivariate model with adjustment for prior treatment, and clinical prognostic index (good/intermediate/poor) (n=16 had complete data)||||||0.083
92423595|NCT00932737|184735479|OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.29||0.0156|TWO_SIDED|95.0|-1.3|-0.1|||Mixed effect model||The adjusted mean difference between Hyoscine butylbromide minus Placebo was calculated.|A model included fixed, categorical effects of treatment group, episode, interval and center, as well as the treatment-by-episode interaction, with the covariate of baseline intensity of Abdominal pain associated with cramping . An unstructured covariance structure was used to model the within-patient errors.||-0.1|-1.3|0.0156
92423596|NCT00932737|184735480|OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.0512|TWO_SIDED|95.0|-1.2|0.0|||Mixed effect model||The adjusted mean difference between Hyoscine butylbromide minus Placebo was calculated.|A model included fixed, categorical effects of treatment group, episode, interval and center, as well as the treatment-by-episode interaction, with the covariate of baseline intensity of Abdominal pain associated with cramping . An unstructured covariance structure was used to model the within-patient errors.||0.0|-1.2|0.0512
92423597|NCT00932737|184735481|OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.32||0.0351|TWO_SIDED|95.0|-1.3|0.0|||ANCOVA||The adjusted mean difference between Hyoscine butylbromide minus Placebo was calculated.|The analysis of covariance (ANCOVA) was performed on the change from baseline to the last recorded rating of intensity for each treated episode of Abdominal pain associated with cramping (APC). The statistical model included the main effects of treatment, episode, and center as well as terms for the treatment-by-episode interaction, with baseline intensity of APC for the respective episode as a covariate.||0.0|-1.3|0.0351
92423598|NCT00932737|184735482|OTHER||Adjusted mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.35||0.3557|TWO_SIDED|95.0|-1.0|0.4|||ANCOVA||The adjusted mean difference between Hyoscine butylbromide and Placebo was calculated.|The analysis of covariance (ANCOVA) was performed on the change from baseline to the last recorded rating of intensity for each treated episode of Abdominal pain associated with cramping (APC). The statistical model included the main effects of treatment, episode, and center as well as terms for the treatment-by-episode interaction, with baseline intensity of APC for the respective episode as a covariate.||0.4|-1.0|0.3557
92423599|NCT00932737|184735483|OTHER||Odds Ratio (OR)|1.071||||0.831|TWO_SIDED|95.0|0.572|2.004|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||2.004|0.572|0.831
92170349|NCT06459401|184229689|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.35|TWO_SIDED|95.0|-0.26|0.66||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.312|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.66|-0.26|0.350
92423600|NCT00932737|184735484|OTHER||Odds Ratio (OR)|1.222||||0.557|TWO_SIDED|95.0|0.626|2.387|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||2.387|0.626|0.557
92423601|NCT00932737|184735485|OTHER||Odds Ratio (OR)|0.737||||0.396|TWO_SIDED|95.0|0.365|1.49|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||1.490|0.365|0.396
92423602|NCT00932737|184735486|OTHER||Odds Ratio (OR)|1.336||||0.448|TWO_SIDED|95.0|0.632|2.827|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||2.827|0.632|0.448
92395353|NCT01009060|184687847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.049||||0.7239|TWO_SIDED|90.0|-0.288|0.19|||Mixed Model Repeated Measure|||Week 1||0.190|-0.288|0.7239
92170350|NCT06459401|184229690|OTHER|Single group test of difference.|Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.81||0.052|TWO_SIDED|95.0|-3.63|0.02||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = -0.706|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.02|-3.63|0.052
92170351|NCT06459401|184229691|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.11||0.221|TWO_SIDED|95.0|-0.1|0.39||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.416|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.39|-0.10|0.221
92395354|NCT01009060|184687847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.018||||0.8351|TWO_SIDED|90.0|-0.127|0.163|||Mixed Model Repeated Measure|||Week 2||0.163|-0.127|0.8351
92395355|NCT01009060|184687847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.088||||0.4541|TWO_SIDED|90.0|-0.287|0.11|||Mixed Model Repeated Measure|||Week 3||0.110|-0.287|0.4541
92395356|NCT01009060|184687847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.089||||0.4148|TWO_SIDED|90.0|-0.272|0.093|||Mixed Model Repeated Measure|||Week 4||0.093|-0.272|0.4148
92395357|NCT01009060|184687847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.086||||0.3887|TWO_SIDED|90.0|-0.082|0.254|||Mixed Model Repeated Measure|||Week 5||0.254|-0.082|0.3887
92395358|NCT01009060|184687847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.195||||0.2594|TWO_SIDED|90.0|-0.093|0.484|||Mixed Model Repeated Measure|||Week 6||0.484|-0.093|0.2594
92236377|NCT00969618|184376530|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is GEC subscale score.|Paired t-test|||||||<0.001
92236378|NCT00969618|184376530|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for behavioral regulation subscale score.|Paired t-test|||||||<0.001
92395359|NCT01009060|184687847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103||||0.4778|TWO_SIDED|90.0|-0.139|0.344|||Mixed Model Repeated Measure|||Week 7||0.344|-0.139|0.4778
92395360|NCT01009060|184687848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.737||||0.6947|TWO_SIDED|90.0|-3.884|2.409|||ANCOVA|||||2.409|-3.884|0.6947
92395361|NCT01009060|184687849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.252||||0.1399|TWO_SIDED|90.0|-0.535|0.03|||Mixed Model Repeated Measure||For Speed of Processing/Simple Reaction Time|||0.030|-0.535|0.1399
92395362|NCT01009060|184687849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.179||||0.3992|TWO_SIDED|90.0|-0.176|0.534|||Mixed Model Repeated Measure||For Attention/Vigilance|||0.534|-0.176|0.3992
92395363|NCT01009060|184687849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.391||||0.1547|TWO_SIDED|90.0|-0.063|0.845|||Mixed Model Repeated Measure||For Working Memory|||0.845|-0.063|0.1547
92395364|NCT01009060|184687849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.279||||0.2531|TWO_SIDED|90.0|-0.127|0.685|||Mixed Model Repeated Measure||For Visual Learning|||0.685|-0.127|0.2531
92395365|NCT01009060|184687849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.398||||0.2417|TWO_SIDED|90.0|-0.167|0.963|||Mixed Model Repeated Measure||For Verbal Learning|||0.963|-0.167|0.2417
92395366|NCT01009060|184687849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.177||||0.2069|TWO_SIDED|90.0|-0.055|0.409|||Mixed Model Repeated Measure||For Reasoning/Problem Solving|||0.409|-0.055|0.2069
92395367|NCT01009060|184687849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.8645|TWO_SIDED|90.0|-0.262|0.322|||Mixed Model Repeated Measure||For Social Cognition|||0.322|-0.262|0.8645
92395368|NCT01009060|184687849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.069||||0.7873|TWO_SIDED|90.0|-0.364|0.503|||Mixed Model Repeated Measure||For Working Memory (Two-Back Memory)|||0.503|-0.364|0.7873
92395369|NCT01009060|184687850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.024||||0.0225|TWO_SIDED|90.0|-6.872|-1.175|||ANCOVA||For Speed of Processing|||-1.175|-6.872|0.0225
92395370|NCT01009060|184687850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.24||||0.3317|TWO_SIDED|95.0|-6.085|1.605|||ANCOVA||For Attention/Vigilance|||1.605|-6.085|0.3317
92395371|NCT01009060|184687850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.038||||0.3243|TWO_SIDED|90.0|-5.482|1.406|||ANCOVA||For Working Memory|||1.406|-5.482|0.3243
92395372|NCT01009060|184687850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.746||||0.7497|TWO_SIDED|90.0|-4.667|3.175|||ANCOVA||For Visual Learning|||3.175|-4.667|0.7497
92395373|NCT01009060|184687850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.112||||0.1585|TWO_SIDED|90.0|-0.537|6.761|||ANCOVA||For Verbal Learning|||6.761|-0.537|0.1585
92395374|NCT01009060|184687850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.972||||0.6582|TWO_SIDED|90.0|-2.709|4.654|||ANCOVA||For Reasoning and Problem Solving|||4.654|-2.709|0.6582
92395375|NCT01009060|184687850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.338||||0.9092|TWO_SIDED|90.0|-5.316|4.639|||ANCOVA||For Social Cognition|||4.639|-5.316|0.9092
92395376|NCT01009060|184687851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.024||||0.4406|TWO_SIDED|90.0|-3.237|1.19|||Mixed Model Repeated Measure|||||1.190|-3.237|0.4406
92395377|NCT01009060|184687852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.876||||0.5197|TWO_SIDED|90.0|-6.743|2.99|||Mixed Model Repeated Measure|||||2.990|-6.743|0.5197
92395378|NCT01009060|184687853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.824||||0.4637|TWO_SIDED|90.0|-2.334|5.982|||Mixed Model Repeated Measure|||||5.982|-2.334|0.4637
92423603|NCT00932737|184735487|OTHER||Odds Ratio (OR)|2.474||||0.03|TWO_SIDED|95.0|1.093|5.604|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||5.604|1.093|0.030
92423604|NCT00932737|184735488|OTHER||Odds Ratio (OR)|1.654||||0.167|TWO_SIDED|95.0|0.81|3.378|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||3.378|0.810|0.167
92423605|NCT00932737|184735489|OTHER|||||||0.256|||||||Log Rank|Log rank test was used for comparison of Hyoscine butylbromide (Buscopan®) 20 mg group versus Placebo group.||||||0.2560
92423606|NCT00932737|184735490|OTHER|||||||0.5179|||||||Log Rank|Log rank test was used for comparison of Hyoscine butylbromide (Buscopan®) 20 mg group versus Placebo group.||||||0.5179
92423607|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|1.265|||||TWO_SIDED|95.0|0.998|1.603|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.603|0.998|
92423608|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.999|||||TWO_SIDED|95.0|0.791|1.262|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.262|0.791|
92423609|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.708|||||TWO_SIDED|95.0|0.558|0.897|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.897|0.558|
92423610|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.861|||||TWO_SIDED|95.0|0.681|1.089|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||1.089|0.681|
92423611|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.754|||||TWO_SIDED|95.0|0.596|0.956|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.956|0.596|
92423612|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.548|||||TWO_SIDED|95.0|0.434|0.693|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.693|0.434|
92423613|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.646|||||TWO_SIDED|95.0|0.51|0.817|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.817|0.510|
92423614|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at 43|0.79|||||TWO_SIDED|95.0|0.625|1.0|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.000|0.625|
92423615|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at 43|0.56|||||TWO_SIDED|95.0|0.441|0.71|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.710|0.441|
92423616|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at 43|0.681|||||TWO_SIDED|95.0|0.538|0.862|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.862|0.538|
92423617|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at 43|0.597|||||TWO_SIDED|95.0|0.47|0.757|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.757|0.470|
92423618|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.434|||||TWO_SIDED|95.0|0.342|0.549|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.549|0.342|
92170352|NCT02740231|184229700|SUPERIORITY||Adjusted mean difference|-9.49|STANDARD_DEVIATION|6.38||0.141|TWO_SIDED|95.0|-22.21|3.23||The threshold for statistical significance was p=0.05|ANCOVA||Difference between groups JTA-004 100 (2mL) minus Reference - adjusted mean change|The primary endpoint is the WOMAC® VA3.1 Pain Subscale (subscale A): the individual changes in WOMAC® VA3.1 Pain Subscale Score between Baseline and Month 6 were calculated and compared by analysis of covariance (ANCOVA), adjusted for baseline value, to the Reference group.||3.23|-22.21|0.141
92423619|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.511|||||TWO_SIDED|95.0|0.403|0.647|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.647|0.403|
92423620|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.708|||||TWO_SIDED|95.0|0.56|0.896|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.896|0.560|
92423621|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.862|||||TWO_SIDED|95.0|0.683|1.088|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.088|0.683|
92423622|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.755|||||TWO_SIDED|95.0|0.597|0.954|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.954|0.597|
92423623|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.549|||||TWO_SIDED|95.0|0.435|0.692|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.692|0.435|
92423624|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.646|||||TWO_SIDED|95.0|0.511|0.817|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.817|0.511|
92170353|NCT02740231|184229701|SUPERIORITY||Adjusted mean difference|-11.63|STANDARD_DEVIATION|5.5||0.038|TWO_SIDED|95.0|-22.6|-0.66||The threshold for statistical significance was p=0.05|ANCOVA||Difference between groups JTA-004 100 (2mL) minus Reference|||-0.66|-22.60|0.038
92170354|NCT02740231|184229702|SUPERIORITY||Adjusted mean difference|-1.48|STANDARD_DEVIATION|4.35||0.997|TWO_SIDED|95.0|-12.7|9.74||The threshold for statistical significance was p=0.05|Mixed Models Analysis|||||9.74|-12.70|0.997
92170355|NCT02740231|184229703|SUPERIORITY||Adjusted mean difference|-2.94|STANDARD_DEVIATION|5.3||0.972|TWO_SIDED|95.0|-16.52|10.65||The threshold for statistical significance was p=0.05|Mixed Models Analysis|||||10.65|-16.52|0.972
92170356|NCT02740231|184229704|SUPERIORITY||Adjusted mean difference|-7.17|STANDARD_DEVIATION|5.96||0.599|TWO_SIDED|95.0|-22.28|7.94||The threshold for statistical significance was p=0.05|Mixed Models Analysis|||||7.94|-22.28|0.599
92170357|NCT02740231|184229705|SUPERIORITY||Adjusted mean difference|-6.62|STANDARD_DEVIATION|4.3||0.126|TWO_SIDED|95.0||||The threshold for statistical significance was p=0.05|ANCOVA|||||||0.126
92170358|NCT02740231|184229706|SUPERIORITY||Adjusted mean difference|-8.88|STANDARD_DEVIATION|4.76||0.064|TWO_SIDED|95.0||||The threshold for statistical significance was p=0.05|ANCOVA|||||||0.064
92395379|NCT04201431|184687874|OTHER|Comparison of pooled data from Groups 1 and 2 volunteers who completed primary CHMI with pooled data of infectivity controls undergoing primary CHMI from VAC069 study running in parallel (NCT03797989).||||||0.01||||||Two tailed p value reported for Mann-Whitney test comparing infectivity controls with vaccinees|Wilcoxon (Mann-Whitney)|||Comparison of parasite multiplication rate in vaccinated subjects compared to infectivity controls in a blood-stage controlled human malaria infection model||||0.01
92170359|NCT02740231|184229707|SUPERIORITY||Adjusted mean difference|-10.79|STANDARD_DEVIATION|4.35||0.014|TWO_SIDED|95.0|||||ANCOVA|||||||0.014
92236379|NCT00969618|184376530|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for metacognition subscale score.|Paired t-test|||||||<0.001
92236380|NCT00969618|184376531|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Paired t-test|||||||0.200
92170360|NCT02740231|184229708|SUPERIORITY||Adjusted mean difference|-10.57|STANDARD_DEVIATION|4.81||0.03|TWO_SIDED|95.0||||The threshold for statistical significance was p=0.05|ANCOVA|||||||0.030
92170361|NCT04110054|184229721|EQUIVALENCE|Placebo (N = 102) vs S-600918 50 mg, 150 mg, 300 mg||||||0.9334||||||P-value was evaluated at the 2-sided alpha level of 0.05.|ANCOVA|||The null hypotheses of equality between the treatment and placebo effects were tested using a mixed model, containing treatment group, week, and interaction between treatment groups and week as fixed effects; participant as random effect; and region and the common logarithm of the frequency of coughs per hour at baseline as covariates. Covariance structure was given as unstructured.||||0.9334
92170362|NCT01000480|184229733|SUPERIORITY_OR_OTHER|||||||0.0645||95.0||||P-value for H0 which compared the investigational regimen to historical data.|maximum likelihood estimate|||Null hypothesis (H0): 1-year PFS ≤45% and the alternative hypothesis (H1): 1-year PFS ≥60%, at a 2-sided alpha level of 5%, assuming that PFS time followed an exponential distribution.||||0.0645
92170363|NCT03988023|184229736|SUPERIORITY|||||||0.32|||||||MMRM|||||||0.32
92170364|NCT03988023|184229737|SUPERIORITY|||||||0.3|||||||MMRM|||||||0.30
92170365|NCT02554786|184229829|SUPERIORITY||Least Square mean (LS Mean)|0.132|STANDARD_ERROR_OF_MEAN|0.0223|<|0.001|TWO_SIDED|95.0|0.088|0.176|||Mixed Model for Repeated Measures (MMRM)|||||0.176|0.088|<0.001
92170366|NCT02554786|184229829|SUPERIORITY||LS Mean|0.211|STANDARD_ERROR_OF_MEAN|0.0224|<|0.001|TWO_SIDED|95.0|0.167|0.255|||MMRM|||||0.255|0.167|<0.001
92170367|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.172|STANDARD_ERROR_OF_MEAN|0.0415|<|0.001|TWO_SIDED|95.0|-0.254|-0.091|||MMRM|||Week 4||-0.091|-0.254|<0.001
92170368|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.196|STANDARD_ERROR_OF_MEAN|0.0416|<|0.001|TWO_SIDED|95.0|-0.278|-0.115|||MMRM|||Week 4||-0.115|-0.278|<0.001
92170369|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.055|STANDARD_ERROR_OF_MEAN|0.0414||0.186|TWO_SIDED|95.0|-0.136|0.026|||MMRM|||Week 4||0.026|-0.136|0.186
92170370|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.184|STANDARD_ERROR_OF_MEAN|0.0294|<|0.001|TWO_SIDED|95.0|-0.242|-0.127|||MMRM|||Week 4: The comparison of QMF149 vs. MF was based on combined effects of QMF149 150/160 \& 150/320 μg and MF 400 \& 800 μg derived by weighting treatment groups equally.||-0.127|-0.242|<0.001
92170371|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.129|STANDARD_ERROR_OF_MEAN|0.0431||0.003|TWO_SIDED|95.0|-0.214|-0.044|||MMRM|||Week 12||-0.044|-0.214|0.003
92170372|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.248|STANDARD_ERROR_OF_MEAN|0.0435|<|0.001|TWO_SIDED|95.0|-0.333|-0.162|||MMRM|||Week 12||-0.162|-0.333|<0.001
92170373|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.052|STANDARD_ERROR_OF_MEAN|0.0431||0.232|TWO_SIDED|95.0|-0.136|0.033|||MMRM|||Week 12||0.033|-0.136|0.232
92170374|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.188|STANDARD_ERROR_OF_MEAN|0.0307|<|0.001|TWO_SIDED|95.0|-0.248|-0.128|||MMRM|||Week 12: The comparison of QMF149 vs. MF was based on combined effects of QMF149 150/160 \& 150/320 μg and MF 400 \& 800 μg derived by weighting treatment groups equally.||-0.128|-0.248|<0.001
92236381|NCT00969618|184376532|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|||||||<0.001
92236382|NCT00969618|184376533|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for GEC subscale score.|Paired t-test|||||||<0.001
92236383|NCT00969618|184376533|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for behavioral regulation subscale score.|Paired t-test|||||||<0.001
92236384|NCT00969618|184376533|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for metacognition subscale score.|Paired t-test|||||||<0.001
92236385|NCT00969618|184376534|SUPERIORITY_OR_OTHER|||||||0.384||95.0|||||Paired t-test|||||||0.384
92395380|NCT04571944|184687931|SUPERIORITY||Difference in % vs Placebo|-8.7||||0.129|TWO_SIDED|95.0|-20.1|2.6|||Miettinen and Nurminen method|Analysis was stratified by hospitalization reason (acute disease, elective surgery) and age category (\<75 years, ≥75 years).||||2.6|-20.1|0.129
92395381|NCT04571944|184687932|OTHER||Difference in % vs. Placebo|0.8|||||TWO_SIDED|95.0|-9.3|11.0||||||||11.0|-9.3|
92395382|NCT04571944|184687933|OTHER||Difference in % vs. Placebo|0.0|||||TWO_SIDED|95.0|-5.1|5.2||||||||5.2|-5.1|
92395383|NCT04571944|184687934|SUPERIORITY||Difference vs. Placebo|-0.5||||0.485|TWO_SIDED|95.0|-2.0|1.0||Based on aligned rank test.|Hodges-Lehmann method|||||1.0|-2.0|0.485
92395384|NCT04571944|184687935|SUPERIORITY||Difference in % vs. Placebo|-8.6||||0.136|TWO_SIDED|95.0|-20.2|2.8|||Miettinen and Nurminen method|Analysis was stratified by hospitalization reason (acute disease, elective surgery) and age category (\<75 years, ≥75 years).||||2.8|-20.2|0.136
92395385|NCT03192826|184687936|EQUIVALENCE|The SPSS statistical package version 23.0 (Statistical Package for the Social Sciences, version 23.0, SSPS Inc. Chicago, IL, USA) was used for statistical analysis.|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||ANOVA|Repeated measures ANOVA was used to compare parametric values with Bonferroni post hoc test for within group comparisons.|the reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|||||<0.05
92395386|NCT03192826|184687937|EQUIVALENCE|The SPSS statistical package version 23.0 (Statistical Package for the Social Sciences, version 23.0, SSPS Inc. Chicago, IL, USA) was used for statistical analysis.|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||ANOVA|Repeated measures ANOVA was used to compare parametric values with Bonferroni post hoc test for within group comparisons.|the reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|||||<0.05
92395387|NCT03192826|184687938|EQUIVALENCE|The SPSS statistical package version 23.0 (Statistical Package for the Social Sciences, version 23.0, SSPS Inc. Chicago, IL, USA) was used for statistical analysis.|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||ANOVA|Repeated measures ANOVA was used to compare parametric values with Bonferroni post hoc test for within group comparisons.|the reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|||||<0.05
92395388|NCT03192826|184687939|EQUIVALENCE|The SPSS statistical package version 23.0 (Statistical Package for the Social Sciences, version 23.0, SSPS Inc. Chicago, IL, USA) was used for statistical analysis.|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||ANOVA|Repeated measures ANOVA was used to compare parametric values with Bonferroni post hoc test for within group comparisons.|the reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|||||<0.05
92395389|NCT00890825|184687944|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.2069|TWO_SIDED|80.0|0.56|1.14||One-sided p-value. The p-value is associated with the point estimate (e.g. HR comparing AZD6244 + Docetaxel vs Placebo + Docetaxel) on the outcome measure - Overall survival.|Regression, Cox|Analysis adjusted for the following covariates; WHO PS, gender, histology and smoking status|A Hazard Ratio less than 1 favoured AZD6244 + Docetaxel|||1.14|0.56|0.2069
92395390|NCT00890825|184687945|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.0138|TWO_SIDED|80.0|0.42|0.79||One-sided p-value. The p-value is associated with the point estimate (e.g. HR comparing AZD6244 + Docetaxel vs Placebo + Docetaxel) on the outcome measure.|Regression, Cox|The model allowed for the effect of treatment and included terms for WHO PS, gender, histology, and smoking status.|A Hazard Ratio (HR) \< 1 favoured AZD6244 + Docetaxel|||0.79|0.42|0.0138
92395391|NCT00890825|184687946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|37.2|||<|0.0001|TWO_SIDED|95.0|23.0|53.0||Two-sided P-value|Fisher Exact|||||53|23|< 0.0001
92395392|NCT00890825|184687948|SUPERIORITY_OR_OTHER||LSmeans difference|-17.03||||0.004|TWO_SIDED|80.0|-25.2|-8.86||One-sided p-value. The p-value is associated with the point estimate comparing AZD6244 + Docetaxel vs Placebo + Docetaxel on the outcome measure.|ANCOVA|LS means were adjusted for baseline tumour size, time from baseline scan to randomisation, WHO PS, gender, histology, and smoking status.|(AZD6244 + Docetaxel) - (Placebo + Docetaxel)|||-8.86|-25.2|0.004
92395393|NCT00890825|184687949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.0||||0.004|TWO_SIDED|80.0|-38.34|-13.7||One-sided p-value. The p-value is associated with the point estimate comparing AZD6244 + Docetaxel vs Placebo + Docetaxel on the outcome measure.|ANCOVA|LS means were adjusted for baseline tumour size, time from baseline scan to randomisation, WHO PS, gender, histology, and smoking status|(AZD6244 + Docetaxel) - (Placebo + Docetaxel)|||-13.7|-38.34|0.004
92395394|NCT00890825|184687950|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54||||0.0158|TWO_SIDED|80.0|0.37|0.78||One-sided p-value. The p-value is associated with the point estimate (e.g. HR comparing AZD6244 + Docetaxel vs Placebo + Docetaxel) on the outcome measure.|Log Rank|Confidence interval (CI) used Greenwood's formula for the standard error of a survival estimate|A hazard ratio (HR) \<1 favours AZD6244 75 mg bd+Docetaxel|||0.78|0.37|0.0158
92395395|NCT02920892|184687951|SUPERIORITY||Slope|-0.1||||0.1587|TWO_SIDED|90.0|-0.22|0.02|||Mixed Models Analysis|||||0.02|-0.22|0.1587
92395396|NCT02920892|184687952|SUPERIORITY||Slope|-1.66||||0.1054|TWO_SIDED|90.0|-3.34|0.03|||Mixed Models Analysis|||||0.03|-3.34|0.1054
92395397|NCT02920892|184687953|SUPERIORITY||Slope|-0.67||||0.32|TWO_SIDED|90.0|-1.79|0.45|||Mixed Models Analysis|||||0.45|-1.79|0.32
92395398|NCT02920892|184687954|SUPERIORITY||Slope|-0.29||||0.78|TWO_SIDED|90.0|-1.98|1.4|||Mixed Models Analysis|||||1.4|-1.98|0.78
92395399|NCT02920892|184687955|SUPERIORITY||Slope|0.1||||0.94|TWO_SIDED|90.0|-2.05|2.24|||Mixed Models Analysis|||||2.24|-2.05|0.94
92395400|NCT02920892|184687956|SUPERIORITY||Slope|-0.85||||0.1428|TWO_SIDED|90.0|-1.81|0.11|||Mixed Models Analysis|||||0.11|-1.81|0.1428
92395401|NCT02920892|184687957|SUPERIORITY||Odds Ratio (OR)|0.9462||||0.24|TWO_SIDED|90.0|0.8764|1.0215|||Mixed Models Analysis|||||1.0215|0.8764|0.24
92395402|NCT02920892|184687958|SUPERIORITY||Odds Ratio (OR)|0.95||||0.92|TWO_SIDED|90.0|0.4|2.27|||Mixed Models Analysis|||||2.27|0.4|0.92
92395403|NCT01721161|184687959|SUPERIORITY_OR_OTHER||Difference|-3.48||||0.3337|TWO_SIDED|95.0|-10.61|3.65|||ANCOVA||Difference is calculated as BIIB033 100 mg/kg - placebo.|||3.65|-10.61|0.3337
92395404|NCT01721161|184687960|SUPERIORITY_OR_OTHER||Difference|-3.89||||0.1868|TWO_SIDED|95.0|-9.7|1.92|||ANCOVA||Difference is calculated as BIIB033 100 mg/kg - placebo.|||1.92|-9.70|0.1868
92395405|NCT01721161|184687961|SUPERIORITY_OR_OTHER||Difference|-4.76||||0.1488|TWO_SIDED|95.0|-11.26|1.74|||ANCOVA|||||1.74|-11.26|0.1488
92395406|NCT01721161|184687962|SUPERIORITY_OR_OTHER||Difference|-1.15||||0.4975|TWO_SIDED|95.0|-4.51|2.21|||ANCOVA||Difference is calculated as BIIB033 100 mg/kg - placebo.|||2.21|-4.51|0.4975
92395407|NCT01721161|184687963|SUPERIORITY_OR_OTHER||Difference|-1.76||||0.3505|TWO_SIDED|95.0|-5.5|1.98|||ANCOVA|||||1.98|-5.50|0.3505
92395408|NCT01721161|184687964|SUPERIORITY_OR_OTHER||Difference|-1.6||||0.5371|TWO_SIDED|95.0|-6.9|3.6|||ANCOVA||Difference is calculated as BIIB033 100 mg/kg - placebo.|LCLA 1.25% chart||3.6|-6.9|0.5371
92170375|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.171|STANDARD_ERROR_OF_MEAN|0.0437|<|0.001|TWO_SIDED|95.0|-0.257|-0.086|||MMRM|||Week 26||-0.086|-0.257|<0.001
92170376|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.248|STANDARD_ERROR_OF_MEAN|0.0439|<|0.001|TWO_SIDED|95.0|-0.334|-0.162|||MMRM|||Week 26||-0.162|-0.334|<0.001
92395409|NCT01721161|184687964|SUPERIORITY_OR_OTHER||Difference|-0.8||||0.7741|TWO_SIDED|95.0|-6.5|4.9|||ANCOVA||Difference is calculated as BIIB033 100 mg/kg - placebo.|LCLA 2.5% chart||4.9|-6.5|0.7741
92170377|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.054|STANDARD_ERROR_OF_MEAN|0.0437||0.214|TWO_SIDED|95.0|-0.14|0.031|||MMRM|||Week 26||0.031|-0.140|0.214
92395410|NCT01721161|184687965|SUPERIORITY_OR_OTHER||Difference|-1.2||||0.6645|TWO_SIDED|95.0|-6.6|4.3|||ANCOVA|||LCLA 1.25% chart||4.3|-6.6|0.6645
92395411|NCT01721161|184687965|SUPERIORITY_OR_OTHER||DIfference|-0.8||||0.8015|TWO_SIDED|95.0|-6.7|5.2|||ANCOVA|||LCLA 2.5%||5.2|-6.7|0.8015
92395412|NCT01721161|184687966|SUPERIORITY_OR_OTHER||Difference|-7.55||||0.0504|TWO_SIDED|95.0|-15.12|0.01|||ANCOVA|||||0.01|-15.12|0.0504
92395413|NCT01216202|184687969|SUPERIORITY|||||||0.014||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||The association between change in serum testosterone levels and cumulative mean testicular radiation dose was assessed using longitudinal regression analysis (GEE). No preoperative RT contributed with baseline values.||||0.014
92395414|NCT01216202|184687970|SUPERIORITY||Estimated mean change|-4.0||||0.008|TWO_SIDED|95.0|-6.9|-1.0||The threshold for statistical significance was p=0.05.|Regression, Linear|Model adjusted for time between preoperative radiotherapy (RT) and surgery.||The association between change in total number of sperms per ejaculate and relative mean testicular dose was assessed using longitudinal regression analysis (GEE).||-1.0|-6.9|0.008
92395415|NCT00614380|184687979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.34||||||95.0|0.22|0.53|||Cochran-Mantel-Haenszel|||||0.53|0.22|
92395416|NCT00614380|184687979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.31||||||95.0|0.12|0.81|||Cochran-Mantel-Haenszel|||||0.81|0.12|
92395417|NCT00614380|184687979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.08||||||95.0|0.06|0.13|||Cochran-Mantel-Haenszel|||||0.13|0.06|
92395418|NCT00614380|184687979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||||95.0|0.34|2.41|||Cochran-Mantel-Haenszel|||||2.41|0.34|
92423625|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|1.217|||||TWO_SIDED|95.0|0.961|1.541|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||1.541|0.961|
92395419|NCT00614380|184687979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.25||||||95.0|0.16|0.39|||Cochran-Mantel-Haenszel|||||0.39|0.16|
92395420|NCT00614380|184687979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||||95.0|0.1|0.72|||Cochran-Mantel-Haenszel|||||0.72|0.10|
92395421|NCT00462306|184688023|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||4000 parturients and 500 non-pregnant achieves 90% power to detect a difference of 3% positive Berlin Questionnaire rates between pregnant and non-pregnant women using a two sided chi squared test at a significance level of 0.05|Chi-squared, Corrected|||We hypothesized that the rate of positive Berlin questionnaires would be higher in pregnant women compared to age matched controls undergoing surgery.||||0.001
92395422|NCT00462306|184688024|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Chi-squared, Corrected|||||||0.01
92395423|NCT00452790|184688041|SUPERIORITY_OR_OTHER|||||||0.483||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-any within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.483
92395424|NCT00452790|184688041|SUPERIORITY_OR_OTHER|||||||0.698||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-significant within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.698
92395425|NCT00452790|184688041|SUPERIORITY_OR_OTHER|||||||0.782||95.0|||||Fisher Exact|||Difference in incidence rates of induration-any within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.782
92395426|NCT00452790|184688041|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of induration-mild within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
92395427|NCT00452790|184688041|SUPERIORITY_OR_OTHER|||||||0.729||95.0|||||Fisher Exact|||Difference in incidence rates of induration-moderate within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.729
92395428|NCT00452790|184688041|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of Induration-Severe within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
92395429|NCT00452790|184688041|SUPERIORITY_OR_OTHER|||||||0.819||95.0|||||Fisher Exact|||Difference in incidence rates of Erythema-Any within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.819
92395430|NCT00452790|184688041|SUPERIORITY_OR_OTHER|||||||0.904||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-mild within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.904
92395431|NCT00452790|184688041|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of Erythema-Moderate within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
92395432|NCT00452790|184688041|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-severe within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
92395433|NCT00452790|184688041|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Fisher Exact|||Difference in incidence rates of any local reaction (tenderness, induration and erythema) within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.690
92395434|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||0.933||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-any within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.933
92395435|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||0.776||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-significant within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.776
92395436|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||0.596||95.0|||||Fisher Exact|||Difference in incidence rates of induration-any within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.596
92395437|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||0.909||95.0|||||Fisher Exact|||Difference in incidence rates of induration-mild within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.909
92395438|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||0.683||95.0|||||Fisher Exact|||Difference in incidence rates of induration-moderate within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.683
92423626|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|1.066|||||TWO_SIDED|95.0|0.841|1.352|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||1.352|0.841|
92423627|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.775|||||TWO_SIDED|95.0|0.612|0.981|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.981|0.612|
92423628|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.912|||||TWO_SIDED|95.0|0.719|1.157|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.157|0.719|
92423629|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.876|||||TWO_SIDED|95.0|0.692|1.109|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||1.109|0.692|
92170378|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.209|STANDARD_ERROR_OF_MEAN|0.031|<|0.001|TWO_SIDED|95.0|-0.27|-0.149|||MMRM|||Week 26: The comparison of QMF149 vs. MF was based on combined effects of QMF149 150/160 \& 150/320 μg and MF 400 \& 800 μg derived by weighting treatment groups equally.||-0.149|-0.270|<0.001
92395439|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of induration-severe within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
92395440|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||0.203||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-any within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.203
92395441|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||0.399||95.0|||||Fisher Exact|||Difference in incidence rates of Erythema-Mild within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.399
92395442|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||0.382||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-moderate within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.382
92395443|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-severe within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
92395444|NCT00452790|184688042|SUPERIORITY_OR_OTHER|||||||0.738||95.0|||||Fisher Exact|||Difference in incidence rates of any Local reaction (tenderness, induration, erythema) within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.738
92395445|NCT00452790|184688043|SUPERIORITY_OR_OTHER|||||||0.918||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-any within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.918
92395446|NCT00452790|184688043|SUPERIORITY_OR_OTHER|||||||0.906||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-significant within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.906
92395447|NCT00452790|184688043|SUPERIORITY_OR_OTHER|||||||0.404||95.0|||||Fisher Exact|||Difference in incidence rates of induration-any within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.404
92395448|NCT00452790|184688043|SUPERIORITY_OR_OTHER|||||||0.305||95.0|||||Fisher Exact|||Difference in incidence rates of induration-mild within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.305
92395449|NCT00452790|184688043|SUPERIORITY_OR_OTHER|||||||0.771||95.0|||||Fisher Exact|||Difference in incidence rates of induration-moderate within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.771
92423630|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.637|||||TWO_SIDED|95.0|0.504|0.804|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.804|0.504|
92395450|NCT00452790|184688043|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of induration-severe within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
92395451|NCT00452790|184688043|SUPERIORITY_OR_OTHER|||||||0.867||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-any within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.867
92395452|NCT00452790|184688043|SUPERIORITY_OR_OTHER|||||||0.735||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-mild within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.735
92395453|NCT00452790|184688043|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-moderate within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
92395454|NCT00452790|184688043|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-severe within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
92395455|NCT00452790|184688043|SUPERIORITY_OR_OTHER|||||||0.842||95.0|||||Fisher Exact|||Difference in incidence rates of any Local Reaction (tenderness, induration, erythema) within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.842
92423631|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.75|||||TWO_SIDED|95.0|0.593|0.949|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.949|0.593|
92170379|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.141|STANDARD_ERROR_OF_MEAN|0.0449||0.002|TWO_SIDED|95.0|-0.229|-0.053|||MMRM|||Week 52||-0.053|-0.229|0.002
92170380|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.266|STANDARD_ERROR_OF_MEAN|0.045|<|0.001|TWO_SIDED|95.0|-0.354|-0.177|||MMRM|||Week 52||-0.177|-0.354|<0.001
92395456|NCT00452790|184688044|SUPERIORITY_OR_OTHER|||||||0.908||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-any within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.908
92395457|NCT00452790|184688044|SUPERIORITY_OR_OTHER|||||||0.772||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-significant within 4 days of the toddler dose, dose 4(12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.772
92395458|NCT00452790|184688044|SUPERIORITY_OR_OTHER|||||||0.681||95.0|||||Fisher Exact|||Difference in incidence rates of induration-any within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.681
92395459|NCT00452790|184688044|SUPERIORITY_OR_OTHER|||||||0.881||95.0|||||Fisher Exact|||Difference in incidence rates of induration-mild within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.881
92395460|NCT00452790|184688044|SUPERIORITY_OR_OTHER|||||||0.509||95.0|||||Fisher Exact|||Difference in incidence rates of induration-moderate within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.509
92395461|NCT00452790|184688044|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of induration-severe within 4 days of the toddler dose (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
92395462|NCT00452790|184688044|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-any within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.880
92395463|NCT00452790|184688044|SUPERIORITY_OR_OTHER|||||||0.739||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-mild within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.739
92395464|NCT00452790|184688044|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-moderate within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
92395465|NCT00452790|184688044|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-severe within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
92423632|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.727|||||TWO_SIDED|95.0|0.574|0.919|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.919|0.574|
92423633|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.856|||||TWO_SIDED|95.0|0.675|1.084|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||1.084|0.675|
92423634|NCT00973349|184735505|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|1.178|||||TWO_SIDED|95.0|0.931|1.489|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.489|0.931|
92423635|NCT02130024|184735522|OTHER||Treatment Effect|0.08||||0.236|TWO_SIDED|95.0|-0.05|0.21|||Mixed Models Analysis|Fixed effects: Baseline GA area, treatment, visit, treatment by visit. Random effect: Subject||||0.21|-0.05|0.236
92423636|NCT02130024|184735523|OTHER||Treatment Effect|0.02||||0.769|TWO_SIDED|95.0|-0.11|0.15|||Mixed Models Analysis|Fixed effects: Baseline GA area, treatment, visit, treatment by visit. Random effect: Subject||||0.15|-0.11|0.769
92423637|NCT02130024|184735524|OTHER||Odds Ratio (OR)|0.84||||0.586|TWO_SIDED|95.0|0.44|1.59|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment|Odds ratio of 'Newly Developed GA (Yes)' at between the two treatment groups at study visit|Baseline to Month 12 Analysis||1.59|0.44|0.586
92423638|NCT02130024|184735524|OTHER||Odds Ratio (OR)|2.27||||0.11|TWO_SIDED|95.0|0.83|6.22|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment|Odds ratio of 'Newly Developed GA (Yes)' at between the two treatment groups at study visit|Month 12 to Month 24 Analysis||6.22|0.83|0.110
92423639|NCT02130024|184735524|OTHER||Odds Ratio (OR)|1.19||||0.554|TWO_SIDED|95.0|0.67|2.09|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment||Baseline to Month 24 Analysis||2.09|0.67|0.554
92423640|NCT02130024|184735525|OTHER||Treatment Effect|0.99||||0.733|TWO_SIDED|95.0|0.95|1.04|||Negative Binomial Regression Model|Log (number of injections) = treatment + log (year of follow-up) (offset)|Treatment effect: Injection frequency (rate) ratio of Ranibizumab vs. Aflibercept|Baseline to \<Month 12 Analysis||1.04|0.95|0.733
92423641|NCT02130024|184735525|OTHER||Treatment Effect|1.01||||0.745|TWO_SIDED|95.0|0.95|1.08|||Negative Binomial Regression Model|Log (number of injections) = treatment + log (year of follow-up) (offset)|Treatment effect: Injection frequency (rate) ratio of Ranibizumab vs. Aflibercept|Baseline to Month 24 Analysis||1.08|0.95|0.745
92423642|NCT02130024|184735526|OTHER||Treatment Effect|2.32||||0.079|TWO_SIDED|95.0|-0.27|4.92|||Mixed Models Analysis|Fixed effects: Baseline BCVA, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from baseline in BCVA|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Month 12 Analysis||4.92|-0.27|0.079
92423643|NCT02130024|184735526|OTHER||Treatment Effect|1.95||||0.151|TWO_SIDED|95.0|-0.71|4.61|||Mixed Models Analysis|Fixed effects: Baseline BCVA, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from baseline in BCVA|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Month 24 Analysis||4.61|-0.71|0.151
92423644|NCT02130024|184735527|OTHER||Treatment Effect|10.12||||0.294|TWO_SIDED|95.0|-8.82|29.06|||Mixed Models Analysis|Fixed effects: Baseline CSFT, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from baseline in CSFT|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Month 12 Analysis||29.06|-8.82|0.294
92423645|NCT02130024|184735527|OTHER||Treatment Effect|11.86||||0.225|TWO_SIDED|95.0|-7.35|31.07|||Mixed Models Analysis|Fixed effects: Baseline CSFT, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from baseline in CSFT|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Month 24 Analysis||31.07|-7.35|0.225
92423646|NCT02130024|184735528|OTHER||Odds Ratio (OR)|0.83||||0.461|TWO_SIDED|95.0|0.51|1.35|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment|Odds ratio of no IRF/SRF present between the two treatment groups at study visit|Month 2 Analysis||1.35|0.51|0.461
92170381|NCT02554786|184229830|SUPERIORITY||LS Mean|0.01|STANDARD_ERROR_OF_MEAN|0.0447||0.824|TWO_SIDED|95.0|-0.078|0.098|||MMRM|||Week 52||0.098|-0.078|0.824
92170382|NCT02554786|184229830|SUPERIORITY||LS Mean|-0.203|STANDARD_ERROR_OF_MEAN|0.0318|<|0.001|TWO_SIDED|95.0|-0.266|-0.141|||MMRM|||Week 52: The comparison of QMF149 vs. MF was based on combined effects of QMF149 150/160 \& 150/320 μg and MF 400 \& 800 μg derived by weighting treatment groups equally.||-0.141|-0.266|<0.001
92170383|NCT02554786|184229831|SUPERIORITY||LS Mean|0.136|STANDARD_ERROR_OF_MEAN|0.0235|<|0.001|TWO_SIDED|95.0|0.09|0.183|||MMRM|||||0.183|0.090|<0.001
92170384|NCT02554786|184229831|SUPERIORITY||LS Mean|0.209|STANDARD_ERROR_OF_MEAN|0.0235|<|0.001|TWO_SIDED|95.0|0.163|0.255|||MMRM|||||0.255|0.163|<0.001
92423647|NCT02130024|184735528|OTHER||Odds Ratio (OR)|0.72||||0.215|TWO_SIDED|95.0|0.44|1.21|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment|Odds ratio of no IRF/SRF present between the two treatment groups at study visit|Month 12 Analysis||1.21|0.44|0.215
92423648|NCT02130024|184735528|OTHER||Odds Ratio (OR)|0.87||||0.616|TWO_SIDED|95.0|0.51|1.48|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment|Odds ratio of no IRF/SRF present between the two treatment groups at study visit|Month 24 Analysis||1.48|0.51|0.616
92423649|NCT02130024|184735529|OTHER||Odds Ratio (OR)|1.05||||0.891|TWO_SIDED|95.0|0.53|2.08|||Regression, Logistic|Includes treatment as factor and baseline BCVA as covariate. Model: log(p/1-p) =Treatment|Odds ratio of BCVA change from baseline ≥15 letters between the two treatment groups at study visit|Baseline to Month 12 Analysis||2.08|0.53|0.891
92423650|NCT02130024|184735529|OTHER||Odds Ratio (OR)|1.61||||0.206|TWO_SIDED|95.0|0.77|3.35|||Regression, Logistic|Includes treatment as factor and baseline BCVA as covariate. Model: log(p/1-p) =Treatment|Odds ratio of BCVA change from baseline ≥15 letters between the two treatment groups at study visit|Baseline to Month 24 Analysis||3.35|0.77|0.206
92423651|NCT02130024|184735530|OTHER||Odds Ratio (OR)|1.63||||0.46|TWO_SIDED|95.0|0.45|5.93|||Regression, Logistic|Includes treatment as factor and baseline BCVA as covariate. Model: log(p/1-p) =Treatment|Odds ratio of BCVA change from baseline ≥ -15 letters between the two treatment groups at study visit|Baseline to Month 12 Analysis||5.93|0.45|0.460
92170385|NCT02554786|184229831|SUPERIORITY||LS Mean|0.048|STANDARD_ERROR_OF_MEAN|0.0234||0.04|TWO_SIDED|95.0|0.002|0.094|||MMRM|||||0.094|0.002|0.04
92395466|NCT00452790|184688044|SUPERIORITY_OR_OTHER|||||||0.446||95.0|||||Fisher Exact|||Difference in incidence rates of any local reaction (tenderness, induration, erythema) within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.446
92395467|NCT00452790|184688045|SUPERIORITY_OR_OTHER|||||||0.625||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>=38 but \<=39 degrees C within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.625
92395468|NCT00452790|184688045|SUPERIORITY_OR_OTHER|||||||0.375||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>39 but \<=40 degrees C within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.375
92395469|NCT00452790|184688045|SUPERIORITY_OR_OTHER|||||||0.624||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>40 degrees C within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.624
92395470|NCT00452790|184688045|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of decreased appetite within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
92395471|NCT00452790|184688045|SUPERIORITY_OR_OTHER|||||||0.282||95.0|||||Fisher Exact|||Difference in incidence rates of irritability within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.282
92423652|NCT02130024|184735530|OTHER||Odds Ratio (OR)|0.94||||0.913|TWO_SIDED|95.0|0.3|2.9|||Regression, Logistic|Includes treatment as factor and baseline BCVA as covariate. Model: log(p/1-p) =Treatment|Odds ratio of BCVA change from baseline ≥ -15 letters between the two treatment groups at study visit|Baseline to Month 24 Analysis||2.90|0.30|0.913
92423653|NCT02130024|184735532|OTHER||Treatment Effect|27.2|||<|0.001|TWO_SIDED|95.0|21.44|32.95|||Mixed Models Analysis|Fixed: BL Plasma VEGF, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from BL in Plasma VEGF|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Week 5 Analysis||32.95|21.44|<0.001
92395472|NCT00452790|184688045|SUPERIORITY_OR_OTHER|||||||0.307||95.0|||||Fisher Exact|||Difference in incidence rates of Increased sleep within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.307
92395473|NCT00452790|184688045|SUPERIORITY_OR_OTHER|||||||0.939||95.0|||||Fisher Exact|||Difference in incidence rates of decreased sleep within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.939
92395474|NCT00452790|184688045|SUPERIORITY_OR_OTHER|||||||0.085||95.0|||||Fisher Exact|||Difference in incidence rates of any systemic event (fever, decrease in appetite, irritability, increased or decreased sleep) within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.085
92395475|NCT00452790|184688046|SUPERIORITY_OR_OTHER|||||||0.111||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>= 38 but \<= 39 degrees C within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.111
92395476|NCT00452790|184688046|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>39 but \<= 40 degrees C within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
92395477|NCT00452790|184688046|SUPERIORITY_OR_OTHER|||||||0.488||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>40 degrees C within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.488
92395478|NCT00452790|184688046|SUPERIORITY_OR_OTHER|||||||0.736||95.0|||||Fisher Exact|||Difference in incidence rates of Decreased appetite within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.736
92395479|NCT00452790|184688046|SUPERIORITY_OR_OTHER|||||||0.856||95.0|||||Fisher Exact|||Difference in incidence rates of Irritability within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.856
92395480|NCT00452790|184688046|SUPERIORITY_OR_OTHER|||||||0.098||95.0|||||Fisher Exact|||Difference in incidence rates of Increased sleep within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.098
92395481|NCT00452790|184688046|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||Fisher Exact|||Difference in incidence rates of Decreased sleep within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.034
92170386|NCT02554786|184229832|SUPERIORITY||LS Mean|0.132|STANDARD_ERROR_OF_MEAN|0.0193|<|0.001|TWO_SIDED|95.0|0.094|0.17|||MMRM|||Day 30||0.170|0.094|<0.001
92170387|NCT02554786|184229832|SUPERIORITY||LS Mean|0.196|STANDARD_ERROR_OF_MEAN|0.0194|<|0.001|TWO_SIDED|95.0|0.158|0.234|||MMRM|||Day 30||0.234|0.158|<0.001
92170388|NCT02554786|184229832|SUPERIORITY||LS Mean|0.035|STANDARD_ERROR_OF_MEAN|0.0192||0.064|TWO_SIDED|95.0|-0.002|0.073|||MMRM|||Day 30||0.073|-0.002|0.064
92170389|NCT02554786|184229832|SUPERIORITY||LS Mean|0.122|STANDARD_ERROR_OF_MEAN|0.0201|<|0.001|TWO_SIDED|95.0|0.083|0.162|||MMRM|||Day 86||0.162|0.083|<0.001
92395482|NCT00452790|184688046|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of Any systemic event (fever, decrease in appetite, irritability, increased or decreased sleep) within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
92395483|NCT00452790|184688047|SUPERIORITY_OR_OTHER|||||||0.085||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>= 38 but \<= 39 degrees C within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.085
92395484|NCT00452790|184688047|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>39 but \<= 40 degrees C within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
92395485|NCT00452790|184688047|SUPERIORITY_OR_OTHER|||||||0.489||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>40 degrees C within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.489
92395486|NCT00452790|184688047|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Fisher Exact|||Difference in incidence rates of decreased appetite within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.840
92395487|NCT00452790|184688047|SUPERIORITY_OR_OTHER|||||||0.605||95.0|||||Fisher Exact|||Difference in incidence rates of irritability within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.605
92395488|NCT00452790|184688047|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of increased sleep within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
92395489|NCT00452790|184688047|SUPERIORITY_OR_OTHER|||||||0.265||95.0|||||Fisher Exact|||Difference in incidence rates of decreased sleep within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.265
92395490|NCT00452790|184688047|SUPERIORITY_OR_OTHER|||||||0.422||95.0|||||Fisher Exact|||Difference in incidence rates of any systemic event (fever, decrease in appetite, irritability, increased or decreased sleep) within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.422
92395491|NCT00452790|184688048|SUPERIORITY_OR_OTHER|||||||0.815||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>= 38 but \<= 39 degrees within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.815
92423654|NCT02130024|184735532|OTHER||Treatment Effect|28.88|||<|0.001|TWO_SIDED|95.0|23.08|34.68|||Mixed Models Analysis|Fixed: BL Plasma VEGF, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from BL in Plasma VEGF|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Week 9 Analysis||34.68|23.08|<0.001
92423655|NCT05597020|184735547|SUPERIORITY||Least Square mean difference vs placebo|20.9||||0.002|TWO_SIDED|95.0|8.0|33.7|||Mixed Models Analysis|Treatment, period, week within period, and interaction of treatment and week were factors; baseline sTST assessment was covariate.||||33.7|8.0|0.002
92423656|NCT05736224|184735549|SUPERIORITY|||||||0.003||||||No sunscreen compared to test sunscreen|t-test, 2 sided|||||||0.003
92423657|NCT01015131|184735556|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1521|||<|0.01|TWO_SIDED|90.0|0.0932|0.2111|||paired t-test|||||0.2111|0.0932|<0.01
92423658|NCT02791399|184735575|EQUIVALENCE|Our analysis examined the estimated averages for each group at each time point after accounting for covariates.|Mean Difference (Final Values)|-1.12|||<|0.05|TWO_SIDED|95.0|-2.45|0.2|||Mixed Models Analysis|Models controlled for age, gender, depression severity, pain intensity, clinician type, and proportion of clinician panel prescribed opioids.||||0.20|-2.45|<0.05
92423659|NCT02791399|184735576|EQUIVALENCE|Our analysis examined the estimated probabilities for each group at each time point after accounting for covariates.|Mean Difference (Final Values)|-0.04|||<|0.05|TWO_SIDED|95.0|-0.15|0.06|||Mixed Models Analysis|Models controlled for age, gender, depression severity, pain intensity, clinician type, and proportion of clinician panel prescribed opioids.||||0.06|-0.15|<0.05
92395492|NCT00452790|184688048|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>39 but \<= 40 degrees within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
92395493|NCT00452790|184688048|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>40 degrees C within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
92395494|NCT00452790|184688048|SUPERIORITY_OR_OTHER|||||||0.401||95.0|||||Fisher Exact|||Difference in incidence rates of decreased appetite within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.401
92170390|NCT02554786|184229832|SUPERIORITY||LS Mean|0.184|STANDARD_ERROR_OF_MEAN|0.0202|<|0.001|TWO_SIDED|95.0|0.144|0.224|||MMRM|||Day 86||0.224|0.144|<0.001
92395495|NCT00452790|184688048|SUPERIORITY_OR_OTHER|||||||0.511||95.0|||||Fisher Exact|||Difference in incidence rates of irritability within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.511
92170391|NCT02554786|184229832|SUPERIORITY||LS Mean|0.037|STANDARD_ERROR_OF_MEAN|0.02||0.063|TWO_SIDED|95.0|-0.002|0.076|||MMRM|||Day 86||0.076|-0.002|0.063
92395496|NCT00452790|184688048|SUPERIORITY_OR_OTHER|||||||0.487||95.0|||||Fisher Exact|||Difference in incidence rates of increased sleep within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.487
92395497|NCT00452790|184688048|SUPERIORITY_OR_OTHER|||||||0.388||95.0|||||Fisher Exact|||Difference in incidence rates of decreased sleep within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.388
92395498|NCT00452790|184688048|SUPERIORITY_OR_OTHER|||||||0.753||95.0|||||Fisher Exact|||Difference in incidence rates of any systemic event fever, decrease in appetite, irritability, increased or decreased sleep) within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.753
92170392|NCT02554786|184229833|SUPERIORITY||LS Mean|0.142|STANDARD_ERROR_OF_MEAN|0.0116|<|0.001|TWO_SIDED|95.0|0.119|0.164|||MMRM|||Day 1: 5 minutes||0.164|0.119|<0.001
92170393|NCT02554786|184229833|SUPERIORITY||LS Mean|0.152|STANDARD_ERROR_OF_MEAN|0.0116|<|0.001|TWO_SIDED|95.0|0.129|0.175|||MMRM|||Day 1: 5 minutes||0.175|0.129|<0.001
92170394|NCT02554786|184229833|SUPERIORITY||LS Mean|0.055|STANDARD_ERROR_OF_MEAN|0.0116|<|0.001|TWO_SIDED|95.0|0.032|0.078|||MMRM|||Day 1: 5 minutes||0.078|0.032|<0.001
92395499|NCT02360228|184688073|OTHER|||||||0.47|||||||ANOVA|Difference from day 5 to baseline was compared between the tACS, tDCS, and sham groups using a one way ANOVA. Degrees of freedom: df=19||The null hypothesis was that there is no difference between the changes in the AHRS score from baseline to 5 days between the groups.H0: μ1=μ2=μ3 μ1: mean(difference 5 days-baseline) for tACS group (n=8) μ2: mean(difference 5 days-baseline) for tDCS group (n=7) μ3: mean(difference 5 days-baseline) for sham group (n=7)||||0.47
92395500|NCT02360228|184688075|OTHER|||||||0.37|||||||ANOVA|Difference from day 5 to baseline was compared between the tACS, tDCS, and sham using a one way ANOVA. Degrees of freedom: df=19||The null hypothesis was that there is no difference between the changes in the PANSS score from day 5 to baseline. H0: μ1=μ2=μ3 μ1: mean(difference 5 days-baseline) for tACS group (n=8) μ2: mean(difference 5 days-baseline) for tDCS group (n=7) μ3: mean(difference 5 days-baseline) for sham group (n=7)||||0.37
92395501|NCT02360228|184688076|OTHER|||||||0.11|||||||ANOVA|Difference from day 5 to baseline was compared between the tACS, tDCS, and sham groups using a one way ANOVA. Degrees of freedom: df=19||"The null hypothesis was that there is no difference between the changes in the BACS score from baseline to 5 days between the groups:~H0: μ1=μ2=μ3 μ1: mean(difference 5 days-baseline) for tACS group (n=8) μ2: mean(difference 5 days-baseline) for tDCS group (n=7) μ3: mean(difference 5 days-baseline) for sham group (n=7)"||||0.11
92395502|NCT01604291|184688082|OTHER|||||||0.9109||||||The p-value from chi-square is the difference between SVR achieved (yes/no) and dose modifications.|Chi-squared|||Correlation between SVR 24 and Gender||||0.9109
92395503|NCT01604291|184688082|OTHER|||||||0.1163||||||A t-test was done to compare SVR participants to non-SVR.|t-test, 1 sided|||Correlation between SVR 24 and Age||||0.1163
92395504|NCT01604291|184688082|OTHER|||||||0.9269||||||A t-test was done to compare SVR participants to non-SVR.|t-test, 1 sided|||Correlation between SVR 24 and Height||||0.9269
92395505|NCT01604291|184688082|OTHER|||||||0.3376||||||A t-test was done to compare SVR participants to non-SVR.|t-test, 1 sided|||Correlation between SVR 24 and Weight||||0.3376
92170395|NCT02554786|184229833|SUPERIORITY||LS Mean|0.162|STANDARD_ERROR_OF_MEAN|0.0122|<|0.001|TWO_SIDED|95.0|0.138|0.186|||MMRM|||Day 1: 15 minutes||0.186|0.138|<0.001
92170396|NCT02554786|184229833|SUPERIORITY||LS mean|0.174|STANDARD_ERROR_OF_MEAN|0.0123|<|0.001|TWO_SIDED|95.0|0.15|0.198|||MMRM|||Day 1: 15 minutes||0.198|0.150|<.001
92395506|NCT01604291|184688082|OTHER|||||||0.4618||||||A t-test was done to compare SVR participants to non-SVR.|t-test, 1 sided|||Correlation between SVR 24 and Body mass index.||||0.4618
92395507|NCT01604291|184688095|OTHER||phi-coefficient|-0.0835||||0.0463|||||||Chi-squared|The p-value from chi-square is the difference between SVR achieved (yes/no) and dose modifications.|phi-coefficient is a measure of the degree of association between two binary variables|Correlation with dose modification for Peginterferon alfa-2a.||||0.0463
92395508|NCT01604291|184688095|OTHER||phi-coefficient|0.0666||||0.2052|||||||Chi-squared|The p-value from chi-square is the difference between SVR achieved (yes/no) and dose modifications.|phi-coefficient is a measure of the degree of association between two binary variables.|Correlation with dose modification for Ribavirin.||||0.2052
92395509|NCT01604291|184688095|OTHER||phi-coefficient|-0.1672||||0.0033|||||||Fisher Exact|The p-value from chi-square is the difference between SVR achieved (yes/no) and dose modifications.|phi-coefficient is a measure of the degree of association between two binary variables.|Correlation with dose modification for Telaprevir/boceprevir.||||0.0033
92395510|NCT01908426|184688098|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0049|TWO_SIDED|95.0|0.63|0.92|||Log Rank|The Log-Rank Test was stratified by etiology of disease, geo. region, presence of extrahepatic spread of disease and/or macrovascular invasion.||||0.92|0.63|0.0049
92395511|NCT01908426|184688099|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.36|0.52|||Log Rank|The Log Rank Test was stratified by etiology of disease, geographic region, presence of extrahepatic spread of disease and/or macrovascular invasion.||||0.52|0.36|< 0.0001
92395512|NCT01908426|184688100|SUPERIORITY|||||||0.0086|||||||Cochran-Mantel-Haenszel|||||||0.0086
92395513|NCT01782898|184688104|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.82
92395514|NCT01782898|184688105|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.05
92395515|NCT01782898|184688106|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.14
92395516|NCT02973100|184688107|SUPERIORITY||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.07|-0.53|||Mixed Models Analysis|||||-0.53|-1.07|<.001
92395517|NCT02973100|184688107|SUPERIORITY||Mean Difference (Final Values)|-0.87|||<|0.001|TWO_SIDED|95.0|-1.14|-0.6|||Mixed Models Analysis|||||-0.60|-1.14|<0.001
92395518|NCT02973100|184688107|SUPERIORITY||Mean Difference (Final Values)|-0.96|||<|0.001|TWO_SIDED|95.0|-1.24|-0.69|||Mixed Models Analysis|||||-0.69|-1.24|<.001
92395519|NCT02973100|184688108|SUPERIORITY||Odds Ratio (OR)|24.489|||<|0.001|TWO_SIDED|95.0|8.368|71.667|||Regression, Logistic|||||71.667|8.368|<.001
92395520|NCT02973100|184688108|SUPERIORITY||Odds Ratio (OR)|27.906|||<|0.001|TWO_SIDED|95.0|9.238|84.3|||Regression, Logistic|||||84.300|9.238|<.001
92395521|NCT02973100|184688108|SUPERIORITY||Odds Ratio (OR)|21.852|||<|0.001|TWO_SIDED|95.0|7.672|62.242|||Regression, Logistic|||||62.242|7.672|<.001
92395522|NCT02973100|184688109|SUPERIORITY||Mean Difference (Final Values)|-1.32|||<|0.001|TWO_SIDED|95.0|-2.02|-0.62|||Mixed Models Analysis|||||-0.62|-2.02|<0.001
92395523|NCT02973100|184688109|SUPERIORITY||Mean Difference (Final Values)|-1.23|||<|0.001|TWO_SIDED|95.0|-1.91|-0.54|||Mixed Models Analysis|||||-0.54|-1.91|<0.001
92395524|NCT02973100|184688109|SUPERIORITY||Mean Difference (Final Values)|-1.42|||<|0.001|TWO_SIDED|95.0|-2.12|-0.72|||Mixed Models Analysis|||||-0.72|-2.12|<0.001
92395525|NCT02973100|184688110|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.025|TWO_SIDED|95.0|-2.3|-0.2|||Mixed Models Analysis|||||-0.2|-2.3|0.025
92395526|NCT02973100|184688110|SUPERIORITY||Mean Difference (Final Values)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.4|-1.3|||Mixed Models Analysis|||||-1.3|-3.4|<0.001
92395527|NCT02973100|184688110|SUPERIORITY||Mean Difference (Final Values)|-2.6|||<|0.001|TWO_SIDED|95.0|-3.7|-1.5|||Mixed Models Analysis|||||-1.5|-3.7|<0.001
92395528|NCT00383552|184688115|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
92395529|NCT00383552|184688116|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
92395530|NCT00383552|184688118|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92395531|NCT00383552|184688119|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92395532|NCT00383552|184688120|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073|||||||Longitudinal Model|||||||0.073
92395533|NCT00383552|184688121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||||||BMI 25 to \<30|ANCOVA|||||||0.015
92395534|NCT00383552|184688121|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||BMI less than 25 and for BMI 30 or more|ANCOVA|||||||<0.001
92395535|NCT00960622|184688123|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_DEVIATION|8.5|<|0.05|TWO_SIDED|95.0|-6.3|11.3|||t-test, 2 sided|||"Paired t-tests for inter-group differences between baseline and end-of-study measurements.Regression analysis, physiological correlates of statistically significant between-group changes.~P\<0.05 chosen for statistical significance"||11.3|-6.3|<0.05
92395536|NCT01419236|184688139|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66||||0.38|TWO_SIDED|90.0|-0.59|1.91|||Mixed Models Repeated Measure Analysis|||||1.91|-0.59|0.380
92395537|NCT01419236|184688140|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.44||||0.164|TWO_SIDED|90.0|-0.96|0.08|||Mixed Models Repeated Measures Analysis|||||0.08|-0.96|0.164
92395538|NCT01419236|184688141|SUPERIORITY_OR_OTHER||LS Mean Difference|0.42||||0.342|TWO_SIDED|90.0|-0.31|1.15|||Mixed Models Repeated Measure Analysis|||||1.15|-0.31|0.342
92395539|NCT01419236|184688142|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.079|TWO_SIDED|90.0|0.05|1.57|||Mixed Models Repeated Measure Analysis|||||1.57|0.05|0.079
92395540|NCT01419236|184688143|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.535|TWO_SIDED|90.0|-0.5|1.1|||Mixed Models Repeated Measure Analysis|||||1.10|-0.50|0.535
92395541|NCT01419236|184688144|SUPERIORITY_OR_OTHER||LS Mean Difference|1.03||||0.172|TWO_SIDED|90.0|-0.22|2.27|||ANCOVA|||||2.27|-0.22|0.172
92395542|NCT01419236|184688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.473|TWO_SIDED|90.0|-0.41|1.04|||Mixed Models Repeated Measure Analysis|||||1.04|-0.41|0.473
92395543|NCT01419236|184688146|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.885|TWO_SIDED|90.0|-1.03|0.87|||Mixed Models Repeated Measure Analysis|||||0.87|-1.03|0.885
92170397|NCT02554786|184229833|SUPERIORITY||LS Mean|0.044|STANDARD_ERROR_OF_MEAN|0.0122|<|0.001|TWO_SIDED|95.0|0.02|0.068|||MMRM|||Day1: 15 minutes||0.068|0.02|<0.001
92423660|NCT02791399|184735577|NON_INFERIORITY|Pain intensity and pain-related function were tested in non-inferiority analyses, as we hypothesized that the ISOT intervention would not negatively impact pain or function. One-half SD difference in change was considered the appropriate non-inferiority limit.|Non-inferiority analysis|1.6|||||TWO_SIDED|||||||||||||
92423661|NCT02791399|184735578|EQUIVALENCE|This analysis is comparing estimated averages and probabilities for each group at each time point after accounting for covariates.|Mean Difference (Final Values)|-1.99|||<|0.05|TWO_SIDED|95.0|-5.83|1.85|||Mixed Models Analysis|Models controlled for age, gender, depression severity, pain intensity, clinician type, and proportion of clinician panel prescribed opioids.||||1.85|-5.83|<0.05
92423662|NCT02791399|184735579|EQUIVALENCE|Our analysis examined the estimated averages for each group at each time point after accounting for covariates.|Mean Difference (Final Values)|1.03|||<|0.05|TWO_SIDED|95.0|-6.73|8.8|||Mixed Models Analysis|Models controlled for age, gender, depression severity, pain intensity, clinician type, and proportion of clinician panel prescribed opioids.||||8.80|-6.73|<0.05
92423663|NCT00704912|184735580|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.5||||0.06|TWO_SIDED|95.0|1.0|6.6|||Log-binomial model|||||6.6|1.0|0.06
92170398|NCT02554786|184229833|SUPERIORITY||LS Mean|0.175|STANDARD_ERROR_OF_MEAN|0.0132|<|0.001|TWO_SIDED|95.0|0.149|0.201|||MMRM|||Day 1: 30 minutes||0.201|0.149|<0.001
92170399|NCT02554786|184229833|SUPERIORITY||LS Mean|0.185|STANDARD_ERROR_OF_MEAN|0.0132|<|0.001|TWO_SIDED|95.0|0.159|0.211|||MMRM|||Day 1: 30 minutes||0.211|0.159|<0.001
92239749|NCT00738543|184383411|NON_INFERIORITY_OR_EQUIVALENCE|The minimal sample of 20 volunteers was calculated to find a difference of 200 CFU/mL.|||||<|0.05||95.0||||Post-hoc test of Kruskal-Wallis for multiple comparisons of Z values was used to determine which arm was different.|Kruskal-Wallis|2 degrees of freedom corrected for ties||The null hypothesis established that the 3 medians were equal. To test significant differences for non-normally distributed data, a range test (Kruskal-Wallis) was used. The alpha level for significance was established at 5%. A minimal sample of 20 volunteers was calculated for a power of 80%, and bilateral error of 5%.||||<0.05
92395544|NCT01419236|184688147|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.938|TWO_SIDED|90.0|-0.61|0.55|||Mixed Models Repeated Measure Analysis|||||0.55|-0.61|0.938
92395545|NCT01342913|184688158|SUPERIORITY_OR_OTHER||Least squares mean difference|0.022||||0.282|TWO_SIDED|95.0|-0.018|0.063|||ANCOVA|||||0.063|-0.018|0.282
92395546|NCT03112681|184688161|SUPERIORITY|||||||0.0001|||||||paired t-test|||||||0.0001
92395547|NCT03112681|184688161|SUPERIORITY|||||||0.0002|||||||paired t-test|||||||0.0002
92395548|NCT03287791|184688175|SUPERIORITY||Mean Difference (Final Values)|-11.27|||<|0.0001|TWO_SIDED|95.0|-16.8|-5.73|||ANOVA|||Analyses was performed using an Analysis of Variance (ANOVA) model with percent change from baseline to Week 12 in the lesion count as outcome and treatment, center and treatment-by-center interaction as factors.||-5.73|-16.80|<.0001
92395549|NCT03287791|184688175|SUPERIORITY||Median Difference (Final Values)|-9.71||||0.0007|TWO_SIDED|95.0|-15.28|-4.14|||ANOVA|||Analyses was performed using an ANOVA model with percent change from baseline to Week 12 in the lesion count as outcome and treatment, center and treatment-by-center interaction as factors.||-4.14|-15.28|0.0007
92395550|NCT02764385|184688181|SUPERIORITY||Odds Ratio (OR)|1.87|||||TWO_SIDED|95.0|1.73|2.01||||||||2.01|1.73|
92395551|NCT02764385|184688181|SUPERIORITY||Odds Ratio (OR)|0.68||||0.05|TWO_SIDED|95.0|0.45|1.02|||Regression, Logistic|We adjust for clustering of visit within clinician and clinical site and the stepped wedge study design using generalized estimating equation methods.||||1.02|.45|.05
92395552|NCT02764385|184688182|SUPERIORITY||Odds Ratio (OR)|1.87|||||TWO_SIDED|95.0|1.73|2.1||||||||2.10|1.73|
92395553|NCT02891174|184688203|EQUIVALENCE|margin=10 mmHg|Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-3.7|5.7|||||The adjusted mean difference between ibuprofen and acetaminophen is presented here. The adjusted mean difference was calculated using a linear mixed model adjusting for time period by intention-to-treat principles.|||5.7|-3.7|
92395554|NCT02891174|184688204|SUPERIORITY|||||||0.59||||||Abdominal pain|t-test, 2 sided|||Change in abdominal pain||||0.59
92395555|NCT02891174|184688204|SUPERIORITY|||||||0.91||||||Perineal pain|t-test, 2 sided|||Change in perineal pain||||0.91
92395556|NCT02891174|184688204|SUPERIORITY|||||||0.88||||||Overall pain|t-test, 2 sided|||Change in overall pain||||0.88
92395557|NCT02891174|184688205|OTHER|||||||0.76|||||||t-test, 2 sided|||||||0.76
92395558|NCT02891174|184688206|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||First intervention (24 hours)||||0.02
92395559|NCT02891174|184688206|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Second intervention (24 hours)||||0.06
92395560|NCT02891174|184688206|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Overall satisfaction with pain control during study period||||0.04
92395561|NCT02250326|184688212|SUPERIORITY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.9|1.94||||Based on stratification factors of ECOG Performance Status (0 or 1), sex (male or female), and current smoker status (yes or no).||Based on stratified Cox proportional hazards regression model.||1.94|0.90|
92395562|NCT02250326|184688213|SUPERIORITY||Disease Control Rate Ratio|0.97|||||TWO_SIDED|95.0|0.778|1.207|||||95% CI was calculated using Clopper-Pearson method.||Direction of Disease Control Rate Ratio is DCR of Nab-Paclitaxel + CC-486 Combination Arm over DCR of Nab-Paclitaxel Alone|1.207|0.778|
92395563|NCT02250326|184688214|SUPERIORITY||Overall Response Rate Ratio|0.84|||||TWO_SIDED|95.0|0.398|1.754|||||95% CI was calculated using Clopper-Pearson method.||Direction of Overall Response Rate Ratio is ORR of Nab-Paclitaxel + CC-486 Combination Arm over ORR of nab-Paclitaxel Alone.|1.754|0.398|
92395564|NCT02250326|184688215|SUPERIORITY||Hazard Ratio (HR)|1.7|||||TWO_SIDED|95.0|1.08|2.57||||Based on stratification factors of ECOG performance status (0 or 1), sex (male or female), and current smoker status (yes or no).||Based on stratified Cox proportional hazards regression model.||2.57|1.08|
92395565|NCT03016312|184688229|SUPERIORITY||Hazard Ratio (HR)|1.184||||0.094|TWO_SIDED|95.0|0.971|1.445|||Log Rank|||Unstratified Analysis||1.445|0.971|0.0940
92395566|NCT03016312|184688229|SUPERIORITY||Hazard Ratio (HR)|1.118||||0.2786|TWO_SIDED|95.0|0.913|1.37|||Log Rank|||Stratified Analysis||1.370|0.913|0.2786
92395567|NCT03016312|184688230|SUPERIORITY||Difference in Event Free Rate|-0.2||||0.9391|TWO_SIDED|95.0|-5.38|4.97|||z-test|||Difference in Event Free Rate - 6 months||4.97|-5.38|0.9391
92395568|NCT03016312|184688230|SUPERIORITY||Difference in Event Free Rate|-4.03||||0.2706|TWO_SIDED|95.0|-11.21|3.14|||z-test|||Difference in Event Free Rate - 12 months||3.14|-11.21|0.2706
92395569|NCT03016312|184688232|SUPERIORITY||Hazard Ratio (HR)|0.917||||0.3157|TWO_SIDED|95.0|0.775|1.086|||Log Rank|||Unstratified Analysis||1.086|0.775|0.3157
92395570|NCT03016312|184688232|SUPERIORITY||Hazard Ratio (HR)|0.899||||0.2366|TWO_SIDED|95.0|0.754|1.072|||Log Rank|||Stratified Analysis||1.072|0.754|0.2366
92395571|NCT03016312|184688233|SUPERIORITY||Difference in Event Free Rate|2.21||||0.5959|TWO_SIDED|95.0|-5.95|10.37|||z-test|||Difference in Event Free Rate - 6 months||10.37|-5.95|0.5959
92395572|NCT03016312|184688233|SUPERIORITY||Difference in Event Free Rate|1.44||||0.6262|TWO_SIDED|95.0|-4.35|7.23|||z-test|||Difference in Event Free Rate - 12 months||7.23|-4.35|0.6262
92395573|NCT03016312|184688234|SUPERIORITY||Difference in 50% Decrease Response Rate|1.6|||||TWO_SIDED|2.0|-4.5|7.8|||||||Odds Ratio: 1.1 95%CI: 0.8, 1.5|7.8|-4.5|
92395574|NCT03016312|184688235|SUPERIORITY||Hazard Ratio (HR)|1.055||||0.5359|TWO_SIDED|95.0|0.89|1.251|||Log Rank|||Unstratified Analysis||1.251|0.890|0.5359
92395575|NCT03016312|184688235|SUPERIORITY||Hazard Ratio (HR)|1.037||||0.6857|TWO_SIDED|95.0|0.869|1.238|||Log Rank|||Stratified Analysis||1.238|0.869|0.6857
92395576|NCT01755234|184688246|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.97
92395577|NCT01755234|184688247|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.96
92395578|NCT01755234|184688248|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.96
92395579|NCT01755234|184688249|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.84
92423664|NCT00704912|184735580|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.3||||0.08|TWO_SIDED|95.0|0.9|6.1|||Log-binomial model|||||6.1|0.9|0.08
92170400|NCT02554786|184229833|SUPERIORITY||LS Mean|0.027|STANDARD_ERROR_OF_MEAN|0.0132||0.038|TWO_SIDED|95.0|0.001|0.053|||MMRM|||Day 1: 30 minutes||0.053|0.001|0.038
92170401|NCT02554786|184229833|SUPERIORITY||LS Mean|0.178|STANDARD_ERROR_OF_MEAN|0.0139|<|0.001|TWO_SIDED|95.0|0.15|0.205|||MMRM|||Day 1: 1 hour||0.205|0.150|<0.001
92395580|NCT04663321|184688335|SUPERIORITY|Difference in LS Means|LS Mean Difference|3.3||||0.168|TWO_SIDED|95.0|-1.4|8.0|||ANCOVA|||||8.0|-1.4|0.168
92395581|NCT04663321|184688335|SUPERIORITY|Difference in LS Means|LS Mean Difference|-1.1||||0.697|TWO_SIDED|95.0|-6.9|4.7|||ANCOVA|||||4.7|-6.9|0.697
92395582|NCT04663321|184688336|SUPERIORITY|Difference in LS Means|LS Mean Difference|2.9||||0.124|TWO_SIDED|95.0|-0.8|6.6|||ANCOVA|||||6.6|-0.8|0.124
92395583|NCT04663321|184688336|SUPERIORITY|Difference in LS Means|LS Mean Difference|1.9||||0.417|TWO_SIDED|95.0|-2.7|6.4|||ANCOVA|||||6.4|-2.7|0.417
92423665|NCT00704912|184735580|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.82|TWO_SIDED|95.0|0.5|2.1|||Log-binomial model|||||2.1|0.5|0.82
92423666|NCT00704912|184735581|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.06|TWO_SIDED|95.0|1.0|1.7|||Log-binomial model|||||1.7|1.0|0.06
92170402|NCT02554786|184229833|SUPERIORITY||LS Mean|0.205|STANDARD_ERROR_OF_MEAN|0.0139|<|0.001|TWO_SIDED|95.0|0.177|0.232|||MMRM|||Day 1: 1hour||0.232|0.177|<0.001
92170403|NCT02554786|184229833|SUPERIORITY||LS Mean|0.007|STANDARD_ERROR_OF_MEAN|0.0139||0.632|TWO_SIDED|95.0|-0.021|0.034|||MMRM|||Day 1: 1hour||0.034|-0.021|0.632
92170404|NCT02554786|184229833|SUPERIORITY||LS Mean|0.189|STANDARD_ERROR_OF_MEAN|0.0192|<|0.001|TWO_SIDED|95.0|0.151|0.226|||MMRM|||Day 30: 5 minutes||0.226|0.151|<0.001
92395584|NCT04663321|184688339|SUPERIORITY|Difference in LS Means|LS Mean Difference|2.0||||0.187|TWO_SIDED|95.0|-1.0|5.1|||ANCOVA|||||5.1|-1.0|0.187
92395585|NCT04663321|184688339|SUPERIORITY|Difference in LS Means|LS Mean Difference|-0.6||||0.738|TWO_SIDED|95.0|-4.3|3.1|||ANCOVA|||||3.1|-4.3|0.738
92395586|NCT04663321|184688340|SUPERIORITY|Difference in LS means|LS Mean Difference|1.7||||0.182|TWO_SIDED|95.0|-0.8|4.3|||ANCOVA|||||4.3|-0.8|0.182
92395587|NCT04663321|184688341|SUPERIORITY|Difference in LS Means|LS Mean Difference|0.1||||0.63|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||||0.7|-0.4|0.630
92395588|NCT04663321|184688341|SUPERIORITY|Difference in LS Means|LS Mean Difference|-0.2||||0.549|TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|||||0.5|-0.9|0.549
92395589|NCT04663321|184688342|SUPERIORITY|Difference in LS Means|LS Mean Difference|0.4||||0.062|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||||0.8|-0.0|0.062
92395590|NCT04663321|184688342|SUPERIORITY|Difference in LS Means|LS Mean Difference|0.0||||0.878|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||||0.5|-0.5|0.878
92395591|NCT05108246|184688344|SUPERIORITY|||||||0.001||||||P-value is calculated.|Wilcoxon (Mann-Whitney)|||Change in balance was assessed by calculating a change score between pre-test and end point scores for balance. Change scores were then compared using Mann-Whitney U test and reported as Median (Interquartile range).||||.001
92395592|NCT05108246|184688344|SUPERIORITY|||||||0.003||||||P-value is calculated.|Wilcoxon (Mann-Whitney)|||Change in balance was assessed by calculating a change score between pre-test and end point scores for balance. Change scores were then compared using Mann-Whitney U test and reported as Median (Interquartile range).||||.003
92395593|NCT04862065|184688403|SUPERIORITY||Clinical Specificity (%)|99.96|||||TWO_SIDED|95.0|99.92|99.99|||Binomial Distribution|Specificity sample size is a minimum of 15,000 donors.||||99.99|99.92|
92395594|NCT04862065|184688404|OTHER|95% Confidence Interval provided|Point Estimate|100.0|||||TWO_SIDED|95.0|99.09|100.0|||Sensitivity|||||100.00|99.09|
92395595|NCT04862065|184688405|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|94.87|100.0|||Sensitivity|||Sensitivity||100.00|94.87|
92395596|NCT00718510|184688417|OTHER||||||<|0.05||||||General Psychopathology Subscale Score|ANOVA|F(1,11)=5.03||Null hypothesis is that there was no difference in change of PANSS between L-arginine and Placebo. A two-factor ANOVA was used across all subjects with the within-subject factor being the treatment phase (L-arginine first/Placebo second or Placebo first/L-arginine second) and the between-subject factor being the day of treatment (time). A sample size of 14 patients was needed to give 90% power to detect a 4 point difference on the PANSS. This included a drop-out rate of about 10%.||||<0.05
92423667|NCT00704912|184735581|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.5||||0.002|TWO_SIDED|95.0|1.1|1.9|||Log-binomial model|||||1.9|1.1|0.002
92423668|NCT00704912|184735581|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9||||0.28|TWO_SIDED|95.0|0.7|1.1|||Log-binomial model|||||1.1|0.7|0.28
92423669|NCT00704912|184735582|SUPERIORITY_OR_OTHER||Difference in Mean Change|-5.0|||<|0.0001|TWO_SIDED|95.0|-6.3|-3.8|||Mixed Models Analysis||Lifestyle vs. OCP|||-3.8|-6.3|<.0001
92423670|NCT00704912|184735582|SUPERIORITY_OR_OTHER||Difference in Mean Change|-5.0|||<|0.0001|TWO_SIDED|95.0|-6.2|-3.7|||Mixed Models Analysis||Combined vs. OCP|||-3.7|-6.2|<.0001
92423671|NCT00704912|184735582|SUPERIORITY_OR_OTHER||Difference in Mean Change|-0.1||||0.92|TWO_SIDED|95.0|-1.3|1.2|||Mixed Models Analysis||Lifestyle vs. Combined|||1.2|-1.3|0.92
92395597|NCT00718510|184688418|OTHER|||||||0.46|||||||ANOVA|||Null hypothesis is that there was no difference in change of CGI ratings between L-arginine and Placebo. A two-factor ANOVA was used across all subjects with the within-subject factor being the treatment phase (L-arginine first/Placebo second or Placebo first/L-arginine second) and the between-subject factor being the day of treatment (time).||||0.46
92423672|NCT00704912|184735583|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.6|TWO_SIDED|95.0|0.6|2.2|||GEE||End of intervention compared to baseline.|Comparing change in prevalence of metabolic syndrome from baseline to the end of intervention.||2.2|0.6|0.60
92423673|NCT00704912|184735583|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.001|TWO_SIDED|95.0|1.4|4.3|||GEE||End of intervention compared to baseline|Comparing change in prevalence of metabolic syndrome from baseline to the end of intervention.||4.3|1.4|0.001
92423674|NCT00704912|184735583|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.18|TWO_SIDED|95.0|0.4|1.2|||GEE||End of intervention compared to baseline|Comparing change in prevalence of metabolic syndrome from baseline to the end of intervention.||1.2|0.4|0.18
92423675|NCT00704912|184735583|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||GEE|||||||0.08
92423676|NCT00704912|184735583|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||GEE|||||||0.001
92423677|NCT00704912|184735583|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||GEE|||||||0.22
92423678|NCT02203071|184735591|SUPERIORITY|||||||0.61|||||||Fisher Exact|||||||0.61
92423679|NCT02203071|184735592|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||.001
92423680|NCT02203071|184735593|SUPERIORITY||||||>|0.11|||||||t-test, 2 sided|||||||>0.11
92423681|NCT02203071|184735594|SUPERIORITY||||||<|0.007|||||||ANOVA|||||||<0.007
92423682|NCT02203071|184735595|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92423683|NCT02203071|184735596|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92170405|NCT02554786|184229833|SUPERIORITY||LS Mean|0.232|STANDARD_ERROR_OF_MEAN|0.0194|<|0.001|TWO_SIDED|95.0|0.194|0.27|||MMRM|||Day 30: 5 minutes||0.270|0.194|<0.001
92423684|NCT03089320|184735640|SUPERIORITY||posterior mean proportion of abstinence|9.12|||||TWO_SIDED|95.0|0.08|31.68|||||The lower and upper limits are credible intervals.|Bayesian analysis was performed, therefore p value is not reported. Bayes factor has been reported instead.||31.68|0.08|
92423685|NCT03089320|184735641|SUPERIORITY||posterior mean proportion of abstinence|5.5|||||TWO_SIDED|95.0|0.17|18.23|||||The lower and upper limits are credible intervals.|Bayesian analysis was performed, therefore p value is not reported. Bayes factor has been reported instead.||18.23|0.17|
92423686|NCT03089320|184735642|SUPERIORITY||Mean Difference (Final Values)|-4.32|STANDARD_ERROR_OF_MEAN|2.84||0.05|TWO_SIDED|95.0|-9.97|1.34|||Mixed Models Analysis|||mixed effects model||1.34|-9.97|.05
92423687|NCT02468232|184735670|SUPERIORITY||Hazard Ratio (HR)|1.0881||||0.626|TWO_SIDED|95.0|0.6501|1.8212|||Regression, Cox|||For Primary Composite||1.8212|0.6501|0.6260
92423688|NCT02468232|184735670|SUPERIORITY||Hazard Ratio (HR)|1.1701||||0.6493|TWO_SIDED|95.0|0.5242|2.6122|||Regression, Cox|||For CV Death||2.6122|0.5242|0.6493
92423689|NCT02468232|184735670|SUPERIORITY||Hazard Ratio (HR)|1.2673||||0.7851|TWO_SIDED|95.0|0.7039|2.2818|||Regression, Cox|||For 1st HF Hospitalization||2.2818|0.7039|0.7851
92423690|NCT02468232|184735671|SUPERIORITY||LSM of ratio|0.8657||||0.0326|TWO_SIDED|95.0|0.7585|0.988||Indicates statistical significance (2-sided) with an alpha level of 0.05|ANCOVA|Repeated measure ANCOVA model||Week 4 analysis||0.9880|0.7585|0.0326
92170406|NCT02554786|184229833|SUPERIORITY||LS Mean|0.053|STANDARD_ERROR_OF_MEAN|0.0191||0.005|TWO_SIDED|95.0|0.016|0.091|||MMRM|||Day 30: 5 minutes||0.091|0.016|0.005
92395598|NCT00718510|184688419|OTHER|||||||0.55|||||||ANOVA|||Null hypothesis is that there was no difference in change of CDSS ratings between L-arginine and Placebo. A two-factor ANOVA was used across all subjects with the within-subject factor being the treatment phase (L-arginine first/Placebo second or Placebo first/L-arginine second) and the between-subject factor being the day of treatment (time).||||0.55
92423691|NCT02468232|184735671|SUPERIORITY||LSM of ratio|0.8538||||0.0161|TWO_SIDED|95.0|0.7509|0.9708||Indicates statistical significance (2-sided) with an alpha level of 0.05|ANCOVA|Repeated measure ANCOVA model||Week 8 analysis||0.9708|0.7509|0.0161
92423692|NCT02468232|184735671|SUPERIORITY||LSM of ratio|0.8112||||0.0104|TWO_SIDED|95.0|0.6916|0.9514||Indicates statistical significance (2-sided) with an alpha level of 0.05|ANCOVA|Repeated measure of ANCOVA model||Month 6 analysis||0.9514|0.6916|0.0104
92423693|NCT02468232|184735673|SUPERIORITY||Hazard Ratio (HR)|1.024||||0.5406|TWO_SIDED|95.0|0.6492|1.6152|||Regression, Cox|||First triple composite endpoint||1.6152|0.6492|0.5406
92423694|NCT02468232|184735673|SUPERIORITY||Hazard Ratio (HR)|1.1701||||0.6493|TWO_SIDED|95.0|0.5242|2.6122|||Regression, Cox|||CV health||2.6122|0.5242|0.6493
92423695|NCT02468232|184735673|SUPERIORITY||Hazard Ratio (HR)|0.8546||||0.3448|TWO_SIDED|95.0|0.3952|1.8479|||Regression, Cox|||First worsening of HF in outpatient||1.8479|0.3952|0.3448
92423696|NCT02468232|184735674|SUPERIORITY|||||||0.7115|||||||Cochran-Mantel-Haenszel|based on modified ridit scores||Week 4 analysis||||0.7115
92423697|NCT02468232|184735674|SUPERIORITY|||||||0.1752|||||||Cochran-Mantel-Haenszel|based on modified ridit scores||Week 8 analysis||||0.1752
92423698|NCT02468232|184735674|SUPERIORITY|||||||0.2688|||||||Cochran-Mantel-Haenszel|based on modified ridit scores||Month 6 analysis||||0.2688
92423699|NCT02468232|184735675|SUPERIORITY||LSM of difference|2.5455||||0.1854|TWO_SIDED|95.0|-1.2306|6.3216|||ANCOVA|Repeated measure ANCOVA model||Week 8 analysis||6.3216|-1.2306|0.1854
92423700|NCT02468232|184735675|SUPERIORITY||LSM of difference|1.2695||||0.5737|TWO_SIDED|95.0|-3.1715|5.7104|||ANCOVA|Repeated measure ANCOVA model||Month 6 analysis||5.7104|-3.1715|0.5737
92423701|NCT02468232|184735676|SUPERIORITY||rate ratio|0.8699||||0.6501||95.0|0.4763|1.5887|||Negative binomial (NB) regression model|adjusted for treatment and stratification of screening NT-proBNP||||1.5887|0.4763|0.6501
92423702|NCT02468232|184735677|SUPERIORITY|||||||0.6211|||||||Cochran-Mantel-Haenszel|||||||0.6211
92423703|NCT02468232|184735679|SUPERIORITY||Hazard Ratio (HR)|1.1895||||0.6955|TWO_SIDED|95.0|0.6116|2.3134|||Regression, Cox|||||2.3134|0.6116|0.6955
92395599|NCT02201524|184688420|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-5.08|STANDARD_ERROR_OF_MEAN|2.42|||TWO_SIDED|90.0|-9.15|-1.01||||||PF-04965842 200 mg vs Placebo: Longitudinal analysis of covariance (LANCOVA) model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-1.01|-9.15|
92395600|NCT02201524|184688420|SUPERIORITY_OR_OTHER||LS mean difference|-5.61|STANDARD_ERROR_OF_MEAN|2.375|||TWO_SIDED|90.0|-9.61|-1.62||||||PF-04965842 400 mg vs Placebo: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-1.62|-9.61|
92395601|NCT02201524|184688420|SUPERIORITY_OR_OTHER||LS mean difference|-9.98|STANDARD_ERROR_OF_MEAN|2.506|||TWO_SIDED|90.0|-14.19|-5.77||||||PF-04965842 200 mg vs Placebo: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-5.77|-14.19|
92395602|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-9.32|STANDARD_ERROR_OF_MEAN|8.291|||TWO_SIDED|90.0|-23.19|4.56||||||PF-04965842 200 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||4.56|-23.19|
92395603|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-11.19|STANDARD_ERROR_OF_MEAN|8.177|||TWO_SIDED|90.0|-24.87|2.5||||||PF-04965842 400 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||2.50|-24.87|
92395604|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-19.22|STANDARD_ERROR_OF_MEAN|8.504|||TWO_SIDED|90.0|-33.45|-4.99||||||PF-04965842 200 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-4.99|-33.45|
92395605|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-4.3|STANDARD_ERROR_OF_MEAN|10.387|||TWO_SIDED|90.0|-21.71|13.11||||||PF-04965842 200 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||13.11|-21.71|
92395606|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-18.04|STANDARD_ERROR_OF_MEAN|10.273|||TWO_SIDED|90.0|-35.25|-0.82||||||PF-04965842 400 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-0.82|-35.25|
92423704|NCT02468232|184735681|SUPERIORITY||Rate ratio|1.0192||||0.9233|TWO_SIDED|95.0|0.6925|1.4999|||Negative binomial (NB) regression model|adjusted for treatment and stratification of screening NT-proBNP||||1.4999|0.6925|0.9233
92395607|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-27.07|STANDARD_ERROR_OF_MEAN|10.646|||TWO_SIDED|90.0|-44.9|-9.23||||||PF-04965842 200 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-9.23|-44.90|
92395608|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-10.07|STANDARD_ERROR_OF_MEAN|11.013|||TWO_SIDED|90.0|-28.53|8.39||||||PF-04965842 200 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||8.39|-28.53|
92395609|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-29.23|STANDARD_ERROR_OF_MEAN|10.793|||TWO_SIDED|90.0|-47.33|-11.13||||||PF-04965842 400 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-11.13|-47.33|
92395610|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-49.99|STANDARD_ERROR_OF_MEAN|11.299|||TWO_SIDED|90.0|-68.92|-31.05||||||PF-04965842 200 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-31.05|-68.92|
92395611|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-24.25|STANDARD_ERROR_OF_MEAN|11.33|||TWO_SIDED|90.0|-43.26|-5.24||||||PF-04965842 200 mg vs Placebo at Week 4: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-5.24|-43.26|
92395612|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-27.47|STANDARD_ERROR_OF_MEAN|11.155|||TWO_SIDED|90.0|-46.18|-8.75||||||PF-04965842 400 mg vs Placebo at Week 4: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-8.75|-46.18|
92395613|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-52.63|STANDARD_ERROR_OF_MEAN|11.697|||TWO_SIDED|90.0|-72.24|-33.02||||||PF-04965842 200 mg vs Placebo at Week 4: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-33.02|-72.24|
92395614|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-17.98|STANDARD_ERROR_OF_MEAN|10.605|||TWO_SIDED|90.0|-35.8|-0.15|||LANCOVA|||PF-04965842 200 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-0.15|-35.80|
92395615|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-14.78|STANDARD_ERROR_OF_MEAN|10.513|||TWO_SIDED|90.0|-32.44|2.88||||||PF-04965842 400 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||2.88|-32.44|
92395616|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-47.94|STANDARD_ERROR_OF_MEAN|11.125|||TWO_SIDED|90.0|-66.61|-29.27||||||PF-04965842 200 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-29.27|-66.61|
92395617|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean|-21.75|STANDARD_ERROR_OF_MEAN|11.459|||TWO_SIDED|90.0|-41.0|-2.49||||||PF-04965842 200 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-2.49|-41.00|
92395618|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-17.75|STANDARD_ERROR_OF_MEAN|11.416|||TWO_SIDED|90.0|-36.92|1.42||||||PF-04965842 400 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||1.42|-36.92|
92395619|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-35.88|STANDARD_ERROR_OF_MEAN|11.893|||TWO_SIDED|90.0|-55.85|-15.9||||||PF-04965842 200 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-15.90|-55.85|
92423705|NCT02468232|184735682|SUPERIORITY||Rate ratio|1.0754||||0.9272|TWO_SIDED|95.0|0.2264|5.1067|||Negative binomial (NB) regression model|adjusted for treatment and stratification of screening NT-proBNP||||5.1067|0.2264|0.9272
92423706|NCT02468232|184735684|SUPERIORITY||Rate ratio|0.4504||||0.0697|TWO_SIDED|95.0|0.1902|1.0665||Negative binomial (NB) regression model|Negative binomial (NB) regression model|adjusted for treatment and stratification of screening NT-proBNP||||1.0665|0.1902|0.0697
92170407|NCT02554786|184229833|SUPERIORITY||LS Mean|0.194|STANDARD_ERROR_OF_MEAN|0.0194|<|0.001|TWO_SIDED|95.0|0.156|0.232|||MMRM|||Day 30: 30 minutes||0.232|0.156|<0.001
92170408|NCT02554786|184229833|SUPERIORITY||LS Mean|0.253|STANDARD_ERROR_OF_MEAN|0.0196|<|0.001|TWO_SIDED|95.0|0.214|0.291|||MMRM|||Day 30: 30 minutes||0.291|0.214|<0.001
92423707|NCT01973569|184735696|SUPERIORITY|||||||0.0235||||||The hierarchical testing procedure was applied for multiple comparisons of the primary endpoint. First, comparison between AMG 162 60mg Q3M vs placebo is tested. Only if it is rejected, comparison of AMG 162 60mg Q6M vs placebo is formally tested.|van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.0235
92170409|NCT02554786|184229833|SUPERIORITY||LS Mean|0.043|STANDARD_ERROR_OF_MEAN|0.0192||0.026|TWO_SIDED|95.0|0.005|0.08|||MMRM|||Day 30: 30 minutes||0.08|0.005|0.026
92170410|NCT02554786|184229833|SUPERIORITY||LS Mean|0.19|STANDARD_ERROR_OF_MEAN|0.0196|<|0.001|TWO_SIDED|95.0|0.152|0.229|||MMRM|||Day 30: 1 hour||0.229|0.152|<0.001
92170411|NCT02554786|184229833|SUPERIORITY||LS Mean|0.258|STANDARD_ERROR_OF_MEAN|0.0198|<|0.001|TWO_SIDED|95.0|0.219|0.296|||MMRM|||Day 30: 1 hour||0.296|0.219|<0.001
92423708|NCT01973569|184735697|SUPERIORITY|||||||0.036|||||||van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.0360
92170412|NCT02554786|184229833|SUPERIORITY||LS Mean|0.037|STANDARD_ERROR_OF_MEAN|0.0194||0.059|TWO_SIDED|95.0|-0.001|0.075|||MMRM|||Day 30: 1 hour||0.075|-0.001|0.059
92395620|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-10.75|STANDARD_ERROR_OF_MEAN|12.985|||TWO_SIDED|90.0|-32.57|11.07||||||PF-04965842 200 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||11.07|-32.57|
92395621|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-13.03|STANDARD_ERROR_OF_MEAN|12.902|||TWO_SIDED|90.0|-34.71|8.64||||||PF-04965842 400 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||8.64|-34.71|
92395622|NCT02201524|184688421|SUPERIORITY_OR_OTHER||LS mean difference|-34.46|STANDARD_ERROR_OF_MEAN|13.69|||TWO_SIDED|90.0|-57.44|-11.48||||||PF-04965842 200 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-11.48|-57.44|
92395623|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-2.01|STANDARD_ERROR_OF_MEAN|1.626|||TWO_SIDED|90.0|-4.73|0.72||||||PF-04965842 200 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||0.72|-4.73|
92395624|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-2.31|STANDARD_ERROR_OF_MEAN|1.603|||TWO_SIDED|90.0|-4.99|0.38||||||PF-04965842 400 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||0.38|-4.99|
92395625|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-3.65|STANDARD_ERROR_OF_MEAN|1.668|||TWO_SIDED|90.0|-6.45|-0.86||||||PF-04965842 200 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-0.86|-6.45|
92395626|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-1.08|STANDARD_ERROR_OF_MEAN|2.032|||TWO_SIDED|90.0|-4.49|2.32||||||PF-04965842 200 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||2.32|-4.49|
92395627|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-3.86|STANDARD_ERROR_OF_MEAN|2.011|||TWO_SIDED|90.0|-7.23|-0.49||||||PF-04965842 400 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-0.49|-7.23|
92395628|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-5.16|STANDARD_ERROR_OF_MEAN|2.084|||TWO_SIDED|90.0|-8.65|-1.67||||||PF-04965842 200 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-1.67|-8.65|
92395629|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-2.34|STANDARD_ERROR_OF_MEAN|2.224|||TWO_SIDED|90.0|-6.07|1.39||||||PF-04965842 200 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||1.39|-6.07|
92395630|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-6.12|STANDARD_ERROR_OF_MEAN|2.177|||TWO_SIDED|90.0|-9.78|-2.47||||||PF-04965842 400 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-2.47|-9.78|
92395631|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-9.39|STANDARD_ERROR_OF_MEAN|2.286|||TWO_SIDED|90.0|-13.22|-5.56||||||PF-04965842 200 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-5.56|-13.22|
92395632|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-3.25|STANDARD_ERROR_OF_MEAN|2.054|||TWO_SIDED|90.0|-6.71|0.21||||||PF-04965842 200 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||0.21|-6.71|
92395633|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-2.98|STANDARD_ERROR_OF_MEAN|2.035|||TWO_SIDED|90.0|-6.4|0.45||||||PF-04965842 400 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||0.45|-6.40|
92423709|NCT01973569|184735698|SUPERIORITY|||||||0.1323|||||||van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.1323
92423710|NCT01973569|184735699|SUPERIORITY|||||||0.0448|||||||van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.0448
92423711|NCT01973569|184735700|SUPERIORITY|||||||0.0104|||||||van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.0104
92423712|NCT01973569|184735701|SUPERIORITY|||||||0.257|||||||van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.2570
92423713|NCT01973569|184735702|SUPERIORITY||Mean Difference (Net)|5.02|||<|0.0001|TWO_SIDED|95.0|4.41|5.63|||Regression, Cox|ANCOVA model adjusting for treatment, baseline (BL) value, machine type, BL value-by-machine type interaction, and BL use of glucocorticoid was used.||||5.63|4.41|<0.0001
92170413|NCT02554786|184229833|SUPERIORITY||LS Mean|0.163|STANDARD_ERROR_OF_MEAN|0.0204|<|0.001|TWO_SIDED|95.0|0.123|0.203|||MMRM|||Day 86: 5 minutes||0.203|0.123|<0.001
92170414|NCT02554786|184229833|SUPERIORITY||LS Mean|0.231|STANDARD_ERROR_OF_MEAN|0.0206|<|0.001|TWO_SIDED|95.0|0.191|0.271|||MMRM|||Day 86: 5 minutes||0.271|0.191|<0.001
92395634|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-8.59|STANDARD_ERROR_OF_MEAN|2.167|||TWO_SIDED|90.0|-12.24|-4.95||||||PF-04965842 200 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-4.95|-12.24|
92395635|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-3.98|STANDARD_ERROR_OF_MEAN|2.321|||TWO_SIDED|90.0|-7.89|-0.08||||||PF-04965842 200 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-0.08|-7.89|
92395636|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-3.8|STANDARD_ERROR_OF_MEAN|2.304|||TWO_SIDED|90.0|-7.68|0.07||||||PF-04965842 400 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||0.07|-7.68|
92236386|NCT03191396|184376567|NON_INFERIORITY|HbA1c non-inferiority was tested using a non-inferiority margin of 0.3.|Treatment difference|-0.69|||<|0.0001|TWO_SIDED|95.0|-0.82|-0.56||The non-inferiority p-value is calculated as two times the one-sided p-value from a t-distributed test statistic comparing the treatment contrast with 0.3.|ANCOVA||Semaglutide 1.0 mg - Liraglutide 1.2 mg|The responses are analysed using an ANCOVA with treatment and stratification factor as fixed factors and baseline value as covariate. Before analysis, missing data were multiple imputed using observed data from subjects within the same group defined by randomised treatment, using a regression model including stratification factor as categorical effect and data from baseline and all previous visits as covariates.||-0.56|-0.82|<0.0001
92395637|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-6.94|STANDARD_ERROR_OF_MEAN|2.412|||TWO_SIDED|90.0|-11.0|-2.89||||||PF-04965842 200 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-2.89|-11.00|
92395638|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-1.27|STANDARD_ERROR_OF_MEAN|2.607|||TWO_SIDED|90.0|-5.65|3.11||||||PF-04965842 200 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||3.11|-5.65|
92395639|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-2.83|STANDARD_ERROR_OF_MEAN|2.586|||TWO_SIDED|90.0|-7.18|1.51||||||PF-04965842 400 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||1.51|-7.18|
92236387|NCT03191396|184376567|SUPERIORITY||Treatment difference|-0.69|||<|0.0001|TWO_SIDED|95.0|-0.82|-0.56|||ANCOVA||Semaglutide 1.0 mg - Liraglutide 1.2 mg|||-0.56|-0.82|<0.0001
92395640|NCT02201524|184688422|SUPERIORITY_OR_OTHER||LS mean difference|-6.52|STANDARD_ERROR_OF_MEAN|2.758|||TWO_SIDED|90.0|-11.15|-1.89||||||PF-04965842 200 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-1.89|-11.15|
92395641|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.5|||||TWO_SIDED|90.0|-21.5|19.6||||||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||19.6|-21.5|
92395642|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|17.9|||||TWO_SIDED|90.0|-5.9|40.3||||||PF-04965842 400 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||40.3|-5.9|
92395643|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|14.3|||||TWO_SIDED|90.0|-9.3|38.0|||Difference in Percentage Analysed using|||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||38.0|-9.3|
92395644|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|-14.3|||||TWO_SIDED|90.0|-38.0|9.3||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||9.3|-38.0|
92395645|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|1.6|||||TWO_SIDED|90.0|-25.4|29.1||||||PF-04965842 400 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||29.1|-25.4|
92395646|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|20.2|||||TWO_SIDED|90.0|-10.2|48.3||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||48.3|-10.2|
92395647|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|1.9|||||TWO_SIDED|90.0|-26.7|31.0||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||31.0|-26.7|
92423714|NCT03423641|184735766|SUPERIORITY||Odds Ratio (OR)|0.81||||0.68|TWO_SIDED|95.0|0.3|2.2|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||2.20|0.30|.68
92423715|NCT03423641|184735767|SUPERIORITY||Odds Ratio (OR)|0.71||||0.01|TWO_SIDED|95.0|0.56|0.91|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||0.91|0.56|0.01
92395648|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|23.6|||||TWO_SIDED|90.0|-6.9|49.8||||||PF-04965842 400 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||49.8|-6.9|
92395649|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|67.8|||||TWO_SIDED|90.0|36.4|85.3||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||85.3|36.4|
92395650|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|41.7|||||TWO_SIDED|90.0|7.6|67.1||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||67.1|7.6|
92395651|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|41.7|||||TWO_SIDED|90.0|7.6|67.1||||||PF-04965842 400 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||67.1|7.6|
92395652|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|55.0|||||TWO_SIDED|90.0|19.7|77.6||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||77.6|19.7|
92395653|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|12.1|||||TWO_SIDED|90.0|-21.4|43.4||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||43.4|-21.4|
92423716|NCT03423641|184735768|SUPERIORITY||Odds Ratio (OR)|0.92||||0.39|TWO_SIDED|95.0|0.75|1.12|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||1.12|0.75|0.39
92423717|NCT03423641|184735769|SUPERIORITY||Odds Ratio (OR)|0.67||||0.01|TWO_SIDED|95.0|0.49|0.9|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||0.90|0.49|0.01
92423718|NCT03423641|184735770|SUPERIORITY||Odds Ratio (OR)|0.42|||<|0.01|TWO_SIDED|95.0|0.3|0.59|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||0.59|0.30|<0.01
92170415|NCT02554786|184229833|SUPERIORITY||LS Mean|0.055|STANDARD_ERROR_OF_MEAN|0.0203||0.007|TWO_SIDED|95.0|0.015|0.095|||MMRM|||Day 86: 5minutes||0.095|0.015|0.007
92236388|NCT03191396|184376568|SUPERIORITY||Treatment difference|-3.83|||<|0.0001|TWO_SIDED|95.0|-4.57|-3.09|||ANCOVA||Semaglutide 1.0 mg - Liraglutide 1.2 mg|||-3.09|-4.57|<0.0001
92423719|NCT03423641|184735771|SUPERIORITY||Odds Ratio (OR)|0.68||||0.12|TWO_SIDED|95.0|0.42|1.1|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||1.10|0.42|0.12
92423720|NCT03423641|184735772|SUPERIORITY||Odds Ratio (OR)|0.61||||0.34|TWO_SIDED|95.0|0.22|1.7|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||1.70|0.22|0.34
92423721|NCT03423641|184735773|SUPERIORITY||Marginal Structural Model|0.61|||<|0.01|TWO_SIDED|95.0|0.49|0.76|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||0.76|0.49|<0.01
92423722|NCT03423641|184735774|SUPERIORITY||Rate Ratio|0.71|||<|0.01|TWO_SIDED|95.0|0.6|0.84|||Poisson Regression||The numerator represents the DAA group while the denominator represents the comparison group for the rate ratio.|||0.84|0.60|<0.01
92423723|NCT03423641|184735775|SUPERIORITY||Rate Ratio|0.82|||<|0.01|TWO_SIDED|95.0|0.77|0.87|||Poisson Regression||The numerator represents the DAA group while the denominator represents the comparison group for the rate ratio.|||0.87|0.77|<0.01
92423724|NCT03423641|184735776|SUPERIORITY||Odds Ratio (OR)|0.47||||0.02|TWO_SIDED|95.0|0.25|0.88|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||0.88|0.25|0.02
92423725|NCT03423641|184735777|SUPERIORITY||Odds Ratio (OR)|0.62||||0.07|TWO_SIDED|95.0|0.37|1.03|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||1.03|0.37|0.07
92423726|NCT03423641|184735778|SUPERIORITY||Odds Ratio (OR)|0.81||||0.11|TWO_SIDED|95.0|0.63|1.05|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||1.05|0.63|0.11
92423727|NCT04540497|184735780|OTHER||Hazard Ratio (HR)|0.13|||||TWO_SIDED|95.0|0.06|0.28|||||Inebilizumab versus placebo|||0.28|0.06|
92423728|NCT04540497|184735787|OTHER||Hazard Ratio (HR)|0.12|||||TWO_SIDED|95.0|0.05|0.26|||||Inebilizumab vs placebo|||0.26|0.05|
92423729|NCT03914326|184735810|SUPERIORITY|Time from randomisation to first EAC-confirmed MACE was analysed using a Cox proportional hazards model with treatment as categorical fixed factor.|Hazard Ratio (HR)|0.86||||0.0028|TWO_SIDED|95.0|0.77|0.96|||Regression, Cox|||||0.96|0.77|0.0028
92395654|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|3.8|||||TWO_SIDED|90.0|-29.4|36.4||||||PF-04965842 400 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||36.4|-29.4|
92395655|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|45.5|||||TWO_SIDED|90.0|17.1|69.0||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||69.0|17.1|
92395656|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|36.4|||||TWO_SIDED|90.0|1.9|63.4||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||63.4|1.9|
92423730|NCT04612790|184735835|OTHER||Difference in percentage of responders|6.7||||0.509|TWO_SIDED|95.0|-10.9|24.29|||Logistic regression model with Firth adj|||Estimates were from a logistic regression model using the Firth adjustment (adj) that included treatment group, baseline disease severity (moderate, severe) and time of BP diagnosis (participants with newly diagnosed BP, participants with a previous diagnosis of BP who have relapsed) as categorical covariates.||24.29|-10.90|0.509
92423731|NCT00785928|184735841|SUPERIORITY_OR_OTHER|||||||0.059||95.0||||This is p-value for the fitted ACR50 response rate and is based on the dose-response regression model and comes from the joint test of linear and quadratic dose response (response=dose+dose\^2) from the likelihood ratio test.|Linear-quadratic regression model|||||||0.059
92423732|NCT00785928|184735841|SUPERIORITY_OR_OTHER||ED95|119.0||||0.042||95.0||||This is the p-value for the estimated dose level of the smallest dose, in milligrams (mg), that achieves at least 95% of the maximal efficacy (ED95) and is based on the comparisons that the ED95 yields a higher fitted response rate than placebo.|Linear-quadratic regression model|This is ED95 in mg.||||||0.042
92423733|NCT00785928|184735842|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||This is the p-value for the fitted ACR20 response rate and is based on the dose-response regression model and comes from the joint test of linear and quadratic dose response (response=dose+dose\^2) from the likelihood ratio test.|Linear-quadratic regression model|||||||0.044
92423734|NCT00785928|184735842|SUPERIORITY_OR_OTHER||ED95|118.5||||0.005||95.0||||This p-value is for estimated dose level of the smallest dose, in milligrams (mg), that achieves at least 95% of the maximal efficacy (ED95) of the ACR20 and is based on the comparisons that the ED95 yields a higher fitted response rate than placebo.|Linear-quadratic regression model|This is the ED95 in mg.||||||0.005
92423735|NCT00785928|184735843|SUPERIORITY_OR_OTHER|||||||0.623||95.0||||Pairwise comparison (2-sided) of 1 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.623
92395657|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|14.5|||||TWO_SIDED|90.0|-21.4|47.0||||||PF-04965842 400 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||47.0|-21.4|
92395658|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|24.5|||||TWO_SIDED|90.0|-11.8|54.9||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||54.9|-11.8|
92236389|NCT01240811|184376608|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||ANOVA|||||||0.80
92236390|NCT01240811|184376608|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||ANOVA|||||||0.97
92236391|NCT01240811|184376609|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|||Difference in paired change in Nugent score from baseline to 2 months||||0.08
92395659|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|-4.5|||||TWO_SIDED|90.0|-40.4|32.3||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||32.3|-40.4|
92395660|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|13.6|||||TWO_SIDED|90.0|-23.7|48.2||||||PF-04965842 400 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||48.2|-23.7|
92395661|NCT02201524|184688423|SUPERIORITY_OR_OTHER||Difference in Percentage|12.5|||||TWO_SIDED|90.0|-28.0|49.3||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||49.3|-28.0|
92395662|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|7.1|||||TWO_SIDED|90.0|-10.2|27.0||||||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||27.0|-10.2|
92395663|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.1|||||TWO_SIDED|90.0|-27.0|10.2||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||10.2|-27.0|
92395664|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|8.2|||||TWO_SIDED|90.0|-14.4|32.2||||||PF-04965842 400 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||32.2|-14.4|
92395665|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|17.9|||||TWO_SIDED|90.0|-6.7|43.6||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||43.6|-6.7|
92395666|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.7|||||TWO_SIDED|90.0|-28.8|12.1||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||12.1|-28.8|
92395667|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|32.3|||||TWO_SIDED|90.0|5.4|55.4||||||PF-04965842 400 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||55.4|5.4|
92395668|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|28.7|||||TWO_SIDED|90.0|0.8|55.3||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||55.3|0.8|
92395669|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|90.0|-27.3|27.3||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||27.3|-27.3|
92395670|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|33.3|||||TWO_SIDED|90.0|1.0|59.8||||||PF-04965842 400 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||59.8|1.0|
92395671|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|43.3|||||TWO_SIDED|90.0|8.8|69.3||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||69.3|8.8|
92395672|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|25.0|||||TWO_SIDED|90.0|2.1|49.3||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||49.3|2.1|
92395673|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|50.0|||||TWO_SIDED|90.0|25.4|71.8||||||PF-04965842 400 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||71.8|25.4|
92395674|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|66.7|||||TWO_SIDED|90.0|39.2|86.1||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||86.1|39.2|
92395675|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|-9.1|||||TWO_SIDED|90.0|-36.3|18.3||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||18.3|-36.3|
92395676|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|41.8|||||TWO_SIDED|90.0|6.2|68.5||||||PF-04965842 400 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||68.5|6.2|
92395677|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|31.8|||||TWO_SIDED|90.0|-2.9|60.5||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||60.5|-2.9|
92395678|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|-15.9|||||TWO_SIDED|90.0|-47.8|13.7||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||13.7|-47.8|
92395679|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|-6.8|||||TWO_SIDED|90.0|-40.6|24.8||||||PF-04965842 400 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||24.8|-40.6|
92395680|NCT02201524|184688424|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|90.0|-36.4|36.4||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||36.4|-36.4|
92395681|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|7.1|||||TWO_SIDED|90.0|-10.2|27.0||||||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||27.0|-10.2|
92395682|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.1|||||TWO_SIDED|90.0|-27.0|10.2||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||10.2|-27.0|
92395683|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|0.5|||||TWO_SIDED|90.0|-20.7|22.8||||||PF-04965842 400 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||22.8|-20.7|
92395684|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|1.2|||||TWO_SIDED|90.0|-20.3|24.8||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||24.8|-20.3|
92395685|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|13.3|||||TWO_SIDED|90.0|-5.6|33.8||||||PF-04965842 400 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||33.8|-5.6|
92395686|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|36.4|||||TWO_SIDED|90.0|15.3|61.1||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||61.1|15.3|
92395687|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|33.3|||||TWO_SIDED|90.0|11.3|57.3||||||PF-04965842 400 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||57.3|11.3|
92395688|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|60.0|||||TWO_SIDED|90.0|34.7|80.9||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||80.9|34.7|
92395689|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|25.0|||||TWO_SIDED|90.0|2.1|49.3||||||PF-04965842 400 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||49.3|2.1|
92395690|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|44.4|||||TWO_SIDED|90.0|19.4|70.2||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||70.2|19.4|
92395691|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|20.0|||||TWO_SIDED|90.0|-2.7|46.6||||||PF-04965842 400 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||46.6|-2.7|
92395692|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|30.0|||||TWO_SIDED|90.0|6.4|56.4||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||56.4|6.4|
92395693|NCT02201524|184688425|SUPERIORITY_OR_OTHER||Difference in Percentage|25.0|||||TWO_SIDED|90.0|-4.9|54.9||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||54.9|-4.9|
92395694|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|13.3|||||TWO_SIDED|90.0|-4.4|33.8||||||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||33.8|-4.4|
92395695|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|12.5|||||TWO_SIDED|90.0|-5.2|32.0||||||PF-04965842 400 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||32.0|-5.2|
92395696|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|7.1|||||TWO_SIDED|90.0|-10.2|27.0||||||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||27.0|-10.2|
92395697|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|21.4|||||TWO_SIDED|90.0|-3.2|45.5||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||45.5|-3.2|
92395698|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|15.9|||||TWO_SIDED|90.0|-8.1|40.7||||||PF-04965842 400 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||40.7|-8.1|
92395699|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|34.5|||||TWO_SIDED|90.0|7.3|59.4||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||59.4|7.3|
92395700|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|17.9|||||TWO_SIDED|90.0|-11.2|45.5||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||45.5|-11.2|
92395701|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|31.3|||||TWO_SIDED|90.0|1.7|55.7||||||PF-04965842 400 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||55.7|1.7|
92395702|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|30.1|||||TWO_SIDED|90.0|-1.2|57.4|||Difference in Percentage Analysed using|||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||57.4|-1.2|
92395703|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|25.0|||||TWO_SIDED|90.0|-6.4|52.5||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||52.5|-6.4|
92395704|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|41.7|||||TWO_SIDED|90.0|8.7|66.7||||||PF-04965842 400 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||66.7|8.7|
92395705|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|53.3|||||TWO_SIDED|90.0|18.5|76.6||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||76.6|18.5|
92395706|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|6.1|||||TWO_SIDED|90.0|-26.1|36.6||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||36.6|-26.1|
92395707|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|14.4|||||TWO_SIDED|90.0|-18.9|44.5||||||PF-04965842 400 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||44.5|-18.9|
92395708|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|50.5|||||TWO_SIDED|90.0|12.9|75.3||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||75.3|12.9|
92395709|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|9.1|||||TWO_SIDED|90.0|-25.2|41.4||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||41.4|-25.2|
92423736|NCT00785928|184735843|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||Pairwise comparison (2-sided) of 3 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.160
92423737|NCT00785928|184735843|SUPERIORITY_OR_OTHER|||||||0.568||95.0||||Pairwise comparison (2-sided) of 10 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.568
92423738|NCT00785928|184735843|SUPERIORITY_OR_OTHER|||||||0.633||95.0||||Pairwise comparison (2-sided) of 30 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.633
92423739|NCT00785928|184735843|SUPERIORITY_OR_OTHER|||||||0.754||95.0||||Pairwise comparison (2-sided) of 60 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.754
92395710|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|3.6|||||TWO_SIDED|90.0|-30.5|37.3||||||PF-04965842 400 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||37.3|-30.5|
92395711|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|13.6|||||TWO_SIDED|90.0|-21.9|46.2||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||46.2|-21.9|
92395712|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|2.3|||||TWO_SIDED|90.0|-33.2|34.6||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||34.6|-33.2|
92395713|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|20.5|||||TWO_SIDED|90.0|-17.6|51.9||||||PF-04965842 400 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||51.9|-17.6|
92395714|NCT02201524|184688426|SUPERIORITY_OR_OTHER||Difference in Percentage|12.5|||||TWO_SIDED|90.0|-26.4|48.1||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||48.1|-26.4|
92395715|NCT00423657|184688441|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% confidence interval (CI) for the observed difference in the primary outcome measure between ceftaroline and vancomycin plus aztreonam was calculated. Noninferiority was concluded if the lower limit of the 95%CI was higher than -10%.|Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-5.8|5.0|||||Risk difference corresponds to Ceftaroline clinical cure rate minus Vancomycin plus Aztreonam clinical cure rate. The confidence interval was calculated using the Miettinen and Nurminen method without adjustment.|The primary objective of this study was to determine the noninferiority in clinical cure rate of ceftaroline in comparison with vancomycin plus aztreonam in adult subjects with cSSSI.||5.0|-5.8|
92395716|NCT03349723|184688510|OTHER||Slope|0.9806|STANDARD_ERROR_OF_MEAN|0.0322|||TWO_SIDED|95.0|0.9155|1.0457|||||Based on the estimate for the slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate.||1.0457|0.9155|
92395717|NCT03349723|184688511|OTHER||Slope|0.9892|STANDARD_ERROR_OF_MEAN|0.0339|||TWO_SIDED|95.0|0.9207|1.0577|||||Based on the estimate for the slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate.||1.0577|0.9207|
92395718|NCT03409796|184688516|OTHER|||||||0.385|||||||t-test, 1 sided|||Gluten 3 gram: Baseline versus Day 15. Change in Vh:Cd follows a normal distribution. A 1-sided paired t-test was used to compare Baseline and follow-up Vh:Cd measures. The normality assumption was checked using the Shapiro-Wilk test. If the data was not normal at alpha=0.05, a 1-sided Wilcoxon signed-rank test was used instead to compare Vh:CdBaseline (B) and Vh:Cd15.||||0.385
92170416|NCT02554786|184229833|SUPERIORITY||LS Mean|0.18|STANDARD_ERROR_OF_MEAN|0.0203|<|0.001|TWO_SIDED|95.0|0.14|0.219|||MMRM|||Day 86: 30 minutes||0.219|0.140|<0.001
92170417|NCT02554786|184229833|SUPERIORITY||LS Mean|0.252|STANDARD_ERROR_OF_MEAN|0.0205|<|0.001|TWO_SIDED|95.0|0.211|0.292|||MMRM|||Day 86: 30 minutes||0.292|0.211|<0.001
92170418|NCT02554786|184229833|SUPERIORITY||LS Mean|0.038|STANDARD_ERROR_OF_MEAN|0.0202||0.057|TWO_SIDED|95.0|-0.001|0.078|||MMRM|||Day 86: 30 minutes||0.078|-0.001|0.057
92170419|NCT02554786|184229833|SUPERIORITY||LS Mean|0.187|STANDARD_ERROR_OF_MEAN|0.0205|<|0.001|TWO_SIDED|95.0|0.147|0.227|||MMRM|||Day 86: 1 hour||0.227|0.147|<0.001
92236392|NCT01240811|184376610|SUPERIORITY|||||||0.46|||||||Kruskal-Wallis|||Change in quantity of H2O2 producing Lactobacilli species by qPCR||||0.46
92423740|NCT00785928|184735843|SUPERIORITY_OR_OTHER|||||||0.289||95.0||||Pairwise comparison (2-sided) of 120 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.289
92423741|NCT00785928|184735844|SUPERIORITY_OR_OTHER|||||||0.671||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.671
92423742|NCT00785928|184735844|SUPERIORITY_OR_OTHER|||||||0.696||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.696
92423743|NCT00785928|184735844|SUPERIORITY_OR_OTHER|||||||0.367||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.367
92423744|NCT00785928|184735844|SUPERIORITY_OR_OTHER|||||||0.645||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.645
92423745|NCT00785928|184735844|SUPERIORITY_OR_OTHER|||||||0.944||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.944
92423746|NCT00785928|184735844|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.133
92423747|NCT00785928|184735845|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||Pairwise comparison (1-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.457
92423748|NCT00785928|184735845|SUPERIORITY_OR_OTHER|||||||0.874||95.0||||Pairwise comparison (1-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.874
92423749|NCT00785928|184735845|SUPERIORITY_OR_OTHER|||||||0.278||95.0||||Pairwise comparison (1-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.278
92423750|NCT00785928|184735845|SUPERIORITY_OR_OTHER|||||||0.357||95.0||||Pairwise comparison (1-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.357
92423751|NCT00785928|184735845|SUPERIORITY_OR_OTHER|||||||0.271||95.0||||Pairwise comparison (1-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.271
92170420|NCT02554786|184229833|SUPERIORITY||LS Mean|0.249|STANDARD_ERROR_OF_MEAN|0.0208|<|0.001|TWO_SIDED|95.0|0.208|0.289|||MMRM|||Day 86: 1 hour||0.289|0.208|<0.001
92170421|NCT02554786|184229833|SUPERIORITY||LS Mean|0.043|STANDARD_ERROR_OF_MEAN|0.0205||0.037|TWO_SIDED|95.0|0.003|0.083|||MMRM|||Day 86: 1hour||0.083|0.003|0.037
92170422|NCT02554786|184229833|SUPERIORITY||LS Mean|0.163|STANDARD_ERROR_OF_MEAN|0.0217|<|0.001|TWO_SIDED|95.0|0.121|0.206|||MMRM|||Day 183: 5 minutes||0.206|0.121|<0.001
92170423|NCT02554786|184229833|SUPERIORITY||LS Mean|0.243|STANDARD_ERROR_OF_MEAN|0.0219|<|0.001|TWO_SIDED|95.0|0.2|0.286|||MMRM|||Day 183: 5 minutes||0.286|0.200|<0.001
92170424|NCT02554786|184229833|SUPERIORITY||LS Mean|0.044|STANDARD_ERROR_OF_MEAN|0.0216||0.041|TWO_SIDED|95.0|0.002|0.087|||MMRM|||Day 183: 5 minutes||0.087|0.002|0.041
92236393|NCT01240811|184376610|SUPERIORITY|||||||0.62|||||||Kruskal-Wallis|||Change in quantity of Garnerella vaginalis species by qPCR||||0.62
92236394|NCT03990766|184376617|SUPERIORITY||Risk Difference (RD)|3.3|||||TWO_SIDED|95.0|-35.6|42.3||||||||42.3|-35.6|
92236395|NCT03990766|184376618|SUPERIORITY||Median Difference (Net)|1.0|||||TWO_SIDED|95.0|-3.0|5.0||||||||5|-3|
92423752|NCT00785928|184735845|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||Pairwise comparison (1-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.048
92423753|NCT00785928|184735846|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||This p-value is from 2-sided comparison of 1 mg LY2127399 versus placebo using Fisher's exact test for the 3 levels of EULAR response (good, moderate, no).|Fisher Exact|||||||0.875
92423754|NCT00785928|184735846|SUPERIORITY_OR_OTHER|||||||1||95.0||||This p-value is from 2-sided comparison of 3 mg LY2127399 versus placebo using Fisher's exact test for the 3 levels of EULAR response (good, moderate, no).|Fisher Exact|||||||1.000
92423755|NCT00785928|184735846|SUPERIORITY_OR_OTHER|||||||1||95.0||||This p-value is from 2-sided comparison of 10 mg LY2127399 versus placebo using Fisher's exact test for the 3 levels of EULAR response (good, moderate, no).|Fisher Exact|||||||1.000
92423756|NCT00785928|184735846|SUPERIORITY_OR_OTHER|||||||0.304||95.0||||This p-value is from a 2-sided comparison of 30 mg LY2127399 versus placebo using a Chi-square test for the 3 levels of EULAR response (good, moderate, no).|Chi-squared|||||||0.304
92423757|NCT00785928|184735846|SUPERIORITY_OR_OTHER|||||||0.489||95.0||||This p-value is from a 2-sided comparison of 60 mg LY2127399 versus placebo using a Chi-square test for the 3 levels of EULAR response (good, moderate, no).|Chi-squared|||||||0.489
92395719|NCT03409796|184688516|OTHER|||||||0.003|||||||t-test, 1 sided|||Gluten 10 gram: Baseline versus Day 15. Change in Vh:Cd follows a normal distribution. A 1-sided paired t-test was used to compare Baseline and follow-up Vh:Cd measures. The normality assumption was checked using the Shapiro-Wilk test. If the data was not normal at alpha=0.05, a 1-sided Wilcoxon signed-rank test was used instead to compare Vh:CdB and Vh:Cd15.||||0.003
92395720|NCT03409796|184688517|OTHER|||||||0.01|||||||Poisson distribution|||Gluten 3 gram: Baseline versus Day 15. The Poisson distribution assumption was checked using Kolmogorov-Smirnov test. Poisson generalized linear mixed models (GLMM) was fitted to data, where IEL measurements were grouped by participant (the random effect) and the change in IEL counts was the fixed effect. If the data was found to not be Poisson at alpha=0.05, a 1-sided Wilcoxon signed-rank test was used instead to compare IELB and IEL15.||||0.010
92395721|NCT03409796|184688517|OTHER|||||||0.006|||||||Poisson distribution|||Gluten 10 gram: Baseline versus Day 15. The Poisson distribution assumption was checked using Kolmogorov-Smirnov test. Poisson GLMM was fitted to data, where IEL measurements were grouped by participant (the random effect) and the change in IEL counts was the fixed effect. If the data was found to not be Poisson at alpha=0.05, a 1-sided Wilcoxon signed-rank test was used instead to compare IELB and IEL15.||||0.006
92395722|NCT00770653|184688520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.267||||0.0018|TWO_SIDED|95.0|1.2264|5.3076|||ANCOVA|||Null hypothesis (H0) = mean increase of HDL after 24 weeks of treatment of Pio/Met group ≤ the mean increase in the Gli/Met group. Alternate hypothesis (H1) = mean increase of HDL after 24 weeks of treatment of Pio/Met group \> the mean increase in the Gli/Met group. The relevant clinical effect size to detect with adequate power was 0.35. With this assumption, a one sided t-test with a type I error rate had 80% power to reject the H0 for the H1 when the sample size was 130 patients per group.||5.3076|1.2264|0.0018
92395723|NCT00770653|184688521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.267||||0.0018|TWO_SIDED|95.0|1.2264|5.3076|||ANCOVA||Deviation from the normal distribution assumption was detected for original and rank-transformed data for all time-points due to p-value of Shapiro-Wilk test, indicating the normal distribution assumption might be distrusted for HDL-cholesterol data.|||5.3076|1.2264|0.0018
92395724|NCT00770653|184688522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1311||||0.1167|TWO_SIDED|95.0|-0.2951|0.0329|||ANCOVA|||||0.0329|-0.2951|0.1167
92395725|NCT00770653|184688523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9479||||0.1012|TWO_SIDED|95.0|-39.4331|3.5373|||ANCOVA|||||3.5373|-39.4331|0.1012
92395726|NCT00770653|184688524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1292||||0.7486|TWO_SIDED|95.0|-17.0109|23.2693|||ANCOVA|||||23.2693|-17.0109|0.7486
92395727|NCT00770653|184688525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2355||||0.9464|TWO_SIDED|95.0|-7.1253|6.6543|||ANCOVA|||||6.6543|-7.1253|0.9464
92395728|NCT00770653|184688526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1574||||0.0807|TWO_SIDED|95.0|-0.0193|0.3341|||ANCOVA|||||0.3341|-0.0193|0.0807
92395729|NCT00770653|184688527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5039|||<|0.0001|TWO_SIDED|95.0|-6.4222|-2.5855|||ANCOVA|||||-2.5855|-6.4222|<.0001
92395730|NCT00770653|184688528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0707||||0.7799|TWO_SIDED|95.0|-6.4665|8.6079|||ANCOVA|||||8.6079|-6.4665|0.7799
92395731|NCT00770653|184688529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3161|||<|0.0001|TWO_SIDED|95.0|5.0994|7.5329|||ANCOVA|||||7.5329|5.0994|<.0001
92395732|NCT00770653|184688530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8323||||0.4131|TWO_SIDED|95.0|-2.8312|1.1665|||ANCOVA|||||1.1665|-2.8312|0.4131
92395733|NCT00770653|184688531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8847|||<|0.0001|TWO_SIDED|95.0|-1.3067|-0.4627|||ANCOVA|||||-0.4627|-1.3067|<.0001
92170425|NCT02554786|184229833|SUPERIORITY||LS Mean|0.176|STANDARD_ERROR_OF_MEAN|0.0222|<|0.001|TWO_SIDED|95.0|0.133|0.22|||MMRM|||Day 183: 30 minutes||0.220|0.133|<0.001
92395734|NCT00770653|184688532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4903||||0.0929|TWO_SIDED|95.0|-5.3979|0.4172|||ANCOVA|||||0.4172|-5.3979|0.0929
92395735|NCT00770653|184688533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8832||||0.3279|TWO_SIDED|95.0|-2.6571|0.8906|||ANCOVA|||||0.8906|-2.6571|0.3279
92395736|NCT00770653|184688534|SUPERIORITY_OR_OTHER||Fisher Exact|-3.33||||0.2895|TWO_SIDED|95.0|-14.83|8.39|||Fisher Exact|||The number and percentage of participants with a calculated compliance \>80% and \<120% are presented for both treatment groups. In addition, the p-values of Fisher's exact test, the two-sided 95% confidence intervals for the percentage of patients per treatment group and for the difference between the treatment groups are provided.||8.39|-14.83|0.2895
92395737|NCT00770653|184688535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.9516||||0.3517|TWO_SIDED|95.0|-94.1999|34.2967|||ANCOVA|||||34.2967|-94.1999|0.3517
92395738|NCT00770653|184688536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-151.4477||||0.1979|TWO_SIDED|95.0|-386.2256|83.3302|||ANCOVA|||||83.3302|-386.2256|0.1979
92395739|NCT00770653|184688537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.8589||||0.7186|TWO_SIDED|95.0|-163.3229|113.6052|||ANCOVA|||||113.6052|-163.3229|0.7186
92395740|NCT00770653|184688538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9728||||0.5058|TWO_SIDED|95.0|-39.9915|20.0459|||ANCOVA|||||20.0459|-39.9915|0.5058
92395741|NCT00770653|184688539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.3988||||0.523|TWO_SIDED|95.0|-60.7193|117.5169|||ANCOVA|||||117.5169|-60.7193|0.5230
92395742|NCT00770653|184688540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-367.2639||||0.2203|TWO_SIDED|95.0|-964.3923|229.8646|||ANCOVA|||||229.8646|-964.3923|0.2203
92395743|NCT00770653|184688541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.0794||||0.585|TWO_SIDED|95.0|-95.6468|151.8057|||ANCOVA|||||151.8057|-95.6468|0.5850
92395744|NCT00770653|184688542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4205||||0.0138|TWO_SIDED|95.0|-4.3207|-0.5202|||ANCOVA|||||-0.5202|-4.3207|0.0138
92395745|NCT00770653|184688543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0009||||0.0817|TWO_SIDED|95.0|-30.1139|1.8578|||ANCOVA|||||1.8578|-30.1139|0.0817
92395746|NCT00770653|184688544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9935||||0.1761|TWO_SIDED|95.0|-0.4843|2.4712|||ANCOVA|||||2.4712|-0.4843|0.1761
92395747|NCT00770653|184688545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5263||||0.0002|TWO_SIDED|95.0|1.3832|3.6695|||ANCOVA|||||3.6695|1.3832|0.0002
92395748|NCT00770653|184688546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2345||||0.0055|TWO_SIDED|95.0|1.0675|5.4016|||ANCOVA|||||5.4016|1.0675|0.0055
92395749|NCT00770653|184688547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9712||||0.0264|TWO_SIDED|95.0|0.3863|5.5562|||ANCOVA|||||5.5562|0.3863|0.0264
92395750|NCT00770653|184688548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5394||||0.0509|TWO_SIDED|95.0|-0.0114|5.0901|||ANCOVA|||||5.0901|-0.0114|0.0509
92423758|NCT00785928|184735846|SUPERIORITY_OR_OTHER|||||||0.091||95.0||||This p-value is from a 2-sided comparison of 120 mg LY2127399 versus placebo using a Chi-square test for the 3 levels of EULAR response (good, moderate, no).|Chi-squared|||||||0.091
92423759|NCT00785928|184735847|SUPERIORITY_OR_OTHER|||||||0.746||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.746
92423760|NCT00785928|184735847|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.393
92395751|NCT00770653|184688549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1718||||0.1013|TWO_SIDED|95.0|-0.466|4.8097|||ANCOVA|||||4.8097|-0.4660|0.1013
92395752|NCT00770653|184688550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1346||||0.1363|TWO_SIDED|95.0|-0.7338|5.0031|||ANCOVA|||||5.0031|-0.7338|0.1363
92395753|NCT00770653|184688551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4181||||0.1165|TWO_SIDED|95.0|-0.6561|5.4922|||ANCOVA|||||5.4922|-0.6561|0.1165
92395754|NCT00683878|184688564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1175||0.0007|TWO_SIDED|95.0|-0.63|-0.17||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||-0.17|-0.63|0.0007
92395755|NCT00683878|184688564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.1175|<|0.0001|TWO_SIDED|95.0|-0.78|-0.31||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||-0.31|-0.78|<0.0001
92395756|NCT00683878|184688565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.0|STANDARD_ERROR_OF_MEAN|9.007|<|0.0001|TWO_SIDED|95.0|-68.7|-33.2||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-33.2|-68.7|<0.0001
92395757|NCT00683878|184688565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-53.3|STANDARD_ERROR_OF_MEAN|9.039|<|0.0001|TWO_SIDED|95.0|-71.1|-35.6||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-35.6|-71.1|<0.0001
92395758|NCT00683878|184688566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|0.3896|<|0.0001|TWO_SIDED|95.0|-2.32|-0.79||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-0.79|-2.32|<0.0001
92395759|NCT00683878|184688566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78|STANDARD_ERROR_OF_MEAN|0.3896|<|0.0001|TWO_SIDED|95.0|-2.55|-1.02||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-1.02|-2.55|<0.0001
92395760|NCT00683878|184688567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5|STANDARD_ERROR_OF_MEAN|4.088|<|0.0001|TWO_SIDED|95.0|-27.5|-11.4||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-11.4|-27.5|<0.0001
92395761|NCT00683878|184688567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.1|STANDARD_ERROR_OF_MEAN|4.082|<|0.0001|TWO_SIDED|95.0|-32.2|-16.1||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-16.1|-32.2|<0.0001
92395762|NCT00683878|184688568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.1|STANDARD_ERROR_OF_MEAN|5.119||0.0496|TWO_SIDED|95.0|0.0|20.1||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|Modified logistic regression|||||20.1|0.0|0.0496
92395763|NCT00683878|184688568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.4|STANDARD_ERROR_OF_MEAN|5.253||0.0018|TWO_SIDED|95.0|6.1|26.7||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|Modified logistic regression|||||26.7|6.1|0.0018
92395764|NCT00683878|184688569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.6006||0.1566|TWO_SIDED|95.0|-2.03|0.33||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||0.33|-2.03|0.1566
92395765|NCT00683878|184688569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|0.5995||0.0101|TWO_SIDED|95.0|-2.73|-0.37||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-0.37|-2.73|0.0101
92395766|NCT00683878|184688570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|0.4838|||TWO_SIDED|95.0|-2.53|-0.62||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. The comparison was stopped due to the preceding test (PLACEBO + Pio vs Dapa 5MG + Pio) not statistically significant P value = 0.1566.|ANCOVA|||||-0.62|-2.53|
92395767|NCT00683878|184688570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.4688|<|0.0001|TWO_SIDED|95.0|-2.83|-0.98||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-0.98|-2.83|<0.0001
92395768|NCT04607668|184688598|OTHER||Mean Difference (Final Values)|-1.2|||<|0.001|TWO_SIDED|95.0|-1.7|-0.6||Two-sided p-value for treatment effect was generated from a nonparametric ANCOVA controlling for stratification factors of Region and Prior chemotherapy with study baseline ANC value as a covariate.|ANCOVA|||||-0.6|-1.7|<0.001
92395769|NCT04607668|184688599|OTHER||aRR|0.04|STANDARD_ERROR_OF_MEAN|0.032|<|0.001|TWO_SIDED|95.0|0.01|0.19|||modified Poisson model|||||0.19|0.01|<0.001
92395770|NCT02210000|184688615|SUPERIORITY||Median Difference (Net)|-0.212||||0.017|TWO_SIDED|95.0|-0.3716|-0.0448||Posterior probability of the treatment difference in response rate at Week 12 being greater than 0%.|Bayesian method|||||-0.0448|-0.3716|0.017
92395771|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.21|||||TWO_SIDED|95.0|-0.2353|0.6553|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Nausea at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.6553|-0.2353|
92395772|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.749|||||TWO_SIDED|95.0|0.2275|1.2705|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Feeling full after meals at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||1.2705|0.2275|
92423761|NCT00785928|184735847|SUPERIORITY_OR_OTHER|||||||0.549||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.549
92395773|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.489|||||TWO_SIDED|95.0|-0.0592|1.0374|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Bloating at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||1.0374|-0.0592|
92395774|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.497|||||TWO_SIDED|95.0|0.0396|0.955|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Not able to finish meal at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9550|0.0396|
92395775|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.3386|0.4395|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Retching at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.4395|-0.3386|
92395776|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|-0.038|||||TWO_SIDED|95.0|-0.3242|0.2492|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Vomiting at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.2492|-0.3242|
92395777|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.475|||||TWO_SIDED|95.0|-0.0483|0.9978|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Stomach visibly larger at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9978|-0.0483|
92395778|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.461|||||TWO_SIDED|95.0|-0.0519|0.9748|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Stomach fullness at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9748|-0.0519|
92395779|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.536|||||TWO_SIDED|95.0|0.0967|0.9745|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Loss of appetite at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9745|0.0967|
92395780|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.196|||||TWO_SIDED|95.0|-0.2746|0.6671|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Upper abdominal pain at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.6671|-0.2746|
92395781|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.314|||||TWO_SIDED|95.0|-0.2013|0.8292|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Upper abdominal discomfort at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.8292|-0.2013|
92395782|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.384|||||TWO_SIDED|95.0|-0.0323|0.7997|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Overall severity of your GP symptoms at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.7997|-0.0323|
92423762|NCT00785928|184735847|SUPERIORITY_OR_OTHER|||||||0.619||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.619
92423763|NCT00785928|184735847|SUPERIORITY_OR_OTHER|||||||0.893||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.893
92423764|NCT00785928|184735847|SUPERIORITY_OR_OTHER|||||||0.066||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.066
92395783|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.068|||||TWO_SIDED|95.0|-0.2366|0.3723|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Nausea/Vomiting Subscale at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.3723|-0.2366|
92395784|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.548|||||TWO_SIDED|95.0|0.1333|0.9628|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Fullness/Early Satiety Subscale at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9628|0.1333|
92236396|NCT03990766|184376619|SUPERIORITY||Median Difference (Net)|-10.0|||||TWO_SIDED|95.0|-15.0|-4.0||||||The within-subject change in QOD-NS scores from baseline and 6 weeks was calculated for each individual patient. Then the median of all the patients' change in score for each cohort was calculated. Because these were within-subject changes in scores, the median difference values for each cohort do not necessarily correspond with simply subtracting the median change in score in the theophylline cohort from the median change in score in the placebo cohort.||-4|-15|
92395785|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.479|||||TWO_SIDED|95.0|-0.0386|0.9966|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Bloating Subscale at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9966|-0.0386|
92395786|NCT02210000|184688616|SUPERIORITY||Mean Difference (Net)|0.356|||||TWO_SIDED|95.0|-0.0049|0.7179|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Total GCSI-DD at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.7179|-0.0049|
92395787|NCT00308139|184688624|NON_INFERIORITY_OR_EQUIVALENCE|The choice of a 0.4% noninferiority margin was resulted from the considerations of expected clinical benefit of BYETTA in this study based on clinical data evaluating exenatide LAR and BYETTA, regulatory guidance, published literature, and statistical considerations.|Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.107||0.0023|TWO_SIDED|95.0|-0.54|-0.12|||ANOVA|Analysis of variance (ANOVA) model includes treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors.||Superiority of exenatide long-acting release (LAR) once weekly to BYETTA if the upper limit of the 2-sided 95% confidence interval (CI) for treatment difference (LAR minus BYETTA) is less than 0; non-inferiority if this upper limit is less than 0.4%. Power:Assuming 20% dropout rate with 246 subjects will complete the study. This sample size would provide 90% power for non-inferiority test with assumption of greater reduction (0.1%) in LAR and a common standard deviation of 1.2%.||-0.12|-0.54|0.0023
92395788|NCT00308139|184688627|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target value of \<7% at Week 30 were compared between treatments using a Cochran-Mantel-Haenszel (CMH) test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving HbA1c target. Power: based on the primary measurement.||||0.0003
92395789|NCT00308139|184688629|SUPERIORITY_OR_OTHER|||||||0.2042|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Analysis: Percentage of subjects achieving HbA1c target value of \<=6.5% at Week 30 were compared between treatments using CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving HbA1c target. Power: based on the primary measurement.||||0.2042
92395790|NCT00308139|184688631|SUPERIORITY_OR_OTHER|||||||0.1513|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target values of \<=6.0% at Week 30 were compared between treatments using CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving HbA1c target. Power: based on the primary measurement.||||0.1513
92395791|NCT00308139|184688633|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|30.08|STANDARD_ERROR_OF_MEAN|11.458||0.0124|TWO_SIDED|95.0|6.88|53.28|||ANCOVA|||Analysis: Change in 2h postprandial glucose from baseline (Day -3) to Week 14 was analyzed using an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the 2h postprandial glucose as a covariate. Null hypothesis: no difference between treatments in change from baseline 2h postprandial glucose.||53.28|6.88|0.0124
92395792|NCT00308139|184688635|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.612||0.8916|TWO_SIDED|95.0|-1.29|1.12|||ANCOVA|||Analysis: Change in body weight from baseline (Day -3) to Week 30 was analyzed using an analysis of covariance (ANCOVA) model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the body weight as a covariate. Null hypothesis: no difference between treatments in change from baseline body weight. Power: based on the primary measurement.||1.12|-1.29|0.8916
92395793|NCT00308139|184688637|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.9|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-24.4|-9.4|||ANCOVA|||Analysis: Change in fasting plasma glucose from baseline (Day -3) to Week 30 was analyzed using an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the fasting plasma glucose as a covariate. Null hypothesis: no difference between treatments in change from baseline fasting plasma glucose. Power: based on the primary measurement.||-9.4|-24.4|<.0001
92423765|NCT00785928|184735848|SUPERIORITY_OR_OTHER|||||||0.583||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.583
92423766|NCT00785928|184735848|SUPERIORITY_OR_OTHER|||||||0.311||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.311
92423767|NCT00785928|184735848|SUPERIORITY_OR_OTHER|||||||0.752||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.752
92423768|NCT00785928|184735848|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.737
92423769|NCT00785928|184735848|SUPERIORITY_OR_OTHER|||||||0.522||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.522
92395794|NCT00308139|184688641|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-8.2|STANDARD_ERROR_OF_MEAN|3.04||0.0077|TWO_SIDED|95.0|-14.1|-2.2|||ANCOVA|||Analysis: Change in total cholesterol from baseline (Day -3) to Week 30 was analyzed using an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the total cholesterol as a covariate. Null hypothesis: no difference between treatments in change from baseline total cholesterol. Power: based on the primary measurement.||-2.2|-14.1|0.0077
92236397|NCT03990766|184376620|SUPERIORITY||Median Difference (Net)|7.0|||||TWO_SIDED|95.0|-2.0|17.0||||||The within-subject change in ODOR scores from baseline and 6 weeks was calculated for each individual patient. Then the median of all the patients' change in score for each cohort was calculated. Because these were within-subject changes in scores, the median difference values for each cohort do not necessarily correspond with simply subtracting the median change in score in the theophylline cohort from the median change in score in the placebo cohort. We confirmed the reported results.||17|-2|
92236398|NCT03726671|184376621|OTHER|||||||0.0247|||||||Repeated measures ANOVA|||Betaine IER||||0.0247
92236399|NCT03726671|184376621|OTHER||||||<|0.0001|||||||Repeated measures ANOVA|||Choline IER||||<0.0001
92395795|NCT00308139|184688643|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.74||0.5613|TWO_SIDED|95.0|-1.0|1.9|||ANCOVA|||Analysis: Change in HDL-C from baseline (Day -3) to Week 30 was analyzed using an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the HDL as a covariate. Null hypothesis: no difference between treatments in change from baseline HDL. Power: based on the primary measurement.||1.9|-1.0|0.5613
92395796|NCT00308139|184688646|SUPERIORITY_OR_OTHER||Geometic Least Squares Mean Ratio|0.95|STANDARD_ERROR_OF_MEAN|0.042||0.2915|TWO_SIDED|95.0|0.87|1.04|||ANCOVA|||Analysis: Triglycerides data were logarithm-transformed and the change at Week 30 to baseline (Day -3), expressed as the ratio, was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the triglycerides as a covariate. Null hypothesis: no difference between treatments in change from baseline triglycerides. Power: based on the primary measurement.||1.04|0.87|0.2915
92395797|NCT04073186|184688725|SUPERIORITY|The superiority of the First wearing Cycle was concluded if the lower confidence limit of leastsquare mean as greater than 32.|Least-square Mean|59.3|STANDARD_ERROR_OF_MEAN|2.37|||TWO_SIDED|95.0|54.6|64.0|||Linear Mixed Model|the Kenward and Roger method was used for the denominator degrees of freedom.||||64.0|54.6|
92395798|NCT04073186|184688726|SUPERIORITY|The superiority of the Test lens was concluded if the upper confidence limit of least-square mean was below the pre-defined threshold 0.10 logMAR.|Least-square Mean|-0.084|STANDARD_ERROR_OF_MEAN|0.0191|||TWO_SIDED|95.0|-0.124|-0.044||Distance (4 Meter)|Linear Mixed Model|The Kenward and Roger Method was used for the demoninator degrees of freedom.||||-0.044|-0.124|
92395799|NCT04073186|184688726|SUPERIORITY|The superiority of the Test lens was concluded if the upper confidence limit of least-square mean was below the pre-defined threshold 0.17 logMAR.|Least-square Mean|-0.028|STANDARD_ERROR_OF_MEAN|0.0191|||TWO_SIDED|95.0|-0.068|0.012|||Linear Mixed Model|The Kenward and Roger Method was used for the demoninator degrees of freedom||Intermediate (64 CM)||0.012|-0.068|
92423770|NCT00785928|184735848|SUPERIORITY_OR_OTHER|||||||0.073||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.073
92423771|NCT00785928|184735849|SUPERIORITY_OR_OTHER|||||||0.969||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.969
92236400|NCT03726671|184376621|OTHER|||||||0.0002|||||||Repeated measures ANOVA|||Phosphatidylcholine IER||||0.0002
92236401|NCT03726671|184376622|OTHER||Odds Ratio (OR)|7.16|||<|0.001|TWO_SIDED|95.0|3.48|14.7|||Fisher Exact|||||14.7|3.48|<0.001
92236402|NCT03726671|184376622|OTHER||Odds Ratio (OR)|4.09||||0.01|TWO_SIDED|95.0|2.06|8.11|||Fisher Exact|||||8.11|2.06|0.01
92236403|NCT03726671|184376622|OTHER||Odds Ratio (OR)|1.75||||0.086|TWO_SIDED|95.0|0.86|3.58|||Fisher Exact|||||3.58|0.86|0.086
92236404|NCT03726671|184376623|OTHER|||||||0.6985|||||||t-test, 2 sided|||Betaine IER||||0.6985
92423772|NCT00785928|184735849|SUPERIORITY_OR_OTHER|||||||0.352||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.352
92236405|NCT03726671|184376623|OTHER|||||||0.035|||||||t-test, 2 sided|||Choline IER||||0.0350
92236406|NCT03726671|184376623|OTHER|||||||0.6864|||||||t-test, 2 sided|||Phosphatidylcholine IER||||0.6864
92236407|NCT03726671|184376624|EQUIVALENCE|There are linear combinations of metabolites that differentiate (non-equivalent) the 25% choline diet from the 100% choline diet.|||||<|0.049|||||||Paired 2-sided t-test||||Supervised OPLSDA was used to determine the variable importance to projections of metabolites/signals that differentiated the 25% and 100% choline diet arms.|||<0.049
92423773|NCT00785928|184735849|SUPERIORITY_OR_OTHER|||||||0.406||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.406
92423774|NCT00785928|184735849|SUPERIORITY_OR_OTHER|||||||0.266||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.266
92423775|NCT00785928|184735849|SUPERIORITY_OR_OTHER|||||||0.708||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.708
92423776|NCT00785928|184735849|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.012
92423777|NCT00785928|184735850|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.880
92236408|NCT03726671|184376625|OTHER|||||||0.9567|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Betaine IER in Pre-Menopausal Females||||0.9567
92236409|NCT03726671|184376625|OTHER|||||||0.0899|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Betaine IER in Post-Menopausal Females||||0.0899
92423778|NCT00785928|184735850|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.575
92395800|NCT04073186|184688726|SUPERIORITY|The superiority of the Test lens was concluded if the upper confidence limit of least-square mean was below the pre-defined threshold 0.17 logMAR|Least-square Means|0.037|STANDARD_ERROR_OF_MEAN|0.0191|||TWO_SIDED|95.0|-0.003|0.077|||Linear Mixed Model|The Kenward and Roger Method was used for the demoninator degrees of freedom||Near (40 CM)||0.077|-0.003|
92395801|NCT04073186|184688727|SUPERIORITY|The superiority of the Test lens at 4-week followup compared to it at 2-week follow-up will beconcluded if the lower confidence limit of leastsquare mean difference is greater than 0.|Least-square Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|2.03|||TWO_SIDED|95.0|-8.1|-0.1|||Linear Mixed Model|the Kenward and Roger method was used for the denominator degrees of freedom.|LSM difference was calculated as Second Wearing Cycle minus First Wearing Cycle|||-0.1|-8.1|
92395802|NCT05757648|184688749|SUPERIORITY|||||||0.005|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.005
92395803|NCT05757648|184688750|SUPERIORITY|||||||0.775|||||||Mixed Models Analysis|||||||0.775
92395804|NCT05757648|184688751|SUPERIORITY|||||||0.682|||||||Mixed Models Analysis|||||||0.682
92395805|NCT00117637|184688780|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.5|TWO_SIDED|95.0|0.61|1.27||The log rank test is stratified by region (western Europe, Eastern Europe, USA) and by Motzer risk category (low, intermediate).|Log Rank|||The study was planned to show a 80% improvement in PFS for the group treated with Sorafenib compared to the group treated with Interferon, with a 80% power and a 2-sided type I error of 5%||1.27|0.61|0.50
92395806|NCT00117637|184688781|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.882||||0.469|TWO_SIDED|95.0|0.628|1.239||The log rank test is stratified by region (western Europe, Eastern Europe, USA) and by Motzer risk category (low, intermediate).|Log Rank|||The study was planned to show a 80% improvement in PFS for the group treated with Sorafenib compared to the group treated with Interferon, with a 80% power and a 2-sided type I error of 5%||1.239|0.628|0.469
92395807|NCT00117637|184688782|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||The Cochran-Mantel-Haenszel statistics was stratified by region and Motzer risk category.|Cochran-Mantel-Haenszel|||||||0.006
92395808|NCT00117637|184688783|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||the Cochran-Mantel-Haenszel statistics was stratified by region and Motzer risk category.|Cochran-Mantel-Haenszel|||||||0.0004
92395809|NCT00117637|184688785|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline) and using the baseline respiratory score as covariate.||||0.022
92395810|NCT00117637|184688787|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline) and using the baseline respiratory score as covariate.||||0.015
92395811|NCT00117637|184688789|SUPERIORITY_OR_OTHER|||||||0.073||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline).||||0.073
92395812|NCT00117637|184688791|SUPERIORITY_OR_OTHER|||||||0.067||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline).||||0.067
92395813|NCT00117637|184688792|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline).||||0.005
92395814|NCT00117637|184688793|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline).||||0.001
92395815|NCT00117637|184688794|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline).||||0.019
92423779|NCT00785928|184735850|SUPERIORITY_OR_OTHER|||||||0.992||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.992
92395816|NCT00117637|184688803|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Log Rank|||||||0.014
92395817|NCT02646826|184688816|SUPERIORITY|||||||0.0017|||||||ANOVA|||||||0.0017
92395818|NCT02646826|184688817|SUPERIORITY||||||<|0.44|||||||ANOVA|||||||<.44
92395819|NCT00097500|184688845|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|||||||0.0001
92395820|NCT00097500|184688846|SUPERIORITY_OR_OTHER|||||||0.4185||95.0|||||ANCOVA|||||||0.4185
92395821|NCT00097500|184688847|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Statistical analysis at week 52.||||<0.0001
92395822|NCT00097500|184688847|SUPERIORITY_OR_OTHER|||||||0.1188||95.0|||||ANCOVA|||Statistical analysis at week 56.||||0.1188
92395823|NCT00097500|184688848|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Statistical analysis at week 52.||||<0.0001
92395824|NCT00097500|184688848|SUPERIORITY_OR_OTHER|||||||0.1996||95.0|||||ANCOVA|||Statistical analysis at week 56.||||0.1996
92395825|NCT00097500|184688849|SUPERIORITY_OR_OTHER|||||||0.5522||95.0|||||ANCOVA|||||||0.5522
92395826|NCT00097500|184688850|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92395827|NCT00097500|184688852|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92395828|NCT00119847|184688859|SUPERIORITY||Mean Difference (Net)|-0.04||||0.34|TWO_SIDED|95.0|-0.12|0.04||p\<0.05 required for statistical significance|t-test, 2 sided|||The planned sample size of 300 subjects was chosen to provide 80% power to detect a clinically relevant difference of 0.1 in the change in α1 from baseline to 1 year between the 2 treatment groups on the basis of data from prior studies that indicated that baseline levels of α1 would be 1.0 with a common SD of 0.2.||0.04|-0.12|0.34
92236410|NCT03726671|184376625|OTHER|||||||0.9003|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Betaine IER in Males||||0.9003
92170426|NCT02554786|184229833|SUPERIORITY||LS Mean|0.259|STANDARD_ERROR_OF_MEAN|0.0224|<|0.001|TWO_SIDED|95.0|0.215|0.303|||MMRM|||Day 183: 30 minutes||0.303|0.215|<0.001
92236411|NCT03726671|184376625|OTHER|||||||0.9932|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Choline IER in Pre-Menopausal Females||||0.9932
92236412|NCT03726671|184376625|OTHER|||||||0.3984|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Choline IER in Post-Menopausal Females||||0.3984
92170427|NCT02554786|184229833|SUPERIORITY||LS Mean|0.04|STANDARD_ERROR_OF_MEAN|0.0221||0.071|TWO_SIDED|95.0|-0.003|0.083|||MMRM|||Day 183: 30 minutes||0.083|-0.003|0.071
92170428|NCT02554786|184229833|SUPERIORITY||LS Mean|0.18|STANDARD_ERROR_OF_MEAN|0.0219|<|0.001|TWO_SIDED|95.0|0.137|0.223|||MMRM|||Day 183: 1 hour||0.223|0.137|<0.001
92236413|NCT03726671|184376625|OTHER|||||||0.308|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Choline IER in Males||||0.3080
92236414|NCT03726671|184376625|OTHER|||||||0.7603|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Phosphatidylcholine IER in Pre-Menopausal Females||||0.7603
92170429|NCT02554786|184229833|SUPERIORITY||LS Mean|0.259|STANDARD_ERROR_OF_MEAN|0.0222|<|0.001|TWO_SIDED|95.0|0.215|0.302|||MMRM|||Day 183: 1 hour||0.302|0.215|<0.001
92170430|NCT02554786|184229833|SUPERIORITY||LS Mean|0.039|STANDARD_ERROR_OF_MEAN|0.0218||0.071|TWO_SIDED|95.0|-0.003|0.082|||MMRM|||Day 183: 1 hour||0.082|-0.003|0.071
92170431|NCT02554786|184229833|SUPERIORITY||LS Mean|0.139|STANDARD_ERROR_OF_MEAN|0.0229|<|0.001|TWO_SIDED|95.0|0.094|0.184|||MMRM|||Day 364: 5 minutes||0.184|0.094|<0.001
92170432|NCT02554786|184229833|SUPERIORITY||LS Mean|0.249|STANDARD_ERROR_OF_MEAN|0.0228|<|0.001|TWO_SIDED|95.0|0.205|0.294|||MMRM|||Day 364: 5 minutes||0.294|0.205|<0.001
92170433|NCT02554786|184229833|SUPERIORITY||LS Mean|0.026|STANDARD_ERROR_OF_MEAN|0.0227||0.244|TWO_SIDED|95.0|-0.018|0.071|||MMRM|||Day 364: 5 minutes||0.071|-0.018|0.244
92236415|NCT03726671|184376625|OTHER|||||||0.2995|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Phosphatidylcholine IER in Post-Menopausal Females||||0.2995
92236416|NCT03726671|184376625|OTHER|||||||0.0003|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Phosphatidylcholine IER in Males||||0.0003
92236417|NCT03726671|184376625|OTHER|||||||0.1303|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Betaine IER in Pre-Menopausal Females||||0.1303
92236418|NCT03726671|184376625|OTHER|||||||0.0015|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Betaine IER in Post-Menopausal Females||||0.0015
92395829|NCT00119847|184688860|SUPERIORITY||Mean Difference (Net)|3.0||||0.45|TWO_SIDED|95.0|-4.8|10.7||p\<0.01 required for statistical significance|t-test, 2 sided|||||10.7|-4.8|0.45
92395830|NCT00119847|184688861|SUPERIORITY||Mean Difference (Net)|2.2||||0.23|TWO_SIDED|95.0|-1.4|5.9||p\<0.01 required for statistical significance|t-test, 2 sided|||||5.9|-1.4|0.23
92395831|NCT00647296|184688943|SUPERIORITY||Slope|-0.606|STANDARD_ERROR_OF_MEAN|0.408||0.1385|TWO_SIDED|95.0|-1.41|0.19|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents better outcome.|||0.19|-1.41|0.1385
92395832|NCT00647296|184688943|SUPERIORITY||Slope|0.113|STANDARD_ERROR_OF_MEAN|0.39||0.7718|TWO_SIDED|95.0|-0.65|0.88|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents better outcome.|||0.88|-0.65|0.7718
92395833|NCT00647296|184688943|SUPERIORITY||Slope|0.401|STANDARD_ERROR_OF_MEAN|0.397||0.3146|TWO_SIDED|95.0|-0.38|1.18|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents better outcome.|||1.18|-0.38|0.3146
92395834|NCT00647296|184688944|SUPERIORITY||Slope|0.395|STANDARD_ERROR_OF_MEAN|1.536||0.7973|TWO_SIDED|95.0|-2.61|3.4|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents a better outcome.|||3.40|-2.61|0.7973
92395835|NCT00647296|184688944|SUPERIORITY||Slope|2.009|STANDARD_ERROR_OF_MEAN|1.47||0.1732|TWO_SIDED|95.0|-0.87|4.89|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents better outcome.|||4.89|-0.87|0.1732
92395836|NCT00647296|184688944|SUPERIORITY||Slope|0.451|STANDARD_ERROR_OF_MEAN|1.497||0.7635|TWO_SIDED|95.0|-2.48|3.39|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents a better outcome.|||3.39|-2.48|0.7635
92395837|NCT00647296|184688955|SUPERIORITY||Slope|0.263|STANDARD_ERROR_OF_MEAN|0.19||0.1772|TWO_SIDED|95.0|-0.12|0.64|||Mixed Models Analysis||50 mg/day minus 150 mg/day arm, negative direction represents worse outcome.|||0.64|-0.12|0.1772
92395838|NCT00647296|184688956|SUPERIORITY||Slope|-0.615|STANDARD_ERROR_OF_MEAN|0.73||0.4025|TWO_SIDED|95.0|-2.06|0.83|||Mixed Models Analysis||50 mg/day minus 300 mg/day treatment arm, negative direction represents worse outcome.|||0.83|-2.06|0.4025
92395839|NCT01300234|184688957|SUPERIORITY_OR_OTHER||percentage of participants|58.5|||<|0.0001|TWO_SIDED|97.5|45.8|71.3||HBeAg-positive participants|Roche COBAS Taqman HBV test||"A non-completers equal failures approach is used for the primary analysis. The estimated value represents the difference between the percentage of participants achieving HBV DNA \<400 copies/mL at Week 48 in the TDF group and the ADV group."|||71.3|45.8|<0.0001
92395840|NCT01300234|184688957|SUPERIORITY_OR_OTHER||percentage of participants|25.6|||<|0.0001|TWO_SIDED|97.5|16.7|34.3||HBeAg-negative participants|Roche COBAS Taqman HBV test||"A non-completers equal failures approach was used for the primary analysis. The estimated value represents the difference between the percentage of participants achieving HBV DNA \<400 copies/mL at Week 48 in the TDF group and the ADV group."|||34.3|16.7|<0.0001
92395841|NCT04879628|184689012|SUPERIORITY||Rate ratio|0.21|||||TWO_SIDED|95.0|0.08|0.56||||||Negative binomial regression model adjusting for the categorical baseline GdE T1 lesion count (presence/absence) as covariate, treatment as factor, with offset equal to the log of the duration (in months) between the Week 12 MRI and previous MRI at Week 8.||0.56|0.08|
92395842|NCT04879628|184689012|SUPERIORITY||Rate ratio|0.11|||||TWO_SIDED|95.0|0.03|0.38||||||Negative binomial regression model adjusting for the categorical baseline GdE T1 lesion count (presence/absence) as covariate, treatment as factor, with offset equal to the log of the duration (in months) between the Week 12 MRI and previous MRI at Week 8.||0.38|0.03|
92395843|NCT00871871|184689039|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.1||||0.067|TWO_SIDED|90.0|-0.22|0.01||one-sided, alpha = 0.05|ANCOVA|||||0.01|-0.22|0.067
92395844|NCT00871871|184689040|SUPERIORITY_OR_OTHER||Least squares mean difference|1.1|||>|0.5|TWO_SIDED|90.0|0.86|1.34|||ANCOVA|||||1.34|0.86|>0.500
92395845|NCT00871871|184689041|SUPERIORITY_OR_OTHER||Least squares mean difference|0.016||||0.13|TWO_SIDED|90.0|-0.012|0.044||one-sided, alpha = 0.05|ANOVA|||||0.044|-0.012|0.130
92395846|NCT00871871|184689042|SUPERIORITY_OR_OTHER||Least squares mean difference|0.54|||>|0.5|TWO_SIDED|90.0|0.4|0.67|||ANCOVA|||||0.67|0.40|>0.500
92395847|NCT00871871|184689043|SUPERIORITY_OR_OTHER||Least squares mean difference|0.004||||0.342|TWO_SIDED|90.0|-0.023|0.014||one-sided, alpha = 0.05|ANOVA|||||0.014|-0.023|0.342
92395848|NCT00871871|184689044|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0016|||>|0.5|TWO_SIDED|90.0|-0.008|0.011|||ANOVA|||||0.011|-0.008|>0.500
92395849|NCT00871871|184689045|SUPERIORITY_OR_OTHER||Least squares mean difference|0.003|||>|0.5|TWO_SIDED|90.0|-0.003|0.01|||ANOVA|||||0.010|-0.003|>0.500
92395850|NCT04612725|184689046|SUPERIORITY||LS mean difference|-1.01||||0.3824|TWO_SIDED|95.0|-3.28|1.26||Change from baseline in ISS7 at Week 12= Treatment + baseline ISS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.26|-3.28|0.3824
92170434|NCT02554786|184229833|SUPERIORITY||LS Mean|0.155|STANDARD_ERROR_OF_MEAN|0.0228|<|0.001|TWO_SIDED|95.0|0.11|0.2|||MMRM|||Day 364: 30 minutes||0.200|0.110|<0.001
92236419|NCT03726671|184376625|OTHER|||||||0.4185|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Betaine IER in Males||||0.4185
92170435|NCT02554786|184229833|SUPERIORITY||LS Mean|0.264|STANDARD_ERROR_OF_MEAN|0.0227|<|0.001|TWO_SIDED|95.0|0.219|0.308|||MMRM|||Day 364: 30 minutes||0.308|0.219|<0.001
92236420|NCT03726671|184376625|OTHER|||||||0.3464|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Choline IER in Pre-Menopausal Females||||0.3464
92423780|NCT00785928|184735850|SUPERIORITY_OR_OTHER|||||||0.646||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.646
92423781|NCT00785928|184735850|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.054
92423782|NCT00785928|184735850|SUPERIORITY_OR_OTHER|||||||0.472||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.472
92423783|NCT00785928|184735851|SUPERIORITY_OR_OTHER|||||||0.952||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.952
92423784|NCT00785928|184735851|SUPERIORITY_OR_OTHER|||||||0.085||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.085
92423785|NCT00785928|184735851|SUPERIORITY_OR_OTHER|||||||0.143||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.143
92423786|NCT00785928|184735851|SUPERIORITY_OR_OTHER|||||||0.242||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.242
92423787|NCT00785928|184735851|SUPERIORITY_OR_OTHER|||||||0.317||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.317
92423788|NCT00785928|184735851|SUPERIORITY_OR_OTHER|||||||0.456||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.456
92423789|NCT00785928|184735852|SUPERIORITY_OR_OTHER|||||||0.833||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.833
92170436|NCT02554786|184229833|SUPERIORITY||LS Mean|0.032|STANDARD_ERROR_OF_MEAN|0.0226||0.162|TWO_SIDED|95.0|-0.013|0.076|||MMRM|||Day 364: 30 minutes||0.076|-0.013|0.162
92423790|NCT00785928|184735852|SUPERIORITY_OR_OTHER|||||||0.826||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.826
92423791|NCT00785928|184735852|SUPERIORITY_OR_OTHER|||||||0.091||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.091
92423792|NCT00785928|184735852|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.127
92423793|NCT00785928|184735852|SUPERIORITY_OR_OTHER|||||||0.243||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.243
92423794|NCT00785928|184735852|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.037
92423795|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.562||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.562
92423796|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.539||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.539
92170437|NCT02554786|184229833|SUPERIORITY||LS Mean|0.163|STANDARD_ERROR_OF_MEAN|0.0234|<|0.001|TWO_SIDED|95.0|0.117|0.209|||MMRM|||Day 364: 1 hour||0.209|0.117|<0.001
92170438|NCT02554786|184229833|SUPERIORITY||LS Mean|0.262|STANDARD_ERROR_OF_MEAN|0.0232|<|0.001|TWO_SIDED|95.0|0.216|0.308|||MMRM|||Day 364: 1 hour||0.308|0.216|<0.001
92170439|NCT02554786|184229833|SUPERIORITY||LS Mean|0.031|STANDARD_ERROR_OF_MEAN|0.0231||0.182|TWO_SIDED|95.0|-0.014|0.076|||MMRM|||Day 364: 1 hour||0.076|-0.014|0.182
92236421|NCT03726671|184376625|OTHER|||||||0.0019|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Choline IER in Post-Menopausal Females||||0.0019
92236422|NCT03726671|184376625|OTHER|||||||0.2091|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Choline IER in Males||||0.2091
92423797|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.304||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.304
92423798|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.832||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.832
92423799|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.010
92423800|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.980
92170440|NCT02554786|184229834|SUPERIORITY||LS Mean|0.086|STANDARD_ERROR_OF_MEAN|0.0237|<|0.001|TWO_SIDED|95.0|0.04|0.133|||MMRM|||Day 2||0.133|0.040|<0.001
92236423|NCT03726671|184376625|OTHER|||||||0.8141|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Phosphatidylcholine IER in Pre-Menopausal Females||||0.8141
92395851|NCT04612725|184689046|SUPERIORITY||LS mean difference|-1.79||||0.1244|TWO_SIDED|95.0|-4.09|0.5||Change from baseline in ISS7 at Week 12= Treatment + baseline ISS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.50|-4.09|0.1244
92395852|NCT04612725|184689047|SUPERIORITY||LS mean difference|-2.07||||0.4016|TWO_SIDED|95.0|-6.95|2.8||Change from baseline in UAS7 at Week 12= Treatment + baseline UAS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||2.80|-6.95|0.4016
92395853|NCT04612725|184689047|SUPERIORITY||LS mean difference|-4.36||||0.0819|TWO_SIDED|95.0|-9.28|0.56||Change from baseline in UAS7 at Week 12= Treatment + baseline UAS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.56|-9.28|0.0819
92395854|NCT04612725|184689047|SUPERIORITY||LS mean difference|-2.56||||0.3314|TWO_SIDED|95.0|-7.74|2.63||Change from baseline in UAS7 at Week 24= Treatment + baseline UAS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||2.63|-7.74|0.3314
92395855|NCT04612725|184689047|SUPERIORITY||LS mean difference|-3.74||||0.1582|TWO_SIDED|95.0|-8.95|1.47||Change from baseline in UAS7 at Week 24= Treatment + baseline UAS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.47|-8.95|0.1582
92395856|NCT04612725|184689048|SUPERIORITY||LS mean difference|-1.62||||0.1995|TWO_SIDED|95.0|-4.1|0.86||Change from baseline in ISS7 at Week 24= Treatment + baseline ISS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.86|-4.10|0.1995
92395857|NCT04612725|184689048|SUPERIORITY||LS mean difference|-1.76||||0.1654|TWO_SIDED|95.0|-4.25|0.73||Change from baseline in ISS7 at Week 24= Treatment + baseline ISS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.73|-4.25|0.1654
92395858|NCT04612725|184689049|SUPERIORITY||percentage difference|11.72||||0.1373|TWO_SIDED|95.0|-2.37|25.82||Week 12: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||25.82|-2.37|0.1373
92395859|NCT04612725|184689049|SUPERIORITY||percentage difference|10.73||||0.1697|TWO_SIDED|95.0|-3.42|24.88||Week 12: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||24.88|-3.42|0.1697
92395860|NCT04612725|184689049|SUPERIORITY||percentage difference|1.03||||0.9105|TWO_SIDED|95.0|-16.9|18.96||Week 24: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||18.96|-16.90|0.9105
92395861|NCT04612725|184689049|SUPERIORITY||percentage difference|9.27||||0.3389|TWO_SIDED|95.0|-9.37|27.9||Week 24: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||27.90|-9.37|0.3389
92395862|NCT04612725|184689050|SUPERIORITY||LS mean difference|-1.16||||0.4203|TWO_SIDED|95.0|-4.0|1.68||Change from baseline in HSS7 at Week 12= Treatment + baseline HSS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.68|-4.00|0.4203
92423801|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.569||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.569
92423802|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.953||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.953
92423803|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.647||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.647
92170441|NCT02554786|184229834|SUPERIORITY||LS Mean|0.139|STANDARD_ERROR_OF_MEAN|0.0235|<|0.001|TWO_SIDED|95.0|0.093|0.185|||MMRM|||Day 2||0.185|0.093|<0.001
92170442|NCT02554786|184229834|SUPERIORITY||LS Mean|-0.002|STANDARD_ERROR_OF_MEAN|0.0237||0.927|TWO_SIDED|95.0|-0.049|0.044|||MMRM|||Day 2||0.044|-0.049|0.927
92236424|NCT03726671|184376625|OTHER|||||||0.0187|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Phosphatidylcholine IER in Post-Menopausal Females||||0.0187
92170443|NCT02554786|184229834|SUPERIORITY||LS Mean|0.05|STANDARD_ERROR_OF_MEAN|0.0246||0.044|TWO_SIDED|95.0|0.001|0.098|||MMRM|||Day 184||0.098|0.001|0.044
92170444|NCT02554786|184229834|SUPERIORITY||LS Mean|0.141|STANDARD_ERROR_OF_MEAN|0.0246|<|0.001|TWO_SIDED|95.0|0.093|0.19|||MMRM|||Day 184||0.190|0.093|<0.001
92236425|NCT03726671|184376625|OTHER|||||||0.0107|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Phosphatidylcholine IER in Males||||0.0107
92170445|NCT02554786|184229834|SUPERIORITY||LS Mean|0.017|STANDARD_ERROR_OF_MEAN|0.0244||0.49|TWO_SIDED|95.0|-0.031|0.065|||MMRM|||Day 184||0.065|-0.031|0.490
92170446|NCT02554786|184229834|SUPERIORITY||LS Mean|0.076|STANDARD_ERROR_OF_MEAN|0.0249||0.002|TWO_SIDED|95.0|0.027|0.125|||MMRM|||Day 365||0.125|0.027|0.002
92170447|NCT02554786|184229834|SUPERIORITY||LS Mean|0.146|STANDARD_ERROR_OF_MEAN|0.0248|<|0.001|TWO_SIDED|95.0|0.098|0.195|||MMRM|||Day 365||0.195|0.098|<0.001
92170448|NCT02554786|184229834|SUPERIORITY||LS Mean|0.036|STANDARD_ERROR_OF_MEAN|0.0248||0.143|TWO_SIDED|95.0|-0.012|0.085|||MMRM|||Day 365||0.085|-0.012|0.143
92170449|NCT02554786|184229835|SUPERIORITY||LS Mean|0.189|STANDARD_ERROR_OF_MEAN|0.0253|<|0.001|TWO_SIDED|95.0|0.139|0.238|||MMRM|||Day 2||0.238|0.139|<0.001
92170450|NCT02554786|184229835|SUPERIORITY||LS Mean|0.21|STANDARD_ERROR_OF_MEAN|0.025|<|0.001|TWO_SIDED|95.0|0.161|0.259|||MMRM|||Day 2||0.259|0.161|<0.001
92236426|NCT03726671|184376626|OTHER|||||||0.0842|||||||Mixed Models Analysis|||||||0.0842
92170451|NCT02554786|184229835|SUPERIORITY||LS Mean|-0.018|STANDARD_ERROR_OF_MEAN|0.0252||0.475|TWO_SIDED|95.0|-0.067|0.031|||MMRM|||Day 2||0.031|-0.067|0.475
92170452|NCT02554786|184229835|SUPERIORITY||LS Mean|0.228|STANDARD_ERROR_OF_MEAN|0.0345|<|0.001|TWO_SIDED|95.0|0.161|0.296|||MMRM|||Day 184||0.296|0.161|<0.001
92236427|NCT03726671|184376626|OTHER|||||||0.0819|||||||Wilcoxon (Mann-Whitney)|Non-parametric method was used due to data deviation from normality.||||||0.0819
92236428|NCT03726671|184376626|OTHER|||||||0.9015|||||||t-test, 2 sided|||||||0.9015
92395863|NCT04612725|184689050|SUPERIORITY||LS mean difference|-2.6||||0.0754|TWO_SIDED|95.0|-5.46|0.27||Change from baseline in HSS7 at Week 12= Treatment + baseline HSS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.27|-5.46|0.0754
92395864|NCT04612725|184689050|SUPERIORITY||LS mean difference|-1.06||||0.4772|TWO_SIDED|95.0|-4.01|1.89||Change from baseline in HSS7 at Week 24= Treatment + baseline HSS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.89|-4.01|0.4772
92395865|NCT04612725|184689050|SUPERIORITY||LS mean difference|-2.0||||0.1851|TWO_SIDED|95.0|-4.96|0.97||Change from baseline in HSS7 at Week 24= Treatment + baseline HSS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.97|-4.96|0.1851
92395866|NCT04612725|184689052|SUPERIORITY|||||||0.9678||||||Week 12: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||||0.9678
92395867|NCT04612725|184689052|SUPERIORITY|||||||0.3689||||||Week 12: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||||0.3689
92395868|NCT04612725|184689052|SUPERIORITY||percentage difference|-3.43||||0.6624|TWO_SIDED|95.0|-18.96|12.11||Week 24: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||12.11|-18.96|0.6624
92395869|NCT04612725|184689052|SUPERIORITY||percentage difference|0.28||||0.9726|TWO_SIDED|95.0|-15.84|16.4||Week 24: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||16.40|-15.84|0.9726
92395870|NCT04612725|184689054|SUPERIORITY||LS mean difference|-0.29||||0.7256|TWO_SIDED|95.0|-1.9|1.32||Change from baseline in UCT at Week 12= Treatment + baseline UCT + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.32|-1.90|0.7256
92395871|NCT04612725|184689054|SUPERIORITY||LS mean difference|1.09||||0.189|TWO_SIDED|95.0|-0.54|2.72||Change from baseline in UCT at Week 12= Treatment + baseline UCT + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||2.72|-0.54|0.1890
92395872|NCT04612725|184689054|SUPERIORITY||LS mean difference|-0.63||||0.5048|TWO_SIDED|95.0|-2.51|1.24||Change from baseline in UCT at Week 24= Treatment + baseline UCT + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.24|-2.51|0.5048
92395873|NCT04612725|184689054|SUPERIORITY||LS mean difference|0.99||||0.2991|TWO_SIDED|95.0|-0.89|2.88||Change from baseline in UCT at Week 24= Treatment + baseline UCT + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||2.88|-0.89|0.2991
92395874|NCT04612725|184689055|SUPERIORITY||LS mean difference|1.63||||0.5704|TWO_SIDED|95.0|-4.05|7.32||Change from baseline in CU-Q2oL at Week 12= Treatment + baseline CU-Q2oL + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||7.32|-4.05|0.5704
92395875|NCT04612725|184689055|SUPERIORITY||LS mean difference|-2.24||||0.4416|TWO_SIDED|95.0|-7.98|3.5||Change from baseline in CU-Q2oL at Week 12= Treatment + baseline CU-Q2oL + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||3.50|-7.98|0.4416
92395876|NCT04612725|184689055|SUPERIORITY||LS mean difference|1.47||||0.6591|TWO_SIDED|95.0|-5.09|8.02||Change from baseline in CU-Q2oL at Week 24= Treatment + baseline CU-Q2oL + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||8.02|-5.09|0.6591
92395877|NCT04612725|184689055|SUPERIORITY||LS mean difference|-3.04||||0.3624|TWO_SIDED|95.0|-9.62|3.54||Change from baseline in CU-Q2oL at Week 24= Treatment + baseline CU-Q2oL + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||3.54|-9.62|0.3624
92395878|NCT04612725|184689056|SUPERIORITY||LS mean difference|0.48||||0.7037|TWO_SIDED|95.0|-2.02|2.98||Change from baseline in DLQI at Week 12= Treatment + baseline DLQI + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||2.98|-2.02|0.7037
92236429|NCT03726671|184376626|OTHER|||||||0.1191|||||||Wilcoxon (Mann-Whitney)|Non-parametric method was used due to data deviation from normality.||||||0.1191
92170453|NCT02554786|184229835|SUPERIORITY||LS Mean|0.265|STANDARD_ERROR_OF_MEAN|0.0346|<|0.001|TWO_SIDED|95.0|0.197|0.333|||MMRM|||Day 184||0.333|0.197|<0.001
92170454|NCT02554786|184229835|SUPERIORITY||LS Mean|0.083|STANDARD_ERROR_OF_MEAN|0.0343||0.015|TWO_SIDED|95.0|0.016|0.151|||MMRM|||Day 184||0.151|0.016|0.015
92236430|NCT03726671|184376627|OTHER|||||||0.2351|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. betaine IER||||0.2351
92236431|NCT03726671|184376627|OTHER|||||||0.4501|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Phosphatidylcholine IER||||0.4501
92395879|NCT04612725|184689056|SUPERIORITY||LS mean difference|-1.25||||0.332|TWO_SIDED|95.0|-3.78|1.29||Change from baseline in DLQI at Week 12= Treatment + baseline DLQI + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.29|-3.78|0.3320
92395880|NCT04612725|184689056|SUPERIORITY||LS mean difference|1.24||||0.359|TWO_SIDED|95.0|-1.42|3.9||Change from baseline in DLQI at Week 24= Treatment + baseline DLQI + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||3.90|-1.42|0.3590
92395881|NCT04612725|184689056|SUPERIORITY||LS mean difference|-0.88||||0.5175|TWO_SIDED|95.0|-3.56|1.8||Change from baseline in DLQI at Week 24= Treatment + baseline DLQI + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.80|-3.56|0.5175
92395882|NCT03863509|184689059|OTHER|||||||0.494|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 384) = 0.707, p = .494||||||.494
92395883|NCT03863509|184689060|OTHER|||||||0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference F(2, 381) = 7.409, p = .001||||||0.001
92395884|NCT03863509|184689060|OTHER||Mean Difference (Final Values)|-0.42||||0.822|TWO_SIDED|95.0|-4.08|3.24|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race/ethnicity were covaried.||these are pairwise follow-up tests probing a larger omnibus group difference involving three groups.||3.240|-4.080|0.822
92395885|NCT03863509|184689060|OTHER||Mean Difference (Final Values)|7.267||||0.001|TWO_SIDED|95.0|2.974|11.559|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||these are pairwise follow-up tests probing a larger omnibus group difference involving three groups.||11.559|2.974|0.001
92170455|NCT02554786|184229835|SUPERIORITY||LS Mean|0.215|STANDARD_ERROR_OF_MEAN|0.0358|<|0.001|TWO_SIDED|95.0|0.145|0.285|||MMRM|||Day 365||0.285|0.145|<0.001
92395886|NCT03863509|184689060|OTHER||Mean Difference (Final Values)|7.687|||<|0.001|TWO_SIDED|95.0|3.485|11.889|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||These are pairwise follow-up tests probing a larger omnibus group difference involving three groups.||11.889|3.485|<0.001
92395887|NCT03863509|184689061|OTHER|||||||0.074||||||Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 386) = 2.616, p = .074|ANCOVA|||||||.074
92395888|NCT03863509|184689062|OTHER||Type III F-test of Fixed Group x Time ef|6.609||||0.002|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Omnibus Group x Time (pre-post) interaction test: F (2, 378.467) = 6.609, p = .002. Age, race, and sex were covaried.|F (2, 378.467) = 6.609, p = .002|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||.002
92170456|NCT02554786|184229835|SUPERIORITY||LS Mean|0.246|STANDARD_ERROR_OF_MEAN|0.0357|<|0.001|TWO_SIDED|95.0|0.176|0.316|||MMRM|||Day 365||0.316|0.176|<0.001
92170457|NCT02554786|184229835|SUPERIORITY||LS Mean|0.053|STANDARD_ERROR_OF_MEAN|0.0356||0.139|TWO_SIDED|95.0|-0.017|0.122|||MMRM|||Day 365||0.122|-0.017|0.139
92170458|NCT02554786|184229836|SUPERIORITY||LS Mean|29.6|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|23.8|35.4|||Linear Mixed Model (LMM)|||Week 26: Mean morning PEF||35.4|23.8|<0.001
92170459|NCT02554786|184229836|SUPERIORITY||LS Mean|32.2|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|26.4|38.1|||LMM|||Week 26: Mean morning PEF||38.1|26.4|<0.001
92236432|NCT03726671|184376627|OTHER|||||||0.4136|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Choline IER||||0.4136
92236433|NCT03726671|184376627|OTHER|||||||0.9463|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Betaine IER||||0.9463
92236434|NCT03726671|184376627|OTHER|||||||0.0675|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Phosphatidylcholine IER||||0.0675
92236435|NCT03726671|184376627|OTHER|||||||0.2863|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Choline IER||||0.2863
92236436|NCT03726671|184376627|OTHER|||||||0.5552|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Betaine IER||||0.5552
92236437|NCT03726671|184376627|OTHER|||||||0.4209|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Phosphatidylcholine IER||||0.4209
92236438|NCT03726671|184376627|OTHER|||||||0.6647|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Choline IER||||0.6647
92395889|NCT03863509|184689062|OTHER||interaction estimate|3.3|STANDARD_ERROR_OF_MEAN|0.99||0.001|TWO_SIDED|95.0|1.36|5.24|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in systolic blood pressure, adjusting for age, sex, and race. Here presented the Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||5.24|1.36|0.001
92423804|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.507||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.507
92423805|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.821||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.821
92395890|NCT03863509|184689062|OTHER||interaction term estimate|3.29|STANDARD_ERROR_OF_MEAN|1.06||0.002|TWO_SIDED|95.0|1.2|5.38|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in systolic blood pressure, adjusting for age, sex, and race. Here presented the Exclusive cigarette smokers x Time vs never users x time as reference|||5.38|1.20|0.002
92395891|NCT03863509|184689062|OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.948||0.992|TWO_SIDED||||||ANCOVA|||||||.992
92395892|NCT03863509|184689063|OTHER||Type III F-test of Fixed Group x Time ef|5.843||||0.003|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 378.999) = 5.843, p = .003|F (2, 378.999) = 5.843, p = .003|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||0.003
92395893|NCT03863509|184689063|OTHER||Interaction term Coefficient|0.03|STANDARD_ERROR_OF_MEAN|0.01||0.002|TWO_SIDED|95.0|0.01|0.05|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in diastolic blood pressure, adjusting for age, sex, and race. Here presented the Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||0.05|0.01|.002
92395894|NCT03863509|184689063|OTHER||Interaction term Coefficient|0.03|STANDARD_ERROR_OF_MEAN|0.01||0.003|TWO_SIDED|95.0|0.01|0.05|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in diastolic blood pressure, adjusting for age, sex, and race. Here presented the Exclusive Smokers x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||0.05|0.01|.003
92395895|NCT03863509|184689063|OTHER||Interaction term Coefficient|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.917|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in diastolic blood pressure, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||||.917
92395896|NCT03863509|184689064|OTHER||Type III F-test of Fixed Group x Time Ef|49.42|||<|0.001|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 376.099) = 49.420, p \< .001|F (2, 376.099) = 49.420, p \< .001|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||< .001
92395897|NCT03863509|184689064|OTHER||interaction term coefficient|6.06|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|4.83|7.3|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Heart Rate, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||7.3|4.83|<0.001
92395898|NCT03863509|184689064|OTHER||interaction term coefficient|5.09|STANDARD_ERROR_OF_MEAN|0.68|<|0.001|TWO_SIDED|95.0|3.76|6.42|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Heart Rate, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||6.42|3.76|<0.001
92395899|NCT03863509|184689064|OTHER||interaction term coefficient|-0.97|STANDARD_ERROR_OF_MEAN|0.602||0.107|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in Heart Rate, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.107
92395900|NCT03863509|184689065|OTHER||Type III F-test of Fixed Group x Time Ef|6.194||||0.002|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2,372.971) = 6.194, p = .002|F (2,372.971) = 6.194, p = .002|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use.||||0.002
92423806|NCT00785928|184735853|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.045
92423807|NCT00785928|184735856|SUPERIORITY_OR_OTHER|||||||0.236||95.0||||Pairwise (2-sided) comparisons of 1 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.236
92170460|NCT02554786|184229836|SUPERIORITY||LS Mean|13.3|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|7.5|19.1|||LMM|||Week 26: Mean morning PEF||19.1|7.5|<0.001
92170461|NCT02554786|184229836|SUPERIORITY||LS Mean|24.8|STANDARD_ERROR_OF_MEAN|2.82|<|0.001|TWO_SIDED|95.0|19.3|30.3|||LMM|||Week 26: Mean evening PEF||30.3|19.3|<0.001
92423808|NCT00785928|184735856|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||Pairwise (2-sided) comparisons of 3 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.038
92423809|NCT00785928|184735856|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||Pairwise (2-sided) comparisons of 10 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.025
92423810|NCT00785928|184735856|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Pairwise (2-sided) comparisons of 30 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.005
92423811|NCT00785928|184735856|SUPERIORITY_OR_OTHER|||||||0.734||95.0||||Pairwise (2-sided) comparisons of 60 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.734
92423812|NCT00785928|184735856|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||Pairwise (2-sided) comparisons of 120 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.035
92239750|NCT01345123|184383530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0019994|STANDARD_ERROR_OF_MEAN|0.0400918||0.9602|TWO_SIDED|95.0|-0.0765899|0.080588716|||ANCOVA|Covariates: age, gender, Charlson Comorbidity Index, prior year total medical costs pmpm||||.080588716|-.07658990|0.9602
92423813|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.901||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 1 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.901
92423814|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.84||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 3 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.840
92423815|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.882||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 10 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.882
92423816|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.225||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 30 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.225
92423817|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 60 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.340
92423818|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.85||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 120 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.850
92423819|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.447||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 1 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.447
92239751|NCT01345123|184383530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.013717|STANDARD_ERROR_OF_MEAN|0.04018791||0.7329|TWO_SIDED|95.0|-0.0924947|0.06506063|||ANCOVA|||||0.06506063|-0.0924947|0.7329
92239752|NCT01345123|184383531|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.805||||0.0511||95.0|0.647|1.001|||Regression, Logistic|Covariates: Age, Gender, Charlson Comorbidity index, calculated risk of knee replacement, hip replacement, herniated disc surgery (score 1-99)||||1.001|0.647|0.0511
92239753|NCT01345123|184383534|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.31257||||0.0106|TWO_SIDED|95.0|0.06895|0.55618|||ANOVA|||||0.55618|0.06895|0.0106
92239754|NCT01345123|184383534|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15982||||0.0106|TWO_SIDED|95.0|-0.06477|0.38441|||ANOVA|||||0.38441|-0.06477|0.0106
92423820|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.909||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 3 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.909
92423821|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.152||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 10 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.152
92423822|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 30 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.023
92423823|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 60 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.004
92423824|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 120 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.017
92423825|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.944||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 1 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.944
92170462|NCT02554786|184229836|SUPERIORITY||LS Mean|30.4|STANDARD_ERROR_OF_MEAN|2.83|<|0.001|TWO_SIDED|95.0|24.8|35.9|||LMM|||Week 26: Mean evening PEF||35.9|24.8|<0.001
92170463|NCT02554786|184229836|SUPERIORITY||LS Mean|8.6|STANDARD_ERROR_OF_MEAN|2.83||0.002|TWO_SIDED|95.0|3.1|14.2|||LMM|||Week 26: Mean evening PEF||14.2|3.1|0.002
92170464|NCT02554786|184229836|SUPERIORITY||LS Mean|28.7|STANDARD_ERROR_OF_MEAN|3.07|<|0.001|TWO_SIDED|95.0|22.7|34.8|||LMM|||Week 52: Mean morning PEF||34.8|22.7|<0.001
92170465|NCT02554786|184229836|SUPERIORITY||LS Mean|30.2|STANDARD_ERROR_OF_MEAN|3.07|<|0.001|TWO_SIDED|95.0|24.2|36.3|||LMM|||Week 52: Mean morning PEF||36.3|24.2|<0.001
92170466|NCT02554786|184229836|SUPERIORITY||LS Mean|13.8|STANDARD_ERROR_OF_MEAN|3.08|<|0.001|TWO_SIDED|95.0|7.7|19.8|||LMM|||Week 52: Mean morning PEF||19.8|7.7|<0.001
92236439|NCT04192448|184376629|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|1.82||||0.28|TWO_SIDED|95.0|-29.82|26.19|||t-test, 1 sided|This t-test examined the difference in sexual aggression intentions between those in the Alcohol condition and those in the Sober condition.|The estimation parameter refers to the mean difference in the outcome between those in the Alcohol condition and those in the Sober condition. A positive value indicates greater likelihood of sexual aggression among those in the Alcohol condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||26.19|-29.82|.28
92395901|NCT03863509|184689065|OTHER||interaction term coefficient|-0.005|STANDARD_ERROR_OF_MEAN|0.001||0.003|TWO_SIDED|95.0|-0.01|-0.002|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Brachial Artery Diameter, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||-0.002|-0.01|0.003
92423826|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.677||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 3 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.677
92239755|NCT01345123|184383537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.009122|STANDARD_ERROR_OF_MEAN|0.0467091||0.8454|TWO_SIDED|95.0|-0.1008434|0.08259938|||ANCOVA|||||0.08259938|-0.1008434|0.8454
92395902|NCT03863509|184689065|OTHER||interaction term coefficient|-0.01|STANDARD_ERROR_OF_MEAN|0.002||0.001|TWO_SIDED|95.0|-0.01|-0.002|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Brachial Artery Diameter, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||-0.002|-0.01|0.001
92395903|NCT03863509|184689065|OTHER||interaction term coefficient|-0.001|STANDARD_ERROR_OF_MEAN|0.002||0.582|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in Brachial Artery Diameter, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.582
92423827|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 10 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.053
92395904|NCT03863509|184689066|OTHER||Type III F-test of Fixed Group x Time E|1.753||||0.175|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried.|FMD responses in e-cigarette users, cigarette users, and never-users controls after adjusting for changes in brachial artery diameter.|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||0.175
92395905|NCT03863509|184689066|OTHER||interaction term coefficient|0.75|STANDARD_ERROR_OF_MEAN|0.41||0.067|TWO_SIDED|95.0|-0.05|1.56|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Brachial Artery Flow Mediated Dilation, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||1.56|-0.05|0.067
92170467|NCT02554786|184229836|SUPERIORITY||LS Mean|23.7|STANDARD_ERROR_OF_MEAN|2.94|<|0.001|TWO_SIDED|95.0|18.0|29.5|||LMM|||Week 52: Mean evening PEF||29.5|18.0|<0.001
92170468|NCT02554786|184229836|SUPERIORITY||LS Mean|29.1|STANDARD_ERROR_OF_MEAN|2.94|<|0.001|TWO_SIDED|95.0|23.3|34.8|||LMM|||Week 52: Mean evening PEF||34.8|23.3|<0.001
92170469|NCT02554786|184229836|SUPERIORITY||LS Mean|9.1|STANDARD_ERROR_OF_MEAN|2.95||0.002|TWO_SIDED|95.0|3.3|14.9|||LMM|||Week 52: Mean evening PEF||14.9|3.3|0.002
92170470|NCT02554786|184229837|SUPERIORITY||Odds Ratio (OR)|1.31||||0.094|TWO_SIDED|95.0|0.95|1.81|||Logistic regression model|||Day 183||1.81|0.95|0.094
92170471|NCT02554786|184229837|SUPERIORITY||Odds Ratio (OR)|1.73|||<|0.001|TWO_SIDED|95.0|1.26|2.37|||Logistic regression model|||Day 183||2.37|1.26|<0.001
92170472|NCT02554786|184229837|SUPERIORITY||Odds Ratio (OR)|1.06||||0.746|TWO_SIDED|95.0|0.76|1.46|||Logistic regression model|||Day 183||1.46|0.76|0.746
92170473|NCT02554786|184229837|SUPERIORITY||Odds Ratio (OR)|1.34||||0.088|TWO_SIDED|95.0|0.96|1.87|||Logistic regression model|||Day 364||1.87|0.96|0.088
92239756|NCT01345123|184383537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0183548|STANDARD_ERROR_OF_MEAN|0.04690321||0.6956|TWO_SIDED|95.0|-0.1102961|0.07358642|||ANCOVA|||||0.07358642|-0.1102961|0.6956
92170474|NCT02554786|184229837|SUPERIORITY||Odds Ratio (OR)|2.24|||<|0.001|TWO_SIDED|95.0|1.58|3.17|||Logistic regression model|||Day 364||3.17|1.58|<0.001
92395906|NCT03863509|184689066|OTHER||interaction term coefficient|0.33|STANDARD_ERROR_OF_MEAN|0.44||0.464|TWO_SIDED|95.0|-0.55|1.2|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Brachial Artery Flow Mediated Dilation, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||1.20|-0.55|0.464
92395907|NCT03863509|184689066|OTHER||interaction term coefficient|-0.43|STANDARD_ERROR_OF_MEAN|0.4||0.284|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing effects of group, time, and group x time in FMD, age, sex, race adjusted, for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.284
92395908|NCT03863509|184689067|OTHER||Type III F-test of Fixed Group x Time Ef|8.323|||<|0.001|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 342.847) = 8.323, p = \<.001|F (2,342.847) = 8.323, p = \<.001|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||<0.001
92395909|NCT03863509|184689067|OTHER||interaction term coefficient|-6.55|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-9.89|-3.2|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in PNN50, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||-3.20|-9.89|<0.001
92395910|NCT03863509|184689067|OTHER||interaction term coefficient|-6.11|STANDARD_ERROR_OF_MEAN|1.83||0.001|TWO_SIDED|95.0|-9.71|-2.52|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in PNN50, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||-2.52|-9.71|0.001
92395911|NCT03863509|184689067|OTHER||interaction term coefficient|0.44|STANDARD_ERROR_OF_MEAN|1.61||0.787|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in PNN50, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.787
92395912|NCT03863509|184689068|OTHER||Type III F-test of Fixed Group x Time Ef|7.26||||0.001|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 345.918) = 7.260, p = .001|F (2,345.918) = 7.260, p = .001|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use Outcome measure ln transformed for analysis.||||0.001
92395913|NCT03863509|184689068|OTHER||interaction term coefficient|-0.2|STANDARD_ERROR_OF_MEAN|0.06||0.001|TWO_SIDED|95.0|-0.31|-0.08|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in RMSSD, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||-0.08|-0.31|0.001
92395914|NCT03863509|184689068|OTHER||interaction term coefficient|-0.21|STANDARD_ERROR_OF_MEAN|0.06||0.001|TWO_SIDED|95.0|-0.33|-0.09|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in RMSSD, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||-0.09|-0.33|0.001
92395915|NCT03863509|184689068|OTHER||interaction term coefficient|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.847|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in RMSSD, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.847
92395916|NCT03863509|184689069|OTHER||Type III F-test of Fixed Group x Time Ef|1.712||||0.182|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 312.081) = 1.712, p = .182|F (2, 312.081) = 1.712, p = .182|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||.182
92239757|NCT02436577|184383547|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|93.16|||||TWO_SIDED|90.0|85.8|101.15|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||101.15|85.80|
92395917|NCT03863509|184689069|OTHER||interaction term coefficient|-0.04|STANDARD_ERROR_OF_MEAN|0.02||0.07|TWO_SIDED|95.0|-0.09|0.004|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in HRV-Standing Ratio, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|||0.004|-0.09|0.07
92239758|NCT02436577|184383547|SUPERIORITY_OR_OTHER||Geometric mean ratio|93.67|||||TWO_SIDED|90.0|87.88|99.84|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||99.84|87.88|
92395918|NCT03863509|184689069|OTHER||interaction term coefficient|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.196|TWO_SIDED|95.0|-0.09|0.02|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in HRV-Standing Ratio adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||0.02|-0.09|0.196
92395919|NCT03863509|184689069|OTHER||interaction term coefficient|0.09|STANDARD_ERROR_OF_MEAN|0.02||0.69|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in HRV-Standing Ratio adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.69
92395920|NCT03863509|184689070|OTHER||Type III F-test of Fixed Group x Time Ef|4.096||||0.017|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 373.239) = 4.096, p = .017|F (2, 373.239) = 4.096, p = .017|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use.||||0.017
92395921|NCT03863509|184689070|OTHER||interaction term coefficient|-3.04|STANDARD_ERROR_OF_MEAN|1.09||0.005|TWO_SIDED|95.0|-5.18|-0.91|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEV1, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|||-0.91|-5.18|0.005
92395922|NCT03863509|184689070|OTHER||interaction term coefficient|-1.29|STANDARD_ERROR_OF_MEAN|1.18||0.274|TWO_SIDED|95.0|-3.61|1.03|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEV1, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||1.03|-3.61|0.274
92395923|NCT03863509|184689070|OTHER||interaction term coefficient|1.75|STANDARD_ERROR_OF_MEAN|1.06||0.098|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in FEV1, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.098
92395924|NCT03863509|184689071|OTHER||Type III F-test of Fixed Group x Time Ef|0.26||||0.771|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 373.434) = 0.260, p = .771|F (2, 373.434) = 0.260, p = .771|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use.||||.771
92395925|NCT03863509|184689071|OTHER||interaction term coefficient|-0.12|STANDARD_ERROR_OF_MEAN|1.14||0.918|TWO_SIDED|95.0|-2.35|2.12|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FVC, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||2.12|-2.35|0.918
92395926|NCT03863509|184689071|OTHER||interaction term coefficient|-0.8|STANDARD_ERROR_OF_MEAN|1.23||0.518|TWO_SIDED|95.0|-3.22|1.63|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FVC, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||1.63|-3.22|0.518
92395927|NCT03863509|184689071|OTHER||interaction term coefficient|-0.68|STANDARD_ERROR_OF_MEAN|1.11||0.539|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in FVC, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.539
92395928|NCT03863509|184689072|OTHER||Type III F-test of Fixed Group x Time Ef|7.157||||0.001|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 375.412) = 7.157, p = .001|F (2, 375.412) = 7.157, p = .001|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use.||||0.001
92395929|NCT03863509|184689072|OTHER||interaction term coefficient|-3.39|STANDARD_ERROR_OF_MEAN|1.04||0.001|TWO_SIDED|95.0|-5.43|-1.35|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEV1/FVC, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|||-1.35|-5.43|0.001
92395930|NCT03863509|184689072|OTHER||interaction term coefficient|-0.32|STANDARD_ERROR_OF_MEAN|1.12||0.778|TWO_SIDED|95.0|-2.53|1.89|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEV1/FVC, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||1.89|-2.53|0.778
92395931|NCT03863509|184689072|OTHER||interaction term coefficient|3.08|STANDARD_ERROR_OF_MEAN|1.08||0.002|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in FEV1/FVC, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.002
92423828|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 30 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.061
92239759|NCT02436577|184383547|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.79|||||TWO_SIDED|90.0|88.27|106.14|||ANOVA|||Statistical Assessment of Bioequivalence for metabolite AR-C124910XX Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||106.14|88.27|
92395932|NCT03863509|184689073|OTHER||Type III F-test of Fixed Group x Time Ef|4.317||||0.014|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 373.170) = 4.317, p = .014|F (2, 373.170) = 4.317, p = .014|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||0.014
92395933|NCT03863509|184689073|OTHER||interaction term coefficient|-5.08|STANDARD_ERROR_OF_MEAN|2.1||0.016|TWO_SIDED|95.0|-9.21|-0.95|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEF 25-75, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||-0.95|-9.21|0.016
92395934|NCT03863509|184689073|OTHER||interaction term coefficient|0.01|STANDARD_ERROR_OF_MEAN|2.28||0.998|TWO_SIDED|95.0|-4.47|4.48|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEF 25-75, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||4.48|-4.47|0.998
92395935|NCT03863509|184689073|OTHER||interaction term coefficient|5.09|STANDARD_ERROR_OF_MEAN|2.04||0.013|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in FEF 25-75, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.013
92395936|NCT03863509|184689074|OTHER||Type III F-test of Fixed Group x Time Ef|6.694||||0.001|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2,376.779) = 6.694, p = .001|F ((2,376.779) = 6.694, p = .001|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and-between-group responses following product use Outcome measure ln transformed for analysis.||||0.001
92395937|NCT03863509|184689074|OTHER||interaction term coefficient|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.001|TWO_SIDED|95.0|-0.14|-0.04|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FeNO, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||-0.04|-0.14|0.001
92395938|NCT03863509|184689074|OTHER||interaction term coefficient|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.555|TWO_SIDED|95.0|-0.08|0.04|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FeNO, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||0.04|-0.08|0.555
92236440|NCT04192448|184376629|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|-1.0||||0.39|TWO_SIDED|95.0|-33.01|35.01|||t-test, 1 sided|This t-test examined the difference in sexual aggression intentions between those in the Anger condition and those in the Control condition.|The estimation parameter refers to the mean difference in the outcome between those in the Anger condition and those in the Control condition. A negative value indicates greater likelihood of sexual aggression among those in the Control condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||35.01|-33.01|.39
92239760|NCT02436577|184383547|SUPERIORITY_OR_OTHER||Geometric mean ratio|92.32|||||TWO_SIDED|90.0|85.04|100.23|||ANOVA|||Statistical Assessment of Bioequivalence for metabolite AR-C124910XX Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||100.23|85.04|
92395939|NCT03863509|184689074|OTHER||interaction term coefficient|0.007|STANDARD_ERROR_OF_MEAN|0.03||0.007|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in FeNO, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.007
92395940|NCT03863509|184689075|OTHER||||||<|0.001||||||ANCOVA for group differences|ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 386) = 12.869, p \< .001||||||< .001
92395941|NCT03863509|184689075|OTHER||Mean Difference (Final Values)|1.352||||0.269|TWO_SIDED|95.0|-1.048|3.752|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||Never Users minus Exclusive E-Cig Users||3.752|-1.048|0.269
92395942|NCT03863509|184689075|OTHER||Mean Difference (Final Values)|-5.575|||<|0.001|TWO_SIDED|95.0|-8.37|-2.78|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Never Users minus Exclusive Smokers||-2.780|-8.37|<0.001
92395943|NCT03863509|184689075|OTHER||Mean Difference (Final Values)|-6.927|||<|0.001|TWO_SIDED|95.0|-9.672|-4.183|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried.||Exclusive E-Cig Users minus Exclusive Smokers||-4.183|-9.672|<0.001
92395944|NCT03863509|184689076|OTHER|||||||0.035|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 361) = 3.392, p = .035|||Group difference did not survive correction for false discovery rate at .05, therefore not followed with post-hoc pairwise comparisons.|||.035
92395945|NCT03863509|184689077|OTHER|||||||0.549|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 386) = 0.601, p = .549||||||.549
92395946|NCT03863509|184689078|OTHER|||||||0.022|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 381) = 3.877, p = .022|||Group difference tested after correction for false discovery rate at .05, therefore we followed with post-hoc pairwise comparisons.|||.022
92395947|NCT03863509|184689078|OTHER|||||||0.952|||||||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||Never Users minus Exclusive E-Cig Users||||0.952
92170475|NCT02554786|184229837|SUPERIORITY||Odds Ratio (OR)|1.05||||0.771|TWO_SIDED|95.0|0.75|1.49|||Logistic regression model|||Day 364||1.49|0.75|0.771
92170476|NCT02554786|184229838|SUPERIORITY||LS Mean|5.8|STANDARD_ERROR_OF_MEAN|2.29||0.012|TWO_SIDED|95.0|1.3|10.2|||Linear Mixed Model (LMM)|||||10.2|1.3|0.012
92239761|NCT02436577|184383548|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|97.76|||||TWO_SIDED|90.0|94.46|101.18|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||101.18|94.46|
92395948|NCT03863509|184689078|OTHER|||||||0.014|||||||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||post hoc pairwise group comparisons.. Never Users minus Exclusive Smokers||||0.014
92395949|NCT03863509|184689078|OTHER|||||||0.011||||||Age, sex, and race were covaried|ANCOVA post-hoc pairwise group compariso|||Exclusive E-Cig Users minus Exclusive Smokers||||0.011
92395950|NCT03863509|184689079|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Outcome variable log-transformed for analysis. Test for group difference: F (2, 381) = 33.442, p \< .001|||Group difference tested for false discovery rate at .05 and followed with post-hoc pairwise comparisons.|||< .001
92395951|NCT03863509|184689079|OTHER||Mean Difference (Final Values)|0.18||||0.013|TWO_SIDED|95.0|0.039|0.322|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried|Estimated marginal mean differences (log-transformed scale)|Never Users minus Exclusive E-Cig Users:||0.322|0.039|0.013
92395952|NCT03863509|184689079|OTHER||Mean Difference (Final Values)|0.679|||<|0.001|TWO_SIDED|95.0|0.514|0.844|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried|Estimated marginal mean differences (log-transformed scale)|Never Users minus Exclusive Smokers||0.844|0.514|<0.001
92395953|NCT03863509|184689079|OTHER||Mean Difference (Final Values)|0.498|||<|0.001|TWO_SIDED|95.0|0.336|0.66|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race/ethnicity were covaried|"Estimated marginal mean differences (log-transformed scale)"|Exclusive E-Cig users minus Exclusive Smokers||0.660|0.336|<0.001
92395954|NCT03863509|184689080|OTHER|||||||0.15|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 361) = 1.904, p = .150||||||.150
92395955|NCT03863509|184689081|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 385) = 17.872, p \< .001|||Group difference tested for false discovery rate at .05, and followed with post-hoc pairwise comparisons. Estimated marginal mean differences:|||< .001
92395956|NCT03863509|184689081|OTHER||Mean Difference (Final Values)|-3.632||||0.003|TWO_SIDED|95.0|-6.019|-1.245|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||Never Users minus Exclusive E-Cig Users||-1.245|-6.019|0.003
92395957|NCT03863509|184689081|OTHER||Mean Difference (Final Values)|-8.38|||<|0.001|TWO_SIDED|95.0|-11.14|-5.62|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||Never Users minus Exclusive Smokers||-5.62|-11.14|<0.001
92395958|NCT03863509|184689081|OTHER||Mean Difference (Final Values)|-4.748||||0.001|TWO_SIDED|95.0|-7.456|-2.04|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||Exclusive E-Cig Users minus Exclusive Smokers||-2.040|-7.456|0.001
92395959|NCT03863509|184689082|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 343) = 17.056, p \< .001|||Group difference tested for false discovery rate at .05, and followed with post-hoc pairwise comparisons.|||< .001
92395960|NCT03863509|184689082|OTHER||Mean Difference (Final Values)|1.279|||<|0.001|TWO_SIDED|95.0|0.733|1.824|||ANCOVA post-hoc pairwise group compariso|age, sex and race were covaried||Never Users minus Exclusive E-Cig Users||1.824|0.733|<0.001
92395961|NCT03863509|184689082|OTHER||Mean Difference (Final Values)|1.739|||<|0.001|TWO_SIDED|95.0|1.083|2.395|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Never Users minus Exclusive Smokers||2.395|1.083|<0.001
92395962|NCT03863509|184689082|OTHER||Mean Difference (Final Values)|0.46||||0.165|TWO_SIDED|95.0|-0.19|1.11|||ANCOVA post-hoc pairwise group compariso|age, sex and race were covaried||Exclusive E-Cig Users minus Exclusive Smokers||1.110|-0.190|0.165
92395963|NCT03863509|184689083|OTHER|||||||0.199|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 386) = 1.621, p = .199||||||.199
92395964|NCT03863509|184689084|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 343) = 17.056, p\< .001|||Group difference tested for false discovery rate at .05, and followed with post-hoc pairwise comparisons.|||<0.001
92395965|NCT03863509|184689084|OTHER||Mean Difference (Final Values)|1.279|||<|0.001|TWO_SIDED|95.0|0.733|1.824|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Never Users minus Exclusive E-Cig users||1.824|0.733|<0.001
92395966|NCT03863509|184689084|OTHER||Mean Difference (Final Values)|1.739|||<|0.001|TWO_SIDED|95.0|1.083|2.395|||ANCOVA post-hoc pairwise group compariso|age, sex, race covaried||Never Users minus Exclusive Smokers||2.395|1.083|<0.001
92395967|NCT03863509|184689084|OTHER||Mean Difference (Final Values)|0.46||||0.165|TWO_SIDED|95.0|-0.19|1.11|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Exclusive E-Cig Users minus Exclusive Smokers||1.110|-0.190|0.165
92239762|NCT02436577|184383548|SUPERIORITY_OR_OTHER||Geometric Mean ratio|96.38|||||TWO_SIDED|90.0|93.24|99.63|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||99.63|93.24|
92239763|NCT02436577|184383548|SUPERIORITY_OR_OTHER||Geometric mean ratio|98.43|||||TWO_SIDED|90.0|94.75|102.25|||ANOVA|||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered compared to ticagrelor IR tablets.||102.25|94.75|
92395968|NCT03863509|184689085|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 343) = 17.056, p\< .001|||Group difference tested for false discovery rate at .05, and followed with post-hoc pairwise comparisons.|||<0.001
92395969|NCT03863509|184689085|OTHER||Mean Difference (Final Values)|1.279|||<|0.001|TWO_SIDED|95.0|0.733|1.824|||ANCOVA post-hoc pairwise group compariso|Age, sex, race were covaried||Never Users minus Exclusive E-Cig Users||1.824|0.733|<0.001
92395970|NCT03863509|184689085|OTHER||Mean Difference (Final Values)|1.739|||<|0.001|TWO_SIDED|95.0|1.083|2.395|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Never Users minus Exclusive Smokers||2.395|1.083|<0.001
92395971|NCT03863509|184689085|OTHER||Mean Difference (Final Values)|0.46||||0.165|TWO_SIDED|95.0|-0.19|1.11|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Exclusive E-Cig Users minus Exclusive Smokers||1.110|-0.190|0.165
92395972|NCT03863509|184689086|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 344) = 10.075, p \< .001|||Group difference tested for false discovery rate at .05, and followed with post-hoc pairwise comparisons. Estimated marginal mean differences:|||<0.001
92239764|NCT02436577|184383548|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.15|||||TWO_SIDED|90.0|91.59|98.85|||ANOVA|||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered compared to ticagrelor IR tablets.||98.85|91.59|
92239765|NCT02436577|184383549|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|97.75|||||TWO_SIDED|90.0|94.4|101.21|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||101.21|94.40|
92423829|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 60 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.025
92423830|NCT00785928|184735857|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 120 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.030
92170477|NCT02554786|184229838|SUPERIORITY||LS Mean|9.1|STANDARD_ERROR_OF_MEAN|2.29|<|0.001|TWO_SIDED|95.0|4.6|13.6|||LMM|||||13.6|4.6|<0.001
92239766|NCT02436577|184383549|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.5|||||TWO_SIDED|90.0|93.31|99.8|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||99.80|93.31|
92239767|NCT02436577|184383549|SUPERIORITY_OR_OTHER||Geometric mean ratio|98.46|||||TWO_SIDED|90.0|94.85|102.2|||ANOVA|||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered compared to ticagrelor IR tablets.||102.20|94.85|
92423831|NCT05027464|184735860|SUPERIORITY||Odds Ratio (OR)|1.249||||0.202|TWO_SIDED|95.0|0.888|1.759||Not adjusted for multiple comparisons; a priori threshold was P \< 0.05.|Regression, Logistic|Patient demographics were fixed effects, and randomization units with clinics nested within randomization units were random effects.|An odds ratio above one indicates favoring the intervention arm over the usual care arm.|Generalized linear mixed model to account for patient demographics and hierarchical levels for clinics nested within VAHCS. Null hypothesis is that both arms perform equivalently in vaccine uptake after a year. Power was based on recruited VAHCSs and at least 1,000 Veterans per clinic. Using two-sided 0.05 type I error rate, 5-20% outcome rate in UC, we have 90% power to detect between a 9.6% and 14.6% difference with a total sample size of 90,000 to 100,000.||1.759|0.888|0.202
92423832|NCT05027464|184735860|SUPERIORITY||Odds Ratio (OR)|1.228||||0.247|TWO_SIDED|95.0|0.867|1.738|||Regression, Logistic|||Sensitivity analysis, same null hypothesis and model as primary analysis but different pool of patients: Not constrained to Veterans with at least one primary care visit||1.738|0.867|0.247
92423833|NCT05027464|184735860|SUPERIORITY||Odds Ratio (OR)|1.263||||0.455|TWO_SIDED|95.0|0.684|2.334|||Regression, Logistic|||Sensitivity analysis; same model and null hypothesis but reassigning small clinics to their parent VAHCS facility, small meaning \< 100 participants. This data set uses the primary analysis data set with the primary visit constraint.||2.334|0.684|0.455
92423834|NCT05027464|184735860|SUPERIORITY||Odds Ratio (OR)|1.26||||0.364|TWO_SIDED|95.0|0.765|2.075|||Regression, Logistic|||Sensitivity Analysis: same model and null hypothesis as primary outcome but the source of vaccination records omits Medicare claims data. The primary data source had included Medicare claims data on vaccination records as a supplement to the VA data.||2.075|0.765|0.364
92423835|NCT05027464|184735860|SUPERIORITY||Odds Ratio (OR)|1.268||||0.168|TWO_SIDED|95.0|0.904|1.778|||Regression, Logistic|||"Sensitivity Analysis: same model and null hypothesis as primary analysis model but the source of data is supplemented by state level registries, named IZ Gateway, which was deployed summer of 2023 where Veteran records of vaccination could be updated at the VA from external vaccination facilities if the Veteran entered the VA in the same state as that vaccination facility. The primary analysis data contains Medicare claims data in this analysis, too."||1.778|0.904|0.168
92423836|NCT05027464|184735861|SUPERIORITY||Odds Ratio (OR)|0.993||||0.976|TWO_SIDED|95.0|0.643|1.535||P \< 0.05 and no multiple comparison adjustment|Regression, Logistic|We adjusted for patient demographics as fixed effects and randomization units and associated clinics as a three-level random effect.|An odds ratio above one indicates favoring the intervention arm over the usual care arm.|Power calculation is similar to the calculation for the primary outcome. Null hypothesis is described in the outcome comparison related to this statistical analysis plan.||1.535|0.643|.976
92423837|NCT05027464|184735861|SUPERIORITY||Odds Ratio (OR)|0.978||||0.893|TWO_SIDED|95.0|0.702|1.361|||Regression, Logistic|GLMM||Sensitivity analysis, same null hypothesis and model as primary analysis but different pool of patients: Not constrained to Veterans with at least one primary care visit||1.361|0.702|0.893
92423838|NCT05027464|184735861|SUPERIORITY||Odds Ratio (OR)|0.961||||0.863|TWO_SIDED|95.0|0.613|1.507|||Regression, Logistic|GLMM||Sensitivity Analysis: same model and null hypothesis as primary outcome but the source of vaccination records omits Medicare claims data. The primary data source had included Medicare claims data on vaccination records as a supplement to the VA data.||1.507|0.613|0.863
92423839|NCT05027464|184735861|SUPERIORITY||Odds Ratio (OR)|1.011||||0.963|TWO_SIDED|95.0|0.636|1.607|||Regression, Logistic|GLMM||"Sensitivity Analysis: same model and null hypothesis as primary analysis model but the source of data is supplemented by state level registries, named IZ Gateway, which was deployed summer of 2023 where Veteran records of vaccination could be updated at the VA from external vaccination facilities if the Veteran entered the VA in the same state as that vaccination facility. The primary analysis data contains Medicare claims data in this analysis, too."||1.607|0.636|0.963
92423840|NCT05027464|184735862|SUPERIORITY||Odds Ratio (OR)|1.191||||0.395|TWO_SIDED|95.0|0.796|1.781||Threshold: P \< 0.05; not adjusted for multiple comparisons|Regression, Logistic|Generalized linear mixed modeling adjusted for baseline covariates and hierarchical levels for randomization units and clinics within them.|Odds ratio in favor of intervention arm (MI) has values higher than 1.|No power calculation for this exploratory outcome. Null hypothesis is that both arms will have equal uptake rates of the COVID-19 Booster vaccination during the study period.||1.781|0.796|0.395
92446516|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-1.48|STANDARD_ERROR_OF_MEAN|0.943||0.119|TWO_SIDED|95.0|-3.34|0.38||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 3||0.38|-3.34|0.119
92239768|NCT02436577|184383549|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.47|||||TWO_SIDED|90.0|91.99|99.08|||ANOVA|||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered compared to ticagrelor IR tablets.||99.08|91.99|
92239769|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.8||||||95.0|-5.4|3.7||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.7|-5.4|
92395973|NCT03861273|184689087|NON_INFERIORITY|A repeated measure negative binomial regression model was used to do the hypothesis test on non-inferiority with one-sided test.|Mean Difference (Final Values)|-3.13||||0.0081|TWO_SIDED|95.0|-5.44|-0.81|||Generalized linear model (GLM)|The treatment difference and P-value were obtained from a repeated measures GLM with negative binomial distribution and identity link function.||||-0.81|-5.44|0.0081
92395974|NCT03861273|184689088|NON_INFERIORITY|A repeated measure negative binomial regression model was used to do the hypothesis test on non-inferiority with one-sided test.|Median Difference (Final Values)|-2.62||||0.0019|TWO_SIDED|95.0|-4.27|-0.96|||Generalized linear model (GLM)|The treatment difference and P-value were obtained from a repeated measures GLM with negative binomial distribution and identity link function.||||-0.96|-4.27|0.0019
92170478|NCT02554786|184229838|SUPERIORITY||LS Mean|3.4|STANDARD_ERROR_OF_MEAN|2.29||0.135|TWO_SIDED|95.0|-1.1|7.9|||LMM|||||7.9|-1.1|0.135
92395975|NCT03861273|184689089|SUPERIORITY||Mean Difference (Final Values)|-54.37|||<|0.0001|TWO_SIDED|95.0|-63.64|-45.1|||Paired t-test|||The treatment difference (PF-06838435 - FIX Prophylaxis) estimate (95% CI) and p-value were obtained from paired t-test.||-45.10|-63.64|<.0001
92395976|NCT03861273|184689090|OTHER||||||<|0.0001||||||P-value from one-sided t-statistic testing the log transformation of the steady state FIX:C \> log(5). Cumulative for 3 assays.|One-sided t-statistic testing|||Week 12 to Month 15||||<.0001
92395977|NCT03861273|184689092|SUPERIORITY||Mean Difference (Final Values)|-2935.7|||<|0.0001|TWO_SIDED|95.0|-3403.1|-2468.3|||Paired t-test|||||-2468.30|-3403.10|<.0001
92395978|NCT03861273|184689093|NON_INFERIORITY|The treatment difference and P-value were obtained from a repeated measures GLM with negative binomial distribution and identity link function.|Mean Difference (Final Values)|-2.55||||0.0191|TWO_SIDED|95.0|-4.67|-0.42|||Generalized linear model (GLM)|||||-0.42|-4.67|0.0191
92395979|NCT03861273|184689094|NON_INFERIORITY|The treatment difference and P-value were obtained from a repeated measures GLM with negative binomial distribution and identity link function.|Median Difference (Final Values)|-0.57||||0.1528|TWO_SIDED|95.0|-1.35|0.21|||Generalized linear model (GLM)|||||0.21|-1.35|0.1528
92395980|NCT03861273|184689095|NON_INFERIORITY|The treatment difference and P-value were obtained from a repeated measures GLM with negative binomial distribution and identity link function.|Mean Difference (Final Values)|-0.51||||0.3738|TWO_SIDED|95.0|-1.63|0.61|||Generalized linear model (GLM)|||||0.61|-1.63|0.3738
92395981|NCT03861273|184689098|OTHER|||||||0.0117|||||||Paired t-test|||||||0.0117
92395982|NCT03861273|184689099|OTHER|||||||0.0052|||||||Paired t-test|||||||0.0052
92395983|NCT03861273|184689100|OTHER|||||||0.0237|||||||Paired t-test|||||||0.0237
92423841|NCT05027464|184735863|SUPERIORITY||Odds Ratio (OR)|1.128||||0.119|TWO_SIDED|95.0|0.97|1.311||P-value was not adjusted for multiple comparisons and the p-value threshold was \< 0.05.|Regression, Logistic|Generalized linear mixed model adjusting for baseline covariates and flu vaccine in prior year, with hierarchical random effects for ran. unit/site|Odds ratio in favor of novel intervention arm has values higher than 1|Null hypothesis is that both study arms will have equal rates of flu vaccination uptake during the study period. No power calculation since this outcome is exploratory.||1.311|0.97|0.119
92423842|NCT01675427|184735876|SUPERIORITY_OR_OTHER|||||||0.0018|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||0.0018
92423843|NCT01675427|184735876|SUPERIORITY_OR_OTHER|||||||0.2289|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.2289
92423844|NCT01675427|184735876|SUPERIORITY_OR_OTHER|||||||0.1112|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.1112
92423845|NCT01675427|184735876|SUPERIORITY_OR_OTHER|||||||0.4681|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.4681
92423846|NCT01675427|184735876|SUPERIORITY_OR_OTHER|||||||0.4828|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.4828
92423847|NCT01675427|184735876|SUPERIORITY_OR_OTHER|||||||0.2702|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.2702
92423848|NCT01675427|184735877|SUPERIORITY_OR_OTHER|||||||0.4133|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||0.4133
92423849|NCT01675427|184735877|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.4400
92423850|NCT01675427|184735877|SUPERIORITY_OR_OTHER|||||||0.8597|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.8597
92423851|NCT01675427|184735877|SUPERIORITY_OR_OTHER|||||||0.3975|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.3975
92423852|NCT01675427|184735877|SUPERIORITY_OR_OTHER|||||||0.1781|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.1781
92423853|NCT01675427|184735877|SUPERIORITY_OR_OTHER|||||||0.3159|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.3159
92423854|NCT01675427|184735878|SUPERIORITY_OR_OTHER|||||||0.0126|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||0.0126
92423855|NCT01675427|184735878|SUPERIORITY_OR_OTHER|||||||0.7174|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.7174
92423856|NCT01675427|184735878|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.1380
92423857|NCT01675427|184735878|SUPERIORITY_OR_OTHER|||||||0.6258|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.6258
92423858|NCT01675427|184735878|SUPERIORITY_OR_OTHER|||||||0.5751|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.5751
92423859|NCT01675427|184735878|SUPERIORITY_OR_OTHER|||||||0.1681|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.1681
92423860|NCT01675427|184735879|SUPERIORITY_OR_OTHER|||||||0.2693|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||0.2693
92170479|NCT02554786|184229839|SUPERIORITY||LS Mean|5.0|STANDARD_ERROR_OF_MEAN|2.25||0.026|TWO_SIDED|95.0|0.6|9.4|||LMM|||||9.4|0.6|0.026
92423861|NCT01675427|184735879|SUPERIORITY_OR_OTHER|||||||0.324|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.3240
92423862|NCT01675427|184735879|SUPERIORITY_OR_OTHER|||||||0.7006|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.7006
92423863|NCT01675427|184735879|SUPERIORITY_OR_OTHER|||||||0.0403|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.0403
92423864|NCT01675427|184735879|SUPERIORITY_OR_OTHER|||||||0.1075|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.1075
92423865|NCT01675427|184735879|SUPERIORITY_OR_OTHER|||||||0.3295|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.3295
92423866|NCT01675427|184735880|SUPERIORITY_OR_OTHER|||||||0.9859|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.9859
92423867|NCT01675427|184735880|SUPERIORITY_OR_OTHER|||||||0.7055|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.7055
92423868|NCT01675427|184735880|SUPERIORITY_OR_OTHER|||||||0.092|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0920
92423869|NCT01675427|184735880|SUPERIORITY_OR_OTHER|||||||0.0781|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0781
92423870|NCT01675427|184735880|SUPERIORITY_OR_OTHER|||||||0.4795|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.4795
92423871|NCT01675427|184735880|SUPERIORITY_OR_OTHER|||||||0.3069|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.3069
92423872|NCT01675427|184735881|SUPERIORITY_OR_OTHER|||||||0.5216|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.5216
92423873|NCT01675427|184735881|SUPERIORITY_OR_OTHER|||||||0.3419|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.3419
92423874|NCT01675427|184735881|SUPERIORITY_OR_OTHER|||||||0.7586|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.7586
92423875|NCT01675427|184735881|SUPERIORITY_OR_OTHER|||||||0.1351|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.1351
92423876|NCT01675427|184735881|SUPERIORITY_OR_OTHER|||||||0.2386|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2386
92423877|NCT01675427|184735881|SUPERIORITY_OR_OTHER|||||||0.3921|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.3921
92423878|NCT01675427|184735882|SUPERIORITY_OR_OTHER|||||||0.8537|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.8537
92423879|NCT01675427|184735882|SUPERIORITY_OR_OTHER|||||||0.0763|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0763
92423880|NCT01675427|184735882|SUPERIORITY_OR_OTHER|||||||0.2432|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.2432
92423881|NCT01675427|184735882|SUPERIORITY_OR_OTHER|||||||0.4247|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.4247
92423882|NCT01675427|184735882|SUPERIORITY_OR_OTHER|||||||0.4884|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.4884
92423883|NCT01675427|184735882|SUPERIORITY_OR_OTHER|||||||0.6119|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.6119
92423884|NCT01675427|184735883|SUPERIORITY_OR_OTHER|||||||0.2416|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.2416
92423885|NCT01675427|184735883|SUPERIORITY_OR_OTHER|||||||0.2671|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2671
92423886|NCT01675427|184735883|SUPERIORITY_OR_OTHER|||||||0.4619|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.4619
92423887|NCT01675427|184735883|SUPERIORITY_OR_OTHER|||||||0.8364|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.8364
92423888|NCT01675427|184735883|SUPERIORITY_OR_OTHER|||||||0.2386|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2386
92423889|NCT01675427|184735883|SUPERIORITY_OR_OTHER|||||||0.2887|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.2887
92423890|NCT01675427|184735884|SUPERIORITY_OR_OTHER|||||||0.0049|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||||||0.0049
92423891|NCT01675427|184735885|SUPERIORITY_OR_OTHER|||||||0.5651|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||||||0.5651
92423892|NCT01675427|184735886|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||||||0.0420
92423893|NCT01675427|184735887|SUPERIORITY_OR_OTHER|||||||0.4545|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||||||0.4545
92236441|NCT04192448|184376630|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|0.25||||0.33|TWO_SIDED|95.0|-2.88|2.63|||t-test, 1 sided|This t-test examined the difference in physical aggression intentions between those in the Alcohol Condition and those in the Sober condition.|The estimation parameter refers to the mean difference in the outcome between those in the Alcohol condition and those in the Sober condition. A positive value indicates greater likelihood of physical aggression among those in the Alcohol condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||2.63|-2.88|.33
92236442|NCT04192448|184376630|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|-0.25||||0.33|TWO_SIDED|95.0|-2.53|2.88|||t-test, 1 sided|The t-test examined the difference in physical aggression intentions between those in the Anger condition and those in the Control condition.|The estimation parameter refers to the mean difference in the outcome between those in the Anger condition and those in the Control condition. A negative value indicates greater likelihood of physical aggression among those in the Control condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||2.88|-2.53|.33
92239770|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-5.5||||||95.0|-14.2|3.3||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.3|-14.2|
92423894|NCT01675427|184735888|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92423895|NCT01675427|184735889|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92423896|NCT01675427|184735890|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92423897|NCT01675427|184735891|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92423898|NCT01675427|184735892|SUPERIORITY_OR_OTHER|||||||0.5468|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.5468
92423899|NCT01675427|184735893|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.0020
92423900|NCT01675427|184735894|SUPERIORITY_OR_OTHER|||||||0.1623|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.1623
92423901|NCT01675427|184735895|SUPERIORITY_OR_OTHER|||||||0.0663|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.0663
92423902|NCT01675427|184735896|SUPERIORITY_OR_OTHER|||||||0.2617|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.2617
92423903|NCT01675427|184735897|SUPERIORITY_OR_OTHER|||||||0.0526|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.0526
92423904|NCT01675427|184735898|SUPERIORITY_OR_OTHER|||||||0.7918|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.7918
92423905|NCT01675427|184735899|SUPERIORITY_OR_OTHER|||||||0.0842|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.0842
92236443|NCT04192448|184376631|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|0.67||||0.23|TWO_SIDED|95.0|-8.0|6.67|||t-test, 1 sided|The t-test examined differences in psychological aggression intentions between those in the Alcohol condition and those in the Sober condition.|The estimation parameter refers to the mean difference in the outcome between those in the Alcohol condition and those in the Sober condition. A positive value indicates greater likelihood of psych aggression among those in the Alcohol condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||6.67|-8.00|.23
92423906|NCT01675427|184735900|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92423907|NCT01675427|184735901|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92423908|NCT01675427|184735902|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92423909|NCT01675427|184735903|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92423910|NCT01675427|184735904|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
92423911|NCT01675427|184735904|SUPERIORITY_OR_OTHER|||||||0.2887|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2887
92423912|NCT01675427|184735904|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||< 0.0001
92423913|NCT01675427|184735904|SUPERIORITY_OR_OTHER|||||||0.1634|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.1634
92423914|NCT01675427|184735904|SUPERIORITY_OR_OTHER|||||||0.8956|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.8956
92423915|NCT01675427|184735904|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
92423916|NCT01675427|184735905|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
92423917|NCT01675427|184735905|SUPERIORITY_OR_OTHER|||||||0.0145|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0145
92423918|NCT01675427|184735905|SUPERIORITY_OR_OTHER|||||||0.1027|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1027
92423919|NCT01675427|184735905|SUPERIORITY_OR_OTHER|||||||0.5998|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5998
92423920|NCT01675427|184735905|SUPERIORITY_OR_OTHER|||||||0.2935|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2935
92423921|NCT01675427|184735905|SUPERIORITY_OR_OTHER|||||||0.0039|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0039
92423922|NCT01675427|184735906|SUPERIORITY_OR_OTHER|||||||0.1981|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.1981
92423923|NCT01675427|184735906|SUPERIORITY_OR_OTHER|||||||0.1616|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.1616
92423924|NCT01675427|184735906|SUPERIORITY_OR_OTHER|||||||0.1192|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1192
92423925|NCT01675427|184735906|SUPERIORITY_OR_OTHER|||||||0.4485|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.4485
92423926|NCT01675427|184735906|SUPERIORITY_OR_OTHER|||||||0.1525|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.1525
92423927|NCT01675427|184735906|SUPERIORITY_OR_OTHER|||||||0.7262|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.7262
92423928|NCT01675427|184735907|SUPERIORITY_OR_OTHER|||||||0.0911|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0911
92423929|NCT01675427|184735907|SUPERIORITY_OR_OTHER|||||||0.4674|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.4674
92423930|NCT01675427|184735907|SUPERIORITY_OR_OTHER|||||||0.1604|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1604
92423931|NCT01675427|184735907|SUPERIORITY_OR_OTHER|||||||0.5937|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5937
92423932|NCT01675427|184735907|SUPERIORITY_OR_OTHER|||||||0.383|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3830
92423933|NCT01675427|184735907|SUPERIORITY_OR_OTHER|||||||0.0507|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0507
92239771|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.4||||||95.0|-3.7|2.8||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.8|-3.7|
92423934|NCT01675427|184735908|SUPERIORITY_OR_OTHER|||||||0.8686|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.8686
92423935|NCT01675427|184735908|SUPERIORITY_OR_OTHER|||||||0.3135|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.3135
92423936|NCT01675427|184735908|SUPERIORITY_OR_OTHER|||||||0.0578|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0578
92423937|NCT01675427|184735908|SUPERIORITY_OR_OTHER|||||||0.5833|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5833
92423938|NCT01675427|184735908|SUPERIORITY_OR_OTHER|||||||0.161|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.1610
92423939|NCT01675427|184735908|SUPERIORITY_OR_OTHER|||||||0.2925|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.2925
92423940|NCT01675427|184735909|SUPERIORITY_OR_OTHER|||||||0.3709|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.3709
92423941|NCT01675427|184735909|SUPERIORITY_OR_OTHER|||||||0.2054|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2054
92423942|NCT01675427|184735909|SUPERIORITY_OR_OTHER|||||||0.8457|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.8457
92423943|NCT01675427|184735909|SUPERIORITY_OR_OTHER|||||||0.3492|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3492
92239772|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-2.9||||||95.0|-6.9|0.7||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||0.7|-6.9|
92423944|NCT01675427|184735909|SUPERIORITY_OR_OTHER|||||||0.2846|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2846
92423945|NCT01675427|184735909|SUPERIORITY_OR_OTHER|||||||0.2646|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.2646
92423946|NCT01675427|184735910|SUPERIORITY_OR_OTHER|||||||0.5348|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.5348
92423947|NCT01675427|184735910|SUPERIORITY_OR_OTHER|||||||0.5469|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.5469
92423948|NCT01675427|184735910|SUPERIORITY_OR_OTHER|||||||0.0463|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0463
92423949|NCT01675427|184735910|SUPERIORITY_OR_OTHER|||||||0.9393|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.9393
92423950|NCT01675427|184735910|SUPERIORITY_OR_OTHER|||||||0.3404|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3404
92423951|NCT01675427|184735910|SUPERIORITY_OR_OTHER|||||||0.4237|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.4237
92423952|NCT01675427|184735911|SUPERIORITY_OR_OTHER|||||||0.251|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.2510
92423953|NCT01675427|184735911|SUPERIORITY_OR_OTHER|||||||0.2943|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2943
92423954|NCT01675427|184735911|SUPERIORITY_OR_OTHER|||||||0.0478|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0478
92423955|NCT01675427|184735911|SUPERIORITY_OR_OTHER|||||||0.5387|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5387
92423956|NCT01675427|184735911|SUPERIORITY_OR_OTHER|||||||0.3878|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3878
92423957|NCT01675427|184735911|SUPERIORITY_OR_OTHER|||||||0.0748|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0748
92423958|NCT01675427|184735912|SUPERIORITY_OR_OTHER|||||||0.9887|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.9887
92423959|NCT01675427|184735912|SUPERIORITY_OR_OTHER|||||||0.5507|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.5507
92423960|NCT01675427|184735912|SUPERIORITY_OR_OTHER|||||||0.0175|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0175
92423961|NCT01675427|184735912|SUPERIORITY_OR_OTHER|||||||0.2246|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.2246
92423962|NCT01675427|184735912|SUPERIORITY_OR_OTHER|||||||0.3519|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3519
92236444|NCT04192448|184376631|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|-0.17||||0.44|TWO_SIDED|95.0|-10.84|11.17|||t-test, 1 sided|The t-test examined the difference in psychological aggression intentions between those in the Anger condition and those in the Control condition.|The estimation parameter refers to the mean difference in the outcome between those in the Alcohol condition and those in the Sober condition. A negative value indicates greater likelihood of psych aggression among those in the Control condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||11.17|-10.84|.44
92236445|NCT00435539|184376645|SUPERIORITY_OR_OTHER|||||||0.4783|||||||Fisher Exact|||||||0.4783
92236446|NCT00435539|184376645|SUPERIORITY_OR_OTHER|||||||0.0932|||||||Fisher Exact|||||||0.0932
92236447|NCT00435539|184376645|SUPERIORITY_OR_OTHER|||||||0.0721|||||||Fisher Exact|||||||0.0721
92423963|NCT01675427|184735912|SUPERIORITY_OR_OTHER|||||||0.714|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.7140
92423964|NCT01675427|184735913|SUPERIORITY_OR_OTHER|||||||0.8622|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.8622
92423965|NCT01675427|184735913|SUPERIORITY_OR_OTHER|||||||0.1622|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.1622
92423966|NCT01675427|184735913|SUPERIORITY_OR_OTHER|||||||0.2566|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.2566
92423967|NCT01675427|184735913|SUPERIORITY_OR_OTHER|||||||0.1574|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.1574
92423968|NCT01675427|184735913|SUPERIORITY_OR_OTHER|||||||0.5784|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.5784
92423969|NCT01675427|184735913|SUPERIORITY_OR_OTHER|||||||0.6603|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.6603
92423970|NCT01675427|184735914|SUPERIORITY_OR_OTHER|||||||0.0605|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0605
92423971|NCT01675427|184735914|SUPERIORITY_OR_OTHER|||||||0.0899|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0899
92423972|NCT01675427|184735914|SUPERIORITY_OR_OTHER|||||||0.0634|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0634
92423973|NCT01675427|184735914|SUPERIORITY_OR_OTHER|||||||0.6165|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.6165
92236448|NCT00435539|184376646|SUPERIORITY_OR_OTHER|||||||0.4762|||||||Fisher Exact|||||||0.4762
92236449|NCT00435539|184376646|SUPERIORITY_OR_OTHER|||||||0.4762|||||||Fisher Exact|||||||0.4762
92236450|NCT00435539|184376646|SUPERIORITY_OR_OTHER|||||||0.5343|||||||Fisher Exact|||||||0.5343
92236451|NCT00474630|184376743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.28|||<|0.001||95.0|-4.34|-2.22|||ANCOVA|||||-2.22|-4.34|<0.001
92236452|NCT00474630|184376744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49|||<|0.001|TWO_SIDED|95.0|-0.71|-0.27|||ANCOVA|||||-0.27|-0.71|<0.001
92236453|NCT00474630|184376745|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.44|||<|0.001|TWO_SIDED|95.0|2.15|5.5|||Regression, Logistic|||||5.50|2.15|<0.001
92236454|NCT00474630|184376746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.4||||0.007|TWO_SIDED||||||ANCOVA|||||||0.007
92423974|NCT01675427|184735914|SUPERIORITY_OR_OTHER|||||||0.1649|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.1649
92423975|NCT01675427|184735914|SUPERIORITY_OR_OTHER|||||||0.9159|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.9159
92423976|NCT01675427|184735915|SUPERIORITY_OR_OTHER|||||||0.7454|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.7454
92423977|NCT01675427|184735915|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0016
92423978|NCT01675427|184735915|SUPERIORITY_OR_OTHER|||||||0.5261|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.5261
92423979|NCT01675427|184735915|SUPERIORITY_OR_OTHER|||||||0.3422|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3422
92423980|NCT01675427|184735915|SUPERIORITY_OR_OTHER|||||||0.9026|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.9026
92423981|NCT01675427|184735916|SUPERIORITY_OR_OTHER|||||||0.0017|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0017
92423982|NCT01675427|184735916|SUPERIORITY_OR_OTHER|||||||0.8864|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.8864
92423983|NCT01675427|184735916|SUPERIORITY_OR_OTHER|||||||0.0291|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0291
92423984|NCT01675427|184735916|SUPERIORITY_OR_OTHER|||||||0.5472|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5472
92423985|NCT01675427|184735916|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||1.000
92423986|NCT01675427|184735916|SUPERIORITY_OR_OTHER|||||||0.1148|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.1148
92423987|NCT01675427|184735917|SUPERIORITY_OR_OTHER|||||||0.4207|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.4207
92423988|NCT01675427|184735917|SUPERIORITY_OR_OTHER|||||||0.0566|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0566
92423989|NCT01675427|184735917|SUPERIORITY_OR_OTHER|||||||0.1211|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1211
92423990|NCT01675427|184735917|SUPERIORITY_OR_OTHER|||||||0.3772|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3772
92423991|NCT01675427|184735917|SUPERIORITY_OR_OTHER|||||||0.4023|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.4023
92423992|NCT01675427|184735918|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
92423993|NCT01675427|184735918|SUPERIORITY_OR_OTHER|||||||0.2132|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2132
92423994|NCT01675427|184735918|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||< 0.0001
92423995|NCT01675427|184735918|SUPERIORITY_OR_OTHER|||||||0.3031|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3031
92423996|NCT01675427|184735918|SUPERIORITY_OR_OTHER|||||||0.955|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.9550
92423997|NCT01675427|184735918|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
92423998|NCT01675427|184735919|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
92423999|NCT01675427|184735919|SUPERIORITY_OR_OTHER|||||||0.189|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.1890
92424000|NCT01675427|184735919|SUPERIORITY_OR_OTHER|||||||0.5793|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.5793
92424001|NCT01675427|184735919|SUPERIORITY_OR_OTHER|||||||0.0847|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0847
92424002|NCT01675427|184735919|SUPERIORITY_OR_OTHER|||||||0.5506|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.5506
92424003|NCT01675427|184735919|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0020
92424004|NCT01675427|184735920|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0007
92424005|NCT01675427|184735920|SUPERIORITY_OR_OTHER|||||||0.0061|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0061
92424006|NCT01675427|184735920|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||< 0.0001
92424007|NCT01675427|184735920|SUPERIORITY_OR_OTHER|||||||0.3885|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3885
92424008|NCT01675427|184735920|SUPERIORITY_OR_OTHER|||||||0.3597|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3597
92424009|NCT01675427|184735920|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
92424010|NCT01675427|184735921|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
92424011|NCT01675427|184735921|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0005
92424012|NCT01675427|184735921|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0110
92424013|NCT01675427|184735921|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0980
92424014|NCT01675427|184735921|SUPERIORITY_OR_OTHER|||||||0.2264|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2264
92424015|NCT01675427|184735921|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
92424016|NCT01675427|184735922|SUPERIORITY_OR_OTHER|||||||0.0098|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0098
92424017|NCT01675427|184735922|SUPERIORITY_OR_OTHER|||||||0.6291|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.6291
92424018|NCT01675427|184735922|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0013
92424019|NCT01675427|184735922|SUPERIORITY_OR_OTHER|||||||0.5588|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5588
92424020|NCT01675427|184735922|SUPERIORITY_OR_OTHER|||||||0.9932|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.9932
92424021|NCT01675427|184735922|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
92424022|NCT01675427|184735923|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0007
92424023|NCT01675427|184735923|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0020
92424024|NCT01675427|184735923|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0013
92424025|NCT01675427|184735923|SUPERIORITY_OR_OTHER|||||||0.7166|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.7166
92424026|NCT01675427|184735923|SUPERIORITY_OR_OTHER|||||||0.3217|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3217
92424027|NCT01675427|184735923|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
92424028|NCT01675427|184735924|SUPERIORITY_OR_OTHER|||||||0.1894|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.1894
92424029|NCT01675427|184735924|SUPERIORITY_OR_OTHER|||||||0.0054|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0054
92424030|NCT01675427|184735924|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||< 0.0001
92424031|NCT01675427|184735924|SUPERIORITY_OR_OTHER|||||||0.536|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5360
92424032|NCT01675427|184735924|SUPERIORITY_OR_OTHER|||||||0.2185|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2185
92424033|NCT01675427|184735924|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
92424034|NCT01675427|184735925|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0002
92424035|NCT01675427|184735925|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0003
92424036|NCT01675427|184735925|SUPERIORITY_OR_OTHER|||||||0.0106|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0106
92424037|NCT01675427|184735925|SUPERIORITY_OR_OTHER|||||||0.7821|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.7821
92424038|NCT01675427|184735925|SUPERIORITY_OR_OTHER|||||||0.2372|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2372
92424039|NCT01675427|184735925|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
92424040|NCT01675427|184735926|SUPERIORITY_OR_OTHER|||||||0.0688|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0688
92424041|NCT01675427|184735926|SUPERIORITY_OR_OTHER|||||||0.4367|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.4367
92424042|NCT01675427|184735926|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||< 0.0001
92424043|NCT01675427|184735926|SUPERIORITY_OR_OTHER|||||||0.1951|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.1951
92424044|NCT01675427|184735926|SUPERIORITY_OR_OTHER|||||||0.2927|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2927
92424045|NCT01675427|184735926|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0013
92424046|NCT01675427|184735927|SUPERIORITY_OR_OTHER|||||||0.0247|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0247
92424047|NCT01675427|184735927|SUPERIORITY_OR_OTHER|||||||0.0034|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0034
92424048|NCT01675427|184735927|SUPERIORITY_OR_OTHER|||||||0.0017|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0017
92279451|NCT00095199|184462041|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.091|TWO_SIDED|95.0|0.46|1.06||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.06|0.46|0.091
92424049|NCT01675427|184735927|SUPERIORITY_OR_OTHER|||||||0.3346|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3346
92424050|NCT01675427|184735927|SUPERIORITY_OR_OTHER|||||||0.3215|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3215
92424051|NCT01675427|184735927|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0003
92424052|NCT01675427|184735928|SUPERIORITY_OR_OTHER|||||||0.3609|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.3609
92424053|NCT01675427|184735928|SUPERIORITY_OR_OTHER|||||||0.0018|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0018
92424054|NCT01675427|184735928|SUPERIORITY_OR_OTHER|||||||0.0356|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0356
92424055|NCT01675427|184735928|SUPERIORITY_OR_OTHER|||||||0.7044|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.7044
92424056|NCT01675427|184735928|SUPERIORITY_OR_OTHER|||||||0.8578|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.8578
92424057|NCT01675427|184735928|SUPERIORITY_OR_OTHER|||||||0.0076|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0076
92424058|NCT01675427|184735929|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0002
92424059|NCT01675427|184735929|SUPERIORITY_OR_OTHER|||||||0.2017|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2017
92424060|NCT01675427|184735929|SUPERIORITY_OR_OTHER|||||||0.5878|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.5878
92424061|NCT01675427|184735929|SUPERIORITY_OR_OTHER|||||||0.4144|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.4144
92424062|NCT01675427|184735929|SUPERIORITY_OR_OTHER|||||||0.4492|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.4492
92424063|NCT01675427|184735929|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
92424064|NCT01675427|184735930|SUPERIORITY_OR_OTHER|||||||0.0671|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0671
92424065|NCT01675427|184735930|SUPERIORITY_OR_OTHER|||||||0.1009|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.1009
92424066|NCT01675427|184735930|SUPERIORITY_OR_OTHER|||||||0.0635|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0635
92424067|NCT01675427|184735930|SUPERIORITY_OR_OTHER|||||||0.4162|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.4162
92424068|NCT01675427|184735930|SUPERIORITY_OR_OTHER|||||||0.9305|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.9305
92424069|NCT01675427|184735930|SUPERIORITY_OR_OTHER|||||||0.0041|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0041
92424070|NCT01675427|184735931|SUPERIORITY_OR_OTHER|||||||0.0059|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0059
92424071|NCT01675427|184735931|SUPERIORITY_OR_OTHER|||||||0.2808|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2808
92424072|NCT01675427|184735931|SUPERIORITY_OR_OTHER|||||||0.2401|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.2401
92424073|NCT01675427|184735931|SUPERIORITY_OR_OTHER|||||||0.2993|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.2993
92424074|NCT01675427|184735931|SUPERIORITY_OR_OTHER|||||||0.5529|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.5529
92424075|NCT01675427|184735931|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0005
92424076|NCT01675427|184735932|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
92424077|NCT01675427|184735932|SUPERIORITY_OR_OTHER|||||||0.3572|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.3572
92424078|NCT01675427|184735932|SUPERIORITY_OR_OTHER|||||||0.2041|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.2041
92236455|NCT00474630|184376747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.32|||<|0.001|TWO_SIDED|95.0|1.8|4.84|||ANCOVA|||||4.84|1.80|<0.001
92424079|NCT01675427|184735932|SUPERIORITY_OR_OTHER|||||||0.0467|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.0467
92424080|NCT01675427|184735932|SUPERIORITY_OR_OTHER|||||||0.0525|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.0525
92424081|NCT01675427|184735932|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
92424082|NCT01675427|184735933|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
92424083|NCT01675427|184735933|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||< 0.0001
92424084|NCT01675427|184735933|SUPERIORITY_OR_OTHER|||||||0.5275|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.5275
92424085|NCT01675427|184735933|SUPERIORITY_OR_OTHER|||||||0.6593|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.6593
92424086|NCT01675427|184735933|SUPERIORITY_OR_OTHER|||||||0.0372|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.0372
92424087|NCT01675427|184735933|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
92424088|NCT01675427|184735934|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
92424089|NCT01675427|184735934|SUPERIORITY_OR_OTHER|||||||0.3857|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.3857
92424090|NCT01675427|184735934|SUPERIORITY_OR_OTHER|||||||0.2356|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.2356
92170480|NCT02554786|184229839|SUPERIORITY||LS Mean|8.1|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|3.7|12.5|||LMM|||||12.5|3.7|<0.001
92236456|NCT00474630|184376748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.85||||0.065|TWO_SIDED|95.0|-16.21|0.5|||ANCOVA|||||0.50|-16.21|0.065
92236457|NCT00474630|184376749|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.08|||||TWO_SIDED|95.0|-3.57|-0.59||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-0.59|-3.57|
92424091|NCT01675427|184735934|SUPERIORITY_OR_OTHER|||||||0.7993|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.7993
92424092|NCT01675427|184735934|SUPERIORITY_OR_OTHER|||||||0.2164|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.2164
92424093|NCT01675427|184735934|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
92424094|NCT01675427|184735935|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
92424095|NCT01675427|184735935|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.0001
92424096|NCT01675427|184735935|SUPERIORITY_OR_OTHER|||||||0.482|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.4820
92424097|NCT01675427|184735935|SUPERIORITY_OR_OTHER|||||||0.8668|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.8668
92424098|NCT01675427|184735935|SUPERIORITY_OR_OTHER|||||||0.2032|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.2032
92424099|NCT01675427|184735935|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
92424100|NCT01675427|184735936|SUPERIORITY_OR_OTHER|||||||0.0103|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||0.0103
92424101|NCT01675427|184735936|SUPERIORITY_OR_OTHER|||||||0.8373|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.8373
92424102|NCT01675427|184735936|SUPERIORITY_OR_OTHER|||||||0.3672|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.3672
92424103|NCT01675427|184735937|SUPERIORITY_OR_OTHER|||||||0.0637|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.0637
92424104|NCT01675427|184735937|SUPERIORITY_OR_OTHER|||||||0.0474|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.0474
92424105|NCT01675427|184735937|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
92424106|NCT01675427|184735938|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
92424107|NCT01675427|184735938|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||< 0.0001
92424108|NCT01675427|184735938|SUPERIORITY_OR_OTHER|||||||0.5522|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.5522
92424109|NCT01675427|184735939|SUPERIORITY_OR_OTHER|||||||0.5117|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.5117
92424110|NCT01675427|184735939|SUPERIORITY_OR_OTHER|||||||0.3437|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.3437
92424111|NCT01675427|184735939|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
92424112|NCT01675427|184735940|SUPERIORITY_OR_OTHER|||||||0.0381|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||0.0381
92424113|NCT01675427|184735940|SUPERIORITY_OR_OTHER|||||||0.6852|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.6852
92424114|NCT01675427|184735940|SUPERIORITY_OR_OTHER|||||||0.1185|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.1185
92424115|NCT01675427|184735941|SUPERIORITY_OR_OTHER|||||||0.2611|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.2611
92424116|NCT01675427|184735941|SUPERIORITY_OR_OTHER|||||||0.6059|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.6059
92424117|NCT01675427|184735941|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0001
92170481|NCT02554786|184229839|SUPERIORITY||LS Mean|3.2|STANDARD_ERROR_OF_MEAN|2.25||0.151|TWO_SIDED|95.0|-1.2|7.7|||LMM|||||7.7|-1.2|0.151
92424118|NCT01675427|184735942|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
92424119|NCT01675427|184735942|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.0048
92424120|NCT01675427|184735942|SUPERIORITY_OR_OTHER|||||||0.5127|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.5127
92424121|NCT01675427|184735943|SUPERIORITY_OR_OTHER|||||||0.3465|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.3465
92424122|NCT01675427|184735943|SUPERIORITY_OR_OTHER|||||||0.7358|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.7358
92424123|NCT01675427|184735943|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
92424124|NCT01675427|184735944|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92424125|NCT01675427|184735945|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92424126|NCT01675427|184735946|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
92424127|NCT01675427|184735947|SUPERIORITY_OR_OTHER|||||||0.0066|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||0.0066
92424128|NCT01675427|184735948|SUPERIORITY_OR_OTHER|||||||0.0018|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.0018
92424129|NCT01675427|184735948|SUPERIORITY_OR_OTHER|||||||0.0425|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.0425
92424130|NCT01675427|184735948|SUPERIORITY_OR_OTHER|||||||0.9829|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.9829
92424131|NCT01675427|184735948|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.6700
92424132|NCT01675427|184735948|SUPERIORITY_OR_OTHER|||||||0.7672|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.7672
92424133|NCT01675427|184735948|SUPERIORITY_OR_OTHER|||||||0.0067|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0067
92424134|NCT01675427|184735949|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.0003
92424135|NCT01675427|184735949|SUPERIORITY_OR_OTHER|||||||0.1637|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.1637
92424136|NCT01675427|184735949|SUPERIORITY_OR_OTHER|||||||0.8579|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.8579
92424137|NCT01675427|184735949|SUPERIORITY_OR_OTHER|||||||0.6935|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.6935
92424138|NCT01675427|184735949|SUPERIORITY_OR_OTHER|||||||0.8124|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.8124
92424139|NCT01675427|184735949|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
92424140|NCT01675427|184735950|SUPERIORITY_OR_OTHER|||||||0.1834|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.1834
92424141|NCT01675427|184735950|SUPERIORITY_OR_OTHER|||||||0.8543|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.8543
92424142|NCT01675427|184735950|SUPERIORITY_OR_OTHER|||||||0.1485|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.1485
92424143|NCT01675427|184735950|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.0260
92424144|NCT01675427|184735950|SUPERIORITY_OR_OTHER|||||||0.5317|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.5317
92424145|NCT01675427|184735950|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0005
92424146|NCT01675427|184735951|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
92424147|NCT01675427|184735951|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||< 0.0001
92170482|NCT02554786|184229840|SUPERIORITY||LS Mean|2.8|STANDARD_ERROR_OF_MEAN|1.72||0.104|TWO_SIDED|95.0|-0.6|6.2|||LMM|||||6.2|-0.6|0.104
92424148|NCT01675427|184735951|SUPERIORITY_OR_OTHER|||||||0.4423|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.4423
92424149|NCT01675427|184735951|SUPERIORITY_OR_OTHER|||||||0.3824|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.3824
92424150|NCT01675427|184735951|SUPERIORITY_OR_OTHER|||||||0.5246|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.5246
92424151|NCT01675427|184735951|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
92424152|NCT01675427|184735952|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
92424153|NCT01675427|184735952|SUPERIORITY_OR_OTHER|||||||0.1947|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.1947
92424154|NCT01675427|184735952|SUPERIORITY_OR_OTHER|||||||0.0226|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.0226
92424155|NCT01675427|184735953|SUPERIORITY_OR_OTHER|||||||0.1158|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.1158
92424156|NCT01675427|184735953|SUPERIORITY_OR_OTHER|||||||0.3675|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.3675
92424157|NCT01675427|184735953|SUPERIORITY_OR_OTHER|||||||0.0948|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0948
92424158|NCT01675427|184735954|SUPERIORITY_OR_OTHER|||||||0.1236|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.1236
92424159|NCT01675427|184735954|SUPERIORITY_OR_OTHER|||||||0.0119|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.0119
92424160|NCT01675427|184735954|SUPERIORITY_OR_OTHER|||||||0.7472|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.7472
92424161|NCT01675427|184735955|SUPERIORITY_OR_OTHER|||||||0.9734|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.9734
92424162|NCT01675427|184735955|SUPERIORITY_OR_OTHER|||||||0.8303|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.8303
92424163|NCT01675427|184735955|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0006
92424164|NCT01675427|184735956|SUPERIORITY_OR_OTHER|||||||0.0065|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.0065
92424165|NCT01675427|184735956|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.9999
92424166|NCT01675427|184735956|SUPERIORITY_OR_OTHER|||||||0.3472|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.3472
92424167|NCT01675427|184735957|SUPERIORITY_OR_OTHER|||||||0.2564|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.2564
92170483|NCT02554786|184229840|SUPERIORITY||LS Mean|3.9|STANDARD_ERROR_OF_MEAN|1.72||0.024|TWO_SIDED|95.0|0.5|7.3|||LMM|||||7.3|0.5|0.024
92236458|NCT00474630|184376750|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.75|||||TWO_SIDED|95.0|1.79|7.88||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||7.88|1.79|
92424168|NCT01675427|184735957|SUPERIORITY_OR_OTHER|||||||0.7361|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.7361
92424169|NCT01675427|184735957|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
92424170|NCT01675427|184735958|SUPERIORITY_OR_OTHER|||||||0.0097|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.0097
92424171|NCT01675427|184735958|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||< 0.0001
92424172|NCT01675427|184735958|SUPERIORITY_OR_OTHER|||||||0.9778|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.9778
92424173|NCT01675427|184735959|SUPERIORITY_OR_OTHER|||||||0.0151|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.0151
92424174|NCT01675427|184735959|SUPERIORITY_OR_OTHER|||||||0.1052|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.1052
92424175|NCT01675427|184735959|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0007
92424176|NCT01675427|184735960|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
92424177|NCT01675427|184735960|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0012
92424178|NCT01675427|184735960|SUPERIORITY_OR_OTHER|||||||0.1717|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1717
92170484|NCT02554786|184229840|SUPERIORITY||LS Mean|0.9|STANDARD_ERROR_OF_MEAN|1.73||0.588|TWO_SIDED|95.0|-2.5|4.3|||LMM|||||4.3|-2.5|0.588
92170485|NCT02554786|184229841|SUPERIORITY||LS Mean|6.4|STANDARD_ERROR_OF_MEAN|2.19||0.003|TWO_SIDED|95.0|2.1|10.7|||LMM|||||10.7|2.1|0.003
92170486|NCT02554786|184229841|SUPERIORITY||LS Mean|8.9|STANDARD_ERROR_OF_MEAN|2.19|<|0.001|TWO_SIDED|95.0|4.6|13.2|||LMM|||||13.2|4.6|<0.001
92170487|NCT02554786|184229841|SUPERIORITY||LS Mean|4.8|STANDARD_ERROR_OF_MEAN|2.2||0.029|TWO_SIDED|95.0|0.5|9.1|||LMM|||||9.1|0.5|0.029
92236459|NCT00474630|184376751|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.46|||||TWO_SIDED|95.0|1.5|4.04||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||4.04|1.50|
92424179|NCT01675427|184735960|SUPERIORITY_OR_OTHER|||||||0.0253|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0253
92424180|NCT01675427|184735961|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
92424181|NCT01675427|184735961|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0330
92424182|NCT01675427|184735961|SUPERIORITY_OR_OTHER|||||||0.1595|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1595
92424183|NCT01675427|184735961|SUPERIORITY_OR_OTHER|||||||0.0412|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0412
92424184|NCT01675427|184735962|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||< 0.0001
92424185|NCT01675427|184735962|SUPERIORITY_OR_OTHER|||||||0.0421|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.0421
92424186|NCT01675427|184735962|SUPERIORITY_OR_OTHER|||||||0.7658|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.7658
92424187|NCT01675427|184735962|SUPERIORITY_OR_OTHER|||||||0.295|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.2950
92424188|NCT01675427|184735963|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||< 0.0001
92424189|NCT01675427|184735963|SUPERIORITY_OR_OTHER|||||||0.0827|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.0827
92424190|NCT01675427|184735963|SUPERIORITY_OR_OTHER|||||||0.7817|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.7817
92424191|NCT01675427|184735963|SUPERIORITY_OR_OTHER|||||||0.1986|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.1986
92170488|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.13|STANDARD_ERROR_OF_MEAN|0.039||0.001|TWO_SIDED|95.0|-0.2|-0.05|||LMM|||Week1-26 Mean night-time number of puffs||-0.05|-0.2|0.001
92424192|NCT01675427|184735964|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
92424193|NCT01675427|184735964|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0002
92424194|NCT01675427|184735964|SUPERIORITY_OR_OTHER|||||||0.0394|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0394
92424195|NCT01675427|184735964|SUPERIORITY_OR_OTHER|||||||0.0493|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0493
92424196|NCT01675427|184735965|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
92424197|NCT01675427|184735965|SUPERIORITY_OR_OTHER|||||||0.0196|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0196
92424198|NCT01675427|184735965|SUPERIORITY_OR_OTHER|||||||0.3268|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.3268
92424199|NCT01675427|184735965|SUPERIORITY_OR_OTHER|||||||0.1667|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.1667
92424200|NCT01675427|184735966|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G1||||0.0021
92424201|NCT01675427|184735966|SUPERIORITY_OR_OTHER|||||||0.5319|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G2||||0.5319
92424202|NCT01675427|184735966|SUPERIORITY_OR_OTHER|||||||0.0114|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G3||||0.0114
92424203|NCT01675427|184735966|SUPERIORITY_OR_OTHER|||||||0.2293|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G4||||0.2293
92424204|NCT01675427|184735966|SUPERIORITY_OR_OTHER|||||||0.2857|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.2857
92424205|NCT01675427|184735966|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.0001
92424206|NCT01675427|184735967|SUPERIORITY_OR_OTHER|||||||0.0081|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G1||||0.0081
92424207|NCT01675427|184735967|SUPERIORITY_OR_OTHER|||||||0.0563|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G2||||0.0563
92424208|NCT01675427|184735967|SUPERIORITY_OR_OTHER|||||||0.3516|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G3||||0.3516
92424209|NCT01675427|184735967|SUPERIORITY_OR_OTHER|||||||0.0064|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G4||||0.0064
92424210|NCT01675427|184735967|SUPERIORITY_OR_OTHER|||||||0.2707|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.2707
92424211|NCT01675427|184735967|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||< 0.0001
92424212|NCT01675427|184735968|SUPERIORITY_OR_OTHER|||||||0.0634|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G1||||0.0634
92424213|NCT01675427|184735968|SUPERIORITY_OR_OTHER|||||||0.7176|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G2||||0.7176
92424214|NCT01675427|184735968|SUPERIORITY_OR_OTHER|||||||0.3944|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G3||||0.3944
92424215|NCT01675427|184735968|SUPERIORITY_OR_OTHER|||||||0.861|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G4||||0.8610
92424216|NCT01675427|184735968|SUPERIORITY_OR_OTHER|||||||0.4543|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.4543
92424217|NCT01675427|184735968|SUPERIORITY_OR_OTHER|||||||0.0406|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.0406
92424218|NCT01675427|184735969|SUPERIORITY_OR_OTHER|||||||0.8234|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G1||||0.8234
92424219|NCT01675427|184735969|SUPERIORITY_OR_OTHER|||||||0.2427|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G2||||0.2427
92424220|NCT01675427|184735969|SUPERIORITY_OR_OTHER|||||||0.4805|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G3||||0.4805
92424221|NCT01675427|184735969|SUPERIORITY_OR_OTHER|||||||0.2901|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G4||||0.2901
92424222|NCT01675427|184735969|SUPERIORITY_OR_OTHER|||||||0.3927|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.3927
92424223|NCT01675427|184735969|SUPERIORITY_OR_OTHER|||||||0.5769|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.5769
92446517|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-1.2|STANDARD_ERROR_OF_MEAN|1.014||0.238|TWO_SIDED|95.0|-3.21|0.8||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 4||0.80|-3.21|0.238
92170489|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.08|STANDARD_ERROR_OF_MEAN|0.039||0.035|TWO_SIDED|95.0|-0.16|-0.01|||LMM|||Week 1-26 Mean night-time number of puffs||-0.01|-0.16|0.035
92236460|NCT00474630|184376752|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.35|0.86||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.86|0.35|
92424224|NCT05021081|184735979|OTHER|The least-square means (i.e., adjusted means) of photopic contrast sensitivity at 6 cpd was estimated separately under conditions with glare source and without glare source. This endpoint was not statistically tested, and consequentially statistical interferences was not made.|Least-square Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.114|||TWO_SIDED|95.0|-0.7|-0.21|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as With glare minus Without glare|The sample size was chosen based on resources in conjunction, subject matter experts, and any available literature. To help ensure the glare source intensity, a small pilot investigation per the ANSI Z80.12-2007 standard was interpreted to be about 20 subjects to complete Phase 1, which should be sufficient to evaluate the mean photopic contrast sensitivity with and without the glare source.||-0.21|-0.70|
92424225|NCT05021081|184735980|OTHER|The least-square means (i.e., adjusted means) of mesopic contrast sensitivity at 6 cpd was estimated separately under conditions with glare source and without glare source. This endpoint was not statistically tested, and consequentially statistical interferences was not made.|Least-square Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.102|||TWO_SIDED|95.0|-0.81|-0.36|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as With glare minus Without glare|The sample size was chosen based on resources in conjunction, subject matter experts, and any available literature. To help ensure the glare source intensity, a small pilot investigation per the ANSI Z80.12-2007 standard was interpreted to be about 20 subjects to complete Phase 1, which should be sufficient to evaluate the mean mesopic contrast sensitivity with and without the glare source.||-0.36|-0.81|
92424226|NCT05021081|184735981|SUPERIORITY|Superiority was declared if the upper bound of the 2-sided 95% confidence interval of the mean difference was below 0.|Least-square Mean Difference|0.019|STANDARD_ERROR_OF_MEAN|0.024|||TWO_SIDED|95.0|-0.029|0.068|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|Given no historical data is available, the sample size was not determined based on any empirical sample size calculation. A power analysis was conducted using a paired sample t-test (exact method) with a 2-sided type I error rate 0.05 to estimate statistical power based on different assumptions. The power analysis showed that the statistical power for testing superiority would be approximately 80% or higher with the effect size of -0.05 (mean difference: Test minus Control).||0.068|-0.029|
92424227|NCT03387683|184736008|OTHER||Difference in LSM|0.31121|STANDARD_ERROR_OF_MEAN|0.46184||0.504|TWO_SIDED|95.0|-0.619|1.24141||Statistical significance was inferred at a (2-sided) 0.05 level.|ANCOVA|The LSM estimate and corresponding p-value were obtained from a linear model with treatment and baseline value of the endpoint as covariates.||Difference in LSM (Placebo-Dapagliflozin 10 mg)||1.24141|-0.61900|0.504
92424228|NCT03387683|184736009|OTHER||Difference in LSM|1.74969|STANDARD_ERROR_OF_MEAN|2.18363||0.427|TWO_SIDED|95.0|-2.64837|6.14775||Statistical significance was inferred at a (2-sided) 0.05 level.|ANCOVA|The LSM estimate and corresponding p-value were obtained from a linear model with treatment and baseline value of the endpoint as covariates.||Difference in LSM (Placebo - Dapagliflozin 10 mg)||6.14775|-2.64837|0.427
92424229|NCT00057876|184736042|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017|ONE_SIDED|95.0|||||Log Rank|||Log rank test is conducted for OS to see whether the two treatment arms are different in their overall survival probabilities.||||0.017
92424230|NCT00057876|184736043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|ONE_SIDED|95.0|||||Log Rank|||||||0.25
92424231|NCT00057876|184736044|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99|||||||Fisher Exact|||Compare objective response rate (CR+PR) between two treatment groups||||0.99
92424232|NCT02758171|184736059|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence acceptable range of 80.00% to 125.00%.|Adjusted geometric mean (gMean) ratio|101.71|STANDARD_DEVIATION|5.8|<|0.0001|TWO_SIDED|90.0|99.818|103.644|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||103.644|99.818|<0.0001
92424233|NCT02758171|184736060|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence acceptable range of 80.00% to 125.00%.|Adjusted geometric mean (gMean) ratio|99.39|STANDARD_DEVIATION|13.1|<|0.0001|TWO_SIDED|90.0|95.29|103.672|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||103.672|95.290|<0.0001
92424234|NCT02758171|184736061|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence acceptable range of 80.00% to 125.00%.|Adjusted geometric mean (gMean) ratio|102.33|STANDARD_DEVIATION|13.6|<|0.0001|TWO_SIDED|90.0|97.945|106.91|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||106.910|97.945|<0.0001
92170490|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.039||0.261|TWO_SIDED|95.0|-0.12|0.03|||LMM|||Week 1-26 Mean night-time number of puffs||0.03|-0.12|0.261
92170491|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.19|STANDARD_ERROR_OF_MEAN|0.047|<|0.001|TWO_SIDED|95.0|-0.28|-0.09|||LMM|||Week 1-26 Mean daytime number of puffs||-0.09|-0.28|<0.001
92424235|NCT02758171|184736062|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence acceptable range of 80.00% to 125.00%.|Adjusted geometric mean (gMean) ratio|107.51|STANDARD_DEVIATION|27.4||0.0027|TWO_SIDED|90.0|98.561|117.282|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||117.282|98.561|0.0027
92424236|NCT02758171|184736063|SUPERIORITY_OR_OTHER||Adjusted geometric mean (gMean) ratio|101.44|STANDARD_DEVIATION|5.7|||TWO_SIDED|90.0|99.574|103.336|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||103.336|99.574|
92424237|NCT02758171|184736064|SUPERIORITY_OR_OTHER||Adjusted geometric mean (gMean) ratio|98.15|STANDARD_DEVIATION|15.2|||TWO_SIDED|90.0|93.456|103.082|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||103.082|93.456|
92424238|NCT03840174|184736082|OTHER||GMT Ratio|77.7|||||TWO_SIDED|95.0|23.9|252.4|||||Geometric Mean Titer (GMT) ratio and 95% CI were estimated using an ANOVA model.|||252.4|23.9|
92424239|NCT02617888|184736099|SUPERIORITY||Slope|0.08|||<|0.05|TWO_SIDED||||||Regression, Linear|||||||<0.05
92424240|NCT00178633|184736102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<.0001
92424241|NCT00568685|184736136|SUPERIORITY_OR_OTHER|||||||0.0048||95.0||||This is the p value for CGI-ADHD-S score change at endpoint|Mixed Models Analysis|||||||0.0048
92170492|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.12|STANDARD_ERROR_OF_MEAN|0.047||0.011|TWO_SIDED|95.0|-0.21|-0.03|||LMM|||Week 1-26 Mean daytime number of puffs||-0.03|-0.21|0.011
92424242|NCT00568685|184736137|SUPERIORITY_OR_OTHER|||||||0.0153||95.0||||This is the p value for CGI-ADHD-I score change at endpoint|Mixed Models Analysis|||||||0.0153
92424243|NCT00568685|184736138|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||P-value relates to the sum of adverse events leading to discontinuation.|Fisher Exact|||||||.4500
92424244|NCT00568685|184736139|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||ANCOVA|||||||0.0240
92424245|NCT00568685|184736141|SUPERIORITY_OR_OTHER|||||||0.8005||95.0||||This is the p value for heart rate change at endpoint|ANOVA|||||||0.8005
92424246|NCT00568685|184736142|SUPERIORITY_OR_OTHER|||||||0.4128||95.0||||This is the p value for temperature change at endpoint|ANOVA|||||||0.4128
92424247|NCT00568685|184736143|SUPERIORITY_OR_OTHER|||||||0.9761||95.0||||This is the p value for systolic change at endpoint|ANOVA|||||||0.9761
92424248|NCT00568685|184736143|SUPERIORITY_OR_OTHER|||||||0.6419||95.0||||This is the p value for diastolic change at endpoint|ANOVA|||||||0.6419
92424249|NCT00568685|184736144|SUPERIORITY_OR_OTHER|||||||0.2213||95.0||||This is the p value for weight change at endpoint|ANOVA|||||||0.2213
92170493|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.04|STANDARD_DEVIATION|0.047||0.425|TWO_SIDED|95.0|-0.13|0.06|||LMM|||Week 1-26 Mean daytime number of puffs||0.06|-0.13|0.425
92170494|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.31|STANDARD_ERROR_OF_MEAN|0.081|<|0.001|TWO_SIDED|95.0|-0.46|-0.15|||LMM|||Week 1-26 Mean daily number of puffs||-0.15|-0.46|<0.001
92170495|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.19|STANDARD_ERROR_OF_MEAN|0.081||0.017|TWO_SIDED|95.0|-0.35|-0.03|||LMM|||Week 1-26 Mean daily number of puffs||-0.03|-0.35|0.017
92170496|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.09|STANDARD_ERROR_OF_MEAN|0.081||0.29|TWO_SIDED|95.0|-0.24|-0.07|||LMM|||Week 1-26 Mean daily number of puffs||-0.07|-0.24|0.29
92424250|NCT02787551|184736145|SUPERIORITY||Least square (LS) mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001|TWO_SIDED|95.0|-0.77|-0.508||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using Mixed-effect model with repeated measures (MMRM) with treatment groups, randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), GLP-1 RA subtype at screening, visits, treatment-by-visit interaction, world region as fixed effects, baseline HbA1c value-by-visit interaction as a covariate. Analysis included all scheduled measurements obtained during 26-week randomized treatment period, including those obtained after IMP discontinuation/introduction of rescue medication.||-0.508|-0.770|<0.0001
92424251|NCT02787551|184736147|SUPERIORITY||Difference in percentage|36.05|||<|0.0001|TWO_SIDED|95.0|28.11|43.99||Threshold for significance \<=0.05|Cochran-Mantel-Haenszel|||HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs GLP-1 Receptor Agonist. Analysis was performed using Cochran-Mantel-Haenszel method method stratified on randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), and randomization strata of GLP-1 receptor agonist subtype at screening. Hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially per pre-specified order (only HbA1c \< 7% was part of testing).||43.99|28.11|<.0001
92424252|NCT02787551|184736149|SUPERIORITY||LS Mean Difference|-1.67|STANDARD_ERROR_OF_MEAN|0.168|<|0.0001|TWO_SIDED|95.0|-2.001|-1.341||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM with treatment groups, randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), randomization strata of GLP-1 RA subtype at screening, scheduled visit, treatment-by-visit interaction, and world region as fixed effects, and and baseline FPG value-by visit interaction as a covariate. Testing according to the hierarchical testing procedure (continued only if previous outcome measures were statistically significant).||-1.341|-2.001|<0.0001
92424253|NCT02787551|184736151|SUPERIORITY||LS Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.157|<|0.0001|TWO_SIDED|95.0|-1.325|-0.708||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM with treatment groups, randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), randomization strata of GLP-1 RA subtype at screening, scheduled visit, treatment-by-visit interaction, and world region as fixed effects, and baseline average SMPG value-by-visit interaction as a covariate. Testing according to the hierarchical testing procedure (continued only if previous outcome measures were statistically significant).||-0.708|-1.325|<0.0001
92424254|NCT02787551|184736153|SUPERIORITY||LS Mean Difference|-2.85|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-3.42|-2.279||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), randomization strata of GLP-1 RA subtype (once/twice daily formulations, once weekly formulations) at screening, and world region as fixed effects and baseline 2-hour PPG value as a covariate. Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).||-2.279|-3.420|<0.0001
92424255|NCT02787551|184736155|SUPERIORITY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.244|<|0.0001|TWO_SIDED|95.0|-1.468|-0.508||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with treatment groups, randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), randomization strata of GLP-1 receptor agonist subtype (once/twice daily formulations, once weekly formulations) at screening, and world region as fixed effects and baseline 2-hour plasma glucose excursion value as a covariate. Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).||-0.508|-1.468|<0.0001
92424256|NCT01224665|184736189|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.45|TWO_SIDED|95.0|0.86|1.4||Using an intention-to-treat analysis, we specified a stratified log-rank test with a one-sided alpha of 0.025.|Log Rank|Adjustments were made for the following stratification factors: neoadjuvant chemotherapy, clinical T stage, and Zubrod performance score.|Adjustments were made for the following stratification factors: neoadjuvant chemotherapy, clinical T stage, and Zubrod performance score.|3-year DFS estimates of 55% among participants undergoing SLND and 65% undergoing ELND were used to estimate the target HR. Assuming exponential DFS distribution, 5 years of enrollment, 3 years of follow-up, and 564 eligible participants, the trial would have 85% power to detect a 28% lower risk of recurrence or death with ELND than SLND.||1.40|0.86|0.45
92424257|NCT01224665|184736190|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.88|1.45|||||Adjustments were made for the following stratification factors: neoadjuvant chemotherapy, clinical T stage, and Zubrod performance score.|We assumed that the standard lymphadenectomy arm has 5-year survival of 55%, so we had 83% statistical power to detect a hazard ratio of 0.72 (55% vs. 65% survival at 5 years).||1.45|0.88|
92424258|NCT03029702|184736225|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.9
92236461|NCT00474630|184376753|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43|||||TWO_SIDED|95.0|0.27|7.57||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||7.57|0.27|
92424259|NCT03029702|184736226|SUPERIORITY|||||||0.8|||||||Fisher Exact|||||||0.8
92424260|NCT03029702|184736227|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.9
92424261|NCT03029702|184736228|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.9
92424262|NCT03029702|184736229|SUPERIORITY|||||||0.8|||||||Fisher Exact|||||||0.8
92424263|NCT03029702|184736230|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.6
92424264|NCT03029702|184736231|SUPERIORITY|||||||0.8|||||||Chi-squared|||||||0.8
92424265|NCT03029702|184736232|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
92424266|NCT02452697|184736236|SUPERIORITY|||||||0.4|||||||Log Rank|||||||0.40
92170497|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.11|STANDARD_ERROR_OF_MEAN|0.039||0.004|TWO_SIDED|95.0|-0.19|-0.04|||LMM|||Week 1-52 Mean night-time number of puffs||-0.04|-0.19|0.004
92424267|NCT04246372|184736247|OTHER||Effect size (Cohen's d)|-0.84||||6.21e-06|||||||t-test, 2 sided|Two-sided paired Student t test comparing the values for each participant at Baseline and 16 weeks.||||||0.00000621
92424268|NCT04246372|184736248|OTHER||Effect size (Cohen's d)|-0.91||||6.1e-07||||||Two-sided paired Student t test comparing the values for each participant at Baseline and 16 weeks.|t-test, 2 sided|||||||0.00000061
92424269|NCT04246372|184736249|OTHER||Effect size (Cohen's d)|-1.03||||4e-08|TWO_SIDED|||||Two-sided paired Student t test comparing the values for each participant at Baseline and 16 weeks.|t-test, 2 sided|||||||0.00000004
92424270|NCT04246372|184736251|OTHER||Effect size (Cohen's d)|-1.14||||3.93e-05||||||Two-sided paired Student t test comparing the values for each participant at Baseline and 16 weeks.|t-test, 2 sided|||||||0.0000393
92424271|NCT04246372|184736252|OTHER||Effect size (Cohen's d)|-0.67||||0.00399||||||Two-sided paired Student t test comparing the values for each participant at Baseline and 16 weeks.|t-test, 2 sided|||||||0.00399
92424272|NCT04246372|184736253|OTHER||Effect size (Cohen's d)|-3.04||||0.146||||||Two-sided paired Student t test comparing the values for each participant at Baseline and 16 weeks.|t-test, 2 sided|||||||0.146
92424273|NCT04246372|184736255|OTHER||Effect size (Cohen's d)|-1.05||||9e-08||||||Two-sided paired Student t test comparing the values for each participant at Baseline and 16 weeks.|t-test, 2 sided|||||||0.00000009
92424274|NCT00257608|184736257|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.708||||0.0006|TWO_SIDED|95.0|0.58|0.864|||Log Rank|||||0.864|0.580|0.0006
92424275|NCT00257608|184736263|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.917||||0.5341|TWO_SIDED|95.0|0.698|1.205|||Log Rank|||||1.205|0.698|0.5341
92424276|NCT03673046|184736264|SUPERIORITY||Mean Difference (Final Values)|-10.1255|STANDARD_ERROR_OF_MEAN|1.5705|<|0.0001|TWO_SIDED|95.0|-13.2532|-6.9978||The p-value was not adjusted for multiple comparisons because this was the pre-specified primary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a compound symmetry with heterogeneous variance covariance matrix.|The effect is presented as the Smartphone-delivered CBT for BDD group outcome compared to the 12-eeek waitlist control group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in BDD-YBOCS total scores between the treatment groups at endpoint (week 12).||-6.9978|-13.2532|<.0001
92424277|NCT03673046|184736265|SUPERIORITY||Mean Difference (Final Values)|-3.2648|STANDARD_ERROR_OF_MEAN|1.0346||0.0023|TWO_SIDED|95.0|-5.3275|-1.2022||The p-value was not adjusted for multiple comparisons because this was a pre-specified secondary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an auto-correlation with heterogeneous variance (ARH(1)) covariance matrix.|The effect is presented as the Smartphone-delivered CBT for BDD group outcome compared to the 12-week waitlist control group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in QIDS-SR total scores between the treatment groups at endpoint (week 12).||-1.2022|-5.3275|0.0023
92424278|NCT03673046|184736266|SUPERIORITY||Mean Difference (Final Values)|-4.8412|STANDARD_ERROR_OF_MEAN|1.1195|<|0.0001|TWO_SIDED|95.0|-7.0698|-2.6126||The p-value was not adjusted for multiple comparisons because this was a pre-specified secondary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a compound symmetry with heterogeneous variance covariance matrix.|The effect is presented as the Smartphone-delivered CBT for BDD group outcome compared to the 12-week waitlist control group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in BABS total scores between the treatment groups at endpoint (week 12).||-2.6126|-7.0698|<.0001
92424279|NCT03673046|184736267|SUPERIORITY||Mean Difference (Final Values)|-5.8847|STANDARD_ERROR_OF_MEAN|1.676||0.0008|TWO_SIDED|95.0|-9.2237|-2.5458||The p-value was not adjusted for multiple comparisons because this was a pre-specified secondary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an auto-correlation with heterogeneous variance (ARH(1)) covariance matrix.|The effect is presented as the Smartphone-delivered CBT for BDD group outcome compared to the 12-week waitlist control group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in SDS total scores between the treatment groups at endpoint (week 12).||-2.5458|-9.2237|.0008
92424280|NCT03673046|184736268|SUPERIORITY||Mean Difference (Final Values)|11.7529|STANDARD_ERROR_OF_MEAN|3.4553||0.0011|TWO_SIDED|95.0|4.863|18.6428||The p-value was not adjusted for multiple comparisons because this was a pre-specified secondary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a compound symmetry with heterogeneous variance covariance matrix.|The effect is presented as the Smartphone-delivered CBT for BDD group outcome compared to the 12-week waitlist control group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in Q-LESQ-SF total scores between the treatment groups at endpoint (week 12).||18.6428|4.8630|.0011
92424281|NCT01896050|184736277|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Compare difference in change in body mass index between baseline and 12 months between aromatase inhibitor- and tamoxifen-treated patients||||0.03
92424282|NCT01896050|184736277|SUPERIORITY_OR_OTHER||BMI squared|-0.01845|STANDARD_ERROR_OF_MEAN|0.02308||0.4262|TWO_SIDED||||||Regression, Linear|||Examine association between change in body mass index and change in grip strength with aromatase inhibitor therapy. For the primary outcome, linear regression was used for analysis with change of grip strength as response variable. In the original statistical analysis plan only aromatase inhibitor-treated patients were to be included in this analysis. This analysis was not performed on the tamoxifen group because it isn't clinically relevant.||||0.4262
92170498|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.09|STANDARD_ERROR_OF_MEAN|0.039||0.019|TWO_SIDED|95.0|-0.17|-0.02|||LMM|||Week 1-52 Mean night-time number of puffs||-0.02|-0.17|0.019
92236462|NCT00474630|184376754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.63|||||TWO_SIDED|95.0|0.55|12.67||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||12.67|0.55|
92424283|NCT01896050|184736278|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in maximum grip strength between baseline and 12 months for aromatase inhibitor-treated versus tamoxifen-treated patients||||0.032
92424284|NCT01896050|184736279|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.92|1.04||||||Association between baseline body mass index and discontinuation of aromatase inhibitor therapy. The original statistical analysis plan only called for analyzing the aromatase inhibitor-treated patients, not the tamoxifen-treated patients.||1.04|0.92|
92424285|NCT03693300|184736293|OTHER||Proportion (%)|6.1|||||TWO_SIDED|95.0|2.5|12.24|||||95% CI were based on the Clopper-Pearson method.|Any possibly related adverse events of CTCAE Grade 3 or Grade 4||12.24|2.50|
92424286|NCT03693300|184736293|OTHER||Proportion (%)|0.0|||||TWO_SIDED|95.0|0.0|70.76|||||95% CI were based on the Clopper-Pearson method.|Any possibly related adverse events of CTCAE Grade 3 or Grade 4||70.76|0.00|
92424287|NCT03693300|184736293|OTHER||Proportion (%)|6.0|||||TWO_SIDED|95.0|2.44|11.94|||||95% CI were based on the Clopper-Pearson method.|Any possibly related adverse events of CTCAE Grade 3 or Grade 4||11.94|2.44|
92424288|NCT03693300|184736293|OTHER||Proportion (%)|4.4|||||TWO_SIDED|95.0|1.44|9.94|||||95% CI were based on the Clopper-Pearson method.|Any possibly related AEs of Grade 3 or Grade 4 with onset date within 6 months of the first dose||9.94|1.44|
92170499|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.05|STANDARD_ERROR_OF_MEAN|0.039||0.226|TWO_SIDED|95.0|-0.12|0.03|||LMM|||Week 1-52 Mean night-time number of puffs||0.03|-0.12|0.226
92170500|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.17|STANDARD_ERROR_OF_MEAN|0.048|<|0.001|TWO_SIDED|95.0|-0.26|-0.07|||LMM|||Week 1-52 Mean daytime number of puffs||-0.07|-0.26|<0.001
92424289|NCT03693300|184736293|OTHER||Proportion (%)|0.0|||||TWO_SIDED|95.0|0.0|70.76|||||95% CI were based on the Clopper-Pearson method.|Any possibly related AEs of Grade 3 or Grade 4 with onset date within 6 months of the first dose||70.76|0.00|
92424290|NCT03693300|184736293|OTHER||Proportion (%)|4.3|||||TWO_SIDED|95.0|1.4|9.69|||||95% CI were based on the Clopper-Pearson method.|Any possibly related AEs of Grade 3 or Grade 4 with onset date within 6 months of the first dose||9.69|1.40|
92424291|NCT02742441|184736302|SUPERIORITY||||||<|0.001||||||"Treatment groups were compared with respect to the proportions of subjects with treatment success at Day 15 using the Cochran-Mantel-Haenszel (CMH) test stratified by analysis center."|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||||||<0.001
92424292|NCT02742441|184736303|SUPERIORITY||||||<|0.001||||||Statistical significance was achieved for each of the clinical signs of psoriasis.|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (plaque elevation, scaling, and erythema).||||<0.001
92424293|NCT02742441|184736304|SUPERIORITY|||||||0.012|||||||Cochran-Mantel-Haenszel|||||||0.012
92424294|NCT02160990|184736340|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<.001
92424295|NCT02160990|184736341|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<.001
92424296|NCT02160990|184736342|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||ANCOVA|||||||0.23
92424297|NCT03789396|184736399|SUPERIORITY||Odds Ratio (OR)|0.74|STANDARD_ERROR_OF_MEAN|0.14||0.03|TWO_SIDED|95.0|0.57|0.97|||Regression, Logistic|||Comparison of patient odds of being hyperoxic and not on room air pre- versus post-intervention||0.97|0.57|0.03
92424298|NCT00734474|184736409|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategies.|LS Mean Difference|-0.71|||<|0.001|TWO_SIDED|95.0|-0.87|-0.55||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||"Power was estimated at approximately 89% based on a simulation study using the most likely pharmacodynamic model, assuming a 20% drop out rate (missing completely at random) at 52 weeks and enrollment of 5 participants per week. A predictive power calculation was planned to select either 263 or 333 as the minimum total sample size needed (sum of Stage 1 and 2) per arm. If the predictive power of the higher LY2189265 dose based on 263 participants in total exceeded 85%, then 263 would be used."||-0.55|-0.87|<0.001
92424299|NCT00734474|184736409|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying a gatekeeping strategy.|LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.63|-0.31||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||"Power was estimated at approximately 89% based on a simulation study using the most likely pharmacodynamic model, assuming a 20% drop out rate (missing completely at random) at 52 weeks and enrollment of 5 participants per week. A predictive power calculation was planned to select either 263 or 333 as the minimum total sample size needed (sum of Stage 1 and 2) per arm. If the predictive power of the higher LY2189265 dose based on 263 participants in total exceeded 85%, then 263 would be used."||-0.31|-0.63|<0.001
92424300|NCT00734474|184736409|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.71|||<|0.001|TWO_SIDED|95.0|-0.87|-0.55||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-0.55|-0.87|<0.001
92424301|NCT00734474|184736409|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.63|-0.31||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-0.31|-0.63|<0.001
92424302|NCT00734474|184736411|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.26|||<|0.001|TWO_SIDED|95.0|-1.42|-1.09||Comparison at 26 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-1.09|-1.42|<0.001
92424303|NCT00734474|184736411|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.05|||<|0.001|TWO_SIDED|95.0|-1.21|-0.88||Comparison at 26 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-0.88|-1.21|<0.001
92424304|NCT00734474|184736411|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.64|||<|0.001|TWO_SIDED|95.0|-0.81|-0.48||Comparison at 26 weeks. One-sided raw p-value with no adjustment for multiplicity.|ANCOVA|||||-0.48|-0.81|<0.001
92424305|NCT00734474|184736411|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying a gatekeeping strategy.|LS Mean Difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.84|-0.5||Comparison at 104 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||||-0.50|-0.84|<0.001
92424306|NCT00734474|184736411|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate controlled by applying gatekeeping strategy.|LS Mean Difference|-0.39|||<|0.001|TWO_SIDED|95.0|-0.56|-0.22||Comparison at 104 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||||-0.22|-0.56|<0.001
92424307|NCT00734474|184736411|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.84|-0.5||Comparison at 104 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-0.50|-0.84|<0.001
92424308|NCT00734474|184736411|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39|||<|0.001|TWO_SIDED|95.0|-0.56|-0.22||Comparison at 104 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-0.22|-0.56|<0.001
92424309|NCT00734474|184736413|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.89|||<|0.001|TWO_SIDED|95.0|-2.27|-1.51|||Mixed Models Analysis|Comparison at 26 weeks.||||-1.51|-2.27|<0.001
92170501|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.15|STANDARD_ERROR_OF_MEAN|0.048||0.002|TWO_SIDED|95.0|-0.24|-0.05|||LMM|||Week 1-52 Mean daytime number of puffs||-0.05|-0.24|0.002
92424310|NCT00734474|184736413|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.48|||<|0.001|TWO_SIDED|95.0|-1.85|-1.1||Comparison at 26 weeks.|Mixed Models Analysis|||||-1.10|-1.85|<0.001
92424311|NCT00734474|184736413|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48||||0.012|TWO_SIDED|95.0|-0.86|-0.11||Comparison at 26 weeks.|Mixed Models Analysis|||||-0.11|-0.86|0.012
92424312|NCT00734474|184736413|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.47|||<|0.001|TWO_SIDED|95.0|-1.82|-1.13||Comparison at 52 weeks.|Mixed Models Analysis|||||-1.13|-1.82|<0.001
92424313|NCT00734474|184736413|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.73|||<|0.001|TWO_SIDED|95.0|-1.07|-0.39||Comparison at 52 weeks.|Mixed Models Analysis|||||-0.39|-1.07|<0.001
92424314|NCT00734474|184736413|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.51|||<|0.001|TWO_SIDED|95.0|-1.93|-1.1||Comparison at 104 weeks.|Mixed Models Analysis|||||-1.10|-1.93|<0.001
92424315|NCT00734474|184736413|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.92|||<|0.001|TWO_SIDED|95.0|-1.33|-0.51||Comparison at 104 weeks.|Mixed Models Analysis|||||-0.51|-1.33|<0.001
92424316|NCT00734474|184736414|SUPERIORITY_OR_OTHER||LS Mean Difference|18.51||||0.095|TWO_SIDED|95.0|-3.25|40.28||Comparison at 26 weeks.|Mixed Models Analysis|||||40.28|-3.25|0.095
92424317|NCT00734474|184736414|SUPERIORITY_OR_OTHER||LS Mean Difference|17.08||||0.121|TWO_SIDED|95.0|-4.54|38.69||Comparison at 26 weeks.|Mixed Models Analysis|||||38.69|-4.54|0.121
92424318|NCT00734474|184736414|SUPERIORITY_OR_OTHER||LS Mean Difference|15.41||||0.167|TWO_SIDED|95.0|-6.47|37.29||Comparison at 26 weeks.|Mixed Models Analysis|||||37.29|-6.47|0.167
92424319|NCT00734474|184736414|SUPERIORITY_OR_OTHER||LS Mean Difference|6.38||||0.43|TWO_SIDED|95.0|-9.49|22.26||Comparison at 52 weeks.|Mixed Models Analysis|||||22.26|-9.49|0.430
92424320|NCT00734474|184736414|SUPERIORITY_OR_OTHER||LS Mean Difference|8.77||||0.273|TWO_SIDED|95.0|-6.94|24.47||Comparison at 52 weeks.|Mixed Models Analysis|||||24.47|-6.94|0.273
92424321|NCT00734474|184736414|SUPERIORITY_OR_OTHER||LS Mean Difference|11.07||||0.291|TWO_SIDED|95.0|-9.49|31.64||Comparison at 104 weeks.|Mixed Models Analysis|||||31.64|-9.49|0.291
92170502|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.048||0.384|TWO_SIDED|95.0|-0.14|0.05|||LMM|||Week 1-52 Mean daytime number of puffs||0.05|-0.14|0.384
92424322|NCT00734474|184736414|SUPERIORITY_OR_OTHER||LS Mean Difference|21.28||||0.039|TWO_SIDED|95.0|1.03|41.53||Comparison at 104 weeks.|Mixed Models Analysis|||||41.53|1.03|0.039
92424323|NCT00734474|184736416|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-2.27|-1.14||Comparison at 26 weeks.|ANCOVA|||||-1.14|-2.27|<0.001
92424324|NCT00734474|184736416|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.16|||<|0.001|TWO_SIDED|95.0|-1.73|-0.6||Comparison at 26 weeks.|ANCOVA|||||-0.60|-1.73|<0.001
92170503|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.28|STANDARD_ERROR_OF_MEAN|0.081|<|0.001|TWO_SIDED|95.0|-0.44|-0.12|||LMM|||Week 1-52 Mean daily number of puffs||-0.12|-0.44|< 0.001
92424325|NCT00734474|184736416|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.953|TWO_SIDED|95.0|-0.54|0.58||Comparison at 26 weeks.|ANCOVA|||||0.58|-0.54|0.953
92424326|NCT00734474|184736416|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|||<|0.001|TWO_SIDED|95.0|-2.08|-0.92||Comparison at 52 weeks.|ANCOVA|||||-0.92|-2.08|<0.001
92424327|NCT00734474|184736416|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.07|||<|0.001|TWO_SIDED|95.0|-1.65|-0.48||Comparison at 52 weeks.|ANCOVA|||||-0.48|-1.65|<0.001
92424328|NCT00734474|184736416|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.14|||<|0.001|TWO_SIDED|95.0|-1.78|-0.49||Comparison at 104 weeks.|ANCOVA|||||-0.49|-1.78|<0.001
92424329|NCT00734474|184736416|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.64||||0.054|TWO_SIDED|95.0|-1.29|0.01||Comparison at 104 weeks.|ANCOVA|||||0.01|-1.29|0.054
92424330|NCT00734474|184736418|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.69|||<|0.001|TWO_SIDED|95.0|-2.45|-0.93||Comparison at 26 weeks.|Mixed Models Analysis|||||-0.93|-2.45|<0.001
92424331|NCT00734474|184736418|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58||||0.133|TWO_SIDED|95.0|-1.34|0.18||Comparison at 26 weeks.|Mixed Models Analysis|||||0.18|-1.34|0.133
92424332|NCT00734474|184736418|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25||||0.512|TWO_SIDED|95.0|-1.01|0.5||Comparison at 26 weeks.|Mixed Models Analysis|||||0.50|-1.01|0.512
92424333|NCT00734474|184736418|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.46|||<|0.001|TWO_SIDED|95.0|-2.23|-0.69||Comparison at 52 weeks.|Mixed Models Analysis|||||-0.69|-2.23|<0.001
92424334|NCT00734474|184736418|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.59||||0.128|TWO_SIDED|95.0|-1.36|0.17||Comparison at 52 weeks.|Mixed Models Analysis|||||0.17|-1.36|0.128
92424335|NCT00734474|184736418|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.36||||0.005|TWO_SIDED|95.0|-2.3|-0.42||Comparison at 104 weeks.|Mixed Models Analysis|||||-0.42|-2.30|0.005
92424336|NCT00734474|184736418|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54||||0.256|TWO_SIDED|95.0|-1.48|0.4||Comparison at 104 weeks.|Mixed Models Analysis|||||0.40|-1.48|0.256
92424337|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.3|||<|0.001|TWO_SIDED|95.0|6.8|18.8||Comparison of HbA1c \<7.0% at 26 weeks.|Regression, Logistic|||||18.8|6.8|<0.001
92424338|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.6|||<|0.001|TWO_SIDED|95.0|5.2|14.3||Comparison of HbA1c \<7.0% at 26 weeks.|Regression, Logistic|||||14.3|5.2|<0.001
92424339|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0|||<|0.001|TWO_SIDED|95.0|1.8|4.8||Comparison of HbA1c \<7.0% at 26 weeks.|Regression, Logistic|||||4.8|1.8|<0.001
92424340|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0|||<|0.001|TWO_SIDED|95.0|2.7|5.9||Comparison of HbA1c \<7.0% at 52 weeks.|Regression, Logistic|||||5.9|2.7|<0.001
92424341|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7|||<|0.001|TWO_SIDED|95.0|1.8|3.9||Comparison of HbA1c \<7.0% at 52 weeks.|Regression, Logistic|||||3.9|1.8|<0.001
92424342|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.4|||<|0.001|TWO_SIDED|95.0|2.4|5.0||Comparison of HbA1c \<7.0% at 104 weeks.|Regression, Logistic|||||5.0|2.4|<0.001
92424343|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.6|3.3||Comparison of HbA1c \<7.0% at 104 weeks.|Regression, Logistic|||||3.3|1.6|<0.001
92424344|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.5|||<|0.001|TWO_SIDED|95.0|6.5|20.4||Comparison of HbA1c ≤6.5% at 26 weeks.|Regression, Logistic|||||20.4|6.5|<0.001
92424345|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0|||<|0.001|TWO_SIDED|95.0|2.8|8.8||Comparison of HbA1c ≤6.5% at 26 weeks.|Regression, Logistic|||||8.8|2.8|<0.001
92424346|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.005|TWO_SIDED|95.0|1.3|4.1||Comparison of HbA1c ≤6.5 at 26 weeks.|Regression, Logistic|||||4.1|1.3|0.005
92424347|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.001|TWO_SIDED|95.0|2.9|6.8||Comparison of HbA1c ≤6.5% at 52 weeks.|Regression, Logistic|||||6.8|2.9|<0.001
92424348|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.5|3.5||Comparison of HbA1c ≤6.5% at 52 weeks.|Regression, Logistic|||||3.5|1.5|<0.001
92424349|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.2|||<|0.001|TWO_SIDED|95.0|3.4|7.9||Comparison of HbA1c ≤6.5% at 104 weeks.|Regression, Logistic|||||7.9|3.4|<0.001
92424350|NCT00734474|184736419|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.001|TWO_SIDED|95.0|1.5|3.7||Comparison of HbA1c ≤6.5% at 104 weeks.|Regression, Logistic|||||3.7|1.5|<0.001
92424351|NCT02899299|184736458|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.74||||0.002|TWO_SIDED|96.6|0.6|0.91||Boundary for statistical significance was a p-value \< 0.0345|Stratified Log Rank|This is 2 sided p-value from log-rank test stratified by histology and sex as entered in the IRT|Stratified Cox proportional hazard model|||0.91|0.60|0.0020
92424352|NCT02899299|184736461|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.77|1.13|||||Stratified Cox proportional hazard model|||1.13|0.77|
92424353|NCT02899299|184736462|SUPERIORITY|Treatment A vs Treatment B|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.64|1.32||||||\<1% PD-L1||1.32|0.64|
92424354|NCT02899299|184736462|SUPERIORITY|Treatment A vs Treatment B|Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.59|0.88||||||≥1% PD-L1||0.88|0.59|
92424355|NCT02899299|184736463|SUPERIORITY|Treatment A vs Treatment B|Hazard Ratio (HR)|1.79|||||TWO_SIDED|95.0|1.22|2.63||||||\< 1% PD-L1||2.63|1.22|
92424356|NCT02899299|184736463|SUPERIORITY|Treatment A vs Treatment B|Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.61|0.96||||||≥1% PD-L1||0.96|0.61|
92424357|NCT02899299|184736465|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.74||||0.0008|TWO_SIDED|95.0|0.62|0.88|||Stratified Log Rank|This is 2 sided p-value from log-rank test stratified by histology and sex as entered in the IRT|Stratified Cox proportional hazard model|||0.88|0.62|0.0008
92424358|NCT00313300|184736466|SUPERIORITY_OR_OTHER||Adjusted rate difference|2.2|||||TWO_SIDED|95.0|-1.0|5.4|||||adjusted difference of event rates takes into consideration stratification factors.|||5.4|-1.0|
92424359|NCT00313300|184736466|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|3.8|||||TWO_SIDED|95.0|0.4|7.3|||||adjusted difference of event rates takes into consideration stratification factors.|||7.3|0.4|
92424360|NCT00313300|184736467|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.44|1.19||||||||1.19|0.44|
92424361|NCT00313300|184736467|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.35|1.04||||||||1.04|0.35|
92424362|NCT00313300|184736468|SUPERIORITY_OR_OTHER||Adjusted rate difference|6.6|||||TWO_SIDED|95.0|1.8|11.3|||||adjusted difference of event rates takes into consideration stratification factors.|||11.3|1.8|
92424363|NCT00313300|184736468|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|10.0|||||TWO_SIDED|95.0|4.8|15.2|||||adjusted difference of event rates takes into consideration stratification factors.|||15.2|4.8|
92424364|NCT00313300|184736469|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.44|1.17||||||||1.17|0.44|
92424365|NCT00313300|184736469|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.37|1.07||||||||1.07|0.37|
92424366|NCT00313300|184736470|SUPERIORITY_OR_OTHER||Adjusted rate difference|0.3|||||TWO_SIDED|95.0|-1.3|2.0|||||adjusted difference of event rates takes into consideration stratification factors.|||2.0|-1.3|
92424367|NCT00313300|184736470|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|0.8|||||TWO_SIDED|95.0|-1.1|2.7|||||adjusted difference of event rates takes into consideration stratification factors.|||2.7|-1.1|
92424368|NCT00313300|184736471|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.44|2.88||||||||2.88|0.44|
92424369|NCT00313300|184736471|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.29|2.57||||||||2.57|0.29|
92424370|NCT00313300|184736471|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.3|1.66||||||||1.66|0.30|
92424371|NCT00313300|184736471|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.3|1.74||||||||1.74|0.30|
92424372|NCT00313300|184736472|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|4.0|||||TWO_SIDED|95.0|0.0|8.1||||||||8.1|0.0|
92424373|NCT00313300|184736472|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|4.7|||||TWO_SIDED|95.0|0.0|9.3||||||||9.3|0.0|
92424374|NCT00313300|184736472|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|7.0|||||TWO_SIDED|95.0|3.4|10.5||||||||10.5|3.4|
92424375|NCT00313300|184736472|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|4.7|||||TWO_SIDED|95.0|1.4|8.0||||||||8.0|1.4|
92424376|NCT00313300|184736473|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|8.3|||||TWO_SIDED|95.0|1.8|14.9||||||||14.9|1.8|
92424377|NCT00313300|184736473|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|10.9|||||TWO_SIDED|95.0|3.4|18.4||||||||18.4|3.4|
92424378|NCT00313300|184736473|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|17.4|||||TWO_SIDED|95.0|11.6|23.2||||||||23.2|11.6|
92424379|NCT00313300|184736473|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|10.4|||||TWO_SIDED|95.0|5.6|15.1||||||||15.1|5.6|
92424380|NCT00313300|184736474|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.13|||||TWO_SIDED|95.0|0.44|2.88||||||||2.88|0.44|
92424381|NCT00313300|184736474|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86|||||TWO_SIDED|95.0|0.29|2.57||||||||2.57|0.29|
92170504|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.23|STANDARD_ERROR_OF_MEAN|0.081||0.004|TWO_SIDED|95.0|-0.39|-0.07|||LMM|||Week 1-52 Mean daily number of puffs||-0.07|-0.39|0.004
92236463|NCT00474630|184376755|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.89|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
92236464|NCT00474630|184376756|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.13|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
92236465|NCT00474630|184376757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.64|||||TWO_SIDED|95.0|1.36|5.14||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||5.14|1.36|
92424382|NCT00313300|184736474|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.71|||||TWO_SIDED|95.0|0.3|1.66||||||||1.66|0.30|
92424383|NCT00313300|184736474|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.72|||||TWO_SIDED|95.0|0.3|1.74||||||||1.74|0.30|
92424384|NCT00313300|184736475|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|0.8|||||TWO_SIDED|95.0|-0.9|2.6||||||||2.6|-0.9|
92424385|NCT00313300|184736475|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|2.9|||||TWO_SIDED|95.0|0.6|5.1||||||||5.1|0.6|
92424386|NCT00313300|184736475|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|4.1|||||TWO_SIDED|95.0|1.3|6.9||||||||6.9|1.3|
92424387|NCT01926015|184736496|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Diphtheria Toxin \>=0.1 IU/mL||3.95|-3.99|<0.001
92424388|NCT01926015|184736496|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Tetanus Toxin \>=0.01 IU/mL||3.95|-3.99|<0.001
92424389|NCT01926015|184736496|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Pertussis Toxin \>=10 EU/mL||3.95|-3.99|<0.001
92424390|NCT01926015|184736496|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Pertussis FHA \>=10 EU/mL||3.95|-3.99|<0.001
92424391|NCT01926015|184736496|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Poliovirus Type 1 NA \>=8||3.95|-3.99|<0.001
92424392|NCT01926015|184736496|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Poliovirus Type 2 NA \>=8||3.95|-3.99|<0.001
92424393|NCT01926015|184736496|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Poliovirus Type 3 NA \>=8||3.95|-3.99|<0.001
92424394|NCT01364649|184736509|SUPERIORITY_OR_OTHER||LS mean difference|2.2|STANDARD_ERROR_OF_MEAN|0.9||0.013|TWO_SIDED|95.0|0.48|4.02|||Mixed Model Repeated Measurements|The primary analysis was performed by using observed case data only.||||4.02|0.48|0.013
92424395|NCT03323502|184736516|SUPERIORITY||Incidence Rate Ratio (IRR)|0.94|STANDARD_ERROR_OF_MEAN|0.061||0.3313|TWO_SIDED|95.0|0.84|1.06|||Poisson Regression|||||1.06|0.84|0.3313
92424396|NCT03323502|184736517|SUPERIORITY||Odds Ratio (OR)|0.92||||0.3327|TWO_SIDED|95.0|0.78|1.09|||Regression, Logistic|||||1.09|0.78|0.3327
92424397|NCT03323502|184736518|SUPERIORITY||Odds Ratio (OR)|1.13||||0.3946|TWO_SIDED|95.0|0.85|1.49|||Regression, Logistic|||||1.49|0.85|0.3946
92424398|NCT04066647|184736536|SUPERIORITY||Mean Difference (Final Values)|0.93928821||||0.9|TWO_SIDED||||||t-test, 2 sided|2 tailed, unpaired t test with Bonferroni correction||||||0.9
92424399|NCT01914757|184736538|SUPERIORITY_OR_OTHER||Rate Ratio|0.64||||0.002|TWO_SIDED|95.0|0.49|0.85|||Negative Binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||0.85|0.49|0.002
92424400|NCT01914757|184736538|SUPERIORITY_OR_OTHER||Rate Ratio|0.72||||0.019|TWO_SIDED|95.0|0.54|0.95|||Negative Binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids.||||0.95|0.54|0.019
92424401|NCT01914757|184736539|SUPERIORITY_OR_OTHER||Rate Ratio|0.64||||0.015|TWO_SIDED|95.0|0.45|0.92|||Negative Binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||0.92|0.45|0.015
92424402|NCT01914757|184736539|SUPERIORITY_OR_OTHER||Rate Ratio|0.6||||0.005|TWO_SIDED|95.0|0.42|0.86|||Negative Binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids.||||0.86|0.42|0.005
92424403|NCT01914757|184736540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125||||0.005|TWO_SIDED|95.0|0.037|0.213|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit, and treatment by visit||||0.213|0.037|0.005
92424404|NCT01914757|184736540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116||||0.01|TWO_SIDED|95.0|0.028|0.204|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit, and treatment by visit||||0.204|0.028|0.01
92424405|NCT01914757|184736541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064||||0.268|TWO_SIDED|95.0|-0.049|0.176|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit, and treatment by visit||||0.176|-0.049|0.268
92424406|NCT01914757|184736541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015||||0.786|TWO_SIDED|95.0|-0.127|0.096|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit, and treatment by visit||||0.096|-0.127|0.786
92170505|NCT02554786|184229842|SUPERIORITY||LS Mean|-0.09|STANDARD_ERROR_OF_MEAN|0.081||0.245|TWO_SIDED|95.0|-0.25|0.06|||LMM|||Week 1-52 Mean daily number of puffs||0.06|-0.25|0.245
92424407|NCT01914757|184736542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.224|TWO_SIDED|95.0|-0.32|0.07|||Mixed Models Analysis|Model includes treatment, baseline Asthma symptom score, region, use of OCS, visit, and visit by treatment.||||0.07|-0.32|0.224
92424408|NCT01914757|184736542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.019|TWO_SIDED|95.0|-0.43|-0.04|||Mixed Models Analysis|Model includes treatment, baseline Asthma symptom score, region, use of OCS, visit, and visit by treatment.||||-0.04|-0.43|0.019
92424409|NCT01914757|184736543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.287|TWO_SIDED|95.0|-0.44|0.13|||Mixed Models Analysis|Model includes treatment, baseline Asthma symptom score, region, use of OCS, visit, and visit by treatment.||||0.13|-0.44|0.287
92424410|NCT01914757|184736543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.966|TWO_SIDED|95.0|-0.28|0.29|||Mixed Models Analysis|Model includes treatment, baseline Asthma symptom score, region, use of OCS, visit, and visit by treatment.||||0.29|-0.28|0.966
92424411|NCT01914757|184736544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.603|TWO_SIDED|95.0|-0.58|0.99|||Mixed Models Analysis|Model includes treatment, baseline Asthma rescue medication use, region, use of OCS, visit, and visit by treatment.||||0.99|-0.58|0.603
92424412|NCT01914757|184736544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.209|TWO_SIDED|95.0|-1.29|0.28|||Mixed Models Analysis|Model includes treatment, baseline Asthma medication use, region, use of OCS, visit, and visit by treatment.||||0.28|-1.29|0.209
92424413|NCT01914757|184736545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.86||||0.029|TWO_SIDED|95.0|1.59|30.12|||Mixed Models Analysis|Model includes treatment, baseline morning PEF, region, use of OCS, visit, and visit by treatment.||Morning PEF Change from Baseline to Week 56||30.12|1.59|0.029
92424414|NCT01914757|184736545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.27||||0.037|TWO_SIDED|95.0|0.9|29.64|||Mixed Models Analysis|Model includes treatment, baseline morning PEF, region, use of OCS, visit, and visit by treatment.||Morning PEF Change from Baseline to Week 56||29.64|0.9|0.037
92424415|NCT01914757|184736545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.54||||0.018|TWO_SIDED|95.0|3.07|32.0|||Mixed Models Analysis|Model includes treatment, baseline evening PEF, region, use of OCS, visit, and visit by treatment.||Evening PEF Change from Baseline to Week 56||32|3.07|0.018
92424416|NCT01914757|184736545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.22||||0.004|TWO_SIDED|95.0|6.65|35.79|||Mixed Models Analysis|Model includes treatment, baseline evening PEF, region, use of OCS, visit, and visit by treatment.||Evening PEF Change from Baseline to Week 56||35.79|6.65|0.004
92170506|NCT02554786|184229843|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.39|0.72|||Regression, Cox|||Moderate or severe asthma exacerbation||0.72|0.39|<0.001
92424417|NCT01914757|184736546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.4|TWO_SIDED|95.0|-0.06|0.03|||Mixed Models Analysis|Model includes treatment, baseline prop of nights with nocturnal wakening, region, use of OCS, visit, and visit by treatment.||||0.03|-0.06|0.4
92424418|NCT01914757|184736546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.146|TWO_SIDED|95.0|-0.08|0.01|||Mixed Models Analysis|Model includes treatment, baseline prop of nights with nocturnal wakening, region, use of OCS, visit, and visit by treatment.||||0.01|-0.08|0.146
92424419|NCT01914757|184736547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.043|TWO_SIDED|95.0|-0.38|-0.01|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit, and visit by treatment.||||-0.01|-0.38|0.043
92424420|NCT01914757|184736547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.008|TWO_SIDED|95.0|-0.44|-0.07|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit, and visit by treatment.||||-0.07|-0.44|0.008
92424421|NCT01914757|184736548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.078|TWO_SIDED|95.0|-0.51|0.03|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit, and visit by treatment.||||0.03|-0.51|0.078
92424422|NCT01914757|184736548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.449|TWO_SIDED|95.0|-0.37|0.16|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit, and visit by treatment.||||0.16|-0.37|0.449
92424423|NCT01914757|184736549|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.46|||<|0.001|TWO_SIDED|95.0|0.31|0.69|||Cochran-Mantel-Haenszel|Controlling for region, number of exacerbations in the previous year, use of OCS||Proportion of patients with \>=1 asthma exacerbation||0.69|0.31|<0.001
92424424|NCT01914757|184736549|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.023|TWO_SIDED|95.0|0.45|0.95|||Cochran-Mantel-Haenszel|Controlling for region, number of exacerbations in the previous year, use of OCS||Proportion of patients with \>=1 asthma exacerbation||0.95|0.45|0.023
92424425|NCT01914757|184736550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61|||<|0.001|TWO_SIDED|95.0|0.46|0.8|||Regression, Cox|Model includes treatment, region, number of exacerbations in the previous year, use of OCS||Time to first Exacerbation||0.80|0.46|<0.001
92424426|NCT01914757|184736550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.018|TWO_SIDED|95.0|0.55|0.95|||Regression, Cox|Model includes treatment, region, number of exacerbations in the previous year, use of OCS||Time to first asthma exacerbation||0.95|0.55|0.018
92424427|NCT01914757|184736551|SUPERIORITY_OR_OTHER||Rate Ratio|0.93||||0.837|TWO_SIDED|95.0|0.48|1.82|||negative binomial|Model includes treatment, region, any prior exacerbation resulting ER/Hospitalization, use of OCS||||1.82|0.48|0.837
92424428|NCT01914757|184736551|SUPERIORITY_OR_OTHER||Rate Ratio|1.23||||0.538|TWO_SIDED|95.0|0.64|2.35|||negative binomial|Model includes treatment, region, any prior exacerbation resulting ER/Hospitalization, use of OCS||||2.35|0.64|0.538
92424429|NCT01914757|184736555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.119|TWO_SIDED|95.0|-0.04|0.37|||Mixed Models Analysis|Model includes treatment, baseline AQLQ score, region, use of OCS, visit, visit by treatment.||||0.37|-0.04|0.119
92424430|NCT01914757|184736555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.019|TWO_SIDED|95.0|0.04|0.45|||Mixed Models Analysis|Model includes treatment, baseline AQLQ score, region, use of OCS, visit, visit by treatment.||||0.45|0.04|0.019
92424431|NCT00408629|184736569|SUPERIORITY_OR_OTHER|||||||0.019||||||Testing for ranked co-primary endpoints occurred in hierarchical order to control for multiple testing. Week 8 remission rate was tested first. If a significant difference in group rates was found at alpha=0.05, Week 52 rate was tested at alpha=0.05.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||Assuming that 5% of the subjects in the placebo group achieve clinical remission at Week 52 or Week 8, a sample size of 250 in each treatment group will be adequate to detect a difference of at least 7 percentage points from the adalimumab group using Chi squared test with 80% power at a 0.05 two-sided significance level.||||0.019
92424432|NCT00408629|184736570|SUPERIORITY_OR_OTHER|||||||0.004||||||Testing for ranked co-primary endpoints occurred in hierarchical order to control for multiple testing. Week 8 remission rate was tested first. If a significant difference in group rates was found at alpha=0.05, Week 52 rate was tested at alpha=0.05.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||Assuming that 5% of the subjects in the placebo group achieve clinical remission at Week 52 or Week 8, a sample size of 250 in each treatment group will be adequate to detect a difference of at least 7 percentage points from the adalimumab group using Chi squared test with 80% power at a 0.05 two-sided significance level.||||0.004
92424433|NCT00408629|184736571|SUPERIORITY_OR_OTHER|||||||0.047||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.047
92424434|NCT00408629|184736572|SUPERIORITY_OR_OTHER||||||<|0.001||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||<0.001
92424435|NCT00408629|184736573|SUPERIORITY_OR_OTHER|||||||0.002||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.002
92424436|NCT00408629|184736574|SUPERIORITY_OR_OTHER||||||<|0.001||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||<0.001
92424437|NCT00408629|184736575|SUPERIORITY_OR_OTHER|||||||0.032||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure were needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.032
92424438|NCT00408629|184736576|SUPERIORITY_OR_OTHER|||||||0.009||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.009
92424439|NCT00408629|184736577|SUPERIORITY_OR_OTHER|||||||0.013||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.013
92424440|NCT00408629|184736578|SUPERIORITY_OR_OTHER|||||||0.035||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.035
92236466|NCT00474630|184376758|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.37|||||TWO_SIDED|95.0|-0.77|3.51||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||3.51|-0.77|
92424441|NCT00408629|184736579|SUPERIORITY_OR_OTHER|||||||0.058||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.058
92424442|NCT00408629|184736580|SUPERIORITY_OR_OTHER|||||||0.028||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.028
92424443|NCT00408629|184736581|SUPERIORITY_OR_OTHER|||||||0.006||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.006
92424444|NCT00408629|184736582|SUPERIORITY_OR_OTHER|||||||0.035||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.035
92424445|NCT00408629|184736583|SUPERIORITY_OR_OTHER|||||||0.002||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.002
92424446|NCT00408629|184736584|SUPERIORITY_OR_OTHER|||||||0.007||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.007
92424447|NCT00408629|184736585|SUPERIORITY_OR_OTHER|||||||0.006||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.006
92424448|NCT01461980|184736586|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.94|||||TWO_SIDED|95.0|0.86|1.03||||||Diphtheria: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Diphtheria antigens).||1.03|0.86|
92424449|NCT01461980|184736586|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.92|||||TWO_SIDED|95.0|0.85|0.99||||||Tetanus: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Tetanus antigens).||0.99|0.85|
92424450|NCT01461980|184736587|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.93|||||TWO_SIDED|95.0|0.85|1.02||||||Pertussis toxoid: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Pertussis toxoid).||1.02|0.85|
92424451|NCT01461980|184736587|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.91|||||TWO_SIDED|95.0|0.84|0.98||||||Pertussis filamentous hemagglutinin: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for pertussis filamentous hemagglutinin antigens).||0.98|0.84|
92236467|NCT00474630|184376759|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.62|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
92424452|NCT01461980|184736587|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.8|0.98||||||Pertussis pertactin: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for pertussis pertactin antigens).||0.98|0.80|
92424453|NCT01461980|184736587|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.08||||||Pertussis fimbriae agglutinogens types 2 + 3: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for pertussis fimbriae agglutinogens types 2 + 3 antigens).||1.08|0.74|
92424454|NCT01461980|184736588|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67|GMT Ratio|0.91|||||TWO_SIDED|95.0|0.82|1.01||||||Serogroup A: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Serogroup A antigens).||1.01|0.82|
92424455|NCT01461980|184736588|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.9|1.15||||||Serogroup C: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Serogroup C antigens).||1.15|0.90|
92424456|NCT01461980|184736588|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67.|GMT Ratio|0.99|||||TWO_SIDED|95.0|0.89|1.09||||||Serogroup Y: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Serogroup Y antigens).||1.09|0.89|
92424457|NCT01461980|184736588|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.83|1.04||||||Serogroup W-135: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Serogroup W-135 antigens).||1.04|0.83|
92424458|NCT01461980|184736589|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67.|GMT Ratio|0.92|||||TWO_SIDED|95.0|0.84|1.02||||||PMB80 \[A22\]: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for hSBA strain titers).||1.02|0.84|
92424459|NCT01461980|184736589|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67.|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.82|1.0||||||PMB2948 \[B24\]: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for hSBA strain titers).||1.00|0.82|
92424460|NCT01890746|184736618|OTHER|Bioequivalence|Ratio of geometric means (%)|114.9|||||TWO_SIDED|90.0|99.5|132.7||||||||132.7|99.5|
92424461|NCT01890746|184736619|OTHER|Bioequivalence|Ratio of geometric means (%)|105.2|||||TWO_SIDED|90.0|97.1|114.0||||||||114.0|97.1|
92424462|NCT01890746|184736620|OTHER|Bioequivalence|Ratio of geometric means (%)|92.0|||||TWO_SIDED|90.0|76.8|110.2||||||||110.2|76.8|
92424463|NCT01890746|184736621|OTHER|Bioequivalence|Ratio of geometric means (%)|101.8|||||TWO_SIDED|90.0|92.9|111.7||||||||111.7|92.9|
92424464|NCT01890746|184736622|OTHER|Bioequivalence|Ratio of geometric means (%)|121.0|||||TWO_SIDED|90.0|102.5|142.8||||||||142.8|102.5|
92424465|NCT01890746|184736623|OTHER|Bioequivalence|Ratio of geometric means (%)|106.5|||||TWO_SIDED|90.0|95.0|119.4||||||||119.4|95.0|
92424466|NCT01890746|184736624|OTHER|Bioequivalence|Ratio of geometric means (%)|91.7|||||TWO_SIDED|90.0|76.5|110.0||||||||110.0|76.5|
92424467|NCT01890746|184736625|OTHER|Bioequivalence|Ratio of geometric means (%)|101.4|||||TWO_SIDED|90.0|92.4|111.2||||||||111.2|92.4|
92424468|NCT01890746|184736626|OTHER|Bioequivalence|Ratio of geometric means (%)|120.0|||||TWO_SIDED|90.0|100.7|142.6||||||||142.6|100.7|
92424469|NCT01890746|184736627|OTHER|Bioequivalence|Ratio of geometric means (%)|105.2|||||TWO_SIDED|90.0|93.6|118.3||||||||118.3|93.6|
92424470|NCT01890746|184736628|OTHER|Bioequivalence|Ratio of geometric means (%)|80.4|||||TWO_SIDED|90.0|57.2|113.0||||||||113.0|57.2|
92424471|NCT01890746|184736629|OTHER|Bioequivalence|Ratio of geometric means (%)|106.3|||||TWO_SIDED|90.0|87.6|129.0||||||||129.0|87.6|
92170507|NCT02554786|184229843|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|0.001|TWO_SIDED|95.0|0.34|0.6|||Regression, Cox|||Moderate or severe asthma exacerbation||0.6|0.34|<0.001
92424472|NCT01890746|184736630|OTHER|Bioequivalence|Ratio of geometric means (%)|127.1|||||TWO_SIDED|90.0|84.2|191.9||||||||191.9|84.2|
92424473|NCT01890746|184736631|OTHER|Bioequivalence|Ratio of geometric means (%)|110.5|||||TWO_SIDED|90.0|83.9|145.7||||||||145.7|83.9|
92424474|NCT01890746|184736632|OTHER|Bioequivalence|Ratio of geometric means (%)|286.4|||||TWO_SIDED|90.0|90.1|910.7||||||||910.7|90.1|
92424475|NCT01890746|184736633|OTHER|Bioequivalence|Ratio of geometric means (%)|202.3|||||TWO_SIDED|90.0|131.3|311.8||||||||311.8|131.3|
92424476|NCT01890746|184736635|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.7461|TWO_SIDED|95.0|0.28|2.48|||Log Rank|||||2.48|0.28|0.7461
92424477|NCT01890746|184736636|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.6175|TWO_SIDED|95.0|0.74|1.63|||Log Rank|||||1.63|0.74|0.6175
92424478|NCT01890746|184736637|SUPERIORITY||Odds Ratio (OR)|0.5281||||0.3224|TWO_SIDED|95.0|0.1084|2.2086|||Cochran-Mantel-Haenszel|||||2.2086|0.1084|0.3224
92424479|NCT01890746|184736639|SUPERIORITY|||||||0.6942|||||||Wilcoxon rank-sum test|||||||0.6942
92424480|NCT01890746|184736640|SUPERIORITY||Odds Ratio (OR)|1.1151||||0.7397|TWO_SIDED|95.0|0.5585|2.229|||Cochran-Mantel-Haenszel|||||2.2290|0.5585|0.7397
92424481|NCT01890746|184736641|SUPERIORITY||Hazard Ratio (HR)|2.46||||0.0781|TWO_SIDED|95.0|0.95|6.38|||Log Rank|||||6.38|0.95|0.0781
92424482|NCT01890746|184736645|SUPERIORITY||Odds Ratio (OR)|0.8749||||0.7122|TWO_SIDED|95.0|0.4023|1.8943|||Cochran-Mantel-Haenszel|||||1.8943|0.4023|0.7122
92424483|NCT01890746|184736646|SUPERIORITY||Hazard Ratio (HR)|1.54||||0.0688|TWO_SIDED|95.0|0.96|2.47|||Log Rank|||||2.47|0.96|0.0688
92424484|NCT00100178|184736648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|||||||ANCOVA|||"The calculation for the concentration of c-peptide is a weighted average of the 6 timed measurements of c-peptide in nano-moles/Liter. We try to distinguish this calculation from the AUC by referring to it as the AUC mean and may be expressed algebraically as the AUC/(120 min.); thus, the units are the same as the y-axis."||||0.47
92424485|NCT00631696|184736649|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A non-inferiority margin of 20% was used to test the hypothesis. The null hypothesis is that the difference (PGB - PBO) in the proportion of participants with ≥50% reduction in sperm concentration is ≥20% and the alternative hypothesis is that the difference in proportion of participant with ≥50% reduction in sperm concentration is \<20%.|percentage difference|6.0|||||TWO_SIDED|95.0|-2.29|14.3|||Confidence Interval Approach||The confidence interval was based on asymptotic normal distribution.|Study powered to show non-inferiority (NI) of pregabalin (PGB) to placebo (PBO) on the percentage of participants (N) with a ≥50% reduction in MSC from Bsl to end of washout (Week (Wk) 26, or last assessment on or after Wk 12 if Wk 26 not done). NI to be declared if upper bound of 95% CI for difference between PGB and PBO not \>20%. Assuming proportion of N with 50% reduction to be 6% for both groups, sample size N=65 per group would provide \>90% power to show NI of PGB to PBO.||14.30|-2.29|
92424486|NCT00631696|184736650|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12||||0.3462|TWO_SIDED|95.0|-0.385|0.136||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||0.136|-0.385|0.3462
92424487|NCT00631696|184736651|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13||||0.3652|TWO_SIDED|95.0|-0.42|0.156||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||0.156|-0.420|0.3652
92424488|NCT00631696|184736652|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.1204|TWO_SIDED|95.0|-0.464|0.054||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||0.054|-0.464|0.1204
92424489|NCT00631696|184736653|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|24.65||||0.2875|TWO_SIDED|95.0|-20.999|70.302||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||70.302|-20.999|0.2875
92424490|NCT00631696|184736654|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|32.93||||0.1699|TWO_SIDED|95.0|-14.292|80.158||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||80.158|-14.292|0.1699
92424491|NCT00631696|184736655|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.12||||0.7958|TWO_SIDED|95.0|-52.804|40.558||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||40.558|-52.804|0.7958
92424492|NCT00631696|184736656|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.08||||0.4094|TWO_SIDED|95.0|-3.645|1.494||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||1.494|-3.645|0.4094
92424493|NCT00631696|184736657|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15||||0.9064|TWO_SIDED|95.0|-2.649|2.352||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||2.352|-2.649|0.9064
92170508|NCT02554786|184229843|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.209|TWO_SIDED|95.0|0.59|1.12|||Regression, Cox|||Moderate or severe asthma exacerbation||1.12|0.59|0.209
92424494|NCT00631696|184736658|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.86||||0.4666|TWO_SIDED|95.0|-3.207|1.477||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||1.477|-3.207|0.4666
92424495|NCT03198078|184736678|SUPERIORITY||LS mean difference|-5.33||||0.0136|TWO_SIDED|95.0|-9.55|-1.1||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||-1.10|-9.55|0.0136
92170509|NCT02554786|184229843|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.003|TWO_SIDED|95.0|0.36|0.81|||Regression, Cox|||Severe asthma exacerbation||0.81|0.36|0.003
92424496|NCT03198078|184736678|SUPERIORITY||LS mean difference|-6.53||||0.0032|TWO_SIDED|95.0|-10.8|-2.21||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||-2.21|-10.8|0.0032
92424497|NCT03198078|184736679|SUPERIORITY||LS mean difference|-1.44||||0.0205|TWO_SIDED|95.0|-2.65|-0.22||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||Change From Baseline to Week 6 in PANSS Positive Sub-scale Score||-0.22|-2.65|0.0205
92424498|NCT03198078|184736679|SUPERIORITY||LS mean difference|-2.15||||0.0008|TWO_SIDED|95.0|-3.4|-0.91||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||Change From Baseline to Week 6 in PANSS Positive Sub-scale Score||-0.91|-3.40|0.0008
92424499|NCT03198078|184736679|SUPERIORITY||LS mean difference|-0.88||||0.136|TWO_SIDED|95.0|-2.04|0.28||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||Change From Baseline to Week 6 in PANSS Negative Sub-scale Score||0.28|-2.04|0.1360
92424500|NCT03198078|184736679|SUPERIORITY||LS mean difference|-0.95||||0.1158|TWO_SIDED|95.0|-2.14|0.24||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||Change From Baseline to Week 6 in PANSS Negative Sub-scale Score||0.24|-2.14|0.1158
92424501|NCT03198078|184736680|SUPERIORITY||Ratio of Response Rate|1.55||||0.0111|TWO_SIDED|95.0|1.09|2.2|||Cochran-Mantel-Haenszel|P-value was analyzed by Cochran-Mantel-Haenszel (CMH) general association test controlling for (pooled) centers.||||2.20|1.09|0.0111
92424502|NCT03198078|184736680|SUPERIORITY||Ratio of Response Rate|1.51||||0.0224|TWO_SIDED|95.0|1.06|2.16|||Cochran-Mantel-Haenszel|P-value was analyzed by CMH general association test controlling for (pooled) centers.||||2.16|1.06|0.0224
92424503|NCT03198078|184736681|SUPERIORITY||Ratio of Remission Rate|1.18||||0.4415|TWO_SIDED|95.0|0.77|1.81|||Cochran-Mantel-Haenszel|P-value was analyzed by CMH general association test controlling for (pooled) centers.||||1.81|0.77|0.4415
92424504|NCT03198078|184736681|SUPERIORITY||Ratio of Remission Rate|1.48||||0.0472|TWO_SIDED|95.0|1.01|2.16|||Cochran-Mantel-Haenszel|P-value was analyzed by CMH general association test controlling for (pooled) centers.||||2.16|1.01|0.0472
92424505|NCT03198078|184736682|SUPERIORITY||LS mean difference|2.48||||0.0854|TWO_SIDED|95.0|-0.35|5.31||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||5.31|-0.35|0.0854
92424506|NCT03198078|184736682|SUPERIORITY||LS mean difference|3.99||||0.0072|TWO_SIDED|95.0|1.09|6.88||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||6.88|1.09|0.0072
92424507|NCT03198078|184736683|SUPERIORITY||LS mean difference|-0.11||||0.3589|TWO_SIDED|95.0|-0.36|0.13||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||0.13|-0.36|0.3589
92424508|NCT03198078|184736683|SUPERIORITY||LS mean difference|-0.2||||0.1118|TWO_SIDED|95.0|-0.45|0.05||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||0.05|-0.45|0.1118
92424509|NCT03198078|184736684|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.0287|TWO_SIDED|95.0|-0.56|-0.03|||Cochran-Mantel-Haenszel|P-value was analyzed by CMH row mean scores differ test controlling for study center.||||-0.03|-0.56|0.0287
92424510|NCT03198078|184736684|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.0184|TWO_SIDED|95.0|-0.62|-0.06|||Cochran-Mantel-Haenszel|P-value was analyzed by CMH row mean scores differ test controlling for study center.||||-0.06|-0.62|0.0184
92424511|NCT03198078|184736695|SUPERIORITY||LS mean difference|0.07|||||TWO_SIDED|95.0|-0.24|0.39|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.39|-0.24|
92424512|NCT03198078|184736695|SUPERIORITY||LS mean difference|0.18|||||TWO_SIDED|95.0|-0.14|0.51|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.51|-0.14|
92424513|NCT03198078|184736696|SUPERIORITY||LS mean difference|-0.06|||||TWO_SIDED|95.0|-0.3|0.18|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.18|-0.30|
92424514|NCT03198078|184736696|SUPERIORITY||LS mean difference|0.11|||||TWO_SIDED|95.0|-0.13|0.36|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.36|-0.13|
92424515|NCT03198078|184736697|SUPERIORITY||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.08|0.09|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.09|-0.08|
92424516|NCT03198078|184736697|SUPERIORITY||LS mean difference|0.05|||||TWO_SIDED|95.0|-0.04|0.14|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.14|-0.04|
92424517|NCT03711266|184736737|OTHER||Mean Difference (Final Values)|31.4|||<|0.001|TWO_SIDED|95.0|18.5|44.3|||t-test, 2 sided|||Thirty patients were included in the final analysis. The analysis strategy was intent-to-treat, and multiple imputation was used to impute missing follow-up data. We included auxiliary variables that were correlated with the missing variables at r \> 0.4 (Enders, 2010).||44.3|18.5|<.001
92424518|NCT00749515|184736786|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92424519|NCT00749515|184736787|OTHER|||||||0.275|||||||t-test, 2 sided|||||||.275
92424520|NCT00749515|184736788|OTHER|||||||0.178|||||||t-test, 2 sided|||||||.178
92424521|NCT00749515|184736789|OTHER|||||||0.062|||||||t-test, 2 sided|||||||.062
92424522|NCT00749515|184736790|OTHER|||||||0.104|||||||t-test, 2 sided|||||||.104
92424523|NCT01484132|184736815|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||t-test, 2 sided|||One sample t-test was used to test whether the mean change from baseline to 6 months was different from 0.||||0.58
92424524|NCT01484132|184736815|SUPERIORITY_OR_OTHER||Slope|-0.061||||0.406|TWO_SIDED|95.0|-0.206|0.084||P-value is to test the association between composite exposure on all surfaces and change in BPA from baseline to 6 months after adjusting for covariates.|Regression, Linear|Composite exposure on all surfaces was used as the main predictor and baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on all surfaces and change in BPA from baseline to 6 months, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||0.084|-0.206|0.406
92424525|NCT01484132|184736815|SUPERIORITY_OR_OTHER||Slope|-0.017||||0.693|TWO_SIDED|95.0|-0.101|0.067||P-value is to test the longitudinal association between composite exposure on all surfaces and change in BPA after adjusting for covariates.|Mixed Models Analysis|Composite exposure on all surfaces was used as the main predictor and baseline BPA, season, household income, and canned food were used as covariates.||To see the longitudinal association between composite exposure on all surfaces and change in BPA from baseline, the repeated measure model was used with all available follow-up BPA data. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||0.067|-0.101|0.693
92424526|NCT01484132|184736815|SUPERIORITY_OR_OTHER||Slope|-0.123||||0.16|TWO_SIDED|95.0|-0.296|0.05||P-value is to test the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 6 months after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 6 months, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.050|-0.296|0.160
92424527|NCT01484132|184736815|SUPERIORITY_OR_OTHER||Slope|-0.029||||0.574|TWO_SIDED|95.0|-0.131|0.073||P-value is to test the longitudinal association between composite exposure on posterior occlusal surfaces and change in BPA after adjusting for covariates.|Mixed Models Analysis|Baseline BPA, season, household income, and canned food were used as covariates.||To see the longitudinal association between composite exposure on posterior occlusal surfaces and change in BPA from baseline, the repeated measure model was used with all available follow-up BPA data. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.073|-0.131|0.574
92424528|NCT01484132|184736816|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||t-test, 2 sided|||One sample t-test was used to test whether the mean change from baseline was different from 0.||||0.11
92424529|NCT01484132|184736816|SUPERIORITY_OR_OTHER||Slope|0.299||||0.003|TWO_SIDED|95.0|0.105|0.494||P-value is to test the association between composite exposure on all surfaces and change in BPA from baseline to 1 day after the first treatment after adjusting for covariates.|Regression, Linear|Composite exposure on all surfaces was used as the main predictor and baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on all surfaces and change in BPA from baseline to 1 day after the first treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||0.494|0.105|0.003
92424530|NCT01484132|184736816|SUPERIORITY_OR_OTHER||Slope|0.365||||0.002|TWO_SIDED|95.0|0.145|0.585||P-value is to test the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 1 day after the first treatment after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 1 day after the first treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.585|0.145|0.002
92424531|NCT01484132|184736817|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||t-test, 2 sided|||One sample t-test was used to test whether the mean change from baseline was different from 0.||||0.27
92424532|NCT01484132|184736817|SUPERIORITY_OR_OTHER||Slope|-0.068||||0.48|TWO_SIDED|95.0|-0.258|0.123||P-value is to test the association between composite exposure on all surfaces and change in BPA from baseline to 14 days after the first treatment after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on all surfaces and change in BPA from baseline to 14 days after the first treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||0.123|-0.258|0.480
92424533|NCT01484132|184736817|SUPERIORITY_OR_OTHER||Slope|-0.074||||0.501|TWO_SIDED|95.0|-0.293|0.145||P-value is to test the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 14 days after the first treatment after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 14 days after the first treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.145|-0.293|0.501
92170510|NCT02554786|184229843|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.001|TWO_SIDED|95.0|0.3|0.63|||Regression, Cox|||Severe asthma exacerbation||0.63|0.3|<0.001
92424534|NCT01484132|184736818|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||t-test, 2 sided|||One sample t-test was used to test whether the mean change from baseline was different from 0.||||0.41
92424535|NCT01484132|184736818|SUPERIORITY_OR_OTHER||Slope|-0.082||||0.612|TWO_SIDED|95.0|-0.418|0.254||P-value is to test the association between composite exposure on all surfaces and change in BPA from baseline to 1 day after the second treatment after adjusting for covariates.|Regression, Linear|Composite exposure on all surfaces was used as the main predictor and baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on all surfaces and change in BPA from baseline to 1 day after the second treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||0.254|-0.418|0.612
92236468|NCT00474630|184376761|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.98|||||TWO_SIDED|95.0|-9.22|-0.74||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-0.74|-9.22|
92236469|NCT00474630|184376762|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.43|||||TWO_SIDED|95.0|-7.48|4.62||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||4.62|-7.48|
92236470|NCT00474630|184376763|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.16|||||TWO_SIDED|95.0|-1.02|3.33||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||3.33|-1.02|
92424536|NCT01484132|184736818|SUPERIORITY_OR_OTHER||Slope|0.078||||0.696|TWO_SIDED|95.0|-0.339|0.495||P-value is to test the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 1 day after the second treatment after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 1 day after the second treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.495|-0.339|0.696
92424537|NCT01484132|184736819|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||t-test, 2 sided|||One sample t-test was used to test whether the mean change from baseline was different from 0.||||0.76
92424538|NCT01484132|184736819|SUPERIORITY_OR_OTHER||Slope|-0.018||||0.968|TWO_SIDED|95.0|-1.061|1.025||P-value is to test the association between composite exposure on all surfaces and change in BPA from baseline to 14 days after the second treatment after adjusting for covariates.|Regression, Linear|Composite exposure on all surfaces was used as the main predictor and baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on all surfaces and change in BPA from baseline to 14 days after the second treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||1.025|-1.061|0.968
92236471|NCT00474630|184376764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|||||TWO_SIDED|95.0|-1.04|1.86||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.86|-1.04|
92236472|NCT00474630|184376765|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.62|||||TWO_SIDED|95.0|0.59|2.65||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||2.65|0.59|
92236473|NCT00474630|184376766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.43|||||TWO_SIDED|95.0|-0.42|1.27||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.27|-0.42|
92236474|NCT00474630|184376767|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|||||TWO_SIDED|96.0|-0.76|0.85||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.85|-0.76|
92424539|NCT01484132|184736819|SUPERIORITY_OR_OTHER||Slope|-0.083||||0.822|TWO_SIDED|95.0|-0.941|0.775||P-value is to test the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 14 days after the second treatment after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 14 days after the second treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.775|-0.941|0.822
92424540|NCT00620464|184736822|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||90.0||||Applies to all parameters.|Bioequivalence Testing|||||||0.05
92424541|NCT00620464|184736823|SUPERIORITY_OR_OTHER_LEGACY||||||<=|0.05||95.0|||||Bioequivalence Testing|||||||<=0.05
92424542|NCT04063384|184736867|OTHER||||||<|0.05||||||The p-value was not adjusted for multiple comparisons.|Mixed Models Analysis||||Group (bipolar, healthy)-by-condition (alcohol, placebo)-by-time of subjective response interactions on subjective response to alcohol were modeled, covarying beverage condition order, biological sex, and age, with SEAS and DEQ subscale scores as the dependent variables. Time of subjective response (pre- and post-scan) and beverage condition (alcohol, placebo) were within-subject factors and group was an independent between-subject factor.|||<0.05
92424543|NCT04063384|184736868|OTHER||||||<|0.004||||||Results of primary models were considered significant at p ≤ 0.004 (Bonferroni correction for twelve ROI-to-ROI connections).|Mixed Models Analysis|||Power analysis suggests this sample size (n = 23 with bipolar disorder, n = 24 healthy comparison participants), at an alpha = 0.05, provides \> 80% statistical power to detect a within subject effect size (ES) d ≥ 0.6 in both subgroups and a between group ES d ≥ 0.8 in this fMRI analysis.|We used a mixed model to examine group by condition by hemisphere (left, right) interactions on ROI-to-ROI FC response to emotional stimuli (contrast: emotional stimuli - squares). Group was an independent between-subject factor, condition and hemisphere were within-subject factors, and ROI-to-ROI FC was the dependent variable.|||<0.004
92236475|NCT00591227|184376777|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58||95.0|||||t-test, 1 sided|||||||0.58
92236476|NCT00611455|184376795|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.86|||<|0.001|TWO_SIDED|95.0|1.67|4.91|||Cochran-Mantel-Haenszel|||||4.91|1.67|<0.001
92236477|NCT01507545|184376861|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.7335|TWO_SIDED|95.0|0.76|1.67|||One-sided log-rank test|||||1.67|0.76|0.7335
92236478|NCT01507545|184376862|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.9498|TWO_SIDED|95.0|0.93|2.19|||One-sided log-rank test|||||2.19|0.93|0.9498
92236479|NCT01507545|184376863|SUPERIORITY||Difference of arms|-2.4||||0.333|TWO_SIDED|95.0|-6.992|2.23|||Fisher Exact|||||2.230|-6.992|0.333
92236480|NCT01873742|184376868|OTHER|The BDI's Cronbach's alpha was .93 at start of therapy, and .95 at the end of therapy.|Mean Difference (Final Values)|1.01|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92424544|NCT00537238|184736869|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the difference in proportion (Pregabalin - Levetiracetam) was greater than -0.12.|Difference in Proportion|0.0|||||TWO_SIDED|90.0|-0.08|0.09||||||||0.09|-0.08|
92424545|NCT00537238|184736870|SUPERIORITY_OR_OTHER_LEGACY||Median difference|4.1||||0.3571|TWO_SIDED|95.0|-2.6|10.9|||Ranked ANCOVA|||Rank analysis of covariance (ANCOVA) model was used to derive p-value with treatment as main effect and cluster as cofactor, percent change in 28-day seizure counts between baseline and treatment periods as dependent variable. Median differences and 95% confidence interval (CI) were based on Hodges-Lehmann estimation.||10.9|-2.6|0.3571
92424546|NCT00537238|184736872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0822|TWO_SIDED||||||Fisher Exact|||All partial seizure: p-value was calculated from the 2-sided Fisher's exact test.||||0.0822
92424547|NCT00537238|184736872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9175|TWO_SIDED||||||Fisher Exact|||Simple partial seizure: p-value was calculated from the 2-sided Fisher's exact test.||||0.9175
92424548|NCT00537238|184736872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0483|TWO_SIDED||||||Fisher Exact|||Complex partial seizure: p-value was calculated from the 2-sided Fisher's exact test.||||0.0483
92424549|NCT00537238|184736872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7139|TWO_SIDED||||||Fisher Exact|||SGTC seizure: p-value was calculated from the 2-sided Fisher's exact test.||||0.7139
92236481|NCT00995371|184376991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.52|||<|0.05|TWO_SIDED|95.0|1.09|3.96|||t-test, 2 sided|||The mean change from baseline was assessed for VAS using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||3.96|1.09|<0.05
92424550|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|1.17|STANDARD_ERROR_OF_MEAN|0.78||0.1334|TWO_SIDED|95.0|-0.36|2.69|||ANCOVA|||Baseline, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||2.69|-0.36|0.1334
92424551|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.17|STANDARD_ERROR_OF_MEAN|0.18||0.3551|TWO_SIDED|95.0|-0.19|0.52|||ANCOVA|||Baseline, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.52|-0.19|0.3551
92424552|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.46|STANDARD_ERROR_OF_MEAN|0.5||0.3638|TWO_SIDED|95.0|-1.45|0.53|||ANCOVA|||Change at Week 7, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.53|-1.45|0.3638
92424553|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.12|STANDARD_ERROR_OF_MEAN|0.11||0.2457|TWO_SIDED|95.0|-0.34|0.09|||ANCOVA|||Change at Week 7, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.09|-0.34|0.2457
92424554|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.23|STANDARD_ERROR_OF_MEAN|0.53||0.664|TWO_SIDED|95.0|-1.26|0.81|||ANCOVA|||Change at Week 10, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.81|-1.26|0.6640
92424555|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.06|STANDARD_ERROR_OF_MEAN|0.12||0.595|TWO_SIDED|95.0|-0.3|0.17|||ANCOVA|||Change at Week 10, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.17|-0.30|0.5950
92424556|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.31|STANDARD_ERROR_OF_MEAN|0.55||0.5701|TWO_SIDED|95.0|-1.38|0.76|||ANCOVA|||Change at Week 13, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.76|-1.38|0.5701
92424557|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.12|STANDARD_ERROR_OF_MEAN|0.1||0.2452|TWO_SIDED|95.0|-0.33|0.08|||ANCOVA|||Change at Week 13, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.08|-0.33|0.2452
92424558|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.77|STANDARD_ERROR_OF_MEAN|0.56||0.1697|TWO_SIDED|95.0|-1.88|0.33|||ANCOVA|||Change at Week 16, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.33|-1.88|0.1697
92424559|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.14|STANDARD_ERROR_OF_MEAN|0.11||0.2283|TWO_SIDED|95.0|-0.36|0.09|||ANCOVA|||Change at Week 16, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.09|-0.36|0.2283
92170511|NCT02554786|184229843|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.115|TWO_SIDED|95.0|0.47|1.09|||Regression, Cox|||Severe asthma exacerbation||1.09|0.47|0.115
92424560|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.35|STANDARD_ERROR_OF_MEAN|0.61||0.0262|TWO_SIDED|95.0|-2.54|-0.16|||ANCOVA|||Change at Follow-up, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||-0.16|-2.54|0.0262
92424561|NCT00537238|184736873|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.26|STANDARD_ERROR_OF_MEAN|0.13||0.0495|TWO_SIDED|95.0|-0.52|0.0|||ANCOVA|||Change at Follow-up, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.00|-0.52|0.0495
92424562|NCT00537238|184736874|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.09|STANDARD_ERROR_OF_MEAN|0.37||0.8084|TWO_SIDED|95.0|-0.82|0.64|||ANCOVA|||Baseline, HADS-A: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.64|-0.82|0.8084
92170512|NCT02554786|184229843|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.001|TWO_SIDED|95.0|0.51|0.82|||Regression, Cox|||All asthma exacerbation||0.82|0.51|<0.001
92236482|NCT00995371|184376991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||>|0.05|TWO_SIDED|95.0|-1.43|1.55|||t-test, 2 sided|||The mean change from baseline was assessed for VAS using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||1.55|-1.43|>0.05
92424563|NCT00537238|184736874|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.22|STANDARD_ERROR_OF_MEAN|0.35||0.5263|TWO_SIDED|95.0|-0.47|0.91|||ANCOVA|||Baseline, HADS-D: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.91|-0.47|0.5263
92424564|NCT00537238|184736874|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.25|STANDARD_ERROR_OF_MEAN|0.3||0.4008|TWO_SIDED|95.0|-0.34|0.85|||ANCOVA|||Week 16, HADS-A: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.85|-0.34|0.4008
92424565|NCT00537238|184736874|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.01|STANDARD_ERROR_OF_MEAN|0.3||0.9749|TWO_SIDED|95.0|-0.61|0.59|||ANCOVA|||Week 16, HADS-D: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.59|-0.61|0.9749
92424566|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.03|STANDARD_ERROR_OF_MEAN|2.06||0.6161|TWO_SIDED|95.0|-5.08|3.01|||ANCOVA|||Baseline sleep disturbance: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||3.01|-5.08|0.6161
92424567|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.63|STANDARD_ERROR_OF_MEAN|1.62||0.3154|TWO_SIDED|95.0|-4.83|1.56|||ANCOVA|||Week 16 sleep disturbance: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||1.56|-4.83|0.3154
92424568|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.7|STANDARD_ERROR_OF_MEAN|3.18||0.593|TWO_SIDED|95.0|-7.94|4.54|||ANCOVA|||Baseline snoring: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||4.54|-7.94|0.5930
92424569|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|10.02|STANDARD_ERROR_OF_MEAN|2.42|<|0.0001|TWO_SIDED|95.0|5.27|14.76|||ANCOVA|||Week 16 snoring: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||14.76|5.27|<0.0001
92424570|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.54|STANDARD_ERROR_OF_MEAN|2.18||0.4807|TWO_SIDED|95.0|-5.83|2.75|||ANCOVA|||Baseline awaken short of breath: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||2.75|-5.83|0.4807
92424571|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.88|STANDARD_ERROR_OF_MEAN|2.07||0.6708|TWO_SIDED|95.0|-3.18|4.94|||ANCOVA|||Week 16 awaken short of breath: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||4.94|-3.18|0.6708
92424572|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7574|TWO_SIDED|95.0|-0.32|0.24|||ANCOVA|||Baseline quantity of sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||0.24|-0.32|0.7574
92424573|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.14|STANDARD_ERROR_OF_MEAN|0.12||0.2615|TWO_SIDED|95.0|-0.1|0.38|||ANCOVA|||Week 16 quantity of sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||0.38|-0.10|0.2615
92424574|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.44|STANDARD_ERROR_OF_MEAN|2.53||0.5703|TWO_SIDED|95.0|-6.42|3.54|||ANCOVA|||Baseline adequacy of sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||3.54|-6.42|0.5703
92424575|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-2.99|STANDARD_ERROR_OF_MEAN|2.41||0.216|TWO_SIDED|95.0|-7.74|1.75|||ANCOVA|||Week 16 adequacy of sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||1.75|-7.74|0.2160
92424576|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|1.07|STANDARD_ERROR_OF_MEAN|2.02||0.5952|TWO_SIDED|95.0|-2.89|5.03|||ANCOVA|||Baseline somnolence: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||5.03|-2.89|0.5952
92424577|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.72|STANDARD_ERROR_OF_MEAN|1.87||0.6984|TWO_SIDED|95.0|-4.4|2.95|||ANCOVA|||Week 16 somnolence: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||2.95|-4.40|0.6984
92170513|NCT02554786|184229843|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.38|0.6|||Regression, Cox|||All asthma exacerbation||0.6|0.38|<0.001
92236483|NCT00995371|184376992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.33|||<|0.05|TWO_SIDED|95.0|3.35|19.31|||t-test, 2 sided|||The mean change from baseline was assessed for ODI using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||19.31|3.35|<0.05
92236484|NCT00995371|184376992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.65|||>|0.05||95.0|-4.12|15.41|||t-test, 2 sided|||The mean change from baseline was assessed for ODI using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||15.41|-4.12|>0.05
92236485|NCT00995371|184376993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.19|||<|0.05||95.0|0.61|3.77|||t-test, 2 sided|||The mean change from baseline was assessed for VAS using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||3.77|0.61|<0.05
92424578|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.13|STANDARD_ERROR_OF_MEAN|1.64||0.9389|TWO_SIDED|95.0|-3.09|3.34|||ANCOVA|||Baseline sleep problem index (9): ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||3.34|-3.09|0.9389
92424579|NCT00537238|184736875|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.64|STANDARD_ERROR_OF_MEAN|1.34||0.6344|TWO_SIDED|95.0|-2.0|3.27|||ANCOVA|||Week 16 sleep problem index (9): ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||3.27|-2.00|0.6344
92424580|NCT00537238|184736876|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.016||||0.9285|TWO_SIDED|95.0|0.715|1.444|||Regression, Logistic|||Baseline: Logistic regression model was used to estimate odds ratio and corresponding 95% CI of treatment difference, with treatment as fixed effect and for post-baseline assessments baseline was included as a covariate.||1.444|0.715|0.9285
92424581|NCT00537238|184736876|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.432||||0.0696|TWO_SIDED|95.0|0.972|2.11|||Regression, Logistic|||Week 16: Logistic regression model was used to estimate odds ratio and corresponding 95% CI of treatment difference, with treatment as fixed effect and for post-baseline assessments baseline was included as a covariate.||2.110|0.972|0.0696
92424582|NCT03615326|184736894|SUPERIORITY|The hazard ratio (HR) and its 95% confidence interval (CI) were estimated using a stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status (positive vs. negative) at baseline, and chemotherapy regimen (FP or CAPOX).|Hazard Ratio (HR)|0.73||||0.0002|TWO_SIDED|95.0|0.61|0.87|||Log Rank|One-sided p-value based on log-rank test stratified by geographic region, PD-L1 status, and chemotherapy regimen with small strata collapsed.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status, and chemotherapy regimen with small strata collapsed.|PFS in all participants of the Global Pembrolizumab + SOC First Course was compared to PFS in all participants of the Global Standard of Care to address the hypothesis (pembrolizumab in combination with trastuzumab plus chemotherapy is superior to trastuzumab plus chemotherapy alone).||0.87|0.61|0.0002
92424583|NCT03615326|184736895|SUPERIORITY|The hazard ratio (HR) and its 95% confidence interval (CI) were estimated using a stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status (positive vs. negative) at baseline, and chemotherapy regimen (FP or CAPOX).|Hazard Ratio (HR)|0.8||||0.004|TWO_SIDED|95.0|0.67|0.94|||Log Rank|One-sided p-value based on log-rank test stratified by geographic region, PD-L1 status, and chemotherapy regimen with small strata collapsed.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status, and chemotherapy regimen with small strata collapsed.|OS in all participants of the Global Pembrolizumab + SOC First Course was compared to PFS in all participants of the Global Standard of Care to address the hypothesis (pembrolizumab in combination with trastuzumab plus chemotherapy is superior to trastuzumab plus chemotherapy alone).||0.94|0.67|0.0040
92424584|NCT03615326|184736896|SUPERIORITY|The difference in percentage and its 95% confidence interval (CI) were estimated using the Miettinen \& Nurminen method stratified by geographic region, PD-L1 status (positive vs. negative) at baseline, and chemotherapy regimen (FP or CAPOX).|Difference in Percentage|12.6||||0.0002|TWO_SIDED|95.0|5.6|19.4||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen Method|||ORR in all participants of the Global Pembrolizumab + SOC First Course was compared to PFS in all participants of the Global Standard of Care to address the hypothesis (pembrolizumab in combination with trastuzumab plus chemotherapy is superior to trastuzumab plus chemotherapy alone).||19.4|5.6|0.00020
92424585|NCT02651467|184736934|SUPERIORITY_OR_OTHER||Difference of Least Square mean|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.181|-0.584||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|For the Week 8 comparisons of the two Treatments against the Placebo Control, Dunnett's multiplicity adjustment is applied.||-0.584|-1.181|<0.0001
92424586|NCT02651467|184736934|SUPERIORITY_OR_OTHER||Diference of Least Square mean|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.333|-0.738||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|For the Week 8 comparisons of the two Treatments against the control, Dunnett's multiplicity adjustment is applied.||-0.738|-1.333|<0.0001
92170514|NCT02554786|184229843|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.185|TWO_SIDED|95.0|0.66|1.08|||Regression, Cox|||All asthma exacerbation||1.08|0.66|0.185
92170515|NCT02554786|184229844|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.337|TWO_SIDED|95.0|0.13|2.03|||Regression, Cox|||||2.03|0.13|0.337
92170516|NCT02554786|184229844|SUPERIORITY||Hazard Ratio (HR)|0.14||||0.063|TWO_SIDED|95.0|0.02|1.11|||Regression, Cox|||||1.11|0.02|0.063
92236486|NCT00995371|184376993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||>|0.05||95.0|-0.66|2.66|||t-test, 2 sided|||The mean change from baseline was assessed for VAS using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||2.66|-0.66|>0.05
92236487|NCT00995371|184376994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.13|||<|0.05||95.0|7.43|24.83|||t-test, 2 sided|||The mean change from baseline was assessed for ODI using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||24.83|7.43|<0.05
92236488|NCT00995371|184376994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.17|||>|0.05||95.0|-1.24|13.58|||t-test, 2 sided|||The mean change from baseline was assessed for ODI using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||13.58|-1.24|>0.05
92236489|NCT01462292|184377008|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.946||||0.554|TWO_SIDED|95.0|-39.122|21.229||Due to the two comparisons for the two different doses, the type 1 error rate (5% overall) was preserved by utilizing a hierarchical approach, testing the 6mg/kg GSK2402968 dose first|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, centre grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 3 mg||21.229|-39.122|0.554
92424587|NCT02651467|184736935|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.15||||0.2478||95.0|-0.107|0.413||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.413|-0.107|0.2478
92424588|NCT02477839|184736942|OTHER||Mean Difference (Final Values)|0.97|||||TWO_SIDED|95.0|0.83|1.14|||ANCOVA|||Difference ratio in LS Mean was calculated as the exp \[LSMLCM-LSMplacebo\].||1.14|0.83|
92424589|NCT02477839|184736942|OTHER||Percent reduction|3.19|||=|0.6895|TWO_SIDED|95.0|-13.59|17.5|||ANCOVA|||Percent reduction over placebo was estimated as 100 x (1-exp \[LSMLCM-LSMPBO\]).||17.50|-13.59|=0.6895
92424590|NCT01439568|184736960|SUPERIORITY||Hazard Ratio (HR)|1.0608||||0.8072|TWO_SIDED|95.0|0.6598|1.7055|||Logrank Test|||||1.7055|0.6598|0.8072
92170517|NCT02554786|184229844|SUPERIORITY||Hazard Ratio (HR)|1.62||||0.599|TWO_SIDED|95.0|0.27|9.7|||Regression, Cox|||||9.7|0.27|0.599
92236490|NCT01462292|184377008|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.099||||0.069|TWO_SIDED|95.0|-2.21|56.408||Due to the two comparisons for the two different doses, the type 1 error rate (5% overall) was preserved by utilising a hierarchical approach, testing the 6mg/kg GSK2402968 dose first|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, centre grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 6 mg||56.408|-2.210|0.069
92236491|NCT01462292|184377009|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.387||||0.699|TWO_SIDED|95.0|-1.618|2.392||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Treatment difference: Placebo Vs GSK2402968 3 mg||2.392|-1.618|0.699
92236492|NCT01462292|184377009|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.831||||0.384|TWO_SIDED|95.0|-1.072|2.735||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Treatment difference: Placebo Vs GSK2402968 6 mg||2.735|-1.072|0.384
92424591|NCT02607930|184736964|NON_INFERIORITY|A sample of approximately 600 participants randomized 1:1 achieves at least 95% power using a non-inferiority margin of 12% assuming a response rate in both groups of 91% (Reference Genvoya studies) and a one-sided alpha level of 0.025.|Difference in Percentages|-0.6|||||TWO_SIDED|95.002|-4.8|3.6|||||Differences in percentages of participants between groups and their 95.002% CIs were calculated based on Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.6|-4.8|
92424592|NCT02607930|184736964|SUPERIORITY|||||||0.78|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.78
92424593|NCT02607930|184736965|OTHER||Difference in Percentages|-1.9|||||TWO_SIDED|95.0|-6.9|3.1|||||Differences in percentages of participants between groups and their 95% CIs were calculated based on Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.1|-6.9|
92236493|NCT01462292|184377010|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.002||||0.997|TWO_SIDED|95.0|-0.883|0.886||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment,centre grouping and baseline||Placebo (combined) Vs GSK2402968 3 mg/kg/week, Ascent Week 24||0.886|-0.883|0.997
92236494|NCT01462292|184377010|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.803||||0.064|TWO_SIDED|95.0|-1.655|0.048||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Placebo (combined) Vs GSK2402968 6 mg/kg/week, Ascent, Week 24||0.048|-1.655|0.064
92424594|NCT02607930|184736965|OTHER|||||||0.45|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.45
92424595|NCT02607930|184736966|OTHER||Difference in Percentages|-2.6|||||TWO_SIDED|95.0|-8.5|3.4|||||Differences in percentages of participants between groups and their 95% CIs were calculated based on MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.4|-8.5|
92170518|NCT02554786|184229845|SUPERIORITY||Rate Ratio|0.65||||0.008|TWO_SIDED|95.0|0.48|0.89|||Generalized linear model|||Moderate or severe asthma exacerbation||0.89|0.48|0.008
92170519|NCT02554786|184229845|SUPERIORITY||Rate Ratio|0.47|||<|0.001|TWO_SIDED|95.0|0.35|0.64|||Generalized linear model|||Moderate or severe asthma exacerbation||0.64|0.35|<0.001
92236495|NCT01462292|184377010|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.685||||0.311|TWO_SIDED|95.0|-2.033|0.662||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Placebo (combined) Vs GSK2402968 3 mg/kg/week, Descent Week 24||0.662|-2.033|0.311
92236496|NCT01462292|184377010|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.412||||0.523|TWO_SIDED|95.0|-1.702|0.878||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Placebo (combined) Vs GSK2402968 6 mg/kg/week, Descent Week 24||0.878|-1.702|0.523
92424596|NCT02607930|184736966|OTHER|||||||0.39|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.39
92424597|NCT02607930|184736967|OTHER||Difference in Percentages|0.4|||||TWO_SIDED|95.0|-4.8|5.6|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||5.6|-4.8|
92424598|NCT02607930|184736967|OTHER|||||||0.87|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.87
92424599|NCT02607930|184736968|OTHER||Difference in Percentages|-1.2|||||TWO_SIDED|95.0|-6.9|4.6|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||4.6|-6.9|
92424600|NCT02607930|184736968|OTHER|||||||0.69|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.69
92424601|NCT02607930|184736969|OTHER||Difference in Percentages|-4.2|||||TWO_SIDED|95.0|-10.5|2.1|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||2.1|-10.5|
92424602|NCT02607930|184736969|OTHER|||||||0.19|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.19
92424603|NCT02607930|184736970|OTHER||Difference in LSM|-0.03||||0.48|TWO_SIDED|95.0|-0.12|0.06|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in least-squares mean (LSM), and its 95% confidence interval (CI) were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.06|-0.12|0.48
92424604|NCT02607930|184736971|OTHER||Difference in LSM|0.0||||0.99|TWO_SIDED|95.0|-0.09|0.09|||ANOVA||Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.09|-0.09|0.99
92424605|NCT02607930|184736972|OTHER||Difference in LSM|0.01||||0.88|TWO_SIDED|95.0|-0.08|0.1|||ANOVA||Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.10|-0.08|0.88
92424606|NCT02607930|184736973|OTHER||Difference in LSM|6.0||||0.69|TWO_SIDED|95.0|-24.0|36.0|||ANOVA|P-value was adjusted by the baseline HIV-1 RNA and region stratum.|Difference in LSM, and its 95% CI were adjusted by the baseline HIV-1 RNA and region stratum.|||36|-24|0.69
92424607|NCT02607930|184736974|OTHER||Difference in LSM|-1.0||||0.94|TWO_SIDED|95.0|-39.0|36.0|||ANOVA|P-value was adjusted by the baseline HIV-1 RNA and region stratum.|Difference in LSM, and its 95% CI were adjusted by the baseline HIV-1 RNA and region stratum.|||36|-39|0.94
92424608|NCT02607930|184736975|OTHER||Difference in LSM|-20.0||||0.3|TWO_SIDED|95.0|-59.0|18.0|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||18|-59|0.30
92424609|NCT02607930|184736976|OTHER||Difference in LSM|0.346||||0.092|TWO_SIDED|95.0|-0.057|0.748|||ANOVA|||||0.748|-0.057|0.092
92424610|NCT02607930|184736977|OTHER||Difference in LSM|0.135||||0.59|TWO_SIDED|95.0|-0.356|0.625|||ANOVA|||||0.625|-0.356|0.59
92424611|NCT02607930|184736978|OTHER||Difference in LSM|0.271||||0.39|TWO_SIDED|95.0|-0.351|0.893|||ANOVA|||||0.893|-0.351|0.39
92424612|NCT02607930|184736979|OTHER||Difference in LSM|-0.221||||0.41|TWO_SIDED|95.0|-0.741|0.3|||ANOVA|||||0.300|-0.741|0.41
92424613|NCT02607930|184736980|OTHER||Difference in LSM|-0.485||||0.14|TWO_SIDED|95.0|-1.126|0.155|||ANOVA|||||0.155|-1.126|0.14
92424614|NCT02607930|184736981|OTHER||Difference in LSM|-0.406||||0.26|TWO_SIDED|95.0|-1.119|0.307|||ANOVA|||||0.307|-1.119|0.26
92424615|NCT01050543|184736990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1|||<|0.0001|TWO_SIDED|95.0|6.8|9.6|||ANOVA|||To evaluate the efficacy of sugammadex compared to the efficacy of neostigmine, the ratio of the geometric means of time to recovery of the T4/T1 ratio to 0.9 was calculated using a 2-way ANOVA model adjusted for trial site.||9.6|6.8|<0.0001
92424616|NCT01950169|184736993|SUPERIORITY|||||||0.05|||||||ANCOVA|Covariates used were age, sex, total mass, and baseline BMD. Data were reported using complete-cases analysis and intention-to-treat (ITT) analysis.||||||0.05
92424617|NCT01950169|184736994|SUPERIORITY|||||||0.05|||||||ANCOVA|Covariates used were age, sex, total mass, and baseline BMD. Data were reported using complete-cases analysis and intention-to-treat (ITT) analysis.||||||0.05
92424618|NCT01950169|184736995|SUPERIORITY|||||||0.05|||||||ANCOVA|The analyses included exposure measures treatment groups and sex as fixed factors. Age and baseline values for FFMI, FMI were included as covariates.||||||0.05
92424619|NCT02905149|184737064|SUPERIORITY||Median Difference (Final Values)|9.0|||<|0.05|TWO_SIDED|95.0|4.0|14.5||Not adjusted for multiple comparison|Wilcoxon (Mann-Whitney)||Generalized Hodges-Lehmann median difference is used. These are robust to the possibility that the population distributions in the two groups are different in ways other than location. It may not represent the raw median difference.|||14.5|4|< 0.05
92424620|NCT02907268|184737070|EQUIVALENCE|"Each variable compared with the no change score. The no change score is 0 for wrinkles-related variables."|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92424621|NCT02907268|184737071|EQUIVALENCE|"Each variable compared with the no change score. The no change score is 0 for wrinkles-related variables."|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92424622|NCT02907268|184737072|EQUIVALENCE|"Each variable compared with the no change score. The no change score is 0 for wrinkles-related variables."|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92424623|NCT02963935|184737155|SUPERIORITY|The treatment policy estimand evaluated the treatment effect (liraglutide 3.0 mg vs placebo) at week 56 for all randomised subjects regardless of premature discontinuation of trial product.|Treatment difference|-3.45||||0.0003|TWO_SIDED|95.0|-5.31|-1.59|||ANCOVA|Missing observations were imputed from the placebo arm based on a jump to reference (x100) multiple imputation approach.|Liraglutide 3.0 mg - placebo|Treatrment policy estimand. The hypothesis and the alternative are: H: μliraglutide ≥ μplacebo against the alternative HA: μliraglutide \< μplacebo. μliraglutide and μplacebo denote the true mean of % weight change for liraglutide 3.0 mg and placebo group, respectively. Week 56 responses were analysed using an analysis of covariance model with treatment, BMI groups, and sex as factors and baseline body weight as covariate.||-1.59|-5.31|0.0003
92236497|NCT01462292|184377011|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.564||||0.05|TWO_SIDED|95.0|0.0|1.127||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Treatment difference: Placebo Vs GSK2402968 3 mg||1.127|0.000|0.050
92236498|NCT01462292|184377011|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.037||||0.89|TWO_SIDED|95.0|-0.498|0.571||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, center grouping and baseline||Treatment difference: Placebo Vs GSK2402968 6 mg||0.571|-0.498|0.890
92424624|NCT02963935|184737155|OTHER|The hypothetical estimand evaluated the treatment effect (liraglutide 3.0 mg vs placebo) for all randomised subjects assuming that all subjects remained on trial product (on-treatment principle)|Treatment difference|-4.59||||0|TWO_SIDED|95.0|-6.54|-2.64|||Mixed models repeated measurement (MMRM)||Liraglutide 3.0 mg - placebo|Hypothetical estimand. Analysis of on-drug data before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline body weight as covariate, all nested within visit.||-2.64|-6.54|0.0000
92424625|NCT02963935|184737156|SUPERIORITY||Odds Ratio (OR)|2.51||||0.0003|TWO_SIDED|95.0|1.53|4.14|||Regression, Logistic||Liraglutide 3.0 mg/Placebo|Treatment policy estimand. Week 56 responses were analysed using a logistic regression model with treatment, BMI groups, and sex as factors and baseline body weight as covariate. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach.||4.14|1.53|0.0003
92424626|NCT02963935|184737156|OTHER||Odds Ratio (OR)|2.84||||0|TWO_SIDED|95.0|1.75|4.61|||Mixed models repeated measurement (MMRM)||Liraglutide 3.0 mg/placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline body weight as covariate, all nested within visit. The MMRM was used to classify responders and analysed with a logistic regression with treatment as the only factor.||4.61|1.75|0.0000
92424627|NCT02963935|184737157|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0469|TWO_SIDED|95.0|1.01|3.14|||Regression, Logistic||Liraglutide 3.0 mg/Placebo|Treatment policy estimand. Week 56 responses were analysed using a logistic regression model with treatment, BMI groups, and sex as factors and baseline body weight as covariate. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x10000) imputation approach.||3.14|1.01|0.0469
92424628|NCT02963935|184737157|OTHER||Odds Ratio (OR)|2.14||||0.0063|TWO_SIDED|95.0|1.24|3.69|||Mixed models repeated measurement (MMRM)||Liraglutide 3.0 mg/placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline body weight as covariate, all nested within visit. The MMRM was used to classify responders and analysed with a logistic regression with treatment as the only factor.||3.69|1.24|0.0063
92424629|NCT02963935|184737158|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0311|TWO_SIDED|95.0|1.08|4.74|||Regression, Logistic||Liraglutide 3.0 mg/Placebo|Treatment policy estimand. Week 56 responses were analysed using a logistic regression model with treatment, BMI groups, and sex as factors and baseline body weight as covariate. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach.||4.74|1.08|0.0311
92424630|NCT02963935|184737158|OTHER||Odds Ratio (OR)|2.74||||0.006|TWO_SIDED|95.0|1.33|5.62|||Mixed models repeated measurement (MMRM)||Liraglutide 3.0 mg/placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline body weight as covariate, all nested within visit. The MMRM was used to classify responders and analysed with a logistic regression with treatment as the only factor.||5.62|1.33|0.0060
92424631|NCT02963935|184737159|SUPERIORITY||Odds Ratio (OR)|3.32|||<|0.0001|TWO_SIDED|95.0|1.93|5.72|||Regression, Logistic||Liraglutide 3.0 mg/placebo|"Treatment policy estimand. Week 16 responders were analysed using a logistic regression model with treatment, BMI groups, and sex as factors and baseline body weight as covariate.~Missing values are considered as non-responders."||5.72|1.93|<0.0001
92424632|NCT02963935|184737160|SUPERIORITY||treatment difference|-2.72||||0.0063|TWO_SIDED|95.0|-4.68|-0.77|||ANCOVA||Liraglutide 3.0 mg - placebo|Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using an analysis of covariance model with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate.||-0.77|-4.68|0.0063
92424633|NCT02963935|184737160|OTHER||Treatment difference|-3.45||||0.002|TWO_SIDED|95.0|-5.62|-1.28|||Mixed model repeated measurements (MMRM)||Liraglutide 3.0 mg - placebo|Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate, all nested within visit.||-1.28|-5.62|0.0020
92424634|NCT02963935|184737161|SUPERIORITY||Treatment difference|0.16||||0.8137|TWO_SIDED|95.0|-1.19|1.52|||ANCOVA||Liraglutide 3.0 mg - placebo|Treatment policy estimand. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using an analysis of covariance model with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate.||1.52|-1.19|0.8137
92424635|NCT02963935|184737161|OTHER||Treatment difference|0.16||||0.8053|TWO_SIDED|95.0|-1.12|1.43|||Mixed model repeated measurements (MMRM)||Liraglutide 3.0 mg- placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate, all nested within visit.||1.43|-1.12|0.8053
92424636|NCT02963935|184737162|SUPERIORITY|Superiority was not tested as part of confirmatory testing strategy.|Treatment difference|0.87||||0.6916|TWO_SIDED|95.0|-3.41|5.14|||ANCOVA||Liraglutide 3.0 mg - placebo|Treatment policy estimand. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using an analysis of covariance model with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate.||5.14|-3.41|0.6916
92170520|NCT02554786|184229845|SUPERIORITY||Rate Ratio|0.93||||0.669|TWO_SIDED|95.0|0.67|1.29|||Generalized linear model|||Moderate or severe asthma exacerbation||1.29|0.67|0.669
92424637|NCT02963935|184737162|OTHER||treatment difference|1.25||||0.5572|TWO_SIDED|95.0|-2.95|5.45|||Mixed models repeated measurements (MMRM||Liraglutide 3.0 mg - placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate, all nested within visit.||5.45|-2.95|0.5572
92236499|NCT01462292|184377012|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.356||||0.723|TWO_SIDED|95.0|-10.936|15.648||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model includes terms for Treatment, Centre Grouping and Baseline Muscle Strength Total Score||Treatment difference: Placebo Vs GSK2402968 3 mg||15.648|-10.936|0.723
92424638|NCT02963935|184737163|SUPERIORITY|Superiority was not tested as part of confirmatory testing strategy.|Treatment difference|3.12||||0.6986|TWO_SIDED|95.0|-12.68|18.92|||ANCOVA||Liraglutide 3.0 mg - placebo|Treatment policy estimand. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using an analysis of covariance model with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate.||18.92|-12.68|0.6986
92424639|NCT02963935|184737163|OTHER||Treatment difference|7.66||||0.37|TWO_SIDED|95.0|-9.15|24.48|||Mixed model repeated measurements (MMRM)||Liraglutide 3.0 mg - placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate, all nested within visit.||24.48|-9.15|0.3700
92424640|NCT00464269|184737206|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The overall significance level was controlled at 5 %. The 3 doses of Brivaracetam were tested at the 5 % level against Placebo starting from the 50 mg dose then the 20 mg dose and finally the 5 mg dose, only moving to the next test if the previous one is significant at the 5 % level.|% reduction over Placebo|12.8|||=|0.025|TWO_SIDED|95.0|1.7|22.6|||ANCOVA|Baseline and Treatment Period Partial Onset Seizure (POS) frequencies are standardized to a 7-day duration.|The log-transformed (log(x+1)) POS seizure frequency was analyzed using an ANCOVA model, including terms for treatment, stratification factors, and log-transformed Baseline POS seizure frequency per week as a covariate.|The treatment difference between each Brivaracetam (BRV) dose and Placebo (PBO) is reported as a percent reduction over Placebo. The treatment effect was estimated using the 95 % confidence intervals.||22.6|1.7|=0.025
92424641|NCT00464269|184737206|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The overall significance level was controlled at 5 %. The 3 doses of Brivaracetam were tested at the 5 % level against Placebo starting from the 50 mg dose then the 20 mg dose and finally the 5 mg dose, only moving to the next test if the previous one is significant at the 5 % level.|% reduction over Placebo|4.1|||=|0.492|TWO_SIDED|95.0|-8.1|15.0|||ANCOVA|Baseline and Treatment Period Partial Onset Seizure (POS) frequencies are standardized to 7-day duration.|The log-transformed (log(x+1)) POS seizure frequency was analyzed using an ANCOVA model, including terms for treatment, stratification factors, and log-transformed Baseline POS seizure frequency per week as a covariate.|The treatment difference between each Brivaracetam dose an Placebo is reported as a percent reduction over Placebo. The treatment effect was estimated using 95 % confidence intervals.||15.0|-8.1|=0.492
92424642|NCT03911154|184737229|OTHER|We used linear mixed effect models (in SAS version 9.4, SAS Institute, Cary, NC) with random subject intercept to account for the clustered nature of the data. The model included factors for stimulus modality (4 levels), sleep restriction night (4 levels), and their interaction.|Mean Difference (Net)|0.329|STANDARD_ERROR_OF_MEAN|0.353||0.36|TWO_SIDED|95.0|-0.403|1.06|||Mixed Models Analysis|||Number of lapses of attention were averaged across assessments within each day and the statistical analysis adjusted for baseline.||1.060|-0.403|0.36
92424643|NCT03911154|184737229|OTHER|Linear mixed effects model with a random subject intercept.|Mean Difference (Net)|-0.307|STANDARD_ERROR_OF_MEAN|0.441||0.49|TWO_SIDED|95.0|-1.222|0.608|||Mixed Models Analysis|||Number of lapses of attention upon emergent awakening||0.608|-1.222|0.49
92424644|NCT03911154|184737230|OTHER|Linear mixed effects model with a random subject intercept.|Mean Difference (Net)|0.455|STANDARD_ERROR_OF_MEAN|2.797||0.87|TWO_SIDED|95.0|-5.4|6.31|||Mixed Models Analysis|||||6.310|-5.400|0.87
92170521|NCT02554786|184229845|SUPERIORITY||Rate Ratio|0.71||||0.108|TWO_SIDED|95.0|0.47|1.08|||Generalized linear model|||Severe asthma exacerbation||1.08|0.47|0.108
92236500|NCT01462292|184377012|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.821||||0.898|TWO_SIDED|95.0|-12.034|13.676||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model includes terms for Treatment, Centre Grouping and Baseline Muscle Strength Total Score||Treatment difference: Placebo Vs GSK2402968 6mg||13.676|-12.034|0.898
92424645|NCT03911154|184737231|OTHER|Linear mixed effects model with a random subject intercept.|Mean Difference (Net)|-0.112|STANDARD_ERROR_OF_MEAN|0.798||0.89|TWO_SIDED|95.0|-1.767|1.543|||Mixed Models Analysis|||Number correct on the DSST was averaged across DSST administrations within each day and was adjusted for baseline performance.||1.543|-1.767|0.89
92170522|NCT02554786|184229845|SUPERIORITY||Rate Ratio|0.46|||<|0.001|TWO_SIDED|95.0|0.31|0.67|||Generalized linear model|||Severe asthma exacerbation||0.67|0.31|<0.001
92424646|NCT03911154|184737232|OTHER|Linear mixed effects model with a random subject intercept.|Mean Difference (Net)|-0.121|STANDARD_ERROR_OF_MEAN|0.381||0.76|TWO_SIDED|95.0|-0.919|0.678|||Mixed Models Analysis|||Number correct on the DST was averaged across DST administrations within each day and adjusted for baseline.||0.678|-0.919|0.76
92424647|NCT03911154|184737233|OTHER|Linear mixed effects model with a random subject intercept.|Mean Difference (Net)|0.085|STANDARD_ERROR_OF_MEAN|0.179||0.64|TWO_SIDED|95.0|-0.286|0.456|||Mixed Models Analysis|||The mean weighted score on the ROBoT was adjusted for baseline.||0.456|-0.286|0.64
92424648|NCT00543543|184737254|SUPERIORITY_OR_OTHER||Vaccine efficacy|96.7|||<|0.0001|TWO_SIDED|95.0|80.9|99.8|||Exact test, 1-sided||Vaccine efficacy = 100 \* \[1 - (incidence rate with V503 / incidence rate with Gardasil)\]. The pre-specified success criterion was a lower bound of the 95% confidence interval of observed efficacy of \>25%.|||99.8|80.9|<0.0001
92170523|NCT02554786|184229845|SUPERIORITY||Rate Ratio|0.89||||0.597|TWO_SIDED|95.0|0.58|1.37|||Generalized linear model|||Severe asthma exacerbation||1.37|0.58|0.597
92170524|NCT02554786|184229845|SUPERIORITY||Rate Ratio|0.67||||0.002|TWO_SIDED|95.0|0.52|0.87|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||0.87|0.52|0.002
92236501|NCT01462292|184377014|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49||||0.684|TWO_SIDED|95.0|-2.9|1.92||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, center grouping and baseline||Treatment difference: Placebo Vs GSK2402968 3 mg||1.92|-2.90|0.684
92236502|NCT01462292|184377014|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.873|TWO_SIDED|95.0|-2.49|2.12||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, center grouping and baseline||Treatment difference: Placebo Vs GSK2402968 6 mg||2.12|-2.49|0.873
92236503|NCT01462292|184377016|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-892.88||||0.61|TWO_SIDED|95.0|-4391.1|2605.35||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, center grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 3 mg, Week 24||2605.35|-4391.10|0.610
92424649|NCT00543543|184737255|SUPERIORITY_OR_OTHER||Vaccine efficacy|97.4|||||TWO_SIDED|95.0|85.0|99.9|||Exact test, 1-sided||Vaccine efficacy = 100 \* \[1 - (incidence rate with V503 / incidence rate with Gardasil)\]. The pre-specified success criterion was a lower bound of the 95% confidence interval of observed efficacy of \>25%.|||99.9|85.0|
92424650|NCT00543543|184737256|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.67|GMT ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.99|1.06|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|Anti-HPV Type 6||1.06|0.99|<0.001
92424651|NCT00543543|184737256|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided CI of the GMT ratio was \>0.67|GMT ratio|0.8|||<|0.001|TWO_SIDED|95.0|0.77|0.83|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|Anti-HPV Type 11||0.83|0.77|<0.001
92424652|NCT00543543|184737256|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided CI of the GMT ratio was \>0.67|GMT ratio|0.99|||<|0.001|TWO_SIDED|95.0|0.96|1.03|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|Anti-HPV Type 16||1.03|0.96|<0.001
92424653|NCT00543543|184737256|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided CI of the GMT ratio was \>0.67|GMT ratio|1.19|||<|0.001|TWO_SIDED|95.0|1.14|1.23|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|Anti-HPV Type 18||1.23|1.14|<0.001
92236504|NCT01462292|184377016|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2054.86||||0.248|TWO_SIDED|95.0|-5587.33|1477.6||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, center grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 3 mg, Week 48||1477.60|-5587.33|0.248
92236505|NCT01462292|184377016|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1305.46||||0.439|TWO_SIDED|95.0|-4668.41|2057.48||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, center grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 6 mg, Week 24||2057.48|-4668.41|0.439
92236506|NCT01462292|184377016|SUPERIORITY_OR_OTHER||Mean Difference (Net)|167.39||||0.921|TWO_SIDED|95.0|-3208.98|3543.77||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, center grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 6 mg, Week 48||3543.77|-3208.98|0.921
92424654|NCT00543543|184737263|SUPERIORITY_OR_OTHER||Vaccine efficacy|96.0|||||TWO_SIDED|95.0|94.6|97.1|||||Vaccine efficacy = 100 \* \[1 - (incidence rate with V503 / incidence rate with Gardasil)\]. The pre-specified success criterion was a lower bound of the 95% confidence interval of observed efficacy of \>25%.|||97.1|94.6|
92236507|NCT01462292|184377023|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41||||0.541|TWO_SIDED|95.0|0.02|7.01||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Regression, Logistic|Model includes terms for Treatment and Centre Grouping||Placebo (combined), GSK2402968 3 mg/kg/week||7.01|0.02|0.541
92424655|NCT04502979|184737275|SUPERIORITY||Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|0.21||0.07|TWO_SIDED|95.0|-0.11|0.73||One-sided p-value for directional hypothesis. The threshold for statistical significance is p \< 0.05.|Mixed Models Analysis|||||0.73|-0.11|0.07
92424656|NCT04502979|184737276|SUPERIORITY||Mean Difference (Net)|-121.16|STANDARD_ERROR_OF_MEAN|65.73||0.04|TWO_SIDED|95.0|-252.73|10.41||One-sided p-value for directional hypothesis. The threshold for statistical significance is p \< 0.05.|Mixed Models Analysis|||||10.41|-252.73|0.04
92424657|NCT01881373|184737277|SUPERIORITY|Hierarchical logistic model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-3.88||||0.02|TWO_SIDED|95.0|-7.29|-0.47|||Regression, Logistic|Hierarchical model.|Intervention vs control communities comparing 24 months to baseline|||-0.47|-7.29|0.02
92424658|NCT01881373|184737277|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|-2.63||||0.28|TWO_SIDED|95.0|-8.58|3.32||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Logistic|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||3.32|-8.58|0.28
92424659|NCT01881373|184737278|SUPERIORITY|Hierarchical model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-1.64||||0.009|TWO_SIDED|95.0|-2.87|-0.41||Intervention vs control communities comparing 78 months to baseline.|Regression, Linear|Hierarchical model.||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||-0.41|-2.87|0.009
92424660|NCT01881373|184737278|SUPERIORITY|Hierarchical logistic model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|4.35||||0.49|TWO_SIDED|95.0|-8.5|17.24|||Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs temporal comparing 78 months to baseline.||17.24|-8.5|0.49
92170525|NCT02554786|184229845|SUPERIORITY||Rate Ratio|0.46|||<|0.001|TWO_SIDED|95.0|0.36|0.59|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||0.59|0.36|<0.001
92170526|NCT02554786|184229845|SUPERIORITY||Rate Ratio|0.95||||0.681|TWO_SIDED|95.0|0.72|1.23|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||1.23|0.72|0.681
92170527|NCT02554786|184229846|SUPERIORITY||||||<|0.001|||||||van Elteren test|||Moderate or severe asthma exacerbation||||<0.001
92170528|NCT02554786|184229846|SUPERIORITY||||||<|0.001|||||||van Elteren test|||Moderate or severe asthma exacerbation||||<0.001
92170529|NCT02554786|184229846|SUPERIORITY|||||||0.059|||||||van Elteren test|||Moderate or severe asthma exacerbation||||0.059
92170530|NCT02554786|184229846|SUPERIORITY|||||||0.004|||||||Van Elteren Test|||Severe Asthma Exacerbation||||0.004
92236508|NCT01462292|184377023|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.417|TWO_SIDED|95.0|0.03|4.27||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Regression, Logistic|Model includes terms for Treatment and Centre Grouping||Placebo (combined), GSK2402968 6 mg/kg/week||4.27|0.03|0.417
92236509|NCT01282814|184377062|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|115.85|||||TWO_SIDED|90.0|108.45|123.72|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||123.72|108.45|
92424661|NCT01881373|184737279|SUPERIORITY|Hierarchical logistic model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Difference in prevalence|-3.6|||<|0.01|TWO_SIDED||||||Regression, Logistic|Hierarchical model||Intervention vs control comparing 24 months to baseline.||||<0.01
92424662|NCT01881373|184737280|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|change in prevalence between communities|-12.6||||0.003|TWO_SIDED|95.0|-20.92|-4.28||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Logistic|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Intervention vs. control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||-4.28|-20.92|0.003
92424663|NCT01881373|184737280|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|-3.43||||0.33|TWO_SIDED|95.0|-10.36|3.5||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Logistic|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs. Temporal communities. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||3.50|-10.36|0.33
92424664|NCT01881373|184737281|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|-0.71||||0.02|TWO_SIDED|95.0|-1.37|-0.05||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||-0.05|-1.37|0.02
92424665|NCT01881373|184737281|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|-0.65||||0.13|TWO_SIDED|95.0|-1.79|0.49||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||0.49|-1.79|0.13
92424666|NCT01881373|184737282|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.01||||0.86|TWO_SIDED||||||Regression, Linear|Hierarchical model.||Intervention vs control comparing 24 months to baseline.||||0.86
92170531|NCT02554786|184229846|SUPERIORITY||||||<|0.001|||||||Van Elteren Test|||Severe Asthma Exacerbation||||<0.001
92170532|NCT02554786|184229846|SUPERIORITY|||||||0.025|||||||van Elteren test|||Severe asthma exacerbation||||0.025
92170533|NCT02554786|184229846|SUPERIORITY|||||||0.002|||||||Van Elteren Test|||All(mild, moderate, severe) Asthma Exacerbation||||0.002
92170534|NCT02554786|184229846|SUPERIORITY||||||<|0.001|||||||Van Elteren Test|||All (mild, moderate, severe) Asthma Exacerbation||||<0.001
92424667|NCT01881373|184737283|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-1.17||||0.68|TWO_SIDED||||||Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.68
92424668|NCT01881373|184737284|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|3.42||||0.55|TWO_SIDED||||||Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.55
92424669|NCT01881373|184737285|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.5||||0.11|TWO_SIDED||||||Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.11
92424670|NCT01881373|184737286|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.7||||0.08|TWO_SIDED||||||Regression, Linear|||mixed model adjusting for age and sex and cluster of community and strata of jurisdiction; intervention vs control comparing 24 months to baseline||||0.08
92424671|NCT01881373|184737287|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.04||||0.71|TWO_SIDED||||||Regression, Linear|Hierarchical model.||Intervention vs control comparing 24 months to baseline.||||0.71
92424672|NCT01881373|184737288|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.02||||0.54|TWO_SIDED||||||Regression, Linear|Hierarchical model.||Intervention vs control comparing 24 months to baseline.||||0.54
92424673|NCT01881373|184737289|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.01||||0.9|TWO_SIDED||||||Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.90
92424674|NCT01881373|184737290|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.05||||0.71|TWO_SIDED||||||Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.71
92424675|NCT01881373|184737291|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.18||||0.48|TWO_SIDED|||||intervention vs control communities|Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.48
92424676|NCT01881373|184737292|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|differences in prevalence|-3.6|||<|0.01|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Logistic|Hierarchical model||intervention vs control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||<0.01
92424677|NCT01881373|184737293|SUPERIORITY|Hierarchical|Mean Difference (Final Values)|0.09||||0.44|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs Control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.44
92424678|NCT01881373|184737294|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.16||||0.81|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs. Control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.81
92424679|NCT01881373|184737295|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.37||||0.68|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.68
92170535|NCT02554786|184229846|SUPERIORITY|||||||0.074|||||||van Elteren test|||All (mild, moderate, severe) asthma exacerbation||||0.074
92170536|NCT02554786|184229848|SUPERIORITY||Hazard Ratio (HR)|0.26||||0.222|TWO_SIDED|95.0|0.03|2.29|||Regression, Cox|||||2.29|0.03|0.222
92424680|NCT01881373|184737296|SUPERIORITY|Hierarchical model. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.02||||0.69|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.69
92424681|NCT01881373|184737297|SUPERIORITY|Hierarchical model. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.21||||0.11|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Intervention vs. control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.11
92424682|NCT01881373|184737298|SUPERIORITY|Hierarchical model. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.06||||0.4|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|||Intervention vs. control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.40
92424683|NCT01881373|184737299|SUPERIORITY|Hierarchical model. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.2||||0.37|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.37
92424684|NCT01881373|184737299|SUPERIORITY|Hierarchical model.The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.18||||0.51|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs temporal.The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.51
92424685|NCT01366417|184737301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.21|STANDARD_ERROR_OF_MEAN|0.133|<|0.05|TWO_SIDED|95.0|1.95|2.48|||ANOVA|||Hypothesis: ChloraPrep will meet or exceed the 1.0 log reduction in colony forming units/cm\^2 at 30 seconds after application.||2.48|1.95|< 0.05
92424686|NCT01366417|184737301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.25|STANDARD_DEVIATION|0.133|<|0.05|TWO_SIDED|95.0|1.99|2.51|||ANOVA|||hypothesis: 70% Isopropyl Alcohol will meet or exceed 1.0 log 10 colony forming units / cm\^2 at 30 seconds after treatment||2.51|1.99|<0.05
92424687|NCT01366417|184737302|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.65|STANDARD_DEVIATION|0.133|<|0.05|TWO_SIDED|95.0|2.39|2.91|||ANOVA|||Hypothesis: ChloraPrep One Step will meet or exceed 2.0 log 10 reduction at 10 minutes after treatment.||2.91|2.39|<0.05
92424688|NCT01366417|184737302|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.6|STANDARD_DEVIATION|0.133|<|0.05|TWO_SIDED|95.0|2.33|2.86|||ANOVA|||Hypothesis: 70% Isopropyl Alcohol will meet or exceed 2.0 log 10 reduction at 10 minutes after treatment||2.86|2.33|<0.05
92424689|NCT00165984|184737314|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.9||||0.003|TWO_SIDED|95.0|1.7|13.9|||Regression, Cox|||||13.9|1.7|0.003
92424690|NCT01686828|184737317|SUPERIORITY_OR_OTHER|||||||0.164||||||The a prior threshold for statistical significance was p\<0.05.|RM-ANOVA|||||||0.164
92424691|NCT01686828|184737318|SUPERIORITY_OR_OTHER|||||||0.003|||||||RM-ANOVA|||Time-by-group interaction for fat mass||||0.003
92424692|NCT01686828|184737318|SUPERIORITY_OR_OTHER|||||||0.03||||||Time-by-group interaction for lean mass|RM-ANOVA|||||||0.03
92424693|NCT01686828|184737319|OTHER||||||>|0.1|||||||ANOVA|||The null hypothesis was that short-term testosterone deprivation would not affect lipoprotein lipase expression in adipose tissue. Repeated measures ANOVA was used to determine if a time-by-group effect was apparent for lipoprotein lipase expression.||||>0.1
92424694|NCT04916769|184737363|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of ajusted geometric means|106.27|||||TWO_SIDED|90.0|97.76|115.53||||||Natural logarithm-transformed bosutinib AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + applesauce 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% confidence intervals (CIs) were obtained from the model.||115.53|97.76|
92424695|NCT04916769|184737363|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|101.93|||||TWO_SIDED|90.0|93.97|110.56||||||Natural logarithm-transformed bosutinib AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + yogurt 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% CIs were obtained from the model.||110.56|93.97|
92424696|NCT04916769|184737364|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|96.82|||||TWO_SIDED|90.0|86.37|108.53||||||Natural logarithm-transformed bosutinib Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + applesauce 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% CIs were obtained from the model.||108.53|86.37|
92424697|NCT04916769|184737364|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|95.39|||||TWO_SIDED|90.0|85.34|106.61||||||Natural logarithm-transformed bosutinib Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + yogurt 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% CIs were obtained from the model.||106.61|85.34|
92424698|NCT04916769|184737365|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|106.23|||||TWO_SIDED|90.0|97.54|115.68||||||Natural logarithm-transformed bosutinib AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + applesauce 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% CIs were obtained from the model.||115.68|97.54|
92424699|NCT04916769|184737365|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|102.08|||||TWO_SIDED|90.0|93.95|110.91||||||Natural logarithm-transformed bosutinib AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + yogurt 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% CIs were obtained from the model.||110.91|93.95|
92424700|NCT04941456|184737372|SUPERIORITY||Mean Difference (Final Values)|-26.08||||0.2795|TWO_SIDED|95.0|-74.8|22.63|||t-test, 2 sided|Paired t-test||||22.63|-74.80|0.2795
92424701|NCT04941456|184737375|SUPERIORITY||Mean Difference (Final Values)|-0.6957||||0.3416|TWO_SIDED|95.0|-2.179|0.7877|||t-test, 2 sided|Paired t-test||||0.7877|-2.179|0.3416
92424702|NCT03894046|184737381|NON_INFERIORITY|"Non-inferiority was concluded if the upper limit of the 2-sided 95% CI was less than +20%.~Superiority was concluded if the upper limit of the 2-sided 95% CI was less than 0."|Mean Difference (Final Values)|-13.2|||||TWO_SIDED|95.0|-30.0|3.5||||||The non-inferiority assessment was based on the 2-sided 95% CIs computed using a continuity-corrected Z-statistic for the difference (\[sulbactam-durlobactam + imipenem/cilastatin\] - \[colistin + imipenem/cilastatin\]) in 28-day all-cause mortality rates between the treatment groups.||3.5|-30|
92424703|NCT03894046|184737382|OTHER|||||||0.0002||||||p-value was obtained based on a Chi-Square test for treatment group differences.|Chi-squared|||Analysis of patients with nephrotoxicity as measured by RIFLE criteria at any post-baseline visit based on the Investigator's opinion for the Safety Population for Part A, excluding patients with chronic hemodialysis at baseline baseline.||||0.0002
92424704|NCT03270644|184737383|OTHER||Difference of LSMeans|-5.45|||||TWO_SIDED|90.0|-7.27|-3.64||||||Mean hourly HR was evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||-3.64|-7.27|
92424705|NCT03270644|184737384|OTHER||Ratio of Geometric LSMeans|0.884|||||TWO_SIDED|90.0|0.832|0.939||||||Log-transformed PK parameters were evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||0.939|0.832|
92424706|NCT03270644|184737385|OTHER||Ratio of Geometric LSMeans|0.958|||||TWO_SIDED|90.0|0.917|1.0||||||Ratio of geometric LSMeans of Cmax used a mixed-effects repeated measures model adjusted for fixed effects for treatment, time point, time point by treatment, and random effect for subjects.||1.00|0.917|
92424707|NCT03270644|184737386|OTHER||Ratio of Geometric LSMeans|1.01|||||TWO_SIDED|90.0|0.967|1.04||||||Log-transformed PK parameters were evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||1.04|0.967|
92424708|NCT03270644|184737387|OTHER||Ratio of Geometric LSMeans|0.999|||||TWO_SIDED|90.0|0.967|1.03||||||Log-transformed PK parameters were evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||1.03|0.967|
92424709|NCT03270644|184737388|OTHER||Difference of LSMeans|-3.51|||||TWO_SIDED|90.0|-6.39|-0.64||||||PR interval was evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||-0.64|-6.39|
92424710|NCT03270644|184737389|OTHER||Difference of LSMeans|5.57|||||TWO_SIDED|90.0|3.57|7.57||||||Systolic blood pressure was evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||7.57|3.57|
92424711|NCT03270644|184737390|OTHER||Difference of LSMeans|3.47|||||TWO_SIDED|90.0|1.99|4.95||||||Diastolic blood pressure was evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||4.95|1.99|
92424712|NCT00333801|184737391|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92424713|NCT00333801|184737392|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92424714|NCT00333801|184737393|SUPERIORITY_OR_OTHER_LEGACY||Cohen's d|0.93|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92424715|NCT02476201|184737398|SUPERIORITY|Using a one-sided, one sample Exact Binomial Test and a significance level of 2.5%, the study required 74 patients to reach a power of 90%. With the MPP feature activated at baseline, it was assumed that the proportion of responders at 6 months was 75%. The MPP responder rate was compared to 57%, which is the responder rate obtained from literature for patients without the MPP feature activated.|Percentage|67.1||||0.0435|ONE_SIDED|97.5|55.6||||Exact binomial||||||55.6|0.0435
92424716|NCT00777205|184737403|SUPERIORITY_OR_OTHER||Slope|0.22|||<|0.05|TWO_SIDED|95.0|-1.57|2.01|||Mixed Models Analysis|||||2.01|-1.57|<0.05
92424717|NCT00777205|184737404|SUPERIORITY_OR_OTHER||Slope|-0.39|||<|0.05|TWO_SIDED|95.0|-2.03|1.24|||Mixed Models Analysis|||||1.24|-2.03|<0.05
92424718|NCT00777205|184737405|SUPERIORITY_OR_OTHER||Slope|0.81|||<|0.05|TWO_SIDED|95.0|-0.93|2.55|||Mixed Models Analysis|||||2.55|-0.93|<0.05
92424719|NCT00777205|184737406|SUPERIORITY_OR_OTHER||Slope|-0.039|||<|0.05|TWO_SIDED|95.0|-2.66|1.89|||Mixed Models Analysis|||||1.89|-2.66|<0.05
92424720|NCT00777205|184737407|SUPERIORITY_OR_OTHER||Slope|-0.08|||||TWO_SIDED|95.0|-3.31|3.16||||||||3.16|-3.31|
92424721|NCT05055453|184737432|OTHER|A Shapiro Wilks test was used to test for normal distribution of the data.|||||<|0.001||||||"Result for comparison between automatic only and preferred app settings."|Durbin-Conover Pairwise Comparison|||||||<0.001
92424722|NCT05055453|184737432|OTHER||||||<|0.001||||||"Result of comparison between preferred app setting and extreme app setting"|Durbin-Conover Pairwise Comparison|||A Shapiro Wilks test was used to test for normal distribution of the data.||||< 0.001
92424723|NCT05055453|184737432|OTHER|"Result of comparison between automatic only and extreme app setting."||||||0.002|||||||Durbin-Conover Pairwise Comparison|||A Shapiro Wilks test was used to test for normal distribution of the data.||||0.002
92424724|NCT05055453|184737433|OTHER|Analysis of first home trial|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92424725|NCT05055453|184737433|OTHER||||||<|0.001|||||||t-test, 2 sided|||Analysis of second home trial||||<.001
92424726|NCT03467048|184737443|NON_INFERIORITY|Null hypothesis: McGrath Video Laryngoscopy is non-inferior to Macintosh direct laryngoscopy.|Odds Ratio (OR)|4.65|||<|0.01|TWO_SIDED|95.0|2.22|9.75|||t-test, 1 sided|||||9.75|2.22|<0.01
92424727|NCT03467048|184737444|NON_INFERIORITY|Null hypothesis: McGrath videolaryngoscopy is non-inferior to Direct laryngoscopy|Odds Ratio (OR)|0.3||||0.08|TWO_SIDED|0.975|0.04|2.28|||t-test, 1 sided|||||2.28|0.04|0.08
92424728|NCT03467048|184737445|NON_INFERIORITY|Null hypothesis: McGrath videolaryngoscopy is non-inferior to Direct laryngoscopy|Odds Ratio (OR)|0.87||||0.41|TWO_SIDED|97.5|0.1|7.77|||t-test, 1 sided|||||7.77|0.1|0.41
92424729|NCT04308304|184737457|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|Geometric Mean Ratio (GMR)|0.69|||||TWO_SIDED|90.0|0.55|0.86||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.86|0.55|
92424730|NCT04308304|184737457|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.66|||||TWO_SIDED|95.0|0.53|0.82||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.82|0.53|
92424731|NCT04308304|184737457|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.74|||||TWO_SIDED|95.0|0.55|1.0||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.00|0.55|
92424732|NCT04308304|184737457|OTHER|MK-1942 + Donepezil PK / MK-1942 PK Alone|GMR|0.77|||||TWO_SIDED|95.0|0.56|1.05||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.05|0.56|
92424733|NCT04308304|184737458|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|Geometric Mean Ratio (GMR)|0.69|||||TWO_SIDED|90.0|0.55|0.86||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.86|0.55|
92424734|NCT04308304|184737458|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.66|||||TWO_SIDED|95.0|0.53|0.82||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.82|0.53|
92424735|NCT04308304|184737458|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.74|||||TWO_SIDED|95.0|0.55|1.0||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.00|0.55|
92424736|NCT04308304|184737458|OTHER|MK-1942 + Donepezil PK / MK-1942 PK Alone|GMR|0.77|||||TWO_SIDED|95.0|0.56|1.05||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.05|0.56|
92424737|NCT04308304|184737459|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|Geometric Mean Ratio (GMR)|0.67|||||TWO_SIDED|90.0|0.52|0.87||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.87|0.52|
92424738|NCT04308304|184737459|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.68|||||TWO_SIDED|95.0|0.52|0.87||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.87|0.52|
92424739|NCT04308304|184737459|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.79|||||TWO_SIDED|95.0|0.59|1.06||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.06|0.59|
92424740|NCT04308304|184737459|OTHER|MK-1942 + Donepezil PK / MK-1942 PK Alone|GMR|0.74|||||TWO_SIDED|95.0|0.51|1.08||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.08|0.51|
92424741|NCT04308304|184737460|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|Geometric Mean Ratio (GMR)|0.62|||||TWO_SIDED|90.0|0.48|0.8||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.80|0.48|
92424742|NCT04308304|184737460|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.67|||||TWO_SIDED|95.0|0.55|0.81||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.81|0.55|
92424743|NCT04308304|184737460|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.68|||||TWO_SIDED|95.0|0.49|0.93||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.93|0.49|
92424744|NCT04308304|184737460|OTHER|MK-1942 + Donepezil PK / MK-1942 PK Alone|GMR|0.72|||||TWO_SIDED|95.0|0.54|0.98||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.98|0.54|
92424745|NCT04308304|184737465|OTHER|Donepezil Accumulation Ratio (Day 28/Day -1)|Geometric mean|1.34|STANDARD_ERROR_OF_MEAN|52.4||||||||||||||||
92424746|NCT04308304|184737466|OTHER|Donepezil Accumulation Ratio (Day 28/Day -1)|Geometric mean|1.22|STANDARD_ERROR_OF_MEAN|52.4||||||||||||||||
92424747|NCT04308304|184737467|OTHER|Donepezil Accumulation Ratio (Day 28/Day -1)|Geometric mean|1.46|STANDARD_ERROR_OF_MEAN|60.8||||||||||||||||
92424748|NCT05535972|184737494|OTHER||Least Square Mean|-6.81|STANDARD_ERROR_OF_MEAN|0.241|||TWO_SIDED|95.0|-7.28|-6.33|||||CFB in CAT score was analyzed using Mixed Model Repeated Measures(MMRM) model with covariates of smoking status, CAT score at Baseline, visit, interaction of CAT score at Baseline\*visit. Estimates derived from inverse probability weighted MMRM model.|||-6.33|-7.28|
92424749|NCT03950791|184737673|SUPERIORITY||Mann-Whitney U|3864.0|STANDARD_ERROR_OF_MEAN|302.0||0.89|TWO_SIDED|||||Not adjusted for multiple comparisons, p \< .05 used as threshold for statistical significance|Independent-samples Mann-Whitney U|No adjustments for multiple comparisons|Standardized Test Statistic = .139|Morphine equivalent dosage outcome variables were not normally distributed (skewness values between 4.5 and 4.8, kurtosis values between 25.7 and 30.0), which necessitated non-parametric analysis using independent-samples Mann-Whitney U Test||||.89
92424750|NCT04191187|184737689|SUPERIORITY||PFS at 18 Months|70.8||||0.002|ONE_SIDED|90.0|59.2|||One sided log rank test|Log Rank||||||59.2|0.002
92424751|NCT03924869|184737702|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.2932|TWO_SIDED|95.0|0.69|1.24||1-sided p-value based on log-rank test stratified by Disease Stage, ECOG Performance Status, Geographic Region of Enrollment Site, and Reason For Not Receiving Surgery.|Log Rank|||"Hazard ratio and 95% confidence intervals (CIs) were based on Cox regression model with Efron's method of tie handling with treatment as a covariate, stratified by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery)."||1.24|0.69|0.29320
92424752|NCT03924869|184737703|OTHER||Hazard Ratio (HR)|1.33||||0.93971|TWO_SIDED|95.0|0.93|1.9||1-sided p-value based on log-rank test stratified by Disease Stage, ECOG Performance Status, Geographic Region of Enrollment Site, and Reason For Not Receiving Surgery.|Log Rank|Per protocol, since the EFS null hypothesis was not rejected, the OS hypothesis was not formally tested and the p-value should be considered nominal.||"Hazard ratio and 95% CIs were based on Cox regression model with Efron's method of tie handling with treatment as a covariate, stratified by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason for Not Receiving Surgery (medically inoperable versus refused surgery)."||1.90|0.93|0.93971
92424753|NCT03924869|184737704|OTHER||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.74|1.42||Per protocol, there was no hypothesis pre-specified for TDDM to be formally tested.||||"Hazard ratio and 95% CIs were based on Cox regression model with Efron's method of tie handling with treatment as a covariate, stratified by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason for Not Receiving Surgery (medically inoperable versus refused surgery)."||1.42|0.74|
92424754|NCT03924869|184737707|OTHER||Mean Difference (Final Values)|-1.21||||0.5187|TWO_SIDED|95.0|-4.9|2.48|||cLDA model|||"Stats:~LS Mean change and 95% CIs were based on a constrained longitudinal data analysis (cLDA) model with the EORTC QLQ-C30 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery)."||2.48|-4.90|0.5187
92424755|NCT03924869|184737708|OTHER||Mean Difference (Final Values)|-4.34||||0.0906|TWO_SIDED|95.0|-9.38|0.69|||cLDA model|||LS Mean change and 95% CIs were based on a cLDA model with the EORTC QLQ-LC13 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery).||0.69|-9.38|0.0906
92424756|NCT03924869|184737709|OTHER||Mean Difference (Final Values)|1.24||||0.5482|TWO_SIDED|95.0|-2.83|5.31|||cLDA model|||LS Mean change and 95% CIs were based on a cLDA model with the EORTC QLQ-LC13 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery).||5.31|-2.83|0.5482
92424757|NCT03924869|184737710|OTHER||Mean Difference (Final Values)|-0.99||||0.7253|TWO_SIDED|95.0|-6.5|4.53|||cLDA model|||LS Mean change and 95% CIs were based on a cLDA model with the EORTC QLQ-C30 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery).||4.53|-6.50|0.7253
92424758|NCT03924869|184737711|OTHER||Mean Difference (Final Values)|-0.21||||0.9055|TWO_SIDED|95.0|-3.7|3.28|||cLDA model|||LS Mean change and 95% CIs were based on a cLDA model with the EORTC QLQ-C30 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery).||3.28|-3.70|0.9055
92424759|NCT01470859|184737712|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|t-test, 2 sided|independent sample t-test The statistical analysis was performed on the changes of PDRP Z score between levodopa and pramipexole groups.||||||0.84
92424760|NCT01470859|184737712|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|t-test, 2 sided|independent sample t-test The statistical analysis was performed to compare the PDRP Z scores between levodopa and pramipexole groups at V1||||||0.93
92424761|NCT01470859|184737712|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|t-test, 2 sided|independent sample t-test The statistical analysis was performed to compare the PDRP Z scores between levodopa and pramipexole groups at V5||||||0.31
92424762|NCT01470859|184737713|SUPERIORITY_OR_OTHER|||||||0.691|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS II scores at V1 scores between the levodopa and pramipexole groups||||||0.691
92424763|NCT01470859|184737713|SUPERIORITY_OR_OTHER|||||||0.706|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS II scores at V2 scores between the levodopa and pramipexole groups||||||0.706
92424764|NCT01470859|184737713|SUPERIORITY_OR_OTHER|||||||0.635|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS II scores at V5 scores between the levodopa and pramipexole groups||||||0.635
92424765|NCT01470859|184737713|SUPERIORITY_OR_OTHER|||||||0.341|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS III scores at V1 scores between the levodopa and pramipexole groups||||||0.341
92424766|NCT01470859|184737713|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS III scores at V2 scores between the levodopa and pramipexole groups||||||0.049
92424767|NCT01470859|184737713|SUPERIORITY_OR_OTHER|||||||0.874|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS III scores at V5 scores between the levodopa and pramipexole groups||||||0.874
92424768|NCT01470859|184737714|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the PDQ39 scores between levodopa and pramipexole group at V1||||||0.720
92424769|NCT01470859|184737714|SUPERIORITY_OR_OTHER|||||||0.867|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the PDQ39 scores between levodopa and pramipexole group at V5||||||0.867
92424770|NCT01470859|184737715|SUPERIORITY_OR_OTHER|||||||0.793|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|indenpendent U test|independent U test The statistical analysis was performed to compare the H\&Y stages between levodopa and pramipexole group at V1||||||0.793
92424771|NCT01470859|184737715|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the H\&Y stages between levodopa and pramipexole groups at V5||||||0.430
92424772|NCT01470859|184737716|SUPERIORITY_OR_OTHER|||||||0.345|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|Chi-squared|The statistical analysis was performed to compare the clinical improvement between levodopa and pramipexole groups at V2||||||0.345
92424773|NCT01470859|184737716|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|Chi-squared|The statistical analysis was performed to compare the clinical improvement between levodopa and pramipexole groups at V5||||||0.410
92424774|NCT02718300|184737734|SUPERIORITY|||||||0.4046|||||||Van Elteren test|stratified by ECOG Performance Status at Screening (0 or 1 versus 2)||||||0.4046
92424775|NCT02718300|184737736|SUPERIORITY|||||||0.7802|||||||Van Elteren test|stratified by ECOG Performance Status at Screening (0 or 1 versus 2)||||||0.7802
92424776|NCT02718300|184737738|SUPERIORITY|||||||0.6856|||||||Van Elteren test|stratified by ECOG Performance Status at Screening (0 or 1 versus 2)||||||0.6856
92424777|NCT02718300|184737740|SUPERIORITY|||||||0.3385|||||||Van Elteren test|stratified by ECOG Performance Status at Screening (0 or 1 versus 2)||||||0.3385
92424778|NCT02718300|184737742|SUPERIORITY|||||||0.4005|||||||Van Elteren test|stratified by Easter Cooperative Oncology Group (ECOG) Performance Status at Screening (0 or 1 versus 2)||||||0.4005
92424779|NCT02718300|184737744|SUPERIORITY|||||||0.3138|||||||Van Elteren test|stratified by ECOG Performance Status at Screening (0 or 1 versus 2)||||||0.3138
92424780|NCT02718300|184737750|SUPERIORITY|||||||0.3577|||||||ANOVA|||Week 2||||0.3577
92424781|NCT02718300|184737750|SUPERIORITY||Geometric Mean Ratio (GMR)|1.048|||||TWO_SIDED|95.0|0.791|1.388|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||1.388|0.791|
92424782|NCT02718300|184737750|SUPERIORITY||GMR|1.159|||||TWO_SIDED|95.0|0.936|1.435|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||1.435|0.936|
92424783|NCT02718300|184737750|SUPERIORITY|||||||0.1709|||||||ANOVA|||Week 4||||0.1709
92424784|NCT02718300|184737750|SUPERIORITY||GMR|1.0|||||TWO_SIDED|95.0|0.78|1.281|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.281|0.780|
92424785|NCT02718300|184737750|SUPERIORITY||GMR|1.176|||||TWO_SIDED|95.0|0.955|1.448|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.448|0.955|
92424786|NCT02718300|184737751|SUPERIORITY|||||||0.6693|||||||Kruskal-Wallis|||Week 2||||0.6693
92424787|NCT02718300|184737751|SUPERIORITY|||||||0.1521|||||||Kruskal-Wallis|||Week 4||||0.1521
92424788|NCT02718300|184737752|SUPERIORITY|||||||0.0809|||||||ANOVA|||Week 2||||0.0809
92424789|NCT02718300|184737752|SUPERIORITY||GMR|0.583|||||TWO_SIDED|95.0|0.342|0.994|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||0.994|0.342|
92424790|NCT02718300|184737752|SUPERIORITY||GMR|0.986|||||TWO_SIDED|95.0|0.658|1.477|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||1.477|0.658|
92424791|NCT02718300|184737752|SUPERIORITY|||||||0.1525|||||||ANOVA|||Week 4||||0.1525
92424792|NCT02718300|184737752|SUPERIORITY||GMR|1.062|||||TWO_SIDED|95.0|0.604|1.867|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.867|0.604|
92424793|NCT02718300|184737752|SUPERIORITY||GMR|1.504|||||TWO_SIDED|95.0|0.937|2.414|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||2.414|0.937|
92424794|NCT02718300|184737753|SUPERIORITY|||||||0.2873|||||||ANOVA|||Week 2||||0.2873
92424795|NCT02718300|184737753|SUPERIORITY||GMR|1.016|||||TWO_SIDED|95.0|0.773|1.336|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||1.336|0.773|
92424796|NCT02718300|184737753|SUPERIORITY||GMR|1.161|||||TWO_SIDED|95.0|0.943|1.429|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||1.429|0.943|
92424797|NCT02718300|184737753|SUPERIORITY|||||||0.1601|||||||ANOVA|||Week 4||||0.1601
92424798|NCT02718300|184737753|SUPERIORITY||GMR|0.992|||||TWO_SIDED|95.0|0.773|1.274|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.274|0.773|
92424799|NCT02718300|184737753|SUPERIORITY||GMR|1.177|||||TWO_SIDED|95.0|0.955|1.452|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.452|0.955|
92424800|NCT02718300|184737757|SUPERIORITY|||||||0.083|||||||ANOVA|||Day 1||||0.0830
92424801|NCT02718300|184737757|SUPERIORITY||GMR|1.218|||||TWO_SIDED|95.0|0.846|1.753|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.753|0.846|
92424802|NCT02718300|184737757|SUPERIORITY||GMR|0.957|||||TWO_SIDED|95.0|0.654|1.399|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.399|0.654|
92424803|NCT02718300|184737757|SUPERIORITY||GMR|0.943|||||TWO_SIDED|95.0|0.656|1.354|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.354|0.656|
92424804|NCT02718300|184737757|SUPERIORITY||GMR|0.867|||||TWO_SIDED|95.0|0.579|1.298|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.298|0.579|
92424805|NCT02718300|184737757|SUPERIORITY|||||||0.2402|||||||ANOVA|||Week 4||||0.2402
92424806|NCT02718300|184737757|SUPERIORITY||GMR|0.702|||||TWO_SIDED|95.0|0.461|1.069|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.069|0.461|
92424807|NCT02718300|184737757|SUPERIORITY||GMR|0.7|||||TWO_SIDED|95.0|0.456|1.073|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.073|0.456|
92424808|NCT02718300|184737757|SUPERIORITY||GMR|0.638|||||TWO_SIDED|95.0|0.428|0.951|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||0.951|0.428|
92424809|NCT02718300|184737757|SUPERIORITY||GMR|0.627|||||TWO_SIDED|95.0|0.397|0.99|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||0.990|0.397|
92424810|NCT02718300|184737758|SUPERIORITY|||||||0.0756|||||||Kruskal-Wallis|||Day 1||||0.0756
92424811|NCT02718300|184737758|SUPERIORITY|||||||0.0866|||||||Kruskal-Wallis|||Week 4||||0.0866
92424812|NCT02718300|184737759|SUPERIORITY|||||||0.4287|||||||ANOVA|||Day 1||||0.4287
92424813|NCT02718300|184737759|SUPERIORITY||GMR|1.272|||||TWO_SIDED|95.0|0.329|4.914|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||4.914|0.329|
92424814|NCT02718300|184737759|SUPERIORITY||GMR|1.036|||||TWO_SIDED|95.0|0.252|4.251|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||4.251|0.252|
92424815|NCT02718300|184737759|SUPERIORITY||GMR|0.702|||||TWO_SIDED|95.0|0.18|2.731|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||2.731|0.180|
92424816|NCT02718300|184737759|SUPERIORITY||GMR|0.525|||||TWO_SIDED|95.0|0.118|2.348|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||2.348|0.118|
92424817|NCT02718300|184737759|SUPERIORITY|||||||0.9788|||||||ANOVA|||Week 4||||0.9788
92424818|NCT02718300|184737759|SUPERIORITY||GMR|0.879|||||TWO_SIDED|95.0|0.198|3.896|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||3.896|0.198|
92424819|NCT02718300|184737759|SUPERIORITY||GMR|1.225|||||TWO_SIDED|95.0|0.27|5.56|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||5.560|0.270|
92424820|NCT02718300|184737759|SUPERIORITY||GMR|0.918|||||TWO_SIDED|95.0|0.221|3.821|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||3.821|0.221|
92424821|NCT02718300|184737759|SUPERIORITY||GMR|0.853|||||TWO_SIDED|95.0|0.169|4.299|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||4.299|0.169|
92424822|NCT02718300|184737760|SUPERIORITY|||||||0.1208|||||||ANOVA|||Day 1||||0.1208
92424823|NCT02718300|184737760|SUPERIORITY||GMR|1.251|||||TWO_SIDED|95.0|0.832|1.879|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.879|0.832|
92424824|NCT02718300|184737760|SUPERIORITY||GMR|0.992|||||TWO_SIDED|95.0|0.649|1.518|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.518|0.649|
92424825|NCT02718300|184737760|SUPERIORITY||GMR|0.967|||||TWO_SIDED|95.0|0.645|1.45|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.450|0.645|
92424826|NCT02718300|184737760|SUPERIORITY||GMR|0.86|||||TWO_SIDED|95.0|0.548|1.35|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.350|0.548|
92424827|NCT02718300|184737760|SUPERIORITY|||||||0.3218|||||||ANOVA|||Week 4||||0.3218
92424828|NCT02718300|184737760|SUPERIORITY||GMR|0.761|||||TWO_SIDED|95.0|0.482|1.2|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.200|0.482|
92424829|NCT02718300|184737760|SUPERIORITY||GMR|0.803|||||TWO_SIDED|95.0|0.506|1.277|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.277|0.506|
92424830|NCT02718300|184737760|SUPERIORITY||GMR|0.667|||||TWO_SIDED|95.0|0.432|1.028|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.028|0.432|
92424831|NCT02718300|184737760|SUPERIORITY||GMR|0.64|||||TWO_SIDED|95.0|0.39|1.051|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.051|0.390|
92424832|NCT03708770|184737767|OTHER|No power calculation was performed for this study.||||||||||||||||"This was not a hypothesis-driven study. Therefore, there were no primary effectiveness or safety endpoints.~The Secondary Patency endpoint was calculated using a Kaplan-Meier analysis."|The Secondary Patency rate was determined via Kaplan-Meier methods.|||
92424833|NCT03708770|184737768|OTHER|No power calculation was performed for this study.||||||||||||||||"This was not a hypothesis-driven study. Therefore, there were no primary effectiveness or safety endpoints.~The Primary Patency endpoint was calculated using a Kaplan-Meier analysis."|The primary patency rate was determined via Kaplan-Meier methods.|||
92424834|NCT05268055|184737772|SUPERIORITY|||||||0.525|||||||t-test, 2 sided|||Group comparison of all participants.||||0.525
92424835|NCT05268055|184737772|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||Group comparison of participants less than age 33.||||0.045
92424836|NCT05268055|184737772|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||Group comparison of participants age 33 and greater.||||0.046
92424837|NCT05268055|184737773|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Group comparison of all participants.||||0.200
92424838|NCT05268055|184737773|SUPERIORITY|||||||0.075|||||||t-test, 2 sided|||Group comparison of participants less than age 33.||||0.075
92279452|NCT00095199|184462041|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.361|TWO_SIDED|95.0|0.72|2.5||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||2.50|0.72|0.361
92279453|NCT00095199|184462042|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.472|TWO_SIDED|95.0|0.77|1.74||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|Kaplan-Meier estimated time to symptomatic progression. HR was calculated using unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.74|0.77|0.472
92279454|NCT00095199|184462042|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.272|TWO_SIDED|95.0|0.42|1.27||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|Kaplan-Meier estimated time to symptomatic progression. HR was calculated using unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.27|0.42|0.272
92279455|NCT00095199|184462043|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.58||||0.236|TWO_SIDED|95.0|0.74|3.36||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|The Kaplan-Meier method estimated duration of response. HR was calculated using unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||3.36|0.74|0.236
92279456|NCT00095199|184462043|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.887|TWO_SIDED|95.0|0.42|2.18||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|The Kaplan-Meier method estimated duration of response. HR was calculated using unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||2.18|0.42|0.887
92279457|NCT02489318|184462095|SUPERIORITY||Hazard Ratio (HR)|0.484|||<|0.0001|TWO_SIDED|95.0|0.391|0.6|||Log Rank|||||0.600|0.391|<0.0001
92279458|NCT02489318|184462096|SUPERIORITY||Hazard Ratio (HR)|0.651|||<|0.0001|TWO_SIDED|95.0|0.534|0.793|||Log Rank|||||0.793|0.534|<0.0001
92279459|NCT02489318|184462097|SUPERIORITY||Hazard Ratio (HR)|0.469|||<|0.0001|TWO_SIDED|95.0|0.35|0.63|||Log Rank|||||0.630|0.350|<.0001
92279460|NCT02489318|184462098|SUPERIORITY||Hazard Ratio (HR)|0.868||||0.1966|TWO_SIDED|95.0|0.7|1.076|||Log Rank|||||1.076|0.700|0.1966
92279461|NCT02489318|184462099|SUPERIORITY||Hazard Ratio (HR)|0.794||||0.1563|TWO_SIDED|95.0|0.576|1.094|||Log Rank|||||1.094|0.576|0.1563
92424839|NCT05268055|184737773|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||Group comparison of participants age 33 and greater.||||0.015
92424840|NCT05268055|184737774|SUPERIORITY|||||||0.246|||||||t-test, 2 sided|||Group comparison of all participants.||||0.246
92279462|NCT02489318|184462100|SUPERIORITY||Hazard Ratio (HR)|0.857||||0.3608|TWO_SIDED|95.0|0.615|1.194|||Log Rank|||||1.194|0.615|0.3608
92279463|NCT02261428|184462101|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.95|||<|0.05|TWO_SIDED|95.0|1.79|8.73|||Wilcoxon (Mann-Whitney)|||||8.73|1.79|<0.05
92279464|NCT03679741|184462108|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|1.99|||TWO_SIDED|95.0|-1.9|5.8|||Bayesian multivariate normal random-effe|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as test minus control|It was calculated that 30 participants randomized in a 1:1 fashion between the two lens wear sequences would have at least 80% power to detect a 5 point difference between the test and control lenses with respect to overall comfort at the 2-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05).||5.8|-1.9|
92279465|NCT03679741|184462109|NON_INFERIORITY|A cumulative odds ratio non-inferiority margin of 0.67 was used. This margin is based on no more than a 10% difference in proportion between the Test and the Control lenses. The odds ratio represents the cumulative odds ratio of having a higher rating/experience of the Test lens compared to the Control lens.|Odds Ratio (OR)|3.97|STANDARD_DEVIATION|1.138|||TWO_SIDED|95.0|2.27|6.62|||Bayesian multinomial random-effects mode|A 95% Credible Interval for the odds ratio, was used to test for non-inferiority.|Odds ratio was calculated as test over control|||6.62|2.27|
92279466|NCT03679741|184462110|NON_INFERIORITY|A non-inferiority margin of 0.05 logMAR was used. This margin corresponds to a half line difference. Non-inferiority was declared if the upper bound of the 95% credible interval was below 0.05 logMAR.|Mean Difference (Final Values)|-0.022|STANDARD_DEVIATION|0.0074|||TWO_SIDED|95.0|-0.037|-0.008|||Bayesian multivariate normal model|with random effects|Mean difference was calculated as Test minus Control|It was calculated that 4 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect non-inferiority with respect to visual acuity (logMAR) at the 2-week follow-up. Sample size was determined using Stroup's method. The analysis presented below, summarizes the low luminance high contrast lighting condition.||-0.008|-0.037|
92424841|NCT05268055|184737774|SUPERIORITY|||||||0.151|||||||t-test, 2 sided|||Group comparison of participants less than age 33.||||0.151
92424842|NCT05268055|184737774|SUPERIORITY|||||||0.033|||||||t-test, 2 sided|||Group comparison of participants age 33 and greater.||||0.033
92424843|NCT05268055|184737775|SUPERIORITY|||||||0.212|||||||t-test, 2 sided|||Group comparison of all participants.||||0.212
92424844|NCT05268055|184737775|SUPERIORITY|||||||0.893|||||||t-test, 2 sided|||Group comparison of participants less than age 33.||||0.893
92424845|NCT05268055|184737775|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Group comparison of participants age 33 and greater.||||0.160
92424846|NCT05268055|184737776|SUPERIORITY|||||||0.752|||||||t-test, 2 sided|||Group comparison of self-rating scores on the Healthcare Provider Cultural Competence measure.||||0.752
92424847|NCT05268055|184737776|SUPERIORITY|||||||0.493|||||||t-test, 2 sided|||Group comparison of self-rating scores on the Ask, Understand, Remember Assessment.||||0.493
92424848|NCT05268055|184737776|SUPERIORITY|||||||0.085|||||||t-test, 2 sided|||Group comparison of self-rating scores on the Wake Forest Physician Trust Scale.||||0.085
92424849|NCT03507400|184737777|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
92424850|NCT03507400|184737777|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|Wilcoxon paired test||pooled comparison of the participants of the non-waiting list and the waiting list before and after Introvision||||0.003
92424851|NCT03507400|184737779|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92424852|NCT03507400|184737780|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|Wilcoxon paired test||||||0.003
92424853|NCT03507400|184737781|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon paired test||||||0.001
92424854|NCT03507400|184737782|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon paired test||||||0.001
92424855|NCT03507400|184737786|SUPERIORITY|Wilcoxon paired test||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92424856|NCT03507400|184737786|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
92424857|NCT03507400|184737786|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92424858|NCT01555983|184737787|SUPERIORITY_OR_OTHER||Cochran-Armitage trend tes|0.0001|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||The number needed to treat (NNT) to achieve 30% pain reduction during the 8-hour period was 4 (95% CI: 2.1-25.3) for the lower dose vs. placebo, and 3 (95% CI: 1.6-4.2) for the higher dose versus placebo.||||<.05
92424859|NCT04026711|184737794|SUPERIORITY|||||||0.81|||||||Wilcoxon rank sum|||||||0.81
92424860|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.79|||||TWO_SIDED|95.0|-0.16|0.95|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.95|-0.16|
92170537|NCT02554786|184229848|SUPERIORITY||Hazard Ratio (HR)|0.0||||0.992|TWO_SIDED|95.0|0.0||The upper limit of CI could not be calculated due to low number of participants with asthma exacerbation.||Regression, Cox||||||0|0.992
92170538|NCT02554786|184229848|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.618|TWO_SIDED|95.0|0.05|6.01|||Regression, Cox|||||6.01|0.05|0.618
92170539|NCT02554786|184229851|SUPERIORITY||LS Mean|10.1|STANDARD_ERROR_OF_MEAN|2.02|<|0.001|TWO_SIDED|95.0|6.2|14.1|||LMM|||Weeks 1-26||14.1|6.2|< 0.001
92424861|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.606|||||TWO_SIDED|95.0|-0.1|0.91|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.91|-0.10|
92424862|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.637|||||TWO_SIDED|95.0|-0.05|0.92|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.92|-0.05|
92424863|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.741|||||TWO_SIDED|95.0|0.33|0.91|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.91|0.33|
92424864|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.88|||||TWO_SIDED|95.0|0.65|0.96|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.96|0.65|
92424865|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.892|||||TWO_SIDED|95.0|-0.16|0.98|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.98|-0.16|
92424866|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.77|||||TWO_SIDED|95.0|0.36|0.93|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.93|0.36|
92424867|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.715|||||TWO_SIDED|95.0|-0.08|0.94|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.94|-0.08|
92170540|NCT02554786|184229851|SUPERIORITY||LS Mean|8.3|STANDARD_ERROR_OF_MEAN|2.02|<|0.001|TWO_SIDED|95.0|4.3|12.3|||LMM|||Weeks 1-26||12.3|4.3|<0.001
92170541|NCT02554786|184229851|SUPERIORITY||LS Mean|4.1|STANDARD_ERROR_OF_MEAN|2.02||0.045|TWO_SIDED|95.0|0.1|8.0|||LMM|||Weeks 1-26||8|0.1|0.045
92170542|NCT02554786|184229851|SUPERIORITY||LS Mean|9.6|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|5.7|13.6|||LMM|||Weeks 1-52||13.6|5.7|<0.001
92170543|NCT02554786|184229851|SUPERIORITY||LS Mean|8.6|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|4.7|12.6|||LMM|||Weeks 1-52||12.6|4.7|<0.001
92170544|NCT02554786|184229851|SUPERIORITY||LS Mean|4.3|STANDARD_ERROR_OF_MEAN|2.04||0.034|TWO_SIDED|95.0|0.3|8.3|||LMM|||Weeks 1-52||8.3|0.3|0.034
92170545|NCT02554786|184229852|SUPERIORITY||LS Mean|0.147|STANDARD_ERROR_OF_MEAN|0.0462||0.002|TWO_SIDED|95.0|0.056|0.237|||MMRM|||Day 30||0.237|0.056|0.002
92170546|NCT02554786|184229852|SUPERIORITY||LS Mean|0.123|STANDARD_ERROR_OF_MEAN|0.0464||0.008|TWO_SIDED|95.0|0.032|0.214|||MMRM|||Day 30||0.214|0.032|0.008
92424868|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.767|||||TWO_SIDED|95.0|-0.04|0.96|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.96|-0.04|
92279467|NCT03679741|184462110|NON_INFERIORITY|A non-inferiority margin of 0.05 logMAR was used. This margin corresponds to a half line difference. Non-inferiority was declared if the upper bound of the 95% credible interval was below 0.05 logMAR.|Mean Difference (Final Values)|-0.034|STANDARD_DEVIATION|0.0075|||TWO_SIDED|95.0|-0.049|-0.02|||Bayesian multivariate normal model|with random effect|Mean difference was calculated as Test minus Control|It was calculated that 4 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect non-inferiority with respect to visual acuity (logMAR) at the 2-week follow-up. Sample size was determined using Stroup's method. The analysis presented below, summarizes the high illumination low contrast lighting condition.||-0.020|-0.049|
92170547|NCT02554786|184229852|SUPERIORITY||LS Mean|0.045|STANDARD_ERROR_OF_MEAN|0.046||0.33|TWO_SIDED|95.0|-0.045|0.135|||MMRM|||Day 30||0.135|-0.045|0.33
92279468|NCT03679741|184462111|SUPERIORITY|A superiority margin of 90% was used. Superiority was concluded if the lower limit of the 95% credible interval was above 90%|Mean Percentage of eyes|100.0|STANDARD_DEVIATION|0.002|||TWO_SIDED|95.0|99.0|100.0|||Bayesian beta- binomial model|for correlated binary data||It was calculated that 65 participants were required to show that the acceptable lens fitting for the Test lens would be superior to 90% with at least 80% power. Sample size was determined using simulations methods for repeated measures.||100.0|99.0|
92279469|NCT03679741|184462112|NON_INFERIORITY|A non-inferiority cumulative odds ratio margin of 2 was used. This margin corresponds to no more than a 5% difference between the Test and Control lenses assuming the Control reference rate does not exceed 5%. Non-inferiority was declared if the upper bound of the 95% credible interval was below 2.|Mean Difference (Final Values)|0.001|STANDARD_DEVIATION|0.003|||TWO_SIDED|95.0|-0.004|0.008|||Bayesian beta-binomial hierarchical||Mean difference was calculated as Test minus Control.|It was calculated that 50 participants randomized in a 1:1 fashion between the two lens wear sequences would have at least 80% power to detect 5% difference between the Test and Control lens with respect to the proportion of eyes with Grade 3 or higher slit lamp findings across all study visits. Sample size was determined using simulations methods.||0.008|-0.004|
92279470|NCT03679741|184462113|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|5.6|STANDARD_DEVIATION|1.29|||TWO_SIDED|95.0|3.1|8.1|||Bayesian multivariate normal model|for random effects|Mean difference was calculated as test minus control|Sample size was based on primary endpoints only.||8.1|3.1|
92279471|NCT03679741|184462114|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|2.5|STANDARD_DEVIATION|1.56|||TWO_SIDED|95.0|-0.6|5.5|||Bayesian multivariate normal model|for random effects|Mean difference was calculated as test minus control|Sample size was based on primary endpoints only.||5.5|-0.6|
92279472|NCT03679741|184462115|NON_INFERIORITY|A cumulative odds ratio non-inferiority margin of 0.67 was used. This margin is based on no more than a 10% difference in proportion between the Test and the Control lenses. The odds ratio represents the cumulative odds ratio of having a higher rating/experience of the Test lens compared to the Control lens.|Odds Ratio (OR)|1.73|STANDARD_DEVIATION|0.459|||TWO_SIDED|95.0|1.0|2.82|||Bayesian multinomial random-effects|A 95% Credible Interval for the odds ratio, was used to test for non-inferiority.|Odds ratio was calculated as test over control|||2.82|1.00|
92279473|NCT03335371|184462163|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|0.087|<|0.0001|TWO_SIDED|95.0|-0.39|-0.04|||ANCOVA|||||-0.04|-0.39|<0.0001
92279474|NCT05845645|184462180|OTHER||GLSM Ratio|0.8269|||||TWO_SIDED|90.0|0.7535|0.9076|||||The geometric least square mean (GLSM) ratio was calculated as UCB0599: Non-encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For normal gastric pH||0.9076|0.7535|
92279475|NCT05845645|184462180|OTHER||GLSM ratio|0.7053|||||TWO_SIDED|90.0|0.6427|0.7741|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Normal gastric pH||0.7741|0.6427|
92279476|NCT05845645|184462180|OTHER||GLSM ratio|0.8529|||||TWO_SIDED|90.0|0.7771|0.9361|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Non-encapsulated tablet 180 mg.|For Normal gastric pH||0.9361|0.7771|
92279477|NCT05845645|184462180|OTHER||GLSM ratio|1.563|||||TWO_SIDED|90.0|1.376|1.776|||||The GLSM ratio was calculated as UCB0599: Non-encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Elevated gastric pH||1.776|1.376|
92279478|NCT05845645|184462180|OTHER||GLSM ratio|1.415|||||TWO_SIDED|90.0|1.248|1.604|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Elevated gastric pH||1.604|1.248|
92279479|NCT05845645|184462180|OTHER||GLSM ratio|0.905|||||TWO_SIDED|90.0|0.7972|1.027|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Non-encapsulated tablet 180 mg.|For Elevated gastric pH||1.027|0.7972|
92279480|NCT05845645|184462181|OTHER||GLSM ratio|0.9529|||||TWO_SIDED|90.0|0.9052|1.003|||||The GLSM ratio was calculated as UCB0599: Non-encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Normal gastric pH||1.003|0.9052|
92279481|NCT05845645|184462181|OTHER||GLSM ratio|0.922|||||TWO_SIDED|90.0|0.8758|0.9706|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Normal gastric pH||0.9706|0.8758|
92279482|NCT05845645|184462181|OTHER||GLSM ratio|0.9676|||||TWO_SIDED|90.0|0.9191|1.019|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Non-encapsulated tablet 180 mg.|For Normal gastric pH||1.019|0.9191|
92279483|NCT05845645|184462181|OTHER||GLSM ratio|1.059|||||TWO_SIDED|90.0|1.001|1.12|||||The GLSM ratio was calculated as UCB0599: Non-encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Elevated gastric pH||1.120|1.001|
92279484|NCT05845645|184462181|OTHER||GLSM ratio|1.038|||||TWO_SIDED|90.0|0.9826|1.097|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Elevated gastric pH||1.097|0.9826|
92424869|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.428|||||TWO_SIDED|95.0|-0.17|0.84|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.84|-0.17|
92170548|NCT02554786|184229852|SUPERIORITY||LS Mean|0.054|STANDARD_ERROR_OF_MEAN|0.0503||0.28|TWO_SIDED|95.0|-0.044|0.153|||MMRM|||Day 86||0.153|-0.044|0.28
92170549|NCT02554786|184229852|SUPERIORITY||LS Mean|0.118|STANDARD_ERROR_OF_MEAN|0.0507||0.02|TWO_SIDED|95.0|0.019|0.217|||MMRM|||Day 86||0.217|0.019|0.02
92170550|NCT02554786|184229852|SUPERIORITY||LS Mean|0.026|STANDARD_ERROR_OF_MEAN|0.0501||0.598|TWO_SIDED|95.0|-0.072|0.125|||MMRM|||Day 86||0.125|-0.072|0.598
92170551|NCT02554786|184229852|SUPERIORITY||LS Mean|0.127|STANDARD_ERROR_OF_MEAN|0.0526||0.016|TWO_SIDED|95.0|0.023|0.23|||MMRM|||Day 183||0.23|0.023|0.016
92239773|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0||||||95.0|-3.0|3.0||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.0|-3.0|
92424870|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.335|||||TWO_SIDED|95.0|-0.16|0.77|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.77|-0.16|
92424871|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.273|||||TWO_SIDED|95.0|-0.07|0.74|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.74|-0.07|
92424872|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.854|||||TWO_SIDED|95.0|0.58|0.95|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.95|0.58|
92424873|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.537|||||TWO_SIDED|95.0|-0.13|0.85|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.85|-0.13|
92424874|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.536|||||TWO_SIDED|95.0|-0.15|0.89|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.89|-0.15|
92424875|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.527|||||TWO_SIDED|95.0|-0.1|0.87|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.87|-0.10|
92424876|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.574|||||TWO_SIDED|95.0|-0.1|0.88|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.88|-0.10|
92424877|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.454|||||TWO_SIDED|95.0|-0.05|0.85|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.85|-0.05|
92424878|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.834|||||TWO_SIDED|95.0|0.54|0.95|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.95|0.54|
92424879|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.317|||||TWO_SIDED|95.0|-0.27|0.72|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.72|-0.27|
92424880|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.789|||||TWO_SIDED|95.0|-0.18|0.96|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.96|-0.18|
92170552|NCT02554786|184229852|SUPERIORITY||LS Mean|0.156|STANDARD_ERROR_OF_MEAN|0.0529||0.003|TWO_SIDED|95.0|0.053|0.26|||MMRM|||Day 183||0.26|0.053|0.003
92424881|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.737|||||TWO_SIDED|95.0|0.09|0.92|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.92|0.09|
92424882|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.3|||||TWO_SIDED|95.0|-0.19|0.69|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.69|-0.19|
92424883|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.936|||||TWO_SIDED|95.0|0.81|0.98|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.98|0.81|
92424884|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.82|||||TWO_SIDED|95.0|0.42|0.95|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.95|0.42|
92424885|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.521|||||TWO_SIDED|95.0|0.19|0.79|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.79|0.19|
92424886|NCT04823650|184737814|OTHER||Intraclass correlation coefficient|0.871|||||TWO_SIDED|95.0|-0.09|0.98|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.98|-0.09|
92424887|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.548|||||TWO_SIDED|95.0|0.02|0.84|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.84|0.02|
92170553|NCT02554786|184229852|SUPERIORITY||LS Mean|0.085|STANDARD_ERROR_OF_MEAN|0.0525||0.103|TWO_SIDED|95.0|-0.017|0.188|||MMRM|||Day 183||0.188|-0.017|0.103
92170554|NCT02554786|184229852|SUPERIORITY||LS Mean|0.071|STANDARD_ERROR_OF_MEAN|0.0542||0.188|TWO_SIDED|95.0|-0.035|0.178|||MMRM|||Day 254||0.178|-0.035|0.188
92424888|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.731|||||TWO_SIDED|95.0|0.35|0.91|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.91|0.35|
92424889|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.623|||||TWO_SIDED|95.0|0.14|0.87|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.87|0.14|
92424890|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.491|||||TWO_SIDED|95.0|-0.11|0.82|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.82|-0.11|
92424891|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.136|||||TWO_SIDED|95.0|-0.01|0.52|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.52|-0.01|
92424892|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.157|||||TWO_SIDED|95.0|-0.04|0.59|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.59|-0.04|
92424893|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.649|||||TWO_SIDED|95.0|0.17|0.88|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.88|0.17|
92424894|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.259|||||TWO_SIDED|95.0|-0.04|0.71|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.71|-0.04|
92424895|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.242|||||TWO_SIDED|95.0|-0.04|0.7|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.70|-0.04|
92424896|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.24|||||TWO_SIDED|95.0|-0.18|0.66|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.66|-0.18|
92424897|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.481|||||TWO_SIDED|95.0|-0.21|0.83|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.83|-0.21|
92424898|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.31|||||TWO_SIDED|95.0|-0.19|0.72|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.72|-0.19|
92424899|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.096|||||TWO_SIDED|95.0|-0.07|0.46|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.46|-0.07|
92424900|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.1|||||TWO_SIDED|95.0|-0.01|0.44|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.44|-0.01|
92424901|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.058|||||TWO_SIDED|95.0|-0.02|0.35|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.35|-0.02|
92424902|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.206|||||TWO_SIDED|95.0|-0.08|0.59|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.59|-0.08|
92424903|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.247|||||TWO_SIDED|95.0|-0.05|0.7|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.70|-0.05|
92424904|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.127|||||TWO_SIDED|95.0|-0.03|0.53|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.53|-0.03|
92424905|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|-0.031|||||TWO_SIDED|95.0|-0.25|0.34|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.34|-0.25|
92170555|NCT02554786|184229852|SUPERIORITY||LS Mean|0.168|STANDARD_ERROR_OF_MEAN|0.0543||0.002|TWO_SIDED|95.0|0.061|0.274|||MMRM|||Day 254||0.274|0.061|0.002
92424906|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.004|||||TWO_SIDED|95.0|-0.13|0.27|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.27|-0.13|
92424907|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|-0.085|||||TWO_SIDED|95.0|-0.21|0.21|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.21|-0.21|
92170556|NCT02554786|184229852|SUPERIORITY||LS Mean|0.061|STANDARD_ERROR_OF_MEAN|0.0538||0.258|TWO_SIDED|95.0|-0.045|0.166|||MMRM|||Day 254||0.166|-0.045|0.258
92170557|NCT02554786|184229852|SUPERIORITY||LS Mean|0.079|STANDARD_ERROR_OF_MEAN|0.0552||0.154|TWO_SIDED|95.0|-0.03|0.187|||MMRM|||Day 364||0.187|-0.030|0.154
92424908|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|-0.077|||||TWO_SIDED|95.0|-0.5|0.44|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.44|-0.50|
92424909|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.063|||||TWO_SIDED|95.0|-0.31|0.5|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.50|-0.31|
92424910|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|-0.248|||||TWO_SIDED|95.0|-0.62|0.29|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.29|-0.62|
92424911|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.331|||||TWO_SIDED|95.0|-0.02|0.69|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.69|-0.02|
92424912|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.217|||||TWO_SIDED|95.0|-0.08|0.59|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.59|-0.08|
92424913|NCT04823650|184737815|OTHER||Intraclass correlation coefficient|0.169|||||TWO_SIDED|95.0|-0.07|0.52|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.52|-0.07|
92424914|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.79|||||TWO_SIDED|95.0|0.45|0.93|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.93|0.45|
92424915|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.876|||||TWO_SIDED|95.0|0.66|0.96|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.96|0.66|
92424916|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.783|||||TWO_SIDED|95.0|0.17|0.94|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.94|0.17|
92424917|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.849|||||TWO_SIDED|95.0|-0.13|0.97|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.97|-0.13|
92424918|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.658|||||TWO_SIDED|95.0|-0.06|0.93|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.93|-0.06|
92170558|NCT02554786|184229852|SUPERIORITY||LS Mean|0.191|STANDARD_ERROR_OF_MEAN|0.0553|<|0.001|TWO_SIDED|95.0|0.082|0.299|||MMRM|||Day 364||0.299|0.082|<0.001
92424919|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.398|||||TWO_SIDED|95.0|-0.05|0.82|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.82|-0.05|
92424920|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.776|||||TWO_SIDED|95.0|-0.02|0.95|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.95|-0.02|
92424921|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.681|||||TWO_SIDED|95.0|-0.06|0.93|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.93|-0.06|
92170559|NCT02554786|184229852|SUPERIORITY||LS Mean|0.041|STANDARD_ERROR_OF_MEAN|0.0548||0.455|TWO_SIDED|95.0|-0.067|0.148|||MMRM|||Day 364||0.148|-0.067|0.455
92170560|NCT02554786|184229853|NON_INFERIORITY|QMF 150/320 was considered non-inferior to S/F 50/500 if the lower bound of the 95% CI was above the non-inferiority margin of -90 mL and was considered superior if the lower bound of the 95% CI was \> 0. The p-value is for null-hypothesis testing.|LS Mean|0.036|STANDARD_ERROR_OF_MEAN|0.0222||0.101|TWO_SIDED|95.0|-0.007|0.08|||MMRM|||||0.080|-0.007|0.101
92170561|NCT01828554|184229856|OTHER|||||||0.4882||||||A paired t-test will be used to compare the PK parameters between the full weight and limited weight based dosing.|t-test, 2 sided|||The null hypothesis that the AUC from cycle 1 day 1 (based on ideal body weight) is equal to the AUC from cycle 1 day 9 (based on actual body weight) was tested against the alternative hypothesis that the AUCs are not equal. A linear mixed effect model with patient specific random effects was conducted||||0.4882
92424922|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.41|||||TWO_SIDED|95.0|-0.05|0.83|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.83|-0.05|
92424923|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.044|||||TWO_SIDED|95.0|-0.48|0.56|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.56|-0.48|
92424924|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.938|||||TWO_SIDED|95.0|0.82|0.98|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.98|0.82|
92424925|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.861|||||TWO_SIDED|95.0|0.58|0.96|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.96|0.58|
92424926|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.392|||||TWO_SIDED|95.0|-0.14|0.83|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.83|-0.14|
92424927|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.568|||||TWO_SIDED|95.0|-0.05|0.9|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.90|-0.05|
92424928|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.284|||||TWO_SIDED|95.0|-0.03|0.74|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.74|-0.03|
92424929|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.199|||||TWO_SIDED|95.0|-0.07|0.56|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.56|-0.07|
92424930|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.657|||||TWO_SIDED|95.0|-0.04|0.93|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.93|-0.04|
92424931|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.409|||||TWO_SIDED|95.0|-0.04|0.83|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.83|-0.04|
92424932|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.733|||||TWO_SIDED|95.0|-0.18|0.94|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.94|-0.18|
92424933|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.594|||||TWO_SIDED|95.0|-0.21|0.89|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.89|-0.21|
92424934|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.392|||||TWO_SIDED|95.0|-0.21|0.79|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.79|-0.21|
92424935|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.903|||||TWO_SIDED|95.0|0.71|0.97|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.97|0.71|
92424936|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.862|||||TWO_SIDED|95.0|0.62|0.95|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.95|0.62|
92170562|NCT01828554|184229857|OTHER|||||||0.7497||||||A paired t-test will be used to compare the PK parameters between the full weight and limited weight based dosing.|t-test, 2 sided|||||||0.7497
92279485|NCT05845645|184462181|OTHER||GLSM ratio|0.9804|||||TWO_SIDED|90.0|0.9273|1.037|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Non-encapsulated tablet 180 mg.|For Elevated gastric pH||1.037|0.9273|
92170563|NCT02395978|184229860|SUPERIORITY|||||||0.393|||||||Kruskal-Wallis|||||||0.393
92424937|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.694|||||TWO_SIDED|95.0|0.26|0.9|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.90|0.26|
92424938|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.786|||||TWO_SIDED|95.0|-0.07|0.95|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.95|-0.07|
92424939|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.694|||||TWO_SIDED|95.0|0.02|0.91|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.91|0.02|
92424940|NCT04823650|184737816|OTHER||Intraclass correlation coefficient|0.505|||||TWO_SIDED|95.0|-0.06|0.83|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.83|-0.06|
92424941|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.902|||||TWO_SIDED|95.0|0.71|0.97|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.97|0.71|
92424942|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.969|||||TWO_SIDED|95.0|0.9|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.99|0.90|
92279486|NCT05845645|184462182|OTHER||GLSM ratio|0.9519|||||TWO_SIDED|90.0|0.9011|1.006|||||The GLSM ratio was calculated as UCB0599: Non-encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Normal gastric pH||1.006|0.9011|
92239774|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-2.5||||||95.0|-6.1|0.6||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||0.6|-6.1|
92424943|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.963|||||TWO_SIDED|95.0|0.88|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.99|0.88|
92424944|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.892|||||TWO_SIDED|95.0|0.58|0.97|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.97|0.58|
92424945|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.731|||||TWO_SIDED|95.0|-0.02|0.95|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.95|-0.02|
92424946|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.637|||||TWO_SIDED|95.0|-0.04|0.92|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.92|-0.04|
92424947|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.77|||||TWO_SIDED|95.0|0.36|0.93|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.93|0.36|
92424948|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.715|||||TWO_SIDED|95.0|-0.08|0.94|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.94|-0.08|
92424949|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.767|||||TWO_SIDED|95.0|0.04|0.96|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.96|0.04|
92424950|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.24|||||TWO_SIDED|95.0|-0.18|0.66|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.66|-0.18|
92424951|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.66|||||TWO_SIDED|95.0|-0.21|0.83|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.83|-0.21|
92424952|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.31|||||TWO_SIDED|95.0|-0.19|0.72|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.72|-0.19|
92424953|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.096|||||TWO_SIDED|95.0|-0.07|0.46|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.46|-0.07|
92424954|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.1|||||TWO_SIDED|95.0|-0.01|0.44|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.44|-0.01|
92424955|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.058|||||TWO_SIDED|95.0|-0.02|0.35|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.35|-0.02|
92424956|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.206|||||TWO_SIDED|95.0|-0.08|0.59|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.59|-0.08|
92424957|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.247|||||TWO_SIDED|95.0|-0.05|0.7|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.70|-0.05|
92424958|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.127|||||TWO_SIDED|95.0|-0.03|0.53|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.53|-0.03|
92424959|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.377|||||TWO_SIDED|95.0|-0.15|0.75|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.75|-0.15|
92424960|NCT04823650|184737817|OTHER||Intra-class correlation coefficient|0.44|||||TWO_SIDED|95.0|-0.21|0.81|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.81|-0.21|
92170564|NCT04583423|184229871|OTHER||Difference in Percentages|10.4||||0.3504|TWO_SIDED|95.0|-13.4|35.1|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 50-mg MK-3655 minus % placebo|||35.1|-13.4|0.3504
92424961|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.08|||||TWO_SIDED|95.0|-0.23|0.5|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.50|-0.23|
92424962|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.398|||||TWO_SIDED|95.0|-0.12|0.76|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.76|-0.12|
92424963|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.651|||||TWO_SIDED|95.0|0.04|0.89|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.89|0.04|
92424964|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.13|||||TWO_SIDED|95.0|-0.34|0.59|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.59|-0.34|
92424965|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.639|||||TWO_SIDED|95.0|0.25|0.87|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.87|0.25|
92424966|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.666|||||TWO_SIDED|95.0|0.01|0.9|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.90|0.01|
92424967|NCT04823650|184737817|OTHER||Intraclass correlation coefficient|0.346|||||TWO_SIDED|95.0|0.0|0.69|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.69|0.00|
92424968|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.827|||||TWO_SIDED|95.0|0.53|0.94|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.94|0.53|
92424969|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.877|||||TWO_SIDED|95.0|0.66|0.96|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.96|0.66|
92424970|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.783|||||TWO_SIDED|95.0|0.17|0.94|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.94|0.17|
92424971|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.833|||||TWO_SIDED|95.0|-0.14|0.97|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.97|-0.14|
92424972|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.644|||||TWO_SIDED|95.0|-0.05|0.92|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.92|-0.05|
92424973|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.383|||||TWO_SIDED|95.0|-0.06|0.81|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.81|-0.06|
92424974|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.785|||||TWO_SIDED|95.0|-0.02|0.95|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.95|-0.02|
92424975|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.679|||||TWO_SIDED|95.0|-0.06|0.93|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.93|-0.06|
92424976|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.405|||||TWO_SIDED|95.0|-0.05|0.83|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.83|-0.05|
92424977|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.257|||||TWO_SIDED|95.0|-0.32|0.69|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.69|-0.32|
92424978|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.892|||||TWO_SIDED|95.0|0.69|0.96|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.96|0.69|
92279487|NCT05845645|184462182|OTHER||GLSM ratio|0.9255|||||TWO_SIDED|90.0|0.8762|0.9777|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Normal gastric pH||0.9777|0.8762|
92424979|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.837|||||TWO_SIDED|95.0|0.47|0.95|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.95|0.47|
92424980|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.341|||||TWO_SIDED|95.0|-0.13|0.8|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.80|-0.13|
92239775|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-6.3||||||95.0|-12.1|-0.7||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||-0.7|-12.1|
92424981|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.536|||||TWO_SIDED|95.0|-0.05|0.88|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.88|-0.05|
92424982|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.264|||||TWO_SIDED|95.0|-0.03|0.71|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.71|-0.03|
92424983|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.275|||||TWO_SIDED|95.0|-0.08|0.66|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.66|-0.08|
92424984|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.631|||||TWO_SIDED|95.0|-0.05|0.92|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.92|-0.05|
92424985|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.379|||||TWO_SIDED|95.0|-0.03|0.81|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.81|-0.03|
92424986|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.606|||||TWO_SIDED|95.0|0.11|0.86|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.86|0.11|
92424987|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.714|||||TWO_SIDED|95.0|0.29|0.9|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.90|0.29|
92424988|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.39|||||TWO_SIDED|95.0|-0.2|0.78|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.78|-0.20|
92424989|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.703|||||TWO_SIDED|95.0|0.23|0.9|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.90|0.23|
92424990|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.555|||||TWO_SIDED|95.0|0.0|0.84|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.84|0.00|
92170565|NCT04583423|184229871|OTHER||Difference in Percentages|9.2||||0.373|TWO_SIDED|95.0|-15.6|32.1|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 100-mg MK-3655 minus % placebo|||32.1|-15.6|0.3730
92424991|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.563|||||TWO_SIDED|95.0|0.03|0.84|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.84|0.03|
92424992|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.687|||||TWO_SIDED|95.0|0.2|0.9|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.90|0.20|
92424993|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.603|||||TWO_SIDED|95.0|0.04|0.87|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.87|0.04|
92424994|NCT04823650|184737818|OTHER||Intraclass correlation coefficient|0.459|||||TWO_SIDED|95.0|-0.02|0.79|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.79|-0.02|
92424995|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.569|||||TWO_SIDED|95.0|-0.19|0.87|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.87|-0.19|
92424996|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.612|||||TWO_SIDED|95.0|-0.11|0.91|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.91|-0.11|
92279488|NCT05845645|184462182|OTHER||GLSM ratio|0.9723|||||TWO_SIDED|90.0|0.9204|1.027|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Non-encapsulated tablet 180 mg.|For Normal gastric pH||1.027|0.9204|
92424997|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.444|||||TWO_SIDED|95.0|-0.06|0.85|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.85|-0.06|
92170566|NCT04583423|184229871|OTHER||Difference in Percentages|15.4||||0.1428|TWO_SIDED|95.0|-8.5|42.3|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 300-mg MK-3655 minus % placebo|||42.3|-8.5|0.1428
92170567|NCT04583423|184229874|OTHER||Difference in Least Square (LS) Means|19.1|||||TWO_SIDED|95.0|1.7|36.4|||||Difference=LS Mean 50 mg minus LS Mean Placebo|||36.4|1.7|
92170568|NCT04583423|184229874|OTHER||Difference in LS Means|19.0|||||TWO_SIDED|95.0|2.2|35.8|||||Difference=LS Mean 100 mg minus LS Mean Placebo|||35.8|2.2|
92279489|NCT05845645|184462182|OTHER||GLSM ratio|1.053|||||TWO_SIDED|90.0|0.994|1.116|||||The GLSM ratio was calculated as UCB0599: Non-encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Elevated gastric pH||1.116|0.9940|
92424998|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.254|||||TWO_SIDED|95.0|-0.35|0.7|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.70|-0.35|
92424999|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.875|||||TWO_SIDED|95.0|0.66|0.96|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.96|0.66|
92425000|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.793|||||TWO_SIDED|95.0|0.02|0.95|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.95|0.02|
92425001|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.467|||||TWO_SIDED|95.0|0.08|0.78|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.78|0.08|
92425002|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.705|||||TWO_SIDED|95.0|-0.08|0.94|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.94|-0.08|
92425003|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.585|||||TWO_SIDED|95.0|-0.05|0.9|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.90|-0.05|
92425004|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.558|||||TWO_SIDED|95.0|-0.15|0.9|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.90|-0.15|
92425005|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.486|||||TWO_SIDED|95.0|-0.15|0.87|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.87|-0.15|
92425006|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.222|||||TWO_SIDED|95.0|-0.04|0.68|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.68|-0.04|
92425007|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.729|||||TWO_SIDED|95.0|0.31|0.91|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.91|0.31|
92425008|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.727|||||TWO_SIDED|95.0|0.2|0.91|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.91|0.20|
92425009|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.592|||||TWO_SIDED|95.0|-0.19|0.91|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.91|-0.19|
92170569|NCT04583423|184229874|OTHER||Difference in LS Means|26.1|||||TWO_SIDED|95.0|9.5|42.8|||||Difference=LS Mean 300 mg minus LS Mean Placebo|||42.8|9.5|
92170570|NCT04583423|184229875|OTHER||Difference in Percentages|1.6||||0.8978|TWO_SIDED|95.0|-26.5|30.3|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 50 mg minus % Placebo|||30.3|-26.5|0.8978
92425010|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.624|||||TWO_SIDED|95.0|-0.1|0.9|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.90|-0.10|
92425011|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.669|||||TWO_SIDED|95.0|-0.1|0.92|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.92|-0.10|
92425012|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.376|||||TWO_SIDED|95.0|-0.04|0.81|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.81|-0.04|
92170571|NCT04583423|184229875|OTHER||Difference in Parentages|20.0||||0.1869|TWO_SIDED|95.0|-10.6|46.4|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 100 mg minus % Placebo|||46.4|-10.6|0.1869
92170572|NCT04583423|184229875|OTHER||Difference in Percentages|8.5||||0.5636|TWO_SIDED|95.0|-22.1|38.5|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 300 mg minus % Placebo|||38.5|-22.1|0.5636
92170573|NCT04583423|184229876|OTHER||Difference in Percentages|1.6||||0.9174|TWO_SIDED|95.0|-28.6|32.6|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 50 mg minus % Placebo|||32.6|-28.6|0.9174
92170574|NCT04583423|184229876|OTHER||Difference in Percentages|18.5||||0.272|TWO_SIDED|95.0|-14.5|47.1|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 100 mg minus % Placebo|||47.1|-14.5|0.2720
92170575|NCT04583423|184229876|OTHER||Difference in Percentages|5.3||||0.7586|TWO_SIDED|95.0|-26.7|37.3|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference= % 300 mg minus % Placebo|||37.3|-26.7|0.7586
92425013|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.755|||||TWO_SIDED|95.0|0.26|0.92|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.92|0.26|
92425014|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.614|||||TWO_SIDED|95.0|0.05|0.87|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.87|0.05|
92425015|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.424|||||TWO_SIDED|95.0|-0.18|0.83|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.83|-0.18|
92425016|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.648|||||TWO_SIDED|95.0|0.06|0.89|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.89|0.06|
92425017|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.586|||||TWO_SIDED|95.0|-0.07|0.86|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.86|-0.07|
92425018|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.759|||||TWO_SIDED|95.0|0.38|0.92|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.92|0.38|
92425019|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.692|||||TWO_SIDED|95.0|0.01|0.91|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.91|0.01|
92425020|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.614|||||TWO_SIDED|95.0|-0.08|0.89|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.89|-0.08|
92425021|NCT04823650|184737819|OTHER||Intraclass correlation coefficient|0.605|||||TWO_SIDED|95.0|-0.11|0.9|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.90|-0.11|
92425022|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.985|||||TWO_SIDED|95.0|0.94|1.0|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||1.00|0.94|
92425023|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.976|||||TWO_SIDED|95.0|0.72|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.99|0.72|
92425024|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.973|||||TWO_SIDED|95.0|-0.01|1.0|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||1.00|-0.01|
92425025|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.984|||||TWO_SIDED|95.0|0.95|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.99|0.95|
92425026|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.963|||||TWO_SIDED|95.0|0.75|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.99|0.75|
92425027|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.945|||||TWO_SIDED|95.0|-0.16|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.99|-0.16|
92425028|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.985|||||TWO_SIDED|95.0|0.96|0.99|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.99|0.96|
92425029|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.974|||||TWO_SIDED|95.0|0.91|0.99|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.99|0.91|
92425030|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.968|||||TWO_SIDED|95.0|0.47|0.99|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.99|0.47|
92425031|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|-0.019|||||TWO_SIDED|95.0|-0.39|0.45|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.45|-0.39|
92425032|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.977|||||TWO_SIDED|95.0|-0.07|1.0|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||1.00|-0.07|
92425033|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.886|||||TWO_SIDED|95.0|-0.21|0.98|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.98|-0.21|
92425034|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.781|||||TWO_SIDED|95.0|0.42|0.93|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.93|0.42|
92425035|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.962|||||TWO_SIDED|95.0|0.48|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.99|0.48|
92425036|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.902|||||TWO_SIDED|95.0|-0.2|0.98|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.98|-0.20|
92425037|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.21|||||TWO_SIDED|95.0|-0.07|0.58|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.58|-0.07|
92239776|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|3.4||||||95.0|-0.9|7.9||||||For serotype 1 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||7.9|-0.9|
92279490|NCT05845645|184462182|OTHER||GLSM ratio|1.027|||||TWO_SIDED|90.0|0.971|1.086|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Capsule 180 mg.|For Elevated gastric pH||1.086|0.9710|
92425038|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.978|||||TWO_SIDED|95.0|0.8|0.99|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.99|0.80|
92425039|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.92|||||TWO_SIDED|95.0|0.12|0.98|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.98|0.12|
92425040|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.855|||||TWO_SIDED|95.0|0.58|0.95|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.95|0.58|
92425041|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.886|||||TWO_SIDED|95.0|0.52|0.97|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.97|0.52|
92425042|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.98|||||TWO_SIDED|95.0|0.94|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.99|0.94|
92425043|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.801|||||TWO_SIDED|95.0|0.42|0.94|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.94|0.42|
92425044|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.878|||||TWO_SIDED|95.0|0.53|0.96|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.96|0.53|
92425045|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.983|||||TWO_SIDED|95.0|0.94|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.99|0.94|
92425046|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.891|||||TWO_SIDED|95.0|0.73|0.96|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.96|0.73|
92425047|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.923|||||TWO_SIDED|95.0|0.77|0.98|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.98|0.77|
92425048|NCT04823650|184737820|OTHER||Intraclass correlation coefficient|0.987|||||TWO_SIDED|95.0|0.97|1.0|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||1.00|0.97|
92425049|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.976|||||TWO_SIDED|95.0|0.74|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.99|0.74|
92239777|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-1.3||||||95.0|-4.1|1.1||||||For serotype 3 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.1|-4.1|
92425050|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.972|||||TWO_SIDED|95.0|0.92|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.99|0.92|
92425051|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.899|||||TWO_SIDED|95.0|0.66|0.97|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||0.97|0.66|
92425052|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.975|||||TWO_SIDED|95.0|0.92|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.99|0.92|
92425053|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.974|||||TWO_SIDED|95.0|0.8|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.99|0.80|
92425054|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.952|||||TWO_SIDED|95.0|-0.19|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.99|-0.19|
92170576|NCT00393484|184229898|NON_INFERIORITY_OR_EQUIVALENCE|The difference in proportion along with its standard error and 90% confidence interval was computed. If the lower limit of the confidence interval (CI) was great than -10%, noninferiority was established. Provided that noninferiority was established, a test for superiority was planned to check that the lower limit of the 90% CI was greater than zero.|Difference in proportion|25.67||||0.0006|TWO_SIDED|90.0|14.48|36.86||There was no adjustment for the prior test of noninferiority because the test for superiority could succeed only if noninferiority was first established.|Chi-squared|||A sample size of 60 per group provides 80% power for testing superiority of entecavir compared to lamivudine, assuming a response rate of 62% for lamivudine and 83% for entecavir.||36.86|14.48|0.0006
92170577|NCT00393484|184229899|SUPERIORITY_OR_OTHER||Difference|24.55||||0.0003|TWO_SIDED|90.0|14.45|34.66||Treatment comparisons were assessed using the same method used in the primary endpoint.|Chi-squared|||HBV DNA \<10\^3 copies/mL at 24 Weeks||34.66|14.45|0.0003
92279491|NCT05845645|184462182|OTHER||GLSM ratio|0.9747|||||TWO_SIDED|90.0|0.9208|1.032|||||The GLSM ratio was calculated as UCB0599: Encapsulated tablet 180 mg divided by UCB0599: Non-encapsulated tablet 180 mg.|For Elevated gastric pH||1.032|0.9208|
92279492|NCT02649231|184462197|SUPERIORITY||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.28|1.75||||||Confirmed alcohol relapse by drug condition at 6 months using the Alcohol Timeline-Followback. Logistic regression modelling was used to compare the ketamine group with the placebo group (combined across therapy and alcohol education).||1.75|0.28|
92425055|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.969|||||TWO_SIDED|95.0|0.89|0.99|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.99|0.89|
92425056|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.968|||||TWO_SIDED|95.0|0.91|0.99|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.99|0.91|
92425057|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.893|||||TWO_SIDED|95.0|0.5|0.97|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.97|0.50|
92425058|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|-0.15|||||TWO_SIDED|95.0|-0.64|0.42|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.42|-0.64|
92425059|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.891|||||TWO_SIDED|95.0|0.64|0.97|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.97|0.64|
92425060|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.561|||||TWO_SIDED|95.0|0.0|0.85|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.85|0.00|
92425061|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.81|||||TWO_SIDED|95.0|0.49|0.94|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.94|0.49|
92425062|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.967|||||TWO_SIDED|95.0|0.68|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.99|0.68|
92425063|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.885|||||TWO_SIDED|95.0|-0.11|0.98|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.98|-0.11|
92170578|NCT00393484|184229899|SUPERIORITY_OR_OTHER||Difference|13.62||||0.0167|TWO_SIDED|90.0|4.85|22.38||Treatment comparisons were assessed using the same method as the primary endpoint.|Chi-squared|||HBV DNA \<10\^4 copies/mL at 24 Weeks||22.38|4.85|0.0167
92170579|NCT00393484|184229899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.24||||0.4467|TWO_SIDED|90.0|-2.62|11.1|||Chi-squared|||HBV DNA \<10\^5 at 24 Weeks||11.10|-2.62|0.4467
92425064|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.134|||||TWO_SIDED|95.0|-0.17|0.53|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.53|-0.17|
92170580|NCT00393484|184229899|SUPERIORITY_OR_OTHER||Difference|26.12||||0.0002|TWO_SIDED|90.0|15.87|36.36|||Chi-squared|||HBV DNA \<10\^3 copies/mL at 48 Weeks||36.36|15.87|0.0002
92425065|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.896|||||TWO_SIDED|95.0|0.65|0.97|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.97|0.65|
92425066|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.598|||||TWO_SIDED|95.0|0.04|0.87|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.87|0.04|
92425067|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.849|||||TWO_SIDED|95.0|-0.09|0.97|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.97|-0.09|
92425068|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.907|||||TWO_SIDED|95.0|0.34|0.98|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.98|0.34|
92425069|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.98|||||TWO_SIDED|95.0|0.92|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.99|0.92|
92425070|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.922|||||TWO_SIDED|95.0|0.63|0.98|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.98|0.63|
92425071|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.939|||||TWO_SIDED|95.0|0.76|0.98|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.98|0.76|
92425072|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.988|||||TWO_SIDED|95.0|0.96|1.0|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||1.00|0.96|
92425073|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.911|||||TWO_SIDED|95.0|0.61|0.98|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.98|0.61|
92425074|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.942|||||TWO_SIDED|95.0|0.79|0.98|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.98|0.79|
92425075|NCT04823650|184737821|OTHER||Intraclass correlation coefficient|0.987|||||TWO_SIDED|95.0|0.96|1.0|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||1.00|0.96|
92425076|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.985|||||TWO_SIDED|95.0|0.95|1.0|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||1.00|0.95|
92425077|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.995|||||TWO_SIDED|95.0|0.09|1.0|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||1.00|0.09|
92425078|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.989|||||TWO_SIDED|95.0|0.96|1.0|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite||1.00|0.96|
92425079|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.983|||||TWO_SIDED|95.0|0.95|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||0.99|0.95|
92425080|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.989|||||TWO_SIDED|95.0|0.9|1.0|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||1.00|0.90|
92425081|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.982|||||TWO_SIDED|95.0|0.28|1.0|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs APDM||1.00|0.28|
92170581|NCT00393484|184229899|SUPERIORITY_OR_OTHER||Difference|20.09||||0.0009|TWO_SIDED|90.0|11.1|29.07|||Chi-squared|||HBV DNA \<10\^4 copies/mL at 48 Weeks||29.07|11.10|0.0009
92170582|NCT00393484|184229899|SUPERIORITY_OR_OTHER||Difference|16.96||||0.0029|TWO_SIDED|90.0|8.43|25.5|||Chi-squared|||HBV DNA \<10\^5 at 48 Weeks||25.50|8.43|0.0029
92279493|NCT02649231|184462198|SUPERIORITY||Mean Difference (Final Values)|10.1|||||TWO_SIDED|95.0|1.1|19.0||||||Linear regression modelling was used to compare the ketamine group with the placebo group (combined across therapy and psychoeducation). Only participants with a minimum of 159 days of completed drinking self-report data were included in the main ITT analysis as this was the shortest duration of time before any participant completed the 6 month (23-25 week) follow up in the study. Reporting time was capped at 180 days.||19.0|1.1|
92425082|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.984|||||TWO_SIDED|95.0|0.96|0.99|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||0.99|0.96|
92425083|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.992|||||TWO_SIDED|95.0|0.97|1.0|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||1.00|0.97|
92425084|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.987|||||TWO_SIDED|95.0|0.94|1.0|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Natural Speed: ActiGraph vs GAITRite vs APDM||1.00|0.94|
92425085|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|-0.092|||||TWO_SIDED|95.0|-0.44|0.39|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.39|-0.44|
92425086|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.971|||||TWO_SIDED|95.0|0.53|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||0.99|0.53|
92425087|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.972|||||TWO_SIDED|95.0|-0.06|1.0|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite||1.00|-0.06|
92425088|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.725|||||TWO_SIDED|95.0|0.3|0.91|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.91|0.30|
92425089|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.946|||||TWO_SIDED|95.0|0.44|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.99|0.44|
92425090|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.939|||||TWO_SIDED|95.0|-0.12|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs APDM||0.99|-0.12|
92170583|NCT00393484|184229899|SUPERIORITY_OR_OTHER||Difference|35.27|||<|0.0001|TWO_SIDED|90.0|24.02|46.51|||Chi-squared|||HBV DNA \<10\^3 copies/mL at 96 Weeks||46.51|24.02|<0.0001
92170584|NCT00393484|184229899|SUPERIORITY_OR_OTHER||Difference|29.02|||<|0.0001|TWO_SIDED|90.0|18.07|39.97|||Chi-squared|||HBV DNA \<10\^4 copies/mL at 96 Weeks||39.97|18.07|<0.0001
92279494|NCT01714505|184462226|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 1 sided|Paired t-tests: compare LBGI, carbohydrates for hypoglycemia treatment, % of time in range and average BG on CLC vs OL.||||||0.003
92279495|NCT01714505|184462227|SUPERIORITY_OR_OTHER||||||>|0.1|||||||t-test, 1 sided|||||||>0.1
92425091|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.152|||||TWO_SIDED|95.0|-0.11|0.52|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.52|-0.11|
92425092|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.967|||||TWO_SIDED|95.0|0.84|0.99|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.99|0.84|
92425093|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.965|||||TWO_SIDED|95.0|-0.04|0.99|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Fast Speed: ActiGraph vs GAITRite vs APDM||0.99|-0.04|
92425094|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.709|||||TWO_SIDED|95.0|0.26|0.9|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.90|0.26|
92425095|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.48|||||TWO_SIDED|95.0|-0.07|0.8|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.80|-0.07|
92425096|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.655|||||TWO_SIDED|95.0|0.15|0.88|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite||0.88|0.15|
92170585|NCT00393484|184229899|SUPERIORITY_OR_OTHER||Difference|24.33||||0.0006|TWO_SIDED|90.0|13.71|34.95|||Chi-squared|||HBV DNA \<10\^5 copies/mL at 96 Weeks||34.95|13.71|0.0006
92170586|NCT00393484|184229900|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariates of treatment and baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from baseline were based on patients with measurements at both Baseline and Week 24.||||<0.0001
92170587|NCT00393484|184229900|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariants of treatment and Baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from Baseline were based on patients with measurements at both Baseline and at Week 48.||||<0.0001
92170588|NCT00393484|184229900|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariants of treatment and Baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from Baseline were based on patients with measurements at both Baseline and at 96 Weeks.||||<0.0001
92170589|NCT00393484|184229900|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariants of treatment and Baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from Baseline were based on patients with measurements at both Baseline and at Week 144.||||<0.0001
92170590|NCT00393484|184229900|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariants of treatment and Baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from Baseline were based on patients with measurements at both Baseline and at Week 192.||||<0.0001
92170591|NCT00393484|184229900|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariants of treatment and Baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from Baseline were based on patients with measurements at both Baseline and at Week 240.||||<0.0001
92170592|NCT00393484|184229902|SUPERIORITY_OR_OTHER||Difference|18.97||||0.0278|TWO_SIDED|90.0|5.22|32.73|||Chi-squared||At 24 Weeks|||32.73|5.22|0.0278
92170593|NCT00393484|184229902|SUPERIORITY_OR_OTHER||Difference|26.34||||0.0014|TWO_SIDED|90.0|13.65|39.03|||Chi-squared||At 48 Weeks|||39.03|13.65|0.0014
92170594|NCT00393484|184229902|SUPERIORITY_OR_OTHER||Difference|35.94|||<|0.0001|TWO_SIDED|90.0|23.35|48.52|||Chi-squared||At 96 Weeks|||48.52|23.35|<0.0001
92425097|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.692|||||TWO_SIDED|95.0|0.18|0.9|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.90|0.18|
92425098|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.494|||||TWO_SIDED|95.0|-0.05|0.81|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.81|-0.05|
92425099|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.648|||||TWO_SIDED|95.0|0.16|0.88|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs APDM||0.88|0.16|
92425100|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.82|||||TWO_SIDED|95.0|0.57|0.94|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.94|0.57|
92170595|NCT00393484|184229908|SUPERIORITY_OR_OTHER||Difference|33.71|||<|0.0001|TWO_SIDED|90.0|22.52|44.89|||Chi-squared||At 48 Weeks|||44.89|22.52|<0.0001
92170596|NCT00393484|184229908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.21|||<|0.0001|TWO_SIDED|90.0|34.8|57.61|||Chi-squared||At 96 Weeks|||57.61|34.80|<0.0001
92170597|NCT00393484|184229908|SUPERIORITY_OR_OTHER||Difference|33.48||||0.0003|TWO_SIDED|90.0|19.31|47.65|||Chi-squared||At 144 Weeks|||47.65|19.31|0.0003
92170598|NCT00393484|184229908|SUPERIORITY_OR_OTHER||Difference|44.64|||<|0.0001|TWO_SIDED|90.0|31.17|58.11|||Chi-squared||At 192 Weeks|||58.11|31.17|<0.0001
92170599|NCT00393484|184229908|SUPERIORITY_OR_OTHER||Difference|52.23|||<|0.0001|TWO_SIDED|90.0|39.54|64.93|||Chi-squared||At 240 Weeks|||64.93|39.54|<0.0001
92425101|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.689|||||TWO_SIDED|95.0|0.3|0.89|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.89|0.30|
92425102|NCT04823650|184737822|OTHER||Intraclass correlation coefficient|0.79|||||TWO_SIDED|95.0|0.53|0.93|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Walk at Slow Speed: ActiGraph vs GAITRite vs APDM||0.93|0.53|
92425103|NCT04823650|184737823|OTHER||Intraclass correlation coefficient|0.03|||||TWO_SIDED|95.0|-0.2|0.4|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.40|-0.20|
92170600|NCT00393484|184229909|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||Viral rebound at 96 weeks||||<0.0001
92171852|NCT03775109|184233312|SUPERIORITY||Mean Difference (Net)|16.7||||0.248|TWO_SIDED|95.0|-11.2|44.5||The threshold for statistical significance was p = 0.05|Chi-squared||Difference = Canakinumab - Placebo|It is estimated that improvement of histological alcoholic steatohepatitis will occur in 40% of patients treated with placebo and 80% of patients treated with Canakinumab. A trial with 80% power to detect a difference at the P \< 0.05 threshold would require 23 patients in each arm, 46 in total. Assuming a drop-out rate of 10%, we will recruit 52 patients in total (26 patients per group).||44.5|-11.2|0.248
92425104|NCT04823650|184737823|OTHER||Intraclass correlation coefficient|0.096|||||TWO_SIDED|95.0|-0.22|0.5|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.50|-0.22|
92425105|NCT04823650|184737823|OTHER||Intraclass correlation coefficient|0.188|||||TWO_SIDED|95.0|-0.05|0.64|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.64|-0.05|
92425106|NCT04823650|184737823|OTHER||Intraclass correlation coefficient|0.026|||||TWO_SIDED|95.0|-0.18|0.39|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.39|-0.18|
92425107|NCT04823650|184737823|OTHER||Intraclass correlation coefficient|0.049|||||TWO_SIDED|95.0|-0.07|0.3|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.30|-0.07|
92425108|NCT04823650|184737823|OTHER||Intraclass correlation coefficient|0.144|||||TWO_SIDED|95.0|-0.04|0.57|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.57|-0.04|
92236510|NCT01282814|184377063|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|109.97|||||TWO_SIDED|90.0|103.68|116.63|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||116.63|103.68|
92236511|NCT01282814|184377064|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.46|||||TWO_SIDED|90.0|101.45|111.71|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||111.71|101.45|
92279496|NCT01714505|184462228|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92279497|NCT00249821|184462240|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||"Month 12: Analysis of co-variance (ANCOVA) method with covariates height and age at baseline was used to calculate presented p-value."||||0.001
92279498|NCT00249821|184462241|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANCOVA|||"Change at Month 6: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.012
92425109|NCT04823650|184737824|OTHER||Intraclass correlation coefficient|0.123|||||TWO_SIDED|95.0|-0.16|0.51|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.51|-0.16|
92425110|NCT04823650|184737824|OTHER||Intraclass correlation coefficient|0.473|||||TWO_SIDED|95.0|-0.04|0.86|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.86|-0.04|
92425111|NCT04823650|184737824|OTHER||Intraclass correlation coefficient|0.293|||||TWO_SIDED|95.0|-0.03|0.74|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.74|-0.03|
92425112|NCT04823650|184737824|OTHER||Intraclass correlation coefficient|0.277|||||TWO_SIDED|95.0|-0.15|0.73|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.73|-0.15|
92425113|NCT04823650|184737824|OTHER||Intraclass correlation coefficient|0.377|||||TWO_SIDED|95.0|-0.04|0.8|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.80|-0.04|
92425114|NCT04823650|184737824|OTHER||Intraclass correlation coefficient|0.279|||||TWO_SIDED|95.0|-0.03|0.73|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.73|-0.03|
92425115|NCT04823650|184737825|OTHER||Intraclass correlation coefficient|0.252|||||TWO_SIDED|95.0|-0.31|0.69|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: Actigraph Lumbar vs APDM||0.69|-0.31|
92425116|NCT04823650|184737825|OTHER||Intraclass correlation coefficient|0.704|||||TWO_SIDED|95.0|0.3|0.89|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: Actigraph Lumbar vs APDM||0.89|0.30|
92279499|NCT00249821|184462241|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||"Change at Month 12: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.002
92425117|NCT04823650|184737825|OTHER||Intraclass correlation coefficient|0.631|||||TWO_SIDED|95.0|-0.09|0.92|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: Actigraph Lumbar vs APDM||0.92|-0.09|
92425118|NCT04823650|184737825|OTHER||Intraclass correlation coefficient|0.292|||||TWO_SIDED|95.0|-0.18|0.69|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: Actigraph Lumbar vs APDM||0.69|-0.18|
92279500|NCT00249821|184462242|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||ANCOVA|||"Month 6: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.022
92171853|NCT03775109|184233313|SUPERIORITY||Mean Difference (Net)|0.043|||||TWO_SIDED|95.0|-0.235|0.322|||||Difference = Canakinumab - Placebo|||0.322|-0.235|
92279501|NCT00249821|184462242|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||"Month 12: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.002
92279502|NCT00249821|184462243|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||ANCOVA|||"Change at Month 6: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.029
92279503|NCT00249821|184462244|SUPERIORITY_OR_OTHER|||||||0.972||95.0|||||ANCOVA|||"Change at Month 12: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.972
92236512|NCT02519231|184377067|SUPERIORITY||Mean Difference (Net)|-1.76|STANDARD_ERROR_OF_MEAN|5.0||0.11|TWO_SIDED|95.0||||The threshold for statistical significance was p =0.05|t-test, 2 sided|For days with bleeding/spotting outcomes, we used independent t-tests to compare the unadjusted mean difference between groups.|Treatment Difference = Naproxen - Placebo|We originally planned to enroll 60 subjects based on other similar studies that evaluated treatment for bleeding among women using contraception; as reported by Cohen et al., a sample size of 42 provided 80% power to detect a difference of 7 bleeding/spotting days in 30 days by two-sample t-test, allowing for an expected 20% drop-out.|We designed the study to include another site, in addition to the UW site enrolled participants. After 6 months of failed active recruitment at the other site, we discontinued that site from the study. Resources did not permit us to contract with an alternative recruitment site, and thus the protocol was revised to enroll 32 participants at the Seattle site only.|||.11
92236513|NCT02519231|184377068|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92425119|NCT04823650|184737825|OTHER||Intraclass correlation coefficient|0.516|||||TWO_SIDED|95.0|-0.07|0.82|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: Actigraph Lumbar vs APDM||0.82|-0.07|
92279504|NCT00249821|184462245|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||ANCOVA|||"Month 6: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.058
92425120|NCT04823650|184737825|OTHER||Intraclass correlation coefficient|0.566|||||TWO_SIDED|95.0|-0.04|0.9|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: Actigraph Lumbar vs APDM||0.90|-0.04|
92425121|NCT04823650|184737826|OTHER||Intra-class correlation coefficient|0.132|||||TWO_SIDED|95.0|-0.16|0.52|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.52|-0.16|
92425122|NCT04823650|184737826|OTHER||Intra-class correlation coefficient|0.522|||||TWO_SIDED|95.0|-0.06|0.88|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.88|-0.06|
92425123|NCT04823650|184737826|OTHER||Intra-class correlation coefficient|0.363|||||TWO_SIDED|95.0|-0.06|0.8|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.80|-0.06|
92425124|NCT04823650|184737826|OTHER||Intraclass correlation coefficient|0.456|||||TWO_SIDED|95.0|-0.21|0.84|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.84|-0.21|
92425125|NCT04823650|184737826|OTHER||Intraclass correlation coefficient|0.461|||||TWO_SIDED|95.0|-0.02|0.85|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.85|-0.02|
92425126|NCT04823650|184737826|OTHER||Intraclass correlation coefficient|0.292|||||TWO_SIDED|95.0|-0.06|0.75|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.75|-0.06|
92425127|NCT04823650|184737827|OTHER||Intraclass correlation coefficient|-0.043|||||TWO_SIDED|95.0|-0.24|0.31|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.31|-0.24|
92425128|NCT04823650|184737827|OTHER||Intraclass correlation coefficient|0.284|||||TWO_SIDED|95.0|-0.19|0.68|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.68|-0.19|
92425129|NCT04823650|184737827|OTHER||Intraclass correlation coefficient|0.332|||||TWO_SIDED|95.0|-0.17|0.72|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.72|-0.17|
92425130|NCT04823650|184737827|OTHER||Intraclass correlation coefficient|0.041|||||TWO_SIDED|95.0|-0.22|0.44|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.44|-0.22|
92425131|NCT04823650|184737827|OTHER||Intraclass correlation coefficient|0.289|||||TWO_SIDED|95.0|-0.18|0.68|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.68|-0.18|
92425132|NCT04823650|184737827|OTHER||Intraclass correlation coefficient|0.306|||||TWO_SIDED|95.0|-0.18|0.7|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.70|-0.18|
92425133|NCT04823650|184737828|OTHER||Intraclass correlation coefficient|0.596|||||TWO_SIDED|95.0|0.08|0.86|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.86|0.08|
92425134|NCT04823650|184737828|OTHER||Intraclass correlation coefficient|0.902|||||TWO_SIDED|95.0|0.72|0.97|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.97|0.72|
92425135|NCT04823650|184737828|OTHER||Intraclass correlation coefficient|0.944|||||TWO_SIDED|95.0|-0.15|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.99|-0.15|
92425136|NCT04823650|184737828|OTHER||Intraclass correlation coefficient|0.614|||||TWO_SIDED|95.0|0.1|0.87|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.87|0.10|
92425137|NCT04823650|184737828|OTHER||Intraclass correlation coefficient|0.882|||||TWO_SIDED|95.0|0.67|0.96|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.96|0.67|
92425138|NCT04823650|184737828|OTHER||Intraclass correlation coefficient|0.939|||||TWO_SIDED|95.0|-0.05|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.99|-0.05|
92425139|NCT04823650|184737829|OTHER||Intraclass correlation coefficient|0.487|||||TWO_SIDED|95.0|-0.06|0.81|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.81|-0.06|
92425140|NCT04823650|184737829|OTHER||Intraclass correlation coefficient|0.805|||||TWO_SIDED|95.0|0.37|0.94|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.94|0.37|
92425141|NCT04823650|184737829|OTHER||Intraclass correlation coefficient|0.953|||||TWO_SIDED|95.0|0.73|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.99|0.73|
92170601|NCT02382744|184229916|SUPERIORITY_OR_OTHER||Difference between proportions (%)|10.0||||0.25|TWO_SIDED|95.0|-11.9|31.9||One-sided P-value based on the lack of plausibility that additional nerve stimulation would worsen sensory blockade rates.|Fisher Exact|||We sought to detect an increase in the rate of complete absence of sensation to pinprick 30 min following ultrasound-guided subsartorial saphenous nerve blockade to 90% from an assumed baseline of 64% as extrapolated from our previous study (cf. Head SJ et al. 2015) at β = 0.2. The required minimum sample size at α = 0.05 (one-sided) was 30 patients in each group. To be conservative, we aimed to enroll a total of 80 patients.||31.9|-11.9|0.25
92425142|NCT04823650|184737829|OTHER||Intraclass correlation coefficient|0.584|||||TWO_SIDED|95.0|0.06|0.85|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.85|0.06|
92425143|NCT04823650|184737829|OTHER||Intraclass correlation coefficient|0.785|||||TWO_SIDED|95.0|0.45|0.93|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.93|0.45|
92425144|NCT04823650|184737829|OTHER||Intraclass correlation coefficient|0.964|||||TWO_SIDED|95.0|0.63|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.99|0.63|
92425145|NCT04823650|184737830|OTHER||Intraclass correlation coefficient|-0.023|||||TWO_SIDED|95.0|-0.16|0.26|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.26|-0.16|
92425146|NCT04823650|184737830|OTHER||Intraclass correlation coefficient|0.094|||||TWO_SIDED|95.0|-0.21|0.49|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.49|-0.21|
92425147|NCT04823650|184737830|OTHER||Intraclass correlation coefficient|0.45|||||TWO_SIDED|95.0|-0.14|0.8|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.80|-0.14|
92425148|NCT04823650|184737830|OTHER||Intraclass correlation coefficient|-0.014|||||TWO_SIDED|95.0|-0.22|0.35|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.35|-0.22|
92425149|NCT04823650|184737830|OTHER||Intraclass correlation coefficient|-0.13|||||TWO_SIDED|95.0|-0.35|0.26|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.26|-0.35|
92171854|NCT03775109|184233314|SUPERIORITY||Odds Ratio (OR)|3.133|||||TWO_SIDED|95.0|0.121|81.004||||||||81.004|0.121|
92425150|NCT04823650|184737830|OTHER||Intraclass correlation coefficient|0.284|||||TWO_SIDED|95.0|-0.32|0.71|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.71|-0.32|
92425151|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.135|||||TWO_SIDED|95.0|-0.16|0.53|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Wrist vs APDM||0.53|-0.16|
92425152|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.197|||||TWO_SIDED|95.0|-0.114|0.64|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Wrist vs APDM||0.64|-0.114|
92279505|NCT00249821|184462245|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||ANCOVA|||"Month 12: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.026
92425153|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.341|||||TWO_SIDED|95.0|-0.17|0.73|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Wrist vs APDM||0.73|-0.17|
92425154|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.38|||||TWO_SIDED|95.0|-0.23|0.76|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.76|-0.23|
92425155|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.371|||||TWO_SIDED|95.0|-0.12|0.74|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.74|-0.12|
92425156|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.364|||||TWO_SIDED|95.0|-0.15|0.74|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.74|-0.15|
92425157|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.234|||||TWO_SIDED|95.0|-0.18|0.65|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Wrist vs ActiGraph Lumbar||0.65|-0.18|
92425158|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.493|||||TWO_SIDED|95.0|-0.17|0.87|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Wrist vs ActiGraph Lumbar||0.87|-0.17|
92279506|NCT00249821|184462246|SUPERIORITY_OR_OTHER|||||||0.793||95.0|||||ANCOVA|||"Month 6: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.793
92425159|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.333|||||TWO_SIDED|95.0|-0.2|0.75|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Wrist vs ActiGraph Lumbar||0.75|-0.20|
92425160|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.228|||||TWO_SIDED|95.0|-0.06|0.59|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Wrist vs ActiGraph Lumbar vs APDM||0.59|-0.06|
92425161|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.335|||||TWO_SIDED|95.0|-0.1|0.74|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Wrist vs ActiGraph Lumbar vs APDM||0.74|-0.10|
92425162|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.343|||||TWO_SIDED|95.0|-0.03|0.7|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Wrist vs ActiGraph Lumbar vs APDM||0.70|-0.03|
92425163|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.376|||||TWO_SIDED|95.0|-0.2|0.77|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Wrist vs APDM||0.77|-0.20|
92425164|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.15|||||TWO_SIDED|95.0|-0.12|0.56|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Wrist vs APDM||0.56|-0.12|
92425165|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.315|||||TWO_SIDED|95.0|-0.18|0.71|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Wrist vs APDM||0.71|-0.18|
92425166|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.449|||||TWO_SIDED|95.0|-0.14|0.8|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.80|-0.14|
92425167|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.241|||||TWO_SIDED|95.0|-0.22|0.65|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.65|-0.22|
92425168|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.399|||||TWO_SIDED|95.0|-0.14|0.77|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.77|-0.14|
92425169|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.507|||||TWO_SIDED|95.0|-0.22|0.86|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Wrist vs ActiGraph Lumbar||0.86|-0.22|
92425170|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.299|||||TWO_SIDED|95.0|-0.18|0.72|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Wrist vs ActiGraph Lumbar||0.72|-0.18|
92425171|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.3|||||TWO_SIDED|95.0|-0.17|0.74|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Wrist vs ActiGraph Lumbar||0.74|-0.17|
92170602|NCT02382744|184229917|SUPERIORITY_OR_OTHER|||||||0.62||||||Two-sided P-value|Fisher Exact|||"This contingency-table type analysis (Fisher Exact test) compares the two groups, Ultrasound Guidance and Ultrasound Guidance and Nerve Stimulation, as far as the two categorical outcomes are concerned, block failure at 30 minutes post nerve block versus no block failure at 30 minutes post nerve block."||||0.62
92425172|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.444|||||TWO_SIDED|95.0|-0.02|0.78|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Wrist vs ActiGraph Lumbar vs APDM||0.78|-0.02|
92425173|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.217|||||TWO_SIDED|95.0|-0.08|0.59|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Wrist vs Actigraph Lumbar vs APDM||0.59|-0.08|
92425174|NCT04823650|184737831|OTHER||Intraclass correlation coefficient|0.321|||||TWO_SIDED|95.0|-0.07|0.7|||||Agreement between devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Wrist vs ActiGraph Lumbar vs APDM||0.70|-0.07|
92425175|NCT04823650|184737832|OTHER||Intraclass correlation coefficient|0.323|||||TWO_SIDED|95.0|-0.28|0.73|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.73|-0.28|
92425176|NCT04823650|184737832|OTHER||Intraclass correlation coefficient|0.822|||||TWO_SIDED|95.0|0.23|0.95|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.95|0.23|
92425177|NCT04823650|184737832|OTHER||Intraclass correlation coefficient|0.973|||||TWO_SIDED|95.0|0.91|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 1: ActiGraph Lumbar vs APDM||0.99|0.91|
92425178|NCT04823650|184737832|OTHER||Intraclass correlation coefficient|0.644|||||TWO_SIDED|95.0|0.16|0.88|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.88|0.16|
92425179|NCT04823650|184737832|OTHER||Intraclass correlation coefficient|0.829|||||TWO_SIDED|95.0|0.55|0.94|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.94|0.55|
92170603|NCT02382744|184229918|SUPERIORITY_OR_OTHER|||||||0.62|||||||Fisher Exact|||||||0.62
92425180|NCT04823650|184737832|OTHER||Intraclass correlation coefficient|0.98|||||TWO_SIDED|95.0|0.93|0.99|||||Agreement between two devices' measurements was assessed by the intraclass correlation coefficient as: \<= 0.4 (poor), 0.4 to 0.59 (moderate), 0.6 to 0.74 (good), and 0.75 to 1 (excellent) agreement.|Activity Block 2: ActiGraph Lumbar vs APDM||0.99|0.93|
92425181|NCT06350474|184737879|NON_INFERIORITY|The non-inferiority margin is -3.|Mean Difference (Final Values)|0.346|||<|0.0001|TWO_SIDED|95.0|-0.5|1.1||One-sided test for non-inferiority.|ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|The non-inferiority test was a priori designed to be conducted on the per-protocol (PP) population.||1.1|-0.5|<0.0001
92425182|NCT06350474|184737880|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.414|TWO_SIDED|95.0|-0.4|0.2|||ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|||0.2|-0.4|0.414
92425183|NCT06350474|184737881|SUPERIORITY||Mean Difference (Final Values)|0.95||||0.241|TWO_SIDED|95.0|-1.0|2.9|||ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|||2.9|-1.0|0.241
92425184|NCT06350474|184737882|SUPERIORITY||Mean Difference (Final Values)|-0.92||||0.233|TWO_SIDED|95.0|-2.5|0.6|||ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|||0.6|-2.5|0.233
92425185|NCT06350474|184737883|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.42|TWO_SIDED|95.0|-0.4|0.97|||t-test, 2 sided||Direction of difference is Discontinue - Continue.|||0.97|-0.4|0.42
92425186|NCT06350474|184737884|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.69|TWO_SIDED|95.0|-0.92|0.61|||t-test, 2 sided||Direction of difference is Discontinue - Continue.|||0.61|-0.92|0.69
92425187|NCT06350474|184737885|SUPERIORITY||Difference in % Participants|2.5||||0.275|TWO_SIDED|95.0|-1.5|6.5|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|||6.5|-1.5|0.275
92425188|NCT06350474|184737887|SUPERIORITY||Difference in % Participants|0.8||||0.686|TWO_SIDED|95.0|-1.6|3.4|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|||3.4|-1.6|0.686
92425189|NCT06350474|184737888|SUPERIORITY||Difference in % Participants|13.9||||0.001|TWO_SIDED|95.0|5.6|21.8|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants with at least one AE is the same in Discontinue and Continue arms.||21.8|5.6|0.0010
92425190|NCT06350474|184737889|SUPERIORITY||Rate Ratio|1.95|||<|0.0001|TWO_SIDED|95.0|1.51|2.53|||Poisson Regression|||Rate ratio, confidence interval, and p-value calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks in the DA-discontinue and DA-continue arms are 1486.3 and 1471.4 weeks, respectively. Ratio is Discontinue / Continue.||2.53|1.51|<0.0001
92171855|NCT03775109|184233315|SUPERIORITY||Odds Ratio (OR)|1.887|||||TWO_SIDED|95.0|0.357|9.965||||||||9.965|0.357|
92236514|NCT01707147|184377106|OTHER||Mean Difference (Final Values)|-0.77|STANDARD_DEVIATION|1.5|<|0.0001|TWO_SIDED|95.0|-0.83|-0.71|||Paired t-test||p-value of paired t-test for change from baseline is presented. 95% confidence interval for the mean was calculated using t-distribution.|||-0.71|-0.83|<0.0001
92425191|NCT06350474|184737890|SUPERIORITY||Difference in % Participants|2.03||||0.1758|TWO_SIDED|95.0|-0.6|5.0|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants changing assigned regimen is the same in Discontinue and Continue arms.||5.0|-0.6|0.1758
92425192|NCT00546104|184737893|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|9.0||0.3|TWO_SIDED|95.0|-30.0|9.0||The p-value is from a paired t-test to test the null hypothesis the mean relative change in Src from baseline to 4 weeks is equal to zero.|t-test, 2 sided|||The median change in SRC from baseline to 4 weeks was estimated.||9|-30|0.3
92425193|NCT00546104|184737894|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.1||0.3|TWO_SIDED|95.0|-0.3|0.1|||t-test, 1 sided|||||.10|-.30|0.3
92425194|NCT02699697|184737903|SUPERIORITY||Hazard Ratio (HR)|0.869||||0.8325|TWO_SIDED||||||t-test, 2 sided|||||||0.8325
92425195|NCT02699697|184737904|SUPERIORITY|||||||0.5593|||||||t-test, 2 sided|||Continuous pain scale p-value at 3 months||||0.5593
92425196|NCT02699697|184737904|SUPERIORITY|||||||0.8133|||||||t-test, 2 sided|||Continuous pain scale p-value at 6 months||||0.8133
92425197|NCT02699697|184737905|SUPERIORITY|||||||0.3058|||||||t-test, 2 sided|||Narcotic use at 3 months||||0.3058
92425198|NCT02699697|184737905|SUPERIORITY|||||||0.5337|||||||t-test, 2 sided|||Narcotic use at 6 months||||0.5337
92425199|NCT02699697|184737906|SUPERIORITY|||||||0.4182|||||||t-test, 2 sided|||Physical Functioning p-value at 3 months||||0.4182
92425200|NCT02699697|184737906|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Emotional functioning p-value at 3 months||||0.8700
92425201|NCT02699697|184737906|SUPERIORITY|||||||0.7008|||||||t-test, 2 sided|||Symptom Scales - Dyspnea at 3 months||||0.7008
92425202|NCT02699697|184737906|SUPERIORITY|||||||0.9562|||||||t-test, 2 sided|||Symptom Scale Pain at 3 months||||0.9562
92425203|NCT02699697|184737906|SUPERIORITY|||||||0.4951|||||||t-test, 2 sided|||Symptom Scale Insomnia at 3 months||||0.4951
92425204|NCT02699697|184737906|SUPERIORITY|||||||0.7868|||||||t-test, 2 sided|||Symptom Scale Fatigue at 3 months||||0.7868
92425205|NCT02699697|184737906|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|||Symptom Scale Appetite loss at 3 months||||0.2200
92425206|NCT02699697|184737906|SUPERIORITY|||||||0.7998|||||||t-test, 2 sided|||Symptom Scale Nausea/vomiting at 3 months||||0.7998
92425207|NCT02699697|184737906|SUPERIORITY|||||||0.7998|||||||t-test, 2 sided|||Symptom Scale Constipation at 3 months||||0.7998
92425208|NCT02699697|184737906|SUPERIORITY|||||||0.7409|||||||t-test, 2 sided|||Symptom Scale Quality of Life at 3 months||||0.7409
92425209|NCT02699697|184737906|SUPERIORITY|||||||0.0128|||||||t-test, 2 sided|||Physical Functioning at 6 months||||0.0128
92425210|NCT02699697|184737906|SUPERIORITY|||||||0.5861|||||||t-test, 2 sided|||Emotional Functioning at 6 months||||0.5861
92425211|NCT02699697|184737906|SUPERIORITY|||||||0.3561|||||||t-test, 2 sided|||Symptom Scales - Dyspnea at 6 months||||0.3561
92425212|NCT02699697|184737906|SUPERIORITY|||||||0.1647|||||||t-test, 2 sided|||Symptom Scales - Pain at 6 months||||0.1647
92425213|NCT02699697|184737906|SUPERIORITY|||||||0.3571|||||||t-test, 2 sided|||Symptom Scales - Insomnia at 6 months||||0.3571
92425214|NCT02699697|184737906|SUPERIORITY|||||||0.1494|||||||t-test, 2 sided|||Symptom Scales - Fatigue at 6 months||||0.1494
92425215|NCT02699697|184737906|SUPERIORITY|||||||0.8424|||||||t-test, 2 sided|||Symptom Scales - Appetite loss at 6 months||||0.8424
92425216|NCT02699697|184737906|SUPERIORITY|||||||0.3287|||||||t-test, 2 sided|||Symptom Scales - Nausea/vomiting at 6 months||||0.3287
92236515|NCT01707147|184377109|OTHER||Mean Difference (Final Values)|-18.05|STANDARD_DEVIATION|61.84|<|0.0001|TWO_SIDED|95.0|-20.98|-15.12|||Paired t-test||p-value of paired t-test for change from baseline is presented. 95% confidence interval for the mean was calculated using t-distribution.|||-15.12|-20.98|<0.0001
92425217|NCT02699697|184737906|SUPERIORITY|||||||0.0961|||||||t-test, 2 sided|||Symptom Scales - Constipation at 6 months||||0.0961
92425218|NCT02699697|184737908|SUPERIORITY|||||||0.8444|||||||t-test, 2 sided|||At 3 months, total score for PSCC-18||||0.8444
92425219|NCT02699697|184737908|SUPERIORITY|||||||0.8946|||||||t-test, 2 sided|||At 6 months, total score for PSCC-18||||0.8946
92425220|NCT02699697|184737909|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Perceived helplessness total at 3 months||||0.6700
92425221|NCT02699697|184737909|SUPERIORITY|||||||0.435|||||||t-test, 2 sided|||Perceived self-efficacy total at 3 months||||0.4350
92425222|NCT02699697|184737909|SUPERIORITY|||||||0.6131|||||||t-test, 2 sided|||Total PSS-10 score at 3 months||||0.6131
92425223|NCT02699697|184737909|SUPERIORITY|||||||0.2518|||||||t-test, 2 sided|||Perceived helplessness total at 6 months||||0.2518
92425224|NCT02699697|184737909|SUPERIORITY|||||||0.5529|||||||t-test, 2 sided|||Perceived self-efficacy total||||0.5529
92425225|NCT02699697|184737909|SUPERIORITY|||||||0.2833|||||||t-test, 2 sided|||Total PSS-10 score at 6 months||||0.2833
92425226|NCT02699697|184737910|SUPERIORITY|||||||0.3784|||||||t-test, 2 sided|||Appraisal Support subscale total at 3 months||||0.3784
92425227|NCT02699697|184737910|SUPERIORITY|||||||0.664|||||||t-test, 2 sided|||Belonging Support subscale total at 3 months||||0.6640
92425228|NCT02699697|184737910|SUPERIORITY|||||||0.1745|||||||t-test, 2 sided|||Tangible Support subscale total at 3 months||||0.1745
92425229|NCT02699697|184737910|SUPERIORITY|||||||0.5792|||||||t-test, 2 sided|||Total ISEL score at 3 months||||0.5792
92425230|NCT02699697|184737910|SUPERIORITY|||||||0.6814|||||||t-test, 2 sided|||Appraisal Support subscale total at 6 months||||0.6814
92425231|NCT02699697|184737910|SUPERIORITY|||||||0.5219|||||||t-test, 2 sided|||Belonging Support subscale total at 6 months||||0.5219
92425232|NCT02699697|184737910|SUPERIORITY|||||||0.5516|||||||t-test, 2 sided|||Tangible Support subscale total||||0.5516
92425233|NCT02699697|184737910|SUPERIORITY|||||||0.4329|||||||t-test, 2 sided|||Total ISEL score at 6 months||||0.4329
92425234|NCT00191906|184737935|SUPERIORITY_OR_OTHER|||||||0.504||95.0||||P-value for Overall. No adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||0.504
92425235|NCT00191906|184737936|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariates for ADHD-C versus Normal controls.||||0.970
92425236|NCT00191906|184737937|SUPERIORITY_OR_OTHER|||||||0.579||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariates for ADHD-C+RD versus RD controls.||||0.579
92425237|NCT00191906|184737937|SUPERIORITY_OR_OTHER|||||||0.144||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests are performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariates for RD versus RD controls.||||0.144
92425238|NCT00191906|184737938|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment by study-arm-interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||0.005
92425239|NCT00191906|184737939|SUPERIORITY_OR_OTHER|||||||0.097||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||0.097
92425240|NCT00191906|184737940|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for study arm, treatment sequence, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||0.003
92425241|NCT00191906|184737941|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||<0.001
92425242|NCT00191906|184737942|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||<0.001
92425243|NCT00191906|184737943|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||<0.001
92425244|NCT00191906|184737944|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||<0.001
92425245|NCT00191906|184737945|SUPERIORITY_OR_OTHER|||||||0.094||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||||||0.094
92425246|NCT00191906|184737946|SUPERIORITY_OR_OTHER|||||||0.312||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction||||||0.312
92425247|NCT00191906|184737947|SUPERIORITY_OR_OTHER|||||||0.508||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariates for ADHD-C versus normal controls.||||0.508
92425248|NCT00191906|184737948|SUPERIORITY_OR_OTHER|||||||0.769||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariate for ADHD-C versus normal controls||||0.769
92425249|NCT00191906|184737949|SUPERIORITY_OR_OTHER|||||||0.302||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariates for ADHD-C+RD versus RD controls.||||0.302
92425250|NCT00191906|184737949|SUPERIORITY_OR_OTHER|||||||0.663||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariate for RD versus RD controls.||||0.663
92236516|NCT01894516|184377181|SUPERIORITY||Difference in percentage rates|37.5|||<|0.0001|TWO_SIDED|95.0|22.4|52.6||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||52.6|22.4|< 0.0001
92236517|NCT01894516|184377181|SUPERIORITY||Difference in percentage rates|36.5|||<|0.0001|TWO_SIDED|95.0|21.3|51.8||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||51.8|21.3|< 0.0001
92279507|NCT00249821|184462246|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||ANCOVA|||"Month 12: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.055
92425251|NCT00191906|184737950|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariate for ADHD-C+RD versus RD controls.||||0.070
92425252|NCT00191906|184737950|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariate for RD versus RD controls.||||0.179
92425253|NCT01188421|184737958|SUPERIORITY||F-value for main effect of Group|1.31||||0.275|TWO_SIDED|||||Main effect of Group (e.g., Buprenorphine, Tramadol, Clonidine) on COWS Total Score Ratings|ANOVA|||A power analysis determined 40 participants in each group would detect a moderate effect size, assuming an alpha of 0.05 and 80% power. Due to the expiration of buprenorphine tablets, recruitment was terminated after enrolling 103 participants. This study utilized an Intent-to-Treat (ITT) analysis. The ITT analysis includes all volunteers who signed informed consent, were randomized into the study's treatment conditions, and took at least 1 dose of study medication.||||.275
92425254|NCT01188421|184737958|SUPERIORITY||F-value for main effect of Phase|3.57||||0.03|TWO_SIDED|||||Main effect for Phase (e.g., Stabilization, Taper, Post-Taper) on COWS total score.|ANOVA|||||||0.03
92425255|NCT01188421|184737958|SUPERIORITY||F-value for the main effect of Group x P|2.03||||0.092|TWO_SIDED|||||Main effect for Group x Phase interaction on COWS Total Score|ANOVA|||||||0.092
92425256|NCT01604408|184737961|SUPERIORITY_OR_OTHER||LS Mean Difference|0.426|||<|0.001|TWO_SIDED|95.0|0.192|0.66|||Mixed Model Repeated Measures|||||0.660|0.192|<0.001
92425257|NCT01604408|184737962|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.461||||0.073|TWO_SIDED|90.0|-0.883|-0.039|||Mixed Model Repeated Measures|||||-0.039|-0.883|0.073
92425258|NCT01604408|184737963|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.062||||0.191|TWO_SIDED|90.0|-2.4|0.276|||Mixed Model Repeated Measures|||||0.276|-2.400|0.191
92425259|NCT01604408|184737964|SUPERIORITY_OR_OTHER||LS Mean Difference|0.017||||0.478|TWO_SIDED|90.0|-0.023|0.057|||Mixed Model Repeated Measures|||||0.057|-0.023|0.478
92425260|NCT02664610|184737996|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.60
92425261|NCT02664610|184737997|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
92425262|NCT04102098|184738007|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.012|TWO_SIDED|95.0|0.56|0.93|||Log Rank|||Stratification factors include geographic region (Asia Pacific excluding Japan vs. rest of world) and High risk features/curative procedure (Ablation vs. Resection with 1 high risk feature vs. Resection with 2 or more high risk features).||0.93|0.56|0.0120
92425263|NCT03150173|184738022|SUPERIORITY|||||||0.94|||||||Chi-squared|||||||0.94
92425264|NCT03150173|184738023|SUPERIORITY|||||||0.148|||||||Chi-squared|||||||0.148
92425265|NCT03150173|184738024|SUPERIORITY||Odds Ratio (OR)|1.445||||0.6132|TWO_SIDED|95.0|0.347|6.018|||Regression, Logistic|Adjustment for baseline self-report of injection-related HIV risk behaviors in the past 30 days||||6.018|0.347|0.6132
92425266|NCT03150173|184738025|SUPERIORITY|||||||0.051|||||||Fisher Exact|||||||.051
92425267|NCT03150173|184738026|SUPERIORITY||probability of cost effectiveness|0.94|||||TWO_SIDED||||||||||Data generated from the bootstrapping process were used to construct cost-effectiveness acceptability curves (CEACs), which effectively measure the uncertainty around the ICER point estimate.|||
92425268|NCT03150173|184738027|SUPERIORITY|||||||0.1||||||This is an actual calculated value not a threshold value|non-parametric bootstrapping|Non-parametric bootstrapping of adjusted mean values with 1000 iterations||||||0.10
92425269|NCT03150173|184738028|SUPERIORITY||||||<|0.01||||||This is an actual calculated value not a threshold value.|non-parametric bootstrapping|Non-parametric bootstrapping of adjusted mean values with 1000 iterations||||||< 0.01
92425270|NCT03150173|184738029|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
92425271|NCT03150173|184738030|SUPERIORITY|||||||0.098|||||||Chi-squared|||||||0.098
92425272|NCT03150173|184738031|SUPERIORITY|||||||0.256|||||||t-test, 2 sided|||||||0.256
92425273|NCT03109847|184738044|OTHER||Mean Difference (Net)|0.52||||0.404|TWO_SIDED|95.0|-1.26|2.29|||t-test, 2 sided|||||2.29|-1.26|0.404
92425274|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|-10.59|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|||||Testing procedure stopped|Mixed Models Analysis|||Holm's Step-Down Method||||
92425275|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|2.18|STANDARD_ERROR_OF_MEAN|2.42||0.1858|TWO_SIDED|||||Superiority not confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||0.1858
92425276|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|8.66|STANDARD_ERROR_OF_MEAN|2.55||0.0007|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||0.0007
92425277|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|14.45|STANDARD_ERROR_OF_MEAN|3.37|<|0.0001|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||<0.0001
92425278|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|-14.14|STANDARD_ERROR_OF_MEAN|4.55|||TWO_SIDED|||||Testing procedure stopped|Mixed Models Analysis|||Holm's Step-Down Method||||
92425279|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|1.91|STANDARD_ERROR_OF_MEAN|4.56||0.3384|TWO_SIDED|||||Superiority not confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||0.3384
92425280|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|19.38|STANDARD_ERROR_OF_MEAN|3.94|<|0.0001|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||<0.0001
92425281|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|38.37|STANDARD_ERROR_OF_MEAN|9.76||0.0002|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||0.0002
92425282|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|-23.96|STANDARD_ERROR_OF_MEAN|4.88|||TWO_SIDED|||||Testing procedure stopped|Mixed Models Analysis|||Holm's Step-Down Method||||
92425283|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|2.47|STANDARD_ERROR_OF_MEAN|5.4||0.3249|TWO_SIDED|||||Superiority not confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||0.3249
92425284|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|29.23|STANDARD_ERROR_OF_MEAN|6.53|<|0.0001|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||<0.0001
92425285|NCT02633501|184738050|SUPERIORITY||Least Squares Mean|51.96|STANDARD_ERROR_OF_MEAN|10.68|<|0.0001|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||<0.0001
92425286|NCT01104155|184738061|SUPERIORITY_OR_OTHER_LEGACY|||||||0.204|||||||1-sided exact binomial|Based on a one-sided exact binomial test compared to 9%.||||||0.204
92425287|NCT01104155|184738061|SUPERIORITY_OR_OTHER_LEGACY|||||||0.041|||||||1-sided exact binomial|||||||0.041
92425288|NCT02927262|184738069|SUPERIORITY||Hazard Ratio (HR)|0.738||||0.163|TWO_SIDED|95.0|0.407|1.336|||Log Rank||HR \& 95% CI are based on CHM. Assuming proportional hazards, HR \< 1 indicates a reduction in hazard rate in favor of gilteritinib arm. Stratification factors:age, geographic region, presence of MRD at screening, use of FLT3 inhibiting agents per IRT.|||1.336|0.407|0.163
92425289|NCT02927262|184738070|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.627||95.0|0.54|2.364|||Log Rank||HR \& 95%CI are based on CHM. Assuming proportional hazards, HR \< 1 indicates a reduction in hazard rate in favor of gilteritinib arm. Stratification factors: age, geographic region, presence of MRD at screening, use of FLT3 inhibiting agents per IRT.|||2.364|0.540|0.627
92425290|NCT02927262|184738071|SUPERIORITY||Hazard Ratio (HR)|0.862||||0.296|TWO_SIDED|95.0|0.51|1.455|||Log Rank||HR \& 95%CI are based on CHM. Assuming proportional hazards, HR \< 1 indicates a reduction in hazard rate in favor of gilteritinib arm. Stratification factors: age, geographic region, presence of MRD at screening, use of FLT3 inhibiting agents per IRT.|||1.455|0.510|0.296
92425291|NCT02927262|184738072|SUPERIORITY|||||||0.97||||||2-sided P-value from analysis of covariance (ANCOVA) including treatment, age group, geographic region and use of FLT3-inhibiting agents per IRT as fixed factors and baseline score as covariate.|ANCOVA|||Month 3||||0.970
92425292|NCT02927262|184738072|SUPERIORITY|||||||0.415||||||2-sided P-value from ANCOVA including treatment, age group, geographic region and use of FLT3-inhibiting agents per IRT as fixed factors and baseline score as covariate.|ANCOVA|||Month 6||||0.415
92425293|NCT02927262|184738072|SUPERIORITY|||||||0.271||||||2-sided P-value from ANCOVA including treatment, age group, geographic region and use of FLT3-inhibiting agents per IRT as fixed factors and baseline score as covariate.|ANCOVA|||Month 12||||0.271
92425294|NCT02927262|184738072|SUPERIORITY|||||||0.179||||||2-sided P-value from ANCOVA including treatment, age group, geographic region and use of FLT3-inhibiting agents per IRT as fixed factors and baseline score as covariate.|ANCOVA|||Month 24/EoT||||0.179
92425295|NCT02913612|184738125|SUPERIORITY||Odds Ratio, log|2.65||||0.0205|TWO_SIDED|95.0|1.12|6.26|||Fisher Exact|||||6.26|1.12|0.0205
92425296|NCT02913612|184738125|SUPERIORITY||Odds Ratio, log|2.16||||0.0619|TWO_SIDED|95.0|0.91|5.14|||Fisher Exact|||||5.14|0.91|0.0619
92425297|NCT02913612|184738125|SUPERIORITY||Odds Ratio, log|1.23||||0.6281|TWO_SIDED|95.0|0.53|2.82|||Fisher Exact|||||2.82|0.53|0.6281
92425298|NCT04402060|184738143|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.82|TWO_SIDED|90.0|0.63|1.51|||Log Rank|||P-value was from a 2-sided stratified Log-rank test by the randomization stratification factors (need of mechanical ventilation \[yes vs no\] and age \[\<65 years vs ≥65 years\]) at 0.1 significant level for evaluation of treatment difference. Hazard ratio was obtained from a Cox regression model with treatment and the randomization stratification factors as fixed factors and 90% confidence interval (CI) was based on the Wald method.||1.51|0.63|0.82
92425299|NCT04402060|184738144|SUPERIORITY||Hazard Ratio (HR)|1.62||||0.36|TWO_SIDED|90.0|0.77|3.4|||Log Rank|||P-value was from a 2-sided stratified Log-rank test by the randomization stratification factors (need of mechanical ventilation \[yes vs no\] and age \[\<65 years vs ≥65 years\]) at 0.1 significant level for evaluation of treatment difference. Hazard ratio was obtained from a Cox regression model with treatment and the randomization stratification factors as fixed factors and 90% CI was based on the Wald method.||3.40|0.77|0.36
92425300|NCT04402060|184738146|SUPERIORITY||Hazard Ratio (HR)|0.09||||0.03|TWO_SIDED|90.0|0.01|0.51|||Log Rank|||P-value was from a 2-sided stratified Log-rank test by the randomization stratification factors (need of mechanical ventilation \[yes vs no\] and age \[\<65 years vs ≥65 years\]) at 0.1 significant level for evaluation of treatment difference. Hazard ratio was obtained from a Cox regression model with treatment and the randomization stratification factors as fixed factors and 90% CI was based on the Wald method.||0.51|0.01|0.03
92425301|NCT04402060|184738147|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.93|TWO_SIDED|90.0|0.69|1.72|||Log Rank|||P-value was from a 2-sided stratified Log-rank test by the randomization stratification factors (need of mechanical ventilation \[yes vs no\] and age \[\<65 years vs ≥65 years\]) at 0.1 significant level for evaluation of treatment difference. Hazard ratio was obtained from a Cox regression model with treatment and the randomization stratification factors as fixed factors and 90% CI was based on the Wald method.||1.72|0.69|0.93
92425302|NCT02955797|184738173|NON_INFERIORITY|95% confidence interval (CI) was stratified on the priming status (meningococcal vaccine naïve or primed monovalent MenC vaccination during infancy) and calculated using the Wald method (normal approximation). Weighted average of the difference over strata was calculated using the Minimal Risk weights with the null variance method. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was greater than (\>) -10%.|Percentage difference|-2.03|||||TWO_SIDED|95.0|-5.84|1.78||||||Serogroup A||1.78|-5.84|
92425303|NCT02955797|184738173|NON_INFERIORITY|95% CI was stratified on the priming status (meningococcal vaccine naïve or primed monovalent MenC vaccination during infancy) and calculated using the Wald method (normal approximation). Weighted average of the difference over strata was calculated using the Minimal Risk weights with the null variance method. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|12.1|||||TWO_SIDED|95.0|8.16|16.1||||||Serogroup C||16.1|8.16|
92170604|NCT02382744|184229919|SUPERIORITY_OR_OTHER|||||||0.26||||||Two-sided P-value|Fisher Exact|||"This contingency-table type analysis (Fisher Exact test) compares the two groups, Ultrasound Guidance and Ultrasound Guidance and Nerve Stimulation, as far as the two categorical outcomes are concerned, incomplete block at 30 minutes post nerve block versus no incomplete block at 30 minutes post nerve block."||||0.26
92171856|NCT03775109|184233318|SUPERIORITY|||||||0.27|||||||ANCOVA|Change in log-transformed serum bilirubin from baseline to day 28. 49 participants were included in this analysis.||||||0.270
92171857|NCT03775109|184233319|SUPERIORITY|||||||0.0349|||||||ANCOVA|ANCOVA model: MELD score at Day 28 = intercept + treatment group indicator + baseline MELD score. 49 patients have data at Day 28 and baseline.||||||0.03490
92425304|NCT02955797|184738173|NON_INFERIORITY|95% CI was stratified on the priming status (meningococcal vaccine naïve or primed monovalent MenC vaccination during infancy) and calculated using the Wald method (normal approximation). Weighted average of the difference over strata was calculated using the Minimal Risk weights with the null variance method. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|2.42|||||TWO_SIDED|95.0|-1.34|6.19||||||Serogroup Y||6.19|-1.34|
92425305|NCT02955797|184738173|NON_INFERIORITY|95% CI was stratified on the priming status (meningococcal vaccine naïve or primed monovalent MenC vaccination during infancy) and calculated using the Wald method (normal approximation). Weighted average of the difference over strata was calculated using the Minimal Risk weights with the null variance method. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|0.458|||||TWO_SIDED|95.0|-4.37|5.28||||||Serogroup W||5.28|-4.37|
92425306|NCT02955797|184738174|NON_INFERIORITY|95% CI of the difference in percentages was computed using the Wilson Score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|1.3|||||TWO_SIDED|95.0|-3.6|6.2||||||Serogroup A||6.2|-3.6|
92425307|NCT02955797|184738174|NON_INFERIORITY|95% CI of the difference in percentages was computed using the Wilson Score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|18.0|||||TWO_SIDED|95.0|13.6|22.8||||||Serogroup C||22.8|13.6|
92425308|NCT02955797|184738174|NON_INFERIORITY|95% CI of the difference in percentages was computed using the Wilson Score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|1.6|||||TWO_SIDED|95.0|-2.76|6.03||||||Serogroup Y||6.03|-2.76|
92425309|NCT02955797|184738174|NON_INFERIORITY|95% CI of the difference in percentages was computed using the Wilson Score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|0.2|||||TWO_SIDED|95.0|-5.85|6.18||||||Serogroup W||6.18|-5.85|
92425310|NCT02955797|184738175|OTHER|95% CI of the ratio of post-vaccination GMTs was stratified on the priming vaccination status (meningococcal vaccine naïve or primed monovalent MenC vaccination) and calculated using an analysis of variance (ANOVA) model of log10-transformed titers.|GMT Ratio|0.819|||||TWO_SIDED|95.0|0.697|0.963||||||Serogroup A||0.963|0.697|
92425311|NCT02955797|184738175|OTHER|95% CI of the ratio of post-vaccination GMTs was stratified on the priming vaccination status (meningococcal vaccine naïve or primed monovalent MenC vaccination) and calculated using an ANOVA model of log10-transformed titers.|GMT Ratio|7.59|||||TWO_SIDED|95.0|6.05|9.52||||||Serogroup C||9.52|6.05|
92425312|NCT02955797|184738175|OTHER|95% CI of the ratio of post-vaccination GMTs was stratified on the priming vaccination status (meningococcal vaccine naïve or primed monovalent MenC vaccination) and calculated using an ANOVA model of log10-transformed titers.|GMT Ratio|1.28|||||TWO_SIDED|95.0|1.09|1.51||||||Serogroup Y||1.51|1.09|
92425313|NCT02955797|184738175|OTHER|95% CI of the ratio of post-vaccination GMTs was stratified on the priming vaccination status (meningococcal vaccine naïve or primed monovalent MenC vaccination) and calculated using an ANOVA model of log10-transformed titers.|GMT Ratio|1.32|||||TWO_SIDED|95.0|1.12|1.56||||||Serogroup W||1.56|1.12|
92425314|NCT02955797|184738176|OTHER||GMT Ratio|1.03|||||TWO_SIDED|95.0|0.85|1.24||||||Serogroup A||1.24|0.85|
92425315|NCT02955797|184738176|OTHER||GMT Ratio|16.5|||||TWO_SIDED|95.0|13.4|20.4||||||Serogroup C||20.4|13.4|
92425316|NCT02955797|184738176|OTHER||GMT Ratio|1.18|||||TWO_SIDED|95.0|0.97|1.44||||||Serogroup Y||1.44|0.97|
92425317|NCT02955797|184738176|OTHER||GMT Ratio|1.34|||||TWO_SIDED|95.0|1.1|1.63||||||Serogroup W||1.63|1.1|
92425318|NCT02955797|184738177|OTHER||GMT Ratio|0.496|||||TWO_SIDED|95.0|0.367|0.672||||||Serogroup A||0.672|0.367|
92425319|NCT02955797|184738177|OTHER||GMT Ratio|1.34|||||TWO_SIDED|95.0|0.814|2.19||||||Serogroup C||2.19|0.814|
92425320|NCT02955797|184738177|OTHER||GMT Ratio|1.53|||||TWO_SIDED|95.0|1.15|2.04||||||Serogroup Y||2.04|1.15|
92425321|NCT02955797|184738177|OTHER||GMT Ratio|1.29|||||TWO_SIDED|95.0|0.944|1.75||||||Serogroup W||1.75|0.944|
92425322|NCT01898208|184738215|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED||||||Kruskal-Wallis|||For Vancomycin, all patients||||0.92
92425323|NCT01898208|184738215|SUPERIORITY_OR_OTHER|||||||0.032|TWO_SIDED||||||Kruskal-Wallis|||For vancomycin, organisms not requiring vancomycin.||||0.032
92425324|NCT01898208|184738215|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Kruskal-Wallis|||For vancomycin-susceptible enterococci||||0.037
92425325|NCT01898208|184738215|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Kruskal-Wallis|||For vancomycin, methicillin-susceptible Staphylococcus aureus.||||0.2
92425326|NCT01898208|184738215|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Kruskal-Wallis|||For nafcillin, oxacillin, or cefazolin.||||0.035
92425327|NCT01898208|184738215|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Kruskal-Wallis|||For piperacillin-tazobactam.||||0.012
92425328|NCT01898208|184738215|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Kruskal-Wallis|||For cefepime.||||0.56
92425329|NCT01898208|184738216|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Kruskal-Wallis|||This analysis compares the 3 groups.||||0.55
92425330|NCT01898208|184738217|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Kruskal-Wallis|||For time to first appropriate de-escalation comparing the 3 groups.||||<0.0001
92425331|NCT01898208|184738217|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Kruskal-Wallis|||For time to first appropriate escalation comparing the 3 groups.||||0.04
92425332|NCT01898208|184738218|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||Chi-squared|||This analysis compares the 3 groups.||||0.015
92425333|NCT01898208|184738219|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Kruskal-Wallis|||This analysis compares the FilmArray test to control arm.||||<0.0001
92425334|NCT01898208|184738219|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Kruskal-Wallis|||This analysis compares FilmArray plus antimicrobial stewardship to the control arm.||||<0.0001
92425335|NCT01898208|184738220|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||Kruskal-Wallis|||This analysis is to compare the three groups.||||0.79
92170605|NCT02382744|184229920|SUPERIORITY_OR_OTHER||"Median survival ratio"|0.7||||0.12|TWO_SIDED|95.0|0.38|1.31|||Log Rank||"Numerator, group Ultrasound Guidance; denominator, group, Ultrasound Guidance + Nerve Stimulation"|"To assess speed of onset, sensation to pinprick in the distribution of the saphenous nerve was assessed for each patient every 5 min until complete sensory loss was noted, or until 30 min had elapsed. To compare the two groups in speed of onset on the basis of these data, we constructed Kaplan-Meyer survival curves for the times to onset of sensory blockade and compared the underlying time-to-event data with the log-rank test."||1.31|0.38|0.12
92425336|NCT01898208|184738221|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Kruskal-Wallis|||||||0.90
92425337|NCT01898208|184738222|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED||||||Chi-squared|||This analysis is a comparison of the 3 groups.||||0.62
92425338|NCT01898208|184738223|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Kruskal-Wallis|||This analysis compares the three groups.||||0.60
92425339|NCT01898208|184738224|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Fisher Exact|||Comparison of the 3 groups for all-cause mortality.||||0.74
92425340|NCT01898208|184738224|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||Fisher Exact|||Comparison of the 3 groups for attributable mortality.||||0.42
92425341|NCT01898208|184738225|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||Fisher Exact|||This analysis is a comparison across all three groups.||||0.82
92425342|NCT01898208|184738227|SUPERIORITY_OR_OTHER|||||||0.7789|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the 3 arms for total hospitalization costs.||||0.7789
92425343|NCT01898208|184738227|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the 3 arms for laboratory test cost.||||0.0006
92425344|NCT01898208|184738227|SUPERIORITY_OR_OTHER|||||||0.654|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the 3 arms for antimicrobials costs.||||0.6540
92425345|NCT01739361|184738239|SUPERIORITY_OR_OTHER|||||||0.353|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.353
92425346|NCT02719327|184738271|SUPERIORITY||Slope|-2.18||||0.17|TWO_SIDED|95.0|-5.36|0.99||ASL values at 18 months were regressed on treatment group (IPE vs placebo) statistically controlling for age at baseline visit and ASL measured at baseline visit.|Regression, Linear|||The proposed study aims to investigate the effects of 18 months of IPE vs. placebo on regional cerebral blood flow in the bilateral posterior cingulate gyrus as measured by arterial spin-labeling MRI . IPE was hypothesized to improve regional cerebral blood flow over placebo after 18 months.||0.99|-5.36|0.17
92425347|NCT02719327|184738272|SUPERIORITY||Slope|0.11||||0.12|TWO_SIDED|95.0|-0.04|0.25|||Regression, Linear|18 month Beta-amyloid(1-42) was regressed on group (IPE vs placebo) and covariates age at baseline visit and Beta-amyloid(1-42) at baseline visit.|Placebo group is the reference group.|Beta-amyloid(1-42) concentration in CSF was log-transformed prior to analysis to approximate a normal distribution.||0.25|-0.04|.12
92425348|NCT02719327|184738272|SUPERIORITY||Slope|0.045||||0.05|TWO_SIDED|95.0|0.004|0.061|||Regression, Linear|log-transformed 18 month pTau181 was regressed on group (IPE vs placebo) and covariates age at baseline and log-transformed ptau181at baseline visit.|Placebo group is the reference group.|Phosphorylated tau (pTau181) measured in CSF was log-transformed prior to analysis to approximate a normal distribution.||0.061|0.004|0.05
92425349|NCT02719327|184738272|SUPERIORITY||Slope|0.046||||0.07|TWO_SIDED|95.0|-0.0008|0.106||18 months total Tau was regressed on Group (IPE vs placebo) and covariates age at baseline and total Tau at baseline.|Regression, Linear||Placebo group was the reference group.|Total tau was log-transformed prior to analysis to better approximate a normal distribution.||0.106|-0.0008|.07
92425350|NCT02719327|184738273|SUPERIORITY||Slope|0.006||||0.48|TWO_SIDED|95.0|-0.009|0.023|||Linear Mixed Effects model|Covariates included education level, gender, and age at baseline visit.|Placebo group was the reference group.|Four cognitive tests were standardized (baseline mean and standard deviation) prior to averaging to create the ADCS Preclinical Alzheimer Cognitive Composite (ADCS-PACC) score. The final composite score was standardized again using baseline mean and standard deviation (range -3.15 to 3.10). Higher scores indicate better cognitive performance. A linear mixed effects model was used to determine if change in ADCS-PACC composite scores was modified by treatment group.||0.023|-0.009|.48
92425351|NCT00717093|184738277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|||<|0.0001|TWO_SIDED|95.0|1.59|3.58||p-values obtained from logistic regression model including main effects of treatment and center|Regression, Logistic|Missing salivary cotinine values imputed as negative|Odds ratio obtained from logistic regression model including main effects of treatment and center|||3.58|1.59|<0.0001
92425352|NCT00717093|184738278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.0118|TWO_SIDED|95.0|1.12|2.58||p-value obtained from a logistic regression model including the main effects of treatment and center|Regression, Logistic|Missing salivary cotinine values were imputed as negative|Odds Ratio obtained from a logistic regression model including the main effects of treatment and center|Week 26||2.58|1.12|0.0118
92425353|NCT00717093|184738279|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77||||0.0063|TWO_SIDED|95.0|1.17|2.67|||Regression, Logistic|Missing salivary cotinine values were imputed as negative.||||2.67|1.17|0.0063
92425354|NCT00717093|184738280|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.28|||<|0.0001|TWO_SIDED|95.0|1.52|3.41||p-value obtained from a logistic regression model including the main effects of treatment and center|Regression, Logistic|Missing salivary cotinine was imputed as negative|Odds ratio obtained from a logistic regression model including the main effects of treatment and center|Week 12||3.41|1.52|<0.0001
92425355|NCT00717093|184738280|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.0919|TWO_SIDED|95.0|0.94|2.13||p-value obtained from a logistic regression model including the main effects of treatment and center|Regression, Logistic|Missing salivary cotinine was imputed as negative|Odds ratio obtained from a logistic regression model including the main effects of treatment and center|Week 26||2.13|0.94|0.0919
92425356|NCT00418015|184738296|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Log Rank|||Log rank test||||0.54
92425357|NCT00418015|184738297|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Log Rank|||||||0.15
92425358|NCT00418015|184738298|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared, Corrected|||||||0.06
92236518|NCT01894516|184377181|SUPERIORITY||Difference in percentage rates|43.3|||<|0.0001|TWO_SIDED|95.0|28.4|58.2||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||58.2|28.4|< 0.0001
92425359|NCT00418015|184738299|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared, Corrected|||||||0.02
92425360|NCT00418015|184738300|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.23
92425361|NCT00418015|184738300|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.84
92425362|NCT02903355|184738307|SUPERIORITY|||||||0.4385|||||||Fisher Exact|||||||.4385
92425363|NCT02903355|184738308|SUPERIORITY|||||||0.5562|||||||Fisher Exact|||||||.5562
92425364|NCT02903355|184738309|SUPERIORITY|||||||0.5441|||||||Fisher Exact|||||||.5441
92425365|NCT02903355|184738310|SUPERIORITY|||||||0.3666|||||||Fisher Exact|||||||.3666
92425366|NCT02903355|184738311|SUPERIORITY|||||||0.4446|||||||Fisher Exact|||||||.4446
92239778|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|1.7||||||95.0|-3.0|6.4||||||For serotype 5 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||6.4|-3.0|
92425367|NCT02903355|184738312|SUPERIORITY|||||||0.5431|||||||Fisher Exact|||||||.5431
92425368|NCT02903355|184738313|SUPERIORITY|||||||0.7409|||||||Fisher Exact|||||||.7409
92425369|NCT02903355|184738314|SUPERIORITY|||||||0.1597|||||||Fisher Exact|||||||.1597
92425370|NCT02903355|184738315|SUPERIORITY|||||||0.2784|||||||t-test, 1 sided|||||||.2784
92425371|NCT02903355|184738316|SUPERIORITY|||||||0.2303|||||||Fisher Exact|||||||.2303
92425372|NCT01314703|184738339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.85|STANDARD_ERROR_OF_MEAN|0.089|||TWO_SIDED|95.0|2.66|3.02|||ANOVA||ChloraPrep 10 minute abdomen|Hypothesis: ChloraPrep will exceed 3 log 10 reduction for the groin at 10 minutes and 2 log 10 reduction for the abdomen at 10 minutes. The 70% Isopropyl Alcohol was used as a positive control. All calculations were performed after taking the base-10 logarithm of the original values. The model was a mixed model Analysis of Variance (ANOVA).||3.02|2.66|
92425373|NCT01314703|184738339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.038|STANDARD_ERROR_OF_MEAN|0.149|||TWO_SIDED|95.0|3.74|4.33|||ANOVA||ChloraPrep 10 minute groin|Hypothesis: ChloraPrep will exceed 3 log 10 reduction for the groin at 10 minutes and 2 log 10 reduction for the abdomen at 10 minutes. The 70% Isopropyl Alcohol was used as a positive control. All calculations were performed after taking the base-10 logarithm of the original values. The model was a mixed model Analysis of Variance (ANOVA).||4.33|3.74|
92425374|NCT01314703|184738339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.53|STANDARD_ERROR_OF_MEAN|0.089|||TWO_SIDED|95.0|2.36|2.7|||ANOVA||70%Isopropyl Alcohol 10 minute abdomen|Hypothesis: ChloraPrep will exceed 3 log 10 reduction for the groin at 10 minutes and 2 log 10 reduction for the abdomen at 10 minutes. The 70% Isopropyl Alcohol was used as a positive control. All calculations were performed after taking the base-10 logarithm of the original values. The model was a mixed model Analysis of Variance (ANOVA).||2.70|2.36|
92425375|NCT01314703|184738339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.53|STANDARD_ERROR_OF_MEAN|0.149|||TWO_SIDED|95.0|3.24|3.82|||ANOVA||70% Isopropyl Alcohol 10 minute groin|Hypothesis: ChloraPrep will exceed 3 log 10 reduction for the groin at 10 minutes and 2 log 10 reduction for the abdomen at 10 minutes. The 70% Isopropyl Alcohol was used as a positive control. All calculations were performed after taking the base-10 logarithm of the original values. The model was a mixed model Analysis of Variance (ANOVA).||3.82|3.24|
92425376|NCT04195906|184738360|SUPERIORITY||Least Squares Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|1.328||0.877|TWO_SIDED|96.0|-2.46|3.0||The MMRM model includes fixed effect terms for randomized treatment, visit, baseline sodium thiosulfate use, baseline BWAT-CUA score and visit by randomized treatment interaction.|MMRM|MMRM=Mixed model for repeated measures Participant is fitted as random effect and an unstructured variance-covariance matrix is used.||||3.00|-2.46|0.877
92425377|NCT04195906|184738361|SUPERIORITY||Least Squares Mean Difference|11.49|STANDARD_ERROR_OF_MEAN|7.93||0.146|TWO_SIDED|96.0|-4.8|27.78||The MMRM model includes fixed effect terms for randomized treatment, visit, baseline sodium thiosulfate use, baseline Pain VAS and visit by randomized treatment interaction.|MMRM|MMRM: mixed model repeated measures. Participant is fitted as random effect and an unstructured variance-covariance matrix is used.||||27.78|-4.80|0.146
92239779|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-5.8|6.7||||||For serotype 6A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||6.7|-5.8|
92236519|NCT05652660|184377193|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|120.5|||||TWO_SIDED|90.0|104.77|138.59|||||The ratios (and 90% CIs) are expressed as percentages.|Rosuvastatin administered alone as the Reference and ARV-471 coadministered with rosuvastatin as the Test. Natural log transformed Cmax was analyzed using a mixed effect model with treatment as fixed effects and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||138.59|104.77|
92239780|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.8||||||95.0|-3.2|1.2||||||For serotype 7F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.2|-3.2|
92279508|NCT00814320|184462253|SUPERIORITY_OR_OTHER_LEGACY||Poisson|0.025|||<|0.0001|ONE_SIDED|99.0||0.046||Testing the null hypothesis of 1 VASBI/year against a one-sided alternative at the 0.01 level of statistical significance.|Poisson|||For SC Administration of IGIV, 10%, with rHuPH20 after ramp-up, only||0.046||<0.0001
92425378|NCT04195906|184738362|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.237||0.706|TWO_SIDED|96.0|-0.38|0.56||The MMRM model includes fixed effect terms for randomized treatment, visit, baseline sodium thiosulfate use, baseline Pain VAS and visit by randomized treatment interaction.|MMRM|MMRM: mixed model repeated measures. Participant is fitted as random effect and an unstructured variance-covariance matrix is used.||||0.56|-0.38|0.706
92425379|NCT04195906|184738363|SUPERIORITY||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|2.63||0.995|TWO_SIDED|96.0|-5.27|5.24||The MMRM model includes fixed effect terms for randomized treatment, visit, baseline sodium thiosulfate use, baseline Pain VAS and visit by randomized treatment interaction.|MMRM|MMRM: mixed model repeated measures. Participant is fitted as random effect and an unstructured variance-covariance matrix is used.||||5.24|-5.27|0.995
92425380|NCT04195906|184738364|SUPERIORITY||Odds Ratio, log|1.54|STANDARD_ERROR_OF_MEAN|0.498||0.384|TWO_SIDED|95.0|0.58|4.09||This model includes the stratification factor sodium thiosulfate use at baseline and the treatment as covariates|Regression, Logistic|As there is only a measure post-baseline, a logistic regression model was run instead of a generalized estimating equations model.|The odds ratio displayed is the odds ratio of having an improved result of SNF472 versus Placebo. The results 'Worsened', 'Equal', and 'Missing' are combined in one category and it is the reference for the odds ratio calculation.|||4.09|0.58|0.384
92425381|NCT04195906|184738365|SUPERIORITY||Difference in slopes between arms|0.57|STANDARD_ERROR_OF_MEAN|0.68||0.406|TWO_SIDED|95.0|-0.79|1.93||MMRM model includes fixed effect terms for randomized treatment, continuous variables maintenance opioid dose, Week (1 to 12) and Week by randomized treatment interaction. The random coefficients are the intercept and Week as a continuous variable.|MMRM|MMRM: mixed model repeated measures. An unstructured variance-covariance matrix is used||||1.93|-0.79|0.406
92425382|NCT01426438|184738380|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Sign test|Stratified exact Wilcoxon signed rank test. Stratified by screening HDL-C level and statin use within 90 days prior to study entry.||||||0.28
92425383|NCT01426438|184738380|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Sign test|Stratified exact Wilcoxon signed rank test. Stratified by screening HDL-C level and statin use within 90 days prior to study entry.||||||0.19
92425384|NCT02122458|184738394|SUPERIORITY||Mean Difference (Net)|0.448||||0.05|TWO_SIDED|95.0|-8.66|9.56||Given the preliminary nature of this treatment study and the small number of participants the p-value was not adjusted for multiple comparisons.|Mixed Models Analysis|An Adjusted Rank Transform was applied to the data prior to applying the mixed model analyses.||The null hypothesis evaluated by the HHIA was that self-perceived hearing handicap would not reduce from baseline to 6-months post-fitting.||9.56|-8.66|.05
92425385|NCT02122458|184738395|SUPERIORITY|||||||0.05||||||Given the small sample size and the preliminary nature of this study, the p-value was not adjusted for multiple comparisons.|ANOVA|||||||.05
92425386|NCT02833350|184738400|SUPERIORITY||Weighted difference|8.0||||0.2503|TWO_SIDED|95.0|-5.64|21.64|||Cochran-Mantel-Haenszel|||||21.64|-5.64|0.2503
92425387|NCT02833350|184738400|SUPERIORITY||Weighted difference|12.93||||0.0164|TWO_SIDED|95.0|2.37|23.48|||Cochran-Mantel-Haenszel|||||23.48|2.37|0.0164
92279509|NCT06394973|184462321|OTHER||Mean Difference (Final Values)|-0.49||||0.376|TWO_SIDED||||||Mixed Models Analysis|||||||0.376
92425388|NCT02833350|184738400|SUPERIORITY||Weighted difference|20.0||||0.0003|TWO_SIDED|95.0|9.21|30.79|||Cochran-Mantel-Haenszel|||||30.79|9.21|0.0003
92425389|NCT02833350|184738402|SUPERIORITY||Weighted difference|-8.58||||0.1694|TWO_SIDED|95.0|-20.82|3.66|||Cochran-Mantel-Haenszel|||||3.66|-20.82|0.1694
92425390|NCT02833350|184738402|SUPERIORITY||Weighted difference|-1.5||||0.8132||95.0|-13.96|10.95|||Cochran-Mantel-Haenszel|||||10.95|-13.96|0.8132
92425391|NCT02833350|184738403|SUPERIORITY||Weighted difference|13.7||||0.0717|TWO_SIDED|95.0|-1.21|28.61|||Cochran-Mantel-Haenszel|||||28.61|-1.21|0.0717
92425392|NCT02833350|184738407|SUPERIORITY||adjusted difference|-0.11||||0.8504|TWO_SIDED|95.0|-0.45|0.23|||ANCOVA|||Week 1, Day 7||0.23|-0.45|0.8504
92425393|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.04||||0.9884|TWO_SIDED|95.0|-0.28|0.21|||ANCOVA|||At week 1, Day 7||0.21|-0.28|0.9884
92425394|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.06||||0.923|TWO_SIDED|95.0|-0.31|0.18|||ANCOVA|||Week 1 Day 7||0.18|-0.31|0.9230
92425395|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.06||||0.9853|TWO_SIDED|95.0|-0.43|0.31|||ANCOVA|||Week 2, Day 14||0.31|-0.43|0.9853
92425396|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.12||||0.6826|TWO_SIDED|95.0|-0.38|0.15|||ANCOVA|||Week 2, Day 14||0.15|-0.38|0.6826
92425397|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.18||||0.2634|TWO_SIDED|95.0|-0.45|0.08|||ANCOVA|||Week 2, Day 14||0.08|-0.45|0.2634
92425398|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.29||||0.2885|TWO_SIDED|95.0|-0.72|0.14|||ANCOVA|||Week 4, Day 28||0.14|-0.72|0.2885
92425399|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.3||||0.0598|TWO_SIDED|95.0|-0.61|0.01|||ANCOVA|||Week 4, Day 28||0.01|-0.61|0.0598
92425400|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.31||||0.044|TWO_SIDED|95.0|-0.62|-0.01|||ANCOVA|||Week 4, Day 28||-0.01|-0.62|0.0440
92425401|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.28||||0.4271|TWO_SIDED|95.0|-0.76|0.2|||ANCOVA|||Week 8, Day 56||0.20|-0.76|0.4271
92425402|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.31||||0.0969|TWO_SIDED|95.0|-0.66|0.04|||ANCOVA|||Week 8, Day 56||0.04|-0.66|0.0969
92425403|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.33||||0.0612|TWO_SIDED|95.0|-0.68|0.01|||ANCOVA|||Week 8, Day 56||0.01|-0.68|0.0612
92425404|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.36||||0.2079|TWO_SIDED|95.0|-0.84|0.12|||ANCOVA|||Week 12, Day 84||0.12|-0.84|0.2079
92425405|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.57||||0.0003|TWO_SIDED|95.0|-0.92|-0.22|||ANCOVA|||Week 12, Day 84||-0.22|-0.92|0.0003
92425406|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.57||||0.0003|TWO_SIDED|95.0|-0.92|-0.22|||ANCOVA|||Week 12, Day 84||-0.22|-0.92|0.0003
92425407|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|0.58|||<|0.0001|TWO_SIDED|95.0|0.34|0.82|||ANCOVA|||Week 1, Day 7||0.82|0.34|<.0001
92425408|NCT02833350|184738407|SUPERIORITY||Mean Difference (Net)|0.55|||<|0.0001|TWO_SIDED|95.0|0.31|0.8|||ANCOVA|||Week 1, Day 7||0.80|0.31|<0.0001
92425409|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|0.47|||<|0.0001|TWO_SIDED|95.0|0.2|0.74|||ANCOVA|||Week 2, Day 14||0.74|0.20|<.0001
92425410|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|0.4||||0.0009|TWO_SIDED|95.0|0.13|0.66|||ANCOVA|||Week 2, Day 14||0.66|0.13|0.0009
92425411|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|0.56|||<|0.0001|TWO_SIDED|95.0|0.25|0.87|||ANCOVA|||Week 4, Day 28||0.87|0.25|<.0001
92425412|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|0.55|||<|0.0001|TWO_SIDED|95.0|0.24|0.85|||ANCOVA|||Week 4, Day 28||0.85|0.24|<.0001
92425413|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|0.42||||0.0095|TWO_SIDED|95.0|0.08|0.76|||ANCOVA|||Week 8, Day 56||0.76|0.08|0.0095
92236520|NCT05652660|184377194|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|110.56|||||TWO_SIDED|90.0|103.53|118.06|||||The ratios (and 90% CIs) are expressed as percentages.|Rosuvastatin administered alone as the Reference and ARV-471 coadministered with rosuvastatin as the Test. Natural log transformed AUClast was analyzed using a mixed effect model with treatment as fixed effects and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||118.06|103.53|
92279510|NCT06394973|184462321|OTHER||Mean Difference (Final Values)|-0.36||||0.518|TWO_SIDED||||||Mixed Models Analysis|||||||0.518
92279511|NCT01488578|184462324|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92425414|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|0.4||||0.0153|TWO_SIDED|95.0|0.06|0.74|||ANCOVA|||Week 8, Day 56||0.74|0.06|0.0153
92425415|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|0.19||||0.4839|TWO_SIDED|95.0|-0.16|0.54|||ANCOVA|||Week 12, Day 84||0.54|-0.16|0.4839
92425416|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|0.19||||0.5035|TWO_SIDED|95.0|-0.16|0.53|||ANCOVA|||Week 12, Day 84||0.53|-0.16|0.5035
92425417|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.11||||0.4286|TWO_SIDED|95.0|-0.38|0.16|||ANCOVA|||Week 1, Day 7||0.16|-0.38|0.4286
92425418|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.2||||0.1831|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||Week 2, Day 14||0.10|-0.50|0.1831
92425419|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.31||||0.0667|TWO_SIDED|95.0|-0.65|0.02|||ANCOVA|||Week 4, Day 28||0.02|-0.65|0.0667
92425420|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.77|||<|0.0001|TWO_SIDED|95.0|-1.11|-0.42|||ANCOVA|||Week 8, Day 56||-0.42|-1.11|<0.0001
92425421|NCT02833350|184738407|SUPERIORITY||Adjusted Difference|-0.76||||0.0002|TWO_SIDED|95.0|-1.15|-0.38|||ANCOVA|||Week 12, Day 84||-0.38|-1.15|0.0002
92425422|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.18||||0.5807|TWO_SIDED|95.0|-0.55|0.19|||ANCOVA|||Week 1, Day 7||0.19|-0.55|0.5807
92425423|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.12||||0.627|TWO_SIDED|95.0|-0.39|0.14|||ANCOVA|||Week 1, Day 7||0.14|-0.39|0.6270
92425424|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.15||||0.4475|TWO_SIDED|95.0|-0.42|0.12|||ANCOVA|||Week 1, Day 7||0.12|-0.42|0.4475
92425425|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.06||||0.9891|TWO_SIDED|95.0|-0.47|0.35|||ANCOVA|||Week 2, Day 14||0.35|-0.47|0.9891
92425426|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.21||||0.2244|TWO_SIDED|95.0|-0.51|0.08|||ANCOVA|||Week 2, Day 14||0.08|-0.51|0.2244
92425427|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.28||||0.0586|TWO_SIDED|95.0|-0.58|0.01|||ANCOVA|||Week 2, Day 14||0.01|-0.58|0.0586
92425428|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.39||||0.1338|TWO_SIDED|95.0|-0.85|0.08|||ANCOVA|||Week 4, Day 28||0.08|-0.85|0.1338
92425429|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.4||||0.0119|TWO_SIDED|95.0|-0.74|-0.07|||ANCOVA|||Week 4, Day 28||-0.07|-0.74|0.0119
92425430|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.44||||0.0046|TWO_SIDED|95.0|-0.77|-0.11|||ANCOVA|||Week 4, Day 28||-0.11|-0.77|0.0046
92425431|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.31||||0.3943|TWO_SIDED|95.0|-0.82|0.2|||ANCOVA|||Week 8, Day 56||0.20|-0.82|0.3943
92425432|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.37||||0.0526|TWO_SIDED|95.0|-0.74|0.0|||ANCOVA|||Week 8, Day 56||0.00|-0.74|0.0526
92425433|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.39||||0.0365|TWO_SIDED|95.0|-0.76|-0.02|||ANCOVA|||Week 8, Day 56||-0.02|-0.76|0.0365
92425434|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.41||||0.1696|TWO_SIDED|95.0|-0.93|0.11|||ANCOVA|||Week 12, Day 84||0.11|-0.93|0.1696
92425435|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.63||||0.0002|TWO_SIDED|95.0|-1.01|-0.25|||ANCOVA|||Week 12, Day 84||-0.25|-1.01|0.0002
92425436|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.62||||0.0003|TWO_SIDED|95.0|-1.0|-0.24|||ANCOVA|||Week 12, Day 84||-0.24|-1.00|0.0003
92425437|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|0.64|||<|0.0001|TWO_SIDED|95.0|0.37|0.9|||ANCOVA|||Week 1, Day 7||0.90|0.37|<0.0001
92425438|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|0.61|||<|0.0001|TWO_SIDED|95.0|0.34|0.88|||ANCOVA|||Week 1, Day 7||0.88|0.34|<0.0001
92425439|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|0.5||||0.0001|TWO_SIDED|95.0|0.21|0.79|||ANCOVA|||Week 2, Day 14||0.79|0.21|0.0001
92425440|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|0.43||||0.0012|TWO_SIDED|95.0|0.14|0.72|||ANCOVA|||Week 2, Day 14||0.72|0.14|0.0012
92425441|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|0.58|||<|0.0001|TWO_SIDED|95.0|0.25|0.91|||ANCOVA|||Week 4, Day 28||0.91|0.25|<0.0001
92425442|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|0.54||||0.0002|TWO_SIDED|95.0|0.21|0.87|||ANCOVA|||Week 4, Day 28||0.87|0.21|0.0002
92425443|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|0.46||||0.0084|TWO_SIDED|95.0|0.09|0.82|||ANCOVA|||Week 8, Day 56||0.82|0.09|0.0084
92425444|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|0.44||||0.0124|TWO_SIDED|95.0|0.07|0.8|||ANCOVA|||Week 8, Day 56||0.80|0.07|0.0124
92425445|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|0.15||||0.7565|TWO_SIDED|95.0|-0.23|0.52|||ANCOVA|||Week 12, Day 84||0.52|-0.23|0.7565
92236521|NCT00500149|184377228|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 1.5 hours post-dose||||<0.0001
92425446|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|0.16||||0.7158|TWO_SIDED|95.0|-0.22|0.53|||ANCOVA|||Week 12, Day 84||0.53|-0.22|0.7158
92425447|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.22||||0.1368|TWO_SIDED|95.0|-0.52|0.07|||ANCOVA|||Week 1, Day 7||0.07|-0.52|0.1368
92425448|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.28||||0.0974|TWO_SIDED|95.0|-0.62|0.05|||ANCOVA|||Week 2, Day 14||0.05|-0.62|0.0974
92425449|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.38||||0.0479|TWO_SIDED|95.0|-0.76|0.0|||ANCOVA|||Week 4, Day 28||-0.00|-0.76|0.0479
92425450|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.84|||<|0.0001|TWO_SIDED|95.0|-1.22|-0.46|||ANCOVA|||Week 8, Day 56||-0.46|-1.22|<0.0001
92425451|NCT02833350|184738408|SUPERIORITY||Adjusted Difference|-0.83||||0.0001|TWO_SIDED|95.0|-1.24|-0.42|||ANCOVA|||Week 12, Day 84||-0.42|-1.24|0.0001
92425452|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.09||||0.9193|TWO_SIDED|95.0|-0.41|0.24|||ANCOVA|||Week 1, Day 7||0.24|-0.41|0.9193
92425453|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.1||||0.7062|TWO_SIDED|95.0|-0.33|0.14|||ANCOVA|||Week 1, Day 7||0.14|-0.33|0.7062
92425454|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.08||||0.8542|TWO_SIDED|95.0|-0.31|0.16|||ANCOVA|||Week 1, Day 7||0.16|-0.31|0.8542
92425455|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.13||||0.8095|TWO_SIDED|95.0|-0.51|0.24|||ANCOVA|||Week 2, Day 14||0.24|-0.51|0.8095
92279512|NCT01488578|184462327|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.032|TWO_SIDED||||||Chi-squared|||||||=0.032
92425456|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.17||||0.3862|TWO_SIDED|95.0|-0.44|0.11|||ANCOVA|||Week 2, Day 14||0.11|-0.44|0.3862
92425457|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.16||||0.4328|TWO_SIDED|95.0|-0.43|0.12|||ANCOVA|||Week 2, Day 14||0.12|-0.43|0.4328
92425458|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.24||||0.4915|TWO_SIDED|95.0|-0.68|0.2|||ANCOVA|||Week 4, Day 28||0.20|-0.68|0.4915
92425459|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.26||||0.1441|TWO_SIDED|95.0|-0.58|0.06|||ANCOVA|||Week 4, Day 28||0.06|-0.58|0.1441
92425460|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.24||||0.189|TWO_SIDED|95.0|-0.56|0.07|||ANCOVA|||Week 4, Day 28||0.07|-0.56|0.1890
92425461|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.25||||0.5566|TWO_SIDED|95.0|-0.74|-0.24|||ANCOVA|||Week 8, Day 56||-0.24|-0.74|0.5566
92425462|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.32||||0.092|TWO_SIDED|95.0|-0.68|0.04|||ANCOVA|||Week 8, Day 56||0.04|-0.68|0.0920
92425463|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.29||||0.1391|TWO_SIDED|95.0|-0.65|0.06|||ANCOVA|||Week 8, Day 56||0.06|-0.65|0.1391
92425464|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.35||||0.2873|TWO_SIDED|95.0|-0.86|0.17|||ANCOVA|||Week 12, Day 84||0.17|-0.86|0.2873
92425465|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.54||||0.002|TWO_SIDED|95.0|-0.91|-0.16|||ANCOVA|||Week 12, Day 84||-0.16|-0.91|0.0020
92425466|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.54||||0.0016|TWO_SIDED|95.0|-0.92|-0.17|||ANCOVA|||Week 12, Day 84||-0.17|-0.92|0.0016
92425467|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|0.31||||0.005|TWO_SIDED|95.0|0.07|0.55|||ANCOVA|||Week 1, Day 7||0.55|0.07|0.0050
92425468|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|0.33||||0.002|TWO_SIDED|95.0|0.1|0.57|||ANCOVA|||Week 1, Day 7||0.57|0.10|0.0020
92170606|NCT02382744|184229924|SUPERIORITY_OR_OTHER||Difference between means (s)|107.0|||<|0.0001|TWO_SIDED|95.0|61.0|153.0|||t-test, 2 sided|||||153|61|<0.0001
92425469|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|0.35||||0.0082|TWO_SIDED|95.0|0.07|0.62|||ANCOVA|||Week 2, Day 14||0.62|0.07|0.0082
92425470|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|0.35||||0.0056|TWO_SIDED|95.0|0.08|0.63|||ANCOVA|||Week 2, Day 14||0.63|0.08|0.0056
92425471|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|0.5||||0.0004|TWO_SIDED|95.0|0.19|0.82|||ANCOVA|||Week 4, Day 28||0.82|0.19|0.0004
92425472|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|0.52||||0.0002|TWO_SIDED|95.0|0.21|0.84|||ANCOVA|||Week 4, Day 28||0.84|0.21|0.0002
92425473|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|0.34||||0.065|TWO_SIDED|95.0|-0.01|0.69|||ANCOVA|||Week 8, Day 56||0.69|-0.01|0.0650
92425474|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|0.37||||0.0365|TWO_SIDED|95.0|0.02|0.72|||ANCOVA|||Week 8, Day 56||0.72|0.02|0.0365
92425475|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|0.09||||0.9338|TWO_SIDED|95.0|-0.28|0.47|||ANCOVA|||Week 12, Day 84||0.47|-0.28|0.9338
92425476|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|0.09||||0.952|TWO_SIDED|95.0|-0.29|0.46|||ANCOVA|||Week 12, Day 84||0.46|-0.29|0.9520
92425477|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.19||||0.1496|TWO_SIDED|95.0|-0.45|0.07|||ANCOVA|||Week 1, Day 7||0.07|-0.45|0.1496
92425478|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.13||||0.3936|TWO_SIDED|95.0|-0.43|0.17|||ANCOVA|||Week 2, Day 14||0.17|-0.43|0.3936
92425479|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.35||||0.0346|TWO_SIDED|95.0|-0.68|-0.03|||ANCOVA|||Week 4, Day 28||-0.03|-0.68|0.0346
92425480|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.68||||0.0004|TWO_SIDED|95.0|-1.04|-0.31|||ANCOVA|||Week 8, Day 56||-0.31|-1.04|0.0004
92425481|NCT02833350|184738409|SUPERIORITY||Adjusted Difference|-0.73||||0.0003|TWO_SIDED|95.0|-1.11|-0.34|||ANCOVA|||Week 12, Day 84||-0.34|-1.11|0.0003
92425482|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.17||||0.6083|TWO_SIDED|95.0|-0.53|0.19|||ANCOVA|||Week 1, Day 7||0.19|-0.53|0.6083
92425483|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.18||||0.2672|TWO_SIDED|95.0|-0.44|0.08|||ANCOVA|||Week 1, Day 7||0.08|-0.44|0.2672
92425484|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.17||||0.3158|TWO_SIDED|95.0|-0.43|0.09|||ANCOVA|||Week 1, Day 7||0.09|-0.43|0.3158
92425485|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.14||||0.8495|TWO_SIDED|95.0|-0.55|0.28|||ANCOVA|||Week 2, Day 14||0.28|-0.55|0.8495
92236522|NCT00500149|184377228|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 2.5 hours post-dose||||<0.0001
92425486|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.28||||0.0856|TWO_SIDED|95.0|-0.58|0.03|||ANCOVA|||Week 2, Day 14||0.03|-0.58|0.0856
92425487|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.27||||0.1021|TWO_SIDED|95.0|-0.57|0.04|||ANCOVA|||Week 2, Day 14||0.04|-0.57|0.1021
92425488|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.33||||0.2762|TWO_SIDED|95.0|-0.82|0.15|||ANCOVA|||Week 4, Day 28||0.15|-0.82|0.2762
92425489|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.38||||0.0286|TWO_SIDED|95.0|-0.73|-0.03|||ANCOVA|||Week 4, Day 28||-0.03|-0.73|0.0286
92425490|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.38||||0.0274|TWO_SIDED|95.0|-0.73|-0.03|||ANCOVA|||Week 4, Day 28||-0.03|-0.73|0.0274
92425491|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.28||||0.4981|TWO_SIDED|95.0|-0.81|0.24|||ANCOVA|||Week 8, Day 56||0.24|-0.81|0.4981
92425492|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.39||||0.0472|TWO_SIDED|95.0|-0.78|0.0|||ANCOVA|||Week 8, Day 56||-0.00|-0.78|0.0472
92425493|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.36||||0.0753|TWO_SIDED|95.0|-0.75|0.03|||ANCOVA|||Week 8, Day 56||0.03|-0.75|0.0753
92170607|NCT02382744|184229927|SUPERIORITY_OR_OTHER||"Median survival ratio"|0.58||||0.02|TWO_SIDED|95.0|0.37|0.93|||Log Rank||"Numerator, group Ultrasound Guidance; denominator, group, Ultrasound Guidance + Nerve Stimulation"|||0.93|0.37|0.02
92279513|NCT01488578|184462328|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92425494|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.43||||0.1853|TWO_SIDED|95.0|-0.99|0.13|||ANCOVA|||Week 12, Day 84||0.13|-0.99|0.1853
92425495|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.62||||0.0009|TWO_SIDED|95.0|-1.03|-0.21|||ANCOVA|||Week 12, Day 84||-0.21|-1.03|0.0009
92425496|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.62||||0.0008|TWO_SIDED|95.0|-1.03|-0.21|||ANCOVA|||Week 12, Day 84||-0.21|-1.03|0.0008
92425497|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|0.41||||0.0005|TWO_SIDED|95.0|0.15|0.67|||ANCOVA|||Week 1, Day 7||0.67|0.15|0.0005
92425498|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|0.42||||0.0003|TWO_SIDED|95.0|0.16|0.68|||ANCOVA|||Week 1, Day 7||0.68|0.16|0.0003
92425499|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|0.39||||0.006|TWO_SIDED|95.0|0.09|0.69|||ANCOVA|||Week 2, Day 14||0.69|0.09|0.0060
92425500|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|0.4||||0.0039|TWO_SIDED|95.0|0.1|0.7|||ANCOVA|||Week 2, Day 14||0.70|0.10|0.0039
92425501|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|0.53||||0.0007|TWO_SIDED|95.0|0.18|0.88|||ANCOVA|||Week 4, Day 28||0.88|0.18|0.0007
92425502|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|0.53||||0.0007|TWO_SIDED|95.0|0.19|0.88|||ANCOVA|||Week 4, Day 28||0.88|0.19|0.0007
92425503|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|0.39||||0.045|TWO_SIDED|95.0|0.01|0.77|||ANCOVA|||Week 8, Day 56||0.77|0.01|0.0450
92425504|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|0.42||||0.0259|TWO_SIDED|95.0|0.04|0.8|||ANCOVA|||Week 8, Day 56||0.80|0.04|0.0259
92425505|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|0.06||||0.9881|TWO_SIDED|95.0|-0.34|0.46|||ANCOVA|||Week 12, Day 84||0.46|-0.34|0.9881
92425506|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|0.06||||0.9891|TWO_SIDED|95.0|-0.34|0.46|||ANCOVA|||Week 12, Day 84||0.46|-0.34|0.9891
92425507|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.29||||0.0463|TWO_SIDED|95.0|-0.57|0.0|||ANCOVA|||Week 1, Day 7||-0.00|-0.57|0.0463
92425508|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.23||||0.1867|TWO_SIDED|95.0|-0.56|0.11|||ANCOVA|||Week 2, Day 14||0.11|-0.56|0.1867
92425509|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.44||||0.0213|TWO_SIDED|95.0|-0.81|-0.07|||ANCOVA|||Week 4, Day 28||-0.07|-0.81|0.0213
92425510|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.78||||0.0003|TWO_SIDED|95.0|-1.19|-0.37|||ANCOVA|||Week 8. Day 56||-0.37|-1.19|0.0003
92425511|NCT02833350|184738410|SUPERIORITY||Adjusted Difference|-0.82||||0.0002|TWO_SIDED|95.0|-1.24|-0.4|||ANCOVA|||Week 12, Day 84||-0.40|-1.24|0.0002
92425512|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.06|-6.06|1.0000
92425513|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.48|4.3|||Cochran-Mantel-Haenszel|||Week 1, Day 7||4.30|-2.48|0.5976
92425514|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|1.82||||0.3482|TWO_SIDED|95.0|-1.98|5.62|||Cochran-Mantel-Haenszel|||Week 1, Day 7||5.62|-1.98|0.3482
92425515|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|-0.4||||0.8979|TWO_SIDED|95.0|-6.51|5.71|||Cochran-Mantel-Haenszel|||Week 2, Day 14||5.71|-6.51|0.8979
92425516|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|-0.91||||0.5976|TWO_SIDED|95.0|-4.3|2.48|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.48|-4.30|0.5976
92425517|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|0.91||||0.6546|TWO_SIDED|95.0|-3.07|4.89|||Cochran-Mantel-Haenszel|||Week 2, Day 14||4.89|-3.07|0.6546
92425518|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|-0.8||||0.7988|TWO_SIDED|95.0|-6.95|5.35|||Cochran-Mantel-Haenszel|||Week 4 Day 28||5.35|-6.95|0.7988
92425519|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|0.01||||0.9975|TWO_SIDED|95.0|-4.35|4.36|||Cochran-Mantel-Haenszel|||Week 4 Day 28||4.36|-4.35|0.9975
92425520|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|4.55||||0.1185|TWO_SIDED|95.0|-1.16|10.25|||Cochran-Mantel-Haenszel|||Week 4, Day 28||10.25|-1.16|0.1185
92425521|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|-2.4||||0.4765|TWO_SIDED|95.0|-9.01|4.21|||Cochran-Mantel-Haenszel|||Week 8, Day 56||4.21|-9.01|0.4765
92425522|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|4.61||||0.1655|TWO_SIDED|95.0|-1.9|11.12|||Cochran-Mantel-Haenszel|||Week 8, Day 56||11.12|-1.90|0.1655
92425523|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|8.18||||0.0234|TWO_SIDED|95.0|1.11|15.26|||Cochran-Mantel-Haenszel|||Week 8, Day 56||15.26|1.11|0.0234
92279514|NCT01488578|184462329|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92425524|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|3.2||||0.549|TWO_SIDED|95.0|-7.27|13.67|||Cochran-Mantel-Haenszel|||Week 12, Day 84||13.67|-7.27|0.5490
92425525|NCT02833350|184738411|SUPERIORITY||Mean Difference (Net)|15.62||||0.0003|TWO_SIDED|95.0|7.22|24.03|||Cochran-Mantel-Haenszel|||Week 12, Day 84||24.03|7.22|0.0003
92425526|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|10.91||||0.0044|TWO_SIDED|95.0|3.39|18.43|||Cochran-Mantel-Haenszel|||Week 12, Day 84||18.43|3.39|0.0044
92425527|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|2.05||||0.6588|TWO_SIDED|95.0|-7.07|11.18|||Cochran-Mantel-Haenszel|||Week 1, Day 7||11.18|-7.07|0.6588
92425528|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|0.68||||0.8853|TWO_SIDED|95.0|-8.62|9.99|||Cochran-Mantel-Haenszel|||Week 2, Day 14||9.99|-8.62|0.8853
92425529|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|2.05||||0.6564|TWO_SIDED|95.0|-7.0|11.11|||Cochran-Mantel-Haenszel|||Week 4, Day 28||11.11|-7.00|0.6564
92279515|NCT01488578|184462330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92279516|NCT01488578|184462331|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||The Hosmer-Lemeshow Goodness-of-Fit TEST|||||||<0.001
92425530|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|0.68||||0.8853|TWO_SIDED|95.0|-8.62|9.99|||Cochran-Mantel-Haenszel|||Week 8, Day 56||9.99|-8.62|0.8853
92425531|NCT02833350|184738411|SUPERIORITY||Adjusted Difference|11.64||||0.0584|TWO_SIDED|95.0|-0.41|23.7|||Cochran-Mantel-Haenszel|||Week 12, Day 84||23.70|-0.41|0.0584
92425532|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.06|-6.06|1.0000
92425533|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.92|2.92|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.92|-2.92|1.0000
92425534|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.91|2.91|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.91|-2.91|1.0000
92425535|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.06|-6.06|1.0000
92425536|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.92|2.92|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.92|-2.92|1.0000
92425537|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.47|4.28|||Cochran-Mantel-Haenszel|||Week 2, Day 14||4.28|-2.47|0.5976
92425538|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|-0.4||||0.8979|TWO_SIDED|95.0|-6.51|5.71|||Cochran-Mantel-Haenszel|||Week 4, Day 28||5.71|-6.51|0.8979
92279517|NCT01488578|184462333|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.006|TWO_SIDED||||||Chi-squared|||||||=0.006
92279518|NCT01488578|184462334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92279519|NCT01488578|184462335|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.015|TWO_SIDED||||||Chi-squared|||||||=0.015
92425539|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|-0.91||||0.5976|TWO_SIDED|95.0|-4.3|2.48|||Cochran-Mantel-Haenszel|||Week 4 Day 28||2.48|-4.30|0.5976
92425540|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|0.91||||0.6669|TWO_SIDED|95.0|-3.23|5.05|||Cochran-Mantel-Haenszel|||Week 4, Day 28||5.05|-3.23|0.6669
92425541|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|-1.6||||0.6309|TWO_SIDED|95.0|-8.13|4.93|||Cochran-Mantel-Haenszel|||Week 8, Day 56||4.93|-8.13|0.6309
92425542|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|1.83||||0.4473|TWO_SIDED|95.0|-2.9|6.56|||Cochran-Mantel-Haenszel|||Week 8, Day 56||6.56|-2.90|0.4473
92425543|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|2.73||||0.3021|TWO_SIDED|95.0|-2.45|7.91|||Cochran-Mantel-Haenszel|||Week 8, Day 56||7.91|-2.45|0.3021
92425544|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|-1.6||||0.7134|TWO_SIDED|95.0|-10.14|6.94|||Cochran-Mantel-Haenszel|||Week 12, Day 84||6.94|-10.14|0.7134
92425545|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|3.7||||0.2635|TWO_SIDED|95.0|-2.79|10.19|||Cochran-Mantel-Haenszel|||Week 12, Day 84||10.19|-2.79|0.2635
92425546|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|4.55||||0.1749|TWO_SIDED|95.0|-2.02|11.11|||Cochran-Mantel-Haenszel|||Week 12, Day 84||11.11|-2.02|0.1749
92425547|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|2.05||||0.6588|TWO_SIDED|95.0|-7.07|11.18|||Cochran-Mantel-Haenszel|||Week 1, Day 7||11.18|-7.07|0.6588
92425548|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 2 Day 14||8.31|-8.31|1.0000
92170608|NCT02382744|184229930|SUPERIORITY_OR_OTHER|||||||0.0057|||||||Fisher Exact|||"This contingency-table type analysis (Fisher Exact test) compares the two arms, Patients with response to nerve stimulation and Patients with lack response to nerve stimulation, as far as the two categorical outcomes are concerned, block failure at 30 minutes post nerve block versus no block failure at 30 minutes post nerve block."||||0.0057
92170609|NCT01976312|184229956|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92170610|NCT02807779|184229977|SUPERIORITY|||||||0.22||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||"Power calculations were performed based on an expected reproducibility variance of 8% and an effect size of 7% was assumed based on data from pilot studies. It was estimated that 22 subjects/treatment assignment were needed to detect a 7% difference in PWV at a power level of 80%. Assigning a 20% attrition rate due to loss to follow up or index lesion revascularization, the goal enrollment was 27 subjects per arm.~No subjects in the plain balloon angioplasty group had MRI data for analysis."||||0.22
92170611|NCT02807779|184229978|SUPERIORITY|||||||0.64||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||No subjects in the plain balloon angioplasty group had MRI data for analysis.||||0.64
92170612|NCT02807779|184229979|SUPERIORITY|||||||0.95||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||No subjects in the plain balloon angioplasty group had complete MCP-1 data for analysis.||||0.95
92236523|NCT00500149|184377228|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 5.0 hours post-dose||||<0.0001
92279520|NCT01488578|184462336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92425549|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 4, Day 28||8.31|-8.31|1.0000
92170613|NCT02807779|184229980|SUPERIORITY|||||||0.88||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||No subjects in the plain balloon angioplasty group had complete CRP data for analysis.||||0.88
92170614|NCT02807779|184229982|SUPERIORITY|||||||0.055||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||No subjects in the plain balloon angioplasty group had MRI data for analysis.||||.055
92236524|NCT00500149|184377228|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 7.5 hours post-dose||||<0.0001
92170615|NCT02807779|184229983|SUPERIORITY|||||||0.22||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||No subjects in the plain balloon angioplasty group had MRI data for analysis.||||.22
92170616|NCT02807779|184229984|SUPERIORITY|||||||0.81||||||Threshold for statistical significance was p=0.05.|Fisher Exact|||||||0.81
92170617|NCT06546657|184230000|OTHER||Mean Difference (Final Values)|1.74||||0.14|TWO_SIDED|95.0|-0.6|4.0||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||Medium GI vs low GI breakfast meals||4.0|-0.6|0.14
92170618|NCT06546657|184230000|OTHER||Mean Difference (Final Values)|4.4||||0.01|TWO_SIDED|95.0|1.2|7.5|||Linear Mixed Model|||Medium vs high GI breakfast meals||7.5|1.2|0.01
92170619|NCT06546657|184230000|OTHER||Mean Difference (Final Values)|-2.63||||0.12|TWO_SIDED|95.0|-6.0|0.7||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||High GI vs low GI breakfast meals||0.7|-6.0|0.12
92170620|NCT06546657|184230001|OTHER||Mean Difference (Final Values)|0.1815||||0.65|TWO_SIDED||||||Linear Mixed Model|||High GI breakfast meals vs low and medium GI breakfast meals||||0.65
92170621|NCT06546657|184230002|OTHER||Mean Difference (Final Values)|0.431||||0.25|TWO_SIDED|95.0|-0.3|1.2|||Linear Mixed Model|||High glycaemic load breakfast meals vs low and medium glycaemic load meals||1.2|-0.3|0.25
92170622|NCT06546657|184230003|OTHER||Mean Difference (Final Values)|22.0||||0.04|TWO_SIDED|95.0|0.6|44.0|||Linear Mixed Model|||High glycaemic load breakfast meals vs low and medium glycaemic load meals||44|0.6|0.04
92279521|NCT01488578|184462337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92279522|NCT05550532|184462341|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.23|=|0.67|TWO_SIDED|95.0|-2.95|1.9|||Mixed Model for Repeated Measures Model|||||1.90|-2.95|=0.670
92425550|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.31|-8.31|1.0000
92425551|NCT02833350|184738412|SUPERIORITY||Adjusted Difference|1.37||||0.7848|TWO_SIDED|95.0|-8.46|11.2|||Cochran-Mantel-Haenszel|||Week 12, Day 84||11.20|-8.46|0.7848
92425552|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.28|6.28|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.28|-6.28|1.0000
92425553|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.93||||0.5941|TWO_SIDED|95.0|-2.5|4.37|||Cochran-Mantel-Haenszel|||Week 1, Day 7||4.37|-2.50|0.5941
92425554|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.93|2.93|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.93|-2.93|1.0000
92425555|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.17|6.17|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.17|-6.17|1.0000
92170623|NCT06546657|184230004|OTHER||Mean Difference (Final Values)|1.3||||0.01|TWO_SIDED|95.0|0.4|2.1|||Linear Mixed Model|||Breakfast cereals meals vs added protein meals||2.1|0.4|0.01
92170624|NCT06546657|184230006|OTHER|Comparison of diurnal and nocturnal glucose variability (CV%)|Mean Difference (Final Values)|1.7|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92279523|NCT05550532|184462346|SUPERIORITY||Least Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|95.0|-1.13|1.71||||||||1.71|-1.13|
92279524|NCT03390504|184462366|SUPERIORITY||Hazard Ratio (HR)|0.65|||=|0.0031|TWO_SIDED|95.0|0.48|0.86|||Log Rank|||||0.86|0.48|=0.0031
92236525|NCT00500149|184377228|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 10.0 hours post-dose||||<0.0001
92239781|NCT00366548|184383563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-1.3||||||95.0|-3.6|0.3||||||For serotype 19A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||0.3|-3.6|
92425556|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.95|2.95|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.95|-2.95|1.0000
92425557|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.92|2.92|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.92|-2.92|1.0000
92425558|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|-0.43||||0.8929|TWO_SIDED|95.0|-6.62|5.77|||Cochran-Mantel-Haenszel|||Week 4, Day 28||5.77|-6.62|0.8929
92425559|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|-0.13||||0.9424|TWO_SIDED|95.0|-3.78|3.51|||Cochran-Mantel-Haenszel|||Week 4, Day 28||3.51|-3.78|0.9424
92425560|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|-0.94||||0.5927|TWO_SIDED|95.0|-4.4|2.51|||Cochran-Mantel-Haenszel|||Week 4, Day 28||2.51|-4.40|0.5927
92425561|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|-0.46||||0.8788|TWO_SIDED|95.0|-6.31|5.4|||Cochran-Mantel-Haenszel|||Week 8, Day 56||5.40|-6.31|0.8788
92425562|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.87||||0.6876|TWO_SIDED|95.0|-3.36|5.09|||Cochran-Mantel-Haenszel|||Week 8 Day 56||5.09|-3.36|0.6876
92425563|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.97||||0.6656|TWO_SIDED|95.0|-3.42|5.35|||Cochran-Mantel-Haenszel|||Week 8, Day 56||5.35|-3.42|0.6656
92425564|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|-0.46||||0.8787|TWO_SIDED|95.0|-6.34|5.42|||Cochran-Mantel-Haenszel|||Week 12 Day 84||5.42|-6.34|0.8787
92425565|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.74||||0.7101|TWO_SIDED|95.0|-3.17|4.66|||Cochran-Mantel-Haenszel|||Week 12, Day 84||4.66|-3.17|0.7101
92425566|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|3.2||||0.2425|TWO_SIDED|95.0|-2.16|8.55|||Cochran-Mantel-Haenszel|||Week 12, Day 84||8.55|-2.16|0.2425
92239782|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0||||||95.0|-2.1|1.9||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated.||1.9|-2.1|
92425567|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.68|8.68|||Cochran-Mantel-Haenszel|||Week 1, Day 7||8.68|-8.68|1.0000
92425568|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.39|8.39|||Cochran-Mantel-Haenszel|||Week 2 Day 14||8.39|-8.39|1.0000
92425569|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|2.03||||0.6658|TWO_SIDED|95.0|-7.17|11.22|||Cochran-Mantel-Haenszel|||Week 4, Day 28||11.22|-7.17|0.6658
92425570|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.77|8.77|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.77|-8.77|1.0000
92425571|NCT02833350|184738413|SUPERIORITY||Adjusted Difference|6.57||||0.2457|TWO_SIDED|95.0|-4.52|17.66|||Cochran-Mantel-Haenszel|||Week 12, Day 84||17.66|-4.52|0.2457
92425572|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-2.36||||0.496|TWO_SIDED|95.0|-6.73|2.02|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.02|-6.73|0.4960
92425573|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-2.18||||0.2736|TWO_SIDED|95.0|-5.34|0.98|||Cochran-Mantel-Haenszel|||Week 1, Day 7||0.98|-5.34|0.2736
92425574|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-3.08||||0.0608|TWO_SIDED|95.0|-6.26|0.1|||Cochran-Mantel-Haenszel|||Week 1, Day 7||0.10|-6.26|0.0608
92425575|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-1.25||||0.9237|TWO_SIDED|95.0|-6.02|3.52|||Cochran-Mantel-Haenszel|||Week 2, Day 14||3.52|-6.02|0.9237
92425576|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-3.14||||0.0893|TWO_SIDED|95.0|-6.6|0.33|||Cochran-Mantel-Haenszel|||Week 2, Day 14||0.33|-6.60|0.0893
92425577|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-4.07||||0.0138|TWO_SIDED|95.0|-7.51|-0.63|||Cochran-Mantel-Haenszel|||Week 2, Day 14||-0.63|-7.51|0.0138
92425578|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-3.22||||0.3358|TWO_SIDED|95.0|-8.24|1.8|||Cochran-Mantel-Haenszel|||Week 4, Day 28||1.80|-8.24|0.3358
92425579|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-4.57||||0.0078|TWO_SIDED|95.0|-8.2|-0.94|||Cochran-Mantel-Haenszel|||Week 4, Day 28||-0.94|-8.20|0.0078
92425580|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-4.68||||0.0059|TWO_SIDED|95.0|-8.3|-1.06|||Cochran-Mantel-Haenszel|||Week 4, Day 28||-1.06|-8.30|0.0059
92425581|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-2.29||||0.6503|TWO_SIDED|95.0|-7.39|2.8|||Cochran-Mantel-Haenszel|||Week 8, Day 56||2.80|-7.39|0.6503
92425582|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-3.12||||0.1282|TWO_SIDED|95.0|-6.84|0.59|||Cochran-Mantel-Haenszel|||Week 8, Day 56||0.59|-6.84|0.1282
92425583|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-2.94||||0.1675|TWO_SIDED|95.0|-6.65|0.78|||Cochran-Mantel-Haenszel|||Week 8, Day 56||0.78|-6.65|0.1675
92239783|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-1.7|2.6||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated.||2.6|-1.7|
92425584|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-2.94||||0.422|TWO_SIDED|95.0|-7.96|2.09|||Cochran-Mantel-Haenszel|||Week 12, Day 84||2.09|-7.96|0.4220
92425585|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-5.1||||0.0027|TWO_SIDED|95.0|-8.77|-1.42|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-1.42|-8.77|0.0027
92425586|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-5.47||||0.0011|TWO_SIDED|95.0|-9.15|-1.78|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-1.78|-9.15|0.0011
92425587|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|3.21||||0.0455|TWO_SIDED|95.0|0.05|6.37|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.37|0.05|0.0455
92239784|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.4||||||95.0|-2.4|1.1||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.1|-2.4|
92279525|NCT03390504|184462366|SUPERIORITY||Hazard Ratio (HR)|1.16|||=|0.2121|TWO_SIDED|95.0|0.92|1.48|||Stratified log-rank test|||||1.48|0.92|=0.2121
92425588|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|2.31||||0.2309|TWO_SIDED|95.0|-0.87|5.48|||Cochran-Mantel-Haenszel|||Week 1, Day 7||5.48|-0.87|0.2309
92425589|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|3.27||||0.0698|TWO_SIDED|95.0|-0.18|6.72|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.72|-0.18|0.0698
92425590|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|2.33||||0.2851|TWO_SIDED|95.0|-1.09|5.76|||Cochran-Mantel-Haenszel|||Week 2, Day 14||5.76|-1.09|0.2851
92425591|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|4.29||||0.0131|TWO_SIDED|95.0|0.69|7.9|||Cochran-Mantel-Haenszel|||Week 4, Day 28||7.90|0.69|0.0131
92425592|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|4.18||||0.0161|TWO_SIDED|95.0|0.59|7.78|||Cochran-Mantel-Haenszel|||Week 4, Day 28||7.78|0.59|0.0161
92425593|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|3.85||||0.036|TWO_SIDED|95.0|0.18|7.51|||Cochran-Mantel-Haenszel|||Week 8, Day 56||7.51|0.18|0.0360
92425594|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|4.04||||0.0252|TWO_SIDED|95.0|0.37|7.7|||Cochran-Mantel-Haenszel|||Week 8, Day 56||7.70|0.37|0.0252
92425595|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|1.03||||0.9032|TWO_SIDED|95.0|-2.59|4.66|||Cochran-Mantel-Haenszel|||Week 12, Day 84||4.66|-2.59|0.9032
92425596|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|0.66||||0.9791|TWO_SIDED|95.0|-2.97|4.3|||Cochran-Mantel-Haenszel|||Week 12, Day 84||4.30|-2.97|0.9791
92425597|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-3.22||||0.0927|TWO_SIDED|95.0|-6.98|0.54|||Cochran-Mantel-Haenszel|||Week 1, Day 7||0.54|-6.98|0.0927
92425598|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-2.12||||0.3202|TWO_SIDED|95.0|-6.33|2.09|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.09|-6.33|0.3202
92425599|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-4.2||||0.0476|TWO_SIDED|95.0|-8.36|-0.04|||Cochran-Mantel-Haenszel|||Week 4, Day 28||-0.04|-8.36|0.0476
92425600|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-9.93|||<|0.0001|TWO_SIDED|95.0|-14.31|-5.55|||Cochran-Mantel-Haenszel|||Week 8, Day 54||-5.55|-14.31|<0.0001
92425601|NCT02833350|184738414|SUPERIORITY||Adjusted Difference|-8.23||||0.0003|TWO_SIDED|95.0|-12.56|-3.9|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-3.90|-12.56|0.0003
92425602|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.06|-6.06|1.0000
92425603|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.48|4.3|||Cochran-Mantel-Haenszel|||Week 1, Day 7||4.30|-2.48|0.5976
92425604|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.47|4.28|||Cochran-Mantel-Haenszel|||Week 1, Day 7||4.28|-2.47|0.5976
92425605|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.06|-6.06|1.0000
92425606|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.92|2.92|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.92|-2.92|1.0000
92425607|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.91|2.91|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.91|-2.91|1.0000
92425608|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 4, Day 28||6.06|-6.06|1.0000
92425609|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.91||||0.5726|TWO_SIDED|95.0|-2.26|4.09|||Cochran-Mantel-Haenszel|||Week 4, Day 28||4.09|-2.26|0.5726
92425610|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.47|4.28|||Cochran-Mantel-Haenszel|||Week 4, Day 28||4.28|-2.47|0.5976
92425611|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 8, Day 56||6.06|-6.06|1.0000
92425612|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|2.74||||0.1446|TWO_SIDED|95.0|-0.94|6.42|||Cochran-Mantel-Haenszel|||Week 8, Day 56||6.42|-0.94|0.1446
92425613|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|5.45||||0.0286|TWO_SIDED|95.0|0.57|10.34|||Cochran-Mantel-Haenszel|||Week 8, Day 56||10.34|0.57|0.0286
92425614|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|-0.4||||0.8979|TWO_SIDED|95.0|-6.51|5.71|||Cochran-Mantel-Haenszel|||Week 12, Day 84||5.71|-6.51|0.8979
92425615|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|4.57||||0.0708|TWO_SIDED|95.0|-0.39|9.52|||Cochran-Mantel-Haenszel|||Week 12, Day 84||9.52|-0.39|0.0708
92425616|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|5.45||||0.0478|TWO_SIDED|95.0|0.05|10.86|||Cochran-Mantel-Haenszel|||Week 12, Day 84||10.86|0.05|0.0478
92425617|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 1, Day 7||8.31|-8.31|1.0000
92425618|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 2, Day 14||8.31|-8.31|1.0000
92425619|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|2.05||||0.6564|TWO_SIDED|95.0|-7.0|11.11|||Cochran-Mantel-Haenszel|||Week 4, Day 28||11.11|-7.00|0.6564
92425620|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|4.11||||0.3838|TWO_SIDED|95.0|-5.14|13.36|||Cochran-Mantel-Haenszel|||Week 8, Day 56||13.36|-5.14|0.3838
92425621|NCT02833350|184738415|SUPERIORITY||Adjusted Difference|0.68||||0.9009|TWO_SIDED|95.0|-10.1|11.47|||Cochran-Mantel-Haenszel|||Week 12, Day 84||11.47|-10.10|0.9009
92425622|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-2.36||||0.5455|TWO_SIDED|95.0|-7.0|2.27|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.27|-7.00|0.5455
92425623|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-1.97||||0.4114|TWO_SIDED|95.0|-5.3|1.36|||Cochran-Mantel-Haenszel|||Week 1, Day 7||1.36|-5.30|0.4114
92425624|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-2.62||||0.1739|TWO_SIDED|95.0|-5.97|0.72|||Cochran-Mantel-Haenszel|||Week 1, Day 7||0.72|-5.97|0.1739
92239785|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0||||||95.0|-2.1|1.9||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.9|-2.1|
92425625|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-0.94||||0.9761|TWO_SIDED|95.0|-5.93|4.06|||Cochran-Mantel-Haenszel|||Week 2, Week 14||4.06|-5.93|0.9761
92425626|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-3.18||||0.0998|TWO_SIDED|95.0|-6.78|0.41|||Cochran-Mantel-Haenszel|||Week 2, Week 14||0.41|-6.78|0.0998
92425627|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-3.97||||0.0239|TWO_SIDED|95.0|-7.54|-0.39|||Cochran-Mantel-Haenszel|||Week 2, Week 14||-0.39|-7.54|0.0239
92425628|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-3.98||||0.2018|TWO_SIDED|95.0|-9.25|1.3|||Cochran-Mantel-Haenszel|||Week 4, Day 28||1.30|-9.25|0.2018
92425629|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-5.67||||0.0011|TWO_SIDED|95.0|-9.48|-1.87|||Cochran-Mantel-Haenszel|||Week 4, Day 28||-1.87|-9.48|0.0011
92425630|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-5.27||||0.0026|TWO_SIDED|95.0|-9.06|-1.48|||Cochran-Mantel-Haenszel|||Week 4, Day 28||-1.48|-9.06|0.0026
92425631|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-2.47||||0.6336|TWO_SIDED|95.0|-7.84|2.9|||Cochran-Mantel-Haenszel|||Week 8, Day 56||2.90|-7.84|0.6336
92425632|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-3.49||||0.095|TWO_SIDED|95.0|-7.38|0.41|||Cochran-Mantel-Haenszel|||Week 8, Day 56||0.41|-7.38|0.0950
92425633|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-3.18||||0.1451|TWO_SIDED|95.0|-7.06|0.71|||Cochran-Mantel-Haenszel|||Week 8, Day 56||0.71|-7.06|0.1451
92425634|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-3.28||||0.3434|TWO_SIDED|95.0|-8.43|1.87|||Cochran-Mantel-Haenszel|||Week 12, Day 84||1.87|-8.43|0.3434
92425635|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-5.45||||0.0016|TWO_SIDED|95.0|-9.23|-1.68|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-1.68|-9.23|0.0016
92425636|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-5.88||||0.0006|TWO_SIDED|95.0|-9.65|-2.1|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-2.10|-9.65|0.0006
92425637|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|4.64||||0.0025|TWO_SIDED|95.0|1.31|7.96|||Cochran-Mantel-Haenszel|||Week 1, Day 7||7.96|1.31|0.0025
92425638|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|3.98||||0.0129|TWO_SIDED|95.0|0.64|7.32|||Cochran-Mantel-Haenszel|||Week 1, Day 7||7.32|0.64|0.0129
92425639|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|4.04||||0.0206|TWO_SIDED|95.0|0.46|7.62|||Cochran-Mantel-Haenszel|||Week 2, Day 14||7.62|0.46|0.0206
92425640|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|3.26||||0.0841|TWO_SIDED|95.0|-0.3|6.82|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.82|-0.30|0.0841
92425641|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|4.67||||0.0088|TWO_SIDED|95.0|0.91|8.42|||Cochran-Mantel-Haenszel|||Week 4, Day 28||8.42|0.91|0.0088
92425642|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|5.07||||0.0034|TWO_SIDED|95.0|1.34|8.81|||Cochran-Mantel-Haenszel|||Week 4, Day 28||8.81|1.34|0.0034
92425643|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|4.55||||0.0138|TWO_SIDED|95.0|0.71|8.39|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.39|0.71|0.0138
92425644|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|4.85||||0.0073|TWO_SIDED|95.0|1.02|8.69|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.69|1.02|0.0073
92425645|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|1.29||||0.8284|TWO_SIDED|95.0|-2.46|5.03|||Cochran-Mantel-Haenszel|||Week 12, Day 84||5.03|-2.46|0.8284
92425646|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|0.86||||0.9525|TWO_SIDED|95.0|-2.88|4.6|||Cochran-Mantel-Haenszel|||Week 12, Day 84||4.60|-2.88|0.9525
92425647|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-3.22||||0.0856|TWO_SIDED|95.0|-6.91|0.46|||Cochran-Mantel-Haenszel|||Week 1, Day 7||0.46|-6.91|0.0856
92425648|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-2.08||||0.3374|TWO_SIDED|95.0|-6.36|2.2|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.20|-6.36|0.3374
92425649|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-4.24||||0.0534|TWO_SIDED|95.0|-8.53|0.06|||Cochran-Mantel-Haenszel|||Week 4, Day 28||0.06|-8.53|0.0534
92425650|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-10.8|||<|0.0001|TWO_SIDED|95.0|-15.33|-6.32|||Cochran-Mantel-Haenszel|||Week 8, Day 56||-6.32|-15.33|<0.0001
92425651|NCT02833350|184738416|SUPERIORITY||Adjusted Difference|-9.22|||<|0.0001|TWO_SIDED|95.0|-13.63|-4.81|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-4.81|-13.63|<0.0001
92425652|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.06|-6.06|1.0000
92425653|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.48|4.3|||Cochran-Mantel-Haenszel|||Week 1, Day 7||4.30|-2.48|0.5976
92425654|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.91|2.91|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.91|-2.91|1.0000
92425655|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.06|-6.06|1.0000
92425656|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.92|2.92|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.92|-2.92|1.0000
92425657|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.91|2.91|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.91|-2.91|1.0000
92425658|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 4, Day 28||6.06|-6.06|1.0000
92425659|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.91||||0.5726|TWO_SIDED|95.0|-2.26|4.09|||Cochran-Mantel-Haenszel|||Week 4, Day 28||4.09|-2.26|0.5726
92425660|NCT02833350|184738417|SUPERIORITY||Mean Difference (Net)|0.91||||0.5976|TWO_SIDED|95.0|-2.47|4.28|||Cochran-Mantel-Haenszel|||Week 4, Day 28||4.28|-2.47|0.5976
92425661|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 8, Day 56||6.06|-6.06|1.0000
92425662|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|2.74||||0.1446|TWO_SIDED|95.0|-0.94|6.42|||Cochran-Mantel-Haenszel|||Week 8, Day 56||6.42|-0.94|0.1446
92425663|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|3.64||||0.105|TWO_SIDED|95.0|-0.76|8.03|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.03|-0.76|0.1050
92425664|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|-0.4||||0.8979|TWO_SIDED|95.0|-6.51|5.71|||Cochran-Mantel-Haenszel|||Week 12, Day 84||5.71|-6.51|0.8979
92425665|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|3.65||||0.127|TWO_SIDED|95.0|-1.04|8.35|||Cochran-Mantel-Haenszel|||Week 12, Day 84||8.35|-1.04|0.1270
92170625|NCT03725722|184230023|SUPERIORITY||||||<|0.0001||||||"P-values were adjusted for multiple comparisons. Models with adjusted p-value of \<0.025 were stat. sign. diff. from a flat dose-response model.~Model selected: Sigmoid Emax model"|Multiple contrast test|||The primary endpoint was evaluated by determining if there was a dose-response relationship between the change from baseline to Week 8 in EASI score and the dose administered using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed and multiple comparison techniques were used to choose the model(s) likely to present the true underlying dose-response curve.||||<0.0001
92425666|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|5.45||||0.0501|TWO_SIDED|95.0|0.0|10.91|||Cochran-Mantel-Haenszel|||Week 12, Day 84||10.91|-0.00|0.0501
92425667|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 1, Day 7||8.31|-8.31|1.0000
92425668|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 2, Day 14||8.31|-8.31|1.0000
92425669|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|2.05||||0.6564|TWO_SIDED|95.0|-7.0|11.11|||Cochran-Mantel-Haenszel|||Week 4, Day 28||11.11|-7.00|0.6564
92425670|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.31|-8.31|1.0000
92425671|NCT02833350|184738417|SUPERIORITY||Adjusted Difference|0.68||||0.9051|TWO_SIDED|95.0|-10.58|11.95|||Cochran-Mantel-Haenszel|||Week 12, Day 84||11.95|-10.58|0.9051
92425672|NCT00131508|184738434|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change in REE ratio between the placebo and glutamine groups. The study was designed to provide 80% power at an alpha level of 0.05 for this objective. Due to slow accrual, the sample size of 46 participants required to obtain the designed power of the study was not realized.||||0.17
92425673|NCT00131508|184738435|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change of body mass index between the placebo and glutamine groups.||||0.53
92425674|NCT00131508|184738436|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change in red blood cell glutamine between the placebo and glutamine groups.||||0.24
92425675|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline parent reported physical function in the placebo and glutamine groups.||||0.62
92425676|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline parent reported emotional function in the placebo and glutamine groups.||||0.14
92425677|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline parent reported social function in the placebo and glutamine groups.||||0.20
92425678|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline parent reported school function in the placebo and glutamine groups.||||0.62
92425679|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month parent reported physical function in the placebo and glutamine groups.||||0.61
92425680|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month parent reported emotional function in the placebo and glutamine groups.||||0.65
92425681|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month parent reported social function in the placebo and glutamine groups.||||0.55
92425682|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month parent reported school function in the placebo and glutamine groups.||||0.69
92425683|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline patient reported physical function in the placebo and glutamine groups.||||0.82
92425684|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline patient reported emotional function in the placebo and glutamine groups.||||0.99
92425685|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline patient reported social function in the placebo and glutamine groups.||||0.30
92425686|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline patient reported school function in the placebo and glutamine groups.||||0.24
92425687|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month patient reported physical function in the placebo and glutamine groups.||||0.50
92425688|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month patient reported emotional function in the placebo and glutamine groups.||||0.45
92425689|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month patient reported social function in the placebo and glutamine groups.||||0.46
92425690|NCT00131508|184738437|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month patient reported school function in the placebo and glutamine groups.||||0.84
92239786|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-1.2|2.3||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.3|-1.2|
92171858|NCT03775109|184233320|SUPERIORITY||Odds Ratio (OR)|5.088|||||TWO_SIDED|95.0|1.558|16.624|||||Ordinal logistic regression (proportional odds) model. GAHS at day 28 = intercept + treatment group indicator + baseline GAHS measurement. 48 participants have GAHS data at baseline and day 28.|||16.624|1.558|
92171859|NCT03775109|184233321|SUPERIORITY|||||||0.343|||||||ANCOVA|ANCOVA model: mDF score at day 28 = intercept + treatment group indicator + baseline mDF score.||Natural log transformation used for both baseline and day 28 measurements. 49 participants have mDF measurements at baseline and day 28.||||0.343
92239787|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-2.0|2.9||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.9|-2.0|
92239788|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.9||||||95.0|-3.4|1.1||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.1|-3.4|
92425691|NCT00131508|184738438|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in height Z-Score betweeen baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||0.20
92279526|NCT02780661|184462474|OTHER||Least square (LS) mean difference|-0.86||||0.0144|TWO_SIDED|95.0|-1.53|-0.196||Log10 change from baseline in aerobic bacteria microbial count as response variable, treatment and period as fixed effect, participant level and period level pre-treatment microbial count as covariates and participant as random effect.|ANCOVA||Difference is first named treatment minus second named treatment in log10{(count+1)/(baseline+1)} such that a negative difference favors the first named treatment.|H0: There is no treatment difference between daily and weekly product use. H1: There is a treatment difference between daily and weekly product use.||-0.196|-1.530|0.0144
92425692|NCT00131508|184738438|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in height Z-Score betweeen baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||0.81
92425693|NCT00131508|184738438|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||Wilcoxon (Mann-Whitney)|||We tested the null hypothesis that the median difference in height Z-Score betweeen baseline and 12 months differs between the Glutamine and Placebo groups.||||0.70
92425694|NCT00131508|184738439|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in height percentile between baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||0.69
92425695|NCT00131508|184738439|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in height percentile between baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||0.75
92425696|NCT00131508|184738439|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||Wilcoxon (Mann-Whitney)|||We test the null hypothesis that the median difference in height percentile between baseline and 12 months differs between the Glutamine and Placebo groups.||||0.93
92425697|NCT00131508|184738440|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in weight percentile between baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||0.56
92425698|NCT00131508|184738440|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in weight percentile between baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||1.0
92425699|NCT00131508|184738440|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Wilcoxon (Mann-Whitney)|||We test the null hypothesis that the median difference in weight percentile between baseline and 12 months differs between the Glutamine and Placebo groups.||||0.61
92425700|NCT00131508|184738441|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change in pulse rate between the placebo and glutamine groups.||||0.83
92425701|NCT00131508|184738442|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change in hand grip between the placebo and glutamine groups.||||0.40
92425702|NCT02038881|184738495|OTHER||GMT Ratio (Group 1 / Group 2) at Week 4|0.851|||||TWO_SIDED|95.0|0.258|2.8||||||||2.800|0.258|
92425703|NCT02038881|184738495|OTHER||GMT Ratio (Group 1 / Group 2) at Week 6|0.653|||||TWO_SIDED|95.0|0.319|1.333||||||||1.333|0.319|
92425704|NCT02038881|184738495|OTHER||GMT Ratio (Group 1 / Group 2) at Week 30|1.126|||||TWO_SIDED|95.0|0.291|4.352||||||||4.352|0.291|
92425705|NCT02038881|184738495|OTHER||GMT Ratio (Group 1 / Group 2) at Week 56|0.916|||||TWO_SIDED|95.0|0.22|3.819||||||||3.819|0.220|
92425706|NCT02038881|184738495|OTHER||GMT Ratio (Group 3 / Group 1) at Week 4|1.045|||||TWO_SIDED|95.0|0.292|3.741||||||||3.741|0.292|
92425707|NCT02038881|184738495|OTHER||GMT Ratio (Group 3 / Group 1) at Week 6|1.315|||||TWO_SIDED|95.0|0.598|2.892||||||||2.892|0.598|
92425708|NCT02038881|184738496|OTHER||GMT Ratio (Group 1+3 [pooled] / Group 2)|0.762|||||TWO_SIDED|95.0|0.385|1.507||||||||1.507|0.385|
92425709|NCT02038881|184738497|OTHER||GMT Ratio (Group 1 [W6]/ Group 3 [W14)|0.347|||||TWO_SIDED|95.0|0.2|0.603||||||||0.603|0.200|
92425710|NCT02038881|184738497|OTHER||GMT ratio (Group 2 [W6]/ Group 3 [W14])|0.532|||||TWO_SIDED|95.0|0.285|0.992||||||||0.992|0.285|
92425711|NCT02038881|184738498|OTHER||GMT Ratio (Group 3 [W38]/ Group 1 [W30])|4.138|||||TWO_SIDED|95.0|1.241|13.793||||||||13.793|1.241|
92425712|NCT02038881|184738498|OTHER||GMT Ratio (Group 3 [W64]/ Group 1 [W56])|4.608|||||TWO_SIDED|95.0|1.365|15.558||||||||15.558|1.365|
92425713|NCT02038881|184738498|OTHER||GMT Ratio (Group 2 [W30]/ Group 3 [W38])|0.215|||||TWO_SIDED|95.0|0.066|0.699||||||||0.699|0.066|
92425714|NCT02038881|184738498|OTHER||GMT Ratio (Group 2 [W56]/ Group 3 [W64])|0.237|||||TWO_SIDED|95.0|0.072|0.782||||||||0.782|0.072|
92425715|NCT02038881|184738499|OTHER||GMT Ratio (Group 1 / Group 2) at Week 4|0.823|||||TWO_SIDED|95.0|0.333|2.038||||||||2.038|0.333|
92425716|NCT02038881|184738499|OTHER||GMT Ratio (Group 1 / Group 2) at Week 6|0.787|||||TWO_SIDED|95.0|0.41|1.508||||||||1.508|0.410|
92425717|NCT02038881|184738499|OTHER||GMT Ratio (Group 1 / Group 2) at Week 30|0.535|||||TWO_SIDED|95.0|0.187|1.536||||||||1.536|0.187|
92425718|NCT02038881|184738499|OTHER||GMT Ratio (Group 1 / Group 2) at Week 56|0.59|||||TWO_SIDED|95.0|0.203|1.716||||||||1.716|0.203|
92425719|NCT02038881|184738499|OTHER||GMT Ratio (Group 3 / Group 1) at Week 4|2.557|||||TWO_SIDED|95.0|0.972|6.731||||||||6.731|0.972|
92425720|NCT02038881|184738499|OTHER||GMT Ratio (Group 3 / Group 1) at Week 6|1.215|||||TWO_SIDED|95.0|0.612|2.412||||||||2.412|0.612|
92425721|NCT02038881|184738500|OTHER||GMT Ratio (Group 1+3 [pooled] / Group 2)|0.878|||||TWO_SIDED|95.0|0.48|1.606||||||||1.606|0.480|
92425722|NCT02038881|184738501|OTHER||GMT ratio (Group 1 [W6]/ Group 3 [W14)|0.281|||||TWO_SIDED|95.0|0.146|0.542||||||||0.542|0.146|
92425723|NCT02038881|184738501|OTHER||GMT ratio (Group 2 [W6]/ Group 3 [W14])|0.357|||||TWO_SIDED|95.0|0.178|0.718||||||||0.718|0.178|
92425724|NCT02038881|184738502|OTHER||GMT Ratio (Group 3 [W38]/ Group 1 [W30])|6.727|||||TWO_SIDED|95.0|2.493|18.15||||||||18.150|2.493|
92425725|NCT02038881|184738502|OTHER||GMT Ratio (Group 3 [W64]/ Group 1 [W56])|7.275|||||TWO_SIDED|95.0|2.693|19.649||||||||19.649|2.693|
92425726|NCT02038881|184738502|OTHER||GMT Ratio (Group 2 [W30]/ Group 3 [W38])|0.278|||||TWO_SIDED|95.0|0.115|0.672||||||||0.672|0.115|
92236526|NCT00500149|184377228|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 12.0 hours post-dose||||<0.0001
92236527|NCT00500149|184377228|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 13.0 hours post-dose||||<0.0001
92236528|NCT00500149|184377229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 1.5 hours post-dose||||< 0.0001
92236529|NCT00500149|184377229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 2.5 hours post-dose||||<0.0001
92236530|NCT00500149|184377229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 5.0 hours post-dose||||<0.0001
92425727|NCT02038881|184738502|OTHER||GMT Ratio (Group 2 [W56]/ Group 3 [W64])|0.233|||||TWO_SIDED|95.0|0.1|0.541||||||||0.541|0.100|
92425728|NCT02038881|184738503|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 4|-7.6|||||TWO_SIDED|95.0|-34.1|17.9||||||||17.9|-34.1|
92425729|NCT02038881|184738503|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 6|0.0|||||TWO_SIDED|95.0|-16.8|16.3||||||||16.3|-16.8|
92425730|NCT02038881|184738503|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 30|5.1|||||TWO_SIDED|95.0|-24.5|32.6||||||||32.6|-24.5|
92425731|NCT02038881|184738503|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 56|-1.5|||||TWO_SIDED|95.0|-31.5|29.2||||||||29.2|-31.5|
92425732|NCT02038881|184738503|OTHER||Diff in SC rate (Gr 3 - Gr 1) at Week 4|-5.8|||||TWO_SIDED|95.0|-32.8|22.2||||||||22.2|-32.8|
92425733|NCT02038881|184738503|OTHER||Diff in SC rate (Gr 3 - Gr 1) at Week 6|-7.7|||||TWO_SIDED|95.0|-25.1|10.1||||||||10.1|-25.1|
92425734|NCT02038881|184738504|OTHER||Difference in seroconversion rates (%)|-4.3|||||TWO_SIDED|95.0|-15.2|11.6||||||||11.6|-15.2|
92425735|NCT02038881|184738505|OTHER||Diff in SC rate (Gr 1 [W6] - Gr 3 [W14])|0.0|||||TWO_SIDED|95.0|-17.1|13.4||||||||13.4|-17.1|
92425736|NCT02038881|184738505|OTHER||Diff in SC rate (Gr 2 [W6] - Gr 3 [W14])|0.0|||||TWO_SIDED|95.0|-16.2|13.4||||||||13.4|-16.2|
92425737|NCT02038881|184738506|OTHER||Diff in SC rate (Gr3 [W38] - Gr1 [W30])|5.6|||||TWO_SIDED|95.0|-19.6|33.0||||||||33.0|-19.6|
92425738|NCT02038881|184738506|OTHER||Diff in SC rate (Gr3 [W64] - Gr1 [W56])|16.7|||||TWO_SIDED|95.0|-11.0|44.4||||||||44.4|-11.0|
92425739|NCT02038881|184738506|OTHER||Diff in SC rate (Gr2 [W30] - Gr3 [W38])|-10.6|||||TWO_SIDED|95.0|-35.6|14.3||||||||14.3|-35.6|
92236531|NCT00500149|184377229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 7.5 hours post-dose||||<0.0001
92425740|NCT02038881|184738506|OTHER||Diff in SC rate (Gr2 [W56] - Gr3 [W64])|-15.2|||||TWO_SIDED|95.0|-40.5|10.5||||||||10.5|-40.5|
92236532|NCT00500149|184377229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 10.0 hours post-dose||||<0.0001
92236533|NCT00500149|184377229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 12.0 hours post-dose||||<0.001
92425741|NCT02038881|184738507|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 4|-9.6|||||TWO_SIDED|95.0|-38.4|20.3||||||||20.3|-38.4|
92425742|NCT02038881|184738507|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 6|0.0|||||TWO_SIDED|95.0|-16.8|16.3||||||||16.3|-16.8|
92425743|NCT02038881|184738507|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 30|-9.6|||||TWO_SIDED|95.0|-38.4|17.6||||||||17.6|-38.4|
92425744|NCT02038881|184738507|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 56|-6.1|||||TWO_SIDED|95.0|-35.6|23.7||||||||23.7|-35.6|
92425745|NCT02038881|184738507|OTHER||Diff in SC rate (Gr 3 - Gr 1) at Week 4|20.8|||||TWO_SIDED|95.0|-7.7|47.8||||||||47.8|-7.7|
92425746|NCT02038881|184738507|OTHER||Diff in SC rate (Gr 3 - Gr 1) at Week 6|-3.8|||||TWO_SIDED|95.0|-20.5|13.4||||||||13.4|-20.5|
92425747|NCT02038881|184738508|OTHER||Difference in seroconversion rates (%)|-2.2|||||TWO_SIDED|95.0|-12.0|13.2||||||||13.2|-12.0|
92425748|NCT02038881|184738509|OTHER||Diff in SC rate (Gr 1 [W6] - Gr 3 [W14])|0.0|||||TWO_SIDED|95.0|-17.1|13.4||||||||13.4|-17.1|
92425749|NCT02038881|184738509|OTHER||Diff in SC rate (Gr 2 [W6] - Gr 3 [W14])|0.0|||||TWO_SIDED|95.0|-16.2|13.4||||||||13.4|-16.2|
92425750|NCT02038881|184738510|OTHER||Diff in SC rate (Gr3 [W38] - Gr1 [W30])|19.4|||||TWO_SIDED|95.0|-4.5|45.8||||||||45.8|-4.5|
92425751|NCT02038881|184738510|OTHER||Diff in SC rate (Gr3 [W64] - Gr1 [W56])|29.2|||||TWO_SIDED|95.0|5.8|55.4||||||||55.4|5.8|
92425752|NCT02038881|184738510|OTHER||Diff in SC rate (Gr2 [W30] - Gr3 [W38])|-9.8|||||TWO_SIDED|95.0|-33.0|11.7||||||||11.7|-33.0|
92425753|NCT02038881|184738510|OTHER||Diff in SC rate (Gr2 [W56] - Gr3 [W64])|-23.1|||||TWO_SIDED|95.0|-46.7|-1.0||||||||-1.0|-46.7|
92425754|NCT01453725|184738524|SUPERIORITY_OR_OTHER||Difference in Percent vs Placebo|31.2|||<|0.0001|TWO_SIDED|95.0|17.5|43.6||Stratification factors: Baseline evidence of sacroiliitis on magnetic resonance imaging (MRI) and Screening C-reactive protein (CRP) level|Stratified Miettinen and Nurminen Method|||||43.6|17.5|<0.0001
92425755|NCT01453725|184738525|SUPERIORITY_OR_OTHER||Difference in Percent vs Placebo|33.8|||<|0.0001|TWO_SIDED|95.0|20.4|46.1||Stratification factors: Baseline evidence of sacroiliitis on MRI and Screening CRP level|Stratified Miettinen and Nurminen Method|||||46.1|20.4|<0.0001
92171860|NCT03775109|184233322|SUPERIORITY||Mean Difference (Net)|0.083|||||TWO_SIDED|95.0|-0.529|0.696|||||difference = canakinumab - placebo. natural log transformation used.|||0.696|-0.529|
92425756|NCT01453725|184738526|SUPERIORITY_OR_OTHER||Difference in Percent vs Placebo|28.0|||<|0.0001|TWO_SIDED|95.0|14.4|40.6||Stratification factors: Baseline evidence of sacroiliitis on MRI and Screening CRP level|Stratified Miettinen and Nurminen Method|||||40.6|14.4|<0.0001
92425757|NCT01453725|184738527|SUPERIORITY_OR_OTHER||Difference in Percent vs Placebo|15.2||||0.0136|TWO_SIDED|95.0|3.2|27.1||Stratification factors: Baseline evidence of sacroiliitis on MRI and Screening CRP level|Stratified Miettinen and Nurminen Method|||||27.1|3.2|0.0136
92425758|NCT01453725|184738528|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mann-Whitney Test|||||||<0.0001
92425759|NCT03755791|184738544|OTHER||Hazard Ratio (HR)|0.63||||0.0012|TWO_SIDED|99.0|0.44|0.91|||Log Rank|||||0.91|0.44|0.0012
92425760|NCT03755791|184738545|OTHER||Hazard Ratio (HR)|0.99||||0.9056|TWO_SIDED|96.0|0.78|1.24|||Log Rank|||||1.24|0.78|0.9056
92171861|NCT03775109|184233323|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92425761|NCT01254292|184738582|SUPERIORITY_OR_OTHER||single proportion|82.1|||||TWO_SIDED|95.0|77.1|86.5|||||Clopper Pearson Confidence Interval|||86.5|77.1|
92425762|NCT01254292|184738582|SUPERIORITY_OR_OTHER||single proportion|81.9|||||TWO_SIDED|95.0|76.7|86.4|||||Clopper Pearson Confidence Interval|||86.4|76.7|
92425763|NCT02083081|184738613|SUPERIORITY|||||||0.38|||||||generalized estimating equations (GEE)|||||||0.38
92425764|NCT02083081|184738614|SUPERIORITY|||||||0.45|||||||generalized estimating equations (GEE)|||||||0.45
92425765|NCT02083081|184738615|SUPERIORITY|||||||0.96|||||||generalized estimating equations (GEE)|||||||0.96
92425766|NCT01209923|184738641|OTHER|||||||0.001|||||||t-test, 2 sided|Independent t-test||Children BIA was compared to hydrostatic weighing; adults were compared to DEXA.||||0.001
92425767|NCT01033851|184738649|SUPERIORITY_OR_OTHER|||||||0.0366||95.0|||||ANOVA|||A repeated measure ANOVA, with time as the repeated measure, treatment arm as between-subjects factor and CGI-S score as the dependent variable, found a main effect of time (F(1,84)=62.19, p\<0.001) and a significant treatment arm X time interaction (F(1,84)=4.51, p=0.0366).||||0.0366
92425768|NCT04068610|184738654|SUPERIORITY||Odds Ratio (OR)|1.8||||0.3173|TWO_SIDED|95.0|0.6|5.6|||Cochran-Mantel-Haenszel|P-value for comparison of treatment arms obtained from stratified Cochran-Mantel-Haenszel test stratified by the location of the primary tumor.||||5.6|0.6|0.3173
92425769|NCT02586064|184738679|OTHER|||||||0.28|||||||t-test, 1 sided|||Baseline||||0.28
92425770|NCT02586064|184738679|EQUIVALENCE|Confidence interval 95%, equivalence margin \[-7,7\].|Mean Difference (Final Values)|1.52|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|||||||||||||
92425771|NCT02586064|184738679|OTHER|||||||0.87|||||||t-test, 1 sided|||End of Treatment||||0.87
92425772|NCT02586064|184738679|EQUIVALENCE|Confidence interval 95%, equivalence margin \[-7,7\].|Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|||||||||||||
92425773|NCT02586064|184738679|EQUIVALENCE|Equivalence hypothesis was assessed using the confidence intervals for the mean differences compared to margins of equivalence (-7,7). The equivalence hypothesis was examined based on the difference between the amount of change from the baseline to the end of treatment on the CAPS between the two conditions. Confidence interval is -7.0 to 1.9.||||||0.26|||||||t-test, 2 sided|||Change||||0.26
92425774|NCT02586064|184738679|EQUIVALENCE|Confidence interval 95%, equivalence margin \[-7,7\].|Mean Difference (Final Values)|-2.56|STANDARD_ERROR_OF_MEAN|2.25|||TWO_SIDED|||||||||||||
92425775|NCT02586064|184738679|OTHER|||||||0.68|||||||t-test, 1 sided|||3 Month Post Treatment||||0.68
92425776|NCT02586064|184738679|EQUIVALENCE|Confidence interval 95%, equivalence margin \[-7,7\].|Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|3.16|||TWO_SIDED|||||||||||||
92425777|NCT02586064|184738679|OTHER|||||||0.84|||||||t-test, 1 sided|||6 Month Follow Up||||0.84
92425778|NCT02586064|184738679|EQUIVALENCE|Confidence interval 95%, equivalence margin \[-7,7\].|Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|3.05|||TWO_SIDED|||||||||||||
92425779|NCT02586064|184738680|OTHER|||||||0.36|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||Baseline||||0.36
92171862|NCT03775109|184233324|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92171863|NCT03775109|184233325|SUPERIORITY||Cox Proportional Hazard|1.046|||||TWO_SIDED|95.0|0.147|7.424||||||||7.424|0.147|
92425780|NCT02586064|184738680|OTHER|||||||0.34|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||4-Week||||0.34
92425781|NCT02586064|184738680|OTHER|||||||0.43|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||8-Week||||0.43
92425782|NCT02586064|184738680|OTHER|||||||0.09|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||6 Month Post Treatment||||0.09
92425783|NCT02586064|184738680|OTHER|||||||0.41|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||End of Treatment||||0.41
92425784|NCT02586064|184738680|SUPERIORITY|Superiority hypotheses were assessed using the confidence interval for the mean differences (-0.33 to 0.20) compared to margin of superiority (-.05).||||||0.64|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||Change||||0.64
92425785|NCT02586064|184738680|OTHER|||||||0.22|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||3 Month Post Treatment||||0.22
92425786|NCT02586064|184738681|OTHER|||||||0.4|||||||t-test, 1 sided|||Baseline||||0.40
92425787|NCT02586064|184738681|OTHER|||||||0.65|||||||t-test, 1 sided|||End of Treatment||||0.65
92425788|NCT02586064|184738681|OTHER|||||||0.64|||||||t-test, 1 sided|||Change||||0.64
92425789|NCT02586064|184738681|OTHER|||||||0.64|||||||t-test, 1 sided|||3 Month Post Treatment||||0.64
92425790|NCT02586064|184738681|OTHER|||||||0.76|||||||t-test, 1 sided|||6 Month Post Treatment||||0.76
92425791|NCT02586064|184738682|OTHER|||||||0.11|||||||t-test, 1 sided|||Baseline||||0.11
92425792|NCT02586064|184738682|OTHER|||||||0.48|||||||t-test, 1 sided|||4-Week||||0.48
92425793|NCT02586064|184738682|OTHER|||||||0.74|||||||t-test, 1 sided|||8-Week||||0.74
92425794|NCT02586064|184738682|OTHER|||||||0.34|||||||t-test, 1 sided|||End of Treatment||||0.34
92425795|NCT02586064|184738682|OTHER|||||||0.65|||||||t-test, 1 sided|||Change||||0.65
92425796|NCT02586064|184738682|OTHER|||||||0.14|||||||t-test, 1 sided|||3 Month Post Treatment||||0.14
92279527|NCT02780661|184462475|OTHER||LS mean difference|-0.48||||0.1879|TWO_SIDED|95.0|-1.23|0.261||Log10 change from baseline in anaerobic bacteria microbial count as response variable, treatment and period as fixed effect, participant level and period level pre-treatment microbial count as covariates and participant as random effect.|ANCOVA||Difference is first named treatment minus second named treatment in log10{(count+1)/(baseline+1)} such that a negative difference favors the first named treatment.|H0: There is no treatment difference between daily and weekly product use. H1: There is a treatment difference between daily and weekly product use.||0.261|-1.230|0.1879
92279528|NCT01691508|184462481|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39||||0.008|TWO_SIDED|95.0|1.25|4.56|||Proportional odds model|||||4.56|1.25|0.008
92425797|NCT02586064|184738682|OTHER|||||||0.18|||||||t-test, 1 sided|||6 Month Post Treatment||||0.18
92425798|NCT02586064|184738683|OTHER|||||||0.08|||||||t-test, 1 sided|||Baseline||||0.08
92425799|NCT02586064|184738683|OTHER|||||||0.07|||||||t-test, 1 sided|||End of Treatment||||0.07
92425800|NCT02586064|184738683|OTHER|||||||0.86|||||||t-test, 1 sided|||Change||||0.86
92425801|NCT02586064|184738683|OTHER|||||||0.003|||||||t-test, 1 sided|||3 Month Post Treatment||||0.003
92425802|NCT02586064|184738683|OTHER|||||||0.03|||||||t-test, 1 sided|||6 Month Post Treatment||||0.03
92425803|NCT02586064|184738684|OTHER|||||||0.05|||||||t-test, 1 sided|||Baseline||||0.05
92425804|NCT02586064|184738684|OTHER|||||||0.04|||||||t-test, 1 sided|||End of Treatment||||0.04
92425805|NCT02586064|184738684|OTHER|||||||0.86|||||||t-test, 1 sided|||Change||||0.86
92425806|NCT02586064|184738684|OTHER||||||<|0.001|||||||t-test, 1 sided|||3 Month Post Treatment||||<0.001
92425807|NCT02586064|184738684|OTHER|||||||0.16|||||||t-test, 1 sided|||6 Month Post Treatment||||0.16
92425808|NCT02586064|184738685|OTHER|||||||0.45|||||||t-test, 1 sided|||Baseline||||0.45
92425809|NCT02586064|184738685|OTHER|||||||0.71|||||||t-test, 1 sided|||End of Treatment||||0.71
92425810|NCT02586064|184738685|OTHER|||||||0.6|||||||t-test, 1 sided|||Change||||0.60
92425811|NCT02586064|184738685|OTHER|||||||0.13|||||||t-test, 1 sided|||3 Month Post Treatment||||0.13
92425812|NCT02586064|184738685|OTHER|||||||0.8|||||||t-test, 1 sided|||6 Month Post Treatment||||0.80
92425813|NCT02586064|184738686|OTHER|||||||0.35|||||||t-test, 1 sided|||Baseline||||0.35
92425814|NCT02586064|184738686|OTHER|||||||0.11|||||||t-test, 1 sided|||End of Treatment||||0.11
92425815|NCT02586064|184738686|OTHER|||||||0.74|||||||t-test, 1 sided|||Change||||0.74
92425816|NCT02586064|184738686|OTHER|||||||0.03|||||||t-test, 1 sided|||3 Month Post Treatment||||0.03
92425817|NCT02586064|184738686|OTHER|||||||0.22|||||||t-test, 1 sided|||6 Month Post Treatment||||0.22
92425818|NCT02586064|184738687|OTHER|||||||0.39|||||||t-test, 1 sided|||Baseline||||0.39
92425819|NCT02586064|184738687|OTHER|||||||0.15|||||||t-test, 1 sided|||End of Treatment||||0.15
92425820|NCT02586064|184738687|OTHER|||||||0.72|||||||t-test, 1 sided|||Change||||0.72
92425821|NCT02586064|184738687|OTHER|||||||0.04|||||||t-test, 1 sided|||3 Month Post Treatment||||0.04
92425822|NCT02586064|184738687|OTHER|||||||0.19|||||||t-test, 1 sided|||6 Month Post Treatment||||0.19
92425823|NCT02586064|184738688|OTHER|||||||0.33|||||||t-test, 1 sided|||Baseline||||0.33
92425824|NCT02586064|184738688|OTHER|||||||0.11|||||||t-test, 1 sided|||End of Treatment||||0.11
92425825|NCT02586064|184738688|OTHER|||||||0.88|||||||t-test, 1 sided|||Change||||0.88
92425826|NCT02586064|184738688|OTHER|||||||0.06|||||||t-test, 1 sided|||3 Month Post Treatment||||0.06
92425827|NCT02586064|184738688|OTHER|||||||0.56|||||||t-test, 1 sided|||6 Month Post Treatment||||0.56
92425828|NCT02586064|184738689|OTHER|||||||0.16|||||||t-test, 1 sided|||Baseline||||0.16
92425829|NCT02586064|184738689|OTHER|||||||0.06|||||||t-test, 1 sided|||End of Treatment||||0.06
92425830|NCT02586064|184738689|OTHER|||||||0.46|||||||t-test, 1 sided|||Change||||0.46
92425831|NCT02586064|184738689|OTHER|||||||0.001|||||||t-test, 1 sided|||3 Month Post Treatment||||0.001
92425832|NCT02586064|184738689|OTHER|||||||0.002|||||||t-test, 1 sided|||6 Month Post Treatment||||0.002
92425833|NCT02586064|184738690|OTHER|||||||0.24|||||||t-test, 1 sided|||Baseline||||0.24
92425834|NCT02586064|184738690|OTHER|||||||0.81|||||||t-test, 1 sided|||End of Treatment||||0.81
92425835|NCT02586064|184738690|OTHER|||||||0.24|||||||t-test, 1 sided|||Change||||0.24
92425836|NCT02586064|184738691|OTHER|||||||0.41|||||||t-test, 1 sided|||Baseline||||0.41
92425837|NCT02586064|184738691|OTHER|||||||0.21|||||||t-test, 1 sided|||End of Treatment||||0.21
92425838|NCT02586064|184738691|OTHER|||||||0.5|||||||t-test, 1 sided|||Change||||0.50
92425839|NCT02586064|184738692|OTHER|||||||0.7|||||||t-test, 1 sided|||Baseline||||0.70
92425840|NCT02586064|184738692|OTHER|||||||0.96|||||||t-test, 1 sided|||Week 4||||0.96
92425841|NCT02586064|184738692|OTHER|||||||0.59|||||||t-test, 1 sided|||Week 8||||0.59
92425842|NCT02586064|184738692|OTHER|||||||0.61|||||||t-test, 1 sided|||End of Treatment||||0.61
92425843|NCT02586064|184738692|OTHER|||||||0.84|||||||t-test, 1 sided|||Change||||0.84
92425844|NCT02586064|184738692|OTHER|||||||0.3|||||||t-test, 1 sided|||3 Month Follow Up||||0.30
92425845|NCT02586064|184738692|OTHER|||||||0.16|||||||t-test, 1 sided|||6 Month Post Treatment||||0.16
92425846|NCT02728596|184738702|SUPERIORITY||Odds Ratio (OR)|0.44||||0.21|TWO_SIDED|95.0|0.12|1.57|||Regression, Logistic|Adjusted for age group, comorbidity, race, and Hispanic ethnicity.||PP-CSF use in the high risk FN group was compared between the usual care (UC) group (Arm 2) and the intervention group (Arm 3 and 4 combined).||1.57|0.12|0.21
92425847|NCT02728596|184738702|SUPERIORITY||Odds Ratio (OR)|1.18||||0.74|TWO_SIDED|95.0|0.44|3.2|||Regression, Logistic|Adjusted for age, sex, and cancer type.||PP-CSF use in the low risk FN group was compared between the usual care (UC) group (Arm 2) and the intervention group (Arm 3 and 4 combined).||3.20|0.44|0.74
92236534|NCT00500149|184377229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 13.0 hours post-dose||||<0.0001
92425848|NCT02728596|184738702|SUPERIORITY||Odds Ratio (OR)|2.23||||0.17|TWO_SIDED|95.0|0.7|7.08|||Regression, Logistic|Adjusted for age, sex, and cancer type.||PP-CSF use in the intermediate risk FN group was compared between the usual care (UC) group (Arm 2) and the SOE for PP-CSF intervention group (Arm 3).||7.08|0.70|0.17
92425849|NCT02728596|184738702|SUPERIORITY||Odds Ratio (OR)|0.36||||0.094|TWO_SIDED|95.0|0.11|1.19|||Regression, Logistic|Adjusted for age, sex, and cancer type.||PP-CSF use in the intermediate risk FN group was compared between the usual care (UC) group (Arm 2) and the alert against PP-CSF intervention group (Arm 4).||1.19|0.11|0.094
92425850|NCT02728596|184738703|SUPERIORITY||Odds Ratio (OR)|1.49||||0.26|TWO_SIDED|95.0|0.75|2.95|||Regression, Logistic|Adjusted for age.||FN incidence rate in the high risk FN group was compared between the usual care (UC) group (Arm 2) and the intervention group (Arm 3 and 4 combined).||2.95|0.75|0.26
92425851|NCT02728596|184738703|SUPERIORITY||Odds Ratio (OR)|2.0||||0.51|TWO_SIDED|95.0|0.23|18.8|||Regression, Logistic|Adjusted for cancer type.||FN incidence rate in the low risk FN group was compared between the usual care (UC) group (Arm 2) and the intervention group (Arm 3 and 4 combined).||18.80|0.23|0.51
92425852|NCT02728596|184738703|SUPERIORITY||Odds Ratio (OR)|1.09||||0.87|TWO_SIDED|95.0|0.41|2.88|||Regression, Logistic|||FN incidence rate in the intermediate risk FN group was compared between the usual care (UC) group (Arm 2) and the SOE for PP-CSF intervention group (Arm 3).||2.88|0.41|0.87
92425853|NCT02728596|184738703|SUPERIORITY||Odds Ratio (OR)|1.25||||0.68|TWO_SIDED|95.0|0.44|3.57|||Regression, Logistic|||FN incidence rate in the intermediate risk FN group was compared between the usual care (UC) group (Arm 2) and the alert against PP-CSF intervention group (Arm 4).||3.57|0.44|0.68
92425854|NCT02728596|184738704|SUPERIORITY||Odds Ratio (OR)|0.87||||0.74|TWO_SIDED|95.0|0.39|1.95|||Regression, Logistic|Adjusted for cancer type.||||1.95|0.39|0.74
92425855|NCT02728596|184738704|SUPERIORITY||Odds Ratio (OR)|1.09||||0.87|TWO_SIDED|95.0|0.41|2.88|||Regression, Logistic|Adjusted for cancer type.||||2.88|0.41|0.87
92425856|NCT02728596|184738704|SUPERIORITY||Odds Ratio (OR)|1.25||||0.68|TWO_SIDED|95.0|0.44|3.57|||Regression, Logistic|Adjusted for cancer type.||This is comparing the FN incidence rate in the arm randomized to alert against PP-CSF vs usual care in intermediate risk participants.||3.57|0.44|0.68
92425857|NCT04590963|184738716|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.989|TWO_SIDED|95.0|0.66|1.537|||Log Rank|P-value was calculated using stratified log-rank test, adjusted for WHO/ECOG PS (0/1) and number of prior lines of therapy in R/M setting.|HR and CIs were calculated using a stratified Cox proportional hazards model, adjusted for WHO/ECOG PS, and number of lines of prior therapy in R/M setting.|||1.537|0.660|0.989
92425858|NCT04590963|184738717|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.891|TWO_SIDED|95.0|0.704|1.528|||Log Rank|P-value was calculated using stratified log-rank test, adjusted for HPV status, WHO/ECOG PS (0/1) and number of prior lines of therapy in R/M setting.|HR and CIs were calculated using a stratified Cox proportional hazards model, adjusted for HPV status, WHO/ECOG PS, and number of lines of prior therapy in R/M setting.|||1.528|0.704|0.891
92425859|NCT04590963|184738718|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.574|TWO_SIDED|95.0|0.79|1.568|||Log Rank|P-value was calculated using stratified log-rank test, adjusted for WHO/ECOG PS (0/1) and number of prior lines of therapy in R/M setting.|HR and CIs were calculated using a stratified Cox proportional hazards model, adjusted for WHO/ECOG PS, and number of lines of prior therapy in R/M setting.|||1.568|0.790|0.574
92425860|NCT04590963|184738719|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.53|TWO_SIDED|95.0|0.818|1.512|||Log Rank|P-value was calculated using stratified log-rank test, adjusted for HPV status, WHO/ECOG PS (0/1) and number of prior lines of therapy in R/M setting.|HR and CIs were calculated using a stratified Cox proportional hazards model, adjusted for HPV status, WHO/ECOG PS, and number of lines of prior therapy in R/M setting.|||1.512|0.818|0.530
92425861|NCT04590963|184738720|SUPERIORITY||Odds Ratio (OR)|0.56||||0.115|TWO_SIDED|95.0|0.274|1.154|||Regression, Logistic|P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|The analysis was performed using a logistic regression model, with treatment as a covariate and adjusting for WHO/ECOG PS, and number of lines of prior therapy in the R/M setting with 95% CI calculated by profile likelihood.|||1.154|0.274|0.115
92425862|NCT04590963|184738721|SUPERIORITY||Odds Ratio (OR)|0.6||||0.162|TWO_SIDED|95.0|0.297|1.231|||Regression, Logistic|P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|The analysis was performed using a logistic regression model, with treatment as a covariate and adjusting for HPV Status, WHO/ECOG PS, and number of lines of prior therapy in the R/M setting with 95% CI calculated by profile likelihood.|||1.231|0.297|0.162
92239789|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.8||||||95.0|-0.8|3.0||||||For serotype 1 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.0|-0.8|
92239790|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.6||||||95.0|-3.7|4.9||||||For serotype 3 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.9|-3.7|
92239791|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.4||||||95.0|-2.4|1.1||||||For serotype 5 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.1|-2.4|
92239792|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.4||||||95.0|-2.4|1.2||||||For serotype 6A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.2|-2.4|
92425863|NCT04102189|184738850|SUPERIORITY||Treatment difference|-16.75|||<|0.0001|TWO_SIDED|95.0|-20.27|-13.23|||ANCOVA|||Responses were analyzed using an analysis of covariance model with randomized treatment, stratification groups (sex and Tanner stage at baseline) and the interaction between stratification groups as factors and baseline BMI as covariate.||-13.23|-20.27|<.0001
92425864|NCT03319173|184738888|OTHER||Mean Difference (Final Values)|8.24|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|7.79|8.7|||Regression, Linear|||||8.7|7.79|<0.0001
92425865|NCT03319173|184738889|OTHER||Estimate|0.35|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.31|0.39|||Regression, Linear|||||0.39|0.31|<0.0001
92425866|NCT03319173|184738890|OTHER||Estimate|0.46|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.41|0.52|||Regression, Linear|||||0.52|0.41|<0.0001
92425867|NCT03319173|184738891|OTHER||Estimate|0.514|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.47|0.56|||Regression, Linear|||||0.56|0.47|<0.0001
92425868|NCT03319173|184738892|OTHER||Estimate|0.44|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.4|0.49|||Regression, Linear|||||0.49|0.40|<0.0001
92425869|NCT03319173|184738893|OTHER||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.4|0.49|||Estimate|||||0.49|0.40|<0.0001
92425870|NCT03319173|184738894|OTHER||Estimate|0.75|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|0.72|0.78|||Regression, Linear|||||0.78|0.72|<0.0001
92425871|NCT03319173|184738895|OTHER||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.3|0.37|||Estimate|||||0.37|0.30|<0.0001
92425872|NCT03319173|184738896|OTHER||Estimate|0.87|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|0.85|0.88|||Regression, Linear|||||0.88|0.85|<0.0001
92425873|NCT03319173|184738897|OTHER||Estimate|0.87|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|0.85|0.88|||Regression, Linear|||||0.88|0.85|<0.0001
92425874|NCT03319173|184738898|OTHER||Estimate|0.75|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.71|0.8|||Regression, Linear|||||0.80|0.71|<0.0001
92171864|NCT03775109|184233333|SUPERIORITY||Mean Difference (Net)|0.043|||||TWO_SIDED|95.0|-0.235|0.322|||||Difference = Canakinumab - Placebo|||0.322|-0.235|
92425875|NCT03319173|184738899|OTHER||Estimate|0.51|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.47|0.56|||Regression, Linear|||||0.56|0.47|<0.0001
92425876|NCT03319173|184738900|OTHER||Estimate|1.13|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|1.104|1.156|||Regression, Linear|||||1.156|1.104|<0.0001
92425877|NCT03319173|184738901|OTHER||Estimate|1.037|||<|0.0001|TWO_SIDED|95.0|1.025|1.049|||Regression, Linear|||||1.049|1.025|<0.0001
92425878|NCT03319173|184738902|OTHER||Estimate|0.93|STANDARD_ERROR_OF_MEAN|0.008|<|0.0001|TWO_SIDED|95.0|0.91|0.94|||Regression, Linear|||||0.94|0.91|<0.0001
92425879|NCT03319173|184738903|OTHER||Estimate|1.122|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|1.096|1.149|||Regression, Linear|||||1.149|1.096|<0.0001
92425880|NCT00316719|184738929|NON_INFERIORITY_OR_EQUIVALENCE|This is a Non-inferiority Analysis with the margin of -1.0.|Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.309|<|0.001||95.0|-0.94|0.28|||ANCOVA|||||0.28|-0.94|<0.001
92425881|NCT00573183|184738945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.3404|STANDARD_ERROR_OF_MEAN|0.4134|<|0.05|TWO_SIDED|95.0|1.2019|9.2842||95% confidence interval|Mixed Models Analysis|A covariate adjustment was used: average number of days of stimulant use within a 30-day window of assessment from 90 days pre-baseline to baseline.|The STAGE-12 group represented the numerator and TAU represented the reference group/denominator|Mixture model with a logistic part for assessing zero-inflation and a negative binomial part for the over-dispersed count data, with corresponding 95% confidence intervals (CIs) of the odds ratios for logistic part and incidence rate ratios for negative binomial part.||9.2842|1.2019|<0.05
92425882|NCT00573183|184738945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4373|STANDARD_ERROR_OF_MEAN|0.4134|<|0.01|TWO_SIDED|95.0|1.0131|5.8637|||Mixed Models Analysis|||||5.8637|1.0131|<0.01
92425883|NCT00573183|184738946|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical Model - zero-inflated negative binomial random-effects regression|Zero-inflated negative binomial random-e|Statistical Model - zero-inflated negative binomial random-effects regression adjusted for average number of days of pre-baseline attendance||Outcome measure: Number of days of self-reported Self-Help meeting attendance by the Substance Use Calendar (SUC) within a 30-day window of assessment at mid-treatment, end-of-treatment, first, second, third and last follow-ups||||<0.05
92425884|NCT02024529|184739013|SUPERIORITY|||||||0.97||||||Adjusted for baseline WOMAC score|ANCOVA|||||||0.97
92425885|NCT02024529|184739014|SUPERIORITY|||||||0.75||||||Adjusted for baseline WOMAC score|ANCOVA|||||||0.75
92425886|NCT02024529|184739015|SUPERIORITY|||||||0.18|||||||ANCOVA|Adjusted for baseline WOMAC Score.||||||0.18
92425887|NCT02024529|184739016|SUPERIORITY|||||||0.81|||||||ANCOVA|Adjusted for baseline WOMAC Score.||||||0.81
92425888|NCT02642029|184739021|EQUIVALENCE|Tested the null hypothesis of no difference between iTBS and sham TBS on IDT accuracy.|Beta coefficient for timexiTBS interact|-0.099|STANDARD_ERROR_OF_MEAN|0.051||0.51|TWO_SIDED|95.0|-0.1989|0.0002||Significance threshold of p \< 0.05, two-sided.|Mixed Models Analysis|Model included time (pre, post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS).||Conducted a mixed effects analysis, with IDT accuracy as the dependent variable and time (pre, post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) as the independent variables. P-value here is for the iTBS (vs. sham) x time interaction.||.0002|-.1989|0.51
92425889|NCT02642029|184739021|EQUIVALENCE|Tested the null hypothesis of no difference between iTBS and sham TBS on IDT accuracy.|Beta coefficient for timexcTBS interact|-0.0757|STANDARD_ERROR_OF_MEAN|0.052||0.143|TWO_SIDED|95.0|-0.177|0.0256||Significance threshold of p \< 0.05, two-sided.|Mixed Models Analysis|Model included time (pre, post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS).||Conducted a mixed effects analysis, with IDT accuracy as the dependent variable and time (pre, post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) as the independent variables. P-value here is for the cTBS (vs. sham) x time interaction.||.0256|-.1770|0.143
92279529|NCT00395226|184462496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57||||0.284|TWO_SIDED|95.0|-0.47|1.62||The a priori significance threshold level was 0.05 (two-sided)|ANCOVA|The ANCOVA used group as a factor and baseline rosacea severity score as a covariate.|The effect of zinc sulfate treatment on rosacea severity score was estimated with baseline rosacea severity score included in the regression model|"The null hypothesis was no group differences. The alternative hypothesis was that the zinc sulfate arm is superior to placebo arm."||1.62|-0.47|0.2840
92425890|NCT02642029|184739022|EQUIVALENCE|Tested the null hypothesis of no difference between iTBS and sham TBS on N-back accuracy.|Beta coefficient for timexiTBS interact|-0.0446||||0.626|TWO_SIDED|||||Significance threshold was p \< 0.05, two-sided.|Mixed Models Analysis|||"Conducted a generalized linear mixed model fit by maximum likelihood (Laplace Approximation) \['glmerMod' in R\] with binomial (logit) distribution.~N-back accuracy was the dependent variable. Time (pre vs. post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) were the independent variables. P-value here is for the iTBS (vs. sham) x time interaction."||||.626
92425891|NCT02642029|184739022|EQUIVALENCE|Tested the null hypothesis of no difference between cTBS and sham TBS on N-back accuracy.|Beta coefficient for timexcTBS interact|-0.0903||||0.322|TWO_SIDED|||||Significance threshold was p \< 0.05, two-sided.|Mixed Models Analysis|||"Conducted a generalized linear mixed model fit by maximum likelihood (Laplace Approximation) \['glmerMod' in R\] with binomial (logit) distribution.~N-back accuracy was the dependent variable. Time (pre vs. post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) were the independent variables. P-value here is for the cTBS (vs. sham) x time interaction."||||0.322
92425892|NCT02642029|184739023|EQUIVALENCE|Tested the null hypothesis of no difference between iTBS and sham TBS on N-back accuracy.|Beta coefficient for timexiTBS interact|-9.797||||0.1118|TWO_SIDED|||||Significance threshold of p \< 0.05, two-sided|Mixed Models Analysis|||"Conducted a generalized linear mixed model fit by maximum likelihood (Laplace Approximation) \['glmerMod' in R\] with gamma distribution.~N-back reaction time (RT) was the dependent variable. Time (pre vs. post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) were the independent variables. P-value here is for the iTBS (vs. sham) x time interaction."||||0.1118
92425893|NCT02642029|184739023|EQUIVALENCE|Tested the null hypothesis of no difference between cTBS and sham TBS on N-back accuracy.|Beta coefficient for timexcTBS interact|-47.764||||9e-08|TWO_SIDED|||||Significance threshold was p \< 0.05, two-sided.|Mixed Models Analysis|||"Conducted a generalized linear mixed model fit by maximum likelihood (Laplace Approximation) \['glmerMod' in R\] with gamma distribution.~N-back reaction time (RT) was the dependent variable. Time (pre vs. post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) were the independent variables. P-value here is for the cTBS (vs. sham) x time interaction."||||0.00000009
92425894|NCT02642029|184739024|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.91||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||0.910
92170626|NCT03725722|184230023|SUPERIORITY||Mean Difference (Net)|-3.1|||<|0.01|TWO_SIDED|95.0|-5.0|-1.3||The stat. test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. were excluded from the analysis. Likewise for missing data due to COVID-19 pandemic.|Mixed Models Analysis|||"Least square (LS) means were calculated using a mixed model response model (MMRM) on post-baseline responses up to Week 8 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom and the mean modelled as follows:~Change from baseline in EASI = treatment x visit + baseline EASI x visit + region + baseline vIGA-AD.~The primary comparison between each active delgocitinib dose and delgocitinib cream vehicle was at Week 8."||-1.3|-5.0|<0.01
92279530|NCT02059993|184462497|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.0|||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||The sample size was calculated to assess a minimum reduction of 5 ± 5 mm Hg in systolic BPafter CPAP treatment, assuming an alpha error of 5% and a statistical power of 80%.||||<0.05
92279531|NCT02059993|184462498|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
92279532|NCT02655237|184462500|NON_INFERIORITY|The point estimate and 2-sided 95% confidence interval of the difference in the percentage were calculated between Relugolix 40 mg group and leuprorelin group (Relugolix 40 mg group - leuprorelin group), using Farrington and Manning (FM) method. If the lower boundary of the 95% CI was greater or equal to the non-inferiority margin of -15%, then the non-inferiority of Relugolix 40 mg to leuprorelin was concluded.|Difference in percentage|-0.9||||0.0013|TWO_SIDED|95.0|-10.098|8.346|||Farrington and Manning (FM)||Relugolix 40 mg-Leuprorelin|||8.346|-10.098|0.0013
92279533|NCT02655237|184462501|OTHER|The point estimate and 2-sided 95% confidence interval of the difference in the percentage were calculated between relugolix 40 mg group and leuprorelin group, using FM method with the non-inferiority margin of -15%. The confidence interval was presented in a descriptive manner and not for the purpose of statistical inference.|Difference in percentage|32.5|||||TWO_SIDED|95.0|20.953|44.134|||||Relugolix 40 mg-Leuprorelin|||44.134|20.953|
92279534|NCT02655237|184462502|OTHER|The point estimate and 2-sided 95% confidence interval of the difference in the percentage were calculated between relugolix 40 mg group and leuprorelin group, using FM method with the non-inferiority margin of -15%. The confidence interval was presented in a descriptive manner and not for the purpose of statistical inference.|Difference in percentage|-10.6|||||TWO_SIDED|95.0|-18.337|-2.883|||||Relugolix 40 mg-Leuprorelin|||-2.883|-18.337|
92425895|NCT02642029|184739024|OTHER|Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|beta coefficient for depressed mood|0.00071||||0.243|TWO_SIDED|95.0|-0.00048|0.0019|||Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, depressed mood). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00190|-0.00048|0.243
92425896|NCT02642029|184739025|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.83||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||0.830
92425897|NCT02642029|184739025|OTHER||beta coefficient for anxiety|-0.00063||||0.284|TWO_SIDED|95.0|-0.00179|0.00052||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, anxiety). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00052|-0.00179|0.284
92425898|NCT02642029|184739026|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.755||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||0.755
92425899|NCT02642029|184739026|OTHER||beta coefficient for elated mood|-0.0007||||0.317|TWO_SIDED|95.0|-0.00208|0.00067||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, elated mood). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00067|-0.00208|0.317
92425900|NCT02642029|184739027|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.035||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||.035
92425901|NCT02642029|184739027|OTHER||beta coefficient for auditory hallucinat|0.00195||||0.028|TWO_SIDED|95.0|0.00021|0.00369||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, auditory hallucinations). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00369|0.00021|0.028
92425902|NCT02642029|184739028|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.748||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||.748
92425903|NCT02642029|184739028|OTHER||beta coefficient for visual hallucinatio|-0.00039||||0.685|TWO_SIDED|95.0|-0.0023|0.00151||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, visual hallucinations). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00151|-0.00230|0.685
92425904|NCT02642029|184739029|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.02||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||.020
92171865|NCT03775109|184233334|SUPERIORITY||Mean Difference (Net)|-0.13|||||TWO_SIDED|95.0|-0.388|0.127|||||Difference = Canakinumab - Placebo|||0.127|-0.388|
92279535|NCT02655237|184462503|OTHER|The point estimate and 2-sided 95% confidence interval of the difference in the percentage were calculated between relugolix 40 mg group and leuprorelin group, using FM method with the non-inferiority margin of -15%. The confidence interval was presented in a descriptive manner and not for the purpose of statistical inference.|Difference in percentage|-13.3|||||TWO_SIDED|95.0|-21.418|-5.118|||||Relugolix 40 mg-Leuprorelin|||-5.118|-21.418|
92279536|NCT02655237|184462504|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-12.05|||||TWO_SIDED|95.0|-19.778|-4.33|||||Relugolix 40 mg-Leuprorelin|Week 2||-4.330|-19.778|
92171866|NCT03775109|184233335|SUPERIORITY||Odds Ratio (OR)|4.012|||||TWO_SIDED|95.0|0.693|23.219||||||||23.219|0.693|
92425905|NCT02642029|184739029|OTHER||beta coefficient for paranoid ideation|0.0004||||0.597|TWO_SIDED|95.0|-0.00108|0.00188||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, paranoid ideation). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00188|-0.00108|0.597
92425906|NCT02642029|184739030|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.237||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||.237
92425907|NCT02642029|184739030|OTHER||beta coefficient for ideas/del of refere|-0.00142||||0.178|TWO_SIDED|95.0|-0.0035|0.00065||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, ideas/delusions of reference). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00065|-0.00350|0.178
92425908|NCT02642029|184739031|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.33||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||.330
92425909|NCT02642029|184739031|OTHER||beta coefficient for delusions of contro|-0.00038||||0.777|TWO_SIDED|95.0|-0.00305|0.00228||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, delusions of control). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00228|-0.00305|0.777
92425910|NCT00676338|184739042|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority Null Hypotheses: H1: The effect of exenatide is inferior to that of metformin. H2: The effect of exenatide is inferior to that of sitagliptin. H3: The effect of exenatide is inferior to that of pioglitazone. Then, the 3 superiority null hypotheses were tested. Change in HbA1c was analyzed using an MMRM analysis of covariance (ANCOVA) with treatment, baseline HbA1c, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.|Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.09||0.62|TWO_SIDED|98.3|-0.26|0.17||Noninferiority was tested by Bonferroni (margin 0.3%, adjusted significance of 0.0167). Superiority was tested by Hommel (nominal significance level was between 0.0167 and 0.05 depended on the number of noninferiority hypotheses rejected).|Mixed Models Analysis|||Power calculation: A sample of 740 (222 exenatide once weekly, 222 metformin, 148 pioglitazone, and 148 sitagliptin) would provide approximately 90% power to detect a true differences between exenatide once weekly and the 3 comparators: metformin, pioglitazone, and sitagliptin of 0.4%, 0.5%, and 0.5%, respectively in change in HbA1c from baseline to Week 26 with a 2-sided t test at a significance level of 0.05, assuming a common standard deviation of 1.2%.||0.17|-0.26|0.620
92425911|NCT00676338|184739042|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority Null Hypotheses: H1: The effect of exenatide is inferior to that of metformin. H2: The effect of exenatide is inferior to that of sitagliptin. H3: The effect of exenatide is inferior to that of pioglitazone. Then, the 3 superiority null hypotheses were tested. Change in HbA1c was analyzed using an MMRM analysis of covariance (ANCOVA) with treatment, baseline HbA1c, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.|Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.328|TWO_SIDED|98.3|-0.15|0.35||Noninferiority was tested by Bonferroni (margin 0.3%, adjusted significance of 0.0167). Superiority was tested by Hommel (nominal significance level was between 0.0167 and 0.05 depended on the number of noninferiority hypotheses rejected).|Mixed Models Analysis|||Power calculation: A sample of 740 (222 exenatide once weekly, 222 metformin, 148 pioglitazone, and 148 sitagliptin) would provide approximately 90% power to detect a true differences between exenatide once weekly and the 3 comparators: metformin, pioglitazone, and sitagliptin of 0.4%, 0.5%, and 0.5%, respectively in change in HbA1c from baseline to Week 26 with a 2-sided t test at a significance level of 0.05, assuming a common standard deviation of 1.2%.||0.35|-0.15|0.328
92446518|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-1.73|STANDARD_ERROR_OF_MEAN|1.051||0.102|TWO_SIDED|95.0|-3.81|0.35||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 5||0.35|-3.81|0.102
92171867|NCT03775109|184233336|SUPERIORITY||Odds Ratio (OR)|4.543|||||TWO_SIDED|95.0|0.543|38.043||||||||38.043|0.543|
92171868|NCT03775109|184233337|SUPERIORITY||Odds Ratio (OR)|1.745|||||TWO_SIDED|95.0|0.456|6.558||||||||6.558|0.456|
92171869|NCT03775109|184233338|SUPERIORITY||Odds Ratio (OR)|0.977|||||TWO_SIDED|95.0|0.281|3.397||||||||3.397|0.281|
92171870|NCT03775109|184233339|SUPERIORITY||Odds Ratio (OR)|0.768|||||TWO_SIDED|95.0|0.238|2.479||||||||2.479|0.238|
92425912|NCT00676338|184739042|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority Null Hypotheses: H1: The effect of exenatide is inferior to that of metformin. H2: The effect of exenatide is inferior to that of sitagliptin. H3: The effect of exenatide is inferior to that of pioglitazone. Then, the 3 superiority null hypotheses were tested. Change in HbA1c was analyzed using an MMRM analysis of covariance (ANCOVA) with treatment, baseline HbA1c, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.|Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|98.3|-0.62|-0.13||Noninferiority was tested by Bonferroni (margin 0.3%, adjusted significance of 0.0167). Superiority was tested by Hommel (nominal significance level was between 0.0167 and 0.05 depended on the number of noninferiority hypotheses rejected).|Mixed Models Analysis|||Power calculation: A sample of 740 (222 exenatide once weekly, 222 metformin, 148 pioglitazone, and 148 sitagliptin) would provide approximately 90% power to detect a true differences between exenatide once weekly and the 3 comparators: metformin, pioglitazone, and sitagliptin of 0.4%, 0.5%, and 0.5%, respectively in change in HbA1c from baseline to Week 26 with a 2-sided t test at a significance level of 0.05, assuming a common standard deviation of 1.2%.||-0.13|-0.62|<.001
92171871|NCT03743636|184233343|SUPERIORITY||Mean Difference (Final Values)|17.57||||0.0775|ONE_SIDED|90.0|1.77||||Mixed Models Analysis||||||1.77|0.0775
92425913|NCT00676338|184739043|SUPERIORITY_OR_OTHER|||||||0.151|TWO_SIDED|||||No multiple adjustment were done.|Fisher Exact|||||||0.151
92425914|NCT00676338|184739043|SUPERIORITY_OR_OTHER|||||||0.913|TWO_SIDED|||||No multiple adjustment were done.|Fisher Exact|||||||0.913
92425915|NCT00676338|184739043|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||No multiple adjustment were done.|Fisher Exact|||||||<.001
92425916|NCT00676338|184739044|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.19||0.155|TWO_SIDED|95.0|-0.66|0.1||No multiple adjustment were done.|Mixed Models Analysis|||Change in FSG from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline FSG, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.10|-0.66|0.155
92425917|NCT00676338|184739044|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.22||0.153|TWO_SIDED|95.0|-0.12|0.75||No multiple adjustment were done.|Mixed Models Analysis|||Change in FSG from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline FSG, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.75|-0.12|0.153
92425918|NCT00676338|184739044|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.12|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|-1.56|-0.68||No multiple adjustment were done.|Mixed Models Analysis|||Change in FSG from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline FSG, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.68|-1.56|<.001
92425919|NCT00676338|184739045|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.29||0.892|TWO_SIDED|95.0|-0.61|0.53||No multiple adjustment were done.|Mixed Models Analysis|||Change in Body Weight from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline body weight, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.53|-0.61|0.892
92425920|NCT00676338|184739045|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.56|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|-4.21|-2.9||No multiple adjustment were done.|Mixed Models Analysis|||Change in Body Weight from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline body weight, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-2.90|-4.21|<.001
92425921|NCT00676338|184739045|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|-1.92|-0.63||No multiple adjustment were done.|Mixed Models Analysis|||Change in Body Weight from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline body weight, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.63|-1.92|<.001
92425922|NCT00676338|184739046|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.08||0.873|TWO_SIDED|95.0|-0.18|0.15||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting TC from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline TC, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.15|-0.18|0.873
92425923|NCT00676338|184739046|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.52|-0.14||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting TC from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline TC, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.14|-0.52|<.001
92425924|NCT00676338|184739046|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.1||0.022|TWO_SIDED|95.0|-0.41|-0.03||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting TC from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline TC, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.03|-0.41|0.022
92425925|NCT00676338|184739047|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.02||0.004|TWO_SIDED|95.0|-0.09|-0.02||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting HDL from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline HDL, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.02|-0.09|0.004
92171872|NCT03743636|184233344|SUPERIORITY||Mean Difference (Final Values)|3.65||||0.3762|ONE_SIDED|90.0|-11.24||||Mixed Models Analysis||||||-11.24|0.3762
92171873|NCT03743636|184233345|SUPERIORITY||Mean Difference (Final Values)|22.42||||0.0294|ONE_SIDED|90.0|7.31||||Mixed Models Analysis||||||7.31|0.0294
92236535|NCT01157169|184377230|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|110.49|||||TWO_SIDED|90.0|101.67|120.07|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||120.07|101.67|
92236536|NCT01157169|184377231|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.91|||||TWO_SIDED|90.0|99.74|112.45|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||112.45|99.74|
92236537|NCT01157169|184377232|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.97|||||TWO_SIDED|90.0|97.18|111.24|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||111.24|97.18|
92236538|NCT01157169|184377233|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|93.28|||||TWO_SIDED|90.0|85.37|101.93|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.93|85.37|
92425926|NCT00676338|184739047|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|-0.19|-0.11||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting HDL from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline HDL, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.11|-0.19|<.001
92425927|NCT00676338|184739047|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.142|TWO_SIDED|95.0|-0.07|0.01||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting HDL from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline HDL, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.01|-0.07|0.142
92171874|NCT03743636|184233346|SUPERIORITY||Mean Difference (Final Values)|20.63||||0.0336|ONE_SIDED|90.0|6.26||||Mixed Models Analysis||||||6.26|0.0336
92425928|NCT00676338|184739048|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.04||0.657|TWO_SIDED|95.0|0.94|1.1||No multiple adjustment were done.|ANCOVA|||Fasting triglycerides data were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed using ANCOVA model with treatment and country as factors and baseline triglycerides as a covariate.||1.10|0.94|0.657
92425929|NCT00676338|184739048|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.16|STANDARD_ERROR_OF_MEAN|0.05||0.002|TWO_SIDED|95.0|1.06|1.27||No multiple adjustment were done.|ANCOVA|||Fasting triglycerides data were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed using ANCOVA model with treatment and country as factors and baseline triglycerides as a covariate.||1.27|1.06|0.002
92425930|NCT00676338|184739048|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.04|STANDARD_ERROR_OF_MEAN|0.05||0.398|TWO_SIDED|95.0|0.95|1.14||No multiple adjustment were done.|ANCOVA|||Fasting triglycerides data were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed using ANCOVA model with treatment and country as factors and baseline triglycerides as a covariate.||1.14|0.95|0.398
92171875|NCT03743636|184233347|SUPERIORITY||Mean Difference (Final Values)|-1.78||||0.562|ONE_SIDED|90.0|-16.51||||Mixed Models Analysis||||||-16.51|0.5620
92236539|NCT01157169|184377234|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|94.19|||||TWO_SIDED|90.0|87.44|101.46|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.46|87.44|
92239793|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0||||||95.0|-1.7|1.6||||||For serotype 7F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.6|-1.7|
92425931|NCT00676338|184739051|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|1.09||0.201|TWO_SIDED|95.0|-3.52|0.74||No multiple adjustment were done.|Mixed Models Analysis|||Change in Systolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline systolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.74|-3.52|0.201
92171876|NCT03743636|184233348|SUPERIORITY||Mean Difference (Final Values)|-13.93||||0.8797|ONE_SIDED|90.0|-29.15||||Mixed Models Analysis||||||-29.15|0.8797
92171877|NCT03743636|184233349|SUPERIORITY||Mean Difference (Final Values)|2.06||||0.0752|ONE_SIDED|90.0|0.24||||ANCOVA||||||0.24|0.0752
92171878|NCT03743636|184233350|SUPERIORITY||Mean Difference (Final Values)|-7.1||||0.8703|ONE_SIDED|90.0|-15.19||||ANCOVA||||||-15.19|0.8703
92170627|NCT03725722|184230023|SUPERIORITY||Mean Difference (Net)|-3.0|||<|0.05|TWO_SIDED|95.0|-4.8|-1.2||The stat. test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. were excluded from the analysis. Likewise for missing data due to COVID-19 pandemic.|Mixed Models Analysis|||"Least square (LS) means were calculated using a mixed model response model (MMRM) on post-baseline responses up to Week 8 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom and the mean modelled as follows:~Change from baseline in EASI = treatment x visit + baseline EASI x visit + region + baseline vIGA-AD.~The primary comparison between each active delgocitinib dose and delgocitinib cream vehicle was at Week 8."||-1.2|-4.8|<0.05
92170628|NCT03725722|184230023|SUPERIORITY||Mean Difference (Net)|-4.0|||<|0.0001|TWO_SIDED|95.0|-5.8|-2.1||The stat. test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. were excluded from the analysis. Likewise for missing data due to COVID-19 pandemic.|Mixed Models Analysis|||"Least square (LS) means were calculated using a mixed model response model (MMRM) on post-baseline responses up to Week 8 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom and the mean modelled as follows:~Change from baseline in EASI = treatment x visit + baseline EASI x visit + region + baseline vIGA-AD.~The primary comparison between each active delgocitinib dose and delgocitinib cream vehicle was at Week 8."||-2.1|-5.8|<0.0001
92170629|NCT03725722|184230023|SUPERIORITY||Median Difference (Net)|-5.7|||<|0.0001|TWO_SIDED|95.0|-7.5|-3.9||The stat. test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. were excluded from the analysis. Likewise for missing data due to COVID-19 pandemic.|Mixed Models Analysis|||"Least square (LS) means were calculated using a mixed model response model (MMRM) on post-baseline responses up to Week 8 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom and the mean modelled as follows:~Change from baseline in EASI = treatment x visit + baseline EASI x visit + region + baseline vIGA-AD.~The primary comparison between each active delgocitinib dose and delgocitinib cream vehicle was at Week 8."||-3.9|-7.5|<0.0001
92425932|NCT00676338|184739051|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|1.24||0.693|TWO_SIDED|95.0|-1.94|2.93||No multiple adjustment were done.|Mixed Models Analysis|||Change in Systolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline systolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||2.93|-1.94|0.693
92425933|NCT00676338|184739051|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.56|STANDARD_ERROR_OF_MEAN|1.22||0.646|TWO_SIDED|95.0|-1.84|2.96||No multiple adjustment were done.|Mixed Models Analysis|||Change in Systolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline systolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||2.96|-1.84|0.646
92425934|NCT00676338|184739052|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.7||0.61|TWO_SIDED|95.0|-1.02|1.73||No multiple adjustment were done.|Mixed Models Analysis|||Change in Diastolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline diastolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||1.73|-1.02|0.610
92425935|NCT00676338|184739052|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|0.8||0.013|TWO_SIDED|95.0|0.43|3.58||No multiple adjustment were done.|Mixed Models Analysis|||Change in Diastolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline diastolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||3.58|0.43|0.013
92425936|NCT00676338|184739052|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.79||0.946|TWO_SIDED|95.0|-1.6|1.49||No multiple adjustment were done.|Mixed Models Analysis|||Change in Diastolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline diastolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||1.49|-1.60|0.946
92425937|NCT01788046|184739053|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|30.8|||<|0.001|TWO_SIDED|95.0|18.18|52.17|||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel test stratified by screening PTH category (\< 600, ≥ 600 to ≤ 1000, and \> 1000 pg/mL), recent cinacalcet use within 8 weeks before randomization (yes and no), and region (North America and non-North America) was used to compare the primary endpoint of percentage of participants with \> 30% reduction from baseline in PTH during the EAP between etelcalcetide and placebo.||52.17|18.18|< 0.001
92171879|NCT03743636|184233351|SUPERIORITY||Mean Difference (Final Values)|10995.0||||0.1402|ONE_SIDED|90.0|-2078.0||||ANCOVA||||||-2078|0.1402
92425938|NCT01788046|184739054|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|33.92|||<|0.001|TWO_SIDED|95.0|16.35|70.37|||Cochran-Mantel-Haenszel|Stratified by screening PTH category, prior cinacalcet use within 8 weeks prior to randomization, and region.||||70.37|16.35|< 0.001
92425939|NCT01788046|184739055|SUPERIORITY_OR_OTHER||Mean Difference|-71.34|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-77.53|-65.14|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-65.14|-77.53|< 0.001
92425940|NCT01788046|184739056|SUPERIORITY_OR_OTHER||Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-8.38|-6.03|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-6.03|-8.38|< 0.001
92425941|NCT01788046|184739057|SUPERIORITY_OR_OTHER||Mean Difference|-14.58|STANDARD_ERROR_OF_MEAN|2.07|<|0.001|TWO_SIDED|95.0|-18.65|-10.51|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-10.51|-18.65|< 0.001
92236540|NCT01157169|184377235|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.06|||||TWO_SIDED|90.0|86.56|104.39|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||104.39|86.56|
92425942|NCT01788046|184739058|SUPERIORITY_OR_OTHER||Mean Difference|-8.04|STANDARD_ERROR_OF_MEAN|2.09|<|0.001|TWO_SIDED|95.0|-12.15|-3.92|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-3.92|-12.15|< 0.001
92425943|NCT00075218|184739059|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.329|||<|0.001||95.0|0.233|0.466||The nominal levels of significance for the interim and final analyses were determined at the time of the analyses using the Lan-DeMets procedure with an O'Brien-Fleming stopping rule.|Log Rank|two-sided unstratified log-rank test||The study was designed to test the null hypothesis that the median TTP from placebo treatment is 4 months versus the alternative hypothesis that the median TTP from sunitinib treatment is at least 6 months with an overall 2-sided significance level of 0.05 and power of 90%.||0.466|0.233|<0.001
92425944|NCT00075218|184739060|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.347|||<|0.001||95.0|0.253|0.475||No p-value adjustment for multiple comparisons.|Log Rank|||||0.475|0.253|<0.001
92170630|NCT03725722|184230024|SUPERIORITY||||||<|0.0001||||||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Multiple contrast test|"P-values adj. for multiple comparisons. Models with adj. p-value \<0.025 were stat. sign. diff. from a flat dose-response model.~Model: Linear model"||This endpoint was evaluated by determining if there was a dose-response relationship between the vIGA-AD response rate at Week 8 and the dose administered using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed and multiple comparison techniques were used to choose the model(s) most likely to represent the true underlying dose-response.||||<0.0001
92236541|NCT00663858|184377236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.592|STANDARD_ERROR_OF_MEAN|0.662||0.371|TWO_SIDED|95.0|-1.894|0.709|||ANOVA|||||0.709|-1.894|0.371
92236542|NCT00663858|184377236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.711|STANDARD_ERROR_OF_MEAN|0.722||0.3253|TWO_SIDED|95.0|-709.0|2.132|||ANCOVA|||||2.132|-0709|0.3253
92236543|NCT00663858|184377236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.324|STANDARD_ERROR_OF_MEAN|0.62||0.0333|TWO_SIDED|95.0|-2.542|-0.106|||ANCOVA|||||-0.106|-2.542|0.0333
92236544|NCT02940886|184377237|NON_INFERIORITY|Non-inferiority could be claimed if the lower bound of the 95% confidence interval (CI) was above -0.5 g/dL.|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.13|0.13|||||Mixed Model for Repeated Measurement was used for testing and included the fixed categorical effects of treatment, week, treatment-by-week interaction, strata, and the continuous covariates of baseline Hb and baseline Hb-by-week interaction.|"Power:~With N=1000 subjects in the iron isomaltoside/ferric derisomaltose treatment group and with N=500 subjects in the iron sucrose treatment group, assuming no difference between the treatment groups and assuming a common standard deviation (SD) of 1.5 g/dL, the power was 100% for demonstrating non-inferiority of the change in Hb from baseline to week 8, using a non-inferiority margin of -0.5 g/dL.~The significance level was set to 5%."||0.13|-0.13|
92425945|NCT00075218|184739062|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.876||||0.306||95.0|0.679|1.129||No p-value adjustment for multiple comparisons.|Log Rank|||||1.129|0.679|0.306
92425946|NCT00075218|184739063|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.505||||0.306||95.0|0.262|1.134||No p-value adjustment for multiple comparisons.|Rank Preserving Structural Failure Time||95% CI for Hazard Ratio is from 2.5% and 97.5% Empirical Percentiles of 100,000 Bootstraps.|||1.134|0.262|0.306
92425947|NCT00075218|184739065|SUPERIORITY_OR_OTHER||rate (percentage)|6.6||||||95.0|3.8|10.5|||||Used exact method based on binomial distribution.|||10.5|3.8|
92236545|NCT02940886|184377238|OTHER||95% two-sided CI (iron isomaltoside)|0.3|||||TWO_SIDED|95.0|0.06|0.88||||||"Power:~With N=1000 subjects in the iron isomaltoside/ferric derisomaltose, the power was 88% to demonstrate that the upper bound of the 95% CI of the incidence of treatment-emergent serious and/or severe non-serious hypersensitivity AEs was less than 3%.~The significance level was set to 5%."||0.88|0.06|
92236546|NCT02940886|184377238|OTHER||Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.91|0.71||||||Risk difference between iron isomaltoside/ferric derisomaltose and iron sucrose was assessed for the individual trial with 95% Newcombe CI adjusted for stratum using the Cochran-Mantel-Haenszel method.||0.71|-0.91|
92236547|NCT02940886|184377238|NON_INFERIORITY|Non-inferiority can be claimed if the upper bound of the 95% CI is below 1.5 % point.|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.57|0.48||||||Risk difference between iron isomaltoside/ferric derisomaltose and iron sucrose was assessed for the pooled FERWON-IDA and FERWON-NEPHRO trials (2008 subjects treated with iron isomaltoside/ferric derisomaltose and 1000 subjects treated with iron sucrose) with 95% Newcombe CI adjusted for stratum using the Cochran-Mantel-Haenszel method.||0.48|-0.57|
92425948|NCT00075218|184739065|SUPERIORITY_OR_OTHER||Treatment Difference (%)|6.58||||0.004||95.0|3.47|9.7||No p-value adjustment for multiple comparisons.|Pearson chi-square test|||||9.70|3.47|0.004
92425949|NCT00075218|184739068|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.339|||<|0.001||95.0|0.244|0.472||two-sided unstratified log-rank test|Log Rank|||||0.472|0.244|<0.001
92425950|NCT00075218|184739068|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.327|||<|0.001||95.0|0.232|0.46|||Log Rank|log-rank test of treatment stratified by prior imatinib mesylate response and McGill Pain Questionnaire's Present Pain Intensity score||Stratified log-rank test||0.460|0.232|<0.001
92425951|NCT00075218|184739069|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.972||||0.9322||95.0|0.508|1.86|||Log Rank|2-sided, unstratified log-rank test||||1.860|0.508|0.9322
92170631|NCT03725722|184230024|SUPERIORITY||Risk Difference (RD)|8.2|||>|0.05|TWO_SIDED|95.0|-5.6|21.9||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference.||21.9|-5.6|>0.05
92425952|NCT00075218|184739070|SUPERIORITY_OR_OTHER||Treatment Difference (percent)|17.3||||0.0046||95.0|6.7|28.0|||Pearson chi-square||95% CI of Difference based on normal distribution. Percent = (number of subjects with response per total subjects per treatment in defined analysis population)\*100.|||28.0|6.7|0.0046
92425953|NCT01904058|184739119|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.28||||0.6603|TWO_SIDED|95.0|-12.59|8.03||p-value (LUM001 LS Mean = Placebo LS Mean).|ANCOVA|||The difference between treatment groups in change from Baseline to Week 13/ET in ItchRO weekly sum score evaluated by analysis of covariance (ANCOVA) using generalized linear model (GLM). The model included terms for treatment group, alkaline phosphatase (ALP) level (strata), treatment group by ALP level interaction and Baseline ItchRO weekly sum score as a covariate. Least squares mean change from Baseline to Week 13/ET, along with 95 percentage (%) confidence interval for mean were presented.||8.03|-12.59|0.6603
92425954|NCT01904058|184739119|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.99||||0.438|TWO_SIDED|95.0|-14.2|6.23||p-value (LUM001 LS Mean = Placebo LS Mean).|ANCOVA|||The difference between treatment groups in change from Baseline to Week 13/ET in ItchRO weekly sum score was evaluated by ANCOVA using a GLM. The model included terms for treatment group, ALP level (strata), treatment group by ALP level interaction, and Baseline ItchRO weekly sum score as a covariate. Least squares mean change from Baseline to Week 13/ET, along with 95% confidence interval for the mean, were presented.||6.23|-14.20|0.4380
92425955|NCT04041375|184739134|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.09||||0.42|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Total Score - Treatment Effect - Month 3||||0.42
92425956|NCT04041375|184739134|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.13||||0.32|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Emotional Burden Subscale - Treatment Effect - Month 3||||0.32
92425957|NCT04041375|184739134|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.13||||0.36|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Physician-Related Distress Subscale - Treatment Effect - Month 3||||0.36
92171880|NCT03743636|184233352|SUPERIORITY||Mean Difference (Final Values)|1.74||||0.1249|ONE_SIDED|90.0|-0.21||||ANCOVA||||||-0.21|0.1249
92171881|NCT03743636|184233353|SUPERIORITY||Mean Difference (Final Values)|-5.05||||0.8039|ONE_SIDED|90.0|-12.62||||ANCOVA||||||-12.62|0.8039
92425958|NCT04041375|184739134|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.17||||0.23|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Regimen-Related Distress Subscale - Treatment Effect - Month 3||||0.23
92425959|NCT04041375|184739134|SUPERIORITY|Treatment effect was modeled via multilevel linear regression model with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.18||||0.26|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Interpersonal Distress Subscale - Treatment Effect - Month 3||||0.26
92425960|NCT04041375|184739134|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Treatment Effect|0.007||||0.95|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Total Score - Treatment Effect - Month 6||||0.95
92425961|NCT04041375|184739134|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.01||||0.92|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Emotional Burden Subscale - Treatment Effect - Month 6||||0.92
92446519|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-1.6|STANDARD_ERROR_OF_MEAN|1.094||0.145|TWO_SIDED|95.0|-3.77|0.56||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 6||0.56|-3.77|0.145
92425962|NCT04041375|184739134|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.07||||0.59|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Physician-Related Distress Subscale - Treatment Effect - Month 6||||0.59
92425963|NCT04041375|184739134|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.08||||0.54|TWO_SIDED|||||alpha = 0.05|Interaction Term|||Regimen-Related Distress Subscale - Treatment Effect - Month 6||||0.54
92425964|NCT04041375|184739134|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.3||||0.05|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Interpersonal Distress Subscale - Treatment Effect - Month 6||||0.05
92425965|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.58||||0.03|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||General Diet - Treatment Effect - Month 3||||0.03
92425966|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.07||||0.83|TWO_SIDED||||||Mixed Models Analysis|||Specific Diet (Fruits and Vegetables) - Treatment Effect - Month 3||||0.83
92425967|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.44||||0.12|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Specific Diet (Fat) - Treatment Effect - Month 3||||0.12
92425968|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.39||||0.17|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Physical Activity - Treatment Effect - Month 3||||0.17
92425969|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.06||||0.85|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Blood Glucose Testing - Treatment Effect - Month 3||||0.85
92425970|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.02||||0.94|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Foot Care - Treatment Effect - Month 3||||0.94
92425971|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.19||||0.47|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||General Diet - Treatment Effect - Month 6||||0.47
92171882|NCT03743636|184233354|SUPERIORITY||Mean Difference (Final Values)|-842.0||||0.5352|ONE_SIDED|90.0|-13125.0||||ANCOVA||||||-13125|0.5352
92425972|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.08||||0.82|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Specific Diet (Fruits and Vegetables) - Treatment Effect - Month 6||||0.82
92425973|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.13||||0.66|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Specific Diet (Fat) - Treatment Effect - Month 6||||0.66
92425974|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.25||||0.38|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Physical Activity - Treatment Effect - Month 6||||0.38
92425975|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.12||||0.68|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Blood Glucose Testing - Treatment Effect - Month 6||||0.68
92425976|NCT04041375|184739135|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.26||||0.4|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Foot Care - Treatment Effect - Month 6||||0.40
92425977|NCT04041375|184739137|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.06||||0.93|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.93
92425978|NCT04041375|184739137|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.63||||0.38|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.38
92171883|NCT03743636|184233355|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.5777|ONE_SIDED|90.0|-2.46||||ANCOVA||||||-2.46|0.5777
92171884|NCT03743636|184233356|SUPERIORITY||Mean Difference (Final Values)|2.06||||0.3662|ONE_SIDED|90.0|-5.69||||ANCOVA||||||-5.69|0.3662
92171885|NCT03743636|184233357|SUPERIORITY||Mean Difference (Final Values)|-11837.0||||0.8866|ONE_SIDED|90.0|-24396.0||||ANCOVA||||||-24396|0.8866
92279537|NCT02655237|184462504|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-2.55|||||TWO_SIDED|95.0|-11.916|6.819|||||Relugolix 40 mg-Leuprorelin|Week 4||6.819|-11.916|
92425979|NCT04041375|184739138|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.32||||0.66|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.66
92425980|NCT04041375|184739138|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.99||||0.18|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.18
92446520|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.504||0.902|TWO_SIDED|95.0|-0.93|1.06||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 1||1.06|-0.93|0.902
92446521|NCT02477020|184780039|SUPERIORITY_OR_OTHER||MMRM|-0.59|STANDARD_ERROR_OF_MEAN|0.693||0.396|TWO_SIDED|95.0|-1.96|0.78||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 2||0.78|-1.96|0.396
92425981|NCT04041375|184739141|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|1.45||||0.38|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.38
92425982|NCT04041375|184739141|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|1.64||||0.68|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.68
92425983|NCT04041375|184739142|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.19||||0.74|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.74
92425984|NCT04041375|184739142|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.29||||0.62|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.62
92425985|NCT04041375|184739143|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.16||||0.72|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.72
92425986|NCT04041375|184739143|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.24||||0.58|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.58
92425987|NCT04041375|184739144|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.36||||0.5|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.50
92279538|NCT02655237|184462504|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|4.69|||||TWO_SIDED|95.0|-3.141|12.529|||||Relugolix 40 mg-Leuprorelin|Week 8||12.529|-3.141|
92425988|NCT04041375|184739144|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.72||||0.18|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.18
92425989|NCT01967342|184739147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.268|STANDARD_ERROR_OF_MEAN|-0.193||0.165|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within Usual Care between pre-treatment and 10-week post-treatment.||||.165
92425990|NCT01967342|184739147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.245|STANDARD_ERROR_OF_MEAN|0.198||0.216|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within Usual Care between post-treatment and 6-month follow-up.||||.216
92425991|NCT01967342|184739147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.052|STANDARD_ERROR_OF_MEAN|0.189|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within CBT group between the pre-treatment and 10-week post-treatment.||||< .001
92425992|NCT01967342|184739147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.361|STANDARD_ERROR_OF_MEAN|0.199||0.07|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within CBT group between the post-treatment and 6-month follow-up.||||.070
92425993|NCT01967342|184739147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.823|STANDARD_ERROR_OF_MEAN|0.191|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within Pain Ed group between the pre-treatment and 10-week post-treatment.||||< .001
92425994|NCT01967342|184739147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.131|STANDARD_ERROR_OF_MEAN|0.203||0.519|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within Pain Ed group between the post-treatment and 6-month follow-up.||||.519
92425995|NCT01967342|184739148|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.247||0.196|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within Usual Care group between the pre-treatment and 10-week post-treatment.||||.196
92425996|NCT01967342|184739148|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.182|STANDARD_ERROR_OF_MEAN|0.239||0.447|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within Usual Care group between the post-treatment and 6-month follow-up.||||.447
92425997|NCT01967342|184739148|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.643|STANDARD_ERROR_OF_MEAN|0.241|<|0.001|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within CBT for Pain group between the pre-treatment and 10-week post-treatment.||||<.001
92425998|NCT01967342|184739148|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.548|STANDARD_ERROR_OF_MEAN|0.237||0.021|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within CBT for Pain group between the post-treatment and 6-month follow-up.||||.021
92425999|NCT01967342|184739148|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.999|STANDARD_ERROR_OF_MEAN|0.244|<|0.001|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within Pain Ed group between the pre-treatment and 10-week post-treatment.||||< .001
92426000|NCT01967342|184739148|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.243||0.305|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within Pain Ed group between the post-treatment and 6-month follow-up.||||.305
92426001|NCT01967342|184739149|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.086|STANDARD_ERROR_OF_MEAN|0.623||0.082|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within Usual Care group between the pre-treatment and 10-week post-treatment.||||.082
92426002|NCT01967342|184739149|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.532||0.652|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within Usual Care group between the post-treatment and 6-month follow-up.||||.652
92426003|NCT01967342|184739149|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.416|STANDARD_ERROR_OF_MEAN|0.612|<|0.001|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within CBT for Pain group between the pre-treatment and 10-week post-treatment.||||< .001
92426004|NCT01967342|184739149|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.619|STANDARD_ERROR_OF_MEAN|0.528||0.241|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within CBT for Pain group between the post-treatment and 6-month follow-up.||||.241
92426005|NCT01967342|184739149|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.251|STANDARD_ERROR_OF_MEAN|0.617|<|0.001|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within Pain Ed group between the pre-treatment and 10-week post-treatment.||||< .001
92426006|NCT01967342|184739149|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.434|STANDARD_ERROR_OF_MEAN|0.541||0.422|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within Pain Ed group between the post-treatment and 6-month follow-up.||||.422
92426007|NCT01967342|184739150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.45|||<|0.001|TWO_SIDED||||||Mixed Models Analysis||CBT vs. TAU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at post-treatment (6-months).||||<.001
92426008|NCT01967342|184739150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.53||||0.001|TWO_SIDED||||||Mixed Models Analysis||EDU vs. TAU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at post-treatment (10-weeks).||||.001
92426009|NCT01967342|184739150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.217|TWO_SIDED||||||Mixed Models Analysis||CBT vs. EDU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at pre-treatment (10-weeks).||||.217
92426010|NCT01967342|184739150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.81||||0.009|TWO_SIDED||||||Mixed Models Analysis||CBT vs. TAU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at follow-up (6-months).||||.009
92426011|NCT01967342|184739150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.32||||0.001|TWO_SIDED||||||Mixed Models Analysis||EDU vs. TAU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at follow-up (6-months).||||.001
92426012|NCT01967342|184739150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.389|TWO_SIDED||||||Mixed Models Analysis||CBT vs. EDU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at follow-up (6-months).||||.389
92426013|NCT00395733|184739169|NON_INFERIORITY_OR_EQUIVALENCE|Estimates for investigators only. A non-inferiority margin of 15% was assumed. Based on 60 pairs of observations in a crossover design (15 participants with 10 vessels segments, 15 participants with 6 vessels segments and 30 participants with 17 vessels segments to be visualized and assessed) and non-inferiority testing based the lower limit of Fieller's one-sided 95% confidence interval for the ratio Gadavist / Magnevist of the means, the power was at least 80% under realistic assumptions.|Ratio of means|0.9736||||||90.0|0.9315|1.0168|||Fieller-type confidence interval||For the estimation, only vessel segments with vascular assessments available for both periods were considered. The lower limit of the 95% one-sided Fieller-type confidence interval was compared with the non-inferiority margin 0.85.|Non-inferiority analysis: The aim was to show that Gadavist is not inferior (i.e. similar or better) to Magnevist in visualizing different vascular regions of the body with diagnostic quality in contrast enhanced MRA. Gadavist was to be considered to be non-inferior to Magnevist if the mean number of vessel segments visualized with diagnostic quality of Gadavist enhanced-MRA images was higher than 85% of that of Magnevist enhanced-MRA images in a cross-over design.||1.0168|0.9315|
92426014|NCT00395733|184739169|NON_INFERIORITY_OR_EQUIVALENCE|Estimates for blinded reader 1 only. A non-inferiority margin of 15% was assumed. Based on 60 pairs of observations in a crossover design (15 participants with 10 vessels segments, 15 participants with 6 vessels segments and 30 participants with 17 vessels segments to be visualized and assessed) and non-inferiority testing based the lower limit of Fieller's one-sided 95% confidence interval for the ratio Gadavist / Magnevist of the means, the power was at least 80% under realistic assumptions.|Ratio of means|0.954||||||90.0|0.9122|0.9965|||Fieller-type confidence interval||For the estimation, only vessel segments with vascular assessments available for both periods were considered. The lower limit of the 95% one-sided Fieller-type confidence interval was compared with the non-inferiority margin 0.85.|Non-inferiority analysis: The aim was to show that Gadavist is not inferior (i.e. similar or better) to Magnevist in visualizing different vascular regions of the body with diagnostic quality in contrast enhanced MRA. Gadavist was to be considered to be non-inferior to Magnevist if the mean number of vessel segments visualized with diagnostic quality of Gadavist enhanced-MRA images was higher than 85% of that of Magnevist enhanced-MRA images in a cross-over design.||0.9965|0.9122|
92279539|NCT02655237|184462504|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|3.59|||||TWO_SIDED|95.0|-3.433|10.605|||||Relugolix 40 mg-Leuprorelin|Week 12||10.605|-3.433|
92170632|NCT03725722|184230024|SUPERIORITY||Risk Difference (RD)|19.3|||<|0.05|TWO_SIDED|95.0|3.9|34.6||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference.||34.6|3.9|<0.05
92279540|NCT02655237|184462504|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|3.96|||||TWO_SIDED|95.0|-3.319|11.245|||||Relugolix 40 mg-Leuprorelin|Week 24||11.245|-3.319|
92426015|NCT00395733|184739169|NON_INFERIORITY_OR_EQUIVALENCE|Estimates for blinded reader 2 only. A non-inferiority margin of 15% was assumed. Based on 60 pairs of observations in a crossover design (15 participants with 10 vessels segments, 15 participants with 6 vessels segments and 30 participants with 17 vessels segments to be visualized and assessed) and non-inferiority testing based the lower limit of Fieller's one-sided 95% confidence interval for the ratio Gadavist / Magnevist of the means, the power was at least 80% under realistic assumptions.|Ratio of means|0.9458||||||90.0|0.8776|1.024|||Fieller-type confidence interval||For the estimation, only vessel segments with vascular assessments available for both periods were considered. The lower limit of the 95% one-sided Fieller-type confidence interval was compared with the non-inferiority margin 0.85.|Non-inferiority analysis: The aim was to show that Gadavist is not inferior (i.e. similar or better) to Magnevist in visualizing different vascular regions of the body with diagnostic quality in contrast enhanced MRA. Gadavist was to be considered to be non-inferior to Magnevist if the mean number of vessel segments visualized with diagnostic quality of Gadavist enhanced-MRA images was higher than 85% of that of Magnevist enhanced-MRA images in a cross-over design.||1.0240|0.8776|
92170633|NCT03725722|184230024|SUPERIORITY||Risk Difference (RD)|20.3|||<|0.05|TWO_SIDED|95.0|5.4|35.2||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||35.2|5.4|<0.05
92236548|NCT02940886|184377239|SUPERIORITY|||||||0.5695|||||||Fisher Exact|||Adjudicated and confirmed treatment-emergent composite cardiovascular AEs. Any treatment emergent composite cardiovascular AEs were included in the statistical evaluation. The overall incidence of adjudicated and confirmed composite cardiovascular AEs was tabulated and compared between the treatment groups by a Fisher's exact test.||||0.5695
92426016|NCT00395733|184739169|NON_INFERIORITY_OR_EQUIVALENCE|Estimates for blinded reader 3 only. A non-inferiority margin of 15% was assumed. Based on 60 pairs of observations in a crossover design (15 participants with 10 vessels segments, 15 participants with 6 vessels segments and 30 participants with 17 vessels segments to be visualized and assessed) and non-inferiority testing based the lower limit of Fieller's one-sided 95% confidence interval for the ratio Gadavist / Magnevist of the means, the power was at least 80% under realistic assumptions.|Ratio of means|0.8698||||||90.0|0.78|0.9657|||Fieller-type confidence interval||For the estimation, only vessel segments with vascular assessments available for both periods were considered. The lower limit of the 95% one-sided Fieller-type confidence interval was compared with the non-inferiority margin 0.85.|Non-inferiority analysis: The aim was to show that Gadavist is not inferior (i.e. similar or better) to Magnevist in visualizing different vascular regions of the body with diagnostic quality in contrast enhanced MRA. Gadavist was to be considered to be non-inferior to Magnevist if the mean number of vessel segments visualized with diagnostic quality of Gadavist enhanced-MRA images was higher than 85% of that of Magnevist enhanced-MRA images in a cross-over design.||0.9657|0.7800|
92426017|NCT04981392|184739179|SUPERIORITY||Cox Proportional Hazard|0.49|STANDARD_ERROR_OF_MEAN|0.18||0.0066|TWO_SIDED||||||Difference in adjusted % vaccinated|||||||0.0066
92426018|NCT04981392|184739180|SUPERIORITY||Cox Proportional Hazard|0.83|STANDARD_ERROR_OF_MEAN|0.3||0.0058|TWO_SIDED||||||Difference in adjusted % vaccinated|||||||0.0058
92426019|NCT04856891|184739181|SUPERIORITY||Percent Difference from Placebo|78.4|||<|0.0001|TWO_SIDED|95.0|62.2|89.1|||Fisher Exact|||||89.1|62.2|<0.0001
92426020|NCT04856891|184739182|SUPERIORITY||LSM Difference from Placebo|0.3||||0.8822|TWO_SIDED|95.0|-4.0|4.7|||Mixed Models Analysis|||||4.7|-4.0|0.8822
92426021|NCT04856891|184739183|SUPERIORITY||LSM Difference from Placebo|-74.9|||<|0.0001|TWO_SIDED|95.0|-85.2|-64.7|||ANCOVA|||||-64.7|-85.2|<0.0001
92426022|NCT04856891|184739184|SUPERIORITY||Percent Difference from Placebo|80.4|||<|0.0001|TWO_SIDED|95.0|64.8|90.6|||Fisher Exact|||||90.6|64.8|<0.0001
92426023|NCT04856891|184739185|SUPERIORITY||Percent Difference from Placebo|43.5|||<|0.0001|TWO_SIDED|95.0|23.5|59.9|||Fisher Exact|||||59.9|23.5|<0.0001
92426024|NCT04856891|184739186|SUPERIORITY||Percent Difference from Placebo|-1.5||||1|TWO_SIDED|95.0|-22.2|18.0|||Fisher Exact|||||18.0|-22.2|1.0000
92426025|NCT04856891|184739187|SUPERIORITY||Percent Difference from Placebo|6.9||||0.4502|TWO_SIDED|95.0|-13.8|26.3|||Fisher Exact|||||26.3|-13.8|0.4502
92426026|NCT04856891|184739188|SUPERIORITY||LSM Difference from Placebo|-3.1||||0.6805|TWO_SIDED|95.0|-18.1|11.8|||Mixed Models Analysis|||Weeks 24 Percent Change from Baseline||11.8|-18.1|0.6805
92236549|NCT02940886|184377240|SUPERIORITY|||||||0.3913|||||||Log Rank|||The time to first adjudicated and confirmed composite cardiovascular AEs was estimated using the Kaplan-Meier method and the hypothesis of no treatment difference was assessed by a log-rank test.||||0.3913
92426027|NCT01697358|184739197|SUPERIORITY|||||||0.036|||||||Z-test using unpooled standard deviation|||||||0.036
92426028|NCT01697358|184739198|SUPERIORITY||||||<|0.001|||||||Regression, Linear|Variables included in the linear regression model are: baseline NPRS, treatment group, and virtual center.||||||< 0.001
92426029|NCT01697358|184739199|SUPERIORITY||||||<|0.001|||||||Regression, Linear|Variables included in the linear regression model are: baseline NPRS, treatment group, and virtual center.||||||< 0.001
92426030|NCT01697358|184739200|SUPERIORITY||||||<|0.001|||||||Regression, Linear|Variables included in the linear regression model are: baseline ODI, treatment group, and virtual center.||||||< 0.001
92426031|NCT01697358|184739201|SUPERIORITY||||||<|0.001|||||||Regression, Linear|Variables included in the linear regression model are: baseline PCS, treatment group, and virtual center.||||||< 0.001
92426032|NCT01697358|184739202|SUPERIORITY||||||<|0.001|||||||Z-test using unpooled standard deviation|||||||< 0.001
92426033|NCT02387710|184739203|OTHER||||||>|0.5|||||||Wilcoxon (Mann-Whitney)|||||||>0.5
92426034|NCT02155881|184739225|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.9716|TWO_SIDED|95.0|-0.98|1.01|||ANCOVA|||An analysis of covariance (ANCOVA) model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||1.01|-0.98|0.9716
92426035|NCT02155881|184739226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.8713|TWO_SIDED|95.0|-0.87|1.02|||ANCOVA|||An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||1.02|-0.87|0.8713
92426036|NCT02155881|184739227|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.7789|TWO_SIDED|95.0|-0.61|0.81|||ANCOVA|||An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.81|-0.61|0.7789
92426037|NCT02155881|184739228|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.663|TWO_SIDED|95.0|-0.55|0.86|||ANCOVA|||An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.86|-0.55|0.6630
92426038|NCT02155881|184739229|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.5593|TWO_SIDED|95.0|-0.35|0.19|||ANCOVA|||Nasal congestion: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.19|-0.35|0.5593
92426039|NCT02155881|184739229|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.7085|TWO_SIDED|95.0|-0.22|0.33|||ANCOVA|||Runny nose: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.33|-0.22|0.7085
92170634|NCT03725722|184230024|SUPERIORITY||Risk Difference (RD)|38.3|||<|0.0001|TWO_SIDED|95.0|22.3|54.3||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||54.3|22.3|<0.0001
92236550|NCT02940886|184377242|SUPERIORITY||Odds Ratio (OR)|2.44||||0.0077|TWO_SIDED|95.0|1.27|4.72|||Repeated measures logistic regressioin|||"Week 1~Hb increase of ≥2 g/dL from baseline to week 1.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||4.72|1.27|0.0077
92426040|NCT02155881|184739229|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.7309|TWO_SIDED|95.0|-0.22|0.31|||ANCOVA|||Itching: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.31|-0.22|0.7309
92426041|NCT02155881|184739229|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.9584|TWO_SIDED|95.0|-0.29|0.3|||ANCOVA|||Sneezing: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.30|-0.29|0.9584
92426042|NCT02155881|184739230|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.2266|TWO_SIDED|95.0|-0.11|0.46|||ANCOVA|||Itching/Burning Eyes: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.46|-0.11|0.2266
92426043|NCT02155881|184739230|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.4888|TWO_SIDED|95.0|-0.35|0.17|||ANCOVA|||Redness: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.17|-0.35|0.4888
92426044|NCT02155881|184739230|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.8316|TWO_SIDED|95.0|-0.22|0.27|||ANCOVA|||Tearing/Watering Eyes: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.27|-0.22|0.8316
92426045|NCT02155881|184739231|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.2968|TWO_SIDED|95.0|-0.8|0.25|||ANCOVA|||An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.25|-0.80|0.2968
92426046|NCT02155881|184739232|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.3533|TWO_SIDED|95.0|-0.85|0.31|||ANCOVA|||Activities: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.31|-0.85|0.3533
92426047|NCT02155881|184739232|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26||||0.3712|TWO_SIDED|95.0|-0.84|0.32|||ANCOVA|||Sleep: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.32|-0.84|0.3712
92426048|NCT02155881|184739232|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.4098|TWO_SIDED|95.0|-0.69|0.29|||ANCOVA|||Non-nose/Eye symptoms: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.29|-0.69|0.4098
92426049|NCT02155881|184739232|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.2683|TWO_SIDED|95.0|-1.0|0.28|||ANCOVA|||Practical Problems: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.28|-1.00|0.2683
92426050|NCT02155881|184739232|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.4643|TWO_SIDED|95.0|-0.82|0.38|||ANCOVA|||Nasal Symptoms: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.38|-0.82|0.4643
92426051|NCT02155881|184739232|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.4502|TWO_SIDED|95.0|-0.74|0.33|||ANCOVA|||Eye symptoms: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.33|-0.74|0.4502
92426052|NCT02155881|184739232|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.177|TWO_SIDED|95.0|-0.95|0.18|||ANCOVA|||Emotional: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.18|-0.95|0.1770
92426053|NCT03841448|184739273|SUPERIORITY||Placebo-adjusted GM Percent Change|-37.367||||0.1032|TWO_SIDED|90.0|-60.951|0.46|||MMRM||Placebo-adjusted GM percent change, 90% CIs were calculated by exponentially back-transforming the model based LS mean difference (cemdisiran - placebo) and the corresponding 90% CI then subtracting by 1.|||0.460|-60.951|0.1032
92426054|NCT03841448|184739274|SUPERIORITY||Placebo-adjusted GM Percent Change|-36.167||||0.1432|TWO_SIDED|90.0|-61.552|5.978|||MMRM||Placebo-adjusted GM percent change, 90% CIs were calculated by exponentially back-transforming the model based LS mean difference (cemdisiran - placebo) and the corresponding 90% CI then subtracting by 1.|||5.978|-61.552|0.1432
92426055|NCT03841448|184739275|SUPERIORITY||Odds Ratio (OR)|3.01||||0.1177|TWO_SIDED|90.0|0.43|21.27|||Cochran-Mantel-Haenszel|p-value was based on Cochran-Mantel-Haenszel test stratified by baseline 24-hour UP (≥1.0 g and \<2 g/day versus ≥2.0 g/day).|Odds ratio was estimated with logit method using a correction of 0.5 in every cell of the 2x2 table that contains a zero.|||21.27|0.43|0.1177
92426056|NCT03841448|184739275|SUPERIORITY||Difference in Proportions|0.23|||||TWO_SIDED|90.0|-0.13|0.42|||||Difference in proportions (cemdisiran - placebo) (90% CI) was based on the Wilson score method with continuity correction.|||0.42|-0.13|
92426057|NCT03841448|184739276|SUPERIORITY||Odds Ratio (OR)|3.02||||0.1533|TWO_SIDED|90.0|0.45|20.34|||Cochran-Mantel-Haenszel|p-value was based on Cochran-Mantel-Haenszel test stratified by baseline 24-hour UP (≥1.0 g and \<2 g/day versus ≥2.0 g/day).|Odds ratio was estimated with logit method using a correction of 0.5 in every cell of the 2x2 table that contains a zero.|||20.34|0.45|0.1533
92426058|NCT03841448|184739276|SUPERIORITY||Difference in Proportions|0.23|||||TWO_SIDED|90.0|-0.13|0.42|||||Difference in proportions (cemdisiran - placebo) (90% CI) was based on the Wilson score method with continuity correction.|||0.42|-0.13|
92426059|NCT03841448|184739277|SUPERIORITY||Placebo-adjusted GM Percent Change|-45.771||||0.0021|TWO_SIDED|90.0|-60.093|-26.309|||MMRM||Placebo-adjusted GM percent change, 90% CIs were calculated by exponentially back-transforming the model based LS means difference (cemdisiran - placebo) and the corresponding 90% CI then subtracting by 1.|||-26.309|-60.093|0.0021
92426060|NCT01163266|184739286|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.19|STANDARD_ERROR_OF_MEAN|1.151||0.058|TWO_SIDED|95.0|-4.45|0.08||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||All statistical tests were 2-sided with the estimated P-values at the 5% level of significance. To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 10 mg and 20 mg vortioxetine to placebo. Efficacy endpoints were tested for each dose in sequential order at significance level 0.025; as soon as an endpoint was non-significant at 0.025, the testing procedure stopped for all subsequent endpoints.||0.08|-4.45|0.058
92426061|NCT01163266|184739286|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.64|STANDARD_ERROR_OF_MEAN|1.161||0.002|TWO_SIDED|95.0|-5.92|-1.35||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.025, hierarchical testing continues.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||-1.35|-5.92|0.002
92426062|NCT01163266|184739287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.301|TWO_SIDED|95.0|0.796|2.093|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||2.093|0.796|0.301
92236551|NCT02940886|184377242|SUPERIORITY||Odds Ratio (OR)|2.42|||<|0.0001|TWO_SIDED|95.0|1.8|3.26|||Repeated measures logistic regressioin|||"Week 2~Hb increase of ≥2 g/dL from baseline to week 2.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||3.26|1.80|<0.0001
92426063|NCT01163266|184739287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.639||||0.044|TWO_SIDED|95.0|1.013|2.652||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||2.652|1.013|0.044
92426064|NCT01163266|184739288|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.129||0.119|TWO_SIDED|95.0|-0.45|0.05|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||0.05|-0.45|0.119
92426065|NCT01163266|184739288|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.129||0.024|TWO_SIDED|95.0|-0.55|-0.04|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||-0.04|-0.55|0.024
92426066|NCT01163266|184739289|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.29|STANDARD_ERROR_OF_MEAN|1.891||0.025|TWO_SIDED|95.0|-8.03|-0.56|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS Total score-by-week as fixed effects.||||-0.56|-8.03|0.025
92426067|NCT01163266|184739289|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.26|STANDARD_ERROR_OF_MEAN|1.852|<|0.001|TWO_SIDED|95.0|-10.92|-3.6|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||-3.60|-10.92|<0.001
92426068|NCT01163266|184739290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.665||||0.093|TWO_SIDED|95.0|0.918|3.018|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.018|0.918|0.093
92426069|NCT01163266|184739290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.779||||0.059|TWO_SIDED|95.0|0.979|3.233|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.233|0.979|0.059
92426070|NCT01163266|184739291|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|1.042||0.183|TWO_SIDED|95.0|-3.44|0.66|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||0.66|-3.44|0.183
92426071|NCT01163266|184739291|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.066||0.025|TWO_SIDED|95.0|-4.5|-0.3|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||-0.30|-4.50|0.025
92426072|NCT03181893|184739299|OTHER||Mean Difference (Final Values)|-14.82|STANDARD_ERROR_OF_MEAN|3.183|<|0.0001|TWO_SIDED|90.0|-20.26|-9.37|||LANCOVA-P model|||||-9.37|-20.26|<0.0001
92426073|NCT03181893|184739316|OTHER||Least Squares Mean Difference|10.83|STANDARD_ERROR_OF_MEAN|10.274||0.1537|TWO_SIDED|90.0|-7.1|28.77|||Mixed Models Analysis|||Difference of the active treatment from Placebo at Week 4||28.77|-7.10|0.1537
92426074|NCT03181893|184739316|OTHER||Least Squares Mean Difference|12.5|STANDARD_ERROR_OF_MEAN|10.761||0.1312|TWO_SIDED|90.0|-6.29|31.29|||Mixed Models Analysis|||Difference of the active treatment from Placebo at Week 8||31.29|-6.29|0.1312
92426075|NCT03181893|184739316|OTHER||Least Squares Mean Difference|19.44|STANDARD_ERROR_OF_MEAN|12.161||0.0647|TWO_SIDED|90.0|-1.79|40.68|||Mixed Models Analysis|||Difference of the active treatment from Placebo at Week 12||40.68|-1.79|0.0647
92426076|NCT01361568|184739338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.96|STANDARD_ERROR_OF_MEAN|3.64|<|0.05|TWO_SIDED|95.0|-15.14|-0.78|||t-test, 2 sided|||||-0.78|-15.14|<0.05
92426077|NCT01361568|184739339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-420.0|STANDARD_ERROR_OF_MEAN|139.16|<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
92426078|NCT01361568|184739339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-230.1|STANDARD_ERROR_OF_MEAN|92.26|<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92426079|NCT01361568|184739339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-260.4|STANDARD_ERROR_OF_MEAN|141.99||0.068||95.0|||||t-test, 2 sided|||||||0.068
92426080|NCT01361568|184739340|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.39|STANDARD_ERROR_OF_MEAN|2.63|<|0.05||95.0|||||Mixed Models Analysis|||||||<0.05
92426081|NCT01361568|184739340|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.31|STANDARD_ERROR_OF_MEAN|1.74||0.059||95.0|||||Mixed Models Analysis|||||||0.059
92236552|NCT02940886|184377242|SUPERIORITY||Odds Ratio (OR)|1.23||||0.1049|TWO_SIDED|95.0|0.96|1.58|||Repeated measures logistic regressioin|||"Week 4~Hb increase of ≥2 g/dL from baseline to week 4.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||1.58|0.96|0.1049
92236553|NCT02940886|184377242|SUPERIORITY||Odds Ratio (OR)|1.05||||0.7032|TWO_SIDED|95.0|0.8|1.38|||Repeated measures logistic regressioin|||"Week 8~Hb increase of ≥2 g/dL from baseline to week 8.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||1.38|0.80|0.7032
92426082|NCT01361568|184739341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.41|<|0.05|TWO_SIDED|95.0|0.22|1.82|||t-test, 2 sided|||||1.82|0.22|<0.05
92236554|NCT02940886|184377243|SUPERIORITY|||||||0.088|||||||Log Rank|||Time to Hb response was estimated using the Kaplan-Meier method and the hypothesis of no treatment difference was assessed by a 2-sided log-rank test.||||0.0880
92236555|NCT02940886|184377244|SUPERIORITY||Odds Ratio (OR)|1.14||||0.242|TWO_SIDED|95.0|0.92|1.41|||Regression, Logistic|||The proportion of subjects who achieved a Hb level of \>12 g/dL at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects. The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose is presented with 95% CI and corresponding p-value.||1.41|0.92|0.2420
92426083|NCT01361568|184739341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.27|<|0.05|TWO_SIDED|95.0|0.11|1.17|||t-test, 2 sided|||||1.17|0.11|<0.05
92426084|NCT01361568|184739342|SUPERIORITY_OR_OTHER|||||||0.001|||||||Chi-squared|Degrees of freedom (df = 1)||||||0.001
92426085|NCT01361568|184739343|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92426086|NCT01361568|184739344|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||||||<0.05
92426087|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.5|||||TWO_SIDED|95.0|1.24|1.8||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.80|1.24|
92426088|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.78|1.15||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.15|0.78|
92426089|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.8|1.12||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.12|0.80|
92426090|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.19|1.76||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.76|1.19|
92426091|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.59|0.86||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||0.86|0.59|
92426092|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.5|||||TWO_SIDED|95.0|1.15|1.86||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.86|1.15|
92426093|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.2|||||TWO_SIDED|95.0|0.97|1.42||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.42|0.97|
92426094|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.7|||||TWO_SIDED|95.0|1.36|2.13||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||2.13|1.36|
92426095|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.6|||||TWO_SIDED|95.0|0.48|0.67||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||0.67|0.48|
92426096|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.53|0.89||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||0.89|0.53|
92426097|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.3|||||TWO_SIDED|95.0|1.05|1.67||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.67|1.05|
92426098|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.6|||||TWO_SIDED|95.0|0.53|0.76||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||0.76|0.53|
92426099|NCT00761631|184739383|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.91|1.28||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.28|0.91|
92426100|NCT00309985|184739388|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|TWO_SIDED||||||Log Rank|||The study was designed to detect a 33.3% improvement in median survival time across treatments with one-sided type I error of 0.025 and 80% power.||||0.0003
92426101|NCT00309985|184739389|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
92426102|NCT00309985|184739390|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
92426103|NCT00309985|184739391|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92426104|NCT00309985|184739392|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92426105|NCT00309985|184739393|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0009
92426106|NCT00309985|184739393|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.40
92426107|NCT01950390|184739396|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.383|ONE_SIDED|90.0||1.23||One-sided|Log Rank|Stratification factors of BRAF mutation status (wild type/mutation) and prior therapy (yes/no) were used in the stratified analysis|One-sided 90% Repeated Confidence Interval for Hazard Ratio with Arm A as Reference|||1.23||0.383
92279541|NCT02655237|184462505|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-15.15|||||TWO_SIDED|95.0|-20.786|-9.509|||||Relugolix 40 mg-Leuprorelin|Week 2||-9.509|-20.786|
92426108|NCT01950390|184739397|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.358|TWO_SIDED|95.0|0.61|1.2||Two-sided|Log Rank|Stratified Log rank test||||1.20|0.61|0.358
92426109|NCT01950390|184739398|SUPERIORITY|||||||0.482||||||Two-sided|Chi-squared|||||||0.482
92426110|NCT01950390|184739400|SUPERIORITY|||||||0.937||||||Two-sided|Chi-squared|||||||0.937
92426111|NCT02975336|184739412|SUPERIORITY||Odds Ratio (OR)|1.55||||0.5462|TWO_SIDED|95.0|0.91|2.64|||Regression, Logistic|||||2.64|0.91|0.5462
92426112|NCT02975336|184739412|SUPERIORITY||Odds Ratio (OR)|1.29||||0.5462|TWO_SIDED|95.0|0.76|2.18|||Regression, Logistic|||||2.18|0.76|0.5462
92426113|NCT02975336|184739412|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5462|TWO_SIDED|95.0|0.67|1.93|||Regression, Logistic|||||1.93|0.67|0.5462
92426114|NCT02975336|184739413|SUPERIORITY||Odds Ratio (OR)|1.5||||0.5462|TWO_SIDED|95.0|0.69|3.24|||Regression, Logistic|||||3.24|0.69|0.5462
92426115|NCT02975336|184739413|SUPERIORITY||Odds Ratio (OR)|1.42||||0.5462|TWO_SIDED|95.0|0.68|2.97|||Regression, Logistic|||||2.97|0.68|0.5462
92426116|NCT02975336|184739413|SUPERIORITY||Odds Ratio (OR)|1.27||||0.5462|TWO_SIDED|95.0|0.59|2.75|||Regression, Logistic|||||2.75|0.59|0.5462
92426117|NCT02975336|184739441|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.7034|TWO_SIDED|95.0|0.57|2.4|||Cox proportional hazards model|||||2.40|0.57|0.7034
92426118|NCT02975336|184739441|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.5462|TWO_SIDED|95.0|0.31|1.52|||Cox proportional hazards model|||||1.52|0.31|0.5462
92426119|NCT02975336|184739441|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.5462|TWO_SIDED|95.0|0.42|1.97|||Cox proportional hazards model|||||1.97|0.42|0.5462
92426120|NCT02975336|184739442|SUPERIORITY||Odds Ratio (OR)|1.52||||0.5462|TWO_SIDED|95.0|0.74|3.15|||Regression, Logistic|||||3.15|0.74|0.5462
92426121|NCT02975336|184739442|SUPERIORITY||Odds Ratio (OR)|1.03||||0.5462|TWO_SIDED|95.0|0.49|2.13|||Regression, Logistic|||||2.13|0.49|0.5462
92426122|NCT02975336|184739442|SUPERIORITY||Odds Ratio (OR)|1.35||||0.5462|TWO_SIDED|95.0|0.65|2.81|||Regression, Logistic|||||2.81|0.65|0.5462
92426123|NCT02975336|184739443|SUPERIORITY||Odds Ratio (OR)|1.6||||0.2434|TWO_SIDED|95.0|0.73|3.54|||Regression, Logistic|||||3.54|0.73|0.2434
92426124|NCT02975336|184739443|SUPERIORITY||Odds Ratio (OR)|1.62||||0.2389|TWO_SIDED|95.0|0.73|3.63|||Regression, Logistic|||||3.63|0.73|0.2389
92426125|NCT02975336|184739443|SUPERIORITY||Odds Ratio (OR)|1.71||||0.1952|TWO_SIDED|95.0|0.76|3.85|||Regression, Logistic|||||3.85|0.76|0.1952
92426126|NCT02975336|184739444|SUPERIORITY||Hazard Ratio (HR)|1.59||||0.0987|TWO_SIDED|95.0|0.87|2.89|||Cox proportional hazards model|||||2.89|0.87|0.0987
92426127|NCT02975336|184739444|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.9201|TWO_SIDED|95.0|0.51|1.85|||Cox proportional hazards model|||||1.85|0.51|0.9201
92426128|NCT02975336|184739444|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.5645|TWO_SIDED|95.0|0.6|2.2|||Cox proportional hazards model|||||2.20|0.60|0.5645
92426129|NCT02975336|184739445|SUPERIORITY||Odds Ratio (OR)|0.77||||0.3743|TWO_SIDED|95.0|0.44|1.37|||Regression, Logistic|||||1.37|0.44|0.3743
92426130|NCT02975336|184739445|SUPERIORITY||Odds Ratio (OR)|0.88||||0.6445|TWO_SIDED|95.0|0.5|1.54|||Regression, Logistic|||||1.54|0.50|0.6445
92426131|NCT02975336|184739445|SUPERIORITY||Odds Ratio (OR)|0.72||||0.2634|TWO_SIDED|95.0|0.41|1.28|||Regression, Logistic|||||1.28|0.41|0.2634
92426132|NCT02975336|184739446|SUPERIORITY||Rate Ratio|1.59||||0.2989|TWO_SIDED|95.0|0.66|3.81||Nominal p-value|Negative binomial regression|||||3.81|0.66|0.2989
92236556|NCT02940886|184377245|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8746|TWO_SIDED|95.0|0.81|1.28|||Regression, Logistic|||"The proportion of subjects who achieved an increase in Hb concentration ≥2 g/dL at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects.~The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose was presented with 95% CI and corresponding p-value."||1.28|0.81|0.8746
92426133|NCT02975336|184739446|SUPERIORITY||Rate Ratio|0.85||||0.7325|TWO_SIDED|95.0|0.33|2.19||Nominal p-value|Negative binomial regression|||||2.19|0.33|0.7325
92426134|NCT02975336|184739446|SUPERIORITY||Rate Ratio|1.29||||0.591|TWO_SIDED|95.0|0.51|3.22||Nominal p-value|Negative binomial regression|||||3.22|0.51|0.5910
92426135|NCT02975336|184739447|SUPERIORITY||Odds Ratio (OR)|1.33||||0.3635|TWO_SIDED|95.0|0.72|2.47|||Regression, Logistic|||||2.47|0.72|0.3635
92426136|NCT02975336|184739447|SUPERIORITY||Odds Ratio (OR)|1.94||||0.0329|TWO_SIDED|95.0|1.06|3.56|||Regression, Logistic|||||3.56|1.06|0.0329
92426137|NCT02975336|184739447|SUPERIORITY||Odds Ratio (OR)|1.1||||0.7619|TWO_SIDED|95.0|0.59|2.07|||Regression, Logistic|||||2.07|0.59|0.7619
92426138|NCT02975336|184739448|SUPERIORITY||Odds Ratio (OR)|1.36||||0.2642|TWO_SIDED|95.0|0.79|2.35|||Regression, Logistic|||||2.35|0.79|0.2642
92426139|NCT02975336|184739448|SUPERIORITY||Odds Ratio (OR)|1.49||||0.1489|TWO_SIDED|95.0|0.87|2.57|||Regression, Logistic|||||2.57|0.87|0.1489
92236557|NCT02940886|184377246|SUPERIORITY||Odds Ratio (OR)|4.52|||<|0.0001|TWO_SIDED|95.0|3.58|5.71|||Regression, Logistic|||"Proportion of subject who achieved a s-ferritin level of ≥100 ng/mL AND a TSAT of 20-50% at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects.~The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose is presented with 95% CI and corresponding p-value."||5.71|3.58|<0.0001
92426140|NCT02975336|184739448|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9285|TWO_SIDED|95.0|0.56|1.7|||Regression, Logistic|||||1.70|0.56|0.9285
92426141|NCT02975336|184739451|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9061|TWO_SIDED|95.0|0.49|1.88|||Regression, Logistic|||||1.88|0.49|0.9061
92426142|NCT02975336|184739451|SUPERIORITY||Odds Ratio (OR)|1.19||||0.6053|TWO_SIDED|95.0|0.61|2.31|||Regression, Logistic|||||2.31|0.61|0.6053
92426143|NCT02975336|184739451|SUPERIORITY||Odds Ratio (OR)|0.8||||0.52|TWO_SIDED|95.0|0.4|1.59|||Regression, Logistic|||||1.59|0.40|0.5200
92426144|NCT02975336|184739460|SUPERIORITY||Rate difference|5.9|||||TWO_SIDED|95.0|-9.7|21.2||||||||21.2|-9.7|
92426145|NCT02975336|184739460|SUPERIORITY||Rate Difference|0.6|||||TWO_SIDED|95.0|-14.5|15.6||||||||15.6|-14.5|
92426146|NCT02975336|184739460|SUPERIORITY||Rate difference|1.6|||||TWO_SIDED|95.0|-13.5|16.6||||||||16.6|-13.5|
92426147|NCT02975336|184739464|SUPERIORITY||Odds Ratio (OR)|1.14||||0.7728|TWO_SIDED|95.0|0.46|2.82|||Regression, Logistic|||||2.82|0.46|0.7728
92426148|NCT02975336|184739464|SUPERIORITY||Odds Ratio (OR)|0.66||||0.3314|TWO_SIDED|95.0|0.28|1.54|||Regression, Logistic|||||1.54|0.28|0.3314
92426149|NCT02975336|184739464|SUPERIORITY||Odds Ratio (OR)|0.85||||0.7205|TWO_SIDED|95.0|0.36|2.04|||Regression, Logistic|||||2.04|0.36|0.7205
92426150|NCT02975336|184739465|SUPERIORITY||Odds Ratio (OR)|1.13||||0.8364|TWO_SIDED|95.0|0.35|3.71|||Regression, Logistic|||||3.71|0.35|0.8364
92426151|NCT02975336|184739465|SUPERIORITY||Odds Ratio (OR)|1.13||||0.8287|TWO_SIDED|95.0|0.37|3.45|||Regression, Logistic|||||3.45|0.37|0.8287
92426152|NCT02975336|184739465|SUPERIORITY||Odds Ratio (OR)|1.21||||0.7621|TWO_SIDED|95.0|0.35|4.16|||Regression, Logistic|||||4.16|0.35|0.7621
92426153|NCT02975336|184739466|SUPERIORITY||Odds Ratio (OR)|0.88||||0.8464|TWO_SIDED|95.0|0.23|3.31|||Regression, Logistic|||||3.31|0.23|0.8464
92426154|NCT02975336|184739466|SUPERIORITY||Odds Ratio (OR)|0.59||||0.417|TWO_SIDED|95.0|0.16|2.12|||Regression, Logistic|||||2.12|0.16|0.4170
92426155|NCT02975336|184739466|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9988|TWO_SIDED|95.0|0.27|3.74|||Regression, Logistic|||||3.74|0.27|0.9988
92236558|NCT02940886|184377247|SUPERIORITY||Mean Difference (Final Values)|0.26|||<|0.0001|TWO_SIDED|95.0|0.19|0.34|||Mixed model for repeated measures|||"Week 1~Change in Hb concentration from baseline to week 1 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.34|0.19|<0.0001
92426156|NCT02975336|184739467|SUPERIORITY||Odds Ratio (OR)|1.13||||0.697|TWO_SIDED|95.0|0.62|2.04|||Regression, Logistic|||||2.04|0.62|0.6970
92426157|NCT02975336|184739467|SUPERIORITY||Odds Ratio (OR)|1.34||||0.3234|TWO_SIDED|95.0|0.75|2.42|||Regression, Logistic|||||2.42|0.75|0.3234
92426158|NCT02975336|184739467|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9846|TWO_SIDED|95.0|0.54|1.82|||Regression, Logistic|||||1.82|0.54|0.9846
92426159|NCT02495831|184739468|SUPERIORITY_OR_OTHER||point estimate (ratio of geometric means|90.0||||0.1|TWO_SIDED|90.0|80.0|125.0||If the upper limit of the 90% confidence interval is \< 125.00%, no effect of safinamide on diclofenamic acid bioavailability is present (no interaction present).|ANOVA|||The PK parameters AUC0-t and Cmax were analysed using analysis of variance (ANOVA). Before analysis, the data were transformed using a neperian logarithmic transformation. ANOVA was performed taking into account treatment, period, sequence and subject (sequence) as fixed effects with a variance components structure of the covariance matrix.||125|80|0.1
92426160|NCT02495831|184739469|SUPERIORITY_OR_OTHER||geometric mean ratio|104.84|||||TWO_SIDED|90.0|96.4|114.02||||||||114.02|96.40|
92426161|NCT02281773|184739482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.79||0.1256|TWO_SIDED|95.0|-2.76|0.34||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|Mixed Models Analysis|Unstructured covariance structure has been used to fit the mixed model. Kenward-Roger was used to model degrees of freedom.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 10 mg minus Placebo.|The restricted maximum likelihood (REML) based mixed effects model with repeated measurements (MMRM) was used with baseline value as fixed covariate and planned treatment, analysis visit, first test done, geographic region grouping 1, planned treatment by analysis visit and baseline value by analysis visit as fixed effects.||0.34|-2.76|0.1256
92426162|NCT02281773|184739482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.8||0.7337|TWO_SIDED|95.0|-1.3|1.84||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|Mixed Models Analysis|Unstructured covariance structure has been used to fit the mixed model. Kenward-Roger was used to model degrees of freedom.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 25 mg minus Placebo.|The restricted maximum likelihood (REML) based mixed effects model with repeated measurements (MMRM) was used with baseline value as fixed covariate and planned treatment, analysis visit, first test done, geographic region grouping 1, planned treatment by analysis visit and baseline value by analysis visit as fixed effects.||1.84|-1.30|0.7337
92426163|NCT02281773|184739482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.83||0.6994|TWO_SIDED|95.0|-1.31|1.95||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|Mixed Models Analysis|Unstructured covariance structure has been used to fit the mixed model. Kenward-Roger was used to model degrees of freedom.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 50 mg minus Placebo.|The restricted maximum likelihood (REML) based mixed effects model with repeated measurements (MMRM) was used with baseline value as fixed covariate and planned treatment, analysis visit, first test done, geographic region grouping 1, planned treatment by analysis visit and baseline value by analysis visit as fixed effects.||1.95|-1.31|0.6994
92426164|NCT02281773|184739482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.79||0.427|TWO_SIDED|95.0|-2.19|0.93||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|Mixed Models Analysis|Unstructured covariance structure has been used to fit the mixed model. Kenward-Roger was used to model degrees of freedom.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 100 mg minus Placebo.|The restricted maximum likelihood (REML) based mixed effects model with repeated measurements (MMRM) was used with baseline value as fixed covariate and planned treatment, analysis visit, first test done, geographic region grouping 1, planned treatment by analysis visit and baseline value by analysis visit as fixed effects.||0.93|-2.19|0.4270
92426165|NCT02281773|184739487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.66||0.5972|TWO_SIDED|95.0|-0.9|1.6||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 10 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||1.6|-0.9|0.5972
92426166|NCT02281773|184739487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.68||0.3817|TWO_SIDED|95.0|-1.9|0.7||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 25 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||0.7|-1.9|0.3817
92236559|NCT02940886|184377247|SUPERIORITY||Mean Difference (Final Values)|0.29|||<|0.0001|TWO_SIDED|95.0|0.19|0.38|||Mixed model for repeated measures|||"Week 2~Change in Hb concentration from baseline to week 2 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.38|0.19|<0.0001
92426167|NCT02281773|184739487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.68||0.48|TWO_SIDED|95.0|-0.9|1.8||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 50 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||1.8|-0.9|0.4800
92426168|NCT02281773|184739487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.66||0.7507|TWO_SIDED|95.0|-1.1|1.5||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 100 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||1.5|-1.1|0.7507
92426169|NCT02281773|184739488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9399|TWO_SIDED|95.0|-0.1|0.1||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 10 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||0.1|-0.1|0.9399
92426170|NCT02281773|184739488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9919|TWO_SIDED|95.0|-0.1|0.1||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 25 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||0.1|-0.1|0.9919
92426171|NCT02281773|184739488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.06||0.3027|TWO_SIDED|95.0|-0.1|0.2||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 50 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||0.2|-0.1|0.3027
92426172|NCT02281773|184739488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.06||0.3901|TWO_SIDED|95.0|-0.1|0.2||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 100 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||0.2|-0.1|0.3901
92426173|NCT03019575|184739499|OTHER|Linear Mixed Model|Geometric Mean Ratio|9.43|||||TWO_SIDED|95.0|7.44|11.97||||||||11.97|7.44|
92236560|NCT02940886|184377247|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.1091|TWO_SIDED|95.0|-0.02|0.2|||Mixed model for repeated measures|||"Week 4~Change in Hb concentration from baseline to week 4 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.20|-0.02|0.1091
92426174|NCT03792191|184739516|SUPERIORITY||Median Difference (Final Values)|0.00007||||0.62|TWO_SIDED|95.0|-0.00005|1.0|||Wilcoxon (Mann-Whitney)|||||1|-0.00005|0.62
92426175|NCT03792191|184739517|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||0.58
92426176|NCT03792191|184739518|SUPERIORITY||Risk Difference (RD)|-0.036||||0.6|TWO_SIDED|95.0|-0.15|0.079|||Chi-squared, Corrected|||||0.079|-0.15|0.6
92426177|NCT03792191|184739519|SUPERIORITY||Risk Difference (RD)|-0.021||||0.77|TWO_SIDED|95.0|-0.125|0.082|||Chi-squared, Corrected|||||0.082|-0.125|0.77
92426178|NCT03792191|184739520|SUPERIORITY||Median Difference (Final Values)|8.0||||0.077|TWO_SIDED|95.0|-1.0|20.0|||Wilcoxon (Mann-Whitney)|||||20|-1|0.077
92426179|NCT03792191|184739521|SUPERIORITY||Median Difference (Final Values)|0.00003||||0.1|TWO_SIDED|95.0|-0.00001|0.00003|||Wilcoxon (Mann-Whitney)|||||0.00003|-0.00001|0.1
92426180|NCT03792191|184739522|SUPERIORITY||||||>|0.99|||||||Chi-squared, Corrected|||||||>0.99
92426181|NCT03792191|184739523|SUPERIORITY||||||>|0.99|||||||Chi-squared, Corrected|||||||>0.99
92426182|NCT03792191|184739525|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92426183|NCT01147640|184739556|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-12.4|||||TWO_SIDED|||||||||||||
92426184|NCT01147640|184739557|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-5.2|||||TWO_SIDED|95.0||||||||||||
92426185|NCT01856907|184739563|SUPERIORITY|||||||0.035|||||||McNemar|||Study change from dysglycemia to normal glucose state||||.035
92426186|NCT01856907|184739564|SUPERIORITY|||||||0.044|||||||ANOVA|||Subjects (SS)/ Treatment Group x repeated measures (visit) design||||0.044
92426187|NCT01856907|184739565|SUPERIORITY|||||||0.034|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.034
92426188|NCT01856907|184739566|SUPERIORITY|||||||0.047|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||.047
92426189|NCT01856907|184739567|SUPERIORITY|||||||0.017|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.017
92426190|NCT01856907|184739568|SUPERIORITY|||||||0.014|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.014
92426191|NCT01856907|184739569|SUPERIORITY|||||||0.042|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.042
92426192|NCT01856907|184739570|SUPERIORITY|||||||0.002|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.002
92426193|NCT01856907|184739571|SUPERIORITY|||||||0.004|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.004
92426194|NCT01856907|184739572|SUPERIORITY|||||||0.004|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.004
92426195|NCT01856907|184739573|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.9
92236561|NCT02940886|184377248|SUPERIORITY||Mean Difference (Final Values)|267.7|||<|0.0001|TWO_SIDED|95.0|246.3|289.0|||Mixed model for repeated measures|||"Week 1~Change in concentrations of s-ferritin from baseline to week 1 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||289.0|246.3|<0.0001
92426196|NCT00091442|184739574|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.5988||95.0|0.86|1.3||Not adjusted for multiple comparison.|Log Rank|||Null Hypothesis: Designed to detect an improvement in median survival from 15 months to 19.5 months with 80% power.||1.3|0.86|0.5988
92239794|NCT00366548|184383564|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0||||||95.0|-1.7|1.6||||||For serotype 19A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.6|-1.7|
92426197|NCT00091442|184739575|SUPERIORITY_OR_OTHER|||||||0.0085||95.0||||Not adjusted for multiple comparison|Cochran-Mantel-Haenszel|||Null hypothesis - no difference in response rate between the two treatment groups.||||0.0085
92426198|NCT00091442|184739576|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||<|0.0001||95.0|0.55|0.77|||Log Rank|||"Null hypothersis - no difference in Time to Progression (TTP) between the two treatment groups.~Designed to detect an improvement in median TTP from 6 months to 7.8 months with 80% power, assuming exponential survival distribution."||0.77|0.55|<0.0001
92426199|NCT00986830|184739580|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value of \<0.05 was considered statistically significant.|t-test, 2 sided||||A reduction in SNOT-20 score of 0.8 or more is considered clinically meaningful.|||<0.0001
92426200|NCT00986830|184739581|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
92426201|NCT00986830|184739582|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
92426202|NCT00986830|184739583|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
92426203|NCT00986830|184739584|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
92426204|NCT00986830|184739585|SUPERIORITY|||||||0.009||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 indicates statistical significance.|t-test, 2 sided|||||||0.009
92426205|NCT00986830|184739586|SUPERIORITY|||||||0.292||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 indicates statistical significance.|t-test, 2 sided|||||||0.292
92426206|NCT00986830|184739587|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 indicates statistical significance.|t-test, 2 sided|||||||<0.0001
92426207|NCT01436396|184739591|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 95% Confidence Interval (CI) was greater than -10. The difference in percentage of seroconversion rates between group 1 and 2 was based on the Wilson score (without continuity adjustment) 95% two-sided CI.|Difference in percentage|0.334|||||TWO_SIDED|95.0|-0.976|1.87||||||Non-inferiority of YF seroconversion rate was assessed 28 days post-Stamaril®/CYD dengue vaccine (CYD Dengue Vaccine Group) or post-Stamaril®/placebo (Placebo Group).||1.87|-0.976|
92426208|NCT01436396|184739592|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 95% CI is greater than -10. The difference in percentage of seroconversion rates between group 1 and 2 was based on the Wilson score (without continuity adjustment) 95% two-sided CI.|Difference in percentage|-1.06|||||TWO_SIDED|95.0|-2.81|0.383||||||Non-inferiority of YF seroconversion rate was assessed 28 days post-Stamaril®/CYD dengue vaccine (CYD Dengue Vaccine Group) or post-Stamaril®/placebo (Placebo Group).||0.383|-2.81|
92426209|NCT01479127|184739610|SUPERIORITY_OR_OTHER|||||||0.058|TWO_SIDED||||||Paired t-test|||"TRS I OFF state"||||0.058
92426210|NCT01479127|184739610|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Paired t-test|||"TRS I Dyskinesia state"||||1.000
92426211|NCT01479127|184739610|SUPERIORITY_OR_OTHER|||||||0.153|TWO_SIDED||||||Paired t-test|||"TRS II Normal state"||||0.153
92426212|NCT01479127|184739610|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Paired t-test|||"TRS II OFF state"||||0.140
92426213|NCT01479127|184739610|SUPERIORITY_OR_OTHER|||||||0.374|TWO_SIDED||||||Paired t-test|||"TRS II Dyskinesia state"||||0.374
92426214|NCT01479127|184739611|SUPERIORITY_OR_OTHER|||||||0.574|TWO_SIDED||||||Paired t-test|||||||0.574
92170635|NCT03725722|184230025|SUPERIORITY||||||<|0.0001||||||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Multiple contrast test|"P-values were adj. for multiple comparisons. Models with adj. p-value \<0.025 were stat. sign. diff. from a flat dose-response model.~Model:Emax model"||This endpoint was evaluated by determining if there was a dose-response relationship between EASI75 at Week 8 and the dose administered using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed and multiple comparison techniques were used to choose the model(s) most likely to represent the true underlying dose-response||||<0.0001
92236562|NCT02940886|184377248|SUPERIORITY||Mean Difference (Final Values)|41.7|||<|0.0001|TWO_SIDED|95.0|25.6|57.8|||Mixed model for repeated measures|||"Week 2~Change in concentrations of s-ferritin from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||57.8|25.6|<0.0001
92426215|NCT01479127|184739611|SUPERIORITY_OR_OTHER|||||||0.661|TWO_SIDED||||||Paired t-test|||ON time w/o D + time with NTD||||0.661
92426216|NCT01479127|184739611|SUPERIORITY_OR_OTHER|||||||0.574|TWO_SIDED||||||Paired t-test|||ON time w/o D + time with NTD + time w/ TD||||0.574
92426217|NCT01479127|184739612|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Wilcoxon one-sample test|||Rapid alternating movement of hands||||0.500
92426218|NCT01479127|184739612|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon one-sample test|||Arising from chair||||1.000
92426219|NCT01479127|184739612|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Wilcoxon one-sample test|||Postural stability||||0.250
92426220|NCT01479127|184739612|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Wilcoxon one-sample test|||Body bradykinesia and hypokinesia||||0.500
92426221|NCT01479127|184739612|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Wilcoxon one-sample test|||Dyskinesia||||0.250
92239795|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.96||||||95.0|0.81|1.13||||||For serotype 4 the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.81|
92239796|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.9||||||95.0|0.72|1.14||||||For serotype 6B the GMC ratio (13vPnC/7vPnC) was calculated||1.14|0.72|
92426222|NCT01479127|184739613|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Paired t-test|||Total score||||0.870
92426223|NCT01479127|184739613|SUPERIORITY_OR_OTHER|||||||0.374|TWO_SIDED||||||Paired t-test|||Part I||||0.374
92426224|NCT01479127|184739613|SUPERIORITY_OR_OTHER|||||||0.799|TWO_SIDED||||||Paired t-test|||Part II||||0.799
92426225|NCT01479127|184739613|SUPERIORITY_OR_OTHER|||||||0.493|TWO_SIDED||||||Paired t-test|||Part II (Off-time)||||0.493
92426226|NCT01479127|184739613|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Paired t-test|||Part III||||0.530
92426227|NCT01479127|184739613|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED||||||Paired t-test|||Part IV sub-score of dyskinesia||||0.108
92426228|NCT01479127|184739614|SUPERIORITY_OR_OTHER|||||||0.636|TWO_SIDED||||||Paired t-test|||Total score||||0.636
92426229|NCT01479127|184739614|SUPERIORITY_OR_OTHER|||||||0.329|TWO_SIDED||||||Paired t-test|||Domain: Mobility||||0.329
92426230|NCT01479127|184739614|SUPERIORITY_OR_OTHER|||||||0.902|TWO_SIDED||||||Paired t-test|||Domain: Activities of daily living||||0.902
92426231|NCT01479127|184739614|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Paired t-test|||Domain: Emotional well-being||||0.220
92426232|NCT01479127|184739614|SUPERIORITY_OR_OTHER|||||||0.799|TWO_SIDED||||||Paired t-test|||Domain: Stigma||||0.799
92426233|NCT01479127|184739614|SUPERIORITY_OR_OTHER|||||||0.178|TWO_SIDED||||||Paired t-test|||Domain: Social support||||0.178
92426234|NCT01479127|184739614|SUPERIORITY_OR_OTHER|||||||0.456|TWO_SIDED||||||Paired t-test|||Domain: Cognition||||0.456
92426235|NCT01479127|184739614|SUPERIORITY_OR_OTHER|||||||0.866|TWO_SIDED||||||Paired t-test|||Domain: Communication||||0.866
92426236|NCT01479127|184739614|SUPERIORITY_OR_OTHER|||||||0.576|TWO_SIDED||||||Paired t-test|||Domain: Bodily discomfort||||0.576
92426237|NCT01479127|184739615|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon one-sample test|||"On state staging"||||1.000
92426238|NCT01479127|184739615|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon one-sample test|||"Off state staging"||||1.000
92426239|NCT01479127|184739616|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED||||||Wilcoxon one-sample test|||||||0.125
92426240|NCT01479127|184739621|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED||||||Paired t-test|||||||0.074
92426241|NCT03469934|184739631|OTHER||Least Squares (LS) Mean Difference|-0.058||||0.5703|TWO_SIDED|95.0|-0.265|0.15|||Mixed-model repeated measures|||Mixed-model repeated measures (MMRM) analysis with fixed terms for treatment, time point of measurement, and treatment by time point interaction, baseline eosinophil count as a covariate, and a repeated time point effect within a participant.||0.150|-0.265|0.5703
92426242|NCT03469934|184739635|OTHER||LS Mean Difference|-0.05||||0.5901|TWO_SIDED|95.0|-0.239|0.139|||Mixed-model repeated measures|||MMRM analysis with fixed terms for treatment, time point of measurement, and treatment by time point interaction, baseline eosinophil count as a covariate, and a repeated time point effect within a participant.||0.139|-0.239|0.5901
92236563|NCT02940886|184377248|SUPERIORITY||Mean Difference (Final Values)|-9.0||||0.115|TWO_SIDED|95.0|-20.3|2.2|||Mixed model for repeated measures|||"Week 4~Change in concentrations of s-ferritin from baseline to week 4 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||2.2|-20.3|0.1150
92236564|NCT02940886|184377248|SUPERIORITY||Mean Difference (Final Values)|-8.3||||0.0812|TWO_SIDED|95.0|-17.7|1.0|||Mixed model for repeated measures|||"Week 8~Change in concentrations of s-ferritin from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||1.0|-17.7|0.0812
92236565|NCT02940886|184377249|SUPERIORITY||Mean Difference (Final Values)|11.4|||<|0.0001|TWO_SIDED|95.0|10.1|12.7|||Mixed model for repeated measures|||"Week 1~Change in TSAT from baseline to week 1 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||12.7|10.1|<0.0001
92426243|NCT03469934|184739636|OTHER||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.164||0.596|TWO_SIDED|95.0|-0.25|0.43|||ANCOVA|||Change from baseline for FEV1 was compared between etokimab and placebo using an analysis of covariance (ANCOVA) with treatment as fixed effect and baseline result as covariate and participant as a random effect||0.43|-0.25|0.5960
92426244|NCT03469934|184739637|OTHER||LS Mean Difference|2.53|STANDARD_ERROR_OF_MEAN|9.823||0.7993|TWO_SIDED|95.0|-17.9|22.96|||ANCOVA|||Change from baseline for FeNO was compared between etokimab and placebo using an ANCOVA with treatment as fixed effect and baseline result as covariate and participant as a random effect||22.96|-17.90|0.7993
92426245|NCT05280782|184739651|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Systolic Blood Pressure values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Systolic Blood Pressure values were normal.|||
92426246|NCT05280782|184739651|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Diastolic Blood Pressure values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Diastolic Blood Pressure values were normal.|||
92426247|NCT05280782|184739652|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Heart Rate values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Heart Rate values were normal.|||
92426248|NCT05280782|184739653|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Respiratory Rate values. The values were categorized as Normal or Abnormal.||||||0.016||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.016
92236566|NCT02940886|184377249|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.0001|TWO_SIDED|95.0|1.2|3.6|||Mixed model for repeated measures|||"Week 2~Change in TSAT from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||3.6|1.2|0.0001
92236567|NCT02940886|184377249|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.0162|TWO_SIDED|95.0|0.2|2.1|||Mixed model for repeated measures|||"Week 4~Change in TSAT from baseline to week 4 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||2.1|0.2|0.0162
92236568|NCT02940886|184377249|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.0569|TWO_SIDED|95.0|0.0|1.8|||Mixed model for repeated measures|||"Week 8~Change in TSAT from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||1.8|0.0|0.0569
92426249|NCT05280782|184739654|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Temperature values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Temperature values were normal.|||
92426250|NCT05280782|184739655|EQUIVALENCE|A McNemar test was performed between baseline and post-injection EKG. The outcomes were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the EKGs were normal.|||
92426251|NCT05280782|184739656|EQUIVALENCE|A McNemar test was performed between baseline and post-injection EKG. The outcomes were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the EKGs were normal.|||
92426252|NCT05280782|184739657|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Sodium values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Sodium values were normal.|||
92426253|NCT05280782|184739657|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Potassium values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Potassium values were normal.|||
92426254|NCT05280782|184739657|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Chloride values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Chloride values were normal.|||
92426255|NCT05280782|184739657|EQUIVALENCE|A McNemar test was performed between baseline and post-injection CO2 values. The values were categorized as Normal or Abnormal.||||||0.219||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.219
92426256|NCT05280782|184739658|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Glucose values. The values were categorized as Normal or Abnormal.||||||0.375||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.375
92426257|NCT05280782|184739658|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Calcium values. The values were categorized as Normal or Abnormal.||||||0.375||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.375
92426258|NCT05280782|184739658|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Creatinine values. The values were categorized as Normal or Abnormal.||||||0.453||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.453
92426259|NCT05280782|184739658|EQUIVALENCE|A McNemar test was performed between baseline and post-injection BUN values. The values were categorized as Normal or Abnormal.||||||0.125||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.125
92426260|NCT05280782|184739658|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Total Bilirubin values. The values were categorized as Normal or Abnormal.||||||0.219||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.219
92426261|NCT05280782|184739659|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Total Protein values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Total Protein values were normal.|||
92426262|NCT05280782|184739659|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Albumin values. The values were categorized as Normal or Abnormal.||||||0.219||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.219
92426263|NCT05280782|184739660|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Alkaline Phosphatase values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Alkaline Phosphatase values were normal.|||
92426264|NCT05280782|184739660|EQUIVALENCE|A McNemar test was performed between baseline and post-injection ALT values. The values were categorized as Normal or Abnormal.||||||0.219||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.219
92426265|NCT05280782|184739660|EQUIVALENCE|A McNemar test was performed between baseline and post-injection AST values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the AST values were normal.|||
92426266|NCT05280782|184739661|EQUIVALENCE|A McNemar test was performed between baseline and post-injection WBC values. The values were categorized as Normal or Abnormal.||||||0.687||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.687
92170636|NCT03725722|184230025|SUPERIORITY||Risk Difference (RD)|19.7|||<|0.05|TWO_SIDED|95.0|1.8|37.6||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||37.6|1.8|<0.05
92239797|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.97||||||95.0|0.85|1.1||||||For serotype 9V the GMC ratio (13vPnC/7vPnC) was calculated||1.10|0.85|
92426267|NCT05280782|184739662|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Hemoglobin values. The values were categorized as Normal or Abnormal.||||||0.375||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.375
92426268|NCT05280782|184739663|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Hematocrit values. The values were categorized as Normal or Abnormal.||||||1||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||1.000
92426269|NCT05280782|184739664|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Platelets values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Platelets values were normal.|||
92426270|NCT05280782|184739665|EQUIVALENCE|A McNemar test was performed between baseline and post-injection RBC values. The values were categorized as Normal or Abnormal.||||||0.375||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.375
92426271|NCT05280782|184739666|EQUIVALENCE|A McNemar test was performed between baseline and post-injection MCV values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the MCV values were normal.|||
92426272|NCT02761733|184739683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3652||||0.0679|TWO_SIDED|95.0|-6.9559|0.2255||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 173|||.2255|-6.9559|.0679
92426273|NCT02761733|184739683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.882||||0.0999|TWO_SIDED|95.0|-6.2957|0.5317||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 165|||0.5317|-6.2957|.0999
92426274|NCT02761733|184739683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0139||||0.5588|TWO_SIDED|95.0|-4.4957|2.3779||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 148|||2.3779|-4.4957|.5588
92426275|NCT02761733|184739683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2798||||0.8532|TWO_SIDED|95.0|-2.6771|3.2367||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 136|||3.2367|-2.6771|.8532
92426276|NCT02761733|184739684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4524||||0.0988|TWO_SIDED|95.0|-7.5302|0.6254||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 180|||0.6254|-7.5302|.0988
92426277|NCT02761733|184739684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3087||||0.876|TWO_SIDED|95.0|-4.1799|3.5625||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 166|||3.5625|-4.1799|.8760
92426278|NCT02761733|184739684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.541||||0.1878|TWO_SIDED|95.0|-1.2234|6.3054||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 153|||6.3054|-1.2234|.1878
92426279|NCT02761733|184739684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6237||||0.333|TWO_SIDED|95.0|-4.9|1.6526||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 143|||1.6526|-4.9000|.3330
92426280|NCT02761733|184739685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9284||||0.6588|TWO_SIDED|95.0|-10.4728|6.616||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 175|||6.6160|-10.4728|.6588
92426281|NCT02761733|184739685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3959||||0.2633|TWO_SIDED|95.0|-2.2237|11.0155||Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Mixed Models Analysis|Satterthwaite adjusted df = 169||a priori test||11.0155|-2.2237|.2633
92426282|NCT02761733|184739685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.9703||||0.0343|TWO_SIDED|95.0|-17.2107|-0.7299||Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Mixed Models Analysis|Satterthwaite adjusted df = 166|Satterthwaite adjusted df = 166|a priori test||-0.7299|-17.2107|.0343
92426283|NCT02761733|184739685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.7297||||0.3126|TWO_SIDED|95.0|-3.4864|10.9458||Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Mixed Models Analysis||Satterthwaite adjusted df = 163|a priori test||10.9458|-3.4864|.3126
92170637|NCT03725722|184230025|SUPERIORITY||Risk Difference (RD)|23.5|||<|0.05|TWO_SIDED|95.0|5.8|41.2||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||41.2|5.8|<0.05
92239798|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.96||||||95.0|0.79|1.15||||||For serotype 14 the GMC ratio (13vPnC/7vPnC) was calculated||1.15|0.79|
92426284|NCT02761733|184739686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1241||||0.584|TWO_SIDED|95.0|-0.5675|0.3193||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 142|||.3193|-.5675|.5840
92426285|NCT02761733|184739686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2642||||0.2404|TWO_SIDED|95.0|-0.1754|0.7038||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 184|||.7038|-.1754|.2404
92426286|NCT02761733|184739686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3192||||0.1074|TWO_SIDED|95.0|-0.0667|0.7051||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 129|||.7051|-.0667|.1074
92426287|NCT02761733|184739686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0576||||0.7677|TWO_SIDED|95.0|-0.3238|0.439||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 131|||.4390|-.3238|.7677
92426288|NCT02761733|184739687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.026||||0.9046|TWO_SIDED|95.0|-0.4507|0.3987||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 182|||.3987|-.4507|.9046
92426289|NCT02761733|184739687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2258||||0.2518|TWO_SIDED|95.0|-0.1591|0.6107||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 173|||.6107|-.1591|.2518
92426290|NCT02761733|184739687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.437||||0.0338|TWO_SIDED|95.0|-0.837|-0.037||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 165|||-.0370|-.8370|.0338
92426291|NCT02761733|184739687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2564||||0.1555|TWO_SIDED|95.0|-0.6086|0.0958||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 157|||.0958|-.6086|.1555
92426292|NCT02761733|184739688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2967||||0.0283|TWO_SIDED|95.0|-0.5599|-0.0335||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 213|||-.0335|-.5599|.0283
92426293|NCT02761733|184739688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0401||||0.7407|TWO_SIDED|95.0|-0.1969|0.2771||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 194|||.2771|-.1969|.7407
92426294|NCT02761733|184739688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2338||||0.0619|TWO_SIDED|95.0|-0.4778|0.0102||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 186|||.0102|-.4778|.0619
92426295|NCT02761733|184739688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3793||||0.0009|TWO_SIDED|95.0|-0.599|-0.1596||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 172|||-.1596|-.5990|.0009
92170638|NCT03725722|184230025|SUPERIORITY||Risk Difference (RD)|35.3|||<|0.0005|TWO_SIDED|95.0|17.5|53.2||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||53.2|17.5|<0.0005
92236569|NCT02940886|184377250|SUPERIORITY||Mean Difference (Final Values)|43.7|||<|0.0001|TWO_SIDED|95.0|38.1|49.3|||Mixed model for repeated measures|||"Week 1~Change in s-iron from baseline to week 1 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, including 95% CIs and corresponding p-value."||49.3|38.1|<0.0001
92170639|NCT03725722|184230025|SUPERIORITY||Risk Difference (RD)|45.4|||<|0.0001|TWO_SIDED|95.0|28.1|62.8||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||62.8|28.1|<0.0001
92236570|NCT02940886|184377250|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.0375|TWO_SIDED|95.0|0.3|9.8|||Mixed model for repeated measures|||"Week 2~Change in s-iron from baseline to week 2 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, including 95% CIs and corresponding p-value."||9.8|0.3|0.0375
92426296|NCT02256072|184739695|SUPERIORITY_OR_OTHER||Slope|1.25|STANDARD_ERROR_OF_MEAN|0.45||0.0054|TWO_SIDED|95.0|0.37|2.12|||ANCOVA|||H1: Compared to participants in the attention control group and controlling for baseline assessments, participants receiving the PLAN YOUR LIFESPAN tool will show increased planning with regard to planning behavior score (measured via the Planning Assessment tool) one (efficacy) month after intervention.||2.12|0.37|0.0054
92239799|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.98||||||95.0|0.86|1.13||||||For serotype 18C the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.86|
92426297|NCT02256072|184739696|SUPERIORITY_OR_OTHER||Slope|0.244|STANDARD_ERROR_OF_MEAN|0.123||0.0471|TWO_SIDED|||||P-value controlled for significant baseline covariates (sex, importance of religion, stroke, and self efficacy score) and individual participant effect.|Mixed Models Analysis|The p-value is based on the slope estimation provided below.||Secondary analyses will compare baseline variables (current utilization of services, physical function assessment, co-morbidities, social support, health literacy, self-efficacy, and sociodemographics) with outcome (one-at-a-time). Those found to have a significant association with outcome will be included in a linear mixed model, with random effect for intercept. A backward stepwise model building process will be used to determine an overall parsimonious model for outcome.||||0.0471
92426298|NCT02256072|184739697|SUPERIORITY_OR_OTHER||Slope|0.075|STANDARD_ERROR_OF_MEAN|0.094||0.423|TWO_SIDED|||||p-value controlled for significant baseline covariates (confidence in using the internet, self efficacy score, support score, and race/ethnicity.|Mixed Models Analysis|The p-value is based on the slope estimation provided below.|The score is the equally-weighted sum of responses to the five questions in the CAHS instrument. Each question has a scale of 1-5, with a total possible range of 5-25. No subscores are calculated.|H2: Compared to participants in the attention control group and controlling for baseline assessments, participants receiving the PLAN YOUR LIFESPAN tool will show increased confidence in accessing home services (measured via the Confidence in Accessing Home Services tool) one (efficacy) and three (effect retention) months after intervention.||||0.423
92426299|NCT02256072|184739698|SUPERIORITY_OR_OTHER||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|||||p-value controlled for significant baseline covariates (sex, income, health literacy, education level, high blood pressure, and kidney disease) and individual participant effect.|Mixed Models Analysis|The p-value is based on the slope estimation provided below.||Compared to participants in the attention control group, participants receiving PLAN YOUR LIFESPAN will show increased UHS 1 (efficacy) and 3 (effect retention) months post-intervention. Secondary analyses will compare baseline variables with outcome (one-at-a-time). Those with a significant association with outcome will be included in a LMM for UHS, with random effect for intercept. A backward stepwise model building process will be used to determine an overall parsimonious model for UHS.||||<0.0001
92426300|NCT00810693|184739700|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Prespecified significance level for all significance tests was 5%. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy||Missing values for participants who withdrew/died before 12 weeks were imputed with worst value of 0m in case of death or clinical worsening without termination visit and with last observed value otherwise. Comparison was done using ANCOVA, with baseline 6MWD as a covariate and treatment group, region and treatment naive/add-on therapy as main effects. The primary statistical method was the stratified Wilcoxon test if the Shapiro-Wilk test for normality of residuals was statistically significant||||<0.0001
92426301|NCT00810693|184739700|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|35.78|||<|0.0001|TWO_SIDED|95.0|20.06|51.51||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||51.51|20.06|<0.0001
92426302|NCT00810693|184739700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
92426303|NCT00810693|184739701|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, TTCW, Borg scale, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy||Missing values at week 12 were imputed using the last available post-baseline observation. Same analysis method as for primary efficacy parameter.||||<0.0001
92236571|NCT02940886|184377250|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.6027|TWO_SIDED|95.0|-4.0|2.3|||Mixed model for repeated measures|||"Week 4~Change in s-iron from baseline to week 4 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, including 95% CIs and corresponding p-value."||2.3|-4.0|0.6027
92426304|NCT00810693|184739701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-225.72|||<|0.0001|TWO_SIDED|95.0|-281.37|-170.08||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-170.08|-281.37|<0.0001
92426305|NCT00810693|184739701|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
92426306|NCT00810693|184739702|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||"Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.~Primary analysis due to result of Shapiro-Wilk test."|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy||Missing values at week 12 were imputed using the last available post-baseline observation. Same analysis method as for primary efficacy parameter.||||<0.0001
92426307|NCT00810693|184739702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-431.81||||0.0157|TWO_SIDED|95.0|-781.52|-82.1||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-82.10|-781.52|0.0157
92426308|NCT00810693|184739702|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
92426309|NCT00810693|184739703|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0033||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy||Missing values for participants who withdrew or died before 12 weeks were imputed with a worst value of IV in case of clinical worsening without termination visit or measurement at that termination visit and with a worst value of V in case of death and with the last observed value otherwise.||||0.0033
92426310|NCT00810693|184739704|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.2||||0.0046|TWO_SIDED|95.0|-9.85|-0.55||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.|Log Rank|Test was stratified by region and therapy naive/add-on therapy|Based on Mantel-Haenszel estimate stratified by region and therapy naive/add-on therapy.|"The test is for difference of occurence of Any event."||-0.55|-9.85|0.0046
92426311|NCT00810693|184739705|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0022||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy||Missing values for participants who withdrew or died before 12 weeks were imputed with a worst value of 10 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||0.0022
92426312|NCT00810693|184739706|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0663||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy.||Missing values at baseline were imputed using last available observation prior to start of study treatment. Missing values for participants who withdrew or died before 12 weeks were imputed with a worst value of -0.594 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||0.0663
92426313|NCT00810693|184739706|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06||||0.0197|TWO_SIDED|95.0|0.01|0.11||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||0.11|0.01|0.0197
92426314|NCT00810693|184739706|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
92426315|NCT00810693|184739707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019||||||"Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO FC, TTCW, Borg scale, EQ5D, LPH.~Primary analysis due to result of Shapiro-Wilk test. Nominally significant only due to hierarchical testing."|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy.||Missing values at baseline were imputed using last available observation prior to start of study treatment. Missing values for participants who withdrew or died before 12 weeks were imputed with a worst value of 105 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||0.0019
92426316|NCT00810693|184739707|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.17||||0.0009|TWO_SIDED|95.0|-9.79|-2.54||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-2.54|-9.79|0.0009
92426317|NCT00810693|184739707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
92426318|NCT02572609|184739709|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence in the Cmax will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|T/R Ratio|113.56|STANDARD_DEVIATION|16.24||0.0082|TWO_SIDED|90.0|106.48|121.1|||Anderson-Hauck procedure||Standard Deviation is actually the Coefficient of variation intra subject (CVintra).|||121.10|106.48|0.0082
92426319|NCT02572609|184739710|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence in the AUC0-t will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|T/R Ratio|119.61|STANDARD_DEVIATION|10.65||0.0438|TWO_SIDED|90.0|114.65|124.79|||Anderson-Hauck procedure||Standard Deviation is actually the Coefficient of variation intra subject (CVintra).|||124.79|114.65|0.0438
92426320|NCT02345226|184739737|NON_INFERIORITY|A sample size of 400 HIV-1 infected participants per treatment group would provide 95% power to detect a non-inferiority margin of 8% in the Week 48 response rate difference between the FTC/RPV/TAF group and EFV/FTC/TDF group. For sample size and power computation, it is assumed that both treatment groups will have a response rate of 89% (based on Gilead Study GS-US-292-0109), that a noninferiority margin is 8%, and that the significance level of the test is at a one-sided alpha level of 0.025.|Difference in Percentages|-2.0|||||TWO_SIDED|95.001|-5.9|1.8|||||The difference in percentages and its 95.001% confidence interval (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The null hypothesis was that the percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48 in the FTC/RPV/TAF group was at least 8% lower than the rate in the EFV/FTC/TDF group; the alternative hypothesis was that the percentage of participants with HIV-1 RNA \< 50 copies/mL in the FTC/RPV/TAF group was less than 8% lower than that in the EFV/FTC/TDF group.||1.8|-5.9|
92426321|NCT02345226|184739737|SUPERIORITY|||||||0.35|||||||Fisher Exact|||||||0.35
92426322|NCT01848704|184739761|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.03|TWO_SIDED|95.0|0.07|1.35|||Mixed Models Analysis|||||1.35|0.07|0.03
92426323|NCT01848704|184739762|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.03|TWO_SIDED|95.0|-1.13|-0.05|||Mixed Models Analysis|||||-0.05|-1.13|0.03
92426324|NCT01848704|184739763|SUPERIORITY||Mean Difference (Final Values)|-0.38||||0.18|TWO_SIDED|95.0|-0.95|0.19|||Mixed Models Analysis|||||0.19|-0.95|0.18
92426325|NCT01848704|184739764|SUPERIORITY||Mean Difference (Final Values)|0.77||||0.029|TWO_SIDED|95.0|0.08|1.47|||Mixed Models Analysis|||||1.47|0.08|0.029
92426326|NCT01848704|184739765|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.061|TWO_SIDED|95.0|-0.03|1.31|||Mixed Models Analysis|||||1.31|-0.03|0.061
92426327|NCT01498978|184739800|OTHER|Exact binomial test (two-sided).||||||0.754|||||||Exact Binomial Test|||Exact binomial test (two-sided). Null hypothesis: the proportion is equal to 0.5||||0.754
92426328|NCT01498978|184739801|OTHER|Test of association (contingency) between the two kinds of classification.||||||0.19|||||||Fisher Exact|||||||0.190
92426329|NCT01498978|184739804|OTHER|Test of association (contingency) between the two kinds of classification.||||||0.5|||||||Fisher Exact|||||||0.500
92426330|NCT01498978|184739805|OTHER|Test of association (contingency) between the two kinds of classification.||||||1|||||||Fisher Exact|||||||1.000
92426331|NCT01498978|184739806|OTHER|Test of association (contingency) between the two kinds of classification.||||||0.524|||||||Fisher Exact|||||||0.524
92426332|NCT03488355|184739813|SUPERIORITY||Risk Ratio (RR)|1.15||||0.45|TWO_SIDED||||||t-test, 2 sided|||||||0.45
92426333|NCT00370071|184739842|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||one-sided p-value (one-sided test level 2.5%)|Wilcoxon-Signed-Rank test|||In this single arm study, the number of newly active lesions per 3 months during treatment was compared to the number of newly active lesions during 3-month pre-treatment (Alternative hypothesis: Number of lesions is reduced during treatment with Interferon beta-1b). The sample size was calculated for the use of the one-sided Wilcoxon-Signed-Rank test at level 2.5% (Power of 90% - anticipating P(X\&lt;Y)=0.15 and allowing for 25% exclusion from Per Protocol Set).||||<0.0001
92426334|NCT00370071|184739843|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||one-sided p-value (one-sided test level 2.5%)|Wilcoxon-Signed-Rank test|||||||<0.0001
92426335|NCT00370071|184739844|SUPERIORITY_OR_OTHER|||||||0.0017||95.0||||one-sided p-value (one-sided test level 2.5%)|Wilcoxon-Signed-Rank test|||||||0.0017
92426336|NCT00370071|184739845|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon-Signed-Rank test|One-sided p-value from Wilcoxon-Signed-Rank-Test for comparing the baseline visit to treatment visits||Lesion volume at Week 12. 38 subjects were evaluated.||||<0.0001
92426337|NCT00370071|184739845|SUPERIORITY_OR_OTHER||||||=|0.0019|||||||Wilcoxon-Signed-Rank test|||Lesion volume at Week 24. 37 subjects were evaluated.||||=0.0019
92426338|NCT03401489|184739875|SUPERIORITY||Odds Ratio (OR)|0.99||||0.822|TWO_SIDED|95.0|0.36|2.72||Significance threshold was α=0.05, two-sided. No adjustment for multiple comparisons.|Mixed Models Analysis|Generalized linear mixed models were also run for sensitivity analyses, adjusting for baseline SBP, site, and race.|Difference defined as Control minus PACESETTER at 12 months (SBP \<130 mmHg); odds ratio \<1 favors the PACESETTER arm.|Comparison between PACESETTER and control arms at 12 months for proportion of participants with SBP \<130 mmHg using a generalized linear mixed model (GLMM) with logit link. Model included baseline SBP, site, and race as covariates.||2.72|.36|0.822
92426339|NCT03401489|184739876|OTHER|Longitudinal mixed-effects repeated-measures modeling (MMRM) was used to compare systolic BP over time, adjusting for baseline BP, site, and race.|Mean Difference (Final Values)|2.4||||0.623|TWO_SIDED|95.0|-7.3|12.1||Two-sided α=0.05; no adjustment for multiple comparisons.|Mixed Models Analysis||Positive values favor the control arm.|||12.1|-7.3|0.623
92426340|NCT03401489|184739877|SUPERIORITY||Mean Difference (Net)|-0.9||||0.614|TWO_SIDED|95.0|-7.8|6.0||Two-sided α=0.05; no adjustment for multiple comparisons.|Mixed Models Analysis||Negative values favor the PACESETTER arm.|Longitudinal mixed-effects repeated-measures modeling (MMRM) was used to compare diastolic BP over time, adjusting for baseline BP, site, and race.||6.0|-7.8|0.614
92426341|NCT05938920|184739891|OTHER||Least Squares Mean|-0.6098|STANDARD_ERROR_OF_MEAN|1.78193|||TWO_SIDED|95.0|-4.1026|2.8831||||||||2.8831|-4.1026|
92426342|NCT05938920|184739891|OTHER||Least Squares Mean|0.6721|STANDARD_ERROR_OF_MEAN|1.91075|||TWO_SIDED|95.0|-3.0738|4.4179||||||||4.4179|-3.0738|
92426343|NCT05938920|184739891|OTHER||Least Squares Mean|2.8232|STANDARD_ERROR_OF_MEAN|2.30479|||TWO_SIDED|95.0|-1.697|7.3433||||||||7.3433|-1.6970|
92426344|NCT05938920|184739891|OTHER||Least Squares Mean|-0.2933|STANDARD_ERROR_OF_MEAN|2.15954|||TWO_SIDED|95.0|-4.5273|3.9408||||||||3.9408|-4.5273|
92426345|NCT05938920|184739892|OTHER||Least Squares Mean|-0.0242|STANDARD_ERROR_OF_MEAN|0.04121|||TWO_SIDED|95.0|-0.105|0.0566||||||||0.0566|-0.1050|
92426346|NCT05938920|184739892|OTHER||Least Squares Mean|0.0194|STANDARD_ERROR_OF_MEAN|0.04492|||TWO_SIDED|95.0|-0.0687|0.1074||||||||0.1074|-0.0687|
92426347|NCT05938920|184739892|OTHER||Least Squares Mean|0.0892|STANDARD_ERROR_OF_MEAN|0.04994|||TWO_SIDED|95.0|-0.0087|0.1872||||||||0.1872|-0.0087|
92426348|NCT05938920|184739892|OTHER||Least Squares Mean|-0.0082|STANDARD_ERROR_OF_MEAN|0.04585|||TWO_SIDED|95.0|-0.0981|0.0817||||||||0.0817|-0.0981|
92426349|NCT05938920|184739893|OTHER||Least Squares Mean|-0.6043|STANDARD_ERROR_OF_MEAN|1.19916|||TWO_SIDED|95.0|-2.9549|1.7462||||||||1.7462|-2.9549|
92426350|NCT05938920|184739893|OTHER||Least Squares Mean|0.651|STANDARD_ERROR_OF_MEAN|1.33193|||TWO_SIDED|95.0|-1.9603|3.2624||||||||3.2624|-1.9603|
92426351|NCT05938920|184739893|OTHER||Least Squares Mean|2.4975|STANDARD_ERROR_OF_MEAN|1.43617|||TWO_SIDED|95.0|-0.3187|5.3136||||||||5.3136|-0.3187|
92426352|NCT05938920|184739893|OTHER||Least Squares Mean|-0.0209|STANDARD_ERROR_OF_MEAN|1.4247|||TWO_SIDED|95.0|-2.8142|2.7724||||||||2.7724|-2.8142|
92426353|NCT05938920|184739894|OTHER||Least Squares Mean|-0.5762|STANDARD_ERROR_OF_MEAN|1.74854|||TWO_SIDED|95.0|-4.0035|2.8511||||||||2.8511|-4.0035|
92426354|NCT05938920|184739894|OTHER||Least Squares Mean|0.5884|STANDARD_ERROR_OF_MEAN|1.90433|||TWO_SIDED|95.0|-3.1449|4.3216||||||||4.3216|-3.1449|
92426355|NCT05938920|184739894|OTHER||Least Squares Mean|2.6554|STANDARD_ERROR_OF_MEAN|2.2965|||TWO_SIDED|95.0|-1.8486|7.1593||||||||7.1593|-1.8486|
92426356|NCT05938920|184739894|OTHER||Least Squares Mean|-0.0625|STANDARD_ERROR_OF_MEAN|2.17274|||TWO_SIDED|95.0|-4.3227|4.1977||||||||4.1977|-4.3227|
92426357|NCT01251861|184739895|SUPERIORITY|||||||0.28||||||one-sided|Fisher Exact|||||||0.28
92426358|NCT01251861|184739904|OTHER|The association between PSA response (responder vs non-responder) and Gleason score (\<7, 7 vs. \>7) was evaluated by logistic regression with adjustment for treatment assignment.||||||0.5||||||p-value based on logistic regression with adjustment for treatment assignment|Regression, Logistic|||The association between PSA response (responder vs non-responder) and Gleason score (\<7, 7 vs. \>7) was evaluated by logistic regression with adjustment for treatment assignment.||||0.50
92426359|NCT01251861|184739905|OTHER|The association between PSA response (responder vs non-responder) and prior hormonal therapy (yes vs. no) was evaluated by logistic regression with adjustment for treatment assignment.||||||0.28||||||p-value based on logistic regression with adjustment for treatment assignment|Regression, Logistic|||The association between PSA response (responder vs non-responder) and prior hormonal therapy (yes vs. no) was evaluated by logistic regression with adjustment for treatment assignment.||||0.28
92426360|NCT00531934|184739910|SUPERIORITY_OR_OTHER|||||||0.175|||||||Chi-squared|||||||0.175
92426361|NCT00531934|184739913|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Erlotinib + doxycycline vs Erlotinib: Grade 3 intensity skin rash (folliculitis)||||<0.001
92426362|NCT00531934|184739919|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.763||||0.143|TWO_SIDED|95.0|0.525|1.109|||Log Rank|||||1.109|0.525|0.143
92426363|NCT00531934|184739922|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.769||||0.153|TWO_SIDED|95.0|0.529|1.116|||Log Rank|||||1.116|0.529|0.153
92426364|NCT00531934|184739928|SUPERIORITY_OR_OTHER|||||||0.003|||||||Cochran-Mantel-Haenszel|||Erlotinib + doxycycline vs Erlotinib: Grade 3||||0.003
92426365|NCT04092582|184740033|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6835|TWO_SIDED|95.0|0.55|1.47|||Regression, Cox|||||1.47|0.55|0.6835
92426366|NCT04092582|184740034|SUPERIORITY||Rate Ratio|1.0989||||0.7648|TWO_SIDED|95.0|0.5925|2.0381|||Poisson regression|||||2.0381|0.5925|0.7648
92426367|NCT04092582|184740035|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.5248|TWO_SIDED|95.0|0.43|1.54|||Regression, Cox|||||1.54|0.43|0.5248
92426368|NCT04092582|184740036|SUPERIORITY|||||||0.125|||||||Mixed model for repeated measures (MMRM)|||||||0.1250
92426369|NCT04092582|184740037|SUPERIORITY|||||||0.2249|||||||Mixed model for repeated measures (MMRM)|||||||0.2249
92426370|NCT04092582|184740038|SUPERIORITY|||||||0.9693|||||||Mixed model for repeated measures (MMRM)|||||||0.9693
92426371|NCT04092582|184740039|SUPERIORITY|||||||0.9855|||||||Mixed model for repeated measures (MMRM)|||||||0.9855
92426372|NCT03355365|184740067|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92426373|NCT03355365|184740068|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||||||0.28
92426374|NCT03355365|184740069|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
92426375|NCT03355365|184740070|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
92426376|NCT03355365|184740071|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||.43
92426377|NCT03355365|184740072|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
92426378|NCT03355365|184740073|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
92426379|NCT03355365|184740074|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||.71
92426380|NCT03355365|184740075|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
92426381|NCT05203289|184740077|OTHER||Ratio of geometric means (%)|101.88|||||TWO_SIDED|90.0|93.31|111.23|||||"The estimated parameter was the adjusted geometric mean ratios (%) of BI 695501: (40 mg/0.4 mL (T))/(40 mg/0.8 mL (R)).~Geometric standard error= 105.455."|The statistical model used for the analysis of the primary endpoints was an analysis of covariance (ANCOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANCOVA model. This model included effects accounting for the following sources of variation: 'treatment', 'location of trial medication injection' and 'baseline body weight' (continuous).||111.23|93.31|
92426382|NCT05203289|184740078|OTHER||Ratio of geometric means (%)|105.38|||||TWO_SIDED|90.0|95.06|116.81|||||"The estimated parameter was the adjusted geometric mean ratios (%) of BI 695501: (40 mg/0.4 mL (T))/(40 mg/0.8 mL (R)).~Geometric standard error= 106.431."|The statistical model used for the analysis of the primary endpoints was an analysis of covariance (ANCOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANCOVA model. This model included effects accounting for the following sources of variation: 'treatment', 'location of trial medication injection' and 'baseline body weight' (continuous).||116.81|95.06|
92426383|NCT05203289|184740079|OTHER||Ratio of geometric means (%)|91.29|||||TWO_SIDED|90.0|84.38|98.76|||||"The estimated parameter was the adjusted geometric mean ratios (%) of BI 695501: (40 mg/0.4 mL (T))/(40 mg/0.8 mL (R)).~Geometric standard error= 104.874."|The statistical model used for the analysis of the primary endpoints was an analysis of covariance (ANCOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANCOVA model. This model included effects accounting for the following sources of variation: 'treatment', 'location of trial medication injection' and 'baseline body weight' (continuous).||98.76|84.38|
92426384|NCT00333177|184740089|SUPERIORITY||||||<|0.03||||||P value is for CT-HBT X RLAI-Oral Ris interaction|ANCOVA|Covaried baseline value of dependent variable||A priori hypothesis was that CT would be superior to HBT and that RLAI would enhance this effect.||||<0.03
92426385|NCT00333177|184740090|SUPERIORITY||||||<|0.02||||||P-value is for each main effect. A priori threshold for statistical significance was p\<0.05 for each main effect.|ANCOVA|Baseline value of dependent variable was covaried.||2 X 2 ANOVA was calculated. A priori hypotheses were that LAI would be superior to oral risperidone and that CT would be superior to health behavior training (HBT) based on main effects.||||<.02
92426386|NCT00333177|184740091|SUPERIORITY||Mean Difference (Final Values)|0.84||||0.001|TWO_SIDED|95.0|0.57|1.1|||t-test, 2 sided|||A priori hypothesis was that RLAI would lead to less medication non-adherence than Oral Ris.||1.10|.57|.001
92426387|NCT00333177|184740092|SUPERIORITY||||||<|0.05||||||P-value is for CT vs. HBT main effect.|ANCOVA|Baseline value of dependent variable was covaried.||2 X 2 ANOVA was calculated. A priori hypotheses were that CT would be superior to HBT and that RLAI would be superior to Oral Ris.||||<.05
92426388|NCT00333177|184740093|SUPERIORITY|||||||0.55|||||||ANOVA|||||||0.55
92426389|NCT00333177|184740094|SUPERIORITY||||||<|0.02||||||A priori hypotheses were that CT would be superior to HBT and that RLAI would be superior to Oral Ris.|ANOVA|2 X 2 ANOVA was computed.||||||<0.02
92426390|NCT00333177|184740095|SUPERIORITY||||||<|0.01|||||||Chi-squared|df = 1||Chi-square of frequencies of relapse vs. non-relapse were calculated, with a priori hypothesis that RLAI would be superior to Oral Ris.||||<0.01
92426391|NCT00333177|184740096|SUPERIORITY||||||<|0.05||||||2 X 2 ANOVA calculated. P-value is for main effect of RLAI vs. Oral Ris.|ANOVA|||||||<.05
92426392|NCT00333177|184740097|SUPERIORITY||||||<|0.02||||||2 X 2 ANOVA computed. P-value is for main effect of CT vs. HBT.|ANOVA|||||||<.02
92426393|NCT00333177|184740098|SUPERIORITY||||||=|0.053||||||2 X 2 ANOVA computed. P-value is for RLAI vs. Oral Ris main effect.|ANOVA|||||||=.053
92426394|NCT00398918|184740105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2|STANDARD_ERROR_OF_MEAN|3.4|<|0.05||95.0|||||Mixed Models Analysis|Results presented are for post-hoc comparisons of least squares means with Tukey-Kramer adjucted p values.|The estimated value is for the difference between the means obtained for the second hour of the self-administration sessions for the placebo and zonisamide conditions.|The analysis involved a within subjects comparison. The null hypothesis was that there would be no difference in the amount of ethanol consumed in either the first or second hour of self-administration sessions. Results presented here are for the second hour of the self-administration sessions.||||<0.05
92426395|NCT00398918|184740106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|5.7||0.61||95.0||||P value shown is for a post-hoc comparison of least squares means generated by the mixed model used.|Mixed Models Analysis||Analysis for difference between DSMT scores at 40 minutes post alcohol ingestion for zonisamide and placebo involved post-hoc comparisons of least squares means.|Null hypothesis: No difference in DSMT scores for zonisamide and placebo treatments 40 minutes after ingestion of ethanol.||||0.61
92426396|NCT03917459|184740119|OTHER||LS mean of treatment difference|2.9|STANDARD_ERROR_OF_MEAN|2.94||0.3432|TWO_SIDED|95.0|-3.29|9.01|||Mixed Model Repeated Measures (MMRM)|||||9.01|-3.29|0.3432
92426397|NCT00850070|184740146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||<|0.35|||||||Chi-squared||Estimated value comparison was active treatment minus placebo.|Chi-square analyses were used to assess CGI-I scores. There were no transformations.||||<.35
92426398|NCT00850070|184740147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||<|0.06|||||||Chi-squared|||||||<0.06
92426399|NCT00850070|184740153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.9||0.05|||||||Mixed Models Analysis|||||||0.05
92426400|NCT00694707|184740240|SUPERIORITY_OR_OTHER||Least squares mean difference|-7.5||||0.0005|TWO_SIDED|95.0|-11.8|-3.3|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline PANSS total score as the covariate.||||-3.3|-11.8|0.0005
92426401|NCT00694707|184740240|SUPERIORITY_OR_OTHER||Least squares mean difference|-8.8|||<|0.0001|TWO_SIDED|95.0|-13.1|-4.6|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline PANSS total score as the covariate.||||-4.6|-13.1|<0.0001
92426402|NCT00694707|184740240|SUPERIORITY_OR_OTHER||Least squares mean difference|-10.4|||<|0.0001|TWO_SIDED|95.0|-14.6|-6.2|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline PANSS total score as the covariate.||||-6.2|-14.6|<0.0001
92426403|NCT00694707|184740240|SUPERIORITY_OR_OTHER||Least squares mean difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-19.4|-10.8|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline PANSS total score as the covariate.||||-10.8|-19.4|<0.0001
92426404|NCT00694707|184740241|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.4||||0.004|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline CGI-S score as the covariate.||||-0.1|-0.6|0.0040
92426405|NCT00694707|184740241|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.5||||0.0003|TWO_SIDED|95.0|-0.7|-0.2|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline CGI-S score as the covariate.||||-0.2|-0.7|0.0003
92426406|NCT00694707|184740241|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline CGI-S score as the covariate.||||-0.4|-0.9|<0.0001
92426407|NCT00694707|184740241|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.6|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline CGI-S score as the covariate.||||-0.6|-1.1|<0.0001
92426408|NCT05224141|184740259|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.9762|TWO_SIDED|95.0|1.0|1.59|||Log Rank|One-sided p-value based on log-rank test stratified by ECOG performance status, LDH, liver metastasis, and brain metastasis.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).|Statistical analyses stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).||1.59|1.00|0.9762
92426409|NCT05224141|184740260|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5316|TWO_SIDED|95.0|0.82|1.23|||Log Rank|One-sided p-value based on log-rank test stratified by ECOG performance status, LDH, liver metastasis, and brain metastasis.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).|Statistical analyses stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).||1.23|0.82|0.5316
92239800|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.84||||||95.0|0.72|0.97||||||For serotype 19F the GMC ratio (13vPnC/7vPnC) was calculated||0.97|0.72|
92426410|NCT05224141|184740261|SUPERIORITY||Percent Difference|-3.1|||||TWO_SIDED|95.0|-11.1|4.9|||||Based on Miettinen \& Nurminen method stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).|Statistical analyses stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).||4.9|-11.1|
92239801|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.84||||||95.0|0.71|0.98||||||For serotype 23F the GMC ratio (13vPnC/7vPnC) was calculated||0.98|0.71|
92239802|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.94||||||95.0|0.81|1.1||||||For serotype 1 the GMC ratio (13vPnC/7vPnC) was calculated||1.10|0.81|
92426411|NCT02390908|184740292|SUPERIORITY||Beta|0.22||||0.39|TWO_SIDED|95.0|-0.28|0.72||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 1 and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 1 on log-transformed Viral Load was estimated against the No-Treatment Control EMR Group.|||0.72|-0.28|0.39
92426412|NCT02390908|184740292|SUPERIORITY||Beta|-0.03||||0.94|TWO_SIDED|95.0|-0.84|0.79||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 2 and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 2 on log-transformed Viral Load was estimated against the No-Treatment Control EMR Group.|||0.79|-0.84|0.94
92426413|NCT02390908|184740292|SUPERIORITY||Beta|0.02||||0.95|TWO_SIDED|95.0|-0.69|0.74||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3's Immediate Delivery Group and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 3 on log-transformed Viral Load was estimated against the No-Treatment Control EMR Group.|||0.74|-0.69|0.95
92426414|NCT02390908|184740292|SUPERIORITY||Beta|-0.32||||0.09|TWO_SIDED|95.0|-0.69|0.05||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3 (the Waitlist condition) and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of being in the Waitlist condition (i.e., not receiving the PLUS intervention at Site 3) on log-transformed Viral Load was estimated against the No-Treatment Control EMR Group.|||0.05|-0.69|0.09
92426415|NCT02390908|184740292|SUPERIORITY||Slope|-0.03||||0.79|TWO_SIDED|95.0|-0.24|0.18||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in log VL across the 3-,6-,9- and 12-month follow-ups for Site 1 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.18|-0.24|0.79
92426416|NCT02390908|184740292|SUPERIORITY||Slope|-0.12||||0.57|TWO_SIDED|95.0|-0.53|0.36||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in log VL across the 3-,6-,9- and 12-month follow-ups for Site 2 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.36|-0.53|0.57
92426417|NCT02390908|184740292|SUPERIORITY||Slope|0.01||||0.97|TWO_SIDED|95.0|-0.35|0.36||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 here represents linear change in log VL across the 3-,6-,9- and 12-month follow-ups for Site 3 (Immediate) relative to the No-Treatment EMR Control.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.36|-0.35|0.97
92426418|NCT02390908|184740292|SUPERIORITY||Slope|0.07||||0.41|TWO_SIDED|95.0|-0.1|0.24||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in log VL across the 3-,6-,9- and 12-month follow-ups for Waitlist relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.24|-0.10|0.41
92426419|NCT02390908|184740292|SUPERIORITY||Slope|0.06||||0.82|TWO_SIDED|95.0|-0.41|0.52||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Site 1 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.52|-0.41|0.82
92426420|NCT02390908|184740292|SUPERIORITY||Slope|0.14||||0.49|TWO_SIDED|95.0|-0.26|0.53||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Site 2 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.53|-0.26|0.49
92236572|NCT02940886|184377250|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.8207|TWO_SIDED|95.0|-2.7|3.4|||Mixed model for repeated measures|||"Week 8~Change in s-iron from baseline to week 8 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, including 95% CIs and corresponding p-value."||3.4|-2.7|0.8207
92426421|NCT02390908|184740292|SUPERIORITY||Slope|-0.33||||0.18|TWO_SIDED|95.0|-0.8|0.15||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Site 3 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.15|-0.80|0.18
92426422|NCT02390908|184740292|SUPERIORITY||Slope|0.02||||0.89|TWO_SIDED|95.0|-0.28|0.32||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Waitlist relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.32|-0.28|0.89
92426423|NCT02390908|184740293|SUPERIORITY||Beta|1.92||||0.95|TWO_SIDED|95.0|-54.68|58.53||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 1 and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 1 on CD4 Count was estimated against the No-Treatment Control EMR Group.|||58.53|-54.68|0.95
92426424|NCT02390908|184740293|SUPERIORITY||Beta|23.99||||0.61|TWO_SIDED|95.0|-67.54|115.51||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 2 and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 2 on CD4 Count was estimated against the No-Treatment Control EMR Group.|||115.51|-67.54|0.61
92426425|NCT02390908|184740293|SUPERIORITY||Beta|-23.71||||0.48|TWO_SIDED|95.0|-88.82|41.4||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3's Immediate Delivery Group and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 3 on CD4 Count was estimated against the No-Treatment Control EMR Group.|||41.40|-88.82|0.48
92426426|NCT02390908|184740293|SUPERIORITY||Beta|4.19||||0.88|TWO_SIDED|95.0|-49.76|58.14||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3 (the Waitlist condition) and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of being in the Waitlist condition (i.e., not receiving the PLUS intervention at Site 3) on log-transformed Viral Load was estimated against the No-Treatment Control EMR Group.|||58.14|-49.76|0.88
92426427|NCT02390908|184740293|SUPERIORITY||Slope|7.67||||0.59|TWO_SIDED|95.0|-19.88|35.21||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in CD4 count across the 3-,6-,9- and 12-month follow-ups for Site 1 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||35.21|-19.88|0.59
92426428|NCT02390908|184740293|SUPERIORITY||Slope|-24.95||||0.24|TWO_SIDED|95.0|-66.78|16.88||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in CD4 count across the 3-,6-,9- and 12-month follow-ups for Site 2 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||16.88|-66.78|0.24
92426429|NCT02390908|184740293|SUPERIORITY||Slope|18.32||||0.15|TWO_SIDED|95.0|-6.63|43.27||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in CD4 count across the 3-,6-,9- and 12-month follow-ups for Site 3 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||43.27|-6.63|0.15
92426430|NCT02390908|184740293|SUPERIORITY||Slope|10.27||||0.33|TWO_SIDED|95.0|-10.2|30.74||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in CD4 count across the 3-,6-,9- and 12-month follow-ups for Waitlist relative to No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||30.74|-10.20|0.33
92426431|NCT02390908|184740293|SUPERIORITY||Slope|6.42||||0.8|TWO_SIDED|95.0|-44.24|57.09||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in CD4 count across the 12-,15-, and 18-month follow-ups for Site 1 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||57.09|-44.24|0.80
92426432|NCT02390908|184740293|SUPERIORITY||Slope|-5.43||||0.89|TWO_SIDED|95.0|-85.47|74.61||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in CD4 count across the 12-,15-, and 18-month follow-ups for Site 2 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||74.61|-85.47|0.89
92426433|NCT02390908|184740293|SUPERIORITY||Slope|1.16||||0.97|TWO_SIDED|95.0|-60.61|62.94||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Site 3 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||62.94|-60.61|0.97
92426434|NCT02390908|184740293|SUPERIORITY||Slope|-38.4||||0.07|TWO_SIDED|95.0|-79.51|2.72||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Waitlist relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||2.72|-79.51|0.07
92170640|NCT03725722|184230026|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline vIGA-AD score. An event was defined as the first time achieving vIGA-AD.|||||>|0.05||||||The statistical test was not controlled for multiplicity.|Log Rank|||Time to vIGA-AD TS was def. as time from date of first IMP applic. to first assess. of vIGA-AD TS. Subjects without baseline observation were censored at date of first IMP applic. Subjects with baseline observation not achieving vIGA-AD TS during treatment period were censored at date of last visit with a valid post-baseline assess. on or prior to date of discont. of IMP or initiation of rescue med, whichever occurred first. Subjects affected by COVID-19 pandemic were handled in the same manner.||||>0.05
92236573|NCT02940886|184377251|SUPERIORITY||Mean Difference (Final Values)|1.02||||0.0422|TWO_SIDED|95.0|0.04|2.01|||Mixed model for repeated measures|||"Week 1~Change in fatigue symptoms score from baseline to week 1 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||2.01|0.04|0.0422
92426435|NCT02390908|184740294|SUPERIORITY||Beta|-7.87||||0.22|TWO_SIDED|95.0|-20.52|4.78||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 1 and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 1 on ART Medication Adherence was estimated against Site 3's Waitlist Control Group.|||4.78|-20.52|0.22
92426436|NCT02390908|184740294|SUPERIORITY||Beta|10.29||||0.22|TWO_SIDED|95.0|-6.25|26.82||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 2 and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 2 on ART Medication Adherence was estimated against Site 3's Waitlist Control Group.|||26.82|-6.25|0.22
92426437|NCT02390908|184740294|SUPERIORITY||Beta|-0.27||||0.96|TWO_SIDED|95.0|-11.63|11.08||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3's Immediate Delivery Group and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.|The main effect of receiving the PLUS intervention immediately at Site 3 on ART Medication Adherence was estimated against Site 3's Waitlist Control Group.|||11.08|-11.63|0.96
92426438|NCT02390908|184740294|SUPERIORITY||Slope|6.34||||0.03|TWO_SIDED|95.0|0.72|11.97||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in Medication Adherence across the 3-, 6-, 9- and 12-month follow-ups for Site 1 relative to Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||11.97|0.72|0.03
92426439|NCT02390908|184740294|SUPERIORITY||Slope|3.35||||0.42|TWO_SIDED|95.0|-4.78|11.47||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in Medication Adherence across the 3-, 6-, 9- and 12-month follow-ups for Site 2 relative to Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||11.47|-4.78|0.42
92426440|NCT02390908|184740294|SUPERIORITY||Slope|0.34||||0.91|TWO_SIDED|95.0|-5.85|6.54||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in Medication Adherence across 3-,6-,9- and 12-month follow-ups for Site 3 (Immediate) relative to Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||6.54|-5.85|0.91
92426441|NCT02390908|184740295|SUPERIORITY||Beta|3.19||||0.02|TWO_SIDED|95.0|0.61|5.78||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 1 and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 1 on Alcohol Use severity (AUDIT) was estimated against Site 3's Waitlist Control Group.|||5.78|0.61|0.02
92426442|NCT02390908|184740295|SUPERIORITY||Beta|-0.86||||0.63|TWO_SIDED|95.0|-4.33|2.61||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 2 and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 2 on Alcohol Use severity (AUDIT) was estimated against Site 3's Waitlist Control Group.|||2.61|-4.33|0.63
92426443|NCT02390908|184740295|SUPERIORITY||Beta|4.17||||0.02|TWO_SIDED|95.0|0.8|7.54||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3's Immediate Delivery Group and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.|The main effect of receiving the PLUS intervention immediately at Site 3 on Alcohol Use severity (AUDIT) was estimated against Site 3's Waitlist Control Group.|||7.54|0.80|0.02
92426444|NCT02390908|184740295|SUPERIORITY||Slope|-0.4||||0.46|TWO_SIDED|95.0|-1.47|0.67||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in AUDIT across the 3-, 6-, 9- and 12-month follow-ups for Site 1 relative to that for the Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||0.67|-1.47|0.46
92426445|NCT02390908|184740295|SUPERIORITY||Slope|-0.29||||0.5|TWO_SIDED|95.0|-1.12|0.55||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in AUDIT across the 3-, 6-, 9- and 12-month follow-ups for Site 2 relative to that for the Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||0.55|-1.12|0.50
92426446|NCT02390908|184740295|SUPERIORITY||Slope|-0.35||||0.43|TWO_SIDED|95.0|-1.23|0.52||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in AUDIT across the 3-, 6-, 9- and 12-month follow-ups for Site 3 (Immediate) relative to Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||0.52|-1.23|0.43
92426447|NCT03725852|184740386|SUPERIORITY||Least square (LS) mean difference|42.33|STANDARD_ERROR_OF_MEAN|61.483||0.495|TWO_SIDED|95.0|-81.84|166.49||P-value was based on an analysis of covariance (ANCOVA) model at each time point including treatment, sex, stratum (nintedanib, pirfenidone or neither), age, height, and baseline value as covariates.|ANCOVA|||Change at Week 26||166.49|-81.84|0.495
92426448|NCT03725852|184740387|SUPERIORITY||Difference in Percentage|1.7|||||TWO_SIDED|95.0|-17.3|24.5|||||95% CI for difference calculated using the method of Miettinen and Nurminen.|TEAEs||24.5|-17.3|
92426449|NCT03725852|184740387|SUPERIORITY||Difference in Percentage|15.7|||||TWO_SIDED|95.0|-3.0|30.7|||||95% CI for difference calculated using the method of Miettinen and Nurminen.|Serious TEAEs||30.7|-3.0|
92426450|NCT03725852|184740387|SUPERIORITY||Difference in Percentage|31.4|||||TWO_SIDED|95.0|8.2|49.4|||||95% CI for difference calculated using the method of Miettinen and Nurminen.|TEAEs related to study drug||49.4|8.2|
92426451|NCT03725852|184740387|SUPERIORITY||Difference in Percentage|22.2|||||TWO_SIDED|95.0|6.7|36.4|||||95% CI for difference calculated using the method of Miettinen and Nurminen.|TEAEs leading to study drug discontinuation||36.4|6.7|
92426452|NCT03725852|184740388|SUPERIORITY|||||||0.397|||||||Log Rank|||All-cause deaths||||0.397
92426453|NCT03725852|184740388|SUPERIORITY|||||||0.397|||||||Log Rank|||Respiratory-related deaths||||0.397
92426454|NCT03725852|184740388|SUPERIORITY|||||||0.131|||||||Log Rank|||All-cause hospitalizations||||0.131
92426455|NCT03725852|184740388|SUPERIORITY|||||||0.762|||||||Log Rank|||Respiratory-related hospitalizations||||0.762
92426456|NCT03725852|184740389|SUPERIORITY||Weighted LS mean difference|-9.11|STANDARD_ERROR_OF_MEAN|15.713||0.565|TWO_SIDED|95.0|-40.87|22.64||P-value was based on an ANCOVA model at Week 26 including treatment, stratum (nintedanib, pirfenidone or neither) and baseline 6MWT distance as covariates.|ANCOVA|||Change at Week 26||22.64|-40.87|0.565
92426457|NCT03725852|184740390|SUPERIORITY||Weighted LS mean difference.|-1.58|STANDARD_ERROR_OF_MEAN|3.71||0.673|TWO_SIDED|95.0|-9.06|5.91||P-value was based on an ANCOVA model at Week 26 including treatment, stratum (nintedanib, pirfenidone or neither) and baseline SGRQ value as covariates.|ANCOVA|||Change at Week 26||5.91|-9.06|0.673
92426458|NCT03725852|184740391|SUPERIORITY||Weighted LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|4.591||0.875|TWO_SIDED|95.0|-9.98|8.53||P-value was based on an ANCOVA model at Week 26 including treatment, stratum (nintedanib, pirfenidone or neither) and baseline SGRQ value as covariates.|ANCOVA|||Change at Week 26: Symptoms score||8.53|-9.98|0.875
92426459|NCT03725852|184740391|SUPERIORITY||Weighted LS mean difference|-4.14|STANDARD_ERROR_OF_MEAN|5.038||0.416|TWO_SIDED|95.0|-14.29|6.02||P-value was based on an ANCOVA model at Week 26 including treatment, stratum (nintedanib, pirfenidone or neither) and baseline SGRQ value as covariates.|ANCOVA|||Change at Week 26: Activity score||6.02|-14.29|0.416
92426460|NCT03725852|184740391|SUPERIORITY||Weighted LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|4.029||0.961|TWO_SIDED|95.0|-8.32|7.92||P-value was based on an ANCOVA model at Week 26 including treatment, stratum (nintedanib, pirfenidone or neither) and baseline SGRQ value as covariates.|ANCOVA|||Change at Week 26: Impacts score||7.92|-8.32|0.961
92426461|NCT03725852|184740392|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92426462|NCT01999868|184740426|SUPERIORITY|||||||0.41||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 88. This interval corresponds to the time from randomization until the end of the study. This analysis is the primary analysis of the primary endpoint.||||0.41
92426463|NCT01999868|184740426|SUPERIORITY|||||||0.013||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 40. This interval corresponds to the time from randomization until the end of the blinded treatment phase.||||0.013
92426464|NCT01999868|184740426|SUPERIORITY|||||||0.5||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 28 to 88. This interval corresponds to the time from the last scheduled dose of ustekinumab or ustekinumab placebo until the end of the study.||||0.50
92426465|NCT01999868|184740426|SUPERIORITY|||||||0.67||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 40 to 88. This interval corresponds to the time from the beginning of the blinded observation phase until the end of the study.||||0.67
92426466|NCT01999868|184740427|SUPERIORITY|||||||0.019||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 88. This interval corresponds to the time from randomization until the end of the study.||||0.019
92426467|NCT01999868|184740427|SUPERIORITY|||||||0.001||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 40. This interval corresponds to the time from randomization until the end of the blinded treatment phase.||||0.001
92426468|NCT01999868|184740427|SUPERIORITY|||||||0.018||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 28 to 88. This interval corresponds to the time from the last scheduled dose of ustekinumab or ustekinumab placebo until the end of the study.||||0.018
92426469|NCT01999868|184740427|SUPERIORITY|||||||0.07||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 40 to 88. This interval corresponds to the time from the beginning of the blinded observation phase until the end of the study.||||0.07
92426470|NCT01999868|184740428|SUPERIORITY|||||||0.16||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 88. This interval corresponds to the time from randomization until the end of the study.||||0.16
92236574|NCT02940886|184377251|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.4646|TWO_SIDED|95.0|-1.44|0.66|||Mixed model for repeated measures|||"Week 2~Change in fatigue symptoms score from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||0.66|-1.44|0.4646
92279542|NCT02655237|184462505|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-10.27|||||TWO_SIDED|95.0|-17.291|-3.246|||||Relugolix 40 mg-Leuprorelin|Week 4||-3.246|-17.291|
92426471|NCT01999868|184740428|SUPERIORITY|||||||0.002||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 40. This interval corresponds to the time from randomization until the end of the blinded treatment phase.||||0.002
92426472|NCT01999868|184740428|SUPERIORITY|||||||0.23||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 28 to 88. This interval corresponds to the time from the last scheduled dose of ustekinumab or ustekinumab placebo until the end of the study.||||0.23
92426473|NCT01999868|184740428|SUPERIORITY|||||||0.43||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 40 to 88. This interval corresponds to the time from the beginning of the blinded observation phase until the end of the study.||||0.43
92426474|NCT01999868|184740429|SUPERIORITY|||||||0.06||||||Two-sided test.|Grouped survival analysis|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 88. This interval corresponds to the time from randomization until the end of the study.||||0.06
92426475|NCT01999868|184740429|SUPERIORITY|||||||0.008||||||Two-sided test.|Grouped survival analysis|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 40. This interval corresponds to the time from randomization until the end of the blinded treatment phase.||||0.008
92426476|NCT01999868|184740430|SUPERIORITY|||||||0.005||||||Two-sided test.|Grouped survival analysis|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 88. This interval corresponds to the time from randomization until the end of the study.||||0.005
92426477|NCT01999868|184740430|SUPERIORITY|||||||0.001||||||Two-sided test.|Grouped survival analysis|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 40. This interval corresponds to the time from randomization until the end of the blinded treatment phase.||||0.001
92426478|NCT01999868|184740431|SUPERIORITY|||||||0.013||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 40||||0.013
92426479|NCT01999868|184740431|SUPERIORITY|||||||0.95|||||||Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 88||||0.95
92426480|NCT01999868|184740432|SUPERIORITY|||||||0.18||||||Two-sided test.|ANCOVA|Randomization stratum (PASI score at week 0: 12-20 or \>20), baseline DLQI, and pre-screening disease duration, centered on the median, are covariates.||Week 12 to 40||||0.18
92236575|NCT02940886|184377251|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.5703|TWO_SIDED|95.0|-1.39|0.76|||Mixed model for repeated measures|||"Week 8~Change in fatigue symptoms score from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||0.76|-1.39|0.5703
92236576|NCT05099991|184377366|NON_INFERIORITY|Non-inferiority would be demonstrated with a mean increase in procedure of 5 minutes.|Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-7.8|8.2||||||||8.2|-7.8|
92426481|NCT01999868|184740432|SUPERIORITY|||||||0.045||||||Two-sided test.|ANCOVA|Randomization (PASI score week 0:12-20 or \>20), DLQI score at baseline, duration of disease prior to screening, centered about median, are covariates||Week 12 to 88||||0.045
92426482|NCT00310401|184740437|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||Paired T Test|||Paired T Test was used to compare the change in PaO2/FiO2 ratio from enrollment to procurement between albuterol and saline treated donors||||0.98
92426483|NCT00667875|184740448|SUPERIORITY|||||||0.49||||||The p value represents variation of the total 16 week trial over all three groups.|Mixed Models Analysis|||Analyzed as a mixed model, Group by time (4 time blocks) with an unstructured variance/covariance matrix. Baseline drinks per day was used as a covariate.||||0.49
92426484|NCT00667875|184740449|SUPERIORITY|||||||0.03||||||The p value represents variation of the total 16 week trial over all three groups.|Mixed Models Analysis|||Analyzed as a mixed model (SPSS linear mixed) with an unstructured variance/covariance and baseline percent heavy drinking days as a covariate||||0.03
92426485|NCT00667875|184740450|SUPERIORITY|Anova across all three treatment groups|||||<|0.05|||||||ANOVA|Naltrexone or naltrexone placebo pills taken F=3.9 df 2 Aripiprazole or aripiprazole placebo pills taken F=4.6 df 2||||||<.05
92426486|NCT00667875|184740451|SUPERIORITY||||||<|0.05|||||||ANOVA|f 3.2 df 2||Anova across three groups||||<.05
92426487|NCT03019185|184740474|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 12.|LS Mean change from baseline|13.37|STANDARD_ERROR_OF_MEAN|1.4111|<|0.0001|TWO_SIDED|95.0|10.48|16.27|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 12 were included. Missing data were not imputed.||||16.27|10.48|<0.0001
92426488|NCT03019185|184740475|SUPERIORITY||LS Mean difference (Net)|9.49|STANDARD_ERROR_OF_MEAN|1.813|<|0.0001|TWO_SIDED|97.5|5.38|13.6|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 48 were included. Missing data were not imputed.|Difference is bardoxolone methyl - placebo|||13.60|5.38|<0.0001
92426489|NCT03019185|184740476|SUPERIORITY||LS Mean difference (Net)|7.65|STANDARD_ERROR_OF_MEAN|2.144||0.0005|TWO_SIDED|95.0|3.41|11.89|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 100 (excluding Week 52) were included. Missing data were not imputed.|Difference is bardoxolone methyl - placebo|||11.89|3.41|0.0005
92236577|NCT05099991|184377367|OTHER|||||||0.07|||||||Fisher Exact|||||||0.07
92170641|NCT03725722|184230026|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline vIGA-AD score. An event was defined as the first time achieving vIGA-AD.|||||>|0.05||||||"vIGA-AD was reached in less than 50% of participants, therefore the median time was not estimable.~The statistical test was not controlled for multiplicity."|Log Rank|||Time to vIGA-AD TS was def. as time from date of first IMP applic. to first assess. of vIGA-AD TS. Subjects without baseline observation were censored at date of first IMP applic. Subjects with baseline observation not achieving vIGA-AD TS during treatment period were censored at date of last visit with a valid post-baseline assess. on or prior to date of discont. of IMP or initiation of rescue med, whichever occurred first. Subjects affected by COVID-19 pandemic were handled in the same manner.||||>0.05
92426490|NCT03019185|184740477|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 48.|LS Mean change from baseline|7.4|STANDARD_ERROR_OF_MEAN|1.9451||0.0008|TWO_SIDED|95.0|3.4|11.39|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 48 were included. Missing data were not imputed.||||11.39|3.40|0.0008
92426491|NCT03019185|184740478|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 100.|LS Mean change from baseline|4.28|STANDARD_ERROR_OF_MEAN|1.7484||0.015|TWO_SIDED|95.0|0.84|7.72|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 100 (excluding Week 52) were included. Missing data were not imputed.||||7.72|0.84|0.0150
92426492|NCT03019185|184740479|SUPERIORITY||LS Mean difference (Net)|5.09|STANDARD_ERROR_OF_MEAN|1.656||0.0021|TWO_SIDED|97.5|1.37|8.8|||ANCOVA|Missing eGFR data were imputed using multiple imputation based on the treatment group to which the patient was assigned.|Difference is bardoxolone methyl - placebo|||8.80|1.37|0.0021
92426493|NCT03019185|184740480|SUPERIORITY||LS Mean difference (Net)|4.26|STANDARD_ERROR_OF_MEAN|1.876||0.0232|TWO_SIDED|95.0|0.58|7.94|||ANCOVA|Missing eGFR data were imputed using multiple imputation based on the treatment group to which the patient was assigned.|Difference is bardoxolone methyl - placebo|||7.94|0.58|0.0232
92426494|NCT00491764|184740531|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.9||||0.005||95.0|8.9|36.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||36.8|8.9|0.005
92426495|NCT00491764|184740531|SUPERIORITY_OR_OTHER||Mean Difference (Net)|54.1|||<|0.001||95.0|38.0|70.1|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||70.1|38.0|<0.001
92426496|NCT00491764|184740531|SUPERIORITY_OR_OTHER||Mean Difference (Net)|45.5|||<|0.001||95.0|28.5|62.4|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||62.4|28.5|<0.001
92426497|NCT00491764|184740531|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.0||||0.012||95.0|6.7|33.3|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||33.3|6.7|0.012
92239803|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.93||||||95.0|0.83|1.04||||||For serotype 3 the GMC ratio (13vPnC/7vPnC) was calculated||1.04|0.83|
92426498|NCT00491764|184740531|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.1|||<|0.001||95.0|21.1|53.2|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||53.2|21.1|<0.001
92426499|NCT00491764|184740532|SUPERIORITY_OR_OTHER||Mean Difference (Net)|25.7||||0.002||95.0|11.2|40.2|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||40.2|11.2|0.002
92426500|NCT00491764|184740532|SUPERIORITY_OR_OTHER||Mean Difference (Net)|64.9|||<|0.001||95.0|49.5|80.2|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||80.2|49.5|<0.001
92426501|NCT00491764|184740532|SUPERIORITY_OR_OTHER||Mean Difference (Net)|48.5|||<|0.001||95.0|31.4|65.5|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||65.5|31.4|<0.001
92426502|NCT00491764|184740532|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.4|||<|0.001||95.0|16.0|46.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||46.8|16.0|<0.001
92426503|NCT00491764|184740532|SUPERIORITY_OR_OTHER||Mean Difference (Net)|54.3|||<|0.001||95.0|37.8|70.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||70.8|37.8|<0.001
92426504|NCT00491764|184740533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.4|||<|0.001||95.0|16.0|46.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||46.8|16.0|<0.001
92426505|NCT00491764|184740533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|64.9|||<|0.001||95.0|49.5|80.2|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||80.2|49.5|<0.001
92426506|NCT00491764|184740533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|66.7|||<|0.001||95.0|50.6|82.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||82.8|50.6|<0.001
92426507|NCT00491764|184740533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.4|||<|0.001||95.0|16.0|46.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||46.8|16.0|<0.001
92426508|NCT00491764|184740533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|57.1|||<|0.001||95.0|40.7|73.5|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||73.5|40.7|<0.001
92426509|NCT01601132|184740537|SUPERIORITY_OR_OTHER|||||||0.5663||||||Significant difference defined a priori as p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.5663
92426510|NCT01601132|184740538|SUPERIORITY_OR_OTHER||Ratio (%) (Test/Reference)|105.86|||||TWO_SIDED|90.0|101.77|110.12|||ANOVA||Ratio (theophylline+colchicine/theophylline) of LSMs calculated using the exponentiation of the difference between treatment LSM from the log-transformed Cmax, expressed as a percentage relative to the reference treatment.|Analysis of variance (ANOVA) was performed on the log-transformed Cmax to calculate least squares mean (LSM) for each treatment. The ANOVA model included sequence, treatment, and treatment within a sequence as fixed effects, and participant as a random effect. The criterion for demonstrating a lack of a clinically significant interaction is a 90% CI for the ratio for AUC0-t, (AUC0-∞), and Cmax to be within the 0.80 to 1.25 interval, representing a maximum of 20% difference between treatments.||110.12|101.77|
92239804|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.97||||||95.0|0.83|1.13||||||For serotype 5 the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.83|
92426511|NCT01601132|184740539|SUPERIORITY_OR_OTHER||Ratio (%) (Test/Reference)|105.63|||||TWO_SIDED|90.0|101.81|109.59|||ANOVA||Ratio (theophylline+colchicine/theophylline) of LSMs calculated using the exponentiation of the difference between treatment LSM from the log-transformed AUC(0-t)\], expressed as a percentage relative to the reference treatment.|Analysis of variance (ANOVA) was performed on the log-transformed AUC(0-t) to calculate least squares mean (LSM) for each treatment. The ANOVA model included sequence, treatment, and treatment within a sequence as fixed effects, and participant as a random effect. The criterion for demonstrating a lack of a clinically significant interaction is a 90% CI for the ratio for AUC0-t, AUC0-∞, and Cmax to be within the 0.80 to 1.25 interval, representing a maximum of 20% difference between treatments.||109.59|101.81|
92426512|NCT01601132|184740540|SUPERIORITY_OR_OTHER||Ratio (%) (Test/Reference)|106.43|||||TWO_SIDED|90.0|101.1|112.04|||ANOVA||Ratio (theophylline+colchicine/theophylline) of LSMs calculated using the exponentiation of the difference between treatment LSM from the log-transformed AUC(0-∞) , expressed as a percentage relative to the reference treatment.|Analysis of variance (ANOVA) was performed on the log-transformed AUC(0-∞) to calculate least squares mean (LSM) for each treatment. The ANOVA model included sequence, treatment, and treatment within a sequence as fixed effects, and participant as a random effect. The criterion for demonstrating a lack of a clinically significant interaction is a 90% CI for the ratio for AUC0-t, AUC0-∞, and Cmax to be within the 0.80 to 1.25 interval, representing a maximum of 20% difference between treatments.||112.04|101.10|
92426513|NCT01601132|184740541|SUPERIORITY_OR_OTHER||Ratio (%) (Test/Reference)|93.96|||||TWO_SIDED|90.0|89.25|98.92|||ANOVA||Ratio (theophylline+colchicine/theophylline) of LSMs calculated using the exponentiation of the difference between treatment LSM from the log-transformed CL/F, expressed as a percentage relative to the reference treatment.|Analysis of variance (ANOVA) was performed on the log-transformed CL/F to calculate least squares mean (LSM) for each treatment. The ANOVA model included sequence, treatment, and treatment within a sequence as fixed effects, and participant as a random effect. The criterion for demonstrating a lack of a clinically significant interaction is a 90% CI for the ratio for AUC0-t, AUC0-∞, and Cmax to be within the 0.80 to 1.25 interval, representing a maximum of 20% difference between treatments.||98.92|89.25|
92426514|NCT01601132|184740542|SUPERIORITY_OR_OTHER||Ratio (%) (Test/Reference)|98.59|||||TWO_SIDED|90.0|90.97|106.85|||ANOVA||Ratio (theophylline+colchicine/theophylline) of LSMs calculated using the exponentiation of the difference between treatment LSM from the log-transformed Vd/F, expressed as a percentage relative to the reference treatment.|Analysis of variance (ANOVA) was performed on the log-transformed Vd/F to calculate least squares mean (LSM) for each treatment. The ANOVA model included sequence, treatment, and treatment within a sequence as fixed effects, and participant as a random effect. The criterion for demonstrating a lack of a clinically significant interaction is a 90% CI for the ratio for AUC0-t, AUC0-∞, and Cmax to be within the 0.80 to 1.25 interval, representing a maximum of 20% difference between treatments.||106.85|90.97|
92426515|NCT02110238|184740543|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A VAS (0-100 mm) WOMAC Pain subscale score CFB; an equal n t-test for non-inferiority of means; a non-inferiority margin of -8 mm; change standard deviation of 26 mm; two-sided alpha=0.05; 80% power; an expected mean difference of 0, and a drop-out plus important deviation percentage of approximately 20% were used to establish study sample size.|Least square mean difference|-3.3|||||TWO_SIDED|95.0|-6.77|0.17|||||"A MERM regression model was fit to the change from baseline at weeks 3, 6, and 12. The over weeks 3, 6, and 12 single point estimate least square mean change was calculated for both arms, the difference and its 95% confidence interval calculated."|||0.17|-6.77|
92426516|NCT03228433|184740554|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with a fixed effect for regimen and random effect for participant. The least squares(LS) means and difference of least squares (LS) means for the log-transformed parameters were exponentiated to obtain the point estimates (Geometric LS means) of the food effect and 90% confidence intervals (CIs).|Least Squares (LS) Mean Difference|0.951|||||TWO_SIDED|90.0|0.823|1.099||||||||1.099|0.823|
92426517|NCT03228433|184740554|EQUIVALENCE|A linear regression model (power model), log (ln) (parameter) equal to (=) intercept plus (+) slope\*ln (dose), was fit to describe the relationship between each parameter and the corresponding dose levels. Dose Proportionality was declared if the 90% CI of the slope lied entirely within the critical region as defined by 1 - ln(0.8) per (/)l n(r) to 1 + ln(1.25)/ln(r), where r was the ratio of the highest and lowest dose in the study.|Slope|1.14|||||TWO_SIDED|90.0|1.04|1.25||||||||1.25|1.04|
92426518|NCT03228433|184740555|EQUIVALENCE|Bioequivalence interval of 627.51 to 659.59|LS Mean Difference|0.951|||||TWO_SIDED|90.0|0.825|1.097||||||||1.097|0.825|
92426519|NCT03228433|184740555|EQUIVALENCE|A linear regression model (power model), ln (parameter) = intercept + slope\*ln (dose), was fit to describe the relationship between each parameter and the corresponding dose levels. Dose Proportionality was declared if the 90% CI of the slope lied entirely within the critical region as defined by 1 - ln (0.8)/l n(r) to 1 + ln (1.25)/ln(r), where r was the ratio of the highest and lowest dose in the study.|Slope|1.11|||||TWO_SIDED|90.0|1.0|1.22||||||||1.22|1.00|
92426520|NCT03228433|184740556|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with a fixed effect for regimen and random effect for participant. The LS means and difference of LS means for the log-transformed parameters were exponentiated to obtain the point estimates (Geometric LS means) of the food effect and 90% confidence intervals CIs.|LS Mean Difference|0.58|||||TWO_SIDED|90.0|0.431|0.781||||||||0.781|0.431|
92426521|NCT03228433|184740556|EQUIVALENCE|A linear regression model (power model), ln (parameter) = intercept + slope\*ln (dose), was fit to describe the relationship between each parameter and the corresponding dose levels. Dose Proportionality was declared if the 90% CI of the slope lied entirely within the critical region as defined by 1 - ln (0.8)/l n(r) to 1 + ln (1.25)/ln(r), where r was the ratio of the highest and lowest dose in the study.|Slope|1.06||||||90.0|0.96|1.17||||||||1.17|0.96|
92426522|NCT03055156|184740558|OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.60
92239805|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.96||||||95.0|0.81|1.13||||||For serotype 6A the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.81|
92170642|NCT03725722|184230026|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline vIGA-AD score. An event was defined as the first time achieving vIGA-AD.|||||>|0.05||||||The statistical test was not controlled for multiplicity|Log Rank|||Time to vIGA-AD TS was def. as time from date of first IMP applic. to first assess. of vIGA-AD TS. Subjects without baseline observation were censored at date of first IMP applic. Subjects with baseline observation not achieving vIGA-AD TS during treatment period were censored at date of last visit with a valid post-baseline assess. on or prior to date of discont. of IMP or initiation of rescue med, whichever occurred first. Subjects affected by COVID-19 pandemic were handled in the same manner||||>0.05
92236578|NCT01954628|184377368|SUPERIORITY_OR_OTHER||Least sqaure mean difference|23.7||||0.759|TWO_SIDED|95.0|-128.3|175.7||AAC were compared between treatments using an analysis of variance model adjusting for treatment and region as factors and including the baseline score as a covariate.|ANOVA|||Sample size based on area above the daily EXACT score curve (AAC) from Day 1 to Day 29 from subjects with an acute COPD exacerbation, collected over 28 days. Assuming a residual SD of 500 points, a sample size of 200 subjects per arm would be expected to have an 80% power to detect a true treatment difference in the AAC of 140 points over 12-weeks treatment, using a 2-sided test; alpha-level of 0.05.This difference corresponds to a mean daily improvement of 1.67 points on the EXACT symptom score||175.7|-128.3|0.759
92426523|NCT03055156|184740559|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
92426524|NCT03055156|184740560|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
92426525|NCT03055156|184740561|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
92426526|NCT03055156|184740562|OTHER|||||||0.02|||||||t-test, 2 sided|||Analysis of Wake values||||0.02
92426527|NCT03055156|184740562|OTHER|||||||0.06|||||||t-test, 2 sided|||Analysis of REM values||||0.06
92236579|NCT01954628|184377369|SUPERIORITY_OR_OTHER||Least sqaure mean difference|-0.34||||0.588|TWO_SIDED|95.0|-1.57|0.89|||ANOVA|||ANOVA model with fixed factors treatment, region and baseline total CAT score as covariate were used. Missing post-treatment data were imputed using the Last Observation Carried Forward principle.||0.89|-1.57|0.588
92426528|NCT03055156|184740562|OTHER|||||||0.83|||||||t-test, 2 sided|||Analysis of Non REM stage 1 values||||0.83
92426529|NCT03055156|184740562|OTHER|||||||0.87|||||||t-test, 2 sided|||Analysis of Non REM stage 2 values||||0.87
92426530|NCT03055156|184740562|OTHER|||||||0.97|||||||t-test, 2 sided|||Analysis of Non REM stage 3 values||||0.97
92426531|NCT03055156|184740563|OTHER|||||||0.38|||||||t-test, 2 sided|||||||0.38
92426532|NCT03055156|184740564|OTHER|||||||0.96|||||||t-test, 2 sided|||||||0.96
92426533|NCT03055156|184740566|OTHER|||||||0.55|||||||t-test, 2 sided|||||||0.55
92426534|NCT03055156|184740567|OTHER|||||||0.86|||||||t-test, 2 sided|||analysis of 0-90 minutes||||0.86
92426535|NCT03055156|184740567|OTHER|||||||0.29|||||||t-test, 2 sided|||analysis of 90-180 minutes||||0.29
92426536|NCT03055156|184740567|OTHER|||||||0.58|||||||t-test, 2 sided|||analysis of 180-270 minutes||||0.58
92426537|NCT03055156|184740567|OTHER|||||||0.62|||||||t-test, 2 sided|||analysis of 270-360 min||||0.62
92426538|NCT03055156|184740568|OTHER|||||||0.389|||||||ANOVA|||Implemented two-way mixed ANOVA with time as within-subject variable and topper type as between-subject variable. This is to compare the difference in core body temperature trend over time between the two study arms. Interaction between time and topper type on CBT was calculated.||||0.389
92426539|NCT03055156|184740568|OTHER|||||||0.01|||||||ANOVA|||Implemented two-way mixed ANOVA with time as within-subject variable and topper type as between-subject variable. This is to see the effect over time from both study arms on CBT. Main effect of time on CBT.||||0.01
92426540|NCT03055156|184740568|OTHER|||||||0.642|||||||ANOVA|||Implemented two-way mixed ANOVA with time as within-subject variable and topper type as between-subject variable. This is to see the effect of the intervention on CBT including all time points. Main effect of topper type on CBT.||||0.642
92426541|NCT03055156|184740569|OTHER|||||||0.61|||||||t-test, 2 sided|||||||0.61
92426542|NCT03055156|184740570|OTHER|||||||0.71|||||||t-test, 2 sided|||||||0.71
92426543|NCT03055156|184740571|OTHER|||||||1|||||||t-test, 2 sided|||||||1.00
92236580|NCT01954628|184377370|SUPERIORITY_OR_OTHER||Least sqaure mean difference|1.083||||0.646|TWO_SIDED|95.0|0.771|1.52|||Negative binomial regression model|Negative binomial regression model with fixed factors treatment, region and time in study as offset.||The number of subjects with at least one COPD exacerbation were summarised by treatment group.||1.520|0.771|0.646
92236581|NCT01954628|184377373|SUPERIORITY_OR_OTHER|||||||0.226|||||||ANOVA|||Missing post-treatment data was imputed using the Last Observation Carried Forward principle.||||0.226
92426544|NCT00216476|184740576|SUPERIORITY_OR_OTHER||||||<|0.0001||||||threshold for significance: 0.05 (2-sided)|Log Rank|||Null hypothesis was that there is no difference in treatment effect between risperidone LAI and quetiapine by mean relapse free period; given a estimated relapse rate of 30% for risperidone LAI and 42% for quetiapine, with 80% power and 5% 2-tailed significance level, 251 subjects were needed per treatment arm. To adjust for an estimated 20% discontinuations for reasons other than relapse, 628 subjects in total were needed. Actual relapse rates were 17% (risperidone LAI) and 31% (quetiapine).||||<0.0001
92426545|NCT00216476|184740578|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon (Mann-Whitney)|||Between-group comparison of the change from baseline to endpoint in total PANSS score. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.0001
92426546|NCT00216476|184740578|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in total PANSS score. The endpoint of the study was based on the LOCF principle.||||<0.0001
92426547|NCT00216476|184740578|SUPERIORITY_OR_OTHER|||||||0.1026|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in total PANSS score. The endpoint of the study was based on the LOCF principle.||||0.1026
92426548|NCT00216476|184740579|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon (Mann-Whitney)|||Between-group comparison of the change from baseline to endpoint in CGI-S score. The endpoint of the study was based on the LOCF principle.||||<0.0001
92426549|NCT00216476|184740579|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in CGI-S score. The endpoint of the study was based on the LOCF principle.||||<0.0001
92426550|NCT00216476|184740579|SUPERIORITY_OR_OTHER|||||||0.0446|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in CGI-S score. The endpoint of the study was based on the LOCF principle.||||0.0446
92426551|NCT00216476|184740580|SUPERIORITY_OR_OTHER|||||||0.0941|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon (Mann-Whitney)|||Between-group comparison of the change from baseline to endpoint in PCS score. The endpoint of the study was based on the LOCF principle.||||0.0941
92426552|NCT00216476|184740580|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in PCS score. The endpoint of the study was based on the LOCF principle.||||<0.0001
92236582|NCT00958568|184377381|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Log Rank|||Power estimate assumes approximately 1230 participants enter SPII. With a 60% drop-out/disqualification rate in SPII, then 492 participants enter SPIII. If 26% of participants drop out during SPIII, then 364 participants enter SPIV. Assuming 20% drop-out rate, 25% relapse rate on OFC and 40% relapse rate for fluoxetine (hazard ratio = 0.56), the log-rank test is 80% powered to detect a difference at a 2-sided 0.05 level. A total of 95 relapse events during SPIV should satisfy these assumptions.||||<0.001
92236583|NCT00958568|184377382|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|Relapse rates were analyzed using the Cochran-Mantel-Haenszel test adjusting for country.||||||<0.001
92236584|NCT00958568|184377383|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|Relapse rates were analyzed using the Cochran-Mantel-Haenszel test adjusting for country.||||||<0.001
92236585|NCT00958568|184377384|SUPERIORITY_OR_OTHER|||||||0.713||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|Relapse rates were analyzed using the Cochran-Mantel-Haenszel test adjusting for country.||||||0.713
92426553|NCT00216476|184740580|SUPERIORITY_OR_OTHER|||||||0.1146|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in PCS score. The endpoint of the study was based on the LOCF principle.||||0.1146
92426554|NCT00216476|184740580|SUPERIORITY_OR_OTHER|||||||0.5589|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon (Mann-Whitney)|||Between-group comparison of the change from baseline to endpoint in MCS score. The endpoint of the study was based on the LOCF principle.||||0.5589
92426555|NCT00216476|184740580|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in MCS score. The endpoint of the study was based on the LOCF principle.||||<0.0001
92426556|NCT00216476|184740580|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in MCS score. The endpoint of the study was based on the LOCF principle.||||<0.0001
92426557|NCT03569033|184740583|OTHER||Difference in Least Squares Means|-0.32||||0.748|TWO_SIDED|95.0|-2.29|1.66|||Longitudinal Data Analysis|||||1.66|-2.29|0.748
92426558|NCT03569033|184740584|OTHER||Difference in Least Squares Means|0.99||||0.754|TWO_SIDED|95.0|-5.33|7.3|||ANCOVA|||||7.30|-5.33|0.754
92426559|NCT03569033|184740585|OTHER||Difference in Least Squares Means|0.8||||0.627|TWO_SIDED|95.0|-2.5|4.1|||ANCOVA|||||4.10|-2.50|0.627
92426560|NCT03569033|184740586|OTHER||Difference in Least Squares Means|0.09||||0.631|TWO_SIDED|95.0|-0.28|0.45|||ANCOVA|||||0.45|-0.28|0.631
92426561|NCT03072732|184740601|NON_INFERIORITY|The µ-Cor System will be considered non-inferior with respect to clinical performance (i.e., trends in fluid change) of the ZOE device if the lower 95% confidence interval of the differences (Primary Measurement) is greater than the non-inferiority margin of -0.05.|Mean Difference (Final Values)|0.66|||||TWO_SIDED|95.0|0.57|0.75|||||"Because the distribution was skewed, the average was calculated by 1) Fisher Transformation of values, 2) averaging the transformed values, 3) back calculating the mean.~The Taylor Series expansion and Delta method was used to determine variance."|"The null hypothesis was that the correlation coefficient of the ZOE device would be greater than the correlation coefficient of the uCor device by at least 0.05.~For each subject, a correlation coefficient was calculated between study arm 1 uCor readings and UFV, as well as ZOE readings and UFV.~The difference between uCor correlation coefficient and ZOE correlation coefficient for each subject was used as the Primary Measurement."||0.75|0.57|
92426562|NCT03072732|184740601|NON_INFERIORITY|The µ-Cor System will be considered non-inferior with respect to clinical performance (i.e., trends in fluid change) of the ZOE device if the lower 95% confidence interval of the differences (Primary Measurement) is greater than the non-inferiority margin of -0.05.|Mean Difference (Final Values)|0.23|||||TWO_SIDED|95.0|0.12|0.35|||||"Because the distribution was skewed, the average was calculated by 1) Fisher Transformation of values, 2) averaging the transformed values, 3) back calculating the mean.~The Taylor Series expansion and Delta method was used to determine variance."|"The null hypothesis was that the correlation coefficient of the ZOE device would be greater than the correlation coefficient of the uCor device by at least 0.05.~For each subject, a correlation coefficient was calculated between study arm 2 uCor readings and UFV, as well as ZOE readings and UFV.~The difference between uCor correlation coefficient and ZOE correlation coefficient for each subject was used as the Primary Measurement."||0.35|0.12|
92426563|NCT04889222|184740625|EQUIVALENCE|A TOST procedure using the Wilcoxon Rank Sum Test was used to test the hypothesis that the median biases of the INVSENSOR00050 sensor from two pigmentation subgroups (Light and Dark) were equivalent within ± 1 %SpO2. The TOST procedure provides a p-value indicating whether the two measures are equivalent if the p-value is less than 0.05.||||||0.00097||||||The a priori threshold for p-value was 0.05.|Two One Sided Tests (TOST)|||||||0.00097
92426564|NCT04889222|184740626|EQUIVALENCE|A TOST procedure using the Wilcoxon Rank Sum Test was used to test the hypothesis that the median biases of the RD SET SpO2 sensor from two pigmentation subgroups (Light and Dark) were equivalent within ± 1 %SpO2. The TOST procedure provides a p-value indicating whether the two measures are equivalent if the p-value is less than 0.05.||||||0||||||The a priori threshold for p-value was 0.05.|Two One-Sided Tests (TOST)|||||||0.00000
92426565|NCT01044706|184740633|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference produts. Differences were declared statistically significant at the 5% level (p\<0.05).|ratio of T/R geometric mean x 100|108.46|STANDARD_ERROR_OF_MEAN|0.0321|<|0.05|TWO_SIDED|90.0|102.79|114.44||Differences were declared statistically significant at the 5% level (p\<0.05).|ANOVA|degrees of freedom 55|Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean for AUCO-144 and Cmax between the test and reference product fall within the interval of 80-125%.|Using GLM procedures in SAS, ANOVA was performed on ln-transformed AUC0-144 at the alpha level of 0.05. Factors incorporated in the model will include: Group, Treatment and Treatment\*Group. Intra-subject coefficient of variation (CV%) will be estimated. The ratio of means (T/R) and 90% geometric confidence interval for the ratio of means, based on least-squares means from the ANOVA of the ln-transformed data, will be calculated for AUC0-144 hour.||114.44|102.79|<0.05
92426566|NCT01044706|184740634|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference produts. Differences were declared statistically significant at the 5% level (p\<0.05).|ratio of T/R geometric mean x 100|110.5|STANDARD_ERROR_OF_MEAN|0.0281|<|0.05|TWO_SIDED|95.0|105.43|115.82||Differences were declared statistically significant at the 5% level (p\<0.05).|ANOVA|degrees of freedom 56|Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean for AUCO-144 and Cmax between the test and reference product fall within the interval of 80-125%.|Using GLM procedures in SAS, ANOVA was performed on ln-transformed Cmax at the alpha level of 0.05. Factors incorporated in the model will include: Group, Treatment and Treatment\*Group. Intra-subject coefficient of variation (CV%) will be estimated. The ratio of means (T/R) and 90% geometric confidence interval for the ratio of means, based on least-squares means from the ANOVA of the ln-transformed data, will be calculated for Cmax.||115.82|105.43|<0.05
92426567|NCT02478372|184740681|SUPERIORITY_OR_OTHER|||||||0.332|TWO_SIDED|||||Significance was set at \<0.01|Chi-squared|||||||0.332
92426568|NCT00116428|184740690|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Log Rank|||The study null hypothesis is that the chronic success rates for the THERMOCOOL and AAD groups are equal.||||<0.001
92426569|NCT01032174|184740695|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The logistic regression model contained terms for treatment, gender and age.|Regression, Logistic|||||||<0.0001
92426570|NCT01032174|184740696|SUPERIORITY_OR_OTHER||Difference of Least Square Mean|1.06|STANDARD_ERROR_OF_MEAN|0.55||0.0568|TWO_SIDED|95.0|-0.03|2.15||The analysis of covariance (ANCOVA) model contained terms for treatment, gender, age and Body Mass Index (BMI).|ANCOVA|Least square mean was adjusted for gender, age and BMI.||||2.15|-0.03|0.0568
92426571|NCT01032174|184740697|SUPERIORITY_OR_OTHER|||||||0.0682|TWO_SIDED|||||The logistic regression model contained terms for treatment, gender and age.|Regression, Logistic|||||||0.0682
92236586|NCT00958568|184377385|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|Relapse rates were analyzed using the Cochran-Mantel-Haenszel test adjusting for country.||||||<0.001
92236587|NCT00958568|184377386|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Log Rank|||||||<0.001
92236588|NCT00958568|184377387|SUPERIORITY_OR_OTHER|||||||0.831||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Log Rank|||||||0.831
92236589|NCT00958568|184377388|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Log Rank|||||||<0.001
92426572|NCT00113087|184740698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.28|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.28
92170643|NCT03725722|184230026|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline vIGA-AD score. An event was defined as the first time achieving vIGA-AD|||||<|0.001||||||The statistical test was not controlled for multiplicity|Log Rank|||Time to vIGA-AD TS was def. as time from date of first IMP applic. to first assess. of vIGA-AD TS. Subjects without baseline observation were censored at date of first IMP applic. Subjects with baseline observation not achieving vIGA-AD TS during treatment period were censored at date of last visit with a valid post-baseline assess. on or prior to date of discont. of IMP or initiation of rescue med, whichever occurred first. Subjects affected by COVID-19 pandemic were handled in the same manner||||<0.001
92426573|NCT00113087|184740699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.42||95.0|||||Mixed Models Analysis|||||||0.42
92170644|NCT01600014|184230027|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.44||||0.001|TWO_SIDED|95.0|1.32|4.51||Chi-square test for stratified data with a significance level of 5%. No adjustment for multiple tests was needed, due to the analyses were based on distinct subject groups|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel ratio of clearance rates (Ingenol mebutate relative to Vehicle) adjusted for anatomical location and country||The analysis type was superiority between groups. In total 141 subjects were included||4.51|1.32|0.001
92279543|NCT02655237|184462505|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-0.89|||||TWO_SIDED|95.0|-6.996|5.209|||||Relugolix 40 mg-Leuprorelin|Week 8||5.209|-6.996|
92426574|NCT00113087|184740700|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.64||||0.008||95.0|||||Mixed Models Analysis|||||||0.008
92426575|NCT00113087|184740701|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
92426576|NCT00113087|184740702|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Fisher Exact|||||||0.71
92426577|NCT00113087|184740703|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.74
92426578|NCT00113087|184740704|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.22
92426579|NCT00113087|184740705|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||t-test, 2 sided|||||||0.86
92426580|NCT00113087|184740706|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||t-test, 2 sided|||||||0.60
92426581|NCT00113087|184740707|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.60
92426582|NCT00113087|184740708|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||||||0.01
92426583|NCT00113087|184740709|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||t-test, 2 sided|||||||0.008
92426584|NCT00113087|184740710|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
92426585|NCT00113087|184740711|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.31
92426586|NCT00113087|184740712|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||t-test, 2 sided|||||||0.36
92426587|NCT00113087|184740713|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||t-test, 2 sided|||||||0.37
92426588|NCT00113087|184740714|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||t-test, 2 sided|||||||0.08
92426589|NCT00113087|184740715|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||t-test, 2 sided|||||||0.07
92426590|NCT00113087|184740716|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||||||0.05
92426591|NCT00113087|184740717|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||t-test, 2 sided|||||||0.11
92426592|NCT00113087|184740718|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||t-test, 2 sided|||||||0.49
92426593|NCT00113087|184740719|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||t-test, 2 sided|||||||0.35
92426594|NCT00113087|184740720|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||t-test, 2 sided|||||||0.62
92426595|NCT00113087|184740721|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||t-test, 2 sided|||||||0.43
92426596|NCT00113087|184740722|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||||||0.02
92426597|NCT00113087|184740723|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||t-test, 2 sided|||||||0.34
92426598|NCT00113087|184740724|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||t-test, 2 sided|||||||.81
92426599|NCT00113087|184740725|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Fisher Exact|||||||0.08
92426600|NCT00113087|184740726|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Fisher Exact|||||||0.06
92426601|NCT03452228|184740727|SUPERIORITY||Median Difference (Final Values)|-43.5|||||TWO_SIDED|95.0|-89.4|1238.9||||||||1238.9|-89.4|
92426602|NCT03452228|184740727|SUPERIORITY||Median Difference (Final Values)|-75.5|||||TWO_SIDED|95.0|-82.2|121.2||||||||121.2|-82.2|
92426603|NCT01011738|184740793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.349||||0.0022|TWO_SIDED|95.0|1.542|7.271||Multiple logistic regression were run in stepwise procedure with significance level of 0.05 to stay, considering all pre and on-treatment factors identified by univariate logistic regression to be associated with HBsAg clearance 3 yrs post-treatment.|Wald-Chi-Square test|||In HBeAg positive participants, Log10-drop HBsAg at Week 24 was analyzed as the predictor factor of HBsAg clearance at 3 years post-treatment in analysis A.||7.271|1.542|0.0022
92426604|NCT01011738|184740793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.595||||0.0019|TWO_SIDED|95.0|1.603|8.063||Multiple logistic regression were run in stepwise procedure with significance level of 0.05 to stay, considering all pre and on-treatment factors identified by univariate logistic regression to be associated with HBsAg clearance 3 yrs post-treatment.|Wald-Chi-Square test|||In HBeAg positive participants, Log10-drop HBsAg at Week 24 was analyzed as the predictor factor of HBsAg clearance at 3 years post-treatment in analysis B.||8.063|1.603|0.0019
92426605|NCT01011738|184740793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.851||||0.0369|TWO_SIDED|95.0|0.732|0.99||Multiple logistic regression were run in stepwise procedure with significance level of 0.05 to stay, considering all pre and on-treatment factors identified by univariate logistic regression to be associated with HBsAg clearance 3 yrs post-treatment.|Wald-Chi-Square test|||In HBeAg positive participants, Weight in kg was analyzed as independent predictor factor of HBsAg clearance at 3 years post-treatment in analysis A.||0.990|0.732|0.0369
92170645|NCT01600014|184230027|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.37||||0.013|TWO_SIDED|95.0|1.07|5.25||Chi-square test for stratified data with a significance level of 5%. No adjustment for multiple tests was needed, due to the analyses were based on distinct subject groups|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel ratio of clearance rates (Ingenol mebutate relative to Vehicle) adjusted for anatomical location and week of randomisation||The analysis type was superiority between groups. In total 62 subjects were included||5.25|1.07|0.013
92170646|NCT01600014|184230028|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|4.41||||0.016|TWO_SIDED|95.0|1.1|17.62||A closed test procedure was chosen where the evaluation process stopped when the first non-significant results were observed thus securing that the overall significance level did not exceed 5% for multiple testing|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel ratio of clearance rates (Ingenol mebutate relative to Vehicle) adjusted for anatomical location and country||The analysis type was superiority between groups. In total 141 subjects were included||17.62|1.10|0.016
92426606|NCT01011738|184740797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.155||||0.0033|TWO_SIDED|95.0|0.045|0.539||Multiple logistic regression were run in stepwise procedure with significance level of 0.05 to stay, considering all pre and on-treatment factors identified by univariate logistic regression to be associated with HBsAg clearance 3 yrs post-treatment.|Wald-Chi-Square test|||In HBeAg negative participants, HBsAg in log10 IU/mL at Week 24 was analyzed as the predictor factor of HBsAg clearance at 3 years post-treatment in analysis A.||0.539|0.045|0.0033
92426607|NCT01011738|184740797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.191||||0.0042|TWO_SIDED|95.0|0.062|0.594|||Wald-Chi-Square test|||In HBeAg negative participants, HBsAg in log10 IU/mL at Week 24 was analyzed as the predictor factor of HBsAg clearance at 3 years post-treatment in analysis B.||0.594|0.062|0.0042
92426608|NCT01011738|184740797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.528||||0.0149|TWO_SIDED|95.0|1.086|2.15||Multiple logistic regression were run in stepwise procedure with significance level of 0.05 to stay, considering all pre and on-treatment factors identified by univariate logistic regression to be associated with HBsAg clearance 3 yrs post-treatment.|Wald-Chi-Square test|||In HBeAg negative participants, ALT ratio was analysed as the predictor factor of HBsAg clearance at 3 years post-treatment in analysis A.||2.150|1.086|0.0149
92426609|NCT01967173|184740820|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Fluticasone 250 is equal to the inferiority of Advair 100/50 compared to Fluticasone 250||||0.003
92426610|NCT01967173|184740820|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Fluticasone 250 is equal to the inferiority of Advair 100/50 compared to Fluticasone 250||||0.9
92426611|NCT01967173|184740820|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Fluticasone 500 is equal to the inferiority of Advair 100/50 compared to Fluticasone 500||||<0.001
92426612|NCT01967173|184740820|SUPERIORITY|||||||0.42|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Advair 250/50 is equal to the inferiority of Advair 100/50 compared to Advair 250/50||||0.42
92426613|NCT01967173|184740820|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Advair 250/50 is equal to the inferiority of Advair 100/50 compared to Advair 250/50||||0.84
92170647|NCT01600014|184230028|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.24||||0.1|TWO_SIDED|95.0|0.78|6.47||A closed test procedure was chosen where the evaluation process stopped when the first non-significant results were observed thus securing that the overall significance level did not exceed 5% for multiple testing|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel ratio of clearance rates (Ingenol mebutate relative to Vehicle) adjusted for anatomical location and country||The analysis type was superiority between groups. In total 62 subjects were included||6.47|0.78|0.10
92426614|NCT01967173|184740820|SUPERIORITY|||||||0.015|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 250/50 compared to Fluticasone 500 is equal to the inferiority of Advair 250/50 compared to Fluticasone 500||||0.015
92426615|NCT01967173|184740820|SUPERIORITY|||||||0.085|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 250/50 compared to Fluticasone 250 is equal to the inferiority of Advair 250/50 compared to Fluticasone 250||||0.085
92426616|NCT01967173|184740820|SUPERIORITY|||||||0.62|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 250/50 compared to Fluticasone 250 is equal to the inferiority of Advair 250/50 compared to Fluticasone 250||||0.62
92426617|NCT01967173|184740820|SUPERIORITY|||||||0.48|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Fluticasone 500 compared to Fluticasone 250 is equal to the inferiority of Fluticasone 500 compared to Fluticasone 250||||0.48
92426618|NCT01967173|184740820|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Fluticasone 100 is equal to the inferiority of Advair 100/50 compared to Fluticasone 100||||0.14
92426619|NCT01967173|184740820|SUPERIORITY|||||||0.096|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Fluticasone 250 compared to Fluticasone 100 is equal to the inferiority of Fluticasone 250 compared to Fluticasone 100||||0.096
92426620|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.38||1|TWO_SIDED|95.0|-0.8|0.8|||Mixed Models Analysis|||Overall Opinion: Intraparticipant analysis||0.8|-0.8|1.000
92426621|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.37||1|TWO_SIDED|95.0|-0.7|0.7|||Mixed Models Analysis|||Vascularity: Intraparticipant analysis||0.7|-0.7|1.000
92426622|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.3|STANDARD_ERROR_OF_MEAN|0.36||0.391|TWO_SIDED|95.0|-1.0|0.4|||Mixed Models Analysis|||Pigmentation: Intraparticipant analysis||0.4|-1.0|0.391
92426623|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.39||0.696|TWO_SIDED|95.0|-0.6|0.9|||Mixed Models Analysis|||Thickness: Intraparticipant analysis||0.9|-0.6|0.696
92426624|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.921|TWO_SIDED|95.0|-0.7|0.8|||Mixed Models Analysis|||Relief: Intraparticipant analysis||0.8|-0.7|0.921
92426625|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.39||0.693|TWO_SIDED|95.0|-0.6|0.9|||Mixed Models Analysis|||Pliability: Intraparticipant analysis||0.9|-0.6|0.693
92426626|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.39||0.77|TWO_SIDED|95.0|-0.7|0.9|||Mixed Models Analysis|||Surface Area: Intraparticipant analysis||0.9|-0.7|0.770
92426627|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|1.98||0.938|TWO_SIDED|95.0|-3.7|4.0|||Mixed Models Analysis|||Composite Score: Intraparticipant analysis||4.0|-3.7|0.938
92426628|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.52||0.34|TWO_SIDED|95.0|-1.5|0.5|||Mixed Models Analysis|||Overall Opinion: Intraparticipant analysis||0.5|-1.5|0.340
92170648|NCT01600014|184230028|SUPERIORITY_OR_OTHER_LEGACY||Percent cleared subjects|50.0|||||TWO_SIDED|95.0|44.0|56.1|||||Estimation based on completers only.|Subjects randomised to vehicle were not included in the estimate of the overall clearance rate for the repeat-use regimen, from last treatment throught to Month 12. Instead, the subjects randomised to ingenol mebutate were given higher weights to reflect the hypothetical scenario where all randomised subjects were given active treatment during the repeat use cycle||56.1|44.0|
92426629|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.5||0.258|TWO_SIDED|95.0|-1.6|0.4|||Mixed Models Analysis|||Vascularity: Intraparticipant analysis||0.4|-1.6|0.258
92426630|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.49||0.381|TWO_SIDED|95.0|-1.4|0.5|||Mixed Models Analysis|||Pigmentation: Intraparticipant analysis||0.5|-1.4|0.381
92426631|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.54||0.287|TWO_SIDED|95.0|-1.6|0.5|||Mixed Models Analysis|||Thickness: Intraparticipant analysis||0.5|-1.6|0.287
92426632|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.53||0.42|TWO_SIDED|95.0|-1.5|0.6|||Mixed Models Analysis|||Relief: Intraparticipant analysis||0.6|-1.5|0.420
92236590|NCT00958568|184377392|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|Remission rates were analyzed using the Cochran-Mantel-Haenszel test adjusting for country.||||||0.047
92426633|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.53||0.227|TWO_SIDED|95.0|-1.7|0.4|||Mixed Models Analysis|||Pliability: Intraparticipant analysis||0.4|-1.7|0.227
92236591|NCT00958568|184377393|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.91|STANDARD_ERROR_OF_MEAN|0.78|<|0.001|TWO_SIDED|95.0|-4.46|-1.36||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||-1.36|-4.46|<0.001
92236592|NCT00958568|184377394|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.82|||<|0.001|TWO_SIDED|95.0|-5.39|-2.24||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment and country.||||-2.24|-5.39|<0.001
92236593|NCT00958568|184377395|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.11||0.002|TWO_SIDED|95.0|-0.55|-0.12||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||-0.12|-0.55|0.002
92236594|NCT00958568|184377398|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.94|STANDARD_ERROR_OF_MEAN|0.72||0.007|TWO_SIDED|95.0|-3.36|-0.53||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment and country.||||-0.53|-3.36|0.007
92236595|NCT00958568|184377399|SUPERIORITY_OR_OTHER|||||||1||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
92236596|NCT00958568|184377400|SUPERIORITY_OR_OTHER|||||||0.248||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.248
92236597|NCT00958568|184377401|SUPERIORITY_OR_OTHER|||||||1||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
92236598|NCT00958568|184377402|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|4.47||0.839|TWO_SIDED|95.0|-9.71|7.89||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||7.89|-9.71|0.839
92236599|NCT00958568|184377403|SUPERIORITY_OR_OTHER|||||||0.352||95.0||||P-value is for Borderline to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.352
92236600|NCT00958568|184377403|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for Normal to Borderline. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
92236601|NCT00958568|184377403|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for Normal to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
92236602|NCT00958568|184377404|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.57|STANDARD_ERROR_OF_MEAN|4.12||0.703|TWO_SIDED|95.0|-9.69|6.54||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||6.54|-9.69|0.703
92236603|NCT00958568|184377405|SUPERIORITY_OR_OTHER|||||||0.139||95.0||||P-value is for Borderline to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.139
92170649|NCT01600014|184230029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.88|||<|0.001|TWO_SIDED|95.0|-1.38|-0.38||A closed test procedure was chosen where the evaluation process stopped when the first non-significant results were observed thus securing that the overall significance level did not exceed 5% for multiple testing|ANCOVA|Analysed using ANCOVA adjusted for anatomical location, country and AK count at randomisation|Using baseline observation carried forward (BOCF) as the imputation method.|The analysis type was superiority between groups. In total 141 subjects were included||-0.38|-1.38|<0.001
92426634|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.54||0.427|TWO_SIDED|95.0|-1.5|0.6|||Mixed Models Analysis|||Surface Area: Intraparticipant analysis||0.6|-1.5|0.427
92170650|NCT01600014|184230029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.01|||<|0.001|TWO_SIDED|95.0|-1.52|-0.51||A closed test procedure was chosen where the evaluation process stopped when the first non-significant results were observed thus securing that the overall significance level did not exceed 5% for multiple testing|ANCOVA|Sensitivity analysis using complete cases|Sensitivity analysis using complete cases|The analysis type was superiority between groups. In total 141 subjects were included||-0.51|-1.52|<0.001
92426635|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-3.1|STANDARD_ERROR_OF_MEAN|2.7||0.256|TWO_SIDED|95.0|-8.4|2.2|||Mixed Models Analysis|||Composite Score: Intraparticipant analysis||2.2|-8.4|0.256
92426636|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.8|STANDARD_ERROR_OF_MEAN|0.62||0.198|TWO_SIDED|95.0|-0.4|2.0|||Mixed Models Analysis|||Overall Opinion: Intraparticipant analysis||2.0|-0.4|0.198
92426637|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.9|STANDARD_ERROR_OF_MEAN|0.6||0.132|TWO_SIDED|95.0|-0.3|2.1|||Mixed Models Analysis|||Vascularity: Intraparticipant analysis||2.1|-0.3|0.132
92426638|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.7|STANDARD_ERROR_OF_MEAN|0.58||0.227|TWO_SIDED|95.0|-0.4|1.8|||Mixed Models Analysis|||Pigmentation: Intraparticipant analysis||1.8|-0.4|0.227
92426639|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.8|STANDARD_ERROR_OF_MEAN|0.63||0.208|TWO_SIDED|95.0|-0.4|2.0|||Mixed Models Analysis|||Thickness: Intraparticipant analysis||2.0|-0.4|0.208
92426640|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.7|STANDARD_ERROR_OF_MEAN|0.63||0.265|TWO_SIDED|95.0|-0.5|1.9|||Mixed Models Analysis|||Relief: Intraparticipant analysis||1.9|-0.5|0.265
92426641|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|0.63||0.34|TWO_SIDED|95.0|-0.6|1.8|||Mixed Models Analysis|||Pliability: Intraparticipant analysis||1.8|-0.6|0.340
92236604|NCT00958568|184377405|SUPERIORITY_OR_OTHER|||||||0.746||95.0||||P-value is for Normal to Borderline. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.746
92426642|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|0.64||0.347|TWO_SIDED|95.0|-0.7|1.9|||Mixed Models Analysis|||Surface Area: Intraparticipant analysis||1.9|-0.7|0.347
92426643|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|4.3|STANDARD_ERROR_OF_MEAN|3.19||0.179|TWO_SIDED|95.0|-2.0|10.6|||Mixed Models Analysis|||Composite Score: Intraparticipant analysis||10.6|-2.0|0.179
92426644|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|Least Square (LS) Mean|-0.3|STANDARD_ERROR_OF_MEAN|0.57||0.556|TWO_SIDED|95.0|-1.4|0.8|||Mixed Models Analysis|||Overall Opinion: Intraparticipant analysis||0.8|-1.4|0.556
92236605|NCT00958568|184377405|SUPERIORITY_OR_OTHER|||||||0.458||95.0||||P-value is for Normal to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.458
92170651|NCT01600014|184230029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.69||||0.008|TWO_SIDED|95.0|-1.19|-0.19||Formal statistical significance could not be established because of the closed test procedure where the first secondary endpoint tested (12 months clearance) did not reach statistical significance in the recurrent subgroup|ANCOVA|Analysed using ANCOVA adjusted for anatomical location, country and AK count at randomisation|Using BOCF as the imputation method, the difference in the adjusted mean AK count between the ingenol mebutate and vehicle groups|The analysis type was superiority between groups. In total 62 subjects were included||-0.19|-1.19|0.008
92236606|NCT00958568|184377406|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.73|STANDARD_ERROR_OF_MEAN|1.15||0.001|TWO_SIDED|95.0|-5.99|-1.47||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||-1.47|-5.99|0.001
92170652|NCT03481660|184230031|NON_INFERIORITY|(4-letter margin) (1-sided)|LS mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.94|<|0.001|TWO_SIDED|95.0|-0.6|3.1|||ANOVA|||BCVA at Week 52||3.1|-0.6|<0.001
92170653|NCT03481660|184230032|NON_INFERIORITY|(4-letter margin) (1-sided)|LS mean difference|0.9|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|-0.9|2.6|||ANOVA|||BCVA over period Week 40 through Week 52||2.6|-0.9|<0.001
92426645|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.54||0.76|TWO_SIDED|95.0|-1.2|0.9|||Mixed Models Analysis|||Vascularity: Intraparticipant analysis||0.9|-1.2|0.760
92426646|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.3|STANDARD_ERROR_OF_MEAN|0.53||0.636|TWO_SIDED|95.0|-1.3|0.8|||Mixed Models Analysis|||Pigmentation: Intraparticipant analysis||0.8|-1.3|0.636
92426647|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.58||0.774|TWO_SIDED|95.0|-1.3|1.0|||Mixed Models Analysis|||Thickness: Intraparticipant analysis||1.0|-1.3|0.774
92426648|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.57||0.771|TWO_SIDED|95.0|-1.3|1.0|||Mixed Models Analysis|||Relief: Intraparticipant analysis||1.0|-1.3|0.771
92426649|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.57||0.468|TWO_SIDED|95.0|-1.5|0.7|||Mixed Models Analysis|||Pliability: Intraparticipant analysis||0.7|-1.5|0.468
92426650|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.58||0.886|TWO_SIDED|95.0|-1.2|1.1|||Mixed Models Analysis|||Surface Area: Intraparticipant analysis||1.1|-1.2|0.886
92426651|NCT01346969|184740821|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-1.3|STANDARD_ERROR_OF_MEAN|2.91||0.668|TWO_SIDED|95.0|-7.0|4.5|||Mixed Models Analysis|||Composite Score: Intraparticipant analysis||4.5|-7.0|0.668
92426652|NCT02128932|184740914|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated treatment difference between semaglutide 1.0 mg and insulin glargine was below the pre-specified non-inferiority margin (0.3 %).|Treatment difference|-0.81|||<|0.0001|TWO_SIDED|95.0|-0.96|-0.67|||Mixed Models Analysis|||The post baseline responses were analysed using a mixed model for repeated measurements with treatment , country and stratum as fixed factors and baseline value as covariate, all nested within visit.||-0.67|-0.96|<0.0001
92426653|NCT02128932|184740914|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper limit of the two-sided 95 % confidence interval for the estimated treatment difference between semaglutide 0.5 mg and insulin glargine was below the pre-specified non-inferiority margin (0.3%).|Treatment difference|-0.38|||<|0.0001|TWO_SIDED|95.0|-0.52|-0.24|||Mixed Models Analysis|||The post baseline responses were analysed using a mixed model for repeated meausrements with treatment, country and stratum value as covariate, all nested within visit.||-0.24|-0.52|<0.0001
92426654|NCT03685123|184740923|SUPERIORITY|||||||0.256|||||||Mixed Models Analysis|||||||0.256
92426655|NCT03685123|184740924|SUPERIORITY|||||||0.089|||||||Mixed Models Analysis|||||||0.089
92426656|NCT03685123|184740925|SUPERIORITY|||||||0.244|||||||Mixed Models Analysis|||||||0.244
92426657|NCT03685123|184740926|SUPERIORITY|||||||0.064|||||||Mixed Models Analysis|||||||0.064
92426658|NCT03685123|184740927|SUPERIORITY|||||||0.983|||||||Mixed Models Analysis|||LDL levels||||0.983
92426659|NCT03685123|184740927|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||HDL levels||||0.56
92426660|NCT03685123|184740927|SUPERIORITY|||||||0.71|||||||Mixed Models Analysis|||Total Cholesterol||||0.71
92426661|NCT03685123|184740927|SUPERIORITY|||||||0.313|||||||Mixed Models Analysis|||Triglycerides||||0.313
92426662|NCT03685123|184740928|SUPERIORITY|||||||0.72|||||||Mixed Models Analysis|||systolic Blood pressure||||0.72
92426663|NCT03685123|184740928|SUPERIORITY|||||||0.61|||||||Mixed Models Analysis|||Diastolic Blood pressure||||0.61
92426664|NCT03685123|184740928|SUPERIORITY|||||||0.1609|||||||Mixed Models Analysis|||Change in aortic blood pressure between the PA-REC and the WM-REC Groups.||||0.1609
92426665|NCT03685123|184740928|SUPERIORITY|||||||0.446|||||||Mixed Models Analysis|||Change in aortic diastolic blood pressure between the PA-REC and WM-REC Groups||||0.446
92426666|NCT03685123|184740929|SUPERIORITY|||||||0.965|||||||Mixed Models Analysis|||||||0.965
92426667|NCT03685123|184740930|SUPERIORITY|||||||0.857|||||||Mixed Models Analysis|||||||0.857
92426668|NCT03685123|184740931|SUPERIORITY|||||||0.825|||||||Mixed Models Analysis|||||||0.825
92426669|NCT03685123|184740932|SUPERIORITY|||||||0.061|||||||Mixed Models Analysis|||||||0.061
92426670|NCT03685123|184740934|SUPERIORITY|Change in particle size between the PA-REC and WM-REC groups||||||0.105|||||||Mixed Models Analysis|||Change in HDL particle size||||0.105
92426671|NCT03685123|184740934|SUPERIORITY|Change in particle size between the PA-REC and the WM-REC groups||||||0.849|||||||Mixed Models Analysis|||Change in LDL particles||||0.849
92426672|NCT03685123|184740936|SUPERIORITY|||||||0.278|||||||ANOVA|||Change in steps per day from week 10 to week 28||||0.278
92426673|NCT03685123|184740937|SUPERIORITY|||||||0.238|||||||Mixed Models Analysis|||Change in SF-36 General Health (GH)||||0.238
92426674|NCT03685123|184740937|SUPERIORITY|Between groups analysis between the change in PA-REC Group vs. the WM-REC Group||||||0.124|||||||Mixed Models Analysis|||Change in SF-36 Physical health (PH)||||0.124
92426675|NCT03685123|184740937|SUPERIORITY|Between groups analysis between the change in PA-REC Group vs. the WM-REC Group||||||0.769|||||||Mixed Models Analysis|||Change in SF-36 role physical||||0.769
92426676|NCT03685123|184740937|SUPERIORITY|Between groups analysis between the change in PA-REC Group vs. the WM-REC Group||||||0.352|||||||Mixed Models Analysis|||Change in SF-36 Bodily Pain||||0.352
92236607|NCT00958568|184377407|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.004
92426677|NCT03685123|184740937|SUPERIORITY|Between groups analysis between the change in PA-REC Group vs. the WM-REC Group||||||0.898|||||||Mixed Models Analysis|||Change in SF-36 Vitality||||0.898
92426678|NCT03685123|184740937|SUPERIORITY|Between groups analysis between the change in PA-REC Group vs. the WM-REC Group||||||0.444|||||||Mixed Models Analysis|||Change in SF-36 social function||||0.444
92170654|NCT03481660|184230032|SUPERIORITY|||||||0.164|||||||ANOVA|||BCVA over period Week 40 through Week 52||||0.164
92236608|NCT00958568|184377408|SUPERIORITY_OR_OTHER|||||||1||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
92426679|NCT03685123|184740937|SUPERIORITY|Change between the PA-REC group and the WM-REC group||||||0.537|||||||Mixed Models Analysis|||Change in SF-36 Mental Health||||0.537
92426680|NCT03685123|184740937|SUPERIORITY|||||||0.448|||||||Mixed Models Analysis|||Change in SF-36 Role Emotional||||0.448
92426681|NCT03685123|184740937|SUPERIORITY|Change between the PA-REC group and the WM-REC group||||||0.537|||||||Mixed Models Analysis|||Change in SF-36 Mental Health (Sum)||||0.537
92426682|NCT03685123|184740937|SUPERIORITY|Change between the PA-REC group and the WM-REC group||||||0.482|||||||Mixed Models Analysis|||Change in SF-36 Physical Health (sum)||||0.482
92426683|NCT03685123|184740939|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92426684|NCT03685123|184740940|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|||||||0.37
92426685|NCT03685123|184740941|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Change in body fat||||<0.001
92426686|NCT03685123|184740942|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92426687|NCT03685123|184740943|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||LDL||||0.004
92426688|NCT03685123|184740943|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||Change in HDL||||0.04
92426689|NCT03685123|184740943|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Change in Total Cholesterol||||<0.001
92426690|NCT03685123|184740943|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Triglycerides||||<0.001
92170655|NCT03481660|184230039|OTHER|Treatment Difference|LS mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|95.0|-0.6|3.1||||||BCVA at Week 52||3.1|-0.6|
92170656|NCT03481660|184230039|OTHER|Treatment Difference|LS mean difference|2.6|STANDARD_ERROR_OF_MEAN|1.21|||TWO_SIDED|95.0|0.2|4.9||||||BCVA at Week 100||4.9|0.2|
92239806|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|1.05||||||95.0|0.93|1.18||||||For serotype 7F the GMC ratio (13vPnC/7vPnC) was calculated||1.18|0.93|
92426691|NCT03685123|184740944|SUPERIORITY|||||||0.01||||||Systolic blood pressure|Mixed Models Analysis|||||||0.01
92426692|NCT03685123|184740944|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||Diastolic blood pressure||||0.001
92426693|NCT03685123|184740944|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Aortic blood pressure (mmHg)||||<0.001
92426694|NCT03685123|184740944|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Change in aortic diastolic pressure||||<0.001
92426695|NCT03685123|184740945|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92426696|NCT03685123|184740946|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92426697|NCT03685123|184740947|SUPERIORITY|||||||0.366|||||||Mixed Models Analysis|||||||0.366
92426698|NCT03685123|184740948|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92170657|NCT03481660|184230040|OTHER|Treatment difference|LS mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-0.6|2.1||||||BCVA over period Week 4 through Week 52||2.1|-0.6|
92426699|NCT03685123|184740950|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||||||0.004
92426700|NCT03685123|184740951|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92426701|NCT03685123|184740952|SUPERIORITY||||||<|0.001||||||General Health|Mixed Models Analysis|||||||<0.001
92426702|NCT03685123|184740952|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Physical Health||||<0.001
92426703|NCT03685123|184740952|SUPERIORITY|||||||0.023|||||||Mixed Models Analysis|||Role physical||||0.023
92426704|NCT03685123|184740952|SUPERIORITY||||||<|0.001||||||Bodily Pain|Mixed Models Analysis|||||||<0.001
92426705|NCT03685123|184740952|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Vitality||||<0.001
92426706|NCT03685123|184740952|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Social Functioning||||<0.001
92426707|NCT03685123|184740952|SUPERIORITY|||||||0.0105|||||||Mixed Models Analysis|||Mental Health||||0.0105
92426708|NCT03685123|184740952|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Role Emotional||||<0.001
92426709|NCT03685123|184740952|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||SF-36 mental health Components (sum)||||0.01
92426710|NCT03685123|184740952|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Physical Health Components Sum||||<0.001
92426711|NCT03685123|184740953|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Change in kilocalories consumed from baseline to week 10||||<0.001
92426712|NCT03685123|184740954|SUPERIORITY|||||||0.658|||||||Mixed Models Analysis|||Change in LDL Particle Size||||0.658
92426713|NCT03685123|184740954|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|||HDL participle size||||0.07
92426714|NCT02959983|184740955|SUPERIORITY|||||||0.0022|||||||Chi-squared|||Overall Weeks 1-12||||0.0022
92426715|NCT02959983|184740956|SUPERIORITY|||||||0.0119|||||||Chi-squared|||Overall Weeks 1 to 12||||0.0119
92426716|NCT02959983|184740956|SUPERIORITY|||||||0.0048|||||||Chi-squared|||Weeks 1 to 4||||0.0048
92426717|NCT02959983|184740956|SUPERIORITY|||||||0.0207|||||||Chi-squared|||Weeks 5 to 8||||0.0207
92426718|NCT02959983|184740956|SUPERIORITY|||||||0.37|||||||Chi-squared|||Weeks 9 to 12||||0.3700
92426719|NCT02959983|184740957|SUPERIORITY|||||||0.0174|||||||Chi-squared|||Overall Weeks 1 to 12||||0.0174
92426720|NCT02959983|184740957|SUPERIORITY|||||||0.3832|||||||Chi-squared|||Weeks 1 to 4||||0.3832
92426721|NCT02959983|184740957|SUPERIORITY|||||||0.0052|||||||Chi-squared|||Weeks 5 to 8||||0.0052
92426722|NCT02959983|184740957|SUPERIORITY|||||||0.0619|||||||Chi-squared|||Weeks 9 to 12||||0.0619
92426723|NCT02959983|184740958|SUPERIORITY|||||||0.033|||||||Chi-squared|||Weeks 1-4||||0.0330
92236609|NCT00958568|184377409|SUPERIORITY_OR_OTHER||LS Mean Difference|13.27|STANDARD_ERROR_OF_MEAN|7.62||0.083|TWO_SIDED|95.0|-1.72|28.26||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||28.26|-1.72|0.083
92236610|NCT00958568|184377410|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value is for Borderline to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.029
92236611|NCT00958568|184377410|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||P-value is for Normal to Borderline. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.014
92426724|NCT02959983|184740958|SUPERIORITY|||||||0.0063|||||||Chi-squared|||Weeks 5 to 8||||0.0063
92426725|NCT02959983|184740958|SUPERIORITY|||||||0.0018|||||||Chi-squared|||Weeks 9 to 12||||0.0018
92170658|NCT03481660|184230040|OTHER|Treatment difference|LS mean difference|1.1|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|-0.4|2.6||||||BCVA over period Week 4 through Week 100||2.6|-0.4|
92170659|NCT03481660|184230041|OTHER|Treatment difference|LS mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|-0.9|2.4||||||BCVA over period Week 20 through Week 52||2.4|-0.9|
92170660|NCT03481660|184230041|OTHER|Treatment difference|LS mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|-0.9|2.5||||||BCVA over period Week 28 through Week 52||2.5|-0.9|
92236612|NCT00958568|184377410|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||P-value is for Normal to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.054
92236613|NCT00958568|184377411|SUPERIORITY_OR_OTHER||LS Mean Difference|5.89|STANDARD_ERROR_OF_MEAN|1.87||0.002|TWO_SIDED|95.0|2.22|9.56||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||9.56|2.22|0.002
92236614|NCT00958568|184377412|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||P-value is for Impaired to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.031
92236615|NCT00958568|184377412|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for Normal to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
92426726|NCT01254630|184740959|SUPERIORITY||Vaccine Efficacy|0.636|||||TWO_SIDED|97.5|0.364|0.791|||||Point estimate and 97.5% CI of vaccine efficacy (primary endpoint) were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 97.5% Confidence Interval (CI) be \>0.25.||0.791|0.364|
92426727|NCT01254630|184740960|OTHER||Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-1.8|4.5||||||||4.5|-1.8|
92426728|NCT01254630|184740961|OTHER||Vaccine Efficacy|0.771|||||TWO_SIDED|95.0|0.48|0.899|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI be \>0.25.||0.899|0.480|
92426729|NCT01254630|184740962|OTHER||Vaccine Efficacy|0.874|||||TWO_SIDED|95.0|-0.005|0.984|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI be \>0.25.||0.984|-0.005|
92426730|NCT01254630|184740963|OTHER||Vaccine Efficacy|0.746|||||TWO_SIDED|95.0|-1.275|0.972|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI be \>0.25.||0.972|-1.275|
92426731|NCT01254630|184740964|OTHER||Risk Difference (RD)|0.5|||||TWO_SIDED|95.0|-0.6|1.6||||||||1.6|-0.6|
92426732|NCT03221270|184740965|SUPERIORITY|alternative hypothesis: true difference in means is greater than 0|Median Difference (Final Values)|-0.43||||0.66|ONE_SIDED|95.0|-2.25||||t-test, 1 sided||||||-2.25|0.66
92426733|NCT03439657|184740976|NON_INFERIORITY|Upper limit (UL) of the 95% confidence interval (CI) for the anti-gE antibodies Geometric Mean Concentration (GMC) ratio between the Control group and the Co-Ad group should be \<1.5.|GMC ratio|1.07|||||TWO_SIDED|95.0|0.99|1.16|||ANCOVA|The 95% CI of the group GMCs ratio was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-gE GMCs (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean concentrations (GMCs) for anti-gE antibodies, one month after the administration of last vaccine dose.||1.16|0.99|
92426734|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.04|||||TWO_SIDED|95.0|0.82|1.33|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-1), one month after the administration of Prevnar 13 vaccine dose.||1.33|0.82|
92426735|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.02|||||TWO_SIDED|95.0|0.86|1.22|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-3), one month after the administration of Prevnar 13 vaccine dose.||1.22|0.86|
92236616|NCT00958568|184377412|SUPERIORITY_OR_OTHER|||||||0.344||95.0||||P-value is for Normal to Impaired. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.344
92426736|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.25|||||TWO_SIDED|95.0|1.02|1.52|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-4), one month after the administration of Prevnar 13 vaccine dose.||1.52|1.02|
92170661|NCT03481660|184230041|OTHER|Treatment difference|LS mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-0.5|2.9||||||BCVA over period Week 20 through Week 100||2.9|-0.5|
92426737|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.04|||||TWO_SIDED|95.0|0.81|1.32|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-5), one month after the administration of Prevnar 13 vaccine dose.||1.32|0.81|
92426738|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.26|||||TWO_SIDED|95.0|1.02|1.56|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-6A), one month after the administration of Prevnar 13 vaccine dose.||1.56|1.02|
92426739|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.36|||||TWO_SIDED|95.0|1.07|1.73|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-6B), one month after the administration of Prevnar 13 vaccine dose.||1.73|1.07|
92426740|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.21|||||TWO_SIDED|95.0|1.01|1.44|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-7F), one month after the administration of Prevnar 13 vaccine dose.||1.44|1.01|
92170662|NCT03481660|184230041|OTHER|Treatment difference|LS mean difference|1.3|STANDARD_ERROR_OF_MEAN|0.89|||TWO_SIDED|95.0|-0.5|3.0||||||BCVA over period Week 28 through Week 100||3.0|-0.5|
92170663|NCT03481660|184230042|OTHER|Treatment difference|LS mean difference|2.1|STANDARD_ERROR_OF_MEAN|1.12|||TWO_SIDED|95.0|-0.1|4.3||||||BCVA over period Week 88 through Week 100||4.3|-0.1|
92236617|NCT00958568|184377412|SUPERIORITY_OR_OTHER|||||||0.072||95.0||||P-value is for Normal/Impaired to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.072
92426741|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.16|||||TWO_SIDED|95.0|0.97|1.39|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-9V), one month after the administration of Prevnar 13 vaccine dose.||1.39|0.97|
92426742|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.15|||||TWO_SIDED|95.0|0.94|1.42|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-14), one month after the administration of Prevnar 13 vaccine dose.||1.42|0.94|
92426743|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.11|||||TWO_SIDED|95.0|0.92|1.34|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-18C), one month after the administration of Prevnar 13 vaccine dose.||1.34|0.92|
92426744|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.03|||||TWO_SIDED|95.0|0.87|1.22|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-19A), one month after the administration of Prevnar 13 vaccine dose.||1.22|0.87|
92426745|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.09|||||TWO_SIDED|95.0|0.9|1.32|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-19F), one month after the administration of Prevnar 13 vaccine dose.||1.32|0.90|
92426746|NCT03439657|184740977|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.2|||||TWO_SIDED|95.0|0.96|1.5|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-23F), one month after the administration of Prevnar 13 vaccine dose.||1.50|0.96|
92426747|NCT02925117|184741002|SUPERIORITY||Least Squares (LS) Mean Difference|-51.4|STANDARD_ERROR_OF_MEAN|7.65|<|0.001|TWO_SIDED|95.0|-66.5|-36.3|||ANCOVA|Analysis of covariance (ANCOVA) with stratum (geographic region), baseline value, and treatment in the model.||||-36.3|-66.5|< 0.001
92426748|NCT02925117|184741002|SUPERIORITY||LS Mean Difference|-38.7|STANDARD_ERROR_OF_MEAN|7.61|<|0.001|TWO_SIDED|95.0|-53.7|-23.6|||ANCOVA|Analysis of covariance (ANCOVA) with stratum (geographic region), baseline value, and treatment in the model.||||-23.6|-53.7|<0.001
92170664|NCT03481660|184230043|OTHER|Treatment difference|Clopper-Pearson exact method|0.4|||||TWO_SIDED|95.0|-7.6|8.9||||||Gain of \>= 5 letters in BCVA at Week 52||8.9|-7.6|
92170665|NCT03481660|184230043|OTHER|Treatment difference|Clopper-Pearson exact method|5.4|||||TWO_SIDED|95.0|-3.9|14.5||||||Gain of \>= 5 letters in BCVA at Week 100||14.5|-3.9|
92170666|NCT03481660|184230044|OTHER|Treatment difference|Clopper-Pearson exact method|5.4|||||TWO_SIDED|95.0|-3.9|14.7||||||Gain of \>= 10 letters in BCVA at Week 52||14.7|-3.9|
92170667|NCT03481660|184230044|OTHER|Treatment difference|Clopper-Pearson exact method|9.9|||||TWO_SIDED|95.0|-0.4|19.4||||||Gain of \>= 10 letters in BCVA at Week 100||19.4|-0.4|
92170668|NCT03481660|184230045|OTHER|Treatment difference|Clopper-Pearson exact method|9.6|||||TWO_SIDED|95.0|-0.4|20.2||||||Gain of \>= 15 letters in BCVA at Week 52||20.2|-0.4|
92170669|NCT03481660|184230045|OTHER|Treatment difference|Clopper-Pearson exact method|13.6|||||TWO_SIDED|95.0|3.3|23.5||||||Gain of \>= 15 letters in BCVA at Week 100||23.5|3.3|
92170670|NCT03481660|184230046|OTHER|Treatment difference|Clopper-Pearson exact method|-0.4|||||TWO_SIDED|95.0|-4.2|2.9||||||Loss of \>= 5 letters in BCVA at Week 52||2.9|-4.2|
92170671|NCT03481660|184230046|OTHER|Treatment difference|Clopper-Pearson exact method|-6.0|||||TWO_SIDED|95.0|-10.8|-1.7||||||Loss of \>= 5 letters in BCVA at Week 100||-1.7|-10.8|
92170672|NCT03481660|184230047|OTHER|Treatment difference|Clopper-Pearson exact method|-0.2|||||TWO_SIDED|95.0|-3.2|2.4||||||Loss of \>= 10 letters in BCVA at Week 52||2.4|-3.2|
92170673|NCT03481660|184230047|OTHER|Treatment difference|Clopper-Pearson exact method|-4.1|||||TWO_SIDED|95.0|-8.4|-0.1||||||Loss of \>= 10 letters in BCVA at Week 100||-0.1|-8.4|
92170674|NCT03481660|184230048|OTHER|Treatment difference|Clopper-Pearson exact method|-0.7|||||TWO_SIDED|95.0|-3.2|1.6||||||Loss of \>= 15 letters in BCVA at Week 52||1.6|-3.2|
92236618|NCT00958568|184377413|SUPERIORITY_OR_OTHER||LS Mean Difference|3.92|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|2.96|4.88||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||4.88|2.96|<0.001
92426749|NCT02925117|184741002|SUPERIORITY||LS Mean Difference|-16.4|STANDARD_ERROR_OF_MEAN|7.61||0.032|TWO_SIDED|95.0|-31.4|-1.4|||ANCOVA|Analysis of covariance (ANCOVA) with stratum (geographic region), baseline value, and treatment in the model.||||-1.4|-31.4|0.032
92426750|NCT02925117|184741003|SUPERIORITY||Adjusted Difference|58.7|||<|0.001|TWO_SIDED|95.0|42.5|74.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||74.8|42.5|< 0.001
92170675|NCT03481660|184230048|OTHER|Treatment difference|Clopper-Pearson exact method|-1.3|||||TWO_SIDED|95.0|-4.8|2.0||||||Loss of \>= 15 letters in BCVA at Week 100||2.0|-4.8|
92426751|NCT02925117|184741003|SUPERIORITY||Adjusted Difference|42.5|||<|0.001|TWO_SIDED|95.0|25.5|59.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||59.6|25.5|<0.001
92426752|NCT02925117|184741003|SUPERIORITY||Adjusted Difference|18.7||||0.022|TWO_SIDED|95.0|2.7|34.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||34.7|2.7|0.022
92426753|NCT02925117|184741004|SUPERIORITY||Adjusted Difference|46.9|||<|0.001|TWO_SIDED|95.0|31.1|62.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||62.7|31.1|<0.001
92236619|NCT00958568|184377414|SUPERIORITY_OR_OTHER||||||<|0.001||||||The threshold for statistical significance was 0.05.|Fisher Exact|||||||<0.001
92426754|NCT02925117|184741004|SUPERIORITY||Adjusted Difference|28.6|||<|0.001|TWO_SIDED|95.0|13.8|43.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||43.4|13.8|<0.001
92426755|NCT02925117|184741004|SUPERIORITY||Adjusted Difference|11.9||||0.044|TWO_SIDED|95.0|0.3|23.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||23.5|0.3|0.044
92426756|NCT02925117|184741005|SUPERIORITY||LS Mean Difference|-59.3|STANDARD_ERROR_OF_MEAN|6.58|<|0.001|TWO_SIDED|95.0|-72.3|-46.3|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 2||-46.3|-72.3|<0.001
92426757|NCT02925117|184741005|SUPERIORITY||LS Mean Difference|-47.7|STANDARD_ERROR_OF_MEAN|6.78|<|0.001|TWO_SIDED|95.0|-61.1|-34.3|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 2||-34.3|-61.1|<0.001
92426758|NCT02925117|184741005|SUPERIORITY||LS Mean Difference|-31.1|STANDARD_ERROR_OF_MEAN|6.7|<|0.001|TWO_SIDED|95.0|-44.3|-17.8|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 2||-17.8|-44.3|<0.001
92426759|NCT02925117|184741005|SUPERIORITY||LS Mean Difference|-66.4|STANDARD_ERROR_OF_MEAN|8.85|<|0.001|TWO_SIDED|95.0|-83.9|-48.9|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 8||-48.9|-83.9|<0.001
92426760|NCT02925117|184741005|SUPERIORITY||LS Mean Difference|-38.4|STANDARD_ERROR_OF_MEAN|9.13|<|0.001|TWO_SIDED|95.0|-56.4|-20.4|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 8||-20.4|-56.4|<0.001
92170676|NCT03481660|184230049|OTHER|Treatment difference|Clopper-Pearson exact method|3.5|||||TWO_SIDED|95.0|-4.9|12.0||||||Absolute BCVA \>= 73 letters at Week 52||12.0|-4.9|
92170677|NCT03481660|184230049|OTHER|Treatment difference|Clopper-Pearson exact method|3.6|||||TWO_SIDED|95.0|-5.4|12.6||||||Absolute BCVA \>= 73 letters at Week 100||12.6|-5.4|
92426761|NCT02925117|184741005|SUPERIORITY||LS Mean Difference|-28.9|STANDARD_ERROR_OF_MEAN|8.96||0.002|TWO_SIDED|95.0|-46.6|-11.2|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 8||-11.2|-46.6|0.002
92426762|NCT02925117|184741005|SUPERIORITY||LS Mean Difference|-59.2|STANDARD_ERROR_OF_MEAN|9.78|<|0.001|TWO_SIDED|95.0|-78.6|-39.9|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 16||-39.9|-78.6|<0.001
92426763|NCT02925117|184741005|SUPERIORITY||LS Mean Difference|-38.3|STANDARD_ERROR_OF_MEAN|10.08|<|0.001|TWO_SIDED|95.0|-58.3|-18.4|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 16||-18.4|-58.3|<0.001
92426764|NCT02925117|184741005|SUPERIORITY||LS Mean Difference|-29.9|STANDARD_ERROR_OF_MEAN|9.9||0.003|TWO_SIDED|95.0|-49.4|-10.3|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 16||-10.3|-49.4|0.003
92426765|NCT02925117|184741006|SUPERIORITY||LS Mean Difference|-65.3|STANDARD_ERROR_OF_MEAN|7.46|<|0.001|TWO_SIDED|95.0|-80.0|-50.5|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||-50.5|-80.0|<0.001
92426766|NCT02925117|184741006|SUPERIORITY||LS Mean Difference|-47.9|STANDARD_ERROR_OF_MEAN|7.42|<|0.001|TWO_SIDED|95.0|-62.6|-33.3|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||-33.3|-62.6|<0.001
92426767|NCT02925117|184741006|SUPERIORITY||LS Mean Difference|-26.2|STANDARD_ERROR_OF_MEAN|7.42|<|0.001|TWO_SIDED|95.0|-40.8|-11.5|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||-11.5|-40.8|<0.001
92170678|NCT03481660|184230051|OTHER|Treatment difference|LS mean difference|-29.4|STANDARD_ERROR_OF_MEAN|9.76|<|0.003|TWO_SIDED|95.0|-48.6|-10.2|||ANOVA|||CSFT over period Week 40 through Week 52||-10.2|-48.6|<0.003
92170679|NCT03481660|184230051|SUPERIORITY|||||||0.001|||||||ANOVA|||CSFT over period Week 40 through Week 52||||0.001
92170680|NCT03481660|184230051|OTHER|Treatment difference|LS mean difference|-23.2|STANDARD_ERROR_OF_MEAN|10.28|||TWO_SIDED|95.0|-43.5|-3.0||||||CSFT over period Week 88 through Week 100||-3.0|-43.5|
92170681|NCT03481660|184230052|OTHER|Treatment difference|LS mean difference|-27.4|STANDARD_ERROR_OF_MEAN|9.35|||TWO_SIDED|95.0|-45.8|-9.0||||||CSFT over period Week 4 through Week 52||-9.0|-45.8|
92426768|NCT02925117|184741007|SUPERIORITY||LS Mean Difference|-58.3|STANDARD_ERROR_OF_MEAN|6.78|<|0.001|TWO_SIDED|95.0|-71.7|-44.9|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 8||-44.9|-71.7|<0.001
92426769|NCT02925117|184741007|SUPERIORITY||LS Mean Difference|-37.1|STANDARD_ERROR_OF_MEAN|6.94|<|0.001|TWO_SIDED|95.0|-50.8|-23.4|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 8||-23.4|-50.8|<0.001
92426770|NCT02925117|184741007|SUPERIORITY||LS Mean Difference|-28.4|STANDARD_ERROR_OF_MEAN|6.81|<|0.001|TWO_SIDED|95.0|-41.9|-15.0|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 8||-15.0|-41.9|<0.001
92426771|NCT02925117|184741007|SUPERIORITY||LS Mean Difference|-48.0|STANDARD_ERROR_OF_MEAN|6.93|<|0.001|TWO_SIDED|95.0|-61.7|-34.3|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 16||-34.3|-61.7|<0.001
92426772|NCT02925117|184741007|SUPERIORITY||LS Mean Difference|-34.5|STANDARD_ERROR_OF_MEAN|7.1|<|0.001|TWO_SIDED|95.0|-48.5|-20.5|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 16||-20.5|-48.5|<0.001
92426773|NCT02925117|184741007|SUPERIORITY||LS Mean Difference|-20.2|STANDARD_ERROR_OF_MEAN|6.96||0.004|TWO_SIDED|95.0|-33.9|-6.4|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 16||-6.4|-33.9|0.004
92426774|NCT02925117|184741008|SUPERIORITY||Adjusted Difference|72.7|||<|0.001|TWO_SIDED|95.0|58.3|87.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||87.1|58.3|<0.001
92426775|NCT02925117|184741008|SUPERIORITY||Adjusted Difference|44.9|||<|0.001|TWO_SIDED|95.0|27.9|61.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||61.9|27.9|<0.001
92426776|NCT02925117|184741008|SUPERIORITY||Adjusted Difference|23.4||||0.004|TWO_SIDED|95.0|7.5|39.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||39.4|7.5|0.004
92426777|NCT02925117|184741009|SUPERIORITY||Adjusted Difference|70.7|||<|0.001|TWO_SIDED|95.0|56.2|85.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 8||85.2|56.2|<0.001
92426778|NCT02925117|184741009|SUPERIORITY||Adjusted Difference|49.0|||<|0.001|TWO_SIDED|95.0|30.8|67.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 8||67.3|30.8|<0.001
92426779|NCT02925117|184741009|SUPERIORITY||Adjusted Difference|32.8|||<|0.001|TWO_SIDED|95.0|13.4|52.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 8||52.2|13.4|<0.001
92170682|NCT03481660|184230052|OTHER|Treatment difference|LS mean difference|-25.8|STANDARD_ERROR_OF_MEAN|9.29|||TWO_SIDED|95.0|-44.0|-7.5||||||CSFT over period Week 4 through Week 100||-7.5|-44.0|
92426780|NCT02925117|184741009|SUPERIORITY||Adjusted Difference|60.6|||<|0.001|TWO_SIDED|95.0|45.3|75.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 16||75.9|45.3|<0.001
92426781|NCT02925117|184741009|SUPERIORITY||Adjusted Difference|48.6|||<|0.001|TWO_SIDED|95.0|31.3|65.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 16||65.9|31.3|<0.001
92426782|NCT02925117|184741009|SUPERIORITY||Adjusted Difference|28.2||||0.003|TWO_SIDED|95.0|9.8|46.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 16||46.6|9.8|0.003
92426783|NCT02925117|184741010|SUPERIORITY||Adjusted Difference|43.8|||<|0.001|TWO_SIDED|95.0|29.1|58.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 8||58.5|29.1|<0.001
92426784|NCT02925117|184741010|SUPERIORITY||Adjusted Difference|26.1|||<|0.001|TWO_SIDED|95.0|12.6|39.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 8||39.6|12.6|<0.001
92426785|NCT02925117|184741010|SUPERIORITY||Adjusted Difference|9.4||||0.051|TWO_SIDED|95.0|0.0|18.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 8||18.8|-0.0|0.051
92426786|NCT02925117|184741010|SUPERIORITY||Adjusted Difference|46.9|||<|0.001|TWO_SIDED|95.0|31.3|62.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 16||62.4|31.3|<0.001
92426787|NCT02925117|184741010|SUPERIORITY||Adjusted Difference|23.8||||0.001|TWO_SIDED|95.0|9.6|38.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 16||38.1|9.6|0.001
92426788|NCT02925117|184741010|SUPERIORITY||Adjusted Difference|11.8||||0.049|TWO_SIDED|95.0|0.1|23.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 16||23.6|0.1|0.049
92170683|NCT03481660|184230053|OTHER|Treatment difference|Clopper-Pearson exact method|16.3|||||TWO_SIDED|95.0|5.7|25.9||||||CSFT thickness (\<280 micrometers) at Week 52||25.9|5.7|
92426789|NCT02925117|184741011|SUPERIORITY||Adjusted Difference|68.4|||<|0.001|TWO_SIDED|95.0|54.0|82.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 8||82.8|54.0|<0.001
92426790|NCT02925117|184741011|SUPERIORITY||Adjusted Difference|35.3|||<|0.001|TWO_SIDED|95.0|18.5|52.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 8||52.2|18.5|<0.001
92170684|NCT03481660|184230053|OTHER|Treatment difference|Clopper-Pearson exact method|14.7|||||TWO_SIDED|95.0|4.2|24.9||||||CSFT thickness (\<280 micrometers) at Week 100||24.9|4.2|
92426791|NCT02925117|184741011|SUPERIORITY||Adjusted Difference|25.7||||0.002|TWO_SIDED|95.0|9.6|41.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 8||41.7|9.6|0.002
92426792|NCT02925117|184741011|SUPERIORITY||Adjusted Difference|54.5|||<|0.001|TWO_SIDED|95.0|39.0|69.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 16||69.9|39.0|<0.001
92236620|NCT00958568|184377415|SUPERIORITY_OR_OTHER|||||||0.392||95.0||||P-value is for suicidal ideation. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.392
92170685|NCT03481660|184230054|OTHER||Clopper-Pearson exact method|-1.2|||||TWO_SIDED|95.0|-4.5|2.1||||||Subretinal Fluid (SRF) at Week 52||2.1|-4.5|
92236621|NCT00958568|184377416|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.57|STANDARD_ERROR_OF_MEAN|1.95||0.421|TWO_SIDED|95.0|-5.42|2.27||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||2.27|-5.42|0.421
92236622|NCT00117338|184377443|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01||||0.775||95.0|-0.06|0.08|||ANCOVA|Model terms: treatment, region (US, non-US) and baseline FEV1 as covariate||||0.08|-0.06|0.775
92236623|NCT00117338|184377444|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.931||95.0|-0.41|0.45|||ANCOVA|Model terms: treatment, region (US, non-US) and baseline FEV1 as covariate||||0.45|-0.41|0.931
92236624|NCT00117338|184377445|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.99||||0.975||95.0|0.61|1.61|||Regression, Logistic|Model terms: treatment and baseline FEV1 as covariate||||1.61|0.61|0.975
92279544|NCT02655237|184462505|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-0.94|||||TWO_SIDED|95.0|-6.964|5.076|||||Relugolix 40 mg-Leuprorelin|Week 12||5.076|-6.964|
92426793|NCT02925117|184741011|SUPERIORITY||Adjusted Difference|35.8|||<|0.001|TWO_SIDED|95.0|19.1|52.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 16||52.5|19.1|<0.001
92426794|NCT02925117|184741011|SUPERIORITY||Adjusted Difference|21.2||||0.008|TWO_SIDED|95.0|5.7|36.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 16||36.8|5.7|0.008
92426795|NCT02925117|184741012|SUPERIORITY||Adjusted Difference|30.4|||<|0.001|TWO_SIDED|95.0|16.2|44.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 8||44.6|16.2|<0.001
92279545|NCT02655237|184462505|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|0.86|||||TWO_SIDED|95.0|-6.206|7.935|||||Relugolix 40 mg-Leuprorelin|Week 24||7.935|-6.206|
92426796|NCT02925117|184741012|SUPERIORITY||Adjusted Difference|9.4||||0.052|TWO_SIDED|95.0|-0.1|18.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 8||18.9|-0.1|0.052
92426797|NCT02925117|184741012|SUPERIORITY||Adjusted Difference|9.3||||0.048|TWO_SIDED|95.0|0.1|18.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 8||18.5|0.1|0.048
92426798|NCT02925117|184741012|SUPERIORITY||Adjusted Difference|37.7|||<|0.001|TWO_SIDED|95.0|22.2|53.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 16||53.3|22.2|<0.001
92426799|NCT02925117|184741012|SUPERIORITY||Adjusted Difference|19.0||||0.006|TWO_SIDED|95.0|5.6|32.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 16||32.5|5.6|0.006
92426800|NCT02925117|184741012|SUPERIORITY||Adjusted Difference|2.4||||0.581|TWO_SIDED|95.0|-6.0|10.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 16||10.8|-6.0|0.581
92426801|NCT02925117|184741013|SUPERIORITY||Adjusted Difference|14.2||||0.012|TWO_SIDED|95.0|3.2|25.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 8||25.2|3.2|0.012
92426802|NCT02925117|184741013|SUPERIORITY||Adjusted Difference|2.3||||0.428|TWO_SIDED|95.0|-3.4|8.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 8||8.0|-3.4|0.428
92426803|NCT02925117|184741013|SUPERIORITY||Adjusted Difference|4.6||||0.206|TWO_SIDED|95.0|-2.5|11.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 8||11.8|-2.5|0.206
92426804|NCT02925117|184741013|SUPERIORITY||Adjusted Difference|23.3|||<|0.001|TWO_SIDED|95.0|10.4|36.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 16||36.2|10.4|<0.001
92426805|NCT02925117|184741013|SUPERIORITY||Adjusted Difference|9.4||||0.048|TWO_SIDED|95.0|0.1|18.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 16||18.8|0.1|0.048
92426806|NCT02925117|184741013|SUPERIORITY||Adjusted Difference|2.4||||0.426|TWO_SIDED|95.0|-3.4|8.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 16||8.1|-3.4|0.426
92426807|NCT02925117|184741019|SUPERIORITY||LS Mean Difference|-26.5|STANDARD_ERROR_OF_MEAN|4.25|<|0.001|TWO_SIDED|95.0|-34.9|-18.1|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||-18.1|-34.9|<0.001
92426808|NCT02925117|184741019|SUPERIORITY||LS Mean Difference|-23.0|STANDARD_ERROR_OF_MEAN|4.27|<|0.001|TWO_SIDED|95.0|-31.4|-14.6|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||-14.6|-31.4|<0.001
92170686|NCT03481660|184230054|OTHER|Treatment Difference|Clopper-Pearson exact method|-0.2|||||TWO_SIDED|95.0|-3.4|3.4||||||Subretinal Fluid (SRF) at Week 100||3.4|-3.4|
92170687|NCT03481660|184230055|OTHER|Treatment Difference|Clopper-Pearson exact method|-19.1|||||TWO_SIDED|95.0|-28.9|-9.2||||||Intraretinal Fluid (IRF) at Week 52||-9.2|-28.9|
92236625|NCT00117338|184377446|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.612||95.0|-0.05|0.09|||ANCOVA|Model terms: treatment, region (US, non-US) and baseline FEV1 as covariate||||0.09|-0.05|0.612
92426809|NCT02925117|184741019|SUPERIORITY||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|4.25||0.075|TWO_SIDED|95.0|-16.0|0.8|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||0.8|-16.0|0.075
92236626|NCT00117338|184377447|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01||||0.774||95.0|-0.06|0.08|||ANCOVA|Model terms: treatment, region (US, non-US) and baseline FEV1 as covariate||||0.08|-0.06|0.774
92236627|NCT00117338|184377448|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04||||0.173||95.0|-0.02|0.11|||ANCOVA|Model terms: treatment, region (US, non-US) and baseline FEV1 as covariate||||0.11|-0.02|0.173
92236628|NCT00117338|184377449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58||95.0|||||ANCOVA|ANCOVA model (Nonparametric) based on Tukey's normalized ranks with terms treatment, region (US, non-US) and baseline FEV1 as covariate||||||0.580
92426810|NCT02925117|184741020|SUPERIORITY||Adjusted Difference|47.4|||<|0.001|TWO_SIDED|95.0|29.6|65.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||65.2|29.6|<0.001
92426811|NCT02925117|184741020|SUPERIORITY||Adjusted Difference|53.4|||<|0.001|TWO_SIDED|95.0|35.5|71.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||71.3|35.5|<0.001
92426812|NCT02925117|184741020|SUPERIORITY||Adjusted Difference|18.6||||0.021|TWO_SIDED|95.0|2.8|34.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||34.3|2.8|0.021
92426813|NCT02663908|184741023|OTHER||Hazard Ratio (HR)|1.283||||0.5294|TWO_SIDED|95.0|0.589|2.794|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||2.794|0.589|0.5294
92426814|NCT02663908|184741024|OTHER||Hazard Ratio (HR)|1.204||||0.7126|TWO_SIDED|95.0|0.448|3.234|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||3.234|0.448|0.7126
92426815|NCT02663908|184741025|OTHER||Hazard Ratio (HR)|0.186||||0.0853|TWO_SIDED|95.0|0.022|1.595|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||1.595|0.022|0.0853
92170688|NCT03481660|184230055|OTHER|Treatment Difference|Clopper-Pearson exact method|-16.1|||||TWO_SIDED|95.0|-26.3|-5.7||||||Intraretinal Fluid (IRF) at Week 100||-5.7|-26.3|
92236629|NCT01380093|184377450|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.9|||<|0.0001|TWO_SIDED|95.0|-31.7|-18.1||p-value adjusted for multiple comparisons with Hochberg adjustment. At least one primary outcome for each of drug liking and high was required to be significant with adjusted p-value less than or equal to 0.05.|Mixed Models Analysis|||Least square (LS) mean and 95% confidence interval (CI) were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-18.1|-31.7|<0.0001
92426816|NCT02663908|184741026|OTHER||Hazard Ratio (HR)|1.594||||0.5196|TWO_SIDED|95.0|0.381|6.673|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||6.673|0.381|0.5196
92426817|NCT02663908|184741027|OTHER||Hazard Ratio (HR)|0.899||||0.8966|TWO_SIDED|95.0|0.181|4.457|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||4.457|0.181|0.8966
92426818|NCT02663908|184741028|OTHER||Hazard Ratio (HR)|0.48||||0.3857|TWO_SIDED|95.0|0.088|2.62|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||2.620|0.088|0.3857
92236630|NCT01380093|184377450|SUPERIORITY_OR_OTHER||LS Mean Difference|11.9||||0.0009|TWO_SIDED|95.0|5.1|18.6||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||18.6|5.1|0.0009
92236631|NCT01380093|184377450|SUPERIORITY_OR_OTHER||LS Mean Difference|36.8|||<|0.0001|TWO_SIDED|95.0|30.0|43.6||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||43.6|30.0|<0.0001
92239807|NCT00366548|184383567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.91||||||95.0|0.8|1.04||||||For serotype 19A the GMC ratio (13vPnC/7vPnC) was calculated||1.04|0.80|
92239808|NCT03650452|184383569|SUPERIORITY||Hodges-Lehmann Estimation|-30.48||||0.0007|TWO_SIDED|95.0|-46.99|-13.19||The p-value is 2-sided and it is for the difference of percent change from baseline between TAK-935 and Placebo were computed using Rank Transformed Analysis of Covariance (ANCOVA) adjusting for baseline seizure frequency and indication.|Ranked ANCOVA||The location shift (TAK-935 - Placebo) and Asymptotic 95% confidence interval between TAK-935 and Placebo (TAK-935 - Placebo) were based on Hodges-Lehmann Estimation from un-adjusted rank statistics.|||-13.19|-46.99|0.0007
92239809|NCT03650452|184383570|SUPERIORITY||Hodges-Lehmann Estimate|-25.93||||0.0024|TWO_SIDED|95.0|-43.96|-10.69||The p-value is 2-sided and it is for the difference of percent change from baseline between TAK-935 and Placebo were computed using Rank Transformed ANCOVA adjusting for baseline seizure frequency and indication.|Ranked ANCOVA||The location shift (TAK-935 - Placebo) and Asymptotic 95% confidence interval between TAK-935 and Placebo (TAK-935 - Placebo) were based on Hodges-Lehmann Estimation from un-adjusted rank statistics.|||-10.69|-43.96|0.0024
92170689|NCT03481660|184230056|OTHER|Treatment Difference|Clopper-Pearson exact method|-18.4|||||TWO_SIDED|95.0|-28.5|-8.3||||||Subretinal Fluid (SRF) and/or Intraretinal Fluid (IRF) at Week 52||-8.3|-28.5|
92239810|NCT03650452|184383571|SUPERIORITY||Hodges-Lehmann Estimate|-50.0||||0.0001|TWO_SIDED|95.0|-75.03|-25.09||The p-value is 2-sided and it is for the difference of percent change from baseline between TAK-935 and Placebo were computed using Rank Transformed ANCOVA adjusting for baseline seizure frequency.|Ranked ANCOVA||The location shift (TAK-935 - Placebo) and Asymptotic 95% confidence interval between TAK-935 and Placebo (TAK-935 - Placebo) were based on Hodges-Lehmann Estimation from un-adjusted rank statistics.|||-25.09|-75.03|0.0001
92236632|NCT01380093|184377451|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.7|||<|0.0001|TWO_SIDED|95.0|-20.2|-11.1||p-value adjusted for multiple comparisons with Hochberg adjustment. At least one primary outcome for each of drug liking and high was required to be significant with adjusted p-value less than or equal to 0.05.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence. Planned power of at least 89% assumed a mean difference of 15 to 30 points and a standard deviation of paired differences of 15 to 20 points, with conservative multiple comparison adjustment for alpha of 0.025.||-11.1|-20.2|<0.0001
92426819|NCT02663908|184741029|OTHER||Hazard Ratio (HR)|0.839||||0.718|TWO_SIDED|95.0|0.324|2.176|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||2.176|0.324|0.7180
92236633|NCT01380093|184377451|SUPERIORITY_OR_OTHER||LS Mean Difference|13.4|||<|0.0001|TWO_SIDED|95.0|8.9|18.0||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||18.0|8.9|<0.0001
92426820|NCT02663908|184741031|OTHER||Hazard Ratio (HR)|0.887||||0.6701|TWO_SIDED|95.0|0.512|1.539|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||1.539|0.512|0.6701
92426821|NCT02663908|184741032|OTHER||Treatment Difference|-0.907||||0.1193|TWO_SIDED|95.0|-2.048|0.235|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||IPSS Total at Day 168||0.235|-2.048|0.1193
92426822|NCT02663908|184741032|OTHER||Treatment Difference|-0.213||||0.108|TWO_SIDED|95.0|-0.473|0.047|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||IPSS, QoL at Day 168||0.047|-0.473|0.1080
92426823|NCT02663908|184741032|OTHER||Treatment Difference|-0.916||||0.1256|TWO_SIDED|95.0|-2.089|0.257|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||IPSS Total at Day 336||0.257|-2.089|0.1256
92426824|NCT02663908|184741032|OTHER||Treatment Difference|-0.047||||0.7261|TWO_SIDED|95.0|-0.312|0.218|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||IPSS, QoL at Day 336||0.218|-0.312|0.7261
92426825|NCT02663908|184741036|OTHER||Treatment difference|-0.002||||0.911|TWO_SIDED|95.0|-0.036|0.032|||ANCOVA|Compared using an ANCOVA model, where the QALY is the dependent variable and adjusted for treatment group, age group and region, respectively.||||0.032|-0.036|0.9110
92426826|NCT02663908|184741037|OTHER||Treatment Difference|-1.57||||0.0936|TWO_SIDED|95.0|-3.41|0.27|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||DASI at Day 168||0.27|-3.41|0.0936
92426827|NCT02663908|184741037|OTHER||Treatment Difference|0.84||||0.4|TWO_SIDED|95.0|-1.11|2.78|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||DASI at Day 336||2.78|-1.11|0.4000
92426828|NCT02663908|184741038|OTHER||Treatment Difference|0.045||||0.2535|TWO_SIDED|95.0|-0.032|0.122|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ Global Score at Day 168||0.122|-0.032|0.2535
92426829|NCT02663908|184741038|OTHER||Treatment Difference|0.036||||0.437|TWO_SIDED|95.0|-0.055|0.127|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Attention at Day 168||0.127|-0.055|0.4370
92426830|NCT02663908|184741038|OTHER||Treatment Difference|0.116||||0.0852|TWO_SIDED|95.0|-0.016|0.248|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Avoidance at Day 168||0.248|-0.016|0.0852
92426831|NCT02663908|184741038|OTHER||Treatment Difference|0.012||||0.8156|TWO_SIDED|95.0|-0.087|0.111|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Fear at Day 168||0.111|-0.087|0.8156
92426832|NCT02663908|184741038|OTHER||Treatment Difference|0.051||||0.2299|TWO_SIDED|95.0|-0.033|0.135|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ Global Score at Day 336||0.135|-0.033|0.2299
92426833|NCT02663908|184741038|OTHER||Treatment Difference|0.038||||0.444|TWO_SIDED|95.0|-0.06|0.136|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Attention at Day 336||0.136|-0.060|0.4440
92426834|NCT02663908|184741038|OTHER||Treatment Difference|0.007||||0.9172|TWO_SIDED|95.0|-0.131|0.146|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Avoidance at Day 336||0.146|-0.131|0.9172
92426835|NCT02663908|184741038|OTHER||Treatment Difference|0.093||||0.1028|TWO_SIDED|95.0|-0.019|0.204|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Fear at Day 336||0.204|-0.019|0.1028
92426836|NCT00502944|184741062|SUPERIORITY_OR_OTHER||Rate Difference (%)|30.0|||<|0.001|TWO_SIDED|95.0|27.0|32.0|||Chi-squared|||HIV test completed among patients randomized||32|27|<0.001
92426837|NCT00502944|184741063|SUPERIORITY_OR_OTHER||Rate Difference (%)|44.0|||<|0.001|TWO_SIDED|95.0|42.0|47.0|||Chi-squared|||HIV test offered||47|42|<0.001
92426838|NCT00502944|184741064|SUPERIORITY_OR_OTHER||Rate Difference (%)|-4.0||||0.02|TWO_SIDED|95.0|-8.0|-1.0|||Chi-squared|||HIV test accepted among patients offered||-1|-8|0.02
92426839|NCT00319501|184741066|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55||||0.012|TWO_SIDED|95.0|0.34|0.88||p-value is adjusted. All statistical tests were 2-sided and employed a level of significance of alpha=0.05.|Cox Proportional Hazard||Age adjusted|Null hypothesis||0.88|0.34|0.012
92426840|NCT00319501|184741068|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED|||||p-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha=0.05.|Fisher Exact|||||||0.066
92236634|NCT01380093|184377451|SUPERIORITY_OR_OTHER||LS Mean Difference|29.1|||<|0.0001|TWO_SIDED|95.0|24.6|33.7||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||33.7|24.6|<0.0001
92426841|NCT00319501|184741069|SUPERIORITY_OR_OTHER|||||||0.443|||||||Fisher Exact|||||||0.443
92236635|NCT01380093|184377452|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.1|||<|0.0001|TWO_SIDED|95.0|-61.2|-41.0||p-value adjusted for multiple comparisons with Hochberg adjustment. At least one primary outcome for each of drug liking and high was required to be significant with adjusted p-value less than or equal to 0.05.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-41.0|-61.2|<0.0001
92236636|NCT01380093|184377452|SUPERIORITY_OR_OTHER||LS Mean Difference|24.6|||<|0.0001|TWO_SIDED|95.0|14.5|34.6||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||34.6|14.5|<0.0001
92426842|NCT00319501|184741070|SUPERIORITY_OR_OTHER|||||||0.245|TWO_SIDED|||||p-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha=0.05.|Fisher Exact|||||||0.245
92426843|NCT00319501|184741071|SUPERIORITY_OR_OTHER||Difference in least square means|0.75||||0.086|TWO_SIDED|95.0|-0.11|1.61||p-Value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|ANOVA|ANOVA=analysis of variance.|Model included treatment and age category.|||1.61|-0.11|0.086
92426844|NCT00319501|184741072|SUPERIORITY_OR_OTHER||Difference in least square means|0.79||||0.045|TWO_SIDED|95.0|0.02|1.56||p-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha=0.05.|ANOVA||Model included treatment and age category.|||1.56|0.02|0.045
92426845|NCT01892865|184741081|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.6||||0.024|TWO_SIDED|95.0|3.15|44.0|||t-test, 2 sided|||The null hypothesis was that there would be no difference in predictive imprecision for the end of the operative day between the two arms||44|3.15|0.024
92426846|NCT01892865|184741081|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.16||||0.04|TWO_SIDED|95.0|1.01|1.34|||Poisson regression|||Null hypothesis: There would be no difference in throughput between the two arms||1.34|1.01|0.04
92426847|NCT01892865|184741082|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.16||||0.04|TWO_SIDED|95.0|1.01|1.34|||Poisson Regression|||Null hypothesis was that there was no difference in throughput between the two scheduling methods||1.34|1.01|0.04
92426848|NCT01892865|184741083|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||Null hypothesis: There would be no difference in personnel satisfaction between the groups||||0.04
92236637|NCT01380093|184377452|SUPERIORITY_OR_OTHER||LS Mean Difference|75.7|||<|0.0001|TWO_SIDED|95.0|65.6|85.8||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||85.8|65.6|<0.0001
92426849|NCT01892865|184741084|SUPERIORITY_OR_OTHER|||||||0.44|||||||Chi-squared|||Null hypothesis was that there would be no difference in the adverse event rates between the two scheduling methodologies||||0.44
92426850|NCT02612129|184741092|SUPERIORITY||Least Square (LS) Mean Difference|-1.4||||0.0456|TWO_SIDED|95.0|-2.76|-0.03|||GLMM for Repeated Measures|||A general linear mixed model (GLMM) for repeated measurements was used for the analysis of NPC disease severity assessed based on the 5-domain NPCCSS scores at Month 12. The general linear mixed model analysis for repeated measures was fitted with treatment, miglustat level and visit as fixed effects including treatment-by-visit interaction and baseline score as a covariate.||-0.03|-2.76|0.0456
92426851|NCT02612129|184741093|SUPERIORITY|||||||1|||||||Chi-squared Test|||||||1.0000
92426852|NCT02612129|184741094|SUPERIORITY|||||||0.5456|||||||Chi-squared Test|||||||0.5456
92426853|NCT02612129|184741095|SUPERIORITY|||||||0.8021|||||||Log-Rank Test|||Log-rank test had been stratified by miglustat use.||||0.8021
92426854|NCT02612129|184741096|SUPERIORITY|||||||0.3662|||||||Fisher's Exact Test|||Percentage of participants worsening at Month 6||||0.3662
92426855|NCT02612129|184741096|SUPERIORITY|||||||1|||||||Fisher's Exact Test|||Percentage of participants worsening at Month 12||||1.0000
92426856|NCT02612129|184741097|SUPERIORITY||LS Mean Difference|-1.69||||0.1546|TWO_SIDED|95.0|-4.04|0.66|||ANCOVA|||Change From Baseline in 17-Domain NPCCSS Apart from Hearing Domains (i.e. Hearing and Auditory Brainstem Response) at Month 6 was analyzed using the Analysis of covariance (ANCOVA) model. ANCOVA model was fitted with treatment, baseline full-scale NPCCSS apart from hearing domains score, and use of miglustat as covariates.||0.66|-4.04|0.1546
92426857|NCT02612129|184741097|SUPERIORITY||LS Mean Difference|-1.61||||0.2199|TWO_SIDED|95.0|-4.24|1.01|||ANCOVA|||Change From Baseline in 17-Domain NPCCSS Apart from Hearing Domains (i.e. Hearing and Auditory Brainstem Response) at Month 12 was analyzed using the ANCOVA model. ANCOVA model is fitted with treatment, baseline full-scale NPCCSS apart from hearing domains score, and use of miglustat as covariates.||1.01|-4.24|0.2199
92426858|NCT02612129|184741098|SUPERIORITY||Least Square (LS) Mean Difference|-1.11||||0.0188|TWO_SIDED|95.0|-2.03|-0.19|||ANCOVA|||An ANCOVA model was fitted with treatment, baseline 5-domain NPCCSS score, and use of miglustat as covariates.||-0.19|-2.03|0.0188
92426859|NCT02612129|184741100|SUPERIORITY||LS Mean Difference|-5.09||||0.0536|TWO_SIDED|95.0|-10.26|0.08|||ANCOVA|||"Change from baseline in the NPC-CDB score (modified Stampfer Score) at Month 6 was analyzed using the ANCOVA model. ANCOVA model was fitted with treatment, baseline NPC-CDB total score and use of miglustat as covariates."||0.08|-10.26|0.0536
92426860|NCT02612129|184741100|SUPERIORITY||LS Mean Difference|-3.03||||0.3785|TWO_SIDED|95.0|-9.9|3.85|||ANCOVA|||"Change from baseline in the NPC-CDB score (modified Stampfer Score) at Month 12 was analyzed using the ANCOVA model. ANCOVA model was fitted with treatment, baseline NPC-CDB total score and use of miglustat as covariates."||3.85|-9.90|0.3785
92426861|NCT02612129|184741101|SUPERIORITY|||||||0.6951|||||||Chi-squared Test|||Percentage of participants with change from baseline at Month 6 in Quality of Life (EQ-5D-Y) being 'Better'||||0.6951
92426862|NCT02612129|184741101|SUPERIORITY|||||||0.7542|||||||Chi-squared Test|||Percentage of participants with change from baseline at Month 6 in Quality of Life (EQ-5D-Y) being 'Worse'||||0.7542
92170690|NCT03481660|184230056|OTHER|Treatment difference|Clopper-Pearson exact method|-16.2|||||TWO_SIDED|95.0|-26.4|-5.9||||||Subretinal Fluid (SRF) and/or Intraretinal Fluid (IRF) at Week 100||-5.9|-26.4|
92426863|NCT02612129|184741101|SUPERIORITY|||||||0.488|||||||Chi-squared Test|||Percentage of participants with change from baseline at Month 12 in Quality of Life (EQ-5D-Y) being 'Better'||||0.4880
92426864|NCT02612129|184741101|SUPERIORITY|||||||0.1804|||||||Chi-squared Test|||Percentage of participants with change from baseline at Month 12 in Quality of Life (EQ-5D-Y) being 'Worse'||||0.1804
92426865|NCT02612129|184741102|SUPERIORITY||LS Mean Difference|0.74||||0.371|TWO_SIDED|95.0|-0.92|2.4|||ANCOVA|||Change from baseline in the SARA score at Month 6 was measured using an ANCOVA model. ANCOVA model was fitted with treatment, baseline SARA score, and use of miglustat as covariates.||2.40|-0.92|0.3710
92426866|NCT02612129|184741102|SUPERIORITY||LS Mean Difference|0.28||||0.7899|TWO_SIDED|95.0|-1.82|2.37|||ANCOVA|||Change from baseline in the SARA score at Month 12 was measured using an ANCOVA model. ANCOVA model was fitted with treatment, baseline SARA score and use of miglustat as covariates.||2.37|-1.82|0.7899
92426867|NCT02612129|184741103|SUPERIORITY||LS Mean Difference|-10.34||||0.6195|TWO_SIDED|95.0|-53.01|32.33|||ANCOVA|||Dominant Hand: Change From Baseline in the Nine-Hole Peg Test (9HPT) at Month 6 was measured using an ANCOVA model: ANCOVA models were fitted with treatment, baseline dominant/non-dominant hand 9HPT time (secs), and use of miglustat as covariates||32.33|-53.01|0.6195
92426868|NCT02612129|184741103|SUPERIORITY||LS Mean Difference|-15.87||||0.4693|TWO_SIDED|95.0|-60.73|29.0|||ANCOVA|||Non-dominant Hand: Change From Baseline in the Nine-Hole Peg Test (9HPT) at Month 6 was measured using an ANCOVA model: ANCOVA models were fitted with treatment, baseline dominant/non-dominant hand 9HPT time (secs), and use of miglustat as covariates||29.00|-60.73|0.4693
92426869|NCT02612129|184741103|SUPERIORITY||LS Mean Difference|3.2||||0.7283|TWO_SIDED|95.0|-15.71|22.12|||ANCOVA|||Dominant Hand: Change From Baseline in the Nine-Hole Peg Test (9HPT) at Month 12 was measured using an ANCOVA model: ANCOVA models were fitted with treatment, baseline dominant/non-dominant hand 9HPT time (secs), and use of miglustat as covariates||22.12|-15.71|0.7283
92426870|NCT02612129|184741103|SUPERIORITY||LS Mean Difference|-5.91||||0.7708|TWO_SIDED|95.0|-47.54|35.72|||ANCOVA|||Non-dominant Hand: Change From Baseline in the Nine-Hole Peg Test (9HPT) at Month 12 was measured using an ANCOVA model: ANCOVA models were fitted with treatment, baseline dominant/non-dominant hand 9HPT time (secs), and use of miglustat as covariates||35.72|-47.54|0.7708
92426871|NCT03320057|184741125|OTHER|We conducted multivariable logistic regression analyses using Generalized Estimating Equation (GEE) models to assess whether study implementation was associated with pharmacists' overall medication abortion knowledge. Multivariable GEE analyses included time period (baseline and endline) as the primary independent variable, adjusted for gender and years of experience, and accounted for clustering by pharmacy site and individual pharmacist.|Beta Coefficient|0.14|||<|0.05|TWO_SIDED|95.0|0.11|0.17|||Regression, Linear||Coefficients in adjusted analyses examining overall medication abortion knowledge represent the difference in mean knowledge scores between baseline and endline.|Medication abortion knowledge scores were based on a set of 15 items. We first assessed the internal consistency reliability of the 15 knowledge items and considered a Cronbach's alpha coefficient above .70 to be acceptable to examine the items as a combined score.||0.17|0.11|<0.05
92426872|NCT06956170|184741126|OTHER||Hazard Ratio (HR)|0.53|||||TWO_SIDED|95.0|0.1|2.78|||||Hazard ratio was estimated using an unstratified Cox Proportional Hazard model with treatment arm as an explanatory variable.|||2.78|0.10|
92426873|NCT02280304|184741186|SUPERIORITY||||||>|0.05||||||A priori threshold = voxel p\<.001, cluster p\<.05, FDR whole brain correction. There is no correction for multiple seeds given small sample sizes and pre-post design. To report NS p-values and associated z-scores, uncorrected cluster ps were queried.|t-test, 1 sided|||Z-scores represent Fisher transformed correlation coefficients representing the correlations between hypothesized regions. Positive values represents positive connectivity between regions. Negative values represent anticorrelations, or negative relations, between hypothesized regions.||||>0.05
92426874|NCT02280304|184741187|OTHER||Mean Difference (Net)|1.8|||||TWO_SIDED|||||||||||||
92426875|NCT02280304|184741187|OTHER||Cohen's d|0.35|||||TWO_SIDED||||||||Cohen's d reflects Extent of Participation subscale of the CRIS, Post - Pre|||||
92426876|NCT02280304|184741187|OTHER||Median Difference (Net)|0.8|||||TWO_SIDED|||||||||||||
92426877|NCT02280304|184741187|OTHER||Cohen's d|0.14|||||TWO_SIDED||||||||Cohen's d reflects Extent of Participation Scale of the Cris pre- post|||||
92426878|NCT02280304|184741187|OTHER||Median Difference (Net)|0.8|||||TWO_SIDED|||||||||||||
92426879|NCT02280304|184741187|OTHER||Cohen's d|0.2|||||TWO_SIDED||||||||Cohens d reflects the Cris pre post Perceived Limitations scale|||||
92426880|NCT02280304|184741187|OTHER||Mean Difference (Net)|1.8|||||TWO_SIDED|||||||||||||
92426881|NCT02280304|184741187|OTHER||Cohens d|0.53|||||TWO_SIDED|||||||||||||
92426882|NCT02280304|184741187|OTHER||Mean Difference (Net)|1.3|||||TWO_SIDED|||||||||||||
92426883|NCT02280304|184741187|OTHER||Cohens d|0.29|||||TWO_SIDED|||||||||||||
92426884|NCT02280304|184741187|OTHER||Mean Difference (Net)|0.6|||||TWO_SIDED|||||||||||||
92426885|NCT02280304|184741187|OTHER||Cohens d|0.13|||||TWO_SIDED|||||||||||||
92426886|NCT02280304|184741188|OTHER||Cohens d|0.86|||||TWO_SIDED||||||||Cohen's d effect size (Cohen's d=.20 small, Cohen's d=.50 medium, Cohen's d=.80 large)|Cohen's d effect sizes are reported for changes over time (0 weeks vs. 12 weeks) in each group separately.||||
92426887|NCT02280304|184741188|OTHER||Cohens d|0.3|||||TWO_SIDED||||||||Cohen's d effect size (Cohen's d=.20 small, Cohen's d=.50 medium, Cohen's d=.80 large)|Cohen's d effect sizes are reported for changes over time (0 weeks vs. 12 weeks) in each group separately.||||
92426888|NCT02280304|184741189|OTHER||Cohens d|1.32|||||TWO_SIDED||||||||Cohen's d effect size change (Cohen's d =0.20 is a small effect; Cohen's d=0.50 is a medium effect; Cohen's d=0.80 is a large effect.)|Cohen's d effect sizes are reported for changes over time (0 weeks vs. 12 weeks) in each group separately.||||
92426889|NCT02280304|184741189|OTHER||Cohens d|0.27|||||TWO_SIDED||||||||Cohen's d effect size (Cohen's d =0.20 is a small effect; Cohen's d=0.50 is a medium effect; Cohen's d=0.80 is a large effect.)|Cohen's d effect sizes are reported for changes over time (0 weeks vs. 12 weeks) in each group separately.||||
92426890|NCT02280304|184741190|SUPERIORITY||||||<|0.0099||||||The p-value obtained for the L PHG seed/L IPL cluster is 0.0099. The critical p-value after Bonferroni correction for multiple seeds is p=.008.|t-test, 2 sided|Significance is determined when clusters reach voxel threshold p\<.001, cluster p\<.05 FDR corrected for multiple comparisons across the whole brain.||||||<.0099
92426891|NCT02280304|184741190|SUPERIORITY||||||<|0.02||||||The p-value obtained for the L anterior PGH seed/left VMPC cluster is 0.02. The critical p-value after Bonferroni correction for six seeds is p=.008.|t-test, 2 sided|Significance is determined when clusters reach voxel threshold p\<.001, cluster p\<.05 FDR corrected for multiple comparisons across the whole brain.||||||<0.02
92426892|NCT02280304|184741191|OTHER||Slope|0.02|||<|3.8e-05|TWO_SIDED|||||Cluster in MPFC p\<0.000038 FDR corrected for multiple comparisons across whole brain. Bonferroni correction for multiple seeds p=0.008.|Regression, Linear|Significance is determined when voxel (height) threshold p=.001, cluster threshold p=.05, FDR corrected for multiple tests across the whole brain.||The extent of community participation prior to therapy was correlated with the functional connectivity of the right hippocampus seed after therapy (post-pre).||||<.000038
92426893|NCT02280304|184741191|OTHER||Slope|0.02|||<|0.000149|TWO_SIDED|||||Cluster in the right cerebellum (crus 2) p\<0.000149 FDR corrected for multiple comparisons across the whole brain. Bonferroni for multiple seeds p=0.008.|Regression, Linear|Significance is determined when voxel (height) threshold p=.001, cluster threshold p=.05, FDR corrected for multiple tests across the whole brain.||The extent of community participation prior to therapy was correlated with the functional connectivity of the right hippocampus seed after therapy (post-pre).||||<0.000149
92426894|NCT01935791|184741202|OTHER||||||<|0.01||||||The p-values were adjusted for multiple comparisons. The a priori threshold for statistical significance is p\<0.05.|ANOVA|plus Tukey test||||||<0.01
92426895|NCT01935791|184741203|OTHER||||||<|0.001|||||||ANOVA|plus Tukey test||||||<0.001
92426896|NCT01419626|184741230|SUPERIORITY||Difference in LS mean|-0.461|||<|0.001|TWO_SIDED|95.0|-0.581|-0.341|||ANCOVA|||Statistical analysis at Week 4||-0.341|-0.581|<0.001
92426897|NCT01419626|184741230|SUPERIORITY||Difference in LS mean|-0.669|||<|0.001|TWO_SIDED|95.0|-0.789|-0.549|||ANCOVA|||Statistical analysis at Week 4||-0.549|-0.789|<0.001
92426898|NCT01419626|184741230|SUPERIORITY|Statistical analysis at Week 4|Difference in LS mean|-0.208|||<|0.001|TWO_SIDED|95.0|-0.326|-0.09|||ANCOVA|||||-0.090|-0.326|<0.001
92426899|NCT01419626|184741231|SUPERIORITY||Difference in LS mean|-0.494|||<|0.001|TWO_SIDED|95.0|-0.625|-0.363|||ANCOVA|||Statistical analysis at Week 4||-0.363|-0.625|<0.001
92426900|NCT01419626|184741231|SUPERIORITY||Difference in LS mean|-0.697|||<|0.001|TWO_SIDED|95.0|-0.828|-0.567|||ANCOVA|||Statistical analysis at Week 4||-0.567|-0.828|<0.001
92426901|NCT01419626|184741231|SUPERIORITY||Difference in LS mean|-0.203||||0.002||95.0|-0.333|-0.074|||ANCOVA|||Statistical analysis at Week 4||-0.074|-0.333|0.002
92426902|NCT01419626|184741232|SUPERIORITY||Difference in LS mean|-0.04|||<|0.001|TWO_SIDED|95.0|-0.059|-0.021|||ANCOVA|||Statistical analysis at Week 2||-0.021|-0.059|<0.001
92426903|NCT01419626|184741232|SUPERIORITY||Difference in LS mean|-0.044|||<|0.001||95.0|-0.064|-0.025|||ANCOVA|||Statistical analysis at Week 2||-0.025|-0.064|<0.001
92426904|NCT01419626|184741232|SUPERIORITY||Difference in LS mean|-0.004||||0.671|TWO_SIDED|95.0|-0.023|0.015|||ANCOVA|||Statistical analysis at Week 2||0.015|-0.023|0.671
92426905|NCT01419626|184741232|SUPERIORITY||Difference in LS mean|-0.091|||<|0.001|TWO_SIDED|95.0|-0.121|-0.061|||ANCOVA|||Statistical analysis at Week 4||-0.061|-0.121|<0.001
92236638|NCT01380093|184377453|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.9|||<|0.0001|TWO_SIDED|95.0|-11.8|-6.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-6.0|-11.8|<0.0001
92426906|NCT01419626|184741232|SUPERIORITY||Difference in LS mean|-0.144|||<|0.001|TWO_SIDED|95.0|-0.175|-0.114|||ANCOVA|||Statistical analysis at Week 4||-0.114|-0.175|<0.001
92426907|NCT01419626|184741232|SUPERIORITY||Difference in LS mean|-0.053|||<|0.001|TWO_SIDED|95.0|-0.083|-0.023|||ANCOVA|||Statistical analysis at Week 4||-0.023|-0.083|<0.001
92426908|NCT01419626|184741233|SUPERIORITY||Difference in LS mean|-0.09|||<|0.001|TWO_SIDED|95.0|-0.115|-0.065|||ANCOVA|||Statistical analysis at Week 2||-0.065|-0.115|<0.001
92426909|NCT01419626|184741233|SUPERIORITY||Difference in LS mean|-0.164|||<|0.001|TWO_SIDED|95.0|-0.189|-0.138|||ANCOVA|||Statistical analysis at Week 2||-0.138|-0.189|<0.001
92426910|NCT01419626|184741233|SUPERIORITY||Difference in LS mean|-0.073|||<|0.001|TWO_SIDED|95.0|-0.099|-0.048|||ANCOVA|||Statistical analysis at Week 2||-0.048|-0.099|<0.001
92426911|NCT01419626|184741233|SUPERIORITY||Difference in LS mean|-0.15|||<|0.001|TWO_SIDED|95.0|-0.18|-0.12|||ANCOVA|||Statistical analysis at Week 4||-0.120|-0.180|<0.001
92426912|NCT01419626|184741233|SUPERIORITY||Difference in LS mean|-0.257|||<|0.001|TWO_SIDED|95.0|-0.287|-0.226|||ANCOVA|||Statistical analysis at Week 4||-0.226|-0.287|<0.001
92426913|NCT01419626|184741233|SUPERIORITY||Difference in LS mean|-0.107|||<|0.001|TWO_SIDED|95.0|-0.137|-0.077|||ANCOVA|||Statistical analysis at Week 4||-0.077|-0.137|<0.001
92426914|NCT01419626|184741234|SUPERIORITY||Difference in LS mean|-0.362|||<|0.001|TWO_SIDED|95.0|-0.465|-0.259|||ANCOVA|||Statistical analysis at Week 2||-0.259|-0.465|<0.001
92426915|NCT01419626|184741234|SUPERIORITY||Difference in LS mean|-0.534|||<|0.001|TWO_SIDED|95.0|-0.637|-0.431|||ANCOVA|||Statistical analysis at Week 2||-0.431|-0.637|<0.001
92426916|NCT01419626|184741234|SUPERIORITY||Difference in LS mean|-0.171||||0.001|TWO_SIDED|95.0|-0.273|-0.069|||ANCOVA|||Statistical analysis at Week 2||-0.069|-0.273|0.001
92426917|NCT01419626|184741235|SUPERIORITY||Difference in LS mean|-0.401|||<|0.001|TWO_SIDED|95.0|-0.51|-0.292|||ANCOVA|||Statistical analysis at Week 2||-0.292|-0.510|<0.001
92426918|NCT01419626|184741235|SUPERIORITY||Difference in LS mean|-0.558|||<|0.001|TWO_SIDED|95.0|-0.667|-0.449|||ANCOVA|||Statistical analysis at Week 2||-0.449|-0.667|<0.001
92426919|NCT01419626|184741235|SUPERIORITY||Difference in LS mean|-0.157|||<|0.001|TWO_SIDED|95.0|-0.265|-0.049|||ANCOVA|||Statistical analysis at Week 2||-0.049|-0.265|<0.001
92426920|NCT01419626|184741236|SUPERIORITY||Difference in LS mean|-0.03|||<|0.001|TWO_SIDED|95.0|-0.046|-0.014|||ANCOVA|||Statistical analysis at Week 2||-0.014|-0.046|<0.001
92426921|NCT01419626|184741236|SUPERIORITY||Difference in LS mean|-0.039|||<|0.001|TWO_SIDED|95.0|-0.055|-0.023|||ANCOVA|||Statistical analysis at Week 2||-0.023|-0.055|<0.001
92426922|NCT01419626|184741236|SUPERIORITY||Difference in LS mean|-0.009||||0.294|TWO_SIDED|95.0|-0.025|0.007|||ANCOVA|||Statistical analysis at Week 2||0.007|-0.025|0.294
92426923|NCT01419626|184741236|SUPERIORITY||Difference in LS mean|-0.019||||0.02|TWO_SIDED|95.0|-0.035|-0.003|||ANCOVA|||Statistical analysis at Week 4||-0.003|-0.035|0.020
92426924|NCT01419626|184741236|SUPERIORITY||Difference in LS mean|-0.034|||<|0.001|TWO_SIDED|95.0|-0.05|-0.018|||ANCOVA|||Statistical analysis at Week 4||-0.018|-0.050|<0.001
92236639|NCT01380093|184377453|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2||||0.0006|TWO_SIDED|95.0|2.3|8.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||8.1|2.3|0.0006
92426925|NCT01419626|184741236|SUPERIORITY||Difference in LS mean|-0.015||||0.071|TWO_SIDED|95.0|-0.031|0.001|||ANCOVA|||Statistical analysis at Week 4||0.001|-0.031|0.071
92426926|NCT01419626|184741237|SUPERIORITY||Difference in LS mean|-0.067|||<|0.001||95.0|-0.083|-0.05|||ANCOVA|||Statistical analysis at Week 2||-0.050|-0.083|<0.001
92426927|NCT01419626|184741237|SUPERIORITY||Difference in LS mean|-0.083|||<|0.001|TWO_SIDED|95.0|-0.099|-0.066|||ANCOVA|||Statistical analysis at Week 2||-0.066|-0.099|<0.001
92426928|NCT01419626|184741237|SUPERIORITY||Difference in LS mean|-0.016||||0.057|TWO_SIDED|95.0|-0.032|0.0|||ANCOVA|||Statistical analysis at Week 2||0.000|-0.032|0.057
92426929|NCT01419626|184741237|SUPERIORITY||Difference in LS mean|-0.077|||<|0.001|TWO_SIDED|95.0|-0.095|-0.059|||ANCOVA|||Statistical analysis at Week 4||-0.059|-0.095|<0.001
92426930|NCT01419626|184741237|SUPERIORITY||Difference in LS mean|-0.101|||<|0.001|TWO_SIDED|95.0|-0.12|-0.083|||ANCOVA|||Statistical analysis at Week 4||-0.083|-0.120|<0.001
92426931|NCT01419626|184741237|SUPERIORITY||Difference in LS mean|-0.024||||0.009|TWO_SIDED|95.0|-0.042|-0.006|||ANCOVA|||Statistical analysis at Week 4||-0.006|-0.042|0.009
92426932|NCT05047770|184741253|NON_INFERIORITY|The non-inferiority was to be concluded if the upper limit (UL) of the 95% confidence interval (CI) of the adjusted GMC ratio between HZ/suSeq group and HZ/suCoAd group for anti-gE antibody concentration was below (\<) 1.5.|GMC Ratio|1.01|||||TWO_SIDED|95.0|0.89|1.13|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 2 doses of HZ/su vaccine when the first dose of HZ/su vaccine was co-administered with the mRNA-1273 booster dose compared to HZ/su vaccine administered alone, in terms of anti-gE GMCs, at 1 month post-dose 2 of HZ/su vaccine administration (Week 14 for HZ/suSeq group and Week 12 for HZ/suCoAd group).||1.13|0.89|
92170691|NCT03481660|184230057|OTHER|Treatment difference|Clopper-Pearson exact method|-25.4|||||TWO_SIDED|95.0|-34.4|-16.3||||||Fluorescein Angiography (FA) at Week 52||-16.3|-34.4|
92170692|NCT03481660|184230057|OTHER|Treatment difference|Clopper-Pearson exact method|-19.1|||||TWO_SIDED|95.0|-29.1|-8.2||||||Fluorescein Angiography (FA) at Week 100||-8.2|-29.1|
92236640|NCT01380093|184377453|SUPERIORITY_OR_OTHER||LS Mean Difference|14.1|||<|0.0001|TWO_SIDED|95.0|11.2|17.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||17.0|11.2|<0.0001
92236641|NCT01380093|184377454|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.8|||<|0.0001|TWO_SIDED|95.0|-62.0|-35.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-35.5|-62.0|<0.0001
92279546|NCT02655237|184462506|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.2|||||TWO_SIDED|95.0|0.015|0.381|||||Relugolix 40 mg-Leuprorelin|Week 4||0.381|0.015|
92426933|NCT05047770|184741254|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMC ratio between HZ/suSeq group and HZ/suCoAd group for anti-S protein antibody concentration was \<1.5.|GMC Ratio|1.09|||||TWO_SIDED|95.0|0.9|1.32|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of mRNA-1273 booster when the first dose of HZ/su vaccine was co-administered with the mRNA-1273 booster dose compared to mRNA-1273 booster dose administered alone, in terms of anti-S protein GMCs, at 1 month post-mRNA-1273 booster dose administration (at Week 4 for both HZ/suSeq and HZ/suCoAd groups).||1.32|0.90|
92426934|NCT05047770|184741255|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMT ratio between FluD-QIVSeq group and FluD-QIVCoAd group for anti-HI antibody titer was \<1.5 for the A/H1N1 influenza strain.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.89|1.18|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of anti-HI GMTs against the A/H1N1 influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||1.18|0.89|
92426935|NCT05047770|184741255|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMT ratio between FluD-QIVSeq group and FluD-QIVCoAd group for anti-HI antibody titer was \<1.5 for the A/H3N2 influenza strain.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.82|1.05|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of anti-HI GMTs against the A/H3N2 influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||1.05|0.82|
92426936|NCT05047770|184741255|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMT ratio between FluD-QIVSeq group and FluD-QIVCoAd group for anti-HI antibody titer was \<1.5 for the B/Victoria lineage influenza strain.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.89|1.14|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of anti-HI GMTs against the B/Victoria lineage influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||1.14|0.89|
92170693|NCT03481660|184230058|OTHER|Treatment difference|Clopper-Pearson exact method|1.1|||||TWO_SIDED|95.0|-5.6|7.8||||||\>=2-step improvement in ETDRS-DRSS at Week 52||7.8|-5.6|
92170694|NCT03481660|184230058|OTHER|Treatment difference|Clopper-Pearson exact method|4.5|||||TWO_SIDED|95.0|-1.7|10.8||||||\>=2-step improvement in ETDRS-DRSS at Week 100||10.8|-1.7|
92170695|NCT03481660|184230059|OTHER|Treatment difference|Clopper-Pearson exact method|-0.6|||||TWO_SIDED|95.0|-7.1|5.7||||||\>=3-step improvement in ETDRS-DRSS at Week 52||5.7|-7.1|
92426937|NCT05047770|184741255|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMT ratio between FluD-QIVSeq group and FluD-QIVCoAd group for anti-HI antibody titer was \<1.5 for the B/Yamagata lineage influenza strain.|GMT Ratio|1.04|||||TWO_SIDED|95.0|0.93|1.17|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of anti-HI GMTs against the B/Yamagata lineage influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||1.17|0.93|
92170696|NCT03481660|184230059|OTHER|Treatment difference|Clopper-Pearson exact method|3.9|||||TWO_SIDED|95.0|-2.3|10.0||||||\>=3-step improvement in ETDRS-DRSS at Week 100||10.0|-2.3|
92236642|NCT01380093|184377454|SUPERIORITY_OR_OTHER||LS Mean Difference|29.0|||<|0.0001|TWO_SIDED|95.0|15.8|42.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||42.3|15.8|<0.0001
92426938|NCT05047770|184741256|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMC ratio between FluD-QIVSeq group and FluD-QIVCoAd group for anti-S antibody concentration was \<1.5.|GMC Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.13|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of mRNA-1273 booster when co-administered with Flu D-QIV vaccine compared to mRNA-1273 booster dose administered alone in terms of anti-S protein GMCs, at 1 month post-mRNA-1273 booster dose administration (at Week 4 for both FluD-QIVSeq and FluD-QIVCoAd groups).||1.13|0.84|
92426939|NCT05047770|184741257|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the difference in percentage of participants seroconverted for anti-HI antibodies against the A/H1N1 influenza strain between FluD-QIVSeq group and FluD-QIVCoAd group was \< 10%.|Difference in percentage|0.6|||||TWO_SIDED|95.0|-5.1|6.4|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of percentage of participants seroconverted for anti-HI antibodies against the A/H1N1 influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||6.4|-5.1|
92426940|NCT05047770|184741257|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the difference in percentage of participants seroconverted for anti-HI antibodies against the A/H3N2 influenza strain between FluD-QIVSeq group and FluD-QIVCoAd group was \< 10%.|Difference in percentage|-1.3|||||TWO_SIDED|95.0|-7.8|5.2|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of percentage of participants seroconverted for anti-HI antibodies against the A/H3N2 influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||5.2|-7.8|
92426941|NCT05047770|184741257|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the difference in percentage of participants seroconverted for anti-HI antibodies against the B/Victoria lineage influenza strain between FluD-QIVSeq group and FluD-QIVCoAd group was \< 10%.|Difference in percentage|0.1|||||TWO_SIDED|95.0|-5.8|5.9|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of percentage of participants seroconverted for anti-HI antibodies against the B/Victoria lineage influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||5.9|-5.8|
92426942|NCT05047770|184741257|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the difference in percentage of participants seroconverted for anti-HI antibodies against the B/Yamagata influenza strain between FluD-QIVSeq group and FluD-QIVCoAd group was \< 10%.|Difference in percentage|-1.6|||||TWO_SIDED|95.0|-7.0|3.9|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of percentage of participants seroconverted for anti-HI antibodies against the B/Yamagata influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||3.9|-7.0|
92170697|NCT03481660|184230060|OTHER|Treatment difference|Clopper-Pearson exact method|1.1|||||TWO_SIDED|95.0|-1.0|3.6||||||\>=2-step worsening in ETDRS-DRSS at Week 52||3.6|-1.0|
92170698|NCT03481660|184230060|OTHER|Treatment difference|Clopper-Pearson exact method|2.9|||||TWO_SIDED|95.0|-0.5|6.9||||||\>=2-step worsening in ETDRS-DRSS at Week 100||6.9|-0.5|
92170699|NCT03481660|184230061|OTHER|Treatment difference|Clopper-Pearson exact method|0.6|||||TWO_SIDED|95.0|0.5|2.1||||||\>=3-step worsening in ETDRS-DRSS at Week 52||2.1|0.5|
92426943|NCT01952145|184741314|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of IDegLira versus IGlar was considered as confirmed, if the 95% confidence interval (CI) for the mean treatment difference was entirely below 0.30%.|Treatment contrast|-0.59|||<|0.001|TWO_SIDED|95.0|-0.74|-0.45|||ANCOVA|||This primary endpoint was analysed on the FAS using an ANCOVA model with treatment and region as fixed effects and baseline HbA1c value as covariate.||-0.45|-0.74|< 0.001
92426944|NCT02130570|184741329|SUPERIORITY||Incidence rate ratio|0.52||||0.02|TWO_SIDED|95.0|0.3|0.91||This is the P-value for the adjusted IRR.|Regression poissant|"Please see the Other Statistical Analysis field for adjustments."|||Adjusted for study month, Elixhauser comorbidity score, patient age, sex, language, race/ethnicity, cognitive status, health literacy, functional status one month prior to admission, caregiver status, median income by zip code, ED visits in the previous 6 months, HOSPITAL readmission risk score, inpatient unit, and primary care practice. IRR: incidence rate ratio|0.91|0.30|0.02
92426945|NCT02130570|184741330|SUPERIORITY||Incidence rate ratio|0.78||||0.01|TWO_SIDED|95.0|0.64|0.95||This is the p-value for the adjusted rate|Regression poissant|"For adjustments, please see the Other Statistical Analysis field below."|||Adjusted for study month, Elixhauser comorbidity score, patient age, sex, language, race/ethnicity, cognitive status, health literacy, functional status one month prior to admission, caregiver status, median income by zip code, ED visits in the previous 6 months, HOSPITAL readmission risk score, inpatient unit, and primary care practice. IRR: incidence rate ratio|0.95|0.64|0.01
92170700|NCT03481660|184230061|OTHER|Treatment difference|Clopper-Pearson exact method|-0.6|||||TWO_SIDED|95.0|-2.6|1.3||||||\>=3-step worsening in ETDRS-DRSS at Week 100||1.3|-2.6|
92170701|NCT03481660|184230062|OTHER|Treatment difference|Clopper-Pearson exact method|0.0|||||TWO_SIDED|95.0|-2.1|1.9||||||Proliferative diabetic retinopathy (PDR) of at least 61 by Week 100||1.9|-2.1|
92170702|NCT02791230|184230088|SUPERIORITY||Hazard Ratio (HR)|0.6202||||0.0001|TWO_SIDED|95.0|0.4865|0.7906|||Cox proportional hazards model||Hazard ratio from a Cox proportional hazards model with treatment, Transthyretin (TTR) genotype (variant and wild-type) and New York Heart Association (NYHA) baseline classification (NYHA Classes I and II combined and NYHA Class III) in the model.|||0.7906|0.4865|0.0001
92170703|NCT02791230|184230091|SUPERIORITY||Hazard ratio|0.6133||||0.0005|TWO_SIDED|95.0|0.4666|0.8062|||Cox Proportional Hazards model||Hazard ratio from a Cox proportional hazards model with treatment, TTR genotype (variant and wild-type) and NYHA baseline classification (NYHA Classes I and II combined and NYHA Class III) in the model.|||0.8062|0.4666|0.0005
92170704|NCT05769595|184230121|OTHER||Geometric Mean Ratio|2.51|||||TWO_SIDED|90.0|2.24|2.82|||||Geometric mean ratio is MK-2060/placebo|||2.82|2.24|
92236643|NCT01380093|184377454|SUPERIORITY_OR_OTHER||LS Mean Difference|77.8|||<|0.0001|TWO_SIDED|95.0|64.5|91.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||91.0|64.5|<0.0001
92236644|NCT01380093|184377455|SUPERIORITY_OR_OTHER||LS Mean Difference|-68.6|||<|0.0001|TWO_SIDED|95.0|-95.0|-42.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-42.2|-95.0|<0.0001
92236645|NCT01380093|184377455|SUPERIORITY_OR_OTHER||LS Mean Difference|56.5|||<|0.0001|TWO_SIDED|95.0|30.1|82.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||82.8|30.1|<0.0001
92426946|NCT02130570|184741331|SUPERIORITY||Odds Ratio (OR)|1.08||||0.77|TWO_SIDED|95.0|0.64|1.85||This is the P-value for the adjusted Odds Ratio|Regression, Logistic|"For adjustments, please see the Other Statistical Analysis field below."|||Adjusted for study month, Elixhauser comorbidity score, patient age, sex, language, race/ethnicity, cognitive status, health literacy, functional status one month prior to admission, caregiver status, median income by zip code, ED visits in the previous 6 months, HOSPITAL readmission risk score; clustered by inpatient unit; primary care practice as a random effect . OR: odds ratio|1.85|0.64|0.77
92426947|NCT02130570|184741332|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.91|TWO_SIDED|||||This is the P-value for the adjusted difference.|Regression, Linear|"Please see the Other Statistical Analysis field for adjustments."|||Adjusted for study month, Elixhauser comorbidity score, patient age, sex, language, race/ethnicity, cognitive status, health literacy, functional status one month prior to admission, caregiver status, median income by zip code, ED visits in the previous 6 months, HOSPITAL readmission risk score; clustered by inpatient unit; primary care practice as a random effect.|||0.91
92426948|NCT02130570|184741333|SUPERIORITY||Odds Ratio, log|0.85||||0.57|TWO_SIDED|95.0|0.47|1.51||"Please see the Other Statistical Analysis field for adjustments and the P-value computed for each survey question."|Regression, Logistic||"Please see the Other Statistical Analysis field for a list of the estimated value and 95% CI for each survey question."||"Please see the Other Statistical Analysis field for adjustments."|1.51|0.47|0.57
92426949|NCT05981391|184741339|SUPERIORITY|||||||0.01||||||Adjusted for multiple comparisons.|t-test, 2 sided|||||||0.01
92426950|NCT01065597|184741348|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||t-test, 2 sided|This was a paired t-test.||||||0.001
92426951|NCT01065597|184741349|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|This was a paired t-test.||||||>0.05
92426952|NCT01065597|184741351|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92426953|NCT02713204|184741363|SUPERIORITY|Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.|Least square mean difference|0.02||||0.9894|TWO_SIDED|95.0|-2.99|3.03||Threshold for significance at 0.05 level.|ANCOVA|||||3.03|-2.99|0.9894
92426954|NCT02713204|184741363|SUPERIORITY||Least square mean difference|0.25||||0.8346|TWO_SIDED|95.0|-2.09|2.59|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||2.59|-2.09|0.8346
92236646|NCT01380093|184377455|SUPERIORITY_OR_OTHER||LS Mean Difference|125.1|||<|0.0001|TWO_SIDED|95.0|98.7|151.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||151.5|98.7|<0.0001
92236647|NCT01380093|184377456|SUPERIORITY_OR_OTHER||LS Mean Difference|-76.0||||0.0001|TWO_SIDED|95.0|-112.8|-39.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-39.2|-112.8|0.0001
92426955|NCT02713204|184741364|SUPERIORITY||Least square mean difference|-1.2||||0.4611|TWO_SIDED|95.0|-4.41|2.0||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||2.00|-4.41|0.4611
92236648|NCT01380093|184377456|SUPERIORITY_OR_OTHER||LS Mean Difference|66.5||||0.0006|TWO_SIDED|95.0|29.8|103.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||103.2|29.8|0.0006
92426956|NCT02713204|184741364|SUPERIORITY|Threshold for significance at 0.05 level.|Least square mean difference|-2.0||||0.2225|TWO_SIDED|95.0|-5.22|1.22|||ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||1.22|-5.22|0.2225
92426957|NCT02713204|184741364|SUPERIORITY||Least square mean difference|-0.82||||0.6063|TWO_SIDED|95.0|-3.97|2.32||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||2.32|-3.97|0.6063
92426958|NCT02713204|184741364|SUPERIORITY||Least square mean difference|-3.25||||0.0426|TWO_SIDED|95.0|-6.39|-0.11||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||-0.11|-6.39|0.0426
92426959|NCT02713204|184741364|SUPERIORITY||Least square mean difference|-4.39||||0.0073|TWO_SIDED|95.0|-7.58|-1.19||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||-1.19|-7.58|0.0073
92426960|NCT02713204|184741364|SUPERIORITY||Least square mean difference|1.17||||0.469|TWO_SIDED|95.0|-2.01|4.36||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||4.36|-2.01|0.4690
92426961|NCT02713204|184741364|SUPERIORITY||Least square mean difference|2.42||||0.1267|TWO_SIDED|95.0|-0.69|5.54||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||5.54|-0.69|0.1267
92426962|NCT02713204|184741365|SUPERIORITY||Least square mean difference|-11.57||||0.413|TWO_SIDED|95.0|-39.5|16.2||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||16.20|-39.5|0.4130
92426963|NCT02713204|184741365|SUPERIORITY||Least square mean difference|-4.88||||0.6587|TWO_SIDED|95.0|-26.2|16.85|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||16.85|-26.2|0.6587
92236649|NCT01380093|184377456|SUPERIORITY_OR_OTHER||LS Mean Difference|142.5|||<|0.0001|TWO_SIDED|95.0|105.7|179.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||179.3|105.7|<0.0001
92426964|NCT02713204|184741366|SUPERIORITY||Least square mean difference|17.04||||0.3833|TWO_SIDED|95.0|-21.35|55.43||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||55.43|-21.35|0.3833
92426965|NCT02713204|184741366|SUPERIORITY||Least square mean difference|12.85||||0.5141|TWO_SIDED|95.0|-25.84|51.53||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||51.53|-25.84|0.5141
92279547|NCT02655237|184462506|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.1|||||TWO_SIDED|95.0|-0.135|0.333|||||Relugolix 40 mg-Leuprorelin|Week 8||0.333|-0.135|
92426966|NCT02713204|184741366|SUPERIORITY||Least square mean difference|33.89||||0.0785|TWO_SIDED|95.0|-3.89|71.67|||ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||71.67|-3.89|0.0785
92426967|NCT02713204|184741366|SUPERIORITY||Least square mean difference|42.27||||0.0281|TWO_SIDED|95.0|4.56|79.98||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||79.98|4.56|0.0281
92426968|NCT02713204|184741366|SUPERIORITY||Least square mean difference|16.65||||0.3934|TWO_SIDED|95.0|-21.67|54.96||Threshold for significance at 0.05 level.|ANCOVA|||||54.96|-21.67|0.3934
92426969|NCT02713204|184741366|SUPERIORITY||Least square mean difference|21.05||||0.279|TWO_SIDED|95.0|-17.13|59.22||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||59.22|-17.13|0.2790
92426970|NCT02713204|184741366|SUPERIORITY||Least square mean difference|-8.38||||0.6586|TWO_SIDED|95.0|-45.64|28.88||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||28.88|-45.64|0.6586
92426971|NCT02713204|184741367|SUPERIORITY||Least square mean difference|0.55||||0.4889|TWO_SIDED|95.0|-1.01|2.1||Threshold for significance at 0.05 level.|ANCOVA|||||2.10|-1.01|0.4889
92426972|NCT02713204|184741367|SUPERIORITY||Least square mean difference|0.24||||0.7027|TWO_SIDED|95.0|-0.99|1.46||Threshold for significance at 0.05 level.|ANCOVA|||||1.46|-0.99|0.7027
92426973|NCT02713204|184741368|SUPERIORITY||Least square mean difference|-0.6||||0.4927|TWO_SIDED|95.0|-2.34|1.13||Threshold for significance at 0.05 level.|ANCOVA|||||1.13|-2.34|0.4927
92426974|NCT02713204|184741368|SUPERIORITY||Least square mean difference|0.38||||0.6645|TWO_SIDED|95.0|-1.36|2.13||Threshold for significance at 0.05 level.|ANCOVA|||||2.13|-1.36|0.6645
92426975|NCT02713204|184741368|SUPERIORITY||Least square mean difference|-0.89||||0.3091|TWO_SIDED|95.0|-2.61|0.83||Threshold for significance at 0.05 level.|ANCOVA|||||0.83|-2.61|0.3091
92426976|NCT02713204|184741368|SUPERIORITY||Least square mean difference|-0.6||||0.4898|TWO_SIDED|95.0|-2.29|1.1||Threshold for significance at 0.05 level.|ANCOVA|||||1.10|-2.29|0.4898
92426977|NCT02713204|184741368|SUPERIORITY||Least square mean difference|-0.8||||0.3504|TWO_SIDED|95.0|-2.5|0.89||Threshold for significance at 0.05 level.|ANCOVA|||||0.89|-2.50|0.3504
92426978|NCT02713204|184741368|SUPERIORITY||Least square mean difference|-0.98||||0.2632|TWO_SIDED|95.0|-2.7|0.74||Threshold for significance at 0.05 level.|ANCOVA|||||0.74|-2.70|0.2632
92426979|NCT02713204|184741368|SUPERIORITY||Least square mean difference|0.21||||0.8056|TWO_SIDED|95.0|-1.46|1.88||Threshold for significance at 0.05 level.|ANCOVA|||||1.88|-1.46|0.8056
92426980|NCT02713204|184741369|SUPERIORITY||Least square mean difference|0.57||||0.5065|TWO_SIDED|95.0|-1.11|2.25||Threshold for significance at 0.05 level.|ANCOVA|||||2.25|-1.11|0.5065
92426981|NCT02713204|184741369|SUPERIORITY||Least square mean difference|-0.22||||0.7418|TWO_SIDED|95.0|-1.55|1.1||Threshold for significance at 0.05 level.|ANCOVA|||||1.10|-1.55|0.7418
92426982|NCT02713204|184741370|SUPERIORITY||Least square mean difference|-0.19||||0.8383|TWO_SIDED|95.0|-1.99|1.62||Threshold for significance at 0.05 level.|ANCOVA|||||1.62|-1.99|0.8383
92426983|NCT02713204|184741370|SUPERIORITY||Least square mean difference|-0.1||||0.918|TWO_SIDED|95.0|-1.91|1.72||Threshold for significance at 0.05 level.|ANCOVA|||||1.72|-1.91|0.9180
92426984|NCT02713204|184741370|SUPERIORITY||Least square mean difference|-1.41||||0.1238|TWO_SIDED|95.0|-3.2|0.39||Threshold for significance at 0.05 level.|ANCOVA|||||0.39|-3.20|0.1238
92426985|NCT02713204|184741370|SUPERIORITY||Least square mean difference|-0.97||||0.2819|TWO_SIDED|95.0|-2.73|0.8||Threshold for significance at 0.05 level.|ANCOVA|||||0.80|-2.73|0.2819
92426986|NCT02713204|184741370|SUPERIORITY||Least square mean difference|-1.02||||0.2581|TWO_SIDED|95.0|-2.78|0.75||Threshold for significance at 0.05 level.|ANCOVA|||||0.75|-2.78|0.2581
92170705|NCT04605198|184230122|SUPERIORITY|A multilevel model was constructed. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention, primary endpoint\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was also included as a fixed-effect. An independent covariance pattern was specified as final models were random-intercept only.|Mean Difference (Net)|-0.58||||0.846|TWO_SIDED|95.0|-6.46|5.29|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|||5.29|-6.46|.846
92426987|NCT02713204|184741370|SUPERIORITY||Least square mean difference|-0.87||||0.339|TWO_SIDED|95.0|-2.66|0.92||Threshold for significance at 0.05 level.|ANCOVA|||||0.92|-2.66|0.3390
92426988|NCT02713204|184741370|SUPERIORITY||Least square mean difference|0.05||||0.9558|TWO_SIDED|95.0|-1.69|1.79||Threshold for significance at 0.05 level.|ANCOVA|||||1.79|-1.69|0.9558
92426989|NCT02635776|184741412|SUPERIORITY||Risk Difference (RD)|63.2|||<|0.0001|TWO_SIDED|95.0|53.0|73.3|||Farrington-Manning test|||Treatment difference at 600 mg||73.3|53|<0.0001
92426990|NCT02635776|184741413|SUPERIORITY||Risk Difference (RD)|47.8|||<|0.0001|TWO_SIDED|95.0|38.0|57.7|||Farrington-Manning test|||Treatment difference at 1000 mg||57.7|38|<0.0001
92426991|NCT02635776|184741414|SUPERIORITY||Risk Difference (RD)|68.5|||<|0.0001|TWO_SIDED|95.0|58.6|78.5|||Farrington-Manning test|||Treatment difference at 300 mg||78.5|58.6|<0.0001
92426992|NCT02635776|184741415|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test (using equally spaced scores), stratified by region (North America, Europe)||Treatment difference in maximum severity||||<0.0001
92426993|NCT00660673|184741428|OTHER||||||<|0.001|||||||One-sample t-test|||"Change from initial LCIG infusion to end of study in off time was assessed for significance using a 1-sample paired t test"||||<0.001
92426994|NCT00660673|184741428|OTHER|||||||0.433|||||||One-sample t-test|||"Change from Baseline to end of study in off time was assessed for significance using a 1-sample paired t-test."||||0.433
92426995|NCT00660673|184741429|OTHER||||||<|0.001|||||||One-sample t-test|||"Change from initial LCIG infusion to end of study in on time without troublesome dyskinesia was assessed for significance using a 1-sample paired t-test."||||<0.001
92426996|NCT00660673|184741429|OTHER|||||||0.15|||||||One-sample t-test|||"Change from Baseline to end of study in on time without troublesome dyskinesia was assessed for significance using a 1-sample paired t test"||||0.150
92426997|NCT00660673|184741430|OTHER|||||||0.725|||||||One-sample t-test|||"Change from initial LCIG infusion to end of study in on time with troublesome dyskinesia was assessed for significance using a 1-sample paired t test"||||0.725
92426998|NCT00660673|184741430|OTHER|||||||0.019|||||||One-sample t-test|||"Change from Baseline to end of study in on time with troublesome dyskinesia was assessed for significance using a 1-sample paired t test"||||0.019
92426999|NCT00579098|184741438|SUPERIORITY_OR_OTHER|||||||0.75||95.0||||A p-value of \< 0.05 was considered statistically significant.|Log Rank|||||||0.75
92427000|NCT00579098|184741439|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||A p-value of \< 0.05 was considered statistically significant.|Log Rank|||||||0.37
92427001|NCT00579098|184741440|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||A p-value of \< 0.05 was considered statistically significant.|t-test, 2 sided|||||||0.11
92427002|NCT00579098|184741441|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||Comparison between treatment groups. A p-value of \< 0.05 was considered statistically significant.|t-test, 2 sided|||||||0.53
92427003|NCT00579098|184741442|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A p-value of \< 0.05 was considered statistically significant.|t-test, 2 sided|||The change in total cholesterol was compared between treatment groups.||||<0.001
92427004|NCT00579098|184741442|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A p-value of \< 0.05 was considered statistically significant.|t-test, 2 sided|||The change in LDL cholesterol was compared between treatment groups.||||<0.001
92427005|NCT00579098|184741442|SUPERIORITY_OR_OTHER|||||||0.92||95.0||||A p-value of \< 0.05 was considered statistically significant.|t-test, 2 sided|||The change in HDL cholesterol was compared between treatment groups.||||0.92
92236650|NCT01380093|184377457|SUPERIORITY_OR_OTHER||LS Mean Difference|-86.2||||0.0011|TWO_SIDED|95.0|-136.5|-35.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-35.9|-136.5|0.0011
92279548|NCT02655237|184462506|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.07|||||TWO_SIDED|95.0|-0.189|0.323|||||Relugolix 40 mg-Leuprorelin|Week 12||0.323|-0.189|
92427006|NCT01903031|184741474|OTHER||||||<|0.001||||||No adjustments for multiple comparisons were made. Statistical significance was declared if p\<0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference in concentrations of Etonogestrel on day 21 between the control arm (NuvaRing and no ART) and NuvaRing with EFV plus ≥2 NRTIs.||||<0.001
92427007|NCT01903031|184741474|OTHER||||||<|0.001||||||No adjustments for multiple comparisons were made. Statistical significance was declared if p\<0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference in concentrations of Etonogestrel on day 21 between the control arm (NuvaRing and no ART) and NuvaRing with ATV/r plus TDF and ≥1 NRTIs.||||<0.001
92427008|NCT01903031|184741475|OTHER||||||<|0.001||||||No adjustments for multiple comparisons were made. Statistical significance was declared if p\<0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference in concentrations of Ethinyl Estradiol on day 21 between the control arm (NuvaRing and no ART) and NuvaRing with EFV plus ≥2 NRTIs.||||<0.001
92427009|NCT01903031|184741475|OTHER|||||||0.004||||||No adjustments for multiple comparisons were made. Statistical significance was declared if p\<0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference in concentrations of Ethinyl Estradiol on day 21 between the control arm (NuvaRing and no ART) and NuvaRing with ATV/r plus TDF and ≥1 NRTIs.||||0.004
92427010|NCT02298023|184741617|OTHER|||||||0.35|||||||Kruskal-Wallis|||Null hypothesis: There is no difference between the three groups. Statistical power: 0.80||||0.35
92427011|NCT02298023|184741618|EQUIVALENCE|To test whether there were differences in the rate of change among groups||||||0.662|||||||Mixed Models Analysis|||||||0.662
92427012|NCT02298023|184741619|EQUIVALENCE|To test whether there were differences in the rate of change among groups||||||0.882|||||||Mixed Models Analysis|||||||0.882
92427013|NCT02298023|184741620|EQUIVALENCE|To test whether there were differences in the rate of change among groups||||||0.835|||||||Mixed Models Analysis|||||||0.835
92427014|NCT02298023|184741621|EQUIVALENCE|To test whether there were differences in the rate of change among groups||||||0.977|||||||Mixed Models Analysis|||||||0.977
92427015|NCT02298023|184741622|EQUIVALENCE|To test whether there were differences in the rate of change among groups||||||0.867|||||||Mixed Models Analysis|||||||0.867
92236651|NCT01380093|184377457|SUPERIORITY_OR_OTHER||LS Mean Difference|69.8||||0.0071|TWO_SIDED|95.0|19.7|120.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||120.0|19.7|0.0071
92236652|NCT01380093|184377457|SUPERIORITY_OR_OTHER||LS Mean Difference|156.0|||<|0.0001|TWO_SIDED|95.0|105.7|206.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||206.3|105.7|<0.0001
92236653|NCT01380093|184377458|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0||||0.1254|TWO_SIDED|95.0|-0.6|4.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.7|-0.6|0.1254
92427016|NCT02298023|184741623|EQUIVALENCE|To test whether there were differences in the change of tear size among groups||||||0.916|||||||Chi-squared|||||||0.916
92427017|NCT02298023|184741624|EQUIVALENCE|To test whether there were differences in the change of tear size among groups||||||0.892|||||||Chi-squared|||||||0.892
92427018|NCT04010695|184741631|OTHER||||||<|0.001|||||||K-sample test|The p-value was calculated using a nonparametric k-sample test on the equality of medians.||Comparison of SD Biosensor POC G6PD test results for capillary and venous samples||||<0.001
92427019|NCT02002832|184741632|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|LS mean for the treatment difference(lurasidone-risperidone) at week 6 and its 95% confidence interval was presented based on the MMRM. Non-inferiority for lurasidone relative to risperidone was evaluated by comparing the upper bound of the 95% confidence interval to the non-inferiority margin of 7.0. Plots of estimates for change from baseline in PANSS total score based on MMRM over time (Week 1 to Week 6) with 95% confidence intervals was provided for each treatment group.|Mean Difference (Final Values)|3.7|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|95.0|1.0|6.3|||Mixed Models Analysis|||||6.3|1.0|
92427020|NCT03329508|184741634|SUPERIORITY||Differences of Least Square Means|-2.66|STANDARD_ERROR_OF_MEAN|0.85||0.0018|TWO_SIDED|95.0|-4.33|-1.0|||MMRM|||||-1.0|-4.33|0.0018
92427021|NCT03329508|184741634|SUPERIORITY||Mean Difference (Net)|-3.3|STANDARD_ERROR_OF_MEAN|0.85||0.0001|TWO_SIDED|95.0|-4.96|-1.63|||MMRM|||||-1.63|-4.96|0.0001
92427022|NCT03329508|184741635|SUPERIORITY||Mean Difference (Net)|-2.66|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.5|-1.81|||MMRM|||||-1.81|-3.50|<0.0001
92427023|NCT03329508|184741635|SUPERIORITY||Mean Difference (Final Values)|-2.66|STANDARD_ERROR_OF_MEAN|0.43|<|0.05|TWO_SIDED|95.0|-3.5|-1.81|||MMRM|||||-1.81|-3.50|<0.05
92427024|NCT03329508|184741636|SUPERIORITY||Mean Difference (Net)|-1.52|STANDARD_ERROR_OF_MEAN|0.67||0.0231|TWO_SIDED|95.0|-2.84|-0.21|||MMRM|||||-0.21|-2.84|0.0231
92427025|NCT03329508|184741636|SUPERIORITY||Mean Difference (Net)|-1.75|STANDARD_ERROR_OF_MEAN|0.67||0.0092|TWO_SIDED|95.0|-3.06|-0.43|||MMRM|||||-0.43|-3.06|0.0092
92427026|NCT03329508|184741637|SUPERIORITY||Mean Difference (Net)|-1.17|STANDARD_ERROR_OF_MEAN|0.31||0.0001|TWO_SIDED|95.0|-1.77|-0.57|||MMRM|||||-0.57|-1.77|0.0001
92427027|NCT03329508|184741637|SUPERIORITY||Mean Difference (Net)|-1.52|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-2.13|-0.92|||MMRM|||||-0.92|-2.13|<0.0001
92427028|NCT03329508|184741638|SUPERIORITY||Mean Difference (Net)|-2.18|STANDARD_ERROR_OF_MEAN|1.54||0.1589|TWO_SIDED|95.0|-5.21|0.85|||MMRM|||||0.85|-5.21|0.1589
92427029|NCT00492531|184741642|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0||||0.7|TWO_SIDED|95.0|-56.0|38.0|||ANCOVA|6 minute walk was based on ANCOVA model with treatment as a fixed effect and 6 minute walk distance, TRV stratum and study site as covariate.||||38|-56|0.70
92170706|NCT04605198|184230123|SUPERIORITY||Mean Difference (Net)|-1.88||||0.139|TWO_SIDED|95.0|-4.36|0.6|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|A multilevel model was constructed. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention, primary endpoint\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was also included as a fixed-effect. An independent covariance pattern was specified as final models were random-intercept only.||0.60|-4.36|.139
92236654|NCT01380093|184377458|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0||||0.4592|TWO_SIDED|95.0|-3.6|1.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.6|-3.6|0.4592
92236655|NCT01380093|184377458|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.0||||0.0251|TWO_SIDED|95.0|-5.6|-0.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-0.4|-5.6|0.0251
92427030|NCT03572972|184741650|SUPERIORITY||Hazard Ratio (HR)|0.618|||||TWO_SIDED|95.0|0.541|0.707||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of hazard ratio (HR) at year 1 as an extended Cox model was used.||0.707|0.541|
92427031|NCT03572972|184741650|SUPERIORITY||Hazard Ratio (HR)|0.604|||||TWO_SIDED|95.0|0.53|0.687||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.687|0.530|
92427032|NCT03572972|184741650|SUPERIORITY||Hazard Ratio (HR)|0.705|||||TWO_SIDED|95.0|0.563|0.884|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.884|0.563|
92427033|NCT03572972|184741651|SUPERIORITY||Hazard Ratio (HR)|0.993|||||TWO_SIDED|95.0|0.87|1.134||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.134|0.870|
92427034|NCT03572972|184741651|SUPERIORITY||Hazard Ratio (HR)|0.949|||||TWO_SIDED|95.0|0.839|1.073||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.073|0.839|
92427035|NCT03572972|184741651|SUPERIORITY||Hazard Ratio (HR)|0.961|||||TWO_SIDED|95.0|0.854|1.082||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.082|0.854|
92427036|NCT03572972|184741652|SUPERIORITY||Hazard Ratio (HR)|0.583|||||TWO_SIDED|95.0|0.512|0.664||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.664|0.512|
92427037|NCT03572972|184741652|SUPERIORITY||Hazard Ratio (HR)|0.754|||||TWO_SIDED|95.0|0.597|0.953|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.953|0.597|
92427038|NCT03572972|184741652|SUPERIORITY||Hazard Ratio (HR)|0.844|||||TWO_SIDED|95.0|0.685|1.04|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.040|0.685|
92170707|NCT04605198|184230124|SUPERIORITY||Mean Difference (Net)|-0.12||||0.222|TWO_SIDED|95.0|-1.21|0.97|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|A multilevel model was constructed. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention, primary endpoint\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was also included as a fixed-effect. An independent covariance pattern was specified as final models were random-intercept only.||0.97|-1.21|.222
92236656|NCT01380093|184377459|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.4|||<|0.0001|TWO_SIDED|95.0|-19.9|-11.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-11.0|-19.9|<0.0001
92427039|NCT03572972|184741653|SUPERIORITY||Hazard Ratio (HR)|0.866|||||TWO_SIDED|95.0|0.761|0.985||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.985|0.761|
92427040|NCT03572972|184741653|SUPERIORITY||Hazard Ratio (HR)|0.768|||||TWO_SIDED|95.0|0.684|0.862||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.862|0.684|
92427041|NCT03572972|184741653|SUPERIORITY||Hazard Ratio (HR)|0.875|||||TWO_SIDED|95.0|0.786|0.975||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.975|0.786|
92427042|NCT03572972|184741654|SUPERIORITY||Hazard Ratio (HR)|0.673|||||TWO_SIDED|95.0|0.47|0.964||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.964|0.470|
92427043|NCT03572972|184741654|SUPERIORITY||Hazard Ratio (HR)|0.491|||||TWO_SIDED|95.0|0.337|0.715||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.715|0.337|
92427044|NCT03572972|184741654|SUPERIORITY||Hazard Ratio (HR)|0.747|||||TWO_SIDED|95.0|0.548|1.018||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.018|0.548|
92427045|NCT03572972|184741655|SUPERIORITY||Hazard Ratio (HR)|1.463|||||TWO_SIDED|95.0|0.998|2.145||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||2.145|0.998|
92427046|NCT03572972|184741655|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.647|1.225||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.225|0.647|
92427047|NCT03572972|184741655|SUPERIORITY||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.447|0.888||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.888|0.447|
92427048|NCT03572972|184741656|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.556|0.738||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.738|0.556|
92236657|NCT01380093|184377459|SUPERIORITY_OR_OTHER||LS Mean Difference|9.3|||<|0.0001|TWO_SIDED|95.0|4.8|13.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||13.7|4.8|<0.0001
92236658|NCT01380093|184377459|SUPERIORITY_OR_OTHER||LS Mean Difference|24.7|||<|0.0001|TWO_SIDED|95.0|20.3|29.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||29.1|20.3|<0.0001
92236659|NCT01380093|184377460|SUPERIORITY_OR_OTHER||LS Mean Difference|-116.1|||<|0.0001|TWO_SIDED|95.0|-136.5|-95.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-95.7|-136.5|<0.0001
92236660|NCT01380093|184377460|SUPERIORITY_OR_OTHER||LS Mean Difference|59.7|||<|0.0001|TWO_SIDED|95.0|39.3|80.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||80.1|39.3|<0.0001
92236661|NCT01380093|184377460|SUPERIORITY_OR_OTHER||LS Mean Difference|175.8|||<|0.0001|TWO_SIDED|95.0|155.4|196.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||196.2|155.4|<0.0001
92236662|NCT01380093|184377461|SUPERIORITY_OR_OTHER||LS Mean Difference|-202.2|||<|0.0001|TWO_SIDED|95.0|-239.0|-165.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-165.3|-239.0|<0.0001
92236663|NCT01380093|184377461|SUPERIORITY_OR_OTHER||LS Mean Difference|122.5|||<|0.0001|TWO_SIDED|95.0|85.7|159.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||159.2|85.7|<0.0001
92236664|NCT01380093|184377461|SUPERIORITY_OR_OTHER||LS Mean Difference|324.6|||<|0.0001|TWO_SIDED|95.0|287.7|361.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||361.5|287.7|<0.0001
92279549|NCT02655237|184462506|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-0.01|||||TWO_SIDED|95.0|-0.275|0.251|||||Relugolix 40 mg-Leuprorelin|Week 16||0.251|-0.275|
92427049|NCT03572972|184741656|SUPERIORITY||Hazard Ratio (HR)|0.624|||||TWO_SIDED|95.0|0.544|0.715||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.715|0.544|
92427050|NCT03572972|184741656|SUPERIORITY||Hazard Ratio (HR)|0.749|||||TWO_SIDED|95.0|0.588|0.954|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.954|0.588|
92427051|NCT03572972|184741657|SUPERIORITY||Hazard Ratio (HR)|0.977|||||TWO_SIDED|95.0|0.85|1.122||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.122|0.850|
92427052|NCT03572972|184741657|SUPERIORITY||Hazard Ratio (HR)|0.966|||||TWO_SIDED|95.0|0.848|1.1||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.100|0.848|
92427053|NCT03572972|184741657|SUPERIORITY||Hazard Ratio (HR)|0.993|||||TWO_SIDED|95.0|0.877|1.125||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.125|0.877|
92427054|NCT03572972|184741658|SUPERIORITY||Hazard Ratio (HR)|0.25|||||TWO_SIDED|95.0|0.119|0.523||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.523|0.119|
92427055|NCT03572972|184741658|SUPERIORITY||Hazard Ratio (HR)|0.38|||||TWO_SIDED|95.0|0.203|0.711||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.711|0.203|
92236665|NCT01380093|184377462|SUPERIORITY_OR_OTHER||LS Mean Difference|-253.0|||<|0.0001|TWO_SIDED|95.0|-301.5|-204.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-204.5|-301.5|<0.0001
92427056|NCT03572972|184741658|SUPERIORITY||Hazard Ratio (HR)|0.422|||||TWO_SIDED|95.0|0.247|0.722||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.722|0.247|
92427057|NCT03572972|184741659|SUPERIORITY||Hazard Ratio (HR)|0.745|||||TWO_SIDED|95.0|0.343|1.615||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.615|0.343|
92427058|NCT03572972|184741659|SUPERIORITY||Hazard Ratio (HR)|0.692|||||TWO_SIDED|95.0|0.342|1.402||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.402|0.342|
92427059|NCT03572972|184741659|SUPERIORITY||Hazard Ratio (HR)|0.932|||||TWO_SIDED|95.0|0.498|1.747||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.747|0.498|
92427060|NCT03572972|184741660|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.492|0.731||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.731|0.492|
92427061|NCT03572972|184741660|SUPERIORITY||Hazard Ratio (HR)|1.046|||||TWO_SIDED|95.0|0.719|1.522|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.522|0.719|
92427062|NCT03572972|184741660|SUPERIORITY||Hazard Ratio (HR)|1.295|||||TWO_SIDED|95.0|0.92|1.824|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.824|0.920|
92427063|NCT03572972|184741661|SUPERIORITY||Hazard Ratio (HR)|0.751|||||TWO_SIDED|95.0|0.62|0.91||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.91|0.62|
92236666|NCT01380093|184377462|SUPERIORITY_OR_OTHER||LS Mean Difference|151.9|||<|0.0001|TWO_SIDED|95.0|103.5|200.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||200.2|103.5|<0.0001
92427064|NCT03572972|184741661|SUPERIORITY||Hazard Ratio (HR)|0.697|||||TWO_SIDED|95.0|0.586|0.83||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.830|0.586|
92427065|NCT03572972|184741661|SUPERIORITY||Hazard Ratio (HR)|0.936|||||TWO_SIDED|95.0|0.801|1.094||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.094|0.801|
92427066|NCT03572972|184741662|SUPERIORITY||Hazard Ratio (HR)|0.373|||||TWO_SIDED|95.0|0.212|0.658|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.658|0.212|
92427067|NCT03572972|184741662|SUPERIORITY||Hazard Ratio (HR)|0.538|||||TWO_SIDED|95.0|0.392|0.737||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.737|0.392|
92427068|NCT03572972|184741662|SUPERIORITY||Hazard Ratio (HR)|0.664|||||TWO_SIDED|95.0|0.507|0.87||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.870|0.507|
92427069|NCT03572972|184741663|SUPERIORITY||Hazard Ratio (HR)|1.204|||||TWO_SIDED|95.0|0.871|1.666||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.666|0.871|
92427070|NCT03572972|184741663|SUPERIORITY||Hazard Ratio (HR)|0.918|||||TWO_SIDED|95.0|0.691|1.218||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.218|0.691|
92427071|NCT03572972|184741663|SUPERIORITY||Hazard Ratio (HR)|0.771|||||TWO_SIDED|95.0|0.578|1.027||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.027|0.578|
92427072|NCT03572972|184741664|SUPERIORITY||Hazard Ratio (HR)|0.581|||||TWO_SIDED|95.0|0.481|0.701||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.701|0.481|
92236667|NCT01380093|184377462|SUPERIORITY_OR_OTHER||LS Mean Difference|404.9|||<|0.0001|TWO_SIDED|95.0|356.4|453.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||453.3|356.4|<0.0001
92236668|NCT01380093|184377463|SUPERIORITY_OR_OTHER||LS Mean Difference|-306.8|||<|0.0001|TWO_SIDED|95.0|-370.9|-242.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-242.6|-370.9|<0.0001
92236669|NCT01380093|184377463|SUPERIORITY_OR_OTHER||LS Mean Difference|168.6|||<|0.0001|TWO_SIDED|95.0|104.7|232.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||232.6|104.7|<0.0001
92427073|NCT03572972|184741664|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.534|0.766||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.766|0.534|
92427074|NCT03572972|184741664|SUPERIORITY||Hazard Ratio (HR)|0.838|||||TWO_SIDED|95.0|0.622|1.13|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.130|0.622|
92427075|NCT03572972|184741665|SUPERIORITY||Hazard Ratio (HR)|0.881|||||TWO_SIDED|95.0|0.732|1.061||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.061|0.732|
92427076|NCT03572972|184741665|SUPERIORITY||Hazard Ratio (HR)|0.802|||||TWO_SIDED|95.0|0.678|0.947||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.947|0.678|
92427077|NCT03572972|184741665|SUPERIORITY||Hazard Ratio (HR)|0.882|||||TWO_SIDED|95.0|0.754|1.032||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.032|0.754|
92427078|NCT01313858|184741778|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 3 (Month 3 minus BL)||||0.0007
92427079|NCT01313858|184741778|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 6 (Month 6 minus BL)||||0.0007
92427080|NCT01313858|184741778|SUPERIORITY_OR_OTHER|||||||0.0011|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 9 (Month 9 minus BL)||||0.0011
92427081|NCT01313858|184741778|SUPERIORITY_OR_OTHER|||||||0.0015|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 12 (Month 12 minus BL)||||0.0015
92170708|NCT04605198|184230125|SUPERIORITY||Odds Ratio, log|-1.76||||0.166|TWO_SIDED|95.0|-4.26|0.73|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|A multilevel model was constructed using a logit distribution. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was included as a fixed-effect. An independent covariance pattern was specified. Final models were random-intercept only.||0.73|-4.26|0.166
92236670|NCT01380093|184377463|SUPERIORITY_OR_OTHER||LS Mean Difference|475.4|||<|0.0001|TWO_SIDED|95.0|411.3|539.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||539.6|411.3|<0.0001
92279550|NCT02655237|184462506|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-0.1|||||TWO_SIDED|95.0|-0.386|0.18|||||Relugolix 40 mg-Leuprorelin|Week 20||0.180|-0.386|
92427082|NCT01313858|184741778|SUPERIORITY_OR_OTHER|||||||0.0029|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 15 (Month 15 minus BL)||||0.0029
92427083|NCT01313858|184741778|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 18 (Month 18 minus BL)||||0.0004
92427084|NCT01313858|184741778|SUPERIORITY_OR_OTHER|||||||0.0059|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 21 (Month 21 minus BL)||||0.0059
92427085|NCT01313858|184741778|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 24 (Month 24 minus BL)||||0.0002
92427086|NCT01313858|184741778|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 3 (Month 3 minus BL)||||0.0002
92427087|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 6 (Month 6 minus BL)||||<0.0001
92427088|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 9 (Month 9 minus BL)||||<0.0001
92427089|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 12 (Month 12 minus BL)||||<0.0001
92427090|NCT01313858|184741778|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 15 (Month 15 minus BL)||||0.0002
92427091|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 18 (Month 18 minus BL)||||<0.0001
92170709|NCT04605198|184230126|SUPERIORITY||Mean Difference (Net)|-0.52||||0.737|TWO_SIDED|95.0|-3.57|2.53|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|A multilevel model was constructed. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention, primary endpoint\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was also included as a fixed-effect. An independent covariance pattern was specified as final models were random-intercept only.||2.53|-3.57|.737
92279551|NCT02655237|184462506|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-0.09|||||TWO_SIDED|95.0|-0.385|0.209|||||Relugolix 40 mg-Leuprorelin|Week 24||0.209|-0.385|
92427092|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 21 (Month 21 minus BL)||||<0.0001
92427093|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 24 (Month 24 minus BL)||||<0.0001
92427094|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 3 (Month 3 minus BL)||||<0.0001
92427095|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 6 (Month 6 minus BL)||||<0.0001
92427096|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 9 (Month 9 minus BL)||||<0.0001
92427097|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 12 (Month 12 minus BL)||||<0.0001
92427098|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 15 (Month 15 minus BL)||||<0.0001
92427099|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 18 (Month 18 minus BL)||||<0.0001
92427100|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 21 (Month 21 minus BL)||||<0.0001
92427101|NCT01313858|184741778|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 24 (Month 24 minus BL)||||<0.0001
92427102|NCT01313858|184741779|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 3 (Month 3 minus BL)||||0.0003
92427103|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 6 (Month 6 minus BL)||||<0.0001
92236671|NCT01380093|184377464|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.5607|TWO_SIDED|95.0|-0.6|1.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.0|-0.6|0.5607
92427104|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 12 (Month 12 minus BL)||||<0.0001
92427105|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 18 (Month 18 minus BL)||||<0.0001
92427106|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 24 (Month 24 minus BL)||||<0.0001
92427107|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 3 (Month 3 minus BL)||||<0.0001
92427108|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 6 (Month 6 minus BL)||||<0.0001
92427109|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 12 (Month 12 minus BL)||||<0.0001
92427110|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 18 (Month 18 minus BL)||||<0.0001
92427111|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 24 (Month 24 minus BL)||||<0.0001
92427112|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 3 (Month 3 minus BL)||||<0.0001
92427113|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 6 (Month 6 minus BL)||||<0.0001
92427114|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 12 (Month 12 minus BL)||||<0.0001
92427115|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 18 (Month 18 minus BL)||||<0.0001
92427116|NCT01313858|184741779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 24 (Month 24 minus BL)||||<0.0001
92427117|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 6 (Month 6 minus BL)||||<0.0001
92427118|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 12 (Month 12 minus BL)||||<0.0001
92427119|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 18 (Month 18 minus BL)||||<0.0001
92427120|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 24 (Month 24 minus BL)||||<0.0001
92427121|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 6 (Month 6 minus BL)||||<0.0001
92427122|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 12 (Month 12 minus BL)||||<0.0001
92427123|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 18 (Month 18 minus BL)||||<0.0001
92427124|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 24 (Month 24 minus BL)||||<0.0001
92427125|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 6 (Month 6 minus BL)||||<0.0001
92427126|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 12 (Month 12 minus BL)||||<0.0001
92427127|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 18 (Month 18 minus BL)||||<0.0001
92427128|NCT01313858|184741780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 24 (Month 24 minus BL)||||<0.0001
92427129|NCT03689530|184741791|SUPERIORITY|||||||0.7436|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.7436
92427130|NCT03689530|184741792|SUPERIORITY|||||||0.1212|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.1212
92427131|NCT03689530|184741793|SUPERIORITY|||||||0.8839|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.8839
92427132|NCT03689530|184741794|SUPERIORITY|||||||0.1137|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.1137
92427133|NCT03689530|184741795|SUPERIORITY|||||||0.0162|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.0162
92427134|NCT03689530|184741797|SUPERIORITY|||||||0.2117|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.2117
92427135|NCT03689530|184741798|SUPERIORITY|||||||0.4169|||||||Mixed Models Analysis|||||||0.4169
92427136|NCT03689530|184741799|SUPERIORITY|||||||0.8785|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.8785
92427137|NCT03689530|184741800|SUPERIORITY|||||||0.1006|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.1006
92427138|NCT03689530|184741801|SUPERIORITY|||||||0.7168|||||||Mixed Models Analysis|||||||0.7168
92236672|NCT01380093|184377464|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0|||<|0.0001|TWO_SIDED|95.0|1.2|2.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.8|1.2|<0.0001
92236673|NCT01380093|184377464|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8|||<|0.0001|TWO_SIDED|95.0|1.0|2.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.6|1.0|<0.0001
92427139|NCT03689530|184741802|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.0001
92427140|NCT03689530|184741803|OTHER|Single group analysis for peer support group only|Mean|3.799|STANDARD_DEVIATION|0.885|||TWO_SIDED|||||||||||||
92427141|NCT03689530|184741804|OTHER|Single group analysis for peer support group only|Mean|3.732|STANDARD_DEVIATION|0.985|||TWO_SIDED|||||||||||||
92427142|NCT03689530|184741805|OTHER|Single group analysis for peer support group only|Mean|6.222|STANDARD_DEVIATION|1.083|||TWO_SIDED|||||||||||||
92427143|NCT03689530|184741806|OTHER|Single group analysis for peer support group only|Mean|6.179|STANDARD_DEVIATION|1.141|||TWO_SIDED|||||||||||||
92427144|NCT03689530|184741807|SUPERIORITY|||||||0.9126|||||||Mixed Models Analysis|||||||0.9126
92427145|NCT03689530|184741808|SUPERIORITY|||||||0.7405|||||||Mixed Models Analysis|||||||0.7405
92427146|NCT03689530|184741809|SUPERIORITY|||||||0.5956|||||||Mixed Models Analysis|||||||0.5956
92427147|NCT03689530|184741810|SUPERIORITY|||||||0.3341|||||||Mixed Models Analysis|||||||0.3341
92427148|NCT03689530|184741811|SUPERIORITY|||||||0.2049|||||||Mixed Models Analysis|||||||0.2049
92427149|NCT03689530|184741812|SUPERIORITY|||||||0.0335|||||||Mixed Models Analysis|||||||0.0335
92427150|NCT03689530|184741813|SUPERIORITY|||||||0.3219|||||||Mixed Models Analysis|||||||0.3219
92427151|NCT03689530|184741814|SUPERIORITY|||||||0.5223|||||||Mixed Models Analysis|||||||0.5223
92427152|NCT01392443|184741815|OTHER|||||||0.0007|||||||single-sample biniminal test|||||||0.0007
92427153|NCT01895062|184741820|SUPERIORITY_OR_OTHER||||||<|0.022|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.022
92427154|NCT01977794|184741824|SUPERIORITY_OR_OTHER||||||<|0.001||||||P value in both groups (Amlodipine failed and Bisoprolol failed) for comparison of SBP after 18 weeks versus baseline|Paired t test|||For each group (Amlodipine failed and Bisoprolol failed) SBP after 18 weeks compared to baseline (under monotherapy). Superiority was assessed between FDC and monotherapies.||||<0.001
92427155|NCT00533897|184741829|SUPERIORITY_OR_OTHER||estimate of difference|9.59||||0.119|TWO_SIDED|95.0|0.83|18.34||There was no adjustment made for multiple comparisons.|Chi-squared, Corrected|||A continuity corrected Chi-square test was used to compare percentage of positive antibody responses of SC placebo vs. SC abatacept (Period II treatment groups) on Day 169. P-value was evaluated at 0.05 significance level (2-sided). 95% confidence interval (CI) for difference (SC PLA - SC ABA) between ABA and PLA in the immunogenicity rates was also calculated. Point estimates of the immunogenicity rates within the two Period II treatment group and the corresponding 95% CIs were also provided.||18.34|0.83|0.119
92427156|NCT00533897|184741830|SUPERIORITY_OR_OTHER||Estimate of Difference|4.88|||||TWO_SIDED|95.0|-4.5|14.25||||||Immunogenicity rates of the Period II treatment groups on Day 253 were analyzed similarly as on Day 169. However, no statistical test was carried out and no p-value was provided. Provided were: point estimates of the immunogenicity rates within the Period II treatment groups and corresponding 95% CIs, and point estimate for the difference in immunogenicity rates between these groups and corresponding 95% CI. There was no adjustment made for multiple comparisons.||14.25|-4.50|
92427157|NCT00533897|184741834|SUPERIORITY_OR_OTHER||Estimate of Difference|0.11|||||TWO_SIDED|95.0|-8.21|8.43||||||Immunogenicity rates of the Period II treatment groups on Day 253 were analyzed similarly as on Day 169. However, no statistical test was carried out and no p-value was provided. Provided were: point estimates of the immunogenicity rates within the Period II treatment groups and corresponding 95% CIs, and point estimate for the difference in immunogenicity rates between these groups and corresponding 95% CI. There was no adjustment made for multiple comparisons.||8.43|-8.21|
92427158|NCT01479478|184741942|SUPERIORITY|||||||0.87|||||||Cochran-Mantel-Haenszel|||||||0.87
92427159|NCT00142935|184741964|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared, Corrected|||Outcome: engage in treatment post release, yes or no||||<0.001
92427160|NCT00142935|184741965|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared, Corrected|||||||.02
92427161|NCT00142935|184741966|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Chi-squared, Corrected|||||||.09
92427162|NCT00142935|184741967|SUPERIORITY_OR_OTHER|||||||0.09|||||||Chi-squared, Corrected|||||||.09
92427163|NCT00142935|184741969|SUPERIORITY_OR_OTHER|||||||0.8|||||||Chi-squared, Corrected|||||||0.8
92427164|NCT00705289|184741987|SUPERIORITY_OR_OTHER||Pearson Product Moment Correlation|0.1402||||0.0003|||||||Test for non-zero correlation|||Relationship between baseline DAS28 and age (prior to infliximab therapy)||||0.0003
92427165|NCT00705289|184741988|SUPERIORITY_OR_OTHER||Pearson Product Moment Correlation|-0.01||||0.7991||95.0|||||Test for non-zero correlation|||Relationship between baseline DAS28 and time since diagnosis (prior to infliximab therapy)||||0.7991
92427166|NCT00705289|184741989|SUPERIORITY_OR_OTHER|||||||0.7152||95.0|||||ANOVA|The association between Baseline DAS28 and gender is based on a one-way Anova.||Relationship between baseline DAS28 and gender (prior to infliximab therapy)||||0.7152
92427167|NCT00705289|184741990|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Relationship between DAS28 and Country of Residence was based on a 1-way ANOVA calculated as P-value.||Relationship between baseline DAS28 and country of residence (prior to infliximab therapy)||||<0.0001
92427168|NCT00705289|184741991|SUPERIORITY_OR_OTHER||Mean Baseline DAS28 Raw Score|5.2|STANDARD_DEVIATION|1.15||||95.0|5.1|5.3||||||Relationship between Baseline DAS28 and previous anti-TNF therapy (all subjects, prior to infliximab therapy)||5.3|5.1|
92427169|NCT00705289|184741991|SUPERIORITY_OR_OTHER||Mean Baseline DAS28 Raw Score|5.3|STANDARD_DEVIATION|1.16||||95.0|5.0|5.5||||||Relationship between Baseline DAS28 and previous anti-TNF therapy (subjects with early RA, not treated with anti-TNF; prior to infliximab therapy)||5.5|5.0|
92427170|NCT00705289|184741991|SUPERIORITY_OR_OTHER||Mean Baseline DAS28 Raw Score|5.2|STANDARD_DEVIATION|1.14||||95.0|5.1|5.3||||||Relationship between Baseline DAS28 and previous anti-TNF therapy (subjects with established RA not treated with anti-TNF; prior to infliximab therapy)||5.3|5.1|
92427171|NCT00705289|184741991|SUPERIORITY_OR_OTHER||Mean Baseline DAS28 Raw Score|5.3|STANDARD_DEVIATION|1.16||||95.0|5.1|5.5||||||Relationship between Baseline DAS28 and previous anti-TNF therapy (subjects with established RA who failed or did not tolerate another anti-TNF; prior to infliximab therapy)||5.5|5.1|
92427172|NCT00304746|184741993|SUPERIORITY_OR_OTHER|||||||0.71||95.0||||For a complete presentation of the above analysis, please see the published paper presenting the full results of this study.|mixed effects linear regression analysis|||Our primary analysis of efficacy was a mixed effects linear regression analysis comparing the rate of change of score on the HAM-D during the blinded treatment phase between groups. Our model for the mean of the outcome variable included terms for treatment, time (modeled as a continuous variable), and treatment-by-time. The measure of effect was the treatment-by-time interaction, which can be interpreted as the difference in slope with respect to time, of the outcome measure.||||0.71
92170710|NCT04605198|184230127|SUPERIORITY||Mean Difference (Net)|-2391.98||||0.024|TWO_SIDED|95.0|-4471.46|-312.49|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|A multilevel model was constructed. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention, primary endpoint\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was also included as a fixed-effect. An independent covariance pattern was specified as final models were random-intercept only.||-312.49|-4471.46|.024
92427173|NCT01431989|184741994|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis. This is a bioequivalence study performed to support the register of Clamoxyl 500 mg/5 mL, according to the requirements of Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio Geometric mean T/R formulation|90.03|STANDARD_DEVIATION|7.53||0|TWO_SIDED|90.0|86.99|93.17|||ANOVA|ANOVA model: 1) Fixed effects: Sequence, Period, and Formulation; 2) Random effects: Volunteer (Sequence) and Residual|The ratio between the geometric means of the test (T) and reference (R) formulations was calculated. Standard deviation intra subject was obtained.|||93.17|86.99|0.0000
92427174|NCT01431989|184741995|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis. This is a bioequivalence study performed to support the register of Clamoxyl 500 mg/5 mL, according to the requirements of Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio Geometric mean T/R formulation|87.93|STANDARD_DEVIATION|13.83||0.0018|TWO_SIDED|90.0|82.55|93.65|||ANOVA|ANOVA model: 1) Fixed effects: Sequence, Period, and Formulation; 2) Random effects: Volunteer (Sequence) and Residual|The ratio between the geometric means of the test (T) and reference (R) formulations was calculated. Standard deviation intra subject was obtained.|||93.65|82.55|0.0018
92427175|NCT01431989|184741996|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis. This is a bioequivalence study performed to support the register of Clamoxyl 500 mg/5 mL, according to the requirements of Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio Geometric means T/R formulation|90.03|STANDARD_DEVIATION|7.51||0|TWO_SIDED|90.0|86.96|93.12|||ANOVA|ANOVA model: 1) Fixed effects: Sequence, Period, and Formulation; 2) Random effects: Volunteer (Sequence) and Residual|The ratio between the geometric means of the test (T) and reference (R) formulations was calculated. Standard deviation intra subject was obtained.|||93.12|86.96|0.0000
92427176|NCT01431989|184741997|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis. This is a bioequivalence study performed to support the register of Clamoxyl 500 mg/5 mL, according to the requirements of Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Median Difference (Final Values)|0.125||||0.339|TWO_SIDED|90.0|-0.125|0.375|||Wilcoxon (Mann-Whitney)|The non-parametric method included the following factors: Sequence, Formulation, Period, Formulation and Residual||||0.375|-0.125|0.3390
92427177|NCT02653872|184742001|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of Cmax for AZD7986 administered with verapamil over Cmax for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|153.4|||||TWO_SIDED|90.0|136.16|172.83|||ANOVA|||The study was designed based on a test for bioequivalence. Using an estimated standard deviation for Cmax of AZD7986 of less than or equal to 0.202, 12 evaluable subjects were deemed needed to achieve a power of 90%, at an assumed ratio of 0.95, to show that a two-sided 90% confidence interval for the ratio of Cmax between 2 treatments (AZD7986 and AZD7986+ Verapamil/Itraconazole) would be contained within the (0.8;1.25) equivalence limit. 3 extra subjects were added to compensate for dropout.||172.83|136.16|
92427178|NCT02653872|184742001|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of Cmax for AZD7986 administered with itraconazole over Cmax for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|60.66|||||TWO_SIDED|90.0|53.84|68.34|||ANOVA|||The study was designed based on a test for bioequivalence. Using an estimated standard deviation for Cmax of AZD7986 of less than or equal to 0.202, 12 evaluable subjects were deemed needed to achieve a power of 90%, at an assumed ratio of 0.95, to show that a two-sided 90% confidence interval for the ratio of Cmax between 2 treatments (AZD7986 and AZD7986+ Verapamil/Itraconazole) would be contained within the (0.8;1.25) equivalence limit. 3 extra subjects were added to compensate for dropout.||68.34|53.84|
92427179|NCT02653872|184742002|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of AUC for AZD7986 administered with verapamil over AUC for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|132.25|||||TWO_SIDED|90.0|121.78|143.64|||ANOVA|||The study was sized for Cmax primarily and not AUC. A two-sided 90% confidence interval for the ratio of AUC between the two treatments groups was used to determine equivalence.||143.64|121.78|
92427180|NCT02653872|184742002|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of AUC for AZD7986 administered with itraconazole over AUC for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|113.7|||||TWO_SIDED|90.0|104.69|123.49|||ANOVA|||The study was sized for Cmax primarily and not AUC. A two-sided 90% confidence interval for the ratio of AUC between the two treatments groups was used to determine equivalence.||123.49|104.69|
92427181|NCT02653872|184742003|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of AUC (0-t) for AZD7986 administered with verapamil over AUC (0-t) for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|133.51|||||TWO_SIDED|90.0|122.7|145.29|||ANOVA|||The study was sized for Cmax primarily and not AUC (0-t). A two-sided 90% confidence interval for the ratio of AUC (0-t) between the two treatments groups was used to determine equivalence.||145.29|122.70|
92427182|NCT02653872|184742003|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of AUC (0-t) for AZD7986 administered with itraconazole over AUC (0-t) for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|112.45|||||TWO_SIDED|90.0|103.34|122.37|||ANOVA|||The study was sized for Cmax primarily and not AUC (0-t). A two-sided 90% confidence interval for the ratio of AUC (0-t) between the two treatments groups was used to determine equivalence.||122.37|103.34|
92427183|NCT04873700|184742017|SUPERIORITY||||||=|0.0701|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Location of disease||||=0.0701
92427184|NCT04873700|184742017|SUPERIORITY||||||=|0.1383|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Disease behavior||||=0.1383
92427185|NCT04873700|184742017|SUPERIORITY||||||=|0.0478|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Perianal disease||||=0.0478
92427186|NCT04873700|184742017|SUPERIORITY||||||=|0.1454|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Ileal disease||||=0.1454
92427187|NCT04873700|184742017|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Peripheral arthritis||||=1.0000
92427188|NCT04873700|184742017|SUPERIORITY||||||=|0.4992|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Aphthous ulcers||||=0.4992
92427189|NCT04873700|184742017|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Episcleritis||||=1.0000
92427190|NCT04873700|184742017|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Uveitis||||=1.0000
92427191|NCT04873700|184742017|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Osteoporosis||||=1.0000
92427192|NCT04873700|184742017|SUPERIORITY||||||=|0.2022|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Anemia||||=0.2022
92427193|NCT04873700|184742017|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Hematological alteration||||=1.0000
92427194|NCT04873700|184742017|SUPERIORITY||||||=|0|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Other||||=0.0000
92427195|NCT04873700|184742018|SUPERIORITY||||||=|0.2896|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Location of disease||||=0.2896
92427196|NCT04873700|184742018|SUPERIORITY||||||=|0.0006|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Disease behavior||||=0.0006
92427197|NCT04873700|184742018|SUPERIORITY||||||=|0.089|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Peripheral arthritis||||=0.0890
92427198|NCT04873700|184742018|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Pyoderma gangrenosum||||=1.0000
92427199|NCT04873700|184742018|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Aphthous ulcers||||=1.0000
92427200|NCT04873700|184742018|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Primary sclerosing cholangitis||||=1.0000
92427201|NCT04873700|184742018|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Osteoporosis||||=1.0000
92427202|NCT04873700|184742018|SUPERIORITY||||||=|0.0752|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Anemia||||=0.0752
92427203|NCT04873700|184742018|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Hematological alteration||||=1.0000
92427204|NCT04873700|184742018|SUPERIORITY||||||=|0.1032|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Other||||=0.1032
92427205|NCT00788073|184742042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.05|||||||ANCOVA|||||||0.05
92427206|NCT00788073|184742043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.008||95.0|||||ANCOVA|||||||0.008
92236674|NCT01380093|184377465|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.3|||<|0.0001|TWO_SIDED|95.0|-20.3|-10.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-10.3|-20.3|<0.0001
92427207|NCT00910273|184742046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.72||||0.608|TWO_SIDED|95.0|-5.14|8.58|||Mixed Models Analysis|||"Null Hypothesis: No difference in Change in FMD at 12 weeks for Etanercept and placebo.~Alternative Hypothesis: Difference in Change in FMD at 12 weeks for Etanercept and placebo.~Sample size of 36 subjects per treatment arm was planned based on an expected difference of 0.9 in FMD (Standard Deviation \[SD\] 1.5), with 80% power and 5% significance level."||8.58|-5.14|0.608
92427208|NCT00910273|184742047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.82||||0.476|TWO_SIDED|95.0|-3.35|7.0|||Mixed Models Analysis||Analyses available for Week 4 only, due to limited number of participants for Week 24 to Week 52.|Week 4||7.00|-3.35|0.476
92427209|NCT00910273|184742048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.65|TWO_SIDED|95.0|-0.08|0.13|||ANCOVA|||Week 12; Common Carotid Artery; Due to limited number of participants with visits after Week 12 analysis limited to Week 12||0.13|-0.08|0.650
92427210|NCT00910273|184742048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.513|TWO_SIDED|95.0|-0.13|0.07|||ANCOVA|||Week 12; Common Bulb; Due to limited number of participants with visits after Week 12 analysis limited to Week 12||0.07|-0.13|0.513
92427211|NCT00910273|184742048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.592|TWO_SIDED|95.0|-0.14|0.08|||ANCOVA|||Week 12; Internal Carotid Artery; Due to limited number of participants with visits after Week 12 analysis limited to Week 12||0.08|-0.14|0.592
92427212|NCT00910273|184742053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77||||0.008|TWO_SIDED|95.0|-3.05|-0.5|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 4||-0.50|-3.05|0.008
92427213|NCT00910273|184742053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.02||||0.021|TWO_SIDED|95.0|-3.7|-0.33|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 12||-0.33|-3.70|0.021
92427214|NCT00910273|184742061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.003|TWO_SIDED|95.0|-1.74|-0.4|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 4||-0.40|-1.74|0.003
92427215|NCT00910273|184742061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91||||0.029|TWO_SIDED|95.0|-1.72|-0.1|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 12||-0.10|-1.72|0.029
92170711|NCT05307978|184230144|SUPERIORITY||Ratio (%)|68.729|||||TWO_SIDED|95.0|52.74|89.56|||Mixed Models Analysis|A mixed effect model was performed to the ln-transformed PK parameter and the independent variables.||||89.56|52.74|
92170712|NCT05307978|184230145|SUPERIORITY||Ratio (%)|120.043|||||TWO_SIDED|95.0|67.2|214.43|||Mixed Models Analysis|A mixed effect model was performed with ethnicity as fixed effect and participant as random effect.||||214.43|67.20|
92427216|NCT00910273|184742067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||0.041|TWO_SIDED|95.0|-2.13|-0.05|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 4||-0.05|-2.13|0.041
92236675|NCT01380093|184377465|SUPERIORITY_OR_OTHER||LS Mean Difference|11.2|||<|0.0001|TWO_SIDED|95.0|6.3|16.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||16.2|6.3|<0.0001
92427217|NCT00910273|184742067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.048|TWO_SIDED|95.0|-2.55|-0.01|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 12||-0.01|-2.55|0.048
92427218|NCT00910273|184742068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.575|TWO_SIDED|95.0|-0.89|1.57|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 4||1.57|-0.89|0.575
92427219|NCT00910273|184742068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.204|TWO_SIDED|95.0|-0.52|2.3|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 12||2.30|-0.52|0.204
92427220|NCT03540030|184742069|OTHER|||||||0.297|||||||Wilcoxon (Mann-Whitney)|||||||.297
92427221|NCT03540030|184742070|OTHER|||||||0.005||||||At the 6 hour time point|Wilcoxon (Mann-Whitney)|||||||0.005
92427222|NCT03540030|184742070|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||At the 12 hour time point||||0.005
92427223|NCT03540030|184742071|OTHER|||||||0.0801|||||||Fisher Exact|||||||0.0801
92170713|NCT05307978|184230146|SUPERIORITY||Ratio (%)|118.142|||||TWO_SIDED|95.0|73.93|188.8|||Mixed Models Analysis|A mixed effect model was performed with ethnicity as fixed effect and participant as random effect.||||188.80|73.93|
92427224|NCT03540030|184742072|OTHER|||||||0.0154|||||||Chi-squared|||||||0.0154
92427225|NCT03540030|184742073|OTHER|||||||0.2139|||||||Fisher Exact|||||||0.2139
92427226|NCT03540030|184742075|OTHER||||||>|0.99|||||||Fisher Exact|||||||>.99
92427227|NCT03540030|184742076|OTHER|||||||0.9669|||||||Wilcoxon (Mann-Whitney)|||||||0.9669
92427228|NCT03540030|184742077|OTHER|||||||0.9208|||||||Wilcoxon (Mann-Whitney)|||||||.9208
92427229|NCT03540030|184742078|OTHER|||||||0.6481|||||||Wilcoxon (Mann-Whitney)|||For PCS only||||0.6481
92427230|NCT03540030|184742078|OTHER|||||||0.3911|||||||Wilcoxon (Mann-Whitney)|||For MCS only||||0.3911
92427231|NCT03540030|184742079|OTHER||||||>|0.99|||||||Fisher Exact|||||||>.99
92427232|NCT03540030|184742080|OTHER|||||||0.3177|||||||Fisher Exact|||||||0.3177
92427233|NCT03540030|184742081|OTHER||||||>|0.99|||||||Fisher Exact|||||||>.99
92427234|NCT03540030|184742082|OTHER|||||||0.2349|||||||Fisher Exact|||||||0.2349
92427235|NCT03540030|184742083|OTHER|||||||0.7892|||||||Wilcoxon (Mann-Whitney)|||||||0.7892
92427236|NCT03540030|184742084|OTHER|||||||0.2023|||||||Wilcoxon (Mann-Whitney)|||For PCS only||||0.2023
92427237|NCT03540030|184742084|OTHER|||||||0.2486|||||||Wilcoxon (Mann-Whitney)|||For MCS only||||0.2486
92427238|NCT00569270|184742085|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||a priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Peak FEV1 of tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.027
92236676|NCT01380093|184377465|SUPERIORITY_OR_OTHER||LS Mean Difference|26.5|||<|0.0001|TWO_SIDED|95.0|21.5|31.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||31.5|21.5|<0.0001
92427239|NCT00569270|184742086|SUPERIORITY_OR_OTHER||Spearman rho|0.19||||0.96||95.0||||A priori threshold for statistical significance: p=0.05|Spearman rho|||Correlation between improved lung function after tiotropium and extent of lung CT scored emphysema with respect to ratio functional residual capacity divided by total lung capacity. Specifically, correlation of tiotropium induced bronchodilation and extent of lung ct scored emphysema; measure includes change in FEV1 post tiotropium||||0.96
92427240|NCT00569270|184742087|SUPERIORITY_OR_OTHER|||||||0.318||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Peak FRC in tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.318
92427241|NCT00569270|184742088|SUPERIORITY_OR_OTHER|||||||0.078||95.0||||Statistical significance was p \< 0.05|Mixed Models Analysis|||Mean difference of Peak FVC of tiotropium minus placebo.29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.078
92427242|NCT00569270|184742089|SUPERIORITY_OR_OTHER||Spearman rho|-0.26||||0.4||95.0|||||Spearman rho|||Correlation between improved lung function after tiotropium and extent of lung CT scored emphysema with respect to ratio functional residual capacity divided by total lung capacity. Specifically, correlation of tiotropium induced bronchodilation and extent of lung ct scored emphysema (19 patients); measures include change in IC at trough tiotropium.||||0.4
92427243|NCT00569270|184742090|SUPERIORITY_OR_OTHER|||||||0.067||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Peak IC of tiotropium minus placebo.29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.067
92427244|NCT00569270|184742091|SUPERIORITY_OR_OTHER|||||||0.615||95.0||||A priori threshold for statistical significance: p\<0.05|Regression, Logistic|||Mean difference of Peak FRC/TLC of tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.615
92427245|NCT00569270|184742092|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||Statistical significance was p\<0.05|Mixed Models Analysis|||29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.325
92427246|NCT00569270|184742093|SUPERIORITY_OR_OTHER|||||||0.345||95.0|||||Mixed Models Analysis|||29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.345
92427247|NCT00569270|184742094|SUPERIORITY_OR_OTHER|||||||0.068||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Trough FRC(L) in tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.068
92427248|NCT00569270|184742095|SUPERIORITY_OR_OTHER|||||||0.589||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of trough FVC in tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.589
92427249|NCT00569270|184742096|SUPERIORITY_OR_OTHER|||||||0.922||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Trough IC of tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.922
92427250|NCT00569270|184742097|SUPERIORITY_OR_OTHER|||||||-0.02||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Trough FRC/TLC of tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||-0.02
92236677|NCT01380093|184377466|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.7|||<|0.0001|TWO_SIDED|95.0|-59.5|-35.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-35.9|-59.5|<0.0001
92427251|NCT00569270|184742098|SUPERIORITY_OR_OTHER|||||||-0.13||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Trough TLC (L) of tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||-0.13
92427252|NCT00569270|184742099|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Change in IC before and after dynamic hyperinflation. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.0001
92427253|NCT00569270|184742100|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Total lung capacity was similar in all groups and was not significant|Mixed Models Analysis|||29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||>0.05
92427254|NCT00569270|184742101|SUPERIORITY_OR_OTHER|||||||0.36||95.0||||A priori threshold for statistical significance: p= 0.05|Spearman rho|Spearman rho = -0.26||Correlation between improved lung function after tiotropium and extent of lung CT scored emphysema with respect to ratio functional residual capacity divided by total lung capacity. Specifically, correlation of tiotropium induced bronchodilation and extent of lung ct scored emphysema||||0.36
92236678|NCT01380093|184377466|SUPERIORITY_OR_OTHER||LS Mean Difference|28.3|||<|0.0001|TWO_SIDED|95.0|16.5|40.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||40.1|16.5|<0.0001
92427255|NCT04729621|184742111|EQUIVALENCE|Biosimilarity will be demonstrated if the 95% CI for the difference falls entirely within the equivalence margin of (-1.45, +1.45).|Mean Difference (Net)|0.21|||||TWO_SIDED|95.0|-0.73|1.15||||||LS means, differences and confidence intervals (CI) from the ANCOVA model with percent change from baseline to Week 52 in LS-BMD as the outcome, treatment group, region and previous use of bisphosphates as fixed effects, baseline LS-BMD and baseline weight as covariates. Missing outcomes imputed using multiple imputation methods under the MAR assumption.||1.15|-0.73|
92427256|NCT04729621|184742112|EQUIVALENCE|Biosimilarity will be demonstrated if the 95% CI for the difference falls entirely within the equivalence margin of (-20, +20).|Mean Difference (Net)|9.07|||||TWO_SIDED|95.0|-0.14|18.29||||||LS means, differences and confidence intervals (CI) from the ANCOVA model with percent change from baseline to Week 26 in sCTX-1 as the outcome, treatment group, region and previous use of bisphosphates as fixed effects, baseline sCTX-1 and baseline weight as covariates. Missing outcomes are not imputed. Results below the limit of quantification (BLQ) are imputed as the low limit of quantification (LLOQ = 0.033 ng/mL).||18.29|-0.14|
92170714|NCT05307978|184230147|SUPERIORITY||Ratio (%)|93.891|||||TWO_SIDED|95.0|63.17|139.56|||Mixed Models Analysis|A mixed effect model was performed with ethnicity as fixed effect and participant as random effect.||||139.56|63.17|
92170715|NCT05075408|184230152|SUPERIORITY|Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.|Strata adjusted percentage difference|7.0||||0.3696|TWO_SIDED|97.5|-10.6|24.6||Threshold of significance at 0.025.|Cochran-Mantel-Haenszel|||Nemolizumab 30 mg versus Placebo||24.6|-10.6|0.3696
92236679|NCT01380093|184377466|SUPERIORITY_OR_OTHER||LS Mean Difference|76.0|||<|0.0001|TWO_SIDED|95.0|64.2|87.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||87.8|64.2|<0.0001
92427257|NCT00347360|184742136|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||Hung AVE test, see comments|Hung AVE Test Statistic: -0.41499. Tests an average of the minimum gains (in response) for the 9 combination cells over corresponding monotherapies.||This is an omnibus test to investigate the existence of at least one combination dose that outperforms its components.||||>0.1
92427258|NCT00347360|184742137|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||Hung AVE test, see comments|Hung AVE Test Statistic: -0.00485. Tests an average of the minimum gains (in response) for the 9 combination cells over corresponding monotherapies.||This is an omnibus test to investigate the existence of at least one combination dose that outperforms its components.||||>0.1
92427259|NCT02187744|184742174|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis to be tested in this study is the percentage of participants with steady state (Cycle 5) Ctrough \>20 μg/mL of PF-05280014 is non-inferior to trastuzumab-EU using a margin of -12.5%.|Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-8.02|6.49|||||Stratified analysis was based on the normal approximation to the binomial distribution, adjusting for the randomization strata of primary tumor size, estrogen receptor status and by progesterone receptor status.|||6.49|-8.02|
92427260|NCT02187744|184742174|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis to be tested in this study is the percentage of participants with steady state (Cycle 5) Ctrough \>20 μg/mL of PF-05280014 is non-inferior to trastuzumab-EU using a margin of -12.5%.|Mean Difference (Final Values)|-1.18|STANDARD_ERROR_OF_MEAN|3.78|||TWO_SIDED|95.0|-8.59|6.23|||||Unstratified analysis.|||6.23|-8.59|
92427261|NCT02187744|184742176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.81|STANDARD_ERROR_OF_MEAN|7.03|||TWO_SIDED|95.0|-16.58|10.96|||||Stratified analysis was based on the normal approximation to the binomial distribution, adjusting for the randomization strata of primary tumor size, estrogen receptor status and by progesterone receptor status.|||10.96|-16.58|
92427262|NCT02187744|184742176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|7.35|||TWO_SIDED|95.0|-17.4|11.4|||||Unstratified analysis.|||11.40|-17.40|
92427263|NCT02187744|184742177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.96|STANDARD_ERROR_OF_MEAN|5.09|||TWO_SIDED|95.0|-4.01|15.94|||||Stratified analysis was based on the normal approximation to the binomial distribution, adjusting for the randomization strata of primary tumor size, estrogen receptor status and by progesterone receptor status.|||15.94|-4.01|
92427264|NCT02187744|184742177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1|STANDARD_ERROR_OF_MEAN|5.19|||TWO_SIDED|95.0|-4.08|16.27|||||Unstratified analysis.|||16.27|-4.08|
92427265|NCT00134030|184742197|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.214|TWO_SIDED|95.0|0.61|1.12|||Log Rank|||||1.12|0.61|0.214
92427266|NCT00134030|184742197|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.86|TWO_SIDED|95.0|0.78|1.23|||Log Rank|||||1.23|0.78|0.86
92236680|NCT01380093|184377467|SUPERIORITY_OR_OTHER||LS Mean Difference|-109.3|||<|0.0001|TWO_SIDED|95.0|-132.9|-85.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-85.6|-132.9|<0.0001
92427267|NCT00134030|184742197|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.69|TWO_SIDED|95.0|-3.3|4.9|||Difference in RMST|||Secondary RMST analysis performed in poor response group, due to evidence of non-proportional hazards.||4.9|-3.3|0.69
92427268|NCT00134030|184742198|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.804|TWO_SIDED|95.0|0.69|1.33|||Log Rank|||||1.33|0.69|0.804
92427269|NCT00134030|184742198|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.674|TWO_SIDED|95.0|0.81|1.39|||Log Rank|||||1.39|0.81|0.674
92427270|NCT01972568|184742200|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.1208|TWO_SIDED|95.0|0.89|2.72|||Logistic regression model|||||2.72|0.89|0.1208
92427271|NCT01972568|184742208|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.31||||0.0048|TWO_SIDED|95.0|1.44|7.61|||Logistic regression model|||||7.61|1.44|0.0048
92427272|NCT01972568|184742209|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96||||0.0202|TWO_SIDED|95.0|1.11|3.46|||Logistic regression model|||||3.46|1.11|0.0202
92427273|NCT00144391|184742229|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
92427274|NCT00594659|184742236|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||accelerated bootstrapping|||Pairwise comparison; non-parametric tests performed because of non-normal distribution||||<0.05
92170716|NCT05075408|184230152|SUPERIORITY|Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.|Strata adjusted percentage difference|14.5||||0.0686|TWO_SIDED|97.5|-3.1|32.2||Threshold of significance at 0.025.|Cochran-Mantel-Haenszel|||Nemolizumab 60 mg versus Placebo||32.2|-3.1|0.0686
92236681|NCT01380093|184377467|SUPERIORITY_OR_OTHER||LS Mean Difference|67.0|||<|0.0001|TWO_SIDED|95.0|43.5|90.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||90.6|43.5|<0.0001
92236682|NCT01380093|184377467|SUPERIORITY_OR_OTHER||LS Mean Difference|176.3|||<|0.0001|TWO_SIDED|95.0|152.6|199.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||199.9|152.6|<0.0001
92170717|NCT05075408|184230153|SUPERIORITY||Strata adjusted percentage difference|4.3||||0.5909|TWO_SIDED|97.5|-13.8|22.3|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||22.3|-13.8|0.5909
92236683|NCT01380093|184377468|SUPERIORITY_OR_OTHER||LS Mean Difference|-190.8|||<|0.0001|TWO_SIDED|95.0|-234.2|-147.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-147.3|-234.2|<0.0001
92427275|NCT00594659|184742236|SUPERIORITY_OR_OTHER||||||<|0.05|||||||accelerated bootstrapping|||pairwise comparison; non-parametric analysis||||< .05
92427276|NCT00594659|184742236|SUPERIORITY_OR_OTHER||||||>|0.05|||||||accelerated bootstrapping|||nonparametric pairwise comparison; non-normal distribution||||> 0.05
92427277|NCT00594659|184742237|SUPERIORITY_OR_OTHER||Slope|3.11|STANDARD_ERROR_OF_MEAN|0.69|<|0.05|TWO_SIDED||||||piecewise mixed model with logit link an|Performed across all assessments.|Slope and p-value above are for group 1: baseline to ETX. Group 3 vs. Group 1 baseline to ETX slope, p \< 0.05. All other pairwise comparisons p \> 0.05.|pairwise comparisons among groups across 4 follow-up timepoints||||< 0.05
92427278|NCT00617851|184742332|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H1N1 Strain)|1.09|||||TWO_SIDED|95.0|0.92|1.29|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H01 LotA ≠ LotB versus H1 LotA = LotB H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% confidence interval (CI) on the geometric mean titer (GMT) ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.29|0.92|
92236684|NCT01380093|184377468|SUPERIORITY_OR_OTHER||LS Mean Difference|134.7|||<|0.0001|TWO_SIDED|95.0|91.5|178.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||178.0|91.5|<0.0001
92427279|NCT00617851|184742332|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H1N1 Strain)|1.1|||||TWO_SIDED|95.0|0.93|1.31|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H02 LotA ≠ LotC versus H12 LotA = Lotc H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.31|0.93|
92427280|NCT00617851|184742332|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H1N1 Strain)|1.01|||||TWO_SIDED|95.0|0.85|1.2|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotB ≠ LotC versus H13 LotB = LotC H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.2|0.85|
92236685|NCT01380093|184377468|SUPERIORITY_OR_OTHER||LS Mean Difference|325.5|||<|0.0001|TWO_SIDED|95.0|282.1|368.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||368.9|282.1|<0.0001
92236686|NCT01380093|184377469|SUPERIORITY_OR_OTHER||LS Mean Difference|-244.9|||<|0.0001|TWO_SIDED|95.0|-302.0|-187.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-187.7|-302.0|<0.0001
92236687|NCT01380093|184377469|SUPERIORITY_OR_OTHER||LS Mean Difference|166.5|||<|0.0001|TWO_SIDED|95.0|109.5|223.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||223.5|109.5|<0.0001
92236688|NCT01380093|184377469|SUPERIORITY_OR_OTHER||LS Mean Difference|411.4|||<|0.0001|TWO_SIDED|95.0|354.3|468.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||468.6|354.3|<0.0001
92236689|NCT01380093|184377470|SUPERIORITY_OR_OTHER||LS Mean Difference|-310.0|||<|0.0001|TWO_SIDED|95.0|-384.5|-235.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-235.5|-384.5|<0.0001
92236690|NCT01380093|184377470|SUPERIORITY_OR_OTHER||LS Mean Difference|185.2|||<|0.0001|TWO_SIDED|95.0|110.8|259.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||259.5|110.8|<0.0001
92236691|NCT01380093|184377470|SUPERIORITY_OR_OTHER||LS Mean Difference|495.1|||<|0.0001|TWO_SIDED|95.0|420.6|569.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||569.7|420.6|<0.0001
92236692|NCT01380093|184377471|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.5|||<|0.0001|TWO_SIDED|95.0|-38.7|-22.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-22.3|-38.7|<0.0001
92236693|NCT01380093|184377471|SUPERIORITY_OR_OTHER||LS Mean Difference|30.8|||<|0.0001|TWO_SIDED|95.0|22.6|39.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||39.0|22.6|<0.0001
92236694|NCT01380093|184377471|SUPERIORITY_OR_OTHER||LS Mean Difference|61.3|||<|0.0001|TWO_SIDED|95.0|53.1|69.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||69.5|53.1|<0.0001
92236695|NCT01380093|184377472|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.8671|TWO_SIDED|95.0|-1.0|0.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.8|-1.0|0.8671
92236696|NCT01380093|184377472|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8||||0.0001|TWO_SIDED|95.0|0.9|2.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.7|0.9|0.0001
92236697|NCT01380093|184377472|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|||<|0.0001|TWO_SIDED|95.0|1.0|2.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.8|1.0|<0.0001
92236698|NCT01380093|184377473|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.0|||<|0.0001|TWO_SIDED|95.0|-17.0|-9.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-9.0|-17.0|<0.0001
92236699|NCT01380093|184377473|SUPERIORITY_OR_OTHER||LS Mean Difference|8.8|||<|0.0001|TWO_SIDED|95.0|4.8|12.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||12.8|4.8|<0.0001
92236700|NCT01380093|184377473|SUPERIORITY_OR_OTHER||LS Mean Difference|21.8|||<|0.0001|TWO_SIDED|95.0|17.8|25.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||25.8|17.8|<0.0001
92236701|NCT01380093|184377474|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.3|||<|0.0001|TWO_SIDED|95.0|-55.3|-35.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-35.3|-55.3|<0.0001
92236702|NCT01380093|184377474|SUPERIORITY_OR_OTHER||LS Mean Difference|24.5|||<|0.0001|TWO_SIDED|95.0|14.6|34.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||34.5|14.6|<0.0001
92236703|NCT01380093|184377474|SUPERIORITY_OR_OTHER||LS Mean Difference|69.8|||<|0.0001|TWO_SIDED|95.0|59.9|79.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||79.8|59.9|<0.0001
92236704|NCT01380093|184377475|SUPERIORITY_OR_OTHER||LS Mean Difference|-109.1|||<|0.0001|TWO_SIDED|95.0|-129.3|-88.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-88.8|-129.3|<0.0001
92236705|NCT01380093|184377475|SUPERIORITY_OR_OTHER||LS Mean Difference|60.1|||<|0.0001|TWO_SIDED|95.0|39.9|80.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||80.4|39.9|<0.0001
92236706|NCT01380093|184377475|SUPERIORITY_OR_OTHER||LS Mean Difference|169.2|||<|0.0001|TWO_SIDED|95.0|148.9|189.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||189.5|148.9|<0.0001
92236707|NCT01380093|184377476|SUPERIORITY_OR_OTHER||LS Mean Difference|-207.0|||<|0.0001|TWO_SIDED|95.0|-242.0|-172.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-172.1|-242.0|<0.0001
92279552|NCT02655237|184462506|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-0.49|||||TWO_SIDED|95.0|-0.787|-0.199|||||Relugolix 40 mg-Leuprorelin|Follow up (up to Week 28)||-0.199|-0.787|
92279553|NCT02655237|184462507|OTHER|Two-sided 95% confidence interval of the difference was calculated between relugolix 40 mg and leuprorelin group.|Mean Difference (Each Visit)|0.07|||||TWO_SIDED|95.0|-0.032|0.174|||||Relugolix 40 mg-Leuprorelin|Week 6 to 12||0.174|-0.032|
92236708|NCT01380093|184377476|SUPERIORITY_OR_OTHER||LS Mean Difference|118.7|||<|0.0001|TWO_SIDED|95.0|83.9|153.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||153.5|83.9|<0.0001
92236709|NCT01380093|184377476|SUPERIORITY_OR_OTHER||LS Mean Difference|325.8|||<|0.0001|TWO_SIDED|95.0|290.8|360.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||360.7|290.8|<0.0001
92236710|NCT01380093|184377477|SUPERIORITY_OR_OTHER||LS Mean Difference|-268.2|||<|0.0001|TWO_SIDED|95.0|-313.2|-223.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-223.2|-313.2|<0.0001
92236711|NCT01380093|184377477|SUPERIORITY_OR_OTHER||LS Mean Difference|147.0|||<|0.0001|TWO_SIDED|95.0|102.1|191.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||191.9|102.1|<0.0001
92236712|NCT01380093|184377477|SUPERIORITY_OR_OTHER||LS Mean Difference|415.2|||<|0.0001|TWO_SIDED|95.0|370.2|460.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||460.2|370.2|<0.0001
92236713|NCT01380093|184377478|SUPERIORITY_OR_OTHER||LS Mean Difference|-336.0|||<|0.0001|TWO_SIDED|95.0|-395.4|-276.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-276.6|-395.4|<0.0001
92236714|NCT01380093|184377478|SUPERIORITY_OR_OTHER||LS Mean Difference|165.6|||<|0.0001|TWO_SIDED|95.0|106.4|224.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||224.8|106.4|<0.0001
92236715|NCT01380093|184377478|SUPERIORITY_OR_OTHER||LS Mean Difference|501.6|||<|0.0001|TWO_SIDED|95.0|442.2|561.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||561.0|442.2|<0.0001
92236716|NCT01380093|184377479|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.8|||<|0.0001|TWO_SIDED|95.0|-40.7|-26.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-26.8|-40.7|<0.0001
92279554|NCT02655237|184462507|OTHER|Two-sided 95% confidence interval of the difference was calculated between relugolix 40 mg and leuprorelin group.|Mean Difference (Each Visit)|0.05|||||TWO_SIDED|95.0|-0.089|0.197|||||Relugolix 40 mg-Leuprorelin|Week 2 to 6||0.197|-0.089|
92427281|NCT00617851|184742332|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H3N2 Strain)|1.12|||||TWO_SIDED|95.0|0.97|1.3|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotA ≠ LotB versus H13 LotA = LotB H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.3|0.97|
92446522|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.722||0.612|TWO_SIDED|95.0|-1.79|1.06||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 3||1.06|-1.79|0.612
92170718|NCT05075408|184230153|SUPERIORITY||Strata adjusted percentage difference|12.9||||0.1112|TWO_SIDED|97.5|-5.5|31.4|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||31.4|-5.5|0.1112
92236717|NCT01380093|184377479|SUPERIORITY_OR_OTHER||LS Mean Difference|26.7|||<|0.0001|TWO_SIDED|95.0|19.7|33.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||33.6|19.7|<0.0001
92236718|NCT01380093|184377479|SUPERIORITY_OR_OTHER||LS Mean Difference|60.4|||<|0.0001|TWO_SIDED|95.0|53.4|67.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||67.4|53.4|<0.0001
92236719|NCT01380093|184377480|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.3345|TWO_SIDED|95.0|-0.4|1.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.3|-0.4|0.3345
92236720|NCT01380093|184377480|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4|||<|0.0001|TWO_SIDED|95.0|1.5|3.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||3.3|1.5|<0.0001
92236721|NCT01380093|184377480|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0|||<|0.0001|TWO_SIDED|95.0|1.1|2.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.8|1.1|<0.0001
92236722|NCT01380093|184377481|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0||||0.0453|TWO_SIDED|95.0|-2.0|0.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-0.0|-2.0|0.0453
92236723|NCT01380093|184377481|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.5637|TWO_SIDED|95.0|-0.7|1.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.3|-0.7|0.5637
92236724|NCT01380093|184377481|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3||||0.011|TWO_SIDED|95.0|0.3|2.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.3|0.3|0.0110
92279555|NCT02655237|184462507|OTHER|Two-sided 95% confidence interval of the difference was calculated between relugolix 40 mg and leuprorelin group.|Mean Difference (Each Visit)|0.01|||||TWO_SIDED|95.0|-0.06|0.086|||||Relugolix 40 mg-Leuprorelin|Week 18 to 24||0.086|-0.060|
92236725|NCT01380093|184377482|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.9||||0.0041|TWO_SIDED|95.0|-8.2|-1.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.6|-8.2|0.0041
92279556|NCT02655237|184462507|OTHER|Two-sided 95% confidence interval of the difference was calculated between relugolix 40 mg and leuprorelin group.|Mean Difference (Each Visit)|0.02|||||TWO_SIDED|95.0|-0.063|0.099|||||Relugolix 40 mg-Leuprorelin|For 6 Weeks Before the Final Dose (up to Week 24)||0.099|-0.063|
92427282|NCT00617851|184742332|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H3N2 strain)|0.98|||||TWO_SIDED|95.0|0.85|1.13|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotA ≠ LotC versus H13 LotA = LotC H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.13|0.85|
92427283|NCT00617851|184742332|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H3N2 strain)|0.87|||||TWO_SIDED|95.0|0.76|1.01|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotB ≠ LotC versus H13 LotB = LotC H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.01|0.76|
92427284|NCT00617851|184742332|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (B strain)|1.06|||||TWO_SIDED|95.0|0.91|1.23|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotA ≠ LotB versus H13 LotA = LotB H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.23|0.91|
92427285|NCT00617851|184742332|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (B strain)|1.15|||||TWO_SIDED|95.0|0.99|1.33|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotA ≠ LotC versus H13 LotA = LotC H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.33|0.99|
92427286|NCT00617851|184742332|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (B strain)|1.09|||||TWO_SIDED|95.0|0.94|1.26|||ANOVA||"The control vaccine arm (n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotB ≠ LotC versus H13 LotB = LotC H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.26|0.94|
92427287|NCT00944671|184742357|NON_INFERIORITY_OR_EQUIVALENCE|Given a 3-period crossover design, assuming a true within subject variance for natural log AUC of 0.029, 24 subjects completing the study, and alpha = 0.05, there is a 0.995 probability that the 90% confidence interval for the true geometric mean ratio of AUC for (famotidine antacid combination EZ Chew tablet without water/ famotidine antacid combination tablet with water) will be contained in (0.80, 1.25), given that the true ratio is one.|Geometric Mean Ratio|1.05||||||90.0|0.98|1.13||||||||1.13|0.98|
92170719|NCT05075408|184230154|SUPERIORITY||Strata adjusted percentage difference|17.3||||0.0034|TWO_SIDED|97.5|4.3|30.4|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||30.4|4.3|0.0034
92427288|NCT00944671|184742358|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a true within subject variance for natural log Cmax of 0.017, there is a 0.999 probability that the 90% confidence interval for the true geometric mean ratio of Cmax for (famotidine antacid combination EZ Chew tablet without water/ famotidine antacid combination tablet with water) will be contained in (0.80, 1.25), given that the true ratio is one.|Geometric Mean Ratio|1.03||||||90.0|0.93|1.13||||||||1.13|0.93|
92427289|NCT00944671|184742359|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.05||||||90.0|0.98|1.13||||||||1.13|0.98|
92427290|NCT00944671|184742360|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.03||||||90.0|0.93|1.14||||||||1.14|0.93|
92427291|NCT03345914|184742406|SUPERIORITY||Percentage difference|18.1|||=|0.0004|TWO_SIDED|95.0|8.28|27.97||The Cochran-Mantel-Haenszel (CMH) test adjusted by randomization strata (baseline weight group (\< 30 kilograms (kg) or ≥ 30 kg) and region (North America or Europe) was used for the analysis of percentage of participants with IGA 0 or 1 at Week 16.|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||27.97|8.28|= 0.0004
92427292|NCT03345914|184742406|SUPERIORITY||Percentage difference|21.4|||<|0.0001|TWO_SIDED|95.0|11.36|31.45||The Cochran-Mantel-Haenszel (CMH) test adjusted by randomization strata (baseline weight group (\< 30 kg or ≥ 30 kg) and region (North America or Europe) was used for the analysis of percentage of participants with IGA 0 or 1 at Week 16.|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||31.45|11.36|< 0.0001
92427293|NCT03345914|184742407|SUPERIORITY||Percentage difference|40.4|||<|0.0001|TWO_SIDED|95.0|28.95|51.82||The Cochran-Mantel-Haenszel (CMH) test adjusted by randomization strata (baseline weight group (\< 30 kg or ≥ 30 kg) and region (North America or Europe) was used for the analysis of percentage of participants with EASI-75 at Week 16.|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||51.82|28.95|< 0.0001
92427294|NCT03345914|184742407|SUPERIORITY||Percentage difference|42.8|||<|0.0001|TWO_SIDED|95.0|31.54|54.15||The Cochran-Mantel-Haenszel (CMH) test adjusted by randomization strata (baseline weight group (\< 30 kg or ≥ 30 kg) and region (North America or Europe) was used for the analysis of percentage of participants with EASI-75 at Week 16.|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||54.15|31.54|< 0.0001
92170720|NCT05075408|184230154|SUPERIORITY||Strata adjusted percentage difference|17.1||||0.0025|TWO_SIDED|97.5|4.5|29.8|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||29.8|4.5|0.0025
92427295|NCT03345914|184742408|SUPERIORITY||Least Square Mean Difference|-29.8|||<|0.0001|TWO_SIDED|95.0|-36.33|-23.24||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-23.24|-36.33|< 0.0001
92236726|NCT01380093|184377482|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1||||0.2178|TWO_SIDED|95.0|-1.2|5.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.3|-1.2|0.2178
92427296|NCT03345914|184742408|SUPERIORITY||Least Square Mean Difference|-33.4|||<|0.0001|TWO_SIDED|95.0|-40.06|-26.82||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-26.82|-40.06|< 0.0001
92427297|NCT03345914|184742409|SUPERIORITY||Least Square Mean Difference|-31.0|||<|0.0001|TWO_SIDED|95.0|-38.76|-23.26||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-23.26|-38.76|< 0.0001
92427298|NCT03345914|184742409|SUPERIORITY||Least Square Mean Difference|-28.6|||<|0.0001|TWO_SIDED|95.0|-36.47|-20.82||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-20.82|-36.47|< 0.0001
92427299|NCT03345914|184742410|SUPERIORITY||Percentage difference|46.4|||<|0.0001|TWO_SIDED|95.0|35.3|57.42||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||57.42|35.3|< 0.0001
92427300|NCT03345914|184742410|SUPERIORITY||Percentage difference|39.2|||<|0.0001|TWO_SIDED|95.0|27.88|50.51||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||50.51|27.88|< 0.0001
92427301|NCT03345914|184742411|SUPERIORITY||Percentage difference|46.0|||<|0.0001|TWO_SIDED|95.0|35.47|56.61||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||56.61|35.47|< 0.0001
92427302|NCT03345914|184742411|SUPERIORITY||Percentage difference|38.5|||<|0.0001|TWO_SIDED|95.0|27.86|49.21||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||49.21|27.86|< 0.0001
92170721|NCT05075408|184230155|SUPERIORITY||Strata adjusted percentage difference|3.7||||0.5788|TWO_SIDED|97.5|-12.5|19.8|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||19.8|-12.5|0.5788
92170722|NCT05075408|184230155|SUPERIORITY||Strata adjusted percentage difference|16.5||||0.0303|TWO_SIDED|97.5|-0.8|33.9|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||33.9|-0.8|0.0303
92236727|NCT01380093|184377482|SUPERIORITY_OR_OTHER||LS Mean Difference|7.0|||<|0.0001|TWO_SIDED|95.0|3.7|10.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||10.3|3.7|<0.0001
92236728|NCT01380093|184377483|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.4||||0.0001|TWO_SIDED|95.0|-28.8|-9.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-9.9|-28.8|0.0001
92279557|NCT02655237|184462508|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-2.5|||||TWO_SIDED|95.0|-6.39|1.43|||||Relugolix 40 mg-Leuprorelin|Week 4||1.43|-6.39|
92170723|NCT05075408|184230156|SUPERIORITY||Strata adjusted percentage difference|24.2||||0.0006|TWO_SIDED|97.5|8.8|39.6|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||39.6|8.8|0.0006
92279558|NCT02655237|184462508|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-4.0|||||TWO_SIDED|95.0|-6.68|-1.31|||||Relugolix 40 mg-Leuprorelin|Week 8||-1.31|-6.68|
92279559|NCT02655237|184462508|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.2|||||TWO_SIDED|95.0|-1.99|2.36|||||Relugolix 40 mg-Leuprorelin|Week 12||2.36|-1.99|
92279560|NCT02655237|184462508|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|1.3|||||TWO_SIDED|95.0|-0.68|3.28|||||Relugolix 40 mg-Leuprorelin|Week 16||3.28|-0.68|
92427303|NCT03345914|184742412|SUPERIORITY||Percentage difference|39.7|||<|0.0001|TWO_SIDED|95.0|28.68|50.72||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||50.72|28.68|< 0.0001
92427304|NCT03345914|184742412|SUPERIORITY||Percentage difference|47.9|||<|0.0001|TWO_SIDED|95.0|37.77|58.01||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||58.01|37.77|< 0.0001
92427305|NCT03345914|184742413|SUPERIORITY||Percentage difference|23.0|||<|0.0001|TWO_SIDED|95.0|13.65|32.38||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||32.38|13.65|< 0.0001
92427306|NCT03345914|184742413|SUPERIORITY||Percentage difference|34.5|||<|0.0001|TWO_SIDED|95.0|24.6|44.37||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||44.37|24.6|< 0.0001
92427307|NCT03345914|184742414|SUPERIORITY||Hazard ratios|3.114|||<|0.0001|TWO_SIDED|95.0|2.097|4.624||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cox model|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||4.624|2.097|< 0.0001
92427308|NCT03345914|184742414|SUPERIORITY||Hazard ratios|2.921|||<|0.0001|TWO_SIDED|95.0|1.957|4.36||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cox model|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||4.36|1.957|< 0.0001
92427309|NCT03345914|184742415|SUPERIORITY||Hazard ratios|2.278|||<|0.0001|TWO_SIDED|95.0|1.631|3.182||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cox model|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||3.182|1.631|< 0.0001
92427310|NCT03345914|184742415|SUPERIORITY||Hazard ratios|2.075|||<|0.0001|TWO_SIDED|95.0|1.481|2.908||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cox model|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||2.908|1.481|< 0.0001
92427311|NCT03345914|184742416|SUPERIORITY||Least Square Mean Difference|-17.72|||<|0.0001|TWO_SIDED|95.0|-22.272|-13.161||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-13.161|-22.272|< 0.0001
92236729|NCT01380093|184377483|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9||||0.151|TWO_SIDED|95.0|-2.6|16.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||16.3|-2.6|0.1510
92427312|NCT03345914|184742416|SUPERIORITY||Least Square Mean Difference|-18.88|||<|0.0001|TWO_SIDED|95.0|-23.479|-14.289||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-14.289|-23.479|< 0.0001
92427313|NCT03345914|184742417|SUPERIORITY||Least Square Mean Difference|-30.4|||<|0.0001|TWO_SIDED|95.0|-36.3|-24.48||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-24.48|-36.3|< 0.0001
92427314|NCT03345914|184742417|SUPERIORITY||Least Square Mean Difference|-32.6|||<|0.0001|TWO_SIDED|95.0|-38.57|-26.59||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-26.59|-38.57|< 0.0001
92427315|NCT03345914|184742418|SUPERIORITY||Least Square Mean Difference|-4.3|||<|0.0001|TWO_SIDED|95.0|-5.62|-2.99||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-2.99|-5.62|< 0.0001
92427316|NCT03345914|184742418|SUPERIORITY||Least Square Mean Difference|-4.2|||<|0.0001|TWO_SIDED|95.0|-5.57|-2.89||The confidence interval (CI) with p-value was based on treatment difference (dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-2.89|-5.57|< 0.0001
92427317|NCT03345914|184742419|SUPERIORITY||Least Square Mean Difference|-8.1|||<|0.0001|TWO_SIDED|95.0|-9.96|-6.31||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-6.31|-9.96|< 0.0001
92427318|NCT03345914|184742419|SUPERIORITY||Least Square Mean Difference|-8.3|||<|0.0001|TWO_SIDED|95.0|-10.13|-6.43||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-6.43|-10.13|< 0.0001
92427319|NCT03345914|184742420|SUPERIORITY||Least Square Mean Difference|-2.41|||<|0.0001|TWO_SIDED|95.0|-2.984|-1.831||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-1.831|-2.984|< 0.0001
92170724|NCT05075408|184230156|SUPERIORITY||Strata adjusted percentage difference|20.8||||0.0021|TWO_SIDED|97.5|6.0|35.7|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||35.7|6.0|0.0021
92170725|NCT05075408|184230157|SUPERIORITY||Strata adjusted percentage difference|14.0||||0.0028|TWO_SIDED|97.5|3.8|24.1|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||24.1|3.8|0.0028
92236730|NCT01380093|184377483|SUPERIORITY_OR_OTHER||LS Mean Difference|26.2|||<|0.0001|TWO_SIDED|95.0|16.8|35.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||35.7|16.8|<0.0001
92236731|NCT01380093|184377484|SUPERIORITY_OR_OTHER||LS Mean Difference|-55.2|||<|0.0001|TWO_SIDED|95.0|-75.9|-34.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-34.4|-75.9|<0.0001
92170726|NCT05075408|184230157|SUPERIORITY||Strata adjusted percentage difference|19.0||||0.0003|TWO_SIDED|97.5|7.6|30.5|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||30.5|7.6|0.0003
92236732|NCT01380093|184377484|SUPERIORITY_OR_OTHER||LS Mean Difference|18.5||||0.0796|TWO_SIDED|95.0|-2.2|39.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||39.2|-2.2|0.0796
92236733|NCT01380093|184377484|SUPERIORITY_OR_OTHER||LS Mean Difference|73.6|||<|0.0001|TWO_SIDED|95.0|52.9|94.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||94.4|52.9|<0.0001
92236734|NCT01380093|184377485|SUPERIORITY_OR_OTHER||LS Mean Difference|-82.8|||<|0.0001|TWO_SIDED|95.0|-112.9|-52.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-52.7|-112.9|<0.0001
92170727|NCT02380612|184230166|OTHER||Geometric Mean Ratio|1.4575|||||TWO_SIDED|||||||||||||
92236735|NCT01380093|184377485|SUPERIORITY_OR_OTHER||LS Mean Difference|26.9||||0.078|TWO_SIDED|95.0|-3.1|56.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||56.9|-3.1|0.0780
92279561|NCT02655237|184462508|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.3|||||TWO_SIDED|95.0|-1.8|2.32|||||Relugolix 40 mg-Leuprorelin|Week 20||2.32|-1.80|
92236736|NCT01380093|184377485|SUPERIORITY_OR_OTHER||LS Mean Difference|109.7|||<|0.0001|TWO_SIDED|95.0|79.6|139.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||139.8|79.6|<0.0001
92427320|NCT03345914|184742420|SUPERIORITY||Least Square Mean Difference|-2.18|||<|0.0001|TWO_SIDED|95.0|-2.754|-1.599||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-1.599|-2.754|< 0.0001
92427321|NCT03345914|184742421|SUPERIORITY||Least Square Mean Difference|-4.11|||<|0.0001|TWO_SIDED|95.0|-5.434|-2.796||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-2.796|-5.434|< 0.0001
92427322|NCT03345914|184742421|SUPERIORITY||Least Square Mean Difference|-3.98|||<|0.0001|TWO_SIDED|95.0|-5.298|-2.657||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-2.657|-5.298|< 0.0001
92427323|NCT03345914|184742422|SUPERIORITY||Least Square Mean Difference|-3.37|||=|0.0061|TWO_SIDED|95.0|-5.779|-0.962||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-0.962|-5.779|= 0.0061
92427324|NCT03345914|184742422|SUPERIORITY||Least Square Mean Difference|-3.02|||=|0.0133|TWO_SIDED|95.0|-5.414|-0.629||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-0.629|-5.414|= 0.0133
92427325|NCT03345914|184742423|SUPERIORITY||Least Square Mean Difference|-4.5|||<|0.0001|TWO_SIDED|95.0|-6.734|-2.272||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-2.272|-6.734|< 0.0001
92427326|NCT03345914|184742423|SUPERIORITY||Least Square Mean Difference|-5.42|||<|0.0001|TWO_SIDED|95.0|-7.641|-3.207||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-3.207|-7.641|< 0.0001
92427327|NCT03345914|184742424|SUPERIORITY||Percentage Differenece|-4.8|||=|0.222|TWO_SIDED|95.0|-12.49|2.87||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||2.87|-12.49|= 0.222
92446523|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.856||0.67|TWO_SIDED|95.0|-2.06|1.33||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 4||1.33|-2.06|0.670
92236737|NCT01380093|184377486|SUPERIORITY_OR_OTHER||LS Mean Difference|-111.9|||<|0.0001|TWO_SIDED|95.0|-153.7|-70.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-70.2|-153.7|<0.0001
92236738|NCT01380093|184377486|SUPERIORITY_OR_OTHER||LS Mean Difference|33.9||||0.1089|TWO_SIDED|95.0|-7.8|75.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||75.5|-7.8|0.1089
92279562|NCT02655237|184462508|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.5|||||TWO_SIDED|95.0|-1.48|2.52|||||Relugolix 40 mg-Leuprorelin|Week 24||2.52|-1.48|
92427328|NCT03345914|184742424|SUPERIORITY||Percentage Differenece|-7.3|||=|0.0508|TWO_SIDED|95.0|-14.51|-0.03||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-0.03|-14.51|= 0.0508
92170728|NCT02879448|184230184|NON_INFERIORITY|The non-inferiority margin was developed based on reported rates for other devices. Therefore, the expected rate of the safety endpoint was assumed to be 15%. A non-inferiority margin of 5.8% represents a relative risk of 1.39.||||||0.0002|||||||Kaplan-Meier estimate|||"The following hypothesis was tested:~H0: p1(Amulet) - p1 (Watchman) ≥ Δ1~H1: p1(Amulet) - p1(Watchman) \< Δ1;~where Δ1 is the absolute value of the non-inferiority margin for the safety endpoint and p1 is the probability of a primary safety endpoint event."||||0.0002
92427329|NCT03345914|184742427|SUPERIORITY||Least Square Mean Difference|-5.7|||=|0.003|TWO_SIDED|95.0|-9.49|-1.96||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANOVA model with the treatment, randomization strata as fixed factors.|ANOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level||-1.96|-9.49|= 0.003
92427330|NCT03345914|184742427|SUPERIORITY|A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level|Least Square Mean Difference|-5.1|||=|0.0082|TWO_SIDED|95.0|-8.8|-1.31||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANOVA model with the treatment, randomization strata as fixed factors.|ANOVA|||||-1.31|-8.8|= 0.0082
92427331|NCT02218320|184742453|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
92427332|NCT00885846|184742462|NON_INFERIORITY_OR_EQUIVALENCE|Regression analysis performed for equal variance at baseline.||||||0.664||95.0|||||Repeated ANOVA|degrees of freedom = 2||Power analysis suggested 27 participants, 9 in each group.||||0.664
92427333|NCT00074984|184742463|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.574||||0.1449|TWO_SIDED|95.0|0.269|1.222|||Log Rank|Comparison is based on a 2-sided log-rank test.||||1.222|0.269|0.1449
92427334|NCT00074984|184742463|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.465||||0.0577|TWO_SIDED|95.0|0.211|1.025|||Wald Test|||Time to First Primary Endpoint Adjusting for Baseline Proteinuria using Cox Proportional Hazards Model||1.025|0.211|0.0577
92427335|NCT00074984|184742464|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.732||||0.5261|TWO_SIDED|95.0|0.278|1.927|||Log Rank|2-sided log-rank test||Analysis of Time to First Renal Event for ITT population.||1.927|0.278|0.5261
92427336|NCT03758443|184742468|SUPERIORITY||Least Square Mean Difference|-0.27||||0.5809|TWO_SIDED|95.0|-1.22|0.69|||ANCOVA|||Least square estimates, 95% CI, and p-values were obtained by fitting an ANCOVA model with terms for treatment, steroid use at baseline (yes, no) and prior biologic failure (yes, no), and baseline total Mayo score as covariate.||0.69|-1.22|0.5809
92427337|NCT03758443|184742468|SUPERIORITY||Least Square Mean Difference|-0.37||||0.4501|TWO_SIDED|95.0|-1.33|0.59|||ANCOVA|||Least square estimates, 95% CI, and p-values were obtained by fitting an ANCOVA model with terms for treatment, steroid use at baseline (yes, no) and prior biologic failure (yes, no), and baseline total Mayo score as covariate.||0.59|-1.33|0.4501
92427338|NCT03758443|184742468|SUPERIORITY||Least Square Mean Difference|-0.65||||0.1809|TWO_SIDED|95.0|-1.6|0.3|||ANCOVA|||Least square estimates, 95% CI, and p-values were obtained by fitting an ANCOVA model with terms for treatment, steroid use at baseline (yes, no) and prior biologic failure (yes, no), and baseline total Mayo score as covariate.||0.30|-1.60|0.1809
92427339|NCT03758443|184742469|SUPERIORITY|||||||0.3762|||||||Fisher Exact|||||||0.3762
92427340|NCT03758443|184742469|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92427341|NCT03758443|184742469|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92427342|NCT03758443|184742470|SUPERIORITY||Difference in Proportion|0.0||||0.9542|TWO_SIDED|95.0|-0.104|0.11||P-value is shown for Cochran-Mantel Haenszel tests stratified by prior biologic failure and steroid use at baseline.|Cochran-Mantel-Haenszel||Difference in proportion estimates used Mantel-Haenszel stratum weights.|||0.110|-0.104|0.9542
92427343|NCT03758443|184742470|SUPERIORITY||Difference in Proportion|-0.03||||0.5863|TWO_SIDED|95.0|-0.126|0.071||P-value is shown for Cochran-Mantel Haenszel tests stratified by prior biologic failure and steroid use at baseline.|Cochran-Mantel-Haenszel||Difference in proportion estimates used Mantel-Haenszel stratum weights.|||0.071|-0.126|0.5863
92427344|NCT03758443|184742470|SUPERIORITY||Difference in Proportion|-0.03||||0.5408|TWO_SIDED|95.0|-0.131|0.069||P-value is shown for Conhran-Mantel Haenszel tests stratified by prior biologic failure and steroid use at baseline.|Cochran-Mantel-Haenszel||Difference in proportion estimates used Mantel-Haenszel stratum weights.|||0.069|-0.131|0.5408
92427345|NCT03758443|184742471|SUPERIORITY|||||||0.6656|||||||Fisher Exact|||||||0.6656
92427346|NCT03758443|184742471|SUPERIORITY|||||||0.6424|||||||Fisher Exact|||||||0.6424
92236739|NCT01380093|184377486|SUPERIORITY_OR_OTHER||LS Mean Difference|145.8|||<|0.0001|TWO_SIDED|95.0|104.1|187.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||187.5|104.1|<0.0001
92427347|NCT03758443|184742471|SUPERIORITY|||||||0.6199|||||||Fisher Exact|||||||0.6199
92427348|NCT03758443|184742472|SUPERIORITY|||||||0.2643|||||||Fisher Exact|||||||0.2643
92427349|NCT03758443|184742472|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92427350|NCT03758443|184742472|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92427351|NCT03758443|184742473|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92427352|NCT03758443|184742473|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92427353|NCT03758443|184742473|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
92236740|NCT01380093|184377487|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.7|||<|0.0001|TWO_SIDED|95.0|-18.8|-8.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-8.6|-18.8|<0.0001
92236741|NCT01380093|184377487|SUPERIORITY_OR_OTHER||LS Mean Difference|6.0||||0.0215|TWO_SIDED|95.0|0.9|11.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||11.1|0.9|0.0215
92236742|NCT01380093|184377487|SUPERIORITY_OR_OTHER||LS Mean Difference|19.7|||<|0.0001|TWO_SIDED|95.0|14.6|24.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||24.8|14.6|<0.0001
92427354|NCT03080454|184742474|EQUIVALENCE|Statistical analysis for mean percent change from baseline in area under the curve for the resistance torque measure across 2 conditions (anodal vs. sham Doublestim) and at 2 timepoints (final session at day 5 and 1 week FU). Null hypothesis is that there was no difference in mean percent change in area under the curve between anodal and sham Doublestim conditions. A significance level of 0.05 was used (two-sided).||||||0.004||||||A 2x2 repeated measures ANOVA was performed with condition (mean percent change in anodal vs. sham condition) and time (final session at day 5 and 1 week FU in each condition) as factors. A significance level of 0.05 was used (two-sided).|ANOVA|||||||0.004
92427355|NCT03080454|184742475|EQUIVALENCE|Statistical analysis for mean Tardieu Scale Score summed across 11 joints of the upper extremity in 2 conditions (anodal vs. sham Doublestim) and at 2 timepoints (final session at day 5 and 1 week FU). Null hypothesis is that there was no difference in mean change between anodal and sham Doubleestim conditions. A significance level of 0.05 was used (two-sided).||||||0.003||||||A 2x2 repeated measures ANOVA was performed with condition (mean score in anodal vs. sham condition) and time (final session at day 5 and 1 week FU in each condition) as factors. A significance level of 0.05 was used (two-sided).|ANOVA|||||||0.003
92427356|NCT03863197|184742478|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
92427357|NCT03863197|184742479|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
92427358|NCT03863197|184742480|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
92427359|NCT03863197|184742481|SUPERIORITY||||||<|0.01||||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
92427360|NCT03863197|184742482|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
92427361|NCT03863197|184742483|SUPERIORITY||||||<|0.01||||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
92427362|NCT03863197|184742487|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
92427363|NCT03863197|184742488|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
92427364|NCT01781975|184742489|SUPERIORITY||ANCOVA|0.0616|STANDARD_ERROR_OF_MEAN|0.0364||0.048|TWO_SIDED|90.0|0.00176|0.121|||ANCOVA|||||0.121|0.00176|0.048
92427365|NCT04545060|184742526|SUPERIORITY||adjusted relative risk ratio|0.21|||<|0.001|TWO_SIDED|95.0|0.09|0.5||two-sided, alpha=0.05|poisson regression model|||||0.50|0.09|<0.001
92427366|NCT04545060|184742544|SUPERIORITY||relative risk ratio|0.34|||<|0.001|TWO_SIDED|95.0|0.19|0.63||two-sided, alpha=0.05|poisson regression model|||||0.63|0.19|<0.001
92427367|NCT04545060|184742545|SUPERIORITY||Least squares mean difference|-1.07|||<|0.001|TWO_SIDED|95.0|-1.38|-0.76||two-sided, alpha=0.05|ANCOVA|||||-0.76|-1.38|<0.001
92427368|NCT04545060|184742547|SUPERIORITY||Least squares mean difference|-0.232||||0.007|TWO_SIDED|95.0|-0.399|-0.065||two-sided, alpha=0.05|Mixed model repeated measures|||||-0.065|-0.399|0.007
92427369|NCT04545060|184742551|SUPERIORITY||relative risk ratio|0.26||||0.002|TWO_SIDED|95.0|0.12|0.59||two-sided, alpha=0.05|poisson regression model|||||0.59|0.12|0.002
92427370|NCT00973674|184742567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99|||||||Barnard's unconditional Exact Test|||||||0.99
92427371|NCT00973674|184742568|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.67||||0.033|TWO_SIDED|95.0|0.74|3.77|||Log Rank|||||3.77|0.74|.033
92427372|NCT00973674|184742569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35|||||||t-test, 2 sided|||||||.35
92427373|NCT02068027|184742579|SUPERIORITY|||||||0.4503||||||MMRM imputing for missing data|Mixed Models Analysis|||||||0.4503
92427374|NCT02068027|184742580|SUPERIORITY|||||||0.735||||||MMRM imputing for missing data|Mixed Models Analysis|||||||0.7350
92427375|NCT00516074|184742619|NON_INFERIORITY_OR_EQUIVALENCE|Approximately 25 subjects were intended to be randomized to both the exenatide and placebo arms. Assuming an approximate 24% dropout rate, 19 patients per treatment arm would complete the study. A sample of 19 patients per treatment group would provide 90% power to detect a 10 bpm difference between treatment groups in change in daily mean heart rate from baseline.||||||0.1585||95.0|||||ANCOVA|||||||0.1585
92427376|NCT00516074|184742620|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for the primary endpoint is described as part of the primary endpoint information above.||||||0.1624||95.0|||||ANCOVA|||||||0.1624
92427377|NCT00516074|184742621|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for the primary endpoint is described as part of the primary endpoint information above.||||||0.5077||95.0|||||ANCOVA|||||||0.5077
92427378|NCT00516074|184742622|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for the primary endpoint is described as part of the primary endpoint information above.||||||0.9034||95.0|||||ANCOVA|||||||0.9034
92427379|NCT00516074|184742623|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for the primary endpoint is described as part of the primary endpoint information above.||||||0.427||95.0|||||ANCOVA|||||||0.4270
92236743|NCT01380093|184377488|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3||||0.0007|TWO_SIDED|95.0|-3.6|-1.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.0|-3.6|0.0007
92427380|NCT00516074|184742624|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for the primary endpoint is described as part of the primary endpoint information above.||||||0.26||95.0|||||ANCOVA|||||||0.2600
92427381|NCT04154930|184742645|SUPERIORITY||Treatment difference|69.7|||<|0.001|TWO_SIDED|95.0|52.54|86.89|||Cochran-Mantel-Haenszel|||||86.89|52.54|<0.001
92427382|NCT04154930|184742646|SUPERIORITY||Treatment difference|72.5|||<|0.001|TWO_SIDED|95.0|60.67|84.28|||Cochran-Mantel-Haenszel|||Responder Rate Based on the Blinded Evaluator's live assessment of the GIHS at 6 Months After Baseline||84.28|60.67|<0.001
92427383|NCT04154930|184742646|SUPERIORITY||Treatment difference|66.4|||<|0.001|TWO_SIDED|95.0|54.97|77.92|||Cochran-Mantel-Haenszel|||Responder Rate Based on the Blinded Evaluator's live assessment of the GIHS at 9 Months After Baseline||77.92|54.97|<0.001
92427384|NCT04154930|184742646|SUPERIORITY||Treatment difference|52.4|||<|0.001|TWO_SIDED|95.0|40.57|64.26|||Cochran-Mantel-Haenszel|||Responder Rate Based on the Blinded Evaluator's live assessment of the GIHS at 12 Months After Baseline||64.26|40.57|<0.001
92427385|NCT00657358|184742649|SUPERIORITY_OR_OTHER||R^2 (adj)|0.477|||<|0.001|TWO_SIDED|95.0|||||Regression, Linear|DF=2 DFDEN=371.8, F-ratio=10.66||||||<0.001
92427386|NCT02012283|184742681|OTHER|paired t-test|Mean Difference (Final Values)|78.4||||0.001|TWO_SIDED|95.0||||p\<0.05 is defined as significant|t-test, 2 sided|||Difference between plain and spiced broccoli intake was compared.||||0.001
92427387|NCT02012283|184742682|OTHER|paired t-test|Mean Difference (Final Values)|101.3||||0.031|TWO_SIDED|||||p\<0.05 is defined as significant.|t-test, 2 sided|||Comparison was made to the broccoli intake with and without spices among low restraint eaters vs. the change among high restraint eaters.||||0.031
92427388|NCT00621959|184742703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14||||0.546||95.0|-0.59|0.31||If the p-value of this estimated difference is lower than 5% the mean T5SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA including treatment and center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis for the primary endpoint is expressed as follows: 'The mean 24-hr reflective T5SS over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.31|-0.59|0.546
92427389|NCT00621959|184742704|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08||||0.442||95.0|-0.27|0.12||If the p-value of this estimated difference is lower than 5% the mean change from baseline in overall RQLQ score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in overall RQLQ score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in overall RQLQ score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.12|-0.27|0.442
92427390|NCT02484690|184742707|SUPERIORITY||Difference in Least Squares Means|1.57||||0.5244|TWO_SIDED|80.0|-1.6|4.74||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: BCVA at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||4.74|-1.60|0.5244
92427391|NCT02484690|184742707|SUPERIORITY||Difference in Least Squares Means|-1.59||||0.5308|TWO_SIDED|80.0|-4.86|1.67||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: BCVA at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||1.67|-4.86|0.5308
92446524|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.892||0.807|TWO_SIDED|95.0|-1.98|1.55||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 5||1.55|-1.98|0.807
92446525|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-1.14|STANDARD_ERROR_OF_MEAN|0.853||0.182|TWO_SIDED|95.0|-2.83|0.54||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 6||0.54|-2.83|0.182
92236744|NCT01380093|184377488|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3||||0.0455|TWO_SIDED|95.0|0.0|2.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.6|0.0|0.0455
92446526|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.801||0.933|TWO_SIDED|95.0|-1.52|1.65||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 1||1.65|-1.52|0.933
92236745|NCT01380093|184377488|SUPERIORITY_OR_OTHER||LS Mean Difference|3.6|||<|0.0001|TWO_SIDED|95.0|2.3|4.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.9|2.3|<0.0001
92427392|NCT02484690|184742707|SUPERIORITY||Difference in Least Squares Means|-1.51||||0.5309|TWO_SIDED|80.0|-4.62|1.59||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: BCVA at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||1.59|-4.62|0.5309
92236746|NCT01380093|184377489|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.3749|TWO_SIDED|95.0|-0.9|0.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.3|-0.9|0.3749
92236747|NCT01380093|184377489|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.7939|TWO_SIDED|95.0|-0.5|0.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.7|-0.5|0.7939
92427393|NCT02484690|184742708|SUPERIORITY||Difference in Least Squares Means|-1.68||||0.3034|TWO_SIDED|80.0|-3.77|0.42||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: BCVA at BL; Unstructured cov|The mean difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that the Arm E mean was different from Arm A mean.||0.42|-3.77|0.3034
92427394|NCT02484690|184742709|SUPERIORITY||Difference in Least Squares Means|5.63||||0.5527|TWO_SIDED|80.0|-6.52|17.77||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||17.77|-6.52|0.5527
92427395|NCT02484690|184742709|SUPERIORITY||Difference in Least Squares Means|-3.09||||0.7382|TWO_SIDED|80.0|-14.95|8.76||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||8.76|-14.95|0.7382
92427396|NCT02484690|184742709|SUPERIORITY||Difference in Least Squares Means|-7.32||||0.3932|TWO_SIDED|80.0|-18.32|3.67||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||3.67|-18.32|0.3932
92236748|NCT01380093|184377489|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.2524|TWO_SIDED|95.0|-0.3|1.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.0|-0.3|0.2524
92236749|NCT01380093|184377490|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7||||0.1211|TWO_SIDED|95.0|-3.8|0.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.5|-3.8|0.1211
92236750|NCT01380093|184377490|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4||||0.1997|TWO_SIDED|95.0|-0.7|3.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||3.5|-0.7|0.1997
92236751|NCT01380093|184377490|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1||||0.0057|TWO_SIDED|95.0|0.9|5.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.2|0.9|0.0057
92236752|NCT01380093|184377491|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.8||||0.0057|TWO_SIDED|95.0|-16.7|-3.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-3.0|-16.7|0.0057
92236753|NCT01380093|184377491|SUPERIORITY_OR_OTHER||LS Mean Difference|4.5||||0.1918|TWO_SIDED|95.0|-2.3|11.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||11.4|-2.3|0.1918
92236754|NCT01380093|184377491|SUPERIORITY_OR_OTHER||LS Mean Difference|14.4|||<|0.0001|TWO_SIDED|95.0|7.5|21.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||21.2|7.5|<0.0001
92170729|NCT02879448|184230185|NON_INFERIORITY|The non-inferiority margin for this endpoint was developed based on the reported rates of ischemic stroke or systemic embolism for the Watchman. The 18-month rate of ischemic stroke or systemic embolism for the Watchman device has been reported in the literature as 4.2%. A non-inferiority margin of 3.2%, which represents a relative risk of 1.76, ensured that the rate observed was at most twice the rate expected with oral anticoagulant therapy.|||||<|0.0001|||||||Kaplan-Meier estimate|||"The following hypothesis was tested:~H0: p2(Amulet) - p2(Watchman) ≥ Δ2~H1: p2(Amulet) - p2(Watchman) \< Δ2;~where Δ2 is the absolute value of the non-inferiority margin for the effectiveness endpoint and p2 is the probability of a subject experiencing a primary effectiveness endpoint event."||||<0.0001
92236755|NCT01380093|184377492|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.5||||0.0013|TWO_SIDED|95.0|-50.2|-12.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-12.9|-50.2|0.0013
92236756|NCT01380093|184377492|SUPERIORITY_OR_OTHER||LS Mean Difference|14.9||||0.1136|TWO_SIDED|95.0|-3.7|33.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||33.5|-3.7|0.1136
92236757|NCT01380093|184377492|SUPERIORITY_OR_OTHER||LS Mean Difference|46.5|||<|0.0001|TWO_SIDED|95.0|27.8|65.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||65.1|27.8|<0.0001
92279563|NCT02655237|184462508|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|3.4|||||TWO_SIDED|95.0|1.08|5.77|||||Relugolix 40 mg-Leuprorelin|Follow-Up (up to Week 28)||5.77|1.08|
92427397|NCT02484690|184742710|SUPERIORITY||Difference in Percentage of Participants|-5.71||||0.2328|TWO_SIDED|80.0|-10.74|-0.69||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Fisher Exact||The difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm E was different from Arm A.||-0.69|-10.74|0.2328
92427398|NCT02484690|184742711|SUPERIORITY||Difference in Least Squares Means|-0.52||||0.9581|TWO_SIDED|80.0|-13.26|12.22||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||12.22|-13.26|0.9581
92427399|NCT02484690|184742711|SUPERIORITY||Difference in Least Squares Means|-10.08||||0.3166|TWO_SIDED|80.0|-22.99|2.82||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||2.82|-22.99|0.3166
92427400|NCT02484690|184742711|SUPERIORITY||Difference in Least Squares Means|-7.68||||0.4244|TWO_SIDED|80.0|-20.01|4.64||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||4.64|-20.01|0.4244
92427401|NCT02484690|184742712|SUPERIORITY||Difference in Percentage of Participants|-6.64||||0.5586|TWO_SIDED|80.0|-18.6|5.32||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Fisher Exact||The difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm E was different from Arm A.||5.32|-18.60|0.5586
92427402|NCT02484690|184742713|SUPERIORITY||Difference in Least Squares Means|1.0||||0.8536|TWO_SIDED|80.0|-5.93|7.93||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||7.93|-5.93|0.8536
92427403|NCT02484690|184742713|SUPERIORITY||Difference in Least Squares Means|8.14||||0.2303|TWO_SIDED|80.0|-0.56|16.83||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||16.83|-0.56|0.2303
92170730|NCT02879448|184230186|NON_INFERIORITY|The non-inferiority margin for this endpoint was developed based on the reported closure rate for the Watchman device. The rate of device closure for the Watchman device has been reported in the literature as 95% (i.e., 5% had a residual jet \> 5mm). A non-inferiority margin of -3%, which represents a relative risk of 1.60, allows for trial to trial variability and implanter learning associated with implantation of a new device (Amulet).|||||<|0.0001|||||||Farrington Manning test|||"The following hypothesis was tested:~H0: p3(Amulet) - p3(Watchman) ≤ -Δ3~H1: p3(Amulet) - p3(Watchman) \> -Δ3;~where Δ3 is the absolute value of the non-inferiority margin and p3 is the 45-day closure probability."||||<0.0001
92427404|NCT02484690|184742713|SUPERIORITY||Difference in Least Squares Means|1.08||||0.8406|TWO_SIDED|80.0|-5.79|7.95||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||7.95|-5.79|0.8406
92427405|NCT02484690|184742714|SUPERIORITY||Difference in Percentage of Participants|-0.77||||1|TWO_SIDED|80.0|-11.23|9.68||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Fisher Exact||The difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm E was different from Arm A.||9.68|-11.23|1.0000
92427406|NCT02484690|184742715|SUPERIORITY||Difference in Least Squares Means|12.65||||0.3798|TWO_SIDED|80.0|-5.81|31.11||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: FCPT at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||31.11|-5.81|0.3798
92427407|NCT02484690|184742715|SUPERIORITY||Difference in Least Squares Means|0.88||||0.9529|TWO_SIDED|80.0|-18.3|20.03||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: FCPT at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||20.03|-18.3|0.9529
92427408|NCT02484690|184742715|SUPERIORITY||Difference in Least Squares Means|32.81||||0.0208|TWO_SIDED|80.0|14.65|50.96||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: FCPT at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||50.96|14.65|0.0208
92427409|NCT02484690|184742716|SUPERIORITY||Difference in Least Squares Means|-6.35||||0.5185|TWO_SIDED|80.0|-19.0|6.27||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: FCPT at BL; Unstructured cov|The mean difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm E was different from Arm A.||6.27|-19.0|0.5185
92427410|NCT02484690|184742717|SUPERIORITY||Difference in Least Squares Means|19.45||||0.1624|TWO_SIDED|80.0|1.61|37.29||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CST at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||37.29|1.61|0.1624
92427411|NCT02484690|184742717|SUPERIORITY||Difference in Least Squares Means|2.79||||0.8475|TWO_SIDED|80.0|-15.8|21.37||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CST at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||21.37|-15.8|0.8475
92427412|NCT02484690|184742717|SUPERIORITY||Difference in Least Squares Means|28.52||||0.0381|TWO_SIDED|80.0|10.93|46.11||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CST at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||46.11|10.93|0.0381
92170731|NCT02879448|184230187|NON_INFERIORITY|"The following hypothesis was tested:~H1: p4(Amulet) - p4(Watchman) \< 4.5%"|||||<|0.0001|||||||Kaplan-Meier estimate|||||||<0.0001
92170732|NCT02879448|184230188|SUPERIORITY|"The following hypothesis was tested:~H1: p5(Amulet) - p5(Watchman) \< 0"||||||0.3229|||||||Kaplan-Meier estimate|||||||0.3229
92170733|NCT02879448|184230189|SUPERIORITY|"The following hypothesis was tested:~H1: p1(Amulet) - p1(Watchman) \< 0"||||||0.466|||||||Kaplan-Meier estimate|||||||0.4660
92170734|NCT02879448|184230190|SUPERIORITY|"The following hypothesis was tested:~H1: p2(Amulet) - p2(Watchman) \< 0"||||||0.5017|||||||Kaplan-Meier estimate|||||||0.5017
92427413|NCT02484690|184742718|SUPERIORITY||Difference in Least Squares Means|-14.4||||0.2089|TWO_SIDED|80.0|-29.1|0.29||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CST at BL; Unstructured cov|The mean difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm E was different from Arm A.||0.29|-29.1|0.2089
92427414|NCT02484690|184742721|SUPERIORITY||Difference in Least Squares Means|-0.4||||0.6717|TWO_SIDED|80.0|-1.61|0.81||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||0.81|-1.61|0.6717
92427415|NCT02484690|184742721|SUPERIORITY||Difference in Least Squares Means|0.23||||0.8131|TWO_SIDED|80.0|-1.01|1.47||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||1.47|-1.01|0.8131
92427416|NCT02484690|184742721|SUPERIORITY||Difference in Least Squares Means|0.11||||0.9069|TWO_SIDED|80.0|-1.07|1.29||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between each of the treatment groups (Arms B, C, or D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arms B, C, or D means were different from Arm A mean.||1.29|-1.07|0.9069
92427417|NCT02484690|184742723|SUPERIORITY||Difference in Least Squares Means|-0.96||||0.3189|TWO_SIDED|80.0|-2.2|0.28||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||0.28|-2.20|0.3189
92427418|NCT02484690|184742723|SUPERIORITY||Difference in Least Squares Means|1.22||||0.2256|TWO_SIDED|80.0|-0.07|2.52||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||2.52|-0.07|0.2256
92427419|NCT02484690|184742723|SUPERIORITY||Difference in Least Squares Means|0.35||||0.7086|TWO_SIDED|80.0|-0.86|1.57||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||1.57|-0.86|0.7086
92170735|NCT02879448|184230191|SUPERIORITY|"The following hypothesis was tested:~H1: p3(Amulet) - p3(Watchman) \> 0"||||||0.0025|||||||Farrington Manning test|||||||0.0025
92170736|NCT05145257|184230201|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170737|NCT05145257|184230202|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170738|NCT05145257|184230203|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170739|NCT05145257|184230204|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170740|NCT05145257|184230205|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170741|NCT05145257|184230206|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170742|NCT05145257|184230207|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170743|NCT05145257|184230208|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170744|NCT05145257|184230209|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170745|NCT05145257|184230210|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170746|NCT05145257|184230211|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170747|NCT05145257|184230212|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170748|NCT05145257|184230213|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92236758|NCT01380093|184377493|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.6||||0.0006|TWO_SIDED|95.0|-83.2|-24.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-24.0|-83.2|0.0006
92170749|NCT05145257|184230214|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92236759|NCT01380093|184377493|SUPERIORITY_OR_OTHER||LS Mean Difference|23.2||||0.1207|TWO_SIDED|95.0|-6.3|52.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||52.7|-6.3|0.1207
92236760|NCT01380093|184377493|SUPERIORITY_OR_OTHER||LS Mean Difference|76.8|||<|0.0001|TWO_SIDED|95.0|47.3|106.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||106.4|47.3|<0.0001
92170750|NCT05145257|184230215|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170751|NCT05145257|184230216|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
92170752|NCT04995484|184230217|OTHER||Geometric Mean Ratio|1.52|||||TWO_SIDED|90.0|0.95|2.43|||||Moderate Hepatic Impairment/Healthy|||2.43|0.95|
92170753|NCT04995484|184230218|OTHER||Geometric Mean Ratio|1.09|||||TWO_SIDED|90.0|0.84|1.42|||||Moderate Hepatic Impairment/Healthy|||1.42|0.84|
92170754|NCT04995484|184230219|OTHER||Geometric Mean Ratio|0.98|||||TWO_SIDED|90.0|0.76|1.26|||||Moderate Hepatic Impairment/Healthy|||1.26|0.76|
92236761|NCT01380093|184377494|SUPERIORITY_OR_OTHER||LS Mean Difference|-75.8||||0.0008|TWO_SIDED|95.0|-118.6|-33.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-33.0|-118.6|0.0008
92170755|NCT04424927|184230287|OTHER||Least square (LS) mean difference|0.04||||0.8543|TWO_SIDED|95.0|-0.43|0.52|||MMRM|||Estimates/p-value are from a mixed model for repeated measures (MMRM) with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.52|-0.43|0.8543
92170756|NCT04424927|184230287|OTHER||LS mean difference|0.11||||0.6552|TWO_SIDED|95.0|-0.37|0.59|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.59|-0.37|0.6552
92427420|NCT02484690|184742725|SUPERIORITY||Difference in Least Squares Means|-0.78||||0.4353|TWO_SIDED|80.0|-2.07|0.51||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: leak at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||0.51|-2.07|0.4353
92427421|NCT02484690|184742725|SUPERIORITY||Difference in Least Squares Means|1.45||||0.1652|TWO_SIDED|80.0|0.11|2.78||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: leak at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||2.78|0.11|0.1652
92427422|NCT02484690|184742725|SUPERIORITY||Difference in Least Squares Means|0.5||||0.61111|TWO_SIDED|80.0|-0.76|1.75||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: leak at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||1.75|-0.76|0.61111
92427423|NCT02569671|184742771|NON_INFERIORITY|"is less than the non-inferiority margin (indicating non-inferior bone gain).~The hypotheses associated with the primary analysis are defined as:~H0: µc - µs ≥ δ H1: µc - µs \< δ where µc is the mean change in crestal bone levels from implant loading to 12 months post-implant loading for the treatment group, µs is the mean change for the control group, and δ is the 0.5 mm non-inferiority margin. The hypotheses will be tested using a one-sided t-test with a 5% significance level."|Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|0.5||0.95|ONE_SIDED|95.0||||SD for both test and control group is 0.5 mm, A difference between groups of ≥ 0.5 mm is considered clinically significant, The difference between the treatment groups is expected to be 0 mm, Statistical test will be one-sided 5% significance level.|t-test, 1 sided|The hypotheses will be tested using a one-sided t-test with a 5% significance level.|The hypotheses will be tested using a one-sided t-test with a 5% significance level.|The null hypothesis for the primary analysis is that the difference between the mean change in crestal bone levels for the treatment and control groups is at least the non-inferiority margin (indicating inferior bone gain). Rejection of the null hypothesis indicates the observed data supports the alternative hypothesis that the difference between the mean change in crestal bone levels for the treatment and control groups|The change in mean bone level from implant loading to 12-month follow-up was calculated. Change in crestal bone levels was calculated as the crestal bone level at 12-months post implant loading minus crestal bone level at implant loading.|||.950
92427424|NCT02569671|184742773|NON_INFERIORITY|Smaller bone dimensional thickness of the buccal plate measurements indicates less bone loss and better healing.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|0.3||0.022|ONE_SIDED|95.0|||||t-test, 1 sided|The hypotheses will be tested using a one-sided t-test with a 5% significance level.||All secondary effectiveness endpoints were planned to be summarized descriptively, and no hypothesis tests was planned.||||0.022
92427425|NCT01757535|184742780|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0009|TWO_SIDED|95.0|0.55|0.86||The p-value is 2-sided from a log-rank test stratified by age, cytogenetic risk category, and received consolidation therapy or not.|Log Rank||The hazard ratio is from a Cox proportional hazards model stratified by age, cytogenetic risk category, and received consolidation therapy or not.||The confidence interval (CI) for the difference was derived using Kosorok's method.|0.86|0.55|0.0009
92427426|NCT01757535|184742781|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.52|0.8||The p-value is 2-sided from a log-rank test stratified by age, cytogenetic risk category, and received consolidation therapy or not.|Log Rank||The hazard ratio is from a Cox proportional hazards model stratified by age, cytogenetic risk category, and received consolidation therapy or not.|||0.80|0.52|< 0.0001
92427427|NCT01757535|184742787|SUPERIORITY||Hazard Ratio (HR)|0.9345||||0.7522|TWO_SIDED|95.0|0.6136|1.4231||Stratification factors: • Age (at induction therapy): 55 to 64 years and ≥ 65 years • Prior history of MDS: yes/no • Cytogenetic risk (at induction therapy): intermediate-risk/poor-risk • Received consolidation therapy following induction: yes/no|Regression, Cox|||||1.4231|0.6136|0.7522
92427428|NCT04508335|184742793|EQUIVALENCE|We use 2, one-sided t-tests, each with alpha set at 0.05 to test the composite null hypothesis that the mean difference score (μReia-μCurrent) between the Reia pessary and baseline (current pessary) on the PFDI-20, is greater than 18.3 (H01), the upper equivalence limit, or lower than -18.3 (H02), the lower equivalence limit.||||||0.0021|||||||t-test, 2 sided|||H01: μReia-μCurrent \> 18.3 and H02: μReia-μCurrent \< -18.3. The alternative hypothesis is thus: HA: -18.3 ≤ μReia-μCurrent ≤ 18.3.||||.0021
92427429|NCT04508335|184742795|OTHER|Mean difference of PFIQ scores. A negative difference (Reia pessary - current pessary) indicates that the PFIQ-7 score improved with the Reia pessary.|Mean Difference (Final Values)|-11.9||||0.0192|TWO_SIDED|||||p value adjusted for multiple variables|Wilcoxon (Mann-Whitney)|||PFIQ scores at baseline with subjects using current pessary then after treatment with Reia pessary||||0.0192
92427430|NCT02555683|184742884|SUPERIORITY||rate ratio|1.04||||0.8|TWO_SIDED|95.0|0.77|1.41||adjusted p-value|negative binomial regression model|Adjusted p-values obtained from the closed testing procedure||||1.41|0.77|0.800
92427431|NCT02555683|184742884|SUPERIORITY||Rate Ratio|0.83||||0.51|TWO_SIDED|95.0|0.61|1.14||adjusted p-value|negative binomial regression model|Adjusted p-values are based on the closed testing procedure||||1.14|0.61|0.510
92170757|NCT04424927|184230287|OTHER||LS mean difference|0.04||||0.8705|TWO_SIDED|95.0|-0.45|0.53|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.53|-0.45|0.8705
92236762|NCT01380093|184377494|SUPERIORITY_OR_OTHER||LS Mean Difference|31.8||||0.141|TWO_SIDED|95.0|-10.8|74.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||74.5|-10.8|0.1410
92236763|NCT01380093|184377494|SUPERIORITY_OR_OTHER||LS Mean Difference|107.7|||<|0.0001|TWO_SIDED|95.0|64.9|150.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||150.5|64.9|<0.0001
92279564|NCT02655237|184462509|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|2.3|||||TWO_SIDED|95.0|-1.66|6.34|||||Relugolix 40 mg-Leuprorelin|Week 4||6.34|-1.66|
92427432|NCT02555683|184742885|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.095||0.819|TWO_SIDED|95.0|-0.11|0.26||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.26|-0.11|0.819
92427433|NCT02555683|184742885|SUPERIORITY||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.095||0.591|TWO_SIDED|95.0|-0.05|0.32||adjusted p-vale|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.32|-0.05|0.591
92427434|NCT02555683|184742886|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.098||0.819|TWO_SIDED|95.0|-0.31|0.07||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.07|-0.31|0.819
92427435|NCT02555683|184742886|SUPERIORITY||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.098||0.591|TWO_SIDED|95.0|-0.37|0.02||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.02|-0.37|0.591
92427436|NCT02555683|184742887|SUPERIORITY||Mean Difference (Net)|0.067|STANDARD_ERROR_OF_MEAN|0.0365||0.8|TWO_SIDED|95.0|-0.005|0.139||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.139|-0.005|0.800
92427437|NCT02555683|184742887|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.0363||0.523|TWO_SIDED|95.0|-0.021|0.121||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.121|-0.021|0.523
92427438|NCT02555683|184742888|SUPERIORITY||rate ratio|0.96||||0.819|TWO_SIDED|95.0|0.75|1.22||adjusted p-value|negative binomial regression model|Adjusted p-values obtained from the closed testing procedure||||1.22|0.75|0.819
92427439|NCT02555683|184742888|SUPERIORITY||Rate Ratio|0.78||||0.51|TWO_SIDED|95.0|0.61|1.01||adjusted p-value|negative binomial regression model|Adjusted p-values are based on the closed testing procedure||||1.01|0.61|0.510
92427440|NCT02555683|184742889|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.076||0.819|TWO_SIDED|95.0|-0.07|0.23||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.23|-0.07|0.819
92427441|NCT02555683|184742889|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.076||0.591|TWO_SIDED|95.0|-0.03|0.27||adjusted p-vale|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.27|-0.03|0.591
92427442|NCT02555683|184742890|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.079||0.819|TWO_SIDED|95.0|-0.27|0.04||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.04|-0.27|0.819
92427443|NCT02555683|184742890|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.079||0.591|TWO_SIDED|95.0|-0.35|-0.04||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||-0.04|-0.35|0.591
92279565|NCT02655237|184462509|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|2.7|||||TWO_SIDED|95.0|-0.37|5.77|||||Relugolix 40 mg-Leuprorelin|Week 8||5.77|-0.37|
92427444|NCT02555683|184742891|SUPERIORITY||Mean Difference (Net)|0.076|STANDARD_ERROR_OF_MEAN|0.0292||0.819|TWO_SIDED|95.0|0.019|0.134||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.134|0.019|0.819
92427445|NCT02555683|184742891|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.0292||0.591|TWO_SIDED|95.0|-0.017|0.097||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.097|-0.017|0.591
92427446|NCT04622306|184742900|NON_INFERIORITY|The non-inferiority margin for the difference in total clinical failure rates (clinical breakage plus clinical slippage) between the test and control condom is specified in ISO 23409:2011 as 2.5%.|Upper 97.5% CL for difference|2.5||||0.025|ONE_SIDED|97.5||2.5||The p-value was adjusted to 0.025 since two comparisons are being made on the data set.|GEE|||Null Hypothesis: Expected test condom total clinical failure rate - expected control natural rubber latex male condom total clinical failure rate ≥ δ, where δ = 2.5%; Power calculations were conducted according to ISO 29943-1:2017. Target sample sizes were chosen to provide a power of at least 90%.||2.5||0.025
92427447|NCT04622306|184742900|NON_INFERIORITY|The non-inferiority margin for the difference in total failure rates (clinical breakage plus clinical slippage) between the test and control condom is specified on ISO 23409:2011 as 2.5%|Upper 97.5% CLof difference|2.5||||0.025|ONE_SIDED|97.5||2.5||The p-value was adjusted to 0.025 since two comparisons are being made on the data set.|GEE|||Null Hypothesis: Test condom total clinical failure rate - control natural rubber latex male condom total clinical failure rate ≥ δ, where δ = 2.5%; Power calculations were conducted according to ISO 29943-1:2017. Target sample sizes were chosen to provide a power of at least 90%.||2.5||0.025
92427448|NCT04622306|184742900|NON_INFERIORITY|The non-inferiority margin for the difference in total failure rates (clinical breakage plus clinical slippage) between the test and control condom is specified on ISO 23409:2011 as 2.5%|Upper 97.5% CL for difference|2.37||||0.025|ONE_SIDED|97.5||2.5||The p-value was adjusted to 0.025 since two comparisons are being made on the data set|GEE|||The non-inferiority analysis was repeated after removing couples where the male partner had a penis length greater than 170 mm. The polyurethane condom B has a specified nominal length of 170 mm and is not recommended for men with penises longer than the length of the condom.||2.5||0.025
92427449|NCT04269707|184742902|NON_INFERIORITY|Change in hemoglobin from baseline to day 35 was assessed using paired t-tests (two-sided test, alpha = 0.05).|Mean Difference (Final Values)|0.7||||0.1711|TWO_SIDED|95.0|-0.4|1.8|||t-test, 2 sided|||||1.80|-0.40|0.1711
92427450|NCT03719612|184742930|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.38|STANDARD_DEVIATION|4.947||0.358|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.358
92427451|NCT03719612|184742930|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.12|STANDARD_DEVIATION|5.699||0.804|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.804
92279566|NCT02655237|184462509|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.9|||||TWO_SIDED|95.0|-1.84|3.61|||||Relugolix 40 mg-Leuprorelin|Week 12||3.61|-1.84|
92427452|NCT03719612|184742930|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.33|STANDARD_DEVIATION|4.412||0.371|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.371
92427453|NCT03719612|184742931|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-1.28|STANDARD_DEVIATION|3.952||0.03|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.030
92427454|NCT03719612|184742931|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.66|STANDARD_DEVIATION|4.466||0.312|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.312
92427455|NCT03719612|184742931|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.65|STANDARD_DEVIATION|4.725||0.347|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.347
92427456|NCT03719612|184742932|OTHER||Intra-class Correlation Coefficient|0.984|||||TWO_SIDED|95.0|0.977|0.988||||||Inter-Reader Variability Echo Enhanced||0.988|0.977|
92427457|NCT03719612|184742932|OTHER||Intra-class Correlation Coefficient|0.953|||||TWO_SIDED|95.0|0.936|0.966||||||Inter-Reader Variability Echo Unenhanced||0.966|0.936|
92427458|NCT03719612|184742932|OTHER||Intra-class Correlation Coefficient|0.97|||||TWO_SIDED|95.0|0.958|0.978||||||Inter-Reader Variability Echo Enhanced||0.978|0.958|
92427459|NCT03719612|184742932|OTHER||Intra-class Correlation Coefficient|0.944|||||TWO_SIDED|95.0|0.923|0.959||||||Inter-Reader Variability Echo Unenhanced||0.959|0.923|
92279567|NCT02655237|184462509|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.1|||||TWO_SIDED|95.0|-2.61|2.79|||||Relugolix 40 mg-Leuprorelin|Week 16||2.79|-2.61|
92279568|NCT02655237|184462509|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.8|||||TWO_SIDED|95.0|-1.74|3.41|||||Relugolix 40 mg-Leuprorelin|Week 20||3.41|-1.74|
92279569|NCT02655237|184462509|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.3|||||TWO_SIDED|95.0|-2.07|2.71|||||Relugolix 40 mg-Leuprorelin|Week 24||2.71|-2.07|
92427460|NCT03719612|184742932|OTHER||Intra-class Correlation Coefficient|0.961|||||TWO_SIDED|95.0|0.947|0.972||||||Inter-Reader Variability Echo Enhanced||0.972|0.947|
92427461|NCT03719612|184742932|OTHER||Intra-class Correlation Coefficient|0.942|||||TWO_SIDED|95.0|0.92|0.958||||||Inter-Reader Variability Echo Unenhanced||0.958|0.920|
92427462|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.984|||||TWO_SIDED|95.0|0.978|0.988||||||Inter-Reader Variability End Diastolic Echo Enhanced||0.988|0.978|
92427463|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.976|||||TWO_SIDED|95.0|0.967|0.983||||||Inter-Reader Variability End Diastolic Echo Unenhanced||0.983|0.967|
92427464|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.973|||||TWO_SIDED|95.0|0.963|0.981||||||Inter-Reader Variability End Diastolic Echo Enhanced||0.981|0.963|
92427465|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.935|||||TWO_SIDED|95.0|0.91|0.952||||||Inter-Reader Variability End Diastolic Echo Unenhanced||0.952|0.910|
92427466|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.973|||||TWO_SIDED|95.0|0.962|0.98||||||Inter-Reader Variability End Diastolic Echo Enhanced||0.980|0.962|
92427467|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.924|||||TWO_SIDED|95.0|0.896|0.945||||||Inter-Reader Variability End Diastolic Echo Unenhanced||0.945|0.896|
92427468|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.989|||||TWO_SIDED|95.0|0.984|0.992||||||Inter-Reader Variability End Systolic Echo Enhanced||0.992|0.984|
92427469|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.983|||||TWO_SIDED|95.0|0.977|0.988||||||Inter-Reader Variability End Systolic Echo Unenhanced||0.988|0.977|
92427470|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.984|||||TWO_SIDED|95.0|0.978|0.989||||||Inter-Reader Variability End Systolic Echo Enhanced||0.989|0.978|
92427471|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.948|||||TWO_SIDED|95.0|0.928|0.962||||||Inter-Reader Variability End Systolic Echo Unenhanced||0.962|0.928|
92427472|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.978|||||TWO_SIDED|95.0|0.969|0.984||||||Inter-Reader Variability End Systolic Echo Enhanced||0.984|0.969|
92427473|NCT03719612|184742933|OTHER||Intra-class Correlation Coefficient|0.942|||||TWO_SIDED|95.0|0.92|0.958||||||Inter-Reader Variability End Systolic Echo Unenhanced||0.958|0.920|
92427474|NCT03719612|184742934|OTHER||Intra-class Correlation Coefficient|0.975|||||TWO_SIDED|95.0|0.956|0.986||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.986|0.956|
92427475|NCT03719612|184742934|OTHER||Intra-class Correlation Coefficient|0.936|||||TWO_SIDED|95.0|0.888|0.963||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.963|0.888|
92427476|NCT03719612|184742934|OTHER||Intra-class Correlation Coefficient|0.961|||||TWO_SIDED|95.0|0.931|0.978||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.978|0.931|
92427477|NCT03719612|184742934|OTHER||Intra-class Correlation Coefficient|0.921|||||TWO_SIDED|95.0|0.864|0.955||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.955|0.864|
92427478|NCT03719612|184742934|OTHER||Intra-class Correlation Coefficient|0.947|||||TWO_SIDED|95.0|0.907|0.97||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.970|0.907|
92427479|NCT03719612|184742934|OTHER||Intra-class Correlation Coefficient|0.903|||||TWO_SIDED|95.0|0.834|0.945||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.945|0.834|
92427480|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.984|||||TWO_SIDED|95.0|0.971|0.991||||||Inter-Reader Variability End Diastolic Echo Enhanced Sub-Optimal Echocardiograms||0.991|0.971|
92427481|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.975|||||TWO_SIDED|95.0|0.956|0.986||||||Inter-Reader Variability End Diastolic Echo Unenhanced Sub-Optimal Echocardiograms||0.986|0.956|
92427482|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.977|||||TWO_SIDED|95.0|0.959|0.987||||||Inter-Reader Variability End Diastolic Echo Enhanced Sub-Optimal Echocardiograms||0.987|0.959|
92427483|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.94|||||TWO_SIDED|95.0|0.896|0.966||||||Inter-Reader Variability End Diastolic Echo Unenhanced Sub-Optimal Echocardiograms||0.966|0.896|
92427484|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.977|||||TWO_SIDED|95.0|0.959|0.987||||||Inter-Reader Variability End Diastolic Echo Enhanced Sub-Optimal Echocardiograms||0.987|0.959|
92427485|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.923|||||TWO_SIDED|95.0|0.866|0.956||||||Inter-Reader Variability End Diastolic Echo Unenhanced Sub-Optimal Echocardiograms||0.956|0.866|
92427486|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.99|||||TWO_SIDED|95.0|0.982|0.994||||||Inter-Reader Variability End Systolic Echo Enhanced Sub-Optimal Echocardiograms||0.994|0.982|
92427487|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.976|||||TWO_SIDED|95.0|0.957|0.986||||||Inter-Reader Variability End Systolic Echo Unenhanced Sub-Optimal Echocardiograms||0.986|0.957|
92427488|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.985|||||TWO_SIDED|95.0|0.973|0.991||||||Inter-Reader Variability End Systolic Echo Enhanced Sub-Optimal Echocardiograms||0.991|0.973|
92427489|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.929|||||TWO_SIDED|95.0|0.876|0.959||||||Inter-Reader Variability End Systolic Echo Unenhanced Sub-Optimal Echocardiograms||0.959|0.876|
92427490|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.981|||||TWO_SIDED|95.0|0.966|0.989||||||Inter-Reader Variability End Systolic Echo Enhanced Sub-Optimal Echocardiograms||0.989|0.966|
92427491|NCT03719612|184742935|OTHER||Intra-class Correlation Coefficient|0.916|||||TWO_SIDED|95.0|0.855|0.952||||||Inter-Reader Variability End Systolic Echo Unenhanced Sub-Optimal Echocardiograms||0.952|0.855|
92170758|NCT04424927|184230288|OTHER||LS mean difference|0.11||||0.6757|TWO_SIDED|95.0|-0.42|0.65|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.65|-0.42|0.6757
92427492|NCT00696800|184742937|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Treatment groups were formally compared with a generalized linear model for the ongoing pregnancy rate which included factors for treatment group, age at randomization, and region. A pre-defined non-inferiority margin of 8% was applied.|Risk Difference (RD)|1.1|||||TWO_SIDED|95.0|-3.8|5.9||||||||5.9|-3.8|
92427493|NCT00696800|184742938|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence margins of -3 and +5 were applied for the difference in number of oocytes. If the 95% confidence interval of the difference exceeded -3 or +5 oocytes, then Corifollitropin Alfa treatment was not considered equivalent to the reference treatment (recFSH).|Mean Difference (Final Values)|1.2||||0.001|TWO_SIDED|95.0|0.5|1.9||Treatment groups were formally compared including covariates treatment group, age and center.|ANOVA|||||1.9|0.5|0.001
92427494|NCT00762385|184742966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03164|STANDARD_ERROR_OF_MEAN|0.1247||||98.3|-0.2346|0.03164|||Mixed Models Analysis||Mean difference is galyfilcon A minus comfilcon A.|Results is overall lens effect with time as a covariate.||0.03164|-0.2346|
92236764|NCT01380093|184377495|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.0|||<|0.0001|TWO_SIDED|95.0|-14.4|-5.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-5.6|-14.4|<0.0001
92236765|NCT01380093|184377495|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3||||0.0529|TWO_SIDED|95.0|-0.1|8.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||8.7|-0.1|0.0529
92279570|NCT02655237|184462509|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-1.4|||||TWO_SIDED|95.0|-3.96|1.09|||||Relugolix 40 mg-Leuprorelin|Follow-Up (up to Week 28)||1.09|-3.96|
92427495|NCT00762385|184742967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.00556|STANDARD_ERROR_OF_MEAN|0.02287||||98.3|-0.04297|0.00556|||Mixed Models Analysis||Mean difference is galyfilcon A minus comfilcon A.|Results is overall lens effect with time as a covariate.||0.005560|-0.04297|
92427496|NCT00762385|184742968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2726|STANDARD_ERROR_OF_MEAN|0.1064||||98.3|0.04553|0.2726|||Mixed Models Analysis||Mean difference is galyfilcon A minus comfilcon A.|Results is overall lens effect with time as a covariate.||0.2726|0.04553|
92427497|NCT04424888|184742970|SUPERIORITY|||||||0.21875|||||||Wilcoxon (Mann-Whitney)|||||||0.21875
92427498|NCT04424888|184742971|SUPERIORITY|||||||0.90625|||||||Wilcoxon (Mann-Whitney)|||||||0.90625
92427499|NCT04424888|184742972|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||Paired t-test for the species Akkermansia Munciphilae.||||0.020
92427500|NCT04424888|184742972|SUPERIORITY|||||||0.078|||||||t-test, 1 sided|||Paired t-test for the species Bifidobacterium infantis.||||0.078
92427501|NCT04424888|184742972|SUPERIORITY|||||||||||||||||Paired t-test for the species Clostridium beijerinckii.|No statistical test was conducted since Clostridium beijerinckii was not detected in any sample.|||
92427502|NCT04424888|184742972|SUPERIORITY|||||||0.2|||||||t-test, 1 sided|||Paired t-test for the species Clostridium butyricum.||||0.20
92427503|NCT04424888|184742972|SUPERIORITY|||||||0.12|||||||t-test, 1 sided|||Paired t-test for the species Anaerobutyricum hallii.||||0.12
92427504|NCT04424888|184742973|OTHER||||||||||||||||||All participants had the same number of sensors (3) throughout the study, so no statistical analysis is conducted.|||
92427505|NCT04424888|184742974|SUPERIORITY|||||||0.41|||||||t-test, 1 sided|||We test whether the average number of daily photos is greater in period 1 than in period 2.||||0.41
92427506|NCT04424888|184742975|SUPERIORITY|||||||0.13|||||||t-test, 1 sided|||We test whether the average time between consecutive scans is smaller in period 1 than in period 2.||||0.13
92427507|NCT03779711|184743018|SUPERIORITY|||||||0.8095|||||||ANCOVA|adjusted for baseline FAC||Analysis of covariance (ANCOVA), adjusted for baseline FAC, is used to assess change in FAC from baseline to 3-months post-surgery.||||0.8095
92427508|NCT03779711|184743019|SUPERIORITY|||||||0.3029|||||||ANCOVA|Adjusted for baseline circumferential strain||Analysis of covariance (ANCOVA), adjusted for baseline circumferential strain, is used to assess change in circumferential strain from baseline to 3-months post-surgery.||||0.3029
92427509|NCT03779711|184743020|SUPERIORITY|||||||0.0323|||||||ANCOVA|Adjusted for baseline longitudinal strain||Analysis of covariance (ANCOVA), adjusted for baseline longitudinal strain, is used to assess change in longitudinal strain from baseline to 3-months post-surgery.||||0.0323
92427510|NCT03779711|184743021|SUPERIORITY|||||||0.6765|||||||ANCOVA|Adjusted for baseline FAC.||Analysis of covariance (ANCOVA), adjusted for baseline FAC, is used to assess change in FAC from baseline to 12-months post-surgery.||||0.6765
92236766|NCT01380093|184377495|SUPERIORITY_OR_OTHER||LS Mean Difference|14.3|||<|0.0001|TWO_SIDED|95.0|9.9|18.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||18.7|9.9|<0.0001
92236767|NCT01380093|184377496|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8||||0.0806|TWO_SIDED|95.0|-3.8|0.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.2|-3.8|0.0806
92427511|NCT03779711|184743022|SUPERIORITY|||||||0.3456|||||||ANCOVA|Adjusted for baseline FAC||Analysis of covariance (ANCOVA), adjusted for baseline FAC, is used to assess change in FAC from baseline to discharge.||||0.3456
92427512|NCT03779711|184743023|SUPERIORITY|||||||0.776|||||||Kruskal-Wallis|||Kruskal-Wallis test comparing number of days in hospital post stage-II surgery.||||0.7760
92427513|NCT03779711|184743024|SUPERIORITY|||||||0.9563|||||||Kruskal-Wallis|||Kruskal-Wallis test for change in weight from baseline to 3-months post-surgery.||||0.9563
92427514|NCT03779711|184743025|SUPERIORITY|||||||0.9095|||||||Kruskal-Wallis|||Kruskal-Wallis test for change in heart rate from baseline to 3-months post-surgery.||||0.9095
92427515|NCT03779711|184743026|SUPERIORITY|||||||0.6391|||||||Kruskal-Wallis|||Kruskal-Wallis test for change in oxygen saturation from baseline to 3-months post-surgery.||||0.6391
92427516|NCT03779711|184743033|SUPERIORITY|||||||0.8782|||||||Kruskal-Wallis|||Kruskal-Wallis test comparing number of days in hospital post stage-II surgery||||0.8782
92427517|NCT03881670|184743046|OTHER|Friedman test||||||0.0023|||||||Friedman Test|||Change in ratings over time||||0.0023
92427518|NCT03881670|184743046|OTHER|Friedman test||||||0.4679|||||||Friedman Test|||change in ratings over time||||0.4679
92427519|NCT00914485|184743048|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 1 sided|||Increase in mean, post-intervention versus baseline, across 18 providers and 369 patients.||||.03
92236768|NCT01380093|184377496|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.2769|TWO_SIDED|95.0|-0.9|3.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||3.1|-0.9|0.2769
92236769|NCT01380093|184377496|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9||||0.0056|TWO_SIDED|95.0|0.9|5.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.0|0.9|0.0056
92236770|NCT01380093|184377497|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.11|TWO_SIDED|95.0|-1.7|0.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.2|-1.7|0.1100
92427520|NCT00494299|184743051|SUPERIORITY_OR_OTHER||Log Rank|0.2520462|||||||||||||The comparison between the 2 groups is done using the log rank test stratified by the response of TACE (Responder group A versus Responder group B), ECOG performance status (PS) (0 versus 1) and the number of prior TACE (1 versus 2).|||||
92236771|NCT01380093|184377497|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.9421|TWO_SIDED|95.0|-1.0|0.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.9|-1.0|0.9421
92427521|NCT00494299|184743051|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8735||||||95.0|0.6972|1.0942|||||Hazard Ratio: Sorafenib/Placebo.|||1.0942|0.6972|
92427522|NCT03113916|184743108|SUPERIORITY||Slope|2.63|||=|0.001|TWO_SIDED|95.0|1.05|4.2|||Mixed Models Analysis|||||4.20|1.05|=.001
92427523|NCT03113916|184743109|SUPERIORITY||Slope|-0.49||||0.23|TWO_SIDED|95.0|-1.29|0.31|||Mixed Models Analysis|||||0.31|-1.29|.23
92427524|NCT03113916|184743110|SUPERIORITY||Slope|0.000000676||||0.06|TWO_SIDED|95.0|-0.00000002|0.00000137|||Mixed Models Analysis|||||.00000137|-.00000002|.06
92427525|NCT03113916|184743111|SUPERIORITY||Slope|-5.64||||0.29|TWO_SIDED|95.0|-16.0|4.73|||Mixed Models Analysis||Values given need to be multiplied by 10 to the power of -10 (i.e., x 10\^-10).|||4.73|-16|.29
92427526|NCT03113916|184743112|SUPERIORITY||Slope|0.351||||0.27|TWO_SIDED|95.0|-0.277|0.978|||Mixed Models Analysis|||||.978|-.277|.27
92427527|NCT03113916|184743113|SUPERIORITY||Slope|-0.015||||0.1|TWO_SIDED|95.0|-0.032|0.003|||Mixed Models Analysis|||||.003|-.032|.10
92427528|NCT03113916|184743114|SUPERIORITY||Slope|-11.2||||0.07|TWO_SIDED|95.0|-23.0|0.7|||Mixed Models Analysis|||||0.7|-23.0|.07
92427529|NCT03113916|184743115|SUPERIORITY||Slope|-0.63||||0.12|TWO_SIDED|95.0|-1.41|0.16|||Mixed Models Analysis|||||0.16|-1.41|.12
92427530|NCT03113916|184743116|SUPERIORITY||Slope|0.174||||0.008|TWO_SIDED|95.0|0.05|0.302|||Mixed Models Analysis|||||.302|.050|.008
92427531|NCT03113916|184743117|SUPERIORITY||Slope|0.015||||0.5|TWO_SIDED|95.0|-0.029|0.059|||Mixed Models Analysis|||||.059|-.029|.50
92427532|NCT03113916|184743118|SUPERIORITY||Slope|-0.00003||||0.99|TWO_SIDED|95.0|-0.013|0.013|||Mixed Models Analysis|||||.013|-.013|.99
92427533|NCT01893203|184743132|SUPERIORITY_OR_OTHER|||||||0.375|||||||McNemar|||||||0.375
92427534|NCT01758523|184743136|OTHER|||||||0.002|||||||Mixed Models Analysis|||||||0.002
92427535|NCT01758523|184743137|OTHER|||||||0.028|||||||Mixed Models Analysis|||||||0.028
92427536|NCT01758523|184743138|OTHER||Odds Ratio (OR)|2.49||||0.057|TWO_SIDED|95.0|0.96|6.45|||Chi-squared|||||6.45|0.96|0.057
92427537|NCT01758523|184743139|OTHER||Odds Ratio (OR)|5.5||||0.007|TWO_SIDED|95.0|1.5|20.7|||Fisher Exact|||||20.7|1.5|0.007
92427538|NCT01758523|184743140|OTHER|||||||0.87||||||significance for drug x AKR1C3\*2 G-carrier genotype|Mixed Models Analysis|||||||0.87
92427539|NCT01758523|184743141|OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.030
92427540|NCT00945893|184743192|NON_INFERIORITY_OR_EQUIVALENCE|The currently proposed study provided at least 99.9% power to rule out a rate increase of 10 percentage points assuming the true difference between the treatment groups is zero and the true fever rate is ≤ 3%. Power is also high if the true difference is slightly greater than zero and the true fever rate is ≤ 3%.|Rate difference|0.0|||||TWO_SIDED|95.0|-6.0|1.9|||Score|||The upper limit of the two-sided 95% CI was evaluated against the prespecified equivalence criterion of 10% which corresponded to the following hypotheses: H0 (null): Rate Difference ≥ 10%, HA (alternative): Rate Difference \< 10%||1.9|-6.0|
92427541|NCT00945893|184743193|SUPERIORITY_OR_OTHER||rate difference|2.5|||||TWO_SIDED|95.0|-8.8|7.7|||score|||The number of participants who experienced a post-dose seroresponse was compared based on the upper limit of the limit of the two-sided 95% exact CI for the rate difference (Vaccine minus Placebo).||7.7|-8.8|
92427542|NCT00945893|184743194|SUPERIORITY_OR_OTHER||rate difference|6.1|||||TWO_SIDED|95.0|-5.6|12.6|||score|||The number of participants who experienced a post-dose seroresponse was compared based on the upper limit of the two-sided 95% exact CIs for the rate difference (Vaccine minus Placebo).||12.6|-5.6|
92427543|NCT00945893|184743195|SUPERIORITY_OR_OTHER||rate difference|9.3|||||TWO_SIDED|95.0|-0.8|16.3|||score|||The number of participants who experienced a post-dose seroresponse was compared based on the upper limit of the limit of the two-sided 95% exact CI for the rate difference (Vaccine minus Placebo).||16.3|-0.8|
92427544|NCT00945893|184743196|NON_INFERIORITY_OR_EQUIVALENCE|Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% CIs (Chan and Zhang, 1999) on the rate difference (monovalent vaccine minus placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.|Rate difference|10.0|||||TWO_SIDED|95.0|-4.1|22.8|||Score|||||22.8|-4.1|
92427545|NCT00945893|184743199|NON_INFERIORITY_OR_EQUIVALENCE|Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% CIs (Chan and Zhang, 1999) on the rate difference (monovalent vaccine minus placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.|Rate difference|0.4|||||TWO_SIDED|95.0|-13.9|14.5|||Score|||||14.5|-13.9|
92427546|NCT00945893|184743202|NON_INFERIORITY_OR_EQUIVALENCE|Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% CIs (Chan and Zhang, 1999) on the rate difference (monovalent vaccine minus placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.|Rate difference|-0.5|||||TWO_SIDED|95.0|-14.7|11.8|||Score|||||11.8|-14.7|
92427547|NCT00945893|184743205|NON_INFERIORITY_OR_EQUIVALENCE|Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% CIs (Chan and Zhang, 1999) on the rate difference (monovalent vaccine minus placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.|Rate difference|2.0|||||TWO_SIDED|95.0|-12.6|14.9|||Score|||||14.9|-12.6|
92427548|NCT00945893|184743214|SUPERIORITY_OR_OTHER||rate difference|5.8|||||TWO_SIDED|95.0|-7.7|13.8|||score|||The number of participants who achieved a post Dose 1 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact CI for the rate difference (Vaccine minus Placebo).||13.8|-7.7|
92427549|NCT00945893|184743215|SUPERIORITY_OR_OTHER||rate difference|-6.0|||||TWO_SIDED|95.0|-23.5|5.3|||score|||The number of participants who achieved a post Dose 1 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact CI for the rate difference (Vaccine minus Placebo).||5.3|-23.5|
92170759|NCT04424927|184230288|OTHER||LS mean difference|-0.25||||0.3645|TWO_SIDED|95.0|-0.78|0.29|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.29|-0.78|0.3645
92427550|NCT00945893|184743216|SUPERIORITY_OR_OTHER||rate difference|2.4|||||TWO_SIDED|95.0|-9.3|10.8|||score|||The number of participants who achieved a post Dose 2 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact CI for the rate difference (Vaccine minus Placebo).||10.8|-9.3|
92427551|NCT01611155|184743220|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
92427552|NCT01611155|184743221|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||Motor subscale||||0.53
92427553|NCT01611155|184743221|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||autonomic subscale||||0.89
92170760|NCT04424927|184230288|OTHER||LS mean difference|-0.3||||0.2791|TWO_SIDED|95.0|-0.84|0.24|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.24|-0.84|0.2791
92427554|NCT01435603|184743222|SUPERIORITY||Slope|-1.273||||0.017|TWO_SIDED||||||Regression, Linear|||||||0.017
92427555|NCT01682954|184743259|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||||||<0.0001
92427556|NCT01682954|184743260|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||||||<0.0001
92427557|NCT01681472|184743261|SUPERIORITY|||||||0.0323|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0323
92427558|NCT01681472|184743261|SUPERIORITY|||||||0.1336|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1336
92427559|NCT01681472|184743261|SUPERIORITY|||||||0.8622|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.8622
92427560|NCT01681472|184743261|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
92427561|NCT01681472|184743261|SUPERIORITY|||||||0.0074|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0074
92427562|NCT01681472|184743261|SUPERIORITY|||||||0.1752|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1752
92427563|NCT01681472|184743262|SUPERIORITY|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1480
92427564|NCT01681472|184743262|SUPERIORITY|||||||0.0034|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0034
92427565|NCT01681472|184743262|SUPERIORITY|||||||0.0177|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0177
92427566|NCT01681472|184743262|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||<0.0001
92427567|NCT01681472|184743262|SUPERIORITY|||||||0.0019|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0019
92427568|NCT01681472|184743262|SUPERIORITY|||||||0.0118|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0118
92427569|NCT01681472|184743263|SUPERIORITY|||||||0.1182|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1182
92427570|NCT01681472|184743263|SUPERIORITY|||||||0.0538|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0538
92427571|NCT01681472|184743263|SUPERIORITY|||||||0.5244|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.5244
92170761|NCT04424927|184230289|OTHER||LS mean difference|0.05||||0.7829|TWO_SIDED|95.0|-0.32|0.42|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.42|-0.32|0.7829
92427572|NCT01681472|184743263|SUPERIORITY|||||||0.0081|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0081
92170762|NCT04424927|184230289|OTHER||LS mean difference|0.01||||0.9503|TWO_SIDED|95.0|-0.36|0.38|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.38|-0.36|0.9503
92170763|NCT04424927|184230289|OTHER||LS mean difference|-0.16||||0.4107|TWO_SIDED|95.0|-0.54|0.22|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.22|-0.54|0.4107
92170764|NCT04424927|184230290|OTHER||LS mean difference|1.94||||0.4397|TWO_SIDED|95.0|-3.0|6.87|||ANCOVA|||Estimates/p-value are from an analysis of covariance (ANCOVA) model with treatment as a fixed effect. Continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio are included as covariates.||6.87|-3.00|0.4397
92427573|NCT01681472|184743263|SUPERIORITY|||||||0.0313|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0313
92427574|NCT01681472|184743263|SUPERIORITY|||||||0.4777|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.4777
92427575|NCT01681472|184743264|SUPERIORITY|||||||0.2716|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.2716
92427576|NCT01681472|184743264|SUPERIORITY|||||||0.0124|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0124
92427577|NCT01681472|184743264|SUPERIORITY|||||||0.0728|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0728
92427578|NCT01681472|184743264|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||<0.0001
92170765|NCT04424927|184230290|OTHER||LS mean difference|-3.72||||0.1337|TWO_SIDED|95.0|-8.58|1.15|||ANCOVA|||Estimates/p-value are from an ANCOVA model with treatment as a fixed effect. Continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio are included as covariates.||1.15|-8.58|0.1337
92427579|NCT01681472|184743264|SUPERIORITY|||||||0.0039|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0039
92427580|NCT01681472|184743264|SUPERIORITY|||||||0.0454|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0454
92427581|NCT01681472|184743265|SUPERIORITY|||||||0.0092|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0092
92427582|NCT01681472|184743265|SUPERIORITY|||||||0.8303|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.8303
92427583|NCT01681472|184743265|SUPERIORITY|||||||0.1182|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1182
92427584|NCT01681472|184743265|SUPERIORITY|||||||0.0081|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0081
92427585|NCT01681472|184743265|SUPERIORITY|||||||0.3184|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.3184
92427586|NCT01681472|184743265|SUPERIORITY|||||||0.1752|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1752
92427587|NCT01681472|184743266|SUPERIORITY|||||||0.0728|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0728
92427588|NCT01681472|184743266|SUPERIORITY|||||||0.2246|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.2246
92427589|NCT01681472|184743266|SUPERIORITY|||||||0.0428|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0428
92427590|NCT01681472|184743266|SUPERIORITY|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0003
92427591|NCT01681472|184743266|SUPERIORITY|||||||0.4309|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.4309
92427592|NCT01681472|184743266|SUPERIORITY|||||||0.0055|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0055
92427593|NCT01681472|184743267|SUPERIORITY|||||||0.0728|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0728
92427594|NCT01681472|184743267|SUPERIORITY|||||||0.0034|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0034
92427595|NCT01681472|184743267|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427596|NCT01681472|184743267|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
92427597|NCT01681472|184743267|SUPERIORITY|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0009
92427598|NCT01681472|184743267|SUPERIORITY|||||||0.0055|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0055
92427599|NCT01681472|184743268|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0240
92427600|NCT01681472|184743268|SUPERIORITY|||||||0.0058|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0058
92427601|NCT01681472|184743268|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427602|NCT01681472|184743268|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||<0.0001
92427603|NCT01681472|184743268|SUPERIORITY|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0014
92427604|NCT01681472|184743268|SUPERIORITY|||||||0.0338|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0338
92427605|NCT01681472|184743269|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92170766|NCT04424927|184230290|OTHER||LS mean difference|-4.14||||0.1021|TWO_SIDED|95.0|-9.11|0.83|||ANCOVA|||Estimates/p-value are from an ANCOVA model with treatment as a fixed effect. Continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio are included as covariates.||0.83|-9.11|0.1021
92427606|NCT01681472|184743269|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427607|NCT01681472|184743269|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427608|NCT01681472|184743269|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427609|NCT01681472|184743269|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427610|NCT01681472|184743269|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427611|NCT01681472|184743270|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427612|NCT01681472|184743270|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92236772|NCT01380093|184377497|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.1266|TWO_SIDED|95.0|-0.2|1.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.7|-0.2|0.1266
92427613|NCT01681472|184743270|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427614|NCT01681472|184743270|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427615|NCT01681472|184743270|SUPERIORITY|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0009
92427616|NCT01681472|184743270|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427617|NCT01681472|184743271|SUPERIORITY|||||||0.0728|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0728
92427618|NCT01681472|184743271|SUPERIORITY|||||||0.2246|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.2246
92427619|NCT01681472|184743271|SUPERIORITY|||||||0.0166|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0166
92427620|NCT01681472|184743271|SUPERIORITY|||||||0.1752|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1752
92170767|NCT00595790|184230331|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of non-inferiority of IC51 1x12 mcg vs. IC51 2x6 mcg at Day 56 based on the difference (IC51 1x12 mcg - IC51 2x6 mcg) in SCRs in the PP population. Non-inferiority of IC51 1 x 12 mcg compared to IC51 2 x 6 mcg was accepted if the lower limit of the 95% CI of the adjusted for center SCR difference (IC51 1 x 12 mcg - IC51 2 x 6 mcg) was higher than the noninferiority margin at -10%.|||||>|0.99|||||||Mantel Haenszel|||||||>0.99
92279571|NCT06331156|184462530|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit (LL) of the 2-sided 95% confidence interval (CI) for the group difference (Co-administration group minus Staggered group) in seroconversion rate is greater than or equal to (\>=) -10% for the anti-poliovirus type 1 antibodies.|Difference in seroconversion rate|0.1|||||TWO_SIDED|95.0|-3.14|3.76|||||The asymptotic standardized 95% CI for the difference in seroconversion rate for IPV at month 3.5 between Co-administration group minus staggered group is computed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of IPV when co-administered with HRV PCV-free compared with IPV administered alone in terms of seroconversion rates 1-month post-Dose 3 of IPV (Month 3.5).||3.76|-3.14|
92279572|NCT06331156|184462530|NON_INFERIORITY|NI was to be demonstrated if the LL of the 2-sided 95% CI for the group difference (Co-administration group minus Staggered group) in seroconversion rate is \>= -10% for the anti-poliovirus type 2 antibodies.|Difference in seroconversion rate|-0.7|||||TWO_SIDED|95.0|-3.86|2.3|||||The asymptotic standardized 95% CI for the difference in seroconversion rate for IPV at month 3.5 between Co-administration group minus staggered group is computed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of IPV when co-administered with HRV PCV-free compared with IPV administered alone in terms of seroconversion rates 1-month post-Dose 3 of IPV (Month 3.5).||2.30|-3.86|
92279573|NCT06331156|184462530|NON_INFERIORITY|NI was to be demonstrated if the LL of the 2-sided 95% CI for the group difference (Co-administration group minus Staggered group) in seroconversion rate is \>= -10% for the anti-poliovirus type 3 antibodies.|Difference in seroconversion rate|0.0|||||TWO_SIDED|95.0|-2.63|2.99|||||The asymptotic standardized 95% CI for the difference in seroconversion rate for IPV at Month 3.5 between Co-administration group minus Staggered group is computed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of IPV when co-administered with HRV PCV-free compared with IPV administered alone in terms of seroconversion rates 1-month post-Dose 3 of IPV (Month 3.5).||2.99|-2.63|
92279574|NCT03748641|184462541|SUPERIORITY||Hazard Ratio (HR)|0.729||||0.0217|TWO_SIDED|95.0|0.556|0.956|||Log Rank|||||0.956|0.556|0.0217
92279575|NCT03748641|184462542|SUPERIORITY||Hazard Ratio (HR)|0.533||||0.0014|TWO_SIDED|95.0|0.361|0.789|||Log Rank|||||0.789|0.361|0.0014
92279576|NCT02970669|184462567|SUPERIORITY||Ratio of Geometric Means (SacVal/Ena)|0.9456||||0.0895|TWO_SIDED|95.0|0.8863|1.0088|||ANCOVA|model for a log-scaled response with treatment group as a class variable and the baseline value in logarithmic scale as a continuous covariate.||||1.0088|0.8863|0.0895
92279577|NCT02970669|184462568|SUPERIORITY||Mean Difference (Net)|293.6||||0.6316|TWO_SIDED|95.0|-916.5|1503.8|||ANCOVA|model with treatment group as a class variable and the baseline value as a continuous covariate.||||1503.8|-916.5|0.6316
92279578|NCT02970669|184462570|SUPERIORITY||Mean Difference (Net)|2.038||||0.057|TWO_SIDED|95.0|-0.062|4.138|||ANCOVA|model with treatment group as a class variable and the baseline value as a continuous covariate.||||4.138|-0.062|0.0570
92279579|NCT02970669|184462571|SUPERIORITY||Mean Difference (Net)|2.478||||0.0121|TWO_SIDED|95.0|0.553|4.403|||ANCOVA|model with treatment group as a class variable and the baseline value as a continuous covariate.||||4.403|0.553|0.0121
92279580|NCT00926289|184462589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5|||<|0.0001||95.0|-10.6|-6.4|||ANCOVA|Fixed effects of treatment, week, treatment-by-week interaction, country with the continuous covariates of baseline and baseline-by-week interaction||T80+HCTZ25 versus T80 monotherapy||-6.4|-10.6|<0.0001
92279581|NCT00926289|184462590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.3|||<|0.0001||95.0|-9.3|-5.2|||ANCOVA|Fixed effects of treatment, week, treatment-by-week interaction, country with the continuous covariates of baseline and baseline-by-week interaction||T80+HCTZ25 versus T80 monotherapy||-5.2|-9.3|<0.0001
92279582|NCT00926289|184462591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.8|||<|0.0001||95.0|-8.8|-4.7|||ANCOVA|Fixed effects of treatment, week, treatment-by-week interaction, country with the continuous covariates of baseline and baseline-by-week interaction||T80+HCTZ25 versus T80 monotherapy||-4.7|-8.8|<0.0001
92279583|NCT00926289|184462592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|||<|0.0001||95.0|-4.5|-1.9|||ANCOVA|Fixed effects of treatment, week, treatment-by-week interaction, country with the continuous covariates of baseline and baseline-by-week interaction||T80+HCTZ25 versus T80 monotherapy||-1.9|-4.5|<0.0001
92279584|NCT00926289|184462593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36|||<|0.0001||95.0|1.74|3.21|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.21|1.74|<0.0001
92279585|NCT00926289|184462594|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.0001||95.0|1.7|3.12|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.12|1.70|<0.0001
92279586|NCT00926289|184462595|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19|||<|0.0001||95.0|1.6|3.01|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.01|1.60|<0.0001
92279587|NCT00926289|184462596|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||<|0.0001||95.0|1.46|2.73|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||2.73|1.46|<0.0001
92279588|NCT00926289|184462597|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.02|||<|0.0001||95.0|1.48|2.76|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||2.76|1.48|<0.0001
92279589|NCT00926289|184462598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74||||0.0005||95.0|1.28|2.37|||Regression, Logistic|Adjustment for continuous covariate of baseline and fixed effect country||T80+HCTZ25 versus T80 monotherapy||2.37|1.28|0.0005
92279590|NCT00926289|184462599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|||<|0.0001||95.0|1.76|3.26|||Regression, Logistic|Adjustment for continuous covariate of baseline (SBP), treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.26|1.76|<0.0001
92427621|NCT01681472|184743271|SUPERIORITY|||||||0.9581|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.9581
92427622|NCT01681472|184743271|SUPERIORITY|||||||0.0118|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0118
92427623|NCT01681472|184743272|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427624|NCT01681472|184743272|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427625|NCT01681472|184743272|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427626|NCT01681472|184743272|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427627|NCT01681472|184743272|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427628|NCT01681472|184743272|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
92427629|NCT01681472|184743273|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427630|NCT01681472|184743273|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427631|NCT01681472|184743273|SUPERIORITY|||||||0.0022|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0022
92427632|NCT01681472|184743273|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427633|NCT01681472|184743273|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427634|NCT01681472|184743273|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427635|NCT01681472|184743274|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427636|NCT01681472|184743274|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427637|NCT01681472|184743274|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427638|NCT01681472|184743274|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92170768|NCT02885636|184230338|SUPERIORITY|||||||0.003|||||||ANCOVA|||||||0.003
92170769|NCT02885636|184230339|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.3
92427639|NCT01681472|184743274|SUPERIORITY|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0009
92427640|NCT01681472|184743274|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427641|NCT01681472|184743275|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0240
92427642|NCT01681472|184743275|SUPERIORITY|||||||0.1336|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1336
92427643|NCT01681472|184743275|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427644|NCT01681472|184743275|SUPERIORITY|||||||0.2725|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.2725
92279591|NCT00926289|184462600|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.42|||<|0.0001||95.0|1.78|3.29|||Regression, Logistic|Adjustment for continuous covariate of baseline (DBP), treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.29|1.78|<0.0001
92279592|NCT00926289|184462601|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.62|||<|0.0001||95.0|1.7|4.04|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||4.04|1.70|<0.0001
92279593|NCT00926289|184462602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.23|||<|0.0001||95.0|1.57|3.16|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.16|1.57|<0.0001
92427645|NCT01681472|184743275|SUPERIORITY|||||||0.1893|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1893
92427646|NCT01681472|184743275|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
92427647|NCT01681472|184743276|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427648|NCT01681472|184743276|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427649|NCT01681472|184743276|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427650|NCT01681472|184743276|SUPERIORITY|||||||0.0142|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0142
92427651|NCT01681472|184743276|SUPERIORITY|||||||0.0085|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0085
92427652|NCT01681472|184743276|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
92427653|NCT01681472|184743277|SUPERIORITY|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0014
92427654|NCT01681472|184743277|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427655|NCT01681472|184743277|SUPERIORITY|||||||0.0021|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0021
92427656|NCT01681472|184743277|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427657|NCT01681472|184743277|SUPERIORITY|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0014
92427658|NCT01681472|184743277|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427659|NCT01681472|184743278|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427660|NCT01681472|184743278|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427661|NCT01681472|184743278|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427662|NCT01681472|184743278|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92279594|NCT00926289|184462603|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren test stratified for country|||T80+HCTZ25 versus T80 monotherapy||||<0.0001
92427663|NCT01681472|184743278|SUPERIORITY|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0009
92427664|NCT01681472|184743278|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427665|NCT01681472|184743279|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0240
92427666|NCT01681472|184743279|SUPERIORITY|||||||0.1336|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1336
92427667|NCT01681472|184743279|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427668|NCT01681472|184743279|SUPERIORITY|||||||0.1551|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1551
92427669|NCT01681472|184743279|SUPERIORITY|||||||0.1563|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1563
92427670|NCT01681472|184743279|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
92427671|NCT01681472|184743280|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427672|NCT01681472|184743280|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92170770|NCT02885636|184230340|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
92279595|NCT01199601|184462616|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.12|STANDARD_DEVIATION|0.05|<|0.05|TWO_SIDED|95.0|1.02|1.23|||Regression, Linear|Information provided for crude analysis results; adjustment for significant baseline differences between groups did not change results substantially.||Outcomes were assessed by crude and adjusted risk ratios with log-binomial generalized linear models.||1.23|1.02|<0.05
92427673|NCT01681472|184743280|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427674|NCT01681472|184743280|SUPERIORITY|||||||0.0142|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0142
92427675|NCT01681472|184743280|SUPERIORITY|||||||0.0085|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0085
92427676|NCT01681472|184743280|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
92427677|NCT01681472|184743281|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||1.0000
92427678|NCT01681472|184743281|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427679|NCT01681472|184743281|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0010
92427680|NCT01681472|184743281|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427681|NCT01681472|184743281|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0005
92427682|NCT01681472|184743281|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427683|NCT01681472|184743282|SUPERIORITY|||||||0.0056|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0056
92427684|NCT01681472|184743282|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427685|NCT01681472|184743282|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0010
92427686|NCT01681472|184743282|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427687|NCT01681472|184743282|SUPERIORITY|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0014
92427688|NCT01681472|184743282|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427689|NCT01681472|184743283|SUPERIORITY|||||||0.1796|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1796
92427690|NCT01681472|184743283|SUPERIORITY|||||||0.3243|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.3243
92427691|NCT01681472|184743283|SUPERIORITY|||||||0.0263|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0263
92427692|NCT01681472|184743283|SUPERIORITY|||||||0.0268|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0268
92279596|NCT01199601|184462617|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.1|STANDARD_DEVIATION|0.05|<|0.05|TWO_SIDED|95.0|1.02|1.18|||Regression, Linear|Outcomes were assessed by crude and adjusted risk ratios with log-binomial generalized linear models.||||1.18|1.02|<0.05
92279597|NCT01199601|184462618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13|STANDARD_DEVIATION|0.05||0.05|TWO_SIDED|95.0|1.01|1.25|||Regression, Logistic|The crude analysis result is provided as the odds ratio did not change substantially when adjusted for possible confounders.||||1.25|1.01|0.05
92427693|NCT01681472|184743283|SUPERIORITY|||||||0.2041|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.2041
92427694|NCT01681472|184743283|SUPERIORITY|||||||0.0061|||||||Wilcoxon (Mann-Whitney)|||||||0.0061
92427695|NCT01681472|184743284|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427696|NCT01681472|184743284|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427697|NCT01681472|184743284|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427698|NCT01681472|184743284|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427699|NCT01681472|184743284|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427700|NCT01681472|184743284|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427701|NCT01681472|184743285|SUPERIORITY|||||||0.0268|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0268
92279598|NCT02292238|184462629|OTHER||Mean Difference (Net)|1.8691|STANDARD_DEVIATION|5.5727||0.125|TWO_SIDED|||||Univariable (unadjusted) and a priori threshold for statistical significance is 0.05.|t-test, 2 sided|Equal variance t-test.||Power was calculated based on expected difference in change on the ADAS-Cog of 3 points between the treatment and control groups. Estimates based on using a two-sided alpha of 0.05 and a standard deviation of 4, enrolling 29 patients per group, (N = 58) suggest 80% power to detect a mean change of 3 between treatment and placebo.||||0.125
92427702|NCT01681472|184743285|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427703|NCT01681472|184743285|SUPERIORITY|||||||0.0227|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0227
92236773|NCT01380093|184377498|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.6||||0.0723|TWO_SIDED|95.0|-5.3|0.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.2|-5.3|0.0723
92427704|NCT01681472|184743285|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427705|NCT01681472|184743285|SUPERIORITY|||||||0.0933|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0933
92427706|NCT01681472|184743285|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427707|NCT01681472|184743286|SUPERIORITY|||||||0.0177|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0177
92427708|NCT01681472|184743286|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427709|NCT01681472|184743286|SUPERIORITY|||||||0.0058|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0058
92427710|NCT01681472|184743286|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427711|NCT01681472|184743286|SUPERIORITY|||||||0.0043|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0043
92170771|NCT02885636|184230341|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||||||0.9
92427712|NCT01681472|184743286|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427713|NCT01681472|184743287|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427714|NCT01681472|184743287|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427715|NCT01681472|184743287|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427716|NCT01681472|184743287|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427717|NCT01681472|184743287|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427718|NCT01681472|184743287|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427719|NCT01681472|184743288|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427720|NCT01681472|184743288|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92170772|NCT02885636|184230342|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92170773|NCT02885636|184230343|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.2
92279599|NCT02292238|184462630|OTHER|Univariable (unadjusted) and a priori threshold for statistical significance is 0.05.|Mean Difference (Net)|-0.00184|STANDARD_DEVIATION|0.0225||0.7529|TWO_SIDED||||||t-test, 2 sided|Equal variance t-test.||||||0.7529
92170774|NCT02885636|184230344|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
92170775|NCT02885636|184230345|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
92170776|NCT02885636|184230346|SUPERIORITY|||||||0.0007|||||||t-test, 2 sided|||||||0.0007
92170777|NCT02885636|184230347|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92427721|NCT01681472|184743288|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427722|NCT01681472|184743288|SUPERIORITY|||||||0.0668|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0668
92427723|NCT01681472|184743288|SUPERIORITY|||||||0.0502|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0502
92170778|NCT02885636|184230348|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92170779|NCT02885636|184230349|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
92236774|NCT01380093|184377498|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.4515|TWO_SIDED|95.0|-1.7|3.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||3.8|-1.7|0.4515
92427724|NCT01681472|184743288|SUPERIORITY|||||||0.0081|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0081
92427725|NCT01681472|184743289|SUPERIORITY|||||||0.0011|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0011
92427726|NCT01681472|184743289|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427727|NCT01681472|184743289|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427728|NCT01681472|184743289|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427729|NCT01681472|184743289|SUPERIORITY|||||||0.6691|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.6691
92427730|NCT01681472|184743289|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92170780|NCT02885636|184230350|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92170781|NCT02885636|184230351|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92236775|NCT01380093|184377498|SUPERIORITY_OR_OTHER||LS Mean Difference|3.6||||0.0121|TWO_SIDED|95.0|0.8|6.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||6.4|0.8|0.0121
92236776|NCT01380093|184377499|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.0||||0.0059|TWO_SIDED|95.0|-18.7|-3.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-3.3|-18.7|0.0059
92236777|NCT01380093|184377499|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2||||0.28|TWO_SIDED|95.0|-3.5|11.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||11.8|-3.5|0.2800
92236778|NCT01380093|184377499|SUPERIORITY_OR_OTHER||LS Mean Difference|15.1||||0.0002|TWO_SIDED|95.0|7.5|22.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||22.8|7.5|0.0002
92427731|NCT01681472|184743290|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
92427732|NCT01681472|184743290|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427733|NCT01681472|184743290|SUPERIORITY|||||||0.064|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0640
92427734|NCT01681472|184743290|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427735|NCT01681472|184743290|SUPERIORITY|||||||0.1213|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1213
92427736|NCT01681472|184743290|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92170782|NCT02252172|184230521|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|95.0|0.43|0.73|||Log Rank|||||0.73|0.43|<0.0001
92170783|NCT02252172|184230522|SUPERIORITY||Odds Ratio (OR)|2.44|||<|0.0001|TWO_SIDED|95.0|1.8|3.3|||Cochran-Mantel-Haenszel|||||3.30|1.80|<0.0001
92170784|NCT02252172|184230523|SUPERIORITY||Odds Ratio (OR)|3.4|||<|0.0001|TWO_SIDED|95.0|2.42|4.77|||Cochran-Mantel-Haenszel|||||4.77|2.42|<0.0001
92170785|NCT02252172|184230524|SUPERIORITY||Odds Ratio (OR)|3.78|||<|0.0001|TWO_SIDED|95.0|2.55|5.59|||Fisher Exact|||||5.59|2.55|<0.0001
92170786|NCT02252172|184230525|SUPERIORITY||Odds Ratio (OR)|2.98|||<|0.0001|TWO_SIDED|95.0|2.09|4.24|||Cochran-Mantel-Haenszel|||||4.24|2.09|<0.0001
92170787|NCT02252172|184230526|SUPERIORITY||Odds Ratio (OR)|3.0|||<|0.0001|TWO_SIDED|95.0|1.85|4.86|||Cochran-Mantel-Haenszel|||||4.86|1.85|<0.0001
92170788|NCT02252172|184230527|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.0001|TWO_SIDED|95.0|0.55|0.82|||Log Rank|||||0.82|0.55|<0.0001
92170789|NCT02252172|184230528|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|0.0001|TWO_SIDED|95.0|0.39|0.62|||Log Rank|||||0.62|0.39|<0.0001
92427737|NCT01681472|184743291|SUPERIORITY|||||||0.1791|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1791
92427738|NCT01681472|184743291|SUPERIORITY|||||||0.4945|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.4945
92427739|NCT01681472|184743291|SUPERIORITY|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0014
92170790|NCT02252172|184230531|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.41|0.63|||Log Rank|||||0.63|0.41|<0.0001
92427740|NCT01681472|184743291|SUPERIORITY|||||||0.599|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.5990
92427741|NCT01681472|184743291|SUPERIORITY|||||||0.0303|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0303
92427742|NCT01681472|184743291|SUPERIORITY|||||||0.0107|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0107
92427743|NCT01681472|184743292|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427744|NCT01681472|184743292|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427745|NCT01681472|184743292|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
92427746|NCT01681472|184743292|SUPERIORITY|||||||0.0125|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0125
92427747|NCT01681472|184743292|SUPERIORITY|||||||0.0017|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0017
92427748|NCT01681472|184743292|SUPERIORITY|||||||0.5286|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.5286
92427749|NCT01681472|184743293|OTHER||Correlation factor|-0.21666||||0.6063|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in tumor||||0.6063
92427750|NCT01681472|184743293|OTHER||Correlation factor|0.54039||||0.2105|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in tumor||||0.2105
92427751|NCT01681472|184743293|OTHER||Correlation factor|0.27618||||0.5079|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.5079
92427752|NCT01681472|184743293|OTHER||Correlation factor|0.68223||||0.0913|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.0913
92427753|NCT01681472|184743294|OTHER||Correlation factor|0.38298||||0.3964|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in tumor||||0.3964
92427754|NCT01681472|184743294|OTHER||Correlation factor|0.27018||||0.5175|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in tumor||||0.5175
92427755|NCT01681472|184743294|OTHER||Correlation factor|-0.02188||||0.959|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in tumor||||0.9590
92427756|NCT01681472|184743294|OTHER||Correlation factor|0.45404||||0.3061|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.3061
92427757|NCT01681472|184743294|OTHER||Correlation factor|0.34905||||0.3967|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.3967
92427758|NCT01681472|184743294|OTHER||Correlation factor|0.07937||||0.8518|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.8518
92427759|NCT01681472|184743295|OTHER||Correlation factor|0.73743||||0.0586|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.0586
92427760|NCT01681472|184743295|OTHER||Correlation factor|0.44757||||0.2661|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.2661
92427761|NCT01681472|184743295|OTHER||Correlation factor|0.03292||||0.9506|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.9506
92427762|NCT01681472|184743295|OTHER||Correlation factor|0.09033||||0.8315|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.8315
92427763|NCT01681472|184743295|OTHER||Correlation factor|0.76502||||0.0451|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in adjacent mucosa||||0.0451
92427764|NCT01681472|184743295|OTHER||Correlation factor|0.34496||||0.4027|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.4027
92427765|NCT01681472|184743295|OTHER||Correlation factor|-0.66295||||0.1513|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.1513
92427766|NCT01681472|184743295|OTHER||Correlation factor|0.36854||||0.369|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.3690
92170791|NCT02252172|184230532|SUPERIORITY||Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.49|0.76|||Log Rank|||||0.76|0.49|<0.0001
92170792|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|2.4|||=|0.0986|TWO_SIDED|95.0|-0.4|5.2|||Mixed Models Analysis|||For Cycle 3 Day 1||5.2|-0.4|=0.0986
92427767|NCT01681472|184743296|OTHER||Correlation factor|0.23512||||0.5751|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.5751
92427768|NCT01681472|184743296|OTHER||Correlation factor|0.02576||||0.9672|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.9672
92427769|NCT01681472|184743296|OTHER||Correlation factor|0.68778||||0.0594|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.0594
92427770|NCT01681472|184743296|OTHER||Correlation factor|0.11512||||0.8281|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.8281
92427771|NCT01681472|184743297|OTHER|||||||0.0451|||||||pearson|||||||0.0451
92427772|NCT01681472|184743298|OTHER||Correlation factor|0.42972||||0.3359|TWO_SIDED||||||Pearson Correlation|||Correlation for AMT gene expression||||0.3359
92427773|NCT01681472|184743298|OTHER||Correlation factor|0.75404||||0.0307|TWO_SIDED||||||Pearson Correlation|||Correlation for AMT gene expression||||0.0307
92427774|NCT01681472|184743298|OTHER||Correlation factor|-0.7073||||0.116|TWO_SIDED||||||Pearson Correlation|||Correlation for AMT gene expression||||0.1160
92427775|NCT01681472|184743298|OTHER||Correlation factor|-0.47193||||0.2377|TWO_SIDED||||||Pearson Correlation|||Correlation for AMT gene expression||||0.2377
92427776|NCT01681472|184743298|OTHER||Correlation factor|0.88128||||0.0087|TWO_SIDED||||||Pearson Correlation|||Correlation for PCFT gene expression||||0.0087
92427777|NCT01681472|184743298|OTHER||Correlation factor|0.58502||||0.1277|TWO_SIDED||||||Pearson Correlation|||Correlation for PCFT gene expression||||0.1277
92427778|NCT01681472|184743298|OTHER||Correlation factor|0.89976||||0.0146|TWO_SIDED||||||Pearson Correlation|||Correlation for PCFT gene expression||||0.0146
92427779|NCT01681472|184743298|OTHER||Correlation factor|0.11497||||0.7863|TWO_SIDED||||||Pearson Correlation|||Correlation for PCFT gene expression||||0.7863
92427780|NCT01681472|184743298|OTHER||Correlation factor|0.97624||||0.0002|TWO_SIDED||||||Pearson Correlation|||Correlation for FPGS gene expression||||0.0002
92427781|NCT01681472|184743298|OTHER||Correlation factor|0.88682||||0.0033|TWO_SIDED||||||Pearson Correlation|||Correlation for FPGS gene expression||||0.0033
92427782|NCT01681472|184743298|OTHER||Correlation factor|-0.64743||||0.1645|TWO_SIDED||||||Pearson Correlation|||Correlation for FPGS gene expression||||0.1645
92427783|NCT01681472|184743298|OTHER||Correlation factor|0.17664||||0.6756|TWO_SIDED||||||Pearson Correlation|||Correlation for FPGS gene expression||||0.6756
92427784|NCT01681472|184743298|OTHER||Correlation factor|0.94364||||0.0014|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFS gene expression||||0.0014
92427785|NCT01681472|184743298|OTHER||Correlation factor|0.43194||||0.2852|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFS gene expression||||0.2852
92427786|NCT01681472|184743298|OTHER||Correlation factor|0.58419||||0.2234|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFS gene expression||||0.2234
92427787|NCT01681472|184743298|OTHER||Correlation factor|0.9584||||0.0002|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFS gene expression||||0.0002
92427788|NCT01681472|184743298|OTHER||Correlation factor|-0.38987||||0.3873|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC3 gene expression||||0.3873
92427789|NCT01681472|184743298|OTHER||Correlation factor|-0.25891||||0.5358|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC3 gene expression||||0.5358
92427790|NCT01681472|184743298|OTHER||Correlation factor|0.777||||0.0691|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC3 gene expression||||0.0691
92427791|NCT01681472|184743298|OTHER||Correlation factor|0.00322||||0.994|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC3 gene expression||||0.9940
92427792|NCT01681472|184743298|OTHER||Correlation factor|0.93711||||0.0018|TWO_SIDED||||||Pearson Correlation|||Correlation for GGH gene expression||||0.0018
92427793|NCT01681472|184743298|OTHER||Correlation factor|0.46883||||0.2413|TWO_SIDED||||||Pearson Correlation|||Correlation for GGH gene expression||||0.2413
92427794|NCT01681472|184743298|OTHER||Correlation factor|-0.09737||||0.8544|TWO_SIDED||||||Pearson Correlation|||Correlation for GGH gene expression||||0.8544
92427795|NCT01681472|184743298|OTHER||Correlation factor|0.78928||||0.0199|TWO_SIDED||||||Pearson Correlation|||Correlation for GGH gene expression||||0.0199
92427796|NCT01681472|184743298|OTHER||Correlation factor|0.82963||||0.0209|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC1 gene expression||||0.0209
92427797|NCT01681472|184743298|OTHER||Correlation factor|-0.16724||||0.6922|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC1 gene expression||||0.6922
92427798|NCT01681472|184743298|OTHER||Correlation factor|0.14436||||0.785|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC1 gene expression||||0.7850
92427799|NCT01681472|184743298|OTHER||Correlation factor|0.74757||||0.033|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC1 gene expression||||0.0330
92427800|NCT01681472|184743298|OTHER||Correlation factor|0.32113||||0.4825|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFD1L gene expression||||0.4825
92427801|NCT01681472|184743298|OTHER||Correlation factor|0.3716||||0.3647|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFD1L gene expression||||0.3647
92427802|NCT01681472|184743298|OTHER||Correlation factor|0.20955||||0.6903|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFD1L gene expression||||0.6903
92427803|NCT01681472|184743298|OTHER||Correlation factor|0.74459||||0.0341|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFD1L gene expression||||0.0341
92427804|NCT01681472|184743298|OTHER||Correlation factor|0.50966||||0.2426|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT1 gene expression||||0.2426
92427805|NCT01681472|184743298|OTHER||Correlation factor|0.67853||||0.0643|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT1 gene expression||||0.0643
92427806|NCT01681472|184743298|OTHER||Correlation factor|0.05531||||0.9171|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT1 gene expression||||0.9171
92427807|NCT01681472|184743298|OTHER||Correlation factor|0.59183||||0.1222|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT1 gene expression||||0.1222
92427808|NCT01681472|184743298|OTHER||Correlation factor|0.8104||||0.0271|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT2 gene expression||||0.0271
92427809|NCT01681472|184743298|OTHER||Correlation factor|0.86266||||0.0058|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT2 gene expression||||0.0058
92427810|NCT01681472|184743298|OTHER||Correlation factor|-0.71666||||0.109|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT2 gene expression||||0.1090
92427811|NCT01681472|184743298|OTHER||Correlation factor|0.55508||||0.1533|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT2 gene expression||||0.1533
92427812|NCT01681472|184743298|OTHER||Correlation factor|0.318||||0.487|TWO_SIDED||||||Pearson Correlation|||Correlation for RFC-1 gene expression||||0.4870
92427813|NCT01681472|184743298|OTHER||Correlation factor|0.23312||||0.5785|TWO_SIDED||||||Pearson Correlation|||Correlation for RFC-1 gene expression||||0.5785
92427814|NCT01681472|184743298|OTHER||Correlation factor|-0.0245||||0.9632|TWO_SIDED||||||Pearson Correlation|||Correlation for RFC-1 gene expression||||0.9632
92427815|NCT01681472|184743298|OTHER||Correlation factor|0.64565||||0.0838|TWO_SIDED||||||Pearson Correlation|||Correlation for RFC-1 gene expression||||0.0838
92427816|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47||||||90.0|-0.7|3.64||||||Inferential analysis at 0.5 hour post-dose||3.64|-0.7|
92427817|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.96||||||90.0|-5.13|-0.79||||||Inferential analysis at 1 hour post-dose||-0.79|-5.13|
92427818|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.53||||||90.0|-7.7|-3.36||||||Inferential analysis at 2 hour post-dose||-3.36|-7.70|
92427819|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||||90.0|-1.77|2.57||||||Inferential analysis at 4 hour post-dose||2.57|-1.77|
92427820|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.37||||||90.0|-3.54|0.8||||||Inferential analysis at 8 hour post-dose||0.80|-3.54|
92427821|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||||90.0|-1.16|3.18||||||Inferential analysis at 12 hour post-dose||3.18|-1.16|
92427822|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||||90.0|-2.81|1.53||||||Inferential analysis at 24 hour post-dose||1.53|-2.81|
92427823|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.49||||||90.0|0.32|4.66||||||Inferential analysis at 0.5 hour post-dose||4.66|0.32|
92427824|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78||||||90.0|-3.95|0.39||||||Inferential analysis at 1 hour post-dose||0.39|-3.95|
92427825|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.51||||||90.0|-9.68|-5.34||||||Inferential analysis at 2 hour post-dose||-5.34|-9.68|
92427826|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.47||||||90.0|1.3|5.64||||||Inferential analysis at 4 hour post-dose||5.64|1.30|
92427827|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.13||||||90.0|-1.04|3.3||||||Inferential analysis at 8 hour post-dose||3.30|-1.04|
92427828|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47||||||90.0|-0.7|3.64||||||Inferential analysis at 12 hour post-dose||3.64|-0.70|
92427829|NCT00795145|184743310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||||90.0|-0.37|3.97||||||Inferential analysis at 24 hour post-dose||3.97|-0.37|
92427830|NCT00795145|184743311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.27||||||90.0|1.1|5.44||||||Inferential analysis at 0.5 hour post-dose||5.44|1.10|
92427831|NCT00795145|184743311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.83||||||90.0|4.66|9.0||||||Inferential analysis at 1 hour post-dose||9.00|4.66|
92427832|NCT00795145|184743311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.27||||||90.0|8.1|12.44||||||Inferential analysis at 2 hour post-dose||12.44|8.10|
92427833|NCT00795145|184743311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.84||||||90.0|7.67|12.01||||||Inferential analysis at 4 hour post-dose||12.01|7.67|
92427834|NCT00795145|184743311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4||||||90.0|7.23|11.58||||||Inferential analysis at 8 hour post-dose||11.58|7.23|
92427835|NCT00795145|184743311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.05||||||90.0|4.87|9.22||||||Inferential analysis at 12 hour post-dose||9.22|4.87|
92427836|NCT00795145|184743311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.52||||||90.0|4.35|8.69||||||Inferential analysis at 24 hour post-dose||8.69|4.35|
92427837|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.49||||||90.0|-5.54|2.57||||||Inferential analysis at 0.5 hour post-dose||2.57|-5.54|
92427838|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.45||||||90.0|-11.51|-3.4||||||Inferential analysis at 1 hour post-dose||-3.40|-11.51|
92427839|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.75||||||90.0|-9.81|-1.7||||||Inferential analysis at 2 hour post-dose||-1.70|-9.81|
92427840|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||||90.0|-4.97|3.13||||||Inferential analysis at 4 hour post-dose||3.13|-4.97|
92427841|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.64||||||90.0|-9.69|-1.58||||||Inferential analysis at 8 hour post-dose||-1.58|-9.69|
92427842|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.29||||||90.0|-6.34|1.77||||||Inferential analysis at 12 hour post-dose||1.77|-6.34|
92427843|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59||||||90.0|-4.64|3.47||||||Inferential analysis at 24 hour post-dose||3.47|-4.64|
92427844|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.49||||||90.0|-7.54|0.57||||||Inferential analysis at 0.5 hour post-dose||0.57|-7.54|
92427845|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.19||||||90.0|-16.24|-8.13||||||Inferential analysis at 1 hour post-dose||-8.13|-16.24|
92427846|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.39||||||90.0|-18.44|-10.33||||||Inferential analysis at 2 hour post-dose||-10.33|-18.44|
92427847|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.19||||||90.0|-6.24|1.87||||||Inferential analysis at 4 hour post-dose||1.87|-6.24|
92427848|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||||90.0|-2.95|5.15||||||Inferential analysis at 8 hour post-dose||5.15|-2.95|
92427849|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||||90.0|-3.94|4.17||||||Inferential analysis at 12 hour post-dose||4.17|-3.94|
92427850|NCT00795145|184743312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.68||||||90.0|-1.37|6.73||||||Inferential analysis at 24 hour post-dose||6.73|-1.37|
92427851|NCT01696071|184743323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.018||||95.0|-0.038|0.034|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 QD - Tio R2.5 BID|No p-values are presented as no formal statistical hypothesis was tested.||0.034|-0.038|
92427852|NCT01696071|184743324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.021||||95.0|-0.032|0.052|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested.||0.052|-0.032|
92427853|NCT01696071|184743325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.018||||95.0|-0.05|0.022|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||0.022|-0.050|
92427854|NCT01696071|184743326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.018||||95.0|-0.051|0.023|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested.||0.023|-0.051|
92427855|NCT01696071|184743327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.032||||95.0|-0.06|0.068|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested.||0.068|-0.060|
92427856|NCT01696071|184743328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.02||||95.0|-0.044|0.035|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested.||0.035|-0.044|
92427857|NCT01696071|184743329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.023||||95.0|-0.048|0.042|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||0.042|-0.048|
92427858|NCT01696071|184743330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.02||||95.0|-0.047|0.034|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||0.034|-0.047|
92427859|NCT01696071|184743331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.026||||95.0|-0.07|0.032|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||0.032|-0.070|
92427860|NCT01696071|184743332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041|STANDARD_ERROR_OF_MEAN|0.035||||95.0|-0.03|0.111|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||0.111|-0.030|
92427861|NCT01696071|184743333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.389|STANDARD_ERROR_OF_MEAN|3.658||||95.0|-8.651|5.873|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||5.873|-8.651|
92427862|NCT00739674|184743402|SUPERIORITY_OR_OTHER_LEGACY|||||||0.118||95.0|||||Fisher Exact|||||||0.118
92427863|NCT00739674|184743403|SUPERIORITY_OR_OTHER_LEGACY|||||||0.092||95.0|||||Fisher Exact|||||||0.092
92427864|NCT00739674|184743404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.122||95.0|||||Fisher Exact|||||||0.122
92427865|NCT00739674|184743405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.434||95.0|||||Fisher Exact|||||||0.434
92427866|NCT00739674|184743406|SUPERIORITY_OR_OTHER_LEGACY|||||||0.507||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.507
92427867|NCT00739674|184743407|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.058
92427868|NCT00739674|184743408|SUPERIORITY_OR_OTHER_LEGACY|||||||0.158||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.158
92427869|NCT00739674|184743409|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.064
92427870|NCT00739674|184743410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.262
92427871|NCT00739674|184743411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.026
92427872|NCT00739674|184743412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.212||95.0|||||Log Rank|||||||0.212
92427873|NCT02195583|184743424|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Calculated from Analysis of Variance (ANOVA) model using treatment and study period as fixed factors and participant as random effect.||Linear contrasts were fitted in order to establish whether there was a dose-response relationship. Linear contrasts were for experimental dentifrice: non-zinc treatments.||||<0.0001
92427874|NCT02195583|184743424|SUPERIORITY_OR_OTHER|||||||0.2274||95.0|||||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.||Quadratic contrasts were fitted in order to establish whether there was a dose-response relationship. Quadratic contrasts are for experimental dentifrice: non-zinc treatments.||||0.2274
92427875|NCT02195583|184743424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.68||||0.595|TWO_SIDED|95.0|-1.84|3.2|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1426 ppm) minus Sodium fluoride (1150 ppm) such that a positive difference favors Sodium fluoride (1426 ppm).|||3.20|-1.84|0.5950
92427876|NCT02195583|184743424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.93||||0.0002|TWO_SIDED|95.0|2.38|7.48|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1426 ppm) minus Sodium fluoride (250 ppm) such that a positive difference favors Sodium fluoride (1426 ppm).|||7.48|2.38|0.0002
92427877|NCT02195583|184743424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.25||||0.0013|TWO_SIDED|95.0|1.68|6.82|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1150 ppm) minus Sodium fluoride (250 ppm) such that a positive difference favors Sodium fluoride (1150 ppm).|||6.82|1.68|0.0013
92427878|NCT02195583|184743424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.71|||<|0.0001|TWO_SIDED|95.0|5.2|10.21|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1426 ppm) minus Sodium fluoride (0 ppm) such that a positive difference favors Sodium fluoride (1426 ppm).|||10.21|5.20|<0.0001
92427879|NCT02195583|184743424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.03|||<|0.0001|TWO_SIDED|95.0|4.51|9.55|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1150 ppm) minus Sodium fluoride (0 ppm) such that a positive difference favors Sodium fluoride (1150 ppm).|||9.55|4.51|<0.0001
92427880|NCT02195583|184743424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.78||||0.0325|TWO_SIDED|95.0|0.23|5.32|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (250 ppm) minus Sodium fluoride (0 ppm) such that a positive difference favors Sodium fluoride (250 ppm).|||5.32|0.23|0.0325
92427881|NCT02195583|184743424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.16||||0.092|TWO_SIDED|95.0|-4.67|0.35|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as 'Sodium fluoride (1426 ppm) + zinc base A' minus Sodium fluoride (0 ppm) such that a positive difference favors 'Sodium fluoride (1426 ppm) + zinc base A'.|||0.35|-4.67|0.0920
92427882|NCT02195583|184743424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.56||||0.2185|TWO_SIDED|95.0|-4.04|0.93|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as 'Sodium fluoride (1426 ppm) + zinc base B' minus Sodium fluoride (0 ppm) such that a positive difference favors 'Sodium fluoride (1426 ppm) + zinc base B'.|||0.93|-4.04|0.2185
92427883|NCT02195583|184743424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.87|||<|0.0001|TWO_SIDED|95.0|7.36|12.37|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1426 ppm) minus 'Sodium fluoride (1426 ppm) + zinc base A' such that a positive difference favors Sodium fluoride (1426 ppm).|||12.37|7.36|<0.0001
92427884|NCT02195583|184743424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.26|||<|0.0001|TWO_SIDED|95.0|6.77|11.75|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1426 ppm) minus 'Sodium fluoride (1426ppm) + zinc base B' such that a positive difference favors Sodium fluoride (1426 ppm).|||11.75|6.77|<0.0001
92427885|NCT00094172|184743452|SUPERIORITY_OR_OTHER|||||||0.929|||||||Log Rank|||This is the primary analysis of the primary endpoint||||0.929
92427886|NCT00094172|184743452|SUPERIORITY_OR_OTHER|||||||0.823|||||||Fisher Exact|||This is the secondary analysis of the primary endpoint||||0.823
92427887|NCT00094172|184743453|SUPERIORITY_OR_OTHER|||||||0.208|||||||Log Rank|||||||.208
92427888|NCT00094172|184743454|SUPERIORITY_OR_OTHER|||||||0.526||95.0|||||Log Rank|||||||0.526
92427889|NCT01519271|184743473|SUPERIORITY||Cohen's D|0.35|||||TWO_SIDED|||||||||||||
92427890|NCT01803204|184743513|SUPERIORITY_OR_OTHER||GEE|1.0||||1|TWO_SIDED|99.0|||||GEE|||||||1.00
92170793|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|1.5|||=|0.3042|TWO_SIDED|95.0|-1.4|4.4|||Mixed Models Analysis|||Cycle 6 Day 1||4.4|-1.4|=0.3042
92236779|NCT01380093|184377500|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.7||||0.0001|TWO_SIDED|95.0|-54.8|-18.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-18.6|-54.8|0.0001
92279600|NCT02292238|184462631|OTHER|Univariable (unadjusted) and a priori threshold for statistical significance is 0.05.|Mean Difference (Net)|-1.0636|STANDARD_DEVIATION|4.8176||0.3687|TWO_SIDED||||||t-test, 2 sided|Equal variance t-test.||||||0.3687
92427891|NCT01803204|184743514|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|99.0|||||Mist Effects Model|||||||<0.01
92427892|NCT01803204|184743515|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED|99.0|||||Mist Effect Model|||||||0.81
92427893|NCT01397890|184743519|SUPERIORITY_OR_OTHER||Ratio|1.044||||0.0004|TWO_SIDED|95.0|1.019|1.069|||ANCOVA|multiplicative ANCOVA model with treatment and country as fixed factors and baseline value as a (log-transformed) covariate||||1.069|1.019|0.0004
92427894|NCT01397890|184743520|SUPERIORITY_OR_OTHER||Ratio|1.079|||<|0.0001|TWO_SIDED|95.0|1.057|1.102|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.102|1.057|<0.0001
92427895|NCT01397890|184743521|SUPERIORITY_OR_OTHER||Ratio|1.086|||<|0.0001|TWO_SIDED|95.0|1.062|1.111|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.111|1.062|<0.0001
92427896|NCT01397890|184743522|SUPERIORITY_OR_OTHER||Ratio|1.018||||0.057|TWO_SIDED|95.0|0.999|1.037|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.037|0.999|0.0570
92427897|NCT01397890|184743523|SUPERIORITY_OR_OTHER||Ratio|1.05|||<|0.0001|TWO_SIDED|95.0|1.033|1.067|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.067|1.033|<0.0001
92427898|NCT01397890|184743524|SUPERIORITY_OR_OTHER||Ratio|1.054|||<|0.0001|TWO_SIDED|95.0|1.036|1.073|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.073|1.036|<0.0001
92427899|NCT01397890|184743525|SUPERIORITY_OR_OTHER||Ratio|1.02||||0.1956|TWO_SIDED|95.0|0.99|1.05|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.050|0.990|0.1956
92427900|NCT01397890|184743526|SUPERIORITY_OR_OTHER||Ratio|1.062|||<|0.0001|TWO_SIDED|95.0|1.035|1.091|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.091|1.035|<0.0001
92427901|NCT01397890|184743527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.303||||0.0001|TWO_SIDED|95.0|9.904|30.702|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||30.702|9.904|0.0001
92427902|NCT01397890|184743528|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.587|||<|0.0001|TWO_SIDED|95.0|7.407|19.766|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||19.766|7.407|<0.0001
92170794|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|1.8|||=|0.2339|TWO_SIDED|95.0|-1.2|4.9|||Mixed Models Analysis|||Cycle 9 Day 1||4.9|-1.2|=0.2339
92279601|NCT02292238|184462632|OTHER||Mean Difference (Net)|1.8203|STANDARD_DEVIATION|13.8988||0.485|TWO_SIDED||||||t-test, 2 sided|Equal variance t-test.||||||0.4850
92427903|NCT01397890|184743529|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.469|||<|0.0001|TWO_SIDED|95.0|10.147|24.791|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||24.791|10.147|<0.0001
92427904|NCT01397890|184743530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.428||||0.0001|TWO_SIDED|95.0|13.463|39.393|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||39.393|13.463|0.0001
92427905|NCT01397890|184743531|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.192||||0.0006|TWO_SIDED|95.0|7.491|26.894|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||26.894|7.491|0.0006
92427906|NCT01397890|184743532|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.472|||<|0.0001|TWO_SIDED|95.0|10.347|26.596|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||26.596|10.347|<0.0001
92427907|NCT01397890|184743533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.668|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.437|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.437|-0.900|<0.0001
92427908|NCT01397890|184743534|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.375|||<|0.0001|TWO_SIDED|95.0|-0.552|-0.198|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.198|-0.552|<0.0001
92427909|NCT01397890|184743535|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.551|||<|0.0001|TWO_SIDED|95.0|-0.741|-0.361|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.361|-0.741|<0.0001
92427910|NCT01397890|184743536|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.236||||0.0028|TWO_SIDED|95.0|-0.391|-0.082|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.082|-0.391|0.0028
92170795|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|3.3|||=|0.0365|TWO_SIDED|95.0|0.2|6.3|||Mixed Models Analysis|||Cycle 12 Day 1||6.3|0.2|=0.0365
92170796|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|1.7|||=|0.3093|TWO_SIDED|95.0|-1.6|4.9||Cycle 24 Day 1|Mixed Models Analysis|||Cycle 18 Day 1||4.9|-1.6|=0.3093
92170797|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|1.6|||=|0.3481|TWO_SIDED|95.0|-1.8|5.0|||Mixed Models Analysis|||Cycle 24 Day 1||5|-1.8|=0.3481
92170798|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|1.0|||=|0.5825|TWO_SIDED|95.0|-2.6|4.6|||Mixed Models Analysis|||Cycle 30 Day 1||4.6|-2.6|=0.5825
92279602|NCT02292238|184462633|OTHER||Mean Difference (Net)|0.1907|STANDARD_DEVIATION|0.3097||0.0337|TWO_SIDED|||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|Equal variance t-test.||||||0.0337
92279603|NCT02292238|184462634|OTHER|Univariable (unadjusted) and a priori threshold for statistical significance is 0.05.|Mean Difference (Net)|-1.6161|STANDARD_DEVIATION|5.6812||0.315|TWO_SIDED||||||t-test, 2 sided|Equal variance t-test.||||||0.315
92427911|NCT01397890|184743537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.124||||0.0372|TWO_SIDED|95.0|-0.24|-0.007|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.007|-0.240|0.0372
92427912|NCT01397890|184743538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.231||||0.0001|TWO_SIDED|95.0|-0.35|-0.113|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.113|-0.350|0.0001
92427913|NCT01397890|184743539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.262|||<|0.0001|TWO_SIDED|95.0|-0.364|-0.159|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.159|-0.364|<0.0001
92427914|NCT01397890|184743540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.143||||0.0067|TWO_SIDED|95.0|-0.246|-0.04|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.040|-0.246|0.0067
92427915|NCT01397890|184743541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.122||||0.0171|TWO_SIDED|95.0|-0.222|-0.022|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.022|-0.222|0.0171
92427916|NCT01397890|184743542|SUPERIORITY_OR_OTHER||Rate ratio|0.593||||0.0032|TWO_SIDED|95.0|0.419|0.839|||Poisson regression|Poisson regression model with treatment as a factor and the duration time in study as an offset variable morning PEF as a covariate||||0.839|0.419|0.0032
92427917|NCT01397890|184743542|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.614||||0.0167|TWO_SIDED|95.0|0.412|0.916|||Regression, Cox|Time to the first COPD exacerbation||||0.916|0.412|0.0167
92427918|NCT01397890|184743542|SUPERIORITY_OR_OTHER|||||||0.0196|||||||Log Rank|||||||0.0196
92427919|NCT02100514|184743573|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-49.9|STANDARD_ERROR_OF_MEAN|2.09|<|0.001|TWO_SIDED|95.0|-54.0|-45.8|||MMRM|||Least square (LS) mean difference and associated 95% confidence interval (CI), and p-value were derived from an mixed effect model repeat measurement (MMRM) model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-45.8|-54.0|<0.001
92427920|NCT02100514|184743574|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-33.2|STANDARD_ERROR_OF_MEAN|1.48|<|0.001|TWO_SIDED|95.0|-36.1|-30.2|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-30.2|-36.1|<0.001
92427921|NCT02100514|184743574|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-29.6|STANDARD_ERROR_OF_MEAN|1.66|||TWO_SIDED|95.0|-32.8|-26.3||||||Week 24: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-26.3|-32.8|
92427922|NCT02100514|184743574|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-23.8|STANDARD_ERROR_OF_MEAN|1.65|||TWO_SIDED|95.0|-27.0|-20.5||||||Week 52: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-20.5|-27.0|
92427923|NCT02100514|184743575|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-45.7|STANDARD_ERROR_OF_MEAN|2.04|<|0.001|TWO_SIDED|95.0|-49.7|-41.7|||MMRM|||Week 12: LS mean difference and associated 95% CI, and p-value were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-41.7|-49.7|<0.001
92427924|NCT02100514|184743575|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-40.9|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-45.3|-36.5||||||Week 24: LS mean difference and associated 95% CI, were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-36.5|-45.3|
92170799|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|2.7|||=|0.1566|TWO_SIDED|95.0|-1.0|6.4|||Mixed Models Analysis|||Cycle 36 Day 1||6.4|-1|=0.1566
92236780|NCT01380093|184377500|SUPERIORITY_OR_OTHER||LS Mean Difference|13.2||||0.1488|TWO_SIDED|95.0|-4.8|31.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||31.2|-4.8|0.1488
92236781|NCT01380093|184377500|SUPERIORITY_OR_OTHER||LS Mean Difference|49.9|||<|0.0001|TWO_SIDED|95.0|31.8|67.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||67.9|31.8|<0.0001
92427925|NCT02100514|184743575|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-32.5|STANDARD_ERROR_OF_MEAN|2.17|||TWO_SIDED|95.0|-36.7|-28.2||||||Week 52: LS mean difference and associated 95% CI, were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-28.2|-36.7|
92427926|NCT02100514|184743576|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-45.0|STANDARD_ERROR_OF_MEAN|1.99|<|0.001|TWO_SIDED|95.0|-48.9|-41.1|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-41.1|-48.9|<0.001
92427927|NCT02100514|184743576|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-40.5|STANDARD_ERROR_OF_MEAN|2.21|||TWO_SIDED|95.0|-44.8|-36.1||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-36.1|-44.8|
92427928|NCT02100514|184743576|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-32.7|STANDARD_ERROR_OF_MEAN|2.2|||TWO_SIDED|95.0|-37.0|-28.4||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-28.4|-37.0|
92427929|NCT02100514|184743577|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-51.6|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-56.7|-46.6|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-46.6|-56.7|<0.001
92427930|NCT02100514|184743577|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-46.4|STANDARD_ERROR_OF_MEAN|2.94|||TWO_SIDED|95.0|-52.2|-40.6||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-40.6|-52.2|
92427931|NCT02100514|184743577|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-37.4|STANDARD_ERROR_OF_MEAN|3.03|||TWO_SIDED|95.0|-43.3|-31.4||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-31.4|-43.3|
92236782|NCT01380093|184377501|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.1|||<|0.0001|TWO_SIDED|95.0|-88.5|-31.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-31.6|-88.5|<0.0001
92279604|NCT00491504|184462659|SUPERIORITY_OR_OTHER_LEGACY|||||||0.625|||||||ANCOVA|An analysis of covariance (ANCOVA) model was used with treatment as effect and Baseline as a covariate.||||||0.625
92427932|NCT02100514|184743578|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-46.6|STANDARD_ERROR_OF_MEAN|3.59|<|0.001||95.0|-53.7|-39.5|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-39.5|-53.7|<0.001
92170800|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|1.8|||=|0.3858|TWO_SIDED|95.0|-2.2|5.7|||Mixed Models Analysis|||Cycle 42 Day 1||5.7|-2.2|=0.3858
92170801|NCT02252172|184230533|SUPERIORITY||Least Square Mean|0.8|||=|0.7296|TWO_SIDED|95.0|-3.5|5.0|||Least Square Mean Difference|||Cycle 48 Day 1||5|-3.5|=0.7296
92279605|NCT02041702|184462666|SUPERIORITY|The 2-sided 90% confidence interval (CI) was calculated using the Clopper-Pearson method.|Ratio|100.0|||<|0.01|TWO_SIDED|90.0|97.6|100.0|||Clopper-Pearson|Clopper-Pearson CI for the binomial proportion|The null hypothesis would be rejected if the lower bound of the 2-sided 90% confidence interval was greater than 90%.|The hypothesis was: H0: P≤ 90% vs H1: P\>90% P: The proportion of subjects free from MRI scan related complications at 1 month post MRI scan in cardiac MRI scan group||100|97.6|<0.01
92279606|NCT02041702|184462667|NON_INFERIORITY|The 2-sided 90% CI for difference in success rate between 2 groups was calculated by Farrington-Manning method.|Ratio Difference|-0.9||||0.0007|TWO_SIDED|90.0|-5.6|3.8|||Farrington-Manning Test||The null hypothesis would be rejected if the lower bound of the two-sided 90% confidence interval was greater than -10%.|"The hypothesis was: H0: PMRI - PCTRL≤ -10% vs H1: PMRI - PCTRL\>-10%~* PMRI: the success rate in the Cardiac MRI scan group for the change in right atrial capture threshold @0.5ms at 1month post MRI compared to pre-MRI scan value collected at MRI scan visit~* PCTRL: the success rate in the Control group for the change in right atrial capture threshold @0.5ms at 1month post MRI compared to pre-MRI scan value collected at MRI scan visit"||3.8|-5.6|0.0007
92279607|NCT02041702|184462668|NON_INFERIORITY|The 2-sided 90% CI for difference in success rate between 2 groups was calculated by Farrington-Manning method.|Ratio Difference|-1.7||||0.0012|TWO_SIDED|90.0|-6.2|2.8|||Farrington-Manning test||The null hypothesis would be rejected if the lower bound of the two-sided 90% confidence interval was greater than -10%.|"The hypothesis was: H0: PMRI - PCTRL≤ -10% vs H1: PMRI - PCTRL \>-10%~* PMRI: the success rate in the Cardiac MRI Scan Group for change in RV capture threshold value @0.5ms at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit~* PCTRL: the success rate in Control Group for change in RV capture threshold value @0.5ms at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit"||2.8|-6.2|0.0012
92427933|NCT02100514|184743578|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-39.7|STANDARD_ERROR_OF_MEAN|4.12||||95.0|-47.9|-31.6||||||Week 24: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-31.6|-47.9|
92427934|NCT02100514|184743578|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-33.4|STANDARD_ERROR_OF_MEAN|4.02||||95.0|-41.3|-25.5||||||Week 52: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-25.5|-41.3|
92427935|NCT02100514|184743579|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-30.8|STANDARD_ERROR_OF_MEAN|3.14|<|0.001||95.0|-36.9|-24.6|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-24.6|-36.9|<0.001
92427936|NCT02100514|184743579|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-27.5|STANDARD_ERROR_OF_MEAN|3.23||||95.0|-33.9|-21.2||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-21.2|-33.9|
92427937|NCT02100514|184743579|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-49.4|STANDARD_ERROR_OF_MEAN|18.27|||TWO_SIDED|95.0|-85.2|-13.5||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-13.5|-85.2|
92427938|NCT02100514|184743580|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|5.5|STANDARD_ERROR_OF_MEAN|1.06|<|0.001|TWO_SIDED|95.0|3.4|7.6|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||7.6|3.4|<0.001
92427939|NCT02100514|184743580|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|5.4|STANDARD_ERROR_OF_MEAN|1.14||||95.0|3.2|7.6||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||7.6|3.2|
92427940|NCT02100514|184743580|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|6.0|STANDARD_ERROR_OF_MEAN|1.2||||95.0|3.6|8.3||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||8.3|3.6|
92427941|NCT02100514|184743581|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-44.2|STANDARD_ERROR_OF_MEAN|2.39||||95.0|-48.8|-39.5||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-39.5|-48.8|
92427942|NCT02100514|184743581|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-36.2|STANDARD_ERROR_OF_MEAN|2.42|||TWO_SIDED|95.0|-40.9|-31.4||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-31.4|-40.9|
92170802|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|-1.3|||=|0.5793|TWO_SIDED|95.0|-6.0|3.3|||Mixed Models Analysis|||Cycle 54 Day 1||3.3|-6|=0.5793
92236783|NCT01380093|184377501|SUPERIORITY_OR_OTHER||LS Mean Difference|20.4||||0.1556|TWO_SIDED|95.0|-8.0|48.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||48.7|-8.0|0.1556
92427943|NCT02100514|184743582|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-10.1|STANDARD_ERROR_OF_MEAN|2.55||||95.0|-15.1|-5.1||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-5.1|-15.1|
92427944|NCT02100514|184743582|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-9.0|STANDARD_ERROR_OF_MEAN|4.5||||95.0|-17.9|-0.2||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.2|-17.9|
92279608|NCT02041702|184462669|NON_INFERIORITY|The 2-sided 90% CI for difference in success rate between 2 groups was calculated by Farrington-Manning method.|Ratio Difference|-2.7||||0.0446|TWO_SIDED|90.0|-9.8|4.3|||Farrington-Manning test||The null hypothesis would be rejected if the lower bound of the two-sided 90% confidence interval was greater than -10%.|"The hypothesis was:H0: PMRI - PCTRL≤ -10% vs H1: PMRI - PCTRL \>-10%~* PMRI: the success rate in MRI Scan Group for change in RA sensing amplitude at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit~* PCTRL: the success rate in Control Group for change in RA sensing amplitude at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit"||4.3|-9.8|0.0446
92427945|NCT02100514|184743582|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-8.2|STANDARD_ERROR_OF_MEAN|3.04||||95.0|-14.1|-2.2||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-2.2|-14.1|
92427946|NCT02100514|184743583|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|4.1|STANDARD_ERROR_OF_MEAN|0.85||||95.0|2.5|5.8||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||5.8|2.5|
92427947|NCT02100514|184743583|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|3.8|STANDARD_ERROR_OF_MEAN|0.86||||95.0|2.2|5.5||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||5.5|2.2|
92427948|NCT02100514|184743583|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|4.3|STANDARD_ERROR_OF_MEAN|0.97||||95.0|2.4|6.2||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||6.2|2.4|
92427949|NCT02100514|184743584|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|1.1|STANDARD_ERROR_OF_MEAN|0.9||||95.0|-0.7|2.8||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||2.8|-0.7|
92427950|NCT02100514|184743584|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|0.9|STANDARD_ERROR_OF_MEAN|1.04||||95.0|-1.1|3.0||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||3.0|-1.1|
92427951|NCT02100514|184743584|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|0.8|STANDARD_ERROR_OF_MEAN|0.95||||95.0|-1.0|2.7||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||2.7|-1.0|
92427952|NCT02100514|184743585|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-10.1|STANDARD_ERROR_OF_MEAN|2.55||||95.0|-15.1|-5.1||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-5.1|-15.1|
92170803|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|-0.8|||=|0.7756|TWO_SIDED|95.0|-6.1|4.5|||Mixed Models Analysis|||Cycle 60 Day 1||4.5|-6.1|=0.7756
92236784|NCT01380093|184377501|SUPERIORITY_OR_OTHER||LS Mean Difference|80.4|||<|0.0001|TWO_SIDED|95.0|52.0|108.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||108.9|52.0|<0.0001
92427953|NCT02100514|184743585|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-9.0|STANDARD_ERROR_OF_MEAN|4.5||||95.0|-17.9|-0.2||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.2|-17.9|
92427954|NCT02100514|184743585|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-8.2|STANDARD_ERROR_OF_MEAN|3.04||||95.0|-14.1|-2.2||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-2.2|-14.1|
92170804|NCT02252172|184230533|SUPERIORITY||Least Square Mean Difference|0.7|||=|0.8458|TWO_SIDED|95.0|-6.0|7.4|||Mixed Models Analysis|||Cycle 66 Day 1||7.4|-6|=0.8458
92170805|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|2.0|||=|0.1176|TWO_SIDED|95.0|-0.5|4.5|||Mixed Models Analysis|||Cycle 3 Day 1||4.5|-0.5|=0.1176
92427955|NCT02100514|184743586|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-66.8|STANDARD_ERROR_OF_MEAN|3.18||||95.0|-73.0|-60.5||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-60.5|-73.0|
92427956|NCT02100514|184743587|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-66.1|STANDARD_ERROR_OF_MEAN|5.4||||95.0|-76.7|-55.4||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-55.4|-76.7|
92427957|NCT02100514|184743588|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-66.5|STANDARD_ERROR_OF_MEAN|2.77||||95.0|-72.0|-61.1||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-61.1|-72.0|
92427958|NCT02100514|184743589|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-69.1|STANDARD_ERROR_OF_MEAN|3.08||||95.0|-75.2|-63.1||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-63.1|-75.2|
92427959|NCT02100514|184743590|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-71.3|STANDARD_ERROR_OF_MEAN|3.14||||95.0|-77.5|-65.1||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-65.1|-77.5|
92427960|NCT02100514|184743591|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-47.7|STANDARD_ERROR_OF_MEAN|2.12||||95.0|-51.9|-43.6||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-43.6|-51.9|
92427961|NCT02100514|184743592|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-10.4|STANDARD_ERROR_OF_MEAN|1.06||||95.0|-12.5|-8.3||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-8.3|-12.5|
92427962|NCT02100514|184743593|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|2.6|STANDARD_ERROR_OF_MEAN|0.52||||95.0|1.6|3.6||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||3.6|1.6|
92427963|NCT02100514|184743594|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-1.6|STANDARD_ERROR_OF_MEAN|0.08||||95.0|-1.8|-1.5||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.5|-1.8|
92427964|NCT02100514|184743594|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-1.4|STANDARD_ERROR_OF_MEAN|0.1||||95.0|-1.6|-1.3||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.3|-1.6|
92427965|NCT02100514|184743594|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-1.4|STANDARD_ERROR_OF_MEAN|0.12||||95.0|-1.6|-1.2||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.2|-1.6|
92427966|NCT02100514|184743595|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-0.4|STANDARD_ERROR_OF_MEAN|0.02||||95.0|-0.4|-0.3||||||Week 12: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.3|-0.4|
92427967|NCT02100514|184743595|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-0.3|STANDARD_ERROR_OF_MEAN|0.02||||95.0|-0.3|-0.3||||||Week 24: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.3|-0.3|
92427968|NCT02100514|184743595|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-0.3|STANDARD_ERROR_OF_MEAN|0.04||||95.0|-0.4|-0.2||||||Week 52: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.2|-0.4|
92170806|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|2.8|||=|0.0336|TWO_SIDED|95.0|0.2|5.4|||Mixed Models Analysis|||Cycle 6 Day 1||5.4|0.2|=0.0336
92170807|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|2.6|||=|0.0653|TWO_SIDED|95.0|-0.2|5.3|||Mixed Models Analysis|||Cycle 9 Day 1||5.3|-0.2|=0.0653
92427969|NCT02100514|184743596|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|53.9||||||95.0|32.08|90.59||||||Week 12: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||90.59|32.08|
92236785|NCT01380093|184377502|SUPERIORITY_OR_OTHER||LS Mean Difference|-84.0||||0.0001|TWO_SIDED|95.0|-124.8|-43.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-43.2|-124.8|0.0001
92236786|NCT01380093|184377502|SUPERIORITY_OR_OTHER||LS Mean Difference|27.4||||0.1826|TWO_SIDED|95.0|-13.3|68.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||68.1|-13.3|0.1826
92427970|NCT02100514|184743596|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.0||||||95.0|11.15|26.07||||||Week 24: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||26.07|11.15|
92427971|NCT02100514|184743596|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.1||||||95.0|6.18|13.48||||||Week 52: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||13.48|6.18|
92427972|NCT02100514|184743597|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|156.4||||||95.0|48.84|501.11||||||Week 12: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||501.11|48.84|
92427973|NCT02100514|184743597|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|110.8||||||95.0|39.77|308.46||||||Week 24: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||308.46|39.77|
92427974|NCT02100514|184743597|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|43.3||||||95.0|19.52|96.13||||||Week 52: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||96.13|19.52|
92427975|NCT01145625|184743608|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was claimed if the lower limit of the 95% Confidence Interval (CI) was greater than -6.565.|Mean Difference (Final Values)|-0.3||||0.917|TWO_SIDED|95.0|-6.0|5.4|||ANCOVA|P-Value and confidence interval are from ANCOVA model with treatment and center as factors and Baseline hair count as a covariate.||Statistical analysis is for the change from baseline to week 24 data.||5.4|-6.0|0.9170
92427976|NCT01145625|184743609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|||<|0.4158|TWO_SIDED|95.0|-3.4|8.2|||ANCOVA|P-Value and confidence interval are from ANCOVA model with treatment and center as factors and Baseline hair count as a covariate.||Statistical analysis is for the change from baseline to week 12 data.||8.2|-3.4|<0.4158
92427977|NCT01145625|184743610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.598|TWO_SIDED|95.0|-7.1|4.1|||ANCOVA|P-value and confidence interval are from ANCOVA model with treatment and center as factors and Baseline hair count as a covariate.||Statistical analysis is for the change from baseline to week 52 data.||4.1|-7.1|0.5980
92427978|NCT01751178|184743611|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.061|||<|0.0001|TWO_SIDED|95.0|-0.081|-0.041||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline GSI as a covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis stated that there was no difference between the two groups.||-0.041|-0.081|<0.0001
92427979|NCT01751178|184743611|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|||<|0.0001|TWO_SIDED|95.0|-0.09|-0.05||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline GSI as a covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis stated that there was no difference between the two treatment groups.||-0.050|-0.090|<0.0001
92427980|NCT01751178|184743612|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.08|||<|0.0001|TWO_SIDED|95.0|-0.1|-0.05||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline GI as a covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis that there was no difference between the two treatment groups.||-0.05|-0.10|<0.0001
92427981|NCT01751178|184743612|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.08|||<|0.0001|TWO_SIDED|95.0|-0.11|-0.06||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline GI as a covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis stated that there was no difference between the two treatment groups.||-0.06|-0.11|<0.0001
92427982|NCT01751178|184743613|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-0.98|-0.62||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline Plaque as a covariate|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis stated that there was no difference between the two treatment groups in Overall Plaque scores.||-0.62|-0.98|<0.0001
92427983|NCT01751178|184743613|SUPERIORITY_OR_OTHER||Adusted Mean Difference|-0.86|||<|0.0001|TWO_SIDED|95.0|-1.04|-0.68||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline Plaque as a covariate|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis stated that there was no difference between the two treatment groups in Overall Plaque Scores.||-0.68|-1.04|<0.0001
92427984|NCT01751178|184743614|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.07|-0.69||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline Plaque as a covariate|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypotheses stated that there was no difference between the two treatments.||-0.69|-1.07|<0.0001
92427985|NCT01751178|184743614|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.16|-0.78||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline Plaque as a covariate|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypotheses stated that there was no difference between the two groups.||-0.78|-1.16|<0.0001
92427986|NCT04289623|184743615|SUPERIORITY||Odds Ratio (OR)|1.19||||0.007|TWO_SIDED|95.0|1.05|1.35||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the previously enrolled group with the standard email as the reference group.||1.35|1.05|.007
92427987|NCT04289623|184743615|SUPERIORITY||Odds Ratio (OR)|0.82||||0.287|TWO_SIDED|95.0|0.56|1.19||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the never enrolled group with the standard email as the reference group.||1.19|0.56|.287
92427988|NCT04289623|184743615|SUPERIORITY||Odds Ratio (OR)|1.05||||0.59|TWO_SIDED|95.0|0.87|1.27||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the previously enrolled group with the rank-and-file email as the reference group.||1.27|0.87|.590
92427989|NCT04289623|184743615|SUPERIORITY||Odds Ratio (OR)|1.86||||0.035|TWO_SIDED|95.0|1.05|3.32||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the never enrolled group with the rank-and-file email as the reference group.||3.32|1.05|.035
92427990|NCT04289623|184743616|SUPERIORITY||Odds Ratio (OR)|1.16||||0.085|TWO_SIDED|95.0|0.98|1.37||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the previously enrolled group with the standard email as the reference group.||1.37|0.98|.085
92427991|NCT04289623|184743616|SUPERIORITY||Odds Ratio (OR)|0.89||||0.569|TWO_SIDED|95.0|0.6|1.33||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the never enrolled group with the standard email as the reference group.||1.33|0.60|.569
92427992|NCT04289623|184743616|SUPERIORITY||Odds Ratio (OR)|0.79||||0.24|TWO_SIDED|95.0|0.54|1.17||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the previously enrolled group with the rank-and-file email as the reference group.||1.17|0.54|.240
92427993|NCT04289623|184743616|SUPERIORITY||Odds Ratio (OR)|0.94||||0.871|TWO_SIDED|95.0|0.45|1.95||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the never enrolled group with the rank-and-file email as the reference group.||1.95|0.45|.871
92427994|NCT01496248|184743618|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92427995|NCT01496248|184743619|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92427996|NCT01496248|184743620|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92427997|NCT01496248|184743621|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92170808|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|5.8|||=|0|TWO_SIDED|95.0|3.0|8.5|||Mixed Models Analysis|||Cycle 12 Day 1||8.5|3|=0.0000
92236787|NCT01380093|184377502|SUPERIORITY_OR_OTHER||LS Mean Difference|111.4|||<|0.0001|TWO_SIDED|95.0|70.6|152.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||152.2|70.6|<0.0001
92427998|NCT01496248|184743622|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92427999|NCT01496248|184743623|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92428000|NCT01496248|184743624|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92428001|NCT01496248|184743625|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92428002|NCT04138810|184743626|NON_INFERIORITY|We defined the non-inferiority margin to be 5 points which with a sample of size of 25 women per arm would mean we would have a type I error rate of 0.05 and a power of 0.80.|Mean Difference (Net)|0.46|||||TWO_SIDED|95.0|-1.95|1.03||||||||1.03|-1.95|
92428003|NCT03285984|184743634|SUPERIORITY||Mean Difference (Net)|-0.21|||<|0.0001|TWO_SIDED|95.0|-0.27|-0.15||From ANCOVA model with factors for treatment group, period and subject (random effect), and subject-level baseline and period-level baseline|ANCOVA||Difference is first named treatment minus second-named treatment such that a negative difference favors the first named treatment|||-0.15|-0.27|<.0001
92428004|NCT00413244|184743636|SUPERIORITY_OR_OTHER|||||||0.03|||||||log mean|||"Statistician used all the time points post-baseline together (Overall). The result gives the estimates and 95% CI of the treatment effect from longitudinal analyses (generalized estimating equation method) which basically pools data from all visits post-baseline."||||0.03
92428005|NCT02319837|184743652|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.424|||<|0.0001|TWO_SIDED|95.0|0.296|0.607||Statistical significance can be declared if p-value \<0.05.|Log Rank|||||0.607|0.296|<0.0001
92428006|NCT02319837|184743653|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.631||||0.0049|TWO_SIDED|95.0|0.456|0.871||Statistical significance can be declared if p-value \<0.03.|Log Rank|||||0.871|0.456|0.0049
92428007|NCT02319837|184743654|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.068|||<|0.0001|TWO_SIDED|95.0|0.033|0.141||Statistical significance can be declared if p-value \<0.02.|Log Rank|||||0.141|0.033|<0.0001
92428008|NCT02319837|184743654|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.331|||<|0.0001|TWO_SIDED|95.0|0.226|0.486||Statistical significance can be declared if p-value \<0.03.|Log Rank|||||0.486|0.226|<0.0001
92428009|NCT02319837|184743655|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.358|||<|0.0001|TWO_SIDED|95.0|0.263|0.488||Statistical significance can be declared if p-value \<0.02.|Log Rank|||||0.488|0.263|<0.0001
92428010|NCT02319837|184743655|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.411|0.709||Statistical significance can be declared if p-value \<0.03.|Log Rank|||||0.709|0.411|<0.0001
92428011|NCT02319837|184743657|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.443||||0.0002|TWO_SIDED|95.0|0.284|0.69|||Log Rank|||||0.690|0.284|0.0002
92428012|NCT02319837|184743657|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.614||||0.0171|TWO_SIDED|95.0|0.409|0.92|||Log Rank|||||0.920|0.409|0.0171
92428013|NCT02319837|184743658|OTHER||difference of percentage of participants|25.9|||<|0.0001|TWO_SIDED|95.0|20.7|31.0||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||31.0|20.7|<0.0001
92428014|NCT02319837|184743658|OTHER||difference of percentage of participants|18.8|||<|0.0001|TWO_SIDED|95.0|13.0|24.6||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||24.6|13.0|<0.0001
92170809|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|2.0|||=|0.1805|TWO_SIDED|95.0|-0.9|4.8|||Mixed Models Analysis|||Cycle 18 Day 1||4.8|-0.9|=0.1805
92428015|NCT02319837|184743659|OTHER||difference of percentage of participants|7.5||||0.0439|TWO_SIDED|95.0|-0.2|15.2||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||15.2|-0.2|0.0439
92428016|NCT02319837|184743659|OTHER||difference of percentage of participants|-12.9||||0.0004|TWO_SIDED|95.0|-19.8|-6.1||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||-6.1|-19.8|0.0004
92428017|NCT02319837|184743660|OTHER||difference of percentage of participants|7.2||||0.0089|TWO_SIDED|95.0|1.7|12.8||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||12.8|1.7|0.0089
92428018|NCT02319837|184743660|OTHER||difference of percentage of participants|-5.0||||0.0326|TWO_SIDED|95.0|-9.4|-0.6||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||-0.6|-9.4|0.0326
92428019|NCT02319837|184743661|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.693|||<|0.0001|TWO_SIDED|95.0|0.577|0.834|||Log Rank|||||0.834|0.577|<0.0001
92428020|NCT02319837|184743661|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|1.655|||<|0.0001|TWO_SIDED|95.0|1.381|1.984|||Log Rank|||||1.984|1.381|<0.0001
92428021|NCT02319837|184743662|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.09|||<|0.0001|TWO_SIDED|95.0|0.051|0.157|||Log Rank|||||0.157|0.051|<0.0001
92428022|NCT02319837|184743663|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.546|||<|0.0001|TWO_SIDED|95.0|0.427|0.699|||Log Rank|||||0.699|0.427|<0.0001
92428023|NCT02319837|184743663|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.619|||<|0.0001|TWO_SIDED|95.0|0.488|0.785|||Log Rank|||||0.785|0.488|<0.0001
92428024|NCT02319837|184743664|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.261||||0.0001|TWO_SIDED|95.0|0.125|0.548|||Log Rank|||||0.548|0.125|0.0001
92428025|NCT02319837|184743664|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.423||||0.0057|TWO_SIDED|95.0|0.226|0.794|||Log Rank|||||0.794|0.226|0.0057
92428026|NCT02319837|184743665|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|1.078||||0.4321|TWO_SIDED|95.0|0.894|1.301|||Log Rank|||||1.301|0.894|0.4321
92170810|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|2.7|||=|0.0783|TWO_SIDED|95.0|-0.3|5.7|||Mixed Models Analysis|||Cycle 24 Day 1||5.7|-0.3|=0.0783
92428027|NCT02319837|184743665|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|1.09||||0.3702|TWO_SIDED|95.0|0.904|1.314|||Log Rank|||||1.314|0.904|0.3702
92428028|NCT02319837|184743666|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|1.138||||0.1567|TWO_SIDED|95.0|0.954|1.357|||Log Rank|||||1.357|0.954|0.1567
92428029|NCT02319837|184743666|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|1.168||||0.0855|TWO_SIDED|95.0|0.981|1.391|||Log Rank|||||1.391|0.981|0.0855
92428030|NCT01961362|184743756|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_DEVIATION|0.87||0.6|TWO_SIDED|||||P\<0.05 considered to represent statistical significance.|t-test, 2 sided|||||||0.6
92428031|NCT01961362|184743756|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|1.2|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92428032|NCT01961362|184743757|SUPERIORITY||Median Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|1.2|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92428033|NCT01761175|184743801|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Chi-squared|||||||<0.01
92428034|NCT01761175|184743802|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Chi-squared|||||||<0.01
92428035|NCT01761175|184743803|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Log Rank|||||||<0.01
92428036|NCT01761175|184743804|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Log Rank|||||||<0.01
92428037|NCT01761175|184743805|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||||||0.02
92428038|NCT01761175|184743806|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92428039|NCT01761175|184743807|SUPERIORITY_OR_OTHER|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
92428040|NCT00467857|184743860|SUPERIORITY_OR_OTHER|||||||0.655||95.0|||||Wilcoxon-Rank Sum Test|||The sample size determination was selected to achieve 80% power to detect an absolute 10% difference between the two treatment groups in proportion of qualitative reduction in representative skin flora, at a significance level (alpha) of 0.05 using a two-sided z-test with continuity correction.||||0.655
92170811|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|2.4|||=|0.1422|TWO_SIDED|95.0|-0.8|5.5|||Mixed Models Analysis|||Cycle 30 Day 1||5.5|-0.8|=0.1422
92428041|NCT00467857|184743861|SUPERIORITY_OR_OTHER|||||||0.276||95.0|||||Wilcoxon-Rank Sum Test|||||||0.276
92170812|NCT02252172|184230534|SUPERIORITY||Least Square Mean|3.2|||=|0.0575|TWO_SIDED|95.0|-0.1|6.5|||Least Square Mean Difference|||Cycle 36 Day 1||6.5|-0.1|=0.0575
92428042|NCT00467857|184743862|SUPERIORITY_OR_OTHER|||||||0.375||95.0|||||Wilcoxon-Rank Sum Test|||||||0.375
92428043|NCT00467857|184743863|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Wilcoxon-Rank Sum Test|||||||0.039
92428044|NCT00467857|184743864|SUPERIORITY_OR_OTHER|||||||0.057||95.0|||||Wilcoxon-Rank Sum Test|||||||0.057
92428045|NCT00467857|184743865|SUPERIORITY_OR_OTHER|||||||0.646||95.0|||||Wilcoxon-Rank Sum Test|||||||0.646
92428046|NCT00467857|184743866|SUPERIORITY_OR_OTHER|||||||0.788||95.0|||||Wilcoxon-Rank Sum Test|||||||0.788
92428047|NCT00467857|184743867|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||Wilcoxon-Rank Sum Test|||||||0.960
92428048|NCT00467857|184743868|SUPERIORITY_OR_OTHER|||||||0.359||95.0|||||Wilcoxon-Rank Sum Test|||The sample size determination was selected to achieve 80% power to detect an absolute 10% difference between the two treatment groups in proportion of qualitative reduction in representative skin flora, at a significance level (alpha) of 0.05 using a two-sided z-test with continuity correction.||||0.359
92428049|NCT00467857|184743869|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Wilcoxon-Rank Sum Test|||||||0.730
92428050|NCT00467857|184743870|SUPERIORITY_OR_OTHER|||||||0.348||95.0|||||Wilcoxon-Rank Sum Test|||||||0.348
92428051|NCT00467857|184743871|SUPERIORITY_OR_OTHER|||||||0.512||95.0|||||Wilcoxon-Rank Sum Test|||||||0.512
92428052|NCT00467857|184743872|SUPERIORITY_OR_OTHER|||||||0.285||95.0|||||Chi-squared|||||||0.285
92428053|NCT00467857|184743873|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Fisher Exact|||||||0.024
92428054|NCT03576495|184743882|SUPERIORITY|"We conducted a superiority statistical test to assess if residents' knowledge improved after exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum on resident knowledge, resident knowledge was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups."|Mean Difference (Final Values)|2.6||||0.2422|TWO_SIDED|||||This p-value compares the average scores (in percent) of the residents' knowledge assessment at time period 2 between the Early Intervention and Delayed Intervention groups.|t-test, 2 sided|||||||0.2422
92428055|NCT03576495|184743883|SUPERIORITY||Difference between percentage|0.0||||1|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if residents' preparation for caring for culturally diverse patients improved after exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum on resident preparedness assessed by the Cross-Cultural Care Survey, resident preparedness was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups."||||1.000
92428056|NCT03576495|184743884|SUPERIORITY||Percent difference|0.9||||0.6295|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if residents' self-assessed skills improved after exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum on resident skills, resident skills were compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups."||||0.6295
92428057|NCT03576495|184743885|SUPERIORITY||Difference between percentage|2.5||||0.0199|TWO_SIDED||||||Fisher Exact|||"We conducted a superiority statistical test to assess if residents' beliefs improved after exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum on resident beliefs, beliefs were compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups."||||0.0199
92428058|NCT03576495|184743886|SUPERIORITY||difference in the percentage|2.2||||0.2665|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if residents' OSCE performance improved after exposure to the PACTS curriculum. OSCE performance was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in the percentage of residents designated mostly and a great deal on Limited English Proficiency and Informed Consent OSCE."||||0.2665
92428059|NCT03576495|184743886|SUPERIORITY||difference in the percentage|6.2||||0.0001|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if residents' OSCE performance improved after exposure to the PACTS curriculum. OSCE performance was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in the percentage of residents designated mostly and a great deal on Trust and Pain."||||0.0001
92428060|NCT03576495|184743887|SUPERIORITY||absolute difference between percentage|3.19||||0.5079|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if patient satisfaction improved after resident exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum, patient satisfaction was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in proportion of patients who reported agree and strongly agree for satisfaction as it relates to trust at time period 2."||||0.5079
92428061|NCT03576495|184743887|SUPERIORITY||absolute difference between percentage|1.92||||0.1571|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if patient satisfaction improved after resident exposure to the PACTS curriculum. For purposes of measuring an effect of the curriculum, patient satisfaction was compared at Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in proportion of patients who reported agree and strongly agree for satisfaction as it relates to limited English proficiency at period 2."||||0.1571
92428062|NCT03576495|184743887|SUPERIORITY||absolute difference between percentage|4.76||||0.0001|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if patient satisfaction improved after resident exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum, patient satisfaction was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in proportion of patients who reported agree and strongly agree for satisfaction as it relates to consent at time period 2."||||0.0001
92428063|NCT03576495|184743887|SUPERIORITY||absolute difference between percentage|0.19||||0.2956|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if patient satisfaction improved after resident exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum, patient satisfaction was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in proportion of patients who reported agree and strongly agree for satisfaction as it relates to pain at time period 2."||||0.2956
92428064|NCT03576495|184743888|SUPERIORITY||Cox Proportional Hazard|5.31||||0.0028|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||We used Cox Proportional Hazard to assess time to discharge, with 5.31 days as the estimated value for the difference between the two groups.|"We conducted a superiority statistical test to assess if patients length of stay improved after resident exposure to the PACTS curriculum. Patient length of stay was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups to measure an effect of the PACTS intervention."||||0.0028
92428065|NCT02628938|184743892|SUPERIORITY_OR_OTHER|||||||0.299|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 15 minutes of the first use of Miswak extract mouth wash||||0.299
92428066|NCT02628938|184743892|SUPERIORITY_OR_OTHER|||||||0.007|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 7 days of using Miswak extract mouth wash||||0.007
92428067|NCT02628938|184743892|SUPERIORITY_OR_OTHER|||||||0.019|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 15 minutes of the first use of Miswak sticks||||0.019
92170813|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|1.1|||=|0.5339|TWO_SIDED|95.0|-2.4|4.5|||Mixed Models Analysis|||Cycle 42 Day 1||4.5|-2.4|=0.5339
92428068|NCT02628938|184743892|SUPERIORITY_OR_OTHER|||||||0|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 7 days of using Miswak sticks||||0.000
92428069|NCT02628938|184743892|SUPERIORITY_OR_OTHER|||||||0|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 15 minutes of the first use of Chlorohexidine gluconate mouth wash||||0.000
92428070|NCT02628938|184743892|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 7 days of using Chlorohexidine gluconate mouth wash||||0.001
92170814|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|1.3|||=|0.5015|TWO_SIDED|95.0|-2.4|5.0|||Mixed Models Analysis|||Cycle 48 Day 1||5|-2.4|=0.5015
92428071|NCT02628938|184743893|SUPERIORITY_OR_OTHER|||||||0.496|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 15 minutes of the first use of Miswak extract mouth wash||||0.496
92428072|NCT02628938|184743893|SUPERIORITY_OR_OTHER|||||||0.244|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 7 days of using Miswak extract mouth wash||||0.244
92428073|NCT02628938|184743893|SUPERIORITY_OR_OTHER|||||||0.19|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 15 minutes of the first use of Miswak sticks||||0.19
92428074|NCT02628938|184743893|SUPERIORITY_OR_OTHER|||||||0.829|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 7 days of of using Miswak sticks||||0.829
92170815|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|2.3|||=|0.2512|TWO_SIDED|95.0|-1.7|6.3|||Mixed Models Analysis|||Cycle 54 Day 1||6.3|-1.7|=0.2512
92170816|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|-0.5|||=|0.8246|TWO_SIDED|95.0|-5.1|4.1|||Mixed Models Analysis|||Cycle 60 Day 1||4.1|-5.1|=0.8246
92428075|NCT02628938|184743893|SUPERIORITY_OR_OTHER|||||||0.341|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 15 minutes of the first use of Chlorohexidine gluconate mouth wash||||0.341
92428076|NCT02628938|184743893|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 7 days of using Chlorohexidine gluconate mouth wash||||0.82
92428077|NCT02628938|184743894|SUPERIORITY_OR_OTHER|||||||0.008|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Self-assessment scores after 7 days of using Miswak extract mouth wash||||0.008
92428078|NCT02628938|184743894|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Self-assessment scores after 7 days of using Miswak sticks||||0.001
92428079|NCT02628938|184743894|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Self-assessment scores after 7 days of using Chlorohexidine gluconate mouth wash||||0.02
92428080|NCT03855228|184743906|SUPERIORITY|||||||0.36|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.36
92428081|NCT03855228|184743906|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428082|NCT03855228|184743906|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428083|NCT03855228|184743906|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92170817|NCT02252172|184230534|SUPERIORITY||Least Square Mean Difference|-1.3|||=|0.664|TWO_SIDED|95.0|-7.0|4.5|||Mixed Models Analysis|||Cycle 66 Day 1||4.5|-7|=0.6640
92428084|NCT03855228|184743906|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428085|NCT03855228|184743906|SUPERIORITY|||||||0.02|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.02
92428086|NCT03855228|184743907|SUPERIORITY|||||||0.35|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.35
92428087|NCT03855228|184743907|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92170818|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.016|||=|0.3069|TWO_SIDED|95.0|-0.015|0.046|||Mixed Models Analysis|||Cycle 3 Day 1||0.046|-0.015|=0.3069
92428088|NCT03855228|184743907|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428089|NCT03855228|184743907|SUPERIORITY|||||||0.03|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.03
92428090|NCT03855228|184743907|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428091|NCT03855228|184743907|SUPERIORITY|||||||0.02|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.02
92428092|NCT03855228|184743908|SUPERIORITY|||||||0.77|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.77
92428093|NCT03855228|184743908|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428094|NCT03855228|184743908|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428095|NCT03855228|184743908|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428096|NCT03855228|184743908|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428097|NCT03855228|184743908|SUPERIORITY|||||||0.45|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.45
92428098|NCT03855228|184743909|SUPERIORITY|||||||0.99|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.99
92428099|NCT03855228|184743909|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428100|NCT03855228|184743909|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428101|NCT03855228|184743909|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92170819|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.019|||=|0.2472|TWO_SIDED|95.0|-0.013|0.05|||Mixed Models Analysis|||Cycle 6 Day 1||0.05|-0.013|=0.2472
92170820|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.011|||=|0.4972|TWO_SIDED|95.0|-0.021|0.044|||Mixed Models Analysis|||Cycle 9 Day 1||0.044|-0.021|=0.4972
92428102|NCT03855228|184743909|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428103|NCT03855228|184743909|SUPERIORITY|||||||0.08|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.08
92428104|NCT03855228|184743910|SUPERIORITY|||||||0.85|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.85
92428105|NCT03855228|184743910|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428106|NCT03855228|184743910|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428107|NCT03855228|184743910|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428108|NCT03855228|184743910|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428109|NCT03855228|184743910|SUPERIORITY|||||||0.17|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.17
92428110|NCT03855228|184743911|SUPERIORITY|||||||0.88|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.88
92428111|NCT03855228|184743911|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428112|NCT03855228|184743911|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428113|NCT03855228|184743911|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428114|NCT03855228|184743911|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428115|NCT03855228|184743911|SUPERIORITY|||||||0.22|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.22
92428116|NCT03855228|184743912|SUPERIORITY|||||||0.65|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.65
92428117|NCT03855228|184743912|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428118|NCT03855228|184743912|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428119|NCT03855228|184743912|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428120|NCT03855228|184743912|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428121|NCT03855228|184743912|SUPERIORITY|||||||0.92|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.92
92428122|NCT03855228|184743913|SUPERIORITY|||||||0.95|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.95
92428123|NCT03855228|184743913|SUPERIORITY|||||||0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.01
92170821|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.029|||=|0.0841|TWO_SIDED|95.0|-0.004|0.062|||Mixed Models Analysis|||Cycle 12 Day 1||0.062|-0.004|=0.0841
92428124|NCT03855228|184743913|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92428125|NCT03855228|184743913|SUPERIORITY|||||||0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.01
92428126|NCT03855228|184743913|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
92170822|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.027|||=|0.1296|TWO_SIDED|95.0|-0.008|0.062|||Mixed Models Analysis|||Cycle 18 Day 1||0.062|-0.008|=0.1296
92428127|NCT03855228|184743913|SUPERIORITY|||||||0.58|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.58
92428128|NCT03855228|184743914|SUPERIORITY|||||||0.29|||||||ANOVA|||||||0.29
92428129|NCT03855228|184743914|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92428130|NCT03855228|184743914|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92170823|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.033|||=|0.0762|TWO_SIDED|95.0|-0.003|0.07|||Mixed Models Analysis|||Cycle 24 Day 1||0.07|-0.003|=0.0762
92170824|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.014|||=|0.4859|TWO_SIDED|95.0|-0.025|0.052|||Mixed Models Analysis|||Cycle 30 Day 1||0.052|-0.025|=0.4859
92428131|NCT03855228|184743914|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92428132|NCT03855228|184743914|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92428133|NCT03855228|184743914|SUPERIORITY|||||||0.8|||||||ANOVA|||||||0.80
92428134|NCT03855228|184743915|SUPERIORITY|||||||0.41|||||||ANOVA|||||||0.41
92428135|NCT03855228|184743915|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92428136|NCT03855228|184743915|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92428137|NCT03855228|184743915|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92428138|NCT03855228|184743915|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92428139|NCT03855228|184743915|SUPERIORITY|||||||0.08|||||||ANOVA|||||||0.08
92428140|NCT02993757|184743916|OTHER||GMT ratio|0.982|||||TWO_SIDED|95.0|0.664|1.45||||||Antigen HPV-6||1.45|0.664|
92428141|NCT02993757|184743916|OTHER||GMT ratio|0.804|||||TWO_SIDED|95.0|0.626|1.03||||||Antigen HPV-11||1.03|0.626|
92428142|NCT02993757|184743916|OTHER||GMT ratio|0.815|||||TWO_SIDED|95.0|0.608|1.09||||||Antigen HPV-16||1.09|0.608|
92428143|NCT02993757|184743916|OTHER||GMT ratio|0.795|||||TWO_SIDED|95.0|0.603|1.05||||||Antigen HPV-18||1.05|0.603|
92428144|NCT02993757|184743917|OTHER||GMT ratio|0.987|||||TWO_SIDED|95.0|0.574|1.7||||||Serotype 1||1.70|0.574|
92428145|NCT02993757|184743917|OTHER||GMT ratio|0.783|||||TWO_SIDED|95.0|0.5|1.22||||||Serotype 2||1.22|0.500|
92428146|NCT02993757|184743917|OTHER||GMT ratio|0.836|||||TWO_SIDED|95.0|0.568|1.23||||||Serotype 3||1.23|0.568|
92428147|NCT02993757|184743917|OTHER||GMT ratio|1.07|||||TWO_SIDED|95.0|0.813|1.4||||||Serotype 4||1.40|0.813|
92428148|NCT00087607|184743938|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.978|TWO_SIDED|95.0|-0.35|0.36|||t-test, 2 sided|||Mean treatment difference was tested using a two-sided t-test.||0.36|-0.35|0.978
92428149|NCT00087607|184743939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.08|TWO_SIDED|95.0|-0.03|0.58|||t-test, 2 sided|||At Week 4: Mean treatment difference was tested using a two-sided t-test.||0.58|-0.03|0.080
92428150|NCT00087607|184743939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.688|TWO_SIDED|95.0|-0.27|0.41|||t-test, 2 sided|||At Week 8: Mean treatment difference was tested using a two-sided t-test.||0.41|-0.27|0.688
92428151|NCT00087607|184743943|SUPERIORITY_OR_OTHER|||||||0.304|TWO_SIDED||||||ANOVA|||The treatment groups were compared using an analysis of variance (ANOVA) with treatment as the only factor in the model.||||0.304
92428152|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-3.1||||0.2814|TWO_SIDED|95.0|-8.6|2.5|||Chi-squared|||Week 1: Treatment groups were compared using the Chi-Square Test.||2.5|-8.6|0.2814
92428153|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-10.3||||0.0214|TWO_SIDED|95.0|-18.9|-1.6|||Chi-squared|||Week 2: Treatment groups were compared using the Chi-Square Test.||-1.6|-18.9|0.0214
92428154|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-10.7||||0.0315|TWO_SIDED|95.0|-20.3|-1.0|||Chi-squared|||Week 3: Treatment groups were compared using the Chi-Square Test.||-1.0|-20.3|0.0315
92428155|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-7.4||||0.1467|TWO_SIDED|95.0|-17.4|2.6|||Chi-squared|||Week 4: Treatment groups were compared using the Chi-Square Test.||2.6|-17.4|0.1467
92428156|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-6.8||||0.1823|TWO_SIDED|95.0|-16.9|3.2|||Chi-squared|||Week 5: Treatment groups were compared using the Chi-Square Test.||3.2|-16.9|0.1823
92428157|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-2.1||||0.6871|TWO_SIDED|95.0|-12.1|8.0|||Chi-squared|||Week 6: Treatment groups were compared using the Chi-Square Test.||8.0|-12.1|0.6871
92428158|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-0.4||||0.9295|TWO_SIDED|95.0|-10.4|9.5|||Chi-squared|||Week 7: Treatment groups were compared using the Chi-Square Test.||9.5|-10.4|0.9295
92428159|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|2.2||||0.6593|TWO_SIDED|95.0|-7.6|12.1|||Chi-squared|||Week 8: Treatment groups were compared using the Chi-Square Test.||12.1|-7.6|0.6593
92236788|NCT01380093|184377503|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.7|||<|0.0001|TWO_SIDED|95.0|-16.4|-7.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-7.0|-16.4|<0.0001
92428160|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|2.2||||0.6637|TWO_SIDED|95.0|-7.7|12.1|||Chi-squared|||Week 9: Treatment groups were compared using the Chi-Square Test.||12.1|-7.7|0.6637
92428161|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|5.4||||0.276|TWO_SIDED|95.0|-4.3|15.1|||Chi-squared|||Week 10: Treatment groups were compared using the Chi-Square Test.||15.1|-4.3|0.2760
92428162|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|5.4||||0.2779|TWO_SIDED|95.0|-4.3|15.1|||Chi-squared|||Week 11: Treatment groups were compared using the Chi-Square Test.||15.1|-4.3|0.2779
92428163|NCT00087607|184743945|SUPERIORITY_OR_OTHER||Difference in proportion of participants|2.8||||0.5697|TWO_SIDED|95.0|-6.8|12.4|||Chi-squared|||Week 12: Treatment groups were compared using the Chi-Square Test.||12.4|-6.8|0.5697
92428164|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|0.0||||0.994|TWO_SIDED|95.0|-1.4|1.5|||Chi-squared|||Week 1: Treatment groups were compared using the Chi-Square Test.||1.5|-1.4|0.9940
92428165|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-0.5||||0.7133|TWO_SIDED|95.0|-3.2|2.2|||Chi-squared|||Week 2: Treatment groups were compared using the Chi-Square Test.||2.2|-3.2|0.7133
92428166|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-3.6||||0.0864|TWO_SIDED|95.0|-7.8|0.5|||Chi-squared|||Week 3: Treatment groups were compared using the Chi-Square Test.||0.5|-7.8|0.0864
92428167|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-4.1||||0.1713|TWO_SIDED|95.0|-10.0|1.8|||Chi-squared|||Week 4: Treatment groups were compared using the Chi-Square Test.||1.8|-10.0|0.1713
92428168|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-4.6||||0.1888|TWO_SIDED|95.0|-11.4|2.2|||Chi-squared|||Week 5: Treatment groups were compared using the Chi-Square Test.||2.2|-11.4|0.1888
92428169|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-6.6||||0.108|TWO_SIDED|95.0|-14.7|1.4|||Chi-squared|||Week 6: Treatment groups were compared using the Chi-Square Test.||1.4|-14.7|0.1080
92428170|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-4.5||||0.3099|TWO_SIDED|95.0|-13.1|4.2|||Chi-squared|||Week 7: Treatment groups were compared using the Chi-Square Test.||4.2|-13.1|0.3099
92236789|NCT01380093|184377503|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2||||0.0811|TWO_SIDED|95.0|-0.5|8.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||8.9|-0.5|0.0811
92428171|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-3.4||||0.4595|TWO_SIDED|95.0|-12.4|5.6|||Chi-squared|||Week 8: Treatment groups were compared using the Chi-Square Test.||5.6|-12.4|0.4595
92236790|NCT01380093|184377503|SUPERIORITY_OR_OTHER||LS Mean Difference|15.9|||<|0.0001|TWO_SIDED|95.0|11.1|20.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||20.6|11.1|<0.0001
92428172|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-6.0||||0.2144|TWO_SIDED|95.0|-15.4|3.4|||Chi-squared|||Week 9: Treatment groups were compared using the Chi-Square Test.||3.4|-15.4|0.2144
92428173|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-5.4||||0.2779|TWO_SIDED|95.0|-15.1|4.3|||Chi-squared|||Week 10: Treatment groups were compared using the Chi-Square Test.||4.3|-15.1|0.2779
92428174|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-2.7||||0.5876|TWO_SIDED|95.0|-12.6|7.1|||Chi-squared|||Week 11: Treatment groups were compared using the Chi-Square Test.||7.1|-12.6|0.5876
92428175|NCT00087607|184743946|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-4.8||||0.3399|TWO_SIDED|95.0|-14.7|5.1|||Chi-squared|||Week 12: Treatment groups were compared using the Chi-Square Test.||5.1|-14.7|0.3399
92428176|NCT00087607|184743951|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Repeated measures analysis|The P-value is determined from a repeated measures analysis with terms for treatment group, baseline, week, and the week-by-treatment interaction.||Week 1: The treatment groups were compared using repeated measures analysis||||0.024
92428177|NCT00087607|184743951|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Repeated measures analysis|||Week 8: The treatment groups were compared using Repeated measures analysis||||<0.001
92428178|NCT02015754|184743963|OTHER|||||||0.004||||||Differences of p-value \< 0.05 considered statistically significant.|Regression, Cox|||Multivariate Cox-regression analysis to identify independent prognostic factors for overall survival from baseline characteristics. Relative risk with 95% confidence intervals calculated as measure of association.||||0.004
92428179|NCT02015754|184743970|OTHER|VEGF immediately post treatment||||||0.6257|||||||one-sample Wilcoxon signed rank test|||||||0.6257
92428180|NCT02015754|184743970|OTHER|VEGF at 24 hours post treatment.||||||0.4143|||||||one-sample Wilcoxon signed rank test|||||||0.4143
92428181|NCT02015754|184743970|OTHER|VEGFR1 immediately post treatment.||||||0.583|||||||one-sample Wilcoxon signed rank test|||||||0.583
92428182|NCT02015754|184743970|OTHER|VEGFR1 at 24 hours post treatment.||||||0.0012|||||||one-sample Wilcoxon signed rank test|||||||.0012
92428183|NCT02015754|184743970|OTHER|VEGFR2 immediately post treatment.||||||0.1353|||||||one-sample Wilcoxon signed rank test|||||||0.1353
92428184|NCT02015754|184743970|OTHER|VEGFR2 at 24 hours post treatment.||||||0.2163|||||||one-sample Wilcoxon signed rank test|||||||0.2163
92428185|NCT02229383|184743971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.101|<|0.001|TWO_SIDED|95.0|-0.94|-0.54|||Mixed Models Analysis|Treatment, region, baseline HbA1c (\< or ≥ 9.0%), baseline SU-use, week, treatment by week interaction as fixed factors; baseline value as covariate.||||-0.54|-0.94|<0.001
92428186|NCT02229383|184743972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52|STANDARD_ERROR_OF_MEAN|0.341|<|0.001|TWO_SIDED|95.0|-2.19|-0.85|||Mixed Models Analysis|Treatment, region, baseline HbA1c (\< or ≥ 9.0%), baseline SU-use, week, treatment by week interaction as fixed factors; baseline value as covariate.||||-0.85|-2.19|<0.001
92428187|NCT02229383|184743973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.76|STANDARD_ERROR_OF_MEAN|5.754|<|0.001|TWO_SIDED|95.0|-39.07|-16.45|||ANCOVA|Treatment, region, baseline HbA1c (\< or ≥ 9.0%), baseline SU-use (yes vs. no) as fixed factors; baseline value as covariate.||||-16.45|-39.07|<0.001
92170825|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.011|||=|0.6031|TWO_SIDED|95.0|-0.029|0.051|||Mixed Models Analysis|||Cycle 36 Day 1||0.051|-0.029|=0.6031
92428188|NCT02229383|184743974|SUPERIORITY_OR_OTHER||Difference in percentages|25.6|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%) and baseline SU-use (yes vs. no).||||||<0.001
92428189|NCT02229383|184743975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|1.08||0.074|TWO_SIDED|95.0|-4.1|0.2|||Mixed Models Analysis|Treatment, region, baseline HbA1c (\< or ≥ 9.0%), baseline SU-use, week, treatment by week interaction as fixed factors; baseline value as covariate.||||0.2|-4.1|0.074
92428190|NCT02229383|184743976|SUPERIORITY_OR_OTHER||Difference in percentages|20.0|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%) and baseline SU-use (yes vs. no).||||||<0.001
92428191|NCT02229383|184743977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|1.13||0.11|TWO_SIDED|95.0|-4.0|0.4|||Mixed Models Analysis|Treatment, region, baseline HbA1c (\< or ≥ 9.0%), baseline SU-use, week, treatment by week interaction as fixed factors; baseline value as covariate.||||0.4|-4.0|0.110
92428192|NCT02400333|184743998|SUPERIORITY_OR_OTHER||Geometric mean ratio|84.85|||||TWO_SIDED|90.0|76.77|93.78||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||93.78|76.77|
92428193|NCT02400333|184743998|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.61|||||TWO_SIDED|95.0|88.22|105.79||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||105.79|88.22|
92428194|NCT02400333|184743998|SUPERIORITY_OR_OTHER||Geometric mean ratio|92.16|||||TWO_SIDED|95.0|85.59|99.25||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||99.25|85.59|
92428195|NCT02400333|184743998|SUPERIORITY_OR_OTHER||Geometric mean ratio|89.84|||||TWO_SIDED|95.0|82.03|98.39||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||98.39|82.03|
92428196|NCT02400333|184743998|SUPERIORITY_OR_OTHER||Geometric mean ratio|97.45|||||TWO_SIDED|95.0|90.53|104.9||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||104.90|90.53|
92428197|NCT02400333|184743998|SUPERIORITY_OR_OTHER||Geometric mean ratio|97.07|||||TWO_SIDED|95.0|90.83|103.74||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||103.74|90.83|
92428198|NCT02400333|184743999|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.04|||||TWO_SIDED|95.0|90.33|99.99||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||99.99|90.33|
92428199|NCT02400333|184743999|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.41|||||TWO_SIDED|95.0|89.94|101.21||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||101.21|89.94|
92428200|NCT02400333|184743999|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.66|||||TWO_SIDED|95.0|90.53|98.98||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||98.98|90.53|
92428201|NCT02400333|184743999|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.67|||||TWO_SIDED|95.0|90.94|98.56||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||98.56|90.94|
92170826|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.051|||=|0.0178|TWO_SIDED|95.0|0.009|0.093|||Mixed Models Analysis|||Cycle 42 Day 1||0.093|0.009|=0.0178
92170827|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.007|||=|0.746|TWO_SIDED|95.0|-0.038|0.053|||Mixed Models Analysis|||Cycle 48 Day 1||0.053|-0.038|=0.7460
92170828|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.037|||=|0.1394|TWO_SIDED|95.0|-0.012|0.086|||Mixed Models Analysis|||Cycle 54 Day 1||0.086|-0.012|=0.1394
92428202|NCT02400333|184743999|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.0|||||TWO_SIDED|95.0|91.87|100.33||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||100.33|91.87|
92428203|NCT02400333|184743999|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.56|||||TWO_SIDED|95.0|93.08|100.17||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||100.17|93.08|
92428204|NCT02400333|184744000|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.96|||||TWO_SIDED|95.0|90.27|99.89||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||99.89|90.27|
92428205|NCT02400333|184744000|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.24|||||TWO_SIDED|95.0|89.81|100.99||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||100.99|89.81|
92428206|NCT02400333|184744000|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.4|||||TWO_SIDED|95.0|90.26|98.73||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||98.73|90.26|
92428207|NCT02400333|184744000|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.82|||||TWO_SIDED|95.0|91.36|98.42||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||98.42|91.36|
92428208|NCT02400333|184744000|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.71|||||TWO_SIDED|95.0|91.78|99.82||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||99.82|91.78|
92236791|NCT01380093|184377504|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5||||0.0007|TWO_SIDED|95.0|-3.8|-1.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.1|-3.8|0.0007
92236792|NCT01380093|184377504|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0||||0.1631|TWO_SIDED|95.0|-0.4|2.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.3|-0.4|0.1631
92170829|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.011|||=|0.6982|TWO_SIDED|95.0|-0.045|0.068|||Mixed Models Analysis|||Cycle 60 Day 1||0.068|-0.045|=0.6982
92170830|NCT02252172|184230535|SUPERIORITY||Least Square Mean Difference|0.069|||=|0.0543|TWO_SIDED|95.0|-0.001|0.14|||Mixed Models Analysis|||Cycle 66 Day 1||0.14|-0.001|=0.0543
92170831|NCT03830866|184230538|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.174|TWO_SIDED|95.0|0.65|1.08|||Log Rank|||||1.08|0.65|0.174
92170832|NCT03830866|184230539|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.203|TWO_SIDED|95.0|0.64|1.1|||Log Rank|||||1.10|0.64|0.203
92236793|NCT01380093|184377504|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4|||<|0.0001|TWO_SIDED|95.0|2.1|4.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.8|2.1|<0.0001
92236794|NCT01380093|184377505|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.2||||0.2117|TWO_SIDED|95.0|-3.1|0.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.7|-3.1|0.2117
92236795|NCT01380093|184377505|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1||||0.0345|TWO_SIDED|95.0|0.2|4.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.0|0.2|0.0345
92236796|NCT01380093|184377505|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3||||0.0011|TWO_SIDED|95.0|1.4|5.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.2|1.4|0.0011
92236797|NCT01380093|184377506|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.2||||0.0002|TWO_SIDED|95.0|-18.4|-6.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-6.0|-18.4|0.0002
92236798|NCT01380093|184377506|SUPERIORITY_OR_OTHER||LS Mean Difference|8.4||||0.0081|TWO_SIDED|95.0|2.3|14.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||14.6|2.3|0.0081
92236799|NCT01380093|184377506|SUPERIORITY_OR_OTHER||LS Mean Difference|20.6|||<|0.0001|TWO_SIDED|95.0|14.4|26.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||26.8|14.4|<0.0001
92428209|NCT02400333|184744000|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.5|||||TWO_SIDED|95.0|93.26|99.87||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||99.87|93.26|
92428210|NCT01650844|184744023|OTHER|We estimated the power to detect the smallest clinically significant difference in mean SFDs post intervention between the groups, accounting for repeated measures. A sample of 400 obtains greater than 90% power to detect a difference of 0.8 SFD per 2 weeks or greater. Analyses were multivariable modified intention to treat, including all participants with post intervention data. Generalized estimating equation (GEE) models were fitted with repeated asthma outcomes.|Mean Difference (Net)|0.8|STANDARD_DEVIATION|2.8|<|0.05|TWO_SIDED|||||Analyses were multivariable modified intention to treat, including all participants with post intervention data. Generalized estimating equation (GEE) models were fitted with repeated asthma outcomes.|Regression, Linear|||||||<0.05
92428211|NCT01687998|184744024|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.006||||0.9054|TWO_SIDED|95.0|0.911|1.111|||Regression, Cox|||Primary Endpoint: Time to First Occurrence of the Composite Primary Endpoint of Cardiovascular (CV) Death, Myocardial Infarction (MI), Stroke, Coronary Revascularization, or Hospitalization for Unstable Angina (UA)||1.111|0.911|0.9054
92428212|NCT01687998|184744025|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-37.11|||<|0.0001|TWO_SIDED|95.0|-38.15|-36.08|||ANOVA|||LDL-C||-36.08|-38.15|<0.0001
92428213|NCT01687998|184744025|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|131.55|||<|0.0001|TWO_SIDED|95.0|130.01|133.09|||ANOVA|||HDL-C||133.09|130.01|<0.0001
92428214|NCT01687998|184744026|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.991||||0.8463|TWO_SIDED|95.0|0.901|1.089|||Regression, Cox|||Time to First Occurrence of the Composite Endpoint of All-Cause Mortality, MI, Stroke, Coronary Revascularization, or Hospitalization for UA||1.089|0.901|0.8463
92428215|NCT01687998|184744027|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.001||||0.9874|TWO_SIDED|95.0|0.901|1.112|||Regression, Cox|||Time to First Occurrence of the Composite Endpoint of CV Death, MI, or Coronary Revascularization||1.112|0.901|0.9874
92428216|NCT01687998|184744028|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.003||||0.9574|TWO_SIDED|95.0|0.893|1.127|||Regression, Cox|||Time to First Occurrence of the Composite Endpoint of CV Death, MI, Stroke, or Hospitalization for UA||1.127|0.893|0.9574
92428217|NCT01687998|184744029|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.965||||0.5917|TWO_SIDED|95.0|0.846|1.1|||Regression, Cox|||Time to First Occurrence of Triple Composite Endpoint of CV Death, MI, or Stroke||1.100|0.846|0.5917
92170833|NCT03830866|184230541|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.091|TWO_SIDED|95.0|0.6|1.04|||Log Rank|||||1.04|0.60|0.091
92170834|NCT03830866|184230542|SUPERIORITY||Odds Ratio (OR)|1.15||||0.465|TWO_SIDED|95.0|0.794|1.657|||Regression, Logistic|||||1.657|0.794|0.465
92170835|NCT03830866|184230543|SUPERIORITY||Odds Ratio (OR)|1.11||||0.469|TWO_SIDED|95.0|0.833|1.487|||Regression, Logistic|||||1.487|0.833|0.469
92236800|NCT01380093|184377507|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.2|||<|0.0001|TWO_SIDED|95.0|-55.6|-20.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-20.8|-55.6|<0.0001
92170836|NCT00041938|184230551|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.4|TWO_SIDED|95.0|0.79|1.1||The primary null hypotheses was tested at two-tailed alpha=0.05. A Haybittle-Peto interim monitoring procedure was performed with stopping boundaries for the interim analyses corresponding to a nominal two-tailed P value of 0.001.|Regression, Cox|Cox models stratified by site, New York Heart Association class (I vs. II-IV), and status w/ respect to recent stroke or Transient Ischemic Attack.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|The primary null hypothesis: time to first event in the composite primary endpoint does not differ significantly between warfarin and aspirin. The original target sample size was 2860, providing 89% power for a log-rank test with two-sided alpha .05, assuming a hazard rate reduction of 17.82% in either group compared with the other, after adjustment for use of beta-blockers and allowance for discontinuation of therapy, dropout, and crossover. The final sample of 2305 patients yielded 69% power.||1.10|0.79|0.40
92236801|NCT01380093|184377507|SUPERIORITY_OR_OTHER||LS Mean Difference|34.4||||0.0002|TWO_SIDED|95.0|17.0|51.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||51.7|17.0|0.0002
92236802|NCT01380093|184377507|SUPERIORITY_OR_OTHER||LS Mean Difference|72.6|||<|0.0001|TWO_SIDED|95.0|55.2|90.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||90.0|55.2|<0.0001
92428218|NCT01663532|184744032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9||||0.0005|TWO_SIDED|95.0|-6.1|-1.7||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 1.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-1.7|-6.1|0.0005
92428219|NCT01663532|184744032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0|||<|0.0001|TWO_SIDED|95.0|-10.0|-4.0||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 2.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-4.0|-10.0|<.0001
92428220|NCT01663532|184744032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2|||<|0.0001|TWO_SIDED|95.0|-12.8|-5.6||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at week 4.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-5.6|-12.8|<.0001
92428221|NCT01663532|184744032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1|||<|0.0001|TWO_SIDED|95.0|-15.0|-7.3||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 6.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-7.3|-15.0|<.0001
92428222|NCT01663532|184744032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.0|||<|0.0001|TWO_SIDED|95.0|-18.4|-9.6||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 8.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-9.6|-18.4|<.0001
92236803|NCT01380093|184377508|SUPERIORITY_OR_OTHER||LS Mean Difference|-100.3|||<|0.0001|TWO_SIDED|95.0|-142.2|-58.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-58.4|-142.2|<0.0001
92236804|NCT01380093|184377508|SUPERIORITY_OR_OTHER||LS Mean Difference|93.9|||<|0.0001|TWO_SIDED|95.0|52.1|135.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||135.7|52.1|<0.0001
92236805|NCT01380093|184377508|SUPERIORITY_OR_OTHER||LS Mean Difference|194.2|||<|0.0001|TWO_SIDED|95.0|152.3|236.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||236.1|152.3|<0.0001
92428223|NCT01663532|184744032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.1|||<|0.0001|TWO_SIDED|95.0|-19.4|-10.8||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 10.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-10.8|-19.4|<.0001
92428224|NCT01663532|184744033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.0001|TWO_SIDED|95.0|-0.4|-0.1||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 1.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.1|-0.4|0.0001
92428225|NCT01663532|184744033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.2||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 2.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.2|-0.6|<.0001
92428226|NCT01663532|184744033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 4.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.4|-0.7|<.0001
92446527|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-0.61|STANDARD_ERROR_OF_MEAN|1.151||0.596|TWO_SIDED|95.0|-2.89|1.66||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 2||1.66|-2.89|0.596
92236806|NCT01380093|184377509|SUPERIORITY_OR_OTHER||LS Mean Difference|-147.4|||<|0.0001|TWO_SIDED|95.0|-205.1|-89.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-89.6|-205.1|<0.0001
92236807|NCT01380093|184377509|SUPERIORITY_OR_OTHER||LS Mean Difference|134.1|||<|0.0001|TWO_SIDED|95.0|76.5|191.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||191.7|76.5|<0.0001
92236808|NCT01380093|184377509|SUPERIORITY_OR_OTHER||LS Mean Difference|281.5|||<|0.0001|TWO_SIDED|95.0|223.7|339.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||339.2|223.7|<0.0001
92236809|NCT01380093|184377510|SUPERIORITY_OR_OTHER||LS Mean Difference|-201.4|||<|0.0001|TWO_SIDED|95.0|-279.3|-123.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-123.6|-279.3|<0.0001
92236810|NCT01380093|184377510|SUPERIORITY_OR_OTHER||LS Mean Difference|169.1|||<|0.0001|TWO_SIDED|95.0|91.5|246.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||246.7|91.5|<0.0001
92236811|NCT01380093|184377510|SUPERIORITY_OR_OTHER||LS Mean Difference|370.5|||<|0.0001|TWO_SIDED|95.0|292.7|448.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||448.4|292.7|<0.0001
92236812|NCT01380093|184377511|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.4|||<|0.0001|TWO_SIDED|95.0|-23.8|-9.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-9.0|-23.8|<0.0001
92236813|NCT01380093|184377511|SUPERIORITY_OR_OTHER||LS Mean Difference|25.7|||<|0.0001|TWO_SIDED|95.0|18.3|33.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||33.1|18.3|<0.0001
92236814|NCT01380093|184377511|SUPERIORITY_OR_OTHER||LS Mean Difference|42.1|||<|0.0001|TWO_SIDED|95.0|34.7|49.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||49.5|34.7|<0.0001
92428227|NCT01663532|184744033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 6.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.5|-0.9|<.0001
92428228|NCT01663532|184744033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 8.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.5|-0.9|<.0001
92428229|NCT01663532|184744033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.6||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 10.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.6|-1.1|<.0001
92428230|NCT01663532|184744034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.0006|TWO_SIDED|95.0|-2.1|-0.6|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 1.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.6|-2.1|0.0006
92428231|NCT01663532|184744034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.3|-1.3|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 2.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-1.3|-3.3|<.0001
92428232|NCT01663532|184744034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|||<|0.0001|TWO_SIDED|95.0|-4.3|-2.0|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 4.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-2.0|-4.3|<.0001
92428233|NCT01663532|184744034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|||<|0.0001|TWO_SIDED|95.0|-5.1|-2.6|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 6.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-2.6|-5.1|<.0001
92428234|NCT01663532|184744034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|||<|0.0001|TWO_SIDED|95.0|-6.2|-3.4|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 8.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-3.4|-6.2|<.0001
92428235|NCT01663532|184744034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1|||<|0.0001|TWO_SIDED|95.0|-6.4|-3.7|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 10.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-3.7|-6.4|<.0001
92428236|NCT01663532|184744035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.0023|TWO_SIDED|95.0|-1.6|-0.3|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 1.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.3|-1.6|0.0023
92236815|NCT01380093|184377512|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4||||0.0253|TWO_SIDED|95.0|-2.6|-0.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-0.2|-2.6|0.0253
92428237|NCT01663532|184744035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.0032|TWO_SIDED|95.0|-2.0|-0.4|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 2.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.4|-2.0|0.0032
92428238|NCT01663532|184744035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.0003|TWO_SIDED|95.0|-2.7|-0.8|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 4.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.8|-2.7|0.0003
92428239|NCT01663532|184744035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.3|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 6.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-1.3|-3.2|<.0001
92428240|NCT01663532|184744035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.7|-1.4|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 8.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-1.4|-3.7|<.0001
92428241|NCT01663532|184744035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8|||<|0.0001|TWO_SIDED|95.0|-4.1|-1.6|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 10.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-1.6|-4.1|<.0001
92236816|NCT01380093|184377512|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8|||<|0.0001|TWO_SIDED|95.0|1.6|4.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.0|1.6|<0.0001
92428242|NCT01663532|184744036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||<|0.0001|TWO_SIDED|95.0|4.1|10.1|||ANCOVA|ANCOVA model with treatment and pooled centers as factors and Baseline value as covariate for the comparison at other visits.|Difference in least square mean of change were derived from ANCOVA model.|Statistical analysis for Week 10.||10.1|4.1|<.0001
92428243|NCT01663532|184744037|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|CMH raw mean scores differ test (Van Elteren test) controlling for pooled centers.||Statistical analysis for Week 10. LOCF method were used in imputation of missing data.||||<.0001
92428244|NCT01663532|184744038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.7|||<|0.0001|TWO_SIDED|95.0|12.9|32.4|||Cochran-Mantel-Haenszel|CMH test controlling by region (pooled sites).||Statistical analysis for Week 10. LOCF method were used in imputation of missing data.||32.4|12.9|<.0001
92428245|NCT02785432|184744039|SUPERIORITY|||||||0.55||||||Between group comparison at 8 weeks|Wilcoxon (Mann-Whitney)|||||||0.55
92428246|NCT02785432|184744040|SUPERIORITY|||||||0.66||||||Between group comparison at 8 weeks|Wilcoxon (Mann-Whitney)|||||||0.66
92428247|NCT02785432|184744041|SUPERIORITY|||||||0.51||||||Between group comparison at 8 weeks|Wilcoxon (Mann-Whitney)|||||||0.51
92428248|NCT02785432|184744042|SUPERIORITY|||||||0.96||||||Between group comparison at 8 weeks|Wilcoxon (Mann-Whitney)|||||||0.96
92428249|NCT00283400|184744091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.05|||<|0.05|TWO_SIDED|95.0|0.65|14.1|||Mixed Models Analysis|Post-hoc comparison of outcomes in dosage tier 1 vs dosage tier 2.||||14.1|0.65|<0.05
92428250|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.07||||0.533|TWO_SIDED|90.0|-1.82|3.95|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on analysis of covariance (ANCOVA) using statistical analysis system (SAS) mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||3.95|-1.82|0.5330
92428251|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14||||0.9532|TWO_SIDED|90.0|-4.13|3.85|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||3.85|-4.13|0.9532
92428252|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.53||||0.2493|TWO_SIDED|90.0|-1.11|6.18|||ANCOVA|||Change at Day 14 12 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||6.18|-1.11|0.2493
92428253|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.99||||0.2801|TWO_SIDED|90.0|-7.59|1.6|||ANCOVA|||Change at Day 14 2 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||1.60|-7.59|0.2801
92428254|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19||||0.9288|TWO_SIDED|90.0|-3.77|3.39|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||3.39|-3.77|0.9288
92428255|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.98||||0.6459|TWO_SIDED|90.0|-2.62|4.58|||ANCOVA|||Change at Day 14 6 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||4.58|-2.62|0.6459
92428256|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.06||||0.0527|TWO_SIDED|90.0|0.63|7.48|||ANCOVA|||Change at Day 14 8 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||7.48|0.63|0.0527
92428257|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.29||||0.1998|TWO_SIDED|90.0|-0.95|7.52|||ANCOVA|||Change at Day 14 10 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||7.52|-0.95|0.1998
92428258|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85||||0.6765|TWO_SIDED|90.0|-4.22|2.53|||ANCOVA|||Change at Day 15 12 AM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||2.53|-4.22|0.6765
92170837|NCT00041938|184230552|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.33|TWO_SIDED|95.0|0.93|1.23||Secondary null hypothesis was tested at two-tailed alpha = 0.05.|Regression, Cox|Cox models stratified by site, New York Heart Association class (I vs. II-IV), and status w/ respect to recent stroke or Transient Ischemic Attack.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|Secondary null hypothesis: time to first event in the composite secondary endpoint does not differ significantly between warfarin and aspirin. This was tested at prespecified alpha = 0.05 level, two-tailed.||1.23|0.93|0.33
92428259|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.99||||0.6221|TWO_SIDED|90.0|-2.35|4.33|||ANCOVA|||Change at Day 15 4 AM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||4.33|-2.35|0.6221
92428260|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.81||||0.3|TWO_SIDED|90.0|-1.11|4.74|||ANCOVA|||Change at Day 15 6 AM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||4.74|-1.11|0.3000
92428261|NCT00934089|184744116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24||||0.9103|TWO_SIDED|90.0|-3.85|3.37|||ANCOVA|||Change at Day 15 8 AM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||3.37|-3.85|0.9103
92428262|NCT00934089|184744118|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|59.2|||<|0.001|TWO_SIDED|95.0|38.69|79.7|||Fisher Exact|||Photophobia: p-value was calculated using fisher exact test.||79.70|38.69|<0.001
92428263|NCT00934089|184744118|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-3.56||||0.612|TWO_SIDED|95.0|-14.8|7.68|||Fisher Exact|||Iritis: p-value was calculated using fisher exact test.||7.68|-14.80|0.612
92428264|NCT00934089|184744120|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-52.42||||0.245|TWO_SIDED|90.0|-127.05|22.22|||ANCOVA|||Change at Day 13 8 AM study eye: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||22.22|-127.05|0.2450
92428265|NCT00934089|184744120|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|34.51||||0.3068|TWO_SIDED|90.0|-21.89|90.91|||ANCOVA|||Change at Day 13 8 AM fellow eye: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||90.91|-21.89|0.3068
92428266|NCT00934089|184744120|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.99||||0.2632|TWO_SIDED|90.0|-19.69|101.67|||ANCOVA|||Change at Day 35 8 AM study eye: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||101.67|-19.69|0.2632
92428267|NCT00934089|184744120|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.6||||0.8373|TWO_SIDED|90.0|-60.84|47.64|||ANCOVA|||Change at Day 35 8 AM fellow eye: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||47.64|-60.84|0.8373
92428268|NCT00680017|184744151|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||"P values were based on 2 sided tests. Tests resulting in P values less than or equal to 0.050 (when rounded) were reported as statistically significant. No adjustments made for multiple comparisons since only 1 primary efficacy endpoint comparison."|Wilcoxon rank-sum test|||The null hypothesis was that percent change in triglycerides (TG) from baseline to Week 8 in the ABT-335 45 mg plus rosuvastatin 5 mg treatment group is equal to percent change in TG from baseline to Week 8 in the rosuvastatin 5 mg plus placebo treatment group. A sample size of 140 participants per treatment group was used to provide 98% power to detect a difference between the combination therapy arm and the rosuvastatin monotherapy arm in the percent change from Baseline to Week 8 in TG.||||<0.001
92428269|NCT00680017|184744152|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||"P values were based on 2 sided tests. Tests resulting in P values less than or equal to 0.050 (when rounded) were reported as statistically significant. No adjustments made for multiple comparisons since only 1 secondary endpoint comparison."|ANCOVA|P-value obtained from an ANCOVA with corresponding baseline value as the covariate and an effect for treatment group.||The null hypothesis was that percent change in HDL-C from baseline to Week 8 in the ABT-335 45 mg plus rosuvastatin 5 mg treatment group is equal to percent change in HDL-C from baseline to Week 8 in the rosuvastatin 5 mg plus placebo treatment group. A sample size of 140 participants per treatment group was used to provide 82% power to detect a difference between the combination therapy arm and the rosuvastatin monotherapy arm in the percent change from Baseline to Week 8 in HDL-C.||||<0.001
92428270|NCT01948947|184744197|OTHER||||||<|0.0001|||||||ANOVA|||Change from Baseline to 1-Week Post-Treatment||||<0.0001
92428271|NCT01948947|184744197|OTHER||||||<|0.001|||||||ANOVA|||Change from Baseline to 1-Month Post-Treatment||||<0.001
92428272|NCT01948947|184744198|OTHER||||||<|0.001||||||Change from Baseline to 1-Week post-treatment|ANOVA|||||||<0.001
92428273|NCT01948947|184744198|OTHER||||||<|0.01||||||Change from Baseline to 1-Month post-treatment|ANOVA|||||||<0.01
92428274|NCT01948947|184744199|OTHER|||||||0.009|||||||ANOVA|||||||0.009
92428275|NCT01948947|184744199|OTHER||||||<|0.01||||||Change in Baseline to 1-month post-treatment|ANOVA|||||||<0.01
92428276|NCT01948947|184744200|OTHER||||||=|0.033|||||||ANOVA|||||||=0.033
92428277|NCT03535844|184744202|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|independent t-test of change values||||||0.49
92428278|NCT03535844|184744202|SUPERIORITY|||||||0.5672|||||||t-test, 1 sided|Paired t-test (Week 0 and Week 16)||||||0.5672
92428279|NCT03535844|184744202|SUPERIORITY|||||||0.788|||||||t-test, 2 sided|Paired t-test of change values||||||0.788
92428280|NCT03535844|184744203|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|independent t-test of change values||||||0.67
92428281|NCT03535844|184744203|SUPERIORITY|||||||0.8203|||||||t-test, 2 sided|Paired t-test of change values||||||0.8203
92428282|NCT03535844|184744203|SUPERIORITY|||||||0.3882|||||||t-test, 2 sided|Paired t-test of change values||||||0.3882
92236817|NCT01380093|184377512|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2|||<|0.0001|TWO_SIDED|95.0|3.0|5.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.4|3.0|<0.0001
92428283|NCT03535844|184744204|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|independent t-test of change values||||||0.08
92428284|NCT03535844|184744205|SUPERIORITY|||||||0.7162|||||||t-test, 2 sided|independent t-test of change values||||||0.7162
92428285|NCT03535844|184744205|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|Paired t-test of Week 0 and Week 16 nitric oxide values||||||0.07
92428286|NCT03535844|184744205|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|Paired t-test of Week 0 and Week 16 nitric oxide values||||||<0.05
92428287|NCT03535844|184744206|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|Independent t-test of change values||||||<0.05
92428288|NCT03535844|184744207|SUPERIORITY|||||||0.4855|||||||t-test, 2 sided|Independent t-test of change triglyceride values||||||0.4855
92428289|NCT03535844|184744207|SUPERIORITY|||||||0.1393|||||||t-test, 2 sided|Independent t-test of change total cholesterol values||||||0.1393
92428290|NCT03535844|184744207|SUPERIORITY|||||||0.2221|||||||t-test, 2 sided|Independent t-test of change LDL cholesterol values||||||0.2221
92428291|NCT03535844|184744207|SUPERIORITY|||||||0.078|||||||t-test, 2 sided|Independent t-test of change HDL cholesterol values||||||0.078
92428292|NCT03535844|184744207|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|Paired t-test of Week 0 and Week 16 HDL cholesterol values||||||<0.05
92428293|NCT03535844|184744207|SUPERIORITY|||||||0.7261|||||||t-test, 2 sided|Paired t-test of Week 0 and Week 16 HDL cholesterol values||||||0.7261
92428294|NCT03535844|184744208|SUPERIORITY|||||||0.1951|||||||t-test, 2 sided|Independent t-test of systolic blood pressure change values||||||0.1951
92428295|NCT03535844|184744208|SUPERIORITY|||||||0.916|||||||t-test, 2 sided|Independent t-test of diastolic blood pressure change values||||||0.916
92428296|NCT03535844|184744209|SUPERIORITY|||||||0.9882|||||||t-test, 2 sided|independent t-test of malondialdehyde change values||||||0.9882
92428297|NCT03535844|184744210|SUPERIORITY|||||||0.4408|||||||t-test, 2 sided|Independent t-test of body fat % change values||||||0.4408
92428298|NCT03535844|184744211|SUPERIORITY|||||||0.1487|||||||t-test, 2 sided|Independent t-test of change values||||||0.1487
92428299|NCT03535844|184744212|SUPERIORITY|||||||0.9135|||||||t-test, 2 sided|Independent t-test of change values||||||0.9135
92428300|NCT03535844|184744213|SUPERIORITY|||||||0.5859|||||||t-test, 2 sided|Independent t-test of change values||||||0.5859
92428301|NCT03535844|184744214|SUPERIORITY|||||||0.9379|||||||t-test, 2 sided|Independent t-test of change values||||||0.9379
92428302|NCT03535844|184744215|SUPERIORITY|||||||0.9717|||||||t-test, 2 sided|t-test of change values||||||0.9717
92428303|NCT03535844|184744218|SUPERIORITY|||||||0.7052|||||||t-test, 2 sided|Independent t-test of change values||||||0.7052
92428304|NCT03535844|184744218|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|Paired t-test between Week 0 and Week 16 endothelin-1 concentrations||||||0.07
92428305|NCT03535844|184744218|SUPERIORITY|||||||0.005||||||Paired t-test between Week 0 and Week 16 endothelin-1 concentrations|t-test, 2 sided|||||||0.005
92428306|NCT03535844|184744219|SUPERIORITY|||||||0.9426||||||Independent t-test of change values|t-test, 2 sided|||||||0.9426
92428307|NCT05096221|184744260|SUPERIORITY||Least squares mean change difference|0.65|STANDARD_ERROR_OF_MEAN|0.55||0.2441|TWO_SIDED|95.0|-0.45|1.74|||Mixed model of repeated measures|||||1.74|-0.45|0.2441
92428308|NCT05096221|184744261|OTHER||||||<|0.0001|||||||Re-randomization test|||||||< 0.0001
92428309|NCT05096221|184744262|SUPERIORITY||Least squares mean change difference|-0.64|STANDARD_ERROR_OF_MEAN|0.21||0.0025|TWO_SIDED|95.0|-1.06|-0.23|||Mixed model of repeated measures|||||-0.23|-1.06|0.0025
92428310|NCT05096221|184744263|SUPERIORITY||Least squares mean change difference|-0.42|STANDARD_ERROR_OF_MEAN|0.15||0.0048|TWO_SIDED|95.0|-0.71|-0.13|||Mixed model of repeated measures|||||-0.13|-0.71|0.0048
92428311|NCT05096221|184744264|SUPERIORITY||Least squares mean change difference|-3.29|STANDARD_ERROR_OF_MEAN|2.52||0.1942|TWO_SIDED|95.0|-8.28|1.7|||Mixed model of repeated measures|||||1.70|-8.28|0.1942
92428312|NCT05096221|184744265|SUPERIORITY||Least squares mean change difference|-0.36|STANDARD_ERROR_OF_MEAN|0.18||0.0412|TWO_SIDED|95.0|-0.71|-0.01|||Mixed model of repeated measures|||||-0.01|-0.71|0.0412
92428313|NCT05096221|184744266|SUPERIORITY||Least squares mean change difference|0.1|STANDARD_ERROR_OF_MEAN|0.05||0.0402|TWO_SIDED|95.0|0.0|0.19|||Mixed model of repeated measures|||||0.19|0.00|0.0402
92428314|NCT05096221|184744267|SUPERIORITY||Least squares mean change difference|0.05|STANDARD_ERROR_OF_MEAN|0.07||0.4272|TWO_SIDED|95.0|-0.08|0.19|||Mixed model of repeated measures|||||0.19|-0.08|0.4272
92428315|NCT05096221|184744268|SUPERIORITY||Least squares mean change difference|-0.04|STANDARD_ERROR_OF_MEAN|0.1||0.7324|TWO_SIDED|95.0|-0.24|0.17|||Mixed model of repeated measures|||||0.17|-0.24|0.7324
92428316|NCT05096221|184744269|SUPERIORITY||Least squares mean change difference|0.19|STANDARD_ERROR_OF_MEAN|0.44||0.6554|TWO_SIDED|95.0|-0.67|1.06|||Mixed model of repeated measures|||||1.06|-0.67|0.6554
92236818|NCT01380093|184377513|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1||||0.0062|TWO_SIDED|95.0|-3.7|-0.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-0.6|-3.7|0.0062
92428317|NCT01589978|184744294|NON_INFERIORITY_OR_EQUIVALENCE|Given the performance goal of 3.2%, with expected rate for PROMUS Element Plus of 2.2% and a one-sided 5% significance level, approximately 1,706 PLATINUM-like patients will provide at least 80% power to reject the null hypothesis if it is false.|||||<|0.0001|||||||Chi-squared|||One-sided, single binomial test will be performed to compare observed rate against performance goal, the normal approximation of the test statistic will be used. The performance goal is met if the one-sided upper 95% confidence bound for the observed binary rate is less than performance goal.||||<.0001
92428318|NCT01589978|184744314|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is calculated for one-sample chi-square test for a single proportion using nQuery AdvisorVersion 5.0. The expected annual increase in ST rate is estimated to be 0.4% based on the current data available from the pooled TAXUS Express and pooled TAXUS Liberté data and the PG is 1.0% using a delta of 0.6%. Given a one-sided 5% significance level, a minimum of 1,660 PLATINUM-like patients at 5-yrs will be required to provide 90% power to reject the null hypothesis if it is false.|||||<|0.0001|||||||Chi-squared|||The expected annual increase of stent thrombosis rate is assumed to be 0.4%, based on the observed increase in incidence rate of stent thrombosis of approximately 0.4% annually for PLATINUM-like patients in the pooled TAXUS SR Express and pooled TAXUS Liberté data. Using a delta of 0.6%, the performance goal is set to 1.0% (expected rate + delta = 0.4% + 0.6% = 1.0%).||||<.0001
92236819|NCT01380093|184377513|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.4998|TWO_SIDED|95.0|-1.0|2.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.0|-1.0|0.4998
92236820|NCT01380093|184377513|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7||||0.0008|TWO_SIDED|95.0|1.1|4.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.2|1.1|0.0008
92236821|NCT01380093|184377514|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.0||||0.0009|TWO_SIDED|95.0|-11.1|-3.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-3.0|-11.1|0.0009
92428319|NCT02197273|184744351|SUPERIORITY_OR_OTHER|||||||0.764|||||||Wilcoxon (Mann-Whitney)|||||||0.764
92428320|NCT02197273|184744352|SUPERIORITY_OR_OTHER|||||||0.206|||||||Wilcoxon (Mann-Whitney)|||||||0.206
92428321|NCT02197273|184744353|SUPERIORITY_OR_OTHER||Fisher exact|0.486||||0.656|TWO_SIDED||||||Fisher Exact|||||||0.656
92428322|NCT00005044|184744354|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.45|TWO_SIDED|95.0|0.48|1.39|||Log Rank||Reference level = TAS x 8 weeks|Assuming 40% of deaths in the 8-wk arm from prostate cancer (PC) and that 8-yr DSS would be 79%, 270 PC deaths were required to detect a 33% hazard reduction in the 28-wk arm with 90% power using the log-rank test with a 2-sided significance level of 0.05. Under assumed failure rates, 1,540 patients accrued over 4 years and observed for an additional 6 years were expected to provide the requisite events. This sample accounted for a 10% ineligible/lack-of-data rate and 3 interim analyses.||1.39|0.48|0.45
92428323|NCT00005044|184744355|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.62|TWO_SIDED|95.0|0.79|1.15|||Log Rank|2-sided significance level of 0.05|Reference level = TAS x 8 weeks|With 1540 patients accrued over 4 years and observed for an additional 6 years, determined for the primary endpoint, there would be 90% power to detect a 22% reduction in the hazard of all cause deaths in the 28-week arm, with 2-sided significance level of 0.05. This sample accounted for a 10% ineligible/lack-of-data rate.||1.15|0.79|0.62
92428324|NCT00005044|184744356|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.47|TWO_SIDED|95.0|0.85|1.08|||Log Rank|Significance level = 0.05|Reference level = TAS x 8 weeks|||1.08|0.85|0.47
92428325|NCT00005044|184744357|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.07|TWO_SIDED|95.0|0.4|1.05|||Gray's test|2-sided significance level = 0.05|Reference level = TAS x 8 weeks|Locoregional progression||1.05|0.40|0.07
92428326|NCT00005044|184744357|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.8|TWO_SIDED|95.0|0.68|1.66|||Gray's test|2-sided significance level = 0.05|Reference level = TAS x 8 weeks|Distant metastasis||1.66|0.68|0.80
92428327|NCT00005044|184744358|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.74|TWO_SIDED|95.0|0.89|1.17|||Gray's test|2-sided significance level = 0.05|Reference level = TAS x 8 weeks|Protocol definition||1.17|0.89|0.74
92428328|NCT00005044|184744358|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.77|TWO_SIDED|95.0|0.79|1.19|||Gray's test|2-sided significance level = 0.05|Reference level = TAS x 8 weeks|Phoenix definition||1.19|0.79|0.77
92428329|NCT00005044|184744359|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.62|TWO_SIDED|95.0|0.64|1.3|||Log Rank|2-sided significance level = 0.05|Reference level = TAS x 8 weeks|||1.30|0.64|0.62
92428330|NCT00843856|184744361|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||0.7
92236822|NCT01380093|184377514|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2||||0.2693|TWO_SIDED|95.0|-1.8|6.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||6.3|-1.8|0.2693
92236823|NCT01380093|184377514|SUPERIORITY_OR_OTHER||LS Mean Difference|9.3|||<|0.0001|TWO_SIDED|95.0|5.3|13.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||13.3|5.3|<0.0001
92428331|NCT03104543|184744363|SUPERIORITY||Risk Ratio (RR)|0.99||||0.05|TWO_SIDED|95.0|0.67|1.45|||Generalized estimating equation|||||1.45|0.67|.05
92428332|NCT03104543|184744366|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.05|TWO_SIDED|95.0|-0.47|0.28|||t-test, 2 sided|||||0.28|-0.47|.05
92428333|NCT00345839|184744373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.112||||||p-value\<0.044 considered significant|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.112
92428334|NCT00345839|184744373|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.85|1.02|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.02|0.85|
92170838|NCT00041938|184230553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52||||0.005|TWO_SIDED|95.0|0.33|0.82|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|Null hypothesis: there is no difference between warfarin and aspirin in time to ischemic stroke, adjusting for competing risks of death and intracerebral hemorrhage.||0.82|0.33|0.005
92236824|NCT01380093|184377515|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.2||||0.0042|TWO_SIDED|95.0|-27.2|-5.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-5.3|-27.2|0.0042
92428335|NCT00345839|184744374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.249||||||No adjustments for multiple comparisons were made for the components of the primary composite endpoint since the purpose of these analyses is to show how each component contributes to the results of the composite.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.249
92428336|NCT00345839|184744374|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.85|1.04|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.04|0.85|
92428337|NCT00345839|184744375|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8||||||No adjustments for multiple comparisons were made for the components of the primary composite endpoint since the purpose of these analyses is to show how each component contributes to the results of the composite.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.800
92428338|NCT00345839|184744375|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.79|1.19|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.19|0.79|
92428339|NCT00345839|184744376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.283||||||No adjustments for multiple comparisons were made for the components of the primary composite endpoint since the purpose of these analyses is to show how each component contributes to the results of the composite.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.283
92428340|NCT00345839|184744376|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.58|1.18|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.18|0.58|
92428341|NCT00345839|184744377|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034||||||No adjustments for multiple comparisons were made for the components of the primary composite endpoint since the purpose of these analyses is to show how each component contributes to the results of the composite.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.034
92428342|NCT00345839|184744377|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.68|0.99|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||0.99|0.68|
92428343|NCT00345839|184744378|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||||||No adjustments for multiple comparisons were made for the components of the primary composite endpoint since the purpose of these analyses is to show how each component contributes to the results of the composite.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.190
92428344|NCT00345839|184744378|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.72|1.07|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.07|0.72|
92428345|NCT00345839|184744379|SUPERIORITY_OR_OTHER_LEGACY|||||||0.277||||||No adjustments for multiple comparisons were made for this endpoint.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.277
92428346|NCT00345839|184744379|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.8|1.07|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.07|0.80|
92428347|NCT00345839|184744380|SUPERIORITY_OR_OTHER_LEGACY|||||||0.607||||||No adjustments for multiple comparisons were made for this endpoint.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.607
92428348|NCT00345839|184744380|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.82|1.4|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.40|0.82|
92428349|NCT00345839|184744381|SUPERIORITY_OR_OTHER_LEGACY|||||||0.218||||||No adjustments for multiple comparisons were made for this endpoint.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.218
92428350|NCT00345839|184744381|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.75|1.07|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.07|0.75|
92428351|NCT00345839|184744382|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||No adjustments for multiple comparisons were made for this endpoint.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||<0.001
92428352|NCT00345839|184744382|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.36|0.54|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||0.54|0.36|
92428353|NCT01960400|184744398|SUPERIORITY_OR_OTHER|||||||0.065||||||"The statistical signifiance level : p\<0.05. After treatment (T1) Pain severity p=0.065~Sub-scale:~* Present pain p=0.046\*~* Average pain p=0.381~* Most intense pain p=0.064~* Least intense pain p=0.142"|ANOVA|To assess the effectiveness of interventions (inter-group differences), a mixed-model ANOVA (time X group interaction) was used.||For the severity of pain, the calculations have revealed that only this pain now had an acceptable statistical power, of 77.1% after treatment (T1).||||0.065
92428354|NCT01960400|184744399|SUPERIORITY_OR_OTHER|||||||0.049||||||interaction group X time|ANOVA|||||||0.049
92428355|NCT01960400|184744400|SUPERIORITY_OR_OTHER|||||||0.035||||||interaction group X time|ANOVA|||||||0.035
92428356|NCT01960400|184744401|SUPERIORITY_OR_OTHER|||||||0.046||||||interaction group X time|ANOVA|||||||0.046
92428357|NCT04547712|184744402|SUPERIORITY||Proportion expressed as a percentage|78.9|||||ONE_SIDED|97.5|59.4||||||The confidence interval lower limit was above the performance goal of 50%, the primary objective was met.|"Null Hypothesis: The proportion of subjects with On time without troublesome dyskinesia during aDBS single threshold mode Evaluation Period exceeding threshold \<= 50%; Alternative Hypothesis: The proportion of subjects with On time without troublesome dyskinesia during aDBS single threshold mode Evaluation Period exceeding threshold \> 50%"|||59.4|
92428358|NCT04547712|184744402|SUPERIORITY||Proportion expressed as a percentage|91.0|||||ONE_SIDED|97.5|75.6||||||The confidence interval lower limit was above the performance goal of 50%, the primary objective was met.|"Null Hypothesis: The proportion of subjects with On time without troublesome dyskinesia during aDBS dual threshold mode Evaluation Period exceeding threshold \<= 50%; Alternative Hypothesis: The proportion of subjects with On time without troublesome dyskinesia during aDBS dual threshold mode Evaluation Period exceeding threshold \> 50%"|||75.6|
92428359|NCT04547712|184744403|SUPERIORITY|||||||0.012||||||Nominal p-value is provided.|t-test, 2 sided|||Null Hypothesis: Mean Difference between aDBS single threshold (Evaluation Phase) minus cDBS (Baseline Phase) for TEED \>= 0; Alternative Hypothesis: Mean Difference between aDBS single threshold (Evaluation Phase) minus cDBS (Baseline Phase) for TEED \< 0||||0.0120
92428360|NCT04547712|184744403|SUPERIORITY|||||||0.0491||||||Nominal p-value is provided.|t-test, 2 sided|||Null Hypothesis: Mean Difference between aDBS dual threshold (Evaluation Phase) minus cDBS (Baseline Phase) for TEED \>= 0; Alternative Hypothesis: Mean Difference between aDBS dual threshold (Evaluation Phase) minus cDBS (Baseline Phase) for TEED \< 0||||0.0491
92428361|NCT03298867|184744410|SUPERIORITY||Stratified difference in percentages|73.45|STANDARD_ERROR_OF_MEAN|7.43|<|0.001|TWO_SIDED|95.0|58.89|88.01||Two-sided p-value calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||Stratified difference (teprotumumab - placebo) is a weighted average of the difference within each stratum. Estimates from the 2 strata (tobacco user, tobacco non-user) were combined with Cochran-Mantel-Haenszel (CMH) weights.|||88.01|58.89|<0.001
92428362|NCT03298867|184744411|SUPERIORITY||Stratified difference in percentages|70.82|STANDARD_ERROR_OF_MEAN|7.62|<|0.001|TWO_SIDED|95.0|55.89|85.75||Two-sided p-value calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||Stratified difference (teprotumumab - placebo) is a weighted average of the difference within each stratum. Estimates from the 2 strata (tobacco user, tobacco non-user) were combined with CMH weights.|||85.75|55.89|<0.001
92428363|NCT03298867|184744412|SUPERIORITY||Stratified difference in percentages|36.03|STANDARD_ERROR_OF_MEAN|9.51|<|0.001|TWO_SIDED|95.0|17.39|54.67||Two-sided p-value calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||Stratified difference (teprotumumab - placebo) is a weighted average of the difference within each stratum. Estimates from the 2 strata (tobacco user, tobacco non-user) were combined with CMH weights.|||54.67|17.39|<0.001
92428364|NCT03298867|184744413|SUPERIORITY||LS mean difference|-2.28|STANDARD_ERROR_OF_MEAN|0.244|<|0.001|TWO_SIDED|95.0|-2.77|-1.8||Results obtained from an MMRM with an unstructured covariance matrix including the following terms: Baseline value, tobacco use status, treatment group, visit, visit-by-treatment interaction and visit-by-Baseline-value interaction.|mixed model for repeated measures (MMRM)|||||-1.80|-2.77|<0.001
92428365|NCT03298867|184744414|SUPERIORITY||Stratified difference in percentages|39.29|STANDARD_ERROR_OF_MEAN|12.11||0.001|TWO_SIDED|95.0|15.55|63.02||Two-sided p-value calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||Stratified difference is a weighted average of the difference within each stratum. Estimates from the 2 strata (tobacco user, tobacco non-user) were combined with CMH weights.|||63.02|15.55|0.001
92428366|NCT03298867|184744415|SUPERIORITY||Difference in LS mean|9.36|STANDARD_ERROR_OF_MEAN|2.651|<|0.001|TWO_SIDED|95.0|4.08|14.64||Results obtained from an MMRM with an unstructured covariance matrix including the following terms: Baseline value, tobacco use status, treatment group, visit, visit-by-treatment interaction and visit-by-Baseline-value interaction.|mixed model for repeated measures (MMRM)|||||14.64|4.08|<0.001
92428367|NCT05263895|184744441|OTHER||Ratio of Adjusted Geometric means|90.54|||||TWO_SIDED|90.0|79.85|102.65||||||Test: Nirmatrelvir (slower dissolution tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||102.65|79.85|
92428368|NCT05263895|184744441|OTHER||Ratio of Adjusted Geometric Means|102.78|||||TWO_SIDED|90.0|90.65|116.53||||||Test: Nirmatrelvir (large particle size tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||116.53|90.65|
92428369|NCT05263895|184744441|OTHER||Ratio of Adjusted Geometric Means|138.15|||||TWO_SIDED|90.0|118.03|161.69||||||Test: Nirmatrelvir (SDD suspension)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||161.69|118.03|
92428370|NCT05263895|184744441|OTHER||Ratio of Adjusted Geometric Means|30.8|||||TWO_SIDED|90.0|25.7|35.2||||||Test: Nirmatrelvir (SDD suspension) 300 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||35.20|25.70|
92428371|NCT05263895|184744442|OTHER||Ratio of Adjusted Geometric Means|91.26|||||TWO_SIDED|90.0|80.46|103.51||||||Test: Nirmatrelvir (slower dissolution tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||103.51|80.46|
92428372|NCT05263895|184744442|OTHER||Ratio of Adjusted Geometric Means|102.49|||||TWO_SIDED|90.0|90.36|116.26||||||Test: Nirmatrelvir (large particle size tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||116.26|90.36|
92428373|NCT05263895|184744442|OTHER||Ratio of Adjusted Geometric Means|136.99|||||TWO_SIDED|90.0|117.09|160.27||||||Test: Nirmatrelvir (SDD suspension)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||160.27|117.09|
92428374|NCT05263895|184744442|OTHER||Ratio of Adjusted Geometric Means|29.77|||||TWO_SIDED|90.0|25.45|34.83||||||Test: Nirmatrelvir (SDD suspension) 300 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||34.83|25.45|
92428375|NCT05263895|184744443|OTHER||Ratio of Adjusted Geometric Means|94.28|||||TWO_SIDED|90.0|80.77|110.05||||||Test: Nirmatrelvir (slower dissolution tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||110.05|80.77|
92428376|NCT05263895|184744443|OTHER||Ratio of Adjusted Geometric Means|108.6|||||TWO_SIDED|90.0|93.04|126.76||||||Test: Nirmatrelvir (large particle size tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||126.76|93.04|
92428377|NCT05263895|184744443|OTHER||Ratio of Adjusted Geometric Means|264.12|||||TWO_SIDED|90.0|232.32|300.27||||||Test: Nirmatrelvir (SDD suspension)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||300.27|232.32|
92428378|NCT05263895|184744443|OTHER||Ratio of Adjusted Geometric Means|145.53|||||TWO_SIDED|90.0|128.01|165.45||||||Test: Nirmatrelvir (SDD suspension) 300 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||165.45|128.01|
92428379|NCT05764408|184744449|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.49|1.35||||||||1.35|0.49|
92428380|NCT05764408|184744450|SUPERIORITY||Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.39|1.86||||||||1.86|0.39|
92428381|NCT05764408|184744451|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||||||0.47
92428382|NCT05764408|184744453|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||||||0.81
92428383|NCT05764408|184744454|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.07|16.12||||||||16.12|0.07|
92428384|NCT06934993|184744461|SUPERIORITY||||||<|0.001||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||<0.001
92428385|NCT06934993|184744462|SUPERIORITY|||||||0.001||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In all cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.001
92428386|NCT06934993|184744462|SUPERIORITY|||||||0.096||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.096
92428387|NCT06934993|184744462|SUPERIORITY||||||<|0.001||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||<0.001
92428388|NCT06934993|184744463|SUPERIORITY|||||||0.001||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.001
92428389|NCT06934993|184744463|SUPERIORITY|||||||0.096||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.096
92428390|NCT06934993|184744464|SUPERIORITY|||||||0.04||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.04
92428391|NCT06934993|184744464|SUPERIORITY|||||||0.679||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.679
92428392|NCT06934993|184744464|SUPERIORITY|||||||0.011||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.011
92428393|NCT01218113|184744465|NON_INFERIORITY|Crierion for non-inferiority evaluation: The upper limit (UL) of the two-sided 97.5% confidence interval (CI) for the difference in change between the two arms (3D\_HIV Group - Control Group) is below 0.|Geometric Mean Ratio|0.801|||||TWO_SIDED|97.5|0.553|1.162|||Repeated-measures mixed model|||To show the difference in change from baseline of HIV-1 VL at week 48 between persons who received 3 doses of the HIV vaccine 732462 and persons who received placebo alone.||1.162|0.553|
92428394|NCT01218113|184744465|NON_INFERIORITY|Crierion for non-inferiority evaluation: The upper limit (UL) of the two-sided 97.5% confidence interval (CI) for the difference in change between the two arms (2D\_HIV Group - Control Group) is below 0.|Geometric Mean Ratio|1.184|||||TWO_SIDED|97.5|0.816|1.717|||Repeated-measures mixed model|||To show the difference in change from baseline of HIV-1 VL at week 48 between persons who received 2 doses of the HIV Vaccine 732462 and persons who received placebo alone.||1.717|0.816|
92428395|NCT01218113|184744466|NON_INFERIORITY|Criterion for non-inferiority evaluation: The upper limit (UL) of the two-sided 97.5% confidence interval (CI) for the difference in change between the two arms (3D\_HIV Group - Control Group) is below 0.|Mean Difference|-0.096|||||TWO_SIDED|97.5|-0.257|0.065|||Repeated-measures mixed model|||To show the difference in change from baseline of HIV-1 VL (log10-transformed values) at week 48 between persons who received 3 doses of the HIV Vaccine 732462 and persons who received placebo alone.||0.065|-0.257|
92428396|NCT01218113|184744466|NON_INFERIORITY|Criterion for non-inferiority evaluation: The upper limit (UL) of the two-sided 97.5% confidence interval (CI) for the difference in change between the two arms (2D\_HIV Group - Control Group) is below 0.|Mean Difference|0.073|||||TWO_SIDED|97.5|-0.088|0.235|||Repeated-measures mixed model|||To show the difference in change from baseline of HIV-1 VL (log10-transformed values) at week 48 between persons who received 2 doses of the HIV Vaccine 732462 and persons who received placebo alone.||0.235|-0.088|
92428397|NCT00967668|184744530|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Regression, Linear|Linear mixed-effects model with baseline, 3- and 12-month outcome values modeled as dependent variables||All participants were included in outcomes analyses using intention-to-treat principles. A linear mixed-effects model with baseline, 3- and 12-month outcome values modeled as dependent variables was used.This statistical approach allows the use of data from all participants as long as the dependent variable is available for at least one time point. Each subject was included as a random intercept to adjust for within-person correlations.||||<0.05
92428398|NCT02468674|184744535|OTHER|||||||0.759|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: SPPB total score at Week 49||||0.759
92428399|NCT02468674|184744535|OTHER|||||||0.5|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: SPPB total score at Week 49||||0.500
92428400|NCT02468674|184744535|OTHER|||||||0.144|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: SPPB total score at Week 49||||0.144
92236825|NCT01380093|184377515|SUPERIORITY_OR_OTHER||LS Mean Difference|8.7||||0.1139|TWO_SIDED|95.0|-2.2|19.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||19.6|-2.2|0.1139
92428401|NCT02468674|184744535|OTHER|||||||0.648|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: SPPB total score at Week 49||||0.648
92428402|NCT02468674|184744535|OTHER|||||||0.929|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: SPPB total score at Week 49||||0.929
92428403|NCT02468674|184744535|OTHER|||||||0.53|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: SPPB total score at Week 49||||0.530
92428404|NCT02468674|184744536|OTHER|||||||0.839|||||||ANCOVA|Difference in the least square means (SE)||Population II: SPPB total score at Week 49||||0.839
92428405|NCT02468674|184744537|OTHER|||||||0.669|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.669
92428406|NCT02468674|184744537|OTHER|||||||0.773|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.773
92428407|NCT02468674|184744537|OTHER|||||||0.29|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.290
92236826|NCT01380093|184377515|SUPERIORITY_OR_OTHER||LS Mean Difference|25.0|||<|0.0001|TWO_SIDED|95.0|14.1|35.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||35.9|14.1|<0.0001
92236827|NCT01380093|184377516|SUPERIORITY_OR_OTHER||LS Mean Difference|-34.9|||<|0.0001|TWO_SIDED|95.0|-42.1|-27.7||p-value adjusted for multiple comparisons with Hochberg adjustment. At least one primary outcome for each of drug liking and high was required to be significant with adjusted p-value less than or equal to 0.05.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-27.7|-42.1|<0.0001
92428408|NCT02468674|184744537|OTHER|||||||0.766|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.766
92428409|NCT02468674|184744537|OTHER|||||||0.885|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.885
92428410|NCT02468674|184744537|OTHER|||||||0.84|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.840
92428411|NCT02468674|184744538|OTHER|||||||0.367|||||||ANCOVA|Difference in the least square means (SE)||Population II: 6MWT at Week 49||||0.367
92428412|NCT02468674|184744539|OTHER|||||||0.875|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.875
92428413|NCT02468674|184744539|OTHER|||||||0.909|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.909
92428414|NCT02468674|184744539|OTHER|||||||0.168|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.168
92428415|NCT02468674|184744539|OTHER|||||||0.632|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.632
92428416|NCT02468674|184744539|OTHER|||||||0.31|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.310
92428417|NCT02468674|184744539|OTHER|||||||0.321|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.321
92428418|NCT02468674|184744540|OTHER|||||||0.395|||||||ANCOVA|Difference in the least square means (SE)||Population II: Gait speed at Week 49||||0.395
92428419|NCT02468674|184744541|OTHER|||||||0.12|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.120
92428420|NCT02468674|184744541|OTHER|||||||0.297|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.297
92428421|NCT02468674|184744541|OTHER|||||||0.074|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.074
92428422|NCT02468674|184744541|OTHER|||||||0.022|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.022
92428423|NCT02468674|184744541|OTHER|||||||0.106|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.106
92428424|NCT02468674|184744541|OTHER|||||||0.211|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.211
92428425|NCT02468674|184744542|OTHER|||||||1|||||||ANCOVA|Difference in the least square geometric means||Population II: ASMI at Week 49||||1.000
92428426|NCT02468674|184744543|OTHER|||||||0.084|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.084
92428427|NCT02468674|184744543|OTHER|||||||0.283|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.283
92428428|NCT02468674|184744543|OTHER|||||||0.323|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.323
92428429|NCT02468674|184744543|OTHER|||||||0.018|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.018
92428430|NCT02468674|184744543|OTHER|||||||0.179|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.179
92428431|NCT02468674|184744543|OTHER|||||||0.227|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.227
92428432|NCT02468674|184744544|OTHER|||||||1|||||||ANCOVA|Difference in the least square geometric means||Population II: LBM at Week 49||||1.000
92428433|NCT03281577|184744545|SUPERIORITY||Least Squares Mean Differences|-25.81||||0.0012|TWO_SIDED|95.0|-41.757|-9.858||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% confidence interval (CI) are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as covariate.|||-9.858|-41.757|0.0012
92428434|NCT03281577|184744545|SUPERIORITY||Least Squares Mean Differences|-27.52||||0.0018|TWO_SIDED|95.0|-45.224|-9.813||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||-9.813|-45.224|0.0018
92236828|NCT01380093|184377516|SUPERIORITY_OR_OTHER||LS Mean Difference|27.2|||<|0.0001|TWO_SIDED|95.0|20.1|34.4||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||34.4|20.1|<0.0001
92428435|NCT03281577|184744545|SUPERIORITY||Least Squares Mean Differences|-41.76|||<|0.0001|TWO_SIDED|95.0|-59.616|-23.902||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||-23.902|-59.616|<.0001
92236829|NCT01380093|184377516|SUPERIORITY_OR_OTHER||LS Mean Difference|62.1|||<|0.0001|TWO_SIDED|95.0|54.9|69.4||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||69.4|54.9|<0.0001
92428436|NCT03281577|184744546|SUPERIORITY||Least Squares Mean Differences|0.72||||0.259|TWO_SIDED|95.0|-0.364|1.795||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 4 Hours, Day 2||1.795|-0.364|0.2590
92428437|NCT03281577|184744546|SUPERIORITY||Least Squares Mean Differences|1.27||||0.028|TWO_SIDED|95.0|0.119|2.418||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 4 Hours, Day 2||2.418|0.119|0.0280
92428438|NCT03281577|184744546|SUPERIORITY||Least Squares Mean Differences|0.45||||0.6882|TWO_SIDED|95.0|-0.757|1.66||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 4 Hours, Day 2||1.660|-0.757|0.6882
92428439|NCT03281577|184744546|SUPERIORITY||Least Squares Mean Differences|1.87||||0.0062|TWO_SIDED|95.0|0.493|3.25||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 24 Hours, Day 2||3.250|0.493|0.0062
92428440|NCT03281577|184744546|SUPERIORITY||Least Squares Mean Differences|1.19||||0.149|TWO_SIDED|95.0|-0.327|2.717||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 24 Hours, Day 2||2.717|-0.327|0.1490
92170839|NCT00041938|184230554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.22||||0.35||95.0|0.43|11.66|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.||Null hypothesis: there is no difference between warfarin and aspirin in time to intracerebral hemorrhage, adjusting for competing risks of death and ischemic stroke.||11.66|0.43|0.35
92170840|NCT00041938|184230555|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.91|TWO_SIDED|95.0|0.85|1.2|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|||1.20|0.85|0.91
92236830|NCT01380093|184377517|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.1||||0.0039|TWO_SIDED|95.0|-58.5|-11.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-11.7|-58.5|0.0039
92428441|NCT03281577|184744546|SUPERIORITY||Least Squares Mean Differences|0.63||||0.6285|TWO_SIDED|95.0|-0.931|2.2||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 24 Hours, Day 2||2.200|-0.931|0.6285
92170841|NCT00041938|184230556|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.93|TWO_SIDED|95.0|0.58|1.64|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|Null hypothesis: there is no difference between warfarin and aspirin in time to myocardial infarction, adjusting for competing risks of heart failure hospitalization, ischemic stroke, intracerebral hemorrhage, and death.||1.64|0.58|0.93
92236831|NCT01380093|184377517|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3||||0.1026|TWO_SIDED|95.0|-4.0|42.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||42.7|-4.0|0.1026
92428442|NCT03281577|184744546|SUPERIORITY||Least Squares Mean Differences|1.29||||0.0358|TWO_SIDED|95.0|0.073|2.501||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 48 Hours, Day 2||2.501|0.073|0.0358
92236832|NCT01380093|184377517|SUPERIORITY_OR_OTHER||LS Mean Difference|54.4|||<|0.0001|TWO_SIDED|95.0|31.0|77.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||77.8|31.0|<0.0001
92236833|NCT01380093|184377518|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.3||||0.0051|TWO_SIDED|95.0|-73.1|-13.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-13.5|-73.1|0.0051
92236834|NCT01380093|184377518|SUPERIORITY_OR_OTHER||LS Mean Difference|25.3||||0.0941|TWO_SIDED|95.0|-4.4|55.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||55.0|-4.4|0.0941
92236835|NCT01380093|184377518|SUPERIORITY_OR_OTHER||LS Mean Difference|68.6|||<|0.0001|TWO_SIDED|95.0|38.8|98.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||98.4|38.8|<0.0001
92236836|NCT01380093|184377519|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.0||||0.0083|TWO_SIDED|95.0|-85.0|-13.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-13.1|-85.0|0.0083
92428443|NCT03281577|184744546|SUPERIORITY||Least Squares Mean Differences|1.33||||0.043|TWO_SIDED|95.0|0.035|2.621||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 48 Hours, Day 2||2.621|0.035|0.0430
92428444|NCT03281577|184744546|SUPERIORITY||Least Squares Mean Differences|0.25||||0.9419|TWO_SIDED|95.0|-1.107|1.611||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 48 Hours, Day 2||1.611|-1.107|0.9419
92428445|NCT03281577|184744547|SUPERIORITY||Least Squares Mean Differences|33.12||||0.0436|TWO_SIDED|95.0|0.799|65.439||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||65.439|0.799|0.0436
92428446|NCT03281577|184744547|SUPERIORITY||Least Squares Mean Differences|57.98||||0.0007|TWO_SIDED|95.0|23.555|92.396||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||92.396|23.555|0.0007
92428447|NCT03281577|184744547|SUPERIORITY||Least Squares Mean Differences|44.44||||0.0134|TWO_SIDED|95.0|8.249|80.629||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||80.629|8.249|0.0134
92428448|NCT03281577|184744548|SUPERIORITY||Least Squares Mean Differences|-10.27||||0.0789|TWO_SIDED|95.0|-21.507|0.96||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||0.960|-21.507|0.0789
92236837|NCT01380093|184377519|SUPERIORITY_OR_OTHER||LS Mean Difference|32.3||||0.0766|TWO_SIDED|95.0|-3.5|68.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||68.1|-3.5|0.0766
92236838|NCT01380093|184377519|SUPERIORITY_OR_OTHER||LS Mean Difference|81.3|||<|0.0001|TWO_SIDED|95.0|45.4|117.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||117.3|45.4|<0.0001
92236839|NCT01380093|184377520|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.0||||0.0018|TWO_SIDED|95.0|-12.9|-3.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-3.1|-12.9|0.0018
92236840|NCT01380093|184377520|SUPERIORITY_OR_OTHER||LS Mean Difference|4.8||||0.0527|TWO_SIDED|95.0|-0.1|9.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||9.7|-0.1|0.0527
92236841|NCT01380093|184377520|SUPERIORITY_OR_OTHER||LS Mean Difference|12.8|||<|0.0001|TWO_SIDED|95.0|7.9|17.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||17.7|7.9|<0.0001
92428449|NCT03281577|184744548|SUPERIORITY||Least Squares Mean Differences|-13.28||||0.027|TWO_SIDED|95.0|-25.242|-1.314||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||-1.314|-25.242|0.0270
92428450|NCT03281577|184744548|SUPERIORITY||Least Squares Mean Differences|-11.63||||0.075|TWO_SIDED|95.0|-24.206|0.952||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||0.952|-24.206|0.0750
92428451|NCT01332500|184744552|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Triptan tablets|paired t-test 2-sided|||||||<0.001
92428452|NCT01332500|184744552|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-steroidal anti-inflammatory drug tablets|paired t-test 2-sided|||||||<0.001
92428453|NCT01332500|184744552|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Opioid tablets|paired t-test 2-sided|||||||0.005
92428454|NCT01332500|184744552|SUPERIORITY_OR_OTHER|||||||0.336||95.0||||Ergot tablets|paired t-test 2-sided|||||||0.336
92428455|NCT01332500|184744552|SUPERIORITY_OR_OTHER|||||||0.162||95.0||||Other tablets|paired t-test 2-sided|||||||0.162
92428456|NCT01332500|184744553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Triptan health plan costs|paired t-test 2-sided|||||||<0.001
92428457|NCT01332500|184744553|SUPERIORITY_OR_OTHER|||||||0.349||95.0||||Non-steroidal anti-inflammatory drug health plan costs|paired t-test 2-sided|||||||0.349
92428458|NCT01332500|184744553|SUPERIORITY_OR_OTHER|||||||0.208||95.0||||Opioid health plan costs|paired t-test 2-sided|||||||0.208
92428459|NCT01332500|184744553|SUPERIORITY_OR_OTHER|||||||0.239||95.0||||Ergot health plan costs|paired t-test 2-sided|||||||0.239
92428460|NCT01332500|184744553|SUPERIORITY_OR_OTHER|||||||0.583||95.0||||Other health plan costs|paired t-test 2-sided|||||||0.583
92428461|NCT01332500|184744553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total heath plan costs|paired t-test 2-sided|||||||<0.001
92428462|NCT01332500|184744554|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Triptan health plus copay costs|paired t-test 2-sided|||||||<0.001
92236842|NCT01380093|184377521|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.3986|TWO_SIDED|95.0|-1.4|0.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.6|-1.4|0.3986
92428463|NCT01332500|184744554|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||Non-steroidal, anti-inflammatory drug health plus copay costs|paired t-test 2-sided|||||||0.177
92428464|NCT01332500|184744554|SUPERIORITY_OR_OTHER|||||||0.173||95.0||||Opioid health plus copay costs|paired t-test 2-sided|||||||0.173
92428465|NCT01332500|184744554|SUPERIORITY_OR_OTHER|||||||0.191||95.0||||Ergot health plus copay costs|paired t-test 2-sided|||||||0.191
92428466|NCT01332500|184744554|SUPERIORITY_OR_OTHER|||||||0.254||95.0||||Other health plus copay costs|paired t-test 2-sided|||||||0.254
92428467|NCT01332500|184744554|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total health plus copay costs|paired t-test 2-sided|||||||<0.001
92428468|NCT01332500|184744555|SUPERIORITY_OR_OTHER|||||||0.866||95.0||||Triptan tablets|paired t-test 2-sided|||||||0.866
92428469|NCT01332500|184744555|SUPERIORITY_OR_OTHER|||||||0.094||95.0||||Non-steroidal anti-inflammatory drug tablets|paired t-test 2-sided|||||||0.094
92428470|NCT01332500|184744555|SUPERIORITY_OR_OTHER|||||||0.832||95.0||||Opioid tablets|paired t-test 2-sided|||||||0.832
92428471|NCT01332500|184744555|SUPERIORITY_OR_OTHER|||||||0.392||95.0||||Ergot tablets|paired t-test 2-sided|||||||0.392
92428472|NCT01332500|184744555|SUPERIORITY_OR_OTHER|||||||0.752||95.0||||Other tablets|paired t-test 2-sided|||||||0.752
92428473|NCT01332500|184744556|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Triptan health plan costs|paired t-test 2-sided|||||||<0.001
92428474|NCT01332500|184744556|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||Non-steroidal anti-inflammatory drug health plan costs|paired t-test 2-sided|||||||0.054
92428475|NCT01332500|184744556|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||Opioid health plan costs|paired t-test 2-sided|||||||0.590
92428476|NCT01332500|184744556|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||Ergot health plan costs|paired t-test 2-sided|||||||0.382
92428477|NCT01332500|184744556|SUPERIORITY_OR_OTHER|||||||0.343||95.0||||Other health plan costs|paired t-test 2-sided|||||||0.343
92428478|NCT01332500|184744556|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total health plan costs|paired t-test 2-sided|||||||<0.001
92428479|NCT01332500|184744557|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Triptan health plus copay costs|paired t-test 2-sided|||||||<0.001
92428480|NCT01332500|184744557|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||Non-steroidal anti-inflammatory drug health plus copay costs|paired t-test 2-sided|||||||0.146
92428481|NCT01332500|184744557|SUPERIORITY_OR_OTHER|||||||0.826||95.0||||Opioid health plus copay costs|paired t-test 2-sided|||||||0.826
92428482|NCT01332500|184744557|SUPERIORITY_OR_OTHER|||||||0.354||95.0||||Ergot health plus copay costs|paired t-test 2-sided|||||||0.354
92428483|NCT01332500|184744557|SUPERIORITY_OR_OTHER|||||||0.514||95.0||||Other health plus copay costs|paired t-test 2-sided|||||||0.514
92428484|NCT01332500|184744557|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Total health plus copay costs|paired t-test 2-sided|||||||0.001
92428485|NCT01594281|184744568|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-2.8||||0.0344|TWO_SIDED|95.0|-5.4|-0.2|||ANCOVA|||||-0.2|-5.4|0.0344
92428486|NCT01594281|184744568|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-1.2||||0.3809|TWO_SIDED|95.0|-3.8|1.5|||ANCOVA|||||1.5|-3.8|0.3809
92428487|NCT01594281|184744568|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|1.7||||0.2113|TWO_SIDED|95.0|-1.0|4.3|||ANCOVA|||||4.3|-1.0|0.2113
92428488|NCT01594281|184744569|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-2.4||||0.0081|TWO_SIDED|95.0|-4.2|-0.6|||ANCOVA|||||-0.6|-4.2|0.0081
92428489|NCT01594281|184744569|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-0.3||||0.7494|TWO_SIDED|95.0|-2.0|1.5|||ANCOVA|||||1.5|-2.0|0.7494
92428490|NCT01594281|184744569|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|2.1||||0.0175|TWO_SIDED|95.0|0.4|3.9|||ANCOVA|||||3.9|0.4|0.0175
92428491|NCT01594281|184744570|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|5.5||||0.0495|TWO_SIDED|95.0|0.0|11.0|||ANCOVA|||||11.0|0.0|0.0495
92428492|NCT01594281|184744570|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|3.0||||0.2767|TWO_SIDED|95.0|-2.5|8.5|||ANCOVA|||||8.5|-2.5|0.2767
92428493|NCT01594281|184744570|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-2.5||||0.3641|TWO_SIDED|95.0|-7.9|2.9|||ANCOVA|||||2.9|-7.9|0.3641
92428494|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.47||||0.4019|TWO_SIDED|95.0|0.08|2.749|||Regression, Logistic|||≥10 letters gain||2.749|0.080|0.4019
92236843|NCT01380093|184377521|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5||||0.0023|TWO_SIDED|95.0|0.6|2.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.5|0.6|0.0023
92236844|NCT01380093|184377521|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9||||0.0002|TWO_SIDED|95.0|1.0|2.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.9|1.0|0.0002
92236845|NCT01380093|184377522|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.2||||0.0029|TWO_SIDED|95.0|-18.0|-4.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-4|-18|0.0029
92236846|NCT01380093|184377522|SUPERIORITY_OR_OTHER||LS Mean Difference|8.1||||0.0286|TWO_SIDED|95.0|1.0|15.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||15|1|0.0286
92428495|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.833||||0.2772|TWO_SIDED|95.0|0.614|5.471|||Regression, Logistic|||≥5 letters gain||5.471|0.614|0.2772
92428496|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.412||||0.4731|TWO_SIDED|95.0|0.55|3.622|||Regression, Logistic|||No clinically relevant change||3.622|0.55|0.4731
92428497|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.35||||0.065|TWO_SIDED|95.0|0.155|1.068|||Regression, Logistic|||≥5 letters loss||1.068|0.155|0.065
92428498|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.229|4.361|||Regression, Logistic|||≥10 letters loss||4.361|0.229|1.000
92428499|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.314||||0.3261|TWO_SIDED|95.0|0.031|3.173|||Regression, Logistic|||≥15 letters loss||3.173|0.031|0.3261
92236847|NCT01380093|184377522|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|||<|0.0001|TWO_SIDED|95.0|12.0|27.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||27|12|<0.0001
92428500|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.667||||0.668|TWO_SIDED|95.0|0.104|4.253|||Regression, Logistic|||≥10 letters gain||4.253|0.104|0.6680
92428501|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|2.842||||0.0838|TWO_SIDED|95.0|0.87|9.283|||Regression, Logistic|||≥5 letters gain||9.283|0.870|0.0838
92236848|NCT01380093|184377523|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.0||||0.005|TWO_SIDED|95.0|-22.0|-4.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-4|-22|0.0050
92236849|NCT01380093|184377523|SUPERIORITY_OR_OTHER||LS Mean Difference|8.2||||0.07|TWO_SIDED|95.0|-1.0|17.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||17|-1|0.0700
92236850|NCT01380093|184377523|SUPERIORITY_OR_OTHER||LS Mean Difference|21.2|||<|0.0001|TWO_SIDED|95.0|12.0|30.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||30|12|<0.0001
92428502|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.674||||0.4116|TWO_SIDED|95.0|0.263|1.729|||Regression, Logistic|||No clinically relevant change||1.729|0.263|0.4116
92236851|NCT01380093|184377524|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|||<|0.0001|TWO_SIDED|95.0|0.5|0.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.9|0.5|<0.0001
92236852|NCT01380093|184377524|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-0.3|-0.8|<0.0001
92428503|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.621||||0.4197|TWO_SIDED|95.0|0.195|1.977|||Regression, Logistic|||≥5 letters loss||1.977|0.195|0.4197
92428504|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.419||||0.6632|TWO_SIDED|95.0|0.294|6.856|||Regression, Logistic|||≥10 letters loss||6.856|0.294|0.6632
92428505|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.029||||0.9839|TWO_SIDED|95.0|0.062|17.127|||Regression, Logistic|||≥15 letters loss||17.127|0.062|0.9839
92170842|NCT00041938|184230557|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.053|TWO_SIDED|95.0|0.998|1.47|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.||Null hypothesis: there is no difference between warfarin and aspirin in time to heart failure hospitalization, adjusting for competing risks of myocardial infarction, ischemic stroke, intracerebral hemorrhage, and death.||1.47|0.998|0.053
92236853|NCT01380093|184377524|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.5|-1.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.0|-1.5|<0.0001
92236854|NCT01380093|184377525|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4|||<|0.0001|TWO_SIDED|95.0|1.9|2.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.9|1.9|<0.0001
92428506|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.419||||0.663|TWO_SIDED|95.0|0.294|6.858|||Regression, Logistic|||≥10 letters gain||6.858|0.294|0.6630
92428507|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.55||||0.4941|TWO_SIDED|95.0|0.441|5.444||P-value was calculated as a point estimate.|Regression, Logistic|||≥5 letters gain||5.444|0.441|0.4941
92428508|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.477||||0.1259|TWO_SIDED|95.0|0.185|1.231|||Regression, Logistic|||No clinically relevant change||1.231|0.185|0.1259
92428509|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.773||||0.271|TWO_SIDED|95.0|0.64|4.913|||Regression, Logistic|||≥5 letters loss||4.913|0.640|0.2710
92428510|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.419||||0.6632|TWO_SIDED|95.0|0.294|6.856|||Regression, Logistic|||≥10 letters loss||6.856|0.294|0.6632
92428511|NCT01594281|184744571|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|3.282||||0.314|TWO_SIDED|95.0|0.325|33.171|||Regression, Logistic|||≥15 letters loss||33.171|0.325|0.3140
92428512|NCT01594281|184744572|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.994||||0.9918|TWO_SIDED|95.0|0.327|3.026|||Regression, Logistic|||≥ 1 class improvement from Baseline at EOCS||3.026|0.327|0.9918
92236855|NCT01380093|184377525|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.3|-2.2|<0.0001
92236856|NCT01380093|184377525|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.1|||<|0.0001|TWO_SIDED|95.0|-4.6|-3.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-3.6|-4.6|<0.0001
92428513|NCT01594281|184744572|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.607||||0.3595|TWO_SIDED|95.0|0.209|1.765|||Regression, Logistic|||≥ 1 class improvement from Baseline at EOCS||1.765|0.209|0.3595
92428514|NCT01594281|184744572|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.611||||0.3787|TWO_SIDED|95.0|0.204|1.83|||Regression, Logistic|||≥ 1 class improvement from Baseline at EOCS||1.830|0.204|0.3787
92428515|NCT01594281|184744572|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.889||||0.9097|TWO_SIDED|95.0|0.116|6.806|||Regression, Logistic|||≥ 2 class improvement from Baseline at EOCS||6.806|0.116|0.9097
92236857|NCT01380093|184377526|SUPERIORITY_OR_OTHER||LS Mean Difference|4.9|||<|0.0001|TWO_SIDED|95.0|3.9|5.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.8|3.9|<0.0001
92428516|NCT01594281|184744572|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.341||||0.223|TWO_SIDED|95.0|0.06|1.925|||Regression, Logistic|||≥ 2 class improvement from Baseline at EOCS||1.925|0.060|0.2230
92428517|NCT01594281|184744572|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.383||||0.2792|TWO_SIDED|95.0|0.068|2.177|||Regression, Logistic|||≥ 2 class improvement from Baseline at EOCS||2.177|0.068|0.2792
92428518|NCT01594281|184744573|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-40.7||||0.0003|TWO_SIDED|95.0|-62.1|-19.3|||ANCOVA|||||-19.3|-62.1|0.0003
92428519|NCT01594281|184744573|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-22.9||||0.0357|TWO_SIDED|95.0|-44.2|-1.6|||ANCOVA|||||-1.6|-44.2|0.0357
92428520|NCT01594281|184744573|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|17.8||||0.1034|TWO_SIDED|95.0|-3.7|39.3|||ANCOVA|||||39.3|-3.7|0.1034
92428521|NCT01594281|184744574|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-51.7||||0.0007|TWO_SIDED|95.0|-81.1|-22.3|||ANCOVA|||||-22.3|-81.1|0.0007
92428522|NCT01594281|184744574|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-28.9||||0.0542|TWO_SIDED|95.0|-58.4|0.5|||ANCOVA|||||0.5|-58.4|0.0542
92428523|NCT01594281|184744574|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|22.8||||0.1288|TWO_SIDED|95.0|-6.7|52.3|||ANCOVA|||||52.3|-6.7|0.1288
92428524|NCT01890473|184744611|SUPERIORITY_OR_OTHER||ratio of geometric mean|0.908|||||TWO_SIDED|90.0|0.815|1.01||||||The PK comparability of the two devices was assessed via a linear model for each key PK parameter in log scale (using log (Cmax) without a formal test.||1.01|0.815|
92428525|NCT01890473|184744612|SUPERIORITY_OR_OTHER||ratio of geometric mean|0.941|||||TWO_SIDED|90.0|0.843|1.05||||||The PK comparability of the two devices was assessed via a linear model for each key PK parameter in log scale, using log (AUC (0-T) without a formal test.||1.05|0.843|
92428526|NCT01890473|184744613|SUPERIORITY_OR_OTHER||ratio of geometric mean|0.976|||||TWO_SIDED|90.0|0.888|1.07||||||The PK comparability of the two devices was assessed via a linear model for each key PK parameter in log scale, using log AUC(INF) without a formal test.||1.07|0.888|
92428527|NCT01945281|184744622|OTHER|Miettinen \& Nurminen method stratified by stratum (Weight category based on weight at study entry) with Cochran Mantel-Haenszel's weights.|Difference in Percentage|-0.9|||||TWO_SIDED|95.0|-24.3|27.7|||||Caspofungin minus Amphotericin|||27.7|-24.3|
92428528|NCT01945281|184744623|OTHER|Miettinen \& Nurminen method stratified by stratum (Weight category based on weight at study entry) with Cochran Mantel-Haenszel's weights.|Difference in Percentage|-6.3|||||TWO_SIDED|95.0|-30.2|22.6|||||Caspofungin minus Amphotericin|||22.6|-30.2|
92428529|NCT02478632|184744659|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.014|TWO_SIDED|95.0|0.27|2.31|||ANCOVA|||||2.31|0.27|0.014
92428530|NCT02478632|184744660|SUPERIORITY||Mean Difference (Final Values)|1.32||||0.039|TWO_SIDED|95.0|0.07|2.57|||ANCOVA|||||2.57|0.07|0.039
92428531|NCT02478632|184744663|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.016|TWO_SIDED|95.0|0.02|0.16||p value for the difference in adjusted change from Baseline at Week 48 in total hip T-scores between the DTG+RPV and CAR groups|ANCOVA||The analysis estimated the difference between DTG+RPV and CAR in total hip T-scores|||0.16|0.02|0.016
92428532|NCT02478632|184744663|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.026|TWO_SIDED|95.0|0.01|0.15||p value for the difference in adjusted change from Baseline at Week 48 in total hip Z-scores between the DTG+RPV and CAR groups|ANCOVA||The analysis estimated difference between DTG+RPV and CAR in total hip Z-score.|||0.15|0.01|0.026
92428533|NCT02478632|184744663|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.049|TWO_SIDED|95.0|0.0|0.23||p value for the difference in adjusted change from Baseline at Week 48 in lumbar spine T-scores between the DTG+RPV and CAR groups|ANCOVA||The analysis estimated difference between DTG+RPV and CAR for lumbar spine T-score.|||0.23|0.00|0.049
92236858|NCT01380093|184377526|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3|||<|0.0001|TWO_SIDED|95.0|-6.3|-4.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-4.3|-6.3|<0.0001
92428534|NCT02478632|184744663|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.013|TWO_SIDED|95.0|0.03|0.27||p value for the difference in adjusted change from Baseline at Week 48 in lumbar spine Z-scores between the DTG+RPV and CAR groups|ANCOVA||The analysis estimated difference between DTG+RPV and CAR in lumbar spine Z-score.|||0.27|0.03|0.013
92428535|NCT02478632|184744666|OTHER||Mean Difference (Final Values)|0.65|||||TWO_SIDED|95.0|-3.51|4.81|||||The analysis refers to INSTI and total hip.|||4.81|-3.51|
92428536|NCT02478632|184744666|OTHER||Mean Difference (Final Values)|1.6|||||TWO_SIDED|95.0|0.39|2.81|||||The analysis refers to NNRTI and total hip.|||2.81|0.39|
92428537|NCT02478632|184744666|OTHER||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-1.39|3.38|||||this analysis refers to PI and total hip|||3.38|-1.39|
92428538|NCT02478632|184744666|OTHER||Mean Difference (Final Values)|3.85|||||TWO_SIDED|95.0|0.67|7.03|||||this analysis refers to INSTI and lumbar spine.|||7.03|0.67|
92428539|NCT02478632|184744666|OTHER||Mean Difference (Final Values)|1.25|||||TWO_SIDED|95.0|-0.26|2.76|||||this analysis refers to NNRTI and lumbar spine|||2.76|-0.26|
92428540|NCT02478632|184744666|OTHER||Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|-3.0|3.77|||||this analysis refers to PI and lumbar spine|||3.77|-3.00|
92428541|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.26|0.3|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip T-scores by baseline third agent INSTI.|||0.30|-0.26|
92428542|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|0.03|0.19|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip T-scores by baseline third agent NNRTI.|||0.19|0.03|
92428543|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-0.09|0.24|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip T-scores by baseline third agent PI.|||0.24|-0.09|
92428544|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.25|0.37|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip Z-scores by baseline third agent INSTI.|||0.37|-0.25|
92428545|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|0.02|0.18|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip Z-scores by baseline third agent NNRTI.|||0.18|0.02|
92428546|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|-0.14|0.21|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip Z-scores by baseline third agent PI.|||0.21|-0.14|
92428547|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.36|||||TWO_SIDED|95.0|0.01|0.71|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine T-scores by baseline third agent INSTI.|||0.71|0.01|
92428548|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-0.03|0.25|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine T-scores by baseline third agent NNRTI.|||0.25|-0.03|
92428549|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.3|0.33|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine T-scores by baseline third agent PI.|||0.33|-0.30|
92428550|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|0.03|0.74|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine Z-scores by baseline third agent INSTI.|||0.74|0.03|
92428551|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.02|0.26|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine Z-scores by baseline third agent NNRTI.|||0.26|-0.02|
92428552|NCT02478632|184744667|OTHER||Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|-0.26|0.34|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine Z-scores by baseline third agent PI.|||0.34|-0.26|
92428553|NCT01867424|184744672|OTHER||Median of Differences|0.43||||0.0008|TWO_SIDED|||||Median of difference in CER: All cases.|Wilcoxon Test||The relative difference between groups is based on the change from baseline values to the values collected at each of the three time points.|Null Hypothesis: There is no significant difference in contrast enhancement ratio (CER) in prostate cancers upon injection of Eovist. Subgroup analysis of CER in (i) Advanced Disease and (ii) Localized Disease||||0.0008
92428554|NCT01867424|184744672|OTHER||Median of Differences|0.42||||0.0039|TWO_SIDED|||||Median of difference in CER: Advanced Disease Cases.|Wilcoxon Test|||||||0.0039
92428555|NCT01867424|184744672|OTHER||Median of Differences|0.475||||0.084|TWO_SIDED|||||Median of difference in CER: Local Disease Cases.|Wilcoxon Test|||||||0.084
92428556|NCT01867424|184744672|OTHER||Median Difference CER|0.17||||0.25|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 40 minutes after Eovist injection.||||0.25
92428557|NCT01867424|184744672|OTHER||Median Difference CER|0.27||||0.1602|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 60 minutes after Eovist injection.||||0.1602
92428558|NCT01867424|184744672|OTHER||Median Difference CER|0.29||||0.0078|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 40 minutes after Eovist injection.||||0.0078
92428559|NCT01867424|184744672|OTHER||Median Difference CER|0.34||||0.0039|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 60 minutes after Eovist injection.||||0.0039
92428560|NCT01867424|184744672|OTHER||Median Difference CER|0.27||||0.0046|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 40 minutes after Eovist injection; Total cases.||||0.0046
92428561|NCT01867424|184744672|OTHER||Median Difference CER|0.33||||0.0017|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 60 minutes after Eovist injection; Total cases.||||0.0017
92428562|NCT01867424|184744674|OTHER||Spearman r|-0.137||||0.5761|TWO_SIDED|95.0|-0.5665|0.3511|||Nonparametric Spearman correlation|The calculation of Spearman correlation is between baseline PSA and CER at 20 minutes post Eovist injection.||Null Hypothesis: There is no significant difference in contrast enhancement ratio (CER) with Eovist injection based on baseline Prostate-specific antigen (PSA) levels at 20-minute timepoint.||0.3511|-0.5665|0.5761
92428563|NCT01867424|184744674|OTHER||Spearman r|-0.257||||0.3033|TWO_SIDED|95.0|-0.6549|0.2526|||nonparametric Spearman correlation|||Analyses include calculation of Spearman correlation between baseline Prostate-specific antigen (PSA) and CER at 40 minutes post Eovist injection.||0.2526|-0.6549|0.3033
92428564|NCT01867424|184744674|OTHER||Spearman r|-0.2861||||0.2351|TWO_SIDED|95.0|-0.6634|0.2071|||nonparametric Spearman correlation|||Analyses include calculation of Spearman correlation between baseline Prostate-specific antigen (PSA) and CER at 60 minutes post Eovist injection.||0.2071|-0.6634|0.2351
92236859|NCT01380093|184377526|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.1|||<|0.0001|TWO_SIDED|95.0|-11.1|-9.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-9.2|-11.1|<0.0001
92236860|NCT01380093|184377527|SUPERIORITY_OR_OTHER||LS Mean Difference|8.6|||<|0.0001|TWO_SIDED|95.0|6.6|10.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||10.7|6.6|<0.0001
92428565|NCT01867424|184744674|OTHER||Median Difference (actual)|-0.47||||0.111|TWO_SIDED||||||Mann Whitney|||Analyses include analysis of CER at 20 minutes after Eovist injection based on baseline Prostate-specific antigen (PSA) stratifying by PSA \< or \>/= 20ng/ml.||||0.111
92428566|NCT01867424|184744674|OTHER||Median Difference (actual)|-0.775||||0.7738|TWO_SIDED||||||Mann Whitney|||Analyses include analysis of CER at 20 minutes after Eovist injection based on baseline Prostate-specific antigen (PSA) stratifying by PSA \< or \>/= 20ng/ml.||||0.7738
92428567|NCT04645953|184744676|SUPERIORITY|||||||0.7024|||||||ANOVA|||Null hypothesis is there was no difference between groups treated with AZ-010 (1 mg or 3 mg) and the placebo group in the mean number of vomiting/retching events in the 2 hours following. treatment. Baseline, body weight, height, body mass index, age as covariates, and the treatment group and study site as factors. All statistical tests were 2-sided with a significance value of ≤ 0.05.||||0.7024
92428568|NCT04645953|184744676|SUPERIORITY|Null hypothesis is there was no difference between groups treated with AZ-010 (1 mg or 3 mg) and the placebo group in the mean number of vomiting/retching events in the 2 hours following. treatment. Baseline, body weight, height, body mass index, age as covariates, and the treatment group and study site as factors. Patients summarized by actual treatment received. Formal statistical tests (ANOVA, when performed) were 2-sided t-tests with a significance value of 0.05.||||||0.2051|||||||ANOVA|||||||0.2051
92428569|NCT04645953|184744677|SUPERIORITY|||||||0.0504|||||||Mixed Models Analysis|||Participants were asked to rate their anxiety/panic on scale of 0-100 at each time point. The higher the number, the more intense the symptom.||||0.0504
92428570|NCT04645953|184744677|SUPERIORITY|Participants were asked to rate their anxiety/panic on scale of 0-100 at each time point. The higher the number, the more intense the symptom.||||||0.8246|||||||Mixed Models Analysis|||||||0.8246
92428571|NCT04645953|184744678|SUPERIORITY|||||||0.8299||||||Prior Episode Duration 1mg AZ-010|Mixed Models Analysis|||||||0.8299
92428572|NCT04645953|184744678|SUPERIORITY|||||||0.2346||||||Prior Episode Duration 3 mg AZ-010|Mixed Models Analysis|||||||0.2346
92428573|NCT04645953|184744678|SUPERIORITY|||||||0.3997||||||Prior Episode intensity 1mg AZ-010|Mixed Models Analysis|||||||0.3997
92428574|NCT04645953|184744678|SUPERIORITY|||||||0.3997||||||Prior Episode intensity 3mg AZ-010|Mixed Models Analysis|||||||0.3997
92428575|NCT04645953|184744679|SUPERIORITY|||||||0.3847|||||||Mantel Haenszel|||||||0.3847
92428576|NCT04645953|184744679|SUPERIORITY|||||||0.1785|||||||Mantel Haenszel|||||||0.1785
92428577|NCT04645953|184744680|SUPERIORITY|||||||0.9732|||||||Mantel Haenszel|||||||0.9732
92428578|NCT04645953|184744680|SUPERIORITY|||||||0.1471|||||||Mantel Haenszel|||||||0.1471
92428579|NCT04645953|184744681|SUPERIORITY|||||||0.1337|||||||ANOVA|||The RINVR is an 8-part questionnaire with each item scored from 0-4, for a total scoring range of 0-32. A lower score indicates less distress related to nausea, vomiting, and retching. The data shown is collected within the first 24 hours after the first at-home dose.||||0.1337
92428580|NCT04645953|184744681|SUPERIORITY|||||||0.7224|||||||ANOVA|||||||0.7224
92428581|NCT04645953|184744682|SUPERIORITY|||||||0.0504|||||||Mixed Models Analysis|||Participants were asked to rate their abdominal pain, nausea, and anxiety/panic on scale of 0-100 at each time point. The higher the number, the more intense the symptom.||||0.0504
92428582|NCT04645953|184744682|SUPERIORITY|||||||0.8246|||||||Mixed Models Analysis|||||||0.8246
92428583|NCT04645953|184744683|SUPERIORITY|||||||0.9664|||||||Mixed Models Analysis|||||||0.9664
92428584|NCT04645953|184744683|SUPERIORITY|||||||0.7919|||||||Mixed Models Analysis|||||||0.7919
92428585|NCT04613375|184744684|OTHER||Adjusted VE|16.91||||0.3685|TWO_SIDED|95.0|-24.43|44.52|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with respiratory syncytial virus (RSV) infection.|||44.52|-24.43|0.3685
92428586|NCT04613375|184744685|OTHER||Adjusted VE|49.27||||0.0817|TWO_SIDED|95.0|-8.9|76.37|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|\<2 years||76.37|-8.9|0.0817
92428587|NCT04613375|184744685|OTHER||Adjusted VE|4.72||||0.8367|TWO_SIDED|95.0|-50.96|39.87|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|2 years to \<5 years||39.87|-50.96|0.8367
92236861|NCT01380093|184377527|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.8|||<|0.0001|TWO_SIDED|95.0|-15.9|-11.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-11.8|-15.9|<0.0001
92428588|NCT04613375|184744685|OTHER||Adjusted VE|12.02||||0.7469|TWO_SIDED|95.0|-91.53|59.59|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|\>=5 years||59.59|-91.53|0.7469
92428589|NCT04613375|184744691|OTHER||Adjusted VE|25.96||||0.1827|TWO_SIDED|95.0|-15.21|52.42|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|||52.42|-15.21|0.1827
92428590|NCT04613375|184744692|OTHER||Adjusted VE|68.86||||0.028|TWO_SIDED|95.0|11.86|89.0|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|\<2 years||89|11.86|0.028
92428591|NCT04613375|184744692|OTHER||Adjusted VE|7.97||||0.738|TWO_SIDED|95.0|-49.73|43.43|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|2 years to \<5 years||43.43|-49.73|0.738
92428592|NCT04613375|184744692|OTHER||Adjusted VE|30.06||||0.4327|TWO_SIDED|95.0|-70.86|71.37|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|\>=5 years||71.37|-70.86|0.4327
92428593|NCT00434954|184744705|NON_INFERIORITY_OR_EQUIVALENCE|The planned sample size of 366 patients treated with metformin only (assuming 25% dropouts) gave a power of 85% to detect non-inferiority of exenatide BID for change in HbA1c (non-inferiority margin 0.4%; assumed common standard deviation of 1.1%).|Mean Difference (Net)|0.14||||0.055|TWO_SIDED|95.0|-0.003|0.291||Non-inferiority: upper limit of 95% Confidence Interval (CI) to be \< 0.4%.|Mixed effect model repeat measures(MMRM)|95% CI of treatment group difference derived from MMRM (treatment, week, baseline HbA1c and interactions as fixed effects); p-value: superiority test||The hypothesis was tested hierarchically that 1) exenatide BID is non-inferior to insulin aspart 70/30 BID for glycemic control (change in HbA1c, outcome measure 1), and 2) superior regarding the incidence of hypoglycemia (outcome measure 2). This is the first part of the hierarchical test.||0.291|-0.003|0.055
92428594|NCT00434954|184744706|SUPERIORITY_OR_OTHER|||||||0.554||95.0|||||Chi square test (Pearson)|||||||0.554
92428595|NCT00434954|184744707|SUPERIORITY_OR_OTHER|||||||0.159||95.0|||||Chi square test (Pearson)|||||||0.159
92428596|NCT00434954|184744712|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Non overlapping 95% CI's: statistically significant difference p\<0.05.|Kaplan-Meier analysis|For each treatment group, the incidence of hypoglycemia at Week 26 and 95% CIs were derived from Kaplan-Meier analysis.||The hypothesis was tested hierarchically that 1) exenatide BID is non-inferior to insulin aspart BID for glycemic control (outcome measure 1), and 2) superior regarding the incidence of hypoglycemia (outcome measure 2).The planned sample size of 366 patients treated with metformin only (assumed dropout rate 25%) gave 96% power to detect superiority of exenatide BID for the risk of hypoglycemia, assuming incidences of 3.6% for exenatide BID and 17.5% for insulin aspart BID (alpha=0.05).||||<0.05
92428597|NCT00434954|184744713|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The MMRM model adjusted for baseline HbA1c stratum (HbA1c at baseline \>= 6.5% and \<= 8.0% vs. \> 8.0% and \<=10%).|Mixed effects model repeated measures|95% CI of treatment group difference derived from MMRM (treatment, week, baseline HbA1c and interactions as fixed effects)||||||<0.0001
92428598|NCT00434954|184744714|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The MMRM model adjusted for baseline HbA1c stratum (HbA1c at Visit 1 \>= 6.5% and \<= 8.0% vs. \> 8.0% and \<=10%).|Mixed effects model repeated measures|95% CI of treatment group difference derived from MMRM (treatment, week, baseline HbA1c and interactions as fixed effects)||||||<0.0001
92428599|NCT00002651|184744717|NON_INFERIORITY_OR_EQUIVALENCE|The overall type I error rate used is 0.05. The type II error rate is 0.10 (power = 0.9). The trial planned for a one-sided test of the hypothesis that the hazard ratio of intermittent CAD to continuous CAD is 1.2. A hazard ratio of 1.0 was used as the specific alternative in the trial size computations. Thus, rejection of the hypothesis will be evidence against the possibility that the intermittent CAD hazard ratio is larger than the continuous CAD hazard ratio by 20% or more.|Hazard Ratio (HR)|1.1||||0.15|TWO_SIDED|90.0|0.99|1.23|||Regression, Cox|||||1.23|0.99|0.15
92236862|NCT01380093|184377527|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.4|||<|0.0001|TWO_SIDED|95.0|-24.5|-20.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-20.4|-24.5|<0.0001
92428600|NCT00002651|184744718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.83||||0.09|TWO_SIDED|95.0|-0.31|3.97||The type I error rate used was 0.005 in an attempt to adjust for multiple primary scores being tested.The type II error rate used was 0.10 (power = 0.9).|t-test, 2 sided|||||3.97|-0.31|0.09
92428601|NCT00002651|184744719|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.88||||0.003|TWO_SIDED|95.0|1.0|4.76||The type I error rate used was 0.005 in an attempt to adjust for multiple primary scores being tested.The type II error rate used was 0.10 (power = 0.9).|t-test, 2 sided|||||4.76|1.00|0.003
92428602|NCT00002651|184744720|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.0|||<|0.001|TWO_SIDED|95.0|-14.0|-5.0||The type I error rate used was 0.005 in an attempt to adjust for multiple primary scores being tested.The type II error rate used was 0.10 (power = 0.9).|t-test, 2 sided|||||-5|-14|<0.001
92428603|NCT00002651|184744721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.0||||0.04|TWO_SIDED|95.0|1.0|36.0||The type I error rate used was 0.005 in an attempt to adjust for multiple primary scores being tested.The type II error rate used was 0.10 (power = 0.9).|t-test, 2 sided|||||36|1|0.04
92428604|NCT00002651|184744722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.32||||0.23|TWO_SIDED|95.0|-0.83|3.46||The type I error rate used was 0.005 in an attempt to adjust for multiple primary scores being tested.The type II error rate used was 0.10 (power = 0.9).|t-test, 2 sided|||||3.46|-0.83|0.23
92428605|NCT01773733|184744767|OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92428606|NCT02096731|184744775|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.92|1.37|||||"HR adjusted for 10 year age groups, sex, calendar year of cohort entry, the decile of propensity score, ipratropium use prior to cohort entry and time since entry into base cohort.~Ratio calculated as combination therapy divided by monotherapy."|||1.37|0.92|
92170843|NCT00041938|184230558|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55||||0.03|TWO_SIDED|95.0|0.32|0.96|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.||Null hypothesis: there is no difference between warfarin and aspirin in time to ischemic stroke, adjusting for competing risks of myocardial infarction, heart failure hospitalization, death and intracerebral hemorrhage.||0.96|0.32|0.03
92236863|NCT01380093|184377528|SUPERIORITY_OR_OTHER||LS Mean Difference|11.7|||<|0.0001|TWO_SIDED|95.0|8.7|14.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||14.7|8.7|<0.0001
92236864|NCT01380093|184377528|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.5|||<|0.0001|TWO_SIDED|95.0|-24.5|-18.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-18.6|-24.5|<0.0001
92428607|NCT02096731|184744776|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.69|1.1|||||"HR adjusted for 10 year age groups, sex, calendar year of cohort entry, the decile of propensity score, ipratropium use prior to cohort entry and time since entry into base cohort.~Ratio calculated as combination therapy divided by monotherapy."|||1.10|0.69|
92428608|NCT02096731|184744777|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|1.03|1.3|||||"HR adjusted for 10 year age groups, sex, calendar year of cohort entry, the decile of propensity score, ipratropium use prior to cohort entry and time since entry into base cohort.~Ratio calculated as combination therapy divided by monotherapy."|||1.30|1.03|
92428609|NCT02096731|184744778|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.81|1.36|||||"HR adjusted for 10 year age groups, sex, calendar year of cohort entry, the decile of propensity score, ipratropium use prior to cohort entry and time since entry into base cohort.~Ratio calculated as combination therapy divided by monotherapy."|||1.36|0.81|
92428610|NCT02096731|184744779|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|1.23|1.5|||||"HR adjusted for 10 year age groups, sex, calendar year of cohort entry, the decile of propensity score, ipratropium use prior to cohort entry and time since entry into base cohort.~Ratio calculated as combination therapy divided by monotherapy."|||1.50|1.23|
92428611|NCT01081678|184744781|OTHER|||||||0.1983|||||||F-test|The p-value is based on F-test of multi-linear contrasts at Week 6 through Week 20.||The primary analysis was based on a test for linear trend in dose response at weeks 6, 12, 16, and 20. To account for multiple comparisons over time points, the primary analysis used a size α = 0.05 F-test with 4 degrees of freedom for the contrasts at Weeks 6, 12, 16, and 20.||||0.1983
92428612|NCT01619423|184744791|SUPERIORITY||Odds Ratio (OR)|0.78||||0.31|ONE_SIDED|10.0||1.5|||Cochran-Mantel-Haenszel|||||1.5||0.31
92428613|NCT01619423|184744791|SUPERIORITY||Odds Ratio (OR)|0.55||||0.15|ONE_SIDED|10.0||1.16|||Cochran-Mantel-Haenszel|||||1.16||0.15
92428614|NCT01619423|184744791|SUPERIORITY||Odds Ratio (OR)|0.62||||0.16|ONE_SIDED|10.0||1.14|||Cochran-Mantel-Haenszel|||||1.14||0.16
92428615|NCT05673889|184744796|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|192.2|||||TWO_SIDED|90.0|166.56|221.79|||||The ratios (and 90% CIs) are expressed as percentages.|Dabigatran etexilate administered alone as Reference, ARV-471 coadministered with dabigatran etexilate as Test. Natural log transformed Cmax was analyzed using a mixed effect model with treatment as fixed effects and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||221.79|166.56|
92236865|NCT01380093|184377528|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.2|||<|0.0001|TWO_SIDED|95.0|-36.2|-30.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-30.2|-36.2|<0.0001
92236866|NCT01380093|184377529|SUPERIORITY_OR_OTHER||LS Mean Difference|17.5|||<|0.0001|TWO_SIDED|95.0|11.6|23.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||23.3|11.6|<0.0001
92236867|NCT01380093|184377529|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.7|||<|0.0001|TWO_SIDED|95.0|-43.6|-31.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-31.9|-43.6|<0.0001
92236868|NCT01380093|184377529|SUPERIORITY_OR_OTHER||LS Mean Difference|-55.2|||<|0.0001|TWO_SIDED|95.0|-61.1|-49.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-49.3|-61.1|<0.0001
92428616|NCT05673889|184744797|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|197.81|||||TWO_SIDED|90.0|177.32|220.66|||||The ratios (and 90% CIs) are expressed as percentages.|Dabigatran etexilate administered alone as Reference, ARV-471 coadministered with dabigatran etexilate as Test. Natural log transformed Cmax was analyzed using a mixed effect model with treatment as fixed effects and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||220.66|177.32|
92428617|NCT01776840|184744833|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.011|TWO_SIDED|95.0|0.59|0.96|||Log Rank|||||0.96|0.59|0.011
92428618|NCT05338216|184744849|SUPERIORITY||Mean Difference (Final Values)|19.63||||0.021||95.0|4.37|36.24||Threshold for significance: p \< 0.05. No correction for multiple comparisons performed due to only two tests conducted and exploratory nature of this pilot study.|Wilcoxon (Mann-Whitney)|||Hypothesis: Compliance would be significantly higher for micro-interaction based versus traditional EMA. Null hypothesis: No difference between conditions.||36.24|4.37|0.021
92428619|NCT05338216|184744850|SUPERIORITY||Mean Difference (Final Values)|17.34||||0.027||95.0|0.78|32.77||Threshold for significance: p \< 0.05. No correction for multiple comparisons performed due to only two tests conducted and exploratory nature of this pilot study.|Wilcoxon (Mann-Whitney)|||Hypothesis: Completion would be significantly higher for micro-interaction based versus traditional EMA. Null hypothesis: No difference between conditions.||32.77|0.78|0.027
92428620|NCT01350492|184744932|SUPERIORITY||Wilks' Lambda|0.939||||0.68|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Multivariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.680
92428621|NCT01350492|184744933|SUPERIORITY||Wilks' Lambda|0.96||||0.854|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mulitvariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.854
92428622|NCT01350492|184744934|SUPERIORITY|||||||0.0002||||||The threshold for statistical significance was p = 0.05.|Multivariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.0002
92428623|NCT01350492|184744935|SUPERIORITY||Wilks' Lambda|0.857||||0.41|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Multivariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.41
92428624|NCT01350492|184744936|SUPERIORITY||Wilks' Lambda|0.828||||0.16|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Multivariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.16
92446528|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-1.31|STANDARD_ERROR_OF_MEAN|1.455||0.371|TWO_SIDED|95.0|-4.18|1.57||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 3||1.57|-4.18|0.371
92236869|NCT01380093|184377530|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|||<|0.0001|TWO_SIDED|95.0|0.8|1.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.4|0.8|<0.0001
92236870|NCT01380093|184377530|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.1|-1.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.5|-2.1|<0.0001
92236871|NCT01380093|184377530|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9|||<|0.0001|TWO_SIDED|95.0|-3.2|-2.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-2.6|-3.2|<0.0001
92428625|NCT01350492|184744937|SUPERIORITY||Wilks' Lambda|0.919||||0.66|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Multivariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.66
92428626|NCT03800173|184744956|OTHER||Slope|0.982|||||TWO_SIDED|90.0|0.868|1.096||||||A model with In-transformed dose (dose continuous) as a fixed effect \& subject as a random effect was applied to In-transformed Cmax. Dose proportionality was assessed by restricted max likelihood using SAS PROC MIXED. The mean slope was estimated from the power model \& the corresponding 90% CI calculated. Although there was no formal statistical hypothesis tested for this secondary objective, there was evidence for dose proportionality if the 90% CI of the fixed slope for In-dose contained 1.||1.096|0.868|
92428627|NCT03800173|184744957|OTHER||Slope|1.0|||||TWO_SIDED|90.0|0.872|1.128||||||A model with In-transformed dose (dose continuous) as a fixed effect \& subject as a random effect was applied to In-transformed AUC0-inf Dose proportionality was assessed by restricted max likelihood using SAS PROC MIXED. The mean slope was estimated from the power model \& the corresponding 90% CI calculated. Although there was no formal statistical hypothesis tested for this secondary objective, there was evidence for dose proportionality if the 90% CI of the fixed slope for In-dose contained 1||1.128|0.872|
92428628|NCT03800173|184744957|OTHER||Slope|1.086|||||TWO_SIDED|90.0|0.952|1.219||||||A model with In-transformed dose (dose continuous) as a fixed effect \& subject as a random effect was applied to In-transformed AUC0-t. Dose proportionality was assessed by restricted max likelihood using SAS PROC MIXED. The mean slope was estimated from the power model \& the corresponding 90% CI calculated. Although there was no formal statistical hypothesis tested for this secondary objective, there was evidence for dose proportionality if the 90% CI of the fixed slope for In-dose contained 1.||1.219|0.952|
92428629|NCT02149719|184744959|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92428630|NCT01235689|184745002|SUPERIORITY|||||||0.01|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by Screening smoking status (yes or no) and weight (\< 70 kg or ≥ 70 kg).||||||0.010
92428631|NCT01235689|184745003|SUPERIORITY|||||||0.014|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.014
92428632|NCT01235689|184745004|SUPERIORITY|||||||0.006|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.006
92236872|NCT01380093|184377531|SUPERIORITY_OR_OTHER||LS Mean Difference|2.5||||0.0262|TWO_SIDED|95.0|0.3|4.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.6|0.3|0.0262
92236873|NCT01380093|184377531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9||||0.418|TWO_SIDED|95.0|-1.3|3.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||3.0|-1.3|0.4180
92236874|NCT01380093|184377531|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6||||0.1479|TWO_SIDED|95.0|-3.7|0.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.6|-3.7|0.1479
92236875|NCT01380093|184377532|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21||||0.0181|TWO_SIDED|90.0|0.07|0.35|||Mixed Models Analysis|||Tmax was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.35|0.07|0.0181
92236876|NCT01380093|184377533|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.75|||<|0.0001|TWO_SIDED|90.0|0.68|0.83|||Mixed Models Analysis|||Natural log transformed Cmax was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.83|0.68|<0.0001
92236877|NCT01380093|184377534|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.77||||0.0004|TWO_SIDED|90.0|0.69|0.86|||Mixed Models Analysis|||Natural log transformed AUC (0-1) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.86|0.69|0.0004
92428633|NCT01235689|184745005|SUPERIORITY|||||||0.01|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.010
92428634|NCT01235689|184745006|SUPERIORITY|||||||0.299|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.299
92428635|NCT01235689|184745007|SUPERIORITY|||||||0.728|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.728
92428636|NCT01235689|184745008|SUPERIORITY|||||||0.067|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.067
92428637|NCT01235689|184745009|SUPERIORITY||LS Mean Difference|-1.4||||0.116|TWO_SIDED|95.0|-3.2|0.4|||ANCOVA|Model included factors for treatment group, screening smoking status (yes or no), and weight (\< 70 kg, ≥ 70 kg), and Baseline values as covariate.||||0.4|-3.2|0.116
92428638|NCT01235689|184745011|SUPERIORITY||Cox Proportional Hazard|0.442||||0.012|TWO_SIDED|95.0|0.2|0.8|||Regression, Cox|||||0.8|0.2|0.012
92236878|NCT01380093|184377535|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.86||||0.0065|TWO_SIDED|90.0|0.79|0.94|||Mixed Models Analysis|||Natural log transformed AUC (0-2) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.94|0.79|0.0065
92236879|NCT01380093|184377536|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.98||||0.6399|TWO_SIDED|90.0|0.91|1.06|||Mixed Models Analysis|||Natural log transformed AUC (0-4) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.06|0.91|0.6399
92236880|NCT01380093|184377537|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.0||||0.9057|TWO_SIDED|90.0|0.94|1.08|||Mixed Models Analysis|||Natural log transformed AUC (0-8) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.08|0.94|0.9057
92428639|NCT01235689|184745012|SUPERIORITY||Cox Proportional Hazard|1.45||||0.008|TWO_SIDED|95.0|1.1|1.9|||Regression, Cox|||||1.9|1.1|0.008
92428640|NCT01235689|184745013|SUPERIORITY||Cox Proportional Hazard|1.337||||0.052|TWO_SIDED|95.0|1.0|1.8|||Regression, Cox|||||1.8|1.0|0.052
92428641|NCT01235689|184745016|SUPERIORITY||Cox Proportional Hazard|0.823||||0.501|TWO_SIDED|95.0|0.5|1.5|||Regression, Cox|||||1.5|0.5|0.501
92428642|NCT01235689|184745017|SUPERIORITY||Cox Proportional Hazard|0.785||||0.459|TWO_SIDED|95.0|0.4|1.5|||Regression, Cox|||||1.5|0.4|0.459
92428643|NCT01235689|184745024|SUPERIORITY||Cox Proportional Hazard|0.423||||0.212|TWO_SIDED|95.0|0.1|1.6|||Regression, Cox|||||1.6|0.1|0.212
92428644|NCT00806351|184745035|SUPERIORITY_OR_OTHER||Risk Difference|-27.3|||||TWO_SIDED|95.0|-80.9|40.3||||||The 95 percent confidence interval (95% CI) was calculated using the method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||40.3|-80.9|
92428645|NCT00806351|184745036|SUPERIORITY_OR_OTHER||Risk Difference|-27.3|||||TWO_SIDED|95.0|-80.9|40.3||||||The 95% CI was calculated using the method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||40.3|-80.9|
92428646|NCT00806351|184745037|SUPERIORITY_OR_OTHER||Risk Difference|-40.0|||||TWO_SIDED|95.0|-97.5|63.9||||||The 95% CI was calculated using the method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||63.9|-97.5|
92428647|NCT00806351|184745038|SUPERIORITY_OR_OTHER||Risk Difference|-50.0|||||TWO_SIDED|95.0|-97.5|55.0||||||The 95% CI was calculated using the method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||55.0|-97.5|
92428648|NCT00806351|184745043|SUPERIORITY_OR_OTHER||Risk Difference|-36.4|||||TWO_SIDED|95.0|-90.6|31.9||||||The 95% CI was calculated using the method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||31.9|-90.6|
92236881|NCT01380093|184377538|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.03||||0.425|TWO_SIDED|90.0|0.97|1.1|||Mixed Models Analysis|||Natural log transformed AUC (0-12) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.10|0.97|0.4250
92236882|NCT01380093|184377539|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.1||||0.0204|TWO_SIDED|90.0|1.03|1.18|||Mixed Models Analysis|||Natural log transformed AUC (0-24) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.18|1.03|0.0204
92236883|NCT01380093|184377540|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.32||||0.0005|TWO_SIDED|90.0|1.17|1.49|||Mixed Models Analysis|||Natural log transformed AUC (0-∞) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.49|1.17|0.0005
92236884|NCT03503773|184377614|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.2682|TWO_SIDED|95.0|-4.8|1.7|||ANCOVA||There was no formal hypothesis testing conducted in the study. 95% CIs are intended to be descriptive in nature only|The null hypothesis to be tested is that there is no difference in the change in 24 hour mean SBP between treatment and sham control. The Type I error rate for rejecting the null hypothesis will be set at an alpha level of 0.05.||1.7|-4.8|0.2682
92428649|NCT00289783|184745064|EQUIVALENCE|Criteria for lot-to-lot consistency (1 month after primary vaccination): For each pair of lots and for the immune response to anti-PRP measured by Enzyme Linked Immunosorbent Assay (ELISA) the two-sided 95% confidence interval (CI) on the geometric mean concentrations (GMCs) ratio between lots is within the \[0.5; 2.0\] interval.|GMC ratio|1.12|||||TWO_SIDED|95.0|0.89|1.42||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for polyribosylribitol phosphate (PRP) as measured by ELISA.||1.42|0.89|
92428650|NCT00289783|184745064|EQUIVALENCE|Criteria for lot-to-lot consistency (1 month after primary vaccination): For each pair of lots and for the immune response to anti-PRP measured by ELISA the two-sided 95% confidence interval (CI) on the geometric mean concentrations (GMCs) ratio between lots is within the \[0.5; 2.0\] interval.|GMC ratio|1.12|||||TWO_SIDED|95.0|0.89|1.42||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for polyribosylribitol phosphate (PRP) as measured by ELISA.||1.42|0.89|
92236885|NCT03503773|184377615|SUPERIORITY|||||||0.6964|||||||ANCOVA|||Difference between treatment arms||||0.6964
92428651|NCT00289783|184745064|EQUIVALENCE|Criteria for lot-to-lot consistency (1 month after primary vaccination): For each pair of lots and for the immune response to anti-PRP measured by ELISA the two-sided 95% confidence interval (CI) on the geometric mean concentrations (GMCs) ratio between lots is within the \[0.5; 2.0\] interval.|GMC ratio|1.0|||||TWO_SIDED|95.0|0.8|1.26||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for polyribosylribitol phosphate (PRP) as measured by ELISA.||1.26|0.8|
92428652|NCT00289783|184745065|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenC, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|1.23|||||TWO_SIDED|95.0|0.93|1.62||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup C (MenC) as measured by a serum bactericidal assay using human complement (hSBA).||1.62|0.93|
92428653|NCT00289783|184745065|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenC, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|0.97|||||TWO_SIDED|95.0|0.74|1.29||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup C (MenC) as measured by a serum bactericidal assay using human complement (hSBA).||1.29|0.74|
92428654|NCT00289783|184745065|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenC, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|0.79|||||TWO_SIDED|95.0|0.6|1.04||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup C (MenC) as measured by a serum bactericidal assay using human complement (hSBA).||1.04|0.6|
92428655|NCT00289783|184745066|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenY, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|1.61|||||TWO_SIDED|95.0|1.14|2.27||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup Y (MenY) as measured by a serum bactericidal assay using human complement (hSBA).||2.27|1.14|
92428656|NCT00289783|184745066|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenY, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|1.4|||||TWO_SIDED|95.0|0.99|1.97||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup Y (MenY) as measured by a serum bactericidal assay using human complement (hSBA).||1.97|0.99|
92428657|NCT00289783|184745066|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenY, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|0.87|||||TWO_SIDED|95.0|0.62|1.21||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup Y (MenY) as measured by a serum bactericidal assay using human complement (hSBA).||1.21|0.62|
92428658|NCT00289783|184745067|NON_INFERIORITY|Criteria for immunogenicity of MenC (42 days after the fourth dose): Lower limit of the asymptotic 95% CI for the geometric mean of individual ratio of post-dose 4/pre-dose 4 is ≥ 2.|GMT ratio|12.0|||||TWO_SIDED|95.0|10.4|13.8||||||To evaluate the specific effect of a fourth dose of Menhibrix vaccine co-administered with M-M-R II and Varivax vaccines at 12 to 15 months of age in terms of a fourth dose vaccine response as measured by hSBA-MenC.||13.8|10.4|
92428659|NCT00289783|184745067|NON_INFERIORITY|Point estimate = Lower limit (LL) = Upper limit (UL) as LL and UL values were not available due to the departure from lognormal distribution (large number of imputed values)|GMT ratio|1.4|||||TWO_SIDED|95.0|1.4|1.4||||||To evaluate the specific effect of a fourth dose of Menhibrix vaccine co-administered with M-M-R II and Varivax vaccines at 12 to 15 months of age in terms of a fourth dose vaccine response as measured by hSBA-MenC.||1.4|1.4|
92428660|NCT00289783|184745068|NON_INFERIORITY|Criteria for immunogenicity of MenY (42 days after the fourth dose): Lower limit of the asymptotic 95% CI for the geometric mean of individual ratio of post-dose 4/pre-dose 4 is ≥ 2.|GMT ratio|11.8|||||TWO_SIDED|95.0|10.2|13.8||||||To evaluate the specific effect of a fourth dose of Menhibrix vaccine co-administered with M-M-R II and Varivax vaccines at 12 to 15 months of age in terms of a fourth dose vaccine response as measured by hSBA-MenY.||13.8|10.2|
92428661|NCT00289783|184745068|NON_INFERIORITY|Point estimate = Lower limit (LL) = Upper limit (UL) as LL and UL values were not available due to the departure from lognormal distribution (large number of imputed values).|GMT ratio|21.1|||||TWO_SIDED|95.0|21.1|21.1||||||To evaluate the specific effect of a fourth dose of Menhibrix vaccine co-administered with M-M-R II and Varivax vaccines at 12 to 15 months of age in terms of a fourth dose vaccine response as measured by hSBA-MenY.||21.1|21.1|
92236886|NCT03503773|184377616|SUPERIORITY|||||||0.0775|||||||ANCOVA|||Between group difference||||0.0775
92236887|NCT03503773|184377618|SUPERIORITY|||||||0.4734|||||||ANCOVA|||Between group difference||||0.4734
92236888|NCT03503773|184377620|SUPERIORITY|||||||0.0341|||||||ANCOVA|||||||0.0341
92236889|NCT03503773|184377622|SUPERIORITY||Mean Difference (Final Values)|-0.029||||0.573|TWO_SIDED|95.0|-0.132|0.073|||Fisher Exact|||||0.073|-0.132|0.573
92428662|NCT00289783|184745072|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the difference (Menhibrix vaccine fourth dose group minus ActHIB fourth dose group) in the percentage of subjects with seroconversion ≥ 150 mIU/mL, in initially seronegative subjects (\<150 mIU/mL), for anti-measles antibody is ≥-5% (clinical limit for non-inferiority).|Difference in percentage|-0.15|||||TWO_SIDED|95.0|-2.56|3.06||||||To demonstrate the non-inferiority of M-M-R II vaccine when co-administered with a fourth dose of Menhibrix vaccine compared to M-M-R II vaccine co-administered with a fourth dose of PedvaxHIB vaccine, each co-administered with Varivax vaccine.||3.06|-2.56|
92236890|NCT05341466|184377657|SUPERIORITY||Mean Difference (Net)|0.528|STANDARD_ERROR_OF_MEAN|0.188||0.0098|||||||Mixed Models Analysis|||||||0.0098
92236891|NCT05341466|184377657|OTHER||Adjusted R-squared|0.418||||0.014|||||||Regression, Linear|||Linear regression analyses performed with the change in the MEP amplitude versus step length asymmetry.||||0.014
92236892|NCT05341466|184377657|OTHER||Adjusted R-squared|0.496||||0.006|||||||Regression, Linear|||Linear regression analyses performed with the change in the MEP amplitude versus step time asymmetry.||||0.006
92236893|NCT05341466|184377657|OTHER||Adjusted R-squared|0.666||||0.001|||||||Regression, Linear|||Linear regression analyses performed with the change in the MEP amplitude versus changes in net metabolic power.||||0.001
92236894|NCT05341466|184377658|SUPERIORITY||Median Difference (Net)|-0.0042|STANDARD_DEVIATION|0.0232||0.744|||||||ANOVA|||||||0.744
92236895|NCT05341466|184377659|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.0231||0.269|||||||ANOVA|||||||0.269
92236896|NCT05341466|184377660|SUPERIORITY||Median Difference (Net)|-0.4|STANDARD_DEVIATION|0.681||0.02|||||||ANOVA|||||||0.020
92236897|NCT01208181|184377706|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-0.29||||0.004|TWO_SIDED|95.0|-0.49|-0.09|||Tukey-Ciminera-Heysetrend test|||||-0.09|-0.49|0.004
92236898|NCT01208181|184377706|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-0.27||||0.034|TWO_SIDED|95.0|-0.48|-0.06|||Tukey-Ciminera-Heysetrend test|||||-0.06|-0.48|0.034
92236899|NCT01208181|184377707|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-7.99|||<|0.001|TWO_SIDED|95.0|-11.85|-4.13|||Tukey-Ciminera-Heyse trend test|||||-4.13|-11.85|<0.001
92236900|NCT01208181|184377707|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-10.7|||<|0.001|TWO_SIDED|95.0|-14.74|-6.66|||Tukey-Ciminera-Heyse trend test|||||-6.66|-14.74|<0.001
92428663|NCT00289783|184745073|NON_INFERIORITY|Criteria for non-inferiority (42 days after the fourth dose): Lower limit of the two-sided standardized asymptotic 95% CI on the difference (Menhibrix vaccine fourth dose group minus ActHIB fourth dose group) in the percentage of subjects with anti-PRP concentration ≥ 1.0 µg/mL is ≥ -10% (clinical limit for non-inferiority)|Difference in percentage|-0.04|||||TWO_SIDED|95.0|-1.78|3.57||||||To demonstrate that, following a fourth dose, the immune response to Hib polysaccharide (PRP) in the group that received 3 primary vaccine doses of Menhibrix vaccine and a fourth dose of Menhibrix vaccine coadministered with M-M-R II and Varivax vaccines was non-inferior to the corresponding immune response in the group that received 3 primary vaccine doses of ActHIB vaccine and a fourth dose of PedvaxHIB vaccine co-administered with M-M-R II and Varivax vaccines.||3.57|-1.78|
92428664|NCT00289783|184745074|NON_INFERIORITY|Criterion for non-inferiority (42 days after fourth dose vaccination): Lower limit of the standardized asymptotic 95% CI for the difference (Menhibrix vaccine fourth dose group minus ActHIB fourth dose group) in the percentage of subjects with a seroconversion ≥28 ED50, in subjects with initial anti-mumps antibody \< 28 ED50, for anti-mumps antibody is ≥ -5% (clinical limit for non-inferiority).|Difference in percentage|-1.0|||||TWO_SIDED|95.0|-2.16|0.98||||||To demonstrate the non-inferiority of M-M-R II vaccine when co-administered with a fourth dose of Menhibrix vaccine compared to M--M-R II vaccine co-administered with a fourth dose of PedvaxHIB vaccine, each co-administered with Varivax vaccine.||0.98|-2.16|
92428665|NCT00289783|184745075|NON_INFERIORITY|Criterion for non-inferiority (42 days after fourth dose vaccination): Lower limit of the standardized asymptotic 95% CI for the difference (Menhibrix vaccine fourth dose group minus ActHIB fourth dose group) in the percentage of subjects with seroresponse ≥10 IU/ml, in initially seronegative subjects (\< 4 IU/ml), for anti-rubella antibody is ≥ -5% (clinical limit for non-inferiority).|Difference in percentage|0.12|||||TWO_SIDED|95.0|-0.57|1.73||||||To demonstrate the non-inferiority of M-M-R II vaccine when co-administered with a fourth dose of Menhibrix vaccine compared to M-M-R II vaccine co-administered with a fourth dose of PedvaxHIB vaccine, each co-administered with Varivax vaccine.||1.73|-0.57|
92428666|NCT00289783|184745076|NON_INFERIORITY|Criterion for non-inferiority (42 days after the fourth dose vaccination): Lower limit of the standardized asymptotic 95% CI for the difference (Menhibrix vaccine fourth dose group minus ActHIB fourth dose group) in the percentage of subjects with seroconversion ≥ 1:5 dilution, in initially seronegative subjects (\< 1:5), for anti-varicella antibody is ≥ -10% (clinical limit for non-inferiority).|Difference in percentage|-0.14|||||TWO_SIDED|95.0|-0.78|1.56||||||To demonstrate the non-inferiority of Varivax vaccine co-administered with a fourth dose of Menhibrix vaccine compared to Varivax vaccine co-administered with a fourth dose of PedvaxHIB vaccine, each co-administered with M-M-R II vaccine in terms of immunogenicity to varicella as measured by fluorescent antibody to membrane antigen (FAMA).||1.56|-0.78|
92428667|NCT05248867|184745136|SUPERIORITY||Rate Difference|59.3|||<|0.0001|TWO_SIDED|95.0|54.7|63.9||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||63.9|54.7|<0.0001
92428668|NCT05248867|184745137|SUPERIORITY||Rate Difference|60.2|||<|0.0001|TWO_SIDED|95.0|54.9|65.4||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||65.4|54.9|<0.0001
92236901|NCT01208181|184377708|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|0.02||||0.73|TWO_SIDED|95.0|-0.1|0.14|||Tukey-Ciminera-Heysetrend test|||||0.14|-0.10|0.730
92236902|NCT01208181|184377709|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-2.71||||0.019|TWO_SIDED|95.0|-4.98|-0.45|||Tukey-Ciminera-Heyse trend test|||||-0.45|-4.98|0.019
92236903|NCT01208181|184377710|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares mean|1.61||||0.327|TWO_SIDED|80.0|-0.49|3.71|||covariance model|||||3.71|-0.49|0.327
92236904|NCT00942708|184377713|OTHER|Single group evaluation of change in PVR between 12 weeks and baseline (T-test for one group, 2-sided, p\<0.05 considered significant)||||||0.09|||||||t-test, 1 sided|||||||0.09
92236905|NCT00477451|184377716|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.200
92236906|NCT00477451|184377717|SUPERIORITY|||||||0.368|||||||Wilcoxon (Mann-Whitney)|||||||0.368
92236907|NCT00477451|184377718|SUPERIORITY|||||||0.207|||||||t-test, 2 sided|||||||0.207
92236908|NCT01004107|184377743|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
92428669|NCT05248867|184745138|SUPERIORITY||Rate Difference|71.4|||<|0.0001|TWO_SIDED|95.0|66.5|76.2||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||76.2|66.5|<0.0001
92428670|NCT05248867|184745143|SUPERIORITY||Rate Difference|72.5|||<|0.0001|TWO_SIDED|95.0|67.4|77.6||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||77.6|67.4|<0.0001
92428671|NCT05248867|184745144|SUPERIORITY||Rate Difference|41.9|||<|0.0001|TWO_SIDED|95.0|34.5|49.3||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||49.3|34.5|<0.0001
92428672|NCT05248867|184745145|SUPERIORITY||Rate Difference|69.5|||<|0.0001|TWO_SIDED|95.0|63.7|75.3||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||75.3|63.7|<0.0001
92428673|NCT05248867|184745146|SUPERIORITY||Rate Difference|58.2|||<|0.0001|TWO_SIDED|95.0|51.3|65.0||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||65.0|51.3|<0.0001
92428674|NCT05248867|184745147|SUPERIORITY||Rate Difference|30.1|||<|0.0001|TWO_SIDED|95.0|25.2|35.1||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||35.1|25.2|<0.0001
92428675|NCT05248867|184745148|SUPERIORITY||Rate Difference|35.7|||<|0.0001|TWO_SIDED|95.0|30.5|40.9||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||40.9|30.5|<0.0001
92428676|NCT05248867|184745149|SUPERIORITY||Rate Difference|52.6|||<|0.0001|TWO_SIDED|95.0|45.2|60.0||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||60.0|45.2|<0.0001
92236909|NCT01004107|184377744|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92236910|NCT01004107|184377745|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92236911|NCT01004107|184377746|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92236912|NCT01004107|184377749|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92236913|NCT01004107|184377750|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92236914|NCT03425656|184377770|NON_INFERIORITY|We used a non-inferiority margin of 0.25 for the primary endpoint.|Mean Difference (Net)|-0.03||||0.73|TWO_SIDED|95.0|-0.23|0.16|||Chi-squared|||||0.16|-0.23|0.73
92236915|NCT03425656|184377771|OTHER|||||||0.72|||||||Fisher Exact|||||||0.72
92236916|NCT03425656|184377772|OTHER||Chi-squared|0.42||||0.42|TWO_SIDED||||||Chi-squared|||||||0.42
92236917|NCT03425656|184377773|NON_INFERIORITY|We used a non-inferiority margin of 0.25 for the primary endpoint.||||||0.59|||||||Chi-squared|||||||0.59
92236918|NCT02209597|184377780|SUPERIORITY||||||<|0.05|ONE_SIDED|90.0|||||ANOVA|||||||<0.05
92236919|NCT02316470|184377784|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92236920|NCT02316470|184377784|SUPERIORITY_OR_OTHER|||||||0.0261|||||||Cochran-Mantel-Haenszel|||||||0.0261
92428677|NCT05248867|184745150|SUPERIORITY||Rate Difference|58.6|||<|0.0001|TWO_SIDED|95.0|51.1|66.1||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||66.1|51.1|<0.0001
92428678|NCT05248867|184745151|SUPERIORITY||Rate Difference|42.5|||<|0.0001|TWO_SIDED|95.0|34.4|50.6||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||50.6|34.4|<0.0001
92428679|NCT05248867|184745152|SUPERIORITY||Rate Difference|70.0|||<|0.0001|TWO_SIDED|95.0|63.7|76.3||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||76.3|63.7|<0.0001
92428680|NCT05248867|184745160|SUPERIORITY||Rate Difference|48.8|||<|0.0001|TWO_SIDED|95.0|42.2|55.4||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||55.4|42.2|<0.0001
92428681|NCT05248867|184745161|SUPERIORITY||Rate Difference|44.2|||<|0.0001|TWO_SIDED|95.0|38.0|50.4||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||50.4|38.0|<0.0001
92428682|NCT03128411|184745178|SUPERIORITY||||||<|0.0001|||||||z-test, 1-sided|||With a sample size of 60 participants, study was powered at \>82% to test null hypothesis: true MMR rate at 12 months (48 weeks) is 25% versus alternative hypothesis: true MMR rate is 40% with one-sided alpha of 5%.||||<0.0001
92236921|NCT02316470|184377784|SUPERIORITY_OR_OTHER|||||||0.0364|||||||Cochran-Mantel-Haenszel|||||||0.0364
92236922|NCT02316470|184377784|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92236923|NCT02316470|184377784|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92236924|NCT02316470|184377784|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92236925|NCT02316470|184377784|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92428683|NCT05544734|184745215|SUPERIORITY||Median Difference (Final Values)|-0.3||||0.69|TWO_SIDED|95.0|-1.85|1.25|||t-test, 2 sided||Direction = Hydrocodone group mean change (i.e., change = baseline to postoperative day 2) minus Non-Hydrocodone group mean change (i.e., change = baseline to postoperative day 2).|||1.25|-1.85|0.69
92428684|NCT05544734|184745216|SUPERIORITY||Median Difference (Final Values)|2.3||||0.62|TWO_SIDED|95.0|-7.25|11.85|||t-test, 2 sided||Direction = Hydrocodone group mean change (i.e., change = postoperative day 3 to postoperative day 6) minus Non-Hydrocodone group mean change (i.e., change = postoperative day 3 to postoperative day 6).|||11.85|-7.25|0.62
92428685|NCT01673867|184745221|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0015|TWO_SIDED|95.92|0.59|0.89|||Log Rank||HR = Nivolumab over docetaxel|||0.89|0.59|0.0015
92428686|NCT01543958|184745242|SUPERIORITY_OR_OTHER|||||||0.87||||||not adjusted for multiple comparisons|Sign test|no other adjustment||||||0.87
92428687|NCT01543958|184745243|SUPERIORITY_OR_OTHER|||||||0.62||||||Not adjusted for multiple comparisons|Sign test|no other adjustment||||||0.62
92428688|NCT00926328|184745292|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92428689|NCT00926328|184745293|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92428690|NCT01513343|184745300|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|Multinomial logistic regression examined program effects on child BMI categories, controlling for child sex, age (months), \& BMI z-score at pretest.||||||<0.05
92428691|NCT01513343|184745301|SUPERIORITY||||||<|0.05||||||To control for type I errors, the critical P values for each assessment were determined with the unweighted Bonferroni method, dividing the critical value of P \< 0.05 by the number of comparisons conducted for a given assessment.|Mixed Models Analysis|||||||<0.05
92428692|NCT02165215|184745335|SUPERIORITY||Adjusted difference in response rates|7.7||||0.1942|TWO_SIDED|95.0|-4.2|19.2|||Cochran-Mantel-Haenszel|||||19.2|-4.2|0.1942
92428693|NCT02165215|184745336|SUPERIORITY||Adjusted difference in remission rates|14.6||||0.1524|TWO_SIDED|95.0|-5.55|33.15||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||33.15|-5.55|0.1524
92428694|NCT02165215|184745337|SUPERIORITY||Adjusted difference in remission rates|8.7||||0.1466|TWO_SIDED|95.0|-3.26|20.21||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||20.21|-3.26|0.1466
92428695|NCT02165215|184745338|SUPERIORITY||Adjusted difference in remission rates|10.9||||0.3083||95.0|-9.72|30.49||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||30.49|-9.72|0.3083
92428696|NCT02165215|184745339|SUPERIORITY||Adjusted difference in response rates|14.4||||0.0235|TWO_SIDED|95.0|1.84|26.28||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||26.28|1.84|0.0235
92428697|NCT02165215|184745340|SUPERIORITY||Adjusted difference in remission rates|12.8||||0.0293||95.0|1.13|23.89||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||23.89|1.13|0.0293
92428698|NCT02165215|184745341|SUPERIORITY||Adjusted difference in remission rates|19.8||||0.0075|TWO_SIDED|95.0|5.16|33.11||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||33.11|5.16|0.0075
92428699|NCT02165215|184745342|SUPERIORITY||Adjusted difference in remission rates|9.9||||0.1415||95.0|-4.47|23.13||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||23.13|-4.47|0.1415
92428700|NCT02165215|184745343|SUPERIORITY||Adjusted difference in remission rates|9.9||||0.1415||95.0|-4.47|23.13||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||23.13|-4.47|0.1415
92428701|NCT02165215|184745344|SUPERIORITY||Difference in Least Square Means|-2.8||||0.0266|TWO_SIDED|95.0|-5.3|-0.4||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||-0.4|-5.3|0.0266
92428702|NCT02165215|184745345|SUPERIORITY||Difference in Least Square Means|-1.2||||0.0175|TWO_SIDED|95.0|-2.2|-0.2||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||-0.2|-2.2|0.0175
92428703|NCT02165215|184745346|SUPERIORITY||Difference in Adjusted Mean|2.1||||0.6331|TWO_SIDED|95.0|-6.6|10.8||p-value has not been adjusted for multiplicity|ANCOVA|||||10.8|-6.6|0.6331
92428704|NCT00592384|184745365|SUPERIORITY_OR_OTHER||||||<|0.025||||||Bonferroni corrected for two primary comparisons|Mixed Models Analysis|see above||Primary analyses included observations at baseline, 1, 3, 6, 8, 10, and 12 weeks. Random effects were included for participants' intercepts. Fixed effects were time (linear), treatment (VFN vs. PBO), interaction of time with treatment, stratification factors and potential confounders and variables to improve sensitivity. The primary indicator of treatment effect was the interaction of time by treatment.||||<.025
92428705|NCT00592384|184745378|SUPERIORITY_OR_OTHER||||||<|0.025||||||Bonferroni corrected for two primary outcomes|Mixed Models Analysis|||Primary analyses included observations at baseline, 1, 3, 6, 8, 10, and 12 weeks. Random effects were included for participants' intercepts. Fixed effects were time (linear), treatment (VFN vs. PBO), interaction of time with treatment, stratification factors and potential confounders and variables to improve sensitivity. The primary indicator of treatment effect was the interaction of time by treatment.||||<.025
92428706|NCT01153347|184745381|SUPERIORITY_OR_OTHER||LS mean|-0.9|STANDARD_ERROR_OF_MEAN|1.07||1|TWO_SIDED|95.0|-2.96|1.24||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.24|-2.96|1.000
92428707|NCT01153347|184745381|SUPERIORITY_OR_OTHER||LS mean|-0.6|STANDARD_ERROR_OF_MEAN|1.08||1|TWO_SIDED|95.0|-2.67|1.57|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.57|-2.67|1.000
92236926|NCT02316470|184377785|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value was \<0.0001 at each time point (Day 14, 28, 35, 120, 210)|Fisher-Freeman-Halton Test|||statistical test was applied across all treatment groups at each of the listed time points.||||<0.0001
92428708|NCT01153347|184745381|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|1.09||1|TWO_SIDED|95.0|-2.26|2.04|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.04|-2.26|1.000
92428709|NCT01153347|184745382|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|0.24||0.967|TWO_SIDED|95.0|0.64|1.6|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.60|0.64|0.967
92428710|NCT01153347|184745382|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.21||0.67|TWO_SIDED|95.0|0.57|1.43|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.43|0.57|0.670
92428711|NCT01153347|184745382|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87|STANDARD_ERROR_OF_MEAN|0.21||0.544|TWO_SIDED|95.0|0.54|1.38|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.38|0.54|0.544
92428712|NCT01153347|184745383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91|STANDARD_ERROR_OF_MEAN|0.24||0.73|TWO_SIDED|95.0|0.55|1.53|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.53|0.55|0.730
92428713|NCT01153347|184745383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89|STANDARD_ERROR_OF_MEAN|0.23||0.671|TWO_SIDED|95.0|0.53|1.5|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.50|0.53|0.671
92428714|NCT01153347|184745383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76|STANDARD_ERROR_OF_MEAN|0.2||0.308|TWO_SIDED|95.0|0.45|1.29|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.29|0.45|0.308
92428715|NCT01153347|184745384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95|STANDARD_ERROR_OF_MEAN|0.4||0.905|TWO_SIDED|95.0|0.42|2.15|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.15|0.42|0.905
92428716|NCT01153347|184745384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93|STANDARD_ERROR_OF_MEAN|0.39||0.864|TWO_SIDED|95.0|0.41|2.14|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.14|0.41|0.864
92428717|NCT01153347|184745384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98|STANDARD_ERROR_OF_MEAN|0.42||0.958|TWO_SIDED|95.0|0.43|2.25|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.25|0.43|0.958
92428718|NCT01153347|184745385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91|STANDARD_ERROR_OF_MEAN|0.3||0.778|TWO_SIDED|95.0|0.48|1.73|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.73|0.48|0.778
92428719|NCT01153347|184745385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22|STANDARD_ERROR_OF_MEAN|0.38||0.532|TWO_SIDED|95.0|0.66|2.24|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.24|0.66|0.532
92236927|NCT02316470|184377786|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value was \<0.0001 at each time point (Day 14, 28, 35, 56, 120, 210)|Fisher-Freeman-Halton Test|||statistical test was applied across all treatment groups at each of the listed time points.||||<0.0001
92428720|NCT01153347|184745385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85|STANDARD_ERROR_OF_MEAN|0.29||0.633|TWO_SIDED|95.0|0.44|1.64|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.64|0.44|0.633
92428721|NCT01153347|184745386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|0.42||0.949|TWO_SIDED|95.0|0.46|2.31|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.31|0.46|0.949
92428722|NCT01153347|184745386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57|STANDARD_ERROR_OF_MEAN|0.62||0.253|TWO_SIDED|95.0|0.72|3.4|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||3.40|0.72|0.253
92428723|NCT01153347|184745386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88|STANDARD_ERROR_OF_MEAN|0.39||0.763|TWO_SIDED|95.0|0.37|2.08|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.08|0.37|0.763
92236928|NCT02316470|184377787|SUPERIORITY_OR_OTHER||||||<|0.0001||||||the p-value was \<0.0001 at each time point (Day 14, 28, 35, 56, 120, 210)|Fisher-Freeman-Halton Test|||statistical test was applied across all treatment groups at each of the listed time points.||||<0.0001
92428724|NCT01153347|184745387|SUPERIORITY_OR_OTHER||LS mean|-1.0|STANDARD_ERROR_OF_MEAN|0.78||0.207|TWO_SIDED|95.0|-2.51|0.55|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.55|-2.51|0.207
92428725|NCT01153347|184745387|SUPERIORITY_OR_OTHER||LS mean|-0.6|STANDARD_ERROR_OF_MEAN|0.78||0.427|TWO_SIDED|95.0|-2.16|0.91|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.91|-2.16|0.427
92428726|NCT01153347|184745387|SUPERIORITY_OR_OTHER||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|0.78||0.591|TWO_SIDED|95.0|-1.96|1.12|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.12|-1.96|0.591
92170844|NCT00041938|184230559|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.77||||0.51|TWO_SIDED|95.0|0.32|9.88|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|Null hypothesis: there is no difference between warfarin and aspirin in time to intracerebral hemorrhage, adjusting for competing risks of myocardial infarction, heart failure hospitalization, ischemic stroke, and death.||9.88|0.32|0.51
92170845|NCT00041938|184230560|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.83||95.0|0.81|1.3|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.||||1.30|0.81|0.83
92428727|NCT01153347|184745388|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.551||95.0|-0.34|0.18|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.18|-0.34|0.551
92428728|NCT01153347|184745388|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.487|TWO_SIDED|95.0|-0.36|0.17|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.17|-0.36|0.487
92428729|NCT01153347|184745388|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.78|TWO_SIDED|95.0|-0.23|0.31|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.31|-0.23|0.780
92428730|NCT01153347|184745389|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97|STANDARD_ERROR_OF_MEAN|0.23||0.908|TWO_SIDED|95.0|0.62|1.53|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.53|0.62|0.908
92428731|NCT01153347|184745389|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06|STANDARD_ERROR_OF_MEAN|0.24||0.803|TWO_SIDED|95.0|0.67|1.67|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.67|0.67|0.803
92428732|NCT01153347|184745389|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65|STANDARD_ERROR_OF_MEAN|0.15||0.066|TWO_SIDED|95.0|0.41|1.03|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.03|0.41|0.066
92428733|NCT01153347|184745390|SUPERIORITY_OR_OTHER||LS mean|-0.82|STANDARD_ERROR_OF_MEAN|0.645||0.202|TWO_SIDED|95.0|-2.091|0.442|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.442|-2.091|0.202
92428734|NCT01153347|184745390|SUPERIORITY_OR_OTHER||LS mean|-0.22|STANDARD_ERROR_OF_MEAN|0.647||0.738|TWO_SIDED|95.0|-1.487|1.055|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.055|-1.487|0.738
92428735|NCT01153347|184745390|SUPERIORITY_OR_OTHER||LS mean|-0.51|STANDARD_ERROR_OF_MEAN|0.65||0.433|TWO_SIDED|95.0|-1.787|0.767|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.767|-1.787|0.433
92428736|NCT01153347|184745391|SUPERIORITY_OR_OTHER||LS mean|1.0|STANDARD_ERROR_OF_MEAN|0.61||0.097|TWO_SIDED|95.0|-0.18|2.22|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.22|-0.18|0.097
92428737|NCT01153347|184745391|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.61||0.882|TWO_SIDED|95.0|-1.29|1.11|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.11|-1.29|0.882
92428738|NCT01153347|184745391|SUPERIORITY_OR_OTHER||LS mean|1.0|STANDARD_ERROR_OF_MEAN|0.62||0.1|TWO_SIDED|95.0|-0.19|2.23|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.23|-0.19|0.100
92428739|NCT01153347|184745392|SUPERIORITY_OR_OTHER||LS mean|0.8|STANDARD_ERROR_OF_MEAN|0.74||0.303|TWO_SIDED|95.0|-0.69|2.22|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.22|-0.69|0.303
92236929|NCT01592851|184377806|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.03|-0.63||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a negative difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||-0.63|-1.03|<0.0001
92428740|NCT01153347|184745392|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.74||0.793|TWO_SIDED|95.0|-1.26|1.65|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.65|-1.26|0.793
92428741|NCT01153347|184745392|SUPERIORITY_OR_OTHER||LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.75||0.762|TWO_SIDED|95.0|-1.7|1.25|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.25|-1.70|0.762
92428742|NCT01153347|184745393|SUPERIORITY_OR_OTHER||LS mean|-0.9|STANDARD_ERROR_OF_MEAN|0.91||0.339|TWO_SIDED|95.0|-2.65|0.92|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.92|-2.65|0.339
92428743|NCT01153347|184745393|SUPERIORITY_OR_OTHER||LS mean|-0.9|STANDARD_ERROR_OF_MEAN|0.91||0.321|TWO_SIDED|95.0|-2.7|0.89|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.89|-2.70|0.321
92428744|NCT01153347|184745393|SUPERIORITY_OR_OTHER||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|0.92||0.68|TWO_SIDED|95.0|-2.2|1.43|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.43|-2.20|0.680
92428745|NCT01153347|184745394|SUPERIORITY_OR_OTHER||LS mean|-0.3|STANDARD_ERROR_OF_MEAN|0.97||0.737|TWO_SIDED|95.0|-2.23|1.58|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects the model; pooled center is a random effect.||1.58|-2.23|0.737
92428746|NCT01153347|184745394|SUPERIORITY_OR_OTHER||LS mean|-0.6|STANDARD_ERROR_OF_MEAN|0.98||0.547|TWO_SIDED|95.0|-2.52|1.33|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.33|-2.52|0.547
92428747|NCT01153347|184745394|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.99||0.953|TWO_SIDED|95.0|-1.89|2.01|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.01|-1.89|0.953
92428748|NCT01153347|184745395|SUPERIORITY_OR_OTHER||LS mean|-0.6|STANDARD_ERROR_OF_MEAN|0.746||1|TWO_SIDED|95.0|-2.069|0.864||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.864|-2.069|1.000
92428749|NCT01153347|184745395|SUPERIORITY_OR_OTHER||LS mean|-0.52|STANDARD_ERROR_OF_MEAN|0.755||1|TWO_SIDED|95.0|-2.004|0.96||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.960|-2.004|1.000
92428750|NCT01153347|184745395|SUPERIORITY_OR_OTHER||LS mean|0.4|STANDARD_ERROR_OF_MEAN|0.761||1|TWO_SIDED|95.0|-1.095|1.896||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.896|-1.095|1.000
92428751|NCT01153347|184745396|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.29||0.953|TWO_SIDED|95.0|-0.56|0.59|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.59|-0.56|0.953
92428752|NCT01153347|184745396|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.868|TWO_SIDED|95.0|-0.64|0.54|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.54|-0.64|0.868
92170846|NCT00041938|184230561|SUPERIORITY_OR_OTHER||Rate ratio|2.05|||<|0.001|TWO_SIDED|95.0|1.36|3.12|||Regression, Poisson||The warfarin arm represents the numerator and the aspirin arm represents the denominator of the rate ratio.|||3.12|1.36|<0.001
92236930|NCT01592851|184377807|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26||||0.0006|TWO_SIDED|95.0|-0.41|-0.12||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a negative difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||-0.12|-0.41|0.0006
92428753|NCT01153347|184745396|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.792|TWO_SIDED|95.0|-0.5|0.66|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.66|-0.50|0.792
92428754|NCT01153347|184745397|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.915|TWO_SIDED|95.0|-0.54|0.48|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.48|-0.54|0.915
92428755|NCT01153347|184745397|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.972|TWO_SIDED|95.0|-0.51|0.53|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.53|-0.51|0.972
92428756|NCT01153347|184745397|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.237|TWO_SIDED|95.0|-0.21|0.84|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.84|-0.21|0.237
92428757|NCT01153347|184745398|SUPERIORITY_OR_OTHER||LS mean|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.213|TWO_SIDED|95.0|-0.87|0.19|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.19|-0.87|0.213
92428758|NCT01153347|184745398|SUPERIORITY_OR_OTHER||LS mean|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.343|TWO_SIDED|95.0|-0.8|0.28|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.28|-0.80|0.343
92428759|NCT01153347|184745398|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.28||0.971|TWO_SIDED|95.0|-0.55|0.53|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.53|-0.55|0.971
92428760|NCT01153347|184745399|SUPERIORITY_OR_OTHER||LS mean|2.1|STANDARD_ERROR_OF_MEAN|1.694||0.215|TWO_SIDED|95.0|-1.224|5.431|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||5.431|-1.224|0.215
92428761|NCT01153347|184745399|SUPERIORITY_OR_OTHER||LS mean|0.72|STANDARD_ERROR_OF_MEAN|1.702||0.673|TWO_SIDED|95.0|-2.624|4.062|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||4.062|-2.624|0.673
92428762|NCT01153347|184745399|SUPERIORITY_OR_OTHER||LS mean|-1.88|STANDARD_ERROR_OF_MEAN|1.716||0.275|TWO_SIDED|95.0|-5.248|1.494|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.494|-5.248|0.275
92428763|NCT01153347|184745400|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.412|TWO_SIDED|95.0|-0.28|0.11|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.11|-0.28|0.412
92428764|NCT01153347|184745400|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.928|TWO_SIDED|95.0|-0.19|0.21|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.21|-0.19|0.928
92428765|NCT01153347|184745400|SUPERIORITY_OR_OTHER||LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.033|TWO_SIDED|95.0|-0.42|-0.02|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||-0.02|-0.42|0.033
92428766|NCT01153347|184745401|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.353|TWO_SIDED|95.0|-0.1|0.28|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.28|-0.10|0.353
92428767|NCT01153347|184745401|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.721|TWO_SIDED|95.0|-0.16|0.23|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.23|-0.16|0.721
92428768|NCT01153347|184745401|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.666|TWO_SIDED|95.0|-0.24|0.15|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.15|-0.24|0.666
92428769|NCT01153347|184745402|SUPERIORITY_OR_OTHER||LS mean|-0.006|STANDARD_ERROR_OF_MEAN|0.0201||0.747|TWO_SIDED|95.0|-0.0459|0.0329||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0329|-0.0459|0.747
92428770|NCT01153347|184745402|SUPERIORITY_OR_OTHER||LS mean|-0.013|STANDARD_ERROR_OF_MEAN|0.0203||0.524|TWO_SIDED|95.0|-0.0529|0.027||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0270|-0.0529|0.524
92428771|NCT01153347|184745402|SUPERIORITY_OR_OTHER||LS mean|-0.014|STANDARD_ERROR_OF_MEAN|0.0206||0.502|TWO_SIDED|95.0|-0.0543|0.0267||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0267|-0.0543|0.502
92428772|NCT01153347|184745402|SUPERIORITY_OR_OTHER||LS mean|1.9|STANDARD_ERROR_OF_MEAN|2.06||0.345|TWO_SIDED|95.0|-2.1|6.0||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||6.00|-2.10|0.345
92428773|NCT01153347|184745402|SUPERIORITY_OR_OTHER||LS mean|1.5|STANDARD_ERROR_OF_MEAN|2.09||0.486|TWO_SIDED|95.0|-2.65|5.56||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||5.56|-2.65|0.486
92428774|NCT01153347|184745402|SUPERIORITY_OR_OTHER||LS mean|-1.2|STANDARD_ERROR_OF_MEAN|2.12||0.564|TWO_SIDED|95.0|-5.39|2.94||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.94|-5.39|0.564
92428775|NCT01153347|184745403|SUPERIORITY_OR_OTHER||LS mean|-1.4|STANDARD_ERROR_OF_MEAN|1.55||0.35|TWO_SIDED|95.0|-4.48|1.59|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SIS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.59|-4.48|0.350
92428776|NCT01153347|184745403|SUPERIORITY_OR_OTHER||LS mean|-1.3|STANDARD_ERROR_OF_MEAN|1.56||0.393|TWO_SIDED|95.0|-4.41|1.73|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SIS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.73|-4.41|0.393
92428777|NCT01153347|184745403|SUPERIORITY_OR_OTHER||LS mean|0.5|STANDARD_ERROR_OF_MEAN|1.58||0.745|TWO_SIDED|95.0|-2.59|3.62|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SIS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||3.62|-2.59|0.745
92428778|NCT04678661|184745417|SUPERIORITY|||||||0.207||||||Propensity score matching was used to form pairs of intervention and control participants. Specifically, a greedy matching procedure with a matching caliper of 0.2 of the standard deviation of the logit of the propensity score was used.|Regression, Linear|Model adjusted for covariates of age, race, baseline BMI, and baseline hemoglobin A1c.||||||.207
92428779|NCT04678661|184745418|OTHER|||||||0.011|||||||t-test, 2 sided|||Independent t-test||||.011
92428780|NCT04678661|184745419|OTHER|||||||0.024|||||||t-test, 2 sided|||||||.024
92170847|NCT00041938|184230562|SUPERIORITY_OR_OTHER||Rate ratio|1.56|||<|0.001||95.0|1.34|1.81|||Regression, Poisson||Warfarin group represents the numerator and aspirin group represents denominator of rate ratio.|||1.81|1.34|<0.001
92428781|NCT04678661|184745420|OTHER|||||||0.579|||||||t-test, 2 sided|||||||.579
92428782|NCT04678661|184745421|OTHER||||||<|0.001||||||Reported p-value was calculated.|t-test, 2 sided|||||||<.001
92428783|NCT04678661|184745422|OTHER|||||||0.269|||||||t-test, 2 sided|||||||.269
92428784|NCT04678661|184745425|OTHER||||||<|0.001||||||Reported p-value was calculated.|t-test, 2 sided|||||||<.001
92428785|NCT04678661|184745426|OTHER||||||<|0.001||||||Reported p-value was calculated.|t-test, 2 sided|||||||<.001
92428786|NCT04678661|184745427|OTHER|||||||0.647|||||||t-test, 2 sided|||||||.647
92428787|NCT03416946|184745610|SUPERIORITY|||||||0.79||||||Post-op HKA angle|t-test, 2 sided|||||||0.790
92428788|NCT03733470|184745646|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92428789|NCT02983825|184745647|SUPERIORITY|Wilcoxon signed-rank test for nonparametric matched-pairs||||||0.02|||||||Sign test|||"Within subject repeat analysis; V/Q mismatch (measured as degree of right shift in kPa) baseline vs best CPAP"||||0.02
92428790|NCT04457336|184745658|OTHER|Assessment of dose response for change from baseline in log 17-OHP after 12 weeks on double-blind, placebo-controlled treatment (Week 18). Results were obtained by using a repeated measures random coefficient mixed-effects model and are reported as the -2loglikelihood results for both the full (including interaction terms) and reduced (excluding interaction terms) models.||||||0.8051||||||Dose response p-value|Mixed Models Analysis|The result for the -2loglikelihood full model was -580.2550766 log(ng/dL) and -583.2846546 log(ng/dL) for the reduced model.||||||0.8051
92428791|NCT00702689|184745687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011|||||||Paired t-test|||||||.011
92428792|NCT00702689|184745689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|||||||t-test, 2 sided|||||||.47
92428793|NCT00702689|184745690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||t-test, 2 sided|||||||.29
92428794|NCT03993132|184745725|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.91|1.11|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.11|0.91|
92428795|NCT03993132|184745726|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|1.01|1.13|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.13|1.01|
92236931|NCT01592851|184377808|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.45|||<|0.0001|TWO_SIDED|95.0|-0.63|-0.28||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a negative difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||-0.28|-0.63|<0.0001
92236932|NCT01592851|184377809|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|19.42|||<|0.0001|TWO_SIDED|95.0|13.7|25.15||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a positive difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||25.15|13.70|<0.0001
92428796|NCT03993132|184745727|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.84|1.08|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.08|0.84|
92428797|NCT03993132|184745728|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.96|1.11|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.11|0.96|
92428798|NCT03993132|184745729|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.61|0.83|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.83|0.61|
92428799|NCT03993132|184745730|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.76|0.91|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.91|0.76|
92428800|NCT03993132|184745731|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.88|0.96|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.96|0.88|
92428801|NCT03993132|184745732|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.91|0.96|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.96|0.91|
92428802|NCT03993132|184745733|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.88|0.96|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.96|0.88|
92428803|NCT03993132|184745734|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.91|0.96|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.96|0.91|
92428804|NCT03993132|184745735|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.83|1.18|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.18|0.83|
92428805|NCT03993132|184745736|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.97|1.16|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.16|0.97|
92236933|NCT01592851|184377810|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.84||||0.0021|TWO_SIDED|95.0|2.54|11.13||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a positive difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||11.13|2.54|0.0021
92236934|NCT01592851|184377811|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|3.87||||0.007|TWO_SIDED|95.0|1.08|6.65||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a positive difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||6.65|1.08|0.0070
92239811|NCT03650452|184383572|SUPERIORITY||Hodges-Lehmann Estimate|-16.22||||0.147|TWO_SIDED|95.0|-39.5|4.49||The p-value is 2-sided and it is for the difference of percent change from baseline between TAK-935 and Placebo were computed using Rank Transformed ANCOVA adjusting for baseline seizure frequency.|Ranked ANCOVA||The location shift (TAK-935 - Placebo) and Asymptotic 95% confidence interval between TAK-935 and Placebo (TAK-935 - Placebo) were based on Hodges-Lehmann Estimation from un-adjusted rank statistics.|||4.49|-39.50|0.1470
92428806|NCT03993132|184745737|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.72|1.06|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.06|0.72|
92279609|NCT02041702|184462670|NON_INFERIORITY|The 2-sided 90% CI for difference in success rate between 2 groups was calculated by Farrington-Manning method.|Ratio Difference|2.6||||0.0002|TWO_SIDED|90.0|-3.2|8.4|||Farrington-Manning test||The null hypothesis would be rejected if the lower bound of the two-sided 90% confidence interval was greater than -10%.|"The hypothesis was: H0: PMRI - PCTRL≤ -10% vs H1: PMRI - PCTRL \>-10%~* PMRI: the success rate in the Cardiac MRI Scan Group for change in RV sensing amplitude at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit~* PCTRL: the success rate in the Control Group for change in RV sensing amplitude at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit"||8.4|-3.2|0.0002
92428807|NCT03993132|184745738|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.88|1.1|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.10|0.88|
92428808|NCT03407625|184745788|SUPERIORITY||Risk Ratio (RR)|1.0||||0.86|TWO_SIDED|95.0|0.95|1.05|||log binomial regression||||We used generalized estimating equations for the log binomial regression with cluster entered as a random effect.|1.05|0.95|0.86
92428809|NCT01064310|184745861|SUPERIORITY_OR_OTHER||Percentage of participants|49.26|||<|0.001|TWO_SIDED|90.0|37.0|61.5||The p value indicates the difference in preference for pazopanib versus sunitinib treatment|Prescotts test||The estimated value indicates the difference in the percentage of participants who preferred pazopanib versus sunitinib. This difference is adjusted for sequence.|||61.5|37.0|<0.001
92428810|NCT05147428|184745892|SUPERIORITY||Cox Proportional Hazard|0.99||||0.76|TWO_SIDED|95.0|0.94|1.04|||Log Rank|||For the primary analysis, we combined all three targeted medication classes (antipsychotics, sedative/hypnotics, or strong anticholinergics). We calculated Kaplan-Meier curves and performed log-rank testing, and estimated hazard ratios using Cox proportional hazards modeling, censoring at death or disenrollment from the health plan, or at the end of the 6-month study observation period, whichever came first. The index date for the survival analysis was the end of the 3-month blackout period.||1.04|0.94|0.76
92428811|NCT05147428|184745893|SUPERIORITY|||||||0.33|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.33
92428812|NCT05147428|184745894|SUPERIORITY|||||||0.55|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.55
92428813|NCT05147428|184745895|SUPERIORITY|||||||0.47|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.47
92428814|NCT05147428|184745896|SUPERIORITY|||||||0.66|||||||Log Rank|||||||0.66
92428815|NCT05147428|184745898|SUPERIORITY|||||||0.19|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.19
92428816|NCT05147428|184745899|SUPERIORITY|||||||0.46|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.46
92428817|NCT05147428|184745900|SUPERIORITY|||||||0.79|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.79
92428818|NCT01637935|184745924|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.1||||||95.0|0.92|1.31||||||Fully adjusted refers to inclusion of all potential confounders in the statistical model from the 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder cancer, renal insufficiency, HbA1c and the interaction with new diagnosis of diabetes, duration of diabetes, and year of cohort entry.||1.31|0.92|
92428819|NCT01637935|184745924|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.06||||||95.0|0.89|1.26||||||Fully adjusted adding the proteinuria testing variable.||1.26|0.89|
92428820|NCT01637935|184745925|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||||95.0|0.71|1.12||||||Time since starting pioglitazone \<4.5 years vs unexposed group. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.12|0.71|
92428821|NCT01637935|184745925|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||||95.0|0.93|1.59||||||Time since starting pioglitazone 4.5-8 years vs unexposed group. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.59|0.93|
92170848|NCT00262301|184230563|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Log Rank|||||||0.003
92170849|NCT00262301|184230564|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Log Rank|||||||0.005
92170850|NCT01017146|184230565|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for ILs|ANCOVA|||||||<0.001
92170851|NCT01017146|184230565|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for NILs|ANCOVA|||||||<0.001
92279610|NCT02308111|184462680|SUPERIORITY||Hazard Ratio, log|1.01||||0.954|TWO_SIDED|95.0|0.68|1.51||Log rank p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the interactive web response system (IWRS) as strata|Log Rank|||||1.51|0.68|0.954
92428822|NCT01637935|184745925|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||||95.0|0.83|1.75||||||Time since starting pioglitazone \>8 years vs unexposed group. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.75|0.83|
92428823|NCT01637935|184745926|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||||95.0|0.68|1.16||||||Duration of therapy \<1.5 years. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.16|0.68|
92428824|NCT01637935|184745926|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||||95.0|0.8|1.33||||||Duration of therapy 1.5-4 years. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.33|0.80|
92428825|NCT01637935|184745926|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||||95.0|0.87|1.54||||||Duration of therapy \>4 years. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.54|0.87|
92428826|NCT01637935|184745927|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||||95.0|0.69|1.16||||||Cumulative dose 1-14000 mg. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.16|0.69|
92428827|NCT01637935|184745927|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||||95.0|0.85|1.42||||||Cumulative dose 14001-40000 mg. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.42|0.85|
92428828|NCT01637935|184745927|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||||95.0|0.79|1.44||||||Cumulative dose \>40000 mg. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.44|0.79|
92428829|NCT02200211|184745931|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior Pediatric Eye Disease Investigator Group (PEDIG) studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.31|||||ONE_SIDED|95.0||0.53|||||A 1-sided upper 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary outcome measure was change in amblyopic-eye VA from baseline to 16 weeks (14 to \<20 week window). The upper limit of a 1-sided 95% confidence interval (CI) was computed on the treatment group difference, using an analysis of covariance (ANCOVA) model, adjusted for baseline age and VA, including only participants completing the 16-week outcome in a modified intent-to-treat analysis. There was no imputation for missing data.||0.53||
92428830|NCT02200211|184745931|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior PEDIG studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.3|||||ONE_SIDED|95.0||0.53|||||A 1-sided upper 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye VA from baseline to 16 weeks, adjusting for baseline covariates of age and visual acuity. For this sensitivity analysis, the primary analysis repeated but excluded data from participants (n=35) who completed the 16-week visit outside of the pre-defined protocol window (16 +/- 1 week).||0.53||
92446529|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-0.37|STANDARD_ERROR_OF_MEAN|1.625||0.821|TWO_SIDED|95.0|-3.58|2.84||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 4||2.84|-3.58|0.821
92170852|NCT01017146|184230565|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for TLs|ANCOVA|||||||<0.001
92170853|NCT01017146|184230566|SUPERIORITY_OR_OTHER||Percentage of participants|35.6|||<|0.001|TWO_SIDED|95.0|30.7|40.5|||Cochran-Mantel-Haenszel||The estimated value represents the percentage of participants receiving tazarotene foam with a minimum 2 G improvement in the ISGA score from Baseline at Week 12.|||40.5|30.7|<0.001
92170854|NCT01017146|184230566|SUPERIORITY_OR_OTHER||Percentage of participants|23.9|||||TWO_SIDED|95.0|19.6|28.3|||||The estimated value represents the percentage of participants receiving vehicle foam with a minimum 2 G improvement in the ISGA score from Baseline at Week 12.|||28.3|19.6|
92236935|NCT01666444|184377843|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.22||||0.923|ONE_SIDED|92.0||1.48||P-value is for a one-sided hypothesis test.|Log Rank|The logrank test is stratified for platinum-free interval (\<= 6 months vs \> 6 months), and performance status (0 vs 1).|Treatment Hazard ratio for overall survival (PLD+VTX relative to PLD+placebo). Survival is measured from date of enrollment and randomization on the study until death from any cause, or date of last contact.|The null hypothesis is that the hazards of death are equal for both treatment groups. The primary assessment of this hypothesis was done with a stratified logrank test and the study was to be considered sufficiently mature to assess this hypothesis when at least 211 deaths had occurred among all individuals enrolled. Type I error was to be set to 0.08 for a one-sided test and the power for detecting a 30% reduction in the hazard (hazard ratio=0.70) due to VTX-2337 was 88.2%.||1.48||0.923
92279611|NCT02308111|184462681|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.304|TWO_SIDED|95.0|0.61|1.16||Log rank p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Log Rank|||||1.16|0.61|0.304
92428831|NCT02200211|184745931|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior PEDIG studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.31|||||ONE_SIDED|95.0||0.54|||||A 1-sided 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye from baseline to 16 weeks, adjusting for baseline covariates of age and visual acuity. For this sensitivity analysis, multiple imputation was used to impute 16-week visual acuity scores for participants who missed the exam (n=15) or completed the 16-week exam outside of the pre-specified analysis window (n=7).||0.54||
92428832|NCT02200211|184745931|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior PEDIG studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.33|||||ONE_SIDED|95.0||0.56|||||A 1-sided upper 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye VA from baseline to 16 weeks, adjusting for baseline covariates for age and visual acuity. For this post hoc sensitivity analysis, all participants with 16-week exams were included in the analysis regardless of whether or not the exam was completed within the pre-specified analysis window (14 to \<20 weeks after randomization).||0.56||
92428833|NCT02200211|184745931|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior PEDIG studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.3|||||ONE_SIDED|95.0||0.53|||||A 1-sided upper 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye VA from baseline to 16-weeks, adjusting for baseline covariates of age and visual acuity. For this sensitivity analysis, we excluded 16-week outcomes from enrolled participants who were subsequently found to be ineligible for the study (n=7).||0.53||
92428834|NCT02200211|184745931|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior PEDIG studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.33|||||ONE_SIDED|95.0||0.55|||||A 1-sided 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye visual acuity from baseline to 16 week, adjusting for baseline covariates of age and visual acuity. For this sensitivity analysis, we excluded 16-week outcomes from participants who received alternative treatment for at least 1 week during study follow-up (n=4).||0.55||
92428835|NCT02200211|184745931|SUPERIORITY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|95.0|0.04|0.58|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive estimate values favor the patching treatment group.|Analysis of covariance included baseline age and visual acuity as adjustment covariates. The primary outcome measure was change in amblyopic-eye VA from baseline to 16 weeks (14 to \<20 week window). For this post hoc analysis, a 2-sided 95% confidence interval (CI) was computed on the treatment group difference, using an analysis of covariance (ANCOVA) model, adjusted for baseline age and VA, including only participants completing the 16-week outcome in a modified intent-to-treat analysis.||0.58|0.04|
92170855|NCT01017146|184230567|SUPERIORITY_OR_OTHER||Percentage of participants|28.8|||<|0.001|TWO_SIDED|95.0|24.2|33.5|||Cochran-Mantel-Haenszel||The estimated value represents the percentage of participants receiving tazarotene foam with an ISGA score of 0 or 1 at Week 12.|||33.5|24.2|<0.001
92428836|NCT02200211|184745933|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.082|TWO_SIDED|95.0|-5.7|0.3||a priori threshold for statistical significance: 2-sided type I error rate of 5%|ANCOVA|Adjusted for baseline amblyopic-eye visual acuity.|A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|A modified intent-to-treat analysis was performed using an ANCOVA model to compare the effectiveness of two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. The primary outcome measure was change in amblyopic-eye VA from baseline to 16 weeks (14 to \<20 week window). A 2-sided 95% confidence interval (CI) was computed on the adjusted treatment group difference at 16 weeks. There was no imputation for missing data.||0.3|-5.7|0.082
92428837|NCT02200211|184745933|SUPERIORITY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-5.9|0.5|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|A modified intent-to-treat analysis was performed using an ANCOVA model to compare the change in amblyopic-eye visual acuity from baseline to 16 weeks for two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. For this sensitivity analyses, the primary analysis was repeated but excluded data from participants who completed the 16-week visit outside of the pre-specified 16 +/- 1 week protocol window (n=10 participants).||0.5|-5.9|
92428838|NCT02200211|184745933|SUPERIORITY||Mean Difference (Final Values)|-2.8|||||TWO_SIDED|95.0|-5.9|0.3|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|A modified intent-to-treat analysis was performed using an ANCOVA model to compare the change in amblyopic-eye visual acuity from baseline to 16 weeks (14 to \<20 week window) for two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. For this sensitivity analyses, the primary analysis was repeated but excluded data from participants later found to be ineligible for the study (n=2).||0.3|-5.9|
92428839|NCT02200211|184745933|SUPERIORITY||Mean Difference (Final Values)|-1.9|||||TWO_SIDED|95.0|-5.0|1.2|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye from baseline to 16 weeks, adjusting for baseline visual acuity. For this sensitivity analysis, multiple imputation was used to impute 16-week visual acuity scores for participants who missed the exam (n=3) or completed the 16-week exam outside of the pre-specified analysis window (n=2).||1.2|-5.0|
92428840|NCT02200211|184745933|SUPERIORITY||Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-5.5|0.5|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|An ANCOVA model was fit to compare the change in amblyopic-eye visual acuity from baseline to 16 weeks (14 to \<20 week window) for two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. For this post hoc sensitivity analyses, the primary analysis was repeated but included data from participants who completed the 16-week visit outside the analysis window (n=2, range:14 to 28 weeks post randomization).||0.5|-5.5|
92428841|NCT02200211|184745933|SUPERIORITY||Mean Difference (Final Values)|-2.6|||||TWO_SIDED|95.0|-5.7|0.4|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|An ANCOVA model was fit to compare the change in amblyopic-eye visual acuity from baseline to 16 weeks (14 to \<20 week window) for two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. For this sensitivity analyses, the primary analysis was repeated but included prior amblyopia treatment as an adjustment covariate (in addition to baseline visual acuity) in the model.||0.4|-5.7|
92428842|NCT02200211|184745937|SUPERIORITY||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-4.0|13.0|||||Binomial regression was used to compare the group proportions (patching - binocular treatment) of participants classified as improving 2 or more logMAR lines from baseline at the 16-week visit.|Binomial regression was used for the treatment group comparison of the proportion of participants classified as improving 2 or more logMAR lines (10 or more letters if E-ETDRS) from baseline at the 16-week visit, adjusting for baseline age group (5 to \<7, 7 to \<13 years) and baseline visual acuity (treated as a continuous covariate).||13|-4|
92428843|NCT02200211|184745937|SUPERIORITY||Risk Difference (RD)|-15.0|||||TWO_SIDED|95.0|-31.0|2.0|||||Binomial regression was used to compare the group proportions (binocular treatment - patching) of participants classified as improving 2 or more logMAR lines (≥ 10 letters) from baseline at the 16-week visit.|Binomial regression was used for the treatment group comparison of the proportion of participants classified as improving 2 or more logMAR lines (10 or more letters if E-ETDRS) from baseline at the 16-week visit, adjusting for baseline visual acuity.||2|-31|
92428844|NCT02200211|184745938|SUPERIORITY||Risk Difference (RD)|2.0|||||TWO_SIDED|95.0|-1.0|5.0|||||Binomial regression was used to compare the group proportions (patching - binocular treatment) of participants classified as having amblyopia resolution at the 16-week visit.|Binomial regression was used for the treatment group comparison of the proportion of participants classified as improving 2 or more logMAR lines (10 or more letters if E-ETDRS) from baseline at the 16-week visit, adjusting for baseline age group (5 to \<7, 7 to \<13 years) and baseline visual acuity (20/40, 20/50 or worse).||5|-1|
92428845|NCT02200211|184745939|SUPERIORITY|||||||0.83||||||For testing the interaction term, the a priori threshold for statistical significance was 0.05.|ANCOVA|Previously described above in the Statistical Analysis Overview section.||A linear mixed model was used to compare the rate of amblyopic-eye visual acuity improvement between the treatment groups. The ANCOVA model included an interaction term with treatment group and time to compare the change in visual acuity over follow-up by treatment group, adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity. If the interaction term was not statistically significant (p\>0.05), no further comparisons would be performed.||||0.83
92428846|NCT02200211|184745940|SUPERIORITY|||||||0.83||||||The a priori threshold for statistical significance of the interaction term (gender and treatment group) was 0.05.|ANCOVA|Previously described in the Statistical Analysis Overview.||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and gender, adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity.||||0.83
92428847|NCT02200211|184745940|SUPERIORITY|||||||0.54||||||The a priori threshold for statistical significance of the interaction term (race/ethnicity status and treatment group) was 0.05.|ANCOVA|Four participants (1 binocular treatment group, 3 patching group) were excluded from the analysis due to unknown/not reported race/ethnicity status.||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and race/ethnicity status (White/non-Hispanic, Non-White or Hispanic), adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity.||||0.54
92428848|NCT02200211|184745940|SUPERIORITY|||||||0.8||||||The a priori threshold for statistical significance of the interaction term (age and treatment group) was 0.05.|ANCOVA|||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and age at baseline (treated as a continuous factor in the model), adjusting for the main effects of the interaction term and baseline visual acuity.||||0.80
92428849|NCT02200211|184745940|SUPERIORITY|||||||0.99||||||The a priori threshold for statistical significance of the interaction term (baseline amblyopic-eye visual acuity and treatment group) was 0.05.|ANCOVA|||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and baseline amblyopic-eye visual acuity (treated as a continuous factor in the model), adjusting for the main effects of the interaction term and baseline age.||||0.99
92428850|NCT02200211|184745940|SUPERIORITY|||||||0.87||||||The a priori threshold for statistical significance of the interaction term (prior amblyopia treatment and treatment group) was 0.05|ANCOVA|||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and prior amblyopia treatment (Yes/No), adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity.||||0.87
92428851|NCT02200211|184745940|SUPERIORITY|||||||0.33||||||The a priori threshold for statistical significance of the interaction term (baseline stereoacuity and treatment group) was 0.05.|ANCOVA|||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and baseline stereoacuity (nil, better than nil), adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity.||||0.33
92428852|NCT02200211|184745940|SUPERIORITY|||||||0.23||||||The a priori threshold for statistical significance of the interaction term (presence of a near heterotropia at baseline and treatment group) was 0.05.|ANCOVA|||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and presence of a near heterotropia (measured by SPCT) at baseline (Yes/No), adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity.||||0.23
92428853|NCT02200211|184745945|SUPERIORITY|||||||0.66||||||The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||The Wilcoxon rank-sum test was used to compare the distribution of change in stereoacuity levels from baseline to 16 weeks by treatment group.||||0.66
92428854|NCT02200211|184745945|SUPERIORITY|||||||0.83||||||A priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|||The Wilcoxon rank-sum test was used to compare the distribution of change in stereoacuity levels from baseline to 16 weeks by treatment group.||||0.83
92428855|NCT02200211|184745946|SUPERIORITY|||||||0.19||||||The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||The Wilcoxon rank-sum test was used to compare the distribution of change in stereoacuity levels from baseline to 16 weeks by treatment group.||||0.19
92428856|NCT02200211|184745946|SUPERIORITY|||||||0.69||||||A priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||The Wilcoxon rank-sum test was used to compare the distribution of change in stereoacuity levels from baseline to 16 weeks by treatment group.||||0.69
92428857|NCT02200211|184745952|SUPERIORITY||Mean Difference (Final Values)|0.16|||||TWO_SIDED|95.0|0.02|0.3|||||A 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) in mean change in fellow-eye visual acuity from baseline to 16 weeks. Positive values favor the binocular treatment group.|The treatment group difference in the change in fellow-eye visual acuity from baseline to 16 weeks (logMAR lines) was evaluated in an analysis of covariance model, adjusted for baseline fellow-eye visual acuity.||0.30|0.02|
92428858|NCT02200211|184745953|SUPERIORITY||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-1.1|1.3|||||A 95% confidence interval was computed on the treatment group difference (binocular treatment - patching) of the adjusted mean change in fellow-eye visual acuity from baseline to 16 weeks.|An analysis of covariance (ANCOVA) model was used to compute the treatment group difference in the mean change in fellow-eye visual acuity (letters) from baseline to 16 weeks, adjusting for baseline visual acuity. A 2-sided 95% confidence interval was computed on the adjusted treatment group difference.||1.3|-1.1|
92428859|NCT02200211|184745954|SUPERIORITY|||||||0.32|||||||Fisher Exact|||Fisher's exact test was used to perform the treatment group comparison of the proportion of participants who developed a new ocular deviation and/or worsening of a pre-existing ocular deviation by 10 prism diopters at the 16-week visit.||||0.32
92428860|NCT02200211|184745954|SUPERIORITY|||||||0.68|||||||Fisher Exact|||Fisher's exact test was used to perform the treatment group comparison of the proportion of participants who developed a new ocular deviation and/or worsening of a pre-existing ocular deviation by 10 prism diopters at the 16-week visit.||||0.68
92428861|NCT02200211|184745955|SUPERIORITY|||||||0.17|||||||Fisher Exact|||The Fisher exact test was used to compare the percentage of parents who reported that their child had experienced diplopia (yes/no) at the 16-week visit by treatment group.||||0.17
92428862|NCT02200211|184745955|SUPERIORITY|||||||0.48|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||0.48
92428863|NCT02200211|184745955|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||The Fisher exact test was used to compare the percentage of parents who reported that their child had experienced diplopia (yes/no) at the 16-week visit by treatment group.||||>0.99
92428864|NCT02200211|184745955|SUPERIORITY||||||>|0.99|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||>0.99
92428865|NCT02200211|184745956|SUPERIORITY|||||||0.05|||||||Fisher Exact|||The Fisher exact test was used to compare the percentage of participants who reported diplopia (yes/no) at the 16-week visit by treatment group.||||0.05
92428866|NCT02200211|184745956|SUPERIORITY|||||||0.02|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||0.02
92428867|NCT02200211|184745956|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||The Fisher exact test was used to compare the percentage of participants who reported diplopia (yes/no) at the 16-week visit by treatment group.||||>0.99
92428868|NCT02200211|184745956|SUPERIORITY||||||>|0.99|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||>0.99
92428869|NCT00381485|184745959|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92428870|NCT00381485|184745959|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92170856|NCT01017146|184230567|SUPERIORITY_OR_OTHER||Percentage of participants|16.1|||||TWO_SIDED|95.0|12.4|19.9|||||The estimated value represents the percentage of participants receiving vehicle foam with an ISGA score of 0 or 1 at Week 12.|||19.9|12.4|
92236936|NCT01666444|184377844|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.21||||0.943|ONE_SIDED|98.0||1.56||P-value is for a one-sided hypothesis test.|Log Rank|The logrank test is stratified for platinum-free interval (\<= 6 months vs \> 6 months), and performance status (0 vs 1).||The null hypothesis is that the hazards of first progression or death are equal for both treatment groups. The primary assessment was to use a stratified logrank test and the study was to be considered sufficiently mature when survival is mature for analysis. Type I error was to be set to 0.02 for a one-sided test and the power for detecting a 31% reduction in the hazard (hazard ratio=0.69) due to VTX-2337 was expected to be approximately 83%.||1.56||0.943
92236937|NCT01650779|184377848|SUPERIORITY_OR_OTHER|||||||0.0002|||||||One sample t-test|||Baseline versus Month 2: Analysis was performed using one sample t-test.||||0.0002
92236938|NCT01650779|184377848|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||Baseline versus Month 4: Analysis was performed using one sample t-test.||||<0.0001
92236939|NCT01650779|184377848|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||Baseline versus Month 6: Analysis was performed using one sample t-test.||||<0.0001
92236940|NCT01650779|184377849|SUPERIORITY_OR_OTHER|||||||0.1178|||||||One sample t-test|||Baseline versus Month 2: Analysis was performed using one sample t-test.||||0.1178
92236941|NCT01650779|184377849|SUPERIORITY_OR_OTHER|||||||0.1176|||||||One sample t-test|||Baseline versus Month 4: Analysis was performed using one sample t-test.||||0.1176
92428871|NCT00745823|184745964|NON_INFERIORITY_OR_EQUIVALENCE|The 800 mg q.d. dosage was considered non-inferior to 400 mg b.i.d. if the lower bound of the 2-sided exact 95% CI for difference in response rate remained above -10%.|Mean Difference (Final Values)|-5.7||||0.044|TWO_SIDED|95.0|-10.7|-0.83|||Miettinen and Nurminen|||||-0.83|-10.7|0.044
92428872|NCT00745823|184745965|NON_INFERIORITY_OR_EQUIVALENCE|The 800 mg q.d. dosage was considered non-inferior to 400 mg b.i.d. if the lower bound of the 2-sided exact 95% CI for difference in response rate remained above -10%.|Mean Difference (Final Values)|-5.1||||0.011|TWO_SIDED|95.0|-9.29|-1.06|||Miettinen and Nurminen|||||-1.06|-9.29|0.011
92428873|NCT00745823|184745966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-5.0|4.6|||Miettinen and Nurminen|||||4.6|-5.0|
92428874|NCT00745823|184745967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-1.3|2.0||||||||2.0|-1.3|
92428875|NCT00745823|184745968|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.56|||||TWO_SIDED|95.0|-7.29|34.4|||t-test, 2 sided|||||34.40|-7.29|
92428876|NCT01206660|184745979|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92428877|NCT01206660|184745980|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92428878|NCT01206660|184745981|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92428879|NCT01633853|184745982|SUPERIORITY_OR_OTHER|||||||0.117|TWO_SIDED||||||t-test, 2 sided|||The blood levels of calcium at the 24th month of following up were compared to the levels of the baseline both in group Vitamin D2.||||0.117
92428880|NCT01633853|184745982|SUPERIORITY_OR_OTHER|||||||0.309|TWO_SIDED||||||t-test, 2 sided|||The blood levels of calcium at the 24th month of following up were compared to the levels of the baseline in group 1,25(OH)2 Vitamin D3.||||0.309
92428881|NCT01633853|184745982|SUPERIORITY_OR_OTHER|||||||0.554|TWO_SIDED|||||t=-0.593|t-test, 2 sided|||The levels of blood calcium at the 24th month of following up were compared between two groups.||||0.554
92428882|NCT01633853|184745983|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||The levels of blood 25(OH)Vitamin D were compared between the 24th month and the baseline in group Vitamin D2.||||<0.001
92428883|NCT01633853|184745983|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||The levels of blood 25(OH)Vitamin D were compared between the 24th month and the baseline in group 1,25(OH)2 Vitamin D3.||||<0.001
92428884|NCT01633853|184745983|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P\<0.001, t=-14.982.|t-test, 2 sided|||The levels of blood 25(OH) Vitamin D at the 24th month of following up were compared between two groups.||||<0.001
92428885|NCT01633853|184745984|SUPERIORITY_OR_OTHER|||||||0.753|TWO_SIDED|||||Chi-square value=0.099|Chi-squared|||||||0.753
92428886|NCT01633853|184745985|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||The levels of blood phosphorus were compared between the 24th month of following up and the baseline in group Vitamin D2.||||<0.001
92428887|NCT01633853|184745985|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||The levels of blood phosphorus were compared between the 24th month of following up and the baseline in group 1,25(OH)2 Vitamin D3, respectively.||||<0.001
92428888|NCT01633853|184745985|SUPERIORITY_OR_OTHER|||||||0.694|TWO_SIDED|||||t=0.394|t-test, 2 sided|||The levels of blood phosphorus at the 24th month of following up were compared between two groups.||||0.694
92428889|NCT01633853|184745986|SUPERIORITY_OR_OTHER|||||||0.179|TWO_SIDED||||||t-test, 2 sided|||The levels of blood iPTH were compared between the 24th month and the baseline in group Vitamin D2.||||0.179
92428890|NCT01633853|184745986|SUPERIORITY_OR_OTHER|||||||0.106|TWO_SIDED||||||t-test, 2 sided|||The levels of blood iPTH were compared between the 24th month and the baseline group 1,25(OH)2 Vitamin D3, respectively.||||0.106
92428891|NCT01633853|184745986|SUPERIORITY_OR_OTHER|||||||0.463|TWO_SIDED|||||t=-0.736|t-test, 2 sided|||The levels of blood iPTH at the 24th month of following up were compared between two groups.||||0.463
92170857|NCT00976495|184230584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.07|STANDARD_ERROR_OF_MEAN|2.7177|||TWO_SIDED|95.0|-13.34|-2.49|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||-2.49|-13.34|
92170858|NCT00976495|184230584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.62|STANDARD_ERROR_OF_MEAN|2.7068|||TWO_SIDED|95.0|-12.87|-2.06|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||-2.06|-12.87|
92170859|NCT00976495|184230585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|2.3613|||TWO_SIDED|95.0|-7.11|2.31|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||2.31|-7.11|
92170860|NCT00976495|184230585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.26|STANDARD_ERROR_OF_MEAN|2.4112|||TWO_SIDED|95.0|-1.55|8.08|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||8.08|-1.55|
92236942|NCT01650779|184377849|SUPERIORITY_OR_OTHER|||||||0.0322|||||||One sample t-test|||Baseline versus Month 6: Analysis was performed using one sample t-test.||||0.0322
92236943|NCT01650779|184377850|SUPERIORITY_OR_OTHER|||||||0.5811|||||||One sample test of median (sign test)|||Baseline versus Month 2: Analysis was performed using one sample test of median (sign test). The percent change and absolute change from baseline in urine GL-3 levels were not normally distributed and thus medians were evaluated.||||0.5811
92428892|NCT01258582|184745995|SUPERIORITY_OR_OTHER||difference in the acceptance rates|-0.022||||0.34|TWO_SIDED|95.0|-0.067|0.023|||Chi-squared|The difference in the acceptance rates was estimated along with 95% confidence intervals and tested using the chi-square test.||Sample size was chosen to detect a 10% difference in acceptance rates between two testing modality arms (90% power, 0.05 level of significance).||0.023|-0.067|0.34
92428893|NCT01709513|184746083|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-30.4|||<|0.0001|TWO_SIDED|95.0|-36.6|-24.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Alirocumab group was compared to the corresponding active control group using an appropriate contrast statement.||-24.2|-36.6|<0.0001
92428894|NCT01709513|184746084|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.1|||<|0.0001|TWO_SIDED|95.0|-40.7|-29.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 5% level.||-29.5|-40.7|<0.0001
92428895|NCT01709513|184746085|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-31.5|||<|0.0001|TWO_SIDED|95.0|-36.9|-26.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-26.1|-36.9|<0.0001
92428896|NCT01709513|184746086|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-33.1|||<|0.0001|TWO_SIDED|95.0|-38.0|-28.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-28.2|-38.0|<0.0001
92428897|NCT01709513|184746087|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.1|||<|0.0001|TWO_SIDED|95.0|-29.8|-20.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-20.4|-29.8|<0.0001
92170861|NCT00976495|184230586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.38|STANDARD_ERROR_OF_MEAN|2.5072|||TWO_SIDED|95.0|-9.38|0.63|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||0.63|-9.38|
92428898|NCT01709513|184746088|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.2|||<|0.0001|TWO_SIDED|95.0|-32.1|-24.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-24.4|-32.1|<0.0001
92428899|NCT01709513|184746089|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.6|||<|0.0001|TWO_SIDED|95.0|-30.4|-20.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-20.8|-30.4|<0.0001
92428900|NCT01709513|184746090|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-29.8|||<|0.0001|TWO_SIDED|95.0|-33.9|-25.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-25.8|-33.9|<0.0001
92428901|NCT01709513|184746091|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.8|||<|0.0001|TWO_SIDED|95.0|-24.7|-17.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-17.0|-24.7|<0.0001
92428902|NCT01709513|184746092|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-24.5|||<|0.0001|TWO_SIDED|95.0|-28.7|-20.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-20.4|-28.7|<0.0001
92236944|NCT01650779|184377850|SUPERIORITY_OR_OTHER|||||||0.7744|||||||One sample test of median (sign test)|||Baseline versus Month 4: Analysis was performed using one sample test of median (sign test). The percent change and absolute change from baseline in urine GL-3 levels were not normally distributed and thus medians were evaluated.||||0.7744
92236945|NCT01650779|184377850|SUPERIORITY_OR_OTHER|||||||0.3877|||||||One sample test of median (sign test)|||Baseline versus Month 6: Analysis was performed using one sample test of median (sign test). The percent change and absolute change from baseline in urine GL-3 levels were not normally distributed and thus medians were evaluated.||||0.3877
92236946|NCT03567291|184377866|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.78|TWO_SIDED|95.0|-3.4|2.6|||ANCOVA|||||2.6|-3.4|0.78
92279612|NCT02308111|184462682|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.898|TWO_SIDED|95.0|0.69|1.52||Log rank p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Log Rank|||||1.52|0.69|0.898
92428903|NCT01709513|184746093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.7|||<|0.0001|TWO_SIDED|95.0|-29.9|-21.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-21.5|-29.9|<0.0001
92170862|NCT00976495|184230586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91|STANDARD_ERROR_OF_MEAN|2.5474|||TWO_SIDED|95.0|-4.18|5.99|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||5.99|-4.18|
92428904|NCT01709513|184746094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-21.1|||<|0.0001|TWO_SIDED|95.0|-24.5|-17.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-17.7|-24.5|<0.0001
92428905|NCT01709513|184746095|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|19.5|||<|0.0001|TWO_SIDED|95.0|6.9|55.2||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||55.2|6.9|<0.0001
92428906|NCT01709513|184746096|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|24.9|||<|0.0001|TWO_SIDED|95.0|8.6|71.9||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||71.9|8.6|<0.0001
92428907|NCT01709513|184746097|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|71.5|||<|0.0001|TWO_SIDED|95.0|11.1|3022.1||Threshold for significance ≤ 0.05.|Regression, Exact Conditional Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a last observation carried forward (LOCF) approach followed by Exact conditional logistic regression model.||3022.1|11.1|<0.0001
92428908|NCT01709513|184746098|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|109.8|||<|0.0001|TWO_SIDED|95.0|16.5|4759.3||Threshold for significance ≤ 0.05.|Regression, Exact Conditional Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a LOCF approach followed by Exact conditional logistic regression model.||4759.3|16.5|<0.0001
92428909|NCT01709513|184746099|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-18.7|||<|0.0001|TWO_SIDED|95.0|-25.5|-11.8||Threshold for significance ≤ 0.05.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-11.8|-25.5|<0.0001
92428910|NCT01709513|184746100|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.9|||=|0.6997|TWO_SIDED|95.0|-3.8|5.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||5.6|-3.8|=0.6997
92428911|NCT01034631|184746114|OTHER|||||||0.6625|||||||Chi-squared|||||||.6625
92428912|NCT03166735|184746133|OTHER||Predicted mean daily dose in mg|3.45|STANDARD_ERROR_OF_MEAN|0.1|||||||||non-linear regression||The model fit used power of mean variance estimates (POM) to account for heterogeneity.|D10: Estimated dose reaching \<=10% activity the first time.||||
92428913|NCT03166735|184746135|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.0212||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod Sigmoidal Emax model fit.|30% of the maximum effect is achieved at 3 mg and 90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.0212
92428914|NCT03166735|184746136|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.127||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod Sigmoidal Emax model fit.|30% of the maximum effect is achieved at 3 mg and 90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.1270
92428915|NCT03166735|184746137|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.3324||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod exponential model fit.|90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.3324
92170863|NCT00976495|184230587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|2.7812|||TWO_SIDED|95.0|-5.39|5.71|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||5.71|-5.39|
92236947|NCT01103349|184377869|SUPERIORITY||Adjusted mean treatment differences|3.87|STANDARD_DEVIATION|1.494||0.005|TWO_SIDED|95.0|0.931|6.809||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||H0: Mean FEV1 % predicted trough change from baseline (BI671800 ED 400 mg bid) ≤ Mean FEV1 % predicted trough change from baseline (placebo)||6.809|0.931|0.0050
92428916|NCT03166735|184746138|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.129||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod exponential model fit.|90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.1290
92428917|NCT03166735|184746139|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.0042||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod Sigmoidal Emax model fit.|30% of the maximum effect is achieved at 3 mg and 90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.0042
92428918|NCT03166735|184746140|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.0728||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod exponential model fit.|90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.0728
92428919|NCT01292746|184746149|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|2 sided t-test for correlated samples.||||||<0.05
92236948|NCT01103349|184377869|SUPERIORITY||Adjusted mean treatment differences|2.369|STANDARD_DEVIATION|1.567||0.0657||95.0|-0.713|5.452||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||H0: Mean FEV1 % predicted trough change from baseline (Montelukast 10 mg qd) ≤ Mean FEV1 % predicted trough change from baseline (placebo)||5.452|-0.713|0.0657
92279613|NCT02308111|184462683|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.594|TWO_SIDED|95.0|0.69|1.91||Log rank p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Log Rank|||||1.91|0.69|0.594
92428920|NCT01227434|184746157|SUPERIORITY_OR_OTHER||Exact binomial distribution|0.1||||0.1|TWO_SIDED||||||Exact binomial distribution|||Compared to historical estimates of PFS-6 months. With 30 patients, there would be 90% power to detect an improvement in the PFS-6 months rate from 10% (historical estimate) to 30% based on a one-sided exact test with alpha=0.1.||||0.10
92428921|NCT03486223|184746162|SUPERIORITY|||||||0.71||||||Wilcoxon signed-rank test was used for the within-subject comparison of GSK2256294 versus placebo.|Wilcoxon (Mann-Whitney)|||A sample size of 16 per group was estimated to have 86% power to detect a within-subject difference of 3.76 (80% of the above difference) or larger (with an SD for the within-subject difference of 4.6) in insulin sensitivity.||||0.71
92428922|NCT01144286|184746177|SUPERIORITY_OR_OTHER||response rate (%)|80.0||||0.063|TWO_SIDED|95.0||||Significance level was set to α of 0.05 if the primary endpoint was significant, hierarchical testing was to be performed on the primary endpoint (each active dose X placebo). No other adjustment was made for testing multiple secondary outcomes.|Regression, Logistic|||"Primary analysis is the dose response at TOC based on the global therapeutic cure. Dose response will be tested using a logistic regression using linear coefficient for the treatment effect(Wald chi-square).~Assuming that the response rate is 80% for 600 mg, 75% for the 300 mg, 65% for 150 mg and 50% for the placebo group, a sample size of 45 subjects in each group will have 90% power to detect a linear dose response using a 0.05 two-sided test of trend based on the logistic model."||||0.0630
92428923|NCT00590720|184746183|SUPERIORITY_OR_OTHER|||||||0.4|||||||Two-sample t-test|||||||0.40
92428924|NCT00590720|184746184|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Two-sample t-test|||||||<0.01
92428925|NCT00590720|184746185|SUPERIORITY_OR_OTHER|||||||0.53|||||||Two-sample t-test|||||||0.53
92428926|NCT00590720|184746186|SUPERIORITY_OR_OTHER|||||||0.22|||||||Two-sample t-test|||||||0.22
92428927|NCT00590720|184746187|SUPERIORITY_OR_OTHER|||||||0.16|||||||Two-sample t-test|||||||0.16
92428928|NCT00590720|184746188|SUPERIORITY_OR_OTHER|||||||0.52|||||||Two-sample t-test|||||||0.52
92428929|NCT02527161|184746211|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92428930|NCT02527161|184746212|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KOOS Pain||||<0.0001
92428931|NCT02527161|184746212|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013|||||||ANOVA|||Change from 6 weeks to 3 months KOOS Pain||||0.0013
92428932|NCT02527161|184746212|SUPERIORITY|||||||0.3316|||||||ANOVA|||Change from 3 months to 6 months KOOS Pain||||0.3316
92428933|NCT02527161|184746212|SUPERIORITY|||||||0.3366|||||||ANOVA|||Change from 6 months to 1 year KOOS Pain||||0.3366
92428934|NCT02527161|184746212|SUPERIORITY|||||||0.9826|||||||ANOVA|||Change from 1 year to 2 year KOOS Pain||||0.9826
92428935|NCT02527161|184746212|SUPERIORITY|||||||0.9276|||||||ANOVA|||Change from 2 year to 5 year KOOS Pain||||0.9276
92428936|NCT02527161|184746213|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KOOS Symptoms||||<0.0001
92428937|NCT02527161|184746213|SUPERIORITY|||||||0.0736|||||||ANOVA|||Change from 6 weeks to 3 months KOOS Symptoms||||0.0736
92428938|NCT02527161|184746213|SUPERIORITY|||||||0.4675|||||||ANOVA|||Change from 3 months to 6 months KOOS Symptoms||||0.4675
92428939|NCT02527161|184746213|SUPERIORITY|||||||0.0229|||||||ANOVA|||Change from 6 months to 1 year KOOS Symptoms||||0.0229
92428940|NCT02527161|184746213|SUPERIORITY|||||||0.9968|||||||ANOVA|||Change from 1 year to 2 year KOOS Symptoms||||0.9968
92428941|NCT02527161|184746213|SUPERIORITY|||||||0.7761|||||||ANOVA|||Change from 2 year to 5 year KOOS Symptoms||||0.7761
92428942|NCT02527161|184746214|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KOOS ADL||||<0.0001
92428943|NCT02527161|184746214|SUPERIORITY|||||||0.0212|||||||ANOVA|||Change from 6 weeks to 3 months KOOS ADL||||0.0212
92428944|NCT02527161|184746214|SUPERIORITY|||||||0.7173|||||||ANOVA|||Change from 3 months to 6 months KOOS ADL||||0.7173
92428945|NCT02527161|184746214|SUPERIORITY|||||||0.1834|||||||ANOVA|||Change from 6 months to 1 year KOOS ADL||||0.1834
92428946|NCT02527161|184746214|SUPERIORITY|||||||0.9957|||||||ANOVA|||Change from 1 year to 2 year KOOS ADL||||0.9957
92428947|NCT02527161|184746214|SUPERIORITY|||||||0.9999|||||||ANOVA|||Change from 6 months to 1 year KOOS ADL||||0.9999
92428948|NCT02527161|184746215|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KOOS S\&R||||<0.0001
92428949|NCT02527161|184746215|SUPERIORITY|||||||0.0522|||||||ANOVA|||Change from 6 weeks to 3 months KOOS S\&R||||0.0522
92428950|NCT02527161|184746215|SUPERIORITY|||||||0.1696|||||||ANOVA|||Change from 3 months to 6 months KOOS S\&R||||0.1696
92428951|NCT02527161|184746215|SUPERIORITY|||||||0.6942|||||||ANOVA|||Change from 6 months to 1 year KOOS S\&R||||0.6942
92428952|NCT02527161|184746215|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 1 year to 2 year KOOS S\&R||||>0.9999
92428953|NCT02527161|184746215|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 2 year to 5 year KOOS S\&R||||>0.9999
92428954|NCT02527161|184746216|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KOOS QoL||||<0.0001
92428955|NCT02527161|184746216|SUPERIORITY|||||||0.0135|||||||ANOVA|||Change from 6 weeks to 3 months KOOS QoL||||0.0135
92428956|NCT02527161|184746216|SUPERIORITY|||||||0.0829|||||||ANOVA|||Change from 3 months to 6 months KOOS QoL||||0.0829
92428957|NCT02527161|184746216|SUPERIORITY|||||||0.1729|||||||ANOVA|||Change from 6 months to 1 year KOOS QoL||||0.1729
92428958|NCT02527161|184746216|SUPERIORITY|||||||0.9687|||||||ANOVA|||Change from 1 year to 2 year KOOS QoL||||0.9687
92428959|NCT02527161|184746216|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 2 year to 5 year KOOS QoL||||>0.9999
92428960|NCT02527161|184746217|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks SF-12 PCS||||<0.0001
92428961|NCT02527161|184746217|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from 6 weeks to 3 months SF-12 PCS||||<0.0001
92428962|NCT02527161|184746217|SUPERIORITY|||||||0.8189|||||||ANOVA|||Change from 3 months to 6 months SF-12 PCS||||0.8189
92236949|NCT01103349|184377869|SUPERIORITY||Adjusted mean treatment differences|1.501|STANDARD_DEVIATION|1.602||0.1748|TWO_SIDED|95.0|-1.652|4.653||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||H0: Mean FEV1 % predicted trough change from baseline (BI671800 ED 400 mg bid) ≤ Mean FEV1 % predicted trough change from baseline (Montelukast 10 mg qd)||4.653|-1.652|0.1748
92428963|NCT02527161|184746217|SUPERIORITY|||||||0.9845|||||||ANOVA|||Change from 6 months to 1 year SF-12 PCS||||0.9845
92428964|NCT02527161|184746217|SUPERIORITY|||||||0.75|||||||ANOVA|||Change from 1 year to 2 year SF-12 PCS||||0.7500
92428965|NCT02527161|184746217|SUPERIORITY|||||||0.1376|||||||ANOVA|||Change from 2 year to 5 year SF-12 PCS||||0.1376
92428966|NCT02527161|184746218|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 week VAS Rest||||<0.0001
92428967|NCT02527161|184746218|SUPERIORITY|||||||0.0031|||||||ANOVA|||Change from 6 weeks to 3 months VAS Rest||||0.0031
92428968|NCT02527161|184746218|SUPERIORITY|||||||0.299|||||||ANOVA|||Change from 3 months to 6 months VAS Rest||||0.2990
92428969|NCT02527161|184746218|SUPERIORITY|||||||0.9832|||||||ANOVA|||Change from 6 months to 1 year VAS Rest||||0.9832
92428970|NCT02527161|184746218|SUPERIORITY|||||||0.9991|||||||ANOVA|||Change from 1 year to 2 year VAS Rest||||0.9991
92428971|NCT02527161|184746218|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 2 year to 5 year VAS Rest||||>0.9999
92428972|NCT02527161|184746219|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks VAS Mob||||<0.0001
92428973|NCT02527161|184746219|SUPERIORITY|||||||0.0062|||||||ANOVA|||Change from 6 weeks to 3 months VAS Mob||||0.0062
92428974|NCT02527161|184746219|SUPERIORITY|||||||0.373|||||||ANOVA|||Change from 3 months to 6 months VAS Mob||||0.3730
92428975|NCT02527161|184746219|SUPERIORITY|||||||0.8499|||||||ANOVA|||Change from 6 months to 1 year VAS Mob||||0.8499
92236950|NCT01103349|184377870|SUPERIORITY||Adjusted mean treatment differences|-0.28|STANDARD_DEVIATION|0.118||0.0092|TWO_SIDED|95.0|-0.512|-0.048||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||-0.048|-0.512|0.0092
92236951|NCT01103349|184377870|SUPERIORITY||Adjusted mean treatment differences|-0.18|STANDARD_DEVIATION|0.124||0.0732|TWO_SIDED|95.0|-0.423|0.063||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.063|-0.423|0.0732
92428976|NCT02527161|184746219|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 1 year to 2 year VAS Mob||||>0.9999
92428977|NCT02527161|184746219|SUPERIORITY|||||||0.9958|||||||ANOVA|||Change from 2 year to 5 year VAS Mob||||0.9958
92428978|NCT02527161|184746220|SUPERIORITY|||||||0.3493|||||||ANOVA|||Change from preoperative to 6 weeks SF-12 MCS||||0.3493
92428979|NCT02527161|184746220|SUPERIORITY|||||||0.48|||||||ANOVA|||Change from 6 weeks to 3 months SF-12 MCS||||0.4800
92428980|NCT02527161|184746220|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 3 months to 6 months SF-12 MCS||||>0.9999
92428981|NCT02527161|184746220|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 6 months to 1 year SF-12 MCS||||>0.9999
92428982|NCT02527161|184746220|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 1 year to 2 year SF-12 MCS||||>0.9999
92428983|NCT02527161|184746220|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 2 year to 5 year SF-12 MCS||||>0.9999
92428984|NCT02527161|184746221|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KSS Pain||||<0.0001
92428985|NCT02527161|184746221|SUPERIORITY|||||||0.9465|||||||ANOVA|||Change from 3 months to 6 months KSS Pain||||0.9465
92428986|NCT02527161|184746221|SUPERIORITY|||||||0.1215|||||||ANOVA|||Change from 6 months to 1 year KSS Pain||||0.1215
92428987|NCT02527161|184746221|SUPERIORITY|||||||0.9912|||||||ANOVA|||Change from 1 year to 2 years KSS Pain||||0.9912
92428988|NCT02527161|184746221|SUPERIORITY|||||||0.8952|||||||ANOVA|||Change from 2 year to 5 year KSS Pain||||0.8952
92428989|NCT02527161|184746222|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 3 months KSS Function||||<0.0001
92428990|NCT02527161|184746222|SUPERIORITY|||||||0.0266|||||||ANOVA|||Change from 3 months to 6 months KSS Function||||0.0266
92428991|NCT02527161|184746222|SUPERIORITY|||||||0.988|||||||ANOVA|||Change from 6 months to 1 year KSS Function||||0.9880
92428992|NCT02527161|184746222|SUPERIORITY|||||||0.9699|||||||ANOVA|||Change from 1 year to 2 years KSS Function||||0.9699
92428993|NCT02527161|184746222|SUPERIORITY|||||||0.8575|||||||ANOVA|||Change from 2 year to 5 years KSS Function||||0.8575
92428994|NCT02527161|184746223|SUPERIORITY|||||||0.8581|||||||ANOVA|||Change from preoperative to 3 months KSS Range of Motion||||0.8581
92428995|NCT02527161|184746223|SUPERIORITY|||||||0.7664|||||||ANOVA|||Change from 3 months to 6 months KSS Range of Motion||||0.7664
92428996|NCT02527161|184746223|SUPERIORITY|||||||0.7022|||||||ANOVA|||Change from 6 months to 1 year KSS Range of Motion||||0.7022
92428997|NCT02527161|184746223|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 1 year to 2 year KSS Range of Motion||||>0.9999
92428998|NCT02527161|184746223|SUPERIORITY|||||||0.2943|||||||ANOVA|||Change from 2 year to 5 year KSS Range of Motion||||0.2943
92428999|NCT02527161|184746224|SUPERIORITY|||||||0.0161|||||||ANOVA|||Change from 1 year to 2 year Forgotten Joint Score||||0.0161
92429000|NCT02527161|184746224|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from 2 year to 5 year Forgotten Joint Score||||<0.0001
92429001|NCT02609828|184746225|SUPERIORITY||Differences in least square (LS) mean|-0.78|STANDARD_ERROR_OF_MEAN|0.37||0.0381|TWO_SIDED|95.0|-1.52|-0.04|||ANCOVA|||Change at Week 8: Analysis of covariance (ANCOVA) model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.04|-1.52|0.0381
92429002|NCT02609828|184746226|SUPERIORITY||Difference in LS mean|-0.36|STANDARD_ERROR_OF_MEAN|0.18||0.0497|TWO_SIDED|95.0|-0.72|0.0|||ANCOVA|||Change at Week 1: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.00|-0.72|0.0497
92236952|NCT01103349|184377870|SUPERIORITY||Adjusted mean treatment differences|-0.1|STANDARD_DEVIATION|0.126||0.2139|TWO_SIDED|95.0|-0.347|0.147||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.147|-0.347|0.2139
92236953|NCT01591018|184377896|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||Pre-study calculations using chi-square test with a continuity correction showed that ≥60 patients in each group were needed to reach a significant difference with an alpha value of 0.05 (two-tailed) and a beta value of 0.8.|Chi-squared, Corrected|||Sample size was based on an expected 20% reduction of new ischemic lesions on DW-MRI in the sonolysis group (estimated prevalence, 10%) compared with the control group (estimated prevalence, 30%).||||<0.05
92236954|NCT00631488|184377909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.9||||0.002|TWO_SIDED|95.0|5.2|22.7|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+sitagliptin provide greater reduction in 24-hour WMG than sitagliptin+metformin. Using a standard deviation (SD) of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 24-hour WMG between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval (CI) for the between group difference.||22.7|5.2|0.002
92236955|NCT00631488|184377909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|||<|0.001|TWO_SIDED|95.0|-26.5|-9.2|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+metformin provide greater reduction in 24-hour WMG than sitagliptin+metformin. Using a standard deviation (SD) of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 24-hour WMG between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval for the between group difference.||-9.2|-26.5|<0.001
92236956|NCT00631488|184377910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.1||||0.05|TWO_SIDED|95.0|0.0|18.2|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+sitagliptin provide greater reduction in 24-hour FPG than sitagliptin+metformin. Using a standard deviation (SD) of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 24-hour FPG between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval for the between group difference.||18.2|0.0|0.050
92236957|NCT00631488|184377910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1|||<|0.001|TWO_SIDED|95.0|-28.0|-10.1|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+metformin provide greater reduction in 24-hour FPG than sitagliptin+metformin. Using a standard deviation (SD) of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 24-hour FPG between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval for the between group difference.||-10.1|-28.0|<0.001
92429003|NCT02609828|184746226|SUPERIORITY||Difference in LS mean|-0.66|STANDARD_ERROR_OF_MEAN|0.25||0.0092|TWO_SIDED|95.0|-1.16|-0.17|||ANCOVA|||Change at Week 2: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.17|-1.16|0.0092
92429004|NCT02609828|184746226|SUPERIORITY||Difference in LS mean|-0.74|STANDARD_ERROR_OF_MEAN|0.32||0.0218|TWO_SIDED|95.0|-1.37|-0.11|||ANCOVA|||Change at Week 4: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.11|-1.37|0.0218
92429005|NCT02609828|184746226|SUPERIORITY||Difference in LS mean|-0.87|STANDARD_ERROR_OF_MEAN|0.36||0.0154|TWO_SIDED|95.0|-1.58|-0.17|||ANCOVA|||Change at Week 6: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.17|-1.58|0.0154
92429006|NCT02609828|184746226|SUPERIORITY||Difference in LS mean|-0.59|STANDARD_ERROR_OF_MEAN|0.39||0.1289|TWO_SIDED|95.0|-1.36|0.17|||ANCOVA|||Change at Week 12: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.17|-1.36|0.1289
92429007|NCT02609828|184746226|SUPERIORITY||Difference in LS mean|-0.55|STANDARD_ERROR_OF_MEAN|0.44||0.211|TWO_SIDED|95.0|-1.43|0.32|||ANCOVA|||Change at Week 16: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.32|-1.43|0.2110
92429008|NCT02609828|184746226|SUPERIORITY||Difference in LS mean|-0.58|STANDARD_ERROR_OF_MEAN|0.46||0.2049|TWO_SIDED|95.0|-1.49|0.32|||ANCOVA|||Change at Week 24: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.32|-1.49|0.2049
92429009|NCT02609828|184746227|SUPERIORITY||Difference in LS mean|-0.33|STANDARD_ERROR_OF_MEAN|0.2||0.1103|TWO_SIDED|95.0|-0.73|0.07|||ANCOVA|||Change at Week 1: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.07|-0.73|0.1103
92429010|NCT02609828|184746227|SUPERIORITY||Difference in LS mean|-0.73|STANDARD_ERROR_OF_MEAN|0.27||0.0084|TWO_SIDED|95.0|-1.26|-0.19|||ANCOVA|||Change at Week 2: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.19|-1.26|0.0084
92236958|NCT00631488|184377911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.6||||0.056|TWO_SIDED|95.0|-0.6|45.8|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+sitagliptin provide greater reduction in 2-hr Glucose AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Glucose Total AUC between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval for the between group difference.||45.8|-0.6|0.056
92236959|NCT00631488|184377911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.6|||<|0.001|TWO_SIDED|95.0|-67.3|-21.8|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+metformin provide greater reduction in 2-hr Glucose AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Glucose Total AUC between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval for the between group difference.||-21.8|-67.3|<0.001
92429011|NCT02609828|184746227|SUPERIORITY||Difference in LS mean|-0.75|STANDARD_ERROR_OF_MEAN|0.33||0.0236|TWO_SIDED|95.0|-1.39|-0.1|||ANCOVA|||Change at Week 4:ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.10|-1.39|0.0236
92429012|NCT02609828|184746227|SUPERIORITY||Difference in LS mean|-0.88|STANDARD_ERROR_OF_MEAN|0.36||0.0155|TWO_SIDED|95.0|-1.59|-0.17|||ANCOVA|||Change at Week 6: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.17|-1.59|0.0155
92429013|NCT02609828|184746227|SUPERIORITY||Difference in LS mean|-0.76|STANDARD_ERROR_OF_MEAN|0.38||0.0505|TWO_SIDED|95.0|-1.52|0.0|||ANCOVA|||Change at Week 8: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.00|-1.52|0.0505
92429014|NCT02609828|184746227|SUPERIORITY||Difference in LS mean|-0.72|STANDARD_ERROR_OF_MEAN|0.4||0.0761|TWO_SIDED|95.0|-1.52|0.08|||ANCOVA|||Change at Week 12: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.08|-1.52|0.0761
92429015|NCT02609828|184746227|SUPERIORITY||Difference in LS mean|-0.74|STANDARD_ERROR_OF_MEAN|0.48||0.1263|TWO_SIDED|95.0|-1.7|0.21|||ANCOVA|||Change at Week 16: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.21|-1.70|0.1263
92429016|NCT02609828|184746227|SUPERIORITY||Difference in LS mean|-0.79|STANDARD_ERROR_OF_MEAN|0.49||0.1051|TWO_SIDED|95.0|-1.76|0.17|||ANCOVA|||Change at Week 24: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.17|-1.76|0.1051
92170864|NCT00976495|184230587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.31|STANDARD_ERROR_OF_MEAN|2.8135|||TWO_SIDED|95.0|1.7|12.93|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||12.93|1.70|
92236960|NCT00631488|184377912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2||||0.001|TWO_SIDED|95.0|1.7|6.7|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+sitagliptin provide greater reduction in 2-Hour Total GLP-1 Total AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants/group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Total GLP-1 Total AUC between any 2 treatment groups for a 2-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% CI for the between group difference.||6.7|1.7|0.001
92279614|NCT02308111|184462684|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.568|TWO_SIDED|95.0|0.57|2.78||Log rank p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Log Rank|||||2.78|0.57|0.568
92279615|NCT02308111|184462685|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.769|TWO_SIDED|95.0|0.59|2.07||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the interactive web response system (IWRS) as strata.|Gray's Test|||||2.07|0.59|0.769
92429017|NCT02609828|184746228|SUPERIORITY||Difference in LS mean|-0.5|STANDARD_ERROR_OF_MEAN|0.48||0.3003|TWO_SIDED|95.0|-1.47|0.47|||ANCOVA|||Change at Week 1: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.47|-1.47|0.3003
92429018|NCT02609828|184746228|SUPERIORITY||Difference in LS mean|-0.84|STANDARD_ERROR_OF_MEAN|0.59||0.1603|TWO_SIDED|95.0|-2.03|0.35|||ANCOVA|||Change at Week 2: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.35|-2.03|0.1603
92239812|NCT03650452|184383575|SUPERIORITY||Least Square (LS) Mean|0.1|STANDARD_DEVIATION|0.21||0.6829|TWO_SIDED|95.0|-0.32|0.49||The p-value is 2-sided and it is for the difference (TAK-935 - Placebo) of change from baseline between TAK-935 and Placebo was computed using MMRM.|Mixed-Model Repeated Measure (MMRM)||The MMRM model included treatment and visit as factors along with treatment\*visit interaction and baseline score as a covariate; and visit as repeated measure.|||0.49|-0.32|0.6829
92429019|NCT02609828|184746228|SUPERIORITY||Difference in LS mean|-0.8|STANDARD_ERROR_OF_MEAN|0.66||0.2298|TWO_SIDED|95.0|-2.13|0.53|||ANCOVA|||Change at Week 4: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.53|-2.13|0.2298
92429020|NCT02609828|184746228|SUPERIORITY||Difference in LS mean|-0.48|STANDARD_ERROR_OF_MEAN|0.72||0.5054|TWO_SIDED|95.0|-1.93|0.97|||ANCOVA|||Change at Week 6: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.97|-1.93|0.5054
92429021|NCT02609828|184746228|SUPERIORITY||Difference in LS mean|-0.55|STANDARD_ERROR_OF_MEAN|-0.77||0.4793|TWO_SIDED|95.0|-2.1|1.01|||ANCOVA|||Change at Week 8: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||1.01|-2.10|0.4793
92429022|NCT02609828|184746228|SUPERIORITY||Difference in LS mean|-0.5|STANDARD_ERROR_OF_MEAN|0.66||0.4496|TWO_SIDED|95.0|-1.83|0.83|||ANCOVA|||Change at Week 12: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.83|-1.83|0.4496
92429023|NCT02609828|184746228|SUPERIORITY||Difference in least square LS mean|-1.21|STANDARD_ERROR_OF_MEAN|0.77||0.1263|TWO_SIDED|95.0|-2.77|0.36|||ANCOVA|||Change at Week 16: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.36|-2.77|0.1263
92429024|NCT02609828|184746228|SUPERIORITY||Difference in LS mean|-1.05|STANDARD_ERROR_OF_MEAN|0.73||0.162|TWO_SIDED|95.0|-2.54|0.44|||ANCOVA|||Change at Week 24: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.44|-2.54|0.1620
92429025|NCT02609828|184746229|SUPERIORITY||Difference in LS mean|-1.07|STANDARD_ERROR_OF_MEAN|0.54||0.0575|TWO_SIDED|95.0|-2.17|0.04|||ANCOVA|||Change at Week 1: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||0.04|-2.17|0.0575
92429026|NCT02609828|184746229|SUPERIORITY||Difference in LS mean|-1.96|STANDARD_ERROR_OF_MEAN|0.62||0.0031|TWO_SIDED|95.0|-3.22|-0.7|||ANCOVA|||Change at Week 2: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||-0.70|-3.22|0.0031
92429027|NCT02609828|184746229|SUPERIORITY||Difference in LS mean|-1.44|STANDARD_ERROR_OF_MEAN|0.68||0.041|TWO_SIDED|95.0|-2.82|-0.06|||ANCOVA|||Change at Week 4: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||-0.06|-2.82|0.0410
92429028|NCT02609828|184746229|SUPERIORITY||Difference in LS mean|-0.88|STANDARD_ERROR_OF_MEAN|0.77||0.2598|TWO_SIDED|95.0|-2.44|0.68|||ANCOVA|||Change at Week 6: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||0.68|-2.44|0.2598
92429029|NCT02609828|184746229|SUPERIORITY||Difference in LS mean|-0.77|STANDARD_ERROR_OF_MEAN|0.8||0.3426|TWO_SIDED|95.0|-2.38|0.85|||ANCOVA|||Change at Week 8: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||0.85|-2.38|0.3426
92429030|NCT02609828|184746229|SUPERIORITY||Difference in LS mean|-1.2|STANDARD_ERROR_OF_MEAN|0.72||0.1034|TWO_SIDED|95.0|-2.65|0.26|||ANCOVA|||Change at Week 12: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||0.26|-2.65|0.1034
92429031|NCT02609828|184746229|SUPERIORITY||Difference in LS mean|-1.91|STANDARD_ERROR_OF_MEAN|0.84||0.029|TWO_SIDED|95.0|-3.6|-0.21|||ANCOVA|||Change at Week 16: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||-0.21|-3.60|0.0290
92236961|NCT00631488|184377912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.2|||<|0.001|TWO_SIDED|95.0|10.7|15.7|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+metformin provide greater reduction in 2-Hour Total GLP-1 Total AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants/group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Total GLP-1 Total AUC between any 2 treatment groups for a 2-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% CI for the between group difference.||15.7|10.7|<0.001
92170865|NCT02539225|184230595|SUPERIORITY|||||||0.698|||||||Stratified Log Rank|||||||0.698
92236962|NCT00631488|184377913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||<|0.001|TWO_SIDED|95.0|-9.5|-3.8|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+sitagliptin provide greater reduction in 2-Hour Active GLP-1 Total AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants/group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Active GLP-1 Total AUC between any 2 treatment groups for a 2-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% CI for the between group difference||-3.8|-9.5|<0.001
92429032|NCT02609828|184746229|SUPERIORITY||Difference in LS mean|-1.62|STANDARD_ERROR_OF_MEAN|0.83||0.06|TWO_SIDED|95.0|-3.31|0.07|||ANCOVA|||Change at Week 24: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||0.07|-3.31|0.0600
92429033|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.14||||0.8054|TWO_SIDED|95.0|0.41|3.18|||Regression, Logistic|||Week 1 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.18|0.41|0.8054
92429034|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|0.94||||0.9292|TWO_SIDED|95.0|0.22|3.98|||Regression, Logistic|||Week 1 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.98|0.22|0.9292
92429035|NCT02609828|184746232|SUPERIORITY|||||||0.9565|||||||Regression, Logistic|||Week 1 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9565
92429036|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.88||||0.1429|TWO_SIDED|95.0|0.81|4.36|||Regression, Logistic|||Week 2 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.36|0.81|0.1429
92429037|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|5.19||||0.014||95.0|1.4|19.31|||Regression, Logistic|||Week 2 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||19.31|1.40|0.0140
92429038|NCT02609828|184746232|SUPERIORITY|||||||0.945|||||||Regression, Logistic|||Week 2 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9450
92429039|NCT02609828|184746232|SUPERIORITY|||||||0.9489|||||||Regression, Logistic|||Week 2 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9489
92429040|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.63||||0.1932|TWO_SIDED|95.0|0.78|3.39|||Regression, Logistic|||Week 4 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.39|0.78|0.1932
92429041|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0254|TWO_SIDED|95.0|1.15|8.74|||Regression, Logistic|||Week 4 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||8.74|1.15|0.0254
92429042|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|5.0||||0.0455|TWO_SIDED|95.0|1.03|24.16|||Regression, Logistic|||Week 4 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||24.16|1.03|0.0455
92429043|NCT02609828|184746232|SUPERIORITY|||||||0.9464|||||||Regression, Logistic|||Week 4 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9464
92429044|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0969|TWO_SIDED|95.0|0.9|3.72|||Regression, Logistic|||Week 6 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.72|0.90|0.0969
92429045|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|4.31||||0.0043|TWO_SIDED|95.0|1.58|11.74|||Regression, Logistic|||Week 6 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||11.74|1.58|0.0043
92429046|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|5.49||||0.0352|TWO_SIDED|95.0|1.13|26.75|||Regression, Logistic|||Week 6 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||26.75|1.13|0.0352
92236963|NCT00631488|184377913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.3|||<|0.001|TWO_SIDED|95.0|-14.1|-8.5|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+metformin provide greater reduction in 2-Hour Active GLP-1 Total AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants/group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Active GLP-1 Total AUC between any 2 treatment groups for a 2-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% CI for the between group difference.||-8.5|-14.1|<0.001
92236964|NCT00103194|184377914|SUPERIORITY_OR_OTHER||PSA response rate|0.0|||||TWO_SIDED|90.0|0.0|8.2||||||||8.2|0|
92236965|NCT00103194|184377915|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Mixed Models Analysis|The analysis is testing the null hypothesis that there is no difference between the pre-treatment and post-treatment PSA slopes.||||||0.006
92170866|NCT02539225|184230596|SUPERIORITY|||||||0.549|||||||Log Rank Stratified|||||||0.549
92236966|NCT03136705|184377918|SUPERIORITY||trend analysis|1.009||||0.3738|TWO_SIDED|95.0|0.989|1.031|||Mixed Models Analysis|||linear mixed model for repeated measures data||1.031|0.989|0.3738
92236967|NCT03136705|184377919|SUPERIORITY||trend analysis|0.0043||||0.854|TWO_SIDED|95.0|-0.0414|0.0499|||Mixed Models Analysis|||linear mixed model for repeated measures data||0.0499|-0.0414|0.854
92236968|NCT03136705|184377920|SUPERIORITY||trend analysis|20.38||||0.0648|TWO_SIDED|95.0|-1.26|42.03|||Mixed Models Analysis|||linear mixed model for repeated measures data||42.03|-1.26|0.0648
92429047|NCT02609828|184746232|SUPERIORITY|||||||0.9464|||||||Regression, Logistic|||Week 6 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9464
92429048|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.71||||0.1471|TWO_SIDED|95.0|0.83|3.52|||Regression, Logistic|||Week 8 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.52|0.83|0.1471
92429049|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0405|TWO_SIDED|95.0|1.04|6.22|||Regression, Logistic|||Week 8 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||6.22|1.04|0.0405
92429050|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|3.21||||0.0993|TWO_SIDED|95.0|0.8|12.83|||Regression, Logistic|||Week 8 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||12.83|0.80|0.0993
92429051|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|4.71||||0.1726|TWO_SIDED|95.0|0.51|43.64|||Regression, Logistic|||Week 8 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||43.64|0.51|0.1726
92429052|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0918|TWO_SIDED|95.0|0.91|3.74|||Regression, Logistic|||Week 12 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.74|0.91|0.0918
92429053|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0704|TWO_SIDED|95.0|0.94|4.82|||Regression, Logistic|||Week 12 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.82|0.94|0.0704
92429054|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.67||||0.3569|TWO_SIDED|95.0|0.56|5.01|||Regression, Logistic|||Week 12 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.01|0.56|0.3569
92429055|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|2.46||||0.3062|TWO_SIDED|95.0|0.44|13.79|||Regression, Logistic|||Week 12 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||13.79|0.44|0.3062
92429056|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.84||||0.1058|TWO_SIDED|95.0|0.88|3.85|||Regression, Logistic|||Week 16 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.85|0.88|0.1058
92429057|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.81||||0.1571|TWO_SIDED|95.0|0.79|4.14|||Regression, Logistic|||Week 16 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.14|0.79|0.1571
92429058|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.85||||0.2454|TWO_SIDED|95.0|0.65|5.24|||Regression, Logistic|||Week 16 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.24|0.65|0.2454
92429059|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|0.91||||0.8867|TWO_SIDED|95.0|0.24|3.46|||Regression, Logistic|||Week 16 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.46|0.24|0.8867
92429060|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0689|TWO_SIDED|95.0|0.95|4.21|||Regression, Logistic|||Week 24 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.21|0.95|0.0689
92236969|NCT01342640|184377941|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Change from baseline in mean Hb levels at Week 20 was analyzed using paired t-test.||||<0.0001
92429061|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0568|TWO_SIDED|95.0|0.98|5.44|||Regression, Logistic|||Week 24 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.44|0.98|0.0568
92170867|NCT02539225|184230597|SUPERIORITY|||||||0.548|||||||Log Rank Stratified|||||||0.548
92236970|NCT01342640|184377942|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Change from baseline in mean Hb levels at Week 24 was analyzed using paired t-test.||||<.0001
92236971|NCT01342640|184377943|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Change from baseline in mean Hb levels at Week 28 was analyzed using paired t-test.||||<.0001
92236972|NCT01703819|184378002|SUPERIORITY_OR_OTHER|||||||0.7726||||||Threshold less than or equal to 0.05. The final analysis demonstrated reasonable doubt of the implicit normality assumption of the two sets of AUC data, thus medians presented for efficacy analysis. Need for further investigation (ex-post analyses).|ANCOVA|||The null-hypotheses of no treatment differences were tested by the two-sided t-tests from the respective ANCOVAs.||||0.7726
92239813|NCT02042404|184383600|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||repeated measures ANOVA|||||||<0.0001
92429062|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|2.41||||0.1268|TWO_SIDED|95.0|0.78|7.46|||Regression, Logistic|||Week 24 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||7.46|0.78|0.1268
92429063|NCT02609828|184746232|SUPERIORITY||Odds Ratio (OR)|1.23||||0.7971|TWO_SIDED|95.0|0.25|6.0|||Regression, Logistic|||Week 24 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||6.00|0.25|0.7971
92429064|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6658|TWO_SIDED|95.0|0.43|3.7|||Regression, Logistic|||Week 1 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.70|0.43|0.6658
92429065|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|3.07||||0.3443|TWO_SIDED|95.0|0.3|31.35|||Regression, Logistic|||Week 1 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||31.35|0.30|0.3443
92429066|NCT02609828|184746233|SUPERIORITY|||||||0.9527|||||||Regression, Logistic|||Week 1 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9527
92429067|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.25||||0.0757|TWO_SIDED|95.0|0.92|5.5|||Regression, Logistic|||Week 2 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.50|0.92|0.0757
92429068|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|4.51||||0.0659|TWO_SIDED|95.0|0.91|22.42|||Regression, Logistic|||Week 2 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||22.42|0.91|0.0659
92429069|NCT02609828|184746233|SUPERIORITY|||||||0.938|||||||Regression, Logistic|||Week 2 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9380
92429070|NCT02609828|184746233|SUPERIORITY|||||||0.9493|||||||Regression, Logistic|||Week 2 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9493
92429071|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.02||||0.0914|TWO_SIDED|95.0|0.89|4.59|||Regression, Logistic|||Week 4 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.59|0.89|0.0914
92429072|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|3.22||||0.0359|TWO_SIDED|95.0|1.08|9.61|||Regression, Logistic|||Week 4 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||9.61|1.08|0.0359
92429073|NCT02609828|184746233|SUPERIORITY|||||||0.9538|||||||Regression, Logistic|||Week 4 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9538
92429074|NCT02609828|184746233|SUPERIORITY|||||||0.9493|||||||Regression, Logistic|||Week 4 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9493
92429075|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.66||||0.0143|TWO_SIDED|95.0|1.22|5.8|||Regression, Logistic|||Week 6 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.80|1.22|0.0143
92429076|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|4.2||||0.0176|TWO_SIDED|95.0|1.28|13.74|||Regression, Logistic|||Week 6 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||13.74|1.28|0.0176
92429077|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|3.53||||0.1298|TWO_SIDED|95.0|0.69|18.06|||Regression, Logistic|||Week 6 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||18.06|0.69|0.1298
92429078|NCT02609828|184746233|SUPERIORITY|||||||0.9493|||||||Regression, Logistic|||Week 6 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9493
92429079|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.15||||0.0527|TWO_SIDED|95.0|0.99|4.67|||Regression, Logistic|||Week 8 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.67|0.99|0.0527
92429080|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0457|TWO_SIDED|95.0|1.02|7.12|||Regression, Logistic|||Week 8 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||7.12|1.02|0.0457
92429081|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|3.91||||0.0994|TWO_SIDED|95.0|0.77|19.76|||Regression, Logistic|||Week 8 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||19.76|0.77|0.0994
92429082|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|0.65||||0.6977|TWO_SIDED|95.0|0.07|5.86|||Regression, Logistic|||Week 8 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.86|0.07|0.6977
92429083|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|1.76||||0.146|TWO_SIDED|95.0|0.82|3.75|||Regression, Logistic|||Week 12 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.75|0.82|0.1460
92429084|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.35||||0.0742|TWO_SIDED|95.0|0.92|6.01|||Regression, Logistic|||Week 12 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||6.01|0.92|0.0742
92429085|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|1.44||||0.5565|TWO_SIDED|95.0|0.42|4.91|||Regression, Logistic|||Week 12 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.91|0.42|0.5565
92429086|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|1.7||||0.5623|TWO_SIDED|95.0|0.28|10.35|||Regression, Logistic|||Week 12 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||10.35|0.28|0.5623
92429087|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.86||||0.0116|TWO_SIDED|95.0|1.27|6.47|||Regression, Logistic|||Week 16 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||6.47|1.27|0.0116
92429088|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.34||||0.0615|TWO_SIDED|95.0|0.96|5.7|||Regression, Logistic|||Week 16 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.70|0.96|0.0615
92429089|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|1.68||||0.3316|TWO_SIDED|95.0|0.59|4.8|||Regression, Logistic|||Week 16 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.80|0.59|0.3316
92429090|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9946|TWO_SIDED|95.0|0.19|5.33|||Regression, Logistic|||Week 16 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.33|0.19|0.9946
92236973|NCT01703819|184378003|SUPERIORITY_OR_OTHER|||||||0.5702||||||Threshold less than or equal to 0.05. The final analysis demonstrated reasonable doubt of the implicit normality assumption of the two sets of AUC data, thus medians presented for efficacy analysis. Need for further investigation (ex-post analyses).|ANCOVA|||The null-hypotheses of no treatment differences were tested by the two-sided t-tests from the respective ANCOV As.||||0.5702
92236974|NCT01849250|184378050|SUPERIORITY|||||||0.5|||||||ANCOVA|||||||.50
92236975|NCT01849250|184378053|SUPERIORITY|||||||0.19|||||||ANCOVA|||||||.19
92236976|NCT01849250|184378054|SUPERIORITY|||||||0.52|||||||ANOVA|||||||.52
92236977|NCT01849250|184378055|SUPERIORITY|||||||0.12|||||||ANCOVA|||||||.12
92239814|NCT02042404|184383601|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||repeated measures ANOVA|||||||<0.0001
92429091|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0083|TWO_SIDED|95.0|1.33|6.76|||Regression, Logistic|||Week 24 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||6.76|1.33|0.0083
92429092|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.42||||0.0513|TWO_SIDED|95.0|1.0|5.88|||Regression, Logistic|||Week 24 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.88|1.00|0.0513
92429093|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|2.48||||0.1528|TWO_SIDED|95.0|0.71|8.58|||Regression, Logistic|||Week 24 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||8.58|0.71|0.1528
92429094|NCT02609828|184746233|SUPERIORITY||Odds Ratio (OR)|1.41||||0.7251|TWO_SIDED|95.0|0.21|9.65|||Regression, Logistic|||Week 24 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||9.65|0.21|0.7251
92429095|NCT02609828|184746234|SUPERIORITY||Difference in LS mean|-0.04|STANDARD_ERROR_OF_MEAN|0.12||0.7045|TWO_SIDED|95.0|-0.28|0.19|||ANCOVA|||Change at Week 2: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline global assessment score, baseline average pain intensity at the index bone metastasis cancer pain site, and baseline opioid dose as covariates.||0.19|-0.28|0.7045
92429096|NCT02609828|184746234|SUPERIORITY||Difference in LS mean|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0402|TWO_SIDED|95.0|-0.59|-0.01|||ANCOVA|||Change at Week 4: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline global assessment score, baseline average pain intensity at the index bone metastasis cancer pain site, and baseline opioid dose as covariates.||-0.01|-0.59|0.0402
92429097|NCT02609828|184746234|SUPERIORITY||Difference in LS mean|-0.33|STANDARD_ERROR_OF_MEAN|0.17||0.0637|TWO_SIDED|95.0|-0.67|0.02|||ANCOVA|||Change at Week 8: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline global assessment score, baseline average pain intensity at the index bone metastasis cancer pain site, and baseline opioid dose as covariates.||0.02|-0.67|0.0637
92429098|NCT02609828|184746234|SUPERIORITY||Difference in LS mean|-0.16|STANDARD_ERROR_OF_MEAN|0.18||0.3804|TWO_SIDED|95.0|-0.53|0.2|||ANCOVA|||Change at Week 16: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline global assessment score, baseline average pain intensity at the index bone metastasis cancer pain site, and baseline opioid dose as covariates.||0.20|-0.53|0.3804
92429099|NCT02609828|184746234|SUPERIORITY||Difference in LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5894|TWO_SIDED|95.0|-0.47|0.27|||ANCOVA|||Change at Week 24: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline global assessment score, baseline average pain intensity at the index bone metastasis cancer pain site, and baseline opioid dose as covariates.||0.27|-0.47|0.5894
92429100|NCT02609828|184746235|SUPERIORITY||Odds Ratio (OR)|0.38||||0.2033|TWO_SIDED|95.0|0.09|1.69|||Regression, Logistic|||Week 2: Logistic regression model included baseline PGA-CP, baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||1.69|0.09|0.2033
92429101|NCT02609828|184746235|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7627|TWO_SIDED|95.0|0.41|3.41|||Regression, Logistic|||Week 4: Logistic regression model included baseline PGA-CP, baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.41|0.41|0.7627
92429102|NCT02609828|184746235|SUPERIORITY||Odds Ratio (OR)|1.23||||0.6894|TWO_SIDED|95.0|0.44|3.43|||Regression, Logistic|||Week 8: Logistic regression model included baseline PGA-CP, baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.43|0.44|0.6894
92429103|NCT02609828|184746235|SUPERIORITY||Odds Ratio (OR)|1.34||||0.5905|TWO_SIDED|95.0|0.47|3.83|||Regression, Logistic|||Week 16: Logistic regression model included baseline PGA-CP, baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.83|0.47|0.5905
92429104|NCT02609828|184746235|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8354|TWO_SIDED|95.0|0.38|3.35|||Regression, Logistic|||Week 24: Logistic regression model included baseline PGA-CP, baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.35|0.38|0.8354
92429105|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|-0.05|STANDARD_ERROR_OF_MEAN|0.22||0.8069|TWO_SIDED|95.0|-0.49|0.38|||Mixed Models Analysis|||Week 2 Frequency Composite Score: Mixed model for repeated measurements (MMRM) model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS frequency scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.38|-0.49|0.8069
92429106|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.06|STANDARD_ERROR_OF_MEAN|0.17||0.7127|TWO_SIDED|95.0|-0.28|0.41|||Mixed Models Analysis|||Week 4 Frequency Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS frequency scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.41|-0.28|0.7127
92429107|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|-0.17|STANDARD_ERROR_OF_MEAN|0.2||0.3933|TWO_SIDED|95.0|-0.57|0.23|||Mixed Models Analysis|||Week 8 Frequency Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS frequency scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.23|-0.57|0.3933
92429108|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.5869|TWO_SIDED|95.0|-0.71|0.41|||Mixed Models Analysis|||Week 16 Frequency Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS frequency scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.41|-0.71|0.5869
92429109|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|-0.42|STANDARD_ERROR_OF_MEAN|0.3||0.1814|TWO_SIDED|95.0|-1.05|0.21|||Mixed Models Analysis|||Week 24 Frequency Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS frequency scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.21|-1.05|0.1814
92429110|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.16|STANDARD_ERROR_OF_MEAN|0.15||0.2822|TWO_SIDED|95.0|-0.14|0.46|||Mixed Models Analysis|||Week 2 Severity Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS severity scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.46|-0.14|0.2822
92429111|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.09|STANDARD_ERROR_OF_MEAN|0.16||0.5795|TWO_SIDED|95.0|-0.23|0.41|||Mixed Models Analysis|||Week 4 Severity Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS severity scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.41|-0.23|0.5795
92429112|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.16||0.5486|TWO_SIDED|95.0|-0.42|0.22|||Mixed Models Analysis|||Week 8 Severity Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS severity scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.22|-0.42|0.5486
92429113|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.22||0.3692|TWO_SIDED|95.0|-0.24|0.63|||Mixed Models Analysis|||Week 16 Severity Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS severity scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.63|-0.24|0.3692
92170868|NCT02539225|184230598|SUPERIORITY||Odds Ratio (OR)|1.374||||0.402|TWO_SIDED|80.0|0.844|2.236|||Cochran-Mantel-Haenszel|||||2.236|0.844|0.402
92279616|NCT02308111|184462686|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.599|TWO_SIDED|95.0|0.42|1.67||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||1.67|0.42|0.599
92429114|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.17|STANDARD_ERROR_OF_MEAN|0.23||0.4724|TWO_SIDED|95.0|-0.3|0.63|||Mixed Models Analysis|||Week 24 Severity Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS severity scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.63|-0.30|0.4724
92429115|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.17|STANDARD_ERROR_OF_MEAN|0.23||0.477|TWO_SIDED|95.0|-0.3|0.64|||Mixed Models Analysis|||Week 2 Distress Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS distress scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.64|-0.30|0.4770
92429116|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.9791|TWO_SIDED|95.0|-0.38|0.37|||Mixed Models Analysis|||Week 4 Distress Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS distress scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.37|-0.38|0.9791
92429117|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.23|STANDARD_ERROR_OF_MEAN|0.25||0.3574|TWO_SIDED|95.0|-0.27|0.74|||Mixed Models Analysis|||Week 8 Distress Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS distress scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.74|-0.27|0.3574
92170869|NCT02539225|184230599|SUPERIORITY||Odds Ratio (OR)|1.527||||0.501|TWO_SIDED|80.0|0.68|3.433|||Cochran-Mantel-Haenszel|||||3.433|0.680|0.501
92236978|NCT02285010|184378096|NON_INFERIORITY|Definition: 50% reduction of morphine consumption Type I error (alpha) 0.05, Type II error (beta) 80%||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
92236979|NCT02285010|184378097|NON_INFERIORITY|Alpha 0.05, Beta 80%||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.10
92236980|NCT02285010|184378098|NON_INFERIORITY|alpha 0.05, beta 80%||||||0.33|||||||Wilcoxon (Mann-Whitney)|||for NRS at rest||||0.33
92236981|NCT02285010|184378098|NON_INFERIORITY|alpha 0.05, beta 80%||||||0.75|||||||Wilcoxon (Mann-Whitney)|||for NRS at movement||||0.75
92429118|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.17|STANDARD_ERROR_OF_MEAN|0.29||0.5607|TWO_SIDED|95.0|-0.77|0.42|||Mixed Models Analysis|||Week 16 Distress Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS distress scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.42|-0.77|0.5607
92429119|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.7143|TWO_SIDED|95.0|-0.68|0.47|||Mixed Models Analysis|||Week 24 Distress Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS distress scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.47|-0.68|0.7143
92429120|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.09|STANDARD_ERROR_OF_MEAN|0.18||0.6381|TWO_SIDED|95.0|-0.28|0.45|||Mixed Models Analysis|||Week 2 MDA Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS MDA scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.45|-0.28|0.6381
92429121|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|0.06|STANDARD_ERROR_OF_MEAN|0.15||0.7181|TWO_SIDED|95.0|-0.25|0.37|||Mixed Models Analysis|||Week 4 MDA Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS MDA scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.37|-0.25|0.7181
92429122|NCT02609828|184746238|SUPERIORITY||Difference in least square (LS) mean|-0.04|STANDARD_ERROR_OF_MEAN|0.17||0.8378|TWO_SIDED|95.0|-0.38|0.31|||Mixed Models Analysis|||Week 8 MDA Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS MDA scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.31|-0.38|0.8378
92429123|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|-0.06|STANDARD_ERROR_OF_MEAN|0.23||0.795|TWO_SIDED|95.0|-0.52|0.4|||Mixed Models Analysis|||Week 16 MDA Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS MDA scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.40|-0.52|0.7950
92429124|NCT02609828|184746238|SUPERIORITY||Difference in LS mean|-0.11|STANDARD_ERROR_OF_MEAN|0.25||0.6719|TWO_SIDED|95.0|-0.62|0.4|||Mixed Models Analysis|||Week 24 MDA Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS MDA scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.40|-0.62|0.6719
92170870|NCT00212134|184230603|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
92170871|NCT00212134|184230604|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
92170872|NCT00212134|184230605|OTHER|||||||0.82|||||||Chi-squared|||||||0.82
92236982|NCT02285010|184378099|NON_INFERIORITY|alpha 0.05, beta 80%||||||0.16|||||||Chi-squared|||For pruritus||||0.16
92236983|NCT02285010|184378099|NON_INFERIORITY|Alpha 0.05, beta 80%||||||0.66|||||||Chi-squared|||For Nausea||||0.66
92236984|NCT02285010|184378099|NON_INFERIORITY|alpha 0.05, beta 80%||||||0.46|||||||Chi-squared|||For Vomiting||||0.46
92236985|NCT02285010|184378099|NON_INFERIORITY|Alpha 0.05, beta 80%||||||0.54|||||||Chi-squared|||For Dizziness||||0.54
92236986|NCT02285010|184378099|NON_INFERIORITY|Alpha 0.05, beta 80%||||||0.05|||||||Chi-squared|||For visual disturbance||||0.05
92429125|NCT01517711|184746250|SUPERIORITY_OR_OTHER_LEGACY|||||||0.286||||||P value is for overall post-randomization CAPS score|ANOVA|||Women were excluded from analysis because of the small sample size and unequal distribution across groups.||||0.286
92429126|NCT01517711|184746251|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.1|||||||ANOVA|||||||<0.10
92429127|NCT01517711|184746252|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.03|||||||ANOVA|||Analysis is for sleep only (men)||||=0.03
92429128|NCT01786668|184746254|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.8|||||TWO_SIDED|95.0|5.0|30.3|||Emax Model|||Emax model - 95% Confidence Interval represents 95% Credible Interval||30.3|5.0|
92429129|NCT01786668|184746254|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.9|||||TWO_SIDED|95.0|8.4|37.7|||Emax Model|||Emax model - 95% Confidence Interval represents 95% Credible Interval||37.7|8.4|
92429130|NCT01786668|184746254|SUPERIORITY_OR_OTHER||Risk Difference (RD)|27.3|||||TWO_SIDED|95.0|10.7|43.4|||Emax Model|||Emax model - 95% Confidence Interval represents 95% Credible Interval||43.4|10.7|
92429131|NCT01786668|184746255|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.75|STANDARD_ERROR_OF_MEAN|9.77||0.271|TWO_SIDED|95.0|-8.41|29.9|||Normal approximation for two proportions|||||29.90|-8.41|0.271
92236987|NCT02285010|184378100|NON_INFERIORITY|Alpha 0.05, beta 80%||||||0.05||||||P-Value 0.05 was calculated.|Chi-squared|||||||0.05
92236988|NCT03245814|184378103|SUPERIORITY||Odds Ratio (OR)|0.22|||<|0.001|TWO_SIDED|95.0|0.12|0.42|||Ordinal cumulative probability model|Covariates included baseline score \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.42|0.12|<.001
92429132|NCT01786668|184746255|SUPERIORITY_OR_OTHER||Risk Difference (RD)|39.59|STANDARD_ERROR_OF_MEAN|8.8|<|0.001|TWO_SIDED|95.0|22.35|56.83|||Normal approximation for two proportions|||||56.83|22.35|<0.001
92236989|NCT03245814|184378104|SUPERIORITY||Odds Ratio (OR)|0.21|||<|0.001|TWO_SIDED|95.0|0.11|0.4|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.40|0.11|<.001
92236990|NCT03245814|184378105|SUPERIORITY||Odds Ratio (OR)|0.45||||0.02|TWO_SIDED|95.0|0.23|0.86|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.86|0.23|.02
92429133|NCT01786668|184746255|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.59|STANDARD_ERROR_OF_MEAN|9.74||0.134|TWO_SIDED|95.0|-4.5|33.69|||Normal approximation for two proportions|||||33.69|-4.50|0.134
92429134|NCT01786668|184746256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.93|STANDARD_ERROR_OF_MEAN|9.24||0.162|TWO_SIDED|95.0|-5.17|31.04|||Normal approximation for two proportions|||Week 2||31.04|-5.17|0.162
92429135|NCT01786668|184746256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.24|STANDARD_ERROR_OF_MEAN|9.02||0.561|TWO_SIDED|95.0|-12.44|22.92|||Normal approximation for two proportions|||Week 2||22.92|-12.44|0.561
92429136|NCT01786668|184746256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.16|STANDARD_ERROR_OF_MEAN|9.09||0.43|TWO_SIDED|95.0|-10.65|24.97|||Normal approximation for two proportions|||Week 2||24.97|-10.65|0.430
92429137|NCT01786668|184746256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.74|STANDARD_ERROR_OF_MEAN|9.57||0.123|TWO_SIDED|95.0|-4.01|33.5|||Normal approximation for two proportions|||Week 4||33.50|-4.01|0.123
92429138|NCT01786668|184746256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.44|STANDARD_ERROR_OF_MEAN|9.54||0.019|TWO_SIDED|95.0|3.74|41.13|||Normal approximation for two proportions|||Week 4||41.13|3.74|0.019
92429139|NCT01786668|184746256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.74|STANDARD_ERROR_OF_MEAN|9.57||0.123|TWO_SIDED|95.0|-4.01|33.5|||Normal approximation for two proportions|||Week 4||33.50|-4.01|0.123
92429140|NCT01786668|184746256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.56|STANDARD_ERROR_OF_MEAN|9.75||0.135|TWO_SIDED|95.0|-4.55|33.66|||Normal approximation for two proportions|||Week 8||33.66|-4.55|0.135
92429141|NCT01786668|184746256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|28.02|STANDARD_ERROR_OF_MEAN|9.36||0.003|TWO_SIDED|95.0|9.68|46.36|||Normal approximation for two proportions|||Week 8||46.36|9.68|0.003
92429142|NCT01786668|184746256|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.71|STANDARD_ERROR_OF_MEAN|9.79||0.274|TWO_SIDED|95.0|-8.48|29.9|||Normal approximation for two proportions|||Week 8||29.90|-8.48|0.274
92429143|NCT01786668|184746257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|STANDARD_ERROR_OF_MEAN|1.123||0.427|TWO_SIDED|95.0|-3.11|1.32|||ANCOVA|||||1.32|-3.11|0.427
92236991|NCT03245814|184378106|SUPERIORITY||Odds Ratio (OR)|0.25|||<|0.001|TWO_SIDED|95.0|0.13|0.5|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.50|0.13|<.001
92236992|NCT03245814|184378107|SUPERIORITY||Odds Ratio (OR)|0.34||||0.001|TWO_SIDED|95.0|0.18|0.64|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.64|0.18|.001
92429144|NCT01786668|184746257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35|STANDARD_ERROR_OF_MEAN|1.13||0.039|TWO_SIDED|95.0|-4.58|-0.12|||ANCOVA|||||-0.12|-4.58|0.039
92429145|NCT01786668|184746257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74|STANDARD_ERROR_OF_MEAN|1.131||0.016|TWO_SIDED|95.0|-4.97|-0.51|||ANCOVA|||||-0.51|-4.97|0.016
92429146|NCT01786668|184746258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|1.517||0.05|TWO_SIDED|95.0|-5.99|0.0|||ANCOVA|||||-0.00|-5.99|0.050
92429147|NCT01786668|184746258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.42|STANDARD_ERROR_OF_MEAN|1.52|<|0.001|TWO_SIDED|95.0|-8.42|-2.42|||ANCOVA|||||-2.42|-8.42|<0.001
92429148|NCT01786668|184746258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.47|STANDARD_ERROR_OF_MEAN|1.525|<|0.001|TWO_SIDED|95.0|-9.48|-3.46|||ANCOVA|||||-3.46|-9.48|<0.001
92429149|NCT01786668|184746259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.52||0.221|TWO_SIDED|95.0|-1.66|0.39|||ANCOVA|||||0.39|-1.66|0.221
92429150|NCT01786668|184746259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|-2.83|-0.78|||ANCOVA|||||-0.78|-2.83|<0.001
92429151|NCT01786668|184746259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|0.523||0.001|TWO_SIDED|95.0|-2.75|-0.68|||ANCOVA|||||-0.68|-2.75|0.001
92429152|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.22|STANDARD_ERROR_OF_MEAN|6.95||0.749|TWO_SIDED|95.0|-15.85|11.4|||Normal approximation for two proportions|||Week 2||11.40|-15.85|0.749
92429153|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.22|STANDARD_ERROR_OF_MEAN|6.95||0.749|TWO_SIDED|95.0|-15.85|11.4|||Normal approximation for two proportions|||Week 2||11.40|-15.85|0.749
92429154|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.62|STANDARD_ERROR_OF_MEAN|7.31||0.824|TWO_SIDED|95.0|-12.71|15.95|||Normal approximation for two proportions|||Week 2||15.95|-12.71|0.824
92429155|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.16|STANDARD_ERROR_OF_MEAN|8.09||0.104|TWO_SIDED|95.0|-2.69|29.01|||Normal approximation for two proportions|||Week 4||29.01|-2.69|0.104
92429156|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.01|STANDARD_ERROR_OF_MEAN|8.26||0.04|TWO_SIDED|95.0|0.81|33.2|||Normal approximation for two proportions|||Week 4||33.20|0.81|0.040
92429157|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.47|STANDARD_ERROR_OF_MEAN|7.62||0.473|TWO_SIDED|95.0|-9.46|20.4|||Normal approximation for two proportions|||Week 4||20.40|-9.46|0.473
92429158|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.4|STANDARD_ERROR_OF_MEAN|8.86||0.875|TWO_SIDED|95.0|-15.97|18.76|||Normal approximation for two proportions|||Week 8||18.76|-15.97|0.875
92429159|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.16|STANDARD_ERROR_OF_MEAN|9.09||0.43|TWO_SIDED|95.0|-10.65|24.97|||Normal approximation for two proportions|||Week 8||24.97|-10.65|0.430
92429160|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.09|STANDARD_ERROR_OF_MEAN|9.15||0.32|TWO_SIDED|95.0|-8.84|27.01|||Normal approximation for two proportions|||Week 8||27.01|-8.84|0.320
92429161|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.7|STANDARD_ERROR_OF_MEAN|8.82||0.01|TWO_SIDED|95.0|5.41|39.99|||Normal approximation for two proportions|||Week 12||39.99|5.41|0.010
92236993|NCT03245814|184378108|SUPERIORITY||Odds Ratio (OR)|2.83||||0.003|TWO_SIDED|95.0|1.47|5.45|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||5.45|1.47|.003
92429162|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.55|STANDARD_ERROR_OF_MEAN|8.87||0.003|TWO_SIDED|95.0|9.16|43.93|||Normal approximation for two proportions|||Week 12||43.93|9.16|0.003
92429163|NCT01786668|184746260|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.85|STANDARD_ERROR_OF_MEAN|8.74||0.031|TWO_SIDED|95.0|1.72|35.99|||Normal approximation for two proportions|||Week 12||35.99|1.72|0.031
92429164|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.23|STANDARD_ERROR_OF_MEAN|6.95||0.028|TWO_SIDED|95.0|1.61|28.86|||Normal approximation for two proportions|||Week 2||28.86|1.61|0.028
92429165|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.62|STANDARD_ERROR_OF_MEAN|6.05||0.353|TWO_SIDED|95.0|-6.23|17.47|||Normal approximation for two proportions|||Week 2||17.47|-6.23|0.353
92429166|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.31|STANDARD_ERROR_OF_MEAN|6.8||0.05|TWO_SIDED|95.0|-0.02|26.64|||Normal approximation for two proportions|||Week 2||26.64|-0.02|0.050
92429167|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.39|STANDARD_ERROR_OF_MEAN|6.64||0.086|TWO_SIDED|95.0|-1.62|24.39|||Normal approximation for two proportions|||Week 4||24.39|-1.62|0.086
92429168|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.93|STANDARD_ERROR_OF_MEAN|7.43||0.002|TWO_SIDED|95.0|8.37|37.48|||Normal approximation for two proportions|||Week 4||37.48|8.37|0.002
92429169|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.0|STANDARD_ERROR_OF_MEAN|7.32||0.004|TWO_SIDED|95.0|6.65|35.36|||Normal approximation for two proportions|||Week 4||35.36|6.65|0.004
92429170|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.35|STANDARD_ERROR_OF_MEAN|7.03||0.106|TWO_SIDED|95.0|-2.43|25.13|||Normal approximation for two proportions|||Week 8||25.13|-2.43|0.106
92429171|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|32.5|STANDARD_ERROR_OF_MEAN|8.02|<|0.001|TWO_SIDED|95.0|16.79|48.22|||Normal approximation for two proportions|||Week 8||48.22|16.79|<0.001
92429172|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|19.04|STANDARD_ERROR_OF_MEAN|7.54||0.012|TWO_SIDED|95.0|4.27|33.81|||Normal approximation for two proportions|||Week 8||33.81|4.27|0.012
92429173|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.54|STANDARD_ERROR_OF_MEAN|7.47||0.635|TWO_SIDED|95.0|-11.1|18.19|||Normal approximation for two proportions|||Week 12||18.19|-11.10|0.635
92429174|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|34.31|STANDARD_ERROR_OF_MEAN|8.6|<|0.001|TWO_SIDED|95.0|17.45|51.18|||Normal approximation for two proportions|||Week 12||51.18|17.45|<0.001
92429175|NCT01786668|184746261|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.78|STANDARD_ERROR_OF_MEAN|8.45||0.007|TWO_SIDED|95.0|6.21|39.34|||Normal approximation for two proportions|||Week 12||39.34|6.21|0.007
92429176|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.136||0.175|TWO_SIDED|95.0|-0.46|0.08|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.08|-0.46|0.175
92429177|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.136|<|0.001|TWO_SIDED|95.0|-0.77|-0.24|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||-0.24|-0.77|<0.001
92429178|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.136|<|0.001|TWO_SIDED|95.0|-0.74|-0.2|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||-0.20|-0.74|<0.001
92429179|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.141||0.003|TWO_SIDED|95.0|-0.7|-0.15|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.15|-0.70|0.003
92429180|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.141|<|0.001|TWO_SIDED|95.0|-0.9|-0.34|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.34|-0.90|<0.001
92429181|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.141|<|0.001|TWO_SIDED|95.0|-0.86|-0.31|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.31|-0.86|<0.001
92429182|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.158||0.026|TWO_SIDED|95.0|-0.66|-0.04|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||-0.04|-0.66|0.026
92429183|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.157|<|0.001|TWO_SIDED|95.0|-0.94|-0.32|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||-0.32|-0.94|<0.001
92236994|NCT03245814|184378109|SUPERIORITY||Odds Ratio (OR)|0.24|||<|0.001|TWO_SIDED|95.0|0.12|0.48|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.48|0.12|<.001
92429184|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.159|<|0.001|TWO_SIDED|95.0|-0.9|-0.27|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||-0.27|-0.90|<0.001
92239815|NCT02042404|184383602|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||repeated measures ANOVA|||||||<0.0001
92236995|NCT03245814|184378110|SUPERIORITY||Odds Ratio (OR)|3.84|||<|0.001|TWO_SIDED|95.0|2.0|7.38|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||7.38|2.00|<.001
92236996|NCT03245814|184378111|SUPERIORITY||Odds Ratio (OR)|4.49|||<|0.001|TWO_SIDED|95.0|2.28|8.83|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||8.83|2.28|<.001
92279617|NCT02308111|184462687|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.745|TWO_SIDED|95.0|0.18|3.43||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||3.43|0.18|0.745
92429185|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.171||0.002|TWO_SIDED|95.0|-0.89|-0.21|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.21|-0.89|0.002
92429186|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.171|<|0.001|TWO_SIDED|95.0|-1.07|-0.39|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.39|-1.07|<0.001
92429187|NCT01786668|184746262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.172|<|0.001|TWO_SIDED|95.0|-1.03|-0.35|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.35|-1.03|<0.001
92429188|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.24|STANDARD_ERROR_OF_MEAN|7.99||0.159|TWO_SIDED|95.0|-4.41|26.89|||Normal approximation for two proportions|||Week 2||26.89|-4.41|0.159
92429189|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|32.39|STANDARD_ERROR_OF_MEAN|8.6|<|0.001|TWO_SIDED|95.0|15.54|49.24|||Normal approximation for two proportions|||Week 2||49.24|15.54|<0.001
92429190|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|24.7|STANDARD_ERROR_OF_MEAN|8.5||0.004|TWO_SIDED|95.0|8.04|41.36|||Normal approximation for two proportions|||Week 2||41.36|8.04|0.004
92429191|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.7|STANDARD_ERROR_OF_MEAN|8.82||0.01|TWO_SIDED|95.0|5.41|39.99|||Normal approximation for two proportions|||Week 4||39.99|5.41|0.010
92429192|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|38.08|STANDARD_ERROR_OF_MEAN|8.82|<|0.001|TWO_SIDED|95.0|20.79|55.38|||Normal approximation for two proportions|||Week 4||55.38|20.79|<0.001
92429193|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|32.32|STANDARD_ERROR_OF_MEAN|8.88|<|0.001|TWO_SIDED|95.0|14.9|49.73|||Normal approximation for two proportions|||Week 4||49.73|14.90|<0.001
92429194|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.82|STANDARD_ERROR_OF_MEAN|9.39||0.114|TWO_SIDED|95.0|-3.58|33.22|||Normal approximation for two proportions|||Week 8||33.22|-3.58|0.114
92429195|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|30.2|STANDARD_ERROR_OF_MEAN|9.33||0.001|TWO_SIDED|95.0|11.92|48.49|||Normal approximation for two proportions|||Week 8||48.49|11.92|0.001
92429196|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|30.2|STANDARD_ERROR_OF_MEAN|9.33||0.001|TWO_SIDED|95.0|11.92|48.49|||Normal approximation for two proportions|||Week 8||48.49|11.92|0.001
92429197|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|24.47|STANDARD_ERROR_OF_MEAN|9.33||0.009|TWO_SIDED|95.0|6.18|42.76|||Normal approximation for two proportions|||Week 12||42.76|6.18|0.009
92429198|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|36.01|STANDARD_ERROR_OF_MEAN|9.15|<|0.001|TWO_SIDED|95.0|18.09|53.94|||Normal approximation for two proportions|||Week 12||53.94|18.09|<0.001
92236997|NCT03245814|184378112|SUPERIORITY||Odds Ratio (OR)|3.73|||<|0.001|TWO_SIDED|95.0|1.88|7.4|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||7.40|1.88|<.001
92429199|NCT01786668|184746263|SUPERIORITY_OR_OTHER||Risk Difference (RD)|28.32|STANDARD_ERROR_OF_MEAN|9.3||0.002|TWO_SIDED|95.0|10.09|46.55|||Normal approximation for two proportions|||Week 12||46.55|10.09|0.002
92429200|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.73|STANDARD_ERROR_OF_MEAN|4.17||0.17|TWO_SIDED|95.0|-2.45|13.91|||Normal approximation for two proportions|||Week 2||13.91|-2.45|0.170
92429201|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.73|STANDARD_ERROR_OF_MEAN|4.17||0.17|TWO_SIDED|95.0|-2.45|13.91|||Normal approximation for two proportions|||Week 2||13.91|-2.45|0.170
92429202|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.73|STANDARD_ERROR_OF_MEAN|4.17||0.17|TWO_SIDED|95.0|-2.45|13.91|||Normal approximation for two proportions|||Week 2||13.91|-2.45|0.170
92429203|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.66|STANDARD_ERROR_OF_MEAN|5.52||0.306|TWO_SIDED|95.0|-5.17|16.48|||Normal approximation for two proportions|||Week 4||16.48|-5.17|0.306
92429204|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.66|STANDARD_ERROR_OF_MEAN|5.52||0.306|TWO_SIDED|95.0|-5.17|16.48|||Normal approximation for two proportions|||Week 4||16.48|-5.17|0.306
92429205|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.5|STANDARD_ERROR_OF_MEAN|5.99||0.113|TWO_SIDED|95.0|-2.24|21.24|||Normal approximation for two proportions|||Week 4||21.24|-2.24|0.113
92429206|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.73|STANDARD_ERROR_OF_MEAN|6.08||0.775|TWO_SIDED|95.0|-10.18|13.65|||Normal approximation for two proportions|||Week 8||13.65|-10.18|0.775
92429207|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.12|STANDARD_ERROR_OF_MEAN|7.43||0.021|TWO_SIDED|95.0|2.56|31.68|||Normal approximation for two proportions|||Week 8||31.68|2.56|0.021
92429208|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.27|STANDARD_ERROR_OF_MEAN|7.17||0.064|TWO_SIDED|95.0|-0.79|27.34|||Normal approximation for two proportions|||Week 8||27.34|-0.79|0.064
92236998|NCT03245814|184378113|SUPERIORITY||Odds Ratio (OR)|2.33||||0.02|TWO_SIDED|95.0|1.22|4.47|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||4.47|1.22|.02
92236999|NCT03245814|184378114|SUPERIORITY||Odds Ratio (OR)|0.39||||0.009|TWO_SIDED|95.0|0.2|0.75|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.75|0.20|.009
92237000|NCT03245814|184378115|SUPERIORITY||Slope|0.42|STANDARD_ERROR_OF_MEAN|0.14||0.002|TWO_SIDED||||||Mixed Models Analysis|Mixed effects regression models to account for repeated measures (multiple assessments per day) within individuals.||||||0.002
92429209|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.47|STANDARD_ERROR_OF_MEAN|7.09||0.292|TWO_SIDED|95.0|-6.42|21.36|||Normal approximation for two proportions|||Week 12||21.36|-6.42|0.292
92429210|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.31|STANDARD_ERROR_OF_MEAN|7.38||0.125|TWO_SIDED|95.0|-3.16|25.78|||Normal approximation for two proportions|||Week 12||25.78|-3.16|0.125
92429211|NCT01786668|184746264|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.24|STANDARD_ERROR_OF_MEAN|7.51||0.078|TWO_SIDED|95.0|-1.49|27.96|||Normal approximation for two proportions|||Week 12||27.96|-1.49|0.078
92429212|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.92|STANDARD_ERROR_OF_MEAN|1.9||0.313|TWO_SIDED|95.0|-1.81|5.66|||Normal approximation for two proportions|||Week 2||5.66|-1.81|0.313
92429213|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.92|STANDARD_ERROR_OF_MEAN|1.9||0.313|TWO_SIDED|95.0|-1.81|5.66|||Normal approximation for two proportions|||Week 2||5.66|-1.81|0.313
92429214|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.92|STANDARD_ERROR_OF_MEAN|1.9||0.313|TWO_SIDED|95.0|-1.81|5.66|||Normal approximation for two proportions|||Week 2||5.66|-1.81|0.313
92237001|NCT01164501|184378123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.62|-0.39||Hierarchical testing to adjust for multiple comparisons, no adjustment in p-values. Empa 25 mg versus placebo in mild or moderate renal impaired patients was the first step in the hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal impairment and baseline HbA1c.|Difference calculated as empa 25mg minus placebo|||-0.39|-0.62|<0.0001
92429215|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.04|STANDARD_ERROR_OF_MEAN|2.72||0.989|TWO_SIDED|95.0|-5.37|5.29|||Normal approximation for two proportions|||Week 4||5.29|-5.37|0.989
92429216|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.81|STANDARD_ERROR_OF_MEAN|3.77||0.313|TWO_SIDED|95.0|-3.58|11.2|||Normal approximation for two proportions|||Week 4||11.20|-3.58|0.313
92429217|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.73|STANDARD_ERROR_OF_MEAN|4.17||0.17|TWO_SIDED|95.0|-2.45|13.91|||Normal approximation for two proportions|||Week 4||13.91|-2.45|0.170
92429218|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.81|STANDARD_ERROR_OF_MEAN|3.77||0.313|TWO_SIDED|95.0|-3.58|11.2|||Normal approximation for two proportions|||Week 8||11.20|-3.58|0.313
92429219|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|2.72||0.989|TWO_SIDED|95.0|-5.37|5.29|||Normal approximation for two proportions|||Week 8||5.29|-5.37|0.989
92429220|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.65|STANDARD_ERROR_OF_MEAN|4.53||0.091|TWO_SIDED|95.0|-1.22|16.52|||Normal approximation for two proportions|||Week 8||16.52|-1.22|0.091
92429221|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.62|STANDARD_ERROR_OF_MEAN|6.05||0.353|TWO_SIDED|95.0|-6.23|17.47|||Normal approximation for two proportions|||Week 12||17.47|-6.23|0.353
92429222|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.62|STANDARD_ERROR_OF_MEAN|6.05||0.353|TWO_SIDED|95.0|-6.23|17.47|||Normal approximation for two proportions|||Week 12||17.47|-6.23|0.353
92429223|NCT01786668|184746265|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.54|STANDARD_ERROR_OF_MEAN|6.26||0.228|TWO_SIDED|95.0|-4.73|19.81|||Normal approximation for two proportions|||Week 12||19.81|-4.73|0.228
92429224|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.31||0.926|TWO_SIDED|95.0|-0.64|0.58|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.58|-0.64|0.926
92429225|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.308||0.718|TWO_SIDED|95.0|-0.72|0.5|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.50|-0.72|0.718
92429226|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.31||0.57|TWO_SIDED|95.0|-0.43|0.79|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.79|-0.43|0.570
92237002|NCT01164501|184378124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.72|-0.32||Hierarchical testing to adjust for multiple comparisons, no adjustment in p-values. Empa 25 mg versus placebo in mild renal impaired patients was the second step in the hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication and baseline HbA1c.|Difference calculated as empa 10mg minus placebo|||-0.32|-0.72|<0.0001
92429227|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.343||0.384|TWO_SIDED|95.0|-0.97|0.38|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.38|-0.97|0.384
92170873|NCT00212134|184230606|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.03
92429228|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.341||0.334|TWO_SIDED|95.0|-1.0|0.34|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.34|-1.00|0.334
92429229|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.343||0.474|TWO_SIDED|95.0|-0.92|0.43|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.43|-0.92|0.474
92237003|NCT01164501|184378124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.88|-0.49||Hierarchical testing to adjust for multiple comparisons, no adjustment in p-values. Empa 10 mg versus placebo in mild renal impaired patients was the third step in the hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication and baseline HbA1c.|Difference calculated as empa 25mg minus placebo|||-0.49|-0.88|<0.0001
92237004|NCT01164501|184378125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.56|-0.28||Hierarchical testing to adjust for multiple comparisons, no adjustment in p-values. Empa 10 mg versus placebo in moderate renal impaired patients was the fourth step in the hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication and baseline HbA1c.|Difference calculated as empa 25mg minus placebo|||-0.28|-0.56|<0.0001
92237005|NCT01096667|184378129|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.97||||0.034|TWO_SIDED|80.0|-5.05|-0.89||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.89|-5.05|0.034
92429230|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.381||0.445|TWO_SIDED|95.0|-1.04|0.46|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.46|-1.04|0.445
92429231|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.38||0.174|TWO_SIDED|95.0|-1.27|0.23|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.23|-1.27|0.174
92429232|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.383||0.217|TWO_SIDED|95.0|-1.23|0.28|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.28|-1.23|0.217
92429233|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.396||0.024|TWO_SIDED|95.0|-1.69|-0.12|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.12|-1.69|0.024
92429234|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.396||0.01|TWO_SIDED|95.0|-1.81|-0.24|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.24|-1.81|0.010
92429235|NCT01786668|184746266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.399||0.038|TWO_SIDED|95.0|-1.62|-0.04|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.04|-1.62|0.038
92429236|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.15|STANDARD_ERROR_OF_MEAN|6.75||0.539|TWO_SIDED|95.0|-17.38|9.08|||Normal approximation for two proportions|||Week 2||9.08|-17.38|0.539
92429237|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.47|STANDARD_ERROR_OF_MEAN|7.62||0.473|TWO_SIDED|95.0|-9.46|20.4|||Normal approximation for two proportions|||Week 2||20.40|-9.46|0.473
92429238|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.22|STANDARD_ERROR_OF_MEAN|6.95||0.749|TWO_SIDED|95.0|-15.85|11.4|||Normal approximation for two proportions|||Week 2||11.40|-15.85|0.749
92429239|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.28|STANDARD_ERROR_OF_MEAN|8.52||0.393|TWO_SIDED|95.0|-9.43|23.98|||Normal approximation for two proportions|||Week 4||23.98|-9.43|0.393
92429240|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.51|STANDARD_ERROR_OF_MEAN|8.2||0.854|TWO_SIDED|95.0|-14.57|17.59|||Normal approximation for two proportions|||Week 4||17.59|-14.57|0.854
92429241|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.28|STANDARD_ERROR_OF_MEAN|8.52||0.393|TWO_SIDED|95.0|-9.43|23.98|||Normal approximation for two proportions|||Week 4||23.98|-9.43|0.393
92429242|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.16|STANDARD_ERROR_OF_MEAN|9.09||0.43|TWO_SIDED|95.0|-10.65|24.97|||Normal approximation for two proportions|||Week 8||24.97|-10.65|0.430
92429243|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.24|STANDARD_ERROR_OF_MEAN|9.02||0.561|TWO_SIDED|95.0|-12.44|22.92|||Normal approximation for two proportions|||Week 8||22.92|-12.44|0.561
92429244|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.93|STANDARD_ERROR_OF_MEAN|9.24||0.162|TWO_SIDED|95.0|-5.17|31.04|||Normal approximation for two proportions|||Week 8||31.04|-5.17|0.162
92170874|NCT00212134|184230607|SUPERIORITY|||||||0.008|||||||Fisher Exact|||||||0.008
92237006|NCT01096667|184378129|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.0||||0.01|TWO_SIDED|80.0|-6.17|-1.82||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.82|-6.17|0.010
92237007|NCT01096667|184378129|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.69||||0.012|TWO_SIDED|80.0|-5.78|-1.6||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.60|-5.78|0.012
92239816|NCT02042404|184383603|SUPERIORITY_OR_OTHER|||||||0.0281|TWO_SIDED||||||repeated measures ANOVA|||||||0.0281
92239817|NCT04184622|184383614|SUPERIORITY||Least Square (LS) Mean Difference (Net)|-13.5|||<|0.001|TWO_SIDED|95.0|-14.6|-12.5|||Mixed Models Analysis|||||-12.5|-14.6|<0.001
92239818|NCT04184622|184383614|SUPERIORITY||LS Mean Difference (Net)|-18.9|||<|0.001|TWO_SIDED|95.0|-20.0|-17.8|||Mixed Models Analysis|||||-17.8|-20.0|<0.001
92429245|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.62|STANDARD_ERROR_OF_MEAN|9.11||0.013|TWO_SIDED|95.0|4.76|40.49|||Normal approximation for two proportions|||Week 12||40.49|4.76|0.013
92239819|NCT04184622|184383614|SUPERIORITY||LS Mean Difference (Net)|-20.1|||<|0.001|TWO_SIDED|95.0|-21.2|-19.0|||Mixed Models Analysis|||||-19.0|-21.2|<0.001
92239820|NCT04184622|184383615|SUPERIORITY||Odds Ratio (OR)|23.99|||<|0.001|TWO_SIDED|95.0|17.43|33.02|||Regression, Logistic|||||33.02|17.43|<0.001
92429246|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.78|STANDARD_ERROR_OF_MEAN|9.07||0.038|TWO_SIDED|95.0|1.01|36.55|||Normal approximation for two proportions|||Week 12||36.55|1.01|0.038
92429247|NCT01786668|184746267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.78|STANDARD_ERROR_OF_MEAN|9.07||0.038|TWO_SIDED|95.0|1.01|36.55|||Normal approximation for two proportions|||Week 12||36.55|1.01|0.038
92429248|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.272||0.164|TWO_SIDED|95.0|-0.92|0.16|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.16|-0.92|0.164
92239821|NCT04184622|184383615|SUPERIORITY||Odds Ratio (OR)|73.63|||<|0.001|TWO_SIDED|95.0|46.98|115.39|||Regression, Logistic|||||115.39|46.98|<0.001
92429249|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.271||0.129|TWO_SIDED|95.0|-0.95|0.12|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.12|-0.95|0.129
92429250|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.272||0.66|TWO_SIDED|95.0|-0.66|0.42|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.42|-0.66|0.660
92429251|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.297||0.256|TWO_SIDED|95.0|-0.92|0.25|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.25|-0.92|0.256
92429252|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.296||0.048|TWO_SIDED|95.0|-1.17|0.0|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.00|-1.17|0.048
92429253|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.297||0.318|TWO_SIDED|95.0|-0.88|0.29|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.29|-0.88|0.318
92429254|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.35||0.522|TWO_SIDED|95.0|-0.92|0.47|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.47|-0.92|0.522
92429255|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.35||0.05|TWO_SIDED|95.0|-1.38|0.0|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.00|-1.38|0.050
92429256|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.352||0.337|TWO_SIDED|95.0|-1.03|0.36|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.36|-1.03|0.337
92429257|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.373||0.214|TWO_SIDED|95.0|-1.2|0.27|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.27|-1.20|0.214
92429258|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.372||0.011|TWO_SIDED|95.0|-1.69|-0.22|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.22|-1.69|0.011
92429259|NCT01786668|184746268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.375||0.031|TWO_SIDED|95.0|-1.55|-0.08|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.08|-1.55|0.031
92429260|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.106||0.982|TWO_SIDED|95.0|-0.21|0.21|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.21|-0.21|0.982
92429261|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.106||0.151|TWO_SIDED|95.0|-0.36|0.06|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.06|-0.36|0.151
92429262|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.106||0.205|TWO_SIDED|95.0|-0.34|0.07|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.07|-0.34|0.205
92429263|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.118||0.898|TWO_SIDED|95.0|-0.25|0.22|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.22|-0.25|0.898
92429264|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.118||0.37|TWO_SIDED|95.0|-0.34|0.13|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.13|-0.34|0.370
92429265|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.119||0.288|TWO_SIDED|95.0|-0.36|0.11|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.11|-0.36|0.288
92429266|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.135||0.242|TWO_SIDED|95.0|-0.42|0.11|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.11|-0.42|0.242
92429267|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.135||0.12|TWO_SIDED|95.0|-0.48|0.06|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.06|-0.48|0.120
92429268|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.136||0.031|TWO_SIDED|95.0|-0.56|-0.03|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||-0.03|-0.56|0.031
92429269|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.157||0.28|TWO_SIDED|95.0|-0.48|0.14|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.14|-0.48|0.280
92429270|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.157||0.099|TWO_SIDED|95.0|-0.57|0.05|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.05|-0.57|0.099
92429271|NCT01786668|184746269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.158||0.014|TWO_SIDED|95.0|-0.7|-0.08|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.08|-0.70|0.014
92429272|NCT01786668|184746270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.387||0.895|TWO_SIDED|95.0|-0.81|0.71|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.71|-0.81|0.895
92429273|NCT01786668|184746270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.386||0.033|TWO_SIDED|95.0|-1.59|-0.07|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.07|-1.59|0.033
92429274|NCT01786668|184746270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.388||0.044|TWO_SIDED|95.0|-1.55|-0.02|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.02|-1.55|0.044
92429275|NCT01786668|184746270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.411||0.53|TWO_SIDED|95.0|-1.07|0.55|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.55|-1.07|0.530
92429276|NCT01786668|184746270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.411||0.114|TWO_SIDED|95.0|-1.46|0.16|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.16|-1.46|0.114
92429277|NCT01786668|184746270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.415||0.297|TWO_SIDED|95.0|-1.25|0.38|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.38|-1.25|0.297
92429278|NCT01786668|184746270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.37||0.377|TWO_SIDED|95.0|-1.06|0.4|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.40|-1.06|0.377
92429279|NCT01786668|184746270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.37||0.006|TWO_SIDED|95.0|-1.77|-0.31|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.31|-1.77|0.006
92429280|NCT01786668|184746270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.373||0.017|TWO_SIDED|95.0|-1.64|-0.17|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.17|-1.64|0.017
92170875|NCT00212134|184230608|SUPERIORITY||Mean Difference (Final Values)|15.7|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||ITT analyses comparing parents of children randomized to receive an IOL to those left aphakic.||||<0.05
92237008|NCT01096667|184378129|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.21||||0.024|TWO_SIDED|80.0|-5.3|-1.13||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.13|-5.30|0.024
92429281|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.414||0.8|TWO_SIDED|95.0|-0.92|0.71|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.71|-0.92|0.800
92429282|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.413||0.113|TWO_SIDED|95.0|-0.16|1.47|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||1.47|-0.16|0.113
92429283|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|0.414||0.064|TWO_SIDED|95.0|-1.59|0.05|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.05|-1.59|0.064
92429284|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.368||0.972|TWO_SIDED|95.0|-0.74|0.71|||Mixed Models Analysis|||Week 4||0.71|-0.74|0.972
92429285|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.368||0.44|TWO_SIDED|95.0|-0.44|1.01|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||1.01|-0.44|0.440
92429286|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.369||0.311|TWO_SIDED|95.0|-1.1|0.35|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.35|-1.10|0.311
92429287|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.629||0.501|TWO_SIDED|95.0|-1.66|0.82|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.82|-1.66|0.501
92429288|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.629||0.543|TWO_SIDED|95.0|-1.63|0.86|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.86|-1.63|0.543
92429289|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.636||0.287|TWO_SIDED|95.0|-1.93|0.57|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.57|-1.93|0.287
92429290|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.519||0.82|TWO_SIDED|95.0|-0.91|1.14|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||1.14|-0.91|0.820
92429291|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.52||0.711|TWO_SIDED|95.0|-0.83|1.22|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||1.22|-0.83|0.711
92429292|NCT01786668|184746272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.524||0.424|TWO_SIDED|95.0|-1.45|0.61|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.61|-1.45|0.424
92429293|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.203||0.785|TWO_SIDED|95.0|-0.34|0.46|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.46|-0.34|0.785
92429294|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.203||0.605|TWO_SIDED|95.0|-0.3|0.51|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.51|-0.30|0.605
92429295|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.204||0.175|TWO_SIDED|95.0|-0.68|0.12|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.12|-0.68|0.175
92429296|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.232||0.482|TWO_SIDED|95.0|-0.29|0.62|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.62|-0.29|0.482
92170876|NCT00212134|184230610|SUPERIORITY||Mean Difference (Final Values)|7.295|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||ITT comparison of mean PSI scores||||>0.05
92237009|NCT01096667|184378131|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.7||||0.018|TWO_SIDED|80.0|-5.94|-1.46||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.46|-5.94|0.018
92237010|NCT01096667|184378131|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.43||||0.008|TWO_SIDED|80.0|-6.78|-2.09||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-2.09|-6.78|0.008
92429297|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.231||0.288|TWO_SIDED|95.0|-0.7|0.21|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.21|-0.70|0.288
92237011|NCT01096667|184378131|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.99||||0.002|TWO_SIDED|80.0|-7.24|-2.74||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-2.74|-7.24|0.002
92239822|NCT04184622|184383615|SUPERIORITY||Odds Ratio (OR)|75.48|||<|0.001|TWO_SIDED|95.0|47.86|119.03|||Regression, Logistic|||||119.03|47.86|<0.001
92429298|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.233||0.278|TWO_SIDED|95.0|-0.71|0.21|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.21|-0.71|0.278
92429299|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.254||0.134|TWO_SIDED|95.0|-0.12|0.88|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.88|-0.12|0.134
92429300|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.254||0.397|TWO_SIDED|95.0|-0.29|0.72|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.72|-0.29|0.397
92429301|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.257||0.964|TWO_SIDED|95.0|-0.5|0.52|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.52|-0.50|0.964
92429302|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.269||0.155|TWO_SIDED|95.0|-0.15|0.91|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.91|-0.15|0.155
92429303|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.269||0.491|TWO_SIDED|95.0|-0.34|0.72|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.72|-0.34|0.491
92429304|NCT01786668|184746273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.271||0.515|TWO_SIDED|95.0|-0.71|0.36|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.36|-0.71|0.515
92429305|NCT01786668|184746274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65|STANDARD_ERROR_OF_MEAN|1.312||0.006|TWO_SIDED|95.0|1.06|6.24|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Physical Health Score||6.24|1.06|0.006
92429306|NCT01786668|184746274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8|STANDARD_ERROR_OF_MEAN|1.305||0.004|TWO_SIDED|95.0|1.23|6.37|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Physical Health Score||6.37|1.23|0.004
92170877|NCT01553058|184230618|OTHER|Difference of Differences||||||0.795|||||||Regression, Linear|||||||0.795
92429307|NCT01786668|184746274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.36|STANDARD_ERROR_OF_MEAN|1.328||0.001|TWO_SIDED|95.0|1.74|6.98|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Physical Health Score||6.98|1.74|0.001
92429308|NCT01786668|184746274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|1.857||0.857|TWO_SIDED|95.0|-4.0|3.33|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Mental Health Score||3.33|-4.00|0.857
92429309|NCT01786668|184746274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.73|STANDARD_ERROR_OF_MEAN|1.848||0.35|TWO_SIDED|95.0|-1.91|5.37|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Mental Health Score||5.37|-1.91|0.350
92429310|NCT01786668|184746274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.876||0.49|TWO_SIDED|95.0|-2.4|5.0|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Mental Health Score||5.00|-2.40|0.490
92429311|NCT01786668|184746275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.048||0.125|TWO_SIDED|95.0|-0.02|0.17|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||||0.17|-0.02|0.125
92429312|NCT01786668|184746275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.048||0.207|TWO_SIDED|95.0|-0.03|0.16|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||||0.16|-0.03|0.207
92429313|NCT01786668|184746275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.049||0.013|TWO_SIDED|95.0|0.03|0.22|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||||0.22|0.03|0.013
92429314|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.72|STANDARD_ERROR_OF_MEAN|1.232||0.163|TWO_SIDED|95.0|-0.71|4.15|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||4.15|-0.71|0.163
92429315|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|1.232||0.955|TWO_SIDED|95.0|-2.36|2.5|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||2.50|-2.36|0.955
92170878|NCT01553058|184230618|OTHER|Difference of differences||||||0.647|||||||Regression, Linear|||||||0.647
92170879|NCT01553058|184230619|OTHER|Difference of differences||||||0.386|||||||Regression, Linear|||||||0.386
92170880|NCT01553058|184230619|OTHER|Difference of Differences||||||0.28|||||||Regression, Linear|||||||0.280
92429316|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|1.237||0.826|TWO_SIDED|95.0|-2.17|2.71|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||2.71|-2.17|0.826
92429317|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.54|STANDARD_ERROR_OF_MEAN|1.322||0.246|TWO_SIDED|95.0|-1.07|4.14|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||4.14|-1.07|0.246
92429318|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|1.318||0.467|TWO_SIDED|95.0|-1.64|3.56|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||3.56|-1.64|0.467
92429319|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|1.328||0.948|TWO_SIDED|95.0|-2.53|2.7|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||2.70|-2.53|0.948
92429320|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|STANDARD_ERROR_OF_MEAN|1.479||0.255|TWO_SIDED|95.0|-1.23|4.61|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||4.61|-1.23|0.255
92429321|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.96|STANDARD_ERROR_OF_MEAN|1.479||0.187|TWO_SIDED|95.0|-0.96|4.87|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||4.87|-0.96|0.187
92429322|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|1.497||0.373|TWO_SIDED|95.0|-1.62|4.29|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||4.29|-1.62|0.373
92429323|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.66|STANDARD_ERROR_OF_MEAN|1.643||0.313|TWO_SIDED|95.0|-1.58|4.9|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||4.90|-1.58|0.313
92429324|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95|STANDARD_ERROR_OF_MEAN|1.642||0.017|TWO_SIDED|95.0|0.71|7.19|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||7.19|0.71|0.017
92429325|NCT01786668|184746276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.51|STANDARD_ERROR_OF_MEAN|1.66||0.007|TWO_SIDED|95.0|1.23|7.78|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||7.78|1.23|0.007
92429326|NCT03068455|184746282|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.78|1.04|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab|||1.04|0.78|
92429327|NCT03068455|184746283|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.75|1.14|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab|||1.14|0.75|
92429328|NCT03068455|184746284|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.8|1.32|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab.|||1.32|0.80|
92429329|NCT03068455|184746285|SUPERIORITY||Hazard Ratio (HR)|1.22|||||TWO_SIDED|95.0|0.85|1.73|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab.|||1.73|0.85|
92429330|NCT03068455|184746286|SUPERIORITY|\< 1% Tumor PD-L1 Expression|Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.73|1.14|||||Unstratisfied HR, Nivolumab over Ipilimumab|||1.14|0.73|
92429331|NCT03068455|184746286|SUPERIORITY|\>= 1% Tumor PD-L1 Expression|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.76|1.18|||||Unstratisfied HR, Nivolumab over ipilimumab|||1.18|0.76|
92170881|NCT01553058|184230626|OTHER|Difference of Differences||||||0.357|||||||Regression, Linear|||||||0.357
92170882|NCT01553058|184230626|OTHER|Difference of Differences||||||0.496|||||||Regression, Linear|||||||0.496
92429332|NCT03068455|184746286|SUPERIORITY|\>= 5% Tumor PD-L1 Expression|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.71|1.34|||||Unstratisfied HR, Nivolumab over ipilimumab|||1.34|0.71|
92429333|NCT03068455|184746286|SUPERIORITY|\< 5% Tumor PD-L1 Expression|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.77|1.1|||||Unstratisfied HR, Nivolumab over ipilimumab|||1.10|0.77|
92429334|NCT03068455|184746286|SUPERIORITY|Non-quantifiable Tumor PD-L1 Expression|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.38|1.51|||||Unstratisfied HR, Nivolumab over ipilimumab|||1.51|0.38|
92429335|NCT00692341|184746307|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|88.61|||||TWO_SIDED|90.0|49.2|159.56||||||For mild hepatic impairment, analysis of variance (ANOVA) was used to compare natural log transformed Cmax of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and confidence intervals (CIs) on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||159.56|49.20|
92429336|NCT00692341|184746307|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|127.67|||||TWO_SIDED|90.0|70.9|229.91||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed Cmax of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||229.91|70.90|
92429337|NCT00692341|184746308|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|78.34|||||TWO_SIDED|90.0|39.92|153.75||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed AUC (0 - ∞) of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||153.75|39.92|
92429338|NCT00692341|184746308|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|195.25|||||TWO_SIDED|90.0|99.49|383.18||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed AUC (0 - ∞) of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||383.18|99.49|
92429339|NCT00692341|184746309|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|78.14|||||TWO_SIDED|90.0|38.68|157.82||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed AUClast of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||157.82|38.68|
92237012|NCT01096667|184378131|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.92||||0.013|TWO_SIDED|80.0|-6.16|-1.67||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.67|-6.16|0.013
92429340|NCT00692341|184746309|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|198.9|||||TWO_SIDED|90.0|98.47|401.74||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed AUClast of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||401.74|98.47|
92429341|NCT00692341|184746314|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|73.78|||||TWO_SIDED|90.0|37.4|145.56||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed fu of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||145.56|37.40|
92429342|NCT00692341|184746314|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|100.86|||||TWO_SIDED|90.0|55.58|183.02||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed fu of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||183.02|55.58|
92429343|NCT00692341|184746315|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|91.43|||||TWO_SIDED|90.0|44.75|186.79||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed CLu/F of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||186.79|44.75|
92429344|NCT00692341|184746315|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|50.78|||||TWO_SIDED|90.0|27.14|95.03||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed CLu/F of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||95.03|27.14|
92429345|NCT00692341|184746316|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|103.09|||||TWO_SIDED|90.0|51.53|206.22||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed Vzu/F of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||206.22|51.53|
92429346|NCT00692341|184746316|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|76.06|||||TWO_SIDED|90.0|41.41|139.73||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed Vzu/F of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||139.73|41.41|
92237013|NCT01096667|184378132|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.19||||0.152|TWO_SIDED|80.0|-4.93|0.54||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.54|-4.93|0.152
92237014|NCT01096667|184378132|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.18||||0.078|TWO_SIDED|80.0|-6.06|-0.3||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.30|-6.06|0.078
92429347|NCT00692341|184746317|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|109.38|||||TWO_SIDED|90.0|53.54|223.47||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed AUC (0 - ∞)u of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||223.47|53.54|
92429348|NCT00692341|184746317|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|196.92|||||TWO_SIDED|90.0|105.23|368.49||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed AUC (0 - ∞)u of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||368.49|105.23|
92170883|NCT01553058|184230627|OTHER|Difference of Differences||||||0.897|||||||Regression, Linear|||||||0.897
92170884|NCT01553058|184230627|OTHER|Difference of differences||||||0.467|||||||Regression, Linear|||||||0.467
92170885|NCT01553058|184230628|OTHER|Difference of differences||||||0.089|||||||Regression, Linear|||||||0.089
92237015|NCT01096667|184378132|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.02||||0.174|TWO_SIDED|80.0|-4.79|0.74||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.74|-4.79|0.174
92237016|NCT01096667|184378132|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.01||||0.174|TWO_SIDED|80.0|-4.77|0.74||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.74|-4.77|0.174
92239823|NCT04184622|184383616|SUPERIORITY||LS Mean Difference (Net)|-10.7|||<|0.001|TWO_SIDED|95.0|-11.2|-10.1|||Mixed Models Analysis|||||-10.1|-11.2|<0.001
92429349|NCT00692341|184746318|SUPERIORITY_OR_OTHER||Adjusted ratio of geometric means|111.65|||||TWO_SIDED|90.0|54.35|229.37||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed AUClastu of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||229.37|54.35|
92170886|NCT01553058|184230628|OTHER|Difference of differences||||||0.03|||||||Regression, Linear|||||||0.030
92429350|NCT00692341|184746318|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|200.6|||||TWO_SIDED|90.0|106.68|377.2||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed AUClastu of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||377.20|106.68|
92429351|NCT00692341|184746319|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|106.82|||||TWO_SIDED|90.0|58.22|195.99||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed Cmaxu of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||195.99|58.22|
92429352|NCT00692341|184746319|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|128.76|||||TWO_SIDED|90.0|75.62|219.25||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed Cmaxu of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||219.25|75.62|
92429353|NCT01172522|184746331|SUPERIORITY_OR_OTHER||Other|0.0|||=|1|TWO_SIDED||||||Chi-squared||P values above 0.05 is considered statistically insignificant in this study.|||||=1
92429354|NCT02805972|184746335|SUPERIORITY|"The null hypothesis is that there would be no difference across the Naloxone and placebo conditions.~The alternative hypothesis is that the cortisol value would be higher in the Naloxone condition than in the placebo condition."|Mean Difference (Final Values)|1.26||||0.067|TWO_SIDED|95.0|0.98|1.61||If the Winsorized value is excluded from analyses altogether, the P value is .012|t-test, 2 sided|Cortisol was log transformed for the statistical test, and the reported mean difference was exponentiated back to the original units of nmol/L below.||We compared cortisol values at 55 minutes, within person, across conditions. We Winsorized one participant's values for the placebo visit where values were between 2-4x above the 99th percentile value in the data and then log-transformed the data.||1.61|0.98|.067
92429355|NCT00939640|184746342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17|TWO_SIDED||||||Wilcoxon matched-pairs|||||||.17
92170887|NCT01553058|184230629|OTHER|Difference of differences||||||0.934|||||||Regression, Linear|||||||0.934
92170888|NCT01553058|184230629|OTHER|Difference of differences||||||0.679|||||||Regression, Linear|||||||0.679
92170889|NCT01553058|184230630|OTHER|Difference of differences||||||0.672|||||||Regression, Linear|||||||0.672
92429356|NCT00939640|184746343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Wilcoxon matched-pairs tests|||||||.02
92429357|NCT00939640|184746348|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||.006
92429358|NCT00939640|184746349|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||.02
92429359|NCT00389597|184746359|NON_INFERIORITY_OR_EQUIVALENCE|The 95% one-sided confidence bound for testing non-inferiority using two proportion test with 10% non-inferiority margin.||||||0.0021|||||||Farrington Manning|||1 Level: Ho: pm-pc \<=-0.1 (inferiority) Alternative hypothesis: Ha: pm - pc \> -0.1 Where pm = the proportion of success in the Mobi-C group and the Pc = the proportion of success in the ACDF group.||||0.0021
92429360|NCT00389597|184746359|NON_INFERIORITY_OR_EQUIVALENCE|The 95% one-sided confidence bound for testing non-inferiority using two proportioned test with a 10% non-inferiority margin.|||||<|0.0001|||||||Farrington-Manning|||"2 Level: Ho: pm-pc \<=-0.1 (inferiority) Alternative hypothesis: Ha: pm - pc \> -0.1 Where pm = the proportion of success in the Mobi-C group and the Pc = the proportion of success in the ACDF group.~2 Level: Ho: pm-pc \<= 0 (not superior) Alternative hypothesis: Ha: pm-pc \>0 Where pm = the proportion of success in the Mobi-C group and the Pc = the proportion of success in the ACDF group."||||<0.0001
92429361|NCT00306189|184746364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|||<|0.0001||95.0|5.76|8.24|||t-test, 2 sided|||||8.24|5.76|<0.0001
92429362|NCT00306189|184746364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.25|||<|0.0001||95.0|4.1|6.4|||t-test, 2 sided|||||6.4|4.1|<0.0001
92429363|NCT00306189|184746364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.27|||<|0.0001||95.0|5.06|7.49|||t-test, 2 sided|||||7.49|5.06|<0.0001
92429364|NCT02762578|184746374|NON_INFERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 1: Primary analysis: Non-inferiority with respect to change from baseline in HbA1c (%) to week 26 for IDegAsp vs. BIAsp 30.~Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.4%."|Treatment contrast|-0.08||||0.243|TWO_SIDED|95.0|-0.2|0.05||Two-sided p-value for testing difference|ANCOVA|||Change from baseline in HbA1c after 26 weeks of treatments was analysed using an ANCOVA method with treatment, anti-diabetic therapy at screening and sex as fixed factors, and age and baseline HbA1c as covariates.||0.05|-0.20|0.2430
92170890|NCT01553058|184230630|OTHER|Difference of differences||||||0.655|||||||Regression, Linear|||||||0.655
92170891|NCT01553058|184230631|OTHER|Difference of differences||||||0.504|||||||Regression, Linear|||||||0.504
92170892|NCT01553058|184230631|OTHER|Difference of differences||||||0.695|||||||Regression, Linear|||||||0.695
92170893|NCT01553058|184230632|OTHER|Difference of differences||||||0.002|||||||Regression, Linear|||||||0.002
92170894|NCT01553058|184230632|OTHER|Difference of differences||||||0.009|||||||Regression, Linear|||||||0.009
92170895|NCT01553058|184230633|OTHER|Difference of Differences|||||<|0.001|||||||Regression, Linear|||||||<0.001
92170896|NCT01553058|184230633|OTHER|Difference of differences||||||0.065|||||||Regression, Linear|||||||0.065
92170897|NCT01553058|184230634|OTHER|Difference of differences||||||0.007|||||||Regression, Linear|||||||0.007
92170898|NCT01553058|184230634|OTHER|Difference of differences||||||0.019|||||||Regression, Linear|||||||0.019
92170899|NCT01553058|184230635|OTHER|Difference of differences||||||0.006|||||||Regression, Linear|||||||0.006
92170900|NCT01553058|184230635|OTHER|Difference of differences||||||0.628|||||||Regression, Linear|||||||0.628
92429365|NCT02762578|184746374|SUPERIORITY|"If non-inferiority was confirmed, the superiority of the IDegAsp group over the BIAsp 30 group was to be investigated.~Superiority was considered confirmed if the upper bound of the two-sided 95% confidence interval, which was calculated using the FAS, was below 0%."|Treatment contrast|-0.08||||0.243|TWO_SIDED|95.0|-0.2|0.05||Two-sided p-value for testing difference|ANCOVA|||Change from baseline in HbA1c after 26 weeks of treatments was analysed using an ANCOVA method with treatment, anti-diabetic therapy at screening and sex as fixed factors, and age and baseline HbA1c as covariates.||0.05|-0.20|0.2430
92237017|NCT01096667|184378134|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.01||||0.047|TWO_SIDED|80.0|-7.09|-0.94||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-0.94|-7.09|0.047
92429366|NCT02762578|184746375|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 2: Superiority with respect to change from baseline in FPG to week 26 for IDegAsp vs. BIAsp 30 (Provided that non-inferiority was confirmed for the primary endpoint)~Superiority was considered confirmed if the 95% CI for the treatment difference (IDegAsp group-BIAsp 30 group) was entirely below zero."|Treatment Contrast|-1.42|||<|0.0001|TWO_SIDED|95.0|-1.74|-1.1||Two-sided p-value for testing difference|ANCOVA|||Change from baseline in FPG after 26 weeks of treatment was analysed using an ANCOVA method with treatment, anti-diabetic therapy at screening and sex as fixed factors, and age and baseline FPG as covariates.||-1.10|-1.74|<0.0001
92429367|NCT02762578|184746376|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 3: Superiority with respect to nocturnal confirmed hypoglycaemic episodes for IDegAsp vs. BIAsp 30 (provided that superiority with respect to change from baseline in FPG to week 26 was confirmed for IDegAsp vs. BIAsp 30).~Superiority was considered confirmed if the 95% CI for the rate ratio (IDegAsp group/BIAsp 30 group) was entirely below one."|Treatment Ratio|0.53||||0.0112|TWO_SIDED|95.0|0.33|0.87|||Negative binomial regression model|||The number of events was analysed using a Negative Binomial Model with a log-link function and the logarithm of the exposure time (100 years) for which a hypoglycaemic episode is considered treatment emergent as offset. The model included treatment, anti-diabetic therapy at screening and sex as fixed factors, and age as covariate.||0.87|0.33|0.0112
92429368|NCT02762578|184746377|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 4: Superiority with respect to confirmed hypoglycaemic episodes for IDegAsp vs. BIAsp 30 (provided that superiority with respect to nocturnal confirmed hypoglycaemic episodes for IDegAsp vs. BIAsp 30 was confirmed).~Superiority was considered confirmed if the 95% CI for the rate ratio (IDegAsp group/BIAsp 30 group) was entirely below one."|Treatment Ratio|0.57||||0.0002|TWO_SIDED|95.0|0.42|0.77|||Negative binomial regression model|||The number of events was analysed using a Negative Binomial Model with a log-link function and the logarithm of the exposure time (100 years) for which a hypoglycaemic episode is considered treatment emergent as offset. The model included treatment, anti-diabetic therapy at screening and sex as fixed factors, and age as covariate||0.77|0.42|0.0002
92429369|NCT02762578|184746378|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 5: Superiority with respect to change from baseline in body weight for IDegAsp vs. BIAsp 30 (provided that Superiority with respect to confirmed hypoglycaemic episodes for IDegAsp vs. BIAsp 30 was confirmed).~Superiority was considered confirmed if the 95% CI for the treatment difference (IDegAsp group-BIAsp 30 group) was entirely below zero"|Treatment contrast|0.61||||0.0092|TWO_SIDED|95.0|0.15|1.08|||ANCOVA|Two-sided p-value for testing difference||The response and change from baseline in response after 26 weeks were analysed using an ANCOVA model with treatment, anti-diabetic therapy at screening and sex as fixed factors, age and baseline response as covariate.||1.08|0.15|0.0092
92237018|NCT01096667|184378134|SUPERIORITY_OR_OTHER||Difference in least squares means|-7.16||||0.002|TWO_SIDED|80.0|-10.25|-4.07||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-4.07|-10.25|0.002
92237019|NCT01096667|184378134|SUPERIORITY_OR_OTHER||Difference in least squares means|-6.2||||0.005|TWO_SIDED|80.0|-9.28|-3.11||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-3.11|-9.28|0.005
92237020|NCT01096667|184378134|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.37||||0.033|TWO_SIDED|80.0|-7.41|-1.33||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-1.33|-7.41|0.033
92237021|NCT01096667|184378136|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.66||||0.007|TWO_SIDED|80.0|-4.03|-1.29||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.29|-4.03|0.007
92239824|NCT04184622|184383617|SUPERIORITY||Odds Ratio (OR)|19.03|||<|0.001|TWO_SIDED|95.0|14.15|25.6|||Regression, Logistic|||||25.60|14.15|<0.001
92429370|NCT02762578|184746379|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 6: Superiority with respect to subjects achieving HbA1c \< 7% at end of trial without confirmed hypoglycaemia for IDegAsp vs. BIAsp 30 (provided that superiority with respect to change from baseline in body weight was confirmed).~Superiority was considered confirmed if the 95% CI for the odds ratio (IDegAsp group/BIAsp 30 group) was entirely above one."|Treatment Ratio|2.22||||0.0002|TWO_SIDED|95.0|1.47|3.35||Two-sided p-value for testing difference|Regression, Logistic|||The endpoint was analysed in a logistic regression model using a logit link, including treatment, sex and anti-diabetic treatment at screening as fixed effects, and age and HbA1c as covariates.||3.35|1.47|0.0002
92446530|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-1.61|STANDARD_ERROR_OF_MEAN|1.621||0.323|TWO_SIDED|95.0|-4.81|1.6||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 5||1.60|-4.81|0.323
92237022|NCT01096667|184378136|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.11||||0.003|TWO_SIDED|80.0|-4.55|-1.67||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.67|-4.55|0.003
92237023|NCT01096667|184378136|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.27||||0.018|TWO_SIDED|80.0|-3.65|-0.88||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-0.88|-3.65|0.018
92429371|NCT00282984|184746449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.05|||<|0.0001||95.0|4.13|8.86||To preserve type I family-wise error rate of 0.05, used step-down procedure to analyze primary \& 2 key secondary endpoints. Hierarchy of comparisons: 1) 4-week CQR for Weeks 9 thru 12, 2) CA at Week 52, 3) the Long Term Quit Rate (LTQR) thru Week 52.|Regression, Logistic|Logistic regression model fitted to primary endpoint \& key secondary endpoints; included main effects of trtmt group and center as independent var.||Estimates for expected \& clinically meaningful var \& pbo 4-week CQR for Week 9 - 12 of trtmt based on response rates \& corresponding 95% OR confidence interval (CI) from A30510285 \& A30510366 study results. Total n=700 randomized var or pbo 1:1 should have provided at least 99% power to detect difference in primary endpoint (endpt) between (b/w) var \& pbo, assuming true 4-week CQR of 0.18 for pbo \& 0.40 for var (OR of at least 3.04), and 84% power for 2 key secondary endpts.||8.86|4.13|<0.0001
92429372|NCT00282984|184746450|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.19|||<|0.0001||95.0|1.97|5.18||To preserve type I family-wise error rate of 0.05, a step-down procedure was used for the analysis of primary \& 2 key secondary endpts. Hierarchy of comparisons: 1) 4-week CQR for Weeks 9 through 12, 2) CA at Week 52, 3) LTQR through Week 52.|Regression, Logistic|Logistic regression model fitted to primary endpoint \& key secondary endpoints; included main effects of treatment group \& center as independent var.||Estimates for expected and clinically meaningful var \& pbo 4-week CQR for Weeks 9 - 12 of trtmt were based on response rates \& corresponding 95% odds ratio CI from A30510285 and A30510366 study results. Total n=700 randomized var or pbo 1:1 should have provided at least 99% power to detect difference in primary endpt b/w var \& pbo, assuming true 4-week CQR of 0.18 for pbo \& 0.40 for var (odds ratio of at least 3.04) \& a power of 84% for the 2 key secondary endpts.||5.18|1.97|<0.0001
92429373|NCT00282984|184746451|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.82|||<|0.0001||95.0|1.82|4.38||To preserve type I family-wise error rate of 0.05, a step-down procedure was used for the analysis of primary \& 2 key secondary endpoints. Hierarchy of comparisons: 1) 4-week CQR for Weeks 9 through 12, 2) CA at Week 52, 3) the LTQR through Week 52.|Regression, Logistic|Logistic regression model fitted to primary endpoint \& key secondary endpoints; included main effects of trtmt group and center as independent var.||Estimates for expected and clinically meaningful varenicline (var) \& pbo 4-week CQR for Weeks 9 - 12 of treatment were based on response rates \& corresponding 95% odds ratio CI from A30510285 and A30510366 study results. Total n=700 randomized var or pbo 1:1 should have provided at least 99% power to detect difference in primary endpt b/w varenicline \& pbo, assuming true 4-week CQR of 0.18 for pbo \& 0.40 for var (odds ratio of at least 3.04), and a power of 84% for the 2 key secondary endpts.||4.38|1.82|<0.0001
92429374|NCT00282984|184746452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.97|||<|0.0001||95.0|4.17|8.56|||Regression, Logistic|||Week 12 analysis||8.56|4.17|<0.0001
92429375|NCT00282984|184746453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.93|||<|0.0001||95.0|2.03|4.23|||Regression, Logistic|||24 Week analysis||4.23|2.03|<0.0001
92237024|NCT01096667|184378136|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.19||||0.021|TWO_SIDED|80.0|-3.56|-0.82||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-0.82|-3.56|0.021
92237025|NCT01096667|184378137|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.99||||0.004|TWO_SIDED|80.0|-4.43|-1.55||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.55|-4.43|0.004
92429376|NCT00282984|184746454|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93||||0.0003||95.0|1.34|2.77|||Regression, Logistic|||52 Week analysis||2.77|1.34|0.0003
92429377|NCT00282984|184746455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05||||0.0001||95.0|1.41|2.97|||Regression, Logistic|||||2.97|1.41|0.0001
92429378|NCT00282984|184746456|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.86|||<|0.0001||95.0|2.51|5.93|||Regression, Logistic|||||5.93|2.51|<0.0001
92429379|NCT00282984|184746458|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.85|||<|0.0001||95.0|2.58|5.75|||Regression, Logistic|||||5.75|2.58|<0.0001
92429380|NCT04665856|184746506|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0348|TWO_SIDED|95.0|0.43|0.97||This study is a bridging study without formal testing, the p value here is descriptive.|Log Rank|||||0.97|0.43|0.0348
92429381|NCT04665856|184746507|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.6105|TWO_SIDED|95.0|0.56|1.4||This study is a bridging study without formal testing, the p value here is descriptive.|Log Rank|||||1.40|0.56|0.6105
92429382|NCT04665856|184746508|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.1044|TWO_SIDED|95.0|0.49|1.07|||Log Rank|||||1.07|0.49|0.1044
92429383|NCT04665856|184746509|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9363|TWO_SIDED|95.0|0.64|1.52|||Log Rank|||||1.52|0.64|0.9363
92429384|NCT04665856|184746510|SUPERIORITY||Difference in Overall Response Rates|22.55||||0.0136|TWO_SIDED|95.0|4.12|39.03|||Chi-square with Schouten Correction|||||39.03|4.12|0.0136
92237026|NCT01096667|184378137|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.75||||0.01|TWO_SIDED|80.0|-4.26|-1.24||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.24|-4.26|0.010
92237027|NCT01096667|184378137|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.64||||0.01|TWO_SIDED|80.0|-4.09|-1.19||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.19|-4.09|0.010
92237028|NCT01096667|184378137|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.57||||0.011|TWO_SIDED|80.0|-4.0|-1.13||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.13|-4.00|0.011
92429385|NCT04665856|184746511|SUPERIORITY||Difference in Overall Response Rates|17.37||||0.0493|TWO_SIDED|95.0|-0.22|33.6|||Chi-square with Schouten Correction|||||33.60|-0.22|0.0493
92429386|NCT04665856|184746514|SUPERIORITY||Difference in EFR at Month 6|8.09||||0.3968|TWO_SIDED|95.0|-10.62|26.81|||Z-test|||6 Months||26.81|-10.62|0.3968
92429387|NCT04665856|184746514|SUPERIORITY||Difference in EFR at Month 12|17.45||||0.0205|TWO_SIDED|95.0|2.69|32.21|||Z-test|||12 Months||32.21|2.69|0.0205
92237029|NCT01096667|184378138|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.5||||0.048|TWO_SIDED|80.0|-4.43|-0.57||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.57|-4.43|0.048
92237030|NCT01096667|184378138|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.54||||0.013|TWO_SIDED|80.0|-5.58|-1.51||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.51|-5.58|0.013
92237031|NCT01096667|184378138|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.88||||0.111|TWO_SIDED|80.0|-3.82|0.09||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.09|-3.82|0.111
92237032|NCT01096667|184378138|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.58||||0.148|TWO_SIDED|80.0|-3.51|0.36||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.36|-3.51|0.148
92429388|NCT04665856|184746515|SUPERIORITY||Difference in EFR at Month 6|8.18||||0.3633|TWO_SIDED|95.0|-9.46|25.82|||Z-test|||6 Months||25.82|-9.46|0.3633
92429389|NCT04665856|184746515|SUPERIORITY||Difference in EFR at Month12|13.36||||0.0642|TWO_SIDED|95.0|-0.79|27.51|||Z-test|||12 Months||27.51|-0.79|0.0642
92429390|NCT04665856|184746516|SUPERIORITY||Difference in EFR|20.47||||0.0261|TWO_SIDED|95.0|2.43|38.5|||Z-test|||12 Months||38.50|2.43|0.0261
92429391|NCT04665856|184746516|SUPERIORITY||Difference in EFR|-0.5||||0.9572|TWO_SIDED|95.0|-18.79|17.79|||Z-test|||24 Months||17.79|-18.79|0.9572
92429392|NCT04665856|184746517|SUPERIORITY||Difference in EFR|13.88||||0.1145|TWO_SIDED|95.0|-3.36|31.12|||Z-test|||12 Months||31.12|-3.36|0.1145
92429393|NCT04665856|184746517|SUPERIORITY||Difference in EFR|-2.54||||0.7734|TWO_SIDED|95.0|-19.83|14.75|||Z-test|||24 Months||14.75|-19.83|0.7734
92429394|NCT03386448|184746526|SUPERIORITY|Student test was performed|Mean Difference (Final Values)|9.0||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
92429395|NCT00114530|184746532|SUPERIORITY|||||||0.013||||||A Data and Safety Monitoring Board reviewed 4 pre-specified futility analyses that included an ability to stop for efficacy with p\<0.0001, leaving alpha equal to 0.0496 for the primary ITT analysis of the GRCS at 54 months post-randomization.|Wilcoxon (Mann-Whitney)|||||||0.013
92429396|NCT00114530|184746533|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92429397|NCT00114530|184746534|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92237033|NCT01096667|184378140|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.2||||0.196|TWO_SIDED|80.0|-3.01|0.6||P-value is one-sided.|Mixed Measures Repeated Model|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||0.60|-3.01|0.196
92237034|NCT01096667|184378140|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.05||||0.229|TWO_SIDED|80.0|-2.86|0.77||P-value is one-sided.|Mixed Measures Repeated Model|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||0.77|-2.86|0.229
92237035|NCT01096667|184378140|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.02||||0.017|TWO_SIDED|80.0|-4.83|-1.2||P-value is one-sided.|Mixed Measures Repeated Model|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-1.20|-4.83|0.017
92429398|NCT00114530|184746535|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92429399|NCT00114530|184746536|SUPERIORITY|||||||0.059|||||||Fisher Exact|||Treatment arm comparisons of EFS at Month 54.||||0.059
92429400|NCT00114530|184746536|SUPERIORITY|||||||0.06|||||||Log Rank|||Treatment arm comparisons of Kaplan-Meier curves for EFS through Month 72||||0.06
92429401|NCT00114530|184746537|SUPERIORITY|||||||0.021|||||||Fisher Exact|||Treatment arm comparisons of EFS at Month 54.||||0.021
92429402|NCT00114530|184746537|SUPERIORITY|||||||0.03|||||||Log Rank|||Treatment arm comparisons of Kaplan-Meier curves for EFS through Month 72||||0.03
92429403|NCT00114530|184746538|SUPERIORITY|||||||0.059|||||||Fisher Exact|||||||0.059
92429404|NCT00114530|184746539|SUPERIORITY|||||||0.021|||||||Fisher Exact|||||||0.021
92429405|NCT00114530|184746540|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.48
92429406|NCT00114530|184746541|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
92429407|NCT00114530|184746542|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.48
92429408|NCT00114530|184746543|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
92429409|NCT00114530|184746544|SUPERIORITY|||||||0.28|||||||Fisher Exact|||Treatment arm comparisons of overall survival at Month 54.||||0.28
92429410|NCT00114530|184746544|SUPERIORITY|||||||0.05|||||||Log Rank|||Treatment arm comparisons of Kaplan-Meier curves for overall survival through Month 72.||||0.05
92429411|NCT00114530|184746545|SUPERIORITY|||||||0.19|||||||Fisher Exact|||Treatment arm comparisons of overall survival at Month 54.||||0.19
92429412|NCT00114530|184746545|SUPERIORITY|||||||0.02|||||||Log Rank|||Treatment arm comparisons of Kaplan-Meier curves for overall survival through Month 72.||||0.02
92429413|NCT00114530|184746546|SUPERIORITY|||||||0.28|||||||Fisher Exact|||||||0.28
92429414|NCT00114530|184746547|SUPERIORITY|||||||0.19|||||||Fisher Exact|||||||0.19
92429415|NCT00114530|184746548|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||<0.001
92429416|NCT00114530|184746548|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.01
92429417|NCT00114530|184746549|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||<0.001
92429418|NCT00114530|184746549|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.002
92429419|NCT00114530|184746550|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||Physical Component Score. This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.001
92429420|NCT00114530|184746550|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||Physical Component Score. This analysis is stratified by EFS status.||||0.02
92237036|NCT01096667|184378140|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.84||||0.021|TWO_SIDED|80.0|-4.63|-1.06||P-value is one-sided.|Mixed Measures Repeated Model|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-1.06|-4.63|0.021
92237037|NCT01096667|184378142|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.22||||0.039|TWO_SIDED|80.0|-3.83|-0.61||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.61|-3.83|0.039
92429421|NCT00114530|184746550|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||Mental Component Score. This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.05
92429422|NCT00114530|184746550|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||Mental Component Score. This analysis is stratified by EFS status.||||0.1
92429423|NCT00114530|184746551|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||Physical Component Score. This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||<0.001
92429424|NCT00114530|184746551|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||Physical Component Score. This analysis is stratified by EFS status.||||0.003
92429425|NCT00114530|184746551|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||Mental Component Score. This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.02
92429426|NCT00114530|184746551|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||Mental Component Score. This analysis is stratified by EFS status.||||0.07
92429427|NCT00114530|184746552|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.08
92429428|NCT00114530|184746552|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.9
92429429|NCT00114530|184746553|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.1
92429430|NCT00114530|184746553|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.6
92429431|NCT00114530|184746554|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.02
92429432|NCT00114530|184746554|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.3
92429433|NCT00114530|184746555|SUPERIORITY|||||||0.03|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.03
92429434|NCT00114530|184746555|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.5
92429435|NCT00114530|184746556|SUPERIORITY|||||||0.002|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.002
92429436|NCT00114530|184746556|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.05
92429437|NCT00114530|184746557|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||<0.001
92429438|NCT00114530|184746557|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.01
92429439|NCT00114530|184746558|SUPERIORITY|||||||0.42|||||||Chi-squared|||Development of new or worsening arrhythmias||||0.42
92429440|NCT00114530|184746558|SUPERIORITY|||||||0.048|||||||Chi-squared|||CHF requiring clinical treatment||||0.048
92429441|NCT00114530|184746558|SUPERIORITY|||||||0.51|||||||Chi-squared|||Clinically significant pericardial effusion||||0.51
92429442|NCT00114530|184746559|SUPERIORITY|||||||0.46|||||||Chi-squared|||Development of new or worsening arrhythmias||||0.46
92429443|NCT00114530|184746559|SUPERIORITY|||||||0.042|||||||Chi-squared|||CHF requiring clinical treatment||||0.042
92429444|NCT00114530|184746559|SUPERIORITY|||||||0.15|||||||Chi-squared|||Clinically significant pericardial effusion||||0.15
92429445|NCT00114530|184746560|SUPERIORITY|||||||0.026|||||||Chi-squared|||||||0.026
92429446|NCT00114530|184746561|SUPERIORITY|||||||0.022|||||||Chi-squared|||||||0.022
92429447|NCT00114530|184746562|SUPERIORITY|||||||0.71|||||||Chi-squared|||||||0.71
92429448|NCT00114530|184746563|SUPERIORITY|||||||0.32|||||||Chi-squared|||||||0.32
92429449|NCT00114530|184746564|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||0.30
92429450|NCT00114530|184746565|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
92429451|NCT00114530|184746566|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
92429452|NCT00114530|184746567|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
92429453|NCT00114530|184746568|SUPERIORITY||||||<|0.001|||||||Regression, Linear|P-value comes from a Poisson regression comparing the person-year adjusted event rates between the two treatment groups.||||||<0.001
92429454|NCT00114530|184746568|SUPERIORITY||Person-Time (Years)|174.4|||||TWO_SIDED||||||||The Person-Time (P-T) rates (events/P-T) are as follows: Possibly related = 0.61, Probably related = 0.57, Definitely related = 0.52|||||
92429455|NCT00114530|184746568|SUPERIORITY||Person-Time (Years)|141.3|||||TWO_SIDED||||||||The Person-Time (P-T) rates (events/P-T) are as follows: Possibly related = 0.17, Probably related = 0.09, Definitely related = 0.04|||||
92429456|NCT00114530|184746570|SUPERIORITY|||||||0.7|||||||Regression, Linear|P-value comes from a Poisson regression comparing the person-year adjusted event rates between the two treatment groups.||||||0.7
92429457|NCT00114530|184746570|SUPERIORITY||Person-Time (Years)|174.4|||||TWO_SIDED||||||||The Person-Time (P-T) rate (events/P-T) is 0.76|||||
92429458|NCT00114530|184746570|SUPERIORITY||Person-Time (Years)|141.3|||||TWO_SIDED||||||||The Person-Time (P-T) rate (events/P-T) is 0.80|||||
92237038|NCT01096667|184378142|SUPERIORITY_OR_OTHER||Difference in least squares means|0.07||||0.521|TWO_SIDED|80.0|-1.63|1.77||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||1.77|-1.63|0.521
92429459|NCT01466153|184746574|SUPERIORITY_OR_OTHER|||||||0.4475|||||||Cochran-Mantel-Haenszel|||||||0.4475
92429460|NCT01466153|184746578|SUPERIORITY_OR_OTHER|||||||0.3206|||||||Cochran-Mantel-Haenszel|||||||0.3206
92429461|NCT01466153|184746579|SUPERIORITY_OR_OTHER|||||||0.313|||||||Cochran-Mantel-Haenszel|||||||0.3130
92429462|NCT01466153|184746581|SUPERIORITY_OR_OTHER|||||||0.9527|||||||Log Rank|||||||0.9527
92429463|NCT02342327|184746603|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.55|1.22||||||Hazard ratio for time to lapse to smoking in the group switched to non-menthol cigarettes relative to the group continuing to smoke menthol cigarettes||1.22|0.55|
92170901|NCT03398148|184230780|SUPERIORITY||Adjusted Risk Difference|9.6||||0.0324|TWO_SIDED|90.0|2.2|17.0||P-value ≤ 0.05|Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel (CMH) test stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (≤ 7, \> 7).|Risk difference = (risankizumab - Placebo)|||17.0|2.2|0.0324
92237039|NCT01096667|184378142|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.39||||0.031|TWO_SIDED|80.0|-4.02|-0.75||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.75|-4.02|0.031
92237040|NCT01096667|184378142|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.56||||0.11|TWO_SIDED|80.0|-3.19|0.07||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.07|-3.19|0.110
92237041|NCT01096667|184378143|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.38||||0.007|TWO_SIDED|80.0|-5.13|-1.63||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.63|-5.13|0.007
92429464|NCT02342327|184746604|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.42|1.06||||||Hazard ratio for time to relapse to smoking in the group switched to non-menthol cigarettes relative to the group continuing to smoke menthol cigarettes||1.06|0.42|
92429465|NCT03187197|184746615|OTHER|||||||0.0001|||||||Paired t-test|||Within group comparison of Baseline convenience with that of Visit 2.||||0.0001
92429466|NCT03187197|184746615|OTHER|||||||0.0001|||||||Paired t-test|||Within group comparison of Baseline convenience with that of Visit 3.||||0.0001
92429467|NCT03187197|184746615|OTHER|||||||0.0031|||||||Paired t-test|||Within group comparison of Baseline satisfaction with that of Visit 2.||||0.0031
92429468|NCT03187197|184746615|OTHER|||||||0.0001|||||||Paired t-test|||Within group comparison of Baseline satisfaction with that of Visit 3.||||0.0001
92429469|NCT03187197|184746616|OTHER|||||||0.7879|||||||t-test, 2 sided|||Between group comparison of Visit 2 treatment convenience before PSM.||||0.7879
92429470|NCT03187197|184746616|OTHER|||||||0.611|||||||t-test, 2 sided|||Between group comparison of Visit 3 treatment convenience before PSM.||||0.6110
92429471|NCT03187197|184746616|OTHER|||||||0.0832|||||||t-test, 2 sided|||Between group comparison of Visit 2 treatment satisfaction before PSM.||||0.0832
92429472|NCT03187197|184746616|OTHER|||||||0.6488|||||||t-test, 2 sided|||Between group comparison of Visit 3 treatment satisfaction before PSM.||||0.6488
92429473|NCT03187197|184746616|OTHER|||||||0.1301|||||||Two sample T test|||Between group comparison of Visit 2 treatment convenience after PSM.||||0.1301
92429474|NCT03187197|184746616|OTHER|||||||0.1257|||||||Two sample T test|||Between group comparison of Visit 2 treatment satisfaction after PSM.||||0.1257
92429475|NCT00674700|184746658|SUPERIORITY_OR_OTHER|||||||0.0066||||||main effects = treatment and pools of study centers, Covariates = age, gender, asthma status, sensitization status and baseline ARTSS|ANCOVA|||||||0.0066
92429476|NCT00674700|184746658|SUPERIORITY_OR_OTHER|||||||0.015||||||main effects= treatment and pools of study centers, Covariates = age, gender, asthma status, sensitization status and baseline ARTSS|ANCOVA|||||||0.015
92429477|NCT00674700|184746659|SUPERIORITY_OR_OTHER|||||||0.0086|||||||ANCOVA|||||||0.0086
92429478|NCT00674700|184746659|SUPERIORITY_OR_OTHER|||||||0.0095|||||||ANCOVA|||||||0.0095
92429479|NCT02417831|184746664|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Ratio|105.76|STANDARD_DEVIATION|14.18|||TWO_SIDED|90.0|99.81|112.08|||||The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation. Ratio calculated as test divided by reference.|||112.08|99.81|
92429480|NCT02417831|184746665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Ratio|101.4|STANDARD_DEVIATION|9.05|||TWO_SIDED|90.0|97.71|105.23|||||The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation. Ratio calculated as test divided by reference.|||105.23|97.71|
92237042|NCT01096667|184378143|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.48||||0.37|TWO_SIDED|80.0|-2.33|1.38||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||1.38|-2.33|0.370
92429481|NCT02417831|184746666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Ratio|101.42|STANDARD_DEVIATION|8.85|||TWO_SIDED|90.0|97.81|105.17|||||The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation. Ratio calculated as test divided by reference.|||105.17|97.81|
92429482|NCT00621985|184746670|SUPERIORITY_OR_OTHER||Percent Difference|-19.0||||0.09||95.0|||||t-test, 2 sided|||"A t-test was performed comparing the mean long transformed area under the curve of 17-hydroxyprogesterone between the dexamethasone and hydrocortisone arms. The percent difference in mean log AUC was calculated as:~(Mean log AUC on dexamethasone - Mean log AUC on hydrocortisone)/Mean log AUC on hydrocortisone"||||0.09
92429483|NCT01001377|184746679|SUPERIORITY_OR_OTHER_LEGACY||Stratified Cox proportional hazard ratio|0.966|||||TWO_SIDED|95.0|0.839|1.113|||||Hazard ratio is presented as panitumumab : cetuximab. A value \< 1.0 indicates a lower average event rate and longer time to event for panitumumab relative to cetuximab.|Cox proportional hazards model stratified by geographic region (North America, western Europe and Australia vs rest of world) and ECOG performance status (0 or 1 vs 2).||1.113|0.839|
92429484|NCT01001377|184746679|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The overall survival non-inferiority hypothesis based on an asymptotic normal score was tested at a 1-sided 2.5% significance level. A value \< -1.96 indicates non-inferiority at a significance level of 1-sided 0.025.|Normal score|-3.19||||0.0007||||||A synthesis approach with an asymptotic standard normal test statistic|Asymptotic standard normal test|||A synthesis approach with an asymptotic standard normal test statistic based on the logarithm of the hazard ratio was used to test the hypothesis that panitumumab is non-inferior to cetuximab for overall survival (ie, that panitumumab retains at least 50% of the overall survival benefit of cetuximab relative to best supportive care).||||0.0007
92429485|NCT01001377|184746681|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.83|1.58|||||Common treatment odds ratio stratified by geographic region (North America, western Europe and Australia vs rest of world) and ECOG performance status (0 or 1 vs 2).|||1.58|0.83|
92429486|NCT01001377|184746685|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0126|||||TWO_SIDED|95.0|-0.0353|0.0605|||||A positive difference between the treatment groups favors the panitumumab group.|Repeated measures mixed model includes treatment, geographic region, ECOG score, assessment week, and treatment by assessment week interaction as fixed effects, and subjects a random effect. An unstructured covariance matrix is used in the mixed model.||0.0605|-0.0353|
92429487|NCT01001377|184746686|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.6745|||||TWO_SIDED|95.0|-4.9331|1.5841|||||A positive difference between the treatment groups favors the panitumumab group.|Repeated measures mixed model includes treatment, geographic region, ECOG score, assessment week, and treatment by assessment week interaction as fixed effects, and subjects a random effect. An unstructured covariance matrix is used in the mixed model.||1.5841|-4.9331|
92429488|NCT01001377|184746687|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.0372|||||TWO_SIDED|95.0|-2.3267|4.401|||||A positive difference between the treatment groups favors the panitumumab group.|Repeated measures mixed model includes treatment, geographic region, ECOG score, assessment week, and treatment by assessment week interaction as fixed effects, and subjects a random effect. An unstructured covariance matrix is used in the mixed model.||4.4010|-2.3267|
92429489|NCT01001377|184746688|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.5836|||||TWO_SIDED|95.0|-3.0269|4.1941|||||A positive difference between the treatment groups favors the panitumumab group.|Repeated measures mixed model includes treatment, geographic region, ECOG score, assessment week, and treatment by assessment week interaction as fixed effects, and subjects a random effect. An unstructured covariance matrix is used in the mixed model.||4.1941|-3.0269|
92429490|NCT01001377|184746689|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1998|||||TWO_SIDED|95.0|-6.0093|5.6098|||||A positive difference between the treatment groups favors the panitumumab group.|Repeated measures mixed model includes treatment, geographic region, ECOG score, assessment week, and treatment by assessment week interaction as fixed effects, and subjects a random effect. An unstructured covariance matrix is used in the mixed model.||5.6098|-6.0093|
92429491|NCT02849678|184746695|NON_INFERIORITY|A total sample size of 64 subjects (32 patients in each arm) is required to detect a difference of 0.5 SD, using an alpha error of 0.05 and a power of 0.8. After enrollment of 47 patients, we decided to complete the present interim analysis, and the study was then interrupted due to equivalence in results between the two groups.||||||0.148|||||||t-test, 1 sided|||||||0.148
92429492|NCT02849678|184746697|NON_INFERIORITY|A total sample size of 64 subjects (32 patients in each arm) is required to detect a difference of 0.5 SD, using an alpha error of 0.05 and a power of 0.8. After enrollment of 47 patients, we decided to complete the present interim analysis, and the study was then interrupted due to equivalence in results between the two groups.||||||0.636|||||||t-test, 1 sided|||||||.636
92429493|NCT02849678|184746699|NON_INFERIORITY|A total sample size of 64 subjects (32 patients in each arm) is required to detect a difference of 0.5 SD, using an alpha error of 0.05 and a power of 0.8. After enrollment of 47 patients, we decided to complete the present interim analysis, and the study was then interrupted due to equivalence in results between the two groups.||||||0.193||||||Hydromorphone consumption (mg) in Post-Anesthesia Care Unit (PACU)|t-test, 2 sided|||||||0.193
92429494|NCT02849678|184746699|NON_INFERIORITY|A total sample size of 64 subjects (32 patients in each arm) is required to detect a difference of 0.5 SD, using an alpha error of 0.05 and a power of 0.8. After enrollment of 47 patients, we decided to complete the present interim analysis, and the study was then interrupted due to equivalence in results between the two groups.||||||0.635||||||Hydromorphone consumption (mg) in PACU versus at 24 hours versus 48 hours|ANOVA|||||||0.635
92237043|NCT01096667|184378143|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.65||||0.029|TWO_SIDED|80.0|-4.43|-0.87||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.87|-4.43|0.029
92237044|NCT01096667|184378143|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.64||||0.118|TWO_SIDED|80.0|-3.42|0.13||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.13|-3.42|0.118
92237045|NCT01096667|184378144|SUPERIORITY_OR_OTHER||Difference in least squares means|0.02||||0.506|TWO_SIDED|80.0|-1.96|2.0||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||2.00|-1.96|0.506
92237046|NCT01096667|184378144|SUPERIORITY_OR_OTHER||Difference in least squares means|1.61||||0.838|TWO_SIDED|80.0|-0.49|3.71||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||3.71|-0.49|0.838
92237047|NCT01096667|184378144|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.82||||0.123|TWO_SIDED|80.0|-3.82|0.19||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.19|-3.82|0.123
92237048|NCT01096667|184378144|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.07||||0.246|TWO_SIDED|80.0|-3.06|0.93||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.93|-3.06|0.246
92429495|NCT02849678|184746700|NON_INFERIORITY|A total sample size of 64 subjects (32 patients in each arm) is required to detect a difference of 0.5 SD, using an alpha error of 0.05 and a power of 0.8. After enrollment of 47 patients, we decided to complete the present interim analysis, and the study was then interrupted due to equivalence in results between the two groups.||||||0.063|||||||ANOVA|Local Anesthetic Consumption through para-vertebral catheters in PACU vs. at 24 hours vs. 48 hours||||||0.063
92429496|NCT00289991|184746701|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a true success rate of 50% in voriconazole (Vori) treatment (Tx) group and 45% in itraconazole (Itra) Tx group, sample size of 232 subjects per group=90% power to demonstrate non-inferiority of Vori to Itra using pre-specified non-inferiority margin of -10%. Sample has at least 80% power to demonstrate superiority of Vori over Itra if true success rates for Vori and Itra are 57% and 44% respectively. Based on this, up to 500 subjects were to be enrolled to obtain 464 eligible subjects.|percent difference adjusted proportions|16.4|||||TWO_SIDED|95.0|7.7|25.1|||Difference in adjusted responder rates|Difference in adjusted responder rates using Fleiss method|Overall treatment difference in adjusted proportions (expressed as percentages) calculated using Fleiss method.|"Non-inferiority inferred if lower limit of the 2-sided 95 percent (%) confidence interval (CI) for the difference between the voriconazole and itraconazole treatment groups in the adjusted proportion of subjects classified as Success at Day 180 after transplant is above -10%. Superiority achieved if 2-sided 95% CI for difference between these treatment groups in the adjusted proportion of subjects classified as Success at Day 180 after transplant does not include zero and is positive."||25.1|7.7|
92429497|NCT00289991|184746702|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority inferred if lower limit of the 2-sided 95% confidence interval (CI) for the difference between the voriconazole and itraconazole treatment groups in the adjusted proportion of subjects classified as Success at Day 100 after transplant is above -10%. Superiority achieved if 2-sided 95% CI for difference between these treatment groups in the adjusted proportion of subjects classified as Success at Day 100 after transplant does not include zero and is positive."|percent difference adjusted proportions|15.4|||||TWO_SIDED|95.0|6.6|24.2|||Difference in adjusted responder rates|Difference in adjusted responder rates using the Fleiss method.|Overall treatment difference in adjusted proportions (expressed as percentages) calculated using Fleiss method.|||24.2|6.6|
92429498|NCT00289991|184746704|SUPERIORITY_OR_OTHER||difference in proportions: percent|-0.4||||0.7114|TWO_SIDED|95.0|-2.2|1.5|||Difference in proportions|Difference in proportions (approximate result)|Approximate 2-sided 95 percent (%) confidence interval for the difference in proportions.|Day 100; difference in proportions (expressed as percentages), voriconazole relative to itraconazole.||1.5|-2.2|0.7114
92429499|NCT00289991|184746704|SUPERIORITY_OR_OTHER||difference in proportion: percent|-0.3||||0.7759|TWO_SIDED|95.0|-2.5|1.9|||Difference in proportions|Difference in proportions (approximate result).|Approximate 2-sided 95 percent (%) confidence interval for the difference in proportions.|Day 180; difference in proportions (expressed as percentages), voriconazole relative to itraconazole.||1.9|-2.5|0.7759
92429500|NCT00289991|184746705|SUPERIORITY_OR_OTHER||difference in proportions: percent|0.3|||||TWO_SIDED|95.0|-6.3|6.9|||Difference in proportions|Difference in proportions (approximate result)|Approximate 2-sided 95% confidence interval for the difference in proportions.|Day 180; difference in proportions (expressed as a percentage), voriconazole relative to itraconazole.||6.9|-6.3|
92429501|NCT00289991|184746706|SUPERIORITY_OR_OTHER|||||||0.0026||95.0|||||Wilcoxon (Mann-Whitney)|2-sided Wilcoxon (Mann-Whitney)||Mann-Whitney test used to investigate the null hypothesis that the times to discontinuation of study medication in each treatment group come from the same distribution.||||0.0026
92429502|NCT00289991|184746707|SUPERIORITY_OR_OTHER||difference in proportions: percent|-4.8||||0.2487|TWO_SIDED|95.0|-13.0|3.4|||Difference in proportions|Difference in proportions (approximate result)|Approximate 2-sided 95 percent % confidence interval for the difference in proportions.|Day 365; difference in proportions (expressed as a percentage), voriconazole relative to itraconazole.||3.4|-13.0|0.2487
92429503|NCT00289991|184746709|SUPERIORITY_OR_OTHER||difference in proportions: percent|-8.8||||0.057|TWO_SIDED|95.0|-17.8|0.3|||Difference in proportions|Difference in proportions (approximate result)|Approximate 2-sided 95% confidence interval for the difference in proportions.|Difference in proportions (expressed as a percentage), voriconazole relative to itraconazole.||0.3|-17.8|0.0570
92429504|NCT01090492|184746742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11||||0.6513|TWO_SIDED|80.0|-0.21|0.44|||ANCOVA|||PRP: Adjusted mean difference analysis was based on Analysis of Covariance (ANCOVA) model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||0.44|-0.21|0.6513
92429505|NCT01090492|184746742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.69||||0.0057|TWO_SIDED|80.0|-0.99|-0.38|||ANCOVA|||PRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.38|-0.99|0.0057
92429506|NCT01090492|184746742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.44||||0.1157|TWO_SIDED|80.0|-0.8|-0.08|||ANCOVA|||SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.08|-0.80|0.1157
92429507|NCT01090492|184746742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15||||0.6286|TWO_SIDED|80.0|-0.56|0.25|||ANCOVA|||SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||0.25|-0.56|0.6286
92429508|NCT01090492|184746743|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12||||0.9504|TWO_SIDED|80.0|-2.43|2.68|||ANCOVA|||At Week 4 - PRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||2.68|-2.43|0.9504
92429509|NCT01090492|184746743|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.35||||0.4651|TWO_SIDED|80.0|-3.74|1.03|||ANCOVA|||At Week 4 - PRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||1.03|-3.74|0.4651
92429510|NCT01090492|184746743|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.59||||0.7423|TWO_SIDED|80.0|-2.92|1.73|||ANCOVA|||At Week 4 - SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||1.73|-2.92|0.7423
92429511|NCT01090492|184746743|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.91||||0.3524|TWO_SIDED|80.0|-4.55|0.73|||ANCOVA|||At Week 4 - SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||0.73|-4.55|0.3524
92429512|NCT01090492|184746744|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.21||||0.79|TWO_SIDED|80.0|-4.61|7.03|||ANCOVA|||PRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||7.03|-4.61|0.7900
92429513|NCT01090492|184746744|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.17||||0.1463|TWO_SIDED|80.0|-11.61|-0.73|||ANCOVA|||PRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.73|-11.61|0.1463
92429514|NCT01090492|184746744|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.37||||0.1446|TWO_SIDED|80.0|-4.44|-0.29|||ANCOVA|||SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.29|-4.44|0.1446
92429515|NCT01090492|184746744|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.09||||0.5497|TWO_SIDED|80.0|-3.45|1.26|||ANCOVA|||SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||1.26|-3.45|0.5497
92429516|NCT01090492|184746745|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.15||||0.5909|TWO_SIDED|80.0|-0.21|0.52|||ANCOVA|||Week 4 (PRP): Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||0.52|-0.21|0.5909
92237049|NCT01096667|184378146|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.2||||0.005|TWO_SIDED|80.0|-6.3|-2.1||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-2.10|-6.30|0.005
92429517|NCT01090492|184746745|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.77||||0.0053|TWO_SIDED|80.0|-1.12|-0.43|||ANCOVA|||Week 4 (PRP): Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.43|-1.12|0.0053
92429518|NCT01090492|184746745|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.28||||0.3462|TWO_SIDED|80.0|-0.67|0.1|||ANCOVA|||Week 4 (SRP): Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||0.10|-0.67|0.3462
92429519|NCT01090492|184746745|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.44||||0.194|TWO_SIDED|80.0|-0.88|-0.01|||ANCOVA|||Week 4 (SRP): Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.01|-0.88|0.1940
92170902|NCT03398148|184230780|SUPERIORITY||Adjusted Risk Difference|8.4||||0.046|TWO_SIDED|90.0|1.5|15.3||P-value ≤ 0.05|Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel (CMH) test stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (≤ 7, \> 7).|Risk difference = (risankizumab - Placebo)|||15.3|1.5|0.0460
92239825|NCT04184622|184383617|SUPERIORITY||Odds Ratio (OR)|44.17|||<|0.001|TWO_SIDED|95.0|31.75|61.45|||Regression, Logistic|||||61.45|31.75|<.001
92429520|NCT00457301|184746784|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.1||0.05||95.0|||||ANCOVA|||Sample size was calculated based on the EQ-5D index score. To compare two independent means for a parallel trial design, 100 patients in each group were needed to detect a clinically important difference (CID) in EQ-5D index score (CID = 0.10, SD = 0.25) with a 5% probability of Type I error and 80% power.||||0.05
92429521|NCT00457301|184746785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34||95.0|||||ANCOVA|||ANCOVA adjuusting for baseline HADS anxiety scores||||0.34
92429522|NCT00457301|184746785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0|||||ANCOVA|||ANCOVA adjusting for baseline HADS depression scores.||||0.55
92429523|NCT00457301|184746786|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.79|STANDARD_ERROR_OF_MEAN|0.23||0.001||95.0|||||ANCOVA|||||||0.001
92429524|NCT00457301|184746787|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.46||95.0|||||ANCOVA|||Sample size was calculated based on the EQ-5D index score. To compare two independent means for a parallel trial design, 100 patients in each group were needed to detect a clinically important difference (CID) in EQ-5D index score (CID = 0.10, SD = 0.25) with a 5% probability of Type I error and 80% power.||||0.46
92429525|NCT03583697|184746802|SUPERIORITY||Least Square Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-0.02|0.53||||||"Z-Scores were derived using age-sex specific reference data (means and SDs) for average stature children per the Centers for Disease Control and Prevention.~Participants aged \< 24 months, body length takes precedence over standing height. Participants aged \< 24 months at baseline and \>= 24 months at Week 52, body length takes precedence.~Difference in least squares (LS) means were obtained from an analysis of covariance model."||0.53|-0.02|
92170903|NCT03398148|184230780|SUPERIORITY||Adjusted Risk Difference|8.7||||0.0397|TWO_SIDED|90.0|1.7|15.6||P-value ≤ 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel (CMH) test stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (≤ 7, \> 7).|Risk difference = (risankizumab - Placebo).|||15.6|1.7|0.0397
92429526|NCT03583697|184746802|SUPERIORITY||Least Square Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|0.07|0.54||||||"Z-Scores were derived using age-sex specific reference data (means and SDs) for average stature children per the Centers for Disease Control and Prevention.~Participants aged \< 24 months, body length takes precedence over standing height. Participants aged \< 24 months at baseline and \>= 24 months at Week 52, body length takes precedence.~Difference in LS means were obtained from an analysis of covariance model."||0.54|0.07|
92429527|NCT03583697|184746803|SUPERIORITY||Least Square Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|-0.02|1.56||||||Difference in LS means were obtained from an analysis of covariance model.||1.56|-0.02|
92429528|NCT03583697|184746803|SUPERIORITY||Least Square Mean Difference (Net)|0.96|||||TWO_SIDED|95.0|0.26|1.66||||||Difference in LS means were obtained from an analysis of covariance model.||1.66|0.26|
92429529|NCT03583697|184746804|SUPERIORITY||Least Square Mean Difference (Net)|0.78|||||TWO_SIDED|95.0|0.02|1.54||||||||1.54|0.02|
92429530|NCT03583697|184746804|SUPERIORITY||Least Square Mean Difference (Net)|0.92|||||TWO_SIDED|95.0|0.24|1.59||||||Difference in LS means were obtained from an analysis of covariance model.||1.59|0.24|
92429531|NCT03583697|184746805|SUPERIORITY||Least Square Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.17|0.04||||||Difference in LS means were obtained from an analysis of covariance model.||0.04|-0.17|
92429532|NCT03583697|184746805|SUPERIORITY||Least Square Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-0.15|0.03||||||Difference in LS means were obtained from an analysis of covariance model.||0.03|-0.15|
92429533|NCT00365508|184746856|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||a priori threshold for statistical significance|Chi-squared|||Chi-square was used to examine the relationship between treatment arm and 24-hour point prevalence abstinence at 6-months.||||.05
92429534|NCT00679432|184746868|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|5.8||||0.1393|TWO_SIDED|95.0|-1.8|13.4|||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|All p-values were based on the Chi-square test; comparisons of budesonide MMX and placebo were conducted at the α = 0.025 level of significance and the comparison of Asacol and placebo were conducted at the α = 0.05 level of significance. The study was not powered to show statistical significance for Asacol versus budesonide MMX.||13.4|-1.8|0.1393
92429535|NCT00679432|184746868|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|10.4||||0.0143|TWO_SIDED|95.0|2.2|18.7|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||18.7|2.2|0.0143
92429536|NCT00679432|184746868|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|4.7||||0.22|TWO_SIDED|95.0|-2.7|12.1|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||12.1|-2.7|0.2200
92429537|NCT00679432|184746869|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|5.8||||0.3146|TWO_SIDED|95.0|-5.5|17.0|||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|Clinical improvement and endoscopic improvement were analyzed hierarchically. If at least one primary endpoint comparison was statistically significant, clinical improvement was to be compared between each budesonide MMX group and placebo at the α = 0.025 level of significance. If at least one comparison of clinical improvement was statistically significant, endoscopic improvement was to be compared between each budesonide MMX dose group and placebo at the α = 0.025 level of significance.||17.0|-5.5|0.3146
92429538|NCT00679432|184746869|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|8.5||||0.142|TWO_SIDED|95.0|-2.8|19.9|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||19.9|-2.8|0.1420
92429539|NCT00679432|184746869|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|9.1||||0.1189|TWO_SIDED|95.0|-2.3|20.4|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||20.4|-2.3|0.1189
92429540|NCT00679432|184746870|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|0.0||||0.9991|TWO_SIDED|95.0|-11.8|11.8|||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|As per the hierarchical testing procedure for secondary endpoints, because clinical improvement was not statistically significant in the ITT population, formal statistical comparisons for endoscopic improvement between the 2 budesonide MMX groups and placebo were not conducted. The statistical comparison between the Asacol and placebo groups is shown here.||11.8|-11.8|0.9991
92429541|NCT00824720|184746871|SUPERIORITY_OR_OTHER||least square mean difference|-0.22|STANDARD_DEVIATION|2.3||0.9737|||||||ANCOVA||Mean difference was calculated as high dose minus placebo.|The alternative hypothesis was that the high dose was different from the placebo.||||0.9737
92429542|NCT00824720|184746871|SUPERIORITY_OR_OTHER||least square mean difference|-1.11|STANDARD_DEVIATION|3.5||0.4711|||||||ANCOVA||The mean difference was calculated as low dose minus placebo.|The alternative hypothesis is that the low dose was different from placebo.||||0.4711
92429543|NCT01558271|184746888|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.57|||<|0.001|TWO_SIDED|95.0|-1.79|-1.35|||Mixed Models Analysis|||Approximately 490 participants were to be randomized in a 4:1:2 ratio to LY2189265, placebo, or Liraglutide, respectively. This sample size would provide greater than 99% power to demonstrate superiority of LY2189265 to placebo. This computation assumed a true mean difference in HbA1c change from baseline between LY2189265 and placebo being 0.8%, a common standard deviation of 1.1%, a 1-sided significance level of 0.025, and a 9% drop-out rate between randomization and Week 26.||-1.35|-1.79|<0.001
92429544|NCT01558271|184746888|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% Confidence Interval (CI) was \<0.4%, then LY2189265 was declared non-inferior to Liraglutide. If the upper limit of the 95% CI was \<0.0%, then LY2189265 was declared superior to liraglutide.|LS Mean Difference|-0.1||||0.248|TWO_SIDED|95.0|-0.27|0.07|||Mixed Models Analysis|||Approximately 490 participants were to be randomized in a 4:1:2 ratio to LY2189265, placebo, or Liraglutide, respectively. This sample size would provide \>90% power to confirm non-inferiority of LY2189265 to liraglutide by a margin of 0.4%. This computation assumed a true mean difference in HbA1c change from baseline between LY2189265 and Liraglutide being 0%, a common standard deviation of 1.1%, a 1-sided significance level of 0.025, and a 9% drop-out rate between randomization and Week 26.||0.07|-0.27|0.248
92429545|NCT01558271|184746889|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.04|TWO_SIDED|95.0|-0.39|-0.01|||Mixed Models Analysis|||||-0.01|-0.39|0.040
92429546|NCT01558271|184746890|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Treatment comparison for HbA1c \<7% at 26 weeks between LY2189265 and placebo.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||<0.001
92429547|NCT01558271|184746890|SUPERIORITY_OR_OTHER|||||||0.608|TWO_SIDED|||||Treatment comparison for HbA1c \<7% at 26 weeks between LY2189265 and Liraglutide.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||0.608
92429548|NCT01558271|184746890|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Treatment comparison for HbA1c \<=6.5% at 26 weeks between LY2189265 and placebo.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||<0.001
92429549|NCT01558271|184746890|SUPERIORITY_OR_OTHER|||||||0.844|TWO_SIDED|||||Treatment comparison for HbA1c \<=6.5% at 26 weeks between LY2189265 and Liraglutide.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||0.844
92429550|NCT01558271|184746890|SUPERIORITY_OR_OTHER|||||||0.112|TWO_SIDED|||||Treatment comparison for HbA1c \<7% at 52 weeks between LY2189265 and Liraglutide.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||0.112
92429551|NCT01558271|184746890|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED|||||Treatment comparison for HbA1c \<=6.5% at 52 weeks between LY2189265 and Liraglutide.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||0.103
92237050|NCT01096667|184378146|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.12||||0.248|TWO_SIDED|80.0|-3.23|0.99||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||0.99|-3.23|0.248
92429552|NCT01558271|184746891|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.21|||<|0.001|TWO_SIDED|95.0|-47.31|-33.11||Treatment comparison for FBG at 26 weeks between LY2189265 and placebo.|Mixed Models Analysis|||||-33.11|-47.31|<0.001
92237051|NCT01096667|184378146|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.84||||0.01|TWO_SIDED|80.0|-5.95|-1.73||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-1.73|-5.95|0.010
92429553|NCT01558271|184746891|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.835|TWO_SIDED|95.0|-4.82|5.96|||Mixed Models Analysis|Treatment comparison for FBG at 26 weeks between LY2189265 and Liraglutide.||||5.96|-4.82|0.835
92429554|NCT01558271|184746891|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.77||||0.553|TWO_SIDED|95.0|-7.65|4.1||Treatment comparison for FBG at 52 weeks between LY2189265 and Liraglutide.|Mixed Models Analysis|||||4.10|-7.65|0.553
92429555|NCT01558271|184746893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61||||0.057|TWO_SIDED|95.0|-0.02|1.23|||Mixed Models Analysis|Treatment comparison for body weight at 26 weeks between LY2189265 and placebo.||||1.23|-0.02|0.057
92429556|NCT01558271|184746893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.168|TWO_SIDED|95.0|-0.14|0.82||Treatment comparison for body weight at 26 weeks between LY2189265 and Liraglutide.|Mixed Models Analysis|||||0.82|-0.14|0.168
92429557|NCT01558271|184746893|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.911|TWO_SIDED|95.0|-0.64|0.57||Treatment comparison for body weight at 52 weeks between LY2189265 and Liraglutide.|Mixed Models Analysis|||||0.57|-0.64|0.911
92429558|NCT01558271|184746894|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.86||||0.723|TWO_SIDED|95.0|-12.2|8.48||Treatment comparison for HOMA2-%S based on fasting insulin at 26 weeks between LY2189265 and placebo.|ANCOVA|||||8.48|-12.20|0.723
92429559|NCT01558271|184746894|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01||||0.998|TWO_SIDED|95.0|-7.92|7.91||Treatment comparison for HOMA2-%S based on fasting insulin at 26 weeks between LY2189265 and Liraglutide.|ANCOVA|||||7.91|-7.92|0.998
92429560|NCT01558271|184746894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.83||||0.848|TWO_SIDED|95.0|-7.72|9.38||Treatment comparison for HOMA2-%S based on fasting C-peptide at 26 weeks between LY2189265 and placebo.|ANCOVA|||||9.38|-7.72|0.848
92429561|NCT01558271|184746894|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.03||||0.357|TWO_SIDED|95.0|-9.48|3.42||Treatment comparison for HOMA2-%S based on fasting C-peptide at 26 weeks between LY2189265 and Liraglutide.|ANCOVA|||||3.42|-9.48|0.357
92429562|NCT01558271|184746894|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.49||||0.533|TWO_SIDED|95.0|-10.35|5.36||Treatment comparison for HOMA2-%S based on fasting insulin at 52 weeks between LY2189265 and Liraglutide.|ANCOVA|||||5.36|-10.35|0.533
92429563|NCT01558271|184746894|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.03||||0.747|TWO_SIDED|95.0|-7.32|5.25||Treatment comparison for HOMA2-%S based on fasting C-peptide at 52 weeks between LY2189265 and Liraglutide.|ANCOVA|||||5.25|-7.32|0.747
92429564|NCT01558271|184746895|SUPERIORITY_OR_OTHER||LS Mean Difference|28.35|||<|0.001|TWO_SIDED|95.0|21.63|35.07||Treatment comparison for HOMA2-%B based on fasting insulin at 26 weeks between LY2189265 and placebo.|ANCOVA|||||35.07|21.63|<0.001
92429565|NCT01558271|184746895|SUPERIORITY_OR_OTHER||LS Mean Difference|3.08||||0.242|TWO_SIDED|95.0|-2.09|8.24||Treatment comparison for HOMA2-%B based on fasting insulin at 26 weeks between LY2189265 and Liraglutide.|ANCOVA|||||8.24|-2.09|0.242
92429566|NCT01558271|184746895|SUPERIORITY_OR_OTHER||LS Mean Difference|24.82|||<|0.001|TWO_SIDED|95.0|19.25|30.4||Treatment comparison for HOMA2-%B based on fasting C-peptide at 26 weeks between LY2189265 and placebo.|ANCOVA|||||30.40|19.25|<0.001
92429567|NCT01558271|184746895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.91||||0.376|TWO_SIDED|95.0|-2.32|6.13||Treatment comparison for HOMA2-%B based on fasting C-peptide at 26 weeks between LY2189265 and Liraglutide.|ANCOVA|||||6.13|-2.32|0.376
92237052|NCT01096667|184378146|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.33||||0.02|TWO_SIDED|80.0|-5.4|-1.25||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-1.25|-5.40|0.020
92429568|NCT01558271|184746895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.91||||0.417|TWO_SIDED|95.0|-2.72|6.54||Treatment comparison for HOMA2-%B based on fasting insulin at 52 weeks between LY2189265 and Liraglutide.|ANCOVA|||||6.54|-2.72|0.417
92429569|NCT01558271|184746895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73||||0.753|TWO_SIDED|95.0|-3.83|5.29||Treatment comparison for HOMA2-%B based on fasting C-peptide at 52 weeks between LY2189265 and Liraglutide.|ANCOVA|||||5.29|-3.83|0.753
92429570|NCT01558271|184746896|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED|||||Treatment comparison at 26 weeks between LY2189265 and placebo.|Fisher Exact|||||||>0.999
92429571|NCT01558271|184746896|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED|||||Treatment comparison at 26 weeks between LY2189265 and Liraglutide.|Fisher Exact|||||||>0.999
92429572|NCT01558271|184746896|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED|||||Treatment comparison at 52 weeks between LY2189265 and Liraglutide.|Fisher Exact|||||||>0.999
92429573|NCT02610725|184746907|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|0.81||0.013|TWO_SIDED|95.0|-3.73|-0.46|||t-test, 2 sided|51 degrees of freedom.|Means were analyzed in (pre-post) format. A negative mean here indicates an increase in positive affect.|Paired-samples t-tests were used to analyze change in affect after participating in the yoga class. Analyses were conducted to measure changes in both positive affect and negative affect. This entry describes positive affect analysis.||-0.46|-3.73|0.013
92237053|NCT01096667|184378148|SUPERIORITY_OR_OTHER||Difference in least squares means|42.18||||0|TWO_SIDED|80.0|31.42|52.94||P-value is one-sided. P-value rounded to thousandths.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||52.94|31.42|0.000
92237054|NCT01096667|184378148|SUPERIORITY_OR_OTHER||Difference in least squares means|60.39||||0|TWO_SIDED|80.0|49.47|71.31||P-value is one-sided. P-value rounded to thousandths.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||71.31|49.47|0.000
92237055|NCT01096667|184378148|SUPERIORITY_OR_OTHER||Difference in least squares means|70.34||||0|TWO_SIDED|80.0|59.58|81.1||P-value is one-sided. P-value rounded to thousandths.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||81.10|59.58|0.000
92237056|NCT01096667|184378148|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.63||||0.713|TWO_SIDED|80.0|-15.22|5.96||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||5.96|-15.22|0.713
92237057|NCT01096667|184378150|SUPERIORITY_OR_OTHER||Difference in least squares means|-18.1||||0.007|TWO_SIDED|80.0|-27.45|-8.75||P-value is one-sided.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||-8.75|-27.45|0.007
92429574|NCT02610725|184746907|SUPERIORITY||Mean Difference (Final Values)|6.06|STANDARD_ERROR_OF_MEAN|0.98|<|0.001|TWO_SIDED|95.0|4.1|8.02|||t-test, 2 sided|51 degrees of freedom|Means were analyzed in a (pre-post) format. A positive mean indicates a decrease in negative affect.|Paired-samples t-tests were used to analyze change in affect after participating in the yoga class. Analyses were conducted to measure changes in both positive affect and negative affect. This entry describes negative affect analysis.||8.02|4.10|<0.001
92429575|NCT00743483|184746914|SUPERIORITY_OR_OTHER|||||||0.2179|TWO_SIDED||||||t-test, 2 sided|||||||0.2179
92429576|NCT00873912|184746926|NON_INFERIORITY_OR_EQUIVALENCE|Based on similar fever rate with 300 evaluable subjects (240 vaccine and 60 placebo recipients), the study would provide at least 98% power to rule out a rate increase of 5 percentage points assuming the true difference between the treatment groups is zero and the true fever rate is ≤ 1.0%. Power would be lower if the true difference was different from zero.|rate difference|-1.3|||||TWO_SIDED|95.0|-7.9|1.3|||score statistic|||The percentage of subjects with fever was compared between the two treatment groups based on the upper limit of the two-sided 95% CIs for rate difference (monovalent vaccine minus placebo). The upper limit of the two-sided 95% CI was evaluated against the pre-specified equivalence criterion of 5 percentage points which corresponded to the following hypotheses: - H0 (null): rate difference ≥ 5 percentage points, - HA (alternative): rate difference \< 5 percentage points.||1.3|-7.9|
92429577|NCT01703039|184746964|SUPERIORITY|||||||0.06|||||||ANOVA|||||||0.06
92429578|NCT01703039|184746965|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
92429579|NCT01703039|184746966|SUPERIORITY|||||||0.34|||||||Chi-squared|||||||0.34
92429580|NCT01703039|184746967|SUPERIORITY|||||||0.27|||||||ANOVA|||||||0.27
92429581|NCT01703039|184746968|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
92429582|NCT00147446|184746979|SUPERIORITY_OR_OTHER||Wilcoxon two smaple test statistics|2.09||||0.04||95.0|||||Wilcoxon (Mann-Whitney)|||It was hypothesized that treatment with stress management produced a significant reduction in cumulative Gd+ lesions compared to the control condition during the treatment period||||0.04
92429583|NCT00147446|184746979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.77||||0.02|TWO_SIDED|95.0|1.17|6.55|||Logistic Regression|||It was hypothesized that significantly greater numbers of participants receiving stress management remained free of Gd+ lesions during the treatment, compared to those receiving the control condition.||6.55|1.17|0.02
92429584|NCT00147446|184746980|SUPERIORITY_OR_OTHER||Wilcoxon two sample test statistics|2.84||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|||It was hypothesized that participants receiving SMT-MS showed a significant reduction in cumulative new T2 lesions, compared to those receiving the control condition during the treatment period.||||0.005
92429585|NCT00147446|184746980|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.07||||0.006|TWO_SIDED|95.0|1.38|6.81|||Logistic Regression|||It was hypothesized that significantly greater numbers of participants receiving SMT-MS remained free of new T2 lesions during the treatment, compared to control condition participants.||6.81|1.38|0.006
92170904|NCT03398148|184230781|SUPERIORITY||Adjusted Risk Difference|14.0|||<|0.0001|TWO_SIDED|95.0|10.0|18.0||Type I error rate control.|Cochran-Mantel-Haenszel|Stratified by Advanced Therapy-IR status (yes vs no), Baseline steroid use (yes vs. no) and Baseline Adapted Mayo Score (≤ 7, \> 7).||||18.0|10.0|<0.0001
92237058|NCT01096667|184378150|SUPERIORITY_OR_OTHER||Difference in least squares means|-34.81||||0|TWO_SIDED|80.0|-44.19|-25.43||P-value is one-sided. P-value rounded to thousandths.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||-25.43|-44.19|0.000
92429586|NCT02302807|184746981|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.4134|TWO_SIDED|95.0|0.63|1.21|||Log Rank|||||1.21|0.63|0.4134
92429587|NCT02302807|184746981|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.71|1.05||||||||1.05|0.71|
92429588|NCT02302807|184746981|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.73|0.99||||||||0.99|0.73|
92429589|NCT01135420|184747017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||<|0.05|TWO_SIDED||||||ANCOVA|||||||<.05
92429590|NCT00717197|184747024|SUPERIORITY_OR_OTHER||Percentage|21.7|STANDARD_ERROR_OF_MEAN|7.27|||TWO_SIDED|95.0|7.46|43.7||||||||43.7|7.46|
92429591|NCT03003390|184747029|SUPERIORITY||Posterior probabilities|0.09|||||TWO_SIDED||||||||||Using informative priors of B(1, 1) on the enoxaparin arm and B(18, 82) on the usual care arm, the risks of CADVT were 0.32 (95% CrI: 0.16, 0.51) in the enoxaparin arm and 0.25 (95% CrI: 0.18, 0.33) in the usual care arm. The posterior probability that the absolute difference in the risk of CADVT was lower by 0.06 in the enoxaparin arm was 9.1%. Using minimally informative priors, the risk ratio of CADVT with enoxaparin was 0.55 (95% CrI: 0.24, 1.11).|||
92429592|NCT03003390|184747030|SUPERIORITY|||||||0.22|||||||Linear mixed effects model|||||||0.22
92429593|NCT03003390|184747031|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92237059|NCT01096667|184378150|SUPERIORITY_OR_OTHER||Difference in least squares means|-35.42||||0|TWO_SIDED|80.0|-44.78|-26.07||P-value is one-sided. P-value rounded to thousandths.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||-26.07|-44.78|0.000
92237060|NCT01096667|184378150|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.61||||0.467|TWO_SIDED|80.0|-9.86|8.65||P-value is one-sided.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||8.65|-9.86|0.467
92237061|NCT01096667|184378151|SUPERIORITY_OR_OTHER||Difference in least squares means|-5.54||||0.224|TWO_SIDED|80.0|-14.89|3.82||P-value is one-sided.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||3.82|-14.89|0.224
92429594|NCT03003390|184747032|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
92429595|NCT03003390|184747033|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||0.58
92429596|NCT03003390|184747034|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92429597|NCT03003390|184747036|SUPERIORITY|||||||0.43|||||||Fisher Exact|||||||0.43
92429598|NCT03311724|184747100|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.5|-1.4|||Mixed Models Analysis|||||-1.4|-2.5|<0.001
92429599|NCT03311724|184747100|SUPERIORITY||Mean Difference (Final Values)|-2.2|||<|0.001|TWO_SIDED|95.0|-2.8|-1.7|||Mixed Models Analysis|||||-1.7|-2.8|<0.001
92429600|NCT03311724|184747100|SUPERIORITY||Mean Difference (Final Values)|-2.0|||<|0.001|TWO_SIDED|95.0|-2.5|-1.4|||Mixed Models Analysis|||||-1.4|-2.5|<0.001
92429601|NCT03311724|184747101|SUPERIORITY||Odds Ratio (OR)|56.54|||<|0.001|TWO_SIDED|95.0|9.43|338.97|||Regression, Logistic|||||338.97|9.43|<0.001
92429602|NCT03311724|184747101|SUPERIORITY||Odds Ratio (OR)|183.48|||<|0.001|TWO_SIDED|95.0|22.0|999.0|||Regression, Logistic||"Maximum confidential interval is \>999"|||999|22.0|<0.001
92429603|NCT03311724|184747101|SUPERIORITY||Odds Ratio (OR)|157.54|||<|0.001|TWO_SIDED|95.0|21.63|999.0|||Regression, Logistic||"Maximum confidential interval is \>999"|||999|21.63|<0.001
92429604|NCT03311724|184747102|SUPERIORITY||Mean Difference (Final Values)|-48.5|||<|0.001|TWO_SIDED|95.0|-70.6|-26.3|||Mixed Models Analysis|||||-26.3|-70.6|<0.001
92429605|NCT03311724|184747102|SUPERIORITY||Mean Difference (Final Values)|-58.0|||<|0.001|TWO_SIDED|95.0|-80.7|-35.2|||Mixed Models Analysis|||||-35.2|-80.7|<0.001
92429606|NCT03311724|184747102|SUPERIORITY||Mean Difference (Final Values)|-61.9|||<|0.001|TWO_SIDED|95.0|-84.6|-39.2|||Mixed Models Analysis|||||-39.2|-84.6|<0.001
92429607|NCT03311724|184747103|SUPERIORITY||Mean Difference (Final Values)|-4.8|||<|0.001|TWO_SIDED|95.0|-7.1|-2.6|||Mixed Models Analysis|||||-2.6|-7.1|<0.001
92429608|NCT03311724|184747103|SUPERIORITY||Mean Difference (Final Values)|-5.0|||<|0.001|TWO_SIDED|95.0|-7.2|-2.7|||Mixed Models Analysis|||||-2.7|-7.2|<0.001
92429609|NCT03311724|184747103|SUPERIORITY||Mean Difference (Final Values)|-5.2|||<|0.001|TWO_SIDED|95.0|-7.5|-2.9|||Mixed Models Analysis|||||-2.9|-7.5|<0.001
92429610|NCT03311724|184747104|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.075|TWO_SIDED|95.0|-4.7|0.2|||Mixed Models Analysis|||||0.2|-4.7|0.075
92429611|NCT03311724|184747104|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.065|TWO_SIDED|95.0|-4.9|0.1|||Mixed Models Analysis|||||0.1|-4.9|0.065
92429612|NCT03311724|184747104|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.065|TWO_SIDED|95.0|-4.9|0.2|||Mixed Models Analysis|||||0.2|-4.9|0.065
92429613|NCT02955602|184747143|OTHER||||||=|0.2242|||||||ANCOVA|||The analyses will assess the change from baseline in each treatment group and will assess the hypothesis that there are no differences in the percent change in ALP serum level between seladelpar 2 mg and 5 mg treatment groups after 8 weeks of treatment.||||= 0.2242
92429614|NCT02955602|184747143|OTHER||||||=|0.0021|||||||ANCOVA|||The analyses will assess the change from baseline in each treatment group and will assess the hypothesis that there are no differences in the percent change in ALP serum level between seladelpar 2 mg and 10 mg treatment groups after 8 weeks of treatment||||= 0.0021
92429615|NCT02955602|184747143|OTHER||||||=|0.0024|||||||ANCOVA|||The analyses will assess the change from baseline in each treatment group and will assess the hypothesis that there are no differences in the percent change in ALP serum level between seladelpar 5 mg and 10 mg treatment groups after 8 weeks of treatment||||= 0.0024
92429616|NCT01581931|184747163|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin: the 90% confidence intervall has to be within the intervall (80%, 125%)|Adjusted geometric mean ratio|97.69|STANDARD_DEVIATION|9.7|||TWO_SIDED|95.0|93.63|101.94|||ANOVA||Numerator: FDC tablet; denominator: single tablets of linagliptin and metformin; The dispersion parameter is actually the geometric coefficient of variation.|||101.94|93.63|
92429617|NCT01581931|184747166|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin: the 90% confidence intervall has to be within the intervall (80%, 125%)|Adjusted geometric mean ratio|97.76|STANDARD_DEVIATION|9.8|||TWO_SIDED|90.0|93.64|102.07|||ANOVA||Numerator: FDC tablet; denominator: single tablets of linagliptin and metformin; The dispersion parameter is actually the geometric coefficient of variation.|||102.07|93.64|
92429618|NCT01581931|184747167|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin: the 90% confidence intervall has to be within the intervall (80%, 125%)|Adjusted geometric mean ratio|98.79|STANDARD_DEVIATION|10.0|||TWO_SIDED|90.0|94.55|103.21|||ANOVA||Numerator: FDC tablet; denominator: single tablets of linagliptin and metformin; The dispersion parameter is actually the geometric coefficient of variation.|||103.21|94.55|
92429619|NCT04666051|184747180|SUPERIORITY|Data from both groups has been collected compared to verify significant statistical difference||||||0.022|||||||Chi-squared|||||||0.022
92429620|NCT00980057|184747208|NON_INFERIORITY|The non-inferiority margin was 12%.||||||0.0002|||||||Farrington-Manning test of two ind. prop|||||||0.0002
92429621|NCT00980057|184747209|SUPERIORITY|The pre-specified minimum objective performance criteria was 0.82|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92429622|NCT00980057|184747211|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92170905|NCT03398148|184230782|SUPERIORITY||Adjusted Risk Difference|18.7||||0.0028|TWO_SIDED|90.0|8.4|29.0||P-value ≤ 0.01|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||29.0|8.4|0.0028
92429623|NCT00980057|184747212|NON_INFERIORITY|The non-inferiority margin is 15|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92429624|NCT00980057|184747213|NON_INFERIORITY|The non-inferiority margin is 2.5||||||0.0009|||||||t-test, 1 sided|||||||0.0009
92429625|NCT00980057|184747214|NON_INFERIORITY|The non-inferiority margin is 0.3|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92170906|NCT03398148|184230782|SUPERIORITY||Adjusted Risk Difference|8.4||||0.0968|TWO_SIDED|90.0|0.1|16.7||P-value ≤ 0.1|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||16.7|0.1|0.0968
92429626|NCT00980057|184747215|NON_INFERIORITY|The non-inferiority margin is 30||||||0.0002|||||||t-test, 1 sided|||||||0.0002
92429627|NCT00980057|184747216|NON_INFERIORITY|The non-inferiority margin is 5.1||||||0.002|||||||t-test, 1 sided|||||||0.002
92429628|NCT00964860|184747228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.05||0.001|ONE_SIDED|95.0||||a priori threshold for statistical significance = 0.05|ANCOVA||All treatment comparisons were 1-sided with the significance level set at 5%. Units on the MGI Scale.|||||0.001
92429629|NCT00964860|184747229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.05||0.004|ONE_SIDED|95.0||||a priori threshold for statistical significance = 0.05|ANCOVA||All treatment comparisons were 1-sided with the significance level set at 5%|||||0.004
92429630|NCT02585960|184747230|SUPERIORITY||Gaussian Statistic estimate|1.96||||0.0545|TWO_SIDED|95.0|-0.038|3.958|||Chi-squared||Approximately Gaussian Statistic is obtained by taking the square root of the Chi-squared test with continuity adjustment.|The proportion of participants with an ABR of 0 during the second 6-month period on BAX 855 prophylaxis, was compared between the 2 prophylaxis arms using a chi-square test with continuity correction at a 2-sided 5% level of significance.||3.958|-0.038|0.0545
92429631|NCT01847274|184747258|SUPERIORITY||Hazard Ratio (HR)|0.27|||<|0.0001|TWO_SIDED|95.0|0.173|0.41||Two-sided P-value. PFS was independently evaluated in gBRCAmut cohort and non-gBRCAmut cohort.|Log Rank|Strata: tm to progression after penultimate platinum tx; use of bevacizumab w/penultimate or last platinum tx; best response during last platinum tx.|Niraparib:Placebo, based on the stratified Cox Proportional Hazards Model using randomization stratification factors.|||0.410|0.173|<0.0001
92429632|NCT01847274|184747259|SUPERIORITY||Hazard Ratio (HR)|0.38|||<|0.0001|TWO_SIDED|95.0|0.243|0.586||Two-sided P-value. PFS was independently evaluated in gBRCAmut cohort and non-gBRCAmut cohort. Hierarchical testing: HRD+ subset tested first. If HRD+ subset demonstrated statistical significance, overall non-gBRCA cohort was then tested|Log Rank|Strata: tm to progression after penultimate platinum tx; use of bevacizumab w/penultimate or last platinum tx; best response during last platinum tx.|Niraparib:Placebo, based on the stratified Cox Proportional Hazards Model using randomization stratification factors.|||0.586|0.243|<0.0001
92239826|NCT04184622|184383617|SUPERIORITY||Odds Ratio (OR)|65.64|||<|0.001|TWO_SIDED|95.0|45.94|93.77|||Regression, Logistic|||||93.77|45.94|<.001
92429633|NCT01847274|184747260|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.338|0.607||Two-sided P-value. PFS was independently evaluated in gBRCAmut cohort and non-gBRCAmut cohort. Hierarchical testing: HRD+ subset tested first. If HRD+ subset demonstrated statistical significance, overall non-gBRCA cohort was then tested.|Log Rank|Strata: tm to progression after penultimate platinum tx; use of bevacizumab w/penultimate or last platinum tx; best response during last platinum tx.|Niraparib:Placebo, based on the stratified Cox Proportional Hazards Model using randomization stratification factors.|||0.607|0.338|<0.0001
92429634|NCT01847274|184747261|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0005|TWO_SIDED|95.0|0.412|0.783||Two-sided p-value|Log Rank|||||0.783|0.412|0.0005
92429635|NCT01847274|184747262|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.454|0.74||Two-sided P-value.|Log Rank|||||0.740|0.454|<0.0001
92429636|NCT01847274|184747263|SUPERIORITY||Hazard Ratio (HR)|0.39|||<|0.0001|TWO_SIDED|95.0|0.268|0.561||Two-sided P-value.|Log Rank|||||0.561|0.268|<0.0001
92429637|NCT01847274|184747264|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|95.0|0.428|0.727||Two-sided P-value.|Log Rank|||||0.727|0.428|<0.0001
92429638|NCT01847274|184747265|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0302|TWO_SIDED|95.0|0.5|0.968||Two-sided P-value.|Log Rank|||||0.968|0.500|0.0302
92429639|NCT01847274|184747266|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0748|TWO_SIDED|95.0|0.627|1.022||Two-sided P-value.|Log Rank|||||1.022|0.627|0.0748
92429640|NCT01847274|184747267|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.358|TWO_SIDED|95.0|0.606|1.198||Two-sided P-value.|Log Rank|||||1.198|0.606|0.3580
92429641|NCT01847274|184747268|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.6868|TWO_SIDED|95.0|0.813|1.369||Two-sided P-value.|Log Rank|||||1.369|0.813|0.6868
92429642|NCT01847274|184747269|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0061|TWO_SIDED|95.0|0.451|0.878||Two-sided P-value.|Log Rank|||||0.878|0.451|0.0061
92429643|NCT01847274|184747270|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1674|TWO_SIDED|95.0|0.654|1.077||Two-sided P-value.|Log Rank|||||1.077|0.654|0.1674
92237062|NCT01096667|184378151|SUPERIORITY_OR_OTHER||Difference in least squares means|-17.0||||0.011|TWO_SIDED|80.0|-26.39|-7.61||P-value is one-sided.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||-7.61|-26.39|0.011
92429644|NCT01847274|184747287|SUPERIORITY|||||||0.7969|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.7969
92429645|NCT01847274|184747287|SUPERIORITY|||||||0.8794|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.8794
92429646|NCT01847274|184747288|SUPERIORITY|||||||0.2399|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.2399
92237063|NCT01096667|184378151|SUPERIORITY_OR_OTHER||Difference in least squares means|-26.59||||0|TWO_SIDED|80.0|-35.84|-17.33||P-value is one-sided. P-value rounded to thousandths.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||-17.33|-35.84|0.000
92429647|NCT01847274|184747288|SUPERIORITY|||||||0.4584|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.4584
92429648|NCT01847274|184747289|SUPERIORITY|||||||0.8566|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.8566
92429649|NCT01847274|184747289|SUPERIORITY|||||||0.4705|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.4705
92429650|NCT01847274|184747290|SUPERIORITY|||||||0.8521|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.8521
92429651|NCT01847274|184747290|SUPERIORITY|||||||0.9923|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.9923
92429652|NCT01847274|184747291|SUPERIORITY|||||||0.9997|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.9997
92429653|NCT01847274|184747291|SUPERIORITY|||||||0.3518|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.3518
92237064|NCT01096667|184378151|SUPERIORITY_OR_OTHER||Difference in least squares means|8.65||||0.886|TWO_SIDED|80.0|-0.56|17.87||P-value is one-sided.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||17.87|-0.56|0.886
92239827|NCT04184622|184383618|SUPERIORITY||Odds Ratio (OR)|17.08|||<|0.001|TWO_SIDED|95.0|11.83|24.66|||Regression, Logistic|||||24.66|11.83|<0.001
92239828|NCT04184622|184383618|SUPERIORITY||Odds Ratio (OR)|51.84|||<|0.001|TWO_SIDED|95.0|35.42|75.88|||Regression, Logistic|||||75.88|35.42|<0.001
92429654|NCT01847274|184747292|SUPERIORITY|||||||0.9367|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.9367
92429655|NCT01847274|184747292|SUPERIORITY|||||||0.2502|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.2502
92429656|NCT01847274|184747293|SUPERIORITY|||||||0.5037|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.5037
92429657|NCT01847274|184747293|SUPERIORITY|||||||0.164|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.1640
92429658|NCT01847274|184747294|SUPERIORITY|||||||0.9599|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.9599
92429659|NCT01847274|184747294|SUPERIORITY|||||||0.247|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.2470
92429660|NCT01847274|184747295|SUPERIORITY|||||||0.5921|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.5921
92429661|NCT01847274|184747295|SUPERIORITY|||||||0.7459|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.7459
92429662|NCT01847274|184747296|SUPERIORITY|||||||0.0259|||||||Pearson's Chi-squared test|||||||0.0259
92429663|NCT01847274|184747296|SUPERIORITY|||||||0.2798|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.2798
92429664|NCT01847274|184747303|SUPERIORITY||Ratio of Least square mean|1.1|||||TWO_SIDED|90.0|0.997|1.216||||||||1.216|0.997|
92429665|NCT01847274|184747304|SUPERIORITY||Ratio of Least square mean|1.068|||||TWO_SIDED|90.0|0.978|1.166||||||||1.166|0.978|
92429666|NCT01847274|184747305|SUPERIORITY||Ratio of Least square mean|0.785|||||TWO_SIDED|90.0|0.695|0.886||||||||0.886|0.695|
92239829|NCT04184622|184383618|SUPERIORITY||Odds Ratio (OR)|66.63|||<|0.001|TWO_SIDED|95.0|45.23|98.16|||Regression, Logistic|||||98.16|45.23|<0.001
92429667|NCT00724932|184747321|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Final Values)|3.4|||<|0.0001|TWO_SIDED|95.0|2.8|4.1||Testing was performed using a two-sided test at the 0.05 significance level. There was only one primary comparison, therefore no adjustment for multiplicity was required.|ANOVA||Sugammadex is the numerator and neostigmine the denominator. The estimated value for the geometric mean ratio presents how many times the geometric mean time to recovery of the T4/T1 ratio to 0.9 was faster with sugammadex compared to neostigmine.|To evaluate the efficacy of sugammadex compared to neostigmine, the ratio of the geometric means of time to recovery of the T4/T1 ratio to 0.9 was calculated using a two-way analysis of variance (ANOVA) model adjusted for treatment group and trial site.||4.1|2.8|<0.0001
92429668|NCT00724932|184747322|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Final Values)|2.5|||<|0.0001|TWO_SIDED|95.0|2.1|2.8||The p-value is not adjusted for multiplicity.|ANOVA||Sugammadex is the numerator and neostigmine the denominator. The estimated value for the geometric mean ratio presents how many times the geometric mean time to recovery of the T4/T1 ratio to 0.7 was faster with sugammadex compared to neostigmine.|To evaluate the efficacy of sugammadex compared to neostigmine, the ratio of the geometric means of time to recovery of the T4/T1 ratio to 0.7 was calculated using a two-way ANOVA model adjusted for treatment group and trial site.||2.8|2.1|<0.0001
92429669|NCT00724932|184747330|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Final Values)|2.9|||<|0.0001|TWO_SIDED|95.0|2.5|3.4||The p-value is not adjusted for multiplicity.|ANOVA||Sugammadex is the numerator and neostigmine the denominator. The estimated value for the geometric mean ratio presents how many times the geometric mean time to recovery of the T4/T1 ratio to 0.8 was faster with sugammadex compared to neostigmine.|To evaluate the efficacy of sugammadex compared to neostigmine, the ratio of the geometric means of time to recovery of the T4/T1 ratio to 0.8 was calculated using a two-way ANOVA model adjusted for treatment group and trial site.||3.4|2.5|<0.0001
92239830|NCT04184622|184383619|SUPERIORITY||Odds Ratio (OR)|36.93|||<|0.001|TWO_SIDED|95.0|18.37|74.22|||Regression, Logistic|||||74.22|18.37|<0.001
92237065|NCT01845077|184378161|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|99.3|||||TWO_SIDED|90.0|95.3|103.5|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.5|95.3|
92170907|NCT03398148|184230782|SUPERIORITY||Adjusted Risk Difference|10.5||||0.0512|TWO_SIDED|90.0|1.6|19.3||P-value ≤ 0.1|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||19.3|1.6|0.0512
92237066|NCT01845077|184378161|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|101.5|||||TWO_SIDED|90.0|98.4|104.7|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||One patient was excluded from this analysis due to the lack of the 72h sample for the L+M1000 fed treatment.||104.7|98.4|
92237067|NCT01845077|184378161|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|100.9|||||TWO_SIDED|90.0|98.2|103.7|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.7|98.2|
92237068|NCT01845077|184378162|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|94.9|||||TWO_SIDED|90.0|86.8|103.6|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.6|86.8|
92237069|NCT01845077|184378162|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|96.8|||||TWO_SIDED|90.0|90.2|103.8|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.8|90.2|
92237070|NCT01845077|184378162|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|108.6||||||90.0|99.5|118.5|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||118.5|99.5|
92237071|NCT01845077|184378163|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|103.7|||||TWO_SIDED|90.0|97.1|110.8|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||110.8|97.1|
92429670|NCT02340975|184747391|OTHER|Comparison|Mean Difference (Net)|11.1||||0.2376|TWO_SIDED|95.0|-0.7|23.0|||Fisher Exact|||||23.0|-0.7|0.2376
92429671|NCT02340975|184747391|OTHER|Comparison|Median Difference (Net)|2.8||||1|TWO_SIDED|95.0|-16.8|22.4|||Fisher Exact|||||22.4|-16.8|1.0000
92429672|NCT03948581|184747422|EQUIVALENCE|Geometric least-squares means (LSMs) were calculated by exponentiating the LSMs derived from analysis of variance (ANCOVA) with group, treatment, and injection site as fixed effects and weight as a continuous covariate. Confidence intervals (CIs) were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|0.9807|||||TWO_SIDED|90.0|0.9011|1.0675||||||||1.0675|0.9011|
92429673|NCT03948581|184747423|EQUIVALENCE|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with group, treatment, and injection site as fixed effects and weight as a continuous covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|0.9981|||||TWO_SIDED|90.0|0.9223|1.0801||||||||1.0801|0.9223|
92429674|NCT03948581|184747424|EQUIVALENCE|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with group, treatment, and injection site as fixed effects and weight as a continuous covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|1.0038|||||TWO_SIDED|90.0|0.9401|1.0719||||||||1.0719|0.9401|
92429675|NCT02498132|184747440|OTHER|A generalized estimating equation (GEE) model assuming a normal distribution, identity link function, and exchangeable correlation matrix was used to examine the interaction between time and treatment condition on BDI-II depressive symptoms adjusting for the main effects of baseline depressive symptoms, time, and treatment condition.|||||<|0.05|||||||Chi-squared|||||||<.05
92237072|NCT01845077|184378163|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|105.3|||||TWO_SIDED|90.0|99.9|111.0|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||111.0|99.9|
92237073|NCT01845077|184378163|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|96.9|||||TWO_SIDED|90.0|90.2|104.1|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||104.1|90.2|
92237074|NCT01845077|184378164|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|96.9|||||TWO_SIDED|90.0|86.8|108.2|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||108.2|86.8|
92237075|NCT01845077|184378164|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|99.7|||||TWO_SIDED|90.0|96.1|103.5|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.5|96.1|
92429676|NCT00730405|184747453|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429677|NCT00730405|184747453|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429678|NCT00730405|184747453|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429679|NCT00730405|184747453|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429680|NCT00730405|184747454|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429681|NCT00730405|184747454|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429682|NCT00730405|184747454|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429683|NCT00730405|184747454|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429684|NCT00730405|184747455|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429685|NCT00730405|184747455|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429686|NCT00730405|184747455|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429687|NCT00730405|184747455|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429688|NCT00730405|184747456|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429689|NCT00730405|184747456|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429690|NCT00730405|184747456|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429691|NCT00730405|184747456|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429692|NCT00730405|184747457|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|||||||ANOVA|||||||<0.001
92429693|NCT00730405|184747457|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.71|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|||||||ANOVA|||||||<0.001
92429694|NCT00730405|184747457|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.44|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|||||||ANOVA|||||||<0.001
92237076|NCT01845077|184378164|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|95.9|||||TWO_SIDED|90.0|86.7|106.0|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||106.0|86.7|
92429695|NCT00730405|184747457|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.22|STANDARD_ERROR_OF_MEAN|0.58|<|0.001|||||||ANOVA|||||||<0.001
92429696|NCT00730405|184747458|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429697|NCT00730405|184747458|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429698|NCT00730405|184747458|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92429699|NCT00730405|184747458|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92237077|NCT01845077|184378165|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|96.8|||||TWO_SIDED|90.0|86.6|108.2|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||108.2|86.6|
92237078|NCT01845077|184378165|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|99.4|||||TWO_SIDED|90.0|95.6|103.4|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.4|95.6|
92237079|NCT01845077|184378165|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|99.3|||||TWO_SIDED|90.0|90.1|109.5|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||109.5|90.1|
92429700|NCT00963937|184747459|SUPERIORITY_OR_OTHER||Percent Difference|-7.49||||0.345|TWO_SIDED|95.0|-23.02|8.04||Multiplicity was not considered because the primary analysis included a single statistical comparison.|Chi-squared||Percent difference = sumatriptan pooled group minus the placebo group|||8.04|-23.02|0.345
92429701|NCT04203498|184747467|SUPERIORITY||Difference in least squares means|-0.73|STANDARD_ERROR_OF_MEAN|0.914|=|0.4263|TWO_SIDED|95.0|-2.54|1.08|||Linear mixed model repeated measures|||Week 9 to 12 (primary outcome statistics)||1.08|-2.54|=0.4263
92429702|NCT00181155|184747508|SUPERIORITY_OR_OTHER||||||<|0.007||95.0||||vs. baseline|Two-sided paired t tests|||||||<0.007
92429703|NCT00181155|184747509|SUPERIORITY_OR_OTHER||||||<|0.02||95.0||||vs. baseline|Two-sided paired t tests|||||||<0.02
92429704|NCT02572401|184747510|SUPERIORITY||Risk Ratio (RR)|0.84|||<|0.05|TWO_SIDED|95.0|0.59|1.21|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).|The numerator is the treatment.|The primary analysis tested the efficacy of the HIV risk reduction intervention by comparing the HIV Risk Reduction Only and HIV Risk Reduction and Text Messaging Arms to the Text Messaging Only and No-Intervention No Text Message Control Arms. This is a test of the main effect of the HIV risk reduction intervention.||1.21|.59|<.05
92429705|NCT02572401|184747510|SUPERIORITY||Risk Ratio (RR)|0.99|||<|0.05|TWO_SIDED|95.0|0.69|1.42|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).|The numerator is the treatment.|This analysis tested the efficacy of the text messaging intervention by comparing the HIV Risk Reduction and Text Messaging and Text Messaging Only Arms to the HIV Risk Reduction Only and No-Intervention No Text Message Control Arms. This is a test of the text messaging main effect.||1.42|0.69|<.05
92429706|NCT02572401|184747510|SUPERIORITY||Risk Ratio (RR)|0.72|||<|0.05|TWO_SIDED|95.0|0.35|1.49|||Poisson regression|Adjusted for baseline of the criterion, time of follow-up assessment (6 vs. 12 months), and the HIV x Time and Text Messaging x Time interactions.|The numerator is the treatment.|The analysis tested whether text messaging enhanced the effects of the HIV risk reduction intervention by comparing the HIV Risk Reduction and Text Messaging and No-Intervention No Text Message Arms to the Text Messaging Only and HIV Risk Reduction Only Arms. This is a test of the interaction between the two types of interventions.||1.49|.35|<.05
92429707|NCT02572401|184747511|SUPERIORITY||Risk Ratio (RR)|1.04|||<|0.05|TWO_SIDED|95.0|0.92|1.18|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).|The numerator is the treatment.|The primary analysis tested the efficacy of the HIV risk reduction intervention by comparing the HIV Risk Reduction Only and HIV Risk Reduction and Text Messaging Arms to the Text Messaging Only and No-Intervention No Text Message Control Arms. This is a test of the main effect of the HIV risk reduction intervention.||1.18|0.92|<.05
92429708|NCT02572401|184747511|SUPERIORITY||Risk Ratio (RR)|1.02|||<|0.05|TWO_SIDED|95.0|0.9|1.16|||Poisson regression|Adjusted for baseline of the criterion.|The numerator is the treatment.|This analysis tested the efficacy of the text messaging intervention by comparing the HIV Risk Reduction and Text Messaging and Text Messaging Only Arms to the HIV Risk Reduction Only and No-Intervention No Text Message Control Arms. This is a test of the text messaging main effect.||1.16|0.90|<.05
92429709|NCT02572401|184747511|SUPERIORITY||Risk Ratio (RR)|1.1|||<|0.05|TWO_SIDED|95.0|0.86|1.42|||Poisson regression|Adjusted for baseline of the criterion, time of follow-up assessment (6 vs. 12 months), and the HIV x Time and Text Messaging x Time interactions.|The numerator is the treatment.|The analysis tested whether text messaging enhanced the effects of the HIV risk reduction intervention by comparing the HIV Risk Reduction and Text Messaging and No-Intervention No Text Message Arms to the Text Messaging Only and HIV Risk Reduction Only Arms. This is a test of the interaction between the two types of interventions.||1.42|0.86|<.05
92429710|NCT02572401|184747512|SUPERIORITY||Risk Ratio (RR)|1.05|||<|0.05|TWO_SIDED|95.0|0.89|1.24|||Poisson regression|Adjusted for baseline of the criterion.|The numerator is the treatment.|The primary analysis tested the efficacy of the HIV risk reduction intervention by comparing the HIV Risk Reduction Only and HIV Risk Reduction and Text Messaging Arms to the Text Messaging Only and No-Intervention No Text Message Control Arms. This is a test of the main effect of the HIV risk reduction intervention.||1.24|0.89|<.05
92170908|NCT03398148|184230784|SUPERIORITY||Adjusted Risk Difference|23.9||||0.0022|TWO_SIDED|90.0|11.0|36.7||P-value ≤ 0.01|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||36.7|11.0|0.0022
92170909|NCT03398148|184230784|SUPERIORITY||Adjusted Risk Difference|28.4||||0.0002|TWO_SIDED|90.0|15.7|41.1||P-value ≤ 0.001|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||41.1|15.7|0.0002
92237080|NCT01845077|184378166|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|96.5|||||TWO_SIDED|90.0|84.8|109.8|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||109.8|84.8|
92237081|NCT01845077|184378166|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|103.2|||||TWO_SIDED|90.0|98.9|107.7|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||107.7|98.9|
92237082|NCT01845077|184378166|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|107.7|||||TWO_SIDED|90.0|92.5|125.4|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||125.4|92.5|
92237083|NCT02613572|184378167|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92237084|NCT02613572|184378168|SUPERIORITY|||||||0.009|||||||Mixed Models Analysis|||||||0.009
92429711|NCT02572401|184747512|SUPERIORITY||Risk Ratio (RR)|1.1|||<|0.05|TWO_SIDED|95.0|0.94|1.3|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).||This analysis tested the efficacy of the text messaging intervention by comparing the HIV Risk Reduction and Text Messaging and Text Messaging Only Arms to the HIV Risk Reduction Only and No-Intervention No Text Message Control Arms. This is a test of the text messaging main effect.|The numerator is the treatment.|1.30|0.94|<.05
92429712|NCT02572401|184747512|SUPERIORITY||Risk Ratio (RR)|1.05|||<|0.05|TWO_SIDED|95.0|0.76|1.47|||Poisson regression|Adjusted for baseline of the criterion, time of follow-up assessment (6 vs. 12 months), and the HIV x Time and Text Messaging x Time interactions.|The numerator is the treatment.|The analysis tested whether text messaging enhanced the effects of the HIV risk reduction intervention by comparing the HIV Risk Reduction and Text Messaging and No-Intervention No Text Message Arms to the Text Messaging Only and HIV Risk Reduction Only Arms. This is a test of the interaction between the two types of interventions.||1.47|0.76|<.05
92429713|NCT02572401|184747513|SUPERIORITY||Risk Ratio (RR)|1.04|||<|0.05|TWO_SIDED|95.0|0.73|1.48|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).|The numerator is the treatment.|The primary analysis tested the efficacy of the HIV risk reduction intervention by comparing the HIV Risk Reduction Only and HIV Risk Reduction and Text Messaging Arms to the Text Messaging Only and No-Intervention No Text Message Control Arms. This is a test of the main effect of the HIV risk reduction intervention.||1.48|0.73|<.05
92429714|NCT02572401|184747513|SUPERIORITY||Risk Ratio (RR)|1.01|||<|0.05|TWO_SIDED|95.0|0.71|1.45|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).|The numerator is the treatment.|This analysis tested the efficacy of the text messaging intervention by comparing the HIV Risk Reduction and Text Messaging and Text Messaging Only Arms to the HIV Risk Reduction Only and No-Intervention No Text Message Control Arms. This is a test of the text messaging main effect.||1.45|0.71|<.05
92237085|NCT02613572|184378169|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
92237086|NCT02613572|184378170|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||||||0.30
92446531|NCT02477020|184780039|SUPERIORITY_OR_OTHER||Least square mean difference|-2.44|STANDARD_ERROR_OF_MEAN|1.732||0.161|TWO_SIDED|95.0|-5.87|0.98||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 6||0.98|-5.87|0.161
92170910|NCT03398148|184230784|SUPERIORITY||Adjusted Risk Difference|33.8|||<|0.0001|TWO_SIDED|90.0|20.7|46.9||P-value ≤ 0.001|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||46.9|20.7|<0.0001
92170911|NCT03398148|184230785|SUPERIORITY||Adjusted Risk Difference|10.2||||0.1842|TWO_SIDED|90.0|-2.4|22.9|||Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||22.9|-2.4|0.1842
92237087|NCT02613572|184378171|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||||||0.14
92237088|NCT02613572|184378172|SUPERIORITY|||||||0.69|||||||Mixed Models Analysis|||||||0.69
92237089|NCT02342561|184378178|SUPERIORITY_OR_OTHER|||||||0.601|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||At end of surgery||||0.601
92237090|NCT02342561|184378178|SUPERIORITY_OR_OTHER|||||||0.823|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||After skin disinfection||||0.823
92237091|NCT02342561|184378179|SUPERIORITY_OR_OTHER|||||||0.731|TWO_SIDED||||||Fisher Exact|||Difference in prevalence of CoNs between the 2 groups was analysed. The null-hypothesis was no difference.||||0.731
92237092|NCT02179398|184378217|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|95.0|||||Chi-squared|||||||1
92237093|NCT02179398|184378218|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|95.0|||||Chi-squared|||||||1
92239831|NCT04184622|184383619|SUPERIORITY||Odds Ratio (OR)|109.45|||<|0.001|TWO_SIDED|95.0|54.5|219.81|||Regression, Logistic|||||219.81|54.50|<0.001
92239832|NCT04184622|184383619|SUPERIORITY||Odds Ratio (OR)|150.59|||<|0.001|TWO_SIDED|95.0|74.85|302.97|||Regression, Logistic|||||302.97|74.85|<0.001
92239833|NCT04184622|184383620|SUPERIORITY||LS Mean Difference (Net)|-11.2|||<|0.001|TWO_SIDED|95.0|-12.3|-10.0|||Mixed Models Analysis|||||-10.0|-12.3|<0.001
92239834|NCT04184622|184383620|SUPERIORITY||LS Mean Difference (Net)|-16.0|||<|0.001|TWO_SIDED|95.0|-17.2|-14.9|||Mixed Models Analysis|||||-14.9|-17.2|<0.001
92429715|NCT02572401|184747513|SUPERIORITY||Risk Ratio (RR)|1.02|||<|0.05|TWO_SIDED|95.0|0.5|2.08|||Poisson regression|Adjusted for baseline of the criterion, time of follow-up assessment (6 vs. 12 months), and the HIV x Time and Text Messaging x Time interactions.|The numerator is the treatment.|The analysis tested whether text messaging enhanced the effects of the HIV risk reduction intervention by comparing the HIV Risk Reduction and Text Messaging and No-Intervention No Text Message Arms to the Text Messaging Only and HIV Risk Reduction Only Arms. This is a test of the interaction between the two types of interventions.||2.08|.50|<.05
92429716|NCT02572401|184747514|SUPERIORITY||Mean Difference (Final Values)|0.001|||<|0.05|TWO_SIDED|95.0|-0.078|0.08|||Regression, Linear|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).||The primary analysis tested the efficacy of the HIV risk reduction intervention by comparing the HIV Risk Reduction Only and HIV Risk Reduction and Text Messaging Arms to the Text Messaging Only and No-Intervention No Text Message Control Arms. This is a test of the main effect of the HIV risk reduction intervention.||0.080|-0.078|<.05
92429717|NCT02572401|184747514|SUPERIORITY||Mean Difference (Final Values)|-0.003|||<|0.05|TWO_SIDED|95.0|-0.082|0.076|||Regression, Linear|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).||This analysis tested the efficacy of the text messaging intervention by comparing the HIV Risk Reduction and Text Messaging and Text Messaging Only Arms to the HIV Risk Reduction Only and No-Intervention No Text Message Control Arms. This is a test of the text messaging main effect.||0.076|-0.082|<.05
92429718|NCT02572401|184747514|SUPERIORITY||Mean Difference (Final Values)|-0.009|||<|0.05|TWO_SIDED|95.0|-0.167|0.149|||Regression, Linear|Adjusted for baseline of the criterion, time of follow-up assessment (6 vs. 12 months), and the HIV x Time and Text Messaging x Time interactions.||The analysis tested whether text messaging enhanced the effects of the HIV risk reduction intervention by comparing the HIV Risk Reduction and Text Messaging and No-Intervention No Text Message Arms to the Text Messaging Only and HIV Risk Reduction Only Arms. This is a test of the interaction between the two types of interventions.||0.149|-0.167|<.05
92429719|NCT01323959|184747515|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|96.8|||||TWO_SIDED|95.0|89.0|99.6|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|"The objective of the analysis was to demonstrate that a booster dose of Boostrix™ Polio vaccine, administered to adults 10 years after a dose of Boostrix™ Polio vaccine or co-administered Boostrix™ + Poliorix™ vaccines, elicited seroprotective antibody concentrations, 1 month after the booster dose, in at least 80% of the subjects against diphtheria.~Samples were analysed both with ELISA (enzyme-linked immunosorbent assay), and VERO-cell (African green monkey kidney cell) neutralisation testing."||99.6|89|
92429720|NCT01323959|184747515|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|95.7|||||TWO_SIDED|95.0|87.8|99.1|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|The objective of the analysis was to demonstrate that a booster dose of Boostrix™ Polio vaccine, administered to adults 10 years after a dose of Boostrix™ Polio vaccine or co-administered Boostrix™ + Poliorix™ vaccines, elicited seroprotective antibody concentrations, one month after the booster dose, in at least 80% of the subjects against diphtheria.||99.1|87.8|
92429721|NCT01323959|184747515|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|100.0|||||TWO_SIDED|95.0|94.8|100.0|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|The objective of the analysis was to demonstrate that a booster dose of Boostrix™ Polio vaccine, administered to adults 10 years after a dose of Boostrix™ Polio vaccine or co-administered Boostrix™ + Poliorix™ vaccines, elicited seroprotective antibody concentrations, one month after the booster dose, in at least 80% of the subjects against diphtheria.||100|94.8|
92429722|NCT01323959|184747517|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|92.1|||||TWO_SIDED|95.0|82.4|97.4|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|The objective of the analysis was to dose in study NCT01277705. Samples were analysed both with ELISA (enzyme-linked immunosorbent assay), and VERO-cell (African green monkey kidney cell) neutralisation testing.||97.4|82.4|
92429723|NCT01323959|184747517|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|79.4|||||TWO_SIDED|95.0|67.9|88.3|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|The objective of the analysis was to demonstrate that a booster dose of Boostrix™ Polio vaccine, administered to adults 10 years after a dose of Boostrix™ Polio vaccine or co-administered Boostrix™ + Poliorix™ vaccines, elicited seroprotective antibody concentrations, one month after the booster dose, in at least 80% of the subjects against diphtheria.||88.3|67.9|
92429724|NCT01323959|184747517|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|84.1|||||TWO_SIDED|95.0|73.3|91.8|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|The objective of the analysis was to demonstrate that a booster dose of Boostrix™ Polio vaccine, administered to adults 10 years after a dose of Boostrix™ Polio vaccine or co-administered Boostrix™ + Poliorix™ vaccines, elicited seroprotective antibody concentrations, one month after the booster dose, in at least 80% of the subjects against diphtheria.||91.8|73.3|
92239835|NCT04184622|184383620|SUPERIORITY||LS Mean Difference (Net)|-16.5|||<|0.001|TWO_SIDED|95.0|-17.7|-15.4|||Mixed Models Analysis|||||-15.4|-17.7|<0.001
92239836|NCT04184622|184383621|SUPERIORITY||LS Mean Difference (Net)|2.3|||<|0.001|TWO_SIDED|95.0|1.6|2.9|||ANCOVA|||||2.9|1.6|<0.001
92239837|NCT04184622|184383622|SUPERIORITY||Estimate Difference|-22.7|||<|0.001|TWO_SIDED|95.0|-25.6|-19.8|||Mixed Models Analysis|||||-19.8|-25.6|<0.001
92239838|NCT04184622|184383623|SUPERIORITY||Estimate Difference|-4.91|||<|0.001|TWO_SIDED|95.0|-6.4|-3.41|||Mixed Models Analysis|||||-3.41|-6.40|<0.001
92239839|NCT04184622|184383624|SUPERIORITY||Estimate Difference|7.65|||<|0.001|TWO_SIDED|95.0|5.85|9.49|||Mixed Models Analysis|||||9.49|5.85|<0.001
92429725|NCT01768286|184747533|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||A 2-sided 1-sample binomial test was used to compare over the historical SVR12 rate of 25%. To control the family-wise type I error rate at 0.05, the Hochberg procedure was applied, from which the adjusted p-values were obtained.|Binomial test|||||||<0.001
92429726|NCT01768286|184747533|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||A 2-sided 1-sample binomial test was used to compare over the historical SVR12 rate of 25%. To control the family-wise type I error rate at 0.05, the Hochberg procedure was applied, from which the adjusted p-values were obtained.|Binomial test|||||||<0.001
92237094|NCT02179398|184378219|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED|95.0|||||Chi-squared|||Power calculation suggested 97 patients should be enrolled in each group to give 80% power at the 5% level of significance to detect a 20% difference in antibiotic prescription rate||||0.810
92429727|NCT01768286|184747533|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||A 2-sided 1-sample binomial test was used to compare over the historical SVR12 rate of 25%. To control the family-wise type I error rate at 0.05, the Hochberg procedure was applied, from which the adjusted p-values were obtained.|Binomial test|||||||<0.001
92429728|NCT01768286|184747533|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||A 2-sided 1-sample binomial test was used to compare over the historical SVR12 rate of 25%. To control the family-wise type I error rate at 0.05, the Hochberg procedure was applied, from which the adjusted p-values were obtained.|Binomial test|||||||<0.001
92429729|NCT00622284|184747554|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis of non-inferiority is rejected if the upper bound of the two-sided 97.5% confidence interval is less than 0.35%. Superiority testing was not part of the pre-specified Week 52 confirmatory analysis.|Least Squares Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.04||0.0005||97.5|0.13|0.31||Due to multiple testing of the primary endpoints at weeks 52 and 104 a Bonferroni correction was applied and 97.5% confidence intervals produced. This 1-sided p-value for non-inferiority should be compared to the 1-sided threshold of 0.0125.|ANCOVA|||Linagliptin versus Glimepiride||0.31|0.13|0.0005
92429730|NCT00622284|184747555|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis of non-inferiority is rejected if the upper bound of the two-sided 97.5% confidence interval is less than 0.35%. However, superiority testing is only applicable if the Linagliptin decrease is greater than that in Glimepiride.|Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.05||0.0004||97.5|0.09|0.3||This 1-sided p-value should be compared to the 1-sided threshold of 0.0125 for non-inferiority. Due to the pre-specified hierarchial approach, further confirmatory analysis on the Week24 endpoints is only applicable if superiority is already met.|ANCOVA|||Linagliptin versus Glimepiride||0.30|0.09|0.0004
92429731|NCT00622284|184747556|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001||97.5|-2.91|-2.09||This Week52 key secondary endpoint was only to be tested (2-sided threshold of 0.025 to allow for multiple testing within a visit) if the Week52 primary hypothesis was rejected.|ANCOVA|||Linagliptin versus Glimepiride||-2.09|-2.91|<0.0001
92429732|NCT00622284|184747557|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.68|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001||97.5|-3.17|-2.19||Due to testing of multiple endpoints within a visit a sequential testing strategy (at 2-sided threshold of 0.025) was applied to the key secondary endpoints.|ANCOVA|||Linagliptin versus Glimepiride||-2.19|-3.17|<0.0001
92429733|NCT00622284|184747558|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||This key secondary endpoint was only to be tested (comparing to a 2-sided threshold of 0.025) if the Week52 body weight change from baseline was confirmatory.|Cochran-Mantel-Haenszel|||Linagliptin versus Glimepiride||||<0.0001
92429734|NCT00622284|184747559|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Due to testing of multiple endpoints within a visit a sequential testing strategy (at 2-sided threshold of 0.025) was applied to the key secondary endpoints.|Cochran-Mantel-Haenszel|||Linagliptin versus Glimepiride||||<0.0001
92429735|NCT00622284|184747560|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.84|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001||95.0|3.51|10.16|||ANCOVA|||Linagliptin versus Glimepiride||10.16|3.51|<0.0001
92429736|NCT00622284|184747561|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.38|STANDARD_ERROR_OF_MEAN|1.97||0.0012||95.0|2.51|10.25|||ANCOVA|||Linagliptin versus Glimepiride||10.25|2.51|0.0012
92237095|NCT01524289|184378224|SUPERIORITY||Difference in Least Squares (LS) Means|-39.7|||<|0.001|TWO_SIDED|95.0|-45.7|-33.7|||Constrained Longitudinal Data Analysis|Between group comparison of percent change from baseline performed using Constrained Longitudinal Data Analysis (cLDA) model.||||-33.7|-45.7|<0.001
92237096|NCT01524289|184378225|OTHER|Pre-specified|Difference in Percentages|-2.1|||||TWO_SIDED|95.0|-11.5|8.4|||||||Miettinen and Nurminen|8.4|-11.5|
92429737|NCT00622284|184747562|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.625||||0.0004||95.0|0.482|0.811|||Regression, Logistic|The odds ratio is treatment adjusted for baseline HbA1c and the number of previous anti-diabetic medications.||Linagliptin versus Glimepiride||0.811|0.482|0.0004
92429738|NCT00622284|184747563|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.654||||0.003||95.0|0.494|0.866|||Regression, Logistic|The odds ratio is treatment adjusted for baseline HbA1c and the number of previous anti-diabetic medications.||Linagliptin versus Glimepiride||0.866|0.494|0.0030
92429739|NCT00622284|184747564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.648||||0.0025||95.0|0.489|0.859|||Regression, Logistic|The odds ratio is treatment adjusted for baseline HbA1c and the number of previous anti-diabetic medications.||Linagliptin versus Glimepiride||0.859|0.489|0.0025
92429740|NCT00622284|184747565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.689||||0.024||95.0|0.498|0.952|||Regression, Logistic|The odds ratio is treatment adjusted for baseline HbA1c and the number of previous anti-diabetic medications.||Linagliptin versus Glimepiride||0.952|0.498|0.0240
92429741|NCT00622284|184747566|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.0018||95.0|0.56|0.875|||Regression, Logistic|The odds ratio is treatment adjusted for baseline HbA1c and the number of previous anti-diabetic medications.||Linagliptin versus Glimepiride||0.875|0.560|0.0018
92429742|NCT00622284|184747567|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.47|STANDARD_ERROR_OF_MEAN|5.77||0.0918||95.0|-21.07|1.59|||ANCOVA|||Linagliptin versus Glimepiride||1.59|-21.07|0.0918
92429743|NCT02935842|184747583|OTHER|||||||||||||||||First Reliable Change (RC), Reliable Change Index (RCI) were calculated on every individual score. Further, ANOVAs and t-tests were administered in order to verify differences between groups or interventions. Significance levels were set at p \< .05.|Reliable Change / Reliable Change Index according to Jacobson \& Truax (1991). There, on the basis of every individual score, the change in performance (i.e. BL-4Weeks/ BL-6Months) has been calculated and is reported with level of significance as well as effect size.|||
92429744|NCT02935842|184747583|OTHER|||||||0.05|||||||ANOVA|||||||.05
92429745|NCT02935842|184747587|OTHER|||||||0.05|||||||ANOVA|||||||.05
92429746|NCT02935842|184747589|OTHER|||||||0.05|||||||ANOVA|||||||.05
92429747|NCT02774954|184747590|SUPERIORITY|||||||0.35|||||||ANOVA|||||||0.35
92429748|NCT02774954|184747591|SUPERIORITY|||||||0.35|||||||ANOVA|||||||0.35
92429749|NCT01552694|184747608|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||A priori threshold for statistical significance was p\<0.05. Unadjusted p-value compares the change (week 8 - baseline) for plasma hsCRP between the 2 groups.|t-test, 2 sided|||||||0.006
92237097|NCT01524289|184378226|OTHER|Pre-specified|Difference in Percentages|4.5|||||TWO_SIDED|95.0|-4.8|12.6|||||||Miettinen and Nurminen|12.6|-4.8|
92237098|NCT01524289|184378227|OTHER|Pre-specified|Difference in Percentages|-0.9|||||TWO_SIDED|95.0|-8.9|5.6|||||||Miettinen \& Nurminen|5.6|-8.9|
92237099|NCT01524289|184378228|OTHER|Pre-specified|Difference in Percentages|1.0|||||TWO_SIDED|95.0|-5.5|6.1|||||||Miettinen and Nurminen|6.1|-5.5|
92237100|NCT01524289|184378229|OTHER|Pre-Specified|Difference in Percentages|-8.4||||0.168|TWO_SIDED|95.0|-20.1|3.5|||Miettinen and Nurminen|||||3.5|-20.1|0.168
92237101|NCT01524289|184378230|OTHER|Pre-specified|Difference in Percentages|-7.4||||0.179|TWO_SIDED|95.0|-18.7|3.3|||Miettinen and Nurminen|||||3.3|-18.7|0.179
92429750|NCT01552694|184747609|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|||||A priori threshold for statistical significance was p\<0.05. Unadjusted analysis.|t-test, 2 sided|||||||0.24
92429751|NCT01552694|184747610|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED|||||A priori threshold for statistical significance was p\<0.05. Unadjusted analysis|t-test, 2 sided|||||||0.78
92237102|NCT01524289|184378231|OTHER|Pre-specified|Difference in Percentages|-13.9||||0.011|TWO_SIDED|95.0|-25.0|-3.1|||Miettinen and Nurminen|||||-3.1|-25.0|0.011
92237103|NCT01524289|184378232|OTHER|Pre-specified|Difference in Percentages|1.5||||0.696|TWO_SIDED|95.0|-6.8|8.4|||Miettinen and Nurminen|||||8.4|-6.8|0.696
92237104|NCT01524289|184378233|OTHER|Pre-specified|Difference in Percentages|0.5||||0.48|TWO_SIDED|95.0|-3.2|2.8|||Miettinen and Nurminen|||||2.8|-3.2|0.480
92237105|NCT01524289|184378234|OTHER|Pre-specified|Difference in Percentages|0.5||||0.722|TWO_SIDED|95.0|-4.0|3.5|||Miettinen and Nurminen|||||3.5|-4.0|0.722
92237106|NCT01524289|184378235|OTHER|Pre-specified|Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-3.7|1.9|||Miettinen and Nurminen|||||1.9|-3.7|>0.999
92237107|NCT01524289|184378236|OTHER|Pre-specified|Difference in Percentages|0.5||||0.722|TWO_SIDED|95.0|-4.0|3.5|||Miettinen and Nurminen|||||3.5|-4.0|0.722
92237108|NCT01524289|184378237|OTHER|Pre-specified|Difference in Percentages|-1.0||||0.157|TWO_SIDED|95.0|-5.4|0.9|||Miettinen and Nurminen|||||0.9|-5.4|0.157
92237109|NCT01524289|184378238|OTHER|Pre-specified|Difference in Percentages|-1.0||||0.157|TWO_SIDED|95.0|-5.4|0.9|||Miettinen and Nurminen|||||0.9|-5.4|0.157
92237110|NCT01524289|184378239|OTHER|Pre-specified|Difference in Percentages|1.5||||0.218|TWO_SIDED|95.0|-2.2|4.3|||Miettinen and Nurminen|||||4.3|-2.2|0.218
92237111|NCT01524289|184378240|OTHER|Pre-specified|Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-3.6|1.9|||Miettinen and Nurminen|||||1.9|-3.6|>0.999
92237112|NCT01524289|184378241|SUPERIORITY||Difference in Least Squares (LS) Means|102.1|||<|0.001|TWO_SIDED|95.0|94.2|110.1|||Constrained Longitudinal Data Analysis|||||110.1|94.2|<0.001
92237113|NCT01524289|184378242|SUPERIORITY||Difference in LS Means|-36.4|||<|0.001|TWO_SIDED|95.0|-41.7|-31.1|||Constrained Longitudinal Data Analysis|||||-31.1|-41.7|<0.001
92237114|NCT01524289|184378243|SUPERIORITY||Difference in LS Means|-24.8|||<|0.001|TWO_SIDED|95.0|-29.5|-20.1|||Constrained Longitudinal Data Analysis|||||-20.1|-29.5|<0.001
92237115|NCT01524289|184378244|SUPERIORITY||Difference in LS Means|32.9|||<|0.001|TWO_SIDED|95.0|28.2|37.6|||Constrained Longitudinal Data Analysis|||||37.6|28.2|<0.001
92239840|NCT04184622|184383625|SUPERIORITY||LS Mean Difference (Net)|-6.8|||<|0.001|TWO_SIDED|95.0|-7.9|-5.7|||Mixed Models Analysis|||||-5.7|-7.9|<0.001
92429752|NCT03338010|184747613|NON_INFERIORITY|0.40% noninferiority margin was used.|LS Mean Difference|-0.05||||0.545|TWO_SIDED|95.0|-0.19|0.1|||Mixed Models Analysis|||||0.10|-0.19|0.545
92429753|NCT03338010|184747614|NON_INFERIORITY|0.40% noninferiority margin was used.|LS Mean Difference|-0.05||||0.545|TWO_SIDED|95.0|-0.19|0.1|||Mixed Models Analysis|||||0.10|-0.19|0.545
92429754|NCT03338010|184747615|SUPERIORITY||LS Mean Difference|1.0||||0.602|TWO_SIDED|95.0|-2.8|4.8|||Mixed Models Analysis|||Before Morning Meal Glucose||4.8|-2.8|0.602
92429755|NCT03338010|184747615|SUPERIORITY||LS Mean Difference|-3.7||||0.373|TWO_SIDED|95.0|-11.8|4.4|||Mixed Models Analysis|||2 Hours After Morning Meal Glucose||4.4|-11.8|0.373
92429756|NCT03338010|184747615|SUPERIORITY||LS Mean Difference|-3.3||||0.351|TWO_SIDED|95.0|-10.3|3.7|||Mixed Models Analysis|||Before Mid-Day Meal Glucose||3.7|-10.3|0.351
92429757|NCT03338010|184747615|SUPERIORITY||LS Mean Difference|4.9||||0.23|TWO_SIDED|95.0|-3.1|12.8|||Mixed Models Analysis|||2 Hours After Mid-Day Meal Glucose||12.8|-3.1|0.230
92429758|NCT03338010|184747615|SUPERIORITY||LS Mean Difference|0.9||||0.819|TWO_SIDED|95.0|-6.7|8.5|||Mixed Models Analysis|||Before Evening Meal Glucose||8.5|-6.7|0.819
92429759|NCT03338010|184747615|SUPERIORITY||LS Mean Difference|2.3||||0.588|TWO_SIDED|95.0|-6.2|10.9|||Mixed Models Analysis|||2 Hours After Evening Meal Glucose||10.9|-6.2|0.588
92429760|NCT03338010|184747615|SUPERIORITY||LS Mean Difference|1.4||||0.732|TWO_SIDED|95.0|-6.7|9.5|||Mixed Models Analysis|||Bedtime Glucose||9.5|-6.7|0.732
92429761|NCT03338010|184747616|SUPERIORITY|||||||0.846|||||||Fisher Exact|||||||0.846
92429762|NCT03338010|184747617|SUPERIORITY|||||||0.098|||||||Fisher Exact|||||||0.098
92429763|NCT03338010|184747618|SUPERIORITY||LS Mean Difference|0.32||||0.767|TWO_SIDED|95.0|-1.78|2.42|||Mixed Models Analysis|||Morning Pre-meal Standard Deviation||2.42|-1.78|0.767
92429764|NCT03338010|184747618|SUPERIORITY||LS Mean Difference|0.4||||0.781|TWO_SIDED|95.0|-2.5|3.3|||Mixed Models Analysis|||Daily Mean Standard Deviation||3.3|-2.5|0.781
92429765|NCT03338010|184747619|SUPERIORITY||LS Mean Difference|0.2||||0.75|TWO_SIDED|95.0|-1.2|1.7|||Mixed Models Analysis|||||1.7|-1.2|0.750
92429766|NCT03338010|184747620|SUPERIORITY||LS Mean Difference|0.2||||0.75|TWO_SIDED|95.0|-1.2|1.7|||Mixed Models Analysis|||||1.7|-1.2|0.750
92429767|NCT03338010|184747621|SUPERIORITY||LS Mean Difference|-0.1|||<|0.001|TWO_SIDED|95.0|-0.6|0.3|||Mixed Models Analysis|||||0.3|-0.6|<0.001
92429768|NCT03338010|184747622|SUPERIORITY||LS Mean Difference|-0.95||||0.5|TWO_SIDED|95.0|-3.72|1.82|||Mixed Models Analysis|||Inconvenience of Regimen Transformed Score||1.82|-3.72|0.500
92237116|NCT01524289|184378245|SUPERIORITY||Median Difference (Final Values)|-27.9|||<|0.001|TWO_SIDED|95.0|-34.7|-21.2|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimate of the median difference between treatments with a corresponding distribution-free confidence interval (CI) based on Wilcoxon's rank sum test.|||-21.2|-34.7|<0.001
92429769|NCT03338010|184747622|SUPERIORITY||LS Mean Difference|-3.99||||0.031|TWO_SIDED|95.0|-7.62|-0.36|||Mixed Models Analysis|||Lifestyle Flexibility Transformed Score||-0.36|-7.62|0.031
92429770|NCT03338010|184747622|SUPERIORITY||LS Mean Difference|-1.79||||0.2|TWO_SIDED|95.0|-4.53|0.95|||Mixed Models Analysis|||Hypoglycemic Control Transformed Score||0.95|-4.53|0.200
92429771|NCT03338010|184747622|SUPERIORITY||LS Mean Difference|-0.02||||0.988|TWO_SIDED|95.0|-2.92|2.88|||Mixed Models Analysis|||Glycemic Control Transformed Score||2.88|-2.92|0.988
92429772|NCT03338010|184747622|SUPERIORITY||LS Mean Difference|-1.45||||0.337|TWO_SIDED|95.0|-4.41|1.51|||Mixed Models Analysis|||Insulin Delivery Device Satisfaction Transformed Score||1.51|-4.41|0.337
92429773|NCT03338010|184747622|SUPERIORITY||LS Mean Difference|-1.67||||0.205|TWO_SIDED|95.0|-4.26|0.92|||Mixed Models Analysis|||ITSQ Overall Total||0.92|-4.26|0.205
92429774|NCT03338010|184747623|SUPERIORITY|||||||0.639|||||||Fisher Exact|||||||0.639
92429775|NCT03338010|184747624|SUPERIORITY||Relative Ratio|1.19||||0.143|TWO_SIDED|95.0|0.74|1.92|||Wilcoxon (Mann-Whitney)|||||1.92|0.74|0.143
92429776|NCT03338010|184747624|SUPERIORITY||Relative Ratio|1.22||||0.945|TWO_SIDED|95.0|0.67|2.23|||Wilcoxon (Mann-Whitney)|||||2.23|0.67|0.945
92429777|NCT00758836|184747625|SUPERIORITY_OR_OTHER||Proportion difference|24.5|||<|0.001|TWO_SIDED|90.0|16.7|32.2|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomial distribution stratified by baseline severity.||||32.2|16.7|<0.001
92429778|NCT00758836|184747625|SUPERIORITY_OR_OTHER||Proportion difference|27.7|||<|0.001|TWO_SIDED|90.0|19.6|35.8|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||35.8|19.6|<0.001
92429779|NCT00758836|184747625|SUPERIORITY_OR_OTHER||Proportion difference|20.4|||<|0.001|TWO_SIDED|90.0|12.6|28.2|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||28.2|12.6|<0.001
92429780|NCT00758836|184747625|SUPERIORITY_OR_OTHER||Proportion differenece|4.2||||0.449|TWO_SIDED|90.0|-5.0|13.3|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||13.3|-5.0|0.449
92429781|NCT00758836|184747625|SUPERIORITY_OR_OTHER||Proportion difference|7.7||||0.182|TWO_SIDED|90.0|-1.8|17.1|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||17.1|-1.8|0.182
92429782|NCT00758836|184747626|SUPERIORITY_OR_OTHER||Proportion difference|40.8|||<|0.001|TWO_SIDED|90.0|31.9|49.0|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||49.0|31.9|<0.001
92170912|NCT03398148|184230785|SUPERIORITY||Adjusted Risk Difference|23.2||||0.0041|TWO_SIDED|90.0|9.9|36.4||P-value ≤ 0.01|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||36.4|9.9|0.0041
92237117|NCT00377299|184378333|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||Significance was set at a p value of ≤ 0.05.|ANCOVA|||||||0.05
92237118|NCT00377299|184378334|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Significance was set at a p value of ≤ 0.05.|ANCOVA|||||||>0.05
92237119|NCT00377299|184378335|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Significance was set at a p value of ≤ 0.05.|ANCOVA|||||||>0.05
92237120|NCT00377299|184378336|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Significance was set at a p value of ≤ 0.05.|ANCOVA|||||||>0.05
92237121|NCT00377299|184378337|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Significance was set at a p value of ≤ 0.05.|ANCOVA|||||||>0.05
92237122|NCT04799782|184378338|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||||||0.015
92237123|NCT04799782|184378339|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||||||0.82
92429783|NCT00758836|184747626|SUPERIORITY_OR_OTHER||Proportion difference|39.9|||<|0.001|TWO_SIDED|90.0|30.5|48.5|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||48.5|30.5|<0.001
92429784|NCT00758836|184747626|SUPERIORITY_OR_OTHER||Proportion difference|6.1||||0.265|TWO_SIDED|90.0|-2.9|14.9|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||14.9|-2.9|0.265
92429785|NCT00758836|184747626|SUPERIORITY_OR_OTHER||Proportion difference|5.2||||0.362|TWO_SIDED|90.0|-4.2|14.5|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||14.5|-4.2|0.362
92429786|NCT00758836|184747626|SUPERIORITY_OR_OTHER||Proportion difference|34.7|||<|0.001|TWO_SIDED|90.0|25.3|43.4|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||43.4|25.3|<0.001
92429787|NCT00293033|184747629|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.74|STANDARD_ERROR_OF_MEAN|3.28||0.004|TWO_SIDED|95.0|3.31|16.18|||Mixed Models Analysis|The SPID was analyzed using a mixed model of repeated measures with fixed effects for treatment, pooled site, and a random effect for subjects.|Onsolis minus placebo|||16.18|3.31|0.004
92429788|NCT00293033|184747630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.33||0.44|TWO_SIDED|95.0|-0.4|0.91|||Wilcoxon (Mann-Whitney)|||||0.91|-0.40|0.440
92429789|NCT00293033|184747631|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.94|STANDARD_ERROR_OF_MEAN|0.7||0.179|TWO_SIDED|95.0|-0.44|2.33|||Mixed Models Analysis|||||2.33|-0.44|0.179
92429790|NCT00293033|184747632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.32|STANDARD_ERROR_OF_MEAN|1.16||0.047|TWO_SIDED|95.0|0.04|4.61|||Mixed Models Analysis|||||4.61|0.04|0.047
92429791|NCT00293033|184747633|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.68|STANDARD_ERROR_OF_MEAN|5.7|<|0.001|TWO_SIDED|95.0|8.5|30.86|||Mixed Models Analysis|||||30.86|8.50|<0.001
92429792|NCT00293033|184747634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|31.98|STANDARD_ERROR_OF_MEAN|8.23|<|0.001|TWO_SIDED|95.0|15.85|48.12|||Mixed Models Analysis|||||48.12|15.85|<0.001
92429793|NCT00293033|184747635|SUPERIORITY_OR_OTHER_LEGACY|||||||0.517|||||||Wilcoxon (Mann-Whitney)|||||||0.517
92429794|NCT00293033|184747636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.458|||||||Wilcoxon (Mann-Whitney)|||||||0.458
92429795|NCT00293033|184747637|SUPERIORITY_OR_OTHER_LEGACY|||||||0.223|||||||Wilcoxon (Mann-Whitney)|||||||0.223
92237124|NCT02026908|184378420|OTHER|Paired T- test|p value|0.05||||0.0001|TWO_SIDED|0.0||||P value was calculated with threshold of significance \<0.05.|t-test, 2 sided||A p-value was calculated. Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|||||0.0001
92237125|NCT02026908|184378421|OTHER|Paired t test|p value|0.05||||0.0001|TWO_SIDED|0.0||||P value was calculated and a value of \<0.05 was considered significant. A p-value was calculated. Comments: Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|t-test, 2 sided||P value was calculated with threshold of significance \<0.05.|||||0.0001
92237126|NCT02026908|184378422|OTHER|Paired T test|p value|0.05||||0.0001|TWO_SIDED|0.0||||P value was calculated and a value of \<0.05 was considered significant. A p-value was calculated. Comments: Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|t-test, 2 sided||P value was calculated with threshold of significance \<0.05.|||||0.0001
92429796|NCT00293033|184747638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||0.015
92429797|NCT00293033|184747639|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92429798|NCT00293033|184747640|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92429799|NCT00293033|184747641|SUPERIORITY_OR_OTHER_LEGACY|||||||0.193|||||||Wilcoxon (Mann-Whitney)|||||||0.193
92237127|NCT02026908|184378423|OTHER|Paired T Test|p value|0.05||||0.0001|TWO_SIDED|||||P value was calculated and a value of \<0.05 was considered significant. A p-value was calculated. Comments: Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|t-test, 2 sided|||||||0.0001
92237128|NCT02026908|184378424|OTHER|Paired T test|p value|0.05||||0.008|TWO_SIDED|0.0||||P value was calculated and a value of \<0.05 was considered significant. A p-value was calculated. Comments: Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|t-test, 2 sided||P value was calculated and a value of \<0.05 was considered significant. A p-value was calculated. Comments: Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|||||0.008
92237129|NCT03270085|184378426|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92237130|NCT03270085|184378427|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||0.81
92237131|NCT03270085|184378428|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
92429800|NCT00293033|184747642|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113|||||||Wilcoxon (Mann-Whitney)|||||||0.113
92429801|NCT00293033|184747643|SUPERIORITY_OR_OTHER_LEGACY|||||||0.192|||||||Wilcoxon (Mann-Whitney)|||||||0.192
92429802|NCT00293033|184747644|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92429803|NCT00293033|184747645|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92429804|NCT00293033|184747646|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92429805|NCT00293033|184747647|SUPERIORITY_OR_OTHER_LEGACY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
92429806|NCT00293033|184747648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.278|||||||Wilcoxon (Mann-Whitney)|||||||0.278
92239841|NCT04184622|184383626|SUPERIORITY||Estimate Difference|-41.2|||<|0.001|TWO_SIDED|95.0|-44.9|-37.3|||Mixed Models Analysis|||||-37.3|-44.9|<0.001
92239842|NCT04184622|184383627|SUPERIORITY||LS Mean Difference (Net)|-13.2|||<|0.0001|TWO_SIDED|95.0|-15.3|-11.1|||Mixed Models Analysis|||||-11.1|-15.3|<.0001
92239843|NCT04184622|184383627|SUPERIORITY||LS Mean Difference (Net)|-17.7|||<|0.0001|TWO_SIDED|95.0|-19.8|-15.7|||Mixed Models Analysis|||||-15.7|-19.8|<.0001
92239844|NCT04184622|184383627|SUPERIORITY||LS Mean Difference (Net)|-20.7|||<|0.0001|TWO_SIDED|95.0|-22.8|-18.6|||Mixed Models Analysis|||||-18.6|-22.8|<.0001
92429807|NCT00293033|184747649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||||||0.062
92429808|NCT00293033|184747650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92429809|NCT00293033|184747651|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92429810|NCT00293033|184747652|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92429811|NCT00293033|184747653|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92429812|NCT00293033|184747654|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92429813|NCT00293033|184747655|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92429814|NCT00293033|184747656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.563|||||||Wilcoxon (Mann-Whitney)|||||||0.563
92429815|NCT00293033|184747657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.498|||||||Wilcoxon (Mann-Whitney)|||||||0.498
92429816|NCT00293033|184747658|SUPERIORITY_OR_OTHER_LEGACY|||||||0.077|||||||Wilcoxon (Mann-Whitney)|||||||0.077
92429817|NCT00293033|184747659|SUPERIORITY_OR_OTHER_LEGACY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||||||0.031
92429818|NCT00293033|184747660|SUPERIORITY_OR_OTHER_LEGACY|||||||0.963|||||||Wilcoxon (Mann-Whitney)|||||||0.963
92429819|NCT00293033|184747661|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92429820|NCT00293033|184747662|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92429821|NCT00293033|184747663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92429822|NCT00293033|184747664|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.100
92429823|NCT00293033|184747665|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
92429824|NCT00293033|184747666|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92429825|NCT00293033|184747667|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92429826|NCT00293033|184747668|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92429827|NCT00293033|184747669|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92429828|NCT00293033|184747670|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.750
92429829|NCT00293033|184747671|SUPERIORITY_OR_OTHER_LEGACY|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
92429830|NCT00293033|184747672|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131|||||||Wilcoxon (Mann-Whitney)|||||||0.131
92429831|NCT00293033|184747673|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
92429832|NCT00293033|184747674|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92429833|NCT00293033|184747675|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.96|STANDARD_ERROR_OF_MEAN|2.57||0.023|TWO_SIDED|95.0|0.92|11.01|||Mixed Models Analysis|||||11.01|0.92|0.023
92429834|NCT00293033|184747676|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.84|STANDARD_ERROR_OF_MEAN|7.25||0.009|TWO_SIDED|95.0|5.63|34.04|||Mixed Models Analysis|||||34.04|5.63|0.009
92429835|NCT00293033|184747677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|33.26|STANDARD_ERROR_OF_MEAN|12.72||0.012|TWO_SIDED|95.0|8.32|58.2|||Mixed Models Analysis|||||58.20|8.32|0.012
92429836|NCT00293033|184747678|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|46.88|STANDARD_ERROR_OF_MEAN|18.46||0.015|TWO_SIDED|95.0|10.69|83.08|||Mixed Models Analysis|||||83.08|10.69|0.015
92429837|NCT01980940|184747686|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|5.09|||||TWO_SIDED|90.0|4.03|6.42|||ANOVA|||The geometric least squares mean ratio (GLSMR) and 90% confidence interval was calculated for Cmax after log transformation for the formulation comparison (ETOR 75 DMSO/ETOR 75 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. Cmax with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||6.42|4.03|
92429838|NCT01980940|184747686|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|7.3|||||TWO_SIDED|90.0|6.05|8.81|||ANOVA|||The GLSMR and 90% confidence interval was calculated for Cmax after log transformation for the formulation comparison (ETOR 150 DMSO/ETOR 150 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. Cmax with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||8.81|6.05|
92429839|NCT01980940|184747686|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|0.45|||||TWO_SIDED|90.0|0.38|0.55|||ANOVA|||The GLSMR and 90% confidence interval was calculated for Cmax after log transformation for the dose comparison (ETOR 75 DMSO/ETOR 150 DMSO) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. Cmax with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||0.55|0.38|
92429840|NCT01980940|184747686|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|0.65|||||TWO_SIDED|90.0|0.51|0.83|||ANOVA|||The GLSMR and 90% confidence interval was calculated for Cmax after log transformation for the dose comparison (ETOR 75 PG/ETOR 150 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. Cmax with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||0.83|0.51|
92429841|NCT01980940|184747688|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|9.32|||||TWO_SIDED|90.0|4.77|18.18|||ANOVA|||The GLSMR and 90% confidence interval was calculated for AUC0-last after log transformation for the formulation comparison (ETOR 75 DMSO/ETOR 75 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. AUC with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||18.18|4.77|
92429842|NCT01980940|184747688|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|8.12|||||TWO_SIDED|90.0|6.39|10.32|||ANOVA|||The GLSMR and 90% confidence interval was calculated for AUC0-last after log transformation for the formulation comparison (ETOR 150 DMSO/ETOR 150 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. AUC with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||10.32|6.39|
92429843|NCT01980940|184747688|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|0.47|||||TWO_SIDED|90.0|0.39|0.57|||ANOVA|||The GLSMR and 90% confidence interval was calculated for AUC0-last after log transformation for the dose comparison (ETOR 75 DMSO/ETOR 150 DMSO) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. AUC with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||0.57|0.39|
92429844|NCT01980940|184747688|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|0.41|||||TWO_SIDED|90.0|0.21|0.79|||ANOVA|||The GLSMR and 90% confidence interval was calculated for AUC0-last after log transformation for the dose comparison (ETOR 75 PG/ETOR 150 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. AUC with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||0.79|0.21|
92429845|NCT01980940|184747689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.3|STANDARD_ERROR_OF_MEAN|21.57||0.2113|TWO_SIDED|90.0|-63.6|8.9|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 2 in the WOMAC VA 3.1 pain subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 2 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||8.9|-63.6|0.2113
92429846|NCT01980940|184747689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.7|STANDARD_ERROR_OF_MEAN|19.66||0.2548|TWO_SIDED|90.0|-55.7|10.3|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 4 in the WOMAC VA 3.1 pain subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 4 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||10.3|-55.7|0.2548
92429847|NCT01980940|184747689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-21.4|STANDARD_ERROR_OF_MEAN|19.94||0.288|TWO_SIDED|90.0|-54.9|12.0|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 7 in the WOMAC VA 3.1 pain subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 7 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||12.0|-54.9|0.2880
92429848|NCT01980940|184747689|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-17.6|STANDARD_ERROR_OF_MEAN|19.52||0.3709|TWO_SIDED|90.0|-50.4|15.1|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 11 in the WOMAC VA 3.1 pain subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 11 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||15.1|-50.4|0.3709
92429849|NCT01980940|184747689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.3|STANDARD_ERROR_OF_MEAN|19.81||0.3883|TWO_SIDED|90.0|-50.5|16.0|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 14 in the WOMAC VA 3.1 pain subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 14 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||16.0|-50.5|0.3883
92429850|NCT01980940|184747690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|9.32||0.1383|TWO_SIDED|90.0|-29.7|1.6|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 2 in the WOMAC VA 3.1 stiffness subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 2 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||1.6|-29.7|0.1383
92429851|NCT01980940|184747690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|8.66||0.238|TWO_SIDED|90.0|-24.9|4.2|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 4 in the WOMAC VA 3.1 stiffness subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 4 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||4.2|-24.9|0.2380
92429852|NCT01980940|184747690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.5|STANDARD_ERROR_OF_MEAN|8.53||0.2691|TWO_SIDED|90.0|-23.9|4.8|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 7 in the WOMAC VA 3.1 stiffness subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 7 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||4.8|-23.9|0.2691
92429853|NCT01980940|184747690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.1|STANDARD_ERROR_OF_MEAN|8.15||0.3246|TWO_SIDED|90.0|-21.8|5.6|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 11 in the WOMAC VA 3.1 stiffness subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 11 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||5.6|-21.8|0.3246
92429854|NCT01980940|184747690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.1|STANDARD_ERROR_OF_MEAN|8.19||0.3881|TWO_SIDED|90.0|-20.9|6.6|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 14 in the WOMAC VA 3.1 stiffness subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 14 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||6.6|-20.9|0.3881
92429855|NCT01980940|184747691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-52.3|STANDARD_ERROR_OF_MEAN|68.25||0.4477|TWO_SIDED|90.0|-166.8|62.3|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 2 in the WOMAC VA 3.1 physical function subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 2 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||62.3|-166.8|0.4477
92429856|NCT01980940|184747691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-33.7|STANDARD_ERROR_OF_MEAN|65.42||0.6084|TWO_SIDED|90.0|-143.6|76.1|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 4 in the WOMAC VA 3.1 physical function subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 4 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||76.1|-143.6|0.6084
92446532|NCT02477020|184780040|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.664||||0.017|TWO_SIDED|95.0|1.263|10.624|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 1||10.624|1.263|0.017
92170913|NCT03398148|184230785|SUPERIORITY||Adjusted Risk Difference|13.1||||0.1117|TWO_SIDED|90.0|-0.4|26.6|||Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||26.6|-0.4|0.1117
92170914|NCT03398148|184230786|SUPERIORITY||Adjusted Risk Difference|8.3||||0.0192|TWO_SIDED|90.0|2.5|14.1||P-value ≤ 0.05|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||14.1|2.5|0.0192
92170915|NCT03398148|184230786|SUPERIORITY||Adjusted Risk Difference|4.8||||0.0706|TWO_SIDED|90.0|0.4|9.1||P-value ≤ 0.1|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||9.1|0.4|0.0706
92170916|NCT03398148|184230786|SUPERIORITY||Adjusted Risk Difference|8.7||||0.017|TWO_SIDED|90.0|2.7|14.6||P-value ≤ 0.05|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||14.6|2.7|0.0170
92170917|NCT03398148|184230787|SUPERIORITY|||||||0.7737|||||||Chi-squared|P value for comparisons between treatment groups and placebo group using chi-square test or Fisher's exact test.||||||0.7737
92170918|NCT03398148|184230787|SUPERIORITY|||||||0.7432|||||||Fisher Exact|P value for comparisons between treatment groups and placebo group using chi-square test or Fisher's exact test.||||||0.7432
92429857|NCT01980940|184747691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-35.2|STANDARD_ERROR_OF_MEAN|65.25||0.5926|TWO_SIDED|90.0|-144.7|74.4|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 7 in the WOMAC VA 3.1 physical function subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 7 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||74.4|-144.7|0.5926
92429858|NCT01980940|184747691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-42.3|STANDARD_ERROR_OF_MEAN|62.49||0.5022|TWO_SIDED|90.0|-147.2|62.6|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 11 in the WOMAC VA 3.1 physical function subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 11 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||62.6|-147.2|0.5022
92429859|NCT01980940|184747691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-42.0|STANDARD_ERROR_OF_MEAN|63.7||0.5125|TWO_SIDED|90.0|-149.0|64.9|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 14 in the WOMAC VA 3.1 physical function subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 14 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||64.9|-149.0|0.5125
92429860|NCT01980940|184747692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2632|||||||Jonckheere-Terpstra test|||Treatment comparison of Day 2 PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.2632
92429861|NCT01980940|184747692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4703|||||||Jonckheere-Terpstra test|||Treatment comparison of Day 4 PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.4703
92429862|NCT01980940|184747692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5507|||||||Jonckheere-Terpstra test|||Treatment comparison of Day 7 PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.5507
92429863|NCT01980940|184747692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3992|||||||Jonckheere-Terpstra test|||Treatment comparison of Day 11 PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.3992
92429864|NCT01980940|184747692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6626|||||||Jonckheere-Terpstra test|||Treatment comparison of Day 14 PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.6626
92429865|NCT01980940|184747692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.315|||||||Jonckheere-Terpstra test|||Treatment comparison of post-trial PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.3150
92429866|NCT01397084|184747734|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilocoxon signed-rank test|||Wilcoxon signed-rank test was used to check whether the change in the frequency of heartburn during the 7-day period prior to the 8 week visit (Visit 3) compared to the frequency of heartburn during the 7-day period prior to baseline (Visit 1) was statistically significant or not.||||<0.001
92429867|NCT02139228|184747738|SUPERIORITY_OR_OTHER||Vaccine Group Ratios|0.53|||||TWO_SIDED|95.0|0.36|0.76|||ANOVA|||||0.76|0.36|
92429868|NCT02139228|184747739|SUPERIORITY_OR_OTHER||Vaccine Group Differences|-11.0|||||TWO_SIDED|95.0|-18.6|-4.2|||Clopper-Pearson|||||-4.2|-18.6|
92429869|NCT00706823|184747747|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||||||0.02
92429870|NCT00706823|184747748|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Fisher Exact|||||||0.22
92429871|NCT00706823|184747750|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||t-test, 2 sided|||||||0.22
92429872|NCT00706823|184747752|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.11||||0.03|TWO_SIDED|95.0|1.1|58.6|||Regression, Logistic|||||58.6|1.1|0.03
92429873|NCT03130257|184747753|EQUIVALENCE|The study planned for a sample size of 510 and 80% protocol completion, resulting in sample size 136 per group. With this sample size, the least detectable difference (LDD) is 4.1 mmHg systolic BP (SBP) and 2.8 mmHg diastolic BP (DBP) between any two groups (assuming Standard Deviation 12.1 and 8.3 for SBP and DBP respectively). Actual sample sizes completing protocol were 142, 149, and 111 for Clinic, Home, and Kiosk groups respectively, resulting in LDD of at least 4.3 for SBP and 3.0 for DBP.|||||<|0.05|||||||Regression, Linear|||We used linear regression models to estimate the mean difference in BP between diagnostic measurement and daytime average 24-hr BP for each randomization group. Models were estimated using generalized estimating equations with robust standard errors, and adjusted for age, sex, BMI, education, and baseline systolic and diastolic BP. Separate models estimated mean differences (diagnostic protocol - 24-hr BP) between groups for systolic and diastolic BP.||||<0.05
92429874|NCT03766581|184747754|SUPERIORITY||Relative Risk (RR)|0.99|||||TWO_SIDED|95.0|0.87|1.1|||MCP-MOD|Multiple Comparison Procedures, MODel|95% confidence interval (CI) for composite event based on bootstrap (10000 samples)|Milvexian 25 mg QD over Placebo||1.10|0.87|
92237132|NCT02988986|184378437|SUPERIORITY|Based on prior data for Ki67 changes in the tamoxifen arm alone, we will assume null hypothesis and alternative hypotheses of 60% and 80% reduction in Ki67, respectively. A sample of 25 patients will provide 86% power to detect the hypothesized reduction in Ki67 with 5% alpha based on a two-sided, one sample t-test of mean percent change in Ki67 level.|||||=|0.0023|||||||Wilcoxon (Mann-Whitney)|||The primary endpoint was the change in Ki67 after 6 weeks of treatment.||||=0.0023
92237133|NCT00634543|184378446|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if lower confidence limit of 2-sided 95% CI was less than the non-inferiority margin of 1.39.|Mean Difference (Net)|0.39||||0.2143|TWO_SIDED|95.0|-0.23|1.01|||t-test, 2 sided|P-value was calculated for change from baseline in pain intensity score at Day 43.||||1.01|-0.23|0.2143
92237134|NCT00634543|184378447|SUPERIORITY_OR_OTHER|||||||0.7539|||||||Chi-squared|P-value was evaluated for pain relief in tramadol hydrochloride/ acetaminophen versus gabapentin groups at Day 15.||||||0.7539
92429875|NCT03766581|184747754|SUPERIORITY||Relative Risk (RR)|0.99|||||TWO_SIDED|95.0|0.83|1.15|||MCP-MOD|Multiple Comparison Procedures, MODel|95% confidence interval (CI) for composite event based on bootstrap (10000 samples)|Milvexian 25 mg BID over Placebo||1.15|0.83|
92429876|NCT03766581|184747754|SUPERIORITY||Relative Risk (RR)|0.93|||||TWO_SIDED|95.0|0.76|1.16|||MCP-MOD|Multiple Comparison Procedures, MODel|95% confidence interval (CI) for composite event based on bootstrap (10000 samples)|Milvexian 50 mg BID over Placebo||1.16|0.76|
92429877|NCT03766581|184747754|SUPERIORITY||Relative Risk (RR)|0.92|||||TWO_SIDED|95.0|0.73|1.18|||MCP-MOD|Multiple Comparison Procedures, MODel|95% confidence interval (CI) for composite event based on bootstrap (10000 samples)|Milvexian 100 mg BID over Placebo||1.18|0.73|
92429878|NCT03766581|184747754|SUPERIORITY||Relative Risk (RR)|0.91|||||TWO_SIDED|95.0|0.69|1.31|||MCP-MOD|Multiple Comparison Procedures, MODel|95% confidence interval (CI) for composite event based on bootstrap (10000 samples)|Milvexian 200 mg BID over Placebo||1.31|0.69|
92429879|NCT03766581|184747776|SUPERIORITY||Relative Risk (RR)|0.83|||||TWO_SIDED|95.0|0.46|1.49|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 25 mg QD over Placebo||1.49|0.46|
92429880|NCT03766581|184747776|SUPERIORITY||Relative Risk (RR)|0.69|||||TWO_SIDED|95.0|0.36|1.3|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 25 mg BID over Placebo||1.30|0.36|
92429881|NCT03766581|184747776|SUPERIORITY||Relative Risk (RR)|0.72|||||TWO_SIDED|95.0|0.39|1.33|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 50 mg BID over Placebo||1.33|0.39|
92429882|NCT03766581|184747776|SUPERIORITY||Relative Risk (RR)|0.65|||||TWO_SIDED|95.0|0.33|1.25|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 100 mg BID over Placebo||1.25|0.33|
92429883|NCT03766581|184747776|SUPERIORITY||Relative Risk (RR)|1.4|||||TWO_SIDED|95.0|0.87|2.25|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 200 mg BID||2.25|0.87|
92429884|NCT03766581|184747776|SUPERIORITY||Relative Risk (RR)|2.48|||||TWO_SIDED|95.0|0.83|7.42|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 50 mg QD over Placebo||7.42|0.83|
92237135|NCT00634543|184378447|SUPERIORITY_OR_OTHER|||||||0.5905|||||||Chi-squared|P-value was evaluated for pain relief in tramadol hydrochloride/ acetaminophen versus gabapentin groups at Day 29.||||||0.5905
92237136|NCT00634543|184378447|SUPERIORITY_OR_OTHER|||||||0.7407|||||||Chi-squared|P-value was evaluated for pain relief in tramadol hydrochloride/ acetaminophen versus gabapentin groups at Day 43.||||||0.7407
92237137|NCT00634543|184378448|SUPERIORITY_OR_OTHER|||||||0.3504|||||||Chi-squared|P-value was evaluated for all categories (bad, no change, good and very good).||||||0.3504
92429885|NCT03766581|184747776|SUPERIORITY||Relative Risk (RR)|1.01|||||TWO_SIDED|95.0|0.15|6.96|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 100 mg QD over Placebo||6.96|0.15|
92429886|NCT03716024|184747777|SUPERIORITY||Mean Difference (Final Values)|13.6|||||TWO_SIDED|95.0|1.3|26.0|||||omadacycline minus linezolid|||26.0|1.3|
92429887|NCT03716024|184747778|SUPERIORITY||Mean Difference (Final Values)|4.8|||||TWO_SIDED|95.0|-1.7|11.4|||||omadacycline minus linezolid|||11.4|-1.7|
92429888|NCT03716024|184747779|SUPERIORITY||Mean Difference (Final Values)|13.8|||||TWO_SIDED|95.0|0.9|26.7|||||omadacycline minus linezolid|||26.7|0.9|
92237138|NCT00634543|184378449|SUPERIORITY_OR_OTHER|||||||0.569|||||||Chi-squared|P-value was evaluated for all categories (bad, no change, good and very good).||||||0.5690
92237139|NCT01371838|184378455|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the observed difference in the primary outcome measure (clinical cure rate) between the ceftaroline group and the ceftriaxone group was calculated in CE Population at the TOC visit. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10% in CE Population. If non-inferioirity was achieved then a test of superioirty was conducted whereby if lower limit of 95% CI for the difference was \>0% superioirty was concluded.|Risk Difference (RD)|9.9|||||TWO_SIDED|95.0|2.8|17.1||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|The primary objective of this study was to determine the noninferiority in the clinical cure rate for ceftaroline compared to that for ceftriaxone at TOC in the CE in adult subjects with CABP.||17.1|2.8|
92279618|NCT02308111|184462688|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.437|TWO_SIDED|95.0|0.43|1.44||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||1.44|0.43|0.437
92429889|NCT03716024|184747780|SUPERIORITY||Mean Difference (Final Values)|4.3|||||TWO_SIDED|95.0|-5.3|14.0||||||||14.0|-5.3|
92429890|NCT01056653|184747787|SUPERIORITY_OR_OTHER||||||=|0.03|||||||ANCOVA|F(2,107)=3.48, partial n2=0.061, observed power=0.639||ANCOVA - Group Comparison of Parent Total Score on PCITS at 8 months, controlling for scores at baseline (4 months). Group entered as as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||=0.03
92429891|NCT01056653|184747787|SUPERIORITY_OR_OTHER|||||||0.03||||||Bonferroni adjustments for multiple comparisons used|ANOVA|||Pairwise Group Comparison based on estimated marginal means - Parent Total Scores||||0.03
92429892|NCT01056653|184747787|SUPERIORITY_OR_OTHER|||||||0.534||||||Bonferroni adjustment for multiple comparisons used|ANCOVA|||Pairwise Group Comparison based on estimated marginal means - Parent Total Scores||||0.534
92170919|NCT03398148|184230787|SUPERIORITY|||||||0.7172|||||||Fisher Exact|P value for comparisons between treatment groups and placebo group using chi-square test or Fisher's exact test.||||||0.7172
92170920|NCT03398148|184230788|SUPERIORITY||Adjusted Risk Difference|4.7||||0.0722|TWO_SIDED|90.0|0.4|9.0||P-value ≤ 0.1|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||9.0|0.4|0.0722
92170921|NCT03398148|184230788|SUPERIORITY||Adjusted Risk Difference|3.1||||0.148|TWO_SIDED|90.0|-0.4|6.6|||Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||6.6|-0.4|0.1480
92170922|NCT03398148|184230788|SUPERIORITY||Adjusted Risk Difference|1.7||||0.3042|TWO_SIDED|90.0|-1.0|4.5|||Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||4.5|-1.0|0.3042
92170923|NCT03398148|184230789|SUPERIORITY||Least Squares (LS) Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|2.13||0.003|TWO_SIDED|90.0|-9.94|-2.89||P-value ≤ 0.01|Mixed-effect model repeated measurement|||||-2.89|-9.94|0.0030
92170924|NCT03398148|184230789|SUPERIORITY||Least Squares (LS) Mean Difference|-8.2|STANDARD_ERROR_OF_MEAN|2.11||0.0001|TWO_SIDED|90.0|-11.67|-4.71||P-value ≤ 0.001|Mixed-effect model repeated measurement|||||-4.71|-11.67|0.0001
92170925|NCT03398148|184230789|SUPERIORITY||Least Squares (LS) Mean Difference|-7.7|STANDARD_ERROR_OF_MEAN|2.14||0.0004|TWO_SIDED|90.0|-11.27|-4.19||P-value ≤ 0.001|Mixed-effect model repeated measurement|||||-4.19|-11.27|0.0004
92170926|NCT03398148|184230790|SUPERIORITY||Least Squares (LS) Mean Difference|17.3|STANDARD_ERROR_OF_MEAN|6.47||0.0081|TWO_SIDED|90.0|6.61|28.0||P-value ≤ 0.01|Mixed-effect model repeated measurement|||||28|6.61|0.0081
92170927|NCT03398148|184230790|SUPERIORITY||Least Squares (LS) Mean Difference|20.3|STANDARD_ERROR_OF_MEAN|6.37||0.0017|TWO_SIDED|90.0|9.74|30.79||P-value ≤ 0.01|Mixed-effect model repeated measurement|||||30.79|9.74|0.0017
92239845|NCT04184622|184383628|SUPERIORITY||Hazard Ratio (HR)|0.06|||<|0.0001|TWO_SIDED|95.0|0.03|0.13|||Regression, Cox|||||0.13|0.03|<0.0001
92239846|NCT04184622|184383629|SUPERIORITY||Hazard Ratio (HR)|0.12|||<|0.0001|TWO_SIDED|95.0|0.07|0.21|||Regression, Cox|||||0.21|0.07|<0.0001
92239847|NCT04184622|184383630|SUPERIORITY||LS Mean Difference (Net)|-5.1|||<|0.001|TWO_SIDED|95.0|-5.5|-4.6|||Mixed Models Analysis|||||-4.6|-5.5|<0.001
92170928|NCT03398148|184230790|SUPERIORITY||Least Squares (LS) Mean Difference|19.9|STANDARD_ERROR_OF_MEAN|6.49||0.0024|TWO_SIDED|90.0|9.22|30.67||P-value ≤ 0.01|Mixed-effect model repeated measurement|||||30.67|9.22|0.0024
92170929|NCT03398148|184230791|SUPERIORITY||Least Squares (LS) Mean Difference|1.208||||0.3315|TWO_SIDED|90.0|-0.8429|3.2596|||Mixed-effect model repeated measurement|||||3.2596|-0.8429|0.3315
92170930|NCT03398148|184230791|SUPERIORITY||LS Mean of Difference|2.447||||0.0451|TWO_SIDED|90.0|0.4415|4.4519||P-value ≤ 0.05|Mixed-effect model repeated measurement|||||4.4519|0.4415|0.0451
92170931|NCT03398148|184230791|SUPERIORITY||LS Mean of Difference|2.392||||0.0543|TWO_SIDED|90.0|0.3498|4.4352||P-value ≤ 0.1|Mixed-effect model repeated measurement|||||4.4352|0.3498|0.0543
92239848|NCT04184622|184383630|SUPERIORITY||LS Mean Difference (Net)|-7.2|||<|0.001|TWO_SIDED|95.0|-7.7|-6.8|||Mixed Models Analysis|||||-6.8|-7.7|<0.001
92239849|NCT04184622|184383630|SUPERIORITY||LS Mean Difference (Net)|-7.7|||<|0.001|TWO_SIDED|95.0|-8.2|-7.3|||Mixed Models Analysis|||||-7.3|-8.2|<0.001
92429893|NCT01056653|184747787|SUPERIORITY_OR_OTHER|||||||0.047|||||||ANCOVA|F(2,107)=3.145, partial n2=0.056, observed power=0.593.||ANCOVA - Group Comparison of Cognitive Growth Fostering Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.047
92429894|NCT01056653|184747787|SUPERIORITY_OR_OTHER|||||||0.056||||||Bonferroni adjustments for multiple comparisons used|ANCOVA|||Pairwise Group Comparison based on estimated marginal means - Cognitive Growth Fostering Subscale||||0.056
92429895|NCT01056653|184747787|SUPERIORITY_OR_OTHER|||||||0.267||||||Bonferroni adjustments for multiple comparisons used|ANCOVA|||Pairwise Group Comparison based on estimated marginal means - Cognitive Growth Fostering Subscale||||0.267
92239850|NCT04184622|184383631|SUPERIORITY||LS Mean Difference (Net)|-0.33|||<|0.001|TWO_SIDED|95.0|-0.36|-0.3|||Mixed Models Analysis|||||-0.30|-0.36|<0.001
92429896|NCT01056653|184747787|SUPERIORITY_OR_OTHER|||||||0.036|||||||ANCOVA|F(2,107)=3.440, partial n2=0.060, observed power=0.634||ANCOVA - Group Comparison of Socio-Emotional Growth Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.036
92239851|NCT04184622|184383631|SUPERIORITY||LS Mean Difference (Net)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.45|-0.38|||Mixed Models Analysis|||||-0.38|-0.45|<0.001
92429897|NCT01056653|184747787|SUPERIORITY_OR_OTHER|||||||0.036||||||Bonferroni adjustments for multiple comparisons used|ANCOVA|||Pairwise Group Comparison based on estimated marginal means - Socio-Emotional Growth Fostering Subscale||||0.036
92429898|NCT01056653|184747787|SUPERIORITY_OR_OTHER|||||||1||||||Bonferroni adjustments for multiple comparisons used|ANCOVA|||Pairwise Group Comparison based on estimated marginal means - Socio-Emotional Growth Fostering Subscale||||1.00
92429899|NCT01056653|184747787|SUPERIORITY_OR_OTHER|||||||0.665|||||||ANCOVA|F(2,107)=0.409||ANCOVA - Group Comparison of Sensitivity to Cues Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.665
92429900|NCT01056653|184747787|SUPERIORITY_OR_OTHER|||||||0.732|||||||ANCOVA|F(2,107)=0.313||ANCOVA - Group Comparison of Response to Distress Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.732
92429901|NCT01056653|184747788|SUPERIORITY_OR_OTHER|||||||0.61|||||||ANCOVA|F(2,107)=0.49||ANCOVA - Group Comparison of Parent Domain scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.61
92429902|NCT01056653|184747788|SUPERIORITY_OR_OTHER|||||||0.38|||||||ANCOVA|F(2,107)=0.96||ANCOVA - Group Comparison of Child Domain scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.38
92429903|NCT01056653|184747789|SUPERIORITY_OR_OTHER|||||||0.11|||||||ANCOVA|F(2,106)=2.24.||ANCOVA - Group Comparison of WPL-R scores - Evaluation Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.11
92429904|NCT01056653|184747789|SUPERIORITY_OR_OTHER|||||||0.686|||||||ANCOVA|F(2,106)=0.379||ANCOVA - Group Comparison of WPL-R scores - Centrality Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.686
92429905|NCT01056653|184747789|SUPERIORITY_OR_OTHER|||||||0.121|||||||ANCOVA|F(2,106)=2.158||ANCOVA - Group Comparison of WPL-R scores - Life Change Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.121
92429906|NCT05275400|184747790|NON_INFERIORITY|Noninferiority margin (NIM) was 0.4%|LS Mean Difference|-0.089|||||TWO_SIDED|95.0|-0.191|0.013||||||||0.013|-0.191|
92429907|NCT05275400|184747791|SUPERIORITY||LS Mean Difference|-0.089||||0.088|TWO_SIDED|95.0|-0.191|0.013|||ANCOVA|||||0.013|-0.191|0.088
92429908|NCT05275400|184747792|SUPERIORITY||Relative rate|1.03||||0.897|TWO_SIDED|95.0|0.62|1.74|||Negative binomial model|||||1.74|0.62|0.897
92429909|NCT05275400|184747793|SUPERIORITY||LS Mean Difference|0.42||||0.722|TWO_SIDED|95.0|-1.88|2.72|||ANCOVA|||||2.72|-1.88|0.722
92429910|NCT05275400|184747794|SUPERIORITY||LS Mean Difference|-0.84||||0.605|TWO_SIDED|95.0|-4.01|2.33|||ANCOVA|||||2.33|-4.01|0.605
92429911|NCT05275400|184747795|SUPERIORITY||LS Mean Difference|-30.0||||0.003|TWO_SIDED|95.0|-50.1|-9.97|||Mixed Models Analysis|||||-9.97|-50.10|0.003
92429912|NCT05275400|184747796|SUPERIORITY||Relative rate|1.14||||0.43|TWO_SIDED|95.0|0.83|1.56|||Negative binomial model|||||1.56|0.83|0.430
92429913|NCT05275400|184747797|SUPERIORITY||LS Mean Difference|0.071||||0.756|TWO_SIDED|95.0|-0.38|0.52|||Mixed Models Analysis|||||0.52|-0.38|0.756
92429914|NCT05275400|184747798|SUPERIORITY||LS Mean Difference|0.14||||0.021|TWO_SIDED|95.0|0.02|0.27|||ANCOVA|||||0.27|0.02|0.021
92170932|NCT03398148|184230792|SUPERIORITY||LS Mean of Difference|3.662||||0.0367|TWO_SIDED|90.0|0.7841|6.5402||P-value \<= 0.1|Mixed-effect model repeated measurement||P-value for test of difference between each Risankizumab dose group and placebo for mean change from baseline using the mixed-effect repeated measure model The unstructured covariance structure was used to estimate within subject errors.|||6.5402|0.7841|0.0367
92429915|NCT05275400|184747799|SUPERIORITY||LS Mean Difference|-0.99||||0.417|TWO_SIDED|95.0|-3.37|1.4|||ANCOVA|||||1.40|-3.37|0.417
92429916|NCT05275400|184747800|SUPERIORITY||LS Mean Difference|3.15|||<|0.001|TWO_SIDED|95.0|1.71|4.59|||Mixed Models Analysis|||Week 26||4.59|1.71|<0.001
92429917|NCT05275400|184747800|SUPERIORITY||LS Mean Difference|3.56|||<|0.001|TWO_SIDED|95.0|2.05|5.07|||Mixed Models Analysis|||Week 52||5.07|2.05|<0.001
92429918|NCT05275400|184747800|SUPERIORITY||LS Mean Difference|3.35|||<|0.001|TWO_SIDED|95.0|1.75|4.94|||Mixed Models Analysis|||Week 78||4.94|1.75|<0.001
92429919|NCT03727230|184747813|OTHER||||||<|0.001|||||||Chi-squared|||In this study, a single-arm clinical trial was conducted. The summarized alloanti-D rate (203/720, 28.2%; 95% CI, 19%-32%) in truly RhD-negative patients with similar mixed diseases after RhD+ RBC transfusion reported in the meta-analysis (Ji YL, et al. Vox Sang 2022; 117: 633-40) was used as the control for comparison with alloanti-D rate identified in Asian-type DEL patients after RhD+ RBC transfusion in the clinical trial.||||< 0.001
92429920|NCT03600818|184747815|SUPERIORITY||Difference in percentage|18.0|||=|0.0193|TWO_SIDED|95.0|4.15|31.82||Threshold for significance at 0.05 level.|Fisher Exact|||||31.82|4.15|=0.0193
92429921|NCT03600818|184747816|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Wilcoxon rank-sum test|||A hierarchical testing procedure was used to control the overall type I error. If the primary endpoint reaches statistical significance then the secondary endpoint for total cumulative CS dose was tested next.||||<0.0001
92429922|NCT04377620|184747852|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0292|TWO_SIDED|95.0|0.201|1.028|||Mixed Models Analysis|logistic regression mixed model includes treatment group and ARDS severity as fixed covariates and investigational site as a random effect.||||1.028|0.201|0.0292
92429923|NCT04377620|184747852|SUPERIORITY||Odds Ratio (OR)|0.42||||0.028|TWO_SIDED|95.0|0.171|1.023|||Mixed Models Analysis|logistic regression mixed model includes treatment group and ARDS severity as fixed covariates and investigational site as a random effect.||||1.023|0.171|0.0280
92429924|NCT00044083|184747888|OTHER||||||<|0.0001||||||Diagnosis effect on placebo|ANOVA|||||||<0.0001
92429925|NCT00044083|184747888|OTHER|||||||0.0034||||||Drug Effect on Patients|ANOVA|||||||0.0034
92429926|NCT00044083|184747889|OTHER||||||<|0.0001||||||Diagnosis Effect on Placebo in right DLPFC|ANOVA|||||||<0.0001
92429927|NCT00044083|184747889|OTHER|||||||0.014||||||Diagnosis Effect of Placebo in left DLPFC|ANOVA|||||||0.014
92429928|NCT00044083|184747890|OTHER|||||||0.05||||||Drug Effect across both groups in left DLPFC|ANOVA|||||||0.05
92170933|NCT03398148|184230792|SUPERIORITY||LS Mean of Difference|4.19||||0.0151|TWO_SIDED|90.0|1.3656|7.0144||P-value \<= 0.05|Mixed-effect model repeated measurement||P-value for test of difference between each Risankizumab dose group and placebo for mean change from baseline using the mixed-effect repeated measure model The unstructured covariance structure was used to estimate within subject errors.|||7.0144|1.3656|0.0151
92429929|NCT00044083|184747890|OTHER|||||||0.32||||||Drug Effect across both groups in right DLPFC|ANOVA|||||||0.32
92429930|NCT00044083|184747891|OTHER|||||||0.05||||||The Effect of Drug on Patients with Schizophrenia in right DLPFC|t-test, 1 sided|||||||0.05
92429931|NCT00044083|184747891|OTHER|||||||0.078||||||Effect of Drug on Patients with Schizophrenia in left DLPFC|t-test, 1 sided|||||||0.078
92429932|NCT00044083|184747892|OTHER|||||||0.05||||||Drug Effect on Healthy Volunteers in left DLPFC|t-test, 1 sided|||||||0.05
92429933|NCT00044083|184747892|OTHER|||||||0.73||||||Drug Effect on Healthy Volunteers in right DLPFC|t-test, 1 sided|||||||0.73
92429934|NCT00044083|184747893|OTHER||||||<|0.0001|||||||ANOVA|Main Effect of Genotype across both Placebo and Tolcapone in right DLPFC||||||<0.0001
92429935|NCT00044083|184747893|OTHER|||||||0.167|||||||ANOVA|Main Effect of Genotype across both Placebo and Tolcapone in left DLPFC||||||0.167
92429936|NCT00044083|184747894|OTHER|||||||0.189||||||Drug by Genotype Effect in left DLPFC|ANOVA|||||||0.189
92429937|NCT00044083|184747894|OTHER|||||||0.041||||||Drug Effect on Val/Val Genotype in left DLPFC|t-test, 1 sided|||||||0.041
92429938|NCT00044083|184747894|OTHER|||||||0.718||||||Drug Effect on Val/Met Genotype in left DLPFC|t-test, 1 sided|||||||0.718
92429939|NCT00044083|184747894|OTHER|||||||0.469||||||Drug Effect of Met/Met Genotype in left DLPFC|t-test, 1 sided|||||||0.469
92429940|NCT00044083|184747895|OTHER|||||||0.7||||||Drug Effect on Positive Syndrome for Patients|t-test, 1 sided|||||||0.7
92429941|NCT00044083|184747895|OTHER|||||||0.4||||||Drug Effect on Negative Syndrome for Patients|t-test, 1 sided|||||||0.4
92429942|NCT00044083|184747895|OTHER|||||||0.12||||||Drug Effect on General Pathology for Patients|t-test, 1 sided|||||||0.12
92429943|NCT02197247|184747909|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No effect on the PK of AZD9291 after co-administration of rifampicin was concluded if the lower bound of the 90% confidence intervals (CIs) for the ratios (Period 2 versus Period 1) of AZD9291 AUCtau and Css,max were both above 50%. The experiment-wide power for the ratios being above 50% was 90% (95% power for each parameter).|Geometric least-squares (LS) mean ratio|27.16|||||TWO_SIDED|90.0|24.36|30.29|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1).|Natural log-transformed Css,max values were compared between periods using a mixed effects analysis of variance (ANOVA) with period as fixed effect and patient as random effect. It was assumed the within-patient coefficient of variation for AZD9291 in both area under the plasma concentration-time curve during the dosing interval (AUCtau) and Cmax was 34%. A 33% decrease in exposure for AZD9291 when given with rifampicin was also assumed.||30.29|24.36|
92446533|NCT02477020|184780040|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.782||||0.009|TWO_SIDED|95.0|1.287|6.014|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 2||6.014|1.287|0.009
92446534|NCT02477020|184780040|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.818||||0.108|TWO_SIDED|95.0|0.877|3.771|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 3||3.771|0.877|0.108
92237140|NCT01371838|184378456|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.7|||||TWO_SIDED|95.0|4.9|16.4||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||16.4|4.9|
92429944|NCT02197247|184747910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No effect on the PK of AZD9291 after co-administration of rifampicin was concluded if the lower bound of the 90% CIs for the ratios (Period 2 versus Period 1) of AZD9291 AUCtau and Css,max were both above 50%. The experiment-wide power for the ratios being above 50% was 90% (95% power for each parameter).|Geometric LS Mean Ratio|21.55|||||TWO_SIDED|90.0|19.5|23.83|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1).|Natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as fixed effect and patient as random effect. It was assumed the within-patient coefficient of variation for AZD9291 in both AUCtau and Cmax was 34%. A 33% decrease in exposure for AZD9291 when given with rifampicin was also assumed.||23.83|19.50|
92237141|NCT01371838|184378457|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.5|||||TWO_SIDED|95.0|1.8|15.4||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||15.4|1.8|
92429945|NCT02197247|184747911|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|95.53|||||TWO_SIDED|90.0|85.27|107.03|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for AZD9291 alone in separate periods, but analysed for consistency with AZD9291+rifampicin / AZD9291 alone analysis (primary outcome measure).|Natural log-transformed Css,max values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||107.03|85.27|
92429946|NCT02197247|184747912|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|21.72|||||TWO_SIDED|90.0|19.08|24.72|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ5104 (metabolite), natural log-transformed Css,max values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||24.72|19.08|
92429947|NCT02197247|184747912|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|88.31|||||TWO_SIDED|90.0|77.17|101.07|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ5104 (metabolite), natural log-transformed Css,max values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||101.07|77.17|
92429948|NCT02197247|184747913|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|139.32|||||TWO_SIDED|90.0|127.74|151.96|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ7550 (metabolite), natural log-transformed Css,max values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||151.96|127.74|
92429949|NCT02197247|184747913|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|100.75|||||TWO_SIDED|90.0|92.04|110.29|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ7550 (metabolite), natural log-transformed Css,max values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||110.29|92.04|
92429950|NCT02197247|184747915|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|95.89|||||TWO_SIDED|90.0|86.37|106.45|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for AZD9291 alone in separate periods, but analysed for consistency with AZD9291+rifampicin / AZD9291 alone analysis (primary outcome measure).|Natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||106.45|86.37|
92429951|NCT02197247|184747916|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|18.76|||||TWO_SIDED|90.0|16.61|21.19|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ5104 (metabolite), natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||21.19|16.61|
92429952|NCT02197247|184747916|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|90.08|||||TWO_SIDED|90.0|79.34|102.27|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ5104 (metabolite), natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||102.27|79.34|
92429953|NCT02197247|184747917|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|129.81|||||TWO_SIDED|90.0|119.14|141.44|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ7550 (metabolite), natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||141.44|119.14|
92446535|NCT02477020|184780040|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.222||||0.596|TWO_SIDED|95.0|0.583|2.561|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 4||2.561|0.583|0.596
92446536|NCT02477020|184780040|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.542||||0.263|TWO_SIDED|95.0|0.722|3.292|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 5||3.292|0.722|0.263
92446537|NCT02477020|184780040|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.567||||0.253||95.0|0.725|3.388|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 6||3.388|0.725|0.253
92446538|NCT02477020|184780041|SUPERIORITY_OR_OTHER||Least square mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.095||0.619|TWO_SIDED|95.0|-0.23|0.14||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 1||0.14|-0.23|0.619
92237142|NCT01371838|184378458|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.0|||||TWO_SIDED|95.0|6.8|19.2||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments. If lower limit of 95% CI for the risk difference was \>0% superioirty was concluded in this population.|||19.2|6.8|
92429954|NCT02197247|184747917|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|100.76|||||TWO_SIDED|90.0|92.15|110.19|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ7550 (metabolite), natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||110.19|92.15|
92429955|NCT03758066|184747943|OTHER|||||||0.03||||||P-value reported for quality of life measured between baseline and 12-month follow-up with a statistical significance threshold of .05.|Sign test|||A two-tailed non-parametric one-sample paired sign test was used to determine whether to reject or fail to reject the null hypothesis that the mean difference of scores between any of the 2 of 3 timepoints is 0 (Baseline v. 6-month, 6-month v. 12-month, and Baseline v. 12-month).||||.03
92429956|NCT03758066|184747944|SUPERIORITY|||||||0.02||||||P-value reported for self-reported self-efficacy in chronic disease management between baseline and 12-month follow-up with a statistical significance threshold of .05.|Sign test|||A two-tailed non-parametric one-sample paired sign test was used to determine whether to reject or fail to reject the null hypothesis that the mean difference of scores between any of the 2 of 3 timepoints is 0 (Baseline v. 6-month, 6-month v. 12-month, and Baseline v. 12-month).||||.02
92429957|NCT03758066|184747944|OTHER|||||||0.02||||||P-value reported for self-reported self-efficacy in chronic disease management between 6- and 12-month follow-up with a statistical significance threshold of .05.|Sign test|||||||.02
92429958|NCT00332163|184747954|SUPERIORITY_OR_OTHER||Difference|-33.0|||||TWO_SIDED|95.0|-51.0|-14.0|||||Difference = Pre-emptive - Reactive|||-14|-51|
92429959|NCT00332163|184747955|SUPERIORITY_OR_OTHER||Difference|-22.0|||||TWO_SIDED|95.0|-42.0|-3.0|||||Difference = Pre-emptive - Reactive|||-3|-42|
92429960|NCT00332163|184747956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.2|0.7|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with an indicator for treatment (pre-emptive vs. reactive), stratified by chemotherapy stratum (Q2W vs Q3W).|||0.7|0.2|
92429961|NCT00332163|184747958|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.2|0.7|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with an indicator for treatment (Pre-emptive vs. Reactive) stratified by chemotherapy stratum (Q2W vs Q3W).|||0.7|0.2|
92429962|NCT00332163|184747959|SUPERIORITY_OR_OTHER||Difference|-4.0|||||TWO_SIDED|95.0|-16.0|7.0|||||Difference = Pre-emptive - Reactive|||7|-16|
92429963|NCT00332163|184747960|SUPERIORITY_OR_OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.0|10.0|||||Difference = Pre-emptive - Reactive|||10|-10|
92237143|NCT01371838|184378459|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.2|||||TWO_SIDED|95.0|2.7|27.1||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||27.1|2.7|
92279619|NCT02308111|184462689|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.838|TWO_SIDED|95.0|0.37|2.24||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||2.24|0.37|0.838
92429964|NCT00332163|184747961|SUPERIORITY_OR_OTHER||Difference|4.0|||||TWO_SIDED|95.0|-9.0|17.0|||||Rate difference = Pre-emptive - Reactive|||17|-9|
92429965|NCT00332163|184747962|SUPERIORITY_OR_OTHER||Difference|-1.0|||||TWO_SIDED|95.0|-21.0|18.0|||||Rate difference = Pre-emptive - Reactive|||18|-21|
92429966|NCT00332163|184747963|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.9|2.0|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with an indicator for treatment (Pre-emptive vs. Reactive) stratified by chemotherapy stratum (Q2W vs Q3W).|||2.0|0.9|
92429967|NCT00332163|184747964|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.6|1.5|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with an indicator for treatment (Pre-emptive vs. Reactive) stratified by chemotherapy stratum (Q2W vs Q3W).|||1.5|0.6|
92429968|NCT00332163|184747965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.7|2.1|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with an indicator for treatment (Pre-emptive vs. Reactive) stratified by chemotherapy stratum (Q2W vs Q3W).|||2.1|0.7|
92429969|NCT00332163|184747966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.6|1.6|||||Hazard ratio is estimated from a Cox Proportional Hazards regression model with an indicator for treatment (Pre-emptive vs. Reactive) stratified by chemotherapy stratum (Q2W vs Q3W).|||1.6|0.6|
92429970|NCT03706079|184747991|SUPERIORITY||Rate Ratio|0.42|||||TWO_SIDED|95.0|0.35|0.51||||||||0.51|0.35|
92429971|NCT03706079|184747991|SUPERIORITY||Rate Ratio|0.61|||||TWO_SIDED|95.0|0.38|0.96||||||||0.96|0.38|
92429972|NCT00329238|184747994|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons between treatment groups were performed using a Cox regression analysis with treatment and baseline stratification factor in the model.|Hazard Ratio (HR)|1.44||||0.0137||95.0|0.78|2.64||p-value for non-inferiority. The non-inferiority margin for the hazard ratio was chosen to be 2.85.|Regression, Cox|HR within cohort estimated by Cox regr. with treatment and baseline stratific. factor. Overall HR calc. by pooling with inverse variance weighting.|HR for time to first recurrent VTE or VTE death.|||2.64|0.78|0.0137
92429973|NCT00329238|184747994|SUPERIORITY_OR_OTHER|||||||0.2424||||||p-value for superiority. If non-inferiority could be established for HR and for the risk difference, the upper bound of the 95% CI for the hazard ratio was then compared with 1 to evaluate the superiority claim of dabigatran over warfarin.|Regression, Cox|||||||0.2424
92429974|NCT00329238|184747995|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons between treatment groups were performed using a Cox regression analysis with treatment and baseline stratification factor in the model.|Risk Difference (RD)|0.38|||<|0.0001||95.0|-0.5|1.25||p-value for non-inferiority. The non-inferiority margin for the risk difference was chosen to be 2.80.|Regression, Cox|Risk difference for time to first recurrent VTE/VTE death is calculated based on weighted KM estimates across the cohorts via meta-analysis approach.||||1.25|-0.50|<0.0001
92170934|NCT03398148|184230792|SUPERIORITY||LS Mean of Difference|2.348||||0.1795|TWO_SIDED|90.0|-0.5322|5.2281|||Mixed-effect model repeated measurement||P-value for test of difference between each Risankizumab dose group and placebo for mean change from baseline using the mixed-effect repeated measure model The unstructured covariance structure was used to estimate within subject errors.|||5.2281|-0.5322|0.1795
92170935|NCT03398148|184230793|SUPERIORITY||Least Squares (LS) Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|1.91||0.0422|TWO_SIDED|90.0|0.75|7.06||P-value ≤ 0.05|Mixed-effect model repeated measurement|||||7.06|0.75|0.0422
92170936|NCT03398148|184230793|SUPERIORITY||Least Squares (LS) Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|1.87||0.0049|TWO_SIDED|90.0|2.23|8.42||P-value ≤ 0.01|Mixed-effect model repeated measurement|||||8.42|2.23|0.0049
92170937|NCT03398148|184230793|SUPERIORITY||Least Squares (LS) Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|1.91||0.0156|TWO_SIDED|90.0|1.5|7.8||P-value ≤ 0.05|Mixed-effect model repeated measurement|||||7.80|1.50|0.0156
92170938|NCT03398148|184230794|SUPERIORITY|||||||1||||||P-Value for comparisons between treatment groups and placebo group using Fisher's exact test.|Fisher Exact|||Note: ITT1A includes all randomized subjects who received at least one dose of study drug during Induction Period 1 from Sub-Study 1.||||1
92429975|NCT00329238|184747995|SUPERIORITY_OR_OTHER|||||||0.4013||||||p-value for superiority. If non-inferiority could be established for HR and for the risk difference, the upper bound of the 95% CI for the risk difference was then compared with 0 to evaluate the superiority claim of dabigatran over warfarin.|Kaplan-Meier|||||||0.4013
92429976|NCT00329238|184747996|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.4732||95.0|0.75|1.84|||Regression, Cox|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors and their interaction.|HR for time to first centrally adjudicated recurrent VTE or all cause death.|||1.84|0.75|0.4732
92429977|NCT00329238|184747997|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.09||||0.8876||95.0|-1.11|1.28|||Kaplan-Meier|Risk difference for the time to first centrally adjudicated recurrent VTE or all cause death at month 18.||Dabigatran versus Warfarin||1.28|-1.11|0.8876
92429978|NCT00329238|184747998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.4548||95.0|0.64|2.71|||Regression, Cox|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors and their interaction.|HR for time to first centrally adjudicated recurrent symptomatic DVT|Dabigatran versus Warfarin||2.71|0.64|0.4548
92429979|NCT00329238|184747999|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.19||||0.6563||95.0|-0.63|1.0|||Kaplan-Meier|Risk difference for the time to first centrally adjudicated recurrent symptomatic DVT at Month 18.||Dabigatran versus Warfarin||1.00|-0.63|0.6563
92429980|NCT00329238|184748000|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.04||||0.1925||95.0|0.7|5.98|||Regression, Cox|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors and their interaction.|Hazard ratio for time to first centrally adjudicated recurrent symptomatic PE.|Dabigatran versus Warfarin||5.98|0.70|0.1925
92429981|NCT00329238|184748001|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.26||||0.3723||95.0|-0.32|0.84|||Kaplan-Meier||Risk difference for the time to first centrally adjudicated recurrent symptomatic PE at Month 18|Dabigatran versus Warfarin||0.84|-0.32|0.3723
92429982|NCT00329238|184748002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9921||95.0|0.06|16.22|||Regression, Cox|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors and their interaction.|Hazard ratio for time to deaths related to VTE.|Dabigatran versus Warfarin||16.22|0.06|0.9921
92429983|NCT00329238|184748003|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.01||||0.9204||95.0|-0.2|0.23|||Kaplan-Meier|Risk difference for the time to deaths related to VTE at Month 18.||Dabigatran versus Warfarin||0.23|-0.20|0.9204
92429984|NCT00329238|184748004|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.7405||95.0|0.47|1.72|||Regression, Cox|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors and their interaction.|Hazard ratio for time to all deaths|Dabigatran versus Warfarin||1.72|0.47|0.7405
92170939|NCT03398148|184230795|SUPERIORITY||Adjusted Risk Difference|28.6|||<|0.0001|TWO_SIDED|95.0|22.3|34.8||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference.|||34.8|22.3|<0.0001
92239852|NCT04184622|184383631|SUPERIORITY||LS Mean Difference (Net)|-0.44|||<|0.001|TWO_SIDED|95.0|-0.48|-0.41|||Mixed Models Analysis|||||-0.41|-0.48|<0.001
92239853|NCT04184622|184383632|SUPERIORITY||LS Mean Difference (Net)|-8.59|||<|0.001|TWO_SIDED|95.0|-9.97|-7.2|||Mixed Models Analysis|||||-7.20|-9.97|<0.001
92239854|NCT04184622|184383632|SUPERIORITY||LS Mean Difference (Net)|-10.59|||<|0.001|TWO_SIDED|95.0|-11.98|-9.21|||Mixed Models Analysis|||||-9.21|-11.98|<0.001
92239855|NCT04184622|184383632|SUPERIORITY||LS Mean Difference (Net)|-11.42|||<|0.001|TWO_SIDED|95.0|-12.8|-10.3|||Mixed Models Analysis|||||-10.30|-12.80|<0.001
92429985|NCT00329238|184748005|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.02||||0.9622||95.0|-0.89|0.84|||Kaplan-Meier|Risk difference for the time to all deaths at Month 18.||Dabigatran versus Warfarin||0.84|-0.89|0.9622
92429986|NCT00329238|184748006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52||||0.0577||95.0|0.27|1.02|||Regression, Cox||This is the analysis of the time to the first MBE.|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors (including active cancer at baseline and symptomatic PE as qualifying event) and their interaction.||1.02|0.27|0.0577
92429987|NCT00329238|184748006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.61|0.83|||Regression, Cox||This is the analysis of the time to the first occurrence of any bleeding event.|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors (including active cancer at baseline and symptomatic PE as qualifying event) and their interaction.||0.83|0.61|<0.0001
92446539|NCT02477020|184780041|SUPERIORITY_OR_OTHER||Least square mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.136||0.116|TWO_SIDED|95.0|-0.48|0.05||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 2||0.05|-0.48|0.116
92237144|NCT01371838|184378460|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.9|||||TWO_SIDED|95.0|-2.2|25.8||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||25.8|-2.2|
92429988|NCT00959764|184748011|NON_INFERIORITY_OR_EQUIVALENCE|"Assumed placebo-adjusted effect for both active treatment groups (% increase in BMD)was 1.56% and that the placebo adjusted effect for the rsCT tablets must be at least 0.5 times the placebo adjusted effect for the calcitonin nasal spray (active control treatment group). The null hypothesis to be tested was:~\[Mean(oral) - Mean(placebo)\] - 0.5 x \[Mean(nasal) - Mean(placebo)\] \< 0. Reference Pigeot, et al. 2003"|Mean Difference (Net)|0.77|STANDARD_DEVIATION|2.5||0.002|TWO_SIDED|95.0|0.08|1.45||The P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was \<0.05|ANCOVA|||The overall analysis across groups was an Analysis of Covariance where the study was powered to 80% with an assumption of a standard deviation of 2.5% and a two-sided 5% level of significance. For each treatment group, the BMD at 48 weeks was compared with the BMD at baseline and a % increase was calculated (baseline = 0%). This difference was subjected to the t-test. Two-sided P-value is less than or equal to 0.05 and was not adjusted as multiple comparisons were not done.||1.45|0.08|0.002
92429989|NCT00959764|184748012|NON_INFERIORITY_OR_EQUIVALENCE|Same as for Primary Outcome|Mean Difference (Net)|-21.84|STANDARD_DEVIATION|41.99||0.0006||||||P-value not adjusted for multiple comparisons; a priori threshold for significance was 0.05|ANCOVA|95% confidence interval not calculated||Same as for Primary Outcome||||0.0006
92429990|NCT00959764|184748013|NON_INFERIORITY_OR_EQUIVALENCE|Same as Primary Outcome|Mean Difference (Net)|-18.09|STANDARD_DEVIATION|47.53||0.0012||||||p-value not adjusted for multiple comparisons; a priori threshold for statistical significance was set at 0.05.|ANCOVA||oral calcitonin vs placebo|Same as Primary Outcome||||0.0012
92429991|NCT02284516|184748014|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|7.16|STANDARD_ERROR_OF_MEAN|2.096|=|0.0007|TWO_SIDED|95.0|3.04|11.28||The primary analysis was performed using a stratified 2-sample t-test (that is, analysis of variance \[ANOVA\]).|ANOVA|||||11.28|3.04|=0.0007
92429992|NCT02284516|184748015|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|7.85|STANDARD_ERROR_OF_MEAN|1.792|<|0.0001|TWO_SIDED|95.0|4.33|11.37||The primary analysis was performed using a stratified 2-sample t-test (that is, analysis of variance \[ANOVA\]).|ANOVA|||Baseline and Day 14||11.37|4.33|<0.0001
92429993|NCT02284516|184748015|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|9.32|STANDARD_ERROR_OF_MEAN|1.976|<|0.0001|TWO_SIDED|95.0|5.44|13.2||The primary analysis was performed using a stratified 2-sample t-test (that is, analysis of variance \[ANOVA\]).|ANOVA|||Baseline and Day 42||13.20|5.44|<0.0001
92429994|NCT00864383|184748016|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was defined as a between-group difference of less than 6 percentage points in the upper boundary of the two-sided 97.5% Wald confidence interval for the difference in proportion of patients with an unfavorable outcome.|Adjusted difference in proportions|6.1|||||TWO_SIDED|97.5|1.7|10.5|||||Adjusted difference from control in proportion of unfavorable outcome - percentage points|||10.5|1.7|
92429995|NCT00864383|184748016|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was defined as a between-group difference of less than 6 percentage points in the upper boundary of the two-sided 97.5% Wald confidence interval for the proportion of patients with an unfavorable outcome.|Adjusted difference from control|11.4|||||TWO_SIDED|97.5|6.7|16.1|||||Adjusted difference from control in rate of unfavorable outcome- percentage points|||16.1|6.7|
92429996|NCT00113022|184748047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22|STANDARD_ERROR_OF_MEAN|18.867||0.919|TWO_SIDED|95.0|-46.565|51.006||The test reported here examines the main effect for placebo versus drug.|Mixed Models Analysis||A positive value indicates greater depression in the active treatment group compared to placebo.|Per protocol, a linear mixed model with a first order autoregressive covariance structure was used. Baseline was included as a covariate. Drug and visit were main effects with an interaction between them included.||51.006|-46.565|.919
92429997|NCT03344796|184748049|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
92429998|NCT03344796|184748050|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
92279620|NCT02308111|184462690|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.98|TWO_SIDED|95.0|0.26|4.04||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||4.04|0.26|0.980
92237145|NCT01371838|184378463|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.2|||||TWO_SIDED|95.0|2.7|27.1||||RD is (Ceftaroline-Ceftriaxone) microbiologically favourable outcome rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||27.1|2.7|
92429999|NCT03344796|184748051|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
92430000|NCT03344796|184748052|SUPERIORITY||||||<|0.1|||||||Chi-squared|||Knowledge of sun protection score at baseline compared with score after completion of the arm. The hypothesis is that the focus group, usability test and structured interviews arms will not have significant change in knowledge. It is expected that cohort studies 1 and 2 will have significant change in knowledge of sun protection.||||< 0.1
92430001|NCT02516046|184748099|OTHER||Fleiss' kappa|0.8|||||TWO_SIDED|95.0|0.74|0.86||||||Inter-reader agreement analysis using Fleiss' kappa. The hypothesis tested was that the observed kappa values were ≥0.64 and the lower bound of the 2-sided 95% CIs were ≥0.55 for the inter-reader agreement among readers.||0.86|0.74|
92430002|NCT03137537|184748114|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92430003|NCT03137537|184748115|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
92430004|NCT01211730|184748123|SUPERIORITY_OR_OTHER|||||||0.709|||||||Chi-squared, Corrected|||||||0.709
92430005|NCT01211730|184748124|SUPERIORITY_OR_OTHER|||||||0.003|||||||Chi-squared, Corrected|||||||0.003
92430006|NCT01211730|184748125|SUPERIORITY_OR_OTHER|||||||0.0046|||||||Chi-squared, Corrected|||||||0.0046
92430007|NCT01211730|184748126|SUPERIORITY_OR_OTHER|||||||0.75|||||||Chi-squared, Corrected|||||||0.75
92430008|NCT01211730|184748127|SUPERIORITY_OR_OTHER|||||||0.56|||||||Chi-squared, Corrected|||||||0.56
92430009|NCT01211730|184748128|SUPERIORITY_OR_OTHER|||||||0.77|||||||Chi-squared, Corrected|||||||0.77
92430010|NCT02465515|184748129|NON_INFERIORITY|Non-inferiority was determined by testing the hypothesis that the observed hazard ratio is significantly different from the null margin of 1.3 (a one-sided p \<0.025 for such a test with result in appropriate direction being equivalent to the upper 95% confidence limit for the hazard ratio being less than 1.3)|Hazard Ratio (HR)|0.78|||<|0.0001|TWO_SIDED|95.0|0.68|0.9||One-sided p-value based on Wald test of hazard ratio (HR) \>=1.3 versus HR \<1.3.|Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate|||0.90|0.68|<0.0001
92430011|NCT02465515|184748129|SUPERIORITY||||||<|0.001||||||Two-sided p-value based on Wald test of HR=1 versus HR not equal to 1|Wald test|||||||<0.001
92430012|NCT02465515|184748130|OTHER||Hazard Ratio (HR)|0.78|||<|0.001|TWO_SIDED|95.0|0.69|0.9||Two-sided p-value based on the Wald statistic.|Wald statistic||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||0.90|0.69|<0.001
92430013|NCT02465515|184748131|OTHER||Hazard Ratio (HR)|0.93||||0.578|TWO_SIDED|95.0|0.73|1.19||Two-sided p-value based on the Wald statistic|Wald statistic||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate|||1.19|0.73|0.578
92430014|NCT02465515|184748132|OTHER||Hazard Ratio (HR)|0.75||||0.003|TWO_SIDED|95.0|0.61|0.9||Two-sided p-value based on the Wald statistic.|Wald statistic||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||0.90|0.61|0.003
92430015|NCT02465515|184748133|OTHER||Hazard Ratio (HR)|0.86||||0.3|TWO_SIDED|95.0|0.66|1.14||Two-sided p-value based on the Wald statistic.|Wald statistic||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||1.14|0.66|0.300
92430016|NCT02465515|184748134|OTHER||Hazard Ratio (HR)|0.85||||0.113|TWO_SIDED|95.0|0.7|1.04||Two-sided p-value based on the Wald statistic.|Wald statistic||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||1.04|0.70|0.113
92430017|NCT02465515|184748135|SUPERIORITY||Hazard Ratio (HR)|0.42|||<|0.001|TWO_SIDED|95.0|0.33|0.53||Two-sided p-value based on Wald test of HR=1 versus HR not equal to 1.|Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||0.53|0.33|<0.001
92237146|NCT01371838|184378464|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.9|||||TWO_SIDED|95.0|-2.2|25.8||||RD is (Ceftaroline-Ceftriaxone) microbiologically favourable outcome rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||25.8|-2.2|
92237147|NCT01371838|184378465|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.0|||||TWO_SIDED|95.0|6.8|19.2||||RD is Ceftaroline minus Ceftriaxone overall success rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||19.2|6.8|
92279621|NCT02308111|184462691|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.933|TWO_SIDED|95.0|0.58|1.83||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||1.83|0.58|0.933
92279622|NCT02308111|184462692|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.468|TWO_SIDED|95.0|0.53|1.34||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||1.34|0.53|0.468
92430018|NCT02465515|184748136|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.043|TWO_SIDED|95.0|0.51|0.99||Two-sided p-value based on Wald test of HR=1 versus HR not equal to 1.|Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||0.99|0.51|0.043
92430019|NCT02465515|184748137|OTHER||||||<|0.001||||||P-value based on the covariate-adjusted extended Mantel-Haenszel test. Covariates include Baseline HbA1c (\<8.0% versus \>= 8.0%) and Baseline diabetes therapy (diet and exercise alone versus all other therapies).|Mantel Haenszel|Month 8||||||<0.001
92430020|NCT02465515|184748137|OTHER||||||<|0.001||||||P-value based on the covariate-adjusted extended Mantel-Haenszel test. Covariates include Baseline HbA1c (\<8.0% versus \>= 8.0%) and Baseline diabetes therapy (diet and exercise alone versus all other therapies).|Mantel Haenszel|Month 16||||||<0.001
92430021|NCT02465515|184748137|OTHER||||||<|0.001||||||P-value based on the covariate-adjusted extended Mantel-Haenszel test. Covariates include Baseline HbA1c (\<8.0% versus \>= 8.0%) and Baseline diabetes therapy (diet and exercise alone versus all other therapies).|Mantel Haenszel|Month 24||||||<0.001
92430022|NCT02465515|184748137|OTHER||||||<|0.001||||||P-value based on the covariate-adjusted extended Mantel-Haenszel test. Covariates include Baseline HbA1c (\<8.0% versus \>= 8.0%) and Baseline diabetes therapy (diet and exercise alone versus all other therapies).|Mantel Haenszel|Final assessment||||||<0.001
92430023|NCT02465515|184748138|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.055|TWO_SIDED|95.0|0.43|1.01||Two-sided p-value based on Wald test of HR=1 versus HR not equal to 1|Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||1.01|0.43|0.055
92430024|NCT02465515|184748139|OTHER||Mean Difference (Net)|-0.63|||<|0.001|TWO_SIDED|95.0|-0.69|-0.58||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide - Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline HbA1c+Treatment+Visit+Treatment-by-Visit Interaction+Baseline HbA1c-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 8|||-0.58|-0.69|<0.001
92430025|NCT02465515|184748139|OTHER||Mean Difference (Net)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.58|-0.45||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide - Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline HbA1c+Treatment+Visit+Treatment-by-Visit Interaction+Baseline HbA1c-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 16|||-0.45|-0.58|<0.001
92430026|NCT02465515|184748140|OTHER||Mean Difference (Net)|-0.66|||<|0.001|TWO_SIDED|95.0|-0.83|-0.49||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide-Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline Body Weight+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Body Weight-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 8|||-0.49|-0.83|<0.001
92237148|NCT01371838|184378466|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.9|||||TWO_SIDED|95.0|2.8|17.1||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||17.1|2.8|
92430027|NCT02465515|184748140|OTHER||Mean Difference (Net)|-0.83|||<|0.001|TWO_SIDED|95.0|-1.06|-0.6||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide - Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline Body Weight+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Body weight-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 16|||-0.60|-1.06|<0.001
92430028|NCT02465515|184748141|OTHER||Mean Difference (Net)|2.39|||<|0.001|TWO_SIDED|95.0|1.85|2.93||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide - Placebo) is equal to zero.|t-test, 2 sided||Based on MMRM model: Change=Baseline Total Score+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Total Score-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 8|||2.93|1.85|<0.001
92430029|NCT02465515|184748141|OTHER||Mean Difference (Net)|2.33|||<|0.001|TWO_SIDED|95.0|1.66|3.01||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide-Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline Total Score+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Total Score-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 16|||3.01|1.66|<0.001
92430030|NCT02465515|184748142|OTHER||Mean Difference (Net)|1.47|||<|0.001|TWO_SIDED|95.0|0.87|2.07||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide-Placebo) is equal to zero.|t-test, 2 sided||Based on MMRM model: Change=Baseline Score+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Score-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 8.|||2.07|0.87|<0.001
92430031|NCT02465515|184748142|OTHER||Mean Difference (Net)|0.52||||0.192|TWO_SIDED|95.0|-0.26|1.31||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide - Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline Score+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Score-by-Visit Interaction. Difference of least squares means (Albiglutide - Placebo) is from MMRM model for Month 16|||1.31|-0.26|0.192
92430032|NCT02465515|184748143|OTHER||Hazard Ratio (HR)|0.95||||0.644|TWO_SIDED|95.0|0.79|1.16||Two-sided p-value based on Wald test of HR=1 versus HR not equal to 1.|Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||1.16|0.79|0.644
92430033|NCT02465515|184748147|OTHER||Mean Difference (Net)|-1.11||||0.003|TWO_SIDED|95.0|-1.84|-0.39||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide-Placebo) is equal to zero.|t-test, 2 sided||Based on MMRM model: Change=Baseline eGFR+Treatment+Visit+Treatment-by-Visit Interaction+Baseline eGFR-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 8.|||-0.39|-1.84|0.003
92430034|NCT02465515|184748147|OTHER||Mean Difference (Net)|-0.43||||0.315|TWO_SIDED|95.0|-1.26|0.41||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide-Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline eGFR+Treatment+Visit+Treatment-by-Visit Interaction+Baseline eGFR-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 16.|||0.41|-1.26|0.315
92237149|NCT01371838|184378467|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-2.5|3.0||||RD is Ceftaroline minus Ceftriaxone No-relapse rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||3.0|-2.5|
92279623|NCT02308111|184462693|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.178|TWO_SIDED|95.0|0.13|1.41||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||1.41|0.13|0.178
92430035|NCT00453063|184748155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||ANCOVA|||||||0.001
92430036|NCT00453063|184748156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.304||95.0|||||ANCOVA|||||||0.304
92237150|NCT01371838|184378468|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.1|||||TWO_SIDED|95.0|-2.4|4.5||||RD is Ceftaroline minus Ceftriaxone No-relapse rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||4.5|-2.4|
92279624|NCT02308111|184462693|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.19|TWO_SIDED|95.0|0.13|1.41|||Cochran-Mantel-Haenszel|||||1.41|0.13|0.190
92430037|NCT00453063|184748157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0|||||ANCOVA|||||||0.004
92430038|NCT00453063|184748158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.063||95.0|||||ANCOVA|||||||0.063
92430039|NCT00453063|184748159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.356||95.0|||||ANCOVA|||||||0.356
92446540|NCT02477020|184780041|SUPERIORITY_OR_OTHER||Least square mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.166||0.009|TWO_SIDED|95.0|-0.77|-0.11||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 3||-0.11|-0.77|0.009
92446541|NCT02477020|184780041|SUPERIORITY_OR_OTHER||Least square mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.18||0.049|TWO_SIDED|95.0|-0.72|0.0||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 4||0.00|-0.72|0.049
92446542|NCT02477020|184780041|SUPERIORITY_OR_OTHER||Least square mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.191||0.016|TWO_SIDED|95.0|-0.85|-0.09||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 5||-0.09|-0.85|0.016
92430040|NCT01918774|184748169|OTHER|Pre-post analysis comparing weeks worked in the 6 months preceding baseline and the 6 month study follow-up.|||||<|0.001||||||A priori threshold of significance was p\<.05|within groups t-test|||||||<.001
92430041|NCT03000439|184748187|OTHER||Hazard Ratio (HR)|0.633|||=|0.1171|TWO_SIDED|95.0|0.296|1.354||1-sided p-value is provided.|Unstratified log-rank test||Hazard ratio and 95% CI was based on Cox proportional hazards model with treatment group as covariate. Hazard ratio \< 1 indicates a reduction in hazard ratio in favor of Tofacitinib 5 mg BID to Placebo.|||1.354|0.296|= 0.1171
92430042|NCT03000439|184748188|OTHER||Difference in percentage|0.7|||||TWO_SIDED|95.0|-12.2|13.6|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 4||13.6|-12.2|
92430043|NCT03000439|184748188|OTHER||Difference in percentage|-8.3|||||TWO_SIDED|95.0|-27.9|11.3|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 8||11.3|-27.9|
92430044|NCT03000439|184748188|OTHER||Difference in percentage|-10.8|||||TWO_SIDED|95.0|-33.2|11.6|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 12||11.6|-33.2|
92430045|NCT03000439|184748188|OTHER||Difference in percentage|-13.7|||||TWO_SIDED|95.0|-37.2|9.8|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 16||9.8|-37.2|
92430046|NCT03000439|184748188|OTHER||Difference in percentage|-13.2|||||TWO_SIDED|95.0|-37.9|11.5|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 20||11.5|-37.9|
92430047|NCT03000439|184748188|OTHER||Difference in percentage|-13.2|||||TWO_SIDED|95.0|-37.9|11.5|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 24||11.5|-37.9|
92430048|NCT03000439|184748188|OTHER||Difference in percentage|-9.4|||||TWO_SIDED|95.0|-34.5|15.6|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 28||15.6|-34.5|
92430049|NCT03000439|184748188|OTHER||Difference in percentage|-14.0|||||TWO_SIDED|95.0|-39.5|11.5|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 32||11.5|-39.5|
92430050|NCT03000439|184748188|OTHER||Difference in percentage|-9.4|||||TWO_SIDED|95.0|-35.5|16.7|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 36||16.7|-35.5|
92430051|NCT03000439|184748188|OTHER||Difference in percentage|-9.4|||||TWO_SIDED|95.0|-35.5|16.7|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 40||16.7|-35.5|
92430052|NCT03000439|184748188|OTHER||Difference in percentage|-15.0|||||TWO_SIDED|95.0|-41.8|11.8|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 44||11.8|-41.8|
92430053|NCT03000439|184748188|OTHER||Difference in percentage|-15.0|||||TWO_SIDED|95.0|-41.8|11.8|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 48||11.8|-41.8|
92430054|NCT03000439|184748188|OTHER||Difference in percentage|-15.0|||||TWO_SIDED|95.0|-41.8|11.8|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 52||11.8|-41.8|
92430055|NCT03000439|184748191|OTHER||Difference in percentage|-11.41|||||TWO_SIDED|95.0|-28.02|5.21|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 4||5.21|-28.02|
92430056|NCT03000439|184748191|OTHER||Difference in percentage|1.5|||||TWO_SIDED|95.0|-18.37|21.36|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 8||21.36|-18.37|
92239856|NCT04184622|184383633|SUPERIORITY||Estimate Difference|-6.06|||<|0.001|TWO_SIDED|95.0|-8.32|-3.75|||Mixed Models Analysis|||||-3.75|-8.32|<0.001
92239857|NCT04184622|184383634|SUPERIORITY||Estimate Difference|-23.3|||<|0.001|TWO_SIDED|95.0|-26.1|-20.4|||Mixed Models Analysis|||||-20.4|-26.1|<0.001
92239858|NCT04184622|184383635|SUPERIORITY||Estimate Difference|-11.3|||<|0.001|TWO_SIDED|95.0|-16.1|-6.2|||Mixed Models Analysis|||||-6.2|-16.1|<0.001
92430057|NCT03000439|184748191|OTHER||Difference in percentage|0.46|||||TWO_SIDED|95.0|-22.68|23.6|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 12||23.60|-22.68|
92430058|NCT03000439|184748191|OTHER||Difference in percentage|10.14|||||TWO_SIDED|95.0|-13.82|34.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 16||34.10|-13.82|
92430059|NCT03000439|184748191|OTHER||Difference in percentage|16.24|||||TWO_SIDED|95.0|-8.43|40.92|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 20||40.92|-8.43|
92430060|NCT03000439|184748191|OTHER||Difference in percentage|9.45|||||TWO_SIDED|95.0|-15.49|34.39|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 24||34.39|-15.49|
92430061|NCT03000439|184748191|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 28||34.33|-16.13|
92430062|NCT03000439|184748191|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 32||34.33|-16.13|
92430063|NCT03000439|184748191|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 36||34.33|-16.13|
92430064|NCT03000439|184748191|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 40||34.33|-16.13|
92430065|NCT03000439|184748191|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 44||34.33|-16.13|
92430066|NCT03000439|184748191|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 48||37.56|-12.91|
92237151|NCT04315363|184378471|EQUIVALENCE|Two by two Mixed Analysis of Variance (ANOVA) models (i.e., within-subject effect: pre- and post- intervention \* between-subject effect: intervention and control group) were estimated to investigate the primary outcome changes (i.e., sedentary time) before and after the intervention.||||||0.8|||||||ANOVA|||||||0.8
92237152|NCT04315363|184378472|EQUIVALENCE|Two by two Mixed Analysis of Variance (ANOVA) models (i.e., within-subject effect: pre- and post- intervention \* between-subject effect: intervention and control group) were estimated to investigate the secondary outcome changes (i.e., moderate-to-vigorous physical activity) before and after the intervention.||||||0.35|||||||ANOVA|||||||0.35
92279625|NCT02308111|184462694|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.443|TWO_SIDED|95.0|0.05|3.54||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||3.54|0.05|0.443
92279626|NCT03977584|184462847|SUPERIORITY||Difference in Annualized Rate of Change|-0.013|STANDARD_ERROR_OF_MEAN|0.00993||0.1953|TWO_SIDED|95.0|-0.0327|0.0068|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: GTP1 PET = Treatment \* Analysis Year + Interactive Voice or Web Response System (IxRS) defined Age Group + IxRS defined Education History + IxRS defined apolipoprotein (APOE4) Carrier Status + IxRS defined Clinical Dementia Rating Global Score.||0.0068|-0.0327|0.1953
92430067|NCT03000439|184748191|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 52||37.56|-12.91|
92430068|NCT03000439|184748191|OTHER||Difference in percentage|-11.41|||||TWO_SIDED|95.0|-28.02|5.21|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 4||5.21|-28.02|
92430069|NCT03000439|184748191|OTHER||Difference in percentage|4.72|||||TWO_SIDED|95.0|-15.72|25.17|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 8||25.17|-15.72|
92430070|NCT03000439|184748191|OTHER||Difference in percentage|0.46|||||TWO_SIDED|95.0|-22.68|23.6|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 12||23.60|-22.68|
92430071|NCT03000439|184748191|OTHER||Difference in percentage|13.36|||||TWO_SIDED|95.0|-10.76|37.48|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 16||37.48|-10.76|
92430072|NCT03000439|184748191|OTHER||Difference in percentage|19.47|||||TWO_SIDED|95.0|-5.2|44.14|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 20||44.14|-5.20|
92430073|NCT03000439|184748191|OTHER||Difference in percentage|9.45|||||TWO_SIDED|95.0|-15.49|34.39|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 24||34.39|-15.49|
92430074|NCT03000439|184748191|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 28||34.33|-16.13|
92430075|NCT03000439|184748191|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 32||34.33|-16.13|
92237153|NCT00641043|184378479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.71|-0.3|||ANCOVA|||Linagliptin vs. Placebo||-0.30|-0.71|<0.0001
92279627|NCT00745251|184462855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.86|STANDARD_ERROR_OF_MEAN|5.95||0.0084|ONE_SIDED|95.0||-4.84|||ANCOVA|||||-4.84||0.0084
92430076|NCT03000439|184748191|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 36||34.33|-16.13|
92430077|NCT03000439|184748191|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 40||34.33|-16.13|
92430078|NCT03000439|184748191|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 44||37.56|-12.91|
92430079|NCT03000439|184748191|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 48||37.56|-12.91|
92430080|NCT03000439|184748191|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 52||37.56|-12.91|
92430081|NCT03000439|184748191|OTHER||Difference in percentage|-13.82|||||TWO_SIDED|95.0|-38.14|10.49|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 4||10.49|-38.14|
92430082|NCT03000439|184748191|OTHER||Difference in percentage|-9.56|||||TWO_SIDED|95.0|-32.28|13.15|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 8||13.15|-32.28|
92430083|NCT03000439|184748191|OTHER||Difference in percentage|-0.23|||||TWO_SIDED|95.0|-24.7|24.24|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 12||24.24|-24.70|
92430084|NCT03000439|184748191|OTHER||Difference in percentage|5.88|||||TWO_SIDED|95.0|-19.31|31.06|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 16||31.06|-19.31|
92430085|NCT03000439|184748191|OTHER||Difference in percentage|19.12|||||TWO_SIDED|95.0|-5.81|44.06|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 20||44.06|-5.81|
92430086|NCT03000439|184748191|OTHER||Difference in percentage|1.96|||||TWO_SIDED|95.0|-23.55|27.47|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 24||27.47|-23.55|
92237154|NCT00641043|184378480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|-0.52|-0.24|||ANCOVA|||Linagliptin vs. Placebo||-0.24|-0.52|<0.0001
92237155|NCT00641043|184378481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.67|-0.32|||ANCOVA|||Linagliptin vs. Placebo||-0.32|-0.67|<0.0001
92237156|NCT00641043|184378482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.32|||ANCOVA|||Linagliptin vs. Placebo||-0.32|-0.70|<0.0001
92237157|NCT00641043|184378483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.2|STANDARD_ERROR_OF_MEAN|3.5|<|0.0001||95.0|-21.1|-7.3|||ANCOVA|||Linagliptin vs. Placebo||-7.3|-21.1|<0.0001
92237158|NCT00641043|184378484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001||95.0|-22.3|-10.5|||ANCOVA|||Linagliptin vs. Placebo||-10.5|-22.3|<0.0001
92237159|NCT00641043|184378485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.2|STANDARD_ERROR_OF_MEAN|3.2|<|0.0001||95.0|-19.5|-7.0|||ANCOVA|||Linagliptin vs. Placebo||-7.0|-19.5|<0.0001
92237160|NCT00641043|184378486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-20.5|-7.3|||ANCOVA|||Linagliptin vs. Placebo||-7.3|-20.5|<0.0001
92430087|NCT03000439|184748191|OTHER|The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|Difference in percentage|15.21|||||TWO_SIDED|95.0|-10.05|40.46|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 28||40.46|-10.05|
92237161|NCT00641043|184378487|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.103||||0.0051||95.0|1.25|3.539|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||3.539|1.25|0.0051
92237162|NCT00641043|184378489|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.348||||0.3547||95.0|0.716|2.537|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||2.537|0.716|0.3547
92237163|NCT00641043|184378491|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.823|||<|0.0001||95.0|2.286|6.394|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||6.394|2.286|<0.0001
92237164|NCT00972244|184378498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.0987|<|0.0001|TWO_SIDED|95.0|-0.67|-0.28||significant at alpha=0.015 (2-sided) applying Dunnett's adjustment. A sequential closed testing procedure was used to control Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.015 applying Dunnett's adjustment, two-sided)||-0.28|-0.67|<0.0001
92237165|NCT00972244|184378498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.1009|<|0.0001|TWO_SIDED|95.0|-0.65|-0.26||significant at alpha=0.015 (2-sided) applying Dunnett's adjustment. A sequential closed testing procedure was used to control Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.015 applying Dunnett's adjustment, two-sided)||-0.26|-0.65|<0.0001
92239859|NCT04184622|184383636|SUPERIORITY||LS Mean Difference (Net)|-4.2|||<|0.001|TWO_SIDED|95.0|-5.0|-3.5|||Mixed Models Analysis|||||-3.5|-5.0|<0.001
92430088|NCT03000439|184748191|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 32||37.56|-12.91|
92430089|NCT03000439|184748191|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 36||34.33|-16.13|
92430090|NCT03000439|184748191|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 40||37.56|-12.91|
92430091|NCT03000439|184748191|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 44||37.56|-12.91|
92430092|NCT03000439|184748191|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 48||37.56|-12.91|
92430093|NCT03000439|184748191|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 52||37.56|-12.91|
92430094|NCT03000439|184748191|OTHER||Difference in percentage|-19.82|||||TWO_SIDED|95.0|-44.09|4.46|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 4||4.46|-44.09|
92430095|NCT03000439|184748191|OTHER||Difference in percentage|-17.28|||||TWO_SIDED|95.0|-40.19|5.63|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 8||5.63|-40.19|
92430096|NCT03000439|184748191|OTHER||Difference in percentage|-7.6|||||TWO_SIDED|95.0|-29.66|14.45|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 20||14.45|-29.66|
92430097|NCT03000439|184748191|OTHER||Difference in percentage|-13.71|||||TWO_SIDED|95.0|-37.19|9.77|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 12||9.77|-37.19|
92430098|NCT03000439|184748191|OTHER||Difference in percentage|-4.03|||||TWO_SIDED|95.0|-26.67|18.61|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 16||18.61|-26.67|
92430099|NCT03000439|184748191|OTHER||Difference in percentage|-14.75|||||TWO_SIDED|95.0|-35.32|5.83|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 32||5.83|-35.32|
92237166|NCT00972244|184378498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.099|<|0.0001|TWO_SIDED|95.0|-0.92|-0.53||significant at alpha=0.015 (2-sided) applying Dunnett's adjustment. A sequential closed testing procedure was used to control Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.015 applying Dunnett's adjustment, two-sided)||-0.53|-0.92|<0.0001
92430100|NCT03000439|184748191|OTHER||Difference in percentage|-4.38|||||TWO_SIDED|95.0|-26.02|17.26|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 24||17.26|-26.02|
92430101|NCT03000439|184748191|OTHER||Difference in percentage|-7.95|||||TWO_SIDED|95.0|-28.89|12.99|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 28||12.99|-28.89|
92430102|NCT03000439|184748191|OTHER||Difference in percentage|-6.91|||||TWO_SIDED|95.0|-30.65|16.83|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 36||16.83|-30.65|
92430103|NCT03000439|184748191|OTHER||Difference in percentage|-3.69|||||TWO_SIDED|95.0|-27.16|19.78|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 40||19.78|-27.16|
92430104|NCT03000439|184748191|OTHER||Difference in percentage|-0.46|||||TWO_SIDED|95.0|-23.6|22.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 44||22.68|-23.60|
92430105|NCT03000439|184748191|OTHER||Difference in percentage|-0.46|||||TWO_SIDED|95.0|-23.6|22.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 48||22.68|-23.60|
92430106|NCT03000439|184748191|OTHER||Difference in percentage|-0.46|||||TWO_SIDED|95.0|-23.6|22.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 52||22.68|-23.60|
92430107|NCT03000439|184748191|OTHER||Difference in percentage|-21.2|||||TWO_SIDED|95.0|-42.45|0.05|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 4||0.05|-42.45|
92430108|NCT03000439|184748191|OTHER||Difference in percentage|-18.32|||||TWO_SIDED|95.0|-37.98|1.34|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 8||1.34|-37.98|
92237167|NCT00972244|184378498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.1018|<|0.0001|TWO_SIDED|95.0|-0.99|-0.59||significant at alpha=0.015 (2-sided) applying Dunnett's adjustment. A sequential closed testing procedure was used to control Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.015 applying Dunnett's adjustment, two-sided)||-0.59|-0.99|<0.0001
92239860|NCT04184622|184383637|SUPERIORITY||Odds Ratio (OR)|29.79|||<|0.0001|TWO_SIDED|95.0|17.73|50.05|||Regression, Logistic|||||50.05|17.73|<.0001
92239861|NCT04184622|184383637|SUPERIORITY||Odds Ratio (OR)|35.05|||<|0.0001|TWO_SIDED|95.0|20.63|59.53|||Regression, Logistic|||||59.53|20.63|<.0001
92239862|NCT04184622|184383637|SUPERIORITY||Odds Ratio (OR)|55.05|||<|0.0001|TWO_SIDED|95.0|29.61|102.34|||Regression, Logistic|||||102.34|29.61|<.0001
92430109|NCT03000439|184748191|OTHER||Difference in percentage|-11.52|||||TWO_SIDED|95.0|-31.65|8.61|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 12||8.61|-31.65|
92239863|NCT04184622|184383638|SUPERIORITY||LS Mean Difference (Net)|7.7|||<|0.001|TWO_SIDED|95.0|5.6|9.8|||ANCOVA|||||9.8|5.6|<0.001
92239864|NCT04184622|184383638|SUPERIORITY||LS Mean Difference (Net)|10.7|||<|0.001|TWO_SIDED|95.0|8.6|12.8|||ANCOVA|||||12.8|8.6|<0.001
92239865|NCT04184622|184383638|SUPERIORITY||LS Mean Difference (Net)|11.7|||<|0.001|TWO_SIDED|95.0|9.6|13.8|||ANCOVA|||||13.8|9.6|<0.001
92430110|NCT03000439|184748191|OTHER||Difference in percentage|-7.95|||||TWO_SIDED|95.0|-28.89|12.99|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 16||12.99|-28.89|
92430111|NCT03000439|184748191|OTHER||Difference in percentage|1.38|||||TWO_SIDED|95.0|-16.15|18.91|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 20||18.91|-16.15|
92430112|NCT03000439|184748191|OTHER||Difference in percentage|-1.5|||||TWO_SIDED|95.0|-21.36|18.37|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 24||18.37|-21.36|
92430113|NCT03000439|184748191|OTHER||Difference in percentage|-8.29|||||TWO_SIDED|95.0|-27.91|11.32|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 28||11.32|-27.91|
92430114|NCT03000439|184748191|OTHER||Difference in percentage|-15.09|||||TWO_SIDED|95.0|-34.29|4.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 32||4.10|-34.29|
92430115|NCT03000439|184748191|OTHER||Difference in percentage|-11.52|||||TWO_SIDED|95.0|-31.65|8.61|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 36||8.61|-31.65|
92430116|NCT03000439|184748191|OTHER||Difference in percentage|-7.6|||||TWO_SIDED|95.0|-29.66|14.45|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 40||14.45|-29.66|
92430117|NCT03000439|184748191|OTHER||Difference in percentage|-4.38|||||TWO_SIDED|95.0|-26.02|17.26|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 44||17.26|-26.02|
92430118|NCT03000439|184748191|OTHER||Difference in percentage|-0.81|||||TWO_SIDED|95.0|-23.04|21.43|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 48||21.43|-23.04|
92237168|NCT00972244|184378499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.08|STANDARD_ERROR_OF_MEAN|4.7589|<|0.0001|TWO_SIDED|95.0|-35.45|-16.7||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-16.70|-35.45|<0.0001
92239866|NCT02795988|184383642|SUPERIORITY||Cox proportional hazard regression model|0.603||||0.078|TWO_SIDED|80.0|0.38|0.957||1-sided p-value was calculated from Log-rank test stratified by factor tumor stage which used for randomization at screening.|Log Rank|||||0.957|0.380|0.078
92239867|NCT01617681|184383670|OTHER||Mean Difference (Net)|-7.9|STANDARD_ERROR_OF_MEAN|2.96||0.0096|TWO_SIDED|95.0|-13.86|-2.01|||ANCOVA|||||-2.01|-13.86|0.0096
92239868|NCT01617681|184383670|OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|2.07||0.6531|TWO_SIDED|95.0|-5.07|3.2|||ANCOVA|||||3.20|-5.07|0.6531
92237169|NCT00972244|184378499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.42|STANDARD_ERROR_OF_MEAN|4.71|<|0.0001|TWO_SIDED|95.0|-38.7|-20.14||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-20.14|-38.70|<0.0001
92239869|NCT01617681|184383671|OTHER||Mean Difference (Net)|-7.9|STANDARD_ERROR_OF_MEAN|2.54||0.003|TWO_SIDED|95.0|-12.94|-2.78|||ANCOVA|||||-2.78|-12.94|0.0030
92430119|NCT03000439|184748191|OTHER||Difference in percentage|-0.81|||||TWO_SIDED|95.0|-23.04|21.43|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 52||21.43|-23.04|
92430120|NCT03000439|184748199|OTHER||Difference in percentage|-7.83|||||TWO_SIDED|95.0|-23.42|7.75|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||7.75|-23.42|
92430121|NCT03000439|184748199|OTHER||Difference in percentage|5.07|||||TWO_SIDED|95.0|-13.94|24.08|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||24.08|-13.94|
92430122|NCT03000439|184748199|OTHER||Difference in percentage|0.81|||||TWO_SIDED|95.0|-21.43|23.04|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||23.04|-21.43|
92430123|NCT03000439|184748199|OTHER||Difference in percentage|10.14|||||TWO_SIDED|95.0|-13.82|34.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||34.10|-13.82|
92430124|NCT03000439|184748199|OTHER||Difference in percentage|16.24|||||TWO_SIDED|95.0|-8.43|40.92|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||40.92|-8.43|
92430125|NCT03000439|184748199|OTHER||Difference in percentage|9.45|||||TWO_SIDED|95.0|-15.49|34.39|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||34.39|-15.49|
92430126|NCT03000439|184748199|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||34.33|-16.13|
92430127|NCT03000439|184748199|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||34.33|-16.13|
92430128|NCT03000439|184748199|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||34.33|-16.13|
92430129|NCT03000439|184748199|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||34.33|-16.13|
92430130|NCT03000439|184748199|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||34.33|-16.13|
92430131|NCT03000439|184748199|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||37.56|-12.91|
92430132|NCT03000439|184748199|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||37.56|-12.91|
92430133|NCT03000439|184748205|OTHER||Difference in LS Mean|-0.01|||||TWO_SIDED|95.0|-2.4|2.38||||||DB Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.38|-2.40|
92239870|NCT01617681|184383671|OTHER||Mean Difference (Net)|-5.4|STANDARD_ERROR_OF_MEAN|1.8||0.0042|TWO_SIDED|95.0|-8.98|-1.77|||ANCOVA|||||-1.77|-8.98|0.0042
92430134|NCT03000439|184748205|OTHER||Difference in LS Mean|0.94|||||TWO_SIDED|95.0|-2.25|4.12||||||DB Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.12|-2.25|
92430135|NCT03000439|184748205|OTHER||Difference in LS Mean|-0.24|||||TWO_SIDED|95.0|-4.54|4.06||||||DB Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.06|-4.54|
92430136|NCT03000439|184748205|OTHER||Difference in LS Mean|-0.86|||||TWO_SIDED|95.0|-3.99|2.28||||||DB Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.28|-3.99|
92430137|NCT03000439|184748205|OTHER||Difference in LS Mean|-1.09|||||TWO_SIDED|95.0|-3.12|0.94||||||DB Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.94|-3.12|
92430138|NCT03000439|184748205|OTHER||Difference in LS Mean|0.3|||||TWO_SIDED|95.0|-1.46|2.06||||||DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.06|-1.46|
92430139|NCT03000439|184748205|OTHER||Difference in LS Mean|-1.28|||||TWO_SIDED|95.0|-7.85|5.29||||||DB Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||5.29|-7.85|
92430140|NCT03000439|184748205|OTHER||Difference in LS Mean|0.48|||||TWO_SIDED|95.0|-1.98|2.93||||||DB Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.93|-1.98|
92239871|NCT01617681|184383672|OTHER||Odds Ratio (OR)|1.68||||0.411|TWO_SIDED|95.0|0.49|5.8|||ANCOVA|||||5.8|0.49|0.411
92239872|NCT01617681|184383672|OTHER||Odds Ratio (OR)|1.45||||0.5443|TWO_SIDED|95.0|0.44|4.79|||ANCOVA|||||4.79|0.44|0.5443
92279628|NCT00745251|184462856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.05|STANDARD_ERROR_OF_MEAN|1.64||0.0006|TWO_SIDED|95.0|-9.37|-2.74|||ANCOVA|||||-2.74|-9.37|0.0006
92430141|NCT03000439|184748205|OTHER||Difference in LS Mean|-0.26|||||TWO_SIDED|95.0|-1.86|1.35||||||DB Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.35|-1.86|
92430142|NCT03000439|184748205|OTHER||Difference in LS Mean|0.73|||||TWO_SIDED|95.0|-2.18|3.63||||||DB Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.63|-2.18|
92430143|NCT03000439|184748205|OTHER||Difference in LS Mean|-0.83|||||TWO_SIDED|95.0|-3.22|1.56||||||DB Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.56|-3.22|
92430144|NCT03000439|184748205|OTHER||Difference in LS Mean|-0.23|||||TWO_SIDED|95.0|-1.76|1.3||||||DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.30|-1.76|
92430145|NCT03000439|184748205|OTHER||Difference in LS Mean|-0.75|||||TWO_SIDED|95.0|-3.43|1.93||||||DB Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.93|-3.43|
92430146|NCT03000439|184748206|OTHER||Difference in LS Mean|0.9|||||TWO_SIDED|95.0|-1.8|3.61||||||DB Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.61|-1.80|
92430147|NCT03000439|184748206|OTHER||Difference in LS Mean|2.11|||||TWO_SIDED|95.0|-0.64|4.86||||||DB Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.86|-0.64|
92430148|NCT03000439|184748206|OTHER||Difference in LS Mean|-0.02|||||TWO_SIDED|95.0|-4.25|4.21||||||DB Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.21|-4.25|
92430149|NCT03000439|184748206|OTHER||Difference in LS Mean|-1.12|||||TWO_SIDED|95.0|-4.32|2.09||||||DB Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.09|-4.32|
92430150|NCT03000439|184748206|OTHER||Difference in LS Mean|-0.53|||||TWO_SIDED|95.0|-3.04|1.98||||||DB Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.98|-3.04|
92430151|NCT03000439|184748206|OTHER||Difference in LS Mean|1.84|||||TWO_SIDED|95.0|-1.29|4.97||||||DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.97|-1.29|
92430152|NCT03000439|184748206|OTHER||Difference in LS Mean|-0.08|||||TWO_SIDED|95.0|-5.89|5.72||||||DB Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||5.72|-5.89|
92430153|NCT03000439|184748206|OTHER||Difference in LS Mean|-0.69|||||TWO_SIDED|95.0|-3.79|2.41||||||DB Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.41|-3.79|
92430154|NCT03000439|184748206|OTHER||Difference in LS Mean|-0.35|||||TWO_SIDED|95.0|-1.89|1.19||||||DB Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.19|-1.89|
92430155|NCT03000439|184748206|OTHER||Difference in LS Mean|-0.03|||||TWO_SIDED|95.0|-3.63|3.58||||||DB Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.58|-3.63|
92430156|NCT03000439|184748206|OTHER||Difference in LS Mean|-2.59|||||TWO_SIDED|95.0|-5.67|0.49||||||DB Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.49|-5.67|
92430157|NCT03000439|184748206|OTHER||Difference in LS Mean|-0.82|||||TWO_SIDED|95.0|-2.82|1.19||||||DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.19|-2.82|
92430158|NCT03000439|184748206|OTHER||Difference in LS Mean|-0.46|||||TWO_SIDED|95.0|-3.27|2.36||||||DB Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.36|-3.27|
92430159|NCT03000439|184748219|OTHER||Difference in LS Mean|0.86|||||TWO_SIDED|95.0|-0.08|1.79||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.79|-0.08|
92430160|NCT03000439|184748219|OTHER||Difference in LS Mean|1.32|||||TWO_SIDED|95.0|0.25|2.4||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||2.40|0.25|
92430161|NCT03000439|184748219|OTHER||Difference in LS Mean|1.43|||||TWO_SIDED|95.0|-0.79|3.66||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||3.66|-0.79|
92430162|NCT03000439|184748219|OTHER||Difference in LS Mean|0.02|||||TWO_SIDED|95.0|-0.7|0.74||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.74|-0.70|
92170940|NCT03398148|184230796|SUPERIORITY||Adjusted Risk Difference|24.3|||<|0.0001|TWO_SIDED|95.0|19.3|29.4||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||29.4|19.3|<0.0001
92170941|NCT03398148|184230797|SUPERIORITY||Adjusted Risk Difference|16.6|||<|0.0001|TWO_SIDED|95.0|12.3|21.0||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||21.0|12.3|<0.0001
92170942|NCT03398148|184230798|SUPERIORITY||Adjusted Risk Difference|7.2|||<|0.0001|TWO_SIDED|95.0|4.2|10.2||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||10.2|4.2|<0.0001
92170943|NCT03398148|184230799|SUPERIORITY||Adjusted Risk Difference|21.8|||<|0.0001|TWO_SIDED|95.0|15.6|28.1||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||28.1|15.6|<0.0001
92170944|NCT03398148|184230800|SUPERIORITY||Adjusted Risk Difference|16.3|||<|0.0001|TWO_SIDED|95.0|10.3|22.4||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||22.4|10.3|<0.0001
92237170|NCT00972244|184378499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.94|STANDARD_ERROR_OF_MEAN|4.7402|<|0.0001|TWO_SIDED|95.0|-42.28|-23.6||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-23.60|-42.28|<0.0001
92170945|NCT03398148|184230801|SUPERIORITY||Adjusted Risk Difference|9.3||||0.0021|TWO_SIDED|95.0|3.4|15.3||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||15.3|3.4|0.0021
92237171|NCT00972244|184378499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.37|STANDARD_ERROR_OF_MEAN|4.8358|<|0.0001|TWO_SIDED|95.0|-50.9|-31.85||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-31.85|-50.90|<0.0001
92237172|NCT00972244|184378500|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.2||||1|TWO_SIDED|95.0|-9.1|7.6||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|Fisher Exact|||H0: proportion(treat) minus proportion(placebo) = 0 versus HA: proportion(treat) minus proportion(placebo) =/= 0||7.6|-9.1|1.0000
92237173|NCT00972244|184378500|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.3||||0.2057|TWO_SIDED|95.0|-2.3|18.8||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|Fisher Exact|||H0: proportion(treat) minus proportion(placebo) = 0 versus HA: proportion(treat) minus proportion(placebo) =/= 0||18.8|-2.3|0.2057
92430163|NCT03000439|184748219|OTHER||Difference in LS Mean|0.11|||||TWO_SIDED|95.0|-0.43|0.64||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.64|-0.43|
92237174|NCT00972244|184378500|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.2||||0.6203|TWO_SIDED|95.0|-6.2|13.2||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|Fisher Exact|||H0: proportion(treat) minus proportion(placebo) = 0 versus HA: proportion(treat) minus proportion(placebo) =/= 0||13.2|-6.2|0.6203
92237175|NCT00972244|184378500|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.7||||0.205|TWO_SIDED|95.0|-2.0|19.5||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|Fisher Exact|||H0: proportion(treat) minus proportion(placebo) = 0 versus HA: proportion(treat) minus proportion(placebo) =/= 0||19.5|-2.0|0.2050
92279629|NCT01618305|184462857|SUPERIORITY|P-value was calculated using a Cochran-Mantel-Haenszel test, stratified by gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks)||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
92430164|NCT03000439|184748219|OTHER||Difference in LS Mean|0.44|||||TWO_SIDED|95.0|0.06|0.81||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.81|0.06|
92430165|NCT03000439|184748219|OTHER||Difference in LS Mean|0.21|||||TWO_SIDED|95.0|-1.64|2.06||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||2.06|-1.64|
92239873|NCT01617681|184383673|OTHER||Odds Ratio (OR)|0.517||||0.2624|TWO_SIDED|95.0|0.16|1.64|||ANCOVA|||||1.64|0.16|0.2624
92430166|NCT03000439|184748219|OTHER||Difference in LS Mean|0.49|||||TWO_SIDED|95.0|-0.04|1.03||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.03|-0.04|
92430167|NCT03000439|184748219|OTHER||Difference in LS Mean|0.35|||||TWO_SIDED|95.0|-0.09|0.79||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.79|-0.09|
92170946|NCT03398148|184230802|SUPERIORITY||Adjusted Risk Difference|5.6|||<|0.0001|TWO_SIDED|95.0|3.5|7.7||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||7.7|3.5|<0.0001
92279630|NCT01618305|184462858|SUPERIORITY|||||||0.557|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks)||||||0.557
92430168|NCT03000439|184748219|OTHER||Difference in LS Mean|0.52|||||TWO_SIDED|95.0|-0.23|1.28||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.28|-0.23|
92430169|NCT03000439|184748219|OTHER||Difference in LS Mean|-0.19|||||TWO_SIDED|95.0|-1.2|0.83||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.83|-1.20|
92430170|NCT03000439|184748219|OTHER||Difference in LS Mean|0.21|||||TWO_SIDED|95.0|-0.49|0.91||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.91|-0.49|
92430171|NCT03000439|184748219|OTHER||Difference in LS Mean|0.06|||||TWO_SIDED|95.0|-0.8|0.92||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.92|-0.80|
92430172|NCT03000439|184748220|OTHER||Difference in LS Mean|0.29|||||TWO_SIDED|95.0|-0.43|1.0||||||DB Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.00|-0.43|
92430173|NCT03000439|184748220|OTHER||Difference in LS Mean|1.01|||||TWO_SIDED|95.0|-0.06|2.08||||||DB Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.08|-0.06|
92430174|NCT03000439|184748220|OTHER||Difference in LS Mean|1.25|||||TWO_SIDED|95.0|-1.13|3.64||||||DB Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.64|-1.13|
92430175|NCT03000439|184748220|OTHER||Difference in LS Mean|0.1|||||TWO_SIDED|95.0|-0.68|0.88||||||DB Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.88|-0.68|
92430176|NCT03000439|184748220|OTHER||Difference in LS Mean|-0.13|||||TWO_SIDED|95.0|-0.58|0.33||||||DB Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.33|-0.58|
92170947|NCT03398148|184230803|SUPERIORITY||Least Squares (LS) Mean Difference|4.5|||<|0.0001|TWO_SIDED|95.0|3.13|5.97||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|ANCOVA||Between-group diff. and 95% CI calculated using ANCOVA/MMRM with RTB-MI for continuous endpoints.|||5.97|3.13|<0.0001
92279631|NCT01618305|184462859|SUPERIORITY|||||||0.909|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks).||||||0.909
92279632|NCT01618305|184462860|SUPERIORITY|||||||0.938|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by maternal gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks).||||||0.938
92430177|NCT03000439|184748220|OTHER||Difference in LS Mean|0.32|||||TWO_SIDED|95.0|-0.03|0.68||||||DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.68|-0.03|
92430178|NCT03000439|184748220|OTHER||Difference in LS Mean|-0.17|||||TWO_SIDED|95.0|-2.42|2.08||||||DB Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.08|-2.42|
92430179|NCT03000439|184748220|OTHER||Difference in LS Mean|0.42|||||TWO_SIDED|95.0|-0.14|0.97||||||DB Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.97|-0.14|
92430180|NCT03000439|184748220|OTHER||Difference in LS Mean|0.32|||||TWO_SIDED|95.0|-0.15|0.79||||||DB Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.79|-0.15|
92430181|NCT03000439|184748220|OTHER||Difference in LS Mean|0.68|||||TWO_SIDED|95.0|-0.14|1.49||||||DB Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.49|-0.14|
92430182|NCT03000439|184748220|OTHER||Difference in LS Mean|-0.16|||||TWO_SIDED|95.0|-1.28|0.96||||||DB Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.96|-1.28|
92430183|NCT03000439|184748220|OTHER||Difference in LS Mean|0.37|||||TWO_SIDED|95.0|-0.43|1.16||||||DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.16|-0.43|
92430184|NCT03000439|184748220|OTHER||Difference in LS Mean|0.24|||||TWO_SIDED|95.0|-0.82|1.3||||||DB Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.30|-0.82|
92430185|NCT03000439|184748221|OTHER||Difference in LS Mean|0.21|||||TWO_SIDED|95.0|-0.07|0.5||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.50|-0.07|
92237176|NCT00283712|184378505|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-0.22|0.22|||Fisher Exact|||The study goals were to gather evidence of safety and possible efficacy of infliximab for treatment of pemphigus vulgaris (PV). The analyses focused on estimation rather than hypothesis testing; therefore, there was not sufficient power to detect plausible treatment differences unless they were very large. The sample size reflects a balance between the desire to meet study goals and to expose as few participants as possible until the safety of infliximab for treatment of PV has been clarified.||0.22|-0.22|1.00
92237177|NCT00283712|184378505|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||1|TWO_SIDED|90.0|0.02|42.67|||Fisher Exact|||||42.67|0.02|1.00
92237178|NCT00283712|184378506|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1|||||TWO_SIDED|90.0|-0.26|0.06||||||||0.06|-0.26|
92279633|NCT01618305|184462861|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks).||||||<0.001
92279634|NCT01618305|184462862|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks).||||||<0.001
92430186|NCT03000439|184748221|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-0.15|0.32||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.32|-0.15|
92430187|NCT03000439|184748221|OTHER||Difference in LS Mean|0.05|||||TWO_SIDED|95.0|-0.17|0.28||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.28|-0.17|
92430188|NCT03000439|184748221|OTHER||Difference in LS Mean|0.1|||||TWO_SIDED|95.0|-0.16|0.36||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.36|-0.16|
92430189|NCT03000439|184748221|OTHER||Difference in LS Mean|0.19|||||TWO_SIDED|95.0|-0.01|0.38||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.38|-0.01|
92430190|NCT03000439|184748221|OTHER||Difference in LS Mean|0.12|||||TWO_SIDED|95.0|-0.12|0.35||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.35|-0.12|
92430191|NCT03000439|184748221|OTHER||Difference in LS Mean|0.07|||||TWO_SIDED|95.0|-0.18|0.31||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.31|-0.18|
92430192|NCT03000439|184748221|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.06|0.37||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.37|-0.06|
92237179|NCT00283712|184378507|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.02||||1|TWO_SIDED|90.0|-0.31|0.36||All secondary analyses are considered supplemental supportive analyses|Fisher Exact|||The primary endpoint analysis was replicated using the per-protocol population.||0.36|-0.31|1.00
92237180|NCT00283712|184378507|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||1|TWO_SIDED|90.0|0.02|38.35||All secondary analyses are considered supplemental supportive analyses|Fisher Exact|||The primary endpoint analysis was replicated using the per-protocol population.||38.35|0.02|1.00
92279635|NCT01618305|184462867|SUPERIORITY|||||||0.623|||||||Fisher Exact|||||||0.623
92279636|NCT01618305|184462868|SUPERIORITY|||||||0.63|||||||Fisher Exact|||||||.63
92430193|NCT03000439|184748221|OTHER||Difference in LS Mean|0.11|||||TWO_SIDED|95.0|-0.14|0.36||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.36|-0.14|
92430194|NCT03000439|184748221|OTHER||Difference in LS Mean|0.16|||||TWO_SIDED|95.0|-0.06|0.38||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.38|-0.06|
92430195|NCT03000439|184748221|OTHER||Difference in LS Mean|0.04|||||TWO_SIDED|95.0|-0.22|0.3||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.30|-0.22|
92430196|NCT03000439|184748221|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-0.2|0.38||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.38|-0.20|
92430197|NCT03000439|184748221|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-0.24|0.42||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.42|-0.24|
92430198|NCT03000439|184748222|OTHER||Difference in LS Mean|0.07|||||TWO_SIDED|95.0|-0.1|0.24||||||DB Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.24|-0.10|
92430199|NCT03000439|184748222|OTHER||Difference in LS Mean|-0.02|||||TWO_SIDED|95.0|-0.19|0.15||||||DB Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.15|-0.19|
92279637|NCT01618305|184462869|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||.54
92279638|NCT01618305|184462870|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92279639|NCT01618305|184462871|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92279640|NCT01618305|184462872|SUPERIORITY|||||||0.064|||||||Fisher Exact|||The proportion of HIV-infected infants among those who had a determinable HIV-infection status was compared between arms.||||0.064
92279641|NCT00455533|184462896|SUPERIORITY_OR_OTHER|||||||0.8921||95.0|||||Fisher Exact|||||||0.8921
92279642|NCT00455533|184462896|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8966|TWO_SIDED|90.0|0.6|1.55|||Cochran-Mantel-Haenszel|||||1.55|0.60|0.8966
92430200|NCT03000439|184748222|OTHER||Difference in LS Mean|-0.01|||||TWO_SIDED|95.0|-0.19|0.16||||||DB Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.16|-0.19|
92430201|NCT03000439|184748222|OTHER||Difference in LS Mean|0.01|||||TWO_SIDED|95.0|-0.2|0.23||||||DB Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.23|-0.20|
92430202|NCT03000439|184748222|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.02|0.32||||||DB Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.32|-0.02|
92430203|NCT03000439|184748222|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.09|0.4||||||DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.40|-0.09|
92430204|NCT03000439|184748222|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-0.16|0.34||||||DB Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.34|-0.16|
92430205|NCT03000439|184748222|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.05|0.36||||||DB Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.36|-0.05|
92430206|NCT03000439|184748222|OTHER||Difference in LS Mean|0.16|||||TWO_SIDED|95.0|-0.1|0.43||||||DB Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.43|-0.10|
92430207|NCT03000439|184748222|OTHER||Difference in LS Mean|0.17|||||TWO_SIDED|95.0|-0.06|0.39||||||DB Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.39|-0.06|
92430208|NCT03000439|184748222|OTHER||Difference in LS Mean|0.04|||||TWO_SIDED|95.0|-0.22|0.3||||||DB Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.30|-0.22|
92430209|NCT03000439|184748222|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.18|0.49||||||DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.49|-0.18|
92430210|NCT03000439|184748222|OTHER||Difference in LS Mean|0.16|||||TWO_SIDED|95.0|-0.23|0.55||||||DB Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.55|-0.23|
92430211|NCT03000439|184748223|OTHER||Difference in LS Mean|0.21|||||TWO_SIDED|95.0|-0.97|1.4||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.40|-0.97|
92430212|NCT03000439|184748223|OTHER||Difference in LS Mean|0.58|||||TWO_SIDED|95.0|-0.68|1.84||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.84|-0.68|
92430213|NCT03000439|184748223|OTHER||Difference in LS Mean|1.2|||||TWO_SIDED|95.0|-0.77|3.16||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||3.16|-0.77|
92430214|NCT03000439|184748223|OTHER||Difference in LS Mean|-0.06|||||TWO_SIDED|95.0|-1.3|1.18||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.18|-1.30|
92430215|NCT03000439|184748223|OTHER||Difference in LS Mean|0.26|||||TWO_SIDED|95.0|-0.29|0.82||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||0.82|-0.29|
92430216|NCT03000439|184748223|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-0.46|0.64||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||0.64|-0.46|
92430217|NCT03000439|184748223|OTHER||Difference in LS Mean|-0.46|||||TWO_SIDED|95.0|-2.05|1.13||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.13|-2.05|
92430218|NCT03000439|184748223|OTHER||Difference in LS Mean|0.35|||||TWO_SIDED|95.0|-0.18|0.88||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||0.88|-0.18|
92430219|NCT03000439|184748223|OTHER||Difference in LS Mean|0.31|||||TWO_SIDED|95.0|-0.26|0.88||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||0.88|-0.26|
92430220|NCT03000439|184748223|OTHER||Difference in LS Mean|0.28|||||TWO_SIDED|95.0|-0.43|0.99||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||0.99|-0.43|
92430221|NCT03000439|184748223|OTHER||Difference in LS Mean|0.29|||||TWO_SIDED|95.0|-0.45|1.03||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.03|-0.45|
92430222|NCT03000439|184748223|OTHER||Difference in LS Mean|0.22|||||TWO_SIDED|95.0|-0.63|1.08||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.08|-0.63|
92430223|NCT03000439|184748223|OTHER||Difference in LS Mean|0.45|||||TWO_SIDED|95.0|-0.66|1.57||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.57|-0.66|
92170948|NCT03398148|184230804|SUPERIORITY||Least Squares (LS) Mean Difference|18.3|||<|0.0001|TWO_SIDED|95.0|13.38|23.25||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|ANCOVA||Between-group diff. and 95% CI calculated using ANCOVA/MMRM with RTB-MI for continuous endpoints.|||23.25|13.38|<0.0001
92430224|NCT03000439|184748224|OTHER||Difference in LS Mean|-0.13|||||TWO_SIDED|95.0|-0.73|0.47||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.47|-0.73|
92430225|NCT03000439|184748224|OTHER||Difference in LS Mean|0.39|||||TWO_SIDED|95.0|-0.81|1.59||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.59|-0.81|
92430226|NCT03000439|184748224|OTHER||Difference in LS Mean|0.7|||||TWO_SIDED|95.0|-0.54|1.95||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.95|-0.54|
92430227|NCT03000439|184748224|OTHER||Difference in LS Mean|-0.4|||||TWO_SIDED|95.0|-0.9|0.1||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.10|-0.90|
92430228|NCT03000439|184748224|OTHER||Difference in LS Mean|-0.16|||||TWO_SIDED|95.0|-0.46|0.13||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.13|-0.46|
92430229|NCT03000439|184748224|OTHER||Difference in LS Mean|-0.32|||||TWO_SIDED|95.0|-0.63|-0.01||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||-0.01|-0.63|
92430230|NCT03000439|184748224|OTHER||Difference in LS Mean|-1.09|||||TWO_SIDED|95.0|-2.34|0.15||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.15|-2.34|
92430231|NCT03000439|184748224|OTHER||Difference in LS Mean|0.07|||||TWO_SIDED|95.0|-0.26|0.4||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.40|-0.26|
92430232|NCT03000439|184748224|OTHER||Difference in LS Mean|-0.02|||||TWO_SIDED|95.0|-0.3|0.26||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.26|-0.30|
92430233|NCT03000439|184748224|OTHER||Difference in LS Mean|-0.05|||||TWO_SIDED|95.0|-0.53|0.43||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.43|-0.53|
92430234|NCT03000439|184748224|OTHER||Difference in LS Mean|-0.05|||||TWO_SIDED|95.0|-0.56|0.46||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.46|-0.56|
92430235|NCT03000439|184748224|OTHER||Difference in LS Mean|-0.03|||||TWO_SIDED|95.0|-0.74|0.69||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.69|-0.74|
92430236|NCT03000439|184748224|OTHER||Difference in LS Mean|0.2|||||TWO_SIDED|95.0|-0.91|1.32||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.32|-0.91|
92430237|NCT03000439|184748225|OTHER||Difference in LS Mean|1.01|||||TWO_SIDED|95.0|0.09|1.92||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.92|0.09|
92430238|NCT03000439|184748225|OTHER||Difference in LS Mean|1.31|||||TWO_SIDED|95.0|0.4|2.22||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||2.22|0.40|
92430239|NCT03000439|184748225|OTHER||Difference in LS Mean|0.53|||||TWO_SIDED|95.0|-0.47|1.53||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.53|-0.47|
92430240|NCT03000439|184748225|OTHER||Difference in LS Mean|0.26|||||TWO_SIDED|95.0|-0.63|1.16||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.16|-0.63|
92430241|NCT03000439|184748225|OTHER||Difference in LS Mean|0.32|||||TWO_SIDED|95.0|-0.33|0.97||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||0.97|-0.33|
92430242|NCT03000439|184748225|OTHER||Difference in LS Mean|0.55|||||TWO_SIDED|95.0|-0.1|1.2||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.20|-0.10|
92430243|NCT03000439|184748225|OTHER||Difference in LS Mean|0.2|||||TWO_SIDED|95.0|-0.93|1.33||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.33|-0.93|
92237181|NCT00283712|184378508|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.2||||0.65|TWO_SIDED|90.0|-0.15|0.55|||Fisher Exact|||||0.55|-0.15|0.65
92237182|NCT00283712|184378508|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.65|TWO_SIDED|90.0|0.06|2.79|||Fisher Exact|||||2.79|0.06|0.650
92237183|NCT00283712|184378518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|90.0|-0.3|0.3|||Fisher Exact|||||0.3|-0.3|1.00
92170949|NCT03398148|184230805|SUPERIORITY||Risk Difference (RD)|-4.8|||<|0.0001|TWO_SIDED|95.0|-7.3|-2.2||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Chi-squared||95% CI for treatment differences is based on normal approximation of the binomial proportions.|||-2.2|-7.3|<0.0001
92430244|NCT03000439|184748225|OTHER||Difference in LS Mean|0.62|||||TWO_SIDED|95.0|-0.17|1.42||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.42|-0.17|
92430245|NCT03000439|184748225|OTHER||Difference in LS Mean|0.48|||||TWO_SIDED|95.0|-0.02|0.98||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||0.98|-0.02|
92430246|NCT03000439|184748225|OTHER||Difference in LS Mean|0.64|||||TWO_SIDED|95.0|-0.3|1.58||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.58|-0.30|
92430247|NCT03000439|184748225|OTHER||Difference in LS Mean|0.23|||||TWO_SIDED|95.0|-0.4|0.85||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||0.85|-0.40|
92430248|NCT03000439|184748225|OTHER||Difference in LS Mean|0.26|||||TWO_SIDED|95.0|-0.36|0.88||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||0.88|-0.36|
92430249|NCT03000439|184748225|OTHER||Difference in LS Mean|0.11|||||TWO_SIDED|95.0|-0.87|1.09||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.09|-0.87|
92430250|NCT03000439|184748226|OTHER||Difference in LS Mean|-0.05|||||TWO_SIDED|95.0|-0.77|0.67||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.67|-0.77|
92430251|NCT03000439|184748226|OTHER||Difference in LS Mean|0.58|||||TWO_SIDED|95.0|-0.37|1.53||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.53|-0.37|
92430252|NCT03000439|184748226|OTHER||Difference in LS Mean|0.12|||||TWO_SIDED|95.0|-1.06|1.3||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.30|-1.06|
92430253|NCT03000439|184748226|OTHER||Difference in LS Mean|-0.26|||||TWO_SIDED|95.0|-1.27|0.74||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.74|-1.27|
92430254|NCT03000439|184748226|OTHER||Difference in LS Mean|-0.16|||||TWO_SIDED|95.0|-0.83|0.52||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.52|-0.83|
92430255|NCT03000439|184748226|OTHER||Difference in LS Mean|0.05|||||TWO_SIDED|95.0|-0.61|0.71||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.71|-0.61|
92430256|NCT03000439|184748226|OTHER||Difference in LS Mean|-0.1|||||TWO_SIDED|95.0|-1.45|1.25||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.25|-1.45|
92430257|NCT03000439|184748226|OTHER||Difference in LS Mean|0.31|||||TWO_SIDED|95.0|-0.61|1.23||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.23|-0.61|
92430258|NCT03000439|184748226|OTHER||Difference in LS Mean|0.18|||||TWO_SIDED|95.0|-0.34|0.71||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.71|-0.34|
92430259|NCT03000439|184748226|OTHER||Difference in LS Mean|0.36|||||TWO_SIDED|95.0|-0.74|1.46||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.46|-0.74|
92430260|NCT03000439|184748226|OTHER||Difference in LS Mean|-0.09|||||TWO_SIDED|95.0|-0.75|0.56||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.56|-0.75|
92430261|NCT03000439|184748226|OTHER||Difference in LS Mean|0.06|||||TWO_SIDED|95.0|-0.68|0.81||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.81|-0.68|
92430262|NCT03000439|184748226|OTHER||Difference in LS Mean|-0.08|||||TWO_SIDED|95.0|-1.1|0.94||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.94|-1.10|
92430263|NCT03000439|184748227|OTHER||Difference in LS Mean|-1.46|||||TWO_SIDED|95.0|-14.59|11.66||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||11.66|-14.59|
92430264|NCT03000439|184748227|OTHER||Difference in LS Mean|-7.22|||||TWO_SIDED|95.0|-19.62|5.17||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||5.17|-19.62|
92170950|NCT03398148|184230806|SUPERIORITY||Adjusted Risk Difference|24.2|||<|0.0001|TWO_SIDED|95.0|17.9|30.5||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||30.5|17.9|<0.0001
92430265|NCT03000439|184748227|OTHER||Difference in LS Mean|-6.61|||||TWO_SIDED|95.0|-19.36|6.14||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||6.14|-19.36|
92430266|NCT03000439|184748227|OTHER||Difference in LS Mean|-8.5|||||TWO_SIDED|95.0|-20.28|3.27||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||3.27|-20.28|
92430267|NCT03000439|184748227|OTHER||Difference in LS Mean|-3.95|||||TWO_SIDED|95.0|-10.53|2.62||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||2.62|-10.53|
92430268|NCT03000439|184748227|OTHER||Difference in LS Mean|-1.44|||||TWO_SIDED|95.0|-8.09|5.21||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||5.21|-8.09|
92430269|NCT03000439|184748227|OTHER||Difference in LS Mean|-4.32|||||TWO_SIDED|95.0|-16.67|8.03||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||8.03|-16.67|
92430270|NCT03000439|184748227|OTHER||Difference in LS Mean|-2.86|||||TWO_SIDED|95.0|-13.97|8.25||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||8.25|-13.97|
92430271|NCT03000439|184748227|OTHER||Difference in LS Mean|-10.95|||||TWO_SIDED|95.0|-24.63|2.73||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||2.73|-24.63|
92430272|NCT03000439|184748227|OTHER||Difference in LS Mean|-4.28|||||TWO_SIDED|95.0|-16.74|8.18||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||8.18|-16.74|
92430273|NCT03000439|184748227|OTHER||Difference in LS Mean|-8.32|||||TWO_SIDED|95.0|-15.2|-1.43||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||-1.43|-15.20|
92430274|NCT03000439|184748227|OTHER||Difference in LS Mean|-4.84|||||TWO_SIDED|95.0|-12.6|2.92||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||2.92|-12.60|
92430275|NCT03000439|184748227|OTHER||Difference in LS Mean|-1.34|||||TWO_SIDED|95.0|-5.16|2.48||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||2.48|-5.16|
92430276|NCT03000439|184748228|OTHER||Difference in LS Mean|-6.05|||||TWO_SIDED|95.0|-16.3|4.19||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.19|-16.30|
92430277|NCT03000439|184748228|OTHER||Difference in LS Mean|-10.46|||||TWO_SIDED|95.0|-21.68|0.77||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.77|-21.68|
92430278|NCT03000439|184748228|OTHER||Difference in LS Mean|-10.86|||||TWO_SIDED|95.0|-23.75|2.03||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.03|-23.75|
92430279|NCT03000439|184748228|OTHER||Difference in LS Mean|-13.15|||||TWO_SIDED|95.0|-25.83|-0.46||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||-0.46|-25.83|
92430280|NCT03000439|184748228|OTHER||Difference in LS Mean|-7.02|||||TWO_SIDED|95.0|-13.56|-0.47||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||-0.47|-13.56|
92430281|NCT03000439|184748228|OTHER||Difference in LS Mean|-4.53|||||TWO_SIDED|95.0|-11.0|1.95||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.95|-11.00|
92430282|NCT03000439|184748228|OTHER||Difference in LS Mean|-9.35|||||TWO_SIDED|95.0|-22.24|3.54||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.54|-22.24|
92430283|NCT03000439|184748228|OTHER||Difference in LS Mean|-6.75|||||TWO_SIDED|95.0|-18.34|4.83||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.83|-18.34|
92430284|NCT03000439|184748228|OTHER||Difference in LS Mean|-15.49|||||TWO_SIDED|95.0|-30.36|-0.63||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||-0.63|-30.36|
92430285|NCT03000439|184748228|OTHER||Difference in LS Mean|-7.99|||||TWO_SIDED|95.0|-21.0|5.03||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||5.03|-21.00|
92430286|NCT03000439|184748228|OTHER||Difference in LS Mean|-10.49|||||TWO_SIDED|95.0|-17.67|-3.31||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||-3.31|-17.67|
92430287|NCT03000439|184748228|OTHER||Difference in LS Mean|-5.93|||||TWO_SIDED|95.0|-13.53|1.67||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.67|-13.53|
92237184|NCT00090285|184378522|SUPERIORITY_OR_OTHER||Risk Difference (RD)|90.6||||||95.0|70.1|98.2|||||Confidence Interval (CI) based on binomial tail probabilities and not from a dispersion parameter.|||98.2|70.1|
92237185|NCT00090285|184378530|SUPERIORITY_OR_OTHER||Risk Difference (RD)|77.5||||||95.0|39.6|93.3||||||||93.3|39.6|
92237186|NCT00090285|184378531|SUPERIORITY_OR_OTHER||Risk Difference (RD)|85.5||||||95.0|77.0|91.3|||||CI based on binomial tail probabilities and not from a dispersion parameter. Hochberg multiplicity adjustment applied to the CI.|||91.3|77.0|
92237187|NCT00090285|184378532|SUPERIORITY_OR_OTHER||Risk Difference (RD)|51.0||||||95.0|40.3|59.9|||||CI based on binomial tail probabilities and not from a dispersion parameter. Hochberg multiplicity adjustment applied to the CI.|||59.9|40.3|
92279643|NCT00455533|184462896|SUPERIORITY_OR_OTHER||difference in pCR|-0.6|||||TWO_SIDED|95.0|-7.9|6.7|||||The difference in pCR rates and the confidence interval computed using the method of DerSimonian and Laird stratified by tumor size at baseline, estrogen receptor status, and clinical response to AC.|||6.7|-7.9|
92430288|NCT03000439|184748228|OTHER||Difference in LS Mean|-2.57|||||TWO_SIDED|95.0|-6.37|1.24||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.24|-6.37|
92430289|NCT03000439|184748229|OTHER||Difference in LS Mean|0.51|||||TWO_SIDED|95.0|0.2|2.22||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||2.22|0.20|
92430290|NCT03000439|184748229|OTHER||Difference in LS Mean|0.82|||||TWO_SIDED|95.0|-0.2|1.85||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.85|-0.20|
92430291|NCT03000439|184748229|OTHER||Difference in LS Mean|0.31|||||TWO_SIDED|95.0|-0.65|1.27||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.27|-0.65|
92430292|NCT03000439|184748229|OTHER||Difference in LS Mean|0.57|||||TWO_SIDED|95.0|-0.26|1.41||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.41|-0.26|
92430293|NCT03000439|184748229|OTHER||Difference in LS Mean|0.16|||||TWO_SIDED|95.0|-0.78|1.1||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.10|-0.78|
92430294|NCT03000439|184748229|OTHER||Difference in LS Mean|0.66|||||TWO_SIDED|95.0|-0.18|1.49||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.49|-0.18|
92430295|NCT03000439|184748229|OTHER||Difference in LS Mean|-0.08|||||TWO_SIDED|95.0|-1.43|1.27||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.27|-1.43|
92430296|NCT03000439|184748229|OTHER||Difference in LS Mean|-0.07|||||TWO_SIDED|95.0|-0.65|0.5||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.50|-0.65|
92430297|NCT03000439|184748229|OTHER||Difference in LS Mean|0.06|||||TWO_SIDED|95.0|-0.51|0.63||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.63|-0.51|
92430298|NCT03000439|184748229|OTHER||Difference in LS Mean|-0.04|||||TWO_SIDED|95.0|-0.55|0.47||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.47|-0.55|
92430299|NCT03000439|184748229|OTHER||Difference in LS Mean|-0.16|||||TWO_SIDED|95.0|-0.82|0.5||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.50|-0.82|
92430300|NCT03000439|184748229|OTHER||Difference in LS Mean|-0.14|||||TWO_SIDED|95.0|-1.51|1.22||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.22|-1.51|
92430301|NCT03000439|184748229|OTHER||Difference in LS Mean|-0.08|||||TWO_SIDED|95.0|-1.05|0.88||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.88|-1.05|
92430302|NCT03000439|184748230|OTHER||Difference in LS Mean|0.49|||||TWO_SIDED|95.0|-0.32|1.3||||||DB at Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.30|-0.32|
92430303|NCT03000439|184748230|OTHER||Difference in LS Mean|0.48|||||TWO_SIDED|95.0|-0.64|1.61||||||DB at Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.61|-0.64|
92430304|NCT03000439|184748230|OTHER||Difference in LS Mean|0.03|||||TWO_SIDED|95.0|-1.02|1.07||||||DB at Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.07|-1.02|
92430305|NCT03000439|184748230|OTHER||Difference in LS Mean|0.23|||||TWO_SIDED|95.0|-0.69|1.14||||||DB at Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.14|-0.69|
92430306|NCT03000439|184748230|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-1.05|1.22||||||DB at Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.22|-1.05|
92430307|NCT03000439|184748230|OTHER||Difference in LS Mean|0.28|||||TWO_SIDED|95.0|-0.6|1.16||||||DB at Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.16|-0.60|
92430308|NCT03000439|184748230|OTHER||Difference in LS Mean|0.02|||||TWO_SIDED|95.0|-1.6|1.64||||||DB at Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.64|-1.60|
92430309|NCT03000439|184748230|OTHER||Difference in LS Mean|0.02|||||TWO_SIDED|95.0|-1.6|1.64||||||DB at Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.64|-1.60|
92430310|NCT03000439|184748230|OTHER||Difference in LS Mean|0.07|||||TWO_SIDED|95.0|-0.58|0.73||||||DB at Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.73|-0.58|
92430311|NCT03000439|184748230|OTHER||Difference in LS Mean|0.06|||||TWO_SIDED|95.0|-0.53|0.65||||||DB at Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.65|-0.53|
92430312|NCT03000439|184748230|OTHER||Difference in LS Mean|-0.12|||||TWO_SIDED|95.0|-0.87|0.64||||||DB at Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.64|-0.87|
92430313|NCT03000439|184748230|OTHER||Difference in LS Mean|0.21|||||TWO_SIDED|95.0|-1.13|1.54||||||DB at Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.54|-1.13|
92430314|NCT03000439|184748230|OTHER||Difference in LS Mean|0.05|||||TWO_SIDED|95.0|-1.0|1.11||||||DB at Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.11|-1.00|
92430315|NCT03000439|184748233|OTHER||Difference in LS Mean|6.0|||||TWO_SIDED|95.0|-8.35|20.36||||||CHQ01-Global Health Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||20.36|-8.35|
92430316|NCT03000439|184748233|OTHER||Difference in LS Mean|2.85|||||TWO_SIDED|95.0|-12.43|18.14||||||CHQ01-Global Health Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||18.14|-12.43|
92430317|NCT03000439|184748233|OTHER||Difference in LS Mean|-4.19|||||TWO_SIDED|95.0|-15.78|7.4||||||CHQ01-Physical Functioning Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||7.40|-15.78|
92279644|NCT00455533|184462899|SUPERIORITY_OR_OTHER|||||||0.6186||95.0|||||Fisher Exact|||||||0.6186
92430318|NCT03000439|184748233|OTHER||Difference in LS Mean|2.31|||||TWO_SIDED|95.0|-37.06|41.68||||||CHQ01-Physical Functioning Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||41.68|-37.06|
92279645|NCT00455533|184462899|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.5806|TWO_SIDED|90.0|0.56|1.34|||Cochran-Mantel-Haenszel|||||1.34|0.56|0.5806
92430319|NCT03000439|184748233|OTHER||Difference in LS Mean|-5.47|||||TWO_SIDED|95.0|-17.37|6.43||||||CHQ01-Social Limitations: Emotional Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||6.43|-17.37|
92430320|NCT03000439|184748233|OTHER||Difference in LS Mean|6.82|||||TWO_SIDED|95.0|-20.92|34.57||||||CHQ01-Social Limitations: Emotional Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||34.57|-20.92|
92430321|NCT03000439|184748233|OTHER||Difference in LS Mean|-6.22|||||TWO_SIDED|95.0|-18.95|6.5||||||CHQ01-Social Limitations: Physical Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||6.50|-18.95|
92430322|NCT03000439|184748233|OTHER||Difference in LS Mean|11.09|||||TWO_SIDED|95.0|-46.24|68.42||||||CHQ01-Social Limitations: Physical Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||68.42|-46.24|
92430323|NCT03000439|184748233|OTHER||Difference in LS Mean|-1.45|||||TWO_SIDED|95.0|-13.97|11.06||||||CHQ01-Bodily Pain Subscale Standardized Score: DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||11.06|-13.97|
92430324|NCT03000439|184748233|OTHER||Difference in LS Mean|17.2|||||TWO_SIDED|95.0|-28.01|62.41||||||CHQ01-Bodily Pain Subscale Standardized Score: DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||62.41|-28.01|
92430325|NCT03000439|184748233|OTHER||Difference in LS Mean|-5.15|||||TWO_SIDED|95.0|-13.24|2.93||||||CHQ01-Behavior Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.93|-13.24|
92430326|NCT03000439|184748233|OTHER||Difference in LS Mean|-15.03|||||TWO_SIDED|95.0|-33.12|3.06||||||CHQ01-Behavior Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.06|-33.12|
92430327|NCT03000439|184748233|OTHER||Difference in LS Mean|-5.32|||||TWO_SIDED|95.0|-16.92|6.29||||||CHQ01-Global Behavior Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||6.29|-16.92|
92430328|NCT03000439|184748233|OTHER||Difference in LS Mean|-7.24|||||TWO_SIDED|95.0|-20.35|5.87||||||CHQ01-Global Behavior Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||5.87|-20.35|
92430329|NCT03000439|184748233|OTHER||Difference in LS Mean|4.44|||||TWO_SIDED|95.0|-6.18|15.07||||||CHQ01-Mental Health Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||15.07|-6.18|
92430330|NCT03000439|184748233|OTHER||Difference in LS Mean|-7.46|||||TWO_SIDED|95.0|-24.37|9.45||||||CHQ01-Mental Health Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||9.45|-24.37|
92279646|NCT00455533|184462899|SUPERIORITY_OR_OTHER||difference|-2.5|||||TWO_SIDED|90.0|-11.0|6.0|||||The difference in pCR/RCB-I rates and the confidence interval computed using the method of DerSimonian and Laird stratified by tumor size at baseline, estrogen receptor status, and clinical response to AC.|||6.0|-11|
92279647|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.4115||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 (209993\_at)||||0.4115
92430331|NCT03000439|184748233|OTHER||Difference in LS Mean|-0.01|||||TWO_SIDED|95.0|-9.14|9.13||||||CHQ01-Self Esteem Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||9.13|-9.14|
92430332|NCT03000439|184748233|OTHER||Difference in LS Mean|-7.59|||||TWO_SIDED|95.0|-33.87|18.7||||||CHQ01-Self Esteem Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||18.70|-33.87|
92430333|NCT03000439|184748233|OTHER||Difference in LS Mean|4.98|||||TWO_SIDED|95.0|-4.81|14.77||||||CHQ01-General Health Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||14.77|-4.81|
92430334|NCT03000439|184748233|OTHER||Difference in LS Mean|-1.02|||||TWO_SIDED|95.0|-20.31|18.28||||||CHQ01-General Health Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||18.28|-20.31|
92430335|NCT03000439|184748233|OTHER||Difference in LS Mean|-0.03|||||TWO_SIDED|95.0|-0.4|0.33||||||CHQ01-Change in Health Subscale Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.33|-0.40|
92430336|NCT03000439|184748233|OTHER||Difference in LS Mean|0.48|||||TWO_SIDED|95.0|-0.68|1.65||||||CHQ01-Change in Health Subscale Score; DB Week48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.65|-0.68|
92430337|NCT03000439|184748233|OTHER||Difference in LS Mean|2.25|||||TWO_SIDED|95.0|-10.59|15.1||||||CHQ01-Emotional Impact on Parent Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||15.10|-10.59|
92430338|NCT03000439|184748233|OTHER||Difference in LS Mean|-25.07|||||TWO_SIDED|95.0|-60.96|10.82||||||CHQ01-Emotional Impact on Parent Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||10.82|-60.96|
92430339|NCT03000439|184748233|OTHER||Difference in LS Mean|1.87|||||TWO_SIDED|95.0|-13.55|17.29||||||CHQ01-Time Impact on Parent Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||17.29|-13.55|
92430340|NCT03000439|184748233|OTHER||Difference in LS Mean|-9.19|||||TWO_SIDED|95.0|-48.91|30.53||||||CHQ01-Time Impact on Parent Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||30.53|-48.91|
92430341|NCT03000439|184748233|OTHER||Difference in LS Mean|-3.97|||||TWO_SIDED|95.0|-12.84|4.9||||||CHQ01-Family Activities Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.90|-12.84|
92430342|NCT03000439|184748233|OTHER||Difference in LS Mean|-9.3|||||TWO_SIDED|95.0|-32.35|13.75||||||CHQ01-Family Activities Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||13.75|-32.35|
92430343|NCT03000439|184748233|OTHER||Difference in LS Mean|-3.52|||||TWO_SIDED|95.0|-14.84|7.81||||||CHQ01-Family Cohesion Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||7.81|-14.84|
92430344|NCT03000439|184748233|OTHER||Difference in LS Mean|-20.42|||||TWO_SIDED|95.0|-79.03|38.18||||||CHQ01-Family Cohesion Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||38.18|-79.03|
92430345|NCT03000439|184748236|OTHER||Difference in LS Mean|-0.24|||||TWO_SIDED|95.0|-1.02|0.54||||||CHAQ-Discomfort Index at Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.54|-1.02|
92430346|NCT03000439|184748236|OTHER||Difference in LS Mean|0.54|||||TWO_SIDED|95.0|-0.49|1.57||||||CHAQ-Discomfort Index at Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.57|-0.49|
92430347|NCT03000439|184748236|OTHER||Difference in LS Mean|0.47|||||TWO_SIDED|95.0|-1.01|0.9||||||CHAQ-Discomfort Index at Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.90|-1.01|
92430348|NCT03000439|184748236|OTHER||Difference in LS Mean|0.55|||||TWO_SIDED|95.0|-0.49|1.58||||||CHAQ-Discomfort Index at Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.58|-0.49|
92430349|NCT03000439|184748236|OTHER||Difference in LS Mean|0.23|||||TWO_SIDED|95.0|-0.98|1.45||||||CHAQ-Discomfort Index at Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.45|-0.98|
92430350|NCT03000439|184748236|OTHER||Difference in LS Mean|0.32|||||TWO_SIDED|95.0|-0.51|1.14||||||CHAQ-Discomfort Index at Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.14|-0.51|
92430351|NCT03000439|184748236|OTHER||Difference in LS Mean|-0.42|||||TWO_SIDED|95.0|-1.87|1.03||||||CHAQ-Discomfort Index at Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.03|-1.87|
92430352|NCT03000439|184748236|OTHER||Difference in LS Mean|-0.33|||||TWO_SIDED|95.0|-1.53|0.88||||||CHAQ-Discomfort Index at Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.88|-1.53|
92430353|NCT03000439|184748236|OTHER||Difference in LS Mean|-0.31|||||TWO_SIDED|95.0|-1.36|0.74||||||CHAQ-Discomfort Index at Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.74|-1.36|
92430354|NCT03000439|184748236|OTHER||Difference in LS Mean|0.07|||||TWO_SIDED|95.0|-0.55|0.69||||||CHAQ-Discomfort Index at Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.69|-0.55|
92430355|NCT03000439|184748236|OTHER||Difference in LS Mean|-0.31|||||TWO_SIDED|95.0|-1.01|0.39||||||CHAQ-Discomfort Index at Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.39|-1.01|
92430356|NCT03000439|184748236|OTHER||Difference in LS Mean|0.23|||||TWO_SIDED|95.0|-1.45|1.92||||||CHAQ-Discomfort Index at Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.92|-1.45|
92430357|NCT03000439|184748236|OTHER||Difference in LS Mean|-0.09|||||TWO_SIDED|95.0|-0.87|0.69||||||CHAQ-Discomfort Index at Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.69|-0.87|
92430358|NCT03000439|184748245|OTHER||Difference in percentage|-30.18|||||TWO_SIDED|95.0|-53.43|-6.94|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||-6.94|-53.43|
92430359|NCT03000439|184748245|OTHER||Difference in percentage|-23.39|||||TWO_SIDED|95.0|-47.19|0.42|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||0.42|-47.19|
92430360|NCT03000439|184748245|OTHER||Difference in percentage|-0.12|||||TWO_SIDED|95.0|-23.99|23.76|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||23.76|-23.99|
92430361|NCT03000439|184748245|OTHER||Difference in percentage|6.68|||||TWO_SIDED|95.0|-17.2|30.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||30.56|-17.20|
92430362|NCT03000439|184748245|OTHER||Difference in percentage|13.13|||||TWO_SIDED|95.0|-9.92|36.19|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||36.19|-9.92|
92430363|NCT03000439|184748245|OTHER||Difference in percentage|0.23|||||TWO_SIDED|95.0|-24.24|24.7|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||24.70|-24.24|
92430364|NCT03000439|184748245|OTHER||Difference in percentage|3.46|||||TWO_SIDED|95.0|-20.75|27.66|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||27.66|-20.75|
92430365|NCT03000439|184748245|OTHER||Difference in percentage|5.99|||||TWO_SIDED|95.0|-16.29|28.28|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||28.28|-16.29|
92430366|NCT03000439|184748245|OTHER||Difference in percentage|3.8|||||TWO_SIDED|95.0|-20.92|28.52|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||28.52|-20.92|
92430367|NCT03000439|184748245|OTHER||Difference in percentage|10.25|||||TWO_SIDED|95.0|-13.88|34.39|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||34.39|-13.88|
92430368|NCT03000439|184748245|OTHER||Difference in percentage|20.62|||||TWO_SIDED|95.0|-3.43|44.67|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||44.67|-3.43|
92430369|NCT03000439|184748245|OTHER||Difference in percentage|20.62|||||TWO_SIDED|95.0|-3.43|44.67|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||44.67|-3.43|
92430370|NCT03000439|184748245|OTHER||Difference in percentage|17.4|||||TWO_SIDED|95.0|-7.03|41.82|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||41.82|-7.03|
92170951|NCT03398148|184230807|SUPERIORITY||Adjusted Risk Difference|18.6|||<|0.0001|TWO_SIDED|95.0|12.4|24.8||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference.|||24.8|12.4|<0.0001
92430371|NCT03000439|184748246|OTHER||Difference in percentage|-26.61|||||TWO_SIDED|95.0|-50.42|-2.81|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||-2.81|-50.42|
92430372|NCT03000439|184748246|OTHER||Difference in percentage|-20.16|||||TWO_SIDED|95.0|-43.91|3.59|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||3.59|-43.91|
92430373|NCT03000439|184748246|OTHER||Difference in percentage|-9.79|||||TWO_SIDED|95.0|-34.31|14.72|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||14.72|-34.31|
92430374|NCT03000439|184748246|OTHER||Difference in percentage|0.23|||||TWO_SIDED|95.0|-24.24|24.7|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||24.70|-24.24|
92430375|NCT03000439|184748246|OTHER||Difference in percentage|10.25|||||TWO_SIDED|95.0|-13.88|34.39|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||34.39|-13.88|
92430376|NCT03000439|184748246|OTHER||Difference in percentage|-3.0|||||TWO_SIDED|95.0|-27.67|21.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||21.68|-27.67|
92430377|NCT03000439|184748246|OTHER||Difference in percentage|-3.0|||||TWO_SIDED|95.0|-27.67|21.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||21.68|-27.67|
92430378|NCT03000439|184748246|OTHER||Difference in percentage|-6.91|||||TWO_SIDED|95.0|-30.65|16.83|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||16.83|-30.65|
92430379|NCT03000439|184748246|OTHER||Difference in percentage|3.8|||||TWO_SIDED|95.0|-20.92|28.52|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||28.52|-20.92|
92430380|NCT03000439|184748246|OTHER||Difference in percentage|7.03|||||TWO_SIDED|95.0|-17.43|31.48|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||31.48|-17.43|
92430381|NCT03000439|184748246|OTHER||Difference in percentage|17.74|||||TWO_SIDED|95.0|-7.03|42.52|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||42.52|-7.03|
92430382|NCT03000439|184748246|OTHER||Difference in percentage|14.52|||||TWO_SIDED|95.0|-10.52|39.55|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||39.55|-10.52|
92430383|NCT03000439|184748246|OTHER||Difference in percentage|17.74|||||TWO_SIDED|95.0|-7.03|42.52|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||42.52|-7.03|
92430384|NCT03000439|184748247|OTHER||Difference in percentage|-15.09|||||TWO_SIDED|95.0|-34.29|4.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||4.10|-34.29|
92430385|NCT03000439|184748247|OTHER||Difference in percentage|-12.21|||||TWO_SIDED|95.0|-29.08|4.65|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||4.65|-29.08|
92430386|NCT03000439|184748247|OTHER||Difference in percentage|-8.99|||||TWO_SIDED|95.0|-25.07|7.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||7.10|-25.07|
92430387|NCT03000439|184748247|OTHER||Difference in percentage|4.61|||||TWO_SIDED|95.0|-12.01|21.23|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||21.23|-12.01|
92430388|NCT03000439|184748247|OTHER||Difference in percentage|4.61|||||TWO_SIDED|95.0|-12.01|21.23|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||21.23|-12.01|
92430389|NCT03000439|184748247|OTHER||Difference in percentage|-8.99|||||TWO_SIDED|95.0|-25.07|7.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||7.10|-25.07|
92430390|NCT03000439|184748247|OTHER||Difference in percentage|-11.87|||||TWO_SIDED|95.0|-30.52|6.79|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||6.79|-30.52|
92430391|NCT03000439|184748247|OTHER||Difference in percentage|-5.07|||||TWO_SIDED|95.0|-24.08|13.94|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||13.94|-24.08|
92430392|NCT03000439|184748247|OTHER||Difference in percentage|-5.41|||||TWO_SIDED|95.0|-22.7|11.87|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||11.87|-22.70|
92170952|NCT03398148|184230808|SUPERIORITY||Least Squares (LS) Mean Difference|-1.627|||<|0.0001|TWO_SIDED|95.0|-2.3846|-0.8689||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Mixed-Effect Model Repeated Measures||Between-group diff. and 95% CI calculated using ANCOVA/MMRM with RTB-MI for continuous endpoints.|||-0.8689|-2.3846|<0.0001
92430393|NCT03000439|184748247|OTHER||Difference in percentage|-11.52|||||TWO_SIDED|95.0|-31.65|8.61|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||8.61|-31.65|
92430394|NCT03000439|184748247|OTHER||Difference in percentage|-1.84|||||TWO_SIDED|95.0|-20.16|16.48|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||16.48|-20.16|
92430395|NCT03000439|184748247|OTHER||Difference in percentage|-8.64|||||TWO_SIDED|95.0|-26.66|9.38|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||9.38|-26.66|
92430396|NCT03000439|184748247|OTHER||Difference in percentage|-5.07|||||TWO_SIDED|95.0|-24.08|13.94|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||13.94|-24.08|
92430397|NCT03000439|184748248|OTHER||Difference in percentage|-12.21|||||TWO_SIDED|95.0|-29.08|4.65|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||4.65|-29.08|
92430398|NCT03000439|184748248|OTHER||Difference in percentage|-14.75|||||TWO_SIDED|95.0|-35.32|5.83|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||5.83|-35.32|
92430399|NCT03000439|184748248|OTHER||Difference in percentage|-8.29|||||TWO_SIDED|95.0|-27.91|11.32|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||11.32|-27.91|
92430400|NCT03000439|184748248|OTHER||Difference in percentage|1.73|||||TWO_SIDED|95.0|-17.48|20.93|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||20.93|-17.48|
92430401|NCT03000439|184748248|OTHER||Difference in percentage|1.38|||||TWO_SIDED|95.0|-16.15|18.91|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||18.91|-16.15|
92430402|NCT03000439|184748248|OTHER||Difference in percentage|-5.41|||||TWO_SIDED|95.0|-22.7|11.87|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||11.87|-22.70|
92430403|NCT03000439|184748248|OTHER||Difference in percentage|-11.87|||||TWO_SIDED|95.0|-30.52|6.79|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||6.79|-30.52|
92430404|NCT03000439|184748248|OTHER||Difference in percentage|-5.07|||||TWO_SIDED|95.0|-24.08|13.94|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||13.94|-24.08|
92430405|NCT03000439|184748248|OTHER||Difference in percentage|-8.64|||||TWO_SIDED|95.0|-26.66|9.38|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||9.38|-26.66|
92430406|NCT03000439|184748248|OTHER||Difference in percentage|-11.52|||||TWO_SIDED|95.0|-31.65|8.61|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||8.61|-31.65|
92430407|NCT03000439|184748248|OTHER||Difference in percentage|-8.29|||||TWO_SIDED|95.0|-27.91|11.32|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||11.32|-27.91|
92430408|NCT03000439|184748248|OTHER||Difference in percentage|-8.29|||||TWO_SIDED|95.0|-27.91|11.32|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||11.32|-27.91|
92430409|NCT03000439|184748248|OTHER||Difference in percentage|-5.07|||||TWO_SIDED|95.0|-24.08|13.94|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||13.94|-24.08|
92430410|NCT03000439|184748251|OTHER||Difference in percentage|-8.99|||||TWO_SIDED|95.0|-25.07|7.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||7.10|-25.07|
92430411|NCT03000439|184748251|OTHER||Difference in percentage|-19.01|||||TWO_SIDED|95.0|-35.25|-2.76|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||-2.76|-35.25|
92430412|NCT03000439|184748251|OTHER||Difference in percentage|-15.44|||||TWO_SIDED|95.0|-32.98|2.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||2.10|-32.98|
92430413|NCT03000439|184748251|OTHER||Difference in percentage|-12.56|||||TWO_SIDED|95.0|-27.22|2.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||2.10|-27.22|
92430414|NCT03000439|184748251|OTHER||Difference in percentage|-8.99|||||TWO_SIDED|95.0|-25.07|7.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||7.10|-25.07|
92430415|NCT03000439|184748251|OTHER||Difference in percentage|-12.21|||||TWO_SIDED|95.0|-29.08|4.65|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||4.65|-29.08|
92430416|NCT03000439|184748251|OTHER||Difference in percentage|-8.64|||||TWO_SIDED|95.0|-26.66|9.38|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||9.38|-26.66|
92430417|NCT03000439|184748251|OTHER||Difference in percentage|-8.64|||||TWO_SIDED|95.0|-26.66|9.38|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||9.38|-26.66|
92430418|NCT03000439|184748251|OTHER||Difference in percentage|-1.84|||||TWO_SIDED|95.0|-20.16|16.48|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||16.48|-20.16|
92430419|NCT03000439|184748251|OTHER||Difference in percentage|-4.72|||||TWO_SIDED|95.0|-25.17|15.72|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||15.72|-25.17|
92430420|NCT03000439|184748251|OTHER||Difference in percentage|-8.29|||||TWO_SIDED|95.0|-27.91|11.32|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||11.32|-27.91|
92430421|NCT03000439|184748251|OTHER||Difference in percentage|-4.72|||||TWO_SIDED|95.0|-25.17|15.72|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||15.72|-25.17|
92430422|NCT03000439|184748251|OTHER||Difference in percentage|2.07|||||TWO_SIDED|95.0|-18.53|22.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||22.68|-18.53|
92430423|NCT01749137|184748255|SUPERIORITY|P-value from a mixed-effects analysis of covariance model with treatment, visit and visit-by-treatment interaction as factors, baseline weight as a covariate, and participant as the random effect.|Treatment Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.58||0.059|TWO_SIDED|95.0|-2.27|0.04|||Mixed Model Repeated Measures (MMRM)|||||0.04|-2.27|0.059
92279648|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1629||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 209993\_at||||0.1629
92430424|NCT01749137|184748256|SUPERIORITY|P-value from a mixed-effects analysis of covariance model with treatment, visit and visit-by-treatment interaction as factors, baseline weight as a covariate, and participant as the random effect.|Treatment Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.66||0.079|TWO_SIDED|95.0|-2.48|0.14|||MMRM|||||0.14|-2.48|0.079
92430425|NCT01749137|184748257|SUPERIORITY|||||||0.513||||||P-values from a Cochran-Mantel-Haenszel (CMH) test, controlling for site and the stratification factor severely obese (yes/no).|Cochran-Mantel-Haenszel|||||||0.513
92279649|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.5074||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 209993\_at||||0.5074
92430426|NCT01749137|184748265|SUPERIORITY|P-value from a mixed-effects analysis of covariance model with treatment, visit and visit-by-treatment interaction as factors, baseline weight as a covariate, and participant as the random effect.|Treatment Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.87||0.387|TWO_SIDED|95.0|-2.5|0.98|||MMRM|||||0.98|-2.50|0.387
92430427|NCT01749137|184748266|SUPERIORITY|||||||1||||||P-values from a Cochran-Mantel-Haenszel (CMH) test, controlling for site.|Cochran-Mantel-Haenszel|||||||1.000
92430428|NCT02064894|184748279|SUPERIORITY_OR_OTHER|||||||0.81|||||||Cochran-Mantel-Haenszel|||||||0.81
92430429|NCT01976338|184748281|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92279650|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.553||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.5530
92430430|NCT02864498|184748304|SUPERIORITY|||||||0.557|||||||General Linear Model|||||||0.5570
92430431|NCT02864498|184748304|SUPERIORITY|||||||0.8774|||||||General Linear Model|||||||0.8774
92430432|NCT01112865|184748313|SUPERIORITY_OR_OTHER|||||||0.6858|TWO_SIDED|||||Binomial test against the null hypothesis|binomial test|||Null hypothesis: percentage of participants preferring Genotropin Mark VII injection pen = 50%||||0.6858
92430433|NCT01606007|184748316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.1112|<|0.0001|TWO_SIDED|95.0|-0.81|-0.37||Primary endpoint was tested at alpha=0.05; significance was claimed only if Saxagliptin+Dapagliflozin+Metformin was superior to both Saxagliptin+Metformin and Dapagliflozin+Metformin.|Mixed Models Analysis|||||-0.37|-0.81|<0.0001
92430434|NCT01606007|184748316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.1108||0.0166|TWO_SIDED|95.0|-0.48|-0.05||Primary endpoint was tested at alpha=0.05; significance was claimed only if Saxagliptin+Dapagliflozin+Metformin was superior to both Saxagliptin+Metformin and Dapagliflozin+Metformin.|Mixed Models Analysis|||||-0.05|-0.48|0.0166
92430435|NCT01606007|184748317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.0|STANDARD_ERROR_OF_MEAN|4.914|<|0.0001|TWO_SIDED|95.0|-53.7|-34.3||Each secondary endpoint was tested at alpha=0.05; significance was claimed only if Saxagliptin+Dapagliflozin+Metformin was superior to both Saxagliptin+Metformin and Dapagliflozin+Metformin.|ANCOVA|||LOCF||-34.3|-53.7|<0.0001
92430436|NCT01606007|184748317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.1|STANDARD_ERROR_OF_MEAN|4.923||0.0639|TWO_SIDED|95.0|-18.8|0.5||Each secondary endpoint was tested at alpha=0.05; significance testing stops at the endpoint where p-value\>0.05.|ANCOVA|||LOCF||0.5|-18.8|0.0639
92430437|NCT01606007|184748318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.8|STANDARD_ERROR_OF_MEAN|3.988|||TWO_SIDED|95.0|-31.6|-15.9|||||ANCOVA was applied for comparison, but p-value was not reported because at least one prior test in the hierarchical testing procedure yielded p-value\>0.05.|||-15.9|-31.6|
92430438|NCT01606007|184748318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|3.957|||TWO_SIDED|95.0|-13.8|1.7|||||ANCOVA was applied for comparison, but p-value was not reported because at least one prior test in the hierarchical testing procedure yielded p-value\>0.05.|||1.7|-13.8|
92237188|NCT02747043|184378543|EQUIVALENCE|Clinical equivalence of the primary endpoint will first be demonstrated by comparing the 1-sided 95% lower confidence limit of the RD of ORR by week 28 between ABP 798 and rituximab with a noninferiority margin of -15%. If this is successful, the 1-sided upper 95% confidence limit of the RD of ORR by week 28 will be compared with a nonsuperiority margin of +35.5%.|Risk Difference (RD)|7.7|||||TWO_SIDED|90.0|-1.4|16.8|||||The 2-sided 90% confidence limits of the risk difference (RD) of ORR by week 28 used a generalized linear model adjusted for the stratification factors (geographic region and age group).|||16.8|-1.4|
92430439|NCT01606007|184748319|SUPERIORITY_OR_OTHER||Mean difference in percentages|23.1|STANDARD_ERROR_OF_MEAN|4.282|||TWO_SIDED|95.0|14.7|31.5|||||Modified Logistic Regression was applied for comparison, but p-value was not reported because at least one prior test in the hierarchical testing procedure yielded p-value\>0.05.|||31.5|14.7|
92430440|NCT01606007|184748319|SUPERIORITY_OR_OTHER||Mean difference in percentages|19.1|STANDARD_ERROR_OF_MEAN|4.587|||TWO_SIDED|95.0|10.1|28.1|||||Modified Logistic Regression was applied for comparison, but p-value was not reported because at least one prior test in the hierarchical testing procedure yielded p-value\>0.05.|||28.1|10.1|
92430441|NCT01606007|184748320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05|STANDARD_ERROR_OF_MEAN|0.3451|||TWO_SIDED|95.0|-2.73|-1.37|||||ANCOVA was applied for comparison, but p-value was not reported because at least one prior test in the hierarchical testing procedure yielded p-value\>0.05.|||-1.37|-2.73|
92237189|NCT02747043|184378543|OTHER||Risk Difference (RD)|7.7|||||TWO_SIDED|95.0|-3.2|18.6||||||||18.6|-3.2|
92237190|NCT02747043|184378544|OTHER||Risk Difference (RD)|0.9|||||TWO_SIDED|90.0|-9.3|11.2||||||The 2-sided 90% confidence limits of the risk difference (RD) of ORR at week 12 used a generalized linear model adjusted for the stratification factors (geographic region and age group).||11.2|-9.3|
92237191|NCT02747043|184378544|OTHER||Risk Difference (RD)|0.9|||||TWO_SIDED|95.0|-11.3|13.2||||||The 2-sided 95% confidence limits of the risk difference (RD) of ORR at week 12 used a generalized linear model adjusted for the stratification factors (geographic region and age group).||13.2|-11.3|
92237192|NCT02747043|184378550|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|4.0|||||TWO_SIDED|95.0|-8.3|16.3||||||Percentage risk difference for 'Any adverse event of interest'||16.3|-8.3|
92237193|NCT02747043|184378550|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-12.1|12.3||||||Percentage risk difference for 'Infusion reactions including hypersensitivity'||12.3|-12.1|
92237194|NCT02747043|184378550|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|0.7|||||TWO_SIDED|95.0|-11.8|13.0||||||Percentage risk difference for 'Hematological reactions'||13.0|-11.8|
92237195|NCT02747043|184378550|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|0.8|||||TWO_SIDED|95.0|-11.8|13.2||||||Percentage risk difference in 'Cardiac disorders'||13.2|-11.8|
92237196|NCT02747043|184378550|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|1.6|||||TWO_SIDED|95.0|-10.9|14.0||||||Percentage risk difference in 'Serious infections'||14.0|-10.9|
92237197|NCT02747043|184378550|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|0.8|||||TWO_SIDED|95.0|-11.7|13.2||||||Percentage risk difference in 'Severe mucocutaneous reactions'||13.2|-11.7|
92430442|NCT02499783|184748329|SUPERIORITY||Adjusted Risk Difference|30.4|||<|0.001|TWO_SIDED|95.0|19.2|41.7|||Cochran-Mantel-Haenszel|Stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Risk difference = (adalimumab 160/80 mg - placebo). Stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|||41.7|19.2|<0.001
92430443|NCT02499783|184748330|SUPERIORITY||Risk Difference Compared to 30%|34.6|||<|0.001|TWO_SIDED|95.0|26.2|42.4|||One Sample Exact Test|The one sample Exact test was performed by comparing it to the clinically meaningful remission rate of 30%.||||42.4|26.2|< 0.001
92430444|NCT02499783|184748331|SUPERIORITY||Adjusted Risk Difference|33.4|||<|0.001|TWO_SIDED|95.0|23.2|43.6||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||43.6|23.2|< 0.001
92430445|NCT02499783|184748335|SUPERIORITY||Adjusted Risk Difference|40.4|||<|0.001|TWO_SIDED|95.0|26.7|54.2||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||54.2|26.7|< 0.001
92430446|NCT02499783|184748336|SUPERIORITY||Adjusted Risk Difference|50.2|||<|0.001|TWO_SIDED|95.0|36.9|63.5||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||63.5|36.9|< 0.001
92430447|NCT02499783|184748337|SUPERIORITY||Adjusted Risk Difference|27.6|||<|0.001|TWO_SIDED|95.0|18.2|37.0||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||37.0|18.2|< 0.001
92237198|NCT02238028|184378571|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Paired t-test,2 sided|||Paired Student's t tests were used in the absence and presence of wearing respirators. HRV was log-transformed before regression analyses. Linear mixed-effect models were applied to investigate the effects of wearing respirators. Age, sex, body mass index, PM2.5 concentration, 48-h mean temperature and 48-h mean humidity were introduced into the model as fixed-effect terms. At last, we incorporated random-effect intercepts for subjects to account for correlations between repeated measurements.||||<0.05
92279651|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1845||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.1845
92279652|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3538||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.3538
92279653|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.9751||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.9751
92279654|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.8874||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.8874
92279655|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.6907||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.6907
92279656|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.8052||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.8052
92279657|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.5031||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.5031
92279658|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.7588||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.7588
92279659|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1542||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.1542
92237199|NCT02238028|184378572|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Paired t-test,2 sided|||||||<0.05
92237200|NCT00907881|184378588|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Regression, Linear|Pearson correlation coefficient||||||0.0002
92279660|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.0235||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.0235
92279661|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3612||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.3612
92279662|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.184||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.1840
92279663|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.0942||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.0942
92279664|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.5327||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.5327
92279665|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.8847||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.8847
92279666|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.8947||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.8947
92279667|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.4085||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.4085
92279668|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1119||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.1119
92279669|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.0250
92237201|NCT01097616|184378592|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|19.6|||<|1e-05|TWO_SIDED|95.0|12.0|27.1||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 sTSTm, had planned marginal power of 97.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||27.1|12.0|<0.00001
92430448|NCT02499783|184748339|SUPERIORITY||Adjusted Risk Difference|19.6||||0.002|TWO_SIDED|95.0|7.1|32.1||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||32.1|7.1|0.002
92237202|NCT01097616|184378593|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|19.7|||<|1e-05|TWO_SIDED|95.0|11.9|27.6||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 sTSTm, had planned marginal power of 95.7%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||27.6|11.9|<0.00001
92237203|NCT01097616|184378594|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-26.3|||<|1e-05|TWO_SIDED|95.0|-33.5|-19.2||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 WASO, had planned marginal power of 99.2%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-19.2|-33.5|<0.00001
92237204|NCT01097616|184378595|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-22.9|||<|1e-05|TWO_SIDED|95.0|-30.3|-15.4||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 WASO, had planned marginal power of 98.3%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-15.4|-30.3|<0.00001
92237205|NCT01097616|184378596|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-7.4||||0.00298|TWO_SIDED|95.0|-12.3|-2.5||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 sTSOm, had planned marginal power of 99.9%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-2.5|-12.3|0.00298
92279670|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3569||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.3569
92430449|NCT02499783|184748341|SUPERIORITY||Least Squares Mean Difference|-385.2|||<|0.001|TWO_SIDED|95.0|-598.81|-171.5||P-value for test of difference between adalimumab and placebo for mean change from Baseline using ANCOVA with Treatment, Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline, and Baseline value as covariate.|ANCOVA|||||-171.50|-598.81|< 0.001
92430450|NCT02499783|184748342|SUPERIORITY||Adjusted Risk Difference|9.8||||0.001|TWO_SIDED|95.0|3.9|15.8||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||15.8|3.9|0.001
92430451|NCT02499783|184748344|SUPERIORITY||Adjusted Risk Difference|18.4|||<|0.001|TWO_SIDED|95.0|8.2|28.6||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Remission at Week 2||28.6|8.2|< 0.001
92430452|NCT02499783|184748344|SUPERIORITY||Adjusted Risk Difference|30.4|||<|0.001|TWO_SIDED|95.0|19.2|41.7||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Remission at Week 4||41.7|19.2|< 0.001
92430453|NCT02499783|184748346|SUPERIORITY||Adjusted Risk Difference|21.4|||<|0.001|TWO_SIDED|95.0|12.6|30.2||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Remission (CDAI \< 150) Plus A Reduction in HS-CRP of at Least 50% From Baseline at Week 2||30.2|12.6|< 0.001
92237206|NCT01097616|184378597|SUPERIORITY_OR_OTHER||[Difference in Least Squares Means|-8.4||||0.00019|TWO_SIDED|95.0|-12.8|-4.0||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 sTSOm, had planned marginal power of 99.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-4.0|-12.8|0.00019
92237207|NCT01097616|184378598|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-11.2||||2e-05|TWO_SIDED|95.0|-16.3|-6.1||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 LPS, had planned marginal power of 81.4%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-6.1|-16.3|0.00002
92237208|NCT01097616|184378599|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-9.4||||0.00037|TWO_SIDED|95.0|-14.6|-4.3||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 LPS, had planned marginal power of 76.2%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-4.3|-14.6|0.00037
92237209|NCT01097616|184378600|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|13.6||||7e-05|TWO_SIDED|95.0|6.9|20.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance and sleep onset endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either the subjective or objective Month 3 endpoint must be significant to test the Week 1/Night 1 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||20.3|6.9|0.00007
92237210|NCT01097616|184378600|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|21.4|||<|1e-05|TWO_SIDED|95.0|15.5|27.4|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Week 1 sTSTm, had planned marginal power of 98.3%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||27.4|15.5|<0.00001
92237211|NCT01097616|184378601|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|16.3||||0.00016|TWO_SIDED|95.0|7.9|24.8|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||24.8|7.9|0.00016
92237212|NCT01097616|184378602|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|10.7||||0.01711|TWO_SIDED|95.0|1.9|19.5|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||19.5|1.9|0.01711
92237213|NCT01097616|184378603|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-32.5|||<|1e-05|TWO_SIDED|95.0|-39.3|-25.7|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance and sleep onset endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either the subjective or objective Month 3 endpoint must be significant to test the Week 1/Night 1 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-25.7|-39.3|<0.00001
92430454|NCT02499783|184748346|SUPERIORITY||Adjusted Risk Difference|33.4|||<|0.001|TWO_SIDED|95.0|23.2|43.6||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Remission (CDAI \< 150) Plus A Reduction in HS-CRP of at Least 50% From Baseline at Week 4||43.6|23.2|< 0.001
92430455|NCT02499783|184748348|SUPERIORITY||Adjusted Risk Difference|21.7||||0.001|TWO_SIDED|95.0|8.7|34.6||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Response (Decrease in CDAI ≥ 70 Points From Baseline) at Week 2||34.6|8.7|0.001
92237214|NCT01097616|184378603|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-38.4|||<|1e-05|TWO_SIDED|95.0|-44.5|-32.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Night 1 WASO, had planned marginal power of 100.0%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-32.3|-44.5|<0.00001
92237215|NCT01097616|184378604|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-26.4|||<|1e-05|TWO_SIDED|95.0|-34.3|-18.4|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-18.4|-34.3|<0.00001
92237216|NCT01097616|184378605|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-16.6||||9e-05|TWO_SIDED|95.0|-24.8|-8.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-8.3|-24.8|0.00009
92237217|NCT01097616|184378606|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-5.6||||0.01564|TWO_SIDED|95.0|-10.2|-1.1|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance and sleep onset endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either the subjective or objective Month 3 endpoint must be significant to test the Week 1/Night 1 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-1.1|-10.2|0.01564
92279671|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.4103||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.4103
92430456|NCT02499783|184748348|SUPERIORITY||Adjusted Risk Difference|40.4|||<|0.001|TWO_SIDED|95.0|26.7|54.2||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Response (Decrease in CDAI ≥ 70 Points From Baseline) at Week 4||54.2|26.7|< 0.001
92430457|NCT02499783|184748350|SUPERIORITY||Adjusted Risk Difference|31.4|||<|0.001|TWO_SIDED|95.0|19.6|43.2||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Decrease in CDAI ≥ 70 Points From Baseline Plus a Reduction in Hs-CRP of at Least 30% From Baseline at Week 2||43.2|19.6|< 0.001
92430458|NCT02499783|184748350|SUPERIORITY||Adjusted Risk Difference|50.2|||<|0.001|TWO_SIDED|95.0|36.9|63.5||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Decrease in CDAI ≥ 70 Points From Baseline Plus a Reduction in Hs-CRP of at Least 30% From Baseline at Week 4||63.5|36.9|< 0.001
92430459|NCT02499783|184748352|SUPERIORITY||Least Squares Mean Difference|-43.34|||<|0.001|TWO_SIDED|95.0|-59.39|-27.3||P-value for test of difference between adalimumab and placebo for mean change from Baseline using ANCOVA with Treatment, Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline, and Baseline value as covariate.|ANCOVA|||Change From Baseline in CDAI at Week 2||-27.30|-59.39|< 0.001
92430460|NCT02499783|184748352|SUPERIORITY||Least Squares Mean Difference|-66.63|||<|0.001|TWO_SIDED|95.0|-84.2|-49.06||P-value for test of difference between adalimumab and placebo for mean change from Baseline using ANCOVA with Treatment, Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline, and Baseline value as covariate.|ANCOVA|||Change From Baseline in CDAI at Week 4||-49.06|-84.20|< 0.001
92430461|NCT02499783|184748354|SUPERIORITY||Least Squares Mean Difference|-13.921|||<|0.001|TWO_SIDED|95.0|-19.183|-8.659||P-value for test of difference between adalimumab and placebo for mean change from Baseline using ANCOVA with Treatment, Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline, and Baseline value as covariate.|ANCOVA|||Change From Baseline in hs-CRP Level at Week 2||-8.659|-19.183|< 0.001
92430462|NCT02499783|184748354|SUPERIORITY||Least Squares Mean Difference|-16.844|||<|0.001|TWO_SIDED|95.0|-21.206|-12.483||P-value for test of difference between adalimumab and placebo for mean change from Baseline using ANCOVA with Treatment, Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline, and Baseline value as covariate.|ANCOVA|||Change From Baseline in hs-CRP Level at Week 4||-12.483|-21.206|< 0.001
92430463|NCT02228460|184748357|OTHER|||||||0.3173||||||Threshold for significance at 0.05 level.|McNemar Test|||A McNemar test was used to test the treatment effect based on paired pre-treatment and post-treatment (Week 26) frequencies of skin GL-3 score grouped into the categories (0 to \<2; 2 to 3).||||0.3173
92430464|NCT02228460|184748358|OTHER|||||||0.625||||||Threshold for significance at 0.05 level.|Wilcoxon signed rank test|||Wilcoxon signed rank test was used to assess the mean change from Baseline to Week 26 in skin GL-3 score.||||0.625
92237218|NCT01097616|184378606|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-5.7||||0.00609|TWO_SIDED|95.0|-9.7|-1.6|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Week 1 sTSOm, had planned marginal power of 99.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-1.6|-9.7|0.00609
92237219|NCT01097616|184378607|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-5.4||||0.05191|TWO_SIDED|95.0|-10.9|0.0|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||0.0|-10.9|0.05191
92279672|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.149||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.1490
92279673|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.559||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.5590
92279674|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.4796||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.4796
92430465|NCT01010061|184748397|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.16|0.28||Type I error controlled through closed test procedure.|Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.28|0.16|<0.0001
92430466|NCT01010061|184748399|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.14|0.27|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.27|0.14|<0.0001
92430467|NCT01010061|184748402|SUPERIORITY||Difference in Response Rates|45.1|||<|0.0001|TWO_SIDED|95.0|34.7|55.5|||Chi-squared|||Includes subjects with best overall response: CR, CRi, PR or nPR.||55.5|34.7|< 0.0001
92430468|NCT01010061|184748403|SUPERIORITY||Hazard Ratio (HR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.15|0.26|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.26|0.15|<0.0001
92430469|NCT01010061|184748404|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0196|TWO_SIDED|95.0|0.49|0.94|||Log Rank, Stratified|||||0.94|0.49|0.0196
92430470|NCT01010061|184748405|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.19|||<|0.0001|TWO_SIDED|95.0|0.13|0.28|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.28|0.13|<0.0001
92430471|NCT01010061|184748407|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.25|||<|0.0001|TWO_SIDED|95.0|0.19|0.35|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.35|0.19|<0.0001
92430472|NCT03066804|184748411|SUPERIORITY||Geometric Mean Ratio|0.8362|||<|0.0001|TWO_SIDED|95.0|0.7987|0.8754|||Mixed Models Analysis|||Week 12||0.8754|0.7987|<0.0001
92430473|NCT03066804|184748412|SUPERIORITY||Mean Difference (Net)|-2.4985||||0.4164|TWO_SIDED|95.0|-8.5267|3.52297|||Mixed Models Analysis|||||3.52297|-8.5267|0.4164
92430474|NCT03066804|184748413|SUPERIORITY||Mean Difference (Net)|0.5231||||0.4791|TWO_SIDED|95.0|-0.9258|1.972|||Mixed Models Analysis|||||1.9720|-0.9258|0.4791
92430475|NCT03066804|184748414|SUPERIORITY||Odds Ratio (OR)|0.8993||||0.5294|TWO_SIDED|95.0|0.6461|1.2518|||longitudinal binary logistic regression|||||1.2518|0.6461|0.5294
92430476|NCT03066804|184748415|SUPERIORITY||Odds Ratio (OR)|1.106||||0.4938|TWO_SIDED|95.0|0.8287|1.476|||longitudinal binary logistic regression|||||1.4760|0.8287|0.4938
92430477|NCT03066804|184748416|SUPERIORITY||Odds Ratio (OR)|0.9798||||0.8314|TWO_SIDED|95.0|0.8122|1.182|||Proportional cumulative odds model|||||1.1820|0.8122|0.8314
92430478|NCT03066804|184748417|SUPERIORITY||Mean Difference (Net)|-0.157||||0.637||95.0|-0.8093|0.4953|||Mixed Models Analysis|||||0.4953|-0.8093|0.6370
92430479|NCT00740831|184748418|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority analysis based on the use of one-sided confidence intervals, using 2.5% level of statistical significance.|Difference in proportions|1.2|||||ONE_SIDED|97.5|-9.3||||||Newcombe-Wilson method for CI. Percentage in A minus percentage in C needed to be greater than non-inferiority margin of -20%.|As comparison involved two doses of PGL4001 vs GnRH-agonist, Bonferroni correction used to adjust confidence intervals.|||-9.3|
92430480|NCT00740831|184748418|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority analysis based on the use of one-sided confidence intervals, using 2.5% level of statistical significance.|Difference in proportions|8.8|||||ONE_SIDED|97.5|0.4||||||Newcombe-Wilson method for CI. Percentage in B minus percentage in C needed to be greater than non-inferiority margin of -20%.|As comparison involved two doses of PGL4001 vs GnRH-agonist, Bonferroni correction used to adjust confidence intervals.|||0.4|
92430481|NCT00740831|184748419|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Mean Difference (Final Values)|0.089|||||TWO_SIDED|95.0|-0.003|0.181||No p-values generated|ANCOVA|Analysis of covariance after log transformation of the data|As comparison of 2 doses of PGL4001 vs GnRH-agonist, Bonneferroni correction used to adjust confidence intervals|||0.181|-0.003|
92430482|NCT00740831|184748419|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Mean Difference (Final Values)|0.049|||||TWO_SIDED|95.0|-0.043|0.14||No p-values generated|ANCOVA|Analysis of covariance after log transformation of the data|As comparison of 2 doses of PGL4001 vs GnRH-agonist, Bonneferroni correction used to adjust confidence intervals|||0.14|-0.043|
92430483|NCT00740831|184748420|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.3|||<|0.001|TWO_SIDED|95.0|-40.6|-14.6||Since comparisons of 2 doses of ulipristal acetate vs GnRH-agonist, Bonferroni correction was used, p values were doubled (p-value threshold was 0.05) and CI adjusted|Cochran-Mantel-Haenszel|Analysed via Cochran-Mantel-Haenszel test, controlling for strata||||-14.6|-40.6|<0.001
92430484|NCT00740831|184748420|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.9|||<|0.001|TWO_SIDED|95.0|-42.0|-16.6||Since comparisons of 2 doses of ulipristal acetate vs GnRH-agonist, Bonferroni correction was used, p values were doubled (p-value threshold was 0.05) and CI adjusted|Cochran-Mantel-Haenszel|Analysed via Cochran-Mantel-Haenszel test, controlling for strata||||-16.6|-42.0|<0.001
92430485|NCT00740831|184748421|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.3|||<|0.001|TWO_SIDED|95.0|-40.6|-14.6||Since planned analyses involved comparisons of 2 doses of PGL4001 vs GnRH-agonist, a Bonferroni correction was used and p values were doubled (p-value threshold was 0.05) and confidence intervals were similarly adjusted|Cochran-Mantel-Haenszel|Analysed via a Cochran-Mantel-Haenszel test, controlling for strata||||-14.6|-40.6|<0.001
92430486|NCT00740831|184748421|SUPERIORITY_OR_OTHER||Median Difference (Net)|-29.9|||<|0.001|TWO_SIDED|95.0|-42.0|-16.6||Since planned analyses involved comparisons of 2 doses of PGL4001 vs GnRH-agonist, a Bonferroni correction was used and p values were doubled (p-value threshold was 0.05) and confidence intervals were similarly adjusted|Cochran-Mantel-Haenszel|Analysed via a Cochran-Mantel-Haenszel test, controlling for strata||||-16.6|-42.0|<0.001
92430487|NCT00730132|184748427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||Pearson Chi-Square|||Significance of the differences in the number of patients per group who achieved goal TC levels on Visit 2.||||0.007
92430488|NCT00730132|184748428|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Chi square, continuity corrected. Asymptotic significance.|McNemar|||Significance of paired changes in the number of patients who achieved LDL-C target levels on Visit 2, for each treatment group comparison||||<0.001
92430489|NCT00730132|184748429|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.757|STANDARD_DEVIATION|12.30606||||95.0||||||||Descriptive statistics of relative (%) change in TC levels from Baseline at Visit 2||||
92430490|NCT00730132|184748429|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|20.0|STANDARD_DEVIATION|15.662||||95.0||||||||Descriptive statistics of relative (%) change in TC from baseline at Visit 2||||
92430491|NCT00730132|184748429|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.8181|STANDARD_DEVIATION|14.03545||||95.0||||||||Descriptive statistics of relative (%) change in TC from baseline at Visit 2||||
92430492|NCT00730132|184748429|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.80928|STANDARD_ERROR_OF_MEAN|1.48621||0.143|TWO_SIDED|95.0|-6.307|0.6884|||Games-Howell|||Statin Dose Titration compared to New Statin||.6884|-6.3070|.143
92430493|NCT00730132|184748429|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.74811|STANDARD_ERROR_OF_MEAN|1.56351||0.001|TWO_SIDED|95.0|-9.4298|-2.0664|||Games-Howell|||Statin Dose Titration compared to Ezetimbe||-2.0664|-9.4298|.001
92430494|NCT00730132|184748429|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.93883|STANDARD_ERROR_OF_MEAN|1.38286||0.086|TWO_SIDED|95.0|-6.1948|0.3171|||Games-Howell|||New Statin compared to Ezetimibe||.3171|-6.1948|.086
92430495|NCT00730132|184748430|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|26.8174|STANDARD_DEVIATION|19.85205||||95.0||||||||Descriptive statistics of relative (%) change in LDL-C levels by the end of the study (Visit 2) compared to Baseline (Visit 1)||||
92430496|NCT00730132|184748430|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|28.2488|STANDARD_DEVIATION|20.78727||||95.0||||||||Descriptive statistics of relative (%) change in LDL-C levels by the end of the study (Visit 2) compared to Baseline (Visit 1)||||
92430497|NCT00730132|184748430|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|32.0665|STANDARD_DEVIATION|15.5901||||95.0||||||||Descriptive statistics of relative (%) change in LDL-C levels by the end of the study (Visit 2) compared to Baseline (Visit 1)||||
92430498|NCT00730132|184748430|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.43138|STANDARD_ERROR_OF_MEAN|2.01009||0.756|TWO_SIDED|95.0|-6.1604|3.2977|||Games-Howell|||Statin Dose Titration compared to New Statin||3.2977|-6.1604|.756
92430499|NCT00730132|184748430|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.24911|STANDARD_ERROR_OF_MEAN|1.97821||0.023|TWO_SIDED|95.0|-9.9072|-0.591|||Games-Howell|||Statin Dose Titration compared to Ezetimibe||-.5910|-9.9072|.023
92430500|NCT00730132|184748430|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.81773|STANDARD_ERROR_OF_MEAN|1.88425||0.107|TWO_SIDED|95.0|-8.2523|0.6169|||Games-Howell|||New Statin compared to Ezetimibe||.6169|-8.2523|.107
92430501|NCT03982368|184748431|SUPERIORITY||least square mean difference|0.93||||0.078|TWO_SIDED|95.0|-1.47|3.32|||ANOVA|||The primary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.||3.32|-1.47|0.078
92430502|NCT03982368|184748431|SUPERIORITY||least square mean difference|2.31||||0.066|TWO_SIDED|95.0|-0.08|4.7|||ANOVA|||The primary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.||4.70|-0.08|0.066
92430503|NCT03982368|184748432|SUPERIORITY||Least square mean difference|1.71||||0.032|TWO_SIDED|95.0|-0.7|4.12|||ANOVA|||||4.12|-0.70|0.032
92430504|NCT03982368|184748432|SUPERIORITY||Least square mean difference|2.44||||0.029|TWO_SIDED|95.0|0.02|4.86|||ANOVA|||||4.86|0.02|0.029
92430505|NCT03982368|184748433|SUPERIORITY|||||||0.534|||||||t-test, 2 sided|||||||0.534
92430506|NCT03982368|184748433|SUPERIORITY|||||||0.611|||||||t-test, 2 sided|||||||0.611
92430507|NCT03982368|184748434|SUPERIORITY|||||||0.486|||||||t-test, 2 sided|||||||0.486
92430508|NCT03982368|184748434|SUPERIORITY|||||||0.564|||||||t-test, 2 sided|||||||0.564
92430509|NCT03982368|184748436|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||||||0.810
92430510|NCT03982368|184748436|SUPERIORITY|||||||0.733|||||||t-test, 2 sided|||||||0.733
92430511|NCT03982368|184748437|SUPERIORITY||Least square mean difference|1.97||||0.025|TWO_SIDED|95.0|-0.19|4.13|||ANOVA|||The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.||4.13|-0.19|0.025
92430512|NCT03982368|184748437|SUPERIORITY||Least square mean difference|0.68||||0.243|TWO_SIDED|95.0|-1.48|2.83|||ANOVA|||The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.||2.83|-1.48|0.243
92237220|NCT01097616|184378608|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-5.2||||0.03771|TWO_SIDED|95.0|-10.2|-0.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-0.3|-10.2|0.03771
92170953|NCT03398148|184230809|SUPERIORITY||Least Squares (LS) Mean Difference|-0.981|||<|0.0001|TWO_SIDED|95.0|-1.3285|-0.6326||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Mixed-Effect Model Repeated Measures||Between-group diff. and 95% CI calculated using ANCOVA/MMRM with RTB-MI for continuous endpoints.|||-0.6326|-1.3285|<0.0001
92170954|NCT01259401|184230810|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED||||||ANCOVA|||||||.04
92237221|NCT01097616|184378611|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-9.6||||0.00041|TWO_SIDED|95.0|-14.9|-4.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance and sleep onset endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either the subjective or objective Month 3 endpoint must be significant to test the Week 1/Night 1 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-4.3|-14.9|0.00041
92237222|NCT01097616|184378611|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-10.3||||2e-05|TWO_SIDED|95.0|-15.0|-5.5|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Night 1 LPS, had planned marginal power of 100.0%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-5.5|-15.0|0.00002
92237223|NCT01097616|184378612|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-10.3||||0.0004|TWO_SIDED|95.0|-16.0|-4.6|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-4.6|-16.0|0.00040
92237224|NCT01097616|184378613|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-8.1||||0.00606|TWO_SIDED|95.0|-13.8|-2.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-2.3|-13.8|0.00606
92237225|NCT02927171|184378618|OTHER|||||||0.17|||||||t-test, 1 sided|||||||0.17
92237226|NCT02677701|184378621|SUPERIORITY||Mean Difference (Net)|3.44||||0.0846|TWO_SIDED|95.0|-0.48|7.35|||Regression, Linear|Adjusted for baseline: ppFEV1 (25%-50%, \>50%-75%, \>75%), azithromycin use (current vs. non-current), inhaled tobramycin type (powder vs. solution).||||7.35|-0.48|0.0846
92237227|NCT02677701|184378622|SUPERIORITY||Mean Difference (Net)|1.31||||0.51|TWO_SIDED|95.0|-2.64|5.26|||Regression, Linear|Adjusted for baseline: ppFEV1 (25%-50%, \>50%-75%, \>75%), azithromycin use (current vs. non-current), inhaled tobramycin type (powder vs. solution).||||5.26|-2.64|0.51
92237228|NCT02677701|184378623|SUPERIORITY||Mean Difference (Net)|-2.89||||0.17|TWO_SIDED|95.0|-7.01|1.22|||Regression, Linear|Adjusted for baseline: ppFEV1 (25%-50%, \>50%-75%, \>75%), azithromycin use (current vs. non-current), inhaled tobramycin type (powder vs. solution).||||1.22|-7.01|0.17
92430513|NCT03982368|184748438|SUPERIORITY||Least square mean difference|2.41||||0.007|TWO_SIDED|95.0|0.28|4.54|||ANOVA|||||4.54|0.28|0.007
92430514|NCT03982368|184748438|SUPERIORITY||Least square mean difference|0.71||||0.23|TWO_SIDED|95.0|-1.43|2.85|||ANOVA|||||2.85|-1.43|0.230
92430515|NCT03982368|184748439|SUPERIORITY||Least square mean difference|-1.16||||0.799|TWO_SIDED|95.0|-3.11|0.8|||ANOVA|Last Observation Carried Forward (LOCF) was used for imputing missing data in the Full analysis set at Week 4.||"The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.~p value for total corneal ancd conjunctival score is reported."||0.80|-3.11|0.799
92430516|NCT03982368|184748439|SUPERIORITY||Least square mean difference|-0.36||||0.715|TWO_SIDED|95.0|-2.3|1.59|||ANOVA|||The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.||1.59|-2.30|0.715
92430517|NCT03982368|184748440|SUPERIORITY||Least square mean difference|-1.54||||0.831|TWO_SIDED|95.0|-3.4|0.31|||ANOVA|||"The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.~p value for total corneal ancd conjunctival score is reported."||0.31|-3.40|0.831
92170955|NCT01259401|184230811|SUPERIORITY_OR_OTHER_LEGACY|||||||0.061|TWO_SIDED||||||ANCOVA|||||||.061
92279675|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.2794||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.2794
92279676|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1646||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.1646
92279677|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.0782||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.0782
92279678|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1407||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.1407
92279679|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.2369||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.2369
92279680|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.7756||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.7756
92279681|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.2623||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.2623
92279682|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3147||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.3147
92279683|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.2885||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.2885
92279684|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.7187||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.7187
92430518|NCT03982368|184748440|SUPERIORITY||Least square mean difference|-0.21||||0.75|TWO_SIDED|95.0|-2.07|1.66|||ANOVA|||"The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.~p value for total corneal ancd conjunctival score is reported."||1.66|-2.07|0.750
92279685|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.6017||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.6017
92279686|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.4500
92279687|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.0952||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.0952
92279688|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.7069||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.7069
92279689|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.4767||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.4767
92279690|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.6191||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.6191
92279691|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.5276||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.5276
92279692|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3323||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.3323
92279693|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1025||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.1025
92430519|NCT03982368|184748441|SUPERIORITY||Least square mean difference|0.96||||0.004|TWO_SIDED|95.0|0.17|1.75|||ANOVA|||||1.75|0.17|0.004
92430520|NCT03982368|184748441|SUPERIORITY||Least square mean difference|0.28||||0.217|TWO_SIDED|95.0|-0.51|1.07|||ANOVA|||||1.07|-0.51|0.217
92430521|NCT03982368|184748442|SUPERIORITY||Least square mean difference|0.92||||0.007|TWO_SIDED|95.0|0.1|1.74|||ANOVA|||||1.74|0.10|0.007
92430522|NCT03982368|184748442|SUPERIORITY||Least square mean difference|0.28||||0.225|TWO_SIDED|95.0|-0.54|1.1|||ANOVA|||||1.10|-0.54|0.225
92430523|NCT03982368|184748443|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.680
92430524|NCT03982368|184748443|SUPERIORITY|||||||0.066|||||||t-test, 2 sided|||||||0.066
92237229|NCT02677701|184378624|SUPERIORITY||Mean Difference (Net)|1.53||||0.56|TWO_SIDED|95.0|-3.7|6.77||Adjusted for baseline: ppFEV1 (25%-50%, \>50%-75%, \>75%), azithromycin use (current vs. non-current), inhaled tobramycin type (powder vs. solution).|Regression, Linear|||||6.77|-3.70|0.56
92237230|NCT02677701|184378625|SUPERIORITY||Mean Difference (Net)|0.75||||0.043|TWO_SIDED|95.0|0.03|1.47||Adjusted for baseline: ppFEV1 (25%-50%, \>50%-75%, \>75%), azithromycin use (current vs. non-current), inhaled tobramycin type (powder vs. solution).|Regression, Linear|||||1.47|0.03|0.043
92237231|NCT01214434|184378777|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Chi-squared|||||||>0.05
92237232|NCT01214434|184378779|SUPERIORITY_OR_OTHER||||||=|0.03||95.0|||||t-test, 2 sided|||||||=0.03
92237233|NCT01214434|184378780|SUPERIORITY_OR_OTHER||||||=|0.6||95.0|||||t-test, 2 sided|||||||=0.6
92237234|NCT01214434|184378781|SUPERIORITY_OR_OTHER||||||=|0.24||95.0|||||t-test, 2 sided|||||||=.24
92237235|NCT01214434|184378782|SUPERIORITY_OR_OTHER||||||=|0.8||95.0|||||t-test, 2 sided|||||||=0.8
92237236|NCT01832961|184378834|OTHER||||||<|0.05|||||||Friedman's Test|Friedman's test followed by Dunn's multiple comparison||The statistical analysis compared the results: immediately after to baseline values, after 20 minutes of rest to baseline values and after 20 minutes of rest to values immediately after using Friedman's Test followed by Dunn's multiple comparison test|The effect of size used to calculate responsiveness and classified as small (0.2), moderate (0.5) and large (0.8).|||<0.05
92237237|NCT01832961|184378835|OTHER||||||<|0.05|||||||Friedman's Test|||The statistical analysis compared the results: immediately after to baseline values, after 20 minutes of rest to baseline values and after 20 minutes of rest to values immediately after using Friedman's Test followed by Dunn's multiple comparison test|The effect size was used to calculate responsiveness and classifed as small (0.2), moderate (0.5) and large (0.8)|||<0.05
92237238|NCT01832961|184378836|OTHER||||||<|0.05|||||||Friedman's Test|||The statistical analysis compared the results: immediately after to baseline values, after 20 minutes of rest to baseline values and after 20 minutes of rest to values immediately after using Friedman's Test followed by Dunn's multiple comparison test|The effect size was used to calculate responsiveness and classifed as small (0.2), moderate (0.5) and large (0.8)|||<0.05
92237239|NCT01832961|184378837|OTHER||||||<|0.05|||||||T-test|T-test was used to comparisons before and after FeNO results||||||<0.05
92237240|NCT01832961|184378838|OTHER||||||<|0.05|||||||T-test|||||||<0.05
92237241|NCT00394914|184378862|SUPERIORITY_OR_OTHER|||||||0.973|||||||Cochran-Mantel-Haenszel|||||||0.973
92237242|NCT00394914|184378863|SUPERIORITY_OR_OTHER|||||||0.425|||||||Cochran-Mantel-Haenszel|||||||0.425
92237243|NCT02099799|184378876|SUPERIORITY||Mean Difference (Final Values)|-12.0||||0.189|TWO_SIDED||||||Mixed Models Analysis|||||||0.189
92237244|NCT02099799|184378877|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.572|TWO_SIDED||||||Mixed Models Analysis|||||||0.572
92237245|NCT02099799|184378878|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.799|TWO_SIDED||||||Mixed Models Analysis|||||||0.799
92237246|NCT02099799|184378879|SUPERIORITY||Mean Difference (Final Values)|1312.0|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92237247|NCT02099799|184378880|SUPERIORITY|||||||0.2265|||||||t-test, 2 sided|||||||0.2265
92430525|NCT03982368|184748444|SUPERIORITY|||||||0.097|||||||Chi-squared|||||||0.097
92430526|NCT03982368|184748444|SUPERIORITY|||||||0.076|||||||Chi-squared|||||||0.076
92237248|NCT02099799|184378881|SUPERIORITY|||||||0.8897|||||||t-test, 2 sided|||||||0.8897
92237249|NCT00465738|184378882|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% Newcombe-Wilson confidence interval for the difference between the response rates of the groups was calculated. The lower bound of the Newcombe-Wilson CI for the difference of proportions was compared to the non-inferiority margin of -25%.|difference in response rates|10.6|||||TWO_SIDED|95.0|-4.4|24.9|||||difference in response rates = response rate for high volume dilution group (20 U/ml) - response rate for low volume dilution group (50 U/ml)|Null hypothesis: The response rate for the low volume dilution group (50 U/ml) is greater than the response rate for the high volume dilution group (20 U/ml).||24.9|-4.4|
92237250|NCT02961764|184378951|SUPERIORITY||Odds Ratio (OR)|0.289|||<|0.001|TWO_SIDED|95.0|0.156|0.532|||Fisher Exact|||||0.532|0.156|<0.001
92237251|NCT02961764|184378952|SUPERIORITY|||||||0.005|||||||t-test, 1 sided|||||||0.005
92237252|NCT02961764|184378953|SUPERIORITY|||||||0.05|||||||t-test, 1 sided|||||||0.050
92430527|NCT03982368|184748445|SUPERIORITY||Least square mean difference|16.4||||0.289|TWO_SIDED|95.0|12.0|20.8|||ANOVA|||Daily Activity Limitations - change from baseline to week 4||20.8|12.0|0.289
92237253|NCT02961764|184378955|SUPERIORITY|||||||0.002|||||||t-test, 1 sided|||||||0.002
92237254|NCT02160977|184379012|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92237255|NCT02160977|184379013|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92237256|NCT02160977|184379014|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92237257|NCT03551522|184379015|OTHER|The LS Means, confidence intervals, and p-values come from an ANCOVA model with relative (percent) change from baseline as the dependent variable and treatment and stratification groups (diabetic status and fibrosis stage) as factors and baseline as a covariate.|LS Mean of Difference|11.02||||0.0874|TWO_SIDED|95.0|-1.63|23.67|||ANCOVA|||||23.67|-1.63|0.0874
92237258|NCT03551522|184379015|OTHER|The LS Means, confidence intervals, and p-values come from an ANCOVA model with relative (percent) change from baseline as the dependent variable and treatment and stratification groups (diabetic status and fibrosis stage) as factors and baseline as a covariate.|LS Mean of Difference|6.54||||0.3151|TWO_SIDED|95.0|-6.28|19.37|||ANCOVA|||||19.37|-6.28|0.3151
92237259|NCT03551522|184379015|OTHER|The LS Means, confidence intervals, and p-values come from an ANCOVA model with relative (percent) change from baseline as the dependent variable and treatment and stratification groups (diabetic status and fibrosis stage) as factors and baseline as a covariate.|LS Mean of Difference|7.78||||0.2313|TWO_SIDED|95.0|-5.01|20.58|||ANCOVA|||||20.58|-5.01|0.2313
92279694|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1715||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.1715
92430528|NCT03982368|184748445|SUPERIORITY||Least square mean difference|19.7||||0.032|TWO_SIDED|95.0|15.4|24.0|||ANOVA|||Daily Activity Limitations - change from baseline to week 4||24.0|15.4|0.032
92430529|NCT03982368|184748445|SUPERIORITY||Least square mean difference|16.4||||0.095|TWO_SIDED|95.0|11.9|20.8|||ANOVA|||Daily Activity Limitations - change to baseline to week 8||20.8|11.9|0.095
92279695|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.1070
92279696|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.2751||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.2751
92279697|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.0276||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.0276
92279698|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1689||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.1689
92279699|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.0769||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.0769
92279700|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1058||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.1058
92279701|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.6406||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.6406
92279702|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1733||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.1733
92279703|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.2631||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.2631
92279704|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.217||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.2170
92279705|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.0868||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.0868
92430530|NCT03982368|184748445|SUPERIORITY||Least square mean difference|14.5||||0.282|TWO_SIDED|95.0|10.1|18.8|||ANOVA|||Daily Activity Limitations - change from baseline to week 8||18.8|10.1|0.282
92430531|NCT03982368|184748445|SUPERIORITY||Least square mean difference|15.0||||0.169|TWO_SIDED|95.0|10.6|19.4|||ANOVA|||Daily Activity Limitations - change from baseline to week 12||19.4|10.6|0.169
92430532|NCT03982368|184748445|SUPERIORITY||Least square mean difference|15.4||||0.129|TWO_SIDED|95.0|11.1|19.7|||ANOVA|||Daily Activity Limitations - change from baseline to week 12||19.7|11.1|0.129
92430533|NCT03982368|184748445|SUPERIORITY||Least square mean difference|14.0||||0.111|TWO_SIDED|95.0|9.7|18.4|||ANOVA|||Daily Activity Limitations - change from baseline to week 16||18.4|9.7|0.111
92430534|NCT03982368|184748445|SUPERIORITY||Least square mean difference|14.0||||0.107|TWO_SIDED|95.0|9.7|18.3|||ANOVA|||Daily Activity Limitations - change from baseline to week 16||18.3|9.7|0.107
92430535|NCT03982368|184748445|SUPERIORITY||Least square mean difference|14.3||||0.827|TWO_SIDED|95.0|9.7|18.9|||ANOVA|||Emotional Well-Being - change from baseline to week 4||18.9|9.7|0.827
92279706|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1117||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.1117
92279707|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.4943||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 (208601\_s\_at)||||0.4943
92279708|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.519||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 208601\_s\_at||||0.5190
92279709|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.735||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 208601\_s\_at||||0.7350
92279710|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.3820
92430536|NCT03982368|184748445|SUPERIORITY||Least square mean difference|16.3||||0.688|TWO_SIDED|95.0|11.8|20.8|||ANOVA|||Emotional Well-Being - change from baseline to week 4||20.8|11.8|0.688
92430537|NCT03982368|184748445|SUPERIORITY||Least square mean difference|15.7||||0.324|TWO_SIDED|95.0|11.4|20.0|||ANOVA|||Emotional Well-Being - change from baseline to week 8||20.0|11.4|0.324
92430538|NCT03982368|184748445|SUPERIORITY||Least square mean difference|12.9||||0.949|TWO_SIDED|95.0|8.7|17.1|||ANOVA|||Emotional Well-Being - change from baseline to week 8||17.1|8.7|0.949
92430539|NCT03982368|184748445|SUPERIORITY||Least square mean difference|15.7||||0.927|TWO_SIDED|95.0|11.4|20.1|||ANOVA|||Emotional Well-Being - change from baseline to week 12||20.1|11.4|0.927
92279711|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.929||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.9290
92279712|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.0699||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.0699
92279713|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3515||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.3515
92279714|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.2128||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.2128
92279715|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1275||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.1275
92279716|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.2158||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.2158
92279717|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.0266||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.0266
92279718|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3636||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.3636
92279719|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.9479||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.9479
92279720|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3753||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.3753
92279721|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.5477||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.5477
92279722|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.476||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.4760
92279723|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3314||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.3314
92279724|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.1005||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.1005
92430540|NCT03982368|184748445|SUPERIORITY||Least square mean difference|14.8||||0.776|TWO_SIDED|95.0|10.8|18.8|||ANOVA|||Emotional Well-Being - change from baseline to week 12||18.8|10.8|0.776
92430541|NCT03982368|184748445|SUPERIORITY||Least square mean difference|15.7||||0.418|TWO_SIDED|95.0|11.4|20.1|||ANOVA|||Emotional Well-Being - change from baseline to week 16||20.1|11.4|0.418
92430542|NCT03982368|184748445|SUPERIORITY||Least square mean difference|14.8||||0.613|TWO_SIDED|95.0|10.6|19.0|||ANOVA|||Emotional Well-Being - change from baseline to week 16||19.0|10.6|0.613
92279725|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.118||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.1180
92279726|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.158||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.1580
92279727|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.4385||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.4385
92279728|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.7324||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.7324
92279729|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.2657||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.2657
92279730|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.5637||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.5637
92430543|NCT03982368|184748445|SUPERIORITY||Least square mean difference|15.8||||0.721|TWO_SIDED|95.0|8.3|23.2|||ANOVA|||Work Limitations - change from baseline to week 4||23.2|8.3|0.721
92279731|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.4473||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.4473
92237260|NCT05136885|184379024|SUPERIORITY||Disease Rate Ratio|0.87|STANDARD_DEVIATION|0.111|||TWO_SIDED|95.0|0.665|1.102||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. (Trehalose) slowed progression) was (0.8772). NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by Trehalose relative to placebo.Note: reported Confidence Interval is actually a Bayesian credible interval."||The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality. The model includes covariates for baseline use of edaravone, baseline use of riluzole, baseline use of Relyvrio, months since onset of symptoms, and pre-baseline slope of ALSFRS-R, serum NfL concentration and random effects for regimen and participant-specific slopes.|1.102|0.665|
92237261|NCT05136885|184379026|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|1.79||0.7607|TWO_SIDED|95.0|-4.06|2.97|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, pre-baseline ALSFRS-R slope, and baseline log-transformed NfL.|Trehalose 24-week change from baseline relative to placebo 24-week change from baseline.|||2.97|-4.06|0.7607
92237262|NCT05136885|184379027|SUPERIORITY||Mean Difference (Net)|0.92|STANDARD_ERROR_OF_MEAN|3.204||0.7737|TWO_SIDED|95.0|-5.37|7.21|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, pre-baseline ALSFRS-R slope, and baseline log-transformed NfL.|Trehalose 24-week change from baseline relative to placebo 24-week change from baseline.|||7.21|-5.37|0.7737
92237263|NCT05136885|184379028|SUPERIORITY|||||||0.2137|||||||Log Rank|||||||0.2137
92237264|NCT00128206|184379038|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.51|||>|0.05||95.0|0.13|2.01|||Chi-squared|||The null hypothesis was that there would be no difference in toxicity by study group, and a sample of 360 participants (180 in each group)was estimated to have sufficient power to detect a difference.||2.01|.13|>.05
92237265|NCT00408421|184379053|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for treatment effect at last visit. Effects evaluated based on 2-sided significance level=0.05. Model: treatment, NSAID use, investigator, week, treatment-by-week interaction, baseline score and baseline-by-week interaction.|Mixed-Effects Model Repeated Measures|No adjustments for multiple comparisons were made.||Null hypothesis: the difference in 24-hour average pain score between duloxetine and placebo treatment groups at last visit of treatment phase is zero. This study will have at least 80% power to detect a treatment group difference of 1.0 point in the baseline-to-endpoint mean change on the weekly mean of 24-hour average pain severity between duloxetine and placebo treatment groups based on Baseline Observation Carried Forward (BOCF).||||<0.001
92430544|NCT03982368|184748445|SUPERIORITY||Least square mean difference|20.6||||0.558|TWO_SIDED|95.0|13.1|28.0|||ANOVA|||Work Limitations - change from baseline to week 4||28.0|13.1|0.558
92237266|NCT00408421|184379054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53||||0.001||95.0|-0.84|-0.21||Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made.|ANCOVA|||An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), PGI severity at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean outcome measure at endpoint.||-0.21|-0.84|0.001
92237267|NCT00408421|184379055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.41||||0.003||95.0|-2.33|-0.48||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-Baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.48|-2.33|0.003
92237268|NCT00408421|184379056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.65||||0.004||95.0|-1.09|-0.22||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-Baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.22|-1.09|0.004
92237269|NCT00408421|184379057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.18||||0.001||95.0|-8.33|-2.03||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-Baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-2.03|-8.33|0.001
92279732|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3292||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.3292
92430545|NCT03982368|184748445|SUPERIORITY||Least square mean difference|18.4||||0.809|TWO_SIDED|95.0|11.5|25.3|||ANOVA|||Work Limitations - change from baseline to week 8||25.3|11.5|0.809
92279733|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.2054||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.2054
92430546|NCT03982368|184748445|SUPERIORITY||Least square mean difference|19.4||||0.651|TWO_SIDED|95.0|12.4|26.4|||ANOVA|||Work Limitations - change from baseline to week 8||26.4|12.4|0.651
92430547|NCT03982368|184748445|SUPERIORITY||Least square mean difference|16.4||||0.769|TWO_SIDED|95.0|9.5|23.3|||ANOVA|||Work Limitations - change from baseline to week 12||23.3|9.5|0.769
92279734|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.5226||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.5226
92279735|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.172||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.1720
92430548|NCT03982368|184748445|SUPERIORITY||Least square mean difference|21.3||||0.454|TWO_SIDED|95.0|14.3|28.3|||ANOVA|||Work Limitations - change from baseline to week 12||28.3|14.3|0.454
92430549|NCT03982368|184748445|SUPERIORITY||Least square mean difference|18.3||||0.564|TWO_SIDED|95.0|11.6|25.0|||ANOVA|||Work Limitations - change from baseline to week 16||25.0|11.6|0.564
92430550|NCT03982368|184748445|SUPERIORITY||Least square mean difference|21.0||||0.25|TWO_SIDED|95.0|14.1|27.8|||ANOVA|||Work Limitations - change from baseline to week 16||27.8|14.1|0.250
92430551|NCT03982368|184748445|SUPERIORITY||Least square mean difference|23.9||||0.853|TWO_SIDED|95.0|15.6|32.2|||ANOVA|||Treatment Satisfaction - change from baseline to week 4||32.2|15.6|0.853
92430552|NCT03982368|184748445|SUPERIORITY||Least square mean difference|20.0||||0.393|TWO_SIDED|95.0|11.9|28.0|||ANOVA|||Treatment Satisfaction - change from baseline to week 4||28.0|11.9|0.393
92430553|NCT03982368|184748445|SUPERIORITY||Least square mean difference|27.9||||0.01|TWO_SIDED|95.0|20.2|35.6|||ANOVA|||Treatment Satisfaction - change from baseline to week 8||35.6|20.2|0.010
92430554|NCT03982368|184748445|SUPERIORITY||Least square mean difference|18.3||||0.395|TWO_SIDED|95.0|11.1|25.4|||ANOVA|||Treatment Satisfaction - change from baseline to week 8||25.4|11.1|0.395
92430555|NCT03982368|184748445|SUPERIORITY||Least square mean difference|24.8||||0.068|TWO_SIDED|95.0|17.1|32.4|||ANOVA|||Treatment Satisfaction - change from baseline to week 12||32.4|17.1|0.068
92430556|NCT03982368|184748445|SUPERIORITY||Least square mean difference|19.3||||0.4|TWO_SIDED|95.0|12.2|26.4|||ANOVA|||Treatment Satisfaction - change from baseline to week 12||26.4|12.2|0.400
92430557|NCT03982368|184748445|SUPERIORITY||Least square mean difference|25.5||||0.021|TWO_SIDED|95.0|18.1|33.0|||ANOVA|||Treatment Satisfaction - change from baseline to week 16||33.0|18.1|0.021
92430558|NCT03982368|184748445|SUPERIORITY||Least square mean difference|23.1||||0.056|TWO_SIDED|95.0|16.1|30.0|||ANOVA|||Treatment Satisfaction - change from baseline to week 16||30.0|16.1|0.056
92430559|NCT03982368|184748445|SUPERIORITY||Least square mean difference|14.2||||0.981|TWO_SIDED|95.0|7.6|20.7|||ANOVA|||Treatment-Related Bother - change from baseline to week 4||20.7|7.6|0.981
92430560|NCT03982368|184748445|SUPERIORITY||Least square mean difference|17.0||||0.525|TWO_SIDED|95.0|11.1|22.9|||ANOVA|||Treatment-Related Bother - change from baseline to week 4||22.9|11.1|0.525
92430561|NCT03982368|184748445|SUPERIORITY||Least square mean difference|9.5||||0.356|TWO_SIDED|95.0|2.9|16.0|||ANOVA|||Treatment-Related Bother - change from baseline to week 8||16.0|2.9|0.356
92279736|NCT00455533|184462900|SUPERIORITY_OR_OTHER|||||||0.3346||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.3346
92430562|NCT03982368|184748445|SUPERIORITY||Least square mean difference|6.5||||0.771|TWO_SIDED|95.0|0.7|12.4|||ANOVA|||Treatment-Related Bother - change from baseline to week 8||12.4|0.7|0.771
92430563|NCT03982368|184748445|SUPERIORITY||Least square mean difference|8.7||||0.926|TWO_SIDED|95.0|2.0|15.5|||ANOVA|||Treatment-Related Bother - change from baseline to week 12||15.5|2.0|0.926
92430564|NCT03982368|184748445|SUPERIORITY||Least square mean difference|7.9||||0.778|TWO_SIDED|95.0|1.9|13.9|||ANOVA|||Treatment-Related Bother - change from baseline to week 12||13.9|1.9|0.778
92430565|NCT03982368|184748445|SUPERIORITY||Least square mean difference|10.0||||0.984|TWO_SIDED||||||ANOVA|||Treatment-Related Bother - change from baseline to week 16||||0.984
92430566|NCT03982368|184748445|SUPERIORITY||Least square mean difference|7.4||||0.514|TWO_SIDED|95.0|1.6|13.1|||ANOVA|||Treatment-Related Bother - change from baseline to week 16||13.1|1.6|0.514
92430567|NCT03982368|184748445|SUPERIORITY||Least square mean difference|-16.6||||0.985|TWO_SIDED|95.0|-20.4|-12.8|||ANOVA|||Symptom Bother - change from baseline to week 4||-12.8|-20.4|0.985
92430568|NCT03982368|184748445|SUPERIORITY||Least square mean difference|-17.8||||0.646|TWO_SIDED|95.0|-21.5|-14.0|||ANOVA|||Symptom Bother - change from baseline to week 4||-14.0|-21.5|0.646
92430569|NCT03982368|184748445|SUPERIORITY||Least square mean difference|-20.7||||0.007|TWO_SIDED|95.0|-24.5|-16.9|||ANOVA|||Symptom Bother - change from baseline to week 8||-16.9|-24.5|0.007
92430570|NCT03982368|184748445|SUPERIORITY||Least square mean difference|-16.2||||0.305|TWO_SIDED|95.0|-19.9|-12.5|||ANOVA|||Symptom Bother - change from baseline to week 8||-12.5|-19.9|0.305
92430571|NCT03982368|184748445|SUPERIORITY||Least square mean difference|-19.0||||0.015|TWO_SIDED|95.0|-22.7|-15.4|||ANOVA|||Symptom Bother - change from baseline to week 12||-15.4|-22.7|0.015
92430572|NCT03982368|184748445|SUPERIORITY||Least square mean difference|-18.0||||0.039|TWO_SIDED|95.0|-21.5|-14.4|||ANOVA|||Symptom Bother - change from baseline to week 12||-14.4|-21.5|0.039
92430573|NCT03982368|184748445|SUPERIORITY||Least square mean difference|-19.7||||0.001|TWO_SIDED|95.0|-23.3|-16.0|||ANOVA|||||-16.0|-23.3|0.001
92430574|NCT03982368|184748445|SUPERIORITY||Least square mean difference|-18.9||||0.002|TWO_SIDED|95.0|-22.4|-15.3|||ANOVA|||Symptom Bother - change from baseline to week 16||-15.3|-22.4|0.002
92430575|NCT03982368|184748446|SUPERIORITY||Least square mean difference|16.8||||0.241|TWO_SIDED|95.0|12.2|21.4|||ANOVA|||Daily Activity Limitations - change from baseline to week 4||21.4|12.2|0.241
92430576|NCT03982368|184748446|SUPERIORITY||Least square mean difference|19.7||||0.04|TWO_SIDED|95.0|15.1|24.4|||ANOVA|||Daily Activity Limitations - change from baseline to week 4||24.4|15.1|0.040
92430577|NCT03982368|184748446|SUPERIORITY||Least square mean difference|16.8||||0.097|TWO_SIDED|95.0|12.3|21.4|||ANOVA|||Daily Activity Limitations - change from baseline to week 8||21.4|12.3|0.097
92430578|NCT03982368|184748446|SUPERIORITY||Least square mean difference|15.3||||0.238|TWO_SIDED|95.0|10.7|19.9|||ANOVA|||Daily Activity Limitations - change from baseline to week 8||19.9|10.7|0.238
92170956|NCT05644002|184230822|OTHER||Mean Difference (Final Values)|2.06||||0.71|TWO_SIDED|95.0|-9.09|13.21||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress-induction Omax between the PTBT and Control conditions.||13.21|-9.09|.71
92170957|NCT05644002|184230822|OTHER||t-statistic|0.369|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 66||An independent-samples t-test was conducted to examine differences in post-stress induction Omax between the PTBT and Control conditions.||||
92170958|NCT05644002|184230822|OTHER||Hedge's g|0.09|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction Omax between the PTBT and Control conditions.||||
92239874|NCT03480282|184383688|OTHER|Because the observations were matched by the patient, we used the Wilcoxon signed-rank test, a nonparametric paired test|Mean Difference (Final Values)|2.5|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||This was a descriptive feasibility study.|This was an exploratory and descriptive study to learn if it was feasible to provide PCPs with their patients (aged 76-89) with information about their 10-year prognosis and engage in shared decision making around stopping screening. We measured among the 90 patients that the 45 PCPs saw whether their intentions to be screened declined after seeing their PCP.|This was a descriptive feasibility study.|||<0.001
92430579|NCT03982368|184748446|SUPERIORITY||Least square mean difference|16.5||||0.07|TWO_SIDED|95.0|12.0|20.9|||ANOVA|||Daily Activity Limitations - change from baseline to week 12||20.9|12.0|0.070
92430580|NCT03982368|184748446|SUPERIORITY||Least square mean difference|16.7||||0.058|TWO_SIDED|95.0|12.3|21.1|||ANOVA|||Daily Activity Limitations - change from baseline to week 12||21.1|12.3|0.058
92430581|NCT03982368|184748446|SUPERIORITY||Least square mean difference|13.7||||0.128|TWO_SIDED|95.0|9.3|18.1|||ANOVA|||Daily Activity Limitations - change from baseline to week 16||18.1|9.3|0.128
92430582|NCT03982368|184748446|SUPERIORITY||Least square mean difference|16.0||||0.024|TWO_SIDED|95.0|11.6|20.3|||ANOVA|||Daily Activity Limitations - change from baseline to week 16||20.3|11.6|0.024
92430583|NCT03982368|184748446|SUPERIORITY||Least square mean difference|15.2||||0.865|TWO_SIDED|95.0|10.4|20.1|||ANOVA|||Emotional Well-Being - change from baseline to week 4||20.1|10.4|0.865
92430584|NCT03982368|184748446|SUPERIORITY||Least square mean difference|17.3||||0.662|TWO_SIDED|95.0|12.4|22.2|||ANOVA|||Emotional Well-Being - change from baseline to week 4||22.2|12.4|0.662
92430585|NCT03982368|184748446|SUPERIORITY||Least square mean difference|16.7||||0.266|TWO_SIDED|95.0|12.2|21.1|||ANOVA|||Emotional Well-Being - change from baseline to week 8||21.1|12.2|0.266
92430586|NCT03982368|184748446|SUPERIORITY||Least square mean difference|13.9||||0.824|TWO_SIDED|95.0|9.4|18.3|||ANOVA|||Emotional Well-Being - change from baseline to week 8||18.3|9.4|0.824
92430587|NCT03982368|184748446|SUPERIORITY||Least square mean difference|14.8||||0.883|TWO_SIDED|95.0|10.6|19.0|||ANOVA|||Emotional Well-Being - change from baseline to week 12||19.0|10.6|0.883
92430588|NCT03982368|184748446|SUPERIORITY||Least square mean difference|16.3||||0.516|TWO_SIDED|95.0|12.1|20.4|||ANOVA|||Emotional Well-Being - change from baseline to week 12||20.4|12.1|0.516
92430589|NCT03982368|184748446|SUPERIORITY|Emotional Well-Being - change from baseline to week 16|Least square mean difference|16.5||||0.407|TWO_SIDED|95.0|12.1|21.0|||ANOVA|||Emotional Well-Being - change from baseline to week 16||21.0|12.1|0.407
92430590|NCT03982368|184748446|SUPERIORITY||Least square mean difference|16.4||||0.422|TWO_SIDED|95.0|12.0|20.9|||ANOVA|||Emotional Well-Being - change from baseline to week 16||20.9|12.0|0.422
92430591|NCT03982368|184748446|SUPERIORITY||Least square mean difference|15.9||||0.615|TWO_SIDED|95.0|8.1|23.8|||ANOVA|||Work Limitations - change from baseline to week 4||23.8|8.1|0.615
92430592|NCT03982368|184748446|SUPERIORITY||Least square mean difference|21.3||||0.626|TWO_SIDED|95.0|13.3|29.2|||ANOVA|||Work Limitations - change from baseline to week 4||29.2|13.3|0.626
92430593|NCT03982368|184748446|SUPERIORITY||Least square mean difference|18.3||||0.968|TWO_SIDED|95.0|11.1|25.6|||ANOVA|||Work Limitations - change from baseline to week 8||25.6|11.1|0.968
92430594|NCT03982368|184748446|SUPERIORITY||Least square mean difference|20.1||||0.689|TWO_SIDED|95.0|12.8|27.4|||ANOVA|||||27.4|12.8|0.689
92430595|NCT03982368|184748446|SUPERIORITY||Least square mean difference|15.6||||0.528|TWO_SIDED|95.0|8.5|22.7|||ANOVA|||Work Limitations - change from baseline to week 12||22.7|8.5|0.528
92239875|NCT03480282|184383688|OTHER|This was a descriptive feasibility study.|Risk Difference (RD)|0.05|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This was a descriptive feasibility study.|Because the observations were matched by the patient, we used the Wilcoxon signed-rank test, a nonparametric paired test|||<0.001
92239876|NCT03848221|184383689|EQUIVALENCE|||||||0.3|||||||ANOVA|||||||0.30
92239877|NCT03848221|184383690|EQUIVALENCE|||||||0.0002|||||||ANOVA|||||||0.0002
92430596|NCT03982368|184748446|SUPERIORITY||Least square mean difference|23.0||||0.368|TWO_SIDED|95.0|15.8|30.1|||ANOVA|||Work Limitations - change from baseline to week 12||30.1|15.8|0.368
92430597|NCT03982368|184748446|SUPERIORITY||Least square mean difference|17.7||||0.764|TWO_SIDED|95.0|10.7|24.7|||ANOVA|||Work Limitations - change from baseline to week 16||24.7|10.7|0.764
92430598|NCT03982368|184748446|SUPERIORITY||Least square mean difference|22.6||||0.184|TWO_SIDED|95.0|15.5|29.6|||ANOVA|||Work Limitations - change from baseline to week 16||29.6|15.5|0.184
92430599|NCT03982368|184748446|SUPERIORITY||Least square mean difference|25.4||||0.909|TWO_SIDED|95.0|16.5|34.2|||ANOVA|||Treatment Satisfaction - change from baseline to week 4||34.2|16.5|0.909
92430600|NCT03982368|184748446|SUPERIORITY||Least square mean difference|21.1||||0.428|TWO_SIDED|95.0|12.2|30.0|||ANOVA|||Treatment Satisfaction - change from baseline to week 4||30.0|12.2|0.428
92430601|NCT03982368|184748446|SUPERIORITY||Least square mean difference|29.8||||0.008|TWO_SIDED|95.0|21.6|37.9|||ANOVA|||Treatment Satisfaction - change from baseline to week 8||37.9|21.6|0.008
92430602|NCT03982368|184748446|SUPERIORITY||Least square mean difference|21.3||||0.222|TWO_SIDED|95.0|13.5|29.2|||ANOVA|||Treatment Satisfaction - change from baseline to week 8||29.2|13.5|0.222
92430603|NCT03982368|184748446|SUPERIORITY||Least square mean difference|25.3||||0.082|TWO_SIDED|95.0|17.2|33.4|||ANOVA|||Treatment Satisfaction - change from baseline to week 12||33.4|17.2|0.082
92170959|NCT05644002|184230823|OTHER||Mean Difference (Final Values)|0.251||||0.53|TWO_SIDED|95.0|-0.543|1.046||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ cigarette satisfaction between the PTBT and Control conditions.||1.046|-.543|.530
92170960|NCT05644002|184230823|OTHER||t-statistic|0.631|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 73||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ cigarette satisfaction between the PTBT and Control conditions.||||
92170961|NCT05644002|184230823|OTHER||Hedge's g|0.14|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction mCEQ cigarette satisfaction between the PTBT and Control conditions.||||
92430604|NCT03982368|184748446|SUPERIORITY||Least square mean difference|23.3||||0.154|TWO_SIDED|95.0|15.6|31.1|||ANOVA|||Treatment Satisfaction - change from baseline to week 12||31.1|15.6|0.154
92237270|NCT00408421|184379058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.42||||0.004||95.0|-10.72|-2.11||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-Baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-2.11|-10.72|0.004
92237271|NCT00408421|184379059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.83||||0.005||95.0|-1.4|-0.25||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-Baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.25|-1.40|0.005
92237272|NCT00408421|184379060|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for treatment effect at last visit. Effects evaluated based on 2-sided significance level=0.05. Model: treatment, NSAID use, investigator, week, treatment-by-week interaction, baseline score and baseline-by-week interaction.|Mixed-Effects Model Repeated Measures|No adjustments for multiple comparisons were made.||||||<0.001
92237273|NCT00408421|184379061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87||||0.039||95.0|-1.69|-0.05||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.05|-1.69|0.039
92237274|NCT00408421|184379062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35||||0.001||95.0|-0.56|-0.14||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.14|-0.56|0.001
92237275|NCT00408421|184379063|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.06|||<|0.001||95.0|-1.66|-0.46||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.46|-1.66|<0.001
92237276|NCT00408421|184379064|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.76||||0.004||95.0|-1.28|-0.24||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.24|-1.28|0.004
92237277|NCT00408421|184379065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97|||<|0.001||95.0|-1.52|-0.42||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.42|-1.52|<0.001
92279737|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.5604||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 209993\_at||||0.5604
92279738|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2715||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 209993\_at||||0.2715
92279739|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.5268||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 209993\_at||||0.5268
92430605|NCT03982368|184748446|SUPERIORITY||Least square mean difference|25.8||||0.03|TWO_SIDED|95.0|18.0|33.6|||ANOVA|||Treatment Satisfaction - change from baseline to week 16||33.6|18.0|0.030
92430606|NCT03982368|184748446|SUPERIORITY||Least square mean difference|24.6||||0.046|TWO_SIDED|95.0|17.1|32.1|||ANOVA|||Treatment Satisfaction - change from baseline to week 16||32.1|17.1|0.046
92430607|NCT03982368|184748446|SUPERIORITY||Least square mean difference|15.4||||0.861|TWO_SIDED|95.0|8.6|22.2|||ANOVA|||Treatment-Related Bother - change from baseline to week 4||22.2|8.6|0.861
92430608|NCT03982368|184748446|SUPERIORITY||Least square mean difference|15.3||||0.865|TWO_SIDED|95.0|9.0|21.7|||ANOVA|||Treatment-Related Bother - change from baseline to week 4||21.7|9.0|0.865
92430609|NCT03982368|184748446|SUPERIORITY||Least square mean difference|10.5||||0.278|TWO_SIDED|95.0|3.6|17.3|||ANOVA|||Treatment-Related Bother - change from baseline to week 8||17.3|3.6|0.278
92430610|NCT03982368|184748446|SUPERIORITY||Least square mean difference|7.2||||0.689|TWO_SIDED|95.0|0.9|13.5|||ANOVA|||Treatment-Related Bother - change from baseline to week 8||13.5|0.9|0.689
92430611|NCT03982368|184748446|SUPERIORITY||Least square mean difference|9.1||||0.993|TWO_SIDED|95.0|2.1|16.2|||ANOVA|||Treatment-Related Bother - change from baseline to week 12||16.2|2.1|0.993
92430612|NCT03982368|184748446|SUPERIORITY||Least square mean difference|9.2||||0.989|TWO_SIDED|95.0|2.8|15.7|||ANOVA|||Treatment-Related Bother - change from baseline to week 12||15.7|2.8|0.989
92430613|NCT03982368|184748446|SUPERIORITY||Least square mean difference|10.4||||0.976|TWO_SIDED|95.0|3.7|17.0|||ANOVA|||Treatment-Related Bother - change from baseline to week 16||17.0|3.7|0.976
92430614|NCT03982368|184748446|SUPERIORITY||Least square mean difference|9.0||||0.778|TWO_SIDED|95.0|2.9|15.1|||ANOVA|||Treatment-Related Bother - change from baseline to week 16||15.1|2.9|0.778
92430615|NCT03982368|184748446|SUPERIORITY||Least square mean difference|-17.3||||0.964|TWO_SIDED|95.0|-21.2|-13.3|||ANOVA|||Symptom Bother - change from baseline to week 4||-13.3|-21.2|0.964
92430616|NCT03982368|184748446|SUPERIORITY||Least square mean difference|-18.7||||0.581|TWO_SIDED|95.0|-22.7|-14.7|||ANOVA|||Symptom Bother - change from baseline to week 4||-14.7|-22.7|0.581
92430617|NCT03982368|184748446|SUPERIORITY||Least square mean difference|-21.4||||0.006|TWO_SIDED|95.0|-25.2|-17.5|||ANOVA|||Symptom Bother - change from baseline to week 8||-17.5|-25.2|0.006
92430618|NCT03982368|184748446|SUPERIORITY||Least square mean difference|-17.6||||0.175|TWO_SIDED|95.0|-21.4|-13.7|||ANOVA|||Symptom Bother - change from baseline to week 8||-13.7|-21.4|0.175
92430619|NCT03982368|184748446|SUPERIORITY||Least square mean difference|-19.4||||0.016|TWO_SIDED|95.0|-23.1|-15.6|||ANOVA|||Symptom Bother - change from baseline to week 12||-15.6|-23.1|0.016
92430620|NCT03982368|184748446|SUPERIORITY||Least square mean difference|-19.8||||0.01|TWO_SIDED|95.0|-23.5|-16.1|||ANOVA|||Symptom Bother - change from baseline to week 12||-16.1|-23.5|0.010
92430621|NCT03982368|184748446|SUPERIORITY||Least square mean difference|-20.5||||0|TWO_SIDED|95.0|-24.3|-16.8|||ANOVA|||Symptom Bother - change from baseline to week 16||-16.8|-24.3|0.000
92430622|NCT03982368|184748446|SUPERIORITY||Least square mean difference|-20.8||||0|TWO_SIDED|95.0|-24.6|-17.1|||ANOVA|||Symptom Bother - change from baseline to week 16||-17.1|-24.6|0.000
92430623|NCT03982368|184748447|SUPERIORITY|||||||0.302|||||||Wilcoxon (Mann-Whitney)|||at week 4||||0.302
92430624|NCT03982368|184748447|SUPERIORITY|||||||0.224|||||||Wilcoxon (Mann-Whitney)|||at week 4||||0.224
92430625|NCT03982368|184748447|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||at week 8 (FUP)||||0.000
92430626|NCT03982368|184748447|SUPERIORITY|||||||0.885|||||||Wilcoxon (Mann-Whitney)|||at week 8 (FUP)||||0.885
92430627|NCT03982368|184748447|SUPERIORITY|||||||0.035|||||||Wilcoxon (Mann-Whitney)|||At week 12 (FUP)||||0.035
92430628|NCT03982368|184748447|SUPERIORITY|||||||0.698|||||||Wilcoxon (Mann-Whitney)|||At week 12 (FUP)||||0.698
92430629|NCT03982368|184748447|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||At week 16 (FUP)||||0.016
92430630|NCT03982368|184748447|SUPERIORITY|||||||0.706|||||||Wilcoxon (Mann-Whitney)|||At week 16 (FUP)||||0.706
92430631|NCT03982368|184748448|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||at week 4||||0.210
92430632|NCT03982368|184748448|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||at weeek 4||||0.260
92430633|NCT03982368|184748448|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||At week 8 (FUP)||||0.000
92430634|NCT03982368|184748448|SUPERIORITY|||||||0.734|||||||Wilcoxon (Mann-Whitney)|||at week 8 (FUP)||||0.734
92430635|NCT03982368|184748448|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||at week 12 (FUP)||||0.050
92430636|NCT03982368|184748448|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||at week 12 (FUP)||||0.985
92430637|NCT03982368|184748448|SUPERIORITY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||at week 16 (FUP)||||0.018
92430638|NCT03982368|184748448|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||at week 16 (FUP)||||0.580
92430639|NCT03982368|184748449|SUPERIORITY||Least square mean difference|1.2||||0.282|TWO_SIDED|95.0|-1.0|3.3|||ANOVA|||statistical analysis at week 4||3.3|-1.0|0.282
92430640|NCT03982368|184748449|SUPERIORITY||Least square mean difference|3.9||||0.497|TWO_SIDED|95.0|1.7|6.0|||ANOVA|||statistical analysis at week 4||6.0|1.7|0.497
92430641|NCT03982368|184748449|SUPERIORITY||Least square mean difference|2.6||||0.734|TWO_SIDED|95.0|0.5|4.8|||ANOVA|||statistical analysis at week 8||4.8|0.5|0.734
92430642|NCT03982368|184748449|SUPERIORITY||Least square mean difference|2.2||||0.963|TWO_SIDED|95.0|0.1|4.3|||ANOVA|||statistical analysis at week 8||4.3|0.1|0.963
92430643|NCT03982368|184748449|SUPERIORITY||Least square mean difference|2.7||||0.854|TWO_SIDED|95.0|0.7|4.8|||ANOVA|||statistical analysis at week 12||4.8|0.7|0.854
92430644|NCT03982368|184748449|SUPERIORITY||Least square mean difference|2.8||||0.881|TWO_SIDED|95.0|0.8|4.8|||ANOVA|||statistical analysis at week 12||4.8|0.8|0.881
92430645|NCT03982368|184748449|SUPERIORITY||Least square mean difference|3.0||||0.632|TWO_SIDED|95.0|0.3|5.7|||ANOVA|||statistical analysis at week 16||5.7|0.3|0.632
92430646|NCT03982368|184748449|SUPERIORITY||Least square mean difference|4.4||||0.22|TWO_SIDED|95.0|1.7|7.0|||ANOVA|||statistical analysis at week 16||7.0|1.7|0.220
92430647|NCT03982368|184748450|SUPERIORITY||Least square mean difference|1.2||||0.296|TWO_SIDED|95.0|-0.9|3.3|||ANOVA|||statistical analysis at week 4||3.3|-0.9|0.296
92430648|NCT03982368|184748450|SUPERIORITY||Least square mean difference|3.6||||0.57|TWO_SIDED|95.0|1.5|5.7|||ANOVA|||statistical analysis at week 4||5.7|1.5|0.570
92430649|NCT03982368|184748450|SUPERIORITY||Least square mean difference|2.7||||0.754|TWO_SIDED|95.0|0.5|4.9|||ANOVA|||statistical analysis at week 8||4.9|0.5|0.754
92430650|NCT03982368|184748450|SUPERIORITY||Least square mean difference|2.3||||0.972|TWO_SIDED|95.0|0.0|4.5|||ANOVA|||statistical analysis at week 8||4.5|0.0|0.972
92430651|NCT03982368|184748450|SUPERIORITY||Least square mean difference|3.4||||0.793|TWO_SIDED|95.0|1.4|5.3|||ANOVA|||statistical analysis at week 12||5.3|1.4|0.793
92279740|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.6058||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.6058
92279741|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1918||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.1918
92279742|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.6712||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.6712
92279743|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.9195||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.9195
92430652|NCT03982368|184748450|SUPERIORITY||Least square mean difference|3.4||||0.766|TWO_SIDED|95.0|1.5|5.3|||ANOVA|||statistical analysis at week 12||5.3|1.5|0.766
92430653|NCT03982368|184748450|SUPERIORITY||Least square mean difference|3.3||||0.458|TWO_SIDED|95.0|0.6|6.0|||ANOVA|||statistical analysis at week 16||6.0|0.6|0.458
92430654|NCT03982368|184748450|SUPERIORITY||Least square mean difference|4.6||||0.147|TWO_SIDED|95.0|2.0|7.3|||ANOVA|||statistical analysis at week 16||7.3|2.0|0.147
92430655|NCT03570697|184748451|SUPERIORITY||Treatment difference|21.2|STANDARD_ERROR_OF_MEAN|7.9||0.015|TWO_SIDED|95.0|4.7|37.7|||ANCOVA|||||37.7|4.7|0.015
92430656|NCT03570697|184748452|SUPERIORITY||Treatment difference|37.47|STANDARD_ERROR_OF_MEAN|17.04||0.041|TWO_SIDED|95.0|1.63|73.31|||ANCOVA|||||73.31|1.63|0.041
92430657|NCT03570697|184748453|SUPERIORITY||Treatment difference|32.51|STANDARD_ERROR_OF_MEAN|9.52||0.003|TWO_SIDED|95.0|12.67|52.35|||ANCOVA|||||52.35|12.67|0.003
92430658|NCT03570697|184748454|SUPERIORITY||Treatment difference|-26.0|STANDARD_ERROR_OF_MEAN|11.4||0.032|TWO_SIDED|95.0|-49.6|-2.4|||ANCOVA|||||-2.4|-49.6|0.032
92279744|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.7021||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.7021
92279745|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.391||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.3910
92279746|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2909||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.2909
92430659|NCT03570697|184748455|SUPERIORITY||Treatment difference|16.0|STANDARD_ERROR_OF_MEAN|7.5||0.036|TWO_SIDED|95.0|1.1|31.0|||ANCOVA|||||31.0|1.1|0.036
92430660|NCT03570697|184748456|SUPERIORITY||Treatment difference|-30.0|STANDARD_ERROR_OF_MEAN|10.4||0.005|TWO_SIDED|95.0|-50.5|-9.5|||ANCOVA|||||-9.5|-50.5|0.005
92430661|NCT03570697|184748457|SUPERIORITY||Treatment difference|-2.43|STANDARD_ERROR_OF_MEAN|0.81||0.003|TWO_SIDED|95.0|-4.04|-0.82|||ANCOVA|||||-0.82|-4.04|0.003
92430662|NCT02571777|184748474|SUPERIORITY||LS Mean|0.065|STANDARD_ERROR_OF_MEAN|0.0176|<|0.001|TWO_SIDED|95.0|0.031|0.099|||Mixed Model for Repeated Measures (MMRM)|||||0.099|0.031|<0.001
92430663|NCT02571777|184748474|SUPERIORITY||LS Mean|0.076|STANDARD_ERROR_OF_MEAN|0.0176|<|0.001|TWO_SIDED|95.0|0.041|0.111|||MMRM|||||0.111|0.041|<0.001
92430664|NCT02571777|184748475|SUPERIORITY||LS Mean|0.014|STANDARD_ERROR_OF_MEAN|0.0406||0.729|TWO_SIDED|95.0|-0.066|0.094|||MMRM|||Week 26||0.094|-0.066|0.729
92430665|NCT02571777|184748475|SUPERIORITY||LS Mean|-0.086|STANDARD_ERROR_OF_MEAN|0.0404||0.034|TWO_SIDED|95.0|-0.165|-0.006|||MMRM|||Week 26||-0.006|-0.165|0.034
92430666|NCT02571777|184748475|SUPERIORITY||LS Mean|-0.071|STANDARD_ERROR_OF_MEAN|0.0409||0.085|TWO_SIDED|95.0|-0.151|0.01|||MMRM|||Week 26||0.010|-0.151|0.085
92430667|NCT02571777|184748475|SUPERIORITY||LS Mean|-0.084|STANDARD_ERROR_OF_MEAN|0.0406||0.038|TWO_SIDED|95.0|-0.164|-0.005|||MMRM|||Week 26||-0.005|-0.164|0.038
92430668|NCT02571777|184748475|SUPERIORITY||LS Mean|-0.059|STANDARD_ERROR_OF_MEAN|0.0415||0.157|TWO_SIDED|95.0|-0.14|0.023|||MMRM|||Week 52||0.023|-0.140|0.157
92279747|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.3336||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.3336
92279748|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.236||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.2360
92430669|NCT02571777|184748475|SUPERIORITY||LS Mean|-0.121|STANDARD_ERROR_OF_MEAN|0.0414||0.003|TWO_SIDED|95.0|-0.202|-0.04|||MMRM|||Week 52||-0.040|-0.202|0.003
92430670|NCT02571777|184748475|SUPERIORITY||LS Mean|-0.01|STANDARD_ERROR_OF_MEAN|0.042||0.814|TWO_SIDED|95.0|-0.092|0.072|||MMRM|||Week 52||0.072|-0.092|0.814
92430671|NCT02571777|184748475|SUPERIORITY||LS Mean|0.008|STANDARD_ERROR_OF_MEAN|0.0416||0.845|TWO_SIDED|95.0|-0.073|0.09|||MMRM|||Week 52||0.090|-0.073|0.845
92430672|NCT02571777|184748476|SUPERIORITY||LS Mean|0.119|STANDARD_ERROR_OF_MEAN|0.0177|<|0.001|TWO_SIDED|95.0|0.085|0.154|||MMRM|||||0.154|0.085|<0.001
92430673|NCT02571777|184748476|SUPERIORITY||LS Mean|0.099|STANDARD_ERROR_OF_MEAN|0.0177|<|0.001|TWO_SIDED|95.0|0.064|0.133|||MMRM|||||0.133|0.064|<0.001
92430674|NCT02571777|184748477|SUPERIORITY||LS Mean|0.086|STANDARD_ERROR_OF_MEAN|0.0176|<|0.001|TWO_SIDED|95.0|0.051|0.12|||MMRM|||||0.120|0.051|<0.001
92430675|NCT02571777|184748477|SUPERIORITY||LS Mean|0.145|STANDARD_ERROR_OF_MEAN|0.0178|<|0.001|TWO_SIDED|95.0|0.111|0.18|||MMRM|||||0.180|0.111|<0.001
92430676|NCT02571777|184748477|SUPERIORITY||LS Mean|0.062|STANDARD_ERROR_OF_MEAN|0.0178|<|0.001|TWO_SIDED|95.0|0.027|0.096|||MMRM|||||0.096|0.027|<0.001
92430677|NCT02571777|184748477|SUPERIORITY||LS Mean|0.087|STANDARD_ERROR_OF_MEAN|0.0179|<|0.001|TWO_SIDED|95.0|0.052|0.122|||MMRM|||||0.122|0.052|<0.001
92279749|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0281||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.0281
92430678|NCT02571777|184748478|SUPERIORITY||LS Mean|0.073|STANDARD_ERROR_OF_MEAN|0.0218|<|0.001|TWO_SIDED|95.0|0.03|0.116|||MMRM|||Week 4||0.116|0.030|<0.001
92430679|NCT02571777|184748478|SUPERIORITY||LS Mean|0.139|STANDARD_ERROR_OF_MEAN|0.0217|<|0.001|TWO_SIDED|95.0|0.096|0.181|||MMRM|||Week 4||0.181|0.096|<0.001
92430680|NCT02571777|184748478|SUPERIORITY||LS Mean|0.039|STANDARD_ERROR_OF_MEAN|0.022||0.074|TWO_SIDED|95.0|-0.004|0.082|||MMRM|||Week 4||0.082|-0.004|0.074
92430681|NCT02571777|184748478|SUPERIORITY||LS Mean|0.108|STANDARD_ERROR_OF_MEAN|0.0219|<|0.001|TWO_SIDED|95.0|0.065|0.15|||MMRM|||Week 4||0.150|0.065|<0.001
92430682|NCT02571777|184748478|SUPERIORITY||LS Mean|0.056|STANDARD_ERROR_OF_MEAN|0.0219||0.01|TWO_SIDED|95.0|0.014|0.099|||MMRM|||Week 12||0.099|0.014|0.010
92430683|NCT02571777|184748478|SUPERIORITY||LS Mean|0.102|STANDARD_ERROR_OF_MEAN|0.0218|<|0.001|TWO_SIDED|95.0|0.059|0.145|||MMRM|||Week 12||0.145|0.059|<0.001
92430684|NCT02571777|184748478|SUPERIORITY||LS Mean|0.05|STANDARD_ERROR_OF_MEAN|0.0221||0.022|TWO_SIDED|95.0|0.007|0.094|||MMRM|||Week 12||0.094|0.007|0.022
92430685|NCT02571777|184748478|SUPERIORITY||LS Mean|0.099|STANDARD_ERROR_OF_MEAN|0.022|<|0.001|TWO_SIDED|95.0|0.056|0.142|||MMRM|||Week 12||0.142|0.056|<0.001
92430686|NCT02571777|184748479|SUPERIORITY||LS Mean|0.095|STANDARD_ERROR_OF_MEAN|0.0254|<|0.001|TWO_SIDED|95.0|0.045|0.145|||MMRM|||||0.145|0.045|<0.001
92430687|NCT02571777|184748479|SUPERIORITY||LS Mean|0.147|STANDARD_ERROR_OF_MEAN|0.0256|<|0.001|TWO_SIDED|95.0|0.097|0.198|||MMRM|||||0.198|0.097|<0.001
92430688|NCT02571777|184748479|SUPERIORITY||LS Mean|0.049|STANDARD_ERROR_OF_MEAN|0.0256||0.057|TWO_SIDED|95.0|-0.001|0.099|||MMRM|||||0.099|-0.001|0.057
92430689|NCT02571777|184748479|SUPERIORITY||LS Mean|0.056|STANDARD_ERROR_OF_MEAN|0.0258||0.029|TWO_SIDED|95.0|0.006|0.107|||MMRM|||||0.107|0.006|0.029
92430690|NCT02571777|184748480|SUPERIORITY||LS Mean|18.2|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|13.2|23.3|||Linear Mixed Model (LMM)|||Week 26 - Mean morning PEF||23.3|13.2|<0.001
92430691|NCT02571777|184748480|SUPERIORITY||LS Mean|35.3|STANDARD_ERROR_OF_MEAN|2.58|<|0.001|TWO_SIDED|95.0|30.2|40.3|||LMM|||Week 26 - Mean morning PEF||40.3|30.2|<0.001
92430692|NCT02571777|184748480|SUPERIORITY||LS Mean|14.9|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|9.8|20.0|||LMM|||Week 26 - Mean morning PEF||20.0|9.8|<0.001
92430693|NCT02571777|184748480|SUPERIORITY||LS Mean|28.0|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|22.9|33.1|||LMM|||Week 26 - Mean morning PEF||33.1|22.9|<0.001
92430694|NCT02571777|184748480|SUPERIORITY||LS Mean|16.8|STANDARD_ERROR_OF_MEAN|2.53|<|0.001|TWO_SIDED|95.0|11.8|21.7|||LMM|||Week 26 - Mean evening PEF||21.7|11.8|<0.001
92430695|NCT02571777|184748480|SUPERIORITY||LS Mean|29.1|STANDARD_ERROR_OF_MEAN|2.53|<|0.001|TWO_SIDED|95.0|24.2|34.1|||LMM|||Week 26 - Mean evening PEF||34.1|24.2|<0.001
92430696|NCT02571777|184748480|SUPERIORITY||LS Mean|14.1|STANDARD_ERROR_OF_MEAN|2.55|<|0.001|TWO_SIDED|95.0|9.1|19.1|||LMM|||Week 26 - Mean evening PEF||19.1|9.1|<0.001
92430697|NCT02571777|184748480|SUPERIORITY||LS Mean|24.3|STANDARD_ERROR_OF_MEAN|2.54|<|0.001|TWO_SIDED|95.0|19.3|29.3|||LMM|||Week 26 - Mean evening PEF||29.3|19.3|<0.001
92430698|NCT02571777|184748480|SUPERIORITY||LS Mean|18.7|STANDARD_ERROR_OF_MEAN|2.72|<|0.001|TWO_SIDED|95.0|13.4|24.1|||LMM|||Week 52 - Mean morning PEF||24.1|13.4|<0.001
92430699|NCT02571777|184748480|SUPERIORITY||LS Mean|34.8|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|29.5|40.1|||LMM|||Week 52 - Mean morning PEF||40.1|29.5|<0.001
92430700|NCT02571777|184748480|SUPERIORITY||LS Mean|15.6|STANDARD_ERROR_OF_MEAN|2.74|<|0.001|TWO_SIDED|95.0|10.2|20.9|||LMM|||Week 52 - Mean morning PEF||20.9|10.2|<0.001
92430701|NCT02571777|184748480|SUPERIORITY||LS Mean|28.5|STANDARD_ERROR_OF_MEAN|2.72|<|0.001|TWO_SIDED|95.0|23.2|33.8|||LMM|||Week 52 - Mean morning PEF||33.8|23.2|<0.001
92430702|NCT02571777|184748480|SUPERIORITY||LS Mean|17.5|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|12.3|22.8|||LMM|||Week 52 - Mean evening PEF||22.8|12.3|<0.001
92430703|NCT02571777|184748480|SUPERIORITY||LS Mean|29.5|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|24.2|34.7|||LMM|||Week 52 - Mean evening PEF||34.7|24.2|<0.001
92430704|NCT02571777|184748480|SUPERIORITY||LS Mean|15.0|STANDARD_ERROR_OF_MEAN|2.69|<|0.001|TWO_SIDED|95.0|9.7|20.2|||LMM|||Week 52 - Mean evening PEF||20.2|9.7|<0.001
92279750|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0434||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.0434
92430705|NCT02571777|184748480|SUPERIORITY||LS Mean|25.8|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|20.5|31.0|||LMM|||Week 52 - Mean evening PEF||31.0|20.5|<0.001
92430706|NCT02571777|184748481|SUPERIORITY||LS Mean|0.2|STANDARD_ERROR_OF_MEAN|1.81||0.907|TWO_SIDED|95.0|-3.3|3.8|||LMM|||||3.8|-3.3|0.907
92430707|NCT02571777|184748481|SUPERIORITY||LS Mean|3.5|STANDARD_ERROR_OF_MEAN|1.81||0.055|TWO_SIDED|95.0|-0.1|7.0|||LMM|||||7.0|-0.1|0.055
92430708|NCT02571777|184748481|SUPERIORITY||LS Mean|0.0|STANDARD_ERROR_OF_MEAN|1.83||0.997|TWO_SIDED|95.0|-3.6|3.6|||LMM|||||3.6|-3.6|0.997
92430709|NCT02571777|184748481|SUPERIORITY||LS Mean|-0.9|STANDARD_ERROR_OF_MEAN|1.82||0.606|TWO_SIDED|95.0|-4.5|2.6|||LMM|||||2.6|-4.5|0.606
92430710|NCT02571777|184748482|SUPERIORITY||LS Mean|0.7|STANDARD_ERROR_OF_MEAN|1.78||0.712|TWO_SIDED|95.0|-2.8|4.2|||LMM|||||4.2|-2.8|0.712
92430711|NCT02571777|184748482|SUPERIORITY||LS Mean|3.7|STANDARD_ERROR_OF_MEAN|1.78||0.038|TWO_SIDED|95.0|0.2|7.2|||LMM|||||7.2|0.2|0.038
92430712|NCT02571777|184748482|SUPERIORITY||LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|1.8||0.943|TWO_SIDED|95.0|-3.7|3.4|||LMM|||||3.4|-3.7|0.943
92430713|NCT02571777|184748482|SUPERIORITY||LS Mean|-0.9|STANDARD_ERROR_OF_MEAN|1.79||0.612|TWO_SIDED|95.0|-4.4|2.6|||LMM|||||2.6|-4.4|0.612
92430714|NCT02571777|184748483|SUPERIORITY||LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|1.51||0.809|TWO_SIDED|95.0|-3.3|2.6|||LMM|||||2.6|-3.3|0.809
92430715|NCT02571777|184748483|SUPERIORITY||LS Mean|1.1|STANDARD_ERROR_OF_MEAN|1.5||0.467|TWO_SIDED|95.0|-1.9|4.0|||LMM|||||4.0|-1.9|0.467
92430716|NCT02571777|184748483|SUPERIORITY||LS Mean|1.5|STANDARD_ERROR_OF_MEAN|1.52||0.318|TWO_SIDED|95.0|-1.5|4.5|||LMM|||||4.5|-1.5|0.318
92430717|NCT02571777|184748483|SUPERIORITY||LS Mean|0.7|STANDARD_ERROR_OF_MEAN|1.51||0.64|TWO_SIDED|95.0|-2.3|3.7|||LMM|||||3.7|-2.3|0.640
92430718|NCT02571777|184748484|SUPERIORITY||LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|1.83||0.814|TWO_SIDED|95.0|-4.0|3.2|||LMM|||||3.2|-4.0|0.814
92430719|NCT02571777|184748484|SUPERIORITY||LS Mean|3.8|STANDARD_ERROR_OF_MEAN|1.83||0.036|TWO_SIDED|95.0|0.2|7.4|||LMM|||||7.4|0.2|0.036
92430720|NCT02571777|184748484|SUPERIORITY||LS Mean|3.1|STANDARD_ERROR_OF_MEAN|1.84||0.098|TWO_SIDED|95.0|-0.6|6.7|||LMM|||||6.7|-0.6|0.098
92430721|NCT02571777|184748484|SUPERIORITY||LS Mean|2.9|STANDARD_ERROR_OF_MEAN|1.84||0.118|TWO_SIDED|95.0|-0.7|6.5|||LMM|||||6.5|-0.7|0.118
92430722|NCT02571777|184748485|SUPERIORITY||LS Mean|-0.8|STANDARD_ERROR_OF_MEAN|1.74||0.645|TWO_SIDED|95.0|-4.2|2.6|||LMM|||Week 26||2.6|-4.2|0.645
92430723|NCT02571777|184748485|SUPERIORITY||LS Mean|2.9|STANDARD_ERROR_OF_MEAN|1.73||0.095|TWO_SIDED|95.0|-0.5|6.3|||LMM|||Week 26||6.3|-0.5|0.095
92430724|NCT02571777|184748485|SUPERIORITY||LS Mean|1.3|STANDARD_ERROR_OF_MEAN|1.75||0.46|TWO_SIDED|95.0|-2.1|4.7|||LMM|||Week 26||4.7|-2.1|0.460
92430725|NCT02571777|184748485|SUPERIORITY||LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|1.75||0.971|TWO_SIDED|95.0|-3.5|3.4|||LMM|||Week 26||3.4|-3.5|0.971
92430726|NCT02571777|184748485|SUPERIORITY||LS Mean|0.1|STANDARD_ERROR_OF_MEAN|1.78||0.963|TWO_SIDED|95.0|-3.4|3.6|||LMM|||Week 52||3.6|-3.4|0.963
92430727|NCT02571777|184748485|SUPERIORITY||LS Mean|3.2|STANDARD_ERROR_OF_MEAN|1.77||0.075|TWO_SIDED|95.0|-0.3|6.6|||LMM|||Week 52||6.6|-0.3|0.075
92430728|NCT02571777|184748485|SUPERIORITY||LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.79||0.517|TWO_SIDED|95.0|-2.3|4.7|||LMM|||Week 52||4.7|-2.3|0.517
92430729|NCT02571777|184748485|SUPERIORITY||LS Mean|0.1|STANDARD_ERROR_OF_MEAN|1.78||0.956|TWO_SIDED|95.0|-3.4|3.6|||LMM|||Week 52||3.6|-3.4|0.956
92430730|NCT02571777|184748486|SUPERIORITY||Odds Ratio (OR)|0.92||||0.535|TWO_SIDED|95.0|0.7|1.2|||Logistic regression model|||Week 26||1.20|0.70|0.535
92430731|NCT02571777|184748486|SUPERIORITY||Odds Ratio (OR)|1.21||||0.151|TWO_SIDED|95.0|0.93|1.57|||Logistic regression model|||Week 26||1.57|0.93|0.151
92430732|NCT02571777|184748486|SUPERIORITY||Odds Ratio (OR)|1.13||||0.38|TWO_SIDED|95.0|0.86|1.48|||Logistic regression model|||Week 26||1.48|0.86|0.380
92430733|NCT02571777|184748486|SUPERIORITY||Odds Ratio (OR)|1.2||||0.172|TWO_SIDED|95.0|0.92|1.57|||Logistic regression model|||Week 26||1.57|0.92|0.172
92430734|NCT02571777|184748486|SUPERIORITY||Odds Ratio (OR)|1.1||||0.51|TWO_SIDED|95.0|0.83|1.47|||Logistic regression model|||Week 52||1.47|0.83|0.510
92430735|NCT02571777|184748486|SUPERIORITY||Odds Ratio (OR)|1.41||||0.017|TWO_SIDED|95.0|1.06|1.86|||Logistic regression model|||Week 52||1.86|1.06|0.017
92430736|NCT02571777|184748486|SUPERIORITY||Odds Ratio (OR)|1.05||||0.744|TWO_SIDED|95.0|0.79|1.38|||Logistic regression model|||Week 52||1.38|0.79|0.744
92430737|NCT02571777|184748486|SUPERIORITY||Odds Ratio (OR)|0.99||||0.922|TWO_SIDED|95.0|0.75|1.29|||Logistic regression model|||Week 52||1.29|0.75|0.922
92430738|NCT02571777|184748487|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.371|TWO_SIDED|95.0|0.27|1.63|||Regression, Cox|||||1.63|0.27|0.371
92430739|NCT02571777|184748487|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.996|TWO_SIDED|95.0|0.37|2.66|||Regression, Cox|||||2.66|0.37|0.996
92430740|NCT02571777|184748487|SUPERIORITY||Hazard Ratio (HR)|1.89||||0.145|TWO_SIDED|95.0|0.8|4.47|||Regression, Cox|||||4.47|0.80|0.145
92430741|NCT02571777|184748487|SUPERIORITY||Hazard Ratio (HR)|1.88||||0.15|TWO_SIDED|95.0|0.8|4.43|||Regression, Cox|||||4.43|0.80|0.150
92430742|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.523|TWO_SIDED|95.0|0.77|1.15|||Regression, Cox|||Moderate or severe asthma exacerbation||1.15|0.77|0.523
92430743|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.7|||<|0.001|TWO_SIDED|95.0|0.58|0.84|||Regression, Cox|||Moderate or severe asthma exacerbation||0.84|0.58|<0.001
92430744|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.164|TWO_SIDED|95.0|0.72|1.06|||Regression, Cox|||Moderate or severe asthma exacerbation||1.06|0.72|0.164
92430745|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.005|TWO_SIDED|95.0|0.63|0.92|||Regression, Cox|||Moderate or severe asthma exacerbation||0.92|0.63|0.005
92430746|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.476|TWO_SIDED|95.0|0.72|1.16|||Regression, Cox|||Severe asthma exacerbation||1.16|0.72|0.476
92430747|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.68|||<|0.001|TWO_SIDED|95.0|0.54|0.85|||Regression, Cox|||Severe asthma exacerbation||0.85|0.54|<0.001
92430748|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.243|TWO_SIDED|95.0|0.7|1.09|||Regression, Cox|||Severe asthma exacerbation||1.09|0.70|0.243
92430749|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.027|TWO_SIDED|95.0|0.63|0.97|||Regression, Cox|||Severe asthma exacerbation||0.97|0.63|0.027
92430750|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.497|TWO_SIDED|95.0|0.79|1.12|||Regression, Cox|||All (mild, moderate, severe) asthma exacerbation||1.12|0.79|0.497
92430751|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.71|||<|0.001|TWO_SIDED|95.0|0.6|0.84|||Regression, Cox|||All (mild, moderate, severe) asthma exacerbation||0.84|0.60|<0.001
92430752|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.126|TWO_SIDED|95.0|0.73|1.04|||Regression, Cox|||All (mild, moderate, severe) asthma exacerbation||1.04|0.73|0.126
92430753|NCT02571777|184748488|SUPERIORITY||Hazard Ratio (HR)|0.72|||<|0.001|TWO_SIDED|95.0|0.61|0.85|||Regression, Cox|||All (mild, moderate, severe) asthma exacerbation||0.85|0.61|<0.001
92430754|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.85||||0.12|TWO_SIDED|95.0|0.68|1.04|||Generalized linear model|||Moderate or severe asthma exacerbation||1.04|0.68|0.120
92430755|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.64|||<|0.001|TWO_SIDED|95.0|0.52|0.78|||Generalized linear model|||Moderate or severe asthma exacerbation||0.78|0.52|<0.001
92430756|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.87||||0.17|TWO_SIDED|95.0|0.71|1.06|||Generalized linear modeñ|||Moderate or severe asthma exacerbation||1.06|0.71|0.170
92430757|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.81||||0.041|TWO_SIDED|95.0|0.66|0.99|||Generalized linear model|||Moderate or severe asthma exacerbation||0.99|0.66|0.041
92430758|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.78||||0.05|TWO_SIDED|95.0|0.61|1.0|||Generalized linear model|||Severe asthma exacerbation||1.00|0.61|0.050
92430759|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.58|||<|0.001|TWO_SIDED|95.0|0.45|0.73|||Generalized linear model|||Severe asthma exacerbation||0.73|0.45|<0.001
92430760|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.93||||0.531|TWO_SIDED|95.0|0.74|1.17|||Generalized linear model|||Severe asthma exacerbation||1.17|0.74|0.531
92430761|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.84||||0.117|TWO_SIDED|95.0|0.67|1.05|||Linear generalized model|||Severe asthma exacerbation||1.05|0.67|0.117
92430762|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.79||||0.016|TWO_SIDED|95.0|0.66|0.96|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||0.96|0.66|0.016
92430763|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.6|||<|0.001|TWO_SIDED|95.0|0.5|0.72|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||0.72|0.50|<0.001
92430764|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.87||||0.161|TWO_SIDED|95.0|0.72|1.06|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||1.06|0.72|0.161
92430765|NCT02571777|184748489|SUPERIORITY||Rate ratio|0.7|||<|0.001|TWO_SIDED|95.0|0.58|0.84|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||0.84|0.58|<0.001
92430766|NCT02571777|184748490|SUPERIORITY|||||||0.183|||||||van Elteren test|||Moderate or severe asthma exacerbation||||0.183
92430767|NCT02571777|184748490|SUPERIORITY||||||<|0.001|||||||van Elteren test|||Moderate or severe asthma exacerbation||||<0.001
92430768|NCT02571777|184748490|SUPERIORITY|||||||0.155|||||||van Elteren test|||Moderate or severe asthma exacerbation||||0.155
92430769|NCT02571777|184748490|SUPERIORITY|||||||0.007|||||||van Elteren test|||Moderate or severe asthma exacerbation||||0.007
92430770|NCT02571777|184748490|SUPERIORITY|||||||0.172|||||||van Elteren test|||Severe asthma exacerbation||||0.172
92430771|NCT02571777|184748490|SUPERIORITY||||||<|0.001|||||||van Elteren test|||Severe asthma exacerbation||||<0.001
92430772|NCT02571777|184748490|SUPERIORITY|||||||0.241|||||||van Elteren test|||Severe asthma exacerbation||||0.241
92430773|NCT02571777|184748490|SUPERIORITY|||||||0.033|||||||van Elteren test|||Severe asthma exacerbation||||0.033
92430774|NCT02571777|184748490|SUPERIORITY|||||||0.095|||||||van Elteren test|||All (mild, moderate, severe) asthma exacerbation||||0.095
92430775|NCT02571777|184748490|SUPERIORITY||||||<|0.001|||||||van Elteren test|||All (mild, moderate, severe) asthma exacerbation||||<0.001
92430776|NCT02571777|184748490|SUPERIORITY|||||||0.09|||||||van Elteren test|||All (mild, moderate, severe) asthma exacerbation||||0.090
92430777|NCT02571777|184748490|SUPERIORITY||||||<|0.001|||||||van Elteren test|||All (mild, moderate, severe) asthma exacerbation||||<0.001
92430778|NCT02571777|184748492|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.314|TWO_SIDED|95.0|0.12|1.96|||Regression, Cox|||||1.96|0.12|0.314
92430779|NCT02571777|184748492|SUPERIORITY||Hazard Ratio (HR)|0.28||||0.055|TWO_SIDED|95.0|0.08|1.03|||Regression, Cox|||||1.03|0.08|0.055
92430780|NCT02571777|184748492|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.306|TWO_SIDED|95.0|0.25|1.54|||Regression, Cox|||||1.54|0.25|0.306
92430781|NCT02571777|184748492|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.566|TWO_SIDED|95.0|0.3|1.94|||Regression, Cox|||||1.94|0.30|0.566
92430782|NCT02571777|184748494|SUPERIORITY||LS Mean|-0.8|STANDARD_ERROR_OF_MEAN|1.74||0.645|TWO_SIDED|95.0|-4.2|2.6|||LMM|||Week 26||2.6|-4.2|0.645
92430783|NCT02571777|184748494|SUPERIORITY||LS Mean|2.9|STANDARD_ERROR_OF_MEAN|1.73||0.095|TWO_SIDED|95.0|-0.5|6.3|||LMM|||Week 26||6.3|-0.5|0.095
92430784|NCT02571777|184748494|SUPERIORITY||LMM|1.3|STANDARD_ERROR_OF_MEAN|1.75||0.46|TWO_SIDED|95.0|-2.1|4.7|||LMM|||Week 26||4.7|-2.1|0.460
92430785|NCT02571777|184748494|SUPERIORITY||LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|1.75||0.971|TWO_SIDED|95.0|-3.5|3.4|||LMM|||Week 26||3.4|-3.5|0.971
92430786|NCT02571777|184748494|SUPERIORITY||LMM|0.1|STANDARD_ERROR_OF_MEAN|1.78||0.963|TWO_SIDED|95.0|-3.4|3.6|||LMM|||Week 52||3.6|-3.4|0.963
92430787|NCT02571777|184748494|SUPERIORITY||LS Mean|3.2|STANDARD_ERROR_OF_MEAN|1.77||0.075|TWO_SIDED|95.0|-0.3|6.6|||LMM|||Week 52||6.6|-0.3|0.075
92430788|NCT02571777|184748494|SUPERIORITY||LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.79||0.517|TWO_SIDED|95.0|-2.3|4.7|||LMM|||Week 52||4.7|-2.3|0.517
92430789|NCT02571777|184748494|SUPERIORITY||LS Mean|0.1|STANDARD_ERROR_OF_MEAN|1.78||0.956|TWO_SIDED|95.0|-3.4|3.6|||LMM|||Week 52||3.6|-3.4|0.956
92430790|NCT02571777|184748495|SUPERIORITY||LS Mean|0.02|STANDARD_ERROR_OF_MEAN|0.0502||0.69|TWO_SIDED|95.0|-0.078|0.118|||MMRM|||||0.118|-0.078|0.690
92430791|NCT02571777|184748495|SUPERIORITY||LS Mean|0.06|STANDARD_ERROR_OF_MEAN|0.0502||0.232|TWO_SIDED|95.0|-0.038|0.159|||MMRM|||||0.159|-0.038|0.232
92237278|NCT00408421|184379066|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.91||||0.003||95.0|-1.5|-0.32||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.32|-1.50|0.003
92279751|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0283||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.0283
92430792|NCT02571777|184748495|SUPERIORITY||LS Mean|-0.054|STANDARD_ERROR_OF_MEAN|0.0506||0.285|TWO_SIDED|95.0|-0.153|0.045|||MMRM|||||0.045|-0.153|0.285
92430793|NCT02571777|184748495|SUPERIORITY||LS Mean|-0.05|STANDARD_ERROR_OF_MEAN|0.0505||0.319|TWO_SIDED|95.0|-0.15|0.049|||MMRM|||||0.049|-0.150|0.319
92430794|NCT02571777|184748496|SUPERIORITY||LS Mean|0.068|STANDARD_ERROR_OF_MEAN|0.0166|<|0.001|TWO_SIDED|95.0|0.036|0.101|||MMRM|||Week 4||0.101|0.036|<0.001
92430795|NCT02571777|184748496|SUPERIORITY||LS Mean|0.145|STANDARD_ERROR_OF_MEAN|0.0165|<|0.001|TWO_SIDED|95.0|0.113|0.177|||MMRM|||Week 4||0.177|0.113|<0.001
92430796|NCT02571777|184748496|SUPERIORITY||LS Mean|0.033|STANDARD_ERROR_OF_MEAN|0.0167||0.049|TWO_SIDED|95.0|0.0|0.066|||MMRM|||Week 4||0.066|0.000|0.049
92430797|NCT02571777|184748496|SUPERIORITY||LS Mean|0.096|STANDARD_ERROR_OF_MEAN|0.0166|<|0.001|TWO_SIDED|95.0|0.064|0.129|||MMRM|||Week 4||0.129|0.064|<0.001
92430798|NCT02571777|184748496|SUPERIORITY||LS Mean|0.058|STANDARD_ERROR_OF_MEAN|0.0184||0.002|TWO_SIDED|95.0|0.022|0.094|||MMRM|||Week 12||0.094|0.022|0.002
92430799|NCT02571777|184748496|SUPERIORITY||LS Mean|0.117|STANDARD_ERROR_OF_MEAN|0.0183|<|0.001|TWO_SIDED|95.0|0.081|0.153|||MMRM|||Week 12||0.153|0.081|<0.001
92430800|NCT02571777|184748496|SUPERIORITY||LS Mean|0.05|STANDARD_ERROR_OF_MEAN|0.0185||0.007|TWO_SIDED|95.0|0.013|0.086|||MMRM|||Week 12||0.086|0.013|0.007
92430801|NCT02571777|184748496|SUPERIORITY||MMRM|0.087|STANDARD_ERROR_OF_MEAN|0.0184|<|0.001|TWO_SIDED|95.0|0.051|0.123|||MMRM|||Week 12||0.123|0.051|<0.001
92430802|NCT00801632|184748498|SUPERIORITY_OR_OTHER||Percentage of Participants|60.0|||||TWO_SIDED|95.0|14.7|94.7|||||Clopper-Pearson used to derive confidence interval|||94.7|14.7|
92430803|NCT00801632|184748500|SUPERIORITY_OR_OTHER|||||||0.215|TWO_SIDED|||||P-value based on a paired t-test comparing baseline creatinine level with the level at study completion/participant termination.|t-test, 2 sided|The test describes whether the average of the difference is different from zero.||||||0.215
92430804|NCT03652012|184748507|SUPERIORITY||Mean Difference (Final Values)|54.2||||0.044|TWO_SIDED|95.0|1.54|106.85||As multiple parameters were assessed from the stimulus-response curve, a Bonferroni-adjusted alpha threshold of α = 0.0125 was applied to account for multiple comparisons when assessing this outcome measure.|ANOVA||Mean difference (Healthy Controls - MCI).|"We conducted a two-way factorial ANOVA (Group x Condition). Group has two levels: MCI and Healthy controls. Condition has two levels: active muscle contraction and rest.~As multiple parameters were assessed from the stimulus-response curve, a Bonferroni-adjusted alpha threshold of α = 0.0125 was applied to account for multiple comparisons when assessing this outcome measure."||106.85|1.54|0.044
92430805|NCT03652012|184748507|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.912|TWO_SIDED|95.0|-51.87|57.47||As multiple parameters were assessed from the stimulus-response curve, a Bonferroni-adjusted alpha threshold of α = 0.0125 was applied to account for multiple comparisons when assessing this outcome measure.|ANOVA||Mean difference in slope of the stimulus-response curve by muscle contraction condition (Active - Rest).|"We conducted a two-way factorial ANOVA (Group x Condition). Group has two levels: MCI and Healthy controls. Condition has two levels: active muscle contraction and rest.~As multiple parameters were assessed from the stimulus-response curve, a Bonferroni-adjusted alpha threshold of α = 0.0125 was applied to account for multiple comparisons when assessing this outcome measure.~The results presented here reflect the main effect of Condition on the slope of the stimulus-response curve."||57.47|-51.87|0.912
92430806|NCT03652012|184748508|SUPERIORITY||Mean Difference (Final Values)|20.6||||0.1021|TWO_SIDED|95.0|-4.33|45.54|||t-test, 2 sided|No adjustment for multiple comparisons.|Mean cortical silent period (CSP; units = milliseconds) in the CN group minus mean CSP in the MCI group. Positive values indicate a longer cortical silent period in the control group.|||45.54|-4.33|0.1021
92430807|NCT03652012|184748509|SUPERIORITY||Mean Difference (Final Values)|0.208||||0.19|TWO_SIDED|95.0|-0.113|0.529|||t-test, 2 sided|||||0.529|-0.113|0.19
92430808|NCT03652012|184748510|SUPERIORITY||Mean Difference (Net)|0.0078||||0.97|TWO_SIDED|95.0|-0.51|0.5|||t-test, 2 sided|||||0.50|-0.51|0.97
92430809|NCT01288235|184748511|OTHER||3-Year Cumulative incidence|14.5|||||TWO_SIDED|95.0|8.3|22.3||||||||22.3|8.3|
92430810|NCT01288235|184748511|OTHER||5-Year Cumulative incidence|20.2|||||TWO_SIDED|95.0|12.7|28.9||||||||28.9|12.7|
92430811|NCT01288235|184748512|OTHER||Mean Difference (Net)|1.1||||0.543|TWO_SIDED|95.0|-2.6|4.9|||t-test, 2 sided|Paired t test||||4.9|-2.6|0.543
92430812|NCT01288235|184748513|OTHER||3-Year Local Disease Control Probability|89.9|||||TWO_SIDED|95.0|83.1|94.9||||||||94.9|83.1|
92430813|NCT01288235|184748513|OTHER||5-Year Local Disease Control Probability|85.9|||||TWO_SIDED|95.0|78.2|91.9||||||||91.9|78.2|
92430814|NCT01288235|184748513|OTHER||3-Year Distant Disease Control|97.0|||||TWO_SIDED|95.0|92.1|99.2||||||||99.2|92.1|
92430815|NCT01288235|184748513|OTHER||5-Year Distant Disease Control|95.0|||||TWO_SIDED|95.0|89.4|98.1||||||||98.1|89.4|
92430816|NCT01288235|184748514|OTHER||3-Year Cumulative incidence of grade 3+|12.2|||||TWO_SIDED|95.0|6.6|19.5||||||||19.5|6.6|
92430817|NCT01288235|184748514|OTHER||5-Year Cumulative incidence of grade 3+|16.3|||||TWO_SIDED|95.0|9.8|24.3||||||||24.3|9.8|
92430818|NCT01288235|184748515|OTHER||3-Year Cumulative inc. of hearing loss|12.5|||||TWO_SIDED|95.0|2.9|29.5||||||||29.5|2.9|
92430819|NCT01288235|184748515|OTHER||5-Year Cumulative inc. of hearing loss|12.5|||||TWO_SIDED|95.0|2.9|29.5||||||||29.5|2.9|
92430820|NCT03851705|184748520|SUPERIORITY||Mean Difference (Final Values)|-1.68||||0.9047|TWO_SIDED|95.0|-29.19|25.83||The a priori threshold for statistical significance was \<0.05 (two-sided)|ANCOVA|||||25.83|-29.19|0.9047
92237279|NCT00408421|184379067|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.71||||0.019||95.0|-1.3|-0.12||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.12|-1.30|0.019
92430821|NCT03851705|184748521|SUPERIORITY||Mean Difference (Final Values)|6.47||||0.8685|TWO_SIDED|95.0|-70.11|83.05||The a priori threshold for statistical significance was \<0.05 (two-sided)|ANCOVA|||||83.05|-70.11|0.8685
92430822|NCT03851705|184748522|SUPERIORITY||Mean Difference (Final Values)|-12.1||||0.2347|TWO_SIDED|95.0|-32.2|8.1||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||8.1|-32.2|0.2347
92430823|NCT03851705|184748522|SUPERIORITY||Mean Difference (Final Values)|4.6||||0.7058|TWO_SIDED|95.0|-19.9|29.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||29.2|-19.9|0.7058
92430824|NCT03851705|184748522|SUPERIORITY||Mean Difference (Final Values)|-5.7||||0.5653|TWO_SIDED|95.0|-25.5|14.1||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||14.1|-25.5|0.5653
92430825|NCT03851705|184748524|SUPERIORITY||Mean Difference (Final Values)|-19.9||||0.4589|TWO_SIDED|95.0|-73.3|33.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||33.6|-73.3|0.4589
92430826|NCT03851705|184748524|SUPERIORITY||Mean Difference (Final Values)|17.7||||0.5956|TWO_SIDED|95.0|-48.8|84.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||84.3|-48.8|0.5956
92430827|NCT03851705|184748524|SUPERIORITY||Mean Difference (Final Values)|-7.5||||0.7861|TWO_SIDED|95.0|-62.7|47.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||47.7|-62.7|0.7861
92430828|NCT03851705|184748526|SUPERIORITY||Mean Difference (Final Values)|-62.6|||<|0.0001|TWO_SIDED|95.0|-80.1|-45.1||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||-45.1|-80.1|<.0001
92430829|NCT03851705|184748526|SUPERIORITY||Mean Difference (Final Values)|-60.6|||<|0.0001|TWO_SIDED|95.0|-83.5|-37.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||-37.8|-83.5|<.0001
92430830|NCT03851705|184748526|SUPERIORITY||Mean Difference (Final Values)|-92.3|||<|0.0001|TWO_SIDED|95.0|-120.4|-64.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||-64.2|-120.4|<.0001
92430831|NCT03851705|184748528|SUPERIORITY||Mean Difference (Final Values)|-316.6|||<|0.0001|TWO_SIDED|95.0|-420.7|-212.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||-212.6|-420.7|<.0001
92430832|NCT03851705|184748528|SUPERIORITY||Mean Difference (Final Values)|-304.4|||<|0.0001|TWO_SIDED|95.0|-408.0|-200.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||-200.8|-408.0|<.0001
92430833|NCT03851705|184748528|SUPERIORITY||Mean Difference (Final Values)|-390.4|||<|0.0001|TWO_SIDED|95.0|-504.5|-276.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||-276.3|-504.5|<.0001
92279752|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0151||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.0151
92430834|NCT03851705|184748530|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.3299|TWO_SIDED|95.0|-23.9|8.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||8.2|-23.9|0.3299
92430835|NCT03851705|184748530|SUPERIORITY||Mean Difference (Final Values)|2.7||||0.7778|TWO_SIDED|95.0|-16.7|22.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||22.2|-16.7|0.7778
92430836|NCT03851705|184748530|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.6613|TWO_SIDED|95.0|-19.2|12.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||12.3|-19.2|0.6613
92430837|NCT03851705|184748531|SUPERIORITY||Mean Difference (Final Values)|-19.0||||0.4911|TWO_SIDED|95.0|-74.0|36.0||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||36.0|-74.0|0.4911
92430838|NCT03851705|184748531|SUPERIORITY||Mean Difference (Final Values)|11.1||||0.7461|TWO_SIDED|95.0|-57.2|79.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||79.4|-57.2|0.7461
92430839|NCT03851705|184748531|SUPERIORITY||Mean Difference (Final Values)|-5.9||||0.837|TWO_SIDED|95.0|-62.8|51.1||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||51.1|-62.8|0.8370
92430840|NCT03851705|184748534|SUPERIORITY||Mean Difference (Final Values)|-12.7||||0.1371|TWO_SIDED|95.0|-29.5|4.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||4.2|-29.5|0.1371
92430841|NCT03851705|184748534|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.71|TWO_SIDED|95.0|-22.6|15.5||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||15.5|-22.6|0.7100
92430842|NCT03851705|184748534|SUPERIORITY||Mean Difference (Final Values)|-10.3||||0.2278|TWO_SIDED|95.0|-27.2|6.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||6.6|-27.2|0.2278
92430843|NCT03851705|184748536|SUPERIORITY||Mean Difference (Final Values)|-19.4||||0.2044|TWO_SIDED|95.0|-49.7|10.9||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||10.9|-49.7|0.2044
92430844|NCT03851705|184748536|SUPERIORITY||Mean Difference (Final Values)|-4.8||||0.7875|TWO_SIDED|95.0|-39.9|30.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||30.4|-39.9|0.7875
92430845|NCT03851705|184748536|SUPERIORITY||Mean Difference (Final Values)|-15.8||||0.3193|TWO_SIDED|95.0|-47.3|15.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||15.7|-47.3|0.3193
92237280|NCT00408421|184379068|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.164||95.0|-0.97|0.17||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.17|-0.97|0.164
92430846|NCT03851705|184748538|SUPERIORITY||Mean Difference (Final Values)|-10.1||||0.2877|TWO_SIDED|95.0|-29.0|8.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||8.8|-29.0|0.2877
92430847|NCT03851705|184748538|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.7944|TWO_SIDED|95.0|-19.7|25.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||25.7|-19.7|0.7944
92430848|NCT03851705|184748538|SUPERIORITY||Mean Difference (Final Values)|-5.1||||0.5803|TWO_SIDED|95.0|-23.4|13.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||13.3|-23.4|0.5803
92430849|NCT03851705|184748540|SUPERIORITY||Mean Difference (Final Values)|-19.1||||0.4848|TWO_SIDED|95.0|-73.6|35.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||35.3|-73.6|0.4848
92430850|NCT03851705|184748540|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.722|TWO_SIDED|95.0|-56.0|80.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||80.3|-56.0|0.7220
92430851|NCT03851705|184748540|SUPERIORITY||Mean Difference (Final Values)|-7.0||||0.8036|TWO_SIDED|95.0|-63.6|49.5||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||49.5|-63.6|0.8036
92430852|NCT03851705|184748548|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.6028|TWO_SIDED|95.0|-6.8|11.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||11.7|-6.8|0.6028
92430853|NCT03851705|184748548|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.8428|TWO_SIDED|95.0|-11.5|14.0||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||14.0|-11.5|0.8428
92430854|NCT03851705|184748548|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.4946|TWO_SIDED|95.0|-6.6|13.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||13.4|-6.6|0.4946
92430855|NCT03851705|184748550|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.9237|TWO_SIDED|95.0|-4.0|4.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||4.4|-4.0|0.9237
92430856|NCT03851705|184748550|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.7177|TWO_SIDED|95.0|-6.5|4.5||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||4.5|-6.5|0.7177
92430857|NCT03851705|184748550|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.5416|TWO_SIDED|95.0|-2.9|5.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||5.4|-2.9|0.5416
92430858|NCT03851705|184748552|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.6497|TWO_SIDED|95.0|-3.2|5.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||5.2|-3.2|0.6497
92430859|NCT03851705|184748552|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.3209|TWO_SIDED|95.0|-7.9|2.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||2.6|-7.9|0.3209
92430860|NCT03851705|184748552|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.9294|TWO_SIDED|95.0|-6.3|5.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||5.7|-6.3|0.9294
92430861|NCT03851705|184748554|SUPERIORITY||Mean Difference (Final Values)|11.3||||0.3105|TWO_SIDED|95.0|-10.8|33.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||33.4|-10.8|0.3105
92430862|NCT03851705|184748554|SUPERIORITY||Mean Difference (Final Values)|-11.4||||0.3018|TWO_SIDED|95.0|-33.3|10.5||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||10.5|-33.3|0.3018
92430863|NCT03851705|184748554|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.8755|TWO_SIDED|95.0|-27.0|31.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||31.6|-27.0|0.8755
92430864|NCT03851705|184748556|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.6848|TWO_SIDED|95.0|-11.5|7.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||7.6|-11.5|0.6848
92430865|NCT03851705|184748556|SUPERIORITY||Mean Difference (Final Values)|-5.4||||0.4075|TWO_SIDED|95.0|-18.5|7.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||7.6|-18.5|0.4075
92430866|NCT03851705|184748556|SUPERIORITY||Mean Difference (Final Values)|-2.8||||0.5998|TWO_SIDED|95.0|-13.4|7.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||7.8|-13.4|0.5998
92430867|NCT03851705|184748558|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.7958|TWO_SIDED|95.0|-8.4|6.5||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||6.5|-8.4|0.7958
92430868|NCT03851705|184748558|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.6003|TWO_SIDED|95.0|-12.7|7.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||7.4|-12.7|0.6003
92430869|NCT03851705|184748558|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.5352|TWO_SIDED|95.0|-11.0|5.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||5.8|-11.0|0.5352
92430870|NCT03851705|184748560|SUPERIORITY||Mean Difference (Final Values)|-8.9||||0.1716|TWO_SIDED|95.0|-21.8|4.0||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||4.0|-21.8|0.1716
92430871|NCT03851705|184748560|SUPERIORITY||Mean Difference (Final Values)|-19.0||||0.1671|TWO_SIDED|95.0|-46.2|8.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||8.2|-46.2|0.1671
92170962|NCT05644002|184230824|OTHER||Mean Difference (Final Values)|0.889||||0.66|TWO_SIDED|95.0|-3.149|4.927||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress intensity between the PTBT and Control conditions.||4.927|-3.149|.66
92237281|NCT00408421|184379069|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.63||||0.049||95.0|-1.25|0.0||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.00|-1.25|0.049
92430872|NCT03851705|184748560|SUPERIORITY||Mean Difference (Final Values)|-9.7||||0.1808|TWO_SIDED|95.0|-24.2|4.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||4.7|-24.2|0.1808
92430873|NCT03851705|184748562|SUPERIORITY||Mean Difference (Final Values)|-9.6||||0.3077|TWO_SIDED|95.0|-28.3|9.1||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||9.1|-28.3|0.3077
92430874|NCT03851705|184748562|SUPERIORITY||Mean Difference (Final Values)|-9.4||||0.3628|TWO_SIDED|95.0|-30.1|11.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||11.2|-30.1|0.3628
92430875|NCT03851705|184748562|SUPERIORITY||Mean Difference (Final Values)|-6.2||||0.4669|TWO_SIDED|95.0|-23.2|10.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||10.8|-23.2|0.4669
92430876|NCT03851705|184748568|SUPERIORITY||Mean Difference (Final Values)|-4.31||||0.6814|TWO_SIDED|95.0|-24.88|16.27|||ANCOVA|||||16.27|-24.88|0.6814
92430877|NCT03851705|184748569|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.8725|TWO_SIDED|95.0|-27.7|23.51|||ANCOVA|||||23.51|-27.70|0.8725
92430878|NCT03851705|184748570|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.9425|TWO_SIDED|95.0|-22.3|20.72|||ANCOVA|||||20.72|-22.30|0.9425
92430879|NCT03851705|184748571|SUPERIORITY||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.2|5.2|||Regression, Logistic|||||5.2|0.2|
92430880|NCT03617185|184748572|SUPERIORITY||Mean Difference (Net)|-1.98||||0.15|TWO_SIDED|95.0|-4.63|0.74||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.74|-4.63|0.15
92430881|NCT03617185|184748572|SUPERIORITY||Mean Difference (Net)|-2.33||||0.08|TWO_SIDED|95.0|-4.98|0.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.31|-4.98|0.08
92170963|NCT05644002|184230824|OTHER||t-statistic|0.439|||||TWO_SIDED||||||t-test, 2 sided|degrees of freedom = 66||An independent-samples t-test was conducted to examine differences in post-stress induction intensity between the PTBT and Control conditions.||||
92279753|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1999||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.1999
92279754|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0146||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.0146
92430882|NCT03617185|184748572|SUPERIORITY||Mean Difference (Net)|-1.84||||0.15|TWO_SIDED|95.0|-4.43|0.74||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.74|-4.43|0.15
92430883|NCT03617185|184748572|SUPERIORITY||Interaction term for difference in slope|0.07||||0.67|TWO_SIDED|95.0|-0.02|0.16||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.16|-0.02|0.67
92430884|NCT03617185|184748572|SUPERIORITY||Interaction term for difference in slope|0.09||||0.77|TWO_SIDED|95.0|0.002|0.19||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.19|0.002|0.77
92430885|NCT03617185|184748572|SUPERIORITY||Interaction term for difference in slope|0.07||||0.69|TWO_SIDED|95.0|-0.02|0.16||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.16|-0.02|0.69
92430886|NCT03617185|184748573|SUPERIORITY||Mean Difference (Net)|-0.98||||0.27|TWO_SIDED|95.0|-2.77|0.79||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.79|-2.77|0.27
92430887|NCT03617185|184748573|SUPERIORITY||Mean Difference (Net)|-1.09||||0.18|TWO_SIDED|95.0|-2.71|0.53||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.53|-2.71|0.18
92430888|NCT03617185|184748573|SUPERIORITY||Mean Difference (Net)|1.32||||0.21|TWO_SIDED|95.0|-0.82|3.48||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||3.48|-0.82|0.21
92430889|NCT03617185|184748573|SUPERIORITY||Interaction term for difference in slope|0.02||||0.66|TWO_SIDED|95.0|-0.05|0.09||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.09|-0.05|0.66
92430890|NCT03617185|184748573|SUPERIORITY||Interaction term for difference in slope|0.05||||0.25|TWO_SIDED|95.0|-0.02|0.11||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.11|-0.02|0.25
92430891|NCT03617185|184748573|SUPERIORITY||Interaction term for difference in slope|-0.06||||0.09|TWO_SIDED|95.0|-0.13|0.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.01|-0.13|0.09
92237282|NCT00408421|184379070|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51||||0.093||95.0|-1.1|0.08||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.08|-1.10|0.093
92430892|NCT03617185|184748574|SUPERIORITY||Mean Difference (Net)|0.06||||0.97|TWO_SIDED|95.0|-3.72|3.85||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||3.85|-3.72|0.97
92430893|NCT03617185|184748574|SUPERIORITY||Mean Difference (Net)|-3.82||||0.03|TWO_SIDED|95.0|-7.32|-0.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||-0.31|-7.32|0.03
92430894|NCT03617185|184748574|SUPERIORITY||Mean Difference (Net)|-1.56||||0.38|TWO_SIDED|95.0|-5.18|2.05||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||2.05|-5.18|0.38
92430895|NCT03617185|184748575|SUPERIORITY|||||||0.62||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.62
92430896|NCT03617185|184748575|SUPERIORITY|||||||0.95||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.95
92430897|NCT03617185|184748575|SUPERIORITY|||||||0.59||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.59
92430898|NCT03617185|184748576|SUPERIORITY||Mean Difference (Net)|0.3||||0.89|TWO_SIDED|95.0|-4.26|4.86||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||4.86|-4.26|0.89
92430899|NCT03617185|184748576|SUPERIORITY||Mean Difference (Net)|-0.43||||0.83|TWO_SIDED|95.0|-4.64|3.76||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||3.76|-4.64|0.83
92430900|NCT03617185|184748576|SUPERIORITY||Mean Difference (Net)|0.51||||0.82|TWO_SIDED|95.0|-4.27|5.3||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||5.3|-4.27|0.82
92430901|NCT03617185|184748576|SUPERIORITY||Interaction term for difference in slope|0.05||||0.51|TWO_SIDED|95.0|-0.11|0.21||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.21|-0.11|0.51
92430902|NCT03617185|184748576|SUPERIORITY||Interaction term for difference in slope|0.04||||0.6|TWO_SIDED|95.0|-0.11|0.19||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.19|-0.11|0.60
92430903|NCT03617185|184748576|SUPERIORITY||Mean Difference (Net)|0.002||||0.99|TWO_SIDED|95.0|-0.17|0.17||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.17|-0.17|0.99
92430904|NCT03617185|184748577|SUPERIORITY|||||||0.82||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.82
92430905|NCT03617185|184748577|SUPERIORITY|||||||0.21||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.21
92430906|NCT03617185|184748577|SUPERIORITY|||||||0.33||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.33
92430907|NCT03617185|184748578|SUPERIORITY||Mean Difference (Net)|0.02||||0.98|TWO_SIDED|95.0|-2.12|2.17||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||2.17|-2.12|0.98
92430908|NCT03617185|184748578|SUPERIORITY||Mean Difference (Net)|-0.35||||0.71|TWO_SIDED|95.0|-2.26|1.56||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||1.56|-2.26|0.71
92430909|NCT03617185|184748578|SUPERIORITY||Mean Difference (Net)|0.1||||0.92|TWO_SIDED|95.0|-2.1|2.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||2.31|-2.10|0.92
92430910|NCT03617185|184748578|SUPERIORITY||Interaction term for difference of slope|0.001||||0.98|TWO_SIDED|95.0|-0.08|0.08||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.08|-0.08|0.98
92430911|NCT03617185|184748578|SUPERIORITY||Interaction term for difference in slope|0.02||||0.66|TWO_SIDED|95.0|-0.06|0.1||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.10|-0.06|0.66
92430912|NCT03617185|184748578|SUPERIORITY||Interaction term for difference in slope|-0.02||||0.66|TWO_SIDED|95.0|-0.1|0.06||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.06|-0.10|0.66
92430913|NCT03617185|184748579|SUPERIORITY|||||||0.26||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.26
92430914|NCT03617185|184748579|SUPERIORITY|||||||0.58||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.58
92430915|NCT03617185|184748579|SUPERIORITY|||||||0.97||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.97
92237283|NCT00408421|184379071|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29||||0.287||95.0|-0.82|0.24||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.24|-0.82|0.287
92279755|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1185||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.1185
92279756|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.8705||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.8705
92237284|NCT00408421|184379072|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64||||0.033||95.0|-1.23|-0.05||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.05|-1.23|0.033
92170964|NCT05644002|184230824|OTHER||Hedge's g|-0.11|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction intensity between the PTBT and Control conditions.||||
92279757|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0284||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.0284
92430916|NCT03617185|184748580|SUPERIORITY|||||||0.25||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.25
92430917|NCT03617185|184748580|SUPERIORITY|||||||0.98||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.98
92430918|NCT03617185|184748580|SUPERIORITY|||||||0.88||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.88
92430919|NCT03617185|184748581|SUPERIORITY|||||||1|TWO_SIDED|||||The P-value tests whether the change in participant count (as either having retinopathy or not having retinopathy) from baseline to 2 years differs between the treatment and no-treatment groups.|Fisher Exact|||||||1
92430920|NCT03617185|184748581|SUPERIORITY|||||||1|TWO_SIDED|||||The P-value tests whether the change in participant count (as either having retinopathy or not having retinopathy) from baseline to 2 years differs between the treatment and no-treatment groups.|Fisher Exact|||||||1
92430921|NCT03617185|184748581|SUPERIORITY|||||||0.44|TWO_SIDED|||||The P-value tests whether the change in participant count (as either having retinopathy or not having retinopathy) from baseline to 2 years differs between the treatment and no-treatment groups.|Fisher Exact|||||||0.44
92430922|NCT03617185|184748582|SUPERIORITY||Mean Difference (Net)|0.05||||0.83|TWO_SIDED|95.0|-0.4|0.5||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal distal motor latency (ms)||0.50|-0.40|0.83
92430923|NCT03617185|184748582|SUPERIORITY||Mean Difference (Net)|-0.2||||0.33|TWO_SIDED|95.0|-0.62|0.21||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure -Peroneal distal motor latency (ms)||0.21|-0.62|0.33
92430924|NCT03617185|184748582|SUPERIORITY||Mean Difference (Net)|0.06||||0.75|TWO_SIDED|95.0|-0.36|0.49||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure -Peroneal distal motor latency (ms)||0.49|-0.36|0.75
92430925|NCT03617185|184748582|SUPERIORITY||Mean Difference (Net)|-0.13||||0.45|TWO_SIDED|95.0|-0.49|0.23||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Sural peak latency (ms)||0.23|-0.49|0.45
92430926|NCT03617185|184748582|SUPERIORITY||Mean Difference (Net)|-0.24||||0.13|TWO_SIDED|95.0|-0.57|0.08||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure -Sural peak latency (ms)||0.08|-0.57|0.13
92430927|NCT03617185|184748582|SUPERIORITY||Mean Difference (Net)|-0.41||||0.03|TWO_SIDED|95.0|-0.79|-0.03||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure -Sural peak latency (ms)||-0.03|-0.79|0.03
92430928|NCT03617185|184748582|SUPERIORITY||Mean Difference (Net)|0.5||||0.05|TWO_SIDED|95.0|-0.002|1.01||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial distal motor latency (ms)||1.01|-0.002|0.05
92430929|NCT03617185|184748582|SUPERIORITY||Mean Difference (Net)|0.48||||0.08|TWO_SIDED|95.0|-0.07|1.03||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial distal motor latency (ms)||1.03|-0.07|0.08
92430930|NCT03617185|184748582|SUPERIORITY||Mean Difference (Net)|0.21||||0.38|TWO_SIDED|95.0|-0.27|0.7||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial distal motor latency (ms)||0.70|-0.27|0.38
92237285|NCT00408421|184379073|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.78||||0.015||95.0|-1.4|-0.15||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.15|-1.40|0.015
92430931|NCT03617185|184748583|SUPERIORITY|||||||0.48||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal amplitude (mV)||||0.48
92430932|NCT03617185|184748583|SUPERIORITY|||||||0.31||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal amplitude (mV)||||0.31
92430933|NCT03617185|184748583|SUPERIORITY|||||||0.23||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal amplitude (mV)||||0.23
92430934|NCT03617185|184748583|SUPERIORITY|||||||0.65||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial amplitude (mV)||||0.65
92430935|NCT03617185|184748583|SUPERIORITY|||||||0.69||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial amplitude (mV)||||0.69
92430936|NCT03617185|184748583|SUPERIORITY|||||||0.69||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial amplitude (mV)||||0.69
92430937|NCT03617185|184748584|SUPERIORITY|||||||0.82||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Sural amplitude (µV)||||0.82
92430938|NCT03617185|184748584|SUPERIORITY|||||||0.26||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Sural amplitude (µV)||||0.26
92430939|NCT03617185|184748584|SUPERIORITY|||||||0.62||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Sural amplitude (µV)||||0.62
92430940|NCT03617185|184748585|SUPERIORITY|||||||0.82||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal CV (m/s)||||0.82
92430941|NCT03617185|184748585|SUPERIORITY|||||||0.27||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal CV (m/s)||||0.27
92430942|NCT03617185|184748585|SUPERIORITY|||||||0.52||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal CV (m/s)||||0.52
92430943|NCT03617185|184748586|SUPERIORITY|||||||0.32||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal F wave index (ms)||||0.32
92430944|NCT03617185|184748586|SUPERIORITY|||||||0.43||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal F wave index (ms)||||0.43
92430945|NCT03617185|184748586|SUPERIORITY|||||||0.48||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal F wave index (ms)||||0.48
92430946|NCT03617185|184748586|SUPERIORITY|||||||0.75||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial F wave index (ms)||||0.75
92430947|NCT03617185|184748586|SUPERIORITY|||||||0.09||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial F wave index (ms)||||0.09
92430948|NCT03617185|184748586|SUPERIORITY|||||||0.03||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial F wave index (ms)||||0.03
92430949|NCT03617185|184748587|SUPERIORITY||Mean Difference (Net)|-0.02||||0.79|TWO_SIDED|95.0|-0.16|0.129||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.129|-0.16|0.79
92430950|NCT03617185|184748587|SUPERIORITY||Mean Difference (Net)|-0.05||||0.46|TWO_SIDED|95.0|-0.2|0.01||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.01|-0.2|0.46
92430951|NCT03617185|184748587|SUPERIORITY||Mean Difference (Net)|-0.01||||0.24|TWO_SIDED|95.0|-0.26|0.07||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.07|-0.26|0.24
92430952|NCT03617185|184748587|SUPERIORITY||Interaction term for difference in slope|0.001||||0.98|TWO_SIDED|95.0|-0.01|0.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.01|-0.01|0.98
92430953|NCT03617185|184748587|SUPERIORITY||Interaction term for difference in slope|0.002||||0.49|TWO_SIDED|95.0|-0.004|0.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.01|-0.004|0.49
92430954|NCT03617185|184748587|SUPERIORITY||Interaction term for difference in slope|0.004||||0.17|TWO_SIDED|95.0|-0.002|0.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.01|-0.002|0.17
92237286|NCT00408421|184379074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.029||95.0|-1.06|-0.06||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.06|-1.06|0.029
92237287|NCT00408421|184379075|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Fisher Exact|||This study will also have at least 85% power to detect a treatment group difference of 25% in the response rates (≥30% reduction from baseline) based on the weekly mean of 24-hour average pain severity between duloxetine and placebo treatment groups.||||0.033
92237288|NCT00408421|184379076|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Fisher Exact|||This study will also have at least 85% power to detect a treatment group difference of 25% in the response rates (≥30% reduction from baseline) based on the weekly mean of 24-hour average pain severity between duloxetine and placebo treatment groups.||||0.075
92237289|NCT00408421|184379077|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.83||||0.088||95.0|-0.28|3.94||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||3.94|-0.28|0.088
92430955|NCT03617185|184748588|SUPERIORITY||Mean Difference (Net)|0.15||||0.07|TWO_SIDED|95.0|-0.01|0.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.31|-0.01|0.07
92430956|NCT03617185|184748588|SUPERIORITY||Mean Difference (Net)|0.024||||0.72|TWO_SIDED|95.0|-0.11|0.16||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.16|-0.11|0.72
92430957|NCT03617185|184748588|SUPERIORITY||Mean Difference (Net)|0.06||||0.33|TWO_SIDED|95.0|-0.06|0.19||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.19|-0.06|0.33
92430958|NCT03617185|184748589|SUPERIORITY||Mean Difference (Net)|0.064||||0.46|TWO_SIDED|95.0|-0.11|0.24||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.24|-0.11|0.46
92430959|NCT03617185|184748589|SUPERIORITY||Mean Difference (Net)|0.13||||0.15|TWO_SIDED|95.0|-0.04|0.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.31|-0.04|0.15
92430960|NCT03617185|184748589|SUPERIORITY||Mean Difference (Net)|0.11||||0.2|TWO_SIDED|95.0|-0.06|0.3||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.30|-0.06|0.20
92430961|NCT03617185|184748590|SUPERIORITY||Wilcoxon test statistic|10.0||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare within-participant change between baseline and 2 year for each treatment group||||0.07
92430962|NCT03617185|184748590|SUPERIORITY||Wilcoxon test statistic|3.0||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare within-participant change between baseline and 2 year for each treatment group||||0.34
92430963|NCT03617185|184748590|SUPERIORITY||Wilcoxon test statistic|2.5||||0.42|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare within-participant change between baseline and 2 year for each treatment group||||0.42
92430964|NCT03617185|184748590|SUPERIORITY||Wilcoxon test statistic|9.0||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare within-participant change between baseline and 2 year for each treatment group||||0.77
92430965|NCT03617185|184748591|SUPERIORITY||Mean Difference (Net)|-0.61||||0.21|TWO_SIDED|95.0|-1.5|0.35||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Questionnaire||0.35|-1.5|0.21
92430966|NCT03617185|184748591|SUPERIORITY||Mean Difference (Net)|-0.09||||0.85|TWO_SIDED|95.0|-0.98|0.8||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Questionnaire||0.80|-0.98|0.85
92430967|NCT03617185|184748591|SUPERIORITY||Mean Difference (Net)|0.46||||0.37|TWO_SIDED|95.0|-0.58|1.5||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Questionnaire||1.50|-0.58|0.37
92430968|NCT03617185|184748591|SUPERIORITY||Interaction term for difference in slope|1.0||||0.78|TWO_SIDED|95.0|0.99|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Questionnaire||1.02|0.99|0.78
92430969|NCT03617185|184748591|SUPERIORITY||Interaction term for difference in slope|0.99||||0.53|TWO_SIDED|95.0|0.98|1.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Questionnaire||1.01|0.98|0.53
92430970|NCT03617185|184748591|SUPERIORITY||Interaction term for difference in slope|0.98||||0.08|TWO_SIDED|95.0|0.96|1.0||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Questionnaire||1.00|0.96|0.08
92430971|NCT03617185|184748592|SUPERIORITY|||||||0.01||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.01
92430972|NCT03617185|184748592|SUPERIORITY|||||||0.04||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.04
92237290|NCT00408421|184379078|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.87||||0.08||95.0|-0.22|3.96||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||3.96|-0.22|0.080
92237291|NCT00408421|184379079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|||<|0.001||95.0|0.03|0.1||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.10|0.03|<0.001
92237292|NCT00408421|184379080|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.23||||0.641||95.0|-1.19|0.74||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.74|-1.19|0.641
92279758|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0399||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.0399
92279759|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0136||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.0136
92237293|NCT00408421|184379081|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.193||95.0|-1.17|0.24||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.24|-1.17|0.193
92239878|NCT00109733|184383693|SUPERIORITY_OR_OTHER|||||||0.177|||||||ANOVA|||"The null hypothesis (% change in trunk fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in trunk fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.177
92279760|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0576||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.0576
92430973|NCT03617185|184748592|SUPERIORITY|||||||0.47||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.47
92430974|NCT03617185|184748592|SUPERIORITY||Interaction term for difference in slope|0.98||||0.18|TWO_SIDED|95.0|0.96|1.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||1.01|0.96|0.18
92430975|NCT03617185|184748592|SUPERIORITY||Interaction term for difference in slope|0.99||||0.52|TWO_SIDED|95.0|0.96|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||1.02|0.96|0.52
92430976|NCT03617185|184748592|SUPERIORITY||Interaction term for difference in slope|1.0||||0.87|TWO_SIDED|95.0|0.97|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||1.02|0.97|0.87
92430977|NCT03617185|184748593|SUPERIORITY|||||||0.2||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.20
92430978|NCT03617185|184748593|SUPERIORITY|||||||0.57||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.57
92430979|NCT03617185|184748593|SUPERIORITY|||||||0.61||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.61
92430980|NCT03617185|184748594|SUPERIORITY||Mean Difference (Net)|0.73||||0.44|TWO_SIDED|-1.2|-1.2|2.67||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Total Score||2.67|-1.2|0.44
92430981|NCT03617185|184748594|SUPERIORITY||Mean Difference (Net)|-0.03||||0.97|TWO_SIDED|95.0|-2.16|2.1||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Total Score||2.10|-2.16|0.97
92430982|NCT03617185|184748594|SUPERIORITY||Mean Difference (Net)|0.4||||0.71|TWO_SIDED|95.0|-1.78|2.58||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Total Score||2.58|-1.78|0.71
92430983|NCT03617185|184748594|SUPERIORITY||Interaction term for difference in slope|1.0||||0.99|TWO_SIDED|95.0|0.98|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Total Score||1.02|0.98|0.99
92430984|NCT03617185|184748594|SUPERIORITY||Interaction term for difference in slope|1.0||||0.88|TWO_SIDED|95.0|0.98|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Total Score||1.02|0.98|0.88
92430985|NCT03617185|184748594|SUPERIORITY||Interaction term for difference in slope|0.99||||0.09|TWO_SIDED|95.0|0.97|1.0||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Total Score||1.00|0.97|0.09
92430986|NCT03617185|184748595|SUPERIORITY||Mean Difference (Net)|0.52||||0.78|TWO_SIDED|95.0|-3.41|4.45||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||4.45|-3.41|0.78
92430987|NCT03617185|184748595|SUPERIORITY||Mean Difference (Net)|-0.59||||0.63|TWO_SIDED|95.0|-3.14|1.95||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||1.95|-3.14|0.63
92430988|NCT03617185|184748595|SUPERIORITY||Mean Difference (Net)|1.01||||0.43|TWO_SIDED|95.0|-1.55|3.58||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||3.58|-1.55|0.43
92430989|NCT03617185|184748595|SUPERIORITY||Interaction term for difference in slope|0.99||||0.43|TWO_SIDED|95.0|0.98|1.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||1.01|0.98|0.43
92430990|NCT03617185|184748595|SUPERIORITY||Interaction term for difference in slope|1.0||||0.83|TWO_SIDED|95.0|0.98|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||1.02|0.98|0.83
92430991|NCT03617185|184748595|SUPERIORITY||Interaction term for difference in slope|0.97|||<|0.01|TWO_SIDED|95.0|0.94|0.99||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.99|0.94|<0.01
92430992|NCT03617185|184748596|SUPERIORITY||Mean Difference (Net)|-0.54||||0.84|TWO_SIDED|95.0|-6.68|5.59||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||5.59|-6.68|0.84
92430993|NCT03617185|184748596|SUPERIORITY||Mean Difference (Net)|2.7||||0.48|TWO_SIDED|95.0|-7.57|12.97||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||12.97|-7.57|0.48
92430994|NCT03617185|184748596|SUPERIORITY||Mean Difference (Net)|-0.87||||0.64|TWO_SIDED|95.0|-4.94|3.18||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||3.18|-4.94|0.64
92430995|NCT03617185|184748597|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|1.3||0.69|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.69
92430996|NCT03617185|184748597|SUPERIORITY||Median Difference (Net)|-0.3|STANDARD_DEVIATION|0.9||0.24|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.24
92430997|NCT03617185|184748597|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|1.1||0.45|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.45
92430998|NCT03617185|184748597|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|1.5||0.84|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.84
92430999|NCT03617185|184748598|SUPERIORITY||Mean Difference (Net)|-2.6||||0.09|TWO_SIDED|95.0|-5.66|0.44||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||Mcgill Total Score||0.44|-5.66|0.09
92431000|NCT03617185|184748598|SUPERIORITY||Mean Difference (Net)|-0.97||||0.56|TWO_SIDED|95.0|-4.36|2.41||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||Mcgill Total Score||2.41|-4.36|0.56
92170965|NCT05644002|184230825|OTHER||Mean Difference (Final Values)|-0.698||||0.77|TWO_SIDED|95.0|-5.443|4.046||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress-induction Pmax between the PTBT and Control conditions.||4.046|-5.443|.77
92170966|NCT05644002|184230825|OTHER||t-statistic|-0.294|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 66||An independent-samples t-test was conducted to examine differences in post-stress induction Pmax between the PTBT and Control conditions.||||
92170967|NCT05644002|184230825|OTHER||Hedge's g|-0.071|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction Pmax between the PTBT and Control conditions.||||
92170968|NCT05644002|184230826|OTHER||Mean Difference (Final Values)|-0.354||||0.9|TWO_SIDED|95.0|-6.009|5.3||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress-induction breakpoint between the PTBT and Control conditions.||5.300|-6.009|.90
92237294|NCT00408421|184379082|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA|ANOVA on ranked data.||An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Rank-transformed data will be used in the analysis given the view that the change scores for most of the laboratory analytes are not normally distributed. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||||0.003
92279761|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2245||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.2245
92431001|NCT03617185|184748598|SUPERIORITY||Mean Difference (Net)|-1.72||||0.21|TWO_SIDED|95.0|-4.5|1.05||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||Mcgill Total Score||1.05|-4.5|0.21
92431002|NCT03617185|184748599|SUPERIORITY|||||||0.62||||||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||||||0.62
92431003|NCT03617185|184748599|SUPERIORITY|||||||0.92||||||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||||||0.92
92431004|NCT03617185|184748599|SUPERIORITY|||||||0.9||||||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||||||0.90
92170969|NCT05644002|184230826|OTHER||t-statistic|-0.125|||||TWO_SIDED||||||t-test, 2 sided|degrees of freedom = 66||An independent-samples t-test was conducted to examine differences in post-stress induction breakpoint between the PTBT and Control conditions.||||
92170970|NCT05644002|184230826|OTHER||Hedge's g|-0.03|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction breakpoint between the PTBT and Control conditions.||||
92170971|NCT05644002|184230827|OTHER||Mean Difference (Final Values)|-0.748||||0.09|TWO_SIDED|95.0|-1.601|0.105||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ craving reduction between the PTBT and Control conditions.||.105|-1.601|.09
92170972|NCT05644002|184230827|OTHER||t-statistic|-1.75|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 65.261||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ craving reduction between the PTBT and Control conditions.||||
92279762|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1388||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.1388
92431005|NCT03617185|184748599|SUPERIORITY||Interaction term for difference in slope|-0.02||||0.46|TWO_SIDED|95.0|-0.06|0.03||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.03|-0.06|0.46
92431006|NCT03617185|184748599|SUPERIORITY||Interaction term for difference in slope|-0.02||||0.47|TWO_SIDED|95.0|-0.06|0.03||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.03|-0.06|0.47
92431007|NCT03617185|184748599|SUPERIORITY||Interaction term for difference in slope|0.003||||0.91|TWO_SIDED|95.0|-0.04|0.05||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.05|-0.04|0.91
92431008|NCT03617185|184748600|SUPERIORITY||Mean Difference (Net)|0.06||||0.83|TWO_SIDED|95.0|-0.53|0.65||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||NeuroQOL- overall QOL||0.65|-0.53|0.83
92431009|NCT03617185|184748600|SUPERIORITY||Mean Difference (Net)|0.01||||0.97|TWO_SIDED|95.0|-0.76|0.78||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||NeuroQOL- overall QOL||0.78|-0.76|0.97
92431010|NCT03617185|184748600|SUPERIORITY||Mean Difference (Net)|-0.09||||0.76|TWO_SIDED|95.0|-0.73|0.54||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||NeuroQOL- overall QOL||0.54|-0.73|0.76
92431011|NCT03617185|184748601|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_DEVIATION|2.6||0.58|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.58
92431012|NCT03617185|184748601|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|1.0||0.8|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.80
92431013|NCT03617185|184748601|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_DEVIATION|1.4||0.86|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.86
92431014|NCT03617185|184748601|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_DEVIATION|1.4||0.46|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.46
92431015|NCT03617185|184748602|SUPERIORITY||Mean Difference (Net)|-0.58|STANDARD_DEVIATION|2.7||0.38|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.38
92431016|NCT03617185|184748602|SUPERIORITY||Mean Difference (Net)|0.11|STANDARD_DEVIATION|1.15||0.72|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.72
92431017|NCT03617185|184748602|SUPERIORITY||Mean Difference (Net)|-0.31|STANDARD_DEVIATION|2.07||0.55|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.55
92431018|NCT03617185|184748602|SUPERIORITY||Mean Difference (Net)|0.57|STANDARD_DEVIATION|2.7||0.28|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.28
92431019|NCT03617185|184748603|SUPERIORITY|||||||0.54||||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.54
92431020|NCT03617185|184748603|SUPERIORITY|||||||1||||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||1.00
92431021|NCT03617185|184748603|SUPERIORITY|||||||0.77||||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.77
92279763|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0692||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.0692
92431022|NCT03617185|184748603|SUPERIORITY|||||||0.24||||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.24
92431023|NCT03617185|184748604|SUPERIORITY||Mean Difference (Net)|-2.0||||0.36|TWO_SIDED|95.0|-6.37|2.36||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||2.36|-6.37|0.36
92431024|NCT03617185|184748604|SUPERIORITY||Mean Difference (Net)|4.5|||<|0.01|TWO_SIDED|95.0|1.31|7.71||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||7.71|1.31|<0.01
92431025|NCT03617185|184748604|SUPERIORITY||Mean Difference (Net)|5.62||||0.3|TWO_SIDED|95.0|-5.37|16.63||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||16.63|-5.37|0.30
92431026|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|3.14||||0.16|TWO_SIDED|95.0|-1.3|7.58||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Inhibitory Control and Attention Test||7.58|-1.30|0.16
92431027|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|1.91||||0.33|TWO_SIDED|95.0|-2.05|5.88||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Inhibitory Control and Attention Test||5.88|-2.05|0.33
92431028|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|1.43||||0.49|TWO_SIDED|95.0|-2.72|5.59||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Inhibitory Control and Attention Test||5.59|-2.72|0.49
92431029|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|2.97||||0.35|TWO_SIDED|95.0|-3.48|9.44||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Dimensional Change Card Sort Test||9.44|-3.48|0.35
92431030|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|5.6||||0.1|TWO_SIDED|95.0|-3.48|9.44||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Dimensional Change Card Sort Test||9.44|-3.48|0.10
92431031|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|3.24||||0.32|TWO_SIDED|95.0|-3.34|9.82||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Dimensional Change Card Sort Test||9.82|-3.34|0.32
92431032|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|2.4||||0.49|TWO_SIDED|95.0|-4.57|9.37||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Picture Sequence Memory Test||9.37|-4.57|0.49
92431033|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|3.2||||0.3|TWO_SIDED|95.0|-3.03|9.56||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Picture Sequence Memory Test||9.56|-3.03|0.30
92431034|NCT03617185|184748605|SUPERIORITY||Median Difference (Net)|0.49||||0.86|TWO_SIDED|95.0|-5.4|6.38||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Picture Sequence Memory Test||6.38|-5.40|0.86
92431035|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|0.42||||0.88|TWO_SIDED|95.0|-5.39|6.24||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||List Sorting Working Memory Test||6.24|-5.39|0.88
92239879|NCT00109733|184383693|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANOVA|||"The null hypothesis (% change in trunk fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in trunk fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.004
92431036|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|0.6||||0.83|TWO_SIDED|95.0|-5.14|6.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||List Sorting Working Memory Test||6.31|-5.14|0.83
92431037|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|-0.62||||0.81|TWO_SIDED|95.0|-6.02|4.76||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||List Sorting Working Memory Test||4.76|-6.02|0.81
92431038|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|-5.29||||0.12|TWO_SIDED|95.0|-12.1|1.57||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Pattern Comparison Processing Speed Test||1.57|-12.1|0.12
92431039|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|-1.84||||0.63|TWO_SIDED|95.0|-9.53|5.84||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Pattern Comparison Processing Speed Test||5.84|-9.53|0.63
92431040|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|-2.87||||0.4|TWO_SIDED|95.0|-9.8|4.05||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Pattern Comparison Processing Speed Test||4.05|-9.80|0.40
92431041|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|1.04||||0.65|TWO_SIDED|95.0|-3.63|5.73||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Cognition Fluid Composite||5.73|-3.63|0.65
92431042|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|2.68||||0.27|TWO_SIDED|95.0|-2.17|7.54||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Cognition Fluid Composite||7.54|-2.17|0.27
92431043|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|0.27||||0.9|TWO_SIDED|95.0|-4.1|4.65||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Cognition Fluid Composite||4.65|-4.10|0.90
92431044|NCT03617185|184748605|SUPERIORITY||Interaction term for difference in slope|-0.02||||0.85|TWO_SIDED|95.0|-0.21|0.17||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Cognition Fluid Composite||0.17|-0.21|0.85
92431045|NCT03617185|184748605|SUPERIORITY||Interaction term for difference in slope|-0.1||||0.28|TWO_SIDED|95.0|-0.29|0.09||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Cognition Fluid Composite||0.09|-0.29|0.28
92431046|NCT03617185|184748605|SUPERIORITY||Mean Difference (Net)|0.001||||0.99|TWO_SIDED|95.0|-0.18|0.19||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Cognition Fluid Composite||0.19|-0.18|0.99
92431047|NCT03617185|184748606|SUPERIORITY||Mean Difference (Net)|-0.19||||0.57|TWO_SIDED|95.0|-0.87|0.49||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Auditory Learning||0.49|-0.87|0.57
92431048|NCT03617185|184748606|SUPERIORITY||Mean Difference (Net)|-0.26||||0.33|TWO_SIDED|95.0|-0.81|0.28||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Auditory Learning||0.28|-0.81|0.33
92431049|NCT03617185|184748606|SUPERIORITY||Median Difference (Net)|-0.38||||0.22|TWO_SIDED|95.0|-1.0|0.23||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Auditory Learning||0.23|-1.00|0.22
92431050|NCT03617185|184748606|SUPERIORITY||Mean Difference (Net)|0.29||||0.27|TWO_SIDED|95.0|-0.23|0.81||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Delayed Recall||0.81|-0.23|0.27
92431051|NCT03617185|184748606|SUPERIORITY||Mean Difference (Net)|-0.16||||0.54|TWO_SIDED|95.0|-0.69|0.37||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Delayed Recall||0.37|-0.69|0.54
92431052|NCT03617185|184748606|SUPERIORITY||Mean Difference (Net)|-0.02||||0.93|TWO_SIDED|95.0|-0.57|0.53||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Delayed Recall||0.53|-0.57|0.93
92431053|NCT03617185|184748606|SUPERIORITY||Mean Difference (Net)|0.14||||0.64|TWO_SIDED|95.0|-0.46|0.74||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Recognition||0.74|-0.46|0.64
92431054|NCT03617185|184748606|SUPERIORITY||Mean Difference (Net)|-0.21||||0.37|TWO_SIDED|95.0|-0.7|0.27||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Recognition||0.27|-0.70|0.37
92431055|NCT03617185|184748606|SUPERIORITY||Mean Difference (Net)|0.04||||0.88|TWO_SIDED|95.0|-0.59|0.69||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Recognition||0.69|-0.59|0.88
92431056|NCT01964430|184748608|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1824|TWO_SIDED|95.0|0.729|1.063|||Log Rank|Stratified by resection status (R0 versus R1) and nodal status (LN+ versus LN).|Estimated using stratified Cox proportional hazards model adjusting for strata of resection status (R0 versus R1) and nodal status (LN+ versus LN-).|||1.063|0.729|0.1824
92279764|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1058||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.1058
92431057|NCT01964430|184748609|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0128|TWO_SIDED|95.0|0.691|0.957|||Log Rank|Stratified by resection status (R0 versus. R1) and nodal status (LN+ versus. LN-)|Estimated using stratified Cox proportional hazards model adjusting for strata of resection status (R0 versus R1) and nodal status (LN+ versus|||0.957|0.691|0.0128
92431058|NCT02021773|184748656|SUPERIORITY||Mean Difference (Final Values)|-22.74|STANDARD_ERROR_OF_MEAN|10.937||0.0386|TWO_SIDED|95.0|-44.28|-1.21||The threshold for statistical significance was p = .05.|Mixed Models Analysis|||||-1.21|-44.28|0.0386
92431059|NCT02021773|184748656|SUPERIORITY||Mean Difference (Final Values)|-30.41|STANDARD_ERROR_OF_MEAN|10.9||0.0057|TWO_SIDED|95.0|-51.88|-8.95||The threshold for statistical significance was p = .05.|Mixed Models Analysis|||||-8.95|-51.88|0.0057
92431060|NCT00191139|184748684|SUPERIORITY_OR_OTHER||survival rate|40.6||||||95.0|23.8|56.8|||normal approximation|Count the number of surviving participants at each time interval to get survival rates.||||56.8|23.8|
92431061|NCT00191139|184748684|SUPERIORITY_OR_OTHER||survival rate|55.7||||||95.0|36.8|70.9|||normal approximation|Count the number of surviving participants at each time interval to get survival rates.||||70.9|36.8|
92431062|NCT00191139|184748685|SUPERIORITY_OR_OTHER||Response Rate|75.0||||||95.0|56.6|88.5|||normal approximation|||||88.5|56.6|
92431063|NCT00191139|184748685|SUPERIORITY_OR_OTHER||Response rate|84.4||||||95.0|67.2|94.7|||Normal approximation|||||94.7|67.2|
92431064|NCT00191139|184748686|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Log Rank|||||||0.08
92431065|NCT00191139|184748687|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||Log Rank|||||||0.38
92431066|NCT01817530|184748689|SUPERIORITY||Odds Ratio (OR)|32.51|||<|0.001|TWO_SIDED|95.0|11.12|95.05||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||95.05|11.12|< 0.001
92431067|NCT01817530|184748689|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431068|NCT01817530|184748689|SUPERIORITY||Odds Ratio (OR)|16.66|||<|0.001|TWO_SIDED|95.0|6.72|41.3||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||41.3|6.72|< 0.001
92431069|NCT01817530|184748689|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431070|NCT01817530|184748689|SUPERIORITY||Odds Ratio (OR)|11.13|||<|0.001|TWO_SIDED|95.0|4.79|25.84||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||25.84|4.79|< 0.001
92431071|NCT01817530|184748689|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431072|NCT01817530|184748689|SUPERIORITY||Odds Ratio (OR)|19.62|||<|0.001|TWO_SIDED|95.0|7.81|49.27||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||49.27|7.81|< 0.001
92431073|NCT01817530|184748689|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431074|NCT01817530|184748689|SUPERIORITY||Odds Ratio (OR)|6.02|||<|0.001|TWO_SIDED|95.0|2.95|12.3||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||12.3|2.95|< 0.001
92431075|NCT01817530|184748689|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431076|NCT01817530|184748689|SUPERIORITY||Odds Ratio (OR)|10.34|||<|0.001|TWO_SIDED|95.0|4.79|22.34||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||22.34|4.79|< 0.001
92431077|NCT01817530|184748689|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431078|NCT01817530|184748690|SUPERIORITY||Odds Ratio (OR)|156.17|||<|0.001|TWO_SIDED|95.0|38.04|641.22||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||641.22|38.04|< 0.001
92431079|NCT01817530|184748690|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431080|NCT01817530|184748690|SUPERIORITY||Odds Ratio (OR)|66.07|||<|0.001|TWO_SIDED|95.0|21.1|206.88||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||206.88|21.1|< 0.001
92431081|NCT01817530|184748690|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431082|NCT01817530|184748690|SUPERIORITY||Odds Ratio (OR)|52.15|||<|0.001|TWO_SIDED|95.0|17.42|156.09||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||156.09|17.42|< 0.001
92431083|NCT01817530|184748690|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431084|NCT01817530|184748690|SUPERIORITY||Odds Ratio (OR)|25.45|||<|0.001|TWO_SIDED|95.0|10.45|61.96||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||61.96|10.45|< 0.001
92431085|NCT01817530|184748690|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92170973|NCT05644002|184230827|OTHER||Hedge's g|-0.405|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction mCEQ craving reduction between the PTBT and Control conditions.||||
92237295|NCT00408421|184379083|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA|ANOVA on ranked data.||An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Rank-transformed data will be used in the analysis given the view that the change scores for most of the laboratory analytes are not normally distributed. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||||0.026
92431086|NCT01817530|184748690|SUPERIORITY||Odds Ratio (OR)|9.65|||<|0.001|TWO_SIDED|95.0|4.38|21.25||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||21.25|4.38|< 0.001
92431087|NCT01817530|184748690|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431088|NCT01817530|184748690|SUPERIORITY||Odds Ratio (OR)|16.17|||<|0.001|TWO_SIDED|95.0|7.13|36.67||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||36.67|7.13|< 0.001
92431089|NCT01817530|184748690|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431090|NCT01817530|184748691|SUPERIORITY||Odds Ratio (OR)|123.14|||<|0.001|TWO_SIDED|95.0|25.93|584.85||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||584.85|25.93|< 0.001
92431091|NCT01817530|184748691|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431092|NCT01817530|184748691|SUPERIORITY||Odds Ratio (OR)|40.56|||<|0.001|TWO_SIDED|95.0|13.59|121.03||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||121.03|13.59|< 0.001
92431093|NCT01817530|184748691|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431094|NCT01817530|184748691|SUPERIORITY||Odds Ratio (OR)|19.01|||<|0.001|TWO_SIDED|95.0|7.44|48.58||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||48.58|7.44|< 0.001
92431095|NCT01817530|184748691|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92170974|NCT05644002|184230828|OTHER||Mean Difference (Final Values)|0.184||||0.666|TWO_SIDED|95.0|-0.663|1.031||The threshold for statistical significance was p\<.05|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ psychological reward between the PTBT and Control conditions.||1.031|-.663|.666
92431096|NCT01817530|184748691|SUPERIORITY||Odds Ratio (OR)|22.77|||<|0.001|TWO_SIDED|95.0|9.29|55.77||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||55.77|9.29|< 0.001
92431097|NCT01817530|184748691|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431098|NCT01817530|184748691|SUPERIORITY||Odds Ratio (OR)|10.89|||<|0.001|TWO_SIDED|95.0|4.88|24.27||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||24.27|4.88|< 0.001
92431099|NCT01817530|184748691|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431100|NCT01817530|184748691|SUPERIORITY||Odds Ratio (OR)|9.72|||<|0.001|TWO_SIDED|95.0|4.46|21.22||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||21.22|4.46|< 0.001
92431101|NCT01817530|184748691|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431102|NCT01817530|184748692|SUPERIORITY||Odds Ratio (OR)|24.73|||<|0.001|TWO_SIDED|95.0|8.57|71.32||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||71.32|8.57|< 0.001
92431103|NCT01817530|184748692|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431104|NCT01817530|184748692|SUPERIORITY||Odds Ratio (OR)|17.21|||<|0.001|TWO_SIDED|95.0|6.57|45.05||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||45.05|6.57|< 0.001
92431105|NCT01817530|184748692|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431106|NCT01817530|184748692|SUPERIORITY||Odds Ratio (OR)|8.69|||<|0.001|TWO_SIDED|95.0|3.79|19.92||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||19.92|3.79|< 0.001
92431107|NCT01817530|184748692|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431108|NCT01817530|184748692|SUPERIORITY||Odds Ratio (OR)|18.67|||<|0.001|TWO_SIDED|95.0|7.11|49.02||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||49.02|7.11|< 0.001
92431109|NCT01817530|184748692|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431110|NCT01817530|184748692|SUPERIORITY||Odds Ratio (OR)|4.94|||<|0.001|TWO_SIDED|95.0|2.43|10.04||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||10.04|2.43|< 0.001
92431111|NCT01817530|184748692|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431112|NCT01817530|184748692|SUPERIORITY||Odds Ratio (OR)|11.76|||<|0.001|TWO_SIDED|95.0|5.17|26.79|||Regression, Logistic|P value is from a logistic regression model including treatment as the main effect and baseline value as a covariate.||||26.79|5.17|< 0.001
92431113|NCT01817530|184748692|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431114|NCT01817530|184748693|SUPERIORITY||Odds Ratio (OR)|31.48|||<|0.001|TWO_SIDED|95.0|10.02|98.83||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||98.83|10.02|< 0.001
92431115|NCT01817530|184748693|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431116|NCT01817530|184748693|SUPERIORITY||Odds Ratio (OR)|14.39|||<|0.001|TWO_SIDED|95.0|5.77|35.91||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||35.91|5.77|< 0.001
92431117|NCT01817530|184748693|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431118|NCT01817530|184748693|SUPERIORITY||Odds Ratio (OR)|9.82|||<|0.001|TWO_SIDED|95.0|4.23|22.8||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||22.8|4.23|< 0.001
92431119|NCT01817530|184748693|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431120|NCT01817530|184748693|SUPERIORITY||Odds Ratio (OR)|16.58|||<|0.001|TWO_SIDED|95.0|6.66|41.26||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||41.26|6.66|< 0.001
92431121|NCT01817530|184748693|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431122|NCT01817530|184748693|SUPERIORITY||Odds Ratio (OR)|7.02|||<|0.001|TWO_SIDED|95.0|3.36|14.68||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||14.68|3.36|< 0.001
92431123|NCT01817530|184748693|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431124|NCT01817530|184748693|SUPERIORITY||Odds Ratio (OR)|10.73|||<|0.001|TWO_SIDED|95.0|4.85|23.76||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||23.76|4.85|< 0.001
92431125|NCT01817530|184748693|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
92431126|NCT01817530|184748694|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431127|NCT01817530|184748694|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431128|NCT01817530|184748694|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431129|NCT01817530|184748694|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431130|NCT01817530|184748694|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431131|NCT01817530|184748694|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431132|NCT01817530|184748695|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431133|NCT01817530|184748695|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431134|NCT01817530|184748695|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431135|NCT01817530|184748695|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431136|NCT01817530|184748695|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431137|NCT01817530|184748695|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92431138|NCT01817530|184748696|SUPERIORITY||difference in LS mean change|-3.7|STANDARD_ERROR_OF_MEAN|1.32||0.007|TWO_SIDED|95.0|-6.28|-1.03||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-1.03|-6.28|0.007
92431139|NCT01817530|184748696|SUPERIORITY||difference in LS mean change|-1.5|STANDARD_ERROR_OF_MEAN|0.98||0.132|TWO_SIDED|95.0|-3.44|0.46||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||0.46|-3.44|0.132
92431140|NCT01817530|184748696|SUPERIORITY||difference in LS mean change|0.1|STANDARD_ERROR_OF_MEAN|0.94||0.876|TWO_SIDED|95.0|-1.71|2.0||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||2.00|-1.71|0.876
92431141|NCT01817530|184748696|SUPERIORITY||difference in LS mean change|-1.9|STANDARD_ERROR_OF_MEAN|1.0||0.055|TWO_SIDED|95.0|-3.92|0.04||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||0.04|-3.92|0.055
92237296|NCT00408421|184379084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8||||0.459||95.0|-1.32|2.92||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA||Mean Difference = Duloxetine minus Placebo|An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||2.92|-1.32|0.459
92237297|NCT00408421|184379085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.09||||0.326||95.0|-1.1|3.28||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA||Mean Difference = Duloxetine minus Placebo|An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||3.28|-1.10|0.326
92279765|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2688||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.2688
92431142|NCT01817530|184748696|SUPERIORITY||difference in LS mean change|0.1|STANDARD_ERROR_OF_MEAN|0.82||0.898|TWO_SIDED|95.0|-1.52|1.74||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.74|-1.52|0.898
92431143|NCT01817530|184748696|SUPERIORITY||difference in LS mean change|-0.4|STANDARD_ERROR_OF_MEAN|0.81||0.59|TWO_SIDED|95.0|-2.05|1.17||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.17|-2.05|0.59
92431144|NCT01817530|184748697|SUPERIORITY||difference in LS mean change|-1.0|STANDARD_ERROR_OF_MEAN|0.31||0.001|TWO_SIDED|95.0|-1.64|-0.42||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-0.42|-1.64|0.001
92431145|NCT01817530|184748697|SUPERIORITY||difference in LS mean change|-1.0|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.42|-0.48||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-0.48|-1.42|< 0.001
92431146|NCT01817530|184748697|SUPERIORITY||difference in LS mean change|-0.7|STANDARD_ERROR_OF_MEAN|0.22||0.002|TWO_SIDED|95.0|-1.12|-0.25||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-0.25|-1.12|0.002
92431147|NCT01817530|184748697|SUPERIORITY||difference in LS mean change|-0.5|STANDARD_ERROR_OF_MEAN|0.29||0.118|TWO_SIDED|95.0|-1.04|0.12||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||0.12|-1.04|0.118
92431148|NCT01817530|184748697|SUPERIORITY||difference in LS mean change|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.004|TWO_SIDED|95.0|-1.16|-0.22||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-0.22|-1.16|0.004
92431149|NCT01817530|184748697|SUPERIORITY||difference in LS mean change|-1.0|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.51|-0.59||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-0.59|-1.51|< 0.001
92431150|NCT01817530|184748698|SUPERIORITY||difference in LS mean change|-0.5|STANDARD_ERROR_OF_MEAN|0.16||0.004|TWO_SIDED|95.0|-0.79|-0.15||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||-0.15|-0.79|0.004
92431151|NCT01817530|184748698|SUPERIORITY||difference in LS mean change|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.314|TWO_SIDED|95.0|-0.4|0.13||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||0.13|-0.4|0.314
92431152|NCT01817530|184748698|SUPERIORITY||difference in LS mean change|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.307|TWO_SIDED|95.0|-0.12|0.39||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||0.39|-0.12|0.307
92431153|NCT01817530|184748698|SUPERIORITY||difference in LS mean change|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.106|TWO_SIDED|95.0|-0.58|0.06||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||0.06|-0.58|0.106
92431154|NCT01817530|184748698|SUPERIORITY||difference in LS mean change|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.424|TWO_SIDED|95.0|-0.36|0.15||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||0.15|-0.36|0.424
92431155|NCT01817530|184748698|SUPERIORITY||difference in LS mean change|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.528|TWO_SIDED|95.0|-0.18|0.35||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||0.35|-0.18|0.528
92431156|NCT01817530|184748699|SUPERIORITY||difference in LS means|1.3|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|0.8|1.74||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.74|0.80|< 0.001
92170975|NCT05644002|184230828|OTHER||t-statistic|0.184|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 73||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ psychological reward between the PTBT and Control conditions.||||
92239880|NCT00109733|184383694|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANOVA|||"The null hypothesis (% change in lean body mass (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in lean body mass (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.004
92431157|NCT01817530|184748699|SUPERIORITY||difference in LS means|1.3|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|0.78|1.72||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.72|0.78|< 0.001
92431158|NCT01817530|184748699|SUPERIORITY||difference in LS means|0.8|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|0.33|1.27||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.27|0.33|< 0.001
92431159|NCT01817530|184748699|SUPERIORITY||difference in LS means|1.1|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|0.65|1.52||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.52|0.65|< 0.001
92431160|NCT01817530|184748699|SUPERIORITY||difference in LS means|0.7|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|0.29|1.16||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.16|0.29|< 0.001
92431161|NCT01817530|184748699|SUPERIORITY||difference in LS means|0.8|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|0.4|1.26||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.26|0.4|< 0.001
92431162|NCT01817530|184748700|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431163|NCT01817530|184748700|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431164|NCT01817530|184748700|SUPERIORITY|||||||0.018||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||0.018
92431165|NCT01817530|184748700|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431166|NCT01817530|184748700|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431167|NCT01817530|184748700|SUPERIORITY|||||||0.021||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||0.021
92431168|NCT01817530|184748700|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92431169|NCT01817530|184748700|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92431170|NCT01817530|184748700|SUPERIORITY|||||||0.032||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.032
92170976|NCT05644002|184230828|OTHER||Hedge's g|0.099|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction mCEQ psychological reward between the PTBT and Control conditions.||||
92431171|NCT01817530|184748700|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92431172|NCT01817530|184748700|SUPERIORITY|||||||0.007||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.007
92431173|NCT01817530|184748700|SUPERIORITY|||||||0.495||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.495
92431174|NCT01817530|184748700|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431175|NCT01817530|184748700|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431176|NCT01817530|184748700|SUPERIORITY|||||||0.015||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.015
92431177|NCT01817530|184748700|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431178|NCT01817530|184748700|SUPERIORITY|||||||0.002||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.002
92431179|NCT01817530|184748700|SUPERIORITY|||||||0.329||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.329
92431180|NCT01817530|184748701|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92237298|NCT00408421|184379086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.16||||0.069||95.0|-0.25|6.56||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA||Mean Difference = Duloxetine minus Placebo|An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||6.56|-0.25|0.069
92237299|NCT00408421|184379087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.54||||0.107||95.0|-1.2|0.12||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA||Mean Difference = Duloxetine minus Placebo|An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.12|-1.20|0.107
92237300|NCT02772965|184379088|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.08|TWO_SIDED|95.0|0.45|1.05|||Log Rank|||||1.05|0.45|0.08
92431181|NCT01817530|184748701|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92237301|NCT02772965|184379089|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.4||0.32|TWO_SIDED||||||Mixed Models Analysis|||||||0.32
92237302|NCT02772965|184379090|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|1.8||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||0.69
92431182|NCT01817530|184748701|SUPERIORITY|||||||0.036||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||0.036
92431183|NCT01817530|184748701|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431184|NCT01817530|184748701|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431185|NCT01817530|184748701|SUPERIORITY|||||||0.04||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||||||0.040
92431186|NCT01817530|184748701|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92431187|NCT01817530|184748701|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||||||< 0.001
92431188|NCT01817530|184748701|SUPERIORITY|||||||0.098||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.098
92237303|NCT02772965|184379091|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|1.6||0.72|TWO_SIDED||||||Mixed Models Analysis|||||||0.72
92279766|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0192||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.0192
92431189|NCT01817530|184748701|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92431190|NCT01817530|184748701|SUPERIORITY|||||||0.014||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.014
92237304|NCT02772965|184379092|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|1.9||0.64|TWO_SIDED||||||Mixed Models Analysis|||||||0.64
92237305|NCT02772965|184379093|SUPERIORITY||Risk Ratio (RR)|0.71||||0.08|TWO_SIDED|95.0|0.49|1.04|||Chi-squared|||||1.04|0.49|0.08
92237306|NCT00494871|184379099|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 2.0|Hazard Ratio (HR)|1.11||||0.025|TWO_SIDED|95.0|0.87|1.42|||Regression, Cox|||||1.42|0.87|0.025
92237307|NCT00494871|184379100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||||TWO_SIDED|95.0|0.24|1.0||||||||1.00|0.24|
92237308|NCT00494871|184379101|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.34|1.22||||||||1.22|0.34|
92237309|NCT00494871|184379102|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.41|1.34||||||||1.34|0.41|
92431191|NCT01817530|184748701|SUPERIORITY|||||||0.409||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.409
92431192|NCT01817530|184748701|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431193|NCT01817530|184748701|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431194|NCT01817530|184748701|SUPERIORITY|||||||0.094||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.094
92431195|NCT01817530|184748701|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431196|NCT01817530|184748701|SUPERIORITY|||||||0.002||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.002
92431197|NCT01817530|184748701|SUPERIORITY|||||||0.393||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.393
92237310|NCT00494871|184379103|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.22|0.98||||||||0.98|0.22|
92237311|NCT00494871|184379104|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.06|15.85||||||||15.85|0.06|
92431198|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431199|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431200|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431201|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431202|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
92431203|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92431204|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92431205|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92431206|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92237312|NCT00494871|184379105|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.93|||||TWO_SIDED|95.0|0.3|28.16||||||||28.16|0.30|
92279767|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0033||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.0033
92431207|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92431208|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
92431209|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431210|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431211|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431212|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431213|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92237313|NCT00494871|184379106|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.97|||||TWO_SIDED|95.0|0.6|14.7||||||||14.70|0.60|
92237314|NCT00494871|184379107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.48|||||TWO_SIDED|95.0|0.16|1.4||||||||1.40|0.16|
92237315|NCT00494871|184379108|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.37|||||TWO_SIDED|95.0|0.43|4.31||||||||4.31|0.43|
92237316|NCT00494871|184379109|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.5|1.43||||||||1.43|0.50|
92237317|NCT00494871|184379110|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.92|1.56||||||||1.56|0.92|
92237318|NCT03825042|184379111|SUPERIORITY||Mean Difference (Final Values)|-21.01||||0|TWO_SIDED|95.0|-26.8|-15.2|||ANCOVA|||||-15.20|-26.80|0.0000
92431214|NCT01817530|184748702|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
92431215|NCT01817530|184748703|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
92431216|NCT01817530|184748703|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
92431217|NCT01817530|184748703|SUPERIORITY|||||||0.02||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.020
92431218|NCT01817530|184748703|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
92431219|NCT01817530|184748703|SUPERIORITY|||||||0.002||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.002
92431220|NCT01817530|184748703|SUPERIORITY|||||||0.061||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.061
92237319|NCT03825042|184379112|SUPERIORITY||Mean Difference (Final Values)|-6.08||||0|TWO_SIDED|95.0|-8.45|-3.61|||ANCOVA|||||-3.61|-8.45|0.0000
92431221|NCT01817530|184748703|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
92431222|NCT01817530|184748703|SUPERIORITY|||||||0.004||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.004
92431223|NCT01817530|184748703|SUPERIORITY|||||||0.085||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.085
92431224|NCT01817530|184748703|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
92431225|NCT01817530|184748703|SUPERIORITY|||||||0.012||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.012
92431226|NCT01817530|184748703|SUPERIORITY|||||||0.049||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.049
92431227|NCT01817530|184748703|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
92431228|NCT01817530|184748703|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
92431229|NCT01817530|184748703|SUPERIORITY|||||||0.056||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.056
92431230|NCT01817530|184748703|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
92431231|NCT01817530|184748703|SUPERIORITY|||||||0.005||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.005
92431232|NCT01817530|184748703|SUPERIORITY|||||||0.088||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.088
92431233|NCT01817530|184748704|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
92431234|NCT01817530|184748704|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
92431235|NCT01817530|184748704|SUPERIORITY|||||||0.188||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.188
92431236|NCT01817530|184748704|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
92431237|NCT01817530|184748704|SUPERIORITY|||||||0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.001
92431238|NCT01817530|184748704|SUPERIORITY|||||||0.104||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.104
92431239|NCT01817530|184748704|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
92431240|NCT01817530|184748704|SUPERIORITY|||||||0.021||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.021
92431241|NCT01817530|184748704|SUPERIORITY|||||||0.859||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.859
92431242|NCT01817530|184748704|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
92431243|NCT01817530|184748704|SUPERIORITY|||||||0.006||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.006
92431244|NCT01817530|184748704|SUPERIORITY|||||||0.015||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.015
92237320|NCT03825042|184379113|SUPERIORITY||Mean Difference (Final Values)|-14.56||||0|TWO_SIDED|95.0|-20.02|-9.11|||ANCOVA|||||-9.11|-20.02|0.0000
92237321|NCT00521339|184379145|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
92237322|NCT00521339|184379146|SUPERIORITY_OR_OTHER_LEGACY|||||||0.074|||||||Wilcoxon (Mann-Whitney)|||||||0.074
92170977|NCT05644002|184230829|OTHER||β|0.026||||0.73|TWO_SIDED|95.0|-0.358|0.507||The threshold for statistical significance was p\<.05.|Regression, Linear|Coding: Control=0, PTBT=1.||A multiple linear regression test was conducted to examine whether the PTBT intervention (versus control) significantly predicted post-stress-induction respiratory sinus arrhythmia during smoking, while controlling for average baseline respiratory sinus arrhythmia at step 1 of the model.||.507|-.358|.73
92170978|NCT05644002|184230829|OTHER||t-statistic|0.345|||||TWO_SIDED||||||Regression, Linear|degrees freedom = (2, 73)|Condition (0=control; 1=PTBT)|A multiple linear regression test was conducted to examine whether the PTBT intervention (versus control) significantly predicted post-stress induction respiratory sinus arrhythmia during smoking, while controlling for average baseline respiratory sinus arrythmia at step 1 of the model.||||
92170979|NCT05644002|184230830|OTHER||Mean Difference (Final Values)|-0.543||||0.001|TWO_SIDED|95.0|-0.772|-0.314||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \< .05, equal variances are not assumed and reported results are adjusted accordingly.||An independent samples t-test was conducted to examine differences in post-stress-induction average puff duration between PTBT and Control conditions.||-.314|-.772|.001
92170980|NCT05644002|184230830|OTHER||t-statistic|-4.739|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 66.03||An independent samples t-test was conducted to examine differences in post-stress-induction average puff duration between PTBT and Control conditions.||||
92170981|NCT05644002|184230830|OTHER||Hedge's g|-1.05|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction average puff duration between the PTBT and Control conditions.||||
92170982|NCT03821844|184230883|SUPERIORITY||marginal interaction effect|1.33|STANDARD_ERROR_OF_MEAN|1.38|<|0.05|TWO_SIDED|95.0|-1.37|4.03|||Differences-in-Differences regression||||"Fixed effects: age, sex, race, activities of daily living score, cognitive function score, psychotic disorder, bipolar disease, depression, anxiety, dementia, antidepressant use, antianxietal use, antipsychotic use, corporation, time from Minimum Data Set (MDS) collection to Cohen-Mansfield Agitation Inventory (CMAI) score (exclusive to CMAI model), baseline Agitation and Reactive Behavior Scale (ARBS) (exclusive to CMAI model), baseline CMAI (exclusive to ARBS and ARBS-CMAI model), indicator of baseline/follow-up score, treatment group, interaction of baseline/follow-up measure, and treatment group.~Random effects: random intercept for nursing home, random intercept for the interaction of baseline/follow-up measure and nursing home, random intercept for data collector (exclusive to CMAI model), and random intercept for individual."|4.03|-1.37|< 0.05
92170983|NCT03821844|184230884|SUPERIORITY||marginal interaction effect|0.06|||<|0.05|TWO_SIDED|95.0|0.03|0.09|||Differences-in-Differences regression||Reported estimation details pertain to the None category.||"The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models. All models adjust for resident baseline covariates, an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. The reference category for the multinomial model for each outcome is None. To address baseline differences in the proportion of individuals at each level of the ordinal outcomes between treatment and control groups, we report the marginal time by intervention interaction."|0.09|0.03|< 0.05
92237323|NCT00521339|184379147|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
92237324|NCT00521339|184379148|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92237325|NCT00521339|184379149|SUPERIORITY_OR_OTHER_LEGACY|||||||0.632|||||||Wilcoxon (Mann-Whitney)|||||||0.632
92170984|NCT03821844|184230885|SUPERIORITY||Marginal Interaction Effect|-0.11|STANDARD_ERROR_OF_MEAN|0.1|<|0.05|TWO_SIDED|95.0|-0.3|0.08|||Differences-in-Differences regression||||"Fixed effect covariates: age, sex, race, activities of daily living score, cognitive function score, psychotic disorder, bipolar disease, depression, anxiety, dementia, antidepressant use, antianxietal use, antipsychotic use, nursing home corporation, time from Minimum Data Set (MDS) collection to Cohen-Mansfield Agitation Inventory (CMAI) score (exclusive to CMAI model), baseline Agitation and Reactive Behavior Score (ARBS) (exclusive to CMAI model), baseline CMAI (exclusive to ARBS and ARBS-CMAI model), indicator of baseline/follow-up score, treatment group, interaction of baseline/follow-up measure, and treatment group.~Random effects: random intercept for nursing home, random intercept for the interaction of baseline/follow-up measure and nursing home, random intercept for data collector (exclusive to CMAI model), and random intercept for individual."|0.08|-0.30|< 0.05
92170985|NCT03821844|184230886|SUPERIORITY||average marginal effect|-3.61|STANDARD_ERROR_OF_MEAN|1.85|<|0.05|TWO_SIDED|95.0|-7.22|0.0|||Differences-in-Differences regression||||Variables included in the model: baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, agitation and reactive behavior (ARBS) score, date of assessment, treatment group, and facility-level random effect.|0.00|-7.22|< 0.05
92170986|NCT03821844|184230887|SUPERIORITY||average marginal effect|-3.47|STANDARD_ERROR_OF_MEAN|2.08|<|0.05|TWO_SIDED|95.0|-7.55|0.06|||Differences-in-Differences regression||||Variables included in the model: baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, agitation and reactive behavior (ARBS) score, date of assessment, treatment group, and facility-level random effect.|0.06|-7.55|< 0.05
92237326|NCT00521339|184379150|SUPERIORITY_OR_OTHER_LEGACY|||||||0.242|||||||Wilcoxon (Mann-Whitney)|||||||0.242
92237327|NCT00521339|184379151|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329|||||||Wilcoxon (Mann-Whitney)|||||||0.329
92237328|NCT00521339|184379152|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.130
92237329|NCT00521339|184379154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.008
92237330|NCT00521339|184379155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||||||0.031
92237331|NCT00521339|184379156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
92237332|NCT00521339|184379158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
92237333|NCT00521339|184379159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||0.015
92237334|NCT00521339|184379160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
92237335|NCT00521339|184379161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
92237336|NCT00521339|184379162|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92431245|NCT01817530|184748704|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
92431246|NCT01817530|184748704|SUPERIORITY|||||||0.007||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.007
92431247|NCT01817530|184748704|SUPERIORITY|||||||0.722||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.722
92431248|NCT01817530|184748704|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
92431249|NCT01817530|184748704|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
92431250|NCT01817530|184748704|SUPERIORITY|||||||0.032||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.032
92431251|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
92431252|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
92431253|NCT01817530|184748705|SUPERIORITY|||||||0.041||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.041
92431254|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
92431255|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
92431256|NCT01817530|184748705|SUPERIORITY|||||||0.008||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.008
92431257|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
92431258|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
92431259|NCT01817530|184748705|SUPERIORITY|||||||0.003||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.003
92431260|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
92431261|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
92431262|NCT01817530|184748705|SUPERIORITY|||||||0.003||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.003
92431263|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
92431264|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
92431265|NCT01817530|184748705|SUPERIORITY|||||||0.004||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.004
92431266|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
92431267|NCT01817530|184748705|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
92431268|NCT01817530|184748705|SUPERIORITY|||||||0.002||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.002
92431269|NCT01817530|184748706|SUPERIORITY||difference in LS means|-1.5|STANDARD_ERROR_OF_MEAN|2.58||0.556|TWO_SIDED|95.0|-6.65|3.59||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||3.59|-6.65|0.556
92237337|NCT00521339|184379163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||||||0.031
92237338|NCT00521339|184379164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.217|||||||Wilcoxon (Mann-Whitney)|||||||0.217
92237339|NCT00521339|184379165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.539|||||||Wilcoxon (Mann-Whitney)|||||||0.539
92431270|NCT01817530|184748706|SUPERIORITY||difference in LS means|-1.1|STANDARD_ERROR_OF_MEAN|2.63||0.672|TWO_SIDED|95.0|-6.33|4.09||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||4.09|-6.33|0.672
92431271|NCT01817530|184748706|SUPERIORITY||difference in LS means|3.0|STANDARD_ERROR_OF_MEAN|2.71||0.274|TWO_SIDED|95.0|-2.39|8.36||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||8.36|-2.39|0.274
92431272|NCT01817530|184748706|SUPERIORITY||difference in LS means|-2.0|STANDARD_ERROR_OF_MEAN|1.65||0.223|TWO_SIDED|95.0|-5.26|1.23||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||1.23|-5.26|0.223
92431273|NCT01817530|184748706|SUPERIORITY||difference in LS means|-2.1|STANDARD_ERROR_OF_MEAN|1.68||0.215|TWO_SIDED|95.0|-5.38|1.22||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||1.22|-5.38|0.215
92431274|NCT01817530|184748706|SUPERIORITY||difference in LS means|-1.4|STANDARD_ERROR_OF_MEAN|1.68||0.392|TWO_SIDED|95.0|-4.75|1.87||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||1.87|-4.75|0.392
92431275|NCT02761252|184748779|SUPERIORITY||Mean Difference (Final Values)|-0.194|STANDARD_ERROR_OF_MEAN|0.3429||0.5721|TWO_SIDED|95.0|-0.8693|0.4813|||ANCOVA|||||0.4813|-0.8693|0.5721
92431276|NCT02761252|184748780|SUPERIORITY||Mean Difference (Final Values)|-1.1552|STANDARD_ERROR_OF_MEAN|0.4489||0.0105|TWO_SIDED|95.0|-2.0379|-0.2725|||ANCOVA|||||-0.2725|-2.0379|0.0105
92431277|NCT02761252|184748781|SUPERIORITY||Mean Difference (Final Values)|-0.1393|STANDARD_ERROR_OF_MEAN|0.2009||0.4885|TWO_SIDED|95.0|-0.5342|0.2557|||ANCOVA|||||0.2557|-0.5342|0.4885
92431278|NCT02761252|184748782|SUPERIORITY||Mean Difference (Final Values)|-0.03615|STANDARD_ERROR_OF_MEAN|0.1504||0.81032|TWO_SIDED|95.0|-0.3319|0.2596|||ANCOVA|||||0.2596|-0.3319|0.81032
92431279|NCT02761252|184748783|OTHER||Mean Difference (Final Values)|0.8359|STANDARD_ERROR_OF_MEAN|0.9322||0.3704|TWO_SIDED|95.0|-0.9969|2.6688|||ANOVA|||||2.6688|-0.9969|0.3704
92431280|NCT02761252|184748784|SUPERIORITY||Median Difference (Final Values)|-0.837|STANDARD_ERROR_OF_MEAN|2.5735||0.7452|TWO_SIDED|95.0|-5.8968|4.2228|||ANOVA|||||4.2228|-5.8968|0.7452
92431281|NCT01758432|184748789|SUPERIORITY||Least Squares Means (Difference)|-95.74|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431282|NCT01758432|184748789|SUPERIORITY||Least Squares Means (Difference)|-130.5|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431283|NCT01758432|184748789|SUPERIORITY||Least Squares Means (Difference)|-129.86|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431284|NCT01758432|184748789|SUPERIORITY||Least Squares Means (Difference)|-165.91|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431285|NCT01758432|184748789|SUPERIORITY||Least Squares Means (Difference)|-167.94|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431286|NCT01758432|184748789|SUPERIORITY||Least Squares Means (Difference)|-135.91|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431287|NCT01758432|184748790|SUPERIORITY||Least Squares Means (Difference)|85559.49||||0.0004|TWO_SIDED|95.0|||||ANCOVA|||||||0.0004
92431288|NCT01758432|184748790|SUPERIORITY||Least Squares Means (Difference)|105508.3|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431289|NCT01758432|184748790|SUPERIORITY||Least Squares Means (Difference)|182753.2|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431290|NCT01758432|184748790|SUPERIORITY||Least Squares Means (Difference)|193684.5|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431291|NCT01758432|184748790|SUPERIORITY||Least Squares Means (Difference)|178055.0|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431292|NCT01758432|184748790|SUPERIORITY||Least Squares Means (Difference)|169709.9|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431293|NCT01758432|184748791|SUPERIORITY||Least Squares Means (Difference)|-4.58|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431294|NCT01758432|184748791|SUPERIORITY||Least Squares Means (Difference)|-4.29|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431295|NCT01758432|184748791|SUPERIORITY||Least Squares Means (Difference)|-6.15|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92237340|NCT00521339|184379166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.169|||||||Wilcoxon (Mann-Whitney)|||||||0.169
92431296|NCT01758432|184748791|SUPERIORITY||Least Squares Means (Difference)|-6.79|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431297|NCT01758432|184748791|SUPERIORITY||Least Squares Means (Difference)|-7.49|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92237341|NCT00521339|184379167|SUPERIORITY_OR_OTHER_LEGACY|||||||0.339|||||||Wilcoxon (Mann-Whitney)|||||||0.339
92237342|NCT00521339|184379168|SUPERIORITY_OR_OTHER_LEGACY|||||||0.898|||||||Wilcoxon (Mann-Whitney)|||||||0.898
92237343|NCT00521339|184379169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.622|||||||Wilcoxon (Mann-Whitney)|||||||0.622
92237344|NCT01819935|184379183|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.72|1.2||||||Propensity Cox proportional hazards regression model was used.||1.20|0.72|
92237345|NCT01819935|184379184|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.53|1.05||||||Propensity Cox proportional hazards regression model was used.||1.05|0.53|
92237346|NCT01819935|184379185|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.9|1.15||||||Propensity Cox proportional hazards regression model was used.||1.15|0.90|
92237347|NCT01819935|184379186|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.39|1.09||||||Propensity Cox proportional hazards regression model was used.||1.09|0.39|
92237348|NCT01819935|184379187|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.68|1.37||||||Propensity Cox proportional hazards regression model was used.||1.37|0.68|
92431298|NCT01758432|184748791|SUPERIORITY||Least Squares Means (Difference)|-6.71|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
92431299|NCT01509950|184748812|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.60
92170987|NCT03821844|184230888|SUPERIORITY||average marginal effect|-1.26|STANDARD_ERROR_OF_MEAN|2.05|<|0.05|TWO_SIDED|95.0|-5.28|2.76|||Differences-in-Differences regression||||Variables included in the model: baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, agitation and reactive behavior (ARBS) score, date of assessment, treatment group, and facility-level random effect.|2.76|-5.28|< 0.05
92170988|NCT03821844|184230890|SUPERIORITY||average marginal effect|-0.22|||<|0.05|TWO_SIDED|95.0|-1.14|0.7|||Differences-in-Differences regression||||Multilevel regression with covariates' adjustments was used to estimate the impact of the resident being in a treatment versus control nursing home on depressive symptoms.|0.70|-1.14|< 0.05
92237349|NCT01819935|184379188|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.68|1.13||||||Propensity Cox proportional hazards regression model was used.||1.13|0.68|
92237350|NCT01819935|184379189|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.54|1.48||||||Propensity Cox proportional hazards regression model was used.||1.48|0.54|
92431300|NCT04115839|184748834|SUPERIORITY||Difference in response rates|26.9||||0.022|TWO_SIDED|95.0|4.3|49.6||The stratification factors (Geographic Region, Concurrent Use of conventional synthetic (cs) DMARD(s) and/or Apremilast at Randomization, Prior Use of biologic (bio)DMARD(s)) and treatment groups were included in the imputation model as covariates.|Multiple imputation method|||||49.6|4.3|0.022
92431301|NCT04115839|184748834|SUPERIORITY||Difference in response rates|2.2||||0.89|TWO_SIDED|95.0|-20.5|25.0||The stratification factors (Geographic Region, Concurrent Use of csDMARD(s) and/or Apremilast at Randomization, Prior Use of bioDMARD(s)) and treatment groups were included in the imputation model as covariates.|Multiple imputation method|||||25.0|-20.5|0.89
92431302|NCT04115839|184748837|SUPERIORITY||Difference in response rates|-5.9||||0.39|TWO_SIDED|95.0|-21.6|9.9||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||9.9|-21.6|0.39
92431303|NCT04115839|184748837|SUPERIORITY||Difference in response rates|-2.6||||0.65|TWO_SIDED|95.0|-19.7|14.5||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||14.5|-19.7|0.65
92431304|NCT04115839|184748837|SUPERIORITY||Difference in response rates|0.9||||0.86|TWO_SIDED|-19.4|-19.4|21.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||21.3|-19.4|0.86
92431305|NCT04115839|184748837|SUPERIORITY||Difference in response rates|-2.9||||0.7|TWO_SIDED|95.0|-22.0|16.1||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||16.1|-22.0|0.70
92431306|NCT04115839|184748837|SUPERIORITY||Difference in response rates|12.4||||0.15|TWO_SIDED|95.0|-7.5|32.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||32.3|-7.5|0.15
92237351|NCT01819935|184379190|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|1.06|1.45||||||Propensity Cox proportional hazards regression model was used.||1.45|1.06|
92237352|NCT04003155|184379191|SUPERIORITY||LSMean Difference|-1.87|STANDARD_ERROR_OF_MEAN|0.42|<|0.001||95.0|-2.69|-1.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Least squares Mean (LSM), Standard error (SE), Confidence interval (CI), Mixed model repeated measures (MMRM), Change from Baseline (CFB), Dependent variable (dv), Treatment (tr), Week (wk), Baseline (bl), Weight (wt)||-1.05|-2.69|<0.001
92237353|NCT04003155|184379191|SUPERIORITY||LSMean Difference|-2.07|STANDARD_ERROR_OF_MEAN|0.42|<|0.001||95.0|-2.89|-1.25||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-1.25|-2.89|<0.001
92279768|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2053||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.2053
92237354|NCT04003155|184379191|SUPERIORITY|||||||0.012|||||||Hochberg|||||||0.012
92237355|NCT04003155|184379191|SUPERIORITY|||||||0.007|||||||Hochberg|||||||0.007
92237356|NCT04003155|184379192|SUPERIORITY||LSMean difference|-2.39|STANDARD_ERROR_OF_MEAN|0.44|<|0.001||95.0|-3.25|-1.52||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-1.52|-3.25|<0.001
92237357|NCT04003155|184379192|SUPERIORITY||LSMean Difference|-2.55|STANDARD_ERROR_OF_MEAN|0.43|<|0.001||95.0|-3.4|-1.7||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-1.70|-3.40|<0.001
92431307|NCT04115839|184748837|SUPERIORITY||Difference in response rates|8.8||||0.3|TWO_SIDED|95.0|-10.1|27.7||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||27.7|-10.1|0.30
92431308|NCT04115839|184748837|SUPERIORITY||Difference in response rates|22.3||||0.035|TWO_SIDED|95.0|-0.7|45.2||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||45.2|-0.7|0.035
92431309|NCT04115839|184748837|SUPERIORITY||Difference in response rates|12.1||||0.22|TWO_SIDED|95.0|-9.3|33.5||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||33.5|-9.3|0.22
92431310|NCT04115839|184748839|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.8|2.8|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 4||2.8|-2.8|
92431311|NCT04115839|184748839|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.9|2.9|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 4||2.9|-2.9|
92431312|NCT04115839|184748839|SUPERIORITY||Difference in response rates|3.1|||||TWO_SIDED|95.0|-5.9|12.2|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 8||12.2|-5.9|
92431313|NCT04115839|184748839|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.9|2.9|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 8||2.9|-2.9|
92431314|NCT04115839|184748839|SUPERIORITY||Difference in response rates|3.0|||||TWO_SIDED|95.0|-5.8|11.9|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 12||11.9|-5.8|
92431315|NCT04115839|184748839|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-5.0|16.7|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 12||16.7|-5.0|
92431316|NCT04115839|184748839|SUPERIORITY||Difference in response rates|0.1|||||TWO_SIDED|95.0|-11.4|11.6|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 16||11.6|-11.4|
92431317|NCT04115839|184748839|SUPERIORITY||Difference in response rates|3.0|||||TWO_SIDED|95.0|-10.0|16.1|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 16||16.1|-10.0|
92431318|NCT04115839|184748847|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.24|TWO_SIDED|95.0|-1.0|0.0||P-value was provided from mixed-effects model for repeated measures (MMRM) having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||0|-1|0.24
92431319|NCT04115839|184748847|SUPERIORITY||LS Mean Treatment Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.22|TWO_SIDED|95.0|-1.0|0.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||0|-1|0.22
92431320|NCT04115839|184748847|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.43|TWO_SIDED|95.0|-1.0|1.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 8||1|-1|0.43
92431321|NCT04115839|184748847|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.7|TWO_SIDED|95.0|-1.0|1.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 8||1|-1|0.70
92431322|NCT04115839|184748847|SUPERIORITY||LS Mean Treatment Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.5||0.1|TWO_SIDED|95.0|-2.0|0.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 12||0|-2|0.10
92431323|NCT04115839|184748847|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.9|TWO_SIDED|95.0|-1.0|1.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 12||1|-1|0.90
92237358|NCT04003155|184379192|SUPERIORITY|||||||0.012|||||||Hochberg|||||||0.012
92237359|NCT04003155|184379192|SUPERIORITY|||||||0.007|||||||Hochberg|||||||0.007
92237360|NCT04003155|184379193|SUPERIORITY||LSMean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.06||0.012||95.0|-0.27|-0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.03|-0.27|0.012
92431324|NCT04115839|184748847|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.88|TWO_SIDED|95.0|-1.0|1.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||1|-1|0.88
92431325|NCT04115839|184748847|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.89|TWO_SIDED|95.0|-1.0|1.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||1|-1|0.89
92431326|NCT04115839|184748851|SUPERIORITY||Difference in response rates|0.3|||||TWO_SIDED|95.0|-15.9|16.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||16.5|-15.9|
92237361|NCT04003155|184379193|SUPERIORITY||LSMean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.06||0.002||95.0|-0.3|-0.07||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.07|-0.30|0.002
92237362|NCT04003155|184379193|SUPERIORITY|||||||0.012|||||||Hochberg|||||||0.012
92237363|NCT04003155|184379193|SUPERIORITY|||||||0.007|||||||Hochberg|||||||0.007
92279769|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0032||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.0032
92431327|NCT04115839|184748851|SUPERIORITY||Difference in response rates|12.6|||||TWO_SIDED|95.0|-7.1|32.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||32.3|-7.1|
92431328|NCT04115839|184748851|SUPERIORITY||Difference in response rates|26.6|||||TWO_SIDED|95.0|3.0|50.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||50.2|3.0|
92431329|NCT04115839|184748851|SUPERIORITY||Difference in response rates|18.2|||||TWO_SIDED|95.0|-4.1|40.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||40.4|-4.1|
92431330|NCT04115839|184748853|SUPERIORITY||Difference in response rates|2.9|||||TWO_SIDED|95.0|-5.6|11.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||11.5|-5.6|
92431331|NCT04115839|184748853|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.9|2.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||2.9|-2.9|
92431332|NCT04115839|184748853|SUPERIORITY||Difference in response rates|12.9|||||TWO_SIDED|95.0|-2.0|27.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||27.8|-2.0|
92431333|NCT04115839|184748853|SUPERIORITY||Difference in response rates|9.1|||||TWO_SIDED|95.0|-3.7|21.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||21.9|-3.7|
92431334|NCT04115839|184748855|SUPERIORITY||Difference in response rates|15.4||||0.098|TWO_SIDED|95.0|-5.5|36.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||36.3|-5.5|0.098
92237364|NCT04003155|184379194|SUPERIORITY||LSMean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.002||95.0|-0.39|-0.09||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.09|-0.39|0.002
92237365|NCT04003155|184379194|SUPERIORITY||LSMean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.007||95.0|-0.35|-0.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.06|-0.35|0.007
92237366|NCT04003155|184379194|SUPERIORITY|||||||0.012|||||||Hochberg|||||||0.012
92237367|NCT04003155|184379194|SUPERIORITY|||||||0.007|||||||Hochberg|||||||0.007
92237368|NCT04003155|184379195|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.8||0.489||95.0|-2.0|1.0||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||1.0|-2.0|0.489
92431335|NCT04115839|184748855|SUPERIORITY||Difference in response rates|-5.1||||0.4|TWO_SIDED|95.0|-21.1|11.0||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||11.0|-21.1|0.40
92431336|NCT04115839|184748855|SUPERIORITY||Difference in response rates|10.8||||0.26|TWO_SIDED|95.0|-12.6|34.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||34.3|-12.6|0.26
92431337|NCT04115839|184748855|SUPERIORITY||Difference in response rates|8.8||||0.39|TWO_SIDED|95.0|-14.6|32.2||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||32.2|-14.6|0.39
92431338|NCT04115839|184748855|SUPERIORITY||Difference in response rates|20.0||||0.088|TWO_SIDED|95.0|-6.9|46.9||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||46.9|-6.9|0.088
92431339|NCT04115839|184748855|SUPERIORITY||Difference in response rates|-7.0||||0.49|TWO_SIDED|95.0|-32.9|18.9||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||18.9|-32.9|0.49
92431340|NCT04115839|184748855|SUPERIORITY||Difference in response rates|28.3||||0.019|TWO_SIDED|95.0|2.4|54.2||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||54.2|2.4|0.019
92237369|NCT04003155|184379195|SUPERIORITY||LSMean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.7||0.155||95.0|-2.5|0.4||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||0.4|-2.5|0.155
92237370|NCT04003155|184379196|SUPERIORITY||LSMean difference|-1.81|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.53|-1.09||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-1.09|-2.53|<0.001
92237371|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-1.25|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-1.97|-0.53||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.53|-1.97|<0.001
92237372|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-1.97|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.75|-1.19||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-1.19|-2.75|<0.001
92431341|NCT04115839|184748855|SUPERIORITY||Difference in response rates|2.9||||0.85|TWO_SIDED|95.0|-22.5|28.4||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||28.4|-22.5|0.85
92431342|NCT04115839|184748855|SUPERIORITY||Difference in response rates|25.9||||0.036|TWO_SIDED|95.0|-0.4|52.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||52.3|-0.4|0.036
92431343|NCT04115839|184748855|SUPERIORITY||Difference in response rates|6.1||||0.6|TWO_SIDED|95.0|-19.7|31.8||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||31.8|-19.7|0.60
92431344|NCT04115839|184748857|SUPERIORITY||Difference in response rates|6.0||||0.31|TWO_SIDED|95.0|-7.8|19.8||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||19.8|-7.8|0.31
92431345|NCT04115839|184748857|SUPERIORITY||Difference in response rates|-2.8||||0.48|TWO_SIDED|95.0|-11.1|5.5||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||5.5|-11.1|0.48
92431346|NCT04115839|184748857|SUPERIORITY||Difference in response rates|2.5||||0.7|TWO_SIDED|95.0|-14.1|19.2||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||19.2|-14.1|0.70
92431347|NCT04115839|184748857|SUPERIORITY||Difference in response rates|-8.6||||0.17|TWO_SIDED|95.0|-20.7|3.6||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||3.6|-20.7|0.17
92431348|NCT04115839|184748857|SUPERIORITY||Difference in response rates|6.5||||0.34|TWO_SIDED|95.0|-12.5|25.6||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||25.6|-12.5|0.34
92431349|NCT04115839|184748857|SUPERIORITY||Difference in response rates|-0.3||||0.98|TWO_SIDED|95.0|-16.9|16.4||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||16.4|-16.9|0.98
92431350|NCT04115839|184748857|SUPERIORITY||Difference in response rates|18.7||||0.071|TWO_SIDED|95.0|-5.1|42.5||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||42.5|-5.1|0.071
92237373|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-1.83|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-2.6|-1.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-1.05|-2.60|<0.001
92237374|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.79|-1.19||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-1.19|-2.79|<0.001
92237375|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.9|-1.31||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-1.31|-2.90|<0.001
92237376|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.07|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.87|-1.27||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-1.27|-2.87|<0.001
92237377|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.18|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.98|-1.39||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-1.39|-2.98|<0.001
92237378|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.11|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.92|-1.3||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-1.30|-2.92|<0.001
92237379|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.39|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-3.19|-1.59||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-1.59|-3.19|<0.001
92279770|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.6783||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.6783
92279771|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.163||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.1630
92431351|NCT04115839|184748857|SUPERIORITY||Difference in response rates|-8.8||||0.27|TWO_SIDED|95.0|-27.7|10.1||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||10.1|-27.7|0.27
92431352|NCT04115839|184748857|SUPERIORITY||Difference in response rates|40.7||||0.002|TWO_SIDED|95.0|19.5|62.0||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||62.0|19.5|0.002
92431353|NCT04115839|184748857|SUPERIORITY||Difference in response rates|15.2||||0.082|TWO_SIDED|95.0|-2.3|32.6||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||32.6|-2.3|0.082
92431354|NCT04115839|184748859|SUPERIORITY||Difference in response rates|2.9|||||TWO_SIDED|95.0|-5.6|11.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||11.5|-5.6|
92431355|NCT04115839|184748859|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.9|2.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||2.9|-2.9|
92431356|NCT04115839|184748859|SUPERIORITY||Difference in response rates|2.8|||||TWO_SIDED|95.0|-5.4|11.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||11.0|-5.4|
92431357|NCT04115839|184748859|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.9|2.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||2.9|-2.9|
92431358|NCT04115839|184748859|SUPERIORITY||Difference in response rates|12.7|||||TWO_SIDED|95.0|-4.2|29.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||29.5|-4.2|
92431359|NCT04115839|184748859|SUPERIORITY||Difference in response rates|-2.9|||||TWO_SIDED|95.0|-11.6|5.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||5.7|-11.6|
92431360|NCT04115839|184748859|SUPERIORITY||Difference in response rates|18.3|||||TWO_SIDED|95.0|0.2|36.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||36.3|0.2|
92431361|NCT04115839|184748859|SUPERIORITY||Difference in response rates|2.9|||||TWO_SIDED|95.0|-9.7|15.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||15.6|-9.7|
92431362|NCT04115839|184748859|SUPERIORITY||Difference in response rates|12.5|||||TWO_SIDED|95.0|-2.0|27.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||27.0|-2.0|
92431363|NCT04115839|184748859|SUPERIORITY||Difference in response rates|9.1|||||TWO_SIDED|95.0|-3.7|21.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||21.9|-3.7|
92431364|NCT04115839|184748875|SUPERIORITY||Difference in response rates|9.5|||||TWO_SIDED|95.0|-10.4|29.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||29.4|-10.4|
92431365|NCT04115839|184748875|SUPERIORITY||Difference in response rates|7.1|||||TWO_SIDED|95.0|-12.5|26.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||26.7|-12.5|
92431366|NCT04115839|184748875|SUPERIORITY||Difference in response rates|20.0|||||TWO_SIDED|95.0|-3.8|43.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||43.8|-3.8|
92431367|NCT04115839|184748875|SUPERIORITY||Difference in response rates|6.5|||||TWO_SIDED|95.0|-16.3|29.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||29.3|-16.3|
92431368|NCT04115839|184748875|SUPERIORITY||Difference in response rates|17.8|||||TWO_SIDED|95.0|-8.8|44.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||44.5|-8.8|
92431369|NCT04115839|184748875|SUPERIORITY||Difference in response rates|2.9|||||TWO_SIDED|95.0|-22.9|28.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||28.8|-22.9|
92431370|NCT04115839|184748875|SUPERIORITY||Difference in response rates|25.0|||||TWO_SIDED|95.0|-0.5|50.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||50.6|-0.5|
92431371|NCT04115839|184748875|SUPERIORITY||Difference in response rates|14.7|||||TWO_SIDED|95.0|-10.5|39.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||39.9|-10.5|
92431372|NCT04115839|184748875|SUPERIORITY||Difference in response rates|18.5|||||TWO_SIDED|95.0|-8.7|45.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||45.6|-8.7|
92431373|NCT04115839|184748875|SUPERIORITY||Difference in response rates|6.1|||||TWO_SIDED|95.0|-20.5|32.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||32.6|-20.5|
92431374|NCT04115839|184748877|SUPERIORITY||Difference in response rates|9.0|||||TWO_SIDED|95.0|-6.0|23.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||23.9|-6.0|
92431375|NCT04115839|184748877|SUPERIORITY||Difference in response rates|3.3|||||TWO_SIDED|95.0|-9.4|15.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||15.9|-9.4|
92431376|NCT04115839|184748877|SUPERIORITY||Difference in response rates|5.7|||||TWO_SIDED|95.0|-14.7|26.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||26.2|-14.7|
92431377|NCT04115839|184748877|SUPERIORITY||Difference in response rates|-5.5|||||TWO_SIDED|95.0|-23.4|12.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||12.4|-23.4|
92279772|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2944||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.2944
92431378|NCT04115839|184748877|SUPERIORITY||Difference in response rates|1.3|||||TWO_SIDED|95.0|-21.5|24.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||24.1|-21.5|
92279773|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.3727||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.3727
92431379|NCT04115839|184748877|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.2|22.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||22.2|-22.2|
92431380|NCT04115839|184748877|SUPERIORITY||Difference in response rates|21.6|||||TWO_SIDED|95.0|-0.8|43.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||43.9|-0.8|
92431381|NCT04115839|184748877|SUPERIORITY||Difference in response rates|20.6|||||TWO_SIDED|95.0|-1.4|42.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||42.6|-1.4|
92431382|NCT04115839|184748877|SUPERIORITY||Difference in response rates|17.5|||||TWO_SIDED|95.0|-7.7|42.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||42.7|-7.7|
92431383|NCT04115839|184748877|SUPERIORITY||Difference in response rates|3.0|||||TWO_SIDED|95.0|-20.2|26.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||26.3|-20.2|
92431384|NCT04115839|184748880|SUPERIORITY||Difference in response rates|9.3|||||TWO_SIDED|95.0|-9.2|27.8||||||Week 2||27.8|-9.2|
92431385|NCT04115839|184748880|SUPERIORITY||Difference in response rates|3.8|||||TWO_SIDED|95.0|-13.5|21.0||||||Week 2||21.0|-13.5|
92431386|NCT04115839|184748880|SUPERIORITY||Difference in response rates|5.7|||||TWO_SIDED|95.0|-16.8|28.2||||||Week 4||28.2|-16.8|
92431387|NCT04115839|184748880|SUPERIORITY||Difference in response rates|-2.4|||||TWO_SIDED|95.0|-23.7|19.0||||||Week 4||19.0|-23.7|
92431388|NCT04115839|184748880|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-21.1|31.8||||||Week 8||31.8|-21.1|
92431389|NCT04115839|184748880|SUPERIORITY||Difference in response rates|-5.9|||||TWO_SIDED|95.0|-31.0|19.3||||||Week 8||19.3|-31.0|
92431390|NCT04115839|184748880|SUPERIORITY||Difference in response rates|19.2|||||TWO_SIDED|95.0|-7.0|45.3||||||Week 12||45.3|-7.0|
92431391|NCT04115839|184748880|SUPERIORITY||Difference in response rates|8.8|||||TWO_SIDED|95.0|-16.9|34.6||||||Week 12||34.6|-16.9|
92431392|NCT04115839|184748880|SUPERIORITY||Difference in response rates|18.5|||||TWO_SIDED|95.0|-8.7|45.6||||||Week 16||45.6|-8.7|
92431393|NCT04115839|184748880|SUPERIORITY||Difference in response rates|3.0|||||TWO_SIDED|95.0|-23.4|29.5||||||Week 16||29.5|-23.4|
92431394|NCT04115839|184748882|SUPERIORITY||Difference in response rates|-2.8|||||TWO_SIDED|95.0|-11.0|5.4||||||Week 2||5.4|-11.0|
92431395|NCT04115839|184748882|SUPERIORITY||Difference in response rates|0.3|||||TWO_SIDED|95.0|-10.6|11.1||||||Week 2||11.1|-10.6|
92431396|NCT04115839|184748882|SUPERIORITY||Difference in response rates|-2.9|||||TWO_SIDED|95.0|-15.2|9.5||||||Week 4||9.5|-15.2|
92431397|NCT04115839|184748882|SUPERIORITY||Difference in response rates|-5.7|||||TWO_SIDED|95.0|-16.3|4.9||||||Week 4||4.9|-16.3|
92431398|NCT04115839|184748882|SUPERIORITY||Difference in response rates|0.6|||||TWO_SIDED|95.0|-16.4|17.5||||||Week 8||17.5|-16.4|
92237380|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-2.95|-1.25||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-1.25|-2.95|<0.001
92237381|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.27|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.11|-1.42||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-1.42|-3.11|<0.001
92237382|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.39|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.25|-1.54||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-1.54|-3.25|<0.001
92279774|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.8796||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.8796
92279775|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.8344||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.8344
92431399|NCT04115839|184748882|SUPERIORITY||Difference in response rates|-5.9|||||TWO_SIDED|95.0|-19.9|8.2||||||Week 8||8.2|-19.9|
92431400|NCT04115839|184748882|SUPERIORITY||Difference in response rates|12.2|||||TWO_SIDED|95.0|-4.3|28.7||||||Week 12||28.7|-4.3|
92431401|NCT04115839|184748882|SUPERIORITY||Difference in response rates|2.9|||||TWO_SIDED|95.0|-9.7|15.6||||||Week 12||15.6|-9.7|
92431402|NCT04115839|184748882|SUPERIORITY||Difference in response rates|13.1|||||TWO_SIDED|95.0|-4.2|30.4||||||Week 16||30.4|-4.2|
92431403|NCT04115839|184748882|SUPERIORITY||Difference in response rates|12.1|||||TWO_SIDED|95.0|-4.5|28.7||||||Week 16||28.7|-4.5|
92431404|NCT04115839|184748885|SUPERIORITY||Difference in response rates|18.5|||||TWO_SIDED|95.0|-3.8|40.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||40.7|-3.8|
92431405|NCT04115839|184748885|SUPERIORITY||Difference in response rates|7.3|||||TWO_SIDED|95.0|-13.5|28.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||28.2|-13.5|
92431406|NCT04115839|184748885|SUPERIORITY||Difference in response rates|16.0|||||TWO_SIDED|95.0|-8.5|40.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||40.4|-8.5|
92431407|NCT04115839|184748885|SUPERIORITY||Difference in response rates|15.5|||||TWO_SIDED|95.0|-9.4|40.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||40.3|-9.4|
92431408|NCT04115839|184748885|SUPERIORITY||Difference in response rates|18.8|||||TWO_SIDED|95.0|-7.5|45.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||45.0|-7.5|
92431409|NCT04115839|184748885|SUPERIORITY||Difference in response rates|-5.9|||||TWO_SIDED|95.0|-32.5|20.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||20.7|-32.5|
92237383|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.39|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.23|-1.55||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-1.55|-3.23|<0.001
92431410|NCT04115839|184748885|SUPERIORITY||Difference in response rates|40.5|||||TWO_SIDED|95.0|15.8|65.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||65.2|15.8|
92431411|NCT04115839|184748885|SUPERIORITY||Difference in response rates|23.5|||||TWO_SIDED|95.0|-2.5|49.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||49.5|-2.5|
92431412|NCT04115839|184748885|SUPERIORITY||Difference in response rates|20.1|||||TWO_SIDED|95.0|-6.8|46.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||46.9|-6.8|
92431413|NCT04115839|184748885|SUPERIORITY||Difference in response rates|6.1|||||TWO_SIDED|95.0|-21.0|33.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||33.1|-21.0|
92431414|NCT04115839|184748889|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-31.0|31.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||31.0|-31.0|
92431415|NCT04115839|184748889|SUPERIORITY||Difference in response rates|22.0|||||TWO_SIDED|95.0|-12.8|56.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||56.7|-12.8|
92431416|NCT04115839|184748889|SUPERIORITY||Difference in response rates|4.3|||||TWO_SIDED|95.0|-37.9|46.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||46.5|-37.9|
92431417|NCT04115839|184748889|SUPERIORITY||Difference in response rates|5.5|||||TWO_SIDED|95.0|-35.4|46.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||46.3|-35.4|
92431418|NCT04115839|184748889|SUPERIORITY||Difference in response rates|17.1|||||TWO_SIDED|95.0|-25.6|59.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||59.9|-25.6|
92431419|NCT04115839|184748889|SUPERIORITY||Difference in response rates|-13.4|||||TWO_SIDED|95.0|-53.7|26.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||26.8|-53.7|
92431420|NCT04115839|184748889|SUPERIORITY||Difference in response rates|28.6|||||TWO_SIDED|95.0|-14.1|71.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||71.2|-14.1|
92431421|NCT04115839|184748889|SUPERIORITY||Difference in response rates|-0.4|||||TWO_SIDED|95.0|-40.8|39.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||39.9|-40.8|
92431422|NCT04115839|184748891|SUPERIORITY||Difference in response rates|6.7||||0.55|TWO_SIDED|95.0|-21.3|34.7||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||34.7|-21.3|0.55
92431423|NCT04115839|184748891|SUPERIORITY||Difference in response rates|11.0||||0.24|TWO_SIDED|95.0|-17.4|39.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||39.3|-17.4|0.24
92431424|NCT04115839|184748891|SUPERIORITY||Difference in response rates|6.2||||0.47|TWO_SIDED|95.0|-22.6|35.0||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||35.0|-22.6|0.47
92431425|NCT04115839|184748891|SUPERIORITY||Difference in response rates|10.5||||0.25|TWO_SIDED|95.0|-18.6|39.6||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||39.6|-18.6|0.25
92431426|NCT04115839|184748891|SUPERIORITY||Difference in response rates|18.6||||0.44|TWO_SIDED|95.0|-21.1|58.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||58.3|-21.1|0.44
92431427|NCT04115839|184748891|SUPERIORITY||Difference in response rates|-3.8||||0.68|TWO_SIDED|95.0|-38.4|30.8||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||30.8|-38.4|0.68
92431428|NCT04115839|184748891|SUPERIORITY||Difference in response rates|21.4||||0.33|TWO_SIDED|95.0|-19.4|62.2||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||62.2|-19.4|0.33
92431429|NCT04115839|184748891|SUPERIORITY||Difference in response rates|2.1||||0.98|TWO_SIDED|95.0|-33.9|38.1||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||38.1|-33.9|0.98
92431430|NCT04115839|184748893|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-24.5|24.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||24.5|-24.5|
92237384|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.08|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-2.93|-1.22||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-1.22|-2.93|<0.001
92431431|NCT04115839|184748893|SUPERIORITY||Difference in response rates|-0.8|||||TWO_SIDED|95.0|-23.9|22.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||22.4|-23.9|
92431432|NCT04115839|184748893|SUPERIORITY||Difference in response rates|13.3|||||TWO_SIDED|95.0|-10.8|37.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||37.4|-10.8|
92431433|NCT04115839|184748893|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-11.8|23.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||23.6|-11.8|
92431434|NCT04115839|184748893|SUPERIORITY||Difference in response rates|-14.8|||||TWO_SIDED|95.0|-46.6|17.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||17.1|-46.6|
92431435|NCT04115839|184748893|SUPERIORITY||Difference in response rates|-15.5|||||TWO_SIDED|95.0|-46.3|15.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||15.2|-46.3|
92431436|NCT04115839|184748893|SUPERIORITY||Difference in response rates|21.4|||||TWO_SIDED|95.0|-13.0|55.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||55.8|-13.0|
92431437|NCT04115839|184748893|SUPERIORITY||Difference in response rates|4.6|||||TWO_SIDED|95.0|-22.3|31.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||31.5|-22.3|
92431438|NCT04115839|184748895|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-6.7|6.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||6.7|-6.7|
92431439|NCT04115839|184748895|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-11.6|23.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||23.3|-11.6|
92431440|NCT04115839|184748895|SUPERIORITY||Difference in response rates|6.7|||||TWO_SIDED|95.0|-12.9|26.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||26.2|-12.9|
92431441|NCT04115839|184748895|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-11.8|23.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||23.6|-11.8|
92431442|NCT04115839|184748895|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-6.9|6.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||6.9|-6.9|
92431443|NCT04115839|184748895|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-11.8|23.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||23.6|-11.8|
92431444|NCT04115839|184748895|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-7.1|7.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||7.1|-7.1|
92431445|NCT04115839|184748895|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-11.8|23.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||23.6|-11.8|
92431446|NCT04115839|184748903|SUPERIORITY||LS Mean Treatment Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.066||0.19|TWO_SIDED|95.0|-0.22|0.04||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 2||0.04|-0.22|0.19
92431447|NCT04115839|184748903|SUPERIORITY||LS Mean Treatment Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.067||0.84|TWO_SIDED|95.0|-0.15|0.12||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 2||0.12|-0.15|0.84
92431448|NCT04115839|184748903|SUPERIORITY||LS Mean Treatment Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.073||0.3|TWO_SIDED|95.0|-0.22|0.07||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||0.07|-0.22|0.30
92431449|NCT04115839|184748903|SUPERIORITY||LS Mean Treatment Difference|0.01|STANDARD_ERROR_OF_MEAN|0.074||0.89|TWO_SIDED|95.0|-0.14|0.16||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||0.16|-0.14|0.89
92431450|NCT04115839|184748903|SUPERIORITY||LS Mean Treatment Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.096||0.064|TWO_SIDED|95.0|-0.37|0.01||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 8||0.01|-0.37|0.064
92431451|NCT04115839|184748903|SUPERIORITY||LS Mean Treatment Difference|0.01|STANDARD_ERROR_OF_MEAN|0.096||0.88|TWO_SIDED|95.0|-0.17|0.2||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 8||0.20|-0.17|0.88
92431452|NCT04115839|184748903|SUPERIORITY||LS Mean Treatment Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.099||0.023|TWO_SIDED|95.0|-0.43|-0.03||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 12||-0.03|-0.43|0.023
92431453|NCT04115839|184748903|SUPERIORITY||LS Mean Treatment Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.099||0.75|TWO_SIDED|95.0|-0.23|0.17||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 12||0.17|-0.23|0.75
92431454|NCT04115839|184748903|SUPERIORITY||LS Mean Treatment Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.106||0.005|TWO_SIDED|95.0|-0.51|-0.1||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||-0.10|-0.51|0.005
92431455|NCT04115839|184748903|SUPERIORITY||LS Mean Treatment Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.105||0.54|TWO_SIDED|95.0|-0.27|0.14||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||0.14|-0.27|0.54
92431456|NCT04115839|184748905|SUPERIORITY||LS Mean Treatment Difference|1.3|STANDARD_ERROR_OF_MEAN|1.64||0.43|TWO_SIDED|95.0|-1.9|4.5||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||4.5|-1.9|0.43
92431457|NCT04115839|184748905|SUPERIORITY||LS Mean Treatment Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.64||0.81|TWO_SIDED|95.0|-3.6|2.9||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||2.9|-3.6|0.81
92431458|NCT04115839|184748905|SUPERIORITY||LS Mean Treatment Difference|5.1|STANDARD_ERROR_OF_MEAN|2.43||0.04|TWO_SIDED|95.0|0.2|9.9||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||9.9|0.2|0.040
92431459|NCT04115839|184748905|SUPERIORITY||LS Mean Treatment Difference|1.4|STANDARD_ERROR_OF_MEAN|2.41||0.58|TWO_SIDED|95.0|-3.4|6.1||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||6.1|-3.4|0.58
92431460|NCT04115839|184748909|SUPERIORITY||LS Mean Treatment Difference|0.9|STANDARD_ERROR_OF_MEAN|1.09||0.4|TWO_SIDED|95.0|-1.2|3.1||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||3.1|-1.2|0.40
92431461|NCT04115839|184748909|SUPERIORITY||LS Mean Treatment Difference|1.2|STANDARD_ERROR_OF_MEAN|1.1||0.28|TWO_SIDED|95.0|-1.0|3.4||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||3.4|-1.0|0.28
92279776|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.27||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.2700
92431462|NCT04115839|184748909|SUPERIORITY||LS Mean Treatment Difference|3.8|STANDARD_ERROR_OF_MEAN|1.46||0.011|TWO_SIDED|95.0|0.9|6.7||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||6.7|0.9|0.011
92431463|NCT04115839|184748909|SUPERIORITY||LS Mean Treatment Difference|2.1|STANDARD_ERROR_OF_MEAN|1.45||0.14|TWO_SIDED|95.0|-0.7|5.0||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||5.0|-0.7|0.14
92431464|NCT02820753|184748921|SUPERIORITY||Mean Difference (Net)|0.26||||0.04|TWO_SIDED|95.0|0.01|0.51||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis||Treatment difference = (Text or Portal) - Enhanced Usual Care|||0.51|0.01|0.04
92431465|NCT02820753|184748922|SUPERIORITY||Mean Difference (Net)|0.04||||0.53|TWO_SIDED|95.0|-0.08|0.15||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis||Treatment Difference = (Text or Portal - Enhanced Usual Care|||0.15|-0.08|0.53
92431466|NCT02820753|184748923|SUPERIORITY||Mean Difference (Net)|-0.34||||0.41|TWO_SIDED|95.0|-1.16|0.48||The threshold for significance is p \< 0.05|Mixed Models Analysis||Treatment Difference = (Text or Portal) - Enhanced Usual Care|||0.48|-1.16|0.41
92431467|NCT02820753|184748924|SUPERIORITY||Mean Difference (Net)|1.83||||0.27|TWO_SIDED|95.0|-1.39|5.06||The threshold for significance is p \< 0.05|Mixed Models Analysis||Treatment difference = (Text or Portal ) - Enhanced Usual Care|||5.06|-1.39|0.27
92431468|NCT02820753|184748925|SUPERIORITY||Mean Difference (Net)|-0.23||||0.33|TWO_SIDED|95.0|-0.68|0.23||The threshold for significance is p \< 0.05|Mixed Models Analysis||Treatment Difference = (Text or Portal) - Enhanced Usual Care|||0.23|-0.68|0.33
92431469|NCT01652703|184748929|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.61|STANDARD_ERROR_OF_MEAN|2.99|<|0.001|TWO_SIDED|95.0|-74.51|-62.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-62.71|-74.51|<0.001
92431470|NCT01652703|184748929|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-52.85|STANDARD_ERROR_OF_MEAN|3.03|<|0.001|TWO_SIDED|95.0|-58.84|-46.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-46.86|-58.84|<0.001
92431471|NCT01652703|184748929|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-63.94|STANDARD_ERROR_OF_MEAN|3.18|<|0.001|TWO_SIDED|95.0|-70.23|-57.66||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-57.66|-70.23|<0.001
92431472|NCT01652703|184748929|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-58.16|STANDARD_ERROR_OF_MEAN|3.21|<|0.001|TWO_SIDED|95.0|-64.51|-51.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-51.81|-64.51|<0.001
92431473|NCT01652703|184748930|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-96.3|STANDARD_ERROR_OF_MEAN|4.9|<|0.001|TWO_SIDED|95.0|-106.0|-86.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-86.5|-106.0|<0.001
92431474|NCT01652703|184748930|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-75.5|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-85.4|-65.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-65.5|-85.4|<0.001
92431475|NCT01652703|184748930|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-88.2|STANDARD_ERROR_OF_MEAN|4.7|<|0.001|TWO_SIDED|95.0|-97.4|-79.0||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-79.0|-97.4|<0.001
92431476|NCT01652703|184748930|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-80.7|STANDARD_ERROR_OF_MEAN|4.7|<|0.001|TWO_SIDED|95.0|-90.0|-71.4||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-71.4|-90.0|<0.001
92431477|NCT01652703|184748931|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1945.68|||<|0.001|TWO_SIDED|95.0|89.64|42232.63||Testing based on a significance level of 0.05.|Regression, Logistic|Logistic Regression model includes treatment arms in dose frequency of Q2W and stratification factor of screening LDL-C level.|Placebo is the reference|||42232.63|89.64|<0.001
92431478|NCT01652703|184748931|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|281.13|||<|0.001|TWO_SIDED|95.0|14.74|5360.92||Testing based on a significance level of 0.05.|Regression, Logistic|Logistic Regression model includes treatment arms in dose frequency of Q2W and stratification factor of screening LDL-C level.|Placebo is the reference|||5360.92|14.74|<0.001
92431479|NCT01652703|184748931|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|536.45|||<|0.001|TWO_SIDED|95.0|28.37|10143.4||Testing based on a significance level of 0.05.|Regression, Logistic|Logistic Regression model includes treatment arms in dose frequency of Q4W and stratification factor of screening LDL-C level.|Placebo is the reference|||10143.40|28.37|<0.001
92237385|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.16|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.0|-1.31||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-1.31|-3.00|<0.001
92237386|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.21|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.05|-1.37||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-1.37|-3.05|<0.001
92279777|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2624||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.2624
92431480|NCT01652703|184748931|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|595.59|||<|0.001|TWO_SIDED|95.0|31.11|11402.67||Testing based on a significance level of 0.05.|Regression, Logistic|Logistic Regression model includes treatment arms in dose frequency of Q4W and stratification factor of screening LDL-C level.|Placebo is the reference|||11402.67|31.11|<0.001
92431481|NCT01652703|184748932|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-62.56|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|-67.85|-57.27||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-57.27|-67.85|<0.001
92431482|NCT01652703|184748932|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.46|STANDARD_ERROR_OF_MEAN|2.72|<|0.001|TWO_SIDED|95.0|-54.83|-44.08||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-44.08|-54.83|<0.001
92431483|NCT01652703|184748932|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-58.08|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-63.93|-52.22||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-52.22|-63.93|<0.001
92431484|NCT01652703|184748932|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-53.54|STANDARD_ERROR_OF_MEAN|2.99|<|0.001|TWO_SIDED|95.0|-59.46|-47.63||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-47.63|-59.46|<0.001
92431485|NCT01652703|184748933|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.69|STANDARD_ERROR_OF_MEAN|2.52|<|0.001|TWO_SIDED|95.0|-65.67|-55.72||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-55.72|-65.67|<0.001
92431486|NCT01652703|184748933|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-46.75|STANDARD_ERROR_OF_MEAN|2.56|<|0.001|TWO_SIDED|95.0|-51.8|-41.7||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-41.70|-51.80|<0.001
92431487|NCT01652703|184748933|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-53.44|STANDARD_ERROR_OF_MEAN|2.77|<|0.001|TWO_SIDED|95.0|-58.91|-47.97||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-47.97|-58.91|<0.001
92431488|NCT01652703|184748933|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-47.37|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-52.9|-41.85||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-41.85|-52.90|<0.001
92431489|NCT01652703|184748934|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-34.49|STANDARD_ERROR_OF_MEAN|11.75||0.004|TWO_SIDED|95.0|-57.71|-11.26||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-11.26|-57.71|0.004
92431490|NCT01652703|184748934|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-24.25|STANDARD_ERROR_OF_MEAN|11.93||0.044|TWO_SIDED|95.0|-47.83|-0.68||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-0.68|-47.83|0.044
92431491|NCT01652703|184748934|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-29.82|STANDARD_ERROR_OF_MEAN|9.36||0.002|TWO_SIDED|95.0|-48.32|-11.32||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-11.32|-48.32|0.002
92431492|NCT01652703|184748934|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-20.82|STANDARD_ERROR_OF_MEAN|9.41||0.028|TWO_SIDED|95.0|-39.41|-2.22||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-2.22|-39.41|0.028
92431493|NCT01652703|184748935|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-46.98|STANDARD_ERROR_OF_MEAN|2.64|<|0.001|TWO_SIDED|95.0|-52.21|-41.76||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-41.76|-52.21|<0.001
92431494|NCT01652703|184748935|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-37.22|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|-42.52|-31.91||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-31.91|-42.52|<0.001
92431495|NCT01652703|184748935|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-46.66|STANDARD_ERROR_OF_MEAN|2.86|<|0.001|TWO_SIDED|95.0|-52.32|-41.0||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-41.00|-52.32|<0.001
92431496|NCT01652703|184748935|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-45.3|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-51.02|-39.58||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-39.58|-51.02|<0.001
92431497|NCT01652703|184748936|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-61.35|STANDARD_ERROR_OF_MEAN|2.93|<|0.001|TWO_SIDED|95.0|-67.14|-55.56||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-55.56|-67.14|<0.001
92237387|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.16|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-2.98|-1.33||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-1.33|-2.98|<0.001
92431498|NCT01652703|184748936|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-47.53|STANDARD_ERROR_OF_MEAN|2.98|<|0.001|TWO_SIDED|95.0|-53.41|-41.65||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-41.65|-53.41|<0.001
92431499|NCT01652703|184748936|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-57.75|STANDARD_ERROR_OF_MEAN|3.03|<|0.001|TWO_SIDED|95.0|-63.73|-51.77||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-51.77|-63.73|<0.001
92431500|NCT01652703|184748936|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-52.22|STANDARD_ERROR_OF_MEAN|3.06|<|0.001|TWO_SIDED|95.0|-58.27|-46.18||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-46.18|-58.27|<0.001
92431501|NCT01751867|184748949|SUPERIORITY_OR_OTHER||ORR %|29.4||||0.003|TWO_SIDED|95.0|15.1|47.5|||Exact binomial proportion test||ORR % = Number of participants who achieved response divided by total ITT participants|Null Hypothesis: threshold for statistical significance = 10%||47.5|15.1|0.003
92431502|NCT01751867|184748949|SUPERIORITY_OR_OTHER||ORR %|25.5|||<|0.001|TWO_SIDED|95.0|17.2|35.3|||Exact binomial proportion test|||Null Hypothesis: threshold for statistical significance = 10%||35.3|17.2|<0.001
92431503|NCT03095066|184748992|SUPERIORITY||Difference in LS Mean|-1.7||||0.405|TWO_SIDED|95.0|-5.8|2.4||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Treatment differences in each stage were estimated by the Mixed Model Repeated Measures (MMRM).||2.4|-5.8|0.405
92431504|NCT03095066|184748993|SUPERIORITY||Difference in LS Mean|-0.7||||0.921|TWO_SIDED|95.0|-15.3|13.9||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Treatment differences in each stage were estimated by the MMRM.||13.9|-15.3|0.921
92431505|NCT03095066|184748994|SUPERIORITY||Difference in LS Mean|-0.7||||0.15|TWO_SIDED|95.0|-1.7|0.3||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Baseline to Week 6: Treatment differences in each stage were estimated by the MMRM.||0.3|-1.7|0.150
92431506|NCT03095066|184748994|SUPERIORITY||Difference in LS Mean|0.2||||0.921|TWO_SIDED|95.0|-4.3|4.7||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Week 7 to Week 12: Treatment differences in each stage were estimated by the MMRM.||4.7|-4.3|0.921
92237388|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.48|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|-3.34|-1.62||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-1.62|-3.34|<0.001
92279778|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.0830
92431507|NCT03095066|184748995|SUPERIORITY||Difference in LS Mean|0.3||||0.702|TWO_SIDED|95.0|-1.3|1.9||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Baseline to Week 6: Treatment differences in each stage were estimated by the MMRM.||1.9|-1.3|0.702
92431508|NCT03095066|184748995|SUPERIORITY||Difference in LS Mean|2.0||||0.469|TWO_SIDED|95.0|-3.6|7.6||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Week 7 to Week 12: Treatment differences in each stage were estimated by the MMRM.||7.6|-3.6|0.469
92431509|NCT03095066|184748996|SUPERIORITY||Difference in LS Mean|-1.3||||0.267|TWO_SIDED|95.0|-3.5|1.0||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Baseline to Week 6: Treatment differences in each stage were estimated by the MMRM.||1.0|-3.5|0.267
92431510|NCT03095066|184748996|SUPERIORITY||Difference in LS Mean|-1.6||||0.609|TWO_SIDED|95.0|-8.0|4.8||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Week 7 to Week 12: Treatment differences in each stage were estimated by the MMRM.||4.8|-8.0|0.609
92431511|NCT03095066|184748997|SUPERIORITY||Difference in LS Mean|-0.3||||0.743|TWO_SIDED|95.0|-2.4|1.7||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Baseline to Week 6: Treatment differences in each stage were estimated by the MMRM.||1.7|-2.4|0.743
92431512|NCT03095066|184748997|SUPERIORITY||Difference in LS Mean|1.2||||0.575|TWO_SIDED|95.0|-3.8|6.1||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Week 7 to Week 12: Treatment differences in each stage were estimated by the MMRM.||6.1|-3.8|0.575
92431513|NCT03095066|184748998|SUPERIORITY||Difference in LS Mean|-0.1||||0.664|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Baseline to Week 6||0.3|-0.5|0.664
92431514|NCT03095066|184748998|SUPERIORITY||Difference in LS Mean|-0.6||||0.273|TWO_SIDED|95.0|-1.9|0.6|||ANCOVA|||Week 7 to Week 12||0.6|-1.9|0.273
92431515|NCT03095066|184748999|SUPERIORITY||Difference in LS Mean|-0.4||||0.159|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||Baseline to Week 6||0.1|-0.9|0.159
92431516|NCT03095066|184748999|SUPERIORITY||Difference in LS Mean|-0.2||||0.745|TWO_SIDED|95.0|-1.5|1.1|||ANCOVA|||Week 7 to Week 12||1.1|-1.5|0.745
92431517|NCT03095066|184749000|SUPERIORITY||Difference in LS Mean|-0.2||||0.268|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Baseline to Week 6||0.2|-0.5|0.268
92431518|NCT03095066|184749000|SUPERIORITY||Difference in LS Mean|-0.5||||0.147|TWO_SIDED|95.0|-1.2|0.2|||ANCOVA|||Week 7 to Week 12||0.2|-1.2|0.147
92237389|NCT04003155|184379196|SUPERIORITY||LSMean Difference|-2.45|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.3|-1.6||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-1.60|-3.30|<0.001
92431519|NCT03095066|184749001|SUPERIORITY||Difference in LS Mean|-0.1||||0.655|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Baseline to Week 6||0.3|-0.5|0.655
92431520|NCT03095066|184749001|SUPERIORITY||Difference in LS Mean|-0.2||||0.734|TWO_SIDED|95.0|-1.2|0.9|||ANCOVA|||Week 7 to Week 12||0.9|-1.2|0.734
92431521|NCT01203098|184749034|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|-1.3|||||TWO_SIDED|95.0|-7.2|4.6||||||Primary analyses were performed on proportion of subjects who experienced thromboembolic events defined as primary efficacy endpoint (incidence of thromboembolic events); incidence of thromboembolic events and its 95% confidence interval (CI) were calculated by treatment group, and difference between DU-176b 15 mg and 30 mg groups and its 95% CI were also calculated. For reference, difference between enoxaparin group and each DU-176b group and its 95% CI of each were calculated.||4.6|-7.2|
92431522|NCT01203098|184749034|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.1|||||TWO_SIDED|95.0|-4.6|6.8||||||Primary analyses were performed on proportion of subjects who experienced thromboembolic events defined as primary efficacy endpoint (incidence of thromboembolic events); incidence of thromboembolic events and its 95% confidence interval (CI) were calculated by treatment group, and difference between DU-176b 15 mg and 30 mg groups and its 95% CI were also calculated. For reference, difference between enoxaparin group and each DU-176b group and its 95% CI of each were calculated.||6.8|-4.6|
92431523|NCT00621582|184749042|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Chi-squared|||comparing results of post-treatment global assessment by patient with that of pre-treatment||||0.01
92431524|NCT00578383|184749064|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.11|STANDARD_ERROR_OF_MEAN|1.17||0.009|TWO_SIDED|95.0|0.5|5.8||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.025 for significance (correction factor 2).|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression and those with major depressive disorder as assessed by the 17-item Hamilton Depression Rating Scale.||5.8|0.5|0.009
92431525|NCT00578383|184749065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.06|STANDARD_ERROR_OF_MEAN|0.38||0.006|TWO_SIDED|95.0|0.2|1.9||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.025 for significance (correction factor 2)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression and those with major depressive disorder as assessed by a visual analog scale.||1.9|0.2|0.006
92431526|NCT00578383|184749066|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.1|STANDARD_ERROR_OF_MEAN|1.24||0.001|TWO_SIDED|95.0|1.3|6.9||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.025 for significance (correction factor 2).|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression and those with major depressive disorder as assessed by the PANAS (POSITIVE SCALE).||6.9|1.3|0.001
92431527|NCT00578383|184749067|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_ERROR_OF_MEAN|1.39||0.15|TWO_SIDED|95.0|-1.1|5.1||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.025 for significance (correction factor 2).|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression and those with major depressive disorder as assessed by the PANAS (negative scale)||5.1|-1.1|0.15
92431528|NCT00578383|184749068|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|1.47||0.09|TWO_SIDED|95.0|-1.2|6.2||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression as assessed by the 17-item Hamilton Depression Rating Scale.||6.2|-1.2|0.09
92431529|NCT00578383|184749069|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2|STANDARD_ERROR_OF_MEAN|2.11||0.19|TWO_SIDED|95.0|-3.3|9.6||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with major depressive disorder as assessed by the 17-item Hamilton Depression Rating Scale.||9.6|-3.3|0.19
92431530|NCT00578383|184749070|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.76|STANDARD_ERROR_OF_MEAN|0.51||0.15|TWO_SIDED|95.0|-0.6|2.1||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression as assessed by a visual analog scale.||2.1|-0.6|0.15
92431531|NCT00578383|184749071|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.58|STANDARD_ERROR_OF_MEAN|0.67||0.04|TWO_SIDED|95.0|-0.4|3.6||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with major depressive disorder as assessed by a visual analog scale.||3.6|-0.4|0.04
92431532|NCT00578383|184749072|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|1.67||0.004|TWO_SIDED|95.0|0.8|9.2||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression as assessed by the PANAS (positive scale)||9.2|0.8|0.004
92431533|NCT00578383|184749073|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|1.58||0.3|TWO_SIDED|95.0|1.3|5.8||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with major depressive disorder as assessed by the PANAS (positive scale)||5.8|1.3|0.30
92446543|NCT02477020|184780041|SUPERIORITY_OR_OTHER||Least square mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.202||0.035||95.0|-0.83|-0.03||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 6||-0.03|-0.83|0.035
92431534|NCT00578383|184749074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|2.01||0.52|TWO_SIDED|95.0|-4.1|6.8||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression as assessed by the PANAS (negative scale)||6.8|-4.1|0.52
92431535|NCT00578383|184749075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|1.43||0.1||95.0|-1.3|5.8||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with major depressive disorder as assessed by the PANAS (negative scale)||5.8|-1.3|0.10
92431536|NCT03385564|184749090|OTHER|Percentage of patients with CRR at Week 52 without renal flare were analysed using a logistic regression model. Factors in the model included treatment and the covariates: race (Asian versus (vs.) non-Asian) and proteinuria \<3 gram (g)/day vs. ≥3 g/day (or Urine protein (UP)/ Urine creatinine (UC) \<3 vs. UP/UC ≥3) at screening.|Difference|-5.68||||0.7957|TWO_SIDED|80.0|-34.192|22.825|||Regression, Logistic||The difference was calculated as value from BI 120 milligrams group minus value from Placebo group. Confidence intervals calculated using the delta method.|||22.825|-34.192|0.7957
92431537|NCT03385564|184749090|OTHER|Percentage of patients with CRR at Week 52 without renal flare were analysed using a logistic regression model. Factors in the model included treatment and the covariates: race (Asian versus (vs.) non-Asian) and proteinuria \<3 gram (g)/day vs. ≥3 g/day (or Urine protein (UP)/ Urine creatinine (UC) \<3 vs. UP/UC ≥3) at screening.|Difference|-9.37||||0.5811|TWO_SIDED|80.0|-31.178|12.44|||Regression, Logistic||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the delta method.|||12.440|-31.178|0.5811
92431538|NCT03385564|184749090|OTHER|Percentage of patients with CRR at Week 52 without renal flare were analysed using a logistic regression model. Factors in the model included treatment and the covariates: race (Asian versus (vs.) non-Asian) and proteinuria \<3 gram (g)/day vs. ≥3 g/day (or Urine protein (UP)/ Urine creatinine (UC) \<3 vs. UP/UC ≥3) at screening.|Difference|1.97||||0.8972|TWO_SIDED|80.0|-17.534|21.48|||Regression, Logistic||The difference was calculated as value from BI 240 milligrams group minus value from Placebo group. Confidence intervals calculated using the delta method.|||21.480|-17.534|0.8972
92431539|NCT03385564|184749091|OTHER||Difference|-9.14||||0.825|TWO_SIDED|80.0|-32.83|17.02|||Barnard test||The difference was calculated as value from BI 120 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||17.02|-32.83|0.8250
92431540|NCT03385564|184749091|OTHER||Difference|-21.23||||0.2562|TWO_SIDED|80.0|-39.44|0.51|||Barnard test||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||0.51|-39.44|0.2562
92431541|NCT03385564|184749091|OTHER||Difference|-2.0||||0.9632|TWO_SIDED|80.0|-20.45|16.62|||Barnard test||The difference was calculated as value from BI 240 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||16.62|-20.45|0.9632
92431542|NCT03385564|184749092|OTHER||Difference|-2.86||||0.9275|TWO_SIDED|80.0|-28.58|21.1|||Barnard test||The difference was calculated as value from BI 120 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||21.10|-28.58|0.9275
92431543|NCT03385564|184749092|OTHER||Difference|-10.0||||0.6064|TWO_SIDED|80.0|-29.9|10.64|||Barnard test||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||10.64|-29.90|0.6064
92431544|NCT03385564|184749092|OTHER||Difference|0.0|||||TWO_SIDED|80.0|-18.37|18.07|||||The difference was calculated as value from BI 240 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||18.07|-18.37|
92279779|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0849||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.0849
92431545|NCT03385564|184749093|OTHER||Difference|3.73||||0.9119|TWO_SIDED|80.0|-20.53|29.6|||Barnard test||The difference was calculated as value from BI 120 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||29.60|-20.53|0.9119
92431546|NCT03385564|184749093|OTHER||Difference|3.73||||0.851|TWO_SIDED|80.0|-16.58|24.31|||Barnard test||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||24.31|-16.58|0.8510
92431547|NCT03385564|184749093|OTHER||Difference|16.43||||0.3498|TWO_SIDED|80.0|-3.53|34.73|||Barnard test||The difference was calculated as value from BI 240 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||34.73|-3.53|0.3498
92431548|NCT03385564|184749094|OTHER||Difference|5.43||||0.7921|TWO_SIDED|80.0|-10.19|23.57|||Barnard test||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||23.57|-10.19|0.7921
92431549|NCT03385564|184749096|OTHER||Difference|32.0||||0.1016|TWO_SIDED|80.0|10.28|44.74|||Barnard test||The difference was calculated as value from BI 120 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||44.74|10.28|0.1016
92431550|NCT03385564|184749096|OTHER||Difference|-3.71||||0.8323|TWO_SIDED|80.0|-23.79|15.29|||Barnard test||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||15.29|-23.79|0.8323
92431551|NCT03385564|184749096|OTHER||Difference|7.0||||0.6247|TWO_SIDED|80.0|-10.5|23.31|||Barnard test||The difference was calculated as value from BI 240 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||23.31|-10.50|0.6247
92237390|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.006|TWO_SIDED|95.0|-0.17|-0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.03|-0.17|0.006
92431552|NCT01146834|184749101|SUPERIORITY||Risk Difference (RD)|-0.02||||0.9|TWO_SIDED|95.0|-0.32|0.28|||Chi-squared|||Arm B was initially closed due to low accrual, and Arms D and E were also closed due to no accrual. Arms A and C also had very low accrual. Therefore, the comparison of the primary outcome between Arms A and C is for exploratory purposes only.||0.28|-0.32|0.90
92237391|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.006|TWO_SIDED|95.0|-0.17|-0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.03|-0.17|0.006
92431553|NCT01146834|184749103|SUPERIORITY||Risk Difference (RD)|-0.25||||0.25|TWO_SIDED|95.0|-0.68|0.18|||Fisher Exact|||||0.18|-0.68|0.25
92431554|NCT00668707|184749140|SUPERIORITY||Risk Ratio (RR)|1.01||||0.94|TWO_SIDED|95.0|0.83|1.22|||Regression, Logistic|||Analysis conducted was an adjusted logistic regression (adjuvant chemotherapy, adjuvant radiation, smoking history). Results were presented as a relative risk. Based on an estimated 30% outcome rate of recurrence or mortality in the control arm, 294 participants per arm provided 80% power to detect a relative risk of one third at an alpha of 0.05. We inflated this sample size to 346 per arm to account for 15% lost to follow-up.||1.22|0.83|0.94
92431555|NCT00668707|184749141|SUPERIORITY||Mean Difference (Net)|1.2||||0.36|TWO_SIDED|95.0|-1.3|3.7|||Mixed Models Analysis|Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.||Analysis for the LC-13 scale.||3.7|-1.3|0.36
92431556|NCT00668707|184749141|SUPERIORITY||Mean Difference (Net)|0.4||||0.8|TWO_SIDED|95.0|-2.5|3.3||Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.|Mixed Models Analysis|||Analysis for Symptom Scale.||3.3|-2.5|0.80
92431557|NCT00668707|184749141|SUPERIORITY||Mean Difference (Net)|-0.7||||0.69|TWO_SIDED|95.0|-4.1|2.7||Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.|Mixed Models Analysis|||Analysis for Functional Scale.||2.7|-4.1|0.69
92431558|NCT00668707|184749141|SUPERIORITY||Mean Difference (Net)|-3.8||||0.11|TWO_SIDED|95.0|-8.5|0.9||Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.|Mixed Models Analysis|||Analysis for Global Scale.||0.9|-8.5|0.11
92431559|NCT00668707|184749142|SUPERIORITY||Mean Difference (Net)|-3.1||||0.13|TWO_SIDED|95.0|-7.2|0.9|||Mixed Models Analysis|||Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.||0.9|-7.2|0.13
92431560|NCT00668707|184749143|SUPERIORITY||Mean Difference (Net)|-4.1||||0.18|TWO_SIDED|95.0|-10.0|1.9|||Mixed Models Analysis|Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.||Sleep Adequacy Analysis.||1.9|-10.0|0.18
92431561|NCT00668707|184749143|SUPERIORITY||Mean Difference (Net)|1.4||||0.41|TWO_SIDED|95.0|-2.0|4.8|||Mixed Models Analysis|Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.||Sleep problems index II analysis.||4.8|-2.0|0.41
92431562|NCT00668707|184749147|SUPERIORITY|||||||0.62|||||||Chi-squared|||||||0.62
92431563|NCT00668707|184749148|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.41|TWO_SIDED|95.0|0.85|1.07|||Log Rank|||DFS up to five years post-surgery was compared using Kaplan-Meier curves and the log rank test, followed by a hazard ratio calculated using the Cox proportional hazard model adjusting for adjuvant chemotherapy, adjuvant radiation, and smoking history.||1.07|0.85|0.41
92431564|NCT00668707|184749148|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.66|TWO_SIDED|95.0|0.85|1.11|||Log Rank|||This analysis included only those with stage I or II cancer (pathologic stage). DFS up to five years post-surgery was compared using Kaplan-Meier curves and the log rank test, followed by a hazard ratio calculated using the Cox proportional hazard model adjusting for adjuvant chemotherapy, adjuvant radiation, and smoking history.||1.11|0.85|0.66
92431565|NCT00668707|184749148|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.004|TWO_SIDED|95.0|0.61|0.92|||Log Rank|||This analysis included only those participants who had stage III or IV cancer (pathologic stage). DFS up to five years post-surgery was compared using Kaplan-Meier curves and the log rank test, followed by a hazard ratio calculated using the Cox proportional hazard model adjusting for adjuvant chemotherapy, adjuvant radiation, and smoking history.||0.92|0.61|0.004
92431566|NCT00668707|184749149|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.95|TWO_SIDED|95.0|-3.21|4.56|||Wilcoxon (Mann-Whitney)|||Analysis of melatonin changes||4.56|-3.21|0.95
92431567|NCT00668707|184749149|SUPERIORITY||Mean Difference (Final Values)|3.63||||0.02|TWO_SIDED|95.0|-0.15|7.42|||Wilcoxon (Mann-Whitney)|||Analysis of placebo changes||7.42|-0.15|0.02
92431568|NCT00668707|184749150|SUPERIORITY|||||||0.37|||||||Chi-squared|||||||0.37
92431569|NCT00668707|184749151|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||This analysis compares the mean ratios of 6 month cytotoxicity and baseline cytotoxicity between arms.||||0.34
92237392|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.05||0.003|TWO_SIDED|95.0|-0.24|-0.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-0.05|-0.24|0.003
92431570|NCT03846804|184749166|OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
92431571|NCT00826943|184749194|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||The threshold for significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||.03
92431572|NCT00826943|184749194|SUPERIORITY_OR_OTHER|||||||0.11||||||The threshold for significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||.11
92431573|NCT00826943|184749194|SUPERIORITY_OR_OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||.45
92431574|NCT00826943|184749195|SUPERIORITY_OR_OTHER|||||||0.27||95.0||||The threshold for significance was p \< .05.|Wilcoxon (Mann-Whitney)|||||||.27
92431575|NCT00826943|184749195|SUPERIORITY_OR_OTHER|||||||0.8||||||The threshold for significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||.8
92431576|NCT00826943|184749195|SUPERIORITY_OR_OTHER|||||||0.52||||||The threshold for significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||.52
92431577|NCT00826943|184749196|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||The threshold for significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||.14
92431578|NCT00826943|184749196|SUPERIORITY_OR_OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||.54
92431579|NCT00826943|184749196|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||.42
92431580|NCT03338998|184749218|SUPERIORITY||Geo-mean ratio|1.05||||0.585|TWO_SIDED|90.0|0.717|1.535|||ANCOVA|||||1.535|0.717|0.585
92431581|NCT03329573|184749225|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of AUC(0-infinity) for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|1.059|||||TWO_SIDED|90.0|1.006|1.115||||||||1.115|1.006|
92431582|NCT03329573|184749226|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of AUC(0-infinity) for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|0.996|||||TWO_SIDED|90.0|0.947|1.047||||||||1.047|0.947|
92431583|NCT03329573|184749227|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of AUC(0-t) for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|1.064|||||TWO_SIDED|90.0|1.01|1.12||||||||1.120|1.010|
92431584|NCT03329573|184749228|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of AUC(0-t) for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|0.996|||||TWO_SIDED|90.0|0.949|1.044||||||||1.044|0.949|
92279780|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.6578||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.6578
92431585|NCT03329573|184749229|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of Cmax for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|1.024|||||TWO_SIDED|90.0|0.952|1.101||||||||1.101|0.952|
92431586|NCT03329573|184749230|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of Cmax for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|1.02|||||TWO_SIDED|90.0|0.968|1.074||||||||1.074|0.968|
92431587|NCT00650260|184749255|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||Fisher Exact|||||||0.027
92431588|NCT00650260|184749256|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||t-test, 1 sided|||||||0.078
92431589|NCT00650260|184749259|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92431590|NCT05405309|184749276|OTHER||||||||||||||||||"The primary analysis was of safety and included all patients who received at least one dose of the investigational regimen. The rate of adverse events was estimated after the first 5 patients were treated at Original DL1 (camonsertib 40mg daily and olaparib 100mg BID dosing 2 days per week, at 28 day cycles)~After the first 5 patients were treated, it was determined that this dosing strategy may not be appropriate for R/R CLL patients and reduced dosing frequency may be necessary to increase the safety of the combination therapy. The protocol and DLs were amended, and sought to enroll an additional 18 patients.~Before the enrollment of 18 additional participants and MTD determination, the study was terminated due to sponsor de-activation of all programs associated with camonsertib."|||
92431591|NCT05438888|184749300|OTHER||Hazard Ratio (HR)|0.753|||<|0.001|TWO_SIDED|95.0|0.711|0.798|||Log Rank|||||0.798|0.711|<0.001
92431592|NCT05438888|184749301|OTHER||Hazard Ratio (HR)|0.687|||<|0.001|TWO_SIDED|95.0|0.622|0.76|||Log Rank|||||0.760|0.622|<0.001
92431593|NCT05438888|184749302|OTHER||Hazard Ratio (HR)|0.638|||<|0.001|TWO_SIDED|95.0|0.57|0.714|||Log Rank|||||0.714|0.570|<0.001
92431594|NCT05438888|184749303|OTHER||Hazard Ratio (HR)|0.854|||<|0.001|TWO_SIDED|95.0|0.791|0.922|||Log Rank|||||0.922|0.791|<0.001
92431595|NCT05438888|184749304|OTHER||Hazard Ratio (HR)|0.638|||<|0.001|TWO_SIDED|95.0|0.57|0.715|||Log Rank|||||0.715|0.570|<0.001
92431596|NCT05438888|184749305|OTHER||Hazard Ratio (HR)|0.868|||<|0.001|TWO_SIDED|95.0|0.807|0.934|||Log Rank|||||0.934|0.807|<0.001
92431597|NCT05438888|184749306|OTHER||Hazard Ratio (HR)|0.646|||<|0.001|TWO_SIDED|95.0|0.503|0.83|||Log Rank|||||0.830|0.503|<0.001
92431598|NCT04997304|184749331|OTHER|Test of paired differences||||||0.0019|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for AirDuo||||0.0019
92431599|NCT04997304|184749331|OTHER|Test of paired differences||||||0.002|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for ProAir||||0.0020
92431600|NCT04997304|184749332|OTHER|Test of paired differences||||||0.0008|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for AirDuo||||0.0008
92431601|NCT04997304|184749332|OTHER|Test of paired differences||||||0.0003|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for ProAir||||0.0003
92431602|NCT04997304|184749333|OTHER|Test of paired differences||||||0.04|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for AirDuo||||0.04
92431603|NCT04997304|184749333|OTHER|Test of paired differences||||||0.0965|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for ProAir||||0.0965
92431604|NCT05231954|184749339|SUPERIORITY||Odds Ratio (OR)|1.29||||0.006|TWO_SIDED|95.0|1.08|1.55||P-value is adjusted for multiple comparisons, and a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||1.55|1.08|0.006
92431605|NCT05231954|184749339|SUPERIORITY||Odds Ratio (OR)|0.82||||0.081|TWO_SIDED|95.0|0.65|1.03||The p-value is adjusted for multiple comparisons, and a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||1.03|0.65|0.081
92431606|NCT05231954|184749340|SUPERIORITY||Odds Ratio (OR)|1.44||||0.044|TWO_SIDED|95.0|1.01|2.05||The p-value is adjusted for multiple comparisons, and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||2.05|1.01|0.044
92431607|NCT05231954|184749340|SUPERIORITY||Odds Ratio (OR)|1.02||||0.919|TWO_SIDED|95.0|0.69|1.5||The p-value is adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||1.50|0.69|0.919
92431608|NCT04249583|184749353|SUPERIORITY|||||||0.05|||||||Cochran-Mantel-Haenszel|||||||0.05
92279781|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0396||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.0396
92431609|NCT02370160|184749364|OTHER||||||||||||||||||In Phase I: There were 9 subjects treated on dose level 1 (60 µg/kg/dose). There were 6 subjects treated on Dose level 2 (80 µg/kg/dose). There were four DLT events happened in Phase I. One was treated on dose level 1 and the other three were treated on dose level 2. Therefore the MTD was dose level 1.|||
92431610|NCT04487730|184749371|SUPERIORITY||Mean Difference (Final Values)|0.4727||||0.6249|TWO_SIDED||||||Mixed Models Analysis|||Functional connectivity within the orbital prefrontal cortex (OFC; specifically between lateral and medial OFC), significantly changed over time.||||0.6249
92431611|NCT04487730|184749372|SUPERIORITY||Mean Difference (Final Values)|3.8176||||0.525|TWO_SIDED||||||Mixed Models Analysis|||"Mixed effects model with a fixed effect for treatment and time, as well as time by treatment interaction, and a random effect for subject level.~F value for time by treatment interaction."||||.525
92431612|NCT04487730|184749373|SUPERIORITY||Mean Difference (Final Values)|0.6503||||0.844|TWO_SIDED||||||Mixed Models Analysis|||"Mixed effects model with a fixed effect for treatment and time, as well as time by treatment interaction, and a random effect for subject level.~F value for time by treatment interaction."||||.844
92431613|NCT03291808|184749383|OTHER|||||||0.35|||||||Kruskal-Wallis|||||||.35
92431614|NCT02891850|184749392|EQUIVALENCE|The hypothesis was that there was no difference in the satisfactory clinical response rates in terms of odds ratio (OR) when treated with riociguat compared with participants who remained on their previous therapy.|Odds Ratio (OR)|2.78||||0.0007|TWO_SIDED|95.0|1.526|5.06|||Mantel Haenszel|Stratified by PAH category at baseline||||5.060|1.526|0.0007
92431615|NCT02891850|184749393|EQUIVALENCE|The hypothesis was that there was no difference in the change of 6MWD in terms of mean difference when treated with riociguat compared with participants who remained on their previous therapy.|Mean Difference (Final Values)|22.56||||0.0542|TWO_SIDED|95.0|5.03|40.1|||t-test, 2 sided|Stratified by PAH category at baseline||||40.10|5.03|0.0542
92431616|NCT02891850|184749394|EQUIVALENCE|The hypothesis was that there was no difference in the change of NT-proBNP in terms of mean difference when treated with riociguat compared with participants who remained on their previous therapy.|Mean Difference (Final Values)|-169.65||||0.1067|TWO_SIDED|95.0|-426.18|86.88|||t-test, 2 sided|Stratified by PAH category at baseline||||86.88|-426.18|0.1067
92431617|NCT02891850|184749395|EQUIVALENCE|The hypothesis was that there was no difference in the change from baseline in WHO FC in terms of mean difference when treated with riociguat compared with participants who remained on their previous therapy.|Mean Difference (Final Values)|-0.26||||0.0007|TWO_SIDED|95.0|-0.42|-0.11|||t-test, 2 sided|Stratified by PAH category at baseline||||-0.11|-0.42|0.0007
92431618|NCT02891850|184749396|EQUIVALENCE|The hypothesis was that there was no difference in the clinical worsening rates in terms of odds ratio (OR) when treated with riociguat compared with participants who remained on their previous therapy.|Odds Ratio (OR)|0.1||||0.0047|TWO_SIDED|95.0|0.013|0.725|||Mantel Haenszel|Stratified by PAH category at baseline||||0.725|0.013|0.0047
92431619|NCT02957305|184749397|NON_INFERIORITY|400µg of misoprostol yields a 96% cervical dilation \> 8 mm. We considered 86% of the 200 µg misoprostol group as the minimal acceptable percentage. The non-inferiority margin was determined by 24.46.|treatment difference|25.0||||0.025|ONE_SIDED|95.0||97.5||The null hypothesis: percentage of dilation with 400µg ≥ percentage of dilation with 200µg + 25% Alternative hypothesis: percentage of dilation with 400µg - 25% \< percentage of dilation with 200µg|difference between proportions|difference between percentages and 95% confidence interval||If there is a true difference in favour of the standard treatment of 10% (96% vs 86%), then 184 patients are required to be 95% sure that the upper limit of a one-sided 97.5% confidence interval (or equivalently a 95% two-sided confidence interval) will exclude a difference in favour of the standard group of more than 25%||97.5||0.025
92431620|NCT02957305|184749397|NON_INFERIORITY|The non-inferiority margin was determined by ⅓ of the difference between the 400µg effect (96.7%), compared to the 200 µg dose (23.3%), i.e. 73.4 / 3 = 24.46%|Difference between proportions|0.1146||||0.004|TWO_SIDED|95.0|0.037|0.192|||Chi-squared||The difference between both groups was 11.5% (95%CI = 3.7% to 19.2%)|||0.192|0.037|0.004
92431621|NCT02957305|184749399|SUPERIORITY||Median Difference (Final Values)|0.0||||0.9|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.9
92431622|NCT00056316|184749456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.93||||0.05||95.0|||||t-test, 2 sided||Mean difference is equal to Behavioral Skills Intervention minus Basic Education Control|||||.05
92431623|NCT00056316|184749457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.07||||0.05||95.0|||||t-test, 2 sided||Mean difference is equal to Behavioral Skills Intervention minus Basic Education Control|||||.05
92431624|NCT00004978|184749475|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.94||||0.55|TWO_SIDED|95.0|0.75|1.16||P-value is 2-sided using an alpha of .05.|Regression, Cox|Hazard ratio is from unadjusted proportional hazards regression model.|HR is for rIL-2 vs control.|||1.16|0.75|.55
92431625|NCT00004978|184749476|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.94||||0.62|TWO_SIDED|95.0|0.74|1.2|||Regression, Cox|||||1.20|0.74|.62
92431626|NCT00004978|184749477|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.42|TWO_SIDED|95.0|0.69|1.17|||Regression, Cox|||||1.17|0.69|.42
92431627|NCT00004978|184749478|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.41|TWO_SIDED|95.0|0.73|1.14|||Regression, Cox|||||1.14|0.73|.41
92431628|NCT00004978|184749479|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|159.0|||||TWO_SIDED|95.0|145.0|174.0|||||treatment difference (rIL2 - no rIL2) estimated from a longitudinal model that considers CD4+ measured at followup visits|||174|145|
92431629|NCT00004978|184749481|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.94||||0.07|TWO_SIDED|95.0|0.88|1.0|||Regression, Cox|Hazard ratio (rIL-2 vs. no rIL-2) for first change in antiretroviral treatment.||||1.00|0.88|.07
92431630|NCT00004978|184749482|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.23||||0.003|TWO_SIDED|95.0|1.07|1.41|||Regression, Cox||HR (IL-2 vs control) for first grade 4 event, ITT analysis.|||1.41|1.07|.003
92431631|NCT00004978|184749483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97||95.0|||||Chi-squared|||||||.97
92431632|NCT00004978|184749484|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96||||0.74|TWO_SIDED|95.0|0.76|1.22|||Regression, Cox|||||1.22|0.76|.74
92431633|NCT02155608|184749493|SUPERIORITY|||||||0.54||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .38, df = 1/228.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.54
92170989|NCT03821844|184230891|SUPERIORITY||marginal interaction effect|0.0|||<|0.05|TWO_SIDED|95.0|-0.03|0.02|||Differences-in-Differences regression||Reported estimation details pertain to the None category.||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment versus control nursing home had on the behaviors of nursing home residents. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. To address baseline differences in the proportion of individuals at each level of the ordinal outcomes between treatment and control groups, we report the marginal time by intervention interaction.|0.02|-0.03|< 0.05
92431634|NCT02155608|184749493|SUPERIORITY||||||<|0.0001||||||p \< .05 for statistical significance|Mixed Models Analysis|Time: F=39.97, df = 1/228||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||<.0001
92431635|NCT02155608|184749493|SUPERIORITY|||||||0.005||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 8.12, df = 1/228.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.005
92431636|NCT02155608|184749493|SUPERIORITY||||||<|0.0001||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time2: F = 28.96, df = 1/228.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||<.0001
92431637|NCT02155608|184749493|SUPERIORITY|||||||0.02||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 6.23, df = 1/57.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.02
92431638|NCT02155608|184749493|SUPERIORITY|||||||0.05||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 4.18, df = 1/57.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.05
92431639|NCT02155608|184749493|SUPERIORITY|||||||0.73||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .12, df = 1/57.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.73
92431640|NCT02155608|184749494|SUPERIORITY|||||||0.003||||||p \< .05 for statistical significance|Chi-squared|Group: F = 8.75, df = 1/168.||Phase 1a: Assessed effects of group and time on categorical measure CGI-I from Baseline through Visit 4.||||.003
92431641|NCT02155608|184749494|SUPERIORITY|||||||0.17||||||p \< .05 for statistical significance.|Chi-squared|Time: F = 1.69, df = 3/168.||Phase 1a: Assessed effects of group and time on categorical measure CGI-I from Baseline through Visit 4.||||.17
92170990|NCT03821844|184230892|SUPERIORITY||marginal interaction effect|0.05|||<|0.05|TWO_SIDED|95.0|0.02|0.07|||Differences-in-Differences regression||||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment versus control nursing home had on the moods of nursing home residents. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. We report the marginal time by intervention interaction.|0.07|0.02|< 0.05
92431642|NCT02155608|184749494|SUPERIORITY|||||||0.46|||||||Chi-squared|Group: Chi-square = .53, df = 1.||Phase 1b: Assessed effects of group on categorical measure CGI-I from at Visit 5 compared to baseline.||||.46
92431643|NCT02155608|184749495|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|Group: F=.01; df =1/209.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.91
92431644|NCT02155608|184749495|SUPERIORITY|||||||0.0004|||||||Mixed Models Analysis|Time: F=13.03; df = 1/209.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.0004
92431645|NCT02155608|184749495|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|Group \* time: F = .83; df = 1/209.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.37
92237393|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.05||0.002|TWO_SIDED|95.0|-0.25|-0.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-0.06|-0.25|0.002
92431646|NCT02155608|184749495|SUPERIORITY|||||||0.007||||||Time2: F = 7.45, df = 1/209.|Mixed Models Analysis|||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.007
92431647|NCT02155608|184749495|SUPERIORITY|||||||0.67||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .19, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.67
92431648|NCT02155608|184749495|SUPERIORITY|||||||0.68||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .17, df = 1/50.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.68
92431649|NCT02155608|184749495|SUPERIORITY|||||||0.16||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 2.05, df = 1/50.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.16
92431650|NCT02155608|184749496|SUPERIORITY|||||||0.91||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .01, df = 1/56.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.91
92431651|NCT02155608|184749496|SUPERIORITY|||||||0.15||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 2.12, df = .15||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.15
92431652|NCT02155608|184749496|SUPERIORITY|||||||0.64||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .21, df = 1/56.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.64
92431653|NCT02155608|184749496|SUPERIORITY|||||||0.66||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .20, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.66
92431654|NCT02155608|184749496|SUPERIORITY|||||||0.48||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .50, df = 1/47.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.48
92431655|NCT02155608|184749496|SUPERIORITY|||||||0.81||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .06, df = 1/47.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.81
92431656|NCT02155608|184749497|SUPERIORITY|||||||0.89||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .02, df = 1/55.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.89
92431657|NCT02155608|184749497|SUPERIORITY|||||||0.14||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 2.28, df = 1/55.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.14
92431658|NCT02155608|184749497|SUPERIORITY|||||||0.8||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .06, df = .81.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.80
92431659|NCT02155608|184749497|SUPERIORITY|||||||0.93||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .01, df = 1/58.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.93
92431660|NCT02155608|184749497|SUPERIORITY|||||||0.15||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 2.22, df = 1/35.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.15
92431661|NCT02155608|184749497|SUPERIORITY|||||||0.28||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 1.23, df = 1/35.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.28
92431662|NCT02155608|184749498|SUPERIORITY|||||||0.91||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .01; df = 1/46.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.91
92431663|NCT02155608|184749498|SUPERIORITY|||||||0.11||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 2.62, df = 1/46.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.11
92431664|NCT02155608|184749498|SUPERIORITY|||||||0.4||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .71; df = .40.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.40
92431665|NCT02155608|184749498|SUPERIORITY|||||||0.49||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .48. df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.49
92279782|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1657||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.1657
92431666|NCT02155608|184749498|SUPERIORITY|||||||0.18||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 1.87, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.18
92237394|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.06||0.004|TWO_SIDED|95.0|-0.27|-0.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-0.05|-0.27|0.004
92237395|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.003|TWO_SIDED|95.0|-0.28|-0.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-0.06|-0.28|0.003
92237396|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.006|TWO_SIDED|95.0|-0.29|-0.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-0.05|-0.29|0.006
92237397|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.004|TWO_SIDED|95.0|-0.29|-0.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-0.06|-0.29|0.004
92237398|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|95.0|-0.33|-0.07||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-0.07|-0.33|0.003
92431667|NCT02155608|184749498|SUPERIORITY|||||||0.72||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .13, df = 1/38.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.72
92431668|NCT02155608|184749499|SUPERIORITY|||||||0.62|||||||Mixed Models Analysis|Group: F =.25, df = 1/53.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.62
92431669|NCT02155608|184749499|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|Time: F = 3.58, df = 1/53.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.06
92431670|NCT02155608|184749499|SUPERIORITY|||||||0.09||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 2.90, df 1/53.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.09
92431671|NCT02155608|184749499|SUPERIORITY|||||||0.06||||||p \< .05 for statistical significance|Mixed Models Analysis|Group: F = 3.36, df = 1/58.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.06
92431672|NCT02155608|184749499|SUPERIORITY|||||||0.05||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 4.20, df = 1/31.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.05
92431673|NCT02155608|184749499|SUPERIORITY|||||||0.42||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .66, df = 1/31.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.42
92431674|NCT02155608|184749500|SUPERIORITY|||||||0.29||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 0.29, df = 1/129.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.29
92431675|NCT02155608|184749500|SUPERIORITY|||||||0.02||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 5.83, df = 1/129.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.02
92431676|NCT02155608|184749500|SUPERIORITY|||||||0.31||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 1.03, df = 1/129.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.31
92431677|NCT02155608|184749500|SUPERIORITY|||||||0.69||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .16, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.69
92431678|NCT02155608|184749500|SUPERIORITY|||||||0.33||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .98, df = 1/54.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.33
92431679|NCT02155608|184749500|SUPERIORITY|||||||0.35||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .88, df = 1/54.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.35
92431680|NCT02155608|184749501|SUPERIORITY|||||||0.21||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 1.62, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.21
92431681|NCT02155608|184749501|SUPERIORITY|||||||0.02||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 5.18, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.02
92431682|NCT02155608|184749501|SUPERIORITY|||||||0.01||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 6.89, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.01
92431683|NCT02155608|184749501|SUPERIORITY|||||||0.15||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F= 2.16, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.15
92237399|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.38|-0.13||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-0.13|-0.38|<0.001
92237400|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.37|-0.11||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-0.11|-0.37|<0.001
92431684|NCT02155608|184749501|SUPERIORITY|||||||0.05||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 4.15, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.05
92431685|NCT02155608|184749501|SUPERIORITY|||||||0.79||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .07, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.79
92431686|NCT02155608|184749502|SUPERIORITY|||||||0.94||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .01, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.94
92431687|NCT02155608|184749502|SUPERIORITY|||||||0.76||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .09, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.76
92431688|NCT02155608|184749502|SUPERIORITY|||||||0.39||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .75, df =1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.39
92431689|NCT02155608|184749502|SUPERIORITY|||||||0.09||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 3.06, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.09
92431690|NCT02155608|184749502|SUPERIORITY|||||||0.79||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .07, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.79
92237401|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.39|-0.13||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-0.13|-0.39|<0.001
92237402|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.41|-0.15||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-0.15|-0.41|<0.001
92237403|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.37|-0.11||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-0.11|-0.37|<0.001
92237404|NCT04003155|184379197|SUPERIORITY||MMRM|-0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.41|-0.12||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-0.12|-0.41|<0.001
92431691|NCT02155608|184749502|SUPERIORITY|||||||0.22||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 1.55, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.22
92431692|NCT02155608|184749503|SUPERIORITY|||||||0.64||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .22, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.64
92431693|NCT02155608|184749503|SUPERIORITY|||||||0.19||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 1.49, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.19
92431694|NCT02155608|184749503|SUPERIORITY|||||||0.22||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 1.49, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.22
92431695|NCT02155608|184749503|SUPERIORITY|||||||0.05||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 3.95, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.05
92431696|NCT02155608|184749503|SUPERIORITY|||||||0.96||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 0.00, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.96
92431697|NCT02155608|184749503|SUPERIORITY|||||||0.92||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .01, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.92
92431698|NCT02155608|184749504|SUPERIORITY|||||||0.79||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .07, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.79
92431699|NCT02155608|184749504|SUPERIORITY|||||||0.3||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 1.10, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.30
92237405|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.07||0.004|TWO_SIDED|95.0|-0.35|-0.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-0.06|-0.35|0.004
92237406|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.43|-0.13||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-0.13|-0.43|<0.001
92431700|NCT02155608|184749504|SUPERIORITY|||||||0.03||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 4.61, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.03
92431701|NCT02155608|184749504|SUPERIORITY|||||||0.14||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 2.24, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.14
92431702|NCT02155608|184749504|SUPERIORITY|||||||0.82||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .05, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.82
92431703|NCT02155608|184749504|SUPERIORITY|||||||0.07||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 3.35, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.07
92431704|NCT02155608|184749505|SUPERIORITY|||||||0.55|||||||Mixed Models Analysis|Group: F = .36, df = 1/52||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.55
92431705|NCT02155608|184749505|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|Time: F = .09, df = 1/52||Phase 1a: Outcomes were fitted via a mixed model with group, time, and group-by-time interactions to test for treatment effects.||||.34
92431706|NCT02155608|184749505|SUPERIORITY|||||||0.81|||||||Mixed Models Analysis|Group \* time: F = .06, df = 1/52||Phase 1 a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interaction to test for treatment effects.||||.81
92431707|NCT02155608|184749505|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|Group: F = .05, df = 1/59||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.83
92431708|NCT02155608|184749505|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|Time: F = 4.52, df = 1/43||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.04
92431709|NCT02155608|184749505|SUPERIORITY|||||||0.73|||||||Mixed Models Analysis|Group \* time: F = .12, df = 1/43||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.73
92431710|NCT02155608|184749506|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|Group: F = 1.62, df = 1/58.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parametrized in the model as a standard linear viable, time (ranging from baseline to 4 weeks) and a second variable, time2. defined as 0 at baseline and time past week 1 for subsequent weeks. The time 2 coefficient represents the change in slope after the initial week.||||.21
92431711|NCT02155608|184749506|SUPERIORITY|||||||0.39|||||||Mixed Models Analysis|Time: F = .74, df = 1/58.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parametrized in the model as a standard linear viable, time (ranging from baseline to 4 weeks) and a second variable, time2. defined as 0 at baseline and time past week 1 for subsequent weeks. The time 2 coefficient represents the change in slope after the initial week.||||.39
92431712|NCT02155608|184749506|SUPERIORITY|||||||0.18|||||||Mixed Models Analysis|Time2: F = 1.88, df = 1/58.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parametrized in the model as a standard linear viable, time (ranging from baseline to 4 weeks) and a second variable, time2. defined as 0 at baseline and time past week 1 for subsequent weeks. The time 2 coefficient represents the change in slope after the initial week.||||.18
92431713|NCT02155608|184749506|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|Group \* time: F = 1.56; df = 1/58.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parametrized in the model as a standard linear viable, time (ranging from baseline to 4 weeks) and a second variable, time2. defined as 0 at baseline and time past week 1 for subsequent weeks. The time 2 coefficient represents the change in slope after the initial week.||||.22
92431714|NCT02155608|184749506|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|Group: F = 1.72, df = 1/12.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.21
92431715|NCT02155608|184749506|SUPERIORITY|||||||1||||||Test not valid due to insufficient data.|Mixed Models Analysis|Time: F = 0.00, df = 1/0.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||1
92431716|NCT02155608|184749506|SUPERIORITY|||||||1||||||Test not valid due to insufficient data.|Mixed Models Analysis|Group \* time: F = .87, df = 1/0.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||1
92431717|NCT00869349|184749523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.04|TWO_SIDED|95.0|-1.1|0.0||a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Treatment effects are reported as mean between-group differences from baseline to 21 months using t-tests to determine the differential effect of the intervention versus the education group.||0.0|-1.1|0.04
92170991|NCT03821844|184230893|SUPERIORITY||marginal interaction effect|-0.01|||<|0.05|TWO_SIDED|95.0|-0.03|0.01|||Differences-in-Differences regression||||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment versus control nursing home had on the moods of nursing home residents. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. We report the marginal time by intervention interaction.|0.01|-0.03|< 0.05
92170992|NCT03821844|184230894|SUPERIORITY||average marginal effect|-0.01|||<|0.05|TWO_SIDED|95.0|-0.04|0.01|||Differences-in-Differences regression||||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment versus control nursing home had on the moods of nursing home residents. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. We report the marginal time by intervention interaction.|0.01|-0.04|< 0.05
92237407|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|-0.37|-0.08||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-0.08|-0.37|0.002
92431718|NCT00869349|184749524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2||||0.01|TWO_SIDED|95.0|-5.6|-0.8||a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Treatment effects are reported as mean between-group differences from baseline to 21 months using t-tests to determine the differential effect of the intervention versus the education group.||-0.8|-5.6|0.01
92431719|NCT00869349|184749525|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8||||0.01|TWO_SIDED|95.0|0.5|3.1||a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Treatment effects are reported as mean between-group differences from baseline to 21 months using t-tests to determine the differential effect of the intervention versus the education group.||3.1|0.5|0.01
92431720|NCT02728050|184749530|SUPERIORITY|||||||0.48|||||||Fisher Exact|||"Participants on study receiving CLAGM-S were compared to a historical cohort of newly diagnosed AML/high-risk MDS patients treated with CLAG-M alone, matched for mitoxantrone dose, age, and TRM score.~Number of participants in historical cohort = 71. Number of participants in historical cohort who achieved MRD-negative CR = 55 (77.46%)"||||0.48
92431721|NCT02577510|184749546|OTHER|||||||0.05|||||||t-test, 1 sided|||Statistical analysis was performed using SPSS Version 21 statistical software (IBM, Armonk, New York). For continuous data, normality was fi rst assessed with the Lilliefors test and then analyzed using a paired t test. Data that did not have a normal distribution, as well as ordinal data, was analyzed using Wilcoxon's signed ranks or McNemar's test. All P values presented were 2-sided and values inferior to 0.05 were considered signifi cant||||0.05
92431722|NCT00777608|184749590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.231|TWO_SIDED|90.0|-0.2|0.08|||ANOVA|||||0.08|-0.2|0.231
92431723|NCT00777608|184749591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.041|TWO_SIDED|90.0|-0.3|-0.008|||ANOVA||Statistical analysis for Week 2|||-0.008|-0.3|0.041
92431724|NCT00777608|184749591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.143|TWO_SIDED|90.0|-0.3|0.06|||ANOVA||Statistical analysis for Week 8|||0.06|-0.3|0.143
92431725|NCT00777608|184749591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.1||0.226|TWO_SIDED|90.0|-0.2|0.09|||ANOVA||Statistical analysis for Week 12|||0.09|-0.2|0.226
92431726|NCT00777608|184749592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|1.0||0.324|TWO_SIDED|90.0|-1.2|2.2|||ANOVA||Statistical analysis for Week 4|||2.2|-1.2|0.324
92431727|NCT00777608|184749592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|1.4||0.285|TWO_SIDED|90.0|-1.5|3.1|||ANOVA|||||3.1|-1.5|0.285
92431728|NCT00777608|184749592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.3||0.401|TWO_SIDED|90.0|-2.6|1.9|||ANOVA||Statistical analysis for Week 12|||1.9|-2.6|0.401
92431729|NCT02621060|184749626|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.05|STANDARD_DEVIATION|2.0||0.004|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.004
92431730|NCT02621060|184749627|SUPERIORITY_OR_OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||||||0.084
92431731|NCT02621060|184749628|SUPERIORITY_OR_OTHER|||||||0.755|||||||Wilcoxon (Mann-Whitney)|||||||0.755
92431732|NCT02621060|184749629|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92431733|NCT02621060|184749630|SUPERIORITY_OR_OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||||||0.084
92431734|NCT02621060|184749631|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92431735|NCT02621060|184749633|SUPERIORITY_OR_OTHER|||||||0.074|||||||Wilcoxon (Mann-Whitney)|||||||0.074
92431736|NCT02621060|184749634|SUPERIORITY_OR_OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||||||0.022
92431737|NCT02621060|184749635|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.022|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.022
92431738|NCT02621060|184749636|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.022|TWO_SIDED|5.0|||||Wilcoxon (Mann-Whitney)|||||||0.022
92431739|NCT02621060|184749637|SUPERIORITY_OR_OTHER|||||||0.594|||||||Wilcoxon (Mann-Whitney)|||||||0.594
92431740|NCT02621060|184749638|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
92431741|NCT02621060|184749639|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92431742|NCT02621060|184749640|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92431743|NCT02621060|184749641|SUPERIORITY_OR_OTHER|||||||0.059|||||||Wilcoxon (Mann-Whitney)|||||||0.059
92431744|NCT02621060|184749642|SUPERIORITY_OR_OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||0.049
92431745|NCT02621060|184749643|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92431746|NCT02621060|184749644|SUPERIORITY_OR_OTHER|||||||0.376|||||||Wilcoxon (Mann-Whitney)|||||||0.376
92431747|NCT02621060|184749645|SUPERIORITY_OR_OTHER|||||||0.472|||||||Wilcoxon (Mann-Whitney)|||||||0.472
92431748|NCT02621060|184749646|SUPERIORITY_OR_OTHER|||||||0.774|||||||Wilcoxon (Mann-Whitney)|||||||0.774
92431749|NCT02621060|184749647|SUPERIORITY_OR_OTHER|||||||0.637|||||||Wilcoxon (Mann-Whitney)|||||||0.637
92431750|NCT00370032|184749665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1||||0.131||95.0|-18.4|2.157|||paired t-test Hommel-Simes|||||2.157|-18.4|0.131
92431751|NCT00370032|184749665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.11||||0.131||95.0|-21.2|2.997|||paired t-test Hommel-Simes|||||2.997|-21.2|0.131
92431752|NCT03087643|184749734|OTHER|||||||0.0492|||||||Mixed Models Analysis|||||||0.0492
92431753|NCT03087643|184749735|OTHER|||||||0.0283|||||||Mixed Models Analysis|||||||0.0283
92431754|NCT03087643|184749736|OTHER|||||||0.0321|||||||Mixed Models Analysis|||||||0.0321
92431755|NCT03087643|184749737|OTHER|||||||0.0451|||||||Mixed Models Analysis|||||||0.0451
92431756|NCT03087643|184749738|OTHER|||||||0.0476|||||||Mixed Models Analysis|||||||0.0476
92431757|NCT02083783|184749739|SUPERIORITY||Mean Difference (Final Values)|-14.68|||<|0.0001|TWO_SIDED|95.0|-17.9|11.6|||ANCOVA|||Treatment difference in SKAMP-C scores from baseline to 4 hours postdose.||11.6|-17.9|<0.0001
92431758|NCT02083783|184749740|SUPERIORITY||Mean Difference (Final Values)|38.9|||<|0.0001|TWO_SIDED|95.0|27.3|50.6|||ANCOVA|||p-value for comparison between change from baseline in placebo vs active treatment||50.6|27.3|<0.0001
92431759|NCT00844831|184749905|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||0.75
92237408|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.43|-0.12||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-0.12|-0.43|<0.001
92431760|NCT00844831|184749907|OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||.9
92431761|NCT03156543|184749919|SUPERIORITY|||||||0.004|||||||Fisher Exact|||Analysis was based on the participants who were positive for C. acnes.||||0.004
92431762|NCT01315678|184749964|SUPERIORITY||Cox Proportional Hazard|1.51||||0.0286|TWO_SIDED|95.0|1.07|2.13|||Regression, Cox|||Stratified Cox proportional hazards model||2.13|1.07|0.0286
92431763|NCT01315678|184749965|SUPERIORITY||Cox Proportional Hazard|1.12||||0.6031|TWO_SIDED|95.0|0.76|1.66|||Regression, Cox|||||1.66|0.76|0.6031
92431764|NCT01315678|184749966|SUPERIORITY||Cox Proportional Hazard|0.84||||0.4861|TWO_SIDED|95.0|0.49|1.44|||Regression, Cox|||||1.44|0.49|0.4861
92431765|NCT00790023|184749969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94|||<|0.0001|TWO_SIDED|95.0|0.57|1.32||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in rTNSS with a two-sided alpha level of 0.025.||1.32|0.57|<0.0001
92431766|NCT00790023|184749969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08|||<|0.0001|TWO_SIDED|95.0|0.7|1.45||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in rTNSS with a two-sided alpha level of 0.025.||1.45|0.70|<0.0001
92431767|NCT00790023|184749970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.87|||<|0.0001|TWO_SIDED|95.0|0.5|1.25|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||1.25|0.50|<0.0001
92431768|NCT00790023|184749970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||<|0.0001|TWO_SIDED|95.0|0.63|1.37|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||1.37|0.63|<0.0001
92431769|NCT00790023|184749971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.0004|TWO_SIDED|95.0|0.28|0.95|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.95|0.28|0.0004
92431770|NCT00790023|184749971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.0005|TWO_SIDED|95.0|0.27|0.94|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.94|0.27|0.0005
92431771|NCT03633695|184750003|SUPERIORITY||Mean Difference (Final Values)|-0.177|||<|0.0001|TWO_SIDED|95.0|-0.214|-0.14||The threshold for statistical significance was p=0.05.|t-test, 2 sided||Acuity Difference = IC-8 Group - Control Group|The null hypothesis was that the mean acuity for the IC-8 Group was greater (i.e. worse) than or equal to that for the Control Group. The alternative hypothesis was that the mean for the IC-8 Group less (i.e., better) than that for the Control Group.||-0.140|-0.214|<.0001
92431772|NCT03633695|184750004|SUPERIORITY||Mean Difference (Final Values)|-0.191|||<|0.0001|TWO_SIDED|95.0|-0.223|-0.158||The threshold for statistical significance was p=0.05.|t-test, 2 sided||Acuity Difference = IC-8 Group - Control Group|The null hypothesis was that the mean acuity for the IC-8 Group was greater (i.e. worse) than or equal to that for the Control Group. The alternative hypothesis was that the mean for the IC-8 Group less (i.e., better) than that for the Control Group.||-0.158|-0.223|<.0001
92431773|NCT03633695|184750005|NON_INFERIORITY|Non-inferiority margin was 0.1 logMAR.|Mean Difference (Final Values)|-0.012|||<|0.0001|ONE_SIDED|95.0||0.007||The threshold for statistical significance was p=0.05.|t-test, 1 sided||Acuity Difference = IC-8 IOL Group - Control Group|The null hypothesis was that the mean acuity for the IC-8 IOL Group is inferior to the Control Group by 0.1 logMAR or more. The alternative hypothesis was that the mean acuity for the IC-8 IOL group is inferior to the Control Group by less than 0.1 logMAR.||0.007||<.0001
92431774|NCT03633695|184750006|SUPERIORITY||Mean Difference (Final Values)|-0.18|||<|0.0001|TWO_SIDED|95.0|-0.198|-0.163||The threshold for statistical significance was p=0.05.|t-test, 2 sided||Acuity Difference = IC-8 IOL Eye (IC-8 IOL Group) - Fellow Eye (IC-8 IOL Group)|The null hypothesis was that the mean acuity for the IC-8 IOL eyes is greater (i.e., worse) than or equal to that for the fellow eyes. The alternative hypothesis was that the mean for the IC-8 IOL eyes is less (i.e., better) than that for the fellow eyes.||-0.163|-0.198|<.0001
92431775|NCT03633695|184750007|OTHER||Difference in depth of focus|0.91|||||TWO_SIDED||||||||Difference in depth of focus \[IC-8™ IOL Eyes (IC-8™ IOL Group) - Fellow Eyes (IC-8™ IOL Group)\]|||||
92431776|NCT03633695|184750008|NON_INFERIORITY|The non-inferiority margin was 0.1 logMAR.|Mean Difference (Final Values)|0.068|||<|0.0001|ONE_SIDED|95.0||0.082||The threshold for statistical significance was p=0.05.|t-test, 1 sided||Acuity Difference = IC-8 IOL Eyes (IC-8 Group) - Fellow Eyes (IC-8 Group)|The null hypothesis was that the mean acuity for the IC-8 IOL eyes was inferior to the fellow eyes by 0.1 logMAR or more. The alternative hypothesis was that the mean acuity for the IC-8 eyes was inferior to the fellow eyes by less than 0.1 logMAR.||0.082||<.0001
92431777|NCT03633695|184750016|NON_INFERIORITY|Non-inferiority margin was 0.12 logMAR.|Mean Difference (Final Values)|0.023|||<|0.0001|TWO_SIDED|95.0||||The threshold for statistical significance was p=0.05.|t-test, 1 sided|||The null hypothesis was that the mean acuity in Astigmatism Group 2 was inferior to the Astigmatism Group 1 by 0.12 logMAR or more. The alternative hypothesis was that the mean acuity in Astigmatism Group 2 was inferior to Astigmatism Group 1 by less than 0.12 logMAR.||||<.0001
92431778|NCT05426902|184750031|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Baseline (month 1) vs. intervention period (month 2)||||<0.0001
92279783|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0675||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.0675
92431779|NCT05426902|184750032|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||Baseline (month 1) vs. intervention period (month 2)||||0.6
92431780|NCT05426902|184750033|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Baseline (month 1) vs. intervention period (month 2)||||0.2
92431781|NCT05426902|184750034|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Baseline (month 1) vs. intervention period (month 2)||||<0.0001
92431782|NCT05426902|184750035|SUPERIORITY|||||||0.4|||||||Fisher Exact|||Baseline (month 1) vs. intervention period (month 2)||||0.4
92431783|NCT05426902|184750040|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||"I feel good about my medical visit at baseline (month 1) vs. intervention period (month 2)."||||0.7
92431784|NCT05426902|184750040|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||"My rheumatologist gave me his/her full attention at baseline (month 1) vs. intervention period (month 2)."||||0.8
92431785|NCT05426902|184750040|SUPERIORITY|||||||1|||||||t-test, 2 sided|||"I was able to say everything I wanted to say to my rheumatologist at baseline (month 1) vs. intervention period (month 2)."||||1.0
92431786|NCT05426902|184750042|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||"My rheumatologist and I agreed on how active my lupus was today at baseline (month 1) vs. intervention period (month 2)."||||0.7
92431787|NCT05426902|184750042|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||"I understand the care recommendations that my doctor or provider gave me today at baseline (month 1) vs. intervention period (month 2)."||||0.8
92237409|NCT04003155|184379197|SUPERIORITY||LSMean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.002|TWO_SIDED|95.0|-0.4|-0.09||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-0.09|-0.40|0.002
92237410|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-15.52|STANDARD_ERROR_OF_MEAN|3.29|<|0.001|TWO_SIDED|95.0|-21.99|-9.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-9.06|-21.99|<0.001
92237411|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-12.22|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-18.69|-5.74||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-5.74|-18.69|<0.001
92279784|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1071||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.1071
92431788|NCT05426902|184750043|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Baseline vs. Follow-Up||||0.02
92431789|NCT05426902|184750044|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||"SLE@Duke meets my approval at baseline (month 1) vs. intervention period (month 2)."||||0.7
92431790|NCT05426902|184750044|SUPERIORITY|||||||1|||||||t-test, 2 sided|||"SLE@Duke is appealing to me at baseline (month 1) vs. intervention period (month 2)."||||1.0
92431791|NCT05426902|184750044|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||"I like SLE@Duke at baseline (month 1) vs. intervention period (month 2)."||||0.5
92431792|NCT05426902|184750044|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||"I welcome SLE@Duke at baseline (month 1) vs. intervention period (month 2)."||||0.6
92431793|NCT05426902|184750045|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||"SLE@Duke seems fitting at baseline (month 1) vs. intervention period (month 2)."||||0.7
92431794|NCT05426902|184750045|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||"SLE@Duke seems suitable at baseline (month 1) vs. intervention period (month 2)."||||0.7
92431795|NCT05426902|184750045|SUPERIORITY|||||||1|||||||t-test, 2 sided|||"SLE@Duke seems applicable at baseline (month 1) vs. intervention period (month 2)."||||1.0
92431796|NCT05426902|184750045|SUPERIORITY|||||||1|||||||t-test, 2 sided|||"SLE@Duke seems like a good match at baseline (month 1) vs. intervention period (month 2)."||||1.0
92431797|NCT05426902|184750046|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||"SLE@Duke seems implementable at baseline (month 1) vs. intervention period (month 2)."||||0.3
92431798|NCT05426902|184750046|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||"SLE@Duke seems possible at baseline (month 1) vs. intervention period (month 2)."||||0.3
92431799|NCT05426902|184750046|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||"SLE@Duke seems doable at baseline (month 1) vs. intervention period (month 2)."||||0.4
92431800|NCT05426902|184750046|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||"SLE@Duke seems easy to use at baseline (month 1) vs. intervention period (month 2)."||||0.3
92431801|NCT00429273|184750113|OTHER|Test for differences in treatment outcomes between three different tx|F-Value for variance component|18.9|||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||Analyses are based on a generalized linear mixed model (GLMM) modelling the effects of the medication when calibrated to optimal dosage and controlling for time effects and within-subject effects. The design is a combined within-between subject design, where each participant is exposed to, and provides information about multiple tx modalities.||||<.01
92431802|NCT01246401|184750121|SUPERIORITY|||||||0.431|||||||Welch's T Test|||||||0.431
92431803|NCT01246401|184750122|SUPERIORITY|||||||0.087|||||||Welch's T Test|||||||0.087
92431804|NCT01246401|184750124|SUPERIORITY|||||||0.03||||||Wilcoxon one sided|Wilcoxon (Mann-Whitney)|||||||0.03
92431805|NCT01246401|184750129|SUPERIORITY|||||||0.03962|||||||Chi-squared|||||||0.03962
92431806|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.473|||||TWO_SIDED|95.0|-15.7096|26.6553|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 10 mg + GSK1292263 100 mg vs Placebo: Apolipoprotein A1||26.6553|-15.7096|
92431807|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.598|||||TWO_SIDED|95.0|-21.784|20.5888|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 10 mg + GSK1292263 300 mg vs Placebo: Apolipoprotein A1||20.5888|-21.7840|
92431808|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.906|||||TWO_SIDED|95.0|-9.3489|33.1602|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 10 mg + GSK1292263 800 mg vs Placebo: Apolipoprotein A1||33.1602|-9.3489|
92431809|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.671|||||TWO_SIDED|95.0|-16.9957|24.3384|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 10 mg + Ezetimibe 10 mg vs Placebo: Apolipoprotein A1||24.3384|-16.9957|
92431810|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.618|||||TWO_SIDED|95.0|-28.2069|37.4425|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 80 mg + GSK1292263 800 mg vs Placebo: Apolipoprotein A1||37.4425|-28.2069|
92431811|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.713|||||TWO_SIDED|95.0|-17.0405|39.8527|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 100 mg vs Placebo: Apolipoprotein A1||39.8527|-17.0405|
92431812|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.934|||||TWO_SIDED|95.0|-21.0153|31.5504|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 300 mg vs Placebo: Apolipoprotein A1||31.5504|-21.0153|
92431813|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.466|||||TWO_SIDED|95.0|-23.7517|24.7608|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 800 mg vs Placebo: Apolipoprotein A1||24.7608|-23.7517|
92431814|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.743|||||TWO_SIDED|95.0|-3.246|33.7161|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 10 mg + GSK1292263 100 mg vs Placebo: Apolipoprotein B100||33.7161|-3.2460|
92431815|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.428|||||TWO_SIDED|95.0|-21.3243|8.9224|||||Statistical analysis was performed using LS mean value Atorvastatin|Atorvastatin 10 mg + GSK1292263 300 mg vs Placebo: Apolipoprotein B100||8.9224|-21.3243|
92431816|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.96|||||TWO_SIDED|95.0|-26.8137|1.1513|||||Statistical analysis was performed using LS mean value Atorvastatin|Atorvastatin 10 mg + GSK1292263 800 mg vs Placebo: Apolipoprotein B100||1.1513|-26.8137|
92431817|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.903|||||TWO_SIDED|95.0|-16.6557|13.1191|||||Statistical analysis was performed using LS mean value Atorvastatin|Atorvastatin 10 mg + Ezetimibe 10 mg vs Placebo: Apolipoprotein B100||13.1191|-16.6557|
92431818|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.231|||||TWO_SIDED|95.0|-45.1045|-11.3579|||||Statistical analysis was performed using LS mean value Atorvastatin|Atorvastatin 80 mg + GSK1292263 800 mg vs Placebo: Apolipoprotein B100||-11.3579|-45.1045|
92279785|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0142||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.0142
92431819|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.1|||||TWO_SIDED|95.0|-23.5021|11.3014|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 100 mg vs Placebo: Apolipoprotein B100||11.3014|-23.5021|
92431820|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.49|||||TWO_SIDED|95.0|-25.2721|8.2918|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 300 mg vs Placebo: Apolipoprotein B100||8.2918|-25.2721|
92431821|NCT01218204|184750168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.687|||||TWO_SIDED|95.0|-26.0247|6.6498|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 800 mg vs Placebo: Apolipoprotein B100||6.6498|-26.0247|
92431822|NCT01218204|184750169|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.471|||||TWO_SIDED|95.0|-47.9323|3.202|||||Statistical analysis was performed using LS mean value Atorvastatin|||3.2020|-47.9323|
92431823|NCT01218204|184750169|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.91|||||TWO_SIDED|95.0|-38.1027|25.3126|||||Statistical analysis was performed using LS mean value Atorvastatin|||25.3126|-38.1027|
92431824|NCT01218204|184750169|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.985|||||TWO_SIDED|95.0|-45.5492|1.8605|||||Statistical analysis was performed using LS mean value Atorvastatin|||1.8605|-45.5492|
92431825|NCT01218204|184750169|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.697|||||TWO_SIDED|95.0|-45.0846|13.3024|||||Statistical analysis was performed using LS mean value Atorvastatin|||13.3024|-45.0846|
92431826|NCT01218204|184750169|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.036|||||TWO_SIDED|95.0|-27.2281|15.1569|||||Statistical analysis was performed using LS mean value of Atorvastatin|||15.1569|-27.2281|
92431827|NCT01218204|184750169|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.198|||||TWO_SIDED|95.0|-24.2901|32.6057|||||Statistical analysis was performed using LS mean value of GSK1292263|||32.6057|-24.2901|
92431828|NCT01218204|184750169|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.117|||||TWO_SIDED|95.0|-40.4767|1.906|||||Statistical analysis was performed using LS mean value of GSK1292263|||1.9060|-40.4767|
92431829|NCT01218204|184750169|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-32.798|||||TWO_SIDED|95.0|-48.3842|-12.5064|||||Statistical analysis was performed using LS mean value of GSK1292263|||-12.5064|-48.3842|
92431830|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.101|||||TWO_SIDED|95.0|-4.5469|14.7495|||||Statistical analysis was performed using LS mean value of Atorvastatin|For HDLc||14.7495|-4.5469|
92431831|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.273|||||TWO_SIDED|95.0|2.5937|21.9532|||||Statistical analysis was performed using LS mean value of Atorvastatin|Fo HDLc||21.9532|2.5937|
92431832|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.833|||||TWO_SIDED|95.0|18.955|38.7102|||||Statistical analysis was performed using LS mean value of Atorvastatin|For HDLc||38.7102|18.9550|
92431833|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.701|||||TWO_SIDED|95.0|-5.5562|12.9578|||||Statistical analysis was performed using LS mean value of Atorvastatin|For HDLc||12.9578|-5.5562|
92431834|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.946|||||TWO_SIDED|95.0|8.612|33.281|||||Statistical analysis was performed using LS mean value of Atorvastatin|For HDLc||33.2810|8.6120|
92431835|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Median Difference (Net)|10.561|||||TWO_SIDED|95.0|-0.9675|22.0898|||||Statistical analysis was performed using LS mean value of GSK1292263|For HDLc||22.0898|-0.9675|
92431836|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.122|||||TWO_SIDED|95.0|-0.2902|22.5351|||||Statistical analysis was performed using LS mean value of GSK1292263|For HDLc||22.5351|-0.2902|
92431837|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.689|||||TWO_SIDED|95.0|9.7527|31.6262|||||Statistical analysis was performed using LS mean value of GSK1292263|For HDLc||31.6262|9.7527|
92431838|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.549|||||TWO_SIDED|95.0|-18.775|9.6768|||||Statistical analysis was performed using LS mean value of Atorvastatin|For LDLc||9.6768|-18.7750|
92431839|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.337|||||TWO_SIDED|95.0|-24.4549|3.7803|||||Statistical analysis was performed using LS mean value of Atorvastatin|For LDLc||3.7803|-24.4549|
92431840|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.317|||||TWO_SIDED|95.0|-36.0144|-6.619|||||Statistical analysis was performed using LS mean value of Atorvastatin|For LDLc||-6.6190|-36.0144|
92431841|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.173|||||TWO_SIDED|95.0|-34.271|-6.0755|||||Statistical analysis was performed using LS mean value of Atorvastatin|For LDLc||-6.0755|-34.2710|
92431842|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.472|||||TWO_SIDED|95.0|-49.3385|-8.1558|||||Statistical analysis was performed using LS mean value of Atorvastatin|For LDLc||-8.1558|-49.3385|
92431843|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.128|||||TWO_SIDED|95.0|-23.3049|-0.9514|||||Statistical analysis was performed using LS mean value of GSK1292263|For LDLc||-0.9514|-23.3049|
92431844|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.798|||||TWO_SIDED|95.0|-27.1364|-4.4589|||||Statistical analysis was performed using LS mean value of GSK1292263|For LDLc||-4.4589|-27.1364|
92431845|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.789|||||TWO_SIDED|95.0|-32.3413|-11.2372|||||Statistical analysis was performed using LS mean value of GSK1292263|For LDLc||-11.2372|-32.3413|
92431846|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.498|||||TWO_SIDED|95.0|-38.446|-2.4169|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Triglycerides||-2.4169|-38.4460|
92431847|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.781|||||TWO_SIDED|95.0|-39.1603|-4.513|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Triglycerides||-4.5130|-39.1603|
92431848|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-39.923|||||TWO_SIDED|95.0|-52.3394|-24.2717|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Triglycerides||-24.2717|-52.3394|
92431849|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.444|||||TWO_SIDED|95.0|-33.502|2.491|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Triglycerides||2.4910|-33.5020|
92431850|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.781|||||TWO_SIDED|95.0|-40.296|-3.2667|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Triglycerides||-3.2667|-40.2960|
92431851|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.421|||||TWO_SIDED|95.0|-38.3519|-4.4911|||||Statistical analysis was performed using LS mean value of GSK1292263|For Triglycerides||-4.4911|-38.3519|
92431852|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.361|||||TWO_SIDED|95.0|-63.465|-29.2561|||||Statistical analysis was performed using LS mean value of GSK1292263|For Triglycerides||-29.2561|-63.4650|
92431853|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.843|||||TWO_SIDED|95.0|-70.7854|-38.9007|||||Statistical analysis was performed using LS mean value of GSK1292263|For Triglycerides||-38.9007|-70.7854|
92431854|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.756|||||TWO_SIDED|95.0|-21.7561|2.2448|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Non-HDLc||2.2448|-21.7561|
92431855|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.014|||||TWO_SIDED|95.0|-25.7497|-2.2787|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Non-HDLc||-2.2787|-25.7497|
92431856|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-27.675|||||TWO_SIDED|95.0|-39.8454|-15.5045|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Non-HDLc||-15.5045|-39.8454|
92431857|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.937|||||TWO_SIDED|95.0|-32.6057|-9.269|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Non-HDLc||-9.2690|-32.6057|
92431858|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.702|||||TWO_SIDED|95.0|-29.0346|-14.3696|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Non-HDLc||-14.3696|-29.0346|
92431859|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.18|||||TWO_SIDED|95.0|-23.0636|-3.2961|||||Statistical analysis was performed using LS mean value of GSK1292263|For Non-HDLc||-3.2961|-23.0636|
92431860|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.151|||||TWO_SIDED|95.0|-31.942|-12.3605|||||Statistical analysis was performed using LS mean value of GSK1292263|For Non-HDLc||-12.3605|-31.9420|
92431861|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.948|||||TWO_SIDED|95.0|-36.2874|-17.6092|||||Statistical analysis was performed using LS mean value of GSK1292263|For Non-HDLc||-17.6092|-36.2874|
92431862|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.904|||||TWO_SIDED|95.0|-11.8484|4.04|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Cholesterol||4.0400|-11.8484|
92431863|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.437|||||TWO_SIDED|95.0|-14.346|1.4722|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Cholesterol||1.4722|-14.3460|
92431864|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.294|||||TWO_SIDED|95.0|-18.3923|-2.196|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Cholesterol||-2.1960|-18.3923|
92431865|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.065|||||TWO_SIDED|95.0|-19.7688|-4.3609|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Cholesterol||-4.3609|-19.7688|
92431866|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.941|||||TWO_SIDED|95.0|-13.9778|-1.9039|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Cholesterol||-1.9039|-13.9778|
92431867|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.384|||||TWO_SIDED|95.0|-15.9023|-0.866|||||Statistical analysis was performed using LS mean value of GSK1292263|For Cholesterol||-0.8660|-15.9023|
92431868|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.7|||||TWO_SIDED|95.0|-23.1404|-8.2592|||||Statistical analysis was performed using LS mean value of GSK1292263|For Cholesterol||-8.2592|-23.1404|
92431869|NCT01218204|184750170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.728|||||TWO_SIDED|95.0|-23.8395|-9.6161||||||For Cholesterol||-9.6161|-23.8395|
92431870|NCT01218204|184750171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.123|||||TWO_SIDED|95.0|-26.6276|2.3814|||||Statistical analysis was performed using LS mean value of Atorvastatin|||2.3814|-26.6276|
92431871|NCT01218204|184750171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.63|||||TWO_SIDED|95.0|-35.9419|-7.3181|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-7.3181|-35.9419|
92431872|NCT01218204|184750171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-41.506|||||TWO_SIDED|95.0|-56.3924|-26.6205|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-26.6205|-56.3924|
92170993|NCT03821844|184230895|SUPERIORITY||marginal interaction effect|0.01|||<|0.05|TWO_SIDED|95.0|-0.02|0.03|||Differences-in-Differences regression||||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment versus control nursing home had on the moods of nursing home residents. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. We report the marginal time by intervention interaction.|0.03|-0.02|< 0.05
92279786|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2465||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.2465
92431873|NCT01218204|184750171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.041|||||TWO_SIDED|95.0|-42.2554|-13.8263|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-13.8263|-42.2554|
92431874|NCT01218204|184750171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.293|||||TWO_SIDED|95.0|-51.5654|-12.4042|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-12.4042|-51.5654|
92431875|NCT01218204|184750171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.042|||||TWO_SIDED|95.0|-34.8358|-5.2472|||||Statistical analysis was performed using LS mean value of GSK1292263|||-5.2472|-34.8358|
92431876|NCT01218204|184750171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.903|||||TWO_SIDED|95.0|-36.6155|-7.1913|||||Statistical analysis was performed using LS mean value of GSK1292263|||-7.1913|-36.6155|
92431877|NCT01218204|184750171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.735|||||TWO_SIDED|95.0|-49.722|-21.7485|||||Statistical analysis was performed using LS mean value of GSK1292263|||-21.7485|-49.7220|
92431878|NCT01218204|184750172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.409|||||TWO_SIDED|95.0|-1.0123|0.1942|||||Statistical analysis was performed using LS mean value of Atorvastatin|||0.1942|-1.0123|
92431879|NCT01218204|184750172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.296|||||TWO_SIDED|95.0|-0.9063|0.3141|||||Statistical analysis was performed using LS mean value of Atorvastatin|||0.3141|-0.9063|
92431880|NCT01218204|184750172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.811|||||TWO_SIDED|95.0|-1.4125|-0.2098|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-0.2098|-1.4125|
92431881|NCT01218204|184750172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.422|||||TWO_SIDED|95.0|-0.9831|0.1394|||||Statistical analysis was performed using LS mean value of Atorvastatin|||0.1394|-0.9831|
92431882|NCT01218204|184750172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.384|||||TWO_SIDED|95.0|-0.6009|-0.1669|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-0.1669|-0.6009|
92431883|NCT01218204|184750172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.648|||||TWO_SIDED|95.0|-1.1657|-0.1302|||||Statistical analysis was performed using LS mean value of GSK1292263|||-0.1302|-1.1657|
92431884|NCT01218204|184750172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.782|||||TWO_SIDED|95.0|-1.2804|-0.2844|||||Statistical analysis was performed using LS mean value of GSK1292263|||-0.2844|-1.2804|
92431885|NCT01218204|184750172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.884|||||TWO_SIDED|95.0|-1.3652|-0.4026|||||Statistical analysis was performed using LS mean value of GSK1292263|||-0.4026|-1.3652|
92431886|NCT03984994|184750210|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.27|TWO_SIDED||||||t-test, 2 sided|||"Per the aims of the study, the responses to RT were compared between 2 arms/groups. The change in the outcome (post-RT minus pre-RT) in each arm/group was compared using a t-test. Responses to AEX training itself are not assessed as this was not an aim or hypothesis of the study.~The hypothesis was that the Aerobic exercise training followed by resistance training arm would have greater changes/improvements in study outcomes than the Resistance training followed by aerobic training group."||||0.27
92431887|NCT03984994|184750211|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.22|TWO_SIDED||||||t-test, 2 sided|||"Per the aims of the study, the responses to RT were compared between 2 arms/groups. The change in the outcome (post-RT minus pre-RT) in each arm/group was compared using a t-test. Responses to AEX training itself are not assessed as this was not an aim or hypothesis of the study.~The hypothesis was that the Aerobic exercise training followed by resistance training arm would have greater changes/improvements in study outcomes than the Resistance training followed by aerobic training group."||||0.22
92431888|NCT03984994|184750212|SUPERIORITY||Mean Difference (Final Values)|251.0||||0.21|TWO_SIDED||||||t-test, 2 sided|||"Per the aims of the study, the responses to RT were compared between 2 arms/groups. The change in the outcome (post-RT minus pre-RT) in each arm/group was compared using a t-test. Responses to AEX training itself are not assessed as this was not an aim or hypothesis of the study.~The hypothesis was that the Aerobic exercise training followed by resistance training arm would have greater changes/improvements in study outcomes than the Resistance training followed by aerobic training group."||||0.21
92431889|NCT03984994|184750213|SUPERIORITY||Mean Difference (Final Values)|10.7||||0.28|TWO_SIDED||||||t-test, 2 sided|||"Per the aims of the study, the responses to RT were compared between 2 arms/groups. The change in the outcome (post-RT minus pre-RT) in each arm/group was compared using a t-test. Responses to AEX training itself are not assessed as this was not an aim or hypothesis of the study.~The hypothesis was that the Aerobic exercise training followed by resistance training arm would have greater changes/improvements in study outcomes than the Resistance training followed by aerobic training group."||||0.28
92431890|NCT00709761|184750242|SUPERIORITY_OR_OTHER||percentage of participants|53.0||||||95.0|40.7|66.0|||||The estimation parameter represents the percentage of participants experiencing either a CR or a PR.|||66.0|40.7|
92431891|NCT04950998|184750266|SUPERIORITY||Mean Difference (Final Values)|604.07|STANDARD_DEVIATION|2560.36||0.376|TWO_SIDED|95.0|-813.815|2021.95|||t-test, 2 sided|||||2021.95|-813.815|0.376
92431892|NCT04950998|184750267|SUPERIORITY||Mean Difference (Final Values)|-35.019|STANDARD_DEVIATION|172.168||0.444|TWO_SIDED|95.0|-130.36|60.324|||t-test, 2 sided|||||60.324|-130.36|.444
92431893|NCT00555971|184750270|EQUIVALENCE|This was a statistical analysis to address the null hypothesis that there was no difference between treatment and placebo groups.||||||0.036|||||||Fisher Exact|||||||0.036
92431894|NCT02557555|184750324|OTHER|P-values corresponding to a test of equal proportions (yes/no- 50%/50%)|||||<|0.0001||||||Researched options for labor pain|Test of equal proportion (50/50)|||||||<0.0001
92279787|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0031||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.0031
92279788|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1231||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.1231
92279789|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0849||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.0849
92431895|NCT02557555|184750324|OTHER|P-values corresponding to a test of equal proportions (yes/no- 50%/50%)|||||<|0.0001||||||Pamphlet better explained options for pain|Test of equal proportion (50/50)|||||||<0.0001
92431896|NCT02557555|184750324|OTHER||||||<|0.0001||||||Pamphlet should be given before onset labor pain|Test of equal proportion (50/50)|||||||<0.0001
92431897|NCT02557555|184750324|OTHER||||||<|0.0001||||||Pamphlet information helped to reduce anxiety|Test of equal proportion (50/50)|||||||<0.0001
92431898|NCT02557555|184750324|OTHER|||||||0.0002||||||Information corrected any misconception|Test of equal proportion (50/50)|||||||0.0002
92431899|NCT02557555|184750324|OTHER||||||<|0.0001||||||Written information should always be available|Test of equal proportion (50/50)|||||||<0.0001
92431900|NCT02168361|184750325|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||Null hypothesis is no difference between two regimens in SVR-12.||||.02
92431901|NCT04967443|184750330|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|102.1|||||TWO_SIDED|90.0|96.14|108.43|||Mixed Models Analysis|||Test: Prazosin HCL 1x2 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||108.43|96.14|
92431902|NCT04967443|184750330|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|104.87|||||TWO_SIDED|90.0|98.68|111.44|||Mixed Models Analysis|||Test: Prazosin HCL 2x1 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||111.44|98.68|
92431903|NCT04967443|184750330|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|104.45|||||TWO_SIDED|90.0|99.58|109.55|||Mixed Models Analysis|||Test: Prazosin HCL 1x5 mg (Ascoli); Reference: Prazosin HCL 1x5 mg (Barceloneta)||109.55|99.58|
92431904|NCT04967443|184750331|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|113.96|||||TWO_SIDED|90.0|102.79|126.34|||Mixed Models Analysis|||Test: Prazosin HCL 1x2 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||126.34|102.79|
92431905|NCT04967443|184750331|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|126.83|||||TWO_SIDED|90.0|114.32|140.7|||Mixed Models Analysis|||Test: Prazosin HCL 2x1 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||140.70|114.32|
92431906|NCT04967443|184750331|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|118.07|||||TWO_SIDED|90.0|106.46|130.94|||Mixed Models Analysis|||Test: Prazosin HCL 1x5 mg (Ascoli); Reference: Prazosin HCL 1x5 mg (Barceloneta)||130.94|106.46|
92431907|NCT04967443|184750332|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|100.91|||||TWO_SIDED|90.0|94.92|107.27|||Mixed Models Analysis|||Test: Prazosin HCL 1x2 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||107.27|94.92|
92431908|NCT04967443|184750332|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|102.08|||||TWO_SIDED|90.0|95.97|108.57|||Mixed Models Analysis|||Test: Prazosin HCL 2x1 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||108.57|95.97|
92431909|NCT04967443|184750332|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|104.04|||||TWO_SIDED|90.0|99.09|109.23|||Mixed Models Analysis|||Test: Prazosin HCL 1x5 mg (Ascoli); Reference: Prazosin HCL 1x5 mg (Barceloneta)||109.23|99.09|
92431910|NCT04502693|184750336|OTHER|Effectiveness of rMenB+OMV NZ vaccine is demonstrated if the LL of the 2-sided 97.5% CI for Vaccine Effectiveness (VE) against the selected strain panel between the MenB\_0\_2\_6 and the ACWY groups is above 65%. VE is defined as 1- Risk Ratio (RR) = (1- percentage of samples without bactericidal serum activity at 1:4 dilution in MenB group / percentage of samples without bactericidal serum activity at 1:4 dilution in the ACWY group) x100 percentage.|VE (Vaccine Effectiveness)|83.2|||||TWO_SIDED|97.5|81.9|84.4||||||To demonstrate the effectiveness of the rMenB+OMV NZ vaccine against a randomly selected panel of endemic US N. meningitidis serogroup B invasive disease strains as measured by bactericidal activity using enc-hSBA at 1 month after the 3-dose (0,2,6-months) schedule in MenB\_0\_2\_6 group when compared to 1 month after the MenACWY dose in the ACWY group.||84.4|81.9|
92431911|NCT04502693|184750336|OTHER|"Effectiveness of rMenB+OMV NZ vaccine is demonstrated if the LL of the 2-sided 97.5% CI for VE against the selected strain panel between the MenB\_0\_ 6 and the ACWY groups is above 65%.~VE is defined as 1- RR = (1- percentage of samples without bactericidal serum activity at 1:4 dilution in MenB group / percentage of samples without bactericidal serum activity at 1:4 dilution in the ACWY group) x100 percentage."|VE|81.8|||||TWO_SIDED|97.5|80.4|83.1||||||To demonstrate the effectiveness of the rMenB+OMV NZ vaccine against a randomly selected panel of endemic US N. meningitidis serogroup B invasive disease strains as measured by bactericidal activity using enc-hSBA at 1 month after the 2-dose (0,6-M) schedule in MenB\_0\_6 group when compared to 1 month after the MenACWY dose in the ACWY group.||83.1|80.4|
92237412|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-17.3|STANDARD_ERROR_OF_MEAN|3.57|<|0.001|TWO_SIDED|95.0|-24.32|-10.27||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-10.27|-24.32|<0.001
92237413|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-18.29|STANDARD_ERROR_OF_MEAN|3.57|<|0.001|TWO_SIDED|95.0|-25.3|-11.29||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-11.29|-25.30|<0.001
92237414|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-18.13|STANDARD_ERROR_OF_MEAN|3.63|<|0.001|TWO_SIDED|95.0|-25.25|-11.0||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-11.00|-25.25|<0.001
92237415|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-21.19|STANDARD_ERROR_OF_MEAN|3.61|<|0.001|TWO_SIDED|95.0|-28.29|-14.09||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-14.09|-28.29|<0.001
92237416|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-16.75|STANDARD_ERROR_OF_MEAN|3.81|<|0.001|TWO_SIDED|95.0|-24.24|-9.26||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 4||-9.26|-24.24|<0.001
92237417|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-21.05|STANDARD_ERROR_OF_MEAN|3.79|<|0.001|TWO_SIDED|95.0|-28.5|-13.61||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 4||-13.61|-28.50|<0.001
92279790|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.274||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.2740
92279791|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2383||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.2383
92279792|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0644||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.0644
92279793|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2866||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.2866
92237418|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-17.57|STANDARD_ERROR_OF_MEAN|3.79|<|0.001|TWO_SIDED|95.0|-25.02|-10.12||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-10.12|-25.02|<0.001
92431912|NCT04502693|184750337|OTHER|Effectiveness of rMenB+OMV NZ vaccine is demonstrated if the LL of the 2-sided 97.5% CI for VE against the selected strain panel between the MenB\_0\_2\_6 and the ACWY groups is above 65%. VE is defined as 1- RR = (1- percentage of samples without bactericidal serum activity at 1:4 dilution in MenB group / percentage of samples without bactericidal serum activity at 1:4 dilution in the ACWY group) x100 percentage.|VE|78.7|||||TWO_SIDED|97.5|77.2|80.1||||||To demonstrate the effectiveness of the rMenB+OMV NZ vaccine against a randomly selected panel of endemic US N. meningitidis serogroup B invasive disease strains as measured by bactericidal activity using enc-hSBA at 1 month after the 2-dose (0,2-M) schedule in MenB\_0\_2\_6 group when compared to 1 month after the MenACWY dose in the ACWY group.||80.1|77.2|
92431913|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y are within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.96|||||TWO_SIDED|95.0|0.84|1.1||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-2 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup A at 1 month after last vaccination (Day 211).||1.10|0.84|
92431914|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.86|||||TWO_SIDED|95.0|0.75|0.98||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup A at 1 month after last vaccination (Day 211).||0.98|0.75|
92431915|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.9|||||TWO_SIDED|95.0|0.78|1.02||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-2 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup A at 1 month after last vaccination (Day 211).||1.02|0.78|
92431916|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y are within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.92|||||TWO_SIDED|95.0|0.76|1.11||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-2 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup C at 1 month after last vaccination (Day 211).||1.11|0.76|
92431917|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|1.17|||||TWO_SIDED|95.0|0.97|1.41||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup C at 1 month after last vaccination (Day 211).||1.41|0.97|
92431918|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|1.27|||||TWO_SIDED|95.0|1.05|1.54||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-2 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup C at 1 month after last vaccination (Day 211).||1.54|1.05|
92431919|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y are within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.89|||||TWO_SIDED|95.0|0.77|1.02||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-2 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup W at 1 month after last vaccination (Day 211).||1.02|0.77|
92431920|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.88|||||TWO_SIDED|95.0|0.77|1.02||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup W at 1 month after last vaccination (Day 211).||1.02|0.77|
92431921|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.99|||||TWO_SIDED|95.0|0.86|1.14||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-2 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup W at 1 month after last vaccination (Day 211).||1.14|0.86|
92431922|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y are within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.86|||||TWO_SIDED|95.0|0.73|1.01||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-2 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup Y at 1 month after last vaccination (Day 211).||1.01|0.73|
92237419|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-21.78|STANDARD_ERROR_OF_MEAN|3.76|<|0.001|TWO_SIDED|95.0|-29.18|-14.39||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-14.39|-29.18|<0.001
92237420|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-18.39|STANDARD_ERROR_OF_MEAN|3.89|<|0.001|TWO_SIDED|95.0|-26.03|-10.75||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-10.75|-26.03|<0.001
92237421|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-23.83|STANDARD_ERROR_OF_MEAN|3.85|<|0.001|TWO_SIDED|95.0|-31.39|-16.27||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-16.27|-31.39|<0.001
92237422|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-18.29|STANDARD_ERROR_OF_MEAN|4.09|<|0.001|TWO_SIDED|95.0|-26.33|-10.25||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-10.25|-26.33|<0.001
92237423|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-21.41|STANDARD_ERROR_OF_MEAN|4.04|<|0.001|TWO_SIDED|95.0|-29.35|-13.48||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-13.48|-29.35|<0.001
92279794|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1259||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.1259
92431923|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.83|||||TWO_SIDED|95.0|0.71|0.98||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup Y at 1 month after last vaccination (Day 211).||0.98|0.71|
92431924|NCT04502693|184750340|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.97|||||TWO_SIDED|95.0|0.82|1.14||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-2 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup Y at 1 month after last vaccination (Day 211).||1.14|0.82|
92431925|NCT04502693|184750341|NON_INFERIORITY|Non-inferiority of MenABCWY vaccine is demonstrated if the LL of the 2-sided 95% CI for the difference in percentage of participants with 4-fold rise between the 2 groups is above -10%.|Difference in percentage of participants|11.29|||||TWO_SIDED|95.0|5.88|19.01|||Difference in percentage of participants|||To demonstrate the immunological non-inferiority of the MenABCWY vaccine compared to the MenACWY vaccine in participants without a previous MenACWY vaccination (unprimed) as measured by the percentages of participants, achieving a 4-fold rise in hSBA titers against N. meningitidis serogroup A at 1 month after the last MenABCWY vaccination (Day 211) and 1 month after the MenACWY vaccination.||19.01|5.88|
92431926|NCT04502693|184750341|NON_INFERIORITY|Non-inferiority of MenABCWY vaccine is demonstrated if the LL of the 2-sided 95% CI for the difference in percentage of participants with 4-fold rise between the 2 groups is above -10%.|Difference in percentage of participants|47.22|||||TWO_SIDED|95.0|38.14|56.3||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine compared to the MenACWY vaccine in participants without a previous MenACWY vaccination (unprimed) as measured by the percentages of participants, achieving a 4-fold rise in hSBA titers against N. meningitidis serogroup C at 1 month after the last MenABCWY vaccination (Day 211) and 1 month after the MenACWY vaccination.||56.30|38.14|
92431927|NCT04502693|184750341|NON_INFERIORITY|Non-inferiority of MenABCWY vaccine is demonstrated if the LL of the 2-sided 95% CI for the difference in percentage of participants with 4-fold rise between the 2 groups is above -10%.|Difference in percentage of participants|35.31|||||TWO_SIDED|95.0|26.88|44.49||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine compared to the MenACWY vaccine in participants without a previous MenACWY vaccination (unprimed) as measured by the percentages of participants, achieving a 4-fold rise in hSBA titers against N. meningitidis serogroup W at 1 month after the last MenABCWY vaccination (Day 211) and 1 month after the MenACWY vaccination.||44.49|26.88|
92237424|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-20.16|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-28.14|-12.19||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-12.19|-28.14|<0.001
92237425|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-21.17|STANDARD_ERROR_OF_MEAN|4.01|<|0.001|TWO_SIDED|95.0|-29.04|-13.3||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-13.30|-29.04|<0.001
92279795|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0718||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.0718
92279796|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.317||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.3170
92431928|NCT04502693|184750341|NON_INFERIORITY|Non-inferiority of MenABCWY vaccine is demonstrated if the LL of the 2-sided 95% CI for the difference in percentage of participants with 4-fold rise between the 2 groups is above -10%.|Difference in percentage of participants|26.99|||||TWO_SIDED|95.0|19.38|35.81||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine compared to the MenACWY vaccine in participants without a previous MenACWY vaccination (unprimed) as measured by the percentages of participants, achieving a 4-fold rise in hSBA titers against N. meningitidis serogroup Y at 1 month after the last MenABCWY vaccination (Day 211) and 1 month after the MenACWY vaccination.||35.81|19.38|
92431929|NCT04502693|184750342|OTHER|Effectiveness of MenABCWY vaccine is demonstrated if the LL of the 2-sided 95% CI for VE against the selected strain panel between the ABCWY and the ACWY groups is above 65%. VE is defined as 1- RR = (1- percentage of samples without bactericidal serum activity at 1:4 dilution in ABCWY\_Pooled group / percentage of samples without bactericidal serum activity at 1:4 dilution in the ACWY group) x100 percentage.|VE|77.9|||||TWO_SIDED|95.0|76.6|79.2||||||To demonstrate the effectiveness of the MenABCWY vaccine against a randomly selected panel of endemic US N. meningitidis serogroup B invasive disease strains as measured by enc-hSBA at 1 month after the last MenABCWY vaccination (Day 211) when compared to 1 month after the MenACWY vaccination.||79.2|76.6|
92431930|NCT04502693|184750343|NON_INFERIORITY|Non-inferiority of MenABCWY to rMenB+OMV NZ is demonstrated if LL of the 2-sided 95% CI for the difference in percentages of samples with bactericidal serum activity at 1:4 dilution is above -5%.|Difference in percentage of participants|-0.61|||||TWO_SIDED|95.0|-1.25|0.03||||||To demonstrate the non-inferiority of the effectiveness of the MenABCWY vaccine (0,6-months schedule) compared to the rMenB+OMV NZ vaccine (0,2-months) in terms of percentage of samples with bactericidal serum activity using enc-hSBA against a randomly selected panel of endemic US N. meningitidis serogroup B invasive disease strains.||0.03|-1.25|
92431931|NCT00279305|184750375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.104||0.05|TWO_SIDED|95.0|-0.0699|0.348|||ANCOVA|||"The calculation for the concentration of c-peptide is a weighted average of the 6 timed measurements of c-peptide in nano-moles/Liter. We try to distinguish this calculation from the AUC by referring to it as the AUC mean and may be expressed algebraically as the AUC/(120 min.); thus, the units are the same as the y-axis."||0.348|-0.0699|0.05
92431932|NCT04404361|184750376|SUPERIORITY||Risk Difference (RD)|1.51||||0.8516|TWO_SIDED|95.0|-10.55|13.53|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (\<60 years versus ≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5).||||13.53|-10.55|0.8516
92431933|NCT04404361|184750377|SUPERIORITY|||||||0.7494|||||||Wilcoxon (Mann-Whitney)|||||||0.7494
92431934|NCT04404361|184750378|SUPERIORITY||Odds Ratio (OR)|1.29||||0.6323|TWO_SIDED|95.0|0.46|3.58|||Cochran-Mantel-Haenszel||OR from a CMH test stratified by randomization stratification factors age (\<60 years versus ≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5) as entered in the IXRS|||3.58|0.46|0.6323
92431935|NCT04404361|184750379|SUPERIORITY||Odds Ratio (OR)|1.25||||0.7541|TWO_SIDED|95.0|0.31|4.96|||Cochran-Mantel-Haenszel||OR from a CMH test Stratified by randomization stratification factors age (\<60 years versus ≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5) as entered in the IXRS|||4.96|0.31|0.7541
92431936|NCT04404361|184750380|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.5666|TWO_SIDED|95.0|0.79|1.53||"log-rank test stratified by randomization stratification factors age (\<60 years versus~≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5) as entered in the IXRS"|Log Rank|"stratified by randomization stratification factors age (\<60 years versus~≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5)"|estimated using a stratified Cox proportional hazards model stratified by randomization stratification factors age (\<60 years versus ≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5)|||1.53|0.79|0.5666
92431937|NCT04404361|184750382|SUPERIORITY||Odds Ratio (OR)|2.46||||0.2722|TWO_SIDED|95.0|0.47|12.93|||Chi-squared|||||12.93|0.47|0.2722
92431938|NCT03307967|184750402|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Signed Rank Sum||||||.07
92431939|NCT03307967|184750403|OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Signed Rank Sum Test||||||.98
92431940|NCT02166905|184750444|OTHER||Hazard Ratio (HR)|0.4||||0.177|TWO_SIDED|90.0|0.1|1.2|||Log Rank||Reference=arm 1|||1.2|0.1|0.177
92431941|NCT02617628|184750450|EQUIVALENCE|The odds ratio for relapse versus non-relapse for the AR group relative to the BR group was analyzed, as well as the corresponding odds ratio for unknown relative to non-relapse.|Odds Ratio (OR)|1.56||||0.38|TWO_SIDED|95.0|0.57|4.27|||Regression, Logistic||Threshold for significance was set at p\<.05|Based on Lee et al. we estimated a 23-33% group difference in relapse by month 3. Power estimates calculated this estimate with a 2-sided alpha of .05 and a baseline sample size of 100 per group resulted in 80% power to detect a difference of approximately 20% (OR = 2.4) between groups assuming a rate of 50% in the control condition and 10% and 20% attrition by 3- and 6-month follow-ups. For the 86 participants randomized and released, with 80% power; and odds ratio of 3.5.||4.27|0.57|0.38
92431942|NCT02617628|184750451|SUPERIORITY||Cox Proportional Hazard|-0.74486||||0.01|TWO_SIDED|95.0|||||Regression, Cox|||We used Cox proportional hazards regression model to compare the groups on time to reincarceration.||||0.01
92431943|NCT02065375|184750452|SUPERIORITY||Difference in proportion of patients|-1.2||||0.4543|TWO_SIDED|95.0|-21.3|18.9|||Chi-squared|p values from Pearson chi-squared statistical test between the Omaveloxolone Ophthalmic suspension 1.0% and placebo were one sided.||||18.9|-21.3|0.4543
92431944|NCT02065375|184750452|SUPERIORITY||Difference in proportion of patients|8.2||||0.2297|TWO_SIDED|95.0|-13.5|29.8|||Chi-squared|p values from Pearson chi-squared statistical test between the Omaveloxolone Ophthalmic suspension 0.5% and placebo were one sided.||||29.8|-13.5|0.2297
92431945|NCT02065375|184750453|SUPERIORITY||Difference in proportion of patients|-21.6||||0.028|TWO_SIDED|95.0|-43.1|0.0|||Chi-squared|p values from Pearson chi-squared statistical test between the Omaveloxolone Ophthalmic suspension 1.0% and placebo were one sided.||||0.00|-43.1|.0280
92431946|NCT02065375|184750453|SUPERIORITY||Difference in proportion of patients|-24.0||||0.0192|TWO_SIDED|95.0|-45.8|-2.2|||Chi-squared|p values from Pearson chi-squared statistical test between the Omaveloxolone Ophthalmic suspension 0.5% and placebo were one sided.||||-2.2|-45.8|0.0192
92431947|NCT02801331|184750544|EQUIVALENCE|A test of equivalence was conducted for unadjusted comparisons. A chi squared test of proportions was used for unadjusted comparisons.||||||0.6||||||Unadjusted|Chi-squared|||||||.60
92431948|NCT02801331|184750545|EQUIVALENCE|A statistical test comparing cumulative morphine dose was performed for the cohort that was treated with morphine (n=60)||||||0.62|||||||t-test, 2 sided|degrees of freedom =58 for cohort analyzed that received morphine treatment.||||||.62
92431949|NCT02801331|184750546|EQUIVALENCE|A statistical test comparing day of life discharged among untreated infants who completed hospitalization at study site (n=181).||||||0.29|||||||t-test, 2 sided|df = 179 based on number of infants who completed hospitalization at study site.||||||0.29
92431950|NCT02801331|184750547|EQUIVALENCE|A statistical test comparing day of life discharged among untreated infants (n=121)||||||0.55|||||||t-test, 2 sided|df = 119 based on number of infants who did not receive morphine treatment.||||||0.55
92431951|NCT02801331|184750548|EQUIVALENCE|A statistical test comparing day of life discharged among treated infants, n=60||||||0.36|||||||t-test, 2 sided|df = 58 based on number of infants who received morphine treatment.||||||0.36
92431952|NCT02801331|184750549|EQUIVALENCE|A test of equivalence was conducted for unadjusted comparisons. A t test of means was used for unadjusted comparisons.||||||0.56|||||||t-test, 2 sided|df = 58 based on number of infants who received morphine treatment.||||||0.56
92431953|NCT02801331|184750550|EQUIVALENCE|A statistical test comparing day of life infant started treatment as performed for the cohort that was treated with morphine (n=60)||||||0.25|||||||t-test, 2 sided|df = 58 based on number of infants who received morphine treatment.||||||0.25
92431954|NCT02443987|184750554|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
92431955|NCT02443987|184750555|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92431956|NCT02443987|184750556|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92431957|NCT02443987|184750557|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
92431958|NCT00407797|184750560|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Percent change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||<.0001
92431959|NCT00407797|184750561|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<.0001
92279797|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.7844||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 208601\_s\_at||||0.7844
92431960|NCT00407797|184750562|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Percent change evaluated by a one-sample two-sided t-test comparing the difference to zero.||||<.0001
92431961|NCT00407797|184750563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Participants with \<= 6 seizures during Baseline period.||||<.0001
92431962|NCT00407797|184750563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Participants with \> 6 seizures during Baseline Period.||||<.0001
92431963|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0552|TWO_SIDED|95.0|||||t-test, 2 sided|||Week 21: Sleep Disturbance. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0552
92431964|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|TWO_SIDED|95.0|||||t-test, 2 sided|||LOCF: Sleep Disturbance. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0350
92431965|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6743|TWO_SIDED||||||t-test, 2 sided|||Week 21: Snoring. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.6743
92431966|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4736|TWO_SIDED||||||t-test, 2 sided|||LOCF: Snoring. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.4736
92431967|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8173|TWO_SIDED||||||t-test, 2 sided|||Week 21: Awaken Short of Breath. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.8173
92431968|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9092|TWO_SIDED||||||t-test, 2 sided|||LOCF: Awaken Short of Breath. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.9092
92431969|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1091|TWO_SIDED||||||t-test, 2 sided|||Week 21: Sleep Adequacy. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.1091
92431970|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0944|TWO_SIDED||||||t-test, 2 sided|||LOCF: Sleep Adequacy. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0944
92431971|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8928|TWO_SIDED||||||t-test, 2 sided|||Week 21: Somnolence. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.8928
92431972|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7669|TWO_SIDED||||||t-test, 2 sided|||LOCF: Somnolence. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.7669
92431973|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1698|TWO_SIDED||||||t-test, 2 sided|||Week 21: 9-Item Overall Sleep Problems Index. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.1698
92431974|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0898|TWO_SIDED||||||t-test, 2 sided|||LOCF: 9-Item Overall Sleep Problem Index. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0898
92431975|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0465|TWO_SIDED||||||t-test, 2 sided|||Week 21: Quantity of Sleep. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0465
92431976|NCT00407797|184750569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0316|TWO_SIDED||||||t-test, 2 sided|||LOCF: Quantity of Sleep. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0316
92431977|NCT00407797|184750570|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2187|TWO_SIDED|95.0|||||t-test, 2 sided|||Week 21; change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.2187
92431978|NCT00407797|184750570|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1905|TWO_SIDED|95.0|||||t-test, 2 sided|||LOCF; change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.1905
92431979|NCT00407797|184750571|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Anxiety: Week 21. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||<.0001
92431980|NCT00407797|184750571|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Anxiety: LOCF. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||<.0001
92431981|NCT00407797|184750571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0799|TWO_SIDED||||||t-test, 2 sided|||Depression: Week 21. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0799
92431982|NCT00407797|184750571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0846|TWO_SIDED||||||t-test, 2 sided|||Depression: LOCF. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0846
92431983|NCT03250845|184750588|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||H0: No difference between Multigam 5% and Multigam 10% infusion time Ha: Multigam 10% infusion time is significantly shorter than Multigam 5%||||<0.0001
92431984|NCT03250845|184750589|SUPERIORITY||||||<|0.0005|||||||t-test, 1 sided|||H0: No difference in hospitalisation time between Multigam 5% and Multigam 10% infusion Ha: Hospitalisation time with Multigam 10% infusion is significantly shorter than with Multigam 5%||||<0.0005
92431985|NCT03250845|184750591|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|||H0: No difference in number of nursing actions per patient between Multigam 5% and Multigam 10% infusion Ha: Number of nursing actions per patient is smaller with Multigam 10% infusion||||0.03
92431986|NCT05973981|184750641|OTHER||Slope|0.19|||||TWO_SIDED|95.0|-0.25|0.63|||||Adjusted for age, sex, and race|||0.63|-0.25|
92431987|NCT05973981|184750641|OTHER||Slope|0.03|||||TWO_SIDED|95.0|-0.41|0.46|||||adjusted for age, sex, and race|||0.46|-0.41|
92431988|NCT00601458|184750654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.7||||0.005||97.8|-73.6|-8.0||1-sided alpha = 0.045 Hochberg closed testing procedure|ANOVA||The natural log scale treatment difference (pregabalin - placebo) and 97.8% CI for the treatment difference were exponentiated and reported as a percentage reduction in 24-h cumulative hydromorphone consumption.|||-8.0|-73.6|0.005
92431989|NCT00601458|184750654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-65.4||||0.0001||97.8|-81.7|-34.6||1-sided alpha = 0.045 Hochberg closed testing procedure|ANOVA||The natural log scale treatment difference (naproxen - placebo) and 97.8% CI for the treatment difference were exponentiated and reported as a percentage reduction in 24-h cumulative hydromorphone consumption.|||-34.6|-81.7|0.0001
92431990|NCT00601458|184750655|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.46||||0.004||95.0|0.183|2.95||1-sided alpha = 0.045 Hochberg closed testing procedure|Log Rank||Hodges-Lehmann procedure was used to obtain an estimate of the difference in medians and an exact CI for the difference in medians|||2.95|0.183|0.004
92431991|NCT00601458|184750655|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.7|||<|0.001||95.0|1.77|6.72||1-sided alpha = 0.045 Hochberg closed testing procedure|Log Rank||Hodges-Lehmann procedure was used to obtain an estimate of the difference in medians and an exact CI for the difference in medians|||6.72|1.77|<0.001
92431992|NCT00518986|184750656|SUPERIORITY_OR_OTHER|||||||0.3043||95.0|||||ANCOVA|Study drug was fixed factor and corresponding baseline value was a covariate.||Since there were two primary outcome measures the Hochberg procedure was used to control overall Type 1 error rate at the 0.05 level. If both p-values for the primary variables were \<= 0.05 the treatment was claimed to be significant for both variables. If 1 p-value was \> 0.05and the other was \<=0.025, the variable with a p-value \<= 0.025 was claimed as significant.||||0.3043
92431993|NCT00518986|184750657|SUPERIORITY_OR_OTHER|||||||0.012|||||||Chi-squared|P-value for comparison is from a Pearson's chi-square test||Since there were two primary outcome measures the Hochberg procedure was used to control overall Type 1 error rate at the 0.05 level. If both p-values for the primary variables were \<= 0.05 the treatment was claimed to be significant for both variables. If 1 p-value was \> 0.05and the other was \<=0.025, the variable with a p-value \<= 0.025 was claimed as significant.||||0.0120
92431994|NCT00518986|184750658|SUPERIORITY_OR_OTHER|||||||0.0027||||||Nominal p-value is presented, but statistical significance cannot be claimed. As a key secondary variable significance could be claimed only if treatment effect was significant for both primary efficacy variables.|ANCOVA|||Least squares (LS) mean and standard error of the LS mean for each treatment group, and p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline as covariate.||||0.0027
92431995|NCT00518986|184750659|SUPERIORITY_OR_OTHER|||||||0.0019|||||||ANCOVA|||||||0.0019
92431996|NCT00518986|184750660|SUPERIORITY_OR_OTHER|||||||0.3145|||||||ANCOVA|||||||0.3145
92431997|NCT00518986|184750661|SUPERIORITY_OR_OTHER|||||||0.2196|||||||ANCOVA|||||||0.2196
92431998|NCT00518986|184750662|SUPERIORITY_OR_OTHER|||||||0.2017||||||P-value is from Pearson's chi-square test|Chi-squared|||||||0.2017
92279798|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.4688||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 208601\_s\_at||||0.4688
92431999|NCT00518986|184750663|SUPERIORITY_OR_OTHER|||||||0.0032||||||P-value from Pearson's chi-square test|Chi-squared|||||||0.0032
92432000|NCT00518986|184750664|SUPERIORITY_OR_OTHER|||||||0.0207||||||P-value from Pearson's chi-square test|Chi-squared|||||||0.0207
92432001|NCT00518986|184750665|SUPERIORITY_OR_OTHER|||||||0.0529||||||P-value was generated from a Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||||||0.0529
92432002|NCT00518986|184750666|SUPERIORITY_OR_OTHER|||||||0.0011|||||||Cochran-Mantel-Haenszel|||||||0.0011
92432003|NCT00518986|184750667|SUPERIORITY_OR_OTHER|||||||0.0064||95.0|||||Cochran-Mantel-Haenszel|||||||0.0064
92432004|NCT00518986|184750668|SUPERIORITY_OR_OTHER|||||||0.1072|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1072
92432005|NCT00518986|184750669|SUPERIORITY_OR_OTHER|||||||0.0355|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0355
92237426|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-16.67|STANDARD_ERROR_OF_MEAN|4.1|<|0.001|TWO_SIDED|95.0|-24.73|-8.61||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-8.61|-24.73|<0.001
92432006|NCT00518986|184750670|SUPERIORITY_OR_OTHER|||||||0.0591|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0591
92432007|NCT00518986|184750671|SUPERIORITY_OR_OTHER|||||||0.0025|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0025
92432008|NCT00518986|184750672|SUPERIORITY_OR_OTHER|||||||0.0794||||||P-value for treatment comparison is from Pearson's chi-square test|Chi-squared|||||||0.0794
92432009|NCT00518986|184750673|SUPERIORITY_OR_OTHER|||||||0.0888||||||P-value for the treatment comparison is from a Pearson's chi-square test|Chi-squared|||||||0.0888
92432010|NCT00518986|184750674|SUPERIORITY_OR_OTHER|||||||0.0433||||||P-value for the treatment comparison is from a Pearson's chi-square test.|Chi-squared|||||||0.0433
92432011|NCT00518986|184750675|SUPERIORITY_OR_OTHER|||||||0.0105||||||P-value for the treatment comparison is from a Pearson's chi-square test.|Chi-squared|||||||0.0105
92432012|NCT00518986|184750676|SUPERIORITY_OR_OTHER|||||||0.0523|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0523
92432013|NCT00518986|184750677|SUPERIORITY_OR_OTHER|||||||0.0289|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0289
92432014|NCT00518986|184750678|SUPERIORITY_OR_OTHER|||||||0.1272|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1272
92432015|NCT00518986|184750679|SUPERIORITY_OR_OTHER|||||||0.0349|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0349
92432016|NCT00518986|184750680|SUPERIORITY_OR_OTHER|||||||0.0094|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0094
92432017|NCT00518986|184750681|SUPERIORITY_OR_OTHER|||||||0.0754|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0754
92432018|NCT00518986|184750682|SUPERIORITY_OR_OTHER|||||||0.0105|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0105
92432019|NCT00518986|184750683|SUPERIORITY_OR_OTHER|||||||0.2888|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2888
92432020|NCT00518986|184750684|SUPERIORITY_OR_OTHER|||||||0.013|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0130
92432021|NCT00518986|184750685|SUPERIORITY_OR_OTHER|||||||0.0354|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0354
92432022|NCT00518986|184750686|SUPERIORITY_OR_OTHER|||||||0.3854||||||P-value for the treatment comparison is from a Pearson's chi-square test|Chi-squared|||Responders are subjects with worst fatigue score \< 7 after baseline||||0.3854
92432023|NCT00518986|184750687|SUPERIORITY_OR_OTHER|||||||0.0145||||||P-value for the treatment comparison is from Pearson's chi-square test|Chi-squared|||Responders were defined as subjects with worst fatigue score \< 7||||0.0145
92432024|NCT00518986|184750688|SUPERIORITY_OR_OTHER|||||||0.6475||||||P-value for the treatment comparison is from a Pearson's chi-square test|Chi-squared|||Responders were patients with worst fatigue scores \< 7||||0.6475
92432025|NCT00518986|184750689|SUPERIORITY_OR_OTHER|||||||0.0118||||||P-value for the treatment comparison is from Pearson's chi-square test|Chi-squared|||Responders are subjects with worst fatigue score \< 7||||0.0118
92432026|NCT00518986|184750690|SUPERIORITY_OR_OTHER|||||||0.3483||||||P-value for the treatment comparison is from the Pearson's chi-square test.|Chi-squared|||Responders are subjects with a worst fatigue score of \< 7||||0.3483
92432027|NCT00518986|184750691|SUPERIORITY_OR_OTHER|||||||0.0879|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0879
92432028|NCT00518986|184750692|SUPERIORITY_OR_OTHER|||||||0.0277|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0277
92432029|NCT00518986|184750693|SUPERIORITY_OR_OTHER|||||||0.1245|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1245
92432030|NCT00518986|184750694|SUPERIORITY_OR_OTHER|||||||0.0305|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0305
92237427|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-18.89|STANDARD_ERROR_OF_MEAN|4.05|<|0.001|TWO_SIDED|95.0|-26.84|-10.94||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-10.94|-26.84|<0.001
92237428|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-17.88|STANDARD_ERROR_OF_MEAN|4.01|<|0.001|TWO_SIDED|95.0|-25.77|-9.99||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-9.99|-25.77|<0.001
92237429|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-19.5|STANDARD_ERROR_OF_MEAN|3.96|<|0.001|TWO_SIDED|95.0|-27.28|-11.72||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-11.72|-27.28|<0.001
92237430|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-20.32|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-28.3|-12.35||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-12.35|-28.30|<0.001
92237431|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-22.14|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-30.0|-14.28||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-14.28|-30.00|<0.001
92237432|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-20.08|STANDARD_ERROR_OF_MEAN|4.13|<|0.001|TWO_SIDED|95.0|-28.19|-11.96||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 12||-11.96|-28.19|<0.001
92237433|NCT04003155|184379198|SUPERIORITY||LSMean Difference|-24.18|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-32.16|-16.2||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 12||-16.20|-32.16|<0.001
92237434|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|3.245|||<|0.001|TWO_SIDED|95.0|1.823|5.999||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||5.999|1.823|<0.001
92237435|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.964|||<|0.001|TWO_SIDED|95.0|1.658|5.497||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||5.497|1.658|<0.001
92237436|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.187||||0.001|TWO_SIDED|95.0|1.363|3.549||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||3.549|1.363|0.001
92237437|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.847|||<|0.001|TWO_SIDED|95.0|1.786|4.601||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||4.601|1.786|<0.001
92237438|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.096||||0.002|TWO_SIDED|95.0|1.326|3.345||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||3.345|1.326|0.002
92237439|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|3.333|||<|0.001|TWO_SIDED|95.0|2.121|5.302||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||5.302|2.121|<0.001
92237440|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.061||||0.001|TWO_SIDED|95.0|1.323|3.233||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||3.233|1.323|0.001
92432031|NCT00518986|184750695|SUPERIORITY_OR_OTHER|||||||0.0129|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0129
92237441|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|3.025|||<|0.001|TWO_SIDED|95.0|1.947|4.746||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||4.746|1.947|<0.001
92237442|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.13|||<|0.001|TWO_SIDED|95.0|1.363|3.357||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||3.357|1.363|<0.001
92432032|NCT00518986|184750696|SUPERIORITY_OR_OTHER|||||||0.0308||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0308
92432033|NCT00518986|184750697|SUPERIORITY_OR_OTHER|||||||0.0679|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0679
92432034|NCT00518986|184750698|SUPERIORITY_OR_OTHER|||||||0.0153|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0153
92237443|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|3.223|||<|0.001|TWO_SIDED|95.0|2.067|5.08||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||5.080|2.067|<0.001
92237444|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.049||||0.002|TWO_SIDED|95.0|1.317|3.21||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||3.210|1.317|0.002
92237445|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|3.097|||<|0.001|TWO_SIDED|95.0|1.994|4.858||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||4.858|1.994|<0.001
92237446|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|1.984||||0.002|TWO_SIDED|95.0|1.28|3.097||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||3.097|1.280|0.002
92237447|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|3.062|||<|0.001|TWO_SIDED|95.0|1.977|4.788||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||4.788|1.977|<0.001
92237448|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.748|||<|0.001|TWO_SIDED|95.0|1.774|4.294||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||4.294|1.774|<0.001
92237449|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.379|||<|0.001|TWO_SIDED|95.0|1.536|3.712||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||3.712|1.536|<0.001
92237450|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.051||||0.001|TWO_SIDED|95.0|1.329|3.186||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||3.186|1.329|0.001
92237451|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.701|||<|0.001|TWO_SIDED|95.0|1.75|4.204||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||4.204|1.750|<0.001
92237452|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.725|||<|0.001|TWO_SIDED|95.0|1.742|4.306||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||4.306|1.742|<0.001
92432035|NCT00518986|184750699|SUPERIORITY_OR_OTHER|||||||0.0296|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0296
92432036|NCT00518986|184750700|SUPERIORITY_OR_OTHER|||||||0.0107|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0107
92432037|NCT00518986|184750701|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value for the treatment comparison is from a Pearson's chi-square test|Chi-squared|||Responders are defined as patients with a total score on FOSQ \> 17.9||||0.0100
92432038|NCT00518986|184750702|SUPERIORITY_OR_OTHER|||||||0.0854||95.0||||P-value for treatment comparison is from a Pearson's chi-square test|Chi-squared|||Responders are defined as subjects with a total score of \> 17.9||||0.0854
92432039|NCT00518986|184750703|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||P-value for the treatment comparison is from Pearson's chi-square test|Chi-squared|||Responders are defined as subjects with a total score \> 17.9||||0.0027
92432040|NCT00518986|184750704|SUPERIORITY_OR_OTHER|||||||0.0189||95.0||||P-value for the treatment comparison is from a Pearson's chi-square test.|Chi-squared|||Responders are defined as subjects who had a total score of \> 17.9||||0.0189
92432041|NCT00518986|184750705|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||P-value for the treatment comparison is from a Pearson's chi-square test|Chi-squared|||Responders are defined as subjects with total score \> 17.9||||0.0240
92237453|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|3.921|||<|0.001|TWO_SIDED|95.0|2.505|6.214||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||6.214|2.505|<0.001
92237454|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.104|||<|0.001|TWO_SIDED|95.0|1.363|3.27||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||3.270|1.363|<0.001
92237455|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|2.953|||<|0.001|TWO_SIDED|95.0|1.912|4.602||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||4.602|1.912|<0.001
92237456|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|1.894||||0.005|TWO_SIDED|95.0|1.22|2.961||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||2.961|1.220|0.005
92237457|NCT04003155|184379199|SUPERIORITY||Odds Ratio (OR)|3.156|||<|0.001|TWO_SIDED|95.0|2.035|4.944||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||4.944|2.035|<0.001
92432042|NCT00518986|184750706|SUPERIORITY_OR_OTHER|||||||0.332||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3320
92432043|NCT00518986|184750707|SUPERIORITY_OR_OTHER|||||||0.893||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8930
92237458|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|3.158||||0.322|TWO_SIDED|95.0|0.398|64.304||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||64.304|0.398|0.322
92432044|NCT00518986|184750708|SUPERIORITY_OR_OTHER|||||||0.1774||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1774
92432045|NCT00518986|184750709|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1000
92432046|NCT00518986|184750710|SUPERIORITY_OR_OTHER|||||||0.2428||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2428
92432047|NCT00518986|184750711|SUPERIORITY_OR_OTHER|||||||0.1816||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1816
92432048|NCT00518986|184750712|SUPERIORITY_OR_OTHER|||||||0.1627||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1627
92432049|NCT00518986|184750713|SUPERIORITY_OR_OTHER|||||||0.0018||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0018
92432050|NCT00518986|184750714|SUPERIORITY_OR_OTHER|||||||0.0096||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0096
92432051|NCT00518986|184750715|SUPERIORITY_OR_OTHER|||||||0.0126||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0126
92432052|NCT02002091|184750751|OTHER|||||||0.706|||||||Chi-squared|||||||0.706
92432053|NCT02002091|184750752|OTHER|||||||0.346|||||||Chi-squared|||||||0.346
92432054|NCT02002091|184750753|OTHER|||||||0.123|||||||Mantel Haenszel|||||||0.123
92432055|NCT02002091|184750754|OTHER|||||||0.968|||||||Chi-squared, Corrected|||||||0.968
92432056|NCT02002091|184750755|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||The threshold for statistical significance for P-Value is \<0.05|Fisher Exact|||||||0.004
92432057|NCT02002091|184750756|SUPERIORITY_OR_OTHER_LEGACY|||||||0.988|||||||Fisher Exact|||||||0.988
92432058|NCT02002091|184750757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038|||||||Fisher Exact|||||||0.038
92432059|NCT02002091|184750759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.917|||||||Chi-squared, Corrected|||||||0.917
92432060|NCT02002091|184750760|SUPERIORITY_OR_OTHER_LEGACY|||||||0.816|||||||Chi-squared, Corrected|||||||0.816
92432061|NCT02002091|184750761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||||||Statistical significance : p\< 0.05|Fisher Exact|||||||0.008
92432062|NCT02002091|184750763|OTHER|||||||0.025||||||The threshold of statistical difference is P-value \< 0.05|Chi-squared, Corrected|||||||0.025
92432063|NCT02002091|184750766|OTHER|||||||0.059||||||the threshold for statistical significance used is P-value \<0.05|Fisher Exact|||||||0.059
92432064|NCT01233258|184750776|SUPERIORITY_OR_OTHER|||||||0.0001||||||No multiplicity adjustment as only 1 primary endpoint.|ANOVA|No adjustment, no transformation of data seemed to be necessary.||Null hypothesis: bleeding rates are equal, alternative hypothesis rates are unequal. Power calculation: Assumption 5 bleeds per year on prophylactic treatment, 15 on on-demand treatment; 2-sided alpha 5% and 90% power.||||0.0001
92432065|NCT01233258|184750777|SUPERIORITY_OR_OTHER|||||||0.0001||||||No multiplicity adjustment as this is not primary endpoint.|ANOVA|No adjustment, no transformation of data seemed to be necessary.||Null hypothesis: bleeding rates are equal, alternative hypothesis rates are unequal. Power calculation not done for this comparison as not primary comparison.||||0.0001
92432066|NCT01233258|184750778|SUPERIORITY_OR_OTHER|||||||0.0001|||||||ANOVA|No adjustment, no transformation of data seemed to be necessary.||Null hypothesis: bleeding rates are equal, alternative hypothesis rates are unequal. Power calculation not done for this comparison as not primary comparison.||||0.0001
92432067|NCT01233258|184750779|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 10%|Median Difference (Net)|-0.0001||||0.0001|ONE_SIDED|95.0|-0.049|||No multiplicity adjustment as not primary endpoint.|Exact Permutation Test for paired sample||Confidence interval calculated with exact Hodges- Lehmann estimates for CS/EP minus CS/ADJ|Null hypothesis: the proportion of bleeds controlled by no more than 2 infusions in the CS/EP group plus 10% is less than the proportion of bleeds controlled by no more than 2 infusions in the CS/ADJ group. Alternative hypothesis: the proportion of bleeds controlled by no more than 2 infusions in the CS/EP group plus 10% is greater than or equal to the proportion of bleeds controlled by no more than 2 infusions in the CS/ADJ group. No power calculation since this is not the primary comparison.|||-0.0490|0.0001
92432068|NCT00602797|184750864|OTHER|An interim analysis was conducted after 10 patients were accrued. Since response rate seen at the first interim analysis was superior to that seen with standard of care, a new monitoring rule was approved. Toxicity monitoring would occur after 19 patients. If 6/19 patients had ≥grade 4 non-hematological toxicity, accrual will be terminated. This will provide 84% power to detect 40% toxicity.|Proportion|6.0|||||TWO_SIDED||||||||If 6/19 patients had ≥grade 4 non-hematological toxicity, accrual will be terminated.|Adverse events will be graded using the NCI Common Toxicity Criteria (version 3.0).||||
92432069|NCT00418457|184750890|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.84|TWO_SIDED|95.0|0.74|1.28|||Regression, Cox|||||1.28|0.74|0.84
92237459|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|3.925||||0.225|TWO_SIDED|95.0|0.569|77.353||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||77.353|0.569|0.225
92237460|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|6.334||||0.089|TWO_SIDED|95.0|1.064|120.422||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||120.422|1.064|0.089
92237461|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|5.026||||0.143|TWO_SIDED|95.0|0.797|96.916||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||96.916|0.797|0.143
92237462|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|1.257||||0.711|TWO_SIDED|95.0|0.37|4.468||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||4.468|0.370|0.711
92237463|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|1.57||||0.441|TWO_SIDED|95.0|0.508|5.328||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||5.328|0.508|0.441
92432070|NCT00418457|184750891|SUPERIORITY||Odds Ratio (OR)|1.0||||0.7|TWO_SIDED|95.0|0.85|1.17|||GEE|||||1.17|0.85|0.70
92432071|NCT00418457|184750892|SUPERIORITY||Odds Ratio (OR)|0.98||||0.81|TWO_SIDED|95.0|0.75|1.28|||GEE|||||1.28|0.75|0.81
92432072|NCT00418457|184750893|SUPERIORITY||Mean Difference (Final Values)|-0.014||||0.96|TWO_SIDED|95.0|-0.63|0.6|||Mixed Models Analysis|||||0.60|-0.63|0.96
92432073|NCT00418457|184750894|SUPERIORITY||Mean Difference (Final Values)|0.75||||0.043|TWO_SIDED|95.0|0.02|1.48|||Mixed Models Analysis|||||1.48|0.02|0.043
92432074|NCT03736447|184750899|SUPERIORITY||Risk Difference (RD)|67.2|||<|0.0001|TWO_SIDED|95.0|50.0|84.5|||Farrington-Manning test|||||84.5|50.0|<0.0001
92432075|NCT03736447|184750900|SUPERIORITY||Risk Difference (RD)|64.2|||<|0.0001|TWO_SIDED|95.0|47.0|81.4|||Farrington-Manning test|||||81.4|47.0|<0.0001
92432076|NCT03736447|184750901|SUPERIORITY||Risk Difference (RD)|56.7|||<|0.0001|TWO_SIDED|95.0|39.8|73.5|||Farrington-Manning test|||||73.5|39.8|<0.0001
92432077|NCT02795832|184750912|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|12.441||0.5016|TWO_SIDED|90.0|-21.24|21.34||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Observed case||21.34|-21.24|0.5016
92432078|NCT02795832|184750912|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-3.01|STANDARD_ERROR_OF_MEAN|12.964||0.4082|TWO_SIDED|90.0|-24.39|18.36||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Multiple imputations||18.36|-24.39|0.4082
92432079|NCT02795832|184750912|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-18.27|STANDARD_ERROR_OF_MEAN|13.138||0.0878|TWO_SIDED|90.0|-40.65|4.11||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Last observation carried forward||4.11|-40.65|0.0878
92432080|NCT02795832|184750912|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-37.6|STANDARD_ERROR_OF_MEAN|18.748||0.0275|TWO_SIDED|90.0|-69.53|-5.66||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Worst case imputation||-5.66|-69.53|0.0275
92432081|NCT02795832|184750913|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-11.72||||0.1284|TWO_SIDED|90.0|-28.85|5.51||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Day 5||5.51|-28.85|0.1284
92432082|NCT02795832|184750913|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-5.95||||0.2765|TWO_SIDED|90.0|-22.85|10.95||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Day 8||10.95|-22.85|0.2765
92432083|NCT02795832|184750913|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-6.01||||0.2765|TWO_SIDED|90.0|-23.08|11.06||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Day 10||11.06|-23.08|0.2765
92432084|NCT02795832|184750913|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|0.05||||0.5016|TWO_SIDED|90.0|-21.24|21.34|||ANCOVA|||Day 15||21.34|-21.24|0.5016
92432085|NCT02795832|184750914|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Odds Ratio (OR)|1.55||||0.4789|TWO_SIDED|90.0|0.28|10.75||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< placebo LS mean.|ANCOVA|||EASI 50||10.75|0.28|0.4789
92432086|NCT02795832|184750914|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Odds Ratio (OR)|2.0||||0.3|TWO_SIDED|90.0|0.24|999.0||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< placebo LS mean.|ANCOVA|||EASI-75||999|0.24|0.3000
92237464|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|5.351||||0.032|TWO_SIDED|95.0|1.383|35.172||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||35.172|1.383|0.032
92237465|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|3.059||||0.175|TWO_SIDED|95.0|0.693|21.086||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||21.086|0.693|0.175
92237466|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|4.225||||0.071|TWO_SIDED|95.0|1.039|28.29||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||28.290|1.039|0.071
92237467|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|5.22||||0.035|TWO_SIDED|95.0|1.348|34.323||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||34.323|1.348|0.035
92237468|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|7.064||||0.011|TWO_SIDED|95.0|1.912|45.64||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||45.640|1.912|0.011
92432087|NCT02795832|184750915|SUPERIORITY||Odds Ratio (OR)|0.45||||0.5|TWO_SIDED|95.0|0.01|19.2||Results for the ZPL-5212372 and placebo groups are estimated adjusted LS means from the fitted model.|Shapiro-Wilkes test|The p-value tests if the residuals are normally distributed.||||19.20|0.01|0.500
92432088|NCT02795832|184750916|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_DEVIATION|1.22||0.5233|TWO_SIDED|90.0|-2.02|2.16|||Shapiro-Wilkes test|||||2.16|-2.02|0.5233
92432089|NCT02795832|184750917|SUPERIORITY||Odds Ratio (OR)|2.43||||0.2455|TWO_SIDED|95.0|0.45|13.26|||t-test, 1 sided|||||13.26|0.45|0.2455
92432090|NCT02795832|184750918|SUPERIORITY||Mean Difference (Net)|-2.66|STANDARD_ERROR_OF_MEAN|4.521||0.2812|TWO_SIDED|90.0|-10.4|5.09||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< placebo LS mean.|Shapiro-Wilkes test|||||5.09|-10.40|0.2812
92432091|NCT03547583|184750962|OTHER||Difference of LS-means|-0.52|||=|0.8008|TWO_SIDED|97.5|-5.17|4.13|||Mixed model repeated-measures|||The analysis of each imputed dataset will be performed using mixed-effects model for repeated measures (MMRM), including treatment, region, heart rhythm, study visit as fixed effects, interaction between study visit and treatment group, and adjustment for the baseline PLS values as covariates.||4.13|-5.17|= 0.8008
92432092|NCT03547583|184750962|OTHER||Difference of LS-means|-1.46|||=|0.4722|TWO_SIDED|97.5|-6.02|3.1|||Mixed model repeated-measures|||The analysis of each imputed dataset will be performed using mixed-effects model for repeated measures (MMRM), including treatment, region, heart rhythm, study visit as fixed effects, interaction between study visit and treatment group, and adjustment for the baseline PLS values as covariates.||3.10|-6.02|= 0.4722
92432093|NCT03547583|184750963|OTHER||Difference of LS-means|-1.81|||=|0.8054|TWO_SIDED|97.5|-18.3|14.67|||Mixed model repeated-measures|||The analysis of each imputed dataset will be performed using mixed-effects model for repeated measures (MMRM), including treatment, region, heart rhythm, study visit as fixed effects, interaction between study visit and treatment group, and adjustment for the baseline 6MWT values as covariates.||14.67|-18.30|= 0.8054
92432094|NCT03547583|184750963|OTHER||Difference of LS-means|-5.49|||=|0.4502|TWO_SIDED|97.5|-21.77|10.8|||mixed model repeated measures|||The analysis of each imputed dataset will be performed using mixed-effects model for repeated measures (MMRM), including treatment, region, heart rhythm, study visit as fixed effects, interaction between study visit and treatment group, and adjustment for the baseline 6MWT values as covariates.||10.80|-21.77|= 0.4502
92432095|NCT01269463|184751000|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||ANCOVA|||||||<0.01
92432096|NCT01269463|184751001|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||ANCOVA|||||||<0.01
92432097|NCT02657915|184751005|SUPERIORITY||Mean Difference (Final Values)|-6.0|||=|0.165|TWO_SIDED|95.0|-14.56|2.57|||ANCOVA|||||2.57|-14.56|=0.165
92432098|NCT04518306|184751018|SUPERIORITY||LS Means Difference|-7.33|STANDARD_ERROR_OF_MEAN|1.451|<|0.0001|TWO_SIDED|95.0|-10.176|-4.486||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MIANALYZE procedure|||The analysis was performed using a mixed model for repeated measures (MMRM) for estimating the difference between Triple ¼ GMRx2 and placebo at Week 4||-4.486|-10.176|<0.0001
92432099|NCT04518306|184751018|SUPERIORITY||LS Means Difference|-8.23|STANDARD_ERROR_OF_MEAN|1.57|<|0.0001|TWO_SIDED|95.0|-11.305|-5.151||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MIANALYZE procedure|||The analysis was performed using a mixed model for repeated measures (MMRM) for estimating the difference between Triple ½ GMRx2 and placebo at Week 4||-5.151|-11.305|<0.0001
92432100|NCT04518306|184751019|SUPERIORITY||LS Means Difference|-7.98|STANDARD_ERROR_OF_MEAN|1.649|<|0.0001|TWO_SIDED|95.0|-11.281|-4.681||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||-4.681|-11.281|<0.0001
92432101|NCT04518306|184751019|SUPERIORITY||LS Means Difference|-9.52|STANDARD_ERROR_OF_MEAN|2.034|<|0.0001|TWO_SIDED|95.0|-13.588|5.449||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||5.449|-13.588|<0.0001
92432102|NCT04518306|184751020|SUPERIORITY||LS Means Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.204||0.0015|TWO_SIDED|95.0|-6.413|-1.597||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||-1.597|-6.413|0.0015
92432103|NCT04518306|184751020|SUPERIORITY||LS Means Difference|-4.86|STANDARD_ERROR_OF_MEAN|1.133|<|0.0001|TWO_SIDED|95.0|-7.13|-2.595||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||-2.595|-7.130|<0.0001
92432104|NCT04518306|184751021|SUPERIORITY||Risk Difference (RD)|28.09||||0.0002|TWO_SIDED|95.0|11.811|42.45|||Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|||42.450|11.811|0.0002
92432105|NCT04518306|184751021|SUPERIORITY||Risk Difference (RD)|33.24|||<|0.0001|TWO_SIDED|95.0|17.199|47.186|||Wald test||95% confidence intervals for risk difference utilize Newcombe estimation method|||47.186|17.199|<0.0001
92237469|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|6.949||||0.012|TWO_SIDED|95.0|1.881|44.892||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||44.892|1.881|0.012
92432106|NCT04518306|184751022|SUPERIORITY||Risk Difference (RD)|17.18|||<|0.0001|TWO_SIDED|95.0|6.07|26.385||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo.|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method.|Percentages were calculated from the total number of participants within the randomized set.||26.385|6.070|<0.0001
92432107|NCT04518306|184751022|SUPERIORITY||Risk Difference (RD)|27.08|||<|0.0001|TWO_SIDED|95.0|15.237|36.646||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|Percentages were calculated from the total number of participants within the randomized set||36.646|15.237|<0.0001
92432108|NCT04518306|184751023|SUPERIORITY||LS Means Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.991||0.0002|TWO_SIDED|95.0|-5.978|-2.013||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||-2.013|-5.978|0.0002
92432109|NCT04518306|184751023|SUPERIORITY||LS Means Difference|-5.51|STANDARD_ERROR_OF_MEAN|0.908|<|0.0001|TWO_SIDED|95.0|-7.328|-3.694||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||-3.694|-7.328|<0.0001
92432110|NCT04518306|184751024|SUPERIORITY||LS Means Difference|-6.79|STANDARD_ERROR_OF_MEAN|1.752||0.0003|TWO_SIDED|95.0|-10.3|-3.287||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||The difference between Triple ¼ GMRx2 Dose and placebo at Week 4 was estimated using MMRM||-3.287|-10.300|0.0003
92432111|NCT04518306|184751024|SUPERIORITY||LS Means Difference|-8.74|STANDARD_ERROR_OF_MEAN|1.829|<|0.0001|TWO_SIDED|95.0|-12.403|-5.082||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||The difference between Triple ½ GMRx2 Dose and placebo at Week 4 was estimated using MMRM||-5.082|-12.403|<0.0001
92432112|NCT04518306|184751025|SUPERIORITY||LS Means Difference|-3.86|STANDARD_ERROR_OF_MEAN|1.004||0.0003|TWO_SIDED|95.0|-5.865|-1.847||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||The difference between Triple ¼ GMRx2 Dose and placebo at Week 4 was estimated using MMRM||-1.847|-5.865|0.0003
92432113|NCT04518306|184751025|SUPERIORITY||LS Means Difference|-5.42|STANDARD_ERROR_OF_MEAN|1.245|<|0.0001|TWO_SIDED|95.0|-7.915|-2.932||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||The difference between Triple ½ GMRx2 Dose and placebo at Week 4 was estimated using MMRM||-2.932|-7.915|<0.0001
92432114|NCT04518306|184751026|SUPERIORITY||Risk Difference (RD)|35.48|||<|0.0001|TWO_SIDED|95.0|19.541|48.549||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|||48.549|19.541|<0.0001
92432115|NCT04518306|184751026|SUPERIORITY||Risk Difference (RD)|29.97|||<|0.0001|TWO_SIDED|95.0|14.218|43.093||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|||43.093|14.218|<0.0001
92432116|NCT04518306|184751027|SUPERIORITY||Risk Difference (RD)|17.21||||0.003|TWO_SIDED|95.0|3.637|28.424||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|||28.424|3.637|0.0030
92237470|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|5.344||||0.032|TWO_SIDED|95.0|1.381|35.134||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||35.134|1.381|0.032
92237471|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|7.514||||0.008|TWO_SIDED|95.0|2.055|48.354||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||48.354|2.055|0.008
92432117|NCT04518306|184751027|SUPERIORITY||Risk Difference (RD)|22.5|||<|0.0001|TWO_SIDED|95.0|8.72|33.665||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|||33.665|8.720|<0.0001
92432118|NCT04518306|184751028|SUPERIORITY||Risk Difference (RD)|-1.61|||||TWO_SIDED|95.0|-9.83|2.76|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||2.760|-9.830|
92432119|NCT04518306|184751028|SUPERIORITY||Risk Difference (RD)|3.47|||||TWO_SIDED|95.0|-5.276|9.774|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||9.774|-5.276|
92432120|NCT04518306|184751029|SUPERIORITY||Risk Difference (RD)|-3.23|||||TWO_SIDED|95.0|-12.171|1.662|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||1.662|-12.171|
92432121|NCT04518306|184751029|SUPERIORITY||Risk Difference (RD)|-1.53|||||TWO_SIDED|95.0|-10.585|4.049||||||||4.049|-10.585|
92432122|NCT04518306|184751030|SUPERIORITY||Risk Difference (RD)|3.54|||||TWO_SIDED|95.0|-4.115|9.352|||||95% confidence intervals for risk difference utilize Newcombe estimation method|||9.352|-4.115|
92432123|NCT04518306|184751030|SUPERIORITY||Risk Difference (RD)|5.08|||||TWO_SIDED|95.0|-2.779|11.2||||||||11.200|-2.779|
92432124|NCT04518306|184751031|SUPERIORITY||Risk Difference (RD)|3.54|||||TWO_SIDED|95.0|-4.012|9.35|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||9.350|-4.012|
92432125|NCT04518306|184751031|SUPERIORITY||Risk Difference (RD)|0.84|||||TWO_SIDED|95.0|-6.364|5.278|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||5.278|-6.364|
92237472|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|3.238||||0.026|TWO_SIDED|95.0|1.222|10.148||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||10.148|1.222|0.026
92432126|NCT04518306|184751032|SUPERIORITY||Risk Difference (RD)|-1.22|||||TWO_SIDED|95.0|-10.928|5.573|||||95% confidence intervals for risk difference utilize Newcombe estimation method|||5.573|-10.928|
92237473|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|3.438||||0.019|TWO_SIDED|95.0|1.311|10.714||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||10.714|1.311|0.019
92237474|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|2.626||||0.037|TWO_SIDED|95.0|1.101|6.951||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||6.951|1.101|0.037
92432127|NCT04518306|184751032|SUPERIORITY||Risk Difference (RD)|4.27|||||TWO_SIDED|95.0|1.38|9.53|||||95% confidence intervals for risk difference utilize Newcombe estimation method|||9.53|1.38|
92432128|NCT04518306|184751033|SUPERIORITY||Risk Difference (RD)|1.95|||||TWO_SIDED|95.0|-6.492|7.954|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||7.954|-6.492|
92432129|NCT04518306|184751033|SUPERIORITY||Risk Difference (RD)|3.45|||||TWO_SIDED|95.0|-5.171|9.704|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||9.704|-5.171|
92432130|NCT04518306|184751034|SUPERIORITY||Risk Difference (RD)|0.88|||||TWO_SIDED|95.0|-6.324|5.548|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||5.548|-6.324|
92432131|NCT04518306|184751034|SUPERIORITY||number of participants at 95% CI|0.0|||||TWO_SIDED|95.0|0.0|3.05|||||For this particular parameter we have used number of participants at 95% CI computed from Clopper-Pearson method as no risk difference was found between the Triple ½ (GMRx2) vs placebo|||3.05|0.00|
92432132|NCT04518306|184751035|SUPERIORITY||Risk Difference (RD)|-1.59|||||TWO_SIDED|95.0|-9.684|2.778|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||2.778|-9.684|
92432133|NCT04518306|184751035|SUPERIORITY||Risk Difference (RD)|-1.59|||||TWO_SIDED|95.0|-9.684|2.59|||||95% confidence intervals for risk difference utilized Newcombe estimation method.|||2.590|-9.684|
92432134|NCT04518306|184751036|SUPERIORITY||Risk Difference (RD)|4.27|||||TWO_SIDED|95.0|-6.722|12.959|||||95% confidence intervals for risk difference utilized Newcombe estimation method.|||12.959|-6.722|
92432135|NCT04518306|184751036|SUPERIORITY||Risk Difference (RD)|3.73|||||TWO_SIDED|95.0|-7.158|12.133|||||95% confidence intervals for risk difference utilized Newcombe estimation method.|||12.133|-7.158|
92432136|NCT04518306|184751037|SUPERIORITY||Risk Difference (RD)|1.43|||||TWO_SIDED|95.0|-8.585|8.916||||||||8.916|-8.585|
92432137|NCT04518306|184751037|SUPERIORITY||Risk Difference (RD)|-1.4|||||TWO_SIDED|95.0|-11.077|5.161||||||||5.161|-11.077|
92432138|NCT04518306|184751038|SUPERIORITY||Risk Difference (RD)|-3.82|||<|0.0001|TWO_SIDED|95.0|-17.664|8.366|||GEE procedure|||||8.366|-17.664|<0.0001
92432139|NCT04518306|184751038|SUPERIORITY||LS Means|5.42|||<|0.0001|TWO_SIDED|95.0|-9.04|17.981|||GEE procedure|||||17.981|-9.040|<0.0001
92432140|NCT03268954|184751039|SUPERIORITY||Hazard Ratio (HR)|0.968|||=|0.557|TWO_SIDED|95.0|0.757|1.238|||Log Rank|P-value comparing EFS between treatment groups was based on the 1-sided Cui-Hung-Wang weighted unstratified log-rank test.|HR:unadjusted stratified Cox proportional hazard regression with stratification(low-blast AML,IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of EFS in combination arm than azacitidine arm.|IPSS-R indicates the Revised International Prognostic Scoring System.||1.238|0.757|=0.557
92432141|NCT03268954|184751040|SUPERIORITY||Hazard Ratio (HR)|0.888|||=|0.152|TWO_SIDED|95.0|0.709|1.113||P-value comparing OS between treatment groups was based on the 1-sided Cui-Hung-Wang weighted unstratified log-rank test.|Log Rank||HR:unadjusted stratified Cox proportional hazard regression with stratification(low-blast AML,IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1: longer survival time in combination arm than azacitidine arm.|Overall Survival (OS)||1.113|0.709|=0.152
92432142|NCT03268954|184751045|SUPERIORITY||Hazard Ratio (HR)|1.037|||=|0.562|TWO_SIDED|95.0|0.66|1.63||P-value comparing time to AML Transformation between treatment groups was based on 1-sided stratified log-rank test stratified by IPSS-R risk groups of very high, high, or intermediate for HR MDS.|Log Rank||HR:unadjusted stratified Cox proportional HazardRegression with stratification(IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of AML transformation in combination arm than azacitidine arm.|Time to AML Transformation in HR MDS Participants||1.630|0.660|=0.562
92432143|NCT03268954|184751045|SUPERIORITY||Hazard Ratio (HR)|1.512|||=|0.603|TWO_SIDED|95.0|0.068|33.773||P-value comparing time to AML Transformation between treatment groups was based on 1-sided stratified log-rank test stratified by IPSS-R risk groups of very high, high, or intermediate for HR CMML.|Log Rank||HR:unadjusted stratified Cox proportional HazardRegression with stratification(IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of AML transformation in combination arm than azacitidine arm.|Time to AML Transformation in HR CMML Participants||33.773|0.068|=0.603
92432144|NCT03268954|184751045|SUPERIORITY||Hazard Ratio (HR)|1.034|||=|0.558|TWO_SIDED|95.0|0.663|1.61||P-value comparing time to AML Transformation between treatment groups was based on 1-sided stratified log-rank test stratified by IPSS-R risk groups of very high, high, or intermediate for HR CMML/MDS.|Log Rank||HR:unadjusted stratified Cox proportional HazardRegression with stratification(IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of AML transformation in combination arm than azacitidine arm.|Time to AML Transformation in HR MDS/CMML Participants||1.610|0.663|=0.558
92432145|NCT03268954|184751046|SUPERIORITY||Absolute Rate Difference|-4.18|||=|0.374|TWO_SIDED|95.0|-13.18|4.83||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Cochran-Mantel-Haenszel|||Number of Participants With Complete Remission (CR) and CR+Complete Remission with Incomplete Blood Count Recovery (CRi)||4.83|-13.18|=0.374
92237475|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|2.758||||0.027|TWO_SIDED|95.0|1.167|7.263||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||7.263|1.167|0.027
92237476|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|1.69||||0.21|TWO_SIDED|95.0|0.753|3.968||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||3.968|0.753|0.210
92432146|NCT03268954|184751051|SUPERIORITY||Absolute Rate Difference|-4.67|||=|0.329|TWO_SIDED|95.0|-13.72|4.39||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test stratified by low-blast AML, Revised International Prognostic Scoring System (IPSS-R) risk groups of very high, high, or intermediate for HR MDS/CMML.|Cochran-Mantel-Haenszel|||Number of Participants with OR||4.39|-13.72|=0.329
92432147|NCT03268954|184751052|SUPERIORITY||Absolute Rate Difference|-0.44|||=|0.891|TWO_SIDED|95.0|-10.03|9.15||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Cochran-Mantel-Haenszel|||Number of Participants with OR2||9.15|-10.03|=0.891
92432148|NCT03268954|184751053|SUPERIORITY||Hazard Ratio (HR)|0.679|||=|0.072|TWO_SIDED|95.0|0.402|1.146|||Log Rank|P-value was based on 1-sided log-rank test stratified by low-blast AML,IPSS-R risk groups of very high,high,or intermediate for HR MDS/CMML.|Hazard ratio was based on an unadjusted stratified Cox proportional hazard regression model with stratification factors (low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML) and treatment as a factor in the model.|Duration of CR||1.146|0.402|=0.072
92432149|NCT03268954|184751054|SUPERIORITY||Hazard Ratio (HR)|0.846|||=|0.373|TWO_SIDED|95.0|0.306|2.339||P-value comparing duration of CR+CRi between treatment groups was based on 1-sided unstratified log-rank.|Log Rank||Hazard ratio was based on an unadjusted unstratified Cox proportional hazard regression model with treatment as a factor in the model.|Duration of Complete Remission + Complete Remission with Incomplete Blood Count Recovery (CRi)||2.339|0.306|=0.373
92432150|NCT03268954|184751055|SUPERIORITY||Hazard Ratio (HR)|0.889|||=|0.32|TWO_SIDED|95.0|0.542|1.458||P-value comparing duration of PR or better response between treatment groups was based on 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||Hazard ratio was based on an unadjusted stratified Cox proportional hazard regression model with stratification factors (low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML) and treatment as a factor in the model.|Duration of Overall Response (OR)||1.458|0.542|=0.320
92432151|NCT03268954|184751056|SUPERIORITY||Hazard Ratio (HR)|0.796|||=|0.151|TWO_SIDED|95.0|0.514|1.231||P-value comparing duration of overall response 2 between treatment groups was based on 1-sided log-rank test stratified by low blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||Hazard ratio was based on an unadjusted stratified Cox proportional hazard regression model with stratification factors (low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML) and treatment as a factor in the model.|Duration of Overall Response 2 (OR2)||1.231|0.514|=0.151
92432152|NCT03268954|184751057|SUPERIORITY||Absolute Rate Difference|3.27|||=|0.573|TWO_SIDED|95.0|-9.02|15.55||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Percentage of Participants With RBC-transfusion Independence||15.55|-9.02|=0.573
92432153|NCT03268954|184751057|SUPERIORITY||Absolute Rate Difference|-3.43|||=|0.477|TWO_SIDED|95.0|-25.84|18.97||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Percentage of Participants With Platelet-transfusion Independence||18.97|-25.84|=0.477
92432154|NCT03268954|184751058|SUPERIORITY||Hazard Ratio (HR)|1.231|||=|0.774|TWO_SIDED|95.0|0.715|2.119||P-value comparing duration of RBC or platelet transfusion between treatment groups was based on 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||HR:unadjusted Cox Proportional Hazard regression;stratification(low-blast AML,IPSS-R risk groups=very high,high,intermediate for HRMDS/CMML),treatment as factor.HR\<1:longer duration of transfusion independence in combination arm than azacitidine arm.|Duration of RBC Transfusion Independence||2.119|0.715|=0.774
92432155|NCT03268954|184751058|SUPERIORITY||Hazard Ratio (HR)|1.533|||=|0.801|TWO_SIDED|95.0|0.567|4.147||P-value comparing duration of platelet transfusion between treatment groups was based on 1-sided log-rank test stratified by low blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||HR:unadjusted Cox Proportional Hazard regression;stratification(low-blast AML,IPSS-R risk groups=very high,high,intermediate for HRMDS/CMML),treatment as factor.HR\<1:longer duration of transfusion independence in combination arm than azacitidine arm.|Duration of Platelet Transfusion Independence||4.147|0.567|=0.801
92432156|NCT03268954|184751058|SUPERIORITY||Hazard Ratio (HR)|0.968|||=|0.45|TWO_SIDED|95.0|0.58|1.614||P-value comparing duration of RBC or platelet transfusion between treatment groups was based on 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||HR:unadjusted Cox Proportional Hazard regression;stratification(low-blast AML,IPSS-R risk groups=very high,high,intermediate for HRMDS/CMML),treatment as factor.HR\<1:longer duration of transfusion independence in combination arm than azacitidine arm.|Duration of Transfusion Independence||1.614|0.580|=0.450
92432157|NCT03268954|184751059|SUPERIORITY||Hazard Ratio (HR)|0.88|||=|0.228|TWO_SIDED|95.0|0.628|1.234||P-value comparing time to first CR or PR or CRi (low-blast AML) between treatment groups was based on 1-sided stratified log-rank test stratified by low-blast AML,IPSS-R risk groups of very high,high,or intermediate for HR MDS/CMML.|Log Rank||Hazard ratio was based on an unadjusted stratified Cox proportional hazard regression model with stratification factors (low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML) and treatment as a factor in the model.|Time to First Complete Remission (CR) or Partial Remission (PR) or Complete Remission with Incomplete Blood Count Recovery (CRi)||1.234|0.628|=0.228
92432158|NCT03268954|184751060|SUPERIORITY||Absolute Rate Difference|-5.46|||=|0.32|TWO_SIDED|95.0|-16.36|5.44||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Number of Participants With HI||5.44|-16.36|=0.320
92432159|NCT03268954|184751061|SUPERIORITY||Rate Difference|2.64|||||TWO_SIDED|95.0|-0.3|5.58||||||Number of Participants With at Least 1 Inpatient Hospital Admissions Related to HR MDS, CMML or Low-blast AML||5.58|-0.30|
92432160|NCT03268954|184751062|SUPERIORITY||Hazard Ratio (HR)|0.858|||=|0.084|TWO_SIDED|95.0|0.689|1.067||P-value was obtained from a stratified 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||Hazard ratio was based on a stratified Cox proportional hazard regression model stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML, with treatment as a factor in the model.|Time to Progressive Disease (PD), Relapse after CR (Low-blast AML), Relapse After CR or PR (HR MDS/CMML), or Death||1.067|0.689|=0.084
92432161|NCT03268954|184751064|SUPERIORITY||Absolute Rate Difference|-2.85|||=|0.683|TWO_SIDED|95.0|-19.44|13.75||P-value for HR MDS/CMML was obtained from a stratified Cochran-Mantel-Haenszel chi-square test|Cochran-Mantel-Haenszel|||OR: HR MDS/CMML Participants||13.75|-19.44|=0.683
92432162|NCT03268954|184751064|SUPERIORITY||Absolute Rate Difference|2.36|||=|0.84|TWO_SIDED|95.0|-20.39|25.12||P-value for Low-blast AML was obtained from an unstratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||ORR: Low-blast AML Participants||25.12|-20.39|=0.840
92432163|NCT03268954|184751065|SUPERIORITY||Hazard Ratio (HR)|0.877|||=|0.24|TWO_SIDED|95.0|0.608|1.263||P-value comparing EFS between treatment groups was based on 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||HR:unadjusted stratified Cox proportional hazard regression with stratification factors (IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of EFS in combination arm than azacitidine arm.|Event-Free Survival in Participants who have TP53 Mutations, 17p Deletions, and/or are Determined to be in an Adverse Cytogenetic Risk Group||1.263|0.608|=0.240
92432164|NCT03268954|184751066|SUPERIORITY||Hazard Ratio (HR)|0.826|||=|0.145|TWO_SIDED|95.0|0.58|1.178||P-value comparing OS between treatment groups was based on 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||HR:unadjusted stratified Cox proportional hazard regression with stratification factors(IPSS-R risk groups of very high,high,intermediate) and treatment as factor in model.HR\<1: longer survival time in combination arm than azacitidine arm.|Overall Survival in Participants who have TP53 Mutations, 17p Deletions, and/or are Determined to be in an Adverse Cytogenetic Risk Group||1.178|0.580|=0.145
92432165|NCT03268954|184751067|SUPERIORITY||Absolute Rate Difference|-5.14|||=|0.261|TWO_SIDED|95.0|-13.95|3.68||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test stratified by IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Cochran-Mantel-Haenszel|||Overall Response for HR MDS/CMML||3.68|-13.95|=0.261
92432166|NCT03268954|184751067|SUPERIORITY||Absolute Rate Difference|22.36|||=|0.026|TWO_SIDED|95.0|3.22|41.49||P-value was obtained from an unstratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Overall Response for Low-blast AML||41.49|3.22|=0.026
92432167|NCT03820986|184751105|SUPERIORITY|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by BRAF mutation positive (Yes vs. No).|Hazard Ratio (HR)|0.81||||0.0176|TWO_SIDED|95.0|0.67|0.98|||Log Rank|One-sided p-value based on log-rank test and stratified by BRAF mutation positive (Yes vs. No).|HR=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|||0.98|0.67|0.0176
92432168|NCT03820986|184751106|SUPERIORITY|HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by BRAF mutation positive (Yes vs. No).|Hazard Ratio (HR)|1.2||||0.9521|TWO_SIDED|95.0|0.97|1.48|||Log Rank|One-sided p-value based on log-rank test and stratified by BRAF mutation positive (Yes vs. No).|HR=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|||1.48|0.97|0.9521
92432169|NCT03820986|184751111|OTHER||Difference in LS means|-3.69||||0.0345|TWO_SIDED|95.0|-7.1|-0.27||No formal hypothesis testing was conducted. P-value is nominal.|cLDA model||Difference in LS means=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|Based on a constrained longitudinal data analysis (cLDA) model with GHS/QoL as the response variable, with covariates for treatment by time interaction, stratification factor BRAF mutation status as covariate. No formal hypothesis testing was conducted. P-value is nominal.||-0.27|-7.10|0.0345
92432170|NCT03820986|184751112|OTHER||Difference in LS means|-5.49||||0.0004|TWO_SIDED|95.0|-8.53|-2.45|||cLDA model|No formal hypothesis testing was conducted. P-value is nominal.|Difference in LS means=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|Based on a cLDA model with PF as the response variable, with covariates for treatment by time interaction, stratification factor BRAF mutation status as covariate. No formal hypothesis testing was conducted. P-value is nominal.||-2.45|-8.53|0.0004
92432171|NCT03820986|184751113|OTHER||Hazard Ratio (HR)|1.58||||0.0001|TWO_SIDED|95.0|1.25|2.0|||Log Rank|No formal hypothesis testing was conducted. P-value is nominal.|HR=Lenvatinib + Pembrolizumab vs. Placebo + Pembrolizumab|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by BRAF mutation status (positive vs wild type or unknown) No formal hypothesis testing was conducted. P-value is nominal.||2.00|1.25|0.0001
92237477|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|2.01||||0.087|TWO_SIDED|95.0|0.923|4.634||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||4.634|0.923|0.087
92237478|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|2.1||||0.148|TWO_SIDED|95.0|0.795|6.157||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||6.157|0.795|0.148
92237479|NCT04003155|184379200|SUPERIORITY||Odds Ratio (OR)|3.262||||0.015|TWO_SIDED|95.0|1.329|9.194||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||9.194|1.329|0.015
92237480|NCT02435173|184379208|SUPERIORITY||Adjusted means difference|-0.24|STANDARD_ERROR_OF_MEAN|0.06||0.0012|TWO_SIDED|95.0|-0.37|-0.11|||ANCOVA|Treatment as a fixed effect and log10 transformed baseline SPD as a covariate.||||-0.11|-0.37|0.0012
92432172|NCT03820986|184751114|OTHER||Hazard Ratio (HR)|1.95||||0.0001|TWO_SIDED|95.0|1.52|2.5|||Log Rank|No formal hypothesis testing was conducted. P-value is nominal.|HR=Lenvatinib + Pembrolizumab vs. Placebo + Pembrolizumab|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by BRAF mutation status (positive vs wild type or unknown). No formal hypothesis testing was conducted. P-value is nominal.||2.50|1.52|.0001
92237481|NCT02435173|184379209|SUPERIORITY||Adjusted means difference|40.13|STANDARD_ERROR_OF_MEAN|5.04|<|0.0001|TWO_SIDED|95.0|28.51|51.75|||ANCOVA|Treatment as a fixed effect and baseline as a covariate.||||51.75|28.51|<0.0001
92237482|NCT04760314|184379248|SUPERIORITY||Risk Difference (RD)|22.6|||<|0.001|TWO_SIDED|95.0|11.6|33.6|||Cochran-Mantel-Haenszel|||||33.6|11.6|<0.001
92237483|NCT04760314|184379248|SUPERIORITY||Risk Difference (RD)|27.3|||<|0.001|TWO_SIDED|95.0|17.5|37.0|||Cochran-Mantel-Haenszel|||||37.0|17.5|<0.001
92432173|NCT01638546|184751125|OTHER||||||||||||||||||The study will be performed as a double-blind, placebo controlled, randomized Phase II in patients with relapsed sensitive or refractory SCLC. Eligible patients will be randomized 1:1 to one of two treatment arms: ABT-888 and temozolomide as the investigational arm, versus placebo and temozolomide as the control arm. The randomization will be stratified by center and by type or relapse (sensitive vs. refractory). The primary objective is to compare the two treatment regimens with respect to efficacy, expressed as Progression Free Survival (PFS) at 4 months post-randomization. PFS will be calculated as proportion of patients alive and without evidence of disease at 4 months after randomization.|||
92432174|NCT02513394|184751138|OTHER||Hazard Ratio (HR)|0.96||||0.65|TWO_SIDED|95.0|0.81|1.14|||Log Rank||This two sided p value was stratified by (neo)adjuvant chemotherapy (yes vs no) and age (\<=50 vs \>50).|||1.14|0.81|0.65
92432175|NCT02513394|184751139|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.82|1.19||||||||1.19|0.82|
92432176|NCT02513394|184751140|OTHER||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.87|1.28||||||||1.28|0.87|
92432177|NCT02513394|184751141|OTHER||Hazard Ratio (HR)|1.32|||||TWO_SIDED|95.0|0.98|1.78||||||||1.78|0.98|
92432178|NCT02513394|184751142|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.57|1.23||||||||1.23|0.57|
92237484|NCT04760314|184379249|SUPERIORITY||Risk Difference (RD)|33.2|||<|0.001|TWO_SIDED|95.0|20.6|45.8|||Cochran-Mantel-Haenszel|||||45.8|20.6|<0.001
92237485|NCT04760314|184379249|SUPERIORITY||Risk Difference (RD)|37.6|||<|0.001|TWO_SIDED|95.0|26.2|49.0|||Cochran-Mantel-Haenszel|||||49.0|26.2|<0.001
92237486|NCT04760314|184379250|SUPERIORITY||LS Mean Difference|-34.5|||<|0.001|TWO_SIDED|95.0|-44.1|-24.9|||ANCOVA|||||-24.9|-44.1|<0.001
92237487|NCT04760314|184379250|SUPERIORITY||LS Mean Difference|-38.99|||<|0.001|TWO_SIDED|95.0|-47.7|-30.3|||ANCOVA|||||-30.3|-47.7|<0.001
92237488|NCT04760314|184379251|SUPERIORITY||Risk Difference (RD)|18.4||||0.003|TWO_SIDED|95.0|6.8|29.9|||Cochran-Mantel-Haenszel|||||29.9|6.8|0.003
92237489|NCT04760314|184379251|SUPERIORITY||Risk Difference (RD)|24.2|||<|0.001|TWO_SIDED|95.0|13.9|34.5|||Cochran-Mantel-Haenszel|||||34.5|13.9|<0.001
92237490|NCT04760314|184379252|SUPERIORITY||Risk Difference (RD)|1.2||||0.404|TWO_SIDED|95.0|-1.2|3.6|||Cochran-Mantel-Haenszel|||||3.6|-1.2|0.404
92432179|NCT00540514|184751143|SUPERIORITY_OR_OTHER_LEGACY||Response Rate Ratio|1.313||||0.005|TWO_SIDED|95.1|1.082|1.593||Statistical significance defined as P-value \< 0.049.|Chi-squared||Response rate ratio = PA/PT. A response rate ratio \> 1 favors the albumin-bound paclitaxel/carboplatin arm of the study.|The null hypothesis is that the albumin-bound paclitaxel/carboplatin regimen response rate (PA) is equal to that of the paclitaxel (Taxol)/carboplatin regimen (PT). Superiority of albumin-bound paclitaxel/carboplatin to paclitaxel/carboplatin will be established if the lower bound of the 95.1% CI of the response rate ratio is \> 1.0.||1.593|1.082|0.005
92432180|NCT00540514|184751144|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.902||||0.214|TWO_SIDED|95.1|0.767|1.06||P-value is based on a stratified log rank test stratified by geographic region (North America/Australia, Eastern Europe, or Asia/Pacific) and histology of primary diagnosis (squamous cell carcinoma, adenocarcinoma, or other carcinoma).|Log Rank||Hazard ratio (albumin-bound paclitaxel/carboplatin to paclitaxel/carboplatin) \<1 favors the albumin-bound paclitaxel/carboplatin group.|||1.060|0.767|0.214
92432181|NCT00540514|184751145|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.922||||0.271|TWO_SIDED|95.1|0.797|1.066||P-value is based on a stratified log rank test stratified by geographic region (North America/Australia, Eastern Europe, or Asia/Pacific) and histology of primary diagnosis (Squamous cell carcinoma, adenocarcinoma, or other carcinoma).|Log Rank||Hazard ratio (albumin-bound paclitaxel/carboplatin to paclitaxel/carboplatin) \<1 favors the albumin-bound paclitaxel/carboplatin group.|||1.066|0.797|0.271
92432182|NCT00540514|184751146|SUPERIORITY_OR_OTHER_LEGACY||Response Rate Ratio|1.074||||0.239|TWO_SIDED|95.0|0.953|1.21|||Chi-squared|||||1.210|0.953|0.239
92432183|NCT00540514|184751147|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.901||||0.551|TWO_SIDED|95.0|0.652|1.244||P-value is based on a stratified log rank test stratified by geographic region (North America/Australia, Eastern Europe, or Asia/Pacific) and histology of primary diagnosis (Squamous cell carcinoma or Non squamous cell carcinoma).|Log Rank||Hazard ratio (albumin-bound paclitaxel/carboplatin to paclitaxel/carboplatin) \<1 favors the albumin-bound paclitaxel/carboplatin group.|||1.244|0.652|0.551
92432184|NCT00540514|184751150|SUPERIORITY_OR_OTHER_LEGACY|||||||0.302||95.0|||||Univariate Cox regression|||SPARC correlation with overall survival for the overall SPARC population.||||0.302
92237491|NCT04760314|184379253|SUPERIORITY||Risk Difference (RD)|1.8||||0.294|TWO_SIDED|95.0|-1.6|5.1|||Cochran-Mantel-Haenszel|||||5.1|-1.6|0.294
92237492|NCT04760314|184379253|SUPERIORITY||Risk Difference (RD)|3.7||||0.138|TWO_SIDED|95.0|-0.5|7.8|||Cochran-Mantel-Haenszel|||||7.8|-0.5|0.138
92432185|NCT00540514|184751151|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036||95.0||||A nonsignificant interaction P-value (ie, p-value ≥ 0.100) indicates the treatment regimen effect was consistent within a prognostic factor.|Regression, Logistic|Logistic regression model with effects for treatment regimen, prognostic factor (histology), and treatment regimen by prognostic factor interaction.||||||0.036
92432186|NCT01651195|184751156|SUPERIORITY|We estimated that, with a power of 85% and at a significance level of 0.05 (Power 0.85, ß=0.14990 and α=0.05), we needed 467 conscripts per group to show a 17% difference between the groups. Each conscript was randomly allocated to the probiotic or the control group according to a computer generated, 8-blocked randomization list.|||||<|0.05|||||||Fisher Exact||||"Result variables were analyzed according to intention to treat (ITT) principle. Missing data was handled by statistic modeling. Data on symptom diaries were calculated as follows: the incidence and duration of individual infection symptoms and respiratory episodes were analyzed between the intervention groups using time to event analysis (cox model for hazard) and duration analysis (gamma regression model). The results are expressed as a hazard ratio (incidence rate ratio) of symptoms and the mean duration of symptoms (days) with 95% confidence intervals or standard deviations. The sums of respiratory and gastrointestinal symptoms were calculated with gamma regression analysis."|||< 0.05
92432187|NCT01651195|184751157|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||< 0.05
92432188|NCT01651195|184751158|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||< 0.05
92432189|NCT01651195|184751159|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||< 0.05
92432190|NCT04617509|184751192|SUPERIORITY|Relative bioavailability for Formulation A (FASTED) versus Formulation B (FASTED). The calculated relative bioavailability is based on Cmax ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric means|1.4514|||||TWO_SIDED|90.0|1.111|1.4514||||||Relative bioavailability (A versus B)||1.4514|1.1110|
92432191|NCT04617509|184751192|SUPERIORITY|Relative bioavailability for Formulation A (FED) versus Formulation A (FASTED). The calculated relative bioavailability is based on Cmax ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric mean|0.5497|||||TWO_SIDED|90.0|0.3977|0.7597||||||Relative bioavailability (A FED versus A FASTED)||0.7597|0.3977|
92432192|NCT04617509|184751193|SUPERIORITY|Relative bioavailability for Formulation A (FASTED) versus Formulation B (FASTED). The calculated relative bioavailability is based on AUC0-inf ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric mean|1.3441|||||TWO_SIDED|90.0|1.0953|1.6495||||||Relative bioavailability (A versus B)||1.6495|1.0953|
92432193|NCT04617509|184751193|SUPERIORITY|Relative bioavailability for Formulation A (FED) versus Formulation A (FASTED). The calculated relative bioavailability is based on AUC0-inf ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric mean|0.7327|||||TWO_SIDED|90.0|0.591|0.9083||||||Relative bioavailability (A FED versus A FASTED)||0.9083|0.5910|
92237493|NCT04760314|184379254|SUPERIORITY||Risk Difference (RD)|9.2||||0.013|TWO_SIDED|95.0|1.8|16.5|||Cochran-Mantel-Haenszel|||||16.5|1.8|0.013
92237494|NCT04760314|184379254|SUPERIORITY||Risk Difference (RD)|16.2||||0.001|TWO_SIDED|95.0|8.1|24.3|||Cochran-Mantel-Haenszel|||||24.3|8.1|0.001
92237495|NCT04760314|184379255|SUPERIORITY||Risk Difference (RD)|20.6||||0.001|TWO_SIDED|95.0|8.7|32.4|||Cochran-Mantel-Haenszel|||||32.4|8.7|0.001
92432194|NCT04617509|184751194|SUPERIORITY|Relative bioavailability for Formulation A (FASTED) versus Formulation B (FASTED). The calculated relative bioavailability is based on AUC0-24h ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric mean|1.371|||||TWO_SIDED|90.0|1.112|1.6904||||||Relative bioavailability (A versus B)||1.6904|1.1120|
92432195|NCT04617509|184751194|SUPERIORITY|Relative bioavailability for Formulation A (FED) versus Formulation A (FASTED). The calculated relative bioavailability is based on AUC0-24h ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric mean|0.7083|||||TWO_SIDED|90.0|0.5728|0.8759||||||Relative bioavailability (A FED versus A FASTED)||0.8759|0.5728|
92432196|NCT00618072|184751207|SUPERIORITY_OR_OTHER|||||||0.181|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.181
92432197|NCT00618072|184751207|SUPERIORITY_OR_OTHER|||||||0.026|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.026
92432198|NCT00618072|184751207|SUPERIORITY_OR_OTHER|||||||0.063|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.063
92432199|NCT00618072|184751208|SUPERIORITY_OR_OTHER|||||||0.049|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.049
92432200|NCT00618072|184751208|SUPERIORITY_OR_OTHER|||||||0.002|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.002
92171886|NCT03743636|184233358|SUPERIORITY|Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|Mean Difference (Final Values)|25.25||||0.0153|ONE_SIDED|90.0|10.43|||The a priori statistical analysis plan defined a one-sided P value of \< 0.10 to define statistical significance.|Mixed Models Analysis|||Mixed models for repeated measures were used to compare 3-month change in 6MW distance between the NR/resveratrol vs placebo groups and between the NR alone vs placebo groups using baseline, 3-month, and 6-month values, adjusted for age, sex, race, and baseline 6MW.|||10.43|0.0153
92237496|NCT04760314|184379255|SUPERIORITY||Risk Difference (RD)|29.2|||<|0.001|TWO_SIDED|95.0|17.9|40.4|||Cochran-Mantel-Haenszel|||||40.4|17.9|<0.001
92237497|NCT05057988|184379272|OTHER|paired T test|Mean Difference (Net)|1.04|STANDARD_DEVIATION|1.8|<|0.001|TWO_SIDED|95.0|0.53|1.55|||t-test, 2 sided|||||1.55|0.53|<.001
92237498|NCT05057988|184379273|OTHER|Paired T test|Mean Difference (Net)|0.98|STANDARD_DEVIATION|8.17||0.208|TWO_SIDED|95.0|-1.42|3.37|||t-test, 2 sided|||||3.37|-1.42|.208
92237499|NCT05057988|184379274|OTHER|Paired T test|Mean Difference (Net)|0.86|STANDARD_DEVIATION|1.2|<|0.001|TWO_SIDED|95.0|0.52|1.2|||t-test, 2 sided|||||1.20|0.52|<.001
92237500|NCT05057988|184379275|OTHER|Paired t test|Mean Difference (Net)|0.81|STANDARD_DEVIATION|5.65||0.328|TWO_SIDED|95.0|-0.84|2.47|||t-test, 1 sided|||||2.47|-.84|.328
92237501|NCT05057988|184379276|OTHER|Paired T test|Mean Difference (Final Values)|2.71|STANDARD_DEVIATION|4.95|<|0.001|TWO_SIDED|95.0|1.26|4.16|||t-test, 1 sided|||||4.16|1.26|<.001
92432201|NCT00618072|184751208|SUPERIORITY_OR_OTHER|||||||0.032|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.032
92432202|NCT00618072|184751209|SUPERIORITY_OR_OTHER|||||||0.142|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.142
92432203|NCT00618072|184751209|SUPERIORITY_OR_OTHER|||||||0.054|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.054
92432204|NCT00618072|184751209|SUPERIORITY_OR_OTHER|||||||0.013|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.013
92432205|NCT00618072|184751210|SUPERIORITY_OR_OTHER|||||||0.052|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.052
92432206|NCT00618072|184751210|SUPERIORITY_OR_OTHER|||||||0.143|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.143
92432207|NCT00618072|184751210|SUPERIORITY_OR_OTHER|||||||0.005|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.005
92432208|NCT00618072|184751211|SUPERIORITY_OR_OTHER|||||||0.265|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.265
92432209|NCT00618072|184751211|SUPERIORITY_OR_OTHER|||||||0.001|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.001
92432210|NCT00618072|184751211|SUPERIORITY_OR_OTHER|||||||0.389|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.389
92432211|NCT00618072|184751212|SUPERIORITY_OR_OTHER|||||||0.025|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.025
92432212|NCT00618072|184751212|SUPERIORITY_OR_OTHER|||||||0.162|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.162
92432213|NCT00618072|184751212|SUPERIORITY_OR_OTHER|||||||0.562|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.562
92237502|NCT05057988|184379277|OTHER|Paired T test|Mean Difference (Final Values)|0.65|STANDARD_DEVIATION|6.38||0.486|TWO_SIDED|95.0|-1.22|2.53|||t-test, 1 sided|||||2.53|-1.22|.486
92432214|NCT00618072|184751213|SUPERIORITY_OR_OTHER|||||||0.016|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.016
92432215|NCT00618072|184751213|SUPERIORITY_OR_OTHER|||||||0.03|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.03
92432216|NCT00618072|184751213|SUPERIORITY_OR_OTHER|||||||0.15|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.150
92432217|NCT00618072|184751214|SUPERIORITY_OR_OTHER|||||||0.648|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.648
92432218|NCT00618072|184751214|SUPERIORITY_OR_OTHER|||||||0.094|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.094
92432219|NCT00618072|184751214|SUPERIORITY_OR_OTHER|||||||0.054|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.054
92432220|NCT00618072|184751215|SUPERIORITY_OR_OTHER|||||||0.092|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.092
92432221|NCT00618072|184751215|SUPERIORITY_OR_OTHER|||||||0.73|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.730
92432222|NCT00618072|184751215|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||<0.001
92432223|NCT05048784|184751230|OTHER|Statistical analysis was conducted to investigate the bioequivalence of treatment A (test 1) to treatment B (reference) for Cmax.|Ratio of geometric least squares means|1.009|||||TWO_SIDED|90.0|0.98|1.04|||||The geometric least squares mean ratios and confidence intervals (Cls) were obtained by taking the exponential of the corresponding differences and Cls on the natural-log (In) scale.|||1.040|0.980|
92432224|NCT05048784|184751231|OTHER|Statistical analysis was conducted to investigate the bioequivalence of treatment A (test 1) to treatment B (reference) for AUClast.|Ratio of geometric least squares means|1.01|||||TWO_SIDED|90.0|0.967|1.055|||||The geometric least squares mean ratios and Cls were obtained by taking the exponential of the corresponding differences and Cls on the In scale.|||1.055|0.967|
92432225|NCT05048784|184751232|OTHER|Statistical analysis was conducted to investigate the bioequivalence of treatment A (test 1) to treatment B (reference) for AUCinf.|Ratio of geometric least squares means|1.02|||||TWO_SIDED|90.0|0.977|1.065|||||The geometric least squares mean ratios and Cls were obtained by taking the exponential of the corresponding differences and Cls on the In scale.|||1.065|0.977|
92432226|NCT05048784|184751234|OTHER|Statistical analysis was conducted to investigate the food effect of treatment C (test 2) to treatment A (test 1) for Cmax.|Ratio of geometric least squares means|1.001|||||TWO_SIDED|90.0|0.836|1.199|||||The geometric least squares mean ratios and Cls were obtained by taking the exponential of the corresponding differences and Cls on the In scale.|||1.199|0.836|
92432227|NCT05048784|184751235|OTHER|Statistical analysis was conducted to investigate the food effect of treatment C (test 2) to treatment A (test 1) for AUClast.|Ratio of geometric least squares means|1.447|||||TWO_SIDED|90.0|1.2|1.745|||||The geometric least squares mean ratios and Cls were obtained by taking the exponential of the corresponding differences and Cls on the In scale.|||1.745|1.200|
92432228|NCT05048784|184751236|OTHER|Statistical analysis was conducted to investigate the food effect of treatment C (test 2) to treatment A (test 1) for AUCinf.|Ratio of geometric least squares means|1.484|||||TWO_SIDED|90.0|1.236|1.783|||||The geometric least squares mean ratios and Cls were obtained by taking the exponential of the corresponding differences and Cls on the In scale.|||1.783|1.236|
92432229|NCT02270957|184751302|SUPERIORITY||||||>|0.999|||||||Chi-squared|||||||>0.999
92432230|NCT02270957|184751303|SUPERIORITY|||||||0.587|||||||Chi-squared|||||||0.587
92432231|NCT02270957|184751304|SUPERIORITY|||||||0.587|TWO_SIDED|95.0||||None of the endpoints were met in any pre-specified unbiased Full Analysis Set analysis|Chi-squared|||||||0.587
92432232|NCT02535312|184751319|OTHER|||||||0.08|||||||Log Rank|||||||0.08
92432233|NCT02535312|184751320|OTHER|||||||0.15|||||||Log Rank|||||||0.15
92432234|NCT01539538|184751321|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of - 15% for lower boundary of 95% confidence interval|difference in proportion|12.9|||<|0.001|TWO_SIDED|95.0|3.69|22.11|||one-sided, z-test|||||22.11|3.69|<0.001
92432235|NCT01539538|184751321|SUPERIORITY_OR_OTHER||Difference in proportion|12.9||||0.007|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.007
92432236|NCT03897465|184751322|NON_INFERIORITY|Pre-specified non-inferiority margin was 10%|Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-10.0||Upper Limit= +Infinity|||||Descriptive analysis of the primary endpoint was provided on per protocol population. The overall difference LomatuellPro (LP) - UrgoTul (UT) of the % of patients meeting main efficacy criterion was calculated with 95% bilateral confidence interval (CI). If lower limit of the 95% CI did not exceed the -10% value of pre-specified non-inferiority margin, non-inferiority had to be accepted. As a sensitivity analysis, the same analysis was performed on mITT (modified Intention-to-treat) population.|||-10|
92432237|NCT02042183|184751391|OTHER|||||||0.1609||||||Cochran-Mantel-Haenszel (CMH) test stratified by baseline spontaneous bowel movement (SBM) frequency (\<1.5 or ≥1.5)|Cochran-Mantel-Haenszel|||||||0.1609
92432238|NCT00378378|184751405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.258||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for the change from basline||||0.258
92237503|NCT05057988|184379278|OTHER|Paired T test|Mean Difference (Final Values)|-0.24|STANDARD_DEVIATION|7.57||0.832|TWO_SIDED|95.0|-2.46|1.99|||t-test, 2 sided|||||1.99|-2.46|.832
92432239|NCT00378378|184751405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.735||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for the change from baseline.||||0.735
92432240|NCT00378378|184751405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.194||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for the change from baseline.||||0.194
92432241|NCT00378378|184751406|SUPERIORITY_OR_OTHER_LEGACY|||||||0.361||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for baseline to endpoint||||0.361
92432242|NCT00378378|184751406|SUPERIORITY_OR_OTHER_LEGACY|||||||0.603||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for baseline to endpoint.||||0.603
92432243|NCT00378378|184751406|SUPERIORITY_OR_OTHER_LEGACY|||||||0.193||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for baseline to endpoint.||||0.193
92432244|NCT02321800|184751416|NON_INFERIORITY|The margin of noninferiority was 20%. Noninferiority was concluded if the lower bound of a 2-sided 95% CI for the difference in response rates between the 2 treatment groups was greater than -20%. If the noninferiority inference based on the 20% margin was concluded successfully, noninferiority inference based on the 15% margin was performed.|Treatment Difference|18.58|||||TWO_SIDED|95.0|8.23|28.92||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||28.92|8.23|
92432245|NCT02321800|184751417|OTHER||Treatment Difference|0.66|||||TWO_SIDED|95.0|-6.48|7.79||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||7.79|-6.48|
92432246|NCT02321800|184751418|OTHER||Treatment Difference|0.72|||||TWO_SIDED|95.0|-3.48|4.92||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||4.92|-3.48|
92432247|NCT02321800|184751419|OTHER||Treatment Difference|15.31|||||TWO_SIDED|95.0|4.69|25.92||||||||25.92|4.69|
92432248|NCT02321800|184751420|OTHER||Treatment Difference|17.25|||||TWO_SIDED|95.0|6.92|27.58||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||27.58|6.92|
92432249|NCT02321800|184751421|OTHER||Treatment Difference|1.28|||||TWO_SIDED|95.0|-4.83|7.39||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||7.39|-4.83|
92432250|NCT02321800|184751422|OTHER||Treatment Difference|1.1|||||TWO_SIDED|95.0|-3.04|5.25||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||5.25|-3.04|
92432251|NCT02321800|184751423|OTHER||Treatment Difference|13.92|||||TWO_SIDED|95.0|3.21|24.63||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||24.63|3.21|
92432252|NCT02321800|184751428|OTHER||Treatment Difference|2.39|||||TWO_SIDED|95.0|-4.66|9.44||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||9.44|-4.66|
92432253|NCT02321800|184751429|OTHER||Treatment Difference|-0.26|||||TWO_SIDED|95.0|-6.57|6.05||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||6.05|-6.57|
92432254|NCT02321800|184751430|OTHER||Treatment Difference|-1.07|||||TWO_SIDED|95.0|-3.42|1.29||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||1.29|-3.42|
92432255|NCT02321800|184751431|OTHER||Treatment Difference|9.02|||||TWO_SIDED|95.0|-0.37|18.41||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||18.41|-0.37|
92432256|NCT01115101|184751523|NON_INFERIORITY_OR_EQUIVALENCE|VAS score at 24h were defined as primary endpoint because of the expectation of the maximal effect at this time. Testing for differences of continuous variables between the study groups at baseline was accomplished by the 2-sample t test for independent samples or the Mann-Whitney U test, as appropriate.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.05|<|0.05||95.0|||||Chi-squared|Test selection was based on evaluating the variables for normal distribution employing the Kolmogorov-Smirnov test.||"The sample size of n=120 was computed to detect a difference in VAS score at 24h of 1.2 (30% reduction) at a power of 80%, a two-sided significance level of 0.05.~Because measurements were made several times on the same patients within in two independent groups, GLM Repeated Measurement procedure was applied to test null hypotheses about the effects of both the between-subject factor (study group) and the within-subject factor (time)."||||<0.05
92432257|NCT00769392|184751595|OTHER|||||||0.28|||||||single factor analysis of variance|||A comparison of injection discomfort using mean pain scores for all 4 anesthesia intervention agents used in this study.||||0.28
92432258|NCT00769392|184751596|OTHER|||||||0.17|||||||single factor analysis of variance|||A comparison of discomfort of all 4 anesthesia intervention agents used in this study using mean pain scores.||||0.17
92432259|NCT02296320|184751597|SUPERIORITY||Relative risk reduction|31.9||||0.166|TWO_SIDED|90.0|-7.5|56.8|||Poisson regression with robust variance|||The key efficacy analyses were based on 5000 mg MEDI4893 and placebo. Participants who received 2000 mg MEDI4893 were summarized descriptively.||56.8|-7.5|0.166
92432260|NCT01697566|184751649|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||Body Weight||||0.006
92237504|NCT05057988|184379279|OTHER|Paired T test|Mean Difference (Net)|-0.43|STANDARD_DEVIATION|3.06||0.34|TWO_SIDED|95.0|-1.33|0.47|||t-test, 2 sided|||||0.47|-1.33|.340
92432261|NCT01697566|184751649|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Fat Mass||||<0.001
92432262|NCT01697566|184751651|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||||||0.019
92237505|NCT05057988|184379281|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.31||0.37|TWO_SIDED|95.0|-0.34|0.89|||t-test, 2 sided|paired sample t test||paired sample t test||0.89|-0.34|0.370
92432263|NCT01930123|184751653|OTHER||Mean Difference (Final Values)|6.26|STANDARD_DEVIATION|9.98||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.01
92432264|NCT01930123|184751654|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Mild fibrosis vs. advanced fibrosis||||0.006
92432265|NCT01930123|184751655|OTHER||Median Difference (Final Values)|56.7|STANDARD_DEVIATION|2.6||0.09|TWO_SIDED||||||t-test, 1 sided|||||||0.09
92432266|NCT01447433|184751656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.439|STANDARD_ERROR_OF_MEAN|0.56||0.441|TWO_SIDED|95.0|-0.7|1.58|||t-test, 2 sided|||||1.58|-0.70|0.441
92432267|NCT01447433|184751657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.88|STANDARD_ERROR_OF_MEAN|0.41||0.038|TWO_SIDED|95.0|0.05|1.7|||t-test, 2 sided|||Body Fat Mass||1.70|0.05|0.038
92432268|NCT01447433|184751657|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.28||0.082|TWO_SIDED|95.0|-1.06|0.07|||t-test, 2 sided|||Body Lean Mass||0.07|-1.06|0.082
92432269|NCT01447433|184751657|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.07||0.018|TWO_SIDED|95.0|0.03|0.32|||t-test, 2 sided|||Visceral Fat Mass||0.32|0.03|0.018
92432270|NCT01447433|184751658|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|0.49||0.031|TWO_SIDED|95.0|0.1|2.09|||t-test, 2 sided|||||2.09|0.10|0.031
92432271|NCT01447433|184751659|SUPERIORITY_OR_OTHER||Median Difference (Net)|5.72|STANDARD_ERROR_OF_MEAN|2.25||0.016|TWO_SIDED|95.0|1.15|10.29|||t-test, 2 sided|||||10.29|1.15|0.016
92432272|NCT01447433|184751660|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.14|STANDARD_ERROR_OF_MEAN|1.7||0.508|TWO_SIDED|95.0|-2.31|4.58|||t-test, 2 sided|||Waist Circumference||4.58|-2.31|0.508
92432273|NCT01447433|184751660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.22|STANDARD_ERROR_OF_MEAN|2.07||0.56|TWO_SIDED|95.0|-5.42|2.98|||t-test, 2 sided|||Abdominal Circumference||2.98|-5.42|0.560
92237506|NCT05057988|184379281|OTHER|Paired T test|Mean Difference (Net)|0.28|STANDARD_DEVIATION|2.09||0.37|TWO_SIDED|95.0|-0.34|0.89|||t-test, 2 sided|||||.89|-.34|.370
92432274|NCT01447433|184751660|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.98|STANDARD_ERROR_OF_MEAN|0.85||0.255|TWO_SIDED|95.0|-0.74|2.7|||t-test, 2 sided|||Hip Circumference||2.70|-0.74|0.255
92432275|NCT01447433|184751661|SUPERIORITY_OR_OTHER||Median Difference (Net)|-3.8|STANDARD_ERROR_OF_MEAN|4.5||0.404|TWO_SIDED|95.0|-12.9|5.3|||t-test, 2 sided|||Systolic Blood Pressure||5.3|-12.9|0.404
92432276|NCT01447433|184751661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.94|STANDARD_ERROR_OF_MEAN|3.18||0.768|TWO_SIDED|95.0|-5.52|7.41|||t-test, 2 sided|||Diastolic Blood Pressure||7.41|-5.52|0.768
92237507|NCT00479466|184379308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.6|||<|0.001|TWO_SIDED|95.0|-44.0|-17.3|||ANCOVA|||||-17.3|-44.0|<0.001
92237508|NCT00479466|184379308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.6|||<|0.001|TWO_SIDED|95.0|-59.7|-33.4|||ANCOVA|||||-33.4|-59.7|<0.001
92237509|NCT00479466|184379308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.1|||<|0.001|TWO_SIDED|95.0|-64.3|-38.0|||ANCOVA|||||-38.0|-64.3|<0.001
92432277|NCT01447433|184751662|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.565|TWO_SIDED|95.0|-0.36|0.2|||t-test, 2 sided|||TC||0.20|-0.36|0.565
92432278|NCT01447433|184751662|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.15||0.636|TWO_SIDED|95.0|-0.24|0.39|||t-test, 2 sided|||TG||0.39|-0.24|0.636
92432279|NCT01447433|184751662|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.16||0.112|TWO_SIDED|95.0|-0.58|0.06|||t-test, 2 sided|||HDL||0.06|-0.58|0.112
92432280|NCT01447433|184751662|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.15||0.647|TWO_SIDED|95.0|-0.11|0.05|||t-test, 2 sided|||LDL||0.05|-0.11|0.647
92432281|NCT01447433|184751663|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.11||0.26|TWO_SIDED|95.0|-0.1|0.35|||t-test, 2 sided|||||0.35|-0.10|0.260
92432282|NCT01447433|184751664|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.87|STANDARD_ERROR_OF_MEAN|1.63||0.598|TWO_SIDED|95.0|-2.44|4.17|||t-test, 2 sided|||||4.17|-2.44|0.598
92432283|NCT01447433|184751665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|98.5|STANDARD_ERROR_OF_MEAN|89.0||0.275|TWO_SIDED|95.0|-81.6|278.7|||t-test, 2 sided|||||278.7|-81.6|0.275
92432284|NCT02899793|184751666|SUPERIORITY|||||||0.024|||||||Fisher Exact|||Subgroup difference in ORRs||||0.024
92432285|NCT00729651|184751674|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.02|||<|0.0001||95.0|0.0|0.08|||Cochran-Mantel-Haenszel|Primary efficacy endpoint was analyzed by a Cochran-Mantel-Haenszel test with baseline vitamin D level as covariate.|Mantel-Haenszel estimator of the common odds ratio was calculated by using Cochran-Mantel-Haenszel test for subjects' proportions with vitamin D deficiency changes at 16 weeks (visit 4) from baseline (visit 1) between treatment groups.|||0.08|0.00|<0.0001
92237510|NCT00479466|184379308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-61.2|||<|0.001|TWO_SIDED|95.0|-74.6|-47.8|||ANCOVA|||||-47.8|-74.6|<0.001
92237511|NCT00479466|184379308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.5|||<|0.001|TWO_SIDED|95.0|-48.6|-22.4|||ANCOVA|||||-22.4|-48.6|<0.001
92237512|NCT00479466|184379309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|||<|0.001|TWO_SIDED|95.0|-1.53|-0.76|||ANCOVA|||||-0.76|-1.53|<0.001
92432286|NCT00729651|184751675|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0091||95.0|||||ANCOVA|Least squares mean is mean of serum PTH percentage changes adjusted serum PTH level at baseline.||||||0.0091
92237513|NCT00479466|184379309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53|||<|0.001|TWO_SIDED|95.0|-1.91|-1.15|||ANCOVA|||||-1.15|-1.91|<0.001
92432287|NCT00729651|184751676|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.02|||<|0.0001||95.0|0.01|0.04|||Cochran-Mantel-Haenszel|It was analyzed by a Cochran-Mantel-Haenszel test with baseline vitamin D level as covariate.|Mantel-Haenszel estimator of the common odds ratio was calculated by using Cochran-Mantel-Haenszel test for subjects' proportions with vitamin D deficiency changes at 16 weeks (visit 4) from baseline (visit 1) between treatment groups.|||0.04|0.01|<0.0001
92432288|NCT03310021|184751678|SUPERIORITY||Hodges lehman Location shift|-65.5||||0.0275|TWO_SIDED|95.0|-78.0|-58.0|||2-sided Wilcoxon Rank Sum|||||-58.00|-78.00|0.0275
92432289|NCT03310021|184751678|SUPERIORITY||Hodges lehman Location shift|-61.0||||0.025|TWO_SIDED|95.0|-65.0|-44.0|||2-sided Wilcoxon Rank Sum|||||-44.00|-65.00|0.025
92432290|NCT03310021|184751678|SUPERIORITY||Hodges lehman Location shift|-32.5||||0.0136|TWO_SIDED|95.0|-47.0|-9.0|||2-sided Wilcoxon Rank Sum|||||-9.00|-47.00|0.0136
92432291|NCT03310021|184751678|SUPERIORITY||Hodges lehman Location shift|-36.5||||0.0136|TWO_SIDED|95.0|-62.0|-9.0|||2-sided Wilcoxon Rank Sum|||||-9.00|-62.00|0.0136
92237514|NCT00479466|184379309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|||<|0.001|TWO_SIDED|95.0|-2.07|-1.31|||ANCOVA|||||-1.31|-2.07|<0.001
92237515|NCT00479466|184379309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|||<|0.001|TWO_SIDED|95.0|-2.45|-1.68|||ANCOVA|||||-1.68|-2.45|<0.001
92237516|NCT00479466|184379309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32|||<|0.001|TWO_SIDED|95.0|-1.7|-0.95|||ANCOVA|||||-0.95|-1.70|<0.001
92432292|NCT03310021|184751678|SUPERIORITY||Hodges lehman Location shift|-59.0||||0.025|TWO_SIDED|95.0|-70.0|-38.0|||2-sided Wilcoxon Rank Sum|||||-38.00|-70.00|0.025
92432293|NCT03310021|184751678|SUPERIORITY||Hodges lehman Location shift|-66.0||||0.0119|TWO_SIDED|95.0|-68.0|-61.0|||2-sided Wilcoxon Rank Sum|||||-61.00|-68.00|0.0119
92432294|NCT03310021|184751678|SUPERIORITY||Hodges lehman Location shift|-15.5||||0.2667|TWO_SIDED|95.0|-38.0|17.0|||2-sided Wilcoxon Rank Sum|||||17.00|-38.00|0.2667
92237517|NCT00479466|184379310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-56.8|||<|0.001|TWO_SIDED|95.0|-79.4|-34.3|||ANCOVA|||||-34.3|-79.4|<0.001
92237518|NCT00479466|184379310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-70.0|||<|0.001|TWO_SIDED|95.0|-91.8|-48.2|||ANCOVA|||||-48.2|-91.8|<0.001
92237519|NCT00479466|184379310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-87.4|||<|0.001|TWO_SIDED|95.0|-109.4|-65.3|||ANCOVA|||||-65.3|-109.4|<0.001
92237520|NCT00479466|184379310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-101.6|||<|0.001|TWO_SIDED|95.0|-124.2|-79.1|||ANCOVA|||||-79.1|-124.2|<0.001
92237521|NCT00479466|184379310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.8|||<|0.001|TWO_SIDED|95.0|-82.7|-38.8|||ANCOVA|||||-38.8|-82.7|<0.001
92237522|NCT03626415|184379313|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Mean|94.4|||||TWO_SIDED|90.0|62.96|141.55|||ANOVA|||Mild Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||141.55|62.96|
92432295|NCT03310021|184751678|SUPERIORITY||Hodges lehman Location shift|-68.0||||0.0238|TWO_SIDED|95.0|-74.0|-59.0|||2-sided Wilcoxon Rank Sum|||||-59.00|-74.00|0.0238
92432296|NCT03310021|184751678|SUPERIORITY||Hodges lehman Location shift|-56.5||||0.0007|TWO_SIDED|95.0|-65.0|-39.0|||2-sided Wilcoxon Rank Sum|||||-39.00|-65.00|0.0007
92432297|NCT03310021|184751678|SUPERIORITY||Hodges lehman Location shift|-35.0||||0.0121|TWO_SIDED|95.0|-53.0|-24.0|||2-sided Wilcoxon Rank Sum|||||-24.00|-53.00|0.0121
92432298|NCT03310021|184751679|SUPERIORITY||Hodges lehman Location shift|-80.0||||0.0256|TWO_SIDED|95.0|-83.0|-77.0|||2-sided Wilcoxon Rank Sum|||||-77.00|-83.00|0.0256
92432299|NCT03310021|184751679|SUPERIORITY||Hodges lehman Location shift|-79.5||||0.025|TWO_SIDED|95.0|-97.0|-67.0|||2-sided Wilcoxon Rank Sum|||||-67.00|-97.00|0.025
92432300|NCT03310021|184751679|SUPERIORITY||Hodges lehman Location shift|-37.0||||0.074|TWO_SIDED|95.0|-66.0|5.0|||2-sided Wilcoxon Rank Sum|||||5.00|-66.00|0.074
92432301|NCT03310021|184751679|SUPERIORITY||Hodges lehman Location shift|-10.5||||0.1066|TWO_SIDED|95.0|-59.0|10.0|||2-sided Wilcoxon Rank Sum|||||10.00|-59.00|0.1066
92432302|NCT03310021|184751679|SUPERIORITY||Hodges lehman Location shift|-84.0||||0.0219|TWO_SIDED|95.0|-87.0|-71.0|||2-sided Wilcoxon Rank Sum|||||-71.00|-87.00|0.0219
92432303|NCT03310021|184751679|SUPERIORITY||Hodges lehman Location shift|-78.0||||0.0262|TWO_SIDED|95.0|-83.0|-74.0|||2-sided Wilcoxon Rank Sum|||||-74.0|-83.00|0.0262
92432304|NCT03310021|184751679|SUPERIORITY||Hodges lehman Location shift|-50.0||||0.0412|TWO_SIDED|95.0|-65.0|0.0|||2-sided Wilcoxon Rank Sum|||||0.00|-65.00|0.0412
92432305|NCT03310021|184751679|SUPERIORITY||Hodges lehman Location shift|-89.5||||0.0269|TWO_SIDED|95.0|-93.0|-77.0|||2-sided Wilcoxon Rank Sum|||||-77.00|-93.00|0.0269
92432306|NCT03310021|184751679|SUPERIORITY||Hodges lehman Location shift|-84.0||||0.0026|TWO_SIDED|95.0|-86.0|-69.0|||2-sided Wilcoxon Rank Sum|||||-69.00|-86.00|0.0026
92432307|NCT03310021|184751679|SUPERIORITY||Hodges lehman Location shift|-65.0||||0.0181|TWO_SIDED|95.0|-76.0|-57.0|||2-sided Wilcoxon Rank Sum|||||-57.00|-76.00|0.0181
92432308|NCT03310021|184751680|SUPERIORITY||Hodges lehman Location shift|-81.06||||0.0282|TWO_SIDED|95.0|-92.99|-71.96|||2-sided Wilcoxon Rank Sum|||||-71.96|-92.99|0.0282
92432309|NCT03310021|184751680|SUPERIORITY||Hodges lehman Location shift|-69.15||||0.0282|TWO_SIDED|95.0|-96.91|-48.64|||2-sided Wilcoxon Rank Sum|||||-48.64|-96.91|0.0282
92432310|NCT03310021|184751680|SUPERIORITY||Hodges lehman Location shift|-57.39||||0.0085|TWO_SIDED|95.0|-72.07|-40.03|||2-sided Wilcoxon Rank Sum|||||-40.03|-72.07|0.0085
92432311|NCT03310021|184751680|SUPERIORITY||Hodges lehman Location shift|-54.96||||0.0085|TWO_SIDED|95.0|-80.42|-25.5|||2-sided Wilcoxon Rank Sum|||||-25.50|-80.42|0.0085
92237523|NCT03626415|184379313|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adusted Geometric Means|105.53|||||TWO_SIDED|90.0|70.38|158.24|||ANOVA|||Moderate Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||158.24|70.38|
92432312|NCT03310021|184751680|SUPERIORITY||Hodges lehman Location shift|-100.25||||0.0282|TWO_SIDED|95.0|-133.08|-84.48|||2-sided Wilcoxon Rank Sum|||||-84.48|-133.08|0.0282
92432313|NCT03310021|184751680|SUPERIORITY||Hodges lehman Location shift|-79.87||||0.0282|TWO_SIDED|95.0|-86.36|-65.74|||2-sided Wilcoxon Rank Sum|||||-65.74|-86.36|0.0282
92432314|NCT03310021|184751680|SUPERIORITY||Hodges lehman Location shift|-65.02||||0.0085|TWO_SIDED|95.0|-89.54|-39.17|||2-sided Wilcoxon Rank Sum|||||-39.17|-89.54|0.0085
92432315|NCT03310021|184751680|SUPERIORITY||Hodges lehman Location shift|-91.29||||0.0282|TWO_SIDED|95.0|-128.88|-60.83|||2-sided Wilcoxon Rank Sum|||||-60.83|-128.88|0.0282
92432316|NCT03310021|184751680|SUPERIORITY||Hodges lehman Location shift|-81.49||||0.0034|TWO_SIDED|95.0|-91.05|-65.96|||2-sided Wilcoxon Rank Sum|||||-65.96|-91.05|0.0034
92432317|NCT03310021|184751680|SUPERIORITY||Hodges lehman Location shift|-58.47||||0.0189|TWO_SIDED|95.0|-110.86|-46.12|||2-sided Wilcoxon Rank Sum|||||-46.12|-110.86|0.0189
92432318|NCT03310021|184751681|SUPERIORITY||Hodges lehman Location shift|-59.39||||0.0282|TWO_SIDED|95.0|-66.48|-52.62|||2-sided Wilcoxon Rank Sum|||||-52.62|-66.48|0.0282
92432319|NCT03310021|184751681|SUPERIORITY||Hodges lehman Location shift|-59.26||||0.0282|TWO_SIDED|95.0|-70.34|-26.94|||2-sided Wilcoxon Rank Sum|||||-26.94|-70.34|0.0282
92432320|NCT03310021|184751681|SUPERIORITY||Hodges lehman Location shift|-36.76||||0.0085|TWO_SIDED|95.0|-46.14|-29.76|||2-sided Wilcoxon Rank Sum|||||-29.76|-46.14|0.0085
92432321|NCT03310021|184751681|SUPERIORITY||Hodges lehman Location shift|-36.82||||0.0085|TWO_SIDED|95.0|-55.81|-20.46|||2-sided Wilcoxon Rank Sum|||||-20.46|-55.81|0.0085
92432322|NCT03310021|184751681|SUPERIORITY||Hodges lehman Location shift|-61.67||||0.0282|TWO_SIDED|95.0|-75.82|-43.78|||2-sided Wilcoxon Rank Sum|||||-43.78|-75.82|0.0282
92237524|NCT03626415|184379314|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Means|133.33|||||TWO_SIDED|90.0|86.17|206.28|||ANOVA|||Mild Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||206.28|86.17|
92237525|NCT03626415|184379314|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Mean|153.99|||||TWO_SIDED|90.0|99.52|238.25|||ANOVA|||Moderate Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||238.25|99.52|
92237526|NCT03626415|184379315|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Means|75.94|||||TWO_SIDED|90.0|57.39|100.47|||ANOVA|||Mild Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||100.47|57.39|
92432323|NCT03310021|184751681|SUPERIORITY||Hodges lehman Location shift|-67.63||||0.0282|TWO_SIDED|95.0|-77.4|-61.99|||2-sided Wilcoxon Rank Sum|||||-61.99|-77.40|0.0282
92432324|NCT03310021|184751681|SUPERIORITY||Hodges lehman Location shift|-40.33||||0.0085|TWO_SIDED|95.0|-59.77|-11.17|||2-sided Wilcoxon Rank Sum|||||-11.17|-59.77|0.0085
92432325|NCT03310021|184751681|SUPERIORITY||Hodges lehman Location shift|-59.18||||0.0282|TWO_SIDED|95.0|-101.02|-48.14|||2-sided Wilcoxon Rank Sum|||||-48.14|-101.02|0.0282
92432326|NCT03310021|184751681|SUPERIORITY||Hodges lehman Location shift|-54.63||||0.0027|TWO_SIDED|95.0|-59.14|-41.19|||2-sided Wilcoxon Rank Sum|||||-41.19|-59.14|0.0027
92432327|NCT03310021|184751681|SUPERIORITY||Hodges lehman Location shift|-38.14||||0.0189|TWO_SIDED|95.0|-65.78|-15.37|||2-sided Wilcoxon Rank Sum|||||-15.37|-65.78|0.0189
92432328|NCT03310021|184751682|SUPERIORITY||Hodges lehman Location shift|965.09||||0.0282|TWO_SIDED|95.0|474.48|1377.35|||2-sided Wilcoxon Rank Sum|||||1377.35|474.48|0.0282
92432329|NCT03310021|184751682|SUPERIORITY||Hodges lehman Location shift|1127.29||||0.0282|TWO_SIDED|95.0|769.46|1575.02|||2-sided Wilcoxon Rank Sum|||||1575.02|769.46|0.0282
92432330|NCT03310021|184751682|SUPERIORITY||Hodges lehman Location shift|574.89||||0.0085|TWO_SIDED|95.0|307.65|1175.28|||2-sided Wilcoxon Rank Sum|||||1175.28|307.65|0.0085
92432331|NCT03310021|184751682|SUPERIORITY||Hodges lehman Location shift|715.34||||0.0085|TWO_SIDED|95.0|535.38|836.4|||2-sided Wilcoxon Rank Sum|||||836.40|535.38|0.0085
92432332|NCT03310021|184751682|SUPERIORITY||Hodges lehman Location shift|1141.17||||0.0282|TWO_SIDED|95.0|964.03|1736.78|||2-sided Wilcoxon Rank Sum|||||1736.78|964.03|0.0282
92432333|NCT03310021|184751682|SUPERIORITY||Hodges lehman Location shift|1198.83||||0.0282|TWO_SIDED|95.0|988.82|1670.3|||2-sided Wilcoxon Rank Sum|||||1670.30|988.82|0.0282
92432334|NCT03310021|184751682|SUPERIORITY||Hodges lehman Location shift|721.21||||0.0085|TWO_SIDED|95.0|585.92|1108.92|||2-sided Wilcoxon Rank Sum|||||1108.92|585.92|0.0085
92432335|NCT03310021|184751682|SUPERIORITY||Hodges lehman Location shift|1204.62||||0.0282|TWO_SIDED|95.0|1001.72|1471.45|||2-sided Wilcoxon Rank Sum|||||1471.45|1001.72|0.0282
92432336|NCT03310021|184751682|SUPERIORITY||Hodges lehman Location shift|1180.5||||0.0027|TWO_SIDED|95.0|857.21|1296.02|||2-sided Wilcoxon Rank Sum|||||1296.02|857.21|0.0027
92432337|NCT03310021|184751682|SUPERIORITY||Hodges lehman Location shift|976.59||||0.0189|TWO_SIDED|95.0|585.99|1498.37|||2-sided Wilcoxon Rank Sum|||||1498.37|585.99|0.0189
92432338|NCT03310021|184751683|SUPERIORITY||Hodges lehman Location shift|826.9||||0.0282|TWO_SIDED|95.0|505.4|1362.11|||2-sided Wilcoxon Rank Sum|||||1362.11|505.40|0.0282
92432339|NCT03310021|184751683|SUPERIORITY||Hodges lehman Location shift|1125.7||||0.0282|TWO_SIDED|95.0|873.87|1552.77|||2-sided Wilcoxon Rank Sum|||||1552.77|873.87|0.0282
92432340|NCT03310021|184751683|SUPERIORITY||Hodges lehman Location shift|538.84||||0.0085|TWO_SIDED|95.0|291.2|1077.46|||2-sided Wilcoxon Rank Sum|||||1077.46|291.20|0.0085
92432341|NCT03310021|184751683|SUPERIORITY||Hodges lehman Location shift|687.57||||0.0085|TWO_SIDED|95.0|500.92|902.73|||2-sided Wilcoxon Rank Sum|||||902.73|500.92|0.0085
92432342|NCT03310021|184751683|SUPERIORITY||Hodges lehman Location shift|1012.45||||0.0282|TWO_SIDED|95.0|859.08|1352.05|||2-sided Wilcoxon Rank Sum|||||1352.05|859.08|0.0282
92432343|NCT03310021|184751683|SUPERIORITY||Hodges lehman Location shift|1057.27||||0.0282|TWO_SIDED|95.0|818.96|1634.3|||2-sided Wilcoxon Rank Sum|||||1634.30|818.96|0.0282
92432344|NCT03310021|184751683|SUPERIORITY||Hodges lehman Location shift|630.81||||0.0085|TWO_SIDED|95.0|421.78|1124.28|||2-sided Wilcoxon Rank Sum|||||1124.28|421.78|0.0085
92432345|NCT03310021|184751683|SUPERIORITY||Hodges lehman Location shift|925.84||||0.0282|TWO_SIDED|95.0|663.74|1216.28|||2-sided Wilcoxon Rank Sum|||||1216.28|663.74|0.0282
92432346|NCT03310021|184751683|SUPERIORITY||Hodges lehman Location shift|871.11||||0.0027|TWO_SIDED|95.0|631.67|1051.06|||2-sided Wilcoxon Rank Sum|||||1051.06|631.67|0.0027
92432347|NCT03310021|184751683|SUPERIORITY||Hodges lehman Location shift|874.44||||0.0189|TWO_SIDED|95.0|637.25|1412.21|||2-sided Wilcoxon Rank Sum|||||1412.21|637.25|0.0189
92432348|NCT01049308|184751698|SUPERIORITY_OR_OTHER||percentage|57.6|||||TWO_SIDED|||||||||Descriptive data to describe prevalence of cognitive impairment in outpatient veterans with chronic heart failure||||
92432349|NCT01600638|184751727|OTHER||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|||||||||||||
92432350|NCT01600638|184751728|OTHER||sucess proportion|0.7823|||||TWO_SIDED|95.0|0.614|0.951||||||||0.951|0.614|
92432351|NCT03396367|184751736|SUPERIORITY||Slope|0.372||||0.433|TWO_SIDED|95.0|-0.558|1.302||Condition (referent = education control).|Latent Growth Curve||Variable:|||1.302|-.558|.433
92432352|NCT03396367|184751736|SUPERIORITY||Slope|-0.017||||0.749|TWO_SIDED|95.0|-0.121|0.087|||Latent Growth Curve||Variable: Communication Compentence|||.087|-.121|.749
92432353|NCT03396367|184751736|SUPERIORITY||Slope|0.073||||0.302|TWO_SIDED|95.0|-0.121|0.087|||Latent Growth Curve||Moderating Variable: Communication Competence by Condition|||.087|-.121|.302
92432354|NCT03396367|184751736|SUPERIORITY||Slope|0.027||||0.799|TWO_SIDED|95.0|-0.182|0.236|||Latent Growth Curve||Variable: Relationship Satisfaction|||.236|-.182|.799
92432355|NCT03396367|184751736|SUPERIORITY||Slope|-0.211||||0.173|TWO_SIDED|95.0|-0.514|0.092|||Latent Growth Curve||Moderating Variable: Relationship Satisfaction by Condition|||.092|-.514|.173
92432356|NCT03396367|184751737|SUPERIORITY||Slope|0.427||||0.172|TWO_SIDED|95.0|-0.186|1.04||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at baseline.|Latent Growth Curve|||||1.04|-.186|.172
92432357|NCT03396367|184751737|SUPERIORITY||Slope|-0.281||||0.054|TWO_SIDED|95.0|-0.623|0.061||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at the 3-month follow-up.|Latent Growth Curve|||||.061|-.623|.054
92432358|NCT03396367|184751737|SUPERIORITY||Slope|0.125||||0.036|TWO_SIDED|95.0|-0.011|0.26||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention across the 3-,6-,9-, and 12- month follow-ups.|Latent Growth Curve|||||.260|-.011|.036
92432359|NCT03396367|184751738|SUPERIORITY||Slope|0.245||||0.679|TWO_SIDED|95.0|-0.913|1.403||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at baseline.|Latent Growth Curve|||||1.403|-.913|.679
92432360|NCT03396367|184751738|SUPERIORITY||Slope|-0.301||||0.359|TWO_SIDED|95.0|-1.938|1.336||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at the 3-month follow-up.|Latent Growth Curve|||||1.336|-1.938|.359
92432361|NCT03396367|184751738|SUPERIORITY||Slope|0.048||||0.431|TWO_SIDED|95.0|-0.496|0.593||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention across the 3-,6-,9-, and 12- month follow-ups.|Latent Growth Curve|||||.593|-.496|.431
92432362|NCT03396367|184751739|SUPERIORITY||Slope|-1.251||||0.326|TWO_SIDED|95.0|-3.814|1.311||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at baseline.|Latent Growth Curve|||||1.311|-3.814|.326
92432363|NCT03396367|184751739|SUPERIORITY||Slope|0.246||||0.384|TWO_SIDED|95.0|-1.383|1.875||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at the 3-month follow-up.|Latent Growth Curve|||||1.875|-1.383|.384
92432364|NCT03396367|184751739|SUPERIORITY||Slope|0.856||||0.019|TWO_SIDED|95.0|0.052|1.659||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention across the 3-,6-,9-, and 12- month follow-ups.|Latent Growth Curve|||||1.659|.052|.019
92432365|NCT01411774|184751760|SUPERIORITY|||||||0.95||||||p \< .05 was the threshold of significance.|Mixed Models Analysis|Analysis for the outcomes used linear mixed-effects models, with treatment group as the between-participant factor and time as the within group factor||||||.95
92432366|NCT00583778|184751781|SUPERIORITY||Median Difference (Final Values)|12.0|STANDARD_DEVIATION|25.0|<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Data were analyzed using STATA 10 SE.Categorical variables were described using frequencies and relative frequencies. Distribution of continuous variables were evaluated for normality using the Shapiro-Walk test and graphically using histograms and box plots. Because most data were non-parametric, they were described using the median and 25th and 75th percentiles (interquartile range) and then compared using Wilcoxon rank sum test.|This study was designed to detect an absolute difference of 12 % in change of FEV-1percent predicted, with a standard deviation of 25% based on data provided to us from previous studies conducted by Sepracor. Based on this assumption, we sought to enter 76 patients in each group to have an 80% power to detect a 12 % absolute difference in charge of FEV-1 percent predicted over time at an alpha of 0.05. This accounted for a potential 10% dropout rate after randomization.|||< 0.05
92432367|NCT03292588|184751782|SUPERIORITY|Negative binomial model for the rate of exacerbations in the first year. The model included an offset term to account for differential follow-up among participants. To account for adaptive randomization, the model was also adjusted for study site, number of exacerbations in year prior to study (2 or 3+), peripheral blood eosinophils (\< or ≥400 cells/μl), BMI (\< or ≥95th percentile for age), total serum IgE (\< or ≥540 kUA/L) and treatment dose (40 mg or 100 mg).|Risk Ratio (RR)|0.73||||0.027|TWO_SIDED|95.0|0.56|0.96|||Regression, Negative Binomial|Adjusted relative rate of exacerbations in the first year.||||0.96|0.56|0.027
92432368|NCT03292588|184751783|SUPERIORITY||Least Square Mean Difference|-0.28||||0.29|TWO_SIDED|95.0|-0.81|0.24|||Mixed Models Analysis|The difference in least square mean of CASI scores for week 12.||Week 12||0.24|-0.81|0.290
92432369|NCT03292588|184751783|SUPERIORITY||Least Square Mean Difference|-0.07||||0.82|TWO_SIDED|95.0|-0.69|0.55|||Mixed Models Analysis|The difference in least square mean of CASI scores for week 24.||Week 24||0.55|-0.69|0.820
92432370|NCT03292588|184751783|SUPERIORITY||Least Square Mean Difference|-0.51||||0.096|TWO_SIDED|95.0|-1.11|0.09|||Mixed Models Analysis|The difference in least square mean of CASI scores for week 36.||Week 36||0.09|-1.11|0.096
92432371|NCT03292588|184751783|SUPERIORITY||Least Square Mean Difference|-0.06||||0.831|TWO_SIDED|95.0|-0.65|0.52|||Mixed Models Analysis|The difference in least square mean of CASI scores for week 48.||Week 48||0.52|-0.65|0.831
92432372|NCT03292588|184751783|SUPERIORITY||Least Square Mean Difference|0.02||||0.947|TWO_SIDED|95.0|-0.6|0.64|||Mixed Models Analysis|The difference in least square mean of CASI scores for week 52.||Week 52||0.64|-0.60|0.947
92432373|NCT03292588|184751784|SUPERIORITY|A generalized logit model was used to analyze Physician Global Assessment Tool at Visit 14. The model included treatment arm as fixed effect as primary exposure but was also adjusted for study site, # of exacerbations in year prior to study (2 or 3+), peripheral blood eosinophils ((\< or ≥400 cells/μl), BMI (\< or ≥95th percentile for age) \& total serum IgE (\< or ≥540 kUA/L). No imputation of missing data was used for participants who weren't assessed for quality of life measurements at Visit 14.|Odds Ratio (OR)|1.01||||0.974|TWO_SIDED|95.0|0.62|1.64|||Regression, Logistic|||Physician Global Assessment Tool||1.64|0.62|0.974
92432374|NCT03292588|184751785|SUPERIORITY|A generalized logit model was used to analyze the Patient Global Assessment Tool at Visit 14. The model included treatment arm as fixed effect as the primary exposure but was adjusted for study site, # of exacerbations in year prior to study (2 or 3+), peripheral blood eosinophils ((\< or ≥400 cells/μl), BMI (\< or ≥95th percentile for age) \& total serum IgE (\< or ≥540 kUA/L). No imputation of missing data was used for participants who weren't assessed for quality of life measurements at Visit 14.|Odds Ratio (OR)|0.72||||0.238|TWO_SIDED|95.0|0.42|1.24|||Regression, Logistic|||Patient Global Assessment Tool||1.24|0.42|0.238
92432375|NCT03292588|184751786|SUPERIORITY|A generalized mixed model as described in section 8.3.1 was used to analyze each spirometry and impulse oscillometry parameter, separately, at each visit where the lung function was collected.|Least Square Mean Difference|-0.005||||0.591|TWO_SIDED|95.0|-0.023|0.013|||Mixed Models Analysis|||FEV1/FVC Week 12||0.013|-0.023|0.591
92432376|NCT03292588|184751786|SUPERIORITY||Least Square Mean Difference|-0.011||||0.265|TWO_SIDED|95.0|-0.031|0.008|||Mixed Models Analysis|||FEV1/FVC Week 24||0.008|-0.031|0.265
92432377|NCT03292588|184751786|SUPERIORITY||Least Square Mean Difference|0.011||||0.345|TWO_SIDED|95.0|-0.012|0.033|||Mixed Models Analysis|||FEV1/FVC Week 36||0.033|-0.012|0.345
92432378|NCT03292588|184751786|SUPERIORITY||Least Square Mean Difference|0.013||||0.248|TWO_SIDED|95.0|-0.009|0.036|||Mixed Models Analysis|||FEV1/FVC Week 48||0.036|-0.009|0.248
92432379|NCT03292588|184751786|SUPERIORITY||Least Square Mean Difference|-0.002||||0.864|TWO_SIDED|95.0|-0.023|0.02|||Mixed Models Analysis|||FEV1/FVC Week 52||0.020|-0.023|0.864
92432380|NCT03292588|184751787|SUPERIORITY||Least Square Mean Difference|-0.4||||0.816|TWO_SIDED|95.0|-3.8|3.0|||Mixed Models Analysis|||FEV1PP Week 12||3.0|-3.8|0.816
92432381|NCT03292588|184751787|SUPERIORITY||Least Square Mean Difference|-3.4||||0.095|TWO_SIDED|95.0|-7.4|0.6|||Mixed Models Analysis|||FEV1PP Week 24||0.6|-7.4|0.095
92432382|NCT03292588|184751787|SUPERIORITY||Least Square Mean Difference|1.5||||0.444|TWO_SIDED|95.0|-2.4|5.5|||Mixed Models Analysis|||FEV1PP Week 36||5.5|-2.4|0.444
92432383|NCT03292588|184751787|SUPERIORITY||Least Square Mean Difference|0.6||||0.751|TWO_SIDED|95.0|-3.3|4.6|||Mixed Models Analysis|||FEV1PP Week 48||4.6|-3.3|0.751
92432384|NCT03292588|184751787|SUPERIORITY||Least Square Mean Difference|-2.6||||0.184|TWO_SIDED|95.0|-6.5|1.3|||Mixed Models Analysis|||FEV1PP Week 52||1.3|-6.5|0.184
92432385|NCT03292588|184751788|SUPERIORITY|Negative binomial model for the rate of exacerbations (per year. The model included an offset term to account for differential follow-up among participants. To account for adaptive randomization, the model was also adjusted for study site, number of exacerbations in year prior to study (2 or 3+), peripheral blood eosinophils (\< or ≥400 cells/μl), BMI (\< or ≥95th percentile for age), total serum IgE (\< or ≥540 kUA/L) and treatment dose (40 mg or 100 mg).|Risk Ratio (RR)|0.85||||0.458|TWO_SIDED|95.0|0.55|1.31|||Mixed Models Analysis|||Did not meet FDA-approved dosing||1.31|0.55|0.458
92432386|NCT03292588|184751789|SUPERIORITY|Negative binomial model for the rate of exacerbations (per year. The model included an offset term to account for differential follow-up among participants. To account for adaptive randomization, the model was also adjusted for study site, number of exacerbations in year prior to study (2 or 3+), peripheral blood eosinophils (\< or ≥400 cells/μl), BMI (\< or ≥95th percentile for age), total serum IgE (\< or ≥540 kUA/L) and treatment dose (40 mg or 100 mg).|Risk Ratio (RR)|0.67||||0.025|TWO_SIDED|95.0|0.47|0.95|||Regression, Negative Binomial|||Fit FDA-approved dosing||0.95|0.47|0.025
92432387|NCT03292588|184751790|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.3587|TWO_SIDED|95.0|0.63|1.18|||Regression, Cox|||||1.18|0.63|0.3587
92432388|NCT03808493|184751804|EQUIVALENCE|For log-transformed (natural log) AUClast, the two-sided 90% CI of the difference in the least square means (LS-Means) between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|-0.0211|||||TWO_SIDED|90.0|-0.0752|0.0329||||||||0.0329|-0.0752|
92432389|NCT03808493|184751804|EQUIVALENCE|For log-transformed (natural log) AUClast, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.0019|||||TWO_SIDED|90.0|-0.0778|0.0815||||||||0.0815|-0.0778|
92432390|NCT03808493|184751805|EQUIVALENCE|For log-transformed (natural log) Cmax, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|-0.0698|||||TWO_SIDED|90.0|-0.1404|0.0008||||||||0.0008|-0.1404|
92432391|NCT03808493|184751805|EQUIVALENCE|For log-transformed (natural log) Cmax, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|-0.0811|||||TWO_SIDED|90.0|-0.1658|0.0036||||||||0.0036|-0.1658|
92237527|NCT03626415|184379315|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Means|84.14|||||TWO_SIDED|90.0|63.59|111.33|||ANOVA|||Moderate Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||111.33|63.59|
92237528|NCT03626415|184379316|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Means|95.74|||||TWO_SIDED|90.0|72.71|126.08|||ANOVA|||Mild Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||126.08|72.71|
92432392|NCT03808493|184751806|EQUIVALENCE|For log-transformed (natural log) AUC∞, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|-0.0199|||||TWO_SIDED|90.0|-0.0731|0.0333||||||||0.0333|-0.0731|
92432393|NCT03808493|184751806|EQUIVALENCE|For log-transformed (natural log) AUC∞, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.0035|||||TWO_SIDED|90.0|-0.076|0.083||||||||0.0830|-0.0760|
92432394|NCT03808493|184751807|EQUIVALENCE|For log-transformed (natural log) Tmax, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.1902|||||TWO_SIDED|90.0|0.0199|0.3605||||||||0.3605|0.0199|
92432395|NCT03808493|184751807|EQUIVALENCE|For log-transformed (natural log) Tmax, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.2142|||||TWO_SIDED|90.0|0.0558|0.3725||||||||0.3725|0.0558|
92432396|NCT03808493|184751808|EQUIVALENCE|For log-transformed (natural log) MRT∞,ev, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.0311|||||TWO_SIDED|90.0|0.0022|0.0599||||||||0.0599|0.0022|
92432397|NCT03808493|184751808|EQUIVALENCE|For log-transformed (natural log) MRT∞,ev, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.0306|||||TWO_SIDED|90.0|-0.0003|0.0616||||||||0.0616|-0.0003|
92432398|NCT03808493|184751809|EQUIVALENCE|For log-transformed (natural log) λz, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.0209|||||TWO_SIDED|90.0|-0.0112|0.053||||||||0.0530|-0.0112|
92432399|NCT03808493|184751809|EQUIVALENCE|For log-transformed (natural log) λz, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|-0.0135|||||TWO_SIDED|90.0|-0.0508|0.0238||||||||0.0238|-0.0508|
92432400|NCT05526716|184751818|NON_INFERIORITY|Serotype 3|Geometric Mean Titers Ratio (GMT Ratio)|0.84|||||TWO_SIDED|95.0|0.72|0.97||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.97|0.72|
92432401|NCT05526716|184751818|NON_INFERIORITY|Serotype 6A|GMT Ratio|0.79|||||TWO_SIDED|95.0|0.66|0.94||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.94|0.66|
92432402|NCT05526716|184751818|NON_INFERIORITY|Serotype 7F|GMT Ratio|0.73|||||TWO_SIDED|95.0|0.63|0.85||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.85|0.63|
92432403|NCT05526716|184751818|NON_INFERIORITY|Serotype 8|GMT Ratio|0.71|||||TWO_SIDED|95.0|0.61|0.82||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.82|0.61|
92432404|NCT05526716|184751818|NON_INFERIORITY|Serotype 9N|GMT Ratio|0.67|||||TWO_SIDED|95.0|0.57|0.79||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.79|0.57|
92432405|NCT05526716|184751818|NON_INFERIORITY|Serotype 10A|GMT Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.91||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.91|0.65|
92432406|NCT05526716|184751818|NON_INFERIORITY|Serotype 11A|GMT Ratio|0.64|||||TWO_SIDED|95.0|0.54|0.75||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.75|0.54|
92432407|NCT05526716|184751818|NON_INFERIORITY|Serotype 12F|GMT Ratio|0.76|||||TWO_SIDED|95.0|0.62|0.94||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.94|0.62|
92432408|NCT05526716|184751818|NON_INFERIORITY|Serotype 15A|GMT Ratio|0.71|||||TWO_SIDED|95.0|0.6|0.85||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.85|0.60|
92432409|NCT05526716|184751818|NON_INFERIORITY|Serotype 15C|GMT Ratio|0.71|||||TWO_SIDED|95.0|0.58|0.87||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.87|0.58|
92237529|NCT03626415|184379316|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Means|114.82|||||TWO_SIDED|90.0|87.19|151.2|||ANOVA|||Moderate Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||151.20|87.19|
92237530|NCT02544984|184379324|SUPERIORITY|||||||0.473|||||||negative binomial model|negative binomial model adjusting for use of Synagis and tracheostomy||The numbers of unscheduled clinic visits due to respiratory symptoms are compared.||||0.473
92237531|NCT02544984|184379324|SUPERIORITY|||||||0.505|||||||negative binomial model|negative binomial model adjusting for use of Synagis and tracheostomy||Unscheduled clinic visits due to symptoms other than respiratory symptoms are compared||||0.505
92237532|NCT02544984|184379324|SUPERIORITY|||||||0.047|||||||negative binomial model|negative binomial model adjusting for use of Synagis and tracheostomy||Numbers of emergency room visits are compared||||0.047
92237533|NCT02544984|184379324|SUPERIORITY|||||||0.675|||||||negative binomial model|negative binomial model adjusting for use of Synagis and tracheostomy||Numbers of hospital admissions are compared||||0.675
92237534|NCT02544984|184379325|SUPERIORITY|||||||0.435|||||||negative binomial model|negative binomial model adjusting for use of Synagis and tracheostomy||||||0.435
92432410|NCT05526716|184751818|NON_INFERIORITY|Serotype 16F|GMT Ratio|0.69|||||TWO_SIDED|95.0|0.59|0.81||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.81|0.59|
92237535|NCT02487745|184379330|SUPERIORITY||Odds Ratio (OR)|2.29||||0.05|TWO_SIDED|95.0|||||Regression, Logistic|||||||.05
92237536|NCT02487745|184379331|SUPERIORITY||Odds Ratio (OR)|3.88||||0.05|TWO_SIDED|95.0|||||Regression, Logistic|||||||.05
92237537|NCT00532883|184379342|SUPERIORITY_OR_OTHER|||||||0.93||95.0||||This is a global test comparing all four treatment arms.|Mixed Models Analysis|||F-test from a longitudinal mixed model (controlling for baseline measurement)testing the hypothesis of no difference in mean percent dense cells between the four treatment groups at Visit 6. The study was originally powered to detect a difference of 20%, but it was stopped early.||||0.93
92237538|NCT02075255|184379343|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|33.3|||<|0.001|TWO_SIDED|95.0|16.7|50.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimate is used.|||50.00|16.70|<0.001
92237539|NCT02075255|184379343|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|37.5|||<|0.001|TWO_SIDED|95.0|20.8|50.0|||Wilcoxon (Mann-Whitney)||Hodges Lehmann estimate is used.|||50.00|20.80|<0.001
92432411|NCT05526716|184751818|NON_INFERIORITY|Serotype 17F|GMT Ratio|0.73|||||TWO_SIDED|95.0|0.62|0.86||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.86|0.62|
92237540|NCT02075255|184379344|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.09|||<|0.001|TWO_SIDED|95.0|2.22|7.57|||proportional odds model|Controlling for treatment group, region, and baseline OCS dose.||||7.57|2.22|<0.001
92237541|NCT02075255|184379344|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12|||<|0.001|TWO_SIDED|95.0|2.22|7.63|||proportional odds model|Controlling for treatment group, region, and baseline OCS dose.||||7.63|2.22|<0.001
92237542|NCT02075255|184379345|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|50.0|||<|0.001|TWO_SIDED|95.0|25.0|66.7|||Wilcoxon (Mann-Whitney)||Hodges Lehmann estimate is used.|||66.70|25.00|<0.001
92432412|NCT05526716|184751818|NON_INFERIORITY|Serotype 19A|GMT Ratio|0.75|||||TWO_SIDED|95.0|0.65|0.85||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.85|0.65|
92237543|NCT02075255|184379345|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|50.0|||<|0.001|TWO_SIDED|95.0|25.0|66.7|||Wilcoxon (Mann-Whitney)||Hodges Lehmann estimate is used.|||66.70|25.00|<0.001
92237544|NCT02075255|184379346|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.59|||<|0.001|TWO_SIDED|95.0|1.79|7.22|||Cochran-Mantel-Haenszel|Controlling for region.||||7.22|1.79|<0.001
92237545|NCT02075255|184379346|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.001|TWO_SIDED|95.0|1.57|5.86|||Cochran-Mantel-Haenszel|Controlling for region.||||5.86|1.57|<0.001
92237546|NCT02075255|184379347|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.23|||<|0.001|TWO_SIDED|95.0|1.92|14.21|||Cochran-Mantel-Haenszel|Controlling for region.||||14.21|1.92|<0.001
92237547|NCT02075255|184379347|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.19||||0.002|TWO_SIDED|95.0|1.58|11.12|||Cochran-Mantel-Haenszel|Controlling for region.||||11.12|1.58|0.002
92237548|NCT02075255|184379348|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.012|TWO_SIDED|95.0|0.21|0.83|||Cochran-Mantel-Haenszel|Controlling for region.||||0.83|0.21|0.012
92237549|NCT02075255|184379348|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.053|TWO_SIDED|95.0|0.27|1.01|||Cochran-Mantel-Haenszel|Controlling for region.||||1.01|0.27|0.053
92237550|NCT02075255|184379349|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.16|||<|0.001|TWO_SIDED|95.0|1.6|6.23|||Cochran-Mantel-Haenszel|Controlling for region.||||6.23|1.60|<0.001
92237551|NCT02075255|184379349|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.74||||0.002|TWO_SIDED|95.0|1.41|5.31|||Cochran-Mantel-Haenszel|Controlling for region.||||5.31|1.41|0.002
92237552|NCT02075255|184379350|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||0.001|TWO_SIDED|95.0|0.16|0.65|||Cochran-Mantel-Haenszel|Controlling for region.||||0.65|0.16|0.001
92237553|NCT02075255|184379350|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.28|||<|0.001|TWO_SIDED|95.0|0.14|0.56|||Cochran-Mantel-Haenszel|Controlling for region.||||0.56|0.14|<0.001
92237554|NCT02075255|184379351|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.001|TWO_SIDED|95.0|0.22|0.66|||Regression, Cox|Including covariates treatment group, region, number of exacerbations in the previous year.||||0.66|0.22|<0.001
92432413|NCT05526716|184751818|NON_INFERIORITY|Serotype 20A|GMT Ratio|0.74|||||TWO_SIDED|95.0|0.63|0.87||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.87|0.63|
92432414|NCT05526716|184751818|NON_INFERIORITY|Serotype 22F|GMT Ratio|0.77|||||TWO_SIDED|95.0|0.65|0.91||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.91|0.65|
92237555|NCT02075255|184379351|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.32|||<|0.001|TWO_SIDED|95.0|0.17|0.57|||Regression, Cox|Including covariates treatment group, region, number of exacerbations in the previous year.||||0.57|0.17|<0.001
92432415|NCT05526716|184751818|NON_INFERIORITY|Serotype 23A|GMT Ratio|0.78|||||TWO_SIDED|95.0|0.63|0.96||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.96|0.63|
92432416|NCT05526716|184751818|NON_INFERIORITY|Serotype 23B|GMT Ratio|0.56|||||TWO_SIDED|95.0|0.44|0.72||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.72|0.44|
92432417|NCT05526716|184751818|NON_INFERIORITY|Serotype 24F|GMT Ratio|0.72|||||TWO_SIDED|95.0|0.61|0.86||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.86|0.61|
92432418|NCT05526716|184751818|NON_INFERIORITY|Serotype 31|GMT Ratio|0.68|||||TWO_SIDED|95.0|0.56|0.83||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.83|0.56|
92432419|NCT05526716|184751818|NON_INFERIORITY|Serotype 33F|GMT Ratio|0.84|||||TWO_SIDED|95.0|0.7|1.01||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||1.01|0.70|
92432420|NCT05526716|184751818|NON_INFERIORITY|Serotype 35B|GMT Ratio|0.77|||||TWO_SIDED|95.0|0.67|0.89||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of serotypes is \>0.50.||0.89|0.67|
92432421|NCT05526716|184751819|NON_INFERIORITY|A/H1N1|GMT Ratio|0.83|||||TWO_SIDED|95.0|0.7|0.97||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the HAI GMT ratio (GMTcon/GMTseq) for each of the strains is \>0.67.||0.97|0.70|
92432422|NCT05526716|184751819|NON_INFERIORITY|A/H3N2|GMT Ratio|0.79|||||TWO_SIDED|95.0|0.67|0.93||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the HAI GMT ratio (GMTcon/GMTseq) for each of the strains is \>0.67.||0.93|0.67|
92432423|NCT05526716|184751819|NON_INFERIORITY|B/Victoria|GMT Ratio|0.82|||||TWO_SIDED|95.0|0.7|0.95||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the HAI GMT ratio (GMTcon/GMTseq) for each of the strains is \>0.67.||0.95|0.70|
92432424|NCT05526716|184751819|NON_INFERIORITY|B/Yamagata|GMT Ratio|0.89|||||TWO_SIDED|95.0|0.78|1.0||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the HAI GMT ratio (GMTcon/GMTseq) for each of the strains is \>0.67.||1.00|0.78|
92432425|NCT05526716|184751820|OTHER|Serotype 3|GMC Ratio|0.9|||||TWO_SIDED|95.0|0.8|1.02||||||||1.02|0.80|
92432426|NCT05526716|184751820|OTHER|Serotype 6A|GMC Ratio|0.93|||||TWO_SIDED|95.0|0.79|1.11||||||||1.11|0.79|
92432427|NCT05526716|184751820|OTHER|Serotype 7F|GMC Ratio|0.78|||||TWO_SIDED|95.0|0.67|0.9||||||||0.90|0.67|
92432428|NCT05526716|184751820|OTHER|Serotype 8|GMC Ratio|0.82|||||TWO_SIDED|95.0|0.7|0.95||||||||0.95|0.70|
92432429|NCT05526716|184751820|OTHER|Serotype 9N|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.75|1.05||||||||1.05|0.75|
92432430|NCT05526716|184751820|OTHER|Serotype 10A|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.67|0.94||||||||0.94|0.67|
92432431|NCT05526716|184751820|OTHER|Serotype 11A|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.72|0.96||||||||0.96|0.72|
92432432|NCT05526716|184751820|OTHER|Serotype 12F|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.69|1.01||||||||1.01|0.69|
92432433|NCT05526716|184751820|OTHER|Serotype 15A|GMC Ratio|0.75|||||TWO_SIDED|95.0|0.63|0.9||||||||0.90|0.63|
92432434|NCT05526716|184751820|OTHER|Serotype 15C|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.71|1.02||||||||1.02|0.71|
92432435|NCT05526716|184751820|OTHER|Serotype 16F|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.7|0.99||||||||0.99|0.70|
92432436|NCT05526716|184751820|OTHER|Serotype 17F|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.72|0.99||||||||0.99|0.72|
92432437|NCT05526716|184751820|OTHER|Serotype 19A|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.71|0.93||||||||0.93|0.71|
92432438|NCT05526716|184751820|OTHER|Serotype 20A|GMC Ratio|0.82|||||TWO_SIDED|95.0|0.7|0.97||||||||0.97|0.70|
92432439|NCT05526716|184751820|OTHER|Serotype 22F|GMC Ratio|0.94|||||TWO_SIDED|95.0|0.8|1.1||||||||1.10|0.80|
92432440|NCT05526716|184751820|OTHER|Serotype 23A|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.7|1.03||||||||1.03|0.70|
92432441|NCT05526716|184751820|OTHER|Serotype 23B|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.72|1.02||||||||1.02|0.72|
92432442|NCT05526716|184751820|OTHER|Serotype 24F|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.69|1.05||||||||1.05|0.69|
92432443|NCT05526716|184751820|OTHER|Serotype 31|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.72|0.99||||||||0.99|0.72|
92432444|NCT05526716|184751820|OTHER|Serotype 33F|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.69|0.94||||||||0.94|0.69|
92432445|NCT05526716|184751820|OTHER|Serotype 35B|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.72|0.99||||||||0.99|0.72|
92432446|NCT01806545|184751835|SUPERIORITY_OR_OTHER_LEGACY||Proportion treatment difference|-0.11||||0.1197|TWO_SIDED|95.0|-0.242|0.025||P-value was based on Cochran-Mantel-Haenszel test stratified by diabetic status at surgery comparing the 2 treatment groups.|Cochran-Mantel-Haenszel|||||0.025|-0.242|0.1197
92432447|NCT01806545|184751836|SUPERIORITY_OR_OTHER_LEGACY||Proportion treatment difference|-0.08||||0.1962|TWO_SIDED|95.0|-0.204|0.045||P-value was based on Cochran-Mantel-Haenszel test stratified by diabetic status at surgery comparing the 2 treatment groups.|Cochran-Mantel-Haenszel|||||0.045|-0.204|0.1962
92432448|NCT01806545|184751837|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|TWO_SIDED|||||P-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||||||0.090
92432449|NCT01806545|184751838|SUPERIORITY_OR_OTHER_LEGACY|||||||0.193|TWO_SIDED||||||Log Rank|P-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.||Analysis of time to loss of patency||||0.193
92432450|NCT01806545|184751839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.231|TWO_SIDED|||||P-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||Analysis of time to loss of patency||||0.231
92432451|NCT01806545|184751840|SUPERIORITY_OR_OTHER_LEGACY|||||||0.158|TWO_SIDED|||||P-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||Analysis of time to loss of patency||||0.158
92432452|NCT01806545|184751841|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-0.895|||||TWO_SIDED|95.0|-2.213|0.423||||||Treatment difference at week 12||0.423|-2.213|
92432453|NCT01806545|184751841|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-0.232|||||TWO_SIDED|95.0|-1.791|1.327||||||Treatment difference at week 26||1.327|-1.791|
92432454|NCT01806545|184751842|SUPERIORITY_OR_OTHER_LEGACY||Proportion treatment difference|-0.04|||||TWO_SIDED|95.0|-0.273|0.2||||||Analysis of week 12||0.200|-0.273|
92432455|NCT01806545|184751842|SUPERIORITY_OR_OTHER_LEGACY||Proportion treatment difference|0.08|||||TWO_SIDED|95.0|-0.165|0.318||||||Analysis of week 26||0.318|-0.165|
92432456|NCT01806545|184751843|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|0.154|||||TWO_SIDED|95.0|-0.096|0.404||||||Analysis of week 12||0.404|-0.096|
92432457|NCT01806545|184751843|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|0.565|||||TWO_SIDED|95.0|-0.023|1.152||||||Analysis of week 26||1.152|-0.023|
92432458|NCT01438957|184751867|SUPERIORITY||||||<|0.001|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||<0.001
92432459|NCT01438957|184751867|SUPERIORITY|||||||0.003|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||0.003
92432460|NCT01438957|184751867|SUPERIORITY|||||||0.086|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.086
92432461|NCT01438957|184751867|SUPERIORITY||||||<|0.001|||||||Mantel-extension test|Stratified by the anesthesia type||Dose-response relationship is assessed using Mantel-extension test. In this analysis, dose of placebo group is hypothesized as 0 microg/kg. Dose-response relationship among Dexmedetomidine 4 dose groups excluding placebo group is also assessed using Mantel-extension test.||||<0.001
92432462|NCT01438957|184751868|SUPERIORITY||||||<|0.001|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||<0.001
92432463|NCT01438957|184751868|SUPERIORITY||||||<|0.001|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||<0.001
92432464|NCT01438957|184751868|SUPERIORITY|||||||0.006|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||0.006
92432465|NCT01438957|184751868|SUPERIORITY|||||||0.329|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||0.329
92432466|NCT01438957|184751869|SUPERIORITY||||||<|0.001|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||<0.001
92432467|NCT01438957|184751869|SUPERIORITY||||||<|0.001|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||<0.001
92432468|NCT01438957|184751869|SUPERIORITY|||||||0.006|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||0.006
92432469|NCT01438957|184751869|SUPERIORITY|||||||0.371|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||0.371
92432470|NCT01438957|184751870|SUPERIORITY||||||<|0.001|||||||Log Rank|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||<0.001
92432471|NCT01438957|184751870|SUPERIORITY|||||||0.001|||||||Log Rank|Stratified by the anesthesia type||||||0.001
92432472|NCT01438957|184751870|SUPERIORITY|||||||0.212|||||||Log Rank|Stratified by the anesthesia type||||||0.212
92432473|NCT01438957|184751871|SUPERIORITY|||||||0.869|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.869
92432474|NCT01438957|184751872|SUPERIORITY|||||||0.897|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.897
92432475|NCT01438957|184751873|SUPERIORITY|||||||0.897|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.897
92432476|NCT01438957|184751874|SUPERIORITY||||||<|0.001|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||<0.001
92432477|NCT01438957|184751874|SUPERIORITY|||||||0.002|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.002
92432478|NCT01438957|184751874|SUPERIORITY|||||||0.116|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.116
92432479|NCT01438957|184751875|SUPERIORITY|||||||0.088|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.088
92432480|NCT01438957|184751876|SUPERIORITY|||||||0.085|||||||Log Rank|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.085
92432481|NCT01438957|184751877|SUPERIORITY|||||||0.005|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.005
92432482|NCT01438957|184751877|SUPERIORITY|||||||0.014|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.014
92237556|NCT02075255|184379352|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53||||0.291|TWO_SIDED|95.0|0.14|1.64|||Regression, Cox|Including covariates treatment group, region, any exacerbations in the previous year requiring hospitalization or ER visit.||||1.64|0.14|0.291
92237557|NCT02075255|184379352|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.12||||0.042|TWO_SIDED|95.0|0.01|0.63|||Regression, Cox|Including covariates treatment group, region, any exacerbations in the previous year requiring hospitalization or ER visit.||||0.63|0.01|0.042
92237558|NCT02075255|184379353|SUPERIORITY_OR_OTHER||Rate ratio|0.45||||0.003|TWO_SIDED|95.0|0.27|0.76|||negative binomial model|Including covariates treatment group, region, number of exacerbations in the previous year. The log of follow-up time is used as offset variable.||||0.76|0.27|0.003
92432483|NCT01438957|184751877|SUPERIORITY|||||||0.055|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.055
92432484|NCT01438957|184751878|SUPERIORITY|||||||0.737|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.737
92432485|NCT01438957|184751879|SUPERIORITY|||||||0.11|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.11
92432486|NCT01438957|184751880|SUPERIORITY|||||||0.567|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.567
92432487|NCT01438957|184751881|SUPERIORITY|||||||0.044|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.044
92237559|NCT02075255|184379353|SUPERIORITY_OR_OTHER||Rate ratio|0.3|||<|0.001|TWO_SIDED|95.0|0.17|0.53|||negative binomial model|Including covariates treatment group, region, number of exacerbations in the previous year. The log of follow-up time is used as offset variable.||||0.53|0.17|<0.001
92237560|NCT02075255|184379354|SUPERIORITY_OR_OTHER||Rate ratio|0.44||||0.187|TWO_SIDED|95.0|0.13|1.49|||negative binomial model|Covariates include treatment, region, any exacerbations in the previous year requiring hospitalization/ER. Log of follow-up time is the offset.||||1.49|0.13|0.187
92237561|NCT02075255|184379354|SUPERIORITY_OR_OTHER||Rate ratio|0.07||||0.018|TWO_SIDED|95.0|0.01|0.63|||negative binomial model|Covariates include treatment, region, any exacerbations in the previous year requiring hospitalization/ER. Log of follow-up time is the offset.||||0.63|0.01|0.018
92237562|NCT02075255|184379356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105||||0.153|TWO_SIDED|95.0|-0.04|0.251|||Mixed Models Analysis|Including covariates: treatment group, region, baseline pre-BD FEV1 value, visit, and visit by treatment interaction.||||0.251|-0.040|0.153
92237563|NCT02075255|184379356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112||||0.129|TWO_SIDED|95.0|-0.033|0.258|||Mixed Models Analysis|Including covariates: treatment group, region, baseline pre-BD FEV1 value, visit, and visit by treatment interaction.||||0.258|-0.033|0.129
92237564|NCT02075255|184379357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.947|TWO_SIDED|95.0|-0.35|0.32|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.32|-0.35|0.947
92432488|NCT01438957|184751881|SUPERIORITY|||||||0.234|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.234
92432489|NCT01438957|184751882|SUPERIORITY|||||||0.729|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.729
92432490|NCT01438957|184751883|SUPERIORITY|||||||0.082|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.082
92237565|NCT02075255|184379357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.291|TWO_SIDED|95.0|-0.51|0.16|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.16|-0.51|0.291
92237566|NCT02075255|184379358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.998|TWO_SIDED|95.0|-0.18|0.18|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.18|-0.18|0.998
92432491|NCT01438957|184751884|SUPERIORITY|||||||0.451|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.451
92432492|NCT01438957|184751885|SUPERIORITY|||||||0.873|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.873
92432493|NCT01438957|184751886|SUPERIORITY|||||||0.374|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.374
92432494|NCT00133952|184751899|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63||||0.724|TWO_SIDED|95.0|0.15|2.67|||Fisher Exact|||||2.67|0.15|0.724
92432495|NCT00133952|184751900|SUPERIORITY_OR_OTHER||LS Mean difference|-3.3||||0.616|TWO_SIDED|95.0|-16.5|9.8|||Mixed models repeated measures|||||9.8|-16.5|0.616
92432496|NCT00133952|184751901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.971|TWO_SIDED|95.0|0.68|1.44|||Cochran-Mantel-Haenszel|||||1.44|0.68|0.971
92432497|NCT00133952|184751903|SUPERIORITY_OR_OTHER||LS Mean difference|0.5||||0.344|TWO_SIDED|95.0|-0.6|1.6|||Mixed models repeated measures|||||1.6|-0.6|0.344
92432498|NCT00133952|184751904|SUPERIORITY_OR_OTHER|||||||0.663||95.0|||||ANCOVA|||||||0.663
92432499|NCT00133952|184751905|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.203|TWO_SIDED|95.0|0.37|1.23|||Cochran-Mantel-Haenszel|||||1.23|0.37|0.203
92237567|NCT02075255|184379358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.177|TWO_SIDED|95.0|-0.3|0.05|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.05|-0.30|0.177
92237568|NCT02075255|184379359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.973|TWO_SIDED|95.0|-0.17|0.17|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.17|-0.17|0.973
92432500|NCT00133952|184751907|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.749|TWO_SIDED|95.0|0.46|2.92|||Cochran-Mantel-Haenszel|||||2.92|0.46|0.749
92237569|NCT02075255|184379359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.48|TWO_SIDED|95.0|-0.23|0.11|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.11|-0.23|0.480
92432501|NCT04592874|184751908|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.7975|TWO_SIDED|95.0|-1.49|1.15|||Mixed Models Analysis|||This is using the Week 96 timepoint||1.15|-1.49|0.7975
92432502|NCT04592874|184751908|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.6341|TWO_SIDED|95.0|-1.61|0.98|||Mixed Models Analysis|||This is using the Week 96 timepoint||0.98|-1.61|0.6341
92432503|NCT04592874|184751908|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.8489|TWO_SIDED|95.0|-1.18|1.43|||Mixed Models Analysis|||This is using the Week 96 timepoint||1.43|-1.18|0.8489
92432504|NCT04592874|184751909|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.7417|TWO_SIDED|95.0|-2.81|2.01|||Mixed Models Analysis|||This is using the Week 96 timepoint||2.01|-2.81|0.7417
92432505|NCT04592874|184751909|SUPERIORITY||Mean Difference (Final Values)|-1.74||||0.1559|TWO_SIDED|95.0|-4.16|0.67|||Mixed Models Analysis|||This is using the Week 96 timepoint||0.67|-4.16|0.1559
92432506|NCT04592874|184751909|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.785|TWO_SIDED|95.0|-2.78|2.11|||Mixed Models Analysis|||This is using the Week 96 timepoint||2.11|-2.78|0.7850
92432507|NCT04592874|184751910|SUPERIORITY||Mean Difference (Final Values)|-0.65||||0.7934|TWO_SIDED|95.0|-5.58|4.28|||Mixed Models Analysis|||This is using the Week 96 timepoint||4.28|-5.58|0.7934
92432508|NCT04592874|184751910|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.9259|TWO_SIDED|95.0|-4.84|5.32|||Mixed Models Analysis|||This is using the Week 96 timepoint||5.32|-4.84|0.9259
92432509|NCT04592874|184751910|SUPERIORITY||Mean Difference (Final Values)|0.91||||0.7147|TWO_SIDED|95.0|-4.04|5.87|||Mixed Models Analysis|||This is using the Week 96 timepoint||5.87|-4.04|0.7147
92432510|NCT04592874|184751911|SUPERIORITY||Mean Difference (Final Values)|0.97||||0.6403|TWO_SIDED|95.0|-3.14|5.09|||Mixed Models Analysis|||This is using the Week 96 timepoint||5.09|-3.14|0.6403
92432511|NCT04592874|184751911|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.5016|TWO_SIDED|95.0|-2.71|5.51|||Mixed Models Analysis|||This is using the Week 96 timepoint||5.51|-2.71|0.5016
92237570|NCT02075255|184379360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.397|TWO_SIDED|95.0|-1.44|0.57|||Mixed Models Analysis|Include covariates: treatment group, baseline total asthma rescue medication use, region, visit, and treatment by visit interaction.||||0.57|-1.44|0.397
92432512|NCT04592874|184751911|SUPERIORITY||Mean Difference (Final Values)|2.94||||0.1631|TWO_SIDED|95.0|-1.21|7.08|||Mixed Models Analysis|||This is using the Week 96 timepoint||7.08|-1.21|0.1631
92432513|NCT04592874|184751912|SUPERIORITY||Mean Difference (Final Values)|-0.53||||0.7945|TWO_SIDED|95.0|-4.57|3.51|||Mixed Models Analysis|||This is using the Week 96 timepoint||3.51|-4.57|0.7945
92432514|NCT04592874|184751912|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.9371|TWO_SIDED|95.0|-3.92|4.25|||Mixed Models Analysis|||This is using the Week 96 timepoint||4.25|-3.92|0.9371
92432515|NCT04592874|184751912|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.7991|TWO_SIDED|95.0|-3.58|4.64|||Mixed Models Analysis|||This is using the Week 96 timepoint||4.64|-3.58|0.7991
92432516|NCT04592874|184751913|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.6458|TWO_SIDED|95.0|-0.17|0.11|||Mixed Models Analysis|||This is using the Week 96 timepoint||0.11|-0.17|0.6458
92432517|NCT04592874|184751913|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.2779|TWO_SIDED|95.0|-0.06|0.21|||Mixed Models Analysis|||This is using the Week 96 timepoint||0.21|-0.06|0.2779
92432518|NCT04592874|184751913|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.5355|TWO_SIDED|95.0|-0.1|0.18|||Mixed Models Analysis|||This is using the Week 96 timepoint||0.18|-0.10|0.5355
92432519|NCT03143894|184751914|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.47|TWO_SIDED||||||t-test, 2 sided|||||||0.47
92432520|NCT03143894|184751915|SUPERIORITY||Mean Difference (Net)|0.69||||0.69|TWO_SIDED||||||t-test, 2 sided|||||||0.69
92432521|NCT03143894|184751916|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.36|TWO_SIDED||||||t-test, 2 sided|||||||0.36
92432522|NCT01603056|184751924|SUPERIORITY_OR_OTHER|||||||0.743|TWO_SIDED||||||t-test, 2 sided|||||||0.743
92432523|NCT01603056|184751925|SUPERIORITY_OR_OTHER|||||||0.627|TWO_SIDED||||||t-test, 2 sided|||||||0.627
92432524|NCT01603056|184751926|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||t-test, 2 sided|||||||0.74
92432525|NCT01603056|184751927|SUPERIORITY_OR_OTHER|||||||0.641|TWO_SIDED||||||t-test, 2 sided|||||||0.641
92432526|NCT01603056|184751928|SUPERIORITY_OR_OTHER|||||||0.818|TWO_SIDED||||||t-test, 2 sided|||||||0.818
92432527|NCT01603056|184751929|SUPERIORITY_OR_OTHER|||||||0.391|TWO_SIDED||||||t-test, 2 sided|||||||0.391
92432528|NCT01603056|184751930|SUPERIORITY_OR_OTHER|||||||0.497|TWO_SIDED||||||t-test, 2 sided|||||||0.497
92432529|NCT01603056|184751931|SUPERIORITY_OR_OTHER|||||||0.222|TWO_SIDED||||||t-test, 2 sided|||||||0.222
92432530|NCT01603056|184751932|SUPERIORITY_OR_OTHER|||||||0.438|TWO_SIDED||||||Fisher Exact|||||||0.438
92432531|NCT01603056|184751933|SUPERIORITY_OR_OTHER|||||||0.465|TWO_SIDED||||||t-test, 2 sided|||||||0.465
92432532|NCT01603056|184751934|SUPERIORITY_OR_OTHER|||||||0.123|TWO_SIDED||||||t-test, 2 sided|||||||0.123
92432533|NCT01603056|184751935|SUPERIORITY_OR_OTHER|||||||0.719|TWO_SIDED||||||t-test, 2 sided|||||||0.719
92432534|NCT00489541|184751950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.54|-0.3|||t-test, 2 sided|||A superiority test of TAXUX Element vs bare metal (BMS) Express historical control. The null hypothesis that the true difference in means (TAXUS Element - BMS Express) is equal to zero was tested against the two-sided alternative that the true difference in means is different from zero. A sample size of 224 patients in the TAXUS Element group (190 after 15% attrition due to angiographic follow-up) provided 85% power.||-0.30|-0.54|<0.0001
92237571|NCT02075255|184379360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.41||||0.006|TWO_SIDED|95.0|-2.42|-0.41|||Mixed Models Analysis|Include covariates: treatment group, baseline total asthma rescue medication use, region, visit, and treatment by visit interaction.||||-0.41|-2.42|0.006
92237572|NCT02075255|184379361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.25||||0.143|TWO_SIDED|95.0|-6.58|45.07|||Mixed Models Analysis|Include covariates: treatment group, baseline morning PEF, region, visit, and treatment by visit interaction.||||45.07|-6.58|0.143
92432535|NCT00489541|184751951|SUPERIORITY_OR_OTHER||12-month TLR rate|7.34|||<|0.0001|ONE_SIDED|95.0||10.8|||Chi-squared|||One-sided, single-sample binomial test to compare the observed TLF rate in PERSEUS SV to the pre-specified performance goal (19.5%). The normal approximation of the test statistic was used. The null hypothesis that the true TAXUS Element TLF rate is greater than or equal to the performance goal was tested against the one-sided alternative that the true rate is less than the performance goal. A sample size of 224 patients (accounting for 5% attrition to follow-up) provided 80% power.||10.8||<0.0001
92432536|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|1.08|||<|0.001|TWO_SIDED|95.0|1.05|1.11||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons. Age was treated as a continuous variable in years.|Regression, Cox||The hazard ratio represented the effect of a one year increase in age on a patient's risk of developing AF. Descriptive statistics (mean±standard deviation) for age were 75.7±7.9 years among patients with AF, and 69.4±10.0 among patients without AF|The null hypothesis was that age did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.11|1.05|< 0.001
92432537|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.02|TWO_SIDED|95.0|1.01|1.08||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons. BMI was treated as a continuous variable.|Regression, Cox||The hazard ratio represented the effect of a one unit increase in BMI on a patient's risk of developing AF. Descriptive statistics (mean ± standard deviation) for BMI were 31.0 ± 6.6 among patients with AF, and 31.2 ± 6.4 among patients without AF|The null hypothesis was that body mass index (BMI) did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.08|1.01|0.02
92432538|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.56|TWO_SIDED|95.0|0.77|1.61||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of being male on a patient's risk of developing AF.|The null hypothesis was that gender did not influence a patient's risk of experiencing AF (it's coefficient for being male in a Cox proportional hazards model was 0).||1.61|0.77|0.56
92432539|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.66|TWO_SIDED|95.0|0.74|1.59||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having diabetes on a patient's risk of developing AF.|The null hypothesis was that diabetes did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.59|0.74|0.66
92432540|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.73|TWO_SIDED|95.0|0.69|1.69||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having heart failure on a patient's risk of developing AF.|The null hypothesis was that heart failure did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.69|0.69|0.73
92432541|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.58|TWO_SIDED|95.0|0.58|2.6||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having hypertension on a patient's risk of developing AF.|The null hypothesis was that hypertension did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||2.60|0.58|0.58
92432542|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.65|TWO_SIDED|95.0|0.64|1.32||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having renal impairment on a patient's risk of developing AF.|The null hypothesis was that renal impairment did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.32|0.64|0.65
92432543|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.22|TWO_SIDED|95.0|0.45|1.2||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having COPD on a patient's risk of developing AF.|The null hypothesis was that Chronic obstructive pulmonary disease (COPD) did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.20|0.45|0.22
92432544|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.53|TWO_SIDED|95.0|0.54|1.38||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having a prior stroke (more than one year pre-device implant) on a patient's risk of developing AF.|The null hypothesis was that prior stroke more than one year pre-device implant did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.38|0.54|0.53
92432545|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.21|TWO_SIDED|95.0|0.53|1.15||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having coronary artery disease on a patient's risk of developing AF.|The null hypothesis was that coronary artery disease did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.15|0.53|0.21
92446544|NCT02477020|184780042|SUPERIORITY_OR_OTHER||Least square mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.128||0.746|TWO_SIDED|95.0|-0.29|0.21||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 1||0.21|-0.29|0.746
92432546|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.19|TWO_SIDED|95.0|0.45|1.17||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having sleep apnea on a patient's risk of developing AF.|The null hypothesis was that sleep apnea did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.17|0.45|0.19
92432547|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|1.97||||0.16|TWO_SIDED|95.0|0.76|5.14||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having a family history of AF on a patient's risk of developing AF.|The null hypothesis was that family history of AF did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||5.14|0.76|0.16
92432548|NCT01727297|184752015|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.63|TWO_SIDED|95.0|0.56|1.43||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having vascular disease on a patient's risk of developing AF.|The null hypothesis was that vascular disease did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.43|0.56|0.63
92432549|NCT01192516|184752019|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||Mixed Models Analysis|Adjusted for age, gender, pain level, and body mass index at baseline.||||||.85
92432550|NCT01192516|184752022|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Mixed Models Analysis|Adjusted for age, gender, and body mass index.||||||.06
92432551|NCT01192516|184752025|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED|||||Adjusted for age, gender, body mass index, and pain at baseline.|Mixed Models Analysis|||||||.36
92432552|NCT02454296|184752033|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92432553|NCT02454296|184752034|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92432554|NCT02454296|184752035|SUPERIORITY_OR_OTHER|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
92432555|NCT03366337|184752036|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 12.|LS Mean change from baseline|9.31|STANDARD_ERROR_OF_MEAN|1.3743|<|0.0001|TWO_SIDED|95.0|6.5|12.13|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 12 were included. Missing data were not imputed.||||12.13|6.5|<0.0001
92432556|NCT03366337|184752036|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 12.|LS Mean change from baseline|8.0|STANDARD_ERROR_OF_MEAN|1.57|<|0.0001|TWO_SIDED|95.0|4.75|11.25|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 12 were included. Missing data were not imputed.||||11.25|4.75|<0.0001
92432557|NCT03366337|184752036|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 12.|LS Mean change from baseline|5.46|STANDARD_ERROR_OF_MEAN|2.2792||0.0247|TWO_SIDED|95.0|0.76|10.16|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 12 were included. Missing data were not imputed.||||10.16|0.76|0.0247
92432558|NCT03366337|184752036|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 12.|LS Mean change from baseline|7.83|STANDARD_ERROR_OF_MEAN|2.216||0.003|TWO_SIDED|95.0|3.11|12.55|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 12 were included. Missing data were not imputed.||||12.55|3.11|0.0030
92432559|NCT04518293|184752061|OTHER|The difference between GMRx2 and dual-TA at Week 12 was estimated using a mixed model for repeated measures (MMRM).|LS Means Difference|-5.44|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED|95.0|-6.774|-4.107|||MIANALYZE procedure|||The LS means (LSM) difference (95% CI) in home seated SBP reduction was calculated between GMRx2 and dual-TA arms.||-4.107|-6.774|<.0001
92237573|NCT02075255|184379361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.01||||0.023|TWO_SIDED|95.0|4.26|55.76|||Mixed Models Analysis|Include covariates: treatment group, baseline morning PEF, region, visit, and treatment by visit interaction.||||55.76|4.26|0.023
92432560|NCT04518293|184752061|OTHER|The difference between GMRx2 and dual-TI at Week 12 was estimated using a MMRM.|LS Means Difference|-2.49|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|-3.723|-1.251|||MIANALYZE procedure|||The LSM difference (95% CI) in home SBP reduction was calculated between GMRx2 and dual-TI arms.||-1.251|-3.723|<.0001
92432561|NCT04518293|184752061|OTHER|The difference between GMRx2 and dual-AI at Week 12 was estimated using a MMRM.|LS Means Difference|-4.42|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED|95.0|-5.758|-3.091|||MIANALYZE procedure|||The LSM difference (95% CI) in home SBP reduction was calculated between GMRx2 and dual-AI arms.||-3.091|-5.758|<.0001
92432562|NCT04518293|184752062|OTHER|The difference between GMRx2 and dual-TA at Week 12 was estimated using a MMRM.|LS Means Difference|-5.6|STANDARD_ERROR_OF_MEAN|0.863|<|0.0001|TWO_SIDED|95.0|-7.307|-3.902|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 between dual-TA arms.||-3.902|-7.307|<.0001
92432563|NCT04518293|184752062|OTHER|The difference between GMRx2 and dual-TI at Week 12 was estimated using a MMRM.|LS Means Difference|-4.33|STANDARD_ERROR_OF_MEAN|1.212||0.0005|TWO_SIDED|95.0|-6.718|-1.933|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 and dual-TI arms.||-1.933|-6.718|0.0005
92432564|NCT04518293|184752062|OTHER|The difference between GMRx2 and dual-AI at Week 12 was estimated using a MMRM.|LS Means Difference|-6.33|STANDARD_ERROR_OF_MEAN|0.837|<|0.0001|TWO_SIDED|95.0|-7.984|-4.68|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 and dual-AI arms.||-4.680|-7.984|<.0001
92432565|NCT04518293|184752063|OTHER|The difference between GMRx2 and dual-TA at Week 6 was estimated using MMRM.|LS Means Difference|-5.01|STANDARD_ERROR_OF_MEAN|0.858|<|0.0001|TWO_SIDED|95.0|-6.703|-3.317|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 and dual-TA arms.||-3.317|-6.703|<.0001
92432566|NCT04518293|184752063|OTHER|The difference between GMRx2 and dual-TI at Week 6 was estimated using MMRM.|LS Means Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.91||0.0002|TWO_SIDED|95.0|-5.293|-1.7|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 and dual-TI arms.||-1.700|-5.293|0.0002
92432567|NCT04518293|184752063|OTHER|The difference between GMRx2 and dual-AI at Week 6 was estimated using MMRM.|LS Means Difference|-5.35|STANDARD_ERROR_OF_MEAN|0.965|<|0.0001|TWO_SIDED|95.0|-7.251|-3.444|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 and dual-AI arms.||-3.444|-7.251|<.0001
92432568|NCT04518293|184752064|OTHER|The difference between GMRx2 and dual-TA at Week 12 was estimated using MMRM.|LS Means Difference|-3.72|STANDARD_ERROR_OF_MEAN|0.49|<|0.0001|TWO_SIDED|95.0|-4.692|-2.757|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-TA arms.||-2.757|-4.692|<.0001
92237574|NCT02075255|184379362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.19||||0.237|TWO_SIDED|95.0|-10.08|40.46|||Mixed Models Analysis|Include covariates: treatment group, baseline evening PEF, region, visit, and treatment by visit interaction.||||40.46|-10.08|0.237
92237575|NCT02075255|184379362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.52||||0.014|TWO_SIDED|95.0|6.32|56.71|||Mixed Models Analysis|Include covariates: treatment group, baseline evening PEF, region, visit, and treatment by visit interaction.||||56.71|6.32|0.014
92237576|NCT02075255|184379363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.742|TWO_SIDED|95.0|-0.08|0.11|||Mixed Models Analysis|Including covariates: treatment group, baseline proportion of nights with noctural awakenings, region, visit, and treatment by visit interaction.||||0.11|-0.08|0.742
92432569|NCT04518293|184752064|OTHER|The difference between GMRx2 and dual-TI at Week 12 was estimated using MMRM.|LS Means Difference|-3.51|STANDARD_ERROR_OF_MEAN|0.702|<|0.0001|TWO_SIDED|95.0|-4.897|-2.128|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-TI arms.||-2.128|-4.897|<.0001
92432570|NCT04518293|184752064|OTHER|The difference between GMRx2 and dual-AI at Week 12 was estimated using MMRM.|LS Means Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.665|<|0.0001|TWO_SIDED|95.0|-5.812|-3.189|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-AI arms.||-3.189|-5.812|<.0001
92432571|NCT04518293|184752065|OTHER|The difference between GMRx2 and dual-TA at Week 6 was estimated using MMRM.|LS Means Difference|-2.43|STANDARD_ERROR_OF_MEAN|0.487|<|0.0001|TWO_SIDED|95.0|-3.392|-1.469|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-TA arms.||-1.469|-3.392|<.0001
92432572|NCT04518293|184752065|OTHER|The difference between GMRx2 and dual-TI at Week 6 was estimated using MMRM.|LS Means Difference|-2.29|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-3.371|-1.201|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-TI arms.||-1.201|-3.371|<.0001
92432573|NCT04518293|184752065|OTHER|The difference between GMRx2 and dual-AI at Week 6 was estimated using MMRM.|LS Means Difference|-3.77|STANDARD_ERROR_OF_MEAN|0.562|<|0.0001|TWO_SIDED|95.0|-4.882|-2.664|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-AI arms.||-2.664|-4.882|<.0001
92432574|NCT04518293|184752066|OTHER||Risk Difference (RD)|12.52||||0.0003|TWO_SIDED|95.0|5.63|19.487|||Wald test|||The difference between GMRx2 and TA at Week 12 was estimated using Generalized Estimating Equation.||19.487|5.630|0.0003
92432575|NCT04518293|184752066|OTHER||Risk Difference (RD)|13.36||||0.0001|TWO_SIDED|95.0|6.392|20.394|||Wald test|||The difference between GMRx2 and TI at Week 12 was estimated using Generalized Estimating Equation.||20.394|6.392|0.0001
92432576|NCT04518293|184752066|OTHER||Risk Difference (RD)|20.97|||<|0.0001|TWO_SIDED|95.0|13.812|28.013|||Wald test|||The difference between GMRx2 and AI at Week 12 was estimated using Generalized Estimating Equation.||28.013|13.812|<.0001
92432577|NCT04518293|184752067|OTHER||Risk Difference (RD)|10.31||||0.0044|TWO_SIDED|95.0|3.044|17.535|||Wald test|||The difference between GMRx2 and TA at Week 6 was estimated using Generalized Estimating Equation.||17.535|3.044|0.0044
92432578|NCT04518293|184752067|OTHER||Risk Difference (RD)|8.08||||0.0262|TWO_SIDED|95.0|0.804|15.373|||Wald test|||The difference between GMRx2 and TI at Week 6 was estimated using Generalized Estimating Equation.||15.373|0.804|0.0262
92432579|NCT04518293|184752067|OTHER||Risk Difference (RD)|18.59|||<|0.0001|TWO_SIDED|95.0|11.201|25.746|||Wald test|||The difference between GMRx2 and AI at Week 6 was estimated using Generalized Estimating Equation.||25.746|11.201|<.0001
92432580|NCT04518293|184752068|OTHER||Risk Difference (RD)|16.51|||<|0.0001|TWO_SIDED|95.0|9.707|22.837|||Wald test|||The difference between GMRx2 and TA at Week 12 was estimated using Generalized Estimating Equation.||22.837|9.707|<.0001
92432581|NCT04518293|184752068|OTHER||Risk Difference (RD)|12.03||||0.0004|TWO_SIDED|95.0|4.982|18.658|||Wald test|||The difference between GMRx2 and TI at Week 12 was estimated using Generalized Estimating Equation.||18.658|4.982|0.0004
92432582|NCT04518293|184752068|OTHER||Risk Difference (RD)|18.19|||<|0.0001|TWO_SIDED|95.0|11.412|24.432|||Wald test|||The difference between GMRx2 and AI at Week 12 was estimated using Generalized Estimating Equation.||24.432|11.412|<.0001
92432583|NCT04518293|184752069|OTHER||Risk Difference (RD)|10.45||||0.0007|TWO_SIDED|95.0|3.993|16.433|||Wald test|||The difference between GMRx2 and TA at Week 6 was estimated using Generalized Estimating Equation.||16.433|3.993|0.0007
92432584|NCT04518293|184752069|OTHER||Risk Difference (RD)|8.93||||0.0046|TWO_SIDED|95.0|2.337|15.058|||Wald test|||The difference between GMRx2 and TI at Week 6 was estimated using Generalized Estimating Equation.||15.058|2.337|0.0046
92432585|NCT04518293|184752069|OTHER||Risk Difference (RD)|12.19|||<|0.0001|TWO_SIDED|95.0|5.792|18.073|||Wald test|||||18.073|5.792|<.0001
92432586|NCT04518293|184752070|OTHER|The difference between GMRx2 and dual-TA at Week 6 was estimated using MMRM.|LS Means Difference|-6.11|STANDARD_ERROR_OF_MEAN|0.495|<|0.0001|TWO_SIDED|95.0|-7.086|-5.144|||Mixed Models Analysis|||The LSM difference (95% CI) in home SBP reduction was calculated between GMRx2 and dual-TA arms.||-5.144|-7.086|<.0001
92432587|NCT04518293|184752070|OTHER|The difference between GMRx2 and dual-TI at Week 6 was estimated using MMRM.|LS Means Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.543|<|0.0001|TWO_SIDED|95.0|-4.06|-1.932|||Mixed Models Analysis|||The LSM difference (95% CI) in home SBP reduction was calculated between GMRx2 and dual-TI arms.||-1.932|-4.060|<.0001
92432588|NCT04518293|184752070|OTHER|The difference between GMRx2 and dual-AI at Week 6 was estimated using MMRM.|LS Means Difference|-5.09|STANDARD_ERROR_OF_MEAN|0.603|<|0.0001|TWO_SIDED|95.0|-6.274|-3.912|||Mixed Models Analysis|||The LSM difference (95% CI) in home SBP reduction was calculated between GMRx2 and dual-AI arms.||-3.912|-6.274|<.0001
92432589|NCT04518293|184752071|OTHER|The difference between GMRx2 and dual-TA at Week 12 was estimated using MMRM.|LS Means Difference|-3.35|STANDARD_ERROR_OF_MEAN|0.364|<|0.0001|TWO_SIDED|95.0|-4.069|-2.632|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-TA arms.||-2.632|-4.069|<.0001
92432590|NCT04518293|184752071|OTHER|The difference between GMRx2 and dual-TI at Week 12 was estimated using MMRM.|LS Means Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.456|<|0.0001|TWO_SIDED|95.0|-2.998|-1.2|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-TI arms.||-1.200|-2.998|<.0001
92432591|NCT04518293|184752071|OTHER|The difference between GMRx2 and dual-AI at Week 12 was estimated using MMRM.|LS Means Difference|-3.63|STANDARD_ERROR_OF_MEAN|0.499|<|0.0001|TWO_SIDED|95.0|-4.617|-2.649|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-AI arms.||-2.649|-4.617|<.0001
92237577|NCT02075255|184379363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.693|TWO_SIDED|95.0|-0.11|0.07|||Mixed Models Analysis|Including covariates: treatment group, baseline proportion of nights with noctural awakenings, region, visit, and treatment by visit interaction.||||0.07|-0.11|0.693
92432592|NCT04518293|184752072|OTHER|The difference between GMRx2 and dual-TA at Week 6 was estimated using MMRM.|LS Means Difference|-3.52|STANDARD_ERROR_OF_MEAN|0.311|<|0.0001|TWO_SIDED|95.0|-4.137|-2.908|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-TA arms.||-2.908|-4.137|<.0001
92432593|NCT04518293|184752072|OTHER|The difference between GMRx2 and dual-TI at Week 6 was estimated using MMRM.|LS Means Difference|-2.09|STANDARD_ERROR_OF_MEAN|0.361|<|0.0001|TWO_SIDED|95.0|-2.803|-1.376|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-TI arms.||-1.376|-2.803|<.0001
92432594|NCT04518293|184752072|OTHER|The difference between GMRx2 and dual-AI at Week 6 was estimated using MMRM.|LS Means Difference|-3.58|STANDARD_ERROR_OF_MEAN|0.439|<|0.0001|TWO_SIDED|95.0|-4.446|-2.713|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-AI arms.||-2.713|-4.446|<.0001
92432595|NCT04518293|184752073|OTHER|The difference between GMRx2 and dual-TA at Week 12 was estimated using MMRM.|LS Means Difference|-5.58|STANDARD_ERROR_OF_MEAN|0.713|<|0.0001|TWO_SIDED|95.0|-6.983|-4.169|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-TA arms.||-4.169|-6.983|<.0001
92432596|NCT04518293|184752073|OTHER|The difference between GMRx2 and dual-TI at Week 12 was estimated using MMRM.|LS Means Difference|-1.91|STANDARD_ERROR_OF_MEAN|0.662||0.0043|TWO_SIDED|95.0|-3.218|-0.607|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-TI arms.||-0.607|-3.218|0.0043
92432597|NCT04518293|184752073|OTHER|The difference between GMRx2 and dual-AI at Week 12 was estimated using MMRM.|LS Means Difference|-3.74|STANDARD_ERROR_OF_MEAN|0.745|<|0.0001|TWO_SIDED|95.0|-5.214|-2.274|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-AI arms.||-2.274|-5.214|<.0001
92432598|NCT04518293|184752074|OTHER|The difference between GMRx2 and dual-TA at Week 6 was estimated using MMRM.|LS Means Difference|-6.25|STANDARD_ERROR_OF_MEAN|0.546|<|0.0001|TWO_SIDED|95.0|-7.324|-5.168|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-TA arms.||-5.168|-7.324|<.0001
92432599|NCT04518293|184752074|OTHER|The difference between GMRx2 and dual-TI at Week 6 was estimated using MMRM.|LS Means Difference|-2.72|STANDARD_ERROR_OF_MEAN|0.616|<|0.0001|TWO_SIDED|95.0|-3.941|-1.507|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-TI arms.||-1.507|-3.941|<.0001
92432600|NCT04518293|184752074|OTHER|The difference between GMRx2 and dual-AI at Week 6 was estimated using MMRM.|LS Means Difference|-4.43|STANDARD_ERROR_OF_MEAN|0.537|<|0.0001|TWO_SIDED|95.0|-5.489|-3.368|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-AI arms.||-3.368|-5.489|<.0001
92432601|NCT04518293|184752075|OTHER||Risk Difference (RD)|14.79|||<|0.0001|TWO_SIDED|95.0|7.749|21.824|||Wald test|||The difference between GMRx2 and TA at Week 12 was estimated using Generalized Estimating Equation.||21.824|7.749|<.0001
92237578|NCT02075255|184379364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.139|TWO_SIDED|95.0|-0.55|0.08|||Mixed Models Analysis|Include covariates: treatment group, baseline ACQ-6 score, region, visit, and treatment by visit interaction.||||0.08|-0.55|0.139
92432602|NCT04518293|184752075|OTHER||Risk Difference (RD)|8.46||||0.0146|TWO_SIDED|95.0|1.58|15.501|||Wald test|||The difference between GMRx2 and TI at Week 12 was estimated using Generalized Estimating Equation.||15.501|1.580|0.0146
92432603|NCT04518293|184752075|OTHER||Risk Difference (RD)|16.07|||<|0.0001|TWO_SIDED|95.0|8.953|23.171|||Wald test|||The difference between GMRx2 and AI at Week 12 was estimated using Generalized Estimating Equation.||23.171|8.953|<.0001
92432604|NCT04518293|184752076|OTHER||Risk Difference (RD)|18.11|||<|0.0001|TWO_SIDED|95.0|10.778|25.226|||Wald test|||The difference between GMRx2 and TA at Week 6 was estimated using Generalized Estimating Equation.||25.226|10.778|<.0001
92432605|NCT04518293|184752076|OTHER||Risk Difference (RD)|6.64||||0.0674|TWO_SIDED|95.0|-0.613|13.926|||Wald test|||The difference between GMRx2 and TI at Week 12 was estimated using Generalized Estimating Equation.||13.926|-0.613|0.0674
92432606|NCT04518293|184752076|OTHER||Risk Difference (RD)|18.23|||<|0.0001|TWO_SIDED|95.0|10.839|25.392|||Wald test|||The difference between GMRx2 and AI at Week 12 was estimated using Generalized Estimating Equation.||25.392|10.839|<.0001
92432607|NCT04518293|184752077|OTHER||Risk Difference (RD)|17.25|||<|0.0001|TWO_SIDED|95.0|9.902|24.286|||Wald test|||The difference between GMRx2 and TA at Week 12 was estimated using Generalized Estimating Equation.||24.286|9.902|<.0001
92432608|NCT04518293|184752077|OTHER||Risk Difference (RD)|12.06||||0.001|TWO_SIDED|95.0|4.632|19.293|||Wald test|||The difference between GMRx2 and TI at Week 12 was estimated using Generalized Estimating Equation.||19.293|4.632|0.0010
92432609|NCT04518293|184752077|OTHER||Risk Difference (RD)|22.93|||<|0.0001|TWO_SIDED|95.0|15.622|29.796|||Wald test|||The difference between GMRx2 and AI at Week 12 was estimated using Generalized Estimating Equation.||29.796|15.622|<.0001
92432610|NCT04518293|184752078|OTHER||Risk Difference (RD)|18.59|||<|0.0001|TWO_SIDED|95.0|11.579|25.124|||Wald test|||The difference between GMRx2 and TA at Week 6 was estimated using Generalized Estimating Equation.||25.124|11.579|<.0001
92432611|NCT04518293|184752078|OTHER||Risk Difference (RD)|12.22||||0.0005|TWO_SIDED|95.0|4.963|19.123|||Wald test|||The difference between GMRx2 and TI at Week 6 was estimated using Generalized Estimating Equation.||19.123|4.963|0.0005
92237579|NCT02075255|184379364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.001|TWO_SIDED|95.0|-0.86|-0.23|||Mixed Models Analysis|Include covariates: treatment group, baseline ACQ-6 score, region, visit, and treatment by visit interaction.||||-0.23|-0.86|0.001
92432612|NCT04518293|184752078|OTHER||Risk Difference (RD)|16.2|||<|0.0001|TWO_SIDED|95.0|9.06|22.914|||Wald test|||The difference between GMRx2 and AI at Week 6 was estimated using Generalized Estimating Equation.||22.914|9.060|<.0001
92432613|NCT04518293|184752079|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.93|||||TWO_SIDED|95.0|-1.529|2.768||||||The Risk difference (95% CI) in percentage of participants discontinuing trial medication due to AE/SAE at Week 12 was calculated between GMRx2 and dual-TA arms.||2.768|-1.529|
92432614|NCT04518293|184752079|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.55|||||TWO_SIDED|95.0|-2.098|2.475||||||The Risk difference (95% CI) in percentage of participants discontinuing trial medication due to AE/SAE at Week 12 was calculated between GMRx2 and dual-TI arms.||2.475|-2.098|
92432615|NCT04518293|184752079|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.55|||||TWO_SIDED|95.0|-2.098|2.475||||||The Risk difference (95% CI) in percentage of participants discontinuing trial medication due to AE/SAE at Week 12 was calculated between GMRx2 and dual-AI arms.||2.475|-2.098|
92432616|NCT04518293|184752085|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|4.07|||||TWO_SIDED|95.0|0.494|7.116||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 12 was calculated between GMRx2 and dual-TA arms.||7.116|0.494|
92432617|NCT04518293|184752085|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.38|||||TWO_SIDED|95.0|-3.927|4.02||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 12 was calculated between GMRx2 and dual-TI arms.||4.020|-3.927|
92432618|NCT04518293|184752085|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|3.64|||||TWO_SIDED|95.0|-0.07|6.764||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 12 was calculated between GMRx2 and dual-AI arms.||6.764|-0.070|
92432619|NCT04518293|184752086|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|2.59|||||TWO_SIDED|95.0|-0.5|5.136||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 6 was calculated between GMRx2 and dual-TA arms.||5.136|-0.500|
92432620|NCT04518293|184752086|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|1.82|||||TWO_SIDED|95.0|-1.513|4.517||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 6 was calculated between GMRx2 and dual-TI arms.||4.517|-1.513|
92237580|NCT02075255|184379365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.165||||0.658|TWO_SIDED|95.0|0.592|2.295|||Regression, Logistic|Including covariates: treatment group, baseline ACQ-6 score, region, number of exacerbations in the previous year.||||2.295|0.592|0.658
92432621|NCT04518293|184752086|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.73|||||TWO_SIDED|95.0|-2.855|3.633||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 6 was calculated between GMRx2 and dual-AI arms.||3.633|-2.855|
92237581|NCT02075255|184379365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.661||||0.155|TWO_SIDED|95.0|0.826|3.34|||Regression, Logistic|Including covariates: treatment group, baseline ACQ-6 score, region, number of exacerbations in the previous year.||||3.340|0.826|0.155
92432622|NCT04518293|184752087|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.06|||||TWO_SIDED|95.0|-3.911|3.129||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 12 was calculated between GMRx2 and dual-TA arms.||3.129|-3.911|
92237582|NCT02075255|184379366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.151|TWO_SIDED|95.0|-0.08|0.53|||Mixed Models Analysis|Including covariates: treatment group, region, baseline AQLQ(S)+12 score, visit, and treatment by visit interaction.||||0.53|-0.08|0.151
92432623|NCT04518293|184752087|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.53|||||TWO_SIDED|95.0|-4.519|2.744||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 12 was calculated between GMRx2 and dual-TI arms.||2.744|-4.519|
92432624|NCT04518293|184752087|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.55|||||TWO_SIDED|95.0|-3.228|3.647||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 12 was calculated between GMRx2 and dual-AI arms.||3.647|-3.228|
92432625|NCT04518293|184752088|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.25|||||TWO_SIDED|95.0|-3.993|2.816||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 6 was calculated between GMRx2 and dual-TA arms.||2.816|-3.993|
92432626|NCT04518293|184752088|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|1.82|||||TWO_SIDED|95.0|-1.513|4.517||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 6 was calculated between GMRx2 and dual-TI arms.||4.517|-1.513|
92432627|NCT04518293|184752088|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.72|||||TWO_SIDED|95.0|-4.596|2.44||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 6 was calculated between GMRx2 and dual-TI arms.||2.440|-4.596|
92432628|NCT04518293|184752089|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|6.72|||||TWO_SIDED|95.0|4.196|9.222||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 12 was calculated between GMRx2 and dual-TA arms.||9.222|4.196|
92237583|NCT02075255|184379366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.004|TWO_SIDED|95.0|0.14|0.76|||Mixed Models Analysis|Including covariates: treatment group, region, baseline AQLQ(S)+12 score, visit, and treatment by visit interaction.||||0.76|0.14|0.004
92237584|NCT02075255|184379367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.538||||0.22|TWO_SIDED|95.0|0.773|3.06|||Regression, Logistic|Including covariates: treatment group, region, baseline AQLQ(S)+12 score, number of exacerbations in the previous year.||||3.060|0.773|0.220
92237585|NCT02075255|184379367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.783||||0.108|TWO_SIDED|95.0|0.882|3.605|||Regression, Logistic|Including covariates: treatment group, region, baseline AQLQ(S)+12 score, number of exacerbations in the previous year.||||3.605|0.882|0.108
92432629|NCT04518293|184752089|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|2.0|||||TWO_SIDED|95.0|-1.883|5.257||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 12 was calculated between GMRx2 and dual-TI arms.||5.257|-1.883|
92432630|NCT04518293|184752089|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-5.97|||||TWO_SIDED|95.0|-10.979|-1.6||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 12 was calculated between GMRx2 and dual-AI arms.||-1.600|-10.979|
92432631|NCT04518293|184752090|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|3.13|||||TWO_SIDED|95.0|0.123|5.632||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 6 was calculated between GMRx2 and dual-TA arms.||5.632|0.123|
92432632|NCT04518293|184752090|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|1.28|||||TWO_SIDED|95.0|-2.245|4.134||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 6 was calculated between GMRx2 and dual-TI arms.||4.134|-2.245|
92237586|NCT02075255|184379371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-162.2|||<|0.001|TWO_SIDED|95.0|-220.1|-104.3|||Mixed Models Analysis|Include covariates: treatment group, baseline eosinophil count, region, visit, treatment by visit|Percent change|||-104.3|-220.1|<0.001
92237587|NCT02075255|184379371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-159.4|||<|0.001|TWO_SIDED|95.0|-217.9|-100.9|||Mixed Models Analysis|Include covariates: treatment group, baseline eosinophil count, region, visit, treatment by visit.|Percent change|||-100.9|-217.9|<0.001
92237588|NCT01469013|184379377|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92432633|NCT04518293|184752090|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-2.71|||||TWO_SIDED|95.0|-6.968|0.819||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 6 was calculated between GMRx2 and dual-AI arms.||0.819|-6.968|
92432634|NCT04518293|184752091|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.91|||||TWO_SIDED|95.0|-0.863|2.231||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 12 was calculated between GMRx2 and dual-TA arms.||2.231|-0.863|
92432635|NCT04518293|184752091|OTHER||Risk Difference (RD)|0.91|||||TWO_SIDED|95.0|-0.897|2.231||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 12 was calculated between GMRx2 and dual-TI arms.||2.231|-0.897|
92432636|NCT04518293|184752091|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.55|||||TWO_SIDED|95.0|-1.494|1.913||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 12 was calculated between GMRx2 and dual-AI arms.||1.913|-1.494|
92237589|NCT01469013|184379379|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED||||||Cochran-Armitage trend test|||||||0.009
92237590|NCT05232097|184379397|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: the median of differences of the rumination score before and after therapy equals 0.||||0.005
92237591|NCT05232097|184379398|OTHER|||||||0.11|||||||Chi-squared|||The null hypothesis is that the same number of patients has intragastric pressure peaks indicating rumination before and after therapy.||||0.11
92237592|NCT05232097|184379399|OTHER|||||||0.06|||||||t-test, 2 sided|||Null hypothesis: The differences of means of 15D before and after therapy equals 0.||||0.060
92237593|NCT05232097|184379400|OTHER|||||||0.865|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: The median of differences of WHODAS 2.0 before and after therapy equals 0.||||0.865
92237594|NCT05232097|184379401|OTHER|||||||0.149|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis : the differences of median BDI before and after behavioral therapy equals 0.||||0.149
92237595|NCT05232097|184379402|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: The differences of median of BAI before and after behavioral therapy equals 0.||||1.000
92237596|NCT05232097|184379403|OTHER|||||||0.102|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: The differences of median weight before and after therapy equals 0.||||0.102
92432637|NCT04518293|184752092|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.01|||||TWO_SIDED|95.0|-1.931|1.149||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 6 was calculated between GMRx2 and dual-TA arms.||1.149|-1.931|
92432638|NCT04518293|184752092|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.979|1.143||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 6 was calculated between GMRx2 and dual-TI arms.||1.143|-1.979|
92432639|NCT04518293|184752092|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.36|||||TWO_SIDED|95.0|-1.374|1.453||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 6 was calculated between GMRx2 and dual-AI arms.||1.453|-1.374|
92432640|NCT04518293|184752093|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.39|||||TWO_SIDED|95.0|-2.014|2.087||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 12 was calculated between GMRx2 and dual-TA arms.||2.087|-2.014|
92432641|NCT04518293|184752093|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|1.09|||||TWO_SIDED|95.0|-1.015|2.633||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 12 was calculated between GMRx2 and dual-TI arms.||2.633|-1.015|
92432642|NCT04518293|184752093|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|1.09|||||TWO_SIDED|95.0|-1.015|2.633||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 12 was calculated between GMRx2 and dual-AI arms.||2.633|-1.015|
92432643|NCT04518293|184752094|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.16|||||TWO_SIDED|95.0|-2.501|1.385||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 6 was calculated between GMRx2 and dual-TA arms.||1.385|-2.501|
92432644|NCT04518293|184752094|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.54|||||TWO_SIDED|95.0|-3.078|1.108||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 6 was calculated between GMRx2 and dual-TI arms.||1.108|-3.078|
92432645|NCT04518293|184752094|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.18|||||TWO_SIDED|95.0|-2.571|1.37||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 6 was calculated between GMRx2 and dual-AI arms.||1.370|-2.571|
92432646|NCT04518293|184752095|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|10.55|||||TWO_SIDED|95.0|5.422|15.138||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 12 was calculated between GMRx2 and dual-TA arms.||15.138|5.422|
92432647|NCT04518293|184752095|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|3.11|||||TWO_SIDED|95.0|-2.776|8.49||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 12 was calculated between GMRx2 and dual-TI arms.||8.490|-2.776|
92432648|NCT04518293|184752095|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-1.6|||||TWO_SIDED|95.0|-7.807|4.174||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 12 was calculated between GMRx2 and dual-AI arms.||4.174|-7.807|
92432649|NCT04518293|184752096|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|5.47|||||TWO_SIDED|95.0|0.531|9.867||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 6 was calculated between GMRx2 and dual-TA arms.||9.867|0.531|
92432650|NCT04518293|184752096|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|4.92|||||TWO_SIDED|95.0|-0.136|9.397||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 6 was calculated between GMRx2 and dual-TI arms.||9.397|-0.136|
92432651|NCT04518293|184752096|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-1.6|||||TWO_SIDED|95.0|-7.299|3.567||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 6 was calculated between GMRx2 and dual-AI arms.||3.567|-7.299|
92432652|NCT04518293|184752097|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.06||||0.9677|TWO_SIDED|95.0|-3.825|3.019|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 6 was calculated between GMRx2 and dual-TA arms.||3.019|-3.825|0.9677
92432653|NCT04518293|184752097|OTHER||Risk Difference (RD)|-2.35||||0.1952|TWO_SIDED|95.0|-6.55|1.125|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 6 was calculated between GMRx2 and dual-TI arms.||1.125|-6.550|0.1952
92432654|NCT04518293|184752097|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.53||||0.7453|TWO_SIDED|95.0|-4.428|2.642|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 6 was calculated between GMRx2 and dual-AI arms.||2.642|-4.428|0.7453
92432655|NCT04518293|184752098|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.12||||0.9415|TWO_SIDED|95.0|-3.657|3.222|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 12 was calculated between GMRx2 and dual-TA arms.||3.222|-3.657|0.9415
92432656|NCT04518293|184752098|OTHER||Risk Difference (RD)|-2.53||||0.1719|TWO_SIDED|95.0|-6.799|1.019|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 12 was calculated between GMRx2 and dual-TI arms.||1.019|-6.799|0.1719
92432657|NCT04518293|184752098|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-2.16||||0.2342|TWO_SIDED|95.0|-6.38|1.326|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 12 was calculated between GMRx2 and dual-AI arms.||1.326|-6.380|0.2342
92432658|NCT04518293|184752099|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-2.87||||0.3548|TWO_SIDED|95.0|-9.316|3.215|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 6 was calculated between GMRx2 and dual-TA arms.||3.215|-9.316|0.3548
92432659|NCT04518293|184752099|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.94||||0.7529|TWO_SIDED|95.0|-5.356|6.8|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 6 was calculated between GMRx2 and dual-TI arms.||6.800|-5.356|0.7529
92432660|NCT04518293|184752099|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-2.32||||0.4563|TWO_SIDED|95.0|-8.791|3.772|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 6 was calculated between GMRx2 and dual-AI arms.||3.772|-8.791|0.4563
92237597|NCT01847547|184379424|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||||95.0|0.64|1.7|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.70|0.64|
92237598|NCT01847547|184379425|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||||95.0|0.69|1.36|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.36|0.69|
92432661|NCT04518293|184752100|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.11||||0.9691|TWO_SIDED|95.0|-6.063|5.859|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 12 was calculated between GMRx2 and dual-TA arms.||5.859|-6.063|0.9691
92432662|NCT04518293|184752100|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-3.59||||0.2454|TWO_SIDED|95.0|-10.018|2.462|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 12 was calculated between GMRx2 and dual-TI arms.||2.462|-10.018|0.2454
92237599|NCT01847547|184379426|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||||95.0|0.62|2.45|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||2.45|0.62|
92237600|NCT01847547|184379427|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||||95.0|0.15|0.59|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||0.59|0.15|
92432663|NCT04518293|184752100|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.33||||0.913|TWO_SIDED|95.0|-6.583|5.488|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 12 was calculated between GMRx2 and dual-AI arms.||5.488|-6.583|0.9130
92432664|NCT02446483|184752109|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established when 90% Confidence Interval falls within 80-125%.|Point Estimate Percent|101.32|||||TWO_SIDED|90.0|95.81|107.15||||||||107.15|95.81|
92432665|NCT02446483|184752110|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Point Estimate Percent|98.71|||||TWO_SIDED|90.0|92.54|105.28||||||Comparison of T- rabeprazole 20 mg and R- rabeprazole 20 mg for AUC0-t.||105.28|92.54|
92432666|NCT02446483|184752110|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Point Estimate Percent|98.05|||||TWO_SIDED|90.0|91.81|104.71||||||Comparison of Treatment A- rabeprazole 20 mg and Treatment B- rabeprazole 20 mg for AUC0-infinity.||104.71|91.81|
92432667|NCT02446483|184752111|SUPERIORITY_OR_OTHER|||||||0.0029||95.0|||||Wilcoxon's Signed-Rank Test|||||||0.0029
92237601|NCT01847547|184379428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||||95.0|0.15|0.67|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible.||0.67|0.15|
92237602|NCT01847547|184379429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.27||||||95.0|0.09|0.84|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||0.84|0.09|
92432668|NCT01146418|184752186|SUPERIORITY_OR_OTHER_LEGACY||Estimated Difference|-1.8|||||TWO_SIDED|95.0|-6.5|3.0|||Clopper-Pearson method|Difference calculated using generalized linear model including covariates for treatment group and age class as stratified (≤38 yrs vs \>38 yrs)||||3.0|-6.5|
92432669|NCT01146418|184752187|SUPERIORITY_OR_OTHER_LEGACY||Estimated difference|-1.2|||||TWO_SIDED|95.0|-5.7|3.4|||Clopper-Pearson method|Difference calculated using generalized linear model including covariates for treatment group and age class as stratified (≤38 yrs vs \>38 yrs)||||3.4|-5.7|
92432670|NCT04523220|184752199|OTHER||Cox Proportional Hazard|0.59|||=|0.222|TWO_SIDED|90.0|0.28|1.21||Due to the explorative nature of these analyses, no multiplicity adjustment was done.|Log Rank|||Two-sided log-rank tests and Cox proportional hazards model were used in the analyses.||1.21|0.28|= 0.222
92432671|NCT04523220|184752199|OTHER||Cox Proportional Hazard|0.72|||=|0.427|TWO_SIDED|90.0|0.36|1.42||Due to the explorative nature of these analyses, no multiplicity adjustment was done.|Log Rank|||Two-sided log-rank tests and Cox proportional hazards model were used in the analyses.||1.42|0.36|= 0.427
92432672|NCT04523220|184752200|OTHER||Cox Proportional Hazard|1.27|||=|0.128|TWO_SIDED|90.0|0.98|1.64||Due to the explorative nature of these analyses, no multiplicity adjustment was done.|Log Rank|||Two-sided log-rank tests and Cox proportional hazards model were used in the analyses.||1.64|0.98|= 0.128
92432673|NCT04523220|184752200|OTHER||Cox Proportional Hazard|1.24|||=|0.166|TWO_SIDED|90.0|0.96|1.61||Due to the explorative nature of these analyses, no multiplicity adjustment was done.|Log Rank|||Two-sided log-rank tests and Cox proportional hazards model were used in the analyses.||1.61|0.96|= 0.166
92432674|NCT00256750|184752204|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|3.7|||||TWO_SIDED|97.3|-1.1|9.0||||||||9.0|-1.1|
92432675|NCT00256750|184752204|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|2.7|||||TWO_SIDED|97.3|-2.5|8.1|||||If the lower bound of the CI (belatacept-CsA) was \> -10%, then the corresponding belatacept regimen was considered non-inferior to CsA.|||8.1|-2.5|
92432676|NCT00256750|184752205|SUPERIORITY_OR_OTHER||Difference in Percent|-23.7|||<|0.0001|TWO_SIDED|97.3|-33.3|-13.7|||Chi-squared, Corrected|A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine||||-13.7|-33.3|<.0001
92432677|NCT00256750|184752205|SUPERIORITY_OR_OTHER||Difference in Percent|-22.9|||<|0.0001|TWO_SIDED|97.3|-32.6|-12.9|||Chi-squared, Corrected|A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine||||-12.9|-32.6|<.0001
92432678|NCT00256750|184752206|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens|Difference in Percent|10.0|||||TWO_SIDED|97.3|3.3|17.1|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|||17.1|3.3|
92432679|NCT00256750|184752206|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens. The 20% non-inferiority margin was not met in the belatacept MI group.|Difference in Percent|14.7|||||TWO_SIDED|97.3|7.5|22.2|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|||22.2|7.5|
92432680|NCT00256750|184752207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.0|||<|0.0001|TWO_SIDED|97.3|7.3|18.7||To account for missing measured GFR due to graft loss or death, an ANOVA model on the ranks of measured GFR (with imputed missing values) at Months 12 with factor for randomization group was applied. Measured GFR missing were assigned the worst rank.|Kruskal-Wallis|Tests comparing a belatacept to CsA were based on the Kruskal-Wallis test (using a chi-square approximation of the distribution of the test statistic)|Test were conducted at a level of 0.027 (2-sided).|Time Frame = Day 1 to Month 12||18.7|7.3|<0.0001
92432681|NCT00256750|184752207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.6|||<|0.0001|TWO_SIDED|97.3|8.9|20.4||To account for missing measured GFR due to graft loss or death, an ANOVA model on the ranks of measured GFR (with imputed missing values) at Months 12 with factor for randomization group was applied. Measured GFR missing were assigned the worst rank.|Kruskal-Wallis|Tests comparing a belatacept to CsA were based on the Kruskal-Wallis test (using a chi-square approximation of the distribution of the test statistic)|Test were conducted at a level of 0.027 (2-sided).|Time Frame = Day 1 to Month 12||20.4|8.9|<0.0001
92432682|NCT00256750|184752207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.4|||<|0.0001|TWO_SIDED|97.3|11.5|23.4||To account for missing measured GFR due to graft loss or death, an ANOVA model on the ranks of measured GFR (with imputed missing values) at Months 24 with factor for randomization group was applied. Measured GFR missing were assigned the worst rank.|Kruskal-Wallis|Tests comparing a belatacept to CsA were based on the Kruskal-Wallis test (using a chi-square approximation of the distribution of the test statistic)|Test were conducted at a level of 0.027 (2-sided).|Time Frame = Day 1 to Month 24||23.4|11.5|<0.0001
92432683|NCT00256750|184752207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.5|||<|0.0001|TWO_SIDED|97.3|8.5|20.5||To account for missing measured GFR due to graft loss or death, an ANOVA model on the ranks of measured GFR (with imputed missing values) at Months 24 with factor for randomization group was applied. Measured GFR missing were assigned the worst rank.|Kruskal-Wallis|Tests comparing a belatacept to CsA were based on the Kruskal-Wallis test (using a chi-square approximation of the distribution of the test statistic)|Test were conducted at a level of 0.027 (2-sided).|Time Frame = Day 1 to Month 24||20.5|8.5|<0.0001
92171887|NCT03743636|184233359|SUPERIORITY|Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|Mean Difference (Final Values)|14.05||||0.1195|ONE_SIDED|90.0|-1.25||||Mixed Models Analysis|||Mixed models for repeated measures were used to compare 6-month change in 6MW distance between the NR/resveratrol vs placebo groups and between the NR alone vs placebo groups using baseline, 3-month, and 6-month values, adjusted for age, sex, race, and baseline 6MW.|||-1.25|0.1195
92432684|NCT00256750|184752208|NON_INFERIORITY_OR_EQUIVALENCE|Test of superiority using DerSimonian-Laird statistic at 0.027 level of significance.|Difference in Percent|-8.5||||0.0581|TWO_SIDED|97.3|-17.9|0.9|||Chi-squared, Corrected|A continuity corrected chi-square test at a significance level of 0.027 was performed.||||0.9|-17.9|0.0581
92432685|NCT00256750|184752208|NON_INFERIORITY_OR_EQUIVALENCE|Test of superiority using DerSimonian-Laird statistic at 0.027 level of significance.|Difference in Percent|-14.2||||0.001|TWO_SIDED|97.3|-23.2|-5.0|||Chi-squared, Corrected|A continuity corrected chi-square test at a significance level of 0.027 was performed.||||-5.0|-23.2|0.0010
92432686|NCT00256750|184752213|SUPERIORITY_OR_OTHER||Difference in Percent|-8.5|||||TWO_SIDED|97.3|-14.6|-3.3|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Percent treatment difference measured as Belatacept - LI minus Cyclosporine||-3.3|-14.6|
92432687|NCT00256750|184752213|SUPERIORITY_OR_OTHER||Difference in Percent|-10.3|||||TWO_SIDED|97.3|-16.1|-5.1|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Percent treatment difference measured as Belatacept - LI minus Cyclosporine||-5.1|-16.1|
92432688|NCT00256750|184752217|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|15.3|||||TWO_SIDED|97.3|10.3|20.3|||||ANOVA model: GFR = treatment|Month 12||20.3|10.3|
92432689|NCT00256750|184752217|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|15.1|||||TWO_SIDED|97.3|10.1|20.1|||||ANOVA model: GFR = treatment|Month 12||20.1|10.1|
92237603|NCT01847547|184379430|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||||95.0|0.78|2.01|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||2.01|0.78|
92432690|NCT00256750|184752217|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|17.5|||||TWO_SIDED|97.3|12.0|23.1|||||ANOVA model: GFR = treatment|Month 24||23.1|12.0|
92432691|NCT00256750|184752217|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|17.6|||||TWO_SIDED|97.3|12.0|23.3|||||ANOVA model: GFR = treatment|Month 24||23.3|12.0|
92432692|NCT00256750|184752217|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|21.4|||||TWO_SIDED|97.3|15.4|27.4|||||ANOVA model: GFR = treatment|Month 36||27.4|15.4|
92432693|NCT00256750|184752217|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|20.8|||||TWO_SIDED|97.3|14.8|26.9|||||ANOVA model: GFR = treatment|Month 36||26.9|14.8|
92432694|NCT00256750|184752219|SUPERIORITY_OR_OTHER||Difference in Percent|-5.7||||0.0687|TWO_SIDED|97.3|-12.6|0.5||Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.|Chi-squared|||Month 12||0.5|-12.6|0.0687
92432695|NCT00256750|184752219|SUPERIORITY_OR_OTHER||Difference in Percent|-2.8||||0.4825|TWO_SIDED|97.3|-10.2|4.4||Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.|Chi-squared|||Month 12||4.4|-10.2|0.4825
92432696|NCT00256750|184752219|SUPERIORITY_OR_OTHER||Difference in Percent|-5.1||||0.1267|TWO_SIDED|97.3|-12.3|1.5||Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.|Chi-squared|||Month 24||1.5|-12.3|0.1267
92432697|NCT00256750|184752219|SUPERIORITY_OR_OTHER||Difference in Percent|-2.2||||0.6405|TWO_SIDED|97.3|-9.8|5.4||Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.|Chi-squared|||Month 24||5.4|-9.8|0.6405
92432698|NCT00256750|184752219|SUPERIORITY_OR_OTHER||Difference in Percent|-4.6||||0.2043|TWO_SIDED|97.3|-12.0|2.5|||Chi-squared|Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.||Month 36||2.5|-12.0|0.2043
92432699|NCT00256750|184752219|SUPERIORITY_OR_OTHER||Difference in Percent|-0.9||||0.9481|TWO_SIDED|97.3|-8.8|7.1||Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.|Chi-squared|||Month 36||7.1|-8.8|0.9481
92432700|NCT00256750|184752220|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.0002|TWO_SIDED|97.3|0.31|0.74|||Chi-squared||Odds ratio is estimated by a cumulative logit model.|||0.74|0.31|0.0002
92432701|NCT00256750|184752220|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.6||||0.0092|TWO_SIDED|97.3|0.38|0.92|||Chi-squared||Odds ratio is estimated by a cumulative logit model.|||0.92|0.38|0.0092
92432702|NCT00256750|184752221|SUPERIORITY_OR_OTHER||Difference in Percent|-21.2|||||TWO_SIDED|97.3|-67.6|43.2|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 12||43.2|-67.6|
92432703|NCT00256750|184752221|SUPERIORITY_OR_OTHER||Difference in Percent|-17.9|||||TWO_SIDED|97.3|-72.3|52.2|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 12||52.2|-72.3|
92432704|NCT00256750|184752222|SUPERIORITY_OR_OTHER||Difference in Percent|-1.13|||||TWO_SIDED|97.3|-7.51|5.23|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 12||5.23|-7.51|
92432705|NCT00256750|184752222|SUPERIORITY_OR_OTHER||Difference in Percent|-2.37|||||TWO_SIDED|97.3|-9.01|4.15|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 12||4.15|-9.01|
92432706|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-7.3|||||TWO_SIDED|97.3|-11.4|-3.3||||||Systolic, Month 12||-3.3|-11.4|
92432707|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-6.0|||||TWO_SIDED|97.3|-10.1|-2.0||||||Systolic, Month 12||-2.0|-10.1|
92432708|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-3.2|||||TWO_SIDED|97.3|-5.8|-0.7||||||Diastolic, Month 12||-0.7|-5.8|
92432709|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-2.6|||||TWO_SIDED|97.3|-5.1|0.0||||||Diastolic, Month 12||0.0|-5.1|
92432710|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-4.9|||||TWO_SIDED|97.3|-9.2|-0.6||||||Systolic, Month 24||-0.6|-9.2|
92432711|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-5.5|||||TWO_SIDED|97.3|-9.9|-1.1||||||Systolic, Month 24||-1.1|-9.9|
92432712|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-1.9|||||TWO_SIDED|97.3|-4.4|0.5||||||Diastolic, Month 24||0.5|-4.4|
92432713|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-2.4|||||TWO_SIDED|97.3|-5.0|0.1||||||Diastolic, Month 24||0.1|-5.0|
92432714|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-5.8|||||TWO_SIDED|97.3|-10.0|-1.6||||||Systolic, Month 36||-1.6|-10.0|
92432715|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-7.5|||||TWO_SIDED|97.3|-11.7|-3.3||||||Systolic, Month 36||-3.3|-11.7|
92432716|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-2.9|||||TWO_SIDED|97.3|-5.4|-0.4||||||Diastolic, Month 36||-0.4|-5.4|
92432717|NCT00256750|184752223|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-3.4|||||TWO_SIDED|97.3|-6.0|-0.9||||||Diastolic, Month 36||-0.9|-6.0|
92432718|NCT00256750|184752224|SUPERIORITY_OR_OTHER||Difference in Percent|7.1|||||TWO_SIDED|97.3|-2.9|17.1|||||A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine|At Month 12||17.1|-2.9|
92432719|NCT00256750|184752224|SUPERIORITY_OR_OTHER||Difference in Percent|3.2|||||TWO_SIDED|97.3|-6.6|12.9|||||A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine|At Month 12||12.9|-6.6|
92432720|NCT00256750|184752225|SUPERIORITY_OR_OTHER||Difference in Percent|7.01|||||TWO_SIDED|97.3|-2.79|16.71|||||A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine|||16.71|-2.79|
92432721|NCT00256750|184752225|SUPERIORITY_OR_OTHER||Difference in Percent|3.77|||||TWO_SIDED|97.3|-5.86|13.35|||||A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine|||13.35|-5.86|
92432722|NCT00256750|184752230|SUPERIORITY_OR_OTHER||Difference in Percent|-10.4|||||TWO_SIDED|97.3|-21.4|1.0||||||||1.0|-21.4|
92432723|NCT00256750|184752230|SUPERIORITY_OR_OTHER||Difference in Percent|-8.7|||||TWO_SIDED|97.3|-19.9|2.7||||||||2.7|-19.9|
92432724|NCT00256750|184752232|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens|Difference in Percent|11.4|||||TWO_SIDED|97.3|5.0|18.2|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 6||18.2|5.0|
92237604|NCT01847547|184379432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||||95.0|0.48|1.14|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.14|0.48|
92432725|NCT00256750|184752232|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens|Difference in Percent|16.5|||||TWO_SIDED|97.3|9.6|23.8|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 6||23.8|9.6|
92432726|NCT00256750|184752232|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens.|Difference in Percent|8.2|||||TWO_SIDED|97.3|1.2|15.4|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used|Month 24||15.4|1.2|
92432727|NCT00256750|184752232|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens.|Difference in Percent|15.2|||||TWO_SIDED|97.3|7.5|23.0|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 24||23.0|7.5|
92432728|NCT00256750|184752232|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens.|Difference in Percent|7.8|||||TWO_SIDED|97.3|0.6|15.0|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 36||15.0|0.6|
92432729|NCT00256750|184752232|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens.|Difference in Percent|14.7|||||TWO_SIDED|97.3|7.0|22.6|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 36||22.6|7.0|
92432730|NCT00256750|184752234|SUPERIORITY_OR_OTHER||Difference in Percent|-3.2|||||TWO_SIDED|95.0|-6.6|-0.6|||||For 95% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|||-0.6|-6.6|
92237605|NCT01847547|184379433|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||||95.0|0.47|2.2|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||2.20|0.47|
92432731|NCT00256750|184752234|SUPERIORITY_OR_OTHER||Difference in Percent|-3.2|||||TWO_SIDED|95.0|-6.6|-0.6|||||For 95% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|||-0.6|-6.6|
92432732|NCT00256750|184752238|SUPERIORITY_OR_OTHER||Difference in Percent|-0.5|||||TWO_SIDED|97.3|-6.5|5.3||||||Month 12||5.3|-6.5|
92432733|NCT00256750|184752238|SUPERIORITY_OR_OTHER||Difference in Percent|-0.9|||||TWO_SIDED|97.3|-6.9|4.8||||||||4.8|-6.9|
92432734|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.5||||0.6573|TWO_SIDED|95.0|-1.6|2.6||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 6||2.6|-1.6|0.6573
92432735|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.7||||0.1198|TWO_SIDED|95.0|-0.4|3.9||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 6||3.9|-0.4|0.1198
92432736|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.0672|TWO_SIDED|95.0|-0.1|3.2||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 6||3.2|-0.1|0.0672
92432737|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0257|TWO_SIDED|95.0|0.2|3.6||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 6||3.6|0.2|0.0257
92237606|NCT01847547|184379434|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||||95.0|0.21|1.98|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and very few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.98|0.21|
92237607|NCT01847547|184379435|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||||95.0|0.5|1.08|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.08|0.50|
92237608|NCT01847547|184379436|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||||95.0|0.21|0.76|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||0.76|0.21|
92237609|NCT01847547|184379437|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||||95.0|0.58|1.55|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.55|0.58|
92237610|NCT01847547|184379438|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.36||||||95.0|0.32|5.72|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and very few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||5.72|0.32|
92237611|NCT01847547|184379439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||||95.0|0.83|3.08|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||3.08|0.83|
92237612|NCT01847547|184379440|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||||95.0|0.57|3.7|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||3.70|0.57|
92237613|NCT01847547|184379441|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||||95.0|0.67|1.35|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible.||1.35|0.67|
92237614|NCT01847547|184379442|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||||95.0|0.79|2.01|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||2.01|0.79|
92432738|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.4146|TWO_SIDED|95.0|-1.2|2.9||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 12||2.9|-1.2|0.4146
92432739|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.4||||0.7327|TWO_SIDED|95.0|-1.7|2.4||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 12||2.4|-1.7|0.7327
92237615|NCT04392011|184379443|OTHER||AUC ratio (geometric mean)|1.39|||||TWO_SIDED|90.0|1.23|1.57||||||||1.57|1.23|
92237616|NCT04392011|184379444|OTHER||AUC ratio (geometric mean)|0.99|||||TWO_SIDED|90.0|0.83|1.19||||||||1.19|0.83|
92432740|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.1||||0.0144|TWO_SIDED|95.0|0.4|3.8||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 12||3.8|0.4|0.0144
92237617|NCT04392011|184379446|OTHER||Cmax ratio (midazolam)|1.5|||||TWO_SIDED|90.0|1.32|1.7||||||||1.70|1.32|
92237618|NCT04392011|184379446|OTHER||Cmax ratio (dextromethorphan)|0.96|||||TWO_SIDED|90.0|0.78|1.19||||||||1.19|0.78|
92237619|NCT04392011|184379448|OTHER||half-life ratio (dextromethorphan)|1.0|||||TWO_SIDED|90.0|0.92|1.08||||||||1.08|0.92|
92237620|NCT04392011|184379448|OTHER||half-life ratio (midazolam)|1.07|||||TWO_SIDED|90.0|0.98|1.17||||||||1.17|0.98|
92237621|NCT02795767|184379490|OTHER||ABR Ratio|0.01|||||TWO_SIDED|95.0|0.006|0.023|||||Emicizumab QW is the numerator and Prophylactic/Episodic Bypassing Agent is the denominator.|||0.023|0.006|
92237622|NCT02795767|184379491|OTHER||ABR Ratio|0.1|||||TWO_SIDED|95.0|0.051|0.21|||||Emicizumab QW is the numerator and Prophylactic/Episodic Bypassing Agent is the denominator.|||0.210|0.051|
92237623|NCT01748760|184379526|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Chi-squared|||||||.87
92237624|NCT00044044|184379533|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92237625|NCT00044044|184379534|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92237626|NCT00044044|184379535|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92237627|NCT00044044|184379536|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92237628|NCT01855789|184379563|NON_INFERIORITY|Non-inferiority of TCZ + PBO was claimed if the upper bound of the 95% confidence interval (CI) for the mean difference was below 0.6.|Estimated Mean Difference|0.318|STANDARD_ERROR_OF_MEAN|0.139|||TWO_SIDED|95.0|0.045|0.592||||||Analysis of covariance (ANCOVA) model included Week 24 DAS28 as a covariate, treatment group, and the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>/=2.6 to \</=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>/=100 kg qw), participant anti-tumor necrosis factor (anti-TNF) exposure (Yes/No).||0.592|0.045|
92237629|NCT01855789|184379564|SUPERIORITY||ACR 20 Response Rate Difference|-10.2||||0.0746|TWO_SIDED|95.0|-20.2|-0.2|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 40: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||-0.2|-20.2|0.0746
92171888|NCT03743636|184233360|SUPERIORITY||Mean Difference (Final Values)|2.06||||0.0752|ONE_SIDED|90.0|0.24|||The a priori statistical analysis plan defined a one-sided P value of \< 0.10 to define statistical significance.|ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||0.24|0.0752
92237630|NCT01855789|184379564|SUPERIORITY||ACR 20 Response Rate Difference|-8.8||||0.1159|TWO_SIDED|95.0|-19.3|1.6|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 52: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||1.6|-19.3|0.1159
92279799|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.8553||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 208601\_s\_at||||0.8553
92432741|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.8||||0.0015|TWO_SIDED|95.0|1.1|4.5||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 12||4.5|1.1|0.0015
92432742|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.234|TWO_SIDED|95.0|-0.8|3.4||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 24||3.4|-0.8|0.2340
92432743|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.5||||0.6635|TWO_SIDED|95.0|-1.7|2.6||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 24||2.6|-1.7|0.6635
92432744|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.8||||0.0417|TWO_SIDED|95.0|0.1|3.5||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 24||3.5|0.1|0.0417
92432745|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.7||||0.0026|TWO_SIDED|95.0|0.9|4.4||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 24||4.4|0.9|0.0026
92432746|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0953|TWO_SIDED|95.0|-0.3|4.1||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 36||4.1|-0.3|0.0953
92279800|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.6926||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.6926
92432747|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1961|TWO_SIDED|95.0|-0.8|3.7||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 36||3.7|-0.8|0.1961
92237631|NCT01855789|184379564|SUPERIORITY||ACR 20 Response Rate Difference|-8.2|||||TWO_SIDED|95.0|-15.8|-0.6|||||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 24||-0.6|-15.8|
92237632|NCT01855789|184379565|SUPERIORITY||ACR 50 Response Rate Difference|-13.6||||0.0377|TWO_SIDED|95.0|-24.8|-2.4|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 40: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||-2.4|-24.8|0.0377
92237633|NCT01855789|184379565|SUPERIORITY||ACR 50 Response Rate Difference|-15.0||||0.013|TWO_SIDED|95.0|-26.2|-3.7|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 52: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||-3.7|-26.2|0.0130
92237634|NCT01855789|184379565|SUPERIORITY||ACR 50 Response Rate Difference|-10.9|||||TWO_SIDED|95.0|-21.4|-0.4|||||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 24||-0.4|-21.4|
92237635|NCT01855789|184379566|SUPERIORITY||ACR 70 Response Rate Difference|-8.2||||0.3599|TWO_SIDED|95.0|-19.2|2.9|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 40: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||2.9|-19.2|0.3599
92432748|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.1||||0.0191|TWO_SIDED|95.0|0.3|3.9||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 36||3.9|0.3|0.0191
92432749|NCT00256750|184752240|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.7||||0.0684|TWO_SIDED|95.0|-0.1|3.5||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 36||3.5|-0.1|0.0684
92237636|NCT01855789|184379566|SUPERIORITY||ACR 70 Response Rate Difference|-11.6||||0.0663|TWO_SIDED|95.0|-22.8|-0.3|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 52: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||-0.3|-22.8|0.0663
92432750|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0714|TWO_SIDED|95.0|-0.2|3.9|||ANOVA|Domain Score = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 6||3.9|-0.2|0.0714
92432751|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.0||||0.0536|TWO_SIDED|95.0|0.0|4.1|||ANOVA|Domain score = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 6||4.1|-0.0|0.0536
92237637|NCT01855789|184379566|SUPERIORITY||ACR 70 Response Rate Difference|-8.2|||||TWO_SIDED|95.0|-19.4|3.1|||||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 24||3.1|-19.4|
92237638|NCT01855789|184379567|SUPERIORITY||DAS28 Worsening Rate Difference|7.5||||0.2371|TWO_SIDED|95.0|-2.4|17.3|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 40: Analysis of association between treatment group and worsening in DAS28, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||17.3|-2.4|0.2371
92432752|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.3||||0.7543|TWO_SIDED|95.0|-1.6|2.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 6||2.2|-1.6|0.7543
92432753|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.1||||0.2499|TWO_SIDED|95.0|-0.8|3.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 6||3.0|-0.8|0.2499
92432754|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.2||||0.8332|TWO_SIDED|95.0|-1.9|2.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 6||2.3|-1.9|0.8332
92432755|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.2523|TWO_SIDED|95.0|-0.9|3.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 6||3.4|-0.9|0.2523
92237639|NCT01855789|184379567|SUPERIORITY||DAS28 Worsening Rate Difference|3.4||||0.4811|TWO_SIDED|95.0|-6.9|13.7|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 52: Analysis of association between treatment group and worsening in DAS28, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||13.7|-6.9|0.4811
92432756|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.9||||0.3018|TWO_SIDED|95.0|-0.8|2.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 6||2.7|-0.8|0.3018
92432757|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.6||||0.5437|TWO_SIDED|95.0|-1.2|2.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 6||2.3|-1.2|0.5437
92432758|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.237|TWO_SIDED|95.0|-0.9|3.6|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 6||3.6|-0.9|0.2370
92432759|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0588|TWO_SIDED|95.0|-0.1|4.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 6||4.5|-0.1|0.0588
92432760|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.0||||0.0502|TWO_SIDED|95.0|0.0|4.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Physical, Month 6||4.0|-0.0|0.0502
92432761|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|3.6||||0.0007|TWO_SIDED|95.0|1.5|5.6|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 6||5.6|1.5|0.0007
92432762|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.3||||0.7637|TWO_SIDED|95.0|-1.8|2.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 6||2.4|-1.8|0.7637
92432763|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.4||||0.7006|TWO_SIDED|95.0|-1.7|2.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 6||2.5|-1.7|0.7006
92432764|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1222|TWO_SIDED|95.0|-0.4|3.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 6||3.4|-0.4|0.1222
92237640|NCT01855789|184379568|SUPERIORITY||DAS28 Remission Rate Difference|-9.5||||0.1062|TWO_SIDED|95.0|-20.9|1.8|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 40: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||1.8|-20.9|0.1062
92432765|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0289|TWO_SIDED|95.0|0.2|4.1|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 6||4.1|0.2|0.0289
92432766|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0571|TWO_SIDED|95.0|-0.1|3.8|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 12||3.8|-0.1|0.0571
92432767|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.9||||0.0042|TWO_SIDED|95.0|0.9|4.9|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 12||4.9|0.9|0.0042
92432768|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0423|TWO_SIDED|95.0|0.1|3.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 12||3.7|0.1|0.0423
92432769|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.3||||0.0174|TWO_SIDED|95.0|0.4|4.1|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 12||4.1|0.4|0.0174
92432770|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.0||||0.363|TWO_SIDED|95.0|-1.1|3.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 12||3.0|-1.1|0.3630
92432771|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.5||||0.6319|TWO_SIDED|95.0|-1.6|2.6|||ANOVA|Missing data were imputed by LOCF|Missing data were imputed by LOCF|Mental Health, Month 12||2.6|-1.6|0.6319
92432772|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.8||||0.0503|TWO_SIDED|95.0|0.0|3.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 12||3.7|-0.0|0.0503
92432773|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.9||||0.3291|TWO_SIDED|95.0|-0.9|2.8|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 12||2.8|-0.9|0.3291
92432774|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.0||||0.386|TWO_SIDED|95.0|-1.2|3.1|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 12||3.1|-1.2|0.3860
92432775|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.0||||0.9672|TWO_SIDED|95.0|-2.2|2.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 12||2.3|-2.2|0.9672
92237641|NCT01855789|184379568|SUPERIORITY||DAS28 Remission Rate Difference|-6.8||||0.3611|TWO_SIDED|95.0|-18.2|4.6|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 52: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||4.6|-18.2|0.3611
92237642|NCT01855789|184379569|SUPERIORITY||Low DAS28 Rate Difference|-13.6||||0.0228|TWO_SIDED|95.0|-24.0|-3.3|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 40: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||-3.3|-24.0|0.0228
92432776|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.1||||0.0392|TWO_SIDED|95.0|0.1|4.1|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 12||4.1|0.1|0.0392
92432777|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.5||||0.0151|TWO_SIDED|95.0|0.5|4.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 12||4.5|0.5|0.0151
92432778|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.3978|TWO_SIDED|95.0|-1.1|2.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 12||2.7|-1.1|0.3978
92432779|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1263|TWO_SIDED|95.0|-0.4|3.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 12||3.5|-0.4|0.1263
92432780|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.3||||0.016|TWO_SIDED|95.0|0.4|4.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 12||4.2|0.4|0.0160
92432781|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.6||||0.0075|TWO_SIDED|95.0|0.7|4.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 12||4.5|0.7|0.0075
92432782|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.4||||0.699|TWO_SIDED|95.0|-1.6|2.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 24||2.4|-1.6|0.6990
92432783|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1608|TWO_SIDED|95.0|-0.6|3.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 24||3.5|-0.6|0.1608
92432784|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0214|TWO_SIDED|95.0|0.3|4.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 24||4.0|0.3|0.0214
92432785|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.5||||0.00886|TWO_SIDED|95.0|0.6|4.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 24||4.4|0.6|0.00886
92432786|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.2||||0.2555|TWO_SIDED|95.0|-0.9|3.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 24||3.3|-0.9|0.2555
92432787|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.4804|TWO_SIDED|95.0|-1.4|2.9|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 24||2.9|-1.4|0.4804
92432788|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0276|TWO_SIDED|95.0|0.2|4.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 24||4.2|0.2|0.0276
92432789|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1285|TWO_SIDED|95.0|-0.4|3.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 24||3.5|-0.4|0.1285
92432790|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.7||||0.1352|TWO_SIDED|95.0|-0.5|3.9|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 24||3.9|-0.5|0.1352
92432791|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.2663|TWO_SIDED|95.0|-1.0|3.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 24||3.5|-1.0|0.2663
92432792|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.5||||0.0164|TWO_SIDED|95.0|0.5|4.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 24||4.5|0.5|0.0164
92432793|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|3.9||||0.0002|TWO_SIDED|95.0|1.9|5.9|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 24||5.9|1.9|0.0002
92432794|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.1914|TWO_SIDED|95.0|-0.7|3.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 24||3.3|-0.7|0.1914
92432795|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.4||||0.6882|TWO_SIDED|95.0|-1.6|2.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 24||2.4|-1.6|0.6882
92432796|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.0||||0.0547|TWO_SIDED|95.0|0.0|4.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 24||4.0|-0.0|0.0547
92432797|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.7||||0.0992|TWO_SIDED|95.0|-0.3|3.8|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 24||3.8|-0.3|0.0992
92432798|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.3||||0.0339|TWO_SIDED|95.0|0.2|4.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 36||4.4|0.2|0.0339
92432799|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.0||||0.3572|TWO_SIDED|95.0|-1.1|3.1|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 36||3.1|-1.1|0.3572
92432800|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.3||||0.0211|TWO_SIDED|95.0|0.3|4.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 36||4.2|0.3|0.0211
92432801|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.0||||0.045|TWO_SIDED|95.0|0.0|4.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 36||4.0|0.0|0.0450
92432802|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.171|TWO_SIDED|95.0|-0.7|3.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 36||3.7|-0.7|0.1710
92432803|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.2484|TWO_SIDED|95.0|-0.9|3.6|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 36||3.6|-0.9|0.2484
92432804|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.1836|TWO_SIDED|95.0|-0.6|3.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 36||3.2|-0.6|0.1836
92237643|NCT01855789|184379569|SUPERIORITY||Low DAS28 Rate Difference|-5.4||||0.3665|TWO_SIDED|95.0|-16.3|5.4|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 52: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||5.4|-16.3|0.3665
92237644|NCT01855789|184379570|SUPERIORITY||Estimated Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.21|0.68|||||TCZ + PBO minus TCZ + MTX|ANCOVA model included Week 24 bone erosion as a covariate, treatment group, and the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>/=2.6 to \</=3.2), participant anti-TNF exposure (Yes/No), baseline weight-by-dosing group (\<80 kg q2w, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw).||0.68|-0.21|
92237645|NCT01863758|184379574|SUPERIORITY_OR_OTHER||Annualized number of bleeding episodes|3.13|||<|0.05|TWO_SIDED|95.0|2.56|3.8|||2-sided, 1-sample Poisson test||The annualized number of bleeding episodes in study GENA-01 was 49.36.|This study was considered as showing efficacy if the annualized number of bleeding episodes (BE) was reduced by 50% compared to the number of BEs observed in study GENA-01 (NCT00989196).||3.80|2.56|<0.05
92432805|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.0||||0.3303|TWO_SIDED|95.0|-1.0|2.9|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 36||2.9|-1.0|0.3303
92432806|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.5||||0.0299|TWO_SIDED|95.0|0.2|4.8|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 36||4.8|0.2|0.0299
92432807|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.1141|TWO_SIDED|95.0|-0.4|4.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 36||4.2|-0.4|0.1141
92432808|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.7||||0.0087|TWO_SIDED|95.0|0.7|4.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 36||4.7|0.7|0.0087
92432809|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.6||||0.0128|TWO_SIDED|95.0|0.6|4.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 36||4.7|0.6|0.0128
92432810|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1369|TWO_SIDED|95.0|-0.5|3.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 36||3.5|-0.5|0.1369
92432811|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.5||||0.6331|TWO_SIDED|95.0|-1.5|2.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 36||2.5|-1.5|0.6331
92432812|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0361|TWO_SIDED|95.0|0.1|4.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 36||4.3|0.1|0.0361
92432813|NCT00256750|184752241|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.1||||0.0525|TWO_SIDED|95.0|0.0|4.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 36||4.2|-0.0|0.0525
92432814|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.024|||<|0.0001|TWO_SIDED|95.0|-0.032|-0.015||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 6. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.015|-0.032|<0.0001
92432815|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.019|||<|0.0001|TWO_SIDED|95.0|-0.028|-0.011||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 6. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.011|-0.028|<0.0001
92432816|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.023|||<|0.0001|TWO_SIDED|95.0|-0.031|-0.014||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 6.||-0.014|-0.031|<0.0001
92432817|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.026|||<|0.0001|TWO_SIDED|95.0|-0.035|-0.017||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 6.||-0.017|-0.035|<0.0001
92432818|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.024|||<|0.0001|TWO_SIDED|95.0|-0.032|-0.016||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 12. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.016|-0.032|<0.0001
92432819|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.02|||<|0.0001|TWO_SIDED|95.0|-0.029|-0.012||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 12. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.012|-0.029|<0.0001
92432820|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.026|||<|0.0001|TWO_SIDED|95.0|-0.034|-0.017||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 12.||-0.017|-0.034|<0.0001
92432821|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.025|||<|0.0001|TWO_SIDED|95.0|-0.034|-0.016||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 12.||-0.016|-0.034|<0.0001
92237646|NCT01863758|184379575|SUPERIORITY_OR_OTHER||Annualized number of spontaneous BEs|1.9|||<|0.05|TWO_SIDED|95.0|1.46|2.43|||2-sided, 1-sample Poisson test||The annualized number of spontaneous bleeding episodes in study GENA-01 was 32.23|This study was considered as showing efficacy if the annualized number of spontaneous bleeding episodes (BE) was reduced by 50% compared to the number of spontaneous BEs observed in study GENA-01 (NCT00989196).||2.43|1.46|<0.05
92237647|NCT02975349|184379587|SUPERIORITY||Lesion rate ratio|1.45||||0.2947|TWO_SIDED|95.0|0.72|2.91|||Negative Binomial model|||||2.91|0.72|0.2947
92237648|NCT02975349|184379587|SUPERIORITY||Lesion rate ratio|0.3||||0.0015|TWO_SIDED|95.0|0.14|0.63|||Negative Binomial model|||||0.63|0.14|0.0015
92237649|NCT02975349|184379587|SUPERIORITY||Lesion rate ratio|0.44||||0.0313|TWO_SIDED|95.0|0.21|0.93|||Negative Binomial model|||||0.93|0.21|0.0313
92237650|NCT02975349|184379588|SUPERIORITY||Qualified relapse rate ratio|1.66||||0.2692|TWO_SIDED|95.0|0.67|4.09|||Negative Binomial model|||||4.09|0.67|0.2692
92432822|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.021|||<|0.0001|TWO_SIDED|95.0|-0.03|-0.013||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 24. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.013|-0.030|<0.0001
92432823|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.015|||<|0.0001|TWO_SIDED|95.0|-0.024|-0.007||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 24. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.007|-0.024|<0.0001
92432824|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.023|||<|0.0001|TWO_SIDED|95.0|-0.031|-0.015||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 24||-0.015|-0.031|<0.0001
92432825|NCT00256750|184752242|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.021|||<|0.0001|TWO_SIDED|95.0|-0.03|-0.013||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 24||-0.013|-0.030|<0.0001
92432826|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.4498|TWO_SIDED|95.0|-1.2|2.7|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 6||2.7|-1.2|0.4498
92432827|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0584|TWO_SIDED|95.0|-0.1|3.9|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 6||3.9|-0.1|0.0584
92432828|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.1||||0.1595|TWO_SIDED|95.0|-0.5|2.7|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 6||2.7|-0.5|0.1595
92432829|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.7||||0.0457|TWO_SIDED|95.0|0.0|3.3|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 6||3.3|0.0|0.0457
92432830|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.1729|TWO_SIDED|95.0|-0.6|3.2|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 12||3.2|-0.6|0.1729
92432831|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.4209|TWO_SIDED|95.0|-1.1|2.7|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 12||2.7|-1.1|0.4209
92432832|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.6||||0.0526|TWO_SIDED|95.0|0.0|3.2|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 12||3.2|-0.0|0.0526
92432833|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0077|TWO_SIDED|95.0|0.6|3.9|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 12||3.9|0.6|0.0077
92432834|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.4||||0.1849|TWO_SIDED|95.0|-0.6|3.4|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 24||3.4|-0.6|0.1849
92432835|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.4633|TWO_SIDED|95.0|-1.3|2.8|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 24||2.8|-1.3|0.4633
92432836|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.4||||0.0971|TWO_SIDED|95.0|-0.3|3.0|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 24||3.0|-0.3|0.0971
92432837|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0102|TWO_SIDED|95.0|0.5|3.8|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 24||3.8|0.5|0.0102
92237651|NCT02975349|184379588|SUPERIORITY||Qualified relapse rate ratio|0.31||||0.0896|TWO_SIDED|95.0|0.08|1.2|||Negative Binomial model|||||1.20|0.08|0.0896
92237652|NCT02975349|184379588|SUPERIORITY||Qualified relapse rate ratio|0.23||||0.0633|TWO_SIDED|95.0|0.05|1.09|||Negative Binomial model|||||1.09|0.05|0.0633
92432838|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.5||||0.0186|TWO_SIDED|95.0|0.4|4.5|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 36||4.5|0.4|0.0186
92432839|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0775|TWO_SIDED|95.0|-0.2|4.0|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 36||4.0|-0.2|0.0775
92432840|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.6||||0.0768|TWO_SIDED|95.0|-0.2|3.3|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 36||3.3|-0.2|0.0768
92432841|NCT00256750|184752243|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.2||||0.1876|TWO_SIDED|95.0|-0.6|2.9|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 36||2.9|-0.6|0.1876
92432842|NCT00256750|184752245|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|4.2|||||TWO_SIDED|97.3|-1.3|10.1||||||Month 24||10.1|-1.3|
92432843|NCT00256750|184752245|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|3.6|||||TWO_SIDED|97.3|-2.2|9.6||||||Month 24||9.6|-2.2|
92432844|NCT00256750|184752245|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|3.3|||||TWO_SIDED|97.3|-2.9|9.8||||||Month 36||9.8|-2.9|
92432845|NCT00256750|184752245|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|3.5|||||TWO_SIDED|97.3|-2.8|10.0||||||||10.0|-2.8|
92432846|NCT00256750|184752246|SUPERIORITY_OR_OTHER||Difference in Percent|5.9|||||TWO_SIDED|95.0|-1.0|12.8||||||Month 12||12.8|-1.0|
92432847|NCT00256750|184752246|SUPERIORITY_OR_OTHER||Difference in Percent|11.5|||||TWO_SIDED|95.0|4.2|18.9||||||Month 12||18.9|4.2|
92432848|NCT00256750|184752246|SUPERIORITY_OR_OTHER||Difference in Percent|1.8|||||TWO_SIDED|95.0|-5.5|9.1||||||Month 24||9.1|-5.5|
92432849|NCT00256750|184752246|SUPERIORITY_OR_OTHER||Difference in Percent|9.8|||||TWO_SIDED|95.0|1.9|17.6||||||Month 24||17.6|1.9|
92432850|NCT00256750|184752246|SUPERIORITY_OR_OTHER||Difference in Percent|0.9|||||TWO_SIDED|95.0|-6.6|8.4||||||Month 36||8.4|-6.6|
92432851|NCT00256750|184752246|SUPERIORITY_OR_OTHER||Difference in Percent|8.4|||||TWO_SIDED|95.0|0.4|16.4||||||Month 36||16.4|0.4|
92432852|NCT04659161|184752248|SUPERIORITY||LS mean difference|-9.6|||<|0.0001|TWO_SIDED|95.0|-13.9|-5.2|||Mixed Model for Repeated Measures||||Statistics are from a mixed model for repeated measures (MMRM). The model includes the treatment group (KarXT or placebo), visit, and the interaction between the treatment group and visit as fixed factors, and baseline PANSS total score, site, age, and gender as covariates. An unstructured covariance matrix is used to model the correlation among repeated measurements and the denominator degrees of freedom are computed using the Kenward-Roger method.|-5.2|-13.9|<0.0001
92432853|NCT04659161|184752249|SUPERIORITY||||||<|0.0001|||||||Mixed Model for Repeated Measures|||||||<0.0001
92432854|NCT04659161|184752250|SUPERIORITY|||||||0.0055|||||||Mixed Model Repeated Measures|||||||0.0055
92432855|NCT04659161|184752251|SUPERIORITY|||||||0.0022|||||||Mixed Model for Repeated Measures|||||||0.0022
92432856|NCT04659161|184752252|SUPERIORITY||||||<|0.0001|||||||Mixed Model for Repeated Measures|||||||<0.0001
92432857|NCT04659161|184752253|SUPERIORITY||||||<|0.0001|||||||Mixed Model for Repeated Measures|||||||<0.0001
92237653|NCT02975349|184379589|SUPERIORITY||Odds Ratio (OR)|0.75||||0.5609|TWO_SIDED|95.0|0.29|1.95|||Logistic model|||||1.95|0.29|0.5609
92237654|NCT02975349|184379589|SUPERIORITY||Odds Ratio (OR)|2.79||||0.0689|TWO_SIDED|95.0|0.92|8.41|||Logistic model|||||8.41|0.92|0.0689
92432858|NCT02197130|184752262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.52|STANDARD_ERROR_OF_MEAN|1.192||0.2033|TWO_SIDED|90.0|-0.45|3.49|||MMRM|MMRM: A linear mixed-effect repeated measures model||||3.49|-0.45|0.2033
92432859|NCT02197130|184752262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|1.118||0.7549|TWO_SIDED|90.0|-2.2|1.5|||MMRM|||||1.50|-2.20|0.7549
92237655|NCT02975349|184379589|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1767|TWO_SIDED|95.0|0.72|5.99|||Logistic model|||||5.99|0.72|0.1767
92237656|NCT02975349|184379590|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.407|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon rank-sum test|||||0.00|0.00|0.4070
92237657|NCT02975349|184379590|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.5829|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon rank-sum test|||||0.00|0.00|0.5829
92237658|NCT02975349|184379590|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.2732|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon rank-sum test|||||0.00|0.00|0.2732
92237659|NCT02975349|184379602|SUPERIORITY||Lesion rate ratio|1.36||||0.3676|TWO_SIDED|95.0|0.7|2.65|||Negative Binomial|||||2.65|0.70|0.3676
92432860|NCT02197130|184752274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.54|STANDARD_ERROR_OF_MEAN|0.515||0.003|TWO_SIDED|90.0|0.69|2.39|||MMRM|||Week 13||2.39|0.69|0.0030
92432861|NCT02197130|184752274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.36|STANDARD_ERROR_OF_MEAN|0.491||0.4656|TWO_SIDED|90.0|-0.45|1.17|||MMRM|||Week 13||1.17|-0.45|0.4656
92432862|NCT02197130|184752274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.21|STANDARD_ERROR_OF_MEAN|0.492||0.0149|TWO_SIDED|90.0|0.39|2.02|||MMRM|||Week 26||2.02|0.39|0.0149
92432863|NCT02197130|184752274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.46||0.8233|TWO_SIDED|90.0|-0.66|0.86|||MMRM|||Week 26||0.86|-0.66|0.8233
92432864|NCT02197130|184752276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.148||0.0181|TWO_SIDED|90.0|0.11|0.6|||MMRM|||Week 13||0.60|0.11|0.0181
92432865|NCT02197130|184752276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7133|TWO_SIDED|90.0|-0.18|0.28|||MMRM|||Week 13||0.28|-0.18|0.7133
92432866|NCT02197130|184752276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.163||0.4657|TWO_SIDED|90.0|-0.15|0.39|||MMRM|||Week 26||0.39|-0.15|0.4657
92432867|NCT02197130|184752276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.15||0.8339|TWO_SIDED|90.0|-0.22|0.28|||MMRM|||Week 26||0.28|-0.22|0.8339
92432868|NCT02615145|184752283|SUPERIORITY|||||||0.111||||||Between group change comparison: overall. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 12||||0.1110
92432869|NCT02615145|184752283|SUPERIORITY||difference in LS means|1.64||||0.2704|TWO_SIDED|95.0|-1.28|4.56||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 12||4.56|-1.28|0.2704
92432870|NCT02615145|184752283|SUPERIORITY||difference in LS means|-0.09||||0.9516|TWO_SIDED|95.0|-3.17|2.98||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 12||2.98|-3.17|0.9516
92432871|NCT02615145|184752283|SUPERIORITY||difference in LS means|-1.73||||0.0489|TWO_SIDED|95.0|-3.46|-0.01||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 12||-0.01|-3.46|0.0489
92432872|NCT02615145|184752283|SUPERIORITY|||||||0.9785||||||Between group change comparison: overall. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 48||||0.9785
92432873|NCT02615145|184752283|SUPERIORITY||difference in LS means|-0.13||||0.9379|TWO_SIDED|95.0|-3.37|3.11||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 48||3.11|-3.37|0.9379
92432874|NCT02615145|184752283|SUPERIORITY||difference in LS means|0.07||||0.9678|TWO_SIDED|95.0|-3.33|3.47||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 48||3.47|-3.33|0.9678
92432875|NCT02615145|184752283|SUPERIORITY||difference in LS means|0.2||||0.8373|TWO_SIDED|95.0|-1.7|2.1||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 48||2.10|-1.70|0.8373
92432876|NCT02615145|184752283|SUPERIORITY||Mean Difference (Final Values)|6.37|||<|0.0001|TWO_SIDED|95.0|5.417|7.32|||paired t-test|paired t-test of whether difference in means is 0||Week 12 vs Baseline across all participants||7.320|5.417|< 0.0001
92432877|NCT02615145|184752283|SUPERIORITY||Mean Difference (Final Values)|10.15|||<|0.0001|TWO_SIDED|95.0|8.936|11.362|||paired t-test|paired t-test of whether difference in means is 0||Week 48 vs Baseline across all participants||11.362|8.936|< 0.0001
92432878|NCT02615145|184752288|SUPERIORITY|||||||0.5751||||||Between group change comparison: overall. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||EOT||||0.5751
92432879|NCT02615145|184752288|SUPERIORITY||difference in LS means|2.29||||0.5176|TWO_SIDED|95.0|-4.66|9.23||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||EoT||9.23|-4.66|0.5176
92432880|NCT02615145|184752288|SUPERIORITY||difference in LS means|0.324||||0.9308|TWO_SIDED|95.0|-7.0|7.64||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||EoT||7.64|-7.00|0.9308
92432881|NCT02615145|184752288|SUPERIORITY||difference in LS means|-1.96||||0.3462|TWO_SIDED|95.0|-6.06|2.13||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||EoT||2.13|-6.06|0.3462
92432882|NCT02615145|184752288|SUPERIORITY|||||||0.7016||||||Between group change comparison: overall. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||12 Weeks after EoT||||0.7016
92432883|NCT02615145|184752288|SUPERIORITY||difference in LS means|-2.61||||0.4002|TWO_SIDED|95.0|-8.71|3.49||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||12 weeks after EoT||3.49|-8.71|0.4002
92432884|NCT02615145|184752288|SUPERIORITY||difference in LS means|-2.33||||0.475|TWO_SIDED|95.0|-8.74|4.08||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||12 weeks after EoT||4.08|-8.74|0.4750
92432885|NCT02615145|184752288|SUPERIORITY||difference in LS means|0.282||||0.874|TWO_SIDED|95.0|-3.21|3.77||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||12 weeks after EoT||3.77|-3.21|0.8740
92432886|NCT02615145|184752288|SUPERIORITY|||||||0.7211||||||Between group change comparison: overall. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||48 weeks after EoT||||0.7211
92432887|NCT02615145|184752288|SUPERIORITY||difference in LS means|-3.67||||0.4256|TWO_SIDED|95.0|-12.7|5.39||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||48 weeks after EoT||5.39|-12.7|0.4256
92432888|NCT02615145|184752288|SUPERIORITY||difference in LS means|-3.01||||0.5347|TWO_SIDED|95.0|-12.6|6.54||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||48 weeks after EoT||6.54|-12.6|0.5347
92432889|NCT02615145|184752288|SUPERIORITY||difference in LS means|0.654||||0.792|TWO_SIDED|95.0|-4.23|5.54||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||48 weeks after EoT||5.54|-4.23|0.7920
92432890|NCT02615145|184752288|SUPERIORITY||Mean Difference (Final Values)|5.64|||<|0.0001|TWO_SIDED|95.0|3.355|7.935|||paired t-test|paired t-test of mean difference from 0||Baseline to EOT across all participants||7.935|3.355|< 0.0001
92432891|NCT02615145|184752288|SUPERIORITY||Mean Difference (Final Values)|10.21|||<|0.0001|TWO_SIDED|95.0|8.113|12.299|||paired t-test|paired t-test of mean difference versus 0||Baseline vs 12 weeks after EOT across all participants||12.299|8.113|< 0.0001
92432892|NCT02615145|184752288|SUPERIORITY||Mean Difference (Final Values)|10.13|||<|0.0001|TWO_SIDED|95.0|7.259|12.992|||paired t-test|paired t-test of mean difference versus 0||baseline vs 48 weeks after EOT across all participants||12.992|7.259|< 0.0001
92432893|NCT02615145|184752289|SUPERIORITY|||||||0.3869||||||Between group change comparison: overall. The dependent variable in the change of PAM-13 from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||||||0.3869
92432894|NCT02615145|184752289|SUPERIORITY||difference in LS means|-1.89||||0.3125|TWO_SIDED|95.0|-5.57|1.79||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable in the change of PAM-13 from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||||1.79|-5.57|0.3125
92432895|NCT02615145|184752289|SUPERIORITY||difference in LS means|-2.65||||0.1741|TWO_SIDED|95.0|-6.48|1.18||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable in the change of PAM-13 from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||||1.18|-6.48|0.1741
92432896|NCT02615145|184752289|SUPERIORITY||difference in LS means|-0.76||||0.4941|TWO_SIDED|95.0|-2.94|1.42||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable in the change of PAM-13 from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||||1.42|-2.94|0.4941
92432897|NCT02615145|184752289|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.8842|TWO_SIDED|95.0|-1.271|1.096|||paired t-test|paired t-test of mean difference vs 0||Change from Baseline to Final visit across all participants||1.096|-1.271|0.8842
92237660|NCT02975349|184379602|SUPERIORITY||Lesion rate ratio|0.27||||0.0005|TWO_SIDED|95.0|0.13|0.57|||Negative Binomial|||||0.57|0.13|0.0005
92237661|NCT02975349|184379602|SUPERIORITY||Lesion rate ratio|0.41||||0.0157|TWO_SIDED|95.0|0.2|0.85|||Negative Binomial|||||0.85|0.20|0.0157
92432898|NCT02320669|184752293|SUPERIORITY||Cox Proportional Hazard|1.083|||<|0.05|TWO_SIDED|95.0|0.82|1.432|||Regression, Cox|||||1.432|.82|<.05
92432899|NCT00006237|184752298|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Log Rank|||||||0.49
92432900|NCT00006237|184752299|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Log Rank|||||||0.02
92432901|NCT00911820|184752318|SUPERIORITY|||||||0.714|||||||Log Rank|||||||0.714
92432902|NCT00911820|184752320|SUPERIORITY|||||||0.605|||||||Fisher Exact|||||||0.605
92432903|NCT00911820|184752321|SUPERIORITY|||||||0.721|||||||Log Rank|||||||0.721
92432904|NCT02674529|184752344|OTHER|This was a mechanistic trial and non-inferiority or equivalence analysis were not performed.|regression coefficient|-1.29864|STANDARD_ERROR_OF_MEAN|2.3||0.58|TWO_SIDED|95.0|||||Regression, Linear|Drug (antidepressant vs. placebo) prediction of changes in mood as measured by the MADRS scores.||||||0.58
92432905|NCT02674529|184752344|OTHER||r|0.02||||0.05|TWO_SIDED||||||Correlation|Change in MADRS after 8 weeks correlation with brain responses during the baseline fMRI task.||||||0.05
92432906|NCT02674529|184752345|OTHER|This is a mechanistic trial, we did not perform non-inferiority or equivalence analysis.|regression coefficient|-1.4328918|STANDARD_DEVIATION|1.4||0.8|TWO_SIDED|95.0|||||Regression, Linear|||||||0.8
92432907|NCT02674529|184752346|OTHER||||||<|0.05||||||The resulting voxel-wise parametric maps are thresholded with height and extent values generated by Monte Carlo simulations with 3dClustSim to protect against overall type I error at p \< 0.05.|t-test, 2 sided|||At the group-level, a random-effects analysis determines the main effects of the regressors of interest (e.g., high vs. low expectancy) resulting in statistical parametric maps (t or F statistics). To control for potential confounders, sex and depression severity will be entered as covariates in statistical models.||||<0.05
92446545|NCT02477020|184780042|SUPERIORITY_OR_OTHER||Least mean square difference|-0.37|STANDARD_ERROR_OF_MEAN|0.173||0.034|TWO_SIDED|95.0|-0.72|-0.03||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 2||-0.03|-0.72|0.034
92446546|NCT02477020|184780042|SUPERIORITY_OR_OTHER||Least square mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.203||0.006|TWO_SIDED|95.0|-0.97|-0.17||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 3||-0.17|-0.97|0.006
92446547|NCT02477020|184780042|SUPERIORITY_OR_OTHER||Least square mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.22||0.013|TWO_SIDED|95.0|-0.99|-0.12||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 4||-0.12|-0.99|0.013
92446548|NCT02477020|184780042|SUPERIORITY_OR_OTHER||Least mean square difference|-0.56|STANDARD_ERROR_OF_MEAN|0.238||0.02|TWO_SIDED|95.0|-1.03|-0.09||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 5||-0.09|-1.03|0.020
92237662|NCT02975349|184379603|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.9731|TWO_SIDED|95.0|-0.25|0.25|||Wilcoxon rank-sum test|||||0.25|-0.25|0.9731
92432908|NCT03761277|184752366|NON_INFERIORITY|This analysis was to demonstrate pain intensity scores (VAS) at the 6-Month Visit is non-inferior to VAS at Baseline, i.e., the change in pain intensity is not greater than 0 by more than 10 points from Baseline to the 6-Month Visit, with change calculated as 6-Month - Baseline.|Mean Difference (Final Values)|-15.0|STANDARD_DEVIATION|25.0|<|0.001|ONE_SIDED|97.5||-7.1|||Wilcoxon Signed Rank test|||This analysis was to demonstrate pain intensity scores (VAS) at the 6-Month Visit is non-inferior to VAS at Baseline, i.e., the change in pain intensity is not greater than 0 by more than 10 points from Baseline to the 6-Month Visit.|Due to non-normality, the non-inferiority test was conducted using a Wilcoxon Signed Rank test, rather than a one-sample t-test. Mean reduction in VAS and the upper 97.5% confidence limit are presented, but the change from baseline was evaluated using non-parametric analysis methods.|-7.1||< 0.001
92432909|NCT03761277|184752366|SUPERIORITY|This analysis was to demonstrate pain intensity scores (VAS) at the 6-Month Visit are less than VAS at Baseline, i.e., the reduction in pain intensity is less than 0 from Baseline to the 6-Month Visit, with change calculated as 6-Month - Baseline.|Mean Difference (Final Values)|-15.0|STANDARD_DEVIATION|25.0|<|0.001|TWO_SIDED|95.0|-22.7|-7.1|||Wilcoxon Signed Rank test|||This analysis was to demonstrate pain intensity scores (VAS) at the 6-Month Visit are less than VAS at Baseline, i.e., the reduction in pain intensity is less than 0 from Baseline to the 6-Month Visit.|Due to non-normality, the superiority test was conducted using a Wilcoxon Signed Rank test, rather than a one-sample t-test. Mean reduction in VAS and 95% confidence interval are presented, but the change from baseline was evaluated using non-parametric analysis methods.|-7.1|-22.7|< 0.001
92432910|NCT00759031|184752371|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92432911|NCT00543140|184752372|SUPERIORITY_OR_OTHER|||||||0.6919|TWO_SIDED|||||No adjustments for multiple comparisons were performed as only one hypothesis was tested in this study. The level of significance was set at 0.05.|Exact Binomial method|||The primary analysis used a one-sided binomial exact test method by Clopper and Pearson to determine if the rate of reoperations observed in Years 4 and 5 (combined) of the study was significantly less than 8%. The null hypothesis was that the reoperation rate was greater than or equal to 8%.||||0.6919
92432912|NCT02483520|184752386|SUPERIORITY||LSM Estimate|0.03||||0.977|TWO_SIDED|95.0|-2.02|2.08|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||2.08|-2.02|.977
92432913|NCT02483520|184752387|SUPERIORITY||LSM Estimate|-0.22||||0.812|TWO_SIDED|95.0|-2.09|1.64|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||1.64|-2.09|.812
92432914|NCT02483520|184752390|SUPERIORITY||LSM Estimate|-1.5||||0.343|TWO_SIDED|95.0|-4.64|1.64|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||1.64|-4.64|.343
92432915|NCT02483520|184752391|SUPERIORITY||LSM Estimate|-4.79||||0.012|TWO_SIDED|95.0|-8.51|-1.08|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||-1.08|-8.51|.012
92432916|NCT02483520|184752392|SUPERIORITY||LSM Estimate|0.77||||0.033|TWO_SIDED|95.0|0.07|1.47|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||1.47|0.07|.033
92432917|NCT02483520|184752395|SUPERIORITY|||||||0.211|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for differences between mean group changes using Wilcoxon rank-sum test at 3 months||||.211
92432918|NCT02483520|184752395|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for within- group changes using Wilcoxon signed-rank test between baseline and 3 months||||<.001
92432919|NCT02483520|184752396|SUPERIORITY|||||||0.476|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for differences between mean group changes using Wilcoxon rank-sum test at 3 months||||.476
92432920|NCT02483520|184752396|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for within- group changes using Wilcoxon signed-rank test between baseline and 3 months||||.005
92432921|NCT02483520|184752397|SUPERIORITY|||||||0.677|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for differences between mean group changes using Wilcoxon rank-sum test at 3 months||||.677
92432922|NCT02483520|184752397|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for within- group changes using Wilcoxon signed-rank test between baseline and 3 months||||.020
92237663|NCT02975349|184379603|SUPERIORITY||Hodges-Lehmann estimate|-0.25||||0.0017|TWO_SIDED|95.0|-0.5|0.0|||Wilcoxon rank-sum test|||||0.00|-0.50|0.0017
92237664|NCT02975349|184379603|SUPERIORITY||Hodges-Lehmann estimate|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.25|||Wilcoxon rank-sum test|||||-0.25|-0.75|< 0.0001
92237665|NCT02975349|184379604|SUPERIORITY||Lesion Rate ratio|1.29||||0.4807|TWO_SIDED|95.0|0.63|2.65|||Negative Binomial|||||2.65|0.63|0.4807
92237666|NCT02975349|184379604|SUPERIORITY||Lesion Rate ratio|0.5||||0.062|TWO_SIDED|95.0|0.24|1.04|||Negative Binomial|||||1.04|0.24|0.0620
92237667|NCT02975349|184379604|SUPERIORITY||Lesion Rate ratio|0.42||||0.0189|TWO_SIDED|95.0|0.2|0.87|||Negative Binomial|||||0.87|0.20|0.0189
92237668|NCT02975349|184379605|SUPERIORITY||Difference in least squares means|0.02||||0.8776|TWO_SIDED|95.0|-0.24|0.28|||Mixed Effect Model for Repeat Measures||Difference in least squares means of change from baseline in cube root of volume measured in centimeter.|||0.28|-0.24|0.8776
92237669|NCT02975349|184379605|SUPERIORITY||Difference in least squares means|-0.41||||0.0019|TWO_SIDED|95.0|-0.66|-0.15|||Mixed Effect Model for Repeat Measures||Difference in least squares means of change from baseline in cube root of volume measured in centimeter.|||-0.15|-0.66|0.0019
92237670|NCT02975349|184379605|SUPERIORITY||Difference in least squares means|-0.36||||0.0063|TWO_SIDED|95.0|-0.62|-0.1|||Mixed Effect Model for Repeat Measures||Difference in least squares means of change from baseline in cube root of volume measured in centimeter.|||-0.10|-0.62|0.0063
92237671|NCT02975349|184379606|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.9315|TWO_SIDED|95.0|-0.004|0.009|||Wilcoxon rank-sum test|||||0.009|-0.004|0.9315
92237672|NCT02975349|184379606|SUPERIORITY||Hodges-Lehmann estimate|-0.014||||0.0008|TWO_SIDED|95.0|-0.05|0.0|||Wilcoxon rank-sum test|||||0.000|-0.050|0.0008
92432923|NCT02483520|184752398|SUPERIORITY||LSM Estimate|-0.62||||0.432|TWO_SIDED|95.0|-2.18|0.94|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||0.94|-2.18|.432
92432924|NCT02483520|184752399|SUPERIORITY|||||||0.255|||||||Wilcoxon (Mann-Whitney)|||||||.255
92432925|NCT01104493|184752404|NON_INFERIORITY_OR_EQUIVALENCE|H0 (null): Rate difference ≥ 5 percentage points This corresponded to a null hypothesis of: HA (alternative): rate difference \< 5 percentage points.|rate difference|0.4|||||TWO_SIDED|95.0|-5.2|2.6|||score statistic|||Comparison of the rate of fever between the 2 treatment groups was based on the upper limit of the two-sided 95% exact confidence intervals (CIs) for the rate increase (Monovalent vaccine minus Placebo) evaluated against the prespecified equivalence criterion of 5 percentage points.||2.6|-5.2|
92432926|NCT02033694|184752411|OTHER||Cox Proportional Hazard|1.21||||0.0004|TWO_SIDED|95.0|1.09|1.35|||Regression, Cox|||Hypothesis 1 (Vulnerable Patient Hypothesis) first fit a univariate proportional hazards regression model in which maxLCBI4mm is the only independent variable and NC-MACE during 2 years is the outcome. The null hypothesis tested by the Wald test that the regression coefficient in a proportional hazards regression model is significantly different from 0. This analysis determined whether maxLCBI4mmI is a risk factor for NC-MACE.||1.35|1.09|0.0004
92432927|NCT02033694|184752411|OTHER||Cox Proportional Hazard|1.45|||<|0.0001|TWO_SIDED|95.0|1.3|1.6|||Regression, Cox|||Hypothesis 2 (Vulnerable Plaque Hypothesis) first fit a univariate proportional hazards regression model in which maxLCBI4mm in the coronary artery segment is the measure of exposure and NC-MACE during 2 years caused by a new culprit lesion in that segment is the outcome. This analysis was performed with adjustment for the potential clustering effect within patient utilizing the Wei, Lin and Weissfeld (WLW) methodology. This analysis determined whether maxLCBI4mm is a risk factor NC-MACE.||1.60|1.30|<0.0001
92432928|NCT02033694|184752412|OTHER||Cox Proportional Hazard|2.18|||<|0.0001|TWO_SIDED|95.0|1.48|3.22|||Regression, Cox|||Secondary Hypothesis 1 (Vulnerable Patient)- Cox proportional hazards regression model to assess a threshold of maxLCBI4mm \> 400 as the independent variable and NC-MACE during 2 years as the outcome.||3.22|1.48|<0.0001
92432929|NCT02033694|184752412|OTHER||Cox Proportional Hazard|4.22|||<|0.0001|TWO_SIDED|95.0|2.39|7.45|||Regression, Cox|||Secondary Hypothesis 2 (Vulnerable Plaque)- Cox proportional hazards regression model to assess a threshold of maxLCBI4mm \> 400 in the coronary artery segment as the independent variable and NC-MACE during 2 years caused by a new culprit lesion in that segment is the outcome.||7.45|2.39|<0.0001
92237673|NCT02975349|184379606|SUPERIORITY||Hodges-Lehmann estimate|-0.018||||0.0014|TWO_SIDED|95.0|-0.042|0.0|||Wilcoxon rank-sum test|||||0.000|-0.042|0.0014
92237674|NCT01663740|184379625|SUPERIORITY_OR_OTHER||Mean Difference|-40.166|STANDARD_ERROR_OF_MEAN|14.1387||0.0075|TWO_SIDED|95.0|-68.869|-11.463|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm density,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in sperm density from Baseline to EOT|||-11.463|-68.869|0.0075
92237675|NCT01663740|184379626|SUPERIORITY_OR_OTHER||Mean Difference|1.758|STANDARD_ERROR_OF_MEAN|2.646||0.5109|TWO_SIDED|95.0|-3.619|7.135|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline TUNEL score,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in TUNEL score from Baseline to EOT|||7.135|-3.619|0.5109
92432930|NCT02442869|184752422|SUPERIORITY||Net difference in proportion|1.73||||0.19|TWO_SIDED|95.0|-2.41|15.35|||Chi-squared|Df (1)|NNT = 5.59|Due to the large number of zeroes in the Suicidal Ideation (SI)-Current Subscale of the SSI at post (over a third of the participants reported no SI at the end of treatment), a zero-altered model was utilized which divided the outcome into (1) the probability of any SI and (2) the intensity of SI when non-zero, as done in other studies. This analysis tested the difference between the CAMS and TAU arms based on number of participants reporting no SI post Stage 1 treatment.||15.35|-2.41|0.19
92432931|NCT02442869|184752423|SUPERIORITY||Net difference in proportion|1.3||||0.25|TWO_SIDED||||||Regression, Logistic|||||||0.25
92432932|NCT02442869|184752424|SUPERIORITY|Power analyses. We determined that with a sample size of 62 clients, the outcome analyses had at least 80% power to detect an effect size of 0.80 (Ahn etal., 2001)|Mean Difference (Net)|0.55||||0.035|TWO_SIDED|95.0|0.04|1.05|||t-test, 2 sided|t(60) = 2.15||||1.05|0.04|0.035
92432933|NCT03521934|184752425|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|95.0|0.52|0.85|||Cox proportional hazards model|||The estimates of the hazard ratio (HR) and corresponding 2-sided 95% confidence interval (CI) was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-cardiovascular (non-CV) death treated as a competing event.||0.85|0.52|< 0.001
92432934|NCT03521934|184752426|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.001|TWO_SIDED|95.0|0.49|0.83|||Cox proportional hazards model|||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.83|0.49|< 0.001
92432935|NCT03521934|184752427|SUPERIORITY||Hazard Ratio (HR)|0.84|||=|0.36|TWO_SIDED|95.0|0.58|1.22|||Cox proportional hazards model|||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||1.22|0.58|= 0.36
92432936|NCT03521934|184752428|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.56|0.92||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.92|0.56|
92432937|NCT03521934|184752429|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.54|0.86||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.86|0.54|
92432938|NCT03521934|184752430|SUPERIORITY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.59|1.14||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction.||1.14|0.59|
92171889|NCT03743636|184233361|SUPERIORITY||Mean Difference (Final Values)|-7.1||||0.8703|ONE_SIDED|90.0|-15.19||||ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-15.19|0.8703
92237676|NCT01663740|184379626|SUPERIORITY_OR_OTHER||Mean Difference|-1.051|STANDARD_ERROR_OF_MEAN|3.2058||0.7449|TWO_SIDED|95.0|-7.566|5.464|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline TUNEL score,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in TUNEL score from Baseline to end of FU|||5.464|-7.566|0.7449
92237677|NCT01663740|184379627|SUPERIORITY_OR_OTHER||Mean Difference|2.869|STANDARD_ERROR_OF_MEAN|3.2934||0.394|TWO_SIDED|95.0|-4.001|9.739|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline TUNEL score,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in TUNEL score from EOT to end of FU|||9.739|-4.001|0.3940
92432939|NCT03521934|184752431|SUPERIORITY||Hazard Ratio (HR)|4.1|||||TWO_SIDED|95.0|1.3|7.0||||||The change from baseline to Month 4 was analyzed using an ANCOVA model with treatment groups as factor and baseline KCCQ-12 score and randomization stratification factors as covariates.||7|1.3|
92432940|NCT03521934|184752432|SUPERIORITY||Difference in Least Squares Means|-0.16|||||TWO_SIDED|95.0|-1.3|0.98||||||Rate of decline in eGFR observed over time was analyzed by MMRM with absolute change in eGFR from baseline as the outcome, a random effect for intercept, and fixed effects for treatment, baseline value, and time.||0.98|-1.3|
92432941|NCT01391559|184752436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.0||||0.17||95.0|||||t-test, 2 sided|||||||0.17
92432942|NCT04182763|184752457|SUPERIORITY|||||||0.5|||||||Wald test after neg binomial regression|Chi-squared with 3 d.f.||Mean counts of events per person were calculated from a negative binomial regression model with categorical coefficients for active dose levels, controlling for the baseline number of prescriptions. A joint test of the null hypothesis that the three regression parameters representing active treatment = 0 was done.||||0.50
92432943|NCT04182763|184752462|SUPERIORITY|||||||0.105||||||Two-sided threshold of p\<.10|Linear contrast / test for trend|Contrast after mixed-effects GLM with log link, random subject intercept, treatment, PKAN type, and time (1 mo vs 3d).||Test that high \> med \> low \> placebo vs the null that all groups are equal at 1 month + 3 days after first dose. Adjusted for PKAN type (classical or atypical), because randomization was stratified on type, and time point.||||0.105
92432944|NCT04182763|184752462|SUPERIORITY|||||||0.55||||||Two-sided threshold of p\<.10|Linear contrast / test for trend|Contrast after GLM with log link, treatment, and PKAN type.||Test that high \> med \> low \> placebo vs the null that all groups are equal at 6 months after first dose. PKAN type (classical or atypical) was included because randomization was stratified on type. The study hypothesis was that expression levels would not vary significantly at this time point.||||0.55
92432945|NCT01774604|184752530|SUPERIORITY_OR_OTHER|||||||0.33|||||||Fisher Exact|||||||0.33
92432946|NCT01774604|184752531|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
92279801|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2222||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.2222
92432947|NCT01774604|184752532|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
92432948|NCT01774604|184752533|SUPERIORITY_OR_OTHER|||||||0.15|||||||Fisher Exact|||||||0.15
92432949|NCT01774604|184752534|SUPERIORITY_OR_OTHER|||||||0.75|||||||Fisher Exact|||||||0.75
92432950|NCT01774604|184752535|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher Exact|||||||0.25
92432951|NCT01774604|184752536|SUPERIORITY_OR_OTHER|||||||0.1|||||||Fisher Exact|||||||0.10
92432952|NCT04545385|184752570|OTHER||Odds Ratio (OR)|1.49||||0.7817|TWO_SIDED|95.0|0.545|4.071|||Regression, Logistic|||Analysis was performed using logistic regression with fixed effects for treatment, baseline FEV1, weight, age group, and gender.||4.071|0.545|0.7817
92432953|NCT01217801|184752588|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|93.77||||0.05|TWO_SIDED|90.0|89.15|98.63|||Regression, Linear|||Linear mixed effect model, log transformed AUC, LSMeans for treatment Film and Tablet, the difference between the LSMeans and 90%CI calculated and transformed to geometric means, ratio estimates and 90%CI||98.63|89.15|0.05
92432954|NCT00291577|184752629|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|98.89||||||90.0|80.34|121.73|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|SU011248 C1D2 vs C2D3. Due to the exploratory nature of the study, no statistical hypothesis testing was done since the primary purpose was to assess the tolerability of the combination of SU011248 with docetaxel.||121.73|80.34|
92432955|NCT00291577|184752629|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|81.96||||||90.0|59.76|112.41|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|SU012662 C1D2 vs C2D3||112.41|59.76|
92432956|NCT00291577|184752629|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|97.81||||||90.0|80.44|118.94|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|Total drug C1D2 vs C2D3||118.94|80.44|
92432957|NCT00291577|184752630|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|101.23||||||90.0|82.75|123.83|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|SU011248 C1D2 vs C2D3||123.83|82.75|
92432958|NCT00291577|184752630|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|81.72||||||90.0|62.4|107.04|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|SU012662 C1D2 vs C2D3||107.04|62.40|
92432959|NCT00291577|184752630|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|100.0||||||90.0|82.95|120.56|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|Total drug C1D2 vs C2D3||120.56|82.95|
92432960|NCT00291577|184752634|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|99.18||||||90.0|78.73|124.95|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|C1D1 vs C2D1||124.95|78.73|
92432961|NCT00291577|184752635|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|94.98||||||90.0|78.73|114.58|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|C1D1 vs C2D1||114.58|78.73|
92432962|NCT00291577|184752637|SUPERIORITY_OR_OTHER||rate (percent)|73.7||||||95.0|48.8|90.9|||||Two-sided Confidence Interval (CI) (%) from exact method based on F distribution.|Overall confirmed objective response rate (CR + PR)||90.9|48.8|
92432963|NCT00291577|184752638|SUPERIORITY_OR_OTHER||rate (percent)|89.5||||||95.0|66.9|98.7|||||Two-sided CI (%) from exact method based on F distribution.|Clinical Benefit Rate (CR + PR + SD \> = 24 weeks)||98.7|66.9|
92432964|NCT00291577|184752640|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|95.57||||||90.0|79.9|114.32|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|C1D1 vs C2D1||114.32|79.90|
92432965|NCT00291577|184752641|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|112.39||||||90.0|81.05|155.85|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|C1D1 vs C2D1||155.85|81.05|
92432966|NCT00291577|184752642|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|95.79||||||90.0|79.82|114.96|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|C1D1 vs C2D1||114.96|79.82|
92237678|NCT01663740|184379628|SUPERIORITY_OR_OTHER||Mean Difference|0.155|STANDARD_ERROR_OF_MEAN|0.3687||0.6773|TWO_SIDED|95.0|-0.594|0.903|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline semen volume,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in seminal volume from Basline to EOT|||0.903|-0.594|0.6773
92171890|NCT03743636|184233362|SUPERIORITY||Mean Difference (Final Values)|10995.0||||0.1402|ONE_SIDED|90.0|-2078.0||||ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-2078|0.1402
92237679|NCT01663740|184379628|SUPERIORITY_OR_OTHER||Mean Difference|-0.128|STANDARD_ERROR_OF_MEAN|0.3343||0.7046|TWO_SIDED|95.0|-0.806|0.551|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline semen volume,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in seminal volume from Baseline to end of FU|||0.551|-0.806|0.7046
92237680|NCT01663740|184379629|SUPERIORITY_OR_OTHER||Mean Difference|-0.128|STANDARD_ERROR_OF_MEAN|0.3684||0.7323|TWO_SIDED|95.0|-0.888|0.633|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline semen volume,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in seminal volume from EOT to end of FU|||0.633|-0.888|0.7323
92432967|NCT03473977|184752649|OTHER|||||||0.0001|||||||Fisher Exact|||||||0.0001
92432968|NCT03473977|184752650|OTHER|||||||0.75|||||||Kruskal-Wallis|||||||0.75
92432969|NCT03473977|184752651|OTHER|||||||0.006|||||||Kruskal-Wallis|||||||0.006
92432970|NCT03473977|184752652|OTHER|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92432971|NCT03473977|184752653|OTHER|||||||0.0058|||||||t-test, 2 sided|||||||0.0058
92432972|NCT03473977|184752654|OTHER|||||||0.014|||||||Kruskal-Wallis|||||||0.014
92432973|NCT03473977|184752655|OTHER|||||||0.78|||||||Kruskal-Wallis|||Pain Score Comparison||||0.78
92432974|NCT03473977|184752655|OTHER|||||||0.34|||||||Kruskal-Wallis|||Non-pain score comparison||||0.34
92432975|NCT03473977|184752655|OTHER|||||||0.66|||||||Kruskal-Wallis|||Satisfaction score comparison||||0.66
92432976|NCT00545662|184752656|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.76|TWO_SIDED|95.0|0.83|1.14||a priori threshold for statistical significance is 0.05|Regression, Logistic|Logistic regression estimated global OR. GEE accounted for correlations of the scales. Models adjusted for site \& injury severity.|The odds in the citicoline group were compared to the odds in the placebo group.|"Null hypothesis: The placebo and citicoline groups do not differ at 90-days on the Core Battery~Power:~1. Two sided type I error of 0.05~2. 85% power~3. Expected OR=1.40 for the global statistic~4. Response rate in the control group~5. Correlations among the nine measures were accounted for. Response rates for the whole sample were a weighted average of the rates provided by TBI severity.~1240 participants were required to detect an OR \>= 1.4 for the global statistic."||1.14|0.83|0.76
92432977|NCT03845985|184752657|SUPERIORITY|||||||0.838||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.838
92237681|NCT01663740|184379630|SUPERIORITY_OR_OTHER||Mean Difference|51.267|STANDARD_ERROR_OF_MEAN|36.6869||0.1756|TWO_SIDED|95.0|-24.626|127.159|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm density,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in sperm density from EOT to end of FU|||127.159|-24.626|0.1756
92171891|NCT03743636|184233363|SUPERIORITY||Mean Difference (Final Values)|-35.13||||0.8401|ONE_SIDED|90.0|-81.2||||ANCOVA||||||-81.20|0.8401
92432978|NCT03845985|184752658|SUPERIORITY|||||||0.62||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.620
92432979|NCT03845985|184752659|SUPERIORITY|||||||0.713||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.713
92432980|NCT03845985|184752660|SUPERIORITY|||||||0.509||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.509
92432981|NCT03845985|184752661|SUPERIORITY|||||||0.491||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.491
92432982|NCT03845985|184752662|SUPERIORITY|||||||0.715||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.715
92432983|NCT03845985|184752663|SUPERIORITY|||||||0.665||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.665
92432984|NCT03845985|184752664|SUPERIORITY|||||||0.875||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.875
92432985|NCT03845985|184752665|SUPERIORITY|||||||0.61||||||Analysis was significantly underpowered.|t-test, 2 sided|||Comparison of the Risk and Aggression/Liquid Courage/Sociability Subscale||||.610
92432986|NCT03845985|184752665|SUPERIORITY|||||||0.658||||||Analysis was significantly underpowered.|t-test, 2 sided|||Comparison of the Self-Perception/Cognitive and Behavioral Impairment Subscale||||.658
92432987|NCT03845985|184752665|SUPERIORITY|||||||1||||||Analysis was significantly underpowered.|t-test, 2 sided|||Comparison of the Sexuality Subscale||||1.000
92432988|NCT03845985|184752665|SUPERIORITY|||||||0.007||||||Analysis was significantly underpowered.|t-test, 2 sided|||Comparison of the Tension Reduction Subscale||||.007
92432989|NCT03845985|184752666|SUPERIORITY|||||||0.407||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.407
92432990|NCT03845985|184752667|SUPERIORITY|||||||0.893||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.893
92432991|NCT03845985|184752668|SUPERIORITY|||||||0.709||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.709
92432992|NCT03926169|184752671|SUPERIORITY||Adjusted Response Rate Difference (%)|6.0||||0.422|TWO_SIDED|97.5|-10.8|22.8||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||22.8|-10.8|0.422
92432993|NCT03926169|184752671|SUPERIORITY||Adjusted Response Rate Difference (%)|1.3||||0.858|TWO_SIDED|97.5|-15.4|18.1||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||18.1|-15.4|0.858
92432994|NCT03926169|184752672|SUPERIORITY||Adjusted Response Rate Difference (%)|-3.0||||0.725|TWO_SIDED|97.5|-21.8|15.9||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||15.9|-21.8|0.725
92237682|NCT01663740|184379631|SUPERIORITY_OR_OTHER||Mean Difference|-10.195|STANDARD_ERROR_OF_MEAN|19.5745||0.6058|TWO_SIDED|95.0|-49.934|29.543|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm density,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in sperm density from Baseline to end of FU|||29.543|-49.934|0.6058
92432995|NCT03926169|184752672|SUPERIORITY||Adjusted Response Rate Difference (%)|8.8||||0.301|TWO_SIDED|97.5|-10.3|27.8||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||27.8|-10.3|0.301
92432996|NCT03926169|184752673|SUPERIORITY||Adjusted Response Rate Difference (%)|3.7||||0.65|TWO_SIDED|97.5|-14.5|21.8||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||21.8|-14.5|0.650
92432997|NCT03926169|184752673|SUPERIORITY||Adjusted Response Rate Difference (%)|12.3||||0.147|TWO_SIDED|97.5|-6.7|31.3||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||31.3|-6.7|0.147
92432998|NCT03926169|184752674|SUPERIORITY||Adjusted Response Rate Difference (%)|-6.5||||0.342|TWO_SIDED|97.5|-21.8|8.8||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||8.8|-21.8|0.342
92432999|NCT03926169|184752674|SUPERIORITY||Adjusted Response Rate Difference (%)|-10.6||||0.108|TWO_SIDED|97.5|-25.3|4.2||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||4.2|-25.3|0.108
92433000|NCT03926169|184752675|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.97||0.179|TWO_SIDED|97.5|-3.5|0.9||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.9|-3.5|0.179
92433001|NCT03926169|184752675|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.98||0.105|TWO_SIDED|97.5|-3.8|0.6||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.6|-3.8|0.105
92433002|NCT03926169|184752676|SUPERIORITY||LS Mean Difference|0.118|STANDARD_ERROR_OF_MEAN|0.3385||0.727|TWO_SIDED|97.5|-0.646|0.883||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.883|-0.646|0.727
92433003|NCT03926169|184752676|SUPERIORITY||LS Mean Difference|-0.015|STANDARD_ERROR_OF_MEAN|0.3273||0.963|TWO_SIDED|97.5|-0.755|0.724||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.724|-0.755|0.963
92433004|NCT03926169|184752677|SUPERIORITY||LS Mean Difference|0.042|STANDARD_ERROR_OF_MEAN|0.2941||0.886|TWO_SIDED|97.5|-0.622|0.706||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.706|-0.622|0.886
92433005|NCT03926169|184752677|SUPERIORITY||LS Mean Difference|0.236|STANDARD_ERROR_OF_MEAN|0.2851||0.409|TWO_SIDED|97.5|-0.408|0.879||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.879|-0.408|0.409
92433006|NCT03926169|184752678|SUPERIORITY||LS Mean Difference|-0.252|STANDARD_ERROR_OF_MEAN|0.3212||0.434|TWO_SIDED|97.5|-0.977|0.473||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.473|-0.977|0.434
92433007|NCT03926169|184752678|SUPERIORITY||LS Mean Difference|-0.074|STANDARD_ERROR_OF_MEAN|0.3123||0.813|TWO_SIDED|97.5|-0.779|0.631||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.631|-0.779|0.813
92433008|NCT03334539|184752679|SUPERIORITY||Least Squares (LS) Mean Difference|0.11||||0.3378|TWO_SIDED|95.0|-0.12|0.34||P-value was calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.34|-0.12|0.3378
92433009|NCT03334539|184752679|SUPERIORITY||LS Mean Difference|0.12||||0.2883|TWO_SIDED|95.0|-0.1|0.35||P-value was calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.35|-0.10|0.2883
92433010|NCT03334539|184752679|OTHER||LS Mean Difference|0.01||||0.9293|TWO_SIDED|95.0|-0.22|0.24||P-value calculated using a model with treatment, baseline score, and site as covariates|ANCOVA|||||0.24|-0.22|0.9293
92433011|NCT03334539|184752680|SUPERIORITY||LS Mean Difference|-0.3||||0.1473|TWO_SIDED|95.0|-0.7|0.1||P-value calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.1|-0.7|0.1473
92433012|NCT03334539|184752680|SUPERIORITY||LS Mean Difference|-0.3||||0.2321|TWO_SIDED|95.0|-0.7|0.2||P-value calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.2|-0.7|0.2321
92433013|NCT03334539|184752680|OTHER||LS Mean Difference|0.0||||0.8217|TWO_SIDED|95.0|-0.4|0.5||P-value calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.5|-0.4|0.8217
92237683|NCT01663740|184379632|SUPERIORITY_OR_OTHER||Mean Difference|-21.828|STANDARD_ERROR_OF_MEAN|9.1214||0.0222|TWO_SIDED|95.0|-40.346|-3.311|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm motility,age,duration of pre-transplant dialysis as explanatory variables.|Change in total motility of sperm from Baseline to EOT|||-3.311|-40.346|0.0222
92237684|NCT01663740|184379632|SUPERIORITY_OR_OTHER||Mean Difference|-9.802|STANDARD_ERROR_OF_MEAN|8.3702||0.2495|TWO_SIDED|95.0|-26.795|7.19|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm motility,age,duration of pre-transplant dialysis as explanatory variables.|Change in total motility of sperm from Baseline to end of FU|||7.190|-26.795|0.2495
92237685|NCT01663740|184379633|SUPERIORITY_OR_OTHER||Mean Difference|-11.683|STANDARD_ERROR_OF_MEAN|12.2576||0.3505|TWO_SIDED|95.0|-37.039|13.674|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm motility,age,duration of pre-transplant dialysis as explanatory variables.|Change in total motility of sperm from EOT to end of FU|||13.674|-37.039|0.3505
92237686|NCT01663740|184379634|SUPERIORITY_OR_OTHER||Mean Difference|-5.741|STANDARD_ERROR_OF_MEAN|6.7578||0.4021|TWO_SIDED|95.0|-19.524|8.042|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm morphology,age,pre-transplant dialysis duration as explanatory variables.|Change in sperm morphology from Baseline to EOT|||8.042|-19.524|0.4021
92433014|NCT04974697|184752747|SUPERIORITY|The superiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold 40 points for myope.|Least-square Mean|58.1|STANDARD_ERROR_OF_MEAN|3.37|||TWO_SIDED|95.0|50.9|65.4|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||It was calculated using a 2-sided one sample means t-test with a family wise type I error rate of 5% and at least 80% statistical power, that 22 subjects were required to test superiority for myope.||65.4|50.9|
92433015|NCT04974697|184752747|SUPERIORITY|The superiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold 32 points for hyperope.|Least-square Mean|55.0|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|47.2|62.8|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||It was calculated using a 2-sided one sample means t-test with a family wise type I error rate of 5% and at least 80% statistical power, that 18 subjects were required to test superiority for hyperope.||62.8|47.2|
92433016|NCT04974697|184752748|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold 0.00 logMAR for Distance.|Least-square Mean|-0.129|STANDARD_ERROR_OF_MEAN|0.0166|||TWO_SIDED|95.0|-0.167|-0.091|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||It was calculated by using a 2-sided one sample mean t-test with a family wise type I error rate of 5% and at least 80% statistical power , 42 subjects were required to test superiority for distance (4m).||-0.091|-0.167|
92433017|NCT04974697|184752748|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold +0.17 logMAR for Intermediate.|Least-square Mean|-0.046|STANDARD_ERROR_OF_MEAN|0.0166|||TWO_SIDED|95.0|-0.084|-0.008|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||It was calculated by using a 2-sided one sample mean t-test with a family wise type I error rate of 5% and at least 80% statistical power , 7 subjects were required to test superiority for intermediate (64 cm).||-0.008|-0.084|
92433018|NCT04974697|184752748|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold +0.17 logMAR for Near.|Least-square Mean|0.067|STANDARD_ERROR_OF_MEAN|0.0166|||TWO_SIDED|95.0|0.029|0.105|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||It was calculated by using a 2-sided one sample mean t-test with a family wise type I error rate of 5% and at least 80% statistical power , 36 subjects were required to test superiority for near (40 cm).||0.105|0.029|
92433019|NCT04974697|184752749|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for myope.|Least-square Mean|8.4|STANDARD_ERROR_OF_MEAN|2.66|||TWO_SIDED|95.0|3.1|13.7|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||13.7|3.1|
92237687|NCT01663740|184379634|SUPERIORITY_OR_OTHER||Mean Difference|-1.854|STANDARD_ERROR_OF_MEAN|5.1817||0.7229|TWO_SIDED|95.0|-12.423|8.714|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm morphology,age,pre-transplant dialysis duration as explanatory variables.|Change in sperm morphology from Baseline to end of FU|||8.714|-12.423|0.7229
92237688|NCT01663740|184379635|SUPERIORITY_OR_OTHER||Mean Difference|-2.95|STANDARD_ERROR_OF_MEAN|7.7598||0.708|TWO_SIDED|95.0|-19.192|13.291|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm morphology,age,pre-transplant dialysis duration as explanatory variables.|Change in sperm morphology from EOT to end of FU|||13.291|-19.192|0.7080
92237689|NCT01663740|184379636|SUPERIORITY_OR_OTHER||Mean Difference|-1.861|STANDARD_ERROR_OF_MEAN|1.6512||0.2673|TWO_SIDED|95.0|-5.213|1.491|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline testosterone,age,duration of pre-transplant dialysis as explanatory variables.|Change in total testosterone level from Baseline to EOT|||1.491|-5.213|0.2673
92237690|NCT01663740|184379636|SUPERIORITY_OR_OTHER||Mean Difference|-1.114|STANDARD_ERROR_OF_MEAN|1.6147||0.4949|TWO_SIDED|95.0|-4.392|2.164|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline testosterone,age,duration of pre-transplant dialysis as explanatory variables.|Change in total testosterone level from Baseline to end of FU|||2.164|-4.392|0.4949
92237691|NCT01663740|184379637|SUPERIORITY_OR_OTHER||Mean Difference|0.047|STANDARD_ERROR_OF_MEAN|1.51||0.9753|TWO_SIDED|95.0|-3.063|3.157|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline testosterone,age,duration of pre-transplant dialysis as explanatory variables.|Change in total testosterone level from EOT to end of FU|||3.157|-3.063|0.9753
92237692|NCT01663740|184379638|SUPERIORITY_OR_OTHER||Mean Difference|0.076|STANDARD_ERROR_OF_MEAN|0.6347||0.9053|TWO_SIDED|95.0|-1.214|1.366|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline LH concentration,age,pre-transplant dialysis duration as explanatory variables.|Change in LH level from Baseline to EOT|||1.366|-1.214|0.9053
92237693|NCT01663740|184379638|SUPERIORITY_OR_OTHER||Mean Difference|-1.215|STANDARD_ERROR_OF_MEAN|0.4477||0.0104|TWO_SIDED|95.0|-2.125|-0.305|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline LH concentration,age,pre-transplant dialysis duration as explanatory variables.|Change in LH level from Baseline to end of FU|||-0.305|-2.125|0.0104
92433020|NCT04974697|184752749|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for hyperope.|Least-square Mean|5.0|STANDARD_ERROR_OF_MEAN|3.12|||TWO_SIDED|95.0|-1.2|11.2|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||11.2|-1.2|
92433021|NCT04974697|184752750|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for myope.|Least-square Mean|6.9|STANDARD_ERROR_OF_MEAN|3.44|||TWO_SIDED|95.0|0.0|13.7|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||13.7|0.0|
92433022|NCT04974697|184752750|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for hyperope.|Least-square Mean|3.3|STANDARD_ERROR_OF_MEAN|4.03|||TWO_SIDED|95.0|-4.7|11.3|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||11.3|-4.7|
92433023|NCT04974697|184752751|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for myope.|Least-square Mean|11.2|STANDARD_ERROR_OF_MEAN|3.11|||TWO_SIDED|95.0|5.0|17.4|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||17.4|5.0|
92433024|NCT04974697|184752751|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for hyperope.|Least-square Mean|10.0|STANDARD_ERROR_OF_MEAN|3.64|||TWO_SIDED|95.0|2.8|17.3|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||17.3|2.8|
92433025|NCT03302234|184752784|OTHER||Hazard Ratio (HR)|1.08||||0.74156|TWO_SIDED|95.0|0.85|1.37||One-sided p-value based on log-rank test stratified by ECOG, geographic region of the enrolling site, and predominant tumor history.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, geographic region of the enrolling site, and predominant tumor history.|||1.37|0.85|0.74156
92237694|NCT01663740|184379639|SUPERIORITY_OR_OTHER||Mean Difference|-1.065|STANDARD_ERROR_OF_MEAN|0.4057||0.0143|TWO_SIDED|95.0|-1.899|-0.231|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline LH concentration,age,\& pre-transplant dialysis duration as explanatory variables.|Change in LH level from EOT to end of FU|||-0.231|-1.899|0.0143
92433026|NCT03302234|184752785|OTHER||Hazard Ratio (HR)|1.06||||0.7172|TWO_SIDED|95.0|0.86|1.3|||Log Rank|One-sided p-value based on log-rank test stratified by ECOG, geographic region of the enrolling site, and predominant tumor history.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, geographic region of the enrolling site and predominant tumor history.|||1.30|0.86|0.71720
92433027|NCT03302234|184752786|OTHER||Difference in percentage|-0.1||||0.50644|TWO_SIDED|95.0|-8.2|8.1|||Miettinen & Nurminen method|One-sided p-value for testing|Based on Miettinen \& Nurminen method stratified by ECOG, geographic region of the enrolling site and predominant tumor history.|||8.1|-8.2|0.50644
92433028|NCT03302234|184752788|OTHER||Hazard Ratio (HR)|0.9815||||0.9112|TWO_SIDED|95.0|0.7386|1.3042|||Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, geographic region of the enrolling site, and predominant tumor histology.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, geographic region of the enrolling site, and predominant tumor histology.|||1.3042|0.7386|0.9112
92433029|NCT03302234|184752791|OTHER||Difference in LS Means|-0.42||||0.8151|TWO_SIDED|95.0|-3.96|3.12|||cLDA Model|Constrained longitudinal data analysis (cLDA) Model|Based on a cLDA model with PRO scores as response variable, with covariates for treatment by time interaction, and stratification factors (ECOG, geographic region of the enrolling site, \& predominant tumor histology) as covariates.|||3.12|-3.96|0.8151
92433030|NCT02216591|184752804|SUPERIORITY|||||||0.013|||||||ANCOVA|Mixed-model general linear model with age and education included as covariates. Time x arm interaction was significant, F(1,16) = 7.76, p = 0.013.||||||.013
92433031|NCT02216591|184752805|SUPERIORITY|||||||0.274|||||||ANCOVA|Mixed-model general linear model with age and education included as covariates. Time x arm interaction was not significant, F(1,16) = 1.29, p = 0.274||||||.274
92433032|NCT02216591|184752806|SUPERIORITY|||||||0.41|||||||ANCOVA|Mixed-model general linear model with age and education included as covariates. Time x arm interaction was not significant, F(1,16) = .72, p = 0.410||||||.410
92433033|NCT01372462|184752807|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|Newman-Keuls multiple comparisons test||The primary endpoint was difference in endurance between nasal cannula oxygen and NIOV+O2. Assuming 153 sec clinically important difference, 183 sec SD, and α=0.05, a sample size of 15 yielded 85% power.||||<0.05
92433034|NCT01372462|184752807|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92433035|NCT01372462|184752807|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92237695|NCT01663740|184379640|SUPERIORITY_OR_OTHER||Mean Difference|2.541|STANDARD_ERROR_OF_MEAN|1.7274||0.1505|TWO_SIDED|95.0|-0.969|6.052|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline FSH concentration,age,pre-transplant dialysis duration as explanatory variables.|Change in FSH level from Baseline to EOT|||6.052|-0.969|0.1505
92237696|NCT01663740|184379640|SUPERIORITY_OR_OTHER||Mean Difference|-0.983|STANDARD_ERROR_OF_MEAN|0.6739||0.1539|TWO_SIDED|95.0|-2.352|0.387|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline FSH concentration,age,pre-transplant dialysis duration as explanatory variables.|Change in FSH level from Baseline to end of FU|||0.387|-2.352|0.1539
92171892|NCT03743636|184233364|SUPERIORITY||Mean Difference (Final Values)|11.14||||0.0602|ONE_SIDED|90.0|2.16||||ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||2.16|0.0602
92237697|NCT01663740|184379641|SUPERIORITY_OR_OTHER||Mean Difference|-1.474|STANDARD_ERROR_OF_MEAN|0.8084||0.0798|TWO_SIDED|95.0|-3.136|0.188|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline FSH concentration,age,pre-transplant dialysis duration as explanatory variables.|Change in FSH level from EOT to end of FU|||0.188|-3.136|0.0798
92433036|NCT01372462|184752808|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|Newman-Keuls multiple comparisons test||One-way, repeated-measures ANOVA and Newman-Keuls multiple comparisons test||||< 0.05
92433037|NCT01372462|184752808|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92433038|NCT01372462|184752808|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92433039|NCT01372462|184752809|SUPERIORITY_OR_OTHER||||||<|0.05||||||One-way, repeated-measures ANOVA and Newman-Keuls multiple comparisons tests|ANOVA|Newman-Keuls multiple comparisons tests||Per protocol||||<0.05
92433040|NCT01372462|184752809|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92433041|NCT01372462|184752809|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92433042|NCT01125605|184752826|SUPERIORITY_OR_OTHER|||||||0.0033||95.0|||||ANCOVA|ANCOVA with GLM (Generalized Linear Model) of SAS® (with type III sums of squares); including the baseline value of the sum score as a covariate||decrease of the sum score between baseline (visit 1) and last observation was exploratively analysed||||0.0033
92433043|NCT01125605|184752826|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|ANCOVA with GLM (Generalized Linear Model) of SAS® (with type III sums of squares); including the baseline value of the sum score as a covariate||decrease of the sum score between baseline (visit1) and last observation by duration of treatment||||0.0002
92433044|NCT01125605|184752827|SUPERIORITY_OR_OTHER|||||||0.0014||95.0|||||Fisher Exact|||||||0.0014
92433045|NCT01125605|184752828|SUPERIORITY_OR_OTHER|||||||0.0125||95.0|||||Fisher Exact|||||||0.0125
92433046|NCT01125605|184752829|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||Fisher Exact|||||||0.0006
92433047|NCT01125605|184752830|SUPERIORITY_OR_OTHER|||||||0.0016||95.0|||||Fisher Exact|||||||0.0016
92433048|NCT01125605|184752831|SUPERIORITY_OR_OTHER|||||||0.0504||95.0|||||Fisher Exact|||||||0.0504
92433049|NCT01125605|184752833|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Fisher Exact|||||||0.0002
92433050|NCT00903695|184752883|SUPERIORITY_OR_OTHER|||||||0.8133||||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA calculation: F-ratio = 0.06, t-test = -0.25."||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.8133
92433051|NCT00903695|184752884|SUPERIORITY_OR_OTHER|||||||0.31||||||a priori threshold for statistical sginficance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA calculation: F-ratio=1.22, t-test=1.1"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.31
92433052|NCT00903695|184752885|SUPERIORITY_OR_OTHER|||||||0.27||||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA: F-ratio = 1.5, t-test = -1.23"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.27
92433053|NCT00903695|184752886|SUPERIORITY_OR_OTHER|||||||0.24||||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA: F-ratio = 1.7, t-test = 1.3"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.24
92433054|NCT00903695|184752887|SUPERIORITY_OR_OTHER|||||||0.71||95.0||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA: F-ratio = 0.15, t-test = 0.39"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.71
92433055|NCT00903695|184752888|SUPERIORITY_OR_OTHER|||||||0.18||||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA: F-ratio = 2.25, ttest = -1.5"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.18
92433056|NCT00903695|184752889|SUPERIORITY_OR_OTHER|||||||0.34||||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA: F-ratio = 1.06, t-test = -1.03"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.34
92433057|NCT01599234|184752890|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.23||||0.22||95.0|-0.59|0.14|||ANCOVA|||The initial model used for the analysis of the end of study value was an analysis of covariance (ANCOVA) with baseline as a covariate and treatment group, centre group, ambulatory status at baseline and previous use of cannabis as main effects. Interactions between the main effects were investigated, and if they had little influence then they were dropped from the model. These tests were performed at the 10% significance level as a possible indicator of an interactive effect.||0.14|-0.59|0.220
92433058|NCT01599234|184752891|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.341||||0.231|TWO_SIDED|95.0|0.83|2.167|||ANCOVA|||The numbers of responders was analysed using the difference in proportions and the odds ratio comparing the treatment groups with the provision of 95% CIs for the difference and odds ratio. The two groups were compared using ANCOVA with baseline severity as a covariate and study centre and treatment group as factors.||2.167|0.830|0.231
92433059|NCT01599234|184752892|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.16||||0.857|TWO_SIDED|95.0|-1.94|1.61|||ANCOVA|||The change at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment, centre group and ambulatory status at baseline as factors and baseline score as a covariate.||1.61|-1.94|0.857
92433060|NCT01599234|184752893|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.07||||0.734|TWO_SIDED|95.0|-0.55|0.4|||ANCOVA|||The two groups were compared using ANCOVA with baseline severity as a covariate and study centre and treatment group as factors.||0.40|-0.55|0.734
92433061|NCT01599234|184752895|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.0||||0.624|TWO_SIDED|95.0|-2.0|1.0|||ANCOVA|||The change at end of treatment was compared between treatment groups using ANCOVA. The model included treatment, centre group and ambulatory status at baseline as factors and baseline score as a covariate.||1.0|-2.0|0.624
92433062|NCT01599234|184752896|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.248||||0.27|TWO_SIDED|95.0|0.842|1.849|||Regression, Logistic|||The two treatment groups were to be compared using ordinal logistic regression and the proportional odds model. The model was to incorporate ambulatory status at baseline and centre group.||1.849|0.842|0.270
92433063|NCT01599234|184752897|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.15||||0.867|TWO_SIDED|95.0|-1.95|1.64|||ANCOVA|||The change at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment, centre group and ambulatory status at baseline as factors and baseline score as a covariate.||1.64|-1.95|0.867
92433064|NCT01599234|184752898|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.215||||0.569|TWO_SIDED|95.0|0.622|2.373|||ANCOVA|||The numbers of responders was analysed using the difference in proportions and the odds ratio comparing the treatment groups with the provision of 95% CIs for the difference and odds ratio. The two groups were compared using ANCOVA with baseline severity as a covariate and study centre and treatment group as factors.||2.373|0.622|0.569
92433065|NCT02111772|184752933|SUPERIORITY|||||||0.049|||||||Negative binomial regression|||||||0.049
92433066|NCT02111772|184752934|SUPERIORITY||||||<|0.001|||||||Negative binomial regression|||||||<0.001
92433067|NCT00869206|184752942|NON_INFERIORITY_OR_EQUIVALENCE|Based on the published data on the effect of a standard of dosing schedule of \> zoledronic acid compared to placebo, we choose ∆= 7%, πT= 42%, and πS= 35%. With a total of 1230 eligible patients (615 per arm), the probability of rejecting the null hypothesis using a one-sided test is at most 0.05 (Type I error α) when θ≥ 7% and the probability of rejecting the null hypothesis (the power) is at least 82% when θ≤0|||||<=|0.05|||||||Cochran-Mantel-Haenszel|||||||<=.05
92433068|NCT00869206|184752943|SUPERIORITY_OR_OTHER||Slope|-0.00394|STANDARD_ERROR_OF_MEAN|0.00962||0.68|TWO_SIDED||||||Mixed Models Analysis|Model is adjusted for tumor type, baseline creatinine, prior SREs, prior bisphosphonates, age, gender, race, BSA, and baseline performance status||||||0.68
92433069|NCT00869206|184752944|SUPERIORITY_OR_OTHER||Slope|0.0016|STANDARD_ERROR_OF_MEAN|0.0034||0.64|TWO_SIDED||||||Mixed Models Analysis|Adjusted for tumor type, baseline creatinine, prior SRE, prior bisphosphonates, age, gender, BSA, race, and baseline performance status||||||0.64
92433070|NCT00869206|184752946|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.1|TWO_SIDED|95.0|-0.3|1.7|||Cochran-Mantel-Haenszel|||||1.7|-0.3|0.10
92433071|NCT03462082|184752972|SUPERIORITY|||||||0.163||||||"Holm-adjusted P-Value: 0.326~\*Gait Velocity for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.163
92433072|NCT03462082|184752972|SUPERIORITY|||||||0.749||||||"Holm-adjusted P-Value: 0.749~\*Gait Velocity for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.749
92433073|NCT03462082|184752973|SUPERIORITY|||||||0.031||||||"Holm-adjusted P-Value: 0.155~\*MDS-UPDRS (total) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to report the changes associated with the 2 asymmetric conditions.||||0.031
92433074|NCT03462082|184752973|SUPERIORITY|||||||0.778||||||"Holm-adjusted P-Value: 0.902~\*MDS-UPDRS total for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to report the changes associated with the 2 asymmetric conditions.||||0.778
92433075|NCT03462082|184752973|SUPERIORITY|||||||0.039||||||"Holm-adjusted P-Value: 0.157~\*MDS-UPDRS (motor) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.039
92433076|NCT03462082|184752973|SUPERIORITY|||||||0.451||||||"Holm-adjusted P-Value: 0.902~\*MDS-UPDRS (motor) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.451
92237698|NCT01663740|184379642|SUPERIORITY_OR_OTHER||Mean Difference|-0.104|STANDARD_ERROR_OF_MEAN|23.466||0.9965|TWO_SIDED|95.0|-47.792|47.585|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline prolactin level,age,pre-transplant dialysis duration as explanatory variables.|Change in prolactin level from Baseline to EOT|||47.585|-47.792|0.9965
92237699|NCT01663740|184379642|SUPERIORITY_OR_OTHER||Mean Difference|15.272|STANDARD_ERROR_OF_MEAN|20.6031||0.4636|TWO_SIDED|95.0|-26.599|57.142|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline prolactin level,age,pre-transplant dialysis duration as explanatory variables.|Change in prolactin level from Baseline to end of FU|||57.142|-26.599|0.4636
92279802|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.4676||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.4676
92433077|NCT03462082|184752973|SUPERIORITY|||||||0.111||||||"Holm-adjusted P-Value: 0.333~\*MDS-UPDRS (axial motor) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.111
92433078|NCT03462082|184752973|SUPERIORITY|||||||0.005||||||"Holm-adjusted P-Value: 0.030~\*MDS-UPDRS (axial motor) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.005
92433079|NCT03462082|184752974|SUPERIORITY|||||||0.984||||||Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.984
92433080|NCT03462082|184752974|SUPERIORITY|||||||0.067||||||Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.067
92433081|NCT03462082|184752975|SUPERIORITY|||||||0.44||||||Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.440
92433082|NCT03462082|184752975|SUPERIORITY|||||||0.051||||||Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.051
92433083|NCT03462082|184752976|SUPERIORITY|||||||0.945||||||Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.945
92433084|NCT03462082|184752976|SUPERIORITY|||||||0.024||||||Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.024
92433085|NCT03462082|184752977|SUPERIORITY|||||||0.097||||||"Holm-adjusted P-Value: 1.00~\*Gait velocity for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.097
92433086|NCT03462082|184752977|SUPERIORITY|||||||0.75||||||"Holm-adjusted P-Value: 1.00~\*Gait velocity for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.750
92433087|NCT03462082|184752978|SUPERIORITY|||||||0.128||||||"Holm-adjusted P-Value: 1.00~\*Step length (mean) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.128
92433088|NCT03462082|184752978|SUPERIORITY|||||||0.117||||||"Holm-adjusted P-Value: 1.00~\*Step length (mean) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.117
92433089|NCT03462082|184752978|SUPERIORITY|||||||0.145||||||"Holm-adjusted P-Value: 1.00~\*Step length (right) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.145
92171893|NCT03743636|184233365|SUPERIORITY||Mean Difference (Final Values)|5.21||||0.2378|ONE_SIDED|90.0|-4.47||||ANCOVA||||||-4.47|0.2378
92237700|NCT01663740|184379643|SUPERIORITY_OR_OTHER||Mean Difference|8.74|STANDARD_ERROR_OF_MEAN|17.0805||0.6134|TWO_SIDED|95.0|-26.438|43.917|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline prolactin level,age,pre-transplant dialysis duration as explanatory variables.|Change in prolactin level from EOT to end of FU|||43.917|-26.438|0.6134
92237701|NCT01663740|184379644|SUPERIORITY_OR_OTHER||Mean Difference|8.142|STANDARD_ERROR_OF_MEAN|11.9301||0.5002|TWO_SIDED|95.0|-16.223|32.506|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline inhibin B level,age,pre-transplant dialysis duration as explanatory variables.|Change in inhibin B level from Baseline to EOT|||32.506|-16.223|0.5002
92237702|NCT01663740|184379644|SUPERIORITY_OR_OTHER||Mean Difference|40.682|STANDARD_ERROR_OF_MEAN|17.6084||0.0279|TWO_SIDED|95.0|4.72|76.643|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline inhibin B level,age,pre-transplant dialysis duration as explanatory variables.|Change in inhibin B level from Baseline to end of FU|||76.643|4.720|0.0279
92237703|NCT01663740|184379645|SUPERIORITY_OR_OTHER||Mean Difference|25.881|STANDARD_ERROR_OF_MEAN|22.1348||0.2548|TWO_SIDED|95.0|-20.024|71.786|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline inhibin B level,age,pre-transplant dialysis duration as explanatory variables|Change in inhibin B level from EOT to end of FU|||71.786|-20.024|0.2548
92237704|NCT01663740|184379646|SUPERIORITY_OR_OTHER||Difference in Percentage|14.3|||||TWO_SIDED|95.0|-19.3|45.3|||||Change in abnormal to abnormal sperm density from Baseline to EOT|||45.3|-19.3|
92237705|NCT01663740|184379646|SUPERIORITY_OR_OTHER||Difference in Percentage|5.0|||||TWO_SIDED|95.0|-34.3|43.3|||||Change in abnormal to abnormal sperm density from Baseline to end of FU|||43.3|-34.3|
92237706|NCT01663740|184379646|SUPERIORITY_OR_OTHER||Difference in Percentage|17.9|||||TWO_SIDED|95.0|-15.3|48.8|||||Change in normal to abnormal sperm density from Baseline to EOT|||48.8|-15.3|
92237707|NCT01663740|184379647|SUPERIORITY_OR_OTHER||Difference in Percentage|4.1|||||TWO_SIDED|95.0|-34.5|42.5|||||Change in abnormal to abnormal sperm density from EOT to end of FU|||42.5|-34.5|
92237708|NCT01663740|184379648|SUPERIORITY_OR_OTHER||Difference in Percentage|1.3|||||TWO_SIDED|95.0|-31.3|33.7|||||Improvement from Baseline to EOT|||33.7|-31.3|
92433090|NCT03462082|184752978|SUPERIORITY|||||||0.056||||||"Holm-adjusted P-Value: 1.00~\*Step length (right) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.056
92237709|NCT01663740|184379648|SUPERIORITY_OR_OTHER||Difference in Percentage|6.7|||||TWO_SIDED|95.0|-31.1|44.4|||||Improvement from Baseline to end of FU|||44.4|-31.1|
92237710|NCT01663740|184379649|SUPERIORITY_OR_OTHER||Difference in Percentage|-11.8|||||TWO_SIDED|95.0|-50.0|29.3|||||Improvement from EOT to end of FU|||29.3|-50.0|
92237711|NCT01663740|184379650|SUPERIORITY_OR_OTHER||Difference in Percentage|-31.0|||||TWO_SIDED|95.0|-59.7|2.7|||||Improvement from Baseline to EOT|||2.7|-59.7|
92237712|NCT01663740|184379650|SUPERIORITY_OR_OTHER||Difference in Percentage|10.0|||||TWO_SIDED|95.0|-29.7|47.7|||||Improvement from Baseline to end of FU|||47.7|-29.7|
92237713|NCT01663740|184379651|SUPERIORITY_OR_OTHER||Difference in Percentage|-9.9|||||TWO_SIDED|95.0|-47.2|27.9|||||Improvement from EOT to end of FU|||27.9|-47.2|
92433091|NCT03462082|184752978|SUPERIORITY|||||||0.151||||||"Holm-adjusted P-Value: 1.00~\*Step length (left) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.151
92433092|NCT03462082|184752978|SUPERIORITY|||||||0.129||||||"Holm-adjusted P-Value: 1.00~\*Step length (left) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.129
92433093|NCT03462082|184752978|SUPERIORITY|||||||0.698||||||"Holm-adjusted P-Value: 1.00~\*Step length difference for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.698
92433094|NCT03462082|184752978|SUPERIORITY|||||||0.779||||||"Holm-adjusted P-Value: 1.00~\*Step length difference for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.779
92433095|NCT03462082|184752979|SUPERIORITY|||||||0.874||||||"Holm-adjusted P-Value: 1.00~\*Step length ratio for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.874
92433096|NCT03462082|184752979|SUPERIORITY|||||||0.976||||||"Holm-adjusted P-Value: 1.00~\*Step length ratio for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.976
92433097|NCT03462082|184752979|SUPERIORITY|||||||0.859||||||"Holm-adjusted P-Value: 1.00~\*Step length symmetry for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.859
92433098|NCT03462082|184752979|SUPERIORITY|||||||0.86||||||"Holm-adjusted P-Value: 1.00~\*Step length symmetry for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.860
92433099|NCT03462082|184752980|SUPERIORITY|||||||0.04||||||"Holm-adjusted P-Value: 0.480~\*Pitch (minimum) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.040
92433100|NCT03462082|184752980|SUPERIORITY|||||||0.883||||||"Holm-adjusted P-Value: 1.00~\*Pitch (minimum) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.883
92171894|NCT03743636|184233366|SUPERIORITY||Mean Difference (Final Values)|6.05||||0.1589|ONE_SIDED|90.0|-1.86||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-1.86|0.1589
92433101|NCT03462082|184752980|SUPERIORITY|||||||0.071||||||"Holm-adjusted P-Value: 0.781~\*Pitch (maximum) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.071
92433102|NCT03462082|184752980|SUPERIORITY|||||||0.327||||||"Holm-adjusted P-Value: 1.00~\*Pitch (maximum) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.327
92433103|NCT03462082|184752981|SUPERIORITY|||||||0.487||||||"Holm-adjusted P-Value: 1.00~\*Loudness (minimum) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.487
92433104|NCT03462082|184752981|SUPERIORITY|||||||0.861||||||"Holm-adjusted P-Value: 1.00~\*Loudness (minimum) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.861
92433105|NCT03462082|184752981|SUPERIORITY|||||||0.411||||||"Holm-adjusted P-Value: 1.00~\*Loudness (maximum) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.411
92433106|NCT03462082|184752981|SUPERIORITY|||||||0.997||||||"Holm-adjusted P-Value: 1.00~\*Loudness (maximum) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.997
92433107|NCT03462082|184752982|SUPERIORITY|||||||0.388||||||"Holm-adjusted P-Value: 1.00~\*Jitter for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.388
92433108|NCT03462082|184752982|SUPERIORITY|||||||0.684||||||"Holm-adjusted P-Value: 1.00~\*Jitter for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.684
92433109|NCT03462082|184752983|SUPERIORITY|||||||0.85||||||"Holm-adjusted P-Value: 1.00~\*Shimmer for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.850
92237714|NCT02658656|184379652|SUPERIORITY||Risk Ratio (RR)|0.91||||0.798|TWO_SIDED|95.0|0.45|1.85|||Chi-squared|||||1.85|.45|0.798
92237715|NCT02658656|184379653|SUPERIORITY||Risk Ratio (RR)|0.97||||0.935|TWO_SIDED|95.0|0.44|2.15|||Chi-squared|||||2.15|0.44|0.935
92237716|NCT02658656|184379654|SUPERIORITY||Risk Ratio (RR)|0.93||||0.829|TWO_SIDED|95.0|0.49|1.79|||Chi-squared|||||1.79|0.49|0.829
92237717|NCT02658656|184379655|SUPERIORITY||Risk Ratio (RR)|1.09||||0.809|TWO_SIDED|95.0|0.56|2.11|||Chi-squared|||||2.11|0.56|0.809
92237718|NCT02658656|184379656|SUPERIORITY||Risk Ratio (RR)|1.15||||0.717|TWO_SIDED|95.0|0.54|2.47|||Chi-squared|||||2.47|0.54|0.717
92237719|NCT02658656|184379657|SUPERIORITY||Risk Ratio (RR)|1.11||||0.738|TWO_SIDED|95.0|0.61|2.02|||Chi-squared|||||2.02|0.61|0.738
92237720|NCT03625986|184379683|OTHER||Mean Difference (Final Values)|-186.68||||0.0039|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0039
92237721|NCT03625986|184379684|OTHER||Mean Difference (Final Values)|-0.06||||0.8103|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.8103
92433110|NCT03462082|184752983|SUPERIORITY|||||||0.712||||||"Holm-adjusted P-Value: 1.00~\*Shimmer for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.712
92433111|NCT03462082|184752984|SUPERIORITY|||||||0.501|||||||Mixed Models Analysis|Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.501
92433112|NCT03462082|184752984|SUPERIORITY|||||||0.216||||||Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.216
92433113|NCT03462082|184752985|SUPERIORITY||||||>|0.05||||||Non-adjusted P-Values were \>0.05 and Holm-adjusted P-Values were 1.00 for all comparisons, except for the Hopkins Verbal Learning Test-Revised: Delayed Recall. For this test, the non-adjusted P-Value was 0.04 and the Holm-adjusted P-Value was 0.44.|Friedman test|Using ranks for repeated measures (3 conditions)||||||>0.05
92433114|NCT00919724|184752986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|0.6||0.1||||||Comparison between HIV-infected and HIV-uninfected groups. Comparison adjusted for age, gender, race, height, and brachial artery baseline diameter.|Regression, Linear|||||||0.10
92433115|NCT01425281|184752990|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|"Null and alternative hypotheses for superiority testing.~H0: EndpointABSORB BVS = EndpointXIENCE H1: EndpointABSORB BVS ≠ EndpointXIENCE"||Angiographic vasomotion reactivity following nitrate administration, the test was analyzable for 388 paired lesions (Absorb arm \[258 lesions\] vs Xience arm \[130 lesions\]).||||0.49
92433116|NCT01425281|184752991|NON_INFERIORITY|Using t-test with non-inferiority margin of 0.140mm||||||0.78|||||||t-test, 2 sided|"Null and alternative hypotheses for superiority testing.~H0: EndpointABSORB BVS = EndpointXIENCE H1: EndpointABSORB BVS ≠ EndpointXIENCE"||Follow-up angiographic analysis was available for 298 lesions in the Absorb arm and 151 lesions in the Xience arm.||||0.78
92433117|NCT02509156|184753142|SUPERIORITY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|2.57||0.746|TWO_SIDED|95.0|-4.52|6.11|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||6.11|-4.52|0.746
92433118|NCT02509156|184753143|SUPERIORITY||slope of time|1.53|STANDARD_ERROR_OF_MEAN|0.63||0.024|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.024
92433119|NCT02509156|184753144|SUPERIORITY||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.94||0.328|TWO_SIDED|95.0|-2.68|1.26|||ANCOVA||Confidence intervals based on t-test|The change in global strain was compared using ANCOVA analyses adjusting for baseline values.||1.26|-2.68|0.328
92433120|NCT02509156|184753145|SUPERIORITY||slope of time|-0.26|STANDARD_ERROR_OF_MEAN|0.23||0.261|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.261
92433121|NCT02509156|184753146|SUPERIORITY||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|1.41||0.071|TWO_SIDED|95.0|-4.51|1.35|||ANCOVA||Confidence intervals based on t-test|The change in regional strain was compared using ANCOVA analyses adjusting for baseline values.||1.35|-4.51|0.071
92433122|NCT02509156|184753147|SUPERIORITY||slope of time|-0.14|STANDARD_ERROR_OF_MEAN|0.35||0.689|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.689
92433123|NCT02509156|184753148|SUPERIORITY||Mean Difference (Final Values)|1.06|STANDARD_ERROR_OF_MEAN|6.46||0.935|TWO_SIDED|95.0|-12.33|14.45|||ANCOVA||Confidence intervals based on t-test|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.||14.45|-12.33|0.935
92433124|NCT02509156|184753149|SUPERIORITY||slope of time|-1.56|STANDARD_ERROR_OF_MEAN|1.55||0.325|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.325
92433125|NCT02509156|184753150|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|5.99||0.919|TWO_SIDED|95.0|-11.75|13.08|||ANCOVA||Confidence intervals based on t-test|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.||13.08|-11.75|0.919
92170994|NCT03821844|184230896|SUPERIORITY||marginal interaction effect|-0.02|||<|0.05|TWO_SIDED|95.0|-0.05|0.01|||Differences-in-Differences regression||||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment vs. control NH had on the behaviors and moods of NH residents. The models were implemented separately for each mood. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. To address baseline differences in the proportion of individuals at each level of the ordinal outcomes between treatment and control groups, we report the marginal time by intervention interaction. We will refer to this estimand as the marginal interaction effect (MIE), which is sometimes known as the Difference in Differences estimand.|0.01|-0.05|< 0.05
92237722|NCT03625986|184379685|OTHER||Mean Difference (Final Values)|-3.14||||0.0105|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0105
92433126|NCT02509156|184753151|SUPERIORITY||slope of time|-1.99|STANDARD_ERROR_OF_MEAN|1.45||0.183|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.183
92433127|NCT02509156|184753152|SUPERIORITY||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.035||0.124|TWO_SIDED|95.0|0.003|0.15|||ANCOVA||Confidence intervals based on t-test|The change in LV sphericity index was compared using ANCOVA analyses adjusting for baseline values.||0.15|0.003|0.124
92433128|NCT02509156|184753153|SUPERIORITY|||||||||||||||||Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. A time by treatment interaction was assessed.|There was a significant treatment and time interaction (p=0.024), so we report a slope for each treatment arm.|||
92433129|NCT02509156|184753154|SUPERIORITY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|1.14||0.993|TWO_SIDED|95.0|-3.05|1.74|||ANCOVA||Confidence intervals based on t-test|The change in scar percent was compared using ANCOVA analyses adjusting for baseline values.||1.74|-3.05|0.993
92433130|NCT02509156|184753155|SUPERIORITY||slope of time|-0.44|STANDARD_ERROR_OF_MEAN|0.29||0.151|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.151
92433131|NCT02509156|184753156|SUPERIORITY||Mean Difference (Final Values)|38.03|STANDARD_ERROR_OF_MEAN|20.96||0.056|TWO_SIDED|95.0|-5.84|81.89|||ANCOVA||Confidence intervals based on t-test|The change in distance walked was compared using ANCOVA analyses adjusting for baseline values.||81.89|-5.84|0.056
92433132|NCT02509156|184753157|SUPERIORITY||slope of time|2.82|STANDARD_ERROR_OF_MEAN|5.06||0.583|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.583
92433133|NCT02509156|184753158|SUPERIORITY||Mean Difference (Final Values)|-12.82|STANDARD_ERROR_OF_MEAN|8.37||0.048|TWO_SIDED|95.0|-30.49|4.84|||ANCOVA||Confidence intervals based on t-test|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.||4.84|-30.49|0.048
92433134|NCT02509156|184753159|SUPERIORITY||slope of time|-8.07|STANDARD_ERROR_OF_MEAN|1.86||0.0002|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.0002
92433135|NCT02509156|184753160|SUPERIORITY||Mean Difference (Final Values)|-315.8|STANDARD_ERROR_OF_MEAN|295.0||0.199|TWO_SIDED|95.0|-947.5|315.8|||ANCOVA||Confidence intervals based on t-test|The change in NT-proBNP was compared using ANCOVA analyses adjusting for baseline values. Data log transformed. p-values were obtained from transformed data.||315.80|-947.50|0.199
92433136|NCT02509156|184753161|SUPERIORITY||slope of time|-23.391|STANDARD_ERROR_OF_MEAN|202.08||0.229|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported. Log transformation used for the regression. p-values were obtained from transformed data.||||0.229
92433137|NCT02128113|184753170|SUPERIORITY||LS Mean difference (Net)|26.95||||0.4529|TWO_SIDED||||||ANCOVA|Missing data were imputed.|Difference is Omaveloxolone Ophthalmic Suspension (pooled) - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension pooled (0.5% and 1.0%) versus Vehicle Ophthalmic Solution||||0.4529
92433138|NCT02128113|184753170|SUPERIORITY||LS Mean difference (Net)|64.31||||0.1276|TWO_SIDED||||||ANCOVA|Missing data were imputed.|Difference is Omaveloxolone Ophthalmic Suspension 0.5% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||||0.1276
92237723|NCT03625986|184379686|OTHER||Mean Difference (Final Values)|2415.93||||0.0182|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0182
92237724|NCT03625986|184379687|OTHER||Mean Difference (Final Values)|1.18||||0.8429|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.8429
92237725|NCT03625986|184379688|OTHER||Mean Difference (Final Values)|0.49||||0.4881|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.4881
92237726|NCT03625986|184379689|OTHER||Mean Difference (Final Values)|1.76||||0.0835|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0835
92433139|NCT02128113|184753170|SUPERIORITY||LS Mean difference (Net)|-11.08||||0.7996|TWO_SIDED||||||ANCOVA|Missing data were imputed.|Difference is Omaveloxolone Ophthalmic Suspension 1.0% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution||||0.7996
92237727|NCT03625986|184379690|OTHER||Mean Difference (Final Values)|-0.96||||0.043|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.043
92237728|NCT03625986|184379691|OTHER||Odds Ratio (OR)|4.35||||0.0052|TWO_SIDED||||||Fisher Exact|||||||0.0052
92433140|NCT02128113|184753171|SUPERIORITY||Difference in proportion of patients|-13.55||||0.0647|TWO_SIDED|95.0|-26.75|-0.36|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 0.5% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||-0.36|-26.75|0.0647
92433141|NCT02128113|184753171|SUPERIORITY||Difference in proportion of patients|-15.15||||0.0517|TWO_SIDED|95.0|-28.34|-1.96|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 1.0% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution||-1.96|-28.34|0.0517
92433142|NCT02128113|184753172|SUPERIORITY||Difference in proportion of patients|-0.11||||0.9258|TWO_SIDED|95.0|-8.91|8.68|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 0.5% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||8.68|-8.91|0.9258
92433143|NCT02128113|184753172|SUPERIORITY||Difference in proportion of patients|-3.03||||0.6547|TWO_SIDED|95.0|-12.27|6.21|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 1.0% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution||6.21|-12.27|0.6547
92433144|NCT02128113|184753173|SUPERIORITY||Difference in proportion of patients|-13.56||||0.0657|TWO_SIDED|95.0|-26.84|-0.28|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 0.5% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||-0.28|-26.84|0.0657
92433145|NCT02128113|184753173|SUPERIORITY|Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution|Difference in proportion of patients|-15.15||||0.0526|TWO_SIDED|95.0|-28.42|-1.88|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 1.0% - Vehicle Ophthalmic Solution|||-1.88|-28.42|0.0526
92433146|NCT02128113|184753174|SUPERIORITY||Difference in proportion of patients|0.0||||0.8771|TWO_SIDED|95.0|-10.87|10.87|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 0.5% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||10.87|-10.87|0.8771
92433147|NCT02128113|184753174|SUPERIORITY||Difference in proportion of patients|1.35||||0.8248|TWO_SIDED|95.0|-9.32|12.02|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 1.0% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution||12.02|-9.32|0.8248
92433148|NCT02128113|184753175|SUPERIORITY||LS Mean difference (Net)|27.21||||0.4686|TWO_SIDED||||||ANCOVA|Missing data were imputed.||Comparison of Omaveloxolone Ophthalmic Suspension pooled (0.5% and 1.0%) versus Vehicle Ophthalmic Solution||||0.4686
92433149|NCT02128113|184753175|SUPERIORITY||LS Mean difference (Net)|49.99||||0.2636|TWO_SIDED||||||ANCOVA|Missing data were imputed.||Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||||0.2636
92433150|NCT02128113|184753175|SUPERIORITY||LS Mean difference (Net)|-1.74||||0.9691|TWO_SIDED||||||ANCOVA|Missing data were imputed.||Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution||||0.9691
92433151|NCT01750242|184753176|SUPERIORITY_OR_OTHER_LEGACY||% of leads|86.5|||||ONE_SIDED|95.0|73.7|||||||A 95% lower confidence bound was calculated on the percentage of leads where an overlap existed. A subject may have 1 or 2 leads included in the analysis.|||73.7|
92433152|NCT01750242|184753177|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-22.5|STANDARD_DEVIATION|8.7|||TWO_SIDED|95.0|-26.5|-18.4||||||Summary statistics on the UPDRS III score. A higher score is more motor dysfunction.||-18.4|-26.5|
92433153|NCT03765918|184753178|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|9.3|||<|1e-05|TWO_SIDED|95.0|6.7|12.8||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||12.8|6.7|<0.00001
92433154|NCT03765918|184753179|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|13.7|||<|1e-05|TWO_SIDED|95.0|9.7|18.7||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||18.7|9.7|<0.00001
92433155|NCT03765918|184753180|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|9.8|||<|1e-05|TWO_SIDED|95.0|7.0|13.3||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||13.3|7.0|<0.00001
92237729|NCT03625986|184379692|OTHER||Mean Difference (Final Values)|-1.95||||0.0797|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0797
92237730|NCT03625986|184379693|OTHER||Mean Difference (Final Values)|-1.44||||0.1084|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1084
92237731|NCT03625986|184379694|OTHER||Mean Difference (Final Values)|3.81||||0.3469|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3469
92237732|NCT03625986|184379695|OTHER||Odds Ratio (OR)|3.3632||||0.0272|TWO_SIDED||||||Fisher Exact|||||||0.0272
92433156|NCT03765918|184753181|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|3.0||||0.0006|TWO_SIDED|95.0|1.5|5.3||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||5.3|1.5|0.0006
92433157|NCT03765918|184753182|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|4.2||||0.0011|TWO_SIDED|95.0|2.1|7.6||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||7.6|2.1|0.0011
92433158|NCT03765918|184753183|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|3.1||||0.0006|TWO_SIDED|95.0|1.6|5.6||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||5.6|1.6|0.0006
92433159|NCT03765918|184753190|OTHER|Based on a constrained longitudinal data analysis (cLDA) model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-1.29||||0.4671|TWO_SIDED|95.0|-4.78|2.2||Two-sided p-value based on cLDA model.|cLDA model|||||2.20|-4.78|0.4671
92433160|NCT03765918|184753191|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-3.03||||0.1606|TWO_SIDED|95.0|-7.27|1.21||Two-sided p-value based on cLDA model.|cLDA model|||||1.21|-7.27|0.1606
92433161|NCT03765918|184753192|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-1.41||||0.4374|TWO_SIDED|95.0|-4.96|2.15||Two-sided p-value based on cLDA model.|cLDA model|||||2.15|-4.96|0.4374
92433162|NCT03765918|184753193|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.39||||0.8379|TWO_SIDED|95.0|-3.35|4.13||Two-sided p-value based on cLDA model.|cLDA model|||||4.13|-3.35|0.8379
92433163|NCT03765918|184753194|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.39||||0.8643|TWO_SIDED|95.0|-4.84|4.07||Two-sided p-value based on cLDA model.|cLDA model|||||4.07|-4.84|0.8643
92433164|NCT03765918|184753195|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.29||||0.8813|TWO_SIDED|95.0|-4.12|3.54||Two-sided p-value based on cLDA model.|cLDA model|||||3.54|-4.12|0.8813
92433165|NCT03765918|184753202|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.34||||0.8287|TWO_SIDED|95.0|-2.76|3.45||Two-sided p-value based on cLDA model.|cLDA model|||||3.45|-2.76|0.8287
92433166|NCT03765918|184753203|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.53||||0.7761|TWO_SIDED|95.0|-3.12|4.18||Two-sided p-value based on cLDA model.|cLDA model|||||4.18|-3.12|0.7761
92433167|NCT03765918|184753204|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.65||||0.688|TWO_SIDED|95.0|-2.54|3.84||Two-sided p-value based on cLDA model.|cLDA model|||||3.84|-2.54|0.6880
92433168|NCT03765918|184753205|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-1.45||||0.3858|TWO_SIDED|95.0|-4.73|1.83||Two-sided p-value based on cLDA model.|cLDA model|||||1.83|-4.73|0.3858
92433169|NCT03765918|184753206|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.45||||0.237|TWO_SIDED|95.0|-6.53|1.62||Two-sided p-value based on cLDA model.|cLDA model|||||1.62|-6.53|0.2370
92237733|NCT03625986|184379696|OTHER||Mean Difference (Final Values)|0.6||||0.589|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.589
92237734|NCT03625986|184379697|OTHER||Mean Difference (Final Values)|-0.3||||0.5448|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.5448
92433170|NCT03765918|184753207|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-1.76||||0.3138|TWO_SIDED|95.0|-5.2|1.67||Two-sided p-value based on cLDA model.|cLDA model|||||1.67|-5.20|0.3138
92433171|NCT03765918|184753214|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-3.28||||0.1763|TWO_SIDED|95.0|-8.05|1.48||Two-sided p-value based on cLDA model.|cLDA model|||||1.48|-8.05|0.1763
92433172|NCT03765918|184753215|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-1.18||||0.6882|TWO_SIDED|95.0|-6.95|4.59||Two-sided p-value based on cLDA model.|cLDA model|||||4.59|-6.95|0.6882
92433173|NCT03765918|184753216|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.52||||0.3103|TWO_SIDED|95.0|-7.39|2.35||Two-sided p-value based on cLDA model.|cLDA model|||||2.35|-7.39|0.3103
92237735|NCT03625986|184379698|OTHER||Mean Difference (Final Values)|15.3||||0.65|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.65
92237736|NCT03625986|184379699|OTHER||Mean Difference (Final Values)|-4.0||||0.1567|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1567
92237737|NCT01850563|184379713|OTHER||Hazard Ratio (HR)|0.87||||0.76|TWO_SIDED||||||Kaplan-Meier|||||||0.76
92433174|NCT03765918|184753217|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.48||||0.8475|TWO_SIDED|95.0|-5.41|4.45||Two-sided p-value based on cLDA model.|cLDA model|||||4.45|-5.41|0.8475
92433175|NCT03765918|184753218|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.42||||0.8881|TWO_SIDED|95.0|-6.36|5.51||Two-sided p-value based on cLDA model.|cLDA model|||||5.51|-6.36|0.8881
92433176|NCT03765918|184753219|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.22||||0.9307|TWO_SIDED|95.0|-5.22|4.78||Two-sided p-value based on cLDA model.|cLDA model|||||4.78|-5.22|0.9307
92433177|NCT03765918|184753226|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|1.3||||0.5752|TWO_SIDED|95.0|-3.25|5.85||Two-sided p-value based on cLDA model.|cLDA model|||||5.85|-3.25|0.5752
92433178|NCT03765918|184753227|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.98||||0.7196|TWO_SIDED|95.0|-4.38|6.34||Two-sided p-value based on cLDA model.|cLDA model|||||6.34|-4.38|0.7196
92433179|NCT03765918|184753228|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.74||||0.7522|TWO_SIDED|95.0|-3.88|5.37||Two-sided p-value based on cLDA model.|cLDA model|||||5.37|-3.88|0.7522
92433180|NCT03765918|184753229|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.24||||0.9255|TWO_SIDED|95.0|-5.3|4.82||Two-sided p-value based on cLDA model.|cLDA model|||||4.82|-5.30|0.9255
92433181|NCT03765918|184753230|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|2.22||||0.4926|TWO_SIDED|95.0|-4.15|8.6||Two-sided p-value based on cLDA model.|cLDA model|||||8.60|-4.15|0.4926
92433182|NCT03765918|184753231|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.99||||0.7087|TWO_SIDED|95.0|-4.23|6.21||Two-sided p-value based on cLDA model.|cLDA model|||||6.21|-4.23|0.7087
92433183|NCT03765918|184753238|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.75||||0.1654|TWO_SIDED|95.0|-6.65|1.14||Two-sided p-value based on cLDA model.|cLDA model|||||1.14|-6.65|0.1654
92433184|NCT03765918|184753239|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.26||||0.9117|TWO_SIDED|95.0|-4.29|4.8||Two-sided p-value based on cLDA model.|cLDA model|||||4.80|-4.29|0.9117
92433185|NCT03765918|184753240|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.22||||0.2808|TWO_SIDED|95.0|-6.25|1.82||Two-sided p-value based on cLDA model.|cLDA model|||||1.82|-6.25|0.2808
92433186|NCT03765918|184753241|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.77||||0.1577|TWO_SIDED|95.0|-6.62|1.08||Two-sided p-value based on cLDA model.|cLDA model|||||1.08|-6.62|0.1577
92433187|NCT03765918|184753242|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.81||||0.2485|TWO_SIDED|95.0|-7.59|1.97||Two-sided p-value based on cLDA model.|cLDA model|||||1.97|-7.59|0.2485
92237738|NCT01850563|184379715|OTHER||Hazard Ratio (HR)|0.82||||0.76|TWO_SIDED||||||Kaplan-Meier|||||||0.76
92237739|NCT03918642|184379772|SUPERIORITY||Mean Difference (Net)|-1.59|||<|0.001|TWO_SIDED|95.0|-2.35|-0.83|||Mixed Models Analysis|||||-0.83|-2.35|<0.001
92433188|NCT03765918|184753243|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-3.03||||0.1364|TWO_SIDED|95.0|-7.03|0.96||Two-sided p-value based on cLDA model.|cLDA model|||||0.96|-7.03|0.1364
92433189|NCT03765918|184753249|SUPERIORITY|Hazard ratio (HR) and associated 95% confidence interval (CI) were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by primary tumor site and tumor stage.|Hazard Ratio (HR)|0.73||||0.00411|TWO_SIDED|95.0|0.58|0.92|||Stratified Log Rank|One-sided p-value was based on log-rank test stratified by primary tumor site and tumor stage.||||0.92|0.58|0.00411
92237740|NCT03918642|184379773|SUPERIORITY||Mean Difference (Net)|-1.01||||0.01|TWO_SIDED|95.0|-1.78|-0.24|||Mixed Models Analysis|||||-0.24|-1.78|0.01
92237741|NCT03918642|184379774|SUPERIORITY||Mean Difference (Net)|0.28|||<|0.001|TWO_SIDED|95.0|0.12|0.45|||Mixed Models Analysis|||||0.45|0.12|<0.001
92237742|NCT03918642|184379775|SUPERIORITY||Mean Difference (Net)|-1.42||||0.14|TWO_SIDED|95.0|-3.3|0.46|||Mixed Models Analysis|||||0.46|-3.30|0.14
92433190|NCT03765918|184753250|SUPERIORITY|HR and associated 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by primary tumor site and tumor stage.|Hazard Ratio (HR)|0.66||||0.00217|TWO_SIDED|95.0|0.49|0.88|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by primary tumor site and tumor stage.||||0.88|0.49|0.00217
92433191|NCT03765918|184753251|SUPERIORITY|HR and associated 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by primary tumor site and tumor stage.|Hazard Ratio (HR)|0.7||||0.0014|TWO_SIDED|95.0|0.55|0.89|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by primary tumor site and tumor stage.||||0.89|0.55|0.00140
92433192|NCT00299975|184753270|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Chi-squared|Chi-squared test from Crosstabs analysis.||||||<0.05
92433193|NCT00299975|184753271|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|Chi-squared test from Crosstabs analysis.||||||<0.05
92433194|NCT00299975|184753272|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92237743|NCT03918642|184379776|SUPERIORITY||Mean Difference (Net)|0.21||||0.85|TWO_SIDED|95.0|-1.99|2.42|||Mixed Models Analysis|||||2.42|-1.99|0.85
92237744|NCT03918642|184379777|SUPERIORITY||Mean Difference (Net)|-3.06||||0.03|TWO_SIDED|95.0|-5.88|-0.25|||Mixed Models Analysis|||||-0.25|-5.88|0.03
92237745|NCT03918642|184379778|SUPERIORITY||Mean Difference (Net)|-2.39||||0.02|TWO_SIDED|95.0|-4.33|-0.45|||Mixed Models Analysis|||||-0.45|-4.33|0.02
92433195|NCT00299975|184753273|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92433196|NCT00299975|184753274|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|Chi-squared test from Crosstabs analysis was implemented between three treatment groups in each time frame.||||||<0.05
92433197|NCT00299975|184753275|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92433198|NCT00299975|184753276|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92433199|NCT00299975|184753277|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92237746|NCT03918642|184379779|SUPERIORITY||Mean Difference (Net)|-2.49||||0.006|TWO_SIDED|95.0|-4.3|-0.68|||Mixed Models Analysis|||||-0.68|-4.30|0.006
92433200|NCT00299975|184753278|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92433201|NCT00299975|184753279|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92433202|NCT00299975|184753280|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92433203|NCT00299975|184753282|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
92433204|NCT00299975|184753283|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
92433205|NCT00299975|184753284|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
92433206|NCT00299975|184753285|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
92237747|NCT03918642|184379780|SUPERIORITY||Mean Difference (Net)|-1.95||||0.11|TWO_SIDED|95.0|-4.34|0.45|||Mixed Models Analysis|||||0.45|-4.34|0.11
92237748|NCT03918642|184379781|SUPERIORITY||Mean Difference (Net)|-4.39||||0.03|TWO_SIDED|95.0|-8.44|-0.34|||Mixed Models Analysis|||||-0.34|-8.44|0.03
92237749|NCT03918642|184379782|SUPERIORITY||Mean Difference (Net)|-3.76||||0.07|TWO_SIDED|95.0|-7.83|0.32|||Mixed Models Analysis|||||0.32|-7.83|0.07
92237750|NCT03918642|184379783|SUPERIORITY||Mean Difference (Net)|1.23||||0.005|TWO_SIDED|95.0|0.36|2.1|||Mixed Models Analysis|||||2.10|0.36|0.005
92433207|NCT04380116|184753287|SUPERIORITY|||||||0.366|||||||ANOVA|||||||.366
92433208|NCT00320411|184753324|SUPERIORITY_OR_OTHER||percentage of participants|17.2||||||95.0|8.6|29.4||||||||29.4|8.6|
92433209|NCT00320411|184753326|SUPERIORITY_OR_OTHER||percentage of participants|32.3||||||95.0|20.0|44.7||||||||44.7|20.0|
92433210|NCT00320411|184753327|SUPERIORITY_OR_OTHER||percentage of participants|22.8||||||95.0|11.6|34.0||||||||34.0|11.6|
92433211|NCT01537393|184753374|NON_INFERIORITY|The two treatment groups will be declared equivalent if the one-sided 95% confidence interval for the difference in proportions excludes the pre-defined non-inferiority limit of 4%.|Risk Difference (RD)|3.2|||||ONE_SIDED|95.0||5.4|||||||The bootstrap re-sampling technique were used to account for potentially correlated data from donors who donated both corneas in this study and potentially correlated data from 2 study eyes of the same study participant. The technique will sample with replacement from the observed dataset. Confidence intervals will be calculated using the bias-corrected and accelerated method. The number of bootstraps will be 100,000.|5.4||
92433212|NCT01537393|184753374|OTHER|Confounding and treatment interactions were assessed in Cox proportional hazards regression models|Hazard Ratio (HR)|1.71||||0.02|TWO_SIDED|95.0|1.09|2.71|||Regression, Cox|Unadjusted Hazard Ratio||||2.71|1.09|0.02
92433213|NCT01537393|184753375|OTHER|The primary analysis to assess the effect of PT on 3 year ECD was conducted with a mixed linear model adjusting for baseline ECD, corneal diagnosis, and potential confounders, including storage solution, preparation by eye bank vs surgeon, and accounting for correlated data from participants with 2 study eyes or 2 corneas from the same donor.|Mean Difference (Final Values)|73.0||||0.03|TWO_SIDED|95.0|8.0|138.0|||Mixed Models Analysis|Adjusted for baseline ECD, diagnosis, storage solution, preparation by eye bank/surgeon, participants with 2 study eyes/ 2 corneas from the same donor||||138|8|0.03
92170995|NCT03857620|184230949|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.53|TWO_SIDED|95.0|-0.85|0.45|||Mixed Models Analysis|Generalized linear mixed effects model (w/ Gaussian link) w/ random practice effect to account for clustering by site \& bsl CHAMPS score as covariate||Combined Arm II (OPTI-Surg) \& Arm III (OPTI-Surg plus Coach) vs. Arm I (Usual Care)||0.45|-0.85|0.53
92170996|NCT03857620|184230949|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.84|TWO_SIDED|95.0|-0.67|0.81|||Mixed Models Analysis|Generalized linear mixed effects model (w/ Gaussian link) w/ random practice effect to account for clustering by site \& bsl CHAMPS score as covariate||||0.81|-0.67|0.84
92170997|NCT03857620|184230949|SUPERIORITY||Mean Difference (Final Values)|-0.48||||0.19|TWO_SIDED|95.0|-1.21|0.26|||Mixed Models Analysis|Generalized linear mixed effects model (w/ Gaussian link) w/ random practice effect to account for clustering by site \& bsl CHAMPS score as covariate||||0.26|-1.21|0.19
92170998|NCT03857620|184230949|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.14|TWO_SIDED|95.0|-0.19|1.29|||Mixed Models Analysis|Generalized linear mixed effects model (w/ Gaussian link) w/ random practice effect to account for clustering by site \& bsl CHAMPS score as covariate||||1.29|-0.19|0.14
92237751|NCT03918642|184379784|SUPERIORITY||Mean Difference (Net)|0.95||||0.17|TWO_SIDED|95.0|-0.4|2.29|||Mixed Models Analysis|||||2.29|-0.40|0.17
92433214|NCT00036270|184753386|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.118|TWO_SIDED|95.0|0.77|1.03|||Log Rank|Log rank (Mantel-Cox). Adjusted for overall stratification factor; 1 degree of freedom.|A hazard ratio less than 1 favors the test treatment (exemestane only arm).|"Analysis at 2.75 years post-randomization. Null hypothesis: no difference in DFS between the two treatments for the first 2.75 years.~To maintain overall alpha of 0.05, 2 adjustments made: first, a nominal alpha of 0.0302 was used for the primary endpoint. Second, level of significant was 0.0012 for interim analysis."||1.03|0.77|0.118
92433215|NCT00036270|184753387|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.604|TWO_SIDED|95.0|0.88|1.08|||Log Rank|Log rank (Mantel-Cox). Adjusted for overall stratification factor; 1 degree of freedom.|A hazard ratio less than 1 favors the test treatment (exemestane only arm).|"Analysis at 5 years post-randomization. Null hypothesis: no difference in DFS between the two treatments for the first 5 years.~To maintain overall alpha of 0.05, a nominal alpha of 0.0302 was used."||1.08|0.88|0.604
92433216|NCT00036270|184753388|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.951|TWO_SIDED|95.0|0.89|1.14|||Log Rank|Log rank (Mantel-Cox). Adjusted for overall stratification factor; 1 degree of freedom.|A hazard ratio less than 1 favors the test treatment (exemestane only arm).|Analysis at 5 years post-randomization. Null hypothesis: no difference in OS between the two treatments for the first 5 years. Overall alpha of 0.05 was maintained.||1.14|0.89|0.951
92433217|NCT00036270|184753390|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.293|TWO_SIDED|95.0|0.83|1.06|||Log Rank|Log rank (Mantel-Cox). Adjusted for overall stratification factor; 1 degree of freedom.|A hazard ratio less than 1 favors the test treatment (exemestane only arm).|Analysis at 5 years post-randomization. Null hypothesis: no difference in time to relapse between the two treatments for the first 5 years. Overall alpha of 0.05 was maintained.||1.06|0.83|0.293
92433218|NCT01370356|184753429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.74|||<|0.0001|TWO_SIDED|95.0|6.09|12.53||Statistical test was 2-sided and a 0.05 level of significance was used. A fixed-sequence procedure was used to adjust for multiplicity. Hierarchy of comparisons: 1) 10-week CA for Weeks 15 - 24, 2) CA for Weeks 21 - 24, 3) CA for Weeks 21 - 52.|Regression, Logistic|||Assuming true CA rate of 6.9% for placebo and 17.2% for varenicline (odds ratio ≥ 2.8), a study randomizing 1404 participants (1:1 ratio) has ≥90% power to detect a difference between the two groups. Analysis was done using a logistic regression model; treatment effect as explanatory variable and investigative center as covariate. The interaction effect was tested using an expanded logistic regression model including treatment-by-center interaction.||12.53|6.09|<0.0001
92237752|NCT03918642|184379785|SUPERIORITY||Mean Difference (Net)|-1.85||||0.11|TWO_SIDED|95.0|-4.14|0.44|||Mixed Models Analysis|||||0.44|-4.14|0.11
92170999|NCT03857620|184230950|SUPERIORITY||Odds Ratio (OR)|0.7||||0.5|TWO_SIDED|95.0|0.23|2.09|||Mixed Models Analysis|Generalized linear mixed effects model (with logit link function) with a random practice effect to account for clustering within practice||Combined Arm II (OPTI-Surg) \& Arm III (OPTI-Surg plus Coach) vs. Arm I (Usual Care)||2.09|0.23|0.50
92171000|NCT03857620|184230950|SUPERIORITY||Odds Ratio (OR)|0.46||||0.21|TWO_SIDED|95.0|0.13|1.62|||Mixed Models Analysis|Generalized linear mixed effects model (with logit link function) with a random practice effect to account for clustering within practice||||1.62|0.13|0.21
92171001|NCT03857620|184230950|SUPERIORITY||Odds Ratio (OR)|1.03||||0.96|TWO_SIDED|95.0|0.3|3.54|||Mixed Models Analysis|Generalized linear mixed effects model (with logit link function) with a random practice effect to account for clustering within practice||||3.54|0.30|0.96
92171002|NCT03857620|184230950|SUPERIORITY||Odds Ratio (OR)|0.45||||0.19|TWO_SIDED|95.0|0.13|1.54|||Mixed Models Analysis|Generalized linear mixed effects model (with logit link function) with a random practice effect to account for clustering within practice||||1.54|0.13|0.19
92171003|NCT04761302|184230960|SUPERIORITY|||||||0.215||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.215
92171004|NCT04761302|184230960|SUPERIORITY|||||||0.445||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.445
92171005|NCT04761302|184230961|SUPERIORITY|||||||0.041||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.041
92171006|NCT04761302|184230961|SUPERIORITY|||||||0.3||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.300
92171007|NCT04761302|184230962|SUPERIORITY|||||||0.12||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.12
92171008|NCT04761302|184230962|SUPERIORITY|||||||0.359||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.359
92237753|NCT03918642|184379786|SUPERIORITY||Mean Difference (Net)|-2.57||||0.11|TWO_SIDED|95.0|-5.73|0.6|||Mixed Models Analysis|||||0.60|-5.73|0.11
92237754|NCT03918642|184379787|SUPERIORITY||Mean Difference (Net)|-0.78||||0.33|TWO_SIDED|95.0|-2.33|0.78|||Mixed Models Analysis|||||0.78|-2.33|0.33
92237755|NCT03918642|184379788|SUPERIORITY||Mean Difference (Net)|-0.3||||0.69|TWO_SIDED|95.0|-1.74|1.14|||Mixed Models Analysis|||||1.14|-1.74|0.69
92237756|NCT03918642|184379789|SUPERIORITY||Mean Difference (Net)|1.46|||<|0.001|TWO_SIDED|95.0|0.77|2.15|||Mixed Models Analysis|||||2.15|0.77|<0.001
92433219|NCT01370356|184753430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.66|||<|0.0001|TWO_SIDED|95.0|4.21|7.61||Statistical test was 2-sided and a 0.05 level of significance was used. A fixed-sequence procedure was used to adjust for multiplicity. Hierarchy of comparisons: 1) 10-week CA for Weeks 15 - 24, 2) CA for Weeks 21 - 24, 3) CA for Weeks 21 - 52.|Regression, Logistic|||Analysis was done using a logistic regression model including treatment effect as the explanatory variable and investigative center as covariate. In addition, the interaction effect was tested using an expanded logistic regression model including the treatment-by-center interaction. However, the inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of the treatment by center interaction.||7.61|4.21|<0.0001
92433220|NCT01370356|184753431|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.02|||<|0.0001|TWO_SIDED|95.0|2.94|5.5||Statistical test was 2-sided and a 0.05 level of significance was used. A fixed-sequence procedure was used to adjust for multiplicity. Hierarchy of comparisons: 1) 10-week CA for Weeks 15 - 24, 2) CA for Weeks 21 - 24, 3) CA for Weeks 21 - 52.|Regression, Logistic|||Analysis was done using a logistic regression model including treatment effect as the explanatory variable and investigative center as covariate. In addition, the interaction effect was tested using an expanded logistic regression model including the treatment-by-center interaction. However, the inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of the treatment by center interaction.||5.50|2.94|<0.0001
92433221|NCT01370356|184753432|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.69|||<|0.0001|TWO_SIDED|95.0|6.03|12.51||Statistical test was 2-sided and a 0.05 level of significance was used.|Regression, Logistic|||Statistical analysis presented above is for Week 12. Analysis was done using logistic regression model with treatment effect as the explanatory variable and investigative center as covariate. The interaction effect was tested using an expanded logistic regression model with treatment-by-center interaction. The inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of treatment by center interaction.||12.51|6.03|<0.0001
92433222|NCT01370356|184753432|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.58|||<|0.0001|TWO_SIDED|95.0|3.51|5.98||Statistical test was 2-sided and a 0.05 level of significance was used.|Regression, Logistic|||Statistical analysis presented above is for Week 24. Analysis was done using logistic regression model with treatment effect as the explanatory variable and investigative center as covariate. The interaction effect was tested using an expanded logistic regression model with treatment-by-center interaction. The inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of treatment by center interaction.||5.98|3.51|<0.0001
92433223|NCT01370356|184753432|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.66|||<|0.0001|TWO_SIDED|95.0|2.05|3.44||Statistical test was 2-sided and a 0.05 level of significance was used.|Regression, Logistic|||Statistical analysis presented above is for Week 52. Analysis was done using logistic regression model with treatment effect as the explanatory variable and investigative center as covariate. The interaction effect was tested using an expanded logistic regression model with treatment-by-center interaction. The inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of treatment by center interaction.||3.44|2.05|<0.0001
92433224|NCT01370356|184753433|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.67|||<|0.0001|TWO_SIDED|95.0|2.05|3.47||Statistical test was 2-sided and a 0.05 level of significance was used.|Regression, Logistic|||Analysis was done using a logistic regression model including treatment effect as the explanatory variable and investigative center as covariate. In addition, the interaction effect was tested using an expanded logistic regression model including the treatment-by-center interaction. However, the inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of the treatment by center interaction.||3.47|2.05|<0.0001
92433225|NCT03129100|184753466|SUPERIORITY||Odds Ratio (OR)|4.35|||<|0.001|TWO_SIDED|95.0|2.03|9.35|||Regression, Logistic|||||9.35|2.03|<0.001
92433226|NCT03129100|184753467|SUPERIORITY||Odds Ratio (OR)|4.28||||0.003|TWO_SIDED|95.0|1.66|11.03|||Regression, Logistic|||||11.03|1.66|0.003
92433227|NCT03129100|184753467|SUPERIORITY||Odds Ratio (OR)|4.42||||0.001|TWO_SIDED|95.0|1.77|11.02|||Regression, Logistic|||||11.02|1.77|0.001
92433228|NCT03129100|184753469|SUPERIORITY||Odds Ratio (OR)|4.51||||0.001|TWO_SIDED|95.0|1.78|11.41|||Regression, Logistic|||||11.41|1.78|0.001
92433229|NCT03129100|184753469|SUPERIORITY||Odds Ratio (OR)|4.61|||<|0.001|TWO_SIDED|95.0|1.88|11.31|||Regression, Logistic|||||11.31|1.88|<0.001
92433230|NCT03129100|184753470|SUPERIORITY||Odds Ratio (OR)|5.17|||<|0.001|TWO_SIDED|95.0|2.11|12.69|||Regression, Logistic|||||12.69|2.11|<0.001
92433231|NCT03129100|184753470|SUPERIORITY||Odds Ratio (OR)|5.23|||<|0.001|TWO_SIDED|95.0|2.2|12.47|||Regression, Logistic|||||12.47|2.20|<0.001
92433232|NCT03129100|184753471|SUPERIORITY||Odds Ratio (OR)|4.6|||<|0.001|TWO_SIDED|95.0|1.9|11.17|||Regression, Logistic|||||11.17|1.90|<0.001
92433233|NCT03129100|184753471|SUPERIORITY||Odds Ratio (OR)|3.55||||0.003|TWO_SIDED|95.0|1.56|8.09|||Regression, Logistic|||||8.09|1.56|0.003
92433234|NCT03129100|184753472|SUPERIORITY||Odds Ratio (OR)|4.92|||<|0.001|TWO_SIDED|95.0|2.07|11.72|||Regression, Logistic|||||11.72|2.07|<0.001
92171009|NCT04761302|184230963|SUPERIORITY|||||||0.083||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.083
92237757|NCT03918642|184379790|SUPERIORITY||Mean Difference (Net)|1.24|||<|0.001|TWO_SIDED|95.0|0.62|1.86|||Mixed Models Analysis|||||1.86|0.62|<0.001
92237758|NCT03918642|184379791|SUPERIORITY||Odds Ratio (OR)|21.54|||<|0.001|TWO_SIDED|95.0|4.66|99.56|||Mixed Models Analysis|||||99.56|4.66|<0.001
92171010|NCT04761302|184230963|SUPERIORITY|||||||0.152||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.152
92237759|NCT03918642|184379792|SUPERIORITY||Odds Ratio (OR)|7.24||||0.006|TWO_SIDED|95.0|1.74|30.06|||Mixed Models Analysis|||||30.06|1.74|0.006
92171011|NCT04761302|184230964|SUPERIORITY|||||||0.002||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.002
92433235|NCT03129100|184753472|SUPERIORITY||Odds Ratio (OR)|3.61||||0.003|TWO_SIDED|95.0|1.57|8.32|||Regression, Logistic|||||8.32|1.57|0.003
92433236|NCT03129100|184753473|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|-3.1|-1.1|||ANCOVA|||Patient Global||-1.1|-3.1|<0.001
92433237|NCT03129100|184753473|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|-2.9|-1.0|||ANCOVA|||Patient Global||-1.0|-2.9|<0.001
92433238|NCT03129100|184753473|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|-3.1|-1.0|||ANCOVA|||Spinal Pain||-1.0|-3.1|<0.001
92433239|NCT03129100|184753473|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|-2.8|-0.8|||ANCOVA|||Spinal Pain||-0.8|-2.8|<0.001
92433240|NCT03129100|184753473|SUPERIORITY||LS Mean Difference|-1.55|STANDARD_ERROR_OF_MEAN|0.421|<|0.001|TWO_SIDED|95.0|-2.39|-0.72|||ANCOVA|||BASFI||-0.72|-2.39|<0.001
92171012|NCT04761302|184230964|SUPERIORITY||||||<|0.001||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||<0.001
92237760|NCT03918642|184379793|SUPERIORITY||Odds Ratio (OR)|11.77||||0.002|TWO_SIDED|95.0|2.38|58.25|||Mixed Models Analysis|||||58.25|2.38|0.002
92433241|NCT03129100|184753473|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.409|<|0.001|TWO_SIDED|95.0|-2.2|-0.59|||ANCOVA|||BASFI||-0.59|-2.20|<0.001
92433242|NCT03129100|184753473|SUPERIORITY||LS Mean Difference|-2.17|STANDARD_ERROR_OF_MEAN|0.448|<|0.001|TWO_SIDED|95.0|-3.05|-1.28|||ANCOVA|||Inflammation||-1.28|-3.05|<0.001
92433243|NCT03129100|184753473|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.433|<|0.001|TWO_SIDED|95.0|-2.66|-0.95|||ANCOVA|||Inflammation||-0.95|-2.66|<0.001
92433244|NCT03129100|184753474|SUPERIORITY||Odds Ratio (OR)|5.34|||<|0.001|TWO_SIDED|95.0|2.13|13.35|||Regression, Logistic|||||13.35|2.13|<0.001
92433245|NCT03129100|184753474|SUPERIORITY||Odds Ratio (OR)|4.07||||0.001|TWO_SIDED|95.0|1.75|9.45|||Regression, Logistic|||||9.45|1.75|0.001
92433246|NCT03129100|184753475|SUPERIORITY||LS Mean Difference|-7.858|STANDARD_ERROR_OF_MEAN|1.9586|<|0.001|TWO_SIDED|95.0|-11.729|-3.987|||ANCOVA|||||-3.987|-11.729|<0.001
92433247|NCT03129100|184753475|SUPERIORITY||LS Mean Difference|-5.979|STANDARD_ERROR_OF_MEAN|1.86||0.002|TWO_SIDED|95.0|-9.655|-2.304|||ANCOVA|||||-2.304|-9.655|0.002
92433248|NCT03129100|184753476|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.104||0.062|TWO_SIDED|95.0|-0.4|0.01|||ANCOVA|||||0.01|-0.40|0.062
92433249|NCT03129100|184753476|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.099||0.018|TWO_SIDED|95.0|-0.43|-0.04|||ANCOVA|||||-0.04|-0.43|0.018
92433250|NCT03129100|184753477|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.335||0.757|TWO_SIDED|95.0|-0.56|0.77|||ANCOVA|||||0.77|-0.56|0.757
92433251|NCT03129100|184753477|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.322||0.67|TWO_SIDED|95.0|-0.77|0.5|||ANCOVA|||||0.50|-0.77|0.670
92433252|NCT03129100|184753478|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.338||0.236|TWO_SIDED|95.0|-1.07|0.27|||ANCOVA|||||0.27|-1.07|0.236
92433253|NCT03129100|184753478|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.319||0.373|TWO_SIDED|95.0|-0.92|0.35|||ANCOVA|||||0.35|-0.92|0.373
92433254|NCT03129100|184753479|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.459||0.885|TWO_SIDED|95.0|-0.98|0.85|||ANCOVA|||||0.85|-0.98|0.885
92433255|NCT03129100|184753479|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.41||0.735|TWO_SIDED|95.0|-0.95|0.68|||ANCOVA|||||0.68|-0.95|0.735
92433256|NCT03129100|184753480|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.501||0.294|TWO_SIDED|95.0|-1.53|0.47|||ANCOVA|||||0.47|-1.53|0.294
92433257|NCT03129100|184753480|SUPERIORITY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.453||0.164|TWO_SIDED|95.0|-1.54|0.27|||ANCOVA|||||0.27|-1.54|0.164
92433258|NCT03129100|184753481|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.1||0.063|TWO_SIDED|95.0|-4.3|0.1|||ANCOVA|||||0.1|-4.3|0.063
92433259|NCT03129100|184753481|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|1.02||0.211|TWO_SIDED|95.0|-3.3|0.7|||ANCOVA|||||0.7|-3.3|0.211
92433260|NCT03129100|184753482|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.9||0.334|TWO_SIDED|95.0|-2.7|0.9|||ANCOVA|||||0.9|-2.7|0.334
92433261|NCT03129100|184753482|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.88||0.168|TWO_SIDED|95.0|-3.0|0.5|||ANCOVA|||||0.5|-3.0|0.168
92433262|NCT03129100|184753484|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.4||0.1|TWO_SIDED|95.0|-1.5|0.1|||ANCOVA|||||0.1|-1.5|0.100
92433263|NCT03129100|184753484|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.38||0.047|TWO_SIDED|95.0|-1.5|0.0|||ANCOVA|||||-0.0|-1.5|0.047
92433264|NCT03129100|184753485|SUPERIORITY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.479||0.068|TWO_SIDED|95.0|-1.83|0.06|||ANCOVA|||||0.06|-1.83|0.068
92433265|NCT03129100|184753485|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.465||0.307|TWO_SIDED|95.0|-1.4|0.44|||ANCOVA|||||0.44|-1.40|0.307
92433266|NCT03129100|184753486|SUPERIORITY||LS Mean Difference|2.6021|STANDARD_ERROR_OF_MEAN|1.4684||0.079|TWO_SIDED|95.0|-0.3011|5.5053|||ANCOVA|||||5.5053|-0.3011|0.079
92171013|NCT04761302|184230965|SUPERIORITY|||||||0.002||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.002
92171014|NCT04761302|184230965|SUPERIORITY||||||<|0.001||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||<0.001
92171015|NCT04761302|184230966|SUPERIORITY|||||||0.004||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.004
92237761|NCT03918642|184379794|SUPERIORITY||Odds Ratio (OR)|6.58||||0.05|TWO_SIDED|95.0|0.99|43.67|||Mixed Models Analysis|||||43.67|0.99|0.05
92433267|NCT03129100|184753486|SUPERIORITY||LS Mean Difference|2.4096|STANDARD_ERROR_OF_MEAN|1.3978||0.087|TWO_SIDED|95.0|-0.3541|5.1734|||ANCOVA|||||5.1734|-0.3541|0.087
92433268|NCT03129100|184753487|SUPERIORITY||LS Mean Difference|0.837|STANDARD_ERROR_OF_MEAN|1.1752||0.477|TWO_SIDED|95.0|-1.4864|3.1605|||ANCOVA|||||3.1605|-1.4864|0.477
92433269|NCT03129100|184753487|SUPERIORITY||LS Mean Difference|2.3009|STANDARD_ERROR_OF_MEAN|1.1192||0.042|TWO_SIDED|95.0|0.088|4.5138|||ANCOVA|||||4.5138|0.0880|0.042
92433270|NCT03129100|184753488|SUPERIORITY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.52||0.058|TWO_SIDED|95.0|-2.02|0.04|||ANCOVA|||||0.04|-2.02|0.058
92237762|NCT03918642|184379795|SUPERIORITY||Odds Ratio (OR)|13.93||||0.06|TWO_SIDED|95.0|0.86|225.44|||Mixed Models Analysis|||||225.44|0.86|0.06
92433271|NCT03129100|184753488|SUPERIORITY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.497||0.147|TWO_SIDED|95.0|-1.71|0.26|||ANCOVA|||||0.26|-1.71|0.147
92433272|NCT03129100|184753489|SUPERIORITY||LS Mean Difference|0.0418|STANDARD_ERROR_OF_MEAN|0.0334||0.213|TWO_SIDED|95.0|-0.0329|0.1164|||ANCOVA|||||0.1164|-0.0329|0.213
92433273|NCT03129100|184753489|SUPERIORITY||LS Mean Difference|0.0388|STANDARD_ERROR_OF_MEAN|0.0319||0.225|TWO_SIDED|95.0|-0.0324|0.1101|||ANCOVA|||||0.1101|-0.0324|0.225
92433274|NCT03129100|184753490|SUPERIORITY||LS Mean Difference|-10.62|STANDARD_ERROR_OF_MEAN|4.383||0.017|TWO_SIDED|95.0|-19.28|-1.95|||ANCOVA|||Percentage of Activity Impairment||-1.95|-19.28|0.017
92433275|NCT03129100|184753490|SUPERIORITY||LS Mean Difference|-7.14|STANDARD_ERROR_OF_MEAN|4.199||0.091|TWO_SIDED|95.0|-15.44|1.16|||ANCOVA|||Percentage of Activity Impairment||1.16|-15.44|0.091
92433276|NCT03129100|184753491|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.66||0.531|TWO_SIDED|95.0|-1.7|0.9|||ANCOVA|||||0.9|-1.7|0.531
92433277|NCT03129100|184753491|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.62||0.743|TWO_SIDED|95.0|-1.4|1.0|||ANCOVA|||||1.0|-1.4|0.743
92237763|NCT03918642|184379796|SUPERIORITY||Odds Ratio (OR)|5.61||||0.22|TWO_SIDED|95.0|0.35|89.3|||Mixed Models Analysis|||||89.30|0.35|0.22
92237764|NCT03046472|184379797|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92237765|NCT03046472|184379798|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92237766|NCT03046472|184379799|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
92237767|NCT04985799|184379806|NON_INFERIORITY|For the sample size, a total of 143 participants, or 72 participants per group was needed, based on a 90% effectiveness for both slings 14% non-inferiority margin, 80% power, alpha of 0.05 and a 20% dropout rate.|Risk Difference (RD)|14.8||||0.04|TWO_SIDED|95.0|1.1|28.5|||Chi-squared|||||28.5|1.1|0.04
92237768|NCT04985799|184379807|NON_INFERIORITY|For the sample size, a total of 143 participants, or 72 participants per group was needed, based on a 90% effectiveness for both slings 14% non-inferiority margin, 80% power, alpha of 0.05 and a 20% dropout rate.|Risk Difference (RD)|7.4||||0.29|TWO_SIDED|95.0|-6.2|21.1|||Chi-squared|||||21.1|-6.2|0.29
92433278|NCT03789474|184753494|SUPERIORITY|||||||0.443|||||||t-test, 2 sided|||||||.443
92433279|NCT03789474|184753495|SUPERIORITY|||||||0.063|||||||t-test, 2 sided|||||||.063
92433280|NCT03789474|184753496|SUPERIORITY|||||||0.057|||||||t-test, 2 sided|||||||.057
92433281|NCT03789474|184753497|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||||||.038
92433282|NCT03789474|184753498|SUPERIORITY|||||||0.072|||||||t-test, 2 sided|||||||.072
92433283|NCT03789474|184753499|SUPERIORITY|||||||0.189|||||||t-test, 2 sided|||||||.189
92433284|NCT03789474|184753500|SUPERIORITY|||||||0.358|||||||t-test, 2 sided|||||||.358
92433285|NCT03789474|184753501|SUPERIORITY|||||||0.406|||||||t-test, 2 sided|||||||.406
92433286|NCT03789474|184753502|SUPERIORITY|||||||0.256|||||||t-test, 2 sided|||||||.256
92433287|NCT03789474|184753503|SUPERIORITY|||||||0.066|||||||t-test, 2 sided|||||||.066
92433288|NCT03789474|184753504|SUPERIORITY|||||||0.316|||||||t-test, 2 sided|||||||.316
92433289|NCT03789474|184753505|SUPERIORITY|||||||0.971|||||||t-test, 2 sided|||||||.971
92433290|NCT03789474|184753506|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||.030
92433291|NCT03789474|184753507|SUPERIORITY|||||||0.009|||||||t-test, 2 sided|||||||.009
92433292|NCT03789474|184753508|SUPERIORITY|||||||0.704|||||||t-test, 2 sided|||||||.704
92433293|NCT03789474|184753509|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||.350
92433294|NCT03789474|184753510|SUPERIORITY|||||||0.708|||||||t-test, 2 sided|||||||.708
92433295|NCT03789474|184753511|SUPERIORITY|||||||0.711|||||||t-test, 2 sided|||||||.711
92433296|NCT03789474|184753512|SUPERIORITY|||||||0.956|||||||t-test, 2 sided|||||||.956
92433297|NCT03789474|184753513|SUPERIORITY|||||||0.139|||||||t-test, 2 sided|||||||.139
92433298|NCT03789474|184753514|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||.035
92433299|NCT03789474|184753515|SUPERIORITY|||||||0.502|||||||t-test, 2 sided|||||||.502
92433300|NCT03789474|184753516|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||.350
92433301|NCT03789474|184753517|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||.380
92433302|NCT03789474|184753518|SUPERIORITY|||||||0.914|||||||t-test, 2 sided|||||||.914
92433303|NCT03789474|184753519|SUPERIORITY|||||||0.915|||||||t-test, 2 sided|||||||.915
92433304|NCT03789474|184753520|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||.087
92433305|NCT03789474|184753521|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||.011
92433306|NCT03789474|184753522|SUPERIORITY|||||||0.207|||||||t-test, 2 sided|||||||.207
92433307|NCT03789474|184753523|SUPERIORITY|||||||0.142|||||||t-test, 2 sided|||||||.142
92433308|NCT03789474|184753524|SUPERIORITY|||||||0.021|||||||t-test, 2 sided|||||||.021
92433309|NCT03789474|184753525|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92433310|NCT03789474|184753526|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||.030
92433311|NCT03789474|184753527|SUPERIORITY|||||||0.048|||||||t-test, 2 sided|||||||.048
92433312|NCT03789474|184753528|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||.047
92433313|NCT03789474|184753529|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||||||.019
92433314|NCT03789474|184753530|SUPERIORITY|||||||0|||||||t-test, 2 sided|||||||.000
92433315|NCT03789474|184753531|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||.004
92433316|NCT03789474|184753532|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||.020
92433317|NCT03789474|184753533|SUPERIORITY|||||||0|||||||t-test, 2 sided|||||||.000
92237769|NCT04985799|184379809|SUPERIORITY|||||||0.11|||||||Chi-squared|||||||0.11
92237770|NCT02345161|184379833|SUPERIORITY_OR_OTHER||Adjusted LS mean difference|0.171|STANDARD_ERROR_OF_MEAN|0.0118|<|0.001|TWO_SIDED|95.0|0.148|0.194|||Mixed Model Repeated Measures|||||0.194|0.148|<0.001
92433318|NCT03789474|184753534|SUPERIORITY|||||||0.053|||||||t-test, 2 sided|||||||.053
92433319|NCT03789474|184753535|SUPERIORITY|||||||0.746|||||||t-test, 2 sided|||||||.746
92433320|NCT03789474|184753536|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||.006
92433321|NCT03789474|184753537|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||.003
92433322|NCT03789474|184753538|SUPERIORITY|||||||0.043|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.043
92433323|NCT03789474|184753539|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||||||.160
92279803|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2036||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.2036
92433324|NCT02010775|184753579|OTHER||Least Squares Mean (LS) Mean Difference|-3.88|||<|0.001|TWO_SIDED|95.0|-5.58|-2.19|||ANOVA|ANOVA model with treatment, and baseline MMPS grade as factors.||||-2.19|-5.58|< 0.001
92433325|NCT02010775|184753579|OTHER||LS Mean Difference|-6.32|||<|0.001|TWO_SIDED|95.0|-8.02|-4.62|||ANOVA|ANOVA model with treatment, and baseline MMPS grade as factors.||||-4.62|-8.02|<0.001
92433326|NCT02010775|184753579|OTHER||LS Mean Difference|-6.89|||<|0.001|TWO_SIDED|95.0|-8.56|-5.22|||ANOVA|ANOVA model with treatment, and baseline MMPS grade as factors.||||-5.22|-8.56|<0.001
92433327|NCT02010775|184753579|OTHER||LS Mean Difference|-7.68|||<|0.001|TWO_SIDED|95.0|-9.35|-6.0|||ANOVA|ANOVA model with treatment, and baseline MMPS grade as factors.||||-6.00|-9.35|<0.001
92433328|NCT02010775|184753580|OTHER||Percentage Difference|31.5||||0.008|TWO_SIDED|95.0|9.8|53.3|||Cochran-Mantel-Haenszel|P-values for between-treatment comparisons were determined using Cochran-Mantel-Haenszel (CMH) tests stratified by baseline MMPS.||||53.3|9.8|0.008
92433329|NCT02010775|184753580|OTHER||Percentage Difference|48.2|||<|0.001|TWO_SIDED|95.0|28.6|67.8|||Cochran-Mantel-Haenszel|P-values for between-treatment comparisons were determined using CMH tests stratified by baseline MMPS.||||67.8|28.6|< 0.001
92433330|NCT02010775|184753580|OTHER||Percentage Difference|54.3|||<|0.001|TWO_SIDED|95.0|36.1|72.6|||Cochran-Mantel-Haenszel|P-values for between-treatment comparisons were determined using CMH tests stratified by baseline MMPS.||||72.6|36.1|< 0.001
92433331|NCT02010775|184753580|OTHER||Percentage Difference|54.3|||<|0.001|TWO_SIDED|95.0|36.1|72.6|||Cochran-Mantel-Haenszel|P-values for between-treatment comparisons were determined using CMH tests stratified by baseline MMPS.||||72.6|36.1|<0.001
92433332|NCT02984709|184753615|SUPERIORITY||Estimated Mean Difference|-0.17||||0.593|TWO_SIDED|95.0|-0.81|0.47||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||||0.47|-0.81|0.593
92433333|NCT02984709|184753616|SUPERIORITY||Estimated Mean Difference|-1.137||||0.581|TWO_SIDED|95.0|-5.27|2.99||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||||2.99|-5.27|0.581
92433334|NCT02984709|184753617|SUPERIORITY||Estimated Mean Difference|-0.587||||0.206|TWO_SIDED|95.0|-1.52|0.34||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||||0.34|-1.52|0.206
92433335|NCT02984709|184753618|SUPERIORITY||Estimated Mean Difference|-2.494||||0.511|TWO_SIDED|95.0|-10.11|5.13||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||Child-reported family conflict||5.13|-10.11|0.511
92433336|NCT02984709|184753618|SUPERIORITY||Estimated Mean Difference|-3.354||||0.19|TWO_SIDED|95.0|-8.44|1.73||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||Parent-reported family conflict||1.73|-8.44|0.190
92433337|NCT02984709|184753619|SUPERIORITY||Estimated Mean Difference|0.396||||0.873|TWO_SIDED|95.0|-4.57|5.36||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||||5.36|-4.57|0.873
92433338|NCT02984709|184753620|SUPERIORITY||Estimated Mean Difference|2.996||||0.603|TWO_SIDED|95.0|-8.57|14.56||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||||14.56|-8.57|0.603
92433339|NCT02207244|184753657|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||< 0.001
92433340|NCT02207244|184753658|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||< 0.001
92433341|NCT02207244|184753659|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||< 0.001
92433342|NCT02207244|184753660|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||< 0.001
92433343|NCT02207244|184753661|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||< 0.001
92433344|NCT02207244|184753662|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Log Rank|||p value is based on the log-rank test stratified by investigator site (pooled).||||< 0.001
92433345|NCT02207244|184753663|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||p value is based on analysis of variance (ANOVA) model stratified by investigator site (pooled).||||< 0.001
92433346|NCT02207244|184753664|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= -10.0%|Difference in Percentage|16.4|||<|0.001|TWO_SIDED|95.0|10.0|23.2|||MH Z-test|||p value is based on 1-sided Mantel Haenszel (MH) Z-test adjusted for investigator site (pooled).||23.2|10.0|< 0.001
92433347|NCT02207244|184753664|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
92433348|NCT02207244|184753665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= -10.0%|Difference in Percentage|23.3|||<|0.001|TWO_SIDED|95.0|16.0|30.4|||MH Z-test|||p value is based on 1-sided MH Z-test adjusted for investigator site (pooled).||30.4|16.0|< 0.001
92433349|NCT02207244|184753665|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
92171016|NCT04761302|184230966|SUPERIORITY||||||<|0.001||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||<0.001
92237771|NCT02345161|184379834|SUPERIORITY_OR_OTHER||Adjusted LS mean difference|0.179|STANDARD_ERROR_OF_MEAN|0.0242|<|0.001|TWO_SIDED|95.0|0.131|0.226|||Mixed Model Repeated Measures|||||0.226|0.131|<0.001
92279804|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.4197||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.4197
92433350|NCT02207244|184753666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= -10%|Difference in percentage|17.7|||<|0.001|TWO_SIDED|95.0|11.4|24.4|||MH Z-test|||p value is based on 1-sided MH Z-test adjusted for investigator site (pooled).||24.4|11.4|< 0.001
92433351|NCT02207244|184753666|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
92433352|NCT02207244|184753667|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
92433353|NCT02207244|184753668|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||p value is based on ANOVA model stratified by investigator site (pooled).||||< 0.001
92433354|NCT02207244|184753669|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
92433355|NCT01362205|184753677|OTHER|||||||0.2454|||||||Wilcoxon (Mann-Whitney)|||||||0.2454
92433356|NCT02854631|184753723|SUPERIORITY|||||||1|||||||Fisher Exact|P-value from 2-sided Fisher's exact test was used to explore differences between treatment groups in the percentage of participants with an event.||||||1.00
92433357|NCT02854631|184753724|SUPERIORITY|||||||0.061|||||||Fisher Exact|P-value from 2-sided Fisher's exact test was used to explore differences between treatment groups in the percentage of participants with an event.||||||0.061
92433358|NCT02854631|184753725|SUPERIORITY|||||||0.06|||||||Fisher Exact|P-value from 2-sided Fisher's exact test was used to explore differences between treatment groups in the percentage of participants with an event.||||||0.060
92433359|NCT02854631|184753726|SUPERIORITY|||||||0.22||||||P-value from 2-sided Fisher's exact test was used to explore differences between treatment groups in the percentage of participants with an event.|Fisher Exact|||||||0.22
92237772|NCT02345161|184379835|SUPERIORITY_OR_OTHER||Adjusted LS mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-3.5|-1.0|||Mixed Model Repeated Measures|||||-1.0|-3.5|<0.001
92237773|NCT02345161|184379836|SUPERIORITY_OR_OTHER||Adjusted LS mean difference|-2.7|STANDARD_ERROR_OF_MEAN|1.44||0.065|TWO_SIDED|95.0|-5.5|0.2|||Mixed Model Repeated Measures|||||0.2|-5.5|0.065
92433360|NCT02854631|184753742|SUPERIORITY|||||||0.3|||||||Fisher Exact|Fisher's exact test (2-sided) was used to explore differences between groups in the percentage of participants with response/non-response.||||||0.30
92237774|NCT02345161|184379837|SUPERIORITY_OR_OTHER||LS Mean difference|0.57|STANDARD_ERROR_OF_MEAN|0.138|<|0.001|TWO_SIDED|95.0|0.3|0.84|||Mixed effect repeated measures model|||||0.84|0.30|<0.001
92433361|NCT01179568|184753760|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.21|||<|0.05|TWO_SIDED|95.0|0.82|1.81|||Regression, Logistic|Logistic regression with inverse probability weighting controlled for randomization stratification variables (site and baseline MDD) \& race/ethnicity||Our prespecified primary analysis was cross-sectional, comparing treatment response rates for CIT vs PLA at week 12 (aim 1), based on the intention-to-treat principle including all randomized participants. With 10% of 440 target enrollment lost to follow-up we had a power of 76-83% to detect predicted between-group difference in response (CGT with PLA, 40%; CGT with CIT, 60%; CIT 40%; and PLA 20%)||1.81|0.82|<0.05
92237775|NCT02345161|184379838|SUPERIORITY_OR_OTHER||LS Mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.317||0.279|TWO_SIDED|95.0|-0.28|0.97|||Mixed effect repeated measures model|||||0.97|-0.28|0.279
92433362|NCT01179568|184753760|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01|||<|0.05|TWO_SIDED|95.0|0.88|1.17|||Regression, Logistic|Logistic regression with inverse probability weighting controlled for randomization stratification variables (site and baseline MDD) \& race/ethnicity||Our prespecified primary analysis was cross-sectional, comparing treatment response rates for CIT with CGT vs PLA with CGT at week 20 (aim 2) based on the intention-to-treat principle including all randomized participants.||1.17|0.88|<0.05
92433363|NCT01179568|184753760|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.21|||<|0.05|TWO_SIDED|95.0|1.0|1.46|||Regression, Logistic|Logistic regression with inverse probability weighting controlled for randomization stratification variables (site and baseline MDD) \& race/ethnicity||Our prespecified primary analysis was cross-sectional, comparing treatment response rates for CIT with CGT vs CIT at week 20 (aim 3) based on the intention-to-treat principle including all randomized participants.||1.46|1|<0.05
92433364|NCT01179568|184753761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|2.04||0.74|TWO_SIDED|||||Pre-specified secondary analyses compared changes in ICG scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.|Regression, Linear|||||||0.74
92433365|NCT01179568|184753762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|STANDARD_ERROR_OF_MEAN|1.98||0.53|TWO_SIDED|||||Pre-specified secondary analyses compared changes in ICG scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.|Regression, Linear|||||||.53
92433366|NCT01179568|184753762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.37|STANDARD_ERROR_OF_MEAN|2.08|<|0.001|TWO_SIDED|||||Pre-specified secondary analyses compared changes in ICG scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.|Regression, Linear|||||||<.001
92433367|NCT01179568|184753763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|1.57||0.59|TWO_SIDED|||||Pre-specified secondary analyses compared changes in WSAS scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.|Regression, Linear|||||||.59
92237776|NCT02345161|184379839|SUPERIORITY_OR_OTHER||LS Mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.51||0.817|TWO_SIDED|95.0|-0.9|1.1|||ANCOVA|||||1.1|-0.9|0.817
92433368|NCT01179568|184753764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.44||0.4|TWO_SIDED||||||Regression, Linear|||Pre-specified secondary analyses compared changes in WSAS scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.||||.40
92433369|NCT01179568|184753764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.13|STANDARD_ERROR_OF_MEAN|1.46||0.005|TWO_SIDED||||||Regression, Linear|||Pre-specified secondary analyses compared changes in WSAS scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.||||.005
92433370|NCT03727347|184753765|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Hypothesis was that the improvement (decrease) in rTNSS mean score, from baseline to 12 weeks, would exceed 1 point||||||<0.0001
92433371|NCT02881554|184753778|OTHER|Non-parametric|Median Difference (Final Values)|0.12|||<|0.05|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between mid-treatment TLF from baseline TLF.||||<0.05
92433372|NCT02881554|184753778|OTHER|Non-parametric|Median Difference (Final Values)|0.23|||<|0.001|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between post-treatment TLF from baseline TLF.||||<0.001
92433373|NCT02881554|184753778|OTHER|Non-parametric|Median Difference (Final Values)|0.05|||<|0.05|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between mid-treatment TLF from baseline TLF.||||<0.05
92433374|NCT02881554|184753778|OTHER|Non-parametric|Median Difference (Final Values)|0.15|||<|0.01|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between post-treatment TLF from baseline TLF.||||<0.01
92433375|NCT02881554|184753778|OTHER|Non-parametric|Median Difference (Final Values)|0.03||||0.13|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between mid-treatment TLF from baseline TLF.||||0.13
92433376|NCT02881554|184753778|OTHER|Non-parametric|Median Difference (Final Values)|0.09|||<|0.05|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between post-treatment TLF from baseline TLF.||||<0.05
92433377|NCT02881554|184753778|OTHER|Non-parametric|Spearman's correlation coefficient|-0.61||||0.002|TWO_SIDED|||||Statistically significant p-value is \<0.05|Spearman rank correlation|||Null hypothesis = no monotonic association between the baseline TLF and Child-Pugh scores. Spearman rank correlation was performed to assess association between baseline TLF and Child-Pugh scores.||||0.002
92237777|NCT02345161|184379840|SUPERIORITY_OR_OTHER||LS Mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.95||0.767|TWO_SIDED|95.0|-2.1|1.6|||ANCOVA|||||1.6|-2.1|0.767
92433378|NCT01852110|184753783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.7623|TWO_SIDED|95.0|-1.0|1.37|||Constrained Longitudinal Data Analysis|||||1.37|-1.00|0.7623
92433379|NCT01852110|184753787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.9604|TWO_SIDED|95.0|-2.42|2.54|||Constrained Longitudinal Data Analysis|||||2.54|-2.42|0.9604
92171017|NCT04761302|184230967|SUPERIORITY|||||||0.006||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.006
92237778|NCT02345161|184379841|SUPERIORITY_OR_OTHER||Rate ratio|0.65||||0.002|TWO_SIDED|95.0|0.49|0.86|||Generalized linear modeL|Generalized linear model assuming a negative binomial distribution||||0.86|0.49|0.002
92433380|NCT01852110|184753788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.0829|TWO_SIDED|95.0|-0.01|0.22|||Constrained Longitudinal Data Analysis|||||0.22|-0.01|0.0829
92433381|NCT00279591|184753800|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Fisher Exact|||||||0.03
92171018|NCT04761302|184230967|SUPERIORITY||||||<|0.001||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||<0.001
92237779|NCT02345161|184379842|SUPERIORITY_OR_OTHER||Rate ratio|0.56||||0.006|TWO_SIDED|95.0|0.37|0.85|||Generalized Linear model|Generalized linear model assuming a negative binomial distribution||||0.85|0.37|0.006
92433382|NCT01549860|184753803|SUPERIORITY_OR_OTHER||||||<|0.024|TWO_SIDED||||||t-test, 2 sided|||||||<0.024
92433383|NCT01549860|184753805|SUPERIORITY_OR_OTHER||||||<|0.0126|TWO_SIDED|||||The MIST+SOC subjects decreased in their reported mean pain scores and reduced from a median of 3.0 to 0.6 cm after four weeks of study treatment.|ANCOVA|||||||<0.0126
92433384|NCT00166114|184753908|SUPERIORITY_OR_OTHER|||||||0.918|||||||Chi-squared|||Chi Square test was performed comparing actual vs. expected non- and partial response or response to either escitalopram or desipramine treatment.||||.918
92433385|NCT03266107|184753934|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92433386|NCT03266107|184753935|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92433387|NCT03266107|184753938|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92433388|NCT02548650|184753951|NON_INFERIORITY|Under the null hypothesis that the mean aggregation between dual and triple therapy is not equal to 0 and a common standard deviation of 13%, a sample size of 28 patients per group with a valid primary end point time point allowed for the 95% confidence interval (CI) to stay within ± 10% with a 80% power and a two-sided alpha=0.05.|Mean Difference (Net)|12.0|||>|0.05|TWO_SIDED|95.0|3.0|21.0|||ANOVA|||The primary end point of our study was the comparison of CAT-induced MPA measured by LTA between triple (vorapaxar plus DAPT) and dual (vorapaxar plus clopidogrel) therapy. We hypothesized that dual therapy would be non-inferior to triple therapy after 30±5 days of treatment||21|3|>0.05
92433389|NCT01191801|184753953|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.87||||0.0305|ONE_SIDED|95.0||||Unstratified one sided P-Value|Unstratified Log Rank|Since the sample size was increased, the primary analysis used the weighted statistic proposed by Cui, Hung, and Wang (Cui 1999).||||||0.0305
92237780|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.95|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.25|-0.66|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 1-4|||-0.66|-1.25|<0.001
92237781|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-1.23|STANDARD_ERROR_OF_MEAN|0.183|<|0.001|TWO_SIDED|95.0|-1.59|-0.87|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 5-8|||-0.87|-1.59|<0.001
92237782|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-1.18|STANDARD_ERROR_OF_MEAN|0.201|<|0.001|TWO_SIDED|95.0|-1.57|-0.78|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 9-12|||-0.78|-1.57|<0.001
92237783|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-1.33|STANDARD_ERROR_OF_MEAN|0.213|<|0.001|TWO_SIDED|95.0|-1.75|-0.91|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 13-16|||-0.91|-1.75|<0.001
92237784|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-1.41|STANDARD_ERROR_OF_MEAN|0.223|<|0.001|TWO_SIDED|95.0|-1.85|-0.97|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 17-20|||-0.97|-1.85|<0.001
92237785|NCT02345161|184379843|SUPERIORITY_OR_OTHER||Mixed Model Repeated Measures|-1.35|STANDARD_ERROR_OF_MEAN|0.224|<|0.001|TWO_SIDED|95.0|-1.79|-0.91|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 21-24|||-0.91|-1.79|<0.001
92237786|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.67|-0.36|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 1-4|||-0.36|-0.67|<0.001
92237787|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-0.88|-0.5|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 5-8|||-0.50|-0.88|<0.001
92237788|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.108|<|0.001|TWO_SIDED|95.0|-0.9|-0.48|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 9-12|||-0.48|-0.90|<0.001
92237789|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.75|STANDARD_ERROR_OF_MEAN|0.115|<|0.001|TWO_SIDED|95.0|-0.97|-0.52|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 13-16|||-0.52|-0.97|<0.001
92237790|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-1.03|-0.56|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 17-20|||-0.56|-1.03|<0.001
92237791|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.77|STANDARD_ERROR_OF_MEAN|0.122|<|0.001|TWO_SIDED|95.0|-1.01|-0.54|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 21-24|||-0.54|-1.01|<0.001
92237792|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.044|<|0.001|TWO_SIDED|95.0|-0.26|-0.09|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 1-4|||-0.09|-0.26|<0.001
92171019|NCT04761302|184230968|SUPERIORITY|||||||0.354||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.354
92237793|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.053|<|0.001|TWO_SIDED|95.0|-0.31|-0.1|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 5-8|||-0.10|-0.31|<0.001
92433390|NCT01191801|184753954|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Two sided P-Value|Chi-squared|||||||<0.0001
92237794|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.058||0.004|TWO_SIDED|95.0|-0.28|-0.05|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 9-12|||-0.05|-0.28|0.004
92237795|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.061|<|0.001|TWO_SIDED|95.0|-0.34|-0.1|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 13-16|||-0.10|-0.34|<0.001
92237796|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.064|<|0.001|TWO_SIDED|95.0|-0.36|-0.11|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 17-20|||-0.11|-0.36|<0.001
92237797|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.065|<|0.001|TWO_SIDED|95.0|-0.35|-0.1|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 21-24|||-0.10|-0.35|<0.001
92237798|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.049|<|0.001|TWO_SIDED|95.0|-0.37|-0.18|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 1-4|||-0.18|-0.37|<0.001
92237799|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.46|-0.23|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 5-8|||-0.23|-0.46|<0.001
92237800|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.066|<|0.001|TWO_SIDED|95.0|-0.47|-0.21|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 9-12|||-0.21|-0.47|<0.001
92237801|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|95.0|-0.51|-0.25|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 13-16|||-0.25|-0.51|<0.001
92237802|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|95.0|-0.53|-0.26|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 17-20|||-0.26|-0.53|<0.001
92237803|NCT02345161|184379843|SUPERIORITY_OR_OTHER||LS Mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.072|<|0.001|TWO_SIDED|95.0|-0.5|-0.22|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 21-24|||-0.22|-0.50|<0.001
92237804|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.311||0.094|TWO_SIDED|95.0|-1.13|0.09|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 1-4|||0.09|-1.13|0.094
92237805|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.07|STANDARD_ERROR_OF_MEAN|0.371||0.004|TWO_SIDED|95.0|-1.8|-0.34|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 5-8|||-0.34|-1.80|0.004
92237806|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.97|STANDARD_ERROR_OF_MEAN|0.419||0.022|TWO_SIDED|95.0|-1.79|-0.14|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 9-12|||-0.14|-1.79|0.022
92171020|NCT04761302|184230968|SUPERIORITY|||||||0.455||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.455
92237807|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.01|STANDARD_ERROR_OF_MEAN|0.445||0.024|TWO_SIDED|95.0|-1.88|-0.13|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 13-16|||-0.13|-1.88|0.024
92237808|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.11|STANDARD_ERROR_OF_MEAN|0.481||0.021|TWO_SIDED|95.0|-2.06|-0.17|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 17-20|||-0.17|-2.06|0.021
92433391|NCT01191801|184753957|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Two sided P-Value|Chi-squared|||||||<0.0001
92433392|NCT01191801|184753958|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67|||<|0.0001|ONE_SIDED|95.0||||Unstratified one-sided P-Value|Log Rank|||||||<0.0001
92237809|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.11|STANDARD_ERROR_OF_MEAN|0.481||0.022|TWO_SIDED|95.0|-2.05|-0.16|||Mixed Model Repeated Measures||EXACT-RS Score, Week 21-24|||-0.16|-2.05|0.022
92237810|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.32|STANDARD_ERROR_OF_MEAN|0.492||0.008|TWO_SIDED|95.0|-2.29|-0.35|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 25-28|||-0.35|-2.29|0.008
92237811|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.43|STANDARD_ERROR_OF_MEAN|0.494||0.004|TWO_SIDED|95.0|-2.4|-0.46|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 29-32|||-0.46|-2.40|0.004
92279805|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0776||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.0776
92279806|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.4076||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.4076
92279807|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0629||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.0629
92279808|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2547||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.2547
92237812|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.519||0.004|TWO_SIDED|95.0|-2.52|-0.48|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 33-36|||-0.48|-2.52|0.004
92433393|NCT01191801|184753959|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.3134|TWO_SIDED|95.0||||One sided P-Value|Log Rank|||||||0.3134
92237813|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.23|STANDARD_ERROR_OF_MEAN|0.507||0.016|TWO_SIDED|95.0|-2.22|-0.23|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 37-40|||-0.23|-2.22|0.016
92237814|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.49|STANDARD_ERROR_OF_MEAN|0.513||0.04|TWO_SIDED|95.0|-2.5|-0.48|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 41-44|||-0.48|-2.50|0.04
92237815|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.53|STANDARD_ERROR_OF_MEAN|0.525||0.007|TWO_SIDED|95.0|-2.56|-0.5|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 45-49|||-0.50|-2.56|0.007
92279809|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.7125||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.7125
92279810|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.6001||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.6001
92433394|NCT00299104|184753960|SUPERIORITY_OR_OTHER|||||||0.0016||95.0||||The Closure Principle was used to adjust for multiple comparisons.|Kruskal-Wallis|||Comparing all three treatment groups||||0.0016
92433395|NCT00299104|184753960|SUPERIORITY_OR_OTHER|||||||0.1824||95.0||||The Closure Principle was used to adjust for multiple comparisons.|Van-Elteren|||Rituximab 2 x 0.5 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline rheumatoid factor (RF) status||||0.1824
92433396|NCT00299104|184753960|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||The Closure Principle was used to adjust for multiple comparisons.|Van-Elteren|||Rituximab 2 x 1.0 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||||0.0004
92433397|NCT00299104|184753961|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Kruskal-Wallis|||Comparing all three treatment groups||||0.0004
92433398|NCT00299104|184753961|SUPERIORITY_OR_OTHER|||||||0.1194||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Van-Elteren|||Rituximab 2 x 0.5 g + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status||||0.1194
92237816|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-1.42|STANDARD_ERROR_OF_MEAN|0.524||0.007|TWO_SIDED|95.0|-2.45|-0.39|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 49-52|||-0.39|-2.45|0.007
92237817|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.169||0.051|TWO_SIDED|95.0|-0.66|0.0|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 1-4|||0.00|-0.66|0.051
92237818|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.207||0.003|TWO_SIDED|95.0|-1.02|-0.2|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 5-8|||-0.20|-1.02|0.003
92237819|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.234||0.01|TWO_SIDED|95.0|-1.07|-0.15|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 9-12|||-0.15|-1.07|0.010
92279811|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.5398||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.5398
92279812|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.397||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.3970
92433399|NCT00299104|184753961|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Van-Elteren|||Rituximab 2 x 1.0 g + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status||||0.0001
92433400|NCT00299104|184753962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.3803||95.0|-0.05|0.13||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab 2 x 0.5 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||0.13|-0.05|0.3803
92237820|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.247||0.013|TWO_SIDED|95.0|-1.1|-0.13|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 13-16|||-0.13|-1.10|0.013
92433401|NCT00299104|184753962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.0309||95.0|0.01|0.18||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab 2 x 1.0 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||0.18|0.01|0.0309
92237821|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.265||0.012|TWO_SIDED|95.0|-1.19|-0.15|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 17-20|||-0.15|-1.19|0.012
92433402|NCT00299104|184753963|SUPERIORITY_OR_OTHER|||||||0.3752||95.0||||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab (0.5 g x 2) + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status.||||0.3752
92433403|NCT00299104|184753963|SUPERIORITY_OR_OTHER|||||||0.0081||95.0||||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab (1.0 g x 2) + Methotrexate verus Placebo + Methotrexate, stratified for region and Baseline RF status.||||0.0081
92433404|NCT00299104|184753964|SUPERIORITY_OR_OTHER|||||||0.5939||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Kruskal-Wallis|||Comparing all three treatment groups.||||0.5939
92433405|NCT00299104|184753964|SUPERIORITY_OR_OTHER|||||||0.5478||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Van-Elteren|||Rituximab 2 x 0.5 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||||0.5478
92433406|NCT00299104|184753964|SUPERIORITY_OR_OTHER|||||||0.3096||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Van-Elteren|||Rituximab 2 x 1.0 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||||0.3096
92433407|NCT00299104|184753969|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab 2 x 0.5 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||||<0.0001
92433408|NCT00299104|184753969|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab 2 x 1.0 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||||<0.0001
92433409|NCT00299104|184753979|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Secondary endpoint in hierarchical testing structure.|ANOVA|||Rituximab (0.5 g x 2) + Methotrexate versus Placebo + Methotrexate stratified for region and RF status.||||<0.0001
92433410|NCT00299104|184753979|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Secondary endpoint in hierarchical testing structure.|ANOVA|||Rituximab (1.0 g x 2) + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status.||||<0.0001
92237822|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.268||0.018|TWO_SIDED|95.0|-1.16|-0.11|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 21-24|||-0.11|-1.16|0.018
92237823|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.275||0.006|TWO_SIDED|95.0|-1.3|-0.21|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 25-28|||-0.21|-1.30|0.006
92237824|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.276||0.002|TWO_SIDED|95.0|-1.4|-0.31|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 29-32|||-0.31|-1.40|0.002
92237825|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.95|STANDARD_ERROR_OF_MEAN|0.288||0.001|TWO_SIDED|95.0|-1.51|-0.38|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 33-36|||-0.38|-1.51|0.001
92433411|NCT00299104|184753985|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||This was a secondary endpoint in a hierarchical testing structure.|Van-Elteren|||Week 104: Rituximab 2 x 0.5 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline rheumatoid factor (RF) status.||||<0.0001
92433412|NCT00299104|184753989|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Secondary endpoint in hierarchical testing structure.|ANOVA|||Rituximab (0.5 g x 2) + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status.||||<0.0001
92433413|NCT00299104|184753989|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Secondary endpoint in hierarchical testing structure.|ANOVA|||Rituximab (1.0 g x 2) + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status.||||<0.0001
92433414|NCT03167411|184753999|EQUIVALENCE|The ratio of the least squares (LS) geometric means of Cmax when bexagliflozin is dosed in combination with exenatide versus when dosed alone, with 80-125% defined as the lack of interaction boundaries. 90% confidence intervals was constructed.|Point Estimate (%)|125.27|||||TWO_SIDED|90.0|104.45|150.24|||||Estimated ratio (%) of exponentiated mean difference of log-transformed PK parameter from ANOVA (linear mixed-effects model), with treatment, period, and sequence as fixed effects, and subject as a random effect.|||150.24|104.45|
92433415|NCT03167411|184754002|EQUIVALENCE|The ratio of the least squares (LS) geometric means of AUC0-inf when bexagliflozin is dosed in combination with exenatide versus when dosed alone, with 80-125% defined as the lack of interaction boundaries. 90% confidence intervals was constructed.|Point Estimate (%)|137.56|||||TWO_SIDED|90.0|122.28|154.75|||||Estimated ratio (%) of exponentiated mean difference of log-transformed PK parameter from ANOVA (linear mixed-effects model), with treatment, period, and sequence as fixed effects, and subject as a random effect.|||154.75|122.28|
92237826|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.287||0.008|TWO_SIDED|95.0|-1.32|-0.2|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 37-40|||-0.20|-1.32|0.008
92237827|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.294||0.006|TWO_SIDED|95.0|-1.4|-0.24|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 41-44|||-0.24|-1.40|0.006
92433416|NCT00420927|184754019|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Chi-squared|P value is from Pearson's chi-square test.||||||0.023
92433417|NCT00420927|184754020|SUPERIORITY_OR_OTHER|||||||0.082||95.0|||||Regression, Logistic|||||||0.082
92433418|NCT00420927|184754021|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Regression, Logistic|||||||0.280
92237828|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.299||0.004|TWO_SIDED|95.0|-1.44|-0.27|||Breathlessness score, Week 41-44||Breathlessness EXACT-RS score, Week 45-48|||-0.27|-1.44|0.004
92433419|NCT00420927|184754021|SUPERIORITY_OR_OTHER|||||||0.287||95.0|||||Regression, Logistic|||||||0.287
92433420|NCT00420927|184754022|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Regression, Logistic|||||||0.026
92433421|NCT00420927|184754022|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Regression, Logistic|||||||0.009
92433422|NCT00420927|184754023|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Regression, Logistic|||||||0.060
92433423|NCT00420927|184754023|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||Regression, Logistic|||||||0.063
92433424|NCT00420927|184754024|SUPERIORITY_OR_OTHER|||||||0.395||95.0|||||Regression, Logistic|||||||0.395
92433425|NCT00420927|184754024|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||Regression, Logistic|||||||0.640
92433426|NCT00420927|184754025|SUPERIORITY_OR_OTHER|||||||0.159||95.0|||||Regression, Logistic|||||||0.159
92433427|NCT00420927|184754025|SUPERIORITY_OR_OTHER|||||||0.217||95.0|||||Regression, Logistic|||||||0.217
92433428|NCT00420927|184754026|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Regression, Logistic|||||||0.060
92433429|NCT00420927|184754026|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||Regression, Logistic|||||||0.043
92433430|NCT00420927|184754027|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.004
92433431|NCT00420927|184754027|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.049
92433432|NCT00420927|184754028|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Regression, Logistic|||||||0.240
92433433|NCT00420927|184754028|SUPERIORITY_OR_OTHER|||||||0.271||95.0|||||Regression, Logistic|||||||0.271
92433434|NCT00420927|184754029|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Regression, Logistic|||||||0.230
92433435|NCT00420927|184754029|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Regression, Logistic|||||||0.550
92433436|NCT00420927|184754030|SUPERIORITY_OR_OTHER|||||||0.301||95.0|||||Regression, Logistic|||||||0.301
92433437|NCT00420927|184754030|SUPERIORITY_OR_OTHER|||||||0.188||95.0|||||Regression, Logistic|||||||0.188
92433438|NCT00420927|184754031|SUPERIORITY_OR_OTHER|||||||0.314||95.0|||||Regression, Logistic|||||||0.314
92433439|NCT00420927|184754031|SUPERIORITY_OR_OTHER|||||||0.235||95.0|||||Regression, Logistic|||||||0.235
92433440|NCT00420927|184754032|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.030
92433441|NCT00420927|184754032|SUPERIORITY_OR_OTHER|||||||0.403||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.403
92433442|NCT00420927|184754033|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.036
92433443|NCT00420927|184754033|SUPERIORITY_OR_OTHER|||||||0.349||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.349
92433444|NCT00420927|184754034|SUPERIORITY_OR_OTHER|||||||0.037||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.037
92433445|NCT00420927|184754034|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||<0.001
92433446|NCT00420927|184754035|SUPERIORITY_OR_OTHER|||||||0.192||95.0|||||Regression, Logistic|||||||0.192
92433447|NCT00420927|184754035|SUPERIORITY_OR_OTHER|||||||0.241||95.0|||||Regression, Logistic|||||||0.241
92433448|NCT00420927|184754036|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Regression, Logistic|||||||0.028
92433449|NCT00420927|184754036|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Regression, Logistic|||||||0.014
92433450|NCT00420927|184754037|SUPERIORITY_OR_OTHER|||||||0.074||95.0|||||Regression, Logistic|||||||0.074
92433451|NCT00420927|184754037|SUPERIORITY_OR_OTHER|||||||0.077||95.0|||||Regression, Logistic|||||||0.077
92433452|NCT01218243|184754038|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.51|STANDARD_ERROR_OF_MEAN|0.93|<|0.01|TWO_SIDED|95.0|2.67|6.36|||ANCOVA|||||6.36|2.67|< 0.01
92433453|NCT01218243|184754039|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.34|STANDARD_ERROR_OF_MEAN|6.6|>|0.05|TWO_SIDED|95.0|-9.76|16.44|||Wilcoxon (Mann-Whitney)|||||16.44|-9.76|>0.05
92433454|NCT01218243|184754040|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.184|STANDARD_ERROR_OF_MEAN|0.8|>|0.05|TWO_SIDED|95.0|-1.41|1.78|||ANCOVA|||||1.78|-1.41|> 0.05
92433455|NCT01218243|184754041|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2|STANDARD_ERROR_OF_MEAN|0.93|<|0.01|TWO_SIDED|95.0|1.36|5.05|||ANCOVA|||||5.05|1.36|< 0.01
92433456|NCT01218243|184754042|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.12|STANDARD_ERROR_OF_MEAN|1.03|<|0.01|TWO_SIDED|95.0|2.07|6.18|||ANCOVA|||||6.18|2.07|<0.01
92433457|NCT01197560|184754058|SUPERIORITY|||||||0.079|||||||Fisher Exact|||Pertains to all participants; row 1||||0.079
92433458|NCT01197560|184754058|SUPERIORITY|||||||0.279|||||||Fisher Exact|||Pertains to GCB Subtype; row 2||||0.279
92433459|NCT01197560|184754058|SUPERIORITY|||||||0.179|||||||Fisher Exact|||Pertains to non-GCB Sub-type; row 3||||0.179
92433460|NCT01197560|184754059|SUPERIORITY|||||||0.091|||||||Fisher Exact|||Pertains to all participants||||0.091
92433461|NCT01197560|184754060|SUPERIORITY|||||||0.109|||||||Fisher Exact|||||||0.109
92433462|NCT01197560|184754061|SUPERIORITY|||||||0.16|||||||Fisher Exact|||Pertains to all participants; row 1||||0.160
92433463|NCT01197560|184754062|SUPERIORITY|||||||0.529|||||||Log Rank|||||||0.529
92433464|NCT01197560|184754063|SUPERIORITY|||||||0.972|||||||Log Rank|||||||0.972
92433465|NCT01197560|184754064|SUPERIORITY|||||||0.02|||||||Log Rank|||||||0.020
92433466|NCT01197560|184754065|SUPERIORITY|||||||0.211|||||||Log Rank|||||||0.211
92433467|NCT03791489|184754089|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92433468|NCT03791489|184754090|SUPERIORITY||||||<|0.03||||||Threshold for statistical significance = p\<0.05.|t-test, 2 sided|||||||<0.03
92433469|NCT00357968|184754187|SUPERIORITY_OR_OTHER||Mean Difference (Net)|43.21|||<|0.0001|TWO_SIDED|95.0|38.04|48.38|||ANCOVA|||||48.38|38.04|<0.0001
92433470|NCT00357968|184754188|SUPERIORITY_OR_OTHER||LS Mean difference|14.93|||<|0.0001|TWO_SIDED|95.0|10.6|19.26|||Mixed Models Analysis|||||19.26|10.6|<0.0001
92433471|NCT00357968|184754189|SUPERIORITY_OR_OTHER||Mean Difference (Net)|44.75|||<|0.0001|TWO_SIDED|95.0|38.35|51.15|||ANCOVA|||||51.15|38.35|<0.0001
92433472|NCT00357968|184754194|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
92433473|NCT00357968|184754195|SUPERIORITY_OR_OTHER|||||||0.0629||95.0|||||Fisher Exact|||||||0.0629
92433474|NCT00357968|184754196|SUPERIORITY_OR_OTHER|||||||0.1827||95.0|||||Fisher Exact|||||||0.1827
92433475|NCT00357968|184754197|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.3|||<|0.0001|TWO_SIDED|95.0|-61.2|-47.4|||ANCOVA|||||-47.4|-61.2|<0.0001
92433476|NCT00357968|184754198|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-60.5|||<|0.0001|TWO_SIDED|95.0|-67.1|-54.0|||ANCOVA|||||-54.0|-67.1|<0.0001
92433477|NCT00357968|184754199|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-56.2|||<|0.0001|TWO_SIDED|95.0|-63.2|-49.2|||ANCOVA|||||-49.2|-63.2|<0.0001
92433478|NCT00357968|184754200|SUPERIORITY_OR_OTHER||LS Mean difference|-20.1|||<|0.0001|TWO_SIDED|95.0|-25.7|-14.5|||Mixed Models Analysis|||||-14.5|-25.7|<0.0001
92433479|NCT00357968|184754201|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.7058|TWO_SIDED|95.0|-2.95|2.0|||ANCOVA|||||2.00|-2.95|0.7058
92433480|NCT00357968|184754202|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.33||||0.4029|TWO_SIDED|95.0|-4.48|1.82|||ANCOVA|||||1.82|-4.48|0.4029
92433481|NCT00357968|184754203|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.7893|TWO_SIDED|95.0|-0.06|0.08|||ANCOVA|||||0.08|-0.06|0.7893
92433482|NCT00357968|184754204|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.4528|TWO_SIDED|95.0|-0.25|0.07|||ANCOVA|||||0.07|-0.25|0.4528
92433483|NCT01414010|184754205|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"Statistical analysis was performed using a variety of computer packages including XLstat, NCSS 2007, R and NCSS 2010"||||<0.05
92433484|NCT03919799|184754206|SUPERIORITY|The LOCF imputation was followed by logistic regression analysis. Comparison analysis between belumosudil dose regimen and placebo was performed using a logistic regression analysis with treatment in the model.|Odds Ratio (OR)|1.06||||0.9472|TWO_SIDED|95.0|0.19|5.82||Threshold for significance at 0.05 level.|Regression, Logistic|||Belumosudil 200 mg QD versus Placebo||5.82|0.19|0.9472
92433485|NCT03919799|184754206|SUPERIORITY|The LOCF imputation was followed by logistic regression analysis. Comparison analysis between belumosudil dose regimen and placebo was performed using a logistic regression analysis with treatment in the model.|Odds Ratio (OR)|0.39||||0.3078|TWO_SIDED|95.0|0.07|2.35||Threshold for significance at 0.05 level.|Regression, Logistic|||Belumosudil 200 mg BID versus Placebo||2.35|0.07|0.3078
92237829|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.294||0.003|TWO_SIDED|95.0|-1.45|-0.3|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 49-52EXA|||-0.30|-1.45|0.003
92433486|NCT03919799|184754207|SUPERIORITY|MMRM analysis used rank-transformed data, with CRISS score as a dependent variable and treatment, visit, and visit x treatment interaction as fixed effects. Visit was a repeated factor, and analyses were done through week 24.|Least square mean difference|-0.04||||0.9889|TWO_SIDED|95.0|-6.51|6.42||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||6.42|-6.51|0.9889
92433487|NCT03919799|184754207|SUPERIORITY|MMRM analysis using rank-transformed data, with CRISS score as a dependent variable and treatment, visit, and visit x treatment interaction as fixed effects. Visit was a repeated factor, and analyses were done through week 24.|Least square mean difference|-4.18||||0.1916|TWO_SIDED|95.0|-10.59|2.23||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||2.23|-10.59|0.1916
92433488|NCT03919799|184754209|SUPERIORITY||Least square mean difference|-0.6||||0.771|TWO_SIDED|95.0|-4.7|3.6||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||3.6|-4.7|0.7710
92433489|NCT03919799|184754209|SUPERIORITY||Least square mean difference|4.6||||0.0308|TWO_SIDED|95.0|0.5|8.8||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||8.8|0.5|0.0308
92433490|NCT03919799|184754210|SUPERIORITY||Least square mean difference|1.4||||0.6533|TWO_SIDED|95.0|-4.9|7.7||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||7.7|-4.9|0.6533
92433491|NCT03919799|184754210|SUPERIORITY||Least square mean difference|-1.5||||0.6338|TWO_SIDED|95.0|-8.1|5.0||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||5.0|-8.1|0.6338
92433492|NCT03919799|184754211|SUPERIORITY||Least square mean difference|14.6||||0.0916|TWO_SIDED|95.0|-2.5|31.8||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||31.8|-2.5|0.0916
92433493|NCT03919799|184754211|SUPERIORITY||Least square mean difference|-8.6||||0.3146|TWO_SIDED|95.0|-25.7|8.6|||MMRM|||Belumosudil 200 mg BID versus Placebo||8.6|-25.7|0.3146
92433494|NCT03919799|184754212|SUPERIORITY||Least square mean difference|-10.0||||0.3753|TWO_SIDED|95.0|-32.8|12.8||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||12.8|-32.8|0.3753
92433495|NCT03919799|184754212|SUPERIORITY||Least square mean difference|-0.7||||0.9481|TWO_SIDED|95.0|-23.5|22.1||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||22.1|-23.5|0.9481
92433496|NCT03919799|184754213|SUPERIORITY||Least square mean difference|-0.036||||0.8387|TWO_SIDED|95.0|-0.392|0.32||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||0.320|-0.392|0.8387
92433497|NCT03919799|184754213|SUPERIORITY||Least square mean difference|0.039||||0.8234|TWO_SIDED|95.0|-0.317|0.395||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||0.395|-0.317|0.8234
92433498|NCT03919799|184754214|SUPERIORITY||Least square mean difference|-3.009||||0.7535|TWO_SIDED|95.0|-22.413|16.395||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||16.395|-22.413|0.7535
92433499|NCT03919799|184754214|SUPERIORITY||Least square mean difference|-21.015||||0.0348|TWO_SIDED|95.0|-40.419|-1.611||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||-1.611|-40.419|0.0348
92433500|NCT03919799|184754215|SUPERIORITY||Least square mean difference|45.566||||0.0343|TWO_SIDED|95.0|3.621|87.512||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||87.512|3.621|0.0343
92433501|NCT03919799|184754215|SUPERIORITY||Least square mean difference|-21.984||||0.2922|TWO_SIDED|95.0|-63.93|19.962||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||19.962|-63.930|0.2922
92433502|NCT03919799|184754216|SUPERIORITY||Least square mean difference|-16.757||||0.532|TWO_SIDED|95.0|-70.933|37.419||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||37.419|-70.933|0.5320
92433503|NCT03919799|184754216|SUPERIORITY||Least square mean difference|4.02||||0.8804|TWO_SIDED|95.0|-50.156|58.196||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||58.196|-50.156|0.8804
92433504|NCT03919799|184754217|SUPERIORITY||Least square mean difference|7.522||||0.8628|TWO_SIDED|95.0|-80.837|95.88||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||95.880|-80.837|0.8628
92433505|NCT03919799|184754217|SUPERIORITY||Least square mean difference|-42.442||||0.3196|TWO_SIDED|95.0|-128.242|43.359|||MMRM|||Belumosudil 200 mg BID versus Placebo||43.359|-128.242|0.3196
92433506|NCT02970422|184754277|OTHER|||||||0.91|||||||Chi-squared|Chi-squared value= .57||Relief of breathlessness||||.91
92433507|NCT02970422|184754277|OTHER|||||||0.31|||||||Chi-squared|Chi-squared value= 3.56||Improve your ability to perform activities in and out of your home||||.31
92433508|NCT02970422|184754277|OTHER|||||||0.96|||||||Chi-squared|Chi-squared value=.32||Prevent lung flare-ups||||.96
92433509|NCT02970422|184754277|OTHER|||||||0.04|||||||Chi-squared|Chi-squared value= 8.09||Discuss COPD and its progression||||.04
92433510|NCT02970422|184754277|OTHER|||||||0.7|||||||Chi-squared|Chi-squared value: 1.41||Improve your physical well-being||||.70
92433511|NCT02970422|184754277|OTHER|||||||0.01|||||||Chi-squared|Chi-squared value= 10.81||Relief of breathlessness||||.01
92433512|NCT02970422|184754277|OTHER|||||||0.49|||||||Chi-squared|Chi-squared value= 2.41||Improve your ability to perform activities in and out of your home||||.49
92433513|NCT02970422|184754277|OTHER|||||||0.93|||||||Chi-squared|Chi-squared value= .44||Prevent lung flare-ups||||.93
92433514|NCT02970422|184754277|OTHER|||||||0.6|||||||Chi-squared|Chi-squared value= 1.87||Discuss COPD and its progression||||.60
92237830|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.091||0.84|TWO_SIDED|95.0|-0.2|0.16|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 1-4|||0.16|-0.20|0.840
92433515|NCT02970422|184754277|OTHER|||||||0.31|||||||Chi-squared|Chi-squared value= 3.61||Improve your physical well-being||||.31
92433516|NCT02970422|184754278|OTHER|||||||0.73|||||||Chi-squared|Chi-squared value: 1.31||To relieve breathlessness in adults living with COPD||||.73
92433517|NCT02970422|184754278|OTHER|||||||0.23|||||||Chi-squared|Chi-squared value= 4.28||To prevent the development of COPD||||.23
92433518|NCT02970422|184754278|OTHER|||||||0.14|||||||Chi-squared|Chi-squared value= 5.51||To prevent lung flare-ups in adults living with COPD||||.14
92433519|NCT02970422|184754278|OTHER|||||||0.52|||||||Chi-squared|Chi-squared value= 2.28||To increase the ability of adults living with COPD to exercise||||.52
92433520|NCT02970422|184754278|OTHER|||||||0.11|||||||Chi-squared|Chi-squared value= 5.88||To improve the maximal amount of exercise of adults living with COPD in and out of the home||||.11
92433521|NCT02970422|184754278|OTHER|||||||0.14|||||||Chi-squared|Chi-squared value= 5.57||To relieve breathlessness in adults living with COPD||||.14
92433522|NCT02970422|184754278|OTHER|||||||0.73|||||||Chi-squared|Chi-squared value= 1.29||To prevent the development of COPD||||.73
92433523|NCT02970422|184754278|OTHER|||||||0.2|||||||Chi-squared|Chi-squared value= 4.64||To prevent lung flare-ups in adults living with COPD||||.20
92237831|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.106||0.167|TWO_SIDED|95.0|-0.36|-0.06|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 5-8|||-0.06|-0.36|0.167
92237832|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.117||0.359|TWO_SIDED|95.0|-0.34|0.12|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 9-12|||0.12|-0.34|0.359
92433524|NCT02970422|184754278|OTHER|||||||0.17|||||||Chi-squared|Chi-squared value= 5.02||To increase the ability of adults living with COPD to exercise||||.17
92433525|NCT02970422|184754278|OTHER|||||||0.02|||||||Chi-squared|Chi-square value= 9.97||To improve the maximal amount of exercise of adults living with COPD in and out of the home||||.02
92433526|NCT02970422|184754279|OTHER|||||||0.05|||||||Chi-squared|Chi squared value= 17.20||Activity 1: Walking from one place to another outside of your home on a flat surface||||.05
92433527|NCT02970422|184754279|OTHER|||||||0.87|||||||Chi-squared|Chi-squared value= 4.56||Activity 2: Moving from one place to another using motorized transportation||||.87
92433528|NCT02970422|184754279|OTHER|||||||0.65|||||||Chi-squared|Chi-squared value= 6.85||Activity 3: Climbing two or more flights of stairs||||.65
92433529|NCT02970422|184754279|OTHER|||||||0.35|||||||Chi-squared|Chi-squared value= 10.00||Activity 4: Walking up a hill||||.35
92433530|NCT02970422|184754279|OTHER|||||||0.03|||||||Chi-squared|Chi-squared value= 18.75||Activity 5: Participating in regular exercise requiring physical effort, to maintain or improve health or fitness||||.03
92433531|NCT02970422|184754279|OTHER|||||||0|||||||Chi-squared|Chi-squared value= 35.52||Activity 1: Walking from one place to another outside of your home on a flat surface||||.00
92433532|NCT02970422|184754279|OTHER|||||||0.33|||||||Chi-squared|Chi-squared value= 10.23||Activity 2: Moving from one place to another using motorized transportation||||.33
92433533|NCT02970422|184754279|OTHER|||||||0|||||||Chi-squared|Chi-squared value= 23.94||Activity 3: Climbing two or more flights of stairs||||.00
92433534|NCT02970422|184754279|OTHER|||||||0.01|||||||Chi-squared|Chi-squared value= 22.80||Activity 4: Walking up a hill||||.01
92433535|NCT02970422|184754279|OTHER|||||||0.02|||||||Chi-squared|Chi-squared value= 20.43||Activity 5: Participating in regular exercise requiring physical effort, to maintain or improve health or fitness||||.02
92433536|NCT02970422|184754280|OTHER|||||||0|||||||Kruskal-Wallis|Non-parametric led to equal variance (levene's test) which couldn't be assumed, independent samples were taken (Kruskal-Wallis)|||F(3,144)=137.82|||.00
92433537|NCT02970422|184754281|OTHER|||||||0|||||||ANOVA|Factorial ANOVA used because variance could be assumed|||F(3,144)=55.89 Partial ETA squared (effect size)=0.54|||.000
92433538|NCT02970422|184754282|OTHER|||||||0|||||||ANOVA|One-way ANOVA|||F(3,142)=7.61|||.00
92433539|NCT02970422|184754283|OTHER|||||||0.31|||||||ANOVA|One-way ANOVA|||F(3,142)=1.21|||.31
92433540|NCT02970422|184754284|OTHER|||||||0.04|||||||Kruskal-Wallis|Non-parametric independent sample Kruskal-Wallis test (failed variance assumed|||F(3,139)=8.09|||.04
92433541|NCT02970422|184754285|OTHER|||||||0|||||||ANOVA|One-way ANOVA|||F(3,143)=8.01|||.00
92433542|NCT02142959|184754287|SUPERIORITY||LS Mean Difference Final Values|-0.1||||0.237|TWO_SIDED|65.0|-0.2|0.0||Omaveloxolone treatment arms were compared with Vehicle Lotion using a hierarchical testing strategy to control the overall type I error.|Mixed Models Analysis|Fixed factors: treatment grp \& wk of visit; covariates of site, smoking status \& surgery. Missing data imputed using each patient's worst-observation.||Comparison of omaveloxolone lotion pooled (0.5% and 3%) versus vehicle lotion||0.0|-0.2|0.237
92237833|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.124||0.36|TWO_SIDED|95.0|-0.36|0.13|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 13-16|||0.13|-0.36|0.360
92433543|NCT02142959|184754287|SUPERIORITY||LS Mean Difference Final Values|-0.1|||>|0.05|TWO_SIDED|95.0|-0.2|0.0||Omaveloxolone treatment arms were compared with Vehicle Lotion using a hierarchical testing strategy to control the overall type I error.|Mixed Models Analysis|Fixed factor: treatment grp \& visit wk; Covariates: site, smoking status \& breast surgery. Missing data imputed using each patient's worst-observation||Comparison of Omaveloxolone Lotion 0.5% versus Vehicle Lotion||0.0|-0.2|>0.05
92433544|NCT02142959|184754287|SUPERIORITY||LS Mean Difference Final Values|0.0|||>|0.05|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|Fixed factor: treatment grp \& visit wk; Covariates: site, smoking status \& breast surgery. Missing data imputed using each patient's worst-observation||Comparison of Omaveloxolone Lotion 3% versus Vehicle Lotion||0.1|-0.1|>0.05
92433545|NCT00646776|184754301|SUPERIORITY_OR_OTHER||Point Estimate|1.477|||||TWO_SIDED|90.0|1.188|1.835|||ANOVA||Point estimates and 90% confidence intervals of treatment differences on the log scale were exponentiated to obtain estimates on the original scale.|||1.835|1.188|
92433546|NCT00646776|184754302|SUPERIORITY_OR_OTHER||Point Estimate|2.489|||||TWO_SIDED|90.0|2.025|3.06|||ANOVA||Point estimates and 90% confidence intervals of treatment differences on the log scale were exponentiated to obtain estimates on the original scale.|||3.060|2.025|
92433547|NCT00646776|184754303|SUPERIORITY_OR_OTHER||Point Estimate|1.402|||||TWO_SIDED|90.0|1.052|1.867|||ANOVA||Point estimates and 90% confidence intervals of treatment differences on the log scale were exponentiated to obtain estimates on the original scale.|||1.867|1.052|
92433548|NCT00646776|184754304|SUPERIORITY_OR_OTHER||Point Estimate|0.947|||||TWO_SIDED|90.0|0.817|1.098|||ANOVA|||||1.098|0.817|
92433549|NCT00646776|184754305|SUPERIORITY_OR_OTHER||Point Estimate|0.745||||0.0963|TWO_SIDED|90.0|0.5569|0.9967|||ANOVA|||||0.9967|0.5569|0.0963
92433550|NCT00646776|184754306|SUPERIORITY_OR_OTHER||Point Estimate|0.857|||||TWO_SIDED|90.0|0.723|1.015|||ANOVA|||||1.015|0.723|
92433551|NCT00646776|184754309|SUPERIORITY_OR_OTHER||Point Estimate|0.66|||||TWO_SIDED|90.0|0.538|0.809|||ANOVA|||||0.809|0.538|
92433552|NCT00646776|184754310|SUPERIORITY_OR_OTHER||Point Estimate|0.651|||||TWO_SIDED|90.0|0.43|0.986|||ANOVA|||||0.986|0.430|
92433553|NCT00646776|184754311|SUPERIORITY_OR_OTHER||Point Estimate|0.696|||||TWO_SIDED|90.0|0.563|0.862|||ANOVA|||||0.862|0.563|
92433554|NCT00646776|184754317|SUPERIORITY_OR_OTHER||Point Estimate|10.902|||||TWO_SIDED|90.0|8.135|14.61|||ANOVA|||||14.610|8.135|
92433555|NCT00646776|184754318|SUPERIORITY_OR_OTHER||Point Estimate|7.766|||||TWO_SIDED|90.0|6.133|9.833|||ANCOVA|||||9.833|6.133|
92433556|NCT00646776|184754319|SUPERIORITY_OR_OTHER||Point Estimate|11.451|||||TWO_SIDED|90.0|8.147|16.095|||ANOVA|||||16.095|8.147|
92433557|NCT00646776|184754320|SUPERIORITY_OR_OTHER||Point Estimate|2.19|||||TWO_SIDED|90.0|1.783|2.691|||ANOVA||Point estimates and 90% confidence intervals of treatment differences on the log scale were exponentiated to obtain estimates on the original scale.|||2.691|1.783|
92433558|NCT01753856|184754335|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|Analysis of covariance (ANCOVA) model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
92433559|NCT01753856|184754336|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and SL, in CC.|Fisher Exact|||||||<0.001
92433560|NCT01753856|184754336|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||SL Only, in CC.|Fisher Exact|||||||0.002
92433561|NCT01753856|184754336|SUPERIORITY_OR_OTHER|||||||0.494|TWO_SIDED|||||No Label, in CC.|Fisher Exact|||||||0.494
92433562|NCT01753856|184754336|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||DL and SL, in EC.|Fisher Exact|||||||0.001
92433563|NCT01753856|184754336|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED|||||SL Only, in EC.|Fisher Exact|||||||0.027
92433564|NCT01753856|184754336|SUPERIORITY_OR_OTHER|||||||0.118|TWO_SIDED|||||No Label, in EC.|Fisher Exact|||||||0.118
92433565|NCT01753856|184754336|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and SL, in IC.|Fisher Exact|||||||<0.001
92433566|NCT01753856|184754336|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||SL Only, in IC.|Fisher Exact|||||||0.001
92433567|NCT01753856|184754336|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED|||||No Label, in IC.|Fisher Exact|||||||>0.999
92433568|NCT01753856|184754336|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||DL and SL, in PC.|Fisher Exact|||||||0.002
92433569|NCT01753856|184754336|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||SL Only, in PC.|Fisher Exact|||||||<0.001
92433570|NCT01753856|184754336|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||No Label, in PC.|Fisher Exact|||||||<0.001
92433571|NCT01753856|184754337|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
92433572|NCT01753856|184754337|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
92433573|NCT01753856|184754337|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
92433574|NCT01753856|184754338|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433575|NCT01753856|184754338|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433576|NCT01753856|184754338|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433577|NCT01753856|184754338|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||PC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433578|NCT01753856|184754339|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|||||Remodeling-Based Bone Formation in the CC.|Wilcoxon (Mann-Whitney)|||||||0.740
92433579|NCT01753856|184754339|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|||||Modeling-Based Bone Formation in the CC.|Wilcoxon (Mann-Whitney)|||||||0.740
92433580|NCT01753856|184754339|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||Remodeling-Based Bone Formation in the EC.|Wilcoxon (Mann-Whitney)|||||||0.008
92433581|NCT01753856|184754339|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||Modeling-Based Bone Formation in the EC.|Wilcoxon (Mann-Whitney)|||||||0.008
92433582|NCT01753856|184754339|SUPERIORITY_OR_OTHER|||||||0.661|TWO_SIDED|||||Remodeling-Based Bone Formation in the PC.|Wilcoxon (Mann-Whitney)|||||||0.661
92433583|NCT01753856|184754339|SUPERIORITY_OR_OTHER|||||||0.661|TWO_SIDED|||||Modeling-Based Bone Formation in the PC.|Wilcoxon (Mann-Whitney)|||||||0.661
92433584|NCT01753856|184754341|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433585|NCT01753856|184754341|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433586|NCT01753856|184754341|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|||||PC.|Wilcoxon (Mann-Whitney)|||||||0.740
92433587|NCT01753856|184754342|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433588|NCT01753856|184754342|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.004
92433589|NCT01753856|184754342|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433590|NCT01753856|184754342|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED|||||PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.850
92433591|NCT01753856|184754343|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||DL Only, in CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.004
92433592|NCT01753856|184754343|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in the CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433593|NCT01753856|184754343|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433594|NCT01753856|184754343|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433595|NCT01753856|184754343|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433596|NCT01753856|184754343|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433597|NCT01753856|184754343|SUPERIORITY_OR_OTHER|||||||0.931|TWO_SIDED|||||DL Only, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.931
92433598|NCT01753856|184754343|SUPERIORITY_OR_OTHER|||||||0.549|TWO_SIDED|||||DL and Imputed SL, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.549
92433599|NCT01753856|184754344|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433600|NCT01753856|184754344|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92237834|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.134||0.49|TWO_SIDED|95.0|-0.36|0.17|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 17-20|||0.17|-0.36|0.490
92433601|NCT01753856|184754344|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433602|NCT01753856|184754344|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433603|NCT01753856|184754344|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433604|NCT01753856|184754344|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92237835|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.138||0.388|TWO_SIDED|95.0|-0.39|0.15|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 21-24|||0.15|-0.39|0.388
92433605|NCT01753856|184754344|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433606|NCT01753856|184754344|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433607|NCT01753856|184754345|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||sLS/BS, in CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433608|NCT01753856|184754345|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||dLS/BS, in CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433609|NCT01753856|184754345|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||sLS/BS, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433610|NCT01753856|184754345|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||dLS/BS, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433611|NCT01753856|184754345|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||sLS/BS, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433612|NCT01753856|184754345|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||dLS/BS, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433613|NCT01753856|184754345|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||sLS/BS, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
92433614|NCT01753856|184754345|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED|||||dLS/BS, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.028
92433615|NCT01753856|184754346|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 month.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433616|NCT01753856|184754346|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||3 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433617|NCT01753856|184754346|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433618|NCT01753856|184754347|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 month.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433619|NCT01753856|184754347|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||3 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433620|NCT01753856|184754347|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433621|NCT01753856|184754348|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 month.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433622|NCT01753856|184754348|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||3 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433623|NCT01753856|184754348|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433624|NCT01753856|184754349|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 month.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433625|NCT01753856|184754349|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||3 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433626|NCT01753856|184754349|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433627|NCT01753856|184754350|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433628|NCT01753856|184754350|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433629|NCT01753856|184754350|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433630|NCT01753856|184754350|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433631|NCT01753856|184754350|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433632|NCT01753856|184754350|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433633|NCT01753856|184754351|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||DL Only, in CC.|Wilcoxon (Mann-Whitney)|||||||0.002
92433634|NCT01753856|184754351|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433635|NCT01753856|184754351|SUPERIORITY_OR_OTHER|||||||0.214|TWO_SIDED|||||DL Only, in EC.|Wilcoxon (Mann-Whitney)|||||||0.214
92433636|NCT01753856|184754351|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||DL and Imputed SL, in EC.|Wilcoxon (Mann-Whitney)|||||||0.031
92433637|NCT01753856|184754351|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433638|NCT01753856|184754351|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433639|NCT01753856|184754352|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92433640|NCT01753856|184754353|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433641|NCT01753856|184754353|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433642|NCT01753856|184754353|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433643|NCT01753856|184754354|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92237836|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.137||0.218|TWO_SIDED|95.0|-0.44|0.1|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 25-28|||0.10|-0.44|0.218
92433644|NCT01753856|184754354|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433645|NCT01753856|184754354|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433646|NCT01753856|184754355|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Average length of DLs in the CC|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
92433647|NCT01753856|184754355|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||Average length of double labels in EC|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||0.004
92433648|NCT01753856|184754355|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Average length of double labels in IC|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
92433649|NCT01753856|184754355|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED|||||Average length of double labels in the PC|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||0.850
92433650|NCT01753856|184754356|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
92433651|NCT01753856|184754356|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED|||||EC.|Wilcoxon (Mann-Whitney)|||||||0.042
92433652|NCT01753856|184754356|SUPERIORITY_OR_OTHER|||||||0.678|TWO_SIDED|||||IC.|Wilcoxon (Mann-Whitney)|||||||0.678
92433653|NCT01753856|184754357|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC|Wilcoxon (Mann-Whitney)|||||||<0.001
92433654|NCT01753856|184754357|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC|Wilcoxon (Mann-Whitney)|||||||<0.001
92433655|NCT01753856|184754357|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC|Wilcoxon (Mann-Whitney)|||||||<0.001
92433656|NCT00887978|184754358|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|10.0||||0.089|TWO_SIDED|95.0|-2.0|22.0|||non-parametric ANCOVA|||Using an allocation ratio of 1:1 between UT-15C SR and placebo, a fixed sample size of approximately 266 subjects would provide at least 90% power at a significance level of 0.05 (two-sided hypothesis) to detect a 30 meter between-treatment difference in the change from Baseline in distance traversed during the 6-Minute Walk, assuming a standard deviation of 75 meters. A total sample size of approximately 300 subjects was determined to account for discontinuations during the enrollment period.||22.0|-2.0|0.089
92433657|NCT00887978|184754359|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
92433658|NCT00887978|184754360|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L) Estimate|0.0||||0.22|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank sum test|||||0.0|-1.0|0.22
92433659|NCT00887978|184754361|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L) estimate|0.0||||0.43|TWO_SIDED|95.0|0.0|0.0||Imputation strategies were implemented for the 26 UT-15C subjects and 17 placebo subjects without values reported at Week 16.|Wilcoxon rank sum test|||||0.0|0.0|0.43
92433660|NCT00887978|184754363|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L) estimate|0.0||||0.3|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon rank sum test|||||1.0|0.0|0.30
92433661|NCT00887978|184754366|SUPERIORITY_OR_OTHER||Hodges-Lehman Estimate|14.0||||0.058|TWO_SIDED|95.0|0.0|28.0|||ANCOVA|||||28.0|0.0|0.058
92433662|NCT00887978|184754367|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|15.0||||0.054|TWO_SIDED|95.0|-1.0|29.0|||ANCOVA|||||29.0|-1.0|0.054
92433663|NCT00887978|184754369|SUPERIORITY_OR_OTHER||Hodges-Lehman Estimate|4.0||||0.674|TWO_SIDED|95.0|-16.0|24.0|||ANCOVA|||||24.0|-16.0|0.674
92433664|NCT00887978|184754370|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|28.0||||0.059|TWO_SIDED|95.0|1.0|59.0|||ANCOVA|||||59.0|1.0|0.059
92433665|NCT00887978|184754371|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|10.0||||0.22|TWO_SIDED|95.0|-10.0|31.0|||ANCOVA|||||31.0|-10.0|0.22
92433666|NCT00887978|184754372|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|3.0||||0.99|TWO_SIDED|95.0|-23.0|28.0|||ANCOVA|||||28.0|-23.0|0.99
92237837|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.136||0.138|TWO_SIDED|95.0|-0.47|0.07|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 29-32|||0.07|-0.47|0.138
92433667|NCT00887978|184754373|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-2.0||||0.84||95.0|-25.0|22.0|||ANCOVA|||||22.0|-25.0|0.84
92433668|NCT02700815|184754394|SUPERIORITY||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.277||0.0303|TWO_SIDED|95.0|-1.15|-0.06|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between placebo and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||-0.06|-1.15|0.0303
92433669|NCT02700815|184754394|SUPERIORITY||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.197||0.2886|TWO_SIDED|95.0|-0.18|0.6|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between capsaicin and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||0.60|-0.18|0.2886
92433670|NCT02700815|184754394|SUPERIORITY||Mean Difference (Net)|-0.72|STANDARD_ERROR_OF_MEAN|0.197||0.0003|TWO_SIDED|95.0|-1.1|-0.33|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between diclofenac and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||-0.33|-1.10|0.0003
92433671|NCT02700815|184754395|SUPERIORITY||Mean Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|0.221||0.0956|TWO_SIDED|95.0|-0.8|0.07|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-72 h) between placebo and combination therapy diclofenac + capsaicin||0.07|-0.80|0.0956
92433672|NCT02700815|184754395|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.157||0.0564|TWO_SIDED|95.0|-0.01|0.61|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-72 h) between capsaicin and combination therapy diclofenac + capsaicin||0.61|-0.01|0.0564
92433673|NCT02700815|184754395|SUPERIORITY||Mean Difference (Net)|-0.56|STANDARD_ERROR_OF_MEAN|0.157||0.0004|TWO_SIDED|95.0|-0.87|-0.25|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-72 h) between diclofenac and combination therapy diclofenac + capsaicin||-0.25|-0.87|0.0004
92433674|NCT02700815|184754396|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.238||0.0347|TWO_SIDED|95.0|-0.97|-0.04|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-120 h) between placebo and combination therapy diclofenac + capsaicin||-0.04|-0.97|0.0347
92433675|NCT02700815|184754396|SUPERIORITY||Mean Difference (Net)|0.32|STANDARD_ERROR_OF_MEAN|0.169||0.0622|TWO_SIDED|95.0|-0.02|0.65|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-120 h) between capsaicin and combination therapy diclofenac + capsaicin||0.65|-0.02|0.0622
92433676|NCT02700815|184754396|SUPERIORITY||Mean Difference (Net)|-0.68|STANDARD_ERROR_OF_MEAN|0.169|<|0.0001|TWO_SIDED|95.0|-1.01|-0.35|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-120 h) between diclofenac and combination therapy diclofenac + capsaicin||-0.35|-1.01|<0.0001
92433677|NCT02700815|184754397|SUPERIORITY||Odds Ratio (OR)|1.882||||0.0202|TWO_SIDED|95.0|1.1|3.21|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 30% from baseline between placebo and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||3.21|1.10|0.0202
92433678|NCT02700815|184754397|SUPERIORITY||Odds Ratio (OR)|0.732||||0.1206|TWO_SIDED|95.0|0.49|1.09|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 30% from baseline between capsaicin and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||1.09|0.49|0.1206
92237838|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.239|TWO_SIDED|95.0|-0.44|0.11|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 33-36|||0.11|-0.44|0.239
92433679|NCT02700815|184754397|SUPERIORITY||Odds Ratio (OR)|1.629||||0.0122|TWO_SIDED|95.0|1.11|2.39|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 30% from baseline between diclofenac and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||2.39|1.11|0.0122
92433680|NCT02700815|184754398|SUPERIORITY||Odds Ratio (OR)|1.729||||0.0643|TWO_SIDED|95.0|0.97|3.09|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 50% from baseline between placebo and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||3.09|0.97|0.0643
92433681|NCT02700815|184754398|SUPERIORITY||Odds Ratio (OR)|0.833||||0.3479|TWO_SIDED|95.0|0.57|1.22|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 50% from baseline between capsaicin and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||1.22|0.57|0.3479
92433682|NCT02700815|184754398|SUPERIORITY||Odds Ratio (OR)|2.125||||0.0004|TWO_SIDED|95.0|1.4|3.22|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 50% from baseline between diclofenac and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||3.22|1.40|0.0004
92433683|NCT02700815|184754399|SUPERIORITY||Mean Difference (Net)|-1.05|STANDARD_ERROR_OF_MEAN|0.313||0.0008|TWO_SIDED|95.0|-1.67|-0.44|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between placebo and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||-0.44|-1.67|0.0008
92433684|NCT02700815|184754399|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.223||0.3726|TWO_SIDED|95.0|-0.24|0.64|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between capsaicin and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||0.64|-0.24|0.3726
92433685|NCT02700815|184754399|SUPERIORITY||Mean Difference (Net)|-1.12|STANDARD_ERROR_OF_MEAN|0.223|<|0.0001|TWO_SIDED|95.0|-1.56|-0.68|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between diclofenac and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||-0.68|-1.56|<0.0001
92433686|NCT02700815|184754400|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.844||0.881|TWO_SIDED|95.0|-1.78|1.53|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between placebo and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||1.53|-1.78|0.8810
92433687|NCT02700815|184754400|SUPERIORITY||Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|0.601||0.6094|TWO_SIDED|95.0|-0.87|1.49|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between capsaicin and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||1.49|-0.87|0.6094
92433688|NCT02700815|184754400|SUPERIORITY||Mean Difference (Net)|0.76|STANDARD_ERROR_OF_MEAN|0.602||0.2047|TWO_SIDED|95.0|-0.42|1.95|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between diclofenac and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||1.95|-0.42|0.2047
92433689|NCT02700815|184754401|SUPERIORITY||Mean Difference (Net)|1.65|STANDARD_ERROR_OF_MEAN|1.339||0.2193|TWO_SIDED|95.0|-0.98|4.27|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between placebo and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||4.27|-0.98|0.2193
92433690|NCT02700815|184754401|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.949||0.7672|TWO_SIDED|95.0|-1.58|2.15|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between capsaicin and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||2.15|-1.58|0.7672
92237839|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.138||0.417|TWO_SIDED|95.0|-0.38|0.16|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 37-40|||0.16|-0.38|0.417
92237840|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.144||0.078|TWO_SIDED|95.0|-0.54|0.03|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 41-44|||0.03|-0.54|0.078
92237841|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.14||0.058|TWO_SIDED|95.0|-0.54|0.01|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 45-48|||0.01|-0.54|0.058
92433691|NCT02700815|184754401|SUPERIORITY||Mean Difference (Net)|2.02|STANDARD_ERROR_OF_MEAN|0.95||0.0339|TWO_SIDED|95.0|0.15|3.88|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between diclofenac and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||3.88|0.15|0.0339
92433692|NCT02324569|184754448|SUPERIORITY||Least square (LS) mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.097|<|0.0001|TWO_SIDED|95.0|-0.826|-0.443|||ANCOVA|||||-0.443|-0.826|<0.0001
92433693|NCT02016560|184754458|OTHER||Cox Proportional Hazard|1.581||||0.067|TWO_SIDED|95.0|0.968|2.581||A p-value of \<0.05 was the a priori threshold for statistical significance.|Cox proportional hazards|The Cox proportional hazard model was adjusted for baseline age, American National Adult Reading Test (ANART) score, and baseline CDR-SB score.||The specific hypothesis tested was that the hazard of progressing to the clinically meaningful event (defined as CDR-SB value change of at least 1 within 18 months) will be significantly greater for subjects with flortaucipir scans rated by majority interpretation as predicted to progress (Advanced AD scan pattern), as compared to subjects with scans rated as not predicted to progress (Moderate or Not AD scan pattern).||2.581|0.968|0.067
92433694|NCT02016560|184754459|OTHER||||||<|0.0001||||||No adjustment for multiple comparisons. No a priori threshold was set.|ANCOVA|Adjusted for age||ANCOVA model comparing the mean SUVr between AD and Older Cognitively Healthy within amyloid positive group.||||<0.0001
92433695|NCT02016560|184754459|OTHER|||||||0.0622||||||No adjustment for multiple comparisons. No a priori threshold was set.|ANCOVA|Adjusted for age||ANCOVA model comparing the mean SUVr between MCI and Older Cognitively Healthy within the amyloid positive group.||||0.0622
92433696|NCT02016560|184754459|OTHER||||||<|0.0001||||||No adjustment for multiple comparisons. No a priori threshold was set.|ANCOVA|Adjusted for age||ANCOVA model comparing the mean SUVr between AD and MCI within the amyloid positive group.||||<0.0001
92433697|NCT02016560|184754460|EQUIVALENCE|Test of whether the least squares mean change is significantly different than zero|||||<|0.0001|||||||Mixed Models Analysis|||SUVr change from baseline as dependent variable, baseline SUVr, age, and visit as independent variables, using an unstructured covariance structure for amyloid positive subjects only.||||<0.0001
92433698|NCT02016560|184754460|EQUIVALENCE|Test of whether the least squares mean change is significantly different than zero||||||0.7851|||||||Mixed Models Analysis|||SUVr change from baseline as dependent variable, baseline SUVr, age, and visit as independent variables, using an unstructured covariance structure for amyloid negative subjects only.||||0.7851
92433699|NCT02016560|184754461|OTHER||||||||||||||||||The hypothesis tested was that, of the 5 independent imaging physicians, at least 3 will have the lower bounds of 2-sided 95% confidence intervals ≥50%, for both sensitivity and specificity.|||
92433700|NCT02016560|184754462|OTHER||Pearson's correlation coefficient|-0.0925||||0.4361|TWO_SIDED||||||Pearson|||Pearson's correlation coefficient||||0.4361
92433701|NCT03758274|184754463|SUPERIORITY|||||||0.746|||||||Based on simple path model in Mplus.|||||||0.746
92433702|NCT03758274|184754464|SUPERIORITY|||||||0.247|||||||Based on simple path model in Mplus.|||||||0.247
92433703|NCT03758274|184754465|SUPERIORITY|||||||0.689|||||||Chi-squared|||||||0.689
92433704|NCT00842712|184754530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.718||||0.0845|TWO_SIDED|95.0|0.492|1.048|||Log Rank|||PFS Time: Independent read||1.048|0.492|0.0845
92433705|NCT00842712|184754531|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.909||||0.5912|TWO_SIDED|95.0|0.642|1.286|||Log Rank|||||1.286|0.642|0.5912
92237842|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.141||0.231|TWO_SIDED|95.0|-0.45|0.11|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 49-52|||0.11|-0.45|0.231
92237843|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.097||0.068|TWO_SIDED|95.0|-0.37|0.01|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 1-4|||0.01|-0.37|0.068
92433706|NCT00842712|184754532|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.813||||0.2648|TWO_SIDED|95.0|0.564|1.171|||Log Rank|||||1.171|0.564|0.2648
92433707|NCT02144233|184754537|SUPERIORITY|||||||0.54|||||||Mixed Models Analysis|||||||0.54
92433708|NCT02785354|184754563|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.51|0.66|||Fine and Gray model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for dabigatran versus VKA, with hazard ratio (HR) and 95% Confidence Interval (CI ) (and death as a competing risk).||0.66|0.51|<0.0001
92433709|NCT02785354|184754563|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0006|TWO_SIDED|95.0|0.75|0.92|||Fine and Gray model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI (and death as a competing risk).||0.92|0.75|0.0006
92433710|NCT02785354|184754564|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.46|0.66|||Fine and Gray model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for dabigatran versus VKA, with hazard ratio (HR) and 95%CI (and death as a competing risk).||0.66|0.46|<0.0001
92433711|NCT02785354|184754564|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.0|0.58|0.79|||Fine and Gray model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI (and death as a competing risk).||0.79|0.58|<0.0001
92433712|NCT02785354|184754565|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.0007|TWO_SIDED|95.0|0.63|0.88|||Fine and Gray model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for dabigatran versus VKA, with hazard ratio (HR) and 95%CI (and death as a competing risk).||0.88|0.63|0.0007
92433713|NCT02785354|184754565|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.8341|TWO_SIDED|95.0|0.85|1.14|||Fine and Gray model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI (and death as a competing risk).||1.14|0.85|0.8341
92433714|NCT02785354|184754566|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0147|TWO_SIDED|95.0|0.65|0.95|||Fine and Gray model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for dabigatran versus VKA, with hazard ratio (HR) and 95%CI (and death as a competing risk).||0.95|0.65|0.0147
92433715|NCT02785354|184754566|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0501|TWO_SIDED|95.0|0.71|1.0|||Fine and Gray model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI (and death as a competing risk).||1.00|0.71|0.0501
92433716|NCT02785354|184754567|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||<|0.0001|TWO_SIDED|95.0|0.67|0.82|||Cox proportional hazard risk model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Kaplan-Meier to estimate the cumulative incidence, 2) Cox proportional hazard risk model to compare the 1-year risk for dabigatran versus VKA, with HR and 95%CI.||0.82|0.67|<0.0001
92433717|NCT02785354|184754567|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||<|0.0001|TWO_SIDED|95.0|0.71|0.84|||Cox proportional hazard risk model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Kaplan-Meier to estimate the cumulative incidence, 2) Cox proportional hazard risk model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI.||0.84|0.71|<0.0001
92433718|NCT02785354|184754568|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.66|0.76|||Cox proportional hazard risk model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Kaplan-Meier to estimate the cumulative incidence, 2) Cox proportional hazard risk model to compare the 1-year risk for dabigatran versus VKA, with HR and 95%CI.||0.76|0.66|<0.0001
92433719|NCT02785354|184754568|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84|||<|0.0001|TWO_SIDED|95.0|0.79|0.89|||Cox proportional hazard risk model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Kaplan-Meier to estimate the cumulative incidence, 2) Cox proportional hazard risk model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI.||0.89|0.79|<0.0001
92237844|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.118||0.006|TWO_SIDED|95.0|-0.56|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 5-8|||-0.09|-0.56|0.006
92433720|NCT00875212|184754570|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.5|STANDARD_DEVIATION|0.25||0.001||95.0|||||ANOVA|repeated measure anova|The median value of each parameter (pH baseline, minimal pH) was obtained and these values were compared between each group|The study was based on the use of dentifrices for daily oral hygiene in a crossover design. The null hyphothesis was no difference between pH values of the groups. The statistical analysis was by repeated measurements ANOVA.||||0.001
92433721|NCT00875212|184754570|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.5|STANDARD_DEVIATION|0.1||0.001||95.0|||||ANOVA|repeated-measurements ANOVA||The comparison was based on mean and median values of plaque pH in different moments of cariogenic challenge. The null hypothesis was that no diference between the groups wil be found. The test hypothesis was that the experimental dentifrice of CaGP-F would provide a better control of plaque pH after 14 days of use.||||0.001
92433722|NCT00875212|184754571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|STANDARD_DEVIATION|0.25||0.01||95.0|||||ANOVA|repeated measurements ANOVA|The difference of pH values between groups was above 1.0 unit.|The groups were compared by repeated measurements anova. There was no power calculation, but a pilot study to check the minimal number necessary of subjects in order to find a signifcant difference between interventions.||||0.01
92433723|NCT00848081|184754572|SUPERIORITY_OR_OTHER|||||||0.403||||||1-sided test|Fisher Exact|||The p-value is from a one-sided Fisher's exact test with a significance level of 0.05. A total of 142 subjects per treatment arm would provide 91% power to detect the difference between a Group 1 proportion of 0.03 and a Group 2 proportion of 0.13.||||0.403
92433724|NCT00848081|184754574|SUPERIORITY_OR_OTHER|||||||0.13||||||p-value is on change from baseline|ANCOVA|||The LS mean, standard error, 2-sided 95% confidence interval and p-value for the difference between placebo and tadalafil 5 mg are from an analysis of covariance (ANCOVA) model.||||0.130
92433725|NCT00848081|184754575|SUPERIORITY_OR_OTHER|||||||0.258||||||p-value is on change from baseline|ANOVA|The p-value is from Type III sums of squares ANOVA on rank-transformed data.||||||0.258
92433726|NCT00848081|184754576|SUPERIORITY_OR_OTHER|||||||0.828|||||||ANOVA|P-value is from Type III sums of squares ANOVA on rank-transformed data; p-value is on change from baseline.||||||0.828
92433727|NCT01752907|184754577|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.3479|TWO_SIDED|95.0|-0.4|1.0|||t-test, 2 sided||Treatment difference = bone pain DVD - general education DVD|There was no statistical hypothesis testing for this study. The clinical hypothesis was that a difference in mean maximum pain of 0.5 (scale 0 to 10) in favor of bone pain education would be a clinically relevant difference.||1.0|-0.4|0.3479
92433728|NCT00309387|184754636|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.82||||0.03|TWO_SIDED|95.0|0.68|0.98|||Regression, Cox|||||0.98|0.68|0.03
92433729|NCT00208091|184754644|SUPERIORITY_OR_OTHER||||||=|0.06||95.0|||||Wilcoxon (Mann-Whitney)|||||||=0.06
92433730|NCT00208091|184754645|SUPERIORITY_OR_OTHER||||||=|0.23||95.0|||||Wilcoxon (Mann-Whitney)|||||||=0.23
92433731|NCT02899988|184754647|SUPERIORITY||Risk Difference (RD)|29.4||||0.009|TWO_SIDED|95.0|16.9|41.9|||Regression, Logistic|||||41.9|16.9|0.009
92433732|NCT02899988|184754647|SUPERIORITY||Risk Difference (RD)|58.8|||<|0.001|TWO_SIDED|95.0|45.3|72.3|||Regression, Logistic|||||72.3|45.3|<0.001
92171895|NCT03743636|184233366|SUPERIORITY||Mean Difference (Final Values)|11.14||||0.0602|ONE_SIDED|90.0|2.16||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||2.16|0.0602
92237845|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.131||0.042|TWO_SIDED|95.0|-0.53|-0.01|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 9-12|||-0.01|-0.53|0.042
92237846|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.136||0.027|TWO_SIDED|95.0|-0.57|-0.03|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 13-16|||-0.03|-0.57|0.027
92237847|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.146||0.01|TWO_SIDED|95.0|-0.67|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 17-20|||-0.09|-0.67|0.010
92237848|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.144||0.01|TWO_SIDED|95.0|-0.66|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 21-24|||-0.09|-0.66|0.010
92237849|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.148|||TWO_SIDED|95.0|-0.7|-0.12|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 25-28|||-0.12|-0.70|
92237850|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.152||0.011|TWO_SIDED|95.0|-0.68|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 29-32|||-0.09|-0.68|0.011
92237851|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.157||0.011|TWO_SIDED|95.0|-0.71|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 33-36|||-0.09|-0.71|0.011
92237852|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.151||0.014|TWO_SIDED|95.0|-0.67|-0.07|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 37-40|||-0.07|-0.67|0.014
92237853|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.153||0.007|TWO_SIDED|95.0|-0.72|-0.12|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 41-44|||-0.12|-0.72|0.007
92237854|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.16||0.006|TWO_SIDED|95.0|-0.76|-0.13|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 45-48|||-0.13|-0.76|0.006
92237855|NCT02345161|184379844|SUPERIORITY_OR_OTHER||LS Mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.163||0.013|TWO_SIDED|95.0|-0.73|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 49-52|||-0.09|-0.73|0.013
92237856|NCT02345161|184379853|SUPERIORITY_OR_OTHER||LS mean difference|1.8|STANDARD_ERROR_OF_MEAN|0.81||0.023|TWO_SIDED|95.0|0.3|3.4|||Mixed Model Repeated Measures||For QTcF|||3.4|0.3|0.023
92237857|NCT02345161|184379853|SUPERIORITY_OR_OTHER||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.78||0.471|TWO_SIDED|95.0|-2.1|1.0|||Mixed Model Repeated Measures||For PR interval|||1.0|-2.1|0.471
92237858|NCT02345161|184379854|SUPERIORITY_OR_OTHER||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.83||0.564|TWO_SIDED|95.0|-4.7|2.5|||Mixed Model Repeated Measures||For QTcF|||2.5|-4.7|0.564
92237859|NCT02345161|184379854|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|1.57||0.908|TWO_SIDED|95.0|-2.9|3.3|||Mixed Model Repeated Measures||For PR interval|||3.3|-2.9|0.908
92237860|NCT02345161|184379857|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.56||0.849|TWO_SIDED|95.0|-1.0|1.2|||Mixed Model Repeated Measures||Week 24, SBP|||1.2|-1.0|0.849
92237861|NCT02345161|184379857|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.38||0.613|TWO_SIDED|95.0|-0.6|0.9|||Mixed Model Repeated Measures||Week 24, DBP|||0.9|-0.6|0.613
92237862|NCT02345161|184379858|SUPERIORITY_OR_OTHER||: LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|1.19||0.183|TWO_SIDED|95.0|-3.9|0.8|||Mixed Model Repeated Measures||Week 52, SBP|||0.8|-3.9|0.183
92237863|NCT02345161|184379858|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.75||0.253|TWO_SIDED|95.0|-2.3|0.6|||Mixed Model Repeated Measures||Week 52, DBP|||0.6|-2.3|0.253
92433733|NCT02899988|184754647|SUPERIORITY||Risk Difference (RD)|66.7|||<|0.001|TWO_SIDED|95.0|53.7|79.6|||Regression, Logistic|||||79.6|53.7|<0.001
92433734|NCT02899988|184754648|SUPERIORITY||Risk Difference (RD)|15.7||||0.039|TWO_SIDED|95.0|5.7|25.7|||Regression, Logistic|||||25.7|5.7|0.039
92433735|NCT02899988|184754648|SUPERIORITY||Risk Difference (RD)|31.4||||0.007|TWO_SIDED|95.0|18.6|44.1|||Regression, Logistic|||||44.1|18.6|0.007
92433736|NCT02899988|184754648|SUPERIORITY||Risk Difference (RD)|31.4||||0.007|TWO_SIDED|95.0|18.6|44.1|||Regression, Logistic|||||44.1|18.6|0.007
92433737|NCT02899988|184754649|SUPERIORITY||Risk Difference (RD)|22.49|||<|0.001|TWO_SIDED|95.0|5.62|89.97|||Regression, Logistic|||||89.97|5.62|<0.001
92433738|NCT02899988|184754649|SUPERIORITY||Risk Difference (RD)|74.6|||<|0.001|TWO_SIDED|95.0|62.1|87.0|||Regression, Logistic|||||87.0|62.1|<0.001
92433739|NCT02899988|184754649|SUPERIORITY||Risk Difference (RD)|70.7|||<|0.001|TWO_SIDED|95.0|57.6|83.7|||Regression, Logistic|||||83.7|57.6|<0.001
92433740|NCT02899988|184754650|SUPERIORITY||Risk Difference (RD)|15.7||||0.041|TWO_SIDED|95.0|5.7|25.7|||Regression, Logistic|||sPGA (0)||25.7|5.7|0.041
92433741|NCT02899988|184754650|SUPERIORITY||Risk Difference (RD)|31.4||||0.007|TWO_SIDED|95.0|18.6|44.1|||Regression, Logistic|||sPGA (0)||44.1|18.6|0.007
92433742|NCT02899988|184754650|SUPERIORITY||Risk Difference (RD)|31.4||||0.008|TWO_SIDED|95.0|18.6|44.1|||Regression, Logistic|||sPGA (0)||44.1|18.6|0.008
92433743|NCT02899988|184754650|SUPERIORITY||Risk Difference (RD)|35.3|||<|0.001|TWO_SIDED|95.0|21.5|49.1|||Regression, Logistic|||sPGA (0/1)||49.1|21.5|<0.001
92433744|NCT02899988|184754650|SUPERIORITY||Risk Difference (RD)|68.7|||<|0.001|TWO_SIDED|95.0|55.6|81.7|||Regression, Logistic|||sPGA (0/1)||81.7|55.6|<0.001
92433745|NCT02899988|184754650|SUPERIORITY||Risk Difference (RD)|66.7|||<|0.001|TWO_SIDED|95.0|53.4|80.0|||Regression, Logistic|||sPGA (0/1)||80.0|53.4|<0.001
92433746|NCT02899988|184754651|SUPERIORITY||Mean Difference (Net)|-26.84|STANDARD_ERROR_OF_MEAN|3.26|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92433747|NCT02899988|184754651|SUPERIORITY||Mean Difference (Net)|-37.99|STANDARD_ERROR_OF_MEAN|3.29|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92433748|NCT02899988|184754651|SUPERIORITY||Mean Difference (Net)|-29.32|STANDARD_ERROR_OF_MEAN|3.22|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92433749|NCT02899988|184754652|SUPERIORITY||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92433750|NCT02899988|184754652|SUPERIORITY||Mean Difference (Net)|2.56|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92433751|NCT02899988|184754652|SUPERIORITY||Mean Difference (Net)|2.47|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92433752|NCT02899988|184754653|SUPERIORITY||Mean Difference (Net)|-8.12|STANDARD_ERROR_OF_MEAN|0.98|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92433753|NCT02899988|184754653|SUPERIORITY||Mean Difference (Net)|-9.11|STANDARD_ERROR_OF_MEAN|0.97|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92433754|NCT02899988|184754653|SUPERIORITY||Mean Difference (Net)|-8.57|STANDARD_ERROR_OF_MEAN|0.98|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92433755|NCT02899988|184754654|SUPERIORITY||Mean Difference (Net)|2.11|STANDARD_ERROR_OF_MEAN|1.24||0.009|TWO_SIDED||||||ANCOVA|||Mental Component Summary (MCS)||||0.009
92237864|NCT02345161|184379860|SUPERIORITY_OR_OTHER||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.45||0.526|TWO_SIDED|95.0|-0.6|1.2|||Mixed Model Repeated Measures|||||1.2|-0.6|0.526
92237865|NCT02345161|184379861|SUPERIORITY_OR_OTHER||LS mean difference|2.6|STANDARD_ERROR_OF_MEAN|0.96||0.007|TWO_SIDED|95.0|0.7|4.5|||Mixed Model Repeated Measures|||||4.5|0.7|0.007
92237866|NCT03088605|184379892|SUPERIORITY||Mean Difference (Net)|-0.3||||0.02|TWO_SIDED|90.0|-0.7|0.0|||ANCOVA|||Change from Baseline. ANCOVA model includes baseline scores as a covariate||0|-0.7|0.02
92237867|NCT03088605|184379893|SUPERIORITY||Mean Difference (Net)|-1.0||||0.0001|TWO_SIDED|90.0|-1.4|0.5|||ANCOVA|||Change form baseline. ANCOVA model includes baseline score as a covariate.||0.5|-1.4|0.0001
92237868|NCT03088605|184379894|SUPERIORITY||Mean Difference (Net)|-1.42||||0.03|TWO_SIDED|90.0|-2.36|-0.47|||ANCOVA|||Change from baseline. ANCOVA model includes baseline score as a covariate.||-0.47|-2.36|0.03
92237869|NCT03088605|184379895|SUPERIORITY||Mean Difference (Net)|0.199||||0.39|TWO_SIDED|90.0|-0.177|0.575|||ANCOVA|||Change from Baseline; ANCOVA model includes baseline score as a covariate.||0.575|-0.177|0.39
92237870|NCT03088605|184379896|SUPERIORITY||Mean Difference (Net)|0.2||||0.97|TWO_SIDED|90.0|-1.7|2.0|||ANCOVA|||Change from baseline. ANCOVA model includes baseline score as a covariate.||2.0|-1.7|0.97
92237871|NCT03088605|184379897|SUPERIORITY||Mean Difference (Net)|-0.23||||0.06|TWO_SIDED|90.0|-0.48|0.03|||ANCOVA|||Change from baseline. ANCOVA model includes baseline score as a covariate.||0.03|-0.48|0.06
92433756|NCT02899988|184754654|SUPERIORITY||Mean Difference (Net)|2.74|STANDARD_ERROR_OF_MEAN|1.22||0.002|TWO_SIDED||||||ANCOVA|||Mental Component Summary (MCS)||||0.002
92433757|NCT02899988|184754654|SUPERIORITY||Mean Difference (Net)|1.52|STANDARD_ERROR_OF_MEAN|1.24||0.087|TWO_SIDED||||||ANCOVA|||Mental Component Summary (MCS)||||0.087
92433758|NCT02899988|184754654|SUPERIORITY||Mean Difference (Net)|3.35|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED||||||ANCOVA|||Physical Component Summary||||<0.001
92433759|NCT02899988|184754654|SUPERIORITY||Mean Difference (Net)|3.16|STANDARD_ERROR_OF_MEAN|1.18|<|0.001|TWO_SIDED||||||ANCOVA|||Physical Component Summary||||<0.001
92433760|NCT02899988|184754654|SUPERIORITY||Mean Difference (Net)|3.86|STANDARD_ERROR_OF_MEAN|1.19|<|0.001|TWO_SIDED||||||ANCOVA|||Physical Component Summary||||<0.001
92433761|NCT03454581|184754661|SUPERIORITY||Mean Difference (Final Values)|0.05|||<|0.001|TWO_SIDED|95.0|||||Regression, Linear|||||||<0.001
92433762|NCT03454581|184754662|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
92433763|NCT03454581|184754663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
92433764|NCT03454581|184754664|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Generalized Estimating Equation|||||||<0.05
92433765|NCT03454581|184754665|OTHER||||||<|0.01|||||||Generalized Estimating Equation|||||||<0.01
92433766|NCT03454581|184754666|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
92433767|NCT03454581|184754667|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
92433768|NCT03454581|184754668|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
92433769|NCT00411645|184754673|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.902||||0.789|TWO_SIDED|95.0|0.424|1.92||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|||1.920|0.424|0.789
92433770|NCT00411645|184754674|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.721||||0.056|TWO_SIDED|95.0|0.515|1.008||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of pp65 antigenemia assay||1.008|0.515|0.056
92433771|NCT00411645|184754674|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.979||||0.904|TWO_SIDED|95.0|0.697|1.375||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of CMV DNA PCR assay||1.375|0.697|0.904
92433772|NCT00411645|184754674|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.838||||0.289|TWO_SIDED|95.0|0.606|1.161||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of pp65 antigenemia or CMV DNA PCR assay||1.161|0.606|0.289
92433773|NCT00411645|184754674|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.891||||0.493|TWO_SIDED|95.0|0.64|1.239||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of initiation of anti-CMV therapy||1.239|0.640|0.493
92433774|NCT00411645|184754675|SUPERIORITY_OR_OTHER_LEGACY|||||||0.129|TWO_SIDED||||||Log Rank|||||||0.129
92433775|NCT00411645|184754675|SUPERIORITY_OR_OTHER_LEGACY||Adjusted hazard ratio|0.83||||0.13|TWO_SIDED|95.0|0.65|1.06||The p-value from Wald Chi-Square test for treatment effect.|Wald Chi-squared||Maribavir versus placebo; based on Cox's proportional hazards regression model: time = recipient CMV serostatus (R+ or R-) + transplant type (myeloablative or non-myeloablative/reduced intensity) + treatment.|||1.06|0.65|0.130
92433776|NCT00411645|184754676|SUPERIORITY_OR_OTHER_LEGACY|||||||0.542|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel|||Analysis of 100 days post-transplant||||0.542
92433777|NCT00411645|184754676|SUPERIORITY_OR_OTHER_LEGACY|||||||0.637|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel|||Analysis of 6 months post-transplant||||0.637
92433778|NCT00411645|184754676|SUPERIORITY_OR_OTHER_LEGACY|||||||0.825|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel|||Analysis of 12 months post-transplant||||0.825
92433779|NCT00411645|184754677|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.669||||0.022|TWO_SIDED|95.0|0.474|0.946||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of pp65 antigenemia assay||0.946|0.474|0.022
92237872|NCT02639182|184379930|SUPERIORITY|The difference between treatment groups was tested using a stratified log rank test at a one-sided 0.1 significance level.||||||0.983||||||The stratification factors were the ECOG PS at baseline and the number of prior systemic renal cell carcinoma (RCC) regimens, without any other covariate(s). The model contained terms for treatment group and stratum.|Log Rank|||||||0.983
92237873|NCT02639182|184379931|SUPERIORITY|The difference between treatment groups was tested using a stratified log rank test at a one-sided 0.1 significance level.|Hazard Ratio (HR)|1.423||||0.11|TWO_SIDED|95.0|0.924|2.192||The stratification factors were the ECOG PS at baseline and the number of prior systemic RCC regimens, without any other covariate(s). The model contained terms for treatment group and stratum.|Log Rank|||||2.192|0.924|0.110
92237874|NCT02639182|184379932|SUPERIORITY||Odds Ratio (OR)|0.4||||0.062|TWO_SIDED|95.0|0.1|1.1||A Cochran-Mantel-Haenszel (CMH) analysis of the ORR, stratified for baseline ECOG-PS and number of prior systemic therapies for RCC, was conducted at a two-sided significance level of 0.05.|Cochran-Mantel-Haenszel|Stratified Mantel-Haenszel estimate of the odds ratio for experiencing objective response, with the axitinib arm as the reference level, was reported.||||1.1|0.1|0.062
92237875|NCT02639182|184379933|SUPERIORITY||Hazard Ratio (HR)|0.376||||0.439||95.0|0.031|4.482||The stratification factors were the ECOG PS at baseline and the number of prior systemic RCC regimens, without any other covariate(s). The model contained terms for treatment group and stratum.|Log Rank|The difference between treatment groups was tested using a stratified log rank test at a one-sided 0.1 significance level.||||4.482|0.031|0.439
92237876|NCT02639182|184379934|SUPERIORITY|||||||0.746||||||Test conducted at a 2-sided significance level of 0.05. The stratification factors were the ECOG PS at baseline and number of prior systemic RCC regimens.|Log Rank|||||||0.746
92237877|NCT02639182|184379935|SUPERIORITY|A CMH analysis of the DCR, stratified for baseline ECOG-PS and number of prior systemic therapies for RCC, was conducted at a two-sided significance level of 0.05.|Odds Ratio (OR)|0.5||||0.152|TWO_SIDED|95.0|0.2|1.3||The stratified Mantel-Haenszel estimate of the odds ratio for experiencing objective response, with the axitinib arm as the reference level, was reported as a measure of relative treatment effect, along with its two-sided 95% CI.|Cochran-Mantel-Haenszel|||||1.3|0.2|0.152
92237878|NCT02546856|184379952|NON_INFERIORITY|For the hypothesis that the relative dose of BBs would reach 52% by the end of the study and using an equivalence margin of 7%, we would need 157 patients per group for an alpha level of significance of 0.05 and a statistical power of 80% (beta of 0.80).|Mean Difference (Final Values)|14.8|||<|0.001|TWO_SIDED|95.0|7.5|22.1|||t-test, 2 sided|||||22.1|7.5|<0.001
92237879|NCT02546856|184379953|EQUIVALENCE|equivalence margin of 5%|Difference in percentages|1.4||||0.52|TWO_SIDED|95.0|-3.33|6.32|||Chi-squared|||||6.32|-3.33|0.52
92237880|NCT02546856|184379954|NON_INFERIORITY|Equivalence margin of 5%|Difference in percentages|2.1||||0.31|TWO_SIDED|95.0|-1.9|6.1|||Chi-squared|||||6.1|-1.9|0.31
92433780|NCT00411645|184754677|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.878||||0.468|TWO_SIDED|95.0|0.617|1.247||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of CMV DNA PCR assay||1.247|0.617|0.468
92237881|NCT02546856|184379955|NON_INFERIORITY|Equivalence margin of 5%|Difference in percentages|-0.63||||0.85|TWO_SIDED|95.0|-7.1|5.85|||Chi-squared|||||5.85|-7.1|0.85
92237882|NCT02546856|184379956|NON_INFERIORITY|Equivalence margin of 5%|Difference in percentages|2.12||||0.44|TWO_SIDED|95.0|-3.3|7.54|||Chi-squared|||||7.54|-3.3|0.44
92279813|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.5085||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.5085
92433781|NCT00411645|184754677|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.772||||0.125|TWO_SIDED|95.0|0.555|1.075||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of pp65 antigenemia assay or CMV DNA PCR assay||1.075|0.555|0.125
92433782|NCT00411645|184754677|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.731||||0.069|TWO_SIDED|95.0|0.521|1.026||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of initiation of anti-CMV therapy||1.026|0.521|0.069
92433783|NCT00411645|184754677|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.913||||0.86|TWO_SIDED|95.0|0.332|2.508||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of EC-confirmed disease||2.508|0.332|0.860
92433784|NCT00411645|184754678|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.835||||0.617|TWO_SIDED|95.0|0.411|1.693||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of 12 months post-transplant||1.693|0.411|0.617
92433785|NCT00411645|184754679|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.048||||0.7808|TWO_SIDED|95.0|0.754|1.457||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R -) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of 100 days post-transplant||1.457|0.754|0.7808
92433786|NCT00411645|184754679|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.068||||0.6946|TWO_SIDED|95.0|0.771|1.479||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R -) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of 6 months post-transplant||1.479|0.771|0.6946
92433787|NCT00411645|184754680|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.186||||0.6304|TWO_SIDED|95.0|0.592|2.375||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R -) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of 100 days post-transplant||2.375|0.592|0.6304
92237883|NCT02546856|184379958|NON_INFERIORITY|equivalence margin of 5%|Difference in percentages|0.7||||0.56|TWO_SIDED|95.0|-1.6|3.04|||Chi-squared|||||3.04|-1.6|0.56
92237884|NCT02546856|184379962|NON_INFERIORITY|Equivalence margin of 5%|Mean Difference (Final Values)|0.07||||0.96|TWO_SIDED|95.0|-2.69|2.83|||t-test, 2 sided|||||2.83|-2.69|0.96
92237885|NCT02546856|184379963|NON_INFERIORITY|Equivalence margin of 5%|Mean Difference (Final Values)|16.47||||0.97|TWO_SIDED|95.0|-781.0|748.0|||t-test, 2 sided|||||748|-781|0.97
92433788|NCT00411645|184754680|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.726||||0.1019|TWO_SIDED|95.0|0.495|1.066||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R -) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of 6 months post-transplant||1.066|0.495|0.1019
92433789|NCT02289690|184754700|OTHER||RP2D for veliparib in mg BID for 14 days|240.0|||||TWO_SIDED||||||||The RP2D for veliparib was determined to be 240 mg BID for 14 days with carboplatin (AUC 5 mg/mL\*min) on Day 1 and etoposide (100 mg/m²) on Days 1 to 3 during 21-day cycles for 4 cycles.|A primary objective of Phase 1 was to establish the recommended phase 2 dose (RP2D) for veliparib combined with carboplatin and etoposide. The RP2D was determined by the rate of DLTs and overall tolerability of veliparib plus carboplatin and etoposide.||||
92237886|NCT02546856|184379964|NON_INFERIORITY|Equivalence margin of 5%|Mean Difference (Final Values)|7.28||||0.44|TWO_SIDED|95.0|-11.27|25.83|||t-test, 2 sided|||||25.83|-11.27|0.44
92237887|NCT02546856|184379966|NON_INFERIORITY|Equivalence margin of 5%|Mean Difference (Final Values)|-0.91||||0.75|TWO_SIDED|95.0|-6.63|4.81|||t-test, 2 sided|||||4.81|-6.63|0.75
92237888|NCT02546856|184379967|NON_INFERIORITY|Equivalence margin of 5%|Mean Difference (Final Values)|0.04||||0.2|TWO_SIDED|95.0|-0.2|0.28|||t-test, 2 sided|||||0.28|-0.2|0.20
92237889|NCT02546856|184379968|EQUIVALENCE|equivalence margin of 5%|Difference in percentages|-5.5||||0.01|TWO_SIDED|95.0|-9.7|-1.4|||Chi-squared|||||-1.4|-9.7|0.01
92237890|NCT02546856|184379969|NON_INFERIORITY|Equivalence margin of 5%|Difference in percentages|-0.68||||0.71|TWO_SIDED|95.0|-4.2|2.87|||Chi-squared|Equivalence margin of 7%||||2.87|-4.2|0.71
92433790|NCT02289690|184754716|SUPERIORITY||Hazard Ratio (HR)|0.665||||0.059|TWO_SIDED|80.0|0.503|0.88|||Log Rank|Two-sided log-rank test stratified by lactate dehydrogenase (LDH) level|Hazard ratio estimate was obtained from a Cox proportional hazards model stratified by LDH level. A hazard ratio \< 1 favors veliparib in combination with carboplatin and etoposide followed by veliparib maintenance monotherapy (Arm A).|"The primary efficacy analysis in the Phase 2 portion of the study was the comparison of PFS among participants who received veliparib in combination with carboplatin and etoposide followed by veliparib maintenance monotherapy (Arm A) vs. placebo in combination with carboplatin and etoposide followed by placebo maintenance monotherapy (Arm C).~Statistical significance was determined by a two-sided p-value ≤ 0.2"||0.880|0.503|0.059
92433791|NCT02289690|184754716|SUPERIORITY||Hazard Ratio (HR)|0.979||||0.924|TWO_SIDED|80.0|0.744|1.288|||Log Rank|Two-sided log-rank test stratified by lactate dehydrogenase (LDH) level|Hazard ratio estimate was obtained from a Cox proportional hazards model stratified by LDH level. A hazard ratio of \< 1 favors veliparib in combination with carboplatin and etoposide followed by placebo maintenance monotherapy (Arm B).|"If the primary analysis of PFS (Arm A vs Arm C) was statistically significant a fixed sequence testing procedure was to be performed with a 2-sided significance level of 0.2 for the following key secondary endpoints:~1. OS (Arm A vs Arm C)~2. PFS (Arms B vs Arm C)~3. OS (Arm B vs Arm C)~4. ORR (Arm A vs Arm C)~5. ORR (Arm B vs Arm C)~If significance versus Arm C was not demonstrated, all endpoints later in the testing hierarchy were to be considered exploratory."||1.288|0.744|0.924
92433792|NCT02289690|184754717|SUPERIORITY||Hazard Ratio (HR)|1.432||||0.088|TWO_SIDED|80.0|1.092|1.879|||Log Rank|Two-sided log rank test stratified by LDH level.|Hazard ratio estimate was obtained from a Cox proportional hazards model stratified by LDH level. A hazard ratio of \< 1 favors veliparib in combination with carboplatin and etoposide followed by veliparib maintenance monotherapy (Arm A).|"If the primary analysis of PFS (Arm A vs Arm C) was statistically significant a fixed sequence testing procedure was to be performed with a 2-sided significance level of 0.2 for the following key secondary endpoints:~1. OS (Arm A vs Arm C)~2. PFS (Arms B vs Arm C)~3. OS (Arm B vs Arm C)~4. ORR (Arm A vs Arm C)~5. ORR (Arm B vs Arm C)~If significance versus Arm C was not demonstrated, all endpoints later in the testing hierarchy were to be considered exploratory."||1.879|1.092|0.088
92433793|NCT02289690|184754717|SUPERIORITY||Hazard Ratio (HR)|1.46||||0.083|TWO_SIDED|80.0|1.104|1.931|||Log Rank|Two-sided log rank test stratified by LDH level.|Hazard ratio estimate was obtained from a Cox proportional hazards model stratified by LDH level. A hazard ratio of \< 1 favors veliparib in combination with carboplatin and etoposide followed by placebo maintenance monotherapy (Arm B).|"If the primary analysis of PFS (Arm A vs Arm C) was statistically significant a fixed sequence testing procedure was to be performed with a 2-sided significance level of 0.2 for the following key secondary endpoints:~1. OS (Arm A vs Arm C)~2. PFS (Arms B vs Arm C)~3. OS (Arm B vs Arm C)~4. ORR (Arm A vs Arm C)~5. ORR (Arm B vs Arm C)~If significance versus Arm C was not demonstrated, all endpoints later in the testing hierarchy were to be considered exploratory."||1.931|1.104|0.083
92433794|NCT02289690|184754718|SUPERIORITY||Odds Ratio (OR)|1.9||||0.115|TWO_SIDED|80.0|1.1|3.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by LDH level.|Odds ratio was from a Cochran-Mantel-Haenszel test stratified by LDH level. An odds ratio of \> 1 favors veliparib in combination with carboplatin and etoposide followed by veliparib maintenance monotherapy (Arm A).|"If the primary analysis of PFS (Arm A vs Arm C) was statistically significant a fixed sequence testing procedure was to be performed with a 2-sided significance level of 0.2 for the following key secondary endpoints:~1. OS (Arm A vs Arm C)~2. PFS (Arms B vs Arm C)~3. OS (Arm B vs Arm C)~4. ORR (Arm A vs Arm C)~5. ORR (Arm B vs Arm C)~If significance versus Arm C was not demonstrated, all endpoints later in the testing hierarchy were to be considered exploratory."||3.2|1.1|0.115
92237891|NCT02546856|184379970|NON_INFERIORITY|Equivalence margin of 7%|Mean Difference (Final Values)|16.5|||<|0.001|TWO_SIDED|95.0|8.7|24.3|||t-test, 2 sided|||||24.3|8.7|<0.001
92237892|NCT02546856|184379971|NON_INFERIORITY|Equivalence margin of 7%|Mean Difference (Final Values)|0.9||||0.93|TWO_SIDED|95.0|-15.1|17.1|||t-test, 2 sided|||||17.1|-15.1|0.93
92237893|NCT02546856|184379972|NON_INFERIORITY|Equivalence margin of 7%|Mean Difference (Final Values)|0.5||||0.86|TWO_SIDED|95.0|-7.1|8.2|||t-test, 2 sided|||||8.2|-7.1|0.86
92237894|NCT04655586|184379993|SUPERIORITY|||||||0.4715||||||All rNAPc2 vs. Heparin|Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||0.4715
92279814|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1213||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.1213
92433795|NCT02289690|184754718|SUPERIORITY||Odds Ratio (OR)|0.8||||0.604|TWO_SIDED|80.0|0.5|1.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by LDH level.|Odds ratio was from a Cochran-Mantel-Haenszel test stratified by LDH level. An odds ratio of \> 1 favors veliparib in combination with carboplatin and etoposide followed by placebo maintenance monotherapy (Arm B).|"If the primary analysis of PFS (Arm A vs Arm C) was statistically significant a fixed sequence testing procedure was to be performed with a 2-sided significance level of 0.2 for the following key secondary endpoints:~1. OS (Arm A vs Arm C)~2. PFS (Arms B vs Arm C)~3. OS (Arm B vs Arm C)~4. ORR (Arm A vs Arm C)~5. ORR (Arm B vs Arm C)~If significance versus Arm C was not demonstrated, all endpoints later in the testing hierarchy were to be considered exploratory."||1.3|0.5|0.604
92433796|NCT01025752|184754754|NON_INFERIORITY|A 20% (1.4) reduction in NRS for pain intensity from baseline was considered minimally clinically important the non-inferiority margin was set at one NRS unit. The required sample size was 230 participants. Because enrollment was slower than expected and the standard deviation in the primary outcome was less than the initial power calculation (1.6 vs. 2.45) we conducted a sample size recalculation, based on observed data to determine that we would need 42 completers per arm for 80% power.|Mean Difference (Final Values)|0.07||||0.007|TWO_SIDED|95.0|-0.67|0.8||Non-inferiority margin of 1|Mixed Models Analysis|The models includes treatment arm, time, treatment-by-time interaction, baseline NRS, stratification variables (distance from VA \& back pain cause)|The upper limit (0.80) fell below the non-inferiority margin of 1.|post-treatment (12 weeks) time point||0.80|-0.67|0.007
92433797|NCT01025752|184754754|NON_INFERIORITY|A 20% (1.4) reduction in NRS for pain intensity from baseline was considered minimally clinically important the non-inferiority margin was set at one NRS unit. The required sample size was 230 participants. Because enrollment was slower than expected and the standard deviation in the primary outcome was less than the initial power calculation (1.6 vs. 2.45) we conducted a sample size recalculation, based on observed data to determine that we would need 42 completers per arm for 80% power.|Mean Difference (Final Values)|-0.23|||<|0.0001|TWO_SIDED|95.0|-0.94|0.49||Non-inferiority margin of 1|Mixed Models Analysis|The models includes treatment arm, time, treatment-by-time interaction, baseline NRS, stratification variables (distance from VA \& back pain cause)|The upper limit (0.49) fell below the non-inferiority margin of 1.|3 month post-baseline time point||0.49|-0.94|<0.0001
92433798|NCT01025752|184754754|NON_INFERIORITY|A 20% (1.4) reduction in NRS for pain intensity from baseline was considered minimally clinically important the non-inferiority margin was set at one NRS unit. The required sample size was 230 participants. Because enrollment was slower than expected and the standard deviation in the primary outcome was less than the initial power calculation (1.6 vs. 2.45) we conducted a sample size recalculation, based on observed data to determine that we would need 42 completers per arm for 80% power.|Mean Difference (Final Values)|-0.08||||0.004|TWO_SIDED|95.0|-0.86|0.71||The non-inferiority margin is 1.|Mixed Models Analysis|The models includes treatment arm, time, treatment-by-time interaction, baseline NRS, stratification variables (distance from VA \& back pain cause)|The upper limit (0.71) fell below the non-inferiority margin of 1.|6 month post- baseline time point.||0.71|-0.86|0.004
92433799|NCT01025752|184754755|OTHER||Mean Difference (Final Values)|-0.33||||0.12|TWO_SIDED|95.0|-0.74|0.09|||Mixed Models Analysis|||Post-treatment (12 weeks) time point. (Mean difference of IVR CBT- F2F CBT)||0.09|-0.74|0.12
92433800|NCT01025752|184754755|OTHER||Mean Difference (Final Values)|-0.34||||0.2|TWO_SIDED|95.0|-0.87|0.18|||Mixed Models Analysis|||3 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||0.18|-0.87|0.20
92433801|NCT01025752|184754755|OTHER||Mean Difference (Final Values)|-0.02||||0.93|TWO_SIDED|95.0|-0.57|0.52|||Mixed Models Analysis|||6 months post baseline time point. (Mean difference of IVR CBT- F2F CBT)||0.52|-0.57|0.93
92237895|NCT04655586|184379994|SUPERIORITY|||||||0.1883|||||||Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||0.1883
92433802|NCT01025752|184754756|OTHER||Mean Difference (Final Values)|-0.5||||0.58|TWO_SIDED|95.0|-2.29|1.29|||Mixed Models Analysis|||post-treatment (12 weeks) time point||1.29|-2.29|0.58
92433803|NCT01025752|184754756|OTHER||Mean Difference (Final Values)|-1.53||||0.12|TWO_SIDED|95.0|-3.46|0.41|||Mixed Models Analysis|||3 months post-baseline time point||0.41|-3.46|0.12
92237896|NCT04655586|184379997|SUPERIORITY|||||||1|||||||Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||1.0
92237897|NCT04655586|184379998|SUPERIORITY|||||||0.0254|||||||Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||0.0254
92237898|NCT04655586|184379999|SUPERIORITY|||||||0.0535|||||||Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||0.0535
92237899|NCT04655586|184380000|SUPERIORITY|||||||0.83|||||||Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||0.8300
92237900|NCT01035606|184380035|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<.01
92237901|NCT01035606|184380036|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<.01
92237902|NCT02145156|184380062|SUPERIORITY_OR_OTHER|||||||0.36|||||||Fisher Exact|||||||.36
92237903|NCT02145156|184380062|SUPERIORITY_OR_OTHER|||||||0.18|||||||Fisher Exact|||||||.18
92237904|NCT02145156|184380062|SUPERIORITY_OR_OTHER|||||||0.22|||||||Fisher Exact|||||||.22
92237905|NCT02145156|184380062|SUPERIORITY_OR_OTHER|||||||0.88|||||||Fisher Exact|||||||.88
92237906|NCT02145156|184380063|SUPERIORITY_OR_OTHER|||||||0.35|||||||Fisher Exact|||||||0.35
92433804|NCT01025752|184754756|OTHER||Mean Difference (Final Values)|-0.61||||0.51|TWO_SIDED|95.0|-2.42|1.2|||Mixed Models Analysis|||6 months post-baseline time point||1.20|-2.42|0.51
92433805|NCT01025752|184754757|OTHER||Mean Difference (Final Values)|0.29||||0.83|TWO_SIDED|95.0|-2.3|2.87|||Mixed Models Analysis|||post-treatment (12 weeks) time point. (Mean difference of IVR CBT- F2F CBT)||2.87|-2.30|0.83
92433806|NCT01025752|184754757|OTHER||Mean Difference (Final Values)|1.15||||0.42|TWO_SIDED|95.0|-1.68|3.98|||Mixed Models Analysis|||3 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||3.98|-1.68|0.42
92433807|NCT01025752|184754757|OTHER||Mean Difference (Final Values)|-0.58||||0.68|TWO_SIDED|95.0|-3.4|2.24|||Mixed Models Analysis|||6 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||2.24|-3.40|0.68
92433808|NCT01025752|184754758|OTHER||Mean Difference (Final Values)|1.25||||0.4|TWO_SIDED|95.0|-1.66|4.16|||Mixed Models Analysis|||post-treatment (12 weeks) time point. (Mean difference of IVR CBT- F2F CBT)||4.16|-1.66|0.40
92433809|NCT01025752|184754758|OTHER||Mean Difference (Final Values)|0.38||||0.81|TWO_SIDED|95.0|-2.82|3.58|||Mixed Models Analysis|||3 months post-baseline. (Mean difference of IVR CBT- F2F CBT)||3.58|-2.82|0.81
92433810|NCT01025752|184754758|OTHER||Mean Difference (Final Values)|2.43||||0.16|TWO_SIDED|95.0|-0.96|5.82|||Mixed Models Analysis|||6 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||5.82|-0.96|0.16
92433811|NCT01025752|184754759|OTHER||Mean Difference (Final Values)|0.24||||0.85|TWO_SIDED|95.0|-2.32|2.8|||Mixed Models Analysis|||post-treatment (12 weeks time point). (Mean difference of IVR CBT- F2F CBT)||2.80|-2.32|0.85
92433812|NCT01025752|184754759|OTHER||Mean Difference (Final Values)|-1.27||||0.4|TWO_SIDED|95.0|-4.27|1.73|||Mixed Models Analysis|||3 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||1.73|-4.27|0.40
92433813|NCT01025752|184754759|OTHER||Mean Difference (Final Values)|-0.74||||0.68|TWO_SIDED|95.0|-4.3|2.83|||Mixed Models Analysis|||6 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||2.83|-4.30|0.68
92433814|NCT01025752|184754760|OTHER||Mean Difference (Final Values)|-0.94||||0.17|TWO_SIDED|95.0|-2.28|0.4|||Mixed Models Analysis|||post-treatment (12 weeks) time point. (Mean difference of IVR CBT- F2F CBT)||0.40|-2.28|0.17
92433815|NCT01025752|184754760|OTHER||Mean Difference (Final Values)|-0.12||||0.86|TWO_SIDED|95.0|-1.39|1.16|||Mixed Models Analysis|||3 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||1.16|-1.39|0.86
92433816|NCT01025752|184754760|OTHER||Mean Difference (Final Values)|0.37||||0.64|TWO_SIDED|95.0|-1.22|1.97|||Mixed Models Analysis|||6 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||1.97|-1.22|0.64
92433817|NCT00843024|184754765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.003|TWO_SIDED|95.0|0.09|0.3||Adjusted for multiplicity according to the fixed sequence testing strategy|Cochran-Mantel-Haenszel||Sumatriptan 10 mg/Naproxen 60 mg minus placebo|||0.30|0.09|0.003
92433818|NCT00843024|184754765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.003|TWO_SIDED|95.0|0.07|0.26||Adjusted for multiplicity according to the fixed-sequence testing strategy|Cochran-Mantel-Haenszel||Sumatriptan 30 mg/Naproxen180 mg minus placebo|||0.26|0.07|0.003
92433819|NCT00843024|184754765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.003|TWO_SIDED|95.0|0.05|0.22||Adjusted for multiplicity according to the fixed-sequence testing strategy|Cochran-Mantel-Haenszel||Sumatriptan 85 mg/Naproxen 500 mg minus placebo|||0.22|0.05|0.003
92433820|NCT04600921|184754792|SUPERIORITY|The parameters required to calculate sample size were the expected rate of VT/VF episodes/year in the placebo group, the minimal VT/VF rate ratio to be detected in the ertugliflozin group compared with the placebo group, the average follow-up of treatment duration, the negative binomial dispersion parameter, type 1 error probability, and the desired power.|Rate Ratio|0.16|||<|0.001|TWO_SIDED|95.0|0.04|0.61||The yearly rate ratio was adjusted for baseline number of sVT/VF episodes.|Negative binomial regression model|A prespecified sensitivity analysis was done to mitigate the effect of outliers by using the robust estimation approaches for negative binomial model.|Ertugliflozin is the numerator and the placebo is the denominator.|We compared the rate of sVT/VF episodes between experimental arms after 52 weeks.The initial sample calculation was based on the mathematical formula provided by Zhu and Lakkis for comparing event rates of two negative binomial distributiuons. To detect a 30% reduction in VT/VF episode rates in the ertugliflozin group compared to placebo group, with 80% power and an alpha level of 0.05, accounting for 5% drop out in each group, a total sample size of 402 was estimated to be required.||0.61|0.04|<0.001
92433821|NCT04600921|184754793|SUPERIORITY||Rate Ratio|0.34|||||TWO_SIDED|95.0|0.12|0.97||||||The number of incident nsVT episodes were analyzed using a beta binomial model.||0.97|0.12|
92433822|NCT04600921|184754794|SUPERIORITY||Rate Ratio|0.47|||||TWO_SIDED|95.0|0.13|1.81||||||The number of appropriate ICD therapies were analyzed by using beta binomial model.||1.81|0.13|
92433823|NCT04600921|184754795|SUPERIORITY||Difference in mean change|0.17|||>|0.05|TWO_SIDED|95.0|-0.35|0.69|||Regression, Linear|||The change in NTproBNP levels was analyzed by using a multiple linear regression model.||0.69|-0.35|>0.05
92433824|NCT04600921|184754796|SUPERIORITY||Mean Difference (Final Values)|0.72|||||TWO_SIDED|95.0|-1.69|3.13||||||The change in HbA1c levels from baseline to week 52 was analyzed by multiple linear regression model.||3.13|-1.69|
92433825|NCT04600921|184754797|SUPERIORITY||Rate Ratio|0.6|||||TWO_SIDED|95.0|0.2|1.7||||||||1.7|0.2|
92433826|NCT05425745|184754812|SUPERIORITY||Least Squares (LS) Means|-36.31|STANDARD_ERROR_OF_MEAN|3.019|<|0.0001|TWO_SIDED|95.0|-42.22|-30.39|||ANCOVA|||||-30.39|-42.22|<.0001
92433827|NCT05425745|184754813|SUPERIORITY||Least Squares (LS) Means|-37.78|STANDARD_ERROR_OF_MEAN|3.572|<|0.0001|TWO_SIDED|95.0|-44.79|-30.78|||ANCOVA|||||-30.78|-44.79|<.0001
92433828|NCT05425745|184754814|SUPERIORITY||Least Squares (LS) Means|-41.45|STANDARD_ERROR_OF_MEAN|4.938|<|0.0001|TWO_SIDED|95.0|-51.14|-31.76||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-31.76|-51.14|<.0001
92433829|NCT05425745|184754815|SUPERIORITY||Least Squares (LS) Means|-24.39|STANDARD_ERROR_OF_MEAN|2.136|<|0.0001|TWO_SIDED|95.0|-28.58|-20.2||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-20.20|-28.58|<.0001
92433830|NCT05425745|184754816|SUPERIORITY||Least Squares (LS) Means|-24.32|STANDARD_ERROR_OF_MEAN|2.583|<|0.0001|TWO_SIDED|95.0|-29.38|-19.25||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-19.25|-29.38|<.0001
92237907|NCT02145156|184380063|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
92279815|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0999||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.0999
92433831|NCT05425745|184754817|SUPERIORITY||Least Squares (LS) Means|-25.77|STANDARD_ERROR_OF_MEAN|3.114|<|0.0001|TWO_SIDED|95.0|-31.88|-19.67||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-19.67|-31.88|<.0001
92433832|NCT05425745|184754818|SUPERIORITY||Least Squares (LS) Means|-34.45|STANDARD_ERROR_OF_MEAN|2.661|<|0.0001|TWO_SIDED|95.0|-39.67|-29.24||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-29.24|-39.67|<.0001
92237908|NCT02145156|184380063|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||.23
92433833|NCT05425745|184754819|SUPERIORITY||Least Squares (LS) Means|-33.0|STANDARD_ERROR_OF_MEAN|3.241|<|0.0001|TWO_SIDED|95.0|-39.36|-26.65||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-26.65|-39.36|<.0001
92433834|NCT05425745|184754820|SUPERIORITY||Least Squares (LS) Means|-37.48|STANDARD_ERROR_OF_MEAN|4.535|<|0.0001|TWO_SIDED|95.0|-46.38|-28.58||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value \<0.05|ANCOVA|||||-28.58|-46.38|<.0001
92433835|NCT05425745|184754821|SUPERIORITY||Least Squares (LS) Means|138.66|STANDARD_ERROR_OF_MEAN|6.244|<|0.0001|TWO_SIDED|95.0|126.42|150.9||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value \<0.05|ANCOVA|||||150.90|126.42|<.0001
92433836|NCT05425745|184754822|SUPERIORITY||Least Squares (LS) Means|131.2|STANDARD_ERROR_OF_MEAN|6.595|<|0.0001|TWO_SIDED|95.0|118.27|144.13||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value \<0.05|ANCOVA|||||144.13|118.27|<.0001
92433837|NCT05425745|184754823|SUPERIORITY||Least Squares (LS) Means|121.39|STANDARD_ERROR_OF_MEAN|7.333|<|0.0001|TWO_SIDED|95.0|107.02|135.76||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value \<0.05|ANCOVA|||||135.76|107.02|<.0001
92237909|NCT02145156|184380063|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||.23
92237910|NCT02145156|184380064|SUPERIORITY_OR_OTHER|||||||0.37|||||||Fisher Exact|||||||0.37
92279816|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1201||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.1201
92433838|NCT05425745|184754824|SUPERIORITY||Least Squares (LS) Means|-45.94|STANDARD_ERROR_OF_MEAN|10.14|<|0.0001|TWO_SIDED|95.0|-65.88|-26.0||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-26.00|-65.88|<.0001
92433839|NCT05425745|184754825|SUPERIORITY||Least Squares (LS) Means|-54.3|STANDARD_ERROR_OF_MEAN|38.924||0.1648|TWO_SIDED|95.0|-131.13|22.53||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05; therefore hierarchical testing was stopped for subsequent secondary endpoints|ANCOVA|||||22.53|-131.13|0.1648
92433840|NCT02990910|184754866|SUPERIORITY||||||<|0.05|||||||Chi-squared|||Chi square test was used to compare the count data,p \< 0.05 was considered statistically significant.||||<0.05
92433841|NCT02064868|184754870|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0172|TWO_SIDED|95.0|0.51|0.98||One-sided p-value|Gehan's generalized Wilcoxon test|||||0.98|0.51|0.0172
92433842|NCT02064868|184754871|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.0634|TWO_SIDED|95.0|0.61|1.02||Two-sided p-value|Gehan's generalized Wilcoxon test|||||1.02|0.61|0.0634
92433843|NCT02064868|184754872|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92433844|NCT02064868|184754873|SUPERIORITY|||||||0.0002|||||||Chi-squared|||||||0.0002
92433845|NCT02064868|184754874|SUPERIORITY|||||||0.1392|||||||Wilcoxon (Mann-Whitney)|||||||0.1392
92433846|NCT02064868|184754876|SUPERIORITY|||||||0.3115|||||||Mixed Models Analysis|||Day 5||||0.3115
92433847|NCT02064868|184754876|SUPERIORITY|||||||0.1236|||||||Mixed Models Analysis|||Day 14||||0.1236
92433848|NCT00482612|184754877|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Baseline TST was used as a covariate.||||||<0.0001
92433849|NCT00482612|184754877|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Baseline TST was used as a covariate.||||||<0.0001
92237911|NCT02145156|184380064|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||.23
92237912|NCT02145156|184380064|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher Exact|||||||.25
92433850|NCT00482612|184754877|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Baseline TST was used as a covariate.||||||<0.0001
92433851|NCT00482612|184754878|SUPERIORITY_OR_OTHER|||||||0.0014|||||||ANCOVA|Baseline SL was used as a covariate.||||||0.0014
92433852|NCT00482612|184754878|SUPERIORITY_OR_OTHER|||||||0.0135|||||||ANCOVA|Baseline SL was used as a covariate.||||||0.0135
92433853|NCT00482612|184754878|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Baseline SL was used as a covariate.||||||<0.0001
92237913|NCT02145156|184380064|SUPERIORITY_OR_OTHER|||||||0.7|||||||Fisher Exact|||||||.70
92237914|NCT02145156|184380065|SUPERIORITY_OR_OTHER|||||||0.59|||||||Fisher Exact|||||||0.59
92237915|NCT02145156|184380065|SUPERIORITY_OR_OTHER|||||||0.52|||||||Fisher Exact|||||||.52
92237916|NCT02145156|184380065|SUPERIORITY_OR_OTHER|||||||0.71|||||||Fisher Exact|||||||.71
92237917|NCT02145156|184380065|SUPERIORITY_OR_OTHER|||||||0.34|||||||Fisher Exact|||||||.34
92237918|NCT02145156|184380066|SUPERIORITY_OR_OTHER|||||||0.16|||||||Fisher Exact|||||||0.16
92433854|NCT04180488|184754899|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-4.23||||0.0005|TWO_SIDED|95.0|-6.63|-1.84||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an analysis of covariance (ANCOVA) model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-1.84|-6.63|0.0005
92237919|NCT02145156|184380066|SUPERIORITY_OR_OTHER|||||||0.15|||||||Fisher Exact|||||||.15
92237920|NCT02145156|184380066|SUPERIORITY_OR_OTHER|||||||0.98|||||||Fisher Exact|||||||.98
92237921|NCT02145156|184380066|SUPERIORITY_OR_OTHER|||||||0.34|||||||Fisher Exact|||||||.34
92237922|NCT02145156|184380067|SUPERIORITY_OR_OTHER|||||||0.37|||||||Fisher Exact|||||||0.37
92433855|NCT04180488|184754899|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-2.87||||0.0449|TWO_SIDED|95.0|-5.68|-0.07||Threshold for significance at 2-sided 0.043 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.07|-5.68|0.0449
92433856|NCT04180488|184754899|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-2.54||||0.0184|TWO_SIDED|95.0|-4.65|-0.43||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.43|-4.65|0.0184
92433857|NCT04180488|184754900|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-8.53||||0.0003|TWO_SIDED|95.0|-13.16|-3.9||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-3.90|-13.16|0.0003
92433858|NCT04180488|184754900|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-4.65||||0.0226|TWO_SIDED|95.0|-8.65|-0.65||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.65|-8.65|0.0226
92433859|NCT04180488|184754901|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-4.38||||0.0003|TWO_SIDED|95.0|-6.78|-1.98||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-1.98|-6.78|0.0003
92433860|NCT04180488|184754901|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-2.17||||0.0316|TWO_SIDED|95.0|-4.15|-0.19||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.19|-4.15|0.0316
92433861|NCT04180488|184754902|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|3.413||||0.0014|TWO_SIDED|95.0|1.596|7.299||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) test was performed on association between responder status and intervention group, adjusted by baseline disease severity (UAS7\<28,\>=28), presence of angioedema at baseline and region.||7.299|1.596|0.0014
92433862|NCT04180488|184754902|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|2.507||||0.0109|TWO_SIDED|95.0|1.231|5.107||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||5.107|1.231|0.0109
92433863|NCT04180488|184754903|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|2.848||||0.0075|TWO_SIDED|95.0|1.301|6.234||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||6.234|1.301|0.0075
92433864|NCT04180488|184754903|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|3.137||||0.0045|TWO_SIDED|95.0|1.371|7.176||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||7.176|1.371|0.0045
92433865|NCT04180488|184754904|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|2.908||||0.0199|TWO_SIDED|95.0|1.173|7.209||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||7.209|1.173|0.0199
92433866|NCT04180488|184754904|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|2.677||||0.0187|TWO_SIDED|95.0|1.127|6.359||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||6.359|1.127|0.0187
92433867|NCT04180488|184754905|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|0.93||||0.194|TWO_SIDED|95.0|-0.48|2.34||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||2.34|-0.48|0.1940
92433868|NCT04180488|184754906|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-2.37||||0.0377|TWO_SIDED|95.0|-4.6|-0.13||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.13|-4.60|0.0377
92237923|NCT02145156|184380067|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||.23
92237924|NCT02145156|184380067|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher Exact|||||||.25
92237925|NCT02145156|184380067|SUPERIORITY_OR_OTHER|||||||0.7|||||||Fisher Exact|||||||.70
92237926|NCT02145156|184380068|SUPERIORITY_OR_OTHER|||||||0.87|||||||Chi-squared|||||||0.87
92237927|NCT02145156|184380068|SUPERIORITY_OR_OTHER|||||||0.62|||||||Chi-squared|||||||0.62
92237928|NCT02145156|184380068|SUPERIORITY_OR_OTHER|||||||0.81|||||||Chi-squared|||||||0.81
92433869|NCT04180488|184754907|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-5.02||||0.0223|TWO_SIDED|95.0|-9.32|-0.72||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.72|-9.32|0.0223
92433870|NCT04180488|184754908|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|2.645||||0.0215|TWO_SIDED|95.0|1.154|6.061||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||6.061|1.154|0.0215
92433871|NCT04180488|184754909|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|1.872||||0.0971|TWO_SIDED|95.0|0.893|3.923||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||3.923|0.893|0.0971
92433872|NCT00616200|184754940|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|||Sickness Impact Profile scores improved.||||.001
92433873|NCT02057406|184754956|SUPERIORITY|The EPA/DHA arm versus placebo at Week 12.||||||0.74|||||||ANCOVA|||The model used post-treatment HAMD values as the dependent variable and included age, race, sex, treatment site, and the baseline HAMD value as covariates. This analysis was conducted under intention-to-treat (ITT) in which the missing HAMD endpoint values were imputed using 50 imputations.||||0.74
92433874|NCT02057406|184754956|SUPERIORITY|High EPA group versus placebo group at Week 12.||||||0.45|||||||ANCOVA|||The model used post-treatment HAMD values as the dependent variable and included age, race, sex, treatment site, and the baseline HAMD value as covariates. This analysis was conducted under intention-to-treat (ITT) in which the missing HAMD endpoint values were imputed using 50 imputations.||||0.45
92433875|NCT02057406|184754957|SUPERIORITY|Active supplements (2:1 EPA/DHA and High EPA combined) versus placebo at Week 12.|||||<|0.0001|||||||ANCOVA|||The model used post-treatment EPA values as the dependent variable and included age, race, sex, treatment site, and the baseline EPA value as covariates. This analyses was conducted under intention-to-treat (ITT) in which the missing EPA endpoint values were imputed using 50 imputations.||||<0.0001
92433876|NCT02057406|184754957|SUPERIORITY|2:1 EPA/DHA versus High EPA at Week 12.||||||0.12|||||||ANCOVA|||The model used post-treatment EPA values as the dependent variable and included age, race, sex, treatment site, and the baseline EPA value as covariates. This analyses was conducted under intention-to-treat (ITT) in which the missing EPA endpoint values were imputed using 50 imputations.||||0.12
92433877|NCT03562481|184754958|EQUIVALENCE|Analysis of variance for a 2x2 crossover study implemented using the pkcross routine of Stata 16.1, accounting of sequence and period effects.|F statistic|0.8||||0.38|TWO_SIDED|||||The threshold for statistical significance p\<0.05|ANOVA|Analysis of variance for a 2x2 crossover study implemented using the pkcross routine of Stata 16.1, accounting of sequence and period effects.||||||0.38
92433878|NCT03562481|184754959|EQUIVALENCE|Equivalence was defined as a non-statistically significant difference.|F statistic|1.21||||0.28|TWO_SIDED|||||The threshold for statistical significance p\<0.05|ANOVA|||Analysis of variance for 2x2 crossover study using the pkcross routine of Stata 16.1 and accounting for sequence and period effects.||||0.28
92433879|NCT03562481|184754960|EQUIVALENCE|Equivalence was defined based on statistical significance in the cross-over ANOVA.|F statistic|11.1||||0.003|TWO_SIDED|||||This is adjusted for period and sequence effects and is statistically significant at the p\<0.05 level.|ANOVA|||Analysis of variance for 2x2 crossover study using the pkcross routine of Stata 16.1 adjusting for perio and sequence effects.||||0.003
92237929|NCT02145156|184380068|SUPERIORITY_OR_OTHER|||||||0.76|||||||Chi-squared|||||||0.76
92237930|NCT02145156|184380069|SUPERIORITY_OR_OTHER|||||||0.7|||||||Chi-squared|||||||0.70
92433880|NCT03562481|184754961|EQUIVALENCE|Equivalence was determined based on the statistical significance of the Wilcoxon signed-rank test.|Z score|-0.996||||0.33|TWO_SIDED|||||The threshold for statistical significance p\<0.05|Sign test|Wilcoxon signed-rank test||||||0.33
92433881|NCT03562481|184754962|EQUIVALENCE|Equivalence was determined based on the statistical significance of the chi square test.|Chi-square test|0.81||||0.37|TWO_SIDED|||||The threshold for statistical significance p\<0.05|Chi-squared|||||||0.37
92433882|NCT03562481|184754963|EQUIVALENCE|Equivalence was defined based on statistical significance in the symmetry test.|Chi-square test|0.2||||0.65|TWO_SIDED|||||The threshold for statistical significance p\<0.05|Sruart-Maxwell symmetry test|||Stuart-Maxwell test of marginal homogeneity implemented with the symmetry routine in Stata 16.1||||0.65
92433883|NCT03562481|184754964|EQUIVALENCE|Equivalence was defined based on significance in the symmetry test.|Chi-square test|0.14||||0.71|TWO_SIDED|||||The threshold for statistical significance p\<0.05|Sruart-Maxwell symmetry test|||Test of symmetry or marginal homogeneity (Stuart-Maxwell) implemented with the symmetry routine in Stata 16.1.||||0.71
92433884|NCT03562481|184754965|EQUIVALENCE|Equivalence was defined based on statistical significance in the symmetry test.|Chi-square test|1.0||||0.32|TWO_SIDED|||||The threshold for statistical significance p\<0.05|Sruart-Maxwell symmetry test|||Test of symmetry (marginal homogeneity, Stuart-Maxwell) implemented using the symmetry routine in Stata 16.1.||||0.32
92237931|NCT02145156|184380069|SUPERIORITY_OR_OTHER|||||||0.41|||||||Chi-squared|||||||0.41
92237932|NCT02145156|184380069|SUPERIORITY_OR_OTHER|||||||0.59|||||||Chi-squared|||||||0.59
92237933|NCT02145156|184380069|SUPERIORITY_OR_OTHER|||||||0.74|||||||Chi-squared|||||||0.74
92237934|NCT02145156|184380070|SUPERIORITY_OR_OTHER|||||||0.38|||||||Chi-squared|||||||0.38
92237935|NCT02145156|184380070|SUPERIORITY_OR_OTHER|||||||0.17|||||||Chi-squared|||||||0.17
92237936|NCT02145156|184380070|SUPERIORITY_OR_OTHER|||||||0.6|||||||Chi-squared|||||||0.60
92237937|NCT02145156|184380070|SUPERIORITY_OR_OTHER|||||||0.35|||||||Chi-squared|||||||0.35
92237938|NCT02145156|184380071|SUPERIORITY_OR_OTHER|||||||0.39|||||||Chi-squared|||||||0.39
92171896|NCT03743636|184233367|SUPERIORITY||Mean Difference (Final Values)|10.25||||0.3724|ONE_SIDED|90.0|-31.79||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-31.79|0.3724
92237939|NCT02145156|184380071|SUPERIORITY_OR_OTHER|||||||0.51|||||||Chi-squared|||||||0.51
92237940|NCT02145156|184380071|SUPERIORITY_OR_OTHER|||||||0.49|||||||Chi-squared|||||||0.49
92237941|NCT02145156|184380071|SUPERIORITY_OR_OTHER|||||||0.14|||||||Chi-squared|||||||0.14
92237942|NCT02145156|184380072|SUPERIORITY_OR_OTHER|||||||0.09|||||||Chi-squared|||||||0.09
92237943|NCT02145156|184380072|SUPERIORITY_OR_OTHER|||||||0.51|||||||Chi-squared|||||||0.51
92237944|NCT02145156|184380072|SUPERIORITY_OR_OTHER|||||||0.15|||||||Chi-squared|||||||0.15
92237945|NCT02145156|184380072|SUPERIORITY_OR_OTHER|||||||0.03|||||||Chi-squared|||||||0.03
92237946|NCT02145156|184380073|SUPERIORITY_OR_OTHER|||||||0.38|||||||Chi-squared|||||||0.38
92237947|NCT02145156|184380073|SUPERIORITY_OR_OTHER|||||||0.17|||||||Chi-squared|||||||0.17
92237948|NCT02145156|184380073|SUPERIORITY_OR_OTHER|||||||0.6|||||||Chi-squared|||||||0.60
92237949|NCT02145156|184380073|SUPERIORITY_OR_OTHER|||||||0.35|||||||Chi-squared|||||||0.35
92237950|NCT02064439|184380076|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34||||0.0001|TWO_SIDED|95.0|0.2|0.59||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||0.59|0.20|0.0001
92237951|NCT02064439|184380076|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26|||<|0.0001|TWO_SIDED|98.0|0.14|0.47||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||0.47|0.14|<0.0001
92279817|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.1172||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.1172
92433885|NCT03562481|184754966|EQUIVALENCE|Equivalence was defined based on the statistical significance of the symmetry test.|Chi-square test|1.29||||0.26|TWO_SIDED||||||Sruart-Maxwell symmetry test|||Test of symmetry (marginal homogeneity, Stuart-Maxwell) implemented using the symmetry routine in Stata 16.1.||||0.26
92433886|NCT00856284|184754984|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 25 mg and glipizide in HbA1c change from Baseline was less than 0.3%. If the null hypothesis H01 was rejected, then H02 was tested to show noninferiority of alogliptin 12.5 mg versus glipizide with a margin of 0.3%. Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 12.5 mg and glipizide in HbA1c change from Baseline was less than 0.3%.|LS Mean Difference|-0.03|||||ONE_SIDED|98.75||0.059||||||The null hypotheses were tested in a fixed order at the 1-sided 0.0125 significance level at Weeks 52 and 104, independently: H01: Alogliptin 25 mg was inferior in HbA1c change from Baseline vs glipizide. H02: Alogliptin 12.5 mg was inferior vs glipizide. H03: Alogliptin 25 mg was not superior vs glipizide. H04: Alogliptin 12.5 mg was not superior vs glipizide. Each subsequent null hypothesis was tested only if all previously tested null hypotheses were rejected with respect to Weeks 52 and 104.||0.059||
92433887|NCT00856284|184754984|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 25 mg and glipizide in HbA1c change from Baseline was less than 0.3%. If the null hypothesis H01 was rejected, then H02 was tested to show noninferiority of alogliptin 12.5 mg versus glipizide with a margin of 0.3%. Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 12.5 mg and glipizide in HbA1c change from Baseline was less than 0.3%.|LS Mean Difference|-0.09|||||ONE_SIDED|98.75||0.003||||||||0.003||
92433888|NCT00856284|184754990|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 25 mg and glipizide in HbA1c change from Baseline was less than 0.3%. If the null hypothesis H01 was rejected, then H02 was tested to show noninferiority of alogliptin 12.5 mg versus glipizide with a margin of 0.3%. Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 12.5 mg and glipizide in HbA1c change from Baseline was less than 0.3%.|LS Mean Difference|-0.13|||||ONE_SIDED|98.75||-0.006||||||The null hypotheses were tested in a fixed order at the 1-sided 0.0125 significance level at Weeks 52 and 104, independently: H01: Alogliptin 25 mg was inferior in HbA1c change from Baseline vs glipizide. H02: Alogliptin 12.5 mg was inferior vs glipizide. H03: Alogliptin 25 mg was not superior vs glipizide. H04: Alogliptin 12.5 mg was not superior vs glipizide. Each subsequent null hypothesis was tested only if all previously tested null hypotheses were rejected with respect to Weeks 52 and 104.||-0.006||
92433889|NCT00856284|184754990|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 25 mg and glipizide in HbA1c change from Baseline was less than 0.3%. If the null hypothesis H01 was rejected, then H02 was tested to show noninferiority of alogliptin 12.5 mg versus glipizide with a margin of 0.3%. Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 12.5 mg and glipizide in HbA1c change from Baseline was less than 0.3%.|LS Mean Difference|-0.09|||||ONE_SIDED|98.75||0.035||||||||0.035||
92433890|NCT01635101|184754991|OTHER||LS Mean Difference|-11.8||||0.736|TWO_SIDED|97.5|-91.0|67.3|||ANOVA|||Difference in Least Squares (LS) Means||67.3|-91.0|0.736
92433891|NCT01635101|184754991|OTHER||LS Mean Difference|1.4||||0.967|TWO_SIDED|97.5|-75.9|78.7|||ANOVA|||LS Mean Difference||78.7|-75.9|0.967
92433892|NCT01327885|184755001|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.768|||=|0.0169|TWO_SIDED|95.0|0.618|0.954||The P-value was calculated by 2-sided log-rank test as stratified by histology, geographic region, and number of prior regimens for advanced STS.|Log Rank||The Hazard Ratio is based on a stratified Cox regression model including treatment as covariate, and histology, geographic region, and number of prior regimens for advanced STS as strata.|Statistical analysis was designed to detect superiority of Arm A (eribulin) over Arm B (dacarbazine). OS was compared between the two treatment arms using a two-sided stratified log-rank test at a nominal significance level of 0.0455 (adjusted for the interim analysis). This was the primary analysis that was performed when the target number of events (\~353 deaths) was observed.||0.954|0.618|=0.0169
92446549|NCT02477020|184780042|SUPERIORITY_OR_OTHER||Least square mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.244||0.007|TWO_SIDED|95.0|-1.15|-0.18||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 6||-0.18|-1.15|0.007
92446550|NCT02477020|184780043|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.726||||0.077|TWO_SIDED|95.0|0.899|8.267||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 1||8.267|0.899|0.077
92237952|NCT02064439|184380076|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.34||||0.4328|TWO_SIDED|95.0|0.65|2.75||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||2.75|0.65|0.4328
92237953|NCT02064439|184380077|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.01||||0.3235|TWO_SIDED|95.0|0.5|8.04||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||8.04|0.50|0.3235
92171021|NCT00894543|184230977|SUPERIORITY_OR_OTHER||||||<|0.001||||||P values from comparison of Escitalopram vs placebo in a linear model of the outcome as a function of intervention group and adjusted for race, clinical center, baseline outcome, and visit (week 4 or week 8).|Regression, Linear|Natural log transformations applied to hot flash frequencies for modeling assumptions.||Based on data from the Herbal Alternatives for Menopause (HALT) study, MsFLASH estimated that 90 women in each treatment group provide 90% power to detect a difference between drug and placebo with a 2-sided alpha of 0.025 to account for two primary outcomes of hot flash frequency and severity.||||<0.001
92171022|NCT00894543|184230981|SUPERIORITY_OR_OTHER||||||<|0.001||||||P values from comparison of Escitalopram vs placebo in a linear model of the outcome as a function of intervention group and adjusted for race, clinical center, baseline outcome, and visit (week 4 or week 8).|Regression, Linear|Natural log transformations applied to hot flash frequencies for modeling assumptions.||Based on data from the Herbal Alternatives for Menopause (HALT) study, MsFLASH estimated that 90 women in each treatment group provide 90% power to detect a difference between drug and placebo with a 2-sided alpha of 0.025 to account for two primary outcomes of hot flash frequency and severity.||||<0.001
92433893|NCT01327885|184755002|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.877|||=|0.2287|TWO_SIDED|95.0|0.71|1.085||P-value was calculated by 2-sided log-rank test, as stratified by histology, geographic region, and number of prior regimens for advanced STS.|Log Rank||The Hazard Ratio is based on a stratified Cox regression model including treatment as covariate, and histology, geographic region, and number of prior regimens for advanced STS as strata.|The PFS and PFS rate at 3, 6, and 12 months (95% confidence interval (CI)) was calculated using Kaplan-Meier (K-M) product-limit method and Greenwood Formula. PFS was compared between the treatment arms using two-sided stratified log-rank test, stratified by histology, geographic region, and number of prior regimens for advanced STS.||1.085|0.710|=0.2287
92446551|NCT02477020|184780043|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.331||||0.036|TWO_SIDED|95.0|1.055|5.153||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 2||5.153|1.055|0.036
92446552|NCT02477020|184780043|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.69||||0.015|TWO_SIDED|95.0|1.208|5.99||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 3||5.990|1.208|0.015
92446553|NCT02477020|184780043|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.737||||0.158|TWO_SIDED|95.0|0.807|3.735||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 4||3.735|0.807|0.158
92446554|NCT02477020|184780043|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.739||||0.164|TWO_SIDED|95.0|0.798|3.789||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 5||3.789|0.798|0.164
92446555|NCT02477020|184780043|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.44||||0.003|TWO_SIDED|95.0|1.523|7.77||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 6||7.770|1.523|0.003
92446556|NCT02477020|184780044|SUPERIORITY_OR_OTHER||Least square mean difference|1.8|STANDARD_ERROR_OF_MEAN|1.547||0.246|TWO_SIDED|95.0|-1.26|4.86||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline BACS total score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline BACS total score-by-week interaction.|Change at Week 3||4.86|-1.26|0.246
92446557|NCT02477020|184780044|SUPERIORITY_OR_OTHER||Least square mean difference|2.2|STANDARD_ERROR_OF_MEAN|1.767||0.216|TWO_SIDED|95.0|-1.3|5.69||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|Least square mean difference||TAK-063 - Placebo. Baseline BACS total score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline BACS total score-by-week interaction|Change at Week 6||5.69|-1.30|0.216
92446558|NCT02477020|184780045|SUPERIORITY_OR_OTHER||Least mean square difference|-0.38|STANDARD_ERROR_OF_MEAN|1.664||0.82|TWO_SIDED|95.0|-3.67|2.91||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline BNSS total score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline BNSS total score-by-week interaction.|Change at Week 3||2.91|-3.67|0.820
92446559|NCT02477020|184780045|SUPERIORITY_OR_OTHER||Least square mean difference|-2.87|STANDARD_ERROR_OF_MEAN|2.05||0.163|TWO_SIDED|95.0|-6.93|1.18||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline BNSS total score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline BACS total score-by-week interaction.|Change at Week 6||1.18|-6.93|0.163
92446560|NCT02477020|184780046|SUPERIORITY_OR_OTHER||Least square mean difference|2.69|STANDARD_ERROR_OF_MEAN|1.769||0.131|TWO_SIDED|95.0|-0.81|6.19||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PSP score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PSP score-by-week interaction.|Change at Week 3||6.19|-0.81|0.131
92446561|NCT02477020|184780046|SUPERIORITY_OR_OTHER||Least square mean difference|2.62|STANDARD_ERROR_OF_MEAN|2.313||0.26|TWO_SIDED|95.0|-1.96|7.19||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PSP score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PSP score-by-week interaction.|Change at Week 6||7.19|-1.96|0.260
92446562|NCT02477020|184780047|SUPERIORITY_OR_OTHER||Least square mean difference|0.06|STANDARD_ERROR_OF_MEAN|1.855||0.973|TWO_SIDED|95.0|-3.61|3.73||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline UPSA-B composite score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline UPSA-B composite score-by-week interaction.|Change at Week 3||3.73|-3.61|0.973
92433894|NCT01327885|184755003|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.3||||0.253|TWO_SIDED|95.0|0.8|1.9||The P-value was calculated using the stratified CMH method, the stratified factors included histology, geographic region, and number of prior regimens for advanced STS.|Cochran-Mantel-Haenszel||The odds ratio between eribulin and dacarbazine was calculated by stratified CMH method. The stratified factors were as described above. The 2-sided 95% CI of the odds ratio is based on asymptotic normal approximation.|The PFR12wks was compared between the treatment arms using stratified Cochran-Mantel-Haenszel (CMH) chi-square test stratified by histology, geographic region, and number of prior regimens for advanced STS.||1.9|0.8|0.253
92433895|NCT01327885|184755004|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.9|||=|0.741|TWO_SIDED|95.0|0.7|1.4||The P-value was calculated using the CMH method. The stratified factors were histology, geographic region, and number of prior regimens for advanced STS.|Cochran-Mantel-Haenszel||The Odds Ratio between eribulin and dacarbazine was calculated by stratified CMH method. The stratified factors were as described above. The 2-sided 95% CI of Odds Ratio is based on asymptotic normal approximation.|The PFR12wks was compared between the treatment arms using stratified CMH chi-square test stratified by histology, geographic region, and number of prior regimens for advanced STS.||1.4|0.7|=0.741
92237954|NCT02064439|184380077|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.64||||0.5005|TWO_SIDED|95.0|0.39|6.84||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||6.84|0.39|0.5005
92433896|NCT03975790|184755007|SUPERIORITY|||||||0.4695|||||||Chi-squared|||||||0.4695
92433897|NCT03975790|184755007|SUPERIORITY|||||||0.7644|||||||Chi-squared|||||||0.7644
92433898|NCT03975790|184755007|SUPERIORITY|||||||0.8316|||||||Chi-squared|||||||0.8316
92433899|NCT03975790|184755008|SUPERIORITY|||||||0.9829|||||||Chi-squared|||||||0.9829
92433900|NCT03975790|184755008|SUPERIORITY|||||||0.8021|||||||Chi-squared|||||||0.8021
92433901|NCT03975790|184755008|SUPERIORITY|||||||0.8376|||||||Chi-squared|||||||0.8376
92237955|NCT02064439|184380077|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.7337|TWO_SIDED|95.0|0.37|4.03||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||4.03|0.37|0.7337
92279818|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.6596||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.6596
92433902|NCT03975790|184755009|SUPERIORITY|||||||0.2864|||||||t-test|||||||0.2864
92433903|NCT03975790|184755009|SUPERIORITY|||||||0.1583|||||||t-test|||||||0.1583
92433904|NCT03975790|184755009|SUPERIORITY|||||||0.4546|||||||t-test|||||||0.4546
92433905|NCT03975790|184755010|SUPERIORITY|||||||0.028|||||||t-test|||||||0.0280
92433906|NCT03975790|184755010|SUPERIORITY|||||||0.0106|||||||t-test|||||||0.0106
92433907|NCT03975790|184755010|SUPERIORITY|||||||0.7293|||||||t-test|||||||0.7293
92433908|NCT03975790|184755011|SUPERIORITY|||||||0.9215|||||||Chi-squared|||||||0.9215
92433909|NCT03975790|184755011|SUPERIORITY|||||||0.6078|||||||Chi-squared|||||||0.6078
92433910|NCT03975790|184755011|SUPERIORITY|||||||0.6258|||||||Chi-squared|||||||0.6258
92433911|NCT03975790|184755012|SUPERIORITY|||||||0.3586|||||||Chi-squared|||||||0.3586
92433912|NCT03975790|184755012|SUPERIORITY|||||||0.5117|||||||Chi-squared|||||||0.5117
92433913|NCT03975790|184755013|SUPERIORITY|||||||0.5372|||||||t-test|||||||0.5372
92433914|NCT03975790|184755013|SUPERIORITY|||||||0.6155|||||||t-test|||||||0.6155
92433915|NCT03975790|184755013|SUPERIORITY|||||||0.9696|||||||t-test|||||||0.9696
92433916|NCT03975790|184755014|SUPERIORITY|||||||0.2514|||||||t-test|||||||0.2514
92433917|NCT03975790|184755014|SUPERIORITY|||||||0.9851|||||||t-test|||||||0.9851
92433918|NCT03975790|184755014|SUPERIORITY|||||||0.4309|||||||t-test|||||||0.4309
92433919|NCT03975790|184755015|SUPERIORITY|||||||0.6033|||||||t-test|||||||0.6033
92433920|NCT03975790|184755015|SUPERIORITY|||||||0.348|||||||t-test|||||||0.3480
92433921|NCT03975790|184755015|SUPERIORITY|||||||0.5375|||||||t-test|||||||0.5375
92433922|NCT03975790|184755016|SUPERIORITY|||||||0.0345|||||||Chi-squared|||Other aftercare||||0.0345
92433923|NCT03975790|184755016|SUPERIORITY|||||||0.2316|||||||Chi-squared|||Other aftercare||||0.2316
92433924|NCT03975790|184755016|SUPERIORITY|||||||0.7349|||||||Chi-squared|||Other aftercare||||0.7349
92433925|NCT03975790|184755016|SUPERIORITY|||||||0.0774|||||||Chi-squared|||Other connective tissue disease||||0.0774
92433926|NCT03975790|184755016|SUPERIORITY|||||||0.4228|||||||Chi-squared|||Other connective tissue disease||||0.4228
92433927|NCT03975790|184755016|SUPERIORITY|||||||0.0583|||||||Chi-squared|||Other connective tissue disease||||0.0583
92433928|NCT03975790|184755016|SUPERIORITY|||||||0.9683|||||||Chi-squared|||Other non-traumatic joint disorders||||0.9683
92433929|NCT03975790|184755016|SUPERIORITY|||||||0.8877|||||||Chi-squared|||Other non-traumatic joint disorders||||0.8877
92433930|NCT03975790|184755016|SUPERIORITY|||||||0.9228|||||||Chi-squared|||Other non-traumatic joint disorders||||0.9228
92433931|NCT03975790|184755016|SUPERIORITY|||||||0.7661|||||||Chi-squared|||Medical examination/evaluation||||0.7661
92433932|NCT03975790|184755016|SUPERIORITY|||||||0.3034|||||||Chi-squared|||Medical examination/evaluation||||0.3034
92433933|NCT03975790|184755016|SUPERIORITY|||||||0.2765|||||||Chi-squared|||Medical examination/evaluation||||0.2765
92433934|NCT03975790|184755016|SUPERIORITY|||||||0.8652|||||||Chi-squared|||Other suspected conditions||||0.8652
92433935|NCT03975790|184755016|SUPERIORITY|||||||0.2243|||||||Chi-squared|||Other suspected conditions||||0.2243
92433936|NCT03975790|184755016|SUPERIORITY|||||||0.3449|||||||Chi-squared|||Other suspected conditions||||0.3449
92433937|NCT03975790|184755016|SUPERIORITY|||||||0.3529|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.3529
92433938|NCT03975790|184755016|SUPERIORITY|||||||0.1012|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.1012
92433939|NCT03975790|184755016|SUPERIORITY|||||||0.4123|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.4123
92433940|NCT03975790|184755016|SUPERIORITY|||||||0.2742|||||||Chi-squared|||Osteoarthritis||||0.2742
92433941|NCT03975790|184755016|SUPERIORITY|||||||0.1009|||||||Chi-squared|||Osteoarthritis||||0.1009
92171023|NCT00894543|184230982|SUPERIORITY_OR_OTHER|||||||0.001|||||||Regression, Linear|||||||0.001
92433942|NCT03975790|184755016|SUPERIORITY|||||||0.0318|||||||Chi-squared|||Osteoarthritis||||0.0318
92433943|NCT03975790|184755016|SUPERIORITY|||||||0.4808|||||||Chi-squared|||Essential hypertension||||0.4808
92433944|NCT03975790|184755016|SUPERIORITY|||||||0.0778|||||||Chi-squared|||Essential hypertension||||0.0778
92433945|NCT03975790|184755016|SUPERIORITY|||||||0.2871|||||||Chi-squared|||Essential hypertension||||0.2871
92433946|NCT03975790|184755016|SUPERIORITY|||||||0.7356|||||||Chi-squared|||Residual codes; unclassified||||0.7356
92433947|NCT03975790|184755016|SUPERIORITY|||||||0.4975|||||||Chi-squared|||Residual codes; unclassified||||0.4975
92433948|NCT03975790|184755016|SUPERIORITY|||||||0.7143|||||||Chi-squared|||Residual codes; unclassified||||0.7143
92433949|NCT03975790|184755016|SUPERIORITY|||||||0.3559|||||||Chi-squared|||Disorders of lipid metabolism||||0.3559
92433950|NCT03975790|184755016|SUPERIORITY|||||||0.7725|||||||Chi-squared|||Disorders of lipid metabolism||||0.7725
92433951|NCT03975790|184755016|SUPERIORITY|||||||0.3875|||||||Chi-squared|||Disorders of lipid metabolism||||0.3875
92171024|NCT05384730|184231012|SUPERIORITY|||||||0.1|||||||ANOVA|||Light physical activity compared overtime||||0.10
92433952|NCT03975790|184755016|SUPERIORITY|||||||0.0225|||||||Chi-squared|||Back problems||||0.0225
92433953|NCT03975790|184755016|SUPERIORITY|||||||0.4427|||||||Chi-squared|||Back problems||||0.4427
92433954|NCT03975790|184755016|SUPERIORITY|||||||0.4094|||||||Chi-squared|||Back problems||||0.4094
92433955|NCT03975790|184755016|SUPERIORITY|||||||0.8775|||||||Chi-squared|||Other upper respiratory infections||||0.8775
92433956|NCT03975790|184755016|SUPERIORITY|||||||0.3525|||||||Chi-squared|||Other upper respiratory infections||||0.3525
92433957|NCT03975790|184755016|SUPERIORITY|||||||0.4724|||||||Chi-squared|||Other upper respiratory infections||||0.4724
92433958|NCT03975790|184755016|SUPERIORITY|||||||0.717|||||||Chi-squared|||Other lower respiratory disease||||0.7170
92433959|NCT03975790|184755016|SUPERIORITY|||||||0.2909|||||||Chi-squared|||Other lower respiratory disease||||0.2909
92237956|NCT02064439|184380078|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34|||<|0.0001|TWO_SIDED|95.0|0.2|0.57||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||0.57|0.20|<0.0001
92433960|NCT03975790|184755016|SUPERIORITY|||||||0.5057|||||||Chi-squared|||Other lower respiratory disease||||0.5057
92433961|NCT03975790|184755016|SUPERIORITY|||||||0.2613|||||||Chi-squared|||Other nervous system disorders||||0.2613
92433962|NCT03975790|184755016|SUPERIORITY|||||||0.9901|||||||Chi-squared|||Other nervous system disorders||||0.9901
92433963|NCT03975790|184755016|SUPERIORITY|||||||0.4768|||||||Chi-squared|||Other nervous system disorders||||0.4768
92433964|NCT03975790|184755016|SUPERIORITY|||||||0.0219|||||||Chi-squared|||Other skin disorders||||0.0219
92171025|NCT05384730|184231012|SUPERIORITY|||||||0.3|||||||ANOVA|||Moderate-vigorous physical activity compared overtime||||0.30
92171026|NCT05384730|184231012|SUPERIORITY|||||||0.18|||||||ANOVA|||Inactive/sedentary time compared overtime||||0.18
92171027|NCT05384730|184231013|SUPERIORITY|||||||0.14|||||||Chi-squared|||||||0.14
92171028|NCT05384730|184231014|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.01
92171029|NCT05384730|184231015|SUPERIORITY|||||||0.5|||||||ANOVA|||||||0.50
92433965|NCT03975790|184755016|SUPERIORITY|||||||0.5172|||||||Chi-squared|||Other skin disorders||||0.5172
92433966|NCT03975790|184755016|SUPERIORITY|||||||0.0278|||||||Chi-squared|||Other skin disorders||||0.0278
92433967|NCT03975790|184755016|SUPERIORITY|||||||0.6103|||||||Chi-squared|||Thyroid disorders||||0.6103
92433968|NCT03975790|184755016|SUPERIORITY|||||||0.1682|||||||Chi-squared|||Thyroid disorders||||0.1682
92433969|NCT03975790|184755016|SUPERIORITY|||||||0.3654|||||||Chi-squared|||Thyroid disorders||||0.3654
92433970|NCT03975790|184755016|SUPERIORITY|||||||0.7637|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.7637
92433971|NCT03975790|184755016|SUPERIORITY|||||||0.8693|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.8693
92433972|NCT03975790|184755016|SUPERIORITY|||||||0.7349|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.7349
92433973|NCT03975790|184755016|SUPERIORITY|||||||0.7324|||||||Chi-squared|||Malaise/fatigue||||0.7324
92433974|NCT03975790|184755016|SUPERIORITY|||||||0.4182|||||||Chi-squared|||Malaise/fatigue||||0.4182
92433975|NCT03975790|184755016|SUPERIORITY|||||||0.62|||||||Chi-squared|||Malaise/fatigue||||0.6200
92433976|NCT03975790|184755016|SUPERIORITY|||||||0.6064|||||||Chi-squared|||Esophageal disorders||||0.6064
92433977|NCT03975790|184755016|SUPERIORITY|||||||0.636|||||||Chi-squared|||Esophageal disorders||||0.6360
92433978|NCT03975790|184755016|SUPERIORITY|||||||0.9445|||||||Chi-squared|||Esophageal disorders||||0.9445
92433979|NCT03975790|184755016|SUPERIORITY|||||||0.8135|||||||Chi-squared|||Nutritional deficiencies||||0.8135
92433980|NCT03975790|184755016|SUPERIORITY|||||||0.6705|||||||Chi-squared|||Nutritional deficiencies||||0.6705
92433981|NCT03975790|184755016|SUPERIORITY|||||||0.8331|||||||Chi-squared|||Nutritional deficiencies||||0.8331
92433982|NCT03975790|184755016|SUPERIORITY|||||||0.4158|||||||Chi-squared|||Other nutritional; endocrine; and metabolic disorders||||0.4158
92433983|NCT03975790|184755016|SUPERIORITY|||||||0.636|||||||Chi-squared|||Other nutritional; endocrine; and metabolic disorders||||0.6360
92433984|NCT03975790|184755016|SUPERIORITY|||||||0.3336|||||||Chi-squared|||Other nutritional; endocrine; and metabolic disorders||||0.3336
92433985|NCT03975790|184755016|SUPERIORITY|||||||0.6402|||||||Chi-squared|||Diabetes mellitus without complication||||0.6402
92433986|NCT03975790|184755016|SUPERIORITY|||||||0.8068|||||||Chi-squared|||Diabetes mellitus without complication||||0.8068
92433987|NCT03975790|184755016|SUPERIORITY|||||||0.5983|||||||Chi-squared|||Diabetes mellitus without complication||||0.5983
92433988|NCT03975790|184755016|SUPERIORITY|||||||0.9759|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.9759
92433989|NCT03975790|184755016|SUPERIORITY|||||||0.136|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.1360
92433990|NCT03975790|184755016|SUPERIORITY|||||||0.1815|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.1815
92433991|NCT03975790|184755016|SUPERIORITY|||||||0.2731|||||||Chi-squared|||Genitourinary symptoms/ill-defined conditions||||0.2731
92237957|NCT02064439|184380078|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.32|||<|0.0001|TWO_SIDED|95.0|0.19|0.54||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||0.54|0.19|<0.0001
92171030|NCT05384730|184231016|SUPERIORITY|||||||0.03|||||||Chi-squared|||Comparing depression scores overtime||||0.03
92237958|NCT02064439|184380078|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.8172|TWO_SIDED|95.0|0.57|2.06||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||2.06|0.57|0.8172
92279819|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.3289||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.3289
92433992|NCT03975790|184755016|SUPERIORITY|||||||0.8327|||||||Chi-squared|||Genitourinary symptoms/ill-defined conditions||||0.8327
92433993|NCT03975790|184755016|SUPERIORITY|||||||0.342|||||||Chi-squared|||Genitourinary symptoms/ill-defined conditions||||0.3420
92433994|NCT03975790|184755017|SUPERIORITY|||||||0.059|||||||Chi-squared|||Rheumatoid arthritis/related disease||||0.0590
92433995|NCT03975790|184755017|SUPERIORITY|||||||0.7055|||||||Chi-squared|||Rheumatoid arthritis/related disease||||0.7055
92433996|NCT03975790|184755017|SUPERIORITY|||||||0.3088|||||||Chi-squared|||Rheumatoid arthritis/related disease||||0.3088
92433997|NCT03975790|184755017|SUPERIORITY|||||||0.0036|||||||Chi-squared|||Other aftercare||||0.0036
92433998|NCT03975790|184755017|SUPERIORITY|||||||0.3772|||||||Chi-squared|||Other aftercare||||0.3772
92433999|NCT03975790|184755017|SUPERIORITY|||||||0.3|||||||Chi-squared|||Other aftercare||||0.3000
92434000|NCT03975790|184755017|SUPERIORITY|||||||0.7354|||||||Chi-squared|||Other connective tissue disease||||0.7354
92434001|NCT03975790|184755017|SUPERIORITY|||||||0.1435|||||||Chi-squared|||Other connective tissue disease||||0.1435
92434002|NCT03975790|184755017|SUPERIORITY|||||||0.2876|||||||Chi-squared|||Other connective tissue disease||||0.2876
92434003|NCT03975790|184755017|SUPERIORITY|||||||0.2848|||||||Chi-squared|||Other non-traumatic joint disorders||||0.2848
92434004|NCT03975790|184755017|SUPERIORITY|||||||0.183|||||||Chi-squared|||Other non-traumatic joint disorders||||0.1830
92434005|NCT03975790|184755017|SUPERIORITY|||||||0.6453|||||||Chi-squared|||Other non-traumatic joint disorders||||0.6453
92434006|NCT03975790|184755017|SUPERIORITY|||||||0.8717|||||||Chi-squared|||Medical examination/evaluation||||0.8717
92171031|NCT05384730|184231016|SUPERIORITY|||||||0.96|||||||Chi-squared|||Comparing anxiety scores overtime||||0.96
92171032|NCT05384730|184231017|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
92171033|NCT05384730|184231018|SUPERIORITY|||||||0.13|||||||ANOVA|||||||0.13
92171034|NCT05384730|184231019|SUPERIORITY|||||||0.01|||||||ANOVA|||PASE analysis over time||||0.01
92237959|NCT02064439|184380079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.3318|TWO_SIDED|95.0|0.69|3.02||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||||3.02|0.69|0.3318
92279820|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.3657||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.3657
92434007|NCT03975790|184755017|SUPERIORITY|||||||0.8717|||||||Chi-squared|||Medical examination/evaluation||||0.8717
92434008|NCT03975790|184755017|SUPERIORITY|||||||0.3422|||||||Chi-squared|||Medical examination/evaluation||||0.3422
92434009|NCT03975790|184755017|SUPERIORITY|||||||0.3465|||||||Chi-squared|||Other suspected conditions||||0.3465
92434010|NCT03975790|184755017|SUPERIORITY|||||||0.4953|||||||Chi-squared|||Other suspected conditions||||0.4953
92434011|NCT03975790|184755017|SUPERIORITY|||||||0.9796|||||||Chi-squared|||Other suspected conditions||||0.9796
92434012|NCT03975790|184755017|SUPERIORITY|||||||0.4187|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.4187
92434013|NCT03975790|184755017|SUPERIORITY|||||||0.151|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.1510
92434014|NCT03975790|184755017|SUPERIORITY|||||||0.0751|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.0751
92434015|NCT03975790|184755017|SUPERIORITY|||||||0.7577|||||||Chi-squared|||Osteoarthritis||||0.7577
92434016|NCT03975790|184755017|SUPERIORITY|||||||0.802|||||||Chi-squared|||Osteoarthritis||||0.8020
92434017|NCT03975790|184755017|SUPERIORITY|||||||0.9879|||||||Chi-squared|||Osteoarthritis||||0.9879
92434018|NCT03975790|184755017|SUPERIORITY|||||||0.1717|||||||Chi-squared|||Essential hypertension||||0.1717
92434019|NCT03975790|184755017|SUPERIORITY|||||||0.3065|||||||Chi-squared|||Essential hypertension||||0.3065
92434020|NCT03975790|184755017|SUPERIORITY|||||||0.992|||||||Chi-squared|||Essential hypertension||||0.9920
92434021|NCT03975790|184755017|SUPERIORITY|||||||0.4626|||||||Chi-squared|||Residual codes; unclassified||||0.4626
92434022|NCT03975790|184755017|SUPERIORITY|||||||0.8922|||||||Chi-squared|||Residual codes; unclassified||||0.8922
92434023|NCT03975790|184755017|SUPERIORITY|||||||0.7143|||||||Chi-squared|||Residual codes; unclassified||||0.7143
92434024|NCT03975790|184755017|SUPERIORITY|||||||0.8212|||||||Chi-squared|||Disorders of lipid metabolism||||0.8212
92434025|NCT03975790|184755017|SUPERIORITY|||||||0.5732|||||||Chi-squared|||Disorders of lipid metabolism||||0.5732
92434026|NCT03975790|184755017|SUPERIORITY|||||||0.7319|||||||Chi-squared|||Disorders of lipid metabolism||||0.7319
92434027|NCT03975790|184755017|SUPERIORITY|||||||0.9272|||||||Chi-squared|||Back problems||||0.9272
92171035|NCT01619410|184231051|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92434028|NCT03975790|184755017|SUPERIORITY|||||||0.1441|||||||Chi-squared|||Back problems||||0.1441
92434029|NCT03975790|184755017|SUPERIORITY|||||||0.1859|||||||Chi-squared|||Back problems||||0.1859
92434030|NCT03975790|184755017|SUPERIORITY|||||||0.3109|||||||Chi-squared|||Other upper respiratory infections||||0.3109
92434031|NCT03975790|184755017|SUPERIORITY|||||||0.3313|||||||Chi-squared|||Other upper respiratory infections||||0.3313
92434032|NCT03975790|184755017|SUPERIORITY|||||||0.1279|||||||Chi-squared|||Other upper respiratory infections||||0.1279
92434033|NCT03975790|184755017|SUPERIORITY|||||||0.7575|||||||Chi-squared|||Other lower respiratory disease||||0.7575
92434034|NCT03975790|184755017|SUPERIORITY|||||||0.1583|||||||Chi-squared|||Other lower respiratory disease||||0.1583
92434035|NCT03975790|184755017|SUPERIORITY|||||||0.1569|||||||Chi-squared|||Other lower respiratory disease||||0.1569
92434036|NCT03975790|184755017|SUPERIORITY|||||||0.0745|||||||Chi-squared|||Other nervous system disorders||||0.0745
92434037|NCT03975790|184755017|SUPERIORITY|||||||0.0933|||||||Chi-squared|||Other nervous system disorders||||0.0933
92434038|NCT03975790|184755017|SUPERIORITY|||||||0.791|||||||Chi-squared|||Other nervous system disorders||||0.7910
92434039|NCT03975790|184755017|SUPERIORITY|||||||0.6755|||||||Chi-squared|||Other skin disorders||||0.6755
92434040|NCT03975790|184755017|SUPERIORITY|||||||0.4183|||||||Chi-squared|||Other skin disorders||||0.4183
92434041|NCT03975790|184755017|SUPERIORITY|||||||0.6749|||||||Chi-squared|||Other skin disorders||||0.6749
92434042|NCT03975790|184755017|SUPERIORITY|||||||0.6626|||||||Chi-squared|||Thyroid disorders||||0.6626
92434043|NCT03975790|184755017|SUPERIORITY|||||||0.5766|||||||Chi-squared|||Thyroid disorders||||0.5766
92171036|NCT04452318|184231084|SUPERIORITY||Odds Ratio (OR)|0.17|||<|0.0001|TWO_SIDED|95.0|0.09|0.332|||Regression, Logistic|||||0.332|0.090|< 0.0001
92237960|NCT02064439|184380079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.9726|TWO_SIDED|95.0|0.44|2.2||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||||2.20|0.44|0.9726
92434044|NCT03975790|184755017|SUPERIORITY|||||||0.8376|||||||Chi-squared|||Thyroid disorders||||0.8376
92434045|NCT03975790|184755017|SUPERIORITY|||||||0.2857|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.2857
92434046|NCT03975790|184755017|SUPERIORITY|||||||0.956|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.9560
92171037|NCT04452318|184231085|SUPERIORITY||Odds Ratio (OR)|0.54|||=|0.038|TWO_SIDED|95.0|0.298|0.966|||Regression, Logistic|||||0.966|0.298|= 0.0380
92171038|NCT04452318|184231087|SUPERIORITY||Odds Ratio (OR)|0.13|||<|0.0001|TWO_SIDED|95.0|0.069|0.236|||Regression, Logistic|||||0.236|0.069|< 0.0001
92171039|NCT04452318|184231087|SUPERIORITY||Odds Ratio (OR)|0.41|||=|0.0024|TWO_SIDED|95.0|0.228|0.728|||Regression, Logistic|||||0.728|0.228|= 0.0024
92171040|NCT04452318|184231088|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
92171041|NCT04452318|184231089|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
92237961|NCT02064439|184380079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.46||||0.3137|TWO_SIDED|95.0|0.7|3.06||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||||3.06|0.70|0.3137
92434047|NCT03975790|184755017|SUPERIORITY|||||||0.4384|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.4384
92434048|NCT03975790|184755017|SUPERIORITY|||||||0.6082|||||||Chi-squared|||Malaise/fatigue||||0.6082
92434049|NCT03975790|184755017|SUPERIORITY|||||||0.3374|||||||Chi-squared|||Malaise/fatigue||||0.3374
92434050|NCT03975790|184755017|SUPERIORITY|||||||0.5984|||||||Chi-squared|||Malaise/fatigue||||0.5984
92434051|NCT03975790|184755017|SUPERIORITY|||||||0.8568|||||||Chi-squared|||Esophageal disorders||||0.8568
92434052|NCT03975790|184755017|SUPERIORITY|||||||0.7698|||||||Chi-squared|||Esophageal disorders||||0.7698
92434053|NCT03975790|184755017|SUPERIORITY|||||||0.7089|||||||Chi-squared|||Esophageal disorders||||0.7089
92434054|NCT03975790|184755017|SUPERIORITY|||||||0.3446|||||||Chi-squared|||Nutritional deficiencies||||0.3446
92434055|NCT03975790|184755017|SUPERIORITY|||||||0.0815|||||||Chi-squared|||Nutritional deficiencies||||0.0815
92434056|NCT03975790|184755017|SUPERIORITY|||||||0.402|||||||Chi-squared|||Nutritional deficiencies||||0.4020
92434057|NCT03975790|184755017|SUPERIORITY|||||||0.4246|||||||Chi-squared|||Other nutritional: endocrine/metabolic disorders||||0.4246
92434058|NCT03975790|184755017|SUPERIORITY|||||||0.8118|||||||Chi-squared|||Other nutritional: endocrine/metabolic disorders||||0.8118
92434059|NCT03975790|184755017|SUPERIORITY|||||||0.7454|||||||Chi-squared|||Other nutritional: endocrine/metabolic disorders||||0.7454
92434060|NCT03975790|184755017|SUPERIORITY|||||||0.3559|||||||Chi-squared|||Diabetes mellitus without complication||||0.3559
92434061|NCT03975790|184755017|SUPERIORITY|||||||0.7698|||||||Chi-squared|||Diabetes mellitus without complication||||0.7698
92434062|NCT03975790|184755017|SUPERIORITY|||||||0.7323|||||||Chi-squared|||Diabetes mellitus without complication||||0.7323
92434063|NCT03975790|184755017|SUPERIORITY|||||||0.5935|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.5935
92434064|NCT03975790|184755017|SUPERIORITY|||||||0.3928|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.3928
92434065|NCT03975790|184755017|SUPERIORITY|||||||0.7089|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.7089
92434066|NCT03975790|184755017|SUPERIORITY|||||||0.8746|||||||Chi-squared|||Other upper respiratory disease||||0.8746
92434067|NCT03975790|184755017|SUPERIORITY|||||||0.3835|||||||Chi-squared|||Other upper respiratory disease||||0.3835
92434068|NCT03975790|184755017|SUPERIORITY|||||||0.4992|||||||Chi-squared|||Other upper respiratory disease||||0.4992
92434069|NCT03975790|184755018|SUPERIORITY|||||||0.2336|||||||t-test|||||||0.2336
92434070|NCT03975790|184755018|SUPERIORITY|||||||0.2109|||||||t-test|||||||0.2109
92434071|NCT03975790|184755018|SUPERIORITY|||||||0.0691|||||||t-test|||||||0.0691
92434072|NCT03975790|184755019|SUPERIORITY|||||||0.9758|||||||Chi-squared|||MTX Sodium||||0.9758
92434073|NCT03975790|184755019|SUPERIORITY|||||||0.9978|||||||Chi-squared|||MTX Sodium||||0.9978
92434074|NCT03975790|184755019|SUPERIORITY|||||||0.9861|||||||Chi-squared|||MTX Sodium||||0.9861
92434075|NCT03975790|184755019|SUPERIORITY|||||||0.5744|||||||Chi-squared|||Folic Acid||||0.5744
92434076|NCT03975790|184755019|SUPERIORITY|||||||0.8542|||||||Chi-squared|||Folic Acid||||0.8542
92237962|NCT02433288|184380080|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Log Rank|||||||0.0019
92237963|NCT02433288|184380081|SUPERIORITY_OR_OTHER|||||||0.0017|||||||Chi-squared|||||||0.0017
92434077|NCT03975790|184755019|SUPERIORITY|||||||0.8363|||||||Chi-squared|||Folic Acid||||0.8363
92434078|NCT03975790|184755019|SUPERIORITY|||||||0.0473|||||||Chi-squared|||Prednisone||||0.0473
92434079|NCT03975790|184755019|SUPERIORITY|||||||0.0327|||||||Chi-squared|||Prednisone||||0.0327
92434080|NCT03975790|184755019|SUPERIORITY|||||||0.5348|||||||Chi-squared|||Prednisone||||0.5348
92434081|NCT03975790|184755019|SUPERIORITY|||||||0.6934|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.6934
92279821|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0275||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.0275
92434082|NCT03975790|184755019|SUPERIORITY|||||||0.6017|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.6017
92237964|NCT02433288|184380082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.24|STANDARD_ERROR_OF_MEAN|3.39|<|0.0001|TWO_SIDED|95.0|-26.91|-13.57|||t-test, 2 sided|||||-13.57|-26.91|<0.0001
92237965|NCT02433288|184380083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|1.6||0.3939|TWO_SIDED|95.0|-4.56|1.8|||t-test, 2 sided|||||1.80|-4.56|0.3939
92237966|NCT02433288|184380084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|1.99||0.7514|TWO_SIDED|95.0|-3.27|4.53|||ANCOVA|linear model including terms for randomized group and baseline LDL-C||||4.53|-3.27|0.7514
92434083|NCT03975790|184755019|SUPERIORITY|||||||0.4768|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.4768
92171042|NCT04452318|184231089|SUPERIORITY||||||=|0.001|||||||Stratified Wilcoxon Rank Sum Test|||||||= 0.0010
92171043|NCT04452318|184231090|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
92237967|NCT00858702|184380093|SUPERIORITY_OR_OTHER|||||||0.0158||95.0||||No consideration for multiplicity|Fisher Exact|||||||0.0158
92237968|NCT00858702|184380094|SUPERIORITY_OR_OTHER|||||||0.0566||95.0||||No consideration for multiplicity|Fisher Exact|||||||0.0566
92434084|NCT03975790|184755019|SUPERIORITY|||||||0.2315|||||||Chi-squared|||Azithromycin||||0.2315
92434085|NCT03975790|184755019|SUPERIORITY|||||||0.2588|||||||Chi-squared|||Azithromycin||||0.2588
92434086|NCT03975790|184755019|SUPERIORITY|||||||0.8576|||||||Chi-squared|||Azithromycin||||0.8576
92434087|NCT03975790|184755019|SUPERIORITY|||||||0.5909|||||||Chi-squared|||Adalimumab||||0.5909
92434088|NCT03975790|184755019|SUPERIORITY|||||||0.057|||||||Chi-squared|||Adalimumab||||0.0570
92434089|NCT03975790|184755019|SUPERIORITY|||||||0.0408|||||||Chi-squared|||Adalimumab||||0.0408
92434090|NCT03975790|184755019|SUPERIORITY|||||||0.6465|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.6465
92434091|NCT03975790|184755019|SUPERIORITY|||||||0.5654|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.5654
92434092|NCT03975790|184755019|SUPERIORITY|||||||0.8371|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.8371
92434093|NCT03975790|184755019|SUPERIORITY|||||||0.9654|||||||Chi-squared|||Etanercept||||0.9654
92434094|NCT03975790|184755019|SUPERIORITY|||||||0.1013|||||||Chi-squared|||Etanercept||||0.1013
92434095|NCT03975790|184755019|SUPERIORITY|||||||0.158|||||||Chi-squared|||Etanercept||||0.1580
92434096|NCT03975790|184755019|SUPERIORITY|||||||0.1663|||||||Chi-squared|||Levothyroxine Sodium||||0.1663
92434097|NCT03975790|184755019|SUPERIORITY|||||||0.6563|||||||Chi-squared|||Levothyroxine Sodium||||0.6563
92434098|NCT03975790|184755019|SUPERIORITY|||||||0.5785|||||||Chi-squared|||Levothyroxine Sodium||||0.5785
92434099|NCT03975790|184755019|SUPERIORITY|||||||0.4166|||||||Chi-squared|||Methylprednisolone||||0.4166
92434100|NCT03975790|184755019|SUPERIORITY|||||||0.0636|||||||Chi-squared|||Methylprednisolone||||0.0636
92434101|NCT03975790|184755019|SUPERIORITY|||||||0.3137|||||||Chi-squared|||Methylprednisolone||||0.3137
92434102|NCT03975790|184755019|SUPERIORITY|||||||0.4568|||||||Chi-squared|||Omeprazole||||0.4568
92434103|NCT03975790|184755019|SUPERIORITY|||||||0.5785|||||||Chi-squared|||Omeprazole||||0.5785
92434104|NCT03975790|184755019|SUPERIORITY|||||||0.9541|||||||Chi-squared|||Omeprazole||||0.9541
92434105|NCT03975790|184755019|SUPERIORITY|||||||0.1956|||||||Chi-squared|||Tramadol Hydrochloride||||0.1956
92434106|NCT03975790|184755019|SUPERIORITY|||||||0.3633|||||||Chi-squared|||Tramadol Hydrochloride||||0.3633
92434107|NCT03975790|184755019|SUPERIORITY|||||||0.9481|||||||Chi-squared|||Tramadol Hydrochloride||||0.9481
92434108|NCT03975790|184755019|SUPERIORITY|||||||0.3653|||||||Chi-squared|||Meloxicam||||0.3653
92434109|NCT03975790|184755019|SUPERIORITY|||||||0.9255|||||||Chi-squared|||Meloxicam||||0.9255
92434110|NCT03975790|184755019|SUPERIORITY|||||||0.5137|||||||Chi-squared|||Meloxicam||||0.5137
92434111|NCT03975790|184755019|SUPERIORITY|||||||0.6338|||||||Chi-squared|||Amoxicillin||||0.6338
92434112|NCT03975790|184755019|SUPERIORITY|||||||0.6329|||||||Chi-squared|||Amoxicillin||||0.6329
92434113|NCT03975790|184755019|SUPERIORITY|||||||0.9228|||||||Chi-squared|||Amoxicillin||||0.9228
92434114|NCT03975790|184755019|SUPERIORITY|||||||0.8433|||||||Chi-squared|||Albuterol Sulfate||||0.8433
92434115|NCT03975790|184755019|SUPERIORITY|||||||0.1175|||||||Chi-squared|||Albuterol Sulfate||||0.1175
92434116|NCT03975790|184755019|SUPERIORITY|||||||0.1215|||||||Chi-squared|||Albuterol Sulfate||||0.1215
92434117|NCT03975790|184755019|SUPERIORITY|||||||0.9007|||||||Chi-squared|||Gabapentin||||0.9007
92434118|NCT03975790|184755019|SUPERIORITY|||||||0.8789|||||||Chi-squared|||Gabapentin||||0.8789
92434119|NCT03975790|184755019|SUPERIORITY|||||||0.8305|||||||Chi-squared|||Gabapentin||||0.8305
92171044|NCT04452318|184231091|SUPERIORITY||Odds Ratio (OR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.208|0.456|||Multiple Imputation, Logistic Regression|||||0.456|0.208|< 0.0001
92237969|NCT00858702|184380095|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No consideration for multiplicity|Fisher Exact|||||||<0.001
92237970|NCT03408873|184380134|OTHER||Mean Difference (Final Values)|-31.4|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 29 participants with screen data only 11 had Week 24 data. Statistical Analysis was conducted for 11 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
92434120|NCT03975790|184755019|SUPERIORITY|||||||0.0694|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.0694
92434121|NCT03975790|184755019|SUPERIORITY|||||||0.8606|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.8606
92434122|NCT03975790|184755019|SUPERIORITY|||||||0.3363|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.3363
92434123|NCT03975790|184755019|SUPERIORITY|||||||0.3319|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.3319
92434124|NCT03975790|184755019|SUPERIORITY|||||||0.5615|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.5615
92434125|NCT03975790|184755019|SUPERIORITY|||||||0.8898|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.8898
92434126|NCT03975790|184755019|SUPERIORITY|||||||0.367|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.3670
92434127|NCT03975790|184755019|SUPERIORITY|||||||0.8155|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.8155
92434128|NCT03975790|184755019|SUPERIORITY|||||||0.7091|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.7091
92434129|NCT03975790|184755019|SUPERIORITY|||||||0.9769|||||||Chi-squared|||Fluticasone Propionate||||0.9769
92434130|NCT03975790|184755019|SUPERIORITY|||||||0.5032|||||||Chi-squared|||Fluticasone Propionate||||0.5032
92434131|NCT03975790|184755019|SUPERIORITY|||||||0.5631|||||||Chi-squared|||Fluticasone Propionate||||0.5631
92434132|NCT03975790|184755019|SUPERIORITY|||||||0.4426|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.4426
92434133|NCT03975790|184755019|SUPERIORITY|||||||0.5734|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.5734
92434134|NCT03975790|184755019|SUPERIORITY|||||||0.3071|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.3071
92434135|NCT03975790|184755019|SUPERIORITY|||||||0.1608|||||||Chi-squared|||Duloxetine Hydrochloride||||0.1608
92434136|NCT03975790|184755019|SUPERIORITY|||||||0.4092|||||||Chi-squared|||Duloxetine Hydrochloride||||0.4092
92434137|NCT03975790|184755019|SUPERIORITY|||||||0.1215|||||||Chi-squared|||Duloxetine Hydrochloride||||0.1215
92434138|NCT03975790|184755019|SUPERIORITY|||||||0.7279|||||||Chi-squared|||Atorvastatin Calcium||||0.7279
92434139|NCT03975790|184755019|SUPERIORITY|||||||0.7703|||||||Chi-squared|||Atorvastatin Calcium||||0.7703
92434140|NCT03975790|184755019|SUPERIORITY|||||||0.6254|||||||Chi-squared|||Atorvastatin Calcium||||0.6254
92434141|NCT03975790|184755019|SUPERIORITY|||||||0.1615|||||||Chi-squared|||Diclofenac Sodium||||0.1615
92434142|NCT03975790|184755019|SUPERIORITY|||||||0.505|||||||Chi-squared|||Diclofenac Sodium||||0.5050
92434143|NCT03975790|184755019|SUPERIORITY|||||||0.1592|||||||Chi-squared|||Diclofenac Sodium||||0.1592
92434144|NCT03975790|184755019|SUPERIORITY|||||||0.6088|||||||Chi-squared|||Levofloxacin||||0.6088
92434145|NCT03975790|184755019|SUPERIORITY|||||||0.4713|||||||Chi-squared|||Levofloxacin||||0.4713
92434146|NCT03975790|184755019|SUPERIORITY|||||||0.3399|||||||Chi-squared|||Levofloxacin||||0.3399
92434147|NCT03975790|184755020|SUPERIORITY|||||||0.2349|||||||Chi-squared|||MTX Sodium||||0.2349
92434148|NCT03975790|184755020|SUPERIORITY|||||||0.3956|||||||Chi-squared|||MTX Sodium||||0.3956
92434149|NCT03975790|184755020|SUPERIORITY|||||||0.55|||||||Chi-squared|||Folic Acid||||0.5500
92434150|NCT03975790|184755020|SUPERIORITY|||||||0.7131|||||||Chi-squared|||Folic Acid||||0.7131
92434151|NCT03975790|184755020|SUPERIORITY|||||||0.942|||||||Chi-squared|||Folic Acid||||0.9420
92434152|NCT03975790|184755020|SUPERIORITY|||||||0.0571|||||||Chi-squared|||Prednisone||||0.0571
92434153|NCT03975790|184755020|SUPERIORITY|||||||0.049|||||||Chi-squared|||Prednisone||||0.0490
92434154|NCT03975790|184755020|SUPERIORITY|||||||0.5631|||||||Chi-squared|||Prednisone||||0.5631
92237971|NCT03408873|184380134|OTHER||Mean Difference (Final Values)|-11.7||||0.12|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between baseline \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 28 participants with baseline data only 11 had Week 24 data. Statistical Analysis was conducted for 11 participants with data at the 2 timepoints. The mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||0.12
92279822|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.3946||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.3946
92434155|NCT03975790|184755020|SUPERIORITY|||||||0.2198|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.2198
92434156|NCT03975790|184755020|SUPERIORITY|||||||0.385|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.3850
92434157|NCT03975790|184755020|SUPERIORITY|||||||0.1165|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.1165
92434158|NCT03975790|184755020|SUPERIORITY|||||||0.4291|||||||Chi-squared|||Azithromycin||||0.4291
92434159|NCT03975790|184755020|SUPERIORITY|||||||0.385|||||||Chi-squared|||Azithromycin||||0.3850
92434160|NCT03975790|184755020|SUPERIORITY|||||||0.8143|||||||Chi-squared|||Azithromycin||||0.8143
92434161|NCT03975790|184755020|SUPERIORITY|||||||0.7272|||||||Chi-squared|||Adalimumab||||0.7272
92434162|NCT03975790|184755020|SUPERIORITY|||||||0.0501|||||||Chi-squared|||Adalimumab||||0.0501
92434163|NCT03975790|184755020|SUPERIORITY|||||||0.05|||||||Chi-squared|||Adalimumab||||0.0500
92434164|NCT03975790|184755020|SUPERIORITY|||||||0.3116|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.3116
92434165|NCT03975790|184755020|SUPERIORITY|||||||0.4882|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.4882
92434166|NCT03975790|184755020|SUPERIORITY|||||||0.9505|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.9505
92434167|NCT03975790|184755020|SUPERIORITY|||||||0.408|||||||Chi-squared|||Etanercept||||0.4080
92434168|NCT03975790|184755020|SUPERIORITY|||||||0.7644|||||||Chi-squared|||Etanercept||||0.7644
92434169|NCT03975790|184755020|SUPERIORITY|||||||0.4146|||||||Chi-squared|||Etanercept||||0.4146
92434170|NCT03975790|184755020|SUPERIORITY|||||||0.1348|||||||Chi-squared|||Levothyroxine Sodium||||0.1348
92434171|NCT03975790|184755020|SUPERIORITY|||||||0.5948|||||||Chi-squared|||Levothyroxine Sodium||||0.5948
92434172|NCT03975790|184755020|SUPERIORITY|||||||0.5785|||||||Chi-squared|||Levothyroxine Sodium||||0.5785
92434173|NCT03975790|184755020|SUPERIORITY|||||||0.1033|||||||Chi-squared|||Methylprednisolone||||0.1033
92434174|NCT03975790|184755020|SUPERIORITY|||||||0.2117|||||||Chi-squared|||Methylprednisolone||||0.2117
92237972|NCT03408873|184380135|OTHER||Mean Difference (Final Values)|-19.6||||0.0599|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 29 participants with screen data only 11 had Week 24 data. Statistical Analysis was conducted for 11 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||0.0599
92279823|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0074||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.0074
92434175|NCT03975790|184755020|SUPERIORITY|||||||0.992|||||||Chi-squared|||Methylprednisolone||||0.9920
92434176|NCT03975790|184755020|SUPERIORITY|||||||0.9212|||||||Chi-squared|||Omeprazole||||0.9212
92434177|NCT03975790|184755020|SUPERIORITY|||||||0.9212|||||||Chi-squared|||Omeprazole||||0.9212
92434178|NCT03975790|184755020|SUPERIORITY|||||||0.4384|||||||Chi-squared|||Omeprazole||||0.4384
92434179|NCT03975790|184755020|SUPERIORITY|||||||0.0162|||||||Chi-squared|||Tramadol Hydrochloride||||0.0162
92434180|NCT03975790|184755020|SUPERIORITY|||||||0.3239|||||||Chi-squared|||Tramadol Hydrochloride||||0.3239
92434181|NCT03975790|184755020|SUPERIORITY|||||||0.4837|||||||Chi-squared|||Tramadol Hydrochloride||||0.4837
92434182|NCT03975790|184755020|SUPERIORITY|||||||0.7183|||||||Chi-squared|||Meloxicam||||0.7183
92434183|NCT03975790|184755020|SUPERIORITY|||||||0.2667|||||||Chi-squared|||Meloxicam||||0.2667
92434184|NCT03975790|184755020|SUPERIORITY|||||||0.451|||||||Chi-squared|||Meloxicam||||0.4510
92434185|NCT03975790|184755020|SUPERIORITY|||||||0.7993|||||||Chi-squared|||Amoxicillin||||0.7993
92434186|NCT03975790|184755020|SUPERIORITY|||||||0.9896|||||||Chi-squared|||Amoxicillin||||0.9896
92434187|NCT03975790|184755020|SUPERIORITY|||||||0.8576|||||||Chi-squared|||Amoxicillin||||0.8576
92434188|NCT03975790|184755020|SUPERIORITY|||||||0.9373|||||||Chi-squared|||Albuterol Sulfate||||0.9373
92434189|NCT03975790|184755020|SUPERIORITY|||||||0.1253|||||||Chi-squared|||Albuterol Sulfate||||0.1253
92434190|NCT03975790|184755020|SUPERIORITY|||||||0.1851|||||||Chi-squared|||Albuterol Sulfate||||0.1851
92434191|NCT03975790|184755020|SUPERIORITY|||||||0.8697|||||||Chi-squared|||Gabapentin||||0.8697
92434192|NCT03975790|184755020|SUPERIORITY|||||||0.9719|||||||Chi-squared|||Gabapentin||||0.9719
92434193|NCT03975790|184755020|SUPERIORITY|||||||0.938|||||||Chi-squared|||Gabapentin||||0.9380
92434194|NCT03975790|184755020|SUPERIORITY|||||||0.1079|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.1079
92434195|NCT03975790|184755020|SUPERIORITY|||||||0.2588|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.2588
92434196|NCT03975790|184755020|SUPERIORITY|||||||0.9358|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.9358
92434197|NCT03975790|184755020|SUPERIORITY|||||||0.1984|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.1984
92434198|NCT03975790|184755020|SUPERIORITY|||||||0.8542|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.8542
92434199|NCT03975790|184755020|SUPERIORITY|||||||0.2973|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.2973
92434200|NCT03975790|184755020|SUPERIORITY|||||||0.1046|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.1046
92434201|NCT03975790|184755020|SUPERIORITY|||||||0.7961|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.7961
92434202|NCT03975790|184755020|SUPERIORITY|||||||0.214|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.2140
92434203|NCT03975790|184755020|SUPERIORITY|||||||0.8578|||||||Chi-squared|||Fluticasone Propionate||||0.8578
92434204|NCT03975790|184755020|SUPERIORITY|||||||0.7131|||||||Chi-squared|||Fluticasone Propionate||||0.7131
92434205|NCT03975790|184755020|SUPERIORITY|||||||0.8421|||||||Chi-squared|||Fluticasone Propionate||||0.8421
92434206|NCT03975790|184755020|SUPERIORITY|||||||0.7637|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.7637
92434207|NCT03975790|184755020|SUPERIORITY|||||||0.6355|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.6355
92171045|NCT04452318|184231093|SUPERIORITY||Odds Ratio (OR)|0.12|||<|0.0001|TWO_SIDED|95.0|0.051|0.286|||Regression, Logistic|||||0.286|0.051|< 0.0001
92237973|NCT03408873|184380135|OTHER||Mean Difference (Final Values)|-3.2||||0.63|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between baseline \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 28 participants with baseline data only 11 had Week 24 data. Statistical Analysis was conducted for 11 participants with data at the 2 timepoints. The mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||0.63
92279824|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2341||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.2341
92171046|NCT04452318|184231094|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
92279825|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.0933||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.0933
92171047|NCT04452318|184231095|SUPERIORITY||Odds Ratio (OR)|0.09|||=|0.001|TWO_SIDED|95.0|0.02|0.37|||Regression, Logistic|||||0.370|0.020|= 0.0010
92434208|NCT03975790|184755020|SUPERIORITY|||||||0.5425|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.5425
92434209|NCT03975790|184755020|SUPERIORITY|||||||0.041|||||||Chi-squared|||Duloxetine Hydrochloride||||0.0410
92434210|NCT03975790|184755020|SUPERIORITY|||||||0.8251|||||||Chi-squared|||Duloxetine Hydrochloride||||0.8251
92434211|NCT03975790|184755020|SUPERIORITY|||||||0.2871|||||||Chi-squared|||Duloxetine Hydrochloride||||0.2871
92434212|NCT03975790|184755020|SUPERIORITY|||||||0.1174|||||||Chi-squared|||Diclofenac Sodium||||0.1174
92171048|NCT04452318|184231096|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
92171049|NCT04452318|184231099|SUPERIORITY||Difference of LS Means|-2.123|STANDARD_ERROR_OF_MEAN|0.295|<|0.0001|TWO_SIDED|95.0|-2.707|-1.539|||ANOVA|||||-1.539|-2.707|< 0.0001
92171050|NCT04452318|184231100|SUPERIORITY||Difference of LS Means|-2.483|STANDARD_ERROR_OF_MEAN|0.342|<|0.0001|TWO_SIDED|95.0|-3.161|-1.806|||ANOVA|||||-1.806|-3.161|< 0.0001
92171051|NCT04452318|184231101|SUPERIORITY||Difference of LS Mean|-2.428|STANDARD_ERROR_OF_MEAN|0.389|<|0.0001|TWO_SIDED|95.0|-3.196|-1.659|||ANOVA|||||-1.659|-3.196|< 0.0001
92434213|NCT03975790|184755020|SUPERIORITY|||||||0.9702|||||||Chi-squared|||Diclofenac Sodium||||0.9702
92434214|NCT03975790|184755020|SUPERIORITY|||||||0.3109|||||||Chi-squared|||Diclofenac Sodium||||0.3109
92434215|NCT03975790|184755020|SUPERIORITY|||||||0.6744|||||||Chi-squared|||Levofloxacin||||0.6744
92434216|NCT03975790|184755020|SUPERIORITY|||||||0.8121|||||||Chi-squared|||Levofloxacin||||0.8121
92434217|NCT03975790|184755020|SUPERIORITY|||||||0.9451|||||||Chi-squared|||Levofloxacin||||0.9451
92434218|NCT03975790|184755020|SUPERIORITY|||||||0.166|||||||Chi-squared|||Cephalexin||||0.1660
92434219|NCT03975790|184755020|SUPERIORITY|||||||0.9549|||||||Chi-squared|||Cephalexin||||0.9549
92434220|NCT03975790|184755020|SUPERIORITY|||||||0.3104|||||||Chi-squared|||Cephalexin||||0.3104
92434221|NCT03975790|184755020|SUPERIORITY|||||||0.0489|||||||Chi-squared|||Ibuprofen||||0.0489
92434222|NCT03975790|184755020|SUPERIORITY|||||||0.1515|||||||Chi-squared|||Ibuprofen||||0.1515
92434223|NCT03975790|184755020|SUPERIORITY|||||||0.9481|||||||Chi-squared|||Ibuprofen||||0.9481
92434224|NCT03975790|184755021|SUPERIORITY|||||||0.2178|||||||Chi-squared|||||||0.2178
92434225|NCT03975790|184755021|SUPERIORITY|||||||0.5237|||||||Chi-squared|||||||0.5237
92434226|NCT03975790|184755021|SUPERIORITY|||||||0.7964|||||||Chi-squared|||||||0.7964
92434227|NCT03975790|184755022|SUPERIORITY|||||||0.9085|||||||Chi-squared|||||||0.9085
92434228|NCT03975790|184755022|SUPERIORITY|||||||0.6283|||||||Chi-squared|||||||0.6283
92434229|NCT03975790|184755022|SUPERIORITY|||||||0.7293|||||||Chi-squared|||||||0.7293
92434230|NCT03975790|184755023|SUPERIORITY|||||||0.9392|||||||Chi-squared|||||||0.9392
92434231|NCT03975790|184755023|SUPERIORITY|||||||0.3063|||||||Chi-squared|||||||0.3063
92434232|NCT03975790|184755023|SUPERIORITY|||||||0.3467|||||||Chi-squared|||||||0.3467
92434233|NCT03975790|184755024|SUPERIORITY|||||||0.7977|||||||Chi-squared|||||||0.7977
92434234|NCT03975790|184755024|SUPERIORITY|||||||0.5241|||||||Chi-squared|||||||0.5241
92434235|NCT03975790|184755024|SUPERIORITY|||||||0.4702|||||||Chi-squared|||||||0.4702
92434236|NCT03975790|184755025|SUPERIORITY|||||||0.1461|||||||t-test|||||||0.1461
92434237|NCT03975790|184755025|SUPERIORITY|||||||0.1411|||||||t-test|||||||0.1411
92434238|NCT03975790|184755025|SUPERIORITY|||||||0.4201|||||||t-test|||||||0.4201
92434239|NCT03975790|184755026|SUPERIORITY|||||||0.3955|||||||t-test|||||||0.3955
92434240|NCT03975790|184755026|SUPERIORITY|||||||0.6356|||||||t-test|||||||0.6356
92434241|NCT03975790|184755026|SUPERIORITY|||||||0.3833|||||||t-test|||||||0.3833
92434242|NCT03975790|184755027|SUPERIORITY|||||||0.3292|||||||t-test|||||||0.3292
92434243|NCT03975790|184755027|SUPERIORITY|||||||0.2959|||||||t-test|||||||0.2959
92434244|NCT03975790|184755027|SUPERIORITY|||||||0.6962|||||||t-test|||||||0.6962
92434245|NCT03975790|184755028|SUPERIORITY|||||||0.8138|||||||t-test|||||||0.8138
92434246|NCT03975790|184755028|SUPERIORITY|||||||0.007|||||||t-test|||||||0.0070
92434247|NCT03975790|184755028|SUPERIORITY|||||||0.0358|||||||t-test|||||||0.0358
92434248|NCT03975790|184755029|SUPERIORITY|||||||0.8453|||||||t-test|||||||0.8453
92434249|NCT03975790|184755029|SUPERIORITY|||||||0.4806|||||||t-test|||||||0.4806
92434250|NCT03975790|184755029|SUPERIORITY|||||||0.4809|||||||t-test|||||||0.4809
92434251|NCT03975790|184755030|SUPERIORITY|||||||0.3076|||||||t-test|||||||0.3076
92434252|NCT03975790|184755030|SUPERIORITY|||||||0.2509|||||||t-test|||||||0.2509
92434253|NCT03975790|184755030|SUPERIORITY|||||||0.7827|||||||t-test|||||||0.7827
92434254|NCT03975790|184755031|SUPERIORITY|||||||0.4261|||||||Chi-squared|||During Persistency||||0.4261
92434255|NCT03975790|184755031|SUPERIORITY|||||||0.5247|||||||Chi-squared|||During Persistency||||0.5247
92171052|NCT04452318|184231102|SUPERIORITY||Difference of LS Mean|-2.441|STANDARD_ERROR_OF_MEAN|0.381|<|0.0001|TWO_SIDED|95.0|-3.194|-1.688|||ANOVA|||||-1.688|-3.194|< 0.0001
92434256|NCT03975790|184755031|SUPERIORITY|||||||0.2809|||||||Chi-squared|||During Persistency||||0.2809
92434257|NCT03975790|184755031|SUPERIORITY|||||||0.1153|||||||Chi-squared|||Post Persistency||||0.1153
92434258|NCT03975790|184755031|SUPERIORITY|||||||0.1344|||||||Chi-squared|||Post Persistency||||0.1344
92434259|NCT03975790|184755031|SUPERIORITY|||||||0.8229|||||||Chi-squared|||Post Persistency||||0.8229
92434260|NCT03975790|184755032|SUPERIORITY|||||||0.7816|||||||Chi-squared|||During Persistency||||0.7816
92434261|NCT03975790|184755032|SUPERIORITY|||||||0.7124|||||||Chi-squared|||During Persistency||||0.7124
92434262|NCT03975790|184755032|SUPERIORITY|||||||0.6148|||||||Chi-squared|||During Persistency||||0.6148
92434263|NCT03975790|184755032|SUPERIORITY|||||||0.4876|||||||Chi-squared|||Post Persistency||||0.4876
92434264|NCT03975790|184755032|SUPERIORITY|||||||0.7826|||||||Chi-squared|||Post Persistency||||0.7826
92279826|NCT00455533|184462901|SUPERIORITY_OR_OTHER|||||||0.2016||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.2016
92434265|NCT03975790|184755032|SUPERIORITY|||||||0.8337|||||||Chi-squared|||Post Persistency||||0.8337
92434266|NCT03975790|184755033|SUPERIORITY|||||||0.1344|||||||Chi-squared|||||||0.1344
92434267|NCT03975790|184755033|SUPERIORITY|||||||0.0095|||||||Chi-squared|||||||0.0095
92434268|NCT03975790|184755033|SUPERIORITY|||||||0.1406|||||||Chi-squared|||||||0.1406
92434269|NCT03975790|184755034|SUPERIORITY|||||||0.9379|||||||Chi-squared|||||||0.9379
92434270|NCT03975790|184755034|SUPERIORITY|||||||0.3025|||||||Chi-squared|||||||0.3025
92434271|NCT03975790|184755034|SUPERIORITY|||||||0.3388|||||||Chi-squared|||||||0.3388
92171053|NCT04452318|184231105|OTHER||||||=|0.0621|||||||Fisher Exact|||Testing if there is an association between the observed results and treatment received||||= 0.0621
92434272|NCT03975790|184755035|SUPERIORITY|||||||0.8205|||||||t-test|||||||0.8205
92434273|NCT03975790|184755035|SUPERIORITY|||||||0.0467|||||||t-test|||||||0.0467
92434274|NCT03975790|184755035|SUPERIORITY|||||||0.1083|||||||t-test|||||||0.1083
92434275|NCT03975790|184755036|SUPERIORITY|||||||0.8899|||||||t-test|||||||0.8899
92171054|NCT04452318|184231106|OTHER||||||=|0.0038|||||||Fisher Exact|||Testing if there is an association between the observed results and treatment received'||||= 0.0038
92171055|NCT04452318|184231109|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
92171056|NCT04452318|184231117|SUPERIORITY||||||=|0.0273|||||||Stratified Wilcoxon Rank Sum Test|||||||= 0.0273
92434276|NCT03975790|184755036|SUPERIORITY|||||||0.6183|||||||t-test|||||||0.6183
92434277|NCT03975790|184755036|SUPERIORITY|||||||0.6496|||||||t-test|||||||0.6496
92434278|NCT03975790|184755037|SUPERIORITY|||||||0.5027|||||||t-test|||||||0.5027
92434279|NCT03975790|184755037|SUPERIORITY|||||||0.2375|||||||t-test|||||||0.2375
92434280|NCT03975790|184755037|SUPERIORITY|||||||0.5577|||||||t-test|||||||0.5577
92434281|NCT03975790|184755038|SUPERIORITY|||||||0.6908|||||||t-test|||||||0.6908
92434282|NCT03975790|184755038|SUPERIORITY|||||||0.0859|||||||t-test|||||||0.0859
92434283|NCT03975790|184755038|SUPERIORITY|||||||0.2764|||||||t-test|||||||0.2764
92434284|NCT03975790|184755039|SUPERIORITY|||||||0.1906|||||||t-test|||||||0.1906
92434285|NCT03975790|184755039|SUPERIORITY|||||||0.8744|||||||t-test|||||||0.8744
92434286|NCT03975790|184755039|SUPERIORITY|||||||0.3295|||||||t-test|||||||0.3295
92434287|NCT03975790|184755040|SUPERIORITY|||||||0.0056|||||||t-test|||All cause||||0.0056
92434288|NCT03975790|184755040|SUPERIORITY|||||||0.4222|||||||t-test|||All cause||||0.4222
92434289|NCT03975790|184755040|SUPERIORITY|||||||0.0041|||||||t-test|||All cause||||0.0041
92434290|NCT03975790|184755040|SUPERIORITY|||||||0.2277|||||||t-test|||RA related||||0.2277
92434291|NCT03975790|184755040|SUPERIORITY|||||||0.2812|||||||t-test|||RA related||||0.2812
92434292|NCT03975790|184755040|SUPERIORITY|||||||0.0772|||||||t-test|||RA related||||0.0772
92434293|NCT03975790|184755041|SUPERIORITY|||||||0.293|||||||t-test|||All cause||||0.2930
92434294|NCT03975790|184755041|SUPERIORITY|||||||0.439|||||||t-test|||All cause||||0.4390
92434295|NCT03975790|184755041|SUPERIORITY|||||||0.153|||||||t-test|||All cause||||0.1530
92434296|NCT03975790|184755041|SUPERIORITY|||||||0.9439|||||||t-test|||RA related||||0.9439
92434297|NCT03975790|184755041|SUPERIORITY|||||||0.4477|||||||t-test|||RA related||||0.4477
92434298|NCT03975790|184755041|SUPERIORITY|||||||0.4519|||||||t-test|||RA related||||0.4519
92434299|NCT03975790|184755042|SUPERIORITY|||||||0.9829|||||||Chi-squared|||Cardiovascular Disease||||0.9829
92434300|NCT03975790|184755042|SUPERIORITY|||||||0.8021|||||||Chi-squared|||Cardiovascular Disease||||0.8021
92434301|NCT03975790|184755042|SUPERIORITY|||||||0.8376|||||||Chi-squared|||Cardiovascular Disease||||0.8376
92434302|NCT03975790|184755042|SUPERIORITY|||||||0.5927|||||||Chi-squared|||COPD||||0.5927
92434303|NCT03975790|184755042|SUPERIORITY|||||||0.5202|||||||Chi-squared|||COPD||||0.5202
92434304|NCT03975790|184755042|SUPERIORITY|||||||0.8517|||||||Chi-squared|||COPD||||0.8517
92434305|NCT03975790|184755042|SUPERIORITY|||||||8.33|||||||Chi-squared|||Asthma||||8.33
92434306|NCT03975790|184755042|SUPERIORITY|||||||0.7483|||||||Chi-squared|||Asthma||||0.7483
92434307|NCT03975790|184755042|SUPERIORITY|||||||0.9713|||||||Chi-squared|||Asthma||||0.9713
92434308|NCT03975790|184755042|SUPERIORITY|||||||0.9148|||||||Chi-squared|||Kidney disease||||0.9148
92434309|NCT03975790|184755042|SUPERIORITY|||||||0.7248|||||||Chi-squared|||Kidney disease||||0.7248
92434310|NCT03975790|184755042|SUPERIORITY|||||||0.82|||||||Chi-squared|||Kidney disease||||0.8200
92434311|NCT03975790|184755042|SUPERIORITY|||||||0.9657|||||||Chi-squared|||Diabetes||||0.9657
92434312|NCT03975790|184755042|SUPERIORITY|||||||0.9255|||||||Chi-squared|||Diabetes||||0.9255
92434313|NCT03975790|184755042|SUPERIORITY|||||||0.9575|||||||Chi-squared|||Diabetes||||0.9575
92434314|NCT03975790|184755042|SUPERIORITY|||||||0.941|||||||Chi-squared|||Depression||||0.9410
92434315|NCT03975790|184755042|SUPERIORITY|||||||0.9146|||||||Chi-squared|||Depression||||0.9146
92434316|NCT03975790|184755042|SUPERIORITY|||||||0.9641|||||||Chi-squared|||Depression||||0.9641
92434317|NCT03975790|184755042|SUPERIORITY|||||||0.2596|||||||Chi-squared|||Anxiety||||0.2596
92434318|NCT03975790|184755042|SUPERIORITY|||||||0.2228|||||||Chi-squared|||Anxiety||||0.2228
92434319|NCT03975790|184755042|SUPERIORITY|||||||0.7824|||||||Chi-squared|||Anxiety||||0.7824
92434320|NCT03975790|184755042|SUPERIORITY|||||||0.4184|||||||Chi-squared|||Liver disease||||0.4184
92434321|NCT03975790|184755042|SUPERIORITY|||||||0.4371|||||||Chi-squared|||Liver disease||||0.4371
92434322|NCT03975790|184755042|SUPERIORITY|||||||0.2074|||||||Chi-squared|||Liver disease||||0.2074
92434323|NCT03975790|184755042|SUPERIORITY|||||||0.785|||||||Chi-squared|||Sleep disorders||||0.7850
92434324|NCT03975790|184755042|SUPERIORITY|||||||0.1288|||||||Chi-squared|||Sleep disorders||||0.1288
92434325|NCT03975790|184755042|SUPERIORITY|||||||0.2839|||||||Chi-squared|||Sleep disorders||||0.2839
92434326|NCT03975790|184755043|SUPERIORITY|||||||0.2242|||||||Chi-squared|||||||0.2242
92434327|NCT03975790|184755043|SUPERIORITY|||||||0.0014|||||||Chi-squared|||||||0.0014
92434328|NCT03975790|184755043|SUPERIORITY|||||||0.0557|||||||Chi-squared|||||||0.0557
92434329|NCT03975790|184755044|SUPERIORITY|||||||0.5944|||||||Chi-squared|||Switch immediately||||0.5944
92434330|NCT03975790|184755044|SUPERIORITY|||||||0.9255|||||||Chi-squared|||Switch immediately||||0.9255
92279827|NCT00455533|184462902|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.145|||||TWO_SIDED|90.0|-0.27|-0.017|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Negative Biomarker Status||-0.017|-0.27|
92434331|NCT03975790|184755044|SUPERIORITY|||||||0.7824|||||||Chi-squared|||Switch immediately||||0.7824
92434332|NCT03975790|184755044|SUPERIORITY|||||||0.3975|||||||Chi-squared|||Discontinue then switch||||0.3975
92434333|NCT03975790|184755044|SUPERIORITY|||||||0.0552|||||||Chi-squared|||Discontinue then switch||||0.0552
92434334|NCT03975790|184755044|SUPERIORITY|||||||0.3914|||||||Chi-squared|||Discontinue then switch||||0.3914
92434335|NCT03975790|184755044|SUPERIORITY|||||||0.2036|||||||Chi-squared|||Discontinue then restart||||0.2036
92434336|NCT03975790|184755044|SUPERIORITY|||||||0.1336|||||||Chi-squared|||Discontinue then restart||||0.1336
92434337|NCT03975790|184755044|SUPERIORITY|||||||0.7095|||||||Chi-squared|||Discontinue then restart||||0.7095
92434338|NCT03975790|184755044|SUPERIORITY|||||||0.2241|||||||Chi-squared|||Discontinue without switch or restart||||0.2241
92279828|NCT00455533|184462902|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|0.064|||||TWO_SIDED|90.0|-0.064|0.197|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Positive Biomarker STatus||0.197|-0.064|
92434339|NCT03975790|184755044|SUPERIORITY|||||||0.0024|||||||Chi-squared|||Discontinue without switch or restart||||0.0024
92434340|NCT03975790|184755044|SUPERIORITY|||||||0.1204|||||||Chi-squared|||Discontinue without switch or restart||||0.1204
92434341|NCT03975790|184755045|SUPERIORITY|||||||0.8424|||||||Chi-squared|||||||0.8424
92434342|NCT03975790|184755045|SUPERIORITY|||||||0.3278|||||||Chi-squared|||||||0.3278
92434343|NCT03975790|184755045|SUPERIORITY|||||||0.3336|||||||Chi-squared|||||||0.3336
92434344|NCT03975790|184755046|SUPERIORITY|||||||0.2036|||||||Chi-squared|||||||0.2036
92434345|NCT03975790|184755046|SUPERIORITY|||||||0.1336|||||||Chi-squared|||||||0.1336
92434346|NCT03975790|184755046|SUPERIORITY|||||||0.7095|||||||Chi-squared|||||||0.7095
92434347|NCT03975790|184755048|SUPERIORITY||||||<|0.0001|||||||t-test|||||||<0.0001
92434348|NCT03975790|184755048|SUPERIORITY||||||<|0.0001|||||||t-test|||||||<.0001
92434349|NCT03975790|184755048|SUPERIORITY||||||<|0.0001|||||||t-test|||||||<.0001
92434350|NCT03975790|184755049|SUPERIORITY|||||||0.0309|||||||Chi-squared|||Leflunomide||||0.0309
92434351|NCT03975790|184755049|SUPERIORITY|||||||0.9978|||||||Chi-squared|||Leflunomide||||0.9978
92434352|NCT03975790|184755049|SUPERIORITY|||||||0.2629|||||||Chi-squared|||Leflunomide||||0.2629
92434353|NCT03975790|184755049|SUPERIORITY|||||||0.0225|||||||Chi-squared|||Sulfasalazine||||0.0225
92434354|NCT03975790|184755049|SUPERIORITY|||||||0.4456|||||||Chi-squared|||Sulfasalazine||||0.4456
92434355|NCT03975790|184755049|SUPERIORITY|||||||0.5065|||||||Chi-squared|||Sulfasalazine||||0.5065
92434356|NCT03975790|184755049|SUPERIORITY|||||||0.6617|||||||Chi-squared|||Hydroxychloroquine||||0.6617
92434357|NCT03975790|184755049|SUPERIORITY|||||||0.7309|||||||Chi-squared|||Hydroxychloroquine||||0.7309
92434358|NCT03975790|184755049|SUPERIORITY|||||||0.9861|||||||Chi-squared|||Hydroxychloroquine||||0.9861
92434359|NCT03975790|184755050|SUPERIORITY|||||||0.088|||||||Chi-squared|||||||0.0880
92434360|NCT03975790|184755050|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92434361|NCT03975790|184755050|SUPERIORITY|||||||0.0065|||||||Chi-squared|||||||0.0065
92434362|NCT03975790|184755051|SUPERIORITY|||||||0.5157|||||||Chi-squared|||||||0.5157
92434363|NCT03975790|184755051|SUPERIORITY|||||||0.1231|||||||Chi-squared|||||||0.1231
92434364|NCT03975790|184755051|SUPERIORITY|||||||0.2109|||||||Chi-squared|||||||0.2109
92434365|NCT03975790|184755052|SUPERIORITY|||||||0.8424|||||||Chi-squared|||||||0.8424
92434366|NCT03975790|184755052|SUPERIORITY|||||||0.3278|||||||Chi-squared|||||||0.3278
92434367|NCT03975790|184755052|SUPERIORITY|||||||0.3336|||||||Chi-squared|||||||0.3336
92434368|NCT03975790|184755053|SUPERIORITY|||||||0.0654|||||||Chi-squared|||||||0.0654
92434369|NCT03975790|184755053|SUPERIORITY|||||||0.7315|||||||Chi-squared|||||||0.7315
92434370|NCT03975790|184755053|SUPERIORITY|||||||0.1897|||||||Chi-squared|||||||0.1897
92434371|NCT03975790|184755054|SUPERIORITY|||||||0.5146|||||||Chi-squared|||||||0.5146
92434372|NCT03975790|184755054|SUPERIORITY|||||||0.7121|||||||Chi-squared|||||||0.7121
92434373|NCT03975790|184755054|SUPERIORITY|||||||0.4434|||||||Chi-squared|||||||0.4434
92434374|NCT03975790|184755055|SUPERIORITY|||||||0.8966|||||||Chi-squared|||||||0.8966
92434375|NCT03975790|184755055|SUPERIORITY|||||||0.2105|||||||Chi-squared|||||||0.2105
92434376|NCT03975790|184755055|SUPERIORITY|||||||0.3336|||||||Chi-squared|||||||0.3336
92434377|NCT03975790|184755057|SUPERIORITY|||||||0.361|||||||Chi-squared|||||||0.3610
92434378|NCT03975790|184755057|SUPERIORITY|||||||0.4519|||||||Chi-squared|||||||0.4519
92434379|NCT03975790|184755057|SUPERIORITY|||||||0.9612|||||||Chi-squared|||||||0.9612
92434380|NCT03975790|184755058|SUPERIORITY|||||||0.8135|||||||Chi-squared|||||||0.8135
92434381|NCT03975790|184755058|SUPERIORITY|||||||0.591|||||||Chi-squared|||||||0.5910
92434382|NCT03975790|184755058|SUPERIORITY|||||||0.7635|||||||Chi-squared|||||||0.7635
92434383|NCT03975790|184755059|SUPERIORITY|||||||0.597|||||||Chi-squared|||||||0.5970
92434384|NCT03975790|184755059|SUPERIORITY|||||||0.7055|||||||Chi-squared|||||||0.7055
92434385|NCT03975790|184755060|SUPERIORITY|||||||0.5435|||||||Chi-squared|||||||0.5435
92434386|NCT03975790|184755060|SUPERIORITY|||||||0.679|||||||Chi-squared|||||||0.6790
92434387|NCT03975790|184755060|SUPERIORITY|||||||0.9676|||||||Chi-squared|||||||0.9676
92434388|NCT03975790|184755061|SUPERIORITY|||||||0.8035|||||||Chi-squared|||||||0.8035
92434389|NCT03975790|184755061|SUPERIORITY|||||||0.4184|||||||Chi-squared|||||||0.4184
92434390|NCT03975790|184755061|SUPERIORITY|||||||0.395|||||||Chi-squared|||||||0.3950
92279829|NCT00455533|184462902|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.056|||||TWO_SIDED|90.0|-0.152|0.046|||||ixabepilone - paclitaxel|Membrane Threshold/Negative Biomarker Status||0.046|-0.152|
92434391|NCT03975790|184755063|SUPERIORITY|||||||0.7871|||||||Chi-squared|||||||0.7871
92434392|NCT03975790|184755063|SUPERIORITY|||||||0.0722|||||||Chi-squared|||||||0.0722
92434393|NCT03975790|184755063|SUPERIORITY|||||||0.181|||||||Chi-squared|||||||0.1810
92434394|NCT03975790|184755064|SUPERIORITY|||||||0.1984|||||||Chi-squared|||||||0.1984
92434395|NCT03975790|184755064|SUPERIORITY|||||||0.2043|||||||Chi-squared|||||||0.2043
92434396|NCT03975790|184755064|SUPERIORITY|||||||0.0439|||||||Chi-squared|||||||0.0439
92434397|NCT03975790|184755065|SUPERIORITY|||||||0.1702|||||||Chi-squared|||||||0.1702
92434398|NCT03975790|184755065|SUPERIORITY|||||||0.5926|||||||Chi-squared|||||||0.5926
92434399|NCT03975790|184755065|SUPERIORITY|||||||0.3088|||||||Chi-squared|||||||0.3088
92434400|NCT03975790|184755066|SUPERIORITY|||||||0.9141|||||||Chi-squared|||||||0.9141
92434401|NCT03975790|184755066|SUPERIORITY|||||||0.7623|||||||Chi-squared|||||||0.7623
92171057|NCT04452318|184231118|SUPERIORITY||Odds Ratio (OR)|0.54|||=|0.046|TWO_SIDED|95.0|0.299|0.989|||Regression, Logistic|||||0.989|0.299|= 0.0460
92279830|NCT00455533|184462902|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|0.116|||||TWO_SIDED|90.0|-0.13|0.37|||||ixabepilone - paclitaxel|Membrane Threshold/Positive Biomarker Status||0.37|-0.13|
92434402|NCT03975790|184755066|SUPERIORITY|||||||0.8517|||||||Chi-squared|||||||0.8517
92434403|NCT03975790|184755067|SUPERIORITY|||||||0.1208|||||||Chi-squared|||||||0.1208
92434404|NCT03975790|184755067|SUPERIORITY|||||||0.0425|||||||Chi-squared|||||||0.0425
92434405|NCT03975790|184755067|SUPERIORITY|||||||0.0046|||||||Chi-squared|||||||0.0046
92434406|NCT03975790|184755068|SUPERIORITY|||||||0.8698|||||||t-test|||||||0.8698
92434407|NCT03975790|184755068|SUPERIORITY|||||||0.7391|||||||t-test|||||||0.7391
92434408|NCT03975790|184755068|SUPERIORITY|||||||0.7043|||||||t-test|||||||0.7043
92434409|NCT03975790|184755069|SUPERIORITY|||||||0.0536|||||||t-test|||||||0.0536
92434410|NCT03975790|184755069|SUPERIORITY|||||||0.9313|||||||t-test|||||||0.9313
92434411|NCT03975790|184755069|SUPERIORITY|||||||0.374|||||||t-test|||||||0.3740
92434412|NCT03975790|184755070|SUPERIORITY|||||||0.6963|||||||t-test|||||||0.6963
92434413|NCT03975790|184755070|SUPERIORITY|||||||0.9816|||||||t-test|||||||0.9816
92434414|NCT03975790|184755070|SUPERIORITY|||||||0.8349|||||||t-test|||||||0.8349
92434415|NCT03975790|184755071|SUPERIORITY|||||||0.0003|||||||t-test|||||||0.0003
92434416|NCT03975790|184755071|SUPERIORITY|||||||0.9431|||||||t-test|||||||0.9431
92434417|NCT03975790|184755071|SUPERIORITY|||||||0.2964|||||||t-test|||||||0.2964
92434418|NCT03975790|184755072|SUPERIORITY|||||||0.2614|||||||t-test|||||||0.2614
92434419|NCT03975790|184755072|SUPERIORITY|||||||0.0014|||||||t-test|||||||0.0014
92434420|NCT03975790|184755072|SUPERIORITY|||||||0.0535|||||||t-test|||||||0.0535
92434421|NCT03975790|184755073|SUPERIORITY|||||||0.0051|||||||t-test|||1 months before index date||||0.0051
92434422|NCT03975790|184755073|SUPERIORITY|||||||0.3041|||||||t-test|||1 months before index date||||0.3041
92434423|NCT03975790|184755073|SUPERIORITY|||||||0.4432|||||||t-test|||1 months before index date||||0.4432
92434424|NCT03975790|184755073|SUPERIORITY|||||||0.8641|||||||t-test|||2 months before index date||||0.8641
92434425|NCT03975790|184755073|SUPERIORITY|||||||0.0435|||||||t-test|||2 months before index date||||0.0435
92434426|NCT03975790|184755073|SUPERIORITY|||||||0.153|||||||t-test|||2 months before index date||||0.1530
92434427|NCT03975790|184755073|SUPERIORITY|||||||0.1188|||||||t-test|||3 months before index date||||0.1188
92434428|NCT03975790|184755073|SUPERIORITY|||||||0.6807|||||||t-test|||3 months before index date||||0.6807
92434429|NCT03975790|184755073|SUPERIORITY|||||||0.1772|||||||t-test|||3 months before index date||||0.1772
92434430|NCT03975790|184755073|SUPERIORITY|||||||0.6104|||||||t-test|||4 months before index date||||0.6104
92434431|NCT03975790|184755073|SUPERIORITY|||||||0.9564|||||||t-test|||4 months before index date||||0.9564
92434432|NCT03975790|184755073|SUPERIORITY|||||||0.7688|||||||t-test|||4 months before index date||||0.7688
92434433|NCT03975790|184755073|SUPERIORITY|||||||0.5685|||||||t-test|||5 months before index date||||0.5685
92434434|NCT03975790|184755073|SUPERIORITY|||||||0.5122|||||||t-test|||5 months before index date||||0.5122
92434435|NCT03975790|184755073|SUPERIORITY|||||||0.4321|||||||t-test|||5 months before index date||||0.4321
92434436|NCT03975790|184755073|SUPERIORITY|||||||0.7892|||||||t-test|||6 months before index date||||0.7892
92434437|NCT03975790|184755073|SUPERIORITY|||||||0.2874|||||||t-test|||6 months before index date||||0.2874
92434438|NCT03975790|184755073|SUPERIORITY|||||||0.2662|||||||t-test|||6 months before index date||||0.2662
92434439|NCT03975790|184755073|SUPERIORITY|||||||0.3091|||||||t-test|||7 months before index date||||0.3091
92434440|NCT03975790|184755073|SUPERIORITY|||||||0.5783|||||||t-test|||7 months before index date||||0.5783
92434441|NCT03975790|184755073|SUPERIORITY|||||||0.4021|||||||t-test|||7 months before index date||||0.4021
92434442|NCT03975790|184755073|SUPERIORITY|||||||0.767|||||||t-test|||8 months before index date||||0.7670
92434443|NCT03975790|184755073|SUPERIORITY|||||||0.6978|||||||t-test|||8 months before index date||||0.6978
92434444|NCT03975790|184755073|SUPERIORITY|||||||0.6328|||||||t-test|||8 months before index date||||0.6328
92237974|NCT03408873|184380137|OTHER||Mean Difference (Final Values)|-10.7|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between baseline \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with baseline data only 19 had Week 24 data. Statistical Analysis was conducted for 19 participants with data at the 2 timepoints. The mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
92434445|NCT03975790|184755073|SUPERIORITY|||||||0.0541|||||||t-test|||9 months before index date||||0.0541
92434446|NCT03975790|184755073|SUPERIORITY|||||||0.6999|||||||t-test|||9 months before index date||||0.6999
92434447|NCT03975790|184755073|SUPERIORITY|||||||0.359|||||||t-test|||9 months before index date||||0.3590
92434448|NCT03975790|184755073|SUPERIORITY|||||||0.936|||||||t-test|||10 months before index date||||0.9360
92434449|NCT03975790|184755073|SUPERIORITY|||||||0.626|||||||t-test|||10 months before index date||||0.6260
92434450|NCT03975790|184755073|SUPERIORITY|||||||0.7797|||||||t-test|||10 months before index date||||0.7797
92434451|NCT03975790|184755073|SUPERIORITY|||||||0.0934|||||||t-test|||11 months before index date||||0.0934
92434452|NCT03975790|184755073|SUPERIORITY|||||||0.396|||||||t-test|||11 months before index date||||0.3960
92434453|NCT03975790|184755073|SUPERIORITY|||||||0.4292|||||||t-test|||11 months before index date||||0.4292
92434454|NCT03975790|184755073|SUPERIORITY|||||||0.854|||||||t-test|||12 months before index date||||0.8540
92434455|NCT03975790|184755073|SUPERIORITY|||||||0.96|||||||t-test|||12 months before index date||||0.9600
92434456|NCT03975790|184755073|SUPERIORITY|||||||0.9374|||||||t-test|||12 months before index date||||0.9374
92434457|NCT03975790|184755073|SUPERIORITY|||||||0.6674|||||||t-test|||1 month after index date||||0.6674
92434458|NCT03975790|184755073|SUPERIORITY|||||||0.0776|||||||t-test|||1 month after index date||||0.0776
92434459|NCT03975790|184755073|SUPERIORITY|||||||0.335|||||||t-test|||1 month after index date||||0.3350
92434460|NCT03975790|184755073|SUPERIORITY|||||||0.8461|||||||t-test|||2 month after index date||||0.8461
92434461|NCT03975790|184755073|SUPERIORITY|||||||0.8111|||||||t-test|||2 month after index date||||0.8111
92434462|NCT03975790|184755073|SUPERIORITY|||||||0.7267|||||||t-test|||2 month after index date||||0.7267
92434463|NCT03975790|184755073|SUPERIORITY|||||||0.2453|||||||t-test|||3 month after index date||||0.2453
92434464|NCT03975790|184755073|SUPERIORITY|||||||0.5889|||||||t-test|||3 month after index date||||0.5889
92434465|NCT03975790|184755073|SUPERIORITY|||||||0.4162|||||||t-test|||3 month after index date||||0.4162
92279831|NCT00455533|184462903|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.114|||||TWO_SIDED|90.0|-0.258|0.22|||||ixabepilone - paclitaxel|Mem+Cyto/Negative Biomarker Status||0.22|-0.258|
92279832|NCT00455533|184462903|SUPERIORITY_OR_OTHER||DIfference (bootstrap method)|0.009|||||TWO_SIDED|90.0|-0.137|0.155|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Positive Biomarker Status||0.155|-0.137|
92434466|NCT03975790|184755073|SUPERIORITY|||||||0.0307|||||||t-test|||4 month after index date||||0.0307
92434467|NCT03975790|184755073|SUPERIORITY|||||||0.1147|||||||t-test|||4 month after index date||||0.1147
92434468|NCT03975790|184755073|SUPERIORITY|||||||0.9481|||||||t-test|||4 month after index date||||0.9481
92434469|NCT03975790|184755073|SUPERIORITY|||||||0.4455|||||||t-test|||5 month after index date||||0.4455
92434470|NCT03975790|184755073|SUPERIORITY|||||||0.9445|||||||t-test|||5 month after index date||||0.9445
92434471|NCT03975790|184755073|SUPERIORITY|||||||0.6191|||||||t-test|||5 month after index date||||0.6191
92434472|NCT03975790|184755073|SUPERIORITY|||||||0.0805|||||||t-test|||6 month after index date||||0.0805
92434473|NCT03975790|184755073|SUPERIORITY|||||||0.7037|||||||t-test|||6 month after index date||||0.7037
92434474|NCT03975790|184755073|SUPERIORITY|||||||0.4288|||||||t-test|||6 month after index date||||0.4288
92434475|NCT03975790|184755073|SUPERIORITY|||||||0.3731|||||||t-test|||7 month after index date||||0.3731
92434476|NCT03975790|184755073|SUPERIORITY|||||||0.4803|||||||t-test|||7 month after index date||||0.4803
92434477|NCT03975790|184755073|SUPERIORITY|||||||0.5831|||||||t-test|||7 month after index date||||0.5831
92434478|NCT03975790|184755073|SUPERIORITY|||||||0.0944|||||||t-test|||8 month after index date||||0.0944
92434479|NCT03975790|184755073|SUPERIORITY|||||||0.88|||||||t-test|||8 month after index date||||0.8800
92434480|NCT03975790|184755073|SUPERIORITY|||||||0.4949|||||||t-test|||8 month after index date||||0.4949
92434481|NCT03975790|184755073|SUPERIORITY|||||||0.6373|||||||t-test|||9 month after index date||||0.6373
92434482|NCT03975790|184755073|SUPERIORITY|||||||0.0497|||||||t-test|||9 month after index date||||0.0497
92434483|NCT03975790|184755073|SUPERIORITY|||||||0.1695|||||||t-test|||9 month after index date||||0.1695
92434484|NCT03975790|184755073|SUPERIORITY|||||||0.6373|||||||t-test|||10 month after index date||||0.6373
92434485|NCT03975790|184755073|SUPERIORITY|||||||0.7866|||||||t-test|||10 month after index date||||0.7866
92434486|NCT03975790|184755073|SUPERIORITY|||||||0.7643|||||||t-test|||10 months after index date||||0.7643
92434487|NCT03975790|184755073|SUPERIORITY|||||||0.2307|||||||t-test|||11 month after index date||||0.2307
92434488|NCT03975790|184755073|SUPERIORITY|||||||0.6712|||||||t-test|||11 month after index date||||0.6712
92434489|NCT03975790|184755073|SUPERIORITY|||||||0.6953|||||||t-test|||11 months after index date||||0.6953
92434490|NCT03975790|184755073|SUPERIORITY|||||||0.3675|||||||t-test|||12 month after index date||||0.3675
92434491|NCT03975790|184755073|SUPERIORITY|||||||0.8027|||||||t-test|||12 month after index date||||0.8027
92434492|NCT03975790|184755073|SUPERIORITY|||||||0.4817|||||||t-test|||12 month after index date||||0.4817
92434493|NCT03975790|184755074|SUPERIORITY|||||||0.0063|||||||t-test|||1 month before index date||||0.0063
92434494|NCT03975790|184755074|SUPERIORITY|||||||0.0162|||||||t-test|||1 month before index date||||0.0162
92434495|NCT03975790|184755074|SUPERIORITY|||||||0.8715|||||||t-test|||1 month before index date||||0.8715
92434496|NCT03975790|184755074|SUPERIORITY|||||||0.2799|||||||t-test|||2 months before index date||||0.2799
92434497|NCT03975790|184755074|SUPERIORITY|||||||0.0126|||||||t-test|||2 months before index date||||0.0126
92434498|NCT03975790|184755074|SUPERIORITY|||||||0.2126|||||||t-test|||2 months before index date||||0.2126
92434499|NCT03975790|184755074|SUPERIORITY|||||||0.7004|||||||t-test|||3 months before index date||||0.7004
92171058|NCT04452318|184231119|SUPERIORITY||Odds Ratio (OR)|0.47|||=|0.0721|TWO_SIDED|95.0|0.207|1.07|||Regression, Logistic|||||1.070|0.207|= 0.0721
92434500|NCT03975790|184755074|SUPERIORITY|||||||0.1476|||||||t-test|||3 months before index date||||0.1476
92434501|NCT03975790|184755074|SUPERIORITY|||||||0.2057|||||||t-test|||3 months before index date||||0.2057
92434502|NCT03975790|184755074|SUPERIORITY|||||||0.2905|||||||t-test|||4 months before index date||||0.2905
92434503|NCT03975790|184755074|SUPERIORITY|||||||0.8273|||||||t-test|||4 months before index date||||0.8273
92434504|NCT03975790|184755074|SUPERIORITY|||||||0.627|||||||t-test|||4 months before index date||||0.6270
92434505|NCT03975790|184755074|SUPERIORITY|||||||0.3256|||||||t-test|||5 months before index date||||0.3256
92171059|NCT04452318|184231120|SUPERIORITY||||||=|0.026|||||||Stratified Wilcoxon Rank Sum Test|||||||= 0.0260
92434506|NCT03975790|184755074|SUPERIORITY|||||||0.5631|||||||t-test|||5 months before index date||||0.5631
92434507|NCT03975790|184755074|SUPERIORITY|||||||0.4491|||||||t-test|||5 months before index date||||0.4491
92434508|NCT03975790|184755074|SUPERIORITY|||||||0.2009|||||||t-test|||6 months before index date||||0.2009
92434509|NCT03975790|184755074|SUPERIORITY|||||||0.3011|||||||t-test|||6 months before index date||||0.3011
92171060|NCT04452318|184231121|SUPERIORITY||||||=|0.0614|||||||Stratified Wilcoxon Rank Sum Test|||||||= 0.0614
92171061|NCT04452318|184231122|SUPERIORITY||LS mean difference|-1.461|STANDARD_ERROR_OF_MEAN|0.337|<|0.0001|TWO_SIDED|95.0|-2.127|-0.795|||ANCOVA|||||-0.795|-2.127|< 0.0001
92171062|NCT04452318|184231123|SUPERIORITY||LS mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.279|=|0.0026|TWO_SIDED|95.0|-1.4|-0.3|||ANCOVA|||||-0.300|-1.400|= 0.0026
92171063|NCT04452318|184231124|SUPERIORITY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.193|<|0.0001|TWO_SIDED|95.0|-1.321|-0.559|||ANCOVA|||||-0.559|-1.321|< 0.0001
92171064|NCT04452318|184231125|SUPERIORITY||Difference of LS Mean|-26.045|STANDARD_ERROR_OF_MEAN|6.041|<|0.0001|TWO_SIDED|95.0|-37.973|-14.117|||ANCOVA|||||-14.117|-37.973|< 0.0001
92434510|NCT03975790|184755074|SUPERIORITY|||||||0.2065|||||||t-test|||6 months before index date||||0.2065
92434511|NCT03975790|184755074|SUPERIORITY|||||||0.6098|||||||t-test|||7 months before index date||||0.6098
92434512|NCT03975790|184755074|SUPERIORITY|||||||0.2586|||||||t-test|||7 months before index date||||0.2586
92434513|NCT03975790|184755074|SUPERIORITY|||||||0.4074|||||||t-test|||7 months before index date||||0.4074
92434514|NCT03975790|184755074|SUPERIORITY|||||||0.0345|||||||t-test|||8 months before index date||||0.0345
92434515|NCT03975790|184755074|SUPERIORITY|||||||0.4377|||||||t-test|||8 months before index date||||0.4377
92434516|NCT03975790|184755074|SUPERIORITY|||||||0.7191|||||||t-test|||8 months before index date||||0.7191
92434517|NCT03975790|184755074|SUPERIORITY|||||||0.0199|||||||t-test|||9 months before index date||||0.0199
92434518|NCT03975790|184755074|SUPERIORITY|||||||0.1032|||||||t-test|||9 months before index date||||0.1032
92434519|NCT03975790|184755074|SUPERIORITY|||||||0.904|||||||t-test|||9 months before index date||||0.9040
92434520|NCT03975790|184755074|SUPERIORITY|||||||0.0316|||||||t-test|||10 months before index date||||0.0316
92434521|NCT03975790|184755074|SUPERIORITY|||||||0.6748|||||||t-test|||10 months before index date||||0.6748
92434522|NCT03975790|184755074|SUPERIORITY|||||||0.2679|||||||t-test|||10 months before index date||||0.2679
92434523|NCT03975790|184755074|SUPERIORITY|||||||0.501|||||||t-test|||11 months before index date||||0.5010
92434524|NCT03975790|184755074|SUPERIORITY|||||||0.3228|||||||t-test|||11 months before index date||||0.3228
92279833|NCT00455533|184462903|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.058|||||TWO_SIDED|90.0|-0.167|0.053|||||ixabepilone - paclitaxel|Membrane Threshold/Negative Biomarker Status||0.053|-0.167|
92434525|NCT03975790|184755074|SUPERIORITY|||||||0.7881|||||||t-test|||11 months before index date||||0.7881
92434526|NCT03975790|184755074|SUPERIORITY|||||||0.0876|||||||t-test|||12 months before index date||||0.0876
92434527|NCT03975790|184755074|SUPERIORITY|||||||0.1226|||||||t-test|||12 months before index date||||0.1226
92434528|NCT03975790|184755074|SUPERIORITY|||||||0.9753|||||||t-test|||12 months before index date||||0.9753
92434529|NCT03975790|184755074|SUPERIORITY|||||||0.0336|||||||t-test|||1 month after index date||||0.0336
92434530|NCT03975790|184755074|SUPERIORITY|||||||0.2551|||||||t-test|||1 month after index date||||0.2551
92434531|NCT03975790|184755074|SUPERIORITY|||||||0.6189|||||||t-test|||1 month after index date||||0.6189
92434532|NCT03975790|184755074|SUPERIORITY|||||||0.7051|||||||t-test|||2 months after index date||||0.7051
92434533|NCT03975790|184755074|SUPERIORITY|||||||0.9775|||||||t-test|||2 months after index date||||0.9775
92434534|NCT03975790|184755074|SUPERIORITY|||||||0.7643|||||||t-test|||2 months after index date||||0.7643
92434535|NCT03975790|184755074|SUPERIORITY|||||||0.2953|||||||t-test|||3 months after index date||||0.2953
92434536|NCT03975790|184755074|SUPERIORITY|||||||0.6257|||||||t-test|||3 months after index date||||0.6257
92434537|NCT03975790|184755074|SUPERIORITY|||||||0.4753|||||||t-test|||3 months after index date||||0.4753
92434538|NCT03975790|184755074|SUPERIORITY|||||||0.0926|||||||t-test|||4 months after index date||||0.0926
92434539|NCT03975790|184755074|SUPERIORITY|||||||0.0013|||||||t-test|||4 months after index date||||0.0013
92434540|NCT03975790|184755074|SUPERIORITY|||||||0.0065|||||||t-test|||4 months after index date||||0.0065
92434541|NCT03975790|184755074|SUPERIORITY|||||||0.2212|||||||t-test|||5 months after index date||||0.2212
92434542|NCT03975790|184755074|SUPERIORITY|||||||0.9688|||||||t-test|||5 months after index date||||0.9688
92434543|NCT03975790|184755074|SUPERIORITY|||||||0.5647|||||||t-test|||5 months after index date||||0.5647
92434544|NCT03975790|184755074|SUPERIORITY|||||||0.0023|||||||t-test|||6 months after index date||||0.0023
92434545|NCT03975790|184755074|SUPERIORITY|||||||0.1142|||||||t-test|||6 months after index date||||0.1142
92279834|NCT00455533|184462903|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|0.049|||||TWO_SIDED|90.0|-0.227|0.309|||||ixabepilone - paclitaxel|Membrane Threshold/Positive Biomarker Status||0.309|-0.227|
92279835|NCT00455533|184462904|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.29|||||TWO_SIDED|90.0|-0.482|-0.094|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Negative Biomarker Status||-0.094|-0.482|
92279836|NCT00455533|184462904|SUPERIORITY_OR_OTHER||Difference (boostrap method)|0.106|||||TWO_SIDED|90.0|-0.073|0.291|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Positive Biomarker Status||0.291|-0.073|
92279837|NCT00455533|184462904|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.09|||||TWO_SIDED|90.0|-0.236|0.067|||||ixabepilone - paclitaxel|Membrane Threshold/Negative Biomarker Status||0.067|-0.236|
92434546|NCT03975790|184755074|SUPERIORITY|||||||0.3842|||||||t-test|||6 months after index date||||0.3842
92434547|NCT03975790|184755074|SUPERIORITY|||||||0.9097|||||||t-test|||7 months after index date||||0.9097
92434548|NCT03975790|184755074|SUPERIORITY|||||||0.3885|||||||t-test|||7 months after index date||||0.3885
92434549|NCT03975790|184755074|SUPERIORITY|||||||0.3834|||||||t-test|||7 months after index date||||0.3834
92434550|NCT03975790|184755074|SUPERIORITY|||||||0.3075|||||||t-test|||8 months after index date||||0.3075
92434551|NCT03975790|184755074|SUPERIORITY|||||||0.9075|||||||t-test|||8 months after index date||||0.9075
92434552|NCT03975790|184755074|SUPERIORITY|||||||0.5993|||||||t-test|||8 months after index date||||0.5993
92434553|NCT03975790|184755074|SUPERIORITY|||||||0.0775|||||||t-test|||9 months after index date||||0.0775
92434554|NCT03975790|184755074|SUPERIORITY|||||||0.1536|||||||t-test|||9 months after index date||||0.1536
92434555|NCT03975790|184755074|SUPERIORITY|||||||0.8553|||||||t-test|||9 months after index date||||0.8553
92434556|NCT03975790|184755074|SUPERIORITY|||||||0.6295|||||||t-test|||10 months after index date||||0.6295
92434557|NCT03975790|184755074|SUPERIORITY|||||||0.0551|||||||t-test|||10 months after index date||||0.0551
92434558|NCT03975790|184755074|SUPERIORITY|||||||0.2215|||||||t-test|||10 months after index date||||0.2215
92434559|NCT03975790|184755074|SUPERIORITY|||||||0.1948|||||||t-test|||11 months after index date||||0.1948
92434560|NCT03975790|184755074|SUPERIORITY|||||||0.6621|||||||t-test|||11 months after index date||||0.6621
92434561|NCT03975790|184755074|SUPERIORITY|||||||0.6629|||||||t-test|||11 months after index date||||0.6629
92434562|NCT03975790|184755074|SUPERIORITY|||||||0.5699|||||||t-test|||12 months after index date||||0.5699
92434563|NCT03975790|184755074|SUPERIORITY|||||||0.7105|||||||t-test|||12 months after index date||||0.7105
92434564|NCT03975790|184755074|SUPERIORITY|||||||0.5965|||||||t-test|||12 months after index date||||0.5965
92434565|NCT03232801|184755075|SUPERIORITY||chi-squared|4.86||||0.027|TWO_SIDED||||||Chi-squared|||||||0.027
92434566|NCT03232801|184755076|SUPERIORITY||chi-squared|0.45||||0.503|TWO_SIDED||||||Chi-squared|||||||0.503
92434567|NCT01577329|184755115|SUPERIORITY_OR_OTHER|||||||0.05||||||This is a calculated P value and was not adjusted for multiple comparisons.|ANOVA|||This is a calculated P value comparing two groups at baseline and follow-up||||0.05
92434568|NCT01059825|184755123|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.45||||0.002|TWO_SIDED|80.0|-0.65|-0.25||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||The null hypothesis is that there is no difference between ertugliflozin and placebo on the primary endpoint.||-0.25|-0.65|0.002
92434569|NCT01059825|184755123|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.69||||0|TWO_SIDED|80.0|-0.89|-0.49||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||The null hypothesis is that there is no difference between ertugliflozin and placebo on the primary endpoint.||-0.49|-0.89|0.000
92434570|NCT01059825|184755123|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.62||||0|TWO_SIDED|80.0|-0.82|-0.42||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||The null hypothesis is that there is no difference between ertugliflozin and placebo on the primary endpoint.||-0.42|-0.82|0.000
92237975|NCT03408873|184380138|OTHER||Mean Difference (Final Values)|-8.4|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 19 had Week 24 data. Statistical Analysis was conducted for 19 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
92434571|NCT01059825|184755123|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.72||||0|TWO_SIDED|80.0|-0.93|-0.52||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||The null hypothesis is that there is no difference between ertugliflozin and placebo on the primary endpoint.||-0.52|-0.93|0.000
92434572|NCT01059825|184755123|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.76||||0|TWO_SIDED|80.0|-0.97|-0.56||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.56|-0.97|0.000
92434573|NCT01059825|184755124|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.13||||0.049|TWO_SIDED|80.0|-0.24|-0.03||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.03|-0.24|0.049
92434574|NCT01059825|184755124|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.29||||0|TWO_SIDED|80.0|-0.39|-0.18||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.18|-0.39|0.000
92434575|NCT01059825|184755124|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.22||||0.004|TWO_SIDED|80.0|-0.32|-0.11||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.11|-0.32|0.004
92434576|NCT01059825|184755124|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.17||||0.02|TWO_SIDED|80.0|-0.27|-0.06||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.06|-0.27|0.020
92434577|NCT01059825|184755124|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.25||||0.001|TWO_SIDED|80.0|-0.36|-0.15||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.15|-0.36|0.001
92434578|NCT01059825|184755125|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.37||||0|TWO_SIDED|80.0|-0.5|-0.23||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.23|-0.50|0.000
92434579|NCT01059825|184755125|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.45||||0|TWO_SIDED|80.0|-0.59|-0.32||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.32|-0.59|0.000
92434580|NCT01059825|184755125|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.44||||0|TWO_SIDED|80.0|-0.57|-0.3||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.30|-0.57|0.000
92434581|NCT01059825|184755125|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.36||||0|TWO_SIDED|80.0|-0.49|-0.22||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.22|-0.49|0.000
92434582|NCT01059825|184755125|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.44||||0|TWO_SIDED|80.0|-0.57|-0.3||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.30|-0.57|0.000
92434583|NCT01059825|184755126|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.47||||0|TWO_SIDED|80.0|-0.64|-0.3||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.30|-0.64|0.000
92434584|NCT01059825|184755126|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.66||||0|TWO_SIDED|80.0|-0.83|-0.49||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.49|-0.83|0.000
92434585|NCT01059825|184755126|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.63||||0|TWO_SIDED|80.0|-0.8|-0.45||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.45|-0.80|0.000
92434586|NCT01059825|184755126|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.65||||0|TWO_SIDED|80.0|-0.82|-0.47||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.47|-0.82|0.000
92434587|NCT01059825|184755126|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.67||||0|TWO_SIDED|80.0|-0.84|-0.5||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.50|-0.84|0.000
92434588|NCT01059825|184755128|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.15||||0.007|TWO_SIDED|80.0|-1.75|-0.55||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.55|-1.75|0.007
92434589|NCT01059825|184755128|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.75||||0|TWO_SIDED|80.0|-2.35|-1.14||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.14|-2.35|0.000
92279838|NCT00455533|184462904|SUPERIORITY_OR_OTHER||Difference (bootsrap method)|0.117|||||TWO_SIDED|90.0|-0.218|0.469|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Positive Biomarker Status||0.469|-0.218|
92171065|NCT04452318|184231126|SUPERIORITY||Difference of LS Mean|-1.395|STANDARD_ERROR_OF_MEAN|0.338|<|0.0001|TWO_SIDED|95.0|-2.063|-0.727|||ANCOVA|||||-0.727|-2.063|< 0.0001
92434590|NCT01059825|184755128|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.15||||0|TWO_SIDED|80.0|-2.76|-1.54||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.54|-2.76|0.000
92434591|NCT01059825|184755128|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.91||||0|TWO_SIDED|80.0|-2.52|-1.3||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.30|-2.52|0.000
92434592|NCT01059825|184755128|SUPERIORITY_OR_OTHER||Difference in least squares means|0.45||||0.833|TWO_SIDED|80.0|-0.15|1.06||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.06|-0.15|0.833
92434593|NCT01059825|184755129|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.42||||0.043|TWO_SIDED|80.0|-0.73|-0.11||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.11|-0.73|0.043
92434594|NCT01059825|184755129|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.13||||0|TWO_SIDED|80.0|-1.44|-0.81||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.81|-1.44|0.000
92434595|NCT01059825|184755129|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.9||||0|TWO_SIDED|80.0|-1.22|-0.59||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.59|-1.22|0.000
92434596|NCT01059825|184755129|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.87||||0|TWO_SIDED|80.0|-1.18|-0.55||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.55|-1.18|0.000
92434597|NCT01059825|184755129|SUPERIORITY_OR_OTHER||Difference in least squares means|0.45||||0.967|TWO_SIDED|80.0|0.14|0.76||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.76|0.14|0.967
92434598|NCT01059825|184755130|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.76||||0.008|TWO_SIDED|80.0|-1.17|-0.36||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.36|-1.17|0.008
92434599|NCT01059825|184755130|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.32||||0|TWO_SIDED|80.0|-1.73|-0.91||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.91|-1.73|0.000
92171066|NCT04452318|184231127|SUPERIORITY||||||=|0.0138|||||||Stratified Wilcoxon Rank Sum Test|||||||= 0.0138
92434600|NCT01059825|184755130|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.24||||0|TWO_SIDED|80.0|-1.65|-0.83||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.83|-1.65|0.000
92434601|NCT01059825|184755130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|-1.08||||0|TWO_SIDED|80.0|-1.49|-0.67||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward..||||-0.67|-1.49|0.000
92434602|NCT01059825|184755130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.45||||0.922|TWO_SIDED|80.0|0.04|0.86||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.86|0.04|0.922
92171067|NCT04452318|184231128|OTHER||||||=|0.0292|||||||Fisher Exact|||Testing if there is an association between the observed results and treatment received||||= 0.0292
92171068|NCT04452318|184231129|OTHER||||||=|0.2466|||||||Fisher Exact|||Testing if there is an association between the observed results and treatment received||||= 0.2466
92171069|NCT04452318|184231130|SUPERIORITY||||||=|0.7861|||||||Stratified Wilcoxon Rank Sum test|||||||= 0.7861
92171070|NCT04452318|184231131|SUPERIORITY||||||=|0.0842|||||||Stratified Wilcoxon Rank Sum test|||||||= 0.0842
92279839|NCT03482713|184462940|OTHER||Difference in least squares means|0.79|||||TWO_SIDED|95.0|-0.34|1.93|||||Based on an ANCOVA model with terms for treatment, gender and the log-transformed baseline.|||1.93|-0.34|
92171071|NCT06647238|184231147|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92171072|NCT02272816|184231176|OTHER||Percentage|95.6|||||ONE_SIDED|95.0||98.6||||||||98.6||
92171073|NCT02272816|184231177|OTHER||Percentage|45.0|||||TWO_SIDED|95.0|30.2|59.9||||||||59.9|30.2|
92279840|NCT03482713|184462941|OTHER||Difference least squares mean|0.76|||||TWO_SIDED|95.0|-0.35|1.88|||||Based on an ANCOVA model with terms for treatment, gender and the log-transformed baseline.|||1.88|-0.35|
92279841|NCT03626857|184462950|SUPERIORITY|||||||0.025|||||||Mixed Models Analysis|||||||.025
92171074|NCT02272816|184231178|OTHER||Percentage|100.0|||||TWO_SIDED|95.0|92.6|100.0||||||||100|92.6|
92279842|NCT03626857|184462951|SUPERIORITY|||||||0.025|||||||Mixed Models Analysis|||||||0.025
92171075|NCT04154384|184231181|SUPERIORITY|A comparison of the proportion of participants in each arm reporting an improvement in average pain score on the Numeric Rating Scale from baseline to 3 months follow-up.||||||0.035||||||A comparison of the proportion of participants in each arm reporting an improvement in average pain score on the Numeric Rating Scale from baseline to 12 weeks follow-up.|Chi-squared|||||||0.035
92171897|NCT03743636|184233367|SUPERIORITY||Mean Difference (Final Values)|-35.13||||0.8401|ONE_SIDED|90.0|-81.2||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-81.20|0.8401
92279843|NCT01739790|184462978|OTHER|||||||0.45|||||||Fisher Exact|||||||0.45
92279844|NCT02192905|184462989|OTHER|One-sample t-test testing the mean positive problem solving change from baseline to week 8.|Mean Difference (Final Values)|-0.64|STANDARD_DEVIATION|8.31||0.63|TWO_SIDED|95.0|-3.34|2.05|||t-test, 2 sided|||||2.05|-3.34|.63
92279845|NCT02192905|184462990|OTHER|One-sample t-test testing the mean within-person percent weight change from baseline to week 8.|Mean Difference (Final Values)|-0.019|STANDARD_DEVIATION|0.03|<|0.001|TWO_SIDED|95.0|-0.0285|-0.0096|||t-test, 2 sided|||||-.0096|-.0285|<0.001
92279846|NCT02192905|184462991|OTHER|One-sample t-test testing the mean within-person percent weight change from baseline to week 16.|Mean Difference (Final Values)|-0.017|STANDARD_DEVIATION|0.011||0.143|TWO_SIDED|95.0|-0.039|0.006|||t-test, 2 sided|||||.006|-.039|0.143
92279847|NCT02192905|184462992|OTHER|One-sample t-test testing the mean positive problem solving change from baseline to week 16.|Mean Difference (Final Values)|-0.76|STANDARD_DEVIATION|13.07||0.73|TWO_SIDED|95.0|-5.11|3.6|||t-test, 2 sided|||||3.6|-5.11|.73
92279848|NCT00862979|184463026|SUPERIORITY||Mean Difference (Net)|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.5|-6.1|||ANCOVA|||||-6.1|-16.5|<.0001
92279849|NCT00862979|184463027|OTHER|difference||||||0.203|||||||Fisher Exact|||Month 6 to Month 9||||0.203
92279850|NCT00862979|184463027|OTHER|difference||||||0.002|||||||Fisher Exact|||Month 9 to Month 18||||0.002
92171076|NCT02891915|184231277|SUPERIORITY|DOOR is a composite endpoint created using clinical outcomes from the first 5 days and at Outcome Assessment Visit #1 (OAV #1). It is based on adequate clinical response at OAV #1, solicited symptoms from first 5 days and number of days of antibiotics use for worsening pneumonia from the first 5 days of the study.|Pr (Higher DOOR in Short-Course)|0.69|||<|0.001|TWO_SIDED|95.0|0.63|0.75||Missing DOOR values at OAV #1 were first imputed using linear regression using baseline covariates and available DOOR components as covariates.|Wilcoxon (Mann-Whitney)|The Mann-Whitney test was run on the multiple imputed datasets to generate estimates of DOOR probability and p-value||Null: the sum of the probability that a subject assigned to the 5-day arm will have a higher DOOR (higher DOOR is a lower value and is superior) than if assigned to the 10-day arm plus one-half the probability of equal DOORs is 50% (i.e., no difference in DOOR).||0.75|0.63|<0.001
92171077|NCT02891915|184231278|SUPERIORITY|Testing whether Short course is superior to Standard course based on DOOR at OAV #2|Pr (Higher DOOR in Short-Course)|0.63|||<|0.001|TWO_SIDED|95.0|0.57|0.69||Missing DOOR values at OAV #2 were first imputed using linear regression using baseline covariates and available DOOR components as covariates|Wilcoxon (Mann-Whitney)|The Mann-Whitney test was run on the multiple imputed datasets to generate estimates of DOOR probability and p-value.||Null: the sum of the probability that a subject assigned to the 5-day arm will have a higher DOOR (higher DOOR is a lower numerical value and is superior) than if assigned to the 10-day arm plus one-half the probability of equal DOORs is 50% (i.e., no difference in DOOR).||0.69|0.57|<0.001
92171078|NCT04048382|184231289|SUPERIORITY||Odds Ratio (OR)|1.1||||0.88|TWO_SIDED||||||Regression, Logistic|||||||.88
92171079|NCT04048382|184231290|SUPERIORITY||Odds Ratio (OR)|1.7||||0.49|TWO_SIDED||||||Regression, Logistic|||||||.49
92171080|NCT04048382|184231291|SUPERIORITY||Odds Ratio (OR)|1.1||||0.91|TWO_SIDED||||||Regression, Logistic|||||||.91
92171081|NCT04048382|184231292|SUPERIORITY||Odds Ratio (OR)|1.4||||0.65|TWO_SIDED||||||Regression, Logistic|||||||.65
92434603|NCT01059825|184755131|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.03||||0.003|TWO_SIDED|80.0|-1.51|-0.56||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.56|-1.51|0.003
92434604|NCT01059825|184755131|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.57||||0|TWO_SIDED|80.0|-2.04|-1.09||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.09|-2.04|0.000
92171082|NCT04048382|184231293|SUPERIORITY||Odds Ratio (OR)|0.29||||0.17|TWO_SIDED||||||Regression, Logistic|||||||.17
92171083|NCT04048382|184231294|SUPERIORITY||Odds Ratio (OR)|0.29||||0.19|TWO_SIDED||||||Regression, Logistic|||||||.19
92279851|NCT00862979|184463029|SUPERIORITY||Mean Difference (Final Values)|-14.0|||<|0.0001|TWO_SIDED|95.0|-19.6|-8.3|||ANCOVA|||Month 12||-8.3|-19.6|<.0001
92279852|NCT00862979|184463029|SUPERIORITY||Mean Difference (Final Values)|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.5|-6.1|||ANCOVA|||Month 18||-6.1|-16.5|<.0001
92434605|NCT01059825|184755131|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.68||||0|TWO_SIDED|80.0|-2.16|-1.21||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.21|-2.16|0.000
92171084|NCT02119650|184231323|OTHER||Hazard Ratio (HR)|0.877||||0.7562|TWO_SIDED|80.0|0.509|1.51|||Log Rank|The 2-sided p-value was calculated based on the log-rank test and stratified by modified Glasgow Prognostic Score (mGPS).||||1.51|0.509|0.7562
92171085|NCT02269475|184231338|SUPERIORITY_OR_OTHER||Vaccine efficacy (%)|100.0|||||TWO_SIDED|95.0|-1875.3|100.0||"No statistical tests were used, instead the confidence interval was used for showing superiority.~If lower bound of the 95% CI is greater than 0%, the efficacy of MEDI3250 is demonstrated."|Exact conditional method|Estimated by an exact conditional method in total number of cases which follows a Poisson assumption.|Vaccine efficacy (%) = (1-RR)\*100 where RR = Risk Reduction.|||100.0|-1875.3|
92171086|NCT02269475|184231339|SUPERIORITY_OR_OTHER||Vaccine efficacy (%)|27.5|||||TWO_SIDED|95.0|7.4|43.0||"No statistical tests were used, instead the confidence interval was used for showing superiority.~If lower bound of the 95% CI is greater than 0%, the efficacy of MEDI3250 is demonstrated."|Exact conditional method|Estimated by an exact conditional method in total number of cases which follows a Poisson assumption.|Vaccine efficacy (%) = (1-RR)\*100 where RR = Risk Reduction.|||43.0|7.4|
92171087|NCT02730871|184231341|SUPERIORITY||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|0.342|<|0.001|TWO_SIDED|95.0|-2.8|-1.5|||ANCOVA|||||-1.5|-2.8|<0.001
92171088|NCT02730871|184231342|OTHER||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|0.342|<|0.001|TWO_SIDED|95.0|-2.8|-1.5|||ANCOVA|||||-1.5|-2.8|<0.001
92171089|NCT02730871|184231343|OTHER||Mean Difference (Final Values)|-9.98|STANDARD_ERROR_OF_MEAN|1.572|<|0.001|TWO_SIDED|95.0|-13.1|-6.9|||ANCOVA|||||-6.9|-13.1|<0.001
92171090|NCT02730871|184231344|OTHER||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.576||0.022|TWO_SIDED|95.0|-2.5|-0.2|||Repeated measures model|||Change from Baseline in IOP at 9:00||-0.2|-2.5|0.022
92434606|NCT01059825|184755131|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.78||||0|TWO_SIDED|80.0|-2.26|-1.3||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.30|-2.26|0.000
92434607|NCT01059825|184755131|SUPERIORITY_OR_OTHER||Difference in least squares means|0.24||||0.741|TWO_SIDED|80.0|-0.24|0.71||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.71|-0.24|0.741
92171091|NCT02730871|184231344|OTHER||Mean Difference (Final Values)|-2.85|STANDARD_ERROR_OF_MEAN|0.506|<|0.001|TWO_SIDED|95.0|-3.9|-1.9|||Repeated measures model|||Change from Baseline in IOP at 11:00||-1.9|-3.9|<0.001
92279853|NCT00862979|184463031|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92279854|NCT01027143|184463048|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
92434608|NCT01059825|184755133|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.13||||0.163|TWO_SIDED|80.0|-4.92|0.65||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.65|-4.92|0.163
92434609|NCT01059825|184755133|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.48||||0.056|TWO_SIDED|80.0|-6.28|-0.68||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.68|-6.28|0.056
92171092|NCT02730871|184231345|OTHER||Mean Difference (Final Values)|-6.15|STANDARD_ERROR_OF_MEAN|2.567||0.018|TWO_SIDED|95.0|-11.2|-1.1|||Repeated measures model|||Percentage Change from Baseline in IOP at 09:00||-1.1|-11.2|0.018
92171093|NCT02730871|184231345|OTHER||Mean Difference (Final Values)|-13.21|STANDARD_ERROR_OF_MEAN|2.34|<|0.001|TWO_SIDED|95.0|-17.8|-8.6|||Repeated measures model|||Percentage Change from Baseline in IOP at 11:00||-8.6|-17.8|<0.001
92171094|NCT05368558|184231347|SUPERIORITY||Mean Difference (Final Values)|9.6|||||TWO_SIDED|95.0|-4.0|23.1||||||||23.1|-4.0|
92434610|NCT01059825|184755133|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.88||||0.096|TWO_SIDED|80.0|-5.7|-0.05||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.05|-5.70|0.096
92434611|NCT01059825|184755133|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.37||||0.064|TWO_SIDED|80.0|-6.21|-0.53||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.53|-6.21|0.064
92434612|NCT01059825|184755133|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.54||||0.403|TWO_SIDED|80.0|-3.33|2.26||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||2.26|-3.33|0.403
92434613|NCT01059825|184755134|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.37||||0.425|TWO_SIDED|80.0|-2.91|2.17||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||2.17|-2.91|0.425
92434614|NCT01059825|184755134|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.81||||0.082|TWO_SIDED|80.0|-5.38|-0.23||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.23|-5.38|0.082
92434615|NCT01059825|184755134|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.35||||0.43|TWO_SIDED|80.0|-2.92|2.21||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||2.21|-2.92|0.430
92171095|NCT05368558|184231347|SUPERIORITY||Mean Difference (Final Values)|-15.0|||||TWO_SIDED|95.0|-28.7|-1.4||||||||-1.4|-28.7|
92434616|NCT01059825|184755134|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.47||||0.043|TWO_SIDED|80.0|-6.05|-0.89||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.89|-6.05|0.043
92434617|NCT01059825|184755134|SUPERIORITY_OR_OTHER||Difference in least squares means|1.01||||0.694|TWO_SIDED|80.0|-1.55|3.58||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||3.58|-1.55|0.694
92434618|NCT01059825|184755135|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.38||||0.234|TWO_SIDED|80.0|-3.81|1.05||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.05|-3.81|0.234
92434619|NCT01059825|184755135|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.59||||0.087|TWO_SIDED|80.0|-5.03|-0.14||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.14|-5.03|0.087
92434620|NCT01059825|184755135|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.86||||0.068|TWO_SIDED|80.0|-5.33|-0.4||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.40|-5.33|0.068
92434621|NCT01059825|184755135|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.77||||0.346|TWO_SIDED|80.0|-3.25|1.71||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.71|-3.25|0.346
92434622|NCT01059825|184755135|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.76||||0.346|TWO_SIDED|80.0|-3.21|1.7||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.70|-3.21|0.346
92434623|NCT01059825|184755136|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.1||||0.306|TWO_SIDED|80.0|-3.87|1.67||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.67|-3.87|0.306
92434624|NCT01059825|184755136|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.41||||0.133|TWO_SIDED|80.0|-5.19|0.37||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.37|-5.19|0.133
92434625|NCT01059825|184755136|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.61||||0.117|TWO_SIDED|80.0|-5.42|0.2||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.20|-5.42|0.117
92434626|NCT01059825|184755136|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.87||||0.097|TWO_SIDED|80.0|-5.69|-0.04||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.04|-5.69|0.097
92171096|NCT05368558|184231348|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.7|1.2||||||||1.2|-0.7|
92171097|NCT05368558|184231348|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.7|0.3||||||||0.3|-1.7|
92171098|NCT05368558|184231349|SUPERIORITY||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-2.5|7.5||||||||7.5|-2.5|
92171099|NCT05368558|184231349|SUPERIORITY||Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-8.0|0.0||||||||0.0|-8.0|
92171100|NCT05368558|184231350|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-8.9|9.7||||||||9.7|-8.9|
92171101|NCT05368558|184231350|SUPERIORITY||Mean Difference (Final Values)|-11.3|||||TWO_SIDED|95.0|-18.5|-4.1||||||||-4.1|-18.5|
92171102|NCT05368558|184231351|SUPERIORITY||Mean Difference (Final Values)|3.3|||||TWO_SIDED|95.0|-1.0|7.5||||||||7.5|-1.0|
92171103|NCT05368558|184231351|SUPERIORITY||Mean Difference (Final Values)|-4.6|||||TWO_SIDED|95.0|-8.9|-0.4||||||||-0.4|-8.9|
92171104|NCT05368558|184231352|SUPERIORITY||Mean Difference (Final Values)|3.4|||||TWO_SIDED|95.0|-0.9|7.7||||||||7.7|-0.9|
92171105|NCT05368558|184231352|SUPERIORITY||Mean Difference (Final Values)|-5.3|||||TWO_SIDED|95.0|-10.2|-0.3||||||||-0.3|-10.2|
92434627|NCT01059825|184755136|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.0||||0.179|TWO_SIDED|80.0|-4.78|0.79||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.79|-4.78|0.179
92434628|NCT01059825|184755138|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.93||||0.072|TWO_SIDED|80.0|-3.62|-0.24||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.24|-3.62|0.072
92434629|NCT01059825|184755138|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.81||||0.086|TWO_SIDED|80.0|-3.51|-0.11||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.11|-3.51|0.086
92434630|NCT01059825|184755138|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.99||||0.002|TWO_SIDED|80.0|-5.71|-2.27||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-2.27|-5.71|0.002
92171106|NCT01303445|184231359|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|92.03||||||90.0|86.95|97.4||||||Comparison of Aggrenox + Omeprazole following Omeprazole versus Aggrenox alone||97.40|86.95|
92434631|NCT01059825|184755138|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.64||||0.025|TWO_SIDED|80.0|-4.37|-0.92||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.92|-4.37|0.025
92171107|NCT01303445|184231359|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|92.3||||||90.0|87.76|97.08||||||Comparison of Aggrenox + Omeprazole following Aggrenox versus Aggrenox alone||97.08|87.76|
92279855|NCT01095003|184463063|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0426|TWO_SIDED|95.0|0.71|0.99|||Log Rank|||The final analysis of progression free survival was conducted once the required number of events(615 progressions or deaths) was reached.using the IRC assessment of date of progressions following the blinded radiological and clinical review of data. Kaplan-Meier curves and life tables by treatment arm were provided.A stratified Cox proportional model was used to compare the two treatment arms||0.99|0.71|0.0426
92434632|NCT01059825|184755138|SUPERIORITY_OR_OTHER||Difference in least squares means|0.88||||0.746|TWO_SIDED|80.0|-0.82|2.58||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||2.58|-0.82|0.746
92434633|NCT01059825|184755139|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.69||||0.289|TWO_SIDED|80.0|-2.27|0.9||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.90|-2.27|0.289
92434634|NCT01059825|184755139|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.7||||0.288|TWO_SIDED|80.0|-2.31|0.91||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.91|-2.31|0.288
92434635|NCT01059825|184755139|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.41||||0.13|TWO_SIDED|80.0|-3.01|0.19||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.19|-3.01|0.130
92434636|NCT01059825|184755139|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.44||||0.026|TWO_SIDED|80.0|-4.05|-0.84||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.84|-4.05|0.026
92434637|NCT01059825|184755139|SUPERIORITY_OR_OTHER||Difference in least squares means|1.49||||0.883|TWO_SIDED|80.0|-0.11|3.08||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||3.08|-0.11|0.883
92434638|NCT01059825|184755140|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.67||||0.063|TWO_SIDED|80.0|-3.07|-0.27||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.27|-3.07|0.063
92434639|NCT01059825|184755140|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.29||||0.019|TWO_SIDED|80.0|-3.69|-0.88||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.88|-3.69|0.019
92434640|NCT01059825|184755140|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.01||||0.035|TWO_SIDED|80.0|-3.43|-0.59||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.59|-3.43|0.035
92434641|NCT01059825|184755140|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.3||||0.121|TWO_SIDED|80.0|-2.73|0.12||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.12|-2.73|0.121
92434642|NCT01059825|184755140|SUPERIORITY_OR_OTHER||Difference in least squares means|0.29||||0.602|TWO_SIDED|80.0|-1.13|1.7||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.70|-1.13|0.602
92434643|NCT01059825|184755141|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.2||||0.045|TWO_SIDED|80.0|-3.86|-0.54||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.54|-3.86|0.045
92279856|NCT01095003|184463064|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.7657|TWO_SIDED|95.0|0.83|1.15|||Log Rank|||||1.15|0.83|0.7657
92434644|NCT01059825|184755141|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.49||||0.126|TWO_SIDED|80.0|-3.16|0.18||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.18|-3.16|0.126
92434645|NCT01059825|184755141|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.03||||0.011|TWO_SIDED|80.0|-4.72|-1.34||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.34|-4.72|0.011
92434646|NCT01059825|184755141|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.99||||0.066|TWO_SIDED|80.0|-3.69|-0.3||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.30|-3.69|0.066
92434647|NCT01059825|184755141|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.48||||0.357|TWO_SIDED|80.0|-2.15|1.19||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.19|-2.15|0.357
92434648|NCT01059825|184755143|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.99||||0|TWO_SIDED|80.0|-28.29|-13.69||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-13.69|-28.29|0.000
92434649|NCT01059825|184755143|SUPERIORITY_OR_OTHER||Difference in least squares means|-25.82||||0|TWO_SIDED|80.0|-33.17|-18.47||P-value is one-sided.P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-18.47|-33.17|0.000
92434650|NCT01059825|184755143|SUPERIORITY_OR_OTHER||Difference in least squares means|-34.23||||0|TWO_SIDED|80.0|-41.64|-26.83||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-26.83|-41.64|0.000
92434651|NCT01059825|184755143|SUPERIORITY_OR_OTHER||Difference in least squares means|-32.02||||0|TWO_SIDED|80.0|-39.49|-24.56||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-24.56|-39.49|0.000
92434652|NCT01059825|184755143|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.05||||0|TWO_SIDED|80.0|-27.39|-12.72||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-12.72|-27.39|0.000
92434653|NCT01059825|184755144|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.96||||0|TWO_SIDED|80.0|-28.58|-13.34||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-13.34|-28.58|0.000
92434654|NCT01059825|184755144|SUPERIORITY_OR_OTHER||Difference in least squares means|-21.57||||0|TWO_SIDED|80.0|-29.27|-13.86||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-13.86|-29.27|0.000
92434655|NCT01059825|184755144|SUPERIORITY_OR_OTHER||Difference in least squares means|-32.54||||0|TWO_SIDED|80.0|-40.2|-24.88||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-24.88|-40.20|0.000
92434656|NCT01059825|184755144|SUPERIORITY_OR_OTHER||Difference in least squares means|-22.33||||0|TWO_SIDED|80.0|-30.05|-14.61||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-14.61|-30.05|0.000
92434657|NCT01059825|184755144|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.57||||0|TWO_SIDED|80.0|-28.19|-12.96||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-12.96|-28.19|0.000
92434658|NCT01059825|184755145|SUPERIORITY_OR_OTHER||Difference in least squares means|-22.09||||0|TWO_SIDED|80.0|-29.16|-15.01||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-15.01|-29.16|0.000
92279857|NCT01095003|184463065|SUPERIORITY|||||||0.103|||||||Cochran-Mantel-Haenszel|||||||0.103
92279858|NCT01095003|184463066|SUPERIORITY|||||||0.0089|||||||Cochran-Mantel-Haenszel|||||||0.0089
92279859|NCT02637557|184463068|SUPERIORITY||LS Mean Difference|-2.952||||0.6065|TWO_SIDED|95.0|-14.222|8.318||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||8.318|-14.222|0.6065
92171108|NCT01303445|184231360|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|96.38||||||90.0|90.96|102.13||||||Comparison of Aggrenox + Omeprazole following Omeprazole versus Aggrenox alone||102.13|90.96|
92279860|NCT02637557|184463068|SUPERIORITY||LS Mean Difference|-9.036||||0.116|TWO_SIDED|95.0|-20.318|2.245||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||2.245|-20.318|0.1160
92171109|NCT01303445|184231360|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|97.03||||||95.0|93.26|100.95||||||Comparison of Aggrenox + Omeprazole following Aggrenox versus Aggrenox alone||100.95|93.26|
92279861|NCT02637557|184463068|SUPERIORITY||LS Mean Difference|-11.943||||0.04|TWO_SIDED|95.0|-23.334|-0.551||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||-0.551|-23.334|0.0400
92434659|NCT01059825|184755145|SUPERIORITY_OR_OTHER||Difference in least squares means|-27.94||||0|TWO_SIDED|80.0|-35.06|-20.83||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-20.83|-35.06|0.000
92434660|NCT01059825|184755145|SUPERIORITY_OR_OTHER||Difference in least squares means|-33.12||||0|TWO_SIDED|80.0|-40.29|-25.95||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-25.95|-40.29|0.000
92434661|NCT01059825|184755145|SUPERIORITY_OR_OTHER||Difference in least squares means|-31.79||||0|TWO_SIDED|80.0|-39.02|-24.56||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-24.56|-39.02|0.000
92434662|NCT01059825|184755145|SUPERIORITY_OR_OTHER||Difference in least squares means|-23.17||||0|TWO_SIDED|80.0|-30.28|-16.07||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-16.07|-30.28|0.000
92434663|NCT01059825|184755146|SUPERIORITY_OR_OTHER||Difference in least squares means|-22.07||||0|TWO_SIDED|80.0|-28.87|-15.27||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-15.27|-28.87|0.000
92434664|NCT01059825|184755146|SUPERIORITY_OR_OTHER||Difference in least squares means|-28.51||||0|TWO_SIDED|80.0|-35.35|-21.67||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-21.67|-35.35|0.000
92434665|NCT01059825|184755146|SUPERIORITY_OR_OTHER||Difference in least squares means|-35.4||||0|TWO_SIDED|80.0|-42.3|-28.51||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-28.51|-42.30|0.000
92434666|NCT01059825|184755146|SUPERIORITY_OR_OTHER||Difference in least squares means|-34.81||||0|TWO_SIDED|80.0|-41.76|-27.86||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-27.86|-41.76|0.000
92434667|NCT01059825|184755146|SUPERIORITY_OR_OTHER||Difference in least squares means|-22.75||||0|TWO_SIDED|80.0|-29.58|-15.92||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-15.92|-29.58|0.000
92434668|NCT00106392|184755154|SUPERIORITY_OR_OTHER|||||||0.111||95.0||||P-Values were not adjusted.|Wilcoxon (Mann-Whitney)|||A group sequential design using the O'Brien and Fleming stopping rule will require 58 evaluable patients per group to detect a 5-point difference in the Erectile Function domain of the IIEF with a power of 80% and an overall significance level of 5%.||||0.111
92434669|NCT00106392|184755155|SUPERIORITY_OR_OTHER|||||||0.453||95.0|||||Fisher Exact|||||||0.453
92434670|NCT00106392|184755156|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.790
92434671|NCT00106392|184755157|SUPERIORITY_OR_OTHER|||||||0.099||95.0|||||Fisher Exact|||||||0.099
92434672|NCT00106392|184755158|SUPERIORITY_OR_OTHER|||||||0.575||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.575
92434673|NCT00106392|184755159|SUPERIORITY_OR_OTHER|||||||0.879||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.879
92434674|NCT02557698|184755188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.002|TWO_SIDED|95.0|-3.1|-0.8|||t-test, 2 sided|||H0=Intervention and control groups do not differ with respect to the TEWL forearm at visit 3 H1=The TEWL on the forearm at visit 3 differs between the groups||-0.8|-3.1|0.002
92434675|NCT02557698|184755189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|||<|0.001|TWO_SIDED|95.0|-3.5|-1.2|||t-test, 2 sided|||||-1.2|-3.5|<0.001
92434676|NCT02557698|184755190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.024|TWO_SIDED|95.0|-3.2|-0.2|||t-test, 2 sided|||||-0.2|-3.2|0.024
92279862|NCT02637557|184463068|SUPERIORITY|||||||0.0225||||||Dose trend test performed using linear contrast statement.|trend test|||||||0.0225
92434677|NCT02557698|184755191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.017|TWO_SIDED|95.0|-3.1|-0.3|||t-test, 2 sided|||||-0.3|-3.1|0.017
92434678|NCT02557698|184755192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.964|TWO_SIDED|95.0|-3.9|3.7|||t-test, 2 sided|||||3.7|-3.9|0.964
92434679|NCT02557698|184755193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4||||0.025|TWO_SIDED|95.0|0.5|8.2|||t-test, 2 sided|||||8.2|0.5|0.025
92434680|NCT02557698|184755194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.458|TWO_SIDED|95.0|-2.5|1.1|||t-test, 2 sided|||||1.1|-2.5|0.458
92434681|NCT02557698|184755195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.066|TWO_SIDED|95.0|-3.5|0.1|||t-test, 2 sided|||||0.1|-3.5|0.066
92434682|NCT02557698|184755196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6||||0.171|TWO_SIDED|95.0|-13.7|2.5|||t-test, 2 sided|||||2.5|-13.7|0.171
92434683|NCT02557698|184755197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5||||0.059|TWO_SIDED|95.0|-15.3|0.3|||t-test, 2 sided|||||0.3|-15.3|0.059
92434684|NCT02557698|184755198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.4|TWO_SIDED|95.0|-0.2|0.5|||t-test, 2 sided|||||0.5|-0.2|0.400
92434685|NCT02557698|184755199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.1|TWO_SIDED|95.0|-0.1|0.4|||t-test, 2 sided|||||0.4|-0.1|0.100
92434686|NCT02557698|184755200|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92279863|NCT02637557|184463069|SUPERIORITY||LS Mean Difference|-3.711||||0.4795|TWO_SIDED|95.0|-14.028|6.606||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||6.606|-14.028|0.4795
92434687|NCT02557698|184755201|SUPERIORITY_OR_OTHER|||||||0.914|||||||Wilcoxon (Mann-Whitney)|||||||0.914
92434688|NCT02557698|184755202|SUPERIORITY_OR_OTHER|||||||0.822|||||||Wilcoxon (Mann-Whitney)|||||||0.822
92434689|NCT02557698|184755203|SUPERIORITY_OR_OTHER|||||||0.585|||||||Wilcoxon (Mann-Whitney)|||||||0.585
92434690|NCT02557698|184755204|SUPERIORITY_OR_OTHER|||||||0.259|||||||Wilcoxon (Mann-Whitney)|||||||0.259
92434691|NCT02557698|184755205|SUPERIORITY_OR_OTHER|||||||0.581|||||||Wilcoxon (Mann-Whitney)|||||||0.581
92434692|NCT02557698|184755206|SUPERIORITY_OR_OTHER|||||||0.182|||||||Wilcoxon (Mann-Whitney)|||||||0.182
92434693|NCT02557698|184755207|SUPERIORITY_OR_OTHER|||||||0.759|||||||Wilcoxon (Mann-Whitney)|||||||0.759
92434694|NCT02557698|184755208|SUPERIORITY_OR_OTHER|||||||0.831|||||||Wilcoxon (Mann-Whitney)|||||||0.831
92434695|NCT02557698|184755209|SUPERIORITY_OR_OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||||||0.084
92434696|NCT02557698|184755210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6||||0.07|TWO_SIDED|95.0|-0.3|7.4|||t-test, 2 sided|||||7.4|-0.3|0.07
92434697|NCT02557698|184755211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1||||0.029|TWO_SIDED|95.0|0.4|7.7|||t-test, 2 sided|||||7.7|0.4|0.029
92434698|NCT02557698|184755212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.325|TWO_SIDED|95.0|-1.8|0.6|||t-test, 2 sided|||||0.6|-1.8|0.325
92434699|NCT02557698|184755213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.365|TWO_SIDED|95.0|-2.6|0.9|||t-test, 2 sided|||||0.9|-2.6|0.365
92434700|NCT02557698|184755214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.143|TWO_SIDED|95.0|-8.5|1.3|||t-test, 2 sided|||||1.3|-8.5|0.143
92434701|NCT02557698|184755215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.662|TWO_SIDED|95.0|-6.5|4.2|||t-test, 2 sided|||||4.2|-6.5|0.662
92434702|NCT02557698|184755216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.326|TWO_SIDED|95.0|-0.4|0.1|||t-test, 2 sided|||||0.1|-0.4|0.326
92434703|NCT02557698|184755217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.687|TWO_SIDED|95.0|-0.2|0.4|||t-test, 2 sided|||||0.4|-0.2|0.687
92434704|NCT01737944|184755227|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A - SC injection with the Vibex MTX device and Treatment B - SC injection without the device was established if the 90% CI for the geometric LS Mean ratios of AUC(0-inf)/Dose were within the range of 80% to 125%.|Test / Reference Ratio|96.24|||||TWO_SIDED|90.0|92.33|100.31||||||||100.31|92.33|
92434705|NCT01737944|184755227|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A-SC injection with the Vibex MTX device and Treatment C-IM injection was established if the 90% CI for the geometric LS Mean ratios of AUC(0-inf)/Dose were within the range of 80% to 125%.|Test / Reference Ratio|101.28|||||TWO_SIDED|90.0|97.17|105.56||||||||105.56|97.17|
92434706|NCT01737944|184755228|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A-SC injection with the Vibex MTX device and Treatment B-SC injection was established if the 90% CI for the geometric LS Mean ratios of AUC(0-24)/Dose were within the range of 80% to 125%.|Test / Reference Ratio|96.22|||||TWO_SIDED|90.0|92.32|100.28||||||||100.28|92.32|
92434707|NCT01737944|184755228|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A-SC injection with the Vibex MTX device and Treatment C-IM injection was established if the 90% CI for the geometric LS Mean ratios of AUC(0-24)/Dose were within the range of 80% to 125%.|Test / Reference Ratio|101.14|||||TWO_SIDED|90.0|97.06|105.4||||||||105.40|97.06|
92434708|NCT01737944|184755229|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A-SC injection with the Vibex MTX device and Treatment B-SC injection without the device was established if the 90% CI for the geometric LS Mean ratios of Cmax/Dose were within the range of 80% to 125%.|Test / Reference Ratio|96.76|||||TWO_SIDED|90.0|87.93|106.47||||||||106.47|87.93|
92434709|NCT01737944|184755229|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A-SC injection with the Vibex MTX device and Treatment C-IM injection was established if the 90% CI for the geometric LS Mean ratios of Cmax/Dose were within the range of 80% to 125%.|Test / Reference Ratio|89.79|||||TWO_SIDED|90.0|81.61|98.78||||||||98.78|81.61|
92434710|NCT02495168|184755242|EQUIVALENCE|To show the clinical equivalence, an analysis of covariance (ANCOVA) model was fit on the participants from the generic budesonide/formoterol fumarate and Symbicort groups only, with the endpoint as outcome and treatment, study site and treatment by site interaction as fixed effects and FEV1 baseline value as covariate. If the treatment-by-site interaction factor was not significant at the 0.05 level, the model was to be rerun without the interaction term.|Test/Referece LS Mean Ratio|101.9|||||TWO_SIDED|90.0|92.7|111.9|||||Fieller's formula was applied to calculate the 90% confidence interval (CI) for the generic budesonide/formoterol fumarate and Symbicort LS mean ratio; covariance between treatment means was assumed to be 0.|||111.9|92.7|
92279864|NCT02637557|184463069|SUPERIORITY||LS Mean Difference|-2.739||||0.602|TWO_SIDED|95.0|-13.066|7.588||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||7.588|-13.066|0.6020
92434711|NCT02495168|184755243|SUPERIORITY||LS Mean Difference|2.334|||<|0.0001|TWO_SIDED|95.0|1.673|2.996||Threshold for significance at 0.05 level.|ANCOVA|||LS means difference and p-value from ANCOVA model with treatment and site as fixed effects, baseline FEV1 as covariate and endpoint as outcome on generic budesonide/formoterol fumarate dihydrate and Placebo participants only.||2.996|1.673|<0.0001
92434712|NCT02495168|184755243|SUPERIORITY||LS Mean Difference|2.606|||<|0.0001|TWO_SIDED|95.0|1.939|3.273||Threshold for significance at 0.05 level.|ANCOVA|||LS means difference and p-value from ANCOVA model with treatment and site as fixed effects, baseline FEV1 as covariate and endpoint as outcome on Symbicort and Placebo participants only.||3.273|1.939|<0.0001
92434713|NCT02495168|184755244|EQUIVALENCE|To show the clinical equivalence, an ANCOVA model was fit on the participants from the generic budesonide/formoterol fumarate and Symbicort groups only, with the endpoint as outcome and treatment, study site and treatment-by site interaction as fixed effects and FEV1 baseline value as covariate. If the treatment-by-site interaction factor was not significant at the 0.05 level, the model was to be rerun without the interaction term.|Test/Reference LS Mean Ratio|99.8|||||TWO_SIDED|90.0|87.0|114.5|||||Fieller's formula was applied to calculate the 90% CI for the generic budesonide/formoterol fumarate and Symbicort LS mean ratio; covariance between treatment means was assumed to be 0.|||114.5|87.0|
92434714|NCT02495168|184755245|SUPERIORITY||LS Mean Difference|0.159|||<|0.0001|TWO_SIDED|95.0|0.093|0.226||Threshold for significance at 0.05 level.|ANCOVA|||LS means difference and p-value from ANCOVA model with treatment and site as fixed effects, baseline FEV1 as covariate and endpoint as outcome on generic budesonide/formoterol fumarate dihydrate and Placebo participants only.||0.226|0.093|<0.0001
92434715|NCT02495168|184755245|SUPERIORITY||LS Mean Difference|0.164|||<|0.0001|TWO_SIDED|95.0|0.099|0.229||Threshold for significance at 0.05 level.|ANCOVA|||LS means difference and p-value from ANCOVA model with treatment and site as fixed effects, baseline FEV1 as covariate and endpoint as outcome on Symbicort and Placebo participants only.||0.229|0.099|<0.0001
92434716|NCT03247530|184755262|SUPERIORITY||Least Square Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|1.61||0.0004|TWO_SIDED|95.0|-8.9|-2.6|||Mixed Models for Repeated Measures|||||-2.6|-8.9|0.0004
92434717|NCT03247530|184755262|SUPERIORITY||Least Square Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|1.58|<|0.0001|TWO_SIDED|95.0|-10.0|-3.8|||Mixed Models for Repeated Measures|||||-3.8|-10.0|<0.0001
92434718|NCT03247530|184755263|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.002|TWO_SIDED|95.0|-0.7|-0.2|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.2|-0.7|0.0020
92434719|NCT03247530|184755263|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.8|-0.3|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.3|-0.8|<0.0001
92434720|NCT03247530|184755264|SUPERIORITY||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|1.16||0.0003|TWO_SIDED|95.0|-6.5|-1.9|||ANCOVA|||||-1.9|-6.5|0.0003
92434721|NCT03247530|184755264|SUPERIORITY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|1.15||0.0002|TWO_SIDED|95.0|-6.6|-2.1|||ANCOVA|||||-2.1|-6.6|0.0002
92434722|NCT03247530|184755265|SUPERIORITY||Least Square Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.047||0.0019|TWO_SIDED|95.0|-0.24|-0.05|||ANCOVA|||||-0.05|-0.24|0.0019
92434723|NCT03247530|184755265|SUPERIORITY||Least Square Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.046||0.002|TWO_SIDED|95.0|-0.26|-0.08|||ANCOVA|||||-0.08|-0.26|0.0020
92434724|NCT03247530|184755266|SUPERIORITY||Risk Difference (RD)|14.5||||0.0063|TWO_SIDED|95.0|4.3|24.6|||Regression, Logistic|||||24.6|4.3|0.0063
92434725|NCT03247530|184755266|SUPERIORITY||Risk Difference (RD)|21.5|||<|0.0001|TWO_SIDED|95.0|11.3|31.6|||Regression, Logistic|||||31.6|11.3|<0.0001
92434726|NCT03247530|184755267|SUPERIORITY||Least Square Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.63||0.9974|TWO_SIDED|95.0|-4.5|4.5|||ANCOVA|||||4.5|-4.5|0.9974
92434727|NCT03247530|184755267|SUPERIORITY||Least Square Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|2.26||0.4557|TWO_SIDED|95.0|-6.1|2.7|||ANCOVA|||||2.7|-6.1|0.4557
92434728|NCT03247530|184755268|SUPERIORITY||Least Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.85||0.0006|TWO_SIDED|95.0|-4.6|-1.2|||ANCOVA|||This statistical analysis pertains to the Inattention subscale score||-1.2|-4.6|0.0006
92434729|NCT03247530|184755268|SUPERIORITY||Least Square Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|95.0|-5.2|-1.9|||ANCOVA|||This statistical analysis pertains to the Inattention subscale score||-1.9|-5.2|<0.0001
92434730|NCT03247530|184755268|SUPERIORITY||Least Square Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.83||0.0026|TWO_SIDED|95.0|-4.1|-0.9|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-0.9|-4.1|0.0026
92434731|NCT03247530|184755268|SUPERIORITY||Least Square Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-4.8|-1.7|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-1.7|-4.8|<0.0001
92434732|NCT03247530|184755269|SUPERIORITY||Least Square Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.2||0.1292|TWO_SIDED|95.0|-4.2|0.5|||ANCOVA|||||0.5|-4.2|0.1292
92434733|NCT03247530|184755269|SUPERIORITY||Least Square Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.19||0.3447|TWO_SIDED|95.0|-3.4|1.2|||ANCOVA|||||1.2|-3.4|0.3447
92434734|NCT03247530|184755270|SUPERIORITY|||||||0.0005|||||||Chi-squared|||This analysis pertains to Week 1 of treatment||||0.0005
92434735|NCT03247530|184755270|SUPERIORITY|||||||0.0212|||||||Chi-squared|||This analysis pertains to Week 2 of treatment||||0.0212
92434736|NCT03247530|184755270|SUPERIORITY|||||||0.0115|||||||Chi-squared|||This analysis pertains to Week 3 of treatment||||0.0115
92171110|NCT01303445|184231361|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|99.02||||||90.0|98.32|99.72||||||Comparison of Aggrenox + Omeprazole following Omeprazole versus Aggrenox alone||99.72|98.32|
92434737|NCT03247530|184755270|SUPERIORITY|||||||0.0027|||||||Chi-squared|||This analysis pertains to Week 4 of treatment||||0.0027
92434738|NCT03247530|184755270|SUPERIORITY|||||||0.0066|||||||Chi-squared|||This analysis pertains to Week 5 of treatment||||0.0066
92434739|NCT03247530|184755270|SUPERIORITY|||||||0.0065|||||||Chi-squared|||This analysis pertains to Week 6 of treatment||||0.0065
92434740|NCT03247530|184755270|SUPERIORITY|||||||0.5826|||||||Chi-squared|||This analysis pertains to Week 1 of treatment||||0.5826
92434741|NCT03247530|184755270|SUPERIORITY|||||||0.0099|||||||Chi-squared|||This analysis pertains to Week 2 of treatment||||0.0099
92434742|NCT03247530|184755270|SUPERIORITY|||||||0.0225|||||||Chi-squared|||This analysis pertains to Week 3 of treatment||||0.0225
92434743|NCT03247530|184755270|SUPERIORITY|||||||0.0008|||||||Chi-squared|||This analysis pertains to Week 4 of treatment||||0.0008
92434744|NCT03247530|184755270|SUPERIORITY|||||||0.002|||||||Chi-squared|||This analysis pertains to Week 5 of treatment||||0.0020
92434745|NCT03247530|184755270|SUPERIORITY|||||||0.0002|||||||Chi-squared|||This analysis pertains to Week 6 of treatment||||0.0002
92434746|NCT04786990|184755276|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
92434747|NCT04786990|184755276|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
92434748|NCT04786990|184755277|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
92434749|NCT04786990|184755277|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
92434750|NCT04786990|184755279|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
92434751|NCT04786990|184755279|OTHER|||||||0.0002||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||0.0002
92434752|NCT04786990|184755280|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
92434753|NCT04786990|184755280|OTHER||||||<|0.0001||||||The p-value generated for the comparison between time points for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed. There is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
92434754|NCT04786990|184755281|OTHER|||||||0.0685||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||0.0685
92434755|NCT04786990|184755281|OTHER|||||||0.2575||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data|t-test, 2 sided|||Week 8||||0.2575
92434756|NCT04786990|184755282|OTHER|||||||0.0832||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||0.0832
92434757|NCT04786990|184755282|OTHER|||||||0.3715||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||0.3715
92434758|NCT04786990|184755283|OTHER|||||||0.0042||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data|t-test, 2 sided|||Week 4||||0.0042
92434759|NCT04786990|184755283|OTHER|||||||0.0019||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||0.0019
92434760|NCT04786990|184755284|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data|t-test, 2 sided|||Week 4||||<0.0001
92434761|NCT04786990|184755284|OTHER|||||||0.0025||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data|t-test, 2 sided|||Week 8||||0.0025
92434762|NCT04786990|184755285|OTHER|||||||0.0161||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||0.0161
92434763|NCT04786990|184755285|OTHER|||||||0.0122||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||0.0122
92434764|NCT04786990|184755286|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
92434765|NCT04786990|184755286|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
92434766|NCT04786990|184755287|OTHER|||||||0.0002||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||0.0002
92434767|NCT04786990|184755287|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
92171111|NCT01303445|184231361|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|98.42||||||90.0|97.66|99.18||||||Comparison of Aggrenox + Omeprazole following Aggrenox versus Aggrenox alone||99.18|97.66|
92434768|NCT04786990|184755288|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
92434769|NCT04786990|184755288|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
92434770|NCT04786990|184755289|OTHER|||||||0.0005||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.0005
92434771|NCT04786990|184755290|OTHER|||||||0.0005||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.0005
92434772|NCT04786990|184755291|OTHER|||||||0.0016||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.0016
92434773|NCT04786990|184755292|OTHER|||||||0.89||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.8900
92434774|NCT04786990|184755293|OTHER|||||||0.3269||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.3269
92434775|NCT04786990|184755294|OTHER|||||||0.5085||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.5085
92434776|NCT04786990|184755295|OTHER|||||||0.3484||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.3484
92434777|NCT04786990|184755296|OTHER|||||||0.4385||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.4385
92434778|NCT04786990|184755297|OTHER|||||||0.5073||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.5073
92434779|NCT04786990|184755298|OTHER|||||||0.9119||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.9119
92434780|NCT04786990|184755299|OTHER|||||||0.014||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.0140
92434781|NCT04786990|184755300|OTHER|||||||0.1542||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.1542
92434782|NCT04786990|184755301|OTHER|||||||0.0086||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.0086
92434783|NCT04786990|184755302|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
92434784|NCT04786990|184755302|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
92434785|NCT04786990|184755303|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
92171112|NCT01303445|184231362|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|105.55||||||90.0|97.09|114.74||||||Comparison of Aggrenox + Omeprazole following Omeprazole versus Aggrenox alone||114.74|97.09|
92171113|NCT01303445|184231362|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|106.09||||||90.0|98.64|114.09||||||Comparison of Aggrenox + Omeprazole following Aggrenox versus Aggrenox alone||114.09|98.64|
92434786|NCT04786990|184755303|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
92434787|NCT04786990|184755304|OTHER|||||||0.5582||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||"Week 4; Morning PR-ADHD-RS-5 Total score versus Evening PR-ADHD-RS-5 Total score"||||0.5582
92434788|NCT04786990|184755305|OTHER|||||||0.5061||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||"Week 8; Morning PR-ADHD-RS-5 Total score versus Evening PR-ADHD-RS-5 Total score"||||0.5061
92434789|NCT02846779|184755344|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.75|1.03||||||||1.03|0.75|
92434790|NCT02846779|184755344|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.77|1.06||||||||1.06|0.77|
92434791|NCT02846779|184755345|SUPERIORITY||Risk Difference (RD)|-0.15|||||TWO_SIDED|95.0|-0.34|0.05||||||||0.05|-0.34|
92434792|NCT02846779|184755345|SUPERIORITY||Risk Difference (RD)|-0.25|||||TWO_SIDED|95.0|-0.43|-0.06||||||||-0.06|-0.43|
92434793|NCT02846779|184755346|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.95|1.11||||||||1.11|0.95|
92434794|NCT02846779|184755346|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.92|1.06||||||||1.06|0.92|
92434795|NCT02846779|184755347|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.97|1.02||||||||1.02|0.97|
92434796|NCT02846779|184755347|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.96|1.0||||||||1.00|0.96|
92434797|NCT02846779|184755348|SUPERIORITY||Risk Ratio (RR)|1.38|||||TWO_SIDED|95.0|1.24|1.53||||||||1.53|1.24|
92434798|NCT02846779|184755348|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.85|1.07||||||||1.07|0.85|
92434799|NCT02846779|184755349|SUPERIORITY||Risk Ratio (RR)|1.22|||||TWO_SIDED|95.0|1.06|1.41||||||||1.41|1.06|
92434800|NCT02846779|184755349|SUPERIORITY||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.99|1.32||||||||1.32|0.99|
92434801|NCT05353985|184755355|SUPERIORITY||LS Mean Difference|0.017|||=|0.847|TWO_SIDED|95.0|-0.162|0.197||P-value was based on a MMRM analysis with treatment group, week, treatment-by-week interaction, \& the randomization stratification factors as fixed effects \& baseline CDSD GI symptom severity scores as covariates, and participant as a random effect.|MMRM|||||0.197|-0.162|=0.847
92434802|NCT05353985|184755356|SUPERIORITY||LS Mean Difference|-0.331|||<|0.001|TWO_SIDED|95.0|-0.481|-0.181||P-value was based on a ANCOVA model with treatment group and randomization stratification factors as fixed effects and baseline Vh:Cd as covariates.|ANCOVA|||||-0.181|-0.481|<0.001
92434803|NCT00524368|184755359|NON_INFERIORITY_OR_EQUIVALENCE|If at Week 48, the lower limit of the 95% two-sided confidence interval of the difference between DRV/rtv once daily and DRV/rtv twice daily exceeds -12%, non-inferiority of the DRV/rtv q.d. versus the DRV/rtv b.i.d. therapy was concluded.|Difference in proportion of response|0.0019|STANDARD_ERROR_OF_MEAN|0.037|<|0.001|TWO_SIDED|95.0|-0.054|0.092|||Regression, Logistic|The model includes treatment as factor and baseline viral load (log10) as covariate.|Difference in proportion of response DRV/rtv once daily minus DRV/rtv twice daily estimated from the logistic regression model.|Assuming a response rate of 70% at 48 weeks for both treatment groups, 306 participants were required per treatment arm to establish noninferiority of darunavir (DRV)/ritonavir (rtv) once daily versus DRV/rtv twice daily with a maximum allowable difference of 12%, with a 1-sided significance level of 0.025 and 90% power.||0.092|-0.054|<0.001
92434804|NCT00524368|184755360|NON_INFERIORITY_OR_EQUIVALENCE|If at Week 48, the lower limit of this 95% 2-sided CI of the difference between DRV/rtv q.d. and DRV/rtv b.i.d. exceeded -12%, noninferiority of DRV/rtv q.d. and DRV/rtv b.i.d. could be concluded.|Difference in proportion of response|0.007|STANDARD_ERROR_OF_MEAN|0.034|<|0.001|TWO_SIDED|95.0|-0.06|0.075|||Regression, Logistic|A logistic regression model includes treatment as fixed factor and baseline plasma viral load as a covariate.|Difference in proportion of response between 2 treatment groups (DRV/rtv q.d. minus DRV/rtv b.i.d)|||0.075|-0.060|<0.001
92434805|NCT00524368|184755361|SUPERIORITY_OR_OTHER||Difference between least square means|-0.003|STANDARD_ERROR_OF_MEAN|0.094||0.977|TWO_SIDED|95.0|-0.188|0.182|||ANCOVA|Including 1 factor for treatment, and including the covariate baseline log10 plasma viral load|Difference between least square means between the DRV/rtv q.d. and DRV/rtv b.i.d. treatment groups at Week 48.|||0.182|-0.188|0.977
92434806|NCT00524368|184755362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99|STANDARD_ERROR_OF_MEAN|0.094||0.917|TWO_SIDED|95.0|0.824|1.191|||Cox proportional hazards|Including treatment as fixed factor and baseline plasma viral load as a covariate||||1.191|0.824|0.917
92434807|NCT00524368|184755363|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.945|STANDARD_ERROR_OF_MEAN|0.154||0.716|TWO_SIDED|95.0|0.699|1.279|||Regression, Cox|Including baseline log10 viral load as covariate||||1.279|0.699|0.716
92279865|NCT02637557|184463069|SUPERIORITY||LS Mean Difference|-8.602||||0.1055|TWO_SIDED|95.0|-19.03|1.826||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||1.826|-19.030|0.1055
92434808|NCT00524368|184755364|SUPERIORITY_OR_OTHER||Difference in least square means|-0.03|STANDARD_ERROR_OF_MEAN|0.072||0.711|TWO_SIDED|95.0|-0.169|0.115|||ANCOVA|Including 1 factor for treatment, and including the covariate baseline log10 plasma viral load|Difference in least square means between the 2 treatment groups (DRV/rtv q.d. and DRV/rtv b.i.d)|||0.115|-0.169|0.711
92434809|NCT00524368|184755365|SUPERIORITY_OR_OTHER||Difference in least square means|-5.95|STANDARD_ERROR_OF_MEAN|10.26||0.562|TWO_SIDED|95.0|-26.09|14.2|||ANCOVA|The model includes treatment as factor and baseline CD4 count and baseline viral load (log10) as covariates.|Difference in least square means DRV/rtv once daily minus DRV/rtv twice daily estimated from the ANCOVA model.|||14.20|-26.09|0.562
92434810|NCT00524368|184755366|SUPERIORITY_OR_OTHER||Difference in least square means|0.55|STANDARD_ERROR_OF_MEAN|1.79||0.761|TWO_SIDED|95.0|-2.97|4.06|||ANCOVA|Including factors for treatment, and baseline log10 plasma viral load and baseline FAHI score as covariates|Difference in least square means DRV/rtv once daily minus DRV/rtv twice daily estimated from the ANCOVA model.|||4.06|-2.97|0.761
92434811|NCT00040937|184755373|SUPERIORITY_OR_OTHER||4-yr survival (%)|64.0|||||TWO_SIDED|95.0|55.0|74.0|||Kaplan and Meier|||The study was designed to have 82% power for detecting a 50% improvement in survival from a median of 4 years, as observed in SWOG S9321.||74|55|
92434812|NCT00410046|184755422|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Admissions to hospital||||1.0
92434813|NCT00410046|184755422|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||Therapeutic warm bath sessions||||0.23
92434814|NCT00410046|184755422|SUPERIORITY_OR_OTHER|||||||0.567|||||||Fisher Exact|||Physiotherapist visits||||0.567
92434815|NCT00410046|184755422|SUPERIORITY_OR_OTHER|||||||0.475|||||||Fisher Exact|||Out-patient physician visit||||0.475
92434816|NCT00410046|184755423|SUPERIORITY_OR_OTHER|||||||0.628|||||||ANCOVA|One-way ANCOVA, baseline was a covariate.||Inpatient hospitalization days per patient||||0.628
92434817|NCT00410046|184755423|SUPERIORITY_OR_OTHER|||||||0.045|||||||ANCOVA|||Therapeutic warm bath sessions per patient||||0.045
92279866|NCT02637557|184463069|SUPERIORITY|||||||0.1387||||||Dose trend test performed using linear contrast statement.|trend test|||||||0.1387
92434818|NCT00410046|184755423|SUPERIORITY_OR_OTHER|||||||0.361|||||||ANCOVA|||Physiotherapist visits per patient||||0.361
92434819|NCT00410046|184755423|SUPERIORITY_OR_OTHER|||||||0.816|||||||ANCOVA|||Out-patient physician visit per patient||||0.816
92434820|NCT00410046|184755424|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Analysis completed for patients with sick leave during the past 12 months||||1.00
92434821|NCT00410046|184755425|SUPERIORITY_OR_OTHER|||||||0.906|||||||ANCOVA|||||||0.906
92434822|NCT00410046|184755430|SUPERIORITY_OR_OTHER|||||||0.743||||||Comparison of Hospitalization 48 weeks before treatment Vs. Hospitalization during 48 treatment weeks|Fisher Exact|||||||0.743
92279867|NCT02637557|184463070|SUPERIORITY||LS Mean Difference|-0.058||||0.7488|TWO_SIDED|95.0|-0.415|0.299||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.299|-0.415|0.7488
92434823|NCT00410046|184755430|SUPERIORITY_OR_OTHER|||||||0.362||||||Comparison of Therapeutic warm bath 48 weeks before treatment Vs. Therapeutic warm bath during 48 treatment weeks|Fisher Exact|||Comparison of percentages||||0.362
92434824|NCT00410046|184755430|SUPERIORITY_OR_OTHER|||||||0.005||||||Comparison of Visit to physiotherapist 48 weeks before treatment Vs. Visit to physiotherapist during 48 treatment weeks|Fisher Exact|||||||0.005
92434825|NCT00410046|184755430|SUPERIORITY_OR_OTHER|||||||0.091||||||Comparison of Out-patient physician 48 weeks before treatment Vs. Out-patient physician during 48 treatment weeks|Fisher Exact|||||||0.091
92434826|NCT00410046|184755431|SUPERIORITY_OR_OTHER|||||||0.576||||||Comparison of Sick leave 48 weeks before treatment Vs. Sick leave during 48 weeks of treatment|Fisher Exact|||||||0.576
92434827|NCT03010254|184755436|SUPERIORITY||Least Squares Mean Difference|-0.138|STANDARD_ERROR_OF_MEAN|0.021|<|0.001|TWO_SIDED|95.0|-0.18|-0.097||2-sided p-value reported. A hypothesis test was based on a two sample t-test, with a type I error rate of 0.025, 1-sided.|t-test, 2 sided||Least squares mean difference (DFT015 - SN60WF)|||-0.097|-0.180|<0.001
92434828|NCT03010254|184755438|NON_INFERIORITY|Non-inferiority margin was 0.1 logMAR.|Least Squares Mean Difference|0.037|STANDARD_ERROR_OF_MEAN|0.0115|||ONE_SIDED|97.5||0.059|||||Least squares mean difference (DFT015 - SN60WF).The 1-sided 97.5% Upper Confidence Limit is presented.|||0.059||
92434829|NCT03010254|184755439|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.0216|<|0.001|TWO_SIDED|95.0|-0.133|-0.048||2-sided p-value reported. A hypothesis test was based on a two sample t-test, with a type I error rate of 0.025, 1-sided.|t-test, 2 sided||Least squares mean difference (DFT015 - SN60WF)|||-0.048|-0.133|<0.001
92434830|NCT03010254|184755440|OTHER||Mean difference in depth of focus|0.52|||||TWO_SIDED|||||Hypothesis testing was not pre-specified.|||Mean difference in depth of focus (DFT015 - SN60WF)|||||
92434831|NCT03010254|184755441|NON_INFERIORITY|Non-inferiority margin was -0.15 log unit|Least Squares Mean Difference|-0.179|STANDARD_ERROR_OF_MEAN|0.0551|||ONE_SIDED|97.5|-0.287||||||Least squares mean difference (DFT015 - SN60WF). The 1-sided 97.5 Lower Limit Confidence Interval is presented.|Without glare|||-0.287|
92434832|NCT03010254|184755441|NON_INFERIORITY|Non-inferiority margin was -0.15 log unit|Least Squares Mean Difference|-0.181|STANDARD_ERROR_OF_MEAN|0.0541|||ONE_SIDED|97.5|-0.287||||||Least squares mean difference (DFT015 - SN60WF). The 1-sided 97.5 Lower Limit Confidence Interval is presented.|With glare|||-0.287|
92171114|NCT01303445|184231363|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|99.38||||||90.0|98.8|99.95||||||Comparison of Aggrenox + Omeprazole following Omeprazole versus Aggrenox alone||99.95|98.80|
92279868|NCT02637557|184463070|SUPERIORITY||LS Mean Difference|-0.254||||0.1627|TWO_SIDED|95.0|-0.611|0.103||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.103|-0.611|0.1627
92279869|NCT02637557|184463070|SUPERIORITY||LS Mean Difference|-0.417||||0.0237|TWO_SIDED|95.0|-0.777|-0.056||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||-0.056|-0.777|0.0237
92434833|NCT03010254|184755442|SUPERIORITY||Difference in percentage|20.2|||||TWO_SIDED|95.0|8.77|31.04|||||95% CI for the difference (DFT015 - SN60WF) is estimated using Miettinen-Nurminen method (1985).|||31.04|8.77|
92279870|NCT02637557|184463070|SUPERIORITY|||||||0.013||||||Dose trend test performed using linear contrast statement.|trend test|||||||0.0130
92434834|NCT03010254|184755443|SUPERIORITY||Percent difference|21.7|||||TWO_SIDED|95.0|7.92|35.06|||||95% CI for the difference (DFT015 - SN60WF) is estimated using Miettinen-Nurminen method (1985).|||35.06|7.92|
92434835|NCT02715076|184755444|OTHER||||||<|0.05|||||||mixed-effects model|||||||<0.05
92434836|NCT02927080|184755449|SUPERIORITY|Percent Change in Total Muscle Volume (TMV) of the TA muscle in patients with FSHD administered ACE-083 when compared to placebo During Part 2 (randomized, controlled portion)|Mean Difference (Net)|9.54|STANDARD_ERROR_OF_MEAN|3.876||0.0138|TWO_SIDED|90.0|3.17|15.92|||ANCOVA|||D190 Percent change from baseline in TMV||15.92|3.17|0.0138
92434837|NCT02927080|184755449|SUPERIORITY|Percent Change in Total Muscle Volume (TMV) of the BB muscle in patients with FSHD administered ACE-083 when compared to placebo During Part 2 (randomized, controlled portion)|Mean Difference (Net)|16.39|STANDARD_ERROR_OF_MEAN|4.032|<|0.0001|TWO_SIDED|90.0|9.75|23.02|||ANCOVA|||D190 Percent change from baseline in TMV||23.02|9.75|<0.0001
92434838|NCT02927080|184755451|SUPERIORITY||Mean Difference (Final Values)|-2.73|STANDARD_ERROR_OF_MEAN|1.299||0.0359|TWO_SIDED|90.0|-4.86|-0.59|||ANCOVA|||D190 Absolute change from baseline in FF for the TA group administered ACE-083 when compared to Placebo in part 2||-0.59|-4.86|0.0359
92434839|NCT02927080|184755451|SUPERIORITY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|1.359||0.3582|TWO_SIDED|90.0|-3.49|0.99|||ANCOVA|||D190 Absolute change from baseline in FF for the BB group administered ACE-083 when compared to Placebo in part 2||0.99|-3.49|0.3582
92434840|NCT02927080|184755452|SUPERIORITY||Mean Difference (Final Values)|-5.28|STANDARD_ERROR_OF_MEAN|4.068||0.1945|TWO_SIDED|90.0|-11.97|1.41|||ANCOVA|||D190 Percent change from baseline in 6 Minute Walk Test (MWT) distance from baseline||1.41|-11.97|0.1945
92434841|NCT02927080|184755452|SUPERIORITY||Mean Difference (Final Values)|4.69|STANDARD_ERROR_OF_MEAN|4.968||0.3451|TWO_SIDED|90.0|-3.48|12.86|||ANCOVA|||D190 Percent change from baseline in time to complete a 10 meter walk/run||12.86|-3.48|0.3451
92434842|NCT02927080|184755452|SUPERIORITY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|6.03||0.9402|TWO_SIDED|90.0|-9.47|10.37|||ANCOVA|||D190 Percent change from baseline in time to complete 4-stair climb (ascend)||10.37|-9.47|0.9402
92434843|NCT02927080|184755453|SUPERIORITY||Mean Difference (Final Values)|36.12|STANDARD_ERROR_OF_MEAN|14.18||0.0183|TWO_SIDED|90.0|11.78|60.46|||ANCOVA|||||60.46|11.78|0.0183
92434844|NCT02927080|184755454|SUPERIORITY||Mean Difference (Final Values)|2.89|STANDARD_ERROR_OF_MEAN|1.7||0.0895|TWO_SIDED|90.0|0.09|5.69|||ANCOVA|||||5.69|0.09|0.0895
92434845|NCT02927080|184755455|SUPERIORITY||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|3.459||0.5661|TWO_SIDED|90.0|-7.67|3.7|||ANCOVA|||Change from baseline in FSHD-HI, patient-reported outcome (PRO) measures Part 2 (Randomized, Controlled Portion)- Total Score for TA group part 2; compared to Placebo||3.70|-7.67|0.5661
92434846|NCT02927080|184755455|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|3.618||0.976|TWO_SIDED|90.0|-6.06|5.84|||ANCOVA|||Change from baseline in FSHD-HI, patient-reported outcome (PRO) measures Part 2 (Randomized, Controlled Portion)- Total Score for BB group part 2; compared to Placebo||5.84|-6.06|0.9760
92434847|NCT01404325|184755464|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92434848|NCT01075204|184755497|SUPERIORITY_OR_OTHER|||||||0.334||95.0|||||Chi-squared|9 degrees of freedom.||Logistic regression: Omnibus Test of Model Coefficients (all the nine variables are considered together).||||0.334
92279871|NCT02637557|184463071|SUPERIORITY||LS Mean Difference|-0.052||||0.747|TWO_SIDED|95.0|-0.369|0.265||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.265|-0.369|0.7470
92434849|NCT02310568|184755523|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|2.01||0.784|TWO_SIDED|90.0|-2.8|3.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||3.9|-2.8|0.784
92434850|NCT02310568|184755523|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.94||0.184|TWO_SIDED|90.0|-0.6|5.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||5.8|-0.6|0.184
92434851|NCT02310568|184755523|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.22||0.36|TWO_SIDED|90.0|-5.7|1.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||1.6|-5.7|0.360
92434852|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.36||0.708|TWO_SIDED|90.0|-3.2|5.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||5.0|-3.2|0.708
92434853|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.36||0.646|TWO_SIDED|90.0|-5.2|3.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||3.0|-5.2|0.646
92434854|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|2.09||0.352|TWO_SIDED|90.0|-1.6|5.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||5.6|-1.6|0.352
92434855|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|2.99||0.495|TWO_SIDED|90.0|-3.1|7.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||7.3|-3.1|0.495
92434856|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|2.99||0.422|TWO_SIDED|90.0|-2.7|7.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||7.6|-2.7|0.422
92279872|NCT02637557|184463071|SUPERIORITY||LS Mean Difference|-0.047||||0.7699|TWO_SIDED|95.0|-0.364|0.27||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.270|-0.364|0.7699
92279873|NCT02637557|184463071|SUPERIORITY||LS Mean Difference|-0.257||||0.1157|TWO_SIDED|95.0|-0.577|0.064||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.064|-0.577|0.1157
92279874|NCT02637557|184463071|SUPERIORITY|||||||0.1374||||||Dose trend test performed using linear contrast statement.|trend test|||||||0.1374
92434857|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|2.65||0.889|TWO_SIDED|90.0|-5.0|4.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||4.2|-5.0|0.889
92434858|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|2.71||0.324||90.0|-2.0|7.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||7.4|-2.0|0.324
92434859|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|2.69||0.939|TWO_SIDED|90.0|-4.5|4.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||4.9|-4.5|0.939
92434860|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|2.42||0.308|TWO_SIDED|90.0|-1.7|6.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||6.7|-1.7|0.308
92434861|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|3.92||0.846|TWO_SIDED|90.0|-6.0|7.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||7.6|-6.0|0.846
92434862|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|3.89||0.449|TWO_SIDED|90.0|-9.8|3.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||3.7|-9.8|0.449
92171115|NCT01303445|184231363|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|99.02||||||90.0|98.46|99.59||||||Comparison of Aggrenox + Omeprazole following Aggrenox versus Aggrenox alone||99.59|98.46|
92279875|NCT02637557|184463072|SUPERIORITY||Odds Ratio (OR)|0.91||||0.7903|TWO_SIDED|95.0|0.47|1.77||Odds ratio, 95% confidence interval (CI) for the odds ratio and p-value vs. placebo are obtained from the Cochran-Mantel-Haenszel (CMH) tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||1.77|0.47|0.7903
92434863|NCT02310568|184755525|SUPERIORITY_OR_OTHER||LS Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|3.51||0.295|TWO_SIDED|90.0|-2.3|9.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||9.9|-2.3|0.295
92434864|NCT02310568|184755527|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.72||0.514|TWO_SIDED|90.0|-4.0|1.7|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Total Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.7|-4.0|0.514
92434865|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|1.65||0.302|TWO_SIDED|90.0|-4.5|1.0|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Total Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.0|-4.5|0.302
92434866|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.94||0.736|TWO_SIDED|90.0|-2.6|3.8|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Total Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||3.8|-2.6|0.736
92434867|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|3.85||0.775|TWO_SIDED|90.0|-5.6|7.8|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Total Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||7.8|-5.6|0.775
92434868|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|4.0||0.553|TWO_SIDED|90.0|-9.4|4.5|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Total Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||4.5|-9.4|0.553
92434869|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|3.3||0.299|TWO_SIDED|90.0|-2.2|9.3|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Total Score ( Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||9.3|-2.2|0.299
92434870|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.65||0.994|TWO_SIDED|90.0|-1.1|1.1|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Social Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.1|-1.1|0.994
92434871|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.62||0.87|TWO_SIDED|90.0|-0.9|1.1|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Social Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.1|-0.9|0.870
92434872|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.74||0.885|TWO_SIDED|90.0|-1.3|1.1|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Social Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.1|-1.3|0.885
92434873|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.78||0.834|TWO_SIDED|90.0|-3.5|2.7|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Social Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.7|-3.5|0.834
92171116|NCT03661359|184231391|OTHER|||||||0.727||||||correlation is significant at the 0.05 level (2 tailed)|pearson correlation|||Correlation between patient satisfaction and domains at risk.||||.727
92434874|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.8||0.281|TWO_SIDED|90.0|-5.1|1.1|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Social Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.1|-5.1|0.281
92434875|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.43||0.272|TWO_SIDED|90.0|-0.9|4.1|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Social Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||4.1|-0.9|0.272
92434876|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.73||0.249|TWO_SIDED|90.0|-2.1|0.4|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Work Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.4|-2.1|0.249
92434877|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.016|TWO_SIDED|90.0|-2.9|-0.6|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Work Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||-0.6|-2.9|0.016
92434878|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.82||0.285|TWO_SIDED|0.285|-0.5|2.3|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Work Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.3|-0.5|0.285
92434879|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.38||0.635|TWO_SIDED|90.0|-3.1|1.8|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Work Sub-Scale Score ( Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.8|-3.1|0.635
92434880|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.43||0.217|TWO_SIDED|90.0|-4.4|0.7|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Work Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.7|-4.4|0.217
92434881|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.36||0.399|TWO_SIDED|90.0|-1.2|3.6|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Work Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||3.6|-1.2|0.399
92434882|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.62||0.429|TWO_SIDED|90.0|-1.5|0.5|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Family Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.5|-1.5|0.429
92434883|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.26|TWO_SIDED|90.0|-1.7|0.3|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Family Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.3|-1.7|0.260
92434884|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.7||0.799|TWO_SIDED|90.0|-1.0|1.3|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Family Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.3|-1.0|0.799
92434885|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.22||0.738|TWO_SIDED|90.0|-1.7|2.5|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Family Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.5|-1.7|0.738
92434886|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|1.26|STANDARD_ERROR_OF_MEAN|-0.5||0.691|TWO_SIDED|90.0|-2.7|1.7|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Family Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.7|-2.7|0.691
92434887|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.11||0.417|TWO_SIDED|90.0|-1.0|2.9|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Family Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.9|-1.0|0.417
92434888|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|2.11||0.998|TWO_SIDED|90.0|-3.7|3.7|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Total Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||3.7|-3.7|0.998
92434889|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|2.16||0.353|TWO_SIDED|90.0|-5.8|1.7|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Total Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.7|-5.8|0.353
92434890|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.92||0.296|TWO_SIDED|90.0|-1.3|5.4|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Total Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||5.4|-1.3|0.296
92434891|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.95||0.841|TWO_SIDED|90.0|-1.8|1.5|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Social Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.5|-1.8|0.841
92434892|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.95||0.332|TWO_SIDED|90.0|-2.6|0.7|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Social Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.7|-2.6|0.332
92434893|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.81||0.359|TWO_SIDED|90.0|-0.6|2.2|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Social Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.2|-0.6|0.359
92434894|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.78||0.347|TWO_SIDED|90.0|-2.1|0.6|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Work Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.6|-2.1|0.347
92434895|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.8||0.041|TWO_SIDED|90.0|-3.2|-0.4|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Work Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||-0.4|-3.2|0.041
92279876|NCT02637557|184463072|SUPERIORITY||Odds Ratio (OR)|1.38||||0.3518|TWO_SIDED|95.0|0.7|2.71||Odds ratio, 95% CI for the odds ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||2.71|0.70|0.3518
92279877|NCT02637557|184463072|SUPERIORITY||Odds Ratio (OR)|1.64||||0.1544|TWO_SIDED|95.0|0.83|3.26||Odds ratio, 95% CI for the odds ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||3.26|0.83|0.1544
92171117|NCT03661359|184231393|OTHER|||||||0.002||||||correlation is significant at the 0.01 level 2 tailed|pearson correlation|||correlation between physical quality of life and mental of life||||0.002
92279878|NCT02637557|184463073|SUPERIORITY||Odds Ratio (OR)|0.56||||0.1489|TWO_SIDED|95.0|0.25|1.23||Odds ratio, 95% CI for the odds ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||1.23|0.25|0.1489
92434896|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.79||0.212|TWO_SIDED|90.0|-0.4|2.4|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Work Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.4|-0.4|0.212
92434897|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.69||0.954|TWO_SIDED|90.0|-1.2|1.2|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Family Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.2|-1.2|0.954
92434898|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.7||0.407|TWO_SIDED|90.0|-1.8|0.6|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Family Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.6|-1.8|0.407
92434899|NCT02310568|184755527|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.66||0.412|TWO_SIDED|90.0|-0.6|1.7|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Family Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.7|-0.6|0.412
92434900|NCT02310568|184755528|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.45||0.856|TWO_SIDED|90.0|-2.2|2.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.7|-2.2|0.856
92434901|NCT02310568|184755528|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.38||0.647|TWO_SIDED|90.0|-1.7|2.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.9|-1.7|0.647
92434902|NCT02310568|184755528|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.6||0.817|TWO_SIDED|90.0|-3.0|2.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.3|-3.0|0.817
92434903|NCT02310568|184755528|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.81||0.67|TWO_SIDED|90.0|-3.8|2.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.2|-3.8|0.670
92434904|NCT02310568|184755528|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.74||0.736|TWO_SIDED|90.0|-2.3|3.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||3.5|-2.3|0.736
92434905|NCT02310568|184755528|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|1.99||0.496|TWO_SIDED|90.0|-4.7|2.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.0|-4.7|0.496
92434906|NCT02310568|184755528|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.72||0.575|TWO_SIDED|90.0|-1.9|3.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||3.8|-1.9|0.575
92434907|NCT02310568|184755528|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.67||0.362|TWO_SIDED|90.0|-1.2|4.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||4.3|-1.2|0.362
92279879|NCT02637557|184463073|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8891|TWO_SIDED|95.0|0.51|2.19||Odds ratio, 95% CI for the odds ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||2.19|0.51|0.8891
92171118|NCT03661359|184231395|OTHER|||||||0.727|TWO_SIDED|0.05|||||pearson correlation|||||||0.727
92171119|NCT03089125|184231396|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.038|TWO_SIDED|95.0|-0.61|-0.05||Bonferroni-adjusted P-value|ANCOVA|ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.||||-0.05|-0.61|0.038
92279880|NCT02637557|184463073|SUPERIORITY||Odds Ratio (OR)|1.56||||0.2237|TWO_SIDED|95.0|0.76|3.2||Odds ratio, 95% CI for the odds ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||3.20|0.76|0.2237
92171120|NCT03089125|184231397|SUPERIORITY||Mean Difference (Final Values)|-0.55|||>|0.99|TWO_SIDED|95.0|-2.2|1.1||Bonferroni-adjusted P-value|ANCOVA|ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.||||1.10|-2.20|>0.99
92171121|NCT03089125|184231398|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.38|TWO_SIDED|95.0|-1.98|5.18|||ANCOVA|ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.||||5.18|-1.98|0.380
92171122|NCT03089125|184231399|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.99|TWO_SIDED|95.0|-0.83|0.82|||ANCOVA|ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.||||0.82|-0.83|0.990
92171123|NCT03089125|184231400|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.251|TWO_SIDED|95.0|-1.34|0.35|||ANCOVA|||||0.35|-1.34|0.251
92171124|NCT03089125|184231401|SUPERIORITY||Mean Difference (Final Values)|-1.49||||0.647|TWO_SIDED|95.0|-7.9|4.92|||ANCOVA|ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.||||4.92|-7.90|0.647
92171125|NCT03089125|184231402|SUPERIORITY||Mean Difference (Final Values)|1.63||||0.431|TWO_SIDED|95.0|-2.45|5.71||ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.|ANCOVA|||||5.71|-2.45|0.431
92279881|NCT02637557|184463074|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6566|TWO_SIDED|95.0|0.48|3.18||Odds ratio, 95% CI (Confidence Interval) for the Odds Ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||3.18|0.48|0.6566
92279882|NCT02637557|184463074|SUPERIORITY||Odds Ratio (OR)|2.01||||0.128|TWO_SIDED|95.0|0.81|4.98||Odds ratio, 95% CI (Confidence Interval) for the Odds Ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||4.98|0.81|0.1280
92434908|NCT02310568|184755528|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.9||0.771|TWO_SIDED|90.0|-3.7|2.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.6|-3.7|0.771
92434909|NCT02310568|184755529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75|||||TWO_SIDED|90.0|0.45|1.26|||Regression, Logistic|||(PF-06372865 7.5 mg - Placebo). Stage 1: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||1.26|0.45|
92434910|NCT02310568|184755529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|90.0|0.23|1.54|||Regression, Logistic|||(PF-06372865 2.5 mg - Placebo). Stage 1: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||1.54|0.23|
92434911|NCT02310568|184755529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26|||||TWO_SIDED|90.0|0.69|2.32|||Regression, Logistic|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Stage 1: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||2.32|0.69|
92434912|NCT02310568|184755529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24|||||TWO_SIDED|90.0|0.27|5.78|||Regression, Logistic|||(PF-06372865 7.5 mg - Placebo). Stage 2: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||5.78|0.27|
92434913|NCT02310568|184755529|SUPERIORITY_OR_OTHER||Odds Ratio, log|2.13|||||TWO_SIDED|90.0|0.19|24.51|||Regression, Logistic|||(PF-06372865 2.5 mg - Placebo). Stage 2: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||24.51|0.19|
92434914|NCT02310568|184755529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58|||||TWO_SIDED|90.0|0.16|2.09|||Regression, Logistic|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Stage 2: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||2.09|0.16|
92434915|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.801|TWO_SIDED|90.0|-0.4|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.4|0.801
92434916|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.416|TWO_SIDED|90.0|-0.5|0.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.2|-0.5|0.416
92434917|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.23||0.634|TWO_SIDED|90.0|-0.3|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.5|-0.3|0.634
92434918|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.47|TWO_SIDED|90.0|-0.6|0.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.2|-0.6|0.470
92434919|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.683|TWO_SIDED|90.0|-0.5|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.5|0.683
92434920|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.775|TWO_SIDED|90.0|-0.5|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.4|-0.5|0.775
92434921|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.24||0.848|TWO_SIDED|90.0|-0.4|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.4|0.848
92434922|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.23||0.49|TWO_SIDED|90.0|-0.2|0.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.6|-0.2|0.490
92434923|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.27||0.433|TWO_SIDED|90.0|-0.7|0.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.2|-0.7|0.433
92434924|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.25||0.796|TWO_SIDED|90.0|-0.4|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.5|-0.4|0.796
92434925|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.25||0.624|TWO_SIDED|90.0|-0.3|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.5|-0.3|0.624
92434926|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.844|TWO_SIDED|90.0|-0.5|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.4|-0.5|0.844
92434927|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.5||0.743|TWO_SIDED|90.0|-0.7|1.0|||LS Mean Difference|||(PF-06372865 7.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.0|-0.7|0.743
92434928|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.48||0.356|TWO_SIDED|90.0|-1.3|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.4|-1.3|0.356
92434929|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.45||0.18|TWO_SIDED|90.0|-0.2|1.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.4|-0.2|0.180
92434930|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.53||0.589|TWO_SIDED|90.0|-0.6|1.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.2|-0.6|0.589
92171126|NCT03089125|184231403|SUPERIORITY||Between-group diff in change per 8 weeks|-0.06||||0.71|TWO_SIDED|95.0|-0.38|0.26|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||0.26|-0.38|0.710
92434931|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.51||0.873|TWO_SIDED|90.0|-0.8|1.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.0|-0.8|0.873
92434932|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.48||0.667|TWO_SIDED|90.0|-0.6|1.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.0|-0.6|0.667
92434933|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.47||0.548|TWO_SIDED|90.0|-0.5|1.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.1|-0.5|0.548
92171127|NCT03089125|184231404|SUPERIORITY||Between-group diff in change per 8 weeks|0.38||||0.677|TWO_SIDED|95.0|-1.4|2.16|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||2.16|-1.40|0.677
92434934|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.45||0.567|TWO_SIDED|90.0|-1.0|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.5|-1.0|0.567
92434935|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.42||0.208|TWO_SIDED|90.0|-0.2|1.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.3|-0.2|0.208
92434936|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.6||0.858|TWO_SIDED|90.0|-1.2|0.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.9|-1.2|0.858
92171128|NCT03089125|184231405|SUPERIORITY||Between-group diff in change per 8 weeks|-1.95||||0.33|TWO_SIDED|95.0|-5.87|1.97|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||1.97|-5.87|0.330
92171129|NCT03089125|184231406|SUPERIORITY||Between-group diff in change per 8 weeks|0.73||||0.098|TWO_SIDED|95.0|-0.13|1.59|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||1.59|-0.13|0.098
92434937|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.58||0.329|TWO_SIDED|90.0|-1.7|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-1.7|0.329
92434938|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.54||0.272|TWO_SIDED|90.0|-0.4|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-0.4|0.272
92434939|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.33||0.946|TWO_SIDED|90.0|-0.6|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.5|-0.6|0.946
92434940|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.407|TWO_SIDED|90.0|-0.8|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.3|-0.8|0.407
92434941|NCT02310568|184755530|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.31||0.436|TWO_SIDED|90.0|-0.3|0.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.8|-0.3|0.436
92434942|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.325|TWO_SIDED|90.0|-0.6|0.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.1|-0.6|0.325
92434943|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.996|TWO_SIDED|90.0|-0.3|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.3|0.996
92434944|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.377|TWO_SIDED|90.0|-0.6|0.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.2|-0.6|0.377
92434945|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.24||0.291|TWO_SIDED|90.0|-0.7|0.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.1|-0.7|0.291
92434946|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.24||0.925|TWO_SIDED|90.0|-0.4|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.4|-0.4|0.925
92434947|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.27||0.39|TWO_SIDED|90.0|-0.7|0.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.2|-0.7|0.390
92434948|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.29||0.502|TWO_SIDED|90.0|-0.7|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.7|0.502
92434949|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.29||0.348|TWO_SIDED|90.0|-0.2|0.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.7|-0.2|0.348
92434950|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.33||0.16|TWO_SIDED|90.0|-1.0|0.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.1|-1.0|0.160
92434951|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.965|TWO_SIDED|90.0|-0.5|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.5|-0.5|0.965
92434952|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.389|TWO_SIDED|90.0|-0.2|0.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.7|-0.2|0.389
92434953|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.34||0.433|TWO_SIDED|90.0|-0.8|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.8|0.433
92434954|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.94|TWO_SIDED|90.0|-0.9|0.8|||LS Mean Difference|||(PF-06372865 7.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.8|-0.9|0.940
92434955|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.49||0.757|TWO_SIDED|90.0|-1.0|0.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.7|-1.0|0.757
92434956|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.46||0.836|TWO_SIDED|90.0|-0.7|0.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.9|-0.7|0.836
92434957|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.56||0.827|TWO_SIDED|90.0|-0.9|1.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.1|-0.9|0.827
92279883|NCT02637557|184463074|SUPERIORITY||Odds Ratio (OR)|1.97||||0.1463|TWO_SIDED|95.0|0.79|4.91||Odds ratio, 95% CI (Confidence Interval) for the Odds Ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||4.91|0.79|0.1463
92434958|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.55||0.507|TWO_SIDED|90.0|-0.6|1.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.3|-0.6|0.507
92434959|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.51||0.632|TWO_SIDED|90.0|-1.1|0.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.6|-1.1|0.632
92434960|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.51||0.442|TWO_SIDED|90.0|-0.5|1.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.3|-0.5|0.442
92434961|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.5||0.643|TWO_SIDED|90.0|-1.1|0.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.6|-1.1|0.643
92434962|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.47||0.188|TWO_SIDED|90.0|-0.2|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-0.2|0.188
92434963|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.65||0.701|TWO_SIDED|90.0|-1.4|0.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.9|-1.4|0.701
92434964|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.63||0.271|TWO_SIDED|90.0|-1.8|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.4|-1.8|0.271
92434965|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.6||0.445|TWO_SIDED|90.0|-0.6|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-0.6|0.445
92434966|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.36||0.714|TWO_SIDED|90.0|-0.8|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.5|-0.8|0.714
92434967|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.35||0.515|TWO_SIDED|90.0|-0.8|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.4|-0.8|0.515
92434968|NCT02310568|184755531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.34||0.778|TWO_SIDED|90.0|-0.5|0.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.7|-0.5|0.778
92434969|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.93||0.562|TWO_SIDED|90.0|-2.1|1.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.0|-2.1|0.562
92434970|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.92||0.708|TWO_SIDED|90.0|-1.9|1.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.2|-1.9|0.708
92434971|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.05||0.852|TWO_SIDED|90.0|-1.9|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-1.9|0.852
92434972|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.14||0.347|TWO_SIDED|90.0|-3.0|0.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.8|-3.0|0.347
92434973|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.14||0.759|TWO_SIDED|90.0|-2.2|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-2.2|0.759
92434974|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.28||0.574|TWO_SIDED|90.0|-2.9|1.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.4|-2.9|0.574
92434975|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.09||0.831|TWO_SIDED|90.0|-2.1|1.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.6|-2.1|0.831
92434976|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.1||0.705|TWO_SIDED|90.0|-1.4|2.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.3|-1.4|0.705
92434977|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.24||0.6|TWO_SIDED|90.0|-2.7|1.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.4|-2.7|0.600
92434978|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.23||0.848|TWO_SIDED|90.0|-2.3|1.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.8|-2.3|0.848
92434979|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.24||0.237|TWO_SIDED|90.0|-0.6|3.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.5|-0.6|0.237
92434980|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|1.4||0.224|TWO_SIDED|90.0|-4.0|0.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.6|-4.0|0.224
92434981|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.38||0.747|TWO_SIDED|90.0|-1.9|2.8|||LS Mean Difference|||(PF-06372865 7.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.8|-1.9|0.747
92434982|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.37||0.764|TWO_SIDED|90.0|-2.8|2.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28). Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.0|-2.8|0.764
92434983|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.22||0.487|TWO_SIDED|90.0|-1.3|3.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.0|-1.3|0.487
92434984|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.53||0.744|TWO_SIDED|90.0|-2.1|3.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.2|-2.1|0.744
92434985|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.52||0.34|TWO_SIDED|90.0|-1.1|4.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||4.1|-1.1|0.340
92434986|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.36||0.477|TWO_SIDED|90.0|-3.3|1.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.4|-3.3|0.477
92434987|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.51||0.482|TWO_SIDED|90.0|-1.5|3.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.7|-1.5|0.482
92434988|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.49||0.719|TWO_SIDED|90.0|-3.1|2.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.0|-3.1|0.719
92434989|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.36||0.245|TWO_SIDED|90.0|-0.7|4.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||4.0|-0.7|0.245
92434990|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.93||0.586|TWO_SIDED|90.0|-2.3|4.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||4.4|-2.3|0.586
92434991|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|1.9||0.44|TWO_SIDED|90.0|-4.8|1.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.8|-4.8|0.440
92434992|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.75||0.159|TWO_SIDED|90.0|-0.5|5.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||5.6|-0.5|0.159
92434993|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.15||0.72|TWO_SIDED|90.0|-1.6|2.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||2.4|-1.6|0.720
92434994|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.13||0.991|TWO_SIDED|90.0|-2.0|1.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||1.9|-2.0|0.991
92434995|NCT02310568|184755534|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.12||0.704|TWO_SIDED|90.0|-1.5|2.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||2.4|-1.5|0.704
92434996|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.82||0.539|TWO_SIDED|90.0|-0.9|1.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.9|-0.9|0.539
92434997|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.78||0.439|TWO_SIDED|90.0|-0.7|1.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.9|-0.7|0.439
92434998|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.92||0.914|TWO_SIDED|90.0|-1.6|1.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.4|-1.6|0.914
92434999|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.86||0.892|TWO_SIDED|90.0|-1.3|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-1.3|0.892
92435000|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.82||0.463|TWO_SIDED|90.0|-0.8|2.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.0|-0.8|0.463
92435001|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.95||0.611|TWO_SIDED|90.0|-2.1|1.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.1|-2.1|0.611
92435002|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.88||0.321|TWO_SIDED|90.0|-0.6|2.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.4|-0.6|0.321
92435003|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.85||0.294|TWO_SIDED|90.0|-0.5|2.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.3|-0.5|0.294
92435004|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.99||0.987|TWO_SIDED|90.0|-1.7|1.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.6|-1.7|0.987
92435005|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.04||0.599|TWO_SIDED|90.0|-1.2|2.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.3|-1.2|0.599
92435006|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.0||0.322|TWO_SIDED|90.0|-0.7|2.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.6|-0.7|0.322
92435007|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.17||0.704|TWO_SIDED|90.0|-2.4|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-2.4|0.704
92435008|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.38||0.804|TWO_SIDED|90.0|-2.0|2.7|||LS Mean Difference|||(PF-06372865 7.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.7|-2.0|0.804
92435009|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.38||0.559|TWO_SIDED|90.0|-3.2|1.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.6|-3.2|0.559
92435010|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.27||0.369|TWO_SIDED|90.0|-1.0|3.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.4|-1.0|0.369
92435011|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.56||0.313|TWO_SIDED|90.0|-1.1|4.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||4.3|-1.1|0.313
92435012|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.56||0.56|TWO_SIDED|90.0|-1.8|3.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.6|-1.8|0.560
92435013|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.43||0.635|TWO_SIDED|90.0|-1.8|3.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.2|-1.8|0.635
92435014|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.62||0.538|TWO_SIDED|90.0|-1.8|3.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.8|-1.8|0.538
92435015|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.6||0.942|TWO_SIDED|90.0|-2.7|2.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.9|-2.7|0.942
92435016|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.5||0.555|TWO_SIDED|90.0|-1.7|3.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.5|-1.7|0.555
92435017|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.96||0.728|TWO_SIDED|90.0|-4.1|2.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.7|-4.1|0.728
92435018|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.95||0.362|TWO_SIDED|90.0|-5.2|1.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.6|-5.2|0.362
92435019|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.81||0.538|TWO_SIDED|90.0|-2.0|4.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||4.3|-2.0|0.538
92435020|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.11||0.949|TWO_SIDED|90.0|-2.0|1.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||1.8|-2.0|0.949
92435021|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.09||0.708|TWO_SIDED|90.0|-2.3|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||1.5|-2.3|0.708
92435022|NCT02310568|184755535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.07||0.752|TWO_SIDED|90.0|-1.5|2.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||2.2|-1.5|0.752
92279884|NCT02637557|184463075|SUPERIORITY||LS Mean Difference|-0.298||||0.5504|TWO_SIDED|95.0|-1.279|0.683||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.683|-1.279|0.5504
92435023|NCT02310568|184755536|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|90.0|0.37|2.45|||Regression, Logistic|||(PF-06372865 7.5 mg - Placebo). Logistic regression model includes treatment as fixed effect, and baseline as covariate. Baseline for Stage 1 is Day 1 and Stage 2 is Week 4 (Day 28).||2.45|0.37|
92435024|NCT02310568|184755536|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64|||||TWO_SIDED|90.0|0.39|6.88|||Regression, Logistic|||(PF-06372865 2.5 mg - Placebo). Logistic regression model includes treatment as fixed effect, and baseline as covariate. Baseline for Stage 1 is Day 1 and Stage 2 is Week 4 (Day 28).||6.88|0.39|
92237976|NCT03408873|184380138|OTHER||Mean Difference (Final Values)|-5.8|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared for the primary and secondary outcomes across two sets of time-points: 1) difference between screen and week 24, and 2) between baseline and week 24. A non-parametric Wilcoxon signed-rank test compared these repeated measurements (matched on participant) between these time-points to determine whether the population medians differed.||||<0.001
92435025|NCT02310568|184755536|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58|||||TWO_SIDED|90.0|0.23|1.49|||Regression, Logistic|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Logistic regression model includes treatment as fixed effect, and baseline as covariate. Baseline for Stage 1 is Day 1 and Stage 2 is Week 4 (Day 28).||1.49|0.23|
92435026|NCT02989194|184755542|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.158||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 2. All null hypotheses were defined as no treatment difference.||||0.158
92435027|NCT02989194|184755542|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.025||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 3. All null hypotheses were defined as no treatment difference.||||0.025
92435028|NCT02989194|184755542|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.007||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 4. All null hypotheses were defined as no treatment difference.||||0.007
92435029|NCT02989194|184755542|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.061||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 5. All null hypotheses were defined as no treatment difference.||||0.061
92435030|NCT02989194|184755542|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.107||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 6. All null hypotheses were defined as no treatment difference.||||0.107
92435031|NCT02989194|184755542|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.237||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 7. All null hypotheses were defined as no treatment difference.||||0.237
92435032|NCT02989194|184755542|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.497||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 8. All null hypotheses were defined as no treatment difference.||||0.497
92435033|NCT02989194|184755542|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.704||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 9. All null hypotheses were defined as no treatment difference.||||0.704
92435034|NCT02989194|184755542|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.585||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 10. All null hypotheses were defined as no treatment difference.||||0.585
92435035|NCT02989194|184755553|SUPERIORITY|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.083|||||||t-test, 2 sided|||A t-test was used to assess the difference between the VIS410 total and placebo treatment groups from nasopharyngeal swabs based on the TCID50.||||0.083
92435036|NCT02989194|184755554|SUPERIORITY|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.169||||||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.|t-test, 2 sided|||The null hypothesis was defined as no treatment difference.||||0.169
92435037|NCT02989194|184755555|SUPERIORITY|Descriptive Statistics. Statistical comparisons were performed using log rank test.||||||0.028||||||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.|Log Rank|||Kaplan-Meier methods were used to calculate the median time. All null hypotheses were defined as no treatment difference.|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level, unless specifically stated otherwise. All null hypotheses were defined as no treatment difference. All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.|||0.028
92435038|NCT02989194|184755557|EQUIVALENCE|Descriptive Statistics. All statistical comparisons were performed at the 0.05 significance level.||||||0.173||||||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.|Log Rank|Kaplan-Meier methods were used to calculate the median time, 25th percentile and 75th percentile.||All null hypotheses were defined as no treatment difference.||||0.173
92435039|NCT02670083|184755558|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.354|||TWO_SIDED|95.0|-0.86|0.53||||||||0.53|-0.86|
92435040|NCT02670083|184755559|SUPERIORITY||Least Squares Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|1.083|||TWO_SIDED|95.0|-2.39|1.87||||||||1.87|-2.39|
92435041|NCT02670083|184755560|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.006|||TWO_SIDED|95.0|-2.08|1.88||||||||1.88|-2.08|
92435042|NCT02670083|184755561|SUPERIORITY||Least Squares Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.076|||TWO_SIDED|95.0|-0.1|0.2||||||||0.20|-0.10|
92435043|NCT02670083|184755562|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.486|||TWO_SIDED|95.0|-0.62|1.29||||||||1.29|-0.62|
92435044|NCT02670083|184755563|SUPERIORITY||Least Squares Mean Difference|1.88|STANDARD_ERROR_OF_MEAN|1.679|||TWO_SIDED|95.0|-1.43|5.18||||||||5.18|-1.43|
92435045|NCT02670083|184755564|SUPERIORITY||Least Squares Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|1.306|||TWO_SIDED|95.0|-1.35|3.79||||||||3.79|-1.35|
92435046|NCT02670083|184755566|SUPERIORITY||Least Squares Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.723|||TWO_SIDED|95.0|-1.95|0.9||||||||0.90|-1.95|
92435047|NCT02670083|184755567|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.609|||TWO_SIDED|95.0|-0.81|1.6||||||||1.60|-0.81|
92435048|NCT02670083|184755568|SUPERIORITY||Least Squares Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|6.214|||TWO_SIDED|95.0|-13.64|10.86||||||||10.86|-13.64|
92435049|NCT02670083|184755569|SUPERIORITY||Least Squares Mean Difference|1.82|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-2.64|6.27||||||||6.27|-2.64|
92435050|NCT02670083|184755570|SUPERIORITY||Least Squares Mean Difference|0.94|STANDARD_ERROR_OF_MEAN|2.222|||TWO_SIDED|95.0|-3.45|5.32||||||||5.32|-3.45|
92435051|NCT02670083|184755576|SUPERIORITY||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.24|0.22||||||||0.22|-0.24|
92435052|NCT02670083|184755577|SUPERIORITY||Least Squares Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|1.245|||TWO_SIDED|95.0|-3.72|1.17||||||||1.17|-3.72|
92435053|NCT02670083|184755578|SUPERIORITY||Least Squares Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.253|||TWO_SIDED|95.0|-0.1|0.89||||||||0.89|-0.10|
92435054|NCT00711711|184755583|SUPERIORITY_OR_OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||All outcomes and control variables were compared between the treatment and the control group at each time point using the Wilcoxon rank-sum test or the chi-square test, as appropriate. The change in swelling from second day to seventh day, that is, during the treatment period, was compared using the Wilcoxon signed-rank test. The significance level was set at P\<.05.||||0.51
92435055|NCT00711711|184755584|SUPERIORITY_OR_OTHER|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||All outcomes and control variables were compared between the treatment and the control group at each time point using the Wilcoxon rank-sum test or the chi-square test, as appropriate. The change in swelling from second day to seventh day, that is, during the treatment period, was compared using the Wilcoxon signed-rank test. The significance level was set at P\<.05.||||0.58
92435056|NCT04492618|184755621|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92435057|NCT05620563|184755622|SUPERIORITY||Posterior Mean Difference|0.3|||||TWO_SIDED|95.0|-0.28|0.87|||||Posterior mean difference with 95% credible interval is reported.|||0.87|-0.28|
92435058|NCT05620563|184755623|SUPERIORITY||Posterior Mean Difference|-0.15|||||TWO_SIDED|95.0|-1.13|0.82|||||Posterior mean difference with 95% credible interval is reported.|||0.82|-1.13|
92435059|NCT05620563|184755624|SUPERIORITY||Posterior Mean Difference|-0.47|||||TWO_SIDED|95.0|-0.99|0.05|||||Posterior mean difference with 95% credible interval is reported.|||0.05|-0.99|
92435060|NCT05620563|184755625|SUPERIORITY||Posterior Mean Difference|-0.55|||||TWO_SIDED|95.0|-3.82|2.69|||||Posterior mean difference with 95% credible interval is reported.|||2.69|-3.82|
92435061|NCT05620563|184755626|SUPERIORITY||Posterior Mean Difference|0.09|||||TWO_SIDED|95.0|-0.33|0.51|||||Posterior mean difference with 95% credible interval is reported.|||0.51|-0.33|
92435062|NCT05620563|184755627|SUPERIORITY||Posterior Mean Difference|0.3|||||TWO_SIDED|95.0|-0.35|0.95|||||Posterior mean difference with 95% credible interval is reported.|||0.95|-0.35|
92435063|NCT05620563|184755628|SUPERIORITY||Posterior Mean Difference|2.2|||||TWO_SIDED|95.0|-5.7|9.99|||||Posterior mean difference with 95% credible interval is reported.|||9.99|-5.70|
92435064|NCT05620563|184755629|SUPERIORITY||Posterior Mean Difference|-0.07|||||TWO_SIDED|95.0|-0.39|0.24|||||Posterior mean difference with 95% credible interval is reported.|||0.24|-0.39|
92435065|NCT05620563|184755630|SUPERIORITY||Posterior Mean Difference|24.16|||||TWO_SIDED|95.0|-115.48|166.06|||||Posterior mean difference with 95% credible interval is reported.|||166.06|-115.48|
92435066|NCT05620563|184755631|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.09|0.08|||||Posterior mean difference with 95% credible interval is reported.|||0.08|-0.09|
92435067|NCT01111149|184755707|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for Serum Cotinine at Week 12||||>0.05
92435068|NCT01111149|184755707|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for Serum Nicotine at Week 12||||>0.05
92435069|NCT01111149|184755707|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for Urine Cotinine at Week 12||||>0.05
92435070|NCT01111149|184755707|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for Urine Nicotine at Week 12||||>0.05
92435071|NCT01111149|184755708|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||Statistical analysis for 50% Reduction in Number of Cigarettes Smoked (Week 12)||||>0.05
92435072|NCT01111149|184755708|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||Statistical Analysis for 30% Reduction in Carbon Monoxide (Week 12)||||>0.05
92435073|NCT01111149|184755708|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||Statistical Analysis for 30% Reduction in Serum Cotinine (Week 12)||||>0.05
92435074|NCT01111149|184755708|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||Statistical Analysis for 30% Reduction in Urine Cotinine (Week 12)||||>0.05
92171130|NCT03089125|184231407|SUPERIORITY||Between-group diff in change per 8 weeks|0.08||||0.845|TWO_SIDED|95.0|-0.76|0.93|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||0.93|-0.76|0.845
92435075|NCT01111149|184755709|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Total Composite (Week 12)||||>0.05
92435076|NCT01111149|184755709|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Total Global (Week 12)||||>0.05
92435077|NCT01111149|184755709|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Affective Flattening (Week 12)||||>0.05
92435078|NCT01111149|184755709|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Alogia (Week 12)||||>0.05
92435079|NCT01111149|184755709|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Avolition (Week 12)||||>0.05
92435080|NCT01111149|184755709|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Anhedonia (Week 12)||||>0.05
92435081|NCT01111149|184755709|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Attention (Week 12)||||>0.05
92435082|NCT01111149|184755709|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis of Inappropriate Affect at Week 12||||>0.05
92435083|NCT01111149|184755710|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for CPT % Omissions (Week 12)||||>0.05
92435084|NCT01111149|184755710|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for CPT% commissions (Week 12)||||>0.05
92435085|NCT01111149|184755710|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for perseveration % (week 12)||||>0.05
92435086|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Anxiety at week 12||||>0.05
92435087|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Dizziness at week 12||||>0.05
92435088|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Mania at week 12||||>0.05
92435089|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for abnormal dreams at week 12||||>0.05
92435090|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Abdominal Pain at week 12||||>0.05
92435091|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Headache at week 12||||>0.05
92435092|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Insomnia at week 12||||>0.05
92435093|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Nausea at week 12||||>0.05
92435094|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Psychosis at week 12||||>0.05
92435095|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Dry Mouth at week 12||||>0.05
92435096|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Chest Pain at Week 12||||>0.05
92435097|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Irregular Heart Beat at week 12||||>0.05
92435098|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Weakness/Fainting at week 12||||>0.05
92435099|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Diarrhea at week 12||||>0.05
92435100|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Vomiting at week 12||||>0.05
92435101|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Constipation at week 12||||>0.05
92435102|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Confusion at week 12||||>0.05
92435103|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Irritability at week 12||||>0.05
92435104|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for drooling at week 12||||>0.05
92435105|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Cold Sweats at week 12||||>0.05
92435106|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Blurred Vision at week 12||||>0.05
92435107|NCT01111149|184755711|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Leg Pain/Cramps||||>0.05
92435108|NCT01111149|184755712|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for FTND (Week 12)||||>0.05
92435109|NCT01111149|184755712|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for MNWS 24 Hour Total (Week 12)||||>0.05
92435110|NCT01111149|184755712|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for MNWS 7 day total (Week 12)||||>0.05
92435111|NCT01111149|184755712|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for MNWS Resistance (Week 12)||||>0.05
92435112|NCT01111149|184755713|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis of Beck Depression Inventory (Week 12)||||>0.05
92435113|NCT01111149|184755714|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SAS (Week 12)||||>0.05
92435114|NCT01111149|184755714|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BAS items 1-3 (week 12)||||>0.05
92435115|NCT01111149|184755714|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BAS item 4 (Week 12)||||>0.05
92435116|NCT01111149|184755715|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for systolic blood pressure (Week 12)||||>0.05
92435117|NCT01111149|184755715|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for diastolic blood pressure (Week 12)||||>0.05
92435118|NCT01111149|184755716|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Vital Signs - Weight (Week 12)||||>0.05
92435119|NCT01111149|184755717|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Smoking Abstinence - Number of Cigarettes Smoked (Week 12)||||>0.05
92435120|NCT01111149|184755718|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Smoking Abstinence - Exhaled Carbon Monoxide (Week 12)||||>0.05
92435121|NCT01111149|184755719|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Vital Signs - Pulse (Week 12)||||>0.05
92435122|NCT01111149|184755720|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Lifetime Suicidal Ideation (Week 12)||||>0.05
92435123|NCT01111149|184755720|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Lifetime Suicide Attempts (Week 12)||||>0.05
92435124|NCT01111149|184755721|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SAPS Total Composite Score - Week 12||||>0.05
92435125|NCT01111149|184755721|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SAPS Total Global - Week 12||||>0.05
92435126|NCT01111149|184755721|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SAPS Hallucinations - Week 12||||>0.05
92435127|NCT01111149|184755721|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Delusions - Week 12||||>0.05
92435128|NCT01111149|184755721|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for SAPS Bizarre Behavior - Week 12||||>0.05
92435129|NCT01111149|184755721|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SAPS Thought Disorder - Week 12||||>0.05
92435130|NCT01111149|184755722|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BPRS Total - Week 12||||>0.05
92435131|NCT01111149|184755722|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BPRS Positive Subscale - Week 12||||>0.05
92435132|NCT01111149|184755722|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BPRS Negative Subscale - Week 12||||>0.05
92435133|NCT01111149|184755722|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Mania Subscale - Week 12||||>0.05
92435134|NCT01111149|184755722|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Disorientation Subscale - Week 12||||>0.05
92435135|NCT01111149|184755722|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BPRS Depression Subscale - Week 12||||>0.05
92435136|NCT01111149|184755723|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Hit Reaction Time - CPT (Week 12)||||>0.05
92435137|NCT01111149|184755724|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Variability of Standard Error - CPT (Week 12)||||>0.05
92435138|NCT01111149|184755725|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Detectibility (d') of Continuous Performance Test (Week 12)||||>0.05
92435139|NCT01111149|184755726|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Response Style Indicator (Beta) for CPT (week 12)||||>0.05
92435140|NCT01111149|184755727|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for WISDM Total (Week 12)||||>0.05
92435141|NCT01111149|184755727|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for WISDM Cognition (Week 12)||||>0.05
92435142|NCT01111149|184755727|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for WISDM Craving (Week 12)||||>0.05
92435143|NCT01111149|184755728|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for MNWS % Urge to Smoke (Week 12)||||>0.05
92435144|NCT01111149|184755728|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for MNWS % Strong Urge (Week 12)||||>0.05
92435145|NCT01111149|184755729|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for AIMS Total (Week 12)||||>0.05
92435146|NCT01111149|184755729|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for AIMS Severity Index (Week 12)||||>0.05
92435147|NCT01111149|184755729|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for AIMS Global Score (Week 12)||||>0.05
92435148|NCT02221947|184755733|OTHER||mean Tmax(h)|0.92|||||TWO_SIDED||||||||SD=0.206|Bryostatin plasma concentration: mean Tmax (h)||||
92435149|NCT02221947|184755733|OTHER||mean (h*ng/mL)|1.05|||||TWO_SIDED||||||||SD=0.330|Bryostatin plasma concentration AUC0-last (h\*ng/mL)||||
92435150|NCT01574326|184755747|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-0.9||||0.001|TWO_SIDED|95.0|-1.44|-0.37|||ANCOVA|Threshold for significance ≤ 0.05.||Primary efficacy endpoint, change from baseline to Week 2 in serum phosphorus, was compared between treatment groups using analysis of covariance (ANCOVA) with baseline phosphorus and screening BSA as covariates and fixed effect for treatment. No center effect was included in the model. The estimate of the treatment difference (Sevelamer Carbonate - Placebo) and its 95% CI were presented. Significance was to be declared if the p-value was ≤0.05.||-0.37|-1.44|0.001
92435151|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.01||||90.0|-0.041|-0.007|||ANCOVA|||Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.007|-0.041|
92435152|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.022|STANDARD_ERROR_OF_MEAN|0.011||||90.0|-0.04|-0.003|||ANCOVA|||Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.003|-0.040|
92435153|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.012||||90.0|-0.038|0.001|||ANCOVA|||Month 9; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.001|-0.038|
92435154|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.012||||90.0|-0.058|-0.019|||ANCOVA|||Month 12; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.019|-0.058|
92435155|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.065|-0.02|||ANCOVA|||Month 15; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.020|-0.065|
92435156|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.043|0.002|||ANCOVA|||Month 18; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.002|-0.043|
92435157|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.043|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.066|-0.02|||ANCOVA|||Month 21; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.020|-0.066|
92435158|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.015||||90.0|-0.058|-0.009|||ANCOVA|||Month 24; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.009|-0.058|
92435159|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.015||||90.0|-0.039|0.009|||ANCOVA|||Follow-up Month 1; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.009|-0.039|
92435160|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.027|0.017|||ANCOVA|||Follow-up Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.017|-0.027|
92435161|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.015||||90.0|-0.037|0.012|||ANCOVA|||Follow-up Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.012|-0.037|
92435162|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.019||||90.0|-0.076|-0.014|||ANCOVA|||Extension Month 1; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.014|-0.076|
92435163|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.019||||90.0|-0.076|-0.013|||ANCOVA|||Extension Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.013|-0.076|
92435164|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.019||||90.0|-0.071|-0.008|||ANCOVA|||Extension Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.008|-0.071|
92435165|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.041|STANDARD_ERROR_OF_MEAN|0.02||||90.0|-0.074|-0.008|||ANCOVA|||Extension Month 9; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.008|-0.074|
92435166|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.056|STANDARD_ERROR_OF_MEAN|0.019||||90.0|-0.088|-0.025|||ANCOVA|||Extension Month 12; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.025|-0.088|
92171131|NCT03089125|184231408|SUPERIORITY||Between-group diff in change per 8 weeks|0.74||||0.837|TWO_SIDED|95.0|-6.33|7.77|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||7.77|-6.33|0.837
92279885|NCT02637557|184463075|SUPERIORITY||LS Mean Difference|0.252||||0.6177|TWO_SIDED|95.0|-0.741|1.244||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||1.244|-0.741|0.6177
92435167|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.019||||90.0|-0.071|-0.007|||ANCOVA|||Extension Month 15; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.007|-0.071|
92435168|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044|STANDARD_ERROR_OF_MEAN|0.021||||90.0|-0.079|-0.01|||ANCOVA|||Extension Month 18; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.010|-0.079|
92435169|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.022||||90.0|-0.055|0.016|||ANCOVA|||Extension Month 21; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.016|-0.055|
92435170|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.022||||90.0|-0.079|-0.004|||ANCOVA|||Extension Month 24; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.004|-0.079|
92435171|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.055|STANDARD_ERROR_OF_MEAN|0.022||||90.0|-0.091|-0.019|||ANCOVA|||Extension Month 27; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.019|-0.091|
92435172|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.022||||90.0|-0.081|-0.01|||ANCOVA|||Extension Month 30; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.010|-0.081|
92435173|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.036|STANDARD_ERROR_OF_MEAN|0.023||||90.0|-0.073|0.002|||ANCOVA|||Extension Month 33; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.002|-0.073|
92435174|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.079|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.121|-0.038|||ANCOVA|||Extension Month 36; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.038|-0.121|
92435175|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.038||||90.0|-0.124|0.003|||ANCOVA|||Extension Month 39; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.003|-0.124|
92171132|NCT03683069|184231412|SUPERIORITY|||||||0.823|||||||Regression, Linear|||adjusted to medication dose, sex, age, race||||0.823
92171133|NCT03683069|184231412|SUPERIORITY|||||||0.839|||||||Regression, Linear|||diastolic bp adjusted for medication dose sex,age, race||||.8390
92171134|NCT03683069|184231413|SUPERIORITY|||||||0.0101|||||||Wilcoxon (Mann-Whitney)|||||||.0101
92435176|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.02||||90.0|-0.098|-0.033|||ANCOVA|||Extension Month 39 (LOCF); Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.033|-0.098|
92435177|NCT00137046|184755750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.085|-0.004|||ANCOVA|||Extension Follow Up Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.004|-0.085|
92279886|NCT02637557|184463075|SUPERIORITY||LS Mean Difference|0.513||||0.3138|TWO_SIDED|95.0|-0.488|1.513||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||1.513|-0.488|0.3138
92279887|NCT02637557|184463076|SUPERIORITY||LS Mean Difference|0.019||||0.9675|TWO_SIDED|95.0|-0.897|0.935||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.935|-0.897|0.9675
92435178|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.055||||90.0|-0.06|0.122|||ANCOVA|||Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.122|-0.060|
92435179|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.062||||90.0|0.033|0.239|||ANCOVA|||Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.239|0.033|
92435180|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.068||||90.0|0.0|0.224|||ANCOVA|||Month 9; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.224|-0.000|
92435181|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.257|STANDARD_ERROR_OF_MEAN|0.071||||90.0|0.141|0.374|||ANCOVA|||Month 12; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.374|0.141|
92435182|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.071||||90.0|0.04|0.273|||ANCOVA|||Month 15; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.273|0.040|
92435183|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.072||||90.0|0.065|0.3|||ANCOVA|||Month 18; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.300|0.065|
92171135|NCT03683069|184231414|SUPERIORITY|||||||0.59|||||||ANOVA|||||||0.59
92279888|NCT02637557|184463076|SUPERIORITY||LS Mean Difference|0.419||||0.3741|TWO_SIDED|95.0|-0.507|1.345||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||1.345|-0.507|0.3741
92435184|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.078||||90.0|0.06|0.319|||ANCOVA|||Month 21; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.319|0.060|
92435185|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.316|STANDARD_ERROR_OF_MEAN|0.077||||90.0|0.19|0.443|||ANCOVA|||Month 24; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.443|0.190|
92435186|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.079||||90.0|-0.037|0.224|||ANCOVA|||Follow-up Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.224|-0.037|
92171136|NCT03683069|184231415|SUPERIORITY||Hazard Ratio, log|0.7022||||0.09|TWO_SIDED||||||Kaplan-Meier using Gehan-Breslow-Wilcoxo|||||||.09
92171137|NCT02605837|184231417|SUPERIORITY||Difference in proportion of responders|0.52|||<|0.001||95.0|0.433|0.591|||Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) adjusted difference in proportion with corresponding Newcombe confidence interval (CI) and odds ratio with corresponding CI were based on CMH test stratified by age group and diet restriction.||0.591|0.433|<0.001
92279889|NCT02637557|184463076|SUPERIORITY||LS Mean Difference|0.461||||0.3275|TWO_SIDED|95.0|-0.464|1.385||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||1.385|-0.464|0.3275
92279890|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|0.023||||0.856|TWO_SIDED|95.0|-0.226|0.272||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.272|-0.226|0.8560
92435187|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.075||||90.0|-0.103|0.145|||ANCOVA|||Follow-up Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.145|-0.103|
92435188|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.082||||90.0|-0.023|0.248|||ANCOVA|||Extension Month 1; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.248|-0.023|
92435189|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.273|STANDARD_ERROR_OF_MEAN|0.089||||90.0|0.126|0.419|||ANCOVA|||Extension Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.419|0.126|
92435190|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.363|STANDARD_ERROR_OF_MEAN|0.087||||90.0|0.219|0.507|||ANCOVA|||Extension Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.507|0.219|
92435191|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|STANDARD_ERROR_OF_MEAN|0.091||||90.0|0.128|0.428|||ANCOVA|||Extension Month 9; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.428|0.128|
92435192|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.293|STANDARD_ERROR_OF_MEAN|0.091||||90.0|0.144|0.442|||ANCOVA|||Extension Month 12; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.442|0.144|
92435193|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.094||||90.0|0.058|0.369|||ANCOVA|||Extension Month 15; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.369|0.058|
92435194|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.243|STANDARD_ERROR_OF_MEAN|0.086||||90.0|0.101|0.386|||ANCOVA|||Extension Month 18; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.386|0.101|
92279891|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|0.124||||0.3301|TWO_SIDED|95.0|-0.126|0.373||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.373|-0.126|0.3301
92435195|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.227|STANDARD_ERROR_OF_MEAN|0.09||||90.0|0.079|0.376|||ANCOVA|||Extension Month 21; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.376|0.079|
92435196|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.225|STANDARD_ERROR_OF_MEAN|0.089||||90.0|0.079|0.372|||ANCOVA|||Extension Month 24; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.372|0.079|
92435197|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.211|STANDARD_ERROR_OF_MEAN|0.095||||90.0|0.055|0.368|||ANCOVA|||Extension Month 27; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.368|0.055|
92435198|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.331|STANDARD_ERROR_OF_MEAN|0.092||||90.0|0.18|0.483|||ANCOVA|||Extension Month 30; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.483|0.180|
92435199|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.462|STANDARD_ERROR_OF_MEAN|0.097||||90.0|0.302|0.622|||ANCOVA|||Extension Month 33; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.622|0.302|
92435200|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.115||||90.0|0.221|0.6|||ANCOVA|||Extension Month 36; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.600|0.221|
92435201|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.451|STANDARD_ERROR_OF_MEAN|0.161||||90.0|0.183|0.718|||ANCOVA|||Extension Month 39; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.718|0.183|
92435202|NCT00137046|184755752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032|STANDARD_ERROR_OF_MEAN|0.124||||90.0|-0.174|0.237|||ANCOVA|||Extension Follow Up Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.237|-0.174|
92435203|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.81|STANDARD_ERROR_OF_MEAN|6.33||||90.0|-25.24|-4.39|||ANCOVA|||Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-4.39|-25.24|
92435204|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.83|STANDARD_ERROR_OF_MEAN|6.27||||90.0|-35.16|-14.51|||ANCOVA|||Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-14.51|-35.16|
92435205|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.16|STANDARD_ERROR_OF_MEAN|6.92||||90.0|-37.56|-14.75|||ANCOVA|||Month 9; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-14.75|-37.56|
92435206|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.46|STANDARD_ERROR_OF_MEAN|6.74||||90.0|-30.56|-8.36|||ANCOVA|||Month 12; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-8.36|-30.56|
92435207|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.97|STANDARD_ERROR_OF_MEAN|6.65||||90.0|-50.93|-29.0|||ANCOVA|||Month 15; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-29.00|-50.93|
92435208|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.08|STANDARD_ERROR_OF_MEAN|7.02||||90.0|-27.65|-4.51|||ANCOVA|||Month 18; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-4.51|-27.65|
92435209|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.54|STANDARD_ERROR_OF_MEAN|6.76||||90.0|-24.69|-2.39|||ANCOVA|||Month 21; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-2.39|-24.69|
92435210|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.86|STANDARD_ERROR_OF_MEAN|7.29||||90.0|-30.88|-6.84|||ANCOVA|||Month 24; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-6.84|-30.88|
92435211|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.56|STANDARD_ERROR_OF_MEAN|8.12||||90.0|-9.83|16.96|||ANCOVA|||Follow-up Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin.Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||16.96|-9.83|
92435212|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|STANDARD_ERROR_OF_MEAN|8.2||||90.0|-31.32|-4.27|||ANCOVA|||Extension Month 1; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-4.27|-31.32|
92435213|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.71|STANDARD_ERROR_OF_MEAN|7.72||||90.0|-33.44|-7.99|||ANCOVA|||Extension Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-7.99|-33.44|
92435214|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|7.8||||90.0|-11.06|14.66|||ANCOVA|||Extension Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||14.66|-11.06|
92435215|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.72|STANDARD_ERROR_OF_MEAN|9.02||||90.0|-23.61|6.17|||ANCOVA|||Extension Month 9; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||6.17|-23.61|
92435216|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.34|STANDARD_ERROR_OF_MEAN|7.84||||90.0|-29.28|-3.4|||ANCOVA|||Extension Month 12; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-3.40|-29.28|
92435217|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.99|STANDARD_ERROR_OF_MEAN|8.25||||90.0|-26.6|0.63|||ANCOVA|||Extension Month 15; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||0.63|-26.60|
92435218|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.22|STANDARD_ERROR_OF_MEAN|8.58||||90.0|-24.39|3.94|||ANCOVA|||Extension Month 18; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||3.94|-24.39|
92435219|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.64|STANDARD_ERROR_OF_MEAN|8.82||||90.0|-43.19|-14.09|||ANCOVA|||Extension Month 21; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-14.09|-43.19|
92435220|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.99|STANDARD_ERROR_OF_MEAN|8.91||||90.0|-23.69|5.71|||ANCOVA|||Extension Month 24; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||5.71|-23.69|
92435221|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.52|STANDARD_ERROR_OF_MEAN|8.8||||90.0|-24.04|5.0|||ANCOVA|||Extension Month 27; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||5.00|-24.04|
92435222|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|8.67||||90.0|-24.71|3.92|||ANCOVA|||Extension Month 30; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||3.92|-24.71|
92435223|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.17|STANDARD_ERROR_OF_MEAN|9.24||||90.0|-21.42|9.09|||ANCOVA|||Extension Month 33; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||9.09|-21.42|
92435224|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.39|STANDARD_ERROR_OF_MEAN|9.44||||90.0|-20.98|10.21|||ANCOVA|||Extension Month 36; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||10.21|-20.98|
92435225|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.58|STANDARD_ERROR_OF_MEAN|13.77||||90.0|-38.43|7.26|||ANCOVA|||Extension Month 39; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||7.26|-38.43|
92435226|NCT00137046|184755755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.84|STANDARD_ERROR_OF_MEAN|11.27||||90.0|-15.79|21.46|||ANCOVA|||Extension Follow Up Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||21.46|-15.79|
92435227|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.523|STANDARD_ERROR_OF_MEAN|0.196||||90.0|-0.846|-0.199|||ANCOVA|||Month 3; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.199|-0.846|
92435228|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.113|STANDARD_ERROR_OF_MEAN|0.26||||90.0|-1.541|-0.685|||ANCOVA|||Month 6; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.685|-1.541|
92435229|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.359|STANDARD_ERROR_OF_MEAN|0.29||||90.0|-1.836|-0.882|||ANCOVA|||Month 9; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.882|-1.836|
92237977|NCT03408873|184380139|OTHER||Mean Difference (Final Values)|-16.6|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
92435230|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.184|STANDARD_ERROR_OF_MEAN|0.314||||90.0|-1.702|-0.666|||ANCOVA|||Month 12; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.666|-1.702|
92435231|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.426|STANDARD_ERROR_OF_MEAN|0.338||||90.0|-1.984|-0.869|||ANCOVA|||Month 15; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.869|-1.984|
92435232|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.717|STANDARD_ERROR_OF_MEAN|0.384||||90.0|-2.35|-1.084|||ANCOVA|||Month 18; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-1.084|-2.350|
92435233|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.273|STANDARD_ERROR_OF_MEAN|0.411||||90.0|-1.95|-0.596|||ANCOVA|||Month 21; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.596|-1.950|
92435234|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.069|STANDARD_ERROR_OF_MEAN|0.439||||90.0|-1.792|-0.346|||ANCOVA|||Month 24; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.346|-1.792|
92435235|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.785|STANDARD_ERROR_OF_MEAN|0.418||||90.0|-1.475|-0.096|||ANCOVA|||Follow-up Month 3; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.096|-1.475|
92435236|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.445|STANDARD_ERROR_OF_MEAN|0.406||||90.0|-1.114|0.224|||ANCOVA|||Follow-up Month 6; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||0.224|-1.114|
92279892|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.019||||0.8845|TWO_SIDED|95.0|-0.27|0.233||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.233|-0.270|0.8845
92435237|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.654||||90.0|-1.133|1.025|||ANCOVA|||Extension Month 1; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||1.025|-1.133|
92435238|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.336|STANDARD_ERROR_OF_MEAN|0.668||||90.0|-2.438|-0.235|||ANCOVA|||Extension Month 3; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.235|-2.438|
92435239|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.462|STANDARD_ERROR_OF_MEAN|0.542||||90.0|-2.356|-0.568|||ANCOVA|||Extension Month 6; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.568|-2.356|
92435240|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.385|STANDARD_ERROR_OF_MEAN|0.564||||90.0|-2.316|-0.454|||ANCOVA|||Extension Month 9; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.454|-2.316|
92435241|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.955|STANDARD_ERROR_OF_MEAN|0.559||||90.0|-1.877|-0.034|||ANCOVA|||Extension Month 12; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.034|-1.877|
92435242|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.588||||90.0|-1.97|-0.03|||ANCOVA|||Extension Month 15; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.030|-1.970|
92435243|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.655||||90.0|-2.041|0.121|||ANCOVA|||Extension Month 18; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||0.121|-2.041|
92435244|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.667|STANDARD_ERROR_OF_MEAN|0.668||||90.0|-2.77|-0.565|||ANCOVA|||Extension Month 21; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.565|-2.770|
92435245|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.872|STANDARD_ERROR_OF_MEAN|0.692||||90.0|-3.013|-0.73|||ANCOVA|||Extension Month 24; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.730|-3.013|
92435246|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.887|STANDARD_ERROR_OF_MEAN|0.725||||90.0|-3.084|-0.69|||ANCOVA|||Extension Month 27; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.690|-3.084|
92435247|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.794|STANDARD_ERROR_OF_MEAN|0.891||||90.0|-4.264|-1.324|||ANCOVA|||Extension Month 30; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-1.324|-4.264|
92435248|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.287|STANDARD_ERROR_OF_MEAN|1.091||||90.0|-5.088|-1.485|||ANCOVA|||Extension Month 33; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-1.485|-5.088|
92435249|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.486|STANDARD_ERROR_OF_MEAN|0.857||||90.0|-2.901|-0.071|||ANCOVA|||Extension Month 36; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.071|-2.901|
92435250|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.131|STANDARD_ERROR_OF_MEAN|1.356||||90.0|-5.382|-0.88|||ANCOVA|||Extension Month 39; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.880|-5.382|
92435251|NCT00137046|184755756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.487|STANDARD_ERROR_OF_MEAN|0.866||||90.0|-2.918|-0.055|||ANCOVA|||Extension Follow Up Month 3; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.055|-2.918|
92435252|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.744|STANDARD_ERROR_OF_MEAN|0.144||||90.0|-0.981|-0.506|||ANCOVA|||Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.506|-0.981|
92237978|NCT03408873|184380139|OTHER|We compared the repeated measure outcome across 2 time-points (difference between baseline \& week 24) to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with baseline data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. The mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.|Mean Difference (Final Values)|-8.1||||0.003|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared for the primary and secondary outcomes across two sets of time-points: 1) difference between screen and week 24, and 2) between baseline and week 24. A non-parametric Wilcoxon signed-rank test compared these repeated measurements (matched on participant) between these time-points to determine whether the population medians differed.||||0.003
92435253|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.797|STANDARD_ERROR_OF_MEAN|0.167||||90.0|-1.073|-0.522|||ANCOVA|||Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.522|-1.073|
92435254|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.667|STANDARD_ERROR_OF_MEAN|0.171||||90.0|-0.949|-0.384|||ANCOVA|||Month 9; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.384|-0.949|
92435255|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.826|STANDARD_ERROR_OF_MEAN|0.181||||90.0|-1.123|-0.528|||ANCOVA|||Month 12; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.528|-1.123|
92279893|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|0.02||||0.8879|TWO_SIDED|95.0|-0.262|0.303||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.303|-0.262|0.8879
92435256|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.19||||90.0|-0.923|-0.296|||ANCOVA|||Month 15; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.296|-0.923|
92435257|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.577|STANDARD_ERROR_OF_MEAN|0.202||||90.0|-0.91|-0.245|||ANCOVA|||Month 18; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.245|-0.910|
92435258|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.613|STANDARD_ERROR_OF_MEAN|0.212||||90.0|-0.962|-0.263|||ANCOVA|||Month 21; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.263|-0.962|
92435259|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.385|STANDARD_ERROR_OF_MEAN|0.213||||90.0|-0.736|-0.034|||ANCOVA|||Month 24; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.034|-0.736|
92435260|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.211||||90.0|-0.197|0.497|||ANCOVA|||Follow-up Month 1; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.497|-0.197|
92435261|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.198||||90.0|-0.16|0.492|||ANCOVA|||Follow-up Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.492|-0.160|
92435262|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.208||||90.0|-0.274|0.411|||ANCOVA|||Follow-up Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.411|-0.274|
92435263|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.252||||90.0|-0.876|-0.043|||ANCOVA|||Extension Month 1; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.043|-0.876|
92435264|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.579|STANDARD_ERROR_OF_MEAN|0.247||||90.0|-0.986|-0.172|||ANCOVA|||Extension Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.172|-0.986|
92435265|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.255||||90.0|-0.88|-0.04|||ANCOVA|||Extension Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.040|-0.880|
92435266|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.385|STANDARD_ERROR_OF_MEAN|0.265||||90.0|-0.822|0.053|||ANCOVA|||Extension Month 9; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.053|-0.822|
92435267|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.268||||90.0|-1.372|-0.487|||ANCOVA|||Extension Month 12; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.487|-1.372|
92435268|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.823|STANDARD_ERROR_OF_MEAN|0.286||||90.0|-1.296|-0.351|||ANCOVA|||Extension Month 15; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.351|-1.296|
92435269|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.525|STANDARD_ERROR_OF_MEAN|0.267||||90.0|-0.965|-0.084|||ANCOVA|||Extension Month 18; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.084|-0.965|
92435270|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.647|STANDARD_ERROR_OF_MEAN|0.276||||90.0|-1.104|-0.191|||ANCOVA|||Extension Month 21; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.191|-1.104|
92435271|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.853|STANDARD_ERROR_OF_MEAN|0.295||||90.0|-1.34|-0.367|||ANCOVA|||Extension Month 24; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.367|-1.340|
92435272|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.303||||90.0|-0.89|0.111|||ANCOVA|||Extension Month 27; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.111|-0.890|
92435273|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.636|STANDARD_ERROR_OF_MEAN|0.293||||90.0|-1.119|-0.153|||ANCOVA|||Extension Month 30; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.153|-1.119|
92435274|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.522|STANDARD_ERROR_OF_MEAN|0.29||||90.0|-1.0|-0.043|||ANCOVA|||Extension Month 33; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.043|-1.000|
92435275|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.744|STANDARD_ERROR_OF_MEAN|0.346||||90.0|-1.315|-0.173|||ANCOVA|||Extension Month 36; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.173|-1.315|
92435276|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.378|STANDARD_ERROR_OF_MEAN|0.628||||90.0|-2.42|-0.335|||ANCOVA|||Extension Month 39; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.335|-2.420|
92435277|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.28||||90.0|-1.183|-0.258|||ANCOVA|||Extension Month 39 (LOCF); Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.258|-1.183|
92435278|NCT00137046|184755765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.323||||90.0|-0.594|0.472|||ANCOVA|||Extension Follow Up Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.472|-0.594|
92435279|NCT02268084|184755796|SUPERIORITY|||||||0.007|||||||ANOVA|||Null hypothesis is that the active treatment group does not differ from the sham group in changes in the PCL-M total scores.||||.007
92435280|NCT02268084|184755797|SUPERIORITY|||||||0.326|||||||t-test, 2 sided|||||||.326
92435281|NCT03552198|184755820|OTHER|||||||0.964|||||||ANCOVA|ANCOVA, adjusted for baseline measures, tested for differences between intervention and control groups in preventative behaviours at 4 weeks||We predicted that the groups receiving the alternative format of air quality notifications would report greater frequency of behaviour change at 4 weeks compared to the groups receiving the usual format.||||.964
92435282|NCT03552198|184755821|OTHER|||||||0.043|||||||Chi-squared|χ2(1)=4.11, V=0.229||We predicted that more respondents in the intervention groups (i.e. receiving alternative health advice) would consider making permanent changes to their daily travel route, exercise location or exercise time compared to the control groups||||0.043
92435283|NCT03552198|184755822|OTHER||||||>|0.05|||||||Fisher Exact|||We predicted that the alternative health advice would lead to greater actual behaviour change compared to the usual format||||>0.05
92435284|NCT03552198|184755823|OTHER||||||>|0.05|||||||ANCOVA|ANCOVA, adjusted for baseline intentions, tested for differences between groups in intentions in relation to an high-air-pollution scenario at 4 weeks||We predicted that the alternative format would lead to stronger intentions to adhere to recommendations associated with an hypothetical high air pollution episode compared to the usual format.||||>0.05
92435285|NCT01767155|184755827|OTHER||Kaplan-Meier|69.8|||||TWO_SIDED|95.0|63.6|75.1||||||Kaplan-Meier log-log transformed estimates: survivors at 6 months||75.1|63.6|
92435286|NCT01767155|184755827|OTHER||Kaplan-Meier|45.8|||||TWO_SIDED|95.0|39.5|52.0||||||Kaplan-Meier log-log transformed estimates: survivors at 12 months||52.0|39.5|
92435287|NCT01767155|184755827|OTHER||Kaplan-Meier|72.1|||||TWO_SIDED|95.0|66.0|77.3||||||Kaplan-Meier log-log transformed estimates: survivors at 6 months||77.3|66.0|
92435288|NCT01767155|184755827|OTHER||Kaplan-Meier|44.6|||||TWO_SIDED|95.0|38.2|50.7||||||Kaplan-Meier log-log transformed estimates: survivors at 12 months||50.7|38.2|
92435289|NCT01767155|184755827|OTHER||Hazard Ratio (HR)|1.06||||0.5441|TWO_SIDED|95.0|0.87|1.3|||Log Rank|2-sided||A Cox model with treatment effects was used to estimate the hazard ratio and perform hypothesis testing. The estimated hazard ratio and the 95% CI of the hazard ratio were presented.||1.30|0.87|0.5441
92435290|NCT01767155|184755828|OTHER||Odds Ratio (OR)|0.87||||0.5907|TWO_SIDED|95.0|0.52|1.45|||Mantel Haenszel|2-sided test||Hypothesis testing between the two treatment arms was performed using a Mantel Haenszel test. The odds ratio and 95% CI of the odds ratio were presented.||1.45|0.52|0.5907
92435291|NCT01767155|184755829|OTHER||Kaplan-Meier|46.7|||||TWO_SIDED|95.0|39.5|53.6||||||Kaplan-Meier log-log transformed estimates: survivors at 6 months.||53.6|39.5|
92435292|NCT01767155|184755829|OTHER||Kaplan-Meier|20.6|||||TWO_SIDED|95.0|14.6|27.4||||||Kaplan-Meier log-log transformed estimates: survivors at 12 months||27.4|14.6|
92435293|NCT01767155|184755829|OTHER||Kaplan-Meier|47.5|||||TWO_SIDED|95.0|40.0|54.7||||||Kaplan-Meier log-log transformed estimates: survivors at 6 months||54.7|40.0|
92435294|NCT01767155|184755829|OTHER||Kaplan-Meier|12.3|||||TWO_SIDED|95.0|6.9|19.3||||||Kaplan-Meier log-log transformed estimates: survivors at 12 months||19.3|6.9|
92435295|NCT01767155|184755829|OTHER||Hazard Ratio (HR)|0.89||||0.3089|TWO_SIDED|95.0|0.71|1.11|||Log Rank|2-sided||Hypothesis testing between the two treatment arms was performed using a log rank test.||1.11|0.71|0.3089
92435296|NCT01767155|184755830|OTHER||Odds Ratio (OR)|1.07||||0.6924|TWO_SIDED|95.0|0.76|1.52|||Mantel Haenszel|2-sided||Hypothesis testing between the two treatment arms was performed using a Mantel Haenszel test.||1.52|0.76|0.6924
92435297|NCT00371137|184755831|SUPERIORITY_OR_OTHER||||||>|0.001||95.0|||||Chi-squared|||Overall Comparison||||>0.001
92435298|NCT00371137|184755831|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||Pairwise comparison of placebo and Xyrem 4.5g||||<0.001
92435299|NCT00371137|184755831|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||Chi-squared|||Pairwise comparison of placebo and Xyrem 6.0g||||0.015
92435300|NCT02837783|184755855|SUPERIORITY|||||||0.283|||||||Wilcoxon rank sum test|||||||0.283
92435301|NCT04774328|184755865|OTHER|Analysis of Variance (ANOVA)|Median Difference (Final Values)|-39.28|STANDARD_ERROR_OF_MEAN|54.818||0.4812|TWO_SIDED|95.0|-152.97|74.4|||ANOVA|||||74.40|-152.97|0.4812
92435302|NCT04774328|184755866|OTHER|ANOVA|Mean Difference (Final Values)|-158.08|STANDARD_ERROR_OF_MEAN|64.232||0.0222|TWO_SIDED|95.0|-291.29|-24.87|||ANOVA|||"Applies to evoked measure of after coughing."||-24.87|-291.29|0.0222
92435303|NCT04774328|184755866|OTHER|ANOVA|Mean Difference (Final Values)|-55.04|STANDARD_ERROR_OF_MEAN|43.19||0.2158|TWO_SIDED|95.0|-144.61|34.53|||ANOVA|||"Applies to evoked measure for after sitting up."||34.53|-144.61|0.2158
92435304|NCT04774328|184755866|OTHER|ANOVA|Mean Difference (Final Values)|-78.73|STANDARD_ERROR_OF_MEAN|42.532||0.0777|TWO_SIDED|95.0|-166.93|9.48|||ANOVA|||"Applies to evoked measure of after ambulation."||9.48|-166.93|0.0777
92435305|NCT04774328|184755867|OTHER|ANOVA|Mean Difference (Final Values)|-9.375|STANDARD_ERROR_OF_MEAN|12.7245||0.469|TWO_SIDED|95.0|-35.764|17.014|||ANOVA|||Entry applies to OC 0-96 hours.||17.014|-35.764|0.4690
92435306|NCT04774328|184755867|OTHER|ANOVA|Mean Difference (Final Values)|-8.125|STANDARD_ERROR_OF_MEAN|14.5059||0.5811|TWO_SIDED|95.0|-38.208|21.958|||ANOVA|||Applies to OC 0 - Day 8.||21.958|-38.208|0.5811
92435307|NCT01442493|184755891|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|||||||0.92
92435308|NCT01442493|184755892|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||||||0.06
92435309|NCT01442493|184755893|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
92435310|NCT01442493|184755894|SUPERIORITY|||||||0.54|||||||Mixed Models Analysis|||||||0.54
92435311|NCT01442493|184755895|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||.04
92435312|NCT01442493|184755896|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
92435313|NCT01442493|184755897|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||||||0.21
92435314|NCT03454997|184755954|SUPERIORITY||Mean Difference (Net)|5.5|||||TWO_SIDED|95.0|3.9|7.1||||||comparison of baseline and 6 months across both groups||7.1|3.9|
92435315|NCT03454997|184755954|SUPERIORITY||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-2.3|1.1||||||between groups differences of change between baseline and 6 months||1.1|-2.3|
92435316|NCT03454997|184755955|SUPERIORITY||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.4|0.4||||||leading behavioral weight loss group baseline to 6 months comparison||0.4|-1.4|
92435317|NCT03454997|184755955|SUPERIORITY||Mean Difference (Net)|-0.05|||||TWO_SIDED|95.0|-2.0|1.0||||||leading behavioral weight loss group between group comparison of change||1.0|-2.0|
92435318|NCT03454997|184755955|SUPERIORITY||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-1.4|0.2||||||completing weight ins baseline to 6 month comparison||0.2|-1.4|
92435319|NCT03454997|184755955|SUPERIORITY||Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-2.5|0.5||||||completing weigh ins between groups comparison of change||0.5|-2.5|
92435320|NCT03454997|184755955|SUPERIORITY||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.2|0.3||||||managing a group session baseline to 6 months comparison||0.3|-1.2|
92435321|NCT03454997|184755955|SUPERIORITY||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-2.0|1.1||||||managing a group session between groups comparison of change||1.1|-2.0|
92435322|NCT03454997|184755956|SUPERIORITY||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-2.0|2.9||||||comparison between baseline and 6 months across groups||2.9|-2.0|
92435323|NCT03454997|184755956|SUPERIORITY||Mean Difference (Net)|-4.1|||||TWO_SIDED|95.0|-9.1|0.8||||||between groups comparison of change post training to 6 months||0.8|-9.1|
92435324|NCT03454997|184755957|SUPERIORITY||Mean Difference (Net)|-3.3|||||TWO_SIDED|95.0|-6.9|0.3||||||comparison of baseline to 6 months across both groups||0.3|-6.9|
92435325|NCT03454997|184755957|SUPERIORITY||Mean Difference (Net)|-4.8|||||TWO_SIDED|95.0|-11.4|1.8||||||comparison of between group differences baseline to 6 months||1.8|-11.4|
92435326|NCT03454997|184755958|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-0.4|1.1||||||Comparison of Baseline \& 6 Months across both groups||1.1|-0.4|
92435327|NCT03454997|184755958|SUPERIORITY||Mean Difference (Net)|-0.9|||||TWO_SIDED|95.0|-2.0|0.2||||||Between Groups Differences of Change between Baseline \& 6 Months||0.2|-2.0|
92435328|NCT03454997|184755959|SUPERIORITY||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-4.5|3.3||||||comparison of between group differences baseline to 6 months||3.3|-4.5|
92435329|NCT03454997|184755959|SUPERIORITY||Mean Difference (Net)|-1.6|||||TWO_SIDED|95.0|-3.1|0.2||||||comparison of baseline to 6 months across groups||0.2|-3.1|
92435330|NCT03454997|184755960|SUPERIORITY||Mean Difference (Net)|-3.8|||||TWO_SIDED|95.0|-6.1|-1.6||||||comparison of baseline and 6 months across groups||-1.6|-6.1|
92435331|NCT03454997|184755960|SUPERIORITY||Mean Difference (Net)|-6.6|||||TWO_SIDED|95.0|-20.2|6.9||||||between groups differences of change between baseline to 6 months||6.9|-20.2|
92435332|NCT02602496|184756004|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.9942||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.9942
92435333|NCT02602496|184756004|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0062|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.0062
92435334|NCT02602496|184756004|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.6843|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.6843
92435335|NCT02602496|184756005|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.5096||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.5096
92435336|NCT02602496|184756005|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.2276|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.2276
92435337|NCT02602496|184756005|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0006|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.0006
92435338|NCT02602496|184756006|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.9708||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.9708
92435339|NCT02602496|184756006|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.1642|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.1642
92435340|NCT02602496|184756006|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.6043|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.6043
92435341|NCT02602496|184756007|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0868||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.0868
92435342|NCT02602496|184756007|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0083|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.0083
92435343|NCT02602496|184756007|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0151|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.0151
92435344|NCT02602496|184756008|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.9255||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.9255
92435345|NCT02602496|184756008|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0454|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.0454
92435346|NCT02602496|184756008|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.292|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.2920
92435347|NCT02602496|184756009|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.2252||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.2252
92435348|NCT02602496|184756009|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.4715|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.4715
92435349|NCT02602496|184756009|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.7157|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.7157
92435350|NCT02602496|184756010|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.8323||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.8323
92435351|NCT02602496|184756010|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.8927|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.8927
92435352|NCT02602496|184756010|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.3173|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.3173
92435353|NCT02602496|184756011|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.27||||||Corrected for baseline concentrations, age and gender|ANOVA|||||||0.27
92435354|NCT05025241|184756031|OTHER||||||<|0.0001|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||<0.0001
92435355|NCT05025241|184756032|OTHER|||||||0.0003|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0003
92435356|NCT05025241|184756033|OTHER|Change from baseline||||||0.0156|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0156
92435357|NCT05025241|184756034|OTHER|Change from baseline||||||0.0005|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0005
92435358|NCT05025241|184756035|OTHER|||||||0.0647|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants.||||0.0647
92435359|NCT05025241|184756036|OTHER|Change from baseline||||||0.0984|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0984
92435360|NCT05025241|184756037|OTHER|Change from baseline||||||0.0013|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0013
92435361|NCT05025241|184756038|OTHER|Change from baseline||||||0.0191|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0191
92435362|NCT05025241|184756039|OTHER|change from baseline||||||0.0013|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0013
92435363|NCT05025241|184756040|OTHER|change from baseline||||||0.171|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.1710
92171138|NCT02605837|184231418|SUPERIORITY||Difference in proportion of responders|0.13||||0.024||95.0|0.016|0.243|||Cochran-Mantel-Haenszel|||The CMH adjusted difference in proportion with corresponding Newcombe confidence interval (CI) and odds ratio with corresponding CI were based on CMH test stratified by age group and diet restriction.||0.243|0.016|0.024
92279894|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|0.017||||0.9072|TWO_SIDED|95.0|-0.266|0.299||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.299|-0.266|0.9072
92435364|NCT05025241|184756041|OTHER|change from baseline||||||0.0066|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0066
92435365|NCT05025241|184756042|OTHER|change form baseline||||||0.1094|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.1094
92435366|NCT05025241|184756043|OTHER|change from baseline||||||0.0156|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0156
92435367|NCT05025241|184756044|OTHER|change from baseline||||||0.0326|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0326
92435368|NCT02648178|184756092|OTHER|We used a linear mixed model to estimate associations between cigarette smoking and that of e-cigarette smoking, by week and their interactions. We also used the same model to estimate association between biomarkers such as NNAL (4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol), Nicotine, Cotinine, Hydro and Creatinine and CO (Carbon Monoxide) level,by week and their interactions.||||||||||||We tested whether there were significant associations between cigarette smoking and e-cigarette smoking, as well as whether there were significant associations between biomarkers mentioned above with CO level.||We provided estimated values of coefficients from model and their 95% confidence intervals.|||We used a linear mixed model to estimate associations between cigarette smoking and that of e-cigarette smoking, week and their interactions. We also used the same model to estimate association between biomarkers such as NNAL, Nicotine, Cotinine, Hydro and Creatinine and CO level, week and their interactions.|||
92435369|NCT01018186|184756147|SUPERIORITY_OR_OTHER||Ratio|1.67|||||TWO_SIDED|95.0|1.34|2.08|||||Ratio of FF/VI 100/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 12|||2.08|1.34|
92435370|NCT01018186|184756147|SUPERIORITY_OR_OTHER||Ratio|1.65|||||TWO_SIDED|95.0|1.29|2.13|||||Ratio of FF/VI 100/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 28|||2.13|1.29|
92435371|NCT01018186|184756147|SUPERIORITY_OR_OTHER||Ratio|1.05|||||TWO_SIDED|95.0|0.83|1.33|||||Ratio of FF/VI 100/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 52|||1.33|0.83|
92435372|NCT01018186|184756147|SUPERIORITY_OR_OTHER||Ratio|1.52|||||TWO_SIDED|95.0|1.22|1.89|||||Ratio of FF/VI 200/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 12|||1.89|1.22|
92435373|NCT01018186|184756147|SUPERIORITY_OR_OTHER||Ratio|1.43|||||TWO_SIDED|95.0|1.11|1.84|||||Ratio of FF/VI 200/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 28|||1.84|1.11|
92435374|NCT01018186|184756147|SUPERIORITY_OR_OTHER||Ratio|1.09|||||TWO_SIDED|95.0|0.87|1.38|||||Ratio of FF/VI 200/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 52|||1.38|0.87|
92435375|NCT01018186|184756148|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.67|||<|0.001|TWO_SIDED|95.0|1.34|2.08|||ANCOVA|||||2.08|1.34|<0.001
92435376|NCT01018186|184756148|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.52|||<|0.001|TWO_SIDED|95.0|1.22|1.89|||ANCOVA|||||1.89|1.22|<0.001
92435377|NCT01018186|184756149|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.65|||<|0.001|TWO_SIDED|95.0|1.29|2.13|||ANCOVA|||||2.13|1.29|<0.001
92435378|NCT01018186|184756149|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.43||||0.006|TWO_SIDED|95.0|1.11|1.84|||ANCOVA|||||1.84|1.11|0.006
92435379|NCT01018186|184756150|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.05||||0.674|TWO_SIDED|95.0|0.83|1.33|||ANCOVA|||||1.33|0.83|0.674
92435380|NCT01018186|184756150|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.09||||0.444|TWO_SIDED|95.0|0.87|1.38|||ANCOVA|||||1.38|0.87|0.444
92435381|NCT00923247|184756255|SUPERIORITY_OR_OTHER|||||||0.019|||||||Mann-Whitney|(nonparametric unpaired t-test; assumed homoscedasticity)||Patients given bortezomib on cycle 1, day 1 vs. cycle 3, day 1. A paired analysis among same 14 patients on Phase 1 portion. To assess whether presence of vandetanib significantly altered bortezomib Cmax (normalized to dose).||||0.019
92435382|NCT00923247|184756256|SUPERIORITY_OR_OTHER|||||||0.052|||||||Mann-Whitney|(nonparametric unpaired t-test; assumed homoscedasticity)||Patients given bortezomib on cycle 1 day 1 vs. cycle 3 day 1. A paired analysis among same 14 patients on Phase 1 portion. To assess whether presence of vandetanib significantly altered bortezomib AUCinf (normalized to dose).||||0.052
92435383|NCT00923247|184756257|SUPERIORITY_OR_OTHER|||||||0.44|||||||Mann-Whitney|(nonparametric unpaired t-test; assumed homoscedasticity)||Patients given bortezomib on cycle 1 day 1 vs. cycle 3 day 1. A paired analysis among same 14 patients on Phase 1 portion. To assess whether presence of vandetanib significantly altered bortezomib half-life.||||0.440
92435384|NCT00923247|184756258|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mann-Whitney|(nonparametric unpaired t-test; assumed homoscedasticity)||Patients given bortezomib on cycle 1 day 1 vs. cycle 3 day 1. A paired analysis among same 14 patients on Phase 1 portion. To assess whether presence of vandetanib significantly altered bortezomib clearance.||||0.016
92435385|NCT00923247|184756259|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mann-Whitney|(nonparametric unpaired t-test; assumed homoscedasticity)||Patients given bortezomib on cycle 1 day 1 vs. cycle 3 day 1. A paired analysis among same 14 patients on Phase I portion. To assess whether presence of vandetanib significantly altered bortezomib volume of distribution.||||0.010
92435386|NCT01691781|184756279|SUPERIORITY|||||||0.049||||||This p-value reflects the difference in PTH means among participants with primary hyperparathyroidism|t-test, 2 sided|||The statistical analysis compared the change in PTH, before and after ACE inhibitor therapy, among participants with primary hyperparathyroidism.||||0.049
92435387|NCT01691781|184756279|SUPERIORITY|||||||0.8||||||This p-value reflects the difference in PTH means among normal control participants without primary hyperparathyroidism|t-test, 2 sided|||The statistical analysis compared the change in PTH, before and after ACE inhibitor therapy, among normal control participants (without primary hyperparathyroidism).||||0.80
92435388|NCT01691781|184756280|SUPERIORITY|||||||0.22||||||This p-value reflects the comparison of means among the primary hyperparathyroidism group only.|t-test, 2 sided|||The statistical analysis compared the change in urinary aldosterone excretion rate, before and after ACE inhibitor therapy, among participants with primary hyperparathyroidism.||||0.22
92435389|NCT01691781|184756280|SUPERIORITY|||||||0.86||||||This p-value reflects the mean difference in 24h aldosterone excretion rate among normal control participants without primary hyperparathyroidism|t-test, 2 sided|||The statistical analysis compared the change in urinary aldosterone excretion rate, before and after ACE inhibitor therapy, among normal control participants without primary hyperparathyroidism.||||0.86
92435390|NCT01691781|184756281|SUPERIORITY|||||||0.48||||||This p-value reflects the statistic for the comparison of mean calcium levels for the primary hyperparathyroidism group.|t-test, 2 sided|||The statistical analysis compared the change in serum calcium, before and after ACE inhibitor therapy, among participants with primary hyperparathyroidism.||||0.48
92435391|NCT01691781|184756281|SUPERIORITY|||||||0.8||||||This p-value reflects the statistic for the comparison of mean calcium levels for the normal control participants without primary hyperparathyroidism.|t-test, 2 sided|||The statistical analysis compared the change in serum calcium, before and after ACE inhibitor therapy, among normal control participants without primary hyperparathyroidism.||||0.80
92435392|NCT03978520|184756282|SUPERIORITY||Response Rate Difference|12.8|||=|0.081|TWO_SIDED|95.0|-1.6|27.1|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||27.1|-1.6|=0.081
92435393|NCT03978520|184756282|SUPERIORITY||Response Rate Difference|16.9|||=|0.028|TWO_SIDED|95.0|1.8|31.9|||Cochran-Mantel-Haenszel|||"Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||31.9|1.8|=0.028
92435394|NCT03978520|184756282|SUPERIORITY||Response Rate Difference|-4.7|||=|0.566|TWO_SIDED|95.0|-20.8|11.4|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||11.4|-20.8|=0.566
92435395|NCT03978520|184756283|SUPERIORITY||Response Rate Difference|18.3|||=|0.013|TWO_SIDED|95.0|3.9|32.6|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||32.6|3.9|=0.013
92435396|NCT03978520|184756283|SUPERIORITY||Response Rate Difference|18.1|||=|0.018|TWO_SIDED|95.0|3.0|33.2|||Cochran-Mantel-Haenszel|||"Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||33.2|3.0|=0.018
92435397|NCT03978520|184756283|SUPERIORITY||Response Rate Difference|-1.2|||=|0.882|TWO_SIDED|95.0|-17.6|15.2|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||15.2|-17.6|=0.882
92279895|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.108||||0.4573|TWO_SIDED|95.0|-0.393|0.177||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.177|-0.393|0.4573
92171139|NCT02605837|184231419|SUPERIORITY||Difference in Least square mean|-3.92||||0.015||95.0|-7.073|-0.774|||ANCOVA|||This analysis was from analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline DSQ combined score as a continuous covariate.||-0.774|-7.073|0.015
92237979|NCT03408873|184380140|OTHER|We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data.|Mean Difference (Final Values)|-1.8|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92435398|NCT03978520|184756284|SUPERIORITY||Response Rate Difference|14.7|||=|0.049|TWO_SIDED|95.0|0.0|29.4|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||29.4|0.0|=0.049
92435399|NCT03978520|184756284|SUPERIORITY||Response Rate Difference|13.9|||=|0.091|TWO_SIDED|95.0|-2.2|30.1|||Cochran-Mantel-Haenszel|||"Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||30.1|-2.2|=0.091
92279896|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.049||||0.7476|TWO_SIDED|95.0|-0.35|0.251||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.251|-0.350|0.7476
92435400|NCT03978520|184756284|SUPERIORITY||Response Rate Difference|-6.3|||=|0.447|TWO_SIDED|95.0|-22.5|9.9|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs Elsubrutinib placebo/upadacitinib 30 mg~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||9.9|-22.5|=0.447
92435401|NCT03978520|184756285|SUPERIORITY||Response Rate Difference|16.7|||=|0.007|TWO_SIDED|95.0|4.5|28.9|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||28.9|4.5|=0.007
92435402|NCT03978520|184756285|SUPERIORITY||Response Rate Difference|31.0|||<|0.001|TWO_SIDED|95.0|18.1|44.0|||Cochran-Mantel-Haenszel|||Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo||44.0|18.1|<0.001
92435403|NCT03978520|184756285|SUPERIORITY||Response Rate Difference|-13.7|||=|0.068|TWO_SIDED|95.0|-28.4|1.0|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||1.0|-28.4|=0.068
92435404|NCT03978520|184756286|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.527|=|0.71|TWO_SIDED|95.0|-0.84|1.23|||Mixed-effect model repeat measurement|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~The Mixed-Effect Model Repeat Measurement model included fixed effects of Tx, visit and Tx-by-visit interaction, stratification factors (Baseline corticosteroid dose \> 10 mg prednisone-equivalent (≤ 10 mg or \>10 mg), screening SLEDAI-2K (\<10 or ≥ 10), baseline interferon score (high/low/NA, baseline immunosuppressant (yes/no)), and continuous fixed covariates of measurements at Baseline."||1.23|-0.84|=0.710
92435405|NCT03978520|184756286|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.545|=|0.963|TWO_SIDED|95.0|-1.05|1.1|||Mixed-effect model repeat measurement|||"Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~The Mixed-Effect Model Repeat Measurement model included fixed effects of Tx, visit and Tx-by-visit interaction, stratification factors (Baseline corticosteroid dose \> 10 mg prednisone-equivalent (≤ 10 mg or \>10 mg), screening SLEDAI-2K (\<10 or ≥ 10), baseline interferon score (high/low/NA, baseline immunosuppressant (yes/no)), and continuous fixed covariates of measurements at Baseline."||1.10|-1.05|=0.963
92237980|NCT03408873|184380140|OTHER||Mean Difference (Final Values)|-1.3|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared for the primary and secondary outcomes across two time-points: difference between baseline and week 24. A non-parametric Wilcoxon signed-rank test compared these repeated measurements (matched on participant with complete data) between these time-points to determine whether the population medians differed.||||<0.001
92279897|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.062||||0.6873|TWO_SIDED|95.0|-0.362|0.239||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.239|-0.362|0.6873
92279898|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.258||||0.0952|TWO_SIDED|95.0|-0.562|0.045||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.045|-0.562|0.0952
92435406|NCT03978520|184756286|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.547|=|0.754|TWO_SIDED|95.0|-0.9|1.25|||Mixed-effect model repeat measurement|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~The Mixed-Effect Model Repeat Measurement model included fixed effects of Tx, visit and Tx-by-visit interaction, stratification factors (Baseline corticosteroid dose \> 10 mg prednisone-equivalent (≤ 10 mg or \>10 mg), screening SLEDAI-2K (\<10 or ≥ 10), baseline interferon score (high/low/NA, baseline immunosuppressant (yes/no)), and continuous fixed covariates of measurements at Baseline."||1.25|-0.90|=0.754
92279899|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.018||||0.9111|TWO_SIDED|95.0|-0.326|0.291||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.291|-0.326|0.9111
92435407|NCT03978520|184756287|SUPERIORITY||Rate difference|-1.06|||=|0.002|TWO_SIDED|95.0|-1.74|-0.39|||Binomial regression|||"Mild/Moderate~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs Elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||-0.39|-1.74|=0.002
92435408|NCT03978520|184756287|SUPERIORITY||Rate Difference|-0.69|||=|0.059|TWO_SIDED|95.0|-1.41|0.03|||Binomial regression|||"Mild/Moderate~Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||0.03|-1.41|=0.059
92435409|NCT03978520|184756287|SUPERIORITY||Rate Difference|-0.37|||=|0.252|TWO_SIDED|95.0|-1.01|0.27|||Binomial regression|||"Mild/Moderate~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||0.27|-1.01|=0.252
92435410|NCT03978520|184756287|SUPERIORITY||Rate Difference|-0.1|||=|0.467|TWO_SIDED|95.0|-0.37|0.17|||Binomial regression|||"Severe~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||0.17|-0.37|=0.467
92435411|NCT03978520|184756287|SUPERIORITY||Rate Difference|-0.26|||=|0.033|TWO_SIDED|95.0|-0.49|-0.02|||Binomial regression|||"Severe~Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||-0.02|-0.49|=0.033
92435412|NCT03978520|184756287|SUPERIORITY||Rate Difference|0.15|||=|0.156|TWO_SIDED|95.0|-0.06|0.37|||Binomial regression|||"Severe~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||0.37|-0.06|=0.156
92435413|NCT03978520|184756287|SUPERIORITY||Rate Difference|-1.16|||=|0.002|TWO_SIDED|95.0|-1.89|-0.44|||Binomial regression|||"Overall~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||-0.44|-1.89|=0.002
92435414|NCT03978520|184756287|SUPERIORITY||Rate Difference|-0.95|||=|0.014|TWO_SIDED|95.0|-1.7|-0.19|||Binomial regression|||"Overall~Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||-0.19|-1.70|=0.014
92435415|NCT03978520|184756287|SUPERIORITY||Rate Difference|-0.22|||=|0.526|TWO_SIDED|95.0|-0.89|0.46|||Binomial regression|||"Overall~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||0.46|-0.89|=0.526
92435416|NCT02421315|184756321|OTHER|a t-test comparing groups in a specific region-of-interest (ROI); the insula|Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.057||0.0585|TWO_SIDED|95.0|-0.004|0.224|||t-test, 2 sided|||We hypothesized that compared to HC, children and adolescents with OCD would have increased activation in subcortical structures (insula, and putamen) comprising a right hemisphere dorsal frontostriatal circuit.||0.224|-0.004|0.0585
92435417|NCT02421315|184756322|SUPERIORITY|We selected 'arbitrary units' as the unit of measure here because we are looking at connectivity strengths|Mean Difference (Final Values)|0.49512921|STANDARD_ERROR_OF_MEAN|0.06553315||0.037|TWO_SIDED|||||"NBS controls for family-wise error rate using permutation testing to identify components or clusters of contiguous region-to-region connections. A statistical threshold of p\<.05 with 20,000 permutations was used."|t-test, 1 sided||Direction of the comparison: HC\>OCD|Whole-Brain Connectome-Level Analyses were performed on the FC-strength indices between 352 regions. Edge-wise functional connectivity analyses was then be conducted across the resulting matrix comprised of 352 nodes and 123,904 edges, using the Network-Based Statistics (NBS) Toolbox. We hypothesized that youth with OCD would show altered FC between task-control circuit regions.||||.037
92435418|NCT02421315|184756322|OTHER||Slope|-0.521|||<|0.05|TWO_SIDED||||||Regression, Linear|||Separate cross-lagged panel models were computed in the OCD group for the three functional connections that differed significantly across groups at baseline (see Statistical Analysis 1). These models were constructed using IBM SPSS Amos (v.23) to test for directional relationships between OCD symptoms and FC pre- to post-treatment in the OCD patients. CY-BOCS total scores at each time point were used as the OCD symptoms measure.||||<.05
92435419|NCT02421315|184756323|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.0464|TWO_SIDED|95.0|0.0018|0.218|||t-test, 2 sided|||||0.218|0.0018|0.0464
92446563|NCT02477020|184780047|SUPERIORITY_OR_OTHER||Least mean square difference|-0.54|STANDARD_ERROR_OF_MEAN|2.255||0.812|TWO_SIDED|95.0|-5.0|3.92||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline UPSA-B composite score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline UPSA-B composite score-by-week interaction.|Change at Week 6||3.92|-5.00|0.812
92446564|NCT01049919|184780057|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.224|TWO_SIDED|95.0|0.31|1.31|||Proportional Hazards Regression|||||1.31|0.31|0.224
92171140|NCT02605837|184231420|SUPERIORITY||Difference in Least square mean|-1.8|||<|0.001||95.0|-2.6|-1.1|||ANCOVA|||This analysis was from analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline. Total EREFS (endoscopy score) as a continuous covariate.||-1.1|-2.6|<0.001
92435420|NCT02421315|184756324|SUPERIORITY|only participants were assigned to groups (OCD, HC) and we measured streamline count in these participants to index structural connectivity|Slope|-102.67|||<|0.025|TWO_SIDED|||||"NBS controls for family-wise error rate using permutation testing to identify components or clusters of contiguous region-to-region connections. A statistical threshold of p=.025 with 10,000 permutations was used."|Regression, Linear||Direction of comparison: HC\>OCD|Whole-Brain Connectome-Level Analyses were performed on the structural connectivity indices (streamline count) between 164 regions. Edge-wise structural connectivity analyses was then be conducted across the resulting matrix comprised of 164 nodes and 26,896 edges, using the Network-Based Statistics (NBS) Toolbox.||||<0.025
92435421|NCT01405456|184756400|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Change in Insulin Stimulated Glucose Uptake measured during euglycemic hyperinsulinemic clamp procedure from baseline to 6 months||||0.71
92435422|NCT01405456|184756401|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||Change in Visceral Adipose Tissue area as measured by magnetic resonance imaging of the abdomen from baseline to 6 months||||0.42
92435423|NCT01405456|184756402|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Change in Liver Fat (Intrahepatic Lipid) as measured by magnetic resonance spectroscopy from baseline to 6 months||||0.51
92435424|NCT01405456|184756403|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Change in Intramyocellular Lipid of calf muscles as measured by magnetic resonance spectroscopy from baseline to 6 months||||0.04
92435425|NCT01405456|184756404|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Change in Flow Mediated Vasodilation (maximum percentage) from baseline to 6 months||||0.44
92435426|NCT01405456|184756405|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||Mean serum measurements of Potassium||||0.07
92435427|NCT01405456|184756406|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Change in Hemoglobin A1c from baseline to 6 months||||0.70
92435428|NCT01405456|184756407|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Change in C-Reactive Protein from baseline to 6 months||||0.10
92435429|NCT01405456|184756408|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||Change in Plasminogen Activator Inhibitor 1 from baseline to 6 months||||0.37
92435430|NCT01405456|184756409|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Change in Adiponectin from baseline to 6 months||||0.78
92237981|NCT03408873|184380141|OTHER||Mean Difference (Final Values)|0.8||||0.0566|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared for the primary and secondary outcomes across two sets of time-points: 1) difference between screen and week 24, and 2) between baseline and week 24. A non-parametric Wilcoxon signed-rank test compared these repeated measurements (matched on participant) between these time-points to determine whether the population medians differed.||||0.0566
92435431|NCT01405456|184756410|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Change in IL-6 from baseline to 6 months||||0.10
92435432|NCT01405456|184756411|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Change in MCP-1 from baseline to 6 months||||0.04
92435433|NCT02044393|184756422|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|74.07|STANDARD_ERROR_OF_MEAN|32.1|||TWO_SIDED|90.0|62.371|87.959|||||"ratio of IT+BI 691751 to BI 691751 treatment. Estimated value and its confidence interval (CI) are in percentage unit.~The standard error of the mean actually is the geometric coefficient of variance."|gMean ratio of IT+BI 691751 to BI 69175 treatment (in plasma)||87.959|62.371|
92435434|NCT02044393|184756422|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|86.35|STANDARD_ERROR_OF_MEAN|18.6|||TWO_SIDED|90.0|78.04|95.56|||||"ratio of IT+BI 691751 to BI 691751 treatment. Estimated value and its confidence interval (CI) are in percentage unit.~The standard error of the mean actually is the geometric coefficient of variance."|gMean ratio of IT+BI 691751 to BI 691751 treatment (in whole blood)||95.56|78.04|
92435435|NCT02044393|184756423|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|95.59|STANDARD_ERROR_OF_MEAN|23.5|||TWO_SIDED|90.0|84.195|108.537|||||ratio of test to reference treatment. The standard error of the mean actually is the geometric coefficient of variance.|gMean ratio of test to reference treatment (in plasma)||108.537|84.195|
92435436|NCT02044393|184756423|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|93.54|STANDARD_ERROR_OF_MEAN|15.1|||TWO_SIDED|90.0|86.142|101.57|||||ratio of test to reference treatment. The standard error of the mean actually is the geometric coefficient of variance.|gMean ratio of test to reference treatment (in whole blood)||101.570|86.142|
92435437|NCT02044393|184756424|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|74.86|STANDARD_ERROR_OF_MEAN|32.4|||TWO_SIDED|90.0|62.946|89.035|||||ratio of IT+BI 691751 to BI 691751 treatment. The standard error of the mean actually is the geometric coefficient of variance.|gMean ratio of IT+BI 691751 to BI 691751 treatment (in plasma)||89.035|62.946|
92435438|NCT02044393|184756424|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|88.19|STANDARD_ERROR_OF_MEAN|20.7|||TWO_SIDED|90.0|78.6|98.95|||||ratio of IT+BI 691751 to BI 691751 treatment. The standard error of the mean actually is the geometric coefficient of variance.|gMean ratio of IT+BI 691751 to BI 691751 treatment (in whole blood)||98.95|78.60|
92446565|NCT01049919|184780058|SUPERIORITY|||||||0.671||||||Treatment-by-week p-value is reported.|Repeated measures model|The statistical analysis model includes treatment group, week, treatment-by-week, and baseline pain measurement.||||||0.671
92446566|NCT01049919|184780059|SUPERIORITY|||||||0.714||||||Treatment-by-week p-value is reported.|Repeated measures model|The statistical analysis model includes treatment group, week, treatment-by-week, and baseline pain measurement.||||||0.714
92171141|NCT02605837|184231421|SUPERIORITY||Odds Ratio (OR)|169.74|||<|0.001||95.0|23.235|1239.979|||Regression, Logistic|||Peak eosinophil count (\<15/HPF) was performed based on logistic regression model adjusted for age group and diet restriction.||1239.979|23.235|<0.001
92279900|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|0.004||||0.9772|TWO_SIDED|95.0|-0.304|0.313||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.313|-0.304|0.9772
92171142|NCT02605837|184231421|SUPERIORITY||Odds Ratio (OR)|100.69||||0.001|TWO_SIDED|95.0|6.294|1610.749|||Firth logistic regression|||Peak eosinophil count (\<=1/HPF) was performed based on firth logistic regression model adjusted for age group and diet restriction.||1610.749|6.294|0.001
92171143|NCT02605837|184231422|SUPERIORITY||Difference in Least square mean|-28.4|||<|0.001||95.0|-35.0|-21.8|||ANCOVA|||This analysis of proximal eosinophil count was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline Peak Eosinophil Count as a continuous covariate.||-21.8|-35.0|<0.001
92446567|NCT01049919|184780061|SUPERIORITY||Hazard Ratio (HR)|0.37||||0.018|TWO_SIDED|95.0|0.16|0.85|||Proportional Hazards Regression|||||0.85|0.16|0.018
92446568|NCT01018264|184780065|SUPERIORITY_OR_OTHER_LEGACY||Effect size|0.2||||0.53|TWO_SIDED||||||ANCOVA|Adjusted for baseline value|This represents the effect size between solifenacin and placebo.|||||0.53
92446569|NCT01018264|184780066|SUPERIORITY_OR_OTHER_LEGACY||Effect size|0.53||||0.01|TWO_SIDED||||||ANCOVA|||||||0.01
92446570|NCT01018264|184780067|SUPERIORITY_OR_OTHER_LEGACY||Effect size|0.35||||0.22|TWO_SIDED||||||ANCOVA|||||||0.22
92446571|NCT01018264|184780068|SUPERIORITY_OR_OTHER_LEGACY||Effect size|0.27||||0.47|TWO_SIDED||||||ANCOVA|||||||0.47
92446572|NCT01018264|184780069|SUPERIORITY_OR_OTHER_LEGACY||Effect size|0.11||||0.94|TWO_SIDED||||||ANCOVA|||||||0.94
92446573|NCT02504372|184780070|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.68|0.96|||||HR and 95% confidence interval (95%CI) were based on multivariate Cox regression model with treatment adjusted by stage, PD-L1 status, adjuvant chemotherapy, region, histology, and smoking status.|||0.96|0.68|
92446574|NCT02504372|184780071|OTHER||Hazard Ratio (HR)|0.83||||0.13499|TWO_SIDED|95.0|0.59|1.16|||Regression, Cox|One-sided p-value was based on the permutation test with multivariate Cox regression model.|HR and 95% confidence interval (95%CI) were based on multivariate Cox regression model with treatment adjusted by stage, PD-L1 status, adjuvant chemotherapy, region, histology, and smoking status.|||1.16|0.59|0.13499
92446575|NCT02504372|184780072|OTHER||Hazard Ratio (HR)|0.78||||0.01327|TWO_SIDED|95.0|0.62|0.97|||Regression, Cox|One-sided p-value was based on the permutation test with multivariate Cox regression model.|HR and 95% confidence interval (95%CI) were based on multivariate Cox regression model with treatment adjusted by stage, PD-L1 status, adjuvant chemotherapy, region, histology, and smoking status.|||0.97|0.62|0.01327
92446576|NCT02504372|184780079|OTHER||Hazard Ratio (HR)|0.76||||0.00143|TWO_SIDED|95.0|0.63|0.91|||Regression, Cox|One-sided p-value was based on the permutation test with multivariate Cox regression model.|HR and 95% confidence interval (95%CI) were based on multivariate Cox regression model with treatment adjusted by stage, PD-L1 status, adjuvant chemotherapy, region, histology, and smoking status.|||0.91|0.63|0.00143
92446577|NCT02402452|184780084|OTHER||Geometric Least-Square Mean(GLSM)Ratio %|172.92|||||TWO_SIDED|90.0|97.93|305.33||||||An analysis of variance (ANOVA) appropriate for a parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUClast. A 90% confidence interval (CI) was constructed for the geometric least squares mean (GLSM) ratio of AUClast for the comparison groups using two 1-sided tests.||305.33|97.93|
92446578|NCT02402452|184780085|OTHER||GLSM Ratio (%)|171.27|||||TWO_SIDED|90.0|97.65|300.38||||||An ANOVA appropriate for parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUCinf. A 90% CI was constructed for the GLSM ratio of AUCinf for the comparison groups using two 1-sided tests.||300.38|97.65|
92446579|NCT02402452|184780086|OTHER||GLSM Ratio (%)|145.43|||||TWO_SIDED|90.0|83.77|252.48||||||An ANOVA appropriate for parallel design was fitted to the natural logarithmic transformation of voxilaprevir Cmax. A 90% CI was constructed for the GLSM ratio of Cmax for the comparison groups using two 1-sided tests.||252.48|83.77|
92446580|NCT05179421|184780088|OTHER|NONMEM applies nonlinear mixed effects modeling to evaluate the relationship between predicted drug concentration after administration from known pharmacokinetics and a pharmacodynamic effect, in this case being a reduction in pain from sustained heat application.|||||<|0.05|||||||Mixed Models Analysis|||Pain scores over time will first be modeled using NONMEM with derived parameters of maximum effect (Emax) and doses to produce a 50% and 90% maximum drug effect (C50 and C90, respectively), the steepness of the dose response curve (γ), and the time to peak effect. Inter-subject variability (e.g., biological variability) will evaluate additive, proportional, and exponential models. Residual intrasubject variability (e.g., noise) will typically require an additive and multiplicative error model.||||<0.05
92446581|NCT00792610|184780089|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1|STANDARD_DEVIATION|0.05|<|0.05||95.0|0.05|0.15|||t-test, 2 sided|||Chi-square analysis and Fischer's exact test were used for comparing group proportions between seropositive and seronegative participants. GMT and their 95% confidence intervals were also calculated using the software developed by Kirkman, T.W. (18) An ANOVA test was performed to compare the difference of the three groups at one, six and seven months categorized by the anti-HBs titers at 7-10 days after the booster.||.15|.05|<0.05
92446582|NCT03746522|184780091|OTHER|||||||0.0006||||||P-value was one-sided and compared with alpha = 0.025.|Rubin's Rule|||||||0.0006
92446583|NCT03746522|184780092|OTHER|||||||0.0005||||||p-value was one-sided and compared with alpha = 0.025|Rubin's Rule|||||||0.0005
92446584|NCT03746522|184780093|OTHER||||||<|0.0001||||||p-value was one-sided and compared with alpha=0.025.|Rubin's Rule|||||||<0.0001
92446585|NCT03746522|184780094|OTHER||||||<|0.0001||||||p-value was one-sided and compared with alpha = 0.025.|Rubin's Rule|||||||<0.0001
92446586|NCT05422053|184780107|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||End of Control-IQ Use (13 Weeks) compared to Control-IQ Start||||<0.001
92446587|NCT00739752|184780194|SUPERIORITY||Risk Ratio (RR)|0.99|||=|0.885|TWO_SIDED|95.0|0.88|1.12|||Regression, Poisson|||The two gain-framed groups were compared to the two loss-framed groups using poisson regression.||1.12|.88|=.885
92446588|NCT00739752|184780194|SUPERIORITY||Risk Ratio (RR)|1.17|||<|0.01|TWO_SIDED|95.0|1.06|1.31|||Regression, Poisson|||Groups receiving any framed interventions (gain-framed or loss-framed) were compared to those in the two non-framed control groups.||1.31|1.06|<.01
92237982|NCT03408873|184380142|OTHER||Mean Difference (Final Values)|-3.4|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared for the primary and secondary outcomes across two time-points: difference between screen and week 24. A non-parametric Wilcoxon signed-rank test compared these repeated measurements (matched on participant with complete data) between these time-points to determine whether the population medians differed.||||<0.001
92171144|NCT02605837|184231422|SUPERIORITY||Difference in Least square mean|-30.4|||<|0.001||95.0|-38.1|-22.7|||ANCOVA|||This analysis of mid eosinophil count was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline Peak Eosinophil Count as a continuous covariate.||-22.7|-38.1|<0.001
92237983|NCT03408873|184380143|OTHER||Mean Difference (Final Values)|17.7|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
92279901|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.235||||0.139|TWO_SIDED|95.0|-0.546|0.077||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.077|-0.546|0.1390
92435439|NCT05355805|184756426|SUPERIORITY||Risk Difference (RD)|8.27|STANDARD_ERROR_OF_MEAN|8.075||0.3055|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/Janus Kinase (JAK) inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error was estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR75."||||0.3055
92435440|NCT05355805|184756426|SUPERIORITY||Risk Difference (RD)|4.19|STANDARD_ERROR_OF_MEAN|8.427||0.6192|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error was estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR75."||||0.6192
92435441|NCT05355805|184756429|SUPERIORITY||Risk Difference (RD)|10.14|STANDARD_ERROR_OF_MEAN|7.229||0.1606|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR90."||||0.1606
92435442|NCT05355805|184756429|SUPERIORITY||Risk Difference (RD)|4.79|STANDARD_ERROR_OF_MEAN|7.294||0.5116|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR90."||||0.5116
92435443|NCT05355805|184756430|SUPERIORITY||Risk Difference (RD)|13.67|STANDARD_ERROR_OF_MEAN|7.019||0.0514|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR100."||||0.0514
92435444|NCT05355805|184756430|SUPERIORITY||Risk Difference (RD)|6.56|STANDARD_ERROR_OF_MEAN|6.764||0.3322|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR100."||||0.3322
92435445|NCT05355805|184756431|SUPERIORITY||Risk Difference (RD)|8.63|STANDARD_ERROR_OF_MEAN|8.78||0.3258|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR50."||||0.3258
92446589|NCT00739752|184780194|SUPERIORITY||Risk Ratio (RR)|1.16|||<|0.01|TWO_SIDED|95.0|1.05|1.28|||Regression, Poisson|||The 3 vaccine-recommended groups were compared with the 3 vaccine-offered groups using poisson regression.||1.28|1.05|<.01
92446590|NCT00249470|184780205|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.8||||0.004|TWO_SIDED|95.0|2.03|16.56|||General Estimating Equation (GEE)|||||16.56|2.03|.004
92435446|NCT05355805|184756431|SUPERIORITY||Risk Difference (RD)|7.28|STANDARD_ERROR_OF_MEAN|8.775||0.4068|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR50."||||0.4068
92435447|NCT05355805|184756432|SUPERIORITY|Predictors in the regression model for missing values at Week 16 are Baseline Hurley stage, baseline abscess count, baseline inflammatory nodule count, baseline draining fistula count, sex, race, age, BMI and Prior Biologic/JAK inhibitor use for HS plus counts of abscess, inflammatory nodule, and draining fistula at prior scheduled assessment. Missing flare values in both the placebo and izokibep groups are imputed using observed data from the placebo group only.|Risk Difference (RD)|-7.4|STANDARD_ERROR_OF_MEAN|7.661||0.3329|TWO_SIDED|||||The estimated risk difference divided by the standard error will be used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Missing data of abscess and inflammatory nodules counts at scheduled visits are imputed assuming monotone missingness pattern."||||0.3329
92435448|NCT05355805|184756432|SUPERIORITY|Predictors in the regression model for missing values at Week 16 are Baseline Hurley stage, baseline abscess count, baseline inflammatory nodule count, baseline draining fistula count, sex, race, age, BMI and Prior Biologic/JAK inhibitor use for HS plus counts of abscess, inflammatory nodule, and draining fistula at prior scheduled assessment. Missing flare values in both the placebo and izokibep groups are imputed using observed data from the placebo group only.|Risk Difference (RD)|4.06|STANDARD_ERROR_OF_MEAN|7.574||0.5882|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Missing data of abscess and inflammatory nodules counts at scheduled visits are imputed assuming monotone missingness pattern."||||0.5882
92435449|NCT05355805|184756433|SUPERIORITY||Risk Difference (RD)|7.31|STANDARD_ERROR_OF_MEAN|11.995||0.5422|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.||||0.5422
92435450|NCT05355805|184756433|SUPERIORITY||Risk Difference (RD)|-5.23|STANDARD_ERROR_OF_MEAN|11.77||0.6569|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.||||0.6569
92435451|NCT05355805|184756434|SUPERIORITY||Risk Difference (RD)|7.48|STANDARD_ERROR_OF_MEAN|8.951||0.4031|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.||||0.4031
92435452|NCT05355805|184756434|SUPERIORITY||Risk Difference (RD)|21.27|STANDARD_ERROR_OF_MEAN|9.959||0.0327|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.||||0.0327
92435453|NCT02692716|184756445|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Non-inferiority of oral semaglutide versus placebo was considered confirmed if the upper limit of the two-sided 95% confidence interval for the HR was strictly below 1.8.|Hazard Ratio (HR)|0.79|||<|0.0001|TWO_SIDED|95.0|0.57|1.11||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority).|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first event adjudication committee (EAC) confirmed MACE was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.11|0.57|< 0.0001
92446591|NCT00249470|184780206|SUPERIORITY||Odds Ratio (OR)|0.91|||=|0.82|TWO_SIDED|95.0|0.4|2.08|||General Estimating Equation (GEE)|||||2.08|0.40|=0.82
92446592|NCT00249470|184780207|SUPERIORITY||Odds Ratio (OR)|3.37||||0.04|TWO_SIDED|95.0|1.21|9.37|||General Estimating Equation (GEE)|||||9.37|1.21|0.04
92171145|NCT02605837|184231422|SUPERIORITY||Difference in Least square mean|-33.1|||<|0.001||95.0|-40.7|-25.5|||ANCOVA|||This analysis of distal eosinophil count was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline Peak Eosinophil Count as a continuous covariate||-25.5|-40.7|<0.001
92435454|NCT02692716|184756445|SUPERIORITY|This hypothesis was controlled for multiplicity.|Hazard Ratio (HR)|0.79|||=|0.1749|TWO_SIDED|95.0|0.57|1.11||Unadjusted two-sided p-value from test of no difference from 1 (superiority).|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed MACE was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.11|0.57|= 0.1749
92435455|NCT02692716|184756446|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.82|||=|0.1827|TWO_SIDED|95.0|0.61|1.1||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed expanded cardiovascular outcome was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.10|0.61|= 0.1827
92435456|NCT02692716|184756447|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.49|||=|0.0261|TWO_SIDED|95.0|0.27|0.92||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed cardiovascular death (including undetermined cause of death) was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||0.92|0.27|= 0.0261
92435457|NCT02692716|184756447|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.18|||=|0.5044|TWO_SIDED|95.0|0.73|1.9||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed non-fatal myocardial infarction was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.90|0.73|= 0.5044
92435458|NCT02692716|184756447|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.74|||=|0.435|TWO_SIDED|95.0|0.35|1.57||Unadjusted two-sided p-value for test of no difference from 1|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed non-fatal stroke was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.57|0.35|= 0.4350
92435459|NCT02692716|184756447|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.56|||=|0.3605|TWO_SIDED|95.0|0.6|4.01||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed unstable angina pectoris requiring hospitalisation was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||4.01|0.60|= 0.3605
92435460|NCT02692716|184756447|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.86|||=|0.6227|TWO_SIDED|95.0|0.48|1.55||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed hospitalisation for heart failure was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.55|0.48|= 0.6227
92435461|NCT02692716|184756448|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.77|||=|0.0952|TWO_SIDED|95.0|0.56|1.05||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed all-cause death, non-fatal myocardial infarction or non-fatal stroke was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.05|0.56|= 0.0952
92435462|NCT02692716|184756449|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.04||||0.8583|TWO_SIDED|95.0|0.66|1.66||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the on-treatment observation period. Time from first dose of trial product to first EAC-confirmed fatal or non-fatal myocardial infarction was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their on-treatment observation period.||1.66|0.66|0.8583
92435463|NCT02692716|184756450|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.76||||0.4485|TWO_SIDED|95.0|0.37|1.56||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed fatal or non-fatal stroke was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.56|0.37|0.4485
92435464|NCT02692716|184756451|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.51||||0.0078|TWO_SIDED|95.0|0.31|0.84||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed all-cause death was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||0.84|0.31|0.0078
92435465|NCT02692716|184756452|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.81|||<|0.0001|TWO_SIDED|95.0|1.42|2.3||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from date of first dose of trial product to date of end of treatment visit. Time from first dose to first AE leading to permanent trial product discontinuation was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the date of their end of treatment visit or at their end of study date, whichever came first.||2.30|1.42|<0.0001
92435466|NCT02564042|184756487|OTHER||Proportion difference|54.7|||||TWO_SIDED|95.0|25.9|76.6|||||Difference between GSK2894512 1% BID and Vehicle BID has been presented|||76.6|25.9|
92237984|NCT03408873|184380144|OTHER||Mean Difference (Final Values)|16.9|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between baseline \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with baseline data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. The mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
92237985|NCT03408873|184380145|OTHER||Mean Difference (Final Values)|14.7|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 29 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
92435467|NCT02564042|184756487|OTHER||Proportion difference|51.0|||||TWO_SIDED|95.0|22.2|73.2|||||Difference between GSK2894512 1% QD and Vehicle QD has been presented|||73.2|22.2|
92279902|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.017||||0.9215|TWO_SIDED|95.0|-0.349|0.316||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.316|-0.349|0.9215
92279903|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.055||||0.7453|TWO_SIDED|95.0|-0.388|0.278||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.278|-0.388|0.7453
92279904|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.393||||0.022|TWO_SIDED|95.0|-0.729|-0.057||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.057|-0.729|0.0220
92435468|NCT02564042|184756487|OTHER||Proportion difference|35.6|||||TWO_SIDED|95.0|6.3|60.5|||||Difference between GSK2894512 0.5% BID and Vehicle BID has been presented|||60.5|6.3|
92435469|NCT02564042|184756487|OTHER||Proportion difference|30.7|||||TWO_SIDED|95.0|1.6|55.9|||||Difference between GSK2894512 0.5% QD and Vehicle QD has been presented|||55.9|1.6|
92435470|NCT02564042|184756488|OTHER||Proportion difference|2.9|||||TWO_SIDED|95.0|-21.0|26.6|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 1 has been presented|||26.6|-21.0|
92435471|NCT02564042|184756488|OTHER||Proportion difference|6.3||||||95.0|-20.5|32.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 2 has been presented|||32.4|-20.5|
92435472|NCT02564042|184756488|OTHER||Proportion difference|15.2|||||TWO_SIDED|95.0|-9.6|39.1|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 2 has been presented|||39.1|-9.6|
92435473|NCT02564042|184756488|OTHER||Proportion difference|3.3|||||TWO_SIDED|95.0|-23.6|29.9|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 2 has been presented|||29.9|-23.6|
92435474|NCT02564042|184756488|OTHER||Proportion difference|3.1|||||TWO_SIDED|95.0|-22.2|28.1|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 2 has been presented|||28.1|-22.2|
92435475|NCT02564042|184756488|OTHER||Proportion difference|27.6|||||TWO_SIDED|95.0|-0.5|52.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 4 has been presented|||52.4|-0.5|
92435476|NCT02564042|184756488|OTHER||Proportion difference|25.8|||||TWO_SIDED|95.0|-0.4|49.3|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 4 has been presented|||49.3|-0.4|
92435477|NCT02564042|184756488|OTHER||Proportion difference|9.2|||||TWO_SIDED|95.0|-18.4|35.7|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 4 has been presented|||35.7|-18.4|
92435478|NCT02564042|184756488|OTHER||Proportion difference|6.3|||||TWO_SIDED|95.0|-19.7|31.7|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 4 has been presented|||31.7|-19.7|
92435479|NCT02564042|184756488|OTHER||Proportion difference|45.0|||||TWO_SIDED|95.0|16.6|68.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 8 has been presented|||68.4|16.6|
92435480|NCT02564042|184756488|OTHER||Proportion difference|37.0|||||TWO_SIDED|95.0|8.7|61.3|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 8 has been presented|||61.3|8.7|
92435481|NCT02564042|184756488|OTHER||Proportion difference|32.0|||||TWO_SIDED|95.0|3.5|57.2|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 8 has been presented|||57.2|3.5|
92435482|NCT02564042|184756488|OTHER||Proportion difference|34.4|||||TWO_SIDED|95.0|6.3|58.7|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 8 has been presented|||58.7|6.3|
92435483|NCT02564042|184756488|OTHER||Proportion difference|49.4|||||TWO_SIDED|95.0|20.1|72.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 12 has been presented|||72.4|20.1|
92435484|NCT02564042|184756488|OTHER||Proportion difference|51.0|||||TWO_SIDED|95.0|22.2|73.2|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 12 has been presented|||73.2|22.2|
92435485|NCT02564042|184756488|OTHER||Proportion difference|30.4|||||TWO_SIDED|95.0|1.0|56.1|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 12 has been presented|||56.1|1.0|
92435486|NCT02564042|184756488|OTHER||Proportion difference|41.4|||||TWO_SIDED|95.0|12.7|65.0|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 12 has been presented|||65.0|12.7|
92435487|NCT02564042|184756488|OTHER||Proportion difference|49.4|||||TWO_SIDED|95.0|20.1|72.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 14 has been presented|||72.4|20.1|
92435488|NCT02564042|184756488|OTHER||Proportion difference|60.1|||||TWO_SIDED|95.0|33.2|80.1|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 14 has been presented|||80.1|33.2|
92435489|NCT02564042|184756488|OTHER||Proportion difference|30.0|||||TWO_SIDED|95.0|0.2|56.5|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 14 has been presented|||56.5|0.2|
92435490|NCT02564042|184756488|OTHER||Proportion difference|42.9|||||TWO_SIDED|95.0|14.4|66.5|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 14 has been presented|||66.5|14.4|
92435491|NCT02564042|184756488|OTHER||Proportion difference|52.0|||||TWO_SIDED|95.0|23.2|74.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 16 has been presented|||74.4|23.2|
92435492|NCT02564042|184756488|OTHER||Proportion difference|52.4|||||TWO_SIDED|95.0|24.4|74.0|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 16 has been presented|||74.0|24.4|
92435493|NCT02564042|184756488|OTHER||Proportion difference|35.6|||||TWO_SIDED|95.0|6.3|60.5|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 16 has been presented|||60.5|6.3|
92435494|NCT02564042|184756488|OTHER||Proportion difference|48.3|||||TWO_SIDED|95.0|19.7|71.1|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 16 has been presented|||71.1|19.7|
92435495|NCT02564042|184756488|OTHER||Proportion difference|10.0|||||TWO_SIDED|95.0|-36.9|53.9|||||Difference between GSK2894512 1% BID and Vehicle BID at EW has been presented|||53.9|-36.9|
92435496|NCT02564042|184756488|OTHER||Proportion difference|42.9|||||TWO_SIDED|95.0|-6.3|81.6|||||Difference between GSK2894512 1% QD and Vehicle QD at EW has been presented|||81.6|-6.3|
92435497|NCT02564042|184756497|OTHER||Proportion difference|-3.6|||||TWO_SIDED|95.0|-28.8|21.9|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 1 has been presented|||21.9|-28.8|
92435498|NCT02564042|184756497|OTHER||Proportion difference|-0.3|||||TWO_SIDED|95.0|-25.4|25.1|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 1 has been presented|||25.1|-25.4|
92435499|NCT02564042|184756497|OTHER||Proportion difference|9.4|||||TWO_SIDED|95.0|-17.5|35.3|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 2 has been presented|||35.3|-17.5|
92435500|NCT02564042|184756497|OTHER||Proportion difference|9.1|||||TWO_SIDED|95.0|-15.4|33.3|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 2 has been presented .|||33.3|-15.4|
92435501|NCT02564042|184756497|OTHER||Proportion difference|10.0|||||TWO_SIDED|95.0|-17.1|36.1|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 2 has been presented .|||36.1|-17.1|
92435502|NCT02564042|184756497|OTHER||Proportion difference|6.3|||||TWO_SIDED|95.0|-19.3|31.0|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 2 has been presented|||31.0|-19.3|
92435503|NCT02564042|184756497|OTHER||Proportion difference|9.7|||||TWO_SIDED|95.0|-18.2|36.7|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 4 has been presented|||36.7|-18.2|
92435504|NCT02564042|184756497|OTHER||Proportion difference|19.4|||||TWO_SIDED|95.0|-6.9|43.6|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 4 has been presented .|||43.6|-6.9|
92435505|NCT02564042|184756497|OTHER||Proportion difference|12.7|||||TWO_SIDED|95.0|-15.1|38.9|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 4 has been presented|||38.9|-15.1|
92435506|NCT02564042|184756497|OTHER||Proportion difference|12.5|||||TWO_SIDED|95.0|-13.6|37.4|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 4 has been presented .|||37.4|-13.6|
92435507|NCT02564042|184756497|OTHER||Proportion difference|42.3|||||TWO_SIDED|95.0|13.8|66.0|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 8 has been presented|||66.0|13.8|
92435508|NCT02564042|184756497|OTHER||Proportion difference|37.0|||||TWO_SIDED|95.0|8.7|61.3|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 8 has been presented|||61.3|8.7|
92435509|NCT02564042|184756497|OTHER||Proportion difference|33.3|||||TWO_SIDED|95.0|4.8|58.2|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 8 has been presented .|||58.2|4.8|
92435510|NCT02564042|184756497|OTHER||Proportion difference|40.6|||||TWO_SIDED|95.0|12.8|63.9|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 8 has been presented.|||63.9|12.8|
92435511|NCT02564042|184756497|OTHER||Proportion difference|54.7|||||TWO_SIDED|95.0|25.9|76.6|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 12 has been presented.|||76.6|25.9|
92435512|NCT02564042|184756497|OTHER||Proportion difference|51.0|||||TWO_SIDED|95.0|22.2|73.2|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 12 has been presented|||73.2|22.2|
92435513|NCT02564042|184756497|OTHER||Proportion difference|35.6|||||TWO_SIDED|95.0|6.3|60.5|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 12 has been presented|||60.5|6.3|
92435514|NCT02564042|184756497|OTHER||Proportion difference|30.7|||||TWO_SIDED|95.0|1.6|55.9|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 12 has been presented|||55.9|1.6|
92435515|NCT02564042|184756497|OTHER||Proportion difference|51.3|||||TWO_SIDED|95.0|22.0|74.0|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 14 has been presented|||74.0|22.0|
92435516|NCT02564042|184756497|OTHER||Proportion difference|61.5|||||TWO_SIDED|95.0|34.6|81.0|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 14 has been presented|||81.0|34.6|
92435517|NCT02564042|184756497|OTHER||Proportion difference|23.9|||||TWO_SIDED|95.0|-6.1|51.0|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 14 has been presented|||51.0|-6.1|
92435518|NCT02564042|184756497|OTHER||Proportion difference|37.0|||||TWO_SIDED|95.0|7.8|61.6|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 14 has been presented|||61.6|7.8|
92435519|NCT02564042|184756497|OTHER||Proportion difference|53.1|||||TWO_SIDED|95.0|24.7|75.6|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 16 has been presented|||75.6|24.7|
92435520|NCT02564042|184756497|OTHER||Proportion difference|53.8|||||TWO_SIDED|95.0|25.8|75.5|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 16 has been presented|||75.5|25.8|
92435521|NCT02564042|184756497|OTHER||Proportion difference|29.4|||||TWO_SIDED|95.0|-0.3|55.0|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 16 has been presented|||55.0|-0.3|
92435522|NCT02564042|184756497|OTHER||Proportion difference|35.7|||||TWO_SIDED|95.0|6.5|60.2|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 16 has been presented|||60.2|6.5|
92435523|NCT02564042|184756497|OTHER||Proportion difference|10.0|||||TWO_SIDED|95.0|-36.9|53.9|||||Difference between GSK2894512 1% BID and Vehicle BID at EW has been presented|||53.9|-36.9|
92435524|NCT02564042|184756497|OTHER||Proportion difference|42.9|||||TWO_SIDED|95.0|-6.3|81.6|||||Difference between GSK2894512 1% QD and Vehicle QD at EW has been presented|||81.6|-6.3|
92435525|NCT02564042|184756497|OTHER||Proportion difference|25.0|||||TWO_SIDED|95.0|-35.7|80.6|||||Difference between GSK2894512 0.5% BID and Vehicle BID at EW has been presented|||80.6|-35.7|
92435526|NCT01170754|184756530|NON_INFERIORITY|Inferiority between the two groups was defined as a difference of 10% in the overall BBPS score||||||0.45|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.45
92435527|NCT01170754|184756531|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.13|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.13
92435528|NCT01170754|184756532|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.31|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.31
92435529|NCT01170754|184756533|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.87|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.87
92237986|NCT03408873|184380146|OTHER||Mean Difference (Final Values)|19.2|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
92435530|NCT01170754|184756534|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.25|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.25
92435531|NCT01170754|184756535|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.47|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.47
92435532|NCT01170754|184756536|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.34|TWO_SIDED|95.0|||||t-test, 2 sided|||||||.34
92435533|NCT01170754|184756537|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.18|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.18
92435534|NCT01170754|184756538|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.75|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.75
92435535|NCT01170754|184756539|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.92|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.92
92435536|NCT01170754|184756540|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.6|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.60
92435537|NCT01170754|184756541|NON_INFERIORITY|Inferiority between groups was defined as a difference of 10% in the overall BBPS score.||||||0.98|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance.|t-test, 2 sided|||||||.98
92435538|NCT03590041|184756565|SUPERIORITY|||||||0.04||||||Linear Mixed Model adjusted for a priori patient covariates: Race/Ethnicity, Gender, Health Literacy, Food Availability, Charlson Score, Mental Illness, Substance use. Adjusted P-value represents the significance test for the time x group interaction|Mixed Models Analysis|||We hypothesized that patients in Patient-Driven SMAs would have greater reductions in Diabetes Distress than those in Standardized SMAs. We expected seeing an effect size of a .6 unit decrease (.30) in Standardized SMAs and 1.2 unit decrease (.60) in Patient-Driven SMAs. We estimate we have \>80% power to detect effect sizes between .29 (ICC=3%) and .34 (ICC=5%).||||0.04
92435539|NCT03590041|184756566|SUPERIORITY|||||||0.82||||||Linear Mixed Model adjusted for a priori patient covariates: Race/Ethnicity, Gender, Health Literacy, Food Availability, Charlson Score, Mental Illness, Substance use. Adjusted P-value represents the significance test for the time x group interaction|Mixed Models Analysis|||We hypothesized that patients in the Patient-Driven condition would have a greater reduction in HbA1c than patients in the Standardized condition. We estimate we have \>80% power to detect effect sizes between .29 (ICC=3%) and .34 (ICC=5%).||||0.82
92435540|NCT02692703|184756567|NON_INFERIORITY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment as compared with the historical rate for the current standard of care regimens (SOF/LDV + RBV or SOF + DCV + RBV) was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 86% to achieve noninferiority.|Percentage of Participants|98.0|||||TWO_SIDED|95.0|95.3|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of ≥96%, 90 participants provides \>90% power to demonstrate noninferiority of the regimen to the historical rate for current standard of care regimens (SOF/LDV + RBV OR SOF + DCV + RBV) (94%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|95.3|
92435541|NCT02254486|184756586|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits were adjusted for multiple comparisons (two alternative primary endpoints): To be declared non-inferior, the primary endpoint must show a difference in success rates of no greater than 10% in favor of Trisulfate Solution using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in success rate|0.14||||0.528|ONE_SIDED|97.5|-8.15|||P-value adjusted for multiple comparisons (two alternative primary endpoints): To be declared superior, the primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||The hypothesis was to demonstrate NI of NER1006 to Trisulfate Solution (TS) (10% margin). Success rate was number of patients with successful overall bowel cleansing as proportion of number of patients in each group. Treatment effect was NER1006 success rate - TS success rate. A Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-8.15|0.528
92171146|NCT02605837|184231422|SUPERIORITY||Difference in LS Mean|-47.6|||<|0.001|TWO_SIDED|95.0|-56.4|-38.8|||ANCOVA|||This analysis of maximum eosinophil count was from the ANCOVA model with treatment group and age group as factors and the baseline Peak eosinophil count as a continuous covariate.||-38.8|-56.4|<0.001
92446593|NCT02917031|184780234|SUPERIORITY||Mean Difference (Final Values)|-2.595||||0.252|TWO_SIDED|95.0|-7.04|1.85|||ANCOVA|||Change from baseline, saxagliptin versus placebo.||1.850|-7.040|0.252
92446594|NCT02917031|184780235|SUPERIORITY||Mean Difference (Final Values)|-1.631||||0.425|TWO_SIDED|95.0|-5.635|2.373|||ANCOVA|||Saxagliptin: Change from baseline||2.373|-5.635|0.425
92446595|NCT02917031|184780236|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.925|TWO_SIDED|95.0|-1.996|2.197|||ANCOVA|||"Saxagliptin vs Placebo:~Change from baseline"||2.197|-1.996|0.925
92446596|NCT02917031|184780237|SUPERIORITY||Mean Difference (Final Values)|-3.605||||0.105|TWO_SIDED|95.0|-7.97|0.76|||ANCOVA|||Saxagliptin vs placebo: Change from baseline||0.760|-7.970|0.105
92171147|NCT02605837|184231423|SUPERIORITY||Difference in Least square mean|-0.19|||<|0.001||95.0|-0.22|-0.16|||ANCOVA|||This analysis of histopathologic epithelial features combined grade TSR was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline Peak Eosinophil Count as a continuous covariate.||-0.16|-0.22|<0.001
92279905|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|0.053||||0.7561|TWO_SIDED|95.0|-0.282|0.387||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.387|-0.282|0.7561
92435542|NCT02254486|184756587|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits were adjusted for multiple comparisons (two alternative primary endpoints): To be declared non-inferior the primary endpoint must show a difference in success rates of no greater than 10% in favour of Trisulfate Solution using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in excellent plus good rate|6.58||||0.059|ONE_SIDED|97.5|-1.69|||P-value was adjusted for multiple comparisons (two alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority and with 1-sided p-value \<0.025; the threshold for statistical significance.|Fisher Exact|||The hypothesis was to demonstrate NI of NER1006 to Trisulfate Solution (TS) (10% margin). Success rate was number of patients with successful overall bowel cleansing as proportion of number of patients in each group. Treatment effect was NER1006 success rate - TS success rate. A Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-1.69|0.059
92435543|NCT02254486|184756588|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of Trisulfate Solution using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|-3.01||||0.863|TWO_SIDED|95.0|-11.36|5.28||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to Trisulfate Solution with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 rate - TS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||5.28|-11.36|0.863
92435544|NCT02254486|184756589|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of Trisulfate Solution using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.||||||0.66||||||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to Trisulfate Solution with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 rate - TS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||||0.660
92435545|NCT02254486|184756590|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of Trisulfate Solution using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.||||||0.953||||||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to Trisulfate Solution with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in PDR was calculated as NER1006 rate - Trisulfate Solution rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||||0.953
92435546|NCT02254486|184756591|NON_INFERIORITY_OR_EQUIVALENCE|Formal hierarchical testing of this key secondary endpoints was not performed due to the results of the non-inferiority analysis.||||||0.781|||||||Fisher Exact|||If at least one of the alternative primary endpoints were met, then key secondary endpoints were evaluated hierarchichally in a pre-specified order. Non-inferiority was concluded if the 1-sided 97.5% confidence limit (CL) for difference in proportion of events between 2 groups excluded a 10% or greater difference was in favor of Trisulate Solution. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint had at least met non-inferiority.||||0.781
92435547|NCT01493570|184756602|OTHER||Ratio CSF to Plasma in %|28.31||||1|TWO_SIDED|90.0|25.418|31.532||p-value for ratio outside interval 80% - 125%|ANOVA||Intra Individual geometric coefficient of variation (gCV \[%\]) = 17.50 .|Dose-adjusted CSF to plasma ratio for Cmax. The Analysis of Variance (ANOVA) model was used with 'subject nested within treatment' considered as random effect.||31.532|25.418|1.0000
92435548|NCT00267046|184756610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fine and Gray method.|||||||<0.001
92435549|NCT02772081|184756615|SUPERIORITY||Adjusted difference|-15.4||||0.39|TWO_SIDED|95.0|-47.9|17.1|||Cochran-Mantel-Haenszel|||First Administration; Treatment comparison. Adjusted difference, its 95% confidence interval (CI) and p-value are estimated using Cochran-Mantel-Haenszel test||17.1|-47.9|0.390
92435550|NCT02772081|184756621|SUPERIORITY||Median Difference (Final Values)|5.0||||0.563|TWO_SIDED|95.0|-13.8|23.8|||Wilcoxon (Mann-Whitney)|||Duration of standalone oxygen supplementation||23.8|-13.8|0.563
92435551|NCT02772081|184756621|SUPERIORITY||Median Difference (Final Values)|1.0||||0.612|TWO_SIDED|95.0|-19.7|21.7|||Wilcoxon (Mann-Whitney)|||Duration of NIV||21.7|-19.7|0.612
92435552|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|-0.619||||0.137|TWO_SIDED|95.0|-1.447|0.21|||Mixed model for repeated measures|||T0, Treatment comparison. The analysis was based on an mixed model for repeated measures (MMRM) with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.210|-1.447|0.137
92446597|NCT02917031|184780238|SUPERIORITY||Ratio for relative change|0.971||||0.796|TWO_SIDED|95.0|0.777|1.214|||ANCOVA|||Saxagliptin vs placebo: Change from baseline||1.214|0.777|0.796
92171148|NCT02605837|184231423|SUPERIORITY||Difference in Least square mean|-0.2|||<|0.001||95.0|-0.2|-0.2|||ANCOVA|||This analysis of histopathologic epithelial features combined stage TSR was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline Peak Eosinophil Count as a continuous covariate.||-0.2|-0.2|<0.001
92435553|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|0.268||||0.534|TWO_SIDED|95.0|-0.604|1.14|||Mixed model for repeated measures|||5 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||1.140|-0.604|0.534
92435554|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|0.27||||0.53|TWO_SIDED|95.0|-0.597|1.136|||Mixed model for repeated measures|||15 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||1.136|-0.597|0.530
92435555|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|0.641||||0.091|TWO_SIDED|95.0|-0.108|1.389|||Mixed model for repeated measures|||30 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||1.389|-0.108|0.091
92435556|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|0.463||||0.04|TWO_SIDED|95.0|0.023|0.903|||Mixed model for repeated measures|||1 hour, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.903|0.023|0.040
92435557|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|0.166||||0.532|TWO_SIDED|95.0|-0.371|0.703|||Mixed model for repeated measures|||6 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.703|-0.371|0.532
92435558|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|0.048||||0.877|TWO_SIDED|95.0|-0.578|0.674|||Mixed model for repeated measures|||12 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.674|-0.578|0.877
92435559|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|0.244||||0.356|TWO_SIDED|95.0|-0.289|0.776|||Mixed model for repeated measures|||24 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.776|-0.289|0.356
92435560|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|0.303||||0.258|TWO_SIDED|95.0|-0.235|0.841|||Mixed model for repeated measures|||48 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.841|-0.235|0.258
92435561|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|0.022||||0.945|TWO_SIDED|95.0|-0.616|0.66|||Mixed model for repeated measures|||72 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.660|-0.616|0.945
92171149|NCT02605837|184231424|SUPERIORITY||Odds Ratio (OR)|1.42||||0.164|TWO_SIDED|95.0|0.866|2.333|||Regression, Logistic|||Dysphagia symptom response (binary response) at the final treatment period was performed based on logistic regression model adjusted for age group and diet restriction.||2.333|0.866|0.164
92435562|NCT02772081|184756624|SUPERIORITY||Adjusted mean difference|-0.075||||0.766|TWO_SIDED|95.0|-0.586|0.436|||Mixed model for repeated measures|||120 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.436|-0.586|0.766
92435563|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|0.051||||0.59|TWO_SIDED|95.0|-0.141|0.243|||Mixed model for repeated measures|||T0, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.243|-0.141|0.590
92435564|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|-0.051||||0.511|TWO_SIDED|95.0|-0.21|0.107|||Mixed model for repeated measures|||5 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.107|-0.210|0.511
92435565|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|-0.05||||0.488|TWO_SIDED|95.0|-0.196|0.096|||Mixed model for repeated measures|||15 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.096|-0.196|0.488
92435566|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|-0.11||||0.091|TWO_SIDED|95.0|-0.239|0.019|||Mixed model for repeated measures|||30 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.019|-0.239|0.091
92435567|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|-0.024||||0.344|TWO_SIDED|95.0|-0.076|0.027|||Mixed model for repeated measures|||1 hour, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.027|-0.076|0.344
92435568|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|-0.026||||0.376|TWO_SIDED|95.0|-0.084|0.033|||Mixed model for repeated measures|||6 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.033|-0.084|0.376
92435569|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|-0.04||||0.396|TWO_SIDED|95.0|-0.135|0.055|||Mixed model for repeated measures|||12 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.055|-0.135|0.396
92435570|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|-0.026||||0.268|TWO_SIDED|95.0|-0.074|0.021|||Mixed model for repeated measures|||24 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.021|-0.074|0.268
92171150|NCT02605837|184231425|SUPERIORITY||Odds Ratio (OR)|91.86||||0.001|TWO_SIDED|95.0|5.687|1483.68|||Firth logistic regression|||Overall binary response I at the final treatment period was performed based on firth logistic regression model adjusted for age group and diet restriction.||1483.680|5.687|0.001
92435571|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|-0.037||||0.147|TWO_SIDED|95.0|-0.089|0.014|||Mixed model for repeated measures|||48 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.014|-0.089|0.147
92171151|NCT02605837|184231426|SUPERIORITY||Odds Ratio (OR)|61.68||||0.004|TWO_SIDED|95.0|3.836|991.858|||Firth logistic regression|||Overall binary response II at the final treatment period was perfomed based on based on firth logistic regression model adjusted for age group and diet restriction.||991.858|3.836|0.004
92237987|NCT03408873|184380147|OTHER||Mean Difference (Final Values)|-0.5||||0.73|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||0.73
92237988|NCT03408873|184380148|OTHER||Mean Difference (Final Values)|-10.7||||0.02|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||0.02
92435572|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|0.0||||0.994|TWO_SIDED|95.0|-0.055|0.055|||Mixed model for repeated measures|||72 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.055|-0.055|0.994
92435573|NCT02772081|184756625|SUPERIORITY||Adjusted mean difference|-0.004||||0.853|TWO_SIDED|95.0|-0.048|0.04|||Mixed model for repeated measures|||120 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.040|-0.048|0.853
92435574|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|-10.4||||0.09|TWO_SIDED|95.0|-22.6|1.7|||Mixed model for repeated measures|||T0; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||1.7|-22.6|0.090
92435575|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|-0.3||||0.917|TWO_SIDED|95.0|-6.4|5.8|||Mixed model for repeated measures|||5 min; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||5.8|-6.4|0.917
92435576|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|-1.5||||0.668|TWO_SIDED|95.0|-8.5|5.6|||Mixed model for repeated measures|||15 min; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||5.6|-8.5|0.668
92435577|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|4.0||||0.149|TWO_SIDED|95.0|-1.5|9.6|||Mixed model for repeated measures|||30 min; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||9.6|-1.5|0.149
92435578|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|1.8||||0.318|TWO_SIDED|95.0|-1.9|5.5|||Mixed model for repeated measures|||1 hour; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||5.5|-1.9|0.318
92435579|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|1.6||||0.148|TWO_SIDED|95.0|-0.6|3.7|||Wilcoxon (Mann-Whitney)|||6 hour; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||3.7|-0.6|0.148
92435580|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|3.3||||0.333|TWO_SIDED|95.0|-3.6|10.2|||Mixed model for repeated measures|||12 hours; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||10.2|-3.6|0.333
92435581|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|0.9||||0.56|TWO_SIDED|95.0|-2.2|4.0|||Mixed model for repeated measures|||24 hours; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||4.0|-2.2|0.560
92171152|NCT02605837|184231427|SUPERIORITY||Difference in Least square mean|-6.41||||0.004||95.0|-10.757|-2.063|||ANCOVA|||This analysis was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline DSQ + Pain score as a continuous covariate.||-2.063|-10.757|0.004
92435582|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|2.0||||0.089|TWO_SIDED|95.0|-0.3|4.3|||Mixed model for repeated measures|||48 hours; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||4.3|-0.3|0.089
92435583|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|1.9||||0.115|TWO_SIDED|95.0|-0.5|4.4|||Mixed model for repeated measures|||72 hours; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||4.4|-0.5|0.115
92435584|NCT02772081|184756626|SUPERIORITY||Adjusted mean difference|1.1||||0.284|TWO_SIDED|95.0|-1.0|3.3|||Mixed model for repeated measures|||120 hours; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||3.3|-1.0|0.284
92435585|NCT02772081|184756627|SUPERIORITY||Adjusted difference|-15.7||||0.22|TWO_SIDED|95.0|-39.6|8.2|||Cochran-Mantel-Haenszel|||Any intubation procedure in first 72 hours of life.||8.2|-39.6|0.220
92171153|NCT02605837|184231428|SUPERIORITY||Difference in Least square mean|-2.46||||0.002||95.0|-4.018|-0.909|||ANCOVA|||This analysis was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline DSQ Pain score as a continuous covariate.||-0.909|-4.018|0.002
92435586|NCT02772081|184756627|SUPERIORITY||Adjusted difference|4.9||||0.741|TWO_SIDED|95.0|-22.8|32.5|||Cochran-Mantel-Haenszel|||Any intubation procedure within 36 weeks PMA.||32.5|-22.8|0.741
92446598|NCT02742103|184780244|OTHER||Rate difference (CSL112 - placebo)|-0.124|||||TWO_SIDED|95.0|-0.296|-0.005|||Newcombe-Wilson|||||-0.005|-0.296|
92237989|NCT00062738|184380150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.7|||<|0.05|TWO_SIDED|95.0|0.8|15.9|||Fisher Exact|||For the responder analysis, an LOCF approach was used in which a clinical response was operationally defined as at least a 50% reduction in the HAM-D score from baseline to 8 weeks. Clinical response was cross-tabulated with treatment and Fisher exact test was used to distinguish differences among these groups.||15.9|0.8|<.05
92237990|NCT01600131|184380151|SUPERIORITY||Slope|-0.68|STANDARD_ERROR_OF_MEAN|1.72||0.693|TWO_SIDED|||||a priori \<.05 threshold|Mixed Models Analysis||group X time interaction|||||0.693
92435587|NCT02772081|184756628|SUPERIORITY||Median Difference (Final Values)|-8.0||||0.333|TWO_SIDED|95.0|-32.3|16.3|||Wilcoxon (Mann-Whitney)|||Duration of invasive MV in first 28 days PNA.||16.3|-32.3|0.333
92435588|NCT02772081|184756628|SUPERIORITY||Median Difference (Final Values)|-8.0||||0.334|TWO_SIDED|95.0|-49.5|33.5|||Wilcoxon (Mann-Whitney)|||Duration of invasive MV within 36 weeks PMA.||33.5|-49.5|0.334
92435589|NCT02772081|184756629|SUPERIORITY||Adjusted difference|-28.6||||0.596|TWO_SIDED|95.0|-120.9|63.6|||Wilcoxon (Mann-Whitney)|||Duration of invasive mechanical ventilation.||63.6|-120.9|0.596
92435590|NCT02772081|184756630|SUPERIORITY||CMH adjusted difference|-18.6||||0.219|TWO_SIDED|95.0|-47.0|9.8||The percentage of neonates needing invasive MV in the first 72 hours of life, was compared between the treatment groups using the Cochran-Mantel-Haenszel (CMH) test, adjusted for gestational age (GA) group.|Cochran-Mantel-Haenszel|||Invasive MV in the first 72 hours of life.||9.8|-47.0|0.219
92435591|NCT02772081|184756630|SUPERIORITY||Adjusted difference|-3.4||||0.826|TWO_SIDED|95.0|-33.5|26.7|||Cochran-Mantel-Haenszel|||Invasive MV in first 28 days PNA||26.7|-33.5|0.826
92435592|NCT02772081|184756630|SUPERIORITY||Adjusted difference|-3.4||||0.826|TWO_SIDED|95.0|-33.5|26.7|||Cochran-Mantel-Haenszel|||Invasive MV within 36 weeks PMA.||26.7|-33.5|0.826
92435593|NCT01077856|184756667|SUPERIORITY_OR_OTHER_LEGACY||Standardized Prevalence Ratio (SPR)|1.34|||||TWO_SIDED|95.0|0.89|2.0|||||SPR is the age-adjusted ratio of percentage of live births with a major congenital anomaly (Women who received Gardasil / Women in the general population)|||2.00|0.89|
92435594|NCT01077856|184756667|SUPERIORITY_OR_OTHER_LEGACY||Standardized Prevalence Ratio (SPR)|1.59|||||TWO_SIDED|95.0|0.0|4.77|||||SPR is the age-adjusted ratio of percentage of live births with a major congenital anomaly (Women who received Gardasil / Women in the general population)|||4.77|0.00|
92435595|NCT01077856|184756667|SUPERIORITY_OR_OTHER_LEGACY||Standardized Prevalence Ratio (SPR)|0.86|||||TWO_SIDED|95.0|0.0|2.02|||||SPR is the age-adjusted ratio of percentage of live births with a major congenital anomaly (Women who received Gardasil / Women in the general population)|||2.02|0.00|
92435596|NCT03950167|184756672|OTHER||Mean Difference (Final Values)|0.85||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Fasting CCK level difference: hyperemesis group-control group|||||0.05
92446599|NCT02742103|184780245|OTHER||Rate difference (CSL112 - placebo)|-0.103|||||TWO_SIDED|95.0|-0.277|0.025|||Newcombe-Wilson|||||0.025|-0.277|
92446600|NCT02533921|184780261|SUPERIORITY||Mean Difference (Final Values)|1.5022|STANDARD_ERROR_OF_MEAN|0.6749||0.0272|TWO_SIDED|95.0|0.1706|2.8338|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|Comparing the mean within group change from baseline to 6 months between groups. The null hypothesis is there is no mean difference between groups.||2.8338|0.1706|0.0272
92446601|NCT02533921|184780262|SUPERIORITY||Mean Difference (Final Values)|-1.1236|STANDARD_ERROR_OF_MEAN|0.8267||0.1761|TWO_SIDED|95.0|-2.7569|0.5097|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|Comparing the mean within group change from baseline to 6 months between groups. The null hypothesis is there is no mean difference between groups.||0.5097|-2.7569|0.1761
92446602|NCT02533921|184780263|SUPERIORITY||Mean Difference (Final Values)|-0.4616|STANDARD_ERROR_OF_MEAN|0.3889||0.2369|TWO_SIDED|95.0|-1.2291|0.3059|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|Comparing the mean within group change from baseline to 6 months between groups. The null hypothesis is there is no mean difference between groups.||0.3059|-1.2291|0.2369
92446603|NCT02533921|184780264|SUPERIORITY||Mean Difference (Final Values)|-0.1309||||0.7484|TWO_SIDED|95.0|-0.9349|0.673|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|||0.6730|-0.9349|0.7484
92446604|NCT02533921|184780265|SUPERIORITY||Mean Difference (Final Values)|-0.6878|STANDARD_ERROR_OF_MEAN|0.4789||0.1529|TWO_SIDED|95.0|-1.6338|0.2581|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|Comparing the mean within group change from baseline to 6 months between groups. The null hypothesis is there is no mean difference between groups.||0.2581|-1.6338|0.1529
92446605|NCT02533921|184780266|SUPERIORITY||Mean Difference (Final Values)|-0.1608|STANDARD_ERROR_OF_MEAN|0.3934||0.6834|TWO_SIDED|95.0|-0.9382|0.6167|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|Comparing the mean within group change from baseline to 6 months between groups. The null hypothesis is there is no mean difference between groups.||0.6167|-0.9382|0.6834
92446606|NCT00533949|184780267|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.38||||0.0042|TWO_SIDED|95.0|1.09|1.76|||Log Rank||Reference group = 60 gy|The trial was a two-by-two factorial design with radiation therapy dose as one treatment factor and cetuximab as the other. A log-rank test for each factor at one-sided α of 0.0125 (α of 0.0250 for both factors to account for multiple comparisons) would yield power of 80% to detect an improvement in median survival from 17.1 to 24 months after 339 deaths were reported out of 500 patients. For RT analysis, the comparison was arms 1 \& 3 vs arms 2 \& 4; for cetuximab, arms 1 \& 2 vs arms 3 \& 4.||1.76|1.09|0.0042
92446607|NCT00533949|184780267|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.07||||0.29|TWO_SIDED|95.0|0.84|1.35|||Log Rank||Reference level = cetuximab|The trial was a two-by-two factorial design with radiation therapy dose as one treatment factor and cetuximab as the other. A log-rank test for each factor at one-sided α of 0.0125 (α of 0.0250 for both factors to account for multiple comparisons) would yield power of 80% to detect an improvement in median survival from 17.1 to 24 months after 339 deaths were reported out of 500 patients. For RT analysis, the comparison was arms 1 \& 3 vs arms 2 \& 4; for cetuximab, arms 1 \& 2 vs arms 3 \& 4.||1.35|0.84|0.29
92446608|NCT00533949|184780268|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.19||||0.12|TWO_SIDED|95.0|0.95|1.47|||Log Rank||Reference level = 60 Gy|Progression-free survival is estimated by the Kaplan-Meier method. Comparisons by RT level and by cetuximab assignment are performed separately and tested with a two-sided significance level of 0.05 for each comparison.||1.47|0.95|0.12
92435597|NCT03950167|184756672|OTHER||Mean Difference (Net)|0.68||||0.05|TWO_SIDED||||||t-test, 2 sided||p value demonstrated above is the calculated value. Postprandial CCK level difference: hyperemesis group-control group|Since this is the first study comparing both CCK levels and GB functions in patients diagnosed with hyperemesis gravidarum (HG) and healthy pregnant women, a power analysis was not feasible.||||0.05
92435598|NCT03950167|184756673|OTHER||Mean Difference (Final Values)|0.91||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Fasting GB wall thickness: Hyperemesis group-control group|||||0.05
92435599|NCT03950167|184756673|OTHER||Mean Difference (Final Values)|0.23||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Postprandial GB wall thickness: hyperemesis group-control group|||||0.05
92435600|NCT03950167|184756674|OTHER||Mean Difference (Final Values)|0.41||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Fasting GB volume: hyperemesis group-control group|||||0.05
92435601|NCT03950167|184756674|OTHER||Mean Difference (Final Values)|0.71||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Postprandial GB volume: hyperemesis group-control group|||||0.05
92435602|NCT03950167|184756675|OTHER||Mean Difference (Final Values)|0.22||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Fasting GB ejection fraction: hyperemesis group-control group|||||0.05
92435603|NCT03950167|184756675|OTHER||Mean Difference (Final Values)|0.63||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Postprandial GB ejection fraction: hyperemesis group-control group|||||0.05
92435604|NCT02533427|184756676|OTHER||% Geometric Least Square Mean(GLSM)Ratio|107.36|||||TWO_SIDED|90.0|103.19|111.69|||||Test/Reference: Norelgestromin Part B/Part A|Norelgestromin Part B/Part A||111.69|103.19|
92435605|NCT02533427|184756677|OTHER||% GLSM Ratio|115.14|||||TWO_SIDED|90.0|106.49|124.5|||||Test/Reference: Norgestrel Part B/Part A|Norgestrel Part B/Part A||124.50|106.49|
92435606|NCT02533427|184756678|OTHER||% GLSM Ratio|105.43|||||TWO_SIDED|90.0|96.95|114.66|||||Test/Reference: Ethinyl estradiol Part B/Part A|Ethinyl estradiol Part B/Part A||114.66|96.95|
92435607|NCT02533427|184756679|OTHER||% GLSM Ratio|248.89|||||TWO_SIDED|90.0|33.11|1870.81|||||Test/Reference: Norgestimate Part B/Part A|Norgestimate Part B/Part A||1870.81|33.11|
92435608|NCT02533427|184756680|OTHER||% GLSM Ratio|107.71|||||TWO_SIDED|90.0|97.78|118.65|||||Test/Reference: Norelgestromin Part B/Part A|Norelgestromin Part B/Part A||118.65|97.78|
92435609|NCT02533427|184756681|OTHER||% GLSM Ratio|115.02|||||TWO_SIDED|90.0|108.12|122.37|||||Test/Reference: Norgestrel Part B/Part A|Norgestrel Part B/Part A||122.37|108.12|
92435610|NCT02533427|184756682|OTHER||% GLSM Ratio|121.06|||||TWO_SIDED|90.0|106.1|138.12|||||Test/Reference: Ethinyl estradiol Part B/Part A|Ethinyl estradiol Part B/Part A||138.12|106.10|
92435611|NCT02533427|184756683|OTHER||% GLSM Ratio|112.11|||||TWO_SIDED|90.0|87.19|144.14|||||Test/Reference: Norgestimate Part B/Part A|Norgestimate Part B/Part A||144.14|87.19|
92435612|NCT02533427|184756684|OTHER||% GLSM Ratio|114.19|||||TWO_SIDED|90.0|107.4|121.39|||||Test/Reference: Norelgestromin Part B/Part A|Norelgestromin Part B/Part A||121.39|107.40|
92435613|NCT02533427|184756685|OTHER||% GLSM Ratio|121.62|||||TWO_SIDED|90.0|110.85|133.44|||||Test/Reference: Norgestrel Part B/Part A|Norgestrel Part B/Part A||133.44|110.85|
92435614|NCT02533427|184756686|OTHER||% GLSM Ratio|92.86|||||TWO_SIDED|90.0|82.55|104.45|||||Test/Reference: Ethinyl estradiol Part B/Part A|Ethinyl estradiol Part B/Part A||104.45|82.55|
92435615|NCT01979016|184756703|SUPERIORITY||Least Squares (LS) Mean Difference|-69.4|||<|0.0001|TWO_SIDED|95.0|-92.5|-46.2|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a mixed model repeated measures (MMRM) model.||-46.2|-92.5|< 0.0001
92435616|NCT01979016|184756704|SUPERIORITY||Percentage difference|37.0|||=|0.0006|TWO_SIDED|95.0|18.82|55.25|||Cochran-Mantel-Haenszel||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||55.25|18.82|= 0.0006
92435617|NCT01979016|184756705|SUPERIORITY||Percentage difference|48.1|||<|0.0001|TWO_SIDED|95.0|28.0|68.3|||Cochran-Mantel-Haenszel||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||68.30|28.00|< 0.0001
92435618|NCT01979016|184756706|SUPERIORITY||LS Mean Difference|-2.66|||<|0.0001|TWO_SIDED|95.0|-3.8|-1.52|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||-1.52|-3.80|< 0.0001
92435619|NCT01979016|184756707|SUPERIORITY||LS Mean Difference|-48.08|||=|0.0001|TWO_SIDED|95.0|-71.31|-24.85|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||-24.85|-71.31|= 0.0001
92435620|NCT01979016|184756708|SUPERIORITY||LS Mean Difference|-21.5|||<|0.0001|TWO_SIDED|95.0|-29.0|-14.0|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||-14.0|-29.0|<0.0001
92435621|NCT01979016|184756709|SUPERIORITY||LS Mean Difference|-31.3|||<|0.0001|TWO_SIDED|95.0|-41.5|-21.1|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||-21.1|-41.5|< 0.0001
92435622|NCT01979016|184756710|SUPERIORITY||LS Mean Difference|-46.6|||<|0.0001|TWO_SIDED|95.0|-62.0|-31.3|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by MMRM model.||-31.3|-62.0|< 0.0001
92435623|NCT01979016|184756711|SUPERIORITY||Percentage difference|55.6|||<|0.0001|TWO_SIDED|95.0|33.38|77.73|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 50% reduction from baseline in EASI score (EASI-50). Analysis was performed by a MMRM model.||77.73|33.38|< 0.0001
92435624|NCT01979016|184756711|SUPERIORITY||Percentage difference|51.9|||=|0.0001|TWO_SIDED|95.0|29.59|74.12|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 75% reduction from baseline in EASI score (EASI-75). Analysis was performed by a MMRM model.||74.12|29.59|= 0.0001
92435625|NCT01979016|184756711|SUPERIORITY||Percentage difference|33.3|||=|0.0011|TWO_SIDED|95.0|15.55|51.11|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 90% reduction from baseline in EASI score (EASI-90). Analysis was performed by a MMRM model.||51.11|15.55|= 0.0011
92435626|NCT01979016|184756712|SUPERIORITY||Percentage difference|48.1|||=|0.0002|TWO_SIDED|95.0|27.0|69.3|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 50% reduction from baseline in SCORAD Score (SCORAD-50). Analysis was performed by a MMRM model.||69.3|27.0|= 0.0002
92435627|NCT01979016|184756712|SUPERIORITY||Percentage difference|11.1|||=|0.0792|TWO_SIDED|95.0|-0.7|23.0|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 75% reduction from baseline in SCORAD Score (SCORAD-75). Analysis was performed by a MMRM model.||23.0|-0.7|= 0.0792
92237991|NCT01600131|184380152|SUPERIORITY||Slope|-2.17|STANDARD_ERROR_OF_MEAN|2.07||0.693|TWO_SIDED|||||a priori \<.05 threshold|Mixed Models Analysis||group x time interaction|||||0.693
92237992|NCT01600131|184380153|SUPERIORITY||Slope|-2.08|STANDARD_ERROR_OF_MEAN|1.08||0.055|TWO_SIDED||||||Mixed Models Analysis||group X time interaction|||||0.055
92237993|NCT01600131|184380154|SUPERIORITY||Slope|-1.08|STANDARD_ERROR_OF_MEAN|1.15||0.346|TWO_SIDED||||||Mixed Models Analysis||group X time interaction|||||0.346
92435628|NCT01979016|184756712|SUPERIORITY||Percentage difference|7.4|||=|0.1573|TWO_SIDED|95.0|-2.5|17.3|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 90% reduction from baseline in SCORAD Score (SCORAD-90). Analysis was performed by a MMRM model.||17.3|-2.5|= 0.1573
92435629|NCT01979016|184756713|SUPERIORITY||LS Mean Difference|-10.4|||<|0.0001|TWO_SIDED|95.0|-14.3|-6.6|||ANCOVA|||Analysis was performed by a MMRM model.||-6.6|-14.3|< 0.0001
92435630|NCT01979016|184756714|SUPERIORITY||LS Mean Difference|-46.2|||<|0.0001|TWO_SIDED|95.0|-63.9|-28.5|||ANCOVA|||Analysis was performed by a MMRM model.||-28.5|-63.9|< 0.0001
92435631|NCT01979016|184756716|SUPERIORITY||LS Mean Difference|-3.7|||<|0.0001|TWO_SIDED|95.0|-5.02|-2.39|||ANCOVA|||||-2.39|-5.02|< 0.0001
92237994|NCT01600131|184380156|SUPERIORITY||Slope|-0.72|STANDARD_ERROR_OF_MEAN|1.79||0.688|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.688
92435632|NCT01985867|184756717|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.19||||0.399|TWO_SIDED|95.0|0.24|1.5|||risk analysis (prospective)|||||1.5|0.24|0.399
92435633|NCT01985867|184756718|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.2||||0.589|TWO_SIDED|95.0|-0.6|0.7|||Wilcoxon (Mann-Whitney)|||||0.7|-0.6|0.589
92435634|NCT01985867|184756719|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|2.0||||0.005|TWO_SIDED|95.0|0.5|4.0|||Wilcoxon (Mann-Whitney)|||||4.0|0.5|0.005
92435635|NCT01985867|184756720|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.659|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.659
92435636|NCT01985867|184756721|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.79|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.790
92435637|NCT01985867|184756722|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.698|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.698
92435638|NCT01985867|184756723|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.3||||0.12|TWO_SIDED|95.0|0.9|6.2|||risk analysis (prospective)|||||6.2|0.9|0.120
92435639|NCT01985867|184756724|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116|||||||Wilcoxon (Mann-Whitney)|||||||0.116
92435640|NCT01985867|184756725|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.5||||0.612|TWO_SIDED|95.0|-0.6|0.8|||Wilcoxon (Mann-Whitney)|||||0.8|-0.6|0.612
92435641|NCT01985867|184756726|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.0||||0.004|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2.0|0.0|0.004
92435642|NCT01985867|184756727|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.708|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.708
92435643|NCT01985867|184756728|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.522|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||||1.0|-1.0|0.522
92435644|NCT01985867|184756729|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.185|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||||1.0|0.0|0.185
92435645|NCT01985867|184756730|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.973|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.973
92435646|NCT01985867|184756731|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.642|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.642
92435647|NCT02205814|184756735|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Fourhundred evaluable patients were supposed to provide approximately 80% power in rejecting the null hypothesis of equality between any dose of fasitibant and placebo based on previous results and an overall significance level of 5% (two-sided).|mixed linear model for repeated measures|||||||<0.05
92435648|NCT02205814|184756736|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Fourhundred evaluable patients were supposed to provide approximately 80% power in rejecting the null hypothesis of equality between any dose of fasitibant and placebo based on previous results and an overall significance level of 5% (two-sided).|mixed linear model for repeated measures|||All secondary efficacy variables were analysed on the ITT population only. Multiplicity was adjusted using the Hochberg procedure. The continuous secondary efficacy variables were analysed over time and were treated in the same way as the primary efficacy variable with respective output.||||<0.05
92435649|NCT02397785|184756751|SUPERIORITY|||||||0.8979|||||||t-test, 2 sided|||It was calculated that 52 participants (26 in each arm) was sufficient to detect a 30% reduction in the VAS score (⍺ = 0.05, β = 0.80) from baseline to 12 weeks using paired t-tests, assuming average pain of 80-90 on the VAS and 10% drop-out. Because stratified randomization was performed on the basis of levator ani muscle spasm, there was an imbalance between the size of the sham and active groups, and 58 subjects were ultimately recruited with approval from the Institutional Review Board.||||0.8979
92435650|NCT02397785|184756752|SUPERIORITY|||||||0.9338|||||||Sign test|||||||0.9338
92435651|NCT02397785|184756753|SUPERIORITY|||||||0.1568|||||||Sign test|||||||0.1568
92435652|NCT02397785|184756754|SUPERIORITY|||||||0.3817|||||||Sign test|||||||0.3817
92435653|NCT02397785|184756755|SUPERIORITY|||||||0.286|||||||Sign test|||||||0.2860
92435654|NCT02397785|184756756|SUPERIORITY|||||||0.2884|||||||Sign test|||||||0.2884
92435655|NCT02397785|184756757|SUPERIORITY|||||||0.0855|||||||Sign test|||||||0.0855
92435656|NCT02397785|184756758|SUPERIORITY|||||||0.0287|||||||Sign test|||||||0.0287
92435657|NCT02397785|184756759|SUPERIORITY|||||||0.2887|||||||Sign test|||||||0.2887
92435658|NCT02397785|184756760|SUPERIORITY|||||||0.9954|||||||Sign test|||||||0.9954
92435659|NCT02397785|184756761|SUPERIORITY|||||||0.0574|||||||Sign test|||||||0.0574
92435660|NCT02397785|184756762|SUPERIORITY|||||||0.7827|||||||Sign test|||||||0.7827
92435661|NCT02397785|184756763|SUPERIORITY|||||||0.2114|||||||Sign test|||||||0.2114
92435662|NCT02397785|184756764|SUPERIORITY|||||||0.4986|||||||Sign test|||||||0.4986
92435663|NCT02397785|184756765|SUPERIORITY|||||||0.461|||||||Sign test|||||||0.4610
92435664|NCT02397785|184756766|SUPERIORITY|||||||0.2556|||||||Sign test|||||||0.2556
92435665|NCT02397785|184756767|SUPERIORITY|||||||0.0723|||||||t-test, 2 sided|||||||0.0723
92435666|NCT02397785|184756768|SUPERIORITY|||||||0.7456|||||||t-test, 2 sided|||||||0.7456
92435667|NCT02397785|184756769|SUPERIORITY|||||||0.138|||||||t-test, 2 sided|||||||0.1380
92435668|NCT02397785|184756770|SUPERIORITY|||||||0.3155|||||||t-test, 2 sided|||||||0.3155
92435669|NCT02756689|184756777|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
92435670|NCT02756689|184756778|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||0.29
92435671|NCT02756689|184756779|SUPERIORITY||Risk Ratio (RR)|2.1||||0.09|TWO_SIDED|95.0|0.8|5.3|||Chi-squared|||||5.3|0.8|0.09
92435672|NCT02756689|184756780|SUPERIORITY|||||||0.12|||||||Chi-squared|||||||0.12
92435673|NCT02756689|184756781|SUPERIORITY||Risk Ratio (RR)|3.3||||0.06|TWO_SIDED|95.0|0.9|11.4|||Chi-squared|||||11.4|0.9|0.06
92435674|NCT02756689|184756782|SUPERIORITY||Risk Ratio (RR)|0.8||||0.74|TWO_SIDED|95.0|0.2|2.8|||Chi-squared|||||2.8|0.2|0.74
92435675|NCT02756689|184756783|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92435676|NCT02756689|184756784|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||||||0.82
92435677|NCT02756689|184756785|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
92435678|NCT02756689|184756786|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||||||0.42
92435679|NCT02756689|184756787|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
92435680|NCT02756689|184756788|SUPERIORITY||Risk Ratio (RR)|1.0|||>|0.99|TWO_SIDED|95.0|0.2|4.7|||Chi-squared|||||4.7|0.2|>0.99
92435681|NCT02756689|184756789|SUPERIORITY||Risk Ratio (RR)|0.7||||0.43|TWO_SIDED|95.0|0.3|1.7|||Chi-squared|||||1.7|0.3|0.43
92435682|NCT02756689|184756790|SUPERIORITY||Risk Ratio (RR)|0.3||||0.09|TWO_SIDED|95.0|0.1|1.3|||Chi-squared|||||1.3|0.1|0.09
92435683|NCT02756689|184756791|SUPERIORITY||Risk Ratio (RR)|0.7||||0.68|TWO_SIDED|95.0|0.1|3.8|||Chi-squared|||||3.8|0.1|0.68
92435684|NCT02756689|184756792|SUPERIORITY||Risk Ratio (RR)|0.8||||0.73|TWO_SIDED|95.0|0.3|2.6|||Chi-squared|||||2.6|0.3|0.73
92435685|NCT02756689|184756793|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
92435686|NCT02756689|184756794|SUPERIORITY||Risk Ratio (RR)|1.0|||>|0.99|TWO_SIDED|95.0|0.1|15.4|||Chi-squared|||||15.4|0.1|>0.99
92435687|NCT02756689|184756795|SUPERIORITY||||||>|0.99|||||||Chi-squared|||||||>0.99
92435688|NCT02756689|184756796|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
92435689|NCT02756689|184756797|SUPERIORITY||Risk Ratio (RR)|0.3||||0.37|TWO_SIDED|95.0|0.03|2.3|||Chi-squared|||||2.3|0.03|0.37
92435690|NCT02756689|184756798|SUPERIORITY||||||>|0.99|||||||Chi-squared|||||||>0.99
92435691|NCT02756689|184756799|SUPERIORITY||Risk Ratio (RR)|0.5||||0.62|TWO_SIDED|95.0|0.05|5.3|||Chi-squared|||||5.3|0.05|0.62
92435692|NCT02756689|184756800|SUPERIORITY||Risk Ratio (RR)|1.0|||>|0.99|TWO_SIDED|95.0|0.3|3.2|||Chi-squared|||||3.2|0.3|>0.99
92435693|NCT02756689|184756801|SUPERIORITY|||||||0.234|||||||Wilcoxon (Mann-Whitney)|||||||0.234
92435694|NCT02756689|184756802|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92435695|NCT02756689|184756803|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
92435696|NCT02756689|184756804|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92435697|NCT02756689|184756805|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
92171154|NCT03913195|184231449|EQUIVALENCE|The equivalence limits for the 90% confidence interval are 0.80 to 1.25. If the 90% CIs were within the equivalence limits (0.8, 1.25), it demonstrated a PK bridge between the two routes of administration.|Risk Ratio (RR)|1.0||||1|TWO_SIDED|90.0|0.8299|1.2049||H0: P1 is not different from P2.|Fisher Exact|||The proportion of subjects with an average Ctrough ≥ 300 ng/mL is compared between the 30-second IV push and the 15-minute IV infusion.||1.2049|0.8299|1.0
92435698|NCT02756689|184756806|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
92435699|NCT02756689|184756807|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
92435700|NCT02756689|184756808|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
92435701|NCT02756689|184756809|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
92435702|NCT02756689|184756810|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
92435703|NCT02756689|184756811|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
92435704|NCT02756689|184756812|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
92435705|NCT02756689|184756813|SUPERIORITY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
92435706|NCT02756689|184756814|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92435707|NCT02756689|184756815|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
92435708|NCT02756689|184756816|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||0.83
92435709|NCT02756689|184756817|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
92435710|NCT02557646|184756818|SUPERIORITY_OR_OTHER|||||||0.0437|TWO_SIDED||||||Chi-squared|||Cumulative dose of ribavirin \>90%: the relationship between cumulative dose and SVR response in participants in whom the cumulative dose of ribavirin exceeded 90% was analyzed using Chi-square test.||||0.0437
92435711|NCT02557646|184756820|SUPERIORITY_OR_OTHER|||||||0.6859|TWO_SIDED||||||Chi-squared|||The relationship between the starting dose ribavirin and virological response was analyzed using Chi-square test.||||0.6859
92435712|NCT02557646|184756821|SUPERIORITY_OR_OTHER|||||||0.374|TWO_SIDED||||||Chi-squared|||The relationship between the starting dose ribavirin and sustained virological response (SVR) was analyzed using Chi-square test.||||0.3740
92435713|NCT02557646|184756822|SUPERIORITY_OR_OTHER|||||||0.0263|TWO_SIDED||||||Chi-squared, Corrected|||The relationship between the body weight-normalized dose of ribavirin and virological response was analyzed using Chi-square test.||||0.0263
92435714|NCT02557646|184756823|SUPERIORITY_OR_OTHER|||||||0.0475|TWO_SIDED||||||Chi-squared|||The relationship between the body weight-normalized dose of ribavirin and sustained virological (SVR) response was analyzed using Chi-square test.||||0.0475
92435715|NCT02557646|184756829|SUPERIORITY_OR_OTHER|||||||0.1499|TWO_SIDED||||||Chi-squared|||The relationship between the cumulative dose of ribavirin and relapse rate was analyzed using Chi-square test.||||0.1499
92435716|NCT02557646|184756830|SUPERIORITY_OR_OTHER|||||||0.5885|TWO_SIDED||||||Chi-squared|||The relationship between the starting dose of ribavirin and relapse rate was analyzed using Chi-square test.||||0.5885
92435717|NCT02557646|184756831|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED||||||Chi-squared|||The relationship between the body weight-normalized dose of ribavirin and relapse rate was analyzed using Chi-square test.||||0.0062
92435718|NCT01288469|184756848|SUPERIORITY_OR_OTHER||LS Mean Difference|-55.82|||<|0.0001|TWO_SIDED|95.0|-65.62|-46.03||Threshold for significance ≤0.05.|ANCOVA||Alirocumab vs. placebo|Throughout the ANCOVA model, the Alirocumab + atorvastatin 80 mg group was compared to the placebo + atorvastatin 80 mg group using appropriate contrast and the 95% confidence interval (CI) of the difference was provided.||-46.03|-65.62|<0.0001
92435719|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.62|||||TWO_SIDED|90.0|-1.2|2.44||||||Comparison at 0.5 hours postdose.||2.44|-1.20|
92435720|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.89|||||TWO_SIDED|90.0|1.05|4.73||||||Comparison at 2.0 hours postdose.||4.73|1.05|
92435721|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.11|||||TWO_SIDED|90.0|0.28|3.95||||||Comparison at 3.0 hours postdose.||3.95|0.28|
92435722|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.48|||||TWO_SIDED|90.0|-0.36|3.32||||||Comparison at 4.0 hours postdose.||3.32|-0.36|
92435723|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.48|||||TWO_SIDED|90.0|-0.36|3.32||||||Comparison at 5.0 hours postdose.||3.32|-0.36|
92435724|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.48|||||TWO_SIDED|90.0|1.64|5.32||||||Comparison at 6.0 hours postdose.||5.32|1.64|
92435725|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.12|||||TWO_SIDED|90.0|0.27|3.97||||||Comparison at 8.0 hours postdose.||3.97|0.27|
92435726|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.67|||||TWO_SIDED|90.0|-0.17|3.51||||||Comparison at 12.0 hours postdose.||3.51|-0.17|
92171898|NCT03743636|184233368|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.5558|ONE_SIDED|90.0|-9.52||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-9.52|0.5558
92435727|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.01|||||TWO_SIDED|90.0|-1.57|3.59||||||Comparison at 0.5 hours postdose.||3.59|-1.57|
92435728|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.99|||||TWO_SIDED|90.0|2.4|7.57||||||Comparison at 2.0 hours postdose.||7.57|2.40|
92435729|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.28|||||TWO_SIDED|90.0|3.71|8.86||||||Comparison at 3.0 hours postdose.||8.86|3.71|
92435730|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.35|||||TWO_SIDED|90.0|3.78|8.93||||||Comparison at 4.0 hours postdose.||8.93|3.78|
92435731|NCT01606436|184756866|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.71|||||TWO_SIDED|90.0|2.11|7.31||||||Comparison at 12.0 hours postdose.||7.31|2.11|
92435732|NCT00110149|184756874|OTHER|As the study was not able to be completed the simple number of patients per outcome is listed.|||||||||||||||||The trial was to measure the response rate and EFS of patients but the manufacturer of the investigational agent closed and sold the agent to a new company so the trial was not able to be completed.|||
92435733|NCT01911689|184756876|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||The independent T test was used to determine the differences for the T2\* value between the Control group and AP group.||||<0.01
92237995|NCT01600131|184380157|SUPERIORITY||Slope|-1.52|STANDARD_ERROR_OF_MEAN|1.87||0.418|TWO_SIDED|||||a priori \<.05|Mixed Models Analysis||group X time interaction|||||0.418
92435734|NCT01911689|184756877|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||The independent T test was used to determine the differences for the T2\* value between the edematous AP and necrotizing AP||||0.05
92435735|NCT01911689|184756878|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||ANOVA|||Analysis of variance (ANOVA) was used to assess the differences in the T2\* value between the mild, moderate, and severe AP groups according to the MRSI score.||||<0.01
92435736|NCT01911689|184756878|SUPERIORITY_OR_OTHER|||||||0.0111|TWO_SIDED|95.0|||||t-test, 2 sided|||compare the T2\* value in the mild and moderate AP according to MRSI||||0.0111
92435737|NCT01911689|184756878|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0|||||t-test, 2 sided|||compare the T2\* value between the mild and severe AP||||0.002
92435738|NCT01911689|184756878|SUPERIORITY_OR_OTHER|||||||0.071|TWO_SIDED|95.0|||||t-test, 2 sided|||compare the T2\* value between the moderate and severe AP according to MRSI||||0.071
92435739|NCT01911689|184756879|SUPERIORITY_OR_OTHER|||||||0.629|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.629
92435740|NCT00748033|184756883|OTHER|||||||0.065|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test, two-sided. Testing the hypothesis that the perception is same.||||0.0650
92435741|NCT00748033|184756884|OTHER|||||||0.2487|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test, two-sided. Testing the hypothesis that the perception is same.||||0.2487
92435742|NCT00748033|184756885|OTHER|||||||0.7288|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test, two-sided. Testing the hypothesis that the perception is same.||||0.7288
92435743|NCT00748033|184756886|OTHER|||||||0.0045|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test, two-sided. Testing the hypothesis that the perception is same.||||0.0045
92435744|NCT00748033|184756887|OTHER|||||||0.4561|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test if the difference between 5s and 24h is equal to 0.||Testing the hypothesis that 5s and 24 h are equal at insertion.||||0.4561
92435745|NCT00748033|184756888|OTHER|||||||0.1797|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test if the difference between 5s and 24h is equal to 0.||Testing the hypothesis that 5s and 24 h are equal at withdrawal.||||0.1797
92435746|NCT00748033|184756889|OTHER|||||||0.5171|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test if the difference between 5s and 24h is equal to 0.||The mean perception of the 5s and the 24h catheter is calculated for each patient. The patients are then divided in two groups depending on the order the patients received the two catheters and the hypotheses that the mean of the 5s and the 24h catheter is equal in the two groups are tested. If the test results in a significant p-value it can be concluded that a carry-over effect is present.||||0.5171
92435747|NCT00748033|184756890|OTHER|||||||0.7105|||||||Wilcoxon (Mann-Whitney)|||The mean perception of the 5s and the 24h catheter is calculated for each patient. The patients are then divided in two groups depending on the order the patients received the two catheters and the hypotheses that the mean of the 5s and the 24h catheter is equal in the two groups are tested. If the test results in a significant p-value it can be concluded that a carry-over effect is present.||||0.7105
92435748|NCT00748033|184756891|OTHER|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||||||0.0003
92435749|NCT00748033|184756892|OTHER|||||||0.0346|||||||Wilcoxon (Mann-Whitney)|||||||0.0346
92435750|NCT00748033|184756893|OTHER|||||||0.0016|||||||Wilcoxon (Mann-Whitney)|||||||0.0016
92435751|NCT03334448|184756896|SUPERIORITY||Ratio of Geometric Least Square Means|0.83|||||TWO_SIDED|90.0|0.818|0.957||||||||0.957|0.818|
92435752|NCT03334448|184756897|SUPERIORITY||Ration of Lease Square Means|0.97|||||TWO_SIDED|90.0|0.83|1.09||||||||1.09|0.83|
92435753|NCT02326025|184756898|SUPERIORITY||Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|0.964|1.13|||||Log(PK) is participant and treatment and random error, where participant is fitted as a random effect.|||1.13|0.964|
92435754|NCT02326025|184756898|SUPERIORITY||Ratio of LS Means|1.03|||||TWO_SIDED|90.0|0.957|1.11||||||||1.11|0.957|
92435755|NCT02326025|184756899|SUPERIORITY||Ratio of LS Means|0.944|||||TWO_SIDED|90.0|0.77|1.16||||||||1.16|0.770|
92435756|NCT02326025|184756899|SUPERIORITY||Ratio of LS Means|1.03|||||TWO_SIDED|90.0|0.801|1.33||||||||1.33|0.801|
92435757|NCT02643082|184756930|SUPERIORITY||LS Mean ratio between treatments|1.75|||<|0.0001|TWO_SIDED|95.0|1.65|1.86|||Mixed Models Analysis|||||1.86|1.65|<0.0001
92435758|NCT02643082|184756931|SUPERIORITY||LS Mean ratio between treatments|0.29|||<|0.0001|TWO_SIDED|95.0|0.26|0.33|||Mixed Models Analysis|||||0.33|0.26|<0.0001
92435759|NCT02643082|184756932|SUPERIORITY||LS Mean ratio between treatments|0.29|||<|0.0001|TWO_SIDED|95.0|0.25|0.33|||Mixed Models Analysis|||||0.33|0.25|<0.0001
92435760|NCT02643082|184756933|SUPERIORITY||LS Mean ratio between treatments|1.79|||<|0.0001|TWO_SIDED|95.0|1.67|1.92|||Mixed Models Analysis|||||1.92|1.67|<0.0001
92435761|NCT02643082|184756934|SUPERIORITY||LS Mean Difference Between Treatments|0.443|||<|0.0001|TWO_SIDED|95.0|0.318|0.569|||Mixed Models Analysis|||||0.569|0.318|<0.0001
92435762|NCT02643082|184756935|SUPERIORITY||LS Mean ratio between treatments|0.87|||<|0.0001|TWO_SIDED|95.0|0.82|0.92|||Mixed Models Analysis|||||0.92|0.82|<0.0001
92435763|NCT02289417|184756936|SUPERIORITY||Stratified Difference|19.2||||0.0142|TWO_SIDED|95.0|3.4|33.6|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of oral (PO) corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||33.6|3.4|0.0142
92435764|NCT02289417|184756936|SUPERIORITY||Stratified Difference|7.7||||0.2689|TWO_SIDED|95.0|-6.9|22.0|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method|||22.0|-6.9|0.2689
92237996|NCT01600131|184380158|SUPERIORITY||Slope|-1.94|STANDARD_ERROR_OF_MEAN|1.45||0.18|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.180
92435765|NCT02289417|184756937|SUPERIORITY||Stratified Difference|14.6||||0.1224|TWO_SIDED|95.0|-3.6|31.5|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||31.5|-3.6|0.1224
92435766|NCT02289417|184756937|SUPERIORITY||Stratified Difference|19.4||||0.0401|TWO_SIDED|95.0|1.1|36.0|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||36.0|1.1|0.0401
92435767|NCT02289417|184756938|SUPERIORITY||Stratified Difference|5.2||||0.2472|TWO_SIDED|95.0|-5.7|16.7|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||16.7|-5.7|0.2472
92435768|NCT02289417|184756938|SUPERIORITY||Stratified Difference|3.1||||0.4628|TWO_SIDED|95.0|-7.5|14.6|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||14.6|-7.5|0.4628
92435769|NCT02289417|184756939|SUPERIORITY||Stratified Difference|32.0||||0.0005|TWO_SIDED|95.0|13.8|47.4|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||47.4|13.8|0.0005
92435770|NCT02289417|184756939|SUPERIORITY||Stratified Difference|3.7||||0.6878|TWO_SIDED|95.0|-14.4|21.5|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||21.5|-14.4|0.6878
92435771|NCT02289417|184756940|SUPERIORITY||Stratified Difference|11.5||||0.1388|TWO_SIDED|95.0|-4.1|26.1|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||26.1|-4.1|0.1388
92435772|NCT02289417|184756940|SUPERIORITY||Stratified Difference|13.5||||0.0788|TWO_SIDED|95.0|-1.6|27.7||Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Cochran-Mantel-Haenszel||Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||27.7|-1.6|0.0788
92171899|NCT03743636|184233368|SUPERIORITY||Mean Difference (Final Values)|5.21||||0.2378|ONE_SIDED|90.0|-4.47||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-4.47|0.2378
92435773|NCT02289417|184756941|SUPERIORITY||Stratified Difference|24.8||||0.0046|TWO_SIDED|95.0|7.5|40.1|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||40.1|7.5|0.0046
92435774|NCT02289417|184756941|SUPERIORITY||Stratified Difference|6.0||||0.4476||95.0|-9.8|21.6|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||21.6|-9.8|0.4476
92435775|NCT02289417|184756942|SUPERIORITY||Stratified Difference|16.7||||0.0755|TWO_SIDED|95.0|-1.4|33.5|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||33.5|-1.4|0.0755
92435776|NCT02289417|184756942|SUPERIORITY||Stratified Difference|19.8||||0.037|TWO_SIDED|95.0|1.5|36.4|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||36.4|1.5|0.0370
92435777|NCT02289417|184756943|SUPERIORITY||Stratified Difference|14.6||||0.1167|TWO_SIDED|95.0|-3.3|31.4|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||31.4|-3.3|0.1167
92171155|NCT03913195|184231450|EQUIVALENCE|The equivalence limits for the 90% confidence interval (CI) are 0.80 to 1.25. If the 90% CIs were within the equivalence limits (0.8, 1.25), it demonstrated a PK bridge between the two routes of administration.|mean geometric ratio|1.0315||||0.5389|TWO_SIDED|90.0|0.9478|1.1226|||SAS PROC MIXED|||The log transform of the ratio of the geometric means of the Area Under the Curve (AUC) for 30 second IV Push and 15 minute IV infusion is compared.||1.1226|0.9478|0.5389
92435778|NCT02289417|184756943|SUPERIORITY||Stratified Difference|18.1||||0.0534|TWO_SIDED|95.0|-0.3|34.9|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||34.9|-0.3|0.0534
92435779|NCT02289417|184756944|SUPERIORITY||Stratified Difference|16.6||||0.0758|TWO_SIDED|95.0|-1.5|33.3|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||33.3|-1.5|0.0758
92435780|NCT02289417|184756944|SUPERIORITY||Stratified Difference|32.5||||0.0004|TWO_SIDED|95.0|14.9|47.5|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||47.5|14.9|0.0004
92435781|NCT02725710|184756949|OTHER|||||||0.56|||||||Regression, Linear|||||||0.56
92435782|NCT01782222|184756962|SUPERIORITY_OR_OTHER||Least Square Mean|0.04|STANDARD_ERROR_OF_MEAN|1.24||0.977|TWO_SIDED|95.0|-2.42|2.5|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||2.50|-2.42|0.977
92435783|NCT01782222|184756962|SUPERIORITY_OR_OTHER||Least Square Mean|-0.22|STANDARD_ERROR_OF_MEAN|1.21||0.859|TWO_SIDED|95.0|-2.61|2.18|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||2.18|-2.61|0.859
92435784|NCT01782222|184756963|SUPERIORITY_OR_OTHER||Least Square Mean|-7.29|STANDARD_ERROR_OF_MEAN|2.53||0.005|TWO_SIDED|95.0|-12.3|-2.28|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||-2.28|-12.30|0.005
92435785|NCT01782222|184756963|SUPERIORITY_OR_OTHER||Least Square Mean|-6.06|STANDARD_ERROR_OF_MEAN|2.45||0.015|TWO_SIDED|95.0|-10.9|-1.21|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||-1.21|-10.90|0.015
92435786|NCT01782222|184756964|SUPERIORITY_OR_OTHER||Least Square Mean|-3.2|STANDARD_ERROR_OF_MEAN|2.46||0.2|TWO_SIDED|95.0|-8.17|1.76|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||1.76|-8.17|0.200
92435787|NCT01782222|184756964|SUPERIORITY_OR_OTHER||Least Square Mean|-3.04|STANDARD_ERROR_OF_MEAN|2.55||0.239|TWO_SIDED|95.0|-8.19|2.1|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||2.10|-8.19|0.239
92435788|NCT01782222|184756965|SUPERIORITY_OR_OTHER||Least Square Mean|-2.09|STANDARD_ERROR_OF_MEAN|3.23||0.519|TWO_SIDED|95.0|-8.48|4.31|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||4.31|-8.48|0.519
92435789|NCT01782222|184756965|SUPERIORITY_OR_OTHER||Least Square Mean|-5.06|STANDARD_ERROR_OF_MEAN|3.15||0.111|TWO_SIDED|95.0|-11.29|1.17|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||1.17|-11.29|0.111
92435790|NCT01782222|184756966|SUPERIORITY_OR_OTHER||Least Square Mean|-3.62|STANDARD_ERROR_OF_MEAN|1.9||0.06|TWO_SIDED|95.0|-7.39|0.15|||ANCOVA|ANCOVA model for the change from Baseline to End of Treatment containing treatment and disease stage as factors, and Baseline value as covariate.||||0.15|-7.39|0.060
92435791|NCT01782222|184756966|SUPERIORITY_OR_OTHER||Least Square Mean|-3.88|STANDARD_ERROR_OF_MEAN|1.8||0.034|TWO_SIDED|95.0|-7.46|-0.3|||ANCOVA|ANCOVA model for the change from Baseline to End of Treatment containing treatment and disease stage as factors, and Baseline value as covariate.||||-0.30|-7.46|0.034
92435792|NCT01782222|184756967|SUPERIORITY_OR_OTHER||Least Square Mean|-0.38|STANDARD_ERROR_OF_MEAN|0.39||0.334|TWO_SIDED|95.0|-1.16|0.4|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||0.40|-1.16|0.334
92435793|NCT01782222|184756967|SUPERIORITY_OR_OTHER||Least Square Mean|0.02|STANDARD_ERROR_OF_MEAN|0.38||0.968|TWO_SIDED|95.0|-0.74|0.77|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||0.77|-0.74|0.968
92435794|NCT01782222|184756968|SUPERIORITY_OR_OTHER||Least Square Mean|0.16|STANDARD_ERROR_OF_MEAN|1.26||0.899|TWO_SIDED|95.0|-2.34|2.66|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||2.66|-2.34|0.899
92435795|NCT01782222|184756968|SUPERIORITY_OR_OTHER||Least Square Mean|-0.33|STANDARD_ERROR_OF_MEAN|1.19||0.785|TWO_SIDED|95.0|-2.68|2.03|||ANCOVA|ANCOVA model for the change from Baseline to End of Treatment containing treatment and disease stage as factors, and Baseline value as covariate.||||2.03|-2.68|0.785
92435796|NCT01782222|184756969|SUPERIORITY_OR_OTHER||Least Square Mean|-4.96|STANDARD_ERROR_OF_MEAN|1.99||0.014|TWO_SIDED|95.0|-8.91|-1.01|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||-1.01|-8.91|0.014
92435797|NCT01782222|184756969|SUPERIORITY_OR_OTHER||Least Square Mean|-4.83|STANDARD_ERROR_OF_MEAN|1.92||0.013|TWO_SIDED|95.0|-8.63|-1.03|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||-1.03|-8.63|0.013
92171900|NCT03743636|184233369|SUPERIORITY||Mean Difference (Final Values)|-2.71||||0.7112|ONE_SIDED|90.0|-8.97||||ANCOVA||||||-8.97|0.7112
92171901|NCT03743636|184233370|SUPERIORITY||Mean Difference (Final Values)|-7.4||||0.9449|ONE_SIDED|90.0|-13.31||||ANCOVA||||||-13.31|0.9449
92435798|NCT03200860|184756971|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||||||0.18
92435799|NCT03200860|184756972|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||||||0.37
92435800|NCT03200860|184756973|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||0.58
92435801|NCT03200860|184756974|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||||||0.63
92435802|NCT03200860|184756975|SUPERIORITY|||||||0.31|||||||Regression, Logistic|||||||0.31
92435803|NCT03200860|184756976|SUPERIORITY|||||||0.014|||||||Regression, Logistic|||||||0.014
92435804|NCT02634320|184757012|OTHER|Statistical test is to confirm the change from baseline is statistically different from 0.||||||0.078||||||Change from baseline at last on-treatment visit|t-test, 2 sided|||||||0.078
92435805|NCT00064844|184757049|SUPERIORITY_OR_OTHER_LEGACY||chi square|7.25|||<|0.01||95.0|||||Chi-squared|df = 1, N = 96||||||<0.01
92435806|NCT01428453|184757050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|39.8||||0.133|TWO_SIDED|95.0|-12.4|92.0|||ANCOVA|The analysis method was ANCOVA adjusted for Treatment, Baseline CSF Abeta1-42 and Age.|Comparison of CSF Abeta42 between placebo and rilapladib 250 mg.|||92.0|-12.4|0.133
92435807|NCT01428453|184757050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-250.3|STANDARD_ERROR_OF_MEAN|265.66||0.829|TWO_SIDED|95.0|-771.9|271.2|||ANCOVA|The analysis method was ANCOVA adjusted for Treatment, Baseline CSF Abeta1-40 and Age.|Comparison of CSF Abeta40 between placebo and rilapladib 250 mg.|||271.2|-771.9|0.829
92435808|NCT01428453|184757051|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.016|||||TWO_SIDED|95.0|-0.003|0.036|||||The analysis method was ANCOVA adjusted for Treatment, Baseline CSF Ratio Abeta1-42/Abeta1-40 and Age.|||0.036|-0.003|
92435809|NCT01428453|184757052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-57.1|STANDARD_ERROR_OF_MEAN|44.4||0.902|TWO_SIDED|95.0|-144.5|30.3|||ANCOVA|The analysis method was ANCOVA adjusted for Treatment, Baseline CSF tau and Age.|Comparison of CSF tau between placebo and rilapladib 250 mg.|||30.3|-144.5|0.902
92435810|NCT01428453|184757052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|2.46||0.892|TWO_SIDED|95.0|-7.9|1.8|||ANCOVA|The analysis method was ANCOVA adjusted for Treatment, Baseline CSF P-tau and Age.|Comparison of P-tau between placebo and rilapladib 250 mg.|||1.8|-7.9|0.892
92435811|NCT01428453|184757053|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.167||||0.026|TWO_SIDED|95.0|0.021|0.313||The analysis method was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline Working Memory/Executive Function Composite Score, Treatment by Visit and Baseline Working Memory/Executive Function Composite Score by Visit.|Mixed-Model Repeated Measures analysis||A positive treatment difference indicates benefit, relative to placebo.|||0.313|0.021|0.026
92435812|NCT01428453|184757054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.256||0.828|TWO_SIDED|95.0|-0.74|0.26|||ANCOVA|The analysis method was ANCOVA adjusted for Treatment, Baseline CSF Albumin Quotient and Age.||||0.26|-0.74|0.828
92435813|NCT01428453|184757055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-3.9|1.2|||Mixed-Model Repeated Measures analysis||Comparison of Abeta42 between placebo and rilapladib 250 mg. The analysis method for Plasma parameters was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline, Treatment by Visit, Baseline by Visit and Age.|||1.2|-3.9|
92435814|NCT01428453|184757055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||||95.0|-10.2|12.2|||Mixed-Model Repeated Measures analysis||Comparison of Abeta40 between placebo and rilapladib 250 mg. The analysis method for Plasma parameters was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline, Treatment by Visit, Baseline by Visit and Age.|||12.2|-10.2|
92435815|NCT01428453|184757056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.003|||||TWO_SIDED|95.0|-0.016|0.01|||Mixed-Model Repeated Measures analysis||The analysis method for Plasma parameters was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline, Treatment by Visit, Baseline by Visit and Age.|||0.010|-0.016|
92435816|NCT01428453|184757058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.067|||||TWO_SIDED|95.0|-0.191|0.057|||Mixed-Model Repeated Measures analysis||"The analysis method was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline Score, Treatment by Visit and Baseline Score by Visit. A positive treatment difference indicates benefit, relative to placebo.~placebo."|||0.057|-0.191|
92435817|NCT01428453|184757058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.138||||0.982|TWO_SIDED|95.0|0.01|0.267||The analysis method was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline Overall Composite Score, Treatment by Visit and Baseline Overall Composite Score by Visit.|Mixed-Model Repeated Measures analysis|The probability (effect size) for change from Baseline in CogState battery overall composite score \>0 is presented.|A positive treatment difference indicates benefit, relative to placebo. Comparison of overall composite score between placebo and rilapladib 250 mg at Week 24.|||0.267|0.010|0.982
92435818|NCT01428453|184757059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.063|||||TWO_SIDED|95.0|-0.257|0.13|||Mixed-Model Repeated Measures analysis|The analysis method was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline Score, Treatment by Visit and Baseline Score by Visit.|Comparison of attention composite score between placebo and rilapladib 250 mg at Week 12. A positive treatment difference indicates benefit, relative to placebo.|||0.130|-0.257|
92435819|NCT01428453|184757059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|||||TWO_SIDED|95.0|-0.13|0.269|||Mixed-Model Repeated Measures analysis|The analysis method was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline Score, Treatment by Visit and Baseline Score by Visit.|Comparison of attention composite score between placebo and rilapladib 250 mg at Week 24. A positive treatment difference indicates benefit, relative to placebo.|||0.269|-0.130|
92435820|NCT03918447|184757064|SUPERIORITY||Least Square Means Difference|0.97|STANDARD_ERROR_OF_MEAN|1.122|=|0.3886|TWO_SIDED|95.0|-1.25|3.19|||ANCOVA|||ANCOVA model with baseline eGFR as a covariate, and treatment group as fixed effects.||3.19|-1.25|=0.3886
92435821|NCT03918447|184757066|SUPERIORITY||Least Square Means Difference|7.94|STANDARD_ERROR_OF_MEAN|0.777|<|0.0001|TWO_SIDED|95.0|6.41|9.47|||MMRM|||Mixed model repeated measure (MMRM) model used baseline eGFR as a covariate, and the following fixed factors: treatment group, time (Week 1 to 100, excluding Week 52), and the interaction between treatment and time. Within-participant errors are modeled using an unstructured covariance matrix.||9.47|6.41|<0.0001
92171902|NCT03743636|184233371|SUPERIORITY||Mean Difference (Final Values)|-0.48||||0.5409|ONE_SIDED|90.0|-6.57||||ANCOVA||||||-6.57|0.5409
92435822|NCT01774968|184757071|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.1||||0.3709|TWO_SIDED|95.0|-0.33|0.12|||Mixed Models Analysis|||Approximately 325 participants were to be randomized (in a 1:1 ratio of U-500R insulin TID:BID) and 260 were to complete the study (with a 20% dropout rate). The 260 completers would provide a 66.4% chance to show equivalence of TID and BID algorithms, 14.4% chance to show noninferiority of TID, 2.5% chance to superiority of TID, 14.4% chance to show noninferiority of BID, and 2.5% chance to show superiority of BID, assuming a difference in HbA1c change of 0% and a standard deviation of 1.1%.||0.12|-0.33|0.3709
92435823|NCT00534430|184757088|EQUIVALENCE|Given the small sample-size of the disease sub-groups, this was a hypothesis generating study.|Median Difference (Net)|0.0|||>|0.05|TWO_SIDED|||||Not adjusted for multiple comparisons. A-priori threshold for statistical significance was 0.05.|Log Rank|No adjustments.||Log-rank test. (Mantel-Haenszel test). Null hypothesis is all four groups are statistically from the same population. Alternative hypothesis is that at least one of the groups is from a population different from the remaining groups. Anticipated sample-sizes comparing Active ALL (anticipated N= 12) with the combined AML patients (anticipated N=38) was deemed to be too small for formal hypothesis testing.||||>0.05
92435824|NCT00534430|184757089|EQUIVALENCE|Given the small sample-size of the disease sub-groups, this was a hypothesis generating study.|Median Difference (Net)|0.0|||>|0.05|TWO_SIDED|||||Not adjusted for multiple comparisons. A-priori threshold for statistical significance was 0.05.|Gray's Test|No adjustments.||Gray's estimate. (Fine and Gray). Null hypothesis is all four groups are statistically from the same population. Alternative hypothesis is that at least one of the groups is from a population different from the remaining groups. Anticipated sample-sizes comparing Active ALL (anticipated N= 12) with the combined AML patients (anticipated N=38) was deemed to be too small for formal hypothesis testing||||>0.05
92435825|NCT02423577|184757090|SUPERIORITY||Risk Ratio (RR)|1.14||||0.1436|TWO_SIDED|90.0|0.98|1.31|||Chi-squared|||||1.31|0.98|0.1436
92435826|NCT01986855|184757091|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.03||||0.807|TWO_SIDED|95.0|-0.23|0.18||The cLDA model included fixed effects for treatment, time, eGFR stratum (\<45 or ≥45 mL/min/1.73m\^2), baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||0.18|-0.23|0.807
92435827|NCT01986855|184757091|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.15||||0.155|TWO_SIDED|95.0|-0.35|0.06||The cLDA model included fixed effects for treatment, time, eGFR stratum (\<45 or ≥45 mL/min/1.73m\^2), baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||0.06|-0.35|0.155
92435828|NCT01986855|184757092|SUPERIORITY_OR_OTHER||Difference in Percentages vs. Placebo|3.6|||||TWO_SIDED|95.0|-4.8|12.1|||||Miettinen \& Nurminen Method|||12.1|-4.8|
92435829|NCT01986855|184757092|SUPERIORITY_OR_OTHER||Difference in Percentages vs. Placebo|-7.0|||||TWO_SIDED|95.0|-16.3|2.3|||||Miettinen \& Nurminen Method|||2.3|-16.3|
92435830|NCT01986855|184757093|SUPERIORITY_OR_OTHER||Difference in Percentages vs. Placebo|3.0|||||TWO_SIDED|95.0|-2.7|9.0|||||Miettinen \& Nurminen Method|||9.0|-2.7|
92435831|NCT01986855|184757093|SUPERIORITY_OR_OTHER||Difference in Percentages vs. Placebo|-1.3|||||TWO_SIDED|95.0|-6.5|3.7|||||Miettinen \& Nurminen Method|||3.7|-6.5|
92435832|NCT01986855|184757094|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.03||||0.828|TWO_SIDED|95.0|-0.28|0.23||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||0.23|-0.28|0.828
92435833|NCT01986855|184757094|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.09||||0.496|TWO_SIDED|95.0|-0.35|0.17||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||0.17|-0.35|0.496
92279906|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.071||||0.6758|TWO_SIDED|95.0|-0.406|0.263||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.263|-0.406|0.6758
92435834|NCT01986855|184757095|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.77|||<|0.001|TWO_SIDED|95.0|-2.57|-0.96||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable. P-value is nominal.|Constrained longitudinal data analysis|||||-0.96|-2.57|<0.001
92435835|NCT01986855|184757095|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.84|||<|0.001|TWO_SIDED|95.0|-2.66|-1.02||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable. P-value is nominal.|Constrained longitudinal data analysis|||||-1.02|-2.66|<0.001
92435836|NCT01986855|184757096|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.42||||0.451|TWO_SIDED|95.0|-5.13|2.29||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||2.29|-5.13|0.451
92435837|NCT01986855|184757096|SUPERIORITY_OR_OTHER||Difference in the least squares means|-3.46||||0.072|TWO_SIDED|95.0|-7.24|0.31||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||0.31|-7.24|0.072
92237997|NCT01600131|184380159|SUPERIORITY||Slope|-0.63|STANDARD_ERROR_OF_MEAN|0.65||0.332|TWO_SIDED||||||Mixed Models Analysis||group X time interaction|||||0.332
92237998|NCT01600131|184380160|SUPERIORITY||Slope|-0.56|STANDARD_ERROR_OF_MEAN|0.56||0.318|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.318
92435838|NCT01986855|184757097|SUPERIORITY_OR_OTHER||Difference in the least squares means|-6.81||||0.291|TWO_SIDED|96.0|-19.47|5.85||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||5.85|-19.47|0.291
92435839|NCT01986855|184757097|SUPERIORITY_OR_OTHER||Difference in the least squares means|-15.51||||0.019|TWO_SIDED|95.0|-28.5|-2.53||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable. P-value is nominal.|Constrained longitudinal data analysis|||||-2.53|-28.50|0.019
92435840|NCT01986855|184757098|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.16||||0.713|TWO_SIDED|95.0|0.53|2.56||Adjusted Odds Ratio based on a logistic regression model fitted with fixed effects for treatment, baseline treatment with insulin stratum (yes/no), and a covariate for baseline A1C.|Logistic regression model|||||2.56|0.53|0.713
92435841|NCT01986855|184757098|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.06||||0.89|TWO_SIDED|95.0|0.44|2.55||Adjusted Odds Ratio based on a logistic regression model fitted with fixed effects for treatment, baseline treatment with insulin stratum (yes/no), and a covariate for baseline A1C.|Logistic regression model|||||2.55|0.44|0.890
92435842|NCT02014597|184757109|OTHER|||||||0.0583||||||Scotopic logCS|Kruskal-Wallis|||||||0.0583
92435843|NCT02014597|184757109|OTHER|||||||0.1762||||||Photopic logCS|Kruskal-Wallis|||||||0.1762
92435844|NCT02014597|184757110|OTHER|||||||0.183||||||Scotopic|Pearson correlation|||Correlation between logCS and MD.||||0.183
92435845|NCT02014597|184757110|OTHER|||||||0.771||||||Photopic|Pearson correlation|||Correlation between logCS and MD.||||0.771
92435846|NCT02014597|184757110|OTHER|||||||0.492||||||Scotopic|Pearson correlation|||Correlation between logCS and PSD.||||0.492
92435847|NCT02014597|184757110|OTHER|||||||0.83||||||Photopic|Pearson correlation|||Correlation between logCS and PSD.||||0.830
92237999|NCT01600131|184380161|SUPERIORITY||Slope|2.33|STANDARD_ERROR_OF_MEAN|1.31||0.077|TWO_SIDED|||||a priori \<.05|Mixed Models Analysis||group X time interaction|||||0.077
92435848|NCT00754624|184757145|SUPERIORITY_OR_OTHER||Slope|-0.048|||||TWO_SIDED|95.0|-0.059|-0.037|||Random coefficient|Adjusted for Baseline FEV1 value||A random coefficient model with a random intercept and slope associated with each subject, was fitted (using the PROC MIXED procedure in SAS) to the observed FEV1 data to estimate the annual rate of decline. The model included terms for baseline FEV1 and time (in years) of FEV1 measurements. Missing pulmonary functions were not imputed.||-0.037|-0.059|
92435849|NCT00754624|184757146|SUPERIORITY_OR_OTHER||Slope|-0.058|||||TWO_SIDED|95.0|-0.072|-0.043|||Random Coefficient|Adjusted for Baseline FVC value||A random coefficient model with a random intercept and slope associated with each subject, was fitted (using the PROC MIXED procedure in SAS) to the observed FVC data to estimate the annual rate of decline. The model included terms for baseline FVC and time (in years) of FVC measurements. Missing pulmonary functions were not imputed.||-0.043|-0.072|
92435850|NCT00754624|184757147|SUPERIORITY_OR_OTHER||Slope|-0.311|||||TWO_SIDED|95.0|-0.454|-0.168|||Random Coefficient|Adjusted for Baseline DLCo value||A random coefficient model with a random intercept and slope associated with each subject, was fitted (using the PROC MIXED procedure in SAS) to the observed DLco data to estimate the annual rate of decline. The model included terms for baseline DLco and time (in years) of DLco measurements. Missing pulmonary functions were not imputed.||-0.168|-0.454|
92435851|NCT01571427|184757152|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.35||0.25|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.25
92435852|NCT01571427|184757152|EQUIVALENCE|Power calculation was based on the entire sample (CDR=0 and CDR=0.5 combined). Analyses within each CDR group are exploratory.|Median Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.42||0.25|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: AMONG CDR=0 group (N=49)||||0.25
92238000|NCT01600131|184380162|SUPERIORITY||Slope|1.5|STANDARD_ERROR_OF_MEAN|1.46||0.305|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.305
92435853|NCT01571427|184757152|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses within each CDR group are exploratory.|Median Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.62||0.85|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analyses 3: AMONG CDR=0.5 (Mild Cognitive Impairment) group, N=34 .||||0.85
92238001|NCT01600131|184380165|SUPERIORITY||Slope|-0.62|STANDARD_ERROR_OF_MEAN|0.94||0.514|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.514
92238002|NCT01600131|184380166|SUPERIORITY||Slope|-1.61|STANDARD_ERROR_OF_MEAN|0.94||0.09|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.090
92238003|NCT01600131|184380167|SUPERIORITY||Slope|6.71|STANDARD_ERROR_OF_MEAN|2.57||0.009|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.009
92446609|NCT00533949|184780268|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.89|TWO_SIDED|95.0|0.8|1.22|||Log Rank||Reference level = cetuximab|Progression-free survival is estimated by the Kaplan-Meier method. Comparisons by RT level and by cetuximab assignment are performed separately and tested with a two-sided significance level of 0.05.||1.22|0.80|0.89
92238004|NCT01600131|184380168|SUPERIORITY||Slope|4.29|STANDARD_ERROR_OF_MEAN|3.53||0.225|TWO_SIDED||||||Mixed Models Analysis||group X time interaction|||||0.225
92238005|NCT01600131|184380169|SUPERIORITY||Slope|3.75|STANDARD_ERROR_OF_MEAN|4.89||0.443|TWO_SIDED|||||a priori \<.05 threshold|Mixed Models Analysis||group X time interaction|||||0.443
92435854|NCT01571427|184757153|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|0.92||0.02|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.02
92435855|NCT01571427|184757153|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|1.28||0.003|TWO_SIDED|||||Statistically significant based on the Bonferroni multiple comparison adjusted P value of P\<0.004.|Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: AMONG CDR=0 group (N=49)||||0.003
92435856|NCT01571427|184757153|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|1.14||0.65|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analyses 3: CDR=0.5 (Mild Cognitive Impairment) group, N=34||||0.65
92435857|NCT01571427|184757154|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|1.33||0.98|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.98
92435858|NCT01571427|184757154|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|1.63||0.96|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: Among CDR 0 (n=49)||||0.96
92435859|NCT01571427|184757154|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|2.38||0.83|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: Among CDR 0.5 (n=34)||||0.83
92435860|NCT01571427|184757155|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.64||0.68|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.68
92435861|NCT01571427|184757155|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.84||0.69|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.69
92435862|NCT01571427|184757155|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|1.02||0.86|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.86
92435863|NCT01571427|184757156|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.43||0.92|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.92
92435864|NCT01571427|184757156|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.61||0.92|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.92
92435865|NCT01571427|184757156|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.62||0.94|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.94
92446610|NCT00533949|184780269|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17||||0.24|TWO_SIDED|95.0|0.89|1.53|||Gray's test||Reference level = 60 Gy|Local-regional failure was estimated by the cumulative incidence method. Comparisons by RT level and by cetuximab assignment are performed separately and tested with a two-sided significance level of 0.05 for each comparison.||1.53|0.89|0.24
92171903|NCT03743636|184233372|SUPERIORITY||Mean Difference (Final Values)|-3.35||||0.7814|ONE_SIDED|90.0|-8.89||||ANCOVA||||||-8.89|0.7814
92435866|NCT01571427|184757157|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|2.84||0.46|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.46
92435867|NCT01571427|184757157|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|2.08||0.61|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.61
92435868|NCT01571427|184757157|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-1.66|STANDARD_ERROR_OF_MEAN|6.42||0.8|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.80
92435869|NCT01571427|184757158|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|3.25|STANDARD_ERROR_OF_MEAN|8.88||0.72|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.72
92435870|NCT01571427|184757158|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|2.26|STANDARD_ERROR_OF_MEAN|11.1||0.84|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.84
92435871|NCT01571427|184757158|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|12.39|STANDARD_ERROR_OF_MEAN|14.4||0.4|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.40
92435872|NCT01571427|184757159|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.91||0.38|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.38
92435873|NCT01571427|184757159|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|1.31||0.39|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.39
92435874|NCT01571427|184757159|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|1.26||0.59|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.59
92435875|NCT01571427|184757160|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.02||0.03|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.03
92435876|NCT01571427|184757160|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.24|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.24
92238006|NCT01600131|184380170|SUPERIORITY||Slope|7.39|STANDARD_ERROR_OF_MEAN|5.23||0.158|TWO_SIDED||||||Mixed Models Analysis||group x time interaction|||||0.158
92171904|NCT03743636|184233373|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.5884|ONE_SIDED|90.0|-7.07||||ANCOVA||||||-7.07|0.5884
92171905|NCT03743636|184233374|SUPERIORITY||Mean Difference (Final Values)|4.05||||0.1787|ONE_SIDED|90.0|-1.6||||ANCOVA||||||-1.60|0.1787
92238007|NCT01600131|184380171|SUPERIORITY||Slope|7.28|STANDARD_ERROR_OF_MEAN|3.64||0.046|TWO_SIDED|||||a priori \<.05 threshold|Mixed Models Analysis||group X time interaction|||||0.046
92435877|NCT01571427|184757160|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.04||0.04|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.04
92435878|NCT01571427|184757161|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.65|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.65
92435879|NCT01571427|184757161|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.64|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.64
92435880|NCT01571427|184757161|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.1||0.42|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.42
92435881|NCT01571427|184757162|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.45||0.45|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.45
92435882|NCT01571427|184757162|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.05||0.93|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.93
92435883|NCT01571427|184757162|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.08||0.4|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.40
92435884|NCT01571427|184757163|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.09||0.3|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.30
92435885|NCT01571427|184757163|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.1||0.75|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.75
92435886|NCT01571427|184757163|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.15||0.12|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.12
92435887|NCT00982592|184757194|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.874|TWO_SIDED|95.0|0.7|1.54|||Log Rank|||||1.54|0.70|0.874
92435888|NCT00982592|184757196|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.253|TWO_SIDED|95.0|0.83|2.05|||Log Rank|||||2.05|0.83|0.253
92435889|NCT01741701|184757199|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.50
92435890|NCT01741701|184757200|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|||Comparison of change between groups from baseline to 4 months||||0.51
92435891|NCT01741701|184757201|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||t-test, 2 sided|||Comparison between groups in the change from baseline to 4 months||||0.97
92435892|NCT01741701|184757202|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||t-test, 2 sided|||Comparison between groups in the change from baseline to 4 months||||.77
92238008|NCT01600131|184380172|SUPERIORITY||Slope|5.54|STANDARD_ERROR_OF_MEAN|3.83||0.149|TWO_SIDED||||||Mixed Models Analysis||group X time interaction|||||0.149
92238009|NCT01600131|184380173|SUPERIORITY||Slope|4.16|STANDARD_ERROR_OF_MEAN|1.95||0.034|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.034
92238010|NCT01600131|184380174|SUPERIORITY||Slope|-0.3|STANDARD_ERROR_OF_MEAN|1.52||0.846|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.846
92238011|NCT01600131|184380175|SUPERIORITY||Slope|1.67|STANDARD_ERROR_OF_MEAN|2.17||0.0442|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||.0442
92435893|NCT01741701|184757203|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||Comparison between groups in change from baseline to 4 months||||.90
92435894|NCT01741701|184757204|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||t-test, 2 sided|||Comparison between groups in change from baseline to 4 months||||.95
92435895|NCT04677374|184757205|OTHER|||||||0.044|||||||Test of proportions|||||||0.044
92435896|NCT04677374|184757205|OTHER|||||||0.259|||||||Test of proportions|||||||0.259
92435897|NCT04677374|184757205|OTHER|||||||0.044|||||||Test of proportions|||||||0.044
92435898|NCT04677374|184757206|OTHER||Hazard Ratio (HR)|2.23|||||TWO_SIDED|95.0|1.01|4.93||||||||4.93|1.01|
92435899|NCT04677374|184757206|OTHER||Hazard Ratio (HR)|1.66|||||TWO_SIDED|95.0|0.69|4.0||||||||4.00|0.69|
92435900|NCT04677374|184757206|OTHER||Hazard Ratio (HR)|2.31|||||TWO_SIDED|95.0|1.0|5.36||||||||5.36|1.00|
92435901|NCT01669915|184757217|SUPERIORITY||Mean Difference (Net)|0.01||||0.31|TWO_SIDED|95.0|-0.01|0.02|||Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in vitamin D active group minus the rate in placebo group). A mixed model included terms for the variables time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||0.02|-0.01|0.31
92435902|NCT01669915|184757217|SUPERIORITY||Mean Difference (Net)|-0.01||||0.14|TWO_SIDED|95.0|-0.02|0.003|||Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in omega-3 fatty acids active group minus the rate in placebo group). A mixed model included the variables, time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||0.003|-0.02|0.14
92435903|NCT01669915|184757218|SUPERIORITY||Mean Difference (Net)|0.01||||0.49|TWO_SIDED|95.0|-0.01|0.03||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in vitamin D active group minus the rate in placebo group). A mixed model included the variables, time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||0.03|-0.01|0.49
92435904|NCT01669915|184757218|SUPERIORITY||Mean Difference (Net)|-0.02||||0.03|TWO_SIDED|95.0|-0.04|-0.002||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in omega-3 active group minus the rate in placebo group). A mixed model included the variables, time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||-0.002|-0.04|0.03
92435905|NCT01669915|184757219|SUPERIORITY||Mean Difference (Net)|0.01||||0.23|TWO_SIDED|95.0|-0.01|0.02||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in vitamin D active group minus the rate in placebo group). A mixed model included terms for the variables time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||0.02|-0.01|0.23
92435906|NCT01669915|184757219|SUPERIORITY||Mean Difference (Net)|0.003||||0.68|TWO_SIDED|95.0|-0.01|0.02||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in omega-3 active group minus the rate in placebo group). A mixed model included terms for the variables time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization)||0.02|-0.01|0.68
92435907|NCT01669915|184757220|SUPERIORITY||Mean Difference (Net)|0.03||||0.46|TWO_SIDED|95.0|-0.04|0.09||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in vitamin D active group minus the rate in placebo group). A mixed model included the variables, time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||0.09|-0.04|0.46
92435908|NCT01669915|184757220|SUPERIORITY||Mean Difference (Net)|-0.1||||0.003|TWO_SIDED|95.0|-0.17|-0.04||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in omega-3 active group minus the rate in placebo group). A mixed model included the variables, time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||-0.04|-0.17|0.003
92435909|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|2.11|||||TWO_SIDED|95.0|-3.48|7.7||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 1.||7.70|-3.48|
92435910|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|5.33|||||TWO_SIDED|95.0|-0.41|11.07||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 1.||11.07|-0.41|
92435911|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|2.49|||||TWO_SIDED|95.0|-3.35|8.33||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 1.||8.33|-3.35|
92435912|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-6.11|5.36||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 2.||5.36|-6.11|
92435913|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|4.36|||||TWO_SIDED|95.0|-1.57|10.29||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 2.||10.29|-1.57|
92435914|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|4.6|||||TWO_SIDED|95.0|-1.45|10.65||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 2.||10.65|-1.45|
92435915|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|-4.25|||||TWO_SIDED|95.0|-10.44|1.93||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 7.||1.93|-10.44|
92435916|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|-0.45|||||TWO_SIDED|95.0|-7.22|6.32||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 7.||6.32|-7.22|
92435917|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|-1.46|||||TWO_SIDED|95.0|-8.25|5.33||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 7.||5.33|-8.25|
92435918|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|0.16|||||TWO_SIDED|95.0|-5.98|6.29||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 8.||6.29|-5.98|
92435919|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|8.3|||||TWO_SIDED|95.0|1.52|15.08||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 8.||15.08|1.52|
92435920|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|3.82|||||TWO_SIDED|95.0|-2.85|10.5||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 8.||10.50|-2.85|
92435921|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|-1.09|||||TWO_SIDED|95.0|-7.16|4.97||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 14.||4.97|-7.16|
92435922|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|6.78|||||TWO_SIDED|95.0|-0.11|13.66||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 14.||13.66|-0.11|
92435923|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|3.29|||||TWO_SIDED|95.0|-3.58|10.15||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 14.||10.15|-3.58|
92435924|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|-1.12|||||TWO_SIDED|95.0|-7.64|5.4||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 15.||5.40|-7.64|
92171156|NCT03913195|184231452|EQUIVALENCE|The equivalence limits for the 90% confidence interval are 0.80 to 1.25. If the 90% CIs were within the equivalence limits (0.8, 1.25), it demonstrated a PK bridge between the two routes of administration.|Risk Ratio (RR)|0.89||||0.34|TWO_SIDED|90.0|0.69|1.08|||Fisher Exact|||The proportion of subjects with an average Ctrough ≥ 300 ng/mL is compared between IM and IV infusion.||1.08|0.69|0.34
92435925|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|3.59|||||TWO_SIDED|95.0|-3.71|10.89||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 15.||10.89|-3.71|
92435926|NCT00372112|184757231|SUPERIORITY||Mean Difference (Net)|2.11|||||TWO_SIDED|95.0|-4.96|9.18||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 15.||9.18|-4.96|
92435927|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|2.1|||||TWO_SIDED|95.0|-7.7|12.0||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 1.||12.0|-7.7|
92435928|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|3.0|||||TWO_SIDED|95.0|-7.2|13.1||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 1.||13.1|-7.2|
92435929|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-10.2|10.1||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 1.||10.1|-10.2|
92435930|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|2.2|||||TWO_SIDED|95.0|-6.1|10.4||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 2.||10.4|-6.1|
92435931|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|5.8|||||TWO_SIDED|95.0|-2.8|14.3||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 2.||14.3|-2.8|
92435932|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|1.6|||||TWO_SIDED|95.0|-6.9|10.1||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 2.||10.1|-6.9|
92435933|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|-4.9|||||TWO_SIDED|95.0|-16.1|6.2||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 7.||6.2|-16.1|
92171906|NCT03743636|184233375|SUPERIORITY||Mean Difference (Final Values)|-2.71||||0.7112|ONE_SIDED|90.0|-8.97||||ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-8.97|0.7112
92435934|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|-1.9|||||TWO_SIDED|95.0|-14.0|10.2||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 7.||10.2|-14.0|
92435935|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|-4.8|||||TWO_SIDED|95.0|-17.1|7.5||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 7.||7.5|-17.1|
92435936|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|3.4|||||TWO_SIDED|95.0|-4.1|10.9||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 8.||10.9|-4.1|
92435937|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|10.8|||||TWO_SIDED|95.0|2.6|19.0||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 8.||19.0|2.6|
92435938|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|3.1|||||TWO_SIDED|95.0|-5.2|11.4||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 8.||11.4|-5.2|
92435939|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|-7.2|||||TWO_SIDED|95.0|-17.0|2.7||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 14.||2.7|-17.0|
92435940|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|5.4|||||TWO_SIDED|95.0|-6.0|16.8||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 14.||16.8|-6.0|
92435941|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|-2.9|||||TWO_SIDED|95.0|-13.8|8.0||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 14.||8.0|-13.8|
92435942|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-7.8|8.3||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 15.||8.3|-7.8|
92435943|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|6.8|||||TWO_SIDED|95.0|-2.1|15.6||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 15.||15.6|-2.1|
92435944|NCT00372112|184757233|SUPERIORITY||Mean Difference (Net)|4.4|||||TWO_SIDED|95.0|-4.5|13.3||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 15.||13.3|-4.5|
92435945|NCT00372112|184757248|SUPERIORITY||Mean Difference (Net)|0.1131|||||TWO_SIDED|95.0|-0.0031|0.2293|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for FEV1 over 22-24 h at Day 1.||0.2293|-0.0031|
92435946|NCT00372112|184757248|SUPERIORITY||Mean Difference (Net)|0.159|||||TWO_SIDED|95.0|0.0408|0.2771|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for FEV1 over 22-24 h at Day 1.||0.2771|0.0408|
92435947|NCT00372112|184757248|SUPERIORITY||Mean Difference (Net)|0.0764|||||TWO_SIDED|95.0|-0.0375|0.1903|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for FEV1 over 22-24 h at Day 1.||0.1903|-0.0375|
92435948|NCT00372112|184757248|SUPERIORITY||Mean Difference (Net)|0.1741|||||TWO_SIDED|95.0|0.0178|0.3305|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for FEV1 over 22-24 h at Day 7.||0.3305|0.0178|
92435949|NCT00372112|184757248|SUPERIORITY||Mean Difference (Net)|0.1713|||||TWO_SIDED|95.0|0.006|0.3365|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for FEV1 over 22-24 h at Day 7.||0.3365|0.0060|
92435950|NCT00372112|184757248|SUPERIORITY||Mean Difference (Net)|0.1377|||||TWO_SIDED|95.0|-0.0233|0.2987|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for FEV1 over 22-24 h at Day 7.||0.2987|-0.0233|
92435951|NCT00372112|184757248|SUPERIORITY||Mean Difference (Net)|0.139|||||TWO_SIDED|95.0|-0.0266|0.3046|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for FEV1 over 22-24 h at Day 14.||0.3046|-0.0266|
92435952|NCT00372112|184757248|SUPERIORITY||Mean Difference (Net)|0.1906|||||TWO_SIDED|95.0|0.0177|0.3635|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for FEV1 over 22-24 h at Day 14.||0.3635|0.0177|
92435953|NCT00372112|184757248|SUPERIORITY||Mean Difference (Net)|0.0956|||||TWO_SIDED|95.0|-0.0686|0.2599|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for FEV1 over 22-24 h at Day 14.||0.2599|-0.0686|
92435954|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.009|||||TWO_SIDED|95.0|-0.59|0.608|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 1.||0.608|-0.590|
92435955|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.237|||||TWO_SIDED|95.0|-0.354|0.829|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 1.||0.829|-0.354|
92435956|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.093|||||TWO_SIDED|95.0|-0.469|0.654|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 1.||0.654|-0.469|
92435957|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.199|||||TWO_SIDED|95.0|-0.591|0.988|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 2.||0.988|-0.591|
92435958|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.633|||||TWO_SIDED|95.0|-0.152|1.418|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 2.||1.418|-0.152|
92171157|NCT03899961|184231453|SUPERIORITY|Median regression model for the change from baseline, model was adjusted for treatment, bootstrap was used for the confidence interval|Median Difference (Net)|0.0||||0.05|TWO_SIDED|95.0|-1.09|1.09||Median regression model for the change from baseline, model was adjusted for treatment, bootstrap was used for the confidence interval|Median regression model for the change f|||Median regression model for the change from baseline, model was adjusted for treatment, bootstrap was used for the confidence interval||1.09|-1.09|0.05
92435959|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.065|||||TWO_SIDED|95.0|-0.667|0.797|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 2.||0.797|-0.667|
92435960|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.097|||||TWO_SIDED|95.0|-0.476|0.67|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 7.||0.670|-0.476|
92435961|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.408|||||TWO_SIDED|95.0|-0.208|1.024|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 7.||1.024|-0.208|
92435962|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.471|0.631|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 7.||0.631|-0.471|
92435963|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.245|||||TWO_SIDED|95.0|-0.66|1.149|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 8.||1.149|-0.660|
92435964|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.796|||||TWO_SIDED|95.0|-0.174|1.766|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 8.||1.766|-0.174|
92435965|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.144|||||TWO_SIDED|95.0|-0.742|1.03|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 8.||1.030|-0.742|
92435966|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.056|||||TWO_SIDED|95.0|-0.556|0.669|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 14.||0.669|-0.556|
92435967|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.138|||||TWO_SIDED|95.0|-0.767|0.491|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 14.||0.491|-0.767|
92435968|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.187|||||TWO_SIDED|95.0|-0.765|0.391|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 14.||0.391|-0.765|
92238012|NCT01600131|184380176|SUPERIORITY||Slope|1.98|STANDARD_ERROR_OF_MEAN|1.88||0.293|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.293
92435969|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.094|||||TWO_SIDED|95.0|-0.619|0.806|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 15.||0.806|-0.619|
92435970|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.358|||||TWO_SIDED|95.0|-0.39|1.105|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 15.||1.105|-0.390|
92435971|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.178|||||TWO_SIDED|95.0|-0.522|0.877|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 15.||0.877|-0.522|
92435972|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.294|||||TWO_SIDED|95.0|-0.586|-0.001|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 1.||-0.001|-0.586|
92435973|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.371|||||TWO_SIDED|95.0|-0.657|-0.085|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 1.||-0.085|-0.657|
92435974|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.153|||||TWO_SIDED|95.0|-0.44|0.133|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 1.||0.133|-0.440|
92435975|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.216|||||TWO_SIDED|95.0|-0.679|0.247|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 2.||0.247|-0.679|
92435976|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.536|||||TWO_SIDED|95.0|-0.998|-0.074|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 2.||-0.074|-0.998|
92435977|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.018|||||TWO_SIDED|95.0|-0.452|0.416|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 2.||0.416|-0.452|
92435978|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.486|||||TWO_SIDED|95.0|-0.878|-0.095|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 7.||-0.095|-0.878|
92435979|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.562|||||TWO_SIDED|95.0|-0.99|-0.135|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 7.||-0.135|-0.990|
92435980|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.19|||||TWO_SIDED|95.0|-0.575|0.196|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 7.||0.196|-0.575|
92435981|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.075|||||TWO_SIDED|95.0|-0.235|0.385|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 8.||0.385|-0.235|
92171907|NCT03743636|184233376|SUPERIORITY||Mean Difference (Final Values)|-7.4||||0.9449|ONE_SIDED|90.0|-13.31||||ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-13.31|0.9449
92435982|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.275|||||TWO_SIDED|95.0|-0.623|0.073|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 8.||0.073|-0.623|
92435983|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.103|||||TWO_SIDED|95.0|-0.213|0.418|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 8.||0.418|-0.213|
92435984|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.299|||||TWO_SIDED|95.0|-0.64|0.042|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 14.||0.042|-0.640|
92435985|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.271|||||TWO_SIDED|95.0|-0.621|0.079|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 14.||0.079|-0.621|
92435986|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.095|||||TWO_SIDED|95.0|-0.432|0.243|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 14.||0.243|-0.432|
92435987|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.173|||||TWO_SIDED|95.0|-0.158|0.505|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 15.||0.505|-0.158|
92435988|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.196|||||TWO_SIDED|95.0|-0.535|0.143|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 15.||0.143|-0.535|
92435989|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.139|||||TWO_SIDED|95.0|-0.198|0.475|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 15.||0.475|-0.198|
92435990|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.14|||||TWO_SIDED|95.0|-1.18|0.9|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 1.||0.90|-1.18|
92435991|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.29|||||TWO_SIDED|95.0|-0.72|1.3|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 1.||1.30|-0.72|
92435992|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.17|||||TWO_SIDED|95.0|-1.15|0.8|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 1.||0.80|-1.15|
92435993|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-0.64|1.44|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 2.||1.44|-0.64|
92435994|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.69|||||TWO_SIDED|95.0|-0.32|1.7|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 2.||1.70|-0.32|
92435995|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.23|||||TWO_SIDED|95.0|-0.74|1.2|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 2.||1.20|-0.74|
92435996|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.05|||||TWO_SIDED|95.0|-1.11|1.01|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 7.||1.01|-1.11|
92435997|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.53|||||TWO_SIDED|95.0|-0.57|1.62|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 7.||1.62|-0.57|
92435998|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.13|||||TWO_SIDED|95.0|-0.89|1.15|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 7.||1.15|-0.89|
92435999|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.26|||||TWO_SIDED|95.0|-0.98|1.5|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 8.||1.50|-0.98|
92436000|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.86|||||TWO_SIDED|95.0|-0.42|2.14|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 8.||2.14|-0.42|
92436001|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.32|||||TWO_SIDED|95.0|-0.9|1.54|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 8.||1.54|-0.90|
92238013|NCT01327339|184380216|SUPERIORITY_OR_OTHER||percentage of participants|5.9|||||TWO_SIDED|95.0|4.3|7.8|||||The estimated value represents the percentage of participants with an adverse event.|||7.8|4.3|
92238014|NCT03303339|184380237|OTHER||Maximum Tolerated Dose|60.0|||||TWO_SIDED|||||||||||||
92238015|NCT00510692|184380252|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.06||||0.005|TWO_SIDED|95.0|-1.78|-0.35|||ANCOVA|||||-0.35|-1.78|0.005
92436002|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-1.2|1.3|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 14.||1.30|-1.20|
92436003|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.75|||||TWO_SIDED|95.0|-0.53|2.03|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 14.||2.03|-0.53|
92436004|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-1.23|1.23|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 14.||1.23|-1.23|
92436005|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.22|||||TWO_SIDED|95.0|-0.78|1.23|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 15.||1.23|-0.78|
92436006|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.84|||||TWO_SIDED|95.0|-0.21|1.89|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 15.||1.89|-0.21|
92436007|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.49|||||TWO_SIDED|95.0|-0.5|1.48|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 15.||1.48|-0.50|
92436008|NCT00372112|184757253|SUPERIORITY||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.47|0.09|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 1.||0.09|-0.47|
92436009|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.22|||||TWO_SIDED|95.0|-0.49|0.04|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 1.||0.04|-0.49|
92436010|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.19|||||TWO_SIDED|95.0|-0.46|0.07|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 1.||0.07|-0.46|
92436011|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.47|0.27|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 2.||0.27|-0.47|
92238016|NCT02116972|184380257|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.0821|TWO_SIDED|95.0|-1.22|0.07|||Logitudinal mixed effects model|||The step-down testing procedure to control for multiplicity would be voided if the primary endpoint is not met and analyses proceeded for exploratory purposes.||0.07|-1.22|0.0821
92436012|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-0.73|-0.03|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 2.||-0.03|-0.73|
92436013|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.37|0.34|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 2.||0.34|-0.37|
92436014|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.54|||||TWO_SIDED|95.0|-0.97|-0.12|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 7.||-0.12|-0.97|
92436015|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.55|||||TWO_SIDED|95.0|-0.98|-0.12|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 7.||-0.12|-0.98|
92436016|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.34|||||TWO_SIDED|95.0|-0.76|0.08|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 7.||0.08|-0.76|
92436017|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.26|0.33|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 8.||0.33|-0.26|
92436018|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-0.7|-0.1|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 8.||-0.10|-0.70|
92436019|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.26|0.34|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 8.||0.34|-0.26|
92436020|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.15|||||TWO_SIDED|95.0|-0.42|0.12|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 14.||0.12|-0.42|
92436021|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.23|||||TWO_SIDED|95.0|-0.51|0.04|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 14.||0.04|-0.51|
92436022|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-0.34|0.21|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 14.||0.21|-0.34|
92171908|NCT05691452|184233379|SUPERIORITY||Mean Difference (Net)|20.05||||0.578|TWO_SIDED|95.0|-50.68|90.78||Generalized linear models generated estimated mean differences in the post-intervention values controlling for the baseline assessments.|Regression, Linear|||||90.78|-50.68|0.578
92171909|NCT05691452|184233380|SUPERIORITY||Mean Difference (Net)|-21.2||||0.61|TWO_SIDED|95.0|-101.9|59.5|||Regression, Linear|||||59.5|-101.9|0.61
92238017|NCT00784784|184380271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.23||||0.25|TWO_SIDED|95.0|0.01|4.8|||Fisher Exact|||That in a year with mismatch between influenza vaccine antigen and infecting H3N2 strain, seasonal (10-13 weeks) antiviral prophylaxis in adults will provide better protection from symptomatic influenza infection than trivalent inactivated split virus influenza vaccine.||4.8|0.01|0.25
92238018|NCT00872898|184380273|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.2||||0.1197|TWO_SIDED|95.0|-4.9|0.6|||mixed-model for repeated measures|||||0.6|-4.9|0.1197
92436023|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.25|0.35|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 15.||0.35|-0.25|
92436024|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|-0.35|||||TWO_SIDED|95.0|-0.66|-0.05|||Regression, Linear|||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 15.||-0.05|-0.66|
92436025|NCT00372112|184757253|SUPERIORITY||Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.26|0.34|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 15.||0.34|-0.26|
92436026|NCT04649060|184757266|SUPERIORITY||Hazard Ratio (HR)|0.184|||=|0.0032|TWO_SIDED|95.0|0.052|0.65|||Log Rank|||||0.650|0.052|=0.0032
92436027|NCT04649060|184757267|SUPERIORITY|||||||0.03|||||||Cochran-Mantel-Haenszel|||||||0.03
92171910|NCT05691452|184233381|SUPERIORITY||Mean Difference (Net)|1.55||||0.674|TWO_SIDED|95.0|-5.68|8.78|||Regression, Linear|||||8.78|-5.68|0.674
92436028|NCT04649060|184757268|SUPERIORITY||Hazard Ratio (HR)|0.418||||0.525|TWO_SIDED|95.0|0.026|6.693|||Log Rank|||||6.693|0.026|0.525
92436029|NCT04649060|184757270|SUPERIORITY|||||||0.0997|||||||Cochran-Mantel-Haenszel|||||||0.0997
92436030|NCT04649060|184757271|SUPERIORITY||Hazard Ratio (HR)|0.111||||0.016|TWO_SIDED|95.0|0.013|0.96|||Log Rank|||||0.960|0.013|0.016
92436031|NCT04649060|184757273|SUPERIORITY||Hazard Ratio (HR)|0.231||||0.0187|TWO_SIDED|95.0|0.063|0.846|||Log Rank|||||0.846|0.063|0.0187
92436032|NCT04649060|184757274|SUPERIORITY||Hazard Ratio (HR)|0.224||||0.0384|TWO_SIDED|95.0|0.047|1.056|||Log Rank|||||1.056|0.047|0.0384
92436033|NCT04649060|184757275|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.3721|TWO_SIDED|95.0|0.086|2.569|||Log Rank|||||2.569|0.086|0.3721
92436034|NCT00143403|184757314|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||||95.0|0.67|1.2|||||HR: Irinotecan+5-FU/FA / 5-FU/FA|||1.20|0.67|
92436035|NCT00143403|184757314|SUPERIORITY_OR_OTHER|||||||0.468||95.0|||||Log Rank|||||||0.468
92436036|NCT03530098|184757318|SUPERIORITY||Odds Ratio (OR)|-0.59||||0.04|TWO_SIDED|95.0|-1.14|-0.04|||t-test, 2 sided|||||-0.04|-1.14|0.04
92436037|NCT03530098|184757319|OTHER|||||||0.001|||||||Wilcoxon rank-sum test|||||||0.001
92436038|NCT00533845|184757320|SUPERIORITY_OR_OTHER|||||||0.0022|TWO_SIDED||||||t-test, 2 sided|||||||.0022
92436039|NCT01860651|184757328|OTHER||mean difference over time|-0.002||||0.22|TWO_SIDED|95.0|-0.005|0.001|||Mixed Effect Model|||"Statistical analysis of Medical adherence in study Medication adm. at home were analysed using a Mixed Effect Model (MEM). The MEM model included a random patient effect and a fixed effect interaction between group and time, to evaluate difference between the groups over time."||0.001|-0.005|0.22
92436040|NCT00667368|184757448|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.9||||0.754|TWO_SIDED|95.0|-12.0|10.1|||Two-sample test, Poisson||The risk difference reflects the treatment arm minus the control arm. The units are the number of positive tests for chlamydia and gonorrhea per 100 person-years.|||10.1|-12.0|0.754
92436041|NCT00667368|184757449|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92436042|NCT03235154|184757463|OTHER|There was no comparator arm in this small single arm study||||||||||||No confidence intervals around point estimates provided given very small number of participants||||This was a single arm intervention study with a very small number of participants. Therefore, only descriptive statistics are provided.|No confidence intervals around point estimates provided given very small number of participants|||
92436043|NCT02850965|184757464|EQUIVALENCE|Protocol defined margins are: \[-18.0%, +18.0%\] for Week 16, 95% confidence interval. Between-imputation variance is zero. Confidence interval is based on one imputed set.|Difference in PASI 75 Response Rate|-2.2|||||TWO_SIDED|95.0|-14.4|8.7|||Regression, Logistic||Difference in PASI 75 Response Rate = (BI 695501 - US-licensed Humira, %).|The week 16 confidence interval for the estimated difference in percentage are produced using the cumulative distribution function method of Reeve.|The statistical model: Logit (response to treatment at Week 16)=Treatment+Baseline PASI+Prior exposure to a biologic agent+random error. Model included fixed, categorical effects of treatment (BI 695501 vs US-licensed Humira) and prior exposure to a biologic agent (yes/no), continuous effect of baseline PASI. The random error was assumed to be binomially distributed.|8.7|-14.4|
92436044|NCT02850965|184757465|OTHER|Missing PASI 75 at Week 24 data were imputed using a combination of non-responder imputation (NRI) and last observed carried forward (LOCF).|Difference in PASI 75 Response Rate|2.9|||||TWO_SIDED|95.0|-8.5|12.6|||Regression, Logistic||Difference in PASI 75 Response Rate = (BI 695501 - US-licensed Humira, %).|The week 24 confidence interval for the estimated difference in percentage are produced using the cumulative distribution function method of Reeve.|The statistical model: Logit (response to treatment at Week 24)=Treatment+Baseline PASI+Prior exposure to a biologic agent+random error. Model included fixed, categorical effects of treatment (BI 695501 vs US-licensed Humira) and prior exposure to a biologic agent (yes/no), continuous effect of baseline PASI. The random error was assumed to be binomially distributed.|12.6|-8.5|
92436045|NCT02850965|184757466|OTHER||Difference of Least Squares Means|1.7|||||TWO_SIDED|95.0|-2.7|6.0|||ANCOVA|Analysis of covariance (ANCOVA)|Difference of Least Squares Means (LSM)= LSM of (BI 695501 - Humira)|Analysis of covariance (ANCOVA) was performed based on the following model: PASI percentage improvement from baseline at Week 16= Treatment + Baseline PASI +Prior exposure to a biologic agent + random error.||6.0|-2.7|
92436046|NCT02850965|184757467|OTHER|Missing sPGA at Week 16 data were imputed using a combination of non-responder imputation (NRI) and last observed carried forward (LOCF).|Difference in sPGA <= 1 Response Rate|7.5|||||TWO_SIDED|95.0|-4.8|19.1|||Regression, Logistic||Difference in sPGA \<= 1 Response Rate = (BI 695501 - US-licensed Humira, %)|The week 16 confidence interval for the estimated difference in percentage are produced using the cumulative distribution function method of Reeve.|The statistical model: Logit (response to treatment at Week 16)=Treatment+Baseline PASI+Prior exposure to a biologic agent+random error. Model included fixed, categorical effects of treatment (BI 695501 vs US-licensed Humira) and prior exposure to a biologic agent (yes/no), continuous effect of baseline PASI.|19.1|-4.8|
92436047|NCT02850965|184757468|OTHER|Missing DLQI at Week 16 data were imputed using a combination of non-responder imputation (NRI) and last observed carried forward (LOCF).|Difference in DLQI Response Rate|0.4|||||TWO_SIDED|95.0|-11.7|11.3|||Regression, Logistic||Difference in DLQI (0, 1) Response Rate = (BI 695501 - US-licensed Humira, %)|The week 16 confidence interval for the estimated difference in percentage are produced using the cumulative distribution function method of Reeve.|The statistical model: Logit (response to treatment at Week 16)=Treatment+Baseline PASI+Prior exposure to a biologic agent+random error. Model included fixed, categorical effects of treatment (BI 695501 vs US-licensed Humira) and prior exposure to a biologic agent (yes/no), continuous effect of baseline PASI.|11.3|-11.7|
92436048|NCT00536198|184757470|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANOVA|||Group comparison||||0.21
92436049|NCT00536198|184757470|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
92436050|NCT00536198|184757470|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||ANOVA|||Group by time: comparison of rates of change||||0.06
92436051|NCT00536198|184757470|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.88|STANDARD_ERROR_OF_MEAN|0.95||0.049|TWO_SIDED|95.0|0.01|3.75|||Mixed Models Analysis|||Estimated mean difference from baseline to endpoint between active vs. placebo||3.75|0.01|0.049
92436052|NCT00536198|184757471|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||ANOVA|||Group comparison||||0.54
92436053|NCT00536198|184757471|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
92436054|NCT00536198|184757471|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||ANOVA|||Group by time: comparison of rates of change||||0.02
92171911|NCT05691452|184233382|SUPERIORITY||Mean Difference (Net)|-21.6||||0.013|TWO_SIDED|95.0|-38.5|-4.59|||Regression, Linear|||||-4.59|-38.5|.013
92238019|NCT00872898|184380274|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.1||||0.9781|TWO_SIDED|95.0|-7.2|7.0|||mixed-model for repeated measures|||||7.0|-7.2|0.9781
92238020|NCT00872898|184380275|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.4||||0.1459|TWO_SIDED|95.0|-3.2|0.5|||mixed-model for repeated measures|||||0.5|-3.2|0.1459
92238021|NCT00872898|184380276|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.8||||0.1344|TWO_SIDED|95.0|-1.9|0.3|||mixed-model for repeated measures|||||0.3|-1.9|0.1344
92238022|NCT00872898|184380277|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.2||||0.7|TWO_SIDED|95.0|-1.5|1.0|||mixed-model for repeated measures|||||1.0|-1.5|0.7000
92171912|NCT05691452|184233383|SUPERIORITY||Mean Difference (Net)|0.387||||0.29|TWO_SIDED|95.0|-0.335|1.109|||Regression, Linear|||||1.109|-0.335|0.29
92436055|NCT00536198|184757471|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.14|STANDARD_ERROR_OF_MEAN|1.62||0.0015|TWO_SIDED|95.0|1.97|8.31|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||8.31|1.97|0.0015
92436056|NCT00536198|184757472|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||ANOVA|||Group comparison||||0.46
92436057|NCT00536198|184757472|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.0001
92436058|NCT00536198|184757472|SUPERIORITY_OR_OTHER|||||||0.69|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.69
92436059|NCT00536198|184757472|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.02||||0.84|TWO_SIDED|95.0|0.83|1.26|||Mixed Models Analysis|||Estimated mean difference from Cycle 1 to end point between active vs. placebo||1.26|0.83|0.84
92436060|NCT00536198|184757473|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Chi-squared|||Group comparison||||0.01
92436061|NCT00536198|184757473|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Change over time in both groups||||<0.001
92436062|NCT00536198|184757473|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Chi-squared|||Group by time: comparison rates of change||||0.28
92436063|NCT00536198|184757473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.59||||0.056|TWO_SIDED|95.0|0.3|1.19|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.19|0.30|0.056
92436064|NCT00536198|184757475|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||ANOVA|||Group comparison||||0.30
92436065|NCT00536198|184757475|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.01
92436066|NCT00536198|184757475|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.73
92436067|NCT00536198|184757475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.12||||0.06|TWO_SIDED|95.0|0.92|1.35|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.35|0.92|0.06
92436068|NCT00536198|184757476|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||ANOVA|||Group comparison||||0.80
92436069|NCT00536198|184757476|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
92436070|NCT00536198|184757476|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.43
92436071|NCT00536198|184757476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.11||||0.61|TWO_SIDED|95.0|0.85|1.45|||Mixed Models Analysis|||Estimated mean difference from baseline to endpoint between active vs. placebo||1.45|0.85|0.61
92436072|NCT00536198|184757477|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||ANOVA|||Group comparison||||0.83
92436073|NCT00536198|184757477|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
92436074|NCT00536198|184757477|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.02
92436075|NCT00536198|184757477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.09||||0.169|TWO_SIDED|95.0|0.96|1.25|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.25|0.96|0.169
92436076|NCT00536198|184757478|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||ANOVA|||Group comparison||||0.37
92436077|NCT00536198|184757478|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
92436078|NCT00536198|184757478|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.73
92436079|NCT00536198|184757478|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.08||||0.13|TWO_SIDED|95.0|0.91|1.28|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.28|0.91|0.13
92436080|NCT00536198|184757479|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||ANOVA|||Group comparison||||0.31
92436081|NCT00536198|184757479|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
92436082|NCT00536198|184757479|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.46
92436083|NCT00536198|184757479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.09||||0.94|TWO_SIDED|95.0|0.96|1.23|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.23|0.96|0.94
92436084|NCT00536198|184757480|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Group comparison||||<0.001
92436085|NCT00536198|184757480|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
92436086|NCT00536198|184757480|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||<0.01
92436087|NCT00536198|184757480|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.22||||0.027|TWO_SIDED|95.0|1.05|1.41|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.41|1.05|0.027
92436088|NCT00536198|184757481|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Chi-squared|||Group comparison||||0.01
92436089|NCT00536198|184757481|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Group by time: comparison rates of change||||<0.001
92436090|NCT00536198|184757481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55||||0.056|TWO_SIDED|95.0|0.3|1.02|||Mixed Models Analysis|||Estimated mean difference between active and placebo groups at end-point only||1.02|0.30|0.056
92436091|NCT03178903|184757497|SUPERIORITY||Mean Difference (Final Values)|0.678||||0.87|TWO_SIDED|||||p\<.05 was the a priori threshold for statistical significance.|ANCOVA|Covarying for baseline depressive symptoms and MVPA.||||||.87
92436092|NCT00965718|184757552|SUPERIORITY_OR_OTHER_LEGACY|||||||0.123||||||Global health status scores at baseline and final observation point were compared via a 2-sided t-test.|t-test, 2 sided|||||||0.123
92436093|NCT01244425|184757568|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||likelihood-ratio chi square test|||||||<0.001
92436094|NCT01244425|184757569|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||likelihood ratio chi-square test|||||||<0.001
92436095|NCT01244425|184757570|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||likelihood ratio chi-square test|||||||0.028
92436096|NCT01244425|184757571|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||likelihood ratio chi-square test|||||||0.017
92436097|NCT01244425|184757572|SUPERIORITY_OR_OTHER|||||||0.293||95.0|||||likelihood ratio chi-square test|||||||0.293
92238023|NCT00872898|184380278|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.1||||0.9069|TWO_SIDED|95.0|-1.3|1.1|||mixed-model for repeated measures|||||1.1|-1.3|0.9069
92238024|NCT00872898|184380279|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.3||||0.4679|TWO_SIDED|95.0|-1.2|0.6|||mixed-model for repeated measures|||||0.6|-1.2|0.4679
92279907|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.348||||0.0434|TWO_SIDED|95.0|-0.686|-0.01||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.010|-0.686|0.0434
92436098|NCT01244425|184757573|SUPERIORITY_OR_OTHER|||||||0.237||95.0|||||likelihood ratio chi-square test|||||||0.237
92436099|NCT01244425|184757574|SUPERIORITY_OR_OTHER|||||||0.808||95.0|||||likelihood ratio chi-square test|||||||0.808
92436100|NCT04346537|184757614|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||< 0.001
92436101|NCT04346537|184757615|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||< 0.001
92436102|NCT04346537|184757616|OTHER|Two-one sided t-tests (TOST) -- the 90% confidence interval was required to be contained with 300 and 1300 ohms.|||||<|0.001|||||||Two one-sided t-tests|||||||< 0.001
92436103|NCT01134783|184757617|SUPERIORITY_OR_OTHER|||||||0.707|TWO_SIDED|||||The analysis used hierarchical linear models having repeated measures of the outcome regressed on experimental condition, adjusted for baseline age, sex, race, and household education level as well as wave and college.|Regression, Logistic|||||||0.707
92436104|NCT01134783|184757618|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED|||||The analysis used hierarchical linear models having repeated measures of the outcome regressed on experimental condition, adjusted for baseline age, sex, race, and household education level as well as wave and college.|Regression, Logistic|||||||0.049
92436105|NCT01991067|184757655|OTHER|Furthermore, a multivariable logistic regression model was applied accounting for group as well as age, body mass index, and gender as possible influence factors.|||||<|0.001||||||The threshold for statistical significance was a p-value of \<0.05.|Fisher Exact|||The calculation of the sample size was performed using nQuery 6.1. The primary endpoint was the outcome of the NT 4 weeks after the second vaccination. A Fisher exact tes was calculated to analyze the primary hypothesis on the difference in NT-titer response between patients and controls||||<0.001
92436106|NCT01991067|184757656|OTHER|||||||0.02|||||||Fisher Exact|||A Fisher exact test was calculated to analyze antibody response by ELISA between patients and controls. To measure the Agreement between the NT and ELISA response, Cohens Kappa and the corresponding 95% confidence interval were calculated||||0.02
92436107|NCT01991067|184757657|OTHER||||||<|0.01|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"For titer values the geometric mean was calculated and the corresponding two-sided 95% confidence intervals were constructed by back-transfomration of the CI for the mean of the logarithmically transformed results.~To investigate the difference in absolute titer values and geometric mean fold changes between time point and Groups, Wilcoxon tests were performed."||||<0.01
92436108|NCT02771990|184757669|OTHER|Pilot study|z-score|3.11||||0.002|TWO_SIDED||||||Regression, Linear|||||||0.002
92436109|NCT02771990|184757670|OTHER|Pilot study||||||0.67|||||||Regression, Linear|||||||0.67
92436110|NCT00127712|184757671|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared|||||||0.02
92436111|NCT00127712|184757672|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
92171913|NCT05691452|184233384|SUPERIORITY||Mean Difference (Net)|-0.203||||0.701|TWO_SIDED|95.0|-1.24|0.833|||Regression, Linear|||||0.833|-1.24|0.701
92238025|NCT00872898|184380280|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0||||0.9598|TWO_SIDED|95.0|-1.3|1.3|||mixed-model for repeated measures|||||1.3|-1.3|0.9598
92238026|NCT00872898|184380281|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0||||0.9898|TWO_SIDED|95.0|-1.3|1.3|||mixed-model for repeated measures|||||1.3|-1.3|0.9898
92238027|NCT00872898|184380282|SUPERIORITY_OR_OTHER||Least squares mean difference|0.5||||0.4228|TWO_SIDED|95.0|-0.7|1.6|||mixed-model for repeated measures|||||1.6|-0.7|0.4228
92238028|NCT00872898|184380283|SUPERIORITY_OR_OTHER||Least squares mean difference|1.4||||0.0201|TWO_SIDED|95.0|0.2|2.5|||mixed-model for repeated measures|||||2.5|0.2|0.0201
92238029|NCT00872898|184380284|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.2||||0.6889|TWO_SIDED|95.0|-1.3|0.9|||mixed-model for repeated measures|||||0.9|-1.3|0.6889
92436112|NCT00127712|184757673|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||||||0.001
92436113|NCT00127712|184757674|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.79
92436114|NCT00720434|184757689|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.36357||||0.0131|TWO_SIDED|95.0|-4.19228|-0.53485|||ANCOVA|||An analysis of covariance (ANCOVA) model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95 percentage (%) confidence interval (CI) were calculated.||-0.53485|-4.19228|0.0131
92436115|NCT00720434|184757689|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.4919||||0.0142|TWO_SIDED|95.0|-4.44619|-0.5376|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||-0.53760|-4.44619|0.0142
92436116|NCT00720434|184757689|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.46325||||0.1368|TWO_SIDED|95.0|-3.41898|0.49248|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.49248|-3.41898|0.1368
92436117|NCT00720434|184757689|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.90032||||0.3321|TWO_SIDED|95.0|-2.76711|0.96648|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.96648|-2.76711|0.3321
92436118|NCT00720434|184757689|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.02865||||0.2839|TWO_SIDED|95.0|-2.95573|0.89844|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.89844|-2.95573|0.2839
92436119|NCT00720434|184757689|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12833||||0.8891|TWO_SIDED|95.0|-1.73676|1.99342|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||1.99342|-1.73676|0.8891
92238030|NCT00872898|184380285|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2||||0.7481|TWO_SIDED|95.0|-0.9|1.2|||mixed-model for repeated measures|||||1.2|-0.9|0.7481
92238031|NCT00872898|184380286|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0||||0.95|TWO_SIDED|95.0|-1.2|1.1|||mixed-model for repeated measures|||||1.1|-1.2|0.9500
92238032|NCT02428140|184380287|SUPERIORITY||Risk Ratio (RR)|3.29||||0.003|TWO_SIDED|95.0|1.45|7.42|||t-test, 2 sided|||||7.42|1.45|0.003
92436120|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.6|||||TWO_SIDED|95.0|0.1565|0.8785||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.8785|0.1565|
92436121|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.75|||||TWO_SIDED|95.0|0.233|0.969||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.9690|0.2330|
92436122|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.625|||||TWO_SIDED|95.0|0.0871|0.9191||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.9191|0.0871|
92436123|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.025|||||TWO_SIDED|95.0|-0.4769|0.4336||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.4336|-0.4769|
92436124|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.125||||||95.0|-0.4024|0.6049||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6049|-0.4024|
92436125|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.15|||||TWO_SIDED|95.0|-0.5729|0.3149||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.3149|-0.5729|
92171914|NCT05691452|184233385|SUPERIORITY||Mean Difference (Net)|-21.45||||0.376|TWO_SIDED|95.0|-68.99|26.08|||Regression, Linear|||||26.08|-68.99|0.376
92436126|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.3|||||TWO_SIDED|95.0|-0.1836|0.6931||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6931|-0.1836|
92436127|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.375|||||TWO_SIDED|95.0|-0.1732|0.7797||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.7797|-0.1732|
92436128|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.125|||||TWO_SIDED|95.0|-0.4024|0.6049||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6049|-0.4024|
92436129|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.175|||||TWO_SIDED|95.0|-0.2934|0.5917||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5917|-0.2934|
92436130|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.25|||||TWO_SIDED|95.0|-0.2913|0.696||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6960|-0.2913|
92436131|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.075|||||TWO_SIDED|95.0|-0.5144|0.388||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.3880|-0.5144|
92238033|NCT02428140|184380288|SUPERIORITY||Risk Difference (RD)|10.7||||0.005|TWO_SIDED|95.0|3.4|17.9|||t-test, 2 sided|||||17.9|3.4|.005
92238034|NCT02428140|184380289|SUPERIORITY||Risk Difference (RD)|2.7||||0.28|TWO_SIDED|95.0|-1.0|6.3|||t-test, 2 sided|||||6.3|-1.0|0.28
92238035|NCT02428140|184380291|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.8|1.8||||||||1.8|-1.8|
92238036|NCT02428140|184380292|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-3.2|3.2||||||||3.2|-3.2|
92238037|NCT02989727|184380301|SUPERIORITY||ANOVA estimate|1.88|STANDARD_ERROR_OF_MEAN|3.51||0.59|TWO_SIDED||||||ANOVA|||Weighted ANOVA models were used to compare change scores between lamotrigine and placebo groups while testing for interactions by melancholic status. The estimate and test reported is for the the interaction between treatment condition and melancholic status.||||.59
92238038|NCT02989727|184380302|SUPERIORITY||ANOVA estimate|0.5|STANDARD_ERROR_OF_MEAN|2.56||0.84|TWO_SIDED||||||ANOVA|||Weighted ANOVA models were used to compare change scores between lamotrigine and placebo groups while testing for interactions by melancholic status. The estimate and test reported is for the the interaction between treatment condition and melancholic status.||||.84
92238039|NCT02989727|184380303|SUPERIORITY||Cox Proportional Hazard|1.2|STANDARD_ERROR_OF_MEAN|0.1||0.08|TWO_SIDED||||||Regression, Cox|||"Weighted Cox regression with treatment condition (lamotrigine vs. placebo) predicting treatment response. Response is defined as a score reduction of at least 50% from baseline. The outcome variable is binary coded with 1 being a response at anytime point and 0 indicating no response."||||.08
92436132|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.1|||||TWO_SIDED|95.0|-0.3728|0.5414||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5414|-0.3728|
92436133|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.25|||||TWO_SIDED|95.0|-0.2913|0.696||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6960|-0.2913|
92238040|NCT02989727|184380303|SUPERIORITY||Cox Proportional Hazard|1.08|STANDARD_ERROR_OF_MEAN|0.12||0.53|TWO_SIDED||||||Regression, Cox|||"Weighted Cox regression with treatment condition (lamotrigine vs. placebo) predicting treatment response. Response is defined as a score reduction of at least 50% from baseline. The outcome variable is binary coded with 1 being a response at anytime point and 0 indicating no response."||||.53
92238041|NCT02989727|184380311|SUPERIORITY||Cox Proportional Hazard|1.27|STANDARD_ERROR_OF_MEAN|0.11||0.02|TWO_SIDED||||||Regression, Cox|||"Weighted Cox regression with treatment condition (lamotrigine vs. placebo) predicting treatment response. Response is defined as a score reduction of at least 50% from baseline. The outcome variable is binary coded with 1 being a response at any time point and 0 indicating no response."||||.02
92436134|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.125|||||TWO_SIDED|95.0|-0.4024|0.6049||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6049|-0.4024|
92436135|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.025||||||95.0|-0.4769|0.4336||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.4336|-0.4769|
92436136|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.125|||||TWO_SIDED|95.0|-0.4024|0.6049||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6049|-0.4024|
92436137|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.15|||||TWO_SIDED|95.0|-0.5729|0.3149||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.3149|-0.5729|
92436138|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
92436139|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
92436140|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
92436141|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
92436142|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
92436143|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
92436144|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
92436145|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
92436146|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
92436147|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
92436148|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
92436149|NCT00720434|184757690|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
92436150|NCT00720434|184757693|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.36357||||0.0131|TWO_SIDED|95.0|-4.19228|-0.53485|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||-0.53485|-4.19228|0.0131
92436151|NCT00720434|184757693|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.4919||||0.0142|TWO_SIDED|95.0|-4.44619|-0.5376|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||-0.53760|-4.44619|0.0142
92436152|NCT00720434|184757693|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.46325||||0.1368|TWO_SIDED|95.0|-3.41898|0.49248|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.49248|-3.41898|0.1368
92436153|NCT00720434|184757693|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.90032||||0.3321|TWO_SIDED|95.0|-2.76711|0.96648|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.96648|-2.76711|0.3321
92436154|NCT00720434|184757693|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.02865||||0.2839|TWO_SIDED|95.0|-2.95573|0.89844|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.89844|-2.95573|0.2839
92436155|NCT00720434|184757693|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12833||||0.8891|TWO_SIDED|95.0|-1.73676|1.99342|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||1.99342|-1.73676|0.8891
92436156|NCT02425046|184757702|SUPERIORITY|||||||0.67||||||Threshold for statistical significance \<0.05|t-test, 2 sided|Multiple imputation used to fill in missing data - imputation included demographic and 6 month data. 5 datasets created and results averaged.||||||0.67
92436157|NCT02425046|184757703|SUPERIORITY|||||||0.735|||||||t-test, 2 sided|Multiple imputation used to fill in missing data - imputation included demographic and 6 month data. 5 datasets created and results averaged.||null hypothesis - there will be no difference between the groups.||||0.735
92436158|NCT02425046|184757704|SUPERIORITY|||||||0.599|||||||t-test, 2 sided|Multiple imputation used to fill in missing data - imputation included demographic and 6 month data. 5 datasets created and results averaged.||Null hypothesis that there would be no difference in change in FNPA scores between the two groups over 12 months.||||0.599
92436159|NCT02425046|184757705|SUPERIORITY|||||||0.583|||||||t-test, 2 sided|Multiple imputation used to fill in missing data - imputation included demographic and 6 month data. 5 datasets created and results averaged.||Null hypothesis: Change in MVPA from baseline to 12 months will not be different between target children in the two groups.||||0.583
92436160|NCT02425046|184757706|SUPERIORITY|||||||0.312|||||||t-test, 2 sided|Multiple imputation including demographics and 6 month data used to complete dataset. 5 datasets created and t-score averaged.||Null hypothesis is that there will be no difference between the two arms in change in sugar sweetened beverage intake over 12 months.||||0.312
92436161|NCT02425046|184757707|SUPERIORITY||difference in change between two arms|75.0||||0.1|TWO_SIDED|95.0|-15.0|165.0|||Linear quantile mixed model|Linear quantile mixed models (a non-parametric linear mixed model) was used because of non-normal distribution that could not be transformed.|Comparison of the intervention target adult change in reported physical activity compared to the control group.|Linear quantile mixed models (a non-parametric linear mixed model) was used because because of non-normal distribution that could not be remedied by transformation.||165|-15|0.10
92436162|NCT02425046|184757708|SUPERIORITY||difference in change between two arms|-2.54||||0.057|TWO_SIDED|95.0|-5.14|0.07|||Mixed Models Analysis||The intervention arm in comparison to the control arm.|||0.07|-5.14|0.057
92436163|NCT02425046|184757709|SUPERIORITY|||||||0.874|||||||t-test, 2 sided|Multiple imputation including demographics and 6 month data used to complete dataset. 5 datasets created and t-score averaged.||||||0.874
92436164|NCT02425046|184757710|SUPERIORITY||% difference in change between arms|7.0||||0.31|TWO_SIDED|95.0|-7.0|23.0|||Mixed Models Analysis|Screen time was log transformed to normalized the distribution. Results have been back transformed from log 10 scale.|% change in screen time of the intervention arm compared to the control arm.|||23|-7|0.31
92436165|NCT02425046|184757711|SUPERIORITY|||||||0.516|||||||t-test, 2 sided|Multiple imputation including demographics and 6 month data used to complete dataset. 5 datasets created and t-score averaged.||||||0.516
92436166|NCT01409564|184757712|SUPERIORITY_OR_OTHER|||||||0.14|||||||Repeated ANOVA|Uncorrected, Repeated ANOVA||Repeated-measures analysis of variance (ANOVA) was used to test group\*time interaction effect in glucose uptake of Left Parietal Lobe in two groups on two data points (baseline, 24-week).||||0.14
92436167|NCT01409564|184757712|SUPERIORITY_OR_OTHER|||||||0.08|||||||Repeated ANOVA|||Repeated-measures analysis of variance (ANOVA) was used to test group\*time interaction effect in glucose uptake of Right Parietal Lobe in two groups on two data points (baseline, 24-week).||||0.08
92436168|NCT01409564|184757712|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Repeated ANOVA|||Repeated-measures analysis of variance (ANOVA) was used to test group\*time interaction effect in glucose uptake of Left Inferior Frontal Gyrus in two groups on two data points (baseline, 24-week).||||<0.01
92436169|NCT01409564|184757712|SUPERIORITY_OR_OTHER|||||||0.08|||||||Repeated ANOVA|||Repeated-measures analysis of variance (ANOVA) was used to test group\*time interaction effect in glucose uptake of Right Inferior Frontal Gyrus in two groups on two data points (baseline, 24-week).||||0.08
92436170|NCT01409564|184757713|SUPERIORITY_OR_OTHER|||||||0.93|||||||Repeated ANOVA|||Repeated ANOVA, tested for group\*time interaction effect of ADAS-Cog scores on three data points (Baseline, 12-week, 24-week)||||0.93
92436171|NCT01409564|184757714|SUPERIORITY_OR_OTHER|||||||0.15|||||||Repeated ANOVA|||Repeated ANOVA, tested for group\*time interaction effect of MMSE scores on three data points (Baseline, 12-week, 24-week)||||0.15
92436172|NCT01409564|184757715|SUPERIORITY_OR_OTHER|||||||0.82|||||||Repeated ANOVA|||Repeated ANOVA, tested for group\*time interaction effect of ADCS-ADL scores on three data points (Baseline, 12-week, 24-week)||||0.82
92436173|NCT01409564|184757716|SUPERIORITY_OR_OTHER|||||||0.79|||||||Chi-squared|||Repeated ANOVA, tested for group\*time interaction effect of Summed CDR scores on three data points (Baseline, 12-week, 24-week)||||0.79
92436174|NCT01409564|184757717|SUPERIORITY_OR_OTHER|||||||0.87|||||||Chi-squared|||Distribution of Fazekas scale in two groups according to Chi-square test results.||||0.87
92436175|NCT02782780|184757718|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||<|0.01||||||Test of treatment effect: t(91.6)=3.21|Mixed Models Analysis|||||||<0.01
92436176|NCT02782780|184757718|SUPERIORITY||||||<|0.001||||||Baseline vs. 6-month follow-up in CBTI group: t(92.3)=4.10|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTI group.||||||<0.001
92436177|NCT02782780|184757719|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||<|0.001||||||test of treatment effect: t(94.7)=6.10|Mixed Models Analysis|||||||<0.001
92436178|NCT02782780|184757719|SUPERIORITY||||||<|0.001||||||baseline vs. 6-month follow-up in CBTI group: t(94)=6.67|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTI group.||To compare baseline data to 6-month follow-up data in the CBT-I group, planned contrasts following the mixed models were used.||||<0.001
92436179|NCT02782780|184757720|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||<|0.001|||||||Mixed Models Analysis|test of treatment effect: t(104)=3.40||||||<0.001
92436180|NCT02782780|184757720|SUPERIORITY||||||<|0.001||||||Baseline vs. 6-month follow-up in CBTi group: t(91.6)=4.37|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||||<0.001
92279908|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|0.042||||0.8123|TWO_SIDED|95.0|-0.308|0.392||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.392|-0.308|0.8123
92436181|NCT02782780|184757721|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||<|0.05|||||||Mixed Models Analysis|test of treatment effect: t(99.9)=2.09||||||<0.05
92436182|NCT02782780|184757721|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|Baseline vs. 6-month follow-up in CBTi group: t(92.1)=2.56||Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||<0.01
92436183|NCT02782780|184757722|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||=|0.991|||||||Mixed Models Analysis|Test of treatment effect: t(110)=-0.41||||||=0.991
92436184|NCT02782780|184757722|SUPERIORITY||||||=|0.41||||||Baseline vs. 6-month follow-up in CBTi group: t(91.8)=0.94|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||||=0.41
92436185|NCT02782780|184757723|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||<|0.05|||||||Mixed Models Analysis|Test of treatment effect: t(83.7)=2.51||||||<0.05
92436186|NCT02782780|184757723|SUPERIORITY||||||=|0.49||||||Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.|Mixed Models Analysis|Baseline vs. 6-month follow-up in CBTi group: t(90.9)=0.27||||||=0.49
92436187|NCT02782780|184757724|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.01|||||||Mixed Models Analysis|test of treatment effect: t(105)=4.55||||||<0.01
92436188|NCT02782780|184757724|SUPERIORITY||||||<|0.01||||||Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.|Mixed Models Analysis|Baseline vs. 6-month follow-up in CBTi group: t(91.3)=3.23||||||<0.01
92436189|NCT02782780|184757725|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.001|||||||Mixed Models Analysis|Test of treatment effect: t(91.6)=3.37||||||<0.001
92436190|NCT02782780|184757725|SUPERIORITY||||||<|0.001||||||Baseline vs. 6-month follow-up in CBTi group: (92.1)=3.64|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||||<0.001
92436191|NCT02782780|184757726|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.001|||||||Mixed Models Analysis|Test of treatment effect: t(99.2)=5.45||||||<0.001
92436192|NCT02782780|184757726|SUPERIORITY||||||<|0.001||||||Baseline vs. 6-month follow-up in CBTi group: t(93.4)=6.06|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||||<0.001
92436193|NCT02782780|184757727|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.001|||||||Mixed Models Analysis|test of treatment effect: t(76.9)=-4.20||||||<0.001
92436194|NCT02782780|184757727|SUPERIORITY||||||<|0.001||||||Baseline vs. 6-month follow-up in CBTi group: t(33.1)=6.52|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||||<0.001
92436195|NCT02782780|184757728|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.001|||||||Mixed Models Analysis|Test of treatment effect: t(75.6)=4.33||||||<0.001
92436196|NCT02782780|184757728|SUPERIORITY||||||<|0.001||||||Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.|Mixed Models Analysis|Baseline vs. 6-month follow-up in CBTi group: t(34.4)=4.75||||||<0.001
92436197|NCT02782780|184757729|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.001|||||||Mixed Models Analysis|Test of treatment effect: t(75.1)=3.91||||||<0.001
92436198|NCT02782780|184757729|SUPERIORITY||||||<|0.001||||||Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.|Mixed Models Analysis|Baseline vs. 6-month in CBTi group: t(34.5)=4.39||||||<0.001
92436199|NCT03654651|184757751|SUPERIORITY||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-2.7|1.6|||Mixed Models Analysis|||||1.6|-2.7|
92436200|NCT03654651|184757751|OTHER|change from baseline|Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-2.7|0.9|||Mixed Models Analysis|||||0.9|-2.7|
92436201|NCT03654651|184757751|OTHER|Change from baseline|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.2|1.4|||Mixed Models Analysis|||||1.4|-2.2|
92436202|NCT03654651|184757752|SUPERIORITY||Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-4.8|3.4|||Mixed Models Analysis|||||3.4|-4.8|
92436203|NCT03654651|184757752|OTHER|change from baseline|Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-5.1|5.4|||Mixed Models Analysis|||||5.4|-5.1|
92436204|NCT03654651|184757752|OTHER|change from baseline|Mean Difference (Final Values)|-3.8|||||TWO_SIDED|95.0|-5.1|5.4|||Mixed Models Analysis|||||5.4|-5.1|
92436205|NCT03654651|184757753|SUPERIORITY||Mean Difference (Final Values)|0.45|||||TWO_SIDED|95.0|-1.2|2.1|||Mixed Models Analysis|||||2.1|-1.2|
92436206|NCT03654651|184757753|OTHER|change from baseline|Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-1.5|1.0|||Mixed Models Analysis|||||1.0|-1.5|
92171158|NCT05107401|184231457|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.083|TWO_SIDED|95.0|-4.9|0.3|||Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference between study arms from baseline to the three-month follow-up.|Separate multilevel linear mixed models were calculated for the overall stigma score and then for each of the stigma subscale scores. The multilevel linear mixed models incorporated fixed effects for time (categorical), study arm, and their interaction and included intercept as a random effect. Models were also adjusted for pre-intervention stigma levels, whether the participant had submitted content to the study contest, prior HIV testing, age, sex at birth, and sexual orientation.||0.30|-4.90|0.083
92171159|NCT05107401|184231458|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.032|TWO_SIDED|95.0|-1.16|-0.18|||Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference between study arms from baseline to the three-month follow-up.|Separate multilevel linear mixed models were calculated for the overall stigma score and then for each of the stigma subscale scores. The multilevel linear mixed models incorporated random fixed effects for time (categorical), study arm, and their interaction and included intercept as a random effect. Models were also adjusted for pre-intervention stigma levels, whether the participant had submitted content to the study contest, age, sex at birth, and sexual orientation.||-0.18|-1.16|0.032
92279909|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.044||||0.8038|TWO_SIDED|95.0|-0.394|0.306||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.306|-0.394|0.8038
92436207|NCT03654651|184757753|OTHER|change from baseline|Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-2.1|0.5|||Mixed Models Analysis|||||0.5|-2.1|
92436208|NCT03654651|184757754|SUPERIORITY||Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-3.1|4.6|||Mixed Models Analysis|||peripheral systolic BP||4.6|-3.1|
92436209|NCT03654651|184757754|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-2.1|2.9|||Mixed Models Analysis|||peripheral diastolic BP||2.9|-2.1|
92436210|NCT03654651|184757754|OTHER|change from baseline|Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-2.5|3.3|||Mixed Models Analysis|||peripheral systolic BP change from baseline||3.3|-2.5|
92436211|NCT03654651|184757754|OTHER|change from baseline|Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-3.1|2.6|||Mixed Models Analysis|||peripheral systolic BP change from baseline||2.6|-3.1|
92436212|NCT03654651|184757754|OTHER|change from baseline|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-1.5|2.5|||Mixed Models Analysis|||peripheral diastolic BP change from baseline||2.5|-1.5|
92436213|NCT03654651|184757754|OTHER|change from baseline|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Mixed Models Analysis|||peripheral diastolic BP change from baseline||2|-2|
92436214|NCT03654651|184757755|SUPERIORITY||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.4|4.4|||Mixed Models Analysis|||central systolic BP||4.4|-2.4|
92436215|NCT03654651|184757755|SUPERIORITY||Mean Difference (Final Values)|0.8|||||TWO_SIDED|95.0|-1.7|3.3|||Mixed Models Analysis|||central diastolic BP||3.3|-1.7|
92436216|NCT03654651|184757755|OTHER|change from baseline|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-1.9|3.1|||Mixed Models Analysis|||central systolic BP change from baseline||3.1|-1.9|
92436217|NCT03654651|184757755|OTHER|change from baseline|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.9|2.1|||Mixed Models Analysis|||central systolic BP change from baseline||2.1|-2.9|
92436218|NCT03654651|184757755|OTHER|change from baseline|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-1.5|2.6|||Mixed Models Analysis|||central diastolic BP change from baseline||2.6|-1.5|
92436219|NCT03654651|184757755|OTHER|change from baseline|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.4|1.6|||Mixed Models Analysis|||central diastolic BP change from baseline||1.6|-2.4|
92436220|NCT03654651|184757756|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.1|0.5|||Mixed Models Analysis|||||0.5|-0.1|
92436221|NCT03654651|184757756|OTHER|change from baseline|Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|0.1|0.6|||Mixed Models Analysis|||||0.6|0.1|
92436222|NCT03654651|184757756|OTHER|change from baseline|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.1|0.3|||Mixed Models Analysis|||||0.3|-0.1|
92436223|NCT03654651|184757757|SUPERIORITY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-5.9|3.3|||Mixed Models Analysis|||||3.3|-5.9|
92436224|NCT03654651|184757757|OTHER|change from baseline|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-3.7|2.9|||Mixed Models Analysis|||||2.9|-3.7|
92436225|NCT03654651|184757757|OTHER|change from baseline|Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-4.0|4.3|||Mixed Models Analysis|||||4.3|-4.0|
92436226|NCT03654651|184757758|SUPERIORITY||Mean Difference (Final Values)|4.3|||||TWO_SIDED|95.0|-1.4|9.8|||Mixed Models Analysis|||||9.8|-1.4|
92436227|NCT03654651|184757758|OTHER|change from baseline|Mean Difference (Final Values)|2.4|||||TWO_SIDED|95.0|-2.1|6.9|||Mixed Models Analysis|||||6.9|-2.1|
92436228|NCT03654651|184757758|OTHER|change from baseline|Mean Difference (Final Values)|-2.3|||||TWO_SIDED|95.0|-6.8|2.2|||Mixed Models Analysis|||||2.2|-6.8|
92436229|NCT03654651|184757759|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-2.3|2.3|||Mixed Models Analysis|||||2.3|-2.3|
92436230|NCT03654651|184757759|OTHER|change from baseline|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.6|1.8|||Mixed Models Analysis|||||1.8|-0.6|
92436231|NCT03654651|184757759|OTHER|change from baseline|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-1.6|2.3|||Mixed Models Analysis|||||2.3|-1.6|
92436232|NCT03654651|184757760|SUPERIORITY||Mean Difference (Final Values)|2.2|||||TWO_SIDED|95.0|-3.8|8.2|||Mixed Models Analysis|||||8.2|-3.8|
92436233|NCT03654651|184757760|OTHER|change from baseline|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-4.9|5.1|||Mixed Models Analysis|||||5.1|-4.9|
92436234|NCT03654651|184757760|OTHER|change from baseline|Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-7.8|2.3|||Mixed Models Analysis|||||2.3|-7.8|
92436235|NCT03654651|184757761|SUPERIORITY||Mean Difference (Final Values)|-7.7|||||TWO_SIDED|95.0|-18.3|2.8|||Mixed Models Analysis|||||2.8|-18.3|
92436236|NCT03654651|184757761|OTHER|change from baseline|Mean Difference (Final Values)|-17.0|||||TWO_SIDED|95.0|-29.1|-4.8|||Mixed Models Analysis|||||-4.8|-29.1|
92436237|NCT03654651|184757761|OTHER|change from baseline|Mean Difference (Final Values)|-5.7|||||TWO_SIDED|95.0|-17.1|5.7|||Mixed Models Analysis|||||5.7|-17.1|
92436238|NCT03654651|184757762|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|||||0.7|-0.3|
92436239|NCT03654651|184757762|OTHER|change from baseline|Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.1|1.5|||Mixed Models Analysis|||||1.5|-0.1|
92436240|NCT03654651|184757762|OTHER|change from baseline|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||Mixed Models Analysis|||||0.5|-0.5|
92436241|NCT04615923|184757772|SUPERIORITY||Disease Rate Ratio|0.99|STANDARD_DEVIATION|0.103|||TWO_SIDED|95.0|0.801|1.207||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. Pridopidine slowed progression) was (0.5475). NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by verdiperstat relative to placebo.Note: reported Confidence Interval is actually a Bayesian credible interval."||The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality. The model includes covariates for baseline use of edaravone, baseline use of riluzole, months since onset of symptoms, and pre-baseline slope of ALSFRS-R, and random effects for regimen and participant-specific slopes.|1.207|0.801|
92436242|NCT04615923|184757774|SUPERIORITY||Median Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.334||0.78|TWO_SIDED|95.0|-0.75|0.57|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Pridopidine 24-week change from baseline relative to placebo 24-week change from baseline.|||0.57|-0.75|0.78
92436243|NCT04615923|184757775|SUPERIORITY||Median Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.217||0.6594|TWO_SIDED|95.0|-0.33|0.52|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Pridopidine 24-week change from baseline relative to placebo 24-week change from baseline.|||0.52|-0.33|0.6594
92436244|NCT04615923|184757776|SUPERIORITY||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|1.745||0.7918|TWO_SIDED|95.0|-3.89|2.96|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Pridopidine 24-week change from baseline relative to placebo 24-week change from baseline.|||2.96|-3.89|0.7918
92436245|NCT04615923|184757777|SUPERIORITY||Median Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.426||0.9903|TWO_SIDED|95.0|-0.83|0.84|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Pridopidine 24-week change from baseline relative to placebo 24-week change from baseline.|||0.84|-0.83|0.9903
92436246|NCT04615923|184757778|SUPERIORITY|Analysis performed using interval-censored survival analysis. This type of model accommodates interval censoring between ALSFRS-R assessments|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.69|1.27|||Regression, Cox|Interval censored cox model adjusted for time since symptom onset, pre-baseline change in ALSFRS-R, baseline use of edaravone, riluzole, and neudexta||||1.27|0.69|
92436247|NCT04615923|184757779|SUPERIORITY||Mean Difference (Net)|-1.78|STANDARD_ERROR_OF_MEAN|3.285||0.5888|TWO_SIDED|95.0|-8.23|4.67|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Pridopidine 24-week change from baseline relative to placebo 24-week change from baseline.|||4.67|-8.23|0.5888
92436248|NCT04615923|184757780|SUPERIORITY|||||||0.969|||||||Log Rank|||||||0.9690
92436249|NCT03395886|184757787|OTHER|||||||0.831|||||||Chi-squared|||Summary statistics are expressed as numbers and percentages and compared between groups by Chi-square test.||||0.831
92436250|NCT03395886|184757788|OTHER|||||||0.8|||||||Generalized estimating equations|||||||0.800
92436251|NCT00589914|184757789|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 5 points in the change in PANSS total score i.e., lower limit of the 95% CI for difference between groups (RISPERDAL CONSTA minus paliperidone palmitate) had to be greater than -5 to demonstrate non-inferiority.|Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|95.0|-1.62|2.38||No p-value to report.|ANCOVA|ANCOVA model with factors treatment, country and baseline score. Weighted approach used to account for interim analysis for sample size re-estimation.||Null hypothesis: Difference between groups (RISPERDAL CONSTA minus paliperidone palmitate) for the mean change from baseline to endpoint in PANSS total score (LOCF) was less than or equal to -5 (prespecified non-inferiority margin). Sample size: SD of 20 for the change in PANSS total score, a true difference between treatment groups of 0.1 in favor of RISPERDAL CONSTA, 2-sided significance level of 5%, and 80% power. A sample size reestimation was performed when 60% of the data was available.||2.38|-1.62|
92436252|NCT00589914|184757790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|95.0|-0.07|0.17||No P-values reported.|ANCOVA|||The change from baseline was analyzed using an ANCOVA model with factors for treatment and country and baseline score as a covariate.||0.17|-0.07|
92436253|NCT00589914|184757791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-1.22|1.69||No P-values reported.|ANCOVA|||The change from baseline was analyzed using an ANCOVA model with factors for treatment and country and baseline score as a covariate.||1.69|-1.22|
92436254|NCT00799487|184757794|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-27.3|||<|0.0001|TWO_SIDED|95.0|-34.4|-20.2||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis||Placebo minus Concerta|||-20.2|-34.4|<0.0001
92436255|NCT00799487|184757795|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.0|||<|0.0001|TWO_SIDED|95.0|-35.1|-20.8||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis||Placebo minus Concerta|||-20.8|-35.1|<0.0001
92436256|NCT00799487|184757796|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.0|||<|0.0001|TWO_SIDED|95.0|3.4|6.6||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis||Placebo minus Concerta|||6.6|3.4|<0.0001
92436257|NCT00799487|184757797|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.5|||<|0.0001|TWO_SIDED|95.0|3.2|5.8||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis||Placebo minus Concerta|||5.8|3.2|<0.0001
92279910|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.3||||0.0954|TWO_SIDED|95.0|-0.654|0.053||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.053|-0.654|0.0954
92436258|NCT00799487|184757798|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|9.5|||<|0.0001|TWO_SIDED|95.0|6.9|12.0||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis||Placebo minus Concerta|||12.0|6.9|<0.0001
92436259|NCT00799487|184757799|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.51|||<|0.0001|TWO_SIDED|95.0|-4.27|-2.74||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-2.74|-4.27|<0.0001
92436260|NCT00799487|184757800|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-17.58|||<|0.0001|TWO_SIDED|95.0|-23.72|-11.45||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-11.45|-23.72|<0.0001
92436261|NCT00799487|184757801|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-30.33|||<|0.0001|TWO_SIDED|95.0|-39.29|-21.37||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-21.37|-39.29|<0.0001
92436262|NCT00799487|184757802|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13||||0.0297|TWO_SIDED|95.0|-2.15|-0.12||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-0.12|-2.15|0.0297
92436263|NCT00799487|184757803|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84||||0.0955|TWO_SIDED|95.0|-1.84|0.15||P-values were determined by using a general linear mixed model. Finger Windows Forwards was the first non-significant p-value in the gatekeeper sequence.|Mixed Models Analysis|Testing of additional endpoints in the sequence was still performed without any unqualified statements about the individual statistical significance.|Placebo minus Concerta|||0.15|-1.84|0.0955
92436264|NCT00799487|184757804|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.37||||0.0002|TWO_SIDED|95.0|-21.52|-7.23||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-7.23|-21.52|0.0002
92279911|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.078||||0.6649|TWO_SIDED|95.0|-0.43|0.275||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.275|-0.430|0.6649
92436265|NCT00799487|184757805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26||||0.2335|TWO_SIDED|95.0|-0.7|0.17||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.17|-0.70|0.2335
92436266|NCT00799487|184757806|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.51||||0.2321|TWO_SIDED|95.0|-6.67|1.65||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||1.65|-6.67|0.2321
92436267|NCT00799487|184757807|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.52||||0.0015|TWO_SIDED|95.0|-5.64|-1.4||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-1.40|-5.64|0.0015
92436268|NCT00799487|184757808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.38||||0.0101|TWO_SIDED|95.0|-9.43|-1.33||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-1.33|-9.43|0.0101
92436269|NCT00799487|184757809|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09||||0.6642|TWO_SIDED|95.0|-0.53|0.34||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.34|-0.53|0.6642
92436270|NCT00799487|184757810|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.3||||0.004|TWO_SIDED|95.0|-58.89|-11.71||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-11.71|-58.89|0.0040
92436271|NCT00799487|184757811|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08||||0.0012|TWO_SIDED|95.0|-0.14|-0.03||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-0.03|-0.14|0.0012
92436272|NCT00799487|184757812|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07||||0.0051|TWO_SIDED|95.0|-0.12|-0.02||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-0.02|-0.12|0.0051
92436273|NCT00799487|184757813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05||||0.1768|TWO_SIDED|95.0|-0.13|0.02||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.02|-0.13|0.1768
92436274|NCT00799487|184757814|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02||||0.4245|TWO_SIDED|95.0|-0.09|0.04||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.04|-0.09|0.4245
92436275|NCT00799487|184757815|SUPERIORITY_OR_OTHER_LEGACY||LS Mean DIfference|0.0||||0.9729|TWO_SIDED|95.0|-0.09|0.09||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.09|-0.09|0.9729
92436276|NCT00799487|184757816|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04||||0.3486|TWO_SIDED|95.0|-0.12|0.04||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.04|-0.12|0.3486
92436277|NCT00799487|184757817|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03||||0.1466|TWO_SIDED|95.0|-0.07|0.01||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.01|-0.07|0.1466
92436278|NCT00799487|184757818|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03||||0.1368|TWO_SIDED|95.0|-0.01|0.08||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.08|-0.01|0.1368
92436279|NCT02618434|184757821|SUPERIORITY||Median Difference (Net)|-0.56||||0.9383|TWO_SIDED|95.0|-8.96|7.84|||Wilcoxon (Mann-Whitney)|||||7.84|-8.96|0.9383
92436280|NCT02618434|184757822|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.0979|TWO_SIDED|95.0|-0.33|0.03|||Mixed Models Analysis|||This analysis pertains to Visit 4||0.03|-0.33|0.0979
92436281|NCT02618434|184757822|SUPERIORITY||Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.126||0.0502|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis|||This analysis pertains to Visit 5||0.00|-0.50|0.0502
92436282|NCT02618434|184757822|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.141||0.4769|TWO_SIDED|95.0|-0.38|0.18|||Mixed Models Analysis|||This analysis pertains to Visit 6||0.18|-0.38|0.4769
92436283|NCT02618434|184757823|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.113||0.0881|TWO_SIDED|95.0|-0.41|0.03|||Mixed Models Analysis|||This analysis pertains to Visit 4||0.03|-0.41|0.0881
92436284|NCT02618434|184757823|SUPERIORITY||Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.135||0.0522|TWO_SIDED|95.0|-0.53|0.0|||Mixed Models Analysis|||This analysis pertains to Visit 5||0.00|-0.53|0.0522
92436285|NCT02618434|184757823|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.156||0.1766|TWO_SIDED|95.0|-0.52|0.1|||Mixed Models Analysis|||This analysis pertains to Visit 6||0.10|-0.52|0.1766
92436286|NCT02618434|184757824|SUPERIORITY||Mean Difference (Net)|1.54|STANDARD_ERROR_OF_MEAN|1.613||0.3409|TWO_SIDED|95.0|-1.64|4.72|||ANCOVA|||This analysis pertains to the Physical Functioning Summary Score at Visit 6.||4.72|-1.64|0.3409
92436287|NCT02618434|184757824|SUPERIORITY||Mean Difference (Net)|-2.21|STANDARD_ERROR_OF_MEAN|0.952||0.0215|TWO_SIDED|95.0|-4.08|-0.33|||ANCOVA|||This analysis pertains to the Psychosocial Health Summary Score at Visit 6.||-0.33|-4.08|0.0215
92436288|NCT02618434|184757825|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|2.0||0.5977|TWO_SIDED|95.0|-5.0|2.89|||ANCOVA|||This analysis pertains to the Total Score at Visit 6.||2.89|-5.00|0.5977
92436289|NCT02618434|184757825|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.807||0.8049|TWO_SIDED|95.0|-1.39|1.79|||ANCOVA|||This analysis pertains to the Parental Distress Domain score at Visit 6.||1.79|-1.39|0.8049
92436290|NCT02618434|184757825|SUPERIORITY||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.801||0.8911|TWO_SIDED|95.0|-1.47|1.69|||ANCOVA|||This analysis pertains to the Parent-Child Dysfunctional Interaction score at Visit 6.||1.69|-1.47|0.8911
92238042|NCT02989727|184380311|SUPERIORITY||Cox Proportional Hazard|1.05|STANDARD_ERROR_OF_MEAN|0.13||0.73|TWO_SIDED||||||Regression, Cox|||"Weighted Cox regression with treatment condition (lamotrigine vs. placebo) predicting treatment response. Response is defined as a score reduction of at least 50% from baseline. The outcome variable is binary coded with 1 being a response at any time point and 0 indicating no response."||||.73
92436291|NCT02618434|184757825|SUPERIORITY||Mean Difference (Net)|-1.25|STANDARD_ERROR_OF_MEAN|0.849||0.1426|TWO_SIDED|95.0|-2.93|0.42|||ANCOVA|||This analysis pertains to the Difficult Child Domain score Visit 6.||0.42|-2.93|0.1426
92436292|NCT02618434|184757826|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.134||0.6171|TWO_SIDED|95.0|-0.33|0.2|||Mixed Models Analysis|||This analysis pertains to Visit 4||0.20|-0.33|0.6171
92436293|NCT02618434|184757826|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.143||0.0617|TWO_SIDED|95.0|-0.55|0.01|||Mixed Models Analysis|||This analysis pertains to Visit 5||0.01|-0.55|0.0617
92436294|NCT02618434|184757826|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.171||0.4419|TWO_SIDED|95.0|-0.47|0.21|||Mixed Models Analysis|||This analysis pertains to Visit 6||0.21|-0.47|0.4419
92436295|NCT02618434|184757827|SUPERIORITY||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.0416|TWO_SIDED|95.0|-0.32|-0.01|||ANCOVA|||This analysis pertains to the Inattention subscale at Visit 6.||-0.01|-0.32|0.0416
92436296|NCT02618434|184757827|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.089||0.0921|TWO_SIDED|95.0|-0.33|0.02|||ANCOVA|||This analysis pertains to Hyperactivity/Impulsivity subscale at Visit 6||0.02|-0.33|0.0921
92436297|NCT02618434|184757827|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.094||0.448|TWO_SIDED|95.0|-0.26|0.11|||ANCOVA|||This analysis pertains to the Oppositional Defiant Disorder subscale at Visit 6||0.11|-0.26|0.4480
92436298|NCT02618434|184757827|SUPERIORITY||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.077||0.0457|TWO_SIDED|95.0|-0.31|0.0|||ANCOVA|||This analysis pertains to the Combined Scale score at Visit 6||-0.00|-0.31|0.0457
92436299|NCT02618434|184757828|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8525|TWO_SIDED|95.0|0.58|1.93|||Regression, Logistic|||This analysis pertains to ≥ 30% Responders.||1.93|0.58|0.8525
92436300|NCT02618434|184757828|SUPERIORITY||Odds Ratio (OR)|0.89||||0.6635|TWO_SIDED|95.0|0.52|1.51|||Regression, Logistic|||This analysis pertains to ≥ 50% Responders.||1.51|0.52|0.6635
92279912|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.262||||0.1448|TWO_SIDED|95.0|-0.614|0.091||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.091|-0.614|0.1448
92436301|NCT02289898|184757833|SUPERIORITY||Hazard Ratio (HR)|0.93|||=|0.7158|TWO_SIDED|95.0|0.63|1.375|||Wilcoxon (Mann-Whitney)|||Efficacy (investigator-assessed Kaplan-Meier estimates of progression-free survival) of placebo/placebo arm to the pooled demcizumab arm (i.e., placebo/placebo arm to demcizumab/placebo and demcizumab/demcizumab arms) in subjects with first-line metastatic pancreatic ductal adenocarcinoma.||1.375|0.630|=0.7158
92436302|NCT04626297|184757834|OTHER||Risk Difference (RD)|0.3|||||TWO_SIDED|90.0|-10.2|11.2||||||||11.2|-10.2|
92436303|NCT04626297|184757835|OTHER||Risk Difference (RD)|12.2|||||TWO_SIDED|90.0|2.5|22.0||||||||22.0|2.5|
92436304|NCT04626297|184757836|OTHER||Risk Difference (RD)|21.7|||<|0.001|TWO_SIDED|95.0|10.3|33.2|||Cochran-Mantel-Haenszel|||||33.2|10.3|<0.001
92436305|NCT04626297|184757837|OTHER||Risk Difference (RD)|25.3|||<|0.001|TWO_SIDED|95.0|12.6|38.0|||Cochran-Mantel-Haenszel|||||38|12.6|<0.001
92436306|NCT04626297|184757838|OTHER||Risk Difference (RD)|20.3|||<|0.001|TWO_SIDED|95.0|9.0|31.6|||Cochran-Mantel-Haenszel|||||31.6|9.0|<0.001
92436307|NCT04626297|184757839|OTHER||Risk Difference (RD)|11.9||||0.138|TWO_SIDED|95.0|-3.8|27.5|||Cochran-Mantel-Haenszel|||||27.5|-3.8|0.138
92436308|NCT04626297|184757840|OTHER||LS Mean Difference|-8.21|STANDARD_ERROR_OF_MEAN|2.447|<|0.001|TWO_SIDED|95.0|-13.04|-3.39|||Mixed Models Analysis||The mixed model repeated measures (MMRM) included treatment, baseline value, visit, the interaction of the baseline value-by-visit, the interaction of treatment by-visit, geographic region, age group, baseline IGA score as fixed factors.|||-3.39|-13.04|<0.001
92436309|NCT04626297|184757841|OTHER||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.152||0.001658|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|||||-0.2|-0.8|0.001658
92436310|NCT02598076|184757851|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||||||0.015
92436311|NCT02598076|184757852|SUPERIORITY|||||||0.034|||||||t-test, 2 sided|||||||0.034
92436312|NCT02598076|184757853|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
92436313|NCT02598076|184757854|SUPERIORITY|||||||0.095|||||||Fisher Exact|||||||0.095
92436314|NCT02598076|184757855|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||0.047
92436315|NCT00759954|184757857|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated. The Wilcoxon signed rank test was used for a nonparametric comparison of Tmax values and a significant difference was defined a priori as p \< 0.05.|mean ratio|97.19|||<|0.05||90.0|91.31|103.45|||ANOVA|||||103.45|91.31|<0.05
92436316|NCT00759954|184757859|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated. The Wilcoxon signed rank test was used for a nonparametric comparison of Tmax values and a significant difference was defined a priori as p \< 0.05.|mean ratio|95.82|||<|0.05||90.0|92.93|98.8|||ANOVA|Analysis of Variance for the log-transformed AUC. The 90% confidence interval for the ratio of AUC(Test)/AUC(Ref) is provided.||||98.80|92.93|< 0.05
92436317|NCT00759954|184757860|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated. The Wilcoxon signed rank test was used for a nonparametric comparison of Tmax values and a significant difference was defined a priori as p \< 0.05.|mean ratio|98.1|||<|0.05||90.0|94.2|102.1|||ANOVA|||||102.1|94.2|< 0.05
92436318|NCT00010374|184757861|OTHER|Performance goal of 35%|Exact two-sided binomial test|96.2|||<|0.001|TWO_SIDED|95.0|87.0|99.5|||Exact two-sided binomial test|||||99.5|87.0|<0.001
92436319|NCT01683383|184757882|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Adjusted Wald estimation|||||||<0.001
92436320|NCT01683383|184757883|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
92436321|NCT01683383|184757885|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92436322|NCT01897402|184757897|NON_INFERIORITY_OR_EQUIVALENCE|The assumptions for the sample size calculations were: 1) Seroconversion for the control vaccine (Menactra) is 40-80% and 2) the true treatments are theoretically equal and 3) the power of detecting non-inferiority is 90%.|Percentage Difference|0.6|||||TWO_SIDED|95.0|-7.9|9.1|||||Serogroup A|The hypothesis was that the test vaccine is comparable to the licensed active control vaccine. Differences between treatment groups were described using exact two-sided 95% confidence intervals on differences in % seroconversion between the two treatment groups (test vaccine minus reference vaccine) for each serogroup. If the lower bound of the difference is ≥ -15%, then the test vaccine meets the preliminary criterion for non-inferiority.||9.1|-7.9|
92436323|NCT01897402|184757897|NON_INFERIORITY_OR_EQUIVALENCE|The assumptions for the sample size calculations were: 1) Seroconversion for the control vaccine (Menactra) is 40-80% and 2) the true treatments are theoretically equal and 3) the power of detecting non-inferiority is 90%.|Percentage Difference|-6.0|||||TWO_SIDED|95.0|-14.6|2.6|||||Serogroup C|The hypothesis was that the test vaccine is comparable to the licensed active control vaccine. Differences between treatment groups were described using exact two-sided 95% confidence intervals on differences in % seroconversion between the two treatment groups (test vaccine minus reference vaccine) for each serogroup. If the lower bound of the difference is ≥ -15%, then the test vaccine meets the preliminary criterion for non-inferiority.||2.6|-14.6|
92436324|NCT01897402|184757897|NON_INFERIORITY_OR_EQUIVALENCE|The assumptions for the sample size calculations were: 1) Seroconversion for the control vaccine (Menactra) is 40-80% and 2) the true treatments are theoretically equal and 3) the power of detecting non-inferiority is 90%.|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-9.9|7.9|||||Serogroup Y|The hypothesis was that the test vaccine is comparable to the licensed active control vaccine. Differences between treatment groups were described using exact two-sided 95% confidence intervals on differences in % seroconversion between the two treatment groups (test vaccine minus reference vaccine) for each serogroup. If the lower bound of the difference is ≥ -15%, then the test vaccine meets the preliminary criterion for non-inferiority.||7.9|-9.9|
92436325|NCT01897402|184757897|NON_INFERIORITY_OR_EQUIVALENCE|The assumptions for the sample size calculations were: 1) Seroconversion for the control vaccine (Menactra) is 40-80% and 2) the true treatments are theoretically equal and 3) the power of detecting non-inferiority is 90%.|Percentage Difference|0.3|||||TWO_SIDED|95.0|-8.5|9.1|||||Serogroup W-135|The hypothesis was that the test vaccine is comparable to the licensed active control vaccine. Differences between treatment groups were described using exact two-sided 95% confidence intervals on differences in % seroconversion between the two treatment groups (test vaccine minus reference vaccine) for each serogroup. If the lower bound of the difference is ≥ -15%, then the test vaccine meets the preliminary criterion for non-inferiority.||9.1|-8.5|
92436326|NCT00580606|184757910|SUPERIORITY_OR_OTHER||Risk Difference (RD)|55.0|||<|0.001|TWO_SIDED|95.0|22.2|77.6||No adjustments were made to the p-value.|Barnard's Statistic|The a priori threshold for statistical significance is 0.05.||Number of participants who successfully consumed 5,000 mg of peanut powder or at least a 10-fold increase in the amount of peanut powder compared to their baseline OFC was compared using Barnard's Statistic with the null hypothesis that there was no difference between treatment groups.||77.6|22.2|<0.001
92436327|NCT01482884|184757935|SUPERIORITY_OR_OTHER||Risk Difference (RD)|4.8||||0.4062|TWO_SIDED|95.0|-13.0|22.5||Glucocorticosteroid-refractory status as stratification factor|Cochran-Mantel-Haenszel|||The null hypothesis is that the proportion of participants responding on tralokinumab is less than or equal to the proportion of participants responding on placebo.||22.5|-13.0|0.4062
92436328|NCT01482884|184757936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.57||0.3937|TWO_SIDED|95.0|-1.63|0.65|||ANCOVA|Mayo score at baseline as a covariate, and treatment and glucocorticosteroid-refractory status as factors in the model.||||0.65|-1.63|0.3937
92436329|NCT01482884|184757937|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.1||||0.1043|TWO_SIDED|95.0|-4.0|28.3||Glucocorticosteroid-refractory status as stratification factor|Cochran-Mantel-Haenszel|||||28.3|-4.0|0.1043
92436330|NCT01482884|184757938|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.4||||0.0326|TWO_SIDED|95.0|0.7|24.1||Glucocorticosteroid-refractory status as stratification factor|Cochran-Mantel-Haenszel|||||24.1|0.7|0.0326
92436331|NCT01482884|184757940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.33||0.449|TWO_SIDED|95.0|-0.41|0.91|||ANCOVA|Modified Riley score at baseline as a covariate, and treatment as factors in the model.||||0.91|-0.41|0.4490
92436332|NCT04853225|184758014|OTHER||Adjusted rate of change|-59.46|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436333|NCT04853225|184758014|OTHER||Adjusted rate of change|-62.73|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436334|NCT04853225|184758014|OTHER||Adjusted rate of change|-48.54|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436335|NCT04853225|184758014|OTHER||Adjusted rate of change|-50.32|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436336|NCT04853225|184758014|OTHER||Adjusted rate of change|-22.67|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436337|NCT04853225|184758014|OTHER||Adjusted rate of change|-33.32|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436338|NCT04853225|184758014|OTHER||Adjusted rate of change|-20.4|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436339|NCT04853225|184758014|OTHER||Adjusted rate of change|-31.08|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436340|NCT04853225|184758014|OTHER||Adjusted rate of change|-64.74|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436341|NCT04853225|184758014|OTHER||Adjusted rate of change|-60.26|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436342|NCT04853225|184758014|OTHER||Adjusted rate of change|-27.85|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436343|NCT04853225|184758014|OTHER||Adjusted rate of change|-28.65|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436344|NCT04853225|184758015|OTHER||Adjusted rate of change|-87.47|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436345|NCT04853225|184758015|OTHER||Adjusted rate of change|-83.25|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436346|NCT04853225|184758015|OTHER||Adjusted rate of change|-77.54|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436347|NCT04853225|184758015|OTHER||Adjusted rate of change|-77.41|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436348|NCT04853225|184758015|OTHER||Adjusted rate of change|-60.1|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436349|NCT04853225|184758015|OTHER||Adjusted rate of change|-73.65|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436350|NCT04853225|184758015|OTHER||Adjusted rate of change|-45.44|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436351|NCT04853225|184758015|OTHER||Adjusted rate of change|-79.49|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436352|NCT04853225|184758015|OTHER||Adjusted rate of change|-74.39|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436353|NCT04853225|184758015|OTHER||Adjusted rate of change|-63.04|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436354|NCT04853225|184758015|OTHER||Adjusted rate of change|-25.59|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436355|NCT04853225|184758015|OTHER||Adjusted rate of change|-38.69|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
92436356|NCT03789318|184758016|SUPERIORITY|||||||0.2912|||||||ANOVA|||||||0.2912
92436357|NCT03789318|184758017|SUPERIORITY|||||||0.498|||||||ANOVA|||||||0.4980
92436358|NCT03789318|184758018|SUPERIORITY|||||||0.1958|||||||Log Rank|||||||0.1958
92436359|NCT03789318|184758019|SUPERIORITY|||||||0.9546|||||||Regression, Logistic|||||||0.9546
92436360|NCT03789318|184758020|SUPERIORITY|||||||0.4434|||||||ANOVA|||||||0.4434
92436361|NCT00356369|184758107|NON_INFERIORITY|Criterion indicative of non-inferiority: Lower limit of the standardized asymptotic 95% confidence interval (CI) for the difference between MenACWY-TT and (minus) MenACWY in the percentage of subjects with bactericidal vaccine response was greater than (\>) -15%.|Difference in % for rSBA-MenA antibodies|13.0|||||TWO_SIDED|95.0|3.52|23.5||||||To evaluate the non-inferiority of the vaccine response\* induced by the MenACWY-TT vaccine when compared to the licensed MenACWY vaccine.||23.5|3.52|
92436362|NCT00356369|184758107|NON_INFERIORITY|Criterion indicative of non-inferiority: Lower limit of the standardized asymptotic 95% confidence interval (CI) for the difference between MenACWY-TT and (minus) MenACWY in the percentage of subjects with bactericidal vaccine response was ≥ -12%.|Difference in % for rSBA-MenC antibodies|4.18|||||TWO_SIDED|95.0|-1.03|11.36||||||To evaluate the non-inferiority of the vaccine response\* induced by the MenACWY-TT vaccine when compared to the licensed MenACWY vaccine.||11.36|-1.03|
92436363|NCT00356369|184758107|NON_INFERIORITY|Criterion indicative of non-inferiority: Lower limit of the standardized asymptotic 95% confidence interval (CI) for the difference between MenACWY-TT and (minus) MenACWY in the percentage of subjects with bactericidal vaccine response was ≥ -12%.|Difference in%for rSBA-MenW-135 antibody|4.58|||||TWO_SIDED|95.0|-0.07|11.49||||||To evaluate the non-inferiority of the vaccine response\* induced by the MenACWY-TT vaccine when compared to the licensed MenACWY vaccine.||11.49|-0.07|
92436364|NCT00356369|184758107|NON_INFERIORITY|Criterion indicative of non-inferiority: Lower limit of the standardized asymptotic 95% confidence interval (CI) for the difference between MenACWY-TT and (minus) MenACWY in the percentage of subjects with bactericidal vaccine response was ≥ -12%.|Difference in % for rSBA-MenY antibodies|8.05|||||TWO_SIDED|95.0|1.72|16.17||||||To evaluate the non-inferiority of the vaccine response\* induced by the MenACWY-TT vaccine when compared to the licensed MenACWY vaccine.||16.17|1.72|
92436365|NCT00356369|184758108|NON_INFERIORITY|Criterion indicative of non-inferiority: Upper limit of the standardized asymptotic 95% CI on the difference between MenACWY- TT and (minus) MenACWY in the incidence of Grade 3 systemic symptoms was below 5%.|Difference in % Grade 3 general symptoms|1.34|||||TWO_SIDED|95.0|-1.64|3.09||||||To evaluate the non-inferiority of the MenACWY-TT conjugate vaccine when compared to the licensed MenACWY vaccine in terms of the incidence of any Grade 3 systemic symptom within 4 days after vaccination.||3.09|-1.64|
92436366|NCT00673465|184758145|SUPERIORITY_OR_OTHER||Difference in least squares mean|-4.4||||0.5269|TWO_SIDED|95.0|-18.5|9.7|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||9.7|-18.5|0.5269
92436367|NCT00673465|184758145|SUPERIORITY_OR_OTHER||Difference in least squares mean|-53.9|||<|0.0001|TWO_SIDED|95.0|-68.1|-39.8|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||-39.8|-68.1|<0.0001
92436368|NCT00673465|184758149|SUPERIORITY_OR_OTHER||Difference in least squares mean|-2.81||||0.741|TWO_SIDED|95.0|-20.1|14.5|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||14.5|-20.1|0.7410
92436369|NCT00673465|184758149|SUPERIORITY_OR_OTHER||Difference in least squares mean|-63.6|||<|0.0001|TWO_SIDED|95.0|-80.9|-46.2|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||-46.2|-80.9|<0.0001
92436370|NCT00673465|184758151|SUPERIORITY_OR_OTHER||Difference in least squares mean|-3.59||||0.3146|TWO_SIDED|95.0|-10.8|3.6|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||3.6|-10.8|0.3146
92436371|NCT00673465|184758151|SUPERIORITY_OR_OTHER||Difference in least squares mean|-26.6|||<|0.0001|TWO_SIDED|95.0|-33.8|-19.4|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||-19.4|-33.8|<0.0001
92436372|NCT01285310|184758159|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-7.4||||0.3134|TWO_SIDED|95.0|-27.1|7.0|||Chi-squared||2-sided 95% CI of the proportion difference is based on a normal approximation to the binomial distribution|Significance testing was done using the following closed procedure; if the overall test among treatments is statistically significant at the 0.05 level, pair-wise comparisons (30 mg versus PBO, and 20 mg versus PBO, using a 0.05 two-sided significance level) will be performed||7.0|-27.1|0.3134
92436373|NCT01285310|184758159|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.2||||0.8721|TWO_SIDED|95.0|-16.2|13.8|||Chi-squared||2-sided 95% CI is based on a normal approximation to the binomial distribution|||13.8|-16.2|0.8721
92436374|NCT01285310|184758160|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.004|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436375|NCT01285310|184758160|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.091|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436376|NCT01285310|184758161|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-4.5||||||||||||||||||
92436377|NCT01285310|184758161|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|3.6||||||||||||||||||
92436378|NCT01285310|184758162|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.007||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.||||||
92436379|NCT01285310|184758162|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.15|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, treatment group as a factor and the baseline value as a covariate.|||||
92436380|NCT01285310|184758163|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16; treatment group as a factor and the baseline value as a covariate|||||
92436381|NCT01285310|184758163|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.77|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16; treatment group as a factor and the baseline value as a covariate.|||||
92436382|NCT01285310|184758164|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.21||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16; treatment group as a factor and the baseline value as a covariate.||||||
92436383|NCT01285310|184758164|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.||||||
92436384|NCT01285310|184758165|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.5||||||||||||||||||
92436385|NCT01285310|184758165|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-7.2||||||||||||||||||
92436386|NCT01285310|184758166|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.14||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, treatment group as a factor and the baseline value as a covariate.||||||
92436387|NCT01285310|184758166|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.02|||||TWO_SIDED|||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.||||||
92436388|NCT01285310|184758167|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.15|||||||||||||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||||
92436389|NCT01285310|184758167|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|||||||||||||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||||
92436390|NCT01285310|184758168|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.58|||||TWO_SIDED||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436391|NCT01285310|184758168|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.26||||||||||||||||||
92436392|NCT01285310|184758169|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-35.54|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436393|NCT01285310|184758169|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-38.37|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436394|NCT01285310|184758170|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-14.35|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436395|NCT01285310|184758170|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.34|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436396|NCT01285310|184758171|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.59|||||TWO_SIDED||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436397|NCT01285310|184758171|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-3.84|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436398|NCT01285310|184758172|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|5.93|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436399|NCT01285310|184758172|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.77|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||||
92436400|NCT01285310|184758173|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|4.7|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436401|NCT01285310|184758173|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|58.05||||||||||||||||||
92436402|NCT01285310|184758174|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|7.18|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436403|NCT01285310|184758174|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-16.19|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436404|NCT01285310|184758175|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
92436405|NCT01285310|184758175|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.1|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||||
92436406|NCT01285310|184758176|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-3.9||||||||||||||||||
92436407|NCT01285310|184758176|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|13.4||||||||||||||||||
92436408|NCT01285310|184758177|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-3.9||||||||||||||||||
92436409|NCT01285310|184758177|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.9||||||||||||||||||
92436410|NCT01285310|184758178|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.4||||||||||||||||||
92436411|NCT01285310|184758178|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.1||||||||||||||||||
92436412|NCT01285310|184758179|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-6.5||||||||||||||||||
92436413|NCT01285310|184758179|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-2.2||||||||||||||||||
92436414|NCT01285310|184758180|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.3||||||||||||||||||
92279913|NCT02637557|184463077|SUPERIORITY||LS Mean Difference|-0.403||||0.0264|TWO_SIDED|95.0|-0.759|-0.048||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.048|-0.759|0.0264
92436415|NCT01285310|184758180|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-2.5||||||||||||||||||
92436416|NCT01285310|184758181|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.5||||||||||||||||||
92436417|NCT01285310|184758181|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.5||||||||||||||||||
92436418|NCT01285310|184758182|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.4|||||TWO_SIDED|||||||||||||
92436419|NCT01285310|184758182|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|1.5|||||TWO_SIDED|||||||||||||
92436420|NCT01285310|184758183|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24 with treatment group as a factor and the baseline value as a covariate.|||||
92436421|NCT01285310|184758183|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.98|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24 with treatment group as a factor and the baseline value as a covariate.|||||
92436422|NCT01285310|184758184|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.94||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.||||||
92436423|NCT01285310|184758184|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.24||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.||||||
92436424|NCT01285310|184758185|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|-4.3||||||||||||||||||
92436425|NCT01285310|184758185|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|4.6||||||||||||||||||
92279914|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|0.102||||0.4137|TWO_SIDED|95.0|-0.143|0.347||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.347|-0.143|0.4137
92436426|NCT01285310|184758186|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24 with treatment group as a factor and the baseline value as a covariate.|||||
92436427|NCT01285310|184758186|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24 with treatment group as a factor and the baseline value as a covariate.|||||
92436428|NCT01285310|184758187|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.6|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436429|NCT01285310|184758187|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.01|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.|||||
92436430|NCT01285310|184758188|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.86|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
92436431|NCT01285310|184758188|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-7.02|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
92436432|NCT01285310|184758189|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-34.82|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
92436433|NCT01285310|184758189|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-37.82|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
92436434|NCT01285310|184758190|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-14.34|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436435|NCT01285310|184758190|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-12.5|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436436|NCT01285310|184758191|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|5.85|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436437|NCT01285310|184758191|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.8|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436438|NCT01285310|184758192|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|1.57|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436439|NCT01285310|184758192|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-5.72|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436440|NCT01285310|184758193|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|8.29|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436441|NCT01285310|184758193|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|67.09|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436442|NCT01285310|184758194|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|12.05|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436443|NCT01285310|184758194|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-6.54|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
92436444|NCT01285310|184758195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
92436445|NCT01285310|184758195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.7|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
92436446|NCT01285310|184758196|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|5.4||||||||||||||||||
92436447|NCT01285310|184758196|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|12.6||||||||||||||||||
92436448|NCT01285310|184758197|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-11.9||||||||||||||||||
92436449|NCT01285310|184758197|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.3||||||||||||||||||
92436450|NCT01285310|184758198|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-11.2||||||||||||||||||
92436451|NCT01285310|184758198|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.0||||||||||||||||||
92436452|NCT00514540|184758232|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.005|ONE_SIDED|95.0||||"Stoppage of trial early if 1) probability of response with the frontline treatment DC in the 1st 2 courses is unacceptably low compared to a target of 30% Pr(p1\*p2 \> .30\|data) \< 0.005, or 2) risk of a SAE is unacceptably high Pr(m \> m\* \|data) \< 0.001"|Bayesian probability model|Operating Characteristics of futility monitoring rule 1 \& safety monitoring rule 2 applied simultaneously for frontline treatment DC in courses 1 \& 2.||Disease status evaluated at the end of course 1 \& the end of course 2. Primary outcomes are response, defined as the absence of disease progression, and the time to a serious adverse event (SAE), defined as grade 3 or 4 neurotoxicity or death. Bayesian probability model \& decision rules used to monitor patient outcomes.||||< 0.005
92436453|NCT00555321|184758312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.9|||||TWO_SIDED|95.0|16.1|49.8|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||49.8|16.1|
92436454|NCT00555321|184758312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.6|||||TWO_SIDED|95.0|9.6|43.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||43.5|9.6|
92436455|NCT00555321|184758312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.8|||||TWO_SIDED|95.0|14.8|48.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||48.5|14.8|
92436456|NCT00555321|184758312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|||||TWO_SIDED|95.0|-8.7|29.6|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||29.6|-8.7|
92436457|NCT00555321|184758312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7|||||TWO_SIDED|95.0|-15.3|23.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||23.2|-15.3|
92436458|NCT00555321|184758312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|||||TWO_SIDED|95.0|-9.8|28.4|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||28.4|-9.8|
92436459|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-12.9|8.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||8.7|-12.9|
92436460|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|||||TWO_SIDED|95.0|-13.6|8.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||8.5|-13.6|
92436461|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|||||TWO_SIDED|95.0|-23.8|1.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||1.5|-23.8|
92436462|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|||||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||||
92436463|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-12.1|11.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||11.3|-12.1|
92436464|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||||TWO_SIDED|95.0|-22.9|4.1|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||4.1|-22.9|
92436465|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-12.9|8.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||8.7|-12.9|
92436466|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.1|||||TWO_SIDED|95.0|-18.1|5.4|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||5.4|-18.1|
92436467|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.1|||||TWO_SIDED|95.0|-38.9|-9.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||-9.5|-38.9|
92436468|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||||TWO_SIDED|95.0|-9.9|14.4|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||14.4|-9.9|
92436469|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|||||TWO_SIDED|95.0|-15.5|10.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||10.7|-15.5|
92436470|NCT00555321|184758313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.7|||||TWO_SIDED|95.0|-35.5|-4.1|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||-4.1|-35.5|
92238043|NCT03151148|184380345|SUPERIORITY||Risk Ratio (RR)|0.56||||0.075|TWO_SIDED|95.0|0.29|1.06|||Negative Binomial Regression|Negative binomial generalized linear model, adjusting for site, offset by follow-up days within the outcome measure time frame|TMT represents the numerator, placebo represents the denominator|||1.06|0.29|0.075
92238044|NCT03151148|184380346|SUPERIORITY||Risk Difference (RD)|-0.28||||0.044|TWO_SIDED|95.0|-0.51|-0.04|||Chi-squared||95% exact unconditional confidence interval is based on the Santner and Snell method|||-0.04|-0.51|0.044
92436471|NCT00555321|184758314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|-14.5|15.3|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||15.3|-14.5|
92436472|NCT00555321|184758314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.9|||||TWO_SIDED|95.0|-25.7|8.8|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||8.8|-25.7|
92436473|NCT00555321|184758314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7|||||TWO_SIDED|95.0|-13.2|17.5|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||17.5|-13.2|
92436474|NCT00555321|184758314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8|||||TWO_SIDED|95.0|-18.1|13.1|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||13.1|-18.1|
92436475|NCT00555321|184758314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0|||||TWO_SIDED|95.0|-29.4|6.2|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||6.2|-29.4|
92436476|NCT00555321|184758314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-16.9|15.3|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||15.3|-16.9|
92436477|NCT00555321|184758315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.1|||||TWO_SIDED|95.0|15.8|50.6|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||50.6|15.8|
92436478|NCT00555321|184758315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.0|||||TWO_SIDED|95.0|11.4|46.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||46.3|11.4|
92436479|NCT00555321|184758315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.2|||||TWO_SIDED|95.0|16.9|51.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||51.5|16.9|
92436480|NCT00555321|184758315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.0|||||TWO_SIDED|95.0|-7.1|31.6|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||31.6|-7.1|
92436481|NCT00555321|184758315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9|||||TWO_SIDED|95.0|-11.5|27.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||27.2|-11.5|
92436482|NCT00555321|184758315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.1|||||TWO_SIDED|95.0|-5.9|32.6|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||32.6|-5.9|
92436483|NCT00555321|184758316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.6|||||TWO_SIDED|95.0|-5.8|36.8|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||36.8|-5.8|
92436484|NCT00555321|184758316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.0|||||TWO_SIDED|95.0|-6.0|38.0|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||38.0|-6.0|
92436485|NCT00555321|184758316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|||||TWO_SIDED|95.0|-16.6|26.8|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||26.8|-16.6|
92436486|NCT00555321|184758316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.6|||||TWO_SIDED|95.0|-10.8|36.1|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||36.1|-10.8|
92436487|NCT00555321|184758316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.0|||||TWO_SIDED|95.0|-10.9|37.3|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||37.3|-10.9|
92436488|NCT00555321|184758316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|-21.8|26.0|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||26.0|-21.8|
92436489|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.1|||||TWO_SIDED|95.0|-6.7|43.3|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||43.3|-6.7|
92436490|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|||||TWO_SIDED|95.0|-21.6|25.5|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||25.5|-21.6|
92436491|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8|||||TWO_SIDED|95.0|-20.1|28.7|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||28.7|-20.1|
92436492|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|||||TWO_SIDED|95.0|-21.2|32.1|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||32.1|-21.2|
92436493|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|||||TWO_SIDED|95.0|-36.0|14.2|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||14.2|-36.0|
92171160|NCT05107401|184231459|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.48|TWO_SIDED|95.0|-0.72|0.29|||Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference between study arms from baseline to the three-month follow-up.|Separate multilevel linear mixed models were calculated for the overall stigma score and then for each of the stigma subscale scores. The multilevel linear mixed models incorporated random fixed effects for time (categorical), study arm, and their interaction and included intercept as a random effect. Models were also adjusted for pre-intervention stigma levels, whether the participant had submitted content to the study contest, prior HIV testing, age, sex at birth, and sexual orientation.||0.29|-0.72|0.48
92171161|NCT05107401|184231460|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.48|TWO_SIDED|95.0|-1.49|0.29|||Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference between study arms from baseline to the three-month follow-up.|Separate multilevel linear mixed models were calculated for the overall stigma score and then for each of the stigma subscale scores. The multilevel linear mixed models incorporated random fixed effects for time (categorical), study arm, and their interaction and included intercept as a random effect. Models were also adjusted for pre-intervention stigma levels, whether the participant had submitted content to the study contest, prior HIV testing, age, sex at birth, and sexual orientation.||0.29|-1.49|0.48
92436494|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.5|||||TWO_SIDED|95.0|-34.6|17.3|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||17.3|-34.6|
92436495|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|||||TWO_SIDED|95.0|-18.8|35.1|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||35.1|-18.8|
92436496|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.6|||||TWO_SIDED|95.0|-46.3|6.3|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||6.3|-46.3|
92436497|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.4|||||TWO_SIDED|95.0|-48.2|5.2|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||5.2|-48.2|
92436498|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.4|||||TWO_SIDED|95.0|-5.2|48.4|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||48.4|-5.2|
92436499|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.1|||||TWO_SIDED|95.0|-32.9|19.8|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||19.8|-32.9|
92436500|NCT00555321|184758340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.9|||||TWO_SIDED|95.0|-34.8|18.7|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||18.7|-34.8|
92436501|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.8|||||TWO_SIDED|95.0|-42.4|26.3|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||26.3|-42.4|
92436502|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.2|||||TWO_SIDED|95.0|-49.2|19.0|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||19.0|-49.2|
92436503|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-58.8|||||TWO_SIDED|95.0|-81.6|-19.8|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||-19.8|-81.6|
92436504|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7|||||TWO_SIDED|95.0|-55.9|16.9|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||16.9|-55.9|
92436505|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.1|||||TWO_SIDED|95.0|-62.6|9.4|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||9.4|-62.6|
92436506|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-72.7|||||TWO_SIDED|95.0|-94.0|-33.1|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||-33.1|-94.0|
92436507|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||||TWO_SIDED|95.0|-32.6|34.3|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||34.3|-32.6|
92436508|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.7|||||TWO_SIDED|95.0|-47.4|20.6|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||20.6|-47.4|
92436509|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.5|||||TWO_SIDED|95.0|-72.6|0.5|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||0.5|-72.6|
92436510|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|||||TWO_SIDED|95.0|-41.1|31.1|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||31.1|-41.1|
92436511|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7|||||TWO_SIDED|95.0|-55.9|16.9|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||16.9|-55.9|
92436512|NCT00555321|184758341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.5|||||TWO_SIDED|95.0|-81.9|-3.5|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||-3.5|-81.9|
92436513|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|||||TWO_SIDED|95.0|-21.2|6.0|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||6.0|-21.2|
92436514|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||||TWO_SIDED|95.0|-18.2|5.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||5.3|-18.2|
92436515|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-14.9|4.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||4.5|-14.9|
92436516|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|||||TWO_SIDED|95.0|-25.1|7.1|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||7.1|-25.1|
92436517|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||||TWO_SIDED|95.0|-15.6|4.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||4.5|-15.6|
92238045|NCT03151148|184380347|SUPERIORITY||Risk Ratio (RR)|0.63||||0.121|TWO_SIDED|95.0|0.36|1.13|||Negative Binomial Regression|Negative binomial generalized linear model, adjusting for site, offset by follow-up days within the outcome measure time frame|TMT represents the numerator, placebo represents the denominator|||1.13|0.36|0.121
92436518|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-12.7|3.9|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||3.9|-12.7|
92436519|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|||||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||||
92436520|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||||TWO_SIDED|95.0|-18.2|5.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||5.3|-18.2|
92436521|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-14.9|4.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||4.5|-14.9|
92436522|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|||||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||||
92436523|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||||TWO_SIDED|95.0|-15.6|4.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||4.5|-15.6|
92436524|NCT00555321|184758354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-12.7|3.9|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||3.9|-12.7|
92436525|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7|||||TWO_SIDED|95.0|-25.6|10.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||10.2|-25.6|
92436526|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4|||||TWO_SIDED|95.0|-11.7|22.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||22.3|-11.7|
92436527|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|||||TWO_SIDED|95.0|-20.1|15.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||15.2|-20.1|
92436528|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|||||TWO_SIDED|95.0|-24.0|12.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||12.5|-24.0|
92436529|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||||TWO_SIDED|95.0|-10.5|24.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||24.2|-10.5|
92436530|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-18.5|17.6|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||17.6|-18.5|
92436531|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.2|||||TWO_SIDED|95.0|-23.3|9.4|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||9.4|-23.3|
92436532|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.5|||||TWO_SIDED|95.0|-27.4|6.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||6.5|-27.4|
92436533|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.1|||||TWO_SIDED|95.0|-37.5|-2.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||-2.7|-37.5|
92436534|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||||TWO_SIDED|95.0|-15.5|19.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||19.7|-15.5|
92436535|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-19.4|16.9|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||16.9|-19.4|
92436536|NCT00555321|184758355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|||||TWO_SIDED|95.0|-29.3|7.9|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||7.9|-29.3|
92436537|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.4|||||TWO_SIDED|95.0|-6.3|36.0|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||36.0|-6.3|
92436538|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.4|||||TWO_SIDED|95.0|-23.4|10.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||10.2|-23.4|
92436539|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.2|||||TWO_SIDED|95.0|-23.4|10.0|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||10.0|-23.4|
92238046|NCT03151148|184380348|SUPERIORITY||Risk Difference (RD)|-0.25||||0.053|TWO_SIDED|95.0|-0.46|-0.04|||Chi-squared||95% exact unconditional confidence interval is based on the Santner and Snell method|||-0.04|-0.46|0.053
92436540|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-22.0|23.4|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||23.4|-22.0|
92436541|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5|||||TWO_SIDED|95.0|-38.6|-0.1|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||-0.1|-38.6|
92436542|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.2|||||TWO_SIDED|95.0|-39.1|-1.8|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||-1.8|-39.1|
92436543|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.8|||||TWO_SIDED|95.0|-8.7|34.0|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||34.0|-8.7|
92436544|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1|||||TWO_SIDED|95.0|-25.2|8.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||8.7|-25.2|
92436545|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.8|||||TWO_SIDED|95.0|-26.3|7.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||7.7|-26.3|
92436546|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|||||TWO_SIDED|95.0|-24.5|21.1|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12.||21.1|-24.5|
92436547|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.2|||||TWO_SIDED|95.0|-40.5|-1.9|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||-1.9|-40.5|
92436548|NCT00555321|184758362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.9|||||TWO_SIDED|95.0|-41.8|-4.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||-4.3|-41.8|
92436549|NCT04294472|184758371|SUPERIORITY|Cohort 1 vs Placebo||||||0.1866|||||||Log Rank|||||||0.1866
92436550|NCT04294472|184758371|SUPERIORITY|Cohort 2 vs Placebo||||||0.2627|||||||Log Rank|||||||0.2627
92436551|NCT04294472|184758372|SUPERIORITY|Cohort 1 vs Placebo||||||0.0639|||||||Log Rank|||||||0.0639
92436552|NCT04294472|184758372|SUPERIORITY|Cohort 2 vs Placebo||||||0.0508|||||||Log Rank|||||||0.0508
92436553|NCT00563381|184758373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83|||<|0.0001||95.0|0.77|0.9|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.90|0.77|<0.0001
92436554|NCT00563381|184758374|SUPERIORITY_OR_OTHER||Rate ratio (ratio of incidence rates)|0.73|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.66|0.82|||Poisson regression|Poisson regression correcting for overdisperion and adjusted for treatment exposure||Tiotropium vs. Salmeterol||0.82|0.66|<0.0001
92436555|NCT00563381|184758375|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9||||0.0002||95.0|0.85|0.95|||Cochran-Mantel-Haenszel|||Tiotropium versus Salmeterol||0.95|0.85|0.0002
92436556|NCT00563381|184758376|SUPERIORITY_OR_OTHER||Rate ratio (ratio of incidence rates)|0.89|STANDARD_ERROR_OF_MEAN|0.03||0.0017||95.0|0.83|0.96|||Poisson regression|Poisson regression correcting for overdisperion and adjusted for treatment exposure||Tiotropium versus Salmeterol||0.96|0.83|0.0017
92436557|NCT00563381|184758377|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||<|0.0001||95.0|0.61|0.85|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.85|0.61|<0.0001
92436558|NCT00563381|184758378|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77||||0.0005||95.0|0.66|0.89|||Cochran-Mantel-Haenszel|||Tiotropium versus Salmeterol||0.89|0.66|0.0005
92436559|NCT00563381|184758379|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.0242||95.0|0.78|0.98|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.98|0.78|0.0242
92436560|NCT00563381|184758380|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9||||0.0406||95.0|0.82|1.0|||Cochran-Mantel-Haenszel|||Tiotropium versus Salmeterol||1.00|0.82|0.0406
92436561|NCT00563381|184758381|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84|||<|0.0001||95.0|0.78|0.91|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.91|0.78|<0.0001
92436562|NCT00563381|184758382|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||<|0.0001||95.0|0.69|0.85|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.85|0.69|<0.0001
92436563|NCT00563381|184758383|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85|||<|0.0001||95.0|0.78|0.92|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.92|0.78|<0.0001
92436564|NCT00563381|184758384|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||<|0.0001||95.0|0.68|0.86|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.86|0.68|<0.0001
92171162|NCT05107401|184231461|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.37|TWO_SIDED|95.0|-2.6|0.51|||Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference between study arms from baseline to the three-month follow-up.|Separate multilevel linear mixed models were calculated for the overall stigma score and then for each of the stigma subscale scores. The multilevel linear mixed models incorporated random fixed effects for time (categorical), study arm, and their interaction and included intercept as a random effect. Models were also adjusted for pre-intervention stigma levels, whether the participant had submitted content to the study contest, prior HIV testing, age, sex at birth, and sexual orientation.||0.51|-2.60|0.37
92171163|NCT05107401|184231462|SUPERIORITY||Risk Ratio (RR)|1.13||||0.099|TWO_SIDED|95.0|0.98|1.32|||Regression, Logistic||The statistical values presented are the relative risk between study arms at the three-month follow-up.|We used a generalized linear model using a binomial distribution to examine whether the intervention was associated with increased HIV self-testing uptake in the follow-up period. The model was adjusted for history of HIV testing (pre-intervention testing and testing prior to the study), whether the participant had submitted content to the JasSpark contest, and if the participant had a main intimate partner (e.g., girlfriend/boyfriend, spouse).||1.32|0.98|0.099
92436565|NCT00563381|184758385|SUPERIORITY_OR_OTHER||Rate ratio (ratio of incidence rates)|0.82|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.76|0.9|||Poisson regression|Poisson regression correcting for overdispersion and adjusted for treatment exposure||Tiotropium versus Salmeterol||0.90|0.76|<0.0001
92436566|NCT00563381|184758386|SUPERIORITY_OR_OTHER||Rate ratio (ratio of incidence rates)|0.9|STANDARD_ERROR_OF_MEAN|0.03||0.0036||95.0|0.84|0.97|||Poisson regression|Poisson regression correcting for overdisperion and adjusted for treatment exposure||Tiotropium versus Salmeterol||0.97|0.84|0.0036
92436567|NCT00563381|184758387|SUPERIORITY_OR_OTHER||Rate ratio (ratio of incidence rates)|0.8|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.73|0.88|||Poisson regression|Poisson regression correcting for overdisperion and adjusted for treatment exposure||Tiotropium versus Salmeterol||0.88|0.73|<0.0001
92436568|NCT00563381|184758388|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.6||||0.1035||95.0|-3.53|0.33|||Mixed Effects Repeated Measures Model|Mixed effects repeated measures model (MMRM) (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.33|-3.53|0.1035
92436569|NCT00563381|184758389|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-2.06||||0.0369||95.0|-3.99|-0.12|||Mixed Effects Repeated Measures Model|Mixed effects repeated measures model (MRMM)(fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week).||Tiotropium versus Salmeterol||-0.12|-3.99|0.0369
92436570|NCT00563381|184758390|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-2.07||||0.0362||95.0|-4.0|-0.13|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||-0.13|-4.00|0.0362
92436571|NCT00563381|184758391|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.88||||0.0573||95.0|-3.82|0.06|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.06|-3.82|0.0573
92436572|NCT00563381|184758392|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.1||||0.2641||95.0|-3.04|0.83|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.83|-3.04|0.2641
92436573|NCT00563381|184758393|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.01||||0.3068||95.0|-2.95|0.93|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.93|-2.95|0.3068
92436574|NCT00563381|184758394|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.78||||0.4299||95.0|-2.72|1.16|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||1.16|-2.72|0.4299
92436575|NCT00563381|184758395|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.48||||0.6277||95.0|-2.42|1.46|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||1.46|-2.42|0.6277
92436576|NCT00563381|184758396|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.85||||0.3931||95.0|-2.8|1.1|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||1.10|-2.80|0.3931
92436577|NCT00563381|184758397|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.97||||0.3297||95.0|-2.92|0.98|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.98|-2.92|0.3297
92436578|NCT00563381|184758398|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.3||||0.1904||95.0|-3.25|0.65|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.65|-3.25|0.1904
92436579|NCT00563381|184758399|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.99||||0.3172||95.0|-2.94|0.95|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.95|-2.94|0.3172
92436580|NCT00563381|184758400|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.67||||0.5017||95.0|-2.62|1.28|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||1.28|-2.62|0.5017
92436581|NCT00563381|184758401|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.23||||0.2174||95.0|-3.18|0.72|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.72|-3.18|0.2174
92436582|NCT00563381|184758402|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.1||||0.2682||95.0|-3.05|0.85|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.85|-3.05|0.2682
92436583|NCT00563381|184758403|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.59||||0.552||95.0|-2.55|1.36|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||1.36|-2.55|0.5520
92436584|NCT04044716|184758407|SUPERIORITY|||||||0.048|||||||ANCOVA|age, joint involved in surgery, sex, baseline pain||||||.048
92436585|NCT04044716|184758408|SUPERIORITY|||||||0.29|||||||ANCOVA|adjusted for age, sex, type of surgery (joint), baseline pain||||||0.29
92436586|NCT04044716|184758409|SUPERIORITY|||||||0.64|||||||ANCOVA|adjusted for age, sex, type of surgery (joint), baseline morphine milligram equivalents (MME)||||||0.64
92436587|NCT04044716|184758410|SUPERIORITY|||||||0.86|||||||ANCOVA|adjusted for age, sex, type of surgery (joint), baseline MME, and time in hospital||||||0.86
92436588|NCT04044716|184758411|SUPERIORITY|||||||0.661||||||adjusted for age, type of surgery (joint), and sex|ANCOVA|||||||0.661
92436589|NCT02480439|184758434|SUPERIORITY_OR_OTHER||Point Estimate|0.966|||||TWO_SIDED|90.0|0.8747|1.0668|||||Relative Bioavailability A/B. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0668|0.8747|
92436590|NCT02480439|184758434|SUPERIORITY_OR_OTHER||Point Estimate|0.9223|||||TWO_SIDED|90.0|0.8352|1.0185|||||Relative Bioavailability B/C. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0185|0.8352|
92436591|NCT02480439|184758435|SUPERIORITY_OR_OTHER||Point Estimate|0.9998|||||TWO_SIDED|90.0|0.954|1.0477|||||Relative Bioavailability A/B. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0477|0.9540|
92436592|NCT02480439|184758435|SUPERIORITY_OR_OTHER||Point Estimate|1.0149|||||TWO_SIDED|90.0|0.9685|1.0636|||||Relative Bioavailability B/C. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0636|0.9685|
92436593|NCT02480439|184758436|SUPERIORITY_OR_OTHER||Point Estimate|0.9992|||||TWO_SIDED|90.0|0.9541|1.0464|||||Relative Bioavailability A/B. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0464|0.9541|
92436594|NCT02480439|184758436|SUPERIORITY_OR_OTHER||Point Estimate|1.0134|||||TWO_SIDED|90.0|0.9676|1.0612|||||Relative Bioavailability B/C. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0612|0.9676|
92436595|NCT00996307|184758450|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided confidence intervals (CIs) were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|4.06|||||TWO_SIDED|95.0|2.55|6.46|||||Ratio of GMTs at Day 22|||6.46|2.55|
92436596|NCT00996307|184758450|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|2.25|||||TWO_SIDED|95.0|1.42|3.56|||||Ratio of GMTs at Day 22|||3.56|1.42|
92436597|NCT00996307|184758450|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|4.49|||||TWO_SIDED|95.0|2.8|7.19|||||Ratio of GMTs at Day 22|||7.19|2.8|
92436598|NCT00996307|184758450|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|2.49|||||TWO_SIDED|95.0|1.56|3.96|||||Ratio of GMTs at Day 22|||3.96|1.56|
92436599|NCT00996307|184758450|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|8.01|||||TWO_SIDED|95.0|5.52|12.0|||||Ratio of GMTs at Day 43|||12|5.52|
92436600|NCT00996307|184758450|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|4.25|||||TWO_SIDED|95.0|2.94|6.15|||||Ratio of GMTs at Day 43|||6.15|2.94|
92436601|NCT00996307|184758450|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|7.81|||||TWO_SIDED|95.0|5.36|11.0|||||Ratio of GMTs at Day 43|||11|5.36|
92436602|NCT00996307|184758450|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratios of GMTs|4.15|||||TWO_SIDED|95.0|2.86|6.02|||||Ratio of GMTs at Day 43|||6.02|2.86|
92436603|NCT00996307|184758450|SUPERIORITY_OR_OTHER||Ratio of GMTs|3.66|||||TWO_SIDED|95.0|2.37|5.65||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 22||5.65|2.37|
92436604|NCT00996307|184758450|SUPERIORITY_OR_OTHER||Ratio of GMTs|2.21|||||TWO_SIDED|95.0|1.43|3.4||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 22.||3.4|1.43|
92436605|NCT00996307|184758450|SUPERIORITY_OR_OTHER||Ratio of GMTs|4.42|||||TWO_SIDED|95.0|2.85|6.86||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 22.||6.86|2.85|
92436606|NCT00996307|184758450|SUPERIORITY_OR_OTHER||Ratio of GMTs|2.67|||||TWO_SIDED|95.0|1.72|4.13||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 22.||4.13|1.72|
92436607|NCT00996307|184758450|SUPERIORITY_OR_OTHER||Ratio of GMTs|7.82|||||TWO_SIDED|95.0|5.54|11.0||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 43.||11|5.54|
92436608|NCT00996307|184758450|SUPERIORITY_OR_OTHER||Ratio of GMTs|4.55|||||TWO_SIDED|95.0|3.23|6.42||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines||6.42|3.23|
92436609|NCT00996307|184758450|SUPERIORITY_OR_OTHER||Ratio of GMTs|7.52|||||TWO_SIDED|95.0|5.3|11.0||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 43.||11|5.3|
92436610|NCT00996307|184758450|SUPERIORITY_OR_OTHER||Ratio of GMTs|4.37|||||TWO_SIDED|95.0|3.09|6.19||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 43.||6.19|3.09|
92436611|NCT00824512|184758543|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9133|TWO_SIDED|95.0||||No multiplicity adjustment performed for this study and all statistical tests are two-sided at the 5% significance level.|Non parametric ANCOVA on the rank test|The baseline value was used as a covariate.||||||0.9133
92436612|NCT01209260|184758565|SUPERIORITY_OR_OTHER|||||||0.005||||||Statistical tests were 2-sided and considered significant if they yielded a p\<0.05|t-test, 2 sided|||Sample size of 72 was targeted to achieve 80% power to detect a 5-minute reduction in transseptal access procedure time (assuming a standard deviation of 7.5 minutes), using a 2-sided alpha of 0.05, with the primary analysis done on an intention-to-treat basis.||||0.005
92436613|NCT01209260|184758567|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical tests were 2-sided and considered significant if they yielded a p\<0.05|Chi-squared|||||||<0.001
92436614|NCT01209260|184758568|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical tests were 2-sided and considered significant if they yielded a p\<0.05.|Chi-squared|||||||<0.001
92436615|NCT01648205|184758588|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_DEVIATION|26.8||0.7958|TWO_SIDED|95.0|-14.1|11.0|||t-test, 2 sided|Paired t-test was used||||11.0|-14.1|0.7958
92436616|NCT01648205|184758589|SUPERIORITY||Median Difference (Final Values)|8.4|STANDARD_DEVIATION|35.9||0.3369|TWO_SIDED|95.0|-9.5|26.2|||t-test, 2 sided|Paired t-test was used||||26.2|-9.5|0.3369
92436617|NCT02622321|184758590|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.13|||<|0.0001|TWO_SIDED|95.0|0.057|0.277||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Stratified Wald Test|||Analysis was performed using an NB regression model, which accounted for different follow-up times, with the participant's number of bleeds as a function of randomization and the time that each participant stays in the study included as an offset in the model. The model also included the number of bleeds (less than \[\<\] 9 or greater than or equal to \[\>/=\] 9) in the last 24 weeks prior to study entry as a stratification factor in the randomization.||0.277|0.057|<0.0001
92436618|NCT02622321|184758591|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.2|||<|0.0001|TWO_SIDED|95.0|0.102|0.375||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Stratified Wald Test|||Analysis was performed using an NB regression model, which accounted for different follow-up times, with the participant's number of bleeds as a function of randomization and the time that each participant stays in the study included as an offset in the model. The model also included the number of bleeds (\<9 or \>/=9) in the last 24 weeks prior to study entry as a stratification factor in the randomization.||0.375|0.102|<0.0001
92436619|NCT02622321|184758592|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.11|||<|0.0001|TWO_SIDED|95.0|0.055|0.218||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Non-Stratified Wald Test|||This intra-participant comparison of ABR for all bleeds was performed using an NB regression model.||0.218|0.055|<0.0001
92436620|NCT02622321|184758593|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.08|||<|0.0001|TWO_SIDED|95.0|0.031|0.198||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Non-Stratified Wald Test|||This intra-participant comparison of ABR for treated bleeds was performed using an NB regression model.||0.198|0.031|<0.0001
92446611|NCT00533949|184780269|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.22|TWO_SIDED|95.0|0.64|1.1|||Gray's test||Reference level = cetuximab|Local-regional failure was estimated by the cumulative incidence method. Comparisons by RT level and by cetuximab assignment are performed separately and tested with a two-sided significance level of 0.05 for each comparison.||1.10|0.64|0.22
92446612|NCT00533949|184780270|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Chi-squared|||Esophagitis: Only those toxicities reported as possibly, probably, or definitely related to treatment were considered. The worst grade of esophagitis and the worst grade of pneumonitis at any time were classified by binary groupings of \< grade 3 and \>= grade 3. Comparisons were made using a two-sided chi-square test with a significance level of 0.05.||||<0.0001
92446613|NCT00533949|184780270|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2533|||||||Chi-squared|||PNEUMONITIS: Only those toxicities reported as possibly, probably, or definitely related to treatment were considered. The worst grade of esophagitis and the worst grade of pneumonitis at any time were classified by binary groupings of \< grade 3 and \>= grade 3. Comparisons were made using a two-sided chi-square test with a significance level of 0.05.||||0.2533
92446614|NCT00533949|184780271|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52|||||||Chi-squared|||Only those toxicities reported as possibly, probably, or definitely related to treatment were considered. The worst grade of of toxicity at any time was classified by a binary grouping of \< grade 3 and \>= grade 3. Comparisons were made using a two-sided chi-square test.||||0.52
92446615|NCT00533949|184780273|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0233|||||||Cochran-Mantel-Haenszel|||FACT-TOI-LCS was assessed and changes from baseline to 3 months calculated and grouped using a 2 point decline as the threshold. Comparisons of decline vs no decline by RT level were from a Cochran-Mantel-Haenszel test and controlling for cetuximab assignment using a two-side significance level of 0.05.||||0.0233
92446616|NCT00533949|184780274|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|Two-sided significance level = 0.05||||||0.92
92446617|NCT00533949|184780275|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|Two-sided significance level = 0.05||||||0.19
92446618|NCT00533949|184780276|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.78|TWO_SIDED|95.0|0.68|1.33|||Regression, Cox||Reference level = EGFR H-Score \< 200|Univariate model of overall survival by EGFR group||1.33|0.68|0.78
92446619|NCT00533949|184780276|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.61|TWO_SIDED|95.0|0.74|1.65|||Regression, Cox||Reference level = EGFR H-Score \< 200|Univariate model of time to local-regional failure by EGFR group||1.65|0.74|0.61
92446620|NCT00533949|184780277|SUPERIORITY|||||||0.02||||||Two-sided significance level = 0.05|Chi-squared|||||||0.02
92239881|NCT00109733|184383694|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||"The null hypothesis (% change in lean body mass (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in lean body mass (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||<0.001
92436621|NCT02622321|184758594|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.11||||0.005|TWO_SIDED|95.0|0.025|0.52||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Stratified Wald Test|||Analysis was performed using an NB regression model, which accounted for different follow-up times, with the participant's number of bleeds as a function of randomization and the time that each participant stays in the study included as an offset in the model. The model also included the number of bleeds (\<9 or \>/=9) in the last 24 weeks prior to study entry as a stratification factor in the randomization.||0.520|0.025|0.0050
92436622|NCT02622321|184758595|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.23|||<|0.0001|TWO_SIDED|95.0|0.119|0.435||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Non-Stratified Wald Test|||This intra-participant comparison of ABR for all bleeds was performed using an NB regression model.||0.435|0.119|<0.0001
92436623|NCT02622321|184758596|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.21||||0.0003|TWO_SIDED|95.0|0.089|0.486||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Non-Stratified Wald Test|||This intra-participant comparison of ABR for treated bleeds was performed using an NB regression model.||0.486|0.089|0.0003
92436624|NCT02622321|184758597|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.08|||<|0.0001|TWO_SIDED|95.0|0.037|0.154||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Stratified Wald Test|||Analysis was performed using an NB regression model, which accounted for different follow-up times, with the participant's number of bleeds as a function of randomization and the time that each participant stays in the study included as an offset in the model. The model also included the number of bleeds (\<9 or \>/=9) in the last 24 weeks prior to study entry as a stratification factor in the randomization.||0.154|0.037|<0.0001
92436625|NCT02622321|184758598|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.05||||0.0002|TWO_SIDED|95.0|0.009|0.227||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Stratified Wald Test|||Analysis was performed using an NB regression model, which accounted for different follow-up times, with the participant's number of bleeds as a function of randomization and the time that each participant stays in the study included as an offset in the model. The model also included the number of bleeds (\<9 or \>/=9) in the last 24 weeks prior to study entry as a stratification factor in the randomization.||0.227|0.009|0.0002
92436626|NCT02622321|184758602|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|21.55||||0.0029|TWO_SIDED|95.0|7.89|35.22||Statistical significance was controlled at a two-sided alpha level of 0.05.|ANCOVA|||Actual number of participants included for inferential statistics in Arm A is 25. Means adjusted for covariates: baseline score, treatment group and treatment by baseline interaction arm. Analysis was performed using Analysis of Covariance (ANCOVA).||35.22|7.89|0.0029
92436627|NCT02622321|184758603|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|14.01||||0.0019|TWO_SIDED|95.0|5.56|22.45||Statistical significance was controlled at a two-sided alpha level of 0.05.|ANCOVA|||Actual number of participants included for inferential statistics in Arm A is 25. Means adjusted for covariates: baseline score, treatment group and treatment by baseline interaction arm.||22.45|5.56|0.0019
92436628|NCT02622321|184758604|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-9.72||||0.0171|TWO_SIDED|95.0|-17.62|-1.82||Statistical significance was controlled at a two-sided alpha level of 0.05.|ANCOVA|||Actual number of participants included for inferential statistics in Arm A is 29. Means adjusted for covariates: baseline score, treatment group and treatment by baseline interaction arm.||-1.82|-17.62|0.0171
92436629|NCT02622321|184758605|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.16||||0.0014|TWO_SIDED|95.0|-0.25|-0.07||Statistical significance was controlled at a two-sided alpha level of 0.05.|ANCOVA|||Actual number of participants included for inferential statistics in Arm A is 29. Means adjusted for covariates: baseline score, treatment group and treatment by baseline interaction arm.||-0.07|-0.25|0.0014
92171164|NCT05107401|184231463|SUPERIORITY||Mean Difference (Final Values)|-5.09||||0.012|TWO_SIDED|95.0|-8.59|-1.58||To account for multiple comparisons arising from analyses of moderating effects, the false discovery rate (FDR) was controlled using Benjamini-Hochberg procedures in a tiered approach.|Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference in females between study arms from baseline to the three-month follow-up.|Sex was marginally significant in the initial multilevel mixed models, therefore, we examined potential moderation effects of sex on stigma changes. Fixed effects corresponding to the two-way interactions involving sex, time, and/or arm, as well as the three-way interaction of sex, time, and arm, were added to the models.||-1.58|-8.59|0.012
92436630|NCT01958008|184758624|SUPERIORITY_OR_OTHER||Slope|1.2674|STANDARD_ERROR_OF_MEAN|0.1019|||TWO_SIDED|95.0|1.0636|1.4713|||Regression, Linear|Power model that describes the functional relationship between the dose and pharmacokinetic endpoint Cmax,ss||Dose proportionality was analysed over the dose range 10 to 50 mg for plasma PK parameters based on a power model||1.4713|1.0636|
92436631|NCT01958008|184758625|SUPERIORITY_OR_OTHER||Slope|1.2139|STANDARD_ERROR_OF_MEAN|0.081|||TWO_SIDED|95.0|1.0519|1.3759|||Regression, Linear|Power model that describes the functional relationship between the dose and pharmacokinetic endpoint AUC tau,ss||Dose proportionality was analysed over the dose range 10 to 50 mg for plasma PK parameters based on a power model||1.3759|1.0519|
92436632|NCT02260921|184758634|SUPERIORITY||Difference in Least Squares (LS) Means|-7.53||||0.0002|TWO_SIDED|95.0|-11.48|-3.58||P-values are obtained by fitting an ANCOVA model with treatment as factor and WOMAC baseline pain score as a covariate.|ANCOVA||LS estimates are obtained by fitting an ANCOVA model with treatment as factor and WOMAC baseline pain score as a covariate.|||-3.58|-11.48|0.0002
92239882|NCT00109733|184383695|SUPERIORITY_OR_OTHER|||||||0.653|||||||ANOVA|||"The null hypothesis (% change in total body fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in total body fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.653
92436633|NCT00850564|184758719|SUPERIORITY_OR_OTHER||||||<|0.005||95.0|||||Paired t-test|||Paired t-test comparing baseline and 2 week mean overnight growth hormone||||<0.005
92436634|NCT00850564|184758720|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Paired t-test|||Paired t-test comparing insulin stimulated glucose uptake (M) between baseline and 2 week visits.||||0.61
92436635|NCT01804075|184758753|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.6
92436636|NCT04847557|184758758|SUPERIORITY||Median Difference (Net)|6.9|||<|0.001|TWO_SIDED|95.0|3.3|10.6|||Stratified Wilcoxon|Stratified Wilcoxon test used to control for stratification factors of HF decompensation within 12 months of screening,diagnosed T2DM \& baseline BMI|The Hodges-Lehmann estimate for the median difference and 95% CIs was reported.|||10.6|3.3|<0.001
92436637|NCT04847557|184758759|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.026|TWO_SIDED|95.0|0.41|0.95|||Regression, Cox|||Heart Failure Outcomes||0.95|0.41|0.026
92436638|NCT04847557|184758760|SUPERIORITY||Median Difference (Net)|18.3|||<|0.001|TWO_SIDED|95.0|9.9|26.7|||Stratified Wilcoxon|Stratified Wilcoxon test used to control for stratification factors of HF decompensation within 12 months of screening,diagnosed T2DM \& baseline BMI|The Hodges-Lehmann estimate for the median difference and 95% CIs was reported.|||26.7|9.9|<0.001
92436639|NCT04847557|184758761|SUPERIORITY||LS Mean Difference|-11.62|||<|0.001|TWO_SIDED|95.0|-12.85|-10.38|||ANCOVA|||||-10.38|-12.85|<0.001
92436640|NCT04847557|184758762|SUPERIORITY||LS Mean Difference|-34.91|||<|0.001|TWO_SIDED|95.0|-45.6|-22.17|||ANCOVA|||||-22.17|-45.60|<0.001
92436641|NCT04847557|184758763|SUPERIORITY||Win Ratio|1.63|||||TWO_SIDED|95.0|1.17|2.28|||||The win ratio was reported as the measure of treatment effect based on the principle that each participant is compared with every other participant within each stratum in a pair-wise manner that proceeds in a hierarchical fashion.|||2.28|1.17|
92436642|NCT04847557|184758764|SUPERIORITY||Odds Ratio (OR)|2.28|||||TWO_SIDED|95.0|1.53|3.4||||||||3.40|1.53|
92436643|NCT04847557|184758765|SUPERIORITY||Hazard Ratio (HR)|1.245|||||TWO_SIDED|95.0|0.633|2.452||||||||2.452|0.633|
92436644|NCT04847557|184758766|SUPERIORITY||Hazard Ratio (HR)|0.539|||||TWO_SIDED|95.0|0.342|0.85||||||||0.850|0.342|
92436645|NCT04847557|184758767|SUPERIORITY||Rate Ratio|0.72|||||TWO_SIDED|95.0|0.46|1.14||||||||1.14|0.46|
92436646|NCT04847557|184758768|SUPERIORITY||Rate Ratio|0.62|||||TWO_SIDED|95.0|0.37|1.05||||||||1.05|0.37|
92436647|NCT01325584|184758770|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||.07
92436648|NCT01325584|184758772|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||.53
92436649|NCT01325584|184758773|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||.48
92436650|NCT02345850|184758804|SUPERIORITY||Hazard Ratio (HR)|0.805||||0.2368|TWO_SIDED|95.0|0.562|1.154||The primary pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The primary null hypothesis of the study is that there is no difference of the CRFS hazard ratio between CD34 select graft vs. Tac/MTX Control. The data in primary outcome table provides point estimates at specific time points (1 year and 2 years post randomization). The statistics in this session provides comparisons between different arms for the entire period of the study.||1.154|0.562|0.2368
92436651|NCT02345850|184758804|SUPERIORITY||Hazard Ratio (HR)|0.864||||0.4134|TWO_SIDED|95.0|0.609|1.228||The primary pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The primary null hypothesis of the study is that there is no difference of the CRFS hazard ratio between Post-Transplant Cyclophosphamide vs. Tac/MTX Control. The data in primary outcome table provides point estimates. The statistics in this session provides comparisons between different arms for the entire period of the study.||1.228|0.609|0.4134
92436652|NCT02345850|184758804|SUPERIORITY||Hazard Ratio (HR)|0.933||||0.7166|TWO_SIDED|95.0|0.643|1.355||The primary pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The primary null hypothesis of the study is that there is no difference of the CRFS hazard ratio between CD34 select graft vs. Post-Transplant Cyclophosphamide. The data in primary outcome table provides point estimates. The statistics in this session provides comparisons between different arms for the entire period of the study.||1.355|0.643|0.7166
92436653|NCT02345850|184758804|SUPERIORITY|||||||0.386||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the CRFS hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk. The data in primary outcome table provides point estimates. The statistics in this session provides comparisons between different arms for the entire period of the study.||||0.386
92436654|NCT02345850|184758804|SUPERIORITY|||||||0.461||||||A Bonferroni adjusted significance level of 0.05/3=0.0167 is used for each of three interaction tests to account for multiple testing.|Cox proportional hazards regression|||Subgroup analyses are conducted for CRFS according to disease, disease risk and age. Interaction tests between treatment group and subgroup are conducted within a Cox proportional hazards regression model with treatment, subgroup, and a treatment\*subgroup interaction term. The null hypothesis is that there is no Interaction between treatment group and disease risk (Low/Intermediate vs. High) for CRFS.||||0.461
92436655|NCT02345850|184758804|SUPERIORITY|||||||0.115||||||Cox proportional hazards regression|Cox proportional hazards regression|||Subgroup analyses are conducted for CRFS according to disease, disease risk and age. Interaction tests between treatment group and subgroup are conducted within a Cox proportional hazards regression model with treatment, subgroup, and a treatment\*subgroup interaction term. The null hypothesis is that there is no Interaction between treatment group and Age (\<=50 vs. \>50) for CRFS.||||0.115
92446621|NCT00533949|184780278|OTHER||Cox Proportional Hazard|1.001||||0.06|TWO_SIDED|95.0|1.0|1.002||Two-sided significance level = 0.05|Regression, Cox||Corresponding to a one unit increase in GTV|Univariate model with GTV as a continuous variable||1.002|1.000|0.06
92436656|NCT02345850|184758804|SUPERIORITY|||||||0.227||||||A Bonferroni adjusted significance level of 0.05/3=0.0167 is used for each of three interaction tests to account for multiple testing.|Cox proportional hazards regression|||Subgroup analyses are conducted for CRFS according to disease, disease risk and age. Interaction tests between treatment group and subgroup are conducted within a Cox proportional hazards regression model with treatment, subgroup, and a treatment\*subgroup interaction term. The null hypothesis is that there is no Interaction between treatment group and Disease (AML vs. ALL vs. MDS) for CRFS.||||0.227
92436657|NCT02345850|184758805|SUPERIORITY||Hazard Ratio (HR)|1.744||||0.0197|TWO_SIDED|95.0|1.086|2.8||The OS pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The null hypothesis is that there is no difference of the OS hazard ratio between CD34 select graft vs. Tac/MTX Control.||2.800|1.086|0.0197
92436658|NCT02345850|184758805|SUPERIORITY||Hazard Ratio (HR)|1.016||||0.9525|TWO_SIDED|95.0|0.599|1.724||The OS pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The null hypothesis is that there is no difference of the OS hazard ratio between Post-Transplant Cyclophosphamide vs. Tac/MTX Control.||1.724|0.599|0.9525
92436659|NCT02345850|184758805|SUPERIORITY||Hazard Ratio (HR)|1.774||||0.0185|TWO_SIDED|95.0|1.093|2.877||The OS pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The null hypothesis is that there is no difference of the OS hazard ratio between CD34 select graft vs. Post-Transplant Cyclophosphamide.||2.877|1.093|0.0185
92436660|NCT02345850|184758805|SUPERIORITY|||||||0.026||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the OS hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.026
92436661|NCT02345850|184758806|SUPERIORITY|||||||0.029||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Log Rank|||The null hypothesis is that there is no difference of Relapse-Free Survival between the treatment groups.||||0.029
92436662|NCT02345850|184758806|SUPERIORITY|||||||0.145||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the RFS hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.145
92436663|NCT02345850|184758807|SUPERIORITY|||||||0.02||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Transplant-Related Mortality between the treatment groups.||||0.020
92436664|NCT02345850|184758807|SUPERIORITY|||||||0.04||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the TRM hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.040
92436665|NCT02345850|184758808|SUPERIORITY|||||||0.2389||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||The null hypothesis is that there is no difference of immunosuppression-free survival at 1-year post-transplant between the treatment groups.||||0.2389
92436666|NCT02345850|184758808|SUPERIORITY||||||<|0.0001|||||||Cohen's Kappa|||The null hypothesis is that there is no agreement between CRFS and immunosuppression-free survival at 1-year post-transplant.||||<0.0001
92436667|NCT02345850|184758809|SUPERIORITY|||||||0.076||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Disease Relapse between the treatment groups.||||0.076
92436668|NCT02345850|184758809|SUPERIORITY|||||||0.106||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the Disease Relapse hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.106
92436669|NCT02345850|184758810|SUPERIORITY|||||||0.0764||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Neutrophil Engraftment post-transplantation between the treatment groups.||||0.0764
92436670|NCT02345850|184758811|SUPERIORITY|||||||0.0001||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Platelet recovery post-transplantation between the treatment groups.||||0.0001
92436671|NCT02345850|184758813|SUPERIORITY|||||||0.1478|||||||Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Secondary graft failure post-transplantation between the treatment groups.||||0.1478
92436672|NCT02345850|184758814|SUPERIORITY|||||||0.0026||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of grade II-IV acute GVHD post-transplantation between the treatment groups.||||0.0026
92436673|NCT02345850|184758814|SUPERIORITY|||||||0.0369||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of grade III-IV acute GVHD post-transplantation between the treatment groups.||||0.0369
92436674|NCT02345850|184758814|SUPERIORITY|||||||0.002||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the grade II-IV acute GVHD hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.002
92436675|NCT02345850|184758814|SUPERIORITY|||||||0.046||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the grade III-IV acute GVHD hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.046
92436676|NCT02345850|184758816|SUPERIORITY|||||||0.0024||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of chronic GVHD post-transplantation between the treatment groups.||||0.0024
92239883|NCT00109733|184383695|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANOVA|||"The null hypothesis (% change in total body fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in total body fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.002
92436677|NCT02345850|184758816|SUPERIORITY|||||||0.005||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the chronic GVHD hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.005
92436678|NCT02345850|184758817|SUPERIORITY|||||||0.229||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Log Rank|||The null hypothesis is that there is no difference of Chronic GVHD-free Survival post-transplantation between the treatment groups.||||0.229
92436679|NCT02345850|184758819|SUPERIORITY|||||||0.0006||||||Superiority - Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Grades II-III infection post-transplantation between the treatment groups.||||0.0006
92436680|NCT02345850|184758819|SUPERIORITY|||||||0.0145||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Grades III infection post-transplantation between the treatment groups.||||0.0145
92436681|NCT02392247|184758834|SUPERIORITY_OR_OTHER||Slope|0.34|||<|0.001|TWO_SIDED|95.0|0.26|0.44||This study was not designed to determine which method is 'superior'.Statistical significance refers to deviation of slope for perfect agreement (=1) between paired measurements to quantify strength of association .|Deming Regression||Slope measured deviation from 1:1 concordance between SEER and TEG with TEG measurement as denominator. Confidence intervals were obtained by bootstrapping 1000 times on the parameters estimates for the slopes, intervals and correlation coefficients|A cohort of 50 patients was estimated to capture at least 7 'bleeding' patients with a likelihood of 95%, assuming a 25% incidence of bleeding, and standard deviation of 20%, to determine maximum clot stiffness within +/- 10% of the mean. This was a descriptive and method-comparison study. Method comparisons were performed according to Clinical Laboratory Science Institute (CLSI) guidelines (Deming regression on paired measurements)||0.44|0.26|<0.001
92436682|NCT02392247|184758835|SUPERIORITY_OR_OTHER||Slope|3.1|||<|0.001|TWO_SIDED|95.0|2.9|3.4||This study was not designed to determine which method is 'superior'. Statistical significance refers to deviation of slope for perfect agreement (=1) between paired measurements to quantify strength of association .|Deming regression|Confidence intervals were obtained by bootstrapping 1000 times on the parameters estimates for the slopes, intervals and correlation coefficients|Slope measured deviation from 1:1 concordance between SEER and TEG with TEG as denominator. Confidence intervals were obtained by bootstrapping 1000 times on the parameters estimates for the slopes, intervals and correlation coefficients|A cohort of 50 patients was estimated to capture at least 7 'bleeding' patients with a likelihood of 95%, assuming a 25% incidence of bleeding, and standard deviation of 20%, to determine maximum clot stiffness within +/- 10% of the mean. This was a descriptive and method-comparison study. Method comparisons were performed according to Clinical Laboratory Science Institute (CLSI) guidelines (Deming regression on paired measurements )||3.4|2.9|<0.001
92436683|NCT02801942|184758867|OTHER||Mean Difference (Final Values)|2.31|STANDARD_ERROR_OF_MEAN|3.307|||TWO_SIDED|95.0|-4.59|9.21|||||The mean difference in circulating B lymphocytes (Healthy participants versus NOT1D participants) in blood has been presented.|||9.21|-4.59|
92436684|NCT02801942|184758867|OTHER||Mean Difference (Final Values)|3.54|STANDARD_ERROR_OF_MEAN|2.398|||TWO_SIDED|95.0|-1.46|8.54|||||The mean difference in Classical B Lymphocytes (Healthy participants versus NOT1D participants) in blood has been presented.|||8.54|-1.46|
92436685|NCT02801942|184758867|OTHER||Mean Difference (Final Values)|-3.01|STANDARD_ERROR_OF_MEAN|1.854|||TWO_SIDED|95.0|-6.87|0.86|||||The mean difference in Double Negative B Lymphocytes (Healthy participants versus NOT1D participants) in blood has been presented.|||0.86|-6.87|
92436686|NCT02801942|184758867|OTHER||Mean Difference (Final Values)|-2.51|STANDARD_ERROR_OF_MEAN|4.482||||95.0|-11.86|6.84|||||The mean difference in Naive B Lymphocytes (Healthy participants versus NOT1D participants) in blood has been presented.|||6.84|-11.86|
92436687|NCT02801942|184758868|OTHER||Mean Difference (Final Values)|3.38|STANDARD_ERROR_OF_MEAN|2.658|||TWO_SIDED|95.0|-2.22|8.98|||||The mean difference in Circulating B Lymphocytes (Healthy participants versus NOT1D participants) in iLN has been presented.|||8.98|-2.22|
92436688|NCT02801942|184758868|OTHER||Mean Difference (Final Values)|8.59|STANDARD_ERROR_OF_MEAN|5.833|||TWO_SIDED|95.0|-3.72|20.91|||||The mean difference in Classical B Lymphocytes (Healthy participants versus NOT1D participants) in iLN has been presented.|||20.91|-3.72|
92436689|NCT02801942|184758868|OTHER||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|2.347|||TWO_SIDED|95.0|-6.53|3.38|||||The mean difference in Double Negative B Lymphocytes (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.38|-6.53|
92436690|NCT02801942|184758868|OTHER||Mean Difference (Final Values)|-8.31|STANDARD_ERROR_OF_MEAN|5.221|||TWO_SIDED|95.0|-19.32|2.71|||||The mean difference in Naive B Lymphocytes (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.71|-19.32|
92436691|NCT02801942|184758869|OTHER||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|0.873|||TWO_SIDED|95.0|-0.9|2.75|||||The mean difference in B-cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.75|-0.90|
92436692|NCT02801942|184758869|OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.063|||TWO_SIDED|95.0|-0.07|0.19|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.19|-0.07|
92436693|NCT02801942|184758869|OTHER||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|95.0|-3.41|2.84|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) in blood has been presented.|||2.84|-3.41|
92436694|NCT02801942|184758869|OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|-0.1|0.13|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) in blood has been presented.|||0.13|-0.10|
92436695|NCT02801942|184758869|OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.118|||TWO_SIDED|95.0|-0.19|0.31|||||The mean difference in Dendritic cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.31|-0.19|
92436696|NCT02801942|184758869|OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|1.482|||TWO_SIDED|95.0|-3.23|2.96|||||The mean difference in NK cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.96|-3.23|
92436697|NCT02801942|184758870|OTHER||Mean Difference (Final Values)|1.54|STANDARD_ERROR_OF_MEAN|2.231|||TWO_SIDED|95.0|-3.14|6.23|||||The mean difference in B-cells in (Healthy participants versus NOT1D participants) iLN has been presented.|||6.23|-3.14|
92436698|NCT02801942|184758870|OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.25|0.34|||||The mean difference in CD56bright sNK cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.34|-0.25|
92436699|NCT02801942|184758870|OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.253|||TWO_SIDED|95.0|-0.54|0.52|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.52|-0.54|
92436700|NCT02801942|184758870|OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.059|||TWO_SIDED|95.0|-0.15|0.1|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.10|-0.15|
92436701|NCT02801942|184758870|OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.128|||TWO_SIDED|95.0|-0.21|0.34|||||The mean difference in Dendritic cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.34|-0.21|
92436702|NCT02801942|184758870|OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.487|||TWO_SIDED|95.0|-1.1|0.96|||||The mean difference in NK cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.96|-1.10|
92436703|NCT02801942|184758871|OTHER||Mean Difference (Final Values)|1.03|STANDARD_ERROR_OF_MEAN|1.326|||TWO_SIDED|95.0|-1.73|3.8|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.80|-1.73|
92436704|NCT02801942|184758871|OTHER||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|2.324|||TWO_SIDED|95.0|-7.54|2.16|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) in blood has been presented.|||2.16|-7.54|
92279915|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|0.147||||0.2395|TWO_SIDED|95.0|-0.098|0.392||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.392|-0.098|0.2395
92436705|NCT02801942|184758871|OTHER||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.738|||TWO_SIDED|95.0|-1.12|1.95|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) in blood has been presented.|||1.95|-1.12|
92436706|NCT02801942|184758872|OTHER||Mean Difference (Final Values)|6.84|STANDARD_ERROR_OF_MEAN|5.564|||TWO_SIDED|95.0|-4.92|18.6|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||18.60|-4.92|
92436707|NCT02801942|184758872|OTHER||Mean Difference (Final Values)|-7.89|STANDARD_ERROR_OF_MEAN|7.918|||TWO_SIDED|95.0|-24.77|9.0|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) in iLN has been presented.|||9.00|-24.77|
92436708|NCT02801942|184758872|OTHER||Mean Difference (Final Values)|-1.46|STANDARD_ERROR_OF_MEAN|2.379|||TWO_SIDED|95.0|-6.66|3.73|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.73|-6.66|
92436709|NCT02801942|184758873|OTHER||Mean Difference (Final Values)|1.33|STANDARD_ERROR_OF_MEAN|4.558|||TWO_SIDED|95.0|-8.17|10.84|||||The mean difference in myeloid dendritic cells (Healthy participants versus NOT1D participants) in blood has been presented.|||10.84|-8.17|
92436710|NCT02801942|184758873|OTHER||Mean Difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|4.658|||TWO_SIDED|95.0|-11.57|7.86|||||The mean difference in plasmacytoid dendritic cells (Healthy participants versus NOT1D participants) in blood has been presented.|||7.86|-11.57|
92436711|NCT02801942|184758874|OTHER||Mean Difference (Final Values)|12.23|STANDARD_ERROR_OF_MEAN|5.658|||TWO_SIDED|95.0|0.38|24.09|||||The mean difference in myeloid dendritic cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||24.09|0.38|
92436712|NCT02801942|184758874|OTHER||Mean Difference (Final Values)|-10.87|STANDARD_ERROR_OF_MEAN|6.961|||TWO_SIDED|95.0|-25.52|3.78|||||The mean difference in plasmacytoid dendritic cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.78|-25.52|
92436713|NCT02801942|184758877|OTHER||Mean Difference (Final Values)|1.79|STANDARD_ERROR_OF_MEAN|6.329|||TWO_SIDED|95.0|-11.41|14.99|||||The mean difference in CD45RA+ Effector Memory CD8 (Healthy participants versus NOT1D participants) in blood has been presented.|||14.99|-11.41|
92436714|NCT02801942|184758877|OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|2.28|||TWO_SIDED|95.0|-4.6|4.91|||||The mean difference in Central Memory CD8 (Healthy participants versus NOT1D participants) in blood has been presented.|||4.91|-4.60|
92436715|NCT02801942|184758877|OTHER||Mean Difference (Final Values)|4.38|STANDARD_ERROR_OF_MEAN|3.297|||TWO_SIDED|95.0|-2.5|11.26|||||The mean difference in Effector Memory CD8 (Healthy participants versus NOT1D participants) in blood has been presented.|||11.26|-2.50|
92279916|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.036||||0.7729|TWO_SIDED|95.0|-0.284|0.212||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.212|-0.284|0.7729
92436716|NCT02801942|184758877|OTHER||Mean Difference (Final Values)|-6.06|STANDARD_ERROR_OF_MEAN|5.729|||TWO_SIDED|95.0|-18.01|5.89|||||The mean difference in Naive CD8 (Healthy participants versus NOT1D participants) in blood has been presented.|||5.89|-18.01|
92436717|NCT02801942|184758877|OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.305|||TWO_SIDED|95.0|-0.67|0.6|||||The mean difference in Stem Cell Memory-like CD8 (Healthy participants versus NOT1D participants) in blood has been presented.|||0.60|-0.67|
92279917|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|0.079||||0.5824|TWO_SIDED|95.0|-0.205|0.363||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.363|-0.205|0.5824
92436718|NCT02801942|184758878|OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|3.133|||TWO_SIDED|95.0|-5.33|7.73|||||The mean difference in CD45RA+ Effector Memory CD8 (Healthy participants versus NOT1D participants) in iLN has been presented.|||7.73|-5.33|
92436719|NCT02801942|184758878|OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|1.466|||TWO_SIDED|95.0|-3.73|2.41|||||The mean difference in Central Memory CD8 (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.41|-3.73|
92436720|NCT02801942|184758878|OTHER||Mean Difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|2.79|||TWO_SIDED|95.0|-7.67|3.96|||||The mean difference in Effector Memory CD8 (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.96|-7.67|
92436721|NCT02801942|184758878|OTHER||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|6.342|||TWO_SIDED|95.0|-12.54|13.87|||||The mean difference in Naive CD8 (Healthy participants versus NOT1D participants) in iLN has been presented.|||13.87|-12.54|
92436722|NCT02801942|184758878|OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.492|||TWO_SIDED|95.0|-1.71|0.36|||||The mean difference in Stem Cell Memory-like CD8 (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.36|-1.71|
92436723|NCT02801942|184758881|OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.236|||TWO_SIDED|95.0|-0.84|0.16|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.16|-0.84|
92436724|NCT02801942|184758882|OTHER||Mean Difference (Final Values)|-6.21|STANDARD_ERROR_OF_MEAN|4.362|||TWO_SIDED|95.0|-15.37|2.96|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.96|-15.37|
92436725|NCT02801942|184758883|OTHER||Mean Difference (Final Values)|1.03|STANDARD_ERROR_OF_MEAN|1.269|||TWO_SIDED|95.0|-1.61|3.68|||||The mean difference in CD45RA+ Effector Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.68|-1.61|
92436726|NCT02801942|184758883|OTHER||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|3.152|||TWO_SIDED|95.0|-8.12|5.03|||||The mean difference in Central Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||5.03|-8.12|
92436727|NCT02801942|184758883|OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|2.089|||TWO_SIDED|95.0|-4.59|4.13|||||The mean difference in Effector Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||4.13|-4.59|
92436728|NCT02801942|184758883|OTHER||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|3.835|||TWO_SIDED|95.0|-7.08|8.92|||||The mean difference in Naive Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||8.92|-7.08|
92436729|NCT02801942|184758883|OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|95.0|-0.4|0.21|||||The mean difference in Stem Cell Memory-like Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.21|-0.40|
92436730|NCT02801942|184758884|OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.236||||95.0|-0.23|0.75|||||The mean difference in CD45RA+ Effector Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.75|-0.23|
92279918|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|0.028||||0.8466|TWO_SIDED|95.0|-0.256|0.312||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.312|-0.256|0.8466
92436731|NCT02801942|184758884|OTHER||Mean Difference (Final Values)|-1.95|STANDARD_ERROR_OF_MEAN|3.943|||TWO_SIDED|95.0|-10.2|6.29|||||The mean difference in Central Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||6.29|-10.20|
92436732|NCT02801942|184758884|OTHER||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|3.621|||TWO_SIDED|95.0|-5.38|9.69|||||The mean difference in Effector Memory Conv T cells(Healthy participants versus NOT1D participants) in iLN has been presented.|||9.69|-5.38|
92436733|NCT02801942|184758884|OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|4.629|||TWO_SIDED|95.0|-10.47|8.86|||||The mean difference in Naive Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||8.86|-10.47|
92436734|NCT02801942|184758884|OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.268|||TWO_SIDED|95.0|-0.77|0.34|||||The mean difference in Stem cell Memory-like Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.34|-0.77|
92436735|NCT02801942|184758885|OTHER||Mean Difference (Final Values)|-5.09|STANDARD_ERROR_OF_MEAN|2.556|||TWO_SIDED|95.0|-10.42|0.25|||||The mean difference in TFH cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.25|-10.42|
92436736|NCT02801942|184758885|OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.15|0.07|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.07|-0.15|
92436737|NCT02801942|184758885|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|1.428|||TWO_SIDED|95.0|-3.08|2.88|||||The mean difference in TH17 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.88|-3.08|
92436738|NCT02801942|184758885|OTHER||Mean Difference (Final Values)|2.09|STANDARD_ERROR_OF_MEAN|4.294|||TWO_SIDED|95.0|-6.87|11.05|||||The mean difference in TH1 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||11.05|-6.87|
92436739|NCT02801942|184758885|OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|2.382|||TWO_SIDED|95.0|-4.94|5.0|||||The mean difference in TH1 TH17 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||5.00|-4.94|
92436740|NCT02801942|184758885|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|1.112|||TWO_SIDED|95.0|-2.31|2.32|||||The mean difference in TH1 TH17 TH2 T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.32|-2.31|
92436741|NCT02801942|184758885|OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|1.026|||TWO_SIDED|95.0|-2.73|1.55|||||The mean difference in TH1 TH2 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.55|-2.73|
92436742|NCT02801942|184758885|OTHER||Mean Difference (Final Values)|1.57|STANDARD_ERROR_OF_MEAN|1.474|||TWO_SIDED|95.0|-1.51|4.64|||||The mean difference in TH2 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||4.64|-1.51|
92436743|NCT02801942|184758885|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.504|||TWO_SIDED|95.0|-1.05|1.05|||||The mean difference in TH22 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.05|-1.05|
92436744|NCT02801942|184758886|OTHER||Mean Difference (Final Values)|1.54|STANDARD_ERROR_OF_MEAN|3.607|||TWO_SIDED|95.0|-5.99|9.07|||||The mean difference in TFH cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||9.07|-5.99|
92436745|NCT02801942|184758886|OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.855|||TWO_SIDED|95.0|-2.43|1.18|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.18|-2.43|
92436746|NCT02801942|184758886|OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|1.391|||TWO_SIDED|95.0|-2.49|3.31|||||The mean difference in TH17 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.31|-2.49|
92436747|NCT02801942|184758886|OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|2.824|||TWO_SIDED|95.0|-9.39|2.39|||||The mean difference in TH1 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.39|-9.39|
92436748|NCT02801942|184758886|OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.738|||TWO_SIDED|95.0|-1.29|1.78|||||The mean difference in TH1 TH17 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.78|-1.29|
92436749|NCT02801942|184758886|OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.544|||TWO_SIDED|95.0|-0.73|1.54|||||The mean difference in TH1 TH17 TH2 T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.54|-0.73|
92436750|NCT02801942|184758886|OTHER||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|1.246|||TWO_SIDED|95.0|-2.12|3.07|||||The mean difference in TH1 TH2 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.07|-2.12|
92436751|NCT02801942|184758886|OTHER||Mean Difference (Final Values)|3.05|STANDARD_ERROR_OF_MEAN|2.641|||TWO_SIDED|95.0|-2.45|8.55|||||The mean difference in TH2 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||8.55|-2.45|
92436752|NCT02801942|184758886|OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.448|||TWO_SIDED|95.0|-0.92|0.96|||||The mean difference in TH22 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.96|-0.92|
92436753|NCT02801942|184758887|OTHER||Mean Difference (Final Values)|-4.83|STANDARD_ERROR_OF_MEAN|2.82|||TWO_SIDED|95.0|-10.71|1.05|||||The mean difference in TFH cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.05|-10.71|
92436754|NCT02801942|184758887|OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.953|||TWO_SIDED|95.0|-2.82|1.16|||||The mean difference in TH1 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.16|-2.82|
92436755|NCT02801942|184758887|OTHER||Mean Difference (Final Values)|-2.88|STANDARD_ERROR_OF_MEAN|1.536||||95.0|-6.08|0.33|||||The mean difference in TH1 TH17 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.33|-6.08|
92436756|NCT02801942|184758887|OTHER||Mean Difference (Final Values)|1.81|STANDARD_ERROR_OF_MEAN|0.963|||TWO_SIDED|95.0|-0.2|3.81|||||The mean difference in TH1 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.81|-0.20|
92436757|NCT02801942|184758887|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.289|||TWO_SIDED|95.0|-2.99|2.39|||||The mean difference in TH17 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.39|-2.99|
92436758|NCT02801942|184758887|OTHER||Mean Difference (Final Values)|3.38|STANDARD_ERROR_OF_MEAN|1.907|||TWO_SIDED|95.0|-0.59|7.36|||||The mean difference in TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||7.36|-0.59|
92436759|NCT02801942|184758887|OTHER||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|1.413|||TWO_SIDED|95.0|-4.11|1.78|||||The mean difference in TH22 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.78|-4.11|
92436760|NCT02801942|184758888|OTHER||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|2.918|||TWO_SIDED|95.0|-5.6|6.63|||||The mean difference in TFH cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||6.63|-5.60|
92436761|NCT02801942|184758888|OTHER||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|1.842|||TWO_SIDED|95.0|-7.93|-0.26|||||The mean difference in TH1 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||-0.26|-7.93|
92436762|NCT02801942|184758888|OTHER||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|1.209|||TWO_SIDED|95.0|-4.34|1.24|||||The mean difference in TH1 TH17 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.24|-4.34|
92436763|NCT02801942|184758888|OTHER||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|1.725|||TWO_SIDED|95.0|-4.51|2.77|||||The mean difference in TH1 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.77|-4.51|
92436764|NCT02801942|184758888|OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|2.193|||TWO_SIDED|95.0|-5.02|4.09|||||The mean difference in TH17 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||4.09|-5.02|
92436765|NCT02801942|184758888|OTHER||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|3.405|||TWO_SIDED|95.0|-6.52|7.68|||||The mean difference in TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||7.68|-6.52|
92436766|NCT02801942|184758888|OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.811|||TWO_SIDED|95.0|-2.21|1.4|||||The mean difference in TH22 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.40|-2.21|
92436767|NCT02801942|184758889|OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.601|||TWO_SIDED|95.0|-0.86|1.65|||||The mean difference in Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.65|-0.86|
92436768|NCT02801942|184758890|OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.929|||TWO_SIDED|95.0|-2.18|1.7|||||The mean difference in Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.70|-2.18|
92436769|NCT02801942|184758891|OTHER||Mean Difference (Final Values)|0.95|STANDARD_ERROR_OF_MEAN|0.443|||TWO_SIDED|95.0|0.02|1.87|||||The mean difference in CD69+ CD8 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.87|0.02|
92436770|NCT02801942|184758891|OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-2.04|0.38|||||The mean difference in Ki67+ CD8 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.38|-2.04|
92436771|NCT02801942|184758892|OTHER||Mean Difference (Final Values)|-2.77|STANDARD_ERROR_OF_MEAN|4.299|||TWO_SIDED|95.0|-11.81|6.27|||||The mean difference in CD69+ CD8 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||6.27|-11.81|
92436772|NCT02801942|184758892|OTHER||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|1.051|||TWO_SIDED|95.0|-0.04|4.44|||||The mean difference in Ki67+ CD8 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||4.44|-0.04|
92436773|NCT02801942|184758893|OTHER||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|2.214|||TWO_SIDED|95.0|-5.91|3.32|||||The mean difference in CD15s+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.32|-5.91|
92279919|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.118||||0.4192|TWO_SIDED|95.0|-0.405|0.169||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.169|-0.405|0.4192
92436774|NCT02801942|184758893|OTHER||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|0.308|||TWO_SIDED|95.0|0.28|1.57|||||The mean difference in CD69+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.57|0.28|
92436775|NCT02801942|184758893|OTHER||Mean Difference (Final Values)|4.21|STANDARD_ERROR_OF_MEAN|3.017|||TWO_SIDED|95.0|-2.08|10.51|||||The mean difference in Helios+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||10.51|-2.08|
92436776|NCT02801942|184758893|OTHER||Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.985|||TWO_SIDED|95.0|-3.03|1.08|||||The mean difference in Ki67+ T Reg cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.08|-3.03|
92436777|NCT02801942|184758893|OTHER||Mean Difference (Final Values)|-4.86|STANDARD_ERROR_OF_MEAN|3.802|||TWO_SIDED|95.0|-12.8|3.07|||||The mean difference in Memory Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.07|-12.80|
92436778|NCT02801942|184758893|OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|4.733|||TWO_SIDED|95.0|-1.27|18.47|||||The mean difference in Resting Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||18.47|-1.27|
92436779|NCT02801942|184758894|OTHER||Mean Difference (Final Values)|6.53|STANDARD_ERROR_OF_MEAN|4.905||||95.0|-3.78|16.85|||||The mean difference in CD15s+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||16.85|-3.78|
92436780|NCT02801942|184758894|OTHER||Mean Difference (Final Values)|-8.54|STANDARD_ERROR_OF_MEAN|4.595|||TWO_SIDED|95.0|-18.17|1.1|||||The mean difference in CD69+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.10|-18.17|
92436781|NCT02801942|184758894|OTHER||Mean Difference (Final Values)|2.11|STANDARD_ERROR_OF_MEAN|2.519|||TWO_SIDED|95.0|-3.23|7.45|||||The mean difference in Helios+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||7.45|-3.23|
92436782|NCT02801942|184758894|OTHER||Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|2.02|||TWO_SIDED|95.0|-0.98|7.59|||||The mean difference in Ki67+ T Reg cells (Healthy participants versus NOT1D participants) in blood has been presented.|||7.59|-0.98|
92436783|NCT02801942|184758894|OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|4.026|||TWO_SIDED|95.0|-8.23|8.67|||||The mean difference in Memory Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||8.67|-8.23|
92436784|NCT02801942|184758894|OTHER||Mean Difference (Final Values)|8.31|STANDARD_ERROR_OF_MEAN|4.595|||TWO_SIDED|95.0|-1.32|17.95|||||The mean difference in Resting Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||17.95|-1.32|
92279920|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.035||||0.8192|TWO_SIDED|95.0|-0.333|0.264||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.264|-0.333|0.8192
92436785|NCT02801942|184758895|OTHER||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.601|||TWO_SIDED|95.0|-0.94|1.57|||||The mean difference in CD15s+ Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.57|-0.94|
92436786|NCT02801942|184758895|OTHER||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.306|||TWO_SIDED|95.0|0.0|1.28|||||The mean difference in CD69+ Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.28|0.00|
92436787|NCT02801942|184758895|OTHER||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.345|||TWO_SIDED|95.0|-0.33|1.11|||||The mean difference in Helios+ Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.11|-0.33|
92436788|NCT02801942|184758895|OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.78|0.47|||||The mean difference in Ki67+ Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.47|-0.78|
92436789|NCT02801942|184758896|OTHER||Mean Difference (Final Values)|1.78|STANDARD_ERROR_OF_MEAN|0.989|||TWO_SIDED|95.0|-0.3|3.86|||||The mean difference in CD15s+ Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.86|-0.30|
92436790|NCT02801942|184758896|OTHER||Mean Difference (Final Values)|-2.55|STANDARD_ERROR_OF_MEAN|4.716|||TWO_SIDED|95.0|-12.45|7.35|||||The mean difference in CD69+ Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||7.35|-12.45|
92436791|NCT02801942|184758896|OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.957|||TWO_SIDED|95.0|-1.86|2.14|||||The mean difference in Helios+ Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.14|-1.86|
92436792|NCT02801942|184758896|OTHER||Mean Difference (Final Values)|2.74|STANDARD_ERROR_OF_MEAN|0.872|||TWO_SIDED|95.0|0.9|4.58|||||The mean difference in Ki67+ Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||4.58|0.90|
92436793|NCT02801942|184758897|OTHER||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|1.344|||TWO_SIDED|95.0|-2.23|3.38|||||The mean difference in CD15s+ Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.38|-2.23|
92436794|NCT02801942|184758897|OTHER||Mean Difference (Final Values)|0.84|STANDARD_ERROR_OF_MEAN|0.351|||TWO_SIDED|95.0|0.1|1.57|||||The mean difference in CD69+ Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.57|0.10|
92436795|NCT02801942|184758897|OTHER||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.594|||TWO_SIDED|95.0|-0.41|2.07|||||The mean difference in Helios+ Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.07|-0.41|
92436796|NCT02801942|184758897|OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.589|||TWO_SIDED|95.0|-1.54|0.92|||||The mean difference in Ki67+ Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.92|-1.54|
92436797|NCT02801942|184758898|OTHER||Mean Difference (Final Values)|3.01|STANDARD_ERROR_OF_MEAN|1.728|||TWO_SIDED|95.0|-0.62|6.63|||||The mean difference in CD15s+ Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||6.63|-0.62|
92436798|NCT02801942|184758898|OTHER||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|4.392|||TWO_SIDED|95.0|-11.33|7.21|||||The mean difference in CD69+ Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||7.21|-11.33|
92436799|NCT02801942|184758898|OTHER||Mean Difference (Final Values)|1.28|STANDARD_ERROR_OF_MEAN|2.042|||TWO_SIDED|95.0|-14.56|17.13|||||The mean difference in Helios+ Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||17.13|-14.56|
92436800|NCT02801942|184758898|OTHER||Mean Difference (Final Values)|2.14|STANDARD_ERROR_OF_MEAN|0.843|||TWO_SIDED|95.0|0.36|3.92|||||The mean difference in Ki67+ Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.92|0.36|
92436801|NCT02801942|184758899|OTHER||Mean Difference (Final Values)|2.29|STANDARD_ERROR_OF_MEAN|3.097|||TWO_SIDED|95.0|-4.24|8.83|||||The mean difference in Circulating B Lymphocytes (Healthy participants versus NOT1D participants) by FNA method has been presented.|||8.83|-4.24|
92436802|NCT02801942|184758899|OTHER||Mean Difference (Final Values)|4.46|STANDARD_ERROR_OF_MEAN|2.334|||TWO_SIDED|95.0|-0.47|9.39|||||The mean difference in Circulating B Lymphocytes (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||9.39|-0.47|
92436803|NCT02801942|184758899|OTHER||Mean Difference (Final Values)|11.54|STANDARD_ERROR_OF_MEAN|7.693|||TWO_SIDED|95.0|-5.24|28.32|||||The mean difference in Classical B Lymphocytes (Healthy participants versus NOT1D participants) by FNA method has been presented.|||28.32|-5.24|
92171165|NCT05107401|184231463|SUPERIORITY||Mean Difference (Final Values)|1.58||||0.56|TWO_SIDED|95.0|-2.26|5.42||To account for multiple comparisons arising from analyses of moderating effects, the false discovery rate (FDR) was controlled using Benjamini-Hochberg procedures in a tiered approach.|Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference in males between study arms from baseline to the three-month follow-up.|Sex was marginally significant in the initial multilevel mixed models, therefore, we examined potential moderation effects of sex on stigma changes. Fixed effects corresponding to the two-way interactions involving sex, time, and/or arm, as well as the three-way interaction of sex, time, and arm, were added to the models.||5.42|-2.26|0.56
92171166|NCT02349412|184231464|SUPERIORITY||Mean Difference (Final Values)|3.23||||0.104|TWO_SIDED|95.0|-0.67|7.13|||ANCOVA|Statistical Method: Available Case ANCOVA Model adjusting for baseline FACT-G score||||7.13|-0.67|0.104
92279921|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.073||||0.632|TWO_SIDED|95.0|-0.372|0.226||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.226|-0.372|0.6320
92436804|NCT02801942|184758899|OTHER||Mean Difference (Final Values)|5.64|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|95.0|-7.73|19.01|||||The mean difference in Classical B Lymphocytes (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||19.01|-7.73|
92436805|NCT02801942|184758899|OTHER||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|3.336|||TWO_SIDED|95.0|-8.46|5.71|||||The mean difference in Double Negative B Lymphocytes (Healthy participants versus NOT1D participants) by FNA method has been presented.|||5.71|-8.46|
92436806|NCT02801942|184758899|OTHER||Mean Difference (Final Values)|-1.78|STANDARD_ERROR_OF_MEAN|1.755|||TWO_SIDED|95.0|-5.54|1.98|||||The mean difference in Double Negative B Lymphocytes (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.98|-5.54|
92436807|NCT02801942|184758899|OTHER||Mean Difference (Final Values)|-8.3|STANDARD_ERROR_OF_MEAN|6.08|||TWO_SIDED|95.0|-21.58|4.98|||||The mean difference in Naive B Lymphocytes (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.98|-21.58|
92436808|NCT02801942|184758899|OTHER||Mean Difference (Final Values)|-8.31|STANDARD_ERROR_OF_MEAN|6.019|||TWO_SIDED|95.0|-21.49|4.87|||||The mean difference in Naive B Lymphocytes by (Healthy participants versus NOT1D participants) core biopsy method has been presented.|||4.87|-21.49|
92436809|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|4.97|STANDARD_ERROR_OF_MEAN|2.538|||TWO_SIDED|95.0|-0.54|10.48|||||The mean difference in B-cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||10.48|-0.54|
92436810|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|-1.88|STANDARD_ERROR_OF_MEAN|2.99|||TWO_SIDED|95.0|-8.37|4.61|||||The mean difference in B-cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||4.61|-8.37|
92436811|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.189|||TWO_SIDED|95.0|-0.26|0.54|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.54|-0.26|
92436812|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.147|||TWO_SIDED|95.0|-0.37|0.27|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.27|-0.37|
92436813|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.402|||TWO_SIDED|95.0|-1.27|0.49|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.49|-1.27|
92436814|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.312|||TWO_SIDED|95.0|-0.33|1.07|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.07|-0.33|
92436815|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.068|||TWO_SIDED|95.0|-0.16|0.13|||||The mean difference in CD56lo CD16- by (Healthy participants versus NOT1D participants) FNA method has been presented.|||0.13|-0.16|
92436816|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.068|||TWO_SIDED|95.0|-0.17|0.12|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.12|-0.17|
92436817|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.114|||TWO_SIDED|95.0|-0.03|0.47|||||The mean difference in Dendritic cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.47|-0.03|
92436818|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.221|||TWO_SIDED|95.0|-0.59|0.4|||||The mean difference in Dendritic cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.40|-0.59|
92436819|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.766|||TWO_SIDED|95.0|-1.72|1.6|||||The mean difference in NK cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.60|-1.72|
92436820|NCT02801942|184758900|OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.417|||TWO_SIDED|95.0|-0.99|0.82|||||The mean difference in NK cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.82|-0.99|
92436821|NCT02801942|184758901|OTHER||Mean Difference (Final Values)|13.72|STANDARD_ERROR_OF_MEAN|7.475|||TWO_SIDED|95.0|-2.72|30.15|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||30.15|-2.72|
92436822|NCT02801942|184758901|OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|7.566|||TWO_SIDED|95.0|-16.85|16.78|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||16.78|-16.85|
92279922|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.345||||0.0254|TWO_SIDED|95.0|-0.647|-0.043||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.043|-0.647|0.0254
92436823|NCT02801942|184758901|OTHER||Mean Difference (Final Values)|-20.03|STANDARD_ERROR_OF_MEAN|8.586|||TWO_SIDED|95.0|-38.98|-1.08|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) by FNA method has been presented.|||-1.08|-38.98|
92436824|NCT02801942|184758901|OTHER||Mean Difference (Final Values)|4.25|STANDARD_ERROR_OF_MEAN|12.739|||TWO_SIDED|95.0|-24.14|32.65|||||The mean difference in CD56lo CD16+ by (Healthy participants versus NOT1D participants) core biopsy method has been presented.|||32.65|-24.14|
92436825|NCT02801942|184758901|OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|2.429|||TWO_SIDED|95.0|-5.54|5.26|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) by FNA method has been presented.|||5.26|-5.54|
92436826|NCT02801942|184758901|OTHER||Mean Difference (Final Values)|-2.79|STANDARD_ERROR_OF_MEAN|4.148|||TWO_SIDED|95.0|-12.31|6.73|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.73|-12.31|
92436827|NCT02801942|184758902|OTHER||Mean Difference (Final Values)|8.25|STANDARD_ERROR_OF_MEAN|7.673|||TWO_SIDED|95.0|-8.58|25.08|||||The mean difference in Myeloid Dendritic cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||25.08|-8.58|
92171167|NCT02349412|184231465|SUPERIORITY||Mean Difference (Final Values)|3.12||||0.188|TWO_SIDED|95.0|-1.54|7.77|||ANCOVA|Statistical Method: Available Case ANCOVA Model adjusting for baseline FACT-G score||||7.77|-1.54|0.188
92436828|NCT02801942|184758902|OTHER||Mean Difference (Final Values)|16.22|STANDARD_ERROR_OF_MEAN|6.189|||TWO_SIDED|95.0|3.17|29.26|||||The mean difference in Myeloid Dendritic cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||29.26|3.17|
92436829|NCT02801942|184758902|OTHER||Mean Difference (Final Values)|-7.89|STANDARD_ERROR_OF_MEAN|10.509|||TWO_SIDED|95.0|-31.03|15.25|||||The mean difference in Plasmacytoid Dendritic cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||15.25|-31.03|
92436830|NCT02801942|184758902|OTHER||Mean Difference (Final Values)|-13.85|STANDARD_ERROR_OF_MEAN|5.781|||TWO_SIDED|95.0|-26.04|-1.66|||||The mean difference in (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||-1.66|-26.04|
92436831|NCT02801942|184758904|OTHER||Mean Difference (Final Values)|-1.62|STANDARD_ERROR_OF_MEAN|3.561|||TWO_SIDED|95.0|-9.05|5.82|||||The mean difference in CD45RA+ Effector Memory CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||5.82|-9.05|
92436832|NCT02801942|184758904|OTHER||Mean Difference (Final Values)|4.01|STANDARD_ERROR_OF_MEAN|3.418|||TWO_SIDED|95.0|-3.13|11.16|||||The mean difference in CD45RA+ Effector Memory CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||11.16|-3.13|
92436833|NCT02801942|184758904|OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|1.428|||TWO_SIDED|95.0|-3.14|2.82|||||The mean difference in Central Memory CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||2.82|-3.14|
92436834|NCT02801942|184758904|OTHER||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|1.851|||TWO_SIDED|95.0|-5.03|2.71|||||The mean difference in Central Memory CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||2.71|-5.03|
92436835|NCT02801942|184758904|OTHER||Mean Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|3.132|||TWO_SIDED|95.0|-8.65|4.43|||||The mean difference in Effector Memory CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.43|-8.65|
92436836|NCT02801942|184758904|OTHER||Mean Difference (Final Values)|-1.59|STANDARD_ERROR_OF_MEAN|3.071|||TWO_SIDED|95.0|-8.0|4.81|||||The mean difference in Effector Memory CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||4.81|-8.00|
92436837|NCT02801942|184758904|OTHER||Mean Difference (Final Values)|3.51|STANDARD_ERROR_OF_MEAN|6.594|||TWO_SIDED|95.0|-10.21|17.24|||||The mean difference in Naive CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||17.24|-10.21|
92436838|NCT02801942|184758904|OTHER||Mean Difference (Final Values)|-2.18|STANDARD_ERROR_OF_MEAN|7.155|||TWO_SIDED|95.0|-17.1|12.74|||||The mean difference in Naive CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||12.74|-17.10|
92279923|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.047||||0.7689|TWO_SIDED|95.0|-0.36|0.266||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.266|-0.360|0.7689
92171168|NCT02349412|184231466|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.884|TWO_SIDED|95.0|-0.94|2.09|||ANCOVA|Statistical Method: Available Case ANCOVA Model adjusting for baseline HADS-Depression score||||2.09|-0.94|0.884
92436839|NCT02801942|184758904|OTHER||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.708|||TWO_SIDED|95.0|-2.42|0.58|||||The mean difference in Stem Cell Memory-like CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.58|-2.42|
92436840|NCT02801942|184758904|OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.372|||TWO_SIDED|95.0|-1.19|0.35|||||The mean difference in Stem Cell Memory-like CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.35|-1.19|
92436841|NCT02801942|184758906|OTHER||Mean Difference (Final Values)|-5.39|STANDARD_ERROR_OF_MEAN|2.545|||TWO_SIDED|95.0|-11.56|0.78|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.78|-11.56|
92436842|NCT02801942|184758906|OTHER||Mean Difference (Final Values)|-7.03|STANDARD_ERROR_OF_MEAN|7.114|||TWO_SIDED|95.0|-22.22|8.16|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) by core biopsy FNA method has been presented.|||8.16|-22.22|
92436843|NCT02801942|184758907|OTHER||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.358|||TWO_SIDED|95.0|-0.36|1.14|||||The mean difference in CD45RA+ Effector Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.14|-0.36|
92436844|NCT02801942|184758907|OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.184|||TWO_SIDED|95.0|-0.25|0.52|||||The mean difference in CD45RA+ Effector Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.52|-0.25|
92436845|NCT02801942|184758907|OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|4.22|||TWO_SIDED|95.0|-9.02|8.64|||||The mean difference in Central Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||8.64|-9.02|
92171169|NCT02349412|184231467|SUPERIORITY||Mean Difference (Final Values)|-0.81||||0.033|TWO_SIDED|95.0|-1.54|-0.07|||ANCOVA|Statistical Method: Available Case ANCOVA Model adjusting for baseline HADS-Anxiety score||||-0.07|-1.54|0.033
92436846|NCT02801942|184758907|OTHER||Mean Difference (Final Values)|-3.72|STANDARD_ERROR_OF_MEAN|4.223|||TWO_SIDED|95.0|-12.57|5.13|||||The mean difference in Central Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||5.13|-12.57|
92436847|NCT02801942|184758907|OTHER||Mean Difference (Final Values)|2.25|STANDARD_ERROR_OF_MEAN|4.034|||TWO_SIDED|95.0|-6.16|10.66|||||The mean difference in Effector Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||10.66|-6.16|
92436848|NCT02801942|184758907|OTHER||Mean Difference (Final Values)|2.06|STANDARD_ERROR_OF_MEAN|3.994|||TWO_SIDED|95.0|-6.27|10.39|||||The mean difference in Effector Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||10.39|-6.27|
92436849|NCT02801942|184758907|OTHER||Mean Difference (Final Values)|-2.09|STANDARD_ERROR_OF_MEAN|5.727|||TWO_SIDED|95.0|-14.09|9.92|||||The mean difference in Naive Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||9.92|-14.09|
92171170|NCT02349412|184231468|SUPERIORITY|||||||0.006|||||||Chi-squared|||||||0.006
92436850|NCT02801942|184758907|OTHER||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|4.976|||TWO_SIDED|95.0|-9.91|10.87|||||The mean difference in Naive Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||10.87|-9.91|
92436851|NCT02801942|184758907|OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.314|||TWO_SIDED|95.0|-0.67|0.65|||||The mean difference in Stem Cell Memory-like Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.65|-0.67|
92436852|NCT02801942|184758907|OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.325|||TWO_SIDED|95.0|-1.1|0.26|||||The mean difference in Stem Cell Memory-like Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.26|-1.10|
92436853|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|7.0|STANDARD_ERROR_OF_MEAN|4.671|||TWO_SIDED|95.0|-2.8|16.81|||||The mean difference in TFH cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||16.81|-2.80|
92436854|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|-3.93|STANDARD_ERROR_OF_MEAN|4.828|||TWO_SIDED|95.0|-14.02|6.17|||||The mean difference in TFH cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.17|-14.02|
92436855|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|0.651|||TWO_SIDED|95.0|-2.69|0.16|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.16|-2.69|
92436856|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|1.507|||TWO_SIDED|95.0|-3.21|3.24|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||3.24|-3.21|
92436857|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|1.709|||TWO_SIDED|95.0|-2.78|4.33|||||The mean difference in TH17 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.33|-2.78|
92436858|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|1.339|||TWO_SIDED|95.0|-2.75|2.85|||||The mean difference in TH17 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||2.85|-2.75|
92436859|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|3.631|||TWO_SIDED|95.0|-8.56|6.63|||||The mean difference in TH1 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||6.63|-8.56|
92436860|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|-6.03|STANDARD_ERROR_OF_MEAN|2.708|||TWO_SIDED|95.0|-11.69|-0.38|||||The mean difference in TH1 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||-0.38|-11.69|
92436861|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.889|||TWO_SIDED|95.0|-1.98|1.78|||||The mean difference in TH1 TH17 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.78|-1.98|
92238047|NCT03151148|184380353|SUPERIORITY||Geometric mean ratio (GMR)|2.76||||0.261|TWO_SIDED|95.0|0.469|16.226|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||16.226|0.469|0.261
92436862|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.787|||TWO_SIDED|95.0|-1.07|2.24|||||The mean difference in TH1 TH17 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||2.24|-1.07|
92436863|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.613|||TWO_SIDED|95.0|-0.85|1.72|||||The mean difference in TH1 TH17 TH2 T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.72|-0.85|
92436864|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.565|||TWO_SIDED|95.0|-0.8|1.56|||||The mean difference in TH1 TH17 TH2 T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.56|-0.80|
92436865|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|1.546|||TWO_SIDED|95.0|-2.71|3.76|||||The mean difference in TH1 TH2 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||3.76|-2.71|
92171171|NCT05952076|184231504|OTHER||Adjusted mean difference|0.11||||0.6863|TWO_SIDED|95.0|-0.44|0.67|||Mixed Models Analysis|See Estimation Comments|The mixed model included treatment and visit as factors, including the interaction term, and was adjusted by baseline WAZ and baseline age (days). A random intercept for participant was included.|||0.67|-0.44|0.6863
92436866|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|1.61|||TWO_SIDED|95.0|-2.95|3.79|||||The mean difference in TH1 TH2 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||3.79|-2.95|
92436867|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|3.356|||TWO_SIDED|95.0|-4.84|9.14|||||The mean difference in TH2 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||9.14|-4.84|
92436868|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|3.95|STANDARD_ERROR_OF_MEAN|2.481|||TWO_SIDED|95.0|-1.25|9.15|||||The mean difference in TH2 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||9.15|-1.25|
92436869|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.627|||TWO_SIDED|95.0|-1.28|1.38|||||The mean difference in TH22 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.38|-1.28|
92436870|NCT02801942|184758908|OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.438|||TWO_SIDED|95.0|-0.93|0.91|||||The mean difference in TH22 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.91|-0.93|
92436871|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|3.63|||TWO_SIDED|95.0|-7.4|8.0|||||The mean difference in TFH cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||8.00|-7.40|
92436872|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|2.694|||TWO_SIDED|95.0|-4.9|6.35|||||The mean difference in TFH cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.35|-4.90|
92436873|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|2.377|||TWO_SIDED|95.0|-9.89|0.08|||||The mean difference in TH1 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.08|-9.89|
92436874|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|-3.29|STANDARD_ERROR_OF_MEAN|1.682|||TWO_SIDED|95.0|-6.82|0.24|||||The mean difference in TH1 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.24|-6.82|
92436875|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|1.036|||TWO_SIDED|95.0|-2.67|2.1|||||The mean difference in TH1 TH17 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||2.10|-2.67|
92436876|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|-2.8|STANDARD_ERROR_OF_MEAN|1.929|||TWO_SIDED|95.0|-7.2|1.59|||||The mean difference in TH1 TH17 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.59|-7.20|
92436877|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|2.117|||TWO_SIDED|95.0|-5.98|3.11|||||The mean difference in TH1 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||3.11|-5.98|
92436878|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|2.047|||TWO_SIDED|95.0|-4.59|3.99|||||The mean difference in TH1 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||3.99|-4.59|
92436879|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|2.645|||TWO_SIDED|95.0|-6.99|4.06|||||The mean difference in TH17 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.06|-6.99|
92171172|NCT05952076|184231505|OTHER||Adjusted mean difference|109.3||||0.5567|TWO_SIDED|95.0|-259.76|478.36|||Mixed Models Analysis|See Estimation Comments|The mixed model included treatment and visit as factors, including the interaction term, and was adjusted by baseline weight (grams) and baseline age (days). A random intercept for participant was included.|||478.36|-259.76|0.5567
92279924|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.117||||0.4631|TWO_SIDED|95.0|-0.43|0.196||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.196|-0.430|0.4631
92436880|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|2.185|||TWO_SIDED|95.0|-4.05|5.11|||||The mean difference in TH17 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||5.11|-4.05|
92436881|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|-2.25|STANDARD_ERROR_OF_MEAN|4.299|||TWO_SIDED|95.0|-11.23|6.73|||||The mean difference in TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||6.73|-11.23|
92436882|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|3.42|STANDARD_ERROR_OF_MEAN|3.472|||TWO_SIDED|95.0|-3.84|10.67|||||The mean difference in TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||10.67|-3.84|
92436883|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|1.153|||TWO_SIDED|95.0|-3.3|2.0|||||The mean difference in TH22 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||2.00|-3.30|
92436884|NCT02801942|184758909|OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.869|||TWO_SIDED|95.0|-2.06|1.72|||||The mean difference in TH22 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.72|-2.06|
92436885|NCT02801942|184758910|OTHER||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|1.304|||TWO_SIDED|95.0|-2.27|3.19|||||The mean difference in Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||3.19|-2.27|
92436886|NCT02801942|184758910|OTHER||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|1.056|||TWO_SIDED|95.0|-3.24|1.36|||||The mean difference in Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.36|-3.24|
92171173|NCT05952076|184231506|OTHER||Adjusted mean difference|0.1||||0.7275|TWO_SIDED|95.0|-0.46|0.66|||Mixed Models Analysis|See Estimation Comments|The mixed model included treatment and visit as factors, including the interaction term, and was adjusted by baseline WAZ, baseline age (days) and study intervention compliance. A random intercept for participant was included.|||0.66|-0.46|0.7275
92279925|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.298||||0.0651|TWO_SIDED|95.0|-0.615|0.019||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.019|-0.615|0.0651
92436887|NCT02801942|184758911|OTHER||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|5.069|||TWO_SIDED|95.0|-11.91|9.58|||||The mean difference in CD69+ CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||9.58|-11.91|
92436888|NCT02801942|184758911|OTHER||Mean Difference (Final Values)|-4.38|STANDARD_ERROR_OF_MEAN|5.301|||TWO_SIDED|95.0|-15.85|7.1|||||The mean difference in CD69+ CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||7.10|-15.85|
92436889|NCT02801942|184758911|OTHER||Mean Difference (Final Values)|1.48|STANDARD_ERROR_OF_MEAN|1.374|||TWO_SIDED|95.0|-1.62|4.59|||||The mean difference in Ki67+ CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.59|-1.62|
92436890|NCT02801942|184758911|OTHER||Mean Difference (Final Values)|2.91|STANDARD_ERROR_OF_MEAN|1.291|||TWO_SIDED|95.0|-0.05|5.88|||||The mean difference in Ki67+ CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||5.88|-0.05|
92436891|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|4.86|STANDARD_ERROR_OF_MEAN|3.083|||TWO_SIDED|95.0|-1.6|11.31|||||The mean difference in CD15s+ Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||11.31|-1.60|
92436892|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|8.21|STANDARD_ERROR_OF_MEAN|6.78|||TWO_SIDED|95.0|-6.15|22.57|||||The mean difference in CD15s+ Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||22.57|-6.15|
92436893|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|-11.19|STANDARD_ERROR_OF_MEAN|5.812|||TWO_SIDED|95.0|-23.48|1.11|||||The mean difference in CD69+ Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.11|-23.48|
92436894|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|-5.89|STANDARD_ERROR_OF_MEAN|3.855|||TWO_SIDED|95.0|-14.14|2.37|||||The mean difference in CD69+ Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||2.37|-14.14|
92436895|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|1.65|STANDARD_ERROR_OF_MEAN|2.48|||TWO_SIDED|95.0|-3.54|6.84|||||The mean difference in Helios+ Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||6.84|-3.54|
92436896|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|2.57|STANDARD_ERROR_OF_MEAN|2.937|||TWO_SIDED|95.0|-3.84|8.98|||||The mean difference in Helios+ Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||8.98|-3.84|
92436897|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|3.22|STANDARD_ERROR_OF_MEAN|2.781|||TWO_SIDED|95.0|-2.67|9.12|||||The mean difference in Ki67+ T Reg cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||9.12|-2.67|
92436898|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|3.38|STANDARD_ERROR_OF_MEAN|1.337|||TWO_SIDED|95.0|0.55|6.21|||||The mean difference in Ki67+ T Reg cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.21|0.55|
92436899|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|4.736|||TWO_SIDED|95.0|-11.49|8.58|||||The mean difference in Memory Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||8.58|-11.49|
92436900|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|1.88|STANDARD_ERROR_OF_MEAN|4.142|||TWO_SIDED|95.0|-6.81|10.58|||||The mean difference in Memory Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||10.58|-6.81|
92436901|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|10.45|STANDARD_ERROR_OF_MEAN|5.79|||TWO_SIDED|95.0|-2.01|22.92|||||The mean difference in Resting Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||22.92|-2.01|
92436902|NCT02801942|184758912|OTHER||Mean Difference (Final Values)|6.17|STANDARD_ERROR_OF_MEAN|4.913|||TWO_SIDED|95.0|-4.24|16.59|||||The mean difference in Resting Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||16.59|-4.24|
92436903|NCT02801942|184758913|OTHER||Mean Difference (Final Values)|1.38|STANDARD_ERROR_OF_MEAN|0.696|||TWO_SIDED|95.0|-0.08|2.83|||||The mean difference in CD15s+ Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||2.83|-0.08|
92436904|NCT02801942|184758913|OTHER||Mean Difference (Final Values)|2.19|STANDARD_ERROR_OF_MEAN|1.324|||TWO_SIDED|95.0|-0.61|4.98|||||The mean difference in CD15s+ Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||4.98|-0.61|
92436905|NCT02801942|184758913|OTHER||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|6.389|||TWO_SIDED|95.0|-14.66|12.85|||||The mean difference in CD69+ Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||12.85|-14.66|
92436906|NCT02801942|184758913|OTHER||Mean Difference (Final Values)|-4.19|STANDARD_ERROR_OF_MEAN|4.862|||TWO_SIDED|95.0|-14.71|6.33|||||The mean difference in CD69+ Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.33|-14.71|
92436907|NCT02801942|184758913|OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|1.234|||TWO_SIDED|95.0|-2.73|2.47|||||The mean difference in Helios+ Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||2.47|-2.73|
92436908|NCT02801942|184758913|OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.859|||TWO_SIDED|95.0|-1.45|2.28|||||The mean difference in Helios+ Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||2.28|-1.45|
92436909|NCT02801942|184758913|OTHER||Mean Difference (Final Values)|3.21|STANDARD_ERROR_OF_MEAN|1.205|||TWO_SIDED|95.0|0.64|5.78|||||The mean difference in Ki67+ Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||5.78|0.64|
92436910|NCT02801942|184758913|OTHER||Mean Difference (Final Values)|2.27|STANDARD_ERROR_OF_MEAN|0.712|||TWO_SIDED|95.0|0.75|3.79|||||The mean difference in Ki67+ Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||3.79|0.75|
92436911|NCT02801942|184758914|OTHER||Mean Difference (Final Values)|3.27|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|95.0|0.4|6.15|||||The mean difference in CD15s+ Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||6.15|0.40|
92436912|NCT02801942|184758914|OTHER||Mean Difference (Final Values)|2.74|STANDARD_ERROR_OF_MEAN|2.109|||TWO_SIDED|95.0|-1.68|7.17|||||The mean difference in CD15s+ Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||7.17|-1.68|
92436913|NCT02801942|184758914|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|6.712|||TWO_SIDED|95.0|-14.49|14.48|||||The mean difference in CD69+ Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||14.48|-14.49|
92436914|NCT02801942|184758914|OTHER||Mean Difference (Final Values)|-4.12|STANDARD_ERROR_OF_MEAN|3.947|||TWO_SIDED|95.0|-12.67|4.43|||||The mean difference in CD69+ Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||4.43|-12.67|
92436915|NCT02801942|184758914|OTHER||Mean Difference (Final Values)|1.33|STANDARD_ERROR_OF_MEAN|2.967|||TWO_SIDED|95.0|-5.48|8.13|||||The mean difference in Helios+ Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||8.13|-5.48|
92436916|NCT02801942|184758914|OTHER||Mean Difference (Final Values)|1.24|STANDARD_ERROR_OF_MEAN|2.287|||TWO_SIDED|95.0|-4.36|6.84|||||The mean difference in Helios+ Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.84|-4.36|
92436917|NCT02801942|184758914|OTHER||Mean Difference (Final Values)|2.69|STANDARD_ERROR_OF_MEAN|1.019|||TWO_SIDED|95.0|0.54|4.84|||||The mean difference in Ki67+ Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.84|0.54|
92436918|NCT02801942|184758914|OTHER||Mean Difference (Final Values)|1.58|STANDARD_ERROR_OF_MEAN|0.737|||TWO_SIDED|95.0|0.03|3.13|||||The mean difference in Ki67+ Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||3.13|0.03|
92436919|NCT00254540|184758943|SUPERIORITY_OR_OTHER||Objective Response Rate(percentage)|48.0||||||95.0|27.8|68.7||||||||68.7|27.8|
92436920|NCT00254540|184758943|SUPERIORITY_OR_OTHER||Objective Response Rate(percentage)|46.2||||||95.0|26.6|66.6||||||||66.6|26.6|
92436921|NCT00710710|184758959|OTHER||Maximum likelihood estimation|0.0233||||0.7021|TWO_SIDED|95.0|0.0006|0.1229||p0 = 0.056, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.1229|0.0006|0.7021
92279926|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.06||||0.7197|TWO_SIDED|95.0|-0.392|0.271||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.271|-0.392|0.7197
92436922|NCT00710710|184758959|OTHER||Maximum likelihood estimation|0.0233||||0.9156|TWO_SIDED|95.0|0.0006|0.1229||p0 = 0.092, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.1229|0.0006|0.9156
92436923|NCT00710710|184758959|OTHER||Maximum likelihood estimation|0.0233||||0.7021|TWO_SIDED|95.0|0.0006|0.1229||p0 = 0.056, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.1229|0.0006|0.7021
92436924|NCT00710710|184758959|OTHER||Maximum likelihood estimation|0.0233||||0.9156|TWO_SIDED|95.0|0.0006|0.1229||p0 = 0.092, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.1229|0.0006|0.9156
92436925|NCT00710710|184758962|OTHER||Hazard Ratio (HR)|1.22||||0.38|TWO_SIDED|95.0|0.78|1.91|||Regression, Cox||if HR is below 1, then 60mg BI 2536 IV on day 1-3 is better.|||1.91|0.78|0.38
92436926|NCT00710710|184758963|OTHER||Hazard Ratio (HR)|1.1||||0.69|TWO_SIDED|95.0|0.68|1.78|||Regression, Cox||if HR is below 1, then 60mg BI 2536 IV on day 1-3 is better.|||1.78|0.68|0.69
92436927|NCT00710710|184758964|OTHER||Maximum likelihood estimation|0.0||||0.9161|TWO_SIDED|95.0|0.0|0.0822||p0 = 0.056, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.0822|0.0000|0.9161
92436928|NCT00710710|184758964|OTHER||Maximum likelihood estimation|0.0||||0.9842|TWO_SIDED|95.0|0.0|0.0822||p0 = 0.092, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.0822|0.0000|0.9842
92436929|NCT00710710|184758964|OTHER||Maximum likelihood estimation|0.0||||0.9161|TWO_SIDED|95.0|0.0|0.0822||p0 = 0.056, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.0822|0.0000|0.9161
92436930|NCT00710710|184758964|OTHER||Maximum likelihood estimation|0.0||||0.9842|TWO_SIDED|95.0|0.0|0.0822||p0 = 0.092, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.0822|0.0000|0.9842
92436931|NCT00715078|184758971|NON_INFERIORITY_OR_EQUIVALENCE|Cohort B is considered non-inferior to Cohort A if the lower limit of the 90% confidence interval (CI) for the ratio of Cohort B vs. Cohort A in the geometric mean of cumulative CD54 upregulation ratio is \>0.8. The use of one-sided CI is based on an assumption that a higher concentration will correspond to a higher CD54 upregulation ratio. The use of 0.8 as margin is based on the assumption that a relative difference of \<20% in upregulation ratios may not be clinically significant.|ratio of geometric means (GeoMean)|1.046||||0.5019|TWO_SIDED|90.0|0.936|1.168|||ANOVA|||The sample size determination is based on a standard deviation of 0.45 for the log transformed CD54 upregulation ratio estimated from previous studies assuming there is no difference in central values between the two compared cohorts. A sample size of 38 subjects per cohort will provide 70% power for the non-inferiority test for the two pairwise comparisons (Cohort B vs. Cohort A and Cohort C vs. Cohort A).||1.168|0.936|0.5019
92446622|NCT00533949|184780278|SUPERIORITY||Hazard Ratio (HR)|1.001||||0.78|TWO_SIDED|95.0|0.997|1.004||Two-sided significance level = 0.05|Regression, Cox||Corresponding to a one unit increase in GTV|Multivariate model with GTV as a continuous variable, adjusting for planned radiation therapy dose group (60 Gy or 74 Gy) and the interaction of GTV and planned dose.|P-Value for the interaction of GTV and planned dose = 0.77|1.004|0.997|0.78
92446623|NCT00533949|184780279|SUPERIORITY||Cox Proportional Hazard|1.0||||0.94|TWO_SIDED|95.0|0.98|1.02|||Regression, Cox||Corresponding to a one unit increase in SUV|Univariate model of overall survival time by PET SUV as a continuous variable||1.02|0.98|0.94
92436932|NCT00715078|184758971|NON_INFERIORITY_OR_EQUIVALENCE|Cohort C is considered non-inferior to Cohort A if the lower limit of the 90% confidence interval for the ratio of Cohort C vs. Cohort A in the geometric mean of cumulative CD54 upregulation ratio is \>0.8. The use of one-sided CI is based on an assumption that a higher concentration will correspond to a higher CD54 upregulation ratio. The use of 0.8 as margin is based on the assumption that a relative difference of \<20% in upregulation ratios may not be clinically significant.|the ratio of geometric means|0.907||||0.1443|TWO_SIDED|90.0|0.813|1.013|||ANOVA|||The sample size determination is based on a standard deviation of 0.45 for the log transformed CD54 upregulation ratio estimated from previous studies assuming there is no difference in central values between the two compared cohorts. A sample size of 38 subjects per cohort will provide 70% power for the non-inferiority test for the two pairwise comparisons (Cohort B vs. Cohort A and Cohort C vs. Cohort A).||1.013|0.813|0.1443
92436933|NCT01313767|184758972|NON_INFERIORITY_OR_EQUIVALENCE|90% of the power, 0.45 of non-inferiority margin|Mean Difference (Final Values)|0.17||||0.1347|TWO_SIDED|95.0|-0.05|0.4|||t-test, 2 sided|||The difference between the two groups was provided with 95% CI. If the upper limit of CI is no greater than 0.45 (non-inferiority margin), the study group was determined not inferior to the control group. Additionally, difference between groups in change from baseline to week 4 in wrist flexor MAS score was compared using two sample t-test.||0.40|-0.05|0.1347
92436934|NCT01313767|184758973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.2591|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 8 in wrist flexor MAS score was compared using two sample t-test.||||0.2591
92436935|NCT01313767|184758973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.3395|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 12 in wrist flexor MAS score was compared using two sample t-test.||||0.3395
92436936|NCT01313767|184758974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0675|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 4 in elbow flexor MAS score was compared using two sample t-test.||||0.0675
92436937|NCT01313767|184758974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0605|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 8 in elbow flexor MAS score was compared using two sample t-test.||||0.0605
92436938|NCT01313767|184758974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.0429|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 12 in elbow flexor MAS score was compared using two sample t-test.||||0.0429
92436939|NCT01313767|184758975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.6954|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 4 in finger flexor MAS score was compared using two sample t-test.||||0.6954
92436940|NCT01313767|184758975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.6024|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 8 in finger flexor MAS score was compared using two sample t-test.||||0.6024
92436941|NCT01313767|184758975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.9316|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 12 in finger flexor MAS score was compared using two sample t-test.||||0.9316
92436942|NCT01313767|184758976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.2284|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 4 in thumb flexor MAS score was compared using two sample t-test.||||0.2284
92436943|NCT01313767|184758976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.3221|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 8 in thumb flexor MAS score was compared using two sample t-test.||||0.3221
92279927|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.097||||0.5649|TWO_SIDED|95.0|-0.428|0.234||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.234|-0.428|0.5649
92279928|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.422||||0.0138|TWO_SIDED|95.0|-0.757|-0.087||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.087|-0.757|0.0138
92436944|NCT01313767|184758976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.593|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 12 in thumb flexor MAS score was compared using two sample t-test.||||0.5930
92436945|NCT01313767|184758977|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.07||||0.1585|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 4 from baseline in wrist flexor was compared using Pearson's chi-square test.||||0.1585
92436946|NCT01313767|184758977|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0028||||0.9596|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 8 from baseline in wrist flexor was compared using Pearson's chi-square test.||||0.9596
92436947|NCT01313767|184758977|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0304||||0.6164|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 12 from baseline in wrist flexor was compared using Pearson's chi-square test.||||0.6164
92436948|NCT01313767|184758978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.098||||0.1802|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 4 from baseline in elbow flexor was compared using Pearson's chi-square test.||||0.1802
92436949|NCT01313767|184758978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1164||||0.1176|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 8 from baseline in elbow flexor was compared using Pearson's chi-square test.||||0.1176
92436950|NCT01313767|184758978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1138||||0.1252|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 12 from baseline in elbow flexor was compared using Pearson's chi-square test.||||0.1252
92436951|NCT01313767|184758979|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.098||||0.3431|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 4 from baseline in finger flexor was compared using Pearson's chi-square test.||||0.3431
92436952|NCT01313767|184758979|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1097||||0.1329|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 8 from baseline in finger flexor was compared using Pearson's chi-square test||||0.1329
92436953|NCT01313767|184758979|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0853||||0.2611|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 12 from baseline in finger flexor was compared using Pearson's chi-square test||||0.2611
92436954|NCT01313767|184758980|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0654||||0.4623|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 4 from baseline in thumb flexor was compared using Pearson's chi-square test.||||0.4623
92436955|NCT01313767|184758980|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1194||||0.2007|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 8 from baseline in thumb flexor was compared using Pearson's chi-square test.||||0.2007
92436956|NCT01313767|184758980|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0172||||0.8553|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 12 from baseline in thumb flexor was compared using Pearson's chi-square test.||||0.8553
92436957|NCT01313767|184758981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.604|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in DAS score of hygiene was compared using wilcoxon rank sum test.||||0.6040
92436958|NCT01313767|184758981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.3233|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in DAS score of hygiene was compared using wilcoxon rank sum test.||||0.3233
92436959|NCT01313767|184758981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.4469|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in DAS score of hygiene was compared using wilcoxon rank sum test.||||0.4469
92171174|NCT04143061|184231512|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in percentage of participants|6.55|||||TWO_SIDED|95.0|2.03|11.08||||||Statistical analysis for Serogroup A||11.08|2.03|
92171175|NCT04143061|184231512|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in percentage of participants|21.67|||||TWO_SIDED|95.0|17.82|25.8||||||Statistical analysis for Serogroup C||25.80|17.82|
92171176|NCT04143061|184231512|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in percentage of participants|11.08|||||TWO_SIDED|95.0|7.43|14.89||||||Statistical analysis for Serogroup Y||14.89|7.43|
92238048|NCT03151148|184380353|SUPERIORITY||Geometric mean ratio (GMR)|0.41||||0.319|TWO_SIDED|95.0|0.069|2.393|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.393|0.069|0.319
92436960|NCT01313767|184758982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.122|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in DAS score of dressing was compared using wilcoxon rank sum test.||||0.1220
92436961|NCT01313767|184758982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.1016|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in DAS score of dressing was compared using wilcoxon rank sum test.||||0.1016
92436962|NCT01313767|184758982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32||||0.2235|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in DAS score of dressing was compared using wilcoxon rank sum test.||||0.2235
92436963|NCT01313767|184758983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.503|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in DAS score of limb position was compared using wilcoxon rank sum test.||||0.5030
92436964|NCT01313767|184758983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.6934|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in DAS score of limb position was compared using wilcoxon rank sum test.||||0.6934
92436965|NCT01313767|184758983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9574|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in DAS score of limb position was compared using wilcoxon rank sum test.||||0.9574
92436966|NCT01313767|184758984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.7237|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in DAS score of pain was compared using wilcoxon rank sum test.||||0.7237
92436967|NCT01313767|184758984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.7237|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in DAS score of pain was compared using wilcoxon rank sum test.||||0.7237
92436968|NCT01313767|184758984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.4017|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in DAS score of pain was compared using wilcoxon rank sum test.||||0.4017
92436969|NCT01313767|184758985|SUPERIORITY_OR_OTHER|||||||0.2346|TWO_SIDED||||||Fisher Exact|||Difference between groups in frequency distribution of responders on the Global Assessment at week 12 was compared using Fisher's exact test.||||0.2346
92436970|NCT01313767|184758986|SUPERIORITY_OR_OTHER|||||||0.9513|TWO_SIDED||||||Fisher Exact|||Difference between groups in frequency distribution of responders on the Global Assessment at week 12 was compared using Fisher's exact test.||||0.9513
92436971|NCT01313767|184758987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.8088|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in carer burden scale of cleaning the palm was compared using wilcoxon rank sum test.||||0.8088
92436972|NCT01313767|184758987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.3702|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in carer burden scale of cleaning the palm was compared using wilcoxon rank sum test.||||0.3702
92436973|NCT01313767|184758987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.1497|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in carer burden scale of cleaning the palm was compared using wilcoxon rank sum test.||||0.1497
92436974|NCT01313767|184758988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.9634|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in carer burden scale of cutting the finger-nails was compared using wilcoxon rank sum test.||||0.9634
92436975|NCT01313767|184758988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.7302|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in carer burden scale of cutting the finger-nails was compared using wilcoxon rank sum test.||||0.7302
92436976|NCT01313767|184758988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.7715|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in carer burden scale of cutting the finger-nails was compared using wilcoxon rank sum test.||||0.7715
92436977|NCT01313767|184758989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.9362|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in carer burden scale of putting shirts on was compared using wilcoxon rank sum test.||||0.9362
92436978|NCT01313767|184758989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.7998|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in carer burden scale of putting shirts on was compared using wilcoxon rank sum test.||||0.7998
92436979|NCT01313767|184758989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.5436|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in carer burden scale of putting shirts on was compared using wilcoxon rank sum test.||||0.5436
92436980|NCT01313767|184758990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.7014|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in carer burden scale of cleaning the armpit was compared using wilcoxon rank sum test.||||0.7014
92436981|NCT01313767|184758990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.8884|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in carer burden scale of cleaning the armpit was compared using wilcoxon rank sum test.||||0.8884
92436982|NCT01313767|184758990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.284|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in carer burden scale of cleaning the armpit was compared using wilcoxon rank sum test.||||0.2840
92279929|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|0.06||||0.7202|TWO_SIDED|95.0|-0.269|0.388||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.388|-0.269|0.7202
92436983|NCT01529346|184758993|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.38|0.22||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.22|-0.38|
92436984|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.2|0.39||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.39|-0.20|
92436985|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.28|0.32||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.32|-0.28|
92436986|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.41|0.24||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.24|-0.41|
92436987|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.32|0.44||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.44|-0.32|
92436988|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|0.01|0.77||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.77|0.01|
92279930|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.093||||0.5784|TWO_SIDED|95.0|-0.421|0.236||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.236|-0.421|0.5784
92436989|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.22|0.54||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.54|-0.22|
92436990|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|0.24|1.07||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.07|0.24|
92436991|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.37|0.42||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.42|-0.37|
92436992|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|0.0|0.78||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.78|-0.00|
92436993|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.29|0.5||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.50|-0.29|
92436994|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|1.02|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|0.59|1.45||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.45|0.59|
92171177|NCT04143061|184231512|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in percentage of participants|11.01|||||TWO_SIDED|95.0|7.86|14.47||||||Statistical analysis for Serogroup W||14.47|7.86|
92436995|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.21|0.62||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.62|-0.21|
92436996|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.07|0.76||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.76|-0.07|
92436997|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.11|0.72||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.72|-0.11|
92436998|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|0.85|1.75||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.75|0.85|
92436999|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.04|0.81||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.81|-0.04|
92437000|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.1|0.75||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.75|-0.10|
92437001|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.38|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.05|0.81||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.81|-0.05|
92437002|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|1.69|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|1.22|2.15||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||2.15|1.22|
92437003|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.01|0.99||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.99|0.01|
92437004|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.54|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.05|1.03||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.03|0.05|
92437005|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-0.04|0.94||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.94|-0.04|
92437006|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|1.79|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|1.26|2.31||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||2.31|1.26|
92437007|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|0.06|1.11||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.11|0.06|
92437008|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.64|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|0.11|1.17||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.17|0.11|
92279931|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.376||||0.0266|TWO_SIDED|95.0|-0.708|-0.044||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.044|-0.708|0.0266
92437009|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|0.11|1.15||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.15|0.11|
92171178|NCT04899115|184231542|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
92171179|NCT04899115|184231543|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|Wilcoxon was used because data was not normal.||||||0.48
92437010|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|1.87|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|1.33|2.4||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||2.40|1.33|
92437011|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.07|1.05||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.05|-0.07|
92437012|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|90.0|-0.24|0.91||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.91|-0.24|
92437013|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.13|0.98||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.98|-0.13|
92437014|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|1.61|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|1.05|2.17||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||2.17|1.05|
92437015|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|90.0|-0.74|0.64||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.64|-0.74|
92437016|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|90.0|-0.86|0.56||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.56|-0.86|
92437017|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|90.0|-0.57|0.8||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.80|-0.57|
92437018|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|90.0|0.22|1.58||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.58|0.22|
92437019|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|90.0|-0.93|0.59||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.59|-0.93|
92437020|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|90.0|-0.98|0.62||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.62|-0.98|
92437021|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-1.05|0.45||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.45|-1.05|
92437022|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-0.47|1.02||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.02|-0.47|
92437023|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|0.15|1.11||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.11|0.15|
92437024|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-0.27|0.74||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.74|-0.27|
92437025|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-0.03|0.91||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.91|-0.03|
92446624|NCT00533949|184780279|SUPERIORITY||Cox Proportional Hazard|1.0||||0.72|TWO_SIDED|95.0|0.98|1.02|||Regression, Cox||Corresponding to a one unit increase in SUV|Univariate model of time to local-regional failure by PET SUV as a continuous variable||1.02|0.98|0.72
92437026|NCT01529346|184758993|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.3|0.67||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.67|-0.30|
92437027|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|-0.19|0.14||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.14|-0.19|
92437028|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|0.03|0.37||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.37|0.03|
92437029|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|-0.1|0.24||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.24|-0.10|
92437030|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.16|0.21||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.21|-0.16|
92437031|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.06|0.45||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.45|-0.06|
92437032|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.19|0.7||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.70|0.19|
92437033|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.04|0.54||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.54|0.04|
92437034|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.32|0.87||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.87|0.32|
92437035|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.16|0.4||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.40|-0.16|
92437036|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.12|0.68||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.68|0.12|
92437037|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.05|0.5||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.50|-0.05|
92437038|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.71|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|0.4|1.01||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.01|0.40|
92437039|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.19|0.4||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.40|-0.19|
92437040|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.1|0.49||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.49|-0.10|
92437041|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.16|0.43||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.43|-0.16|
92446625|NCT00533949|184780279|SUPERIORITY||Cox Proportional Hazard|1.0||||0.79|TWO_SIDED|95.0|0.98|1.02|||Regression, Cox||Corresponding to a one unit increase in SUV|Univariate model of time to distant metastasis by PET SUV as a continuous variable||1.02|0.98|0.79
92171180|NCT00448669|184231551|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED||||||Regression, Cox|||Safety analyses were performed in the intention-to-treat cohort. Primary safety end points included the frequency of adverse clinical or laboratory events.||||0.003
92239884|NCT00109733|184383696|SUPERIORITY_OR_OTHER|||||||0.755|||||||ANOVA|||"The null hypothesis (% change in limb fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in limb fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.755
92279932|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.049||||0.777|TWO_SIDED|95.0|-0.391|0.293||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.293|-0.391|0.7770
92279933|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.114||||0.5121|TWO_SIDED|95.0|-0.456|0.228||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.228|-0.456|0.5121
92171181|NCT00448669|184231552|SUPERIORITY_OR_OTHER_LEGACY||Efficacy|62.2||||0.03|TWO_SIDED|95.0|21.5|83.4|||Regression, Cox|||The primary efficacy end point was the difference in the rates of HIV infection between participants assigned to receive TDF-FTC and those assigned to receive placebo. The primary hypothesis was that TDF-FTC, as compared with placebo, would reduce the rate of HIV infection by at least 65%, with a predefined lower boundary for the 95% confidence interval of 10%.||83.4|21.5|0.03
92238049|NCT03151148|184380353|SUPERIORITY||Geometric mean ratio (GMR)|1.02||||0.978|TWO_SIDED|95.0|0.174|6.027|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||6.027|0.174|0.978
92437042|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.74|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|0.41|1.06||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.06|0.41|
92437043|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|0.01|0.64||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.64|0.01|
92437044|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.01|0.62||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.62|-0.01|
92437045|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|0.08|0.71||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.71|0.08|
92437046|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|1.26|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|0.92|1.61||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.61|0.92|
92437047|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|0.04|0.76||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.76|0.04|
92437048|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|-0.03|0.69||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.69|-0.03|
92437049|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|0.05|0.77||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.77|0.05|
92437050|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|0.92|1.68||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.68|0.92|
92437051|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|0.16|0.95||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.95|0.16|
92437052|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|0.17|0.97||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.97|0.17|
92437053|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|0.24|1.03||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.03|0.24|
92437054|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|1.38|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|0.97|1.78||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.78|0.97|
92446626|NCT00727194|184780281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.25||||0.0144|TWO_SIDED|95.0|-7.45|-1.05||No multiple comparisons or multiplicity adjustments were conducted.|paired t-test|||||-1.05|-7.45|0.0144
92437055|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|0.08|0.92||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.92|0.08|
92437056|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.03|0.84||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.84|-0.03|
92437057|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|0.09|0.93||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.93|0.09|
92437058|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|0.75|1.59||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.59|0.75|
92437059|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-0.27|0.72||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.72|-0.27|
92437060|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|90.0|-0.37|0.65||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.65|-0.37|
92437061|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-0.23|0.77||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.77|-0.23|
92437062|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.33|1.31||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.31|0.33|
92437063|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.24|0.89||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.89|-0.24|
92437064|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-0.25|0.94||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.94|-0.25|
92437065|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.31|0.8||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.80|-0.31|
92437066|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.64|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|0.08|1.19||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.19|0.08|
92437067|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|0.07|0.83||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.83|0.07|
92437068|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.36|0.44||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.44|-0.36|
92437069|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|-0.07|0.68||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.68|-0.07|
92446627|NCT00727194|184780281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.71||||0.117|TWO_SIDED|95.0|-10.8|1.37||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||||1.37|-10.80|0.1170
92239885|NCT00109733|184383696|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||"The null hypothesis (% change in limb fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in limb fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||<0.001
92171182|NCT00448669|184231553|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.004|TWO_SIDED|95.0|1.05|1.28|||Regression, Logistic|In this univariate model with the analysis of number of condomless sex acts, our model estimates the odds of reporting no condomless sex acts.||"A logistic regression was used to estimate the odds of reporting zero condomless sex acts. The longitudinal dependent variable (number of condomless sex acts) was defined as:~Number of condomless vaginal sexual acts with both casual and main partners among those who reported having had at least one sexual partner in the previous 30 days."||1.28|1.05|0.004
92279934|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.366||||0.0384|TWO_SIDED|95.0|-0.711|-0.02||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.020|-0.711|0.0384
92437070|NCT01529346|184758994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.32|0.45||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.45|-0.32|
92437071|NCT01529346|184758995|SUPERIORITY_OR_OTHER||LS Mean Difference|2.07|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|0.43|3.71||||||SPID(6): LS mean estimate of the treatment difference along with 90% confidence interval (CI) were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||3.71|0.43|
92437072|NCT01529346|184758995|SUPERIORITY_OR_OTHER||LS Mean Difference|1.69|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|0.05|3.33||||||SPID(6): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||3.33|0.05|
92437073|NCT01529346|184758995|SUPERIORITY_OR_OTHER||LS Mean Difference|2.34|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|90.0|0.69|3.99||||||SPID(6): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||3.99|0.69|
92437074|NCT01529346|184758995|SUPERIORITY_OR_OTHER||LS Mean Difference|6.99|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|5.19|8.79||||||SPID(6): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||8.79|5.19|
92437075|NCT01529346|184758995|SUPERIORITY_OR_OTHER||LS Mean Difference|9.8|STANDARD_ERROR_OF_MEAN|4.74|||TWO_SIDED|90.0|1.97|17.63||||||SPID(24): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||17.63|1.97|
92437076|NCT01529346|184758995|SUPERIORITY_OR_OTHER||LS Mean Difference|3.55|STANDARD_ERROR_OF_MEAN|4.74|||TWO_SIDED|90.0|-4.28|11.37||||||SPID(24): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||11.37|-4.28|
92437077|NCT01529346|184758995|SUPERIORITY_OR_OTHER||LS Mean Difference|10.82|STANDARD_ERROR_OF_MEAN|4.76|||TWO_SIDED|90.0|2.97|18.68||||||SPID(24): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||18.68|2.97|
92437078|NCT01529346|184758995|SUPERIORITY_OR_OTHER||LS Mean Difference|22.39|STANDARD_ERROR_OF_MEAN|5.19|||TWO_SIDED|90.0|13.82|30.97||||||SPID(24): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||30.97|13.82|
92437079|NCT01529346|184758996|SUPERIORITY_OR_OTHER||LS Mean Difference|12.26|STANDARD_ERROR_OF_MEAN|6.66|||TWO_SIDED|90.0|1.26|23.27||||||LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||23.27|1.26|
92437080|NCT01529346|184758996|SUPERIORITY_OR_OTHER||LS Mean Difference|4.18|STANDARD_ERROR_OF_MEAN|6.66|||TWO_SIDED|90.0|-6.82|15.18||||||LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||15.18|-6.82|
92437081|NCT01529346|184758996|SUPERIORITY_OR_OTHER||LS Mean Difference|12.57|STANDARD_ERROR_OF_MEAN|6.69|||TWO_SIDED|90.0|1.52|23.61||||||||23.61|1.52|
92437082|NCT01529346|184758996|SUPERIORITY_OR_OTHER||LS Mean Difference|32.56|STANDARD_ERROR_OF_MEAN|7.3|||TWO_SIDED|90.0|20.51|44.61||||||||44.61|20.51|
92437083|NCT01529346|184758997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|90.0|0.6|1.5||||||Hazard Ratio (HR) estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.5|0.6|
92437084|NCT01529346|184758997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3|||||TWO_SIDED|90.0|0.9|1.9||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.9|0.9|
92437085|NCT01529346|184758997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|90.0|0.7|1.6||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.6|0.7|
92437086|NCT01529346|184758997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6|||||TWO_SIDED|90.0|1.0|2.4||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.4|1.0|
92437087|NCT01529346|184758998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.0|||||TWO_SIDED|90.0|1.1|3.8||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||3.8|1.1|
92437088|NCT01529346|184758998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.6|||||TWO_SIDED|90.0|1.4|4.9||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||4.9|1.4|
92437089|NCT01529346|184758998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.2|||||TWO_SIDED|90.0|1.1|4.1||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||4.1|1.1|
92171183|NCT00448669|184231554|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79|||||||Fisher Exact|||Fisher's Exact Test was performed to test for differences between the treatment groups in terms of adherence based on pill count.||||0.79
92437090|NCT01529346|184758998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.3|||||TWO_SIDED|90.0|2.8|9.9||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||9.9|2.8|
92437091|NCT01529346|184758999|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|90.0|0.4|1.0||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.0|0.4|
92437092|NCT01529346|184758999|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|90.0|0.5|1.2||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.2|0.5|
92437093|NCT01529346|184758999|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||||TWO_SIDED|90.0|0.3|0.8||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||0.8|0.3|
92437094|NCT01529346|184758999|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||||TWO_SIDED|90.0|0.2|0.6||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||0.6|0.2|
92437095|NCT02282020|184759018|SUPERIORITY||Odds Ratio (OR)|2.53||||0.002|TWO_SIDED|95.0|1.4|4.58|||Regression, Logistic|Model includes a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months)|An odds ratio \>1 favours the olaparib arm|||4.58|1.40|0.002
92437096|NCT02282020|184759019|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.013|TWO_SIDED|95.0|0.43|0.91||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.91|0.43|0.013
92437097|NCT02282020|184759020|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.229|TWO_SIDED|95.0|0.56|1.15||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.15|0.56|0.229
92437098|NCT02282020|184759021|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.714|TWO_SIDED|95.0|0.76|1.49||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.49|0.76|0.714
92437099|NCT02282020|184759022|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.005|TWO_SIDED|95.0|0.41|0.85||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \<1 favours the olaparib arm|||0.85|0.41|0.005
92437100|NCT02282020|184759023|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.35|0.69||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.69|0.35|<0.001
92437101|NCT02282020|184759024|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.089|TWO_SIDED|95.0|0.53|1.05||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.05|0.53|0.089
92437102|NCT02282020|184759025|SUPERIORITY||Hazard Ratio (HR)|0.2|||<|0.001|TWO_SIDED|95.0|0.14|0.29||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.29|0.14|<0.001
92279935|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.093||||0.5876|TWO_SIDED|95.0|-0.431|0.245||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.245|-0.431|0.5876
92437103|NCT02282020|184759028|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.108|TWO_SIDED|95.0|-0.5|5.5|||Mixed Models Analysis|Model includes factors for patient, treatment, visit, treatment by visit interaction, baseline TOI score and baseline TOI score by visit interaction.||||5.5|-0.5|0.108
92437104|NCT02282020|184759029|SUPERIORITY||Odds Ratio (OR)|2.24||||0.092|TWO_SIDED|95.0|0.88|6.86||Estimated from an unadjusted logistic regression model|Regression, Logistic||An odds ratio \> 1 favours the olaparib arm|||6.86|0.88|0.092
92437105|NCT02282020|184759030|SUPERIORITY||Odds Ratio (OR)|2.4||||0.004|TWO_SIDED|95.0|1.32|4.39||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Regression, Logistic||An odds ratio \> 1 favours the olaparib arm|||4.39|1.32|0.004
92437106|NCT02282020|184759031|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.014|TWO_SIDED|95.0|0.42|0.91||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.91|0.42|0.014
92437107|NCT02282020|184759032|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.213|TWO_SIDED|95.0|0.56|1.14||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.14|0.56|0.213
92279936|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.298||||0.0842|TWO_SIDED|95.0|-0.636|0.04||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.040|-0.636|0.0842
92437108|NCT02282020|184759033|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.699|TWO_SIDED|95.0|0.76|1.51||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.51|0.76|0.699
92437109|NCT02282020|184759034|SUPERIORITY||Hazard Ratio (HR)|0.18|||<|0.001|TWO_SIDED|95.0|0.12|0.27||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.27|0.12|<0.001
92437110|NCT02282020|184759035|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.33|0.66||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.66|0.33|<0.001
92437111|NCT02282020|184759036|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.055|TWO_SIDED|95.0|0.51|1.01||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.01|0.51|0.055
92437112|NCT01084174|184759060|OTHER|||||||0.003|||||||Regression, Linear|Analyzed by linear regression models using generalized estimating equations to account for repeated measures over time with robust standard errors||||||.003
92437113|NCT01084174|184759061|OTHER||||||<|0.001|||||||Regression, Linear|||||||<.001
92437114|NCT01084174|184759062|OTHER||||||<|0.001|||||||Regression, Linear|||||||<.001
92437115|NCT01084174|184759063|OTHER|||||||0.4|||||||Regression, Linear|||||||0.40
92437116|NCT01084174|184759064|OTHER|||||||0.07|||||||Regression, Linear|||||||.07
92437117|NCT01084174|184759065|OTHER|||||||0.007|||||||Regression, Linear|||||||.007
92437118|NCT03103919|184759097|SUPERIORITY||Mean Difference (Final Values)|-4.31|||=|0.134|TWO_SIDED|95.0|-10.04|1.41|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||1.41|-10.04|=0.134
92437119|NCT03103919|184759098|SUPERIORITY||Mean Difference (Final Values)|0.01|||=|0.982|TWO_SIDED|95.0|-0.44|0.45|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.45|-0.44|=0.982
92437120|NCT03103919|184759099|SUPERIORITY||Mean Difference (Final Values)|-0.18|||=|0.566|TWO_SIDED|95.0|-0.81|0.45|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.45|-0.81|=0.566
92437121|NCT03103919|184759100|SUPERIORITY||Mean Difference (Final Values)|-0.07|||=|0.72|TWO_SIDED|95.0|-0.5|0.35|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.35|-0.50|=0.720
92437122|NCT03103919|184759101|SUPERIORITY||Mean Difference (Final Values)|0.15|||=|0.443|TWO_SIDED|95.0|-0.24|0.53|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.53|-0.24|=0.443
92437123|NCT03103919|184759102|SUPERIORITY||Mean Difference (Final Values)|-0.09|||=|0.777|TWO_SIDED|95.0|-0.75|0.57|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.57|-0.75|=0.777
92437124|NCT03103919|184759103|SUPERIORITY||Mean Difference (Final Values)|-0.01|||=|0.947|TWO_SIDED|95.0|-0.33|0.31|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.31|-0.33|=0.947
92437125|NCT03103919|184759104|SUPERIORITY||Mean Difference (Final Values)|-0.27|||=|0.306|TWO_SIDED|95.0|-0.79|0.26|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.26|-0.79|=0.306
92437126|NCT03103919|184759105|SUPERIORITY||Mean Difference (Final Values)|0.03|||=|0.819|TWO_SIDED|95.0|-0.25|0.31|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.31|-0.25|=0.819
92437127|NCT03103919|184759106|SUPERIORITY||Mean Difference (Final Values)|0.07|||=|0.663|TWO_SIDED|95.0|-0.26|0.41|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.||||0.41|-0.26|=0.663
92437128|NCT03103919|184759107|SUPERIORITY||Mean Difference (Final Values)|-0.2|||=|0.197|TWO_SIDED|95.0|-0.51|0.11|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.||||0.11|-0.51|=0.197
92437129|NCT03103919|184759110|SUPERIORITY||Odds Ratio (OR)|1.14|||=|0.876|TWO_SIDED|95.0|0.23|5.66||P-values for the comparison of treatment groups have been calculated using logistic regression with factors for treatment and center.|Regression, Logistic||Odds ratio was calculated as Control Group/Experimental Group (Rotigotine + Standard Care SS / Rotigotine + Standard Care + Kinesia-360™ wearable device SS) calculated using logistic regression with factors for treatment and center.|||5.66|0.23|=0.876
92437130|NCT01124422|184759112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.6|STANDARD_ERROR_OF_MEAN|20.58||0.181|TWO_SIDED|95.0|-68.2|13.0||ANCOVA model with terms for treatment, investigator, Oxycon stratum, and baseline value|ANCOVA|||||13.0|-68.2|0.181
92437131|NCT02959944|184759134|SUPERIORITY||Difference in Rates|0.043||||0.5384|TWO_SIDED|95.0|-0.094|0.181||P-value is computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval is computed using normal approximation.|||0.181|-0.094|0.5384
92437132|NCT02959944|184759135|SUPERIORITY||Difference in Rates|0.043||||0.5384|TWO_SIDED|95.0|-0.094|0.181||P-value is computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval is computed using normal approximation.|||0.181|-0.094|0.5384
92437133|NCT02959944|184759136|SUPERIORITY|||||||0.324||||||Gray's chi-square test (p-value) was calculated using SAS lifetest procedure adjusting for competing risks including death, cGVHD progression, relapse of underlying disease, and start of subsequent cGVHD therapy.|Chi-squared|||||||0.324
92437134|NCT02959944|184759137|SUPERIORITY|||||||0.281||||||Gray's chi-square test (p-value) was calculated using SAS lifetest procedure adjusting for competing risks including death, cGVHD progression, relapse of underlying disease, and start of subsequent cGVHD therapy.|Chi-squared|||||||0.281
92171184|NCT02638337|184231578|SUPERIORITY||LS Mean Difference|-21.8|||<|0.0001|TWO_SIDED|95.0|-25.7|-18.0|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||For the percentage of parabasal cells a mixed-effects model for repeated measures (MMRM) approach was used, with repeated measurements of the change from baseline as the response variable; treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||-18.0|-25.7|<0.0001
92437135|NCT02959944|184759138|SUPERIORITY|||||||0.275||||||Gray's chi-square test (p-value) was calculated using SAS lifetest procedure adjusting for competing risks including death, cGVHD progression, relapse of underlying disease, and start of subsequent cGVHD therapy.|Chi-squared|||||||0.275
92437136|NCT02959944|184759139|SUPERIORITY|||||||0.216||||||Gray's chi-square test (p-value) was calculated using SAS lifetest procedure adjusting for competing risks including death, cGVHD progression, relapse of underlying disease, and start of subsequent cGVHD therapy.|Chi-squared|||||||0.216
92437137|NCT02959944|184759140|SUPERIORITY||Difference in Rates|-0.067||||0.351|TWO_SIDED|95.0|-0.208|0.074||P-value was computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval is computed using normal approximation.|||0.074|-0.208|0.3510
92437138|NCT02959944|184759141|SUPERIORITY||Difference in Rates|-0.067||||0.351|TWO_SIDED|95.0|-0.208|0.074||P-value was computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval is computed using normal approximation.|||0.074|-0.208|0.3510
92437139|NCT02959944|184759142|SUPERIORITY||Difference in Rates|0.124||||0.0659|TWO_SIDED|95.0|-0.007|0.256||P-value is computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval is computed using normal approximation.|||0.256|-0.007|0.0659
92437140|NCT02959944|184759143|SUPERIORITY||Difference in Rates|0.125||||0.0708|TWO_SIDED|95.0|-0.01|0.261||P-value is computed using non-stratified Chi-Square test.|Chi-squared|||||0.261|-0.010|0.0708
92437141|NCT02959944|184759144|SUPERIORITY||Difference in Rates|-0.059||||0.4064|TWO_SIDED|95.0|-0.199|0.08||P-value was computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval was computed using normal approximation.|||0.080|-0.199|0.4064
92437142|NCT02959944|184759145|SUPERIORITY||Difference in Rates|-0.049||||0.4955|TWO_SIDED|95.0|-0.188|0.091||P-value was computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval was computed using normal approximation.|||0.091|-0.188|0.4955
92171185|NCT02638337|184231579|SUPERIORITY||LS Mean Difference|7.2|||<|0.0001|TWO_SIDED|95.0|5.2|9.1|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||||9.1|5.2|<0.0001
92437143|NCT02959944|184759146|SUPERIORITY||Hazard Ratio (HR)|0.994|||||TWO_SIDED|95.0|0.507|1.949|||||Hazard ratio is estimated using unstratified Cox regression model with treatment as the only covariate.|||1.949|0.507|
92437144|NCT02959944|184759147|SUPERIORITY||Hazard Ratio (HR)|1.061|||||TWO_SIDED|95.0|0.591|1.904|||||Hazard ratio is estimated using unstratified Cox regression model with treatment as the only covariate.|||1.904|0.591|
92437145|NCT02959944|184759148|SUPERIORITY||Hazard Ratio (HR)|0.697||||0.101|TWO_SIDED|95.0|0.451|1.076|||Regression, Cox|||||1.076|0.451|0.1010
92437146|NCT02959944|184759149|SUPERIORITY||Hazard Ratio (HR)|0.717||||0.1004|TWO_SIDED|95.0|0.482|1.068|||Regression, Cox|||||1.068|0.482|0.1004
92437147|NCT03070782|184759186|SUPERIORITY||Mean Difference in % CFB|-31.0||||0.0032|TWO_SIDED|95.0|-46.0|-12.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|||-12|-46|0.0032
92437148|NCT03070782|184759186|SUPERIORITY||Mean Difference in % CFB|-54.0|||<|0.0001|TWO_SIDED|95.0|-64.0|-41.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-41|-64|<.0001
92437149|NCT03070782|184759186|SUPERIORITY||Mean Difference in % CFB|-70.0|||<|0.0001|TWO_SIDED|95.0|-77.0|-62.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-62|-77|<.0001
92437150|NCT03070782|184759186|SUPERIORITY||Mean Difference in % CFB|-56.0|||<|0.0001|TWO_SIDED|95.0|-65.0|-43.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-43|-65|<.0001
92437151|NCT03070782|184759186|SUPERIORITY||Mean Difference in % CFB|-78.0|||<|0.0001|TWO_SIDED|95.0|-83.0|-72.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-72|-83|<.0001
92238050|NCT03151148|184380353|SUPERIORITY||Geometric mean ratio (GMR)|3.44||||0.177|TWO_SIDED|95.0|0.57|20.749|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||20.749|0.570|0.177
92238051|NCT03151148|184380353|SUPERIORITY||Geometric mean ratio (GMR)|1.7||||0.558|TWO_SIDED|95.0|0.288|9.973|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||9.973|0.288|0.558
92239886|NCT00109733|184383697|SUPERIORITY_OR_OTHER|||||||0.041|||||||ANOVA|||"The null hypothesis (% change in trunk to limb fat ratio from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in trunk to limb fat ratio from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.041
92437152|NCT03070782|184759190|SUPERIORITY||Mean Difference in % CFB|-6.0||||0.4407|TWO_SIDED|95.0|-19.0|9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||9|-19|0.4407
92437153|NCT03070782|184759190|SUPERIORITY||Mean Difference in % CFB|-25.0|||<|0.0001|TWO_SIDED|95.0|-35.0|-13.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-13|-35|<.0001
92437154|NCT03070782|184759190|SUPERIORITY||Mean Difference in % CFB|-14.0||||0.0368|TWO_SIDED|95.0|-26.0|-1.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-1|-26|0.0368
92437155|NCT03070782|184759190|SUPERIORITY||Mean Difference in % CFB|-16.0||||0.0216|TWO_SIDED|95.0|-28.0|-3.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-3|-28|0.0216
92437156|NCT03070782|184759190|SUPERIORITY||Mean Difference in % CFB|-22.0||||0.0012|TWO_SIDED|95.0|-33.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-9|-33|0.0012
92437157|NCT03070782|184759191|SUPERIORITY||Odds Ratio (OR)|4.98||||0.0286|TWO_SIDED|95.0|1.2|21.0|||Regression, Logistic|||||21.0|1.2|0.0286
92437158|NCT03070782|184759191|SUPERIORITY||Odds Ratio (OR)|31.07|||<|0.0001|TWO_SIDED|95.0|7.3|131.4|||Regression, Logistic|||||131.4|7.3|<.0001
92437159|NCT03070782|184759191|SUPERIORITY||Odds Ratio (OR)|122.81|||<|0.0001|TWO_SIDED|95.0|24.0|627.4|||Regression, Logistic|||||627.4|24.0|<.0001
92437160|NCT03070782|184759191|SUPERIORITY||Odds Ratio (OR)|43.78|||<|0.0001|TWO_SIDED|95.0|9.8|195.0|||Regression, Logistic|||||195.0|9.8|<.0001
92437161|NCT03070782|184759191|SUPERIORITY||Odds Ratio (OR)|1124.56|||<|0.0001|TWO_SIDED|95.0|109.3|11571.0|||Regression, Logistic|||||11571|109.3|<.0001
92437162|NCT03070782|184759192|SUPERIORITY||Odds Ratio (OR)|7.34||||0.2007|TWO_SIDED|95.0|0.3|155.3|||Regression, Logistic|||||155.3|0.3|0.2007
92437163|NCT03070782|184759192|SUPERIORITY||Odds Ratio (OR)|27.92||||0.0258|TWO_SIDED|95.0|1.5|521.5|||Regression, Logistic|||||521.5|1.5|0.0258
92437164|NCT03070782|184759192|SUPERIORITY||Odds Ratio (OR)|113.92||||0.0014|TWO_SIDED|95.0|6.2|2098.5|||Regression, Logistic|||||2098.5|6.2|0.0014
92437165|NCT03070782|184759192|SUPERIORITY||Odds Ratio (OR)|59.85||||0.0063|TWO_SIDED|95.0|3.2|1128.0|||Regression, Logistic|||||1128.0|3.2|0.0063
92437166|NCT03070782|184759192|SUPERIORITY||Odds Ratio (OR)|347.02|||<|0.0001|TWO_SIDED|95.0|18.3|6597.9|||Regression, Logistic|||||6597.9|18.3|<.0001
92437167|NCT03070782|184759193|SUPERIORITY||Mean Difference in % CFB|-4.0||||0.4022|TWO_SIDED|95.0|-12.0|5.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||5|-12|0.4022
92437168|NCT03070782|184759193|SUPERIORITY||Mean Difference in % CFB|-16.0|||<|0.0001|TWO_SIDED|95.0|-23.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-9|-23|<.0001
92437169|NCT03070782|184759193|SUPERIORITY||Mean Difference in % CFB|-9.0||||0.0323|TWO_SIDED|95.0|-17.0|-1.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-1|-17|0.0323
92437170|NCT03070782|184759193|SUPERIORITY||Mean Difference in % CFB|-10.0||||0.0157|TWO_SIDED|95.0|-18.0|-2.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-2|-18|0.0157
92437171|NCT03070782|184759193|SUPERIORITY||Mean Difference in % CFB|-17.0|||<|0.0001|TWO_SIDED|95.0|-24.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-9|-24|<.0001
92437172|NCT03070782|184759194|SUPERIORITY||Mean Difference in % CFB|-9.0||||0.4956|TWO_SIDED|95.0|-32.0|21.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||21|-32|0.4956
92437173|NCT03070782|184759194|SUPERIORITY||Mean Difference in % CFB|-36.0||||0.0027|TWO_SIDED|95.0|-52.0|-14.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-14|-52|0.0027
92446628|NCT00727194|184780282|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED|||||No multiple comparisons or multiplicity adjustments were conducted.|Chi-squared|||||||1.0000
92446629|NCT00727194|184780282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0606|TWO_SIDED|||||No multiple comparisons or multiplicity adjustments were conducted.|Chi-squared|||||||0.0606
92239887|NCT00109733|184383697|SUPERIORITY_OR_OTHER|||||||0.044|||||||ANOVA|||"The null hypothesis (% change in trunk to limb fat ratio from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in trunk to limb fat ratio from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.044
92239888|NCT01234402|184383706|OTHER||Hazard Ratio (HR)|0.691||||0.1315|TWO_SIDED|95.0|0.429|1.114|||Log Rank|||Kaplan-Meier methodology estimated median PFS||1.114|0.429|0.1315
92437174|NCT03070782|184759194|SUPERIORITY||Mean Difference in % CFB|-54.0|||<|0.0001|TWO_SIDED|95.0|-65.0|-38.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-38|-65|<.0001
92437175|NCT03070782|184759194|SUPERIORITY||Mean Difference in % CFB|-31.0||||0.0114|TWO_SIDED|95.0|-48.0|-8.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-8|-48|0.0114
92437176|NCT03070782|184759194|SUPERIORITY||Mean Difference in % CFB|-62.0|||<|0.0001|TWO_SIDED|95.0|-72.0|-49.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-49|-72|<.0001
92437177|NCT03070782|184759195|SUPERIORITY||Mean Difference in % CFB|-45.0||||0.002|TWO_SIDED|95.0|-62.0|-19.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-19|-62|0.0020
92437178|NCT03070782|184759195|SUPERIORITY||Mean Difference in % CFB|-63.0|||<|0.0001|TWO_SIDED|95.0|-74.0|-46.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-46|-74|<.0001
92437179|NCT03070782|184759195|SUPERIORITY||Mean Difference in % CFB|-82.0|||<|0.0001|TWO_SIDED|95.0|-87.0|-73.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-73|-87|<.0001
92437180|NCT03070782|184759195|SUPERIORITY||Mean Difference in % CFB|-68.0|||<|0.0001|TWO_SIDED|95.0|-78.0|-54.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-54|-78|<.0001
92437181|NCT03070782|184759195|SUPERIORITY||Mean Difference in % CFB|-89.0|||<|0.0001|TWO_SIDED|95.0|-93.0|-84.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-84|-93|<.0001
92437182|NCT01830699|184759199|NON_INFERIORITY_OR_EQUIVALENCE|For details of power calculation, see above. Using a minimal clinical importance of -9.1, the null hypothesis was a mean difference less than -9.1.|Mean Difference (Final Values)|-23.9||||0.004|||||||t-test, 2 sided|||"Setting α=0.05 and β=0.8, with effect size of 0.17 anticipated total n = 138 to be recruited (requested recruitment of 150 to account for possible drop-outs)~1st data analysis (n = 33), effect size calculated at 1.1 with new n = 29 with α=0.05 and β=1.0."||||0.004
92437183|NCT01830699|184759200|NON_INFERIORITY_OR_EQUIVALENCE|See details above regarding effect size, power, etc.||||||0.044|||||||t-test, 2 sided|||"Setting α=0.05 and β=0.8, with effect size of 0.17 anticipated total n = 138 to be recruited (requested recruitment of 150 to account for possible drop-outs)~1st data analysis (n = 33), effect size calculated at 1.1 with new n = 29 with α=0.05 and β=1.0."||||0.044
92437184|NCT02288559|184759207|SUPERIORITY||Difference in Adjusted Means|0.435||||0.0428|TWO_SIDED|80.0|0.162|0.707|||Mixed-Effect Model Repeated Measures|MMRM analysis variables: treatment group, visit, treatment-by-visit interaction, baseline GA area, and BCVA ETDRS chart Snellen equivalent category.||||0.707|0.162|0.0428
92437185|NCT02288559|184759207|SUPERIORITY||Difference in Adjusted Means|-0.21||||0.3361|TWO_SIDED|80.0|-0.491|0.071|||MMRM|MMRM analysis variables: treatment group, visit, treatment-by-visit interaction, baseline GA area, and BCVA ETDRS chart Snellen equivalent category.||||0.071|-0.491|0.3361
92437186|NCT02135146|184759222|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||||||0.31
92437187|NCT02135146|184759222|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
92437188|NCT00810407|184759233|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||"The factor tested was diagnosis. The null hypothesis was that there was no association between diagnosis and the number of participants with treatment-related adverse events."||||<0.001
92437189|NCT00810407|184759234|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||"The factor tested was gender. The null hypothesis was that there was no association between gender and the number of participants with treatment-related adverse events."||||<0.001
92437190|NCT00810407|184759235|SUPERIORITY_OR_OTHER|||||||0.587|||||||Fisher Exact|||"The factor tested was age. The null hypothesis was that there was no association between age of participants and the number of participants with treatment-related adverse events."||||0.587
92437191|NCT00810407|184759235|SUPERIORITY_OR_OTHER|||||||0.428|||||||Cochran-Armitage (EXACT)|||"The factor tested was age. The null hypothesis was that there was no ordinal trend in the number of participants with treatment-related adverse events across the age at baseline."||||0.428
92437192|NCT02320149|184759260|SUPERIORITY||Least Squares Mean Difference|-5.2|||<|0.0001|TWO_SIDED|95.0|-6.7|-3.6||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|||-3.6|-6.7|< 0.0001
92437193|NCT02320149|184759261|SUPERIORITY||Treatment Rate Difference|11.05|||<|0.0001|TWO_SIDED|95.0|6.39|15.72||P-values were based on the test of general association between the response and treatment group using Cochran-Mantel-Haenszel test with pooled site as stratification factor.|Cochran-Mantel-Haenszel||sarecycline - placebo|||15.72|6.39|< 0.0001
92437194|NCT02320149|184759262|SUPERIORITY||Least Squares Mean Difference|-16.7|||<|0.0001|TWO_SIDED|95.0|-21.9|-11.6||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 12||-11.6|-21.9|< 0.0001
92437195|NCT02320149|184759263|SUPERIORITY||Least Squares Mean Difference|-12.5|||<|0.0001||95.0|-16.9|-8.0||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 9||-8.0|-16.9|< 0.0001
92239889|NCT01234402|184383706|OTHER||Hazard Ratio (HR)|1.48||||0.0851|TWO_SIDED|95.0|0.938|2.335|||Log Rank|||Kaplan-Meier methodology estimated median PFS||2.335|0.938|0.0851
92171186|NCT02638337|184231580|SUPERIORITY||LS Mean Difference|-0.72|||<|0.0001|TWO_SIDED|95.0|-0.84|-0.59|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||||-0.59|-0.84|<0.0001
92437196|NCT02320149|184759264|SUPERIORITY||Least Squares Mean Difference|-13.3|||<|0.0001|TWO_SIDED|95.0|-17.5|-9.1||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 6||-9.1|-17.5|< 0.0001
92437197|NCT02320149|184759265|SUPERIORITY||Least Squares Mean Difference|-7.2||||0.0003|TWO_SIDED|95.0|-11.1|-3.3||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 3||-3.3|-11.1|0.0003
92437198|NCT02320149|184759266|SUPERIORITY||Least Squares Mean Difference|-3.9|||<|0.0001|TWO_SIDED|95.0|-5.3|-2.5||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 9||-2.5|-5.3|< 0.0001
92437199|NCT02320149|184759267|SUPERIORITY||Least Squares Mean Difference|-4.1|||<|0.0001|TWO_SIDED|95.0|-5.4|-2.9||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 6||-2.9|-5.4|< 0.0001
92437200|NCT02320149|184759268|SUPERIORITY||Least Squares Mean Difference|-2.1||||0.0005|TWO_SIDED|95.0|-3.3|-0.9||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 3||-0.9|-3.3|0.0005
92437201|NCT02320149|184759269|SUPERIORITY||Least Squares Mean Difference|-4.3||||0.5786|TWO_SIDED|95.0|-19.4|10.8||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 12||10.8|-19.4|0.5786
92437202|NCT02320149|184759270|SUPERIORITY||Least Squares Mean Difference|-2.8||||0.6969|TWO_SIDED|95.0|-17.1|11.4||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 9||11.4|-17.1|0.6969
92437203|NCT02320149|184759271|SUPERIORITY||Least Squares Mean Difference|3.0||||0.7377|TWO_SIDED|95.0|-14.7|20.7||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 6||20.7|-14.7|0.7377
92437204|NCT02320149|184759272|SUPERIORITY||Least Squares Mean Difference|6.4||||0.2861|TWO_SIDED|95.0|-5.3|18.1||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 3||18.1|-5.3|0.2861
92437205|NCT02320149|184759273|SUPERIORITY||Least Squares Mean Difference|-3.9||||0.0014|TWO_SIDED|95.0|-6.3|-1.5||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 12||-1.5|-6.3|0.0014
92171187|NCT02638337|184231581|SUPERIORITY||Odds Ratio (OR)|2.23|||<|0.0001|TWO_SIDED|95.0|1.62|3.06|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|For the MBS of vaginal dryness a generalized estimating equations (GEE) model was used to fit a marginal proportional odds model to the longitudinal ordered categorical data, with repeated measurements of the change from baseline as the response variable; treatment, week, treatment by week interaction, and study center as fixed effects; and baseline severity of dryness modeled as a covariate.||3.06|1.62|<0.0001
92239890|NCT01234402|184383707|OTHER||Hazard Ratio (HR)|1.833||||0.0283|TWO_SIDED|95.0|1.06|3.169|||Log Rank|||||3.169|1.060|0.0283
92437206|NCT02320149|184759274|SUPERIORITY||Least Squares Mean Difference|-3.4||||0.001|TWO_SIDED|95.0|-5.5|-1.4||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 9||-1.4|-5.5|0.0010
92437207|NCT02320149|184759275|SUPERIORITY||Least Squares Mean Difference|-2.0||||0.0371|TWO_SIDED|95.0|-4.0|-0.1||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 6||-0.1|-4.0|0.0371
92437208|NCT02320149|184759276|SUPERIORITY||Least Squares Mean Difference|-0.8||||0.3806|TWO_SIDED|95.0|-2.5|1.0||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 3||1.0|-2.5|0.3806
92437209|NCT00333866|184759290|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) mean difference|-0.23||||0.2361|TWO_SIDED|95.0|-0.61|0.15|||ANCOVA|Hochberg's approach was used to protect the Type I error rate at 0.05 level, Hochberg adjusted p-values were presented.||P value was calculated using Analysis of Covariance (ANCOVA) with treatment and center in the model, and the baseline mean pain score as covariate.||0.15|-0.61|0.2361
92437210|NCT00333866|184759290|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56||||0.0132|TWO_SIDED|95.0|-0.94|-0.17|||ANCOVA|Hochberg's approach was used to protect the Type I error rate at 0.05 level, Hochberg adjusted p-values were presented.||P value was calculated using ANCOVA with treatment and center in the model, and the baseline mean pain score as covariate.||-0.17|-0.94|0.0132
92239891|NCT01234402|184383707|OTHER||Hazard Ratio (HR)|1.468||||0.155|TWO_SIDED|95.0|0.862|2.501|||Log Rank|||||2.501|0.862|0.1550
92437211|NCT00333866|184759290|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) mean difference|-0.33||||0.1694|TWO_SIDED|95.0|-0.72|0.05|||ANCOVA|Hochberg's approach was used to protect the Type I error rate at 0.05 level, Hochberg adjusted p-values were presented.||P value was calculated using ANCOVA with treatment and center in the model, and the baseline mean pain score as covariate.||0.05|-0.72|0.1694
92437212|NCT00333866|184759291|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0227||95.0|||||Cochran-Mantel-Haenszel|||P-values less than 0.05 (2-sided) considered statistically significant. P-values were calculated using a modified ridit transformation with the Cochran-Mantel-Haenszel procedure, adjusting for center.||||0.0227
92238052|NCT03151148|184380353|SUPERIORITY||Geometric mean ratio (GMR)|1.04||||0.977|TWO_SIDED|95.0|0.082|13.151|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||13.151|0.082|0.977
92239892|NCT01234402|184383708|OTHER|||||||0.6691|||||||Fisher Exact|||||||0.6691
92239893|NCT01234402|184383708|OTHER|||||||0.1743|||||||Fisher Exact|||||||0.1743
92239894|NCT00506077|184383737|SUPERIORITY_OR_OTHER|||||||0.939||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.05 was used among 1 primary and 3 secondary cognition efficacy endpoints to control the false positive rate.|constrained longitudinal data analysis|The model factors were treatment, sequence, period, week (as categorical variable), site, treatment-by-week, sequence-by-week, and period-by-week.||||||0.939
92239895|NCT00506077|184383738|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||P-Value Comments (limit 250 characters): The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.05 was used among 1 primary and 3 secondary cognition efficacy endpoints to control the false positive rate.|constrained Longitudinal Data Analysis|The model factors were treatment, sequence, period, week (as categorical variable), site, treatment-by-week, sequence-by-week, and period-by-week.||||||0.736
92437213|NCT00333866|184759291|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0|||||Cochran-Mantel-Haenszel|||P-values less than 0.05 (2-sided) considered statistically significant. P-values were calculated using a modified ridit transformation with the Cochran-Mantel-Haenszel procedure, adjusting for center.||||0.0017
92437214|NCT00333866|184759291|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0768||95.0|||||Cochran-Mantel-Haenszel|||P-values less than 0.05 (2-sided) considered statistically significant. P-values were calculated using a modified ridit transformation with the Cochran-Mantel-Haenszel procedure, adjusting for center.||||0.0768
92437215|NCT00333866|184759292|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.01|||<|0.0001|TWO_SIDED|95.0|-1.42|-0.6|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline mean sleep score as covariate.||-0.60|-1.42|<.0001
92437216|NCT00333866|184759292|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.78||||0.0002|TWO_SIDED|95.0|-1.2|-0.37|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline mean sleep score as covariate.||-0.37|-1.20|0.0002
92437217|NCT00333866|184759292|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.48||||0.0222|TWO_SIDED|95.0|-0.89|-0.07|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline mean sleep score as covariate.||-0.07|-0.89|0.0222
92437218|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 1: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.2|<.0001
92437219|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.7||||0.0003|TWO_SIDED|95.0|-1.1|-0.3|||Mixed Model Repeated Measures ANCOVA|||Week 1: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.3|-1.1|0.0003
92437220|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 1: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
92437221|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.6|||Mixed Model Repeated Measures ANCOVA|||Week 2: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.6|-1.3|<.0001
92437222|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 2: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
92437223|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.86|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 2: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.2|<.0001
92437224|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.8|||Mixed Model Repeated Measures ANCOVA|||Week 3: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.8|-1.5|<.0001
92437225|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 3: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
92437226|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.67||||0.0005|TWO_SIDED|95.0|-1.0|-0.3|||Mixed Model Repeated Measures ANCOVA|||Week 3: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.3|-1.0|0.0005
92437227|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.28|||<|0.0001||95.0|-1.7|-0.9|||Mixed Model Repeated Measures ANCOVA|||Week 4: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.9|-1.7|<.0001
92437228|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.94|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.6|||Mixed Model Repeated Measures ANCOVA|||Week 4: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.6|-1.3|<.0001
92171188|NCT02638337|184231583|SUPERIORITY||LS Mean Difference|-21.6|||<|0.0001|TWO_SIDED|95.0|-25.2|-18.0|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 4||-18.0|-25.2|<0.0001
92437229|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 4: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
92437230|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.17|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.8|||Mixed Model Repeated Measures ANCOVA|||Week 5: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.8|-1.6|<.0001
92437231|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 5: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.3|<.0001
92437232|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 5: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.2|<.0001
92437233|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.31|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.9|||Mixed Model Repeated Measures ANCOVA|||Week 6: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.9|-1.7|<.0001
92437234|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 6: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.3|<.0001
92437235|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.72||||0.0003|TWO_SIDED|95.0|-1.1|-0.3|||Mixed Model Repeated Measures ANCOVA|||Week 6: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.3|-1.1|0.0003
92437236|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.9|||Mixed Model Repeated Measures ANCOVA|||Week 7: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.9|-1.7|<.0001
92437237|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 7: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.3|<.0001
92437238|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.59||||0.0037|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Model Repeated Measures ANCOVA|||Week 7: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.2|-1.0|0.0037
92437239|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.27|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.9|||Mixed Model Repeated Measures ANCOVA|||Week 8: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.9|-1.7|<.0001
92437240|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.6|||Mixed Model Repeated Measures ANCOVA|||Week 8: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.6|-1.4|<.0001
92437241|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61||||0.0031|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Model Repeated Measures ANCOVA|||Week 8: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.2|-1.0|0.0031
92437242|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.12|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.7|||Mixed Model Repeated Measures ANCOVA|||Week 9: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.7|-1.5|<.0001
92437243|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 9: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
92437244|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.53||||0.0117|TWO_SIDED|95.0|-0.9|-0.1|||Mixed Model Repeated Measures ANCOVA|||Week 9: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.1|-0.9|0.0117
92437245|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.8|||Mixed Model Repeated Measures ANCOVA|||Week 10: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.8|-1.6|<.0001
92446630|NCT00727194|184780283|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.58||||0.1873|TWO_SIDED|95.0|-4.08|0.91||No multiple comparisons or multiplicity adjustments were conducted.|paired t-test|||||0.91|-4.08|0.1873
92279937|NCT02637557|184463078|SUPERIORITY||LS Mean Difference|-0.452||||0.0098|TWO_SIDED|95.0|-0.793|-0.11||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.110|-0.793|0.0098
92437246|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 10: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.3|<.0001
92437247|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61||||0.004|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Model Repeated Measures ANCOVA|||Week 10: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.2|-1.0|0.0040
92437248|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.7|||Mixed Model Repeated Measures ANCOVA|||Week 11: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.7|-1.6|<.0001
92437249|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 11: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
92437250|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56||||0.01|TWO_SIDED|95.0|-1.0|-0.1|||Mixed Model Repeated Measures ANCOVA|||Week 11: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.1|-1.0|0.0100
92437251|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.07|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.6|||Mixed Model Repeated Measures ANCOVA|||Week 12: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.6|-1.5|<.0001
92437252|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.73||||0.0006|TWO_SIDED|95.0|-1.2|-0.3|||Mixed Model Repeated Measures ANCOVA|||Week 12: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.3|-1.2|0.0006
92437253|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4||||0.069|TWO_SIDED|95.0|-0.8|0.0|||Mixed Model Repeated Measures ANCOVA|||Week 12: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||0.0|-0.8|0.0690
92437254|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.8|||Mixed Model Repeated Measures ANCOVA|||Week 13: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.8|-1.6|<.0001
92437255|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 13: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.3|<.0001
92437256|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61||||0.0054|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Model Repeated Measures ANCOVA|||Week 13: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.2|-1.0|0.0054
92437257|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.8|||Mixed Model Repeated Measures ANCOVA|||Week 14: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.8|-1.6|<.0001
92437258|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 14: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.3|<.0001
92437259|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.65||||0.0036|TWO_SIDED|95.0|-1.1|-0.2|||Mixed Model Repeated Measures ANCOVA|||Week 14: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.2|-1.1|0.0036
92437260|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.16|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.9|||Mixed Model Repeated Measures ANCOVA|||Overall: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.9|-1.5|<.0001
92437261|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.86|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.6|||Mixed Model Repeated Measures ANCOVA|||Overall: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.6|-1.1|<.0001
92437262|NCT00333866|184759293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.66|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.4|||Mixed Model Repeated Measures ANCOVA|||Overall: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.0|<.0001
92437263|NCT00333866|184759294|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.537|TWO_SIDED|95.0|0.71|1.95|||Regression, Logistic|||P-values less than 0.05 (2-sided) considered statistically significant. Logistic regression method was used with treatment and center in the model, and the baseline score as covariate.||1.95|0.71|0.5370
92437264|NCT00333866|184759294|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.92||||0.0109|TWO_SIDED|95.0|1.16|3.18|||Regression, Logistic|||P-values less than 0.05 (2-sided) considered statistically significant. Logistic regression method was used with treatment and center in the model, and the baseline score as covariate.||3.18|1.16|0.0109
92437265|NCT00333866|184759294|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01||||0.9613|TWO_SIDED|95.0|0.61|1.68|||Regression, Logistic|||P-values less than 0.05 (2-sided) considered statistically significant. Logistic regression method was used with treatment and center in the model, and the baseline score as covariate.||1.68|0.61|0.9613
92437266|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-12.71|||<|0.0001|TWO_SIDED|95.0|-17.56|-7.86|||ANCOVA|||Sleep Disturbance: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-7.86|-17.56|<.0001
92437267|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-13.28|||<|0.0001|TWO_SIDED|95.0|-18.18|-8.38|||ANCOVA|||Sleep Disturbance: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-8.38|-18.18|<.0001
92437268|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.2||||0.0038|TWO_SIDED|95.0|-12.06|-2.33|||ANCOVA|||Sleep Disturbance: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-2.33|-12.06|0.0038
92437269|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.9||||0.0142|TWO_SIDED|95.0|1.19|10.61|||ANCOVA|||Snoring: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||10.61|1.19|0.0142
92437270|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.92||||0.0414|TWO_SIDED|95.0|0.19|9.66|||ANCOVA|||Snoring: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.66|0.19|0.0414
92437271|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.21||||0.6165|TWO_SIDED|95.0|-3.53|5.95|||ANCOVA|||Snoring: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.95|-3.53|0.6165
92437272|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.24||||0.0005|TWO_SIDED|95.0|-14.44|-4.05|||ANCOVA|||Shortness of Breath, Headache: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-4.05|-14.44|0.0005
92437273|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-11.92|||<|0.0001||95.0|-17.17|-6.68|||ANCOVA|||Shortness of Breath, Headache: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-6.68|-17.17|<.0001
92437274|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.95||||0.0008|TWO_SIDED|95.0|-14.16|-3.74|||ANCOVA|||Shortness of Breath, Headache: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-3.74|-14.16|0.0008
92437275|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.36||||0.0127|TWO_SIDED|95.0|0.08|0.64|||ANCOVA|||Quantity of Sleep: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.64|0.08|0.0127
92437276|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.5||||0.0005|TWO_SIDED|95.0|0.22|0.79|||ANCOVA|||Quantity of Sleep: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.79|0.22|0.0005
92437277|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21||||0.1453|TWO_SIDED|95.0|-0.07|0.49|||ANCOVA|||Quality of Sleep: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.49|-0.07|0.1453
92437278|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.34||||0.1033|TWO_SIDED|95.0|-0.88|9.57|||ANCOVA|||Sleep Adequacy: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.57|-0.88|0.1033
92437279|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|9.14||||0.0007|TWO_SIDED|95.0|3.88|14.41|||ANCOVA|||Sleep Adequacy: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||14.41|3.88|0.0007
92437280|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.56||||0.337|TWO_SIDED|95.0|-2.68|7.81|||ANCOVA|||Sleep Adequacy: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||7.81|-2.68|0.3370
92279938|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|0.054||||0.6663|TWO_SIDED|95.0|-0.193|0.301||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.301|-0.193|0.6663
92238053|NCT03151148|184380353|SUPERIORITY||Geometric mean ratio (GMR)|33.86||||0.007|TWO_SIDED|95.0|2.672|429.219|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||429.219|2.672|0.007
92279939|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|0.148||||0.24|TWO_SIDED|95.0|-0.1|0.396||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.396|-0.100|0.2400
92437281|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.01||||0.3308|TWO_SIDED|95.0|-2.05|6.07|||ANCOVA|||Somnolence: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||6.07|-2.05|0.3308
92437282|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.7||||0.7364|TWO_SIDED|95.0|-3.39|4.8|||ANCOVA|||Somnolence: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.80|-3.39|0.7364
92437283|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.76||||0.7132|TWO_SIDED|95.0|-3.31|4.84|||ANCOVA|||Somnolence: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.84|-3.31|0.7132
92437284|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.9||||0.0002|TWO_SIDED|95.0|-10.54|-3.25|||ANCOVA|||Overall sleep Problem Index: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-3.25|-10.54|0.0002
92437285|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.25|||<|0.0001|TWO_SIDED|95.0|-11.94|-4.55|||ANCOVA|||Overall Sleep Problem Index: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-4.55|-11.94|<.0001
92437286|NCT00333866|184759295|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.36||||0.0197|TWO_SIDED|95.0|-8.02|-0.7|||ANCOVA|||Overall Sleep Problem Index: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.70|-8.02|0.0197
92437287|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17||||0.3627|TWO_SIDED|95.0|-0.54|0.2|||ANCOVA|||FIQ Physical Impairment: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.20|-0.54|0.3627
92437288|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26||||0.1686|TWO_SIDED|95.0|-0.63|0.11|||ANCOVA|||FIQ Physical Impairment: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.11|-0.63|0.1686
92437289|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18||||0.3468|TWO_SIDED|95.0|-0.55|0.19|||ANCOVA|||FIQ Physical Impairment: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.19|-0.55|0.3468
92437290|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11||||0.7147|TWO_SIDED|95.0|-0.71|0.49|||ANCOVA|||FIQ Feel Good: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.49|-0.71|0.7147
92437291|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.63||||0.0409|TWO_SIDED|95.0|-1.23|-0.03|||ANCOVA|||FIQ Feel Good: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.03|-1.23|0.0409
92437292|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.04||||0.9077|TWO_SIDED|95.0|-0.56|0.63|||ANCOVA|||FIQ Feel Good: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.63|-0.56|0.9077
92437293|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14||||0.5923|TWO_SIDED|95.0|-0.64|0.37|||ANCOVA|||FIQ Work Missed: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.37|-0.64|0.5923
92437294|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61||||0.0174|TWO_SIDED|95.0|-1.12|-0.11|||ANCOVA|||FIQ Work Missed: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.11|-1.12|0.0174
92239896|NCT00506077|184383739|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.05 was used among 1 primary and 3 secondary cognition efficacy endpoints to control the false positive rate.|constrained Longitudinal Data Analysis|The model factors were treatment, sequence, period, week (as categorical variable), site, treatment-by-week, sequence-by-week, and period-by-week.||||||0.736
92437295|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16||||0.5408|TWO_SIDED|95.0|-0.66|0.35|||ANCOVA|||FIQ Work Missed: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.35|-0.66|0.5408
92437296|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09||||0.7236|TWO_SIDED|95.0|-0.57|0.4|||ANCOVA|||FIQ Do Work: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.40|-0.57|0.7236
92437297|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.71||||0.0045|TWO_SIDED|95.0|-1.19|-0.22|||ANCOVA|||FIQ Do Work: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.22|-1.19|0.0045
92437298|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14||||0.5613||95.0|-0.63|0.34|||ANCOVA|||FIQ Do Work: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.34|-0.63|0.5613
92437299|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14||||0.5609|TWO_SIDED|95.0|-0.6|0.33|||ANCOVA|||FIQ Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.33|-0.60|0.5609
92437300|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.75||||0.0016|TWO_SIDED|95.0|-1.22|-0.28|||ANCOVA|||FIQ Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.28|-1.22|0.0016
92437301|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21||||0.3692|TWO_SIDED|95.0|-0.68|0.25|||ANCOVA|||FIQ Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.25|-0.68|0.3692
92437302|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24||||0.3294|TWO_SIDED|95.0|-0.73|0.25|||ANCOVA|||FIQ Fatigue: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.25|-0.73|0.3294
92437303|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56||||0.027|TWO_SIDED|95.0|-1.05|-0.06|||ANCOVA|||FIQ Fatigue: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.06|-1.05|0.0270
92437304|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05||||0.8432|TWO_SIDED|95.0|-0.54|0.44|||ANCOVA|||FIQ Fatigue: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.44|-0.54|0.8432
92437305|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.46||||0.0806|TWO_SIDED|95.0|-0.98|0.06|||ANCOVA|||FIQ Rested: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.06|-0.98|0.0806
92437306|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.53||||0.047|TWO_SIDED|95.0|-1.06|-0.01|||ANCOVA|||FIQ Rested: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.01|-1.06|0.0470
92437307|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23||||0.3845|TWO_SIDED|95.0|-0.75|0.29|||ANCOVA|||FIQ Rested: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.29|-0.75|0.3845
92437308|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.12||||0.6326|TWO_SIDED|95.0|-0.37|0.6|||ANCOVA|||FIQ Stiffness: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.60|-0.37|0.6326
92437309|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22||||0.374|TWO_SIDED|95.0|-0.71|0.27|||ANCOVA|||FIQ Stiffness: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.27|-0.71|0.3740
92437310|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.03||||0.8936|TWO_SIDED|95.0|-0.45|0.52|||ANCOVA|||FIQ Stiffness: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.52|-0.45|0.8936
92437311|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.19||||0.4743|TWO_SIDED|95.0|-0.73|0.34|||ANCOVA|||FIQ Anxiety: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.34|-0.73|0.4743
92437312|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.64||||0.0192|TWO_SIDED|95.0|-1.18|-0.1|||ANCOVA|||FIQ Anxiety: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.10|-1.18|0.0192
92437313|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18||||0.5101|TWO_SIDED|95.0|-0.71|0.35|||ANCOVA|||FIQ anxiety: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.35|-0.71|0.5101
92437314|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2||||0.4617|TWO_SIDED|95.0|-0.75|0.34|||ANCOVA|||FIQ Depression: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.34|-0.75|0.4617
92437315|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.97||||0.0006|TWO_SIDED|95.0|-1.51|-0.42|||ANCOVA|||FIQ Depression: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.42|-1.51|0.0006
92437316|NCT00333866|184759296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.33||||0.229|TWO_SIDED|95.0|-0.88|0.21|||ANCOVA|||FIQ Depression: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.21|-0.88|0.2290
92437317|NCT00333866|184759297|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.44||||0.42|TWO_SIDED|95.0|-4.95|2.06|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||2.06|-4.95|0.4200
92437318|NCT00333866|184759297|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-5.85||||0.0012|TWO_SIDED|95.0|-9.38|-2.31|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-2.31|-9.38|0.0012
92437319|NCT00333866|184759297|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.17||||0.5126|TWO_SIDED|95.0|-4.68|2.34|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||2.34|-4.68|0.5126
92437320|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.51||||0.7781|TWO_SIDED|95.0|-4.07|3.05|||ANCOVA|||Physical functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||3.05|-4.07|0.7781
92437321|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.99||||0.2792|TWO_SIDED|95.0|-1.62|5.59|||ANCOVA|||Physical Functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.59|-1.62|0.2792
92437322|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.58||||0.7512|TWO_SIDED|95.0|-3.0|4.15|||ANCOVA|||Physical Functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.15|-3.00|0.7512
92171189|NCT02638337|184231583|SUPERIORITY||LS Mean Difference|-21.8|||<|0.0001|TWO_SIDED|95.0|-25.4|-18.1|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 8||-18.1|-25.4|<0.0001
92279940|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.023||||0.856|TWO_SIDED|95.0|-0.273|0.227||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.227|-0.273|0.8560
92437323|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.02||||0.649|TWO_SIDED|95.0|-3.39|5.43|||ANCOVA|||Physical role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.43|-3.39|0.6490
92437324|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.5||||0.5105|TWO_SIDED|95.0|-2.96|5.96|||ANCOVA|||Physical Role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.96|-2.96|0.5105
92437325|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.39||||0.8625|TWO_SIDED|95.0|-4.04|4.82|||ANCOVA|||Physical Role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.82|-4.04|0.8625
92437326|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.87||||0.1489|TWO_SIDED|95.0|-1.39|9.12|||ANCOVA|||Emotional Role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.12|-1.39|0.1489
92437327|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.24||||0.0213|TWO_SIDED|95.0|0.93|11.54|||ANCOVA|||Emotional Role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||11.54|0.93|0.0213
92437328|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.75||||0.162|TWO_SIDED|95.0|-1.51|9.02|||ANCOVA|||Emotional Role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.02|-1.51|0.1620
92437329|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.85||||0.2446|TWO_SIDED|95.0|-1.95|7.65|||ANCOVA|||Social Functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||7.65|-1.95|0.2446
92437330|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.01||||0.0429|TWO_SIDED|95.0|0.16|9.85|||ANCOVA|||Social Functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.85|0.16|0.0429
92437331|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.35||||0.1721|TWO_SIDED|95.0|-1.46|8.16|||ANCOVA|||Social Functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||8.16|-1.46|0.1721
92437332|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.08||||0.0291|TWO_SIDED|95.0|0.42|7.74|||ANCOVA|||Mental Health: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||7.74|0.42|0.0291
92437333|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.93||||0.0017|TWO_SIDED|95.0|2.23|9.62|||ANCOVA|||Mental Health: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.62|2.23|0.0017
92437334|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.32||||0.0763|TWO_SIDED|95.0|-0.35|6.99|||ANCOVA|||Mental Health: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||6.99|-0.35|0.0763
92171190|NCT02638337|184231584|SUPERIORITY||LS Mean Difference|5.8|||<|0.0001|TWO_SIDED|95.0|4.2|7.3|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 4||7.3|4.2|<0.0001
92171191|NCT02638337|184231584|SUPERIORITY||LS Mean Difference|7.2|||<|0.0001|TWO_SIDED|95.0|5.5|9.0|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 8||9.0|5.5|<0.0001
92279941|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|0.051||||0.7209|TWO_SIDED|95.0|-0.232|0.335||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.335|-0.232|0.7209
92437335|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.58||||0.1524|TWO_SIDED|95.0|-0.95|6.11|||ANCOVA|||Bodily Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||6.11|-0.95|0.1524
92437336|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.36||||0.0032|TWO_SIDED|95.0|1.8|8.93|||ANCOVA|||Bodily Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||8.93|1.80|0.0032
92437337|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.82||||0.118|TWO_SIDED|95.0|-0.72|6.36|||ANCOVA|||Bodily Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||6.36|-0.72|0.1180
92437338|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.15||||0.1081|TWO_SIDED|95.0|-0.69|6.99|||ANCOVA|||Vitality: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||6.99|-0.69|0.1081
92437339|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.1||||0.0101|TWO_SIDED|95.0|1.22|8.99|||ANCOVA|||Vitality: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||8.99|1.22|0.0101
92437340|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.75||||0.7031|TWO_SIDED|95.0|-3.1|4.6|||ANCOVA|||Vitality: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.60|-3.10|0.7031
92437341|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.27||||0.4253|TWO_SIDED|95.0|-1.86|4.39|||ANCOVA|||General Health Perception: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.39|-1.86|0.4253
92437342|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.73||||0.091|TWO_SIDED|95.0|-0.44|5.89|||ANCOVA|||General Health Perception: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.89|-0.44|0.0910
92437343|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.82||||0.2526|TWO_SIDED|95.0|-1.3|4.95|||ANCOVA|||General Health Perception: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.95|-1.30|0.2526
92437344|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.62||||0.0195|TWO_SIDED|95.0|0.42|4.82|||ANCOVA|||Mental Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.82|0.42|0.0195
92437345|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.66||||0.0013|TWO_SIDED|95.0|1.44|5.88|||ANCOVA|||Mental Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.88|1.44|0.0013
92437346|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.14||||0.0568|TWO_SIDED|95.0|-0.06|4.34|||ANCOVA|||Mental Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.34|-0.06|0.0568
92437347|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13||||0.8529|TWO_SIDED|95.0|-1.54|1.27|||ANCOVA|||Physical Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||1.27|-1.54|0.8529
92437348|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.54||||0.4564|TWO_SIDED|95.0|-0.88|1.96|||ANCOVA|||Physical Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||1.96|-0.88|0.4564
92437349|NCT00333866|184759298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.13||||0.8576|TWO_SIDED|95.0|-1.28|1.54|||ANCOVA|||Physical Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||1.54|-1.28|0.8576
92437350|NCT00333866|184759299|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.29||||0.7384|TWO_SIDED|95.0|-1.98|1.4|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||1.40|-1.98|0.7384
92437351|NCT00333866|184759299|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.41||||0.1044|TWO_SIDED|95.0|-3.12|0.29|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.29|-3.12|0.1044
92437352|NCT00333866|184759299|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87||||0.3137|TWO_SIDED|95.0|-2.58|0.83|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.83|-2.58|0.3137
92437353|NCT00333866|184759300|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.59||||0.09|TWO_SIDED|95.0|-1.28|0.09|||ANCOVA|||HADS-Anxiety Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.09|-1.28|0.0900
92279942|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.013||||0.9283|TWO_SIDED|95.0|-0.297|0.271||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.271|-0.297|0.9283
92279943|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.162||||0.2659|TWO_SIDED|95.0|-0.449|0.124||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.124|-0.449|0.2659
92437354|NCT00333866|184759300|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.5||||0.1564|TWO_SIDED|95.0|-1.2|0.19|||ANCOVA|||HADS-Anxiety Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.19|-1.20|0.1564
92437355|NCT00333866|184759300|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11||||0.7519|TWO_SIDED|95.0|-0.8|0.58|||ANCOVA|||HADS-Anxiety Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.58|-0.80|0.7519
92437356|NCT00333866|184759300|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.15||||0.6416|TWO_SIDED|95.0|-0.5|0.8|||ANCOVA|||HADS-Depression Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.80|-0.50|0.6416
92437357|NCT00333866|184759300|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.59||||0.0778|TWO_SIDED|95.0|-1.25|0.07|||ANCOVA|||HADS-Depression Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.07|-1.25|0.0778
92437358|NCT00333866|184759300|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21||||0.5191|TWO_SIDED|95.0|-0.87|0.44|||ANCOVA|||HADS-Depression Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.44|-0.87|0.5191
92446631|NCT00727194|184780283|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-3.57||||0.041|TWO_SIDED|95.0|-6.97|-0.17||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||||-0.17|-6.97|0.0410
92437359|NCT00333866|184759301|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.44||||0.534|TWO_SIDED|95.0|-5.97|3.09|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||3.09|-5.97|0.5340
92437360|NCT00333866|184759301|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.44||||0.0014|TWO_SIDED|95.0|-12.0|-2.88|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-2.88|-12.00|0.0014
92437361|NCT00333866|184759301|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.56||||0.2694|TWO_SIDED|95.0|-7.09|1.98|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||1.98|-7.09|0.2694
92437362|NCT00333866|184759302|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|263.77||||0.1277|TWO_SIDED|95.0|-75.78|603.33|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. P value was calculated using analysis of variance (ANOVA), with treatment and center in the model.||603.33|-75.78|0.1277
92437363|NCT00333866|184759302|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|47.89||||0.7829|TWO_SIDED|95.0|-293.2|389.02|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. P value was calculated using ANOVA, with treatment and center in the model.||389.02|-293.2|0.7829
92437364|NCT00333866|184759302|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-11.51||||0.9471|TWO_SIDED|95.0|-351.9|328.86|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. P value was calculated using ANOVA, with treatment and center in the model.||328.86|-351.9|0.9471
92437365|NCT06073119|184759303|SUPERIORITY||Response rate difference (RRD), %|23.43||||0.0874|TWO_SIDED|95.0|-2.74|45.98||A hierarchical testing was used to control the overall type I error of 0.05 (two-sided). Testing was performed in the order of 200 mg BID, 100 mg BID, 200 mg QD versus placebo.|Cochran-Mantel-Haenszel|Adjusted for baseline PASI score (\<=20, \>20).|Difference = SAR441566 Dose Regimen 200 mg BID - placebo.|||45.98|-2.74|0.0874
92437366|NCT06073119|184759303|SUPERIORITY||RRD, %|33.08||||0.0185|TWO_SIDED|95.0|5.71|54.83||A hierarchical testing was used to control the overall type I error of 0.05 (two-sided). Testing was performed in the order of 200 mg BID, 100 mg BID, 200 mg QD versus placebo.|Cochran-Mantel-Haenszel|Adjusted for baseline PASI score (\<=20, \>20).|Difference = SAR441566 Dose Regimen 100 mg BID - placebo.|||54.83|5.71|0.0185
92437367|NCT06073119|184759303|SUPERIORITY||RRD, %|38.02||||0.0077|TWO_SIDED|95.0|10.62|58.84||A hierarchical testing was used to control the overall type I error of 0.05 (two-sided). Testing was performed in the order of 200 mg BID, 100 mg BID, 200 mg QD versus placebo.|Cochran-Mantel-Haenszel|Adjusted for baseline PASI score (\<=20, \>20).|Difference = SAR441566 Dose Regimen 200 mg QD - placebo.|||58.84|10.62|0.0077
92437368|NCT06073119|184759303|SUPERIORITY||RRD, %|9.35||||0.4576|TWO_SIDED|95.0|-14.72|32.4||No multiplicity adjustment, hence p-value is nominal.|Cochran-Mantel-Haenszel|Adjusted for baseline PASI score (\<=20, \>20).|Difference = SAR441566 Dose Regimen 100 mg QD - placebo.|||32.40|-14.72|0.4576
92437369|NCT06073119|184759303|SUPERIORITY||RRD, %|13.44||||0.3051|TWO_SIDED|95.0|-11.38|36.72||No multiplicity adjustment, hence p-value is nominal.|Cochran-Mantel-Haenszel|Adjusted for baseline PASI score (\<=20, \>20).|Difference = SAR441566 Dose Regimen 50 mg QD - placebo.|||36.72|-11.38|0.3051
92437370|NCT00456547|184759309|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Adjusted for 12 comparisons|t-test, 2 sided|||||||<0.05
92437371|NCT00456547|184759310|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Corrected for 12 comparisons.|t-test, 2 sided|||||||<0.05
92437372|NCT00456547|184759311|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Corrected for 12 comparisons|t-test, 2 sided|||||||<0.05
92437373|NCT00456547|184759312|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Corrected for 12 comparisons|Wilcoxon (Mann-Whitney)|||||||<0.05
92437374|NCT02408315|184759324|NON_INFERIORITY|Estimates obtained from Kaplan-Meier method and results of Log-rank test. P-value for non-inferiority hypothesis based on Cox proportional hazards model (H0: HR ≤ 0.74 vs. HA: HR \> .74), p-value \< .05 provides evidence to reject inferiority and conclude BM is non-inferior to VM.||||||0.663|||||||Cox proportional|||||||0.663
92437375|NCT03194698|184759365|SUPERIORITY|||||||0.0312|||||||Wilcoxon (Mann-Whitney)|||||||0.0312
92437376|NCT03194698|184759366|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
92437377|NCT03194698|184759367|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
92437378|NCT03653637|184759375|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.263|TWO_SIDED|95.0|0.43|1.3|||Regression, Cox|This model adjusted for site and lifetime suicide attempt history.|The HR represents the PLF+TAU group compared to TAU.|||1.30|0.43|0.263
92437379|NCT03653637|184759378|SUPERIORITY||Slope|-0.07||||0.72|TWO_SIDED|95.0|-0.43|0.3||p-value is for the treatment-by-time interaction|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|||PLF is coded as 1 and TAU is coded as 0.|.30|-.43|.72
92437380|NCT03653637|184759379|SUPERIORITY||Slope|-0.1||||0.23|TWO_SIDED|95.0|-0.43|0.3||The p-value is for the treatment-by-time interaction|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|||PLF is coded as 1 and TAU is coded as 0.|.30|-.43|.23
92437381|NCT03653637|184759380|SUPERIORITY||Slope|0.27||||0.09|TWO_SIDED|96.0|-0.04|0.58||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|||PLF is coded as 1 and TAU is coded as 0.|.58|-.04|.09
92437382|NCT03653637|184759381|SUPERIORITY||Slope|1.17||||0.15|TWO_SIDED|95.0|-0.42|2.76||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site.|PLF is coded as 1 and TAU is coded as 0.|||2.76|-.42|.15
92437383|NCT03653637|184759382|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.52|TWO_SIDED|95.0|-1.78|0.91|||t-test, 2 sided|||||.91|-1.78|.52
92437384|NCT03653637|184759383|SUPERIORITY||Median Difference (Final Values)|188.5||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The estimation parameter statistic provided is the U value from the Mann-Whitney U test.|||||.83
92437385|NCT03653637|184759385|SUPERIORITY||Slope|-0.22||||0.24|TWO_SIDED|95.0|-0.58|0.15||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|||PLF is coded as 1 and TAU is coded as 0.|.15|-.58|.24
92171192|NCT02638337|184231585|SUPERIORITY||LS Mean Difference|-0.58|||<|0.0001|TWO_SIDED|95.0|-0.69|-0.46|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 4||-0.46|-0.69|<0.0001
92437386|NCT03653637|184759386|SUPERIORITY||Slope|0.07||||0.28|TWO_SIDED|95.0|-0.06|0.19||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.||"This analysis concerns the verbal aggression subscale."|PLF is coded as 1 and TAU is coded as 0.|.19|-.06|.28
92437387|NCT03653637|184759386|SUPERIORITY||Slope|-0.07||||0.48|TWO_SIDED|95.0|-0.25|0.12||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|PLF is coded as 1 and TAU is coded as 0.|"This analysis concerns the physical aggression subscale."||.12|-.25|.48
92437388|NCT03653637|184759386|SUPERIORITY||Slope|-0.08||||0.3|TWO_SIDED|95.0|-0.24|0.07||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|PLF is coded as 1 and TAU is coded as 0.|"This analysis concerns the anger subscale."||.07|-.24|.30
92437389|NCT03653637|184759386|SUPERIORITY||Slope|0.02||||0.82|TWO_SIDED|95.0|-0.17|0.22||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.||"This analysis concerns the hostility subscale."|PLF is coded as 1 and TAU is coded as 0.|.22|-.17|.82
92437390|NCT03653637|184759387|SUPERIORITY||Slope|-0.08||||0.41|TWO_SIDED|95.0|-0.27|0.11||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|PLF is coded as 1 and TAU is coded as 0.|||.11|-.27|.41
92437391|NCT03653637|184759388|SUPERIORITY||Slope|-0.13||||0.67|TWO_SIDED|95.0|-0.68|0.48||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|PLF is coded as 1 and TAU is coded as 0.|||.48|-.68|.67
92437392|NCT01346839|184759393|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Cox|||||||<0.05
92437393|NCT02068443|184759398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.087|||TWO_SIDED|95.0|-0.821|-0.48|||||Estimated Value was for the difference between Alogliptin + Metformin Hydrochloride QD and Alogliptin alone (Metformin QD - Alogliptin alone).|||-0.480|-0.821|
92437394|NCT02068443|184759398|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority of Alogliptin + Metformin Hydrochloride QD to Alogliptin + Metformin Hydrochloride BID.|LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.069|||TWO_SIDED|95.0|-0.026|0.247|||||Estimated Value was for the difference between Alogliptin + Metformin Hydrochloride QD and Alogliptin + Metformin Hydrochloride BID (Metformin QD - Metformin BID).|||0.247|-0.026|
92437395|NCT02723084|184759409|NON_INFERIORITY|The percentage of participants achieving SVR12 was calculated for each arm and a 2- sided 95% confidence interval (CI) for the difference in SVR12 rates (Arm A minus Arm B) was calculated using the normal approximation to the binomial distribution to assess non-inferiority in SVR12 rates of arm A to arm B. If the lower bound of the CI for the difference was above the noninferiority margin of -10%, then arm A was considered non-inferior to arm B.|Risk Difference (RD)|4.3|||||TWO_SIDED|95.0|-3.5|12.1|||||95% CI was calculated using the normal approximation to the binomial distribution.|Difference in SVR12 rates (Arm A - Arm B)||12.1|-3.5|
92437396|NCT00225251|184759455|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.0|||<|0.05|||||||t-test, 2 sided|||||||<.05
92437397|NCT01702454|184759460|NON_INFERIORITY_OR_EQUIVALENCE|Criterion: The lower limit (LL) of the two-sided 95% Confidence Interval (CI) for the GMT ratio is above 1|Adjusted GMT ratio|8.97|||||TWO_SIDED|95.0|6.21|12.96|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for A/Christchurch strain at post-vaccination dose 1, the GMT ratio of Fluarix Quadrivalent Primed Group/Fluarix Quadrivalent Unprimed Group and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination log-10 titer and age as regressors.||12.96|6.21|
92437398|NCT01702454|184759460|NON_INFERIORITY_OR_EQUIVALENCE|Criterion: The lower limit (LL) of the two-sided 95% Confidence Interval (CI) for the GMT ratio is above 1|Adjusted GMT ratio|2.7|||||TWO_SIDED|95.0|1.81|4.02|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval|The adjusted GMT of HI antibodies for A/Victoria strain at post-vaccination dose 1, the GMT ratio of Fluarix Quadrivalent Primed Group/Fluarix Quadrivalent Unprimed Group and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination log-10 titer and age as regressors.||4.02|1.81|
92171193|NCT02638337|184231585|SUPERIORITY||LS Mean Difference|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.51|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 8||-0.51|-0.75|<0.0001
92437399|NCT01702454|184759460|NON_INFERIORITY_OR_EQUIVALENCE|Criterion: The lower limit (LL) of the two-sided 95% Confidence Interval (CI) for the GMT ratio is above 1|Adjusted GMT ratio|3.94|||||TWO_SIDED|95.0|2.89|5.37|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for B/Brisbane strain at post-vaccination dose 1, the GMT ratio of Fluarix Quadrivalent Primed Group/Fluarix Quadrivalent Unprimed Group and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination log-10 titer and age as regressors.||5.37|2.89|
92437400|NCT01702454|184759460|NON_INFERIORITY_OR_EQUIVALENCE|Criterion: The lower limit (LL) of the two-sided 95% Confidence Interval (CI) for the GMT ratio is above 1|Adjusted GMT ratio|6.71|||||TWO_SIDED|95.0|5.21|8.63|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for B/Hub-Wuj strain at post-vaccination dose 1, the GMT ratio of Fluarix Quadrivalent Primed Group/Fluarix Quadrivalent Unprimed Group and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination log-10 titer and age as regressors.||8.63|5.21|
92279944|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.006||||0.968|TWO_SIDED|95.0|-0.31|0.298||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.298|-0.310|0.9680
92437401|NCT01702454|184759462|NON_INFERIORITY_OR_EQUIVALENCE|SCR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in percentages|44.74|||||TWO_SIDED|95.0|35.87|52.84||||||To assess the immune response in terms of SCR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.||52.84|35.87|
92437402|NCT01702454|184759462|NON_INFERIORITY_OR_EQUIVALENCE|SCR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in percentages|45.31|||||TWO_SIDED|95.0|36.58|53.3||||||To assess the immune response in terms of SCR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.||53.3|36.58|
92437403|NCT01702454|184759462|NON_INFERIORITY_OR_EQUIVALENCE|SCR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in percentages|37.86||||||95.0|28.83|46.26||||||To assess the immune response in terms of SCR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.||46.26|28.83|
92437404|NCT01702454|184759462|NON_INFERIORITY_OR_EQUIVALENCE|SCR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion|Difference in percentages|56.0||||||95.0|48.32|63.04||||||"To assess the immune response in terms of SCR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.~B/Hu-Wuj = B/Hubei-Wujiagang/158/2009 (Yamagata)"||63.04|48.32|
92437405|NCT01702454|184759464|NON_INFERIORITY_OR_EQUIVALENCE|SPR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in SPR|62.43|||||TWO_SIDED|95.0|55.27|68.89||||||To assess the immune response in terms of SPR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains||68.89|55.27|
92437406|NCT01702454|184759464|NON_INFERIORITY_OR_EQUIVALENCE|SPR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in SPR|47.4|||||TWO_SIDED|95.0|39.08|55.06||||||To assess the immune response in terms of SPR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.||55.06|39.08|
92437407|NCT01702454|184759464|NON_INFERIORITY_OR_EQUIVALENCE|SPR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion|Difference in SPR|56.68|||||TWO_SIDED|95.0|49.44|63.43||||||To assess the immune response in terms of SPR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.||63.43|49.44|
92437408|NCT01702454|184759464|NON_INFERIORITY_OR_EQUIVALENCE|SPR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in SPR|56.72|||||TWO_SIDED|95.0|49.41|63.49||||||"To assess the immune response in terms of SPR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.~B/Hu-Wuj = B/Hubei-Wujiagang/158/2009 (Yamagata)"||63.49|49.41|
92437409|NCT01067456|184759507|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.57||||0.79|TWO_SIDED||||||t-test, 2 sided|||||||0.79
92437410|NCT02328755|184759511|OTHER|Single group|cumulative incidence|0.39|||||TWO_SIDED|95.0|0.24|0.58||||||The analysis applies only to the first row, for recipients of HLA-matched HCT who received the phase II MTD (180mcg) peg-IFN-a (n=31).||0.58|0.24|
92437411|NCT02328755|184759512|OTHER|Single group|Kaplan-Meier|55.0|||||TWO_SIDED|95.0|40.0|75.0||||||The analysis applies only to the first row, data at 6 months, for recipients of HLA-matched HCT who received the phase II MTD (180mcg) peg-IFN-a (n=31).|Survival proportion estimates at 6 months and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method.|75|40|
92437412|NCT02328755|184759512|OTHER|Single group|Kaplan-Meier|33.0|||||TWO_SIDED|95.0|19.0|58.0||||||The analysis applies only to the 3rd row, data at 24 months, for recipients of HLA-matched HCT who received the phase II MTD (180mcg) peg-IFN-a (n=31).|Survival proportion estimates at 6 months and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method.|58|19|
92437413|NCT02328755|184759513|OTHER|Single group|||||||||||||||||Survival proportion estimates at 6 months and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method.|||
92437414|NCT02328755|184759514|OTHER|Single group|||||||||||||||||GVHD proportion estimates and corresponding 95% confidence intervals were calculated using methods of Fine and Gray.|||
92437415|NCT02328755|184759515|OTHER|Single group|||||||||||||||||Non-relapse mortality estimates and corresponding 95% confidence intervals were calculated using methods of Fine and Gray.|||
92437416|NCT00227903|184759524|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88||95.0||||Not corrected for multiple comparison|Mixed Models Analysis|2 degrees of freedom||We estimated that 110 people with 10% attrition would provide 80% power||||0.88
92437417|NCT00227903|184759525|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||95.0|||||Fisher Exact|||||||0.08
92437418|NCT00227903|184759526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88||95.0||||Not corrected for multiple comparison.|Mixed Models Analysis|2 degrees of freedom||We estimated that 110 people with 10% attrition would provide 80% power.||||0.88
92437419|NCT00227903|184759527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41||95.0|||||Fisher Exact|||||||0.41
92437420|NCT00227903|184759528|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.77||||0.79|TWO_SIDED|95.0|0.36|1.67|||Regression, Logistic|||||1.67|0.36|0.79
92437421|NCT00227903|184759529|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.79|TWO_SIDED|95.0|0.42|2.62|||Regression, Logistic|||||2.62|0.42|0.79
92437422|NCT00227903|184759530|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.96||||0.88|TWO_SIDED|95.0|0.34|2.72|||Regression, Logistic|||||2.72|0.34|0.88
92437423|NCT00227903|184759531|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.21||||0.88|TWO_SIDED|95.0|0.57|2.57|||Regression, Logistic|||||2.57|0.57|0.88
92437424|NCT00227903|184759532|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.77||||0.5|TWO_SIDED|95.0|0.32|1.84|||Regression, Logistic|||||1.84|0.32|0.50
92437425|NCT00227903|184759533|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Mixed Models Analysis|||||||0.10
92437426|NCT00227903|184759534|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Mixed Models Analysis|||||||0.10
92437427|NCT00227903|184759535|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Mixed Models Analysis|||||||0.10
92437428|NCT00227903|184759536|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Mixed Models Analysis|||||||0.10
92437429|NCT00227903|184759537|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.76||||0.5|TWO_SIDED|95.0|0.27|2.11|||Regression, Logistic|||||2.11|0.27|0.50
92437430|NCT00227903|184759538|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.18||||0.07|TWO_SIDED|95.0|0.44|3.14|||Regression, Logistic|||||3.14|0.44|0.07
92437431|NCT00227903|184759539|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.46||||0.07|TWO_SIDED|95.0|0.47|4.52|||Regression, Logistic|||||4.52|0.47|0.07
92437432|NCT00227903|184759540|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.28||||0.07|TWO_SIDED|95.0|0.08|1.02|||Regression, Logistic|||||1.02|0.08|0.07
92437433|NCT00227903|184759541|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.62||||0.07|TWO_SIDED|95.0|0.1|3.9|||Regression, Logistic|||||3.90|0.10|0.07
92437434|NCT00227903|184759542|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15||||0.91|TWO_SIDED|95.0|0.32|4.2|||Regression, Logistic|||||4.20|0.32|0.91
92437435|NCT00227903|184759543|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.33||||0.91|TWO_SIDED|95.0|0.35|5.07|||Regression, Logistic|||||5.07|0.35|0.91
92437436|NCT00227903|184759544|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.85||||0.91|TWO_SIDED|95.0|0.14|5.23|||Regression, Logistic|||||5.23|0.14|0.91
92437437|NCT00227903|184759545|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.23||||0.91|TWO_SIDED|95.0|0.21|7.12|||Regression, Logistic|||||7.12|0.21|0.91
92437438|NCT00227903|184759546|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.28||||0.04|TWO_SIDED|95.0|0.46|3.55|||Regression, Logistic|||||3.55|0.46|.04
92437439|NCT00227903|184759547|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.21||||0.04|TWO_SIDED|95.0|0.35|4.17|||Regression, Logistic|||||4.17|0.35|0.04
92437440|NCT00227903|184759548|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.25||||0.04|TWO_SIDED|95.0|0.04|1.63|||Regression, Logistic|||||1.63|0.04|0.04
92437441|NCT00227903|184759549|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.4||||0.04|TWO_SIDED|95.0|0.04|3.74|||Regression, Logistic|||||3.74|0.04|0.04
92437442|NCT00227903|184759550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0|||||Cochran-Mantel-Haenszel|||||||0.01
92437443|NCT00227903|184759551|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Chi-squared|||||||>0.05
92437444|NCT05081011|184759615|OTHER|||||||0.006||||||A p-value of 0.05 would be considered statistically significant|Log Rank|||||||0.006
92437445|NCT05081011|184759616|OTHER||Mean Difference (Final Values)|32.7||||0.01|TWO_SIDED|95.0|8.0|57.4||A p-value of 0.05 would be considered statistically significant.|Welch 2-sample method|||||57.4|8.0|0.01
92437446|NCT05081011|184759617|OTHER||Mean Difference (Final Values)|-3.6||||0.03|TWO_SIDED|95.0|-6.8|-0.4||A p-value of 0.05 would be considered statistically significant.|Welch 2-sample method|||||-0.4|-6.8|0.03
92437447|NCT05081011|184759618|OTHER||Mean Difference (Final Values)|1.4||||0.06|TWO_SIDED|95.0|-0.03|2.8|||Welch 2-sample method|||||2.8|-0.03|0.06
92437448|NCT05081011|184759619|OTHER||Mean Difference (Final Values)|1.0||||0.46|TWO_SIDED|95.0|-1.6|3.5|||Welch 2-sample method|||||3.5|-1.6|0.46
92437449|NCT05081011|184759620|OTHER||Mean Difference (Final Values)|0.56||||0.005|TWO_SIDED|95.0|0.21|0.91|||2-sample test|2-sample test for equality of proportions with Yates continuity correction|Comparison of percentage (proportion) of participants achieving glycemic control.|Comparison of percentage (proportion) of participants achieving glycemic control.||0.91|0.21|0.005
92437450|NCT05081011|184759621|OTHER||Mean Difference (Final Values)|-68.9||||0.001|TWO_SIDED|95.0|-107.1|-30.1|||Welch 2-sample method|||||-30.1|-107.1|0.001
92437451|NCT00558025|184759623|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin: -15 %, power: 80%|Risk Difference (RD)|-10.75||||||95.0|-20.51|1.48|||Wilson score interval|||Successfully switched patients||1.48|-20.51|
92437452|NCT00558025|184759623|SUPERIORITY_OR_OTHER|||||||0.0803||95.0|||||Cochran-Mantel-Haenszel|test with stratification by country||||||0.0803
92437453|NCT00558025|184759624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.2061||95.0|-2.8|0.6|||ANCOVA|ANCOVA with factors of treatment, country and baseline as covariate||||0.6|-2.8|0.2061
92437454|NCT00558025|184759625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.4694||95.0|-0.8|0.4|||ANCOVA|ANCOVA with factors of treatment, country and baseline as covariate||||0.4|-0.8|0.4694
92437455|NCT00558025|184759626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.1804||95.0|-2.3|0.4|||ANCOVA|ANCOVA with factors of treatment, country and baseline as covariate||||0.4|-2.3|0.1804
92437456|NCT00558025|184759627|SUPERIORITY_OR_OTHER|||||||0.1623|||||||Cochran-Mantel-Haenszel|test with stratification by country||||||0.1623
92437457|NCT00558025|184759628|SUPERIORITY_OR_OTHER|||||||0.1299|||||||Cochran-Mantel-Haenszel|test with stratification by country||||||0.1299
92437458|NCT00558025|184759629|SUPERIORITY_OR_OTHER|||||||0.619||95.0|||||Cochran-Mantel-Haenszel|test with stratification by country||||||0.6190
92437459|NCT01506479|184759631|SUPERIORITY||Mean Difference (Final Values)|14.3|||<|0.0001|TWO_SIDED|95.0|12.0|16.6|||t-test, 2 sided|||||16.6|12.0|<0.0001
92437460|NCT01506479|184759632|OTHER||Mean Difference (Final Values)|2.9||||0.34|ONE_SIDED|90.0||4.6||The a priori threshold for statistical significance was 0.10|t-test, 1 sided|||The null hypothesis is that the vigorous exercise group warrants further investigation using a futility threshold of 3.5 compared to the control group (difference between the mean change in the control group and the mean change in the vigorous exercise group). The alternative hypothesis is that vigorous exercise does not warrant further investigation.||4.6||0.34
92437461|NCT01506479|184759632|OTHER||Mean Difference (Final Values)|1.2||||0.03|ONE_SIDED|90.0||2.8||The a priori threshold for statistical significance was set to 0.10. If the p-value is less than 0.10, the null hypothesis is rejected in favor of the alternative (moderate exercise does not warrant further investigation).|t-test, 1 sided||"The estimate is the difference between the control group and the moderate exercise group.~The upper bound of the confidence interval should be compared to the futility threshold of 3.5 to reject or not reject the null hypothesis."|The null hypothesis is that the moderate exercise group warrants further investigation using a futility threshold of 3.5 compared to the control group (difference in the mean change between the control group and the moderate exercise group). The alternative hypothesis is that moderate exercise does not warrant further investigation .||2.8||0.03
92437462|NCT01506479|184759633|SUPERIORITY|||||||0.1334|||||||t-test, 2 sided|||||||0.1334
92279945|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.125||||0.4213|TWO_SIDED|95.0|-0.429|0.18||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.180|-0.429|0.4213
92437463|NCT03315208|184759663|SUPERIORITY||Chi-squared statistic value|0.23||||0.63|TWO_SIDED||||||Chi-squared, Corrected|df=1||||||0.63
92437464|NCT03315208|184759664|SUPERIORITY||Slope|0.72||||0.29|TWO_SIDED|||||p-value is for the model parameter of the condition-by-time interaction term.|Mixed Models Analysis||The treatment condition effect was determined by the model parameter of the condition-by-time interaction term.|Linear mixed effects models with random intercepts (as best practice likelihood ratio tests dropping random slopes and intercepts indicated that only random intercepts should be retained) were used, with restricted maximum likelihood estimation (REML) for missing data. Analyses were intent-to-treat so included all randomized participants (n=29 in the UP+TAU group and n=18 in the TAU alone group), regardless of whether or not they completed the mid- or post-treatment assessments.||||0.29
92437465|NCT03315208|184759665|SUPERIORITY||Slope|-0.56||||0.5|TWO_SIDED|||||p-value is for the model parameter of the condition-by-time interaction term.|Mixed Models Analysis||The treatment condition effect was determined by the model parameter of the condition-by-time interaction term.|Linear mixed effects models with random intercepts (as best practice likelihood ratio tests dropping random slopes and intercepts indicated that only random intercepts should be retained) were used, with restricted maximum likelihood estimation (REML) for missing data. Analyses were intent-to-treat so included all randomized participants (n=29 in the UP+TAU group and n=18 in the TAU alone group), regardless of whether or not they completed the mid- or post-treatment assessments.||||.50
92437466|NCT03315208|184759666|SUPERIORITY||Slope|-1.96||||0.45|TWO_SIDED|||||p-value is for the model parameter of the condition-by-time interaction term.|Mixed Models Analysis||The treatment condition effect was determined by the model parameter of the condition-by-time interaction term. BSI scores were binarized (0 and \>=1) for this analysis due to the non-normal distribution of this outcome.|Linear mixed effects models with random intercepts (as best practice likelihood ratio tests dropping random slopes and intercepts indicated that only random intercepts should be retained) were used, with restricted maximum likelihood estimation (REML) for missing data. Analyses were intent-to-treat so included all randomized participants (n=29 in the UP+TAU group and n=18 in the TAU alone group), regardless of whether or not they completed the mid- or post-treatment assessments.||||0.45
92437467|NCT03315208|184759668|SUPERIORITY||Slope|-0.19||||0.76|TWO_SIDED|||||p-value is for the model parameter of the condition-by-time interaction term.|Mixed Models Analysis||The treatment condition effect was determined by the model parameter of the condition-by-time interaction term.|Linear mixed effects models with random intercepts (as best practice likelihood ratio tests dropping random slopes and intercepts indicated that only random intercepts should be retained) were used, with restricted maximum likelihood estimation (REML) for missing data. Analyses were intent-to-treat so included all randomized participants (n=29 in the UP+TAU group and n=18 in the TAU alone group), regardless of whether or not they completed the mid- or post-treatment assessments.||||0.76
92437468|NCT03315208|184759669|SUPERIORITY||Slope|-1.07||||0.21|TWO_SIDED|||||p-value is for the model parameter of the condition-by-time interaction term.|Mixed Models Analysis||The treatment condition effect was determined by the model parameter of the condition-by-time interaction term. Due to the non-normal distribution of the Craving Scale, scores on this measure were binarized (\< 15 and \>= 15) for this analysis.|Linear mixed effects models with random intercepts (as best practice likelihood ratio tests dropping random slopes and intercepts indicated that only random intercepts should be retained) were used, with restricted maximum likelihood estimation (REML) for missing data. Analyses were intent-to-treat so included all randomized participants (n=29 in the UP+TAU group and n=18 in the TAU alone group), regardless of whether or not they completed the mid- or post-treatment assessments.||||.21
92437469|NCT03315208|184759670|SUPERIORITY||t statistic|0.29||||0.77|TWO_SIDED||||||t-test, 2 sided|||Due to the non-normal distribution of the PDA variable, this variable was treated as binary (\<50% and \>=50%) for mixed models; however, due to the small numbers of participants (\< 5) in certain cells of treatment condition (UP versus TAU) by time point, we ran into issues with convergence of linear mixed models. Thus, here we report the results from an independent samples t-test of means (percentage of past 30 days abstinent) at post-treatment (UP versus TAU).||||0.77
92437470|NCT02746874|184759671|SUPERIORITY|||||||0.978|||||||Wilcoxon (Mann-Whitney)|||||||.978
92437471|NCT02746874|184759673|SUPERIORITY|||||||0.978|||||||Wilcoxon (Mann-Whitney)|||||||.978
92437472|NCT02746874|184759674|SUPERIORITY|||||||0.371|||||||t-test, 2 sided|||||||.371
92437473|NCT02746874|184759675|SUPERIORITY|||||||0.325|||||||t-test, 2 sided|||||||.325
92437474|NCT02746874|184759676|SUPERIORITY|||||||0.466|||||||t-test, 2 sided|||||||.466
92279946|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.311||||0.0471|TWO_SIDED|95.0|-0.618|-0.004||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.004|-0.618|0.0471
92437475|NCT02746874|184759677|SUPERIORITY|||||||0.368|||||||Wilcoxon (Mann-Whitney)|||||||.368
92437476|NCT02746874|184759678|SUPERIORITY|||||||0.509|||||||Wilcoxon (Mann-Whitney)|||||||.509
92437477|NCT02746874|184759679|SUPERIORITY|||||||0.593|||||||Wilcoxon (Mann-Whitney)|||||||.593
92437478|NCT02746874|184759680|SUPERIORITY|||||||0.687|||||||Wilcoxon (Mann-Whitney)|||||||0.687
92437479|NCT02746874|184759681|SUPERIORITY|||||||0.813|||||||Wilcoxon (Mann-Whitney)|||||||.813
92437480|NCT02746874|184759682|SUPERIORITY|||||||0.687|||||||Wilcoxon (Mann-Whitney)|||||||.687
92437481|NCT02746874|184759683|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.840
92437482|NCT02746874|184759684|SUPERIORITY|||||||0.913|||||||Wilcoxon (Mann-Whitney)|||||||.913
92437483|NCT02746874|184759685|SUPERIORITY|||||||0.301|||||||Wilcoxon (Mann-Whitney)|||||||0.301
92437484|NCT02746874|184759686|SUPERIORITY|||||||0.826|||||||Wilcoxon (Mann-Whitney)|||||||0.826
92437485|NCT02746874|184759687|SUPERIORITY|||||||0.813|||||||Wilcoxon (Mann-Whitney)|||||||.813
92437486|NCT02746874|184759689|SUPERIORITY|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||||||.047
92437487|NCT02746874|184759690|SUPERIORITY|||||||0.115|||||||Wilcoxon (Mann-Whitney)|||||||.115
92437488|NCT02746874|184759691|SUPERIORITY|||||||0.349|||||||Wilcoxon (Mann-Whitney)|||||||.349
92171194|NCT02638337|184231586|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0005|TWO_SIDED|95.0|1.27|2.36|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 4||2.36|1.27|0.0005
92279947|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.025||||0.8769|TWO_SIDED|95.0|-0.337|0.288||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.288|-0.337|0.8769
92279948|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.059||||0.7109|TWO_SIDED|95.0|-0.372|0.254||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.254|-0.372|0.7109
92437489|NCT01156311|184759703|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.17|-0.33|||Wilcoxon signed rank test||based on Hodges-Lehmann estimate|Change from average of Weeks -8, -4, and 0 to average of Weeks 16, 20, 24 MRI scans.||-0.33|-1.17|<0.0001
92437490|NCT01156311|184759703|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.17||||0.0124|TWO_SIDED|95.0|-1.83|-0.33|||Wilcoxon signed rank test||based on Hodges-Lehmann estimate|Change from average of Weeks -8, -4, and 0 to average of Weeks 16, 20, 24 MRI scans.||-0.33|-1.83|0.0124
92437491|NCT01156311|184759704|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.5||||0.001|TWO_SIDED|95.0|-1.5|-0.25|||Wilcoxon signed rank test||based on Hodges-Lehmann estimate|Change from average of Weeks -4, and 0 to average of Weeks 20, 24 MRI scans.||-0.25|-1.50|0.0010
92437492|NCT01156311|184759704|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.5||||0.0339|TWO_SIDED|95.0|-1.25|0.0|||Wilcoxon signed rank test||based on Hodges-Lehmann estimate|Change from average of Weeks -4, and 0 to average of Weeks 20, 24 MRI scans.||0.00|-1.25|0.0339
92437493|NCT06133348|184759711|OTHER|Single group|Mean Difference (Final Values)|3.3|STANDARD_DEVIATION|6.9||0.0089|TWO_SIDED|95.0|0.9|5.8|||Paired t-Test|||||5.8|0.9|0.0089
92437494|NCT06133348|184759712|OTHER|Single group|Mean Difference (Final Values)|10.4|STANDARD_DEVIATION|23.8||0.0169|TWO_SIDED|95.0|2.0|18.8|||Paired t-Test|||||18.8|2|0.0169
92437495|NCT06133348|184759713|OTHER|Single group|Mean Difference (Final Values)|2.4|STANDARD_DEVIATION|5.3||0.0162|TWO_SIDED|95.0|0.5|4.3|||Paired t-Test|||||4.3|0.5|0.0162
92437496|NCT06133348|184759714|OTHER|Single group|Mean Difference (Final Values)|3.4|STANDARD_DEVIATION|7.6||0.0144|TWO_SIDED|95.0|0.7|6.1|||Paired t-Test|||||6.1|0.7|0.0144
92437497|NCT06133348|184759715|OTHER|Single group|Mean Difference (Final Values)|2.9|STANDARD_DEVIATION|7.3||0.0264|TWO_SIDED|95.0|0.4|5.5|||Paired t-Test|||||5.5|0.4|0.0264
92437498|NCT06133348|184759716|OTHER|Single group|Mean Difference (Final Values)|0.7|STANDARD_DEVIATION|2.7||0.1622|TWO_SIDED|95.0|-0.3|1.6|||Paired t-Test|||||1.6|-0.3|0.1622
92437499|NCT06133348|184759717|OTHER|Single group|Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|4.0||0.1506|TWO_SIDED|95.0|-0.4|2.5|||Paired t-Test|||||2.5|-0.4|0.1506
92437500|NCT06133348|184759718|OTHER|Single group|Mean Difference (Final Values)|3.4|STANDARD_DEVIATION|5.5||0.0012|TWO_SIDED|95.0|1.5|5.4|||Paired t-Test|||||5.4|1.5|0.0012
92437501|NCT06133348|184759719|OTHER|Single group|Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|2.1||0.0021|TWO_SIDED|95.0|0.5|2.0|||Paired t-Test|||||2|0.5|0.0021
92279949|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.254||||0.1146|TWO_SIDED|95.0|-0.57|0.062||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.062|-0.570|0.1146
92437502|NCT06133348|184759720|OTHER|Single group|Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|2.6||0.0027|TWO_SIDED|95.0|0.6|2.4|||Paired t-Test|||||2.4|0.6|0.0027
92437503|NCT06133348|184759721|OTHER|Single group|Mean Difference (Final Values)|0.697|STANDARD_DEVIATION|2.0||0.0494|TWO_SIDED|95.0|0.0|1.4|||Paired t-Test|||||1.4|0.0|0.0494
92437504|NCT06133348|184759722|OTHER|Single group|Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|4.8||0.4707|TWO_SIDED|95.0|-1.1|2.3|||Paired t-Test|||||2.3|-1.1|0.4707
92437505|NCT06133348|184759723|OTHER|Single group|Mean Difference (Final Values)|-2.5|STANDARD_DEVIATION|5.1||0.0082|TWO_SIDED|95.0|-4.3|-0.7|||Paired t-Test|||||-0.7|-4.3|0.0082
92437506|NCT06133348|184759724|OTHER|Single group|Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|4.3||0.1327|TWO_SIDED|95.0|-2.7|0.4|||Paired t-Test|||||0.4|-2.7|0.1327
92437507|NCT06133348|184759725|OTHER|Single group|Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|5.0||0.2046|TWO_SIDED|95.0|-2.9|0.6|||Paired t-Test|||||0.6|-2.9|0.2046
92437508|NCT06133348|184759726|OTHER|Single group|Mean Difference (Final Values)|-0.7|STANDARD_DEVIATION|5.9||0.5252|TWO_SIDED|95.0|-2.8|1.4|||Paired t-Test|||||1.4|-2.8|0.5252
92437509|NCT06133348|184759727|OTHER|Single group|Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|6.0||0.4569|TWO_SIDED|95.0|-1.3|2.9|||Paired t-Test|||||2.9|-1.3|0.4569
92437510|NCT06133348|184759728|OTHER|Single group|Mean Difference (Final Values)|12.2|STANDARD_DEVIATION|40.8||0.1497|TWO_SIDED|95.0|-4.7|29.0|||Paired t-Test|||||29.0|-4.7|0.1497
92437511|NCT06133348|184759729|OTHER|Single group|Mean Difference (Final Values)|16.6|STANDARD_DEVIATION|65.5||0.2163|TWO_SIDED|95.0|-10.4|43.7|||Paired t-Test|||||43.7|-10.4|0.2163
92437512|NCT06133348|184759730|OTHER|Single group|Mean Difference (Final Values)|3.6|STANDARD_DEVIATION|10.1||0.0915|TWO_SIDED|95.0|-0.6|7.7|||Paired t-Test|||||7.7|-0.6|0.0915
92437513|NCT06133348|184759731|OTHER|Single group|Mean Difference (Final Values)|5.3|STANDARD_DEVIATION|28.1||0.3573|TWO_SIDED|95.0|-6.3|16.9|||Paired t-Test|||||16.9|-6.3|0.3573
92437514|NCT06133348|184759732|OTHER|Single group|Mean Difference (Final Values)|-0.9|STANDARD_DEVIATION|4.7||0.3741|TWO_SIDED|95.0|-2.8|1.1|||Paired t-Test|||||1.1|-2.8|0.3741
92437515|NCT06133348|184759733|OTHER|Single group|Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.4||0.6187|TWO_SIDED|95.0|-0.6|1.0|||Paired t-Test|||||1.0|-0.6|0.6187
92437516|NCT06133348|184759734|OTHER|Single group|Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.2||0.3572|TWO_SIDED|95.0|-0.04|0.1|||Paired t-Test|||||0.1|-0.04|0.3572
92437517|NCT06133348|184759735|OTHER|Single group|Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|5.8||0.108|TWO_SIDED|95.0|-0.5|4.3|||Paired t-Test|||||4.3|-0.5|0.1080
92437518|NCT06133348|184759736|OTHER|Single group|Mean Difference (Final Values)|0.9|STANDARD_DEVIATION|3.7||0.2088|TWO_SIDED|95.0|-0.6|2.5|||Paired t-Test|||||2.5|-0.6|0.2088
92437519|NCT06133348|184759739|OTHER|Single group|Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.4||0.7333|TWO_SIDED|95.0|-0.1|0.2|||Paired t-Test|||||0.2|-0.1|0.7333
92437520|NCT06133348|184759740|OTHER|Single group|Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|2.5||0.6382|TWO_SIDED|95.0|-0.8|1.3|||Paired t-Test|||||1.3|-0.8|0.6382
92437521|NCT06133348|184759741|OTHER|Single group|Mean Difference (Final Values)|-0.2|STANDARD_DEVIATION|1.4||0.4771|TWO_SIDED|95.0|-0.8|0.4|||Paired t-Test|||||0.4|-0.8|0.4771
92437522|NCT00345254|184759769|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
92437523|NCT02663232|184759800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of Melanoma Stage (IIIC \[referral category\] versus (vs) M1a vs M1b vs M1c) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.001
92437524|NCT02663232|184759800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.196|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of Melanoma Stage IIIC/M1a/M1b \[referral category\] vs M1c with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.196
92437525|NCT02663232|184759800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Multivariate regression analysis|Multivariate regression analysis of clinical risk factors for BRAF mutation||The association of Melanoma Stage IIIc with the risk of BRAF mutation (Yes/No) was assessed using multivariate regression analysis.||||0.002
92437526|NCT02663232|184759800|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.716||||0.028|TWO_SIDED|95.0|1.115|6.616|||Multivariate regression analysis|Multivariate regression analysis of clinical risk factors for BRAF mutation (n=184)||The association of Melanoma Stage M1a (using Melanoma Stage IIIC as referral category) with the risk of BRAF mutation (Yes/No) was assessed using multivariate regression analysis.||6.616|1.115|0.028
92437527|NCT02663232|184759800|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.466||||0.142|TWO_SIDED|95.0|0.168|1.291|||Multivariate regression analysis|Multivariate regression analysis of clinical risk factors for BRAF mutation (n=184)||The association of Melanoma Stage M1b (using Melanoma Stage IIIC as referral category) with the risk of BRAF mutation (Yes/No) was assessed using multivariate regression analysis.||1.291|0.168|0.142
92437528|NCT02663232|184759800|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.822||||0.653|TWO_SIDED|95.0|0.351|1.928|||Multivariate regression analysis|Multivariate regression analysis of clinical risk factors for BRAF mutation (n=184)||The association of Melanoma Stage M1c (using Melanoma Stage IIIC as referral category) with the risk of BRAF mutation (Yes/No) was assessed using multivariate regression analysis.||1.928|0.351|0.653
92437529|NCT02663232|184759801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of Family family history of melanoma (yes vs no) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.240
92437530|NCT02663232|184759802|SUPERIORITY_OR_OTHER_LEGACY|||||||0.719|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of sun exposure yes vs no with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.719
92437531|NCT02663232|184759803|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of primary tumor site (trunk \[referral category\] vs head and neck vs upper extremities vs lower extremities vs. visceral/mucosa) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.262
92437532|NCT02663232|184759804|SUPERIORITY_OR_OTHER_LEGACY|||||||0.313|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of LDH (elevated \[referral category\] vs normal vs unknown) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.313
92437533|NCT02663232|184759805|SUPERIORITY_OR_OTHER_LEGACY|||||||0.291|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of time since diagnosis of primary melanoma (continuous variable) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.291
92437534|NCT02663232|184759806|SUPERIORITY_OR_OTHER_LEGACY|||||||0.164|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of tumor sample source (primary tumor \[referral category\] vs metastases vs relapses) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.164
92437535|NCT02663232|184759807|SUPERIORITY_OR_OTHER_LEGACY|||||||0.505|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of tumor sample type (paraffin-embedded blocks \[referral category\] vs slides of paraffin blocks vs cytology slides) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.505
92437536|NCT02663232|184759808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.701|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of method of fixation (buffered formalin \[referral category\] vs other) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.701
92437537|NCT02663232|184759809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.683|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of Berslow thickness (≤1 mm \[referral category\] vs 1.01-2 mm vs 2.01-4 mm vs 4 mm) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.683
92437538|NCT02663232|184759810|SUPERIORITY_OR_OTHER_LEGACY|||||||0.615|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of Ulceration (no \[referral category\] vs yes) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.615
92437539|NCT02663232|184759811|SUPERIORITY_OR_OTHER_LEGACY|||||||0.949|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of presence of regression (Without regression \[referral category\] vs With regression) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.949
92437540|NCT02663232|184759812|SUPERIORITY_OR_OTHER_LEGACY|||||||0.374|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of Vascular invasion (Without vascular invasion \[referral category\] vs With vascular invasion) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.374
92279950|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|0.048||||0.7736|TWO_SIDED|95.0|-0.281|0.378||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.378|-0.281|0.7736
92437541|NCT02730455|184759817|SUPERIORITY||Odds Ratio (OR)|0.64||||0.086|TWO_SIDED|95.0|0.38|1.07|||Regression, Logistic|||Composite Measure: The global odds ratio was based on a linear logistic regression model with baseline National Institute of Health Stroke Scale (NIHSS) category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tissue plasminogen activator (tPA) use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, United States of America \[USA\]) as covariates and unstructured working correlation structure||1.07|0.38|0.086
92437542|NCT02730455|184759817|SUPERIORITY||Odds Ratio (OR)|0.57||||0.031|TWO_SIDED|95.0|0.34|0.95|||Regression, Logistic|||Composite Measure: The global odds ratio was based on a linear logistic regression model with baseline NIHSS category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tPA use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, USA) as covariates and unstructured working correlation structure||0.95|0.34|0.031
92437543|NCT02730455|184759818|SUPERIORITY||Odds Ratio (OR)|0.67||||0.222|TWO_SIDED|95.0|0.35|1.28|||Regression, Logistic|||The odds ratio was based on a linear logistic regression model with baseline NIHSS category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tPA use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, USA) as covariates and unstructured working correlation structure||1.28|0.35|0.222
92437544|NCT02730455|184759818|SUPERIORITY||Odds Ratio (OR)|0.54||||0.073|TWO_SIDED|95.0|0.28|1.06|||Regression, Logistic|||The odds ratio was based on a linear logistic regression model with baseline NIHSS category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tPA use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, USA) as covariates and unstructured working correlation structure||1.06|0.28|0.073
92437545|NCT02730455|184759819|SUPERIORITY||Odds Ratio (OR)|0.56||||0.085|TWO_SIDED|95.0|0.29|1.08|||Regression, Logistic|||The odds ratio was based on a linear logistic regression model with baseline NIHSS category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tPA use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, USA) as covariates and unstructured working correlation structure.||1.08|0.29|0.085
92437546|NCT02730455|184759819|SUPERIORITY||Odds Ratio (OR)|0.54||||0.067|TWO_SIDED|95.0|0.28|1.04|||Regression, Logistic|||The odds ratio was based on a linear logistic regression model with baseline NIHSS category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tPA use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, USA) as covariates and unstructured working correlation structure.||1.04|0.28|0.067
92437547|NCT02730455|184759820|SUPERIORITY||Adjusted Mean Difference|-7.7||||0.106|TWO_SIDED|95.0|-16.97|1.64|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||1.64|-16.97|0.106
92437548|NCT02730455|184759820|SUPERIORITY||Adjusted Mean Difference|-6.1||||0.202|TWO_SIDED|95.0|-15.43|3.27|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||3.27|-15.43|0.202
92437549|NCT02730455|184759821|SUPERIORITY||Adjusted Mean Difference|-0.3||||0.78|TWO_SIDED|95.0|-2.64|1.99|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||1.99|-2.64|0.780
92437550|NCT02730455|184759821|SUPERIORITY||Adjusted Mean Difference|-0.6||||0.622|TWO_SIDED|95.0|-2.89|1.73|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||1.73|-2.89|0.622
92437551|NCT02730455|184759822|SUPERIORITY||Adjusted Mean Difference|1.2||||0.315|TWO_SIDED|95.0|-1.1|3.4|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||3.40|-1.10|0.315
92437552|NCT02730455|184759822|SUPERIORITY||Adjusted Mean Difference|-0.7||||0.542|TWO_SIDED|95.0|-2.96|1.56|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||1.56|-2.96|0.542
92437553|NCT02730455|184759825|SUPERIORITY|||||||0.028|||||||Cochran-Armitage trend test|||"mRS: The Cochran-Armitage trend test of a monotonically increasing dose response in proportion of excellent outcome.~Dose levels are log transformed."||||0.028
92171195|NCT02638337|184231586|SUPERIORITY||Odds Ratio (OR)|2.01|||<|0.0001|TWO_SIDED|95.0|1.47|2.74|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 8||2.74|1.47|<0.0001
92279951|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.02||||0.9059|TWO_SIDED|95.0|-0.35|0.31||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.310|-0.350|0.9059
92437554|NCT02730455|184759825|SUPERIORITY|||||||0.049|||||||Cochran-Armitage trend test|||BI: The Cochran-Armitage trend test of a monotonically increasing dose response in proportion of excellent outcome. Dose levels are log transformed.||||0.049
92437555|NCT00001723|184759880|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANCOVA|||||||0.007
92437556|NCT01324999|184759900|OTHER|||||||0.68|||||||t-test, 2 sided|||Comparing baseline to week 24.||||0.68
92437557|NCT01324999|184759901|OTHER|||||||0.34|||||||t-test, 2 sided|||||||0.34
92437558|NCT01324999|184759902|OTHER|||||||0.99|||||||t-test, 2 sided|||||||0.99
92437559|NCT01324999|184759903|OTHER|||||||0.19|||||||t-test, 2 sided|||comparing baseline to week 24||||0.19
92437560|NCT01324999|184759904|OTHER|||||||0.68|||||||t-test, 2 sided|||Comparing Baseline to week 24.||||0.68
92437561|NCT01324999|184759905|OTHER|||||||0.92|||||||t-test, 2 sided|||comparing baseline to week 24||||0.92
92437562|NCT01324999|184759906|OTHER|||||||0.44|||||||t-test, 2 sided|||comparison of baseline to week 24||||0.44
92437563|NCT01712490|184759908|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.035|TWO_SIDED|95.0|0.603|0.983|||Log Rank|||Hazard ratio (A+AVD/ABVD) and 95% confidence interval (CI) are based on a stratified Cox's proportional hazard regression model with stratification factors region and number of International Prognostic Factor Project (IPFP) risk factors at baseline with treatment as the explanatory variable in the model. Hazard ratio less than (\<) 1 favors A+AVD arm.||0.983|0.603|0.035
92437564|NCT01712490|184759909|SUPERIORITY||Hazard Ratio (HR)|0.728||||0.199|TWO_SIDED|95.0|0.448|1.184|||Log Rank|||Hazard ratio (A+AVD/ABVD) and 95% CI are based on a stratified Cox's proportional hazard regression model with stratification factors region and number of IPFP risk factors at baseline with treatment as the explanatory variable in the model. Hazard ratio \<1 favors A+AVD arm.||1.184|0.448|0.199
92437565|NCT00060008|184759942|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
92437566|NCT00560859|184759950|SUPERIORITY_OR_OTHER||difference of change from baseline|2.0||||0.16|||||||ANCOVA|||||||0.16
92437567|NCT04309656|184760025|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|85.85||||0.0001|TWO_SIDED|90.0|81.21|90.75|||ANOVA|||||90.75|81.21|0.0001
92437568|NCT04309656|184760025|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|92.99||||0.3001|TWO_SIDED|90.0|82.65|104.62|||ANOVA|||||104.62|82.65|0.3001
92437569|NCT04309656|184760026|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|100.6||||0.6686|TWO_SIDED|90.0|98.23|103.03|||ANOVA|||||103.03|98.23|0.6686
92437570|NCT04309656|184760026|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|89.7||||0.0745|TWO_SIDED|90.0|81.2|99.1|||ANOVA|||||99.10|81.20|0.0745
92437571|NCT04309656|184760027|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|101.03||||0.4683|TWO_SIDED|90.0|98.65|103.47|||ANOVA|||||103.47|98.65|0.4683
92437572|NCT04309656|184760027|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|89.63||||0.0734|TWO_SIDED|90.0|81.1|99.05|||ANOVA|||||99.05|81.10|0.0734
92437573|NCT03720470|184760032|SUPERIORITY||Difference in percentage|23.1|||<|0.0001|TWO_SIDED|95.0|14.7|31.4|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and confidence interval (CI) for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||31.4|14.7|<0.0001
92437574|NCT03720470|184760032|SUPERIORITY||Difference in Percentage|34.8|||<|0.0001|TWO_SIDED|95.0|26.1|43.5|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||43.5|26.1|<0.0001
92437575|NCT03720470|184760033|SUPERIORITY||Difference in percentage|31.9|||<|0.0001|TWO_SIDED|95.0|22.2|41.6|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||41.6|22.2|<0.0001
92437576|NCT03720470|184760033|SUPERIORITY||Difference in Percentage|43.2|||<|0.0001|TWO_SIDED|95.0|33.7|52.7|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||52.7|33.7|<0.0001
92446632|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.83||||0.919|TWO_SIDED|95.0|-16.94|18.6||No multiple comparisons or multiplicity adjustments were conducted.|paired t-test|||Physical Functioning||18.60|-16.94|0.9190
92171196|NCT02638337|184231587|SUPERIORITY||Odds Ratio (OR)|0.89||||0.6263|TWO_SIDED|95.0|0.55|1.43|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 4||1.43|0.55|0.6263
92437577|NCT03720470|184760034|SUPERIORITY||Difference in percentage|17.9||||0.0002|TWO_SIDED|95.0|9.5|26.3|||Cochran-Mantel-Haenszel|||Week 2: Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||26.3|9.5|0.0002
92437578|NCT03720470|184760034|SUPERIORITY||Difference in Percentage|34.9|||<|0.0001|TWO_SIDED|95.0|26.0|43.7|||Cochran-Mantel-Haenszel|||Week 2: Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||43.7|26.0|<.0001
92437579|NCT03720470|184760034|SUPERIORITY||Difference in Percentage|5.2||||0.2084|TWO_SIDED|95.0|-2.9|13.4|||Cochran-Mantel-Haenszel|||Week 2: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||13.4|-2.9|0.2084
92437580|NCT03720470|184760034|SUPERIORITY||Difference in Percentage|22.1|||<|0.0001|TWO_SIDED|95.0|13.5|30.7|||Cochran-Mantel-Haenszel|||Week 2: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||30.7|13.5|<0.0001
92437581|NCT03720470|184760035|OTHER||Difference in Percentage|22.1|||<|0.0001|TWO_SIDED|95.0|13.7|30.5|||Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||30.5|13.7|<0.0001
92437582|NCT03720470|184760035|OTHER||Difference in Percentage|35.0|||<|0.0001|TWO_SIDED|95.0|26.3|43.7|||Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||43.7|26.3|<0.0001
92437583|NCT03720470|184760035|OTHER||Difference in Percentage|-3.5|||||TWO_SIDED|95.0|-12.2|5.2||||||Week 16: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||5.2|-12.2|
92437584|NCT03720470|184760035|OTHER||Difference in Percentage|9.4|||||TWO_SIDED|95.0|0.4|18.5||||||Week 16: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||18.5|0.4|
92437585|NCT03720470|184760036|OTHER||Difference in percentage|24.1|||<|0.0001|TWO_SIDED|95.0|14.0|34.1|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||34.1|14.0|<0.0001
92437586|NCT03720470|184760036|OTHER||Difference in Percentage|30.1|||<|0.0001|TWO_SIDED|95.0|20.3|39.8|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||39.8|20.3|<0.0001
92437587|NCT03720470|184760036|OTHER||Difference in Percentage|-2.7|||||TWO_SIDED|95.0|-9.6|4.2||||||Week 16: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||4.2|-9.6|
92437588|NCT03720470|184760036|OTHER||Difference in Percentage|3.1|||||TWO_SIDED|95.0|-3.3|9.6||||||Week 16: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||9.6|-3.3|
92437589|NCT01988103|184760063|SUPERIORITY_OR_OTHER_LEGACY||Difference|16.4||||0.0032|TWO_SIDED|95.0|5.8|27.0|||Chi-squared|||||27.0|5.8|0.0032
92279952|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.299||||0.0779|TWO_SIDED|95.0|-0.633|0.034||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.034|-0.633|0.0779
92279953|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|0.086||||0.6068|TWO_SIDED|95.0|-0.241|0.412||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.412|-0.241|0.6068
92279954|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.024||||0.8838|TWO_SIDED|95.0|-0.352|0.303||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.303|-0.352|0.8838
92437590|NCT01988103|184760063|SUPERIORITY_OR_OTHER_LEGACY||Difference|21.1||||0.0003|TWO_SIDED|95.0|10.1|32.1|||Chi-squared|||||32.1|10.1|0.0003
92437591|NCT01988103|184760064|SUPERIORITY_OR_OTHER_LEGACY||Difference|15.1||||0.0165|TWO_SIDED|95.0|3.1|27.1|||Chi-squared|||||27.1|3.1|0.0165
92437592|NCT01988103|184760064|SUPERIORITY_OR_OTHER_LEGACY||Difference|20.8||||0.002|TWO_SIDED|95.0|8.2|33.3|||Chi-squared||Missing values were imputed using the LOCF method.|||33.3|8.2|0.0020
92437593|NCT01988103|184760065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.1||||0.0003|TWO_SIDED|95.0|-44.5|-13.6|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-13.6|-44.5|0.0003
92437594|NCT01988103|184760065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.0|||<|0.0001|TWO_SIDED|95.0|-53.4|-22.6|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-22.6|-53.4|<0.0001
92437595|NCT01988103|184760066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.5||||0.0002|TWO_SIDED|95.0|-44.9|-14.0|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-14.0|-44.9|0.0002
92437596|NCT01988103|184760066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-39.5|||<|0.0001|TWO_SIDED|95.0|-54.9|-24.1|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-24.1|-54.9|<0.0001
92437597|NCT01988103|184760067|SUPERIORITY_OR_OTHER_LEGACY||Difference|19.7||||0.0057|TWO_SIDED|95.0|6.1|33.4|||Chi-squared|||||33.4|6.1|0.0057
92437598|NCT01988103|184760067|SUPERIORITY_OR_OTHER_LEGACY||Difference|29.2|||<|0.0001|TWO_SIDED|95.0|15.4|42.9|||Chi-squared|||||42.9|15.4|<0.0001
92437599|NCT01988103|184760068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.6||||0.0003|TWO_SIDED|95.0|-22.6|-6.7|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-6.7|-22.6|0.0003
92437600|NCT01988103|184760068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-24.8|||<|0.0001|TWO_SIDED|95.0|-32.7|-16.9|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate. Missing values were imputed using the LOCF method.|||-16.9|-32.7|<0.0001
92437601|NCT01988103|184760069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7||||0.0204|TWO_SIDED|95.0|-3.2|-0.3|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-0.3|-3.2|0.0204
92437602|NCT01988103|184760069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.5|||<|0.0001|TWO_SIDED|95.0|-4.9|-2.0|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-2.0|-4.9|<0.0001
92437603|NCT01988103|184760070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.88||||0.5149|TWO_SIDED|95.0|-1.78|3.53|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||3.53|-1.78|0.5149
92437604|NCT01988103|184760070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.85||||0.1693|TWO_SIDED|95.0|-0.79|4.5|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||4.50|-0.79|0.1693
92437605|NCT02451839|184760088|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||< 0.001
92437606|NCT02451839|184760089|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437607|NCT02451839|184760090|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437608|NCT02451839|184760091|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437609|NCT02451839|184760092|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437610|NCT02451839|184760093|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437611|NCT02451839|184760094|SUPERIORITY|||||||0.015|||||||paired t-test|||||||0.015
92437612|NCT02451839|184760095|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437613|NCT02451839|184760096|SUPERIORITY|||||||0.006|||||||paired t-test|||||||0.006
92437614|NCT02451839|184760097|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437615|NCT02451839|184760098|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437616|NCT02451839|184760099|SUPERIORITY|||||||0.006|||||||paired t-test|||||||0.006
92437617|NCT02451839|184760100|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437618|NCT02451839|184760101|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437619|NCT02451839|184760102|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437620|NCT02451839|184760103|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
92437621|NCT01949051|184760163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35|||<|0.0001|TWO_SIDED|95.0|-1.943|-0.756|||Mixed Model ANOVA|||||-0.756|-1.943|<0.0001
92437622|NCT01949051|184760163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.118||||0.0003|TWO_SIDED|95.0|-1.712|-0.525|||Mixed Model ANOVA|||||-0.525|-1.712|0.0003
92437623|NCT01949051|184760163|NON_INFERIORITY_OR_EQUIVALENCE|Levocabastine OD would be declared as non-inferior to levocabastine BID if upper limit of 95% confidence interval of the treatment difference estimate (OD vs BD) was less than 1|Mean Difference (Final Values)|0.231|||||TWO_SIDED|95.0|-0.361|0.823||||||||0.823|-0.361|
92437624|NCT04483011|184760253|SUPERIORITY||Mean Difference (Net)|2.12|STANDARD_DEVIATION|4.72||0.034|TWO_SIDED|||||\< 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 5 over Dave 1 is reported.|A comparison between before and after RiaGev supplementation.||||0.034
92437625|NCT04483011|184760253|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|2.79||0.265|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation of Comparator.||||0.265
92437626|NCT04483011|184760253|SUPERIORITY||Mean Difference (Net)|2.12|STANDARD_DEVIATION|4.72||0.044|TWO_SIDED|||||\< 0.05|ANCOVA||The p value between RiaGev and Comparator groups at Day 5 over Day 1 is reported.|A comparison between RiaGev and Comparator groups.||||0.044
92437627|NCT04483011|184760254|SUPERIORITY||Mean Difference (Net)|1.33|STANDARD_DEVIATION|1.88||0.008|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation of RiaGev.||||0.008
92437628|NCT04483011|184760254|SUPERIORITY||Mean Difference (Net)|0.34|STANDARD_DEVIATION|1.34||0.297|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation with Comparator.||||0.297
92437629|NCT04483011|184760254|SUPERIORITY||Mean Difference (Net)|1.33|STANDARD_DEVIATION|1.88||0.04|TWO_SIDED|||||p \< 0.05|ANCOVA||The p value between RiaGev and Comparator groups at Day 5 over Day 1 is reported.|A comparison between RiaGev and Comparator supplementation.||||0.04
92446633|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.86||||0.5931|TWO_SIDED|95.0|-39.05|23.33||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Physical Functioning||23.33|-39.05|0.5931
92437630|NCT04483011|184760255|SUPERIORITY||Mean Difference (Net)|4.01|STANDARD_DEVIATION|6.57||0.004|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in the RiaGev group at Day 5 over Day 1 is reported.|A comparison between before and after RiaGev supplementation.||||0.004
92437631|NCT04483011|184760255|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_DEVIATION|3.88||0.64|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation with Comparator.||||0.640
92437632|NCT04483011|184760255|SUPERIORITY||Mean Difference (Net)|4.01|STANDARD_DEVIATION|6.57||0.014|TWO_SIDED|||||p \< 0.05|ANCOVA||The p value between RiaGev and Comparator groups at Day 5 over Day 1 is reported.|A comparison between RiaGev and Comparator supplementation.||||0.014
92437633|NCT04483011|184760256|SUPERIORITY||Mean Difference (Net)|-1037.92|STANDARD_DEVIATION|1590.74||0.013|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 8 over Day 1 is reported.|A comparison before and after RiaGev supplementation.||||0.013
92437634|NCT04483011|184760256|SUPERIORITY||Mean Difference (Net)|-302.08|STANDARD_DEVIATION|1427.42||0.382|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 8 over Day 1 is reported.|A comparison before before and after supplementation with Comparator.||||0.382
92437635|NCT04483011|184760257|SUPERIORITY||Mean Difference (Net)|-135.13|STANDARD_DEVIATION|2153.66||0.793|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 8 over Day 1 baseline is reported.|A comparison between before and after RiaGev supplementation||||0.793
92437636|NCT04483011|184760257|SUPERIORITY||Mean Difference (Net)|-134.79|STANDARD_DEVIATION|1830.16||0.758|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 8 over Day 1 baseline is reported.|A comparison between before and after supplementation with Comparator.||||0.758
92437637|NCT04483011|184760258|SUPERIORITY||Mean Difference (Net)|70.2|STANDARD_DEVIATION|123.89||0.003|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 5 over Day 1 is reported.|A comparison between before and after RiaGev supplementation||||0.003
92437638|NCT04483011|184760258|SUPERIORITY||Mean Difference (Net)|15.55|STANDARD_DEVIATION|88.62||0.766|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation with Comparator.||||0.766
92437639|NCT04483011|184760259|SUPERIORITY||Mean Difference (Net)|24.01|STANDARD_DEVIATION|58.2||0.029|TWO_SIDED|||||p \< 0.05|ANCOVA||The p value between RiaGev and Comparator groups at Day 5 is reported.|A comparison between RiaGev and Comparator groups after 7-day supplementation.||||0.029
92437640|NCT04483011|184760260|SUPERIORITY||Mean Difference (Net)|-0.16|STANDARD_DEVIATION|0.32||0.034|TWO_SIDED|||||p \< 0.05|ANCOVA||The p value between RiaGev and Comparator groups at Day 5 is reported.|A comparison between RiaGev and Comparator groups.||||0.034
92437641|NCT04483011|184760261|SUPERIORITY||Mean Difference (Net)|-8.33|STANDARD_DEVIATION|12.99||0.014|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 5 over Day 1 is reported.|A comparison between before and after RiaGev supplementation.||||0.014
92437642|NCT04483011|184760261|SUPERIORITY||Mean Difference (Net)|-2.56|STANDARD_DEVIATION|5.66||0.049|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation with Comparator.||||0.049
92437643|NCT01454947|184760266|SUPERIORITY|||||||0.007||||||P values computed using difference between proportions (z value) with Bonferroni correction.|2 proportion Z-test|||||||0.007
92437644|NCT01025791|184760269|OTHER||0.1 mg vs. placebo|-7.06||||0.003|TWO_SIDED|90.0|-11.1|-3.0|||ANOVA|||||-3.00|-11.1|0.003
92437645|NCT01025791|184760269|OTHER||0.2 mg vs. placebo|-1.23||||0.31|TWO_SIDED|90.0|-5.42|2.96|||ANOVA|||||2.96|-5.42|0.310
92437646|NCT01025791|184760269|OTHER||0.5 mg vs. placebo|0.01||||0.498|TWO_SIDED|90.0|-4.05|4.06|||ANOVA|||||4.06|-4.05|0.498
92437647|NCT01025791|184760269|OTHER||1 mg vs. placebo|-5.69||||0.012|TWO_SIDED|90.0|-9.74|-1.63|||ANOVA|||||-1.63|-9.74|0.012
92437648|NCT01025791|184760269|OTHER||1 mg + 0.8 mg vs. placebo|-3.97||||0.059|TWO_SIDED|90.0|-8.16|0.22|||ANOVA|||||0.22|-8.16|0.059
92437649|NCT01025791|184760269|OTHER||0.4 mg vs. placebo|2.22||||0.191|TWO_SIDED|90.0|-2.09|6.54|||ANOVA|||||6.54|-2.09|0.191
92437650|NCT01025791|184760269|OTHER||1.2 mg vs. placebo|1.24||||0.333|TWO_SIDED|90.0|-3.67|6.15|||ANOVA|||||6.15|-3.67|0.333
92437651|NCT01025791|184760269|OTHER||1.2 mg + 0.6 mg vs. placebo|-1.43||||0.314|TWO_SIDED|90.0|-6.5|3.63|||ANOVA|||||3.63|-6.50|0.314
92437652|NCT01025791|184760269|OTHER||1 mg + 0.8 mg vs. placebo|-9.31||||0.001|TWO_SIDED|90.0|-14.2|-4.37|||ANOVA|||||-4.37|-14.2|0.001
92437653|NCT01025791|184760269|OTHER||1.2 mg + 1.0 mg vs. placebo|-6.45||||0.017|TWO_SIDED|90.0|-11.4|-1.51|||ANOVA|||||-1.51|-11.4|0.017
92437654|NCT01025791|184760269|OTHER||1.0 mg + 0.6 mg + 0.6 mg vs. placebo|-9.96||||0.001|TWO_SIDED|90.0|-14.9|-5.02|||ANOVA|||||-5.02|-14.9|0.001
92171197|NCT02638337|184231587|SUPERIORITY||Odds Ratio (OR)|1.07||||0.7869|TWO_SIDED|95.0|0.66|1.75|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 8||1.75|0.66|0.7869
92437655|NCT01025791|184760269|OTHER||1 mg + 1 mg + 0.6 mg vs. placebo|-9.0||||0.002|TWO_SIDED|95.0|-13.8|-4.17|||ANOVA|||||-4.17|-13.8|0.002
92437656|NCT01025791|184760274|OTHER||GMR (Fed/Fasted)|0.89|||||TWO_SIDED|95.0|0.86|0.92||||||||0.92|0.86|
92437657|NCT01025791|184760275|OTHER||GMR (Fed/fasted)|0.97|||||TWO_SIDED|95.0|0.79|1.19||||||||1.19|0.79|
92437658|NCT01025791|184760276|OTHER||0.1 mg vs placebo|-0.53||||0.396|TWO_SIDED|90.0|-3.92|2.86|||ANOVA|||||2.86|-3.92|0.396
92437659|NCT01025791|184760276|OTHER||0.2 mg vs. placebo|2.33||||0.1329|TWO_SIDED|90.0|-1.17|5.83|||ANOVA|||||5.83|-1.17|0.1329
92437660|NCT01025791|184760276|OTHER||0.5mg vs. placebo|-2.96||||0.0741|TWO_SIDED|90.0|-6.35|0.43|||ANOVA|||||0.43|-6.35|0.0741
92437661|NCT01025791|184760276|OTHER||1 mg vs. placebo|7.08|||<|0.001|TWO_SIDED|90.0|3.69|10.47|||ANOVA|||||10.47|3.69|<0.001
92437662|NCT01025791|184760276|OTHER||1 mg + 0.8 mg vs. placebo|4.39||||0.0211|TWO_SIDED|90.0|0.89|7.09|||ANOVA|||||7.09|0.89|0.0211
92437663|NCT01025791|184760276|OTHER||0.4 mg vs. placebo|0.85||||0.399|TWO_SIDED|90.0|-4.79|6.48|||ANOVA|||||6.48|-4.79|0.399
92437664|NCT01025791|184760276|OTHER||1.2 mg vs. placebo|4.54||||0.1|TWO_SIDED|90.0|-1.94|11.02|||ANOVA|||||11.02|-1.94|0.100
92437665|NCT01025791|184760276|OTHER||1.2 mg + 0.6 mg vs. placebo|3.38||||0.195|TWO_SIDED|90.0|-3.29|10.06|||ANOVA|||||10.06|-3.29|0.195
92171198|NCT02638337|184231587|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8894|TWO_SIDED|95.0|0.65|1.64|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 12||1.64|0.65|0.8894
92437666|NCT01025791|184760276|OTHER||1.0 mg + 0.8 mg vs. placebo|9.16||||0.022|TWO_SIDED|90.0|1.74|16.58|||ANOVA|||||16.58|1.74|0.022
92437667|NCT01025791|184760276|OTHER||1.2 mg + 1.0 mg vs. placebo|5.74||||0.098|TWO_SIDED|90.0|-1.68|13.16|||ANOVA|||||13.16|-1.68|0.098
92437668|NCT01025791|184760276|OTHER||1 mg + 0.6 mg + 0.6 mg vs. placebo|3.48||||0.214|TWO_SIDED|90.0|-3.94|10.9|||ANOVA|||||10.90|-3.94|0.214
92437669|NCT01025791|184760276|OTHER||1 mg + 1 mg + 0.6 mg vs. placebo|4.24||||0.163|TWO_SIDED|95.0|-3.03|11.52|||ANOVA|||||11.52|-3.03|0.163
92437670|NCT02237950|184760334|SUPERIORITY|||||||0.015|||||||Regression, Logistic|||||||0.015
92437671|NCT02237950|184760335|SUPERIORITY|||||||0.007|||||||Log Rank|||||||0.007
92437672|NCT02237950|184760336|SUPERIORITY|||||||0.002|||||||Regression, Logistic|||||||0.002
92437673|NCT02237950|184760337|SUPERIORITY|||||||0.014|||||||Regression, Logistic|||||||0.014
92437674|NCT02237950|184760338|SUPERIORITY|||||||0.012|||||||Regression, Logistic|||||||0.012
92437675|NCT02237950|184760339|SUPERIORITY|||||||0.059|||||||Regression, Logistic|||||||0.059
92437676|NCT02237950|184760340|SUPERIORITY|||||||0.008|||||||Regression, Logistic|||||||0.008
92437677|NCT01896531|184760343|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.12|||=|0.56|TWO_SIDED|90.0|0.81|1.55|||Log Rank|||All randomized participants||1.55|0.81|= 0.56
92437678|NCT01896531|184760343|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.07|||=|0.86|TWO_SIDED|90.0|0.54|2.11|||Log Rank|||Participants with PTEN loss tumors||2.11|0.54|= 0.86
92437679|NCT01896531|184760344|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.52|||=|0.0234|TWO_SIDED|90.0|1.12|2.07|||Log Rank|||All randomized participants||2.07|1.12|= 0.0234
92437680|NCT01896531|184760344|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.66|||=|0.2867|TWO_SIDED|90.0|0.75|3.65|||Log Rank|||Participants with PTEN loss tumors||3.65|0.75|= 0.2867
92437681|NCT01896531|184760344|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.66|||=|0.1369|TWO_SIDED|90.0|0.94|2.93|||Log Rank|||Participants who are Akt Dx+||2.93|0.94|= 0.1369
92437682|NCT01896531|184760345|SUPERIORITY||Difference in Response Rates|-5.2|||=|0.5202|TWO_SIDED|90.0|-18.46|8.06|||Cochran-Mantel-Haenszel|||All randomized participants||8.06|-18.46|= 0.5202
92437683|NCT01896531|184760345|SUPERIORITY||Difference in Response Rates|-23.33|||=|0.2035|TWO_SIDED|90.0|-52.24|5.58|||Cochran-Mantel-Haenszel|||Participants with PTEN loss tumors||5.58|-52.24|= 0.2035
92437684|NCT01896531|184760345|SUPERIORITY||Difference in Response Rates|-4.35|||=|0.7697|TWO_SIDED|90.0|-28.48|19.79|||Cochran-Mantel-Haenszel|||Participants who are Akt Dx+||19.79|-28.48|= 0.7697
92437685|NCT01896531|184760346|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.14|||=|0.5974|TWO_SIDED|90.0|0.76|1.73|||Log Rank|||All randomized participants||1.73|0.76|= 0.5974
92437686|NCT01896531|184760346|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.71|||=|0.5385|TWO_SIDED|90.0|0.28|1.79|||Log Rank|||Participants with PTEN loss tumors||1.79|0.28|= 0.5385
92437687|NCT01896531|184760346|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.78|||=|0.6097|TWO_SIDED|90.0|0.35|1.75|||Log Rank|||Participants who are Akt Dx+||1.75|0.35|= 0.6097
92437688|NCT05185089|184760349|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.305||0.989|TWO_SIDED|95.0|-0.62|0.63|||ANCOVA|||||0.63|-0.62|0.989
92437689|NCT05185089|184760349|SUPERIORITY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.293||0.054|TWO_SIDED|95.0|-1.16|0.01|||ANCOVA|||||0.01|-1.16|0.054
92437690|NCT05185089|184760350|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.28||0.872|TWO_SIDED|95.0|-0.52|0.62|||ANCOVA|||||0.62|-0.52|0.872
92437691|NCT05185089|184760350|SUPERIORITY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.276||0.041|TWO_SIDED|95.0|-1.14|-0.02|||ANCOVA|||||-0.02|-1.14|0.041
92437692|NCT05185089|184760351|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.303||0.991|TWO_SIDED|95.0|-0.61|0.6|||ANCOVA|||||0.60|-0.61|0.991
92437693|NCT05185089|184760351|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.298||0.215|TWO_SIDED|95.0|-0.97|0.22|||ANCOVA|||||0.22|-0.97|0.215
92437694|NCT05185089|184760352|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.291||0.639|TWO_SIDED|95.0|-0.73|0.45|||ANCOVA|||||0.45|-0.73|0.639
92437695|NCT05185089|184760352|SUPERIORITY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.271||0.092|TWO_SIDED|95.0|-1.0|0.08|||ANCOVA|||||0.08|-1.00|0.092
92437696|NCT05185089|184760353|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.104||0.65|TWO_SIDED|95.0|-0.17|0.26|||ANCOVA|||||0.26|-0.17|0.650
92437697|NCT05185089|184760353|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.085||0.01|TWO_SIDED|95.0|-0.41|-0.06|||ANCOVA|||||-0.06|-0.41|0.010
92437698|NCT05185089|184760354|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.24||0.856|TWO_SIDED|95.0|-0.44|0.53|||ANCOVA|||||0.53|-0.44|0.856
92437699|NCT05185089|184760354|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.21||0.036|TWO_SIDED|95.0|-0.87|-0.03|||ANCOVA|||||-0.03|-0.87|0.036
92437700|NCT05185089|184760355|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.462||0.678|TWO_SIDED|95.0|-0.73|1.11|||ANCOVA|||||1.11|-0.73|0.678
92437701|NCT05185089|184760355|SUPERIORITY||Mean Difference (Final Values)|1.24|STANDARD_ERROR_OF_MEAN|0.525||0.025|TWO_SIDED|95.0|0.16|2.31|||ANCOVA|||||2.31|0.16|0.025
92437702|NCT05185089|184760356|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.143||0.633|TWO_SIDED|95.0|-0.22|0.35|||ANCOVA|||||0.35|-0.22|0.633
92437703|NCT05185089|184760356|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.139||0.063|TWO_SIDED|95.0|-0.02|0.56|||ANCOVA|||||0.56|-0.02|0.063
92437704|NCT05185089|184760357|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.185||0.732|TWO_SIDED|95.0|-0.44|0.31|||ANCOVA|||||0.31|-0.44|0.732
92437705|NCT05185089|184760357|SUPERIORITY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.214||0.044|TWO_SIDED|95.0|0.01|0.89|||ANCOVA|||||0.89|0.01|0.044
92437706|NCT05185089|184760358|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.19||0.318|TWO_SIDED|95.0|-0.19|0.58|||ANCOVA|||||0.58|-0.19|0.318
92171199|NCT02638337|184231588|SUPERIORITY||Odds Ratio (OR)|0.92||||0.8369|TWO_SIDED|95.0|0.4|2.1|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 4||2.10|0.40|0.8369
92437707|NCT05185089|184760358|SUPERIORITY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.228||0.03|TWO_SIDED|95.0|0.05|0.98|||ANCOVA|||||0.98|0.05|0.030
92437708|NCT05185089|184760359|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.08|STANDARD_ERROR_OF_MEAN|1.105||0.438|TWO_SIDED|95.0|0.88|1.33|||ANCOVA|||||1.33|0.88|0.438
92437709|NCT05185089|184760359|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.04|STANDARD_ERROR_OF_MEAN|1.122||0.761|TWO_SIDED|95.0|0.82|1.31|||ANCOVA|||||1.31|0.82|0.761
92437710|NCT05185089|184760360|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.08|STANDARD_ERROR_OF_MEAN|1.108||0.449|TWO_SIDED|95.0|0.88|1.34|||ANCOVA|||||1.34|0.88|0.449
92437711|NCT05185089|184760360|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.04|STANDARD_ERROR_OF_MEAN|1.125||0.732|TWO_SIDED|95.0|0.82|1.32|||ANCOVA|||||1.32|0.82|0.732
92437712|NCT05185089|184760361|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.14|STANDARD_ERROR_OF_MEAN|1.161||0.4|TWO_SIDED|95.0|0.84|1.54|||ANCOVA|||||1.54|0.84|0.400
92437713|NCT05185089|184760361|SUPERIORITY||Ratio of Geometric LS Mean Ratios|0.98|STANDARD_ERROR_OF_MEAN|1.187||0.912|TWO_SIDED|95.0|0.69|1.4|||ANCOVA|||||1.40|0.69|0.912
92437714|NCT05185089|184760362|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.09|STANDARD_ERROR_OF_MEAN|1.084||0.287|TWO_SIDED|95.0|0.93|1.29|||ANCOVA|||||1.29|0.93|0.287
92437715|NCT05185089|184760362|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.08|STANDARD_ERROR_OF_MEAN|1.092||0.42|TWO_SIDED|95.0|0.9|1.29|||ANCOVA|||||1.29|0.90|0.420
92437716|NCT05185089|184760363|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.01|STANDARD_ERROR_OF_MEAN|1.022||0.765|TWO_SIDED|95.0|0.96|1.05|||ANCOVA|||||1.05|0.96|0.765
92437717|NCT05185089|184760363|SUPERIORITY||Ratio of Geometric LS Mean Ratios|0.9|STANDARD_ERROR_OF_MEAN|1.033||0.004|TWO_SIDED|95.0|0.85|0.97|||ANCOVA|||||0.97|0.85|0.004
92437718|NCT00770289|184760366|SUPERIORITY_OR_OTHER||Pearson's correlation coefficient|0.899|||<|0.0001|TWO_SIDED|95.0|0.886|0.911||The statistical testing was done at alpha = 0.05.|Pearson's correlation|||Change from baseline at Week 12: Pearson's correlation coefficient was used to evaluate compatibility between the questionnaires.||0.911|0.886|<0.0001
92437719|NCT00770289|184760366|SUPERIORITY_OR_OTHER||Pearson's correlation coefficient|0.797|||<|0.0001|TWO_SIDED|95.0|0.771|0.82||The statistical testing was done at alpha = 0.05.|Pearson's correlation|||Change from baseline at Week 12: Pearson's correlation coefficient was used to evaluate compatibility between the questionnaires.||0.820|0.771|<0.0001
92437720|NCT00770289|184760366|SUPERIORITY_OR_OTHER||Pearson's correlation coefficient|0.765|||<|0.0001|TWO_SIDED|95.0|0.736|0.791||The statistical testing was done at alpha = 0.05.|Pearson's correlation|||Change from baseline at Week 12: Pearson's correlation coefficient was used to evaluate compatibility between the questionnaires.||0.791|0.736|<0.0001
92437721|NCT02733991|184760368|SUPERIORITY||Mean Difference (Final Values)|-2.88|||<|0.0001|TWO_SIDED|95.0|-3.51|-2.25|||Mixed Models Analysis||Model based Estimated mean; Treatment arm - Control arm|||-2.25|-3.51|<0.0001
92437722|NCT02733991|184760369|SUPERIORITY||Mean Difference (Final Values)|-42.62|||<|0.0001|TWO_SIDED|95.0|-52.01|-33.19|||Mixed Models Analysis||Model based Estimated mean; Treatment arm - Control arm|||-33.19|-52.01|<0.0001
92437723|NCT02733991|184760370|NON_INFERIORITY|Non-inferiority margin of 40 min/day|Mean Difference (Final Values)|-38.8|||||ONE_SIDED|97.5||-0.46|||||Model based Estimated mean; difference = control arm - treatment arm|||-0.46||
92437724|NCT02733991|184760370|SUPERIORITY||Mean Difference (Final Values)|38.8||||0.0474|TWO_SIDED|95.0|0.46|77.11|||Mixed Models Analysis||Model based Estimated mean; Difference = Treatment arm - Control arm|||77.11|0.46|0.0474
92437725|NCT02956486|184760378|SUPERIORITY||Least Square (LS) Mean Difference|-0.17||||0.385|TWO_SIDED|95.0|-0.57|0.22|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (mild cognitive impairment \[MCI\]/Prodromal, mild alzheimer's disease \[AD\]), concurrent AD medication use, region, apolipoprotein E (ApoE4) status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.22|-0.57|0.385
92437726|NCT02956486|184760380|SUPERIORITY||LS Mean Difference|-0.02||||0.345|TWO_SIDED|95.0|-0.06|0.02|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.02|-0.06|0.345
92437727|NCT02956486|184760381|SUPERIORITY||LS Mean Difference|-12.83|||<|0.001|TWO_SIDED|95.0|-18.79|-6.88|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||-6.88|-18.79|<.001
92437728|NCT02956486|184760382|SUPERIORITY||LS Mean Difference|-0.23||||0.316|TWO_SIDED|95.0|-0.67|0.22|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.22|-0.67|0.316
92437729|NCT02956486|184760383|SUPERIORITY||LS Mean Difference|-0.03||||0.254|TWO_SIDED|95.0|-0.07|0.02|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.02|-0.07|0.254
92437730|NCT02956486|184760384|SUPERIORITY||Difference of Mean Slope|-0.008||||0.9088|TWO_SIDED|95.0|-0.145|0.129|||Linear mixed effects model|||Based on the linear mixed effects model, which included assessment time and treatment group by assessment time interaction as covariate with random intercept and slope.||0.129|-0.145|0.9088
92437731|NCT02956486|184760385|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.6155|TWO_SIDED|95.0|0.77|1.16|||Regression, Cox|||Based on a Cox regression model which included treatment group, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, APOE4 status (positive, negative) as covariate.||1.16|0.77|0.6155
92171200|NCT02638337|184231588|SUPERIORITY||Odds Ratio (OR)|1.51||||0.397|TWO_SIDED|95.0|0.58|3.95|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 8||3.95|0.58|0.3970
92279955|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.323||||0.0556|TWO_SIDED|95.0|-0.653|0.008||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.008|-0.653|0.0556
92279956|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.051||||0.7673|TWO_SIDED|95.0|-0.389|0.287||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.287|-0.389|0.7673
92171201|NCT02638337|184231588|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5391|TWO_SIDED|95.0|0.54|3.26|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 12||3.26|0.54|0.5391
92279957|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.05||||0.7709|TWO_SIDED|95.0|-0.389|0.289||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.289|-0.389|0.7709
92279958|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.386||||0.0273|TWO_SIDED|95.0|-0.728|-0.043||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.043|-0.728|0.0273
92279959|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.044||||0.795|TWO_SIDED|95.0|-0.378|0.289||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.289|-0.378|0.7950
92171202|NCT02638337|184231589|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0095|TWO_SIDED|95.0|1.13|2.4|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 4||2.40|1.13|0.0095
92171203|NCT02638337|184231589|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0542|TWO_SIDED|95.0|0.99|2.11|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 8||2.11|0.99|0.0542
92279960|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.236||||0.1656|TWO_SIDED|95.0|-0.57|0.098||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.098|-0.570|0.1656
92437732|NCT02956486|184760386|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.1281|TWO_SIDED|95.0|0.96|1.35|||Regression, Cox|||Based on a Cox regression model which included treatment group, concurrent AD medication use, region, APOE4 status (positive, negative) as covariate.||1.35|0.96|0.1281
92437733|NCT02956486|184760387|SUPERIORITY||LS Mean Difference|-0.43||||0.525|TWO_SIDED|95.0|-1.75|0.9|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.90|-1.75|0.525
92437734|NCT02956486|184760388|SUPERIORITY||LS Mean Difference|-0.01||||0.977|TWO_SIDED|95.0|-0.64|0.62|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.62|-0.64|0.977
92437735|NCT02956486|184760389|SUPERIORITY||LS Mean Difference|0.11||||0.854|TWO_SIDED|95.0|-1.09|1.32|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||1.32|-1.09|0.854
92437736|NCT02956486|184760390|SUPERIORITY||LS Mean Difference|-0.27||||0.314|TWO_SIDED|95.0|-0.79|0.26|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.26|-0.79|0.314
92437737|NCT02956486|184760391|SUPERIORITY||LS Mean Difference|0.07||||0.895|TWO_SIDED|95.0|-0.93|1.07|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||1.07|-0.93|0.895
92437738|NCT02956486|184760392|SUPERIORITY||LS Mean Difference|0.04||||0.542|TWO_SIDED|95.0|-0.09|0.17|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||0.17|-0.09|0.542
92437739|NCT02956486|184760393|SUPERIORITY||LS Mean Difference|-0.01||||0.38|TWO_SIDED|95.0|-0.02|0.01|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||0.01|-0.02|0.380
92437740|NCT02956486|184760394|SUPERIORITY||LS Mean Difference|-0.4||||0.063|TWO_SIDED|95.0|-0.82|0.02|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||0.02|-0.82|0.063
92437741|NCT02956486|184760395|SUPERIORITY||LS Mean Difference|-0.56||||0.045|TWO_SIDED|95.0|-1.11|-0.01|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||-0.01|-1.11|0.045
92437742|NCT02956486|184760396|SUPERIORITY||LS Mean Difference|-0.04||||0.799|TWO_SIDED|95.0|-0.32|0.24|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||0.24|-0.32|0.799
92446634|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|3.13||||0.7319|TWO_SIDED|95.0|-16.64|22.89||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Role Physical||22.89|-16.64|0.7319
92279961|NCT02637557|184463079|SUPERIORITY||LS Mean Difference|-0.385||||0.0254|TWO_SIDED|95.0|-0.722|-0.048||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.048|-0.722|0.0254
92279962|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|0.093||||0.3788|TWO_SIDED|95.0|-0.114|0.3||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.300|-0.114|0.3788
92437743|NCT02956486|184760397|SUPERIORITY||LS Mean Difference|-0.32||||0.012|TWO_SIDED|95.0|-0.56|-0.07|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||-0.07|-0.56|0.012
92437744|NCT04446377|184760448|SUPERIORITY|The alternative hypothesis for the statistical testing was that LAM-002A would induce greater changes in viral load from Day 1 to Day 4 than would Placebo.|Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.51||0.35|TWO_SIDED|95.0|-1.47|0.53||Pre-specified 2-sided significance level of 0.20|Mixed Models Analysis|ANCOVA linear mixed model to evaluate the relative differences between the LAM-002A and Placebo groups in the log10 viral load from Day 1 to Day 4.|The difference between the groups (LAM-002A vs Placebo).|The analysis tested whether the viral load in nasopharyngeal samples was lower at Day 4 in those receiving LAM-002A compared to Placebo.||0.53|-1.47|0.35
92437745|NCT04446377|184760450|SUPERIORITY|The alternative hypothesis for the statistical testing was that LAM-002A would reduce the cumulative rate of hospitalization or death during the 28-day period comprising 10 days of study drug administration and a further 18 days of observation.|Odds Ratio (OR)|2.03||||0.55|TWO_SIDED|95.0|0.18|22.89|||Log Rank|||||22.89|0.18|0.55
92437746|NCT04446377|184760452|SUPERIORITY|The alternative hypothesis for the statistical testing was that a higher proportion of participants would have ≥95% oxygen saturation during LAM-002A administration than during Placebo administration as assessed across Days 1, 4, and 11 of the study drug course.|Risk Difference (RD)|-1.4|||||TWO_SIDED|||||||||Risk Difference from generalized estimating equations (GEE) logistic regression at Baseline||||
92437747|NCT04446377|184760452|SUPERIORITY|The alternative hypothesis for the statistical testing was that a higher proportion of participants would have ≥95% oxygen saturation during LAM-002A administration than during Placebo administration as assessed across Days 1, 4, and 11 of the study drug course.|Risk Difference (RD)|-1.0|||||TWO_SIDED|||||||||Risk Difference from GEE Logistic Regression at Day 1||||
92437748|NCT04446377|184760452|SUPERIORITY|The alternative hypothesis for the statistical testing was that a higher proportion of participants would have ≥95% oxygen saturation during LAM-002A administration than during Placebo administration as assessed across Days 1, 4, and 11 of the study drug course.|Risk Difference (RD)|-8.8|||||TWO_SIDED|||||||||Risk Difference from GEE logistic regression at Day 4||||
92437749|NCT04446377|184760452|SUPERIORITY|The alternative hypothesis for the statistical testing was that a higher proportion of participants would have ≥95% oxygen saturation during LAM-002A administration than during Placebo administration as assessed across Days 1, 4, and 11 of the study drug course.|Risk Difference (RD)|-3.7|||||TWO_SIDED|||||||||Risk Difference from GEE logistic regression at Day 11||||
92437750|NCT04446377|184760453|SUPERIORITY|The alternative hypothesis for the statistical testing was that, relative to Placebo, LAM-002A would result in a greater proportion of participants with a SARS-CoV-2 viral load \<LLOQ on Day 4.|Relative Risk|2.51||||0.2|TWO_SIDED|95.0|0.74|8.48||Prespecified significance level of 0.20.|Fisher Exact|||||8.48|0.74|0.20
92437751|NCT01867021|184760472|NON_INFERIORITY_OR_EQUIVALENCE|The HI GMTs of TIV vaccine for strain A/H1N1 considered non-inferior to HI GMTs of TIVf vaccine if the upper limit of the two-sided 95% CI on the ratio of GMTs (GMT TIVf / GMT TIV) was ≤1.5|Ratio of GMTs|1.85|||||TWO_SIDED|95.0|1.66|2.06|||ANCOVA|Not applicable(NA)||Non-inferiority of HI GMTs of TIV vaccine over HI GMTs of TIVf vaccine for the strain A/H1N1 at day 22||2.06|1.66|
92437752|NCT01867021|184760472|NON_INFERIORITY_OR_EQUIVALENCE|The HI GMTs of TIV vaccine for strain A/H3N2 considered non-inferior to HI GMTs of TIVf vaccine if the upper limit of the two-sided 95% CI on the ratio of GMTs (GMT TIVf / GMT TIV) was ≤1.5|Ratio of GMTs|1.5|||||TWO_SIDED|95.0|1.38|1.64|||ANCOVA|||Non-inferiority of HI GMTs of TIV vaccine over HI GMTs of TIVf vaccine for the strain A/H3N2 at day 22||1.64|1.38|
92437753|NCT01867021|184760472|NON_INFERIORITY_OR_EQUIVALENCE|The HI GMTs of TIV vaccine for strain B considered non-inferior to HI GMTs of TIVf vaccine if the upper limit of the two-sided 95% CI on the ratio of GMTs (GMT TIVf / GMT TIV) was ≤1.5|Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.93|1.08|||ANCOVA|||Non-inferiority of HI GMTs of TIV vaccine over HI GMTs of TIVf vaccine for the strain B at day 22||1.08|0.93|
92437754|NCT01867021|184760473|NON_INFERIORITY_OR_EQUIVALENCE|Percentage of subjects with HI seroconversion of TIV vaccine for strain A/H1N1 considered non-inferior to percentage of subjects with HI seroconversion of TIVf vaccine if the upper limit of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion TIVf - Seroconversion TIV) was ≤10%.|Difference in seroconversion rates|9.0|||||TWO_SIDED|95.0|5.6|11.5|||Miettinen and Nurminen|||Non-inferiority of percentage of subjects with HI seroconversion of TIV vaccine over TIVf vaccine for the strain A/H1N1 at day 22||11.5|5.6|
92437755|NCT01867021|184760473|NON_INFERIORITY_OR_EQUIVALENCE|Percentage of subjects with HI seroconversion of TIV vaccine for strain A/H3N2 considered non-inferior to percentage of subjects with HI seroconversion of TIVf vaccine if the upper limit of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion TIVf - Seroconversion TIV) was ≤10%.|Difference in seroconversion rates|13.0|||||TWO_SIDED|95.0|10.1|16.1|||Miettinen and Nurminen|||Non-inferiority of percentage of subjects with HI seroconversion of TIV vaccine over TIVf vaccine for the strain A/H3N2 at day 22||16.1|10.1|
92446635|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|-7.14||||0.691|TWO_SIDED|95.0|-45.36|31.08||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Role Physical||31.08|-45.36|0.6910
92446636|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-9.42||||0.1311|TWO_SIDED|95.0|-22.18|3.34||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Bodily Pain||3.34|-22.18|0.1311
92279963|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|0.189||||0.0761|TWO_SIDED|95.0|-0.02|0.397||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.397|-0.020|0.0761
92279964|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.021||||0.8415|TWO_SIDED|95.0|-0.232|0.189||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.189|-0.232|0.8415
92437756|NCT01867021|184760473|NON_INFERIORITY_OR_EQUIVALENCE|Percentage of subjects with HI seroconversion of TIV vaccine for strain B considered non-inferior to percentage of subjects with HI seroconversion of TIVf vaccine if the upper limit of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion TIVf - Seroconversion TIV) was ≤10%.|Difference in seroconversion rates|-1.0|||||TWO_SIDED|95.0|-5.0|2.3|||Miettinen and Nurminen|||Non-inferiority of percentage of subjects with HI seroconversion of TIV vaccine over TIVf vaccine for the strain B at day 22||2.3|-5|
92437757|NCT01129960|184760482|SUPERIORITY_OR_OTHER|||||||0.3726|||||||Dunnett's test (analysis of covariance)|||||||0.3726
92437758|NCT01129960|184760482|SUPERIORITY_OR_OTHER|||||||0.8034|||||||Dunnett's test (analysis of covariance)|||||||0.8034
92437759|NCT01129960|184760482|SUPERIORITY_OR_OTHER|||||||0.1391|||||||Dunnett's test (analysis of covariance)|||||||0.1391
92437760|NCT02056340|184760485|OTHER|||||||0.611||||||Threshold for significaance was p value \<0.05.|Mixed Models Analysis|||We used a linear mixed-effects model which accounted for all measurements taken and the time that those measurements were taken.||||0.611
92437761|NCT02056340|184760486|OTHER|||||||0.029||||||P value reflects baseline to 72 hours between groups. A p-value \<0.05 will be considered significant.|Mixed Models Analysis|||The primary comparison was at 72 hours for the self-reported influenza severity score.||||0.029
92437762|NCT00071513|184760503|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Mean changes in Short Moods and Feelings measure of depression was the unit of analysis.||||<0.05
92437763|NCT00071513|184760503|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||A secondary hypothesis of the study was that attachment to school and/or perceptions of school supportiveness would mediate the effect of the HSTS intervention on depressive symptoms.||||<0.01
92437764|NCT03171415|184760570|SUPERIORITY||||||>|0.05|TWO_SIDED|5.0|||||Kruskal-Wallis|||The Kruskal-Wallis T-test was applied for analyzing the difference in between the study groups||||>0.05
92437765|NCT03171415|184760570|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|||The Kruskal-Wallis T-test was applied for analyzing the difference in between the study groups, at day 28 and Day 56||||<0.05
92437766|NCT03171415|184760570|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|||The Kruskal-Wallis T-test was applied for analyzing the difference in between the study groups||||<0.05
92437767|NCT03171415|184760570|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|||The Kruskal-Wallis T-test was applied for analyzing the difference in between the study groups||||<0.05
92437768|NCT03171415|184760571|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92437769|NCT03171415|184760571|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92437770|NCT03171415|184760571|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92437771|NCT03171415|184760571|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92437772|NCT03171415|184760577|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92437773|NCT02848651|184760580|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.3502|TWO_SIDED|90.0|0.54|1.18|||Log Rank|||||1.18|0.54|0.3502
92279965|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|0.052||||0.6719|TWO_SIDED|95.0|-0.19|0.294||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.294|-0.190|0.6719
92437774|NCT02848651|184760587|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.1783|TWO_SIDED|90.0|0.4|1.1|||Log Rank|||||1.10|0.40|0.1783
92437775|NCT02848651|184760587|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.0358|TWO_SIDED|90.0|0.23|0.85|||Log Rank|||||0.85|0.23|0.0358
92437776|NCT02848651|184760588|SUPERIORITY||Differences in Rates|13.27||||0.0326|TWO_SIDED|90.0|2.53|24.0|||Cochran-Mantel-Haenszel|||||24.00|2.53|0.0326
92437777|NCT02848651|184760588|SUPERIORITY||Difference in Rates|30.22|||<|0.0001|TWO_SIDED|90.0|14.82|45.62|||Cochran-Mantel-Haenszel|||||45.62|14.82|<0.0001
92437778|NCT02848651|184760588|SUPERIORITY||Differences in Rates|41.37|||<|0.0001|TWO_SIDED|90.0|22.13|60.61|||Cochran-Mantel-Haenszel|||||60.61|22.13|<0.0001
92437779|NCT00883116|184760589|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.0397|TWO_SIDED|95.0|1.0|1.7|||Log Rank|||||1.7|1.0|0.0397
92437780|NCT00883116|184760590|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.8011|TWO_SIDED|95.0|0.8|1.3|||Log Rank|||||1.3|0.8|0.8011
92437781|NCT00680043|184760603|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.238|||TWO_SIDED|97.5|-0.79|0.29|||ANOVA|||||0.29|-0.79|
92437782|NCT00680043|184760603|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.238|||TWO_SIDED|97.5|-0.56|0.52|||ANOVA|||||0.52|-0.56|
92437783|NCT00680043|184760605|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.84|1.01|||Cochran-Mantel-Haenszel|||||1.01|0.84|
92437784|NCT00680043|184760605|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.92|1.03|||Cochran-Mantel-Haenszel|||||1.03|0.92|
92437785|NCT02480114|184760625|SUPERIORITY||Odds Ratio (OR)|0.549||||0.004|TWO_SIDED|95.0|0.364|0.827|||Proportional Odds Regression|||||0.827|0.364|0.004
92437786|NCT02480114|184760626|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED||||||Fisher Exact|||||||1
92437787|NCT02480114|184760627|SUPERIORITY||Odds Ratio (OR)|0.371|||<|0.001|TWO_SIDED|95.0|0.244|0.597|||Proportional Odds Regression|||||0.597|0.244|<0.001
92437788|NCT01031069|184760639|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% confidence interval (CI) for the ratio of GMTs (Cervarix over Gardasil) being above (\>) 0.5 for HPV-16 type.|Adjusted GMT ratio|2.95|||||TWO_SIDED|95.0|1.92|4.52||||||Adjusted GMT ratios for anti-HPV-16 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV+/Cervarix Group) was non-inferior to that of Gardasil vaccine (HIV+/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-16, measured by Pseudovirion-based neutralization assay (PBNA) one month after the administration of the third dose of vaccine in HIV+ subjects.|Primary objectives were to be assessed sequentially: firstly, non-inferiority for both HPV-16 and HPV-18, and then, superiority for HPV-18 followed by superiority for HPV-16.|4.52|1.92|
92446637|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-14.86||||0.2406|TWO_SIDED|95.0|-41.08|11.36||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Bodily Pain||11.36|-41.08|0.2406
92437789|NCT01031069|184760639|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% confidence interval (CI) for the ratio of GMTs (Cervarix over Gardasil) being above (\>) 0.5 for HPV-18 type.|Adjusted GMT ratio|7.83|||||TWO_SIDED|95.0|4.84|12.66||||||Adjusted GMT ratios for anti-HPV-18 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV+/Cervarix Group) was non-inferior to that of Gardasil vaccine (HIV+/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-18, measured by Pseudovirion-based neutralization assay (PBNA) one month after the administration of the third dose of vaccine in HIV+ subjects.|Primary objectives were to be assessed sequentially: firstly, non-inferiority for both HPV-16 and HPV-18, and then, superiority for HPV-18 followed by superiority for HPV-16.|12.66|4.84|
92437790|NCT01031069|184760640|SUPERIORITY|Superiority was defined as the lower limit of the 95% CI for the ratio of GMTs (Cervarix over Gardasil) being above 1 for HPV-18 type, with a statistically significant p-value.|Adjusted GMT ratio|7.44|||<|0.0001|TWO_SIDED|95.0|4.79|11.54|||ANOVA|ANOVA model on the log10 transformation of the titers for HIV+ subjects and including the vaccine group as fixed effect.||Adjusted GMT ratios for anti-HPV-18 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV+/Cervarix Group) was superior to that of Gardasil vaccine (HIV+/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-18, measured by Pseudovirion-based neutralization assay (PBNA) in HIV+ subjects, assessed following a sequential approach.|Primary objectives were to be assessed sequentially: firstly, non-inferiority for both HPV-16 and HPV-18, and then, superiority for HPV-18 followed by superiority for HPV-16.|11.54|4.79|<0.0001
92437791|NCT01031069|184760640|SUPERIORITY|Superiority was defined as the lower limit of the 95% CI for the ratio of GMTs (Cervarix over Gardasil) being above 1 for HPV-16 type, with a statistically significant p-value.|Adjusted GMT ratio|2.74|||<|0.0001|TWO_SIDED|95.0|1.83|4.11|||ANOVA|ANOVA model on the log10 transformation of the titers for HIV+ subjects and including the vaccine group as fixed effect.||Adjusted GMT ratios for anti-HPV-16 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV+/Cervarix Group) was superior to that of Gardasil vaccine (HIV+/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-16, measured by Pseudovirion-based neutralization assay (PBNA) in HIV+ subjects, following a sequential approach.|Primary objectives were to be assessed sequentially: firstly, non-inferiority for both HPV-16 and HPV-18, and then, superiority for HPV-18 followed by superiority for HPV-16.|4.11|1.83|<0.0001
92437792|NCT01031069|184760657|SUPERIORITY|Superiority was defined as the lower limit of the 97.5% CI for the ratio of GMTs (Cervarix over Gardasil) for HPV-18 type being above 1, with a statistically significant p-value.|Adjusted GMT ratio|5.38|||<|0.0001|TWO_SIDED|97.5|3.2|9.06|||ANOVA|ANOVA model on the log10 transformation of the titers for HIV- subjects and including the vaccine group as fixed effect.||Adjusted GMT ratio for anti-HPV-18 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV-/Cervarix Group) was superior to that of Gardasil vaccine (HIV-/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-18, measured by Pseudovirion-based neutralization assay (PBNA) in HIV- subjects.||9.06|3.20|<0.0001
92437793|NCT01031069|184760657|SUPERIORITY|Superiority was defined as the lower limit of the 97.5% CI for the ratio of GMTs (Cervarix over Gardasil) for HPV-16 type being above 1, with a statistically significant p-value.|Adjusted GMT ratio|3.05|||<|0.0001|TWO_SIDED|97.5|1.84|5.06|||ANOVA|ANOVA model on the log10 transformation of the titers for HIV- subjects and including the vaccine group as fixed effect.||Adjusted GMT ratio for anti-HPV-16 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV-/Cervarix Group) was superior to that of Gardasil vaccine (HIV-/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-16, measured by Pseudovirion-based neutralization assay (PBNA) in HIV- subjects.||5.06|1.84|<0.0001
92437794|NCT01317160|184760662|SUPERIORITY_OR_OTHER_LEGACY|||||||0.042|TWO_SIDED||||||Chi-squared|||Domeij-Arverud et al., Bone Joint J 2015;97-B:675-80.||||0.042
92437795|NCT01317160|184760662|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.81|||<|0.05|TWO_SIDED|95.0|1.25|6.32|||Regression, Logistic|Age was adjusted for in the calculation.|Risk of VTE by routine care (numerator) divided by IPC treatment (denominator)|||6.32|1.25|<0.05
92437796|NCT01317160|184760664|SUPERIORITY_OR_OTHER_LEGACY|||||||0.737|TWO_SIDED||||||Chi-squared|||||||0.737
92437797|NCT03578367|184760692|OTHER|No test performed|Risk Difference (RD)|19.5|||||TWO_SIDED|90.0|5.0|33.1||||||||33.1|5.0|
92437798|NCT03578367|184760692|OTHER|No test performed|Risk Difference (RD)|28.57|||||TWO_SIDED|90.0|12.4|44.8||||||||44.8|12.4|
92437799|NCT03578367|184760693|OTHER|No test performed|Risk Difference (RD)|14.29|||||TWO_SIDED|90.0|-1.7|30.3||||||||30.3|-1.7|
92437800|NCT03578367|184760693|OTHER|No test performed|Risk Difference (RD)|23.81|||||TWO_SIDED|90.0|5.9|41.7||||||||41.7|5.9|
92437801|NCT01705288|184760711|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||Intention to Treat Analysis||||0.36
92437802|NCT01705288|184760712|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Intention to Treat Analysis||||0.05
92437803|NCT01705288|184760713|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92437804|NCT00670800|184760722|SUPERIORITY_OR_OTHER|||||||0.143||95.0|||||t-test, 2 sided|||||||0.143
92437805|NCT00670800|184760722|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||t-test, 2 sided|||||||0.900
92437806|NCT00670800|184760722|SUPERIORITY_OR_OTHER|||||||0.133||95.0|||||t-test, 2 sided|||||||0.133
92171204|NCT02638337|184231589|SUPERIORITY||Odds Ratio (OR)|1.97||||0.0004|TWO_SIDED|95.0|1.35|2.88|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 12||2.88|1.35|0.0004
92437807|NCT00670800|184760723|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||t-test, 2 sided|||||||0.049
92437808|NCT00670800|184760723|SUPERIORITY_OR_OTHER|||||||0.717||95.0|||||t-test, 2 sided|||||||0.717
92437809|NCT00670800|184760723|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||t-test, 2 sided|||||||0.038
92437810|NCT00670800|184760724|SUPERIORITY_OR_OTHER|||||||0.498||95.0|||||t-test, 2 sided|||||||0.498
92437811|NCT00670800|184760724|SUPERIORITY_OR_OTHER|||||||0.835||95.0|||||t-test, 2 sided|||||||0.835
92437812|NCT00670800|184760724|SUPERIORITY_OR_OTHER|||||||0.606||95.0|||||t-test, 2 sided|||||||0.606
92437813|NCT00670800|184760725|SUPERIORITY_OR_OTHER|||||||0.118||95.0|||||t-test, 2 sided|||||||0.118
92437814|NCT00670800|184760725|SUPERIORITY_OR_OTHER|||||||0.581||95.0|||||t-test, 2 sided|||||||0.581
92437815|NCT00670800|184760725|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||t-test, 2 sided|||||||0.190
92437816|NCT04203238|184760774|SUPERIORITY||Median Difference (Final Values)|0.89|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92437817|NCT01662908|184760775|OTHER||Mean Difference (Final Values)|8.8|STANDARD_ERROR_OF_MEAN|10.74|||TWO_SIDED|95.0|-12.7|30.2||||||||30.2|-12.7|
92437818|NCT03274687|184760788|NON_INFERIORITY|The non-inferiority margin for the difference in mean change score (∆2 - ∆1) is -5.||||||0.98|||||||t-test, 1 sided|||Null hypothesis (H0): mean change score of HYPORT (∆2) is worse than that of COPORT (∆1), specifically ∆2 - ∆1 \< -5. Alternative hypothesis (HA): ∆2 is not worse than ∆1, specifically ∆2 - ∆1 ≥ -5. The study sample size is based on 90% power for this endpoint and 91% power for the bowel endpoint (resulting in 81.9% statistical power to reject the null hypothesis for both endpoints) and a one-sided alpha=0.025 with an overall type I error of 0.05 with a Bonferroni adjustment.||||0.98
92437819|NCT03274687|184760789|NON_INFERIORITY|The non-inferiority margin for the difference in mean change score (∆2 - ∆1) is -6.||||||0.96|||||||t-test, 1 sided|||Null hypothesis (H0): mean change score of HYPORT (∆2) is worse than that of COPORT (∆1), specifically ∆2 - ∆1 \< -5. Alternative hypothesis (HA): ∆2 is not worse than ∆1, specifically ∆2 - ∆1 ≥ -5. The study sample size is based on 91% power for this endpoint and 90% power for the urinary endpoint (resulting in 81.9% statistical power to reject the null hypothesis for both endpoints) and a one-sided alpha=0.025 with an overall type I error of 0.05 with a Bonferroni adjustment.||||0.96
92437820|NCT03274687|184760790|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||End of RT||||0.70
92279966|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|0.007||||0.9549|TWO_SIDED|95.0|-0.237|0.251||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.251|-0.237|0.9549
92437821|NCT03274687|184760790|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||6 months||||0.67
92437822|NCT03274687|184760790|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||1 year||||0.66
92437823|NCT03274687|184760791|SUPERIORITY|||||||0.0011|||||||t-test, 2 sided|||End of RT||||0.0011
92437824|NCT03274687|184760791|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||6 months||||0.93
92437825|NCT03274687|184760791|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||1 year||||0.30
92437826|NCT03274687|184760792|SUPERIORITY|||||||0.29|||||||Gray's test|Two-sided significance level 0.05||Protocol definition of biochemical failure||||0.29
92437827|NCT03274687|184760792|SUPERIORITY|||||||0.22|||||||Gray's test|Two-sided significance level 0.05||Phoenix definition of biochemical failure||||0.22
92437828|NCT03274687|184760793|SUPERIORITY|||||||0.96||||||Two-sided significance level 0.05|Gray's test|||||||0.96
92437829|NCT03274687|184760794|SUPERIORITY|||||||0.35||||||Two-sided significance level 0.05|Gray's test|||||||0.35
92437830|NCT03274687|184760795|SUPERIORITY|||||||0.41||||||Two-sided significance level 0.05|Gray's test|||||||0.41
92437831|NCT03274687|184760796|SUPERIORITY|||||||0.6||||||Two-sided significance level 0.05|Gray's test|||||||0.60
92437832|NCT03274687|184760798|SUPERIORITY||Hazard Ratio (HR)|1.58||||0.61|TWO_SIDED|95.0|0.26|9.47||Two-side significance level 0.05|Log Rank||Reference = COPORT|||9.47|0.26|0.61
92437833|NCT03274687|184760799|SUPERIORITY|||||||0.53|||||||Chi-squared|||Patients with any grade 3 or higher adverse event of any attribution||||0.53
92437834|NCT03274687|184760799|SUPERIORITY|||||||0.6929|||||||Chi-squared|||Patients with any grade 3 or higher gastrointestinal adverse event of any attribution||||0.6929
92437835|NCT03274687|184760799|SUPERIORITY|||||||0.2605|||||||Chi-squared|||Patients with any grade 3 or higher genitourinary adverse event of any attribution||||0.2605
92437836|NCT01199289|184760824|SUPERIORITY||LS Mean Difference|-0.068||||0.5838|TWO_SIDED|95.0|-0.311|0.175|||ANCOVA|||||0.175|-0.311|0.5838
92437837|NCT01199289|184760824|SUPERIORITY||LS Mean Difference|-0.075||||0.5391|TWO_SIDED|95.0|-0.316|0.166|||ANCOVA|||||0.166|-0.316|0.5391
92437838|NCT01199289|184760824|SUPERIORITY||LS Mean Difference|-0.113||||0.3583|TWO_SIDED|95.0|-0.355|0.129|||ANCOVA|||||0.129|-0.355|0.3583
92437839|NCT01199289|184760825|SUPERIORITY||LS Mean Difference|-0.047||||0.4076|TWO_SIDED|95.0|-0.157|0.064|||ANCOVA|||Pre-Bronchodilator||0.064|-0.157|0.4076
92437840|NCT01199289|184760825|SUPERIORITY||LS Mean Difference|-0.022||||0.6915|TWO_SIDED|95.0|-0.13|0.086|||ANCOVA|||Pre-Bronchodilator||0.086|-0.130|0.6915
92437841|NCT01199289|184760825|SUPERIORITY||LS Mean Difference|-0.019||||0.7271|TWO_SIDED|95.0|-0.126|0.088|||ANCOVA|||Pre-Bronchodilator||0.088|-0.126|0.7271
92437842|NCT01199289|184760825|SUPERIORITY||LS Mean Difference|0.005||||0.921|TWO_SIDED|95.0|-0.086|0.095|||ANCOVA|||Post-Bronchodilator||0.095|-0.086|0.9210
92437843|NCT01199289|184760825|SUPERIORITY||LS Mean Difference|0.07||||0.1139|TWO_SIDED|95.0|-0.017|0.157|||ANCOVA|||Post-Bronchodilator||0.157|-0.017|0.1139
92437844|NCT01199289|184760825|SUPERIORITY||LS Mean Difference|0.021||||0.6426|TWO_SIDED|95.0|-0.066|0.107|||ANCOVA|||Post-Bronchodilator||0.107|-0.066|0.6426
92437845|NCT01199289|184760826|SUPERIORITY||LS Mean Difference|-16.847||||0.0262|TWO_SIDED|95.0|-31.686|-2.009|||ANCOVA|||AM||-2.009|-31.686|0.0262
92437846|NCT01199289|184760826|SUPERIORITY||LS Mean Difference|-6.723||||0.3627|TWO_SIDED|95.0|-21.239|7.793|||ANCOVA|||AM||7.793|-21.239|0.3627
92437847|NCT01199289|184760826|SUPERIORITY||LS Mean Difference|-5.488||||0.4507|TWO_SIDED|95.0|-19.791|8.814|||ANCOVA|||AM||8.814|-19.791|0.4507
92437848|NCT01199289|184760826|SUPERIORITY||LS Mean Difference|-10.426||||0.1228|TWO_SIDED|95.0|-23.686|2.834|||ANCOVA|||PM||2.834|-23.686|0.1228
92437849|NCT01199289|184760826|SUPERIORITY||LS Mean Difference|-6.738||||0.3092|TWO_SIDED|95.0|-19.758|6.281|||ANCOVA|||PM||6.281|-19.758|0.3092
92437850|NCT01199289|184760826|SUPERIORITY||LS Mean Difference|-8.043||||0.2167|TWO_SIDED|95.0|-20.831|4.744|||ANCOVA|||PM||4.744|-20.831|0.2167
92437851|NCT01199289|184760827|SUPERIORITY||LS Mean Difference|0.331||||0.5157|TWO_SIDED|95.0|-0.67|1.332|||ANCOVA|||||1.332|-0.670|0.5157
92437852|NCT01199289|184760827|SUPERIORITY||LS Mean Difference|-0.234||||0.6434|TWO_SIDED|95.0|-1.229|0.76|||ANCOVA|||||0.760|-1.229|0.6434
92437853|NCT01199289|184760827|SUPERIORITY||LS Mean Difference|-0.199||||0.6954|TWO_SIDED|95.0|-1.196|0.799|||ANCOVA|||||0.799|-1.196|0.6954
92437854|NCT01199289|184760828|SUPERIORITY||LS Mean Difference|-0.283||||0.5577|TWO_SIDED|95.0|-1.231|0.665|||ANCOVA|||||0.665|-1.231|0.5577
92437855|NCT01199289|184760828|SUPERIORITY||LS Mean Difference|0.038||||0.9366|TWO_SIDED|95.0|-0.904|0.98|||ANCOVA|||||0.980|-0.904|0.9366
92437856|NCT01199289|184760828|SUPERIORITY||LS Mean Difference|0.138||||0.7745|TWO_SIDED|95.0|-0.808|1.084|||ANCOVA|||||1.084|-0.808|0.7745
92437857|NCT01199289|184760829|SUPERIORITY||LS Mean Difference|0.026||||0.8524|TWO_SIDED|95.0|-0.251|0.303|||ANCOVA|||||0.303|-0.251|0.8524
92437858|NCT01199289|184760829|SUPERIORITY||LS Mean Difference|-0.033||||0.8139|TWO_SIDED|95.0|-0.305|0.24|||ANCOVA|||||0.240|-0.305|0.8139
92437859|NCT01199289|184760829|SUPERIORITY||LS Mean Difference|-0.002||||0.9881|TWO_SIDED|95.0|-0.281|0.276|||ANCOVA|||||0.276|-0.281|0.9881
92437860|NCT01199289|184760830|SUPERIORITY|With use of SABA|LS Mean Difference|-0.062||||0.1213|TWO_SIDED|95.0|-0.141|0.017|||ANCOVA|||||0.017|-0.141|0.1213
92437861|NCT01199289|184760830|SUPERIORITY|With use of SABA|LS Mean Difference|-0.017||||0.6643|TWO_SIDED|95.0|-0.095|0.061|||ANCOVA|||||0.061|-0.095|0.6643
92437862|NCT01199289|184760830|SUPERIORITY||LS Mean Difference|-0.042||||0.2879|TWO_SIDED|95.0|-0.121|0.036|||ANCOVA|With use of SABA||||0.036|-0.121|0.2879
92437863|NCT01199289|184760830|SUPERIORITY|Without use of SABA|LS Mean Difference|-0.074||||0.0546|TWO_SIDED|95.0|-0.15|0.001|||ANCOVA|||||0.001|-0.150|0.0546
92437864|NCT01199289|184760830|SUPERIORITY||LS Mean Difference|-0.004||||0.9078|TWO_SIDED|95.0|-0.08|0.071|||ANCOVA|||Without use of SABA||0.071|-0.080|0.9078
92437865|NCT01199289|184760830|SUPERIORITY||LS Mean Difference|-0.035||||0.3616|TWO_SIDED|95.0|-0.111|0.04|||ANCOVA|||Without use of SABA||0.040|-0.111|0.3616
92437866|NCT02636868|184760834|SUPERIORITY|||||||0.363||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline fraction of inspired oxygen (FiO₂) in model||Null hypothesis is no difference across treatment groups||||0.363
92437867|NCT02636868|184760834|SUPERIORITY|||||||0.36||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis of no difference between treatments||||0.360
92437868|NCT02636868|184760834|SUPERIORITY|||||||0.461||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis of no difference between treatments||||0.461
92437869|NCT02636868|184760835|SUPERIORITY|||||||0.401||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis is no difference across treatment groups||||0.401
92437870|NCT02636868|184760835|SUPERIORITY|||||||0.372||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis is no difference across treatment groups||||0.372
92437871|NCT02636868|184760835|SUPERIORITY|||||||0.648||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis is no difference across treatment groups||||0.648
92437872|NCT02636868|184760836|SUPERIORITY|||||||0.996||||||a priori threshold of statistical significance set at 0.05|Log Rank|||Null hypothesis of no difference across treatments||||0.996
92437873|NCT02636868|184760836|SUPERIORITY|||||||0.951||||||a priori threshold of statistical significance set at 0.05|Log Rank|||Null hypothesis of no difference between treatments||||0.951
92437874|NCT02636868|184760836|SUPERIORITY|||||||0.995||||||a priori threshold of statistical significance set at 0.05|Log Rank|||Null hypothesis of no difference between treatments||||0.995
92437875|NCT02636868|184760837|SUPERIORITY|||||||0.312||||||A priori threshold of statistical significance set at 0.10|Regression, Linear|Generalized linear model using Poisson distribution with pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis of no difference between treatment groups||||0.312
92437876|NCT02636868|184760837|SUPERIORITY|||||||0.094||||||A priori threshold of statistical significance set at 0.10|Regression, Linear|Generalized linear model using Poisson distribution with pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis of no difference between treatment groups||||0.094
92437877|NCT02636868|184760837|SUPERIORITY|||||||0.414||||||A priori threshold of statistical significance set at 0.10|Regression, Linear|Generalized linear model using Poisson distribution with pooled site, treatment, gender, birth weight, and baseline FiO₂ in model.||Null hypothesis of no difference between treatment groups||||0.414
92437878|NCT02636868|184760838|SUPERIORITY|||||||0.099||||||A priori statistical significance of 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline fraction of inspired oxygen (FiO2) in model||Null hypothesis of no difference between treatment groups||||0.099
92437879|NCT02636868|184760838|SUPERIORITY|||||||0.09||||||A priori statistical significance of 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO2 in model||Null hypothesis of no difference between treatments||||0.090
92437880|NCT02636868|184760838|SUPERIORITY|||||||0.461||||||A priori statistical significance of 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO2 in model||Null hypothesis of no difference between treatment groups||||0.461
92437881|NCT02636868|184760839|SUPERIORITY|||||||0.534||||||A priori threshold for statistical significance set at 0.05|ANOVA|treatment and pooled site in model||Null hypothesis of no treatment between treatments||||0.534
92437882|NCT02636868|184760839|SUPERIORITY|||||||0.48||||||A priori threshold for statistical significance set at 0.05|ANOVA|Treatment and pooled site in model||Null hypothesis of no difference between treatment groups||||0.480
92437883|NCT02636868|184760839|SUPERIORITY|||||||0.313||||||A priori threshold for statistical significance set at 0.05|ANOVA|Treatment and pooled site in model||Null hypothesis of no difference between treatment groups||||0.313
92437884|NCT02127567|184760867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.1|||<|0.001|TWO_SIDED|95.0|1.5|2.7|||Mixed Models Analysis|||||2.7|1.5|<0.001
92437885|NCT02127567|184760868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.8|||<|0.01|TWO_SIDED|95.0|1.1|4.4|||Mixed Models Analysis|||||4.4|1.1|<0.01
92437886|NCT02127567|184760869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.44|TWO_SIDED|95.0|-0.7|2.0|||Mixed Models Analysis|||||2.0|-0.7|0.44
92437887|NCT02127567|184760870|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.2|||<|0.01|TWO_SIDED|95.0|0.8|3.6|||Mixed Models Analysis|||||3.6|0.8|<0.01
92437888|NCT02127567|184760871|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.8|||<|0.01|TWO_SIDED|95.0|0.7|2.9|||Mixed Models Analysis|||||2.9|0.7|<0.01
92437889|NCT02127567|184760872|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.78|TWO_SIDED|95.0|-2.0|1.3|||Mixed Models Analysis|||||1.3|-2.0|0.78
92437890|NCT02127567|184760873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.4|||<|0.01|TWO_SIDED|95.0|4.1|6.7|||Mixed Models Analysis|||||6.7|4.1|<0.01
92437891|NCT02127567|184760874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4||||0.002|TWO_SIDED|95.0|0.5|2.3|||Mixed Models Analysis|||||2.3|0.5|0.002
92437892|NCT03182829|184760893|NON_INFERIORITY|non-inferiority was chosen|Mean Difference (Final Values)|100.0|||<|0.05|TWO_SIDED|95.0|90.0|100.0|||Chi-squared||||Fisher's exact test|100|90|<0.05
92437893|NCT03316131|184760894|OTHER||Mean Difference (Net)|0.28|||||TWO_SIDED|95.0|-8.67|9.22||||||||9.22|-8.67|
92437894|NCT03316131|184760895|OTHER||Geometric mean ratio|1.14|||||TWO_SIDED|90.0|1.03|1.25||||||Treatment A/Treatment B, for Verinurad||1.25|1.03|
92437895|NCT03316131|184760895|OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.88|1.07||||||Treatment A/Treatment B, for M1||1.07|0.88|
92437896|NCT03316131|184760895|OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.91|1.08||||||Treatment A/Treatment B, for M8||1.08|0.91|
92437897|NCT03316131|184760896|OTHER||Geometric mean ratio|1.06|||||TWO_SIDED|90.0|1.0|1.13||||||Treatment A/Treatment B, for Verinurad||1.13|1.00|
92171205|NCT02638337|184231590|SUPERIORITY||Odds Ratio (OR)|0.71||||0.4336|TWO_SIDED|95.0|0.3|1.67|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 4||1.67|0.30|0.4336
92437898|NCT03316131|184760896|OTHER||Geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.9|1.02||||||Treatment A/Treatment B, for M1||1.02|0.90|
92437899|NCT03316131|184760896|OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.94|1.04||||||Treatment A/Treatment B, for M8||1.04|0.94|
92437900|NCT03316131|184760900|OTHER||Geometric mean ratio|1.06|||||TWO_SIDED|90.0|1.0|1.13||||||Treatment A/Treatment B, for Verinurad||1.13|1.00|
92437901|NCT03316131|184760900|OTHER||Geometric mean ratio|0.96||||||90.0|0.9|1.02||||||Treatment A/Treatment B, for M1||1.02|0.90|
92279967|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.096||||0.4408|TWO_SIDED|95.0|-0.342|0.149||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.149|-0.342|0.4408
92437902|NCT03316131|184760900|OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.94|1.04||||||Treatment A/Treatment B, for M8||1.04|0.94|
92437903|NCT02664441|184760901|SUPERIORITY||Mean Difference (Net)|-1.7||||0.4|TWO_SIDED|95.0|-4.1|0.6|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) were used as covariates.||||0.6|-4.1|0.40
92437904|NCT02664441|184760902|SUPERIORITY||Mean Difference (Net)|-3.1||||0.02|TWO_SIDED|95.0|-5.7|-0.4|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) were used as covariates.||||-0.4|-5.7|0.02
92437905|NCT02664441|184760903|SUPERIORITY||Mean Difference (Final Values)|-20.2||||0.032|TWO_SIDED|95.0|-37.8|-2.7|||Regression, Linear|Adjusted for baseline values||Analysis for Fat Intake||-2.7|-37.8|.032
92437906|NCT02664441|184760903|SUPERIORITY||Mean Difference (Net)|-430.0||||0.02|TWO_SIDED|95.0|-761.0|-100.0|||Regression, Linear|Adjusted for baseline values||Analysis for Total Calorie Intake||-100|-761|.02
92437907|NCT02664441|184760904|SUPERIORITY||Geometric Mean Ratio|1.42||||0.19|TWO_SIDED|95.0|0.97|2.08|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) as covariates.|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals|||2.08|0.97|0.19
92437908|NCT02664441|184760905|SUPERIORITY||Geometric Mean Ratio|1.0||||0.82|TWO_SIDED|95.0|0.91|1.11|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) as covariates.|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals|Analysis for HDL Cholesterol||1.11|0.91|0.82
92437909|NCT02664441|184760905|SUPERIORITY||Geometric Mean Ratio|1.0||||0.92|TWO_SIDED|95.0|0.83|1.19|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) as covariates.|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals|Analysis for Triglycerides||1.19|0.83|0.92
92437910|NCT02664441|184760906|SUPERIORITY||Geometric Mean Ratio|0.62||||0.03|TWO_SIDED|95.0|0.41|0.92|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) as covariates|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals|||0.92|0.41|0.03
92437911|NCT02664441|184760907|SUPERIORITY||Geometric Mean Ratio|1.39||||0.32|TWO_SIDED|95.0|0.9|2.14|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) as covariates|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals|||2.14|0.90|0.32
92437912|NCT02664441|184760908|SUPERIORITY||Geometric Mean Ratio|0.95||||0.69|TWO_SIDED|95.0|0.81|1.1|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) were used as covariates.|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals.|||1.10|0.81|0.69
92437913|NCT02664441|184760909|SUPERIORITY||Mean Difference (Net)|-166.4||||0.004|TWO_SIDED|95.0|-269.7|-63.1|||Regression, Linear|Adjusted for baseline values||||-63.1|-269.7|0.004
92437914|NCT02664441|184760910|SUPERIORITY||Mean Difference (Net)|-145.0||||0.58|TWO_SIDED|95.0|-653.5|363.4|||Regression, Linear|Adjusted for baseline||||363.4|-653.5|0.58
92437915|NCT02664441|184760911|SUPERIORITY||Mean Difference (Net)|-8.5||||0.088|TWO_SIDED|95.0|-19.1|2.1|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) were used as covariates.||||2.1|-19.1|0.088
92238054|NCT03151148|184380353|SUPERIORITY||Geometric mean ratio (GMR)|11.97||||0.055|TWO_SIDED|95.0|0.945|151.752|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||151.752|0.945|0.055
92437916|NCT03510884|184760912|SUPERIORITY|Bonferroni adjustment was applied to handle multiplicity for the comparison of each alirocumab dosing regimen group versus its placebo group for the primary efficacy endpoint.|LS mean difference|-43.3|STANDARD_ERROR_OF_MEAN|5.5|<|0.0001|TWO_SIDED|97.5|-56.0|-30.7||The threshold for statistical significance was 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per interactive voice response system (IVRS), time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline LDL-C value and Baseline value by time-point interaction. Comparison was performed using an appropriate contrast.||-30.7|-56.0|<0.0001
92437917|NCT03510884|184760912|SUPERIORITY|Bonferroni adjustment was applied to handle multiplicity for the comparison of each alirocumab dosing regimen group versus its placebo group for the primary efficacy endpoint.|LS mean difference|-33.8|STANDARD_ERROR_OF_MEAN|5.5|<|0.0001|TWO_SIDED|97.5|-46.4|-21.2||The threshold for statistical significance was 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline LDL-C value and Baseline value by time-point interaction. Comparison was performed using an appropriate contrast.||-21.2|-46.4|<0.0001
92437918|NCT03510884|184760913|SUPERIORITY|Hierarchical testing method was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported and independently for each dosing regimen. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level. Statistical significance of the primary endpoint was required before testing the first secondary endpoint for each dosing regimen independently.|LS mean difference|-45.5|STANDARD_ERROR_OF_MEAN|4.7|<|0.0001|TWO_SIDED|97.5|-56.3|-34.7||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline LDL-C value and Baseline value by time-point interaction. Comparison was performed using an appropriate contrast.||-34.7|-56.3|<0.0001
92437919|NCT03510884|184760913|SUPERIORITY|A hierarchical testing method was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported and independently for each dosing regimen. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level. Statistical significance of the primary endpoint was required before testing the first secondary endpoint for each dosing regimen independently.|LS mean difference|-41.5|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001|TWO_SIDED|97.5|-52.7|-30.2||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline LDL-C value and Baseline value by time-point interaction. Comparison was performed using an appropriate contrast.||-30.2|-52.7|<0.0001
92437920|NCT03510884|184760914|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-37.8|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001|TWO_SIDED|97.5|-47.5|-28.2||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Apo B value and Baseline Apo B value by time-point interaction. Comparison was performed using an appropriate contrast.||-28.2|-47.5|<0.0001
92437921|NCT03510884|184760914|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-30.7|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001|TWO_SIDED|97.5|-42.0|-19.4||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Apo B value and Baseline Apo B value by time-point interaction. Comparison was performed using an appropriate contrast.||-19.4|-42.0|<0.0001
92437922|NCT03510884|184760915|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-40.7|STANDARD_ERROR_OF_MEAN|5.0|<|0.0001|TWO_SIDED|97.5|-52.2|-29.1||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline non-HDL-C value and Baseline non-HDL-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-29.1|-52.2|<0.0001
92437923|NCT03510884|184760915|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-31.9|STANDARD_ERROR_OF_MEAN|5.3|<|0.0001|TWO_SIDED|97.5|-44.1|-19.7||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline non-HDL-C value and Baseline non-HDL-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-19.7|-44.1|<0.0001
92239897|NCT00506077|184383740|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.05 was used among 1 primary and 3 secondary cognition efficacy endpoints to control the false positive rate.|constrained Logitudinal Data Analysis|The model factors were treatment, sequence, period, week (as categorical variable), site, treatment-by-week, sequence-by-week, and period-by-week.||||||0.736
92279968|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.004||||0.9736|TWO_SIDED|95.0|-0.262|0.253||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.253|-0.262|0.9736
92279969|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.146||||0.2703|TWO_SIDED|95.0|-0.405|0.114||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.114|-0.405|0.2703
92437924|NCT03510884|184760916|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-30.8|STANDARD_ERROR_OF_MEAN|3.9|<|0.0001|TWO_SIDED|97.5|-39.8|-21.9||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Total-C value and Baseline Total-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-21.9|-39.8|<0.0001
92437925|NCT03510884|184760916|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-23.3|STANDARD_ERROR_OF_MEAN|4.4|<|0.0001|TWO_SIDED|97.5|-33.5|-13.1||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Total-C value and Baseline Total-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-13.1|-33.5|<0.0001
92446638|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.17||||0.0578|TWO_SIDED|95.0|-0.29|14.62||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||General Health||14.62|-0.29|0.0578
92239898|NCT00316303|184383745|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wald Chi-squared|||||||<0.001
92446639|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.43||||0.5073|TWO_SIDED|95.0|-16.26|31.11||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||General Health||31.11|-16.26|0.5073
92446640|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.17||||0.2474|TWO_SIDED|95.0|-3.39|11.72||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Vitality||11.72|-3.39|0.2474
92446641|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.68||||0.8085|TWO_SIDED|95.0|-26.24|20.88||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Vitality||20.88|-26.24|0.8085
92446642|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-11.46||||0.0716|TWO_SIDED|95.0|-24.13|1.21||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Social Functioning||1.21|-24.13|0.0716
92446643|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-16.07||||0.1966|TWO_SIDED|95.0|-41.68|9.54||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Social Functioning||9.54|-41.68|0.1966
92446644|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-11.81||||0.1701|TWO_SIDED|95.0|-29.6|5.99||No multiple comparisons or multiplicity adjustments were conducted.|paired t-test|||Role Emotional||5.99|-29.60|0.1701
92446645|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.95||||0.7422|TWO_SIDED|95.0|-32.58|44.48||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Role Emotional||44.48|-32.58|0.7422
92239899|NCT00316303|184383746|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wald Chi-squared|||||||<0.001
92239900|NCT00316303|184383747|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wald Chi-squared|||||||<0.001
92446646|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.42||||0.9007|TWO_SIDED|95.0|-6.83|7.67||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Mental Health||7.67|-6.83|0.9007
92446647|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.86||||0.1519|TWO_SIDED|95.0|-7.57|43.29||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Mental Health||43.29|-7.57|0.1519
92446648|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.07||||0.6807|TWO_SIDED|95.0|-4.57|6.72||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Physical Component Score||6.72|-4.57|0.6807
92446649|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.23||||0.2226|TWO_SIDED|95.0|-16.79|4.32||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Physical Component Score||4.32|-16.79|0.2226
92446650|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.92||||0.1505|TWO_SIDED|95.0|-7.1|1.26||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Mental Component Score||1.26|-7.10|0.1505
92446651|NCT00727194|184780284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.55||||0.4151|TWO_SIDED|95.0|-8.77|19.87||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Mental Component Score||19.87|-8.77|0.4151
92437926|NCT03510884|184760917|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-38.9|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001|TWO_SIDED|97.5|-48.2|-29.6||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Apo B value and Baseline Apo B value by time-point interaction. Comparison was performed using an appropriate contrast.||-29.6|-48.2|<0.0001
92239901|NCT00316303|184383748|SUPERIORITY_OR_OTHER|||||||0.011|||||||Wald Chi-squared|||||||0.011
92239902|NCT00316303|184383749|SUPERIORITY_OR_OTHER|||||||0.6|||||||Chi-squared|||||||0.6
92239903|NCT04174638|184383763|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05. The p value was the value of the total score of the Fluid Control in Hemodialysis Patients Scale.|t-test, 2 sided|||||||<0.001
92239904|NCT04174638|184383764|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||||||<0.001
92446652|NCT00727194|184780285|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.25||||0.3377|TWO_SIDED|95.0|-3.94|10.44||No multiple comparisons or multiplicity adjustments were conducted.|paired t-test|||Forced Vital Capacity||10.44|-3.94|0.3377
92446653|NCT00727194|184780285|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|-10.57||||0.3391|TWO_SIDED|95.0|-33.71|12.56||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Forced Vital Capacity||12.56|-33.71|0.3391
92446654|NCT00727194|184780285|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-4.35|4.35||No multiple comparisons or multiplicity adjustments were conducted.|paired t test|||Negative Inspiratory Force||4.35|-4.35|1.0000
92446655|NCT00727194|184780285|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-6.57||||0.2292|TWO_SIDED|95.0|-17.87|4.73||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Negative Inspiratory Force||4.73|-17.87|0.2292
92446656|NCT05036642|184780303|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Difference in measurements from 'no device' (baseline) to 'with device.'||||0.02
92446657|NCT05036642|184780304|OTHER|||||||0.01|||||||ANOVA|||Difference in measurements from 'no device' (baseline) to 'with device.'||||0.01
92446658|NCT05036642|184780305|OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Difference in measurements from 'no device' (baseline) to 'with device.'||||0.48
92446659|NCT04269161|184780308|NON_INFERIORITY|The margin of non-inferiority is 10 seconds such that the device is no worse than 10 seconds on average than manual mode. Our study is a 2-treatment, 24-period crossover design that accounts for first-order carryover effects, indicating a slightly higher power than a 2x2. Each subject acted as their own control. The study was defined as intention to treat, such that manual adjustments during the automated arm would be included in that arm.|Mean Difference (Net)|-9.885||||0.003|TWO_SIDED|95.0|-16.51|-3.27||The p-value is significant at 0.01.|t-test, 2 sided||The difference is time to re-establish in automatic mode minus time to re-establish in manual mode. (a negative number favors automatic mode)|A sample requirement of 48 patients was determined based on a pilot study to provide 88% power, and 0.05 significance (two sided) to show the mean difference is less than 10 seconds based on a 2x2 crossover design. Considering patient drop-out, a sample size of n=40 drops power to 82%.||-3.27|-16.51|0.003
92446660|NCT04269161|184780309|OTHER|The difference is defined as the difference of proportion of time in the target range of SpO2 in modes, automatic minus manual. Our study is a 2-treatment, 24-period crossover design that accounts for first-order carryover effects, indicating a slightly higher power than a 2x2. Each subject acted as their own control. The study was defined as intention to treat, such that manual adjustments during the automated arm would be included in that arm.|Mean Difference (Net)|0.018||||0.02|TWO_SIDED|95.0|0.003|0.034||The threshold for statistical significance is p=.05|t-test, 2 sided|Two-sample t test with equal variances. Linear mixed model patient random effects, adjusted for site, sex, race, weight, gestational age, bed type.|Treatment difference = automatic - manual. A positive number favors automatic.|The difference in the proportion of time in the target saturation is calculated between the automatic and manual models. For each 6-hour time block, we calculate the proportion of time the patient stays within the prescribed SpO2 range.||.034|0.003|.02
92446661|NCT04300296|184780326|OTHER||Posterior median difference|-13.9|||||TWO_SIDED|95.0|-44.8|19.3|||||Bayesian model to obtain the posterior distribution of the treatment difference between AIN457 and placebo|||19.3|-44.8|
92446662|NCT04300296|184780326|OTHER||Posterior median difference|14.1|||||TWO_SIDED|95.0|-17.0|40.7|||||Bayesian model to obtain the posterior distribution of the treatment difference between AIN457 and placebo|||40.7|-17.0|
92446663|NCT04300296|184780326|OTHER||Posterior median difference|6.5|||||TWO_SIDED|95.0|-25.4|35.4|||||Bayesian model to obtain the posterior distribution of the treatment difference between AIN457 and placebo|||35.4|-25.4|
92446664|NCT02624284|184780391|SUPERIORITY|Analysis: Multiple regression predicting main effects of dose on latency to smoke. Age, sex, race, nicotine dependence, and pre-session craving for negative affect relief (QSU-B Factor 2) were included as covariates.||||||0.94|||||||Regression, Linear|||||||0.94
92446665|NCT02624284|184780392|SUPERIORITY|Analysis: Multiple regression predicting main effects of dose on number of cigarettes smoked. Age, sex, race, nicotine dependence, and pre-session craving for negative affect relief (QSU-B Factor 2) were included as covariates.||||||0.53|||||||Regression, Linear|||||||0.53
92446666|NCT02624284|184780394|SUPERIORITY|Analysis: Multiple regression predicting main effects of dose on days of abstinence. Age, sex, race and nicotine dependence were included as covariates.||||||0.78|||||||Regression, Linear|||||||0.78
92446667|NCT00812929|184780401|SUPERIORITY||Mean Difference (Net)|1.29|STANDARD_ERROR_OF_MEAN|1.44|||TWO_SIDED|95.0|-1.56|4.13||||||||4.13|-1.56|
92446668|NCT00812929|184780401|SUPERIORITY||Mean Difference (Net)|0.53|STANDARD_ERROR_OF_MEAN|1.44|||TWO_SIDED|95.0|-2.32|3.37||||||||3.37|-2.32|
92446669|NCT00812929|184780401|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|1.441|||TWO_SIDED|95.0|-2.52|3.18||||||||3.18|-2.52|
92446670|NCT00812929|184780401|SUPERIORITY||Mean Difference (Net)|2.53|STANDARD_ERROR_OF_MEAN|1.438|||TWO_SIDED|95.0|-0.31|5.37||||||||5.37|-0.31|
92446671|NCT00812929|184780402|SUPERIORITY||Mean Difference (Net)|2.52|STANDARD_ERROR_OF_MEAN|1.638|||TWO_SIDED|95.0|-0.72|5.75||||||2 Hours||5.75|-0.72|
92437927|NCT03510884|184760917|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-32.8|STANDARD_ERROR_OF_MEAN|4.3|<|0.0001|TWO_SIDED|97.5|-42.8|-22.7|||MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Apo B value and Baseline Apo B value by time-point interaction. Comparison was performed using an appropriate contrast.||-22.7|-42.8|<0.0001
92437928|NCT03510884|184760918|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-42.8|STANDARD_ERROR_OF_MEAN|4.7|<|0.0001|TWO_SIDED|97.5|-53.8|-31.8||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Non-HDL-C value and Baseline Non-HDL-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-31.8|-53.8|<0.0001
92171206|NCT02638337|184231590|SUPERIORITY||Odds Ratio (OR)|0.88||||0.7672|TWO_SIDED|95.0|0.37|2.08|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 8||2.08|0.37|0.7672
92446672|NCT00812929|184780402|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|1.247|||TWO_SIDED|95.0|-2.34|2.58||||||9.5 Hours||2.58|-2.34|
92446673|NCT00812929|184780402|SUPERIORITY||Mean Difference (Net)|2.6|STANDARD_ERROR_OF_MEAN|1.637|||TWO_SIDED|95.0|-0.64|5.84||||||2 Hours||5.84|-0.64|
92446674|NCT00812929|184780402|SUPERIORITY||Mean Difference (Net)|0.76|STANDARD_ERROR_OF_MEAN|1.247|||TWO_SIDED|95.0|-1.7|3.22||||||9.5 Hours||3.22|-1.70|
92446675|NCT00812929|184780402|SUPERIORITY||Mean Difference (Net)|2.79|STANDARD_ERROR_OF_MEAN|1.639|||TWO_SIDED|95.0|-0.45|6.03||||||2 Hours||6.03|-0.45|
92446676|NCT00812929|184780402|SUPERIORITY||Mean Difference (Net)|3.49|STANDARD_ERROR_OF_MEAN|1.248|||TWO_SIDED|95.0|1.02|5.95||||||9.5 Hours||5.95|1.02|
92446677|NCT00812929|184780402|SUPERIORITY||Mean Difference (Net)|6.3|STANDARD_ERROR_OF_MEAN|1.637|||TWO_SIDED|95.0|3.06|9.54||||||2 Hours||9.54|3.06|
92446678|NCT00812929|184780402|SUPERIORITY||Mean Difference (Net)|2.27|STANDARD_ERROR_OF_MEAN|1.245|||TWO_SIDED|95.0|-0.19|4.73||||||9.5 Hours||4.73|-0.19|
92171207|NCT02638337|184231590|SUPERIORITY||Odds Ratio (OR)|0.86||||0.7101|TWO_SIDED|95.0|0.39|1.89|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 12||1.89|0.39|0.7101
92446679|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|0.94|STANDARD_ERROR_OF_MEAN|1.17|||TWO_SIDED|95.0|-1.37|3.25|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|2 Hours||3.25|-1.37|
92446680|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.878|||TWO_SIDED|95.0|-1.66|1.8|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|9.5 Hours||1.80|-1.66|
92446681|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.873|||TWO_SIDED|95.0|-0.82|2.63|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|24 Hours||2.63|-0.82|
92446682|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|1.12|STANDARD_ERROR_OF_MEAN|1.169|||TWO_SIDED|95.0|-1.19|3.43|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|2 Hours||3.43|-1.19|
92446683|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|1.22|STANDARD_ERROR_OF_MEAN|0.878|||TWO_SIDED|95.0|-0.51|2.95|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|9.5 Hours||2.95|-0.51|
92446684|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.873|||TWO_SIDED|95.0|-1.55|1.9|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|24 Hours||1.90|-1.55|
92446685|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|1.51|STANDARD_ERROR_OF_MEAN|1.171|||TWO_SIDED|95.0|-0.8|3.82|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|2 Hours||3.82|-0.80|
92446686|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|3.3|STANDARD_ERROR_OF_MEAN|0.879|||TWO_SIDED|95.0|1.57|5.03|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|9.5 Hours||5.03|1.57|
92446687|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.874|||TWO_SIDED|95.0|-1.83|1.62|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|24 Hours||1.62|-1.83|
92446688|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|3.17|STANDARD_ERROR_OF_MEAN|1.169|||TWO_SIDED|95.0|0.86|5.48|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|2 Hours||5.48|0.86|
92446689|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|2.11|STANDARD_ERROR_OF_MEAN|0.877|||TWO_SIDED|95.0|0.38|3.84|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|9.5 Hours||3.84|0.38|
92446690|NCT00812929|184780403|SUPERIORITY||Mean Difference (Net)|1.72|STANDARD_ERROR_OF_MEAN|0.872|||TWO_SIDED|95.0|0.0|3.44|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|24 Hours||3.44|-0.00|
92446691|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|0.71|2.21|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|2 Hours||2.21|0.71|
92437929|NCT03510884|184760918|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-37.5|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001|TWO_SIDED|97.5|-47.9|-27.0||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline non-HDL-C value and Baseline non-HDL-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-27.0|-47.9|<0.0001
92437930|NCT03510884|184760919|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-32.7|STANDARD_ERROR_OF_MEAN|3.7|<|0.0001|TWO_SIDED|97.5|-41.3|-24.2||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Total-C value and Baseline Total-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-24.2|-41.3|<0.0001
92437931|NCT03510884|184760919|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-27.9|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|97.5|-35.6|-20.2||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Total-C value and Baseline Total-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-20.2|-35.6|<0.0001
92437932|NCT03510884|184760920|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|77.6|||=|0.0001|TWO_SIDED|97.5|6.3|960.0||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q2W versus Placebo Q2W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. Logistic regression model stratified by randomization factors (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||960.0|6.3|=0.0001
92437933|NCT03510884|184760920|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|14.9|||<|0.0001|TWO_SIDED|97.5|3.2|69.8||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q4W versus Placebo Q4W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. Logistic regression model stratified by randomization factors (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||69.8|3.2|<0.0001
92437934|NCT03510884|184760921|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|26.5|||<|0.0001|TWO_SIDED|97.5|4.0|174.8||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q2W versus Placebo Q2W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. The logistic regression model stratified by randomization factors (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||174.8|4.0|<0.0001
92437935|NCT03510884|184760921|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|40.9|||<|0.0001|TWO_SIDED|97.5|5.7|290.9||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q4W versus Placebo Q4W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. The logistic regression model stratified by randomization factors (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||290.9|5.7|<0.0001
92437936|NCT03510884|184760922|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|52.7|||=|0.0011|TWO_SIDED|97.5|3.5|804.3||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q2W versus Placebo Q2W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. The logistic regression model stratified by randomization factors (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||804.3|3.5|=0.0011
92446692|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.59|2.06|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|9.5 Hours||2.06|0.59|
92446693|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|1.78|||||TWO_SIDED|95.0|0.93|3.43|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|24 Hours||3.43|0.93|
92446694|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|1.42|||||TWO_SIDED|95.0|0.81|2.48|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|2 Hours||2.48|0.81|
92437937|NCT03510884|184760922|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|43.1|||=|0.0006|TWO_SIDED|97.5|3.7|498.6||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q4W versus Placebo Q4W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. The logistic regression model stratified by randomization factors (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||498.6|3.7|=0.0006
92437938|NCT03510884|184760923|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|41.3|||<|0.0001|TWO_SIDED|97.5|6.6||The percentage of participants reaching LDL-C level lower than 110 mg/dL was 0% in the placebo arm, as a result it was possible to derive the estimated odds-ratio, but the estimated confidence interval (CI) was very wide, with the upper limit estimated to Infinity, therefore upper limit of 97.5% CI was not available to report.|Threshold for significance at 0.025 level.|Exact conditional logistic regression||Alirocumab Q2W versus Placebo Q2W: Odds ratios and confidence intervals estimated from exact conditional logistic regression model.|The LOCF approach followed by exact conditional logistic regression model. The exact conditional logistic regression model stratified by randomization factors (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the quartiles of the Baseline LDL-C value.|||6.6|<0.0001
92437939|NCT03510884|184760923|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|104.8|||=|0.0005|TWO_SIDED|97.5|5.2|2095.9||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q4W versus Placebo Q4W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. The logistic regression model stratified by randomization factors (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||2095.9|5.2|=0.0005
92437940|NCT03510884|184760924|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Adjusted mean difference|-15.2|STANDARD_ERROR_OF_MEAN|6.7|=|0.0237|TWO_SIDED|97.5|-30.3|-0.1||Threshold for significance at 0.025 level.|Robust regression model||Alirocumab Q2W versus Placebo Q2W|Multiple imputation approach followed by robust regression model. The robust regression model included the fixed categorical effect of treatment group and randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS and the continuous fixed covariate of Baseline lipoprotein (a) value.||-0.1|-30.3|=0.0237
92437941|NCT03510884|184760924|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Adjusted mean difference|-24.9|STANDARD_ERROR_OF_MEAN|8.7|=|0.0043|TWO_SIDED|97.5|-44.4|-5.4||Threshold for significance at 0.025 level.|Robust regression model||Alirocumab Q4W versus Placebo Q4W|Multiple imputation approach followed by robust regression model. The robust regression model included the fixed categorical effect of treatment group and randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS and the continuous fixed covariate of Baseline lipoprotein (a) value.||-5.4|-44.4|=0.0043
92437942|NCT03510884|184760925|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Adjusted mean difference|-5.6|STANDARD_ERROR_OF_MEAN|7.1|=|0.4288|TWO_SIDED|97.5|-21.7|10.4||Threshold for significance at 0.025 level.|Robust regression model||Alirocumab Q2W versus Placebo Q2W|Multiple imputation approach followed by robust regression model. The robust regression model included the fixed categorical effect of treatment group and randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS and the continuous fixed covariate of Baseline lipoprotein (a) value.||10.4|-21.7|=0.4288
92437943|NCT03510884|184760925|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Adjusted mean difference|-13.5|STANDARD_ERROR_OF_MEAN|8.6|=|0.1148|TWO_SIDED|97.5|-32.7|5.7||Threshold for significance at 0.025 level.|Robust regression model||Alirocumab Q4W versus Placebo Q4W|Multiple imputation approach followed by robust regression model. The robust regression model included the fixed categorical effect of treatment group and randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS and the continuous fixed covariate of Baseline lipoprotein (a) value.||5.7|-32.7|=0.1148
92437944|NCT00157950|184760992|SUPERIORITY_OR_OTHER||Proportion|98.2|||||TWO_SIDED|95.0|93.6|99.8|||||Exact binomial confidence interval|||99.8|93.6|
92437945|NCT00157950|184760993|NON_INFERIORITY_OR_EQUIVALENCE|The lower bound of the 95% confidence interval for the proportion of subjects receiving Gardasil who were seropositive at Week 4 postdose 3 must be greater than 90%|Proportion|100.0|||||TWO_SIDED|95.0|96.8|100.0|||||Exact binomial confidence interval|||100|96.8|
92437946|NCT00157950|184760994|NON_INFERIORITY_OR_EQUIVALENCE|The lower bound of the 95% confidence interval for the proportion of subjects receiving Gardasil who were seropositive at Week 4 postdose 3 must be greater than 90%|Proportion|99.1|||||TWO_SIDED|95.0|95.2|100.0|||||Exact binomial confidence interval|||100|95.2|
92437947|NCT00157950|184760995|NON_INFERIORITY_OR_EQUIVALENCE|The lower bound of the 95% confidence interval for the proportion of subjects receiving Gardasil who were seropositive at Week 4 postdose 3 must be greater than 90%|Proportion|99.1|||||TWO_SIDED|95.0|95.0|100.0|||||Exact binomial confidence interval|||100|95.0|
92437948|NCT01287897|184761017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3|STANDARD_ERROR_OF_MEAN|10.5||0.3406|TWO_SIDED|90.0|-13.0|21.7||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|Generalized linear mixed model (GLMM)|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||21.7|-13.0|0.3406
92446695|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|1.93|||||TWO_SIDED|95.0|1.01|3.66|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|9.5 Hours||3.66|1.01|
92437949|NCT01287897|184761017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.7|STANDARD_ERROR_OF_MEAN|11.0||0.0438|TWO_SIDED|90.0|0.7|36.7||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||36.7|0.7|0.0438
92437950|NCT01287897|184761018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.2|STANDARD_ERROR_OF_MEAN|13.6||0.2258|TWO_SIDED|90.0|-12.1|32.6||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||32.6|-12.1|0.2258
92437951|NCT01287897|184761019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|STANDARD_ERROR_OF_MEAN|10.5||0.2627|TWO_SIDED|90.0|-10.6|23.9||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||23.9|-10.6|0.2627
92437952|NCT01287897|184761019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.8|STANDARD_ERROR_OF_MEAN|10.9||0.0425|TWO_SIDED|90.0|0.8|36.7||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||36.7|0.8|0.0425
92437953|NCT01287897|184761020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.1|STANDARD_ERROR_OF_MEAN|13.7||0.1362|TWO_SIDED|90.0|-7.5|37.6||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||37.6|-7.5|0.1362
92437954|NCT01287897|184761021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|STANDARD_ERROR_OF_MEAN|7.0||0.1527|TWO_SIDED|90.0|-4.3|18.6|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 10-mg arm at Week 2.||18.6|-4.3|0.1527
92437955|NCT01287897|184761021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.1|STANDARD_ERROR_OF_MEAN|9.1||0.0235|TWO_SIDED|90.0|3.1|33.2|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 10-mg arm at Week 4.||33.2|3.1|0.0235
92437956|NCT01287897|184761021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.9|STANDARD_ERROR_OF_MEAN|9.9||0.0792|TWO_SIDED|90.0|-2.3|30.2|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 10-mg arm at Week 6.||30.2|-2.3|0.0792
92437957|NCT01287897|184761021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.6|STANDARD_ERROR_OF_MEAN|11.0||0.1909||90.0|-8.4|27.6|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 10-mg arm at Week 10.||27.6|-8.4|0.1909
92437958|NCT01287897|184761021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_ERROR_OF_MEAN|6.8||0.1981|TWO_SIDED|90.0|-5.4|17.0|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 50-mg arm at Week 2.||17.0|-5.4|0.1981
92437959|NCT01287897|184761021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.6|STANDARD_ERROR_OF_MEAN|9.3||0.0132|TWO_SIDED|90.0|5.3|35.8|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 50-mg arm at Week 4.||35.8|5.3|0.0132
92437960|NCT01287897|184761021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.1|STANDARD_ERROR_OF_MEAN|10.1||0.0063|TWO_SIDED|90.0|8.6|41.7|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 50-mg arm at Week 6.||41.7|8.6|0.0063
92437961|NCT01287897|184761021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.7|STANDARD_ERROR_OF_MEAN|11.2||0.0138|TWO_SIDED|90.0|6.2|43.1|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 50-mg arm at Week 10.||43.1|6.2|0.0138
92437962|NCT01287897|184761022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.4|STANDARD_ERROR_OF_MEAN|10.2||0.0662|TWO_SIDED|90.0|-1.4|32.1|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 200-mg arm at Week 2.||32.1|-1.4|0.0662
92437963|NCT01287897|184761022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.5|STANDARD_ERROR_OF_MEAN|10.0||0.1708|TWO_SIDED|90.0|-6.9|25.8|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 200-mg arm at Week 4.||25.8|-6.9|0.1708
92437964|NCT01287897|184761022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8|STANDARD_ERROR_OF_MEAN|11.1||0.2416|TWO_SIDED|90.0|-10.5|26.0|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 200-mg arm at Week 6.||26.0|-10.5|0.2416
92437965|NCT01287897|184761022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.1|STANDARD_ERROR_OF_MEAN|14.1||0.088|TWO_SIDED|90.0|-4.1|42.3|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 200-mg arm at Week 10.||42.3|-4.1|0.0880
92437966|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|3.2||0.261|TWO_SIDED|90.0|-3.2|7.2|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 2.||7.2|-3.2|0.2610
92437967|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|3.8||0.4291|TWO_SIDED|90.0|-5.6|7.0|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 4.||7.0|-5.6|0.4291
92446696|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|1.67|||||TWO_SIDED|95.0|0.86|3.25|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|24 Hours||3.25|0.86|
92446697|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|2.09|||||TWO_SIDED|95.0|1.19|3.69|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|2 Hours||3.69|1.19|
92437968|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|6.0||0.5791|TWO_SIDED|90.0|-11.0|8.6|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 6.||8.6|-11.0|0.5791
92437969|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|8.0||0.7544|TWO_SIDED|90.0|-18.8|7.7|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 8.||7.7|-18.8|0.7544
92437970|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|9.2||0.2308||90.0|-8.3|21.9|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 10.||21.9|-8.3|0.2308
92437971|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|7.1||0.5038|TWO_SIDED|90.0|-11.8|11.7|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 12.||11.7|-11.8|0.5038
92437972|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|4.9||0.0498|TWO_SIDED|90.0|0.0|16.0|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 2.||16.0|0.0|0.0498
92437973|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.3|STANDARD_ERROR_OF_MEAN|7.6||0.0155|TWO_SIDED|90.0|3.9|28.7|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 4.||28.7|3.9|0.0155
92437974|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.9|STANDARD_ERROR_OF_MEAN|8.5||0.0399|TWO_SIDED|90.0|0.9|28.9|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 6.||28.9|0.9|0.0399
92437975|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.5|STANDARD_ERROR_OF_MEAN|9.6||0.1866|TWO_SIDED|90.0|-7.2|24.3|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 8.||24.3|-7.2|0.1866
92437976|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.8|STANDARD_ERROR_OF_MEAN|10.3||0.0415|TWO_SIDED|90.0|0.9|34.7|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 10.||34.7|0.9|0.0415
92437977|NCT01287897|184761023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.5|STANDARD_ERROR_OF_MEAN|9.5||0.0408|TWO_SIDED|90.0|0.9|32.1|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 12.||32.1|0.9|0.0408
92279970|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.351||||0.0087|TWO_SIDED|95.0|-0.612|-0.089||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.089|-0.612|0.0087
92437978|NCT01287897|184761024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_ERROR_OF_MEAN|5.3||0.1342|TWO_SIDED|90.0|-2.8|14.5|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 2.||14.5|-2.8|0.1342
92437979|NCT01287897|184761024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|4.3||0.2623|TWO_SIDED|90.0|-4.3|9.8|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 4.||9.8|-4.3|0.2623
92437980|NCT01287897|184761024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|6.3||0.3324|TWO_SIDED|90.0|-7.7|13.2|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 6.||13.2|-7.7|0.3324
92437981|NCT01287897|184761024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|7.5||0.6637|TWO_SIDED|90.0|-15.5|9.1|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 8.||9.1|-15.5|0.6637
92437982|NCT01287897|184761024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4|STANDARD_ERROR_OF_MEAN|9.0||0.2721||90.0|-9.3|20.2|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 10.||20.2|-9.3|0.2721
92437983|NCT01287897|184761024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|7.8||0.3022|TWO_SIDED|90.0|-8.8|16.9|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 12.||16.9|-8.8|0.3022
92437984|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3|STANDARD_ERROR_OF_MEAN|7.0||0.2687|TWO_SIDED|90.0|-7.2|15.8|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 2.||15.8|-7.2|0.2687
92437985|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|STANDARD_ERROR_OF_MEAN|7.4||0.246|TWO_SIDED|90.0|-7.1|17.3|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 4.||17.3|-7.1|0.2460
92437986|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.2|STANDARD_ERROR_OF_MEAN|9.3||0.0633|TWO_SIDED|90.0|-1.1|29.5|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 6.||29.5|-1.1|0.0633
92437987|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|9.9||0.4036|TWO_SIDED|90.0|-13.8|18.6|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 8.||18.6|-13.8|0.4036
92437988|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|10.2||0.1921||90.0|-7.9|25.6|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 10.||25.6|-7.9|0.1921
92437989|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.5|STANDARD_ERROR_OF_MEAN|10.3||0.1541|TWO_SIDED|90.0|-6.5|27.5|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 12.||27.5|-6.5|0.1541
92437990|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|6.5||0.4893|TWO_SIDED|90.0|-10.5|10.9|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 2.||10.9|-10.5|0.4893
92437991|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.2|STANDARD_ERROR_OF_MEAN|8.6||0.0619|TWO_SIDED|90.0|-0.9|27.4|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 4.||27.4|-0.9|0.0619
92437992|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.7|STANDARD_ERROR_OF_MEAN|9.3||0.029|TWO_SIDED|90.0|2.3|33.1|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 6.||33.1|2.3|0.0290
92437993|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.8|STANDARD_ERROR_OF_MEAN|10.7||0.0988|TWO_SIDED|90.0|-3.8|31.4|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 8.||31.4|-3.8|0.0988
92437994|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.2|STANDARD_ERROR_OF_MEAN|10.8||0.0549|TWO_SIDED|90.0|-0.5|35.0|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 10.||35.0|-0.5|0.0549
92437995|NCT01287897|184761025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.0|STANDARD_ERROR_OF_MEAN|10.5||0.092|TWO_SIDED|90.0|-3.3|31.3|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 12.||31.3|-3.3|0.0920
92437996|NCT01287897|184761026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|6.8||0.4031|TWO_SIDED|90.0|-9.5|12.9|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 2.||12.9|-9.5|0.4031
92171208|NCT02638337|184231591|SUPERIORITY||LS Mean Difference|13.98|||<|0.0001|TWO_SIDED|95.0|11.85|16.12|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 4||16.12|11.85|<0.0001
92437997|NCT01287897|184761026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.1|STANDARD_ERROR_OF_MEAN|9.6||0.1219|TWO_SIDED|90.0|-4.6|26.8|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 4.||26.8|-4.6|0.1219
92437998|NCT01287897|184761026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9|STANDARD_ERROR_OF_MEAN|10.0||0.16|TWO_SIDED|90.0|-6.5|26.4|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 6.||26.4|-6.5|0.1600
92437999|NCT01287897|184761026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|10.3||0.6019|TWO_SIDED|90.0|-19.5|14.2|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 8.||14.2|-19.5|0.6019
92438000|NCT01287897|184761026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.3|STANDARD_ERROR_OF_MEAN|12.3||0.1601||90.0|-8.0|32.5|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 10.||32.5|-8.0|0.1601
92438001|NCT01287897|184761026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4|STANDARD_ERROR_OF_MEAN|11.7||0.2622|TWO_SIDED|90.0|-11.8|26.6|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 12.||26.6|-11.8|0.2622
92438002|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|12.22||0.2173|TWO_SIDED|90.0|-29.8|10.6|||Linear mixed model (LMM)|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 2.||10.6|-29.8|0.2173
92438003|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.0|STANDARD_ERROR_OF_MEAN|12.95||0.1778|TWO_SIDED|90.0|-33.4|9.4|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 4.||9.4|-33.4|0.1778
92438004|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.9|STANDARD_ERROR_OF_MEAN|16.37||0.1661|TWO_SIDED|90.0|-43.0|11.2|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 6.||11.2|-43.0|0.1661
92438005|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|STANDARD_ERROR_OF_MEAN|17.66||0.1993|TWO_SIDED|90.0|-44.1|14.3|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 8.||14.3|-44.1|0.1993
92438006|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|19.66||0.0632|TWO_SIDED|90.0|-62.7|2.3|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 10.||2.3|-62.7|0.0632
92438007|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|19.71||0.1975|TWO_SIDED|90.0|-49.4|15.8|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 12.||15.8|-49.4|0.1975
92438008|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|12.25||0.5868|TWO_SIDED|90.0|-17.6|22.9|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 2.||22.9|-17.6|0.5868
92438009|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.7|STANDARD_ERROR_OF_MEAN|12.93||0.0243|TWO_SIDED|90.0|-47.0|-4.3|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 4.||-4.3|-47.0|0.0243
92438010|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.4|STANDARD_ERROR_OF_MEAN|16.12||0.0834|TWO_SIDED|90.0|-49.0|4.3|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 6.||4.3|-49.0|0.0834
92438011|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.8|STANDARD_ERROR_OF_MEAN|17.43||0.0499|TWO_SIDED|90.0|-57.7|0.0|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 8.||-0.0|-57.7|0.0499
92438012|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.9|STANDARD_ERROR_OF_MEAN|19.45||0.0111|TWO_SIDED|90.0|-77.1|-12.7|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 10.||-12.7|-77.1|0.0111
92438013|NCT01287897|184761027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.5|STANDARD_ERROR_OF_MEAN|19.49||0.0221|TWO_SIDED|90.0|-71.7|-7.3|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 12.||-7.3|-71.7|0.0221
92438014|NCT01287897|184761028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|18.27||0.3157|TWO_SIDED|90.0|-39.0|21.4|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 2.||21.4|-39.0|0.3157
92438015|NCT01287897|184761028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|18.28||0.4171|TWO_SIDED|90.0|-34.0|26.4|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 4.||26.4|-34.0|0.4171
92438016|NCT01287897|184761028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|18.79||0.3837|TWO_SIDED|90.0|-36.6|25.5|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 6.||25.5|-36.6|0.3837
92171209|NCT02638337|184231591|SUPERIORITY||LS Mean Difference|14.73|||<|0.0001|TWO_SIDED|95.0|12.5|16.96|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 8||16.96|12.50|<0.0001
92438017|NCT01287897|184761028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|STANDARD_ERROR_OF_MEAN|19.27||0.3204|TWO_SIDED|90.0|-40.8|22.8|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 8.||22.8|-40.8|0.3204
92438018|NCT01287897|184761028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.9|STANDARD_ERROR_OF_MEAN|19.64||0.0649|TWO_SIDED|90.0|-62.3|2.6|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 10.||2.6|-62.3|0.0649
92438019|NCT01287897|184761028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.0|STANDARD_ERROR_OF_MEAN|19.87||0.0598|TWO_SIDED|90.0|-63.9|1.8|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 12.||1.8|-63.9|0.0598
92438020|NCT00786487|184761077|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92438021|NCT00786487|184761077|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92171210|NCT02638337|184231591|SUPERIORITY||LS Mean Difference|14.91|||<|0.0001|TWO_SIDED|95.0|12.55|17.28|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 12||17.28|12.55|<0.0001
92446698|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|5.49|||||TWO_SIDED|95.0|2.75|10.94|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|9.5 Hours||10.94|2.75|
92446699|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|1.91|||||TWO_SIDED|95.0|1.0|3.64|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|24 Hours||3.64|1.00|
92438022|NCT01500629|184761078|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.156|TWO_SIDED|95.0|-1.9|0.33|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.33|-1.90|0.156
92438023|NCT01500629|184761079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.625|TWO_SIDED|95.0|-1.49|0.92|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.92|-1.49|0.625
92438024|NCT01500629|184761080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72||||0.291|TWO_SIDED|95.0|-2.12|0.67|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.67|-2.12|0.291
92438025|NCT01500629|184761081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.899|TWO_SIDED|95.0|-1.21|1.07|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||1.07|-1.21|0.899
92438026|NCT01500629|184761082|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.701||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.701
92438027|NCT01500629|184761083|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.108||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.108
92438028|NCT01500629|184761084|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.253||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.253
92438029|NCT01500629|184761085|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.287||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.287
92438030|NCT01500629|184761086|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.409||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.409
92438031|NCT01500629|184761087|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.092||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.092
92438032|NCT01500629|184761088|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.042||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.042
92438033|NCT01500629|184761089|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.307||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.307
92279971|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.026||||0.848|TWO_SIDED|95.0|-0.295|0.243||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.243|-0.295|0.8480
92438034|NCT01500629|184761090|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.5||||0.903||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.903
92438035|NCT01500629|184761091|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.121||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.121
92438036|NCT01500629|184761092|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.3||||0.689||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.689
92438037|NCT01500629|184761093|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.314||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.314
92438038|NCT01500629|184761094|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.8||||0.034||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.034
92438039|NCT01500629|184761095|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.845||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.845
92438040|NCT01500629|184761096|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.619||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.619
92438041|NCT01500629|184761097|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.803||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.803
92438042|NCT01500629|184761098|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.3||||0.175||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.175
92438043|NCT01500629|184761099|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.5||||0.206|||||||Wilcoxon (Mann-Whitney)|The rank sum test was based on period difference for comparison between sequence.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.206
92438044|NCT01500629|184761100|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.5||||0.072||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.072
92446700|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|3.6|||||TWO_SIDED|95.0|2.0|6.48|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|2 Hours||6.48|2.00|
92446701|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|2.03|||||TWO_SIDED|95.0|1.07|3.87|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|9.5 Hours||3.87|1.07|
92279972|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.073||||0.5966|TWO_SIDED|95.0|-0.344|0.198||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.198|-0.344|0.5966
92446702|NCT00812929|184780404|SUPERIORITY||Hazard Ratio (HR)|6.07|||||TWO_SIDED|95.0|2.9|12.71|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|24 Hours||12.71|2.90|
92446703|NCT02975934|184780425|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.36|0.69|||Log Rank|||||0.69|0.36|<0.001
92446704|NCT02975934|184780426|SUPERIORITY||Hazard Ratio (HR)|0.61|||<|0.001|TWO_SIDED|95.0|0.47|0.8|||Log Rank|||||0.80|0.47|<0.001
92446705|NCT02975934|184780427|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.5044|TWO_SIDED|95.0|0.68|1.2|||Log Rank|||||1.20|0.68|0.5044
92446706|NCT02975934|184780428|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9368|TWO_SIDED|95.0|0.78|1.26|||Log Rank|||||1.26|0.78|0.9368
92446707|NCT02075840|184780443|SUPERIORITY||Hazard Ratio, stratified|0.47|||<|0.0001|TWO_SIDED|95.0|0.34|0.65|||Log Rank|||Stratified hazard ratio and p-value are stratified for covariates Race (Asian vs Non-Asian) and CNS metastases at baseline by IRC.||0.65|0.34|<0.0001
92446708|NCT02075840|184780445|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.36|0.7|||Log Rank|Stratified hazard ratio and p-value are stratified for covariates Race (Asian vs Non-Asian) and CNS metastases at baseline by IRC.||||0.70|0.36|<0.0001
92446709|NCT02075840|184780447|SUPERIORITY|IRC, RECIST v1.1 Stratified Analysis (by race (Asian vs non-Asian) and CNS metastases at baseline by IRC)|Cause-Specific Hazard Ratio|0.16|||<|0.0001|TWO_SIDED|95.0|0.1|0.28|||Log Rank|||||0.28|0.10|<0.0001
92446710|NCT02075840|184780449|SUPERIORITY||Difference in Overall Response Rates|7.4||||0.0936|TWO_SIDED|95.0|-1.71|16.5||Stratified analysis|Mantel Haenszel|||||16.50|-1.71|0.0936
92446711|NCT02075840|184780451|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.2405|TWO_SIDED|95.0|0.48|1.2||Stratified analysis|Log Rank|||||1.20|0.48|0.2405
92446712|NCT02075840|184780462|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.2079|TWO_SIDED|95.0|0.46|1.19|||Log Rank|Stratified analysis||Fatigue||1.19|0.46|0.2079
92438045|NCT01500629|184761101|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.5||||0.014||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||.0140
92438046|NCT01500629|184761102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.907|TWO_SIDED|95.0|-0.24|0.22|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.22|-0.24|0.907
92438047|NCT01500629|184761103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.666|TWO_SIDED|95.0|-0.28|0.18|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.18|-0.28|0.666
92438048|NCT01500629|184761104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.972|TWO_SIDED|95.0|-0.29|0.28|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.28|-0.29|0.972
92438049|NCT01500629|184761105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.521|TWO_SIDED|95.0|-0.31|0.59|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.59|-0.31|0.521
92438050|NCT01500629|184761106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.376|TWO_SIDED|95.0|-0.15|0.39|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.39|-0.15|0.376
92438051|NCT01500629|184761107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.35|TWO_SIDED|95.0|-0.11|0.3|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.30|-0.11|0.350
92438052|NCT01500629|184761108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.947|TWO_SIDED|95.0|-0.36|0.34|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.34|-0.36|0.947
92438053|NCT01500629|184761109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.651|TWO_SIDED|95.0|-0.3|0.19|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.19|-0.30|0.651
92438054|NCT01500629|184761114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.261|TWO_SIDED|95.0|-1.3|0.38|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.38|-1.30|0.261
92438055|NCT01500629|184761115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.481|TWO_SIDED|95.0|-0.51|1.04|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||1.04|-0.51|0.481
92438056|NCT01500629|184761116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.961|TWO_SIDED|95.0|-0.85|0.89|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.89|-0.85|0.961
92438057|NCT01500629|184761117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.546|TWO_SIDED|95.0|-0.57|1.04|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||1.04|-0.57|0.546
92438058|NCT02902965|184761118|OTHER||median PFS|8.5|||||TWO_SIDED|95.0|6.2|10.8|||||Kaplan-Meier estimates for median PFS and its associated 95% confidence intervals using log-log transformed Greenwood variance estimate were calculated.|||10.8|6.2|
92171211|NCT02638337|184231592|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Week 4||||<0.0001
92171212|NCT02638337|184231592|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Week 8||||<0.0001
92171213|NCT02638337|184231592|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Week 12||||<0.0001
92438059|NCT02902965|184761119|OTHER||ORR in %|56.8|||||TWO_SIDED|95.0|44.7|68.2|||||Overall response = confirmed sCR + CR + VGPR + PR with corresponding 95% Exact binomial Cl|||68.2|44.7|
92438060|NCT02902965|184761120|OTHER||PFS rate|6.6|||||TWO_SIDED|95.0|1.6|16.9|||||Kaplan-Meier method used for PFS rate and its associated 95% confidence intervals using log-log transformed Greenwood variance estimate were calculated.|||16.9|1.6|
92438061|NCT02902965|184761123|OTHER||median TTP|10.6|||||TWO_SIDED|95.0|7.8|12.0|||||KM estimates for median TTP with associated 95% CI|||12|7.8|
92438062|NCT02259582|184761142|SUPERIORITY|Based on RECIST v1.1. Response outcomes from an assessment done anytime less than Day 35 were considered as not evaluable unless the response assessment was progress disease.|Hazard Ratio (HR)|0.04|||=|0.0401|TWO_SIDED|95.0|0.013|0.095|||Log Rank|||The Kaplan-Meier method was used to estimate both the survival curves and the median survival time. The 95% confidence interval (CI) for the median survival time was calculated. A p-value for treatment effect was generated using a stratified Cox proportional hazards model.||.095|.013|=0.0401
92438063|NCT01969240|184761144|SUPERIORITY||Mean Difference (Final Values)|0.66|||||TWO_SIDED|95.0|0.46|0.86||||||||0.86|0.46|
92438064|NCT01969240|184761145|SUPERIORITY||||||<|0.013|||||||t-test, 2 sided|The a-priori significance level was 0.05.||||||<0.013
92438065|NCT01969240|184761146|SUPERIORITY||Mean Difference (Final Values)|10.3|||||TWO_SIDED|95.0|9.1|11.5||||||||11.5|9.1|
92438066|NCT01969240|184761147|SUPERIORITY|||||||0.998|||||||Regression, Logistic|||||||0.998
92438067|NCT01969240|184761148|SUPERIORITY||||||<|0.001|||||||negative binomial model|||||||<0.001
92438068|NCT01969240|184761149|SUPERIORITY||Mean Difference (Final Values)|-2.9|||||TWO_SIDED|95.0|-4.8|-0.9||||||||-0.90|-4.8|
92438069|NCT01969240|184761150|SUPERIORITY||Median Difference (Final Values)|1.7|||||TWO_SIDED|95.0|-0.2|3.6||||||||3.6|-0.2|
92438070|NCT00708643|184761212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0047|STANDARD_ERROR_OF_MEAN|2.2863|||TWO_SIDED|98.75|-3.0047|2.7153|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus the habitual lens.|The alternative hypothesis is that narafilcon A will provide a lower level of limbal hyperemia than the habitual lens.||2.7153|-3.0047|
92438071|NCT00708643|184761213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0804|STANDARD_ERROR_OF_MEAN|0.7605|||TWO_SIDED|99.0|-0.0804|1.8821|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus habitual lens.|The alternative hypothesis is that narafilcon A provides better comfort than the habitual lens by having a lower rating on the scale.||1.8821|-0.0804|
92438072|NCT00708643|184761214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2228|STANDARD_ERROR_OF_MEAN|1.7002|||TWO_SIDED|99.0|0.2228|4.6564|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus the habitual lens.|The alternative hypothesis is that narafilcon A provides a lowe level of upper lid margin staining than the habitual lens.||4.6564|0.2228|
92438073|NCT00708643|184761215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2596|STANDARD_ERROR_OF_MEAN|1.1873|||TWO_SIDED|98.75|1.2596|4.2599|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus the habitual lens.|||4.2599|1.2596|
92438074|NCT00708643|184761216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8625|STANDARD_ERROR_OF_MEAN|2.3407|||TWO_SIDED|98.75|-0.8625|5.0524|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus habitual lens.|The alternative hypothesis is that narafilcon A provides a lower level of tarsal hyperemia than the habitual lens.||5.0524|-0.8625|
92438075|NCT00708643|184761217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.241|STANDARD_ERROR_OF_MEAN|1.6975|||TWO_SIDED|98.75|-0.241|4.0043|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus habitual lens.|The alternative hypothesis is that narafilcon A provides lower levels of corneal staining than the habitual lens.||4.0043|-0.2410|
92438076|NCT02493608|184761283|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92438077|NCT02493608|184761284|OTHER|||||||0.218||||||POD 1|t-test, 2 sided|||||||0.218
92438078|NCT02493608|184761284|OTHER|||||||0.638||||||POD 2|t-test, 2 sided|||||||0.638
92438079|NCT02493608|184761285|OTHER|||||||0.113|||||||t-test, 2 sided|||||||0.113
92438080|NCT03045887|184761320|OTHER||Ratio|0.41|STANDARD_ERROR_OF_MEAN|0.243|||TWO_SIDED|90.0|0.27|0.61|||||AUC(0-t). Standard error of mean was on logged scale|||0.61|0.27|
92438081|NCT03045887|184761320|OTHER||Ratio|0.98|STANDARD_ERROR_OF_MEAN|0.243|||TWO_SIDED|90.0|0.65|1.47|||||AUC(0-t).Standard error of mean was on logged scale|||1.47|0.65|
92438082|NCT03045887|184761320|OTHER||Ratio|1.33|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|90.0|1.01|1.74|||||AUC(0-t).Standard error of mean was on logged scale|||1.74|1.01|
92438083|NCT03045887|184761320|OTHER||Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|90.0|0.69|1.62|||||AUC(0-t).Standard error of mean was on logged scale|||1.62|0.69|
92438084|NCT03045887|184761320|OTHER||Ratio|1.25|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|90.0|0.95|1.64|||||AUC(0-t).Standard error of mean was on logged scale|||1.64|0.95|
92438085|NCT03045887|184761321|OTHER||Ratio|1.22|STANDARD_ERROR_OF_MEAN|0.098|||TWO_SIDED|90.0|1.01|1.47|||||Treatment ratio of adjusted geometric mean (Day 14/Day 1) for AUC(0-24) is presented|||1.47|1.01|
92438086|NCT03045887|184761322|OTHER||ratio|0.78|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|90.0|0.61|0.99||||||||0.99|0.61|
92438087|NCT03045887|184761322|OTHER||ratio|0.96|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|90.0|0.75|1.22||||||||1.22|0.75|
92438088|NCT03045887|184761322|OTHER||ratio|0.81|STANDARD_ERROR_OF_MEAN|0.106|||TWO_SIDED|90.0|0.68|0.97||||||||0.97|0.68|
92438089|NCT03045887|184761322|OTHER||ratio|0.66|STANDARD_ERROR_OF_MEAN|0.154|||TWO_SIDED|90.0|0.51|0.86||||||||0.86|0.51|
92438090|NCT03045887|184761322|OTHER||ratio|0.76|STANDARD_ERROR_OF_MEAN|0.106|||TWO_SIDED|90.0|0.63|0.9||||||||0.90|0.63|
92438091|NCT03045887|184761323|OTHER||ratio|1.14|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|90.0|0.96|1.36|||||Treatment ratio of adjusted geometric mean (Day 14/Day 1) for Cmax is presented|||1.36|0.96|
92438092|NCT03045887|184761329|OTHER||Ratio|2.06|STANDARD_ERROR_OF_MEAN|0.128|||TWO_SIDED|90.0|1.67|2.55|||||Treatment ratio of adjusted geometric mean (Day 14/Day 1) for Ctau is presented.|||2.55|1.67|
92438093|NCT00680745|184761351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.0867|<|0.0001|TWO_SIDED|95.0|-0.61|-0.27||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided)||-0.27|-0.61|<0.0001
92438094|NCT00680745|184761351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.0885|<|0.0001|TWO_SIDED|95.0|-0.67|-0.32||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided).||-0.32|-0.67|<0.0001
92438095|NCT00680745|184761351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.0873|<|0.0001|TWO_SIDED|95.0|-0.86|-0.51||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided).||-0.51|-0.86|<0.0001
92438096|NCT00680745|184761352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.3153||0.141|TWO_SIDED|95.0|-1.08|0.15||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||0.15|-1.08|0.1410
92438097|NCT00680745|184761352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.3217||0.0091|TWO_SIDED|95.0|-1.47|-0.21||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.21|-1.47|0.0091
92438098|NCT00680745|184761352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|0.3168|<|0.0001|TWO_SIDED|95.0|-2.17|-0.92||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.92|-2.17|<0.0001
92438099|NCT00680745|184761353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.5|STANDARD_ERROR_OF_MEAN|6.874|||TWO_SIDED|95.0|-45.0|-18.0||Not significant. Hierarchical closed testing procedure within treatment group stopped at previous endpoint.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-18.0|-45.0|
92438100|NCT00680745|184761353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.0|STANDARD_ERROR_OF_MEAN|6.968||0.0002|TWO_SIDED|95.0|-39.7|-12.3||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-12.3|-39.7|0.0002
92438101|NCT00680745|184761353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.9|STANDARD_ERROR_OF_MEAN|6.77|<|0.0001|TWO_SIDED|95.0|-42.2|-15.6||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-15.6|-42.2|<0.0001
92438102|NCT00680745|184761354|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.7|STANDARD_ERROR_OF_MEAN|4.265|||TWO_SIDED|95.0|5.4|22.1||Not significant. Hierarchical closed testing procedure within treatment group stopped at previous endpoint.|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||22.1|5.4|
92438103|NCT00680745|184761354|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.3|STANDARD_ERROR_OF_MEAN|4.392||0.0001|TWO_SIDED|95.0|8.7|25.9||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||25.9|8.7|0.0001
92438104|NCT00680745|184761354|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.7|STANDARD_ERROR_OF_MEAN|4.457|<|0.0001|TWO_SIDED|95.0|9.9|27.4||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||27.4|9.9|<0.0001
92438105|NCT00680745|184761355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.4159|||TWO_SIDED|95.0|-1.19|0.45||Not significant. Hierarchical closed testing procedure within treatment group stopped at previous endpoint.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||0.45|-1.19|
92438106|NCT00680745|184761355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|0.4234||0.0262|TWO_SIDED|95.0|-1.78|-0.11||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.11|-1.78|0.0262
92446713|NCT02075840|184780462|SUPERIORITY||Hazard Ratio (HR)|1.66||||0.1137|TWO_SIDED|95.0|0.88|3.15||Stratified analysis|Log Rank|||Dyspnea||3.15|0.88|0.1137
92279973|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.324||||0.0203|TWO_SIDED|95.0|-0.596|-0.051||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.051|-0.596|0.0203
92438107|NCT00680745|184761355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.67|STANDARD_ERROR_OF_MEAN|0.4211|<|0.0001|TWO_SIDED|98.0|-2.5|-0.84||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.84|-2.50|<0.0001
92438108|NCT00680745|184761356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|STANDARD_ERROR_OF_MEAN|3.522|||TWO_SIDED|95.0|-21.8|-7.9||Not significant. Hierarchical closed testing procedure within treatment group stopped at previous endpoint.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-7.9|-21.8|
92279974|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.025||||0.854|TWO_SIDED|95.0|-0.294|0.244||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.244|-0.294|0.8540
92438109|NCT00680745|184761356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3|STANDARD_ERROR_OF_MEAN|3.594|<|0.0001|TWO_SIDED|95.0|-26.3|-12.2||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-12.2|-26.3|<0.0001
92438110|NCT00680745|184761356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.5|STANDARD_ERROR_OF_MEAN|3.545|<|0.0001|TWO_SIDED|95.0|-33.5|-19.5||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-19.5|-33.5|<0.0001
92438111|NCT01862874|184761408|SUPERIORITY||Vaccine Efficacy|85.9|||<|0.001|TWO_SIDED|95.0|52.7|97.3|||One-sided exact test||Vaccine efficacy is defined as the percentage reduction in relative risk for the V501 group versus the placebo group.||If the lower bound of the 95% confidence interval for vaccine efficacy excludes 0%, then superiority of the V501 group is demonstrated.|97.3|52.7|<0.001
92438112|NCT01862874|184761409|OTHER|Statistical testing of no difference in incidence of maximum temperature ≥37.5°C|Risk Difference (RD)|-1.2||||0.256|TWO_SIDED|95.0|-3.5|0.9|||Miettinen & Nurminen||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|||0.9|-3.5|0.256
92438113|NCT01862874|184761410|OTHER|Statistical testing of no difference in incidence of injection-site erythema|Risk Difference (RD)|2.9||||0.251|TWO_SIDED|95.0|-2.1|7.9|||Miettinen & Nurminen||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|Injection-site erythema||7.9|-2.1|0.251
92438114|NCT01862874|184761410|OTHER|Statistical testing of no difference in incidence of injection-site pain|Risk Difference (RD)|6.4||||0.033|TWO_SIDED|95.0|0.5|12.2|||Miettinen & Nurminen||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|Injection-site pain||12.2|0.5|0.033
92438115|NCT01862874|184761410|OTHER|Statistical testing of no difference in incidence of injection-site swelling|Risk Difference (RD)|6.8||||0.003|TWO_SIDED|95.0|2.3|11.3|||Miettinen & Nurminen||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|Injection-site swelling||11.3|2.3|0.003
92438116|NCT01862874|184761411|OTHER|Statistical testing of no difference in incidence of systemic AEs|Risk Difference (RD)|-0.9|||||TWO_SIDED|95.0|-5.2|3.3|||||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|||3.3|-5.2|
92438117|NCT01862874|184761412|OTHER|Statistical testing of no difference in incidence of vaccine-related systemic AEs|Risk Difference (RD)|-1.6|||||TWO_SIDED|95.0|-4.1|0.8|||||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|||0.8|-4.1|
92438118|NCT01862874|184761413|SUPERIORITY||Vaccine Efficacy|86.5|||<|0.001|TWO_SIDED|95.0|55.2|97.4|||One-sided exact test||Vaccine efficacy is defined as the percentage reduction in relative risk for the V501 versus the placebo group.||If the lower bound of the 95% confidence interval for vaccine efficacy excludes 0%, superiority of the V501 group is demonstrated.|97.4|55.2|<0.001
92438119|NCT00412854|184761423|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of seroprotected subjects was ≤ 10%.|Difference in seroprotection rate|0.61|||||TWO_SIDED|95.0|-1.68|3.39||||||"Difference in seroprotection rates against diphteria toxoid:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose primary vaccination course."||3.39|-1.68|
92438120|NCT00412854|184761423|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of seroprotected subjects was ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.29|2.3||||||"Difference in seroprotection rates against tetanus toxoid:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose vaccination course."||2.30|-2.29|
92446714|NCT02075840|184780464|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.7042|TWO_SIDED|95.0|0.44|1.74||Stratified analysis|Log Rank|||Coughing||1.74|0.44|0.7042
92446715|NCT02075840|184780464|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.0285|TWO_SIDED|95.0|1.05|2.92||Stratified analysis|Log Rank|||Dyspnea||2.92|1.05|0.0285
92446716|NCT02075840|184780464|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.2377|TWO_SIDED|95.0|0.79|2.61||Stratified analysis|Log Rank|||Pain in arm and shoulder||2.61|0.79|0.2377
92438121|NCT00412854|184761424|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of seroprotected subjects was ≤ 10%.|Difference in seroprotection rate|2.47|||||TWO_SIDED|95.0|0.15|6.18||||||"Difference in seroprotection rates against PRP:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose vaccination course."||6.18|0.15|
92438122|NCT00412854|184761425|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of subjects with a vaccine response was ≤ 10%.|Difference in seroresponse rate|0.0|||||TWO_SIDED|95.0|-2.29|2.3||||||"Difference in vaccine response rates against PT:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose vaccination course."||2.30|-2.29|
92438123|NCT00412854|184761425|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of subjects with a vaccine response was ≤ 10%.|Difference in seroresponse rate|0.0|||||TWO_SIDED|95.0|-2.29|2.3||||||"Difference in vaccine response rates against FHA:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose vaccination course."||2.30|-2.29|
92438124|NCT00412854|184761425|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of subjects with a vaccine response was ≤ 10%.|Difference in seroresponse rate|1.23|||||TWO_SIDED|95.0|-2.17|5.07||||||"Difference in vaccine response rates against PRN:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose vaccination course."||5.07|-2.17|
92438125|NCT03518073|184761434|SUPERIORITY||Posterior Mean Ratio|1.1|||||TWO_SIDED|95.0|0.959|1.265|||||Posterior mean ratio with 95% credible interval is reported.|||1.265|0.959|
92438126|NCT03518073|184761434|SUPERIORITY||Posterior Mean Ratio|1.05|||||TWO_SIDED|95.0|0.907|1.209|||||Posterior mean ratio with 95% credible interval is reported.|||1.209|0.907|
92438127|NCT03518073|184761435|SUPERIORITY||Posterior Mean Ratio|1.11|||||TWO_SIDED|95.0|0.943|1.29|||||Posterior mean ratio with 95% credible interval is reported.|||1.290|0.943|
92438128|NCT03518073|184761435|SUPERIORITY||Posterior Mean Ratio|0.89|||||TWO_SIDED|95.0|0.737|1.053|||||Posterior mean ratio with 95% credible interval is reported.|||1.053|0.737|
92438129|NCT03518073|184761436|SUPERIORITY||Posterior Mean Ratio|1.06|||||TWO_SIDED|95.0|0.873|1.284|||||Posterior mean ratio with 95% credible interval is reported.|||1.284|0.873|
92438130|NCT03518073|184761436|SUPERIORITY||Posterior Mean Ratio|1.21|||||TWO_SIDED|95.0|1.006|1.453|||||Posterior mean ratio with 95% credible interval is reported.|||1.453|1.006|
92438131|NCT03518073|184761437|SUPERIORITY||Posterior Mean Ratio|1.12|||||TWO_SIDED|95.0|0.963|1.3|||||Posterior mean ratio with 95% credible interval is reported.|||1.300|0.963|
92438132|NCT03518073|184761437|SUPERIORITY||Posterior Mean Ratio|0.95|||||TWO_SIDED|95.0|0.805|1.119|||||Posterior mean ratio with 95% credible interval is reported.|||1.119|0.805|
92438133|NCT03518073|184761438|SUPERIORITY||Posterior Mean Ratio|1.04|||||TWO_SIDED|95.0|0.88|1.221|||||Posterior mean ratio with 95% credible interval is reported.|||1.221|0.880|
92438134|NCT03518073|184761438|SUPERIORITY||Posterior Mean Ratio|0.89|||||TWO_SIDED|95.0|0.742|1.065|||||Posterior mean ratio with 95% credible interval is reported.|||1.065|0.742|
92438135|NCT03518073|184761439|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.016||0.253|TWO_SIDED|95.0|-0.01|0.05|||Mixed Models Analysis|||||0.05|-0.01|0.253
92438136|NCT03518073|184761439|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.016||0.354|TWO_SIDED|95.0|-0.02|0.05|||Mixed Models Analysis|||||0.05|-0.02|0.354
92438137|NCT03518073|184761440|SUPERIORITY||LS Mean Difference|0.62|STANDARD_ERROR_OF_MEAN|1.554||0.691|TWO_SIDED|95.0|-2.44|3.68|||Mixed Models Analysis|||||3.68|-2.44|0.691
92438138|NCT03518073|184761440|SUPERIORITY||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|1.599||0.749|TWO_SIDED|95.0|-2.64|3.66|||Mixed Models Analysis|||||3.66|-2.64|0.749
92438139|NCT03045081|184761443|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis. GEE allows for the analysis of repeated measures with unknown covariance structure and uses all available data that participants provide, even if follow-up data are missing (ie, intent-to-treat analysis). Models for the entire study sample and for only those who provided outcome data at all study time points (0, 3, 6 months; i.e., as treated 'completer' analysis) were evaluated (see Statistical Analysis 2).|||||<|0.05||||||Wald χ2 p-values \< 0.05 considered statistically significant for group x time interactions.|Wald χ2|Intent-to-treat analysis (full sample)||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improvement in pain self efficacy over time compared to the usual care group.||||<0.05
92446717|NCT02075840|184780464|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0796|TWO_SIDED|95.0|0.24|1.1||Stratified analysis|Log Rank|||Pain in chest||1.10|0.24|0.0796
92446718|NCT02075840|184780464|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.6435|TWO_SIDED|95.0|0.72|1.68||Stratified analysis|Log Rank|||Composite score||1.68|0.72|0.6435
92446719|NCT05429203|184780471|OTHER|||||||0.8||||||The a priori threshold for statistical significance was \<0.05.|Chi-squared|||||||0.8
92446720|NCT05429203|184780472|OTHER|||||||1||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||1
92446721|NCT05429203|184780473|OTHER|||||||0.7||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.7
92446722|NCT05429203|184780474|OTHER|||||||0.4||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.4
92279975|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.022||||0.8757|TWO_SIDED|95.0|-0.293|0.25||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.250|-0.293|0.8757
92438140|NCT03045081|184761443|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.|||||<|0.05||||||Wald χ2 values \< 0.05 considered statistically significant for group x time interactions.|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improvement in chronic pain self-efficacy over time compared to the usual care group. This analysis was limited to those participants who provided data at each of the study time points ('completer analysis').||||<0.05
92438141|NCT03045081|184761444|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis. Main effects of group and time, and group × time interactions were evaluated. Models for the entire study sample and for only those who provided outcome data at all study time points (0, 3, 6 months; 'study completers') were evaluated (see Statistical Analysis 2).||||||0.068||||||Wald χ2 p-values \< 0.05 considered statistically significant for group x time interaction|Wald χ2|Intent-to-treat analysis (full sample)||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improvement in chronic pain acceptance - Activity Engagement - over time compared to the usual care group. Note: this questionnaire has 2 subscales, Activity Engagement and Pain Willingness. Intent-to-treat and as treated analyses were conducted for each subscale.||||0.068
92446723|NCT05429203|184780475|OTHER|||||||0.8||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.8
92446724|NCT05429203|184780476|OTHER|||||||0.8||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.8
92446725|NCT05429203|184780477|OTHER|||||||0.7||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.7
92446726|NCT05429203|184780478|OTHER|||||||0.6||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.6
92446727|NCT05429203|184780479|OTHER|||||||0.5||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.5
92446728|NCT05429203|184780480|OTHER|||||||0.9||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.9
92446729|NCT05429203|184780481|OTHER|||||||0.8||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.8
92446730|NCT05429203|184780482|OTHER|||||||0.9||||||the a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.9
92446731|NCT02644967|184780497|OTHER|Estimation||||||0.0158||||||P-value of the overall response tested against the null rate of 11% based on 1-sided exact (Clopper-Pearson) test.|One-sided Clopper-Pearson test|||Testing the best overall confirmed response rate against the historical control rate of 0.11 (extracted from the literature review).||||0.0158
92446732|NCT02644967|184780498|OTHER|Estimation|Kaplan-Meier|5.06|||||TWO_SIDED|95.0|3.65|7.0|||||Kaplan-Meier estimate of median PFS in months.|||7.00|3.65|
92446733|NCT02644967|184780499|OTHER|Landmark analysis of overall survival at six (6) months.|Kaplan-Meier|87.5|||||TWO_SIDED|95.0|74.3|94.2|||||Kaplan-Meier estimate of percentage of participants surviving at six (6) months.|||94.2|74.3|
92446734|NCT02644967|184780500|OTHER|Landmark analysis of overall survival at twelve (12) months.|Kaplan-Meier|60.0|||||TWO_SIDED|95.0|44.7|72.4|||||Kaplan-Meier estimate of percentage of participants surviving at twelve (12) months.|||72.4|44.7|
92446735|NCT01147653|184780509|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.72|TWO_SIDED|95.0|-2.6|3.7|||t-test, 2 sided|||H0: The true mean 1-year change in GMFM-66 is the same on Autologous Umbilical Cord Blood and Placebo||3.7|-2.6|0.72
92446736|NCT01147653|184780510|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
92446737|NCT01147653|184780511|SUPERIORITY|||||||0.473|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Behavior change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.473
92446738|NCT01147653|184780511|SUPERIORITY|||||||0.377|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Bodily Pain/Discomfort change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.377
92446739|NCT01147653|184780511|SUPERIORITY|||||||0.844|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Family Cohesion change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.844
92446740|NCT01147653|184780511|SUPERIORITY|||||||0.322|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month General Behavior change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.322
92446741|NCT01147653|184780511|SUPERIORITY|||||||0.927|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month General Health Perceptions change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.927
92446742|NCT01147653|184780511|SUPERIORITY|||||||0.199|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Global Behavior change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.199
92446743|NCT01147653|184780511|SUPERIORITY|||||||0.294|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Growth and Development change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.294
92446744|NCT01147653|184780511|SUPERIORITY|||||||0.726|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Overall Health change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.726
92446745|NCT01147653|184780511|SUPERIORITY|||||||0.315|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Parental Impact-Emotional change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.315
92446746|NCT01147653|184780511|SUPERIORITY|||||||0.396|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Parental Impact-Time change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.396
92446747|NCT01147653|184780511|SUPERIORITY|||||||0.381|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Physical Abilities change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.381
92438142|NCT03045081|184761444|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.|||||<|0.05||||||Wald χ2 \<0.05 considered statistically significant for group x time interaction.|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group by time interaction, such that the PTSM group would demonstrate improvement in chronic pain acceptance - Activity Engagement - over time compared to the usual care group.This analysis was limited to those participants who provided data at each of the study time points ('completer' analysis).||||<0.05
92438143|NCT03045081|184761444|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.||||||0.173||||||Wald χ2 \< 0.05 considered statistically significant for group x time interaction.|Wald χ2|Intent-to-treat analysis (full sample).||We hypothesized that we would observe a group by time interaction such that the PTSM group would demonstrate improvement in chronic pain acceptance - Pain Willingness - over time compared to the usual care group.||||0.173
92438144|NCT03045081|184761444|OTHER|Generalized estimating equations were used to test this hypothesis.||||||0.167||||||Wald χ2 \>0.05 considered statistically significant for group x time interaction.|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group by time interaction such that the PTSM group would demonstrate improvement in chronic pain acceptance - Pain Willingness - over time compared to the usual care group. This analysis was restricted to those study participants who provided data at each of the study time points ('completer' analysis).||||0.167
92438145|NCT03045081|184761445|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis. Main effects of group and time, and group × time interactions were evaluated. Models for the entire study sample and for only those who provided outcome data at all study time points (0, 3, 6 months) were evaluated (see Statistical Analysis 2).||||||0.176||||||Wald χ2 p-values \< 0.05 considered statistically significant for group x time interaction|Wald χ2|Intent-to-treat analysis (full sample).||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improved confidence in patient-provider interactions over time compared to the usual care group.||||0.176
92438146|NCT03045081|184761445|OTHER|Generalized estimating equations were used to test this hypothesis.||||||0.143||||||Wald χ2 \< 0.05 considered statistically significant for group x time interaction.|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improved confidence in patient-provider interactions over time compared to the usual care group. This analysis was restricted to those study participants who provided data at each of the study time points ('completer' analysis).||||0.143
92438147|NCT03045081|184761446|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis. Main effects of group and time, and group × time interactions were evaluated. Models for the entire study sample and for only those who provided outcome data at all study time points (0, 3, 6 months) were evaluated (see Statistical Analysis 2).|||||<|0.05||||||Wald χ2 p-values \< 0.05 considered statistically significant.|Wald χ2|Intent-to-treat analysis (full sample).||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improved satisfaction with pain treatment over time compared to the usual care group.||||<0.05
92438148|NCT03045081|184761446|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.|||||<|0.001||||||Wald χ2 \< 0.05 were considered statistically significant for the group x time interaction.|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improved satisfaction with pain treatment over time compared to the usual care group. This analysis was restricted to those study participants who provided data at each of the study time points (i.e., 'completer' analysis).||||<0.001
92438149|NCT03045081|184761448|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.Models for the entire study sample and for only those who provided outcome data at all study time points (0, 3, 6 months) were evaluated (see Statistical Analysis 2).||||||0.102||||||Wald χ2 p-values \< 0.05 considered statistically significant.|Wald χ2|Intent-to-treat analysis (full sample).||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate greater reductions in pain intensity and interference over time compared to the usual care group.||||0.102
92438150|NCT03045081|184761448|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.|||||<|0.05||||||Wald χ2 \< 0.05 considered statistically significant for group x time interaction|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate greater reductions in pain intensity and interference over time compared to the usual care group. This analysis was restricted to those study participants who provided data at each time point (as treated, 'completer' analysis).||||<0.05
92438151|NCT02436889|184761462|SUPERIORITY|||||||0.949|||||||ANCOVA|||||||0.949
92438152|NCT02436889|184761463|SUPERIORITY||Mean Difference (Final Values)|3.11||||0.2415|TWO_SIDED|95.0|-2.09|8.31|||ANCOVA|change from baseline, adjusted for baseline value||||8.31|-2.09|0.2415
92438153|NCT02436889|184761464|SUPERIORITY||Mean Difference (Final Values)|-12.01||||0.0001|TWO_SIDED|95.0|-18.16|-5.87|||ANCOVA|||||-5.87|-18.16|0.0001
92438154|NCT02436889|184761465|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.1956|TWO_SIDED|95.0|-1.59|0.33|||ANCOVA|||||0.33|-1.59|0.1956
92438155|NCT02436889|184761466|SUPERIORITY||Mean Difference (Final Values)|1.87||||0.0168|TWO_SIDED|95.0|0.34|3.4|||ANCOVA|||||3.40|0.34|0.0168
92438156|NCT02436889|184761467|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.0101|TWO_SIDED|95.0|0.5|3.71|||ANCOVA|||||3.71|0.50|0.0101
92438157|NCT01034462|184761468|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.095||||0.0051|TWO_SIDED|95.0|-5.256|-0.935|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.935|-5.256|0.0051
92438158|NCT01034462|184761469|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.632||||0.001|TWO_SIDED|95.0|-4.193|-1.07|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-1.070|-4.193|0.0010
92438159|NCT00453921|184761522|OTHER||||||<|0.04||||||For active therapy/placebo relative to both placebo|Kruskal-Wallis|||||||<0.04
92438160|NCT00453921|184761524|EQUIVALENCE|Looking for statistical difference, p \< .01, between groups looking at change scores|||||<|0.05|||||||ANOVA|||||||<0.05
92438161|NCT00453921|184761525|EQUIVALENCE|group differences|||||<|0.05|||||||ANCOVA|||||||<0.05
92438162|NCT00453921|184761528|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
92438163|NCT00453921|184761528|SUPERIORITY||||||<|0.05||||||a priopr|ANCOVA|||||||<0.05
92438164|NCT00303498|184761529|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|43.0||||0.0302|||||||ANCOVA|Change at Week 24: P-value was obtained from the non-parametric analysis of covariance (ANCOVA) controlling for baseline treadmill exercise time.||The median of the treatment difference was calculated using the Hodges-Lehmann estimator.||||0.0302
92438165|NCT00303498|184761530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.5||||0.495|||||||ANCOVA|Change at Week 24: P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||||||0.4950
92438166|NCT00303498|184761531|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.6||||0.3874|||||||ANCOVA|P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||Change at Week 24 for PLAX 2D mode||||0.3874
92438167|NCT00303498|184761531|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.8||||0.7038|||||||ANCOVA|P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||Change at Week 24 for PSAX M-mode||||0.7038
92438168|NCT00303498|184761532|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.9||||0.8998|||||||ANCOVA|P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||||||0.8998
92438169|NCT00303498|184761533|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.7||||0.7245|||||||ANCOVA|P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||||||0.7245
92438170|NCT00303498|184761534|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.5||||0.8649|||||||ANCOVA|P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||||||0.8649
92438171|NCT00303498|184761535|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5909||||||The statistical analysis (P value) was performed on the composite change for all categories.|Cochran-Mantel-Haenszel|||Change at Week 24||||0.5909
92438172|NCT00174915|184761536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The overall 0.05 level of significance for the multiple comparisons of each febuxostat dose to placebo was controlled using Hochberg's method. The p-value was statistically significant.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL versus \[v.\] \>1.5 mg/dL).||||||<0.001
92438173|NCT00174915|184761536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The overall 0.05 level of significance for the multiple comparisons of each febuxostat dose to placebo was controlled using Hochberg's method. The p-value was statistically significant.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438174|NCT00174915|184761536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The overall 0.05 level of significance for the multiple comparisons of each febuxostat dose to placebo was controlled using Hochberg's method. The p-value was statistically significant.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438175|NCT00174915|184761536|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of febuxostat 80 mg to allopurinol was declared if the value of the lower bound of the 97.5% confidence interval is \> -10%.|Difference in percentage|25.7||||||97.5|16.7|34.7||||||||34.7|16.7|
92438176|NCT00174915|184761536|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of febuxostat 120 mg to allopurinol was declared if the value of the lower bound of the 97.5% confidence interval is \> -10%.|Difference in percentage|42.7||||||97.5|34.0|51.3||||||||51.3|34.0|
92438177|NCT00174915|184761536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparisons of each febuxostat dose to allopurinol were adjusted to control the overall 0.05 level of significance for superiority by using Hochberg's method. The p-value was statistically significant.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438178|NCT00174915|184761536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparisons of each febuxostat dose to allopurinol were adjusted to control the overall 0.05 level of significance for superiority by using Hochberg's method. The p-value was statistically significant.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92279976|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.332||||0.0174|TWO_SIDED|95.0|-0.605|-0.059||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.059|-0.605|0.0174
92438179|NCT00174915|184761536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438180|NCT00174915|184761536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438181|NCT00174915|184761536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438182|NCT00174915|184761536|SUPERIORITY_OR_OTHER|||||||0.479||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.479
92438183|NCT00174915|184761536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438184|NCT00174915|184761537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92279977|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|0.078||||0.5831|TWO_SIDED|95.0|-0.202|0.358||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.358|-0.202|0.5831
92279978|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.078||||0.5859|TWO_SIDED|95.0|-0.36|0.204||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.204|-0.360|0.5859
92438185|NCT00174915|184761537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438186|NCT00174915|184761537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438187|NCT00174915|184761537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438188|NCT00174915|184761537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438189|NCT00174915|184761537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438190|NCT00174915|184761537|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.011
92438191|NCT00174915|184761537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438192|NCT00174915|184761537|SUPERIORITY_OR_OTHER|||||||0.091||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.091
92438193|NCT00174915|184761537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438194|NCT00174915|184761538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438195|NCT00174915|184761538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438196|NCT00174915|184761538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438197|NCT00174915|184761538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438198|NCT00174915|184761538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438199|NCT00174915|184761538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438200|NCT00174915|184761538|SUPERIORITY_OR_OTHER|||||||0.074||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.074
92438201|NCT00174915|184761538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92438202|NCT00174915|184761538|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.001
92438203|NCT00174915|184761538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
92446748|NCT01147653|184780511|SUPERIORITY|||||||0.869|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Temperament and Moods change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.869
92446749|NCT01147653|184780512|SUPERIORITY|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||H0: The 12 month Access to Services change score is identically distributed in patients assigned Autologous Cord Blood Reinfusion First and Placebo First.||||0.055
92438204|NCT00174915|184761539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438205|NCT00174915|184761539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438206|NCT00174915|184761539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438207|NCT00174915|184761539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438208|NCT00174915|184761539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438209|NCT00174915|184761539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438210|NCT00174915|184761539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438211|NCT00174915|184761539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438212|NCT00174915|184761539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438213|NCT00174915|184761539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438214|NCT00174915|184761540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438215|NCT00174915|184761540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438216|NCT00174915|184761540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438217|NCT00174915|184761540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438218|NCT00174915|184761540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438219|NCT00174915|184761540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438220|NCT00174915|184761540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438221|NCT00174915|184761540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438222|NCT00174915|184761540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438223|NCT00174915|184761540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
92438224|NCT00174915|184761541|SUPERIORITY_OR_OTHER|||||||0.789||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.789
92438225|NCT00174915|184761541|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.320
92438226|NCT00174915|184761541|SUPERIORITY_OR_OTHER|||||||0.381||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.381
92438227|NCT00174915|184761541|SUPERIORITY_OR_OTHER|||||||0.809||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.809
92438228|NCT00174915|184761541|SUPERIORITY_OR_OTHER|||||||0.154||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.154
92438229|NCT00174915|184761541|SUPERIORITY_OR_OTHER|||||||0.247||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.247
92438230|NCT00174915|184761541|SUPERIORITY_OR_OTHER|||||||0.415||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.415
92438231|NCT00174915|184761541|SUPERIORITY_OR_OTHER|||||||0.649||95.0||||Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.649
92438232|NCT00174915|184761541|SUPERIORITY_OR_OTHER|||||||0.807||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.807
92438233|NCT00174915|184761541|SUPERIORITY_OR_OTHER|||||||0.844||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.844
92438234|NCT00174915|184761542|SUPERIORITY_OR_OTHER|||||||0.699||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.699
92438235|NCT00174915|184761542|SUPERIORITY_OR_OTHER|||||||0.822||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.822
92438236|NCT00174915|184761542|SUPERIORITY_OR_OTHER|||||||0.579||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.579
92438237|NCT00174915|184761542|SUPERIORITY_OR_OTHER|||||||0.679||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.679
92438238|NCT00174915|184761542|SUPERIORITY_OR_OTHER|||||||0.278||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.278
92438239|NCT00174915|184761542|SUPERIORITY_OR_OTHER|||||||0.104||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.104
92438240|NCT00174915|184761542|SUPERIORITY_OR_OTHER|||||||0.56||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.560
92438241|NCT00174915|184761542|SUPERIORITY_OR_OTHER|||||||0.309||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.309
92438242|NCT00174915|184761542|SUPERIORITY_OR_OTHER|||||||0.759||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.759
92438243|NCT00174915|184761542|SUPERIORITY_OR_OTHER|||||||0.385||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.385
92438244|NCT00174915|184761543|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.949
92438245|NCT00174915|184761543|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.050
92438246|NCT00174915|184761543|SUPERIORITY_OR_OTHER|||||||0.577||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.577
92438247|NCT00174915|184761543|SUPERIORITY_OR_OTHER|||||||0.598||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.598
92438248|NCT00174915|184761543|SUPERIORITY_OR_OTHER|||||||0.062||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.062
92438249|NCT00174915|184761543|SUPERIORITY_OR_OTHER|||||||0.969||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.969
92438250|NCT00174915|184761543|SUPERIORITY_OR_OTHER|||||||0.056||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.056
92438251|NCT00174915|184761543|SUPERIORITY_OR_OTHER|||||||0.659||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.659
92438252|NCT00174915|184761543|SUPERIORITY_OR_OTHER|||||||0.197||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.197
92438253|NCT00174915|184761543|SUPERIORITY_OR_OTHER|||||||0.521||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.521
92438254|NCT00174915|184761544|SUPERIORITY_OR_OTHER|||||||0.683||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.683
92438255|NCT00174915|184761544|SUPERIORITY_OR_OTHER|||||||0.078||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.078
92438256|NCT00174915|184761544|SUPERIORITY_OR_OTHER|||||||0.442||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.442
92438257|NCT00174915|184761544|SUPERIORITY_OR_OTHER|||||||0.99||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.990
92438258|NCT00174915|184761544|SUPERIORITY_OR_OTHER|||||||0.077||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.077
92438259|NCT00174915|184761544|SUPERIORITY_OR_OTHER|||||||0.662||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.662
92438260|NCT00174915|184761544|SUPERIORITY_OR_OTHER|||||||0.139||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.139
92171214|NCT02638337|184231593|SUPERIORITY||LS Mean Difference|2.5|||<|0.0001|TWO_SIDED|95.0|2.0|3.0|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 4||3.0|2.0|<0.0001
92438261|NCT00174915|184761544|SUPERIORITY_OR_OTHER|||||||0.705||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.705
92438262|NCT00174915|184761544|SUPERIORITY_OR_OTHER|||||||0.337||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.337
92438263|NCT00174915|184761544|SUPERIORITY_OR_OTHER|||||||0.643||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.643
92438264|NCT00174915|184761545|SUPERIORITY_OR_OTHER|||||||0.645||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.645
92438265|NCT00174915|184761545|SUPERIORITY_OR_OTHER|||||||0.756||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.756
92438266|NCT00174915|184761545|SUPERIORITY_OR_OTHER|||||||0.428||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.428
92438267|NCT00174915|184761545|SUPERIORITY_OR_OTHER|||||||0.076||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons..|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL)||||||0.076
92438268|NCT00174915|184761545|SUPERIORITY_OR_OTHER|||||||0.106||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.106
92438269|NCT00174915|184761545|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.069
92438270|NCT00174915|184761545|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.837
92438271|NCT00174915|184761545|SUPERIORITY_OR_OTHER|||||||0.749||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.749
92438272|NCT00174915|184761545|SUPERIORITY_OR_OTHER|||||||0.581||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.581
92438273|NCT00174915|184761545|SUPERIORITY_OR_OTHER|||||||0.311||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.311
92438274|NCT03060447|184761560|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 1: Day 2||||0.55
92438275|NCT03060447|184761560|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 1: Day 8||||0.54
92438276|NCT03060447|184761560|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 2: Day 1||||0.54
92438277|NCT03060447|184761560|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 2: Day 8||||0.54
92438278|NCT03060447|184761560|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 3: Day 1||||0.54
92438279|NCT03060447|184761560|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 3: Day 8||||0.57
92438280|NCT03060447|184761560|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 4: Day 1||||0.54
92438281|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 4: Day 2||||0.52
92438282|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 4: Day 4||||0.52
92438283|NCT03060447|184761560|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 4: Day 8||||0.61
92438284|NCT03060447|184761560|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 5: Day 1||||0.54
92438285|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 5: Day 8||||0.52
92438286|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 6: Day 1||||0.52
92438287|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests||Dose 6: Day 4||||0.52
92438288|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 6: Day 8||||0.52
92438289|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 7: Day 1||||0.52
92438290|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 7 - Day 8||||0.52
92438291|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 8: Day 1||||0.52
92438292|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 8: Day 8||||0.52
92438293|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 9: Day 1||||0.52
92171215|NCT02638337|184231593|SUPERIORITY||LS Mean Difference|2.9|||<|0.0001|TWO_SIDED|95.0|2.4|3.4|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 8||3.4|2.4|<0.0001
92438294|NCT03060447|184761560|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests||Dose 9: Day 8||||1.00
92438295|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests||Dose 10: Day 1||||0.52
92438296|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 10: Day 2||||0.52
92438297|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 10: Day 4||||0.52
92438298|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 10: Day 8||||0.52
92438299|NCT03060447|184761560|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 10: Day 14||||0.52
92438300|NCT03060447|184761561|SUPERIORITY|||||||0.035|||||||Log Rank|P-value between treatment groups was based on log-rank test.||≥ 50 Copies/mL||||0.035
92438301|NCT03060447|184761561|SUPERIORITY|||||||0.024|||||||Log Rank|P-value between treatment groups was based on log-rank test.||≥ 200 Copies/mL||||0.024
92438302|NCT03060447|184761562|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|P-values between treatment groups were based on Wilcoxon rank sum test.||||||0.67
92438303|NCT03060447|184761563|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|P-values between treatment groups were based on Wilcoxon rank sum test.||||||0.78
92438304|NCT03060447|184761564|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Baseline||||0.34
92438305|NCT03060447|184761564|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 1: Day 2||||0.11
92438306|NCT03060447|184761564|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 1: Day 8||||0.81
92438307|NCT03060447|184761564|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 4: Day 1||||0.83
92438308|NCT03060447|184761564|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 4: Day 2||||0.12
92438309|NCT03060447|184761564|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 4: Day 8||||0.45
92438310|NCT03060447|184761564|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 10: Day 1||||0.25
92438311|NCT03060447|184761564|SUPERIORITY|||||||0.053|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 10: Day 2||||0.053
92438312|NCT03060447|184761564|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 10: Day 8||||0.16
92438313|NCT03060447|184761564|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, ATI Remission Visit||||0.27
92438314|NCT03060447|184761564|SUPERIORITY|||||||0.35|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Baseline||||0.35
92438315|NCT03060447|184761564|SUPERIORITY|||||||0.013|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 1: Day 2||||0.013
92438316|NCT03060447|184761564|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 1: Day 8||||0.15
92438317|NCT03060447|184761564|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 4: Day 1||||0.30
92438318|NCT03060447|184761564|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 4: Day 2||||0.003
92438319|NCT03060447|184761564|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 4: Day 8||||0.49
92438320|NCT03060447|184761564|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 10: Day 1||||0.25
92438321|NCT03060447|184761564|SUPERIORITY|||||||0.055|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 10: Day 2||||0.055
92279979|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.291||||0.0447|TWO_SIDED|95.0|-0.575|-0.007||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.007|-0.575|0.0447
92279980|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|0.093||||0.5365|TWO_SIDED|95.0|-0.203|0.388||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.388|-0.203|0.5365
92438322|NCT03060447|184761564|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 10: Day 8||||0.90
92438323|NCT03060447|184761564|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, ATI Remission Visit||||0.39
92438324|NCT03060447|184761564|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Baseline||||0.75
92438325|NCT03060447|184761564|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 1: Day 2||||<0.001
92438326|NCT03060447|184761564|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 1: Day 8||||0.69
92438327|NCT03060447|184761564|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 4: Day 1||||0.15
92438328|NCT03060447|184761564|SUPERIORITY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 4: Day 2||||0.018
92438329|NCT03060447|184761564|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 4: Day 8||||0.030
92438330|NCT03060447|184761564|SUPERIORITY|||||||0.087|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 10: Day 1||||0.087
92438331|NCT03060447|184761564|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 10: Day 2||||<0.001
92438332|NCT03060447|184761564|SUPERIORITY|||||||0.066|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 10: Day 8||||0.066
92438333|NCT03060447|184761564|SUPERIORITY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, ATI Remission||||0.86
92438334|NCT03060447|184761564|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Baseline||||0.19
92438335|NCT03060447|184761564|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 1: Day 2||||0.021
92438336|NCT03060447|184761564|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 1: Day 8||||0.31
92438337|NCT03060447|184761564|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 4: Day 1||||0.10
92438338|NCT03060447|184761564|SUPERIORITY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 4: Day 2||||0.018
92438339|NCT03060447|184761564|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 4: Day 8||||0.69
92171216|NCT02638337|184231593|SUPERIORITY||LS Mean Difference|2.8|||<|0.0001|TWO_SIDED|95.0|2.2|3.4|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 12||3.4|2.2|<0.0001
92438340|NCT03060447|184761564|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 10: Day 1||||0.46
92438341|NCT03060447|184761564|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 10: Day 2||||0.21
92438342|NCT03060447|184761564|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 10: Day 8||||0.67
92438343|NCT03060447|184761564|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, ATI Remission||||0.60
92438344|NCT03060447|184761565|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ISG15, Dose 1: Day 2||||0.002
92438345|NCT03060447|184761565|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ISG15, Dose 4: Day 1||||0.58
92438346|NCT03060447|184761565|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ISG15, Dose 4: Day 2||||0.009
92438347|NCT03060447|184761565|SUPERIORITY|ISG15, Dose 10: Day 1||||||0.031|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||||||0.031
92438348|NCT03060447|184761565|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ISG15, Dose 10: Day 2||||0.001
92438349|NCT03060447|184761565|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||OAS-1, Dose 1: Day 2||||0.003
92438350|NCT03060447|184761565|SUPERIORITY|||||||0.057|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||OAS-1, Dose 4: Day 1||||0.057
92438351|NCT03060447|184761565|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||OAS-1, Dose 4: Day 2||||0.009
92438352|NCT03060447|184761565|SUPERIORITY|||||||0.057|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||OAS-1, Dose 10: Day 1||||0.057
92438353|NCT03060447|184761565|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||OAS-1, Dose 10: Day 2||||0.005
92438354|NCT03060447|184761565|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||MX1, Dose 1: Day 2||||<0.001
92438355|NCT03060447|184761565|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||MX1, Dose 4: Day 1||||0.17
92438356|NCT03060447|184761565|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||MX1, Dose 4: Day 2||||0.003
92438357|NCT03060447|184761565|SUPERIORITY|MX1, Dose 10: Day 1||||||0.1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||||||0.100
92438358|NCT03060447|184761565|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||MX1, Dose 10: Day 2||||<0.001
92438359|NCT03060447|184761566|SUPERIORITY|||||||0.7469|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Baseline||||0.7469
92438360|NCT03060447|184761566|SUPERIORITY|||||||0.1207|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 4: Day 1||||0.1207
92438361|NCT03060447|184761566|SUPERIORITY|||||||0.4113|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 4: Day 2||||0.4113
92438362|NCT03060447|184761566|SUPERIORITY|||||||0.1113|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 4: Day 4||||0.1113
92438363|NCT03060447|184761566|SUPERIORITY|||||||0.241|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 6: Day 1||||0.2410
92438364|NCT03060447|184761566|SUPERIORITY|||||||0.1098|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 6: Day 4||||0.1098
92438365|NCT03060447|184761566|SUPERIORITY|||||||0.0369|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 10: Day 1||||0.0369
92438366|NCT03060447|184761566|SUPERIORITY|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 10: Day 2||||0.0814
92438367|NCT03060447|184761566|SUPERIORITY|||||||0.1658|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 10: Day 4||||0.1658
92438368|NCT03060447|184761566|SUPERIORITY|||||||0.9431|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 10: Day 14||||0.9431
92438369|NCT03060447|184761566|SUPERIORITY|||||||0.6514|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Baseline||||0.6514
92438370|NCT03060447|184761566|SUPERIORITY|||||||0.0821|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 4: Day 1||||0.0821
92438371|NCT03060447|184761566|SUPERIORITY|||||||0.2353|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 4: Day 2||||0.2353
92438372|NCT03060447|184761566|SUPERIORITY|||||||0.1779|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 4: Day 4||||0.1779
92438373|NCT03060447|184761566|SUPERIORITY|||||||0.7491|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 6: Day 1||||0.7491
92438374|NCT03060447|184761566|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 6: Day 4||||0.0700
92438375|NCT03060447|184761566|SUPERIORITY|||||||0.3711|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 10: Day 1||||0.3711
92438376|NCT03060447|184761566|SUPERIORITY|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 10: Day 2||||0.0814
92438377|NCT03060447|184761566|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 10: Day 4||||0.0700
92438378|NCT03060447|184761566|SUPERIORITY|||||||0.8303|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 10: Day 14||||0.8303
92438379|NCT03060447|184761566|SUPERIORITY|||||||0.953|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Baseline||||0.9530
92438380|NCT03060447|184761566|SUPERIORITY|||||||0.1735|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 4: Day 1||||0.1735
92438381|NCT03060447|184761566|SUPERIORITY|||||||0.2971|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 4: Day 2||||0.2971
92438382|NCT03060447|184761566|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 4: Day 4||||1.0000
92438383|NCT03060447|184761566|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 6: Day 1||||1.0000
92438384|NCT03060447|184761566|SUPERIORITY|||||||0.3374|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 6: Day 4||||0.3374
92438385|NCT03060447|184761566|SUPERIORITY|||||||0.7656|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 10: Day 1||||0.7656
92438386|NCT03060447|184761566|SUPERIORITY|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 10: Day 2||||0.0814
92438387|NCT03060447|184761566|SUPERIORITY|||||||0.3374|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 10: Day 4||||0.3374
92438388|NCT03060447|184761566|SUPERIORITY|||||||0.432|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 10: Day 14||||0.4320
92438389|NCT03060447|184761566|SUPERIORITY|||||||0.8597|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Baseline||||0.8597
92438390|NCT03060447|184761566|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 4: Day 1||||1.0000
92438391|NCT03060447|184761566|SUPERIORITY|||||||0.0306|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 4: Day 2||||0.0306
92438392|NCT03060447|184761566|SUPERIORITY|||||||0.8345|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 4: Day 4||||0.8345
92438393|NCT03060447|184761566|SUPERIORITY|||||||0.9151|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 6: Day 1||||0.9151
92438394|NCT03060447|184761566|SUPERIORITY|||||||0.1098|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 6: Day 4||||0.1098
92438395|NCT03060447|184761566|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 10: Day 1||||1.0000
92438396|NCT03060447|184761566|SUPERIORITY|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 10: Day 2||||0.0814
92438397|NCT03060447|184761566|SUPERIORITY|||||||0.4555|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 10: Day 4||||0.4555
92438398|NCT03060447|184761566|SUPERIORITY|||||||0.6171|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 10: Day 14||||0.6171
92438399|NCT03060447|184761566|SUPERIORITY|||||||0.0677|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Baseline||||0.0677
92438400|NCT03060447|184761566|SUPERIORITY|||||||0.4712|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 4: Day 1||||0.4712
92438401|NCT03060447|184761566|SUPERIORITY|||||||0.6889|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 4: Day 2||||0.6889
92438402|NCT03060447|184761566|SUPERIORITY|||||||0.1437|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 4: Day 4||||0.1437
92438403|NCT03060447|184761566|SUPERIORITY|||||||0.7491|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 6: Day 1||||0.7491
92438404|NCT03060447|184761566|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 6: Day 4||||0.0700
92438405|NCT03060447|184761566|SUPERIORITY|||||||0.7656|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 10: Day 1||||0.7656
92171217|NCT02638337|184231594|SUPERIORITY||LS Mean Difference|-0.8||||0.0002|TWO_SIDED|95.0|-1.3|-0.4|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 4||-0.4|-1.3|0.0002
92171218|NCT02638337|184231594|SUPERIORITY||LS Mean Difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.6|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 8||-0.6|-1.5|<0.0001
92438406|NCT03060447|184761566|SUPERIORITY|||||||0.1752|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 10: Day 2||||0.1752
92438407|NCT03060447|184761566|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 10: Day 4||||0.0700
92438408|NCT03060447|184761566|SUPERIORITY|CD69+CD56brCD16dim, Dose 10: Day 14||||||0.2246|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||||||0.2246
92438409|NCT00546637|184761605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.1959||95.0|-0.9|0.2||P-value was based on an ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (Net) = Least squares mean|The null hypothesis was that the mean change from Baseline in 24-hour micturition-related urgency was the same at Week 12 for the two treatment groups: fesoterodine + alpha-blocker vs. placebo + alpha-blocker. It was estimated that 900 randomized subjects would have 85% power to detect a mean difference of -0.93(SD = 4.15) between the 2 treatments on the primary endpoint,mean reduction of micturition-related urgency episodes/24hr from Baseline to Week 12,assuming a 10% non-evaluability rate.||0.2|-0.9|0.1959
92438410|NCT00546637|184761606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0621||95.0|-1.0|0.0||P-value was based on an ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|||0.0|-1.0|0.0621
92438411|NCT00546637|184761608|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0056||95.0|-0.8|-0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||-0.1|-0.8|0.0056
92438412|NCT00546637|184761608|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.009||95.0|-0.7|-0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||-0.1|-0.7|0.0090
92438413|NCT00546637|184761609|SUPERIORITY_OR_OTHER|||||||0.0012||95.0||||P-value was based on a ranked ANCOVA model with terms for country, treatment, and ranked baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|Ranked ANCOVA|Treatment comparisons were performed only if the corresponding numerical change from Baseline at the same visit was statistically significant.||Week 4||||0.0012
92438414|NCT00546637|184761609|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||P-value was based on a ranked ANCOVA model with terms for country, treatment, and ranked baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|Ranked ANCOVA|Treatment comparisons were performed only if the corresponding numerical change from Baseline at the same visit was statistically significant.||Week 12||||0.0027
92438415|NCT00546637|184761610|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1112||95.0|-0.2|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||0.0|-0.2|0.1112
92438416|NCT00546637|184761610|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.0855||95.0|-0.3|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.0|-0.3|0.0855
92446750|NCT01147653|184780512|SUPERIORITY|||||||0.121|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month 2 Emotional Well Being and Self Esteem change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.121
92438417|NCT00546637|184761612|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.3847||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was estimated using Hodges-Lehmann estimate of the location shift between the two groups.|Week 4||||0.3847
92438418|NCT00546637|184761612|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.4449||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was estimated using Hodges-Lehmann estimate of the location shift between the two groups.|Week 12||||0.4449
92438419|NCT00546637|184761614|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.33||||0.0062||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|Week 4||||0.0062
92438420|NCT00546637|184761614|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.0825||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|Week 12||||0.0825
92438421|NCT00546637|184761615|SUPERIORITY_OR_OTHER|||||||0.0025||95.0||||P-value for median was based on a ranked ANCOVA model with terms for country, treatment, and ranked baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|Ranked ANCOVA|Treatment comparisons were performed only if the corresponding numerical change from Baseline at the same visit was statistically significant.||Week 4||||0.0025
92438422|NCT00546637|184761616|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1748||95.0|-0.3|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||0.0|-0.3|0.1748
92438423|NCT00546637|184761616|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.6572||95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.2|-0.1|0.6572
92438424|NCT00546637|184761618|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|0.6||0.0051||95.0|-2.9|-0.5||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||-0.5|-2.9|0.0051
92438425|NCT00546637|184761618|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|0.7||0.1231||95.0|-2.3|0.3||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.3|-2.3|0.1231
92438426|NCT00546637|184761619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.4||0.3579||95.0|-1.0|0.4||P-value was based on an ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||0.4|-1.0|0.3579
92438427|NCT00546637|184761619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.9274||95.0|-0.8|0.7||P-value was based on an ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.7|-0.8|0.9274
92438428|NCT00546637|184761620|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0223||95.0|-0.7|-0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||-0.1|-0.7|0.0223
92438429|NCT00546637|184761620|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1744||95.0|-0.6|0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.1|-0.6|0.1744
92438430|NCT00546637|184761621|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.7564||95.0|-0.4|0.5||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||0.5|-0.4|0.7564
92438431|NCT00546637|184761621|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.401||95.0|-0.3|0.7||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.7|-0.3|0.4010
92279981|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.057||||0.7067|TWO_SIDED|95.0|-0.355|0.241||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.241|-0.355|0.7067
92279982|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.317||||0.0386|TWO_SIDED|95.0|-0.616|-0.017||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.017|-0.616|0.0386
92279983|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|0.042||||0.7804|TWO_SIDED|95.0|-0.253|0.336||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.336|-0.253|0.7804
92279984|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.125||||0.4064|TWO_SIDED|95.0|-0.422|0.171||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.171|-0.422|0.4064
92279985|NCT02637557|184463080|SUPERIORITY||LS Mean Difference|-0.333||||0.0289|TWO_SIDED|95.0|-0.632|-0.035||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.035|-0.632|0.0289
92279986|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|0.037||||0.7207|TWO_SIDED|95.0|-0.167|0.241||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.241|-0.167|0.7207
92438432|NCT00546637|184761622|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1472||95.0|-0.2|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||0.0|-0.2|0.1472
92438433|NCT00546637|184761622|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.5839||95.0|-0.2|0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.1|-0.2|0.5839
92438434|NCT00546637|184761623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.6621||95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q1||0.2|-0.1|0.6621
92438435|NCT00546637|184761623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.5|-0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q2||-0.2|-0.5|<.0001
92438436|NCT00546637|184761623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3242||95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q3||0.2|-0.1|0.3242
92438437|NCT00546637|184761623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1604||95.0|-0.3|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q4||0.0|-0.3|0.1604
92438438|NCT00546637|184761623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4102||95.0|-0.2|0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q5||0.1|-0.2|0.4102
92438439|NCT00546637|184761623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3079||95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q6||0.2|-0.1|0.3079
92438440|NCT00546637|184761623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4066|TWO_SIDED|95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q7||0.2|-0.1|0.4066
92438441|NCT00546637|184761624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1595||95.0|0.0|0.3||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q1||0.3|-0.0|0.1595
92438442|NCT00546637|184761624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0614||95.0|-0.3|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q2||0.0|-0.3|0.0614
92438443|NCT00546637|184761624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2032||95.0|-0.1|0.3||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q3||0.3|-0.1|0.2032
92438444|NCT00546637|184761624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0631||95.0|-0.3|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q4||0.0|-0.3|0.0631
92279987|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.071||||0.4946|TWO_SIDED|95.0|-0.275|0.133||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.133|-0.275|0.4946
92438445|NCT00546637|184761624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.9706||95.0|-0.2|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q5||0.2|-0.2|0.9706
92438446|NCT00546637|184761624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8058||95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q6||0.2|-0.1|0.8058
92438447|NCT00546637|184761624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3302|TWO_SIDED|95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q7||0.2|-0.1|0.3302
92438448|NCT00546637|184761625|SUPERIORITY_OR_OTHER|||||||0.1136||95.0||||P-value was obtained from a Cochran-Mantel-Haenszel test with modified ridit scoring, stratified by center. No adjustment of p-value was made for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.1136
92438449|NCT00546637|184761626|SUPERIORITY_OR_OTHER|||||||0.5775||95.0||||P-value was obtained from a Cochran-Mantel-Haenszel test with modified ridit scoring, stratified by center. No adjustment of p-value was made for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.5775
92171219|NCT02638337|184231594|SUPERIORITY||LS Mean Difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.7|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 12||-0.7|-1.6|<0.0001
92171220|NCT02638337|184231595|SUPERIORITY||LS Mean Difference|-1.0||||0.0118|TWO_SIDED|95.0|-1.8|-0.2|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-0.2|-1.8|0.0118
92171221|NCT02638337|184231596|SUPERIORITY||LS Mean Difference|0.02||||0.9748|TWO_SIDED|95.0|-1.17|1.2|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 4||1.20|-1.17|0.9748
92171222|NCT02638337|184231596|SUPERIORITY||LS Mean Difference|0.19||||0.7865|TWO_SIDED|95.0|-1.18|1.56|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 8||1.56|-1.18|0.7865
92438450|NCT00546637|184761627|SUPERIORITY_OR_OTHER|||||||0.7433||95.0||||P-value was obtained from a Cochran-Mantel-Haenszel test with modified ridit scoring, stratified by center. No adjustment of p-value was made for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.7433
92438451|NCT00546637|184761628|SUPERIORITY_OR_OTHER|||||||0.9402||95.0||||P-value was obtained from a Cochran-Mantel-Haenszel test with modified ridit scoring, stratified by center. No adjustment of p-value was made for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.9402
92438452|NCT00546637|184761629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|0.9||0.004||95.0|-4.5|-0.9||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||-0.9|-4.5|0.0040
92438453|NCT00546637|184761629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.8|STANDARD_ERROR_OF_MEAN|1.0||0.0068||95.0|-4.8|-0.8||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||-0.8|-4.8|0.0068
92438454|NCT00546637|184761630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|0.9||0.0412||95.0|0.1|3.6||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net)= Least squares mean|Week 4||3.6|0.1|0.0412
92438455|NCT00546637|184761630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|STANDARD_ERROR_OF_MEAN|1.0||0.1373||95.0|-0.5|3.4||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net)= Least squares mean|Week 12||3.4|-0.5|0.1373
92438456|NCT00546637|184761631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|1.0||0.0941||95.0|-0.3|3.8||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net) = Least squares mean|Week 4||3.8|-0.3|0.0941
92438457|NCT00546637|184761631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|1.1||0.2273||95.0|-0.8|3.4||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net) = Least squares mean|Week 12||3.4|-0.8|0.2273
92438458|NCT00546637|184761632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.1|STANDARD_ERROR_OF_MEAN|1.1||0.0507||95.0|0.0|4.3||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net)= Least squares mean|Week 4||4.3|-0.0|0.0507
92438459|NCT00546637|184761632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|1.2||0.1136||95.0|-0.4|4.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net)= Least squares mean|Week 12||4.1|-0.4|0.1136
92438460|NCT00546637|184761633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|1.1||0.0845||95.0|-0.3|4.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net)= Least squares mean|Week 4||4.1|-0.3|0.0845
92438461|NCT00546637|184761633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|1.2||0.0662||95.0|-0.2|4.6||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net) = Least squares mean|Week 12||4.6|-0.2|0.0662
92438462|NCT00546637|184761634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|0.9||0.1085||95.0|-0.3|3.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net) = Least squares mean|Week 4||3.2|-0.3|0.1085
92171223|NCT02638337|184231596|SUPERIORITY||LS Mean Difference|1.59||||0.0392|TWO_SIDED|95.0|0.08|3.09|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 12||3.09|0.08|0.0392
92171224|NCT02638337|184231597|SUPERIORITY||LS Mean Difference|0.16||||0.0752|TWO_SIDED|95.0|-0.02|0.34|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Desire||0.34|-0.02|0.0752
92171225|NCT02638337|184231597|SUPERIORITY||LS Mean Difference|0.2||||0.1867|TWO_SIDED|95.0|-0.1|0.49|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Arousal||0.49|-0.10|0.1867
92171226|NCT02638337|184231597|SUPERIORITY||LS Mean Difference|0.4||||0.0161|TWO_SIDED|95.0|0.07|0.73|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Lubrication||0.73|0.07|0.0161
92438463|NCT00546637|184761634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.9||0.7685||95.0|-1.6|2.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net) = Least squares mean|Week 12||2.1|-1.6|0.7685
92438464|NCT00546637|184761635|SUPERIORITY_OR_OTHER||Median Difference (Net)|6.0||||0.0005||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|Week 4||||0.0005
92438465|NCT00546637|184761635|SUPERIORITY_OR_OTHER||Median Difference (Net)|7.0|||<|0.0001||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|Week 8||||<.0001
92438466|NCT00546637|184761635|SUPERIORITY_OR_OTHER||Median Difference (Net)|9.0||||0.0003||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|Week 12||||0.0003
92438467|NCT00546637|184761636|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.4||||0.2251||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|||||0.2251
92438468|NCT00587483|184761639|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.427|TWO_SIDED|95.0|0.48|1.37||An alpha of 0.0167 was used to account for multiple comparisons among the 3 groups. Given the total of 3 comparisons, 0.05/3 = 0.0167 was used in the calculation.|Regression, Logistic|||The expected overall incidence of ventricular fibrillation after removal of the aortic clamp is at least 70%. Using a chi square analysis with 80% power and an alpha of 0.0167, we estimate that we will need 113 patients in each group to show a 30% reduction in the incidence of ventricular fibrillation with amiodarone.||1.37|0.48|0.427
92438469|NCT00587483|184761639|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.117|TWO_SIDED|95.0|0.39|1.11|||Regression, Logistic|||||1.11|0.39|0.117
92438470|NCT00587483|184761639|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.433|TWO_SIDED|95.0|0.47|1.37|||Regression, Logistic|||||1.37|0.47|0.433
92438471|NCT00587483|184761640|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.215|TWO_SIDED|95.0|0.45|1.19|||Regression, Logistic|||||1.19|0.45|0.215
92438472|NCT00587483|184761640|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.008|TWO_SIDED|95.0|0.32|0.84|||Regression, Logistic|||||0.84|0.32|0.008
92438473|NCT00587483|184761640|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.424|TWO_SIDED|95.0|0.52|1.33|||Regression, Logistic|||||1.33|0.52|0.424
92438474|NCT04984993|184761653|OTHER||||||<|0.001||||||Significance level of 0.025|t-test, 1 sided|||Null hypothesis: mu \<= 0 versus alternative hypothesis: mu \>0, where mu is the population mean change from baseline in the EF domain of the IIEF questionnaire at week 24.||||<0.001
92438475|NCT04984993|184761654|OTHER||||||<|0.001||||||Significance level of 0.025|t-test, 1 sided|||Null hypothesis: mu \<= 30 versus alternative hypothesis: mu \>30, where mu is the population mean percentage of MED3000 uses per patient that resulted in the patient noticing their erection starting within 15 minutes.||||<0.001
92438476|NCT04984993|184761654|OTHER||||||<|0.001||||||Significance level of 0.025|t-test, 1 sided|||Null hypothesis: mu \<= 30 versus alternative hypothesis: mu \>30, where mu is the population mean percentage of MED3000 uses per patient that resulted in the patient noticing their erection starting within 10 minutes.||||<0.001
92438477|NCT04984993|184761654|OTHER|||||||0.89||||||Significance level of 0.025|t-test, 1 sided|||Null hypothesis: mu \<= 30 versus alternative hypothesis: mu \>30, where mu is the population mean percentage of MED3000 uses per patient that resulted in the patient noticing their erection starting within 5 minutes.||||0.890
92438478|NCT04984993|184761655|OTHER||||||<|0.001||||||Significance level of 0.025|t-test, 1 sided|||||||<0.001
92438479|NCT04984993|184761655|OTHER|||||||0.3327||||||Significance level of 0.025|t-test, 1 sided|||||||0.3327
92438480|NCT04984993|184761655|OTHER||||||>|0.999||||||Significance level of 0.025|t-test, 1 sided|||||||>0.999
92438481|NCT03108027|184761692|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|0.6096|||||TWO_SIDED|90.0|0.538|0.6811|||Mixed Models Analysis|||||0.6811|0.5380|
92438482|NCT03108027|184761692|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|0.6152|||||TWO_SIDED|90.0|0.5437|0.6868|||Mixed Models Analysis|||||0.6868|0.5437|
92438483|NCT03108027|184761692|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|-0.0057|||||TWO_SIDED|90.0|-0.076|0.0647|||Mixed Models Analysis|||||0.0647|-0.0760|
92438484|NCT03108027|184761693|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|0.6206|||||TWO_SIDED|90.0|0.5335|0.7077|||Mixed Models Analysis|||||0.7077|0.5335|
92438485|NCT03108027|184761693|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|0.7347|||||TWO_SIDED|90.0|0.6469|0.8225|||Mixed Models Analysis|||||0.8225|0.6469|
92438486|NCT03108027|184761693|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|-0.1141|||||TWO_SIDED|90.0|-0.197|-0.0311|||Mixed Models Analysis|||||-0.0311|-0.1970|
92438487|NCT03108027|184761694|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|72.1|||||TWO_SIDED|90.0|61.3|82.9|||Mixed Models Analysis|||Morning average PEF||82.9|61.3|
92438488|NCT03108027|184761694|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|86.9|||||TWO_SIDED|90.0|76.1|97.8|||Mixed Models Analysis|||Morning average PEF||97.8|76.1|
92438489|NCT03108027|184761694|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|-14.8|||||TWO_SIDED|90.0|-25.6|-4.1|||Mixed Models Analysis|||Morning average PEF||-4.1|-25.6|
92438490|NCT03108027|184761694|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|73.1|||||TWO_SIDED|90.0|61.9|84.2|||Mixed Models Analysis|||Evening average PEF||84.2|61.9|
92438491|NCT03108027|184761694|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|58.7||||||90.0|47.5|69.9|||Mixed Models Analysis|||Evening average PEF||69.9|47.5|
92279988|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.077||||0.4596|TWO_SIDED|95.0|-0.283|0.129||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.129|-0.283|0.4596
92438492|NCT03108027|184761694|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|14.4|||||TWO_SIDED|90.0|3.3|25.5|||Mixed Models Analysis|||Evening average PEF||25.5|3.3|
92438493|NCT00003901|184761737|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.59||||0.007|TWO_SIDED|95.0|1.13|2.23|||Regression, Cox|||||2.23|1.13|0.007
92438494|NCT00003901|184761738|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.03||||0.886|TWO_SIDED|95.0|0.69|1.54|||Regression, Cox|||||1.54|0.69|0.886
92438495|NCT00003901|184761739|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.63||||0.009|TWO_SIDED|95.0|1.13|2.36|||Regression, Cox|||||2.36|1.13|0.009
92438496|NCT00003901|184761740|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.78||||0.332|TWO_SIDED|95.0|0.48|1.28|||Regression, Cox|||||1.28|0.48|0.332
92438497|NCT00268996|184761756|SUPERIORITY_OR_OTHER||Adjusted percentage change|-11.717||||0.348|TWO_SIDED|95.0|-31.995|14.607|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|||14.607|-31.995|0.348
92438498|NCT00268996|184761757|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-0.082||||0.22|TWO_SIDED|95.0|-0.214|0.049|||ANCOVA||Difference in adjusted means is shown (Darapladib 160 mg EC tablet - Placebo).|||0.049|-0.214|0.220
92438499|NCT00268996|184761758|SUPERIORITY_OR_OTHER||Adjusted percentage change|3.977||||0.751|TWO_SIDED|95.0|-18.331|32.379|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|||32.379|-18.331|0.751
92438500|NCT00268996|184761759|SUPERIORITY_OR_OTHER||Adjusted percentage change|-60.737|||<|0.001|TWO_SIDED|95.0|-63.486|-57.78|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet at Week 26 (LOCF)||-57.780|-63.486|<0.001
92438501|NCT00268996|184761759|SUPERIORITY_OR_OTHER||Adjusted percentage change|-59.326|||<|0.001|TWO_SIDED|95.0|-62.21|-56.222|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet at Week 52 (LOCF)||-56.222|-62.210|<0.001
92438502|NCT00268996|184761760|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.253||||0.945|TWO_SIDED|95.0|-6.998|7.504|||ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet - Placebo).|||7.504|-6.998|0.945
92438503|NCT00268996|184761761|SUPERIORITY_OR_OTHER||Difference in adjusted means|-0.062||||0.898|TWO_SIDED|95.0|-1.009|0.886|||ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet - Placebo).|||0.886|-1.009|0.898
92438504|NCT00268996|184761762|SUPERIORITY_OR_OTHER||Difference in adjusted means|-5.165||||0.012|TWO_SIDED|95.0|-9.185|-1.145|||ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet - Placebo).|||-1.145|-9.185|0.012
92438505|NCT00268996|184761763|SUPERIORITY_OR_OTHER||Difference in adjusted means|-1.967||||0.047|TWO_SIDED|95.0|-3.912|-0.022|||ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet - Placebo).|||-0.022|-3.912|0.047
92171227|NCT02638337|184231597|SUPERIORITY||LS Mean Difference|0.16||||0.34|TWO_SIDED|95.0|-0.16|0.48|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Orgasm||0.48|-0.16|0.3400
92438506|NCT00268996|184761764|SUPERIORITY_OR_OTHER||Adjusted percentage change|6.958||||0.487|TWO_SIDED|95.0|-11.568|29.364|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|Week 26 (LOCF): Comparison between Placebo vs Darapladib 160 mg EC tablet||29.364|-11.568|0.487
92438507|NCT00268996|184761764|SUPERIORITY_OR_OTHER||Adjusted percentage change|12.255||||0.247|TWO_SIDED|95.0|-7.725|36.562|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|Week 52 (LOCF): Comparison between Placebo Vs Darapladib 160 mg EC tablet||36.562|-7.725|0.247
92438508|NCT00268996|184761765|SUPERIORITY_OR_OTHER||Adjusted percentage change|-1.112||||0.687|TWO_SIDED|95.0|-6.363|4.433|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 26 (LOCF)||4.433|-6.363|0.687
92438509|NCT00268996|184761765|SUPERIORITY_OR_OTHER||Adjusted percentage change|-3.237||||0.29|TWO_SIDED|95.0|-8.976|2.865|||ANOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|||2.865|-8.976|0.290
92438510|NCT00268996|184761766|SUPERIORITY_OR_OTHER||Adjusted percentage change|16.725||||0.022|TWO_SIDED|95.0|2.232|33.271|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 26 (LOCF)||33.271|2.232|0.022
92438511|NCT00268996|184761766|SUPERIORITY_OR_OTHER||Adjusted percentage change|9.256||||0.252|TWO_SIDED|95.0|-6.136|27.172|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 52 (LOCF)||27.172|-6.136|0.252
92438512|NCT00268996|184761767|SUPERIORITY_OR_OTHER||Adjusted percentage change|15.449||||0.196|TWO_SIDED|95.0|-7.204|43.632|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 26||43.632|-7.204|0.196
92438513|NCT00268996|184761767|SUPERIORITY_OR_OTHER||Adjusted percentage change|38.567||||0.024|TWO_SIDED|95.0|4.355|83.997|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 52||83.997|4.355|0.024
92438514|NCT00268996|184761768|SUPERIORITY_OR_OTHER||Adjusted percentage change|-2.098||||0.79|TWO_SIDED|95.0|-16.303|14.517|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 26 (LOCF)||14.517|-16.303|0.790
92438515|NCT00268996|184761768|SUPERIORITY_OR_OTHER||Adjusted percentage change|1.986||||0.818|TWO_SIDED|95.0|-13.807|20.673|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 52 (LOCF)||20.673|-13.807|0.818
92438516|NCT00268996|184761769|SUPERIORITY_OR_OTHER||Adjusted percentage change|-0.252||||0.98|TWO_SIDED|95.0|-18.151|21.561|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 26 (LOCF)||21.561|-18.151|0.980
92171228|NCT02638337|184231597|SUPERIORITY||LS Mean Difference|0.16||||0.2195|TWO_SIDED|95.0|-0.1|0.41|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Satisfaction||0.41|-0.10|0.2195
92171229|NCT02638337|184231597|SUPERIORITY||LS Mean Difference|0.45||||0.0103|TWO_SIDED|95.0|0.11|0.8|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Pain||0.80|0.11|0.0103
92438517|NCT00268996|184761769|SUPERIORITY_OR_OTHER||Adjusted percentage change|-8.585||||0.663|TWO_SIDED|95.0|-39.007|37.012|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 52 (LOCF)||37.012|-39.007|0.663
92438518|NCT00268996|184761771|SUPERIORITY_OR_OTHER||Adjusted treatment Difference|1.758||||0.811|TWO_SIDED|95.0|-12.675|16.192|||ANCOVA||Difference in adjusted means are shown (Darapladib 160mg EC tablet once daily - Placebo).|For vessel volume||16.192|-12.675|0.811
92279989|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|0.067||||0.5987|TWO_SIDED|95.0|-0.182|0.315||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.315|-0.182|0.5987
92438519|NCT00268996|184761771|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|2.627||||0.708|TWO_SIDED|95.0|-11.171|16.425|||ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet once daily - Placebo).|For lumen volume||16.425|-11.171|0.708
92438520|NCT00268996|184761772|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-0.012||||0.873|TWO_SIDED|95.0|-0.16|0.136||Data analyzed using ANCOVA, with ACS status, pooled country, baseline value , matched segment length and treatment included as covariates.|ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Mean vessel area||0.136|-0.160|0.873
92438521|NCT00268996|184761772|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.048||||0.756|TWO_SIDED|95.0|-0.258|0.354|||ANCOVA|Data analyzed using ANCOVA, with ACS status, pooled country, baseline value , matched segment length and treatment included as covariates.|Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Mean vessel area||0.354|-0.258|0.756
92438522|NCT00268996|184761772|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.061||||0.687|TWO_SIDED|95.0|-0.237|0.36|||ANCOVA|Data analyzed using ANCOVA, with ACS status, pooled country, baseline value , matched segment length and treatment included as covariates.|Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Mean lumen area||0.360|-0.237|0.687
92438523|NCT00268996|184761773|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-0.584||||0.854|TWO_SIDED|95.0|-6.819|5.65|||ANCOVA|Data analyzed using ANCOVA, with ACS status, pooled country, baseline value, matched segment length and treatment included as covariates.|Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Fibrous tissue volume||5.650|-6.819|0.854
92438524|NCT00268996|184761773|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|1.926||||0.418|TWO_SIDED|95.0|-2.748|6.6||Data analyzed using ANCOVA, with ACS status, pooled country, baseline value, matched segment length and treatment included as covariates.|ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Fibro-fatty volume||6.600|-2.748|0.418
92438525|NCT00268996|184761774|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|2.0||||0.021|TWO_SIDED|95.0|0.299|3.701|||ANOVA|Data analyzed using ANCOVA, with ACS status, pooled country, baseline value, matched segment length and treatment included as covariates.|Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Fibrous tissue as % of VH plaque||3.701|0.299|0.021
92438526|NCT00268996|184761774|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.739||||0.54|TWO_SIDED|95.0|-1.635|3.114|||ANCOVA|Data analyzed using ANCOVA, with ACS status, pooled country, baseline value, matched segment length and treatment included as covariates.|Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Fibro-fatty as percentage of VH plaque||3.114|-1.635|0.540
92438527|NCT00862745|184761797|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No adjustment for multiple comparisons, threshold for significance is P \< .05|ANCOVA|Mean difference=Drug A minus Drug B||Null hypothesis: fesoterodine treatment is not associated with greater reduction in urgency incontinence frequency compared to placebo in women diagnosed using the 3IQ||||<0.001
92438528|NCT01414075|184761805|OTHER|||||||0.0757||||||Threshold for significance at 0.05 level.|ANCOVA|||Analysis of covariance (ANCOVA) model with treatment as a factor, baseline Hb and iron repletion status as covariates was used to compare treatments.||||0.0757
92438529|NCT01414075|184761805|OTHER|||||||0.063||||||Threshold for significance at 0.05 level.|ANCOVA|||ANCOVA model with treatment as a factor, baseline Hb and iron repletion status as covariates was used to compare treatments.||||0.0630
92438530|NCT01414075|184761805|OTHER|||||||0.8653||||||Threshold for significance at 0.05 level.|ANCOVA|||ANCOVA model with treatment as a factor, baseline Hb and iron repletion status as covariates was used to compare treatments.||||0.8653
92171230|NCT02638337|184231598|SUPERIORITY||LS Mean Difference|0.1||||0.723|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 4||0.6|-0.4|0.7230
92438531|NCT01414075|184761805|OTHER|||||||0.8982||||||Threshold for significance at 0.05 level.|ANCOVA|||ANCOVA model with treatment as a factor, baseline Hb and iron repletion status as covariates was used to compare treatments.||||0.8982
92438532|NCT00867009|184761853|SUPERIORITY_OR_OTHER||Percentage of participants with response|38.5|||||TWO_SIDED|80.0|32.3|45.09||||||||45.09|32.30|
92438533|NCT00867009|184761854|SUPERIORITY_OR_OTHER||Median number of months|5.82|||||TWO_SIDED|80.0|4.4|6.7||||||||6.70|4.40|
92171231|NCT02638337|184231598|SUPERIORITY||LS Mean Difference|0.4||||0.1104|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 8||0.9|-0.1|0.1104
92171232|NCT02638337|184231598|SUPERIORITY||LS Mean Difference|0.3||||0.2448|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 12||0.9|-0.2|0.2448
92171233|NCT02638337|184231599|SUPERIORITY||LS Mean Difference|-4388.3||||0.4263|TWO_SIDED|95.0|-15214.8|6438.3|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||6438.3|-15214.8|0.4263
92438534|NCT00867009|184761855|SUPERIORITY_OR_OTHER||Percentage of participants with response|45.0|||||TWO_SIDED|80.0|39.0|51.0||||||||51|39|
92438535|NCT00867009|184761856|SUPERIORITY_OR_OTHER||Percentage of participants with response|59.6|||||TWO_SIDED|80.0|53.06|65.94||||||||65.94|53.06|
92446751|NCT01147653|184780512|SUPERIORITY|||||||0.647|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month 2 Family Health change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.647
92438536|NCT00147199|184761857|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate|20.0||||0.00044|TWO_SIDED|95.0|8.0|32.8|||ANCOVA|Lowest rank was assigned for death, discontinuation due to disease progression, and for patients who initiated additional approved PAH therapy.||Sample size was calculated based on the primary endpoint; change in 6MWD at Week 12. Assuming a between-treatment difference of 35m, a standard deviation of 75m, and a type I (alpha) error of 0.05 (i.e., two-sided p-value of less than 0.05), in order to have 90% power to detect this difference, 100 subjects per treatment group were required for this trial (total n=200). This allowed for a dropout rate of 10% as 110 subjects per group was planned.||32.8|8.0|0.00044
92438537|NCT00147199|184761859|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|0.0||||0.623|TWO_SIDED|95.0|-0.5|0.0|||Wilcoxon rank sum test|||||0.0|-0.5|0.623
92438538|NCT00147199|184761860|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|0.0||||0.807|TWO_SIDED|95.0|0.0|0.0||Imputation strategies were implemented for 16 inhaled treprostinil subjects and 9 placebo subjects without values reported at Week 12|Wilcoxon rank sum test|||||0.0|0.0|0.807
92438539|NCT00147199|184761861|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|13.7||||0.007|TWO_SIDED|95.0|4.0|24.8|||ANCOVA|||||24.8|4.0|0.007
92438540|NCT00147199|184761862|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|18.5||||0.0003|TWO_SIDED|95.0|8.5|28.3|||Wilcoxon rank sum test|||||28.3|8.5|0.0003
92438541|NCT00147199|184761863|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman Estimate|-4.0||||0.027|TWO_SIDED|95.0|-8.0|0.0|||Wilcoxon rank sum test|||Global Score||0|-8.0|0.027
92438542|NCT00147199|184761863|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman Estimate|-2.0||||0.037|TWO_SIDED|95.0|-3.0|0.0|||Wilcoxon rank sum test|||Physical Dimension||0.0|-3.0|0.037
92438543|NCT00147199|184761863|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman Estimate|-1.0||||0.173|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon rank sum test|||Emotional Dimension Score||0.0|-2.0|0.173
92438544|NCT00147199|184761865|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman Estimate|-167.0||||0.001|TWO_SIDED|95.0|-333.0|-64.0|||Wilcoxon rank sum test|||||-64|-333|0.001
92438545|NCT02560584|184761974|SUPERIORITY||||||<|0.0001|||||||Exact one-sided test for a single propor|||"The proportion of patients with malignancy detected only with BLC with Cysview was to be analyzed using an exact one-sided test for a single proportion based on the cumulative binomial distribution with a significance level of 2.5%.~Null hypothesis: Malignancy is detected with BL only in 0.5% or less of the patients"||||<0.0001
92438546|NCT02560584|184761976|SUPERIORITY||||||<|0.0001|||||||Exact one-sided test for single proporti|||"The proportion of patients with one or more CIS lesions detected with BL and none with WL was to be evaluated using an exact binomial test for single proportion with a significance level of 2.5% (one-sided).~Null hypothesis: One or more CIS lesions are detected with BLC with Cysview and none with WL in less than or equal to 0.1% of the patients."||||<0.0001
92438547|NCT02865187|184761990|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|7.0||0.71|TWO_SIDED|95.0|-7.4|5.1||a priori threshold for significance was set at p\<0.05|t-test, 2 sided|||||5.1|-7.4|0.71
92438548|NCT02865187|184761991|SUPERIORITY||Chi square|0.0||||1|TWO_SIDED|||||a priori threshold for significance was set at p\< 0.05.|Chi-squared|||||||1.00
92438549|NCT04249310|184762038|OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.32|2.46|||||\[(Tiotropium/Olodaterol) / Tiotropium\] Cox-regression was used to estimate the hazard ratios and 95% confidence intervals.|||2.46|0.32|
92438550|NCT04249310|184762039|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.63|1.15|||||\[(Tiotropium/Olodaterol) / Tiotropium\] Cox regression was used to estimate the hazard ratios and 95% confidence intervals.|Moderate or Severe COPD Exacerbation||1.15|0.63|
92438551|NCT04249310|184762039|OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.43|1.01|||||\[(Tiotropium/Olodaterol) / Tiotropium\] Cox regression was used to estimate the hazard ratios and 95% confidence intervals.|Moderate COPD Exacerbation||1.01|0.43|
92438552|NCT04249310|184762039|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.62|1.31|||||\[(Tiotropium/Olodaterol) / Tiotropium\] Cox regression was used to estimate the hazard ratios and 95% confidence intervals.|Severe COPD Exacerbation||1.31|0.62|
92438553|NCT01119131|184762069|SUPERIORITY_OR_OTHER|||||||0.699|TWO_SIDED||||||ANOVA|||||||0.699
92438554|NCT01119131|184762070|SUPERIORITY_OR_OTHER|||||||0.308|TWO_SIDED||||||ANOVA|||||||0.308
92438555|NCT01119131|184762071|SUPERIORITY_OR_OTHER|||||||0.419|TWO_SIDED||||||ANOVA|||||||0.419
92438556|NCT01119131|184762072|SUPERIORITY_OR_OTHER|||||||0.253|TWO_SIDED||||||ANOVA|||||||0.253
92171234|NCT02638337|184231600|SUPERIORITY||LS Mean Difference|-0.049|||<|0.0001|TWO_SIDED|95.0|-0.071|-0.027|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-0.027|-0.071|<0.0001
92438557|NCT01119131|184762073|SUPERIORITY_OR_OTHER|||||||0.793|TWO_SIDED||||||ANOVA|||||||0.793
92438558|NCT01119131|184762075|SUPERIORITY_OR_OTHER|||||||0.949|TWO_SIDED||||||ANOVA|||||||0.949
92438559|NCT01119131|184762076|SUPERIORITY_OR_OTHER|||||||0.957|TWO_SIDED||||||ANOVA|||||||0.957
92438560|NCT00923598|184762088|EQUIVALENCE|A method by Armitage et al was used, where by equivalence of treatments would be concluded if the 95% CI for the difference fell within the prespecified tolerated interval. Under these assumptions, a trial with 36 subjects (72 limbs) would correctly conclude there is no treatment difference with probability 80%, and incorrectly conclude equivalence when there is a difference of 20% with probability 5%.|Mean Difference (Final Values)|3.0||||0.05|TWO_SIDED|95.0|-10.0|17.0|||Fisher Exact|||||17|-10|0.05
92438561|NCT00467259|184762108|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|p-value obtained from Fisher's exact test and corresponds to the test of the null hypothesis of no treatment difference.||1000 naturally postmenopausal women not on concomitant E+P therapy at baseline were to be randomized (800 TTS; 200 placebo). It was assumed 60% would complete 1 year and 80% of these would have evaluable biopsies. Of the 800 randomized to TTS approximately 380 were expected to have evaluable biopsies at 1 year. 380 patients on TTS with evaluable biopsies at 1 year would provide 90% power to rule out an incidence of hyperplasia of 2% using the upper bound of a 2-sided 95% CI.||||1.0000
92438562|NCT00467259|184762109|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|p-value obtained from Fisher's exact test and corresponds to the test of the null hypothesis of no treatment difference.||1000 naturally postmenopausal women not on concomitant E+P therapy at baseline were to be randomized (800 TTS; 200 placebo). It was assumed 60% would complete 1 year and 80% of these would have evaluable biopsies. Of the 800 randomized to TTS approximately 380 were expected to have evaluable biopsies at 1 year. 380 patients on TTS with evaluable biopsies at 1 year would provide 90% power to rule out an incidence of hyperplasia of 2% using the upper bound of a 2-sided 95% CI.||||1.0000
92438563|NCT00467259|184762110|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|p-value obtained from Fisher's Exact test and corresponds to the test of the null hypothesis of no treatment difference.||1000 naturally postmenopausal women not on concomitant E+P therapy at baseline were to be randomized (800 TTS; 200 placebo). It was assumed 60% would complete 1 year and 80% of these would have evaluable biopsies. Of the 800 randomized to TTS approximately 380 were expected to have evaluable biopsies at 1 year. 380 patients on TTS with evaluable biopsies at 1 year would provide 90% power to rule out an incidence of hyperplasia of 2% using the upper bound of a 2-sided 95% CI.||||1.0000
92438564|NCT00459667|184762121|SUPERIORITY_OR_OTHER||Number of patients w/ Flu-Like-Syndrome|17.4||||||95.0|14.4|20.7||||||The 95% Confidence Interval was calculated for number of patients w/ Flu-Like-Syndrome||20.7|14.4|
92438565|NCT00459667|184762121|SUPERIORITY_OR_OTHER||Number of patients w/ Flu-Like-Syndrome|15.8||||||95.0|13.1|18.9||||||The 95% Confidence Interval was calculated for number of patients w/ Flu-Like-Syndrome||18.9|13.1|
92438566|NCT00459667|184762121|SUPERIORITY_OR_OTHER||Number of patients w/ Flu-Like-Syndrome|31.1||||||95.0|24.4|38.4||||||The 95% Confidence Interval was calculated for number of patients w/ Flu-Like-Syndrome||38.4|24.4|
92438567|NCT00459667|184762122|SUPERIORITY_OR_OTHER||number of patients w/ IS reactions.|31.7||||||95.0|28.0|35.7||||||The 95% Confidence Interval was calculated for number of patients w/ Injection-site (IS) reactions.||35.7|28.0|
92438568|NCT00459667|184762122|SUPERIORITY_OR_OTHER||number of patients w/ IS reactions.|26.2||||||95.0|22.8|29.8||||||The 95% Confidence Interval was calculated for number of patients w/ Injection-site (IS) reactions.||29.8|22.8|
92438569|NCT00459667|184762122|SUPERIORITY_OR_OTHER||number of patients w/ IS reactions.|31.7||||||95.0|24.9|39.0||||||The 95% Confidence Interval was calculated for number of patients w/ Injection-site (IS) reactions.||39.0|24.9|
92438570|NCT00556712|184762132|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.62|0.82|||Log Rank|||||0.82|0.62|<0.0001
92438571|NCT00556712|184762136|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0097|TWO_SIDED|95.0|0.72|0.96|||Log Rank|||||0.96|0.72|0.0097
92438572|NCT00556712|184762139|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.005|TWO_SIDED|95.0|0.66|0.93|||Log Rank|||||0.93|0.66|0.0050
92438573|NCT00556712|184762142|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.1768|TWO_SIDED|95.0|0.51|1.14|||Log Rank|||||1.14|0.51|0.1768
92438574|NCT00556712|184762145|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.4797|TWO_SIDED|95.0|0.49|1.4|||Log Rank|||||1.40|0.49|0.4797
92438575|NCT00556712|184762147|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||<|0.0001|TWO_SIDED|95.0|0.61|0.82|||Log Rank|||||0.82|0.61|<0.0001
92438576|NCT00556712|184762149|SUPERIORITY_OR_OTHER||Difference in Response Rates|6.53||||0.0006|TWO_SIDED|95.0|2.7|10.3|||Chi-squared||The approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|||10.3|2.7|0.0006
92438577|NCT00556712|184762151|SUPERIORITY_OR_OTHER||Difference in Response Upgrade Rates|4.2||||0.0007|TWO_SIDED|95.0|1.6|6.7|||Chi-squared||The approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|||6.7|1.6|0.0007
92438578|NCT00556712|184762153|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|9.8||||0.0035|TWO_SIDED|95.0|3.1|16.4|||Chi-squared||Approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|Analysis included CR + PR + SD rate.||16.4|3.1|0.0035
92171235|NCT02638337|184231601|SUPERIORITY||LS Mean Difference|-0.14||||0.5159|TWO_SIDED|95.0|-0.58|0.29|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||0.29|-0.58|0.5159
92438579|NCT00556712|184762153|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|13.4|||<|0.0001|TWO_SIDED|95.0|7.1|19.7|||Chi-squared||Approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|Analysis included CR + PR + SD \> 12 weeks rate.||19.7|7.1|<0.0001
92438580|NCT00556712|184762155|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.3787|TWO_SIDED|95.0|0.74|1.12|||Log Rank|||||1.12|0.74|0.3787
92438581|NCT00556712|184762157|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.58|0.82|||Log Rank|||||0.82|0.58|< 0.0001
92438582|NCT00556712|184762160|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.5385|TWO_SIDED|95.0|0.87|1.31|||Log Rank|||||1.31|0.87|0.5385
92438583|NCT00556712|184762163|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.653|TWO_SIDED|95.0|0.79|1.16|||Log Rank|||||1.16|0.79|0.6530
92438584|NCT01722071|184762180|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED|||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||A two-sided paired t-test was performed to determine whether oxytocin administration was associated with reward-related BOLD signal changes (within the Nucleus Accumbens \[Bilateral\]). For the group of 18 participants, BOLD signal activity was compared between oxytocin and placebo scanning days.||||0.890
92438585|NCT01722071|184762180|SUPERIORITY_OR_OTHER|||||||0.422|TWO_SIDED|||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||A two-sided paired t-test was performed to determine whether oxytocin administration was associated with reward-related BOLD signal changes (within the Nucleus Accumbens \[Bilateral\]). For the group of 8 participants, BOLD signal activity was compared between oxytocin and placebo scanning days.||||0.422
92438586|NCT01722071|184762180|SUPERIORITY_OR_OTHER|||||||0.814|TWO_SIDED|||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||A two-sided paired t-test was performed to determine whether oxytocin administration was associated with reward-related BOLD signal changes (within the Nucleus Accumbens \[Bilateral\]). For the group of 10 participants, BOLD signal activity was compared between oxytocin and placebo scanning days.||||0.814
92438587|NCT00818662|184762185|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.8||||0.476||95.0|-3.1|1.5|||ANCOVA||Results combined from 100 imputations from estimates \& standard errors from 100 ANCOVA results for fixed effect of treatment, E4 allele of apolipoprotein E carrier status, \& continuous covariates age at baseline, baseline ADAS-Cog \& education level|||1.5|-3.1|0.476
92438588|NCT00818662|184762185|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.7||||0.53||95.0|-1.6|3.0|||ANCOVA||Results combined from 100 imputations from estimates \& standard errors from 100 ANCOVA results for fixed effect of treatment, E4 allele of apolipoprotein E carrier status, \& continuous covariates age at baseline, baseline ADAS-Cog \& education level|||3.0|-1.6|0.530
92446752|NCT01147653|184780512|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Functioning change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.170
92438589|NCT00818662|184762186|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.4||||0.812||95.0|-2.9|3.7|||ANCOVA||Results combined from 100 imputations from estimates \& standard errors from 100 ANCOVA results for fixed effect of treatment, E4 allele of apolipoprotein E carrier status, \& continuous covariates age at baseline, baseline ADAS-Cog \& education level|||3.7|-2.9|0.812
92438590|NCT00818662|184762186|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.9||||0.602||95.0|-4.3|2.5|||ANCOVA||Results combined from 100 imputations from estimates \& standard errors from 100 ANCOVA results for fixed effect of treatment, E4 allele of apolipoprotein E carrier status, \& continuous covariates age at baseline, baseline ADAS-Cog \& education level|||2.5|-4.3|0.602
92438591|NCT00818662|184762187|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.7||||0.368||95.0|-2.3|0.8|||ANCOVA||Estimated within a ANCOVA model accounting for the fixed effect of treatment, E4 allele of apolipoprotein E carrier status, and for the continuous covariates age at baseline, baseline ADAS-Cog and education level (in years)|||0.8|-2.3|0.368
92438592|NCT00818662|184762187|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.8||||0.319||95.0|-0.8|2.4|||ANCOVA||Estimated within a ANCOVA model accounting for the fixed effect of treatment, E4 allele of apolipoprotein E carrier status, and for the continuous covariates age at baseline, baseline ADAS-Cog and education level (in years)|||2.4|-0.8|0.319
92438593|NCT00818662|184762188|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.3||||0.778||95.0|-1.8|2.4|||ANCOVA||Estimated within a ANCOVA model accounting for the fixed effect of treatment, E4 allele of apolipoprotein E carrier status, and for the continuous covariates age at baseline, baseline ADCS-ADL and education level (in years)|||2.4|-1.8|0.778
92438594|NCT00818662|184762188|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.2||||0.851||95.0|-2.3|1.9|||ANCOVA||Estimated within a ANCOVA model accounting for the fixed effect of treatment, E4 allele of apolipoprotein E carrier status, and for the continuous covariates age at baseline, baseline ADCS-ADL and education level (in years)|||1.9|-2.3|0.851
92438595|NCT00818662|184762189|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.1||||0.306||95.0|-0.1|0.3|||Mixed Models Analysis|||||0.3|-0.1|0.306
92438596|NCT00818662|184762189|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.3||||0.028||95.0|0.0|0.5|||Mixed Models Analysis|||||0.5|0.0|0.028
92438597|NCT00818662|184762190|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.1||||0.66||95.0|-0.3|0.2|||Mixed Models Analysis|||||0.2|-0.3|0.660
92438598|NCT00818662|184762190|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.0||||0.766||95.0|-0.2|0.3|||Mixed Models Analysis|||||0.3|-0.2|0.766
92438599|NCT00818662|184762191|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|1.9||||0.206||95.0|-1.0|4.8|||ANCOVA|||||4.8|-1.0|0.206
92438600|NCT00818662|184762191|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.4||||0.331||95.0|-4.3|1.5|||ANCOVA|||||1.5|-4.3|0.331
92438601|NCT00818662|184762192|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.7||||0.64||95.0|-2.1|3.4|||ANCOVA|||||3.4|-2.1|0.640
92438602|NCT00818662|184762192|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|2.5||||0.075||95.0|-0.3|5.3|||ANCOVA|||||5.3|-0.3|0.075
92438603|NCT00818662|184762193|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|1.1||||0.093||95.0|-0.2|2.3|||ANCOVA|||||2.3|-0.2|0.093
92438604|NCT00818662|184762193|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|1.1||||0.094||95.0|-0.2|2.3|||ANCOVA|||||2.3|-0.2|0.094
92438605|NCT00818662|184762194|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.1||||0.096||95.0|-2.3|0.2|||ANCOVA|||||0.2|-2.3|0.096
92438606|NCT00818662|184762194|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.0||||0.123||95.0|-2.2|0.3|||ANCOVA|||||0.3|-2.2|0.123
92438607|NCT00818662|184762195|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.4||||0.167||95.0|-0.2|1.0|||ANCOVA|||||1.0|-0.2|0.167
92171236|NCT02638337|184231602|SUPERIORITY||LS Mean Difference|-0.75||||0.0227|TWO_SIDED|95.0|-1.39|-0.1|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-0.10|-1.39|0.0227
92171237|NCT02638337|184231603|SUPERIORITY||LS Mean Difference|-0.22||||0.0003|TWO_SIDED|95.0|-0.34|-0.1|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-0.10|-0.34|0.0003
92279990|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.122||||0.3348|TWO_SIDED|95.0|-0.372|0.127||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.127|-0.372|0.3348
92438608|NCT00818662|184762195|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.0||||0.998||95.0|-0.6|0.6|||ANCOVA|||||0.6|-0.6|0.998
92438609|NCT00818662|184762196|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.4||||0.173||95.0|-0.2|0.9|||ANCOVA|||||0.9|-0.2|0.173
92438610|NCT00818662|184762196|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.1||||0.744||95.0|-0.4|0.6|||ANCOVA|||||0.6|-0.4|0.744
92438611|NCT00818662|184762197|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|1.5||||0.238||95.0|-1.0|4.0|||ANCOVA|||||4.0|-1.0|0.238
92438612|NCT00818662|184762197|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.1||||0.4||95.0|-3.6|1.4|||ANCOVA|||||1.4|-3.6|0.400
92438613|NCT00818662|184762198|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.6||||0.695||95.0|-3.6|2.4|||ANCOVA|||||2.4|-3.6|0.695
92438614|NCT00818662|184762198|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.3||||0.41||95.0|-4.5|1.9|||ANCOVA|||||1.9|-4.5|0.410
92438615|NCT00818662|184762199|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.0||||0.988||95.0|-1.5|1.5|||ANCOVA|||||1.5|-1.5|0.988
92438616|NCT00818662|184762199|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.4||||0.555||95.0|-1.0|1.9|||ANCOVA|||||1.9|-1.0|0.555
92438617|NCT00818662|184762200|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.5||||0.783||95.0|-12.2|9.2|||ANCOVA|||||9.2|-12.2|0.783
92438618|NCT00818662|184762200|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-2.1||||0.7||95.0|-13.1|8.8|||ANCOVA|||||8.8|-13.1|0.700
92438619|NCT00818662|184762201|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-15.2||||0.191||95.0|-38.0|7.7|||ANCOVA|||||7.7|-38.0|0.191
92438620|NCT00818662|184762201|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.6||||0.892||95.0|-25.4|22.1|||ANCOVA|||||22.1|-25.4|0.892
92171238|NCT02638337|184231604|SUPERIORITY||LS Mean Difference|-6.2|||<|0.0001|TWO_SIDED|95.0|-8.1|-4.3|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-4.3|-8.1|<0.0001
92438621|NCT00818662|184762202|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.1||||0.588||95.0|-0.4|0.2|||ANCOVA|||||0.2|-0.4|0.588
92438622|NCT00818662|184762202|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.2||||0.351||95.0|-0.5|0.2|||ANCOVA|||||0.2|-0.5|0.351
92438623|NCT01338493|184762212|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92438624|NCT01338493|184762213|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92438625|NCT01846611|184762214|SUPERIORITY||Hazard Ratio (HR)|0.925|||=|0.5236|TWO_SIDED|95.0|0.727|1.177|||Unstratified log rank test|||||1.177|0.727|= 0.5236
92438626|NCT01846611|184762215|SUPERIORITY||Hazard Ratio (HR)|0.935|||=|0.5174|TWO_SIDED|95.0|0.762|1.147|||Unstratified log rank test|||||1.147|0.762|= 0.5174
92438627|NCT01846611|184762216|SUPERIORITY||Odds Ratio (OR)|1.523|||=|0.0142|TWO_SIDED|95.0|1.075|2.158|||Fisher Exact|||||2.158|1.075|= 0.0142
92438628|NCT00775645|184762233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.17|TWO_SIDED|95.0|-2.2|0.4|||Regression, Linear|Linear regression model adjusted for baseline score, taxane regiment, and age.||||0.4|-2.2|0.17
92438629|NCT00775645|184762234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.92|TWO_SIDED|95.0|-3.0|2.7|||Regression, Linear|Linear regression model adjusted for baseline score, taxane regiment, and age.||||2.7|-3|0.92
92438630|NCT00775645|184762235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.2|TWO_SIDED|95.0|-0.7|3.3|||Regression, Linear|Linear regression model adjusted for baseline score, taxane regiment, and age.||||3.3|-0.7|0.20
92438631|NCT00775645|184762236|SUPERIORITY|||||||0.46|||||||Regression, Linear|Adjusted for randomization stratification factors.||||||0.46
92438632|NCT02671422|184762245|OTHER||1 year-survival rate|0.342|||||TWO_SIDED|95.0|0.0|0.894|||||Confidence interval is computed based on the LOGLOG method.|||0.894|0.000|
92438633|NCT03061331|184762252|SUPERIORITY||Least Squares Mean Difference|0.1||||0.9277|TWO_SIDED|95.0|-2.5|2.7|||Mixed Model Repeated Measure (MMRM)|||||2.7|-2.5|0.9277
92438634|NCT02625259|184762253|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.36|||||TWO_SIDED|90.0|1.0|1.83||||||Analysis of variance was performed for calculating 90 percent (%) confidence intervals (CIs) for the ratios of log-transformed geometric mean Cmax of TAK-117 tablet versus capsule dosage form.||1.83|1.00|
92438635|NCT02625259|184762253|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.2|||||TWO_SIDED|90.0|0.86|1.67||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean Cmax of TAK-117 tablet dosage form with food versus without food.||1.67|0.86|
92438636|NCT02625259|184762253|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.03|||||TWO_SIDED|90.0|0.02|0.07||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean Cmax of TAK-117 tablet dosage form with lansoprazole versus a single dose of TAK-117 alone.||0.07|0.02|
92438637|NCT02625259|184762255|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.47|||||TWO_SIDED|90.0|0.98|2.18||||||Analysis of variance was performed for calculating 90 % CIs for the ratios of log-transformed geometric mean AUClast of TAK-117 tablet versus capsule dosage form.||2.18|0.98|
92438638|NCT02625259|184762255|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.76|||||TWO_SIDED|90.0|1.11|2.78||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean AUClast of TAK-117 tablet dosage form with food versus without food.||2.78|1.11|
92438639|NCT02625259|184762255|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.02|||||TWO_SIDED|90.0|0.01|0.04||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean AUClast of TAK-117 tablet dosage form with lansoprazole versus a single dose of TAK-117 alone.||0.04|0.01|
92438640|NCT02625259|184762256|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.53|||||TWO_SIDED|90.0|0.93|2.51||||||Analysis of variance was performed for calculating 90 % CIs for the ratios of log-transformed geometric mean AUC∞ of TAK-117 tablet versus capsule dosage form.||2.51|0.93|
92438641|NCT02625259|184762256|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.5|||||TWO_SIDED|90.0|1.0|2.25||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean AUC∞ of TAK-117 tablet dosage form with food versus without food.||2.25|1.00|
92438642|NCT02625259|184762256|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.08|||||TWO_SIDED|90.0|0.03|0.18||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean AUC∞ of TAK-117 tablet dosage form with lansoprazole versus a single dose of TAK-117 alone.||0.18|0.03|
92438643|NCT00513474|184762258|SUPERIORITY|||||||0.036|||||||Gray's test for competing risks|||||||.036
92171239|NCT02638337|184231605|SUPERIORITY||LS Mean Difference|-1.35||||0.0084|TWO_SIDED|95.0|-2.35|-0.35|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-0.35|-2.35|0.0084
92171240|NCT02638337|184231606|SUPERIORITY||LS Mean Difference|-2.06|||<|0.0001|TWO_SIDED|95.0|-2.92|-1.19|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-1.19|-2.92|<0.0001
92171241|NCT02638337|184231607|SUPERIORITY||LS Mean Difference|-5.26|||<|0.0001|TWO_SIDED|95.0|-7.64|-2.89|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-2.89|-7.64|<0.0001
92438644|NCT04772755|184762262|SUPERIORITY|||||||0.0249|||||||Chi-squared|||||||0.0249
92438645|NCT04772755|184762263|SUPERIORITY|||||||0.8918|||||||Mantel Haenszel|||||||0.8918
92438646|NCT04772755|184762264|SUPERIORITY|||||||0.6587|||||||Wilcoxon (Mann-Whitney)|||||||0.6587
92438647|NCT04772755|184762265|SUPERIORITY|||||||0.0059|||||||Wilcoxon (Mann-Whitney)|||||||0.0059
92438648|NCT04772755|184762266|SUPERIORITY|||||||0.1647|||||||Chi-squared|||||||0.1647
92438649|NCT04772755|184762267|SUPERIORITY|||||||0.009|||||||Chi-squared|||||||0.0090
92438650|NCT04772755|184762268|SUPERIORITY|||||||0.0273|||||||Wilcoxon (Mann-Whitney)|||||||0.0273
92438651|NCT04772755|184762269|SUPERIORITY|||||||0.0458|||||||Chi-squared|||||||0.0458
92438652|NCT04772755|184762270|SUPERIORITY|||||||0.0976|||||||Chi-squared|||||||0.0976
92438653|NCT03761147|184762295|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92446753|NCT01147653|184780512|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Pain and Impact of Disability change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.410
92438654|NCT05838742|184762322|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Difference in Posterior Mean Change|0.47|||||TWO_SIDED|95.0|-0.23|1.17|||Mixed Models Analysis|Analyzed using a joint model for change from baseline in average weekly pain score and time to intercurrent event handled using a composite strategy.|||Posterior mean difference with 95% credible interval is reported.|1.17|-0.23|
92438655|NCT05838742|184762322|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Difference in Posterior Mean Change|0.25|||||TWO_SIDED|95.0|-0.46|0.95|||Mixed Models Analysis|Analyzed using a joint model for change from baseline in average weekly pain score and time to intercurrent event handled using a composite strategy.|||Posterior mean difference with 95% credible interval is reported.|0.95|-0.46|
92438656|NCT05838742|184762322|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Difference in Posterior Mean Change|0.39|||||TWO_SIDED|95.0|-0.31|1.1|||Mixed Models Analysis|Analyzed using a joint model for change from baseline in average weekly pain score and time to intercurrent event handled using a composite strategy.|||Posterior mean difference with 95% credible interval is reported.|1.10|-0.31|
92438657|NCT05838742|184762322|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Difference in Posterior Mean Change|0.11|||||TWO_SIDED|95.0|-0.6|0.8|||Mixed Models Analysis|Analyzed using a joint model for change from baseline in average weekly pain score and time to intercurrent event handled using a composite strategy.|||Posterior mean difference with 95% credible interval is reported.|0.80|-0.60|
92438658|NCT00501293|184762391|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||t-test, 2 sided|t-test of MTS at baseline and 6 months||||||0.028
92438659|NCT00501293|184762391|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test of placebo at baseline and 6 months||||||<0.001
92438660|NCT00501293|184762392|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 2 sided|t-test of MTS at baseline and 6 months||||||0.027
92438661|NCT00501293|184762392|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test of placebo at baseline and 6 months||||||<0.001
92171242|NCT02638337|184231608|SUPERIORITY|||||||0.9575|||||||Welch's t-test|||||||0.9575
92438662|NCT00501293|184762395|SUPERIORITY_OR_OTHER|||||||0.071||95.0|||||t-test, 2 sided|t-test of MTS at baseline and 6 months||||||0.071
92438663|NCT00501293|184762395|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||t-test, 2 sided|t-test of placebo at baseline and 6 months||||||0.017
92438664|NCT01042236|184762415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.88||0.4907|TWO_SIDED|95.0|-1.18|2.41||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||2.41|-1.18|0.4907
92171243|NCT02638337|184231609|SUPERIORITY|||||||0.8772|||||||Welch's t-test|||||||0.8772
92171244|NCT02638337|184231610|SUPERIORITY|||||||0.0007|||||||Wilcoxon rank-sum test|||||||0.0007
92171245|NCT01340066|184231617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.92|ONE_SIDED|80.0|||||Chi-squared|||||||.92
92171246|NCT00390299|184231652|OTHER||Maximum Tolerated Dose (x 10^7 TCID50)|1.0|||||TWO_SIDED|||||||||||||
92171247|NCT00390299|184231652|OTHER||Maximum Tolerated Dose (x 10^7 TCID50)|1.0|||||TWO_SIDED|||||||||||||
92438665|NCT01042236|184762415|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.88||0.5944|TWO_SIDED|95.0|-2.27|1.32||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||1.32|-2.27|0.5944
92438666|NCT01042236|184762416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.94||0.987|TWO_SIDED|95.0|-1.91|1.94||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||1.94|-1.91|0.9870
92438667|NCT01042236|184762416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.94||0.4167|TWO_SIDED|95.0|-2.71|1.15||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||1.15|-2.71|0.4167
92438668|NCT01042236|184762417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.12||0.9403|TWO_SIDED|95.0|-0.24|0.26||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||0.26|-0.24|0.9403
92446754|NCT01147653|184780512|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Participation and Physical Health change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.200
92446755|NCT01147653|184780512|SUPERIORITY|||||||0.225|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Social wellbeing and acceptance change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.225
92446756|NCT01147653|184780515|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||0.290
92446757|NCT01147653|184780518|SUPERIORITY|||||||0.697|||||||t-test, 2 sided|||||||0.697
92446758|NCT01147653|184780519|SUPERIORITY|||||||0.912|||||||t-test, 2 sided|||||||0.912
92171248|NCT00390299|184231656|SUPERIORITY||Hazard Ratio (HR)|1.66||||0.28|TWO_SIDED|95.0|0.67|4.11|||Log Rank|||||4.11|0.67|0.28
92171249|NCT00539734|184231670|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Comparing pre-operative data with postoperative data in terms of changes in amplitude height and implicit time.||||<0.05
92438669|NCT01042236|184762417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.12||0.1881|TWO_SIDED|95.0|-0.42|0.09||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||0.09|-0.42|0.1881
92438670|NCT01042236|184762418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.12||0.8602|TWO_SIDED|95.0|-0.26|0.22||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||0.22|-0.26|0.8602
92438671|NCT01042236|184762418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.12||0.1271|TWO_SIDED|95.0|-0.43|0.06||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||0.06|-0.43|0.1271
92438672|NCT01172847|184762441|SUPERIORITY_OR_OTHER||mean exposure ratio|0.98|||||TWO_SIDED|90.0|0.91|1.05|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|Mean exposure ratio of oseltamivir||1.05|0.91|
92438673|NCT01172847|184762441|SUPERIORITY_OR_OTHER||mean exposure ratio|0.98|||||TWO_SIDED|90.0|0.95|1.02|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|Mean exposure ratio of oseltamivir carboxylate||1.02|0.95|
92438674|NCT01172847|184762442|SUPERIORITY_OR_OTHER||mean exposure ratio|1.03|||||TWO_SIDED|90.0|1.0|1.06|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|Mean exposure ratio of rimantadine||1.06|1.00|
92438675|NCT01172847|184762443|SUPERIORITY_OR_OTHER||mean exposure ratio|0.86|||||TWO_SIDED|90.0|0.77|0.96|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|Mean exposure ratio of oseltamivir||0.96|0.77|
92438676|NCT01172847|184762443|SUPERIORITY_OR_OTHER||mean exposure ratio|0.98|||||TWO_SIDED|90.0|0.92|1.05|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|Mean exposure ratio of oseltamivir carboxylate||1.05|0.92|
92438677|NCT01172847|184762444|SUPERIORITY_OR_OTHER||mean exposure ratio|1.03|||||TWO_SIDED|90.0|0.99|1.06|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|mean exposure ratio of rimantadine||1.06|0.99|
92438678|NCT00183092|184762449|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.43||||0.43|TWO_SIDED|95.0|0.58|3.53|||Regression, Cox|||||3.53|0.58|0.43
92438679|NCT00183092|184762450|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5||||0.54||95.0||||Threshold for statistical significance = 0.05. One subject in the placebo group was administered only 25 items on the MMSE due to visual impairment, and this subject's score was scaled based on percentage correct.|ANCOVA|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted changed (worsening) in the quinacrine group.||||.54
92438680|NCT00183092|184762451|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.9||||0.36||95.0||||significance threshold p=0.05|Quade's rank analysis of covariance|||The difference between scores, adjusted for Month-0 performance.||||.36
92438681|NCT00183092|184762452|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8||||0.01||95.0||||Significance threshold p\<0.05|Quade's rank analysis of covariance|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted changed (worsening) in the quinacrine group.||||.01
92438682|NCT00183092|184762453|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5||||0.03||95.0||||Threshold for significance p\<0.05|Quade's rank analysis of covariance|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted changed (worsening) in the quinacrine group.||||0.03
92438683|NCT00183092|184762454|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.92||95.0||||Significance threshold p\<0.05|ANCOVA|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted changed (worsening) in the quinacrine group.||||0.92
92438684|NCT00183092|184762455|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.71||95.0||||Significance threshold p\<0.05|ANCOVA|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted changed (worsening) in the quinacrine group.||||0.71
92171250|NCT02794480|184231673|SUPERIORITY||||||<|0.001||||||ELLIPTA versus GSK MDI|Mainland-Gart test||||Mainland-Gart test is favorable over the McNemar test for matched pairs as the latter is only valid in case of no period effects.|||<0.001
92171251|NCT02794480|184231673|SUPERIORITY|||||||0.007||||||ELLIPTA versus AZ MDI|Mainland-Gart test||||Mainland-Gart test is favorable over the McNemar test for matched pairs as the latter is only valid in case of no period effects.|||0.007
92171252|NCT02794480|184231678|SUPERIORITY||Odds Ratio (OR)|5.94|||<|0.001|TWO_SIDED|95.0|2.42||The upper limit is infinity.|Exact odds ratio calculated using exact conditional logistic regression adjusted for treatment and treatment period.|Conditional Logistic Regression||ELLIPTA versus GSK MDI||||2.42|<0.001
92438685|NCT00183092|184762456|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8||||0.7||95.0||||Significance threshold p\<0.05|ANCOVA|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted change (worsening) in the quinacrine group.||||0.70
92171253|NCT02794480|184231678|SUPERIORITY||Odds Ratio (OR)|4.16||||0.011|TWO_SIDED|95.0|1.59||The upper limit is infinity.|Exact odds ratio calculated using exact conditional logistic regression adjusted for treatment and treatment period.|Conditional Logistic Regression||ELLIPTA versus AZ MDI||||1.59|0.011
92438686|NCT02132767|184762457|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
92438687|NCT02132767|184762458|SUPERIORITY_OR_OTHER|||||||0.003|||||||Log Rank|||||||0.003
92438688|NCT02132767|184762459|SUPERIORITY_OR_OTHER|||||||0.14|||||||Chi-squared|||||||0.14
92438689|NCT02132767|184762460|SUPERIORITY_OR_OTHER|||||||0.71|||||||Chi-squared|||||||0.71
92438690|NCT02132767|184762461|SUPERIORITY_OR_OTHER|||||||0.03|||||||Chi-squared|||||||0.03
92438691|NCT02132767|184762462|SUPERIORITY_OR_OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
92438692|NCT02132767|184762463|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.82
92438693|NCT02132767|184762464|SUPERIORITY_OR_OTHER|||||||0.73|||||||Regression, Poisson|||||||0.73
92438694|NCT02141997|184762472|SUPERIORITY_OR_OTHER||||||=|0.863|||||||Fisher Exact|||P-value calculated using 1-sided Fisher's Exact test.||||=0.863
92438695|NCT02141997|184762472|SUPERIORITY_OR_OTHER||||||=|0.414|||||||Fisher Exact|||P-value calculated using 1-sided Fisher's Exact test.||||=0.414
92438696|NCT02141997|184762472|SUPERIORITY_OR_OTHER||||||=|0.196|||||||Fisher Exact|||P-value calculated using 1-sided Fisher's Exact test.||||=0.196
92438697|NCT00598663|184762500|SUPERIORITY||Mean Difference (Final Values)|0.43|||<|0.0001|ONE_SIDED|97.5|||||ANCOVA|ANOVA with adjustment for period effect and subject as random effect. Period was included in the model regardless of statistical significance.||||||<0.0001
92438698|NCT00732615|184762507|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|52.3|||<|0.001|TWO_SIDED|95.0|40.6|64.0||A fixed sequence test procedure was used to control the study level type I error. Order of test sequence started with the primary efficacy endpoint and proceeded to the 3 secondary efficacy endpoints, in the order defined in the protocol.|Fisher Exact|The 2-sided Fisher's Exact test was utilized to test for difference between NPSP558 and the placebo treatment groups.|The above two sided asymptotic 95% confidence interval is based on normal approximation.|The null hypothesis is that the % of subjects meeting primary efficacy endpoint criteria are the same for both tmt arms. The sample size was determined based on the assumption that 40% and 10% of subjects for NPSP558 and pbo arms would meet the endpt criteria, respectively. Based on 2-tailed test, alpha of 0.05 and 2-to-1 randomization ratio, 84 (56 NPSP558, 28 pbo) subjects who completing the study would achieve 80% statistical power. Adjusted for dropouts, planned enrollment was 110 subjects.||64.0|40.6|<0.001
92438699|NCT00732615|184762508|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Following fixed sequence test procedure described in the primary endpoint section, statistical hypothesis testing was conducted for this secondary endpoint after the testing for the primary endpoint reached statistical significance.|ANCOVA|ANCOVA analysis conducted using percentage change from baseline as dependent variable, treatment as factor, and baseline calcium dose as covariate.||The null hypothesis is that there is no difference between the percentage changes from baseline for the two treatment arms.||||<0.001
92239905|NCT04174638|184383765|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||It was calculated for detect of difference in mean the knowledge sub-dimension score of Modified Morisky Scale between intervention and control group from baseline to week 12.||||<0.001
92438700|NCT00732615|184762509|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|11.711|||<|0.001|TWO_SIDED|95.0|2.619|52.363||Following fixed sequence test procedure described in the primary endpoint section, statistical hypothesis testing was conducted for this secondary endpoint after the testing for the first secondary endpoint reached statistical significance.|Cochran-Mantel-Haenszel|||The null hypothesis is that there is no difference between the proportions of subjects (who achieved this secondary endpoint) from the two treatment arms.||52.363|2.619|<0.001
92438701|NCT00732615|184762510|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.879||||0.747|TWO_SIDED|95.0|0.402|1.922||Following fixed sequence test procedure described in the primary endpoint section, statistical hypothesis testing was conducted for this secondary endpoint after the testing for the second secondary endpoint reached statistical significance.|Cochran-Mantel-Haenszel|||The null hypothesis is that the percentages of subjects with any reported clinical symptoms for the two treatment arms are the same.||1.922|0.402|0.747
92438702|NCT01341964|184762511|SUPERIORITY||Median Difference (Final Values)|0.05||||0.66|TWO_SIDED||||||t-test, 2 sided|not normally distributed, values were log-transformed.||||||0.66
92438703|NCT01516424|184762513|NON_INFERIORITY_OR_EQUIVALENCE|The power is 80%, non-inferiority margin is 7.0.|Mean Difference (Final Values)|3.69|||<|0.05|TWO_SIDED|95.0|-0.36|7.75||Satisfaction with the non-inferiority criteria was determined by the upper limit of confidence interval. If the upper limit of 95% confidence interval was less than 7.0, then non-inferiority was concluded.|ANCOVA|Study center and grouping as fixed effects.|This is ITT analysis data.|"ANCOVA was employed to compare the changes of PANSS scores at week 8 relative to the baseline in these 2 groups. Least Squares Means for the differences in changes between the 2 groups (μ blonanserin - μ risperidone) and the two-sided 95% Confidence Interval were calculated in accordance with the main model.~H0: Compared with risperidone, blonanserin reduced more than 7.0 in mean change in PANSS total score from baseline at week 8 of treatment (μ blonanserin-μ risperidone\> 7.0)."||7.75|-0.36|<0.05
92438704|NCT01516424|184762513|NON_INFERIORITY_OR_EQUIVALENCE|The power is 80%, non-inferiority margin is 7.0.|Mean Difference (Final Values)|2.94|||<|0.05|TWO_SIDED|95.0|-0.76|6.65||Satisfaction with the non-inferiority criteria was determined by the upper limit of confidence interval. If the upper limit of 95% confidence interval was less than 7.0, then non-inferiority was concluded.|ANCOVA|Study center and grouping as fixed effects.|This is PPS analysis data.|"ANCOVA was employed to compare the changes of PANSS total scores at end of treatment relative to the baseline in these 2 groups. LSMeans for the differences in changes between the 2 groups (μ blonanserin - μ risperidone) and the two-sided 95% Confidence Interval were calculated in accordance with the main model.~H0: Compared with risperidone, blonanserin reduced more than 7.0 in mean change in PANSS total score from baseline at week 8 of treatment (μ blonanserin-μ risperidone\> 7.0)."||6.65|-0.76|<0.05
92279991|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.062||||0.6288|TWO_SIDED|95.0|-0.313|0.19||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.190|-0.313|0.6288
92438705|NCT03557151|184762539|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.33||0.895|TWO_SIDED|95.0|-0.68|0.6|||Mixed Models Analysis|||Transdisciplinary Care is being compared to Usual Care using the Time 2 HbA1c (as baseline) and Time 5 HbA1c (as the outcome) controlling for race/ethnicity, gender, and age of the patient. The interaction of condition and time is used to evaluate the treatment effect. Missing data were not imputed.||0.60|-0.68|0.895
92438706|NCT03557151|184762540|SUPERIORITY||Slope|2.29|STANDARD_ERROR_OF_MEAN|2.34||0.33|TWO_SIDED|95.0|-2.29|6.88|||Mixed Models Analysis|||TC is being compared to UC using baseline and 12 month data, controlling for patient age, sex, and race/ethnicity. The interaction between condition and time is used to examine the treatment effect. Missing data were not imputed.||6.88|-2.29|.33
92438707|NCT03557151|184762541|SUPERIORITY||Slope|4.1|STANDARD_ERROR_OF_MEAN|2.25||0.07|TWO_SIDED|95.0|-0.32|8.53|||Mixed Models Analysis|||TC is being compared to UC using baseline and 12 month data and controlling for patient age, sex, and race/ethnicity. The interaction between condition and time is used to evaluate the treatment effect. Missing data are not imputed.||8.53|-.32|.07
92438708|NCT03557151|184762542|SUPERIORITY||Slope|-2.38|STANDARD_ERROR_OF_MEAN|3.77||0.527|TWO_SIDED|95.0|-9.77|5.0|||Mixed Models Analysis|||This analysis included baseline and 12-month data. The interaction of condition (TC or UC) and time was used to examine the treatment effect. Child sex, age, and race/ethnicity were covariates. Missing data were not imputed.||5.0|-9.77|.527
92438709|NCT03557151|184762543|SUPERIORITY||Slope|-3.3|STANDARD_ERROR_OF_MEAN|2.89||0.253|TWO_SIDED|95.0|-8.94|2.35|||Mixed Models Analysis|||This analysis uses baseline and 12 month data. The interaction of condition and time is used to evaluate the treatment effect. Child sex, age, and race/ethnicity were used as covariates. Missing data were not imputed.||2.35|-8.94|.253
92438710|NCT03557151|184762544|SUPERIORITY||Slope|9.69|STANDARD_ERROR_OF_MEAN|3.77||0.01|TWO_SIDED|95.0|2.31|17.08|||Mixed Models Analysis|||This analysis included baseline and 12 month data. The condition by time interaction was used to evaluate the treatment effect. Child age, sex, and race/ethnicity were included as covariates. Missing data were not imputed.||17.08|2.31|0.01
92438711|NCT03557151|184762545|SUPERIORITY||Slope|0.45|STANDARD_ERROR_OF_MEAN|2.07||0.83|TWO_SIDED|95.0|-3.62|4.35|||Mixed Models Analysis|||This analysis uses baseline and 12-month data. The interaction between condition and time is used to evaluate the treatment effect. Child age, sex, and race/ethnicity were covariates. Missing data were not imputed.||4.35|-3.62|.83
92438712|NCT02669433|184762620|SUPERIORITY||Mean Difference (Final Values)|-2.01||||0.158|TWO_SIDED|95.0|-4.8|0.79||The threshold for statistical significance was p=0.05|Mixed Models Analysis||Placebo - active|||0.79|-4.80|0.158
92438713|NCT02669433|184762620|SUPERIORITY||Mean Difference (Final Values)|0.74||||0.6069|TWO_SIDED|95.0|-2.08|3.55||The threshold for statistical significance was p=0.05|Mixed Models Analysis||Placebo - active|||3.55|-2.08|0.6069
92438714|NCT02669433|184762621|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.6531|TWO_SIDED|95.0|-2.55|1.6|||Mixed Models Analysis||Placebo - active|||1.60|-2.55|0.6531
92438715|NCT02669433|184762621|SUPERIORITY||Mean Difference (Final Values)|0.67||||0.5274|TWO_SIDED|95.0|-1.41|2.75||The threshold for statistical significance was p=0.05|Mixed Models Analysis||Placebo - active|||2.75|-1.41|0.5274
92438716|NCT02669433|184762622|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.3953|TWO_SIDED|95.0|-0.2|0.5||The threshold for statistical significance was p=0.05|Mixed Models Analysis||Placebo - active|||0.5|-0.2|0.3953
92438717|NCT02669433|184762622|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.7008|TWO_SIDED|95.0|-0.28|0.42||The threshold for statistical significance was p=0.05|Mixed Models Analysis||Placebo - active|||0.42|-0.28|0.7008
92438718|NCT00576927|184762624|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.655|TWO_SIDED|95.0|0.156|8.717||p-value suspect because of sparse cell counts|Chi-squared|||||8.717|0.156|0.655
92438719|NCT01850524|184762638|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.073|TWO_SIDED|95.0|0.676|1.018|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.||||1.018|0.676|0.073
92438720|NCT01850524|184762639|SUPERIORITY||Hazard Ratio (HR)|0.998||||0.988|TWO_SIDED|95.0|0.79|1.261|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an Unadjusted Cox's proportional hazard regression model is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|||1.261|0.790|0.988
92438721|NCT01850524|184762640|SUPERIORITY||Odds Ratio (OR)|2.1|||<|0.001|TWO_SIDED|95.0|1.43|3.09|||Cochran-Mantel-Haenszel|CMH test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Odds ratio and confidence interval are based on logistic regression model with treatment group as categorical predictor variable,age(\<75 years vs \>=75), ISS(stage I or II vs stage III),and BPI-SF worst pain score(\<4 vs \>=4)at screening as covariates.|||3.09|1.43|<0.001
92438722|NCT01850524|184762641|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9195|TWO_SIDED|95.0|0.656|1.463|||Regression, Logistic|Logistic regression model with prognostic factor: age (\<75 years vs \>=75) and ISS (stage I or II vs stage III).|Odds ratio \> 1 favors Ixazomib+LenDex versus LenDex alone.|||1.463|0.656|0.9195
92438723|NCT01850524|184762642|SUPERIORITY||Odds Ratio (OR)|1.16||||0.436|TWO_SIDED|95.0|0.79|1.7|||Cochran-Mantel-Haenszel|CMH test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Odds ratio and confidence interval are based on logistic regression model with treatment group as categorical predictor variable,age(\<75 years vs \>=75), ISS(stage I or II vs stage III),and BPI-SF worst pain score(\<4 vs \>=4)at screening as covariates.|||1.70|0.79|0.436
92438724|NCT01850524|184762643|SUPERIORITY||Hazard Ratio (HR)|1.402|||<|0.001|TWO_SIDED|95.0|1.185|1.659|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|||1.659|1.185|<0.001
92446759|NCT01147653|184780520|SUPERIORITY|||||||0.544|||||||t-test, 2 sided|||||||0.544
92279992|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.048||||0.7193|TWO_SIDED|95.0|-0.312|0.216||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.216|-0.312|0.7193
92446760|NCT01147653|184780521|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
92446761|NCT01147653|184780522|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||0.76
92446762|NCT01147653|184780523|SUPERIORITY|||||||0.176|||||||Wilcoxon (Mann-Whitney)|||||||0.176
92446763|NCT01147653|184780524|SUPERIORITY|||||||0.099|||||||t-test, 2 sided|||||||0.099
92446764|NCT01147653|184780525|SUPERIORITY|||||||0.131|||||||Wilcoxon (Mann-Whitney)|||||||0.131
92446765|NCT01147653|184780526|SUPERIORITY|||||||0.478|||||||t-test, 2 sided|||||||0.478
92446766|NCT01147653|184780527|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
92446767|NCT01147653|184780528|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||||||0.310
92446768|NCT01147653|184780530|SUPERIORITY|||||||0.233|||||||Wilcoxon (Mann-Whitney)|||H0: The population distribution of Modified Ashworth Scale scores is the same at 1-year post-infusion with autologous cord blood and placebo.||||0.233
92446769|NCT01147653|184780534|SUPERIORITY|||||||0.762|||||||Wilcoxon (Mann-Whitney)|||||||0.762
92446770|NCT01147653|184780535|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||H0: The population distribution of the 1-year GMFM-66 change score is the same for patients infused with Low and High doses of autologous umbilical cord blood.||||0.05
92446771|NCT01147653|184780535|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||H0: The population distribution of the 1-year GMFM-66 change score is the same for patients infused with High doses of autologous umbilical cord blood and Placebo.||||0.15
92446772|NCT01147653|184780535|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||H0: The population distribution of the 1-year GMFM-66 change score is the same for patients infused with Low doses of autologous umbilical cord blood and placebo.||||0.21
92446773|NCT01147653|184780536|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||H0: The population distribution of differences between observed and expected GMFM-66 change scores at 1-year post-infusion is the same for patients receiving Low and High doses of autologous umbilical cord blood.||||<0.01
92446774|NCT01147653|184780537|SUPERIORITY|H0: The population distribution of the Peabody Gross Motor Quotient change score 1 year post-infusion with autologous umbilical cord blood is the same in patients receiving a Low infused dose and a High infused dose.||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92446775|NCT01147653|184780538|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.04|TWO_SIDED|95.0|0.01|0.38|||Wilcoxon (Mann-Whitney)|||H0: The true mean 1-year change in normalized whole brain connectivity is the same in patients infused with Low and High doses of autologous umbilical cord blood.||0.38|0.01|0.04
92446776|NCT00280566|184780539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0104|||||||Log Rank|alpha = 0.05 level of significance||Equality of Survival Curves across the treatment groups.||||0.0104
92446777|NCT00280566|184780540|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0047|||||||Log Rank|No adjustment made for multiple comparisons||alpha = 0.05 level of significance||||0.0047
92446778|NCT00280566|184780541|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0205||||||No adjustment made for multiple comparisons|Log Rank|||alpha = 0.05 level of significance||||0.0205
92446779|NCT00280566|184780542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.55||0.1247|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 1: Difference in Change during Period 2 MMRM ANCOVA: center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1247
92446780|NCT00280566|184780542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.62||0.7515|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance|Mean Difference (Final Values) = Least Squares Mean|Week 2 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.7515
92446781|NCT00280566|184780542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.62||0.3074|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.3074
92446782|NCT00280566|184780542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.71||0.0758|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0758
92446783|NCT00280566|184780542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|0.82||0.0162|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0162
92446784|NCT00280566|184780542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.01|STANDARD_ERROR_OF_MEAN|0.83||0.0003|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0003
92446785|NCT00280566|184780542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.21|STANDARD_ERROR_OF_MEAN|0.98||0.0242|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0242
92438725|NCT01850524|184762645|SUPERIORITY||Hazard Ratio (HR)|0.738||||0.008|TWO_SIDED|95.0|0.589|0.925|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|||0.925|0.589|0.008
92438726|NCT01850524|184762646|SUPERIORITY||Hazard Ratio (HR)|0.859||||0.189|TWO_SIDED|95.0|0.684|1.078|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|||1.078|0.684|0.189
92438727|NCT01850524|184762652|SUPERIORITY||Hazard Ratio (HR)|1.118||||0.662|TWO_SIDED|95.0|0.678|1.845|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|OS in High-risk Population Carrying Del(17p), Amp(1q21), t(4;14), or t(14;16) Mutations||1.845|0.678|0.662
92438728|NCT01850524|184762653|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.271|TWO_SIDED|95.0|0.466|1.24|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|PFS in High-risk Population Carrying del(17p), t(4;14), or t(14;16) Mutations||1.240|0.466|0.271
92438729|NCT01850524|184762655|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.26|TWO_SIDED|95.0|0.661|1.12|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Time to Pain Progression||1.120|0.661|0.260
92438730|NCT02157298|184762691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.1053|<|0.0001|TWO_SIDED|95.0|-0.81|-0.39||Significant at alpha=0.05 (two-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Mixed Models Analysis|with fixed categorical effects of treatment, week, DPP-4, baseline eGFR, treatment-by-week interaction, continuous fixed covariate of baseline value.||H0: mean(dapa) minus mean(placebo) = 0 versus alternative HA: mean(dapa) minus mean(placebo) =/= 0||-0.39|-0.81|<0.0001
92438731|NCT02157298|184762692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7|STANDARD_ERROR_OF_MEAN|5.301|<|0.0001|TWO_SIDED|95.0|-33.2|-12.2||Significant at alpha=0.05 (two-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Mixed Models Analysis|with fixed categorical effects of treatment, week, DPP-4, baseline eGFR, treatment-by-week interaction, continuous fixed covariate of baseline value.||H0: mean(dapa) minus mean(placebo) = 0 versus alternative HA: mean(dapa) minus mean(placebo) =/= 0||-12.2|-33.2|<0.0001
92438732|NCT02157298|184762693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.255|<|0.0001|TWO_SIDED|95.0|-1.7|-0.7||Significant at alpha=0.05 (two-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Mixed Models Analysis|with fixed categorical effects of treatment, week, DPP-4, baseline eGFR, treatment-by-week interaction, continuous fixed covariate of baseline value.||H0: mean(dapa) minus mean(placebo) = 0 versus alternative HA: mean(dapa) minus mean(placebo) =/= 0||-0.7|-1.7|<0.0001
92438733|NCT02157298|184762694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.4017||0.0743|TWO_SIDED|95.0|-1.51|0.07||Significant at alpha=0.05 (two-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Mixed Models Analysis|with fixed categorical effects of treatment, week, DPP-4, baseline eGFR, treatment-by-week interaction, continuous fixed covariate of baseline value.||H0: mean(dapa) minus mean(placebo) = 0 versus alternative HA: mean(dapa) minus mean(placebo) =/= 0||0.07|-1.51|0.0743
92438734|NCT02157298|184762695|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.4|STANDARD_ERROR_OF_MEAN|3.769||0.3727|TWO_SIDED|95.0|-4.0|10.7||Significant at alpha=0.05 (two-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Tsitatis, Davidian, Zhang \& Lu, with adjustment with adjustment for baseline value and DPP-4||H0: proportion(dapa) minus proportion(placebo) = 0 versus alternative HA: proportion(dapa) minus proportion(placebo) =/= 0||10.7|-4.0|0.3727
92438735|NCT04059094|184762696|OTHER||Adjusted means difference|1.5|STANDARD_ERROR_OF_MEAN|2.45||0.5468|TWO_SIDED|95.0|-3.5|6.5|||Mixed model with repeated measurements||Adjusted means difference was calculated as value from BI 1265162 200μg minus value from placebo group.|Mixed Model for Repeated Measures (MMRM) with fixed effects for baseline, visit, treatment, treatment-by-visit interaction, baseline-by-visit interaction, and random effect for patient was applied. No hypothesis testing was performed, as this trial was prematurely discontinued. MMRM only included data from 200µg BI and placebo, as the sample size of the BI 20µg, BI 50µg and BI 100µg dose levels was limited because of the premature discontinuation of the trial.||6.5|-3.5|0.5468
92438736|NCT04059094|184762697|OTHER||Adjuste means difference|2.1|STANDARD_ERROR_OF_MEAN|1.83||0.3039|TWO_SIDED|95.0|-2.4|6.5|||ANCOVA||Adjusted means difference was calculated as value from BI 1265162 200μg minus value from placebo group.|ANCOVA based on analysis of covariance with fixed effects for baseline and treatment was applied. Statistical analysis was performed for 200μg BI and placebo groups only. No hypothesis testing was performed, as this trial was prematurely discontinued. ANCOVA only included data from 200µg BI and placebo, as the sample size of the BI 20µg, BI 50µg and BI 100µg dose levels was limited because of the premature discontinuation of the trial.||6.5|-2.4|0.3039
92438737|NCT03715764|184762712|SUPERIORITY|||||||0.87||||||Results for the final model, variable GROUP, adjusted for confounders.|Mixed Models Analysis|||||||0.87
92438738|NCT03715764|184762712|SUPERIORITY||||||<|0.001||||||Results for the final model for the variable TIME, adjusted for confounders.|Mixed Models Analysis|||||||<0.001
92438739|NCT03715764|184762712|SUPERIORITY|||||||0.18||||||Results for the final model, variable Group x Time (Statistical interaction of group and time), adjusted for confounders.|Mixed Models Analysis|||||||0.18
92171254|NCT02814838|184231696|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.3303|TWO_SIDED|95.0|-0.14|0.42|||Student's t test for unpaired samples|||Transformed AUC was analyzed with Student t-test for unpaired data using PROC TTEST within SAS® to compare Ladarixin and placebo groups. The estimated treatment difference between Ladarixin and placebo was also presented together with the corresponding 95% confidence interval.||0.42|-0.14|0.3303
92279993|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.27||||0.0452|TWO_SIDED|95.0|-0.534|-0.006||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.006|-0.534|0.0452
92438740|NCT03715764|184762713|SUPERIORITY|||||||0.56||||||Results for the final model, variable GROUP, adjusted for confounders.|Mixed Models Analysis|||||||0.56
92438741|NCT03715764|184762713|SUPERIORITY|||||||0.0049||||||Results for the final model, variable TIME, adjusted for confounders.|Mixed Models Analysis|||||||0.0049
92438742|NCT03715764|184762713|SUPERIORITY|||||||0.49||||||Results for the final model, adjusted for confounders, for the variable Group x Time (Statistical interaction of group and time).|Mixed Models Analysis|||||||0.49
92438743|NCT03715764|184762714|SUPERIORITY|Used as a confounder in the mixed effect model analysis for primary outcome. All participants enrolled in the study were included in the 12 months analysis.|||||<|0.2||||||Confounding variables with p-values \< 0.2 were carried forward to the final model.|Mixed Models Analysis|||||||<0.2
92438744|NCT03715764|184762715|SUPERIORITY|Used as a confounder in the mixed effect model analysis for primary outcome. All participants enrolled in the study were included in the 12 months analysis.|||||<|0.2||||||Confounding variables with p-values \< 0.2 were carried forward to the final model.|Mixed Models Analysis|||||||<0.2
92438745|NCT00662363|184762724|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||independent sample t test|||Primary outcome measures chosen were between group comparisons for change on Constipation Symptom Questionnaire ratings at exit from the study. The PAC-SYM is a symptom scale where higher numbers indicate more symptoms. Change from baseline to Day 7 was calculated and larger negative differences indicated greater improvement in constipation symptoms. The PAC-QOL is a quality of life scale where higher numbers indicate better quality of life. Change from baseline to 7 days was calculated.||||<0.05
92438746|NCT01905657|184762726|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.54||||0.00024|TWO_SIDED|95.0|0.38|0.77|||Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with strongly PD-L1 positive tumors||0.77|0.38|0.00024
92438747|NCT01905657|184762726|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.5||||2e-05|TWO_SIDED|95.0|0.36|0.7|||Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with strongly PD-L1 positive tumors||0.70|0.36|0.00002
92438748|NCT01905657|184762726|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.71||||0.00076|TWO_SIDED|95.0|0.58|0.88|||Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with PD-L1 positive tumors||0.88|0.58|0.00076
92438749|NCT01905657|184762726|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.61|||<|1e-05|TWO_SIDED|95.0|0.49|0.75|||Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with PD-L1 positive tumors||0.75|0.49|<0.00001
92438750|NCT01905657|184762727|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.58||||9e-05|TWO_SIDED|95.0|0.43|0.77|||Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with strongly PD-L1 positive tumors||0.77|0.43|0.00009
92438751|NCT01905657|184762727|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.59||||7e-05|TWO_SIDED|95.0|0.45|0.78|||Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with strongly PD-L1 positive tumors||0.78|0.45|0.00007
92438752|NCT01905657|184762727|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.88||||0.06758|TWO_SIDED|95.0|0.73|1.04|||Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with PD-L1 positive tumors||1.04|0.73|0.06758
92438753|NCT01905657|184762727|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.79||||0.00462|TWO_SIDED|95.0|0.66|0.94|||Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with PD-L1 positive tumors||0.94|0.66|0.00462
92438754|NCT01905657|184762730|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|-2.3||||0.66608|TWO_SIDED|95.0|-12.7|8.2||P-value indicated for testing a difference in percentage equal to 0 versus a difference in percentage not equal to 0, in accordance with the statistical analysis plan.|Miettinen & Nurminen method||This is an adjusted risk difference estimated by stratified Miettinen \& Nurminen method.|In participants with strongly PD-L1 positive tumors||8.2|-12.7|0.66608
92438755|NCT01905657|184762730|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|22.2|||<|1e-05|TWO_SIDED|95.0|14.0|30.7||P-value indicated for testing a difference in percentage equal to 0 versus a difference in percentage greater than 0, in accordance with the statistical analysis plan.|Miettinen & Nurminen method||This is an adjusted risk difference estimated by stratified Miettinen \& Nurminen method.|In participants with strongly PD-L1 positive tumors||30.7|14.0|<0.00001
92438756|NCT01905657|184762730|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|8.7||||0.00045|TWO_SIDED|95.0|3.6|13.9||P-value indicated for testing a difference in percentage equal to 0 versus a difference in percentage greater than 0, in accordance with the statistical analysis plan.|Miettinen & Nurminen method||This is an adjusted risk difference estimated by stratified Miettinen \& Nurminen method.|In participants with PD-L1 positive tumors||13.9|3.6|0.00045
92279994|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.252||||0.0635|TWO_SIDED|95.0|-0.519|0.014||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.014|-0.519|0.0635
92171255|NCT02814838|184231697|SUPERIORITY|The comparisons between groups on 2-hour AUC C-peptide efficacy endpoint was carried-out using a mixed linear model where the log(x+1) transformed 2-hour AUC C-peptide was the dependent variable, while treatment group, visit, treatment by visit interaction were the fixed factors of the model and patient will be the random effect. An unstructured covariance matrix for each patient is considered and the Kenward-Roger adjustment is used for the degrees of freedom.|adjusted mean difference|0.0984||||0.517|TWO_SIDED|95.0|-0.2028|0.3995|||Mixed Models Analysis|||at FUP week 26||0.3995|-0.2028|0.517
92279995|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.126||||0.38|TWO_SIDED|95.0|-0.409|0.156||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.156|-0.409|0.3800
92438757|NCT01905657|184762730|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|9.1||||0.00024|TWO_SIDED|95.0|4.1|14.3||P-value indicated for testing a difference in percentage equal to 0 versus a difference in percentage greater than 0, in accordance with the statistical analysis plan.|Miettinen & Nurminen method||This is an adjusted risk difference estimated by stratified Miettinen \& Nurminen method.|In participants with PD-L1 positive tumors||14.3|4.1|0.00024
92438758|NCT06092710|184762741|OTHER|Then, to see if the median of a particular group is diﬀerent from 0 (= no sensitivity: not feeling the diﬀerences in airflow induced by the diﬀerent tests given by the operator), Wilcoxon tests were performed on each group of data. If the p-value is small (less than 5%, ideally less than 1%), the null hypothesis that the score is identical to 0 is rejected.||||||0.05572|||||||Kruskal-Wallis|||Non-parametric tests on patient sensitivity, given the non-normal distribution, (based on the median of the data) were applied to analyse the diﬀerences between the groups (ST1+ ST2 according to the STATUS3 and STATUS4 classification criteria). To analyse any diﬀerences in sensitivity between patient groups, Kruskal-Wallis tests were applied. In this type of analysis, having a p-value greater than 1% and ideally greater than 5% would indicate the absence of diﬀerences between groups.||||0.05572
92438759|NCT06092710|184762741|OTHER|Wilcoxon tests were performed on each group of data. If the p-value is small (less than 5%, ideally less than 1%), the null hypothesis that the score is identical to 0 is rejected.|||||<|8e-07|||||||Wilcoxon (Mann-Whitney)|||to see if the median of a particular group is diﬀerent from 0 (= no sensitivity: not feeling the diﬀerences in airflow induced by the diﬀerent tests given by the operator), Wilcoxon tests were performed on each group of data. If the p-value is small (less than 5%, ideally less than 1%), the null hypothesis that the score is identical to 0 is rejected. In this case, it means that the patients in the test group feel the diﬀerences in airflow depending on their position.||||<0.0000008
92438760|NCT06092710|184762741|OTHER|Wilcoxon tests were performed on each group of data. If the p-value is small (less than 5%, ideally less than 1%), the null hypothesis that the score is identical to 0 is rejected. In this case, it means that the patients in the test group feel the diﬀerences in airflow depending on their position.|||||<|1e-07|||||||Wilcoxon (Mann-Whitney)|||to see if the median of a particular group is diﬀerent from 0 (= no sensitivity: not feeling the diﬀerences in airflow induced by the diﬀerent tests given by the operator), Wilcoxon tests were performed on each group of data. If the p-value is small (less than 5%, ideally less than 1%), the null hypothesis that the score is identical to 0 is rejected. In this case, it means that the patients in the test group feel the diﬀerences in airflow depending on their position.||||<0.0000001
92438761|NCT06092710|184762742|SUPERIORITY|||||||1.06e-06||||||Confidence level used: 0.95 Tukey multiple comparisons of means (95% family-wise confidence level)|ANOVA|||Parametric tests on the prediction of patients' pathological status with SFI (Intermediate Final Score) For these analyses, as the SFI score follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value, a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another.||||0.00000106
92438762|NCT06092710|184762742|SUPERIORITY|||||||48||||||Confidence level used: 0.95 Tukey multiple comparisons of means (95% family-wise confidence level)|ANOVA|||"Parametric tests on the prediction of patients' pathological status with SFT score (Final Total score):~For these analyses, as SFT score follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value, a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0000000048
92438763|NCT06092710|184762742|SUPERIORITY||Odds Ratio (OR)|8.73||||7.7e-07|TWO_SIDED||||||Fisher Exact|||"Determination of cut-oﬀ values for SFI:~The Cutoﬀ\_final txt file includes the various sensitivity and specificity calculations as well as the Youden index in order to determine the best cut-oﬀ value (largest Youden). The ROC curves allow the values in the file to be appreciated graphically."||||0.00000077
92438764|NCT06092710|184762742|SUPERIORITY||Odds Ratio (OR)|9.37||||6.9e-07|TWO_SIDED||||||Fisher Exact|||"Determination of cut-oﬀ values for SFT:~The Cutoﬀ\_final txt file includes the various sensitivity and specificity calculations as well as the Youden index in order to determine the best cut-oﬀ value (largest Youden). The ROC curves allow the values in the file to be appreciated graphically."||||0.00000069
92438765|NCT06092710|184762743|SUPERIORITY|||||||0.0142266|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.0142266
92438766|NCT06092710|184762743|SUPERIORITY|||||||0.0023308|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.0023308
92171256|NCT02814838|184231697|SUPERIORITY|The comparisons between groups on 2-hour AUC C-peptide efficacy endpoint was carried-out using a mixed linear model where the log(x+1) transformed 2-hour AUC C-peptide was the dependent variable, while treatment group, visit, treatment by visit interaction were the fixed factors of the model and patient will be the random effect. An unstructured covariance matrix for each patient is considered and the Kenward-Roger adjustment is used for the degrees of freedom.|adjusted mean difference|-0.0486||||0.7999|TWO_SIDED|95.0|-0.4294|0.3322|||Mixed Models Analysis|||At FUP week 52||0.3322|-0.4294|0.7999
92438767|NCT06092710|184762743|SUPERIORITY|||||||0.0023308|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.0023308
92438768|NCT06092710|184762743|SUPERIORITY|||||||0.9915779|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.9915779
92438769|NCT06092710|184762743|SUPERIORITY|||||||0.9999943|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.9999943
92438770|NCT06092710|184762743|SUPERIORITY|||||||0.9905111|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.9905111
92438771|NCT05119569|184762744|SUPERIORITY||Rate Ratio|0.313||||0.0022|TWO_SIDED|95.0|0.149|0.658|||Negative Binomial Regression Model|||||0.658|0.149|0.0022
92438772|NCT05119569|184762745|SUPERIORITY||Rate Ratio|0.265||||0.0004|TWO_SIDED|95.0|0.128|0.55|||Negative Binomial Regression Model|||||0.550|0.128|0.0004
92438773|NCT05119569|184762746|SUPERIORITY||Odds Ratio (OR)|4.005||||0.0117|TWO_SIDED|95.0|1.317|13.078|||Logistic Regression Model|||||13.078|1.317|0.0117
92438774|NCT05119569|184762751|SUPERIORITY||Rate Ratio|0.78||||0.5889|TWO_SIDED|95.0|0.316|1.922|||Negative Binomial Regression Model|||||1.922|0.316|0.5889
92438775|NCT05119569|184762752|SUPERIORITY||Rate Ratio|0.076||||0.0011|TWO_SIDED|95.0|0.016|0.355|||Negative Binomial Regression Model|||||0.355|0.016|0.0011
92438776|NCT05119569|184762753|SUPERIORITY||Rate Ratio|0.104||||0.0038|TWO_SIDED|95.0|0.022|0.481|||Negative Binomial Regression Model|||||0.481|0.022|0.0038
92438777|NCT05119569|184762754|SUPERIORITY||Rate Ratio|0.512||||0.0958|TWO_SIDED|95.0|0.233|1.126|||Negative Binomial Regression Model|||||1.126|0.233|0.0958
92438778|NCT05119569|184762755|SUPERIORITY||Rate Ratio|0.105|||<|0.0001|TWO_SIDED|95.0|0.039|0.283|||Negative Binomial Regression Model|||||0.283|0.039|<0.0001
92438779|NCT05119569|184762756|SUPERIORITY||Rate Ratio|0.053||||0.0001|TWO_SIDED|95.0|0.012|0.233|||Negative Binomial Regression Model|||||0.233|0.012|0.0001
92438780|NCT03700671|184762776|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||A P-value of 0.05 was used as the threshold for significance|ANOVA|||A sample size of 38 using G\*Power 3.1 software was calculated based on previously published data in which the mean difference between HIIT and moderate intensity continuous training (MICT) was 3.2 ml.kg-1.min-1 with a pooled standard deviation of 3 ml.kg-1.min-1. Statistical significance was set at = 0.05 and power set to 0.95. To allow for 10% attrition 42 individuals were recruited to the study||||<0.01
92438781|NCT03700671|184762777|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||0.05 was used as a threshold for significance|ANOVA|||||||<0.01
92438782|NCT04434092|184762806|NON_INFERIORITY|Non-inferiority is met when the lower limit of the 95% CI is greater than -20%.|Weighted Difference in Proportion|-2.8|||||TWO_SIDED|95.0|-15.67|11.14|||||95% CI for the difference in proportions of participants with TA is calculated by Stratified Newcombe CI method.|||11.14|-15.67|
92171257|NCT02814838|184231698|SUPERIORITY||adjusted mean difference|12.0411||||0.2224|TWO_SIDED|95.0|-7.3823|31.4644|||Mixed Models Analysis|||at week 13||31.4644|-7.3823|0.2224
92438783|NCT04434092|184762807|NON_INFERIORITY|Non-inferiority is met if the lower limit of the 95% confidence interval (CI) for the odds ratio is above 0.2|Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.57|1.82||||||||1.82|0.57|
92438784|NCT04434092|184762808|NON_INFERIORITY|Non-inferiority is met if the upper limit (UL) of the 95% CI for the difference between crovalimab and eculizumab in the proportion of participants with BTH is less than the non-inferiority margin of 20%|Weighted Difference in Proportion|-3.9|||||TWO_SIDED|95.0|-14.82|5.26|||||95% CI for the difference in proportions of participants is calculated by Stratified Newcombe CI method.|||5.26|-14.82|
92438785|NCT04434092|184762809|NON_INFERIORITY|Non-inferiority is met when the lower limit of the 95% CI is greater than -20%.|Weighted Difference in Proportion|2.2|||||TWO_SIDED|95.0|-11.37|16.31|||||95% CI for the difference in proportions of participants is calculated by Stratified Newcombe CI method.|||16.31|-11.37|
92438786|NCT04434092|184762810|NON_INFERIORITY|The non-inferiority margin was a -5 point score, where higher scores indicated less fatigue, and hence non-inferiority hypothesis was tested comparing the lower limit of the 95% CI for the difference with a non-inferiority margin of -5 points.|Difference in Adjusted mean|2.64|STANDARD_ERROR_OF_MEAN|0.993|||TWO_SIDED|95.0|0.68|4.6|||||Non-inferiority is met when the lower limit of the 95% CI is greater than -5.|||4.60|0.68|
92438787|NCT02879305|184762902|NON_INFERIORITY|Non-inferiority was achieved if the upper limit of the two-sided 95% CI for the hazard ratio was below the pre-specified non-inferiority margin of 1.25.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.81|1.07|||||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.07|0.81|
92438788|NCT02879305|184762903|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than -0.75 g/dL.|Least square (LS) mean difference|0.18|||||TWO_SIDED|95.0|0.12|0.24|||||Analysis of covariance (ANCOVA) model adjusted for treatment, Baseline Hgb, dialysis type and region along with 95% CI for treatment difference (daprodustat-rhEPO).|||0.24|0.12|
92438789|NCT02879305|184762904|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.156123|TWO_SIDED|95.0|0.81|1.07||The p-value was compared against 0.0125 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.07|0.81|0.156123
92171258|NCT02814838|184231698|SUPERIORITY||adjusted mean difference|8.4803||||0.3931|TWO_SIDED|95.0|-11.0935|28.0541|||Mixed Models Analysis|||At week 26||28.0541|-11.0935|0.3931
92279996|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.336||||0.02|TWO_SIDED|95.0|-0.62|-0.053||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.053|-0.620|0.0200
92279997|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.328||||0.0244|TWO_SIDED|95.0|-0.614|-0.043||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.043|-0.614|0.0244
92171259|NCT02814838|184231698|SUPERIORITY||adjusted mean difference|-2.9502||||0.7664|TWO_SIDED|95.0|-22.5476|16.6473|||Mixed Models Analysis|||At week 52||16.6473|-22.5476|0.7664
92279998|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.096||||0.5232|TWO_SIDED|95.0|-0.392|0.2||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.200|-0.392|0.5232
92438790|NCT02879305|184762905|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.023539|TWO_SIDED|95.0|0.78|1.0||The p-value was compared against 0.006250 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.00|0.78|0.023539
92438791|NCT02879305|184762906|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.325797|TWO_SIDED|95.0|0.85|1.11||The p-value was compared against 0.025000 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.11|0.85|0.325797
92438792|NCT02879305|184762907|SUPERIORITY||LS mean difference|-9.1||||0.026947|TWO_SIDED|95.0|-18.4|0.2||The p-value was compared against 0.008333 based on the Holm-Bonferonni adjustment.|ANCOVA||Analysis was carried out by using ANCOVA model with terms for treatment, Baseline monthly IV iron dose, dialysis type and region.|||0.2|-18.4|0.026947
92438793|NCT02879305|184762908|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.3281|TWO_SIDED|95.0|0.82|1.13|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.13|0.82|0.3281
92438794|NCT02879305|184762909|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.3553|TWO_SIDED|95.0|0.74|1.23|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.23|0.74|0.3553
92438795|NCT02879305|184762910|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0524|TWO_SIDED|95.0|0.63|1.04|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.04|0.63|0.0524
92438796|NCT02879305|184762911|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1927|TWO_SIDED|95.0|0.56|1.25|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.25|0.56|0.1927
92438797|NCT02879305|184762912|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.0351|TWO_SIDED|95.0|0.8|1.01|||Chi-squared||Overall HR is presented using Model 1. Model 1 assumed a common treatment effect, regardless of number of events experienced. HR was estimated using a Prentice, Williams and Peterson(PWP) model, with treatment, dialysis type and region as covariates.|||1.01|0.80|0.0351
92438798|NCT02879305|184762912|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.3258|TWO_SIDED|95.0|0.85|1.11|||Chi-squared||First Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. Hazard Ratio (HR) was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.11|0.85|0.3258
92438799|NCT02879305|184762912|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0158|TWO_SIDED|95.0|0.58|0.98|||Chi-squared||Second Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||0.98|0.58|0.0158
92438800|NCT02879305|184762912|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0981|TWO_SIDED|95.0|0.47|1.17|||Chi-squared||Third Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.17|0.47|0.0981
92438801|NCT02879305|184762912|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.3258|TWO_SIDED|95.0|0.85|1.11|||Chi-squared||First Event Hazard ratio is presented using Model 3. Model 3 assumed treatment effect for first event differs from a common effect for subsequent events. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.11|0.85|0.3258
92438802|NCT02879305|184762912|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0058|TWO_SIDED|95.0|0.6|0.94|||Chi-squared||Subsequent Event Hazard ratio is presented using Model 3. Model 3 assumed treatment effect for first event differs from a common effect for subsequent events. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||0.94|0.60|0.0058
92438803|NCT02879305|184762913|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.0872|TWO_SIDED|95.0|0.73|1.06|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.06|0.73|0.0872
92438804|NCT02879305|184762914|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.154|TWO_SIDED|95.0|0.87|1.04|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.04|0.87|0.1540
92438805|NCT02879305|184762915|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.1244|TWO_SIDED|95.0|0.77|1.07|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.07|0.77|0.1244
92438806|NCT02879305|184762916|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.054|TWO_SIDED|95.0|0.81|1.02|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.02|0.81|0.0540
92438807|NCT02879305|184762917|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.7658|TWO_SIDED|95.0|0.84|1.45|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.45|0.84|0.7658
92438808|NCT02879305|184762918|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0425|TWO_SIDED|95.0|0.69|1.02|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.02|0.69|0.0425
92438809|NCT02879305|184762919|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than the pre-specified non-inferiority margin of -0.75 g/dL.|LS mean difference|0.12|||||TWO_SIDED|95.0|0.03|0.21||||||||0.21|0.03|
92438810|NCT02879305|184762920|SUPERIORITY||Difference in response rate|3.5||||0.0367|TWO_SIDED|95.0|-0.1|7.1|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel (CMH) test adjusted for dialysis type, and region was used to compare the number of responders between the treatment groups.|||7.1|-0.1|0.0367
92438811|NCT02879305|184762921|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% confidence interval for the treatment difference was greater than non-inferiority margin of -15%.|Median Difference (Final Values)|1.06|||||TWO_SIDED|95.0|0.0|3.86|||||Hodges-Lehmann estimate of the treatment difference (daprodustat-rhEPO) and associated two-sided asymptotic 95% CI is presented.|||3.86|0.00|
92438812|NCT02879305|184762922|SUPERIORITY||Probability|0.52||||0.0805|TWO_SIDED|95.0|0.49|0.54|||van Elteren test||Mann-Whitney estimate (Probability) of the treatment effect has been presented.|||0.54|0.49|0.0805
92438813|NCT02879305|184762923|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% confidence interval for the treatment difference was greater than non-inferiority margin of -15%.|Median Difference (Final Values)|2.18|||||TWO_SIDED|95.0|0.28|4.05|||||Hodges-Lehmann estimate of the treatment difference (daprodustat-rhEPO) and associated two-sided asymptotic 95% CI is presented.|||4.05|0.28|
92438814|NCT02879305|184762924|SUPERIORITY||Probability|0.53||||0.0139|TWO_SIDED|95.0|0.5|0.55|||van Elteren test||Mann-Whitney estimate (Probability) of the treatment effect has been presented.|||0.55|0.50|0.0139
92438815|NCT02879305|184762925|SUPERIORITY||LS mean difference|0.33||||0.6551|TWO_SIDED|95.0|-1.28|1.94|||MMRM||The difference in change from Baseline in SBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in means between arms.|||1.94|-1.28|0.6551
92438816|NCT02879305|184762925|SUPERIORITY||LS mean difference|-0.46||||0.1586|TWO_SIDED|95.0|-1.36|0.44|||MMRM||The difference in change from Baseline in DBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in means between arms.|||0.44|-1.36|0.1586
92438817|NCT02879305|184762925|SUPERIORITY||LS mean difference|-0.18||||0.3646|TWO_SIDED|95.0|-1.2|0.84|||MMRM||The difference in change from Baseline in MAP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in means between arms.|||0.84|-1.20|0.3646
92438818|NCT02879305|184762926|SUPERIORITY||LS mean difference|0.0||||0.5012|TWO_SIDED|95.0|-1.54|1.54|||ANCOVA||For SBP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, dialysis type, region and Baseline value.|||1.54|-1.54|0.5012
92438819|NCT02879305|184762926|SUPERIORITY||LS mean difference|0.45||||0.8451|TWO_SIDED|95.0|-0.42|1.31|||ANCOVA||For DBP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, dialysis type, region and Baseline value.|||1.31|-0.42|0.8451
92438820|NCT02879305|184762926|SUPERIORITY||LS mean difference|0.31||||0.7312|TWO_SIDED|95.0|-0.67|1.28|||ANCOVA||For MAP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, dialysis type, region and Baseline value.|||1.28|-0.67|0.7312
92438821|NCT02879305|184762927|SUPERIORITY||Ratio of exacerbation rate|1.0||||0.529|TWO_SIDED|95.0|0.91|1.11|||Negative binomial model||Ratio of model estimated exacerbation rates and CIs were estimated using a negative binomial model for the treatment group comparison.|||1.11|0.91|0.5290
92438822|NCT02879305|184762929|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.5772|TWO_SIDED|95.0|0.71|1.52|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model adjusted for treatment group, dialysis type and region.|||1.52|0.71|0.5772
92438823|NCT02879305|184762930|SUPERIORITY||LS mean difference|0.29||||0.162|TWO_SIDED|95.0|-0.29|0.86|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and the model adjusted Week 8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.86|-0.29|0.1620
92438824|NCT02879305|184762930|SUPERIORITY||LS mean difference|0.61||||0.018|TWO_SIDED|95.0|0.04|1.18|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and the model adjusted Week 12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.18|0.04|0.0180
92438825|NCT02879305|184762930|SUPERIORITY||LS mean difference|0.33||||0.153|TWO_SIDED|95.0|-0.31|0.97|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and the model adjusted Week 28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.97|-0.31|0.1530
92438826|NCT02879305|184762930|SUPERIORITY||LS mean difference|0.53||||0.0686|TWO_SIDED|95.0|-0.17|1.22|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and the model adjusted Week 52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.22|-0.17|0.0686
92438827|NCT02879305|184762931|SUPERIORITY||LS mean difference|-0.17||||0.6807|TWO_SIDED|95.0|-0.88|0.54|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and the model adjusted Week 8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.54|-0.88|0.6807
92438828|NCT02879305|184762931|SUPERIORITY||LS mean difference|0.17||||0.3256|TWO_SIDED|95.0|-0.57|0.91|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and the model adjusted Week 12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.91|-0.57|0.3256
92438829|NCT02879305|184762931|SUPERIORITY||LS mean difference|-0.01||||0.5144|TWO_SIDED|95.0|-0.81|0.78|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and the model adjusted Week 28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.78|-0.81|0.5144
92438830|NCT02879305|184762931|SUPERIORITY||LS mean difference|-0.6||||0.912|TWO_SIDED|95.0|-1.47|0.27|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and the model adjusted Week 52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.27|-1.47|0.9120
92438831|NCT02879305|184762932|SUPERIORITY||LS mean difference|-0.25||||0.7432|TWO_SIDED|95.0|-0.99|0.5|||MMRM||Bodily pain,Week8: Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.50|-0.99|0.7432
92438832|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.58||||0.0631|TWO_SIDED|95.0|-0.16|1.33|||MMRM||Bodily pain,Week12: Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.33|-0.16|0.0631
92438833|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.04||||0.4604|TWO_SIDED|95.0|-0.79|0.87|||MMRM||Bodily pain,Week28: Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.87|-0.79|0.4604
92171260|NCT02814838|184231699|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Daily Insulin Requirement (IU/kg/day) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.048||||0.2225|TWO_SIDED|95.0|-0.1257|0.0298|||Mixed Models Analysis|||at week 13||0.0298|-0.1257|0.2225
92438834|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.28||||0.2688|TWO_SIDED|95.0|-0.6|1.15|||MMRM||Bodily pain,Week52: Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.15|-0.60|0.2688
92171261|NCT02814838|184231699|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Daily Insulin Requirement (IU/kg/day) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.0369||||0.551|TWO_SIDED|95.0|-0.1596|0.0858|||Mixed Models Analysis|||at week 26||0.0858|-0.1596|0.551
92438835|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.26||||0.1918|TWO_SIDED|95.0|-0.32|0.84|||MMRM||General health,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.84|-0.32|0.1918
92438836|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.45||||0.0677|TWO_SIDED|95.0|-0.14|1.04|||MMRM||General health,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||1.04|-0.14|0.0677
92438837|NCT02879305|184762932|SUPERIORITY||LS mean difference|-0.33||||0.8386|TWO_SIDED|95.0|-0.98|0.32|||MMRM||General health,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.32|-0.98|0.8386
92438838|NCT02879305|184762932|SUPERIORITY||LS mean difference|-0.29||||0.7928|TWO_SIDED|95.0|-0.99|0.41|||MMRM||General health,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.41|-0.99|0.7928
92438839|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.04||||0.4537|TWO_SIDED|95.0|-0.63|0.71|||MMRM||Mental health,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.71|-0.63|0.4537
92438840|NCT02879305|184762932|SUPERIORITY||LS mean difference|-0.05||||0.5548|TWO_SIDED|95.0|-0.74|0.65|||MMRM||Mental health,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.65|-0.74|0.5548
92438841|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.13||||0.3626|TWO_SIDED|95.0|-0.61|0.88|||MMRM||Mental health,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.88|-0.61|0.3626
92438842|NCT02879305|184762932|SUPERIORITY||LS mean difference|-0.81||||0.9721|TWO_SIDED|95.0|-1.64|0.02|||MMRM||Mental health,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.02|-1.64|0.9721
92438843|NCT02879305|184762932|SUPERIORITY||LS mean difference|-0.09||||0.5789|TWO_SIDED|95.0|-0.96|0.78|||MMRM||Role-emotional,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.78|-0.96|0.5789
92438844|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.37||||0.2054|TWO_SIDED|95.0|-0.51|1.24|||MMRM||Role-emotional,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||1.24|-0.51|0.2054
92438845|NCT02879305|184762932|SUPERIORITY||LS mean difference|-0.05||||0.5389|TWO_SIDED|95.0|-0.98|0.89|||MMRM||Role-emotional,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.89|-0.98|0.5389
92438846|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.09||||0.4289|TWO_SIDED|95.0|-0.91|1.09|||MMRM||Role-emotional,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||1.09|-0.91|0.4289
92438847|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.08||||0.4096|TWO_SIDED|95.0|-0.6|0.75|||MMRM||Role-physical,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.75|-0.60|0.4096
92438848|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.4||||0.1196|TWO_SIDED|95.0|-0.27|1.07|||MMRM||Role-physical,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions|||1.07|-0.27|0.1196
92438849|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.3||||0.2093|TWO_SIDED|95.0|-0.42|1.01|||MMRM||Role-physical,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions|||1.01|-0.42|0.2093
92171262|NCT02814838|184231699|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Daily Insulin Requirement (IU/kg/day) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.063||||0.2501|TWO_SIDED|95.0|-0.1712|0.0453|||Mixed Models Analysis|||at week 52||0.0453|-0.1712|0.2501
92438850|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.39||||0.1674|TWO_SIDED|95.0|-0.4|1.19|||MMRM||Role-physical,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions|||1.19|-0.40|0.1674
92438851|NCT02879305|184762932|SUPERIORITY||LS mean difference|-0.14||||0.6585|TWO_SIDED|95.0|-0.82|0.54|||MMRM||Social fun, Week 8: Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.54|-0.82|0.6585
92438852|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.69||||0.0293|TWO_SIDED|95.0|-0.03|1.4|||MMRM||Social fun, Week 12: Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.40|-0.03|0.0293
92438853|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.33||||0.2057|TWO_SIDED|95.0|-0.45|1.11|||MMRM||Social fun, Week 28: Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.11|-0.45|0.2057
92438854|NCT02879305|184762932|SUPERIORITY||LS mean difference|0.02||||0.4849|TWO_SIDED|95.0|-0.86|0.9|||MMRM||Social fun, Week 52: Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.90|-0.86|0.4849
92438855|NCT02879305|184762933|SUPERIORITY||LS mean difference|0.03||||0.4621|TWO_SIDED|95.0|-0.58|0.64|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and model adjusted Week 8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.64|-0.58|0.4621
92438856|NCT02879305|184762933|SUPERIORITY||LS mean difference|0.35||||0.1439|TWO_SIDED|95.0|-0.29|0.98|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and model adjusted Week 12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.98|-0.29|0.1439
92438857|NCT02879305|184762933|SUPERIORITY||LS mean difference|0.24||||0.2392|TWO_SIDED|95.0|-0.43|0.92|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and model adjusted Week 28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.92|-0.43|0.2392
92438858|NCT02879305|184762933|SUPERIORITY||LS mean difference|-0.15||||0.6545|TWO_SIDED|95.0|-0.9|0.6|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and model adjusted Week 52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.60|-0.90|0.6545
92438859|NCT02879305|184762934|SUPERIORITY||LS mean difference|0.64||||0.029|TWO_SIDED|95.0|-0.02|1.31|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and model adjusted Week 8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.31|-0.02|0.0290
92438860|NCT02879305|184762934|SUPERIORITY||LS mean difference|0.56||||0.0509|TWO_SIDED|95.0|-0.11|1.24|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and model adjusted Week 12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.24|-0.11|0.0509
92438861|NCT02879305|184762934|SUPERIORITY||LS mean difference|0.77||||0.0237|TWO_SIDED|95.0|0.01|1.53|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and model adjusted Week 28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.53|0.01|0.0237
92438862|NCT02879305|184762934|SUPERIORITY||LS mean difference|0.58||||0.0828|TWO_SIDED|95.0|-0.24|1.39|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and model adjusted Week 52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.39|-0.24|0.0828
92438863|NCT02879305|184762935|SUPERIORITY||LS mean difference|0.0003||||0.4939|TWO_SIDED|95.0|-0.0326|0.0331|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.0331|-0.0326|0.4939
92438864|NCT02879305|184762936|SUPERIORITY||LS mean difference|-1.8||||0.9292|TWO_SIDED|95.0|-4.2|0.6|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.6|-4.2|0.9292
92438865|NCT02879305|184762937|SUPERIORITY||LS mean difference|-0.06||||0.0428|TWO_SIDED|95.0|-0.13|0.01|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and model adjusted Week 8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.01|-0.13|0.0428
92438866|NCT02879305|184762937|SUPERIORITY||LS mean difference|-0.04||||0.1155|TWO_SIDED|95.0|-0.11|0.03|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and model adjusted Week 12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.03|-0.11|0.1155
92438867|NCT02879305|184762937|SUPERIORITY||LS mean difference|-0.04||||0.1426|TWO_SIDED|95.0|-0.12|0.03|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and model adjusted Week 28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.03|-0.12|0.1426
92238055|NCT03151148|184380353|SUPERIORITY||Geometric mean ratio (GMR)|0.93||||0.957|TWO_SIDED|95.0|0.062|13.875|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||13.875|0.062|0.957
92239906|NCT04174638|184383765|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||It was calculated for detect of difference in mean the motivation sub-dimension score of Modified Morisky Scale between intervention and control group from baseline to week 12.||||<0.001
92239907|NCT04174638|184383769|SUPERIORITY|||||||0.297||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||It was calculated for detect of difference in mean the physical functions sub-dimension score of Kidney Disease Quality of Life Instrument 36 Scale between intervention and control group from baseline to week 12.||||0.297
92239908|NCT04174638|184383769|SUPERIORITY|||||||0.742||||||The threshold for statistical significance was p=0.05|t-test, 2 sided|||It was calculated for detect of difference in mean the mental functions sub-dimension score of Kidney Disease Quality of Life Instrument 36 Scale between intervention and control group from baseline to week 12.||||0.742
92279999|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.282||||0.0623|TWO_SIDED|95.0|-0.579|0.015||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.015|-0.579|0.0623
92280000|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.255||||0.0951|TWO_SIDED|95.0|-0.554|0.045||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.045|-0.554|0.0951
92280001|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.06||||0.6985|TWO_SIDED|95.0|-0.363|0.243||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.243|-0.363|0.6985
92280002|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.373||||0.0163|TWO_SIDED|95.0|-0.677|-0.069||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.069|-0.677|0.0163
92280003|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.345||||0.0273|TWO_SIDED|95.0|-0.652|-0.039||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.039|-0.652|0.0273
92280004|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.056||||0.7187|TWO_SIDED|95.0|-0.362|0.25||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.250|-0.362|0.7187
92280005|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.29||||0.064|TWO_SIDED|95.0|-0.596|0.017||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.017|-0.596|0.0640
92280006|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.484||||0.0023|TWO_SIDED|95.0|-0.793|-0.175||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.175|-0.793|0.0023
92280007|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.079||||0.6033|TWO_SIDED|95.0|-0.378|0.22||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.220|-0.378|0.6033
92280008|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.35||||0.0222|TWO_SIDED|95.0|-0.65|-0.05||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.050|-0.650|0.0222
92280009|NCT02637557|184463081|SUPERIORITY||LS Mean Difference|-0.482||||0.0019|TWO_SIDED|95.0|-0.785|-0.18||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.180|-0.785|0.0019
92280010|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|0.143||||0.1922|TWO_SIDED|95.0|-0.072|0.357||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.357|-0.072|0.1922
92280011|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|0.072||||0.5091|TWO_SIDED|95.0|-0.143|0.288||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.288|-0.143|0.5091
92438868|NCT02879305|184762937|SUPERIORITY||LS mean difference|-0.05||||0.1152|TWO_SIDED|95.0|-0.13|0.03|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and model adjusted Week 52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.03|-0.13|0.1152
92438869|NCT00613938|184762946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|62.4|STANDARD_ERROR_OF_MEAN|11.9|<|0.001||95.0|39.01|85.73||Comparisons of tapentadol dose groups and placebo was performed with Hochberg procedure for adjustment for the multiple tests.|ANCOVA||The results shown are the treatment group differences between Tapentadol IR 50mg group and placebo.|Null hypothesis: There are no differences in pain intensity measured by SPID-48 hours between any of tapentadol dose groups and placebo. ANCOVA model with factors of treatment, center and baseline pain intensity score was used for the primary analysis.||85.73|39.01|<0.001
92446786|NCT00280566|184780542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|0.71||0.0161|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0161
92280012|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|0.037||||0.7394|TWO_SIDED|95.0|-0.181|0.254||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.254|-0.181|0.7394
92280013|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|0.073||||0.5845|TWO_SIDED|95.0|-0.189|0.334||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.334|-0.189|0.5845
92280014|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.034||||0.7959|TWO_SIDED|95.0|-0.296|0.228||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.228|-0.296|0.7959
92280015|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.015||||0.9086|TWO_SIDED|95.0|-0.28|0.249||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.249|-0.280|0.9086
92280016|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.08||||0.5334|TWO_SIDED|95.0|-0.333|0.173||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.173|-0.333|0.5334
92438870|NCT00312494|184763093|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1077||95.0||||The p-values reported are unadjusted for multiple comparisons. Dunnet's procedure for multiple dose comparisons to placebo was used for primary efficacy measure at Week 3.|Mixed Models Analysis|||N=135/arm (405 total) for 85% power for 2-sample t-test (2-sided alpha=0.05) based on true mean difference=3.5 and SD=10. Interim Analysis (IA) to validate sample-size assumptions and adjust sample-size if needed. Based on IA results total sample-size increased to N=223/arm (669 total) to maintain desired power. Null Hypothesis=No statistically significant difference between add-on ziprasidone (higher, lower dose) and add-on placebo groups with respect to the population mean for primary endpoint||||0.1077
92438871|NCT00312494|184763093|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4274||95.0||||The p-values reported are unadjusted for multiple comparisons. Dunnet's procedure for multiple dose comparisons to placebo was used for primary efficacy measure at Week 3.|Mixed Models Analysis|||Week 3 Mixed Model Repeated Measures (MMRM) with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline YMRS total score. Tests were 2-sided and performed at the 0.05 significance level.||||0.4274
92438872|NCT00312494|184763094|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4025||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline YMRS total score.||||0.4025
92438873|NCT00312494|184763094|SUPERIORITY_OR_OTHER_LEGACY|||||||0.283||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline YMRS total score.||||0.2830
92438874|NCT00312494|184763094|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4125||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline YMRS total score.||||0.4125
92438875|NCT00312494|184763094|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1527||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline YMRS total score.||||0.1527
92438876|NCT00312494|184763095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0101||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.0101
92438877|NCT00312494|184763095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0694||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.0694
92438878|NCT00312494|184763095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0183||95.0||||The p-values reported are unadjusted for multiple comparisons|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.0183
92438879|NCT00312494|184763095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0176||95.0||||The p-values reported are unadjusted for multiple comparisons|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.0176
92438880|NCT00312494|184763095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2302||95.0||||The p-values reported are unadjusted for multiple comparisons|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.2302
92438881|NCT00312494|184763095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0796||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.0796
92438882|NCT00312494|184763096|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6191||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.6191
92438883|NCT00312494|184763096|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5629||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.5629
92438884|NCT00312494|184763096|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9049||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.9049
92239909|NCT04174638|184383769|SUPERIORITY|||||||0.719||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||It was calculated for detect of difference in mean the burden of kidney disease sub-dimension score of Kidney Disease Quality of Life Instrument 36 Scale between intervention and control group from baseline to week 12.||||0.719
92239910|NCT04174638|184383769|SUPERIORITY|||||||0.063||||||The threshold for statistical significance was p=0.05|t-test, 2 sided|||It was calculated for detect of difference in mean the symptoms/problems sub-dimension score of Kidney Disease Quality of Life Instrument 36 Scale between intervention and control group from baseline to week 12.||||0.063
92438885|NCT00312494|184763096|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7153||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.7153
92438886|NCT00312494|184763096|SUPERIORITY_OR_OTHER_LEGACY|||||||0.242||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.2420
92438887|NCT00312494|184763096|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6121||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.6121
92438888|NCT00312494|184763097|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6138||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.6138
92438889|NCT00312494|184763097|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6536||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.6536
92438890|NCT00312494|184763097|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4758||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.4758
92438891|NCT00312494|184763097|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7581||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.7581
92438892|NCT00312494|184763097|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2221||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.2221
92438893|NCT00312494|184763097|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5665||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.5665
92438894|NCT00312494|184763098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1063||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 total score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS total score.||||0.1063
92438895|NCT00312494|184763098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2499||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 total score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS total score.||||0.2499
92238056|NCT03151148|184380353|SUPERIORITY||Geometric mean ratio (GMR)|1.78||||0.654|TWO_SIDED|95.0|0.141|22.607|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||22.607|0.141|0.654
92280017|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.212||||0.102|TWO_SIDED|95.0|-0.466|0.042||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.042|-0.466|0.1020
92438896|NCT00312494|184763098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0876||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 positive score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS positive score.||||0.0876
92438897|NCT00312494|184763098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3623||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 positive score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS positive score.||||0.3623
92280018|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.357||||0.0066|TWO_SIDED|95.0|-0.613|-0.1||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.100|-0.613|0.0066
92280019|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.127||||0.3586|TWO_SIDED|95.0|-0.399|0.145||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.145|-0.399|0.3586
92438898|NCT00312494|184763098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4686||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 negative score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS negative score.||||0.4686
92438899|NCT00312494|184763098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2202||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 negative score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS negative score.||||0.2202
92438900|NCT00312494|184763099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0728||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline GAF score.||||0.0728
92438901|NCT00312494|184763099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3174||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline GAF score.||||0.3174
92438902|NCT00312494|184763100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.446||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline LIFE-RIFT total score.||||0.4460
92438903|NCT00312494|184763100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3253||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline LIFE-RIFT total score.||||0.3253
92438904|NCT02642614|184763121|SUPERIORITY_OR_OTHER||Ratio of adjusted mean|1.59|STANDARD_ERROR_OF_MEAN|0.51||0.154|TWO_SIDED|90.0|0.93|2.72|||ANCOVA||"Standard Error of Mean is actually Standard Error of ratio of adjusted means, adjusted means ratio is calculated as 5 milligram BI 1026706 divided by Placebo."|Adjusted means were calculated by exponentiating Least Square (LS) means of corresponding values obtained from fitting an ANCOVA model to the natural log transformed endpoint variable, including treatment effect and study baseline as covariates, and adjusting for stratification factors (extensive pharmacokinetic (PK) sub-study participation and Multiple-breath washout (MBW) sub-study participation)||2.72|0.93|0.1540
92438905|NCT02642614|184763121|SUPERIORITY_OR_OTHER||Ratio of adjusted mean|1.58|STANDARD_ERROR_OF_MEAN|0.49||0.143|TWO_SIDED|90.0|0.94|2.65|||ANCOVA||"Standard Error of Mean is actually Standard Error of ratio of adjusted means, adjusted means ratio is calculated as 25 milligram BI 1026706 divided by Placebo."|The adjusted means were calculated by exponentiating the LS means of the corresponding values obtained from fitting an ANCOVA model to the natural log transformed endpoint variable, including treatment effect and study baseline as covariates, and adjusting for stratification factors (extensive PK sub-study participation and MBW sub-study participation)||2.65|0.94|0.1430
92438906|NCT02642614|184763121|SUPERIORITY_OR_OTHER||Ratio of adjusted mean|1.44|STANDARD_ERROR_OF_MEAN|0.45||0.2398|TWO_SIDED|90.0|0.86|2.41|||ANCOVA||"Standard Error of Mean is actually Standard Error of ratio of adjusted means, adjusted means ratio is calculated as 100 milligram BI 1026706 divided by Placebo."|The adjusted means were calculated by exponentiating the LS means of the corresponding values obtained from fitting an ANCOVA model to the natural log transformed endpoint variable, including treatment effect and study baseline as covariates, and adjusting for stratification factors (extensive PK sub-study participation and MBW sub-study participation)||2.41|0.86|0.2398
92438907|NCT01985581|184763130|SUPERIORITY_OR_OTHER||LS mean difference|-3.0||||0.0392|TWO_SIDED|95.0|-5.9|-0.2|||ANOVA|||||-0.2|-5.9|0.0392
92438908|NCT01985581|184763131|SUPERIORITY_OR_OTHER||LS mean difference|0.3||||0.894|TWO_SIDED|95.0|-4.0|4.6|||ANOVA|||||4.6|-4.0|0.894
92438909|NCT01985581|184763132|SUPERIORITY_OR_OTHER||LS mean difference|-6.2||||0.0001|TWO_SIDED|95.0|-9.1|-3.2|||ANOVA|||||-3.2|-9.1|0.0001
92438910|NCT01985581|184763134|SUPERIORITY_OR_OTHER||LS mean difference|0.3||||0.8706|TWO_SIDED|95.0|-3.2|3.7|||ANOVA|||||3.7|-3.2|0.8706
92438911|NCT02057198|184763137|SUPERIORITY||Slope|-0.15||||0.52|TWO_SIDED|95.0|-0.34|0.05||Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models.|Mixed Models Analysis|A mixed effects model was used to compare decay slopes for the reduction in log(CFUs)/day according to each treatment group||||0.05|-0.34|0.52
92438912|NCT02057198|184763137|SUPERIORITY||Slope|-0.17||||0.66|TWO_SIDED|95.0|-0.69|0.35||Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models.|Mixed Models Analysis|A mixed effects model was used to compare decay slopes for the reduction in log(CFUs)/day according to each treatment group||||0.35|-0.69|0.66
92438913|NCT02057198|184763138|SUPERIORITY||||||<|0.001|||||||Chi square (2 proportion test)|||||||<0.001
92438914|NCT02057198|184763138|SUPERIORITY|||||||0.01|||||||Chi square (2 proportion test)|||||||0.01
92438915|NCT02057198|184763139|SUPERIORITY|||||||0.99|||||||Chi square (2 proportion test)|||||||0.99
92438916|NCT02057198|184763139|SUPERIORITY|||||||0.52|||||||Chi square (2 proportion test)|||||||0.52
92446787|NCT00280566|184780543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.0088|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 1 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0088
92438917|NCT02057198|184763140|SUPERIORITY||Slope|-0.43||||0.05|TWO_SIDED|95.0|-0.67|-0.19|||Mixed Models Analysis|A mixed effects model was used to compare decay slopes for the reduction in log(CFUs)/day according to each treatment group||Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models. Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models.||-0.19|-0.67|0.05
92438918|NCT02057198|184763140|SUPERIORITY||Slope|-0.85||||0.002|TWO_SIDED|95.0|-1.14|-0.57|||Mixed Models Analysis|A mixed effects model was used to compare decay slopes for the reduction in log(CFUs)/day according to each treatment group||Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models. Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models.||-0.57|-1.14|0.002
92438919|NCT02057198|184763142|SUPERIORITY|||||||0.48|||||||Chi square (two proportion test)|||||||0.48
92438920|NCT02057198|184763142|SUPERIORITY|||||||0.66|||||||Chi square (two proportion test)|||||||0.66
92438921|NCT03878745|184763144|SUPERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> 0, we can conclude in superiority.|Overall Mean|0.21|||||TWO_SIDED|95.0|0.07|0.35||||||||0.35|0.07|
92438922|NCT03878745|184763145|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.6|1.6||||||||1.6|-1.6|
92438923|NCT03878745|184763146|OTHER||Mean Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-3.6|0.1||||||||0.1|-3.6|
92438924|NCT03878745|184763147|SUPERIORITY|A mixed effect model was used (fixed effects of PN, abdomen site, order of pair, order of PN within pair and random subject effect) to estimate average difference (BD Nano PN - Terumo PN) in delivery time and total injection time. A Box-Cox transformation might be used to normalize the data if necessary.|Median Difference (Final Values)|-0.5|||<|0.001|ONE_SIDED|95.0||-0.026|||Mixed Models Analysis|||||-0.026||<0.001
92438925|NCT03878745|184763148|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.2|1.2||||||||1.2|-1.2|
92438926|NCT00065507|184763150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.74|||<|0.0001|TWO_SIDED|95.0|-2.3|-1.18|||Regression, Linear|Linear regression model adjusted for baseline HBV DNA and LVDr status.||||-1.18|-2.30|<0.0001
92438927|NCT00065507|184763151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.85|-0.96|||Regression, Linear|adjusted for baseline HBV DNA and LVDr Status||||-0.96|-1.85|<0.0001
92438928|NCT00065507|184763152|SUPERIORITY_OR_OTHER||Mean Percent Difference|32.7|||<|0.0001|TWO_SIDED|95.0|20.2|45.2|||Cochran-Mantel-Haenszel|||||45.2|20.2|<0.0001
92438929|NCT00065507|184763153|SUPERIORITY_OR_OTHER||Mean percent treatment difference|38.0|||<|0.0001|TWO_SIDED|95.0|24.8|50.3|||Cochran-Mantel-Haenszel|||||50.3|24.8|<0.0001
92438930|NCT00065507|184763154|SUPERIORITY_OR_OTHER||percent treatment difference|19.2||||0.0193|TWO_SIDED|95.0|3.7|34.6|||Cochran-Mantel-Haenszel|||Week 24 treatment difference||34.6|3.7|0.0193
92438931|NCT00065507|184763154|SUPERIORITY_OR_OTHER||percent treatment difference|16.4||||0.0425|TWO_SIDED|95.0|0.9|32.0|||Cochran-Mantel-Haenszel|||Week 48 treatment difference||32.0|0.9|0.0425
92438932|NCT00065507|184763160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.51|TWO_SIDED|95.0|-1.63|0.82|||Regression, Linear|Model estimate incorporates prognostic factors measured at baseline. Adjusted for baseline||Covariate adjusted model for MELD score at Week 24||0.82|-1.63|0.51
92438933|NCT00065507|184763160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59|||<|0.0001|TWO_SIDED|95.0|-1.08|1.88|||Regression, Linear|Model estimate incorporates prognostic factors measured at baseline. Adjusted for baseline||Covariate adjusted model for MELD score at Week 48||1.88|-1.08|<0.0001
92438934|NCT00065507|184763168|SUPERIORITY_OR_OTHER||Difference Estimate|10.4|||||TWO_SIDED|95.0|-4.5|25.2||||||Difference estimate ETV - ADV at Week 48||25.2|-4.5|
92438935|NCT00065507|184763169|SUPERIORITY_OR_OTHER||Difference Estimate|-0.4|||||TWO_SIDED|95.0|-8.7|8.0||||||Difference Estimate at Week 48||8.0|-8.7|
92438936|NCT00065507|184763170|SUPERIORITY_OR_OTHER||Difference Estimate|-7.2|||||TWO_SIDED|95.0|-21.3|6.9||||||Difference Estimate at Week 48||6.9|-21.3|
92438937|NCT00065507|184763171|SUPERIORITY_OR_OTHER||Difference Estimate|5.7|||||TWO_SIDED|95.0|-0.3|11.7||||||Difference Estimate at Week 48||11.7|-0.3|
92438938|NCT00065507|184763172|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.2|TWO_SIDED|95.0|0.46|1.18|||Regression, Cox|Cox proportional hazard model, adjusted for age \<=45 versus age \>45 years, gender, and race (white versus non-white).||treatment comparison of HCC-free survival at Week 48||1.18|0.46|0.20
92438939|NCT00665353|184763194|SUPERIORITY_OR_OTHER||proportion|0.158||||0.29|ONE_SIDED|90.0|0.059|||This is an unadjusted p-value. Statistical significance was defined a priori as 0.10.|Exact test of proportions|||The proportion of subjects responding was compared to a historical null rate of 0.10. The hypothesized response rate was 0.30.|||0.059|0.29
92438940|NCT00665353|184763197|SUPERIORITY_OR_OTHER||proportion|0.053||||0.42|ONE_SIDED|90.0|0.001|||This is an unadjusted p-value. Statistical significance was defined a priori as 0.10.|Exact test of proportions|||The proportion of subjects responding was compared to a historical null rate of 0.02. The hypothesized response rate was 0.15.|||0.001|0.42
92280020|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.348||||0.0128|TWO_SIDED|95.0|-0.621|-0.075||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.075|-0.621|0.0128
92438941|NCT00870363|184763202|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Kruskal-Wallis|||||||>0.05
92438942|NCT02389998|184763210|SUPERIORITY||||||<|0.03|||||||ANCOVA|||||||<0.03
92438943|NCT02389998|184763211|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||.001
92438944|NCT02389998|184763212|SUPERIORITY|||||||0.3|||||||McNemar|||||||0.3
92438945|NCT02632552|184763214|EQUIVALENCE|Using a pre-intervention rate of 18 for both intervention and control, and a post-control change of 1, assuming an alpha of 0.05, we have power (0.8) to detect a difference of differences in change in mean urgent care/ED utilization of 0.75 with a standard deviation equal to the control mean; however, the equivalence boundary did not apply because this is a pragmatic trial.|Incidence Rate Ratio|1.11|STANDARD_ERROR_OF_MEAN|0.15||0.45|TWO_SIDED|95.0|0.85|1.45|||Mixed Effects Negative Binomial Model|A segmented negative binomial regression model was used to estimate changes in ED/urgent care utilization between the intervention and control groups.||||1.45|0.85|0.45
92438946|NCT02632552|184763215|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for the Mean Difference|-1.8||||0.05|TWO_SIDED|95.0|-7.21|3.61|||Mixed Models Analysis|||||3.61|-7.21|0.05
92438947|NCT02632552|184763216|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for the Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|0.38||0.03|TWO_SIDED|95.0|0.08|1.57|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||1.57|0.08|0.03
92438948|NCT02632552|184763217|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.18||0.75|TWO_SIDED|95.0|-0.41|0.29|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||0.29|-0.41|0.75
92438949|NCT02632552|184763218|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.74|TWO_SIDED|95.0|-0.5|0.7|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||0.70|-0.50|0.74
92438950|NCT02632552|184763219|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.87||0.63|TWO_SIDED|95.0|-2.21|1.29|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||1.29|-2.21|0.63
92438951|NCT02632552|184763220|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta of Mean Difference|1.54|STANDARD_ERROR_OF_MEAN|1.26||0.23|TWO_SIDED|95.0|-0.97|4.05|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||4.05|-0.97|0.23
92438952|NCT02632552|184763221|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for the Mean Difference|-2.43|STANDARD_ERROR_OF_MEAN|2.8||0.38|TWO_SIDED|95.0|-7.95|3.1||MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.|Mixed Models Analysis|||||3.10|-7.95|0.38
92438953|NCT02632552|184763222|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for the Mean Difference|-2.79|STANDARD_ERROR_OF_MEAN|3.2||0.38|TWO_SIDED|95.0|-9.1|3.52|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||3.52|-9.10|0.38
92438954|NCT00597766|184763353|SUPERIORITY_OR_OTHER||GroupXtime interaction|-0.17||||0.16|TWO_SIDED|95.0||||Comparison 60mg vs. 20mg: F (1,92)=2.06, p=0.16|Linear mixed model|1st order antedependence covariance structure||"Hypothesis that 60mg group would have greater pain relief than the the 20mg group.~The study was powered to detect the difference in pain between the 40mg and placebo at 4-wks. To detect effect size 0.75 with alpha of 0.05, beta of 0.20, 31 the difference between the 60mg and placebo groups (effect size \> 1.0),18 participants per group are needed. \*NOTE\* the design was changed from placebo-control due to ethical concerns arising from ethical concerns of placebo injection."||||0.16
92438955|NCT00597766|184763353|SUPERIORITY_OR_OTHER||group x time interaction|-0.04||||0.77|TWO_SIDED|95.0||||Comparison 40mg vs. 20mg: F (1,90)=0.1, p=0.77|linear mixed model|first order antedependent covariance structure||"Hypothesis that 40mg group would have greater pain reduction than the 20mg group.~The study was powered to detect the difference in pain between the 40mg and placebo at 4-wks. To detect effect size 0.75 with alpha of 0.05, beta of 0.20, 31 the difference between the 60mg and placebo groups (effect size \> 1.0),18 participants per group are needed. \*NOTE\* the design was changed from placebo-control due to ethical concerns arising from ethical concerns of placebo injection."||||0.77
92438956|NCT00597766|184763354|SUPERIORITY_OR_OTHER||group x time interaction|-0.3||||0.2|TWO_SIDED|95.0||||Comparison 60mg vs. 20mg: F (1,36)=1.7, p=0.2|Linear mixed model|first order antedpendent covariance structure||This study was not powered for secondary outcomes. The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.2
92438957|NCT00597766|184763354|SUPERIORITY_OR_OTHER||group x time interaction|-0.02||||0.9|TWO_SIDED|95.0||||Comparison 40mg vs. 20mg: F (1,35)=0.0, p=0.9|linear mixed model|1st order antedependence covariance structure||This study was not powered for secondary outcomes.The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.9
92438958|NCT00597766|184763355|SUPERIORITY_OR_OTHER||Groupxtime interaction|1.3||||0.2|TWO_SIDED|95.0||||Comparison 60mg vs. 20mg: F (1,36)=1.6, p=0.2|linear mixed model|unstructured covariance structure||The study was not powered for secondary analyses. The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.2
92438959|NCT00597766|184763355|SUPERIORITY_OR_OTHER||Groupxtime interaction|1.1||||0.3|TWO_SIDED|95.0||||Comparison 40mg vs. 20mg: F (1,35)=1.0, p=0.3|linear mixed model|Unstructured covariance structure||Secondary outcomes were not powered for analysis. The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.3
92438960|NCT00597766|184763356|SUPERIORITY_OR_OTHER||group x time interaction|0.4||||0.8|TWO_SIDED|95.0||||Comparison 60mg vs. 20mg: F (1,36)=0.06, p=0.8|linear mixed model|first order antedepentent covariance structure||This study was not powered for secondary outcomes.The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.8
92438961|NCT00597766|184763356|SUPERIORITY_OR_OTHER||group x time interaction|1.7||||0.3|TWO_SIDED|95.0||||Comparison 40mg vs. 20mg: F (1,35)=1.1, p=0.3|linear mixed model|first order antedependent covariance structure||This study was not powered for secondary outcomes.The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.3
92438962|NCT00530764|184763365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.33|TWO_SIDED|95.0|0.72|2.6|||Regression, Logistic|||The proportions of responders were compared between the treatment groups using logistic regression with region and treatment groups as factors. The null hypothesis was that there was no difference between each of the Sativex treatment groups and placebo. The estimated response rates, odds ratios, 95% CIs for the odds ratios and p-values were presented.||2.60|0.72|0.33
92438963|NCT00530764|184763365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.62|TWO_SIDED|95.0|0.46|1.76|||Regression, Logistic|||As for Sativex Low dose versus placebo||1.76|0.46|0.62
92438964|NCT00530764|184763365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.61|TWO_SIDED|95.0|0.62|2.28|||Regression, Logistic|||As for Sativex Low dose versus placebo||2.28|0.62|0.61
92438965|NCT00530764|184763366|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-12.5||||0.0077|TWO_SIDED|95.0|-21.35|-3.33|||Wilcoxon rank sum tests|||Each of the active treatment groups were compared with placebo using pairwise Wilcoxon rank-sum tests. The Hodges-Lehmann estimates and 95% CI for the median differences were also presented.||-3.33|-21.35|0.0077
92438966|NCT00530764|184763366|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.97||||0.67|TWO_SIDED|95.0|-11.04|7.14|||Wilcoxin rank sum test|||As for Sativex low dose versus placebo||7.14|-11.04|0.67
92438967|NCT00530764|184763366|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-8.75||||0.039|TWO_SIDED|95.0|-17.14|0.0|||Wilcoxin rank sum test|||As for Sativex low dose versus placebo||0.00|-17.14|0.039
92438968|NCT00530764|184763367|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.75||||0.006|TWO_SIDED|95.0|-1.28|-0.22|||ANCOVA|||The change in mean pain NRS score (average pain) was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and region and treatment group as factors.||-0.22|-1.28|0.006
92438969|NCT00530764|184763367|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.09||||0.75|TWO_SIDED|95.0|-0.62|0.44|||ANCOVA|||As for Sativex low dose versus placebo||0.44|-0.62|0.75
92438970|NCT00530764|184763367|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.36||||0.19|TWO_SIDED|95.0|-0.89|0.18|||ANCOVA|||As for Sativex low dose versus placebo||0.18|-0.89|0.19
92438971|NCT00530764|184763368|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.73||||0.011|TWO_SIDED|95.0|-1.3|-0.17|||ANCOVA|||The change in mean pain NRS score (worst pain) was analyzed using ANCOVA with the baseline value as a covariate and region and treatment group as factors.||-0.17|-1.30|0.011
92438972|NCT00530764|184763368|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.35||||0.14|TWO_SIDED|95.0|-0.81|0.11|||ANCOVA|||As for Sativex low dose versus placebo||0.11|-0.81|0.14
92280021|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.384||||0.0064|TWO_SIDED|95.0|-0.66|-0.109||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.109|-0.660|0.0064
92438973|NCT00530764|184763368|SUPERIORITY_OR_OTHER||Estimated Treatment Effect|-0.24||||0.4|TWO_SIDED|95.0|-0.81|0.32|||ANCOVA|||As for Sativex low dose versus placebo||0.32|-0.81|0.40
92438974|NCT00530764|184763369|SUPERIORITY_OR_OTHER||Estimated Treatment Effect|-0.88||||0.003|TWO_SIDED|95.0|-1.45|-0.31|||ANCOVA|||The change in mean sleep disturbance NRS score was analyzed using ANCOVA with the baseline value as a covariate and region and treatment group as factors.||-0.31|-1.45|0.003
92438975|NCT00530764|184763369|SUPERIORITY_OR_OTHER||Estimated Treatment Effect|-0.08||||0.78|TWO_SIDED|95.0|-0.65|0.49|||ANCOVA|||As for Sativex low dose versus placebo||0.49|-0.65|0.78
92438976|NCT00530764|184763369|SUPERIORITY_OR_OTHER||Estimated Treatment Effect|-0.33||||0.26|TWO_SIDED|95.0|-0.9|0.24|||ANCOVA|||As for Sativex low dose versus placebo.||0.24|-0.90|0.26
92438977|NCT00840294|184763401|SUPERIORITY_OR_OTHER|||||||0.33|||||||t-test, 2 sided|||||||0.33
92438978|NCT00828347|184763419|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED||||||Fisher Exact|||||||0.036
92438979|NCT01340898|184763423|SUPERIORITY_OR_OTHER||Percentage of subjects|100.0|||||TWO_SIDED|95.0|98.9|100.0|||||Immunogenicity was considered demonstrated if the lower limit of the two-sided exact 95% confidence interval (CI) for the percentage of subjects with rSBA titre ≥ 1:8 was greater than or equal to the pre-defined clinical limit of 80%.|Demonstration of the immunogenicity of the Nimenrix™ conjugate vaccine in terms of bactericidal antibodies to N. meningitidis serogroup A one-month post-dose 3 of Nimenrix™ vaccine at 7 months of age in healthy infants||100|98.9|
92438980|NCT01340898|184763423|SUPERIORITY_OR_OTHER||Percentage of subjects|99.7|||||TWO_SIDED|95.0|98.3|100.0|||||Immunogenicity was considered demonstrated if the lower limit of the two-sided exact 95% confidence interval (CI) for the percentage of subjects with rSBA titre ≥ 1:8 was greater than or equal to the pre-defined clinical limit of 80%.|Demonstration of the immunogenicity of the Nimenrix™ conjugate vaccine in terms of bactericidal antibodies to N. meningitidis serogroup C one-month post-dose 3 of Nimenrix™ vaccine at 7 months of age in healthy infants.||100|98.3|
92438981|NCT01340898|184763423|SUPERIORITY_OR_OTHER||Percentage of subjects|99.4|||||TWO_SIDED|95.0|97.8|99.9|||||Immunogenicity was considered demonstrated if the lower limit of the two-sided exact 95% confidence interval (CI) for the percentage of subjects with rSBA titre ≥ 1:8 was greater than or equal to the pre-defined clinical limit of 80%.|Demonstration of the immunogenicity of the Nimenrix™ conjugate vaccine in terms of bactericidal antibodies to N. meningitidis serogroup W-135 one-month post-dose 3 of Nimenrix™ vaccine at 7 months of age in healthy infants||99.9|97.8|
92438982|NCT01340898|184763423|SUPERIORITY_OR_OTHER||Percentage of subjects|99.7|||||TWO_SIDED|95.0|98.3|100.0|||||Immunogenicity was considered demonstrated if the lower limit of the two-sided exact 95% confidence interval (CI) for the percentage of subjects with rSBA titre ≥ 1:8 was greater than or equal to the pre-defined clinical limit of 80%.|Demonstration of the immunogenicity of the Nimenrix™ conjugate vaccine in terms of bactericidal antibodies to N. meningitidis serogroup Y one-month post-dose 3 of Nimenrix™ vaccine at 7 months of age in healthy infants||100|98.3|
92438983|NCT02028065|184763461|SUPERIORITY_OR_OTHER||Difference in incidence|5.3|||||TWO_SIDED|95.0|-0.9|10.7|||||Difference is Sugammadex 4 mg/kg incidence minus Placebo incidence. Confidence interval calculated using method of Miettinen and Nurminen (Statistics in Medicine 1985;4:213-226).|Planned sample size of 150 participants in each sugammadex group (4 mg/kg and 16 mg/kg) allowed estimation of adjudicated hypersensitivity in each sugammadex group with a 95% confidence interval with a half-width between 1.2 and 4.2 percentage points. Calculation, based on method of Clopper and Pearson (Biometrika 1934;26\[4\]:404-413), used underlying event rate of up to 6% in the sugammadex high dose group, based on study results from protocol P06042 (NCT00988065).||10.7|-0.9|
92438984|NCT02028065|184763461|SUPERIORITY_OR_OTHER||Difference in incidence|8.1|||||TWO_SIDED|95.0|1.7|14.2|||||Difference is Sugammadex 16 mg/kg incidence minus Placebo incidence. Confidence interval calculated using method of Miettinen and Nurminen(Statistics in Medicine 1985;4:213-226).|Planned sample size of 150 participants in each sugammadex group (4 mg/kg and 16 mg/kg) allowed estimation of adjudicated hypersensitivity in each sugammadex group with a 95% confidence interval with a half-width between 1.2 and 4.2 percentage points. Calculation, based on method of Clopper and Pearson (Biometrika 1934;26\[4\]:404-413), used underlying event rate of up to 6% in the sugammadex high dose group, based on study results from protocol P06042 (NCT00988065).||14.2|1.7|
92438985|NCT02028065|184763462|SUPERIORITY_OR_OTHER||Difference in incidence|0.0|||||TWO_SIDED|95.0|-4.8|2.5|||||Difference is Sugammadex 4 mg/kg incidence minus Placebo incidence. Confidence interval calculated using method of Miettinen and Nurminen (Statistics in Medicine 1985;4:213-226).|||2.5|-4.8|
92438986|NCT02028065|184763462|SUPERIORITY_OR_OTHER||Difference in incidence|0.7|||||TWO_SIDED|95.0|-4.2|3.7|||||Difference is Sugammadex 16 mg/kg incidence minus Placebo incidence. Confidence interval calculated using method of Miettinen and Nurminen (Statistics in Medicine 1985;4:213-226).|||3.7|-4.2|
92438987|NCT01698801|184763474|SUPERIORITY_OR_OTHER||Overall dichotomized response rate|87.5|||<|0.0001|TWO_SIDED|95.0|74.269|100.0||One sample binomial test for the overall response rate was performed to provide p-value (significance level: 0.05) based on EE population. The hypotheses of interest are: H0: p = 0.3, H1: p ≠ 0.3, where p is overall response.|Binomial test for dichotomized response|||||100|74.269|<0.0001
92438988|NCT00665847|184763493|SUPERIORITY_OR_OTHER||Proportion|52.5|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|42.7|62.2|||||The standard error for a proportion was calculated as the square root of the variance divided by the number of patients. The variance for a proportion is equal to p\*(1-p), with p being the proportion.|||62.2|42.7|
92438989|NCT01729754|184763531|SUPERIORITY||Difference in percentages|59.8|||<|0.001|TWO_SIDED|95.0|52.9|65.9|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and confidence intervals (CIs) are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||65.9|52.9|<0.001
92438990|NCT01729754|184763531|SUPERIORITY||Difference in percentages|55.5|||<|0.001|TWO_SIDED|95.0|48.3|61.8|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||61.8|48.3|<0.001
92438991|NCT01729754|184763532|SUPERIORITY||Difference in percentages|54.7|||<|0.001|TWO_SIDED|95.0|47.9|60.8|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||60.8|47.9|<0.001
92438992|NCT01729754|184763532|SUPERIORITY||Difference in percentages|50.2|||<|0.001|TWO_SIDED|95.0|43.2|56.5||Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Cochran-Mantel-Haenszel||Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||56.5|43.2|<0.001
92438993|NCT01729754|184763535|SUPERIORITY||Difference in percentages|19.2|||<|0.001|TWO_SIDED|95.0|11.5|26.7||Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Cochran-Mantel-Haenszel||Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||26.7|11.5|<0.001
92438994|NCT01729754|184763535|SUPERIORITY||Difference in percentages|20.1|||<|0.001|TWO_SIDED|95.0|12.4|27.6||Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Cochran-Mantel-Haenszel||Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||27.6|12.4|<0.001
92438995|NCT01729754|184763538|SUPERIORITY||Difference in percentages|24.1|||<|0.001|TWO_SIDED|95.0|16.2|31.7|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||31.7|16.2|<0.001
92438996|NCT01729754|184763538|SUPERIORITY||Difference in percentages|19.6|||<|0.001|TWO_SIDED|95.0|11.7|27.3|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights|||27.3|11.7|<0.001
92438997|NCT01729754|184763541|SUPERIORITY||Difference in percentages|35.3|||<|0.001|TWO_SIDED|95.0|29.2|41.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||41.1|29.2|<0.001
92438998|NCT01729754|184763541|SUPERIORITY||Difference in percentages|37.5|||<|0.001|TWO_SIDED|95.0|31.1|43.4|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights|||43.4|31.1|<0.001
92438999|NCT01729754|184763541|SUPERIORITY||Difference in percentages|15.2|||<|0.001|TWO_SIDED|95.0|8.3|22.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||22.1|8.3|<0.001
92439000|NCT01729754|184763541|SUPERIORITY||Difference in percentages|17.4|||<|0.001|TWO_SIDED|95.0|10.3|24.4|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||24.4|10.3|<0.001
92439001|NCT01729754|184763542|OTHER||Difference in percentages|27.1|||<|0.001|TWO_SIDED|95.0|19.1|34.7||Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Cochran-Mantel-Haenszel||Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||34.7|19.1|<0.001
92439002|NCT01729754|184763542|OTHER||Difference in percentages|24.9|||<|0.001|TWO_SIDED|95.0|17.0|32.6|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||32.6|17.0|<0.001
92439003|NCT01729754|184763545|SUPERIORITY||Difference in percentages|11.7|||<|0.001|TWO_SIDED|95.0|7.8|16.0|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||16.0|7.8|<0.001
92439004|NCT01729754|184763545|SUPERIORITY||Difference in percentages|12.4|||<|0.001|TWO_SIDED|95.0|8.5|16.6|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||16.6|8.5|<0.001
92439005|NCT01729754|184763545|SUPERIORITY||Difference in percentages|7.0||||0.001|TWO_SIDED|95.0|2.8|11.6|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||11.6|2.8|0.001
92439006|NCT01729754|184763545|SUPERIORITY||Difference in percentages|7.6|||<|0.001|TWO_SIDED|95.0|3.3|12.3|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||12.3|3.3|<0.001
92439007|NCT01729754|184763546|SUPERIORITY||Difference in percentages|15.7|||<|0.001|TWO_SIDED|95.0|9.4|22.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||22.1|9.4|<0.001
92439008|NCT01729754|184763546|SUPERIORITY||Difference in percentages|11.7|||<|0.001|TWO_SIDED|95.0|5.6|17.9|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||17.9|5.6|<0.001
92439009|NCT01729754|184763550|OTHER||Difference in least squares means|-8.2|||<|0.001|TWO_SIDED|95.0|-9.3|-7.2|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-7.2|-9.3|<0.001
92439010|NCT01729754|184763550|OTHER||Difference in least squares means|-8.3|||<|0.001|TWO_SIDED|95.0|-9.3|-7.3|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-7.3|-9.3|<0.001
92439011|NCT01729754|184763550|OTHER||Difference in least squares means|-1.3||||0.002|TWO_SIDED|95.0|-2.1|-0.5|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-0.5|-2.1|0.002
92439012|NCT01729754|184763550|OTHER||Difference in least squares means|-1.4||||0.001|TWO_SIDED|95.0|-2.2|-0.6|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-0.6|-2.2|0.001
92439013|NCT01729754|184763551|OTHER||Difference in least squares means|-1.7|||<|0.001|TWO_SIDED|95.0|-2.4|-1.0|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-1.0|-2.4|<0.001
92439014|NCT01729754|184763551|OTHER||Difference in least squares means|-2.2|||<|0.001|TWO_SIDED|95.0|-2.9|-1.5|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-1.5|-2.9|<0.001
92439015|NCT01729754|184763554|OTHER||Difference in percentages|39.3|||<|0.001|TWO_SIDED|95.0|31.8|46.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||46.1|31.8|<0.001
92439016|NCT01729754|184763554|OTHER||Difference in percentages|32.1|||<|0.001|TWO_SIDED|95.0|24.5|39.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||39.1|24.5|<0.001
92439017|NCT01729754|184763554|OTHER||Difference in percentages|11.9||||0.003|TWO_SIDED|95.0|4.1|19.5|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||19.5|4.1|0.003
92439018|NCT01729754|184763554|OTHER||Difference in percentages|4.8||||0.221|TWO_SIDED|95.0|-2.9|12.5|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||12.5|-2.9|0.221
92439019|NCT01729754|184763555|OTHER||Difference in percentages|25.7|||<|0.001|TWO_SIDED|95.0|17.7|33.4|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||33.4|17.7|<0.001
92439020|NCT01729754|184763555|OTHER||Difference in percentages|15.0|||<|0.001|TWO_SIDED|95.0|6.9|22.9|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||22.9|6.9|<0.001
92439021|NCT00773292|184763569|OTHER|change from baseline||||||0.24|||||||t-test, 2 sided|||||||0.24
92439022|NCT01853046|184763570|SUPERIORITY_OR_OTHER||LS Mean|1.14|||||TWO_SIDED|90.0|0.796|1.63||||||Point estimates (LS-means) and 2-sided exploratory 90% confidence intervals for AUC(0-tlast) of regorafenib calculated by re-transformation of the logarithmic data from ANOVAs.||1.63|0.796|
92439023|NCT01853046|184763570|SUPERIORITY_OR_OTHER||LS-means|0.684|||||TWO_SIDED|90.0|0.397|1.18||||||Point estimates (LS-means) and 2-sided exploratory 90% confidence intervals for AUC(0-tlast) of metabolites M-2 calculated by re-transformation of the logarithmic data from ANOVAs.||1.18|0.397|
92439024|NCT01853046|184763570|SUPERIORITY_OR_OTHER||LS-means|0.446|||||TWO_SIDED|90.0|0.2|0.996||||||Point estimates (LS-means) and 2-sided exploratory 90% confidence intervals for AUC(0-tlast) of metabolites M-5 calculated by re-transformation of the logarithmic data from ANOVAs||0.996|0.200|
92439025|NCT05022784|184763595|OTHER||||||<|0.0001|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compares the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||<.0001
92439026|NCT05022784|184763596|OTHER||||||<|0.0001|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||<.0001
92439027|NCT05022784|184763597|OTHER|||||||0.37|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.37
92439028|NCT05022784|184763598|OTHER|||||||0.477|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.477
92439029|NCT05022784|184763599|OTHER|||||||0.644|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.644
92439030|NCT05022784|184763600|OTHER|||||||0.206|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.206
92439031|NCT05022784|184763601|OTHER|||||||0.052|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.052
92439032|NCT05022784|184763602|OTHER|||||||0.044|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.044
92439033|NCT05022784|184763603|OTHER|||||||0.525|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.525
92439034|NCT05022784|184763604|OTHER|||||||0.024|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.024
92439035|NCT05022784|184763605|OTHER|||||||0.016|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.016
92439036|NCT05022784|184763606|OTHER|||||||0.913|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.913
92439037|NCT05022784|184763607|OTHER|||||||0.448|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.448
92439038|NCT05022784|184763608|OTHER|||||||0.515|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.515
92439039|NCT05022784|184763609|OTHER|||||||0.829|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.829
92439040|NCT05022784|184763610|OTHER|||||||0.471|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.471
92439041|NCT05022784|184763611|OTHER|||||||0.915|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.915
92439042|NCT05022784|184763612|OTHER|||||||0.19|||||||Chi-squared|||||||0.190
92439043|NCT05022784|184763613|OTHER|||||||0.928|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.928
92439044|NCT05022784|184763614|OTHER|||||||0.49|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.490
92439045|NCT05022784|184763615|OTHER|||||||0.667|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.667
92439046|NCT05022784|184763616|OTHER|||||||0.032|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.032
92439047|NCT05022784|184763617|OTHER|||||||0.721|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.721
92439048|NCT05022784|184763618|OTHER|||||||0.352|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.352
92439049|NCT05022784|184763619|OTHER|||||||0.136|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.136
92280022|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.076||||0.6124|TWO_SIDED|95.0|-0.369|0.218||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.218|-0.369|0.6124
92280023|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.223||||0.1365|TWO_SIDED|95.0|-0.518|0.071||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.071|-0.518|0.1365
92439050|NCT05022784|184763620|OTHER|||||||0.27|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.270
92439051|NCT05022784|184763621|OTHER|||||||0.306|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.306
92439052|NCT05022784|184763622|OTHER|||||||0.145|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.145
92439053|NCT05022784|184763623|OTHER|||||||0.109|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.109
92439054|NCT05022784|184763624|OTHER|||||||0.454|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.454
92439055|NCT05022784|184763625|OTHER|||||||0.96|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.960
92439056|NCT05022784|184763626|OTHER|||||||0.265|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.265
92439057|NCT05022784|184763627|OTHER|||||||0.026|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.026
92439058|NCT05022784|184763628|OTHER|||||||0.016|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.016
92439059|NCT05022784|184763629|OTHER|||||||0.937|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.937
92439060|NCT05022784|184763630|OTHER|||||||0.948|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.948
92439061|NCT05022784|184763631|OTHER|||||||0.574|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.574
92439062|NCT05022784|184763632|OTHER|||||||0.491|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.491
92439063|NCT05022784|184763633|OTHER|||||||0.432|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.432
92439064|NCT00708162|184763639|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: the EVG group was at least 10% worse than the RAL group with respect to percentage of participants achieving and maintaining HIV-1 RNA \< 50 copies/mL through Week 48; alternative hypothesis: the EVG group was less than 10% worse than the RAL group.|Difference in percentages|1.1|||||TWO_SIDED|95.0|-6.0|8.2|||||The difference in percentages and its 95% confidence interval (CI) were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using Mantel-Haenszel (MH) proportions and normal approximation.|The planned sample size of 700 HIV-1 infected participants, (350 in each group) was estimated to provide at least 85% power to establish noninferiority in the percentage of participants achieving and maintaining confirmed HIV-1 RNA \< 50 copies/mL through Week 48. For sample size and power computation, it was assumed that both elvitegravir and raltegravir arms have a response rate of 0.74, that a noninferiority margin was 0.10, and that the significance level of the test was 1-sided 0.025 level.||8.2|-6.0|
92439065|NCT00708162|184763640|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: the EVG arm was at least 10% worse than the RAL arm with respect to percentage of participants achieving and maintaining HIV-1 RNA \< 50 copies/mL through Week 48; alternative hypothesis: the EVG arm was less than 10% worse than the RAL arm.|Difference in percentages|2.6|||||TWO_SIDED|95.0|-4.6|9.9|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||9.9|-4.6|
92439066|NCT00708162|184763641|SUPERIORITY_OR_OTHER||Difference in percentages|0.9|||||TWO_SIDED|95.0|-6.0|7.7|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||7.7|-6.0|
92439067|NCT00708162|184763642|SUPERIORITY_OR_OTHER||Difference in percentages|0.9|||||TWO_SIDED|95.0|-6.4|8.2|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||8.2|-6.4|
92280024|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.355||||0.0193|TWO_SIDED|95.0|-0.652|-0.058||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.058|-0.652|0.0193
92171263|NCT02814838|184231700|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with HbA1c (%) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.1494||||0.6252|TWO_SIDED|95.0|-0.7514|0.4526|||Mixed Models Analysis|||at FU week 13||0.4526|-0.7514|0.6252
92171264|NCT02814838|184231700|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with HbA1c (%) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.2804||||0.366|TWO_SIDED|95.0|-0.8904|0.3297|||Mixed Models Analysis|||At FU week 26||0.3297|-0.8904|0.366
92171265|NCT02814838|184231700|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with HbA1c (%) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.2063||||0.5026|TWO_SIDED|95.0|-0.3992|0.8118|||Mixed Models Analysis|||At FU week 52||0.8118|-0.3992|0.5026
92171266|NCT02814838|184231701|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with C-peptide (nmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|0.0242||||0.2527|TWO_SIDED|95.0|-0.0174|0.0658|||Mixed Models Analysis|||at week 13||0.0658|-0.0174|0.2527
92238057|NCT03151148|184380355|SUPERIORITY||Geometric mean ratio (GMR)|2.722||||0.432|TWO_SIDED|95.0|0.2227|33.2594|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||33.2594|0.2227|0.432
92171267|NCT02814838|184231701|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with C-peptide (nmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|0.0236||||0.2743|TWO_SIDED|95.0|-0.0188|0.066|||Mixed Models Analysis|||at week 26||0.066|-0.0188|0.2743
92238058|NCT03151148|184380355|SUPERIORITY||Geometric mean ratio (GMR)|0.147||||0.133|TWO_SIDED|95.0|0.0121|1.8018|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.8018|0.0121|0.133
92239911|NCT04174638|184383769|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||It was calculated for detect of difference in mean the effects of kidney disease on daily life sub-dimension score of Kidney Disease Quality of Life Instrument 36 Scale between intervention and control group from baseline to week 12.||||<0.001
92239912|NCT00570739|184383772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.0123|TWO_SIDED|95.0|-0.27|-0.03||P-Value is for the LS mean difference between treatment groups|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 4 weeks||-0.03|-0.27|0.0123
92239913|NCT00570739|184383772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.0201|TWO_SIDED|95.0|-0.33|-0.03||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||-0.03|-0.33|0.0201
92439068|NCT00708162|184763643|SUPERIORITY_OR_OTHER||Difference in percentages|2.2|||||TWO_SIDED|95.0|-5.0|9.3|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||9.3|-5.0|
92439069|NCT00708162|184763644|SUPERIORITY_OR_OTHER||Difference in percentages|-0.5|||||TWO_SIDED|95.0|-7.9|6.8|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||6.8|-7.9|
92439070|NCT00708162|184763649|SUPERIORITY_OR_OTHER||Difference in percentages|0.2|||||TWO_SIDED|95.0|-6.9|7.3|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||7.3|-6.9|
92439071|NCT00708162|184763650|SUPERIORITY_OR_OTHER||Difference in percentages|-2.9|||||TWO_SIDED|95.0|-10.2|4.4|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||4.4|-10.2|
92439072|NCT00708162|184763651|SUPERIORITY_OR_OTHER||Difference in percentages|-2.0|||||TWO_SIDED|95.0|-8.6|4.7|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||4.7|-8.6|
92439073|NCT00708162|184763652|SUPERIORITY_OR_OTHER||Difference in percentages|-1.7|||||TWO_SIDED|95.0|-8.8|5.5|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||5.5|-8.8|
92439074|NCT00708162|184763653|SUPERIORITY_OR_OTHER||Difference in log10 copies/mL|0.01|||||TWO_SIDED|95.0|-0.16|0.19|||||The difference in least squares means (LSM) and its 95% CI were obtained using an analysis of variance model (ANOVA) adjusting for baseline HIV-1 RNA level and class of the second agent (NRTI or other classes).|||0.19|-0.16|
92439075|NCT00708162|184763654|SUPERIORITY_OR_OTHER||Difference in log10 copies/mL|0.05|||||TWO_SIDED|95.0|-0.12|0.22|||||The difference in LSM and its 95% CI were obtained using ANOVA adjusting for baseline HIV-1 RNA level and class of the second agent (NRTI or other classes).|||0.22|-0.12|
92439076|NCT00708162|184763655|SUPERIORITY_OR_OTHER||Difference in cells/mm^3|-9.0|||||TWO_SIDED|95.0|-33.0|16.0|||||The difference in LSM and its 95% CI were obtained using ANOVA adjusting for baseline HIV-1 RNA level and class of the second agent (NRTI or other classes).|||16|-33|
92439077|NCT00708162|184763656|SUPERIORITY_OR_OTHER||Difference in cells/mm^3|7.0|||||TWO_SIDED|95.0|-25.0|39.0|||||The difference in LSM and its 95% CI were obtained using ANOVA adjusting for baseline HIV-1 RNA level and class of the second agent (NRTI or other classes).|||39|-25|
92439078|NCT00605813|184763732|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was renal dysfunction. The null hypothesis is there is no difference between with and without renal dysfunction in the participants of responders."||||0.003
92439079|NCT00605813|184763733|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was past medical history of other illness. The null hypothesis is there is no difference between with and without past medical history of other illness in the participants of responders."||||<0.001
92439080|NCT00605813|184763734|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was non-pharmaceutical therapies. The null hypothesis is there is no difference between with or without non-pharmaceutical therapies in the participants of responders."||||0.040
92439081|NCT00605813|184763735|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was present or past history of intentional suicidal ideation. The null hypothesis is there is no difference between present or past history of intentional suicidal ideation (including suicide attempt) in the participants of responders."||||0.004
92439082|NCT01163279|184763741|SUPERIORITY_OR_OTHER|||||||0.03||||||Statistical analysis applies to post intervention performance category|Chi-squared|||||||0.03
92439083|NCT01163279|184763741|SUPERIORITY_OR_OTHER|||||||0.32||||||Statistical analysis applies to post intervention satisfaction category|Chi-squared|||||||0.32
92439084|NCT01163279|184763741|SUPERIORITY_OR_OTHER|||||||0.54||||||Statistical analysis applies to 3-month follow up performance category|Chi-squared|||||||0.54
92439085|NCT01163279|184763741|SUPERIORITY_OR_OTHER|||||||0.26||||||Statistical analysis applies to 3-month follow up satisfaction category|Chi-squared|||||||0.26
92439086|NCT01163279|184763742|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||<0.05
92439087|NCT01163279|184763743|SUPERIORITY_OR_OTHER||||||>|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||>0.05
92439088|NCT01163279|184763744|SUPERIORITY_OR_OTHER||||||>|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||>0.05
92439089|NCT01163279|184763745|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||<0.05
92439090|NCT01163279|184763746|SUPERIORITY_OR_OTHER||||||<|0.1||||||Statistical analysis applies to immediately post intervention category|ANOVA|||||||<0.1
92439091|NCT01163279|184763746|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to 3 months post intervention category|ANOVA|||||||<0.05
92439092|NCT01163279|184763747|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to immediately post intervention category|ANOVA|||||||<0.05
92439093|NCT01163279|184763747|SUPERIORITY_OR_OTHER||||||>|0.05||||||Statistical analysis applies to 3 months post intervention category|ANOVA|||||||>0.05
92439094|NCT01163279|184763748|SUPERIORITY_OR_OTHER||||||<|0.1||||||Statistical analysis applies to immediately post intervention category|ANOVA|||||||<0.1
92439095|NCT01163279|184763748|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to 3 months post intervention category|ANOVA|||||||<0.05
92439096|NCT01163279|184763749|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||<0.05
92439097|NCT01163279|184763750|SUPERIORITY_OR_OTHER||||||>|0.05||||||Statistical analysis applies to immediately post intervention category|ANOVA|||||||>0.05
92439098|NCT01163279|184763750|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to 3 months post intervention category|ANOVA|||||||<0.05
92439099|NCT01163279|184763751|SUPERIORITY_OR_OTHER||||||>|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||>0.05
92439100|NCT00594997|184763758|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||p\<0.05 threshold for statistical significance|Regression, Linear|||||||<0.0001
92439101|NCT01770379|184763809|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.2001|TWO_SIDED|95.0|0.79|3.03|||Regression, Logistic|||||3.03|0.79|0.2001
92439102|NCT01770379|184763809|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.1574|TWO_SIDED|95.0|0.83|3.15|||Regression, Logistic|||||3.15|0.83|0.1574
92439103|NCT00778700|184763813|SUPERIORITY||Least Squares (LS) Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.406||0.0041|TWO_SIDED|90.0|-1.85|-0.51|||ANCOVA|The ANCOVA model included treatment as the main factor and Baseline score as the covariate.||||-0.51|-1.85|0.0041
92439104|NCT00778700|184763813|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.408||0.0007|TWO_SIDED|90.0|-2.08|-0.73|||ANCOVA|The ANCOVA model included treatment as the main factor and Baseline score as the covariate.||||-0.73|-2.08|0.0007
92439105|NCT00778700|184763813|SUPERIORITY||LS Mean Difference|-1.21|STANDARD_ERROR_OF_MEAN|0.407||0.0035|TWO_SIDED|90.0|-1.88|-0.53|||ANCOVA|The ANCOVA model included treatment as the main factor and Baseline score as the covariate.||||-0.53|-1.88|0.0035
92439106|NCT03274440|184763835|OTHER|A random-effects linear mixed model evaluated changes in YBOCCS as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.||||||0.577|||||||Linear mixed effects regression|||Test for interaction effect between condition and time (includes all three groups and all time points)||||.577
92439107|NCT03274440|184763835|OTHER|A random-effects linear mixed model evaluated changes in YBOCCS as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.|||||<|0.001|||||||Linear mixed effects regression|F=10.50; df=6, 10||Test for main effect of time (includes all three groups and all time points)||||<.001
92439108|NCT03274440|184763835|OTHER|A random-effects linear mixed model evaluated changes in YBOCCS as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.||||||0.72|||||||Linear mixed effects regression|||Test for main effect of condition (includes all three groups and all time points)||||.72
92439109|NCT03274440|184763836|OTHER|A random-effects linear mixed model evaluated changes in STAI-S as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.||||||0.577|||||||Linear mixed effects regression|||Test for interaction between condition and time||||.577
92439110|NCT03274440|184763836|OTHER|A random-effects linear mixed model evaluated changes in STAI-S as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.|||||<|0.001|||||||Linear mixed effects regression|F=7.00, df=6,10||Test for main effect of time||||<.001
92439111|NCT03274440|184763836|OTHER|A random-effects linear mixed model evaluated changes in STAI-S as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.||||||0.002|||||||Linear mixed effects regression|F=6.26, df=2, 10||Test for main effect of condition||||.002
92439112|NCT02611778|184763837|EQUIVALENCE|The confidence interval (CI) for treatment difference (FYB201 - Lucentis) was calculated using Least Square Means. If the 90% CI was completely contained in the interval \]-3.5;3.5\[ ETDRS letters, equivalence of FYB201 and Lucentis could be concluded.|Difference in least square means|-0.4|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-1.6|0.9|||ANCOVA||An ANCOVA model was used for the analysis with the change in BCVA between baseline and Week 8 as the dependent variable, the baseline BCVA as covariate, and (pooled) country and treatment group as fixed effects.|The hypothesis of biosimilarity of FYB201 and Lucentis was tested with a two-sided equivalence test with an equivalence margin of 3 ETDRS letters. An ANCOVA model was used with the change in BCVA between baseline and Week 8 as the dependent variable, the baseline BCVA as covariate, and the country and the treatment group as fixed effects.||0.9|-1.6|
92439113|NCT02611778|184763838|OTHER||Difference in least square means|0.0|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|90.0|-1.6|1.5|||ANCOVA||An ANCOVA model was used for the analysis with the change in BCVA between baseline and Week 24 as the dependent variable, the baseline BCVA as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||1.5|-1.6|
92439114|NCT02611778|184763839|OTHER||Difference in least square means|-0.1|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|90.0|-1.8|1.7|||ANCOVA||An ANCOVA model was used for the analysis with the change in BCVA between baseline and Week 48 as the dependent variable, the baseline BCVA as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||1.7|-1.8|
92171268|NCT02814838|184231701|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with C-peptide (nmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|-0.0059||||0.7856|TWO_SIDED|95.0|-0.0485|0.0367|||Mixed Models Analysis|||at week 52||0.0367|-0.0485|0.7856
92439115|NCT02611778|184763840|OTHER||Difference in least square means|0.1|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-1.6|1.8|||ANCOVA||An ANCOVA model was used for the analysis with the change in BCVA between baseline and 12 months (average of Weeks 40, 44 and 48) as the dependent variable, the baseline BCVA as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||1.8|-1.6|
92439116|NCT02611778|184763841|OTHER||Difference in least square means|0.69|STANDARD_ERROR_OF_MEAN|11.469|||TWO_SIDED|90.0|-18.22|19.6|||ANCOVA||An ANCOVA model was used for the analysis with the change in FCP retinal thickness between baseline and Week 24 as the dependent variable, the baseline FCP retinal thickness as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||19.60|-18.22|
92439117|NCT02611778|184763842|OTHER||Difference in least square means|2.68|STANDARD_ERROR_OF_MEAN|11.632|||TWO_SIDED|90.0|-16.49|21.85|||ANCOVA||An ANCOVA model was used for the analysis with the change in FCP retinal thickness between baseline and Week 48 as the dependent variable, the baseline FCP retinal thickness as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||21.85|-16.49|
92439118|NCT02611778|184763843|OTHER||Difference in least square means|-5.91|STANDARD_ERROR_OF_MEAN|10.136|||TWO_SIDED|90.0|-22.62|10.8|||ANCOVA||An ANCOVA model was used for the analysis with the change in FCS retinal thickness between baseline and Week 24 as the dependent variable, the baseline FCS retinal thickness as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||10.80|-22.62|
92439119|NCT02611778|184763844|OTHER||Difference in least square means|3.68|STANDARD_ERROR_OF_MEAN|10.285|||TWO_SIDED|90.0|-13.28|20.63|||ANCOVA||An ANCOVA model was used for the analysis with the change in FCS retinal thickness between baseline and Week 48 as the dependent variable, the baseline FCS retinal thickness as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||20.63|-13.28|
92439120|NCT02611778|184763845|OTHER||Difference in least square means|0.07|STANDARD_ERROR_OF_MEAN|0.4709|||TWO_SIDED|90.0|-0.706|0.846|||ANCOVA||An ANCOVA model was used for the analysis with the change in total lesion area between baseline and Week 24 as the dependent variable, the baseline total lesion area as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||0.846|-0.706|
92439121|NCT02611778|184763846|OTHER||Difference in least square means|0.342|STANDARD_ERROR_OF_MEAN|0.5387|||TWO_SIDED|90.0|-0.547|1.23|||ANCOVA||An ANCOVA model was used for the analysis with the change in total lesion area between baseline and Week 48 as the dependent variable, the baseline total lesion area as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||1.230|-0.547|
92439122|NCT02611778|184763847|OTHER||Difference in least square means|0.21|STANDARD_ERROR_OF_MEAN|0.886|||TWO_SIDED|90.0|-1.25|1.67|||ANCOVA||An ANCOVA model was used for the analysis with change in NEI VFQ-25 composite score between baseline and Week 24 as dependent variable, baseline NEI VFQ-25 composite score as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||1.67|-1.25|
92439123|NCT02611778|184763848|OTHER||Difference in least square means|1.73|STANDARD_ERROR_OF_MEAN|1.027|||TWO_SIDED|90.0|0.04|3.42|||ANCOVA||An ANCOVA model was used for the analysis with change in NEI VFQ-25 composite score between baseline and Week 48 as dependent variable, baseline NEI VFQ-25 composite score as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||3.42|0.04|
92439124|NCT00385996|184763854|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Binomial distribution|Binomial distribution and test proportion =0.50||One arm phase 2 trial. This study is designed to asses response rate and defined as the percentage of subjects achieving at least 50% tumor volume. One-sided alpha is set at no more than 5% and the power no less than 90%,and the null hypothesis of RR of less than 10% and alternative hypothesis of RR of greater than 30%, a total of 30 patients will be enrolled (Fleming 1982).At least 7 responders out of 30 patients are needed to reject the null hypothesis of a 10% RR.||||<0.01
92439125|NCT00385996|184763856|OTHER||TTP [% without disease at 24 months]|63.6|||||TWO_SIDED|95.0|43.4|83.8|||||Using the Kaplan-Meier method.|One arm study||83.8|43.4|
92439126|NCT00385996|184763857|OTHER||% alive without disease at 25 months|72.7|||||TWO_SIDED|95.0|54.1|91.3|||||Using the Kaplan-Meier method.|One arm study||91.3|54.1|
92439127|NCT04008030|184763858|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.62||||0.0003|TWO_SIDED|95.0|0.48|0.81||Boundary for statistical significance p-value \< 0.0095.|Log Rank|Log-rank test stratified by the same factors as used in the Cox proportional hazard model.|a Cox Model stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT.|||0.81|0.48|0.0003
92439128|NCT04008030|184763859|SUPERIORITY|Arm B over Arm C|Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.14|0.32||Boundary for statistical significance p-value \< 0.0209.|Log Rank|Log-rank test stratified by the same factors as used in the Cox proportional hazard model.|From a Cox Model stratified by tumor sidedness (left vs. right) as entered into the IRT.|||0.32|0.14|<0.0001
92439129|NCT04008030|184763861|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.52|0.79|||||from a Cox Model stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT.|||0.79|0.52|
92439130|NCT04008030|184763862|SUPERIORITY|Arm B over Arm C|Hazard Ratio (HR)|0.32|||||TWO_SIDED|95.0|0.23|0.46|||||From a Cox Model stratified by tumor sidedness (left vs. right) as entered into the IRT.|||0.46|0.23|
92439131|NCT04008030|184763864|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.6||||||95.0|0.45|0.8|||||from a Cox proportional hazard model stratified by tumor sidedness (left vs right) and prior lines of therapy (0, 1, ≥ 2) per IRT.|||0.80|0.45|
92439132|NCT04008030|184763865|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.63||||||95.0|0.48|0.83|||||from a Cox proportional hazard model stratified by tumor sidedness (left vs right) and prior lines of therapy (0, 1, ≥ 2) per IRT.|||0.83|0.48|
92439133|NCT04008030|184763866|SUPERIORITY|Arm B over Arm C|Hazard Ratio (HR)|0.2||||||95.0|0.12|0.31|||||From a stratified Cox proportional hazard model by tumor sidedness (left vs. right) as entered into the IRT.|||0.31|0.12|
92439134|NCT04008030|184763867|SUPERIORITY|Arm B over Arm C|Hazard Ratio (HR)|0.2||||||95.0|0.12|0.31|||||From a stratified Cox proportional hazard model by tumor sidedness (left vs. right) as entered into the IRT.|||0.31|0.12|
92439135|NCT04008030|184763868|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.64||||||95.0|0.52|0.79|||||from a Cox Model stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT.|||0.79|0.52|
92439136|NCT04008030|184763869|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.62||||||95.0|0.48|0.8|||||Cox Model stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT.|||0.80|0.48|
92439137|NCT04008030|184763871|SUPERIORITY|Arm B over Arm A|Odds Ratio (OR)|1.77||||0.0011||95.0|1.26|2.5||Boundary for statistical significance p-value \< 0.006|Cochran-Mantel-Haenszel|Two-sided p-value from stratified CMH Test.|||Stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT|2.50|1.26|0.0011
92439138|NCT04008030|184763872|SUPERIORITY|Arm B over Arm C|Odds Ratio (OR)|7.02||||||95.0|3.91|12.62|||||Stratified by tumor sidedness (left vs. right)|||12.62|3.91|
92439139|NCT04008030|184763872|SUPERIORITY|Arm B over Arm A|Odds Ratio (OR)|1.67||||||95.0|1.06|2.63|||||Stratified by tumor sidedness (left vs. right)|||2.63|1.06|
92439140|NCT04008030|184763873|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.45|0.83|||||From a Cox Model stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT.|||0.83|0.45|
92439141|NCT02574247|184763889|OTHER|||||||0.34|||||||Spearman partial rank correlation|Age and high-frequency pure-tone average controlled for.||Statistical analysis for the row CRM at -9 dB SNR||||0.34
92439142|NCT02574247|184763889|OTHER|||||||0.64|||||||Spearman partial rank correlation|Age and high-frequency pure-tone average controlled for.||Statistical analysis for the row CRM at -6 dB SNR||||0.64
92439143|NCT02574247|184763889|OTHER|||||||0.24|||||||Spearman partial rank correlation|Age and high-frequency average controlled for.||Statistical analysis for the row IEEE at -6 dB SNR||||0.24
92239914|NCT00570739|184383772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0239|TWO_SIDED|95.0|-0.36|-0.03||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 12 weeks||-0.03|-0.36|0.0239
92439144|NCT02574247|184763889|OTHER|||||||0.2|||||||Spearman partial rank correlation|Age and high-frequency average controlled for.||Statistical analysis for the row IEEE at -3 dB SNR||||0.20
92439145|NCT02574247|184763892|OTHER|||||||0.03|||||||Spearman partial rank correlation|Age and high-frequency pure-tone average controlled for.||Statistical analysis for the row CRM slope||||0.03
92439146|NCT02574247|184763892|OTHER|||||||0.04|||||||Spearman partial rank correlation|Age and high-frequency pure-tone average controlled for.||Statistical analysis for row IEEE slope||||0.04
92439147|NCT06273124|184763899|SUPERIORITY||Kaplan-Meier 7 Day Survival Estimate|95.0|||<|0.001|TWO_SIDED|95.0|94.0|97.0|||Bootstrapping Kaplan-Meier estimates|||Ninety-five percent confidence intervals for the 7-day survival rates and p-values for the survival probabilities being greater than 75% were calculated with a bootstrap to account for the correlated data from having each participant wear multiple infusion sets.||97|94|<0.001
92439148|NCT06273124|184763900|SUPERIORITY||Kaplan-Meier 7 Day Survival Estimate|95.0|||<|0.001|TWO_SIDED|95.0|93.0|96.0|||Bootstrapping Kaplan-Meier estimates|||Ninety-five percent confidence intervals for the 7-day survival rates and p-values for the survival probabilities being greater than 75% were calculated with a bootstrap to account for the correlated data from having each participant wear multiple infusion sets.||96|93|<0.001
92439149|NCT03336853|184763901|SUPERIORITY||Mean Difference (Final Values)|0.74|||<|0.0001|TWO_SIDED|95.0|0.66|0.82|||t-test, 2 sided|||||0.82|0.66|<.0001
92439150|NCT01528254|184763902|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.001|TWO_SIDED|95.0|0.45|0.58|||Regression, Cox|||||0.58|0.45|<0.001
92439151|NCT01528254|184763903|OTHER||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.042|TWO_SIDED|95.0|-0.05|0.0|||Mixed Models Analysis|||||0.00|-0.05|0.042
92439152|NCT01528254|184763904|OTHER||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.19||0.635|TWO_SIDED|95.0|-0.29|0.47|||Mixed Models Analysis|||||0.47|-0.29|0.635
92439153|NCT01528254|184763905|OTHER||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.53|TWO_SIDED|95.0|-0.05|0.02|||Mixed Models Analysis|||||0.02|-0.05|0.530
92439154|NCT01528254|184763906|OTHER||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.32||0.381|TWO_SIDED|95.0|-0.35|0.9|||Mixed Models Analysis|||||0.90|-0.35|0.381
92439155|NCT01528254|184763907|OTHER||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.23||0.744|TWO_SIDED|95.0|-0.53|0.38|||Mixed Models Analysis|||From Week 13 to end of Period 1||0.38|-0.53|0.744
92439156|NCT01528254|184763907|OTHER||Slope|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.017|TWO_SIDED|95.0|-0.91|-0.09|||Mixed Models Analysis|||From Week 13 to end of Period 2||-0.09|-0.91|0.017
92439157|NCT01528254|184763907|OTHER||Slope|-0.58|STANDARD_ERROR_OF_MEAN|0.21||0.006|TWO_SIDED|95.0|-0.99|-0.17|||Mixed Models Analysis|||From Week 13 to end of study||-0.17|-0.99|0.006
92439158|NCT01528254|184763908|OTHER||Slope|-5.03|STANDARD_ERROR_OF_MEAN|2.16||0.02|TWO_SIDED|95.0|-9.26|-0.79|||Mixed Models Analysis|||From Week 13 to end of Period 1||-0.79|-9.26|0.020
92439159|NCT01528254|184763908|OTHER||Slope|-5.08|STANDARD_ERROR_OF_MEAN|1.73||0.003|TWO_SIDED|95.0|-8.46|-1.69|||Mixed Models Analysis|||From Week 13 to end of Period 2||-1.69|-8.46|0.003
92439160|NCT01528254|184763908|OTHER||Slope|-5.38|STANDARD_ERROR_OF_MEAN|1.64||0.001|TWO_SIDED|95.0|-8.61|-2.16|||Mixed Models Analysis|||From Week 13 to end of study||-2.16|-8.61|0.001
92439161|NCT00416078|184763953|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED|||||F test of time X group effect F(1,3)=.26|Mixed Models Analysis|||intent to treat||||.65
92439162|NCT00416078|184763954|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED|||||t test of differential change over time in the two groups t(30)=.67|Mixed Models Analysis|||intent to treat analysis||||.51
92439163|NCT00416078|184763955|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED|||||t test of differential change over time in the two groups t(29)=.27|Mixed Models Analysis|||intent to treat analysis||||.79
92439164|NCT00416078|184763956|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|||||t test for differential change over time in the two groups t(29)=.70|Mixed Models Analysis|||intent to treat analysis||||.49
92439165|NCT00416078|184763957|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||t test for differential change over time in the two groups t(29)=.43|Mixed Models Analysis|||intent to treat analysis||||.67
92439166|NCT00416078|184763958|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Fisher Exact|||||||.64
92439167|NCT01686633|184763968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108|||<|0.001|TWO_SIDED|95.0|0.045|0.171|||ANCOVA|||||0.171|0.045|<0.001
92439168|NCT01686633|184763968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|||||TWO_SIDED|95.0|-0.037|0.086||||||||0.086|-0.037|
92439169|NCT02607033|184763983|OTHER|Wilxocon signed Rank test||||||0.028|||||||Wilxocon signed Rank test|||Wilxocon signed Rank test to compare pre to post onset of pain time in the Exercise + Weight loss group. Due to low sample size were unable to compare changes between the Exercise + Weight Loss group and the Exercise only groups.||||0.028
92439170|NCT03227029|184764014|OTHER||% vaccine recipients with solicited AEs|64.0|||||TWO_SIDED|90.0|46.0|80.0|||||Proportions of study participants were calculated and presented with 90% exact confidence intervals. This highlights that we are 95% sure that the true proportion is not higher that the upper limit of the confidence interval.|||80|46|
92439171|NCT03227029|184764014|OTHER||% vaccine recipients with solicited AEs|84.0|||||TWO_SIDED|90.0|67.0|94.0||||||||94|67|
92439172|NCT03227029|184764014|OTHER||% placebo recipients with solicited AEs|58.0|||||TWO_SIDED|90.0|32.0|82.0||||||||82|32|
92439173|NCT03227029|184764015|OTHER||% vaccine recipients with usolicited AEs|36.0|||||TWO_SIDED|90.0|20.0|54.0||||||||54|20|
92439174|NCT03227029|184764015|OTHER||% vaccine recipients with usolicited AEs|52.0|||||TWO_SIDED|90.0|34.0|69.0||||||||69|34|
92439175|NCT03227029|184764015|OTHER||% placebo recipients with usolicited AEs|42.0|||||TWO_SIDED|90.0|18.0|68.0||||||||68|18|
92439176|NCT03227029|184764017|OTHER||% recipients infected with vaccine virus|88.0|||||TWO_SIDED|90.0|72.0|97.0||||||||97|72|
92439177|NCT03227029|184764017|OTHER||% recipients infected with vaccine virus|96.0|||||TWO_SIDED|90.0|82.0|100.0||||||||100|82|
92439178|NCT03227029|184764017|OTHER||% recipients infected with vaccine virus|0.0|||||TWO_SIDED|90.0|0.0|22.0||||||||22|0|
92439179|NCT03227029|184764020|OTHER||% with >=4 fold rise in RSV-PRNT|60.0|||||TWO_SIDED|90.0|42.0|76.0||||||||76|42|
92439180|NCT03227029|184764020|OTHER||% with >=4 fold rise in RSV-PRNT|92.0|||||TWO_SIDED|90.0|76.0|98.0||||||||98|76|
92439181|NCT03227029|184764020|OTHER||% with >=4 fold rise in RSV-PRNT|0.0|||||TWO_SIDED|90.0|0.0|22.0||||||||22|0|
92439182|NCT03227029|184764020|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.01
92439183|NCT03227029|184764020|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.01
92439184|NCT03227029|184764021|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Wilcoxon test was used to test the hypothesis that antibody levels at Day 56 were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.01
92439185|NCT03227029|184764021|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Wilcoxon test was used to test the hypothesis that antibody levels at Day 56 were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.01
92439186|NCT03227029|184764022|OTHER||% with >=4 fold rise in RSV F protein|60.0|||||TWO_SIDED|90.0|42.0|76.0||||||||76|42|
92439187|NCT03227029|184764022|OTHER||% with >=4 fold rise in RSV F protein|92.0|||||TWO_SIDED|90.0|76.0|98.0||||||||98|76|
92439188|NCT03227029|184764022|OTHER||% with >=4 fold rise in RSV F protein|0.0|||||TWO_SIDED|90.0|0.0|22.0||||||||22|0|
92439189|NCT03227029|184764022|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.01
92439190|NCT03227029|184764022|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.01
92439191|NCT03227029|184764023|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Wilcoxon test was used to test the hypothesis that antibody levels at Day 56 were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.01
92439192|NCT03227029|184764023|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Wilcoxon test was used to test the hypothesis that antibody levels at Day 56 were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.01
92439193|NCT01291173|184764026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.014||||0.8825|TWO_SIDED|95.0|-0.203|0.175|||Mixed Models Analysis|||||0.175|-0.203|0.8825
92439194|NCT01291173|184764026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.258||||0.0077|TWO_SIDED|95.0|-0.446|-0.069|||Mixed Models Analysis|||||-0.069|-0.446|0.0077
92439195|NCT01291173|184764026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.345||||0.0004|TWO_SIDED|95.0|-0.534|-0.155|||Mixed Models Analysis|||||-0.155|-0.534|0.0004
92439196|NCT01291173|184764027|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4676|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.4676
92439197|NCT01291173|184764027|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0198|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0198
92439198|NCT01291173|184764027|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0031|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0031
92439199|NCT01291173|184764028|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3341|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.3341
92439200|NCT01291173|184764028|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0063|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0063
92439201|NCT01291173|184764028|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0022|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0022
92439202|NCT01291173|184764029|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0937|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0937
92439203|NCT01291173|184764029|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0127|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0127
92439204|NCT01291173|184764029|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0009
92439205|NCT01291173|184764032|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0091|TWO_SIDED|95.0|||||Chi-squared|||||||0.0091
92439206|NCT01291173|184764032|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|TWO_SIDED|95.0|||||Chi-squared|||||||0.0004
92439207|NCT01291173|184764032|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||Chi-squared|||||||<0.0001
92439208|NCT01291173|184764033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.97||||0.0142|TWO_SIDED|95.0|-5.34|-0.6|||Mixed Models Analysis|||||-0.60|-5.34|0.0142
92439209|NCT01291173|184764033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.25||||0.0075|TWO_SIDED|95.0|-5.62|-0.88|||Mixed Models Analysis|||||-0.88|-5.62|0.0075
92439210|NCT01291173|184764033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.93|||<|0.0001|TWO_SIDED|95.0|-7.3|-2.56|||Mixed Models Analysis|||||-2.56|-7.30|<0.0001
92439211|NCT01291173|184764034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15||||0.7538|TWO_SIDED|95.0|-1.11|0.8|||Mixed Models Analysis|||||0.80|-1.11|0.7538
92439212|NCT01291173|184764034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.49||||0.3062|TWO_SIDED|95.0|-0.45|1.44|||Mixed Models Analysis|||||1.44|-0.45|0.3062
92439213|NCT01291173|184764034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14||||0.7697|TWO_SIDED|95.0|-0.81|1.09|||Mixed Models Analysis|||||1.09|-0.81|0.7697
92439214|NCT01291173|184764035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.53||||0.2046|TWO_SIDED|95.0|-0.29|1.35|||Mixed Models Analysis|||||1.35|-0.29|0.2046
92439215|NCT01291173|184764035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.3348|TWO_SIDED|95.0|-0.42|1.22|||Mixed Models Analysis|||||1.22|-0.42|0.3348
92439216|NCT01291173|184764035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.81||||0.0505|TWO_SIDED|95.0|0.0|1.63|||Mixed Models Analysis|||||1.63|-0.00|0.0505
92439217|NCT01291173|184764036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0371|TWO_SIDED|95.0|||||Mixed Models Analysis|||Cognitive Restraint of Eating||||0.0371
92439218|NCT01291173|184764036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.138|TWO_SIDED|95.0|||||Mixed Models Analysis|||Cognitive Restraint of Eating||||0.1380
92439219|NCT01291173|184764036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0459|TWO_SIDED|95.0|||||Mixed Models Analysis|||Cognitive Restraint of Eating||||0.0459
92439220|NCT01291173|184764036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0278|TWO_SIDED|95.0|||||Mixed Models Analysis|||Disinhibition||||0.0278
92439221|NCT01291173|184764036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0022|TWO_SIDED|95.0|||||Mixed Models Analysis|||Disinhibition||||0.0022
92439222|NCT01291173|184764036|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||Disinhibition||||<0.0001
92439223|NCT01291173|184764036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0149|TWO_SIDED|95.0|||||Mixed Models Analysis|||Hunger||||0.0149
92439224|NCT01291173|184764036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|TWO_SIDED|95.0|||||Mixed Models Analysis|||Hunger||||0.0009
92439225|NCT01291173|184764036|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||Hunger||||<0.0001
92439226|NCT01291173|184764037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.9||||0.03|TWO_SIDED|95.0|-7.44|-0.38|||Mixed Models Analysis|||||-0.38|-7.44|0.030
92439227|NCT01291173|184764037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4||||0.002|TWO_SIDED|95.0|-8.95|-1.94|||Mixed Models Analysis|||||-1.94|-8.95|0.002
92439228|NCT01291173|184764037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.5|||<|0.001|TWO_SIDED|95.0|-11.99|-4.92|||Mixed Models Analysis|||||-4.92|-11.99|<0.001
92439229|NCT01291173|184764038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.65||||0.0824|TWO_SIDED|95.0|-5.64|0.34|||Mixed Models Analysis|||||0.34|-5.64|0.0824
92439230|NCT01291173|184764038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.07||||0.1725|TWO_SIDED|95.0|-5.05|0.91|||Mixed Models Analysis|||||0.91|-5.05|0.1725
92439231|NCT01291173|184764038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.71||||0.0148|TWO_SIDED|95.0|-6.69|-0.73|||Mixed Models Analysis|||||-0.73|-6.69|0.0148
92439232|NCT01291173|184764039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.25||||0.2504|TWO_SIDED|95.0|-0.89|3.38|||Mixed Models Analysis|||Aggregate Physical Score||3.38|-0.89|0.2504
92439233|NCT01291173|184764039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.09||||0.309|TWO_SIDED|95.0|-1.02|3.21|||Mixed Models Analysis|||Aggregate Physical Score||3.21|-1.02|0.3090
92439234|NCT01291173|184764039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5||||0.0216|TWO_SIDED|95.0|0.37|4.64|||Mixed Models Analysis|||Aggregate Physical Score||4.64|0.37|0.0216
92439235|NCT01291173|184764039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07||||0.9587|TWO_SIDED|95.0|-2.75|2.9|||Mixed Models Analysis|||Aggregate Mental Score||2.90|-2.75|0.9587
92439236|NCT01291173|184764039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.64||||0.653|TWO_SIDED|95.0|-2.17|3.45|||Mixed Models Analysis|||Aggregate Mental Score||3.45|-2.17|0.6530
92238059|NCT03151148|184380355|SUPERIORITY||Geometric mean ratio (GMR)|0.371||||0.437|TWO_SIDED|95.0|0.0304|4.5392|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||4.5392|0.0304|0.437
92439237|NCT01291173|184764039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03||||0.9814|TWO_SIDED|95.0|-2.79|2.86|||Mixed Models Analysis|||Aggregate Mental Score||2.86|-2.79|0.9814
92439238|NCT01074450|184764049|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.93|||||TWO_SIDED|90.0|94.23|108.1|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.1|94.23|
92439239|NCT01074450|184764050|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|104.71|||||TWO_SIDED|90.0|99.74|109.92|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109.92|99.74|
92439240|NCT01074450|184764051|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|104.15|||||TWO_SIDED|90.0|99.05|109.52|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109.52|99.05|
92439241|NCT04788953|184764069|SUPERIORITY||||||<|0.001||||||Change from baseline using mixed-effects tobit regression model (censored normal). Group (Solriamfetol, Placebo), visit (Baseline, End-of-Treatment), trial (1-4) main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||The statistical null hypothesis was that solriamfetol does not improve change in MWT scores versus placebo after 4 weeks of treatment (H0: µsol - µpl ≤ 0). Study was designed to have 97% power to detect a difference of 5.7 minutes or greater on MWT sleep latency (α=0.05, assumed σ=7.2) with 100 participants. Blinded interim power analysis on the baseline data conducted in October 2023 indicated the trial would have \>99% power to detect a similar difference with only 74 participants.||||<0.001
92439242|NCT04788953|184764070|SUPERIORITY||||||<|0.001||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol, Placebo), visit (Baseline, End-of-Treatment), trial (1-4) main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||<0.001
92439243|NCT04788953|184764071|SUPERIORITY|||||||0.01||||||"Chi-squared tests performed on dichotomized CGI-Change data (Improved \[very much improved, much improved, minimally improved\] vs. Not Improved \[no change, minimally worse, much worse, very much worse\])."|Chi-squared|P-value is difference between groups.||||||0.01
92439244|NCT04788953|184764073|SUPERIORITY|Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and visit (Baseline vs. End-of-Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.||||||0.02|||||||Mixed Models Analysis|P-value is difference between groups.||||||0.02
92439245|NCT04788953|184764074|SUPERIORITY|||||||0.64||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and visit (Baseline vs. End-of-Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||0.64
92439246|NCT04788953|184764075|SUPERIORITY|||||||0.04||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and visit (Baseline vs. End-of-Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||0.04
92439247|NCT04788953|184764076|SUPERIORITY|||||||0.61||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and Condition (Baseline vs. Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||0.61
92439248|NCT04788953|184764077|SUPERIORITY|||||||0.57||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and Condition (Baseline vs. Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||0.57
92439249|NCT04788953|184764078|SUPERIORITY||||||<|0.001||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and visit (Baseline vs. End-of-Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||<0.001
92439250|NCT00469092|184764079|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is shown if the upper limit of the 95% CI is less than 0.4%. Furthermore, superiority of BIAsp 30 OD over insulin glargine OD was shown if the upper limit of the 95% CI for the difference is lower than 0%. Equivalence is shown if the upper limit of the 95% CI for the difference is lower than 0.4% and the lower limit of the 95% CI is greater than -0.4%.|Mean Difference (Net)|-0.16||||0.029||95.0|-0.3|-0.02||P-value is for the test for difference in means equals 0 against the alternative that the difference is different from 0.|Regression, Linear|||HbA1c was compared between the treatment groups by fitting a linear regression model (ANCOVA) with treatment and country as factors and the baseline values as a continuous covariate. Mean and SE are estimated from the model.||-0.02|-0.30|0.029
92439251|NCT00469092|184764080|SUPERIORITY_OR_OTHER|||||||0.0059||95.0||||P-value for parallelism is overall test for parallel time profiles between treatment groups i.e. time by treatment group interaction effect.|Mixed Models Analysis|||The profiles were compared between the treatment groups by fitting a repeated measures mixed model including treatment, time, the treatment-by-time interaction and country as fixed effects, and subject as random effect.||||0.0059
92439252|NCT00469092|184764081|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.914||||||95.0|0.57|1.47|||||The OR and 95% CI is for the HbA1c \<= 6.5% treatment target.|||1.47|0.57|
92439253|NCT00469092|184764081|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.014||||||95.0|0.67|1.54|||||The OR and 95% CI is for the HbA1c \< 7.0% treatment target.|||1.54|0.67|
92439254|NCT00469092|184764081|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.131||||||95.0|0.72|1.77|||||The OR and 95% CI is for the reduction more than 1.0% from baseline treatment target.|||1.77|0.72|
92439255|NCT00469092|184764081|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.905||||||95.0|0.59|1.38|||||The OR and 95% CI is for the HbA1c \< 7% no nocturnal (00:00-06:00) hypoglycemia treatment target|||1.38|0.59|
92439256|NCT00469092|184764081|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.181||||||95.0|0.74|1.87|||||The OR and 95% CI is for the HbA1c \< 7%, no daytime (06:01-23:59) hypoglycemia treatment target|||1.87|0.74|
92439257|NCT00469092|184764081|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.122||||||95.0|0.69|1.82|||||The OR and 95% CI is for the HbA1c \< 7%, no hypoglycemia treatment target.|||1.82|0.69|
92439258|NCT00469092|184764082|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||||95.0|-2.4|2.48|||||The mean difference and 95% CI is for the burden score. The scores were compared between the treatment groups by fitting a linear regression model with treatment and country as factors and the baseline values as a continuous covariate.|The Diab MedSat measure was scored as an overall score as well as three subscale scores. The scores were transformed to a 0-100 scale with higher scores indicating greater satisfaction. The score of the subscales was computed as the mean of the items in each subscale. The overall score is the mean of all three subscales.||2.48|-2.40|
92439259|NCT00469092|184764082|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||||95.0|-3.56|3.11|||||The mean difference and 95% CI is for the efficacy score. The scores were compared between the treatment groups by fitting a linear regression model with treatment and country as factors and the baseline values as a continuous covariate.|The Diab MedSat measure was scored as an overall score as well as three subscale scores. The scores were transformed to a 0-100 scale with higher scores indicating greater satisfaction. The score of the subscales was computed as the mean of the items in each subscale. The overall score is the mean of all three subscales.||3.11|-3.56|
92439260|NCT00469092|184764082|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||||95.0|-3.14|2.35|||||The mean difference and 95% CI is for the symptoms score. The scores were compared between the treatment groups by fitting a linear regression model with treatment and country as factors and the baseline values as a continuous covariate.|The Diab MedSat measure was scored as an overall score as well as three subscale scores. The scores were transformed to a 0-100 scale with higher scores indicating greater satisfaction. The score of the subscales was computed as the mean of the items in each subscale. The overall score is the mean of all three subscales.||2.35|-3.14|
92439261|NCT00469092|184764082|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||||95.0|-2.36|2.14|||Regression, Linear||The mean difference and 95% CI is for the overall score. The scores were compared between the treatment groups by fitting a linear regression model with treatment and country as factors and the baseline values as a continuous covariate.|Diab MedSat measure was scored as an overall score as well as three subscale scores, and transformed to a 0-100 scale with higher scores indicating greater satisfaction. The score of the subscales was computed as the mean of the items in each subscale. The overall score is the mean of all three subscales.||2.14|-2.36|
92439262|NCT01086540|184764092|SUPERIORITY||Median Difference (Final Values)|23.1|STANDARD_ERROR_OF_MEAN|14.71||0.12|TWO_SIDED||||||Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 24.|The null hypothesis was that the mean change in 6MWD between baseline and Week 24 does not differ between rituximab and placebo. A repeated measures random effect model was fit to model the distance walked as a function of treatment, visit week, a treatment by visit week interaction, and a quadratic visit term. A random slope and intercept were fit for each participant using a separate unstructured covariance matrix for each treatment group. The model included all available data up to Week 24.||||0.12
92439263|NCT01086540|184764093|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.71||0.42|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis|||A repeated measures mixed model was fit with PVR as the outcome and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.42
92439264|NCT01086540|184764094|SUPERIORITY||Mean Difference (Final Values)|16.4|STANDARD_ERROR_OF_MEAN|15.1||0.28|TWO_SIDED|||||Week 48 value. P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit to model the distance walked as a function of treatment, visit week, a treatment by visit week interaction, and a quadratic visit term. A random slope and intercept were fit for each participant using a separate unstructured covariance matrix for each treatment group. The model included all available data up to Week 48.||||0.28
92439265|NCT01086540|184764094|SUPERIORITY||Mean Difference (Final Values)|25.1|STANDARD_ERROR_OF_MEAN|11.5||0.031|TWO_SIDED|||||Week 24 value. P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 24.|A repeated measures random effect model was fit to model the distance walked as a function of treatment, visit week, a treatment by visit week interaction, and a quadratic visit term. A random slope and intercept were fit for each participant using a separate unstructured covariance matrix for each treatment group. The model included all available data up to Week 48.||||0.031
92439266|NCT01086540|184764095|SUPERIORITY|||||||0.92||||||P-values not adjusted for multiple comparisons.|Log Rank|||Kaplan-Meier curves for time to clinical worsening were compared using a log-rank test.||||0.92
92439267|NCT01086540|184764096|SUPERIORITY|||||||0.36||||||P-values not adjusted for multiple comparisons.|Log Rank|||Kaplan-Meier curves for time to change or addition of PAH medications were compared using a log-rank test.||||0.36
92439268|NCT01086540|184764097|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.7||0.81|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit with the mental component score as the outcome, and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.81
92439269|NCT01086540|184764098|SUPERIORITY||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|2.1||0.3|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit with the physical component score as the outcome, and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.30
92439270|NCT01086540|184764099|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.58|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit with HAQ-DI as the outcome, and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.58
92439271|NCT01086540|184764100|SUPERIORITY|||||||0.47||||||P-values not adjusted for multiple comparisons.|Regression, Linear|||A Poisson model was used to describe the rate of new digital ulcers (per week) as the outcome with treatment, number of digital ulcers at Baseline, and if the measurement was affected by changed or new PAH therapeutic agents as covariates.||||0.47
92439272|NCT01086540|184764101|SUPERIORITY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|5.7||0.43|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit with severity of Raynaud's (0 to 100) as the outcome, and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.43
92439273|NCT01086540|184764102|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|2.8||0.65|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit with DLCO as the outcome, and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.65
92439274|NCT01086540|184764104|SUPERIORITY||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|9.7||0.42|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis|||A repeated measures mixed model was fit with percent change in PVR as the outcome and baseline PVR, treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.42
92439275|NCT01086540|184764109|SUPERIORITY|||||||0.17||||||P-values not adjusted for multiple comparisons.|Log Rank|||Kaplan-Meier curves for time to all-cause mortality were compared using a log-rank test.||||0.17
92439276|NCT01086540|184764110|SUPERIORITY|||||||0.35||||||P-values not adjusted for multiple comparisons.|Log Rank|||Kaplan-Meier curves for time to all-cause mortality were compared using a log-rank test.||||0.35
92439277|NCT02278263|184764111|SUPERIORITY||||||<|0.05|||||||ANOVA|||Assuming a common standard deviation of 412 mL, to detect a difference of 300 mL of blood loss between the two treatment arms (sTXA and tTXA) and the placebo group, a sample size of 125 participants is required for a statistical power of 0.85, and a type I error of 0.05. The sample size required was 125 participants in total. The was increased by 15% to allow for expected dropouts. Therefore, a minimum of 147 patients was required for the study.||||<0.05
92439278|NCT02707991|184764130|SUPERIORITY||Mean Difference (Final Values)|22.0|STANDARD_ERROR_OF_MEAN|0.115||0.036|ONE_SIDED|||||one-sided test|z-test for difference in proportions|||||||0.036
92439279|NCT02612428|184764169|SUPERIORITY||Hazard Ratio (HR)|0.913||||0.762|TWO_SIDED|95.0|0.509|1.64|||Log Rank|||The primary endpoint was assessed using a Kaplan-Meier survival analysis of the Intent-to-treat (ITT) population utilizing a log-rank test.||1.640|0.509|0.762
92439280|NCT02612428|184764170|SUPERIORITY|||||||0.6829|||||||Chi-squared|||||||0.6829
92439281|NCT02612428|184764171|SUPERIORITY|||||||0.048|||||||Chi-squared|||||||0.048
92439282|NCT00137423|184764180|SUPERIORITY_OR_OTHER||Objective Response Rate|28.3||||||95.0|16.8|42.3|||F distribution|||Objective response rate required a sample size of 100 to test null hypothesis that true response rate was \<=5% versus alternative hypothesis that true response rate was \>=15% with 90% power and alpha level of 0.05. If number of OR\> =11 null hypothesis that true response rate was \<=5% could be rejected with a target α error rate of 0.05.||42.3|16.8|
92439283|NCT00137423|184764180|SUPERIORITY_OR_OTHER||Objective Response Rate|11.5||||||95.0|4.4|23.4|||F distribution|||Objective response rate required a sample size of 100 to test null hypothesis that true response rate was \<=5% versus alternative hypothesis that true response rate was \>=15% with 90% power and alpha level of 0.05. If number of OR\> =11 null hypothesis that true response rate was \<=5% could be rejected with a target α error rate of 0.05.||23.4|4.4|
92439284|NCT00137423|184764184|SUPERIORITY_OR_OTHER||1-year survival rate|77.4||||||95.0|63.6|86.5|||Kaplan-Meier method||valid presentation only if at least 1 patient has overall survival \>=1 year. Based on normal approximation, 95% CI will be derived by log transformation of the cumulative hazard rate.|||86.5|63.6|
92439285|NCT00137423|184764184|SUPERIORITY_OR_OTHER||1-year survival rate|66.0||||||95.0|51.6|77.1|||Kaplan-Meier method||valid presentation only if at least 1 patient has overall survival \>=1 year. Based on normal approximation, 95% CI will be derived by log transformation of the cumulative hazard rate.|||77.1|51.6|
92439286|NCT01928329|184764188|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.13||0.0816|TWO_SIDED|95.0|-0.5|0.03||The \<0.05 is the apriori threshold for statistical significance.|Mixed Models Analysis|HbA1c Linear Mixed Model Results (adjusts the model for: baseline BMI, gender, study site, race (White/Non White) and Baseline C-Peptide production).||||0.03|-0.50|0.0816
92439287|NCT01928329|184764189|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.13||0.912|TWO_SIDED|95.0|-0.28|0.25||The \<0.05 is the apriori threshold for statistical significance.|Mixed Models Analysis|HbA1c Linear Mixed Model Results (adjusts the model for: baseline BMI, gender, study site, race (White/Non White) and Baseline C-Peptide production).||||0.25|-0.28|0.912
92439288|NCT01928329|184764190|SUPERIORITY||Z score|-0.801||||0.423|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.423
92439289|NCT01928329|184764191|SUPERIORITY||Z score|-1.312||||0.189|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.189
92439290|NCT05167734|184764208|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.02|TWO_SIDED|95.0|0.1|1.2|||Mixed Models Analysis|linear mixed effects model adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|values greater than 0 infer higher hemoglobin in active intervention|||1.2|0.1|0.02
92439291|NCT05167734|184764209|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.04|TWO_SIDED|95.0|0.0|1.1|||Mixed Models Analysis|linear mixed effects model adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|adjusted mean difference|3-months post hospitalization||1.1|0.0|0.04
92439292|NCT05167734|184764209|SUPERIORITY||Mean Difference (Net)|0.2||||0.42|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|linear mixed effects model adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission||Hospital Discharge||0.7|-0.3|0.42
92439293|NCT05167734|184764210|SUPERIORITY|||||||0.352|||||||Mixed Models Analysis|||||||0.352
92439294|NCT05167734|184764211|SUPERIORITY||||||<|0.001||||||threshold for significance - p\<0.05|Mixed Models Analysis|||||||<0.001
92439295|NCT05167734|184764212|SUPERIORITY||Odds Ratio (OR)|1.03||||0.94|TWO_SIDED|95.0|0.44|2.4|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|Hospital Discharge||2.40|0.44|0.94
92439296|NCT05167734|184764212|SUPERIORITY||Odds Ratio (OR)|1.79||||0.18|TWO_SIDED|95.0|0.76|4.2|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization||4.20|0.76|0.18
92439297|NCT05167734|184764212|SUPERIORITY||Odds Ratio (OR)|1.23||||0.64|TWO_SIDED|95.0|0.51|3.0|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization||3.00|0.51|0.64
92439298|NCT05167734|184764213|SUPERIORITY||Odds Ratio (OR)|1.81||||0.23|TWO_SIDED|95.0|0.68|4.8|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|Hospital discharge||4.80|0.68|0.23
92439299|NCT05167734|184764213|SUPERIORITY||Odds Ratio (OR)|2.43||||0.09|TWO_SIDED|95.0|0.87|6.8|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization||6.80|0.87|0.09
92439300|NCT05167734|184764213|SUPERIORITY||Odds Ratio (OR)|2.52||||0.084|TWO_SIDED|95.0|0.88|7.2|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization||7.20|0.88|0.084
92439301|NCT05167734|184764214|SUPERIORITY||Mean Difference (Net)|218.0||||0.13|TWO_SIDED|95.0|-73.0|510.0|||Mixed Models Analysis|adjusting for baseline hemoglobin, age, sex, surgical vs. non-surgical admission, and baseline ADLs|scores greater than 0 reflect greater ambulatory distance in active intervention|1-month post hospitalization||510|-73|0.13
92439302|NCT05167734|184764214|SUPERIORITY||Median Difference (Net)|178.0||||0.27|TWO_SIDED|95.0|-154.0|510.0|||Mixed Models Analysis|adjusting for baseline hemoglobin, age, sex, surgical vs. non-surgical admission, baseline ADLs||3-months post hospitalization||510|-154|0.27
92439303|NCT05167734|184764215|SUPERIORITY||Odds Ratio (OR)|2.49||||0.12|TWO_SIDED|95.0|0.79|7.8|||proportional odds|adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization||7.80|0.79|0.12
92439304|NCT05167734|184764215|SUPERIORITY||Odds Ratio (OR)|3.1||||0.07|TWO_SIDED|95.0|0.91|10.5|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization||10.5|0.91|0.07
92439305|NCT05167734|184764216|SUPERIORITY||Odds Ratio (OR)|0.5||||0.29|TWO_SIDED|95.0|0.14|1.8|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization for anxiety score||1.80|0.14|0.29
92439306|NCT05167734|184764216|SUPERIORITY||Odds Ratio (OR)|0.68||||0.57|TWO_SIDED|95.0|0.18|2.6|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization for anxiety score||2.60|0.18|0.57
92439307|NCT05167734|184764216|SUPERIORITY||Odds Ratio (OR)|0.36||||0.12|TWO_SIDED|95.0|0.1|1.3|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization for depression score||1.30|0.10|0.12
92439308|NCT05167734|184764216|SUPERIORITY||Odds Ratio (OR)|0.62||||0.48|TWO_SIDED|95.0|0.16|2.4|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization for depression score||2.40|0.16|0.48
92439309|NCT05167734|184764217|SUPERIORITY||Odds Ratio (OR)|1.48||||0.56|TWO_SIDED|95.0|0.39|5.6|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization||5.60|0.39|0.56
92439310|NCT05167734|184764217|SUPERIORITY||Odds Ratio (OR)|9.16||||0.02|TWO_SIDED|95.0|1.4|59.9|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization||59.9|1.40|0.02
92439311|NCT05167734|184764218|SUPERIORITY||Odds Ratio (OR)|0.16||||0.09|TWO_SIDED|95.0|0.02|1.4|||Regression, Logistic|adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|||1.40|0.02|0.09
92439312|NCT05167734|184764220|SUPERIORITY||Odds Ratio (OR)|0.73||||0.48|TWO_SIDED|95.0|0.3|1.8|||Regression, Logistic|logistic models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds for the given event associated with intervention associated with active intervention|3-months post hospitalization||1.80|0.30|0.48
92439313|NCT05167734|184764221|SUPERIORITY||Odds Ratio (OR)|2.13||||0.54|TWO_SIDED|95.0|0.19|24.0|||Regression, Logistic|logistic models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds for the given event associated with intervention associated with active intervention|3-months post hospitalization||24.0|0.19|0.54
92439314|NCT04339296|184764261|EQUIVALENCE|An independent sample t-test was performed between intervention and control group to determine if the difference of the mean medication adherence is equal to zero (null hypothesis).|Mean Difference (Net)|7.18|||<|0.01|TWO_SIDED|||||Statistical test was set at 95% confidence level.|t-test, 2 sided||Medication Adherence Difference = Intervention Adherence - Control Adherence|||||<0.01
92439315|NCT04339296|184764262|EQUIVALENCE|The null hypothesis assumes that the true mean difference for intervention participants self-reported medication adherence scores (from baseline to 6-month) is equal to zero.|Mean Difference (Net)|-1.5|||<|0.01|TWO_SIDED|||||Statistical test was set at 95% confidence level.|t-test, 2 sided||Mean difference (intervention participants self-reported score) = baseline minus 6-month.|||||<0.01
92439316|NCT04339296|184764262|EQUIVALENCE|The null hypothesis assumes that the true mean difference for control participants self-reported medication adherence scores (from baseline to 6-month) is equal to zero.|Mean Difference (Net)|-1.07||||0.07|TWO_SIDED|||||Statistical tests was set at 95% confidence level.|t-test, 2 sided||Mean difference (control participants self-reported score) = baseline minus 6-month.|||||0.07
92439317|NCT03742037|184764265|SUPERIORITY||LS mean difference to placebo|-0.39|STANDARD_ERROR_OF_MEAN|0.54||0.4749|TWO_SIDED|95.0|-1.45|0.68|||Mixed Models Analysis|||The analysis was performed on the Full Analysis Set (FAS). The FAS included all participants who were randomized. Baseline was defined as the last measurement before randomization.||0.68|-1.45|0.4749
92439318|NCT03742037|184764265|SUPERIORITY||LS mean to placebo|-0.57|STANDARD_ERROR_OF_MEAN|0.54||0.2941|TWO_SIDED|95.0|-1.65|0.49|||Mixed Models Analysis|||The analysis was performed on the Full Analysis Set (FAS). The FAS included all participants who were randomized. Baseline was defined as the last measurement before randomization.||0.49|-1.65|0.2941
92439319|NCT03742037|184764265|SUPERIORITY||LS mean difference to placebo|0.01|STANDARD_ERROR_OF_MEAN|0.54||0.9802|TWO_SIDED|95.0|-1.05|1.08|||Mixed Models Analysis|||The analysis was performed on the Full Analysis Set (FAS). The FAS included all participants who were randomized. Baseline was defined as the last measurement before randomization.||1.08|-1.05|0.9802
92439320|NCT03742037|184764265|SUPERIORITY||LS mean difference|-1.19|STANDARD_ERROR_OF_MEAN|0.54||0.0291|TWO_SIDED|95.0|-2.25|-0.12|||Mixed Models Analysis|||The analysis was performed on the Full Analysis Set (FAS). The FAS included all participants who were randomized. Baseline was defined as the last measurement before randomization.||-0.12|-2.25|0.0291
92439321|NCT03742037|184764266|SUPERIORITY||Odds Ratio (OR)|1.01||||0.974|TWO_SIDED|95.0|0.54|1.9|||Mixed Models Analysis|||A generalized mixed effects model for repeated measures was applied to the SRI-4 response from Month 1 through 6 with treatment group, month, treatment group by month interaction, and stratification factors (oral corticosteroids dose \& mSLEDAI-2K) as fixed effects \& participant as random effect.||1.9|0.54|0.974
92439322|NCT03742037|184764266|SUPERIORITY||Odds Ratio (OR)|1.42||||0.2845|TWO_SIDED|95.0|0.75|2.65|||Mixed Models Analysis|||A generalized mixed effects model for repeated measures was applied to the SRI-4 response from Month 1 through 6 with treatment group, month, treatment group by month interaction, and stratification factors (oral corticosteroids dose \& mSLEDAI-2K) as fixed effects \& participant as random effect.||2.65|0.75|0.2845
92439323|NCT03742037|184764266|SUPERIORITY||Odds Ratio (OR)|1.23||||0.5115|TWO_SIDED|95.0|0.66|2.32|||Mixed Models Analysis|||A generalized mixed effects model for repeated measures was applied to the SRI-4 response from Month 1 through 6 with treatment group, month, treatment group by month interaction, and stratification factors (oral corticosteroids dose \& mSLEDAI-2K) as fixed effects \& participant as random effect.||2.32|0.66|0.5115
92439324|NCT03742037|184764266|SUPERIORITY||Odds Ratio (OR)|1.23||||0.5115|TWO_SIDED|95.0|0.66|2.32|||Mixed Models Analysis|||A generalized mixed effects model for repeated measures was applied to the SRI-4 response from Month 1 through 6 with treatment group, month, treatment group by month interaction, and stratification factors (oral corticosteroids dose \& mSLEDAI-2K) as fixed effects \& participant as random effect.||2.32|0.66|0.5115
92439325|NCT00969150|184764281|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.49||||0.2492|TWO_SIDED|95.0|-4.02|1.05|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||1.05|-4.02|0.2492
92439326|NCT00969150|184764282|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.54||||0.5625|TWO_SIDED|95.0|-2.38|1.29|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||1.29|-2.38|0.5625
92439327|NCT00056407|184764304|SUPERIORITY_OR_OTHER||Relative Risk Reduction|23.3|||<|0.0001||95.0|15.6|30.3||The p value is given is for the overall assessment.|Mantel-Cox||Estimation data given are for the overall assessment.|||30.3|15.6|<0.0001
92439328|NCT00056407|184764305|SUPERIORITY_OR_OTHER||Relative Risk Reduction|23.1|||<|0.0001||95.0|15.5|30.0||The p value is given is for the overall assessment.|Mantel-Cox||Estimation data are given are for the overall assessment.|||30.0|15.5|<0.0001
92239915|NCT00570739|184383772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0046|TWO_SIDED|95.0|-0.42|-0.08||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks||-0.08|-0.42|0.0046
92239916|NCT00570739|184383773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1||||0.1112|TWO_SIDED|95.0|-11.3|1.2|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 4 Weeks||1.2|-11.3|0.1112
92239917|NCT00570739|184383773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3||||0.2167|TWO_SIDED|95.0|-8.6|2.0|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||2.0|-8.6|0.2167
92239918|NCT00570739|184383773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.7269|TWO_SIDED|95.0|-7.0|4.9|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 12 weeks||4.9|-7.0|0.7269
92439329|NCT00056407|184764306|SUPERIORITY_OR_OTHER||Relative Risk Reduction|22.8|||<|0.0001||95.0|15.2|29.8||The p value is given for the overall assessment.|Mantel-Cox||Estimation data are given for the overall assessment.|||29.8|15.2|<0.0001
92439330|NCT00056407|184764329|SUPERIORITY_OR_OTHER||Difference in adjusted means|18.8|||<|0.001||95.0|17.3|20.4|||general linear model, t-test||The adjusted mean difference was calculated as the difference between the adjusted means (-6.1 and 12.7) for the placebo and Dutasteride arms, respectively.|||20.4|17.3|<0.001
92439331|NCT02335099|184764356|SUPERIORITY||Odds Ratio (OR)|3.77||||0.32|TWO_SIDED|95.0|0.27|217.52|||Fisher Exact|||||217.52|0.27|0.32
92439332|NCT02335099|184764357|SUPERIORITY||Cox Proportional Hazard|0.86||||0.82|TWO_SIDED|95.0|0.23|3.2|||Log Rank|||||3.20|0.23|0.82
92439333|NCT04702997|184764383|SUPERIORITY||LS Mean difference (Net)|7.71|STANDARD_ERROR_OF_MEAN|1.268|<|0.0001|TWO_SIDED|95.0|5.18|10.24||KDIGO strata, treatment group, time (Week 1 to 12), and the interaction between treatment and time were used as fixed factors.|Mixed Models Analysis||Difference is bardoxolone methyl - placebo|||10.24|5.18|<0.0001
92439334|NCT01103284|184764416|SUPERIORITY_OR_OTHER|||||||0.33||||||The a priori threshold for statistical significance was 0.05|Mixed Models Analysis|The Mixed-Effect Model Repeated Measure (MMRM) was adjusted for the following baseline covariates: age, C-peptide, insulin dose by body weight and AUC||||||0.33
92439335|NCT01103284|184764417|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED|||||A priori threshold for statistical significance was 0.05|Mixed Models Analysis|The MMRM model was adjusted for the following covariates: age, Baseline C-peptide, Baseline insulin dose adjusted for body weight, and Baseline AUC.||||||0.68
92439336|NCT01103284|184764418|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED|||||The a priori threshold for statistical significance was 0.05|Mixed Models Analysis|The MMRM model was adjusted for the following covariates: age, Baseline C-peptide, Baseline insulin dose adjusted for body weight, and Baseline AUC||||||0.44
92439337|NCT01103284|184764420|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.38||||0.07|TWO_SIDED|95.0|-0.02|0.79||Standard multiple imputation was used to predict the number and timing of hypoglycemic events after discontinuing the study for subjects who did not remain in the study until Month 25.|negative binomial regression|||The number of hypoglycemia events during the study was analyzed using a negative binomial regression model, with number of events as the dependent variable, and treatment, age, baseline daily insulin dose, and baseline C-peptide as covariates. The log of duration in the study for each patient was used as an offset variable in the model.||0.79|-0.02|0.07
92439338|NCT01190254|184764470|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares (LS) Means|-4.8||||0.07|TWO_SIDED|95.0|-9.9|0.4||p-value is adjusted by Hochberg's method for testing two asenapine groups versus the placebo group|Mixed Model for Repeated Measures (MMRM)|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.4|-9.9|0.070
92439339|NCT01190254|184764470|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-5.6||||0.064|TWO_SIDED|95.0|-10.7|-0.5||p-value is adjusted by Hochberg's method for testing two asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.5|-10.7|0.064
92439340|NCT01190254|184764470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064||||||p-value (adjusted to control Type I error in multiple testing) for Linear dose-response pattern (Placebo\<2.5 mg\<5.0 mg)|MMRM|||Investigation of dose-response relationship of change from baseline to Day 56 in PANSS Total Score was a Secondary study endpoint. Multiple contrast testing using MMRM model was used to evaluate 3 pre-defined dose-response patterns (Linear, Convex, Concave)||||0.064
92439341|NCT01190254|184764470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||||||p-value (adjusted to control Type I error in multiple testing) for Convex dose-response pattern (Placebo\<2.5 mg=5.0 mg)|MMRM|||Investigation of dose-response relationship of change from baseline to Day 56 in PANSS Total Score was a Secondary study endpoint. Multiple contrast testing using MMRM model was used to evaluate 3 pre-defined dose-response patterns (Linear, Convex, Concave)||||0.046
92439342|NCT01190254|184764470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.273||||||p-value (adjusted to control Type I error in multiple testing) for Concave dose-response pattern (Placebo=2.5 mg\<5.0 mg)|MMRM|||Investigation of dose-response relationship of change from baseline to Day 56 in PANSS Total Score was a Secondary study endpoint. Multiple contrast testing using MMRM model was used to evaluate 3 pre-defined dose-response patterns (Linear, Convex, Concave)||||0.273
92439343|NCT01190254|184764471|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.2||||0.218|TWO_SIDED|95.0|-0.5|0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Confirmative testing for the key secondary endpoint was to be performed only if both asenapine doses were superior to placebo in change from baseline in PANSS total score at Day 56 (hypotheses associated with Primary outcome measure). If this did not occur, no confirmative testing could be performed and multiplicity unadjusted p-values are provided. Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.1|-0.5|0.218
92439344|NCT01190254|184764471|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.3||||0.024||95.0|-0.6|0.0|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Confirmative testing for the key secondary endpoint was to be performed only if both asenapine doses were superior to placebo in change from baseline in PANSS total score at Day 56 (hypotheses associated with Primary outcome measure). If this did not occur, no confirmative testing could be performed and multiplicity unadjusted p-values are provided. Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.0|-0.6|0.024
92439345|NCT01190254|184764472|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.6||||0.067|TWO_SIDED|95.0|-3.3|0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.1|-3.3|0.067
92171269|NCT02814838|184231702|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Glucose (mmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|-0.0253||||0.9307|TWO_SIDED|95.0|-0.5986|0.548|||Mixed Models Analysis|||at week 13||0.548|-0.5986|0.9307
92439346|NCT01190254|184764472|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.1||||0.012|TWO_SIDED|95.0|-3.8|-0.5|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.5|-3.8|0.012
92439347|NCT01190254|184764473|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.2||||0.097|TWO_SIDED|95.0|-2.6|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-2.6|0.097
92439348|NCT01190254|184764473|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.2||||0.099|TWO_SIDED|95.0|-2.6|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-2.6|0.099
92439349|NCT01190254|184764474|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.7||||0.062|TWO_SIDED|95.0|-5.6|0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.1|-5.6|0.062
92439350|NCT01190254|184764474|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-3.2||||0.025|TWO_SIDED|95.0|-6.0|-0.4|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.4|-6.0|0.025
92439351|NCT01190254|184764475|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.1||||0.098|TWO_SIDED|95.0|-4.6|0.4|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.4|-4.6|0.098
92439352|NCT01190254|184764475|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.3||||0.071|TWO_SIDED|95.0|-4.8|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-4.8|0.071
92439353|NCT01190254|184764476|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.4||||0.106|TWO_SIDED|95.0|-3.1|0.3|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.3|-3.1|0.106
92439354|NCT01190254|184764476|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.9||||0.026|TWO_SIDED|95.0|-3.6|-0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.2|-3.6|0.026
92439355|NCT01190254|184764477|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.2||||0.083|TWO_SIDED|95.0|-2.6|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-2.6|0.083
92439356|NCT01190254|184764477|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.3||||0.067|TWO_SIDED|95.0|-2.7|0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.1|-2.7|0.067
92439357|NCT01190254|184764478|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.9||||0.131|TWO_SIDED|95.0|-2.1|0.3|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.3|-2.1|0.131
92439358|NCT01190254|184764478|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.9||||0.135|TWO_SIDED|95.0|-2.1|0.3|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.3|-2.1|0.135
92439359|NCT01190254|184764479|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.0||||0.071|TWO_SIDED|95.0|-2.0|0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.1|-2.0|0.071
92439360|NCT01190254|184764479|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.8||||0.12|TWO_SIDED|95.0|-1.9|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-1.9|0.120
92239919|NCT00570739|184383773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.4063|TWO_SIDED|95.0|-8.4|3.4|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks||3.4|-8.4|0.4063
92239920|NCT00570739|184383773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.4909|TWO_SIDED|95.0|-8.0|3.9|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks (LOCF)||3.9|-8.0|0.4909
92439361|NCT01190254|184764480|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.4||||0.263|TWO_SIDED|95.0|-1.2|0.3|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.3|-1.2|0.263
92439362|NCT01190254|184764480|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.5||||0.146|TWO_SIDED|95.0|-1.3|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-1.3|0.146
92439363|NCT01190254|184764481|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.0||||0.028|TWO_SIDED|95.0|1.1|3.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of (pooled) site, treatment, and baseline PANSS Total Score|OR was adjusted for baseline and (pooled) site. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total PANSS 30% response|||3.6|1.1|0.028
92439364|NCT01190254|184764481|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8||||0.048|TWO_SIDED|95.0|1.0|3.3||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of (pooled) site, treatment, and baseline PANSS Total Score|OR was adjusted for baseline and (pooled) site. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total PANSS 30% response|||3.3|1.0|0.048
92439365|NCT01190254|184764482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.576||||||p-value is for Log Rank test of difference in time to event (PANSS 30% response) curves between the three treatment groups|Log Rank|||||||0.576
92439366|NCT01190254|184764482|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3||||0.171|TWO_SIDED|95.0|0.9|2.0|||Regression, Cox|Model included factors for (pooled) site, treatment and baseline PANSS Total Score|An HR of \>1 is considered to mean that asenapine has a higher likelihood of being a Total PANSS 30% Responder than placebo|||2.0|0.9|0.171
92439367|NCT01190254|184764482|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.2||||0.368|TWO_SIDED|95.0|0.8|1.8|||Regression, Cox|Model included factors for (pooled) site, treatment and baseline PANSS Total Score|An HR of \>1 is considered to mean that asenapine has a higher likelihood of being a Total PANSS 30% Responder than placebo|||1.8|0.8|0.368
92439368|NCT01190254|184764483|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.3||||0.094|TWO_SIDED|95.0|-0.6|0.0|||MMRM|Model included terms of (pooled) site, treatment, visit, and the interaction of visit by treatment|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.0|-0.6|0.094
92439369|NCT01190254|184764483|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.5||||0.003|TWO_SIDED|95.0|-0.8|-0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, and the interaction of visit by treatment|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.2|-0.8|0.003
92439370|NCT01190254|184764484|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.5||||0.177|TWO_SIDED|95.0|0.8|2.8||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of region (Asia-Pacific, North America, Eastern Europe \[Africa/Latin America sites assigned to this region\]) and treatment|OR was adjusted for region. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving CGI-I response|||2.8|0.8|0.177
92439371|NCT01190254|184764484|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6||||0.114|TWO_SIDED|95.0|0.9|2.9||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of region (Asia-Pacific, North America, Eastern Europe \[Africa/Latin America sites assigned to this region\]) and treatment|OR was adjusted for region. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving CGI-I response|||2.9|0.9|0.114
92439372|NCT01190254|184764485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057||||||p-value is for Log Rank test of difference in time to event (CGI-I response) curves between the three treatment groups|Log Rank|||||||0.057
92239921|NCT00570739|184383774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.303||||0.7606|TWO_SIDED|95.0|-2.259|1.653||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 4 weeks||1.653|-2.259|0.7606
92439373|NCT01190254|184764485|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.4||||0.135|TWO_SIDED|95.0|0.9|2.3|||Regression, Cox|Model included factors for (pooled) site and treatment|An HR of \>1 is considered to mean that asenapine has a higher likelihood of being a CGI-I Responder than placebo|||2.3|0.9|0.135
92439374|NCT01190254|184764485|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.8||||0.01|TWO_SIDED|95.0|1.2|2.9|||Regression, Cox|Model included factors for (pooled) site and treatment|An HR of \>1 is considered to mean that asenapine has a higher likelihood of being a CGI-I Responder than placebo|||2.9|1.2|0.010
92439375|NCT01190254|184764486|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|1.4||||0.417|TWO_SIDED|95.0|-2.0|4.8|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||4.8|-2.0|0.417
92439376|NCT01190254|184764486|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|4.2||||0.017|TWO_SIDED|95.0|0.8|7.6|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||7.6|0.8|0.017
92439377|NCT01190254|184764487|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.6||||0.6|TWO_SIDED|95.0|-1.6|2.8|||ANCOVA|Model included terms of (pooled) site, treatment, and baseline|Estimate is asenapine versus placebo|||2.8|-1.6|0.600
92439378|NCT01190254|184764487|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|2.1||||0.064|TWO_SIDED|95.0|-0.1|4.3|||ANCOVA|Model included terms of (pooled) site, treatment, and baseline|Estimate is asenapine versus placebo|||4.3|-0.1|0.064
92439379|NCT01190254|184764488|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.1||||0.407|TWO_SIDED|95.0|-0.13|0.33|||ANCOVA|Model included terms of (pooled) site, treatment, and baseline|Estimate is asenapine versus placebo|||0.33|-0.13|0.407
92439380|NCT01190254|184764488|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.19||||0.111|TWO_SIDED|95.0|-0.04|0.42|||ANCOVA|Model included terms of (pooled) site, treatment, and baseline|Estimate is asenapine versus placebo|||0.42|-0.04|0.111
92439381|NCT00202644|184764498|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority of anagrelide could be concluded if lower limit of 95% Confidence Interval for the difference between treatment groups (Hydroxyurea - Anagrelide) was \> -100 x 10\^9/Liter.|Least Square Mean|-100.5|STANDARD_ERROR_OF_MEAN|39.93|||TWO_SIDED|95.0|-179.42|-21.49||||||||-21.49|-179.42|
92439382|NCT00202644|184764499|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority of anagrelide could be concluded if lower limit of 95% Confidence Interval for the difference between treatment groups (Hydroxyurea - Anagrelide) was \> -100 x 10\^9/Liter.|Least Square Mean|-113.1|STANDARD_ERROR_OF_MEAN|37.56|||TWO_SIDED|95.0|-187.4|-38.83||||||Month 3||-38.83|-187.40|
92439383|NCT00202644|184764499|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority of anagrelide could be concluded if lower limit of 95% Confidence Interval for the difference between treatment groups (Hydroxyurea - Anagrelide) was \> -100 x 10\^9/Liter.|Least Square Mean|-68.3|STANDARD_ERROR_OF_MEAN|43.83|||TWO_SIDED|95.0|-154.95|18.43||||||Month 36||18.43|-154.95|
92439384|NCT03232281|184764516|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was confirmed.|Rate difference (%)|-0.7|||||TWO_SIDED|95.0|-4.41|2.58|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||2.58|-4.41|
92439385|NCT03232281|184764517|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was observed without multiplicity adjustment.|Rate difference (%)|-1.3|||||TWO_SIDED|95.0|-5.26|1.93|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|Rate difference at Week 4. The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||1.93|-5.26|
92439386|NCT03232281|184764517|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was observed without multiplicity adjustment.|Rate difference (%)|-2.7|||||TWO_SIDED|95.0|-6.8|-0.16|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|Rate difference at Week 8. The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||-0.16|-6.80|
92439387|NCT03232281|184764518|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was observed without multiplicity adjustment.|Rate difference (%)|-1.3|||||TWO_SIDED|95.0|-5.26|1.93|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|Rate difference at Week 4. The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||1.93|-5.26|
92439388|NCT03232281|184764518|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was observed without multiplicity adjustment.|Rate difference (%)|-4.1|||||TWO_SIDED|95.0|-8.93|-0.52|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|Rate difference at Week 8. The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||-0.52|-8.93|
92439389|NCT03232281|184764518|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was observed without multiplicity adjustment.|Rate difference (%)|-2.7|||||TWO_SIDED|95.0|-7.44|1.17|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|Rate difference at Week 12. The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||1.17|-7.44|
92439390|NCT00861146|184764525|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Chi-squared|df = 1||||||<.01
92439391|NCT00861146|184764526|SUPERIORITY_OR_OTHER_LEGACY||mixed model regression analyses (F)|2.04|||>|0.15|||||||mixed model regression analyses|||Drinking outcomes assessed using the timeline follow-back were evaluated with mixed model regression analyses using maximum likelihood estimation. Time was measured in three monthly periods and treated as a repeated factor (due to the fixed time period between estimates).||||> .15
92439392|NCT00861146|184764527|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|df=1||||||<.001
92439393|NCT02024867|184764537|NON_INFERIORITY_OR_EQUIVALENCE|The sample size of 120 per group was calculated according to an assumed treatment cure rate of 95% with 10 days of antibiotics, and a non-inferiority margin of 7% (allowing up to 88% cure rate with 3 days of antibiotics), to achieve a power of 0.80 (alpha=0.05). An additional 25 patients were recruited to account for an estimated 10% lost to follow-up.|Rate Difference|4.0||||0.25|TWO_SIDED|95.0|-1.5|9.5|||Chi-squared|||||9.5|-1.5|0.25
92439394|NCT02024867|184764538|NON_INFERIORITY_OR_EQUIVALENCE|described previously|Rate Difference|10.7||||0.02|TWO_SIDED|95.0|2.1|19.2|||Chi-squared|||||19.2|2.1|0.02
92439395|NCT02024867|184764539|NON_INFERIORITY_OR_EQUIVALENCE|described previously|Rate Difference|10.1||||0.03|TWO_SIDED|95.0|2.1|18.2|||Chi-squared|||||18.2|2.1|0.03
92439396|NCT02024867|184764540|NON_INFERIORITY_OR_EQUIVALENCE|described previously|Rate Difference|0.1|||>|0.05|TWO_SIDED|95.0|-6.9|7.0|||Chi-squared|||||7.0|-6.9|>0.05
92439397|NCT02024867|184764541|NON_INFERIORITY_OR_EQUIVALENCE|described previously|Rate Difference|10.3||||0.046|TWO_SIDED|95.0|0.8|19.9|||Chi-squared|||||19.9|0.8|0.046
92439398|NCT02024867|184764542|NON_INFERIORITY_OR_EQUIVALENCE|described previously|rate difference|0.0|||>|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||>0.05
92439399|NCT00527943|184764617|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.92||||0.072|TWO_SIDED|95.0|0.85|1.01|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.01|0.85|0.072
92439400|NCT00527943|184764618|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89||||0.018|TWO_SIDED|95.0|0.81|0.98|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.98|0.81|0.018
92439401|NCT00527943|184764619|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.36|||<|0.001|TWO_SIDED|95.0|1.18|1.57|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.57|1.18|<0.001
92439402|NCT00527943|184764620|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.41|||<|0.001|TWO_SIDED|95.0|1.29|1.54|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.54|1.29|<0.001
92439403|NCT00527943|184764621|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.91||||0.038|TWO_SIDED|95.0|0.84|1.0|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.00|0.84|0.038
92439404|NCT00527943|184764622|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9||||0.027|TWO_SIDED|95.0|0.81|0.99|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.99|0.81|0.027
92439405|NCT00527943|184764623|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.94||||0.174|TWO_SIDED|95.0|0.87|1.03|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.03|0.87|0.174
92439406|NCT00527943|184764624|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.93||||0.108|TWO_SIDED|95.0|0.86|1.02|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.02|0.86|0.108
92439407|NCT00527943|184764625|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.0||||0.963|TWO_SIDED|95.0|0.83|1.22|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.22|0.83|0.963
92439408|NCT00527943|184764626|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.021|TWO_SIDED|95.0|0.79|0.98|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.98|0.79|0.021
92439409|NCT00527943|184764627|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.14||||0.418|TWO_SIDED|95.0|0.83|1.58|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.58|0.83|0.418
92439410|NCT00527943|184764628|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.07||||0.493|TWO_SIDED|95.0|0.88|1.31|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.31|0.88|0.493
92439411|NCT00527943|184764629|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.05||||0.515|TWO_SIDED|95.0|0.9|1.23|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.23|0.90|0.515
92439412|NCT00527943|184764630|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.93||||0.606|TWO_SIDED|95.0|0.7|1.23|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.23|0.70|0.606
92439413|NCT04501666|184764645|SUPERIORITY||Strata adjusted percentage difference|40.1|||<|0.0001|TWO_SIDED|95.0|29.4|50.8||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||50.8|29.4|< 0.0001
92439414|NCT04501666|184764646|SUPERIORITY||Strata adjusted percentage difference|14.6||||0.0025|TWO_SIDED|95.0|6.7|22.6||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||22.6|6.7|0.0025
92439415|NCT04501666|184764648|SUPERIORITY||Strata adjusted percentage difference|31.7|||<|0.0001|TWO_SIDED|95.0|23.0|40.4||A 2-sided p-value was derived from CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||40.4|23.0|< 0.0001
92439416|NCT04501666|184764649|SUPERIORITY||Strata adjusted percentage difference|30.5|||<|0.0001|TWO_SIDED|95.0|22.3|38.7||A 2-sided p-value was derived from CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||38.7|22.3|< 0.0001
92439417|NCT04501666|184764650|SUPERIORITY||Strata adjusted percentage difference|38.0|||<|0.0001|TWO_SIDED|95.0|27.8|48.2||A 2-sided p-value was derived from CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||48.2|27.8|< 0.0001
92439418|NCT04501666|184764651|SUPERIORITY||Strata adjusted percentage difference|22.7|||<|0.0001|TWO_SIDED|95.0|14.7|30.7||A 2-sided p-value was derived from CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||30.7|14.7|< 0.0001
92439419|NCT04501666|184764652|SUPERIORITY||Strata adjusted percentage difference|18.7|||<|0.0001|TWO_SIDED|95.0|12.3|25.0||A 2-sided p-value was derived from CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||25.0|12.3|< 0.0001
92439420|NCT03338855|184764653|SUPERIORITY||Least Square (LS) Mean Difference|-1.068|STANDARD_ERROR_OF_MEAN|1.014||0.3047|TWO_SIDED|95.0|-3.183|1.047|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of delta RD (basal vs high insulin) between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||1.047|-3.183|0.3047
92439421|NCT03338855|184764654|SUPERIORITY||LS Mean Difference|-1.705|STANDARD_ERROR_OF_MEAN|0.517||0.0036|TWO_SIDED|95.0|-2.784|-0.625|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of delta EGP (basal vs low insulin) between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||-0.625|-2.784|0.0036
92171270|NCT02814838|184231702|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Glucose (mmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|-0.7236||||0.0139|TWO_SIDED|95.0|-1.2989|-0.1483|||Mixed Models Analysis|||At week 26||-0.1483|-1.2989|0.0139
92171271|NCT02814838|184231702|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Glucose (mmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|-0.5979||||0.0432|TWO_SIDED|95.0|-1.1775|-0.0184|||Mixed Models Analysis|||at week 52||-0.0184|-1.1775|0.0432
92171272|NCT02814838|184231704|SUPERIORITY|||||||0.1171|||||||Fisher Exact|||at week 13||||0.1171
92171273|NCT02814838|184231704|SUPERIORITY|||||||0.6586|||||||Fisher Exact|||At week 26||||0.6586
92238060|NCT03151148|184380355|SUPERIORITY||Geometric mean ratio (GMR)|1.247||||0.863|TWO_SIDED|95.0|0.1002|15.5231|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||15.5231|0.1002|0.863
92238061|NCT03151148|184380355|SUPERIORITY||Geometric mean ratio (GMR)|0.615||||0.702|TWO_SIDED|95.0|0.0503|7.5106|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.5106|0.0503|0.702
92171274|NCT02814838|184231704|SUPERIORITY|||||||0.5056|||||||Fisher Exact|||At week 52||||0.5056
92171275|NCT02814838|184231705|SUPERIORITY|||||||0.0779|||||||Fisher Exact|||at week 13||||0.0779
92171276|NCT02814838|184231705|SUPERIORITY|||||||0.0248|||||||Fisher Exact|||At week 26||||0.0248
92171277|NCT02814838|184231705|SUPERIORITY|||||||0.4504|||||||Fisher Exact|||At week 52||||0.4504
92239922|NCT00570739|184383774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.015||||0.1782|TWO_SIDED|95.0|-2.477|0.447||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 weeks||0.447|-2.477|0.1782
92171278|NCT02814838|184231706|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|0.1402||||0.4163|TWO_SIDED|95.0|-0.2015|0.4819|||Mixed Models Analysis|||At week 13||0.4819|-0.2015|0.4163
92171279|NCT02814838|184231706|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|0.177||||0.3575|TWO_SIDED|95.0|-0.2039|0.558|||Mixed Models Analysis|||At week 26||0.558|-0.2039|0.3575
92171280|NCT02814838|184231706|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|0.0451||||0.8386|TWO_SIDED|95.0|-0.3948|0.4851|||Mixed Models Analysis|||At week 52||0.4851|-0.3948|0.8386
92171281|NCT02814838|184231707|SUPERIORITY|Transformed AUC was analyzed with Student t-test for unpaired data using PROC TTEST within SAS® to compare Ladarixin and placebo groups. The estimated treatment difference between Ladarixin and placebo was also presented together with the corresponding 95% confidence interval.|Mean Difference (Final Values)|0.354|||=|0.1114|TWO_SIDED|95.0|-0.09|0.75|||t-test, 2 sided|||At week 13||0.75|-0.09|= 0.1114
92439422|NCT03338855|184764654|SUPERIORITY||LS Mean Difference|-2.292|STANDARD_ERROR_OF_MEAN|0.409|<|0.0001|TWO_SIDED|95.0|-3.146|-1.438|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of delta EGP (basal vs high insulin) between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||-1.438|-3.146|<0.0001
92439423|NCT03338855|184764655|SUPERIORITY||LS Mean Difference|0.012|STANDARD_ERROR_OF_MEAN|0.009||0.1842|TWO_SIDED|95.0|-0.006|0.03|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of delta RER (basal vs high insulin) between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||0.030|-0.006|0.1842
92439424|NCT03338855|184764656|SUPERIORITY||LS Mean Difference|-0.023|STANDARD_ERROR_OF_MEAN|0.005||0.0001|TWO_SIDED|95.0|-0.033|-0.013|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of 24-hour RER between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||-0.013|-0.033|0.0001
92439425|NCT03338855|184764657|SUPERIORITY||LS Mean Difference|-0.109|STANDARD_ERROR_OF_MEAN|0.065||0.1095|TWO_SIDED|95.0|-0.245|0.027|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of energy expenditure between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||0.027|-0.245|0.1095
92239923|NCT00570739|184383774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.504||||0.0332|TWO_SIDED|95.0|-2.887|-0.121||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 12 weeks||-0.121|-2.887|0.0332
92439426|NCT03338855|184764658|SUPERIORITY||LS Mean Difference|-246.7|STANDARD_ERROR_OF_MEAN|464.3||0.6005|TWO_SIDED|95.0|-1209.5|716.2|||Linear Mixed Effects Model||A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.|Comparison of fat mass between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||716.2|-1209.5|0.6005
92439427|NCT03338855|184764658|SUPERIORITY||LS Mean Difference|-666.5|STANDARD_ERROR_OF_MEAN|301.1||0.0376|TWO_SIDED|95.0|-1291.0|-41.9|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of lean mass between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||-41.9|-1291.0|0.0376
92439428|NCT03338855|184764659|SUPERIORITY||LS Mean Difference|-1.256|STANDARD_ERROR_OF_MEAN|0.289||0.0003|TWO_SIDED|95.0|-1.854|-0.657|||Linear Mixed Effects Model||A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.|Comparison of total mass between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||-0.657|-1.854|0.0003
92439429|NCT03338855|184764660|SUPERIORITY||LS Mean Difference|-244.301|STANDARD_ERROR_OF_MEAN|165.168||0.1555|TWO_SIDED|95.0|-590.002|101.401|||Linear Mixed Effects Model||A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.|Comparison of FGF21 AUC between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||101.401|-590.002|0.1555
92439430|NCT00399360|184764691|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||ANOVA|||||||0.37
92439431|NCT00399360|184764692|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||ANOVA|||||||0.80
92439432|NCT00399360|184764693|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANOVA|||||||0.08
92439433|NCT00399360|184764694|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||ANOVA|||||||0.13
92439434|NCT00399360|184764695|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANOVA|||||||0.85
92439435|NCT00399360|184764696|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|||||||0.03
92439436|NCT00399360|184764697|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANOVA|||||||0.10
92439437|NCT00399360|184764698|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||ANOVA|||||||0.63
92439438|NCT00399360|184764699|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
92439439|NCT00399360|184764700|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||||||0.02
92439440|NCT01765153|184764704|SUPERIORITY_OR_OTHER|||||||0.04366667|||||||t-test, 2 sided|||||||0.04366667
92439441|NCT00353262|184764885|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.9|||||TWO_SIDED|90.0|0.79|1.02||||||Cycle 2, Day 1 versus Cycle 1, Day 1||1.02|0.79|
92439442|NCT00353262|184764885|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.76|0.99||||||Cycle 3, Day 1 versus Cycle 1, Day 1||0.99|0.76|
92439443|NCT00353262|184764885|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.85|1.1||||||Cycle 3, Day 1 to Cycle 2, Day 1||1.10|0.85|
92439444|NCT00353262|184764886|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.05|||||TWO_SIDED|90.0|1.01|1.08||||||Cycle 2, Day 1 versus Cycle 1, Day 2||1.08|1.01|
92439445|NCT00353262|184764886|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.98|1.05||||||Cycle 3, Day 1 to Cycle 1, Day 2||1.05|0.98|
92439446|NCT00353262|184764886|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.94|1.0||||||Cycle 3, Day 1 to Cycle 2, Day 1||1.00|0.94|
92439447|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.83|1.24||||||Capecitabine: Cycle 2, Day 1 versus Cycle 1, Day 1||1.24|0.83|
92439448|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.16|||||TWO_SIDED|90.0|0.94|1.42||||||Capecitabine: Cycle 3, Day 1 to Cycle 2, Day 1||1.42|0.94|
92439449|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.17|||||TWO_SIDED|90.0|0.96|1.44||||||Capecitabine: Cycle 3, Day 1 to Cycle 1, Day 1||1.44|0.96|
92439450|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.86|||||TWO_SIDED|90.0|0.69|1.08||||||5'-DFCR: Cycle 2, Day 1 versus Cycle 1, Day 1||1.08|0.69|
92439451|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.08|||||TWO_SIDED|90.0|0.86|1.34||||||5'-DFCR: Cycle 3, Day 1 versus Cycle 1, Day 1||1.34|0.86|
92439452|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.25|||||TWO_SIDED|90.0|1.0|1.55||||||5'-DFCR: Cycle 3, Day 1 versus Cycle 2, Day 1||1.55|1.00|
92439453|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.81|||||TWO_SIDED|90.0|0.66|1.01||||||5-FU: Cycle 2, Day 1 versus Cycle 1, Day 1||1.01|0.66|
92439454|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.79|||||TWO_SIDED|90.0|0.64|0.97||||||5-FU: Cycle 3, Day 1 versus Cycle 1, Day 1||0.97|0.64|
92280025|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.037||||0.8046|TWO_SIDED|95.0|-0.333|0.258||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.258|-0.333|0.8046
92439455|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.78|1.19||||||5-FU: Cycle 3, Day 1 versus Cycle 2, Day 1||1.19|0.78|
92439456|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.91|1.04||||||FBAL: Cycle 2, Day 1 versus Cycle 1, Day 1||1.04|0.91|
92439457|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.9|1.04||||||FBAL: Cycle 3, Day 1 versus Cycle 1, Day 1||1.04|0.90|
92439458|NCT00353262|184764887|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.93|1.07||||||FBAL: Cycle 3, Day 1 versus Cycle 2, Day 1||1.07|0.93|
92439459|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.74|||||TWO_SIDED|90.0|0.61|0.9||||||5'-DFUR: Cycle 2, Day 1 versus Cycle 1, Day 1||0.90|0.61|
92439460|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.64|||||TWO_SIDED|90.0|0.53|0.79||||||5'-DFUR: Cycle 3, Day 1 versus Cycle 1, Day 1||0.79|0.53|
92439461|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.71|1.06||||||5'-DFUR: Cycle 3, Day 1 versus Cycle 2, Day 1||1.06|0.71|
92439462|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.82|||||TWO_SIDED|90.0|0.63|1.08||||||Capecitabine: Cycle 2, Day 1 versus Cycle 1, Day 1||1.08|0.63|
92439463|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.03|||||TWO_SIDED|90.0|0.78|1.34||||||Capecitabine: Cycle 3, Day 1 versus Cycle 2, Day 1||1.34|0.78|
92439464|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.85|||||TWO_SIDED|90.0|0.65|1.1||||||Capecitabine: Cycle 3, Day 1 versus Cycle 1, Day 1||1.10|0.65|
92439465|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.65|1.18||||||5'-DFCR: Cycle 2, Day 1 versus Cycle 1, Day 1||1.18|0.65|
92439466|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.71|1.3||||||5'-DFCR: Cycle 3, Day 1 versus Cycle 1, Day 1||1.30|0.71|
92439467|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.1|||||TWO_SIDED|90.0|0.81|1.49||||||5'-DFCR: Cycle 3, Day 1 versus Cycle 2, Day 1||1.49|0.81|
92439468|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.74|||||TWO_SIDED|90.0|0.56|0.98||||||5-FU: Cycle 2, Day 1 versus Cycle 1, Day 1||0.98|0.56|
92439469|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.58|||||TWO_SIDED|90.0|0.44|0.76||||||5-FU: Cycle 3, Day 1 versus Cycle 1, Day 1||0.76|0.44|
92439470|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.78|||||TWO_SIDED|90.0|0.59|1.03||||||5-FU: Cycle 3, Day 1 versus Cycle 2, Day 1||1.03|0.59|
92439471|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.91|||||TWO_SIDED|90.0|0.83|1.0||||||FBAL: Cycle 2, Day 1 versus Cycle 1, Day 1||1.00|0.83|
92439472|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.83|||||TWO_SIDED|90.0|0.76|0.91||||||FBAL: Cycle 3, Day 1 versus Cycle 1, Day 1||0.91|0.76|
92439473|NCT00353262|184764889|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.91|||||TWO_SIDED|90.0|0.83|1.0||||||FBAL: Cycle 3, Day 1 versus Cycle 2, Day 1||1.00|0.83|
92439474|NCT00353262|184764891|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.2|||||TWO_SIDED|90.0|1.09|1.33||||||Total Platinum: Cycle 2, Day 1 versus Cycle 1, Day 2||1.33|1.09|
92439475|NCT00353262|184764891|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.34|||||TWO_SIDED|90.0|1.21|1.48||||||Total Platinum: Cycle 3, Day 1 versus Cycle 1, Day 2||1.48|1.21|
92439476|NCT00353262|184764891|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.11|||||TWO_SIDED|90.0|1.01|1.23||||||Total Platinum: Cycle 3, Day 1 versus Cycle 2, Day 1||1.23|1.01|
92439477|NCT00353262|184764893|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.96|1.09||||||Total Platinum: Cycle 2, Day 1 versus Cycle 1, Day 2||1.09|0.96|
92439478|NCT00353262|184764893|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.01|||||TWO_SIDED|90.0|0.95|1.08||||||Total Platinum: Cycle 3, Day 1 versus Cycle 1, Day 2||1.08|0.95|
92439479|NCT00353262|184764893|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.93|1.05||||||Total Platinum: Cycle 3, Day 1 versus Cycle 2, Day 1||1.05|0.93|
92439480|NCT00353262|184764893|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.01|||||TWO_SIDED|90.0|0.94|1.09||||||Free Platinum: Cycle 2, Day 1 versus Cycle 1, Day 2||1.09|0.94|
92439481|NCT00353262|184764893|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.92|1.08||||||Free Platinum: Cycle 3, Day 1 versus Cycle 1, Day 2||1.08|0.92|
92439482|NCT00353262|184764893|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.91|1.07||||||Free Platinum: Cycle 3, Day 1 versus Cycle 2, Day 1||1.07|0.91|
92439483|NCT01304966|184765039|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||t-test, 1 sided|||||||0.013
92439484|NCT04105998|184765040|SUPERIORITY|Exploratory analysis without power calculation||||||0.64|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.64
92439485|NCT04105998|184765041|SUPERIORITY|Exploratory analysis without power calculation||||||0.19|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.19
92439486|NCT04105998|184765042|SUPERIORITY|Exploratory analysis without power calculation||||||0.067|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.067
92439487|NCT04105998|184765043|SUPERIORITY|Exploratory analysis without power calculation||||||0.25|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.25
92439488|NCT04105998|184765044|SUPERIORITY|Exploratory analysis without power calculation||||||0.058|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.058
92439489|NCT04105998|184765045|SUPERIORITY|Exploratory analysis without power calculation||||||0.111|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.111
92439490|NCT02073279|184765103|SUPERIORITY||Hazard Ratio (HR)|0.45||||0.0184|TWO_SIDED|95.0|0.23|0.89|||Log Rank|||Stratified by prior therapy (B-cell depleting therapy or immunosuppressants/others) and most recent attack (first attack or relapse).||0.89|0.23|0.0184
92439491|NCT02073279|184765104|SUPERIORITY||Mean Difference (Final Values)|3.215|STANDARD_ERROR_OF_MEAN|4.178||0.4436||95.0|-5.086|11.515|||ANCOVA|ANCOVA model: treatment group as fixed effect and baseline measurements, prior therapy, most recent attack (first attack/relapse) as covariates.||||11.515|-5.086|0.4436
92439492|NCT02073279|184765105|SUPERIORITY||Mean Difference (Final Values)|2.107|STANDARD_ERROR_OF_MEAN|1.567||0.1824||95.0|-1.008|5.221|||ANCOVA|ANCOVA model included treatment group as fixed effect. Baseline measurements, prior therapy, most recent attack (first attack/relapse) as covariates.||||5.221|-1.008|0.1824
92439493|NCT01857232|184765214|SUPERIORITY|||||||0.004|||||||Regression, Logistic|||||||0.004
92439494|NCT01857232|184765214|SUPERIORITY|||||||0.0987|||||||Regression, Logistic|||||||0.0987
92171282|NCT02814838|184231707|SUPERIORITY|Transformed AUC was analyzed with Student t-test for unpaired data using PROC TTEST within SAS® to compare Ladarixin and placebo groups. The estimated treatment difference between Ladarixin and placebo was also presented together with the corresponding 95% confidence interval.|Mean Difference (Final Values)|0.502|||=|0.0411|TWO_SIDED|95.0|0.02|0.98|||t-test, 2 sided|||At week 26||0.98|0.02|= 0.0411
92439495|NCT01857232|184765214|SUPERIORITY|||||||0.1041|||||||Regression, Logistic|||||||0.1041
92439496|NCT01857232|184765215|SUPERIORITY|||||||0.0235|||||||Chi-squared, Corrected|1-sided||||||0.0235
92439497|NCT01857232|184765215|SUPERIORITY|||||||0.1651|||||||Chi-squared, Corrected|1-sided||||||0.1651
92439498|NCT01857232|184765215|SUPERIORITY|||||||0.1332|||||||Chi-squared, Corrected|1-sided||||||0.1332
92439499|NCT00391274|184765228|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.1326||95.0|0.76|8.25||Logistic regression of best overall tumor response (complete response + partial response).|Regression, Logistic|Treatment was the only covariate.||||8.25|0.76|0.1326
92439500|NCT00391274|184765229|SUPERIORITY_OR_OTHER|||||||0.7704||95.0|||||Log Rank|||||||0.7704
92439501|NCT00391274|184765229|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.7784||95.0|0.75|1.46|||Regression, Cox|Treatment was the only covariate.||||1.46|0.75|0.7784
92439502|NCT00391274|184765232|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.4921||95.0|0.78|1.68||P-value for Overall Survival (up to 24 months)|Regression, Cox|Treatment was the only covariate.||||1.68|0.78|0.4921
92439503|NCT00391274|184765232|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.9256|TWO_SIDED|95.0|0.74|1.4||P-value for Overall Survival (up to 30 months)|Regression, Cox|||||1.40|0.74|0.9256
92439504|NCT00894322|184765281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.269||0.0013|TWO_SIDED|95.0|-1.5|-0.4||Treatment group and HbA1c stratum at screening were factors. Placebo was reference group.|ANOVA|||||-0.40|-1.50|0.0013
92439505|NCT00894322|184765282|SUPERIORITY_OR_OTHER|||||||0.0033|||||||Cochran-Mantel-Haenszel|Adjusted for HbA1c strata at screening.||||||0.0033
92439506|NCT00894322|184765283|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.835||0.2285|TWO_SIDED|95.0|-2.73|0.68|||ANOVA|treatment group and HbA1c stratum at screening were factors.||Least square mean (LS) mean, 95% confidence interval (CI) and p-value calculated for the changes in weight from baseline in participants in cohort 2 treated with exenatide with placebo as reference group.||0.68|-2.73|0.2285
92439507|NCT00894322|184765284|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.4|STANDARD_ERROR_OF_MEAN|12.8||0.0035|TWO_SIDED|95.0|-66.5|-14.3|||ANOVA|treatment group and HbA1c stratum at screening were factors.||||-14.3|-66.5|0.0035
92439508|NCT00951808|184765289|SUPERIORITY_OR_OTHER||optimal threshold level of sPLA2|48.0|STANDARD_DEVIATION|5.0|||TWO_SIDED|95.0|38.0|58.0|||||The optimal threshold level (TL) was determined to be the same for all analysis groups.|The optimal threshold level (TL), determined via receiver operating characteristic (ROC) curve analysis, maximizes the difference between the true positive rate (TPR) and the false positive rate (FPR). Since there is no corresponding analytic standard deviation (SD) for this value, we computed a robust SD based upon the interquartile range (IQR)/1.35 from a bootstrap sample of optimal TLs.||58|38|
92439509|NCT03143569|184765332|OTHER|||||||0.45|||||||Fisher Exact|||||||.45
92439510|NCT03143569|184765333|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92439511|NCT03143569|184765334|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92439512|NCT03143569|184765335|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92439513|NCT03143569|184765336|OTHER|||||||0.018|||||||Chi-squared|||||||.018
92439514|NCT01474876|184765388|SUPERIORITY_OR_OTHER|||||||0.0164|TWO_SIDED||||||Regression, Logistic|||Treatment response and participant age||||0.0164
92439515|NCT01474876|184765388|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Regression, Logistic|||Treatment response and presence of enthesitis at Visit 0||||0.0200
92439516|NCT01474876|184765388|SUPERIORITY_OR_OTHER|||||||0.0867|TWO_SIDED||||||Regression, Logistic|||Treatment response and BASDAI score at Visit 0||||0.0867
92439517|NCT01474876|184765388|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Regression, Logistic|||Remission and participant age||||0.0001
92439518|NCT01474876|184765388|SUPERIORITY_OR_OTHER|||||||0.0734|TWO_SIDED||||||Regression, Logistic|||Remission and positive tuberculosis screening at Visit 0||||0.0734
92171283|NCT02814838|184231707|SUPERIORITY|Transformed AUC was analyzed with Student t-test for unpaired data using PROC TTEST within SAS® to compare Ladarixin and placebo groups. The estimated treatment difference between Ladarixin and placebo was also presented together with the corresponding 95% confidence interval.|Mean Difference (Final Values)|0.223|||=|0.4506|TWO_SIDED|95.0|-0.37|0.82|||t-test, 2 sided|||At week 52||0.82|-0.37|= 0.4506
92439519|NCT01474876|184765388|SUPERIORITY_OR_OTHER|||||||0.0438|TWO_SIDED||||||Regression, Logistic|||Remission and male gender||||0.0438
92439520|NCT01474876|184765388|SUPERIORITY_OR_OTHER|||||||0.503|TWO_SIDED||||||Regression, Logistic|||Remission and BASDAI score at Visit 0||||0.5030
92439521|NCT01474876|184765397|SUPERIORITY_OR_OTHER|||||||0.0576|TWO_SIDED||||||Regression, Logistic|||Treatment response and presence of enthesitis at Visit 0||||0.0576
92439522|NCT01474876|184765397|SUPERIORITY_OR_OTHER|||||||0.1739|TWO_SIDED||||||Regression, Logistic|||Treatment response and BASDAI score at Visit 0||||0.1739
92439523|NCT01474876|184765397|SUPERIORITY_OR_OTHER|||||||0.0733|TWO_SIDED||||||Regression, Logistic|||Remission and Psoriasis at Visit 0||||0.0733
92439524|NCT01474876|184765397|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Regression, Logistic|||Remission and BASDAI at Visit 0||||0.5000
92439525|NCT04035161|184765403|NON_INFERIORITY|A non-inferiority criterion with a 0.5 log10 margin will be implemented for the average treatment effect (ATE) of the Investigational Product compared to the Active Control (i.e., the upper two-sided 95% confidence bound of the post-product application bacterial load corrected for pre-product application bacterial load of the Investigational Product - Active Control should be less than 0.5 log10).|Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.15|0.16||||||"Abdomen at 10 minutes post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Active Control on the abdomen at 10 minutes post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||0.16|-0.15|
92439526|NCT04035161|184765403|NON_INFERIORITY|A non-inferiority criterion with a 0.5 log10 margin will be implemented for the average treatment effect (ATE) of the Investigational Product compared to the Active Control (i.e., the upper two-sided 95% confidence bound of the post-product application bacterial load corrected for pre-product application bacterial load of the Investigational Product - Active Control should be less than 0.5 log10).|Mean Difference (Final Values)|-0.24|||||TWO_SIDED|95.0|-0.43|-0.05||||||"Groin at 10 minutes post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Active Control on the groin at 10 minutes post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||-0.05|-0.43|
92439527|NCT04035161|184765403|SUPERIORITY||Mean Difference (Final Values)|1.82|||||TWO_SIDED|95.0|1.66|1.97||||||"Abdomen at 10 minutes post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Negative Control on the abdomen at 10 minutes post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||1.97|1.66|
92439528|NCT04035161|184765403|SUPERIORITY||Mean Difference (Final Values)|2.38|||||TWO_SIDED|95.0|2.19|2.56||||||"Groin at 10 minutes post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Negative Control on the groin at 10 minutes post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||2.56|2.19|
92439529|NCT04035161|184765406|NON_INFERIORITY|A non-inferiority criterion with a 0.5 log10 margin will be implemented for the average treatment effect (ATE) of the Investigational Product compared to the Active Control (i.e., the upper two-sided 95% confidence bound of the post-product application bacterial load corrected for pre-product application bacterial load of the Investigational Product - Active Control should be less than 0.5 log10).|Mean Difference (Final Values)|0.08|||||TWO_SIDED|95.0|-0.08|0.23||||||"Abdomen at 30 seconds post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Active Control on the abdomen at 30 seconds post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||0.23|-0.08|
92439530|NCT04035161|184765406|SUPERIORITY||Mean Difference (Final Values)|1.99|||||TWO_SIDED|95.0|1.84|2.15||||||"Abdomen at 30 seconds post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Negative Control on the abdomen at 30 seconds post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||2.15|1.84|
92439531|NCT02113956|184765425|SUPERIORITY||Incident Rate Ratio (IRR)|1.42|||||TWO_SIDED|95.0|0.79|2.57|||Poisson regression||Adjusted for age and baseline number of condomless sex acts|||2.57|0.79|
92439532|NCT02113956|184765426|SUPERIORITY||Odds Ratio (OR)|0.63|||||TWO_SIDED|95.0|0.36|1.12|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|1.12|0.36|
92439533|NCT02113956|184765427|SUPERIORITY||Incident Rate Ratio|0.95|||||TWO_SIDED|95.0|0.45|2.02|||Poisson||||Adjusted for age and baseline number of condomless sex acts|2.02|0.45|
92439534|NCT02113956|184765428|SUPERIORITY||Incident Rate Ratio (IRR)|0.62|||||TWO_SIDED|95.0|0.12|3.18|||Poisson||||Adjusted for age and baseline number of condomless sex acts|3.18|0.12|
92439535|NCT02113956|184765429|SUPERIORITY||Odds Ratio (OR)|0.48|||||TWO_SIDED|95.0|0.23|0.997|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|0.997|0.23|
92439536|NCT02113956|184765430|SUPERIORITY||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.38|2.53|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|2.53|0.38|
92439537|NCT02113956|184765431|SUPERIORITY||Odds Ratio (OR)|3.42|||||TWO_SIDED|95.0|1.65|7.09|||Regression, Logistic||||Adjusted for age and baseline rate of HIV testing|7.09|1.65|
92439538|NCT02113956|184765432|SUPERIORITY||Incident Risk Ratio (IRR)|0.58|||||TWO_SIDED|95.0|0.22|1.5|||Poisson||||Adjusted for age and baseline number of condomless sex acts|1.5|0.22|
92439539|NCT02113956|184765433|SUPERIORITY||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.6|2.09|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|2.09|0.6|
92171284|NCT02814838|184231708|SUPERIORITY||Adjusted mean difference|0.3631||||0.1847|TWO_SIDED|95.0|-0.1817|0.908|||Mixed Models Analysis|||Week 13 Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction||0.908|-0.1817|0.1847
92439540|NCT02113956|184765434|SUPERIORITY||Incident Rate Ratio (IRR)|0.6|||||TWO_SIDED|95.0|0.22|1.68|||||||Adjusted for age and baseline number of condomless sex acts|1.68|0.22|
92439541|NCT02113956|184765435|SUPERIORITY||Incident Rate Ratio (IRR)|1.1|||||TWO_SIDED|95.0|0.01|92.03|||||||Adjusted for age and baseline number of condomless sex acts|92.03|0.01|
92439542|NCT02113956|184765436|SUPERIORITY||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.46|1.88|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|1.88|0.46|
92439543|NCT02113956|184765437|SUPERIORITY||Odds Ratio (OR)|3.4|||||TWO_SIDED|95.0|0.88|16.95|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|16.95|0.88|
92439544|NCT02113956|184765438|SUPERIORITY||Odds Ratio (OR)|3.39|||||TWO_SIDED|95.0|1.52|7.58|||Regression, Logistic||||Adjusted for age and baseline rate of HIV testing|7.58|1.52|
92439545|NCT02472795|184765439|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.2||0.39|TWO_SIDED|95.0|-0.56|0.22|||ANCOVA|||||0.22|-0.56|0.39
92439546|NCT02472795|184765439|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.02|TWO_SIDED|95.0|-0.91|0.09|||ANCOVA|||||0.09|-0.91|0.02
92439547|NCT02472795|184765439|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.19||0.004|TWO_SIDED|95.0|-0.95|-0.19|||ANCOVA|||||-0.19|-0.95|0.004
92439548|NCT02472795|184765439|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.19||0.06|TWO_SIDED|95.0|-0.75|0.02|||ANCOVA|||||0.02|-0.75|0.06
92439549|NCT02472795|184765441|SUPERIORITY||Mean Difference (Final Values)|-0.145|STANDARD_ERROR_OF_MEAN|0.134||0.2837|TWO_SIDED|95.0|-0.413|0.123|||ANCOVA|||||0.123|-0.413|0.2837
92439550|NCT02472795|184765441|SUPERIORITY||Mean Difference (Final Values)|-0.515|STANDARD_ERROR_OF_MEAN|0.14||0.0006|TWO_SIDED|95.0|-0.797|-0.234|||ANCOVA|||||-0.234|-0.797|0.0006
92439551|NCT02472795|184765441|SUPERIORITY||Mean Difference (Final Values)|-0.565|STANDARD_ERROR_OF_MEAN|0.13||0.0001|TWO_SIDED|95.0|-0.825|-0.305|||ANCOVA|||||-0.305|-0.825|0.0001
92439552|NCT02472795|184765441|SUPERIORITY||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|0.147|<|0.0001|TWO_SIDED|95.0|-1.173|-0.586|||ANCOVA|||||-0.586|-1.173|<0.0001
92439553|NCT02472795|184765443|SUPERIORITY||Mean Difference (Final Values)|-13.214|STANDARD_ERROR_OF_MEAN|9.626||0.1755|TWO_SIDED|95.0|-32.513|6.085|||ANCOVA|||||6.085|-32.513|0.1755
92439554|NCT02472795|184765443|SUPERIORITY||Mean Difference (Final Values)|-39.311|STANDARD_ERROR_OF_MEAN|10.096||0.0003|TWO_SIDED|95.0|-59.552|-19.069|||ANCOVA|||||-19.069|-59.552|0.0003
92439555|NCT02472795|184765443|SUPERIORITY||Mean Difference (Final Values)|-47.278|STANDARD_ERROR_OF_MEAN|9.329|<|0.0001|TWO_SIDED|95.0|-65.981|-28.574|||ANCOVA|||||-28.574|-65.981|<0.0001
92439556|NCT02472795|184765443|SUPERIORITY||Mean Difference (Final Values)|-56.452|STANDARD_ERROR_OF_MEAN|10.541|<|0.0001|TWO_SIDED|95.0|-77.585|-35.32|||ANCOVA|||||-35.320|-77.585|<0.0001
92439557|NCT04318080|184765458|SUPERIORITY|Analysis tested whether ORR with tislelizumab was superior to a historical ORR of 45% using a one-sided binomial exact test (α = 0.05).|Z-test|2.62||||0.0044|TWO_SIDED|||||One-sided p-value based on a binomial exact test comparing observed ORR to historical rate of 45%.|Binomial Exact Test|||The primary analysis was conducted on both cohorts combined, A binomial exact test was performed to test the null hypothesis (H0: ORR = 45% based on previous clinical trials) and alternative hypothesis (ORR \>45%). If the one-sided p-value was ≤ 0.05, tislelizumab was considered to statistically significantly increase ORR compared to the historical control.||||0.0044
92439558|NCT01536379|184765467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-34.4|STANDARD_ERROR_OF_MEAN|37.24|||TWO_SIDED|95.0|-109.5|40.7||||||||40.7|-109.5|
92439559|NCT01536379|184765488|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|204.35|||||TWO_SIDED|95.0|90.0|550.0|||||Week 24 comparison|||550.00|90.00|
92439560|NCT01536379|184765488|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-33.06|||||TWO_SIDED|95.0|-169.84|25.0|||||Week 52 comparison|||25.00|-169.84|
92439561|NCT01536379|184765489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1232.4|STANDARD_ERROR_OF_MEAN|25735.56|||TWO_SIDED|95.0|-50457.0|52921.8|||||Week 24 comparison|||52921.8|-50457.0|
92439562|NCT01536379|184765489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13128.35|STANDARD_ERROR_OF_MEAN|24165.18|||TWO_SIDED|95.0|-61868.9|35612.2|||||Week 52 comparison|||35612.2|-61868.9|
92439563|NCT01536379|184765490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.8|STANDARD_ERROR_OF_MEAN|8.78|||TWO_SIDED|95.0|-31.3|3.7|||||Week 24 comparison|||3.7|-31.3|
92439564|NCT01536379|184765490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|7.68|||TWO_SIDED|95.0|-8.6|22.2|||||Week 52 comparison|||22.2|-8.6|
92439565|NCT01536379|184765491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2791.0|STANDARD_ERROR_OF_MEAN|4651.1|||TWO_SIDED|95.0|-12105.0|6524.0|||||Week 24 comparison|||6524|-12105|
92171285|NCT02814838|184231708|SUPERIORITY||Adjusted mean difference|0.6304||||0.031|TWO_SIDED|95.0|0.0609|1.1998|||Mixed Models Analysis|||Week 26 Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction||1.1998|0.0609|0.031
92439566|NCT01536379|184765491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-458.0|STANDARD_ERROR_OF_MEAN|4501.8|||TWO_SIDED|95.0|-9487.0|8572.0|||||Week 52 comparison|||8572|-9487|
92439567|NCT01536379|184765492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|1.156|||TWO_SIDED|95.0|-3.59|1.01|||||Week 24 comparison|||1.01|-3.59|
92439568|NCT01536379|184765492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|1.017|||TWO_SIDED|95.0|-1.24|2.82|||||Week 52 comparison|||2.82|-1.24|
92439569|NCT01536379|184765493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30326.9|STANDARD_ERROR_OF_MEAN|34677.86|||TWO_SIDED|95.0|-100559.1|39905.3|||||Week 24 comparison|||39905.3|-100559.1|
92439570|NCT01536379|184765493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46955.3|STANDARD_ERROR_OF_MEAN|32594.81|||TWO_SIDED|95.0|-113218.9|19308.3|||||Week 52 comparison|||19308.3|-113218.9|
92439571|NCT01536379|184765494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|3.54|||TWO_SIDED|95.0|-10.1|4.2|||||Week 24 comparison|||4.2|-10.1|
92439572|NCT01536379|184765494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|3.35|||TWO_SIDED|95.0|-7.2|6.3|||||Week 52 comparison|||6.3|-7.2|
92439573|NCT01536379|184765495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|648.3|STANDARD_ERROR_OF_MEAN|12618.44|||TWO_SIDED|95.0|-24661.1|25957.7|||||Week 24 comparison|||25957.7|-24661.1|
92439574|NCT01536379|184765495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5618.9|STANDARD_ERROR_OF_MEAN|12153.03|||TWO_SIDED|95.0|-29994.8|18757.0|||||Week 52 comparison|||18757.0|-29994.8|
92439575|NCT01536379|184765496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|-3.2|3.5|||||Week 24 comparison|||3.5|-3.2|
92439576|NCT01536379|184765496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|95.0|-3.5|2.3|||||Week 52 comparison|||2.3|-3.5|
92439577|NCT01536379|184765497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|1.255|||TWO_SIDED|95.0|-4.07|0.98|||||Week 24 comparison|||0.98|-4.07|
92439578|NCT01536379|184765497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.329|||TWO_SIDED|95.0|-3.68|1.67|||||Week 52 comparison|||1.67|-3.68|
92439579|NCT01536379|184765498|SUPERIORITY_OR_OTHER||Difference in Proportion|-0.067|||||TWO_SIDED|95.0|-0.638|0.505|||||Week 24 comparison|||0.505|-0.638|
92439580|NCT01536379|184765498|SUPERIORITY_OR_OTHER||Difference in Proportion|-0.267|||||TWO_SIDED|95.0|-0.838|0.305|||||Week 52 comparison|||0.305|-0.838|
92439581|NCT01536379|184765499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8|STANDARD_ERROR_OF_MEAN|52.06|||TWO_SIDED|95.0|-105.9|100.3|||||Week 24 comparison|||100.3|-105.9|
92439582|NCT01536379|184765499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.9|STANDARD_ERROR_OF_MEAN|47.52|||TWO_SIDED|95.0|-107.1|81.4|||||Week 52 comparison|||81.4|-107.1|
92439583|NCT01536379|184765500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.92|STANDARD_ERROR_OF_MEAN|9.44|||TWO_SIDED|95.0|-31.56|5.71|||||Week 24 comparison|||5.71|-31.56|
92439584|NCT01536379|184765500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|8.315|||TWO_SIDED|95.0|-19.11|13.72|||||Week 52 comparison|||13.72|-19.11|
92439585|NCT01536379|184765501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|2.225|||TWO_SIDED|95.0|-4.84|3.96||||||||3.96|-4.84|
92439586|NCT04916600|184765508|SUPERIORITY||Difference in percentages|22.0||||0.043|TWO_SIDED|||||The threshold for statistical significance was p = .05|Chi-squared||Treatment difference = Active device \>=24 hour group - remainder of participants (Active \<24 hr, Sham \>=24 hr, and Sham \<24 hr groups)|||||.043
92439587|NCT04916600|184765509|SUPERIORITY||Mean Difference (Net)|-3.4||||0.032|TWO_SIDED|||||The threshold for statistical significance was p = .05|t-test, 2 sided|df=101||||||.032
92439588|NCT05027438|184765547|SUPERIORITY||Mean Difference (Net)|-7.58|STANDARD_DEVIATION|5.19|<|0.001|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (negative value indicates reduction of symptoms)|baseline to post-treatment|effect size (f2) = 1.42 (large \>=0.35)|||<0.001
92439589|NCT05027438|184765547|SUPERIORITY||Mean Difference (Net)|-7.06|STANDARD_DEVIATION|4.4|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (negative value indicates reduction of symptoms)|baseline to 3-month follow-up|effect size (f2) = 1.54 (large \>=0.35)|||<0.001
92439590|NCT05027438|184765548|SUPERIORITY||Mean Difference (Net)|58.55|STANDARD_DEVIATION|43.98||0.004|TWO_SIDED|||||Bonferroni correction|Friedman test|||% change in medication dose from baseline to post-treatment||||0.004
92439591|NCT05027438|184765548|SUPERIORITY||Mean Difference (Net)|62.26|STANDARD_DEVIATION|54.93||0.005|TWO_SIDED|||||Bonferroni correction|Friedman test|||% change in medication dose from baseline to 3-month follow-up||||0.005
92439592|NCT05027438|184765549|SUPERIORITY||Proportion (%)|31.8||||0.052|TWO_SIDED||||||Cochran's Q test|Bonferroni correction||baseline to post-treatment||||0.052
92439593|NCT05027438|184765549|SUPERIORITY||Proportion (%)|60.0|||<|0.001|TWO_SIDED||||||Cochran's Q test|Bonferroni correction||baseline to 3-month follow-up||||<0.001
92439594|NCT05027438|184765550|SUPERIORITY||Mean Difference (Net)|-16.67|STANDARD_DEVIATION|20.57|<|0.001|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (negative value indicates reduction of symptoms)|baseline to post-treatment|effect size (f2) = 0.54 (large \>=0.35)|||<0.001
92439595|NCT05027438|184765550|SUPERIORITY||Mean Difference (Net)|-17.11|STANDARD_DEVIATION|22.11|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (negative value indicates reduction of symptoms)|baseline to 3-month follow-up|effect size (f2) = 0.47 (large \>=0.35)|||<0.001
92439596|NCT05027438|184765551|SUPERIORITY||Mean Difference (Net)|-6.24|STANDARD_DEVIATION|20.34||0.101|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (negative value indicates reduction of symptoms)|baseline to post-treatment|effect size (f2) = 0.10 (small \>=0.02)|||0.101
92171286|NCT02814838|184231708|SUPERIORITY||Adjusted mean difference|0.1639||||0.6299|TWO_SIDED|95.0|-0.5202|0.8479|||Mixed Models Analysis|||Week 52 Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction||0.8479|-0.5202|0.6299
92439597|NCT05027438|184765551|SUPERIORITY||Mean Difference (Net)|-10.34|STANDARD_DEVIATION|18.28|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (negative value indicates reduction of symptoms)|baseline to 3-month follow-up|effect size (f2) = 0.34 (medium; large \>=0.35)|||<0.001
92439598|NCT05027438|184765552|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_DEVIATION|6.0|<|0.001|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (positive value indicates improvement)|baseline to post-treatment|effect size (f2) = 0.87 (large \>=0.35)|||<0.001
92439599|NCT05027438|184765552|SUPERIORITY||Mean Difference (Net)|6.0|STANDARD_DEVIATION|6.0|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (positive value indicates improvement)|baseline to 3-month follow-up|effect size (f2) = 0.96 (large \>=0.35)|||<0.001
92439600|NCT05027438|184765553|SUPERIORITY||Mean Difference (Net)|-7.48|STANDARD_DEVIATION|6.08|<|0.001|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (negative value indicates improvement)|Sleep Disturbance - higher scores indicate more sleep disturbance. The T-score rescales the raw score into a standardized T-score with a mean of 50 and a standard deviation (SD) of 10.|effect size (f2) = 1.14 (large \>=0.35)|||<0.001
92439601|NCT05027438|184765553|SUPERIORITY||Mean Difference (Net)|-7.82|STANDARD_DEVIATION|5.62|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (negative value indicates improvement)|Sleep Disturbance - higher scores indicate more sleep disturbance. The T-score rescales the raw score into a standardized T-score with a mean of 50 and a standard deviation (SD) of 10.|effect size (f2) = 1.21 (large \>=0.35)|||<0.001
92439602|NCT05027438|184765554|SUPERIORITY||Mean Difference (Net)|0.11|STANDARD_DEVIATION|0.21||0.22|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (positive value indicates improvement)||effect size (f2) = 0.18 (medium \>=0.15)|||0.22
92439603|NCT05027438|184765554|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|0.12|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (positive value indicates improvement)||effect size (f2) = 1.99 (large \>=0.35)|||<0.001
92439604|NCT04729127|184765558|OTHER|||||||0.79|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.79
92439605|NCT04729127|184765558|OTHER|||||||0.27|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.27
92439606|NCT04729127|184765559|OTHER|||||||0.04|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.04
92439607|NCT04729127|184765559|OTHER|||||||0.02|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.02
92439608|NCT04729127|184765560|OTHER|||||||0.78|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.78
92439609|NCT04729127|184765560|OTHER|||||||0.89|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.89
92439610|NCT04729127|184765561|OTHER|||||||0.07|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.07
92439611|NCT04729127|184765561|OTHER|||||||0.88|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.88
92439612|NCT04729127|184765564|OTHER|||||||0.26|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.26
92439613|NCT04729127|184765564|OTHER|||||||0.74|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.74
92439614|NCT01245270|184765566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||"For the incremental area under the curve (AUCi), only the extent of interpolated values above baseline contributed.~Values obtained following the control and extract capsules were compared by paired t-tests."|t-test, 2 sided|||||||0.003
92439615|NCT01245270|184765567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028||95.0||||For incremental area under the curve (AUCi), only the extent of interpolated values above baseline contributed. Values obtained following the control and extract capsules were compared by paired t-tests.|t-test, 2 sided|||||||0.028
92439616|NCT01277523|184765574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.055||0.0457|TWO_SIDED|95.0|0.002|0.22||Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo.|Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.220|0.002|0.0457
92439617|NCT01277523|184765574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.055||0.1039|TWO_SIDED|95.0|-0.019|0.198||Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo.|Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.198|-0.019|0.1039
92439618|NCT01277523|184765575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.059||0.0509|TWO_SIDED|95.0|0.0|0.231||Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo.|Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.231|-0.000|0.0509
92171287|NCT02814838|184231709|SUPERIORITY|||||||0.163|||||||Fisher Exact|||Week 13||||0.163
92171288|NCT02814838|184231709|SUPERIORITY|||||||0.0074|||||||Fisher Exact|||Week 26||||0.0074
92171289|NCT02814838|184231709|SUPERIORITY|||||||0.4437|||||||Fisher Exact|||Week 52||||0.4437
92439619|NCT01277523|184765575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.058||0.3605|TWO_SIDED|95.0|-0.061|0.168||Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo.|Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.168|-0.061|0.3605
92439620|NCT01277523|184765576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.059||0.1264|TWO_SIDED|95.0|-0.026|0.207|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.207|-0.026|0.1264
92439621|NCT01277523|184765576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.059||0.2845|TWO_SIDED|95.0|-0.053|0.179|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.179|-0.053|0.2845
92439622|NCT01277523|184765577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.053||0.0338|TWO_SIDED|95.0|0.009|0.217|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.217|0.009|0.0338
92439623|NCT01277523|184765577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.053||0.0999|TWO_SIDED|95.0|-0.017|0.191|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.191|-0.017|0.0999
92439624|NCT01277523|184765578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.057||0.1252|TWO_SIDED|95.0|-0.024|0.198|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.198|-0.024|0.1252
92439625|NCT01277523|184765578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.056||0.3549|TWO_SIDED|95.0|-0.058|0.163|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.163|-0.058|0.3549
92439626|NCT01277523|184765579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.088||0.1819|TWO_SIDED|95.0|-0.055|0.292|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.292|-0.055|0.1819
92439627|NCT01277523|184765579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.088||0.5448|TWO_SIDED|95.0|-0.119|0.226|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.226|-0.119|0.5448
92439628|NCT01277523|184765581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.082||0.4762|TWO_SIDED|95.0|-0.102|0.219|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.219|-0.102|0.4762
92439629|NCT01277523|184765581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036|STANDARD_ERROR_OF_MEAN|0.081||0.6558|TWO_SIDED|95.0|-0.123|0.196|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.196|-0.123|0.6558
92439630|NCT01277523|184765583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.153||0.996|TWO_SIDED|95.0|-0.301|0.3|||Mixed Models Analysis|||||0.300|-0.301|0.9960
92439631|NCT01277523|184765583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.058|STANDARD_ERROR_OF_MEAN|0.151||0.703|TWO_SIDED|95.0|-0.355|0.239|||Mixed Models Analysis|||||0.239|-0.355|0.7030
92439632|NCT01277523|184765584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.032|STANDARD_ERROR_OF_MEAN|0.094||0.7309|TWO_SIDED|95.0|-0.217|0.153|||Mixed Models Analysis|||||0.153|-0.217|0.7309
92439633|NCT01277523|184765584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.049|STANDARD_ERROR_OF_MEAN|0.093||0.5954|TWO_SIDED|95.0|-0.232|0.133|||Mixed Models Analysis|||||0.133|-0.232|0.5954
92439634|NCT01277523|184765585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.083||0.2841|TWO_SIDED|95.0|-0.074|0.252|||Mixed Models Analysis|||||0.252|-0.074|0.2841
92439635|NCT01277523|184765585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.082||0.795|TWO_SIDED|95.0|-0.14|0.182|||Mixed Models Analysis|||||0.182|-0.140|0.7950
92439636|NCT01277523|184765586|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.9671|TWO_SIDED|95.0|0.07|16.95|||Regression, Cox|||||16.95|0.07|0.9671
92439637|NCT01277523|184765586|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.06||||0.5557|TWO_SIDED|95.0|0.19|22.7|||Regression, Cox|||||22.70|0.19|0.5557
92439638|NCT01277523|184765587|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.3567|TWO_SIDED|95.0|0.41|1.38|||Regression, Cox|||||1.38|0.41|0.3567
92439639|NCT01277523|184765587|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.1168|TWO_SIDED|95.0|0.32|1.14|||Regression, Cox|||||1.14|0.32|0.1168
92239924|NCT00570739|184383774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176||||0.861|TWO_SIDED|95.0|-1.805|2.158||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks||2.158|-1.805|0.8610
92239925|NCT00570739|184383774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.8196|TWO_SIDED|95.0|-1.599|2.019||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks (LOCF)||2.019|-1.599|0.8196
92439640|NCT02807350|184765597|OTHER||Risk Difference (RD)|19.0|||||TWO_SIDED|95.0|7.0|29.0||||||\>1 point analysis||29|7|
92439641|NCT02807350|184765597|OTHER|\>2 points analysis|Risk Difference (RD)|20.0|||||TWO_SIDED|95.0|10.0|28.0||||||||28|10|
92439642|NCT02807350|184765598|OTHER|\>1 analysis|Risk Difference (RD)|4.0|||||TWO_SIDED|95.0|-7.0|15.0||||||||15|-7|
92439643|NCT02807350|184765598|OTHER|\>2 analysis|Risk Difference (RD)|8.0|||||TWO_SIDED|95.0|-2.0|17.0||||||||17|-2|
92439644|NCT01959542|184765618|OTHER|Pearson's product-moment correlation|Pearson's product-moment correlation|-0.53||||0.09|TWO_SIDED|95.0|-86.0|0.1|||Pearson's product-moment correlation|||||0.10|-086|0.09
92439645|NCT01959542|184765619|OTHER||Pearson's product-moment correlation|-0.62||||0.03|TWO_SIDED|95.0|-0.62|-0.15|||Pearson's product-moment correlation|Pearson's product moment correlation||||-0.15|-0.62|0.03
92439646|NCT03388138|184765675|NON_INFERIORITY|Non-inferiority of the etafilcon A with ketotifen lens relative to the etafilcon A lens was established if the upper limit of the 95% confidence interval was below 0.1 logMAR.|Least-Square Mean Difference|0.0017|STANDARD_ERROR_OF_MEAN|0.01169|||TWO_SIDED|95.0|-0.021|0.025|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as etafilcon A with ketotifen - etafilcon A|||0.025|-0.021|
92439647|NCT03388138|184765676|NON_INFERIORITY|Non-inferiority of the etafilcon A with ketotifen lens relative to the etafilcon A lens was established if the upper limit of the 95% confidence interval was below 0.1 logMAR.|Least-Square Mean Difference|0.0007|STANDARD_ERROR_OF_MEAN|0.01158|||TWO_SIDED|95.0|-0.022|0.024|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as etafilcon A with ketotifen - etafilcon A|||0.024|-0.022|
92439648|NCT02436759|184765694|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Two-sided t-test with treatment as a fixed factor and baseline score as a covariate||||||<0.0001
92439649|NCT02436759|184765695|SUPERIORITY|||||||0.12|||||||ANCOVA|Two-sided t-test||||||0.12
92439650|NCT02584504|184765708|SUPERIORITY||Least Square (LS) Mean Difference|-39.5|||<|0.0001|TWO_SIDED|97.5|-46.5|-32.4||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis|Threshold for significance at 0.025 level.|Alirocumab 150 mg Q4W vs. Placebo|Alirocumab 150 mg Q4W group was compared to placebo group using an appropriate contrast statement.||-32.4|-46.5|<0.0001
92439651|NCT02584504|184765708|SUPERIORITY||LS Mean Difference|-65.8|||<|0.0001|TWO_SIDED|97.5|-72.9|-58.7||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Alirocumab 150 mg Q2W group was compared to placebo group using an appropriate contrast statement.||-58.7|-72.9|<0.0001
92439652|NCT02584504|184765708|OTHER|Statistical test was not planned because this comparison was for a descriptive purpose.|LS Mean Difference|-26.3|||||TWO_SIDED|95.0|-32.5|-20.0|||||Alirocumab 150 mg Q4W group vs Alirocumab 150 mg Q2W|Alirocumab 150 mg Q4W group was compared to Alirocumab 150 mg Q2W group using an appropriate contrast statement.||-20.0|-32.5|
92280026|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.319||||0.035|TWO_SIDED|95.0|-0.616|-0.023||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.023|-0.616|0.0350
92439653|NCT02584504|184765709|SUPERIORITY||LS Mean Difference|-40.6|||<|0.0001|TWO_SIDED|97.5|-47.4|-33.8||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level. Hierarchical procedure for comparisons of Alirocumab 150 mg Q4W versus Placebo Q2W and Alirocumab 150 mg Q2W versus Placebo Q2W were processed separately.||-33.8|-47.4|<0.0001
92439654|NCT02584504|184765709|SUPERIORITY||LS Mean Difference|-67.4|||<|0.0001|TWO_SIDED|97.5|-74.2|-60.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-60.5|-74.2|<0.0001
92439655|NCT02584504|184765710|SUPERIORITY||LS Mean Difference|-50.5|||<|0.0001|TWO_SIDED|97.5|-56.6|-44.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-44.5|-56.6|<0.0001
92439656|NCT02584504|184765710|SUPERIORITY||LS Mean Difference|-66.2|||<|0.0001|TWO_SIDED|97.5|-72.3|-60.1||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-60.1|-72.3|<0.0001
92439657|NCT02584504|184765711|SUPERIORITY||LS Mean Difference|-51.4|||<|0.0001|TWO_SIDED|97.5|-57.4|-45.4||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-45.4|-57.4|<0.0001
92439658|NCT02584504|184765711|SUPERIORITY||LS Mean Difference|-67.3|||<|0.0001|TWO_SIDED|97.5|-73.3|-61.3||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-61.3|-73.3|<0.0001
92439659|NCT02584504|184765712|SUPERIORITY||LS Mean Difference|-26.2|||<|0.0001|TWO_SIDED|97.5|-32.5|-19.9||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-19.9|-32.5|<0.0001
92439660|NCT02584504|184765712|SUPERIORITY||LS Mean Difference|-51.9|||<|0.0001|TWO_SIDED|97.5|-58.3|-45.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-45.5|-58.3|<0.0001
92439661|NCT02584504|184765713|SUPERIORITY||LS Mean Difference|-27.2|||<|0.0001|TWO_SIDED|97.5|-33.5|-20.9||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-20.9|-33.5|<0.0001
92439662|NCT02584504|184765713|SUPERIORITY||LS Mean Difference|-53.4|||<|0.0001|TWO_SIDED|97.5|-59.7|-47.1||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-47.1|-59.7|<0.0001
92439663|NCT02584504|184765714|SUPERIORITY||LS Mean Difference|-31.3|||<|0.0001|TWO_SIDED|97.5|-37.7|-25.0||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-25.0|-37.7|<0.0001
92280027|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.392||||0.0105|TWO_SIDED|95.0|-0.691|-0.093||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.093|-0.691|0.0105
92280028|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.094||||0.5482|TWO_SIDED|95.0|-0.403|0.214||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.214|-0.403|0.5482
92439664|NCT02584504|184765714|SUPERIORITY||LS Mean Difference|-56.2|||<|0.0001|TWO_SIDED|97.5|-62.5|-49.8||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-49.8|-62.5|<0.0001
92439665|NCT02584504|184765715|SUPERIORITY||LS Mean Difference|-32.4|||<|0.0001|TWO_SIDED|97.5|-38.6|-26.3||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-26.3|-38.6|<0.0001
92439666|NCT02584504|184765715|SUPERIORITY||LS Mean Difference|-57.6|||<|0.0001|TWO_SIDED|97.5|-63.8|-51.4||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-51.4|-63.8|<0.0001
92439667|NCT02584504|184765716|SUPERIORITY||LS Mean Difference|-22.5|||<|0.0001|TWO_SIDED|97.5|-27.4|-17.6||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-17.6|-27.4|<0.0001
92239926|NCT00570739|184383775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.153||||0.1078|TWO_SIDED|95.0|-0.34|0.034||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 weeks||0.034|-0.340|0.1078
92239927|NCT00570739|184383775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.141||||0.1146|TWO_SIDED|95.0|-0.317|0.035||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks (LOCF)||0.035|-0.317|0.1146
92439668|NCT02584504|184765716|SUPERIORITY||LS Mean Difference|-41.4|||<|0.0001|TWO_SIDED|97.5|-46.4|-36.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-36.5|-46.4|<0.0001
92439669|NCT02584504|184765717|SUPERIORITY||Odds Ratio (OR)|61.2|||<|0.0001|TWO_SIDED|97.5|13.9|268.9||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||268.9|13.9|<0.0001
92439670|NCT02584504|184765717|SUPERIORITY||Odds Ratio (OR)|281.4|||<|0.0001|TWO_SIDED|97.5|33.3|2382.2||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||2382.2|33.3|<0.0001
92439671|NCT02584504|184765718|SUPERIORITY||Odds Ratio (OR)|102.8|||<|0.0001|TWO_SIDED|97.5|19.0|556.8||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||556.8|19.0|<0.0001
92439672|NCT02584504|184765718|SUPERIORITY||Odds Ratio (OR)|500.8|||<|0.0001|TWO_SIDED|97.5|47.9|5230.9||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||5230.9|47.9|<0.0001
92439673|NCT02584504|184765719|SUPERIORITY||Adjusted Mean Difference|-32.9|||<|0.0001|TWO_SIDED|97.5|-43.4|-22.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-22.5|-43.4|<0.0001
92439674|NCT02584504|184765719|SUPERIORITY||Adjusted Mean Difference|-50.9|||<|0.0001|TWO_SIDED|97.5|-61.5|-40.3||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-40.3|-61.5|<0.0001
92439675|NCT02584504|184765720|SUPERIORITY||LS Mean Difference|5.7||||0.0241|TWO_SIDED|97.5|0.0|11.3||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||11.3|0.0|0.0241
92439676|NCT02584504|184765720|SUPERIORITY||LS Mean Difference|7.8||||0.0022|TWO_SIDED|97.5|2.1|13.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||13.5|2.1|0.0022
92439677|NCT02584504|184765721|SUPERIORITY||Adjusted Mean Difference|5.9||||0.2645|TWO_SIDED|97.5|-5.9|17.7||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||17.7|-5.9|0.2645
92239928|NCT00570739|184383776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9933|TWO_SIDED|95.0|-9.3|9.4||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 weeks||9.4|-9.3|0.9933
92239929|NCT00570739|184383776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.8203|TWO_SIDED|95.0|-10.5|8.3||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 weeks LOCF||8.3|-10.5|0.8203
92439678|NCT02584504|184765721|SUPERIORITY||Adjusted Mean Difference|-11.6||||0.0299|TWO_SIDED|97.5|-23.5|0.4||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Robust||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||0.4|-23.5|0.0299
92439679|NCT02432846|184765724|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.978||||0.964|TWO_SIDED|95.0|0.371|2.579|||Log Rank|||||2.579|0.371|0.964
92439680|NCT02432846|184765724|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.619||||0.163|TWO_SIDED|95.0|0.314|1.222|||Log Rank|||||1.222|0.314|0.163
92439681|NCT02432846|184765724|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.732||||0.25|TWO_SIDED|95.0|0.421|1.27|||Log Rank|||||1.270|0.421|0.250
92439682|NCT02432846|184765725|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.756||||0.596|TWO_SIDED|95.0|0.268|2.134|||Log Rank|||||2.134|0.268|0.596
92439683|NCT02432846|184765725|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.661||||0.285|TWO_SIDED|95.0|0.308|1.418|||Log Rank|||||1.418|0.308|0.285
92439684|NCT02432846|184765725|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.699||||0.24|TWO_SIDED|95.0|0.378|1.29|||Log Rank|||||1.290|0.378|0.240
92439685|NCT02432846|184765726|OTHER|Exploratory superiority (non-powered)|||||=|0.812|||||||Log Rank|||||||= 0.812
92439686|NCT02432846|184765727|OTHER|Exploratory superiority (non-powered)|||||=|0.861|||||||Log Rank|||||||= 0.861
92439687|NCT01912287|184765739|SUPERIORITY||Odds Ratio (OR)|2.46||||0.03|TWO_SIDED|95.0|1.12|5.42|||Generalized Linear Mixed Models|||This comparison is from the Generalized Linear Mixed Models (GLMM) analysis using a quadratic growth curve over time. This comparison is at post-treatment. Note, although all 3 groups are included in the GLMM, this statistical test specifically compares response rates of KY vs. SE at post-treatment||5.42|1.12|.03
92439688|NCT01912287|184765739|SUPERIORITY||Odds Ratio, log|5.0|||<|0.001|TWO_SIDED|95.0|2.12|11.82|||Generalized Linear Mixed Models|||This comparison is from the Generalized Linear Mixed Models (GLMM) analysis using a quadratic growth curve over time. This comparison is at post-treatment. Note, although all 3 groups are included in the GLMM, this statistical test specifically compares response rates of CBT vs. SE at post-treatment||11.82|2.12|<.001
92439689|NCT01912287|184765739|SUPERIORITY||Odds Ratio (OR)|0.49||||0.07|TWO_SIDED|95.0|0.24|1.03|||Generalized Linear Mixed Models|||This comparison is from the Generalized Linear Mixed Models (GLMM) analysis using a quadratic growth curve over time. This comparison is at post-treatment. Note, although all 3 groups are included in the GLMM, this statistical test specifically compares response rates of KY vs. CBT at post-treatment||1.03|0.24|0.07
92439690|NCT04600414|184765768|SUPERIORITY||Odds Ratio (OR)|0.1|||<|0.001|TWO_SIDED|95.0|0.03|0.38|||Multi-level model to account for cluster|||||0.38|0.03|<0.001
92439691|NCT04600414|184765769|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.532|TWO_SIDED|95.0|-4.97|2.57|||Multi-level model to account for cluster|||||2.57|-4.97|0.532
92439692|NCT00553150|184765805|SUPERIORITY_OR_OTHER_LEGACY||Maximum Tolerated Dose (mg)|70.0|||||TWO_SIDED|||||||||||||
92439693|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.8096|||<|0.0001|TWO_SIDED|95.0|15.0866|26.5327|||Mixed Models Analysis|Mixed-effect model was implemented with Restricted Maximum Likelihood (REML) estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95 percent (%) Confidence Interval (CI) were obtained from the model.||26.5327|15.0866|<0.0001
92439694|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.4625|||<|0.0001|TWO_SIDED|95.0|18.7321|30.1929|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||30.1929|18.7321|<0.0001
92439695|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5792||||0.8428|TWO_SIDED|95.0|-6.3385|5.18|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.1800|-6.3385|0.8428
92439696|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9993||||0.4957|TWO_SIDED|95.0|-7.7832|3.7845|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.7845|-7.7832|0.4957
92439697|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9683||||0.7431|TWO_SIDED|95.0|-4.8567|6.7932|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.7932|-4.8567|0.7431
92439698|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.3889|||<|0.0001|TWO_SIDED|95.0|-27.1044|-15.6734|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.6734|-27.1044|<0.0001
92439699|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.809|||<|0.0001|TWO_SIDED|95.0|-28.5584|-17.0596|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.0596|-28.5584|<0.0001
92439700|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-19.8414|||<|0.0001|TWO_SIDED|95.0|-25.6435|-14.0393|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-14.0393|-25.6435|<0.0001
92439701|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.0418|||<|0.0001|TWO_SIDED|95.0|-30.6705|-19.413|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-19.4130|-30.6705|<0.0001
92439702|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.4618|||<|0.0001|TWO_SIDED|95.0|-32.1455|-20.7782|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-20.7782|-32.1455|<0.0001
92439703|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.4943|||<|0.0001|TWO_SIDED|95.0|-29.244|-17.7445|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.7445|-29.2440|<0.0001
92439704|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4538||||0.572|TWO_SIDED|95.0|-6.5274|3.6198|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.6198|-6.5274|0.5720
92439705|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.9938||||0.0006|TWO_SIDED|95.0|-14.0695|-3.918|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.9180|-14.0695|0.0006
92439706|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8686||||0.4704|TWO_SIDED|95.0|-3.2342|6.9713|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.9713|-3.2342|0.4704
92439707|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0725||||0.4255|TWO_SIDED|95.0|-3.0533|7.1984|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||7.1984|-3.0533|0.4255
92439708|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3425||||0.8959|TWO_SIDED|95.0|-5.5053|4.8204|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.8204|-5.5053|0.8959
92439709|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3224||||0.1967|TWO_SIDED|95.0|-1.7402|8.385|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.3850|-1.7402|0.1967
92439710|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5264||||0.1733|TWO_SIDED|95.0|-1.5676|8.6203|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.6203|-1.5676|0.1733
92439711|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1113||||0.6697|TWO_SIDED|95.0|-4.0285|6.2512|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.2512|-4.0285|0.6697
92439712|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.8623|||<|0.0001|TWO_SIDED|95.0|5.8712|15.8535|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||15.8535|5.8712|<0.0001
92439713|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0663|||<|0.0001|TWO_SIDED|95.0|6.0281|16.1045|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||16.1045|6.0281|<0.0001
92439714|NCT00975481|184765817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6513||||0.001|TWO_SIDED|95.0|3.5552|13.7474|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||13.7474|3.5552|0.0010
92439715|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.6388|||<|0.0001|TWO_SIDED|95.0|10.5727|22.7049|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||22.7049|10.5727|<0.0001
92439716|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.8432|||<|0.0001|TWO_SIDED|95.0|13.7627|25.9238|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||25.9238|13.7627|<0.0001
92439717|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6121||||0.6029|TWO_SIDED|95.0|-7.7209|4.4967|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.4967|-7.7209|0.6029
92280029|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.377||||0.017|TWO_SIDED|95.0|-0.687|-0.068||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.068|-0.687|0.0170
92439718|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9241||||0.3477|TWO_SIDED|95.0|-9.0571|3.2089|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.2089|-9.0571|0.3477
92439719|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0908||||0.9769|TWO_SIDED|95.0|-6.085|6.2667|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.2667|-6.0850|0.9769
92239930|NCT00570739|184383777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0||||0.195|TWO_SIDED|95.0|-17.5|3.6||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks||3.6|-17.5|0.1950
92239931|NCT00570739|184383777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7||||0.1583|TWO_SIDED|95.0|-18.3|3.0||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||3.0|-18.3|0.1583
92439720|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.2509|||<|0.0001|TWO_SIDED|95.0|-24.3155|-12.1864|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-12.1864|-24.3155|<0.0001
92439721|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5629|||<|0.0001|TWO_SIDED|95.0|-25.6616|-13.4642|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-13.4642|-25.6616|<0.0001
92439722|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.548|||<|0.0001|TWO_SIDED|95.0|-22.7036|-10.3923|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-10.3923|-22.7036|<0.0001
92439723|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.4554|||<|0.0001|TWO_SIDED|95.0|-27.4199|-15.4908|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.4908|-27.4199|<0.0001
92439724|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7673|||<|0.0001|TWO_SIDED|95.0|-28.7925|-16.7422||Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.|Mixed Models Analysis|||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-16.7422|-28.7925|<0.0001
92439725|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.7524|||<|0.0001|TWO_SIDED|95.0|-25.8485|-13.6563|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-13.6563|-25.8485|<0.0001
92439726|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.0888||||0.0006|TWO_SIDED|95.0|5.3225|18.8551|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||18.8551|5.3225|0.0006
92439727|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0768||||0.0038|TWO_SIDED|95.0|3.3132|16.8403|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||16.8403|3.3132|0.0038
92439728|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1875||||0.2257|TWO_SIDED|95.0|-10.989|2.6139|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.6139|-10.9890|0.2257
92439729|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8589||||0.8042|TWO_SIDED|95.0|-7.6927|5.975|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.9750|-7.6927|0.8042
92439730|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6335||||0.6399|TWO_SIDED|95.0|-8.5177|5.2506|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.2506|-8.5177|0.6399
92439731|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2763|||<|0.0001|TWO_SIDED|95.0|-23.0228|-9.5229|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-9.5229|-23.0228|<0.0001
92446788|NCT00280566|184780543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.3677|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 2 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.3677
92171290|NCT05321069|184231767|SUPERIORITY||Mean Difference (Net)|44.89||||0.0222|TWO_SIDED|95.0|6.44|83.33|||Mixed Models Analysis|The Kenward-Roger method estimated denominator degrees of freedom and adjusted standard errors; tests used two-sided α per multiple testing strategy.|Adjusted mean difference in FVC change from baseline at Week 52 between the Nera 9 mg bid group and the Placebo group.|Based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of baseline forced vital capacity (FVC) in milliliters at each visit. Patients were treated as a random effect. Visit was treated as the repeated measure, and an unstructured covariance structure was used to model the within-patient measurements.||83.33|6.44|0.0222
92439732|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.9477||||0.0002|TWO_SIDED|95.0|-19.7374|-6.158|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-6.1580|-19.7374|0.0002
92439733|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7223||||0.0001|TWO_SIDED|95.0|-20.572|-6.8727|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-6.8727|-20.5720|0.0001
92439734|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.2643|||<|0.0001|TWO_SIDED|95.0|-20.9226|-7.606|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-7.6060|-20.9226|<0.0001
92439735|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9356||||0.0016|TWO_SIDED|95.0|-17.6548|-4.2165|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-4.2165|-17.6548|0.0016
92439736|NCT00975481|184765818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.7103||||0.0008|TWO_SIDED|95.0|-18.5055|-4.9151|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-4.9151|-18.5055|0.0008
92439737|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.009|||<|0.0001|TWO_SIDED|95.0|13.7265|34.2916|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||34.2916|13.7265|<0.0001
92439738|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.4156|||<|0.0001|TWO_SIDED|95.0|19.116|39.7151|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||39.7151|19.1160|<0.0001
92439739|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3979||||0.2239|TWO_SIDED|95.0|-16.7479|3.9521|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.9521|-16.7479|0.2239
92439740|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1396||||0.4326|TWO_SIDED|95.0|-14.5328|6.2526|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.2526|-14.5328|0.4326
92439741|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7283||||0.7447|TWO_SIDED|95.0|-12.195|8.7383|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.7383|-12.1950|0.7447
92439742|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.4069|||<|0.0001|TWO_SIDED|95.0|-40.6795|-20.1343|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-20.1343|-40.6795|<0.0001
92238062|NCT03151148|184380355|SUPERIORITY||Geometric mean ratio (GMR)|0.465||||0.675|TWO_SIDED|95.0|0.0128|16.8576|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||16.8576|0.0128|0.675
92439743|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.1487|||<|0.0001|TWO_SIDED|95.0|-38.4812|-17.8161|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.8161|-38.4812|<0.0001
92439744|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.7374|||<|0.0001|TWO_SIDED|95.0|-36.1651|-15.3096|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.3096|-36.1651|<0.0001
92439745|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.8134|||<|0.0001|TWO_SIDED|95.0|-45.9257|-25.7012|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-25.7012|-45.9257|<0.0001
92439746|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.5552|||<|0.0001|TWO_SIDED|95.0|-43.7675|-23.3429|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-23.3429|-43.7675|<0.0001
92439747|NCT00975481|184765819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.1439|||<|0.0001|TWO_SIDED|95.0|-41.4754|-20.8124|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-20.8124|-41.4754|<0.0001
92439748|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.8779|||<|0.0001|TWO_SIDED|95.0|19.5658|30.1899|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||30.1899|19.5658|<0.0001
92439749|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.9857|||<|0.0001|TWO_SIDED|95.0|20.667|31.3043|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||31.3043|20.6670|<0.0001
92439750|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0544||||0.4489|TWO_SIDED|95.0|-3.2911|7.3998|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||7.3998|-3.2911|0.4489
92439751|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5743||||0.8329|TWO_SIDED|95.0|-4.7941|5.9427|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.9427|-4.7941|0.8329
92439752|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6863||||0.5387|TWO_SIDED|95.0|-3.7203|7.0929|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||7.0929|-3.7203|0.5387
92439753|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.8235|||<|0.0001|TWO_SIDED|95.0|-28.1283|-17.5187|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.5187|-28.1283|<0.0001
92171291|NCT05321069|184231767|SUPERIORITY||Mean Difference (Net)|68.83||||0.0005|TWO_SIDED|95.0|30.26|107.39|||Mixed Models Analysis|The Kenward-Roger method estimated denominator degrees of freedom and adjusted standard errors; tests used two-sided α per multiple testing strategy.|Adjusted mean difference in FVC change from baseline at Week 52 between the Nera 18 mg bid group and the Placebo group.|Based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of baseline forced vital capacity (FVC) in milliliters at each visit. Patients were treated as a random effect. Visit was treated as the repeated measure, and an unstructured covariance structure was used to model the within-patient measurements.||107.39|30.26|0.0005
92239932|NCT00570739|184383778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1||||0.3663|TWO_SIDED|95.0|-16.1|6.0||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||6.0|-16.1|0.3663
92439754|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.3036|||<|0.0001|TWO_SIDED|95.0|-29.64|-18.9672|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-18.9672|-29.6400|<0.0001
92439755|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.1916|||<|0.0001|TWO_SIDED|95.0|-28.5768|-17.8064|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.8064|-28.5768|<0.0001
92439756|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.9313|||<|0.0001|TWO_SIDED|95.0|-29.1559|-18.7066|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-18.7066|-29.1559|<0.0001
92439757|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.4114|||<|0.0001|TWO_SIDED|95.0|-30.6869|-20.1358|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-20.1358|-30.6869|<0.0001
92439758|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.2994|||<|0.0001|TWO_SIDED|95.0|-29.6361|-18.9626|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-18.9626|-29.6361|<0.0001
92439759|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4301||||0.5349|TWO_SIDED|95.0|-5.9725|3.1123|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.1123|-5.9725|0.5349
92439760|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.1367||||0.0001|TWO_SIDED|95.0|-13.6684|-4.605|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-4.6050|-13.6684|0.0001
92439761|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3357||||0.5637|TWO_SIDED|95.0|-3.2244|5.8958|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.8958|-3.2244|0.5637
92439762|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4065||||0.8612|TWO_SIDED|95.0|-4.1779|4.9909|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.9909|-4.1779|0.8612
92439763|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9175||||0.6954|TWO_SIDED|95.0|-3.7022|5.5373|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.5373|-3.7022|0.6954
92171292|NCT05321069|184231768|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.5443|TWO_SIDED|95.0|0.69|1.22|||Regression, Cox|||The hazard ratio (HR) was estimated using a Cox proportional hazards model with treatment group, baseline antifibrotic therapy use, age (continuous), baseline FVC % predicted, and baseline DLCO % predicted (hemoglobin-corrected) as covariates. Breslow's method was applied for tied event times. A two-sided p-value from the Wald test assessed the treatment effect. P-values were not adjusted for multiplicity.||1.22|0.69|0.5443
92239933|NCT00570739|184383778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.2524|TWO_SIDED|95.0|-17.9|4.7||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||4.7|-17.9|0.2524
92239934|NCT00570739|184383779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.051||||0.8158|TWO_SIDED|95.0|-7.828|9.929||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||9.929|-7.828|0.8158
92239935|NCT00570739|184383779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.565||||0.7433|TWO_SIDED|95.0|-10.966|7.836||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||7.836|-10.966|0.7433
92439764|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7658||||0.2287|TWO_SIDED|95.0|-1.7552|7.2868|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||7.2868|-1.7552|0.2287
92439765|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8366||||0.4267|TWO_SIDED|95.0|-2.7158|6.389|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.3890|-2.7158|0.4267
92439766|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3476||||0.314|TWO_SIDED|95.0|-2.2429|6.9381|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.9381|-2.2429|0.3140
92439767|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.4724|||<|0.0001|TWO_SIDED|95.0|5.9992|14.9456|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||14.9456|5.9992|<0.0001
92439768|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.5432|||<|0.0001|TWO_SIDED|95.0|5.032|14.0544|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||14.0544|5.0320|<0.0001
92439769|NCT00975481|184765820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0542|||<|0.0001|TWO_SIDED|95.0|5.494|14.6144|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||14.6144|5.4940|<0.0001
92439770|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.4728|||<|0.0001|TWO_SIDED|95.0|9.4718|19.4737|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||19.4737|9.4718|<0.0001
92439771|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.7284|||<|0.0001|TWO_SIDED|95.0|14.7131|24.7437|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||24.7437|14.7131|<0.0001
92439772|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2088||||0.9348|TWO_SIDED|95.0|-4.8289|5.2466|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.2466|-4.8289|0.9348
92439773|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7271||||0.5009|TWO_SIDED|95.0|-6.7841|3.3299|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.3299|-6.7841|0.5009
92439774|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3325||||0.8975|TWO_SIDED|95.0|-5.4245|4.7595|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.7595|-5.4245|0.8975
92439775|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.264|||<|0.0001|TWO_SIDED|95.0|-19.266|-9.2619|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-9.2619|-19.2660|<0.0001
92439776|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.1999|||<|0.0001|TWO_SIDED|95.0|-21.2294|-11.1704|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-11.1704|-21.2294|<0.0001
92439777|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.8053|||<|0.0001|TWO_SIDED|95.0|-19.8822|-9.7283|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-9.7283|-19.8822|<0.0001
92439778|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5195|||<|0.0001|TWO_SIDED|95.0|-24.4361|-14.603|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-14.6030|-24.4361|<0.0001
92439779|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.4555|||<|0.0001|TWO_SIDED|95.0|-26.423|-16.488|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-16.4880|-26.4230|<0.0001
92439780|NCT00975481|184765821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.0609|||<|0.0001|TWO_SIDED|95.0|-25.0872|-15.0345|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.0345|-25.0872|<0.0001
92439781|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1634|||<|0.0001|TWO_SIDED|95.0|1.9014|4.4254|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.4254|1.9014|<0.0001
92439782|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6706|||<|0.0001|TWO_SIDED|95.0|3.4066|5.9346|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.9346|3.4066|<0.0001
92239936|NCT00570739|184383780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215||||0.5161|TWO_SIDED|95.0|-0.437|0.867||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||0.867|-0.437|0.5161
92439783|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1478||||0.8184|TWO_SIDED|95.0|-1.1217|1.4173|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.4173|-1.1217|0.8184
92439784|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2211||||0.7324|TWO_SIDED|95.0|-1.054|1.4963|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.4963|-1.0540|0.7324
92439785|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0946||||0.8844|TWO_SIDED|95.0|-1.1898|1.3791|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.3791|-1.1898|0.8844
92439786|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0156|||<|0.0001|TWO_SIDED|95.0|-4.2754|-1.7558|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-1.7558|-4.2754|<0.0001
92439787|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9423|||<|0.0001|TWO_SIDED|95.0|-4.2101|-1.6745|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-1.6745|-4.2101|<0.0001
92439788|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0688|||<|0.0001|TWO_SIDED|95.0|-4.3484|-1.7891|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-1.7891|-4.3484|<0.0001
92439789|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5228|||<|0.0001|TWO_SIDED|95.0|-5.7651|-3.2805|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.2805|-5.7651|<0.0001
92439790|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4495|||<|0.0001|TWO_SIDED|95.0|-5.7031|-3.1959|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.1959|-5.7031|<0.0001
92439791|NCT00975481|184765822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.576|||<|0.0001|TWO_SIDED|95.0|-5.8438|-3.3081|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.3081|-5.8438|<0.0001
92239937|NCT00570739|184383780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.8319|TWO_SIDED|95.0|-0.581|0.722||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||0.722|-0.581|0.8319
92439792|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.0798|||<|0.0001|TWO_SIDED|95.0|34.0453|58.1142|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||58.1142|34.0453|<0.0001
92439793|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.8771|||<|0.0001|TWO_SIDED|95.0|37.8247|61.9295|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||61.9295|37.8247|<0.0001
92439794|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5797||||0.9248|TWO_SIDED|95.0|-12.6918|11.5325|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||11.5325|-12.6918|0.9248
92439795|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3632||||0.5857|TWO_SIDED|95.0|-15.5264|8.8|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.8000|-15.5264|0.5857
92439796|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4225||||0.4768|TWO_SIDED|95.0|-7.827|16.6719|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||16.6719|-7.8270|0.4768
92439797|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.6594|||<|0.0001|TWO_SIDED|95.0|-58.6804|-34.6385|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-34.6385|-58.6804|<0.0001
92439798|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-49.443|||<|0.0001|TWO_SIDED|95.0|-61.5346|-37.3514|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-37.3514|-61.5346|<0.0001
92439799|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.6573|||<|0.0001|TWO_SIDED|95.0|-53.86|-29.4546|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-29.4546|-53.8600|<0.0001
92439800|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.4567|||<|0.0001|TWO_SIDED|95.0|-62.2925|-38.621|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-38.6210|-62.2925|<0.0001
92439801|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-53.2403|||<|0.0001|TWO_SIDED|95.0|-65.1923|-41.2882|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-41.2882|-65.1923|<0.0001
92439802|NCT00975481|184765823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-45.4546|||<|0.0001|TWO_SIDED|95.0|-57.5459|-33.3633|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-33.3633|-57.5459|<0.0001
92439803|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.845|||<|0.0001|TWO_SIDED|95.0|34.6464|59.0436|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||59.0436|34.6464|<0.0001
92439804|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|57.5013|||<|0.0001|TWO_SIDED|95.0|45.3036|69.6991|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||69.6991|45.3036|<0.0001
92439805|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0913||||0.4129|TWO_SIDED|95.0|-17.3421|7.1595|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||7.1595|-17.3421|0.4129
92439806|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1893||||0.8488|TWO_SIDED|95.0|-13.4954|11.1168|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||11.1168|-13.4954|0.8488
92439807|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1995||||0.4086|TWO_SIDED|95.0|-7.1963|17.5954|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||17.5954|-7.1963|0.4086
92439808|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.9363|||<|0.0001|TWO_SIDED|95.0|-64.1108|-39.7618|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-39.7618|-64.1108|<0.0001
92439809|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.0343|||<|0.0001|TWO_SIDED|95.0|-60.2801|-35.7885|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-35.7885|-60.2801|<0.0001
92439810|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.6455|||<|0.0001|TWO_SIDED|95.0|-53.9964|-29.2946|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-29.2946|-53.9964|<0.0001
92439811|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-62.5926|||<|0.0001|TWO_SIDED|95.0|-74.5881|-50.5971|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-50.5971|-74.5881|<0.0001
92439812|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-58.6906|||<|0.0001|TWO_SIDED|95.0|-70.7965|-46.5847|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-46.5847|-70.7965|<0.0001
92439813|NCT00975481|184765824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-52.3018|||<|0.0001|TWO_SIDED|95.0|-64.5427|-40.0609|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-40.0609|-64.5427|<0.0001
92439814|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.4604||||0.0016|TWO_SIDED|95.0|6.321|26.5998|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||26.5998|6.3210|0.0016
92439815|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.9971|||<|0.0001|TWO_SIDED|95.0|17.8247|38.1696|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||38.1696|17.8247|<0.0001
92439816|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1425||||0.8254|TWO_SIDED|95.0|-11.3591|9.0742|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||9.0742|-11.3591|0.8254
92439817|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.747||||0.8858|TWO_SIDED|95.0|-9.5075|11.0015|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||11.0015|-9.5075|0.8858
92439818|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4279||||0.5128|TWO_SIDED|95.0|-6.8972|13.7529|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||13.7529|-6.8972|0.5128
92439819|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6028||||0.0008|TWO_SIDED|95.0|-27.7485|-7.4572|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-7.4572|-27.7485|0.0008
92439820|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.7134||||0.0028|TWO_SIDED|95.0|-25.9136|-5.5132|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-5.5132|-25.9136|0.0028
92439821|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.0325||||0.0135|TWO_SIDED|95.0|-23.3295|-2.7355|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.7355|-23.3295|0.0135
92439822|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.1396|||<|0.0001|TWO_SIDED|95.0|-39.1071|-19.1721|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-19.1721|-39.1071|<0.0001
92439823|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.2502|||<|0.0001|TWO_SIDED|95.0|-37.3224|-17.178|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.1780|-37.3224|<0.0001
92439824|NCT00975481|184765825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.5693|||<|0.0001|TWO_SIDED|95.0|-34.7614|-14.3772|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-14.3772|-34.7614|<0.0001
92439825|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2535||||0.0005|TWO_SIDED|95.0|0.5623|1.9446|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.9446|0.5623|0.0005
92439826|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.501|||<|0.0001|TWO_SIDED|95.0|2.8073|4.1948|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.1948|2.8073|<0.0001
92439827|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3418||||0.3347|TWO_SIDED|95.0|-0.3559|1.0396|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.0396|-0.3559|0.3347
92439828|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3208||||0.3678|TWO_SIDED|95.0|-0.3808|1.0225|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.0225|-0.3808|0.3678
92439829|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036||||0.9197|TWO_SIDED|95.0|-0.6686|0.7406|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.7406|-0.6686|0.9197
92171293|NCT05321069|184231768|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9512|TWO_SIDED|95.0|0.75|1.31|||Regression, Cox|||Based on Cox proportional hazards model including treatment, baseline antifibrotic therapy, age, baseline Forced Vital Capacity (FVC) percent predicted, and baseline Diffusing Capacity of the Lungs for Carbon Monoxide (DLCO) percent predicted (corrected for haemoglobin) as covariates. p-values not adjusted for multiplicity.||1.31|0.75|0.9512
92439830|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9117||||0.0099|TWO_SIDED|95.0|-1.6013|-0.222|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.2220|-1.6013|0.0099
92439831|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9326||||0.0088|TWO_SIDED|95.0|-1.6269|-0.2384|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.2384|-1.6269|0.0088
92238063|NCT03151148|184380355|SUPERIORITY||Geometric mean ratio (GMR)|32.638||||0.057|TWO_SIDED|95.0|0.8994|1184.4298|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1184.4298|0.8994|0.057
92238064|NCT03151148|184380355|SUPERIORITY||Geometric mean ratio (GMR)|11.539||||0.181|TWO_SIDED|95.0|0.318|418.7586|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||418.7586|0.3180|0.181
92239938|NCT00570739|184383781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.19|||<|0.0001|TWO_SIDED|95.0|-22.61|-13.76|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||-13.76|-22.61|<0.0001
92439832|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2175||||0.0008|TWO_SIDED|95.0|-1.9171|-0.5178|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.5178|-1.9171|0.0008
92439833|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1592|||<|0.0001|TWO_SIDED|95.0|-3.838|-2.4804|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.4804|-3.8380|<0.0001
92439834|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1802|||<|0.0001|TWO_SIDED|95.0|-3.8656|-2.4947|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.4947|-3.8656|<0.0001
92439835|NCT00975481|184765826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.465|||<|0.0001|TWO_SIDED|95.0|-4.1583|-2.7717|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.7717|-4.1583|<0.0001
92439836|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.2943|||<|0.0001|TWO_SIDED|95.0|4.0783|6.5102|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.5102|4.0783|<0.0001
92439837|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8983|||<|0.0001|TWO_SIDED|95.0|5.6799|8.1167|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.1167|5.6799|<0.0001
92439838|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6545||||0.2917|TWO_SIDED|95.0|-0.5676|1.8767|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.8767|-0.5676|0.2917
92239939|NCT00570739|184383781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.08|||<|0.0001|TWO_SIDED|95.0|-22.09|-12.08|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||-12.08|-22.09|<0.0001
92171294|NCT05321069|184231769|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.5583|TWO_SIDED|95.0|0.76|1.67|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.67|0.76|0.5583
92439839|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8489||||0.1738|TWO_SIDED|95.0|-0.3784|2.0763|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.0763|-0.3784|0.1738
92439840|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9372||||0.1373|TWO_SIDED|95.0|-0.3024|2.1767|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.1767|-0.3024|0.1373
92439841|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6397|||<|0.0001|TWO_SIDED|95.0|-5.8537|-3.4257|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.4257|-5.8537|<0.0001
92439842|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4453|||<|0.0001|TWO_SIDED|95.0|-5.6662|-3.2244|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.2244|-5.6662|<0.0001
92439843|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3571|||<|0.0001|TWO_SIDED|95.0|-5.5887|-3.1255|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.1255|-5.5887|<0.0001
92439844|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.2437|||<|0.0001|TWO_SIDED|95.0|-7.4397|-5.0477|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-5.0477|-7.4397|<0.0001
92439845|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0493|||<|0.0001|TWO_SIDED|95.0|-7.2568|-4.8419|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-4.8419|-7.2568|<0.0001
92439846|NCT00975481|184765827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9611|||<|0.0001|TWO_SIDED|95.0|-7.1812|-4.741|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-4.7410|-7.1812|<0.0001
92439847|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.6205|||<|0.0001|TWO_SIDED|95.0|-33.1192|-20.1219|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-20.1219|-33.1192|<0.0001
92439848|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.5724|||<|0.0001|TWO_SIDED|95.0|-39.1073|-26.0375|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-26.0375|-39.1073|<0.0001
92439849|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8966||||0.5685|TWO_SIDED|95.0|-4.6607|8.454|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.4540|-4.6607|0.5685
92439850|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5761||||0.2848|TWO_SIDED|95.0|-10.159|3.0068|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.0068|-10.1590|0.2848
92439851|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1754||||0.344|TWO_SIDED|95.0|-9.7855|3.4347|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.4347|-9.7855|0.3440
92439852|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.5172|||<|0.0001|TWO_SIDED|95.0|22.0454|34.989|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||34.9890|22.0454|<0.0001
92439853|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.0445|||<|0.0001|TWO_SIDED|95.0|16.5383|29.5506|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||29.5506|16.5383|<0.0001
92439854|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.4452|||<|0.0001|TWO_SIDED|95.0|16.8772|30.0131|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||30.0131|16.8772|<0.0001
92439855|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.469|||<|0.0001|TWO_SIDED|95.0|28.1136|40.8244|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||40.8244|28.1136|<0.0001
92439856|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.9963|||<|0.0001|TWO_SIDED|95.0|22.5734|35.4192|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||35.4192|22.5734|<0.0001
92439857|NCT00975481|184765828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.397|||<|0.0001|TWO_SIDED|95.0|22.8946|35.8994|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||35.8994|22.8946|<0.0001
92439858|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.6044|||<|0.0001|TWO_SIDED|95.0|33.4091|59.7996|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||59.7996|33.4091|<0.0001
92439859|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.7222|||<|0.0001|TWO_SIDED|95.0|37.5038|63.9407|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||63.9407|37.5038|<0.0001
92439860|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6987||||0.9174|TWO_SIDED|95.0|-13.9815|12.584|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||12.5840|-13.9815|0.9174
92439861|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5629||||0.5002|TWO_SIDED|95.0|-17.9006|8.7749|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.7749|-17.9006|0.5002
92439862|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3982||||0.3482|TWO_SIDED|95.0|-7.0337|19.8301|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||19.8301|-7.0337|0.3482
92439863|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.3031|||<|0.0001|TWO_SIDED|95.0|-60.4869|-34.1193|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-34.1193|-60.4869|<0.0001
92439864|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.1672|||<|0.0001|TWO_SIDED|95.0|-64.4276|-37.9069|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-37.9069|-64.4276|<0.0001
92439865|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.2062|||<|0.0001|TWO_SIDED|95.0|-53.589|-26.8234|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-26.8234|-53.5890|<0.0001
92439866|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.421|||<|0.0001|TWO_SIDED|95.0|-64.3974|-38.4445|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-38.4445|-64.3974|<0.0001
92439867|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-55.2851|||<|0.0001|TWO_SIDED|95.0|-68.3904|-42.1798|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-42.1798|-68.3904|<0.0001
92439868|NCT00975481|184765829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.3241|||<|0.0001|TWO_SIDED|95.0|-57.5825|-31.0656|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-31.0656|-57.5825|<0.0001
92439869|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.3823|||<|0.0001|TWO_SIDED|95.0|-62.1244|-30.6401|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI was obtained from the model.||-30.6401|-62.1244|<0.0001
92439870|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.5199|||<|0.0001|TWO_SIDED|95.0|-67.2633|-35.7765|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-35.7765|-67.2633|<0.0001
92439871|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0366||||0.4524|TWO_SIDED|95.0|-9.7924|21.8657|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||21.8657|-9.7924|0.4524
92439872|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4423||||0.762|TWO_SIDED|95.0|-13.4599|18.3446|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||18.3446|-13.4599|0.7620
92239940|NCT00570739|184383781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.33|||<|0.0001|TWO_SIDED|95.0|-20.96|-11.69|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||-11.69|-20.96|<0.0001
92439873|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1573||||0.9846|TWO_SIDED|95.0|-15.8609|16.1754|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||16.1754|-15.8609|0.9846
92439874|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|52.4189|||<|0.0001|TWO_SIDED|95.0|36.7157|68.1221|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||68.1221|36.7157|<0.0001
92439875|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.8246|||<|0.0001|TWO_SIDED|95.0|33.0228|64.6264|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||64.6264|33.0228|<0.0001
92439876|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.5395|||<|0.0001|TWO_SIDED|95.0|30.5968|62.4823|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||62.4823|30.5968|<0.0001
92439877|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|57.5565|||<|0.0001|TWO_SIDED|95.0|42.0679|73.0451|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||73.0451|42.0679|<0.0001
92439878|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.9622|||<|0.0001|TWO_SIDED|95.0|38.3293|69.5952|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||69.5952|38.3293|<0.0001
92439879|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.6772|||<|0.0001|TWO_SIDED|95.0|35.866|67.4884|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||67.4884|35.8660|<0.0001
92439880|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.4454||||0.0003|TWO_SIDED|95.0|17.7051|57.1857|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||57.1857|17.7051|0.0003
92439881|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.6714|||<|0.0001|TWO_SIDED|95.0|22.2888|61.054|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||61.0540|22.2888|<0.0001
92439882|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.7583||||0.0744|TWO_SIDED|95.0|-37.2956|1.7789|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.7789|-37.2956|0.0744
92439883|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.5551||||0.3458|TWO_SIDED|95.0|-29.5573|10.4471|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||10.4471|-29.5573|0.3458
92439884|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.792||||0.9375|TWO_SIDED|95.0|-19.1777|20.7616|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||20.7616|-19.1777|0.9375
92439885|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-55.2037|||<|0.0001|TWO_SIDED|95.0|-74.8113|-35.5961|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-35.5961|-74.8113|<0.0001
92439886|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.0005|||<|0.0001|TWO_SIDED|95.0|-67.002|-26.9989|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-26.9989|-67.0020|<0.0001
92439887|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.6534||||0.0004|TWO_SIDED|95.0|-56.7246|-16.5822|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-16.5822|-56.7246|0.0004
92439888|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-59.4297|||<|0.0001|TWO_SIDED|95.0|-78.5162|-40.3433|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-40.3433|-78.5162|<0.0001
92439889|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.2265|||<|0.0001|TWO_SIDED|95.0|-70.8131|-31.6399|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-31.6399|-70.8131|<0.0001
92439890|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.8794||||0.0001|TWO_SIDED|95.0|-60.4726|-21.2862|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-21.2862|-60.4726|0.0001
92439891|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.5197||||0.0102|TWO_SIDED|95.0|5.7096|41.3298|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||41.3298|5.7096|0.0102
92439892|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.7321||||0.0021|TWO_SIDED|95.0|10.3632|45.1011|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||45.1011|10.3632|0.0021
92439893|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7334||||0.5935|TWO_SIDED|95.0|-22.2807|12.814|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||12.8140|-22.2807|0.5935
92439894|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5486||||0.6945|TWO_SIDED|95.0|-14.3397|21.437|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||21.4370|-14.3397|0.6945
92439895|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.2936||||0.4177|TWO_SIDED|95.0|-10.4975|25.0847|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||25.0847|-10.4975|0.4177
92439896|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.2531||||0.0019|TWO_SIDED|95.0|-45.802|-10.7042|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-10.7042|-45.8020|0.0019
92238065|NCT03151148|184380355|SUPERIORITY||Geometric mean ratio (GMR)|0.895||||0.953|TWO_SIDED|95.0|0.0219|36.5559|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||36.5559|0.0219|0.953
92239941|NCT00570739|184383782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||<|0.0001|TWO_SIDED|95.0|-15.99|-8.81|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||-8.81|-15.99|<0.0001
92439897|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9711||||0.0299|TWO_SIDED|95.0|-37.9541|-1.988|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-1.9880|-37.9541|0.0299
92439898|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2261||||0.0759|TWO_SIDED|95.0|-34.1785|1.7264|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.7264|-34.1785|0.0759
92439899|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.4655||||0.0002|TWO_SIDED|95.0|-49.2278|-15.7032|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.7032|-49.2278|0.0002
92439900|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.1835||||0.0069|TWO_SIDED|95.0|-41.5832|-6.7838|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-6.7838|-41.5832|0.0069
92439901|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.4385||||0.0222|TWO_SIDED|95.0|-37.8861|-2.991|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.9910|-37.8861|0.0222
92439902|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.589||||0.0002|TWO_SIDED|95.0|12.0126|37.1654|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||37.1654|12.0126|0.0002
92439903|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.11|||<|0.0001|TWO_SIDED|95.0|16.4903|41.7298|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||41.7298|16.4903|<0.0001
92439904|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6428||||0.6809|TWO_SIDED|95.0|-10.0309|15.3165|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||15.3165|-10.0309|0.6809
92439905|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3215||||0.6067|TWO_SIDED|95.0|-16.0415|9.3985|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||9.3985|-16.0415|0.6067
92439906|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4722||||0.3999|TWO_SIDED|95.0|-7.335|18.2795|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||18.2795|-7.3350|0.3999
92239942|NCT00570739|184383782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.28|||<|0.0001|TWO_SIDED|95.0|-13.23|-5.34|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||-5.34|-13.23|<0.0001
92171295|NCT05321069|184231769|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.5896|TWO_SIDED|95.0|0.75|1.65|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.65|0.75|0.5896
92171296|NCT05321069|184231770|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9038|TWO_SIDED|95.0|0.7|1.36|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.36|0.70|0.9038
92171297|NCT05321069|184231770|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.4687|TWO_SIDED|95.0|0.82|1.56|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.56|0.82|0.4687
92171298|NCT05321069|184231771|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.7695|TWO_SIDED|95.0|0.74|1.25|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.25|0.74|0.7695
92439907|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.9461||||0.0007|TWO_SIDED|95.0|-34.5327|-9.3596|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-9.3596|-34.5327|0.0007
92439908|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.9105|||<|0.0001|TWO_SIDED|95.0|-40.564|-15.257|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.2570|-40.5640|<0.0001
92439909|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1168||||0.0036|TWO_SIDED|95.0|-31.8907|-6.3428|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-6.3428|-31.8907|0.0036
92239943|NCT00570739|184383782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.33|||<|0.0001|TWO_SIDED|95.0|-11.98|-4.67|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Week LOCF||-4.67|-11.98|<0.0001
92439910|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.4672|||<|0.0001|TWO_SIDED|95.0|-38.8298|-14.1046|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-14.1046|-38.8298|<0.0001
92439911|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.4315|||<|0.0001|TWO_SIDED|95.0|-44.925|-19.938|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-19.9380|-44.9250|<0.0001
92439912|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.6378||||0.0003|TWO_SIDED|95.0|-36.2802|-10.9954|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-10.9954|-36.2802|0.0003
92439913|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6675||||0.9728|TWO_SIDED|95.0|-39.708|41.043|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||41.0430|-39.7080|0.9728
92439914|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.7977||||0.0246|TWO_SIDED|95.0|6.1059|79.4894|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||79.4894|6.1059|0.0246
92439915|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5411||||0.7068|TWO_SIDED|95.0|-33.785|48.8672|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||48.8672|-33.7850|0.7068
92439916|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.7069||||0.5492|TWO_SIDED|95.0|-26.0358|47.4496|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||47.4496|-26.0358|0.5492
92439917|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.1248||||0.5899|TWO_SIDED|95.0|-31.3098|53.5595|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||53.5595|-31.3098|0.5899
92439918|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8736||||0.6998|TWO_SIDED|95.0|-29.8691|43.6163|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||43.6163|-29.8691|0.6998
92439919|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0394||||0.6187|TWO_SIDED|95.0|-31.4818|51.5606|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||51.5606|-31.4818|0.6187
92439920|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.4573||||0.5863|TWO_SIDED|95.0|-29.0355|49.9502|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||49.9502|-29.0355|0.5863
92439921|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.2566||||0.0832|TWO_SIDED|95.0|-75.608|5.0948|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.0948|-75.6080|0.0832
92439922|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.0907||||0.0827|TWO_SIDED|95.0|-68.7519|4.5704|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.5704|-68.7519|0.0827
92439923|NCT00975481|184765830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.6728||||0.1386|TWO_SIDED|95.0|-74.5352|11.1895|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||11.1895|-74.5352|0.1386
92439924|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3637||||0.1691|TWO_SIDED|95.0|-0.1566|0.884|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.8840|-0.1566|0.1691
92439925|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8444||||0.0017|TWO_SIDED|95.0|0.3238|1.365|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.3650|0.3238|0.0017
92439926|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2093||||0.4305|TWO_SIDED|95.0|-0.3141|0.7327|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.7327|-0.3141|0.4305
92239944|NCT00570739|184383783|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.63||||0.2026|TWO_SIDED|95.0|-1.43|6.7|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||6.70|-1.43|0.2026
92439927|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1206||||0.6517|TWO_SIDED|95.0|-0.4064|0.6476|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.6476|-0.4064|0.6517
92439928|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0374||||0.8892|TWO_SIDED|95.0|-0.5666|0.4919|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.4919|-0.5666|0.8892
92439929|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1544||||0.5576|TWO_SIDED|95.0|-0.6737|0.3649|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.3649|-0.6737|0.5576
92439930|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2431||||0.3594|TWO_SIDED|95.0|-0.7658|0.2796|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.2796|-0.7658|0.3594
92439931|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4011||||0.1355|TWO_SIDED|95.0|-0.9291|0.127|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.1270|-0.9291|0.1355
92439932|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6351||||0.0153|TWO_SIDED|95.0|-1.1466|-0.1236|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.1236|-1.1466|0.0153
92439933|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7238||||0.0065|TWO_SIDED|95.0|-1.2418|-0.2059|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.2059|-1.2418|0.0065
92439934|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8818||||0.0011|TWO_SIDED|95.0|-1.4042|-0.3594|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.3594|-1.4042|0.0011
92439935|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1614|||<|0.0001|TWO_SIDED|95.0|-2.9373|-1.3856|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-1.3856|-2.9373|<0.0001
92446789|NCT00280566|184780543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.1||0.0734|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0734
92446790|NCT00280566|184780543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.11||0.9166|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.9166
92239945|NCT00570739|184383783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32||||0.4506|TWO_SIDED|95.0|-2.12|4.75|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||4.75|-2.12|0.4506
92239946|NCT00570739|184383783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81||||0.2609|TWO_SIDED|95.0|-1.35|4.97|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||4.97|-1.35|0.2609
92239947|NCT00570739|184383784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.81|||<|0.0001|TWO_SIDED|95.0|-11.53|-6.08|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||-6.08|-11.53|<0.0001
92439936|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0336|||<|0.0001|TWO_SIDED|95.0|-3.8085|-2.2587|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.2587|-3.8085|<0.0001
92439937|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2791||||0.4804|TWO_SIDED|95.0|-1.0586|0.5004|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.5004|-1.0586|0.4804
92439938|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024||||0.9519|TWO_SIDED|95.0|-0.7608|0.8087|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.8087|-0.7608|0.9519
92439939|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.497||||0.2152|TWO_SIDED|95.0|-1.286|0.2921|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.2921|-1.2860|0.2152
92439940|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8824|||<|0.0001|TWO_SIDED|95.0|1.1094|2.6553|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.6553|1.1094|<0.0001
92439941|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1854|||<|0.0001|TWO_SIDED|95.0|1.407|2.9638|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.9638|1.4070|<0.0001
92439942|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6645|||<|0.0001|TWO_SIDED|95.0|0.8786|2.4503|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.4503|0.8786|<0.0001
92439943|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7545|||<|0.0001|TWO_SIDED|95.0|1.9912|3.5179|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.5179|1.9912|<0.0001
92439944|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0576|||<|0.0001|TWO_SIDED|95.0|2.2858|3.8294|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.8294|2.2858|<0.0001
92439945|NCT00975481|184765831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5366|||<|0.0001|TWO_SIDED|95.0|1.7578|3.3155|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.3155|1.7578|<0.0001
92439946|NCT01895855|184765832|SUPERIORITY|The lower, two sided 95% confidence bound on protective efficacy must be \>/= 30%.|Vaccine Efficacy|90.3|||||ONE_SIDED|95.1|62.7||||||Confidence intervals for the protective vaccine efficacy (PE) estimates were calculated using the method of Farrington and Manning (Farrington 1990).|35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.|||62.7|
92239948|NCT00570739|184383784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.94|||<|0.0001|TWO_SIDED|95.0|-10.23|-3.66|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||-3.66|-10.23|<0.0001
92439947|NCT01895855|184765833|SUPERIORITY|The lower, two sided 95% confidence bound on protective efficacy must be \>/= 30%.|Vaccine Efficacy|79.5|||||ONE_SIDED|95.1|49.9||||||Confidence intervals for the protective vaccine efficacy (PE) estimates were calculated using the method of Farrington and Manning (Farrington 1990).|33 participants were challenged 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.|||49.9|
92439948|NCT01895855|184765834|SUPERIORITY|||||||0.0073|||||||Wilcoxon (Mann-Whitney)|||35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||0.0073
92439949|NCT01895855|184765835|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||33 participants were challenge 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||<0.0001
92439950|NCT01895855|184765836|SUPERIORITY||Vaccine Efficacy|84.5|||||TWO_SIDED|95.0|67.0|100.0|||||Confidence interval for the protective vaccine efficacy (PE) estimates were calculated using the method of Farrington and Manning (Farrington 1990).|35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||100.0|67.0|
92439951|NCT01895855|184765837|SUPERIORITY||Vaccine Efficacy|50.8|||||TWO_SIDED|95.0|33.6|66.8|||||Confidence interval for protective vaccine efficacy (PE) estimates were calculated using the method of Farrington and Manning (Farrington 1990).|33 participants were challenged 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||66.8|33.6|
92439952|NCT01895855|184765838|SUPERIORITY|||||||0.0025|||||||Fisher Exact|||35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||0.0025
92439953|NCT01895855|184765839|SUPERIORITY|||||||0.0159|||||||Fisher Exact|||33 participants were challenged 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||0.0159
92439954|NCT01895855|184765840|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||<0.0001
92439955|NCT01895855|184765841|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||33 participants were challenged 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||<0.0001
92439956|NCT01895855|184765842|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||<0.0001
92439957|NCT01895855|184765843|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||33 participants were challenged 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||<0.0001
92439958|NCT03559257|184765845|SUPERIORITY||LSMean Difference|-3.12|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-3.92|-2.32|||Mixed Models Analysis|||||-2.32|-3.92|<0.0001
92439959|NCT03559257|184765846|SUPERIORITY||LSMean Difference|-2.57|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.41|-1.72|||Mixed Models Analysis|||||-1.72|-3.41|<0.0001
92439960|NCT03559257|184765847|SUPERIORITY||Odds Ratio (OR)|3.935|||<|0.0001|TWO_SIDED|95.0|2.719|5.693|||pseudo likelihood-based repeated measure|||||5.693|2.719|<0.0001
92439961|NCT03559257|184765848|SUPERIORITY||Odds Ratio (OR)|3.481|||<|0.0001|TWO_SIDED|95.0|2.252|5.381|||Pseudo likelihood-based repeated measure|||||5.381|2.252|<0.0001
92239949|NCT00570739|184383784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.09||||0.0001|TWO_SIDED|95.0|-9.14|-3.05|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||-3.05|-9.14|0.0001
92439962|NCT03559257|184765849|SUPERIORITY||LSMean Difference|12.53|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|9.19|15.87|||Mixed Models Analysis|||||15.87|9.19|<0.0001
92439963|NCT03559257|184765850|SUPERIORITY||LSMean Difference|11.51|STANDARD_ERROR_OF_MEAN|2.22|<|0.0001|TWO_SIDED|95.0|7.14|15.89|||Mixed Models Analysis|||||15.89|7.14|<0.0001
92439964|NCT03559257|184765851|SUPERIORITY||Odds Ratio (OR)|5.878||||0.0001|TWO_SIDED|95.0|2.374|14.554|||Pseudo likelihood-based repeated measure|||||14.554|2.374|0.0001
92439965|NCT03559257|184765852|SUPERIORITY||Odds Ratio (OR)|999.999|||<|0.0001|TWO_SIDED|95.0|548.706|999.999|||Pseudo likelihood-based repeated measure||Estimated value and upper bound are \>999.999|||999.999|548.706|<0.0001
92439966|NCT03559257|184765853|SUPERIORITY||Odds Ratio (OR)|5.012|||<|0.0001|TWO_SIDED|95.0|2.352|10.679|||pseudo likelihood-based repeated measure|||||10.679|2.352|<0.0001
92439967|NCT03559257|184765854|SUPERIORITY||Odds Ratio (OR)|999.99|||<|0.0001|TWO_SIDED|95.0|999.99|999.99|||Pseudo likelihood-based repeated measure||Point estimate, upper limit and lower limit are \>999.99|||999.99|999.99|<0.0001
92439968|NCT03559257|184765855|SUPERIORITY||LSMean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|95.0|-4.14|-2.65|||Mixed Models Analysis|||||-2.65|-4.14|<0.0001
92439969|NCT03559257|184765856|SUPERIORITY||LSMean Difference|-3.13|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-3.96|-2.29|||Mixed Models Analysis|||||-2.29|-3.96|<0.0001
92439970|NCT03559257|184765857|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92439971|NCT03559257|184765858|SUPERIORITY||LSMean Difference|-1.06|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-1.58|-0.54|||Mixed Models Analysis|||||-0.54|-1.58|<0.0001
92439972|NCT03559257|184765859|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Activity Impairment.||||<0.0001
92439973|NCT03559257|184765859|SUPERIORITY|||||||0.388|||||||ANCOVA|||Absenteeism.||||0.3880
92439974|NCT03559257|184765859|SUPERIORITY|||||||0.0004|||||||ANCOVA|||Presenteeism.||||0.0004
92439975|NCT03559257|184765859|SUPERIORITY|||||||0.0003|||||||ANCOVA|||Work impairment.||||0.0003
92439976|NCT03559257|184765860|SUPERIORITY|||||||0.0003|||||||ANCOVA|||||||0.0003
92439977|NCT03559257|184765861|SUPERIORITY|||||||0.1267|||||||ANCOVA|||||||0.1267
92439978|NCT03559257|184765862|SUPERIORITY|||||||0.163|||||||ANCOVA|||||||0.1630
92439979|NCT03559257|184765863|SUPERIORITY|||||||0.0277|||||||ANCOVA|||||||0.0277
92439980|NCT01519960|184765873|OTHER||Odds Ratio (OR)|5.43|||=|0.0043|TWO_SIDED|95.0|1.54|19.2|||Cochran-Mantel-Haenszel|||Analysis stratified by hepatitis B virus (HBV) genotype A versus non-A genotypes and alanine aminotransferase (ALT) less than (\<) 5 times (×) upper limit of normal (ULN) versus greater than or equal to (≥) 5 × ULN at Baseline. The OR was calculated using Group B as reference.||19.2|1.54|= 0.0043
92439981|NCT01519960|184765873|OTHER||||||=|0.3732|||||||Breslow-Day|||||||= 0.3732
92439982|NCT01387347|184765946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.2596|||||||t-test, 2 sided|||Inferior corneal fluorescein staining score at Day 29(primary sign) was summarized using descriptive statistics (number of observations, mean, standard deviation, median, minimum, and maximum). Active treatment was compared to placebo using a two-sample t-test assuming unequal variances, assessed at the α = 0.05 level||||0.2596
92439983|NCT01387347|184765946|SUPERIORITY_OR_OTHER|||||||0.0075|TWO_SIDED||||||t-test, 2 sided|||Comparison of central corneal fluorescein staining score between the placebo and Thymosin beta 4 groups||||0.0075
92439984|NCT01387347|184765946|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||t-test, 2 sided|||Comparison of superior corneal fluorescein staining score between the placebo and Thymosin beta 4 groups||||0.0210
92439985|NCT01387347|184765947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.3734|TWO_SIDED||||||t-test, 2 sided|||Comparison between the groups uses a two-sample t-test assuming unequal variances, assessed at the alpha = 0.05 level.||||0.3734
92439986|NCT01387347|184765947|SUPERIORITY_OR_OTHER|||||||0.0244|TWO_SIDED||||||t-test, 2 sided|||Comparison of discomfort score between the placebo and Thymosin beta 4 groups on Day 28||||0.0244
92439987|NCT03194555|184765960|SUPERIORITY||Risk Difference (RD)|-2.17||||0.4267|TWO_SIDED|95.0|-3.67|8.01|||Chi-squared|||||8.01|-3.67|0.4267
92439988|NCT03194555|184765961|SUPERIORITY||Risk Difference (RD)|2.0||||0.268|TWO_SIDED|95.0|-18.46|66.83|||Chi-squared|||||66.83|-18.46|0.268
92439989|NCT03194555|184765962|SUPERIORITY||Risk Difference (RD)|3.0||||0.0926|TWO_SIDED|95.0|-17.2|67.4|||Chi-squared|||||67.4|-17.2|0.0926
92439990|NCT03194555|184765963|SUPERIORITY||Risk Difference (RD)|2.0||||0.2894|TWO_SIDED|95.0|-17.2|67.4|||Chi-squared|||||67.4|-17.2|0.2894
92439991|NCT03194555|184765964|SUPERIORITY||Risk Difference (RD)|-1.83||||0.5724|TWO_SIDED|95.0|-5.1557|8.8157|||Chi-squared|||||8.8157|-5.1557|0.5724
92439992|NCT03194555|184765965|SUPERIORITY||Risk Difference (RD)|-9.84||||0.2998|TWO_SIDED|95.0|-11.15|30.83|||Chi-squared|||||30.83|-11.15|0.2998
92439993|NCT03194555|184765966|SUPERIORITY||Risk Difference (RD)|-11.67||||0.2673|TWO_SIDED||||||Chi-squared|||||||0.2673
92439994|NCT03194555|184765969|SUPERIORITY||Risk Difference (RD)|28.76||||0.3527|TWO_SIDED|95.0|-94.5005|36.9805|||Chi-squared|||||36.9805|-94.5005|0.3527
92439995|NCT03194555|184765970|SUPERIORITY||Risk Difference (RD)|-1.95||||0.5246|TWO_SIDED||||||Chi-squared|||||||0.5246
92239950|NCT00570739|184383785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.05||||0.0171|TWO_SIDED|95.0|-0.33|13.99||The P-Value was from the non-parametric ANCOVA stratified by country.|ANCOVA|The median difference was calculated using Hodges-Lehmann point estimate and corresponding 95% CI was constructed using the method of Moses.||Baseline to 8 weeks||13.99|-0.33|0.0171
92439996|NCT03194555|184765972|SUPERIORITY||Risk Difference (RD)|0.34||||0.8649|TWO_SIDED||||||Chi-squared|||||||0.8649
92439997|NCT01831154|184765973|SUPERIORITY_OR_OTHER|||||||0.512|||||||Chi-squared|Chi-squared value of 1.34 and Cramer's V .190||Cross tabulation with statistical testing with chi-square and Cramer's V was performed on infection to determine if there was any difference in surgical site infections between the interventional groups in 30 day period.||||0.512
92439998|NCT01831154|184765974|SUPERIORITY_OR_OTHER|||||||0.024|||||||ANOVA|||||||0.024
92439999|NCT01831154|184765976|SUPERIORITY_OR_OTHER|||||||0.132|||||||ANOVA|||||||0.132
92440000|NCT01831154|184765977|SUPERIORITY_OR_OTHER|||||||0.908||||||A one way ANOVA was used to determine if participants in the tight glycemic group had shorter intensive care unit (ICU) length of stay (LOS) than participants in the other interventional groups.|ANOVA|||||||0.908
92440001|NCT03255382|184765984|OTHER||Adjusted percentage difference|73.3|||<|0.001|TWO_SIDED|95.0|61.3|85.3|||Cochran-Mantel-Haenszel|||P-value was calculated from the Cochran-Mantel-Haenszel (CMH) test adjusted for strata (prior phototherapy \[yes/no\]).||85.3|61.3|< 0.001
92440002|NCT03255382|184765985|OTHER||Adjusted percentage difference|46.8|||<|0.001|TWO_SIDED|95.0|32.8|60.8|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||60.8|32.8|< 0.001
92440003|NCT03255382|184765986|OTHER||Adjusted percentage difference|63.4|||<|0.001|TWO_SIDED|95.0|50.2|76.6|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||76.6|50.2|< 0.001
92440004|NCT03255382|184765987|OTHER||Adjusted percentage difference|53.1|||<|0.001|TWO_SIDED|95.0|40.4|65.7|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||65.7|40.4|< 0.001
92440005|NCT03255382|184765988|OTHER||Adjusted percentage difference|39.6|||<|0.001|TWO_SIDED|95.0|27.3|51.9|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||51.9|27.3|< 0.001
92440006|NCT03255382|184765989|OTHER||Adjusted percentage difference|36.3|||<|0.001|TWO_SIDED|95.0|24.1|48.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||48.5|24.1|< 0.001
92440007|NCT03255382|184765990|OTHER||Adjusted percentage difference|46.4|||<|0.001|TWO_SIDED|95.0|33.7|59.0|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||59.0|33.7|< 0.001
92440008|NCT03255382|184765991|OTHER||Adjusted percentage difference|9.9||||0.047|TWO_SIDED|95.0|0.1|19.7|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||19.7|0.1|0.047
92440009|NCT03255382|184765992|OTHER||Adjusted percentage difference|66.6|||<|0.001|TWO_SIDED|95.0|53.8|79.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||79.5|53.8|< 0.001
92440010|NCT03255382|184765993|OTHER||Adjusted percentage difference|66.6|||<|0.001|TWO_SIDED|95.0|53.3|79.9|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||79.9|53.3|< 0.001
92440011|NCT03255382|184765994|OTHER||Adjusted percentage difference|66.6|||<|0.001|TWO_SIDED|95.0|53.8|79.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||79.5|53.8|< 0.001
92280030|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.469||||0.0034|TWO_SIDED|95.0|-0.781|-0.157||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.157|-0.781|0.0034
92280031|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.093||||0.5346|TWO_SIDED|95.0|-0.388|0.202||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.202|-0.388|0.5346
92440012|NCT03255382|184765995|OTHER||Adjusted percentage difference|56.5|||<|0.001|TWO_SIDED|95.0|43.0|70.0|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||70.0|43.0|< 0.001
92440013|NCT03255382|184765996|OTHER||Adjusted percentage difference|64.8|||<|0.001|TWO_SIDED|95.0|52.5|77.2|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||77.2|52.5|< 0.001
92440014|NCT03255382|184765997|OTHER||Adjusted percentage difference|1.7||||0.392|TWO_SIDED|95.0|-2.1|5.4|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||5.4|-2.1|0.392
92440015|NCT03255382|184765998|OTHER||Adjusted percentage difference|36.6|||<|0.001|TWO_SIDED|95.0|23.8|49.3|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||49.3|23.8|< 0.001
92440016|NCT03255382|184765999|OTHER||Adjusted percentage difference|56.6|||<|0.001|TWO_SIDED|95.0|43.2|70.0|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||70.0|43.2|< 0.001
92440017|NCT03255382|184766000|OTHER||Adjusted percentage difference|64.9|||<|0.001|TWO_SIDED|95.0|51.5|78.3|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||78.3|51.5|< 0.001
92440018|NCT03255382|184766001|OTHER||Adjusted percentage difference|66.6|||<|0.001|TWO_SIDED|95.0|53.3|79.8|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||79.8|53.3|< 0.001
92440019|NCT03255382|184766002|OTHER||Adjusted percentage difference|0.0||||0.991|TWO_SIDED|95.0|-2.0|2.1|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||2.1|-2.0|0.991
92440020|NCT03255382|184766003|OTHER||Adjusted percentage difference|3.3||||0.323|TWO_SIDED|95.0|-3.2|9.8|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||9.8|-3.2|0.323
92440021|NCT03255382|184766004|OTHER||Adjusted percentage difference|21.5|||<|0.001|TWO_SIDED|95.0|10.4|32.6|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||32.6|10.4|< 0.001
92440022|NCT03255382|184766005|OTHER||Adjusted percentage difference|33.1|||<|0.001|TWO_SIDED|95.0|20.7|45.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||45.5|20.7|< 0.001
92440023|NCT03255382|184766006|OTHER||Adjusted percentage difference|41.3|||<|0.001|TWO_SIDED|95.0|27.3|55.3|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||55.3|27.3|< 0.001
92440024|NCT03255382|184766007|OTHER||Adjusted percentage difference|44.7|||<|0.001|TWO_SIDED|95.0|30.9|58.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||58.5|30.9|< 0.001
92440025|NCT03255382|184766008|OTHER||Least Squares Mean Difference|-7.19|STANDARD_ERROR_OF_MEAN|0.825|<|0.001|TWO_SIDED|95.0|-8.82|-5.56|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and the treatment in this model.||-5.56|-8.82|< 0.001
92440026|NCT03255382|184766009|OTHER||Least Squares Mean Difference|-9.58|STANDARD_ERROR_OF_MEAN|0.936|<|0.001|TWO_SIDED|95.0|-11.43|-7.72|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-7.72|-11.43|< 0.001
92440027|NCT03255382|184766010|OTHER||Least Squares Mean Difference|-8.8|STANDARD_ERROR_OF_MEAN|0.972|<|0.001|TWO_SIDED|95.0|-10.72|-6.87|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-6.87|-10.72|< 0.001
92440028|NCT03255382|184766011|OTHER||Least Squares Mean Difference|-7.78|STANDARD_ERROR_OF_MEAN|0.958|<|0.001|TWO_SIDED|95.0|-9.68|-5.88|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-5.88|-9.68|< 0.001
92440029|NCT03255382|184766012|OTHER||Least Squares Mean Difference|-7.89|STANDARD_ERROR_OF_MEAN|1.101|<|0.001|TWO_SIDED|95.0|-10.07|-5.71|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-5.71|-10.07|< 0.001
92440030|NCT03255382|184766013|OTHER||Least Squares Mean Difference|-8.39|STANDARD_ERROR_OF_MEAN|1.175|<|0.001|TWO_SIDED|95.0|-10.71|-6.06|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-6.06|-10.71|< 0.001
92440031|NCT03255382|184766014|OTHER||Adjusted percentage difference|29.7|||<|0.001|TWO_SIDED|95.0|17.1|42.4|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||42.4|17.1|< 0.001
92440032|NCT03255382|184766015|OTHER||Adjusted percentage difference|66.7|||<|0.001|TWO_SIDED|95.0|53.4|80.0|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||80.0|53.4|< 0.001
92440033|NCT03255382|184766016|OTHER||Adjusted percentage difference|56.8|||<|0.001|TWO_SIDED|95.0|42.7|70.8|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||70.8|42.7|< 0.001
92440034|NCT03255382|184766017|OTHER||Adjusted percentage difference|59.9|||<|0.001|TWO_SIDED|95.0|46.3|73.6|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||73.6|46.3|< 0.001
92440035|NCT03255382|184766018|OTHER||Adjusted percentage difference|44.9|||<|0.001|TWO_SIDED|95.0|30.8|59.1|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||59.1|30.8|< 0.001
92440036|NCT03255382|184766019|OTHER||Adjusted percentage difference|55.0|||<|0.001|TWO_SIDED|95.0|41.2|68.8|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||68.8|41.2|< 0.001
92440037|NCT03255382|184766020|OTHER||Adjusted percentage difference|1.7||||0.392|TWO_SIDED|95.0|-2.1|5.4|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||5.4|-2.1|0.392
92440038|NCT03255382|184766021|OTHER||Adjusted percentage difference|8.4||||0.048|TWO_SIDED|95.0|0.1|16.7|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||16.7|0.1|0.048
92440039|NCT03255382|184766022|OTHER||Adjusted percentage difference|18.3||||0.001|TWO_SIDED|95.0|7.1|29.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||29.5|7.1|0.001
92440040|NCT03255382|184766023|OTHER||Adjusted percentage difference|33.0|||<|0.001|TWO_SIDED|95.0|20.2|45.9|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||45.9|20.2|< 0.001
92440041|NCT03255382|184766024|OTHER||Adjusted percentage difference|41.3|||<|0.001|TWO_SIDED|95.0|27.3|55.3|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||55.3|27.3|< 0.001
92440042|NCT03255382|184766025|OTHER||Adjusted percentage difference|46.4|||<|0.001|TWO_SIDED|95.0|32.6|60.1|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||60.1|32.6|< 0.001
92440043|NCT03255382|184766026|OTHER||Adjusted percentage difference|19.8||||0.001|TWO_SIDED|95.0|7.6|31.9|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||31.9|7.6|0.001
92440044|NCT03255382|184766027|OTHER||Adjusted percentage difference|38.3|||<|0.001|TWO_SIDED|95.0|25.0|51.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||51.5|25.0|< 0.001
92440045|NCT03255382|184766028|OTHER||Least Squares Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|-4.5|-2.0|||van Elteren test|||P-values were calculated by stratified van Elteren test.||-2.0|-4.5|< 0.001
92440046|NCT03255382|184766029|OTHER||Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|-5.1|-2.7|||van Elteren test|||P-values were calculated by stratified van Elteren test.||-2.7|-5.1|< 0.001
92440047|NCT03255382|184766030|OTHER||Least Squares Mean Difference|1.146|||<|0.001|TWO_SIDED|95.0|0.764|1.528|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||1.528|0.764|< 0.001
92440048|NCT03255382|184766031|OTHER||Least Squares Mean Difference|1.32|||<|0.001|TWO_SIDED|95.0|0.936|1.704|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||1.704|0.936|< 0.001
92440049|NCT03255382|184766032|OTHER||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|-3.6|-1.1|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-1.1|-3.6|< 0.001
92440050|NCT03255382|184766033|OTHER||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.66|<|0.001|TWO_SIDED|95.0|-4.3|-1.6|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-1.6|-4.3|< 0.001
92440051|NCT03255382|184766034|OTHER||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.307||0.352|TWO_SIDED|95.0|-0.9|0.32|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||0.32|-0.90|0.352
92440052|NCT03255382|184766035|OTHER||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.296||0.315|TWO_SIDED|95.0|-0.88|0.29|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||0.29|-0.88|0.315
92171299|NCT05321069|184231771|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.2068|TWO_SIDED|95.0|0.64|1.1|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.10|0.64|0.2068
92440053|NCT03255382|184766036|OTHER||Least Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|1.06|<|0.001|TWO_SIDED|95.0|-6.9|-2.7|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-2.7|-6.9|< 0.001
92440054|NCT03255382|184766037|OTHER||Least Squares Mean Difference|-9.3|STANDARD_ERROR_OF_MEAN|1.64|<|0.001|TWO_SIDED|95.0|-12.6|-6.1|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-6.1|-12.6|< 0.001
92440055|NCT03255382|184766038|OTHER||Least Squares Mean Difference|-10.2|STANDARD_ERROR_OF_MEAN|1.51|<|0.001|TWO_SIDED|95.0|-13.2|-7.2|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-7.2|-13.2|< 0.001
92440056|NCT03255382|184766039|OTHER||Least Squares Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|1.51|<|0.001|TWO_SIDED|95.0|-12.8|-6.8|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-6.8|-12.8|< 0.001
92440057|NCT03255382|184766040|OTHER||Least Squares Mean Difference|-9.6|STANDARD_ERROR_OF_MEAN|1.39|<|0.001|TWO_SIDED|95.0|-12.4|-6.8|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-6.8|-12.4|< 0.001
92440058|NCT03255382|184766041|OTHER||Least Squares Mean Difference|-10.0|STANDARD_ERROR_OF_MEAN|1.47|<|0.001|TWO_SIDED|95.0|-12.9|-7.1|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-7.1|-12.9|< 0.001
92440059|NCT03255382|184766042|OTHER||Least Squares Mean Difference|4.49|STANDARD_ERROR_OF_MEAN|1.385||0.002|TWO_SIDED|95.0|1.74|7.23|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||7.23|1.74|0.002
92440060|NCT03255382|184766043|OTHER||Least Squares Mean Difference|4.63|STANDARD_ERROR_OF_MEAN|1.322|<|0.001|TWO_SIDED|95.0|2.01|7.25|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||7.25|2.01|< 0.001
92440061|NCT03255382|184766044|OTHER||Least Squares Mean Difference|6.66|STANDARD_ERROR_OF_MEAN|1.787|<|0.001|TWO_SIDED|95.0|3.11|10.2|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||10.20|3.11|< 0.001
92440062|NCT03255382|184766045|OTHER||Least Squares Mean Difference|7.85|STANDARD_ERROR_OF_MEAN|1.784|<|0.001|TWO_SIDED|95.0|4.31|11.38|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||11.38|4.31|< 0.001
92440063|NCT03255382|184766046|OTHER||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.2|-0.7|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-0.7|-1.2|< 0.001
92440064|NCT03255382|184766047|OTHER||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.3|-0.8|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-0.8|-1.3|< 0.001
92440065|NCT03255382|184766048|OTHER||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|-3.2|-0.9|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-0.9|-3.2|< 0.001
92440066|NCT03255382|184766049|OTHER||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|-3.5|-1.1|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-1.1|-3.5|< 0.001
92440067|NCT03255382|184766050|OTHER||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|-4.3|-1.9|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-1.9|-4.3|< 0.001
92440068|NCT03255382|184766051|OTHER||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|-4.4|-1.8|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-1.8|-4.4|< 0.001
92440069|NCT03255382|184766052|OTHER||Adjusted percentage difference|38.3|||<|0.001|TWO_SIDED|95.0|23.6|53.1|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||53.1|23.6|< 0.001
92440070|NCT03255382|184766053|OTHER||Adjusted percentage difference|56.8|||<|0.001|TWO_SIDED|95.0|42.7|70.9|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||70.9|42.7|< 0.001
92440071|NCT03255382|184766054|OTHER||Least Squares Mean Difference|-7.4|STANDARD_ERROR_OF_MEAN|1.15|<|0.001|TWO_SIDED|95.0|-9.6|-5.1|||ANCOVA|||P-values were calculated using ANCOVA with prior phototherapy (yes/no), baseline value, and treatment in the model.||-5.1|-9.6|< 0.001
92440072|NCT03255382|184766055|OTHER||Least Squares Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|1.06|<|0.001|TWO_SIDED|95.0|-9.7|-5.5|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-5.5|-9.7|< 0.001
92440073|NCT03255382|184766056|OTHER||Least Squares Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|1.23|<|0.001|TWO_SIDED|95.0|-9.0|-4.1|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-4.1|-9.0|< 0.001
92440074|NCT03255382|184766057|OTHER||Least Squares Mean Difference|-8.1|STANDARD_ERROR_OF_MEAN|1.53|<|0.001|TWO_SIDED|95.0|-11.1|-5.0|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-5.0|-11.1|< 0.001
92440075|NCT03255382|184766058|OTHER||Least Squares Mean Difference|0.087|STANDARD_ERROR_OF_MEAN|0.0215|<|0.001|TWO_SIDED|95.0|0.045|0.13|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||0.130|0.045|< 0.001
92440076|NCT03255382|184766059|OTHER||Least Squares Mean Difference|0.059|STANDARD_ERROR_OF_MEAN|0.0186||0.002|TWO_SIDED|95.0|0.022|0.096|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||0.096|0.022|0.002
92440077|NCT03255382|184766060|OTHER||Least Squares Mean Difference|14.9|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|9.4|20.5|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||20.5|9.4|< 0.001
92440078|NCT03255382|184766061|OTHER||Least Squares Mean Difference|16.8|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|11.4|22.2|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||22.2|11.4|< 0.001
92440079|NCT03255382|184766062|OTHER||Least Squares Mean Difference|-11.4|STANDARD_ERROR_OF_MEAN|2.64|<|0.001|TWO_SIDED|95.0|-16.6|-6.2|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and the treatment in this model.||-6.2|-16.6|< 0.001
92440080|NCT03255382|184766063|OTHER||Least Squares Mean Difference|-13.7|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-19.1|-8.4|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and the treatment in this model.||-8.4|-19.1|< 0.001
92440081|NCT03255382|184766064|OTHER||Least Squares Mean Difference|-17.3|STANDARD_ERROR_OF_MEAN|3.75|<|0.001|TWO_SIDED|95.0|-24.8|-9.8|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and the treatment in this model.||-9.8|-24.8|< 0.001
92440082|NCT03255382|184766065|OTHER||Least Squares Mean Difference|-21.5|STANDARD_ERROR_OF_MEAN|3.66|<|0.001|TWO_SIDED|95.0|-28.8|-14.2|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and the treatment in this model.||-14.2|-28.8|< 0.001
92440083|NCT00735787|184766066|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Fisher Exact|||The primary null hypothesis for this study was that there was no difference in the proportion of subjects that achieved PGA clear or almost clear at Week 16 between the adalimumab and placebo groups. Analysis was done using a two-sided Fisher's exact test at alpha level=0.05.||||0.014
92440084|NCT00624052|184766086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||||95.0|0.47|1.66|||Cochran-Mantel-Haenszel|||||1.66|0.47|
92440085|NCT00624052|184766086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.28||||||95.0|0.14|0.59|||Cochran-Mantel-Haenszel|||||0.59|0.14|
92440086|NCT00624052|184766086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.24||||||95.0|0.12|0.48|||Cochran-Mantel-Haenszel|||||0.48|0.12|
92440087|NCT00624052|184766086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||||95.0|0.17|0.59|||Cochran-Mantel-Haenszel|||||0.59|0.17|
92440088|NCT00624052|184766086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||||95.0|0.15|0.49|||Cochran-Mantel-Haenszel|||||0.49|0.15|
92440089|NCT00624052|184766086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||||95.0|0.42|1.68|||Cochran-Mantel-Haenszel|||||1.68|0.42|
92171300|NCT05321069|184231772|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9251|TWO_SIDED|95.0|0.69|1.41|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.41|0.69|0.9251
92440090|NCT03479307|184766139|SUPERIORITY||Mean Difference (Final Values)|-0.71|||<|0.0001|TWO_SIDED|95.0|-1.013|-0.407|||ANCOVA|||Treatment Difference (95% CI): Bilastine Ophthalmic Solution 0.6% arm minus Vehicle of Bilastine Ophthalmic Solution arm at Visit 4b (including all time points).||-0.407|-1.013|< 0.0001
92440091|NCT03479307|184766139|SUPERIORITY||Mean Difference (Final Values)|-1.167|||<|0.0001|TWO_SIDED|95.0|-1.439|-0.895|||ANCOVA|||Treatment Difference (95% CI): Bilastine Ophthalmic Solution 0.6% arm minus Vehicle of Bilastine Ophthalmic Solution arm at Visit 5 (including all time points).||-0.895|-1.439|< 0.0001
92440092|NCT03479307|184766139|SUPERIORITY||Mean Difference (Final Values)|-1.14|||<|0.0001|TWO_SIDED|95.0|-1.413|-0.868|||ANCOVA|||Treatment Difference (95% CI): Ketotifen Ophthalmic Solution 0.025% (Zaditen) arm minus Vehicle of Bilastine Ophthalmic Solution arm at Visit 5 (including all time points).||-0.868|-1.413|< 0.0001
92440093|NCT03479307|184766139|NON_INFERIORITY|Non-inferiority margin of 0.40|Mean Difference (Final Values)|0.009||||0.0007|ONE_SIDED|97.5||0.235|||ANCOVA|||Treatment Difference (one-sided, 97.5% CI): Bilastine Ophthalmic Solution 0.6% arm minus Ketotiphen Ophthalmic Solution 0.025% (Zaditen) arm at Visit 5, 3 minutes Post-CAC (non-inferiority test).||0.235||0.0007
92440094|NCT03479307|184766139|NON_INFERIORITY|Non-inferiority margin of 0.40|Mean Difference (Final Values)|-0.077||||0.0002|ONE_SIDED|97.5||0.175|||ANCOVA|||Treatment Difference (one-sided, 97.5% CI): Bilastine Ophthalmic Solution 0.6% arm minus Ketotiphen Ophthalmic Solution 0.025% (Zaditen) arm at Visit 5, 5 minutes Post-CAC (non-inferiority test).||0.175||0.0002
92440095|NCT03479307|184766139|NON_INFERIORITY|Non-inferiority margin of 0.40|Mean Difference (Final Values)|-0.159|||<|0.0001|ONE_SIDED|97.5||0.101|||ANCOVA|||Treatment Difference (one-sided, 97.5% CI): Bilastine Ophthalmic Solution 0.6% arm minus Ketotiphen Ophthalmic Solution 0.025% (Zaditen) arm at Visit 5, 7 minutes Post-CAC (non-inferiority test).||0.101||< 0.0001
92440096|NCT02467465|184766141|SUPERIORITY|||||||0.175|||||||Wilcoxon (Mann-Whitney)|||||||0.175
92440097|NCT02467465|184766142|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.250
92440098|NCT02467465|184766143|SUPERIORITY|||||||0.466|||||||Wilcoxon (Mann-Whitney)|||||||0.466
92440099|NCT02467465|184766145|SUPERIORITY|||||||0.737|||||||Wilcoxon (Mann-Whitney)|||||||0.737
92440100|NCT02467465|184766146|SUPERIORITY|||||||0.275|||||||Wilcoxon (Mann-Whitney)|||||||0.275
92440101|NCT02467465|184766147|SUPERIORITY|||||||0.066|||||||Wilcoxon (Mann-Whitney)|||||||0.066
92440102|NCT02467465|184766149|SUPERIORITY|||||||0.849|||||||Wilcoxon (Mann-Whitney)|||||||0.849
92440103|NCT02467465|184766150|SUPERIORITY|||||||0.425|||||||Wilcoxon (Mann-Whitney)|||||||0.425
92440104|NCT02467465|184766151|SUPERIORITY|||||||0.487|||||||Wilcoxon (Mann-Whitney)|||||||0.487
92440105|NCT02467465|184766153|SUPERIORITY|||||||0.651|||||||t-test, 1 sided|||||||0.651
92440106|NCT02467465|184766154|SUPERIORITY|||||||0.387|||||||t-test, 1 sided|||||||0.387
92440107|NCT02467465|184766155|SUPERIORITY|||||||0.755|||||||t-test, 1 sided|||||||0.755
92440108|NCT02467465|184766157|SUPERIORITY|||||||0.032|||||||t-test, 1 sided|||||||0.032
92440109|NCT02467465|184766158|SUPERIORITY|||||||0.058|||||||t-test, 1 sided|||||||0.058
92440110|NCT02467465|184766159|SUPERIORITY|||||||0.279|||||||t-test, 1 sided|||||||0.279
92440111|NCT01499563|184766160|SUPERIORITY||Least Squares Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|2.4||0.017|TWO_SIDED|95.0|-11.1|-0.4|||Mixed Effects model for Repeated Measure||95% CI for LS Mean difference are with Bonferroni correction|The study was powered for prespecified comparison of both doses of ITI-007 with placebo using a Bonferroni correction for multiple comparisons. The study was not statistically powered to include multiple comparisons of risperidone to placebo and thus, this comparison is not presented here.||-0.4|-11.1|0.017
92440112|NCT01499563|184766160|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|2.4||0.708|TWO_SIDED|95.0|-6.3|4.5|||Mixed Effects Model for Repeated Measure||95% CI for LS Mean difference are with Bonferroni correction|The study was powered for prespecified comparison of both doses of ITI-007 with placebo using a Bonferroni correction for multiple comparisons. The study was not statistically powered to include multiple comparisons of risperidone to placebo and thus, this comparison is not presented here.||4.5|-6.3|0.708
92440113|NCT03658538|184766164|SUPERIORITY||Mean Difference (Final Values)|-4.4||||0.025|TWO_SIDED|95.0|-8.2|-0.5||P-value corresponds to the statistical significance of the group difference (active vs. control) in the primary outcome, and was not adjusted for the multiple comparison and based on the a priori threshold for statistical significance (P\<0.05).|Generalized Linear Mixed Model (GLMM)|The analysis was adjusted for covariates.||||-0.5|-8.2|0.025
92440114|NCT03658538|184766165|SUPERIORITY|||||||0.061||||||P-value corresponds to the statistical significance of the group difference (active vs. control) in the primary outcome, and was not adjusted for the multiple comparison and based on the a priori threshold for statistical significance (P\<0.05).|Generalized Linear Mixed Model (GLMM)|The analysis was adjusted for covariates.||||||0.061
92440115|NCT00319644|184766174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0||||0.26||95.0|||||Chi-squared|||The chi-square test(or Fisher exact test where needed) was used to compare proportions with dichotomous variables. The Student-t test was used for quantitative variables woth normal distribution, and Mann-Whitney-U test was used for data not normally distributed.||||0.26
92440116|NCT00597012|184766176|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.4||||0.26|TWO_SIDED|95.0|-1.8|6.5|||ANCOVA|||"The primary analysis was implemented with an analysis of covariance with changes in the WOMAC physical-function score from baseline to 6 months as the dependent variable, treatment as the independent variable of interest, and study site as a covariate.~The primary analysis used a modified intention-to-treat approach in which patients who did not withdraw from the study were evaluated in the group to which they were randomly assigned."||6.5|-1.8|0.26
92440117|NCT00597012|184766177|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.9||||0.16|TWO_SIDED|95.0|-1.2|7.0|||ANCOVA|||||7.0|-1.2|0.16
92440118|NCT00597012|184766178|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.1||||0.68|TWO_SIDED|95.0|-4.4|6.6|||ANCOVA|||||6.6|-4.4|0.68
92440119|NCT03992781|184766197|SUPERIORITY||Relative change|-53.1|||<|0.001|||||||t-test|||Relative change in CUDOS score between Visit 3 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
92440120|NCT03992781|184766198|SUPERIORITY||Relative change|-35.4|||<|0.001|||||||t-test|||Relative change in CUDOS score between Visit 2 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
92440121|NCT03992781|184766199|SUPERIORITY||Relative change|-33.2|||<|0.001|||||||t-test|||Relative change in CUXOS score between Visit 2 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
92440122|NCT03992781|184766199|SUPERIORITY||Relative change|-47.1|||<|0.001|||||||t-test|||Relative change in CUXOS score between Visit 3 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
92440123|NCT03992781|184766200|SUPERIORITY||Relative change|-27.6|||<|0.001|||||||t-test|||Relative change in JSEQ score between Visit 2 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
92440124|NCT03992781|184766200|SUPERIORITY||Relative change|-34.5|||<|0.001|||||||t-test|||Relative change in JSEQ score between Visit 3 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
92440125|NCT03992781|184766201|SUPERIORITY||Relative change|-43.4|||<|0.001|||||||t-test|||Relative change in VAS score between Visit 2 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
92440126|NCT03992781|184766201|SUPERIORITY||Relative change|-35.4|||<|0.001|||||||t-test|||Relative change in VAS score between Visit 3 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
92446791|NCT00280566|184780543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.2791|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.2791
92171301|NCT05321069|184231772|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.4988|TWO_SIDED|95.0|0.62|1.26|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.26|0.62|0.4988
92440127|NCT01996826|184766209|OTHER|Based on prior studies endothelial rejection episodes tend to occur in the range of about 60% of transplants. We used rates ranging from 50 to 70 % to compute the sample size. We specified the probability of a type 1 error equal to 0.05, study power equal to 80%, a follow-up period of 12 months, and 4% loss to follow-up. Calculations resulted in sample size estimates of between 65 and 124 participants.|Hazard Ratio (HR)|0.35||||0.1|TWO_SIDED|95.0|0.12|1.14|||Log Rank|||Endothelial rejection rates in patients in the treatment group and the control group were calculated using the Kaplan-Meier survival curve. The Kaplan-Meier/product limit estimator is a non-parametric statistical test used to show the probability of an event occurring at a given time interval. The Kaplan-Meier estimator is used to show what the probability of corneal transplant rejection (and therefore transplant survival) after administration of the active treatment or control.||1.14|0.12|0.10
92440128|NCT01996826|184766210|OTHER|The count of ocular adverse events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.|Risk Ratio (RR)|0.92||||0.36|TWO_SIDED|95.0|0.78|1.06|||Fisher Exact|||The incidence of Ocular Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||1.06|0.78|0.36
92440129|NCT01996826|184766210|OTHER|Mild ocular adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|0.95||||0.82|TWO_SIDED|95.0|0.63|1.4|||Fisher Exact|||The number of mild severity Ocular Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||1.4|0.63|0.82
92440130|NCT01996826|184766210|OTHER|Moderate severity ocular adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|0.95|||>|0.99|TWO_SIDED|95.0|0.41|2.2|||Fisher Exact|||The number of moderate severity Ocular Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||2.2|0.41|>0.99
92440131|NCT01996826|184766210|OTHER|Severe ocular adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|0.63||||0.51|TWO_SIDED|95.0|0.2|1.9|||Fisher Exact|||Severe ocular adverse events for subjects in intervention group and control group were counted and compared.||1.9|0.20|0.51
92440132|NCT01996826|184766211|OTHER|The incidence of Systematic Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were calculated and compared.|Risk Ratio (RR)|0.92||||0.24|TWO_SIDED|95.0|0.79|1.02|||Fisher Exact|||||1.02|0.79|0.24
92440133|NCT01996826|184766211|OTHER|Mild severity systemic adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|1.62||||0.4|TWO_SIDED|95.0|0.68|3.9|||Fisher Exact|||The number of mild systemic Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||3.9|0.68|0.40
92440134|NCT01996826|184766211|OTHER|Moderate severity systemic adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|1.95|||>|0.99|TWO_SIDED|95.0|0.26|14.5|||Fisher Exact|||The number of moderate severity systemic Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||14.5|0.26|>0.99
92440135|NCT01996826|184766211|OTHER|Severe systemic adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|1.9|||>|0.99|TWO_SIDED|95.0|0.26|14.5|||Fisher Exact|||The number of severe systemic Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||14.5|0.26|>0.99
92440136|NCT00518323|184766221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|3.17||0.508||95.0|-8.36|4.16||The p value was associated with the closed testing procedure using Dunnett's test.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.|The 95% confidence intervals were unadjusted for multiplicity.|If there were approximately 49 subjects per treatment group who had Week 6 (LOCF or end point) PANSS total measurements, the study was expected to have approximately 80% power to detect a clinically relevant difference of 13.2 points between any paliperidone ER group compared with placebo for the primary outcome measure.||4.16|-8.36|0.508
92440137|NCT00518323|184766221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.1|STANDARD_ERROR_OF_MEAN|3.27||0.006||95.0|-16.58|-3.67||The p value was associated with the closed testing procedure using Dunnett's test.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.|The 95% confidence intervals were unadjusted for multiplicity.|If there were approximately 49 subjects per treatment group who had Week 6 (LOCF or end point) PANSS total measurements, the study was expected to have approximately 80% power to detect a clinically relevant difference of 13.2 points between any paliperidone ER group compared with placebo for the primary outcome measure.||-3.67|-16.58|0.006
92440138|NCT00518323|184766221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6|STANDARD_ERROR_OF_MEAN|3.29||0.086||95.0|-13.07|-0.09||The p value was associated with the closed testing procedure using Dunnett's test.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.|The 95% confidence intervals were unadjusted for multiplicity.|If there were approximately 49 subjects per treatment group who had Week 6 (LOCF or end point) PANSS total measurements, the study was expected to have approximately 80% power to detect a clinically relevant difference of 13.2 points between any paliperidone ER group compared with placebo for the primary outcome measure.||-0.09|-13.07|0.086
92440139|NCT00518323|184766222|SUPERIORITY_OR_OTHER|||||||0.968||95.0||||Comparison with placebo was without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment (placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||0.968
92440140|NCT00518323|184766222|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparison with placebo was without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment (placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||<0.001
92440141|NCT00518323|184766222|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||Comparison with placebo was without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment (placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||0.021
92440142|NCT00518323|184766223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|2.1||0.846||95.0|-4.54|3.73||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment (placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||3.73|-4.54|0.846
92440143|NCT00518323|184766223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|2.17|<|0.001||95.0|4.28|12.82||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||12.82|4.28|<0.001
92440144|NCT00518323|184766223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|2.18||0.067||95.0|-0.28|8.33||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||8.33|-0.28|0.067
92440145|NCT00518323|184766224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1|STANDARD_ERROR_OF_MEAN|4.27||0.058||95.0|-0.29|16.56||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||16.56|-0.29|0.058
92440146|NCT00518323|184766224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.8|STANDARD_ERROR_OF_MEAN|4.4|<|0.001||95.0|8.08|25.43||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||25.43|8.08|<0.001
92440147|NCT00518323|184766224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.5|STANDARD_ERROR_OF_MEAN|4.43||0.003||95.0|4.76|22.23||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||22.23|4.76|0.003
92440148|NCT00518323|184766225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|4.15||0.237||95.0|-13.11|3.26||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||3.26|-13.11|0.237
92440149|NCT00518323|184766225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|4.28||0.119||95.0|-15.15|1.74||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||1.74|-15.15|0.119
92440150|NCT00518323|184766225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|4.34||0.574||95.0|-11.0|6.11||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||6.11|-11.00|0.574
92440151|NCT03164928|184766226|SUPERIORITY||Least Squares Mean Difference|0.11||||0.68|TWO_SIDED|95.0|-0.45|0.673|||ANCOVA|||||0.673|-0.450|0.68
92440152|NCT03164928|184766227|SUPERIORITY||Least Squares Mean Difference|0.17||||0.34|TWO_SIDED|95.0|-0.194|0.542|||Repeated Measures Model|||Month 6||0.542|-0.194|0.34
92440153|NCT03164928|184766227|SUPERIORITY||Least Squares Mean Difference|0.03||||0.93|TWO_SIDED|95.0|-0.609|0.661|||Repeated Measures Model|||Month 18||0.661|-0.609|0.93
92440154|NCT03164928|184766227|SUPERIORITY||Least Squares Mean Difference|0.11||||0.74|TWO_SIDED|95.0|-0.572|0.795|||Repeated Measures Model|||Month 24||0.795|-0.572|0.74
92440155|NCT03164928|184766227|SUPERIORITY||Least Squares Means Difference|-0.8||||0.12|TWO_SIDED|95.0|-1.848|0.239|||Repeated Measures Model|||Month 36||0.239|-1.848|0.12
92440156|NCT03164928|184766228|SUPERIORITY||Least Squares Mean Difference|-0.41||||0.19|TWO_SIDED|95.0|-1.05|0.223|||Repeated Measures Model|||Month 6 (Total Hip)||0.223|-1.050|0.19
92440157|NCT03164928|184766228|SUPERIORITY||Least Squares Mean Difference|-0.06||||0.83|TWO_SIDED|95.0|-0.631|0.515|||Repeated Measures Model|||Month 12 (Total Hip)||0.515|-0.631|0.83
92440158|NCT03164928|184766228|SUPERIORITY||Least Squares Mean Difference|-0.27||||0.51|TWO_SIDED|95.0|-1.108|0.565|||Repeated Measures Model|||Month 18 (Total Hip)||0.565|-1.108|0.51
92440159|NCT03164928|184766228|SUPERIORITY||Least Squares Mean Difference|-0.18||||0.69|TWO_SIDED|95.0|-1.098|0.746|||Repeated Measures Model|||Month 24 (Total Hip)||0.746|-1.098|0.69
92440160|NCT03164928|184766228|SUPERIORITY||Least Squares Mean Difference|-0.09||||0.89|TWO_SIDED|95.0|-1.465|1.286|||Repeated Measures Model|||Month 36 (Total Hip)||1.286|-1.465|0.89
92440161|NCT03164928|184766228|SUPERIORITY||Least Squares Mean Difference|-0.18||||0.64|TWO_SIDED|95.0|-0.969|0.614|||Repeated Measures Model|||Month 6 (Femoral Neck)||0.614|-0.969|0.64
92440162|NCT03164928|184766228|SUPERIORITY||Least Squares Mean Difference|0.1||||0.83|TWO_SIDED|95.0|-0.808|1.0|||Repeated Measures Model|||Month 12 (Femoral Neck)||1.000|-0.808|0.83
92440163|NCT03164928|184766228|SUPERIORITY||Least Squares Mean Difference|0.37||||0.48|TWO_SIDED|95.0|-0.697|1.442|||Repeated Measures Model|||Month 18 (Femoral Neck)||1.442|-0.697|0.48
92440164|NCT03164928|184766228|SUPERIORITY||Least Squares Mean Difference|0.11||||0.86|TWO_SIDED|95.0|-1.222|1.443|||Repeated Measures Model|||Month 24 (Femoral Neck)||1.443|-1.222|0.86
92440165|NCT03164928|184766228|SUPERIORITY||Least Squares Mean Difference|0.38||||0.66|TWO_SIDED|95.0|-1.378|2.13|||Repeated Measures Model|||Month 36 (Femoral Neck)||2.130|-1.378|0.66
92440166|NCT01514760|184766255|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||ANCOVA|||This a comparison for participants with uncontrolled asthma at baseline and change in scores over time.||||0.03
92440167|NCT03329690|184766267|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|CMH test with region as a stratification factor||||||<0.0001
92440168|NCT01519414|184766321|OTHER|||||||0.02|||||||Log Rank|||||||0.02
92440169|NCT00531817|184766356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.85|||<|0.0001|TWO_SIDED|95.0|12.29|25.42||The p-value was not adjusted. The primary objective was a single comparison with an a priori threshold of 0.05 for statistical significance.|Fisher Exact|||Power calculation: Assuming placebo+DMARDs response rate of 15% and tocilizumab 8 mg/kg+DMARDs response rate of 28% based on previous trials, a sample size of 570 patients (2:1 ratio, tocilizumab+DMARDs n=380 and placebo+DMARDs n=190) will provide \> 90% power to detect a difference between 2 treatment arms with 5% Type I error with a 2-sided Fisher's exact test. Null Hypothesis: The percentage of patients responding in each treatment group (tocilizumab+DMARDs vs placebo+ DMARDs) is the same.||25.42|12.29|<0.0001
92440170|NCT03204305|184766376|SUPERIORITY||t-test|-2.51||||0.02|TWO_SIDED|||||p \< 0.05 for all analyses. Bonferroni corrections were made to reduce family-wise error rate.|t-test, 2 sided|Composite VT was compared using independent t-tests.||VT in the 8 volumes of interest were analyzed using linear regression model group coded encoded as a dummy variable \[1=females cannabis users; 2= female healthy controls\], age as a covariate, and VT for VOIs (ventral striatum, amygdala, putamen, cingulate, globus pallidus, insula, frontal cortex, and hippocampus) as dependent variables, followed by post hoc Tukey's HSD between between groups.||||0.02
92440171|NCT03204305|184766376|SUPERIORITY||t-test|-2.36||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
92440172|NCT03204305|184766376|SUPERIORITY||t-test|-2.35||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
92440173|NCT03204305|184766376|SUPERIORITY||t-test|-2.23||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.04
92440174|NCT03204305|184766377|SUPERIORITY||t test|-2.52||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
92440175|NCT03388294|184766402|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|7.32||||0.028|TWO_SIDED||||||Mixed Models Analysis|||||||0.028
92440176|NCT03388294|184766403|OTHER||Mean Difference (Net)|12.75|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||The focus for this analysis is change over time||||<0.001
92440177|NCT03388294|184766404|SUPERIORITY|||||||0.87|||||||Mixed Models Analysis|||||||0.87
92440178|NCT03388294|184766405|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.61||||0.006|TWO_SIDED||||||Mixed Models Analysis|||||||0.006
92440179|NCT03388294|184766406|SUPERIORITY|||||||0.76|||||||Mixed Models Analysis|||||||0.76
92440180|NCT03388294|184766407|OTHER|The focus for this analysis is change over time||||||0.849|||||||Mixed Models Analysis|||||||0.849
92440181|NCT03388294|184766408|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.2||||0.063|TWO_SIDED||||||Mixed Models Analysis|||||||0.063
92440182|NCT03388294|184766409|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.48|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92440183|NCT03388294|184766413|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|-2.9||||0.036|TWO_SIDED||||||Mixed Models Analysis|||||||0.036
92440184|NCT03388294|184766414|OTHER|The focus for this analysis is change over time||||||0.0002|||||||Mixed Models Analysis|||||||0.0002
92440185|NCT03388294|184766415|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.36||||0.864|TWO_SIDED||||||Mixed Models Analysis|||||||0.864
92440186|NCT03388294|184766416|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|3.14||||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||0.12
92171302|NCT05321069|184231773|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.9084|TWO_SIDED|95.0|0.6|1.76|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.76|0.60|0.9084
92440187|NCT03388294|184766417|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.02||||0.881|TWO_SIDED||||||Mixed Models Analysis|||||||0.881
92440188|NCT03388294|184766418|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.02||||0.846|TWO_SIDED||||||Mixed Models Analysis|||||||0.846
92440189|NCT01641692|184766461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066||||0.036|TWO_SIDED|95.0|0.004|0.127|||Mixed Models Analysis|||||0.127|0.004|0.036
92440190|NCT01641692|184766461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.331|TWO_SIDED|95.0|-0.03|0.09|||Mixed Models Analysis|||||0.090|-0.030|0.331
92440191|NCT01641692|184766461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034||||0.272|TWO_SIDED|95.0|-0.027|0.095|||Mixed Models Analysis|||||0.095|-0.027|0.272
92440192|NCT01641692|184766461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088||||0.005|TWO_SIDED|95.0|0.026|0.149|||Mixed Models Analysis|||||0.149|0.026|0.005
92440193|NCT01641692|184766461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011||||0.722|TWO_SIDED|95.0|-0.05|0.073|||Mixed Models Analysis|||||0.073|-0.050|0.722
92440194|NCT01641692|184766461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057||||0.076|TWO_SIDED|95.0|-0.006|0.119|||Mixed Models Analysis|||||0.119|-0.006|0.076
92440195|NCT01641692|184766461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051||||0.101|TWO_SIDED|95.0|-0.01|0.113|||Mixed Models Analysis|||||0.113|-0.010|0.101
92440196|NCT01641692|184766464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.84|TWO_SIDED|95.0|-2.1|1.7|||Mixed Models Analysis|||||1.7|-2.1|0.840
92440197|NCT01641692|184766464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.553|TWO_SIDED|95.0|-2.4|1.3|||Mixed Models Analysis|||||1.3|-2.4|0.553
92440198|NCT01641692|184766464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.121|TWO_SIDED|95.0|-0.4|3.3|||Mixed Models Analysis|||||3.3|-0.4|0.121
92440199|NCT01641692|184766464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.814|TWO_SIDED|95.0|-2.1|1.7|||Mixed Models Analysis|||||1.7|-2.1|0.814
92440200|NCT01641692|184766464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.683|TWO_SIDED|95.0|-1.5|2.3|||Mixed Models Analysis|||||2.3|-1.5|0.683
92440201|NCT01641692|184766464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.456|TWO_SIDED|95.0|-1.2|2.7|||Mixed Models Analysis|||||2.7|-1.2|0.456
92440202|NCT01641692|184766464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.399|TWO_SIDED|95.0|-2.7|1.1|||Mixed Models Analysis|||||1.1|-2.7|0.399
92440203|NCT01641692|184766465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.03|TWO_SIDED|95.0|0.2|3.2|||Mixed Models Analysis|||||3.2|0.2|0.030
92440204|NCT01641692|184766465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.077|TWO_SIDED|95.0|-0.1|2.8|||Mixed Models Analysis|||||2.8|-0.1|0.077
92440205|NCT01641692|184766465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.01|TWO_SIDED|95.0|0.5|3.5|||Mixed Models Analysis|||||3.5|0.5|0.010
92440206|NCT01641692|184766465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4||||0.002|TWO_SIDED|95.0|0.9|3.9|||Mixed Models Analysis|||||3.9|0.9|0.002
92440207|NCT01641692|184766465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2||||0.005|TWO_SIDED|95.0|0.7|3.7|||Mixed Models Analysis|||||3.7|0.7|0.005
92440208|NCT01641692|184766465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|||<|0.001|TWO_SIDED|95.0|1.2|4.3|||Mixed Models Analysis|||||4.3|1.2|<0.001
92440209|NCT01641692|184766465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.054|TWO_SIDED|95.0|0.0|3.0|||Mixed Models Analysis|||||3.0|0.0|0.054
92440210|NCT01641692|184766466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.752|TWO_SIDED|95.0|-1.4|2.0|||Mixed Models Analysis|||||2.0|-1.4|0.752
92440211|NCT01641692|184766466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.072|TWO_SIDED|95.0|-0.1|3.2|||Mixed Models Analysis|||||3.2|-0.1|0.072
92440212|NCT01641692|184766466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.503|TWO_SIDED|95.0|-1.1|2.2|||Mixed Models Analysis|||||2.2|-1.1|0.503
92440213|NCT01641692|184766466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.476|TWO_SIDED|95.0|-1.1|2.3|||Mixed Models Analysis|||||2.3|-1.1|0.476
92440214|NCT01641692|184766466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.084|TWO_SIDED|95.0|-0.2|3.2|||Mixed Models Analysis|||||3.2|-0.2|0.084
92440215|NCT01641692|184766466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.97|TWO_SIDED|95.0|-1.8|1.7|||Mixed Models Analysis|||||1.7|-1.8|0.970
92440216|NCT01641692|184766466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.423|TWO_SIDED|95.0|-2.4|1.0|||Mixed Models Analysis|||||1.0|-2.4|0.423
92171303|NCT05321069|184231773|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.4682|TWO_SIDED|95.0|0.46|1.43|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.43|0.46|0.4682
92440217|NCT00657241|184766549|SUPERIORITY|All hemodynamic variables are continuous and all participants received both treatments, so paired-t analysis could be used. While paired t-tests do not necessarily require a power and sample size analysis, we estimated that 30 subjects were sufficient to detect an 8% difference in CTTI between comparators at p\<0.05 with a conservatively estimated power of 0.8.|||||<|0.05|||||||t-test, 2 sided|||Statistical analysis performed on treatment groups (valsartan or carvedilol CR) at end of treatment period (4 weeks), not on the randomization arms in the crossover design (which controlled for carryover effects of the prior treatment arm).||||<0.05
92440218|NCT00657241|184766551|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|paired t-test||Statistical analysis performed on treatment groups (valsartan or carvedilol CR) at end of treatment period (4 weeks), not on the randomization arms in the crossover design (which controlled for carryover effects of the prior treatment arm).||||0.05
92440219|NCT00657241|184766552|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|Paired t-test||Statistical analysis performed on treatment groups (valsartan or carvedilol CR) at end of treatment period (4 weeks), not on the randomization arms in the crossover design (which controlled for carryover effects of the prior treatment arm).||||0.05
92440220|NCT00657241|184766553|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|paired t-test||Statistical analysis performed on treatment groups (valsartan or carvedilol CR) at end of treatment period (4 weeks), not on the randomization arms in the crossover design (which controlled for carryover effects of the prior treatment arm).||||0.05
92440221|NCT00657241|184766554|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|paired t-test||Statistical analysis performed on treatment groups (valsartan or carvedilol CR) at end of treatment period (4 weeks), not on the randomization arms in the crossover design (which controlled for carryover effects of the prior treatment arm).||||0.05
92440222|NCT04262232|184766568|SUPERIORITY||Mean Difference (Net)|-1.8||||0.0001|TWO_SIDED|95.0|-2.6|-0.95|||Paired t-test, two-sided||Baseline value minus two weeks post-intervention value.|||-0.95|-2.6|0.0001
92440223|NCT04262232|184766569|SUPERIORITY||Mean Difference (Net)|1.4|||<|0.0001|TWO_SIDED|95.0|1.17|1.63|||Paired t-test, two-sided||Baseline value minus two weeks post-intervention value.|||1.63|1.17|<0.0001
92440224|NCT04262232|184766571|SUPERIORITY||Mean Difference (Net)|-2.8||||0.01|TWO_SIDED|95.0|-4.99|-0.61|||Paired t-test, two-sided||Baseline value minus two weeks post-intervention value.|||-0.61|-4.99|0.01
92440225|NCT04262232|184766573|SUPERIORITY||Mean Difference (Net)|0.5||||0.51|TWO_SIDED|95.0|-1.02|2.02|||Paired t-test, two-sided||Baseline value minus two weeks post-intervention value.|||2.02|-1.02|0.51
92440226|NCT02738151|184766575|NON_INFERIORITY|Non-inferiority of Toujeo vs Tresiba was demonstrated if the upper bound of the two-sided 95% confidence interval (CI) for the difference between groups was \<0.3%.|Least Square (LS) Mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|-0.152|0.051||Threshold for significance at 0.025 level.|Mixed Models Analysis||Toujeo vs. Tresiba|A hierarchical step-down testing procedure was used to control type 1 error. Analysis was performed using a MMRM approach with treatment groups, randomization strata, visit, and treatment-by-visit interaction as fixed categorical effects and baseline HbA1c value and baseline HbA1c value-by-visit interaction as continuous fixed covariates.||0.051|-0.152|<.0001
92440227|NCT02738151|184766575|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.052||0.3302|TWO_SIDED|95.0|-0.152|0.051|||Mixed Models Analysis|||Superiority of Toujeo over Tresiba was demonstrated if the upper bound of the two-sided 95% CI for the difference in the mean change in HbA1c from baseline to Week 24 between Toujeo over Tresiba on ITT population was \<0 (zero).||0.051|-0.152|0.3302
92440228|NCT01975909|184766596|EQUIVALENCE|We hypothesized that the real TMS would improve the performance of SARA (i.e., greater percent decrease of SARA score from baseline) as compared to the sham TMS.||||||0.29|||||||t-test, 2 sided|||||||0.29
92440229|NCT01975909|184766597|EQUIVALENCE|We hypothesized that the real TMS would improve the performance of 25-foot walking test (i.e., greater percent increase of walking speed from baseline) as compared to the sham TMS.||||||0.47|||||||t-test, 2 sided|||||||0.47
92440230|NCT01975909|184766598|EQUIVALENCE|We hypothesized that the real TMS would improve the performance of 9-hole peg test (i.e., greater percent decrease of time to complete the test from baseline) as compared to the sham TMS.||||||0.12|||||||t-test, 2 sided|||||||0.12
92440231|NCT01975909|184766599|EQUIVALENCE|We hypothesized that the real TMS would improve the performance of 90-second walking test (i.e., greater percent increase of walking speed from baseline) as compared to the sham TMS.||||||0.69|||||||t-test, 2 sided|||||||0.69
92440232|NCT01975909|184766600|EQUIVALENCE|We hypothesized that the real TMS would improve the standing postural control stability (i.e., greater percent decrease increase of postural sway speed from baseline) as compared to the sham TMS.||||||0.009|||||||t-test, 2 sided|||||||0.009
92440233|NCT01975909|184766601|EQUIVALENCE|We hypothesized that the real TMS would improve the performance of TUG test (i.e., greater percent decrease of time to complete TUG test from baseline) as compared to the sham TMS.||||||0.18|||||||t-test, 2 sided|||||||0.18
92440234|NCT02921776|184766729|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.45|TWO_SIDED||||||t-test, 2 sided|||||||0.45
92440235|NCT02921776|184766730|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.55|TWO_SIDED||||||t-test, 2 sided|||||||0.55
92440236|NCT02921776|184766731|OTHER|||||||0.1|||||||Effect size|Effect size =-0.29||||||0.10
92440237|NCT02921776|184766731|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.1|TWO_SIDED||||||t-test, 2 sided|||||||.10
92440238|NCT02921776|184766732|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||Benzodiazepine exposure||||0.02
92440239|NCT02921776|184766732|SUPERIORITY|||||||0.291|||||||Mixed Models Analysis|||Opioid Exposure||||0.291
92440240|NCT02921776|184766733|SUPERIORITY||Mean Difference (Final Values)|3.04||||0.38|TWO_SIDED||||||t-test, 2 sided|||||||0.38
92440241|NCT02921776|184766734|SUPERIORITY|||||||0.32|TWO_SIDED|95.0|||||Chi-squared|||||||0.32
92440242|NCT02921776|184766735|SUPERIORITY||Odds Ratio (OR)|0.93||||0.93|TWO_SIDED|95.0|0.19|4.72|||Mixed Models Analysis|||||4.72|0.19|0.93
92440243|NCT02921776|184766736|SUPERIORITY||Mean Difference (Final Values)|10.6||||0.07|TWO_SIDED||||||t-test, 2 sided|||||||0.07
92440244|NCT02921776|184766738|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
92440245|NCT02921776|184766739|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||Baseline||||0.94
92440246|NCT02921776|184766739|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||Patient Extubation or Discharge from ICU||||0.89
92440247|NCT02921776|184766739|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||1-Month||||0.38
92440248|NCT02921776|184766739|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||3-Month||||0.63
92440249|NCT02921776|184766739|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||.73
92440250|NCT02921776|184766740|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Baseline||||0.82
92440251|NCT02921776|184766740|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||Patient extubation or discharge from ICU||||0.84
92440252|NCT02921776|184766740|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||1-month||||0.96
92440253|NCT02921776|184766740|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||3-Month||||0.17
92440254|NCT02921776|184766740|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||||||.39
92440255|NCT02921776|184766741|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||1-month||||0.26
92440256|NCT02921776|184766741|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||3-month||||0.25
92440257|NCT02921776|184766741|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||6-month||||0.79
92440258|NCT02921776|184766749|SUPERIORITY||Odds Ratio (OR)|0.23||||0.05|TWO_SIDED|95.0|0.05|1.01|||t-test, 2 sided|||||1.01|0.05|0.05
92440259|NCT02921776|184766749|SUPERIORITY||Odds Ratio (OR)|0.27||||0.1|TWO_SIDED|95.0|0.06|1.3|||Regression, Linear|||Adjusted for baseline communication difficulty||1.30|0.06|0.10
92440260|NCT03628703|184766750|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
92440261|NCT05247229|184766751|SUPERIORITY||Slope|0.37||||0.05|TWO_SIDED|95.0|0.0|0.73|||Chi-squared|||Q10 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.73|0.00|0.05
92440262|NCT05247229|184766751|SUPERIORITY||Slope|0.22||||0.36|TWO_SIDED|95.0|-0.25|0.7|||Chi-squared|||Q13 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.70|-0.25|0.36
92440263|NCT05247229|184766752|SUPERIORITY||Slope|-0.42||||0.12|TWO_SIDED|95.0|-0.96|0.11|||Chi-squared|||Q6 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.11|-0.96|0.12
92440264|NCT05247229|184766752|SUPERIORITY||Slope|0.41||||0.21|TWO_SIDED|95.0|-0.23|1.05|||Chi-squared|||Q7 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||1.05|-0.23|0.21
92440265|NCT05247229|184766752|SUPERIORITY||Slope|0.07||||0.78|TWO_SIDED|95.0|-0.41|0.54|||Chi-squared|||Q15 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.54|-0.41|0.78
92440266|NCT05247229|184766753|SUPERIORITY||Slope|0.51||||0.01|TWO_SIDED|95.0|0.16|0.86|||Chi-squared|||Q1 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.86|0.16|0.01
92440267|NCT05247229|184766753|SUPERIORITY||Slope|0.09||||0.67|TWO_SIDED|95.0|-0.34|0.52|||Chi-squared|||Q2 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.52|-0.34|0.67
92440268|NCT05247229|184766753|SUPERIORITY||Slope|0.13||||0.35|TWO_SIDED|95.0|-0.15|0.41|||Chi-squared|||Q3 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.41|-0.15|0.35
92238066|NCT03151148|184380355|SUPERIORITY||Geometric mean ratio (GMR)|1.719||||0.767|TWO_SIDED|95.0|0.0474|62.3828|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||62.3828|0.0474|0.767
92171304|NCT05321069|184231774|SUPERIORITY||Mean Difference (Net)|-1.0||||0.3697|TWO_SIDED|95.0|-3.2|1.19|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Dyspnea score) between the Nera 9mg BID group and the Placebo group at Week 52.|The analysis used a Mixed Model for Repeated Measures (MMRM) with fixed categorical effects for treatment group and baseline antifibrotic therapy at each visit, and fixed continuous effects of baseline Living with Pulmonary Fibrosis (L-PF) Dyspnea domain score. An unstructured covariance structure accounted for within-patient correlations. Baseline antifibrotic use, as recorded in the concomitant medication case report form (CRF), was included as a covariate.||1.19|-3.20|0.3697
92238067|NCT03151148|184380357|SUPERIORITY||Geometric mean ratio (GMR)|1.395||||0.488|TWO_SIDED|95.0|0.5429|3.5835|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.5835|0.5429|0.488
92239951|NCT00570739|184383785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.71|||<|0.0001|TWO_SIDED|95.0|9.66|25.54||The P-Value was from the non-parametric ANCOVA stratified by country.|ANCOVA|The median difference was calculated using Hodges-Lehmann point estimate and corresponding 95% CI was constructed using the method of Moses.||Baseline to 16 Weeks||25.54|9.66|<0.0001
92440269|NCT05247229|184766753|SUPERIORITY||Slope|0.09||||0.73|TWO_SIDED|95.0|-0.43|0.61|||Chi-squared|||Q4 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.61|-0.43|0.73
92440270|NCT05247229|184766753|SUPERIORITY||Slope|0.2||||0.23|TWO_SIDED|95.0|-0.13|0.52|||Chi-squared|||Q5 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.52|-0.13|0.23
92440271|NCT05247229|184766753|SUPERIORITY||Slope|0.71||||0|TWO_SIDED|95.0|0.27|1.15|||Chi-squared|||Q9 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||1.15|0.27|0.00
92440272|NCT05247229|184766753|SUPERIORITY||Slope|0.37||||0.05|TWO_SIDED|95.0|0.0|0.73|||Chi-squared|||Q10 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.73|0.00|0.05
92440273|NCT05247229|184766753|SUPERIORITY||Slope|0.37||||0.1|TWO_SIDED|95.0|-0.07|0.82|||Chi-squared|||Q11 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.82|-0.07|0.10
92440274|NCT05247229|184766753|SUPERIORITY||Slope|0.3||||0.32|TWO_SIDED|95.0|-0.3|0.91|||Chi-squared|||Q12 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.91|-0.30|0.32
92440275|NCT05247229|184766753|SUPERIORITY||Slope|0.22||||0.36|TWO_SIDED|95.0|-0.25|0.7|||Chi-squared|||Q13 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.70|-0.25|0.36
92440276|NCT05247229|184766753|SUPERIORITY||Slope|0.35||||0.11|TWO_SIDED|95.0|-0.07|0.78|||Chi-squared|||Q14 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.78|-0.07|0.11
92440277|NCT04350788|184766760|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||We analyzed program satisfaction between SCP and ESCP by role (patient vs partner). The following result is for patient.||||0.02
92440278|NCT04350788|184766760|SUPERIORITY|||||||0.25|||||||t-test, 1 sided|||We analyzed program satisfaction between SCP and ESCP by role (patient vs partner). The following result is for partner.||||0.25
92440279|NCT04350788|184766761|SUPERIORITY|||||||0.36|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in general domain.||||0.36
92440280|NCT04350788|184766761|SUPERIORITY|||||||0.38|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in content domain.||||0.38
92440281|NCT04350788|184766761|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in navigation domain.||||0.02
92440282|NCT04350788|184766761|SUPERIORITY|||||||0.62|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in general domain.||||0.62
92440283|NCT04350788|184766761|SUPERIORITY|||||||0.65|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in content domain.||||0.65
92440284|NCT04350788|184766761|SUPERIORITY|||||||0.45|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in navigation domain.||||0.45
92440285|NCT04350788|184766762|SUPERIORITY|||||||0.35|||||||Mixed Models Analysis|||||||0.35
92440286|NCT04350788|184766763|SUPERIORITY|||||||0.01|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in urinary domain.||||0.01
92440287|NCT04350788|184766763|SUPERIORITY|||||||0.41|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in bowel domain.||||0.41
92440288|NCT04350788|184766763|SUPERIORITY|||||||0.21|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in sexual domain.||||0.21
92440289|NCT04350788|184766763|SUPERIORITY|||||||0.52|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in hormonal domain.||||0.52
92440290|NCT04350788|184766763|SUPERIORITY|||||||0.79|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in urinary domain.||||0.79
92440291|NCT04350788|184766763|SUPERIORITY|||||||0.84|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in bowel domain.||||0.84
92440292|NCT04350788|184766763|SUPERIORITY|||||||0.82|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in sexual domain.||||0.82
92440293|NCT04350788|184766763|SUPERIORITY|||||||0.33|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in hormonal domain.||||0.33
92440294|NCT04350788|184766764|SUPERIORITY|||||||0.18|||||||ANCOVA|||||||0.18
92440295|NCT04350788|184766764|SUPERIORITY|||||||0.38|||||||ANCOVA|||||||0.38
92440296|NCT04350788|184766765|SUPERIORITY|||||||0.05|||||||generalized linear regression|||||||0.05
92440297|NCT04350788|184766766|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.10
92440298|NCT04350788|184766767|SUPERIORITY|||||||0.29|||||||Mixed Models Analysis|||||||0.29
92440299|NCT04350788|184766768|SUPERIORITY|||||||0.49|||||||Mixed Models Analysis|||||||0.49
92440300|NCT04350788|184766769|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
92440301|NCT04350788|184766770|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|||||||0.16
92238068|NCT03151148|184380357|SUPERIORITY||Geometric mean ratio (GMR)|2.823||||0.03|TWO_SIDED|95.0|1.1038|7.221|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.2210|1.1038|0.030
92280032|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.336||||0.0262|TWO_SIDED|95.0|-0.632|-0.04||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.040|-0.632|0.0262
92440302|NCT04350788|184766771|SUPERIORITY|||||||0.55|||||||Mixed Models Analysis|||||||0.55
92440303|NCT01921179|184766841|EQUIVALENCE|A repeated measures MANOVA was used to compare the impact of GOALS training versus the BHE training on neurocognitive performance Attention and Executive Function Overall Domain Z Score|||||<|0.01|||||||ANOVA|||||||<0.01
92440304|NCT01921179|184766842|EQUIVALENCE|A repeated measure multivariate analysis of variance (MANOVA) was used to compare neurocognitive performance on Overall Attention /Executive Function overall score at baseline and at 6+ month post-GOALS training follow-up|||||<|0.001|||||||ANOVA|Repeated measure MANOVA was used to compare performance on neurocognitive domain scores at baseline and at 6+ month follow-up post-GOALS training||||||<0.001
92440305|NCT01921179|184766843|EQUIVALENCE|A repeated measures MANOVA was used to compare the impact of GOALS training versus the BHE training on functional performance|||||>|0.05|||||||ANOVA|A repeated measures MANOVA was used to compare the impact of GOALS training versus the BHE training on functional performance||||||>0.05
92440306|NCT01921179|184766844|EQUIVALENCE|A repeated measure multivariate analysis of variance (MANOVA) was used to compare performance on Goal Processing Scale Overall domain scores at baseline and 6+ month post-GOALS training follow-up|||||<|0.001|||||||ANOVA|||||||<0.001
92440307|NCT01921179|184766845|EQUIVALENCE|A repeated measures MANOVA was used to compare the impact of GOALS training versus the BHE training on emotional regulation measures - POMS Total score|||||<|0.05|||||||ANOVA|A repeated measures MANOVA was used to compare the impact of GOALS versus the BHE training on emotional regulation measures - POMS Total score||||||<0.05
92440308|NCT01921179|184766846|EQUIVALENCE|A repeated measure multivariate analysis of variance (MANOVA) was used to compare participants' self-report on POMS Total Mood Disturbance overall score at baseline and 6+ month post-GOALS training follow-up|||||<|0.01|||||||ANOVA|||||||<0.01
92440309|NCT00858442|184766850|NON_INFERIORITY_OR_EQUIVALENCE|"Applies normality test of shapiro Wilks = 0.953, P\> 0.449 in group without PRP and in PRP group shapiro Wilks=0.946, P \> 0.259.~The data were normally distributed, with equal variances (Test of levene: F = 0.1234, P\> 0.99)"|Mean Difference (Final Values)|-2.452|STANDARD_ERROR_OF_MEAN|2.452|>|0.1574|TWO_SIDED|95.0|-7.332|2.428||Applies t-test for equality of means. t = -1.016 is obtained. p\> 0.1574|t-test, 1 sided|||||2.428|-7.332|>0.1574
92440310|NCT00858442|184766851|NON_INFERIORITY_OR_EQUIVALENCE|"Applies normality test of shapiro Wilks =0.972, P\> 0.687 in group without PRP and in PRP group shapiro Wilks = 0.964, P \> 0.410.~The data were normally distributed, with equal variances (Test of levene: F = 3.153, P\> 0.082)"|Mean Difference (Final Values)|-0.27186|STANDARD_ERROR_OF_MEAN|0.50519|>|0.593|TWO_SIDED|95.0|-1.28561|0.74189||Applies t-test for equality of means. t = -0.538 is obtained. p\> 0.593|t-test, 2 sided|||||0.74189|-1.28561|>0.593
92440311|NCT00858442|184766852|NON_INFERIORITY_OR_EQUIVALENCE|"Applies normality test of shapiro Wilks=0.822, P\<0.001 in group without PRP, and in PRP group shapiro Wilks =0.910, P\<0.017.~The data were no normally distributed, with equal variances (Test of levene, F=1.324, P\>0.255)"|||||>|0.398|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Mean rank group without PRP= 28.88 Mean rank group with PRP= 26.31 Z value = -0.027||||||>0.398
92238069|NCT03151148|184380357|SUPERIORITY||Geometric mean ratio (GMR)|2.077||||0.127|TWO_SIDED|95.0|0.8122|5.3135|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.3135|0.8122|0.127
92238070|NCT03151148|184380357|SUPERIORITY||Geometric mean ratio (GMR)|0.789||||0.623|TWO_SIDED|95.0|0.3065|2.0331|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.0331|0.3065|0.623
92238071|NCT03151148|184380357|SUPERIORITY||Geometric mean ratio (GMR)|0.627||||0.328|TWO_SIDED|95.0|0.245|1.6028|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.6028|0.2450|0.328
92440312|NCT02016625|184766853|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis (H0): ratio is outside of interval (80%, 125%) vs. alternative hypothesis (H1): ratio is inside of interval (80%, 125%)|gMean ratio (%)|108.2|STANDARD_ERROR_OF_MEAN|11.5||0.0033|TWO_SIDED|90.0|99.992|117.076|||ANOVA||ratio of cyclo + FDV to cyclo treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|Geometric mean (gMean) ratio of cyclo + FDV to cyclo treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||117.076|99.992|0.0033
92440313|NCT02016625|184766854|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) vs. H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|106.6|STANDARD_ERROR_OF_MEAN|11.7||0.0019|TWO_SIDED|90.0|98.36|115.534|||ANOVA||gMean ratio of cyclo+FDV to cyclo treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of cyclo+FDV to cyclo treatment The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||115.534|98.360|0.0019
92440314|NCT02016625|184766855|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|90.14|STANDARD_ERROR_OF_MEAN|16.6||0.0457|TWO_SIDED|90.0|80.281|101.205|||ANOVA||gMean ratio of cyclo+FDV to cyclo treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of cyclo+FDV to cyclo treatment The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||101.205|80.281|0.0457
92440315|NCT02016625|184766856|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|140.98|STANDARD_ERROR_OF_MEAN|35.8||0.8122|TWO_SIDED|90.0|111.772|177.833|||ANOVA||gMean ratio of cyclo+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of cyclo+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||177.833|111.772|0.8122
92440316|NCT02016625|184766857|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|116.92|STANDARD_ERROR_OF_MEAN|11.0||0.065|TWO_SIDED|90.0|108.674|125.801|||ANOVA||gMean ratio of cyclo+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of cyclo+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||125.801|108.674|0.0650
92440317|NCT02016625|184766858|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|122.68|STANDARD_ERROR_OF_MEAN|23.9||0.4181|TWO_SIDED|90.0|104.8|143.6|||ANOVA||gMean ratio of cyclo+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of cyclo+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||143.60|104.80|0.4181
92446792|NCT00280566|184780543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.16||0.146|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1460
92238072|NCT03151148|184380357|SUPERIORITY||Geometric mean ratio (GMR)|2.231||||0.242|TWO_SIDED|95.0|0.5799|8.5866|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||8.5866|0.5799|0.242
92238073|NCT03151148|184380357|SUPERIORITY||Geometric mean ratio (GMR)|1.977||||0.321|TWO_SIDED|95.0|0.5137|7.6055|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.6055|0.5137|0.321
92238074|NCT03151148|184380357|SUPERIORITY||Geometric mean ratio (GMR)|1.86||||0.366|TWO_SIDED|95.0|0.4833|7.1564|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.1564|0.4833|0.366
92238075|NCT03151148|184380357|SUPERIORITY||Geometric mean ratio (GMR)|3.713||||0.068|TWO_SIDED|95.0|0.908|15.1856|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||15.1856|0.9080|0.068
92238076|NCT03151148|184380357|SUPERIORITY||Geometric mean ratio (GMR)|2.858||||0.13|TWO_SIDED|95.0|0.7328|11.1434|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||11.1434|0.7328|0.130
92238077|NCT03151148|184380358|SUPERIORITY||Geometric mean ratio (GMR)|3.16||||0.233|TWO_SIDED|95.0|0.476|20.952|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||20.952|0.476|0.233
92239952|NCT00570739|184383785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.62|||<|0.0001|TWO_SIDED|95.0|11.18|25.74||The P-Value was from the non-parametric ANCOVA stratified by country.|ANCOVA|The median difference was calculated using Hodges-Lehmann point estimate and corresponding 95% CI was constructed using the method of Moses.||Baseline to 16 Weeks LOCF||25.74|11.18|<0.0001
92239953|NCT00570739|184383786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.81||||0.0496|TWO_SIDED|95.0|0.0|5.62|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 weeks||5.62|0.0|0.0496
92440318|NCT02016625|184766859|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|127.41|STANDARD_ERROR_OF_MEAN|16.8||0.6207|TWO_SIDED|90.0|114.453|141.827|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||141.827|114.453|0.6207
92440319|NCT02016625|184766860|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|136.85|STANDARD_ERROR_OF_MEAN|22.4||0.8592|TWO_SIDED|90.0|118.683|157.793|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||157.793|118.683|0.8592
92238078|NCT03151148|184380358|SUPERIORITY||Geometric mean ratio (GMR)|0.08||||0.008|TWO_SIDED|95.0|0.012|0.514|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.514|0.012|0.008
92238079|NCT03151148|184380358|SUPERIORITY||Geometric mean ratio (GMR)|0.04||||0.001|TWO_SIDED|95.0|0.007|0.298|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.298|0.007|0.001
92280033|NCT02637557|184463082|SUPERIORITY||LS Mean Difference|-0.545||||0.0004|TWO_SIDED|95.0|-0.843|-0.246||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.246|-0.843|0.0004
92440320|NCT02016625|184766861|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|99.15|STANDARD_ERROR_OF_MEAN|28.5||0.0269|TWO_SIDED|90.0|82.857|118.644|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||118.644|82.857|0.0269
92440321|NCT02016625|184766862|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|93.85|STANDARD_ERROR_OF_MEAN|25.1||0.0493|TWO_SIDED|90.0|80.059|110.022|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||110.022|80.059|0.0493
92440322|NCT02016625|184766863|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|99.54|STANDARD_ERROR_OF_MEAN|10.0||0|TWO_SIDED|90.0|93.375|106.115|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||106.115|93.375|0.0000
92440323|NCT02016625|184766864|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|96.16|STANDARD_ERROR_OF_MEAN|12.9||0.0008|TWO_SIDED|90.0|88.53|104.45|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||104.45|88.53|0.0008
92440324|NCT02603809|184766875|OTHER||||||<|0.001|||||||Multiple Comparison Procedure-Modeling|||"Multiple Comparison Procedure-Modeling (MCP-Mod) was used to assess a dose-response across placebo and all aprocitentan doses. The null hypothesis of no dose-response was rejected if at least one of the six Multiple Contrast Tests (MCTs) had a multiplicity adjusted p-value \<0.05. The analysis was performed using the R-package DoseFinding (Bornkamp B, Pinheiro J, Bretz F. Planning and analyzing dose finding experiments. 2016. Available from: cran.r-projects.org/web/packages/DoseFinding.)"||||<0.001
92440325|NCT02603809|184766875|SUPERIORITY||LS Mean|-1.31|STANDARD_ERROR_OF_MEAN|1.548||0.8117|TWO_SIDED|95.0|-5.1|2.49|||ANCOVA|with Dunnett correction.||||2.49|-5.10|0.8117
92440326|NCT02603809|184766875|SUPERIORITY||LS Mean|-4.93|STANDARD_ERROR_OF_MEAN|1.532||0.0053|TWO_SIDED|95.0|-8.68|-1.17|||ANCOVA|with Dunnett correction.||||-1.17|-8.68|0.0053
92440327|NCT02603809|184766875|SUPERIORITY||LS Mean|-6.99|STANDARD_ERROR_OF_MEAN|1.554|<|0.0001|TWO_SIDED|95.0|-10.8|-3.19|||ANCOVA|with Dunnett correction.||||-3.19|-10.80|<.0001
92440328|NCT02603809|184766875|SUPERIORITY||LS Mean|-4.95|STANDARD_ERROR_OF_MEAN|1.549||0.0057|TWO_SIDED|95.0|-8.75|-1.15|||ANCOVA|with Dunnett correction.||||-1.15|-8.75|0.0057
92440329|NCT02603809|184766876|OTHER||||||<|0.001|||||||Multiple Comparison Procedure-Modeling|||"Multiple Comparison Procedure-Modeling (MCP-Mod) was used to assess a dose-response across placebo and all aprocitentan doses. The null hypothesis of no dose-response was rejected if at least one of the six Multiple Contrasts Tests (MCTs) had a multiplicity adjusted p-value \<0.05. The analysis was performed using the R-package DoseFinding (Bornkamp B, Pinheiro J, Bretz F. Planning and analyzing dose finding experiments. 2016. Available from: cran-rprojects.org/web/packages/DoseFinding.)"||||<0.001
92440330|NCT02603809|184766876|SUPERIORITY||LS Mean|-2.45|STANDARD_ERROR_OF_MEAN|2.445||0.7071|TWO_SIDED|95.0|-8.44|3.54|||ANCOVA|with Dunnett correction.||||3.54|-8.44|0.7071
92440331|NCT02603809|184766876|SUPERIORITY||LS Mean|-7.05|STANDARD_ERROR_OF_MEAN|2.42||0.0138|TWO_SIDED|95.0|-12.98|-1.12|||ANCOVA|with Dunnett correction.||||-1.12|-12.98|0.0138
92440332|NCT02603809|184766876|SUPERIORITY||LS Mean|-9.9|STANDARD_ERROR_OF_MEAN|2.457||0.0003|TWO_SIDED|95.0|-15.92|-3.88|||ANCOVA|with Dunnett correction.||||-3.88|-15.92|0.0003
92440333|NCT02603809|184766876|SUPERIORITY||LS Mean|-7.58|STANDARD_ERROR_OF_MEAN|0.0077||0.0077|TWO_SIDED|95.0|-13.58|-1.59|||ANCOVA|with Dunnett correction.||||-1.59|-13.58|0.0077
92440334|NCT02603809|184766882|OTHER||||||<|0.001|||||||Multiple Comparison Procedure-Modeling|||"Multiple Comparison Procedure-Modeling (MCP-Mod) was used to assess a dose-response across placebo and all aprocitentan doses. The null hypothesis of no dose-response was rejected if at least one of the six Multiple Contrast Tests (MCTs) had a multiplicity adjusted p-value \<0.05. The analysis was performed using the R-package DoseFinding (Bornkamp B, Pinheiro J, Bretz F. Planning and analyzing dose finding experiments. 2016. Available from: cran.r-projects.org/web/packages/DoseFinding.)"||||<0.001
92440335|NCT02603809|184766882|SUPERIORITY||LS Mean|-1.75|STANDARD_ERROR_OF_MEAN|1.401||0.5356|TWO_SIDED|95.0|-5.19|1.69|||ANCOVA|with Dunnett correction.||||1.69|-5.19|0.5356
92440336|NCT02603809|184766882|SUPERIORITY||LS Mean|-5.82|STANDARD_ERROR_OF_MEAN|1.396||0.0001|TWO_SIDED|95.0|-9.25|-2.4|||ANCOVA|with Dunnett correction.||||-2.40|-9.25|0.0001
92440337|NCT02603809|184766882|SUPERIORITY||LS Mean|-7.5|STANDARD_ERROR_OF_MEAN|1.41|<|0.0001|TWO_SIDED|95.0|-10.96|-4.04|||ANCOVA|with Dunnett correction.||||-4.04|-10.96|<.0001
92440338|NCT02603809|184766882|SUPERIORITY||LS Mean|-5.65|STANDARD_ERROR_OF_MEAN|1.41||0.0003|TWO_SIDED|95.0|-9.11|-2.19|||ANCOVA|with Dunnett correction.||||-2.19|-9.11|0.0003
92440339|NCT00380978|184766896|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence|Risk Ratio (RR)|1.04||||0.65|TWO_SIDED|95.0|0.9|1.2|||Chi-squared, Corrected|||Group sample sizes of 800 in each group achieve 80% power to detect equivalence when the margin of equivalence extends from 0.1 to 0.25||1.20|0.90|0.65
92440340|NCT00380978|184766897|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98||||0.63|TWO_SIDED|95.0|0.8|1.2|||Chi-squared|||There rate of instrumented vaginal delivery will be equal in both groups.||1.20|0.80|0.63
92440341|NCT00380978|184766898|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Log Rank|||||||0.047
92440342|NCT00380978|184766899|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||Chi-squared|||||||0.35
92440343|NCT00380978|184766900|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.0|||<|0.005|TWO_SIDED|95.0|-4.0|-3.0|||Wilcoxon (Mann-Whitney)|||||-3|-4|<0.005
92440344|NCT00380978|184766901|SUPERIORITY_OR_OTHER||||||<|0.005||95.0|||||Chi-squared, Corrected|||||||<0.005
92440345|NCT00380978|184766902|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Fisher Exact|||||||0.11
92440346|NCT00380978|184766903|SUPERIORITY_OR_OTHER||||||<|0.005||95.0|||||Chi-squared, Corrected|||||||<0.005
92440347|NCT02981342|184766927|SUPERIORITY|||||||0.0495|||||||Cochran-Mantel-Haenszel|||||||0.0495
92440348|NCT02981342|184766927|SUPERIORITY|||||||0.023|||||||Cochran-Mantel-Haenszel|||||||0.0230
92440349|NCT02981342|184766928|SUPERIORITY|||||||0.0085|||||||Log Rank|||||||0.0085
92440350|NCT02981342|184766928|SUPERIORITY|||||||0.0123|||||||Log Rank|||||||0.0123
92440351|NCT02981342|184766929|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1
92440352|NCT02981342|184766929|SUPERIORITY|||||||0.3017|||||||Cochran-Mantel-Haenszel|||||||0.3017
92440353|NCT02981342|184766934|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1
92440354|NCT02981342|184766934|SUPERIORITY|||||||0.3017|||||||Cochran-Mantel-Haenszel|||||||0.3017
92440355|NCT02981342|184766936|SUPERIORITY||Hazard Ratio (HR)|1.6||||0.1938|TWO_SIDED|95.0|0.782|3.272|||Log Rank|||||3.272|0.782|0.1938
92440356|NCT02981342|184766936|SUPERIORITY||Hazard Ratio (HR)|1.533||||0.2477|TWO_SIDED|95.0|0.746|3.15|||Log Rank|||||3.150|0.746|0.2477
92440357|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.65|STANDARD_ERROR_OF_MEAN|0.74||0.383|TWO_SIDED|95.0|-0.84|2.13|||Mixed Models Analysis|||Pain at its Worst in Last 24 Hours||2.13|-0.84|0.383
92440358|NCT02981342|184766938|SUPERIORITY||LSMean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.79||0.692|TWO_SIDED|95.0|-1.91|1.28|||Mixed Models Analysis|||Pain at its Worst in Last 24 Hours||1.28|-1.91|0.692
92440359|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.66||0.469|TWO_SIDED|95.0|-0.85|1.8|||Mixed Models Analysis|||Pain at its Least in Last 24 Hours||1.80|-0.85|0.469
92440360|NCT02981342|184766938|SUPERIORITY||LSMean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.776|TWO_SIDED|95.0|-1.62|1.22|||Mixed Models Analysis|||Pain at its Least in Last 24 Hours||1.22|-1.62|0.776
92440361|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.7||0.328|TWO_SIDED|95.0|-0.72|2.11|||Mixed Models Analysis|||Pain on the Average||2.11|-0.72|0.328
92440362|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.74||0.954|TWO_SIDED|95.0|-1.45|1.54|||Mixed Models Analysis|||Pain on the Average||1.54|-1.45|0.954
92440363|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.75|STANDARD_ERROR_OF_MEAN|0.8||0.35|TWO_SIDED|95.0|-0.85|2.36|||Mixed Models Analysis|||Pain Right Now||2.36|-0.85|0.350
92440364|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.72|STANDARD_ERROR_OF_MEAN|0.85||0.405|TWO_SIDED|95.0|-1.01|2.44|||Mixed Models Analysis|||Pain right now.||2.44|-1.01|0.405
92440365|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.73||0.565|TWO_SIDED|95.0|-1.06|1.91|||Mixed Models Analysis|||Pain Interfered General Activity||1.91|-1.06|0.565
92440366|NCT02981342|184766938|SUPERIORITY||LSMean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.79||0.848|TWO_SIDED|95.0|-1.74|1.43|||Mixed Models Analysis|||Pain Interfered General Activity||1.43|-1.74|0.848
92440367|NCT02981342|184766938|SUPERIORITY||LSMean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.65||0.928|TWO_SIDED|95.0|-1.37|1.25|||Mixed Models Analysis|||Pain Interfered with Mood||1.25|-1.37|0.928
92440368|NCT02981342|184766938|SUPERIORITY||LSMean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.69||0.65|TWO_SIDED|95.0|-1.71|1.08|||Mixed Models Analysis|||Pain Interfered with Mood||1.08|-1.71|0.650
92440369|NCT02981342|184766938|SUPERIORITY||LSMean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.86||0.865|TWO_SIDED|95.0|-1.89|1.6|||Mixed Models Analysis|||Pain Interfered Walking Ability||1.60|-1.89|0.865
92440370|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.92||0.497|TWO_SIDED|95.0|-1.23|2.5|||Mixed Models Analysis|||Pain Interfered Walking Ability||2.50|-1.23|0.497
92440371|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.89|STANDARD_ERROR_OF_MEAN|0.8||0.272|TWO_SIDED|95.0|-0.72|2.5|||Mixed Models Analysis|||Pain Interfered with Normal Work||2.50|-0.72|0.272
92440372|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.47|STANDARD_ERROR_OF_MEAN|0.85||0.583|TWO_SIDED|95.0|-1.25|2.19|||Mixed Models Analysis|||Pain Interfered with Normal Work||2.19|-1.25|0.583
92239954|NCT00570739|184383786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65||||0.0117|TWO_SIDED|95.0|0.82|6.47|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||6.47|0.82|0.0117
92440373|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.82||0.876|TWO_SIDED|95.0|-1.53|1.79|||Mixed Models Analysis|||Pain Interfered with Relations||1.79|-1.53|0.876
92440374|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.88||0.644|TWO_SIDED|95.0|-1.37|2.19|||Mixed Models Analysis|||Pain Interfered with relations.||2.19|-1.37|0.644
92440375|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.75|STANDARD_ERROR_OF_MEAN|0.85||0.384|TWO_SIDED|95.0|-0.97|2.48|||Mixed Models Analysis|||Pain Interfered with Sleep||2.48|-0.97|0.384
92440376|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.89||0.318|TWO_SIDED|95.0|-0.9|2.71|||Mixed Models Analysis|||||2.71|-0.90|0.318
92440377|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.81|STANDARD_ERROR_OF_MEAN|0.97||0.407|TWO_SIDED|95.0|-1.15|2.78|||Mixed Models Analysis|||Pain Interfered Enjoyment of Life||2.78|-1.15|0.407
92440378|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.52|STANDARD_ERROR_OF_MEAN|1.04||0.62|TWO_SIDED|95.0|-1.58|2.62|||Mixed Models Analysis|||Pain Interfered Enjoyment of Life||2.62|-1.58|0.620
92440379|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.7||0.475|TWO_SIDED|95.0|-0.9|1.91|||Mixed Models Analysis|||BPI-Mean Interference Score||1.91|-0.90|0.475
92440380|NCT02981342|184766938|SUPERIORITY||LSMean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.74||0.54|TWO_SIDED|95.0|-1.04|1.96|||Mixed Models Analysis|||BPI-Mean Interference Score||1.96|-1.04|0.540
92440381|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-1.39|STANDARD_ERROR_OF_MEAN|5.98||0.818|TWO_SIDED|95.0|-13.46|10.68|||Mixed Models Analysis|||Global health status||10.68|-13.46|0.818
92440382|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-3.8|STANDARD_ERROR_OF_MEAN|6.06||0.533|TWO_SIDED|95.0|-16.03|8.42|||Mixed Models Analysis|||Global health status||8.42|-16.03|0.533
92440383|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-2.79|STANDARD_ERROR_OF_MEAN|6.75||0.681|TWO_SIDED|95.0|-16.4|10.82|||Mixed Models Analysis|||Functional Scales: Physical functioning||10.82|-16.40|0.681
92440384|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-9.02|STANDARD_ERROR_OF_MEAN|6.75||0.189|TWO_SIDED|95.0|-22.63|4.59|||Mixed Models Analysis|||Functional Scales: Physical functioning||4.59|-22.63|0.189
92440385|NCT02981342|184766939|SUPERIORITY||LSMean Difference|0.96|STANDARD_ERROR_OF_MEAN|9.54||0.921|TWO_SIDED|95.0|-18.29|20.21|||Mixed Models Analysis|||Functional Scales: Role functioning||20.21|-18.29|0.921
92440386|NCT02981342|184766939|SUPERIORITY||LSMean Difference|0.01|STANDARD_ERROR_OF_MEAN|9.62||0.999|TWO_SIDED|95.0|-19.4|19.42|||Mixed Models Analysis|||Functional Scales: Role functioning.||19.42|-19.40|0.999
92440387|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-4.26|STANDARD_ERROR_OF_MEAN|6.91||0.541|TWO_SIDED|95.0|-18.2|9.68|||Mixed Models Analysis|||Functional Scales: Emotional functioning||9.68|-18.20|0.541
92440388|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-6.95|STANDARD_ERROR_OF_MEAN|7.05||0.33|TWO_SIDED|95.0|-21.17|7.27|||Mixed Models Analysis|||Functional Scales: Emotional functioning||7.27|-21.17|0.330
92440389|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-2.04|STANDARD_ERROR_OF_MEAN|6.29||0.747|TWO_SIDED|95.0|-14.74|10.66|||Mixed Models Analysis|||Functional Scales: Cognitive Functioning||10.66|-14.74|0.747
92440390|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-5.25|STANDARD_ERROR_OF_MEAN|6.43||0.419|TWO_SIDED|95.0|-18.22|7.73|||Mixed Models Analysis|||Functional Scales: Cognitive functioning||7.73|-18.22|0.419
92440391|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-4.02|STANDARD_ERROR_OF_MEAN|7.53||0.596|TWO_SIDED|95.0|-19.23|11.19|||Mixed Models Analysis|||Functional Scales: Social functioning||11.19|-19.23|0.596
92440392|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-19.12|STANDARD_ERROR_OF_MEAN|7.71||0.017|TWO_SIDED|95.0|-34.68|-3.55|||Mixed Models Analysis|||Functional Scales: Social functioning||-3.55|-34.68|0.017
92440393|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-0.77|STANDARD_ERROR_OF_MEAN|7.57||0.919|TWO_SIDED|95.0|-16.03|14.49||Social Scales: Fatigue|Mixed Models Analysis|||Symptoms Scales: Fatigue||14.49|-16.03|0.919
92440394|NCT02981342|184766939|SUPERIORITY||LSMean Difference|8.48|STANDARD_ERROR_OF_MEAN|7.54||0.267|TWO_SIDED|95.0|-6.72|23.69|||Mixed Models Analysis|||Symptom Scales: Fatigue||23.69|-6.72|0.267
92440395|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-1.45|STANDARD_ERROR_OF_MEAN|8.54||0.866|TWO_SIDED|95.0|-18.66|15.77|||Mixed Models Analysis|||Symptom Scales: Nausea and Vomiting||15.77|-18.66|0.866
92440396|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-3.9|STANDARD_ERROR_OF_MEAN|8.59||0.652|TWO_SIDED|95.0|-21.23|13.43|||Mixed Models Analysis|||Symptom Scales: Nausea and Vomiting||13.43|-21.23|0.652
92440397|NCT02981342|184766939|SUPERIORITY||LSMean Difference|7.11|STANDARD_ERROR_OF_MEAN|8.67||0.417|TWO_SIDED|95.0|-10.39|24.6|||Mixed Models Analysis|||Symptom Scales: Pain||24.60|-10.39|0.417
92440398|NCT02981342|184766939|SUPERIORITY||LSMean Difference|4.36|STANDARD_ERROR_OF_MEAN|8.69||0.618|TWO_SIDED|95.0|-13.16|21.89|||Mixed Models Analysis|||Symptom Scales: Pain||21.89|-13.16|0.618
92440399|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-10.84|STANDARD_ERROR_OF_MEAN|8.44||0.206|TWO_SIDED|95.0|-27.85|6.18|||Mixed Models Analysis|||Symptom Scales: Dyspnoea||6.18|-27.85|0.206
92440400|NCT02981342|184766939|SUPERIORITY||LSMean Difference|4.86|STANDARD_ERROR_OF_MEAN|8.4||0.566|TWO_SIDED|95.0|-12.08|21.8|||Mixed Models Analysis|||Symptom Scales: Dyspnoea||21.80|-12.08|0.566
92440401|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-7.02|STANDARD_ERROR_OF_MEAN|7.93||0.38|TWO_SIDED|95.0|-23.01|8.96|||Mixed Models Analysis|||Symptom Scales: Insomnia||8.96|-23.01|0.380
92440402|NCT02981342|184766939|SUPERIORITY||LSMean Difference|1.52|STANDARD_ERROR_OF_MEAN|7.99||0.85|TWO_SIDED|95.0|-14.6|17.64|||Mixed Models Analysis|||Symptom Scales: Insomnia||17.64|-14.60|0.850
92440403|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-2.79|STANDARD_ERROR_OF_MEAN|8.91||0.756|TWO_SIDED|95.0|-20.78|15.21|||Mixed Models Analysis|||Symptom Scales: Appetite loss||15.21|-20.78|0.756
92440404|NCT02981342|184766939|SUPERIORITY||LSMean Difference|3.02|STANDARD_ERROR_OF_MEAN|9.31||0.747|TWO_SIDED|95.0|-15.77|21.82|||Mixed Models Analysis|||Symptom Scales: Appetite loss||21.82|-15.77|0.747
92440405|NCT02981342|184766939|SUPERIORITY||LSMean Difference|9.47|STANDARD_ERROR_OF_MEAN|9.23||0.311|TWO_SIDED|95.0|-9.16|28.09|||Mixed Models Analysis|||Symptom Scales: Constipation||28.09|-9.16|0.311
92440406|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-9.97|STANDARD_ERROR_OF_MEAN|9.3||0.29|TWO_SIDED|95.0|-28.75|8.8|||Mixed Models Analysis|||Symptom Scales: Constipation||8.80|-28.75|0.290
92440407|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-10.57|STANDARD_ERROR_OF_MEAN|10.58||0.323|TWO_SIDED|95.0|-31.93|10.78|||Mixed Models Analysis|||Symptom Scales: Diarrhoea||10.78|-31.93|0.323
92440408|NCT02981342|184766939|SUPERIORITY||LSMean Difference|-4.8|STANDARD_ERROR_OF_MEAN|10.54||0.651|TWO_SIDED|95.0|-26.08|16.48|||Mixed Models Analysis|||Symptom Scales: Diarrhoea||16.48|-26.08|0.651
92440409|NCT02981342|184766939|SUPERIORITY||LSMean Difference|1.51|STANDARD_ERROR_OF_MEAN|7.47||0.841|TWO_SIDED|95.0|-13.57|16.59|||Mixed Models Analysis|||Symptom Scales: Financial Difficulties||16.59|-13.57|0.841
92238080|NCT03151148|184380358|SUPERIORITY||Geometric mean ratio (GMR)|0.09||||0.017|TWO_SIDED|95.0|0.013|0.651|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.651|0.013|0.017
92440410|NCT02981342|184766939|SUPERIORITY||LSMean Difference|7.26|STANDARD_ERROR_OF_MEAN|7.57||0.344|TWO_SIDED|95.0|-8.03|22.54|||Mixed Models Analysis|||Symptom Scales: Financial Difficulties||22.54|-8.03|0.344
92440411|NCT00112502|184766993|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.8|1.7||||||||1.7|0.8|
92440412|NCT00112502|184766994|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.6|1.2||||||||1.2|0.6|
92440413|NCT00112502|184766995|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.9|1.8||||||||1.8|0.9|
92440414|NCT00112502|184766996|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.6|1.3||||||||1.3|0.6|
92440415|NCT00112502|184766998|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.7|1.5||||||||1.5|0.7|
92440416|NCT00112502|184766999|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.2||||||||1.2|0.5|
92440417|NCT00112502|184767000|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.8|1.8||||||||1.8|0.8|
92440418|NCT00112502|184767001|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.5|1.1||||||||1.1|0.5|
92238081|NCT03151148|184380358|SUPERIORITY||Geometric mean ratio (GMR)|0.04||||0.001|TWO_SIDED|95.0|0.007|0.292|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.292|0.007|0.001
92440419|NCT02094716|184767085|SUPERIORITY|||||||0.6084|||||||Chi-squared|||||||0.6084
92440420|NCT02094716|184767087|SUPERIORITY|||||||0.6937|||||||Chi-squared|||||||0.6937
92440421|NCT02094716|184767088|SUPERIORITY|||||||0.101|||||||Fisher Exact|||||||0.1010
92440422|NCT02094716|184767088|SUPERIORITY|||||||0.0764|||||||Fisher Exact|||||||0.0764
92440423|NCT01203046|184767112|NON_INFERIORITY_OR_EQUIVALENCE|It was used for the calculation of statistical power an author of 5% level, it was felt that the difference between the minimum value of non inferiority does not exceed 10%.|Odds Ratio (OR)|2.65|||<|0.05|TWO_SIDED|95.0|0.35|19.83|||Regression, Logistic|||||19.83|0.35|<0.05
92440424|NCT01203046|184767113|NON_INFERIORITY_OR_EQUIVALENCE|Consider a 5% confidence level, the power of assigned contrast was 80% to detect a difference minima of at least 10% of equivalence between the analyzed groups.|Odds Ratio (OR)|1.18|||<|0.05|TWO_SIDED|95.0|0.21|6.51|||Regression, Logistic|||||6.51|0.21|<0.05
92440425|NCT03814746|184767114|SUPERIORITY||Rate ratio|1.08|||>|0.999|TWO_SIDED|95.0|0.76|1.55|||negative binomial regression model|||||1.55|0.76|> 0.999
92440426|NCT03814746|184767114|SUPERIORITY||Rate ratio|0.89|||>|0.999|TWO_SIDED|95.0|0.62|1.27|||negative binomial regression model|||||1.27|0.62|> 0.999
92440427|NCT03814746|184767115|SUPERIORITY||Rate ratio|1.21|||||TWO_SIDED|95.0|0.87|1.7|||negative binomial regression model|||||1.70|0.87|
92440428|NCT03814746|184767115|SUPERIORITY||Rate ratio|0.83|||||TWO_SIDED|95.0|0.59|1.17|||negative binomial regression model|||||1.17|0.59|
92440429|NCT03814746|184767120|SUPERIORITY||Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|0.92|1.97|||Cox Model|for time to first occurrence of VOC||||1.97|0.92|
92440430|NCT03814746|184767120|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.72|1.58|||Cox Model|for time to first occurrence of VOC||||1.58|0.72|
92440431|NCT03814746|184767120|SUPERIORITY|for time to second occurrence of VOC|Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.81|2.04|||Cox Model|||||2.04|0.81|
92440432|NCT03814746|184767120|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.59|1.54|||Cox Model|for time to second occurrence of VOC||||1.54|0.59|
92440433|NCT03814746|184767121|SUPERIORITY||Rate ratio|1.03|||||TWO_SIDED|95.0|0.75|1.43|||Negative binomial regression model|for the Annualized rate of all visits to clinics, emergency rooms and hospitalizations||||1.43|0.75|
92440434|NCT03814746|184767121|SUPERIORITY||Rate ratio|0.82|||||TWO_SIDED|95.0|0.59|1.14|||Negative binomial regression model|for the Annualized rate of all visits to clinics, emergency rooms and hospitalizations||||1.14|0.59|
92440435|NCT03814746|184767121|SUPERIORITY||Rate ratio|1.11|||||TWO_SIDED|95.0|0.77|1.59|||Negative binomial regression model|for the Annualized rate of VOC-related visits to clinics, emergency rooms and hospitalizations||||1.59|0.77|
92440436|NCT03814746|184767121|SUPERIORITY||Rate ratio|0.87|||||TWO_SIDED|95.0|0.6|1.25|||Negative binomial regression model|for the Annualized rate of VOC-related visits to clinics, emergency rooms and hospitalizations||||1.25|0.60|
92440437|NCT03814746|184767122|SUPERIORITY||Rate ratio|1.34|||||TWO_SIDED|95.0|0.85|2.09|||Negative binomial regression model|for the Annualized days of all visits to clinics, emergency rooms and hospitalizations||||2.09|0.85|
92440438|NCT03814746|184767122|SUPERIORITY||Rate ratio|0.88|||||TWO_SIDED|95.0|0.57|1.38|||Negative binomial regression model|for the Annualized days of all visits to clinics, emergency rooms and hospitalizations||||1.38|0.57|
92440439|NCT03814746|184767122|SUPERIORITY||Rate ratio|1.27|||||TWO_SIDED|95.0|0.77|2.09|||Negative binomial regression model|for the Annualized days of VOC-related visits to clinics, emergency rooms and hospitalizations||||2.09|0.77|
92440440|NCT03814746|184767122|SUPERIORITY||Rate ratio|0.87|||||TWO_SIDED|95.0|0.52|1.44|||Negative binomial regression model|for the Annualized days of VOC-related visits to clinics, emergency rooms and hospitalizations||||1.44|0.52|
92440441|NCT01817725|184767183|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92440442|NCT00909779|184767185|NON_INFERIORITY_OR_EQUIVALENCE|"The study was powered under a one-sided alternative hypothesis, in which arformoterol is superior to placebo, with a hazard ratio of 0.80 or less. To achieve 80% power, it was necessary to observe 86 total events for the primary endpoint adjusted for interim analysis. Assuming an annual event proportion of 17.3% in the placebo group and 30% lost to follow-up, we anticipated to randomize approximately 900 subjects (450 per arm).~The non-inferiority margin for the hazard ratio is 1.4."|Hazard Ratio (HR)|0.606|||||TWO_SIDED|95.0|0.425|0.864|||Regression, Cox||Hazard ratio was calculated as arformoterol vs. placebo.|"The null hypothesis is: There is 40% or higher excess risk of the primary events in the arformoterol group relative to placebo (a constant hazard ratio of 1.4).~The primary analysis was a Cox proportional hazards regression model, with treatment group, baseline smoking status, sex, age, BMI, and baseline FEV1 as covariates. The hazard ratio and 90% two-sided confidence interval for the hazard ratio (adjusted for the interim analysis) comparing arformoterol to placebo were estimated."||0.864|0.425|
92440443|NCT00561080|184767249|NON_INFERIORITY_OR_EQUIVALENCE|Superiority was achieved if the lower bound of the 2-sided 95% CI of the GMT ratio was greater than 1.2|Geometric Mean Titer Ratio (GMTR)|1.11||||0.948|TWO_SIDED|95.0|1.02|1.22|||ANOVA||GMTR = GMT Post Dose 2/GMT Post dose 1|||1.22|1.02|0.948
92440444|NCT00561080|184767249|NON_INFERIORITY_OR_EQUIVALENCE|Superiority was achieved if the lower bound of the 2-sided 95% CI of the GMT ratio was greater than 1.2|GMTR|0.78|||>|0.999|TWO_SIDED|95.0|0.73|0.85|||ANOVA||GMTR = GMT Post Dose 2/GMT Post dose 1|||0.85|0.73|>0.999
92440445|NCT00561080|184767250|SUPERIORITY_OR_OTHER||GMFR|2.35|||||TWO_SIDED|95.0|2.11|2.62|||||GMFR=GMT Post Dose/GMT Pre Dose|||2.62|2.11|
92440446|NCT00561080|184767252|SUPERIORITY_OR_OTHER||GMT Ratio|1.06|||||TWO_SIDED|95.0|0.96|1.17|||||GMT Ratio = Group 2 GMT/Group 1 GMT|ANCOVA model includes country and age at first vaccination as independent variables and baseline antibody titre as covariate. The GMT 12-month post-last dose is the GMT adjusted from the ANCOVA model||1.17|0.96|
92440447|NCT00561080|184767252|SUPERIORITY_OR_OTHER||GMT Ratio|1.08|||||TWO_SIDED|95.0|0.98|1.19|||||GMT Ratio = GMT Group 3/GMT Group 1|ANCOVA model includes country and age at first vaccination as independent variables and baseline antibody titre as covariate. The GMT 12-month post-last dose is the GMT adjusted from the ANCOVA model||1.19|0.98|
92440448|NCT02295995|184767273|OTHER|||||||||||||||||The between-group difference at 12 weeks \[mean difference (MD) and 95% Confidence Interval\] was calculated for all outcome measures. Cohen's d effect sizes were calculated as the difference in mean-level change (from baseline to 12 weeks) between the two groups divided by the standard deviation (SD) and is interpreted as d=0.20 (small), d=0.50 (medium), and d=0.80 (large). Cohen's d for physical activity in this sample was 1.37|Cohen's d calculated as the change from baseline to 12 weeks in both groups.|||
92440449|NCT02295995|184767274|OTHER|||||||||||||||||The between-group difference at 12 weeks \[mean difference (MD) and 95% Confidence Interval\] was calculated for all outcome measures. Cohen's d effect sizes were calculated as the difference in mean-level change (from baseline to 12 weeks) between the two groups divided by the standard deviation (SD) and is interpreted as d=0.20 (small), d=0.50 (medium), and d=0.80 (large). Cohen's d for PCL-5 in this sample was 0.38|Cohen's d calculated as the change from baseline to 12 weeks in both groups.|||
92440450|NCT02295995|184767275|OTHER|||||||||||||||||The between-group difference at 12 weeks \[mean difference (MD) and 95% Confidence Interval\] was calculated for all outcome measures. Cohen's d effect sizes were calculated as the difference in mean-level change (from baseline to 12 weeks) between the two groups divided by the standard deviation (SD) and is interpreted as d=0.20 (small), d=0.50 (medium), and d=0.80 (large). Cohen's d for 6-minute walk in this sample was 0.50|Cohen's d calculated as the change from baseline to 12 weeks in both groups.|||
92440451|NCT03649711|184767319|OTHER|Post treatment values were compared using ANCOVA||||||0.002|||||||ANCOVA|||||||0.002
92440452|NCT03649711|184767319|OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||mean changes in values were compared by Wilcoxon rank sum test adjusted for multiple comparisons (Bonferonni method) between CKD-ticagrelor arm, and the non-CKD controls||||0.18
92440453|NCT03649711|184767320|OTHER|||||||0.22|||||||ANCOVA|||CKD groups randomized were compared for post treatment values.||||0.22
92440454|NCT02117999|184767326|NON_INFERIORITY|Sample size calculation was performed to detect a difference of 0.95 D between the average Kmax changes for the T-ionto CL and standard CL groups at 12 months, at a significance level of 5% and a power of 81%, assuming a standard deviation of 1.20 D.|||||<|0.05|||||||ANOVA|||Analysis of changes from baseline in each group was made using the paired Student t-test. Treatment effects were assessed using repeated measures ANOVA between groups and time (3 days, 7 days, 1-, 3-, 6- and 12-months). The outcome measures over time were corrected for baseline values. The relationship between the change in Kmax at 12 months and baseline parameters was assessed using Pearson's correlation analysis for either group.||||<0.05
92440455|NCT02117999|184767327|NON_INFERIORITY|sample size calculation was performed to detect a difference of 0.95 D between the average Kmax changes for the T-ionto CL and standard CL groups at 12 months, at a significance level of 5% and a power of 81%, assuming a standard deviation of 1.20 D. The sample size of the study was 34 cases (allocation ratio of 2:1)|Mean Difference (Final Values)|35.0||||0.05|TWO_SIDED||||||ANOVA|||Analysis of changes from baseline in each group was made using the paired Student t-test. Treatment effects were assessed using repeated measures ANOVA between groups and time (3 days, 7 days, 1-, 3-, 6- and 12-months). The outcome measures over time were corrected for baseline values.||||0.05
92440456|NCT01331148|184767336|OTHER|||||||0.0507|||||||t-test, 2 sided|||Due to the longitudinal nature of the data and presence of missing values, repeated measures analyses were conducted using the MIXED procedure in SAS. Spearman's rank correlation coefficient was used to quantify the relationship between PedsQL scores with 25OHD concentrations and pain days. Two-way analysis of variance models compared PedsQL scores between treatment groups over time.||||0.0507
92440457|NCT01698463|184767343|OTHER||||||<|0.05||||||\<0.05 (threshold for significance).|Wilcoxon (Mann-Whitney)|||||||<0.05
92440458|NCT04709575|184767344|SUPERIORITY||linear mixed-effect model|-0.995||||0.0497|TWO_SIDED|95.0|-1.9886|-0.0011|||LS Mean Difference|||||-0.0011|-1.9886|0.0497
92280034|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|0.098||||0.3007|TWO_SIDED|95.0|-0.088|0.284||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.284|-0.088|0.3007
92440459|NCT02967692|184767363|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.042|TWO_SIDED|95.0|0.655|1.027|||Log Rank|||||1.027|0.655|0.042
92440460|NCT02967692|184767371|SUPERIORITY||Hazard Ratio (HR)|1.183||||0.2975|TWO_SIDED|95.0|0.865|1.619|||Log Rank|||||1.619|0.865|0.2975
92440461|NCT04447417|184767390|OTHER||Point estimate|0.43|||<=|0.0001|TWO_SIDED|90.0|0.37|0.49||One-sided p-value. Threshold for significance at 0.05 level.|linear mixed model||Point estimate obtained was back-transformed by exponentiation|TEWL data for linear mixed model was log-transformed to account for right skewness of data and heteroskedasticity. The linear mixed effect on log (TEWL) included age, sex, number of STS, localization on the body, visit, number of STS-by-visit interaction and number of STS-by-age interaction as fixed effects. Model was run on data on lesional skin area.||0.49|0.37|<=0.0001
92440462|NCT00066066|184767429|SUPERIORITY_OR_OTHER||||||>|0.05||||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in non-smokers was tested by comparing change in mean CAL in individuals at 3 months post-therapy.||||>0.05
92440463|NCT00066066|184767429|SUPERIORITY_OR_OTHER||||||>|0.05||||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in non-smokers was tested by comparing change in mean CAL in individuals at 6 months post-therapy.||||>0.05
92440464|NCT00066066|184767429|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in non-smokers was tested by comparing change in mean CAL in individuals at 12 months post-therapy.||||<0.05
92440465|NCT00066066|184767429|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in smokers was tested by comparing change in mean CAL in individuals at 3 months post-therapy.||||<0.05
92440466|NCT00066066|184767429|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in smokers was tested by comparing change in mean CAL in individuals at 6 months post-therapy.||||<0.05
92440467|NCT00066066|184767429|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in smokers was tested by comparing change in mean CAL in individuals at 12 months post-therapy.||||>0.05
92440468|NCT02155738|184767430|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Aim 1: Quantify the impact of IV acetaminophen on 1a) postoperative pain scores ... 1a) To achieve this aim, we will measure the degree of postoperative pain using visual analog scales (VAS) at multiple specified time points throughout the postoperative period; we report on change from Baseline VAS at 24 Hours Postop. Null Hypothesis is that there is no difference between subgroups in VAS scores. Sample size was determined considering significant differences in VAS scores.||||<0.05
92440469|NCT02155738|184767431|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||1b) We will use equianalgesic dosage tables to convert intra- and postoperative narcotics into morphine equivalents to compare narcotic requirements for the first week after surgery. We hypothesize that those patients receiving preemptive IV acetaminophen will have lower postoperative VAS scores and reduced narcotic requirements compared to placebo.||||<0.05
92440470|NCT01466348|184767442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.6||||0.0008|TWO_SIDED|95.0|1.5|5.6|||ANOVA|No baseline covariate adjustment was carried out.|A positive difference favors the paracetamol/ caffeine treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||5.6|1.5|0.0008
92440471|NCT01466348|184767443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.5|||<|0.0001|TWO_SIDED|95.0|4.5|8.4|||ANOVA|No baseline covariate adjustment was applied.|A positive difference favors the paracetamol/ caffeine treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||8.4|4.5|<0.0001
92440472|NCT03928847|184767465|SUPERIORITY|The mean EGCG blood levels were compared among 450 mg, 600 mg, and 750 mg groups.|Mean Difference (Net)|250.0|||||TWO_SIDED|||||||||||||
92440473|NCT03928847|184767466|OTHER|ELISA data from each patient before and after EGCG treatment were compared and analyzed with the use of the Wilcoxon signed-rank test (two-tailed).|||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92280035|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|0.143||||0.1295|TWO_SIDED|95.0|-0.042|0.328||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.328|-0.042|0.1295
92440474|NCT03928847|184767467|OTHER|ELISA data from each patient before and after EGCG treatment were compared and analyzed with the use of the Wilcoxon signed-rank test (two-tailed).|||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92440475|NCT03928847|184767468|OTHER||||||<|0.01|||||||Kruskal-Wallis|||||||<0.01
92440476|NCT03928847|184767469|OTHER||||||<|0.01|||||||Kruskal-Wallis|||||||<0.01
92440477|NCT03928847|184767470|OTHER||||||<|0.01|||||||Kruskal-Wallis|||||||<0.01
92440478|NCT00914810|184767472|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.55|TWO_SIDED|95.0|-0.8|1.5|||t-test, 2 sided|||||1.5|-0.8|0.55
92440479|NCT00914810|184767473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.5|||<|0.0001|TWO_SIDED|95.0|7.4|13.6|||t-test, 2 sided|||||13.6|7.4|<0.0001
92440480|NCT01268111|184767484|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||t-test, 2 sided|||||||0.4
92440481|NCT02529137|184767486|NON_INFERIORITY|the non-inferiority margin was set at 4%|difference|0.4|||||TWO_SIDED|95.0|-0.3|1.01||||||||1.01|-0.30|
92440482|NCT01344447|184767493|SUPERIORITY_OR_OTHER||Percentage difference|22.3|||<|0.0001|TWO_SIDED|95.1|20.4||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Majority reader; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||20.4|<0.0001
92238082|NCT03151148|184380358|SUPERIORITY||Geometric mean ratio (GMR)|2.42||||0.358|TWO_SIDED|95.0|0.366|15.967|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||15.967|0.366|0.358
92238083|NCT03151148|184380358|SUPERIORITY||Geometric mean ratio (GMR)|0.1||||0.019|TWO_SIDED|95.0|0.016|0.683|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.683|0.016|0.019
92238084|NCT03151148|184380358|SUPERIORITY||Geometric mean ratio (GMR)|0.11||||0.023|TWO_SIDED|95.0|0.017|0.739|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.739|0.017|0.023
92280036|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.028||||0.7671|TWO_SIDED|95.0|-0.216|0.159||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.159|-0.216|0.7671
92440483|NCT01344447|184767493|SUPERIORITY_OR_OTHER||Percentage difference|63.8|||<|0.0001|TWO_SIDED|95.1|60.9||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Blinded reader 1; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||60.9|<0.0001
92440484|NCT01344447|184767493|SUPERIORITY_OR_OTHER||Percentage difference|19.6|||<|0.0001|TWO_SIDED|95.1|17.8||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Blinded reader 2; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||17.8|<0.0001
92238085|NCT03151148|184380358|SUPERIORITY||Geometric mean ratio (GMR)|0.09||||0.017|TWO_SIDED|95.0|0.013|0.647|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.647|0.013|0.017
92238086|NCT03151148|184380358|SUPERIORITY||Geometric mean ratio (GMR)|0.37||||0.299|TWO_SIDED|95.0|0.056|2.436|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.436|0.056|0.299
92239955|NCT00570739|184383786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.43||||0.0009|TWO_SIDED|95.0|1.83|7.03|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||7.03|1.83|0.0009
92239956|NCT00570739|184383787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.56|||<|0.0001|TWO_SIDED|95.0|-14.74|-8.38|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||-8.38|-14.74|<0.0001
92280037|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|0.01||||0.9308|TWO_SIDED|95.0|-0.217|0.238||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.238|-0.217|0.9308
92280038|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|0.051||||0.6595|TWO_SIDED|95.0|-0.176|0.277||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.277|-0.176|0.6595
92280039|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.127||||0.2771|TWO_SIDED|95.0|-0.356|0.102||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.102|-0.356|0.2771
92280040|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.203||||0.0887|TWO_SIDED|95.0|-0.436|0.031||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.031|-0.436|0.0887
92280041|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.21||||0.0758|TWO_SIDED|95.0|-0.443|0.022||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.022|-0.443|0.0758
92440485|NCT01344447|184767493|SUPERIORITY_OR_OTHER||Percentage difference|15.0|||<|0.0001|TWO_SIDED|95.1|13.3||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Blinded reader 3; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||13.3|<0.0001
92440486|NCT01344447|184767493|SUPERIORITY_OR_OTHER||Percentage difference|18.5|||<|0.0001|TWO_SIDED|95.1|16.5||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Clinical investigator; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||16.5|<0.0001
92440487|NCT01344447|184767494|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|5.7|||||TWO_SIDED|95.1|-3.6||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Majority reader; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-3.6|
92440488|NCT01344447|184767494|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|5.1|||||TWO_SIDED|95.1|-5.4||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 1; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-5.4|
92440489|NCT01344447|184767494|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|5.1|||||TWO_SIDED|95.1|-4.7||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 2; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-4.7|
92440490|NCT01344447|184767494|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|3.2|||||TWO_SIDED|95.1|-5.9||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 3; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-5.9|
92440491|NCT01344447|184767494|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|21.5|||||TWO_SIDED|95.1|14.1||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Clinical investigator; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||14.1|
92440492|NCT01344447|184767495|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|8.8|||||TWO_SIDED|95.1|7.7||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Majority reader; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||7.7|
92440493|NCT01344447|184767495|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|30.3|||||TWO_SIDED|95.1|28.6||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 1; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||28.6|
92440494|NCT01344447|184767495|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|9.7|||||TWO_SIDED|95.1|8.5||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 2; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||8.5|
92440495|NCT01344447|184767495|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|7.6|||||TWO_SIDED|95.1|6.6||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 3; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||6.6|
92238087|NCT03151148|184380359|SUPERIORITY||Geometric mean ratio (GMR)|1.49||||0.538|TWO_SIDED|95.0|0.415|5.38|||Mixed Models Analysis|||"TMT vs Placebo on Lesional Skin at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."|All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|5.380|0.415|0.538
92440496|NCT01344447|184767495|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|9.1|||||TWO_SIDED|95.1|7.9||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Clinical investigator; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||7.9|
92440497|NCT01344447|184767496|SUPERIORITY_OR_OTHER||percentage|61.7|||||ONE_SIDED|95.1|55.3||||One sided 95.1% confidence interval|||Majority reader|||55.3|
92440498|NCT01344447|184767496|SUPERIORITY_OR_OTHER||percentage|60.3|||||ONE_SIDED|95.1|53.6||||One sided 95.1% confidence interval|||Blinded Reader 1|||53.6|
92440499|NCT01344447|184767496|SUPERIORITY_OR_OTHER||percentage|59.6|||||ONE_SIDED|95.1|53.1||||One sided 95.1% confidence interval|||Blinded Reader 2|||53.1|
92440500|NCT01344447|184767496|SUPERIORITY_OR_OTHER||percentage|58.7|||||ONE_SIDED|95.1|52.2||||One sided 95.1% confidence interval|||Blinded Reader 3|||52.2|
92440501|NCT01344447|184767496|SUPERIORITY_OR_OTHER||percentage|61.5|||||ONE_SIDED|95.1|56.7||||One sided 95.1% confidence interval|||Clinical investigator|||56.7|
92440502|NCT01344447|184767497|SUPERIORITY_OR_OTHER||percentage|98.0|||||ONE_SIDED|95.1|97.7||||One sided 95.1% confidence interval|||Majority reader|||97.7|
92440503|NCT01344447|184767497|SUPERIORITY_OR_OTHER||percentage|97.6|||||ONE_SIDED|95.1|97.3||||One sided 95.1% confidence interval|||Blinded Reader 1|||97.3|
92440504|NCT01344447|184767497|SUPERIORITY_OR_OTHER||percentage|97.2|||||ONE_SIDED|95.1|96.9||||One sided 95.1% confidence interval|||Blinded Reader 2|||96.9|
92440505|NCT01344447|184767497|SUPERIORITY_OR_OTHER||percentage|98.0|||||ONE_SIDED|95.1|97.7||||One sided 95.1% confidence interval|||Blinded Reader 3|||97.7|
92440506|NCT01344447|184767497|SUPERIORITY_OR_OTHER||percentage|99.2|||||ONE_SIDED|95.1|98.9||||One sided 95.1% confidence interval|||Clinical investigator|||98.9|
92440507|NCT01344447|184767498|SUPERIORITY_OR_OTHER||Diameter difference|0.21|STANDARD_DEVIATION|0.8|||||||||Mean Difference|||CTA Minus Unenhanced MRA for blinded Reader on vessel DIA at normal point||||
92440508|NCT01344447|184767498|SUPERIORITY_OR_OTHER||Diameter difference|0.0|STANDARD_DEVIATION|0.79|||||||||Mean Difference|||CTA minus Gadobutrol-Enhanced MRA for blinded reader on vessel DIA at normal point||||
92440509|NCT01344447|184767498|SUPERIORITY_OR_OTHER||Diameter difference|0.29|STANDARD_DEVIATION|0.87|||||||||Mean Difference|||CTA minus Unenhanced MRA for blinded reader on vessel DIA at narrowest point||||
92440510|NCT01344447|184767498|SUPERIORITY_OR_OTHER||Diameter difference|0.01|STANDARD_DEVIATION|0.8|||||||||Mean Difference|||CTA minus Gadobutrol-Enhanced MRA for blinded reader on vessel DIA at narrowest point||||
92440511|NCT01344447|184767498|SUPERIORITY_OR_OTHER||Diameter difference|0.48|STANDARD_DEVIATION|0.98|||||||||Mean Difference|||CTA minus Unenhanced MRA for clinical investigators on vessel DIA at normal point||||
92440512|NCT01344447|184767498|SUPERIORITY_OR_OTHER||Diameter difference|0.33|STANDARD_DEVIATION|1.01|||||||||Mean Difference|||CTA minus Gadobutrol-enhanced MRA for clinical investigators on vessel DIA at normal point||||
92440513|NCT01344447|184767498|SUPERIORITY_OR_OTHER||Diameter difference|0.02|STANDARD_DEVIATION|0.81|||||||||Mean Difference|||CTA minus Unenhanced MRA for clinical investigators on vessel DIA at narrowest point||||
92440514|NCT01344447|184767498|SUPERIORITY_OR_OTHER||Diameter difference|0.11|STANDARD_DEVIATION|0.79|||||||||Mean Difference|||CTA minus Gadobutrol-enhanced MRA for clinical investigators on vessel DIA at narrowest point||||
92440515|NCT00952341|184767520|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Regression, Logistic|||"Adjusted by gender and concomitant~chemotherapy.~The apriori significance level was set at 0.05.~There was no adjustment for multiplicity."||||0.007
92440516|NCT00952341|184767521|SUPERIORITY_OR_OTHER|||||||0.942||95.0|||||Regression, Logistic|||"Adjusted by gender and concomitant chemotherapy.~The apriori significance level was set at 0.05.~There was no adjustment for multiplicity."||||0.942
92440517|NCT00952341|184767522|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Regression, Logistic|||"Adjusted by gender and concomitant chemotherapy.~The apriori significance level was set at 0.05.~There was no adjustment for multiplicity."||||0.001
92440518|NCT00952341|184767523|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Regression, Logistic|||"Adjusted by gender and concomitant~chemotherapy."||||0.003
92440519|NCT00952341|184767524|SUPERIORITY_OR_OTHER|||||||0.882||95.0|||||Regression, Logistic|||Adjusted by gender and concomitant chemotherapy.||||0.882
92440520|NCT00952341|184767525|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Regression, Logistic|||Adjusted by gender and concomitant chemotherapy.||||0.001
92440521|NCT02066467|184767548|OTHER||||||<|0.0001|||||||exact binominal methodology|||||||<0.0001
92440522|NCT02066467|184767550|OTHER||||||<|0.0001|||||||exact binominal methodology|||||||<0.0001
92440523|NCT02357901|184767556|SUPERIORITY||||||<|0.0001||||||significance at the 0.025 level|Wilcoxon rank-sum test|||||||<0.0001
92440524|NCT02357901|184767556|SUPERIORITY||||||<|0.0001||||||significance at the 0.025 level|Wilcoxon rank-sum test|||||||<0.0001
92440525|NCT02357901|184767557|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Cochran-Mantel-Haenszel|||||||<0.0001
92440526|NCT02357901|184767557|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Cochran-Mantel-Haenszel|||||||<0.0001
92440527|NCT02357901|184767558|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Wilcoxon rank-sum test|||||||<0.0001
92440528|NCT02357901|184767558|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Wilcoxon rank-sum test|||||||<0.0001
92440529|NCT02357901|184767559|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Wilcoxon rank-sum test|||||||<0.0001
92440530|NCT02357901|184767559|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Wilcoxon rank-sum test|||||||<0.0001
92238088|NCT03151148|184380359|SUPERIORITY||Geometric mean ratio (GMR)|0.88||||0.849|TWO_SIDED|95.0|0.245|3.18|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.180|0.245|0.849
92440531|NCT02357901|184767560|SUPERIORITY||LSM difference|-9.4|STANDARD_ERROR_OF_MEAN|2.62||0.0003|TWO_SIDED|95.0|-14.56|-4.3||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-4.30|-14.56|0.0003
92440532|NCT02357901|184767560|SUPERIORITY||LSM difference|-12.4|STANDARD_ERROR_OF_MEAN|2.61|<|0.0001|TWO_SIDED|95.0|-17.51|-7.28||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-7.28|-17.51|<0.0001
92440533|NCT02357901|184767561|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|stratified by site||||||<0.0001
92440534|NCT02357901|184767561|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|stratified by site||||||<0.0001
92440535|NCT02357901|184767562|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|stratified by site||||||<0.0001
92440536|NCT02357901|184767562|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|stratified by site||||||<0.0001
92440537|NCT02357901|184767563|SUPERIORITY||LSM difference|-0.7|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.96|-0.46||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.46|-0.96|<0.0001
92440538|NCT02357901|184767563|SUPERIORITY||LSM difference|-0.9|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.12|-0.62||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.62|-1.12|<0.0001
92440539|NCT02357901|184767564|SUPERIORITY||LSM difference|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.89|-0.33||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.33|-0.89|<0.0001
92440540|NCT02357901|184767564|SUPERIORITY||LSM difference|-0.7|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.97|-0.41||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.41|-0.97|<0.0001
92440541|NCT02357901|184767565|SUPERIORITY||LSM difference|-0.4|STANDARD_ERROR_OF_MEAN|0.38||0.3143|TWO_SIDED|95.0|-1.13|0.36||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||0.36|-1.13|0.3143
92440542|NCT02357901|184767565|SUPERIORITY||LSM difference|-1.0|STANDARD_ERROR_OF_MEAN|0.38||0.0101|TWO_SIDED|95.0|-1.72|-0.23||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.23|-1.72|0.0101
92440543|NCT02357901|184767566|SUPERIORITY||LSM difference|-1.6|STANDARD_ERROR_OF_MEAN|0.87||0.0726|TWO_SIDED|95.0|-3.29|0.14||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||0.14|-3.29|0.0726
92239957|NCT00570739|184383787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.53||||0.0001|TWO_SIDED|95.0|-13.14|-5.92|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||-5.92|-13.14|0.0001
92440544|NCT02357901|184767566|SUPERIORITY||LSM difference|-2.6|STANDARD_ERROR_OF_MEAN|0.87||0.0028|TWO_SIDED|95.0|-4.32|-0.9||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.90|-4.32|0.0028
92239958|NCT00570739|184383787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.97|||<|0.0001|TWO_SIDED|95.0|-11.35|-4.59|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||-4.59|-11.35|<0.0001
92239959|NCT00570739|184383788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.57||||0.0003|TWO_SIDED|95.0|5.76|19.38|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||19.38|5.76|0.0003
92239960|NCT00570739|184383788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.52||||0.0003|TWO_SIDED|95.0|6.64|22.4|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||22.40|6.64|0.0003
92440545|NCT02357901|184767567|SUPERIORITY||LSM difference|7.5|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|5.81|9.2||Significance level of 0.05.|ANOVA|a random effects ANOVA model with treatment included as fixed effect and center as random effect.||||9.20|5.81|<0.0001
92239961|NCT00570739|184383788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.08|||<|0.0001|TWO_SIDED|95.0|7.95|22.2|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||22.20|7.95|<0.0001
92440546|NCT02357901|184767567|SUPERIORITY||LSM difference|7.5|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|5.82|9.21||Significance level of 0.05.|ANOVA|a random effects ANOVA model with treatment included as fixed effect and center as random effect.||||9.21|5.82|<0.0001
92239962|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.84||||0.0363|TWO_SIDED|95.0|0.44|13.24||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Very Low Density Lipoprotein (VLDL) Particles||13.24|0.44|0.0363
92440547|NCT04259762|184767571|OTHER|This is a summary of the total number of participants in the focus groups who endorsed the particular theme.|Proportion endorsing themes|1.0|||||TWO_SIDED|||||||||All focus groups were summarized together and, therefore, the denominators (N=85 \[Community\], N=11 \[Provider\]) for each theme are the same. Further, the focus groups only made qualitative (and no quantitative) assessments/endoresement of themes. No formal comparisons among groups were made.||||
92440548|NCT04259762|184767573|OTHER|Formal statistical comparisons were not made.|Proportion endorsing attempt to screen|0.567|||||TWO_SIDED|95.0|0.303|0.831|||||"Pooled estimate of attempt to screening. Using R:~n1 \<- c(20,28,11,15,26,23,21); nt \<- c(45,50,45,50,50,50,22) p1 \<- n1/nt; v1 \<- p1\*(1-p1)/nt fit \<- lm(p1 \~ 1,weight=1/v1) summary(fit)$coef\[1\] + qt(.975,6)\*c(0,-1,1)\*summary(fit)$coef\[2\]"|||0.831|0.303|
92440549|NCT03453684|184767574|OTHER||Overall SE of the estimate|0.009|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.45 Standard error of the estimate of w\^2: 0.39|||||
92440550|NCT03453684|184767575|OTHER||Overall Standard Error of the Estimate|9.85|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.61 Standard error of the estimate of ꙍ\^2 (intersubject variability): \^a (fixed to 0)|||||
92440551|NCT03453684|184767576|OTHER||Overall Standard Error of the Estimate|8.37|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.02 Standard error of the estimate of ꙍ\^2 (intersubject variability): \^a (fixed to 0)|||||
92440552|NCT03453684|184767577|OTHER||Overall Standard Error of the Estimate|4.83|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.003 Standard error of the estimate of ꙍ\^2 (intersubject variability): 0.03|||||
92440553|NCT03453684|184767578|OTHER||Overall Standard Error of the Estimate|17.21|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.13|||||
92440554|NCT03453684|184767579|OTHER||SE of the estimate of Typical Value|0.2|||||TWO_SIDED|||||||||||||
92440555|NCT03453684|184767580|OTHER||SE of the estimate of Typical Value|2.1|||||TWO_SIDED||||||||Standard error of the estimate of Typical value should be read as: 2.1E-06 Standard error of the estimate of ꙍ\^2 (intersubject variability): 0.24|||||
92440556|NCT03453684|184767581|OTHER||SE of the estimate of Typical Value|2.3|||||TWO_SIDED||||||||Standard error of the estimate of ꙍ\^2 (intersubject variability): 0.08|||||
92440557|NCT03453684|184767582|OTHER||Overall Standard Error of the Estimate|10.8|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.02|||||
92440558|NCT03453684|184767583|OTHER||SE of the estimate of Typical Value|0.9|||||TWO_SIDED|||||||||||||
92440559|NCT02759120|184767625|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.83|TWO_SIDED|95.0|0.71|1.53|||Regression, Cox|||||1.53|0.71|0.83
92440560|NCT02759120|184767626|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.65|TWO_SIDED|95.0|0.7|1.78|||Regression, Cox|||||1.78|0.70|0.65
92440561|NCT02759120|184767627|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.25|TWO_SIDED|95.0|0.82|2.17|||Regression, Cox|||||2.17|0.82|0.25
92280042|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.298||||0.0132|TWO_SIDED|95.0|-0.534|-0.063||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.063|-0.534|0.0132
92440562|NCT02759120|184767628|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.13|TWO_SIDED|95.0|0.91|2.01|||Regression, Cox|||||2.01|0.91|0.13
92440563|NCT02759120|184767629|SUPERIORITY||Risk Ratio (RR)|1.21||||0.4|TWO_SIDED|95.0|0.78|1.89|||Regression, Cox|||||1.89|0.78|0.40
92440564|NCT02759120|184767630|SUPERIORITY||Risk Ratio (RR)|1.29||||0.16|TWO_SIDED|95.0|0.9|1.83|||Regression, Cox|||||1.83|0.90|0.16
92440565|NCT02759120|184767631|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.19|TWO_SIDED|95.0|-0.56|2.83|||Regression, Cox|||||2.83|-0.56|0.19
92440566|NCT02759120|184767632|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.51|TWO_SIDED|95.0|-1.67|3.35|||Regression, Cox|||||3.35|-1.67|0.51
92440567|NCT02759120|184767633|SUPERIORITY||Risk Ratio (RR)|0.71||||0.13|TWO_SIDED|95.0|0.46|1.11|||Regression, Cox|||||1.11|0.46|0.13
92440568|NCT02759120|184767634|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.76|TWO_SIDED|95.0|-4.64|3.39|||Regression, Cox|||||3.39|-4.64|0.76
92440569|NCT02759120|184767635|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.54|TWO_SIDED|95.0|-0.24|0.46|||Regression, Cox|||||0.46|-0.24|0.54
92440570|NCT02759120|184767636|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.99|TWO_SIDED|95.0|-0.79|0.8|||Regression, Linear|||||0.80|-0.79|0.99
92440571|NCT02759120|184767637|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.76|TWO_SIDED|95.0|-4.64|3.39|||Regression, Cox|||||3.39|-4.64|0.76
92440572|NCT02759120|184767638|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.63|TWO_SIDED|95.0|-0.031|0.051|||Regression, Cox|||||0.051|-0.031|0.63
92440573|NCT02759120|184767639|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.15|TWO_SIDED|95.0|-0.007|0.043|||Regression, Cox|||||0.043|-0.007|0.15
92440574|NCT02759120|184767640|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.53|TWO_SIDED|95.0|-1.11|2.15|||Regression, Cox|||||2.15|-1.11|0.53
92440575|NCT02759120|184767641|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.75|TWO_SIDED|95.0|-1.61|2.2|||Regression, Linear|||||2.20|-1.61|0.75
92440576|NCT04302389|184767644|OTHER||||||<|0.001|||||||t-test, 2 sided|||This was a within-subject comparison at two timepoints (baseline, 3 months)||||<0.001
92440577|NCT02063516|184767663|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|95.0|||||t-test, 2 sided|||It was calculated that 80 adult patients randomized from different surgical department would have 80% power to detect a difference in 2 point in mean. Sampling size was determined using 2 sided t-test (alpha=0.05).||||0.04
92440578|NCT02063516|184767664|SUPERIORITY_OR_OTHER|||||||0.836|TWO_SIDED|95.0|||||Chi-squared|||||||0.836
92440579|NCT02063516|184767665|SUPERIORITY_OR_OTHER|||||||0.0035|TWO_SIDED||||||t-test, 2 sided|||Amount of air added at 30 minutes to maintain cuff pressure 60cmH2O||||0.0035
92440580|NCT02063516|184767665|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||Amount of air added at 60 minutes to maintain cuff pressure 60cmH2O||||0.003
92440581|NCT02063516|184767665|SUPERIORITY_OR_OTHER|||||||0.0042|TWO_SIDED||||||t-test, 2 sided|||Amount of air added at 90 minutes to maintain cuff pressure 60cmH2O||||0.0042
92440582|NCT02063516|184767665|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||Amount of air added at 120 minutes to maintain cuff pressure 60cmH2O||||0.004
92440583|NCT00706979|184767667|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.008|TWO_SIDED|95.0|1.1|1.4|||Regression, Logistic|||A logistic regression model was used to examine the primary hypothesis that NRT-enhanced PQAs would yield a higher rate of any ever-occurring quit attempt.||1.4|1.1|0.008
92440584|NCT00706979|184767668|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.09|TWO_SIDED|95.0|1.0|1.7|||Regression, Logistic|||A logistic regression model was used to examine the secondary hypothesis that NRT-enhanced PQAs would yield a higher rate of 7 days of abstinence at some point during the study.||1.7|1.0|0.09
92440585|NCT00706979|184767669|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.004|TWO_SIDED|95.0|1.1|1.5|||Regression, Logistic|||A logistic regression model was used to examine the primary hypothesis that NRT-enhanced PQAs would yield a higher rate for the primary outcome of any 24hr quit attempt.||1.5|1.1|0.004
92440586|NCT00706979|184767670|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.3|TWO_SIDED|95.0|0.9|1.6|||Regression, Logistic|||A logistic regression model was used to examine the secondary hypothesis that NRT-enhanced PQAs would yield a higher rate for 7 days of abstinence at the six month follow-up.||1.6|0.9|0.3
92440587|NCT02418468|184767699|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.262|TWO_SIDED|95.0|-0.26|0.07|||mixed models for repeated measures (MMRM|||||0.07|-0.26|0.262
92239963|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.39||||0.0347|TWO_SIDED|95.0|0.46|12.31||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Very Low Density Lipoprotein (VLDL) Particles||12.31|0.46|0.0347
92440588|NCT02337907|184767706|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.073||0.7907|TWO_SIDED|95.0|-0.163|0.124||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.124|-0.163|0.7907
92440589|NCT02337907|184767706|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.075||0.7622|TWO_SIDED|95.0|-0.125|0.171||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.171|-0.125|0.7622
92440590|NCT02337907|184767706|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.071||0.8789|TWO_SIDED|95.0|-0.13|0.152||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.152|-0.130|0.8789
92440591|NCT02337907|184767706|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.074||0.0609|TWO_SIDED|95.0|-0.285|0.006||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.006|-0.285|0.0609
92440592|NCT02337907|184767706|SUPERIORITY|H1-0: Mean NTB response of pooled doses of 10 mg QD, 25 mg QD, 25 mg BID and 50 mg QD = Mean NTB response of placebo|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.053||0.5687|TWO_SIDED|95.0|-0.135|0.074||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.074|-0.135|0.5687
92440593|NCT02337907|184767707|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.056||0.8694|TWO_SIDED|95.0|-0.101|0.12||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.||0.120|-0.101|0.8694
92440594|NCT02337907|184767707|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.057||0.9512|TWO_SIDED|95.0|-0.116|0.109||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.||0.109|-0.116|0.9512
92446793|NCT00280566|184780543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.15||0.7301|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.7301
92239964|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.31||||0.0028|TWO_SIDED|95.0|0.8|3.81||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||VLDL Chylomicron Particles||3.81|0.80|0.0028
92239965|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.34||||0.001|TWO_SIDED|95.0|0.96|3.73||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||VLDL Chylomicron Particles||3.73|0.96|0.0010
92238089|NCT03151148|184380359|SUPERIORITY||Geometric mean ratio (GMR)|0.4||||0.155|TWO_SIDED|95.0|0.11|1.424|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.424|0.110|0.155
92440595|NCT02337907|184767707|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.056||0.9321|TWO_SIDED|95.0|-0.105|0.115||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.||0.115|-0.105|0.9321
92440596|NCT02337907|184767707|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.057||0.1288|TWO_SIDED|95.0|-0.199|0.025||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.||0.025|-0.199|0.1288
92440597|NCT02337907|184767707|SUPERIORITY|H1-0: Mean NTB response of pooled doses of 10 mg QD, 25 mg QD, 25 mg BID and 50 mg QD = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.041||0.6492|TWO_SIDED|95.0|-0.098|0.061||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.||0.061|-0.098|0.6492
92440598|NCT02337907|184767708|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|1.066||0.5287|TWO_SIDED|95.0|-1.43|2.77||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||2.77|-1.43|0.5287
92440599|NCT02337907|184767708|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|1.099||0.7105|TWO_SIDED|95.0|-2.57|1.76||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||1.76|-2.57|0.7105
92440600|NCT02337907|184767708|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|1.064||0.3822|TWO_SIDED|95.0|-1.16|3.03||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||3.03|-1.16|0.3822
92440601|NCT02337907|184767708|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|1.066||0.6472|TWO_SIDED|95.0|-2.59|1.61||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||1.61|-2.59|0.6472
92440602|NCT02337907|184767709|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.28||0.7551|TWO_SIDED|95.0|-0.46|0.64||p-value was nominal and not adjusted.|Mixed-effects Model for Repeated Measure|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.64|-0.46|0.7551
92238090|NCT03151148|184380359|SUPERIORITY||Geometric mean ratio (GMR)|0.45||||0.242|TWO_SIDED|95.0|0.117|1.722|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.722|0.117|0.242
92280043|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.086||||0.4903|TWO_SIDED|95.0|-0.332|0.16||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.160|-0.332|0.4903
92440603|NCT02337907|184767709|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.28||0.3643|TWO_SIDED|95.0|-0.29|0.8||p-value was nominal and not adjusted.|Mixed-effects Model for Repeated Measure|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.80|-0.29|0.3643
92440604|NCT02337907|184767709|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.7822|TWO_SIDED|95.0|-0.45|0.6||p-value was nominal and not adjusted.|Mixed-effects Model for Repeated Measure|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.60|-0.45|0.7822
92440605|NCT02337907|184767709|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.28||0.6889|TWO_SIDED|95.0|-0.43|0.65||p-value was nominal and not adjusted.|Mixed-effects Model for Repeated Measure|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.65|-0.43|0.6889
92440606|NCT02337907|184767710|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|1.32|STANDARD_ERROR_OF_MEAN|0.933||0.1595|TWO_SIDED|95.0|-0.52|3.15||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||3.15|-0.52|0.1595
92440607|NCT02337907|184767710|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|0.962||0.2455|TWO_SIDED|95.0|-0.77|3.01||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||3.01|-0.77|0.2455
92440608|NCT02337907|184767710|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|1.28|STANDARD_ERROR_OF_MEAN|0.94||0.1732|TWO_SIDED|95.0|-0.57|3.13||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||3.13|-0.57|0.1732
92440609|NCT02337907|184767710|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|2.47|STANDARD_ERROR_OF_MEAN|0.936||0.0088|TWO_SIDED|95.0|0.63|4.31||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||4.31|0.63|0.0088
92440610|NCT01592344|184767711|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0048
92440611|NCT01592344|184767712|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92440612|NCT01592344|184767713|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92440613|NCT01592344|184767714|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92440614|NCT02738333|184767723|NON_INFERIORITY|A sample size of 100 participants per treatment group would provide over 90% power to establish non-inferiority in the SVR12 rates between the LDV/SOF group and SOF+RBV group. Sample size was based on the assumptions that the clinically meaningful non-inferiority margin is 10%, both groups have a SVR12 rate of 96%, and the significance level is 0.025 one-sided.|Difference in proportions|0.9|||||TWO_SIDED|95.0|-5.3|7.1|||||Difference in proportions between treatment groups and associated 95% confidence intervals (CI) are calculated based on stratum-adjusted Mantel-Haenszel proportions.|||7.1|-5.3|
92440615|NCT03033511|184767770|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.537|TWO_SIDED|95.0|0.84|1.36||stratified log-rank test|Log Rank|||||1.36|0.84|0.537
92440616|NCT03033511|184767771|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.237|TWO_SIDED|95.0|0.92|1.36||stratified log-rank test|Log Rank|||||1.36|0.92|0.237
92440617|NCT03033511|184767772|SUPERIORITY||Least Squares (LS) Mean of Difference|-0.36|STANDARD_ERROR_OF_MEAN|1.39|||TWO_SIDED|95.0|-3.08|2.35||||||Change at Week 6||2.35|-3.08|
92440618|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|-10.43|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|95.0|-14.58|-6.29||||||Change at Week 12||-6.29|-14.58|
92238091|NCT03151148|184380359|SUPERIORITY||Geometric mean ratio (GMR)|0.47||||0.258|TWO_SIDED|95.0|0.129|1.735|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.735|0.129|0.258
92280044|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.068||||0.5824|TWO_SIDED|95.0|-0.313|0.176||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.176|-0.313|0.5824
92280045|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.215||||0.0885|TWO_SIDED|95.0|-0.463|0.033||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.033|-0.463|0.0885
92440619|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|-27.67|STANDARD_ERROR_OF_MEAN|10.57|||TWO_SIDED|95.0|-46.19|-9.16||||||Change at Week 18||-9.16|-46.19|
92440620|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|-18.44|STANDARD_ERROR_OF_MEAN|9.99|||TWO_SIDED|95.0|-38.28|1.39||||||Change at Week 24||1.39|-38.28|
92440621|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|-22.0|STANDARD_ERROR_OF_MEAN|11.27|||TWO_SIDED|95.0|-42.63|-1.37||||||Change at Week 30||-1.37|-42.63|
92440622|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|0.0|||||TWO_SIDED|||||||||Change at Week 36||||
92440623|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|3.33|||||TWO_SIDED|||||||||Change at Week 42||||
92440624|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|-56.67|||||TWO_SIDED|||||||||Change at Week 48||||
92440625|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|0.0|||||TWO_SIDED|||||||||Change at Week 60||||
92280046|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.111||||0.3652|TWO_SIDED|95.0|-0.352|0.13||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.130|-0.352|0.3652
92280047|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.108||||0.3739|TWO_SIDED|95.0|-0.348|0.131||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.131|-0.348|0.3739
92440626|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|0.0|||||TWO_SIDED|||||||||Change at Week 66||||
92440627|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|0.0|||||TWO_SIDED|||||||||Change at Week 78||||
92440628|NCT03033511|184767772|SUPERIORITY||LS Mean of Difference|-9.17|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|95.0|-12.16|-6.19||||||Change at Final Visit||-6.19|-12.16|
92440629|NCT00189228|184767819|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||t-test, 2 sided|||This is not a drug study.||||<0.01
92440630|NCT04327388|184767820|SUPERIORITY||Hazard Ratio (HR)|1.026||||0.9561|TWO_SIDED|95.0|0.751|1.402|||Log-rank test|Analyzed based on logrank test stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.|Hazard ratio for estimation of treatment effect of each sarilumab dose versus placebo was assessed by cox proportional hazard model stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.|||1.402|0.751|0.9561
92440631|NCT04327388|184767820|SUPERIORITY||Hazard Ratio (HR)|1.135||||0.3376|TWO_SIDED|95.0|0.835|1.543|||Log-rank test|Analyzed based on logrank test stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.|Hazard ratio for estimation of treatment effect of each sarilumab dose versus placebo was assessed by cox proportional hazard model stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.|||1.543|0.835|0.3376
92440632|NCT04327388|184767821|SUPERIORITY||Difference in percentage|-1.7||||0.628|TWO_SIDED|95.0|-9.27|5.81|||Cochran-Mantel-Haenszel|By Cochran-Mantel-Haenszel test stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.||||5.81|-9.27|0.6280
92440633|NCT04327388|184767821|SUPERIORITY||Difference in percentage|0.2||||0.8478|TWO_SIDED|95.0|-6.93|7.41|||Cochran-Mantel-Haenszel|By Cochran-Mantel-Haenszel test stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.||||7.41|-6.93|0.8478
92440634|NCT01464346|184768070|SUPERIORITY_OR_OTHER||Intercept from ANCOVA as agreement rate|88.01|STANDARD_ERROR_OF_MEAN|1.2|<|0.05|TWO_SIDED|95.0|85.69|90.33|||ANCOVA|Mixed effects model was used, with day of sensor wear(1,3 or 6) as covariate. Day was centered to 0 to permit interpretation of the model intercept||||90.33|85.69|<0.05
92440635|NCT01464346|184768071|SUPERIORITY_OR_OTHER||Intercept from ANCOVA as agreement rate|90.52|STANDARD_ERROR_OF_MEAN|0.9|<|0.05|TWO_SIDED|95.0|88.77|92.28|||ANCOVA|Mixed effects model was used, with day of sensor wear(1,3 or 6) as covariate. Day was centered to 0 to permit interpretation of the model intercept||||92.28|88.77|< 0.05
92440636|NCT01286012|184768084|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92440637|NCT01286012|184768085|SUPERIORITY_OR_OTHER|||||||0.915|||||||Cochran-Mantel-Haenszel|||||||0.915
92440638|NCT01286012|184768086|SUPERIORITY_OR_OTHER|||||||0.6714|||||||Cochran-Mantel-Haenszel|||||||0.6714
92440639|NCT01286012|184768087|SUPERIORITY_OR_OTHER|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
92440640|NCT01286012|184768088|SUPERIORITY_OR_OTHER|||||||0.361|||||||Wilcoxon (Mann-Whitney)|||||||0.361
92440641|NCT00827983|184768089|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis (H0) was tested against the alternative by calculating a two-sided 95% confidence interval for the difference in ongoing pregnancy rates. If the lower bound of the 95% confidence interval was greater than the non-inferiority limit (-10.0%), the null hypothesis was rejected and the test group considered not inferior to the control treatment.|Difference in pregnancy rates|-3.1||||0.37|TWO_SIDED|95.0|-9.9|3.7|||Chi-squared|||"The non -inferiority hypothesis to be tested for the primary endpoint was that the ongoing pregnancy rate (oPR) in the test group (Pe)was lower than the oPR in the control group (Pc)against the alternative one that the oPR in the test group was equal to or higher than the oPR in the control group.~H0 : Pc\>= Pe + d(-10%) H1 : Pc\< Pe + d(-10%)"||3.7|-9.9|0.37
92238092|NCT03151148|184380359|SUPERIORITY||Geometric mean ratio (GMR)|1.26||||0.726|TWO_SIDED|95.0|0.349|4.52|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||4.520|0.349|0.726
92238093|NCT03151148|184380359|SUPERIORITY||Geometric mean ratio (GMR)|0.32||||0.08|TWO_SIDED|95.0|0.088|1.145|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.145|0.088|0.080
92440642|NCT00827983|184768090|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.1||||0.37|TWO_SIDED|95.0|-9.87|3.68|||Chi-squared|||||3.68|-9.87|0.37
92440643|NCT00827983|184768091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|1.33||0.85|TWO_SIDED|95.0|-4.7|5.8|||t-test, 2 sided|||||5.8|-4.7|0.85
92440644|NCT02226003|184768107|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.16|||<|0.001|TWO_SIDED|95.0|-1.49|-0.84|||Constrained Longitudinal Data Analysis|||||-0.84|-1.49|< 0.001
92440645|NCT02226003|184768107|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.24|||<|0.001|TWO_SIDED|95.0|-1.57|-0.91|||Constrained Longitudinal Data Analysis|||||-0.91|-1.57|< 0.001
92440646|NCT02226003|184768108|SUPERIORITY_OR_OTHER||Difference in Percentage vs Placebo|2.6|||||TWO_SIDED|95.0|-11.2|16.4||||||||16.4|-11.2|
92440647|NCT02226003|184768108|SUPERIORITY_OR_OTHER||Difference in Percentage vs Placebo|2.5|||||TWO_SIDED|95.0|-11.4|16.4||||||||16.4|-11.4|
92440648|NCT02226003|184768110|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-38.94|||<|0.001|TWO_SIDED|95.0|-49.93|-27.96|||Constrained Longitudinal Data Analysis|||||-27.96|-49.93|< 0.001
92239966|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.13||||0.0006|TWO_SIDED|95.0|3.1|11.21||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium VLDL Particles||11.21|3.10|0.0006
92440649|NCT02226003|184768110|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-46.05|||<|0.001|TWO_SIDED|95.0|-57.09|-35.02|||Constrained Longitudinal Data Analysis|||||-35.02|-57.09|< 0.001
92440650|NCT02226003|184768111|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-62.42|||<|0.001|TWO_SIDED|95.0|-80.47|-44.37|||Constrained Longitudinal Data Analysis|||||-44.37|-80.47|< 0.001
92440651|NCT02226003|184768111|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-69.65|||<|0.001|TWO_SIDED|95.0|-87.83|-51.46|||Constrained Longitudinal Data Analysis|||||-51.46|-87.83|< 0.001
92440652|NCT02226003|184768112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.88|||<|0.001|TWO_SIDED|95.0|2.81|16.83|||Logistic regression model|||||16.83|2.81|< 0.001
92440653|NCT02226003|184768112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.39|||<|0.001|TWO_SIDED|95.0|2.98|18.31|||Logistic regression model|||||18.31|2.98|< 0.001
92440654|NCT02226003|184768113|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-2.0|||<|0.001|TWO_SIDED|95.0|-2.99|-1.01|||Constrained Longitudinal Data Analysis|||||-1.01|-2.99|< 0.001
92440655|NCT02226003|184768113|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-2.1|||<|0.001|TWO_SIDED|95.0|-3.1|-1.11|||Constrained Longitudinal Data Analysis|||||-1.11|-3.10|< 0.001
92440656|NCT02226003|184768114|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-4.44||||0.011|TWO_SIDED|95.0|-7.87|-1.01|||Constrained Longitudinal Data Analysis|||||-1.01|-7.87|0.011
92440657|NCT02226003|184768114|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-6.39|||<|0.001|TWO_SIDED|95.0|-9.83|-2.95|||Constrained Longitudinal Data Analysis|||||-2.95|-9.83|< 0.001
92440658|NCT02226003|184768115|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.65||||0.184|TWO_SIDED|95.0|-4.09|0.79|||Constrained Longitudinal Data Analysis|||||0.79|-4.09|0.184
92440659|NCT02226003|184768115|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-2.18||||0.08|TWO_SIDED|95.0|-4.62|0.26|||Constrained Longitudinal Data Analysis|||||0.26|-4.62|0.080
92440660|NCT01876485|184768116|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.003|TWO_SIDED||||||proc mixed in SAS (multilevel modeling)|Numerator degrees of freedom = 1 for both models (4mo and 10mo) and denominator degrees of freedom vary based on multiple imputation.||"We compared group differences in HbA1c at 4. The value of HbA1c at 4 months was the dependent variable, treatment group was the independent variable, and baseline HbA1c was a covariate.~Power calculations were based on effect sizes for the HbA1c in similar trial that revealed small-to-medium effect sizes. Our goal was to include 130 patients in each arm. The randomized samples (n = 140 EPIC, n = 140 EUC) exceed the required 130 per group."||||0.003
92440661|NCT01876485|184768116|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.6|TWO_SIDED||||||proc mixed in SAS (multilevel modeling)|Numerator degrees of freedom = 1 for both models (4mo and 10mo) and denominator degrees of freedom vary based on multiple imputation.||"We compared group differences in HbA1c at 10 months. The value of HbA1c at 10 months was the dependent variable, treatment group was the independent variable, and baseline HbA1c was a covariate.~Power calculations were based on effect sizes for the HbA1c in similar trial that revealed small-to-medium effect sizes. Our goal was to include 130 patients in each arm. The randomized samples (n = 140 EPIC, n = 140 EUC) exceed the required 130 per group."||||.60
92238094|NCT03151148|184380359|SUPERIORITY||Geometric mean ratio (GMR)|0.81||||0.748|TWO_SIDED|95.0|0.225|2.917|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.917|0.225|0.748
92238095|NCT03151148|184380359|SUPERIORITY||Geometric mean ratio (GMR)|1.23||||0.76|TWO_SIDED|95.0|0.327|4.617|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||4.617|0.327|0.760
92440662|NCT01876485|184768117|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.003|TWO_SIDED||||||proc mixed in SAS (multilevel modeling)|||We compared group differences in DDS at 4 months. The value of DDS at 4 months was the dependent variable, treatment group was the independent variable, and baseline DDS was a covariate. Power calculations were based on effect sizes for the DDS in similar trial that revealed small-to-medium effect sizes. Our goal was to include 130 patients in each arm. The randomized samples (n=138 EPIC, n=135 EUC) exceed the required 130 per group.||||0.003
92440663|NCT01876485|184768117|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.003|TWO_SIDED||||||proc mixed in SAS (multilevel modeling)|||We compared group differences in DDS at 10 months. The value of DDS at 10 months was the dependent variable, treatment group was the independent variable, and baseline DDS was a covariate. Power calculations were based on effect sizes for the DDS in similar trial that revealed small-to-medium effect sizes. Our goal was to include 130 patients in each arm. The randomized samples (n=138 EPIC, n=135 EUC) exceed the required 130 per group.||||.003
92440664|NCT02446990|184768131|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.08|STANDARD_ERROR_OF_MEAN|0.06||0.1969|TWO_SIDED|95.0|0.96|1.2|||Regression, Cox|||||1.2|0.96|0.1969
92440665|NCT02446990|184768132|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.06|STANDARD_ERROR_OF_MEAN|0.07||0.3461|TWO_SIDED|95.0|0.94|1.21|||Regression, Cox|||||1.21|0.94|0.3461
92440666|NCT02446990|184768133|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.1|STANDARD_ERROR_OF_MEAN|0.09||0.2493|TWO_SIDED|95.0|0.94|1.28|||Regression, Cox|||||1.28|0.94|0.2493
92440667|NCT02446990|184768134|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.06|STANDARD_ERROR_OF_MEAN|0.09||0.5162|TWO_SIDED|95.0|0.89|1.26|||Regression, Cox|||||1.26|0.89|0.5162
92440668|NCT02446990|184768135|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.35|STANDARD_ERROR_OF_MEAN|0.29||0.1647|TWO_SIDED|95.0|0.88|2.05|||Regression, Cox|||||2.05|0.88|0.1647
92440669|NCT02446990|184768136|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.04|STANDARD_ERROR_OF_MEAN|0.08||0.6024|TWO_SIDED|95.0|0.9|1.21|||Regression, Cox|||||1.21|0.90|0.6024
92440670|NCT02446990|184768137|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.89||||0.1458|TWO_SIDED|95.0|0.75|1.04|||Regression, Cox|||||1.04|0.75|0.1458
92440671|NCT02446990|184768138|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.0||||0.979|TWO_SIDED|95.0|0.89|1.12|||Regression, Cox|||||1.12|0.89|0.9790
92440672|NCT02446990|184768139|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.06||||0.4299|TWO_SIDED|95.0|0.92|1.22|||Regression, Cox|||||1.22|0.92|0.4299
92440673|NCT02446990|184768140|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.97||||0.5916|TWO_SIDED|95.0|0.88|1.08|||Regression, Cox|||||1.08|0.88|0.5916
92440674|NCT02446990|184768141|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.98||||0.6963|TWO_SIDED|95.0|0.89|1.08|||Regression, Cox|||||1.08|0.89|0.6963
92440675|NCT02446990|184768142|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.06||||0.2222|TWO_SIDED|95.0|0.96|1.18|||Regression, Cox|||||1.18|0.96|0.2222
92440676|NCT02446990|184768143|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.05||||0.3671|TWO_SIDED|95.0|0.94|1.18|||Regression, Cox|||||1.18|0.94|0.3671
92440677|NCT02446990|184768144|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.97||||0.5285|TWO_SIDED|95.0|0.87|1.07|||Regression, Cox|||||1.07|0.87|0.5285
92440678|NCT01064401|184768145|SUPERIORITY_OR_OTHER||Rate Ratio|0.55|||<|0.0001|TWO_SIDED|95.0|0.469|0.645||Estimated from a negative binomial regression model adjusted for the baseline relapse rate, history of prior IFN beta use, baseline EDSS (≤ 2.5 vs \> 2.5) and baseline age (≤ 35 vs \> 35 years).|Negative Binomial Regression|||||0.645|0.469|< 0.0001
92440679|NCT01064401|184768145|SUPERIORITY_OR_OTHER||Percent Reduction|45.0|||||TWO_SIDED|95.0|35.5|53.1||||||||53.1|35.5|
92440680|NCT01064401|184768146|SUPERIORITY_OR_OTHER||Percent Reduction|54.4|||<|0.0001|TWO_SIDED|95.0|46.9|60.8||Estimated from a negative binomial regression model, adjusted for baseline volume of T2 hyperintense lesions, history of prior IFN beta use and baseline age (≤ 35 vs \> 35 years).|Negative Binomial Regression|The logarithmic transformation of the scan number of the MRI assessment was included in the model as the 'offset' parameter.||||60.8|46.9|< 0.0001
92239967|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.13||||0.0003|TWO_SIDED|95.0|3.35|10.91||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium VLDL Particles||10.91|3.35|0.0003
92440681|NCT01064401|184768147|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.84||||0.1575|TWO_SIDED|95.0|0.66|1.07||Based on Cox Proportional Hazards model, adjusted by baseline EDSS values as continuous variable, history of prior IFN beta use, and baseline age (≤ 35 vs \> 35 years).|Cox Proportional Hazard|||||1.07|0.66|0.1575
92440682|NCT01064401|184768147|SUPERIORITY_OR_OTHER||Percent Reduction|16.1|||||TWO_SIDED|95.0|-7.0|34.2||||||||34.2|-7.0|
92440683|NCT01064401|184768148|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.59|||<|0.0001|TWO_SIDED|95.0|0.5|0.69||Based on Cox proportional hazards model, adjusted for baseline relapse rate, history of prior IFN beta use, baseline EDSS (EDSS ≤ 2.5 vs EDSS \> 2.5) and baseline age (≤ 35 vs \> 35 years).|Cox Proportional Hazard|||||0.69|0.50|< 0.0001
92440684|NCT01064401|184768148|SUPERIORITY_OR_OTHER||Percent Reduction in Risk of Relapse|40.9|||||TWO_SIDED|95.0|30.8|49.5||||||||49.5|30.8|
92440685|NCT01064401|184768149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.0176|TWO_SIDED|95.0|0.6|0.95||Based on logistic regression model, adjusted for baseline MSIS-29 physical score, baseline Beck Depression Inventory (BDI) score, history of prior IFN beta use, and baseline age (≤ 35 vs \> 35 years).|Regression, Logistic|||||0.95|0.60|0.0176
92440686|NCT01064401|184768149|SUPERIORITY_OR_OTHER||Percent Reduction in Odds of Worsening|24.2|||||TWO_SIDED|95.0|4.7|39.6||||||||39.6|4.7|
92440687|NCT01280552|184768154|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||Stratified for age and MGMT methylation status|Log Rank|||Stratified log rank p value stratified for age and MGMT methylation status||||0.010
92440688|NCT01280552|184768156|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||Analyses were stratified for age and MGMT methylation status.|Log Rank|||||||0.033
92440689|NCT00887354|184768157|SUPERIORITY_OR_OTHER_LEGACY||LS Mean|0.04|||<|0.0001|TWO_SIDED|95.0|0.025|0.055|||Mixed Models Analysis|||||0.055|0.025|<.0001
92440690|NCT01010906|184768188|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval falls within the interval \[0.50, 2.00\], then treatment of HI participants is similar to treatment of healthy matched for mild HI participants.|Geometric Least-Square Mean Ratio|1.82|||||TWO_SIDED|90.0|0.96|3.43||||||||3.43|0.96|
92440691|NCT01010906|184768188|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval falls within the interval \[0.50, 2.00\], then treatment of HI participants is similar to treatment of healthy matched for moderate HI participants.|Geometric Least-Square Mean Ratio|3.11|||||TWO_SIDED|90.0|1.6|6.04||||||||6.04|1.60|
92440692|NCT01010906|184768188|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval falls within the interval \[0.50, 2.00\], then treatment of HI participants is similar to treatment of healthy matched for severe HI participants.|Geometric Least-Square Mean Ratio|8.42|||||TWO_SIDED|90.0|5.2|13.64||||||||13.64|5.20|
92239968|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.88||||0.175|TWO_SIDED|95.0|-7.04|1.29||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small VLDL Particles||1.29|-7.04|0.1750
92440693|NCT01010906|184768189|SUPERIORITY_OR_OTHER||Geometric Least-Square Mean Ratio|1.57|||||TWO_SIDED|90.0|0.76|3.24||||||||3.24|0.76|
92440694|NCT01010906|184768189|SUPERIORITY_OR_OTHER||Geometric Least-Square Mean Ratio|2.21|||||TWO_SIDED|90.0|1.21|4.03||||||||4.03|1.21|
92440695|NCT01010906|184768189|SUPERIORITY_OR_OTHER||Geometric Least-Square Mean Ratio|6.16|||||TWO_SIDED|90.0|3.9|9.71||||||||9.71|3.90|
92440696|NCT03739112|184768213|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the two-sided 95% confidence interval (CI) for relative vaccine efficacy (VE) was \> -20%.|percent VE|8.8|||||TWO_SIDED|95.0|-16.7|28.7|||||VE of VLP vaccine versus Fluarix = (1-ARVv/ARVc) x 100% where ARVv = attack rate in participants vaccinated with the Quadrivalent VLP Influenza vaccine and ARVc = attack rate in participants vaccinated with an active Fluarix.|||28.7|-16.7|
92440697|NCT03054857|184768261|SUPERIORITY||Risk Ratio (RR)|1.532||||0.289|TWO_SIDED|95.0|0.689|3.406|||Chi-squared|||||3.406|0.689|0.289
92238096|NCT03151148|184380359|SUPERIORITY||Geometric mean ratio (GMR)|0.79||||0.713|TWO_SIDED|95.0|0.219|2.832|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.832|0.219|0.713
92238097|NCT03151148|184380360|SUPERIORITY||Geometric mean ratio (GMR)|12.08|||<|0.001|TWO_SIDED|95.0|3.524|41.435|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||41.435|3.524|<0.001
92239969|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.23||||0.1007|TWO_SIDED|95.0|-7.1|0.63||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small VLDL Particles||0.63|-7.10|0.1007
92440698|NCT03054857|184768262|SUPERIORITY||Risk Ratio (RR)|1.329||||0.636|TWO_SIDED|95.0|0.409|4.319|||Chi-squared|||||4.319|0.409|0.636
92440699|NCT03054857|184768264|SUPERIORITY||Mean Difference (Final Values)|-1.053|STANDARD_DEVIATION|0.792||0.187|TWO_SIDED|95.0|-2.626|0.52|||t-test, 2 sided|||||0.52|-2.626|0.187
92280048|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.27||||0.0294|TWO_SIDED|95.0|-0.512|-0.027||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.027|-0.512|0.0294
92440700|NCT03054857|184768265|SUPERIORITY||Mean Difference (Final Values)|-4.644|STANDARD_DEVIATION|7.606||0.543|TWO_SIDED|95.0|-19.74|10.45|||t-test, 2 sided|||||10.45|-19.74|0.543
92440701|NCT02293655|184768301|SUPERIORITY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|2.6||0.55|TWO_SIDED||||||t-test, 2 sided|||Compared at Baseline Time point||||0.55
92440702|NCT02293655|184768301|SUPERIORITY||Mean Difference (Final Values)|2.41|STANDARD_ERROR_OF_MEAN|2.3||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison at MPH Maintenance Visit (Week 8)||||.30
92440703|NCT02293655|184768301|SUPERIORITY||Mean Difference (Final Values)|4.01|STANDARD_ERROR_OF_MEAN|3.9||0.28|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 1 (Week 9)||||.28
92440704|NCT02293655|184768301|SUPERIORITY||Mean Difference (Final Values)|9.64|STANDARD_ERROR_OF_MEAN|2.5||0|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 2 (Week 10)||||.00
92238098|NCT03151148|184380360|SUPERIORITY||Geometric mean ratio (GMR)|2.58||||0.131|TWO_SIDED|95.0|0.753|8.853|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||8.853|0.753|0.131
92440705|NCT02293655|184768301|SUPERIORITY||Mean Difference (Final Values)|7.96|STANDARD_ERROR_OF_MEAN|3.2||0.01|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 3 (Week 12)||||.01
92440706|NCT02293655|184768302|SUPERIORITY||Mean Difference (Final Values)|36.04|STANDARD_ERROR_OF_MEAN|25.4||0.32|TWO_SIDED||||||t-test, 2 sided|||Compared at baseline timepoint||||.32
92440707|NCT02293655|184768302|SUPERIORITY||Mean Difference (Final Values)|4.38|STANDARD_ERROR_OF_MEAN|30.1||0.9|TWO_SIDED||||||t-test, 2 sided|||Compared at Maintenance Time Point (week 8)||||.90
92440708|NCT02293655|184768302|SUPERIORITY||Mean Difference (Final Values)|100.81|STANDARD_ERROR_OF_MEAN|37.5||0.007|TWO_SIDED||||||t-test, 2 sided|||Compared at Randomization Phase 1 (week 9)||||.007
92440709|NCT02293655|184768302|SUPERIORITY||Mean Difference (Final Values)|49.07|STANDARD_ERROR_OF_MEAN|56.6||0.26|TWO_SIDED||||||t-test, 2 sided|||Compared at Randomization Phase 2 (week 10)||||.26
92440710|NCT02293655|184768302|SUPERIORITY||Mean Difference (Final Values)|123.9|STANDARD_ERROR_OF_MEAN|37.6||0.01|TWO_SIDED||||||t-test, 2 sided|||Compared at Randomization Phase 3 (week 12)||||.01
92440711|NCT02293655|184768303|SUPERIORITY||Mean Difference (Final Values)|31.13|STANDARD_ERROR_OF_MEAN|32.9||0.33|TWO_SIDED||||||t-test, 2 sided|||Comparison at Baseline||||.33
92440712|NCT02293655|184768303|SUPERIORITY||Mean Difference (Final Values)|56.86|STANDARD_ERROR_OF_MEAN|29.5||0.06|TWO_SIDED||||||t-test, 2 sided|||Comparison at Maintenance (week 8)||||.06
92440713|NCT02293655|184768303|SUPERIORITY||Mean Difference (Final Values)|108.78|STANDARD_ERROR_OF_MEAN|46.8||0.05|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 1 (week 9)||||.05
92440714|NCT02293655|184768303|SUPERIORITY||Mean Difference (Final Values)|118.12|STANDARD_ERROR_OF_MEAN|44.2||0.008|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 2 (week 10)||||.008
92440715|NCT02293655|184768303|SUPERIORITY||Mean Difference (Final Values)|77.09|STANDARD_ERROR_OF_MEAN|42.9||0.07|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 3 (week 12)||||.07
92440716|NCT02063854|184768317|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested using t-test at a one-sided significance level of 2.5% and a non-inferiority margin (Δ) of 1.5%.||||||0.1346|||||||t-test, 1 sided|With a non-inferiority margin (Δ) of 1.5%.||||||0.1346
92440717|NCT02063854|184768317|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested using t-test at a one-sided significance level of 2.5% and a non-inferiority margin (Δ) of 1.5%.||||||0.6711|||||||t-test, 1 sided|With a non-inferiority margin (Δ) of 1.5%.||||||0.6711
92440718|NCT02063854|184768317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|||||TWO_SIDED|95.0|-1.92|0.001||||||||0.001|-1.920|
92440719|NCT02063854|184768317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71|||||TWO_SIDED|95.0|-2.617|-0.794||||||||-0.794|-2.617|
92239970|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-199.3|||<|0.0001|TWO_SIDED|95.0|-272.9|-125.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Low Density Lipoprotein (LDL) Particles||-125.8|-272.9|<0.0001
92440720|NCT02063854|184768317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75|||||TWO_SIDED|95.0|-0.166|1.658||||||||1.658|-0.166|
92440721|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-28.18|||<|0.0001|TWO_SIDED|95.0|-33.85|-22.51|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||-22.51|-33.85|<0.0001
92440722|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-25.29|||<|0.0001|TWO_SIDED|95.0|-31.23|-19.34|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||-19.34|-31.23|<0.0001
92440723|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-29.15|||<|0.0001|TWO_SIDED|95.0|-33.15|-25.15|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||-25.15|-33.15|<0.0001
92440724|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-22.25|||<|0.0001|TWO_SIDED|95.0|-26.36|-18.14|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||-18.14|-26.36|<0.0001
92440725|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-17.52|||<|0.0001|TWO_SIDED|95.0|-21.54|-13.5|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||-13.50|-21.54|<0.0001
92440726|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-15.51|||<|0.0001|TWO_SIDED|95.0|-19.53|-11.49|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||-11.49|-19.53|<0.0001
92440727|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-9.74|||<|0.0001|TWO_SIDED|95.0|-13.97|-5.51|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||-5.51|-13.97|<0.0001
92440728|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-4.98||||0.0221|TWO_SIDED|95.0|-9.19|-0.76|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect||Cohort 4||-0.76|-9.19|0.0221
92440729|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-35.38|||<|0.0001|TWO_SIDED|95.0|-38.89|-31.87|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||-31.87|-38.89|<0.0001
92238099|NCT03151148|184380360|SUPERIORITY||Geometric mean ratio (GMR)|2.2||||0.21|TWO_SIDED|95.0|0.64|7.527|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.527|0.640|0.210
92238100|NCT03151148|184380360|SUPERIORITY||Geometric mean ratio (GMR)|3.98||||0.031|TWO_SIDED|95.0|1.138|13.29|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||13.290|1.138|0.031
92238101|NCT03151148|184380360|SUPERIORITY||Geometric mean ratio (GMR)|1.64||||0.429|TWO_SIDED|95.0|0.479|5.63|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.630|0.479|0.429
92239971|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-186.1||||0.0001|TWO_SIDED|95.0|-255.9|-116.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Low Density Lipoprotein (LDL) Particles||-116.3|-255.9|0.0001
92440730|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-27.08|||<|0.0001|TWO_SIDED|95.0|-30.6|-23.57|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||-23.57|-30.60|<0.0001
92239972|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.7||||0.0466|TWO_SIDED|95.0|-23.3|-0.2||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Intermediate Density Lipoprotein Particles||-0.2|-23.3|0.0466
92440731|NCT02246673|184768351|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-31.26|||<|0.0001|TWO_SIDED|95.0|-34.77|-27.75|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||-27.75|-34.77|<0.0001
92440732|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|24.27||||0.0002|TWO_SIDED|95.0|12.57|35.98|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||35.98|12.57|0.0002
92440733|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|20.08||||0.0013|TWO_SIDED|95.0|8.38|31.79|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||31.79|8.38|0.0013
92440734|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|23.7|||<|0.0001|TWO_SIDED|95.0|14.23|33.17|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||33.17|14.23|<0.0001
92440735|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|18.37||||0.0008|TWO_SIDED|95.0|8.3|28.44|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||28.44|8.30|0.0008
92440736|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|18.82||||0.0101|TWO_SIDED|95.0|4.86|32.79|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||32.79|4.86|0.0101
92440737|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|20.52||||0.0055|TWO_SIDED|95.0|6.56|34.48|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||34.48|6.56|0.0055
92440738|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|10.36||||0.0065|TWO_SIDED|95.0|3.13|17.59|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||17.59|3.13|0.0065
92440739|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|1.79||||0.614|TWO_SIDED|95.0|-5.37|8.94|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect||Cohort 4||8.94|-5.37|0.6140
92440740|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|30.83||||0.0002|TWO_SIDED|95.0|15.62|46.04|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||46.04|15.62|0.0002
92440741|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|24.38||||0.0019|TWO_SIDED|95.0|9.63|39.14|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||39.14|9.63|0.0019
92440742|NCT02246673|184768352|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|26.35||||0.0009|TWO_SIDED|95.0|11.59|41.11|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||41.11|11.59|0.0009
92440743|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|139.11|||<|0.0001|TWO_SIDED|95.0|93.92|184.31|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||184.31|93.92|<0.0001
92440744|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|174.47|||<|0.0001|TWO_SIDED|95.0|125.52|233.42|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||233.42|125.52|<0.0001
92440745|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|168.03|||<|0.0001|TWO_SIDED|95.0|123.13|212.93|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||212.93|123.13|<0.0001
92440746|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|188.75|||<|0.0001|TWO_SIDED|95.0|138.04|239.46|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||239.46|138.04|<0.0001
92440747|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|70.43||||0.0005|TWO_SIDED|95.0|33.74|107.12|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||107.12|33.74|0.0005
92440748|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|91.5|||<|0.0001|TWO_SIDED|95.0|54.81|128.19|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||128.19|54.81|<0.0001
92440749|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|40.11|||<|0.0001|TWO_SIDED|95.0|25.17|55.05|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||55.05|25.17|<0.0001
92440750|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|15.96||||0.035|TWO_SIDED|95.0|1.2|30.71|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||30.71|1.20|0.0350
92440751|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|236.08|||<|0.0001|TWO_SIDED|95.0|178.29|293.86|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||293.86|178.29|<0.0001
92171305|NCT05321069|184231774|SUPERIORITY||Mean Difference (Net)|-0.63||||0.5734|TWO_SIDED|95.0|-2.83|1.57|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Dyspnea score) between the Nera 18mg BID group and the Placebo group at Week 52.|The analysis used a Mixed Model for Repeated Measures (MMRM) with fixed categorical effects for treatment group and baseline antifibrotic therapy at each visit, and fixed continuous effects of baseline Living with Pulmonary Fibrosis (L-PF) Dyspnea domain score. An unstructured covariance structure accounted for within-patient correlations. Baseline antifibrotic use, as recorded in the concomitant medication case report form (CRF), was included as a covariate.||1.57|-2.83|0.5734
92171306|NCT05321069|184231775|SUPERIORITY||Mean Difference (Net)|-0.1||||0.9442|TWO_SIDED|95.0|-2.98|2.77|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Cough score) between the Nera 9 mg BID group and the Placebo group at Week 52.|The analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed categorical effects for treatment group at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of the baseline Living with Pulmonary Fibrosis (L-PF) Cough domain score at each visit. An unstructured covariance structure modeled repeated measures. Baseline antifibrotic use, recorded in the concomitant medication case report form (CRF), was included as a covariate.||2.77|-2.98|0.9442
92238102|NCT03151148|184380360|SUPERIORITY||Geometric mean ratio (GMR)|9.26||||0.01|TWO_SIDED|95.0|1.712|50.043|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||50.043|1.712|0.010
92238103|NCT03151148|184380360|SUPERIORITY||Geometric mean ratio (GMR)|3.45||||0.15|TWO_SIDED|95.0|0.637|18.627|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||18.627|0.637|0.150
92238104|NCT03151148|184380360|SUPERIORITY||Geometric mean ratio (GMR)|5.47||||0.048|TWO_SIDED|95.0|1.012|29.578|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||29.578|1.012|0.048
92238105|NCT03151148|184380360|SUPERIORITY||Geometric mean ratio (GMR)|3.98||||0.13|TWO_SIDED|95.0|0.665|23.821|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||23.821|0.665|0.130
92239973|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.7||||0.057|TWO_SIDED|95.0|-21.8|0.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Intermediate Density Lipoprotein Particles||0.3|-21.8|0.0570
92239974|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-77.7||||0.0004|TWO_SIDED|95.0|-120.3|-35.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large LDL Particles||-35.0|-120.3|0.0004
92238106|NCT03151148|184380360|SUPERIORITY||Geometric mean ratio (GMR)|13.74||||0.002|TWO_SIDED|95.0|2.542|74.304|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||74.304|2.542|0.002
92238107|NCT03151148|184380361|SUPERIORITY||Geometric mean ratio (GMR)|3.68||||0.001|TWO_SIDED|95.0|1.689|8.028|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||8.028|1.689|0.001
92238108|NCT03151148|184380361|SUPERIORITY||Geometric mean ratio (GMR)|2.42||||0.027|TWO_SIDED|95.0|1.109|5.267|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.267|1.109|0.027
92440752|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|146.2|||<|0.0001|TWO_SIDED|95.0|90.4|202.01|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||202.01|90.40|<0.0001
92440753|NCT02246673|184768353|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|176.57|||<|0.0001|TWO_SIDED|95.0|120.77|232.38|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||232.38|120.77|<0.0001
92440754|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|135.82|||<|0.0001|TWO_SIDED|95.0|93.33|178.32|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||178.32|93.33|<0.0001
92238109|NCT03151148|184380361|SUPERIORITY||Geometric mean ratio (GMR)|1.76||||0.153|TWO_SIDED|95.0|0.81|3.847|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.847|0.810|0.153
92238110|NCT03151148|184380361|SUPERIORITY||Geometric mean ratio (GMR)|1.76||||0.16|TWO_SIDED|95.0|0.799|3.884|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.884|0.799|0.160
92238111|NCT03151148|184380361|SUPERIORITY||Geometric mean ratio (GMR)|1.32||||0.489|TWO_SIDED|95.0|0.603|2.868|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.868|0.603|0.489
92238112|NCT03151148|184380361|SUPERIORITY||Geometric mean ratio (GMR)|3.1||||0.044|TWO_SIDED|95.0|1.032|9.295|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||9.295|1.032|0.044
92440755|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|178.58|||<|0.0001|TWO_SIDED|95.0|129.25|227.9|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||227.90|129.25|<0.0001
92440756|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|163.98|||<|0.0001|TWO_SIDED|95.0|120.8|207.16|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||207.16|120.80|<0.0001
92440757|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|169.93|||<|0.0001|TWO_SIDED|95.0|122.82|217.03|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||217.03|122.82|<0.0001
92280049|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.102||||0.4236|TWO_SIDED|95.0|-0.351|0.148||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.148|-0.351|0.4236
92238113|NCT03151148|184380361|SUPERIORITY||Geometric mean ratio (GMR)|0.87||||0.805|TWO_SIDED|95.0|0.29|2.614|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.614|0.290|0.805
92238114|NCT03151148|184380361|SUPERIORITY||Geometric mean ratio (GMR)|3.62||||0.022|TWO_SIDED|95.0|1.205|10.859|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||10.859|1.205|0.022
92280050|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.105||||0.4071|TWO_SIDED|95.0|-0.353|0.144||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.144|-0.353|0.4071
92280051|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.259||||0.0434|TWO_SIDED|95.0|-0.51|-0.008||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.008|-0.510|0.0434
92238115|NCT03151148|184380361|SUPERIORITY||Geometric mean ratio (GMR)|4.83||||0.01|TWO_SIDED|95.0|1.458|15.978|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||15.978|1.458|0.010
92238116|NCT03151148|184380361|SUPERIORITY||Geometric mean ratio (GMR)|2.19||||0.169|TWO_SIDED|95.0|0.716|6.692|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||6.692|0.716|0.169
92440758|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|59.6||||0.0007|TWO_SIDED|95.0|28.85|90.34|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||90.34|28.85|0.0007
92440759|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|73.54|||<|0.0001|TWO_SIDED|95.0|42.79|104.28|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||104.28|42.79|<0.0001
92440760|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|33.7|||<|0.0001|TWO_SIDED|95.0|21.21|46.2|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||46.20|21.21|<0.0001
92440761|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|27.08||||0.0001|TWO_SIDED|95.0|14.58|39.58|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||39.58|14.58|0.0001
92440762|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|188.83|||<|0.0001|TWO_SIDED|95.0|152.55|225.1|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||225.10|152.55|<0.0001
92440763|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|116.83|||<|0.0001|TWO_SIDED|95.0|81.76|151.9|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||151.90|81.76|<0.0001
92440764|NCT02246673|184768354|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|151.66|||<|0.0001|TWO_SIDED|95.0|116.59|186.73|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||186.73|116.59|<0.0001
92440765|NCT05413369|184768361|NON_INFERIORITY|The non-inferiority was assessed using the upper bound of the 2-sided 95% confidence interval (CI). Non-inferiority p-value was calculated from a non-inferiority margin of 0.3%.|Least Squares (LS) Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.33|-0.07|||ANCOVA|Treatment groups and randomization stratum of previous oral anti-diabetic drug(OADs) as fixed effects,and baseline HbA1c continuous value as covariate||Statistical analysis for change from baseline in HbA1c||-0.07|-0.33|<0.001
92440766|NCT05413369|184768362|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|97.5|-0.35|-0.05|||ANCOVA|Treatment groups and randomization stratum of previous as fixed effects, and baseline HbA1c continuous value as covariate||Statistical analysis for change from baseline in HbA1c||-0.05|-0.35|0.003
92440767|NCT05413369|184768363|SUPERIORITY||LS Mean Difference|-1.49|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|97.5|-2.32|-0.66|||ANCOVA|Treatment groups, randomization stratums of HbA1c and previous OADs as fixed effects, and baseline body weight continuous value as covariate.||Statistical analysis for change from baseline in body weight||-0.66|-2.32|<0.001
92440768|NCT05413369|184768364|SUPERIORITY||Odds Ratio (OR)|1.89|||<|0.001|TWO_SIDED|97.5|1.25|2.85|||Regression, Logistic|Adjusted for treatment group, randomization stratum of previous OADs, and continuous baseline value of HbA1c||Statistical analysis for percentage of participants reaching HbA1c value \<7% at Week 24||2.85|1.25|<0.001
92238117|NCT03151148|184380362|SUPERIORITY||Geometric mean ratio (GMR)|0.176||||0.035|TWO_SIDED|95.0|0.0351|0.8807|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.8807|0.0351|0.035
92239975|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-69.3||||0.0007|TWO_SIDED|95.0|-109.2|-29.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large LDL Particles||-29.3|-109.2|0.0007
92239976|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-109.9||||0.0124|TWO_SIDED|95.0|-195.8|-23.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small LDL Particles||-23.9|-195.8|0.0124
92440769|NCT05413369|184768365|SUPERIORITY||Odds Ratio (OR)|2.59|||<|0.001|TWO_SIDED|95.0|1.79|3.76|||Regression, Logistic|Adjusted for treatment group, randomization stratum of previous OADs, and continuous baseline value of HbA1c and body weight.||Statistical analysis for percentage of participants reaching HbA1c value \<7% with no body weight gain at Week 24||3.76|1.79|<0.001
92440770|NCT05413369|184768366|SUPERIORITY||Odds Ratio (OR)|2.34|||<|0.001|TWO_SIDED|95.0|1.52|3.6|||Regression, Logistic|Adjusted for treatment group, randomization stratum of previous OADs, and continuous baseline value of HbA1c and body weight.||Statistical analysis for percentage of participants reaching HbA1c value \<7% with no body weight gain at Week 24 and no hypoglycemia during treatment||3.60|1.52|<0.001
92440771|NCT00525733|184768399|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Chi-squared|||||||0.46
92440772|NCT00455429|184768418|SUPERIORITY_OR_OTHER|||||||0.6|||||||Cochran-Mantel-Haenszel|||||||0.600
92440773|NCT00455429|184768418|SUPERIORITY_OR_OTHER|||||||0.822|||||||Cochran-Mantel-Haenszel|||||||0.822
92239977|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-106.8||||0.0098|TWO_SIDED|95.0|-187.6|-26.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small LDL Particles||-26.0|-187.6|0.0098
92440774|NCT00455429|184768418|SUPERIORITY_OR_OTHER|||||||0.656|||||||Cochran-Mantel-Haenszel|||||||0.656
92440775|NCT00455429|184768419|SUPERIORITY_OR_OTHER||LS Mean difference|-3.4|STANDARD_ERROR_OF_MEAN|2.63||0.427|TWO_SIDED|95.0|-9.7|2.9|||Dunnett-Hsu|||||2.90|-9.70|0.427
92440776|NCT00455429|184768419|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|2.55||0.922|TWO_SIDED|95.0|-7.37|4.82|||Dunnett-Hsu|||||4.82|-7.37|0.922
92440777|NCT00455429|184768419|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.24||0.919|TWO_SIDED|95.0|-6.49|4.21|||Dunnett-Hsu|||||4.21|-6.49|0.919
92440778|NCT00455429|184768420|SUPERIORITY_OR_OTHER||LS Mean difference|3.7|STANDARD_ERROR_OF_MEAN|8.15||0.941|TWO_SIDED|95.0|-15.83|23.18|||Dunnett-Hsu|||||23.18|-15.83|0.941
92440779|NCT00455429|184768420|SUPERIORITY_OR_OTHER||LS Mean Difference|14.2|STANDARD_ERROR_OF_MEAN|8.07||0.196|TWO_SIDED|95.0|-5.12|33.52|||Dunnett-Hsu|||||33.52|-5.12|0.196
92440780|NCT00455429|184768420|SUPERIORITY_OR_OTHER||LS Mean Difference|14.9|STANDARD_ERROR_OF_MEAN|7.08||0.096|TWO_SIDED|95.0|-2.0|31.86|||Dunnett-Hsu|||||31.86|-2.00|0.096
92440781|NCT00455429|184768421|SUPERIORITY_OR_OTHER|||||||0.46|||||||Regression, Logistic|||||||0.460
92440782|NCT00455429|184768421|SUPERIORITY_OR_OTHER|||||||0.479|||||||Regression, Logistic|||||||0.479
92440783|NCT00455429|184768421|SUPERIORITY_OR_OTHER|||||||0.462|||||||Regression, Logistic|||||||0.462
92440784|NCT00455429|184768422|SUPERIORITY_OR_OTHER|||||||0.363|||||||Regression, Logistic|||||||0.363
92440785|NCT00455429|184768422|SUPERIORITY_OR_OTHER|||||||0.968|||||||Regression, Logistic|||||||0.968
92440786|NCT00455429|184768422|SUPERIORITY_OR_OTHER|||||||0.501|||||||Regression, Logistic|||||||0.501
92440787|NCT00455429|184768423|SUPERIORITY_OR_OTHER|||||||0.333|||||||Regression, Logistic|||||||0.333
92440788|NCT00455429|184768423|SUPERIORITY_OR_OTHER|||||||0.527|||||||Regression, Logistic|||||||0.527
92440789|NCT00455429|184768423|SUPERIORITY_OR_OTHER|||||||0.353|||||||Regression, Logistic|||||||0.353
92440790|NCT00455429|184768424|SUPERIORITY_OR_OTHER|||||||0.631|||||||Regression, Logistic|||||||0.631
92440791|NCT00455429|184768424|SUPERIORITY_OR_OTHER|||||||0.523|||||||Regression, Logistic|||||||0.523
92440792|NCT00455429|184768424|SUPERIORITY_OR_OTHER|||||||0.101|||||||Regression, Logistic|||||||0.101
92440793|NCT00455429|184768425|SUPERIORITY_OR_OTHER|||||||0.429|||||||Regression, Logistic|||||||0.429
92440794|NCT00455429|184768425|SUPERIORITY_OR_OTHER|||||||0.206|||||||Regression, Logistic|||||||0.206
92440795|NCT00455429|184768425|SUPERIORITY_OR_OTHER|||||||0.107|||||||Regression, Logistic|||||||0.107
92440796|NCT00455429|184768426|SUPERIORITY_OR_OTHER|||||||0.097|||||||Regression, Logistic|||||||0.097
92440797|NCT00455429|184768426|SUPERIORITY_OR_OTHER|||||||0.077|||||||Regression, Logistic|||||||0.077
92440798|NCT00455429|184768426|SUPERIORITY_OR_OTHER|||||||0.489|||||||Regression, Logistic|||||||0.489
92440799|NCT00455429|184768427|SUPERIORITY_OR_OTHER|||||||0.566|||||||Regression, Logistic|||||||0.566
92440800|NCT00455429|184768427|SUPERIORITY_OR_OTHER|||||||0.382|||||||Regression, Logistic|||||||0.382
92440801|NCT00455429|184768427|SUPERIORITY_OR_OTHER|||||||0.282|||||||Regression, Logistic|||||||0.282
92440802|NCT00455429|184768428|SUPERIORITY_OR_OTHER|||||||0.206|||||||Regression, Logistic|||||||0.206
92440803|NCT00455429|184768428|SUPERIORITY_OR_OTHER|||||||0.433|||||||Regression, Logistic|||||||0.433
92440804|NCT00455429|184768428|SUPERIORITY_OR_OTHER|||||||0.29|||||||Regression, Logistic|||||||0.290
92440805|NCT00455429|184768429|SUPERIORITY_OR_OTHER|||||||0.484|||||||Regression, Logistic|||||||0.484
92440806|NCT00455429|184768429|SUPERIORITY_OR_OTHER|||||||0.952|||||||Regression, Logistic|||||||0.952
92440807|NCT00455429|184768429|SUPERIORITY_OR_OTHER|||||||0.35|||||||Regression, Logistic|||||||0.350
92440808|NCT04351087|184768431|EQUIVALENCE|Power analysis based on (MCID) for the KOOS-Pain, alpha 0.05 \& SD 15 points, 88 patients (44/group) would be required to detect a 9-point difference between treatment groups with 80% power. Due to change in regulatory requirements during accrual, enrollment was halted at 79 patients with 71 meeting inclusion criteria. A repeated power calculation demonstrated that the study achieved 56% power to detect a between-group difference in excess of the 9-point MCID for the KOOS-Pain.|Mean Difference (Final Values)|2.17||||0.69|TWO_SIDED|95.0|-8.57|12.92|||t-test, 2 sided|||||12.92|-8.57|0.69
92440809|NCT01412021|184768446|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
92440810|NCT01412021|184768447|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
92440811|NCT01412021|184768448|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
92440812|NCT01412021|184768449|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
92440813|NCT01412021|184768450|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
92440814|NCT01412021|184768452|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
92440815|NCT01412021|184768454|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
92440816|NCT01412021|184768455|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
92440817|NCT01412021|184768456|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440818|NCT01412021|184768457|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440819|NCT01412021|184768458|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440820|NCT01412021|184768459|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440821|NCT01412021|184768460|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440822|NCT01412021|184768461|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440823|NCT01412021|184768462|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440824|NCT01412021|184768463|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440825|NCT01412021|184768464|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92238118|NCT03151148|184380362|SUPERIORITY||Geometric mean ratio (GMR)|0.214||||0.06|TWO_SIDED|95.0|0.0427|1.0702|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.0702|0.0427|0.060
92440826|NCT01412021|184768466|SUPERIORITY|||||||0.0132|||||||paired t-test|||||||0.0132
92440827|NCT01412021|184768467|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440828|NCT01412021|184768468|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440829|NCT01412021|184768469|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440830|NCT01412021|184768470|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440831|NCT01412021|184768471|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440832|NCT01412021|184768472|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440833|NCT01412021|184768473|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440834|NCT01412021|184768474|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440835|NCT01412021|184768475|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
92440836|NCT02448654|184768478|SUPERIORITY|||||||0.18||||||The a priori threshold for statistical significance was p\<0.05.|ANOVA|||||||0.18
92440837|NCT02448654|184768479|SUPERIORITY|||||||0.03||||||The a priori threshold for statistical significance was p\<0.05.|ANOVA|||||||0.03
92440838|NCT02448654|184768480|SUPERIORITY|||||||0.037||||||The a priori threshold for statistical significance was p\<0.05.|ANOVA|||||||0.037
92440839|NCT02461225|184768521|SUPERIORITY||||||<|0.0005|||||||Fisher Exact|||||||<.0005
92440840|NCT02461225|184768522|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92440841|NCT03526458|184768523|SUPERIORITY||Mean Difference (Final Values)|16.6|STANDARD_ERROR_OF_MEAN|5.6||0.012|TWO_SIDED|95.0|4.4|28.9|||t-test, 2 sided|||||28.9|4.4|0.012
92440842|NCT03526458|184768524|SUPERIORITY||Mean Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|7.3||0.132|TWO_SIDED|95.0|-3.6|26.3|||t-test, 2 sided|||||26.3|-3.6|0.132
92440843|NCT03526458|184768525|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|2.7||0.654|TWO_SIDED|95.0|-4.4|6.9|||t-test, 2 sided|||||6.9|-4.4|0.654
92440844|NCT03526458|184768526|SUPERIORITY|||||||0.299|||||||Chi-squared|||||||0.299
92440845|NCT03526458|184768527|SUPERIORITY|||||||0.076|||||||Chi-squared|||||||0.076
92440846|NCT03526458|184768528|SUPERIORITY||Mean Difference (Final Values)|10.4|STANDARD_ERROR_OF_MEAN|143.9||0.943|TWO_SIDED|95.0|-286.0|306.8|||t-test, 2 sided|||||306.8|-286|0.943
92440847|NCT03526458|184768529|SUPERIORITY|||||||0.185|||||||Chi-squared|||||||0.185
92440848|NCT00484939|184768530|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||||||<0.001
92440849|NCT00484939|184768531|SUPERIORITY_OR_OTHER|||||||0.029|||||||Fisher Exact|||This statistical analysis compared the number of responders in the 2 treatment groups. A responder was defined as any participant with a best overall response of complete response or partial response. There were 28 responders in the bevacizumab + capecitabine group and 14 responders in the capecitabine group.||||0.029
92440850|NCT00484939|184768534|SUPERIORITY_OR_OTHER|||||||0.13|||||||Log Rank|||||||0.130
92440851|NCT00651755|184768550|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|Ratio Geometric Mean AUC|1.2|||||TWO_SIDED|90.0|1.08|1.33|||90% CI||Ratio Geometric Mean AUC (Area Under Curve) of Analyte,CP, between Aprepitant treatment to control Group.|||1.33|1.08|
92440852|NCT00651755|184768551|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|ratio Geometric mean AUC|0.75|STANDARD_DEVIATION|0.29|||TWO_SIDED|95.0|0.65|0.86|||equivalence analysis||The geometric mean AUC ratio is the ratio of geometric mean AUC between aprepitant treatment and the control group|||0.86|0.65|
92440853|NCT00651755|184768552|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|Ratio Geometric Mean AUC|0.97|STANDARD_DEVIATION|0.35|||TWO_SIDED|90.0|0.83|1.13|||equivalence analysis|The geometric mean AUC ratio is the ratio of geometric mean AUC between aprepitant treatment to the control group|Ratio Geometric Mean AUC of Analyte, 4-OHCP, between Aprepitant treatment to control Group|||1.13|0.83|
92440854|NCT00651755|184768553|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|Ratio Geometric Mean AUC|1.04|STANDARD_DEVIATION|0.68|||TWO_SIDED|90.0|0.82|1.33|||equivalence analysis||Ratio Geometric Mean AUC (Area Under Curve) of Analyte, VC, Between Aprepitant treatment to control Group.|||1.33|0.82|
92440855|NCT00651755|184768554|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|Ratio Geometric Mean AUC|1.08|STANDARD_DEVIATION|0.17||||90.0|1.02|1.15|||equivalence analysis||The geometric mean AUC ratio is the ratio of geometric mean AUC between aprepitant treatment and the control group.|||1.15|1.02|
92440856|NCT00651755|184768555|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|Ratio Geometric Mean AUC|1.16|STANDARD_DEVIATION|0.47|||TWO_SIDED|90.0|1.01|1.32|||equivalence analysis||Ratio Geometric Mean AUC (Area Under Curve) of Analyte,PL, Between Aprepitant treatment to control Group.|||1.32|1.01|
92440857|NCT02404285|184768556|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92440858|NCT02404285|184768558|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92440859|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the geometric mean ratio (GMR) for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.71|0.9||||||Serotype 1: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.90|0.71|
92239978|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2||||0.102|TWO_SIDED|95.0|-35.6|3.2||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium Small LDL Particles||3.2|-35.6|0.1020
92440860|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.85|||||TWO_SIDED|95.0|0.78|0.93||||||Serotype 3: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.93|0.78|
92440861|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.81|||||TWO_SIDED|95.0|0.71|0.93||||||Serotype 4: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.93|0.71|
92440862|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.83|||||TWO_SIDED|95.0|0.74|0.94||||||Serotype 5: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.94|0.74|
92440863|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.76|||||TWO_SIDED|95.0|0.66|0.88||||||Serotype 6A: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.88|0.66|
92440864|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.83|||||TWO_SIDED|95.0|0.73|0.95||||||Serotype 6B: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.95|0.73|
92440865|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.86|||||TWO_SIDED|95.0|0.77|0.96||||||Serotype 7F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.96|0.77|
92440866|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.93|||||TWO_SIDED|95.0|0.82|1.05||||||Serotype 9V: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||1.05|0.82|
92440867|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.89|1.13||||||Serotype 14: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||1.13|0.89|
92440868|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.85|||||TWO_SIDED|95.0|0.74|0.97||||||Serotype 18C: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.97|0.74|
92440869|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.71|0.9||||||Serotype 19A: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.90|0.71|
92440870|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.7|0.91||||||Serotype 19F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.91|0.70|
92440871|NCT03760146|184768595|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.83|||||TWO_SIDED|95.0|0.7|0.97||||||Serotype 23F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.97|0.70|
92440872|NCT03760146|184768596|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.55|||||TWO_SIDED|95.0|0.49|0.62||||||Serotype 8: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.62|0.49|
92440873|NCT03760146|184768596|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.86|||||TWO_SIDED|95.0|1.63|2.12||||||Serotype 10A: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||2.12|1.63|
92440874|NCT03760146|184768596|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.75|||||TWO_SIDED|95.0|1.52|2.01||||||Serotype 11A: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||2.01|1.52|
92440875|NCT03760146|184768596|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.48|||||TWO_SIDED|95.0|1.27|1.72||||||Serotype 12F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||1.72|1.27|
92440876|NCT03760146|184768596|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.12|||||TWO_SIDED|95.0|2.62|3.71||||||Serotype 15B: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||3.71|2.62|
92440877|NCT03760146|184768596|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.99|||||TWO_SIDED|95.0|1.7|2.32||||||Serotype 22F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||2.32|1.70|
92239979|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.4||||0.0997|TWO_SIDED|95.0|-33.8|3.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium Small LDL Particles||3.0|-33.8|0.0997
92238119|NCT03151148|184380362|SUPERIORITY||Geometric mean ratio (GMR)|0.182||||0.038|TWO_SIDED|95.0|0.0363|0.91|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.9100|0.0363|0.038
92238120|NCT03151148|184380362|SUPERIORITY||Geometric mean ratio (GMR)|0.329||||0.179|TWO_SIDED|95.0|0.065|1.6691|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.6691|0.0650|0.179
92280052|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.103||||0.4172|TWO_SIDED|95.0|-0.354|0.147||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.147|-0.354|0.4172
92280053|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.071||||0.5759|TWO_SIDED|95.0|-0.321|0.179||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.179|-0.321|0.5759
92280054|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.285||||0.0271|TWO_SIDED|95.0|-0.538|-0.033||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.033|-0.538|0.0271
92239980|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-93.7||||0.0069|TWO_SIDED|95.0|-161.6|-25.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Small LDL Particles||-25.9|-161.6|0.0069
92440878|NCT03760146|184768596|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.38|||||TWO_SIDED|95.0|1.21|1.57||||||Serotype 33F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||1.57|1.21|
92440879|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.84|1.26||||||Serotype 1: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.26|0.84|
92440880|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.06|||||TWO_SIDED|95.0|0.92|1.22||||||Serotype 3: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.22|0.92|
92440881|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.1|||||TWO_SIDED|95.0|0.87|1.38||||||Serotype 4: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.38|0.87|
92440882|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.88|||||TWO_SIDED|95.0|0.72|1.07||||||Serotype 5: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.07|0.72|
92440883|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.21|||||TWO_SIDED|95.0|0.95|1.53||||||Serotype 6A: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.53|0.95|
92440884|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.25|||||TWO_SIDED|95.0|1.0|1.56||||||Serotype 6B: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.56|1.00|
92440885|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.89|||||TWO_SIDED|95.0|0.74|1.07||||||Serotype 7F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.07|0.74|
92440886|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.02|||||TWO_SIDED|95.0|0.83|1.26||||||Serotype 9V: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.26|0.83|
92440887|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.25|||||TWO_SIDED|95.0|1.01|1.54||||||Serotype 14: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.54|1.01|
92440888|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.33|||||TWO_SIDED|95.0|1.06|1.68||||||Serotype 18C: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.68|1.06|
92440889|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.85|1.25||||||Serotype 19A: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.25|0.85|
92440890|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.99|||||TWO_SIDED|95.0|0.8|1.22||||||Serotype 19F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.22|0.80|
92440891|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.68|||||TWO_SIDED|95.0|1.27|2.22||||||Serotype 23F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.22|1.27|
92440892|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.97|||||TWO_SIDED|95.0|0.78|1.2||||||Serotype 8: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.20|0.78|
92440893|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.84|1.28||||||Serotype 10A: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.28|0.84|
92440894|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.22|||||TWO_SIDED|95.0|0.96|1.56||||||Serotype 11A: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.56|0.96|
92440895|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.11|||||TWO_SIDED|95.0|0.88|1.39||||||Serotype 12F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.39|0.88|
92440896|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.17|||||TWO_SIDED|95.0|0.88|1.56||||||Serotype 15B: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.56|0.88|
92239981|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-91.4||||0.0052|TWO_SIDED|95.0|-155.2|-27.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Small LDL Particles||-27.5|-155.2|0.0052
92440897|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.9|||||TWO_SIDED|95.0|0.69|1.17||||||Serotype 22F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.17|0.69|
92440898|NCT03760146|184768597|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.02|||||TWO_SIDED|95.0|0.81|1.3||||||Serotype 33F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.30|0.81|
92440899|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.23|||||TWO_SIDED|95.0|1.01|1.5||||||Serotype 1: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.50|1.01|
92440900|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.87|1.16||||||Serotype 3: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.16|0.87|
92440901|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.31|||||TWO_SIDED|95.0|2.65|4.13||||||Serotype 4: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||4.13|2.65|
92440902|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.11|||||TWO_SIDED|95.0|0.91|1.36||||||Serotype 5: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.36|0.91|
92440903|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.84|||||TWO_SIDED|95.0|3.06|4.83||||||Serotype 6A: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||4.83|3.06|
92440904|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.41|||||TWO_SIDED|95.0|2.73|4.26||||||Serotype 6B: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||4.26|2.73|
92440905|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.58|||||TWO_SIDED|95.0|1.3|1.91||||||Serotype 7F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.91|1.30|
92440906|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.5|||||TWO_SIDED|95.0|2.83|4.33||||||Serotype 9V: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||4.33|2.83|
92440907|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|2.39|||||TWO_SIDED|95.0|1.93|2.96||||||Serotype 14: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.96|1.93|
92440908|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.2|||||TWO_SIDED|95.0|2.53|4.04||||||Serotype 18C: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||4.04|2.53|
92440909|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|2.31|||||TWO_SIDED|95.0|1.91|2.81||||||Serotype 19A: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.81|1.91|
92440910|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|2.17|||||TWO_SIDED|95.0|1.76|2.68||||||Serotype 19F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.68|1.76|
92440911|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|4.8|||||TWO_SIDED|95.0|3.65|6.32||||||Serotype 23F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||6.32|3.65|
92440912|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.71|||||TWO_SIDED|95.0|1.38|2.12||||||Serotype 8: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.12|1.38|
92440913|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.62|||||TWO_SIDED|95.0|1.31|2.0||||||Serotype 10A: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.00|1.31|
92440914|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.32|||||TWO_SIDED|95.0|1.04|1.68||||||Serotype 11A: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.68|1.04|
92238121|NCT03151148|184380362|SUPERIORITY||Geometric mean ratio (GMR)|0.136||||0.015|TWO_SIDED|95.0|0.0271|0.6805|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.6805|0.0271|0.015
92280055|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.14||||0.2804|TWO_SIDED|95.0|-0.395|0.115||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.115|-0.395|0.2804
92280056|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.218||||0.0913|TWO_SIDED|95.0|-0.472|0.035||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.035|-0.472|0.0913
92280057|NCT02637557|184463083|SUPERIORITY||LS Mean Difference|-0.38||||0.0039|TWO_SIDED|95.0|-0.637|-0.123||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.123|-0.637|0.0039
92280058|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|0.128||||0.1902|TWO_SIDED|95.0|-0.064|0.319||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.319|-0.064|0.1902
92238122|NCT03151148|184380362|SUPERIORITY||Geometric mean ratio (GMR)|0.302||||0.309|TWO_SIDED|95.0|0.0299|3.0493|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.0493|0.0299|0.309
92238123|NCT03151148|184380362|SUPERIORITY||Geometric mean ratio (GMR)|0.372||||0.401|TWO_SIDED|95.0|0.0369|3.7569|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.7569|0.0369|0.401
92238124|NCT03151148|184380362|SUPERIORITY||Geometric mean ratio (GMR)|0.591||||0.655|TWO_SIDED|95.0|0.0586|5.9658|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.9658|0.0586|0.655
92238125|NCT03151148|184380362|SUPERIORITY||Geometric mean ratio (GMR)|0.43||||0.488|TWO_SIDED|95.0|0.0395|4.6836|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||4.6836|0.0395|0.488
92238126|NCT03151148|184380362|SUPERIORITY||Geometric mean ratio (GMR)|1.485||||0.737|TWO_SIDED|95.0|0.1471|14.9869|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||14.9869|0.1471|0.737
92238127|NCT03151148|184380363|SUPERIORITY||Geometric mean ratio (GMR)|0.248||||0.011|TWO_SIDED|95.0|0.0844|0.7281|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.7281|0.0844|0.011
92440915|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.91|||||TWO_SIDED|95.0|1.51|2.41||||||Serotype 12F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.41|1.51|
92440916|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.52|||||TWO_SIDED|95.0|1.13|2.05||||||Serotype 15B: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.05|1.13|
92440917|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.69|||||TWO_SIDED|95.0|1.3|2.2||||||Serotype 22F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.20|1.30|
92440918|NCT03760146|184768598|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.4|||||TWO_SIDED|95.0|1.1|1.79||||||Serotype 33F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.79|1.10|
92440919|NCT00529542|184768608|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.58|TWO_SIDED|95.0|-9.3|5.3||All hypotheses tests were two-sided.|Linear mixed-effects models|Linear mixed-effects models were fit to continuous outcomes to assess the change from baseline to 6 weeks between groups.|This analysis revealed that the required sample size was 235 subjects per group for 80% power to detect an absolute 2% increase in FMD with Atorvastatin vs. Placebo. We stopped the trial because we had insufficient funds for the required sample size.|This study was initiated as a pilot study with the goal of enrolling 19 women in each group, which we hypothesized would provide 80% power to detect an absolute difference in the change in FMD from baseline between the two groups (Atorvastatin vs. Placebo) of 3.75%, assuming a common standard deviation (SD) of 4%, using a two-sided, two-sample t-test with α=0.05. Recruitment was slow due to strict inclusion/ exclusion criteria so we analyzed our data after the first 20 women completed the study.||5.3|-9.3|0.58
92440920|NCT00529542|184768609|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7||||0.39|TWO_SIDED|95.0|-0.9|2.3|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||2.3|-0.9|0.39
92440921|NCT00529542|184768610|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-70.8|||<|0.001|TWO_SIDED|95.0|-95.2|-46.4|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||-46.4|-95.2|<0.001
92440922|NCT00529542|184768611|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-57.6|||<|0.001|TWO_SIDED|95.0|-79.3|-35.9|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||-35.9|-79.3|<0.001
92440923|NCT00529542|184768612|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.4||||0.26|TWO_SIDED|95.0|-2.7|9.5|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||9.5|-2.7|0.26
92440924|NCT00529542|184768613|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-82.2|||<|0.001|TWO_SIDED|95.0|-126.2|-38.1|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||-38.1|-126.2|<0.001
92440925|NCT00529542|184768614|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3||||0.45|TWO_SIDED|95.0|-12.4|5.8|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||5.8|-12.4|0.45
92440926|NCT00529542|184768615|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5||||0.33|TWO_SIDED|95.0|-2.8|7.9|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||7.9|-2.8|0.33
92440927|NCT00529542|184768616|SUPERIORITY_OR_OTHER||Mean Difference (Net)|586.0||||0.61|TWO_SIDED|95.0|-1811.0|2983.0|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||2983|-1811|0.61
92440928|NCT00529542|184768617|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3385.0||||0.07|TWO_SIDED|95.0|-287.0|7056.0|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||7056|-287|0.07
92440929|NCT00529542|184768618|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8||||0.88|TWO_SIDED|95.0|-24.1|27.8|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||27.8|-24.1|0.88
92440930|NCT00529542|184768619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|||<|0.001|TWO_SIDED|95.0|-1.6|-0.5|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||-0.5|-1.6|<0.001
92440931|NCT00529542|184768620|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-364.3||||0.02|TWO_SIDED|95.0|-655.3|-73.2|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||-73.2|-655.3|0.02
92440932|NCT00529542|184768621|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4||||0.21|TWO_SIDED|95.0|-6.4|1.5|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||1.5|-6.4|0.21
92440933|NCT00529542|184768622|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.9||||0.27|TWO_SIDED|95.0|-16.9|5.0|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||5.0|-16.9|0.27
92440934|NCT00529542|184768623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.8||||0.05|TWO_SIDED|95.0|-15.8|0.1|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||0.1|-15.8|0.05
92440935|NCT00529542|184768624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.5||||0.48|TWO_SIDED|95.0|-6.8|13.7|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||13.7|-6.8|0.48
92440936|NCT00529542|184768625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.63|TWO_SIDED|95.0|-0.6|1.0|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||1.0|-0.6|0.63
92440937|NCT06002958|184768648|OTHER||Cohen's d|-0.29|||||TWO_SIDED|95.0|-0.815|0.255|||||Inner|||0.255|-0.815|
92440938|NCT06002958|184768648|OTHER||Cohen's d|0.02|||||TWO_SIDED|95.0|-0.503|0.545|||||Outer|||0.545|-0.503|
92440939|NCT06002958|184768648|OTHER||Cohen's d|-0.32|||||TWO_SIDED|95.0|-0.85|0.225|||||Individual|||0.225|-0.850|
92440940|NCT06002958|184768648|OTHER||Cohen's d|0.01|||||TWO_SIDED|95.0|-0.85|0.534|||||Process|||0.534|-0.850|
92440941|NCT05760300|184768654|OTHER||Geometric Least-squares Mean Ratio|84.5|||||TWO_SIDED|90.0|60.1|119.0|||||Parametric (normal theory) analysis of covariance (ANOVA) model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||119|60.1|
92440942|NCT05760300|184768654|OTHER||Geometric Least-squares Mean Ratio|104.0|||||TWO_SIDED|90.0|80.8|133.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||133|80.8|
92440943|NCT05760300|184768655|OTHER||Geometric Least-squares Mean Ratio|106.0|||||TWO_SIDED|90.0|63.6|175.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||175|63.6|
92440944|NCT05760300|184768655|OTHER||Geometric Least-squares Mean Ratio|108.0|||||TWO_SIDED|90.0|77.8|151.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||151|77.8|
92440945|NCT05760300|184768656|OTHER||Geometric Least-squares Mean Ratio|83.8|||||TWO_SIDED|90.0|67.4|104.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||104|67.4|
92440946|NCT05760300|184768656|OTHER||Geometric Least-squares Mean Ratio|100.0|||||TWO_SIDED|90.0|56.2|179.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||179|56.2|
92440947|NCT05760300|184768657|OTHER||Geometric Least-squares Mean Ratio|96.5|||||TWO_SIDED|90.0|65.1|143.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||143|65.1|
92440948|NCT05760300|184768657|OTHER||Geometric Least-squares Mean Ratio|77.8|||||TWO_SIDED|90.0|42.7|142.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||142|42.7|
92440949|NCT05760300|184768662|OTHER||Geometric Least-squares Mean Ratio|160.0|||||TWO_SIDED|90.0|97.2|263.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||263|97.2|
92440950|NCT05760300|184768662|OTHER||Geometric Least-squares Mean Ratio|65.9|||||TWO_SIDED|90.0|35.0|124.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||124|35.0|
92440951|NCT05760300|184768662|OTHER||Geometric Least-squares Mean Ratio|86.7|||||TWO_SIDED|90.0|53.3|141.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||141|53.3|
92440952|NCT05760300|184768662|OTHER||Geometric Least-squares Mean Ratio|72.6|||||TWO_SIDED|90.0|50.4|105.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||105|50.4|
92440953|NCT05760300|184768663|OTHER||Geometric Least-squares Mean Ratio|139.0|||||TWO_SIDED|90.0|87.8|221.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||221|87.8|
92440954|NCT05760300|184768663|OTHER||Geometric Least-squares Mean Ratio|66.8|||||TWO_SIDED|90.0|37.3|120.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||120|37.3|
92440955|NCT05760300|184768663|OTHER||Geometric Least-squares Mean Ratio|85.7|||||TWO_SIDED|90.0|54.5|135.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||135|54.5|
92440956|NCT05760300|184768663|OTHER||Geometric Least-squares Mean Ratio|70.3|||||TWO_SIDED|90.0|49.4|100.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||100|49.4|
92440957|NCT05760300|184768664|OTHER||Geometric Least-squares Mean Ratio|84.2|||||TWO_SIDED|90.0|32.7|217.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||217|32.7|
92238128|NCT03151148|184380363|SUPERIORITY||Geometric mean ratio (GMR)|0.656||||0.44|TWO_SIDED|95.0|0.2245|1.9178|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.9178|0.2245|0.440
92238129|NCT03151148|184380363|SUPERIORITY||Geometric mean ratio (GMR)|0.479||||0.178|TWO_SIDED|95.0|0.164|1.4007|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.4007|0.1640|0.178
92238130|NCT03151148|184380363|SUPERIORITY||Geometric mean ratio (GMR)|0.478||||0.18|TWO_SIDED|95.0|0.1624|1.4091|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.4091|0.1624|0.180
92239982|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94||||0.0524|TWO_SIDED|95.0|-0.01|1.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total High Density Lipoprotein (HDL) Particles||1.90|-0.01|0.0524
92239983|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||0.0301|TWO_SIDED|95.0|0.1|1.91||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total High Density Lipoprotein (HDL) Particles||1.91|0.10|0.0301
92238131|NCT03151148|184380363|SUPERIORITY||Geometric mean ratio (GMR)|0.357||||0.06|TWO_SIDED|95.0|0.1222|1.0441|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.0441|0.1222|0.060
92280059|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|0.1||||0.3021|TWO_SIDED|95.0|-0.091|0.292||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.292|-0.091|0.3021
92280060|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.028||||0.775|TWO_SIDED|95.0|-0.221|0.165||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.165|-0.221|0.7750
92280061|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|0.099||||0.4022|TWO_SIDED|95.0|-0.133|0.33||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.330|-0.133|0.4022
92280062|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|0.062||||0.5971|TWO_SIDED|95.0|-0.169|0.293||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.293|-0.169|0.5971
92280063|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.045||||0.7024|TWO_SIDED|95.0|-0.279|0.188||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.188|-0.279|0.7024
92239984|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.0416|TWO_SIDED|95.0|0.02|0.89||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large HDL Particles||0.89|0.02|0.0416
92238132|NCT03151148|184380363|SUPERIORITY||Geometric mean ratio (GMR)|0.498||||0.373|TWO_SIDED|95.0|0.1068|2.3188|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.3188|0.1068|0.373
92238133|NCT03151148|184380363|SUPERIORITY||Geometric mean ratio (GMR)|0.281||||0.106|TWO_SIDED|95.0|0.0604|1.3106|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.3106|0.0604|0.106
92280064|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.115||||0.3173|TWO_SIDED|95.0|-0.342|0.111||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.111|-0.342|0.3173
92280065|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.151||||0.1906|TWO_SIDED|95.0|-0.378|0.076||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.076|-0.378|0.1906
92280066|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.183||||0.1177|TWO_SIDED|95.0|-0.412|0.046||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.046|-0.412|0.1177
92280067|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.05||||0.6936|TWO_SIDED|95.0|-0.297|0.198||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.198|-0.297|0.6936
92238134|NCT03151148|184380363|SUPERIORITY||Geometric mean ratio (GMR)|1.168||||0.843|TWO_SIDED|95.0|0.2507|5.4434|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.4434|0.2507|0.843
92239985|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46||||0.0333|TWO_SIDED|95.0|0.04|0.88||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large HDL Particles||0.88|0.04|0.0333
92239986|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69||||0.0693|TWO_SIDED|95.0|-0.05|1.44||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium HDL Particles||1.44|-0.05|0.0693
92238135|NCT03151148|184380363|SUPERIORITY||Geometric mean ratio (GMR)|1.559||||0.587|TWO_SIDED|95.0|0.3122|7.7818|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.7818|0.3122|0.587
92239987|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.0187|TWO_SIDED|95.0|0.14|1.56||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium HDL Particles||1.56|0.14|0.0187
92239988|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.5765|TWO_SIDED|95.0|-1.34|0.75||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small HDL Particles||0.75|-1.34|0.5765
92238136|NCT03151148|184380363|SUPERIORITY||Geometric mean ratio (GMR)|0.707||||0.661|TWO_SIDED|95.0|0.1495|3.3426|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.3426|0.1495|0.661
92239989|NCT00570739|184383789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.4762|TWO_SIDED|95.0|-1.35|0.63||P-Value is for the LS Mean Difference between treatment group|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small HDL Particles||0.63|-1.35|0.4762
92239990|NCT00570739|184383790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.21||||0.0652|TWO_SIDED|95.0|-0.14|4.57||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Low Density Lipoprotein Particles||4.57|-0.14|0.0652
92440958|NCT05760300|184768664|OTHER||Geometric Least-squares Mean Ratio|58.0|||||TWO_SIDED|90.0|30.1|112.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||112|30.1|
92280068|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.096||||0.4466|TWO_SIDED|95.0|-0.343|0.152||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.152|-0.343|0.4466
92280069|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.155||||0.2225|TWO_SIDED|95.0|-0.405|0.095||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.095|-0.405|0.2225
92440959|NCT05760300|184768664|OTHER||Geometric Least-squares Mean Ratio|85.6|||||TWO_SIDED|90.0|54.1|135.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||135|54.1|
92238137|NCT03151148|184380364|SUPERIORITY||Geometric mean ratio (GMR)|1197.16|||<|0.001|TWO_SIDED|95.0|525.563|2726.953|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2726.953|525.563|<0.001
92238138|NCT03151148|184380364|SUPERIORITY||Geometric mean ratio (GMR)|779.24|||<|0.001|TWO_SIDED|95.0|342.093|1774.996|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1774.996|342.093|<0.001
92238139|NCT03151148|184380364|SUPERIORITY||Geometric mean ratio (GMR)|673.56|||<|0.001|TWO_SIDED|95.0|295.697|1534.265|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1534.265|295.697|<0.001
92440960|NCT05760300|184768664|OTHER||Geometric Least-squares Mean Ratio|69.6|||||TWO_SIDED|90.0|48.9|99.2|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||99.2|48.9|
92280070|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.052||||0.6764|TWO_SIDED|95.0|-0.297|0.193||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.193|-0.297|0.6764
92280071|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.061||||0.6243|TWO_SIDED|95.0|-0.306|0.184||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.184|-0.306|0.6243
92440961|NCT05477875|184768683|EQUIVALENCE|Two-way ANOVA using group and intervention as fixed factors were analyzed, with outcome variable p-value reported below, threshold 0.05.||||||0.538|||||||Wilcoxon (Mann-Whitney)|||||||0.538
92440962|NCT05477875|184768684|EQUIVALENCE|Two-way ANOVA using group and intervention as fixed factors were analyzed, with outcome variable p-value reported below, threshold 0.05.||||||0.538|||||||ANOVA|||||||0.538
92440963|NCT05477875|184768685|EQUIVALENCE|Two-way ANOVA using group and intervention as fixed factors were analyzed, with outcome variable p-value reported below, threshold 0.05.||||||0.516|||||||ANOVA|||||||0.516
92440964|NCT05477875|184768686|EQUIVALENCE|"Alpha = 0.05, two-way ANOVA with Group x Time Points as fixed factors and PROWL-SS from (1-100) as the dependent variable."|||||<|0.851|||||||ANOVA|||||||<0.851
92440965|NCT05477875|184768687|EQUIVALENCE|"Alpha = 0.05, two-way ANOVA with Group x Time Points as fixed factors and QIRC from (1-100) as the dependent variable."|||||<|0.543|||||||ANOVA|||||||<0.543
92440966|NCT05477875|184768688|EQUIVALENCE|"Alpha = 0.05, two-way ANOVA with Group x Time Points as fixed factors and OSDI from (0-48) as the dependent variable."||||||0.725|||||||ANOVA|||||||0.725
92440967|NCT05477875|184768689|EQUIVALENCE|Two-way ANOVA using group and intervention as fixed factors were analyzed, with outcome variable p-value reported below, threshold 0.05.||||||0.516|||||||ANOVA|||||||0.516
92440968|NCT03989440|184768701|SUPERIORITY||LS Mean Difference|0.54||||0.59|TWO_SIDED|95.0|-1.48|2.55|||Mixed Models Analysis|||||2.55|-1.48|0.59
92440969|NCT03989440|184768702|SUPERIORITY||LS Mean Difference|-1.56||||0.13|TWO_SIDED|95.0|-3.62|0.5|||Mixed Models Analysis|||||0.50|-3.62|0.13
92440970|NCT03989440|184768703|SUPERIORITY||LS Mean Difference|-1.16||||0.16|TWO_SIDED|95.0|-2.81|0.5|||Mixed Models Analysis|||||0.50|-2.81|0.16
92440971|NCT03989440|184768704|SUPERIORITY||% Difference in responder rate|-9.3||||0.68|TWO_SIDED|95.0|-43.3|25.4|||Fisher Exact|||||25.4|-43.3|0.68
92440972|NCT01955161|184768705|SUPERIORITY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.47||0.9591|TWO_SIDED|95.0|-0.59|1.26||Corrected for multiplicity|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||1.26|-0.59|0.9591
92440973|NCT01955161|184768705|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.47||1|TWO_SIDED|95.0|-0.88|0.98||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||0.98|-0.88|1.000
92440974|NCT01955161|184768706|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.66||1|TWO_SIDED|95.0|-1.37|1.21||Corrected for multiplicity according toe the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A positive mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||1.21|-1.37|1.000
92446794|NCT00280566|184780543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8162|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.8162
92446795|NCT00280566|184780544|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.15||0.0013|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 1 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0013
92440975|NCT01955161|184768706|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.66||1|TWO_SIDED|95.0|-1.29|1.31||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A positive mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||1.31|-1.29|1.000
92440976|NCT01955161|184768707|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.09||1|TWO_SIDED|95.0|-0.15|0.2||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||0.20|-0.15|1.000
92440977|NCT01955161|184768707|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.09||1|TWO_SIDED|95.0|-0.34|0.02||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, ADAS-cog total score and either ADCS-ADL23 total score or ADCS CGIC had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||0.02|-0.34|1.000
92440978|NCT04608500|184768716|SUPERIORITY||Mean Difference (Final Values)|3.85|STANDARD_ERROR_OF_MEAN|0.861|<|0.0001|TWO_SIDED|95.0|2.16|5.54|||ANCOVA|Analysis of covariance (ANCOVA) model includes treatment, Baseline inflammatory lesion count, and analysis center.||||5.54|2.16|<0.0001
92440979|NCT04608500|184768717|SUPERIORITY||Risk Ratio (RR)|1.263||||0.0077|TWO_SIDED|95.0|1.064|1.499||The p-value is for the null hypothesis that the combined risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by analysis center.||||1.499|1.064|0.0077
92440980|NCT04608500|184768718|SUPERIORITY||Risk Ratio (RR)|1.193||||0.0189|TWO_SIDED|95.0|1.024|1.39||The p-value is for the null hypothesis that the combined risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Test Stratified by Analysis Center||||1.390|1.024|0.0189
92171307|NCT05321069|184231775|SUPERIORITY||Mean Difference (Net)|-0.59||||0.6862|TWO_SIDED|95.0|-3.47|2.28|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Cough score) between the Nera 18 mg BID group and the Placebo group at Week 52.|The analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed categorical effects for treatment group at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of the baseline Living with Pulmonary Fibrosis (L-PF) Cough domain score at each visit. An unstructured covariance structure modeled repeated measures. Baseline antifibrotic use, recorded in the concomitant medication case report form (CRF), was included as a covariate.||2.28|-3.47|0.6862
92440981|NCT04608500|184768719|SUPERIORITY||Mean Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|2.672|<|0.0001|TWO_SIDED|95.0|6.05|16.54|||ANCOVA|ANCOVA model includes treatment, Baseline inflammatory lesion count, and analysis center.||||16.54|6.05|<0.0001
92440982|NCT04608500|184768720|SUPERIORITY||Mean Difference (Final Values)|4.38|STANDARD_ERROR_OF_MEAN|0.821|<|0.0001|TWO_SIDED|95.0|2.77|5.99|||ANCOVA|ANCOVA model includes treatment, Baseline inflammatory lesion count, and analysis center.||Statistical Analysis For Week 4||5.99|2.77|<0.0001
92440983|NCT04608500|184768720|SUPERIORITY||Mean Difference (Final Values)|5.07|STANDARD_ERROR_OF_MEAN|0.793|<|0.0001|TWO_SIDED|95.0|3.52|6.63|||ANCOVA|ANCOVA model includes treatment, Baseline inflammatory lesion count, and analysis center.||Statistical Analysis For Week 8||6.63|3.52|<0.0001
92440984|NCT04608500|184768721|SUPERIORITY||Risk Ratio (RR)|1.715||||0.0114|TWO_SIDED|95.0|1.129|2.605||p-value is for the null hypothesis that the risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by analysis center.||Statistical Analysis For Week 4||2.605|1.129|0.0114
92440985|NCT04608500|184768721|SUPERIORITY||Risk Ratio (RR)|1.319||||0.0061|TWO_SIDED|95.0|1.082|1.607||p-value is for the null hypothesis that the risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by analysis center.||Statistical Analysis For Week 8||1.607|1.082|0.0061
92238140|NCT03151148|184380364|SUPERIORITY||Geometric mean ratio (GMR)|60.12|||<|0.001|TWO_SIDED|95.0|24.92|145.027|||Mixed Models Analysis|||"TMT vs Placebo on Lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."|All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|145.027|24.920|<0.001
92238141|NCT03151148|184380364|SUPERIORITY||Geometric mean ratio (GMR)|3.79||||0.002|TWO_SIDED|95.0|1.636|8.767|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||8.767|1.636|0.002
92239991|NCT00570739|184383790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.74||||0.0137|TWO_SIDED|95.0|0.57|4.92||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Low Density Lipoprotein Particles||4.92|0.57|0.0137
92239992|NCT00570739|184383790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.4726|TWO_SIDED|95.0|-0.2|0.09||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Low Density Lipoprotien Particles||0.09|-0.20|0.4726
92239993|NCT00570739|184383790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.5715|TWO_SIDED|95.0|-0.17|0.1||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Low Density Lipoprotein Particles||0.10|-0.17|0.5715
92440986|NCT01925404|184768723|SUPERIORITY|We fitted difference-in-differences (DID) models between the two measurement waves and four study arms. The effect of the intervention was modeled as the wave by study arm interaction. All models used random effects to account for intra-class correlation within each park as well as fixed effects to account for observation times (time of day, weekend versus weekdays).||||||0.0063||||||Significance threshold. p=0.05|negative binomial distribution|||Comparison of change from baseline;||||.0063
92440987|NCT00706641|184768727|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||paired t-test|||Tumor samples from 20 patients were analyzed for expression of pSFK. A paired t-Test was used to calculate the significance of the difference in expression levels before and after treatment.||||0.003
92440988|NCT00706641|184768730|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||paired t-test|||||||0.20
92440989|NCT00706641|184768731|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||paired t-test|||||||0.42
92440990|NCT01327300|184768766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.72||||0.001||95.0|||||t-test, 2 sided|||"The GIS scoring system is from 1-7 with one being a worse outcome and 7 the better outcome.~Comparisons below list the p values for comparison of difference in GIS between baseline and mesalamine."||||.001
92440991|NCT01327300|184768766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22||||0.008||95.0|||||t-test, 2 sided|||Comparisons of mean difference in GIS scores between baseline and placebo is made below.||||0.008
92440992|NCT01327300|184768767|SUPERIORITY_OR_OTHER|||||||0.873|||||||Wilcoxon (Mann-Whitney)|||Correlation coefficients were used for each of three biomarkers in relation to other biomarkers and to the questionnaires and patient's symptoms.||||0.873
92440993|NCT01327300|184768767|SUPERIORITY_OR_OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|Pearson's linear coefficient||The study tested three biomarkers and symptom domains at baseline and the end of 12 weeks of placebo using the Mann-Whitney test, as well as correlations between domains with Pearson's linear correlation coefficient.||||0.810
92440994|NCT01327300|184768768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.5||||0.67|||||||t-test, 2 sided|Two-tailed P values are listed for baseline versus 12 weeks of mesalamine||"The FBDSI score is based on the severity of abdominal pian. Severity is rated as the following:~None= 0 points Mild= (1-36) Moderate =(37-110) Severe= (\>110 points)"||||0.67
92440995|NCT01327300|184768768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0||||0.77|||||||t-test, 2 sided|||See prior description of the FBDSI score. Change in the FBDSI after 12 weeks of intervention is made using a two sided t-test.||||0.77
92238142|NCT03151148|184380364|SUPERIORITY||Geometric mean ratio (GMR)|757.38|||<|0.001|TWO_SIDED|95.0|331.143|1732.242|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1732.242|331.143|<0.001
92440996|NCT01327300|184768769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0||||0.61|||||||t-test, 2 sided|||For the IBS QOL we compared the change in IBS-Quality of Life (IBS-QOL) after 12 weeks of mesalamine.||||0.61
92440997|NCT01327300|184768769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.2||||0.33|||||||t-test, 2 sided|||Comparison of change in IBS-Quality of Life (IBS-QOL)from baseline after 12 weeks of intervention was made.||||0.33
92440998|NCT01327300|184768770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.71||95.0|||||t-test, 2 sided|||Comparison of the change in HADS score of baseline to 12 weeks of mesalamine is made.||||0.71
92239994|NCT00570739|184383790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.0083|TWO_SIDED|95.0|0.02|0.15||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||High Density Lipoprotein Particles||0.15|0.02|0.0083
92440999|NCT01327300|184768770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.57||95.0|||||t-test, 2 sided|||Comparison of change in HADS score between baseline and after 12 weeks of placebo is made.||||0.57
92441000|NCT01327300|184768771|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||t-test, 2 sided|||Comparison of the lactulose/mannitol ratio is made after a 12 week intervention with mesalamine to 12 weeks of placebo.||||0.55
92239995|NCT00570739|184383790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.0022|TWO_SIDED|95.0|0.03|0.15||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||High Density Lipoprotein Particles||0.15|0.03|0.0022
92239996|NCT00570739|184383791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.0||||0.0036|TWO_SIDED|95.0|8.6|43.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||43.5|8.6|0.0036
92239997|NCT00570739|184383791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.2||||0.001|TWO_SIDED|95.0|11.2|43.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||43.3|11.2|0.0010
92441001|NCT00697515|184768783|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
92441002|NCT00697515|184768784|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0|||||ANOVA|||2.0 hours post-dose||||0.0017
92441003|NCT00697515|184768784|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||4.0 hours post-dose||||<0.0001
92441004|NCT00697515|184768784|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||8.0 hours post-dose||||<0.0001
92441005|NCT00697515|184768784|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||10.0 hours post-dose||||<0.0001
92441006|NCT00697515|184768784|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||12.0 hours post-dose||||<0.0001
92441007|NCT00697515|184768784|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||14.0 hours post-dose||||<0.0001
92441008|NCT00697515|184768785|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||Average over the treatment day||||<0.0001
92441009|NCT00697515|184768785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||ANOVA|||2.0 hours post-dose||||0.0010
92441010|NCT00697515|184768785|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||4.0 hours post-dose||||<0.0001
92441011|NCT00697515|184768785|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||8.0 hours post-dose||||<0.0001
92441012|NCT00697515|184768785|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||10.0 hours post-dose||||<0.0001
92441013|NCT00697515|184768785|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||12.0 hours post-dose||||<0.0001
92441014|NCT00697515|184768785|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||14.0 hours post-dose||||<0.0001
92441015|NCT00697515|184768786|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||Over the treatment day||||<0.0001
92441016|NCT00697515|184768786|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0031||95.0|||||ANOVA|||2.0 hours post-dose||||0.0031
92441017|NCT00697515|184768786|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||4.0 hours post-dose||||<0.0001
92441018|NCT00697515|184768786|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||8.0 hours post-dose||||<0.0001
92441019|NCT00697515|184768786|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||10.0 hours post-dose||||<0.0001
92441020|NCT00697515|184768786|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||12.0 hours post-dose||||<0.0001
92441021|NCT00697515|184768786|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||14.0 hours post-dose||||<0.0001
92441022|NCT00697515|184768787|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92441023|NCT00697515|184768788|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
92441024|NCT00697515|184768791|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Prescott's Test|||||||<0.0001
92441025|NCT00697515|184768792|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92441026|NCT00697515|184768794|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92441027|NCT00697515|184768795|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92441028|NCT02603432|184768800|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0005|TWO_SIDED|95.0|0.556|0.863||One-sided log-rank test was used.|Log Rank|Analysis was performed using a Cox's Proportional Hazard model.||||0.863|0.556|0.0005
92441029|NCT02603432|184768823|SUPERIORITY||Cox Proportional Hazard|1.26||||0.913|ONE_SIDED|95.0|0.901||||Log Rank||||||0.901|0.9130
92441030|NCT01231581|184768826|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.352|TWO_SIDED|95.0|0.66|1.32|||Log Rank||Hazard ratios are estimated using a Pike estimator.|||1.32|0.66|0.352
92441031|NCT05954052|184768833|SUPERIORITY||Mean Difference (Final Values)|4.0|STANDARD_DEVIATION|9.0||0.1807|TWO_SIDED|95.0|-6.24|14.24|||Wilcoxon (Mann-Whitney)|||For the analysis of (ABC) scores at baseline and 12 weeks in this single-arm, open-label pilot study (n=6 participants, all with paired data including the early dropout), we use superiority test, This aligns with the study's hypothesis that oral glutathione supplementation would lead to an improvement (i.e., a decrease in ABC scores, indicating reduced irritability). Superiority testing evaluates whether the post-treatment mean (or median) is significantly lower than the baseline||14.24|-6.24|0.1807
92441032|NCT01649375|184768839|SUPERIORITY||Odds Ratio (OR)|1.82||||0.0967|TWO_SIDED|95.0|0.9|3.67|||Regression, Logistic|Missing ASAS responses considered nonresponders||||3.67|0.90|0.0967
92441033|NCT01649375|184768839|SUPERIORITY||Odds Ratio (OR)|4.38|||<|0.0001|TWO_SIDED|95.0|2.14|8.96|||Regression, Logistic|Missing ASAS responses considered nonresponders||||8.96|2.14|<.0001
92441034|NCT01649375|184768840|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0194|TWO_SIDED|95.0|1.19|7.48|||Regression, Logistic|Missing ASAS responses considered nonresponders||||7.48|1.19|0.0194
92441035|NCT01649375|184768840|SUPERIORITY||Odds Ratio (OR)|5.07|||<|0.0004|TWO_SIDED|95.0|2.06|12.44|||Regression, Logistic|Missing ASAS responses considered nonresponders||||12.44|2.06|<.0004
92441036|NCT01649375|184768841|SUPERIORITY||Mean Difference (Net)|0.54|||<|0.0001|TWO_SIDED|95.0|0.41|0.71|||Mixed Models Analysis|||||0.71|0.41|<0.0001
92441037|NCT01649375|184768841|SUPERIORITY||Mean Difference (Net)|0.49|||<|0.0001|TWO_SIDED|95.0|0.37|0.64|||Mixed Models Analysis|||||0.64|0.37|<0.0001
92441038|NCT01649375|184768842|SUPERIORITY||Odds Ratio (OR)|6.13||||0.0003|TWO_SIDED|95.0|2.31|16.26|||Regression, Logistic|Missing ASAS responses considered nonresponders||||16.26|2.31|0.0003
92441039|NCT01649375|184768842|SUPERIORITY||Odds Ratio (OR)|9.15|||<|0.0001|TWO_SIDED|95.0|3.47|24.12|||Regression, Logistic|Missing ASAS responses considered nonresponders||||24.12|3.47|<.0001
92441040|NCT01649375|184768843|SUPERIORITY||Mean Difference (Net)|-1.07|STANDARD_ERROR_OF_MEAN|0.353|<|0.0001|TWO_SIDED|95.0|-1.77|-0.37|||Mixed Models Analysis|||||-0.37|-1.77|<0.0001
92441041|NCT01649375|184768843|SUPERIORITY||Mean Difference (Net)|-1.34|STANDARD_ERROR_OF_MEAN|0.353||0.0002|TWO_SIDED|95.0|-2.04|-0.65|||Mixed Models Analysis|||||-0.65|-2.04|0.0002
92441042|NCT01649375|184768844|SUPERIORITY||Mean Difference (Net)|2.84|STANDARD_ERROR_OF_MEAN|1.108||0.011|TWO_SIDED|95.0|0.66|5.03|||Mixed Models Analysis|||||5.03|0.66|0.0110
92441043|NCT01649375|184768844|SUPERIORITY||Mean Difference (Net)|4.14|STANDARD_ERROR_OF_MEAN|1.105||0.0002|TWO_SIDED|95.0|1.96|6.32|||Mixed Models Analysis|||||6.32|1.96|0.0002
92441044|NCT01649375|184768845|SUPERIORITY||Mean Difference (Net)|-1.96|STANDARD_ERROR_OF_MEAN|0.748||0.0096|TWO_SIDED|95.0|-3.43|-0.48|||Mixed Models Analysis|||||-0.48|-3.43|0.0096
92441045|NCT01649375|184768845|SUPERIORITY||Mean Difference (Net)|-2.63|STANDARD_ERROR_OF_MEAN|0.743||0.0005|TWO_SIDED|95.0|-4.09|-1.16|||Mixed Models Analysis|||||-1.16|-4.09|0.0005
92441046|NCT01649375|184768846|SUPERIORITY||Odds Ratio (OR)|4.28||||0.0325|TWO_SIDED|95.0|1.13|16.21|||Regression, Logistic|Missing ASAS responses considered nonresponders||||16.21|1.13|0.0325
92238143|NCT03151148|184380364|SUPERIORITY||Geometric mean ratio (GMR)|199.71|||<|0.001|TWO_SIDED|95.0|87.636|455.127|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||455.127|87.636|<0.001
92238144|NCT03151148|184380364|SUPERIORITY||Geometric mean ratio (GMR)|508.45|||<|0.001|TWO_SIDED|95.0|223.113|1158.715|||Mixed Models Analysis|||"TMT vs Placebo on Non-lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."|All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|1158.715|223.113|<0.001
92280072|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.156||||0.2151|TWO_SIDED|95.0|-0.403|0.091||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.091|-0.403|0.2151
92441047|NCT01649375|184768846|SUPERIORITY||Odds Ratio (OR)|3.91||||0.0471|TWO_SIDED|95.0|1.02|15.01|||Regression, Logistic|Missing ASAS responses considered nonresponders||||15.01|1.02|0.0471
92280073|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.096||||0.4611|TWO_SIDED|95.0|-0.351|0.16||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.160|-0.351|0.4611
92441048|NCT01921829|184768851|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92441049|NCT01921829|184768852|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||0.29
92441050|NCT01921829|184768854|SUPERIORITY||||||>|0.95|||||||Fisher Exact|||||||>0.95
92441051|NCT01921829|184768855|SUPERIORITY|||||||0.58|||||||Fisher Exact|||||||0.58
92441052|NCT01921829|184768856|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|||||||0.86
92441053|NCT01921829|184768857|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||0.40
92441054|NCT01921829|184768858|SUPERIORITY||||||>|0.95|||||||Fisher Exact|||||||>0.95
92441055|NCT01921829|184768859|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
92441056|NCT01921829|184768860|SUPERIORITY||||||>|0.95|||||||t-test, 2 sided|||||||>0.95
92441057|NCT01921829|184768861|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||||||0.52
92441058|NCT01921829|184768862|SUPERIORITY||||||>|0.95|||||||t-test, 2 sided|||||||>0.95
92238145|NCT03151148|184380364|SUPERIORITY||Geometric mean ratio (GMR)|107.86|||<|0.001|TWO_SIDED|95.0|45.568|255.313|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||255.313|45.568|<0.001
92441059|NCT01921829|184768863|SUPERIORITY||||||>|0.95|||||||t-test, 2 sided|||||||>0.95
92441060|NCT01921829|184768864|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||||||0.52
92441061|NCT01921829|184768865|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92441062|NCT01921829|184768866|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92441063|NCT01921829|184768867|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||0.40
92441064|NCT01921829|184768868|SUPERIORITY||||||>|0.95|||||||t-test, 2 sided|||||||>0.95
92441065|NCT01921829|184768869|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
92441066|NCT01921829|184768870|SUPERIORITY||||||>|0.95|||||||t-test, 2 sided|||||||>0.95
92441067|NCT01921829|184768871|SUPERIORITY||||||>|0.95|||||||Fisher Exact|||||||>0.95
92441068|NCT05394025|184768877|SUPERIORITY||Interaction|0.02||||0.77|TWO_SIDED|95.0|-0.13|0.18|||likelihood ratio test||Beta for time by COVID-19 status|Null hypothesis no difference in trends of I/ADL scores between Veterans with COVID-19 and comparators. We used adjusted linear mixed model (LMM) to model ADL scores over time (i.e., survey cycles) and by COVID-19 status. The LMM included an interaction term for time and COVID-19 status. LMM models were fitted with random intercepts (i.e., patient ID) and slopes (i.e., survey cycle). LMMs included fixed effects for patient baseline age, sex, and care assessment needs score.||0.18|-0.13|0.77
92441069|NCT05394025|184768877|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.6|TWO_SIDED|95.0|-0.44|0.67|||likelihood ratio test||Beta coefficient for mean difference in mean longitudinal I/ADL score|Null hypothesis no difference in trends of I/ADL scores between Veterans with COVID-19 and comparators. We used adjusted linear mixed model (LMM) to model I/ADL scores over time (i.e., survey cycles) and by COVID-19 status. The LMM included an interaction term for time and COVID-19 status. LMM models were fitted with random intercepts (i.e., patient ID) and slopes (i.e., survey cycle). LMMs included fixed effects for patient baseline age, sex, and care assessment needs score.||0.67|-0.44|0.60
92441070|NCT03538158|184768928|SUPERIORITY||Slope|5.7||||0.82|TWO_SIDED|95.0|-287.7|299.1|||Mixed Models Analysis|F(2,131)=.07||||299.1|-287.7|.82
92441071|NCT03538158|184768929|SUPERIORITY||Slope|0.5||||0.97|TWO_SIDED|95.0|-3.5|4.4|||Mixed Models Analysis|F(2,75)=.03||||4.4|-3.5|.97
92441072|NCT05517382|184768993|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||At baseline||||0.20
92441073|NCT05517382|184768993|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||At Post game||||0.59
92441074|NCT05517382|184768993|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||At 3 month||||0.94
92441075|NCT05517382|184768993|SUPERIORITY|||||||0.55|||||||GEE|Controlling for baseline thriving status, this reflects the interaction between the intervention group and time.||||||0.55
92441076|NCT05517382|184768994|SUPERIORITY||Mean Difference (Net)|-0.09||||0.1759|TWO_SIDED|95.0|-0.23|0.04|||Mixed Models Analysis||Group effect.|At post game.||0.04|-0.23|0.1759
92441077|NCT05517382|184768994|SUPERIORITY||Mean Difference (Net)|-0.16||||0.0857|TWO_SIDED|95.0|-0.35|0.02|||Mixed Models Analysis||Group effect.|At 3 month||0.02|-0.35|0.0857
92441078|NCT03886220|184769004|SUPERIORITY||Odds Ratio (OR)|3.22||||0.035|TWO_SIDED|95.0|1.086|9.546||P-value for test of difference between elagolix dose group and placebo is by pooling the results from a logistic regression model including treatment as the main effect and baseline MBL volume as a covariate in each dataset from multiple imputation.|Regression, Logistic|||||9.546|1.086|0.035
92441079|NCT00449644|184769025|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|11.77||||0.0034|TWO_SIDED|95.0|2.26|61.23|||Cox proportional hazards model|Treatment, lung cavitation and pooled center were used as covaritates.||||61.23|2.26|0.0034
92441080|NCT00449644|184769026|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.44|||<|0.0001|TWO_SIDED|95.0|1.57|3.8|||Cox proportional hazards model|Treatment, lung cavitation and pooled center were used as covaritates.||||3.80|1.57|<0.0001
92441081|NCT00449644|184769027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.14||||0.0022|TWO_SIDED|95.0|1.51|6.53|||Cox-proportional hazards model|Treatment, lung cavitation and pooled center were used as covaritates.||||6.53|1.51|0.0022
92441082|NCT00449644|184769028|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.029|TWO_SIDED|95.0|1.05|2.59|||Cox proportional hazards model|Treatment, lung cavitation and pooled center were used as covaritates.||MGIT negative (Responders)||2.59|1.05|0.0290
92441083|NCT00449644|184769029|SUPERIORITY_OR_OTHER||Risk Difference (RD)|38.9|STANDARD_ERROR_OF_MEAN|12.38||0.003|TWO_SIDED|95.0|13.97|63.88|||Regression, Logistic|Treatment as covariate||Week 8||63.88|13.97|0.003
92441084|NCT00449644|184769029|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.7|STANDARD_ERROR_OF_MEAN|13.12||0.237|TWO_SIDED|95.0|-10.7|42.17|||Regression, Logistic|Treatment as covariate||Week 24||42.17|-10.70|0.237
92280074|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.139||||0.2849|TWO_SIDED|95.0|-0.394|0.116||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.116|-0.394|0.2849
92280075|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.228||||0.0833|TWO_SIDED|95.0|-0.485|0.03||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.030|-0.485|0.0833
92441085|NCT00449644|184769029|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.9|STANDARD_ERROR_OF_MEAN|15.02||0.5564|TWO_SIDED|95.0|-21.37|39.18|||Regression, Logistic|Treatment as covariate||Week 104 (Stage 1 Trial End)||39.18|-21.37|0.5564
92441086|NCT00449644|184769030|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.2|STANDARD_ERROR_OF_MEAN|7.9||0.008|TWO_SIDED|95.0|5.59|36.83|||Regression, Logistic|Treatment as covariate||Week 24||36.83|5.59|0.008
92441087|NCT00449644|184769030|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.2|STANDARD_ERROR_OF_MEAN|8.27||0.069|TWO_SIDED|95.0|-1.21|31.51|||Regression, Logistic|Treatment as covariate||Week 72||31.51|-1.21|0.069
92441088|NCT00449644|184769030|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.2|STANDARD_ERROR_OF_MEAN|8.54||0.035|TWO_SIDED|95.0|1.28|35.08|||Regression, Logistic|Treatment as covariate||Week 120||35.08|1.28|0.035
92441089|NCT01566461|184769031|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||z-test|||||||<0.001
92441090|NCT01566461|184769032|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92441091|NCT01566461|184769033|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92441092|NCT01566461|184769034|SUPERIORITY_OR_OTHER|||||||0.926|TWO_SIDED||||||Chi-squared|||||||0.926
92441093|NCT01566461|184769035|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92441094|NCT01566461|184769036|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92441095|NCT01566461|184769037|SUPERIORITY_OR_OTHER|||||||0.859|TWO_SIDED||||||t-test, 1 sided|||||||0.859
92441096|NCT01566461|184769038|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Chi-squared|||||||>0.999
92441097|NCT01566461|184769039|SUPERIORITY_OR_OTHER|||||||0.096|TWO_SIDED||||||Chi-squared|||||||0.096
92441098|NCT01566461|184769040|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92441099|NCT01566461|184769041|SUPERIORITY_OR_OTHER|||||||0.121|TWO_SIDED||||||Chi-squared|||||||0.121
92441100|NCT01566461|184769042|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Chi-squared|||||||0.001
92441101|NCT01566461|184769043|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92441102|NCT01566461|184769044|SUPERIORITY_OR_OTHER|||||||0.095|TWO_SIDED||||||t-test, 1 sided|||||||0.095
92441103|NCT01566461|184769045|SUPERIORITY_OR_OTHER|||||||0.878|TWO_SIDED||||||t-test, 1 sided|||||||0.878
92441104|NCT01566461|184769046|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||t-test, 1 sided|||||||0.590
92441105|NCT01566461|184769047|SUPERIORITY_OR_OTHER|||||||0.302|TWO_SIDED||||||Chi-squared|||||||0.302
92441106|NCT01566461|184769048|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED||||||Chi-squared|||||||0.111
92441107|NCT01566461|184769049|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED||||||Chi-squared|||||||0.103
92441108|NCT01566461|184769050|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||t-test, 1 sided|||||||0.049
92441109|NCT05778786|184769055|SUPERIORITY|A superiority margin of 0.0 logMAR was used.|Least-Square Mean|-0.13|STANDARD_ERROR_OF_MEAN|0.012|||ONE_SIDED|95.0||-0.1|||Linear Mixed Model|||It was calculated using a 1-sided one sample mean t-test with a type I error rate of 0.025 that 9 subjects provide at least 99% statistical power to test for superiority.||-0.10||
92441110|NCT05778786|184769056|SUPERIORITY|A superiority margin of 62 points was used.|Least-quares mean|69.4|STANDARD_ERROR_OF_MEAN|2.13|||ONE_SIDED|95.0|65.2||||Linear Mixed Model|||It was calculated using a 1-sided one sample mean t-test with a type I error rate of 0.025 that 165 subjects provide at least 99% statistical power to test for superiority.|||65.2|
92280076|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.017||||0.8955|TWO_SIDED|95.0|-0.277|0.242||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.242|-0.277|0.8955
92441111|NCT05778786|184769057|SUPERIORITY|A superiority margin of 0.80 was used|Mean Central Posterior Proportion|0.974|STANDARD_DEVIATION|0.01|||TWO_SIDED|95.0|0.95|0.989|||Bayesian beta- binomial model|Method used is Bayesian beta- binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.99 and an intraclass correlation of 0.70, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible interval.||0.989|0.950|
92441112|NCT05778786|184769058|SUPERIORITY|A superiority margin of 0.80 was used|Mean Central Posterior Proportion|0.989|STANDARD_DEVIATION|0.0054|||TWO_SIDED|95.0|0.976|0.997|||Bayesian beta-binomial model|Method used is Bayesian beta- binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.99 and an intraclass correlation of 0.70, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible interval.||0.997|0.976|
92441113|NCT05778786|184769059|SUPERIORITY|A superiority margin of 0.80 was used|Mean Central Posterior Proportion|0.989|STANDARD_DEVIATION|0.0053|||TWO_SIDED|95.0|0.977|0.997|||Bayesian beta- binomial model|Method used is Bayesian beta- binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.99 and an intraclass correlation of 0.70, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible interval.||0.997|0.977|
92441114|NCT05778786|184769060|SUPERIORITY|A superiority margin of 0.05 was used.|Mean Central Posterior Proportion|0.003|STANDARD_DEVIATION|0.0028|||TWO_SIDED|95.0|0.0|0.01|||Bayesian beta-binomial model|Bayesian beta- binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.01 and an intraclass correlation of 0.70, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible Interval.||0.010|0.000|
92441115|NCT05778786|184769061|SUPERIORITY|A superiority margin of 58 points was used.|Least-squares Mean|66.1|STANDARD_ERROR_OF_MEAN|2.48|||ONE_SIDED|95.0|61.2||||Linear Mixed Model|||It was calculated using a 1-sided one sample mean t-test with a type I error rate of 0.025 that 135 subjects provide at least 97% statistical power to test for superiority.|||61.2|
92441116|NCT05778786|184769062|SUPERIORITY|A superiority margin of 61 points was used.|Least-squares Mean|69.9|STANDARD_ERROR_OF_MEAN|1.66|||ONE_SIDED|95.0|66.6||||Linear Mixed Model|||It was calculated using a 1-sided one sample mean t-test with a type I error rate of 0.025 that 135 subjects provide at least 97% statistical power to test for superiority.|||66.6|
92441117|NCT00663052|184769090|SUPERIORITY_OR_OTHER||Proportion difference|18.34||||0.0015|TWO_SIDED|95.0|6.8|29.88|||Fisher Exact||Primary endpoint used 95% CI to compare to prespecified target rates for each treatment arm.|With 125 participants/group, estimation was: 1)approximately 90% power to reject null hypothesis- PASI 75 response rate at 24 weeks: 50% in ETN 50 mg QW, assuming true rate is 65% or greater; 2)90% power to reject null hypothesis- PASI 75 response rate at 24 weeks: 60% in 50 mg BIW, assuming true rate is 74% or greater. The 95% CI widths on these are approximately ±8.8%, indicating PASI 75 for ETN 50 mg QW and ETN 50 mg BIW must be at least 58.8% \& 68.8%, respectively to reject null hypotheses.||29.88|6.80|0.0015
92441118|NCT00663052|184769091|SUPERIORITY_OR_OTHER||Proportion difference|3.14||||0.3605|TWO_SIDED|95.0|-3.88|10.16|||Fisher Exact|||Comparison between treatment groups at Week 2||10.16|-3.88|0.3605
92441119|NCT00663052|184769091|SUPERIORITY_OR_OTHER||Proportion difference|17.91||||0.0013|TWO_SIDED|95.0|6.5|29.32|||Fisher Exact|||Comparison between treatment groups at Week 4||29.32|6.50|0.0013
92441120|NCT00663052|184769091|SUPERIORITY_OR_OTHER||Proportion difference|19.6||||0.0011|TWO_SIDED|95.0|7.51|31.7|||Fisher Exact|||Comparison between treatment groups at Week 8||31.70|7.51|0.0011
92441121|NCT00663052|184769091|SUPERIORITY_OR_OTHER||Proportion difference|20.09|||<|0.0001|TWO_SIDED|95.0|9.77|30.4|||Fisher Exact|||Comparison between treatment groups at Week 12||30.40|9.77|<.0001
92441122|NCT00663052|184769091|SUPERIORITY_OR_OTHER||Proportion difference|14.38||||0.001|TWO_SIDED|95.0|5.39|23.37|||Fisher Exact|||Comparison between treatment groups at Week 16||23.37|5.39|0.0010
92441123|NCT00663052|184769091|SUPERIORITY_OR_OTHER||Proportion difference|10.75||||0.0087|TWO_SIDED|95.0|2.35|19.16|||Fisher Exact|||Comparison between treatment groups at Week 20||19.16|2.35|0.0087
92280077|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.052||||0.6916|TWO_SIDED|95.0|-0.312|0.207||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.207|-0.312|0.6916
92441124|NCT00663052|184769091|SUPERIORITY_OR_OTHER||Proportion difference|11.46||||0.0068|TWO_SIDED|95.0|2.77|20.15|||Fisher Exact|||Comparison between treatment groups at Week 24||20.15|2.77|0.0068
92441125|NCT00663052|184769092|SUPERIORITY_OR_OTHER||Proportion difference|1.5||||0.2435|TWO_SIDED|95.0|-1.31|4.32|||Fisher Exact|||Comparison between treatment groups at Week 2||4.32|-1.31|0.2435
92441126|NCT00663052|184769092|SUPERIORITY_OR_OTHER||Proportion difference|1.64||||0.5929|TWO_SIDED|95.0|-4.4|7.67|||Fisher Exact|||Comparison between treatment groups at Week 4||7.67|-4.40|0.5929
92441127|NCT00663052|184769092|SUPERIORITY_OR_OTHER||Proportion difference|13.44||||0.0156|TWO_SIDED|95.0|2.02|24.86|||Fisher Exact|||Comparison between treatment groups at Week 8||24.86|2.02|0.0156
92238146|NCT03151148|184380364|SUPERIORITY||Geometric mean ratio (GMR)|16.09|||<|0.001|TWO_SIDED|95.0|7.058|36.657|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||36.657|7.058|<0.001
92238147|NCT03151148|184380365|SUPERIORITY||Geometric mean ratio (GMR)|142.89|||<|0.001|TWO_SIDED|95.0|58.484|349.119|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||349.119|58.484|<0.001
92239998|NCT00570739|184383792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.8||||0.0008|TWO_SIDED|95.0|12.5|47.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||47.0|12.5|0.0008
92239999|NCT00570739|184383792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.7||||0.0002|TWO_SIDED|95.0|14.9|46.6||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||46.6|14.9|0.0002
92441128|NCT00663052|184769092|SUPERIORITY_OR_OTHER||Proportion difference|25.18|||<|0.0001|TWO_SIDED|95.0|12.89|37.47|||Fisher Exact|||Comparison between treatment groups at Week 12||37.47|12.89|<.0001
92240000|NCT00570739|184383793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.0033|TWO_SIDED|95.0|0.9|4.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||4.3|0.9|0.0033
92441129|NCT00663052|184769092|SUPERIORITY_OR_OTHER||Proportion difference|21.84||||0.0003|TWO_SIDED|95.0|9.82|33.85|||Fisher Exact|||Comparison between treatment groups at Week 16||33.85|9.82|0.0003
92441130|NCT00663052|184769092|SUPERIORITY_OR_OTHER||Proportion difference|19.8||||0.0006|TWO_SIDED|95.0|8.23|31.38|||Fisher Exact|||Comparison between treatment groups at Week 20||31.38|8.23|0.0006
92441131|NCT00663052|184769092|SUPERIORITY_OR_OTHER||Proportion difference|18.34||||0.0015|TWO_SIDED|95.0|6.8|29.88|||Fisher Exact|||Comparison between treatment groups at Week 24||29.88|6.80|0.0015
92441132|NCT00663052|184769093|SUPERIORITY_OR_OTHER||Proportion difference|0.0|||||TWO_SIDED|95.0|-0.74|0.74||The P-value at Week 2 was not applicable as the percentage of participants achieving 90% improvement in PASI in both treatment groups were 0%.|Fisher Exact|||Comparison between treatment groups at Week 2||0.74|-0.74|
92441133|NCT00663052|184769093|SUPERIORITY_OR_OTHER||Proportion difference|0.02||||1|TWO_SIDED|95.0|-2.77|2.81|||Fisher Exact|||Comparison between treatment groups at Week 4||2.81|-2.77|1.0000
92441134|NCT00663052|184769093|SUPERIORITY_OR_OTHER||Proportion difference|3.94||||0.2611|TWO_SIDED|95.0|-3.2|11.07|||Fisher Exact|||Comparison between treatment groups at Week 8||11.07|-3.20|0.2611
92441135|NCT00663052|184769093|SUPERIORITY_OR_OTHER||Proportion difference|18.37||||0.0002|TWO_SIDED|95.0|8.3|28.45|||Fisher Exact|||Comparison between treatment groups at Week 12||28.45|8.30|0.0002
92441136|NCT00663052|184769093|SUPERIORITY_OR_OTHER||Proportion difference|17.31||||0.0031|TWO_SIDED|95.0|5.43|29.19|||Fisher Exact|||Comparison between treatment groups at Week 16||29.19|5.43|0.0031
92441137|NCT00663052|184769093|SUPERIORITY_OR_OTHER||Proportion difference|15.92||||0.0081|TWO_SIDED|95.0|3.8|28.04|||Fisher Exact|||Comparison between treatment groups at Week 20||28.04|3.80|0.0081
92441138|NCT00663052|184769093|SUPERIORITY_OR_OTHER||Proportion difference|16.78||||0.0064|TWO_SIDED|95.0|4.46|29.1|||Fisher Exact|||Comparison between treatment groups at Week 24||29.10|4.46|0.0064
92441139|NCT00663052|184769094|SUPERIORITY_OR_OTHER||Proportion difference|0.0|||||TWO_SIDED|95.0|-0.74|0.74||The P-value at Week 2 was to be calculated by Fisher Exact method but was not estimable as the percentage of participants achieving 100% improvement in PASI in both treatment groups were 0%.||||Comparison between treatment groups at Week 2||0.74|-0.74|
92441140|NCT00663052|184769094|SUPERIORITY_OR_OTHER||Proportion difference|-0.73||||1|TWO_SIDED|95.0|-2.9|1.44|||Fisher Exact|||Comparison between treatment groups at Week 4||1.44|-2.90|1.0000
92441141|NCT00663052|184769094|SUPERIORITY_OR_OTHER||Proportion difference|-1.46||||0.4983|TWO_SIDED|95.0|-4.21|1.29|||Fisher Exact|||Comparison between treatment groups at Week 8||1.29|-4.21|0.4983
92441142|NCT00663052|184769094|SUPERIORITY_OR_OTHER||Proportion difference|1.57||||0.4957|TWO_SIDED|95.0|-3.23|6.37|||Fisher Exact|||Comparison between treatment groups at Week 12||6.37|-3.23|0.4957
92441143|NCT00663052|184769094|SUPERIORITY_OR_OTHER||Proportion difference|3.14||||0.3115|TWO_SIDED|95.0|-3.24|9.52|||Fisher Exact|||Comparison between treatment groups at Week 16||9.52|-3.24|0.3115
92441144|NCT00663052|184769094|SUPERIORITY_OR_OTHER||Proportion difference|6.99||||0.0773|TWO_SIDED|95.0|-1.13|15.1|||Fisher Exact|||Comparison between treatment groups at Week 20||15.10|-1.13|0.0773
92441145|NCT00663052|184769094|SUPERIORITY_OR_OTHER||Proportion difference|5.53||||0.183|TWO_SIDED|95.0|-2.82|13.87|||Fisher Exact|||Comparison between treatment groups at Week 24||13.87|-2.82|0.1830
92441146|NCT00663052|184769095|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.3||||0.0103|TWO_SIDED|95.0|-2.3|-0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||-0.3|-2.3|0.0103
92441147|NCT00663052|184769095|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.8||||0.0031|TWO_SIDED|95.0|-3.0|-0.6|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||-0.6|-3.0|0.0031
92238148|NCT03151148|184380365|SUPERIORITY||Geometric mean ratio (GMR)|35.19|||<|0.001|TWO_SIDED|95.0|14.402|85.972|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||85.972|14.402|<0.001
92238149|NCT03151148|184380365|SUPERIORITY||Geometric mean ratio (GMR)|41.64|||<|0.001|TWO_SIDED|95.0|17.043|101.739|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||101.739|17.043|<0.001
92240001|NCT00570739|184383793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8||||0.0008|TWO_SIDED|95.0|1.2|4.4||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||4.4|1.2|0.0008
92240002|NCT00570739|184383794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.0035|TWO_SIDED|95.0|-0.44|-0.09||P-Value is for the LS mean difference between the treatment groups|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||||-0.09|-0.44|0.0035
92238150|NCT03151148|184380365|SUPERIORITY||Geometric mean ratio (GMR)|3.61||||0.008|TWO_SIDED|95.0|1.395|9.33|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||9.330|1.395|0.008
92240003|NCT00570739|184383795|SUPERIORITY_OR_OTHER|||||||0.5848||95.0|||||Cochran-Mantel-Haenszel|Stratified by country.||Baseline to 4 Weeks||||0.5848
92240004|NCT00570739|184383795|SUPERIORITY_OR_OTHER|||||||0.8147||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 8 weeks||||0.8147
92441148|NCT00663052|184769095|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-3.0|||<|0.0001|TWO_SIDED|95.0|-4.4|-1.7|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||-1.7|-4.4|<0.0001
92441149|NCT00663052|184769095|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-3.6|||<|0.0001|TWO_SIDED|95.0|-5.0|-2.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||-2.2|-5.0|<0.0001
92441150|NCT00663052|184769095|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-2.8|||<|0.0001|TWO_SIDED|95.0|-4.0|-1.5|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||-1.5|-4.0|<0.0001
92441151|NCT00663052|184769095|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-2.1||||0.0012|TWO_SIDED|95.0|-3.3|-0.8|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||-0.8|-3.3|0.0012
92441152|NCT00663052|184769095|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-2.0||||0.0042|TWO_SIDED|95.0|-3.4|-0.7|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||-0.7|-3.4|0.0042
92441153|NCT00663052|184769096|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|||Comparison of treatment groups for PASI 50. Log rank test used to compare groups; CI based on product-limit method.||||<0.0001
92441154|NCT00663052|184769096|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|||Comparison of treatment groups for PASI 75. Log rank test used to compare groups; CI based on product-limit method.||||<0.0001
92171308|NCT05321069|184231776|SUPERIORITY||Mean Difference (Net)|0.19||||0.8759|TWO_SIDED|95.0|-2.25|2.63|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Fatigue score) between the Nera 9 mg BID group and the Placebo group at Week 52.|The analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed categorical effects for treatment group at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of the baseline Living with Pulmonary Fibrosis (L-PF) Fatigue domain score at each visit. An unstructured covariance structure modeled repeated measures. Baseline antifibrotic use, recorded in the concomitant medication case report form (CRF), was included as a covariate.||2.63|-2.25|0.8759
92240005|NCT00570739|184383795|SUPERIORITY_OR_OTHER|||||||0.4957||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 12 Weeks||||0.4957
92240006|NCT00570739|184383795|SUPERIORITY_OR_OTHER|||||||0.0467||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks||||0.0467
92240007|NCT00570739|184383795|SUPERIORITY_OR_OTHER|||||||0.0589||95.0|||||Cochran-Mantel-Haenszel|Stratified by country.||Baseline to 16 Weeks LOCF||||0.0589
92240008|NCT00570739|184383795|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.0049|TWO_SIDED|95.0|1.38|6.1|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||6.10|1.38|0.0049
92240009|NCT00570739|184383795|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.44||||0.0092|TWO_SIDED|95.0|1.25|4.76|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||4.76|1.25|0.0092
92238151|NCT03151148|184380365|SUPERIORITY||Geometric mean ratio (GMR)|1.39||||0.474|TWO_SIDED|95.0|0.561|3.458|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.458|0.561|0.474
92238152|NCT03151148|184380365|SUPERIORITY||Geometric mean ratio (GMR)|266.87|||<|0.001|TWO_SIDED|95.0|108.86|654.231|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||654.231|108.860|<0.001
92238153|NCT03151148|184380365|SUPERIORITY||Geometric mean ratio (GMR)|51.07|||<|0.001|TWO_SIDED|95.0|20.907|124.768|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||124.768|20.907|<0.001
92240010|NCT00570739|184383796|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Cochran-Mantel-Haenszel|Startified by country||Baseline to 4 Weeks||||0.0008
92240011|NCT00570739|184383796|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 8 Weeks||||0.0280
92240012|NCT00570739|184383796|SUPERIORITY_OR_OTHER|||||||0.0414||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 12 Weeks||||0.0414
92171309|NCT05321069|184231776|SUPERIORITY||Mean Difference (Net)|0.43||||0.732|TWO_SIDED|95.0|-2.02|2.87|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Fatigue score) between the Nera 18 mg BID group and the Placebo group at Week 52.|The analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed categorical effects for treatment group at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of the baseline Living with Pulmonary Fibrosis (L-PF) Fatigue domain score at each visit. An unstructured covariance structure modeled repeated measures. Baseline antifibrotic use, recorded in the concomitant medication case report form (CRF), was included as a covariate.||2.87|-2.02|0.7320
92171310|NCT05321069|184231777|SUPERIORITY||Mean Difference (Net)|1.17||||0.028|TWO_SIDED|95.0|0.13|2.22|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in percent predicted Forced Vital Capacity between the Nera 9 mg BID group and the placebo group at Week 52.|"Analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment, baseline use of antifibrotic therapy, and the fixed continuous effects of baseline forced vital capacity (FVC) percentage predicted at each visit. An unstructured covariance structure was used to model repeated measures within patients.~Baseline use of antifibrotic therapy, as recorded in the concomitant medication case report form (CRF) page, was included as a covariate."||2.22|0.13|0.0280
92238154|NCT03151148|184380365|SUPERIORITY||Geometric mean ratio (GMR)|74.96|||<|0.001|TWO_SIDED|95.0|30.686|183.125|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||183.125|30.686|<0.001
92240013|NCT00570739|184383796|SUPERIORITY_OR_OTHER|||||||0.084||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks||||0.0840
92240014|NCT00570739|184383796|SUPERIORITY_OR_OTHER|||||||0.0589||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks LOCF||||0.0589
92240015|NCT00570739|184383796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.0095|TWO_SIDED|95.0|1.21|3.96|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||3.96|1.21|0.0095
92441155|NCT00663052|184769096|SUPERIORITY_OR_OTHER|||||||0.0053|TWO_SIDED||||||Log Rank|||Comparison of treatment groups for PASI 90. Log rank test used to compare groups; CI based on product-limit method.||||0.0053
92441156|NCT00663052|184769096|SUPERIORITY_OR_OTHER|||||||0.0432|TWO_SIDED||||||Log Rank|||Comparison of treatment groups for PASI 100. Log rank test used to compare groups; CI based on product-limit method.||||0.0432
92441157|NCT00663052|184769097|SUPERIORITY_OR_OTHER||Proportion difference|0.0|||||TWO_SIDED|95.0|-0.74|0.74|||Fisher Exact|||Comparison between treatment groups at Week 2||0.74|-0.74|
92441158|NCT00663052|184769097|SUPERIORITY_OR_OTHER||Proportion difference|-0.73||||1|TWO_SIDED|95.0|-2.9|1.44|||Fisher Exact|||Comparison between treatment groups at Week 4||1.44|-2.90|1.0000
92441159|NCT00663052|184769097|SUPERIORITY_OR_OTHER||Proportion difference|0.04||||1|TWO_SIDED|95.0|-3.58|3.67|||Fisher Exact|||Comparison between treatment groups at Week 8||3.67|-3.58|1.0000
92441160|NCT00663052|184769097|SUPERIORITY_OR_OTHER||Proportion difference|6.1||||0.0401|TWO_SIDED|95.0|-0.26|12.47|||Fisher Exact|||Comparison between treatment groups at Week 12||12.47|-0.26|0.0401
92441161|NCT00663052|184769097|SUPERIORITY_OR_OTHER||Proportion difference|3.29||||0.4415|TWO_SIDED|95.0|-4.95|11.54|||Fisher Exact|||Comparison between treatment groups at Week 16||11.54|-4.95|0.4415
92441162|NCT00663052|184769097|SUPERIORITY_OR_OTHER||Proportion difference|8.6||||0.0617|TWO_SIDED|95.0|-0.67|17.87|||Fisher Exact|||Comparison between treatment groups at Week 20||17.87|-0.67|0.0617
92441163|NCT00663052|184769097|SUPERIORITY_OR_OTHER||Proportion difference|8.64||||0.072|TWO_SIDED|95.0|-0.96|18.24|||Fisher Exact|||Comparison between treatment groups at Week 24||18.24|-0.96|0.0720
92441164|NCT00663052|184769098|SUPERIORITY_OR_OTHER||Proportion difference|-1.45||||0.6223|TWO_SIDED|95.0|-5.07|2.16|||Fisher Exact|||Comparison between treatment groups at Week 2||2.16|-5.07|0.6223
92441165|NCT00663052|184769098|SUPERIORITY_OR_OTHER||Proportion difference|6.21||||0.1|TWO_SIDED|95.0|-1.56|13.98|||Fisher Exact|||Comparison between treatment groups at Week 4||13.98|-1.56|0.1000
92441166|NCT00663052|184769098|SUPERIORITY_OR_OTHER||Proportion difference|15.59||||0.0037|TWO_SIDED|95.0|4.53|26.65|||Fisher Exact|||Comparison between treatment groups at Week 8||26.65|4.53|0.0037
92441167|NCT00663052|184769098|SUPERIORITY_OR_OTHER||Proportion difference|22.04||||0.0004|TWO_SIDED|95.0|9.75|34.33|||Fisher Exact|||Comparison between treatment groups at Week 12||34.33|9.75|0.0004
92441168|NCT00663052|184769098|SUPERIORITY_OR_OTHER||Proportion difference|13.46||||0.0285|TWO_SIDED|95.0|0.94|25.97|||Fisher Exact|||Comparison between treatment groups at Week 16||25.97|0.94|0.0285
92441169|NCT00663052|184769098|SUPERIORITY_OR_OTHER||Proportion difference|15.05||||0.0139|TWO_SIDED|95.0|2.67|27.43|||Fisher Exact|||Comparison between treatment groups at Week 20||27.43|2.67|0.0139
92441170|NCT00663052|184769098|SUPERIORITY_OR_OTHER||Proportion difference|19.56||||0.0012|TWO_SIDED|95.0|7.38|31.74|||Fisher Exact|||Comparison between treatment groups at Week 24||31.74|7.38|0.0012
92441171|NCT00663052|184769099|SUPERIORITY_OR_OTHER||Proportion difference|5.01||||0.3956|TWO_SIDED|95.0|-6.01|16.03|||Fisher Exact|||Comparison between treatment groups at Week 2||16.03|-6.01|0.3956
92441172|NCT00663052|184769099|SUPERIORITY_OR_OTHER||Proportion difference|8.66||||0.1754|TWO_SIDED|95.0|-3.82|21.14|||Fisher Exact|||Comparison between treatment groups at Week 4||21.14|-3.82|0.1754
92441173|NCT00663052|184769099|SUPERIORITY_OR_OTHER||Proportion difference|13.81||||0.0207|TWO_SIDED|95.0|1.9|25.72|||Fisher Exact|||Comparison between treatment groups at Week 8||25.72|1.90|0.0207
92441174|NCT00663052|184769099|SUPERIORITY_OR_OTHER||Proportion difference|19.38|||<|0.0001|TWO_SIDED|95.0|9.23|29.53|||Fisher Exact|||Comparison between treatment groups at Week 12||29.53|9.23|<0.0001
92441175|NCT00663052|184769099|SUPERIORITY_OR_OTHER||Proportion difference|13.54||||0.0044|TWO_SIDED|95.0|3.79|23.29|||Fisher Exact|||Comparison between treatment groups at Week 16||23.29|3.79|0.0044
92441176|NCT00663052|184769099|SUPERIORITY_OR_OTHER||Proportion difference|10.62||||0.0223|TWO_SIDED|95.0|1.11|20.13|||Fisher Exact|||Comparison between treatment groups at Week 20||20.13|1.11|0.0223
92441177|NCT00663052|184769099|SUPERIORITY_OR_OTHER||Proportion difference|11.37||||0.0133|TWO_SIDED|95.0|1.96|20.78|||Fisher Exact|||Comparison between treatment groups at Week 24||20.78|1.96|0.0133
92441178|NCT00663052|184769100|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Log Rank|||Comparison between treatment groups for PGA Clear/Almost Clear (0,1). Log rank test used to compare groups; CI based on product-limit method.||||0.0003
92441179|NCT00663052|184769100|SUPERIORITY_OR_OTHER|||||||0.0022|TWO_SIDED||||||Log Rank|||Comparison between treatment groups for PGA Clear/Almost Clear/Mild (0,1,2). Log rank test used to compare groups; CI based on product-limit method.||||0.0022
92441180|NCT00663052|184769101|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.0193|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||-0.0|-0.3|0.0193
92441181|NCT00663052|184769101|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.0114|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||-0.1|-0.4|0.0114
92441182|NCT00663052|184769101|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.3||||0.0006|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||-0.2|-0.5|0.0006
92441183|NCT00663052|184769101|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||-0.3|-0.7|<0.0001
92441184|NCT00663052|184769101|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.3||||0.0058|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||-0.1|-0.5|0.0058
92441185|NCT00663052|184769101|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.4||||0.0018|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||-0.1|-0.6|0.0018
92441186|NCT00663052|184769101|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.4||||0.0009|TWO_SIDED|95.0|-0.6|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||-0.2|-0.6|0.0009
92441187|NCT00663052|184769102|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.1||||0.6396|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||0.2|-0.3|0.6396
92441188|NCT00663052|184769102|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.4||||0.0074|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||-0.1|-0.7|0.0074
92441189|NCT00663052|184769102|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.6||||0.0007|TWO_SIDED|95.0|-0.9|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||-0.2|-0.9|0.0007
92441190|NCT00663052|184769102|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||-0.5|-1.1|<0.0001
92441191|NCT00663052|184769102|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.5||||0.004|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||-0.1|-0.8|0.0040
92441192|NCT00663052|184769102|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.6||||0.0004|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||-0.3|-0.9|0.0004
92441193|NCT00663052|184769102|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.1799|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||-0.1|-0.5|0.1799
92441194|NCT00663052|184769103|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.0||||0.7757|TWO_SIDED|95.0|-0.2|0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||0.3|-0.2|0.7757
92441195|NCT00663052|184769103|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.2112|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||0.1|-0.4|0.2112
92441196|NCT00663052|184769103|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.1||||0.5467|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||0.2|-0.3|0.5467
92441197|NCT00663052|184769103|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.1||||0.3684|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||0.1|-0.4|0.3684
92441198|NCT00663052|184769103|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||-0.2046|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||0.1|-0.4|-0.2046
92441199|NCT00663052|184769103|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.0649|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||0.0|-0.5|0.0649
92441200|NCT00663052|184769103|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.0||||0.8683|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.2|-0.3|0.8683
92441201|NCT00663052|184769104|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.0||||0.8898|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||0.2|-0.3|0.8898
92441202|NCT00663052|184769104|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.4||||0.009|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||-0.1|-0.7|0.0090
92238155|NCT03151148|184380365|SUPERIORITY||Geometric mean ratio (GMR)|26.06|||<|0.001|TWO_SIDED|95.0|10.262|66.169|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||66.169|10.262|<0.001
92240016|NCT00570739|184383796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.08||||0.0088|TWO_SIDED|95.0|1.2|3.6|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||3.60|1.20|0.0088
92240017|NCT00570739|184383797|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 8 Weeks||||<0.0001
92441203|NCT00663052|184769104|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.4||||0.0028|TWO_SIDED|95.0|-0.7|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||-0.2|-0.7|0.0028
92441204|NCT00663052|184769104|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.6||||0.0001|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||-0.3|-0.9|0.0001
92441205|NCT00663052|184769104|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||-0.3|-0.9|<0.0001
92441206|NCT00663052|184769104|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.5||||0.0016|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||-0.2|-0.8|0.0016
92441207|NCT00663052|184769104|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.3||||0.0602|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.0|-0.6|0.0602
92441208|NCT00663052|184769107|SUPERIORITY_OR_OTHER||Proportion difference|0.42||||1|TWO_SIDED|95.0|-7.7|8.55|||Fisher Exact|||Comparison between treatment groups at Week 12||8.55|-7.70|1.0000
92441209|NCT00663052|184769107|SUPERIORITY_OR_OTHER||Proportion difference|3.94||||0.4213|TWO_SIDED|95.0|-5.75|13.63|||Fisher Exact|||Comparison between treatment groups at Week 16||13.63|-5.75|0.4213
92441210|NCT00663052|184769107|SUPERIORITY_OR_OTHER||Proportion difference|3.98||||0.4039|TWO_SIDED|95.0|-5.38|13.35|||Fisher Exact|||Comparison between treatment groups at Week 20||13.35|-5.38|0.4039
92441211|NCT00663052|184769107|SUPERIORITY_OR_OTHER||Proportion difference|2.5||||0.6168|TWO_SIDED|95.0|-6.87|11.88|||Fisher Exact|||Comparison between treatment groups at Week 24||11.88|-6.87|0.6168
92441212|NCT00663052|184769108|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.862|TWO_SIDED|95.0|-2.8|2.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||||2.3|-2.8|0.8620
92441213|NCT00663052|184769109|SUPERIORITY_OR_OTHER||Proportion difference|5.68||||0.3525|TWO_SIDED|95.0|-6.05|17.4|||Fisher Exact|||Comparison between treatment groups at Week 2||17.40|-6.05|0.3525
92240018|NCT00570739|184383797|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks||||<0.0001
92441214|NCT00663052|184769109|SUPERIORITY_OR_OTHER||Proportion difference|14.7||||0.0202|TWO_SIDED|95.0|2.19|27.2|||Fisher Exact|||Comparison between treatment groups at Week 4||27.20|2.19|0.0202
92441215|NCT00663052|184769109|SUPERIORITY_OR_OTHER||Proportion difference|14.41||||0.0178|TWO_SIDED|95.0|2.17|26.64|||Fisher Exact|||Comparison between treatment groups at Week 8||26.64|2.17|0.0178
92441216|NCT00663052|184769109|SUPERIORITY_OR_OTHER||Proportion difference|21.52|||<|0.0001|TWO_SIDED|95.0|11.02|32.03|||Fisher Exact|||Comparison between treatment groups at Week 12||32.03|11.02|<0.0001
92441217|NCT00663052|184769109|SUPERIORITY_OR_OTHER||Proportion difference|10.53||||0.0325|TWO_SIDED|95.0|0.43|20.64|||Fisher Exact|||Comparison between treatment groups at Week 16||20.64|0.43|0.0325
92441218|NCT00663052|184769109|SUPERIORITY_OR_OTHER||Proportion difference|12.04||||0.0129|TWO_SIDED|95.0|2.1|21.97|||Fisher Exact|||Comparison between treatment groups at Week 20||21.97|2.10|0.0129
92441219|NCT00663052|184769109|SUPERIORITY_OR_OTHER||Proportion difference|11.28||||0.0209|TWO_SIDED|95.0|1.26|21.3|||Fisher Exact|||Comparison between treatment groups at Week 24||21.30|1.26|0.0209
92441220|NCT00663052|184769110|SUPERIORITY_OR_OTHER||Proportion difference|12.1||||0.0461|TWO_SIDED|95.0|-0.24|24.44|||Fisher Exact|||Comparison between treatment groups at Week 2||24.44|-0.24|0.0461
92441221|NCT00663052|184769110|SUPERIORITY_OR_OTHER||Proportion difference|8.83||||0.1314|TWO_SIDED|95.0|-2.44|20.1|||Fisher Exact|||Comparison between treatment groups at Week 4||20.10|-2.44|0.1314
92441222|NCT00663052|184769110|SUPERIORITY_OR_OTHER||Proportion difference|11.2||||0.0289|TWO_SIDED|95.0|0.65|21.74|||Fisher Exact|||Comparison between treatment groups at Week 8||21.74|0.65|0.0289
92441223|NCT00663052|184769110|SUPERIORITY_OR_OTHER||Proportion difference|8.52||||0.0433|TWO_SIDED|95.0|-0.04|17.07|||Fisher Exact|||Comparison between treatment groups at Week 12||17.07|-0.04|0.0433
92441224|NCT00663052|184769110|SUPERIORITY_OR_OTHER||Proportion difference|7.06||||0.0902|TWO_SIDED|95.0|-1.32|15.43|||Fisher Exact|||Comparison between treatment groups at Week 16||15.43|-1.32|0.0902
92441225|NCT00663052|184769110|SUPERIORITY_OR_OTHER||Proportion difference|7.79||||0.063|TWO_SIDED|95.0|-0.68|16.26|||Fisher Exact|||Comparison between treatment groups at Week 20||16.26|-0.68|0.0630
92441226|NCT00663052|184769110|SUPERIORITY_OR_OTHER||Proportion difference|7.7||||0.0907|TWO_SIDED|95.0|-1.53|16.93|||Fisher Exact|||Comparison between treatment groups at Week 24||16.93|-1.53|0.0907
92441227|NCT00663052|184769113|SUPERIORITY_OR_OTHER||Proportion difference|3.25||||0.6255|TWO_SIDED|95.0|-9.39|15.9|||Fisher Exact|||Comparison between treatment groups at Week 2||15.90|-9.39|0.6255
92441228|NCT00663052|184769113|SUPERIORITY_OR_OTHER||Proportion difference|9.3||||0.1292|TWO_SIDED|95.0|-2.85|21.45|||Fisher Exact|||Comparison between treatment groups at Week 4||21.45|-2.85|0.1292
92238156|NCT03151148|184380365|SUPERIORITY||Geometric mean ratio (GMR)|3.41||||0.007|TWO_SIDED|95.0|1.397|8.338|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||8.338|1.397|0.007
92441229|NCT00663052|184769113|SUPERIORITY_OR_OTHER||Proportion difference|11.86||||0.0251|TWO_SIDED|95.0|0.94|22.78|||Fisher Exact|||Comparison between treatment groups at Week 8||22.78|0.94|0.0251
92441230|NCT00663052|184769113|SUPERIORITY_OR_OTHER||Proportion difference|14.16||||0.0055|TWO_SIDED|95.0|3.68|24.64|||Fisher Exact|||Comparison between treatment groups at Week 12||24.64|3.68|0.0055
92441231|NCT00663052|184769113|SUPERIORITY_OR_OTHER||Proportion difference|11.99||||0.0159|TWO_SIDED|95.0|1.78|22.2|||Fisher Exact|||Comparison between treatment groups at Week 16||22.20|1.78|0.0159
92441232|NCT00663052|184769113|SUPERIORITY_OR_OTHER||Proportion difference|9.05||||0.0672|TWO_SIDED|95.0|-1.08|19.18|||Fisher Exact|||Comparison between treatment groups at Week 20||19.18|-1.08|0.0672
92441233|NCT00663052|184769113|SUPERIORITY_OR_OTHER||Proportion difference|10.51||||0.0351|TWO_SIDED|95.0|0.27|20.75|||Fisher Exact|||Comparison between treatment groups at Week 24||20.75|0.27|0.0351
92441234|NCT00663052|184769114|SUPERIORITY_OR_OTHER||Proportion difference|6.24||||0.2283|TWO_SIDED|95.0|-4.11|16.58|||Fisher Exact|||Comparison between treatment groups at Week 2||16.58|-4.11|0.2283
92441235|NCT00663052|184769114|SUPERIORITY_OR_OTHER||Proportion difference|5.49||||0.2326|TWO_SIDED|95.0|-3.68|14.66|||Fisher Exact|||Comparison between treatment groups at Week 4||14.66|-3.68|0.2326
92441236|NCT00663052|184769114|SUPERIORITY_OR_OTHER||Proportion difference|10.0||||0.0165|TWO_SIDED|95.0|1.47|18.52|||Fisher Exact|||Comparison between treatment groups at Week 8||18.52|1.47|0.0165
92441237|NCT00663052|184769114|SUPERIORITY_OR_OTHER||Proportion difference|10.0||||0.0165|TWO_SIDED|95.0|1.47|18.52|||Fisher Exact|||Comparison between treatment groups at Week 12||18.52|1.47|0.0165
92441238|NCT00663052|184769114|SUPERIORITY_OR_OTHER||Proportion difference|4.85||||0.2536|TWO_SIDED|95.0|-3.46|13.15|||Fisher Exact|||Comparison between treatment groups at Week 16||13.15|-3.46|0.2536
92441239|NCT00663052|184769114|SUPERIORITY_OR_OTHER||Proportion difference|5.6||||0.1761|TWO_SIDED|95.0|-2.59|13.78|||Fisher Exact|||Comparison between treatment groups at Week 20||13.78|-2.59|0.1761
92441240|NCT00663052|184769114|SUPERIORITY_OR_OTHER||Proportion difference|4.01||||0.3943|TWO_SIDED|95.0|-5.18|13.2|||Fisher Exact|||Comparison between treatment groups at Week 24||13.20|-5.18|0.3943
92441241|NCT00663052|184769115|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.3||||0.5748|TWO_SIDED|95.0|-1.5|0.8|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||0.8|-1.5|0.5748
92441242|NCT00663052|184769115|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.2||||0.0471|TWO_SIDED|95.0|-2.4|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||-0.0|-2.4|0.0471
92240019|NCT00570739|184383797|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks LOCF||||<0.0001
92441243|NCT00663052|184769115|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-2.0||||0.0025|TWO_SIDED|95.0|-3.3|-0.7|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||-0.7|-3.3|0.0025
92441244|NCT00663052|184769115|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-2.2||||0.0009|TWO_SIDED|95.0|-3.5|-0.9|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||-0.9|-3.5|0.0009
92441245|NCT00663052|184769115|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.9||||0.0015|TWO_SIDED|95.0|-3.1|-0.7|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||-0.7|-3.1|0.0015
92441246|NCT00663052|184769115|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.5||||0.0197|TWO_SIDED|95.0|-2.7|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||-0.2|-2.7|0.0197
92441247|NCT00663052|184769115|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.3||||0.0506|TWO_SIDED|95.0|-2.6|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.0|-2.6|0.0506
92441248|NCT00663052|184769116|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.04||||0.0435|TWO_SIDED|95.0|0.0|0.09|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||0.09|0.00|0.0435
92441249|NCT00663052|184769116|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.05||||0.0275|TWO_SIDED|95.0|0.01|0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.10|0.01|0.0275
92238157|NCT03151148|184380366|SUPERIORITY||Geometric mean ratio (GMR)|51.1|||<|0.001|TWO_SIDED|95.0|21.692|120.379|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||120.379|21.692|<0.001
92441250|NCT00663052|184769117|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.0||||0.9473|TWO_SIDED|95.0|-0.7|0.7|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||0.7|-0.7|0.9473
92441251|NCT00663052|184769117|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.1||||0.8217|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.6|-0.8|0.8217
92441252|NCT00663052|184769118|SUPERIORITY_OR_OTHER||Difference of Adjusted Mean Change|-0.7||||0.0539|TWO_SIDED|95.0|-1.4|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||0.0|-1.4|0.0539
92441253|NCT00663052|184769118|SUPERIORITY_OR_OTHER||Difference of Adjusted Mean Change|-0.5||||0.1494|TWO_SIDED|95.0|-1.3|0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.2|-1.3|0.1494
92441254|NCT00663052|184769124|SUPERIORITY_OR_OTHER|||||||0.2139|TWO_SIDED||||||Fisher Exact|||Comparison between treatment groups at Week 12||||0.2139
92441255|NCT00663052|184769124|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Comparison between treatment groups at Week 24||||1.0000
92240020|NCT00570739|184383797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.59|||<|0.0001|TWO_SIDED|95.0|2.78|11.23|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||11.23|2.78|<0.0001
92441256|NCT00663052|184769126|SUPERIORITY_OR_OTHER|||||||0.2443|TWO_SIDED||||||Fisher Exact|||Comparison between treatment groups at Week 12||||0.2443
92441257|NCT00663052|184769126|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Comparison between treatment groups at Week 24||||1.0000
92441258|NCT00663052|184769127|SUPERIORITY_OR_OTHER|||||||0.0807|TWO_SIDED||||||ANCOVA|||Comparison of treatment groups at Week 12||||0.0807
92441259|NCT00663052|184769127|SUPERIORITY_OR_OTHER|||||||0.1454|TWO_SIDED||||||ANCOVA|||Comparison of treatment groups at Week 24||||0.1454
92441260|NCT01252940|184769141|NON_INFERIORITY_OR_EQUIVALENCE|A 95% confidence interval (CI) for the difference between treatment groups in the percentages of virologic success was constructed using normal approximation. Noninferiority was assessed using a conventional 95% CI approach, with a noninferiority margin of 12%. It would be concluded that the FTC/RPV/TDF STR group was not inferior to the SBR group if the lower bound of the 2-sided 95% CI of the difference (FTC/RPV/TDF STR - SBR) in the response rate was greater than -12%.|Mean Difference (Net)|3.8|||||TWO_SIDED|95.0|-1.6|9.1||||||||9.1|-1.6|
92441261|NCT03939897|184769186|OTHER|This test is used to compare the survival distributions of different groups in a survival analysis. It's a nonparametric test.||||||0.506|||||||Log Rank|||||||0.5060
92441262|NCT03939897|184769189|OTHER|This test is used to compare the survival distributions of different groups in a survival analysis. It's a nonparametric test.||||||0.2989|||||||Log Rank|||||||0.2989
92441263|NCT05620576|184769310|SUPERIORITY||Posterior Mean Difference|0.1|||||TWO_SIDED|95.0|-0.61|0.82|||||Posterior mean difference with 95% credible interval is reported.|||0.82|-0.61|
92441264|NCT05620576|184769311|SUPERIORITY||Posterior Mean Difference|0.26|||||TWO_SIDED|95.0|-0.47|0.99|||||Posterior mean difference with 95% credible interval is reported.|||0.99|-0.47|
92441265|NCT05620576|184769312|SUPERIORITY||Posterior Mean Difference|0.33|||||TWO_SIDED|95.0|-0.11|0.78|||||Posterior mean difference with 95% credible interval is reported.|||0.78|-0.11|
92441266|NCT05620576|184769313|SUPERIORITY||Posterior Mean Difference|0.2|||||TWO_SIDED|95.0|-0.56|0.96|||||Posterior mean difference with 95% credible interval is reported.|||0.96|-0.56|
92441267|NCT05620576|184769314|SUPERIORITY||Posterior Mean Difference|-0.77|||||TWO_SIDED|95.0|-9.41|7.75|||||Posterior mean difference with 95% credible interval is reported.|||7.75|-9.41|
92441268|NCT05620576|184769315|SUPERIORITY||Posterior Mean Difference|-0.13|||||TWO_SIDED|95.0|-0.51|0.24|||||Posterior mean difference with 95% credible interval is reported.|||0.24|-0.51|
92441269|NCT05620576|184769316|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.11|0.08|||||Posterior mean difference with 95% credible interval is reported.|||0.08|-0.11|
92441270|NCT05620576|184769317|SUPERIORITY||Posterior Mean Difference|23.02|||||TWO_SIDED|95.0|-108.05|152.33|||||Posterior mean difference with 95% credible interval is reported.|||152.33|-108.05|
92441271|NCT02666183|184769320|OTHER||Estimated marginal mean difference|-2.251||||0.162|TWO_SIDED|95.0|-5.051|0.55|||ANCOVA|Covariates: DCG age, gender, race, income||||0.550|-5.051|0.162
92238158|NCT03151148|184380366|SUPERIORITY||Geometric mean ratio (GMR)|12.87|||<|0.001|TWO_SIDED|95.0|5.463|30.317|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||30.317|5.463|<0.001
92240021|NCT00570739|184383797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8|||<|0.0001|TWO_SIDED|95.0|2.53|9.1|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||9.10|2.53|<0.0001
92441272|NCT02666183|184769320|OTHER||Estimated marginal mean difference|-3.663||||0.007|TWO_SIDED|95.0|-6.538|-0.789|||ANCOVA|Covariates: DCG age, gender, race, income||||-0.789|-6.538|0.007
92441273|NCT02666183|184769320|OTHER||Estimated marginal mean difference|-1.413||||0.714|TWO_SIDED|95.0|-4.29|1.464|||ANCOVA|Covariates: DCG age, gender, race, income||||1.464|-4.290|0.714
92441274|NCT02666183|184769321|OTHER||Estimated marginal mean difference|-0.531||||0.173|TWO_SIDED|95.0|-1.297|0.234|||ANCOVA|Covariates: DCG age, gender, race, income||||0.234|-1.297|0.173
92441275|NCT02666183|184769321|OTHER||Estimated marginal mean difference|-1.456||||0.001|TWO_SIDED|95.0|-2.241|-0.671|||ANCOVA|Covariates: DCG age, gender, race, income||||-0.671|-2.241|0.001
92441276|NCT02666183|184769321|OTHER||Estimated marginal mean difference|-0.925||||0.021|TWO_SIDED|95.0|-1.711|-0.139|||ANCOVA|Covariates: DCG age, gender, race, income||||-0.139|-1.711|0.021
92441277|NCT02666183|184769322|OTHER||Estimated marginal mean difference|-0.984||||0.323|TWO_SIDED|95.0|-2.939|0.971|||ANCOVA|Covariates: DCG age, gender, race, income||||0.971|-2.939|0.323
92441278|NCT02666183|184769322|OTHER||Estimated marginal mean difference|-1.768||||0.086|TWO_SIDED|95.0|-3.785|0.249|||ANCOVA|Covariates: DCG age, gender, race, income||||0.249|-3.785|0.086
92441279|NCT02666183|184769322|OTHER||Estimated marginal mean difference|-0.784||||0.443|TWO_SIDED|95.0|-2.794|1.226|||ANCOVA|Covariates: DCG age, gender, race, income||||1.226|-2.794|0.443
92441280|NCT00666757|184769323|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Mixed Models Analysis|||Categorical, pseudo-likelihood-based repeated measures approach (MMRM-CAT). The analysis will contrast the remission rates at 12 week endpoint between treatment groups.||||0.26
92441281|NCT00666757|184769324|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis.Treatment comparisons will include the contrast between treatment groups at 12-week endpoint.||||0.07
92441282|NCT00666757|184769325|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Mixed Models Analysis|||Categorical, pseudo-likelihood-based repeated measures approach (MMRM-CAT). Repeated Measures Analysis. The analysis will contrast the remission remission rates at 12-week endpoint.||||0.03
92441283|NCT00666757|184769326|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Mixed Models Analysis|||Categorical, pseudo-likelihood-based repeated measures approach (MMRM-CAT). The analysis will contrast the response rates at 12-week endpoint.||||0.09
92240022|NCT00570739|184383798|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 8 Weeks||||0.0004
92240023|NCT00570739|184383798|SUPERIORITY_OR_OTHER|||||||0.0326||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks||||0.0326
92240024|NCT00570739|184383798|SUPERIORITY_OR_OTHER|||||||0.0157||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks LOCF||||0.0157
92441284|NCT00666757|184769327|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Mixed Models Analysis|||Categorical, pseudo-likelihood-based repeated measures approach (MMRM-CAT). The analysis will contrast the response rates at 12-week endpoint.||||0.001
92441285|NCT00666757|184769328|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.002
92441286|NCT00666757|184769329|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.001
92441287|NCT00666757|184769330|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.003
92441288|NCT00666757|184769331|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis.Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.01
92441289|NCT00666757|184769332|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.02
92441290|NCT00666757|184769333|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.20
92238159|NCT03151148|184380366|SUPERIORITY||Geometric mean ratio (GMR)|11.46|||<|0.001|TWO_SIDED|95.0|4.863|26.986|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||26.986|4.863|<0.001
92240025|NCT00570739|184383798|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.49||||0.087|TWO_SIDED|95.0|0.88|7.07|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||7.07|0.88|0.0870
92441291|NCT00666757|184769334|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Mixed Models Analysis|||Only those patients who had at least moderate pain at baseline (defined as baseline BPI Average 24-Hour Pain Score greater than or equal to 3). Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.03
92441292|NCT00666757|184769335|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.03
92441293|NCT00666757|184769336|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.002
92441294|NCT00666757|184769337|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.01
92441295|NCT00666757|184769338|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||Between group P-value|ANCOVA|||||||0.07
92441296|NCT00666757|184769339|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||Between group P-value|ANCOVA|||||||0.34
92441297|NCT00666757|184769340|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.02
92441298|NCT00666757|184769341|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.01
92441299|NCT00666757|184769342|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.97
92441300|NCT00666757|184769343|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.32
92441301|NCT00666757|184769344|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||Between group P-value|ANCOVA|||Transformed absolute score||||0.12
92441302|NCT00666757|184769345|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||Between group P-value|ANCOVA|||Transformed Absolute Score||||0.16
92441303|NCT00666757|184769346|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.002
92441304|NCT00666757|184769347|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.53
92441305|NCT01856790|184769365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Wilcoxon Matched Pairs signed rank tests|||||||0.05
92441306|NCT01856790|184769366|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon Matched Pairs signed rank tests|||||||0.002
92441307|NCT01856790|184769368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97|||||||Wilcoxon Matched Pairs signed rank tests|||||||0.97
92441308|NCT01856790|184769372|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon Matched Pairs signed rank tests|||||||.001
92441309|NCT01856790|184769373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Wilcoxon Matched Pairs signed rank tests|||||||0.005
92441310|NCT04091646|184769375|SUPERIORITY||Odds Ratio (OR)|4.95|||<|0.0001|TWO_SIDED|95.0|2.51|9.76|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with multiple imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|IGA Success at Week 8 Odds Ratio||9.76|2.51|<0.0001
92441311|NCT04091646|184769376|SUPERIORITY||Odds Ratio (OR)|3.31||||0.0033|TWO_SIDED|95.0|1.46|7.52|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with multiple imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|IGA Success at Week 2 Odds Ratio||7.52|1.46|0.0033
92441312|NCT04091646|184769376|SUPERIORITY||Odds Ratio (OR)|3.78||||0.0002|TWO_SIDED|95.0|1.94|7.38|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with multiple imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|IGA Success at Week 4 Odds Ratio||7.38|1.94|0.0002
92441313|NCT04091646|184769377|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 2 Erythema Score||||<0.0001
92441314|NCT04091646|184769377|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 4 Erythema Score||||<0.0001
92441315|NCT04091646|184769377|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 8 Erythema Score||||<0.0001
92441316|NCT04091646|184769378|SUPERIORITY||Odds Ratio (OR)|5.05||||0.0065|TWO_SIDED|95.0|1.49|17.13|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data||Erythema Success at Week 2||17.13|1.49|0.0065
92441317|NCT04091646|184769378|SUPERIORITY||Odds Ratio (OR)|5.36||||0.0002|TWO_SIDED|95.0|2.15|13.38|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data||Erythema Success at Week 4||13.38|2.15|0.0002
92441318|NCT04091646|184769378|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0021|TWO_SIDED|95.0|1.5|6.63|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data||Erythema Success at Week 8||6.63|1.50|0.0021
92441319|NCT04091646|184769379|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 2 Scaling Score||||<0.0001
92441320|NCT04091646|184769379|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 4 Scaling Score||||<0.0001
92441321|NCT04091646|184769379|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 8 Scaling Score||||<0.0001
92441322|NCT04091646|184769380|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0759|TWO_SIDED|95.0|0.9|4.33|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|Scaling Success at Week 2||4.33|0.90|0.0759
92441323|NCT04091646|184769380|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0122|TWO_SIDED|95.0|1.18|4.61|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|Scaling Success at Week 4||4.61|1.18|0.0122
92441324|NCT04091646|184769380|SUPERIORITY||Odds Ratio (OR)|3.37||||0.0003|TWO_SIDED|95.0|1.74|6.55|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|Scaling Success at Week 8||6.55|1.74|0.0003
92441325|NCT04091646|184769382|SUPERIORITY||Odds Ratio (OR)|3.62||||0.0007|TWO_SIDED|95.0|1.72|7.63|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|WI-NRS Success at Week 2||7.63|1.72|0.0007
92441326|NCT04091646|184769382|SUPERIORITY||Odds Ratio (OR)|3.3||||0.0009|TWO_SIDED|95.0|1.63|6.68|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|WI-NRS Success at Week 4||6.68|1.63|0.0009
92441327|NCT04091646|184769382|SUPERIORITY||Odds Ratio (OR)|3.19||||0.0007|TWO_SIDED|95.0|1.6|6.35|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|WI-NRS Success at Week 8||6.35|1.60|0.0007
92441328|NCT02438722|184769407|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.44|TWO_SIDED|95.0|0.5|1.36|||Log Rank|||||1.36|0.50|0.44
92441329|NCT02438722|184769408|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.72|1.43|||Log Rank|||||1.43|0.72|0.94
92441330|NCT02438722|184769410|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.54|TWO_SIDED|95.0|0.64|1.26|||Log Rank|||||1.26|0.64|0.54
92441331|NCT02438722|184769411|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.95|TWO_SIDED|95.0|0.73|1.39|||Log Rank|||||1.39|0.73|0.95
92441332|NCT02876900|184769419|SUPERIORITY|Assuming an effect size of 0.35 on the change in PANSS total score from baseline to Week 6 for the 2 pairwise comparisons between each active asenapine maleate transdermal patch treatment arm and placebo, the power for detecting a statistically significant HP-3070 advantage was approximately 0.90, having 204 evaluable participants per each treatment arm using a 2-sided alpha level of 0.025 for each comparison.|Least Square Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|1.634||0.003|TWO_SIDED|95.0|-8.06|-1.64||Adjusted p-value was calculated according to the truncated Hochberg procedure with a truncation factor y=0.9. Adjustment for multiple comparisons uses a parallel gatekeeping procedure.|Mixed Model Repeated Measures Analysis|||The mixed model for repeated measures includes treatment, country, visit, treatment by visit interaction, and baseline value as covariates, and participant as random effect. The correlation of repeated measures within a participant is estimated with an unstructured covariance matrix. The Kenward-Rogers method is used to estimate the denominator degrees of freedom.||-1.64|-8.06|0.003
92441333|NCT02876900|184769419|SUPERIORITY|Assuming an effect size of 0.35 on the change in PANSS total score from baseline to Week 6 for the 2 pairwise comparisons between each active asenapine maleate transdermal patch treatment arm and placebo, the power for detecting a statistically significant HP-3070 advantage was approximately 0.90, having 204 evaluable participants per each treatment arm using a 2-sided alpha level of 0.025 for each comparison.|Least Square Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|1.63|<|0.001|TWO_SIDED|95.0|-9.81|-3.4||Adjusted p-value was calculated according to the truncated Hochberg procedure with a truncation factor y=0.9. Adjustment for multiple comparisons uses a parallel gatekeeping procedure.|Mixed Model Repeated Measures Analysis|||The mixed model for repeated measures includes treatment, country, visit, treatment by visit interaction, and baseline value as covariates, and participant as random effect. The correlation of repeated measures within a participant is estimated with an unstructured covariance matrix. The Kenward-Rogers method is used to estimate the denominator degrees of freedom.||-3.4|-9.81|<0.001
92441334|NCT02876900|184769420|SUPERIORITY||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.16||Adjusted p-value was calculated according to the Hochberg procedure. Adjustment for multiple comparisons uses a parallel gatekeeping procedure.|Mixed Model Repeated Measures Analysis|||The mixed model for repeated measures includes treatment, country, visit, treatment by visit interaction, and baseline value as covariates, and participant as random effect. The correlation of repeated measures within a participant is estimated with an unstructured covariance matrix. The Kenward-Rogers method is used to estimate the denominator degrees of freedom.||-0.16|-0.55|<0.001
92446796|NCT00280566|184780544|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.17||0.1167|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 2 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1167
92240026|NCT00570739|184383798|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.86||||0.00439|TWO_SIDED|95.0|1.03|7.94|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||7.94|1.03|0.00439
92240027|NCT00570739|184383799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.7959|TWO_SIDED|95.0|-1.32|1.72||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||1.72|-1.32|0.7959
92280078|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.159||||0.2345|TWO_SIDED|95.0|-0.421|0.103||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.103|-0.421|0.2345
92441335|NCT02876900|184769420|SUPERIORITY||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.64|-0.25||Adjusted p-value was calculated according to the Hochberg procedure. Adjustment for multiple comparisons uses a parallel gatekeeping procedure.|Mixed Model Repeated Measures Analysis|||The mixed model for repeated measures includes treatment, country, visit, treatment by visit interaction, and baseline value as covariates, and participant as random effect. The correlation of repeated measures within a participant is estimated with an unstructured covariance matrix. The Kenward-Rogers method is used to estimate the denominator degrees of freedom.||-0.25|-0.64|<0.001
92441336|NCT00791518|184769454|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2||||||95.0|0.1|0.4|||||Least squares mean differences are calculated as \<80% group minus \>=80% group and are adjusted for Investigator.|||0.4|0.1|
92441337|NCT00791518|184769455|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||||95.0|0.2|0.4|||||Least squares mean differences are calculated as \<50% group minus \>=50% group and was adjusted for Investigator.|||0.4|0.2|
92441338|NCT00791518|184769460|SUPERIORITY_OR_OTHER||Least squares mean difference|0.7||||||95.0|-0.4|1.7|||||Least squares mean differences are calculated as \<80% group minus \>=80% group and was adjusted for Investigator.|||1.7|-0.4|
92441339|NCT00791518|184769461|SUPERIORITY_OR_OTHER||Least squares mean difference|0.9||||||95.0|-0.2|2.1|||||Least squares mean differences are calculated as \<50% group minus \>=50% group and was adjusted for Investigator.|||2.1|-0.2|
92441340|NCT00720057|184769464|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||The treatment differences between the two groups were tested each at the 5% two-sided significant level using a hierarchal testing procedure to control the overall type 1 error. SPID16-24 was eligible for testing only after a statistically significant difference between the two arms with respect to SPID0-24 was observed. The SPIDs were analyzed via ANCOVA model with treatment and trial site as fixed effects and baseline pain intensity score as the covariate.||||<0.001
92441341|NCT00720057|184769465|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92441342|NCT00720057|184769466|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92441343|NCT00720057|184769467|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||The statistics are from the Kaplan-Meier method. The median for naproxen treatment arm was not estimable from Kaplan-Meier method, therefore it is presented as the maximum value from the full range.||||<0.001
92441344|NCT00720057|184769468|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92441345|NCT00720057|184769469|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Log Rank|||||||<0.001
92441346|NCT04949165|184769471|NON_INFERIORITY|The study employed a non-inferiority design with a non-inferiority margin of 1 g/dL for haemoglobin levels at 4 months, a 1-sided alpha level of 0.025, at least 85% power and under the assumption that the true difference in the means was 0.3 g/dL. The estimated sample size also allowed for up to 10% loss to follow- up or iron supplementation for those initially not requiring supplements, thus the sample size was 292.||||||0.025||||||Non-inferiority threshold of -1 g/dL for the lower bound of the 97.5% CI.|t-test, 1 sided|||||||0.025
92441347|NCT04191382|184769475|OTHER|Other descriptive analysis|Ratio of Geometric Means|1.08|||||TWO_SIDED|95.0|0.72|1.63||||||Geometric LS-means ratio of proportional change was the ratio of geometric LS-means of the proportional change between groups (Amcenestrant 400 mg versus Letrozole 2.5 mg).||1.63|0.72|
92441348|NCT04191382|184769475|OTHER|Other descriptive analysis|Ratio of Geometric Means|1.42|||||TWO_SIDED|95.0|0.95|2.12||||||Geometric LS-means ratio of proportional change was the ratio of geometric LS-means of the proportional change between groups (Amcenestrant 200 mg versus Letrozole 2.5 mg).||2.12|0.95|
92441349|NCT03054870|184769501|NON_INFERIORITY|The non-inferiority margin was determined from a separate study where 6 blinded readers read and re-read 75 Xe-133 planar ventilation imaging studies in 2 read sessions separated by a minimum of 4 weeks. The readers scored the 6 regions of the lung using the same ventilation scoring metric used in this study. Based on analysis of the read/re-read results, 60% was established as a suitable margin for establishing the non-inferiority of Technegas compared to Xe-133.|||||<|0.0141||||||P-value is one-sided; for testing non-inferiority the associated critical value for PA is provided by lower bound of the 97.18% confidence interval.|Mixed Models Analysis|Binary agreement scores between Technegas and Xe-133 ventilation scores by subject-lung region served as the dependent variable in the model.||PA between Technegas and Xe-133 from analysis of each of the 3 blinded readers' ventilation scores was subjected to the following test of null (H0) versus alternate hypotheses (HA): H0: PA \<= 60% versus HA: PA \> 60%. The original sample size of 240 subjects was based on 90% power and one-sided alpha=0.025. For the unplanned interim analysis of 200 subjects, testing for non-inferiority used one-sided alpha=0.0141 (critical value provided by lower bound of the 97.18% confidence interval).|Binary agreement scores were analyzed for each reader separately using a generalized linear model with SAS® PROC GENMOD. The logit function (log odds ratio) was specified as the link function, and subject was specified as a repeated measure to allow for correlations between lung regions within a subject. The estimate of the intercept of the model using generalized estimating equation (GEE) methodology provided an overall estimate of the agreement and corresponding confidence interval in terms of the log odds ratio. Simple algebra was used to obtain the corresponding estimates and confidence intervals in terms of percent agreement (PA). For the study to be considered a success, the null hypothesis had to be rejected for at least 2 of the 3 blinded readers for the primary efficacy endpoint.|||<0.0141
92441350|NCT03054870|184769502|NON_INFERIORITY|The non-inferiority margin was determined from a separate study where 6 blinded readers read and re-read 75 Xe-133 planar ventilation imaging studies in 2 read sessions separated by a minimum of 4 weeks. The readers scored the 6 regions of the lung using the same ventilation scoring metric used in this study. Based on analysis of the read/re-read results, 60% was established as a suitable margin for establishing the non-inferiority of Technegas compared to Xe-133.|||||<|0.0141||||||P-value is one-sided; for testing non-inferiority the associated critical value for PA is provided by lower bound of the 97.18% confidence interval.|Mixed Models Analysis|Binary agreement scores between Technegas and Xe-133 ventilation scores by subject-lung region served as the dependent variable in the model.||PA between Technegas and Xe-133 from analysis of each of the 3 blinded readers' ventilation scores was subjected to the following test of null (H0) versus alternate hypotheses (HA): H0: PA \<= 60% versus HA: PA \> 60%. The original sample size of 240 subjects was based on 90% power and one-sided alpha=0.025. For the unplanned interim analysis of 200 subjects, testing for non-inferiority used one-sided alpha=0.0141 (critical value provided by lower bound of the 97.18% confidence interval).|Binary agreement scores were analyzed for each reader separately using a generalized linear model with SAS® PROC GENMOD. The logit function (log odds ratio) was specified as the link function, and subject was specified as a repeated measure to allow for correlations between lung regions within a subject. The estimate of the intercept of the model using generalized estimating equation (GEE) methodology provided an overall estimate of the agreement and corresponding confidence interval in terms of the log odds ratio. Simple algebra was used to obtain the corresponding estimates and confidence intervals in terms of percent agreement (PA). For the study to be considered a success, the null hypothesis had to be rejected for at least 2 of the 3 blinded readers for the primary efficacy endpoint.|||<0.0141
92446797|NCT00280566|184780544|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0188|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0188
92441351|NCT03054870|184769503|OTHER||||||||||||||||||Estimates of inter-observer percent agreement were obtained as follows. For each reader-pair, binary agreement scores by subject and lung region were analyzed using a generalized linear model with SAS® PROC GENMOD. The logit function (log odds ratio) was specified as the link function, and subject was specified as a repeated measure to allow for correlations between lung regions within a subject. The estimate of the intercept of the model using generalized estimating equation (GEE) methodology provided an overall estimate of the agreement and corresponding confidence interval in terms of the log odds ratio. Simple algebra was used to obtain the corresponding estimates and confidence intervals in terms of percent agreement.|||
92441352|NCT03054870|184769504|OTHER||||||||||||||||||For each pair of readers, by lung region estimates of kappa statistics and their corresponding 95% confidence intervals were generated from cross-tabulation frequencies of the readers' ventilation scores using SAS® PROC FREQ and the AGREE option.|||
92441353|NCT02009046|184769505|SUPERIORITY||Odds Ratio (OR)|1.09||||0.643|TWO_SIDED|95.0|0.75|1.6|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.60|0.75|0.6430
92441354|NCT02009046|184769505|SUPERIORITY||Odds Ratio (OR)|0.75||||0.3718|TWO_SIDED|95.0|0.39|1.44|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.44|0.39|0.3718
92441355|NCT02009046|184769506|SUPERIORITY||Odds Ratio (OR)|0.96||||0.8083|TWO_SIDED|95.0|0.67|1.37|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.37|0.67|0.8083
92441356|NCT02009046|184769506|SUPERIORITY||Odds Ratio (OR)|0.6||||0.1083|TWO_SIDED|95.0|0.32|1.13|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.13|0.32|0.1083
92441357|NCT02009046|184769507|SUPERIORITY||Odds Ratio (OR)|0.62||||0.1006|TWO_SIDED|95.0|0.35|1.1|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.10|0.35|0.1006
92441358|NCT02009046|184769507|SUPERIORITY||Odds Ratio (OR)|0.49||||0.2117|TWO_SIDED|95.0|0.16|1.53|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.53|0.16|0.2117
92441359|NCT02009046|184769508|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0218|TWO_SIDED|95.0|1.05|1.78|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.78|1.05|0.0218
92441360|NCT02009046|184769508|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0211|TWO_SIDED|95.0|1.09|2.75|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||2.75|1.09|0.0211
92441361|NCT02009046|184769509|SUPERIORITY||Odds Ratio (OR)|1.25||||0.1763|TWO_SIDED|95.0|0.9|1.73|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.73|0.90|0.1763
92238160|NCT03151148|184380366|SUPERIORITY||Geometric mean ratio (GMR)|2.42||||0.058|TWO_SIDED|95.0|0.971|6.024|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||6.024|0.971|0.058
92238161|NCT03151148|184380366|SUPERIORITY||Geometric mean ratio (GMR)|0.75||||0.526|TWO_SIDED|95.0|0.315|1.805|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.805|0.315|0.526
92441362|NCT02009046|184769509|SUPERIORITY||Odds Ratio (OR)|0.85||||0.5869|TWO_SIDED|95.0|0.45|1.58|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.58|0.45|0.5869
92238162|NCT03151148|184380366|SUPERIORITY||Geometric mean ratio (GMR)|55.53|||<|0.001|TWO_SIDED|95.0|23.49|131.279|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||131.279|23.490|<0.001
92238163|NCT03151148|184380366|SUPERIORITY||Geometric mean ratio (GMR)|11.78|||<|0.001|TWO_SIDED|95.0|5.0|27.755|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||27.755|5.000|<0.001
92441363|NCT02009046|184769510|SUPERIORITY||Odds Ratio (OR)|1.04||||0.8102|TWO_SIDED|95.0|0.75|1.44|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.44|0.75|0.8102
92441364|NCT02009046|184769510|SUPERIORITY||Odds Ratio (OR)|0.72||||0.2956|TWO_SIDED|95.0|0.39|1.34|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.34|0.39|0.2956
92441365|NCT02009046|184769511|SUPERIORITY||Odds Ratio (OR)|1.13||||0.4645|TWO_SIDED|95.0|0.82|1.56|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.56|0.82|0.4645
92441366|NCT02009046|184769511|SUPERIORITY||Odds Ratio (OR)|0.77||||0.3809|TWO_SIDED|95.0|0.43|1.4|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.40|0.43|0.3809
92441367|NCT02009046|184769512|SUPERIORITY||Odds Ratio (OR)|0.75||||0.1335|TWO_SIDED|95.0|0.52|1.09|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.09|0.52|0.1335
92441368|NCT02009046|184769512|SUPERIORITY||Odds Ratio (OR)|0.56||||0.0741|TWO_SIDED|95.0|0.29|1.06|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.06|0.29|0.0741
92441369|NCT02009046|184769513|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9085|TWO_SIDED|95.0|0.54|2.01|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||2.01|0.54|0.9085
92441370|NCT02009046|184769513|SUPERIORITY||Odds Ratio (OR)|1.15||||0.8059|TWO_SIDED|95.0|0.36|3.62|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||3.62|0.36|0.8059
92441371|NCT02009046|184769514|SUPERIORITY||Odds Ratio (OR)|0.87||||0.6861|TWO_SIDED|95.0|0.44|1.71|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.71|0.44|0.6861
92441372|NCT02009046|184769514|SUPERIORITY||Odds Ratio (OR)|0.0||||0.9973|TWO_SIDED||||||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.|No results provided, as model would not converge.|||||0.9973
92441373|NCT02009046|184769515|SUPERIORITY||Odds Ratio (OR)|1.97||||0.0002|TWO_SIDED|95.0|1.39|2.8|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||2.80|1.39|0.0002
92441374|NCT02009046|184769515|SUPERIORITY||Odds Ratio (OR)|2.71||||0.003|TWO_SIDED|95.0|1.44|5.09|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||5.09|1.44|0.0030
92441375|NCT00620828|184769516|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Patient cohort was inclusive of patient undergoing single TKA from June 2007 to July 2008. Effect size was calculated for the numeric pain rating scale at the immediate post-operative period, 4-hour, 8-hour , 12-hour, and 24-hour time periods as a means to assess post-operative pain control.||||<0.05
92441376|NCT00620828|184769517|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||Significant differences in Fentanyl PCA pump usage across study arms were assessed for the 4-8h,8-12h,and 12h-24h time frames.||||.05
92441377|NCT00620828|184769518|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||This analysis was performed on data collected 24-hours post-operatively for patient cohort.||||.05
92441378|NCT00620828|184769519|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||Knee extension and knee flexion measured at 24-hours post-operatively for patient cohort.||||.05
92441379|NCT00620828|184769520|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||Straight leg raise data collected at 4-hours, 8-hours, 12-hours and 24-hours post-operatively for patient cohort.||||.05
92441380|NCT03341533|184769532|EQUIVALENCE|The null hypothesis is that there is no difference in NPIS between the two groups.|difference in medians|0.0||||0.39|TWO_SIDED||||||Kruskal-Wallis|||||||0.39
92441381|NCT03341533|184769533|EQUIVALENCE|The null hypothesis is that there is no difference in MME use on the hospital floor between groups.|Difference of medians|-4.5||||0.88|TWO_SIDED||||||Kruskal-Wallis||Ice packs - Usual care|||||0.88
92441382|NCT03341533|184769534|EQUIVALENCE|The null hypothesis is that the outpatient MME consumption will be the same across the two groups.|difference in medians|-7.5||||0.75|TWO_SIDED||||||Kruskal-Wallis||Ice packs - Usual Care|||||0.75
92240028|NCT00570739|184383799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.8371|TWO_SIDED|95.0|-1.28|1.57||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||1.57|-1.28|0.8371
92441383|NCT03341533|184769535|EQUIVALENCE|The null hypothesis is that the postoperative BPI pain severity score will be the same between groups|difference in medians|-0.3||||0.8|TWO_SIDED||||||Kruskal-Wallis||Ice Packs - Usual Care|||||0.80
92441384|NCT00003641|184769554|SUPERIORITY_OR_OTHER_LEGACY|||||||0.964|TWO_SIDED||||||Log Rank|stratified on the stratification factors used for randomization||||||0.964
92441385|NCT00003641|184769555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.558|TWO_SIDED||||||Log Rank|Stratified on the stratification factors used for randomization||||||0.558
92441386|NCT01082965|184769591|SUPERIORITY_OR_OTHER||Leasts Square (LS) Mean|-0.01|STANDARD_ERROR_OF_MEAN|0.265||0.9742|TWO_SIDED|95.0|-0.6|0.58||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Mixed model for repeated measures (MMRM) was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, Apolipoprotein E (ApoE) genotype, site as covariates.||0.58|-0.60|0.9742
92441387|NCT01082965|184769592|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.232||0.9638|TWO_SIDED|95.0|-0.51|0.49||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.49|-0.51|0.9638
92238164|NCT03151148|184380366|SUPERIORITY||Geometric mean ratio (GMR)|23.17|||<|0.001|TWO_SIDED|95.0|9.833|54.579|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||54.579|9.833|<0.001
92441388|NCT01082965|184769593|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.153||0.2548|TWO_SIDED|95.0|-0.53|0.16||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.16|-0.53|0.2548
92441389|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.057||0.6316|TWO_SIDED|95.0|-0.18|0.12||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Whole Brain Gray: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.12|-0.18|0.6316
92441390|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.063||0.6256|TWO_SIDED|95.0|-0.12|0.19||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Whole Brain Gray: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.19|-0.12|0.6256
92441391|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.059||0.5847|TWO_SIDED|95.0|-0.12|0.19||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Whole Brain Gray: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.19|-0.12|0.5847
92441392|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.123||0.1555|TWO_SIDED|95.0|-0.46|0.09||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Superior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.09|-0.46|0.1555
92441393|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.151||0.2416|TWO_SIDED|95.0|-0.51|0.14||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Superior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.14|-0.51|0.2416
92441394|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.134||0.807|TWO_SIDED|95.0|-0.33|0.26||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Superior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.26|-0.33|0.8070
92441395|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.189||0.6828|TWO_SIDED|95.0|-0.59|0.43||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Medial Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.43|-0.59|0.6828
92441396|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.109||0.8987|TWO_SIDED|95.0|-0.26|0.29||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Medial Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.29|-0.26|0.8987
92441397|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.117||0.8922|TWO_SIDED|95.0|-0.28|0.25||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Medial Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.25|-0.28|0.8922
92441398|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.203||0.7555|TWO_SIDED|95.0|-0.39|0.52||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Inferior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.52|-0.39|0.7555
92441399|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.218||0.1928|TWO_SIDED|95.0|-0.18|0.79||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Inferior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.79|-0.18|0.1928
92441400|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.161||0.4946|TWO_SIDED|95.0|-0.26|0.49||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Inferior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.49|-0.26|0.4946
92441401|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.196||0.7029|TWO_SIDED|95.0|-0.56|0.4||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Medial Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.40|-0.56|0.7029
92441402|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.171||0.1085|TWO_SIDED|95.0|-0.68|0.08||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Medial Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.08|-0.68|0.1085
92441403|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.132||0.3588|TWO_SIDED|95.0|-0.44|0.18||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Medial Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.18|-0.44|0.3588
92441404|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.151||0.3053|TWO_SIDED|95.0|-0.2|0.53||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Inferior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.53|-0.20|0.3053
92441405|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.16||0.9861|TWO_SIDED|95.0|-0.36|0.36||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Inferior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.36|-0.36|0.9861
92441406|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.6558|TWO_SIDED|95.0|-0.41|0.28||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Inferior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.28|-0.41|0.6558
92441407|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.145||0.9471|TWO_SIDED|95.0|-0.53|0.51||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Superior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.51|-0.53|0.9471
92441408|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.186||0.2136|TWO_SIDED|95.0|-0.77|0.23||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Superior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.23|-0.77|0.2136
92441409|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.189||0.6435|TWO_SIDED|95.0|-0.47|0.67||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Superior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.67|-0.47|0.6435
92441410|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.086||0.0659|TWO_SIDED|95.0|-0.41|0.02||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Inferior Parietal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.02|-0.41|0.0659
92441411|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.158||0.7687|TWO_SIDED|95.0|-0.41|0.31||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Inferior Parietal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.31|-0.41|0.7687
92441412|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.163||0.1061|TWO_SIDED|95.0|-0.73|0.1||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Inferior Parietal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.10|-0.73|0.1061
92441413|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.124||0.3925|TWO_SIDED|95.0|-0.41|0.19||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Insula: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.19|-0.41|0.3925
92441414|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.161||0.1991|TWO_SIDED|95.0|-0.58|0.14||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Insula: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.14|-0.58|0.1991
92441415|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.151||0.5176|TWO_SIDED|95.0|-0.45|0.24||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Insula: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.24|-0.45|0.5176
92441416|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.143||0.314|TWO_SIDED|95.0|-0.5|0.18||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Precuneus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.18|-0.50|0.3140
92441417|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.171||0.6348|TWO_SIDED|95.0|-0.46|0.29||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Precuneus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.29|-0.46|0.6348
92441418|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.165||0.1491|TWO_SIDED|95.0|-0.64|0.12||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Precuneus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.12|-0.64|0.1491
92441419|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.192||0.4226|TWO_SIDED|95.0|-0.59|0.27||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Anterior Cingulate Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.27|-0.59|0.4226
92171311|NCT05321069|184231777|SUPERIORITY||Mean Difference (Net)|1.73||||0.0013|TWO_SIDED|95.0|0.68|2.78|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in percent predicted Forced Vital Capacity between the Nera 18 mg BID group and the placebo group at Week 52.|"Analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment, baseline use of antifibrotic therapy, and the fixed continuous effects of baseline forced vital capacity (FVC) percentage predicted at each visit. An unstructured covariance structure was used to model repeated measures within patients.~Baseline use of antifibrotic therapy, as recorded in the concomitant medication case report form (CRF) page, was included as a covariate."||2.78|0.68|0.0013
92280079|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.043||||0.7466|TWO_SIDED|95.0|-0.304|0.218||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.218|-0.304|0.7466
92441420|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.228||0.9778|TWO_SIDED|95.0|-0.49|0.5||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Anterior Cingulate Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.50|-0.49|0.9778
92441421|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.179||0.9456|TWO_SIDED|95.0|-0.4|0.43||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Anterior Cingulate Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.43|-0.40|0.9456
92441422|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.162||0.2299|TWO_SIDED|95.0|-0.55|0.15||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Amygdala: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.15|-0.55|0.2299
92441423|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.188||0.5069|TWO_SIDED|95.0|-0.54|0.28||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Amygdala: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.28|-0.54|0.5069
92441424|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.143||0.3524|TWO_SIDED|95.0|-0.45|0.17||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Amygdala: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.17|-0.45|0.3524
92238165|NCT03151148|184380366|SUPERIORITY||Geometric mean ratio (GMR)|11.05|||<|0.001|TWO_SIDED|95.0|4.516|27.052|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||27.052|4.516|<0.001
92238166|NCT03151148|184380366|SUPERIORITY||Geometric mean ratio (GMR)|2.43||||0.042|TWO_SIDED|95.0|1.031|5.724|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.724|1.031|0.042
92238167|NCT04011436|184380373|SUPERIORITY|In the bivariate analysis, a comparison was initially made of each of the domains of the Kujala test, for the assessment of pain at baseline, assessing the differences between the intervention groups using the chi-square or Fisher's exact tests. The Spearman correlation coefficient was used to evaluate the relationship between two continuous variables, such as Q angle and anterior knee pain, assessing the correlation marginally and conditionally on each of the treatment groups.|difference in frequency distribution|0.05|||<|0.05|TWO_SIDED|95.0|0.025|0.05|||Fisher Exact|we also used Chi-squared for the domains of pain and limp.||||0.05|0.025|<0.05
92238168|NCT04011436|184380374|SUPERIORITY|For the analysis of the differences in medians between the groups, taking into account that the outcomes did not present a normal distribution, and assuming the assumption of independence of the variables, the non-parametric Mann-Whitney U test was used.|Median Difference (Final Values)|0.058|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Estimated Value was done for the assessment of change in pain with Visual Analogue Scale.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||||<0.05
92441425|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.358||0.4182|TWO_SIDED|95.0|-0.8|1.47||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Thalamus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||1.47|-0.80|0.4182
92238169|NCT04011436|184380375|SUPERIORITY||Median Difference (Final Values)|0.75|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Estimated value was calculated for Change in Patellofemoral Misalignment With Q Angle´s Exam.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||||<0.05
92441426|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_DEVIATION|0.326||0.363|TWO_SIDED|95.0|-0.42|1.04||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Thalamus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||1.04|-0.42|0.3630
92441427|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.263||0.9837|TWO_SIDED|95.0|-0.73|0.74||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Thalamus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.74|-0.73|0.9837
92238170|NCT04011436|184380376|SUPERIORITY||Median Difference (Final Values)|0.001|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Estimated Value was calculated for the change in core strength with McGill´s Exam.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||||<0.05
92441428|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.102||0.0974|TWO_SIDED|95.0|-0.04|0.42||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Basal Ganglia: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.42|-0.04|0.0974
92441429|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.067||0.1246|TWO_SIDED|95.0|-0.04|0.27||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Basal Ganglia: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.27|-0.04|0.1246
92238171|NCT04011436|184380377|SUPERIORITY||Median Difference (Final Values)|0.67|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Estimated value was calculated for the change in Quadriceps and Gluteus Strength With Squat´s Test.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||||<0.05
92441430|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.119||0.619|TWO_SIDED|95.0|-0.2|0.32||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Basal Ganglia: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.32|-0.20|0.6190
92441431|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.635|TWO_SIDED|95.0|-0.39|0.25||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Hippocampus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.25|-0.39|0.6350
92441432|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.164||0.8205|TWO_SIDED|95.0|-0.4|0.32||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Hippocampus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.32|-0.40|0.8205
92441433|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.123||0.2959|TWO_SIDED|95.0|-0.42|0.14||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Hippocampus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.14|-0.42|0.2959
92441434|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.194||0.552|TWO_SIDED|95.0|-0.56|0.32||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Landau: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.32|-0.56|0.5520
92441435|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.22||0.9046|TWO_SIDED|95.0|-0.5|0.45||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Landau: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.45|-0.50|0.9046
92441436|NCT01082965|184769594|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.125||0.0402|TWO_SIDED|95.0|-0.62|-0.02||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Landau: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||-0.02|-0.62|0.0402
92441437|NCT01082965|184769595|SUPERIORITY_OR_OTHER||LS Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|12.11||0.688|TWO_SIDED|95.0|-21.82|31.82||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 1: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||31.82|-21.82|0.6880
92441438|NCT01082965|184769595|SUPERIORITY_OR_OTHER||LS Mean Difference|9.79|STANDARD_ERROR_OF_MEAN|9.143||0.3157|TWO_SIDED|95.0|-11.3|30.87||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||30.87|-11.30|0.3157
92441439|NCT01082965|184769595|SUPERIORITY_OR_OTHER||LS Mean Difference|9.86|STANDARD_ERROR_OF_MEAN|8.921||0.3228|TWO_SIDED|95.0|-13.56|33.28||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 8: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||33.28|-13.56|0.3228
92441440|NCT01082965|184769596|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.39|STANDARD_ERROR_OF_MEAN|3.479||0.254|TWO_SIDED|95.0|-12.9|4.12||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Total IR: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||4.12|-12.90|0.2540
92441441|NCT01082965|184769596|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.95||0.7684|TWO_SIDED|95.0|-4.17|5.37||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Total DR: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||5.37|-4.17|0.7684
92238172|NCT04011436|184380378|SUPERIORITY||Median Difference (Final Values)|0.55|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||||"Estimated value was calculated for the change in Static Balance with Single Leg Stance.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||<0.05
92238173|NCT04011436|184380379|SUPERIORITY||Median Difference (Final Values)|0.492|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||||"Estimated value was calculated for the change in the total amount of Physical Activity reported in minutes.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||<0.05
92280080|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.176||||0.1843|TWO_SIDED|95.0|-0.437|0.084||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.084|-0.437|0.1843
92238174|NCT00960440|184380380|SUPERIORITY_OR_OTHER||Percentage Difference|23.69|STANDARD_ERROR_OF_MEAN|5.73|<|0.0001|TWO_SIDED|95.0|12.45|34.92||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 10 mg to placebo and 2-sided 95% confidence interval (CI) was evaluated for the difference in percentages.||34.92|12.45|<0.0001
92238175|NCT00960440|184380380|SUPERIORITY_OR_OTHER||Percentage Difference|17.23|STANDARD_ERROR_OF_MEAN|5.7||0.0024|TWO_SIDED|95.0|6.06|28.41||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||28.41|6.06|0.0024
92441442|NCT01082965|184769597|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.059||0.494|TWO_SIDED|95.0|-0.09|0.17||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 1, Detection Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.17|-0.09|0.4940
92441443|NCT01082965|184769597|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.057||0.1031|TWO_SIDED|95.0|-0.02|0.22||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Detection Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.22|-0.02|0.1031
92238176|NCT00960440|184380381|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.38|-0.17||A step-down procedure was used to control for multiple comparisons. For the comparison of 10 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo in ACR20 had to be significant.|Mixed Models Analysis|||Least squares mean difference (LS Mean Difference) and corresponding 95% CI was calculated using a mixed effect repeated measure model with treatment, visit, treatment by visit interaction, and geographic region as fixed effects and participants as a random effect.||-0.17|-0.38|<0.0001
92441444|NCT01082965|184769597|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.048||0.3277|TWO_SIDED|95.0|-0.06|0.16||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 8, Detection Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.16|-0.06|0.3277
92441445|NCT01082965|184769597|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.029||0.6585|TWO_SIDED|95.0|-0.05|0.08||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 1, Identification Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.08|-0.05|0.6585
92441446|NCT01082965|184769597|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.033||0.8863|TWO_SIDED|95.0|-0.07|0.08||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Identification Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.08|-0.07|0.8863
92441447|NCT01082965|184769597|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.044||0.4388|TWO_SIDED|95.0|-0.06|0.13||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 8, Identification Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.13|-0.06|0.4388
92441448|NCT03642717|184769603|OTHER||||||<|0.0001||||||Paired t-test was applied comparing the difference in mean of change in Glycosylated hemoglobin (HbA1c) at Last Visit versus at Baseline.|Paired t-test|||||||< 0.0001
92441449|NCT03642717|184769606|OTHER||||||<|0.0001||||||Paired t-test was applied comparing the difference in mean of change in Fasting Plasma Glucose (FPG) at Last Visit versus at Baseline.|Paired t-test|||||||< 0.0001
92441450|NCT03642717|184769607|OTHER||||||<|0.0001||||||Paired t-test was applied comparing the difference in mean of change in body weight at Last Visit versus at Baseline.|Paired t-test|||||||< 0.0001
92240029|NCT00570739|184383800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0033||||0.4584|TWO_SIDED|95.0|-0.0122|0.0055||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||0.0055|-0.0122|0.4584
92441451|NCT03642717|184769608|OTHER|||||||0.0076||||||Paired t-test was applied comparing the difference in mean of change in systolic blood pressure (SBP) at Last Visit versus at Baseline.|Paired t-test|||||||0.0076
92441452|NCT03642717|184769609|OTHER||||||<|0.0001||||||Paired t-test was applied comparing the difference in mean of change in diastolic blood pressure (DBP) at Last Visit versus at Baseline.|Paired t-test|||||||< 0.0001
92441453|NCT02587065|184769611|OTHER||Spearman's correlation coefficient|-0.85||||0.56|TWO_SIDED|95.0|-3.72|2.02|||Mixed-effects REML regression|||Adjusted change of convenience satisfaction domain of TSQM-9.||2.02|-3.72|0.56
92238177|NCT00960440|184380381|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.36|-0.15||Step-down procedure: For the comparison of 5 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo as well as the comparison of 5 mg to placebo in ACR20 had to be statistically significant.|Mixed Models Analysis|||LS Mean Difference and corresponding 95% CI was calculated using a mixed effect repeated measure model with treatment, visit, treatment by visit interaction, and geographic region as fixed effects and participants as a random effect.||-0.15|-0.36|<0.0001
92238178|NCT00960440|184380382|SUPERIORITY_OR_OTHER||Percentage Difference|9.53|STANDARD_ERROR_OF_MEAN|3.05||0.0017|TWO_SIDED|95.0|3.54|15.51||A step-down procedure was used to control for multiple comparisons. For the comparison of 10 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo in HAQ-DI had to be statistically significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 10 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||15.51|3.54|0.0017
92238179|NCT00960440|184380382|SUPERIORITY_OR_OTHER||Percentage Difference|5.05|STANDARD_ERROR_OF_MEAN|2.57||0.0496|TWO_SIDED|95.0|0.0|10.1||Step-down procedure: For the comparison of 5 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo as well as comparison of 5 mg to placebo in HAQ-DI had to be statistically significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||10.10|0.00|0.0496
92238180|NCT03065530|184380466|OTHER||||||<|0.05|||||||Kruskal-Wallis|||The sample size was calculated on the basis of an our initial pilot study, and the SD was 1.4 between the four groups. We hypothesized that the differences in VAS between the four groups and the SDs would be 15%. A power analysis suggested that there will be 80% power to detect differences at an α=0.05 significance level (two-tailed), including 24 individuals per treatment group. Considering the exclusion of 25% of patients, 30 parturients were eventually recruited in each group.||||<0.05
92441454|NCT01559012|184769622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|STANDARD_DEVIATION|2.7||0.001|TWO_SIDED|95.0|1.05|3.32||A sample size modeling (MGH Mallinckrodt General Clinical Research Center) showed that a total of 12 patients were needed in order to detect a difference of 2 points of PUQE score between the two groups at P \< 0.01 and a beta \> 0.90.|Wilcoxon (Mann-Whitney)|Statistical signiﬁcance was assessed by the use of Mann-Whitney U test. P \< 0.05 was deﬁned as statistically signiﬁcant||This is an analysis between groups of intervention clonidine versus placebo. Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean + SD.||3.32|1.05|0.001
92238181|NCT02385123|184380486|OTHER||||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92280081|NCT02637557|184463084|SUPERIORITY||LS Mean Difference|-0.267||||0.0471|TWO_SIDED|95.0|-0.531|-0.003||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.003|-0.531|0.0471
92280082|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|0.088||||0.3258|TWO_SIDED|95.0|-0.088|0.265||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.265|-0.088|0.3258
92441455|NCT01559012|184769622|NON_INFERIORITY_OR_EQUIVALENCE|A sample size modeling (MGH Mallinckrodt General Clinical Research Center) showed that a total of 12 patients were needed in order to detect a difference of 2 points of PUQE score between the two groups at P \< 0.01|within patient variation|1.83|||<|0.02|TWO_SIDED|95.0|0.43|3.24|||Wilcoxon (Mann-Whitney)|||This is a within patient variation between clonidine and placebo. Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean +/- Standard Deviation (SD).||3.24|0.43|<0.02
92441456|NCT01559012|184769623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0||||0.009|TWO_SIDED|95.0|1.78|11.5|||Wilcoxon (Mann-Whitney)|||Analysis within groups clonidine versus placebo. Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean + SD. .||11.5|1.78|0.009
92441457|NCT01559012|184769623|NON_INFERIORITY_OR_EQUIVALENCE|A sample size modeling for crossover studies (MGH Mallinckrodt General Clinical Research Center) showed that a total of 12 patients were needed in order to detect a difference of 2 points of PUQE score between the two groups at P \< 0.01|within patient variation|7.5|||<|0.01|TWO_SIDED|95.0|2.17|12.83|||Wilcoxon (Mann-Whitney)|||Analysis within-patient. Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean + SD.||12.83|2.17|<0.01
92441458|NCT01559012|184769624|SUPERIORITY_OR_OTHER||difference of percentage of positivity|0.3||||0|TWO_SIDED|95.0|0.04|0.47|||Wilcoxon (Mann-Whitney)|||"All patients were treated with TD clonidine for 5 days and switched to placebo for 5 days, or the other way round~Allocation order randomized"||0.47|0.04|0.000
92280083|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|0.084||||0.3483|TWO_SIDED|95.0|-0.092|0.261||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.261|-0.092|0.3483
92441459|NCT01559012|184769625|SUPERIORITY_OR_OTHER||mean values|0.8||||0.013|TWO_SIDED|95.0|0.13|1.57|||Wilcoxon (Mann-Whitney)|||Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean + SD. .||1.57|0.13|0.013
92441460|NCT01559012|184769626|SUPERIORITY_OR_OTHER||days off-therapy %|29.0||||0.051|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean + SD. .||||0.051
92441461|NCT01559012|184769627|SUPERIORITY_OR_OTHER||proportion|0.0||||0.0089|TWO_SIDED|95.0|||||Fisher Exact|||||||0.0089
92441462|NCT01559012|184769630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0||||0.01|TWO_SIDED|95.0|0.9|10.9|||Wilcoxon (Mann-Whitney)|||||10.9|0.9|0.01
92441463|NCT01559012|184769631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.055|TWO_SIDED|95.0|0.3|6.3|||Wilcoxon (Mann-Whitney)|||||6.3|0.3|0.055
92441464|NCT00946712|184769632|OTHER||Hazard Ratio (HR)|0.93||||0.22|TWO_SIDED|95.0|0.83|1.04|||Log Rank|A stratified log rank test was used.||||1.04|0.83|0.22
92441465|NCT00946712|184769633|OTHER||Hazard Ratio (HR)|0.92||||0.4|TWO_SIDED|95.0|0.75|1.12|||Log Rank|A stratified log rank test was used.||||1.12|0.75|0.40
92441466|NCT00946712|184769634|OTHER||Hazard Ratio (HR)|0.81||||0.054|TWO_SIDED|95.0|0.66|1.0|||Log Rank|A stratified log rank test was used.||||1.00|0.66|0.054
92441467|NCT00946712|184769636|OTHER||Hazard Ratio (HR)|0.99||||0.83|TWO_SIDED|95.0|0.88|1.1|||Log Rank|A stratified log rank test was used.||||1.10|0.88|0.83
92441468|NCT00946712|184769638|OTHER|||||||0.48|||||||Cochran-Mantel-Haenszel|A stratified Cochran-Mantel-Haenszel test was conducted.||||||0.48
92441469|NCT00946712|184769639|OTHER|||||||0.06|||||||Cochran-Mantel-Haenszel|A stratified Cochran-Mantel-Haenszel test was conducted.||||||0.060
92441470|NCT04665050|184769641|OTHER|Estimated difference and confidence interval (CI) are calculated based on the Miettinen \& Nurminen method|Difference in percentage|0.0|||||TWO_SIDED|95.0|-12.7|12.7|||||V116 minus PNEUMOVAX™23|Injection Site Erythema||12.7|-12.7|
92441471|NCT04665050|184769641|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|-11.8|||||TWO_SIDED|95.0|-30.0|7.3|||||V116 minus PNEUMOVAX™23|Injection Site Pain||7.3|-30.0|
92441472|NCT04665050|184769641|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|0.0|||||TWO_SIDED|95.0|-14.1|14.1|||||V116 minus PNEUMOVAX™23|Injection Site Swelling||14.1|-14.1|
92441473|NCT04665050|184769642|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|3.9|||||TWO_SIDED|95.0|-9.4|17.5|||||V116 minus PNEUMOVAX™23|Fatigue||17.5|-9.4|
92441474|NCT04665050|184769642|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|0.0|||||TWO_SIDED|95.0|-9.9|9.9|||||V116 minus PNEUMOVAX™23|Arthralgia||9.9|-9.9|
92441475|NCT04665050|184769642|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|-2.0|||||TWO_SIDED|95.0|-17.5|13.6|||||V116 minus PNEUMOVAX™23|Myalgia||13.6|-17.5|
92441476|NCT04665050|184769642|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|0.0|||||TWO_SIDED|95.0|-12.7|12.7|||||V116 minus PNEUMOVAX™23|Headache||12.7|-12.7|
92441477|NCT04665050|184769643|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|0.0|||||TWO_SIDED|95.0|-7.1|7.1|||||V116 minus PNEUMOVAX™23|||7.1|-7.1|
92441478|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.6|||||TWO_SIDED|95.0|1.07|2.4|||||V116/PNEUMOVAX™23|Serotype 3||2.40|1.07|
92441479|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.21|||||TWO_SIDED|95.0|0.69|2.11|||||V116/PNEUMOVAX™23|Serotype 7F||2.11|0.69|
92441480|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.0|||||TWO_SIDED|95.0|1.24|3.24|||||V116/PNEUMOVAX™23|Serotype 19A||3.24|1.24|
92441481|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.92|||||TWO_SIDED|95.0|1.04|3.57|||||V116/PNEUMOVAX™23|Serotype 22F||3.57|1.04|
92441482|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.15|||||TWO_SIDED|95.0|0.71|1.86|||||V116/PNEUMOVAX™23|Serotype 33F||1.86|0.71|
92441483|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.78|||||TWO_SIDED|95.0|1.24|2.58|||||V116/PNEUMOVAX™23|Serotype 8||2.58|1.24|
92441484|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.89|||||TWO_SIDED|95.0|1.19|3.0|||||V116/PNEUMOVAX™23|Serotype 9N||3.00|1.19|
92441485|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.71|||||TWO_SIDED|95.0|1.47|5.0|||||V116/PNEUMOVAX™23|Serotype 10A||5.00|1.47|
92441486|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.43|||||TWO_SIDED|95.0|1.52|3.89|||||V116/PNEUMOVAX™23|Serotype 11A||3.89|1.52|
92441487|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.4|||||TWO_SIDED|95.0|1.2|4.83|||||V116/PNEUMOVAX™23|Serotype 12F||4.83|1.20|
92441488|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.57|||||TWO_SIDED|95.0|1.59|4.17|||||V116/PNEUMOVAX™23|Serotype 17F||4.17|1.59|
92441489|NCT04665050|184769644|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.28|||||TWO_SIDED|95.0|1.46|3.56|||||V116/PNEUMOVAX™23|Serotype 20A||3.56|1.46|
92238182|NCT02385123|184380487|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238183|NCT02385123|184380488|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238184|NCT02385123|184380489|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people|||
92238185|NCT02385123|184380490|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238186|NCT02385123|184380491|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238187|NCT02385123|184380492|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238188|NCT02385123|184380493|OTHER|||||||||||||||||A single group analysis was used to determine this outcome measure.|A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238189|NCT02385123|184380494|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238190|NCT02385123|184380495|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238191|NCT02385123|184380496|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238192|NCT02385123|184380497|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238193|NCT02385123|184380498|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238194|NCT02385123|184380499|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92441490|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.54|||||TWO_SIDED|95.0|1.08|2.21|||||V116/PNEUMOVAX™23|Serotype 3||2.21|1.08|
92441491|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.21|||||TWO_SIDED|95.0|1.36|3.6|||||V116/PNEUMOVAX™23|Serotype 7F||3.60|1.36|
92238195|NCT02385123|184380501|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92280084|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|0.022||||0.8055|TWO_SIDED|95.0|-0.156|0.201||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.201|-0.156|0.8055
92441492|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.16|||||TWO_SIDED|95.0|1.45|3.23|||||V116/PNEUMOVAX™23|Serotype 19A||3.23|1.45|
92441493|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.33|||||TWO_SIDED|95.0|1.36|3.99|||||V116/PNEUMOVAX™23|Serotype 22F||3.99|1.36|
92441494|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.52|||||TWO_SIDED|95.0|0.97|2.37|||||V116/PNEUMOVAX™23|Serotype 33F||2.37|0.97|
92441495|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.88|||||TWO_SIDED|95.0|1.32|2.68|||||V116/PNEUMOVAX™23|Serotype 8||2.68|1.32|
92441496|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.37|||||TWO_SIDED|95.0|1.49|3.74|||||V116/PNEUMOVAX™23|Serotype 9N||3.74|1.49|
92441497|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.16|||||TWO_SIDED|95.0|1.28|3.65|||||V116/PNEUMOVAX™23|Serotype 10A||3.65|1.28|
92441498|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.92|||||TWO_SIDED|95.0|1.28|2.89|||||V116/PNEUMOVAX™23|Serotype 11A||2.89|1.28|
92441499|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|3.49|||||TWO_SIDED|95.0|1.94|6.27|||||V116/PNEUMOVAX™23|Serotype 12F||6.27|1.94|
92441500|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.88|||||TWO_SIDED|95.0|1.92|4.31|||||V116/PNEUMOVAX™23|Serotype 17F||4.31|1.92|
92441501|NCT04665050|184769645|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.05|||||TWO_SIDED|95.0|1.3|3.25|||||V116/PNEUMOVAX™23|Serotype 20A||3.25|1.30|
92441502|NCT04665050|184769646|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|3.58|||||TWO_SIDED|95.0|1.86|6.88|||||V116/PNEUMOVAX™23|Serotype 6A||6.88|1.86|
92441503|NCT04665050|184769646|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|6.23|||||TWO_SIDED|95.0|3.54|10.98|||||V116/PNEUMOVAX™23|Serotype 15A||10.98|3.54|
92441504|NCT04665050|184769646|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|2.33|||||TWO_SIDED|95.0|1.23|4.39|||||V116/PNEUMOVAX™23|Serotype 15C||4.39|1.23|
92441505|NCT04665050|184769646|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|10.06|||||TWO_SIDED|95.0|5.39|18.78|||||V116/PNEUMOVAX™23|Serotype 16F||18.78|5.39|
92280085|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|0.103||||0.3627|TWO_SIDED|95.0|-0.119|0.326||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.326|-0.119|0.3627
92441506|NCT04665050|184769646|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|42.09|||||TWO_SIDED|95.0|19.67|90.03|||||V116/PNEUMOVAX™23|Serotype 23A||90.03|19.67|
92441507|NCT04665050|184769646|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|12.37|||||TWO_SIDED|95.0|6.97|21.94|||||V116/PNEUMOVAX™23|Serotype 23B||21.94|6.97|
92441508|NCT04665050|184769646|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|24.82|||||TWO_SIDED|95.0|11.65|52.86|||||V116/PNEUMOVAX™23|Serotype 24F||52.86|11.65|
92441509|NCT04665050|184769646|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|25.66|||||TWO_SIDED|95.0|14.65|44.93|||||V116/PNEUMOVAX™23|Serotype 31||44.93|14.65|
92441510|NCT04665050|184769646|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|14.3|||||TWO_SIDED|95.0|8.72|23.47|||||V116/PNEUMOVAX™23|Serotype 35B||23.47|8.72|
92441511|NCT04665050|184769647|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|3.0|||||TWO_SIDED|95.0|1.73|5.19|||||V116/PNEUMOVAX™23|Serotype 6A||5.19|1.73|
92441512|NCT04665050|184769647|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|8.03|||||TWO_SIDED|95.0|4.61|13.98|||||V116/PNEUMOVAX™23|Serotype 15A||13.98|4.61|
92441513|NCT04665050|184769647|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|3.14|||||TWO_SIDED|95.0|1.77|5.58|||||V116/PNEUMOVAX™23|Serotype 15C||5.58|1.77|
92441514|NCT04665050|184769647|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|13.06|||||TWO_SIDED|95.0|8.45|20.19|||||V116/PNEUMOVAX™23|Serotype 16F||20.19|8.45|
92441515|NCT04665050|184769647|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|8.55|||||TWO_SIDED|95.0|5.19|14.09|||||V116/PNEUMOVAX™23|Serotype 23A||14.09|5.19|
92441516|NCT04665050|184769647|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|4.15|||||TWO_SIDED|95.0|2.72|6.36|||||V116/PNEUMOVAX™23|Serotype 23B||6.36|2.72|
92441517|NCT04665050|184769647|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|28.68|||||TWO_SIDED|95.0|16.59|49.58|||||V116/PNEUMOVAX™23|Serotype 24F||49.58|16.59|
92441518|NCT04665050|184769647|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|10.27|||||TWO_SIDED|95.0|6.71|15.73|||||V116/PNEUMOVAX™23|Serotype 31||15.73|6.71|
92441519|NCT04665050|184769647|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|15.95|||||TWO_SIDED|95.0|11.62|21.9|||||V116/PNEUMOVAX™23|Serotype 35B||21.90|11.62|
92441520|NCT00853723|184769651|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence test of means for the percentage change in PINP and CTX using two one-sided tests applied to data from the parallel group design with a sample size of 31 in the PTH(1-34) group and 62 in the combined PTHrP(1-36) group achieved 80% power at 2.5% significant level for two-sided hypothesis testing (adjusted for the hypothesis testing at two key endpoints).|||||<|0.0005|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline by day 15 in all three arms.|Kruskal-Wallis|||||||<0.0005
92238196|NCT02385123|184380502|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92238197|NCT02385123|184380503|OTHER|Single group analysis.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92280086|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|0.087||||0.4404|TWO_SIDED|95.0|-0.135|0.31||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.310|-0.135|0.4404
92441521|NCT00853723|184769652|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline in all Arms/groups.|Kruskal-Wallis|The threshold for stasistical significance was p=0.05||||||<0.05
92441522|NCT00853723|184769653|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence test of means for the percentage change in PINP and CTX using two one-sided tests applied to data from the parallel group design with a sample size of 31 in the PTH(1-34) group and 62 in the combined PTHrP(1-36) group achieved 80% power at 2.5% significant level for two-sided hypothesis testing (adjusted for the hypothesis testing at two key endpoints).|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline at Day 60 and at Day 90 for the PTH group and at day 90 for the PTHrP 400 and PTHrP 600 groups .|Kruskal-Wallis|||||||<0.05
92441523|NCT00853723|184769654|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline in PTHrP 400 and 600 groups.|Kruskal-Wallis|The threshold for stastistical significance was p=0.05||||||<0.05
92441524|NCT00853723|184769655|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline in the PTHrP 400 group|Kruskal-Wallis|The threshold for stastistical significance was p=0.05||||||<0.05
92441525|NCT00853723|184769656|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline in all Arms/groups|Kruskal-Wallis|The threshold for statistical signifcance was p=0.05||||||>0.05
92441526|NCT00853723|184769657|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline in all Arms/groups|Kruskal-Wallis|The threshold for statistical significance was p=0.05||||||>0.05
92441527|NCT00853723|184769658|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.0005|TWO_SIDED|||||The reported p-value corresponds to change from baseline at Day 15 and 30 in the PTHrP 400 group and at Day 15 in the PTHrP 600 group|F-test, one way analysis of variance|The threshold for statistical significance was p=0.05||||||<0.0005
92441528|NCT00853723|184769659|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds to PTH group on Day 60 compared to the PTHrP 400|F-test, one way analysis of variance|The threshold for statistical significance was p=0.05||||||<0.05
92441529|NCT00853723|184769659|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.005|TWO_SIDED|||||The reported p-value corresponds to the PTH group on Day 30 compared to the PTHrP 400 group and Day 60 compared to the PTHRp 600 group|Kruskal-Wallis|The threshold for statistical significance was p=0.05||||||<0.005
92441530|NCT00853723|184769659|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.0005|TWO_SIDED|||||The reported p-value correspond to the PTH group on Day 15 compared to the PTHrP 400 group and Day 15 and 30 compared to the PTHrP 600 group.|Kruskal-Wallis|The threshold for statistical significance was p=0.05||||||<0.0005
92280087|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|0.001||||0.9939|TWO_SIDED|95.0|-0.224|0.226||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.226|-0.224|0.9939
92441531|NCT00853723|184769660|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.005|TWO_SIDED|||||The reported p-value corresponds to the increase from baseline to D90 in the PTHrP 400 group.|F-test, one way analysis of variance|the threshold for statistical significance was p=0.05||||||<0.005
92441532|NCT00853723|184769661|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p value corresponds to an increased from baseline at all time points in all Arms/groups as well as to the increase in the in the PTHrP 400 group at Day 60 and 90 compared to the PTHrP 600 and PTH groups .|F-test, one way analysis of variance|the threshold for statistical significance was p=0.05||||||<0.05
92441533|NCT00853723|184769661|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes|||||<|0.005|TWO_SIDED|||||The reported p-value corresponds to the comparison of the PTHrP 400 group at Day 15 to the PTHrP 600 and PTH groups|Kruskal-Wallis|The threshold for statistical significance was p=0.05||||||<0.005
92238198|NCT02385123|184380504|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92441534|NCT00853723|184769662|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds to an increase compared to baseline in the PTHrP 600 group at D15 and D30|F-test, one way analysis of variance|The threshold for stastistical significance was p=0.05||||||<0.05
92441535|NCT00853723|184769662|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate.|||||<|0.005|TWO_SIDED|||||the reported p-value corresponds to change from baseline in the PTHrP 400 group at Day 15,30, 60 and 90 and the PTH group at day 90.|Kruskal-Wallis|the threshold for statistical significance was p=0.05||||||<0.005
92441536|NCT00853723|184769663|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds the PTH group on Day 15 compared to the PTHrP 400 group and to the PTHrP 600 group at Day 30 and Day 60|Kruskal-Wallis|The threshold for statistical significance was p=0.05||||||<0.05
92441537|NCT00853723|184769663|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate.|||||<|0.0005|TWO_SIDED|||||Thre reported p-value correspond to the PTH group compared to the PTHrp 600 group at day 15|Kruskal-Wallis|the threshold for statistical significance was p=0.05||||||<0.0005
92441538|NCT01787175|184769689|SUPERIORITY_OR_OTHER||Difference in time to complete A&P|-17.73||||0.047|TWO_SIDED|95.0|-35.24|-0.23|||Mixed-effects linear model|||Null hypothesis: Participants will require the same amount of time to complete assessments and plans using either IMM or CPRS. Power calculation: With 2 replications per subject, and assuming an ICC of 0.15, a two-sided alpha 0.05 comparison adjusted for 5 multiple comparisons (adjusted alpha = 0.01), and power of 80%, an N of 32 clinicians was required for each group (32 using IMM, and 32 using CPRS).||-0.23|-35.24|0.047
92441539|NCT01787175|184769690|SUPERIORITY_OR_OTHER||Value of problem scores for A&P complete|0.04||||0.15|TWO_SIDED|95.0|-0.01|0.09|||Mixed-effects linear model|||Null hypothesis: Participants will receive the same scores for assessments and plans completed using either IMM or CPRS. Power calculation: With 2 replications per subject, and assuming an ICC of 0.15, a two-sided alpha 0.05 comparison adjusted for 5 multiple comparisons (adjusted alpha = 0.01), and power of 80%, an N of 32 clinicians was required for each group (32 using IMM, and 32 using CPRS).||0.09|-0.01|0.15
92441540|NCT01787175|184769691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.005|TWO_SIDED|95.0|1.22|2.98|||Regression, Logistic|||Null hypothesis: Participants will receive the same proportion of acceptable scores for assessments and plans completed using either IMM or CPRS. Power calculation: With 2 replications per subject, and assuming an ICC of 0.15, a two-sided alpha 0.05 comparison adjusted for 5 multiple comparisons (adjusted alpha = 0.01), and power of 80%, an N of 32 clinicians was required for each group (32 using IMM, and 32 using CPRS).||2.98|1.22|0.005
92441541|NCT02867709|184769692|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0285|TWO_SIDED|95.0|1.09|2.22||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.22|1.09|0.0285
92441542|NCT02867709|184769692|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0129|TWO_SIDED|95.0|1.14|2.29||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.29|1.14|0.0129
92171312|NCT05321069|184231778|SUPERIORITY||Mean Difference (Net)|2.49||||0.0042|TWO_SIDED|95.0|0.79|4.19|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in percent predicted DLCO between the Nera 9 mg BID group and the placebo group at Week 52.|"Based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment, baseline use of antifibrotic therapy, and the fixed continuous effects of baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted at each visit. An unstructured covariance structure was used to model repeated measures within patients.~Baseline use of antifibrotic therapy, as recorded in the concomitant medication CRF page, was included as a covariate."||4.19|0.79|0.0042
92238199|NCT02385123|184380505|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92240030|NCT00570739|184383800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0035||||0.4039|TWO_SIDED|95.0|-0.0118|0.0048||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||0.0048|-0.0118|0.4039
92240031|NCT00570739|184383801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.59|||<|0.0001|TWO_SIDED|95.0|-21.07|-10.11||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate.||||-10.11|-21.07|<0.0001
92441543|NCT02867709|184769693|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0711|TWO_SIDED|95.0|1.02|1.83||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, underlying symptom as explanatory variables.||||1.83|1.02|0.0711
92441544|NCT02867709|184769693|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0129|TWO_SIDED|95.0|1.25|2.2||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, underlying symptom as explanatory variables.||||2.20|1.25|0.0129
92441545|NCT02867709|184769694|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0711|TWO_SIDED|95.0|1.25|2.17||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.17|1.25|0.0711
92441546|NCT02867709|184769694|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0129|TWO_SIDED|95.0|1.35|2.32||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.32|1.35|0.0129
92441547|NCT02867709|184769695|SUPERIORITY||Odds Ratio (OR)|1.82||||0.0711|TWO_SIDED|95.0|1.33|2.48||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.48|1.33|0.0711
92441548|NCT02867709|184769695|SUPERIORITY||Odds Ratio (OR)|2.16||||0.0129|TWO_SIDED|95.0|1.59|2.92||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.92|1.59|0.0129
92441549|NCT02867709|184769696|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0711|TWO_SIDED|95.0|1.04|2.53||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.53|1.04|0.0711
92441550|NCT02867709|184769696|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0129|TWO_SIDED|95.0|1.2|2.83||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.83|1.20|0.0129
92441551|NCT02867709|184769697|SUPERIORITY||Odds Ratio (OR)|1.28||||0.1833|TWO_SIDED|95.0|0.96|1.72||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, photophobia were explanatory variables.||||1.72|0.96|0.1833
92441552|NCT02867709|184769697|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0167|TWO_SIDED|95.0|1.14|2.02||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, photophobia were explanatory variables.||||2.02|1.14|0.0167
92441553|NCT02867709|184769698|SUPERIORITY||Odds Ratio (OR)|1.38||||0.1066|TWO_SIDED|95.0|1.04|1.83||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, phonophobia were explanatory variables.||||1.83|1.04|0.1066
92441554|NCT02867709|184769698|SUPERIORITY||Odds Ratio (OR)|1.39||||0.044|TWO_SIDED|95.0|1.05|1.84||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, phonophobia were explanatory variables.||||1.84|1.05|0.0440
92441555|NCT02867709|184769699|SUPERIORITY||Odds Ratio (OR)|1.1||||0.9522|TWO_SIDED|95.0|0.81|1.49||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, nausea were explanatory variables.||||1.49|0.81|0.9522
92441556|NCT02867709|184769699|SUPERIORITY||Odds Ratio (OR)|1.12||||0.9522|TWO_SIDED|95.0|0.83|1.51||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, nausea were explanatory variables.||||1.51|0.83|0.9522
92441557|NCT03971695|184769716|OTHER||Adjusted geometric mean (gMean) ratio(%)|100.26|||||TWO_SIDED|90.0|90.18|111.48|||||Intra-individual geometric coefficient of variance (gCV) = 14.2. Ratio is T1/R.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||111.48|90.18|
92441558|NCT03971695|184769716|OTHER||Adjusted geometric mean (gMean) ratio(%)|91.63|||||TWO_SIDED|90.0|85.37|98.35|||||Intra-individual geometric coefficient of variance (gCV) = 9.5. Ratio is T2/T1.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||98.35|85.37|
92441559|NCT03971695|184769717|OTHER||Adjusted geometric mean (gMean) ratio(%)|98.01|||||TWO_SIDED|90.0|84.2|114.08|||||Intra-individual geometric coefficient of variance (gCV) = 20.5. Ratio is T1/R.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||114.08|84.20|
92441560|NCT03971695|184769717|OTHER||Adjusted geometric mean (gMean) ratio(%)|77.52|||||TWO_SIDED|90.0|68.11|88.22|||||Intra-individual geometric coefficient of variance (gCV) = 17.4. Ratio is T2/T1.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||88.22|68.11|
92441561|NCT03971695|184769721|OTHER||Adjusted geometric mean (gMean) ratio(%)|96.42|||||TWO_SIDED|90.0|86.96|106.9|||||Intra-individual geometric coefficient of variance (gCV) = 13.9. Ratio is T1/R.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||106.90|86.96|
92441562|NCT03971695|184769721|OTHER||Adjusted geometric mean (gMean) ratio(%)|91.27|||||TWO_SIDED|90.0|85.4|97.54|||||Intra-individual geometric coefficient of variance (gCV) = 8.9. Ratio is T2/T1.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||97.54|85.40|
92441563|NCT01881230|184769724|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.692||||0.0183|TWO_SIDED|95.0|1.089|2.629|||Log Rank|||For stratified analysis, the stratified log-rank test and stratified Cox proportional hazards model were used, where the stratification factor is the disease free interval (\<= 1 year; \> 1 year).||2.629|1.089|0.0183
92441564|NCT01881230|184769724|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.581||||0.0152|TWO_SIDED|95.0|0.373|0.904|||Log Rank|||For stratified analysis, the stratified log-rank test and stratified Cox proportional hazards model were used, where the stratification factor is the disease free interval (\<= 1 year; \> 1 year).||0.904|0.373|0.0152
92441565|NCT01881230|184769724|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.039||||0.8599|TWO_SIDED|95.0|0.676|1.597|||Log Rank|||For stratified analysis, the stratified log-rank test and stratified Cox proportional hazards model were used, where the stratification factor is the disease free interval (\<= 1 year; \> 1 year).||1.597|0.676|0.8599
92171313|NCT05321069|184231778|SUPERIORITY||Mean Difference (Net)|1.67||||0.053|TWO_SIDED|95.0|-0.02|3.37|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in percent predicted DLCO between the Nera 18 mg BID group and the placebo group at Week 52.|"Based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment, baseline use of antifibrotic therapy, and the fixed continuous effects of baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted at each visit. An unstructured covariance structure was used to model repeated measures within patients.~Baseline use of antifibrotic therapy, as recorded in the concomitant medication CRF page, was included as a covariate."||3.37|-0.02|0.0530
92441566|NCT01881230|184769727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.375||||0.1579|TWO_SIDED|95.0|0.882|2.143|||Log Rank|||Hazard ratios and associated two-sided 95% confidence intervals were estimated using stratified Cox proportional hazard model. The stratification factor is the disease free interval (≤ 1 year; \> 1 year).||2.143|0.882|0.1579
92441567|NCT01881230|184769727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.796||||0.2945|TWO_SIDED|95.0|0.52|1.221|||Log Rank|||Hazard ratios and associated two-sided 95% confidence intervals were estimated using stratified Cox proportional hazard model. The stratification factor is the disease free interval (≤ 1 year; \> 1 year).||1.221|0.520|0.2945
92441568|NCT01881230|184769727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.101||||0.6691|TWO_SIDED|95.0|0.71|1.708|||Log Rank|||Hazard ratios and associated two-sided 95% confidence intervals were estimated using stratified Cox proportional hazard model. The stratification factor is the disease free interval (≤ 1 year; \> 1 year).||1.708|0.710|0.6691
92441569|NCT02515942|184769734|SUPERIORITY|Least squares mean for change from baseline from ANCOVA model with treatment, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal), baseline lesion size as covariates after multiple imputations.|Treatment Effect|-0.35||||0.0636|TWO_SIDED|80.0|-0.64|-0.06|||ANCOVA|||||-0.06|-0.64|0.0636
92238200|NCT02385123|184380506|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92441570|NCT02515942|184769734|SUPERIORITY||Treatment Effect|-0.29||||0.1019|TWO_SIDED|80.0|-0.59|0.0|||ANCOVA|||Least squares mean for change from baseline from ANCOVA model with treatment, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal), baseline lesion size as covariates after multiple imputations.||0.00|-0.59|0.1019
92441571|NCT02515942|184769734|SUPERIORITY||Treatment Effect|0.06||||0.5987|TWO_SIDED|80.0|-0.24|0.35|||ANCOVA|||Least squares mean for change from baseline from ANCOVA model with treatment, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal), baseline lesion size as covariates after multiple imputations.||0.35|-0.24|0.5987
92441572|NCT02515942|184769735|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.0||||0.5029|TWO_SIDED|80.0|-0.11|0.11|||Mixed Models Analysis|||Change from baseline at Day 85||0.11|-0.11|0.5029
92441573|NCT02515942|184769735|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.04||||0.682|TWO_SIDED|80.0|-0.07|0.14|||Mixed Models Analysis|||Change from baseline at Day 85||0.14|-0.07|0.6820
92280088|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.128||||0.2716|TWO_SIDED|95.0|-0.356|0.1||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.100|-0.356|0.2716
92441574|NCT02515942|184769735|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.04||||0.6826|TWO_SIDED|80.0|-0.07|0.14|||Mixed Models Analysis|||Change from baseline at Day 85||0.14|-0.07|0.6826
92441575|NCT02515942|184769735|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.12||||0.1545|TWO_SIDED|80.0|-0.28|0.03|||Mixed Models Analysis|||Change from baseline at Day 169||0.03|-0.28|0.1545
92441576|NCT02515942|184769735|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.13||||0.1398|TWO_SIDED|80.0|-0.29|0.02|||Mixed Models Analysis|||Change from baseline at Day 169||0.02|-0.29|0.1398
92441577|NCT02515942|184769735|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.01||||0.4717|TWO_SIDED|80.0|-0.16|0.14|||Mixed Models Analysis|||Change from baseline at Day 169||0.14|-0.16|0.4717
92441578|NCT02515942|184769735|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.25||||0.053|TWO_SIDED|80.0|-0.45|-0.05|||Mixed Models Analysis|||Change from baseline at Day 253||-0.05|-0.45|0.0530
92441579|NCT02515942|184769735|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.17||||0.1386|TWO_SIDED|80.0|-0.37|0.03|||Mixed Models Analysis|||Change from baseline at Day 253||0.03|-0.37|0.1386
92280089|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.116||||0.3175|TWO_SIDED|95.0|-0.345|0.112||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.112|-0.345|0.3175
92171314|NCT05048186|184231786|OTHER||Mean Difference (Final Values)|0.06||||0.503|TWO_SIDED|95.0|-0.116|0.236|||t-test, 2 sided|||we tested to see whether SDM Process scores were different between patients who received the Decision Aid Arm vs the control arm||0.236|-0.116|0.503
92441580|NCT02515942|184769735|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.08||||0.7087|TWO_SIDED|80.0|-0.11|0.27|||Mixed Models Analysis|||Change from baseline at Day 253||0.27|-0.11|0.7087
92441581|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.72||||0.9243|TWO_SIDED|80.0|-5.15|-0.29|||Mixed Models Analysis|||Change from baseline at Day 2||-0.29|-5.15|0.9243
92441582|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.51||||0.3929|TWO_SIDED|80.0|-1.89|2.91|||Mixed Models Analysis|||Change from baseline at Day 2||2.91|-1.89|0.3929
92441583|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.23||||0.0418|TWO_SIDED|80.0|0.85|5.61|||Mixed Models Analysis|||Change from baseline at Day 2||5.61|0.85|0.0418
92441584|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.32||||0.5632|TWO_SIDED|80.0|-2.91|2.27|||Mixed Models Analysis|||Change from baseline at Day 8||2.27|-2.91|0.5632
92441585|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.29||||0.2575|TWO_SIDED|80.0|-1.25|3.83|||Mixed Models Analysis|||Change from baseline at Day 8||3.83|-1.25|0.2575
92441586|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.61||||0.2058|TWO_SIDED|80.0|-0.91|4.12|||Mixed Models Analysis|||Change from baseline at Day 8||4.12|-0.91|0.2058
92441587|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.94||||0.8392|TWO_SIDED|80.0|-4.44|0.57|||Mixed Models Analysis|||Change from baseline at Day 15||0.57|-4.44|0.8392
92441588|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effecgt|-0.12||||0.5255|TWO_SIDED|80.0|-2.59|2.35|||Mixed Models Analysis|||Change from baseline at Day 15||2.35|-2.59|0.5255
92441589|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.81||||0.1685|TWO_SIDED|80.0|-0.61|4.24|||Mixed Models Analysis|||Change from baseline at Day 15||4.24|-0.61|0.1685
92441590|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment|-2.01||||0.8544|TWO_SIDED|80.0|-4.45|0.43|||Mixed Models Analysis|||Change from baseline at Day 29||0.43|-4.45|0.8544
92441591|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.03||||0.1402|TWO_SIDED|80.0|-0.38|4.44|||Mixed Models Analysis|||Change from baseline at Day 29||4.44|-0.38|0.1402
92171315|NCT02412748|184231795|SUPERIORITY|||||||0.962|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.962
92171316|NCT02412748|184231796|SUPERIORITY|||||||0.982|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.982
92238201|NCT02385123|184380507|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
92441592|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|4.03||||0.015|TWO_SIDED|80.0|1.67|6.4|||Mixed Models Analysis|||Change from baseline at Day 29||6.40|1.67|0.0150
92238202|NCT04498910|184380508|SUPERIORITY||Difference in Estimated change|-1.1|STANDARD_ERROR_OF_MEAN|1.2|||TWO_SIDED|95.0|-3.6|1.2|||Bayesian Mixed Model Analysis|||||1.2|-3.6|
92441593|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.14||||0.4682|TWO_SIDED|80.0|-2.11|2.39|||Mixed Models Analysis|||Change from baseline at Day 30||2.39|-2.11|0.4682
92441594|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.38||||0.4125|TWO_SIDED|80.0|-1.84|2.6|||Mixed Models Analysis|||Change from baseline at Day 30||2.60|-1.84|0.4125
92441595|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.24||||0.4431|TWO_SIDED|80.0|-1.94|2.42|||Mixed Models Analysis|||Change from baseline at Day 30||2.42|-1.94|0.4431
92441596|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.04||||0.6924|TWO_SIDED|80.0|-3.72|1.63|||Mixed Models Analysis|||Change from baseline at Day 57||1.63|-3.72|0.6924
92441597|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.61||||0.616|TWO_SIDED|80.0|-3.26|2.04|||Mixed Models Analysis|||Change from baseline at Day 57||2.04|-3.26|0.6160
92441598|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.44||||0.4149|TWO_SIDED|80.0|-2.18|3.06|||Mixed Models Analysis|||Change from baseline at Day 57||3.06|-2.18|0.4149
92441599|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.29||||0.2582|TWO_SIDED|80.0|-1.27|3.85|||Mixed Models Analysis|||Change from baseline at Day 85||3.85|-1.27|0.2582
92441600|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.81||||0.3402|TWO_SIDED|80.0|-1.72|3.34|||Mixed Models Analysis|||Change from baseline at Day 85||3.34|-1.72|0.3402
92441601|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.48||||0.5976|TWO_SIDED|80.0|-2.99|2.03|||Mixed Models Analysis|||Change from baseline at Day 85||2.03|-2.99|0.5976
92238203|NCT04498910|184380509|SUPERIORITY||Difference in Estimated change|-1.5|STANDARD_ERROR_OF_MEAN|1.3|||TWO_SIDED|95.0|-4.2|1.0|||Bayesian Mixed Model Analysis|||||1.0|-4.2|
92280090|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.252||||0.0325|TWO_SIDED|95.0|-0.483|-0.021||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.021|-0.483|0.0325
92280091|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.169||||0.1769|TWO_SIDED|95.0|-0.415|0.077||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.077|-0.415|0.1769
92238204|NCT01809262|184380515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.02||0.0005||95.0|0.031|0.109|||ANCOVA|||||0.109|0.031|0.0005
92238205|NCT01809262|184380515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.06|0.138|||ANCOVA|||||0.138|0.060|<0.0001
92238206|NCT01809262|184380515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.074|0.152|||ANCOVA|||||0.152|0.074|<0.0001
92238207|NCT01809262|184380515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.08|0.158|||ANCOVA|||||0.158|0.080|<0.0001
92238208|NCT01809262|184380516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.077|0.139|||ANCOVA|||||0.139|0.077|<0.0001
92238209|NCT01809262|184380516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.124|0.186|||ANCOVA|||||0.186|0.124|<0.0001
92280092|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.188||||0.1343|TWO_SIDED|95.0|-0.434|0.058||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.058|-0.434|0.1343
92441602|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.5||||0.5916|TWO_SIDED|80.0|-3.3|2.29|||Mixed Models Analysis|||Change from baseline at Day 113||2.29|-3.30|0.5916
92441603|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.3||||0.5564|TWO_SIDED|80.0|-3.05|2.45|||Mixed Models Analysis|||Change from baseline at Day 113||2.45|-3.05|0.5564
92441604|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.2||||0.4625|TWO_SIDED|80.0|-2.53|2.93|||Mixed Models Analysis|||Change from baseline at Day 113||2.93|-2.53|0.4625
92441605|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.94||||0.8221|TWO_SIDED|80.0|-4.64|0.76|||Mixed Models Analysis|||Change from baseline at Day 141||0.76|-4.64|0.8221
92441606|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.98||||0.3179|TWO_SIDED|80.0|-1.68|3.64|||Mixed Models Analysis|||Change from baseline at Day 141||3.64|-1.68|0.3179
92441607|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.92||||0.0773|TWO_SIDED|80.0|0.29|5.55|||Mixed Models Analysis|||Change from baseline at Day 141||5.55|0.29|0.0773
92238210|NCT01809262|184380516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.13|0.192|||ANCOVA|||||0.192|0.130|<0.0001
92280093|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.295||||0.0203|TWO_SIDED|95.0|-0.544|-0.046||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.046|-0.544|0.0203
92441608|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.95||||0.6708|TWO_SIDED|80.0|-3.71|1.81|||Mixed Models Analysis|||Change from baseline at Day 169||1.81|-3.71|0.6708
92238211|NCT01809262|184380516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.161|0.223|||ANCOVA|||||0.223|0.161|<0.0001
92238212|NCT01809262|184380517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.068|0.131|||ANCOVA|||||0.131|0.068|<0.0001
92238213|NCT01809262|184380517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.107|0.171|||ANCOVA|||||0.171|0.107|<0.0001
92238214|NCT01809262|184380517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.153|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.122|0.185|||ANCOVA|||||0.185|0.122|<0.0001
92238215|NCT01809262|184380517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.152|0.215|||ANCOVA|||||0.215|0.152|<0.0001
92238216|NCT01809262|184380518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001||95.0|0.056|0.117|||ANCOVA|||||0.117|0.056|<0.0001
92238217|NCT01809262|184380518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001||95.0|0.087|0.148|||ANCOVA|||||0.148|0.087|<0.0001
92280094|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.152||||0.2543|TWO_SIDED|95.0|-0.415|0.11||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.110|-0.415|0.2543
92280095|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.142||||0.2892|TWO_SIDED|95.0|-0.405|0.121||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.121|-0.405|0.2892
92441609|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.99||||0.679|TWO_SIDED|80.0|-3.71|1.74|||Mixed Models Analysis|||Change from baseline at Day 169||1.74|-3.71|0.6790
92441610|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.04||||0.507|TWO_SIDED|80.0|-2.72|2.64|||Mixed Models Analysis|||Change from baseline at Day 169||2.64|-2.72|0.5070
92441611|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.3||||0.5487|TWO_SIDED|80.0|-3.44|2.84|||Mixed Models Analysis|||Change from baseline at Day 197||2.84|-3.44|0.5487
92441612|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.25||||0.6973|TWO_SIDED|80.0|-4.35|1.85|||Mixed Models Analysis|||Change from baseline at Day 197||1.85|-4.35|0.6973
92441613|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.95||||0.6548|TWO_SIDED|80.0|-4.0|2.11|||Mixed Models Analysis|||Change from baseline at Day 197||2.11|-4.00|0.6548
92441614|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.35||||0.5533|TWO_SIDED|80.0|-3.76|3.05|||Mixed Models Analysis|||Change from baseline at Day 225||3.05|-3.76|0.5533
92441615|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.11||||0.3358|TWO_SIDED|80.0|-2.25|4.46|||Mixed Models Analysis|||Change from baseline at Day 225||4.46|-2.25|0.3358
92441616|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.46||||0.285|TWO_SIDED|80.0|-1.85|4.77|||Mixed Models Analysis|||Change from baseline at Day 225||4.77|-1.85|0.2850
92441617|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.55||||0.5778|TWO_SIDED|80.0|-4.14|3.04|||Mixed Models Analysis|||Change from baseline at Day 253||3.04|-4.14|0.5778
92441618|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.3||||0.2018|TWO_SIDED|80.0|-1.24|5.85|||Mixed Models Analysis|||Change from baseline at Day 253||5.85|-1.24|0.2018
92441619|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.85||||0.1457|TWO_SIDED|80.0|-0.62|6.32|||Mixed Models Analysis|||Change from baseline at Day 253||6.32|-0.62|0.1457
92238218|NCT01809262|184380518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001||95.0|0.107|0.168|||ANCOVA|||||0.168|0.107|<0.0001
92238219|NCT01809262|184380518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001||95.0|0.132|0.193|||ANCOVA|||||0.193|0.132|<0.0001
92238220|NCT01809262|184380519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.074|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.041|0.108|||ANCOVA|||||0.108|0.041|<0.0001
92238221|NCT01809262|184380519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.096|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.062|0.13|||ANCOVA|||||0.130|0.062|<0.0001
92238222|NCT01809262|184380519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.089|0.156|||ANCOVA|||||0.156|0.089|<0.0001
92441620|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.56||||0.5758|TWO_SIDED|80.0|-4.29|3.18|||Mixed Models Analysis|||Change from baseline at Day 281||3.18|-4.29|0.5758
92280096|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.306||||0.0243|TWO_SIDED|95.0|-0.571|-0.04||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.040|-0.571|0.0243
92280097|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.059||||0.6471|TWO_SIDED|95.0|-0.312|0.194||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.194|-0.312|0.6471
92441621|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.85||||0.3833|TWO_SIDED|80.0|-2.84|4.55|||Mixed Models Analysis|||Change from baseline at Day 281||4.55|-2.84|0.3833
92441622|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.41||||0.3083|TWO_SIDED|80.0|-2.21|5.02|||Mixed Models Analysis|||Change from baseline at Day 281||5.02|-2.21|0.3083
92441623|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.54||||0.7063|TWO_SIDED|80.0|-5.19|2.11|||Mixed Models Analysis|||Change from baseline at Day 309||2.11|-5.19|0.7063
92441624|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.14||||0.2227|TWO_SIDED|80.0|-1.46|5.74|||Mixed Models Analysis|||Change from baseline at Day 309||5.74|-1.46|0.2227
92441625|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.68||||0.0907|TWO_SIDED|80.0|0.15|7.21|||Mixed Models Analysis|||Change from baseline at Day 309||7.21|0.15|0.0907
92441626|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.17||||0.4799|TWO_SIDED|80.0|-4.23|4.57|||Mixed Models Analysis|||Change from baseline at Day 337||4.57|-4.23|0.4799
92441627|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.2||||0.5237|TWO_SIDED|80.0|-4.54|4.14|||Mixed Models Analysis|||Change from baseline at Day 337||4.14|-4.54|0.5237
92441628|NCT02515942|184769737|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.37||||0.5451|TWO_SIDED|80.0|-4.62|3.87|||Mixed Models Analysis|||Change from baseline at Day 337||3.87|-4.62|0.5451
92441629|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.15||||0.4609|TWO_SIDED|80.0|-1.79|2.09|||Mixed Models Analysis|||Change from baseline at Day 2||2.09|-1.79|0.4609
92441630|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.46||||0.3771|TWO_SIDED|80.0|-1.44|2.37|||Mixed Models Analysis|||Change from baseline at Day 2||2.37|-1.44|0.3771
92238223|NCT01809262|184380519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.107|0.174|||ANCOVA|||||0.174|0.107|<0.0001
92238224|NCT01809262|184380520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.084|0.158|||ANCOVA|||||0.158|0.084|<0.0001
92238225|NCT01809262|184380520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.129|0.203|||ANCOVA|||||0.203|0.129|<0.0001
92238226|NCT01809262|184380520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.139|0.214|||ANCOVA|||||0.214|0.139|<0.0001
92238227|NCT01809262|184380520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.176|0.25|||ANCOVA|||||0.250|0.176|<0.0001
92238228|NCT01809262|184380521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.306|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001||95.0|0.21|0.402|||ANCOVA|||||0.402|0.210|<0.0001
92238229|NCT01809262|184380521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.355|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001||95.0|0.258|0.452|||ANCOVA|||||0.452|0.258|<0.0001
92238230|NCT01809262|184380521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001||95.0|0.253|0.447|||ANCOVA|||||0.447|0.253|<0.0001
92238231|NCT01809262|184380521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.455|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001||95.0|0.359|0.551|||ANCOVA|||||0.551|0.359|<0.0001
92171317|NCT02412748|184231797|SUPERIORITY|||||||0.534|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.534
92238232|NCT02345434|184380547|SUPERIORITY||Mean Difference (Final Values)|3.53|||||TWO_SIDED|95.0|-6.35|13.4||||||||13.4|-6.35|
92238233|NCT02345434|184380548|SUPERIORITY||Mean Difference (Final Values)|-0.79|||||TWO_SIDED|95.0|-3.68|2.1||||||||2.1|-3.68|
92238234|NCT00859898|184380556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.1056|<|0.0001|TWO_SIDED|95.0|-0.74|-0.32||Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant. Two-sided significance level at α=0.05|ANCOVA|treatment group as an effect and the baseline HbA1c value as a covariate.||||-0.32|-0.74|<0.0001
92238235|NCT00859898|184380556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.1072|<|0.0001|TWO_SIDED|95.0|-0.75|-0.33||Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant. Two-sided significance level at α=0.05|ANCOVA|treatment group as an effect and the baseline HbA1c value as a covariate.||||-0.33|-0.75|<0.0001
92238236|NCT00859898|184380556|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority of dapagliflozin 10 mg versus metformin XR was demonstrated when the upper limit of the two-sided 95% confidence interval of the difference in change in HbA1c from baseline to Week 24 (LOCF) between dapagliflozin 10 mg and metformin XR was less than 0.35%.|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.1054|||TWO_SIDED|95.0|-0.22|0.2|||ANCOVA|treatment group as an effect and the baseline value as a covariate||||0.20|-0.22|
92238237|NCT00859898|184380556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.1054||0.9144|TWO_SIDED|95.0|-0.22|0.2||two-sided significance level at α=0.05|ANCOVA|treatment group as an effect and the baseline HbA1c value as a covariate.||When testing for superiority, significance is claimed only if dapagliflozin 10 mg is superior to metformin XR||0.20|-0.22|0.9144
92238238|NCT00859898|184380557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9|STANDARD_ERROR_OF_MEAN|3.558|<|0.0001|TWO_SIDED|95.0|-20.9|-7.0||two-sided significance level at α=0.05. Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|ANCOVA|treatment group as an effect and the baseline value as a covariate.||A hierarchical closed testing procedure was implemented to control the familywise type I error rate related to this endpoint at the two-sided 0.05 level. Statistical tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-7.0|-20.9|<0.0001
92441631|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.32||||0.4161|TWO_SIDED|80.0|-1.6|2.24|||Mixed Models Analysis|||Change from baseline at Day 2||2.24|-1.60|0.4161
92441632|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.88||||0.9385|TWO_SIDED|80.0|-5.26|-0.49|||Mixed Models Analysis|||Change from baseline at Day 29||-0.49|-5.26|0.9385
92441633|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.4||||0.5862|TWO_SIDED|80.0|-2.76|1.96|||Mixed Models Analysis|||Change from baseline at Day 29||1.96|-2.76|0.5862
92441634|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.48||||0.0875|TWO_SIDED|80.0|0.14|4.82|||Mixed Models Analysis|||Change from baseline at Day 29||4.82|0.14|0.0875
92441635|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.53||||0.4059|TWO_SIDED|80.0|-2.32|3.37|||Mixed Models Analysis|||Change from baseline at Day 57||3.37|-2.32|0.4059
92441636|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.24||||0.286|TWO_SIDED|80.0|-1.58|4.05|||Mixed Models Analysis|||Change from baseline at Day 57||4.05|-1.58|0.2860
92441637|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.71||||0.3727|TWO_SIDED|80.0|-2.1|3.52|||Mixed Models Analysis|||Change from baseline at Day 57||3.52|-2.10|0.3727
92441638|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.91||||0.336|TWO_SIDED|80.0|-1.85|3.66|||Mixed Models Analysis|||Change from baseline at Day 85||3.66|-1.85|0.3360
92441639|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.95||||0.0316|TWO_SIDED|80.0|1.24|6.66|||Mixed Models Analysis|||Change from baseline at Day 85||6.66|1.24|0.0316
92441640|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.04||||0.0762|TWO_SIDED|80.0|0.32|5.76|||Mixed Models Analysis|||Change from baseline at Day 85||5.76|0.32|0.0762
92441641|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.68||||0.0544|TWO_SIDED|80.0|0.75|6.61|||Mixed Models Analysis|||Change from baseline at Day 113||6.61|0.75|0.0544
92441642|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.91||||0.1955|TWO_SIDED|80.0|-0.95|4.77|||Mixed Models Analysis|||Change from baseline at Day 113||4.77|-0.95|0.1955
92238239|NCT00859898|184380557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.5|STANDARD_ERROR_OF_MEAN|3.59|<|0.0001|TWO_SIDED|95.0|-32.6|-18.5||two-sided significance level at α=0.05. Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|ANCOVA|treatment group as an effect and the baseline value as a covariate.||A hierarchical closed testing procedure was implemented to control the familywise type I error rate related to this endpoint at the two-sided 0.05 level. Statistical tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-18.5|-32.6|<0.0001
92238240|NCT00859898|184380557|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority of dapagliflozin 10 mg versus metformin XR was demonstrated when the upper limit of the two-sided 95% confidence interval of the difference in change FPG from baseline to Week 24 (LOCF) between dapagliflozin 10 mg and metformin XR was less than 15 mg/dL.|Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|3.566|||TWO_SIDED|95.0|-18.6|-4.6|||ANCOVA|treatment group as an effect and the baseline value as a covariate||||-4.6|-18.6|
92238241|NCT00859898|184380557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|3.566||0.0012|TWO_SIDED|95.0|-18.6|-4.6||two-sided significance level at α=0.05.|ANCOVA|treatment group as an effect and the baseline value as a covariate.||When testing for superiority, significance is claimed only if dapagliflozin 10 mg is superior to metformin XR||-4.6|-18.6|0.0012
92238242|NCT00859898|184380558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.9|STANDARD_ERROR_OF_MEAN|4.598||0.0012|TWO_SIDED|95.0|5.9|23.9||Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|Regression, Logistic|Logistic regression based on the methodology of Zhang, Tsiatis and Davidian and Tsiatis, Davidian, Zhang and Lu, with adjustment for baseline HbA1c.||The probability of response was modeled using a logistic regression model with baseline HbA1c as the covariate. Treatment group estimates of response rate were then obtained by integrating each group's modeled probability of response over the observed distribution of baseline covariate (combined across groups).||23.9|5.9|0.0012
92441643|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.77||||0.7844|TWO_SIDED|80.0|-4.65|1.12|||Mixed Models Analysis|||Change from baseline at Day 113||1.12|-4.65|0.7844
92441644|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.49||||0.2973|TWO_SIDED|80.0|-2.11|5.08|||Mixed Models Analysis|||Change from baseline at Day 141||5.08|-2.11|0.2973
92441645|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.33||||0.3127|TWO_SIDED|80.0|-2.18|4.84|||Mixed Models Analysis|||Change from baseline at Day 141||4.84|-2.18|0.3127
92441646|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.16||||0.5227|TWO_SIDED|80.0|-3.67|3.36|||Mixed Models Analysis|||Change from baseline at Day 141||3.36|-3.67|0.5227
92441647|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.63||||0.7643|TWO_SIDED|80.0|-4.54|1.28|||Mixed Models Analysis|||Change from baseline at Day 169||1.28|-4.54|0.7643
92441648|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.38||||0.7331|TWO_SIDED|80.0|-4.25|1.48|||Mixed Models Analysis|||Change from baseline at Day 169||1.48|-4.25|0.7331
92441649|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.25||||0.4557|TWO_SIDED|80.0|-2.59|3.09|||Mixed Models Analysis|||Change from baseline at Day 169||3.09|-2.59|0.4557
92240032|NCT00570739|184383802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.46||||0.2289|TWO_SIDED|95.0|-27.53|6.62||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||6.62|-27.53|0.2289
92240033|NCT00570739|184383802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.54||||0.1997|TWO_SIDED|95.0|-29.22|6.14||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||6.14|-29.22|0.1997
92240034|NCT00570739|184383803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.81||||0.0144|TWO_SIDED|95.0|2.57|23.05||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Calculated Triglycerides||23.05|2.57|0.0144
92280098|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.106||||0.4123|TWO_SIDED|95.0|-0.359|0.148||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.148|-0.359|0.4123
92280099|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.278||||0.0338|TWO_SIDED|95.0|-0.534|-0.021||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.021|-0.534|0.0338
92280100|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.095||||0.4841|TWO_SIDED|95.0|-0.362|0.172||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.172|-0.362|0.4841
92441650|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.29||||0.4549|TWO_SIDED|80.0|-2.97|3.55|||Mixed Models Analysis|||Change from baseline at Day 197||3.55|-2.97|0.4549
92441651|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.93||||0.3535|TWO_SIDED|80.0|-2.26|4.13|||Mixed Models Analysis|||Change from baseline at Day 197||4.13|-2.26|0.3535
92441652|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.65||||0.397|TWO_SIDED|80.0|-2.54|3.84|||Mixed Models Analysis|||Change from baseline at Day 197||3.84|-2.54|0.3970
92441653|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.78||||0.2714|TWO_SIDED|80.0|-1.99|5.55|||Mixed Models Analysis|||Change from baseline at Day 225||5.55|-1.99|0.2714
92441654|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.72||||0.2741|TWO_SIDED|80.0|-1.97|5.41|||Mixed Models Analysis|||Change from baseline at Day 225||5.41|-1.97|0.2741
92441655|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.06||||0.5084|TWO_SIDED|80.0|-3.74|3.62|||Mixed Models Analysis|||Change from baseline at Day 225||3.62|-3.74|0.5084
92441656|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.82||||0.1537|TWO_SIDED|80.0|-0.73|6.37|||Mixed Models Analysis|||Change from baseline at Day 253||6.37|-0.73|0.1537
92441657|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.79||||0.2542|TWO_SIDED|80.0|-1.69|5.27|||Mixed Models Analysis|||Change from baseline at Day 253||5.27|-1.69|0.2542
92441658|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.03||||0.6504|TWO_SIDED|80.0|-4.46|2.4|||Mixed Models Analysis|||Change from baseline at Day 253||2.40|-4.46|0.6504
92441659|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.3||||0.3405|TWO_SIDED|80.0|-2.78|5.38|||Mixed Models Analysis|||Change from baseline at Day 281||5.38|-2.78|0.3405
92441660|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.41||||0.2194|TWO_SIDED|80.0|-1.59|6.42|||Mixed Models Analysis|||Change from baseline at Day 281||6.42|-1.59|0.2194
92238243|NCT00859898|184380558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|4.73||0.0165|TWO_SIDED|95.0|2.1|20.6||Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|Regression, Logistic|Logistic regression based on the methodology of Zhang, Tsiatis and Davidian and Tsiatis, Davidian, Zhang and Lu, with adjustment for baseline HbA1c.||The probability of response was modeled using a logistic regression model with baseline HbA1c as the covariate. Treatment group estimates of response rate were then obtained by integrating each group's modeled probability of response over the observed distribution of baseline covariate (combined across groups).||20.6|2.1|0.0165
92238244|NCT00859898|184380559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.1807||0.0133|TWO_SIDED|95.0|-0.81|-0.09||two-sided significance level at α=0.05. Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|ANCOVA|: treatment group as an effect and the baseline HbA1c value as a covariate.||A hierarchical closed testing procedure was implemented to control the familywise type I error rate related to this endpoint at the two-sided 0.05 level. Statistical testing was only performed if the dapagliflozin 10 mg plus metformin XR group was statistically significantly superior to both control groups for the primary efficacy endpoint. Tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-0.09|-0.81|0.0133
92238245|NCT00859898|184380559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.1817||0.0036|TWO_SIDED|95.0|-0.89|-0.18||two-sided significance level at α=0.05. Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|ANCOVA|treatment group as an effect and the baseline HbA1c value as a covariate.||A hierarchical closed testing procedure was implemented to control the familywise type I error rate related to this endpoint at the two-sided 0.05 level. Statistical testing was only performed if the dapagliflozin 10 mg plus metformin XR group was statistically significantly superior to both control groups for the primary efficacy endpoint. Tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-0.18|-0.89|0.0036
92238246|NCT00859898|184380560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97|STANDARD_ERROR_OF_MEAN|0.3401|<|0.0001|TWO_SIDED|95.0|-2.64|-1.3||two-sided significance level at α=0.05|ANCOVA|treatment group as an effect and the baseline value as a covariate.||A hierarchical closed testing procedure was implemented to control the familywise type I error rate related to this endpoint at the two-sided 0.05 level. Statistical testing was only performed if the dapagliflozin 10 mg plus metformin XR group was statistically significantly superior to both control groups for the primary efficacy endpoint. Tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-1.30|-2.64|<0.0001
92238247|NCT00859898|184380560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|0.3362|<|0.0001|TWO_SIDED|95.0|-2.03|-0.71||two-sided significance level at α=0.05|ANCOVA|treatment group as an effect and the baseline value as a covariate||Statistical tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-0.71|-2.03|<0.0001
92238248|NCT00367640|184380571|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||ANCOVA of the average RTSS, with treatment and pooled sites as factors, and retrospective RTSS, asthma and sensitised status as covariates.|ANCOVA|||A step-down approach is performed to address the multiplicity issue.||||0.0006
92238249|NCT00367640|184380571|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||ANCOVA of the average RTSS, with treatment and pooled sites as factors, and retrospective RTSS, asthma and sensitised status as covariates.|ANCOVA|||A step-down approach is performed to address the multiplicity issue.||||0.0001
92238250|NCT00367640|184380571|SUPERIORITY_OR_OTHER|||||||0.4606|TWO_SIDED|||||ANCOVA of the average RTSS, with treatment and pooled sites as factors, and retrospective RTSS, asthma and sensitised status as covariates.|ANCOVA|||A step-down approach is performed to address the multiplicity issue.||||0.4606
92238251|NCT02417233|184380572|OTHER||Odds Ratio (OR)|0.958||||0.848|TWO_SIDED|95.0|0.62|1.49|||Regression, Logistic|||||1.49|0.62|0.848
92238252|NCT02417233|184380572|OTHER||Odds Ratio (OR)|1.492||||0.125|TWO_SIDED|95.0|0.9|2.49|||Regression, Logistic|||||2.49|0.90|0.125
92238253|NCT02417233|184380573|OTHER||Odds Ratio (OR)|0.866||||0.636|TWO_SIDED|96.0|0.48|1.57|||Regression, Logistic|||||1.57|0.48|0.636
92238254|NCT02417233|184380573|OTHER||Odds Ratio (OR)|1.401||||0.165|TWO_SIDED|95.0|0.87|2.26|||Regression, Logistic|||||2.26|0.87|0.165
92238255|NCT02417233|184380574|OTHER||Odds Ratio (OR)|1.48||||0.16|TWO_SIDED|95.0|0.86|2.55|||Regression, Logistic|||||2.55|0.86|0.16
92238256|NCT02417233|184380574|OTHER||Odds Ratio (OR)|1.82||||0.03|TWO_SIDED|95.0|1.06|3.14|||Regression, Logistic|||||3.14|1.06|0.03
92446798|NCT00280566|184780544|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.16||0.3413|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.3413
92238257|NCT02417233|184380575|OTHER||Odds Ratio (OR)|0.27||||0.24|TWO_SIDED|95.0|0.03|2.45|||Regression, Logistic|||||2.45|0.03|0.24
92238258|NCT02417233|184380575|OTHER||Odds Ratio (OR)|2.68||||0.2|TWO_SIDED|95.0|0.59|12.16|||Regression, Logistic|||||12.16|0.59|0.20
92238259|NCT02417233|184380576|OTHER||Odds Ratio (OR)|1.943||||0.093|TWO_SIDED|95.0|0.9|4.21|||Regression, Logistic|||||4.21|0.90|0.093
92238260|NCT02417233|184380576|OTHER||Odds Ratio (OR)|1.764||||0.152|TWO_SIDED|95.0|0.81|3.83|||Regression, Logistic|||||3.83|0.81|0.152
92238261|NCT00700752|184380611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1636|STANDARD_ERROR_OF_MEAN|0.1887|||TWO_SIDED|95.0|0.789|1.1636|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus balafilcon A.|Alternative hypothesis is senofilcon A is superior to balafilcon A for comfort.||1.1636|0.7890|
92238262|NCT03078608|184380633|SUPERIORITY||F statistic|0.0||||1|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||1.00
92238263|NCT03078608|184380634|SUPERIORITY||F statistic|2.58||||0.11|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.11
92238264|NCT03078608|184380635|SUPERIORITY||F statistic|0.07||||0.79|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.79
92238265|NCT03078608|184380636|SUPERIORITY||F statistic|1.17||||0.29|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.29
92238266|NCT03078608|184380637|SUPERIORITY||F statistic|0.18||||0.67|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.67
92238267|NCT03078608|184380638|SUPERIORITY||F statistic|1.41||||0.24|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.24
92238268|NCT03078608|184380639|SUPERIORITY||F statistic|1.36||||0.25|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.25
92238269|NCT03078608|184380640|SUPERIORITY||F statistic|0.53||||0.47|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.47
92238270|NCT03078608|184380641|SUPERIORITY||F statistic|1.54||||0.23|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.23
92238271|NCT03078608|184380642|SUPERIORITY||F statistic|0.8||||0.39|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.39
92441661|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.11||||0.3596|TWO_SIDED|80.0|-2.87|5.09|||Mixed Models Analysis|||Change from baseline at Day 281||5.09|-2.87|0.3596
92171318|NCT02412748|184231798|SUPERIORITY|||||||0.73|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.730
92238272|NCT02760407|184380668|SUPERIORITY||Risk Difference (RD)|0.27|||<|0.0001|TWO_SIDED|97.5|0.183|0.352|||Chi-squared|2x2 chi-square test||The OKZ ACR20 response rate for the 64 mg q4w treatment group at Week 12 was expected to be at least 50% resulting in an expected difference in ACR20 response rates of 25 percentage points between the respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis||0.352|0.183|<0.0001
92238273|NCT02760407|184380668|SUPERIORITY||Risk Difference (RD)|0.258|||<|0.0001|TWO_SIDED|97.5|0.171|0.341|||Chi-squared|2x2 chi-square test||The OKZ ACR20 response rate for the 64 mg q2w treatment group at Week 12 was expected to be at least 55%, resulting in an expected difference in ACR20 response rate of 30 percentage points between the respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis||0.341|0.171|<0.0001
92238274|NCT02760407|184380669|SUPERIORITY||Risk Difference (RD)|0.224|||<|0.0001|TWO_SIDED|95.0|0.148|0.298|||Chi-squared|2x2 chi-square test||The ACR20 response rate for adalimumab was expected to be at least 52.5% at Week 12.||0.298|0.148|<0.0001
92238275|NCT02760407|184380669|NON_INFERIORITY|Non-Inferiority for each OKZ dosing regimen versus Adalimumab is achieved if the lower limit of the 97.5% confidence interval is greater than the protocol defined non-inferiority margin of -12%.|Risk Difference (RD)|0.045|||||TWO_SIDED|97.5|-0.022|0.112||||||A noninferiority margin of 12% was used for the comparison between OKZ and adalimumab with respect to this endpoint.||0.112|-0.022|
92238276|NCT02760407|184380669|NON_INFERIORITY|Non-Inferiority for each OKZ dosing regimen versus Adalimumab is achieved if the lower limit of the 97.5% confidence interval is greater than the protocol defined non-inferiority margin of -12%.|Risk Difference (RD)|0.034|||||TWO_SIDED|97.5|-0.035|0.102||||||A noninferiority margin of 12% was used for the comparison between OKZ and adalimumab with respect to this endpoint.||0.102|-0.035|
92238277|NCT02760407|184380670|SUPERIORITY||Risk Difference (RD)|0.332|||<|0.0001|TWO_SIDED|97.5|0.257|0.397|||Chi-squared|2x2 chi-square test||The DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 is estimated to be 10% in the placebo group and 22% in the 64 mg q4w OKZ group, resulting in an expected difference of 12 percentage points between respective OKZ group and placebo.||0.397|0.257|<0.0001
92238278|NCT02760407|184380670|SUPERIORITY||Risk Difference (RD)|0.325|||<|0.0001|TWO_SIDED|97.5|0.25|0.391|||Chi-squared|2x2 chi-square test||The DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 is estimated to be 10% in the placebo group and 30% in the 64 mg q2w OKZ group, resulting in an expected difference of 20 percentage points between respective OKZ group and placebo.||0.391|0.250|<0.0001
92238279|NCT02760407|184380671|SUPERIORITY||Risk Difference (RD)|0.256|||<|0.0001|TWO_SIDED|95.0|0.191|0.313|||Chi-squared|2x2 chi-square test||The DAS28 low disease activity response rate for adalimumab was expected to be at least 27% at Week 12.||0.313|0.191|<0.0001
92238280|NCT02760407|184380671|NON_INFERIORITY|Non-Inferiority for each OKZ dosing regimen versus Adalimumab is achieved if the lower limit of the 97.5% confidence interval is greater than the protocol defined noninferiority margin of -7.5%.|Risk Difference (RD)|0.076|||||TWO_SIDED|97.5|0.004|0.147||||||A noninferiority margin of 7.5% was used for the comparison between OKZ and adalimumab with respect to this endpoint.||0.147|0.004|
92238281|NCT02760407|184380671|NON_INFERIORITY|Non-Inferiority for each OKZ dosing regimen versus Adalimumab is achieved if the lower limit of the 97.5% confidence interval is greater than the protocol defined noninferiority margin of -7.5%.|Risk Difference (RD)|0.069|||||TWO_SIDED|97.5|-0.003|0.141||||||A noninferiority margin of 7.5% was used for the comparison between OKZ and adalimumab with respect to this endpoint.||0.141|-0.003|
92238282|NCT02760407|184380672|SUPERIORITY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.046|<|0.0001|TWO_SIDED|97.5|-0.29|-0.09|||ANCOVA|||||-0.09|-0.29|<0.0001
92238283|NCT02760407|184380672|SUPERIORITY||Least Squares Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.046|<|0.0001|TWO_SIDED|97.5|-0.33|-0.12|||ANCOVA|||||-0.12|-0.33|<0.0001
92280101|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.152||||0.2627|TWO_SIDED|95.0|-0.419|0.115||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.115|-0.419|0.2627
92171319|NCT02412748|184231799|SUPERIORITY|||||||0.927|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.927
92238284|NCT02760407|184380672|OTHER||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.046|||TWO_SIDED|95.0|-0.28|-0.1||||||||-0.10|-0.28|
92238285|NCT02760407|184380673|SUPERIORITY||Risk Difference (RD)|0.275|||<|0.0001|TWO_SIDED|97.5|0.192|0.349|||Chi-squared|2x2 chi-square test||||0.349|0.192|<0.0001
92238286|NCT02760407|184380673|SUPERIORITY||Risk Difference (RD)|0.278|||<|0.0001|TWO_SIDED|97.5|0.195|0.353|||Chi-squared|2x2 chi-square test||||0.353|0.195|<0.0001
92238287|NCT02760407|184380673|OTHER||Risk Difference (RD)|0.237|||||TWO_SIDED|95.0|0.165|0.303||||||||0.303|0.165|
92238288|NCT02760407|184380674|SUPERIORITY||Risk Difference (RD)|0.08||||0.0003|TWO_SIDED|97.5|0.031|0.123|||Chi-squared|2x2 chi-square test||||0.123|0.031|0.0003
92238289|NCT02760407|184380674|SUPERIORITY||Risk Difference (RD)|0.069||||0.001|TWO_SIDED|97.5|0.02|0.111|||Chi-squared|2x2 chi-square test||||0.111|0.020|0.001
92238290|NCT02760407|184380674|OTHER||Risk Difference (RD)|0.089|||||TWO_SIDED|95.0|0.046|0.127||||||||0.127|0.046|
92238291|NCT02522377|184380675|SUPERIORITY|Superiority test based upon group differences pooled across infusions|Mean Difference (Final Values)|1.22|STANDARD_ERROR_OF_MEAN|3.28||0.72|TWO_SIDED||||||Mixed Models Analysis|Model includes main effect for treatment group and infusion number categorically. Satterthwaite DF=9.987.|Midazolam - Ketamine Infusions|||||0.72
92238292|NCT02522377|184380676|SUPERIORITY|Superiority test based upon group differences pooled across infusions in mixed effect model|Mean Difference (Final Values)|1.98|STANDARD_ERROR_OF_MEAN|6.4||0.77|TWO_SIDED||||||Mixed Models Analysis|Model includes main effect for treatment group and infusion number categorically. Satterthwaite DF=7.836.|Midazolam - Ketamine Infusions|||||0.77
92441662|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.07||||0.5086|TWO_SIDED|80.0|-4.04|3.9|||Mixed Models Analysis|||Change from baseline at Day 309||3.90|-4.04|0.5086
92441663|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.33||||0.2211|TWO_SIDED|80.0|-1.57|6.23|||Mixed Models Analysis|||Change from baseline at Day 309||6.23|-1.57|0.2211
92441664|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.4||||0.2126|TWO_SIDED|80.0|-1.47|6.26|||Mixed Models Analysis|||Change from baseline at Day 309||6.26|-1.47|0.2126
92441665|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.56||||0.2053|TWO_SIDED|80.0|-1.44|6.55|||Mixed Models Analysis|||Change from baseline at Day 337||6.55|-1.44|0.2053
92441666|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.2||||0.2353|TWO_SIDED|80.0|-1.72|6.12|||Mixed Models Analysis|||Change from baseline at Day 337||6.12|-1.72|0.2353
92441667|NCT02515942|184769738|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.36||||0.5471|TWO_SIDED|80.0|-4.24|3.53|||Mixed Models Analysis|||Change from baseline at Day 337||3.53|-4.24|0.5471
92441668|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.74||||0.0913|TWO_SIDED|80.0|-5.38|-0.11|||Mixed Models Analysis|||Change from baseline at Day 2||-0.11|-5.38|0.0913
92441669|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.28||||0.4454|TWO_SIDED|80.0|-2.89|2.33|||Mixed Models Analysis|||Change from baseline at Day 2||2.33|-2.89|0.4454
92441670|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.46||||0.8861|TWO_SIDED|80.0|-0.16|5.08|||Mixed Models Analysis|||Change from baseline at Day 2||5.08|-0.16|0.8861
92441671|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.16||||0.713|TWO_SIDED|80.0|-1.49|3.8|||Mixed Models Analysis|||Change from baseline at Day 29||3.80|-1.49|0.7130
92441672|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.37||||0.8759|TWO_SIDED|80.0|-0.26|5.01|||Mixed Models Analysis|||Change from baseline at Day 29||5.01|-0.26|0.8759
92441673|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.22||||0.7256|TWO_SIDED|80.0|-1.39|3.82|||Mixed Models Analysis|||Change from baseline at Day 29||3.82|-1.39|0.7256
92441674|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.17||||0.3111|TWO_SIDED|80.0|-4.22|1.88|||Mixed Models Analysis|||Change from baseline at Day 57||1.88|-4.22|0.3111
92238293|NCT02522377|184380677|SUPERIORITY|Superiority test based upon group differences pooled across infusions|Mean Difference (Final Values)|0.98|STANDARD_ERROR_OF_MEAN|1.12||0.4|TWO_SIDED||||||Mixed Models Analysis|Model includes main effect for treatment group and infusion number categorically. Satterthwaite DF=9.987.|Midazolam - Ketamine Infusions|||||0.40
92441675|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.7||||0.236|TWO_SIDED|80.0|-4.73|1.34|||Mixed Models Analysis|||Change from baseline at Day 57||1.34|-4.73|0.2360
92238294|NCT02522377|184380678|SUPERIORITY|Superiority test based upon group differences pooled across infusions|Mean Difference (Final Values)|1.78|STANDARD_ERROR_OF_MEAN|0.54||0.009|TWO_SIDED||||||Mixed Models Analysis|Model includes main effect for treatment group and infusion number categorically. Satterthwaite DF=9.3634.|Midazolam - Ketamine Infusions|||||0.009
92238295|NCT02522377|184380679|SUPERIORITY|Superiority test based upon group differences pooled across infusions|Mean Difference (Final Values)|3.72|STANDARD_ERROR_OF_MEAN|3.71||0.34|TWO_SIDED||||||Mixed Models Analysis|Model includes main effect for treatment group and infusion number categorically. Satterthwaite DF=9.987.|Midazolam - Ketamine Infusions|||||0.34
92238296|NCT02522377|184380680|SUPERIORITY||Odds Ratio (OR)|0.36||||0.58|TWO_SIDED|95.0|0.01|7.2|||Fisher Exact||Odds Ratio of Midazolam (numerator) to Ketamine Infusions (denominator)|||7.20|0.01|0.58
92238297|NCT01765712|184380701|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.55|TWO_SIDED|95.0|-1.99|1.03|||t-test, 2 sided|||||1.03|-1.99|0.55
92238298|NCT03290300|184380728|OTHER||||||<|0.0001||||||The pre-specified threshold for statistical significance was p\<0.05.|ANOVA|Repeated measures ANOVA with multiple comparisons to baseline||||||<0.0001
92441676|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.53||||0.411|TWO_SIDED|80.0|-3.55|2.49|||Mixed Models Analysis|||Change from baseline at Day 57||2.49|-3.55|0.4110
92441677|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.13||||0.5247|TWO_SIDED|80.0|-2.57|2.83|||Mixed Models Analysis|||Change from baseline at Day 85||2.83|-2.57|0.5247
92441678|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.37||||0.0534|TWO_SIDED|80.0|-6.04|-0.7|||Mixed Models Analysis|||Change from baseline at Day 85||-0.70|-6.04|0.0534
92441679|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.5||||0.0475|TWO_SIDED|80.0|-6.18|-0.82|||Mixed Models Analysis|||Change from baseline at Day 85||-0.82|-6.18|0.0475
92441680|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.92||||0.0575|TWO_SIDED|80.0|-7.11|-0.74|||Mixed Models Analysis|||Change from baseline at Day 113||-0.74|-7.11|0.0575
92441681|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.16||||0.1876|TWO_SIDED|80.0|-5.29|0.97|||Mixed Models Analysis|||Change from baseline at Day 113||0.97|-5.29|0.1876
92441682|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.76||||0.7644|TWO_SIDED|80.0|-1.38|4.91|||Mixed Models Analysis|||Change from baseline at Day 113||4.91|-1.38|0.7644
92238299|NCT03320512|184380757|SUPERIORITY||Average Treatment Effect|0.15||||0.04965|TWO_SIDED|95.0|0.0|0.29|||TMLE estimation of ATE and Wald test|Targeted Maximum Likelihood Estimation (TMLE) Average Treatment Effect (ATE)||Month 3 The analysis includes the intent-to-treat population||0.29|0.00|0.04965
92238300|NCT03320512|184380757|SUPERIORITY||Average Treatment Effect|-0.04||||0.62|TWO_SIDED|95.0|-0.21|0.13|||TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population||0.13|-0.21|0.62
92238301|NCT03320512|184380758|SUPERIORITY||Average Treatment Effect|0.12||||0.11|TWO_SIDED|95.0|-0.03|0.26|||TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population||0.26|-0.03|0.11
92238302|NCT03320512|184380758|SUPERIORITY||Average Treatment Effect|0.06||||0.38|TWO_SIDED|95.0|-0.08|0.21|||TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population||0.21|-0.08|0.38
92441683|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.85||||0.0838|TWO_SIDED|80.0|-7.42|-0.28|||Mixed Models Analysis|||Change from baseline at Day 141||-0.28|-7.42|0.0838
92238303|NCT03320512|184380759|SUPERIORITY||Average Treatment Effect|0.04||||0.68|TWO_SIDED|95.0|-0.09|0.16||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.16|-0.09|0.68
92238304|NCT03320512|184380759|SUPERIORITY||Average Treatment Effect|0.11||||0.53|TWO_SIDED|95.0|-0.03|0.25||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.25|-0.03|0.53
92441684|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.38||||0.4444|TWO_SIDED|80.0|-3.89|3.13|||Mixed Models Analysis|||Change from baseline at Day 141||3.13|-3.89|0.4444
92171320|NCT02412748|184231800|SUPERIORITY|||||||0.841|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.841
92238305|NCT03320512|184380760|SUPERIORITY||Average Treatment Effect|0.06||||0.53|TWO_SIDED|95.0|-0.02|0.15||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.15|-0.02|0.53
92238306|NCT03320512|184380760|SUPERIORITY||Average Treatment Effect|0.0||||0.96|TWO_SIDED|95.0|-0.12|0.12||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.12|-0.12|0.96
92238307|NCT03320512|184380761|SUPERIORITY||Average Treatment Effect|0.08||||0.93|TWO_SIDED|95.0|-0.84|1.0||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||1.00|-0.84|0.93
92441685|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.47||||0.8977|TWO_SIDED|80.0|-0.04|6.97|||Mixed Models Analysis|||Change from baseline at Day 141||6.97|-0.04|0.8977
92238308|NCT03320512|184380761|SUPERIORITY||Average Treatment Effect|-1.12||||0.6|TWO_SIDED|95.0|-4.16|1.91||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||1.91|-4.16|0.60
92441686|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.05||||0.4917|TWO_SIDED|80.0|-2.92|2.82|||Mixed Models Analysis|||Change from baseline at Day 169||2.82|-2.92|0.4917
92441687|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.05||||0.4909|TWO_SIDED|80.0|-2.89|2.79|||Mixed Models Analysis|||Change from baseline at Day 169||2.79|-2.89|0.4909
92171321|NCT02412748|184231801|SUPERIORITY|||||||0.722|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.722
92238309|NCT03320512|184380762|SUPERIORITY||Average Treatment Effect|0.73||||0.6|TWO_SIDED|95.0|-1.03|2.48||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||2.48|-1.03|0.60
92238310|NCT03320512|184380762|SUPERIORITY||Average Treatment Effect|-0.91||||0.6|TWO_SIDED|95.0|-2.86|1.04||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||1.04|-2.86|0.60
92238311|NCT03320512|184380763|SUPERIORITY||Average Treatment Effect|-0.06||||0.6|TWO_SIDED|95.0|-0.2|0.08||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 Gonorrhea The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.08|-0.20|0.60
92238312|NCT03320512|184380763|SUPERIORITY||Average Treatment Effect|-0.06||||0.6|TWO_SIDED|95.0|-0.21|0.09||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 Gonorrhea The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.09|-0.21|0.60
92238313|NCT03320512|184380763|SUPERIORITY||Average Treatment Effect|-0.13||||0.53|TWO_SIDED|95.0|-0.3|0.03||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 Chlamydia The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.03|-0.30|0.53
92238314|NCT03320512|184380763|SUPERIORITY||Average Treatment Effect|-0.08||||0.6|TWO_SIDED|95.0|-0.24|0.08||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 Chlamydia The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.08|-0.24|0.60
92280102|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.311||||0.0241|TWO_SIDED|95.0|-0.581|-0.041||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.041|-0.581|0.0241
92280103|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.093||||0.4881|TWO_SIDED|95.0|-0.355|0.17||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.170|-0.355|0.4881
92441688|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.0||||0.4992|TWO_SIDED|80.0|-2.82|2.81|||Mixed Models Analysis|||Change from baseline at Day 169||2.81|-2.82|0.4992
92441689|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.09||||0.3285|TWO_SIDED|80.0|-4.25|2.07|||Mixed Models Analysis|||Change from baseline at Day 197||2.07|-4.25|0.3285
92238315|NCT03320512|184380763|SUPERIORITY||Average Treatment Effect|-0.11||||0.53|TWO_SIDED|95.0|-0.25|0.04||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 Syphillis The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.04|-0.25|0.53
92441690|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.45||||0.1568|TWO_SIDED|80.0|-5.57|0.67|||Mixed Models Analysis|||Change from baseline at Day 197||0.67|-5.57|0.1568
92280104|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.164||||0.2205|TWO_SIDED|95.0|-0.427|0.099||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.099|-0.427|0.2205
92280105|NCT02637557|184463085|SUPERIORITY||LS Mean Difference|-0.433||||0.0015|TWO_SIDED|95.0|-0.699|-0.168||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.168|-0.699|0.0015
92441691|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.36||||0.2867|TWO_SIDED|80.0|-4.46|1.74|||Mixed Models Analysis|||Change from baseline at Day 197||1.74|-4.46|0.2867
92441692|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.93||||0.0798|TWO_SIDED|80.0|-7.51|-0.35|||Mixed Models Analysis|||Change from baseline at Day 225||-0.35|-7.51|0.0798
92441693|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.47||||0.2962|TWO_SIDED|80.0|-5.0|2.06|||Mixed Models Analysis|||Change from baseline at Day 225||2.06|-5.00|0.2962
92441694|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.46||||0.8163|TWO_SIDED|80.0|-1.05|5.98|||Mixed Models Analysis|||Change from baseline at Day 225||5.98|-1.05|0.8163
92441695|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.64||||0.0708|TWO_SIDED|80.0|-6.81|-0.47|||Mixed Models Analysis|||Change from baseline at Day 253||-0.47|-6.81|0.0708
92441696|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.46||||0.575|TWO_SIDED|80.0|-2.67|3.59|||Mixed Models Analysis|||Change from baseline at Day 253||3.59|-2.67|0.5750
92441697|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|4.1||||0.956|TWO_SIDED|80.0|1.03|7.17|||Mixed Models Analysis|||Change from baseline at Day 253||7.17|1.03|0.9560
92441698|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.22||||0.1283|TWO_SIDED|80.0|-6.86|0.42|||Mixed Models Analysis|||Change from baseline at Day 281||0.42|-6.86|0.1283
92238316|NCT03320512|184380763|SUPERIORITY||Average Treatment Effect|-0.07||||0.6|TWO_SIDED|95.0|-0.2|0.07||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 Syphillis The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.07|-0.20|0.60
92280106|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|0.043||||0.6653|TWO_SIDED|95.0|-0.152|0.238||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.238|-0.152|0.6653
92280107|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|0.15||||0.1327|TWO_SIDED|95.0|-0.046|0.345||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.345|-0.046|0.1327
92280108|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|0.043||||0.6697|TWO_SIDED|95.0|-0.155|0.241||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.241|-0.155|0.6697
92238317|NCT03320512|184380764|SUPERIORITY||Average Treatment Effect|0.11|||||TWO_SIDED|95.0|-0.07|0.29|||||TMLE estimation of ATE and Wald Confidence Interval|Month 3 The analysis includes the intent-to-treat population and compares P3 vs. Control.||0.29|-0.07|
92238318|NCT03320512|184380764|SUPERIORITY||Average Treatment Effect|0.19|||||TWO_SIDED|95.0|0.03|0.34|||||TMLE estimation of ATE and Wald Confidence Interval|Month 3 The analysis includes the intent-to-treat population and compares P3+ vs. Control.||0.34|0.03|
92238319|NCT03320512|184380764|SUPERIORITY||Average Treatment Effect|-0.06|||||TWO_SIDED|95.0|-0.27|0.15|||||TMLE estimation of ATE and Wald Confidence Interval|Month 6 The analysis includes the intent-to-treat population and compares P3 vs. Control.||0.15|-0.27|
92238320|NCT03320512|184380764|SUPERIORITY||Average Treatment Effect|-0.02|||||TWO_SIDED|95.0|-0.21|0.16|||||TMLE estimation of ATE and Wald Confidence Interval|Month 6 The analysis includes the intent-to-treat population and compares P3+ vs. Control.||0.16|-0.21|
92238321|NCT03320512|184380765|SUPERIORITY||Average Treatment Effect|0.11|||||TWO_SIDED|95.0|-0.05|0.26|||||TMLE estimation of ATE and Wald Confidence Interval|Month 3 The analysis includes the intent-to-treat population and compares P3 vs. Control.||0.26|-0.05|
92280109|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|0.021||||0.8598|TWO_SIDED|95.0|-0.21|0.251||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.251|-0.210|0.8598
92441699|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.28||||0.2085|TWO_SIDED|80.0|-5.88|1.33|||Mixed Models Analysis|||Change from baseline at Day 281||1.33|-5.88|0.2085
92441700|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.94||||0.6335|TWO_SIDED|80.0|-2.61|4.49|||Mixed Models Analysis|||Change from baseline at Day 281||4.49|-2.61|0.6335
92441701|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.64||||0.1778|TWO_SIDED|80.0|-6.31|1.03|||Mixed Models Analysis|||Change from baseline at Day 309||1.03|-6.31|0.1778
92441702|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.7||||0.4027|TWO_SIDED|80.0|-4.33|2.94|||Mixed Models Analysis|||Change from baseline at Day 309||2.94|-4.33|0.4027
92441703|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.94||||0.757|TWO_SIDED|80.0|-1.64|5.53|||Mixed Models Analysis|||Change from baseline at Day 309||5.53|-1.64|0.7570
92441704|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.9||||0.1132|TWO_SIDED|80.0|-8.03|0.23|||Mixed Models Analysis|||Change from baseline at Day 337||0.23|-8.03|0.1132
92238322|NCT03320512|184380765|SUPERIORITY||Average Treatment Effect|0.13|||||TWO_SIDED|95.0|-0.04|0.29|||||TMLE estimation of ATE and Wald Confidence Interval|Month 3 The analysis includes the intent-to-treat population and compares P3+ vs. Control.||0.29|-0.04|
92238323|NCT03320512|184380765|SUPERIORITY||Average Treatment Effect|0.09|||||TWO_SIDED|95.0|-0.08|0.26|||||TMLE estimation of ATE and Wald Confidence Interval|Month 6 The analysis includes the intent-to-treat population and compares P3 vs. Control.||0.26|-0.08|
92280110|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|0.113||||0.3354|TWO_SIDED|95.0|-0.118|0.344||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.344|-0.118|0.3354
92280111|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|0.055||||0.6429|TWO_SIDED|95.0|-0.179|0.289||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.289|-0.179|0.6429
92238324|NCT03320512|184380765|SUPERIORITY||Average Treatment Effect|0.03|||||TWO_SIDED|95.0|-0.13|0.19|||||TMLE estimation of ATE and Wald Confidence Interval|Month 6 The analysis includes the intent-to-treat population and compares P3+ vs. Control.||0.19|-0.13|
92238325|NCT03320512|184380766|SUPERIORITY||Average Treatment Effect|0.09||||0.11|TWO_SIDED|95.0|-0.02|0.19|||TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.19|-0.02|0.11
92238326|NCT03320512|184380766|SUPERIORITY||Average Treatment Effect|-0.01||||0.82|TWO_SIDED|95.0|-0.14|0.11|||TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.11|-0.14|0.82
92238327|NCT03320512|184380767|SUPERIORITY||Average Treatment Effect|8.95||||0.05|TWO_SIDED|95.0|0.07|17.83||The a priori threshold for statistical significance is 0.025.|TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||17.83|0.07|0.05
92238328|NCT03320512|184380767|SUPERIORITY||Average Treatment Effect|-3.69||||0.45|TWO_SIDED|95.0|-13.33|5.95|||TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||5.95|-13.33|0.45
92238329|NCT03320512|184380768|SUPERIORITY||Incremental cost effectiveness ratio|25.79|||||TWO_SIDED|95.0|-194.05|236.81|||||The confidence interval was created using percentile bootstrap.|Participants were included if they were at an active site with cost data and had a 3-month binary TFV measure.||236.81|-194.05|
92441705|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.71||||0.1965|TWO_SIDED|80.0|-6.8|1.37|||Mixed Models Analysis|||Change from baseline at Day 337||1.37|-6.80|0.1965
92238330|NCT01520922|184380822|SUPERIORITY_OR_OTHER||Percentage of participants|95.0|||||TWO_SIDED|95.0|84.53|99.44|||||The estimated value represents the percentage of participants with OR (CR+CRi+nPR+PR) while receiving ofatumumab + bendamustine 90 mg/m\^2.|||99.44|84.53|
92441706|NCT02515942|184769739|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.18||||0.6471|TWO_SIDED|80.0|-2.85|5.21|||Mixed Models Analysis|||Change from baseline at Day 337||5.21|-2.85|0.6471
92441707|NCT03616912|184769748|SUPERIORITY||Odds Ratio (OR)|1.57||||0.016|TWO_SIDED|95.0|1.09|2.27|||Regression, Logistic|||||2.27|1.09|0.016
92171322|NCT02412748|184231802|SUPERIORITY|||||||0.715|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.715
92441708|NCT03616912|184769749|SUPERIORITY||Odds Ratio (OR)|1.14||||0.47|TWO_SIDED|95.0|0.79|1.65|||Regression, Logistic|||||1.65|0.79|0.470
92441709|NCT03616912|184769750|SUPERIORITY||Odds Ratio (OR)|0.96||||0.839|TWO_SIDED|95.0|0.63|1.45|||Regression, Logistic|||||1.45|0.63|0.839
92441710|NCT03616912|184769750|SUPERIORITY||Odds Ratio (OR)|1.19||||0.391|TWO_SIDED|95.0|0.8|1.79|||Regression, Logistic|||||1.79|0.80|0.391
92441711|NCT03616912|184769752|SUPERIORITY||Odds Ratio (OR)|0.94||||0.82|TWO_SIDED|95.0|0.53|1.66|||Regression, Logistic|||||1.66|0.53|0.820
92441712|NCT03616912|184769752|SUPERIORITY||Odds Ratio (OR)|1.18||||0.565|TWO_SIDED|95.0|0.67|2.08|||Regression, Logistic|||||2.08|0.67|0.565
92441713|NCT03616912|184769753|SUPERIORITY||LS Mean Difference Final Values|-0.11|STANDARD_ERROR_OF_MEAN|0.21||0.598|TWO_SIDED|95.0|-0.52|0.3|||Mixed Models Analysis|||||0.30|-0.52|0.598
92171323|NCT02412748|184231803|SUPERIORITY|||||||0.9|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.900
92238331|NCT01520922|184380822|SUPERIORITY_OR_OTHER||Percentage of participants|74.0|||||TWO_SIDED|95.0|59.67|84.74|||||The estimated value represents the percentage of participants with OR (CR+CRi+nPR+PR) while receiving ofatumumab + bendamustine 70 mg/m\^2.|||84.74|59.67|
92238332|NCT01422304|184380854|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.38|1.29|||Cochran-Mantel-Haenszel||Relative risk is Sugammadex versus Usual Care|Cochran-Mantel-Haenszel method was stratified for renal function (estimated creatinine clearance \< or ≥ 60 mL/min) and prophylactic antithrombotic therapy (including low molecular weight heparin \[LMWH\], including unfractionated heparin \[UFH\], or not including either LMWH or UFH)||1.29|0.38|
92441714|NCT03616912|184769753|SUPERIORITY||LS Mean Difference Final Values|-0.09|STANDARD_ERROR_OF_MEAN|0.21||0.674|TWO_SIDED|95.0|-0.5|0.32|||Mixed Models Analysis|||||0.32|-0.50|0.674
92441715|NCT03616912|184769754|SUPERIORITY||LS Mean Difference Final Values|0.02|STANDARD_ERROR_OF_MEAN|0.85||0.979|TWO_SIDED|95.0|-1.65|1.7|||Mixed Models Analysis|||||1.70|-1.65|0.979
92441716|NCT03616912|184769754|SUPERIORITY||LS Mean Difference Final Values|-0.36|STANDARD_ERROR_OF_MEAN|0.86||0.678|TWO_SIDED|95.0|-2.03|1.32|||Mixed Models Analysis|||||1.32|-2.03|0.678
92441717|NCT03616912|184769755|SUPERIORITY||Odds Ratio (OR)|1.02||||0.965|TWO_SIDED|95.0|0.43|2.42|||Regression, Logistic|||||2.42|0.43|0.965
92441718|NCT03616912|184769755|SUPERIORITY||Odds Ratio (OR)|1.22||||0.661|TWO_SIDED|95.0|0.51|2.92|||Regression, Logistic|||||2.92|0.51|0.661
92441719|NCT03616912|184769756|SUPERIORITY||LS Mean Difference Final Values|0.24|STANDARD_ERROR_OF_MEAN|0.43||0.578|TWO_SIDED|95.0|-0.61|1.08|||Mixed Models Analysis|||||1.08|-0.61|0.578
92441720|NCT03616912|184769756|SUPERIORITY||LS Mean Difference Final Values|-0.44|STANDARD_ERROR_OF_MEAN|0.433||0.309|TWO_SIDED|95.0|-1.29|0.41|||Mixed Models Analysis|||||0.41|-1.29|0.309
92441721|NCT03616912|184769757|SUPERIORITY||LS Mean Difference Final Values|-0.29|STANDARD_ERROR_OF_MEAN|0.277||0.287|TWO_SIDED|95.0|-0.84|0.25|||Mixed Models Analysis|||||0.25|-0.84|0.287
92441722|NCT03616912|184769757|SUPERIORITY||LS Mean Difference Final Values|-0.44|STANDARD_ERROR_OF_MEAN|0.278||0.113|TWO_SIDED|95.0|-0.99|0.11|||Mixed Models Analysis|||||0.11|-0.99|0.113
92238333|NCT01422304|184380855|SUPERIORITY_OR_OTHER_LEGACY||Geometric Mean Ratio (GMR) (%)|5.5|||||TWO_SIDED|95.0|3.7|7.3|||Constrained Longitudinal Data Analysis|Model included those in APaT population with any baseline or post baseline aPTT value in 10 or 60 minute window (Sugammadex, Usual Care N=567, 548)|Estimate of difference in Sugammadex versus Usual Care change from baseline at 10 minutes post dose calculated with log of aPTT values as dependent variable. Results transformed back to GMR of respective changes (expressed as %, = \[GMR - 1\]\*100).|Model was restricted to have no difference between treatment groups for baseline assessment, and was adjusted for center, usual care group (active reversal or spontaneous recovery), renal function (estimated creatinine clearance \< or ≥ 60 mL/min), prophylactic antithrombotic therapy (including LMWH, including UFH, or not including either LMWH or UFH), type of hip/knee surgical procedure, and the interaction of time by treatment.||7.3|3.7|
92238334|NCT01422304|184380855|SUPERIORITY_OR_OTHER_LEGACY||GMR (%)|0.9||||||95.0|-0.9|2.8|||Constrained Longitudinal Data Analysis|Model included those in APaT population with any baseline or post baseline aPTT value in 10 or 60 minute window (Sugammadex, Usual Care N=567, 548)|Estimate of difference in Sugammadex versus Usual Care change from baseline at 60 minutes post dose calculated with log of aPTT values as dependent variable. Results transformed back to GMR of respective changes (expressed as %, = \[GMR - 1\]\*100).|Model was restricted to have no difference between treatment groups for baseline assessment, and was adjusted for center, usual care group (active reversal or spontaneous recovery), renal function (estimated creatinine clearance \< or ≥ 60 mL/min), prophylactic antithrombotic therapy (including LMWH, including UFH, or not including either LMWH or UFH), type of hip/knee surgical procedure, and the interaction of time by treatment.||2.8|-0.9|
92238335|NCT01422304|184380856|SUPERIORITY_OR_OTHER_LEGACY||GMR (%)|3.0|||||TWO_SIDED|95.0|1.3|4.7|||Constrained Longitudinal Data Analysis|Model included those in APaT population with any baseline or post baseline PT(INR) value in 10 or 60 minute window (Sugammadex, Usual Care N=567, 548)|Estimate of difference in Sugammadex versus Usual Care change from baseline at 10 minutes post dose calculated with log of PT(INR) values as dependent variable. Results transformed back to GMR of respective changes (expressed as %, = \[GMR - 1\]\*100).|Model was restricted to have no difference between treatment groups for baseline assessment, and was adjusted for center, usual care group (active reversal or spontaneous recovery), renal function (estimated creatinine clearance \< or ≥ 60 mL/min), prophylactic antithrombotic therapy (including LMWH, including UFH, or not including either LMWH or UFH), type of hip/knee surgical procedure, and the interaction of time by treatment.||4.7|1.3|
92238336|NCT01422304|184380856|SUPERIORITY_OR_OTHER_LEGACY||GMR (%)|0.9|||||TWO_SIDED|95.0|-1.0|2.9|||Constrained Longitudinal Data Analysis|Model included those in APaT population with any baseline or post baseline PT(INR) value in 10 or 60 minute window (Sugammadex, Usual Care N=567, 548)|Estimate of difference in Sugammadex versus Usual Care change from baseline at 60 minutes post dose calculated with log of PT(INR) values as dependent variable. Results transformed back to GMR of respective changes (expressed as %, = \[GMR - 1\]\*100).|Model was restricted to have no difference between treatment groups for baseline assessment, and was adjusted for center, usual care group (active reversal or spontaneous recovery), renal function (estimated creatinine clearance \< or ≥ 60 mL/min), prophylactic antithrombotic therapy (including LMWH, including UFH, or not including either LMWH or UFH), type of hip/knee surgical procedure, and the interaction of time by treatment.||2.9|-1.0|
92280112|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.101||||0.401|TWO_SIDED|95.0|-0.336|0.135||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.135|-0.336|0.4010
92280113|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.129||||0.2821|TWO_SIDED|95.0|-0.364|0.106||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.106|-0.364|0.2821
92441723|NCT01124604|184769761|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.46||||95.0|-1.04|0.8|||||Test for no difference between treatments was derived from Analysis of covariance (ANCOVA) model with factors treatment, disease and Baseline pain intensity as covariate.|||0.80|-1.04|
92441724|NCT01762943|184769780|SUPERIORITY|||||||0.27|||||||repeated measures ANOVA|F=1.40, df=2,26||||||.27
92441725|NCT01762943|184769781|SUPERIORITY|||||||0.018|||||||repeated measures ANOVA|F=6.29, df=1,28||||||.018
92441726|NCT03090100|184769811|NON_INFERIORITY|Non-inferiority margin of 10%|Difference in percentage|14.2|||<|0.001|TWO_SIDED|95.0|9.2|19.2|||z-test|||||19.2|9.2|<0.001
92441727|NCT03090100|184769811|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92441728|NCT03090100|184769812|NON_INFERIORITY|Non-inferiority margin of 10%|Difference in percentage|4.3|||<|0.001|TWO_SIDED|95.0|-0.2|8.9|||z-test|||||8.9|-0.2|<0.001
92441729|NCT03090100|184769812|SUPERIORITY|||||||0.062|||||||Cochran-Mantel-Haenszel|||||||0.062
92441730|NCT03090100|184769813|OTHER||Difference in percentage|-7.0|||||TWO_SIDED|95.0|-12.2|-1.7||||||||-1.7|-12.2|
92441731|NCT03090100|184769814|OTHER||Difference in percentage|-2.3|||||TWO_SIDED|95.0|-6.0|1.2||||||||1.2|-6.0|
92441732|NCT03090100|184769815|OTHER||Difference in percentage|9.7|||||TWO_SIDED|95.0|3.8|15.5||||||||15.5|3.8|
92441733|NCT03090100|184769816|OTHER||Difference in percentage|11.6|||||TWO_SIDED|95.0|5.8|17.4||||||||17.4|5.8|
92441734|NCT03090100|184769817|OTHER||Difference in percentage|9.7|||||TWO_SIDED|95.0|4.9|14.5||||||||14.5|4.9|
92441735|NCT03090100|184769818|OTHER||Difference in percentage|7.8|||||TWO_SIDED|95.0|2.3|13.2||||||||13.2|2.3|
92441736|NCT03090100|184769819|OTHER||Difference in percentage|-0.3|||||TWO_SIDED|95.0|-3.5|3.1||||||||3.1|-3.5|
92441737|NCT03090100|184769820|OTHER||Difference in percentage|-1.4|||||TWO_SIDED|95.0|-6.2|3.4||||||||3.4|-6.2|
92441738|NCT03090100|184769821|OTHER||Difference in percentage|9.8|||||TWO_SIDED|95.0|4.2|15.3||||||||15.3|4.2|
92441739|NCT03090100|184769822|OTHER||Difference in percentage|-0.1|||||TWO_SIDED|95.0|-4.2|3.9||||||||3.9|-4.2|
92441740|NCT03090100|184769823|OTHER||Difference in percentage|-0.9|||||TWO_SIDED|95.0|-5.0|3.3||||||||3.3|-5.0|
92171324|NCT02412748|184231804|SUPERIORITY|||||||0.271|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.271
92441741|NCT00456521|184769841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.21|||<|0.001||95.0|-5.56|-2.86|||ANCOVA|||||-2.86|-5.56|<0.001
92441742|NCT00456521|184769842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.89|||<|0.001||95.0|2.02|4.13|||Regression, Logistic|||||4.13|2.02|<0.001
92441743|NCT00456521|184769843|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92|||<|0.001|TWO_SIDED|95.0|1.95|4.37|||Regression, Logistic|||||4.37|1.95|<0.001
92441744|NCT00456521|184769844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.21|||<|0.001|TWO_SIDED|95.0|-4.82|-1.6|||ANCOVA|||||-1.60|-4.82|<0.001
92441745|NCT00456521|184769845|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.11||||0.004|TWO_SIDED||||||ANCOVA|||||||0.004
92441746|NCT00456521|184769846|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.53||||0.003|TWO_SIDED||||||ANCOVA|||||||0.003
92441747|NCT00456521|184769847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.23|||<|0.001|TWO_SIDED|95.0|1.52|4.95|||ANCOVA|||||4.95|1.52|<0.001
92441748|NCT00456521|184769848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.14||||0.001|TWO_SIDED|95.0|1.23|5.04|||ANCOVA|||||5.04|1.23|0.001
92441749|NCT00456521|184769849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.37||||0.003|TWO_SIDED||||||ANCOVA|||||||0.003
92441750|NCT00456521|184769850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.98||||0.165|TWO_SIDED||||||ANCOVA|||||||0.165
92441751|NCT00456521|184769851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.28|||||TWO_SIDED|95.0|-3.34|0.79||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.79|-3.34|
92441752|NCT00456521|184769852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|||||TWO_SIDED|95.0|-7.26|1.86||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.86|-7.26|
92238337|NCT01422304|184380857|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|-0.6|||||TWO_SIDED|95.0|-3.0|1.8|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence|||1.8|-3.0|
92441753|NCT00456521|184769853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.55|||||TWO_SIDED|95.0|0.97|4.14||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||4.14|0.97|
92441754|NCT00456521|184769854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.37|||||TWO_SIDED|95.0|0.25|2.49||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||2.49|0.25|
92441755|NCT00456521|184769855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09|||||TWO_SIDED|95.0|-0.7|0.87||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.87|-0.70|
92441756|NCT00456521|184769856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.85|0.63||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.63|-0.85|
92441757|NCT00456521|184769857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09|||||TWO_SIDED|95.0|-0.78|0.6||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.60|-0.78|
92441758|NCT00456521|184769858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.29|||||TWO_SIDED|95.0|-9.16|-1.42||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-1.42|-9.16|
92446799|NCT00280566|184780544|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.16||0.276|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.2760
92446800|NCT00280566|184780544|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.19||0.0085|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0085
92171325|NCT02412748|184231805|SUPERIORITY|||||||0.987|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.987
92238338|NCT01422304|184380858|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|-1.4|||||TWO_SIDED|95.0|-3.4|0.5|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence|||0.5|-3.4|
92171326|NCT02412748|184231806|SUPERIORITY|||||||0.967|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.967
92238339|NCT01422304|184380859|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|-0.9|||||TWO_SIDED|95.0|-3.1|1.2|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence|||1.2|-3.1|
92238340|NCT01422304|184380860|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|0.3|||||TWO_SIDED|95.0|-0.7|1.5|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence|||1.5|-0.7|
92240035|NCT00570739|184383803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.12||||0.0037|TWO_SIDED|95.0|4.63|23.61||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Calculated Triglycerides||23.61|4.63|0.0037
92240036|NCT00570739|184383803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.79||||0.006|TWO_SIDED|95.0|6.59|39.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Calculated Very Low Density Lipoprotein Triglycerides||39.00|6.59|0.0060
92240037|NCT00570739|184383803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.72||||0.0013|TWO_SIDED|95.0|9.71|39.73||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Calculated Very Low Density Lipoprotein Triglycerides||39.73|9.71|0.0013
92238341|NCT01422304|184380862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|||||TWO_SIDED|95.0|-45.0|30.5|||Generalized Linear Model||Difference is Sugammadex versus Usual Care. A negative value indicates that the average adjusted drainage volume was lower in the sugammadex treatment group.|Generalized Linear Model was adjusted for strata (renal function and use of prophylactic antithrombotic therapy) and investigational site.||30.5|-45.0|
92238342|NCT01422304|184380863|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|-2.7|||||TWO_SIDED|95.0|-7.4|2.0|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence, adjusted for strata and investigational site|Miettinen and Nurminen Method was adjusted for strata (renal function and use of prophylactic antithrombotic therapy) and investigational site||2.0|-7.4|
92280114|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.149||||0.2189|TWO_SIDED|95.0|-0.388|0.089||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.089|-0.388|0.2189
92280115|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.093||||0.4717|TWO_SIDED|95.0|-0.346|0.161||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.161|-0.346|0.4717
92441759|NCT02596854|184769859|NON_INFERIORITY|α=0.025 with a margin of Δ=0.5 were used for non-inferiority testing|Median Difference (Net)|-0.428|STANDARD_ERROR_OF_MEAN|0.3522|<|0.001|TWO_SIDED|95.0|-0.428|-0.269||No adjustments were made for multiple comparisons.|Wilcoxon (Mann-Whitney)||Notably, no separate comparative statistical analysis was performed for the 1.5T and 3.0T subgroups, which were pooled for analysis. All patients underwent both synthetic MR and commercial conventional MR in a single arm.|Non-inferiority of synthetic MR versus conventional commercial MR the hypothesis can be stated as H0: S ≤ -Δ and HA: S \> -Δ.|To mitigate possible bias, the hypothesis test was executed via pre-programmed SAS module, which does not show the data for individual synthetic and conventional group values. The data for these individual groups is thus not currently available as part of the study report held by the sponsor or submitted to FDA. Thus, this data cannot be presented without additional analysis (re-programming) of the original SAS used to perform the study. Data were only reported as the difference between synthetic - conventional to determine non-inferiority, and data for individual crossovers (synthetic vs. conventional) were not calculated.The raw conventional scan images and those post-processed with the research software were combined as pre-specified in the study protocol|-0.269|-0.428|<0.001
92441760|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.14|STANDARD_ERROR_OF_MEAN|0.037||0.1351|TWO_SIDED|95.0|0.96|1.35|||ANOVA|||CREM; Placebo vs GSK256066 1 mcg||1.35|0.96|0.1351
92441761|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.19|STANDARD_ERROR_OF_MEAN|0.037||0.0383|TWO_SIDED|95.0|1.01|1.41|||ANOVA|||CREM; Placebo vs GSK256066 10 mcg||1.41|1.01|0.0383
92441762|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.2|STANDARD_ERROR_OF_MEAN|0.037||0.0325|TWO_SIDED|95.0|1.02|1.43|||ANOVA|||CREM; Placebo vs GSK256066 50 mcg||1.43|1.02|0.0325
92441763|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.42|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|1.2|1.68|||ANOVA|||CREM; Placebo vs GSK256066 200 mcg||1.68|1.20|<0.0001
92441764|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.45|STANDARD_ERROR_OF_MEAN|0.049||0.0015|TWO_SIDED|95.0|1.16|1.82|||ANOVA|||DUSP1; Placebo vs GSK256066 1 mcg||1.82|1.16|0.0015
92441765|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.55|STANDARD_ERROR_OF_MEAN|0.049||0.0002|TWO_SIDED|95.0|1.24|1.93|||ANOVA|||DUSP1; Placebo vs GSK256066 10 mcg||1.93|1.24|0.0002
92441766|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.74|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|1.38|2.17|||ANOVA|||DUSP1; Placebo vs GSK256066 50 mcg||2.17|1.38|<0.0001
92441767|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.75|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|1.4|2.18|||ANOVA|||DUSP1; Placebo vs GSK256066 200 mcg||2.18|1.40|<0.0001
92441768|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.49|STANDARD_ERROR_OF_MEAN|0.043||0.0001|TWO_SIDED|95.0|1.22|1.81|||ANOVA|||FOSL2; Placebo vs GSK256066 1 mcg||1.81|1.22|0.0001
92171327|NCT02412748|184231807|SUPERIORITY|||||||0.693|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.693
92238343|NCT01422304|184380864|SUPERIORITY_OR_OTHER_LEGACY||GMR|1.1|||||TWO_SIDED|95.0|0.98|1.24|||Generalized Linear Model||GMR is Sugammadex versus Usual Care|Generalized Linear Model was applied to transfusion volume transformed to the log-scale, adjusted for strata (renal function and use of prophylactic antithrombotic therapy) and investigational site. Result and 95% Confidence Interval was transformed back to the original scale.||1.24|0.98|
92238344|NCT01422304|184380865|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-0.4|3.1|||Generalized Linear Model||Difference is Sugammadex versus Usual Care. A positive value indicates that the average adjusted reduction in Hgb at Visit 3 (bleeding index) was lower in the sugammadex treatment group.|Generalized Linear Model was adjusted for strata (renal function and use of prophylactic antithrombotic therapy), investigational site and baseline hemoglobin value.||3.1|-0.4|
92238345|NCT01422304|184380866|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|-1.6|||||TWO_SIDED|95.0|-6.3|3.1|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence|||3.1|-6.3|
92441769|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.52|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|1.25|1.85|||ANOVA|||FOSL2; Placebo vs GSK256066 10 mcg||1.85|1.25|<0.0001
92441770|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.68|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|1.38|2.05|||ANOVA|||FOSL2; Placebo vs GSK256066 50 mcg||2.05|1.38|<0.0001
92441771|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.55|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|1.28|1.89|||ANOVA|||FOSL2; Placebo vs GSK256066 200 mcg||1.89|1.28|<0.0001
92441772|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.55|STANDARD_ERROR_OF_MEAN|0.064||0.0034|TWO_SIDED|95.0|1.16|2.07|||ANOVA|||IRS2; Placebo vs GSK256066 1 mcg||2.07|1.16|0.0034
92441773|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.55|STANDARD_ERROR_OF_MEAN|0.063||0.0029|TWO_SIDED|95.0|1.17|2.07|||ANOVA|||IRS2; Placebo vs GSK256066 10 mcg||2.07|1.17|0.0029
92441774|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.74|STANDARD_ERROR_OF_MEAN|0.064||0.0003|TWO_SIDED|95.0|1.3|2.33|||ANOVA|||IRS2; Placebo vs GSK256066 50 mcg||2.33|1.30|0.0003
92441775|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.56|STANDARD_ERROR_OF_MEAN|0.063||0.0027|TWO_SIDED|95.0|1.17|2.08|||ANOVA|||IRS2; Placebo vs GSK256066 200 mcg||2.08|1.17|0.0027
92441776|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.54|STANDARD_ERROR_OF_MEAN|0.092||0.0448|TWO_SIDED|95.0|1.01|2.34|||ANOVA|||NR4A2; Placebo vs GSK256066 1 mcg||2.34|1.01|0.0448
92240038|NCT00570739|184383803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.35||||0.0005|TWO_SIDED|95.0|3.71|13.0|||ANCOVA|||Calculated High Density Lipoprotein-Cholesterol||13.00|3.71|0.0005
92240039|NCT00570739|184383803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.69||||0.0001|TWO_SIDED|95.0|4.27|13.11||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Calculated High Density Lipoprotein-Cholesterol||13.11|4.27|0.0001
92240040|NCT00570739|184383804|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.8804|TWO_SIDED|95.0|0.63|2.34||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||2.34|0.63|0.8804
92441777|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.87|STANDARD_ERROR_OF_MEAN|0.091||0.0033|TWO_SIDED|95.0|1.24|2.83|||ANOVA|||NR4A2; Placebo vs GSK256066 10 mcg||2.83|1.24|0.0033
92441778|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|2.16|STANDARD_ERROR_OF_MEAN|0.092||0.0004|TWO_SIDED|95.0|1.42|3.3|||ANOVA|||NR4A2; Placebo vs GSK256066 50 mcg||3.30|1.42|0.0004
92441779|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|2.03|STANDARD_ERROR_OF_MEAN|0.091||0.001||95.0|1.34|3.08|||ANOVA|||NR4A2; Placebo vs GSK256066 200 mcg||3.08|1.34|0.0010
92441780|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.03|STANDARD_ERROR_OF_MEAN|0.072||0.8718|TWO_SIDED|95.0|0.74|1.43|||ANOVA|||PDE4A; Placebo vs GSK256066 1 mcg||1.43|0.74|0.8718
92441781|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.18|STANDARD_ERROR_OF_MEAN|0.071||0.3078|TWO_SIDED|95.0|0.86|1.63|||ANOVA|||PDE4A; Placebo vs GSK256066 10 mcg||1.63|0.86|0.3078
92441782|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.19|STANDARD_ERROR_OF_MEAN|0.072||0.2909|TWO_SIDED|95.0|0.86|1.66|||ANOVA|||PDE4A; Placebo vs GSK256066 50 mcg||1.66|0.86|0.2909
92441783|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.38|STANDARD_ERROR_OF_MEAN|0.071||0.0539|TWO_SIDED|95.0|0.99|1.91|||ANOVA|||PDE4A; Placebo vs GSK256066 200 mcg||1.91|0.99|0.0539
92441784|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.06|STANDARD_ERROR_OF_MEAN|0.081||0.7393|TWO_SIDED|95.0|0.74|1.54|||ANOVA|||RGS1; Placebo vs GSK256066 1 mcg||1.54|0.74|0.7393
92441785|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.21|STANDARD_ERROR_OF_MEAN|0.08||0.2967|TWO_SIDED|95.0|0.84|1.74|||ANOVA|||RGS1; Placebo vs GSK256066 10 mcg||1.74|0.84|0.2967
92441786|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.37|STANDARD_ERROR_OF_MEAN|0.081||0.0934|TWO_SIDED|95.0|0.95|1.98|||ANOVA|||RGS1; Placebo vs GSK256066 50 mcg||1.98|0.95|0.0934
92441787|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|1.37|STANDARD_ERROR_OF_MEAN|0.08||0.0919|TWO_SIDED|95.0|0.95|1.97|||ANOVA|||RGS1; Placebo vs GSK256066 200 mcg||1.97|0.95|0.0919
92441788|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|2.72|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|2.11|3.51|||ANOVA|||SNF1LK; Placebo vs GSK256066 1 mcg||3.51|2.11|<0.0001
92441789|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|3.04|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|2.37|3.9|||ANOVA|||SNF1LK; Placebo vs GSK256066 10 mcg||3.90|2.37|<0.0001
92240041|NCT00570739|184383804|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.5525|TWO_SIDED|95.0|0.73|2.6||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||2.60|0.73|0.5525
92441790|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|3.28|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|2.54|4.23|||ANOVA|||RGS1; Placebo vs GSK256066 50 mcg||4.23|2.54|<0.0001
92441791|NCT00464568|184769874|SUPERIORITY_OR_OTHER||Treatment Ratios|3.32|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|2.59|4.27|||ANOVA|||RGS1; Placebo vs GSK256066 200 mcg||4.27|2.59|<0.0001
92441792|NCT00464568|184769889|SUPERIORITY_OR_OTHER||Mean treatment difference|-0.5545|STANDARD_DEVIATION|7.79598||0.647226|||||||Mixed effects analysis of variance model|||Placebo vs GSK256066 1 mcg: VASP||||0.647226
92441793|NCT00464568|184769889|SUPERIORITY_OR_OTHER||Mean treatment difference|-0.3816|STANDARD_DEVIATION|9.00754||0.95084|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo vs GSK256066 10 mcg: VASP||||0.95084
92441794|NCT00464568|184769889|SUPERIORITY_OR_OTHER||Mean treatment difference|0.0256|STANDARD_DEVIATION|9.24118||0.53499|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo Vs GSK256066 50 mcg: VASP||||0.53499
92441795|NCT00464568|184769889|SUPERIORITY_OR_OTHER||Mean treatment difference|-1.3371|STANDARD_DEVIATION|7.5459||0.81527|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo vs GSK256066 200 mcg: VASP||||0.81527
92441796|NCT00464568|184769889|SUPERIORITY_OR_OTHER||Mean treatment difference|-2.8053|STANDARD_DEVIATION|10.88217||0.32998|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo Vs GSK256066 1 mcg: pVASP||||0.32998
92441797|NCT00464568|184769889|SUPERIORITY_OR_OTHER||Mean treatment difference|-1.6602|STANDARD_DEVIATION|12.30724||0.65729|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo vs GSK256066 10 mcg: pVASP||||0.65729
92441798|NCT00464568|184769889|SUPERIORITY_OR_OTHER||Mean treatment difference|0.156|STANDARD_DEVIATION|4.73976||0.89831|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo vs GSK256066 50 mcg: pVASP||||0.89831
92441799|NCT00464568|184769889|SUPERIORITY_OR_OTHER||Mean treatment difference|-1.5165|STANDARD_DEVIATION|12.70748||0.84479|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo vs GSK256066 200 mcg: pVASP||||0.84479
92441800|NCT00930579|184769946|OTHER|This study used two-sided t-tests to compare changes within group- before and after metformin treatment.|Mean Difference (Final Values)|-0.006||||0.98|TWO_SIDED||||||paired t-test|||Null hypothesis: there will be no statistically significant change between the amount of Ki-67 (protein involved in cell proliferation) in participants' tumor cells before and after taking the prescribed dose of Metformin, as measured at the 5% significance level.||||0.98
92446801|NCT00280566|184780544|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.18||0.1317|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1317
92446802|NCT00280566|184780544|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.18||0.1666|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1666
92446803|NCT00280566|184780545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.29|STANDARD_ERROR_OF_MEAN|0.75||0.0023|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 1 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0023
92238346|NCT03461289|184380875|SUPERIORITY||Difference of Proportion|0.71|||<|0.0001|TWO_SIDED|95.0|0.48|0.87|||Fisher Exact||||Data for the current study were compared to historical control data (Finkel et al 2014 - PubMed 25080519) where 6 out of 23 (26.1%) babies were alive and did not need mechanical ventilation at 14 months of age.|0.87|0.48|<0.0001
92238347|NCT00515463|184380899|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||||95.0|-0.7|0.7|||||Risk difference \> 0 indicates that incidence of binding anti-denosumab antibodies in denosumab PFS is greater than denosumab vial. 95% CI based on a normal approximation with continuity correction.|||0.7|-0.7|
92441801|NCT02255981|184769952|OTHER|Non-inferiority could be considered if the outcomes were comparable to the most known studies yet published or, in the case of non-treatable disorder, if the acupuncture treatment got to maintain the VA and prevent the losses. There are many known studies with conventional treatment and estimations of the worsening of vision in this pathologies on the time without treatment.|Mean Difference (Final Values)|15.392|||<|0.05|TWO_SIDED|95.0||||"Using the SPSS program and the non-parametrical technic of Wilcoxon it was determined the p-value.~It should be noted that the null hypothesis is that all these eyes should have a zero gain or perhaps a loss in VA at two years of follow-up."|t-test, 1 sided|From this estimation, it is induced that there are differences in results before and after the treatment.|The datum corresponds to the difference in letters seen between exams at the start and the final examination for all participants. Calculi were made by a Microsoft Excel Descriptive Statistics program.|"Besides that it is of interest to compare with the published studies outcomes, realized with anti-VEGF treatments, and with the known expectations of AV lost without treatment, the data were converted in letters ETDRS chart and here are registered the mean number of letters gained or lost in each group.~Ho: Differences between mean measurements before and after are similar H1: Differences between mean measurements before and after are different."|The null hypothesis was no gain or loss in VA. The alternative hypothesis was stabilization or some gain in letters seen over the baseline count.The published studies report a small gain in VA in about a third of participants and only in cases of NV-AMD with conventional treatment, and an expectancy of loss of vision in the other non treated or non-treatable macular diseases. Some of the participants in this trial had had ocular injections without positive change. Non-inferiority in this trial means outcomes of similar magnitude to the known studies.|||<0.05
92441802|NCT01232920|184769961|SUPERIORITY_OR_OTHER|||||||0.09|||||||Fisher Exact|||||||0.09
92441803|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41|||||TWO_SIDED|95.0|0.109|1.535||||||Univariate Cox regression Hazard ratio (Positive / Negative) for the biomarker p95.||1.535|0.109|
92441804|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.43|3.282||||||Univariate Cox regression: Hazard ratio (Membrane H-Score: \<median / ≥median) for the biomarker IGF1R.||3.282|0.430|
92441805|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.306|2.425||||||Univariate Cox regression Hazard ratio (Membrane H-Score: \<median / ≥median) for the biomarker c-MET.||2.425|0.306|
92441806|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||||TWO_SIDED|95.0|0.164|1.453||||||Univariate Cox regression Hazard ratio (Cytoplasm H-Score: \<median / ≥median) for the biomarker PTEN.||1.453|0.164|
92441807|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.377|3.16||||||Univariate Cox regression Hazard ratio (Membrane H-Score: \< median / ≥median) for the biomarker HER2.||3.160|0.377|
92238348|NCT00515463|184380900|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||||95.0|-0.7|0.7||||||||0.7|-0.7|
92238349|NCT03478878|184380976|SUPERIORITY||Mean Difference (Final Values)|1.83||||0.705|TWO_SIDED|95.0|-9.43|13.11||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the treatment completion visit (Month 2 for Cohort 1)."||13.11|-9.43|0.705
92238350|NCT03478878|184380976|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.577|TWO_SIDED|95.0|-27.43|31.02||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the treatment completion visit (Month 1 for Cohort 2)."||31.02|-27.43|0.577
92240042|NCT00570739|184383804|SUPERIORITY_OR_OTHER|||||||0.5648||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.5648
92240043|NCT00570739|184383804|SUPERIORITY_OR_OTHER|||||||0.317||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.3170
92240044|NCT00570739|184383805|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.9008|TWO_SIDED|95.0|0.66|4.06||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||4.06|0.66|0.9008
92441808|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.409|4.132||||||Univariate Cox regression Hazard ratio (Mutation Status: Wild type / Mutation) for the biomarker PI3K amino acids.||4.132|0.409|
92441809|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.183|||||TWO_SIDED|95.0|0.226|6.197||||||Univariate Cox regression Hazard ratio (Phenotype: FF / VF) for the biomarker FC Gamma Receptor IIIa F176V.||6.197|0.226|
92441810|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.989|||||TWO_SIDED|95.0|0.378|10.47||||||Univariate Cox regression Hazard ratio (Phenotype: FF / VV) for the biomarker FC Gamma Receptor IIIa F176V.||10.470|0.378|
92280116|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.096||||0.4572|TWO_SIDED|95.0|-0.349|0.158||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.158|-0.349|0.4572
92280117|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.165||||0.2064|TWO_SIDED|95.0|-0.422|0.092||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.092|-0.422|0.2064
92171328|NCT02412748|184231808|SUPERIORITY|||||||0.557|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.557
92280118|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.088||||0.4932|TWO_SIDED|95.0|-0.339|0.164||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.164|-0.339|0.4932
92280119|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.069||||0.5897|TWO_SIDED|95.0|-0.321|0.183||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.183|-0.321|0.5897
92238351|NCT03478878|184380977|SUPERIORITY||Mean Difference (Final Values)|1.87||||0.646|TWO_SIDED|95.0|-7.6|11.35||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the post-treatment follow-up visit (Month 3 for Cohort 1)."||11.35|-7.60|0.646
92280120|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.166||||0.2014|TWO_SIDED|95.0|-0.421|0.089||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.089|-0.421|0.2014
92280121|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.044||||0.7384|TWO_SIDED|95.0|-0.304|0.215||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.215|-0.304|0.7384
92441811|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.732|||||TWO_SIDED|95.0|0.235|12.783||||||Univariate Cox regression Hazard ratio (Phenotype: VF / VV) for the biomarker FC Gamma Receptor IIIa F176V.||12.783|0.235|
92441812|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.576|||||TWO_SIDED|95.0|0.067|4.968||||||Univariate Cox regression Hazard ratio (Phenotype: HH / HR) for the biomarker FC Gamma Receptor IIa R166H.||4.968|0.067|
92441813|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.743|||||TWO_SIDED|95.0|0.082|6.72||||||Univariate Cox regression Hazard ratio (Phenotype: HH / RR) for the biomarker FC Gamma Receptor IIa R166H.||6.720|0.082|
92441814|NCT00885755|184769966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.073|||||TWO_SIDED|95.0|0.274|4.199||||||Univariate Cox regression Hazard ratio (Phenotype: HR / RR) for the biomarker FC Gamma Receptor IIa R166H.||4.199|0.274|
92441815|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.12|1.79||||||Univariate Cox regression Hazard ratio (Positive / Negative) for the biomarker p95 HER2.||1.790|0.120|
92441816|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.394|3.518||||||Univariate Cox regressionHazard ratio (Membrane H-Score: \<median / ≥median) for the biomarker IGF1R.||3.518|0.394|
92441817|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.268|2.514||||||Univariate Cox regression Hazard ratio (Membrane H-Score: \< median / ≥median) for the biomarker c-met.||2.514|0.268|
92441818|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.183|1.768||||||Univariate Cox regression Hazard ratio (Cytoplasm H-Score: \< median / ≥median) for the marker PTEN.||1.768|0.183|
92441819|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.242|2.733||||||Univariate Cox regression Hazard ratio (Membrane H-Score: \< median / ≥median) for the biomarker HER2.||2.733|0.242|
92441820|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.337|3.632||||||Univariate Cox regressionHazard ratio (Mutation Status: Wild type / Mutation) for the biomarker PI3K amino acids.||3.632|0.337|
92238352|NCT03478878|184380977|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.405|TWO_SIDED|95.0|-19.3|23.9||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the post-treatment follow-up visit (Month 2 for Cohort 2)."||23.90|-19.30|0.405
92238353|NCT01614769|184380993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.41|||||TWO_SIDED|90.0|-22.98|51.8||||||||51.80|-22.98|
92441821|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.957|||||TWO_SIDED|95.0|0.172|5.336||||||Hazard ratio (Phenotype: FF / VF) for the biomarker FC Gamma Receptor IIIa F176V.||5.336|0.172|
92441822|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.666|||||TWO_SIDED|95.0|0.298|9.305||||||Hazard ratio (Phenotype: FF / VV) for the biomarker FC Gamma Receptor IIIa F176V.||9.305|0.298|
92441823|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.732|||||TWO_SIDED|95.0|0.235|12.783||||||Hazard ratio (Phenotype: VF / VV) for the biomarker FC Gamma Receptor IIIa F176V.||12.783|0.235|
92441824|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.576|||||TWO_SIDED|95.0|0.067|4.968||||||Univariate Cox regression Hazard ratio (Phenotype: HH / HR) for the biomarker FC Gamma Receptor IIa R166H.||4.968|0.067|
92441825|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.956|||||TWO_SIDED|95.0|0.098|9.319||||||Univariate Cox regression Hazard ratio (Phenotype: HH / RR) for the biomarker FC Gamma Receptor IIa R166H.||9.319|0.098|
92441826|NCT00885755|184769969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.292|||||TWO_SIDED|95.0|0.296|5.64||||||Univariate Cox regression Hazard ratio (Phenotype: HR / RR) for the biomarker FC Gamma Receptor IIa R166H.||5.640|0.296|
92441827|NCT00885755|184769977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.03|||||TWO_SIDED|95.0|0.001|0.641||||||Univariate logistic regression Odds ratio (Positive / Negative) for the biomarker p95 HER 2.||0.641|0.001|
92441828|NCT00885755|184769977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.208|||||TWO_SIDED|95.0|0.017|2.6||||||Univariate logistic regression Odds ratio (Membrane H-Score: ≥median /\<median) for the biomarker IGF1R.||2.600|0.017|
92441829|NCT00885755|184769977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.143|||||TWO_SIDED|95.0|0.169|27.103||||||Univariate logistic regression Odds ratio (Membrane H-Score: ≥ median /\<median) for the biomarker c-MET.||27.103|0.169|
92441830|NCT00885755|184769977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.875|||||TWO_SIDED|95.0|0.15|23.396||||||Univariate logistic regression Odds ratio (Cytoplasm H-Score: ≥ median /\< median) for the biomarker PTEN.||23.396|0.150|
92441831|NCT00885755|184769977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.857|||||TWO_SIDED|95.0|0.091|8.075||||||Univariate logistic regression Odds ratio (Membrane H-Score: ≥median /\< median) for the biomarker HER2.||8.075|0.091|
92441832|NCT00885755|184769977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.148|||||TWO_SIDED|95.0|0.012|1.9||||||Univariate logistic regression Odds ratio (PI3K mutation status: WT versus M) for the biomarker PI3K Amino Acids.||1.900|0.012|
92441833|NCT00885755|184769977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.053|18.915||||||Univariate logistic regressionOdds ratio (Phenotype: FF / VF) for the biomarker FC Gamma Receptor IIIa F176V.||18.915|0.053|
92441834|NCT00885755|184769977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.083|||||TWO_SIDED|95.0|0.004|1.945||||||Univariate logistic regression Odds ratio (Phenotype: HR / RR) for the biomarker FC Gamma Receptor IIa R166H||1.945|0.004|
92441835|NCT01334723|184769985|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.38||||||95.0|0.35|0.412|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.412|0.350|
92441836|NCT01334723|184769985|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.294||||||95.0|0.235|0.368|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.368|0.235|
92441837|NCT01334723|184769986|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.613||||||95.0|0.562|0.668|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.668|0.562|
92441838|NCT01334723|184769986|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.542||||||95.0|0.427|0.689|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.689|0.427|
92441839|NCT01334723|184769987|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.519||||||95.0|0.472|0.57|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.570|0.472|
92441840|NCT01334723|184769987|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.436||||||95.0|0.333|0.57|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.570|0.333|
92441841|NCT04649164|184770022|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||Paired t-tests comparing peer mentors' baseline and 16-week scores, and caregiver mentees' baseline and 16-week scores, respectively||||0.36
92441842|NCT04649164|184770024|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.30
92441843|NCT04649164|184770025|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
92441844|NCT04649164|184770026|SUPERIORITY||Mean Difference (Final Values)|0.78||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.04
92441845|NCT04649164|184770029|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
92441846|NCT01549964|184770043|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.108|<|0.001|TWO_SIDED|95.0|-0.77|-0.34||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-0.34|-0.77|<0.001
92238354|NCT01614769|184380993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.33|||||TWO_SIDED|90.0|-2.08|72.74||||||||72.74|-2.08|
92238355|NCT01614769|184380994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|90.0|-0.21|0.0||||||||0.00|-0.21|
92441847|NCT01549964|184770043|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.087|<|0.001|TWO_SIDED|95.0|0.15|0.49||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||0.49|0.15|<0.001
92441848|NCT01549964|184770043|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.109|<|0.001|TWO_SIDED|95.0|-1.03|-0.6||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-0.60|-1.03|<0.001
92441849|NCT01549964|184770043|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.087||0.524|TWO_SIDED|95.0|-0.12|0.23||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||0.23|-0.12|0.524
92441850|NCT01549964|184770044|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.25||||0.05|TWO_SIDED|95.0|1.0|5.08||P-Value was obtained from a logistic model with treatment, schedule, baseline HbA1c as explanatory variables.|Regression, Logistic|||||5.08|1.00|0.050
92441851|NCT01549964|184770044|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.39|||<|0.001|TWO_SIDED|95.0|0.23|0.67||P-Value was obtained from a logistic model with treatment, schedule, baseline HbA1c as explanatory variables.|Regression, Logistic|||||0.67|0.23|<0.001
92441852|NCT01549964|184770044|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.06|||<|0.001|TWO_SIDED|95.0|2.24|11.42||P-Value was obtained from a logistic model with treatment, schedule, baseline HbA1c as explanatory variables.|Regression, Logistic|||||11.42|2.24|<0.001
92441853|NCT01549964|184770044|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.493|TWO_SIDED|95.0|0.5|1.39||P-Value was obtained from a logistic model with treatment, schedule, baseline HbA1c as explanatory variables.|Regression, Logistic|||||1.39|0.50|0.493
92441854|NCT01549964|184770045|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.2|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-33.8|-16.6||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-16.6|-33.8|<0.001
92441855|NCT01549964|184770045|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|3.49||0.142|TWO_SIDED|95.0|-12.0|1.7||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||1.7|-12.0|0.142
92441856|NCT01549964|184770045|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.3|STANDARD_ERROR_OF_MEAN|4.4|<|0.001|TWO_SIDED|95.0|-39.9|-22.6||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-22.6|-39.9|<0.001
92441857|NCT01549964|184770045|SUPERIORITY_OR_OTHER||Least Square Mean difference|-11.2|STANDARD_ERROR_OF_MEAN|3.53||0.002|TWO_SIDED|95.0|-18.1|-4.2||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-4.2|-18.1|0.002
92441858|NCT00499096|184770069|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
92441859|NCT02245841|184770087|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||Analysis performed was two-sided Wilcoxon signed rank test. Median differences with interquartile range are reported in outcome measure data.||||< .001
92238356|NCT01614769|184380994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|||||TWO_SIDED|90.0|-0.24|-0.03||||||||-0.03|-0.24|
92441860|NCT02245841|184770088|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||Analysis performed was two-sided Wilcoxon signed rank test. Median differences with interquartile range are reported in outcome measure data.||||<0.001
92441861|NCT02245841|184770089|SUPERIORITY|||||||0.002|||||||Wilcoxon signed rank test|||Analysis performed was two-sided Wilcoxon signed rank test. Median differences with interquartile range are reported in outcome measure data.||||0.002
92441862|NCT02245841|184770090|SUPERIORITY|||||||0.05|||||||Wilcoxon signed rank test|||Analysis performed was two-sided Wilcoxon signed rank test. Median differences with interquartile range are reported in outcome measure data.||||0.050
92441863|NCT02245841|184770091|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||Analysis performed was two-sided Wilcoxon signed rank test. Median differences with interquartile range are reported in outcome measure data.||||<0.001
92441864|NCT03343483|184770095|SUPERIORITY||Mean Difference (Final Values)|-0.138|STANDARD_ERROR_OF_MEAN|1.06||0.896|TWO_SIDED|95.0|-2.21|1.93|||Mixed Models Analysis|||||1.93|-2.21|.896
92441865|NCT03343483|184770096|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.8|TWO_SIDED||||||ANOVA|||||||0.80
92441866|NCT03343483|184770097|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.33|TWO_SIDED||||||Mixed Models Analysis|||||||0.33
92238357|NCT01614769|184380995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.03|||||TWO_SIDED|90.0|-11.12|1.05||||||||1.05|-11.12|
92238358|NCT01614769|184380995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.27|||||TWO_SIDED|90.0|-13.3|-1.24||||||||-1.24|-13.30|
92238359|NCT04688346|184381011|NON_INFERIORITY|t-test|Mean Difference (Final Values)|1.0||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92240045|NCT00570739|184383805|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.9035|TWO_SIDED|95.0|0.6|3.37||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||3.37|0.60|0.9035
92240046|NCT00570739|184383805|SUPERIORITY_OR_OTHER|||||||0.2874||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.2874
92441867|NCT03343483|184770098|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.58|TWO_SIDED||||||Mixed Models Analysis|||||||0.58
92441868|NCT03343483|184770099|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.73|TWO_SIDED||||||Mixed Models Analysis|||||||0.73
92441869|NCT03343483|184770100|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.57|TWO_SIDED||||||Mixed Models Analysis|||||||0.57
92441870|NCT01835743|184770101|SUPERIORITY_OR_OTHER||||||<|5e-05|TWO_SIDED||||||Fisher Exact|||||||<0.00005
92441871|NCT01835743|184770102|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|t-test for two independent samples to compare the change in VAS scores across the evaluation period between the two procedure administration groups||||||<0.0001
92441872|NCT00117559|184770111|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<.05
92441873|NCT00579826|184770121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
92441874|NCT00579826|184770122|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
92441875|NCT00579826|184770123|SUPERIORITY_OR_OTHER_LEGACY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
92441876|NCT00579826|184770124|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
92441877|NCT00579826|184770125|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
92441878|NCT01748643|184770126|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
92441879|NCT01748643|184770127|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
92441880|NCT01748643|184770128|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
92441881|NCT01748643|184770129|SUPERIORITY|||||||0.97|||||||t-test, 1 sided|||||||0.97
92441882|NCT01748643|184770130|SUPERIORITY|||||||0.64|||||||t-test, 1 sided|||||||0.64
92441883|NCT01748643|184770131|SUPERIORITY|||||||0.58|||||||t-test, 1 sided|||||||0.58
92441884|NCT00973479|184770174|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92441885|NCT00973479|184770175|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92441886|NCT00973479|184770176|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA of van der Waerden scores|||||||<0.001
92441887|NCT00973479|184770177|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92441888|NCT00973479|184770178|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA of van der Waerden scores|||||||<0.001
92441889|NCT01265849|184770191|SUPERIORITY|||||||0.4051||||||For the primary efficacy measure a two-sided p-value of 0.05 or less is considered to be statistically significant in comparing the LI+CIZ+SOC treatment vs. SOC alone for superiority.|Log Rank|Log Rank statistic is based on an unstratified analysis.||The primary objective was to compare overall survival in the LI + CIZ + SOC group to that in the SOC alone group for superiority of the former.||||0.4051
92238360|NCT01254604|184381017|NON_INFERIORITY_OR_EQUIVALENCE|The study was planned to enroll 248 subjects (124 per treatment group) to yield approximately 230 evaluable subjects (115 per treatment group). The study had power of 90% to test the primary hypothesis. The power and sample size were based on the following assumptions for treatment difference in change from baseline in IOP at Week 4: α = 0.025 (1-sided), Non-inferiority margin = 1.5 mmHg, True treatment difference = 0 mmHg, Standard deviation = 3.5 mmHg.|Difference in Least Squares Means|-1.7|||||TWO_SIDED|95.0|-2.6|-0.7|||ANCOVA|Analysis model includes terms for treatment, baseline IOP and ocular diagnosis (open-angle glaucoma or ocular hypertension)|Difference is tafluprost - timolol|The study hypothesis was that tafluprost is non-inferior to timolol with respect to change from baseline in diurnal IOP at Week 4 in participants with open-angle glaucoma or ocular hypertension. The study hypothesis would be met if the upper bound of the two-sided 95% confidence interval for the between-treatment difference in mean diurnal IOP change from baseline at Week4 (tafluprost - timolol) was ≤1.5 mmHg.||-0.7|-2.6|
92441890|NCT01265849|184770191|SUPERIORITY|||||||0.5402|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.5402
92441891|NCT01265849|184770191|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.4128|TWO_SIDED|95.0|0.89|1.32|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + CIZ + SOC.|||1.32|0.89|0.4128
92441892|NCT01265849|184770191|SUPERIORITY|||||||0.7181|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.7181
92441893|NCT01265849|184770191|SUPERIORITY|||||||0.948|||||||Log Rank|This log Rank p-value is based on a stratified analysis.||||||0.9480
92441894|NCT01265849|184770191|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.6101|TWO_SIDED|95.0|0.81|1.42|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A hazard Ratio \< 1.0 would favor LI + SOC.|||1.42|0.81|0.6101
92441895|NCT01265849|184770192|SUPERIORITY|||||||0.0478|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.0478
92441896|NCT01265849|184770192|SUPERIORITY|||||||0.0137|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.0137
92441897|NCT01265849|184770192|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0236|TWO_SIDED|95.0|0.48|0.95|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + CIZ + SOC.|||0.95|0.48|0.0236
92441898|NCT01265849|184770192|SUPERIORITY|||||||0.4115|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.4115
92441899|NCT01265849|184770192|SUPERIORITY|||||||0.2862|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.|||This HR is presented as (LI + SOC) / SOC. A HR \< 1.0 favors LI+SOC. Wald p-value for this HR is 0.3859.|||0.2862
92441900|NCT01265849|184770192|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.3859|TWO_SIDED|95.0|0.52|1.29|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + SOC.|||1.29|0.52|0.3859
92441901|NCT01265849|184770193|SUPERIORITY|||||||0.7304||||||P-values are not adjusted for multiple comparisons.|Log Rank|This Log Rank P-value is based on an unstratified analysis.||The secondary endpoint LRC failure is analyzed similar to the primary OS endpoint. The primary comparison is LI+CIZ+SOC vs SOC; LI+SOC vs SOC results are also reported.||||0.7304
92441902|NCT01265849|184770193|SUPERIORITY|||||||0.7171||||||P-values are reported unadjusted for multiplicity.|Log Rank|The Log Rank statistic is based on a stratified analysis.||||||0.7171
92441903|NCT01265849|184770193|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.802|TWO_SIDED|95.0|0.79|1.36|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + CIZ + SOC.|||1.36|0.79|0.8020
92441904|NCT01265849|184770193|SUPERIORITY|||||||0.4231|||||||Log Rank|The Log Rank statistic is based on an unstratified analysis.||||||0.4231
92441905|NCT01265849|184770193|SUPERIORITY|||||||0.6998|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.6998
92441906|NCT01265849|184770193|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.3944|TWO_SIDED|95.0|0.81|1.69|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + SOC.|||1.69|0.81|0.3944
92441907|NCT01265849|184770194|SUPERIORITY|||||||0.6142|||||||Log Rank|The Log Rank statistic is based on an unstratified analysis.||||||0.6142
92441908|NCT01265849|184770194|SUPERIORITY|||||||0.3024|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.3024
92441909|NCT01265849|184770194|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.42082|TWO_SIDED|95.0|0.55|1.28|||Regression, Cox||A Hazard Ratio \< 1.0 would favor LI + CIZ + SOC.|||1.28|0.55|0.42082
92441910|NCT01265849|184770194|SUPERIORITY|||||||0.9784|||||||Log Rank|The Log Rank statistic is based on an unstratified analysis.||||||0.9784
92441911|NCT01265849|184770194|SUPERIORITY|||||||0.8461||||||This Log Rank statistic is based on a stratified analysis.|Log Rank|||||||0.8461
92441912|NCT01265849|184770194|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.8131|TWO_SIDED|95.0|0.53|1.65|||Regression, Cox||A Hazard Ratio of \< 1.0 would favor LI + SOC.|||1.65|0.53|0.8131
92441913|NCT01265849|184770195|SUPERIORITY|||||||0.3303|||||||Log Rank|This Log Rank statistic is from an unstratified analysis.||This secondary endpoint PFS is analyzed similar to OS and LRC.||||0.3303
92441914|NCT01265849|184770195|SUPERIORITY|||||||0.6669|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.6669
92441915|NCT01265849|184770195|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.3728|TWO_SIDED|95.0|0.9|1.31|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + CIZ + SOC.|||1.31|0.90|0.3728
92441916|NCT01265849|184770195|SUPERIORITY|||||||0.5739|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.5739
92441917|NCT01265849|184770195|SUPERIORITY|||||||0.8162|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.8162
92441918|NCT01265849|184770195|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.4728|TWO_SIDED|95.0|0.84|1.43|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + SOC.|||1.43|0.84|0.4728
92238361|NCT01254604|184381018|SUPERIORITY_OR_OTHER||Difference in percentage|19.5|||||TWO_SIDED|95.0|5.7|33.4|||Stratified Miettinen and Nurminen method|Participants were stratified by baseline IOP (\<26 mmHg or ≥26 mmHg at 0800 hours) and ocular diagnosis (open-angle glaucoma or ocular hypertension)|Between-group difference in percentage of participants with ≥25% reduction in IOP at Week 4 = percentage (tafluprost) - percentage (timolol)|||33.4|5.7|
92441919|NCT01265849|184770196|SUPERIORITY|||||||0.1797|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.1797
92441920|NCT01265849|184770196|SUPERIORITY|||||||0.0159|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.0159
92441921|NCT01265849|184770196|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0896|TWO_SIDED|95.0|0.55|1.04|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio of \< 1.0 would favor LI + CIZ + SOC.|||1.04|0.55|0.0896
92441922|NCT01265849|184770196|SUPERIORITY|||||||0.5175|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.5175
92441923|NCT01265849|184770196|SUPERIORITY|||||||0.453|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.4530
92441924|NCT01265849|184770196|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.4376|TWO_SIDED|95.0|0.54|1.3|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + SOC.|||1.30|0.54|0.4376
92441925|NCT01265849|184770197|SUPERIORITY||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|2.395||0.21|TWO_SIDED|||||This p-value for Long Term Follow-up at Month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Positive value for the difference (Mean Difference (Net)) favors LI + CIZ + SOC.|Approximately 30% of participants completed the QOL instrument at first administration (Month2), thus the study did not have the power for QoL comparisons. These completer analyses are descriptive only.||||0.2100
92441926|NCT01265849|184770197|SUPERIORITY||Mean Difference (Net)|4.67|STANDARD_ERROR_OF_MEAN|3.401||0.1701|TWO_SIDED|||||This p-value for Long Term Follow-up at Month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Positive value for the difference (Mean Difference (Net)) favors LI + SOC.|Approximately 30% of participants completed the QOL instrument at last administration (Month 36), thus the study did not have power for QoL comparisons. These completer analyses are descriptive only.||||0.1701
92441927|NCT01265849|184770198|SUPERIORITY|This p-value for Long Term Follow-up at Month 36 is not adjusted for multiplicity.|Median Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|2.397||0.5871|TWO_SIDED|||||This p-value for Long Term Follow-up at Month 36 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Positive value for the difference (Mean Difference (Net)) favors LI + CIZ + SOC.|LI + CIZ + SOC, Standard of Care (SOC)||||0.5871
92441928|NCT01265849|184770198|SUPERIORITY||Mean Difference (Net)|4.46|STANDARD_ERROR_OF_MEAN|3.247||0.17|TWO_SIDED|||||This p-value for Long Term Follow-up at Month 36 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Positive value for the difference (Mean Difference (Net)) favors LI + SOC.|||||0.1700
92441929|NCT01265849|184770199|SUPERIORITY||Mean Difference (Net)|1.05|STANDARD_ERROR_OF_MEAN|2.183||0.6296|TWO_SIDED|||||This p-value for head and neck pain at Long Term Follow-up Month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed effects of treatment, visit, treatment by visit, tumor location \& stage, geographic region, and baseline with compound symmetry.|Negative value for the difference (Mean Difference (Net)) favors LI + CIZ + SOC.|||||0.6296
92441930|NCT01265849|184770199|SUPERIORITY||Mean Difference (Net)|1.01|STANDARD_ERROR_OF_MEAN|3.103||0.7454|TWO_SIDED|||||This p-value for head and neck pain at Long Term Follow-up Month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed effects of treatment, visit, treatment by visit, tumor location \& stage, geographic region, and baseline with compound symmetry.|Negative value for the difference (Mean Difference (Net)) favors LI + SOC.|||||0.7454
92441931|NCT01265849|184770199|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|2.465||0.7452|TWO_SIDED|||||This p-value for Long Term Follow-up for swallowing at month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed effects of treatment, visit, treatment by visit, tumor location \& stage, geographic region, and baseline with compound symmetry.|Negative value for the difference (Mean Difference (Net)) favors LI + CIZ + SOC.|||||0.7452
92441932|NCT01265849|184770199|SUPERIORITY||Mean Difference (Net)|-1.02|STANDARD_ERROR_OF_MEAN|3.496||0.771|TWO_SIDED|||||This p-value for Long Term Follow-up for swallowing at Month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed effects of treatment, visit, treatment by visit, and baseline with compound symmetry.|Negative value for the difference (Mean Difference (Net)) favors LI + SOC.|||||0.7710
92441933|NCT01265849|184770200|SUPERIORITY||Mean Difference (Net)|-1.04|STANDARD_ERROR_OF_MEAN|2.185||0.6337|TWO_SIDED|||||This p-value for Long Term Follow-up for head and neck pain at Month 36 is not adjusted for multiplicity|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Negative value for the difference (Mean Difference (Net)) favors LI + CIZ + SOC.|||||0.6337
92441934|NCT01265849|184770200|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|2.962||0.945|TWO_SIDED|||||This p-value for Long Term Follow-up for head and neck pain at Month 36 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Negative value for the difference (Mean Difference (Net)) favors LI + SOC.|||||0.9450
92238362|NCT01254604|184381019|SUPERIORITY_OR_OTHER||Difference in percentage|-3.9|||||TWO_SIDED|95.0|-17.3|9.4|||Miettinen and Nurminen||Between-group difference in percentage of participants with an AE = percentage (tafluprost) - percentage (timolol)|||9.4|-17.3|
92238363|NCT01254604|184381020|SUPERIORITY_OR_OTHER||Difference in percentage|1.1|||||TWO_SIDED|95.0|-3.5|5.7|||Miettinen and Nurminen||Between-group difference in percentage of participants discontinued study drug due to an AE = percentage (tafluprost) - percentage (timolol)|||5.7|-3.5|
92238364|NCT03074162|184381021|EQUIVALENCE|The statistical model was an variance (ANOVA) on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment for comparison of B with R.|Geometric Mean (gMean) Ratio (%)|45.54|STANDARD_ERROR_OF_MEAN|35.99|||TWO_SIDED|90.0|40.11|51.7|||ANOVA|Only the data for the comparison under investigation were included in the statistical analysis.|gMean Ratio=(B/R) \*100. Standard Error of the mean is actually intra-individual geometric coefficient of variation.|||51.70|40.11|
92238365|NCT03074162|184381021|EQUIVALENCE|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment for comparison of B with A.|Geometric Mean (gMean) Ratio (%)|85.56|STANDARD_ERROR_OF_MEAN|42.05|||TWO_SIDED|90.0|74.11|98.77|||ANOVA|Only the data for the comparison under investigation were included in the statistical analysis.|gMean Ratio=(B/A) \*100. Standard Error of the mean is actually intra-individual geometric coefficient of variation|||98.77|74.11|
92238366|NCT03074162|184381022|EQUIVALENCE|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment for comparison of B with R.|Geometric Mean (gMean) Ratio (%)|49.6|STANDARD_ERROR_OF_MEAN|38.13|||TWO_SIDED|90.0|43.39|56.71|||ANOVA|Only the data for the comparison under investigation were included in the statistical analysis.|gMean Ratio=(B/R) \*100. Standard Error of the mean is actually intra-individual geometric coefficient of variation.|||56.71|43.39|
92280122|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.043||||0.7423|TWO_SIDED|95.0|-0.303|0.216||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.216|-0.303|0.7423
92441935|NCT01265849|184770200|SUPERIORITY||Mean Difference (Net)|-2.04|STANDARD_ERROR_OF_MEAN|2.465||0.4071|TWO_SIDED|||||This p-value for Long Term Follow-up for Swallowing at Month 36 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Negative value for the difference (Mean Difference (Net)) favors LI+ CIZ + SOC.|||||0.4071
92441936|NCT01265849|184770200|SUPERIORITY||Mean Difference (Net)|-7.29|STANDARD_ERROR_OF_MEAN|3.347||0.0296|TWO_SIDED|||||This p-value for Long Term Follow-up for Swallowing at Month 36 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Negative value for the difference (Mean Difference (Net)) favors LI + SOC.|||||0.0296
92441937|NCT01265849|184770201|SUPERIORITY|Statistical tests were for a significant treatment effect in the Cox Proportional Hazards model including treatment, disease stage, tumor location, and geographical region.|% of significant test results|21.6|||<|0.05|TWO_SIDED|95.0|17.0|26.9||"Under the null hypothesis of no effect the expected number of significant test results would be balanced between treatments.~The expected number (%) of statistically significant results would be approximately 14 (5%) of 282."|Regression, Cox|||"Treatment comparisons of LI+CIZ+SOC v. SOC were repeated at all levels of HP, HP ratios, and HP combinations for endpoints OS, PFS, and LRC.~Significant outcomes for the treatment term in the model (two-sided p\<0.05) were accumulated."||26.9|17.0|<0.05
92441938|NCT01265849|184770202|SUPERIORITY||Percent (%) of Participants|8.1|||<|0.0001|TWO_SIDED|95.0|5.6|11.2|||Fisher Exact|||Null hypothesis is that percent (%) of participants with an objective response (CR+PR) is the same for LI + CIZ + SOC and SOC.||11.2|5.6|<.0001
92441939|NCT01265849|184770202|SUPERIORITY||Percent (%) of Participants|9.7|||<|0.0001|TWO_SIDED|95.0|4.7|14.7|||Fisher Exact|||Null hypothesis is that percent (%) of participants with an objective response (CR+PR) is the same for LI + SOC and SOC.||14.7|4.7|<0.0001
92441940|NCT01265849|184770203|SUPERIORITY||Percent (%) of Participants|15.2|||<|0.0001|TWO_SIDED|95.0|9.6|20.8|||Fisher Exact|||Null hypothesis is that percent (%) of participants with an objective response (CR+PR) is the same for LI + CIZ + SOC and SOC.||20.8|9.6|<0.0001
92280123|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.141||||0.2923|TWO_SIDED|95.0|-0.404|0.122||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.122|-0.404|0.2923
92280124|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.085||||0.5388|TWO_SIDED|95.0|-0.359|0.188||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.188|-0.359|0.5388
92441941|NCT01265849|184770203|SUPERIORITY||Percent (%) of Participants|18.5|||<|0.0001|TWO_SIDED|95.0|8.2|28.9|||Fisher Exact|||Null hypothesis is that percent (%) of participants with an objective response (CR+PR) is the same for LI + SOC and SOC.||28.9|8.2|<0.0001
92441942|NCT01265849|184770204|SUPERIORITY|||||||0.0007|||||||Fisher Exact|||The null hypothesis that survival is unrelated to objective response versus the alternative hypothesis that objective response is predictive of increased survival for participants receiving LI + CIZ + SOC.||||0.0007
92441943|NCT01265849|184770204|SUPERIORITY|||||||0.0434|||||||Fisher Exact|||The null hypothesis is that survival is unrelated to objective response versus the alternative that response is predictive of increased survival in subjects receiving LI + SOC.||||0.0434
92238367|NCT03074162|184381022|EQUIVALENCE|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment for comparison of B with A.|Geometric Mean (gMean) Ratio (%)|83.57|STANDARD_ERROR_OF_MEAN|72.45|||TWO_SIDED|90.0|66.33|105.31|||ANOVA|Only the data for the comparison under investigation were included in the statistical analysis.|gMean Ratio=(B/A) \*100. Standard Error of the mean is actually intra-individual geometric coefficient of variation|||105.31|66.33|
92238368|NCT02778867|184381026|OTHER|||||||0.58||||||α \< 0.05|Fisher Exact|Two-sided||||||0.58
92238369|NCT02778867|184381027|OTHER|||||||0.06||||||α \< 0.05|Fisher Exact|Two sided||||||0.06
92238370|NCT02778867|184381030|OTHER|||||||0.9||||||α \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.90
92238371|NCT02778867|184381031|OTHER|||||||0.22||||||α \< 0.05|t-test, 2 sided|Two sample t-test||||||0.22
92171329|NCT02412748|184231809|SUPERIORITY|||||||0.681|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.681
92238372|NCT02778867|184381032|OTHER|||||||0.71||||||α \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.71
92238373|NCT02948777|184381033|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92238374|NCT02948777|184381034|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92238375|NCT02948777|184381035|OTHER|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
92238376|NCT02948777|184381036|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92238377|NCT02948777|184381037|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92238378|NCT02948777|184381038|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92238379|NCT02948777|184381039|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92238380|NCT02948777|184381040|OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
92238381|NCT02948777|184381041|OTHER|||||||0.31|||||||Kruskal-Wallis|||||||0.31
92238382|NCT02948777|184381042|OTHER|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.61
92238383|NCT02948777|184381043|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92238384|NCT02948777|184381044|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92238385|NCT02948777|184381045|OTHER|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||||||0.027
92238386|NCT02948777|184381046|OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.84
92238387|NCT02948777|184381047|OTHER|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||0.59
92238388|NCT02948777|184381048|OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||0.81
92238389|NCT02948777|184381049|OTHER|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
92238390|NCT02948777|184381050|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
92238391|NCT02948777|184381051|OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92238392|NCT02948777|184381052|OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
92238393|NCT02948777|184381053|OTHER|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
92238394|NCT02948777|184381054|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92238395|NCT02948777|184381056|OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.84
92238396|NCT02948777|184381057|OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
92240047|NCT00570739|184383805|SUPERIORITY_OR_OTHER|||||||0.4344||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.4344
92240048|NCT00570739|184383806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.62|||<|0.0001|TWO_SIDED|95.0|-24.61|-14.63||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||-14.63|-24.61|<0.0001
92240049|NCT00570739|184383806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.47|||<|0.0001|TWO_SIDED|95.0|-23.24|-11.69||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||-11.69|-23.24|<0.0001
92441944|NCT01265849|184770204|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||The null hypothesis is that survival is unrelated to objective response versus the alternative hypothesis that objective response is predictive of increased survival for participants receiving LI, considering both treatment groups combined.||||<0.0001
92441945|NCT01265849|184770205|SUPERIORITY|||||||0.0101|||||||Fisher Exact|||The null hypothesis that survival is unrelated to objective response versus the alternative hypothesis that objective response is predictive of increased survival for low risk participants receiving LI + CIZ + SOC.||||0.0101
92280125|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|0.008||||0.9565|TWO_SIDED|95.0|-0.266|0.281||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.281|-0.266|0.9565
92441946|NCT01265849|184770205|SUPERIORITY|||||||0.4843|||||||Fisher Exact|||The null hypothesis that survival is unrelated to objective response versus the alternative hypothesis that objective response is predictive of increased survival for low risk participants receiving LI + SOC.||||0.4843
92441947|NCT01265849|184770205|SUPERIORITY||||||<|0.0067||||||The null hypothesis is that survival is unrelated to objective response versus the alternative hypothesis that objective response is predictive of increased survival for participants receiving LI, considering both treatment groups combined.|Fisher Exact|||||||<0.0067
92441948|NCT01265849|184770206|SUPERIORITY||Hazard Ratio (HR)|0.348||||0.0131|TWO_SIDED|95.0|0.152|0.801|||Regression, Cox|||Null hypothesis is that the Hazard Ratio (HR) for low risk subjects responding to LI (combined arms LI + CIZ + SOC, LI + SOC) is \>=1.0 versus the alternative hypothesis that subjects responding to LI are at reduced risk of death (HR \< 1.0).||0.801|0.152|0.0131
92441949|NCT01265849|184770206|SUPERIORITY||Hazard Ratio (HR)|0.246||||0.0181|TWO_SIDED|95.0|0.077|0.787|||Regression, Cox|||Null hypothesis is that the Hazard Ratio (HR) for low risk subjects responding to LI + CIZ + SOC is \>=1.0 versus the alternative hypothesis that subjects responding to LI + CIZ + SOC are at reduced risk of death (HR \< 1.0).||0.787|0.077|0.0181
92238397|NCT02311478|184381058|OTHER|Given that this is a observational cohort design we do not use either non-inferiority or equivalence analysis. Using ANOVA we test for differences in the number of days per month of bleeding between the 90 days pre-insertion, the 90 days following insertion, and 91-180 days following insertion.|Mean Difference (Net)|1.77|STANDARD_ERROR_OF_MEAN|0.28|<|0.05|TWO_SIDED|95.0|1.2|2.3||The p-value is not adjusted for multiple comparisons.|ANOVA|df=2||The null hypothesis is that there is no difference between the number of days of bleeding per month at baseline and the days of bleeding per month during 90 days after insertion, and months or 91-180 days following insertion.||2.3|1.2|<0.05
92238398|NCT02311478|184381058|EQUIVALENCE|α of 0.05 or lower.|Mean Difference (Final Values)|0.93|||<|0.05|TWO_SIDED|95.0|0.36|1.5|||t-test, 2 sided|||The estimation parameter compares the 90 days following to the 90 days prior.||1.5|0.36|<0.05
92238399|NCT01290484|184381061|SUPERIORITY_OR_OTHER||Mean percentage volume change|-3.47||||||||||||||||||
92238400|NCT03242928|184381062|SUPERIORITY||Mean Difference (Final Values)|-0.087|STANDARD_ERROR_OF_MEAN|0.037|=|0.021|TWO_SIDED|95.0|-0.161|-0.013|||ANCOVA|||||-0.013|-0.161|= 0.021
92238401|NCT03242928|184381063|SUPERIORITY||Mean Difference (Final Values)|-0.177|STANDARD_ERROR_OF_MEAN|0.077|=|0.025|TWO_SIDED|95.0|-0.331|-0.023|||ANOVA|||||-0.023|-0.331|= 0.025
92238402|NCT03242928|184381064|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.038|=|0.072|TWO_SIDED|95.0|-0.146|0.006|||ANCOVA|||||0.006|-0.146|= 0.072
92238403|NCT00943319|184381074|OTHER||Median Survival time|161.0|||||TWO_SIDED|95.0|121.0|305.0|||Product limit survival estimate|||||305|121|
92238404|NCT00943319|184381075|OTHER||Median Disease Free Survival Time|172.0|||||TWO_SIDED|95.0|85.0|436.0||||||Estimated median survival time||436|85|
92441950|NCT00362115|184770207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.0631|TWO_SIDED|95.0|-5.96|0.16||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.16|-5.96|0.0631
92238405|NCT02043301|184381076|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|120.96|||||TWO_SIDED|90.0|101.99|143.45|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Thigh (Test) versus Abdomen (Reference)||143.45|101.99|
92238406|NCT02043301|184381076|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|94.93|||||TWO_SIDED|90.0|80.2|112.38|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Upper Arm (Test) versus Abdomen (Reference)||112.38|80.20|
92238407|NCT02043301|184381077|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|127.65|||||TWO_SIDED|90.0|107.19|152.02|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Thigh (Test) versus Abdomen (Reference)||152.02|107.19|
92441951|NCT00362115|184770207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3||||0.0008|TWO_SIDED|95.0|-8.33|-2.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.20|-8.33|0.0008
92238408|NCT02043301|184381077|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|86.16|||||TWO_SIDED|90.0|72.49|102.4|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Upper Arm (Test) versus Abdomen (Reference)||102.40|72.49|
92238409|NCT02043301|184381078|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|129.98|||||TWO_SIDED|90.0|106.76|158.27|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Thigh (Test) versus Abdomen (Reference)||158.27|106.76|
92238410|NCT02043301|184381078|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|100.27|||||TWO_SIDED|90.0|82.54|121.82|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Upper Arm (Test) versus Abdomen (Reference)||121.82|82.54|
92238411|NCT02043301|184381083|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|97.35|||||TWO_SIDED|90.0|84.659|111.943|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||111.943|84.659|
92238412|NCT02043301|184381083|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|103.96|||||TWO_SIDED|90.0|90.405|119.557|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||119.557|90.405|
92238413|NCT02043301|184381084|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|97.1|||||TWO_SIDED|90.0|86.558|108.926|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||108.926|86.558|
92238414|NCT02043301|184381084|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|93.52|||||TWO_SIDED|90.0|83.359|104.912|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||104.912|83.359|
92238415|NCT02043301|184381085|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|97.1|||||TWO_SIDED|90.0|86.558|108.926|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||108.926|86.558|
92238416|NCT02043301|184381085|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|93.52|||||TWO_SIDED|90.0|83.359|104.912|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||104.912|83.359|
92238417|NCT02043301|184381087|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|102.51|||||TWO_SIDED|90.0|97.555|107.717|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||107.717|97.555|
92238418|NCT02043301|184381087|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|102.02|||||TWO_SIDED|90.0|97.131|107.151|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||107.151|97.131|
92238419|NCT02043301|184381088|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|79.09|||||TWO_SIDED|90.0|60.883|102.735|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||102.735|60.883|
92238420|NCT02043301|184381088|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|91.15|||||TWO_SIDED|90.0|70.269|118.248|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||118.248|70.269|
92238421|NCT02043301|184381089|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|79.09|||||TWO_SIDED|90.0|60.883|102.735|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||102.735|60.883|
92238422|NCT02043301|184381089|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|91.15|||||TWO_SIDED|90.0|70.269|118.248|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||118.248|70.269|
92238423|NCT03703375|184381095|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0541|TWO_SIDED|95.0|0.41|1.09|||Stratified Cox|Stratified Cox proportional hazards model||||1.09|0.41|0.0541
92441952|NCT00362115|184770207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.0188|TWO_SIDED|95.0|-6.73|-0.61||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.61|-6.73|0.0188
92441953|NCT00362115|184770207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.0003|TWO_SIDED|95.0|-8.8|-2.63||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.63|-8.80|0.0003
92441954|NCT00362115|184770207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.0177|TWO_SIDED|95.0|-6.77|-0.65||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.65|-6.77|0.0177
92441955|NCT00362115|184770207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.855||95.0|-2.72|3.27||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.27|-2.72|0.8550
92441956|NCT00362115|184770207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.1719|TWO_SIDED|95.0|-5.08|0.91||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.91|-5.08|0.1719
92238424|NCT03703375|184381096|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0166|TWO_SIDED|95.0|0.32|0.96|||Efron|Stratified Cox proportional hazards model||||0.96|0.32|0.0166
92238425|NCT03703375|184381097|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.2139|TWO_SIDED|95.0|0.51|1.33|||Stratified Cox|Stratified Cox proportional hazards model||||1.33|0.51|0.2139
92238426|NCT03504774|184381104|OTHER||Mean Difference (Net)|0.6||||0.3|TWO_SIDED||||||Mixed Models Analysis|||analysis of the change from baseline in CD28 expression||||0.30
92238427|NCT03504774|184381105|OTHER||Mean Difference (Net)|0.9||||0.82|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change from baseline to week 52||||0.82
92238428|NCT03504774|184381105|OTHER||Mean Difference (Net)|1.2||||0.053|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis on the change from baseline to week 58||||0.053
92238429|NCT03504774|184381105|OTHER||Mean Difference (Net)|0.3||||0.062|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change from week 52 to week 58||||0.062
92238430|NCT03504774|184381105|OTHER||Mean Difference (Net)|0.2||||0.3|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change from baseline to week 52||||0.30
92238431|NCT03504774|184381105|OTHER||Mean Difference (Net)|1.0||||0.54|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change from baseline to week 58||||0.54
92238432|NCT03504774|184381105|OTHER||Mean Difference (Net)|1.2||||0.82|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change from week 52 to week 58||||0.82
92238433|NCT03504774|184381106|OTHER||Mean Difference (Net)|4.8||||0.25|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from baseline to week 52||||0.25
92238434|NCT03504774|184381106|OTHER||Mean Difference (Net)|10.8||||0.24|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from baseline to week 58||||0.24
92238435|NCT03504774|184381106|OTHER||Mean Difference (Net)|6.0||||0.61|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from week 52 to week 58||||0.61
92238436|NCT03504774|184381106|OTHER||Mean Difference (Net)|8.5||||0.034|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from baseline to week 52||||0.034
92238437|NCT03504774|184381106|OTHER||Mean Difference (Net)|0.8||||0.45|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from baseline to week 58||||0.45
92238438|NCT03504774|184381106|OTHER||Mean Difference (Net)|7.7||||0.12|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from week 52 to week 58||||0.12
92238439|NCT03504774|184381106|OTHER||Mean Difference (Net)|1.0||||0.83|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from baseline to week 52||||0.83
92238440|NCT03504774|184381106|OTHER||Mean Difference (Net)|2.0||||0.67|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from baseline to week 58||||0.67
92238441|NCT03504774|184381106|OTHER||Mean Difference (Net)|1.0||||0.8|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from week 52 to week 58||||0.80
92238442|NCT03504774|184381106|OTHER||Mean Difference (Net)|1.7||||0.46|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from baseline to week 52||||0.46
92238443|NCT03504774|184381106|OTHER||Mean Difference (Net)|3.2||||0.48|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from baseline to week 58||||0.48
92238444|NCT03504774|184381106|OTHER||Mean Difference (Net)|3.2||||0.25|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from week 52 to week 58||||0.25
92238445|NCT03504774|184381106|OTHER||Mean Difference (Net)|2.6||||0.14|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from baseline to week 52||||0.14
92238446|NCT03504774|184381106|OTHER||Mean Difference (Net)|0.6||||0.73|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from baseline to week 58||||0.73
92441957|NCT00362115|184770207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.7469|TWO_SIDED|95.0|-3.49|2.5||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.50|-3.49|0.7469
92441958|NCT00362115|184770207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.1001|TWO_SIDED|95.0|-5.55|0.49||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.49|-5.55|0.1001
92441959|NCT00362115|184770207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.7294|TWO_SIDED|95.0|-3.52|2.47||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.47|-3.52|0.7294
92441960|NCT00362115|184770208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.0111|TWO_SIDED|95.0|-10.84|-1.41||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.41|-10.84|0.0111
92441961|NCT00362115|184770208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|||<|0.0001|TWO_SIDED|95.0|-15.51|-6.08||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.08|-15.51|< 0.0001
92441962|NCT00362115|184770208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.8|||<|0.0001|TWO_SIDED|95.0|-14.53|-5.1||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.10|-14.53|< 0.0001
92441963|NCT00362115|184770208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.3|||<|0.0001|TWO_SIDED|95.0|-17.02|-7.52||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.52|-17.02|< 0.0001
92441964|NCT00362115|184770208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5||||0.0005|TWO_SIDED|95.0|-13.19|-3.76||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.76|-13.19|0.0005
92441965|NCT00362115|184770208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.2768|TWO_SIDED|95.0|-2.06|7.17||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||7.17|-2.06|0.2768
92441966|NCT00362115|184770208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.3688|TWO_SIDED|95.0|-6.74|2.51||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.51|-6.74|0.3688
92441967|NCT00362115|184770208|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.1||||0.6293|TWO_SIDED|95.0|-5.75|3.48||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.48|-5.75|0.6293
92441968|NCT00362115|184770208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.1298|TWO_SIDED|95.0|-8.25|1.06||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.06|-8.25|0.1298
92441969|NCT00362115|184770208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.9315|TWO_SIDED|95.0|-4.41|4.82||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.82|-4.41|0.9315
92441970|NCT00362115|184770209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1||||0.0016|TWO_SIDED|95.0|-13.17|-3.09||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.09|-13.17|0.0016
92441971|NCT00362115|184770209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.1|||<|0.0001|TWO_SIDED|95.0|-15.17|-5.09||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.09|-15.17|< 0.0001
92441972|NCT00362115|184770209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|||<|0.0001|TWO_SIDED|95.0|-17.8|-7.72||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.72|-17.80|< 0.0001
92280126|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.099||||0.4848|TWO_SIDED|95.0|-0.376|0.179||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.179|-0.376|0.4848
92441973|NCT00362115|184770209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.36|-6.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.20|-16.36|< 0.0001
92238447|NCT03504774|184381106|OTHER||Mean Difference (Net)|2.0||||0.16|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from week 52 to week 58||||0.16
92238448|NCT03504774|184381106|OTHER||Mean Difference (Net)|1.8||||0.47|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from baseline to week 52||||0.47
92238449|NCT03504774|184381106|OTHER||Mean Difference (Net)|1.1||||0.84|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from baseline to week 58||||0.84
92238450|NCT03504774|184381106|OTHER||Mean Difference (Net)|0.7||||0.55|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from week 52 to week 58||||0.55
92238451|NCT03504774|184381107|OTHER||Mean Difference (Net)|2269.0||||0.23|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from baseline to week 52||||0.23
92238452|NCT03504774|184381107|OTHER||Mean Difference (Net)|1311.0||||0.12|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from baseline to week 58||||0.12
92238453|NCT03504774|184381107|OTHER||Mean Difference (Net)|958.0||||0.79|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from week 52 to week 58||||0.79
92238454|NCT03504774|184381107|OTHER||Mean Difference (Net)|347.0||||0.29|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from baseline to week 52||||0.29
92238455|NCT03504774|184381107|OTHER||Mean Difference (Net)|4364.0||||0.29|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from baseline to week 58||||0.29
92238456|NCT03504774|184381107|OTHER||Mean Difference (Net)|4017.0||||0.42|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from week 52 to week 58||||0.42
92238457|NCT03864237|184381137|SUPERIORITY||beta coefficient for condition|0.53|STANDARD_ERROR_OF_MEAN|0.93||0.568|TWO_SIDED|95.0|-1.31|2.37|||Regression, Linear|Regression controls for baseline value of outcome and sex to determine pre-post change in the outcome as a function of condition.||||2.37|-1.31|0.568
92280127|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.164||||0.2523|TWO_SIDED|95.0|-0.445|0.117||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.117|-0.445|0.2523
92441974|NCT00362115|184770209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.7|||<|0.0001|TWO_SIDED|95.0|-15.75|-5.63||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.63|-15.75|< 0.0001
92441975|NCT00362115|184770209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9909|TWO_SIDED|95.0|-4.96|4.91||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.91|-4.96|0.9909
92238458|NCT03864237|184381138|SUPERIORITY||beta coefficient for condition|1.22|STANDARD_ERROR_OF_MEAN|0.69||0.077|TWO_SIDED|95.0|-0.13|2.59|||Regression, Linear|||||2.59|-0.13|0.077
92238459|NCT03864237|184381139|SUPERIORITY||beta coefficient for condition|-1.21|STANDARD_ERROR_OF_MEAN|1.17||0.3|TWO_SIDED|95.0|-3.52|1.11|||Regression, Linear|||||1.11|-3.52|0.30
92238460|NCT03864237|184381140|SUPERIORITY||beta coefficient for condition|0.84|STANDARD_ERROR_OF_MEAN|1.09||0.44|TWO_SIDED|95.0|-1.31|3.0|||Regression, Linear|||||3.0|-1.31|0.44
92238461|NCT03864237|184381141|SUPERIORITY||Beta coefficient for condition|-0.25|STANDARD_ERROR_OF_MEAN|1.29||0.845|TWO_SIDED|95.0|-2.81|2.3|||Regression, Linear|||||2.30|-2.81|0.845
92238462|NCT03864237|184381142|SUPERIORITY||Beta coefficient for condition|0.3|STANDARD_ERROR_OF_MEAN|1.01||0.77|TWO_SIDED|95.0|-1.72|2.31|||Regression, Linear|||||2.31|-1.72|0.77
92238463|NCT03864237|184381143|SUPERIORITY||Beta coefficient for condition|1.77|STANDARD_ERROR_OF_MEAN|1.4||0.21|TWO_SIDED|95.0|-1.0|4.54|||Regression, Linear|||||4.54|-1.0|0.21
92238464|NCT04964063|184381166|OTHER||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.47|-1.19|||ANOVA||Q1: How intense are the sensation|||-1.19|-1.47|<.0001
92238465|NCT04964063|184381166|OTHER||Mean Difference (Final Values)|-1.61|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.77|-1.45|||ANOVA||Q2: How bothered are you by any sensation|||-1.45|-1.77|<.0001
92238466|NCT04964063|184381166|OTHER||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.33|-1.0|||ANOVA||Q3: How well can you tolerate sensations|||-1.00|-1.33|<.0001
92238467|NCT04964063|184381167|OTHER||Median Difference (Final Values)|-1.84|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.98|-1.7|||ANOVA||Q1: How intense are the sensation|||-1.70|-1.98|<.0001
92238468|NCT04964063|184381167|OTHER||Mean Difference (Final Values)|-2.17|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.33|-2.02|||ANOVA||Q2: How bothered are you by any sensation|||-2.02|-2.33|<.0001
92238469|NCT04964063|184381167|OTHER||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.61|-1.29|||ANOVA||Q3: How well can you tolerate sensations|||-1.29|-1.61|<.0001
92238470|NCT04964063|184381168|OTHER||Mean Difference (Final Values)|-2.29|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-2.43|-2.15|||ANOVA||Q1: How intense are the sensation|||-2.15|-2.43|<.0001
92238471|NCT04964063|184381168|OTHER||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.79|-2.47|||ANOVA||Q2: How bothered are you by any sensation|||-2.47|-2.79|<.0001
92238472|NCT04964063|184381168|OTHER||Mean Difference (Final Values)|-1.86|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.02|-1.7|||ANOVA||Q3: How well can you tolerate sensations|||-1.70|-2.02|<.0001
92238473|NCT04964063|184381169|OTHER||Mean Difference (Final Values)|-2.54|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-2.68|-2.4|||ANOVA||Q1: How intense are the sensation|||-2.40|-2.68|<.0001
92238474|NCT04964063|184381169|OTHER||Mean Difference (Final Values)|-2.89|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-3.05|-2.73|||ANOVA||Q2: How bothered are you by any sensation|||-2.73|-3.05|<.0001
92238475|NCT04964063|184381169|OTHER||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.2|-1.87|||ANOVA||Q3: How well can you tolerate sensations|||-1.87|-2.20|<.0001
92238476|NCT04964063|184381170|OTHER||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-2.84|-2.55|||ANOVA||Q1: How intense are the sensation|||-2.55|-2.84|<.0001
92238477|NCT04964063|184381170|OTHER||Mean Difference (Final Values)|-2.99|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-3.15|-2.83|||ANOVA||Q2: How bothered are you by any sensation|||-2.83|-3.15|<.0001
92238478|NCT04964063|184381170|OTHER||Mean Difference (Final Values)|-2.18|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.35|-2.02|||ANOVA||Q3: How well can you tolerate sensations|||-2.02|-2.35|<.0001
92441976|NCT00362115|184770209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.4213|TWO_SIDED|95.0|-6.96|2.92||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.92|-6.96|0.4213
92441977|NCT00362115|184770209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.0646|TWO_SIDED|95.0|-9.59|0.28||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.28|-9.59|0.0646
92441978|NCT00362115|184770209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2||||0.2107|TWO_SIDED|95.0|-8.15|1.8||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.80|-8.15|0.2107
92441979|NCT00362115|184770209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.3059|TWO_SIDED|95.0|-7.54|2.37||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.37|-7.54|0.3059
92441980|NCT00362115|184770210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.1653|TWO_SIDED|95.0|-5.69|0.98||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.98|-5.69|0.1653
92441981|NCT00362115|184770210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2||||0.0151|TWO_SIDED|95.0|-7.5|-0.81||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.81|-7.50|0.0151
92441982|NCT00362115|184770210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.048|TWO_SIDED|95.0|-6.7|-0.03||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.03|-6.70|0.0480
92441983|NCT00362115|184770210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.0098|TWO_SIDED|95.0|-7.81|-1.08||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.08|-7.81|0.0098
92441984|NCT00362115|184770210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.0113|TWO_SIDED|95.0|-7.68|-0.98||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.98|-7.68|0.0113
92441985|NCT00362115|184770210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.3416|TWO_SIDED|95.0|-1.68|4.84||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.84|-1.68|0.3416
92441986|NCT00362115|184770210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.8973|TWO_SIDED|95.0|-3.49|3.06||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.06|-3.49|0.8973
92441987|NCT00362115|184770210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.7292|TWO_SIDED|95.0|-2.69|3.84||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.84|-2.69|0.7292
92441988|NCT00362115|184770210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.7646|TWO_SIDED|95.0|-3.79|2.79||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.79|-3.79|0.7646
92441989|NCT00362115|184770210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.8133|TWO_SIDED|95.0|-3.67|2.88||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.88|-3.67|0.8133
92441990|NCT00362115|184770211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5|||<|0.0001|TWO_SIDED|95.0|-12.51|-4.51||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.51|-12.51|< 0.0001
92441991|NCT00362115|184770211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.1|||<|0.0001|TWO_SIDED|95.0|-17.31|-8.9||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.90|-17.31|< 0.0001
92441992|NCT00362115|184770211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.1|||<|0.0001|TWO_SIDED|95.0|-16.27|-7.95||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.95|-16.27|< 0.0001
92441993|NCT00362115|184770211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|||<|0.0001|TWO_SIDED|95.0|-21.07|-12.46||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-12.46|-21.07|< 0.0001
92441994|NCT00362115|184770211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.4|||<|0.0001|TWO_SIDED|95.0|-17.58|-9.17||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.17|-17.58|< 0.0001
92441995|NCT00362115|184770211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.3735|TWO_SIDED|95.0|-2.1|5.58||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||5.58|-2.10|0.3735
92238479|NCT04964063|184381171|OTHER||Median Difference (Final Values)|-2.94|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-3.08|-2.79|||ANOVA||Q1: How intense are the sensation|||-2.79|-3.08|<.0001
92238480|NCT04964063|184381171|OTHER||Median Difference (Final Values)|-3.24|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-3.4|-3.08|||ANOVA||Q2: How bothered are you by any sensation|||-3.08|-3.40|<.0001
92238481|NCT04964063|184381171|OTHER||Mean Difference (Final Values)|-2.37|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.53|-2.21|||ANOVA||Q3: How well can you tolerate sensations|||-2.21|-2.53|<.0001
92238482|NCT04964063|184381173|OTHER||Mean Difference (Final Values)|-17.93|STANDARD_ERROR_OF_MEAN|1.91|<|0.0001|TWO_SIDED|95.0|-20.81|-15.05|||ANOVA|||||-15.05|-20.81|<.0001
92171330|NCT02412748|184231810|SUPERIORITY|||||||0.389|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.389
92238483|NCT04964063|184381174|OTHER||Mean Difference (Final Values)|-31.2|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED|95.0|-34.04|-28.36|||ANOVA|||||-28.36|-34.04|<.0001
92238484|NCT04964063|184381175|OTHER||Mean Difference (Final Values)|-39.45|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED|95.0|-42.3|-36.59|||ANOVA|||||-36.59|-42.30|<.0001
92238485|NCT04964063|184381176|OTHER||Mean Difference (Final Values)|-44.37|STANDARD_ERROR_OF_MEAN|1.91|<|0.0001|TWO_SIDED|95.0|-47.24|-41.49|||ANOVA|||||-41.49|-47.24|<.0001
92238486|NCT04964063|184381177|OTHER||Mean Difference (Final Values)|-48.04|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-50.96|-45.12|||ANOVA|||||-45.12|-50.96|<.0001
92238487|NCT04964063|184381178|OTHER||Mean Difference (Final Values)|-52.47|STANDARD_ERROR_OF_MEAN|1.91|<|0.0001|TWO_SIDED|95.0|-55.33|-49.62|||ANOVA|||||-49.62|-55.33|<.0001
92280128|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.112||||0.4356|TWO_SIDED|95.0|-0.393|0.17||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.170|-0.393|0.4356
92441996|NCT00362115|184770211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.1668|TWO_SIDED|95.0|-6.91|1.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.20|-6.91|0.1668
92441997|NCT00362115|184770211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.3629|TWO_SIDED|95.0|-5.86|2.15||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.15|-5.86|0.3629
92441998|NCT00362115|184770211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5||||0.0022|TWO_SIDED|95.0|-10.67|-2.36||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.36|-10.67|0.0022
92441999|NCT00362115|184770211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.1303|TWO_SIDED|95.0|-7.18|0.93||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.93|-7.18|0.1303
92442000|NCT00362115|184770212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.4|||<|0.0001|TWO_SIDED|95.0|-8.12|-2.72||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.72|-8.12|< 0.0001
92442001|NCT00362115|184770212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5|||<|0.0001|TWO_SIDED|95.0|-11.33|-5.65||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.65|-11.33|< 0.0001
92442002|NCT00362115|184770212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.7|||<|0.0001|TWO_SIDED|95.0|-11.52|-5.9||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.90|-11.52|< 0.0001
92442003|NCT00362115|184770212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|||<|0.0001|TWO_SIDED|95.0|-13.73|-7.91||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.91|-13.73|< 0.0001
92442004|NCT00362115|184770212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.5|||<|0.0001|TWO_SIDED|95.0|-12.31|-6.64||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.64|-12.31|< 0.0001
92442005|NCT00362115|184770212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.1249|TWO_SIDED|95.0|-0.56|4.61||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.61|-0.56|0.1249
92442006|NCT00362115|184770212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.4542|TWO_SIDED|95.0|-3.79|1.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.70|-3.79|0.4542
92442007|NCT00362115|184770212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.3574|TWO_SIDED|95.0|-3.97|1.44||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.44|-3.97|0.3574
92442008|NCT00362115|184770212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.0184|TWO_SIDED|95.0|-6.18|-0.57||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.57|-6.18|0.0184
92442009|NCT00362115|184770212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.145|TWO_SIDED|95.0|-4.77|0.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.70|-4.77|0.1450
92442010|NCT00362115|184770213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9||||0.0009|TWO_SIDED|95.0|-12.46|-3.26||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.26|-12.46|0.0009
92442011|NCT00362115|184770213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|||<|0.0001|TWO_SIDED|95.0|-18.46|-8.77||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.77|-18.46|< 0.0001
92442012|NCT00362115|184770213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||<|0.0001|TWO_SIDED|95.0|-17.21|-7.63||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.63|-17.21|< 0.0001
92442013|NCT00362115|184770213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9|||<|0.0001|TWO_SIDED|95.0|-22.83|-12.92||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-12.92|-22.83|< 0.0001
92238488|NCT04964063|184381180|OTHER||Mean Difference (Final Values)|-2.45|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.88|-2.02|||ANOVA|||||-2.02|-2.88|<.0001
92238489|NCT04964063|184381181|OTHER||Mean Difference (Final Values)|-4.27|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-4.69|-3.85|||ANOVA|||||-3.85|-4.69|<.0001
92280129|NCT02637557|184463086|SUPERIORITY||LS Mean Difference|-0.199||||0.1706|TWO_SIDED|95.0|-0.485|0.086||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.086|-0.485|0.1706
92280130|NCT02637557|184463087|SUPERIORITY||LS Mean Difference|-0.02||||0.7689|TWO_SIDED|95.0|-0.155|0.115||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.115|-0.155|0.7689
92280131|NCT02637557|184463087|SUPERIORITY||LS Mean Difference|0.034||||0.6287|TWO_SIDED|95.0|-0.103|0.17||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.170|-0.103|0.6287
92442014|NCT00362115|184770213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.0001|TWO_SIDED|95.0|-18.52|-8.84||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.84|-18.52|< 0.0001
92442015|NCT00362115|184770213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.9424|TWO_SIDED|95.0|-4.25|4.58||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.58|-4.25|0.9424
92442016|NCT00362115|184770213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6||||0.0189|TWO_SIDED|95.0|-10.26|-0.93||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.93|-10.26|0.0189
92442017|NCT00362115|184770213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.0612|TWO_SIDED|95.0|-9.01|0.21||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.21|-9.01|0.0612
92442018|NCT00362115|184770213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9|||<|0.0001|TWO_SIDED|95.0|-14.63|-5.07||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.07|-14.63|< 0.0001
92442019|NCT00362115|184770213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.0175|TWO_SIDED|95.0|-10.33|-1.0||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.00|-10.33|0.0175
92442020|NCT00362115|184770214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.0108|TWO_SIDED|95.0|-7.26|-0.95||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.95|-7.26|0.0108
92280132|NCT02637557|184463087|SUPERIORITY||LS Mean Difference|0.07||||0.3106|TWO_SIDED|95.0|-0.066|0.207||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.207|-0.066|0.3106
92442021|NCT00362115|184770214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9|||<|0.0001|TWO_SIDED|95.0|-11.16|-4.55||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.55|-11.16|< 0.0001
92442022|NCT00362115|184770214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5|||<|0.0001|TWO_SIDED|95.0|-11.82|-5.26||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.26|-11.82|< 0.0001
92442023|NCT00362115|184770214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.6|||<|0.0001|TWO_SIDED|95.0|-13.98|-7.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.20|-13.98|< 0.0001
92238490|NCT04964063|184381182|OTHER||Mean Difference (Final Values)|-5.71|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-6.13|-5.28|||ANOVA|||||-5.28|-6.13|<.0001
92238491|NCT04964063|184381183|OTHER||Mean Difference (Final Values)|-6.45|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-6.88|-6.02|||ANOVA|||||-6.02|-6.88|<.0001
92238492|NCT04964063|184381184|OTHER||Median Difference (Final Values)|-7.01|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-7.45|-6.58|||ANOVA|||||-6.58|-7.45|<.0001
92238493|NCT04964063|184381185|OTHER||Mean Difference (Final Values)|-7.44|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-7.87|-7.01|||ANOVA|||||-7.01|-7.87|<.0001
92238494|NCT04964063|184381187|OTHER||Mean Difference (Final Values)|-6.33|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-7.46|-5.2|||ANOVA|||||-5.20|-7.46|<.0001
92238495|NCT04964063|184381188|OTHER||Mean Difference (Final Values)|-11.53|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-12.64|-10.41|||ANOVA|||||-10.41|-12.64|<.0001
92238496|NCT04964063|184381189|OTHER||Mean Difference (Final Values)|-14.54|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-15.66|-13.42|||ANOVA|||||-13.42|-15.66|<.0001
92238497|NCT04964063|184381190|OTHER||Median Difference (Final Values)|-16.54|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-17.67|-15.41|||ANOVA|||||-15.41|-17.67|<.0001
92238498|NCT04964063|184381191|OTHER||Mean Difference (Final Values)|-17.73|STANDARD_ERROR_OF_MEAN|0.73|<|0.0001|TWO_SIDED|95.0|-18.87|-16.58|||ANOVA|||||-16.58|-18.87|<.0001
92442024|NCT00362115|184770214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2|||<|0.0001|TWO_SIDED|95.0|-12.52|-5.9||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.90|-12.52|< 0.0001
92442025|NCT00362115|184770214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.306|TWO_SIDED|95.0|-1.45|4.59||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.59|-1.45|0.3060
92442026|NCT00362115|184770214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.1823|TWO_SIDED|95.0|-5.37|1.02||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.02|-5.37|0.1823
92442027|NCT00362115|184770214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.0751|TWO_SIDED|95.0|-6.01|0.29||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.29|-6.01|0.0751
92442028|NCT00362115|184770214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.0034|TWO_SIDED|95.0|-8.18|-1.64||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.64|-8.18|0.0034
92442029|NCT00362115|184770214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.0306|TWO_SIDED|95.0|-6.72|-0.33||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.33|-6.72|0.0306
92442030|NCT00362115|184770215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1||||0.0061|TWO_SIDED|95.0|-13.9|-2.33||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.33|-13.90|0.0061
92442031|NCT00362115|184770215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.5||||0.0002|TWO_SIDED|95.0|-17.56|-5.44||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.44|-17.56|0.0002
92442032|NCT00362115|184770215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.3|||<|0.0001|TWO_SIDED|95.0|-18.34|-6.28||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.28|-18.34|< 0.0001
92442033|NCT00362115|184770215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.5|||<|0.0001|TWO_SIDED|95.0|-23.75|-11.34||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-11.34|-23.75|< 0.0001
92442034|NCT00362115|184770215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.8|||<|0.0001|TWO_SIDED|95.0|-19.86|-7.8||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.80|-19.86|< 0.0001
92442035|NCT00362115|184770215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.9355|TWO_SIDED|95.0|-5.74|5.28||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||5.28|-5.74|0.9355
92442036|NCT00362115|184770215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.2223|TWO_SIDED|95.0|-9.41|2.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.20|-9.41|0.2223
92442037|NCT00362115|184770215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.1328|TWO_SIDED|95.0|-10.19|1.35||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.35|-10.19|0.1328
92442038|NCT00362115|184770215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.7||||0.0016|TWO_SIDED|95.0|-15.61|-3.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.70|-15.61|0.0016
92171331|NCT02412748|184231811|SUPERIORITY|||||||0.846|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.846
92442039|NCT00362115|184770215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9||||0.0437|TWO_SIDED|95.0|-11.7|-0.17||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.17|-11.70|0.0437
92442040|NCT00362115|184770216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.0417|TWO_SIDED|95.0|-8.39|-0.16||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.16|-8.39|0.0417
92171332|NCT02412748|184231812|SUPERIORITY|||||||0.871|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.871
92442041|NCT00362115|184770216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.0053|TWO_SIDED|95.0|-10.44|-1.84||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.84|-10.44|0.0053
92442042|NCT00362115|184770216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.8||||0.0004|TWO_SIDED|95.0|-12.12|-3.56||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.56|-12.12|0.0004
92238499|NCT04964063|184381192|OTHER||Mean Difference (Final Values)|-18.84|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-19.96|-17.72|||ANOVA|||||-17.72|-19.96|<.0001
92171333|NCT02412748|184231813|SUPERIORITY|||||||0.986|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.986
92238500|NCT04964063|184381194|OTHER||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-2.52|-1.56|||ANOVA|||||-1.56|-2.52|<.0001
92280133|NCT02637557|184463088|SUPERIORITY||LS Mean Difference|0.0||||0.9961|TWO_SIDED|95.0|-0.1|0.101||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.101|-0.100|0.9961
92171334|NCT02412748|184231814|SUPERIORITY|||||||0.791|||||||ANCOVA|||||||.791
92238501|NCT04964063|184381195|OTHER||Mean Difference (Final Values)|-3.69|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-4.17|-3.22|||ANOVA|||||-3.22|-4.17|<.0001
92238502|NCT04964063|184381196|OTHER||Mean Difference (Final Values)|-4.67|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-5.15|-4.2|||ANOVA|||||-4.20|-5.15|<.0001
92238503|NCT04964063|184381197|OTHER||Mean Difference (Final Values)|-5.24|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-5.72|-4.76|||ANOVA|||||-4.76|-5.72|<.0001
92238504|NCT04964063|184381198|OTHER||Mean Difference (Final Values)|-5.63|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-6.12|-5.14|||ANOVA|||||-5.14|-6.12|<.0001
92238505|NCT04964063|184381199|OTHER||Mean Difference (Final Values)|-6.24|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-6.72|-5.77|||ANOVA|||||-5.77|-6.72|<.0001
92238506|NCT04964063|184381201|OTHER||Mean Difference (Final Values)|-5.25|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-6.06|-4.44|||ANOVA|||||-4.44|-6.06|<.0001
92238507|NCT04964063|184381202|OTHER||Mean Difference (Final Values)|-8.52|STANDARD_ERROR_OF_MEAN|0.47|<|0.0001|TWO_SIDED|95.0|-9.32|-7.72|||ANOVA|||||-7.72|-9.32|<.0001
92238508|NCT04964063|184381203|OTHER||Mean Difference (Final Values)|-10.55|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-11.35|-9.75|||ANOVA|||||-9.75|-11.35|<.0001
92442043|NCT00362115|184770216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.6|||<|0.0001|TWO_SIDED|95.0|-13.97|-5.16||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.16|-13.97|< 0.0001
92442044|NCT00362115|184770216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.3|||<|0.0001|TWO_SIDED|95.0|-13.6|-5.03||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.03|-13.60|< 0.0001
92442045|NCT00362115|184770216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.6372|TWO_SIDED|95.0|-2.97|4.85||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.85|-2.97|0.6372
92442046|NCT00362115|184770216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.6588|TWO_SIDED|95.0|-5.05|3.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.20|-5.05|0.6588
92442047|NCT00362115|184770216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.2082|TWO_SIDED|95.0|-6.72|1.47||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.47|-6.72|0.2082
92442048|NCT00362115|184770216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.0437|TWO_SIDED|95.0|-8.57|-0.12||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.12|-8.57|0.0437
92442049|NCT00362115|184770216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.0495|TWO_SIDED|95.0|-8.19|-0.01||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.01|-8.19|0.0495
92442050|NCT00362115|184770217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.4||||0.0007|TWO_SIDED|95.0|-14.74|-3.97||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.97|-14.74|0.0007
92442051|NCT00362115|184770217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.4|||<|0.0001|TWO_SIDED|95.0|-19.02|-7.73||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.73|-19.02|< 0.0001
92442052|NCT00362115|184770217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4||||0.0003|TWO_SIDED|95.0|-16.0|-4.83||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.83|-16.00|0.0003
92442053|NCT00362115|184770217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.3|||<|0.0001|TWO_SIDED|95.0|-23.11|-11.47||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-11.47|-23.11|< 0.0001
92442054|NCT00362115|184770217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||<|0.0001|TWO_SIDED|95.0|-18.01|-6.78||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.78|-18.01|< 0.0001
92442055|NCT00362115|184770217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9||||0.2594|TWO_SIDED|95.0|-2.17|8.01||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||8.01|-2.17|0.2594
92442056|NCT00362115|184770217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.6859|TWO_SIDED|95.0|-6.46|4.26||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.26|-6.46|0.6859
92280134|NCT02637557|184463088|SUPERIORITY||LS Mean Difference|-0.008||||0.8829|TWO_SIDED|95.0|-0.109|0.094||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.094|-0.109|0.8829
92442057|NCT00362115|184770217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9||||0.4898|TWO_SIDED|95.0|-3.43|7.15||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||7.15|-3.43|0.4898
92171335|NCT02412748|184231815|SUPERIORITY|||||||0.583|||||||ANCOVA|||||||.583
92442058|NCT00362115|184770217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0||||0.076|TWO_SIDED|95.0|-10.55|0.53||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.53|-10.55|0.0760
92442059|NCT00362115|184770217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.9647|TWO_SIDED|95.0|-5.44|5.21||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||5.21|-5.44|0.9647
92442060|NCT00362115|184770218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.3||||0.0002|TWO_SIDED|95.0|-11.13|-3.43||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.43|-11.13|0.0002
92442061|NCT00362115|184770218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0|||<|0.0001|TWO_SIDED|95.0|-15.01|-6.97||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.97|-15.01|< 0.0001
92171336|NCT02412748|184231816|SUPERIORITY|||||||0.851|||||||ANCOVA|||||||.851
92238509|NCT04964063|184381204|OTHER||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-12.41|-10.79|||ANOVA|||||-10.79|-12.41|<.0001
92442062|NCT00362115|184770218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6|||<|0.0001|TWO_SIDED|95.0|-12.59|-4.64||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.64|-12.59|< 0.0001
92442063|NCT00362115|184770218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|||<|0.0001|TWO_SIDED|95.0|-17.79|-9.5||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.50|-17.79|< 0.0001
92442064|NCT00362115|184770218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.7|||<|0.0001|TWO_SIDED|95.0|-12.69|-4.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.70|-12.69|< 0.0001
92442065|NCT00362115|184770218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.279|TWO_SIDED|95.0|-1.63|5.62||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||5.62|-1.63|0.2790
92442066|NCT00362115|184770218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.3772|TWO_SIDED|95.0|-5.53|2.1||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.10|-5.53|0.3772
92442067|NCT00362115|184770218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.7302|TWO_SIDED|95.0|-3.11|4.43||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.43|-3.11|0.7302
92442068|NCT00362115|184770218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.0302|TWO_SIDED|95.0|-8.31|-0.42||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.42|-8.31|0.0302
92442069|NCT00362115|184770218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.7644|TWO_SIDED|95.0|-3.22|4.38||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.38|-3.22|0.7644
92442070|NCT00362115|184770219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.4||||0.0001|TWO_SIDED|95.0|-12.7|-4.19||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.19|-12.70|0.0001
92442071|NCT00362115|184770219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.0001|TWO_SIDED|95.0|-18.19|-9.24||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.24|-18.19|< 0.0001
92171337|NCT04218266|184231858|OTHER||Crude incidence ratio|0.42|||||TWO_SIDED|90.0|0.26|0.67||||||Comparison of the Asundexian pooled group (Asundexian 20 mg group and Asundexian 50 mg group) versus Apixaban group in all bleeding||0.67|0.26|
92238510|NCT04964063|184381205|OTHER||Mean Difference (Final Values)|-12.63|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-13.45|-11.81|||ANOVA|||||-11.81|-13.45|<.0001
92442072|NCT00362115|184770219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.2|||<|0.0001|TWO_SIDED|95.0|-16.66|-7.8||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.80|-16.66|< 0.0001
92238511|NCT04964063|184381206|OTHER||Mean Difference (Final Values)|-13.88|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-14.69|-13.08|||ANOVA|||||-13.08|-14.69|<.0001
92238512|NCT04964063|184381208|OTHER||Mean Difference (Final Values)|-1.88|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.43|-1.33|||ANOVA|||||-1.33|-2.43|<.0001
92238513|NCT04964063|184381209|OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-3.74|-2.65|||ANOVA|||||-2.65|-3.74|<.0001
92442073|NCT00362115|184770219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9|||<|0.0001|TWO_SIDED|95.0|-22.51|-13.35||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-13.35|-22.51|< 0.0001
92442074|NCT00362115|184770219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.0001|TWO_SIDED|95.0|-18.21|-9.25||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.25|-18.21|< 0.0001
92442075|NCT00362115|184770219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.6905|TWO_SIDED|95.0|-3.26|4.91||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.91|-3.26|0.6905
92442076|NCT00362115|184770219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.0433|TWO_SIDED|95.0|-8.76|-0.13||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.13|-8.76|0.0433
92442077|NCT00362115|184770219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.1736|TWO_SIDED|95.0|-7.22|1.31||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.31|-7.22|0.1736
92238514|NCT04964063|184381210|OTHER||Mean Difference (Final Values)|-3.98|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-4.53|-3.44|||ANOVA|||||-3.44|-4.53|<.0001
92442078|NCT00362115|184770219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.7||||0.0001|TWO_SIDED|95.0|-13.08|-4.23||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.23|-13.08|0.0001
92238515|NCT04964063|184381211|OTHER||Mean Difference (Final Values)|-4.55|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-5.1|-4.0|||ANOVA|||||-4.00|-5.10|<.0001
92171338|NCT04218266|184231860|OTHER||Crude incidence ratio|0.33|||||TWO_SIDED|90.0|0.09|0.97||||||Comparison of the Asundexian pooled group (Asundexian 20 mg group and Asundexian 50 mg group) versus Apixaban group in ISTH CRNM bleeding||0.97|0.09|
92238516|NCT04964063|184381212|OTHER||Median Difference (Final Values)|-5.04|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-5.6|-4.48|||ANOVA|||||-4.48|-5.60|<.0001
92238517|NCT04964063|184381213|OTHER||Mean Difference (Final Values)|-6.07|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-6.62|-5.53|||ANOVA|||||-5.53|-6.62|<.0001
92238518|NCT04964063|184381215|OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.1091|TWO_SIDED|95.0|-0.12|0.01|||ANOVA|||||0.01|-0.12|0.1091
92442079|NCT00362115|184770219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5||||0.0429|TWO_SIDED|95.0|-8.77|-0.14||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANOVA|||||-0.14|-8.77|0.0429
92442080|NCT00362115|184770220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.0009|TWO_SIDED|95.0|-7.77|-2.04||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.04|-7.77|0.0009
92442081|NCT00362115|184770220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.3|||<|0.0001|TWO_SIDED|95.0|-11.33|-5.32||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.32|-11.33|< 0.0001
92442082|NCT00362115|184770220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.7|||<|0.0001|TWO_SIDED|95.0|-11.63|-5.67||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.67|-11.63|< 0.0001
92442083|NCT00362115|184770220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.3|||<|0.0001|TWO_SIDED|95.0|-14.34|-8.18||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.18|-14.34|< 0.0001
92442084|NCT00362115|184770220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.4|||<|0.0001|TWO_SIDED|95.0|-12.37|-6.36||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.36|-12.37|< 0.0001
92442085|NCT00362115|184770220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.2068|TWO_SIDED|95.0|-0.98|4.5||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.50|-0.98|0.2068
92442086|NCT00362115|184770220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.2622|TWO_SIDED|95.0|-4.56|1.25||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.25|-4.56|0.2622
92442087|NCT00362115|184770220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.173|TWO_SIDED|95.0|-4.85|0.88||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.88|-4.85|0.1730
92442088|NCT00362115|184770220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.0025|TWO_SIDED|95.0|-7.56|-1.62||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.62|-7.56|0.0025
92442089|NCT00362115|184770220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.0681|TWO_SIDED|95.0|-5.6|0.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.20|-5.60|0.0681
92442090|NCT00362115|184770221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6||||0.0004|TWO_SIDED|95.0|-13.28|-3.87||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.87|-13.28|0.0004
92442091|NCT00362115|184770221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.3|||<|0.0001|TWO_SIDED|95.0|-17.26|-7.42||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.42|-17.26|< 0.0001
92442092|NCT00362115|184770221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|||<|0.0001|TWO_SIDED|95.0|-16.51|-6.78||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.78|-16.51|< 0.0001
92442093|NCT00362115|184770221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.3|||<|0.0001|TWO_SIDED|95.0|-19.38|-9.25||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.25|-19.38|< 0.0001
92442094|NCT00362115|184770221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.6|||<|0.0001|TWO_SIDED|95.0|-17.53|-7.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.70|-17.53|< 0.0001
92442095|NCT00362115|184770221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.1479|TWO_SIDED|95.0|-1.17|7.72||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||7.72|-1.17|0.1479
92442096|NCT00362115|184770221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.8382|TWO_SIDED|95.0|-5.16|4.19||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.19|-5.16|0.8382
92442097|NCT00362115|184770221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.9317|TWO_SIDED|95.0|-4.42|4.82||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.82|-4.42|0.9317
92238519|NCT04964063|184381216|OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.19|-0.06|||ANOVA|||||-0.06|-0.19|<.0001
92238520|NCT04964063|184381217|OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.23|-0.1|||ANOVA|||||-0.10|-0.23|<.0001
92238521|NCT04964063|184381218|OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.24|-0.11|||ANOVA|||||-0.11|-0.24|<.0001
92238522|NCT04964063|184381219|OTHER||Median Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.26|-0.13|||ANOVA|||||-0.13|-0.26|<.0001
92238523|NCT04964063|184381220|OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.31|-0.18|||ANOVA|||||-0.18|-0.31|<.0001
92442098|NCT00362115|184770221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.3169|TWO_SIDED|95.0|-7.29|2.37||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.37|-7.29|0.3169
92442099|NCT00362115|184770221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.7488|TWO_SIDED|95.0|-5.44|3.91||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.91|-5.44|0.7488
92442100|NCT00362115|184770222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||<|0.0001|TWO_SIDED|95.0|-9.98|-3.4||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.40|-9.98|< 0.0001
92442101|NCT00362115|184770222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.3|||<|0.0001|TWO_SIDED|95.0|-12.76|-5.86||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.86|-12.76|< 0.0001
92442102|NCT00362115|184770222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6|||<|0.0001|TWO_SIDED|95.0|-12.05|-5.22||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.22|-12.05|< 0.0001
92238524|NCT04964063|184381222|OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.95|-1.45|||ANOVA|||||-1.45|-1.95|<.0001
92238525|NCT04964063|184381223|OTHER||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-2.94|-2.44|||ANOVA|||||-2.44|-2.94|<.0001
92238526|NCT04964063|184381224|OTHER||Mean Difference (Final Values)|-3.09|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-3.35|-2.84|||ANOVA|||||-2.84|-3.35|<.0001
92238527|NCT04964063|184381225|OTHER||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-3.69|-3.19|||ANOVA|||||-3.19|-3.69|<.0001
92238528|NCT04964063|184381226|OTHER||Median Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-4.06|-3.55|||ANOVA|||||-3.55|-4.06|<.0001
92238529|NCT04964063|184381227|OTHER||Mean Difference (Final Values)|-4.26|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-4.51|-4.0|||ANOVA|||||-4.00|-4.51|<.0001
92238530|NCT01397071|184381228|OTHER||Mean Difference (Final Values)|2.2||||0.052|TWO_SIDED|95.0|||||t-test, 2 sided|||Comparison of change in PAT measurements was made to beef alone vs. beef with avocado 2 hours post-ingestion||||0.052
92238531|NCT01397071|184381229|OTHER||% of baseline|0.58||||0.03|TWO_SIDED|||||Significance is defined as p\<0.05.|t-test, 2 sided|||Comparison was made to beef patty alone vs. beef patty with avocado added 3 hours post-ingestion.||||0.03
92238532|NCT03350750|184381230|SUPERIORITY||ANCOVA Model Effect (Open vs. Closed)|0.22||||0.071|TWO_SIDED|95.0|-0.02|0.46|||ANCOVA||This is the coefficient for an indicator variable comparing the Open versus Closed shunt group, in a linear regression model with Month 4 gait velocity as the outcome and Baseline gait velocity included as a predictor along with treatment.|||0.46|-0.02|0.071
92238533|NCT03350750|184381231|SUPERIORITY|||||||0.337|||||||ANCOVA|||||||0.337
92238534|NCT03350750|184381232|SUPERIORITY|||||||0.007|||||||ANCOVA|||||||0.007
92238535|NCT03350750|184381233|SUPERIORITY|||||||0.201|||||||ANCOVA|||||||0.201
92238536|NCT03350750|184381234|SUPERIORITY|||||||0.172|||||||ANCOVA|||||||0.172
92238537|NCT03350750|184381235|SUPERIORITY|||||||0.78|||||||ANCOVA|||||||0.780
92238538|NCT03350750|184381236|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92238539|NCT03350750|184381237|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.240
92238540|NCT03350750|184381238|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||||||0.013
92238541|NCT03350750|184381239|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||||||0.019
92238542|NCT03350750|184381240|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.040
92238543|NCT03350750|184381241|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||||||0.013
92238544|NCT03350750|184381242|SUPERIORITY|||||||0.235|||||||Fisher Exact|Fisher's exact test with a mid-p-value correction||||||0.235
92238545|NCT00321984|184381247|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
92442103|NCT00362115|184770222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|||<|0.0001|TWO_SIDED|95.0|-13.92|-6.79||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.79|-13.92|< 0.0001
92442104|NCT00362115|184770222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.7|||<|0.0001|TWO_SIDED|95.0|-13.11|-6.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.20|-13.11|< 0.0001
92442105|NCT00362115|184770222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.4188|TWO_SIDED|95.0|-1.83|4.4||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.40|-1.83|0.4188
92442106|NCT00362115|184770222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.4255|TWO_SIDED|95.0|-4.62|1.95||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.95|-4.62|0.4255
92171339|NCT04218266|184231861|OTHER||Crude incidence ratio|0.47|||||TWO_SIDED|90.0|0.28|0.83||||||Comparison of the Asundexian pooled group (Asundexian 20 mg group and Asundexian 50 mg group) versus Apixaban group in ISTH minor bleeding||0.83|0.28|
92171340|NCT04218266|184231862|OTHER||Crude incidence ratio|0.33|||||TWO_SIDED|90.0|0.09|0.97|||Other|||Comparison of the Asundexian pooled group (Asundexian 20 mg group and Asundexian 50 mg group) versus Apixaban group in ISTH major bleeding or CRNM bleeding||0.97|0.09|
92238546|NCT00321984|184381247|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
92171341|NCT00879060|184231867|OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare continuous variable PINP (serum marker of collagen formation/degradation) between spironolactone treated and placebo groups at baseline.||||1.0
92238547|NCT00321984|184381247|SUPERIORITY_OR_OTHER|||||||0.72941||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.72941
92238548|NCT00321984|184381249|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
92238549|NCT00321984|184381249|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
92442107|NCT00362115|184770222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.6869|TWO_SIDED|95.0|-3.91|2.58||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.58|-3.91|0.6869
92442108|NCT00362115|184770222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.1678|TWO_SIDED|95.0|-5.77|1.01||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.01|-5.77|0.1678
92442109|NCT00362115|184770222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.3132|TWO_SIDED|95.0|-4.96|1.6||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.60|-4.96|0.3132
92442110|NCT00362115|184770223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.0||||0.0005|TWO_SIDED|95.0|-12.48|-3.52||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.52|-12.48|0.0005
92442111|NCT00362115|184770223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.6|||<|0.0001|TWO_SIDED|95.0|-15.24|-5.93||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.93|-15.24|< 0.0001
92442112|NCT00362115|184770223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.1|||<|0.0001|TWO_SIDED|95.0|-14.7|-5.44||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.44|-14.70|< 0.0001
92442113|NCT00362115|184770223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.2|||<|0.0001|TWO_SIDED|95.0|-17.95|-8.42||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.42|-17.95|< 0.0001
92442114|NCT00362115|184770223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.1|||<|0.0001|TWO_SIDED|95.0|-16.74|-7.48||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.48|-16.74|< 0.0001
92442115|NCT00362115|184770223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.8103|TWO_SIDED|95.0|-4.79|3.75||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.75|-4.79|0.8103
92442116|NCT00362115|184770223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.1702|TWO_SIDED|95.0|-7.57|1.34||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.34|-7.57|0.1702
92442117|NCT00362115|184770223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.2504|TWO_SIDED|95.0|-7.02|1.84||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.84|-7.02|0.2504
92442118|NCT00362115|184770223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.0144|TWO_SIDED|95.0|-10.28|-1.14||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.14|-10.28|0.0144
92442119|NCT00362115|184770223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.0402|TWO_SIDED|95.0|-9.06|-0.21||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.21|-9.06|0.0402
92442120|NCT00362115|184770224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.2||||0.0014|TWO_SIDED|95.0|-8.41|-2.04||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.04|-8.41|0.0014
92442121|NCT00362115|184770224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5|||<|0.0001|TWO_SIDED|95.0|-10.82|-4.22||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.22|-10.82|< 0.0001
92238550|NCT00321984|184381249|SUPERIORITY_OR_OTHER|||||||0.3146||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.31460
92238551|NCT02553915|184381256|OTHER|Comparisons were made for each biomarker within each arm pre and post 12 weeks of treatment.|||||<|0.1|||||||Kruskal-Wallis|||To evaluate whether a dose-response relationship exists between dose of EPA and decrease either in plasma IL-6 levels or in mitogen-stimulated PBMC TNF-α expression and secretion, when compared with placebo. \[Time Frame: 12 weeks\]. Comparisons were made within each arm pre and post 12 weeks of treatment.||||<0.10
92442122|NCT00362115|184770224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2|||<|0.0001|TWO_SIDED|95.0|-11.51|-4.93||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.93|-11.51|< 0.0001
92442123|NCT00362115|184770224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.1|||<|0.0001|TWO_SIDED|95.0|-12.49|-5.72||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.72|-12.49|< 0.0001
92442124|NCT00362115|184770224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6|||<|0.0001|TWO_SIDED|95.0|-10.87|-4.3||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.30|-10.87|< 0.0001
92442125|NCT00362115|184770224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.5519|TWO_SIDED|95.0|-2.11|3.95||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.95|-2.11|0.5519
92238552|NCT02553915|184381257|SUPERIORITY||||||<|0.1|||||||ANOVA|||"To evaluate:~1. whether EPA treatment produces a decrease in ratings of depression severity, when compared with placebo-treated subjects; and~2. whether the changes in IL-6 or mitogen- stimulated PBMC TNF-α expression mediate changes observed in ratings of depression.~\[Time Frame: 12 weeks\]"||||<0.1
92442126|NCT00362115|184770224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.3938|TWO_SIDED|95.0|-4.54|1.79||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.79|-4.54|0.3938
92442127|NCT00362115|184770224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.1949|TWO_SIDED|95.0|-5.21|1.07||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.07|-5.21|0.1949
92442128|NCT00362115|184770224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.0732|TWO_SIDED|95.0|-6.21|0.28||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.28|-6.21|0.0732
92442129|NCT00362115|184770224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.3669|TWO_SIDED|95.0|-4.59|1.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.70|-4.59|0.3669
92442130|NCT00362115|184770225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2||||0.0019|TWO_SIDED|95.0|-14.94|-3.41||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.41|-14.94|0.0019
92442131|NCT00362115|184770225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2||||0.0008|TWO_SIDED|95.0|-16.15|-4.26||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.26|-16.15|0.0008
92442132|NCT00362115|184770225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.9||||0.004|TWO_SIDED|95.0|-14.88|-2.85||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.85|-14.88|0.0040
92442133|NCT00362115|184770225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.6||||0.0001|TWO_SIDED|95.0|-18.96|-6.22||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.22|-18.96|0.0001
92442134|NCT00362115|184770225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9||||0.0004|TWO_SIDED|95.0|-16.85|-4.89||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.89|-16.85|0.0004
92442135|NCT00362115|184770225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.3499|TWO_SIDED|95.0|-8.39|2.98||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.98|-8.39|0.3499
92442136|NCT00362115|184770225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.2115|TWO_SIDED|95.0|-9.61|2.14||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.14|-9.61|0.2115
92442137|NCT00362115|184770225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.4279|TWO_SIDED|95.0|-8.34|3.54||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.54|-8.34|0.4279
92442138|NCT00362115|184770225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.0566|TWO_SIDED|95.0|-12.41|0.17||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.17|-12.41|0.0566
92442139|NCT00362115|184770225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.1435|TWO_SIDED|95.0|-10.3|1.5||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.50|-10.30|0.1435
92442140|NCT00362115|184770226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.1162|TWO_SIDED|95.0|-6.16|0.68||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.68|-6.16|0.1162
92442141|NCT00362115|184770226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.2494|TWO_SIDED|95.0|-5.69|1.48||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.48|-5.69|0.2494
92442142|NCT00362115|184770226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.4247|TWO_SIDED|95.0|-5.01|2.12||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.12|-5.01|0.4247
92442143|NCT00362115|184770226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.3007|TWO_SIDED|95.0|-5.79|1.8||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.80|-5.79|0.3007
92442144|NCT00362115|184770226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.1195|TWO_SIDED|95.0|-6.67|0.77||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.77|-6.67|0.1195
92442145|NCT00362115|184770226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.2032|TWO_SIDED|95.0|-5.76|1.23||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.23|-5.76|0.2032
92238553|NCT02553915|184381258|OTHER||||||<|0.01|||||||Kruskal-Wallis|||Change in IDS-C30 scores were compared pre and post 12 weeks of treatment with each intervention, within each arm.||||<0.01
92238554|NCT02553915|184381259|OTHER|Exploratory.|||||<|0.1|||||||Spearman Rank Order Correlation|||To evaluate whether EPA treatment produces decreases in mitogen-stimulated PBMC IL-6. \[Time Frame: 12 weeks\] Comparisons were made between pre and post treatment levels in each of the 4 treatment arms.||||<0.1
92238555|NCT02553915|184381260|OTHER|Exploratory|||||<|0.1|||||||Spearman Rank Order Correlation|||To evaluate whether EPA treatment produces decreases in the expression of inflammation pathway-related genes. \[Time Frame: 12 weeks\] (We evaluated gene expression of IL-6 and TNF-α.)||||<0.1
92238556|NCT01426386|184381346|OTHER|Based on the ANCOVA model the slope of the dose-response curve was estimated. Null hypothesis: Slope of dose-response curve equal to 0 (zero)|Slope of the dose-response curve|7.9|||<|0.001|TWO_SIDED|95.0|5.69|10.18||The a priori threshold for statistical significance was 5% (two-sided)|ANCOVA|Number of oocytes retrieved as dependent variable, centre and AMH strata (5.0-14.9 pmol/L and 15.0-44.9 pmol/L) as factors and log(dose) as covariate||The dose-response relationship was analysed using an analysis of covariance (ANCOVA) model||10.18|5.69|<0.001
92238557|NCT01426386|184381347|OTHER|Based on the ANCOVA model the slope of the dose-response curve was estimated. Null hypothesis: Slope of dose-response curve equal to 0 (zero)|Slope of the dose-response curve|11.1|||<|0.001|TWO_SIDED|95.0|6.78|15.48||No adjustment for multiplicity was applied for the secondary endpoints|ANCOVA|Follicular volume as dependent variable, centre and AMH strata (5.0-14.9 pmol/L and 15.0-44.9 pmol/L) as factors and log(dose) as covariate||The dose-response relationship was analysed using an analysis of covariance (ANCOVA) model||15.48|6.78|<0.001
92238558|NCT01426386|184381348|OTHER|Based on the ANCOVA model the slope of the dose-response curve was estimated. Null hypothesis: Slope of dose-response curve equal to 0 (zero)|Slope of the dose-response curve|0.8|||<|0.001|TWO_SIDED|95.0|0.56|1.11||No adjustment for multiplicity was applied for the secondary endpoints|ANCOVA|Log(estradiol) as dependent variable, AMH strata (5.0-14.9 pmol/L and 15.0-44.9 pmol/L) as factor, log(dose) and log(baseline estradiol) as covariates||The dose-response relationship was analysed using an analysis of covariance (ANCOVA) model||1.11|0.56|<0.001
92238559|NCT01426386|184381350|OTHER|Based on the ANCOVA model the slope of the dose-response curve was estimated. Null hypothesis: Slope of dose-response curve equal to 0 (zero)|Slope of the dose-response curve|3.2|||<|0.001|TWO_SIDED|95.0|1.71|4.78||No adjustment for multiplicity was applied for the secondary endpoints|ANCOVA|Fertilised oocytes as dependent variable, AMH strata (5.0-14.9 pmol/L and 15.0-44.9 pmol/L) as factor and log(dose) as covariate||The dose-response relationship was analysed using an analysis of covariance (ANCOVA) model||4.78|1.71|<0.001
92442146|NCT00362115|184770226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.3787|TWO_SIDED|95.0|-5.27|2.01||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.01|-5.27|0.3787
92442147|NCT00362115|184770226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.5967|TWO_SIDED|95.0|-4.59|2.64||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.64|-4.59|0.5967
92442148|NCT00362115|184770226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.4345|TWO_SIDED|95.0|-5.36|2.31||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.31|-5.36|0.4345
92442149|NCT00362115|184770226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.1954|TWO_SIDED|95.0|-6.24|1.28||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.28|-6.24|0.1954
92442150|NCT02188589|184770235|EQUIVALENCE|The difference between the mean baseline and mean follow-up NOSE scores was evaluated by paired t-test with significance indicated by p\<0.05.|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92442151|NCT00878709|184770240|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.008|TWO_SIDED|95.0|0.49|0.9|||Log Rank|The Log-rank test is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Invasive disease-free survival (iDFS) in neratinib arm compared to placebo arm.||0.90|0.49|0.008
92442152|NCT00878709|184770242|SUPERIORITY||Hazard Ratio (HR)|0.952||||0.6914|TWO_SIDED|95.0|0.747|1.212|||Log Rank|||The 2-sided P-value was based on stratified log-rank test (stratification factors: prior Trastuzumab (concurrent or sequential), nodal status (\<=3 or \>=4) and ER/PgR status (positive or negative). The hazard ratio and corresponding 95% CI from the stratified cox proportional hazard model were also presented.||1.212|0.747|0.6914
92442153|NCT00878709|184770243|OTHER||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.45|0.83|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Disease-free survival including ductal carcinoma in situ (DFS-DCIS) in neratinib arm compared to placebo arm.||0.83|0.45|
92171342|NCT00879060|184231867|OTHER||Mean Difference (Final Values)|0.2||||0.8|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare continuous variable PIIINP (serum marker of collagen formation/degradation) between spironolactone treated and placebo groups at baseline.||||0.8
92238560|NCT01426386|184381352|OTHER|Treatment groups were compared using the chi-squared test.||||||0.248||||||No adjustment for multiplicity was applied for the secondary endpoints|Chi-squared|||||||0.248
92238561|NCT00257192|184381363|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-1.8|STANDARD_ERROR_OF_MEAN|1.26||0.153|TWO_SIDED|95.0|-4.28|0.67||Mixed effects repeated measures (MMRM) analysis of covariance model with subject as random effect, treatment, region, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate.|ANCOVA|P-value for final analysis is to be adjusted due to planned interim analysis (0.0462).||Sample size for 85% power 2-tailed 0.05 significance level based on expected difference of -5 with average within-group standard deviation=13 was 276 subjects (2 to 1 ratio of enrollment: 184 ziprasidone, 92 placebo). Interim analysis at 60 percent (%) enrollment (ITT population): may stop trial early for efficacy (2-sided p-value less than (\<) 0.0124) or for futility (2-sided p-value greater than (\>) 0.4772; The final analysis is to employ a 2-sided p-value \<0.0462.||0.67|-4.28|0.1530
92238562|NCT00257192|184381364|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.21|STANDARD_ERROR_OF_MEAN|0.14||0.1289|TWO_SIDED|95.0|-0.48|0.06||Mixed effects repeated measures (MMRM) analysis of covariance model with subject as random effect, treatment, region, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate.|ANCOVA|Hochberg procedure was applied to p-value to preserve type I error in the analysis of key secondary endpoints (PANSS total score and CGI-S).||Difference from placebo||0.06|-0.48|0.1289
92442154|NCT00878709|184770245|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.52|1.05|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Distant disease free survival (DDFS) in neratinib arm compared to placebo arm.||1.05|0.52|
92442155|NCT00878709|184770247|OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.51|1.04|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Time to distant recurrence (TTDR) in neratinib arm compared to placebo arm.||1.04|0.51|
92442156|NCT00878709|184770251|OTHER||Hazard Ratio (HR)|0.73||||0.008|TWO_SIDED|95.0|0.57|0.92||The Log-rank test is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Log Rank||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Invasive disease-free survival (iDFS) in neratinib arm compared to placebo arm.||0.92|0.57|0.008
92442157|NCT00878709|184770253|OTHER||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.56|0.89|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|||0.89|0.56|
92442158|NCT00878709|184770254|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.6|1.01|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|||1.01|0.6|
92442159|NCT00878709|184770255|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.6|1.03|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|||1.03|0.60|
92442160|NCT00768300|184770257|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.74||||0.01|TWO_SIDED|95.0|1.14|2.66||P-value was based on a stratified log-rank test with strata of baseline presence of pulmonary hypertension and whether a surgical lung biopsy was performed with definite or probable usual interstitial pneumonia (UIP) based on core pathology review.|Log Rank||The hazard ratio was based on a stratified Cox proportional hazards model with strata of baseline presence of pulmonary hypertension and whether a surgical lung biopsy was performed with definite or probable UIP based on core pathology review.|||2.66|1.14|0.010
92442161|NCT00768300|184770259|SUPERIORITY_OR_OTHER||Point estimate|4.29||||0.086|TWO_SIDED|95.0|-0.805|9.376||P-value was calculated using the Van Elteren test with strata of baseline presence of PH and whether a SLB was performed with definite or probable UIP based on core pathology review.|Van Elteren test||The point estimate and 95% confidence interval (CI) were based on the Hodges-Lehmann Estimate of treatment effect for percent change from baseline.|||9.376|-0.805|0.086
92442162|NCT00768300|184770260|SUPERIORITY_OR_OTHER||Point estimate|2.85||||0.25|TWO_SIDED|95.0|-2.2|7.9||P-value was calculated using the Van Elteren test with strata of baseline presence of PH and whether a SLB was performed with definite or probable UIP based on core pathology review.|Van Elteren test||The point estimate and its 95% CI were based on the Hodges-Lehmann Estimate of treatment effect for percent change from baseline.|||7.90|-2.20|0.250
92442163|NCT00768300|184770261|SUPERIORITY_OR_OTHER||Point estimate|16.0||||0.15|TWO_SIDED|95.0|-5.0|37.0||P-value was calculated using the Van Elteren test with strata of baseline presence of PH and whether a SLB was performed with definite or probable UIP based on core pathology review.|Van Elteren test||The point estimate and 95% CI were based on the Hodges-Lehmann Estimate of treatment effect for percent change from baseline.|||37.00|-5.00|0.150
92442164|NCT00768300|184770264|SUPERIORITY_OR_OTHER||Point estimate|0.5||||0.793|TWO_SIDED|95.0|0.0|1.0||The p-value was based on a Wilcoxon rank sum test stratified by baseline pulmonary hypertension (Yes/No) and surgical lung biopsy was performed with definite or probable UIP based on core pathology review (Yes/No).|Wilcoxon (Mann-Whitney)||The point estimate and 95% confidence interval were based on the Hodges-Lehmann Estimate of treatment effect|||1.00|0.00|0.793
92442165|NCT03011307|184770272|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Intercept Difference in score on a scale|0.1||||0.75|TWO_SIDED|95.0|0.0|0.2||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||.2|0|0.75
92442166|NCT03011307|184770273|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Slope Difference|0.1||||0.057|TWO_SIDED|95.0|0.0|0.2||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||0.2|0.0|0.057
92442167|NCT03011307|184770274|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Intercept Difference in Daily Steps|-402.0||||0.41|TWO_SIDED|95.0|-1358.0|553.0||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||553|-1358|0.41
92442168|NCT03011307|184770275|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Mean Difference (Final Values)|344.0|||<|0.001|TWO_SIDED|95.0|173.0|515.0||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Slope Difference|||"The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.~The slope is the number of daily steps divided by the natural log of time in days."||515|173|<0.001
92442169|NCT03011307|184770276|SUPERIORITY|A likelihood-ratio test for change in World Health Organization Disability Assessment Score 2.0 value was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Intercept Difference: score on a scale|-5.9||||0.002|TWO_SIDED|95.0|-9.5|-2.3||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline World Health Organization Disability Assessment Score 2.0 value, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||-2.3|-9.5|0.002
92442170|NCT03011307|184770277|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Slope Difference|1.5||||0.001|TWO_SIDED|95.0|0.6|2.4||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||2.4|0.6|0.001
92442171|NCT03011307|184770278|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Mean Difference (Final Values)|0.00035||||0.537|TWO_SIDED|95.0|-0.00085|0.0015||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Intercept difference: Opioid probability|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||.0015|-.00085|0.537
92442172|NCT03011307|184770279|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Slope Difference: Opioid probability|-0.166||||0.01|TWO_SIDED|95.0|-0.172|-0.16||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||-0.160|-0.172|0.010
92442173|NCT03011307|184770280|SUPERIORITY||Mean Difference (Net)|3.0|STANDARD_DEVIATION|14.0||0.55|TWO_SIDED||||||Regression, Linear|||Scores were compared statistically at baseline and 2 months between groups using a generalized linear model with time as a fixed factor.||||.55
92442174|NCT03011307|184770281|SUPERIORITY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|2.2||0.46|TWO_SIDED||||||Regression, Linear|||Groups were compared over time from baseline to 2 months using a generalized linear model with time as a fixed factor.||||0.46
92442175|NCT03011307|184770282|SUPERIORITY||Mean Difference (Final Values)|0.24|STANDARD_DEVIATION|0.84||0.38|TWO_SIDED||||||Regression, Linear|||Groups were compared between preoperative and 2 month postoperative sessions using linear regression with time as a fixed factor.||||0.38
92442176|NCT00877058|184770316|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27|||<|0.05|TWO_SIDED|95.0|0.15|0.48|||Chi-squared|||||0.48|0.15|<0.05
92442177|NCT00877058|184770316|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.001|TWO_SIDED|0.05|0.24|0.68|||Chi-squared|||||0.68|0.24|0.001
92442178|NCT00877058|184770317|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56|||<|0.05|TWO_SIDED|95.0|0.96|2.52|||Chi-squared|||||2.52|0.96|<0.05
92442179|NCT00877058|184770317|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28|||<|0.05|TWO_SIDED|95.0|0.79|2.08|||Chi-squared|||||2.08|0.79|<0.05
92442180|NCT00877058|184770318|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55|||<|0.05|TWO_SIDED|95.0|0.31|0.97|||Chi-squared|||||0.97|0.31|<0.05
92442181|NCT00877058|184770318|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58|||<|0.05|TWO_SIDED|95.0|0.33|1.02|||Chi-squared|||||1.02|0.33|<0.05
92442182|NCT00567892|184770319|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.944|TWO_SIDED|95.0|-6.0|4.0||All statistical tests were two-sided and were evaluated at the α = 0.05 level of significance.|Wilcoxon signed rank test|Since the assumptions of parametric tests were not met we used non-parametric tests for the analysis.||The null hypothesis for this study was the difference between the change in THI score due to active rTMS treatment and the change in THI score due to rTMS sham was not different from 0.||4|-6|0.944
92442183|NCT00567892|184770319|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.0||||0.674|TWO_SIDED|95.0|-9.0|10.0|||Wilcoxon signed rank test|The assumptions of parametric tests were not met.|All statistical tests were two-sided and were evaluated at the α = 0.05 level of significance.|The null hypothesis for this study was the difference between the change in THI score due to 4 weeks active rTMS treatment and the change in THI score due to 4 weeks rTMS sham was not different from 0.||10|-9|0.674
92442184|NCT03722017|184770324|SUPERIORITY||Risk Ratio (RR)|0.91||||0.006|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 1 applies to the Hospital Discharge Timepoint||||0.006
92442185|NCT03722017|184770324|SUPERIORITY||Risk Ratio (RR)|0.93||||0.11|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 2 applies to the SNF Discharge Timepoint||||0.110
92442186|NCT03722017|184770324|SUPERIORITY||Risk Ratio (RR)|0.92||||0.06|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 3 applies to the 90 Day Follow-Up Timepoint||||0.060
92442187|NCT03722017|184770325|SUPERIORITY||Mean Difference (Net)|-0.049||||0.738|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 1 applies to the Hospital Discharge Timepoint||||0.738
92442188|NCT03722017|184770325|SUPERIORITY||Mean Difference (Net)|0.001||||0.995|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 2 applies to the SNF Discharge Timepoint||||0.995
92442189|NCT03722017|184770325|SUPERIORITY||Mean Difference (Net)|0.058||||0.721|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 3 applies to the 90 Day Follow Up Timepoint||||0.721
92240050|NCT00570739|184383807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.47|||<|0.0001|TWO_SIDED|95.0|-16.26|-8.69||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||-8.69|-16.26|<0.0001
92442190|NCT00525174|184770377|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Regression, Logistic|||Logistic regression was performed comparing the proportions of patients in each treatment group who had no improvement or worsening in amblyopic eye visual acuity from baseline to 24 weeks (change from baseline \<= +4 letters for E-ETDRS testing).||||0.02
92240051|NCT00570739|184383807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.28|||<|0.0001|TWO_SIDED|95.0|-15.15|-5.41||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||-5.41|-15.15|<0.0001
92442191|NCT00525174|184770378|NON_INFERIORITY_OR_EQUIVALENCE|The trial was designed as a non-inferiority study. The sample size was computed to be 170 subjects to have 90% power and a type I error rate of 5% for a noninferiority limit of 0.075 logarithm of minimum angle of resolution (logMAR), based on assumed standard deviation of 24-week visual acuity scores of 0.16 logMAR, a correlation between baseline and final acuities of 0.20, and 10% noncompletion of the study primary outcome examination.|Mean Difference (Net)|0.38|||||ONE_SIDED|95.0||0.76|||ANCOVA|The logMAR visual acuity scores were adjusted for baseline amblyopic eye acuity.||The trial was designed as a non-inferiority study. The sample size was computed to be 170 subjects to have 90% power and a type I error rate of 5% for a noninferiority limit of 0.075 logarithm of minimum angle of resolution (logMAR), based on assumed standard deviation of 24-week visual acuity scores of 0.16 logMAR, a correlation between baseline and final acuities of 0.20, and 10% noncompletion of the study primary outcome examination.||0.76||
92442192|NCT00525174|184770378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.38||||0.09|TWO_SIDED|95.0|-0.06|0.83|||ANCOVA|The logMAR visual acuity scores were adjusted for baseline amblyopic eye acuity.||In addition to the test of non-inferiority, an efficacy test of Patching over Bangerter filters was also completed.||0.83|-0.06|0.09
92442193|NCT00525174|184770378|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Mixed Models Analysis|||Treatment group difference in rate of improvement was evaluated using a population averaged linear mixed model after performing an inverse transformation of time to obtain linearity.||||0.20
92442194|NCT00525174|184770378|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||ANCOVA|||The relationship between the fellow eye blur from the Bangerter filter at baseline and amblyopic improvement at the 24-week outcome was evaluated with an ANCOVA model with acuity in the fellow eye being categorized as better than versus equal to or worse than acuity in the amblyopic eye.||||0.49
92442195|NCT00525174|184770378|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||ANCOVA|||The association of fixation preference while the Bangerter filter was over the fellow eye at baseline (amblyopic eye, fellow eye, alternates) with 24-week amblyopic eye acuity was evaluated in an ANCOVA model.||||0.21
92442196|NCT00525174|184770380|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Regression, Logistic|||Logistic regression was used to compare the proportion of patients in each treatment group with amblyopic eye visual acuity within 1 line of the fellow eye or better.||||0.27
92442197|NCT00525174|184770381|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Regression, Logistic|||Logistic regression was used to compare the proportion of patients in each treatment group with amblyopic visual acuity 20/25 or better at 24 weeks.||||0.86
92442198|NCT00525174|184770381|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Regression, Cox|||The time to first achieve amblyopic eye visual acuity of 20/25 or better was evaluated using a Cox proportional hazard model.||||0.28
92442199|NCT00525174|184770382|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Regression, Logistic|||Logistic regression was used to compare the proportion of patients with 3 or more lines of amblyopic eye visual acuity improvement from baseline to 24 weeks.||||0.61
92442200|NCT00525174|184770385|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Wilcoxon rank-sum|||A Wilcoxon rank-sum test was used to evaluate change in Randot Preschool stereoacuity levels from baseline to 24 weeks by treatment group.||||0.90
92442201|NCT00525174|184770386|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||Wilcoxon rank-sum|||A Wilcoxon rank-sum test was used to evaluate change in Randot Preschool stereoacuity levels from baseline to 24 weeks by treatment group.||||0.88
92442202|NCT00525174|184770388|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||ANCOVA|||A treatment group difference in the fellow eye visual acuity at 24 weeks was evaluated in an ANCOVA model adjusted for the baseline fellow eye acuity.||||0.07
92442203|NCT00525174|184770388|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Fisher Exact|||The Fisher exact test was used to compare the proportion of subjects in each treatment group who tested 2 or more logMAR lines worse in the fellow eye at 24 weeks compared with baseline.||||0.21
92442204|NCT00525174|184770389|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of impact of treatment at 6 weeks.||||0.03
92442205|NCT00525174|184770390|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of impact of treatment at 24 weeks.||||<0.001
92442206|NCT00525174|184770391|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of the adverse effects subscale at 6 weeks.||||0.90
92442207|NCT00525174|184770392|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of the adverse effects subscale at 24 weeks.||||0.01
92442208|NCT00525174|184770393|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of the compliance subscale at 6 weeks.||||0.12
92442209|NCT00525174|184770394|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of the compliance subscale at 24 weeks.||||0.001
92442210|NCT00525174|184770395|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of social stigma at 6 weeks.||||<0.001
92442211|NCT00525174|184770396|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of social stigma at 24 weeks.||||<0.001
92442212|NCT04254978|184770416|SUPERIORITY||||||<|0.0001|||||||Exact binomial distribution|||Comparison of the true response rate of bomedemstat to a fixed efficacy target of 5%: Null hypothesis (H0): p ≤ 0.05 versus alternate hypothesis (H1): p \> 0.05||||<.0001
92442213|NCT02310919|184770434|NON_INFERIORITY|For the non-inferiority hypothesis testing of the primary outcome, a one-sided 95% CI was constructed for the relative risk. The alternative trigger will be considered non-inferior to the standard trigger if the lower bound of the one-sided CI of the relative risk is not less than 0.8 (i.e. risk reduction limit of 20%).|Risk Ratio (RR)|0.91|||||ONE_SIDED|95.0|0.83|||Using the standard trigger as the reference, the relative risk (i.e. risk ratio) (RR) with 95% confidence interval (CI) for the probability of the outcome was calculated using log-binomial regression models with application of GEE.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|The alternative trigger will be considered non-inferior to the standard hCG trigger if it is at least 80% as effective at inducing oocyte competence. Considering a cluster size of 15 oocytes and an estimated intra-cluster correlation of 0.1, we calculated that approximately 50 participants were needed in each study arm when the non-inferiority difference is -0.1 (i.e. 20% of 0.5 total competent proportion) with a power of 0.8 and a one-sided alpha of 0.05.|||0.83|
92442214|NCT02310919|184770435|SUPERIORITY||Risk Ratio (RR)|0.85||||0.06|TWO_SIDED|95.0|0.71|1.01||The statistical significance was based on a two-sided alpha of 0.05.|generalized linear model with log link|Comparison was done using generalized linear modeling with log link function|The numerator was the outcome with the alternative trigger, and the denominator was the outcome with the standard trigger.|The null hypothesis was that there would be no difference in number of oocytes retrieved between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.01|0.71|0.06
92238563|NCT00257192|184381365|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-2.57|STANDARD_ERROR_OF_MEAN|2.0||0.1987||95.0|-6.5|1.36||Mixed effects repeated measures (MMRM) analysis of covariance model with subject as random effect, treatment, region, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate.|ANCOVA|Hochberg procedure was applied to p-value to preserve type I error in the analysis of key secondary endpoints (PANSS total score and CGI-S).||Total score: difference from placebo||1.36|-6.50|0.1987
92442215|NCT02310919|184770436|SUPERIORITY||Risk Ratio (RR)|0.87||||0.13|TWO_SIDED|95.0|0.72|1.04||The statistical significance was based on a two-sided alpha of 0.05.|generalized linear model with log link|Comparison was done using generalized linear modeling with log link function.|The numerator was the outcome with the alternative trigger, and the denominator was the outcome with the standard trigger.|The null hypothesis was that there would be no difference in the number of MII oocytes retrieved between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.04|0.72|0.13
92442216|NCT02310919|184770437|SUPERIORITY||Risk Ratio (RR)|0.97||||0.47|TWO_SIDED|95.0|0.9|1.05||The statistical significance was based on a two-sided alpha of 0.05.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|The null hypothesis was that there would be no difference in oocyte maturity rate retrieved between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.05|0.90|0.47
92442217|NCT02310919|184770438|SUPERIORITY||Risk Ratio (RR)|0.88||||0.01|TWO_SIDED|95.0|0.76|0.97||The statistical significance was based on a two-sided alpha of 0.05.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|||0.97|0.76|0.01
92442218|NCT02310919|184770439|SUPERIORITY||Risk Ratio (RR)|1.0||||0.95|TWO_SIDED|95.0|0.9|1.1||The statistical significance was based on a two-sided alpha of 0.05.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|The null hypothesis was that there would be no difference in ICSI fertilization rate retrieved between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.10|0.90|0.95
92442219|NCT02310919|184770440|SUPERIORITY||Risk Ratio (RR)|0.95||||0.52|TWO_SIDED|95.0|0.81|1.12||The statistical significance was based on a two-sided alpha of 0.05.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|The null hypothesis was that there would be no difference in the percentage of high quality cleavage-stage embryos between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.12|0.81|0.52
92442220|NCT02310919|184770441|SUPERIORITY||Risk Ratio (RR)|0.99||||0.87|TWO_SIDED|95.0|0.84|1.16||The statistical significance was based on a two-sided alpha of 0.05.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|||1.16|0.84|0.87
92442221|NCT02310919|184770442|SUPERIORITY||Risk Ratio (RR)|1.01||||1|TWO_SIDED|95.0|0.59|1.74||The statistical significance was based on a two-sided alpha of 0.05.|Fisher Exact||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|The null hypothesis was that there would be no difference in livebirths in fresh transfers between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.74|0.59|1.0
92442222|NCT02310919|184770443|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that there would be no difference in the change in bloating scores from day of baseline ultrasound to post-trigger day 5 between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||||0.98
92442223|NCT02310919|184770444|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that there would be no difference in the change in abdominal circumference from day of baseline ultrasound to post-trigger day 5 between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||||0.39
92442224|NCT02310919|184770445|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that there would be no difference in the change in body weight from day of baseline ultrasound to post-trigger day 5 between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||||0.41
92442225|NCT02310919|184770446|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92442226|NCT02310919|184770447|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92442227|NCT02310919|184770448|SUPERIORITY|||||||0.08||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.08
92442228|NCT02310919|184770449|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92442229|NCT02310919|184770450|SUPERIORITY|||||||0.67||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.67
92442230|NCT02310919|184770451|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92442231|NCT02310919|184770452|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92442232|NCT02310919|184770453|SUPERIORITY|||||||0.49||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.49
92280135|NCT02637557|184463088|SUPERIORITY||LS Mean Difference|0.1||||0.0527|TWO_SIDED|95.0|-0.001|0.201||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.201|-0.001|0.0527
92442233|NCT02310919|184770454|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92442234|NCT02310919|184770455|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92238564|NCT00257192|184381366|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-1.33|STANDARD_ERROR_OF_MEAN|0.65||0.0412|TWO_SIDED|95.0|-2.61|-0.05||Mixed effects repeated measures (MMRM) analysis of covariance model with subject as random effect, treatment, region, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.|ANCOVA|||Positive score: difference from placebo||-0.05|-2.61|0.0412
92442235|NCT02310919|184770456|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92442236|NCT02310919|184770457|SUPERIORITY|||||||0.16||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.16
92238565|NCT00257192|184381366|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.43|STANDARD_ERROR_OF_MEAN|0.58||0.4661|TWO_SIDED|95.0|-1.57|0.72||Mixed effects repeated measures (MMRM) analysis of covariance model with subject as random effect, treatment, region, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.|ANCOVA|||Negative score: difference from placebo||0.72|-1.57|0.4661
92238566|NCT00257192|184381367|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.19|STANDARD_ERROR_OF_MEAN|0.14||0.182|TWO_SIDED|95.0|-0.47|0.09||Mixed effects MMRM with subject as random effect, treatment, region, visit and visit-by-treatment interaction as fixed effects.|ANOVA|||Difference from placebo||0.09|-0.47|0.1820
92442237|NCT02310919|184770458|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92442238|NCT02310919|184770459|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92442239|NCT02310919|184770460|SUPERIORITY|||||||0.95||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.95
92442240|NCT02310919|184770461|SUPERIORITY|||||||0.07||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.07
92442241|NCT02310919|184770462|SUPERIORITY|||||||0.66||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.66
92171343|NCT00879060|184231867|OTHER||Mean Difference (Final Values)|0.3||||0.3|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.aseline.|t-test, 2 sided|||A two-sample T-test was used to compare continuous variable ICTP (serum marker of collagen formation/degradation) between spironolactone treated and placebo groups at baseline.||||0.3
92238567|NCT00257192|184381375|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|1.34|STANDARD_ERROR_OF_MEAN|1.19||0.2613|TWO_SIDED|95.0|-1.01|3.69||SAS PROC MIXED to fit a mixed model analysis of covariance with treatment and region as fixed effects and baseline score as covariate.|ANCOVA|Observed cases at Week 6.||Neurocognitive Index score at Week 6: difference from placebo||3.69|-1.01|0.2613
92238568|NCT01158950|184381384|SUPERIORITY|||||||0.032||||||The threshold for statistical significance was set to p \< 0.05.|Fisher transformation|||The comparison group represents the difference in ICR and the baseline impulsiveness scale.||||0.032
92238569|NCT01158950|184381385|SUPERIORITY||||||<|0.05||||||The threshold is set to p \< 0.05, corrected for multiple comparisons.|Fisher transformation|Statistical tests are computed across multiple subregions (voxels) within each area. Thus, the correlation coefficient above is a summary score.||||||< 0.05
92238570|NCT02137772|184381386|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-23.5|||<|0.0001|TWO_SIDED|95.0|-32.5|-14.6||A 1-sided p-value ≤0.0249 for the risk difference was used for declaring statistical significance|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||-14.6|-32.5|<0.0001
92238571|NCT02137772|184381387|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Nominal 2-sided p-value|Log Rank|The log rank test was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||||<0.0001
92442242|NCT03244865|184770463|NON_INFERIORITY|Non-inferiority will be verified if the RMSE between the two systems is within 7 BPM. A complete power analysis was not included as this is a pilot study.|||||<|0.1||||||Pilot Study|t-test, 2 sided|||There is only one ARM in the study. Standard monitoring and LaborView monitoring will be collected simultaneously and analyzed.||||<.1
92442243|NCT00277212|184770465|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.552||||0.058|TWO_SIDED|95.0|0.296|1.03||stratified Log-Rank test, controlling for type of index mood episode|Log Rank||Cox's proportional hazards model, with type of index modd episode as stratification factor, and randomized treatment group as covariate.|||1.030|0.296|0.058
92442244|NCT00277212|184770466|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.671||||0.055|TWO_SIDED|95.0|0.446|1.011||p-value for equality of survival curves|Log Rank|stratified log-rank test, controlling for type of index mood episode|aripiprazole/placebo; Cox's proportional hazards model, with type of index mood episode as stratification facto, and randomized treatment group as covariate.|||1.011|0.446|0.055
92442245|NCT00277212|184770467|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.784||||0.381|TWO_SIDED|95.0|0.454|1.354||p-value for equality of survival curves|Log Rank|stratified log-rank test, conrolling for type of index mood episode|aripiprazole/placebo; Cox's proportional hazards model, with type of index mood episode as stratification facto, and randomized treatment group as covariate.|||1.354|0.454|0.381
92442246|NCT00277212|184770468|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.871||||0.295|TWO_SIDED|95.0|0.672|1.128||p-value for equality of survival curves|Log Rank|stratified Log-Rank Test, controlling for type of index mood episode|aripiprazole/placebo; Cox's proportional hazards model, with type of index mood episode as stratification facto, and randomized treatment group as covariate.|||1.128|0.672|0.295
92442247|NCT00277212|184770470|SUPERIORITY_OR_OTHER||Treatement Difference|2.24||||0.001|TWO_SIDED|95.0|0.91|3.57||ANOVA (main effects=double-blind treatment, covariate=index mood episode) used for baseline comparisons. ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons|ANCOVA||Aripiprazole vs. placebo|Week 52 LOCF||3.57|0.91|0.001
92442248|NCT00277212|184770471|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.56||||0.073|TWO_SIDED|95.0|0.29|1.07|||Cochran-Mantel-Haenszel||aripiprazole/placebo|Week 52 LOCF||1.07|0.29|0.073
92442249|NCT00277212|184770471|SUPERIORITY_OR_OTHER|||||||0.194||95.0|||||Cochran-Mantel-Haenszel|||At Any Time||||0.194
92442250|NCT00277212|184770472|SUPERIORITY_OR_OTHER||relative risk|3.41||||0.007|TWO_SIDED|95.0|1.3|8.94|||Cochran-Mantel-Haenszel|||Week 52 LOCF||8.94|1.30|0.007
92442251|NCT00277212|184770472|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92442252|NCT00277212|184770473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.467|TWO_SIDED|95.0|-2.37|1.09||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA model, with double-blind treatment as main effects and index mood episode as covariate, is used for Baseline comparisons.|aripiprazole - placebo|Baseline||1.09|-2.37|0.467
92442253|NCT00277212|184770473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36|||||TWO_SIDED|95.0|-0.06|0.78||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 12||0.78|-0.06|
92442254|NCT00277212|184770473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75|||||TWO_SIDED|95.0|0.19|1.3||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 24||1.30|0.19|
92442255|NCT00277212|184770473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97|||||TWO_SIDED|95.0|0.08|1.86||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 36||1.86|0.08|
92442256|NCT00277212|184770473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|||||TWO_SIDED|95.0|-0.08|1.92||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 52||1.92|-0.08|
92442257|NCT00277212|184770473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79||||0.001|TWO_SIDED|95.0|0.31|1.26||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 52 (LOCF)||1.26|0.31|0.001
92442258|NCT00277212|184770473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.002|TWO_SIDED|95.0|0.23|1.04||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Highest Change from baseline||1.04|0.23|0.002
92442259|NCT00277212|184770479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.971|TWO_SIDED|95.0|-0.35|0.34||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANOVA|ANOVA model, with double-blind treatment as main effects, is used for Baseline comparisons.|aripiprazole - placebo|Baseline||0.34|-0.35|0.971
92442260|NCT00277212|184770479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||||TWO_SIDED|95.0|-0.03|0.51||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 8||0.51|-0.03|
92442261|NCT00277212|184770479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||||TWO_SIDED|95.0|-0.13|0.6||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 24||0.60|-0.13|
92442262|NCT00277212|184770479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||||TWO_SIDED|95.0|-0.06|0.55||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 36||0.55|-0.06|
92442263|NCT00277212|184770479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|||||TWO_SIDED|95.0|-0.06|0.65||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 52||0.65|-0.06|
92238572|NCT02137772|184381388|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-31.3|||<|0.0001|TWO_SIDED|95.0|-39.9|-22.6||Nominal 1-sided p-value|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||-22.6|-39.9|<0.0001
92238573|NCT02137772|184381389|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.4||||0.4056|TWO_SIDED|95.0|-4.0|3.2||Nominal 1-sided p-value|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||3.2|-4.0|0.4056
92238574|NCT02137772|184381390|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.0||||0.2258|TWO_SIDED|95.0|-3.5|1.5||Nominal 1-sided p-value|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||1.5|-3.5|0.2258
92238575|NCT02137772|184381391|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-31.0|||<|0.0001|TWO_SIDED|95.0|-39.6|-22.4||Nominal 1-sided p-value|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||-22.4|-39.6|<0.0001
92238576|NCT02137772|184381392|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-23.3|||<|0.0001|TWO_SIDED|95.0|-32.3|-14.3||Nominal 1-sided p-value|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||-14.3|-32.3|<0.0001
92442264|NCT00277212|184770479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.095|TWO_SIDED|95.0|-0.04|0.52||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 52 (LOCF)||0.52|-0.04|0.095
92442265|NCT00277212|184770479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.061|TWO_SIDED|95.0|-0.01|0.63||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripirazole - placebo|Highest change from Baseline||0.63|-0.01|0.061
92442266|NCT00277212|184770480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.458||95.0|-0.25|0.11||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANOVA|ANOVA model, controlling for treatment, is used for baseline estimates.|aripiprazole - placebo|Baseline||0.11|-0.25|0.458
92442267|NCT00277212|184770480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-0.05|0.26||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 8||0.26|-0.05|
92442268|NCT00277212|184770480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|-0.11|0.2||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 24||0.20|-0.11|
92442269|NCT00277212|184770480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||||TWO_SIDED|95.0|0.0|0.42||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 36||0.42|0.00|
92238577|NCT02137772|184381393|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Nominal 2-sided p-value|Log Rank|The log rank test analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||||<0.0001
92238578|NCT00638846|184381400|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.739|||||TWO_SIDED|97.4|1.136|1.739|||Generalized Linear Model||Odds ratio was senofilcon A toric / balafilcon A toric|Alternative hypothesis is senofilcon A toric is superior to balfilcon A toric by having less degrees of rotation||1.739|1.136|
92238579|NCT00638846|184381401|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.138|||||TWO_SIDED|97.4|0.624|1.138|||Generalized Linear Model||Odds ratio was senofilcon A toric/balafilcon A toric|Alternative hypothesis is that senofilcon A toric is superior to balafilcon A toric by having less degrees of instability.||1.138|0.624|
92238580|NCT00638846|184381402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1307|STANDARD_ERROR_OF_MEAN|0.2856|||TWO_SIDED|97.5|-1.1307|-0.568|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus balafilcon At toric.|Alternative hypothesis is that senofilcon A toric is superior to balafilcon A toric by having less time required to fit.||-0.5680|-1.1307|
92238581|NCT00638846|184381403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.368|STANDARD_ERROR_OF_MEAN|0.1331|||TWO_SIDED|97.4|0.07001|0.368|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus balafilcon A toric.|Alternative hypothesis is that senofilcon A is superior to balafilcon A.||0.3680|0.07001|
92238582|NCT00638846|184381404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is -0.4.|Mean Difference (Final Values)|-0.0688|STANDARD_ERROR_OF_MEAN|0.1648|||TWO_SIDED|97.5|-0.0688|-0.0197|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus balafilcon A toric.|Alternative hypothesis is that senofilcon A toric is superior to balafilcon A toric by having a lower grade fo corneal staining.||-0.0197|-0.0688|
92238583|NCT00638846|184381405|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.368|STANDARD_ERROR_OF_MEAN|0.1331|||TWO_SIDED|97.4|0.07001|0.368|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus balafilcon A toric.|Alternative hypothesis is that senofilcon A toric is superior to balafilcon A toric.||0.3680|0.07001|
92238584|NCT02746679|184381415|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||<0.001
92238585|NCT02746679|184381416|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92238586|NCT02746679|184381417|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92238587|NCT02746679|184381418|SUPERIORITY_OR_OTHER|||||||0.024|||||||Chi-squared|||||||0.024
92238588|NCT02746679|184381419|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||<0.001
92238589|NCT02746679|184381420|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.001
92442270|NCT00277212|184770480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.05|0.16||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at week 52||0.16|-0.05|
92442271|NCT00277212|184770480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.515|TWO_SIDED|95.0|-0.22|0.11||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 52 (LOCF)||0.11|-0.22|0.515
92442272|NCT00277212|184770480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.73|TWO_SIDED|95.0|-0.16|0.23||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Highest Change from Baseline||0.23|-0.16|0.730
92442273|NCT00277212|184770481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.435|TWO_SIDED|95.0|-0.08|0.2||Means, mean differences, 95% confidence intervals for the differences, and the p-values are based on ANOVA/ANCOVA model.|ANOVA|ANOVA, controlling for treatment, used for baseline estimates.|aripiprazole - placebo|Baseline||0.20|-0.08|0.435
92442274|NCT00277212|184770481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|0.04|0.3||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 8||0.30|0.04|
92238590|NCT02746679|184381421|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.003
92238591|NCT02746679|184381422|SUPERIORITY_OR_OTHER|||||||0.024|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.024
92238592|NCT02746679|184381423|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.004
92238593|NCT02746679|184381424|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||<0.001
92238594|NCT02746679|184381425|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||<0.001
92238595|NCT02746679|184381426|SUPERIORITY_OR_OTHER|||||||0.277|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.277
92238596|NCT02746679|184381427|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.001
92238597|NCT04172831|184381445|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.16||0.01|TWO_SIDED|95.0|-0.7|-0.1|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-0.1|-0.7|0.010
92238598|NCT04172831|184381446|SUPERIORITY||Odds Ratio (OR)|1.44||||0.058|TWO_SIDED|95.0|0.99|2.1|||Regression, Logistic|||||2.10|0.99|0.058
92238599|NCT04172831|184381447|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|1.6||0.007|TWO_SIDED|95.0|-7.5|-1.2|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-1.2|-7.5|0.007
92238600|NCT04172831|184381448|SUPERIORITY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|1.69||0.009|TWO_SIDED|95.0|-7.7|-1.1|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-1.1|-7.7|0.009
92442275|NCT00277212|184770481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.11|0.17||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 24||0.17|-0.11|
92442276|NCT00277212|184770481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.13|0.13||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 36||0.13|-0.13|
92442277|NCT00277212|184770481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.08|0.14||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 52||0.14|-0.08|
92442278|NCT00277212|184770481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.358|TWO_SIDED|95.0|-0.06|0.17||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 52 (LOCF)||0.17|-0.06|0.358
92442279|NCT00277212|184770481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.021|TWO_SIDED|95.0|0.03|0.31||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Highest Change from Baseline||0.31|0.03|0.021
92238601|NCT04172831|184381449|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.82|<|0.001|TWO_SIDED|95.0|-4.5|-1.3|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-1.3|-4.5|<0.001
92238602|NCT04172831|184381450|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.76||0.018|TWO_SIDED|95.0|-3.3|-0.3|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-0.3|-3.3|0.018
92238603|NCT04172831|184381451|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-0.9|-0.3|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-0.3|-0.9|<0.001
92238604|NCT04036136|184381452|EQUIVALENCE|The equivalence margin is 0.|Mean Difference (Final Values)|-0.36||||0.724|TWO_SIDED|95.0|-2.41|1.68|||ANCOVA|||Model covariates are Baseline SHAPS, age, and sex.||1.68|-2.41|0.724
92238605|NCT04036136|184381453|EQUIVALENCE|The equivalence margin is 0.|Mean Difference (Final Values)|-0.043||||0.292|TWO_SIDED|95.0|-0.124|0.038|||Regression, Linear|||Model covariates are Baseline fMRI, age, and sex.||0.038|-0.124|0.292
92238606|NCT04036136|184381454|EQUIVALENCE|The equivalence margin is 0.|Median Difference (Final Values)|-0.148||||0.084|TWO_SIDED|95.0|-0.316|0.02||The equivalence margin is 0.|Regression, Linear|||Model covariates are Baseline fMRI, age, and sex.||0.020|-0.316|0.084
92238607|NCT02222129|184381474|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed using SAS, version 9.2 (Statistical Analysis Software, Cary, NC). All power calculations were at the 80% level with an alpha of 0.05. Based upon opioid consumption data previously reported for robotic-assisted laparoscopic prostatectomy, a sample size of 74 would be necessary to detect a 10 mg difference in morphine equivalents totaled over the entire hospital stay. (Webster TM, Herrell SD, Chang SS, et al. The Journal of Urology 2005;174(3):912-914.||||0.39
92238608|NCT00916721|184381479|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Mixed Models Analysis|Multiple significance testing:we adjusted p-value by controlling the expected proportion of falsely rejected hypotheses:false discovery rate,Benjamini||||||0.05
92238609|NCT02273323|184381497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.43|TWO_SIDED|0.23|-0.37|0.83|||Mixed Models Analysis|||Estimated effect of tea vs placebo||0.83|-0.37|0.43
92238610|NCT02273323|184381498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.2|TWO_SIDED|95.0|-0.4|1.82|||Mixed Models Analysis|Subject=random factor; treatment, on/off medication, period = fixed effects||Estimated effect of tea vs. placebo||1.82|-0.40|0.20
92238611|NCT02273323|184381499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35|||||TWO_SIDED|95.0|-5.26|2.55|||Mixed Models Analysis|||||2.55|-5.26|
92238612|NCT02273323|184381500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.16|1.37|||Mixed Models Analysis|||||1.37|-2.16|
92442280|NCT01023581|184770505|SUPERIORITY_OR_OTHER||LS mean difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.96|-0.37||For each set of comparisons in the primary analysis, the null hypothesis was rejected only if both comparisons between a combination and its constituent doses were statistically significant at the 2-sided 2.5% level.|ANCOVA|ANCOVA model with treatment and geographic region as fixed effects and baseline HbA1c as a covariate.||The primary efficacy analysis consisted of 2 separate sets of comparisons between each BID combination of alogliptin and metformin (alogliptin/metformin 12.5/500 mg BID and 12.5/1000 mg BID) and its constituent doses of alogliptin and metformin. The null hypothesis was that the combination of alogliptin and metformin had no additional effect on glycemic control at Week 26 either when compared with the constituent dose of alogliptin or with the constituent dose of metformin.||-0.37|-0.96|<0.001
92442281|NCT01023581|184770505|SUPERIORITY_OR_OTHER||LS mean difference|-0.57|||<|0.001|TWO_SIDED|95.0|-0.87|-0.27|||ANCOVA|ANCOVA model with treatment and geographic region as fixed effects and baseline HbA1c as a covariate||||-0.27|-0.87|<0.001
92442282|NCT01023581|184770505|SUPERIORITY_OR_OTHER||LS mean difference|-1.0|||<|0.001|TWO_SIDED|95.0|-1.29|-0.71|||ANCOVA|ANCOVA model with treatment and geographic region as fixed effects and baseline HbA1c as a covariate.||||-0.71|-1.29|<0.001
92442283|NCT01023581|184770505|SUPERIORITY_OR_OTHER||LS mean difference|-0.44|||<|0.001|TWO_SIDED|95.0|-0.73|-0.16|||ANCOVA|ANCOVA model with treatment and geographic region as fixed effects and baseline HbA1c as a covariate.||||-0.16|-0.73|<0.001
92442284|NCT03314584|184770525|SUPERIORITY||||||<|0|||||||Mixed Models Analysis|F=21.662, df = 1||||||<0.000
92442285|NCT03314584|184770526|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|F=5.624, df=1||||||0.004
92442286|NCT03314584|184770527|SUPERIORITY|||||||0.046|||||||Mixed Models Analysis|F=3.092, df=1||||||0.046
92238613|NCT02273323|184381501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.89|||||TWO_SIDED|95.0|-4.65|0.87|||Mixed Models Analysis|||||0.87|-4.65|
92238614|NCT02273323|184381502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|||||TWO_SIDED|95.0|-0.73|4.09|||Mixed Models Analysis|||||4.09|-0.73|
92238615|NCT00121810|184381503|SUPERIORITY_OR_OTHER||Median Difference (Net)|18.7||||0.012||95.0|4.2|33.2||P value comparing the treatment groups calculated using ANCOVA model treatment and baseline calcineurin inhibitor (cyclosporine or tacrolimus) as factors and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||The primary analysis tested the null hypothesis that mean percent change from baseline to 12 months for Group 1 (mycophenolate mofetil + sirolimus) was equal to that for Group 2 (mycophenolate mofetil + cyclosporine or tacrolimus) based on the intent-to-treat population.||33.2|4.2|0.012
92442287|NCT03314584|184770528|SUPERIORITY|||||||0.018|||||||Mixed Models Analysis|F=4.022, df=1||||||0.018
92442288|NCT03314584|184770529|SUPERIORITY|||||||0.598|||||||Mixed Models Analysis|F=0.279, df=1||||||0.598
92442289|NCT03314584|184770530|SUPERIORITY|||||||0.296|||||||Mixed Models Analysis|F=1.101, df=1||||||0.296
92442290|NCT03314584|184770531|SUPERIORITY|||||||0.033|||||||Mixed Models Analysis|F=4.672, df = 1||||||0.033
92442291|NCT03314584|184770532|SUPERIORITY|||||||0.606|||||||Mixed Models Analysis|F=0.268, df=1||||||0.606
92442292|NCT03314584|184770533|SUPERIORITY|||||||0.287|||||||Mixed Models Analysis|F=1.142, df=1||||||0.287
92442293|NCT03314584|184770534|SUPERIORITY|||||||0.049|||||||Mixed Models Analysis|F=4.039, df=1||||||0.049
92442294|NCT03314584|184770535|SUPERIORITY|||||||0.338|||||||Mixed Models Analysis|F=1.084, df=1||||||0.338
92442295|NCT01046682|184770636|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon rank sum test|||Using data from a different population, ie, patients with peripheral artery disease, and a different intervention, ie, omega-3 fatty acids, 15 participants were needed per group to achieve 80% power to detect a difference in means of -3.6% (the difference between the control group mean of -0.3% and a treatment group mean of 3.3%) assuming a common standard deviation of 3.3 using a two group t-test with a 0.05 two-sided significance level. 5 patients added to each arm in case nonparametric.||||<0.05
92442296|NCT02449174|184770785|SUPERIORITY|||||||0.8958|||||||Chi-squared, Corrected|||||||0.8958
92442297|NCT02449174|184770786|SUPERIORITY|||||||0.2059|||||||Chi-squared, Corrected|||||||0.2059
92442298|NCT01520363|184770799|SUPERIORITY||Mean Difference (Net)|-1.182|STANDARD_DEVIATION|4.294||0.211|TWO_SIDED|95.0|-3.086|0.722|||t-test, 2 sided|df=21|||t= -1.291; p=.211|.722|-3.086|.211
92442299|NCT01520363|184770799|SUPERIORITY||Median Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.67||0.949|TWO_SIDED|95.0|-1.345|1.432|||t-test, 2 sided|df=22||||1.432|-1.345|.949
92442300|NCT01520363|184770800|SUPERIORITY||Mean Difference (Final Values)|0.333|STANDARD_DEVIATION|2.456||0.541|TWO_SIDED|95.0|-0.785|1.451||df=20|t-test, 2 sided|df=20|||t=0.622; p=.541|1.451|-0.785|.541
92442301|NCT01520363|184770800|SUPERIORITY||Mean Difference (Net)|-0.042|STANDARD_DEVIATION|2.956||0.946|TWO_SIDED|95.0|-1.29|1.206||df=23|t-test, 2 sided||||t=-.069; p=0.946|1.206|-1.290|.946
92442302|NCT01520363|184770801|SUPERIORITY||Mean Difference (Net)|-0.227|STANDARD_DEVIATION|3.116||0.736|TWO_SIDED|95.0|-1.609|1.154|||t-test, 2 sided|df=21|||t=-0.342; p=0.736|1.154|-1.609|.736
92442303|NCT01520363|184770801|SUPERIORITY||Mean Difference (Net)|0.409|STANDARD_DEVIATION|3.5||0.589|TWO_SIDED|95.0|-1.143|1.961|||t-test, 2 sided||||t=0.548; p=0.589|1.961|-1.143|.589
92442304|NCT01520363|184770802|SUPERIORITY||Mean Difference (Net)|-1.429|STANDARD_DEVIATION|3.203||0.05|TWO_SIDED|95.0|-2.886|0.029|||t-test, 2 sided|df=20|||t=-2.044; p=0.05|0.029|-2.886|.05
92442305|NCT01520363|184770802|SUPERIORITY||Mean Difference (Net)|0.042|STANDARD_DEVIATION|3.862||0.958|TWO_SIDED|95.0|-1.589|1.672|||t-test, 2 sided||||t=0.053; p=0.958|1.672|-1.589|0.958
92442306|NCT01520363|184770803|SUPERIORITY||Median Difference (Net)|0.227|STANDARD_DEVIATION|1.51||0.488|TWO_SIDED|95.0|-0.442|0.897|||t-test, 2 sided|df=21|||t=0.706; p=0.488|0.897|-0.442|0.488
92442307|NCT01520363|184770803|SUPERIORITY||Median Difference (Net)|0.24|STANDARD_DEVIATION|1.535||0.442|TWO_SIDED|95.0|-0.394|0.874|||t-test, 2 sided|df=24|||t=0.782; p=0.442|0.874|-0.394|0.442
92442308|NCT01520363|184770804|SUPERIORITY||Mean Difference (Net)|0.682|STANDARD_DEVIATION|2.317||0.182|TWO_SIDED|95.0|-0.346|1.709|||t-test, 2 sided|df=21|||t=1.380; p=0.182|1.709|-0.346|0.182
92442309|NCT01520363|184770804|SUPERIORITY||Mean Difference (Net)|1.16|STANDARD_DEVIATION|1.864|<|0.005|TWO_SIDED|95.0|0.391|1.929|||t-test, 2 sided|df=24|||t=3.112; p=0.005|1.929|0.391|<0.005
92238616|NCT00121810|184381504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3||||0.543||95.0|-9.6|18.2||P value comparing the treatment groups calculated using ANCOVA model treatment and baseline calcineurin inhibitor (cyclosporine or tacrolimus) type as factors and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||||18.2|-9.6|0.543
92442310|NCT01520363|184770805|SUPERIORITY||Mean Difference (Net)|0.091|STANDARD_DEVIATION|3.504||0.9|TWO_SIDED|95.0|-1.463|1.644|||t-test, 2 sided||||t=0.122; p=0.90|1.644|-1.463|0.90
92442311|NCT01520363|184770805|SUPERIORITY||Mean Difference (Net)|0.48|STANDARD_DEVIATION|2.551||0.356|TWO_SIDED|95.0|-0.573|1.533|||t-test, 2 sided|df=24|||t=0.941; p=0.356|1.533|-0.573|0.356
92442312|NCT01520363|184770806|SUPERIORITY||Mean Difference (Net)|0.136|STANDARD_DEVIATION|3.06||0.836|TWO_SIDED|95.0|-1.22|1.493|||t-test, 2 sided||||t=0.209; p=0.836|1.493|-1.220|0.836
92442313|NCT01520363|184770806|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_DEVIATION|2.698||0.826|TWO_SIDED|95.0|-0.993|1.233|||t-test, 2 sided|df=24|||t=0.222; p=0.826|1.233|-0.993|0.826
92442314|NCT01520363|184770807|SUPERIORITY||Mean Difference (Net)|-3.38|STANDARD_ERROR_OF_MEAN|4.18||0.42|TWO_SIDED|95.0|-11.8|5.05|||t-test, 2 sided|||||5.05|-11.80|0.42
92238617|NCT00121810|184381505|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.8||||0.003||95.0|-17.9|-3.7||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||6 months||-3.7|-17.9|0.003
92442315|NCT01520363|184770808|SUPERIORITY||Mean Difference (Net)|-1.03|STANDARD_ERROR_OF_MEAN|2.97|<|0.73|TWO_SIDED|95.0|-7.02|4.96|||t-test, 2 sided|||||4.96|-7.02|<0.73
92442316|NCT01520363|184770809|SUPERIORITY||Mean Difference (Net)|8.4615|STANDARD_DEVIATION|32.8016||0.371|TWO_SIDED|95.0|-11.3603|28.2834|||t-test, 2 sided|df=12|||t=0.903; p=0.371|28.2834|-11.3603|0.371
92442317|NCT01520363|184770809|SUPERIORITY||Mean Difference (Net)|4.9917|STANDARD_DEVIATION|18.0163||0.358|TWO_SIDED|95.0|-6.4553|16.4387|||t-test, 2 sided|df=11|t=0.960; p=0.358|||16.4387|-6.4553|0.358
92442318|NCT01520363|184770810|SUPERIORITY||Mean Difference (Net)|3.09412|STANDARD_DEVIATION|24.06228||0.603|TWO_SIDED|95.0|-9.27756|15.4658|||t-test, 2 sided|df=16|t=0.530; p=0.603|||15.46580|-9.27756|0.603
92442319|NCT01520363|184770810|SUPERIORITY||Mean Difference (Net)|2.42857|STANDARD_DEVIATION|11.21479||0.432|TWO_SIDED|95.0|-4.04665|8.9038|||t-test, 2 sided|df=13|t=0.810; p=0.432|||8.90380|-4.04665|0.432
92442320|NCT01520363|184770811|SUPERIORITY||Mean Difference (Net)|11.765|STANDARD_DEVIATION|26.276||0.083|TWO_SIDED|95.0|-1.745|25.275|||t-test, 2 sided|df=16|||t=1.846; p=0.083|25.275|-1.745|0.083
92442321|NCT01520363|184770811|SUPERIORITY||Mean Difference (Net)|7.5|STANDARD_DEVIATION|14.378||0.073|TWO_SIDED|95.0|-0.802|15.802|||t-test, 2 sided|df=13|||t=1.952; p=0.073|15.802|-0.802|0.073
92442322|NCT01520363|184770812|SUPERIORITY||Mean Difference (Net)|3.7474|STANDARD_DEVIATION|26.711||0.549|TWO_SIDED|95.0|-9.1269|16.6217|||t-test, 2 sided|df=18|t=0.612; p=0.549|||16.6217|-9.1269|0.549
92442323|NCT01520363|184770812|SUPERIORITY||Mean Difference (Net)|0.7143|STANDARD_DEVIATION|16.5084||0.874|TWO_SIDED|95.0|-8.8174|10.246|||t-test, 2 sided|df=13|t=0.162; p=0.874|||10.2460|-8.8174|0.874
92442324|NCT01520363|184770813|SUPERIORITY||Mean Difference (Net)|3.8167|STANDARD_DEVIATION|40.2609||0.693|TWO_SIDED|95.0|-16.2046|23.8379|||t-test, 2 sided|df=17|t=0.402; p=0.693|||23.8379|-16.2046|0.693
92442325|NCT01520363|184770813|SUPERIORITY||Mean Difference (Net)|0.84|STANDARD_DEVIATION|27.8994||0.909|TWO_SIDED|95.0|-14.6102|16.2902|||t-test, 2 sided|df=14|t=0.117; p=0.909|||16.2902|-14.6102|0.909
92442326|NCT01520363|184770814|SUPERIORITY||Mean Difference (Net)|-0.83|STANDARD_ERROR_OF_MEAN|0.64||0.21|TWO_SIDED|95.0|-2.17|0.52|||t-test, 2 sided|||||0.52|-2.17|0.21
92442327|NCT01520363|184770815|SUPERIORITY||Mean Difference (Net)|0.74|STANDARD_ERROR_OF_MEAN|0.68||0.28|TWO_SIDED|95.0|-0.66|2.15|||t-test, 2 sided|||||2.15|-0.66|0.28
92442328|NCT01154218|184770868|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|99.56|||||TWO_SIDED|90.0|91.49|108.33||||||Natural log transformed AUC (0-∞) of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||108.33|91.49|
92442329|NCT01154218|184770868|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|106.93|||||TWO_SIDED|90.0|98.26|116.35||||||Natural log transformed AUC (0-∞) of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||116.35|98.26|
92442330|NCT01154218|184770868|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|85.76|||||TWO_SIDED|90.0|78.88|93.25||||||Natural log transformed AUC (0-∞) of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||93.25|78.88|
92238618|NCT00121810|184381505|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.0||||0.108||95.0|-35.4|3.5||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||12 months||3.5|-35.4|0.108
92238619|NCT00121810|184381505|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.4||||0.039||95.0|-47.7|-1.2||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||24 months||-1.2|-47.7|0.039
92442331|NCT01154218|184770869|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|99.6|||||TWO_SIDED|90.0|91.3|108.66||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||108.66|91.30|
92442332|NCT01154218|184770869|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|107.56|||||TWO_SIDED|90.0|98.58|117.35||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||117.35|98.58|
92442333|NCT01154218|184770869|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|85.52|||||TWO_SIDED|90.0|78.45|93.22||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||93.22|78.45|
92442334|NCT01154218|184770872|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|106.97|||||TWO_SIDED|90.0|96.55|118.51||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||118.51|96.55|
92442335|NCT01154218|184770872|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|111.32|||||TWO_SIDED|90.0|100.47|123.33||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||123.33|100.47|
92238620|NCT00121810|184381506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.7|||<|0.001||95.0|4.1|13.3||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||6 months||13.3|4.1|<0.001
92238621|NCT00121810|184381506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.9||||0.029||95.0|0.7|13.1||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||12 months||13.1|0.7|0.029
92238622|NCT00121810|184381506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.8||||0.015||95.0|1.7|15.9||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||24 months||15.9|1.7|0.015
92238623|NCT00121810|184381507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.5|||<|0.001||95.0|4.2|12.9||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||6 months||12.9|4.2|<0.001
92442336|NCT01154218|184770872|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|86.22|||||TWO_SIDED|90.0|77.89|95.43||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||95.43|77.89|
92442337|NCT01154218|184770875|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|100.03|||||TWO_SIDED|90.0|90.16|110.97||||||Natural log transformed AUClast of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||110.97|90.16|
92442338|NCT01154218|184770875|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|108.85|||||TWO_SIDED|90.0|98.11|120.77||||||Natural log transformed AUClast of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||120.77|98.11|
92442339|NCT01154218|184770875|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|74.87|||||TWO_SIDED|90.0|67.55|82.98||||||Natural log transformed AUClast of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||82.98|67.55|
92238624|NCT00121810|184381507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.8||||0.059||95.0|-0.2|11.9||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||12 months||11.9|-0.2|0.059
92442340|NCT01154218|184770876|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|100.08|||||TWO_SIDED|90.0|90.46|110.73||||||Natural log transformed AUC (0-∞) of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||110.73|90.46|
92442341|NCT01154218|184770876|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|108.47|||||TWO_SIDED|90.0|98.03|120.02||||||Natural log transformed AUC (0-∞) of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||120.02|98.03|
92442342|NCT01154218|184770876|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|76.59|||||TWO_SIDED|90.0|69.23|84.74||||||Natural log transformed AUC (0-∞) of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||84.74|69.23|
92442343|NCT01154218|184770877|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|102.11|||||TWO_SIDED|90.0|92.84|112.31||||||Natural log transformed Cmax of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||112.31|92.84|
92442344|NCT01154218|184770877|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|108.87|||||TWO_SIDED|90.0|98.98|119.75||||||Natural log transformed Cmax of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||119.75|98.98|
92442345|NCT01154218|184770877|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|71.94|||||TWO_SIDED|90.0|65.46|79.05||||||Natural log transformed Cmax of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||79.05|65.46|
92442346|NCT01344161|184770903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.001|TWO_SIDED|95.0|||||ANCOVA|An analysis of covariance (ANCOVA) was used to adjust mean differences on all variables.||||||0.001
92442347|NCT03336216|184770914|SUPERIORITY||Hazard Ratio (HR)|1.47|||||TWO_SIDED|60.0|1.19|1.82||||||||1.82|1.19|
92442348|NCT03336216|184770914|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|60.0|0.77|1.3||||||||1.30|0.77|
92442349|NCT03336216|184770914|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|60.0|0.6|1.03||||||||1.03|0.60|
92442350|NCT03336216|184770915|SUPERIORITY||Hazard Ratio (HR)|1.64|||||TWO_SIDED|60.0|1.33|2.02||||||||2.02|1.33|
92442351|NCT03336216|184770915|SUPERIORITY||Hazard Ratio (HR)|1.13||||||60.0|0.87|1.46||||||||1.46|0.87|
92442352|NCT03336216|184770915|SUPERIORITY||Hazard Ratio (HR)|0.72||||||60.0|0.55|0.94||||||||0.94|0.55|
92238625|NCT00121810|184381507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.5||||0.036||95.0|0.5|14.5||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||24 months||14.5|0.5|0.036
92442353|NCT03336216|184770918|SUPERIORITY||Strata adjusted difference|1.8||||0.6537||95.0|-5.5|9.0||Stratified CMH test stratified by ECOG and prior chemotherapy|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||9.0|-5.5|0.6537
92442354|NCT03336216|184770918|SUPERIORITY||Strata adjusted difference|12.5||||0.0951||95.0|3.1|21.9||Stratified CMH test stratified by ECOG and prior chemotherapy|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||21.9|3.1|0.0951
92442355|NCT03336216|184770918|SUPERIORITY||Strata adjusted difference|5.0||||0.5171||95.0|-8.0|18.1||Stratified CMH test stratified by ECOG and prior chemotherapy|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||18.1|-8.0|0.5171
92442356|NCT03336216|184770919|SUPERIORITY||Strata adjusted difference|-0.8||||0.8505|TWO_SIDED|95.0|-9.4|7.7||Stratified CMH test stratified by ECOG and prior chemotherapy|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||7.7|-9.4|0.8505
92442357|NCT03336216|184770919|SUPERIORITY||Strata adjusted difference|1.5||||0.8144|TWO_SIDED|95.0|-9.9|12.8||Stratified CMH test stratified by ECOG and prior chemotherapy|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||12.8|-9.9|0.8144
92238626|NCT00798967|184381508|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Cochran-Mantel-Haenszel (CMH) test adjusted for the randomization stratification variable (\<= 6 or \> 6 L/week of PN at baseline)|Cochran-Mantel-Haenszel|||||||0.002
92442358|NCT03336216|184770919|SUPERIORITY||Strata adjusted difference|0.7||||0.9087|TWO_SIDED|95.0|-10.7|12.1||Stratified CMH test stratified by ECOG and prior chemotherapy.|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||12.1|-10.7|0.9087
92442359|NCT03336216|184770922|SUPERIORITY||Cox Proportional Hazard|1.22|||||TWO_SIDED|95.0|0.76|1.96|||||Stratified Cox proportional hazard model by ECOG and type of prior chemotherapy|||1.96|0.76|
92442360|NCT03336216|184770922|SUPERIORITY||Cox Proportional Hazard|1.04|||||TWO_SIDED|95.0|0.59|1.86|||||Stratified Cox proportional hazard model by ECOG and type of prior chemotherapy|||1.86|0.59|
92442361|NCT03336216|184770922|SUPERIORITY||Cox Proportional Hazard|0.81|||||TWO_SIDED|95.0|0.45|1.46|||||Stratified Cox proportional hazard model by ECOG and type of prior chemotherapy|||1.46|0.45|
92442362|NCT02404311|184771013|OTHER||Proportion Difference (Net)|-0.015||||1|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to 1086C\_D7gp120.avi/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||1.0000
92442363|NCT02404311|184771013|OTHER||Proportion Difference (Net)|-0.015||||1|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to 96ZM651.D11gp120.avi after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||1.0000
92442364|NCT02404311|184771013|OTHER||Proportion Difference (Net)|-0.015||||1|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to TV1c8\_D11gp120.avi/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||1.0000
92442365|NCT02404311|184771014|OTHER||Geometric Mean difference (Net)|0.914|||<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to 1086C\_D7gp120.avi/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||<.0001
92442366|NCT02404311|184771014|OTHER||Geometric Mean difference (Net)|0.945|||<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to 96ZM651.D11gp120.avi after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||<.0001
92442367|NCT02404311|184771014|OTHER||Geometric Mean difference (Net)|0.895|||<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to TV1c8\_D11gp120.avi/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||<.0001
92442368|NCT02404311|184771015|OTHER||Proportion Difference (Net)|0.0||||0.0215|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to C.1086C\_V1\_V2 Tags after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.0215
92442369|NCT02404311|184771015|OTHER||Proportion Difference (Net)|0.0||||0.0003|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to gp70-96ZM651.02 V1v2 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.0003
92442370|NCT02404311|184771015|OTHER||Proportion Difference (Net)|0.228||||0.001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to gp70-TV1.GSKvacV1V2/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.0010
92442371|NCT02404311|184771016|OTHER||Geometric Mean difference (Net)|0.0|||<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to C.1086C\_V1\_V2 Tags after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||<.0001
92238627|NCT00798967|184381509|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||Last Dosing Visit||||< 0.001
92238628|NCT01354691|184381510|SUPERIORITY||||||<|0.67|||||||ANCOVA|||||||<0.67
92238629|NCT01354691|184381511|SUPERIORITY||||||<|0.21|||||||ANCOVA|||||||<0.21
92238630|NCT01354691|184381512|SUPERIORITY||||||<|0.78|||||||ANCOVA|||||||<0.78
92238631|NCT01354691|184381513|SUPERIORITY||||||=|0.83|||||||ANCOVA|||||||=0.83
92238632|NCT01354691|184381514|SUPERIORITY||||||=|0.77|||||||ANCOVA|||||||=.77
92238633|NCT00633139|184381515|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4013|TWO_SIDED||||||ANCOVA|||||||0.4013
92238634|NCT00633139|184381516|SUPERIORITY_OR_OTHER_LEGACY|||||||0.275|TWO_SIDED|95.0|||||ANCOVA|||||||0.2750
92238635|NCT00633139|184381517|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1363|TWO_SIDED|95.0|||||ANCOVA|||||||0.1363
92238636|NCT01507246|184381520|SUPERIORITY_OR_OTHER||Ratio of geometric means|2.62||||0.0251|TWO_SIDED|95.0|1.14|6.03|||least-squares mean ratio||Group 1 represents the numerator.|Null hypothesis: Mean ratio of geometric least-squares mean for each group is identical.||6.03|1.14|0.0251
92442372|NCT02404311|184771016|OTHER||Geometric Mean difference (Net)|0.0|||<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to gp70-96ZM651.02 V1v2 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||<.0001
92442373|NCT02404311|184771016|OTHER||Geometric Mean difference (Net)|6.099||||0.0002|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to gp70-TV1.GSKvacV1V2/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.0002
92442374|NCT02404311|184771017|OTHER||Proportion Difference (Net)|0.018||||1|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to 1086 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||1.0000
92442375|NCT02404311|184771017|OTHER||Proportion Difference (Net)|0.036||||0.6698|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to TV1 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.6698
92171344|NCT00879060|184231867|OTHER||Absolute difference|0.0||||1|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable PINP (serum marker of collagen formation/degradation) between spironolactone treated and placebo groups.||||1.0
92238637|NCT01507246|184381521|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.24||||0.02767|TWO_SIDED|95.0|1.03|1.49|||least-squares mean ratio||Group 1 represents the numerator.|Null hypothesis = distribution of costs is identical between the two groups.||1.49|1.03|0.02767
92238638|NCT04083222|184381524|SUPERIORITY||||||<|0.001||||||P-value was analyzed using Analysis of Variance (ANOVA) with treatment and screening angiotensin-converting enzyme inhibitor/ angiotensin receptor blockers (ACEi/ARB) dose status stratification factor.|ANOVA|||||||< 0.001
92238639|NCT04083222|184381525|SUPERIORITY|||||||0.399||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 3||||0.399
92442376|NCT02404311|184771017|OTHER||Proportion Difference (Net)|0.125||||0.1435|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to ZM96 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.1435
92442377|NCT02404311|184771018|OTHER||Geometric Mean difference (Net)|0.965||||0.9661|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to 1086 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.9661
92442378|NCT02404311|184771018|OTHER||Geometric Mean difference (Net)|1.118||||0.8593|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to TV1 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.8593
92442379|NCT02404311|184771018|OTHER||Geometric Mean difference (Net)|1.138||||0.4396|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to ZM96 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.4396
92442380|NCT00159588|184771025|SUPERIORITY|||||||0.056||||||Between-group analysis|Kruskal-Wallis|||Kruskal-Wallis test||||0.056
92442381|NCT00159588|184771026|SUPERIORITY|Between-group analysis||||||0.012||||||Between-group analysis|t-test, 2 sided|Kruskal-Wallis test||Kruskal-Wallis test||||0.012
92442382|NCT02864251|184771038|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0528|TWO_SIDED|95.0|0.56|1.0||Log-rank test stratified by PD-L1 expression (\>= 1% vs \<1%/indeterminate/not evaluable), brain metastases (presence vs absence), smoking history (current/former vs never smoker), and prior osimertinib use (yes vs no) from IRT.|Log Rank||Arm A over Arm C Stratified Cox proportional hazard model.|||1.00|0.56|0.0528
92442383|NCT02864251|184771038|SUPERIORITY||Hazard Ratio (HR)|2.07|||||TWO_SIDED|95.0|1.43|2.99|||||Arm B over Arm C Stratified Cox proportional hazard model.|||2.99|1.43|
92442384|NCT02864251|184771039|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.218|TWO_SIDED|95.0|0.62|1.12|||Log Rank||Hazard Ratio (Arm A over Arm C) is based on a stratified Cox proportional hazard model|||1.12|0.62|0.2180
92442385|NCT02864251|184771039|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.75|1.52|||||Hazard Ratio (Arm B over Arm C) is based on a stratified Cox proportional hazard model.|||1.52|0.75|
92442386|NCT02864251|184771040|SUPERIORITY||Odds Ratio (OR)|1.27|||||TWO_SIDED|95.0|0.75|2.16|||||Strata adjusted odds ratio (Arm A over Arm C) using Mantel-Haenszel method.|||2.16|0.75|
92442387|NCT00755131|184771053|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Sample size determination was based on a t-test assuming a normal distribution with non-equal variance with the mean and standard deviation for the experimental group (postinfarction patients) of HMGB1 levels equal to 15 ± 7 and 2 ± 1 ng/dl for the control group derived from a previous study, respectively. The required sample size was calculated to be 30 subjects per group to detect on the size of one SD with α value of 0.05 (two-sided) and power (1 - β) of 0.8.||||<0.05
92442388|NCT00755131|184771054|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92442389|NCT00755131|184771055|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92442390|NCT01480076|184771064|SUPERIORITY_OR_OTHER||||||<|0.0001||||||within group p-value|mixed effect model|||Month 3: Mixed effect model for repeated measures with visit, baseline PCS score, baseline Expanded Disability Status Scale (EDSS) score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442391|NCT01480076|184771064|SUPERIORITY_OR_OTHER||||||<|0.0001||||||within group p-value|mixed effect model|||Month 6: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442392|NCT01480076|184771064|SUPERIORITY_OR_OTHER||least squares mean|0.8|STANDARD_ERROR_OF_MEAN|0.22||0.0007|TWO_SIDED||||||mixed effect model|||Difference of Month 3 versus Month 6: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0007
92238640|NCT04083222|184381525|SUPERIORITY|||||||0.338||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 8||||0.338
92238641|NCT04083222|184381525|SUPERIORITY|||||||0.207||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 15||||0.207
92238642|NCT04083222|184381525|SUPERIORITY|||||||0.927||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 22||||0.927
92238643|NCT04083222|184381525|SUPERIORITY|||||||0.146||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 29||||0.146
92238644|NCT04083222|184381525|SUPERIORITY|||||||0.055||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 36||||0.055
92238645|NCT04083222|184381525|SUPERIORITY|||||||0.095||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 43||||0.095
92238646|NCT04083222|184381525|SUPERIORITY|||||||0.046||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 50||||0.046
92442393|NCT01480076|184771064|SUPERIORITY_OR_OTHER||||||<|0.0001||||||within-group p-value|mixed effect model|||Month 9: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442394|NCT01480076|184771064|SUPERIORITY_OR_OTHER||least squares mean|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.2531|TWO_SIDED||||||mixed effect model|||Difference of Month 6 versus Month 9: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2531
92442395|NCT01480076|184771064|SUPERIORITY_OR_OTHER||||||<|0.0001||||||within group p-value|mixed effect model|||Month 12: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442396|NCT01480076|184771064|SUPERIORITY_OR_OTHER||least squares mean|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.2299|TWO_SIDED||||||mixed effect model|||Difference of Month 9 versus Month 12: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2299
92442397|NCT01480076|184771065|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442398|NCT01480076|184771065|SUPERIORITY_OR_OTHER|||||||0.5405|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5405
92442399|NCT01480076|184771065|SUPERIORITY_OR_OTHER||least squares mean|3.7|STANDARD_ERROR_OF_MEAN|0.58|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442400|NCT01480076|184771065|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442401|NCT01480076|184771065|SUPERIORITY_OR_OTHER|||||||0.7272|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7272
92238647|NCT04083222|184381525|SUPERIORITY|||||||0.246||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 57||||0.246
92238648|NCT04083222|184381525|SUPERIORITY|||||||0.17||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 64||||0.170
92238649|NCT04083222|184381525|SUPERIORITY|||||||0.527||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 78||||0.527
92238650|NCT04083222|184381525|SUPERIORITY|||||||0.167||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 92||||0.167
92238651|NCT04083222|184381525|SUPERIORITY|||||||0.266||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 120||||0.266
92238652|NCT04083222|184381525|SUPERIORITY|||||||0.078||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 141||||0.078
92238653|NCT04083222|184381526|SUPERIORITY|||||||0.661||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 3||||0.661
92442402|NCT01480076|184771065|SUPERIORITY_OR_OTHER||least squares mean|4.3|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442403|NCT01480076|184771065|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442404|NCT01480076|184771065|SUPERIORITY_OR_OTHER|||||||0.7484|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7484
92171345|NCT00879060|184231868|OTHER||Absolute difference|1.2||||0.7|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable peak oxygen consumption with exercise (peak VO2) between spironolactone treated and placebo groups.||||0.7
92238654|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 8||||<0.001
92238655|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 15||||<0.001
92238656|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 22||||<0.001
92238657|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 29||||<0.001
92171346|NCT00879060|184231869|OTHER||Absolute difference|0.0||||0.8|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable New York Heart Association (NYHA) Functional Class between spironolactone treated and placebo groups.||||0.8
92280136|NCT02396381|184463109|OTHER||LS Mean Difference|3.09|||<|0.001|TWO_SIDED|96.875|1.1|5.09|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach||"The analysis will test if the mean level of HDL-C for THS-use is greater than for CC-use. The following hypothesis will be evaluated:~H0: XTHS - XCC ≤ 0.0~HA: XTHS - XCC \> 0.0~where XTHS and XCC are the adjusted means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||5.09|1.10|<0.001
92171347|NCT00879060|184231870|OTHER||Absolute difference|1.4||||1|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable Septal E/e' between spironolactone treated and placebo groups.||||1.0
92238658|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 36||||<0.001
92171348|NCT00879060|184231871|OTHER||Absolute difference|0.2||||0.7|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable percentage of left ventricular mass (%LV) between spironolactone treated and placebo groups.||||0.7
92171349|NCT00879060|184231872|OTHER||Absolute difference|0.9||||0.4|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable maximum left ventricular wall thickness (Max LV) between spironolactone treated and placebo groups.||||0.4
92171350|NCT00879060|184231873|OTHER||Absolute difference|5.7||||0.7|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable left ventricular end-diastolic (LVED) cavity size between spironolactone treated and placebo groups.||||0.7
92238659|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 43||||<0.001
92238660|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 50||||<0.001
92238661|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 57||||<0.001
92171351|NCT00879060|184231874|OTHER||Absolute difference|0.1||||0.8|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable left atrial dimension between spironolactone treated and placebo groups.||||0.8
92171352|NCT01424670|184231896|SUPERIORITY|||||||0.0562||||||For testing the null hypothesis, the distribution of the time to SCC within the 6-month Intensive Period were compared between the 2 treatment groups using the stratified modified Peto-Peto modification of Gehan's Wilcoxon rank sum test.|Modified Peto-Peto test|||Comparison of distributions of time to SCC using the MGIT culture system during the 6-month (26-week) Intensive Period.||||0.0562
92238662|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 64||||<0.001
92238663|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 78||||<0.001
92238664|NCT04083222|184381526|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 92||||<0.001
92238665|NCT04083222|184381526|SUPERIORITY|||||||0.106||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 120||||0.106
92442405|NCT01480076|184771065|SUPERIORITY_OR_OTHER||least squares mean|3.0|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442406|NCT01480076|184771065|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442407|NCT01480076|184771065|SUPERIORITY_OR_OTHER|||||||0.1877|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1877
92442408|NCT01480076|184771065|SUPERIORITY_OR_OTHER||least squares mean|4.1|STANDARD_ERROR_OF_MEAN|0.78|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442409|NCT01480076|184771065|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442410|NCT01480076|184771065|SUPERIORITY_OR_OTHER|||||||0.546|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5460
92442411|NCT01480076|184771065|SUPERIORITY_OR_OTHER||least squares mean|3.3|STANDARD_ERROR_OF_MEAN|0.79|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442412|NCT01480076|184771066|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442413|NCT01480076|184771066|SUPERIORITY_OR_OTHER|||||||0.9073|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9073
92442414|NCT01480076|184771066|SUPERIORITY_OR_OTHER||least squares mean|3.0|STANDARD_ERROR_OF_MEAN|0.89||0.0009|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0009
92238666|NCT04083222|184381526|SUPERIORITY|||||||0.318||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 141||||0.318
92238667|NCT04083222|184381527|SUPERIORITY|||||||0.609||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 3||||0.609
92238668|NCT04083222|184381527|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 8||||<0.001
92238669|NCT04083222|184381527|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 15||||<0.001
92171353|NCT01424670|184231897|SUPERIORITY|For testing the homogeneity of proportions, 2 samples were compared using the stratified Cochran-Mantel-Haenszel test.|Ratio of Probability|1.096||||0.3818|TWO_SIDED|95.0|0.889|1.352|||Cochran-Mantel-Haenszel||The stratified Cochran-Mantel-Haenszel test statistics were used for estimation.|Statistical comparison of proportion of participants with SCC at 2 months.||1.352|0.889|0.3818
92171354|NCT01424670|184231897|SUPERIORITY|For testing the homogeneity of proportions, 2 samples were compared using the stratified Cochran-Mantel-Haenszel test.|Ratio of Probability|1.017||||0.7131|TWO_SIDED|95.0|0.927|1.115|||Cochran-Mantel-Haenszel||The stratified Cochran-Mantel-Haenszel test statistics were used for estimation.|Statistical comparison of proportion of participants with SCC at 6 months.||1.115|0.927|0.7131
92238670|NCT04083222|184381527|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 22||||<0.001
92280137|NCT02396381|184463110|SUPERIORITY||LS Mean Difference|-0.42||||0.001|TWO_SIDED|96.875|-0.717|-0.123|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach||"The analysis will test if the mean level of WBC for THS-use is lower than for CC-use. The following hypothesis will be evaluated:~H0: XTHS - XCC ≥ 0.0~HA: XTHS - XCC \< 0.0~where XTHS and XCC are the adjusted means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||-0.123|-0.717|0.001
92442415|NCT01480076|184771066|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442416|NCT01480076|184771066|SUPERIORITY_OR_OTHER|||||||0.5542|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5542
92442417|NCT01480076|184771066|SUPERIORITY_OR_OTHER||least squares mean|4.8|STANDARD_ERROR_OF_MEAN|0.99|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442418|NCT01480076|184771066|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442419|NCT01480076|184771066|SUPERIORITY_OR_OTHER|||||||0.581|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5810
92238671|NCT04083222|184381527|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 29||||<0.001
92238672|NCT04083222|184381527|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 36||||<0.001
92238673|NCT04083222|184381527|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 43||||<0.001
92238674|NCT04083222|184381527|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 50||||<0.001
92238675|NCT04083222|184381527|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 64||||<0.001
92238676|NCT04083222|184381527|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 78||||<0.001
92238677|NCT04083222|184381527|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 92||||<0.001
92442420|NCT01480076|184771066|SUPERIORITY_OR_OTHER||least squares mean|2.7|STANDARD_ERROR_OF_MEAN|1.08||0.014|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0140
92442421|NCT01480076|184771066|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442422|NCT01480076|184771066|SUPERIORITY_OR_OTHER|||||||0.4138|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4138
92446804|NCT00280566|184780545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.34|STANDARD_ERROR_OF_MEAN|0.91||0.1412|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 2 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate||||0.1412
92238678|NCT04083222|184381527|SUPERIORITY|||||||0.112||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 120||||0.112
92238679|NCT04083222|184381527|SUPERIORITY|||||||0.371||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 141||||0.371
92238680|NCT01522651|184381546|OTHER|Pairwise Comparative analysis|Percentage Difference|-19.8|STANDARD_ERROR_OF_MEAN|25.7||0.493|TWO_SIDED|95.0|-57.5|51.5||An equal-slopes analysis of covariance (ANCOVA) model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||51.5|-57.5|0.493
92238681|NCT01522651|184381546|OTHER|Pairwise Comparative analysis|Percentage Difference|8.8|STANDARD_ERROR_OF_MEAN|32.9||0.78|TWO_SIDED|95.0|-40.2|98.2||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||98.2|-40.2|0.780
92238682|NCT01522651|184381546|OTHER|Pairwise Comparative analysis|Percentage Difference|-57.0|STANDARD_ERROR_OF_MEAN|13.4||0.008|TWO_SIDED|95.0|-76.8|-20.1||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||-20.1|-76.8|0.008
92238683|NCT01522651|184381546|OTHER|Pairwise Comparative analysis|Percentage Difference|-42.6|STANDARD_ERROR_OF_MEAN|17.5||0.072|TWO_SIDED|95.0|-68.7|5.2||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||5.2|-68.7|0.072
92238684|NCT01522651|184381546|OTHER|Pairwise Comparative analysis||||||0.315||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.315
92238685|NCT01522651|184381546|OTHER|Pairwise Comparative analysis||||||0.049||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.049
92238686|NCT01522651|184381546|OTHER|Pairwise Comparative analysis||||||0.275||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.275
92238687|NCT01522651|184381546|OTHER|Pairwise Comparative analysis||||||0.002||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.002
92238688|NCT01522651|184381546|OTHER|Pairwise Comparative analysis||||||0.028||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.028
92238689|NCT01522651|184381546|OTHER|Pairwise Comparative analysis||||||0.334||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.334
92238690|NCT00059215|184381566|SUPERIORITY_OR_OTHER|||||||0.933||95.0|||||Fisher Exact|||||||0.933
92238691|NCT00059215|184381566|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Log Rank|||||||0.590
92238692|NCT00059215|184381567|SUPERIORITY_OR_OTHER|||||||0.945||95.0|||||Fisher Exact|||||||0.945
92238693|NCT00059215|184381567|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Log Rank|||||||0.260
92238694|NCT00059215|184381568|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92238695|NCT00059215|184381568|SUPERIORITY_OR_OTHER|||||||0.544||95.0|||||Log Rank|||||||0.544
92238696|NCT00059215|184381569|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Fisher Exact|||||||0.370
92238697|NCT04494633|184381570|SUPERIORITY|||||||0.482314|||||||t-test, 2 sided|The change for each group was analyzed using a 2-tailed, unpaired, independent means, t-test with 61 degrees of freedom.||||||0.482314
92238698|NCT04494633|184381571|SUPERIORITY|||||||0.876964|||||||t-test, 2 sided|The change for each group was analyzed using a 2-tailed, unpaired, independent means, t test with 61 degrees of freedom.||||||.876964
92238699|NCT04494633|184381572|SUPERIORITY|||||||0.66602|||||||t-test, 2 sided|The change for each group was analyzed using a 2-tailed, unpaired, independent means, with 61 degrees of freedom.||||||.66602
92238700|NCT04494633|184381573|SUPERIORITY|||||||0.726421|||||||t-test, 2 sided|Two-tailed unpaired t test comparing change for control (Pre to 2 weeks later) to case (Pre- to 2 weeks post) with 61 degrees of freedom.||||||.726421
92238701|NCT04494633|184381574|SUPERIORITY|||||||0.908468|||||||t-test, 2 sided|The statistical test used was a 2 tailed, unpaired t test with 61 degrees of freedom.||||||0.908468
92238702|NCT04494633|184381575|SUPERIORITY|||||||0.468104|||||||t-test, 2 sided|The groups were compared using a two tailed unpaired t test with 61 degrees of freedom.||||||.468104
92238703|NCT01958671|184381576|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.99|||<|0.001|TWO_SIDED|95.0|-1.22|-0.76|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-0.76|-1.22|<0.001
92238704|NCT01958671|184381576|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.16|||<|0.001|TWO_SIDED|95.0|-1.39|-0.93|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-0.93|-1.39|<0.001
92238705|NCT01958671|184381577|SUPERIORITY_OR_OTHER||Difference in percentage|-2.6|||||TWO_SIDED|95.0|-13.1|8.1|||||Based on Miettinen \& Nurminen method.|||8.1|-13.1|
92171355|NCT01424670|184231898|SUPERIORITY||Relative Ratio of Probability|0.969||||0.5945|TWO_SIDED|95.0|0.866|1.084|||Cochran-Mantel-Haenszel|||Statistical comparison of proportion with sustained SCC at Month 18.||1.084|0.866|0.5945
92238706|NCT01958671|184381577|SUPERIORITY_OR_OTHER||Difference in percentage|-4.2|||||TWO_SIDED|95.0|-14.8|6.6|||||Based on Miettinen \& Nurminen method.|||6.6|-14.8|
92238707|NCT01958671|184381578|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-7.7|3.3|||||Based on Miettinen \& Nurminen method.|||3.3|-7.7|
92238708|NCT01958671|184381578|SUPERIORITY_OR_OTHER||Difference in percentage|-2.6|||||TWO_SIDED|95.0|-8.2|2.7|||||Based on Miettinen \& Nurminen method.|||2.7|-8.2|
92238709|NCT01958671|184381579|SUPERIORITY_OR_OTHER||Difference in least squares means|-34.53|||<|0.001|TWO_SIDED|95.0|-42.76|-26.29|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-26.29|-42.76|<0.001
92238710|NCT01958671|184381579|SUPERIORITY_OR_OTHER||Difference in least squares means|-44.01|||<|0.001|TWO_SIDED|95.0|-52.28|-35.74|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-35.74|-52.28|<0.001
92238711|NCT01958671|184381580|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.76|||<|0.001|TWO_SIDED|95.0|-2.57|-0.95|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-0.95|-2.57|<0.001
92238712|NCT01958671|184381580|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.16|||<|0.001|TWO_SIDED|95.0|-2.98|-1.34|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-1.34|-2.98|<0.001
92238713|NCT01958671|184381581|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.59|||<|0.001|TWO_SIDED|95.0|1.85|6.95|||Regression, Logistic|Fixed effects for treatment, prior antihyperglycemic medication, covariates for baseline A1C and baseline eGFR.||||6.95|1.85|<0.001
92238714|NCT01958671|184381581|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.77|||<|0.001|TWO_SIDED|95.0|3.46|13.24|||Regression, Logistic|Fixed effects for treatment, prior antihyperglycemic medication, covariates for baseline A1C and baseline||||13.24|3.46|<0.001
92238715|NCT01958671|184381583|SUPERIORITY_OR_OTHER||Difference in least squares means|-69.03|||<|0.001|TWO_SIDED|95.0|-83.24|-54.83|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-54.83|-83.24|<0.001
92238716|NCT01958671|184381583|SUPERIORITY_OR_OTHER||Difference in least squares means|-67.33|||<|0.001|TWO_SIDED|95.0|-81.73|-52.93|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-52.93|-81.73|<0.001
92238717|NCT01958671|184381585|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.31||||0.015|TWO_SIDED|95.0|-5.98|-0.65||Nominal p-value|Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-0.65|-5.98|0.015
92238718|NCT01958671|184381585|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.71||||0.213|TWO_SIDED|95.0|-4.4|0.98|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||0.98|-4.40|0.213
92280138|NCT02396381|184463111|SUPERIORITY||LS Mean Difference|1.28||||0.008|TWO_SIDED|96.875|0.145|2.42|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach||"The analysis will test if the mean level of FEV1 for THS-use is greater than for CC-use. The following hypothesis will be evaluated:~H0: XTHS - XCC ≤ 0.0~HA: XTHS - XCC \> 0.0~where XTHS and XCC are the adjusted means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||2.42|0.145|0.008
92171356|NCT01424670|184231898|SUPERIORITY||Relative Ratio of Probability|0.97||||0.6164|TWO_SIDED|95.0|0.864|1.089|||Cochran-Mantel-Haenszel|||Statistical comparison of proportion with sustained SCC at Month 24.||1.089|0.864|0.6164
92238719|NCT01958671|184381587|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|-1.8||||0.039|TWO_SIDED|95.0|-3.51|-0.09||Nominal p-value|Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-0.09|-3.51|0.039
92442423|NCT01480076|184771066|SUPERIORITY_OR_OTHER||least squares mean|1.3|STANDARD_ERROR_OF_MEAN|1.19||0.274|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2740
92442424|NCT01480076|184771066|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442425|NCT01480076|184771066|SUPERIORITY_OR_OTHER|||||||0.6453|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6453
92442426|NCT01480076|184771066|SUPERIORITY_OR_OTHER||least squares mean|3.1|STANDARD_ERROR_OF_MEAN|1.18||0.009|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0090
92442427|NCT01480076|184771067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442428|NCT01480076|184771067|SUPERIORITY_OR_OTHER|||||||0.2475|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2475
92442429|NCT01480076|184771067|SUPERIORITY_OR_OTHER||least squares mean|-8.2|STANDARD_ERROR_OF_MEAN|1.66|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442430|NCT01480076|184771067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442431|NCT01480076|184771067|SUPERIORITY_OR_OTHER|||||||0.2422|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2422
92442432|NCT01480076|184771067|SUPERIORITY_OR_OTHER||least squares mean|-10.9|STANDARD_ERROR_OF_MEAN|1.72|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442433|NCT01480076|184771067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442434|NCT01480076|184771067|SUPERIORITY_OR_OTHER|||||||0.1262|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1262
92442435|NCT01480076|184771067|SUPERIORITY_OR_OTHER||least squares mean|-7.6|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442436|NCT01480076|184771067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442437|NCT01480076|184771067|SUPERIORITY_OR_OTHER|||||||0.8858|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8858
92442438|NCT01480076|184771067|SUPERIORITY_OR_OTHER||least squares mean|-8.6|STANDARD_ERROR_OF_MEAN|2.12|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442439|NCT01480076|184771067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442440|NCT01480076|184771067|SUPERIORITY_OR_OTHER|||||||0.2111|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2111
92442441|NCT01480076|184771067|SUPERIORITY_OR_OTHER||least squares mean|-5.8|STANDARD_ERROR_OF_MEAN|2.16||0.0072|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0072
92442442|NCT01480076|184771068|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442443|NCT01480076|184771068|SUPERIORITY_OR_OTHER|||||||0.5577|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5577
92442444|NCT01480076|184771068|SUPERIORITY_OR_OTHER||least squares mean|-6.7|STANDARD_ERROR_OF_MEAN|1.64|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442445|NCT01480076|184771068|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442446|NCT01480076|184771068|SUPERIORITY_OR_OTHER|||||||0.9365|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9365
92442447|NCT01480076|184771068|SUPERIORITY_OR_OTHER||least squares mean|-9.4|STANDARD_ERROR_OF_MEAN|1.82|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442448|NCT01480076|184771068|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92238720|NCT01958671|184381587|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.37||||0.669|TWO_SIDED|95.0|-2.09|1.35||Nominal p-value|Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||1.35|-2.09|0.669
92238721|NCT01703286|184381617|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|0.884||||0.5403|TWO_SIDED|90.0|0.633|1.235|||ANOVA|||||1.235|0.633|0.5403
92442449|NCT01480076|184771068|SUPERIORITY_OR_OTHER|||||||0.2008|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2008
92442450|NCT01480076|184771068|SUPERIORITY_OR_OTHER||least squares mean|-5.1|STANDARD_ERROR_OF_MEAN|1.98||0.0102|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0102
92442451|NCT01480076|184771068|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442452|NCT01480076|184771068|SUPERIORITY_OR_OTHER|||||||0.7134|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7134
92442453|NCT01480076|184771068|SUPERIORITY_OR_OTHER||least squares mean|-6.0|STANDARD_ERROR_OF_MEAN|2.2||0.0066|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0066
92442454|NCT01480076|184771068|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442455|NCT01480076|184771068|SUPERIORITY_OR_OTHER|||||||0.8202|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8202
92442456|NCT01480076|184771068|SUPERIORITY_OR_OTHER||least squares mean|-6.4|STANDARD_ERROR_OF_MEAN|2.28||0.0049|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0049
92442457|NCT01480076|184771069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442458|NCT01480076|184771069|SUPERIORITY_OR_OTHER|||||||0.1324|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1324
92442459|NCT01480076|184771069|SUPERIORITY_OR_OTHER||least squares mean|-2.3|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92171357|NCT01424670|184231898|SUPERIORITY||Relative Ratio of Probability|0.991||||0.8951|TWO_SIDED|95.0|0.872|1.127|||Cochran-Mantel-Haenszel|||Statistical comparison of proportion with sustained SCC at Month 30.||1.127|0.872|0.8951
92238722|NCT01703286|184381617|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|0.884||||0.5402|TWO_SIDED|90.0|0.632|1.235|||ANOVA|||||1.235|0.632|0.5402
92238723|NCT01703286|184381617|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|1.0||||0.9989|TWO_SIDED|90.0|0.715|1.397|||ANOVA|||||1.397|0.715|0.9989
92238724|NCT01703286|184381618|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|1.208||||0.3885|TWO_SIDED|90.0|0.84|1.738|||ANOVA|||||1.738|0.840|0.3885
92238725|NCT01703286|184381618|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|1.251||||0.3105|TWO_SIDED|90.0|0.868|1.801|||ANOVA|||||1.801|0.868|0.3105
92238726|NCT01703286|184381618|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|1.035||||0.8749|TWO_SIDED|90.0|0.721|1.485|||ANOVA|||||1.485|0.721|0.8749
92238727|NCT01703286|184381619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.048||0.2982|TWO_SIDED|90.0|-0.13|0.03|||ANOVA|||||0.030|-0.130|0.2982
92238728|NCT01703286|184381619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.021|STANDARD_ERROR_OF_MEAN|0.048||0.6601|TWO_SIDED|90.0|-0.059|0.101|||ANOVA|||||0.101|-0.059|0.6601
92442460|NCT01480076|184771069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442461|NCT01480076|184771069|SUPERIORITY_OR_OTHER|||||||0.4759|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4759
92442462|NCT01480076|184771069|SUPERIORITY_OR_OTHER||least squares mean|-1.9|STANDARD_ERROR_OF_MEAN|0.59||0.0016|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0016
92442463|NCT01480076|184771069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error||||<0.0001
92238729|NCT01703286|184381619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.072|STANDARD_ERROR_OF_MEAN|0.048||0.1412|TWO_SIDED|90.0|-0.009|0.152|||ANOVA|||||0.152|-0.009|0.1412
92171358|NCT01424670|184231899|SUPERIORITY||Relative Ratio of Probability|0.965||||0.5269|TWO_SIDED|95.0|0.869|1.073|||Cochran-Mantel-Haenszel|||Statistical comparison of proportions with favorable treatment outcomes assessed by the Principal Investigator.||1.073|0.869|0.5269
92238730|NCT00931892|184381621|OTHER|||||||0.67|||||||t-test, 2 sided|||||||0.670
92238731|NCT00931892|184381622|OTHER|||||||0.409|||||||t-test, 2 sided|||||||0.409
92238732|NCT00931892|184381623|OTHER|||||||0.387|||||||t-test, 2 sided|||||||0.387
92238733|NCT00931892|184381623|OTHER|||||||0.208|||||||t-test, 2 sided|||||||0.208
92238734|NCT00931892|184381624|SUPERIORITY|||||||0.01|||||||ANOVA|||P Value for IgA anti-tTG||||0.010
92238735|NCT00931892|184381624|SUPERIORITY|||||||0.036|||||||ANOVA|||P Value for IgA/IgG anti-DGP||||0.036
92238736|NCT00931892|184381624|SUPERIORITY|||||||0.013|||||||ANOVA|||P Value for IgA anti-tTG||||0.013
92238737|NCT00931892|184381624|SUPERIORITY|||||||0.006|||||||ANOVA|||P Value for IgA/IgG anti-DGP||||0.006
92238738|NCT00931892|184381626|OTHER|||||||0.05|||||||t-test, 2 sided|||P Value for Celiac Symptom Index (CSI) score for Day 3 of Gluten Challenge||||0.05
92238739|NCT00931892|184381626|OTHER|||||||0.02|||||||t-test, 2 sided|||P Value for Celiac Symptom Index (CSI) Score from baseline to Day 14||||0.020
92238740|NCT00931892|184381626|SUPERIORITY|||||||0.06|||||||ANOVA|||P Value for Celiac Symptom Index (CSI)score between high gluten group and low gluten group across study||||0.060
92238741|NCT00931892|184381628|OTHER|||||||0.01|||||||t-test, 2 sided|||P Value for the Gastrointestinal Symptom Rating Scale (GSRS) on Day 3 of the Gluten Challenge||||0.01
92442464|NCT01480076|184771069|SUPERIORITY_OR_OTHER|||||||0.2489|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2489
92171359|NCT01424670|184231901|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.6986|TWO_SIDED|95.0|-1.9|1.3|||ANCOVA|||Statistical comparison of mean AUC of change from Baseline.||1.3|-1.9|0.6986
92442465|NCT01480076|184771069|SUPERIORITY_OR_OTHER||least squares mean|-2.2|STANDARD_ERROR_OF_MEAN|0.71||0.0017|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0017
92442466|NCT01480076|184771069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442467|NCT01480076|184771069|SUPERIORITY_OR_OTHER|||||||0.0126|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0126
92171360|NCT01424670|184231902|SUPERIORITY|||||||0.6825|||||||ANCOVA|||Statistical analysis for Week 1.||||0.6825
92171361|NCT01424670|184231902|SUPERIORITY|||||||0.807|||||||ANCOVA|||Statistical analysis for Week 2.||||0.807
92171362|NCT01424670|184231902|SUPERIORITY|||||||0.269|||||||ANCOVA|||Statistical analysis for Week 3.||||0.269
92171363|NCT01424670|184231902|SUPERIORITY|||||||0.2333|||||||ANCOVA|||Statistical analysis for Week 24.||||0.2333
92171364|NCT01424670|184231902|SUPERIORITY|||||||0.9397|||||||ANCOVA|||Statistical analysis for Month 6.||||0.9397
92238742|NCT00931892|184381628|OTHER|||||||0.012|||||||t-test, 2 sided|||P Value for Gastrointestinal Symptom Rating Scale (GSRS) from baseline to Day 14 of Gluten Challenge||||0.012
92238743|NCT00931892|184381628|SUPERIORITY|||||||0.09|||||||ANOVA|||P Value for Gastrointestinal Symptom Rating Scale (GSRS) between high gluten group and low gluten group across study||||0.090
92238744|NCT00719576|184381638|SUPERIORITY|The Wilks lambda test statistic and associated single P value from the MANOVA model were used to test the statistical significance of the difference in the co-primary endpoint between MACI and microfracture.||||||0.001|||||||MANOVA|||The changes from Baseline to Week 104 in KOOS Pain and Function (SRA) scores (co-primary efficacy parameter) were analyzed with a multivariate analysis of variance (MANOVA) model, with the last observation carried forward (LOCF) method for handling missing data. Terms included in the model are treatment and center as class variables and baseline KOOS pain and Function (SRA) as continuous covariates.||||0.001
92238745|NCT00719576|184381639|SUPERIORITY_OR_OTHER_LEGACY|||||||0.717||||||Differences between groups were tested using analysis of variance|ANOVA|ANOVA with terms for treatment and center||||||.717
92238746|NCT00719576|184381640|SUPERIORITY|||||||0.92|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Row Mean Score Chi-Square||Differences between groups were tested by the Cochran-Mantel-Haenszel row mean score chi-squared test for defect fill.||||.920
92238747|NCT00719576|184381641|SUPERIORITY|||||||0.016||||||KOOS Response Rate: a participant is regarded as a responder for KOOS if a 10-point improvement in both KOOS Pain and Function (SRA) scores was achieved with respect to Baseline. Otherwise, the patient is regarded as a nonresponder.|Cochran-Mantel-Haenszel|p-value was calculated for response categories 'Responded' and 'Not responded' using a Cochran-Mantel-Haenszel χ2 Test stratified by Center||Differences between groups were tested by the Cochran-Mantel-Haenszel chi-squared test stratified by center for responders.||||0.016
92238748|NCT00719576|184381643|SUPERIORITY||||||<|0.001||||||KOOS activities of daily living p-value \<0.001|ANCOVA|||Analysis of covariance was conducted with treatment and center as fixed effects and Baseline subscale as covariate, conducted at α = 0.05 level of significance. Last observation carried forward was used for missing data imputation.||||<0.001
92238749|NCT00719576|184381643|SUPERIORITY|||||||0.029||||||KOOS knee-related quality of life p-value 0.029|ANCOVA|||Analysis of covariance was conducted with treatment and center as fixed effects and Baseline subscale as covariate, conducted at α = 0.05 level of significance. Last observation carried forward was used for missing data imputation.||||0.029
92238750|NCT00719576|184381643|SUPERIORITY||||||<|0.001||||||KOOS other symptoms p-value \<0.001|ANCOVA|||Analysis of covariance was conducted with treatment and center as fixed effects and Baseline subscale as covariate, conducted at α = 0.05 level of significance. Last observation carried forward was used for missing data imputation.||||<0.001
92171365|NCT01424670|184231903|SUPERIORITY||Relative Ratio of Probability|0.991||||0.8951|TWO_SIDED|95.0|0.872|1.127|||Cochran-Mantel-Haenszel|||Statistical comparison of proportion with treatment success at Month 30.||1.127|0.872|0.8951
92238751|NCT00406315|184381680|SUPERIORITY_OR_OTHER_LEGACY||One-sided upper confidence limit|-0.53|||||ONE_SIDED|95.0|||||||A one-sided 95% confidence interval (CI) was constructed for the mean weight change from baseline to infer whether there was a significant decrease in weight.|Week 16.||||
92171366|NCT00709098|184231948|SUPERIORITY_OR_OTHER||Mean group difference|-5.1|||<|0.0001|TWO_SIDED|95.0|-7.0|-3.1|||t-test, 2 sided|||||-3.1|-7.0|<0.0001
92171367|NCT01037985|184231949|SUPERIORITY||Mean Difference (Final Values)|-4.3||||0.168|TWO_SIDED|95.0|-10.4|1.9|||t-test, 2 sided|||Within participant treatment difference was assessed between the treatment regimens each participant received (EXC 001 minus placebo).||1.9|-10.4|0.168
92171368|NCT01037985|184231950|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.858|TWO_SIDED|95.0|-3.5|4.2|||t-test, 2 sided|||Within participant treatment difference was assessed between the treatment regimens each participant received (EXC 001 minus placebo).||4.2|-3.5|0.858
92240052|NCT00570739|184383807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.06||||0.0002|TWO_SIDED|95.0|-13.69|-4.42||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||-4.42|-13.69|0.0002
92240053|NCT00570739|184383808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.96||||0.0357|TWO_SIDED|95.0|0.27|7.66||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||7.66|0.27|0.0357
92238752|NCT00406315|184381680|SUPERIORITY_OR_OTHER_LEGACY||One-sided upper confidence limit|-0.33|||||ONE_SIDED|95.0|||||||A one-sided 95% CI was constructed for the mean weight change from baseline to infer whether there was a significant decrease in weight.|Week 16 LOCF. Based on past information, the standard deviation of the mean weight difference was expected to be 2.2. The sample size of the study was estimated so that the one-sided CI of the mean weight decrease has a certain width. To obtain a one-sided CI with a width of 0.27 kg, a sample size of 180 subjects was needed. In other words, we were 95% certain that the true mean weight decrease was in an interval starting from the observed weight decrease and extending 0.27 kg unit above it.||||
92238753|NCT00406315|184381681|SUPERIORITY_OR_OTHER_LEGACY||Mean|-3.0|||||TWO_SIDED|95.0|-8.48|2.41||||||Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||2.41|-8.48|
92238754|NCT00406315|184381682|SUPERIORITY_OR_OTHER_LEGACY||Mean|-0.2|||||TWO_SIDED|95.0|-1.82|1.44||||||HDL. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||1.44|-1.82|
92238755|NCT00406315|184381682|SUPERIORITY_OR_OTHER_LEGACY||Mean|-2.5|||||TWO_SIDED|95.0|-7.07|2.09||||||LDL. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||2.09|-7.07|
92238756|NCT00406315|184381682|SUPERIORITY_OR_OTHER_LEGACY||Mean|-1.6|||||TWO_SIDED|95.0|-16.44|13.15||||||Triglycerides. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||13.15|-16.44|
92238757|NCT00406315|184381683|SUPERIORITY_OR_OTHER_LEGACY||Mean|0.1|||||TWO_SIDED|95.0|-0.02|0.14||||||The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.14|-0.02|
92238758|NCT00406315|184381684|SUPERIORITY_OR_OTHER_LEGACY||Mean|3.0|||||TWO_SIDED|95.0|-0.09|6.15||||||The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||6.15|-0.09|
92171369|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.003|TWO_SIDED|95.0|-1.6|-0.4|||t-test, 2 sided|||Week 12, Vascularity: Comparison within the participant between EXC 001 and placebo.||-0.4|-1.6|0.003
92238759|NCT00406315|184381685|SUPERIORITY_OR_OTHER_LEGACY||Mean|134.8|||||TWO_SIDED|95.0|-20.43|289.98||||||The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||289.98|-20.43|
92238760|NCT00406315|184381686|SUPERIORITY_OR_OTHER_LEGACY||Mean|-2.9|||||TWO_SIDED|95.0|-5.93|0.11||||||Waist. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.11|-5.93|
92238761|NCT00406315|184381686|SUPERIORITY_OR_OTHER_LEGACY||Mean|-3.0|||||TWO_SIDED|95.0|-6.2|0.1||||||Hip. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.10|-6.20|
92238762|NCT00406315|184381687|SUPERIORITY_OR_OTHER_LEGACY||Mean|0.05|||||TWO_SIDED|95.0|-0.32|0.42||||||Total Score. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.42|-0.32|
92238763|NCT00406315|184381687|SUPERIORITY_OR_OTHER_LEGACY||Mean|0.03|||||TWO_SIDED|95.0|-0.05|0.11||||||Global Severity Score. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.11|-0.05|
92238764|NCT00406315|184381687|SUPERIORITY_OR_OTHER_LEGACY||Mean|0.01|||||TWO_SIDED|95.0|-0.06|0.07||||||Global Incapacitation Score. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.07|-0.06|
92238765|NCT00406315|184381688|SUPERIORITY_OR_OTHER_LEGACY||Mean|-10.22|||||TWO_SIDED|95.0|-12.7|-7.75||||||Total Score, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-7.75|-12.70|
92238766|NCT00406315|184381688|SUPERIORITY_OR_OTHER_LEGACY||Mean|-6.61|||||TWO_SIDED|95.0|-8.59|-4.63||||||Total Score, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-4.63|-8.59|
92238767|NCT00406315|184381688|SUPERIORITY_OR_OTHER_LEGACY||Mean|-3.3|||||TWO_SIDED|95.0|-4.07|-2.53||||||Positive Subscale Score, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-2.53|-4.07|
92238768|NCT00406315|184381688|SUPERIORITY_OR_OTHER_LEGACY||Mean|-2.43|||||TWO_SIDED|95.0|-3.03|-1.83||||||Positive Subscale Score, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-1.83|-3.03|
92238769|NCT00406315|184381688|SUPERIORITY_OR_OTHER_LEGACY||Mean|-1.67|||||TWO_SIDED|95.0|-2.36|-0.99||||||Negative Subscale Score, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.99|-2.36|
92238770|NCT00406315|184381688|SUPERIORITY_OR_OTHER_LEGACY||Mean|-0.92|||||TWO_SIDED|95.0|-1.48|-0.35||||||Negative Subscale Score, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.35|-1.48|
92238771|NCT00406315|184381689|SUPERIORITY_OR_OTHER_LEGACY||Mean|-0.76|||||TWO_SIDED|95.0|-0.9|-0.61||||||Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.61|-0.90|
92238772|NCT00406315|184381689|SUPERIORITY_OR_OTHER_LEGACY||Mean|-0.47|||||TWO_SIDED|95.0|-0.58|-0.36||||||Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.36|-0.58|
92442468|NCT01480076|184771069|SUPERIORITY_OR_OTHER||least squares mean|-3.1|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442469|NCT01480076|184771069|SUPERIORITY_OR_OTHER|||||||0.0033|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0033
92442470|NCT01480076|184771069|SUPERIORITY_OR_OTHER|||||||0.1758|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1758
92442471|NCT01480076|184771069|SUPERIORITY_OR_OTHER||least squares mean|-1.9|STANDARD_ERROR_OF_MEAN|0.84||0.0246|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0246
92442472|NCT01480076|184771070|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442473|NCT01480076|184771070|SUPERIORITY_OR_OTHER|||||||0.0111|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0111
92171370|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.067|TWO_SIDED|95.0|-1.1|0.0|||t-test, 2 sided|||Week 12, Pigmentation: Comparison within the participant between EXC 001 and placebo.||0.0|-1.1|0.067
92171371|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|-1.4|||<|0.001|TWO_SIDED|95.0|-2.1|-0.7|||t-test, 2 sided|||Week 12, Thickness: Comparison within the participant between EXC 001 and placebo.||-0.7|-2.1|<0.001
92238773|NCT00406315|184381690|SUPERIORITY_OR_OTHER_LEGACY||Mean|2.7|||||TWO_SIDED|95.0|2.52|2.88||||||Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||2.88|2.52|
92238774|NCT00406315|184381690|SUPERIORITY_OR_OTHER_LEGACY||Mean|3.2|||||TWO_SIDED|95.0|3.02|3.34||||||Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||3.34|3.02|
92442474|NCT01480076|184771070|SUPERIORITY_OR_OTHER||least squares mean|11.1|STANDARD_ERROR_OF_MEAN|1.61|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder Versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442475|NCT01480076|184771070|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442476|NCT01480076|184771070|SUPERIORITY_OR_OTHER|||||||0.097|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0970
92442477|NCT01480076|184771070|SUPERIORITY_OR_OTHER||least squares mean|11.1|STANDARD_ERROR_OF_MEAN|1.82|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder Versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442478|NCT01480076|184771070|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442479|NCT01480076|184771070|SUPERIORITY_OR_OTHER|||||||0.0789|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0789
92442480|NCT01480076|184771070|SUPERIORITY_OR_OTHER||least squares mean|9.7|STANDARD_ERROR_OF_MEAN|2.0|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 6, Responder Versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442481|NCT01480076|184771070|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442482|NCT01480076|184771070|SUPERIORITY_OR_OTHER|||||||0.0284|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0284
92442483|NCT01480076|184771070|SUPERIORITY_OR_OTHER||least squares mean|11.2|STANDARD_ERROR_OF_MEAN|2.16|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder Versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442484|NCT01480076|184771070|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442485|NCT01480076|184771070|SUPERIORITY_OR_OTHER|||||||0.0108|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0108
92442486|NCT01480076|184771070|SUPERIORITY_OR_OTHER||least squares mean|12.3|STANDARD_ERROR_OF_MEAN|2.29|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 12, Responder Versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92171372|NCT01037985|184231951|SUPERIORITY||Median Difference (Final Values)|-0.9||||0.002|TWO_SIDED|95.0|-1.4|-0.4|||t-test, 2 sided|||Week 12, Relief: Comparison within the participant between EXC 001 and placebo.||-0.4|-1.4|0.002
92442487|NCT01480076|184771071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442488|NCT01480076|184771071|SUPERIORITY_OR_OTHER|||||||0.8392|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8392
92171373|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.007|TWO_SIDED|95.0|-1.3|-0.2|||t-test, 2 sided|||Week 12, Pliability: Comparison within the participant between EXC 001 and placebo.||-0.2|-1.3|0.007
92280139|NCT02396381|184463112|SUPERIORITY||% Reduction|2.86||||0.03|TWO_SIDED|96.875|-0.426|6.04|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach|Derived as 1 - LS Mean Ratio (THS / CC)|"The analysis of sICAM-1 will test if the mean level of this clinical risk endpoint for THS-use is lower relative to CC-use. The following hypothesis will be evaluated:~H0: XTHS / XCC ≥ 1.0~HA: XTHS / XCC \< 1.0~where XTHS and XCC are the adjusted geometrical means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||6.04|-0.426|0.030
92442489|NCT01480076|184771071|SUPERIORITY_OR_OTHER||least squares mean|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.0162|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0162
92442490|NCT01480076|184771071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442491|NCT01480076|184771071|SUPERIORITY_OR_OTHER|||||||0.6956|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6956
92442492|NCT01480076|184771071|SUPERIORITY_OR_OTHER||least squares mean|0.06|STANDARD_ERROR_OF_MEAN|0.02||0.0042|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0042
92442493|NCT01480076|184771071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442494|NCT01480076|184771071|SUPERIORITY_OR_OTHER|||||||0.7949|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7949
92442495|NCT01480076|184771071|SUPERIORITY_OR_OTHER||least squares mean|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.0679|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0679
92442496|NCT01480076|184771071|SUPERIORITY_OR_OTHER|||||||0.0027|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0027
92442497|NCT01480076|184771071|SUPERIORITY_OR_OTHER|||||||0.8053|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8053
92442498|NCT01480076|184771071|SUPERIORITY_OR_OTHER||least squares mean|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.2638|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2638
92171374|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.214|TWO_SIDED|95.0|-1.1|0.3|||t-test, 2 sided|||Week 12, Surface Area: Comparison within the participant between EXC 001 and placebo.||0.3|-1.1|0.214
92171375|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.003|TWO_SIDED|95.0|-1.5|-0.3|||t-test, 2 sided|||Week 12, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-0.3|-1.5|0.003
92171376|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|-5.0|||<|0.001|TWO_SIDED|95.0|-7.8|-2.2|||t-test, 2 sided|||Week 12, Composite Score: Comparison within the participant between EXC 001 and placebo.||-2.2|-7.8|<0.001
92442499|NCT01480076|184771071|SUPERIORITY_OR_OTHER|||||||0.0007|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0007
92442500|NCT01480076|184771071|SUPERIORITY_OR_OTHER|||||||0.8502|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8502
92442501|NCT01480076|184771071|SUPERIORITY_OR_OTHER||least squares mean|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.0917|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0917
92442502|NCT01480076|184771072|SUPERIORITY_OR_OTHER|||||||0.1795|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1795
92442503|NCT01480076|184771072|SUPERIORITY_OR_OTHER|||||||0.0715|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0715
92442504|NCT01480076|184771072|SUPERIORITY_OR_OTHER||least squares mean|5.8|STANDARD_ERROR_OF_MEAN|4.6||0.2065|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2065
92442505|NCT01480076|184771072|SUPERIORITY_OR_OTHER|||||||0.1649|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1649
92442506|NCT01480076|184771072|SUPERIORITY_OR_OTHER|||||||0.4894|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4894
92442507|NCT01480076|184771072|SUPERIORITY_OR_OTHER||least squares mean|1.0|STANDARD_ERROR_OF_MEAN|5.89||0.8611|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8611
92171377|NCT01037985|184231951|SUPERIORITY||Mean Difference (Net)|0.1||||0.673|TWO_SIDED|95.0|-0.5|0.7|||t-test, 2 sided|||Week 24, Vascularity: Comparison within the participant between EXC 001 and placebo.||0.7|-0.5|0.673
92442508|NCT01480076|184771072|SUPERIORITY_OR_OTHER|||||||0.0073|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0073
92442509|NCT01480076|184771072|SUPERIORITY_OR_OTHER|||||||0.1343|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1343
92442510|NCT01480076|184771072|SUPERIORITY_OR_OTHER||least squares mean|2.3|STANDARD_ERROR_OF_MEAN|5.09||0.6468|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6468
92442511|NCT01480076|184771072|SUPERIORITY_OR_OTHER|||||||0.6441|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6441
92442512|NCT01480076|184771072|SUPERIORITY_OR_OTHER|||||||0.2176|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2176
92171378|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.276|TWO_SIDED|95.0|-0.3|1.1|||t-test, 2 sided|||Week 24, Pigmentation: Comparison within the participant between EXC 001 and placebo.||1.1|-0.3|0.276
92238775|NCT00406315|184381691|SUPERIORITY_OR_OTHER_LEGACY||Mean|-2.55|||||TWO_SIDED|95.0|-3.27|-1.83||||||Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-1.83|-3.27|
92280140|NCT02396381|184463113|SUPERIORITY||% Reduction|4.74||||0.193|TWO_SIDED|96.875|-7.5|15.6|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach|Derived as 1 - LS Mean Ratio (THS / CC)|"The analysis of 11-DTX-B2 will test if the mean level of this clinical risk endpoint for THS-use is lower relative to CC-use. The following hypothesis will be evaluated:~H0: XTHS / XCC ≥ 1.0~HA: XTHS / XCC \< 1.0~where XTHS and XCC are the adjusted geometrical means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||15.6|-7.5|0.193
92442513|NCT01480076|184771072|SUPERIORITY_OR_OTHER||least squares mean|8.5|STANDARD_ERROR_OF_MEAN|7.91||0.2814|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2814
92442514|NCT01480076|184771072|SUPERIORITY_OR_OTHER|||||||0.7533|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7533
92442515|NCT01480076|184771072|SUPERIORITY_OR_OTHER|||||||0.0653|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0653
92442516|NCT01480076|184771072|SUPERIORITY_OR_OTHER||least squares mean|11.4|STANDARD_ERROR_OF_MEAN|6.65||0.0876|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0876
92442517|NCT01480076|184771073|SUPERIORITY_OR_OTHER|||||||0.0281|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0281
92442518|NCT01480076|184771073|SUPERIORITY_OR_OTHER|||||||0.0654|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0654
92442519|NCT01480076|184771073|SUPERIORITY_OR_OTHER||least squares mean|4.3|STANDARD_ERROR_OF_MEAN|4.47||0.34|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3400
92442520|NCT01480076|184771073|SUPERIORITY_OR_OTHER|||||||0.0012|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0012
92442521|NCT01480076|184771073|SUPERIORITY_OR_OTHER|||||||0.749|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7490
92171379|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.67|TWO_SIDED|95.0|-0.7|0.5|||t-test, 2 sided|||Week 24, Thickness: Comparison within the participant between EXC 001 and placebo.||0.5|-0.7|0.670
92171380|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.5|0.5|||t-test, 2 sided|||Week 24, Relief: Comparison within the participant between EXC 001 and placebo.||0.5|-0.5|1.000
92171381|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.909|TWO_SIDED|95.0|-0.5|0.6|||t-test, 2 sided|||Week 24, Pliability: Comparison within the participant between EXC 001 and placebo.||0.6|-0.5|0.909
92171382|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.852|TWO_SIDED|95.0|-0.6|0.8|||t-test, 2 sided|||Week 24, Surface Area: Comparison within the participant between EXC 001 and placebo.||0.8|-0.6|0.852
92238776|NCT00406315|184381691|SUPERIORITY_OR_OTHER_LEGACY||Mean|-1.58|||||TWO_SIDED|95.0|-2.16|-0.99||||||Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.99|-2.16|
92238777|NCT00406315|184381692|SUPERIORITY_OR_OTHER_LEGACY||Mean|-4.61|||||TWO_SIDED|95.0|-5.95|-3.26||||||Total Score, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-3.26|-5.95|
92171383|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.906|TWO_SIDED|95.0|-0.5|0.6|||t-test, 2 sided|||Week 24, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||0.6|-0.5|0.906
92442522|NCT01480076|184771073|SUPERIORITY_OR_OTHER||least squares mean|-5.1|STANDARD_ERROR_OF_MEAN|5.53||0.3592|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3592
92442523|NCT01480076|184771073|SUPERIORITY_OR_OTHER|||||||0.0015|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0015
92171384|NCT01037985|184231951|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.768|TWO_SIDED|95.0|-2.8|3.8|||t-test, 2 sided|||Week 24, Composite Score: Comparison within the participant between EXC 001 and placebo.||3.8|-2.8|0.768
92442524|NCT01480076|184771073|SUPERIORITY_OR_OTHER|||||||0.2967|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2967
92442525|NCT01480076|184771073|SUPERIORITY_OR_OTHER||least squares mean|-0.9|STANDARD_ERROR_OF_MEAN|5.34||0.8735|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8735
92442526|NCT01480076|184771073|SUPERIORITY_OR_OTHER|||||||0.1696|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1696
92442527|NCT01480076|184771073|SUPERIORITY_OR_OTHER|||||||0.0089|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0089
92442528|NCT01480076|184771073|SUPERIORITY_OR_OTHER||least squares mean|14.9|STANDARD_ERROR_OF_MEAN|6.83||0.0297|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0297
92442529|NCT01480076|184771073|SUPERIORITY_OR_OTHER|||||||0.8806|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8806
92442530|NCT01480076|184771073|SUPERIORITY_OR_OTHER|||||||0.217|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2170
92442531|NCT01480076|184771073|SUPERIORITY_OR_OTHER||least squares mean|8.1|STANDARD_ERROR_OF_MEAN|6.86||0.2392|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2392
92171385|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.773|TWO_SIDED|95.0|-0.4|0.5|||t-test, 2 sided|||Week 12 Pain: Comparison within the participant between EXC 001 and placebo.||0.5|-0.4|0.773
92171386|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.4|0.4|||t-test, 2 sided|||Week 12, Itching: Comparison within the participant between EXC 001 and placebo.||0.4|-0.4|1.000
92171387|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.072|TWO_SIDED|95.0|-1.4|0.1|||t-test, 2 sided|||Week 12, Color: Comparison within the participant between EXC 001 and placebo.||0.1|-1.4|0.072
92171388|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.851|TWO_SIDED|95.0|-0.7|0.6|||t-test, 2 sided|||Week 12, Stiffness: Comparison within the participant between EXC 001 and placebo.||0.6|-0.7|0.851
92171389|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.184|TWO_SIDED|95.0|-1.2|0.2|||t-test, 2 sided|||Week 12, Thickness: Comparison within the participant between EXC 001 and placebo.||0.2|-1.2|0.184
92171390|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.059|TWO_SIDED|95.0|-1.3|0.0|||t-test, 2 sided|||Week 12, Irregular: Comparison within the participant between EXC 001 and placebo.||0.0|-1.3|0.059
92171391|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.04|TWO_SIDED|95.0|-1.5|0.0|||t-test, 2 sided|||Week 12, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-0.0|-1.5|0.040
92442532|NCT01480076|184771074|SUPERIORITY_OR_OTHER|||||||0.0219|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0219
92442533|NCT01480076|184771074|SUPERIORITY_OR_OTHER|||||||0.1259|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1259
92442534|NCT01480076|184771074|SUPERIORITY_OR_OTHER||least squares mean|3.6|STANDARD_ERROR_OF_MEAN|5.68||0.5312|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5312
92442535|NCT01480076|184771074|SUPERIORITY_OR_OTHER|||||||0.0022|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0022
92442536|NCT01480076|184771074|SUPERIORITY_OR_OTHER|||||||0.4968|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4968
92442537|NCT01480076|184771074|SUPERIORITY_OR_OTHER||least squares mean|-3.2|STANDARD_ERROR_OF_MEAN|6.64||0.6283|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6283
92442538|NCT01480076|184771074|SUPERIORITY_OR_OTHER|||||||0.0016|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0016
92442539|NCT01480076|184771074|SUPERIORITY_OR_OTHER|||||||0.6631|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6631
92442540|NCT01480076|184771074|SUPERIORITY_OR_OTHER||least squares mean|-4.8|STANDARD_ERROR_OF_MEAN|6.77||0.477|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4770
92442541|NCT01480076|184771074|SUPERIORITY_OR_OTHER|||||||0.4027|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4027
92442542|NCT01480076|184771074|SUPERIORITY_OR_OTHER|||||||0.1077|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1077
92442543|NCT01480076|184771074|SUPERIORITY_OR_OTHER||least squares mean|13.5|STANDARD_ERROR_OF_MEAN|9.98||0.1781|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1781
92442544|NCT01480076|184771074|SUPERIORITY_OR_OTHER|||||||0.2422|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2422
92442545|NCT01480076|184771074|SUPERIORITY_OR_OTHER|||||||0.0994|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0994
92171392|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.12|TWO_SIDED|95.0|-4.1|0.5|||t-test, 2 sided|||Week 12, Composite Score: Comparison within the participant between EXC 001 and placebo.||0.5|-4.1|0.120
92171393|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.094|TWO_SIDED|95.0|-4.0|0.3|||t-test, 2 sided|||Week 12, Scar Appearance Composite Score: Comparison within the participant between EXC 001 and placebo.||0.3|-4.0|0.094
92171394|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.243|TWO_SIDED|95.0|-0.2|0.6|||t-test, 1 sided|||Week 24, Pain: Comparison within the participant between EXC 001 and placebo.||0.6|-0.2|0.243
92171395|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.339|TWO_SIDED|95.0|-0.2|0.6|||t-test, 2 sided|||Week 24, Itching: Comparison within the participant between EXC 001 and placebo.||0.6|-0.2|0.339
92442546|NCT01480076|184771074|SUPERIORITY_OR_OTHER||least squares mean|8.8|STANDARD_ERROR_OF_MEAN|7.13||0.2194|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2194
92442547|NCT01480076|184771075|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442548|NCT01480076|184771075|SUPERIORITY_OR_OTHER|||||||0.086|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0860
92442549|NCT01480076|184771075|SUPERIORITY_OR_OTHER||least squares mean|-7.3|STANDARD_ERROR_OF_MEAN|2.2||0.001|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0010
92442550|NCT01480076|184771075|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442551|NCT01480076|184771075|SUPERIORITY_OR_OTHER|||||||0.2777|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2777
92442552|NCT01480076|184771075|SUPERIORITY_OR_OTHER||least squares mean|-10.4|STANDARD_ERROR_OF_MEAN|2.76||0.0002|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0002
92442553|NCT01480076|184771075|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92171396|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.25|TWO_SIDED|95.0|-0.3|1.2|||t-test, 2 sided|||Week 24, Color: Comparison within the participant between EXC 001 and placebo.||1.2|-0.3|0.250
92171397|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.164|TWO_SIDED|95.0|-1.3|0.2|||t-test, 2 sided|||Week 24, Stiffness: Comparison within the participant between EXC 001 and placebo.||0.2|-1.3|0.164
92171398|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.8|0.8|||t-test, 2 sided|||Week 24, Thickness: Comparison within the participant between EXC 001 and placebo.||0.8|-0.8|1.000
92238778|NCT00406315|184381692|SUPERIORITY_OR_OTHER_LEGACY||Mean|-4.21|||||TWO_SIDED|95.0|-5.57|-2.85||||||Total Score, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-2.85|-5.57|
92238779|NCT00406315|184381692|SUPERIORITY_OR_OTHER_LEGACY||Mean|-1.02|||||TWO_SIDED|95.0|-1.31|-0.73||||||Global Rating, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.73|-1.31|
92238780|NCT00406315|184381692|SUPERIORITY_OR_OTHER_LEGACY||Mean|-0.88|||||TWO_SIDED|95.0|-1.13|-0.63||||||Global Rating, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.63|-1.13|
92238781|NCT00406315|184381693|SUPERIORITY_OR_OTHER_LEGACY||Mean|7.88|||||TWO_SIDED|95.0|6.07|9.69||||||Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||9.69|6.07|
92442554|NCT01480076|184771075|SUPERIORITY_OR_OTHER|||||||0.1078|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1078
92442555|NCT01480076|184771075|SUPERIORITY_OR_OTHER||least squares mean|-7.6|STANDARD_ERROR_OF_MEAN|2.87||0.0082|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0082
92442556|NCT01480076|184771075|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442557|NCT01480076|184771075|SUPERIORITY_OR_OTHER|||||||0.1838|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1838
92442558|NCT01480076|184771075|SUPERIORITY_OR_OTHER||least squares mean|-6.3|STANDARD_ERROR_OF_MEAN|3.02||0.0364|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0364
92442559|NCT01480076|184771075|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442560|NCT01480076|184771075|SUPERIORITY_OR_OTHER|||||||0.1714|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1714
92442561|NCT01480076|184771075|SUPERIORITY_OR_OTHER||least squares mean|-4.8|STANDARD_ERROR_OF_MEAN|3.14||0.1259|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1259
92442562|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442563|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442564|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442565|NCT01480076|184771076|SUPERIORITY_OR_OTHER|||||||0.0004|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0004
92442566|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92238782|NCT00406315|184381693|SUPERIORITY_OR_OTHER_LEGACY||Mean|5.27|||||TWO_SIDED|95.0|3.89|6.65||||||Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||6.65|3.89|
92442567|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92171399|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.928|TWO_SIDED|95.0|-0.8|0.7|||t-test, 2 sided|||Week 24, Irregular: Comparison within the participant between EXC 001 and placebo.||0.7|-0.8|0.928
92171400|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.865|TWO_SIDED|95.0|-0.8|0.7|||t-test, 2 sided|||Week 24, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||0.7|-0.8|0.865
92238783|NCT00406315|184381694|SUPERIORITY_OR_OTHER_LEGACY||Mean|10.49|||||TWO_SIDED|95.0|5.95|15.02||||||Effectiveness, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||15.02|5.95|
92238784|NCT00406315|184381694|SUPERIORITY_OR_OTHER_LEGACY||Mean|10.49|||||TWO_SIDED|95.0|5.95|15.02||||||Effectiveness, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||15.02|5.95|
92238785|NCT00406315|184381694|SUPERIORITY_OR_OTHER_LEGACY||Mean|18.49|||||TWO_SIDED|95.0|11.94|25.04||||||Side Effect, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||25.04|11.94|
92171401|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.804|TWO_SIDED|95.0|-2.3|3.0|||t-test, 2 sided|||Week 24, Composite Score: Comparison within the participant between EXC 001 and placebo.||3.0|-2.3|0.804
92238786|NCT00406315|184381694|SUPERIORITY_OR_OTHER_LEGACY||Mean|18.49|||||TWO_SIDED|95.0|11.94|25.04||||||Side Effect, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||25.04|11.94|
92442568|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442569|NCT01480076|184771076|SUPERIORITY_OR_OTHER|||||||0.0069|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0069
92442570|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442571|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442572|NCT01480076|184771076|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0001
92171402|NCT01037985|184231952|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.937|TWO_SIDED|95.0|-2.6|2.4|||t-test, 2 sided|||Week 24, Scar Appearance Composite Score: Comparison within the participant between EXC 001 and placebo.||2.4|-2.6|0.937
92171403|NCT00774852|184231968|SUPERIORITY_OR_OTHER|||||||0.85|||||||Chi-squared|Two-sided Pearson's chi-square test||||||0.85
92238787|NCT00406315|184381694|SUPERIORITY_OR_OTHER_LEGACY||Mean|6.45|||||TWO_SIDED|95.0|2.98|9.93||||||Convenience, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||9.93|2.98|
92238788|NCT00406315|184381694|SUPERIORITY_OR_OTHER_LEGACY||Mean|6.45|||||TWO_SIDED|95.0|2.98|9.93||||||Convenience, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||9.93|2.98|
92442573|NCT01480076|184771076|SUPERIORITY_OR_OTHER|||||||0.0006|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0006
92442574|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92238789|NCT00406315|184381694|SUPERIORITY_OR_OTHER_LEGACY||Mean|15.32|||||TWO_SIDED|95.0|9.97|20.68||||||Global Satisfaction, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||20.68|9.97|
92442575|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442576|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442577|NCT01480076|184771076|SUPERIORITY_OR_OTHER|||||||0.004|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0040
92442578|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442579|NCT01480076|184771076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442580|NCT01480076|184771076|SUPERIORITY_OR_OTHER|||||||0.0047|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0047
92442581|NCT01480076|184771076|SUPERIORITY_OR_OTHER|||||||0.0118|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0118
92442582|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442583|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442584|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442585|NCT01480076|184771077|SUPERIORITY_OR_OTHER|||||||0.1398|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1398
92442586|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442587|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442588|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442589|NCT01480076|184771077|SUPERIORITY_OR_OTHER|||||||0.0935|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0935
92442590|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442591|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442592|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442593|NCT01480076|184771077|SUPERIORITY_OR_OTHER|||||||0.076|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0760
92442594|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442595|NCT01480076|184771077|SUPERIORITY_OR_OTHER|||||||0.0019|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0019
92442596|NCT01480076|184771077|SUPERIORITY_OR_OTHER|||||||0.0037|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0037
92442597|NCT01480076|184771077|SUPERIORITY_OR_OTHER|||||||0.2489|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2489
92442598|NCT01480076|184771077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442599|NCT01480076|184771077|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0001
92442600|NCT01480076|184771077|SUPERIORITY_OR_OTHER|||||||0.0052|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0052
92442601|NCT01480076|184771077|SUPERIORITY_OR_OTHER|||||||0.7714|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.7714
92442602|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442603|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442604|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442605|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442606|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442607|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442608|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442609|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442610|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442611|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442612|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442613|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442614|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442615|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442616|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442617|NCT01480076|184771078|SUPERIORITY_OR_OTHER|||||||0.0009|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0009
92442618|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442619|NCT01480076|184771078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442620|NCT01480076|184771078|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0002
92442621|NCT01480076|184771078|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0002
92442622|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442623|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92238790|NCT00406315|184381694|SUPERIORITY_OR_OTHER_LEGACY||Mean|15.32|||||TWO_SIDED|95.0|9.97|20.68||||||Global Satisfaction, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||20.68|9.97|
92171404|NCT00774852|184231969|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|Two-sided Pearson's chi-square test||||||0.99
92238791|NCT02202031|184381698|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.6222|TWO_SIDED|95.0|-0.73|1.21|||ANCOVA|change from baseline, adjusted for baseline value||||1.21|-0.73|0.6222
92238792|NCT02202031|184381699|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.7695|TWO_SIDED|95.0|-0.64|0.47|||ANCOVA|change from baseline, adjusted for baseline value||||0.47|-0.64|0.7695
92238793|NCT02202031|184381700|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.6456|TWO_SIDED|95.0|-0.24|0.39|||ANCOVA|change from baseline value, adjusted for baseline value||||0.39|-0.24|0.6456
92238794|NCT02202031|184381701|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.919|TWO_SIDED|95.0|-0.66|0.6|||ANCOVA|change from baseline, adjusted for baseline value||||0.60|-0.66|0.9190
92238795|NCT02202031|184381702|SUPERIORITY||Mean Difference (Final Values)|1.16||||0.5358|TWO_SIDED|95.0|-2.51|4.84|||ANCOVA|change from baseline, adjusted for baseline value.||||4.84|-2.51|0.5358
92442624|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442625|NCT01480076|184771079|SUPERIORITY_OR_OTHER|||||||0.0032|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0032
92442626|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442627|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442628|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442629|NCT01480076|184771079|SUPERIORITY_OR_OTHER|||||||0.0021|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0021
92442630|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442631|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442632|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442633|NCT01480076|184771079|SUPERIORITY_OR_OTHER|||||||0.0097|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0097
92442634|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442635|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442636|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442637|NCT01480076|184771079|SUPERIORITY_OR_OTHER|||||||0.0103|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0103
92442638|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442639|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442640|NCT01480076|184771079|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442641|NCT01480076|184771079|SUPERIORITY_OR_OTHER|||||||0.1227|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1227
92442642|NCT01480076|184771080|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442643|NCT01480076|184771080|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442644|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.1754|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1754
92442645|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.0192|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0192
92442646|NCT01480076|184771080|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442647|NCT01480076|184771080|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442648|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0001
92171405|NCT00774852|184231970|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Chi-squared|Two-sided Pearson's chi-square test||||||0.54
92171406|NCT00774852|184231970|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Chi-squared|Two-sided Pearson's chi-square test||||||0.72
92171407|NCT00774852|184231971|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Chi-squared|Two-sided Pearson's chi-square test||||||0.54
92442649|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.0157|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0157
92442650|NCT01480076|184771080|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442651|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0002
92442652|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.1012|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1012
92442653|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.0749|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0749
92442654|NCT01480076|184771080|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442655|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.0455|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0455
92442656|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.4699|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4699
92442657|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.0235|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0235
92442658|NCT01480076|184771080|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442659|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.1978|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1978
92238796|NCT02202031|184381703|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.4663|TWO_SIDED|95.0|-2.9|6.34|||ANCOVA|change from baseline, adjusted for baseline value||||6.34|-2.90|0.4663
92442660|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.1977|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1977
92442661|NCT01480076|184771080|SUPERIORITY_OR_OTHER|||||||0.225|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2250
92442662|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442663|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442664|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442665|NCT01480076|184771081|SUPERIORITY_OR_OTHER|||||||0.0649|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0649
92238797|NCT02202031|184381704|SUPERIORITY||Mean Difference (Final Values)|2.17||||0.3134|TWO_SIDED|95.0|-2.05|6.38|||ANCOVA|change from baseline, adjusted for baseline value||||6.38|-2.05|0.3134
92442666|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92171408|NCT00774852|184231976|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Chi-squared|Two-sided Pearson's chi-squared test||Comparison of Participants across groups who had negative anti-dsDNA at Week 104. Baseline is defined as the last measurement taken on or prior to the first day of dosing. Analysis is performed on participants with available data.||||>0.99
92238798|NCT02202031|184381705|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.5146|TWO_SIDED|95.0|-7.05|3.53|||ANCOVA|change from baseline, adjusted for baseline value||||3.53|-7.05|0.5146
92442667|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442668|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442669|NCT01480076|184771081|SUPERIORITY_OR_OTHER|||||||0.1138|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1138
92442670|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442671|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442672|NCT01480076|184771081|SUPERIORITY_OR_OTHER|||||||0.0003|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0003
92442673|NCT01480076|184771081|SUPERIORITY_OR_OTHER|||||||0.185|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1850
92442674|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442675|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442676|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92238799|NCT02202031|184381706|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.3611|TWO_SIDED|95.0|-0.44|0.16|||ANCOVA|change from baseline, adjusted for baseline value||||0.16|-0.44|0.3611
92442677|NCT01480076|184771081|SUPERIORITY_OR_OTHER|||||||0.0887|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0887
92238800|NCT02202031|184381707|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.6722|TWO_SIDED|95.0|-2.43|1.57|||ANCOVA|change from baseline, adjusted for baseline value||||1.57|-2.43|0.6722
92238801|NCT02202031|184381708|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.0786|TWO_SIDED|95.0|-1.4|0.07|||ANCOVA|change from baseline, adjusted for baseline value||||0.07|-1.4|0.0786
92238802|NCT02202031|184381709|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.2284|TWO_SIDED|95.0|-2.87|0.79|||ANCOVA|change from baseline, adjusted for baseline value||||0.79|-2.87|0.2284
92238803|NCT02202031|184381710|SUPERIORITY||Mean Difference (Final Values)|-1.71||||0.0335|TWO_SIDED|95.0|-3.28|-0.13|||ANCOVA|change from baseline, adjusted for baseline value||||-0.13|-3.28|0.0335
92238804|NCT02202031|184381711|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.8408|TWO_SIDED|95.0|-0.66|0.81|||ANCOVA|change from baseline, adjusted for baseline value||||0.81|-0.66|0.8408
92238805|NCT02202031|184381712|SUPERIORITY|adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic|Mean Difference (Final Values)|0.14||||0.5578|TWO_SIDED|95.0|-0.32|0.6|||ANCOVA|||||0.60|-0.32|0.5578
92238806|NCT02202031|184381713|SUPERIORITY|||||||0.5578|||||||ANCOVA|Adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic.||||||0.5578
92238807|NCT02202031|184381714|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.7301|TWO_SIDED|95.0|-0.79|0.31|||ANCOVA|adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic.||||0.31|-0.79|0.7301
92442678|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92238808|NCT02202031|184381715|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.6646|TWO_SIDED|95.0|-0.89|0.04|||ANCOVA|adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic||||0.04|-0.89|0.6646
92442679|NCT01480076|184771081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92238809|NCT02202031|184381716|SUPERIORITY|||||||0.4993|||||||ANCOVA|Adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic.||||||0.4993
92238810|NCT02202031|184381717|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.7506|TWO_SIDED|95.0|-3.05|4.23|||ANCOVA|adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic.||||4.23|-3.05|0.7506
92238811|NCT02202031|184381718|SUPERIORITY||Mean Difference (Final Values)|-1.55||||0.6268|TWO_SIDED|95.0|-6.98|3.87|||ANCOVA|adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic.||||3.87|-6.98|0.6268
92238812|NCT02214186|184381745|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Mann-Whitney followed by Friedman test||||||<0.05
92238813|NCT02214186|184381746|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Mann-Whitney followed by Friedman test||||||<0.05
92238814|NCT02214186|184381747|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|ANOVA for repeated measures||||||<0.05
92238815|NCT02214186|184381748|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Mann-Whitney followed by Friedman test||||||<0.05
92238816|NCT02214186|184381749|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|ANOVA for repeated measures.||||||>0.05
92238817|NCT02214186|184381750|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Mann-Whitney followed by Friedman test||||||<0.05
92238818|NCT02214186|184381751|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92238819|NCT02214186|184381752|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|ANOVA for repeated measures.||||||<0.05
92238820|NCT02214186|184381753|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92238821|NCT01525849|184381768|NON_INFERIORITY_OR_EQUIVALENCE|Significance level=0.025 (1-sided alpha), power=90%, delta=0.8, true difference=0, SD for both arms=1.0. A total sample size of 72 participants (36 per arm) was required to test the hypothesis.|||||<|0.001|||||||t-test, 1 sided|||Non-inferiority test to demonstrate that the long-term (1-year) change in sinus symptoms (overall SNOT-20 score) after balloon dilation is not worse than after FESS.||||<0.001
92238822|NCT01525849|184381769|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 1 sided|||Test for superiority of balloon dilation over FESS. Significance level=0.025 (1-sided alpha), power=90%, BD estimate=0.5, FESS estimate=1.5, SD for both arms=1.0. A total sample size of 46 participants (23 per arm) was required to test the hypothesis.||||<0.0001
92238823|NCT01525849|184381770|SUPERIORITY_OR_OTHER|||||||0.628|||||||t-test, 2 sided|||||||0.628
92238824|NCT01525849|184381772|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92238825|NCT00339183|184381781|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-2.91||||0.0036|||||||Stratified log-rank test|P-value based on a 2-sided log-rank test stratified by ECOG (0 or 1 vs. 2), prior bevacizumab exposure, and prior oxaliplatin exposure (yes or no).|A normal score \<0 indicates fewer than expected events for the Panitumumab plus FOLFIRI arm and therefore a longer progression-free survival time.|An overall 5% significance level was used to compare treatments with respect to both overall survival (OS) and PFS. A 4% and 1% level (2-sided) was used to independently test OS and PFS, respectively.||||0.0036
92238826|NCT00339183|184381781|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-1.46||||0.1448|||||||Stratified log-rank test|P-value based on a 2-sided log-rank test stratified by ECOG (0 or 1 vs. 2), prior bevacizumab exposure and prior oxaliplatin exposure (yes or no).|A normal score \<0 indicates fewer than expected events for the Panitumumab plus FOLFIRI arm and therefore a longer progression-free survival time.|PFS in the Mutant Efficacy Analysis Set was compared at a 1% level conditional upon first demonstrating a significant difference in PFS in the Wild-type KRAS Efficacy Analysis Set.||||0.1448
92442680|NCT01480076|184771081|SUPERIORITY_OR_OTHER|||||||0.0011|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0011
92442681|NCT01480076|184771081|SUPERIORITY_OR_OTHER|||||||0.1853|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1853
92442682|NCT01480076|184771082|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442683|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0005|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0005
92442684|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0027|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0027
92442685|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0167|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0167
92442686|NCT01480076|184771082|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442687|NCT01480076|184771082|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442688|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0024|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0024
92442689|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0669|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0669
92442690|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0018|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0018
92442691|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0004|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0004
92171409|NCT00774852|184231977|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Chi-squared|Two-sided Pearson's chi-squared test||Comparison of Participants across groups who had negative anti-dsDNA at Week 104. Baseline is defined as the last measurement taken on or prior to the first day of dosing. Analysis is performed on participants with available data.||||>0.99
92171410|NCT00774852|184231979|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups with renal flare||||0.23
92238827|NCT00339183|184381782|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-1.57||||0.1154|||||||Stratified log-rank test|P-value based on a 2-sided log-rank test stratified by ECOG (0 or 1 vs. 2), prior bevacizumab exposure, and prior oxaliplatin exposure (yes or no).|A normal score \<0 indicates fewer than expected events for the Panitumumab plus FOLFIRI arm and therefore a longer overall survival time.|An overall 5% significance level was used to compare treatments with respect to both overall survival (OS) and PFS. A 4% and 1% level (2-sided) was used to independently test OS and PFS, respectively.||||0.1154
92442692|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.019|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0190
92442693|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0106|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0106
92442694|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0009|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0009
92442695|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.1937|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1937
92442696|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0445|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0445
92442697|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.6475|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6475
92442698|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0097|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0097
92442699|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0386|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0386
92442700|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0219|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0219
92171411|NCT00774852|184231979|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups with renal flare||||0.61
92238828|NCT00339183|184381782|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-0.6||||0.5503|||||||Stratified log-rank test|P-value based on a 2-sided log-rank test stratified by ECOG (0 or 1 vs. 2), prior bevacizumab exposure, and prior oxaliplatin exposure (yes or no).|A normal score \<0 indicates fewer than expected events for the Panitumumab plus FOLFIRI arm and therefore a longer overall survival time.|The treatment effect on OS in the Mutant KRAS Efficacy Analysis Set was compared at the 4% level conditional on first demonstrating a significant OS treatment effect in the Wild-type KRAS Efficacy Analysis Set.||||0.5503
92238829|NCT00339183|184381783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.33|||<|0.0001|TWO_SIDED|95.0|3.21|8.6|||Stratified exact test|Adjusted for ECOG score, prior bevacizumab exposure, prior oxaliplatin exposure.|The odds ratio is defined as the odds of having an objective response in the panitumumab plus arm relative to the odds on the FOLFIRI alone arm.|||8.60|3.21|<0.0001
92171412|NCT00774852|184231979|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups with at least one non-renal flare||||>0.99
92171413|NCT00774852|184231979|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups with at least one non-renal flare||||>0.99
92171414|NCT00774852|184231984|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED|||||P-value compares actual values between experimental and control groups at Week 52 and is derived from two-sided t-test from and ANCOVA model that adjusts for baseline values.|ANCOVA|||||||0.79
92238830|NCT00339183|184381783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.56|1.76|||Stratified exact test|Adjusted for ECOG score, prior bevacizumab exposure, prior oxaliplatin exposure.|The odds ratio is defined as the odds of having an objective response in the panitumumab plus arm relative to the odds on the FOLFIRI alone arm.|||1.76|0.56|1.0000
92442701|NCT01480076|184771082|SUPERIORITY_OR_OTHER|||||||0.0076|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0076
92442702|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.1471|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1471
92442703|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.5503|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5503
92442704|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.3854|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.3854
92442705|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.4893|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.4893
92442706|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.2166|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2166
92442707|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.4149|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.4149
92171415|NCT00774852|184231984|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|||||P-value compares actual values between experimental and control groups at Week 52 and is derived from two-sided t-test from and ANCOVA model that adjusts for baseline values.|ANCOVA|||||||0.74
92171416|NCT00774852|184231985|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups for Pneumococcal vaccines||||0.43
92238831|NCT02142894|184381803|EQUIVALENCE|The results are analyzed in a 2x2 contingency table with 95%CI.|2 x 2 contingency table|87.9|||||TWO_SIDED|95.0|72.7|95.2||||||||95.2|72.7|
92238832|NCT01455428|184381843|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.188||0.0002|TWO_SIDED|95.0|-1.08|-0.34||Primary analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||-0.34|-1.08|0.0002
92442708|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.3849|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.3849
92442709|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.898|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.8980
92442710|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.0046|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0046
92442711|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.0594|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0594
92442712|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.2975|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2975
92442713|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.7155|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.7155
92442714|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.507|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5070
92442715|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.5848|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5848
92442716|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.802|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.8020
92442717|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.254|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2540
92442718|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.9057|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.9057
92442719|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.9679|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.9679
92442720|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.5875|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5875
92442721|NCT01480076|184771083|SUPERIORITY_OR_OTHER|||||||0.744|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.7440
92171417|NCT00774852|184231985|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups for Tetanus Toxoid vaccines||||0.99
92442722|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.0032|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0032
92442723|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.0828|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0828
92442724|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.7756|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.7756
92442725|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.22|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2200
92442726|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0002
92442727|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.0061|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0061
92442728|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.6258|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.6258
92171418|NCT04402294|184232010|OTHER|Parametric inferential statistical test|Group mean difference|0.71||||0.5|TWO_SIDED|||||The threshold for statistical significance was set to p = 0.05|ANOVA|||ANOVA (Optimal vs Suboptimal vs No Stimulation)||||0.50
92238833|NCT01455428|184381844|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.149||0.001|TWO_SIDED|95.0|-0.79|-0.2||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 1 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.20|-0.79|0.0010
92238834|NCT01455428|184381844|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.94|-0.35||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 2 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.35|-0.94|<0.0001
92442729|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.6987|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.6987
92442730|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.0025|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0025
92238835|NCT01455428|184381844|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.151||0.0001|TWO_SIDED|95.0|-0.88|-0.29||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 3 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.29|-0.88|0.0001
92240054|NCT00570739|184383808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.6878|TWO_SIDED|95.0|-5.01|3.31||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||3.31|-5.01|0.6878
92442731|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.0021|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0021
92442732|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.4385|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.4385
92238836|NCT01455428|184381844|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.152||0.0009|TWO_SIDED|95.0|-0.81|-0.21||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 4 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.21|-0.81|0.0009
92171419|NCT04402294|184232011|OTHER|Parametric inferential statistical test|Group mean difference|0.03||||0.975|TWO_SIDED|||||The threshold for statistical significance was set to p = 0.05|ANOVA|||ANOVA (Optimal vs Suboptimal vs No Stimulation)||||0.975
92171420|NCT04402294|184232012|OTHER|Parametric inferential statistical test|Group mean difference|2.05||||0.097|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|ANOVA|||ANOVA, with neuromodulation stimulation type (optimal vs. suboptimal), stimulation days (1 to 3), and delay (0, 4, or 12 seconds) as within-subject variables.||||0.097
92238837|NCT01455428|184381844|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.153||0.0009|TWO_SIDED|95.0|-0.81|-0.21||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 5 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.21|-0.81|0.0009
92442733|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.2275|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2275
92442734|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.0446|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0446
92442735|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.5757|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5757
92442736|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.8936|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.8936
92442737|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.5675|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5675
92442738|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.2539|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2539
92442739|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.6673|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.6673
92442740|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.0849|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0849
92442741|NCT01480076|184771084|SUPERIORITY_OR_OTHER|||||||0.1187|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1187
92442742|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.0022|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0022
92442743|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.0299|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0299
92442744|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.8135|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.8135
92442745|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.3526|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.3526
92442746|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0001
92442747|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.0039|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0039
92442748|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.6924|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.6924
92442749|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.7639|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.7639
92238838|NCT01455428|184381844|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.153||0.0001|TWO_SIDED|95.0|-0.89|-0.29||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 6 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.29|-0.89|0.0001
92238839|NCT01455428|184381844|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.154|<|0.0001|TWO_SIDED|95.0|-1.01|-0.41||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 7 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.41|-1.01|<0.0001
92238840|NCT01455428|184381844|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.154|<|0.0001|TWO_SIDED|95.0|-1.0|-0.4||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 8 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.40|-1.00|<0.0001
92238841|NCT01455428|184381846|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.2||0.0079|TWO_SIDED|95.0|-0.93|-0.14||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||-0.14|-0.93|0.0079
92240055|NCT00570739|184383808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.7972|TWO_SIDED|95.0|-4.37|3.36||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||3.36|-4.37|0.7972
92442750|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.0013|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0013
92442751|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.0011|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0011
92238842|NCT01455428|184381847|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.172||0.0024|TWO_SIDED|95.0|-0.86|-0.19||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 1 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.19|-0.86|0.0024
92238843|NCT01455428|184381847|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.173||0.0002|TWO_SIDED|95.0|-0.99|-0.31||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 2 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.31|-0.99|0.0002
92238844|NCT01455428|184381847|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.173||0.0012|TWO_SIDED|95.0|-0.91|-0.22||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 3 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.22|-0.91|0.0012
92238845|NCT01455428|184381847|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.174||0.0101|TWO_SIDED|95.0|-0.79|-0.11||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 4 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.11|-0.79|0.0101
92238846|NCT01455428|184381847|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.175||0.0258|TWO_SIDED|95.0|-0.73|-0.05||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 5 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.05|-0.73|0.0258
92238847|NCT01455428|184381847|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.175||0.026|TWO_SIDED|95.0|-0.74|-0.05||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 6 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.05|-0.74|0.0260
92442752|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.434|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.4340
92442753|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.4224|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.4224
92442754|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.1628|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1628
92442755|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.5666|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5666
92442756|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.8315|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.8315
92442757|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.3852|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.3852
92238848|NCT01455428|184381847|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.175||0.0062|TWO_SIDED|95.0|-0.83|-0.14||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 7 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.14|-0.83|0.0062
92238849|NCT01455428|184381847|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.176||0.0081|TWO_SIDED|95.0|-0.81|-0.12||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 8 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.12|-0.81|0.0081
92238850|NCT01455428|184381848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007||||||Analysis was two-sided and performed at the 0.05 significance level|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel test comparing pregabalin to placebo adjusted for center.||||0.0007
92442758|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.0652|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0652
92442759|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.5719|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5719
92442760|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.9237|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.9237
92442761|NCT01480076|184771085|SUPERIORITY_OR_OTHER|||||||0.131|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1310
92442762|NCT01480076|184771086|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442763|NCT01480076|184771086|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442764|NCT01480076|184771086|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0001
92442765|NCT01480076|184771086|SUPERIORITY_OR_OTHER|||||||0.0003|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0003
92442766|NCT01480076|184771086|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92238851|NCT01455428|184381851|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-8.18|STANDARD_ERROR_OF_MEAN|1.932|<|0.0001|TWO_SIDED|95.0|-11.99|-4.37||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||-4.37|-11.99|<0.0001
92280141|NCT02396381|184463114|SUPERIORITY||% Reduction|6.8||||0.018|TWO_SIDED|96.875|-0.216|13.3|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach|Derived as 1 - LS Mean Ratio (THS / CC)|"The analysis of 8-epi-PGF2α will test if the mean level of this clinical risk endpoint for THS-use is lower relative to CC-use. The following hypothesis will be evaluated:~H0: XTHS / XCC ≥ 1.0~HA: XTHS / XCC \< 1.0~where XTHS and XCC are the adjusted geometrical means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||13.3|-0.216|0.018
92442767|NCT01480076|184771086|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442768|NCT01480076|184771086|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0002
92442769|NCT01480076|184771086|SUPERIORITY_OR_OTHER|||||||0.0102|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0102
92442770|NCT01480076|184771086|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442771|NCT01480076|184771086|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442772|NCT01480076|184771086|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0001
92442773|NCT01480076|184771086|SUPERIORITY_OR_OTHER|||||||0.0012|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0012
92442774|NCT01480076|184771086|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442775|NCT01480076|184771086|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442776|NCT01480076|184771086|SUPERIORITY_OR_OTHER|||||||0.0026|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0026
92238852|NCT01455428|184381852|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.107||0.0007|TWO_SIDED|95.0|-0.58|-0.16||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||-0.16|-0.58|0.0007
92238853|NCT01455428|184381854|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-7.21|STANDARD_ERROR_OF_MEAN|2.464||0.0039|TWO_SIDED|95.0|-12.08|-2.35||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||-2.35|-12.08|0.0039
92280142|NCT02396381|184463115|SUPERIORITY||% Reduction|43.5|||<|0.001|TWO_SIDED|96.875|33.7|51.9|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach|Derived as 1 - LS Mean Ratio (THS / CC)|"The analysis of Total NNAL will test if the mean level of this clinical risk endpoint for THS-use is lower relative to CC-use. The following hypothesis will be evaluated:~H0: XTHS / XCC ≥ 1.0~HA: XTHS / XCC \< 1.0~where XTHS and XCC are the adjusted geometrical means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||51.9|33.7|<0.001
92442777|NCT01480076|184771086|SUPERIORITY_OR_OTHER|||||||0.0161|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0161
92442778|NCT01480076|184771086|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442779|NCT01480076|184771086|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
92442780|NCT01480076|184771086|SUPERIORITY_OR_OTHER|||||||0.1151|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1151
92442781|NCT01480076|184771086|SUPERIORITY_OR_OTHER|||||||0.004|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0040
92442782|NCT01480076|184771087|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442783|NCT01480076|184771087|SUPERIORITY_OR_OTHER|||||||0.6769|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6769
92442784|NCT01480076|184771087|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442785|NCT01480076|184771087|SUPERIORITY_OR_OTHER|||||||0.578|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5780
92442786|NCT01480076|184771087|SUPERIORITY_OR_OTHER||difference of LS means|3.4|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442787|NCT01480076|184771087|SUPERIORITY_OR_OTHER||difference of LS means|4.5|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442788|NCT01480076|184771087|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92238854|NCT01455428|184381855|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.73|STANDARD_ERROR_OF_MEAN|2.783||0.5351|TWO_SIDED|95.0|-3.76|7.22||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||7.22|-3.76|0.5351
92238855|NCT01455428|184381856|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|2.579||0.8892|TWO_SIDED|95.0|-5.45|4.73||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||4.73|-5.45|0.8892
92442789|NCT01480076|184771087|SUPERIORITY_OR_OTHER|||||||0.8886|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8886
92442790|NCT01480076|184771087|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442791|NCT01480076|184771087|SUPERIORITY_OR_OTHER|||||||0.3221|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3221
92442792|NCT01480076|184771087|SUPERIORITY_OR_OTHER||difference of LS means|3.9|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442793|NCT01480076|184771087|SUPERIORITY_OR_OTHER||difference of LS means|5.3|STANDARD_ERROR_OF_MEAN|1.23|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442794|NCT01480076|184771087|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92238856|NCT01455428|184381857|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.147||0.0035|TWO_SIDED|95.0|0.14|0.72||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||0.72|0.14|0.0035
92280143|NCT02396381|184463116|SUPERIORITY||% Reduction|32.2|||<|0.001|TWO_SIDED|96.875|24.5|39.0|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach|Derived as 1 - LS Mean Ratio (THS / CC)|"The analysis will test if the mean level of COHb for THS-use is lower relative to CC-use. The following hypothesis will be evaluated:~H0: XTHS / XCC ≥ 1.0~HA: XTHS / XCC \< 1.0~where XTHS and XCC are the adjusted geometrical means of THS-use and CC-use. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||39|24.5|<0.001
92442795|NCT01480076|184771087|SUPERIORITY_OR_OTHER|||||||0.4668|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4668
92442796|NCT01480076|184771087|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442797|NCT01480076|184771087|SUPERIORITY_OR_OTHER|||||||0.5695|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5695
92442798|NCT01480076|184771087|SUPERIORITY_OR_OTHER||difference of LS means|2.4|STANDARD_ERROR_OF_MEAN|0.88||0.0058|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0058
92238857|NCT01455428|184381858|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8||||0.0972|TWO_SIDED|95.0|0.9|3.6||Analysis was two-sided and performed at the 0.05 significance level.|Regression, Logistic|||Analysis performed using a logistic regression model with treatment and center as factors, and baseline value as a covariate.||3.60|0.90|0.0972
92238858|NCT01455428|184381859|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|3.161||0.5702|TWO_SIDED|95.0|-4.44|8.03||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||8.03|-4.44|0.5702
92238859|NCT01455428|184381860|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.87|STANDARD_ERROR_OF_MEAN|2.194||0.6929|TWO_SIDED|95.0|-3.46|5.2||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||5.20|-3.46|0.6929
92280144|NCT04033445|184463169|SUPERIORITY||Adjusted treatment difference|33.6|||<|0.001|TWO_SIDED|95.0|20.9|46.3|||Cochran-Mantel-Haenszel (CMH) chi-square||Treatment difference between guselkumab group and placebo group was adjusted with CMH weight.|||46.3|20.9|< 0.001
92442799|NCT01480076|184771087|SUPERIORITY_OR_OTHER||difference of LS means|4.6|STANDARD_ERROR_OF_MEAN|1.4||0.001|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0010
92442800|NCT01480076|184771087|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442801|NCT01480076|184771087|SUPERIORITY_OR_OTHER|||||||0.204|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2040
92171421|NCT04402294|184232013|OTHER|Parametric Inferential Statistical Test|Group mean difference|0.63||||0.644|TWO_SIDED|||||The threshold for statistical significance was 0.05|ANOVA|||ANOVA, with neuromodulation stimulation type (optimal vs. suboptimal), stimulation days (1 to 3), and delay (0, 4, or 12 seconds) as within-subject variables.||||0.644
92238860|NCT01455428|184381861|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.84|STANDARD_ERROR_OF_MEAN|1.92||0.1403|TWO_SIDED|95.0|-6.63|0.94||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||0.94|-6.63|0.1403
92238861|NCT01455428|184381862|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.118|<|0.0001|TWO_SIDED|95.0|-0.86|-0.39||Analysis was two-sided and performed at the 0.05 significance level.|ANOVA|||Analysis was performed using a general linear model with treatment and center as factors.||-0.39|-0.86|<0.0001
92238862|NCT01455428|184381863|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.113|<|0.0001|TWO_SIDED|95.0|-0.72|-0.27||Analysis was two-sided and performed at the 0.05 significance level.|ANOVA|||Analysis was performed using a general linear model with treatment and center as factors.||-0.27|-0.72|<0.0001
92238863|NCT01455428|184381865|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.315||0.506|TWO_SIDED|95.0|-0.83|0.41||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis was performed using a general linear model with treatment and center as factors, and the baseline value as a covariate.||0.41|-0.83|0.5060
92442802|NCT01480076|184771087|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442803|NCT01480076|184771087|SUPERIORITY_OR_OTHER|||||||0.6306|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6306
92442804|NCT01480076|184771087|SUPERIORITY_OR_OTHER||difference of LS means|3.9|STANDARD_ERROR_OF_MEAN|0.9|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non- responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442805|NCT01480076|184771087|SUPERIORITY_OR_OTHER||difference of LS means|4.7|STANDARD_ERROR_OF_MEAN|1.51||0.002|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0020
92171422|NCT04402294|184232014|OTHER|Parametric inferential statistical test|Group mean difference|0.84||||0.439|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|ANOVA|||ANOVA, with neuromodulation stimulation type (optimal vs. suboptimal), and stimulation days (1 to 3) as within-subject variables.||||0.439
92238864|NCT01455428|184381866|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.285||0.7247|TWO_SIDED|95.0|-0.66|0.46||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis was performed using a general linear model with treatment and center as factors, and the baseline value as a covariate.||0.46|-0.66|0.7247
92442806|NCT01480076|184771087|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442807|NCT01480076|184771087|SUPERIORITY_OR_OTHER|||||||0.4052|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4052
92442808|NCT01480076|184771087|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442809|NCT01480076|184771087|SUPERIORITY_OR_OTHER|||||||0.8626|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8626
92442810|NCT01480076|184771087|SUPERIORITY_OR_OTHER||difference of LS means|3.3|STANDARD_ERROR_OF_MEAN|0.93||0.0004|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0004
92442811|NCT01480076|184771087|SUPERIORITY_OR_OTHER||difference of LS means|3.3|STANDARD_ERROR_OF_MEAN|1.49||0.0263|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0263
92442812|NCT01480076|184771088|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442813|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.8999|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8999
92171423|NCT04402294|184232015|OTHER|Parametric inferential statistical test|Group mean difference|0.59||||0.563|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|ANOVA|||Optimal Neuromodulation Day-1, Optimal Neuromodulation Day-2, Optimal Neuromodulation Day-3, Suboptimal Neuromodulation Day-1, Suboptimal Neuromodulation Day-2, Suboptimal Neuromodulation Day-3||||0.563
92171424|NCT04870645|184232019|OTHER||||||<|0.05|||||||Statistical Significance|||||||< 0.05
92238865|NCT03694522|184381872|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0727|TWO_SIDED|95.0|0.44|1.04|||Stratified log-rank test|Adjusted for randomization stratification factors of geographic region and administration of mFOLFOX6 single dose prior to randomization.|Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors, including geographic region and administration of mFOLFOX6 single dose prior to randomization.|||1.04|0.44|0.0727
92442814|NCT01480076|184771088|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442815|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.7156|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7156
92442816|NCT01480076|184771088|SUPERIORITY_OR_OTHER||difference of LS means|2.9|STANDARD_ERROR_OF_MEAN|1.03||0.005|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0050
92442817|NCT01480076|184771088|SUPERIORITY_OR_OTHER||difference of LS means|3.3|STANDARD_ERROR_OF_MEAN|1.68||0.049|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0490
92442818|NCT01480076|184771088|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442819|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.274|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2740
92238866|NCT03694522|184381873|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.0268|TWO_SIDED|95.0|0.35|0.95|||Stratified log-rank test|Adjusted for randomization stratification factors, including geographic region and administration of mFOLFOX6 single dose prior to randomization.|Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors, including geographic region and administration of mFOLFOX6 single dose prior to randomization.|||0.95|0.35|0.0268
92442820|NCT01480076|184771088|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442821|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.5556|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5556
92442822|NCT01480076|184771088|SUPERIORITY_OR_OTHER||difference of LS means|5.2|STANDARD_ERROR_OF_MEAN|1.15|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442823|NCT01480076|184771088|SUPERIORITY_OR_OTHER||difference of LS means|3.7|STANDARD_ERROR_OF_MEAN|1.88||0.0476|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0476
92442824|NCT01480076|184771088|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442825|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.8627|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8627
92171425|NCT04924062|184232025|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.51|1.08|||||HR=Arm A/Arm B|||1.08|0.51|
92238867|NCT03694522|184381874|SUPERIORITY||Difference|13.1||||0.106|TWO_SIDED|95.0|-2.8|29.0|||Cochran-Mantel-Haenszel|P-value was calculated based on stratum-adjusted Cochran-Mantel-Haenszel (CMH) proportions||||29.0|-2.8|0.1060
92280145|NCT04033445|184463169|SUPERIORITY||Adjusted treatment difference|33.1|||<|0.001|TWO_SIDED|95.0|20.8|45.4|||CMH chi-square test||Treatment difference between guselkumab group and placebo group was adjusted with CMH weight.|||45.4|20.8|< 0.001
92280146|NCT04033445|184463170|SUPERIORITY||Adjusted treatment difference|14.9|||<|0.001|TWO_SIDED|95.0|9.9|19.9|||CMH chi-square test||Treatment difference between guselkumab group and placebo group was adjusted with CMH weight.|||19.9|9.9|< 0.001
92442826|NCT01480076|184771088|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442827|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.4312|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4312
92442828|NCT01480076|184771088|SUPERIORITY_OR_OTHER||difference of LS means|2.8|STANDARD_ERROR_OF_MEAN|1.27||0.0305|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0305
92442829|NCT01480076|184771088|SUPERIORITY_OR_OTHER||difference of LS means|2.6|STANDARD_ERROR_OF_MEAN|2.03||0.2059|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2059
92442830|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.0008|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0008
92442831|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.3685|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3685
92442832|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.0016|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0016
92442833|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.9862|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9862
92442834|NCT01480076|184771088|SUPERIORITY_OR_OTHER||difference of LS means|0.8|STANDARD_ERROR_OF_MEAN|1.38||0.5561|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5561
92442835|NCT01480076|184771088|SUPERIORITY_OR_OTHER||difference of LS means|2.8|STANDARD_ERROR_OF_MEAN|2.32||0.2281|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2281
92442836|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.0006|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0006
92280147|NCT04033445|184463171|SUPERIORITY||Adjusted treatment difference|25.2|||<|0.001|TWO_SIDED|95.0|16.4|33.9|||Cochran-Mantel-Haenszel||Treatment difference between guselkumab group and placebo group was adjusted with CMH weight.|||33.9|16.4|< 0.001
92280148|NCT04033445|184463171|SUPERIORITY||Adjusted treatment difference|29.5|||<|0.001|TWO_SIDED|95.0|20.9|38.1|||Cochran-Mantel-Haenszel||Treatment difference between guselkumab group and placebo group was adjusted with CMH weight.|||38.1|20.9|< 0.001
92442837|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.6004|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6004
92442838|NCT01480076|184771088|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442839|NCT01480076|184771088|SUPERIORITY_OR_OTHER|||||||0.904|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9040
92442840|NCT01480076|184771088|SUPERIORITY_OR_OTHER||difference of LS means|2.8|STANDARD_ERROR_OF_MEAN|1.38||0.0401|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0401
92442841|NCT01480076|184771088|SUPERIORITY_OR_OTHER||difference of LS means|4.1|STANDARD_ERROR_OF_MEAN|2.23||0.0651|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0651
92442842|NCT01480076|184771089|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442843|NCT01480076|184771089|SUPERIORITY_OR_OTHER|||||||0.454|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4540
92442844|NCT01480076|184771089|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442845|NCT01480076|184771089|SUPERIORITY_OR_OTHER|||||||0.2949|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2949
92442846|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-8.1|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442847|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-9.0|STANDARD_ERROR_OF_MEAN|3.16||0.0046|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0046
92442848|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-12.6|STANDARD_ERROR_OF_MEAN|1.07|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442849|NCT01480076|184771089|SUPERIORITY_OR_OTHER|||||||0.502|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5020
92442850|NCT01480076|184771089|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442851|NCT01480076|184771089|SUPERIORITY_OR_OTHER|||||||0.2157|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2157
92442852|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-11.2|STANDARD_ERROR_OF_MEAN|2.0|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442853|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-10.0|STANDARD_ERROR_OF_MEAN|3.3||0.0026|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0026
92442854|NCT01480076|184771089|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442855|NCT01480076|184771089|SUPERIORITY_OR_OTHER|||||||0.3435|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3435
92442856|NCT01480076|184771089|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92238868|NCT03694522|184381876|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.38|0.94|||||Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors, including geographic region and administration of mFOLFOX6 single dose prior to randomization.|||0.94|0.38|
92442857|NCT01480076|184771089|SUPERIORITY_OR_OTHER|||||||0.1357|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1357
92238869|NCT01905397|184381881|SUPERIORITY||Difference in proportions|0.05||||0.27|ONE_SIDED||||||t-test, 1 sided|||||||0.27
92238870|NCT01276847|184381903|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 1||||0.016
92238871|NCT01276847|184381903|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 2||||0.007
92238872|NCT01276847|184381903|SUPERIORITY_OR_OTHER|||||||0.00015||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 4||||0.00015
92238873|NCT01276847|184381903|SUPERIORITY_OR_OTHER|||||||0.000184||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 16||||0.000184
92442858|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-7.8|STANDARD_ERROR_OF_MEAN|2.22||0.0004|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0004
92442859|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-7.0|STANDARD_ERROR_OF_MEAN|3.58||0.0511|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0511
92442860|NCT01480076|184771089|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442861|NCT01480076|184771089|SUPERIORITY_OR_OTHER|||||||0.8703|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8703
92442862|NCT01480076|184771089|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92171426|NCT04924062|184232026|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.58|1.19|||||HR=Arm A/Arm B|||1.19|0.58|
92171427|NCT04924062|184232027|OTHER||Difference in Percentages|7.1|||||TWO_SIDED|95.0|-7.5|21.6|||||Difference=Arm A minus Arm B|||21.6|-7.5|
92442863|NCT01480076|184771089|SUPERIORITY_OR_OTHER|||||||0.9049|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9049
92442864|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-7.6|STANDARD_ERROR_OF_MEAN|2.44||0.0019|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0019
92442865|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-12.3|STANDARD_ERROR_OF_MEAN|4.15||0.0033|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0033
92442866|NCT01480076|184771089|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442867|NCT01480076|184771089|SUPERIORITY_OR_OTHER|||||||0.4087|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4087
92442868|NCT01480076|184771089|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442869|NCT01480076|184771089|SUPERIORITY_OR_OTHER|||||||0.2755|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2755
92442870|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-5.7|STANDARD_ERROR_OF_MEAN|2.52||0.0251|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0251
92442871|NCT01480076|184771089|SUPERIORITY_OR_OTHER||difference of LS means|-6.7|STANDARD_ERROR_OF_MEAN|4.08||0.0989|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0989
92171428|NCT05768373|184232031|NON_INFERIORITY|This study used a non-inferiority margin of 15 mm.|Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-3.4|4.0|||||The difference is 3M Clinpro minus 3M Vanish.|||4.0|-3.4|
92238874|NCT01276847|184381904|SUPERIORITY_OR_OTHER|||||||0.397||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 1||||0.397
92442872|NCT01480076|184771090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442873|NCT01480076|184771090|SUPERIORITY_OR_OTHER|||||||0.8767|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8767
92442874|NCT01480076|184771090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92280149|NCT00585780|184463195|OTHER|Expected outcome was that Prazosin will be better than placebo in reducing HDD% among High AW individuals but no differences by medication treatment in the Low AW individuals.|Odds Ratio (OR)|0.23||||0.016|TWO_SIDED|95.0|0.1|0.55||This is for the apriori hypothesis of significant AWX Treatment X Time effect.|Mixed Models Analysis|Simple effects were conducted to assess source of the interaction.||Intent-to-treat (ITT) analyses with baseline AW severity (mean-centered continuous CIWA-Ar scores) as a moderator of Time (Pre-Full Dose(FD): weeks 1-2; Post FD: weeks 3-12) were conducted with linear or generalized linear mixed effect (LME/GLME) piecewise growth models for continuous and binary outcomes. Control variables that were modeled in all analyses. As hypothesized, significant interactions were tested using AW median cut-offs for high and Low AW groups.||0.55|0.1|0.016
92442875|NCT01480076|184771090|SUPERIORITY_OR_OTHER|||||||0.3673|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3673
92442876|NCT01480076|184771090|SUPERIORITY_OR_OTHER||difference of LS means|-6.8|STANDARD_ERROR_OF_MEAN|1.91||0.0004|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0004
92442877|NCT01480076|184771090|SUPERIORITY_OR_OTHER||difference of LS means|-6.9|STANDARD_ERROR_OF_MEAN|3.12||0.0273|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0273
92442878|NCT01480076|184771090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442879|NCT01480076|184771090|SUPERIORITY_OR_OTHER|||||||0.9091|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9091
92442880|NCT01480076|184771090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442881|NCT01480076|184771090|SUPERIORITY_OR_OTHER|||||||0.7718|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7718
92442882|NCT01480076|184771090|SUPERIORITY_OR_OTHER||difference of LS means|-9.2|STANDARD_ERROR_OF_MEAN|2.11|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442883|NCT01480076|184771090|SUPERIORITY_OR_OTHER||difference of LS means|-10.1|STANDARD_ERROR_OF_MEAN|3.5||0.0038|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0038
92442884|NCT01480076|184771090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442885|NCT01480076|184771090|SUPERIORITY_OR_OTHER|||||||0.272|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2720
92171429|NCT05768373|184232032|NON_INFERIORITY|This study used a non-inferiority margin of 15 mm.|Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-2.6|5.3|||||The difference is 3M Clinpro minus 3M Vanish.|||5.3|-2.6|
92442886|NCT01480076|184771090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442887|NCT01480076|184771090|SUPERIORITY_OR_OTHER|||||||0.4767|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4767
92442888|NCT01480076|184771090|SUPERIORITY_OR_OTHER||difference of LS means|-4.5|STANDARD_ERROR_OF_MEAN|2.32||0.0553|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0553
92442889|NCT01480076|184771090|SUPERIORITY_OR_OTHER||difference of LS means|-6.9|STANDARD_ERROR_OF_MEAN|3.73||0.0632|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0632
92442890|NCT01480076|184771090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442891|NCT01480076|184771090|SUPERIORITY_OR_OTHER|||||||0.9398|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9398
92442892|NCT01480076|184771090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442893|NCT01480076|184771090|SUPERIORITY_OR_OTHER|||||||0.5655|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5655
92442894|NCT01480076|184771090|SUPERIORITY_OR_OTHER||difference of LS means|-5.9|STANDARD_ERROR_OF_MEAN|2.54||0.0204|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0204
92442895|NCT01480076|184771090|SUPERIORITY_OR_OTHER||difference of LS means|-6.4|STANDARD_ERROR_OF_MEAN|4.37||0.1414|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1414
92442896|NCT01480076|184771090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442897|NCT01480076|184771090|SUPERIORITY_OR_OTHER|||||||0.6279|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6279
92442898|NCT01480076|184771090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442899|NCT01480076|184771090|SUPERIORITY_OR_OTHER|||||||0.2239|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2239
92442900|NCT01480076|184771090|SUPERIORITY_OR_OTHER||difference of LS means|-7.5|STANDARD_ERROR_OF_MEAN|2.67||0.0049|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0049
92442901|NCT01480076|184771090|SUPERIORITY_OR_OTHER||difference of LS means|-4.1|STANDARD_ERROR_OF_MEAN|4.32||0.3457|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3457
92442902|NCT01480076|184771091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442903|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.2087|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2087
92442904|NCT01480076|184771091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442905|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.4487|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4487
92442906|NCT01480076|184771091|SUPERIORITY_OR_OTHER||difference of LS means|-2.1|STANDARD_ERROR_OF_MEAN|0.64||0.0013|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0013
92442907|NCT01480076|184771091|SUPERIORITY_OR_OTHER||difference of LS means|-2.7|STANDARD_ERROR_OF_MEAN|1.15||0.0188|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0188
92442908|NCT01480076|184771091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442909|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.4243|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4243
92442910|NCT01480076|184771091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442911|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.9989|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9989
92442912|NCT01480076|184771091|SUPERIORITY_OR_OTHER||difference of LS means|-1.6|STANDARD_ERROR_OF_MEAN|0.68||0.0207|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0207
92442913|NCT01480076|184771091|SUPERIORITY_OR_OTHER||difference of LS means|-2.9|STANDARD_ERROR_OF_MEAN|1.18||0.0161|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0161
92442914|NCT01480076|184771091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442915|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.4256|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4256
92442916|NCT01480076|184771091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442917|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.3313|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3313
92442918|NCT01480076|184771091|SUPERIORITY_OR_OTHER||difference of LS means|-1.9|STANDARD_ERROR_OF_MEAN|0.83||0.0238|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0238
92442919|NCT01480076|184771091|SUPERIORITY_OR_OTHER||difference of LS means|-3.4|STANDARD_ERROR_OF_MEAN|1.39||0.015|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0150
92442920|NCT01480076|184771091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442921|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.0171|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0171
92442922|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.0007|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0007
92442923|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.5146|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5146
92442924|NCT01480076|184771091|SUPERIORITY_OR_OTHER||difference of LS means|-3.0|STANDARD_ERROR_OF_MEAN|0.84||0.0003|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0003
92171430|NCT05768373|184232033|NON_INFERIORITY|This study used a non-inferiority margin of 15 mm.|Mean Difference (Final Values)|1.7|||||TWO_SIDED|95.0|-3.2|6.7|||||The difference is 3M Clinpro minus 3M Vanish.|||6.7|-3.2|
92442925|NCT01480076|184771091|SUPERIORITY_OR_OTHER||difference of LS means|-2.7|STANDARD_ERROR_OF_MEAN|1.72||0.1224|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1224
92442926|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.0168|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0168
92442927|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.2272|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2272
92442928|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.057|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0570
92442929|NCT01480076|184771091|SUPERIORITY_OR_OTHER|||||||0.5832|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5832
92442930|NCT01480076|184771091|SUPERIORITY_OR_OTHER||difference of LS means|-1.8|STANDARD_ERROR_OF_MEAN|0.94||0.0561|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0561
92442931|NCT01480076|184771091|SUPERIORITY_OR_OTHER||difference of LS means|-1.9|STANDARD_ERROR_OF_MEAN|1.86||0.2971|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2971
92442932|NCT01480076|184771092|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442933|NCT01480076|184771092|SUPERIORITY_OR_OTHER|||||||0.0029|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0029
92442934|NCT01480076|184771092|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442935|NCT01480076|184771092|SUPERIORITY_OR_OTHER|||||||0.8041|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8041
92442936|NCT01480076|184771092|SUPERIORITY_OR_OTHER||difference of LS means|11.8|STANDARD_ERROR_OF_MEAN|1.85|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442937|NCT01480076|184771092|SUPERIORITY_OR_OTHER||difference of LS means|9.4|STANDARD_ERROR_OF_MEAN|3.1||0.0026|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0026
92442938|NCT01480076|184771092|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442939|NCT01480076|184771092|SUPERIORITY_OR_OTHER|||||||0.0689|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0689
92442940|NCT01480076|184771092|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442941|NCT01480076|184771092|SUPERIORITY_OR_OTHER|||||||0.7182|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7182
92442942|NCT01480076|184771092|SUPERIORITY_OR_OTHER||difference of LS means|11.6|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92238875|NCT01276847|184381904|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 2||||0.010
92442943|NCT01480076|184771092|SUPERIORITY_OR_OTHER||difference of LS means|9.8|STANDARD_ERROR_OF_MEAN|3.57||0.0061|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0061
92442944|NCT01480076|184771092|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442945|NCT01480076|184771092|SUPERIORITY_OR_OTHER|||||||0.0179|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0179
92442946|NCT01480076|184771092|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442947|NCT01480076|184771092|SUPERIORITY_OR_OTHER|||||||0.6911|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6911
92442948|NCT01480076|184771092|SUPERIORITY_OR_OTHER||difference of LS means|10.8|STANDARD_ERROR_OF_MEAN|2.31|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442949|NCT01480076|184771092|SUPERIORITY_OR_OTHER||difference of LS means|7.1|STANDARD_ERROR_OF_MEAN|3.85||0.0666|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0666
92442950|NCT01480076|184771092|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442951|NCT01480076|184771092|SUPERIORITY_OR_OTHER|||||||0.0158|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0158
92442952|NCT01480076|184771092|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442953|NCT01480076|184771092|SUPERIORITY_OR_OTHER|||||||0.6684|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6684
92442954|NCT01480076|184771092|SUPERIORITY_OR_OTHER||difference of LS means|11.6|STANDARD_ERROR_OF_MEAN|2.49|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442955|NCT01480076|184771092|SUPERIORITY_OR_OTHER||difference of LS means|10.5|STANDARD_ERROR_OF_MEAN|4.28||0.0141|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0141
92442956|NCT01480076|184771092|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442957|NCT01480076|184771092|SUPERIORITY_OR_OTHER|||||||0.0042|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0042
92442958|NCT01480076|184771092|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442959|NCT01480076|184771092|SUPERIORITY_OR_OTHER|||||||0.7329|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7329
92442960|NCT01480076|184771092|SUPERIORITY_OR_OTHER||difference of LS means|13.2|STANDARD_ERROR_OF_MEAN|2.65|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442961|NCT01480076|184771092|SUPERIORITY_OR_OTHER||difference of LS means|10.1|STANDARD_ERROR_OF_MEAN|4.49||0.0242|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0242
92442962|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0001
92442963|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.9151|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9151
92442964|NCT01480076|184771093|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442965|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.6128|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6128
92442966|NCT01480076|184771093|SUPERIORITY_OR_OTHER||difference of LS means|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.0331|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0331
92442967|NCT01480076|184771093|SUPERIORITY_OR_OTHER||difference of LS means|0.05|STANDARD_ERROR_OF_MEAN|0.04||0.1919|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1919
92442968|NCT01480076|184771093|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442969|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.4481|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4481
92442970|NCT01480076|184771093|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92442971|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.5454|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5454
92442972|NCT01480076|184771093|SUPERIORITY_OR_OTHER||difference of LS means|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.0516|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0516
92442973|NCT01480076|184771093|SUPERIORITY_OR_OTHER||difference of LS means|0.09|STANDARD_ERROR_OF_MEAN|0.04||0.0175|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0175
92442974|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0001
92442975|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.9371|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9371
92442976|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.0056|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0056
92442977|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.5475|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5475
92442978|NCT01480076|184771093|SUPERIORITY_OR_OTHER||difference of LS means|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.0699|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0699
92442979|NCT01480076|184771093|SUPERIORITY_OR_OTHER||difference of LS means|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.587|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5870
92442980|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.0245|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0245
92238876|NCT01276847|184381904|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 4||||0.002
92442981|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.9926|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9926
92171431|NCT05768373|184232034|NON_INFERIORITY|This study used a non-inferiority margin of 15 mm.|Mean Difference (Final Values)|2.2|||||TWO_SIDED|95.0|-3.0|7.4|||||The difference is 3M Clinpro minus 3M Vanish.|||7.4|-3.0|
92442982|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.0027|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0027
92442983|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.6368|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6368
92442984|NCT01480076|184771093|SUPERIORITY_OR_OTHER||difference of LS means|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3358|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3358
92442985|NCT01480076|184771093|SUPERIORITY_OR_OTHER||difference of LS means|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.5089|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5089
92442986|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.0141|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0141
92442987|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.428|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4280
92442988|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0002
92442989|NCT01480076|184771093|SUPERIORITY_OR_OTHER|||||||0.3827|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3827
92442990|NCT01480076|184771093|SUPERIORITY_OR_OTHER||difference of LS means|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.0748|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0748
92442991|NCT01480076|184771093|SUPERIORITY_OR_OTHER||least squares mean|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.5663|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5663
92171432|NCT05768373|184232035|NON_INFERIORITY|This study used a non-inferiority margin of 15 mm.|Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|-4.4|8.2|||||The difference is 3M Clinpro minus 3M Vanish.|||8.2|-4.4|
92171433|NCT05478525|184232037|SUPERIORITY||Least Squares (LS) Mean Difference|-35.05||||0.0007|TWO_SIDED|95.0|-54.35|-15.75|||ANCOVA|||Analysis at Week 2||-15.75|-54.35|0.0007
92238877|NCT01276847|184381904|SUPERIORITY_OR_OTHER|||||||0.000215||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 16||||0.000215
92442992|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.1544|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1544
92442993|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.0167|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0167
92442994|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.3868|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3868
92442995|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.2214|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2214
92442996|NCT01480076|184771094|SUPERIORITY_OR_OTHER||difference of LS means|8.9|STANDARD_ERROR_OF_MEAN|4.96||0.0743|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0743
92442997|NCT01480076|184771094|SUPERIORITY_OR_OTHER||difference of LS means|-17.2|STANDARD_ERROR_OF_MEAN|12.22||0.1601|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1601
92442998|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.1251|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1251
92442999|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.1764|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1764
92443000|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.5528|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5528
92171434|NCT05478525|184232037|SUPERIORITY||LS Mean Difference|-23.14||||0.0193|TWO_SIDED|95.0|-42.32|-3.97|||ANCOVA|||Analysis at Week 2||-3.97|-42.32|0.0193
92443001|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.108|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1080
92171435|NCT05478525|184232037|SUPERIORITY||LS Mean Difference|-21.64||||0.0243|TWO_SIDED|95.0|-40.33|-2.96|||ANCOVA|||Analysis at Week 2||-2.96|-40.33|0.0243
92171436|NCT05478525|184232039|SUPERIORITY||LS Mean Difference|-155.68||||0.0298|TWO_SIDED|95.0|-295.35|-16.01|||ANCOVA|||Analysis at Day 14||-16.01|-295.35|0.0298
92238878|NCT01276847|184381905|SUPERIORITY_OR_OTHER|||||||0.787||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 1||||0.787
92238879|NCT01276847|184381905|SUPERIORITY_OR_OTHER|||||||0.577||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 2||||0.577
92443002|NCT01480076|184771094|SUPERIORITY_OR_OTHER||difference of LS means|4.6|STANDARD_ERROR_OF_MEAN|6.27||0.4644|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4644
92238880|NCT01276847|184381905|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 4||||0.053
92238881|NCT01276847|184381905|SUPERIORITY_OR_OTHER|||||||0.098||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 16||||0.098
92238882|NCT01797029|184381947|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92238883|NCT03596177|184382037|SUPERIORITY||Mean Difference (Net)|-2.58||||0.011|TWO_SIDED|90.0|-4.15|-1.0|||ANCOVA|||||-1.00|-4.15|0.011
92171437|NCT05478525|184232039|SUPERIORITY||LS Mean Difference|-143.74||||0.0433|TWO_SIDED|95.0|-282.92|-4.55|||ANCOVA|||Analysis at Day 14||-4.55|-282.92|0.0433
92171438|NCT05478525|184232039|SUPERIORITY||LS Mean Difference|-178.33||||0.0201|TWO_SIDED|95.0|-327.16|-29.5|||ANCOVA|||Analysis at Day 14||-29.50|-327.16|0.0201
92171439|NCT05478525|184232040|SUPERIORITY||LS Mean Difference|-47.07||||0.1992|TWO_SIDED|95.0|-119.94|25.81|||ANCOVA|||Analysis at Day 14||25.81|-119.94|0.1992
92171440|NCT05478525|184232040|SUPERIORITY||LS Mean Difference|-70.32||||0.0617|TWO_SIDED|95.0|-144.26|3.61|||ANCOVA|||Analysis at Day 14||3.61|-144.26|0.0617
92443003|NCT01480076|184771094|SUPERIORITY_OR_OTHER||difference of LS means|-30.6|STANDARD_ERROR_OF_MEAN|17.91||0.0887|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0887
92443004|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.0071|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0071
92443005|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.064|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0640
92171441|NCT05478525|184232040|SUPERIORITY||LS Mean Difference|-39.84||||0.2981|TWO_SIDED|95.0|-116.22|36.53|||ANCOVA|||Analysis at Day 14||36.53|-116.22|0.2981
92171442|NCT04038957|184232071|SUPERIORITY|||||||0.0072||||||A p-value of p\<0.05 will be considered as significant.|Repeated Measures ANOVA|||To examine the primary outcome, the effects of SEP-363856 on the striatum, a repeated measures ANOVA model will be build using the baseline and on-treatment kicer values of each striatal subregion.||||0.0072
92443006|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.1552|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1552
92171443|NCT04491968|184232072|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.02|TWO_SIDED|95.0|0.37|0.9|||proportional hazard regression|||||.90|.37|.02
92171444|NCT04491968|184232073|SUPERIORITY||Hazard Ratio (HR)|0.41||||0.04|TWO_SIDED|95.0|0.18|0.96|||proportional hazard regression|||||.96|.18|.04
92171445|NCT05656911|184232090|OTHER|Bayesian analysis according to estimand|Mean Difference (Final Values)|-5.0|||||TWO_SIDED|95.0|-29.0|18.0|||||Posterior probability is 34.0%|Median of posterior distribution of difference between Zabedosertib and Placebo including credible interval. Posterior probability is presented that the responder rate after treatment with zabedosertib is higher than after placebo given the data observed in the study.||18.0|-29.0|
92171446|NCT05656911|184232091|OTHER||Mean Difference (Final Values)|11.31||||0.257|TWO_SIDED|95.0|-8.26|30.87||two-sided. No adjustment for multiple comparisons.|ANCOVA||LS mean (%)|The analysis of covariance (ANCOVA) model includes treatment group as fixed effect and the EASI baseline value as covariate.||30.87|-8.26|0.257
92171447|NCT05656911|184232092|OTHER|Bayesian analysis according to estimand|Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-27.0|22.1|||||Posterior probability is 41.7%|Median of posterior distribution of difference between Zabedosertib and Placebo including credible interval. Posterior probability is presented that the responder rate after treatment with zabedosertib is higher than after placebo given the data observed in the study.||22.1|-27.0|
92171448|NCT05656911|184232093|OTHER|Bayesian analysis according to estimand|Mean Difference (Final Values)|-4.6|||||TWO_SIDED|95.0|-25.6|13.4|||||Posterior probability is 31.5%|Median of posterior distribution of difference between Zabedosertib and Placebo including credible interval. Posterior probability is presented that the responder rate after treatment with zabedosertib is higher than after placebo given the data observed in the study.||13.4|-25.6|
92171449|NCT05656911|184232094|OTHER|Bayesian analysis according to estimand|Mean Difference (Final Values)|-12.5|||||TWO_SIDED|95.0|-34.1|7.0|||||Posterior probability is 10.8%|Median of posterior distribution of difference between Zabedosertib and Placebo including credible interval. Posterior probability is presented that the responder rate after treatment with zabedosertib is higher than after placebo given the data observed in the study.||7.0|-34.1|
92171450|NCT05656911|184232095|OTHER||Mean Difference (Final Values)|7.06||||0.166|TWO_SIDED|95.0|-2.92|17.03||two-sided. No adjustment for multiple comparisons.|ANCOVA|||The analysis of covariance (ANCOVA) model includes treatment group as fixed effect and the EASI baseline value as covariate.||17.03|-2.92|0.166
92171451|NCT05656911|184232096|OTHER|Bayesian analysis according to estimand|Mean Difference (Final Values)|-8.4|||||TWO_SIDED|95.0|-30.4|11.0|||||Posterior probability is 20.5%|Median of posterior distribution of difference between Zabedosertib and Placebo including credible interval. Posterior probability is presented that the responder rate after treatment with zabedosertib is higher than after placebo given the data observed in the study.||11.0|-30.4|
92171452|NCT05656911|184232098|OTHER||Mean Difference (Final Values)|6.68||||0.396|TWO_SIDED|95.0|-8.75|22.11||two-sided. No adjustment for multiple comparisons.|ANCOVA|||The analysis of covariance (ANCOVA) model includes treatment group as fixed effect and the EASI baseline value as covariate.||22.11|-8.75|0.396
92238884|NCT03596177|184382038|SUPERIORITY||Mean Difference (Net)|-45.481||||0.002|TWO_SIDED|90.0|-67.777|-23.186|||ANCOVA|||Statistical Analysis for Day 32||-23.186|-67.777|0.002
92238885|NCT03596177|184382038|SUPERIORITY||Mean Difference (Net)|-41.323||||0.011|TWO_SIDED|90.0|-66.74|-15.907|||ANCOVA|||Statistical Analysis for Day 59||-15.907|-66.740|0.011
92238886|NCT03596177|184382039|SUPERIORITY||Mean Difference (Net)|-1551.194|||<|0.001|TWO_SIDED|90.0|-2190.515|-911.873|||ANCOVA|||Statistical Analysis for Day 32||-911.873|-2190.515|<0.001
92238887|NCT03596177|184382039|SUPERIORITY||Mean Difference (Net)|-1332.515||||0.015|TWO_SIDED|90.0|-2187.711|-477.318|||ANCOVA|||Statistical Analysis for Day 59||-477.318|-2187.711|0.015
92443007|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.5979|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5979
92443008|NCT01480076|184771094|SUPERIORITY_OR_OTHER||difference of LS means|4.3|STANDARD_ERROR_OF_MEAN|5.58||0.4444|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4444
92443009|NCT01480076|184771094|SUPERIORITY_OR_OTHER||difference of LS means|-10.7|STANDARD_ERROR_OF_MEAN|12.27||0.3863|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3863
92443010|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.6352|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6352
92443011|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.1265|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1265
92443012|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.6161|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6161
92443013|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.528|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5280
92443014|NCT01480076|184771094|SUPERIORITY_OR_OTHER||difference of LS means|11.5|STANDARD_ERROR_OF_MEAN|8.51||0.1769|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1769
92443015|NCT01480076|184771094|SUPERIORITY_OR_OTHER||difference of LS means|-16.0|STANDARD_ERROR_OF_MEAN|22.24||0.4743|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4743
92443016|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.6901|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6901
92443017|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.0245|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0245
92443018|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.7707|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7707
92238888|NCT03596177|184382040|SUPERIORITY||Mean Difference (Net)|-3.173||||0.384|TWO_SIDED|90.0|-9.368|3.022|||ANCOVA|||||3.022|-9.368|0.384
92238889|NCT03596177|184382041|SUPERIORITY||Mean Difference (Net)|-10.039||||0.351|TWO_SIDED|90.0|-28.287|8.209|||ANCOVA|||||8.209|-28.287|0.351
92238890|NCT03596177|184382042|SUPERIORITY||Mean Difference (Net)|0.186||||0.968|TWO_SIDED|90.0|-7.858|8.229|||ANCOVA|||||8.229|-7.858|0.968
92238891|NCT03596177|184382043|SUPERIORITY||Mean Difference (Net)|0.867||||0.58|TWO_SIDED|90.0|-1.81|3.545|||ANCOVA|||||3.545|-1.810|0.580
92238892|NCT03596177|184382044|SUPERIORITY||Mean Difference (Net)|-3.645||||0.324|TWO_SIDED|90.0|-9.894|2.603|||ANCOVA|||||2.603|-9.894|0.324
92443019|NCT01480076|184771094|SUPERIORITY_OR_OTHER|||||||0.4989|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4989
92443020|NCT01480076|184771094|SUPERIORITY_OR_OTHER||difference of LS means|15.2|STANDARD_ERROR_OF_MEAN|7.31||0.0387|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0387
92238893|NCT03596177|184382045|SUPERIORITY||Mean Difference (Net)|-5.672||||0.412|TWO_SIDED|90.0|-17.415|6.072|||ANCOVA|||||6.072|-17.415|0.412
92238894|NCT03596177|184382046|SUPERIORITY||Mean Difference (Net)|7.357||||0.177|TWO_SIDED|90.0|-1.742|16.456|||ANCOVA|||||16.456|-1.742|0.177
92238895|NCT03596177|184382047|SUPERIORITY||Mean Difference (Net)|15.186||||0.168|TWO_SIDED|90.0|-3.151|33.523|||ANCOVA|||||33.523|-3.151|0.168
92238896|NCT03596177|184382048|SUPERIORITY||Mean Difference (Net)|-2.54||||0.009|TWO_SIDED|90.0|-4.05|-1.03|||ANCOVA|||||-1.03|-4.05|0.009
92238897|NCT03596177|184382049|SUPERIORITY||Mean Difference (Net)|-5.122||||0.107|TWO_SIDED|90.0|-10.364|0.119|||ANCOVA|||||0.119|-10.364|0.107
92238898|NCT03596177|184382050|SUPERIORITY||Mean Difference (Net)|-1.848||||0.085|TWO_SIDED|90.0|-3.605|-0.091|||ANCOVA|||||-0.091|-3.605|0.085
92238899|NCT03596177|184382051|SUPERIORITY||Mean Difference (Net)|-3.159||||0.204|TWO_SIDED|90.0|-7.326|1.007|||ANCOVA|||||1.007|-7.326|0.204
92443021|NCT01480076|184771094|SUPERIORITY_OR_OTHER||difference of LS means|-11.7|STANDARD_ERROR_OF_MEAN|15.88||0.4635|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4635
92443022|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.1392|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1392
92443023|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.1448|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1448
92238900|NCT03596177|184382052|SUPERIORITY||Mean Difference (Net)|-0.019||||0.145|TWO_SIDED|90.0|-0.041|0.003|||ANCOVA|||||0.003|-0.041|0.145
92238901|NCT03596177|184382053|SUPERIORITY||Mean Difference (Net)|-26.001||||0.001|TWO_SIDED|90.0|-37.801|-14.201|||ANCOVA|||||-14.201|-37.801|0.001
92238902|NCT03596177|184382054|SUPERIORITY||Mean Difference (Net)|-12.332||||0.01|TWO_SIDED|90.0|-19.726|-4.938|||ANCOVA|||||-4.938|-19.726|0.010
92443024|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.0187|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0187
92443025|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.292|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2920
92171453|NCT03547908|184232100|NON_INFERIORITY|A sample size of 240 participants randomized in a 1:1 ratio to 2 treatment groups, achieved 90% power to detect a non-inferiority margin of 12% between the 2 treatment groups. For the sample size and power computation, it is assumed that both treatment groups have a response rate of 91% (based on Gilead Studies GS-US-380-1489 and GS-US-380-1490), that the non-inferiority margin is 12%, and that the significance level of the test is at a one-sided 0.025 level.|Difference in Percentages|4.1|||||TWO_SIDED|95.001|-2.5|10.8|||||The difference in percentages of participants between groups and their 95.001% confidence intervals (CI)s were calculated based on Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).|||10.8|-2.5|
92171454|NCT03547908|184232100|SUPERIORITY|||||||0.2113|||||||Cochran-Mantel-Haenszel|The p-value was calculated from Cochran-Mantel-Haenszel (CMH) test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).||||||0.2113
92171455|NCT03547908|184232101|NON_INFERIORITY|A sample size of 240 participants provided 81% power to detect a non-inferiority margin of 12% between the 2 treatment groups. This assumed that both treatment groups have a response rate of 88% (based on Gilead Studies GS-US-320-0108 and GS-US-320-0110), that the non-inferiority margin is 12%, and that the significance level of the test is at a one-sided 0.025 level.|Difference in Percentages|16.6|||||TWO_SIDED|95.001|5.9|27.3|||||||The difference in percentages of participants with HBV DNA \< 29 IU/mL between treatment groups and its 95.001% CI were calculated based on the MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA category (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|27.3|5.9|
92171456|NCT03547908|184232101|SUPERIORITY|||||||0.0023|||||||Cochran-Mantel-Haenszel|The p-value was from CMH test stratified by baseline HBeAg status (positive vs negative) and HBV DNA category (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).||||||0.0023
92171457|NCT03547908|184232102|SUPERIORITY||Difference in Percentages|-0.3||||0.9427|TWO_SIDED|95.0|-8.9|8.3||P-value for the superiority test comparing the percentages of participants with HIV-1 RNA \< 50 copies/mL between treatment groups was from the CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentages of participants with HIV-1 RNA \< 50 copies/mL between treatment groups and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||8.3|-8.9|0.9427
92171458|NCT03547908|184232103|OTHER||Difference in least squares mean (LSM)|24.0||||0.1701|TWO_SIDED|95.0|-10.0|58.0|||ANOVA|The p-value was calculated using ANOVA model adjusted by the baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).|The difference in least squares means and its 95% CI were calculated using ANOVA model adjusted by the baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).|||58|-10|0.1701
92238903|NCT01301742|184382060|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and gemfibrozil divided by empa alone|Geometric Mean Ratio|158.5|STANDARD_DEVIATION|7.5|||TWO_SIDED|90.0|151.77|165.53|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the intra-individual geometric coefficient of variation (gCV)|||165.53|151.77|
92238904|NCT01301742|184382061|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and gemfibrozil divided by empa alone|Geometric Mean Ratio|115.0|STANDARD_DEVIATION|13.8|||TWO_SIDED|90.0|106.15|124.59|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the intra-individual gCV|||124.59|106.15|
92443026|NCT01480076|184771095|SUPERIORITY_OR_OTHER||difference of LS means|4.2|STANDARD_ERROR_OF_MEAN|4.95||0.3968|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3968
92443027|NCT01480076|184771095|SUPERIORITY_OR_OTHER||difference of LS means|5.1|STANDARD_ERROR_OF_MEAN|10.95||0.642|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6420
92443028|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.01|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0100
92171459|NCT03547908|184232104|OTHER||Difference in Least Squares Means|30.0||||0.1853|TWO_SIDED|95.0|-14.0|74.0||P-value was from ANOVA model adjusted by the baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|ANOVA||Difference in least squares means (Diff in LSM), and its 95% CI were from ANOVA model adjusted by the baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|||74|-14|0.1853
92171460|NCT03547908|184232105|OTHER||Difference in least squares mean (LSM)|0.59||||0.2839|TWO_SIDED|95.0|-0.49|1.67|||ANOVA|The p-value was calculated using ANOVA model adjusted by the baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).|The difference in least squares means and its 95% CI were calculated using ANOVA model adjusted by the baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).|||1.67|-0.49|0.2839
92171461|NCT03547908|184232106|OTHER||Difference in LSM|0.13||||0.8456|TWO_SIDED|95.0|-1.2|1.46||P-value was from ANOVA model adjusted by the baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|ANOVA||Difference in LSM and its 95% CI were from ANOVA model adjusted by the baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|||1.46|-1.20|0.8456
92238905|NCT01301742|184382062|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and gemfibrozil divided by empa alone|Geometric Mean Ratio|158.29|STANDARD_DEVIATION|7.7|||TWO_SIDED|90.0|151.41|165.49|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the intra-individual gCV|||165.49|151.41|
92443029|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.8634|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8634
92443030|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.0134|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0134
92443031|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.8147|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8147
92443032|NCT01480076|184771095|SUPERIORITY_OR_OTHER||difference of LS means|-5.1|STANDARD_ERROR_OF_MEAN|6.06||0.4035|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4035
92443033|NCT01480076|184771095|SUPERIORITY_OR_OTHER||difference of LS means|-4.8|STANDARD_ERROR_OF_MEAN|14.25||0.7385|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7385
92443034|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.0139|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0139
92443035|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.5207|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5207
92443036|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.0091|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0091
92443037|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.2312|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2312
92443038|NCT01480076|184771095|SUPERIORITY_OR_OTHER||difference of LS means|-1.8|STANDARD_ERROR_OF_MEAN|5.89||0.7578|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7578
92443039|NCT01480076|184771095|SUPERIORITY_OR_OTHER||difference of LS means|7.9|STANDARD_ERROR_OF_MEAN|13.42||0.5575|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5575
92443040|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.4486|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4486
92443041|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.0102|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0102
92443042|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.1185|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1185
92443043|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.7523|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7523
92443044|NCT01480076|184771095|SUPERIORITY_OR_OTHER||difference of LS means|17.1|STANDARD_ERROR_OF_MEAN|7.38||0.0214|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0214
92443045|NCT01480076|184771095|SUPERIORITY_OR_OTHER||difference of LS means|0.4|STANDARD_ERROR_OF_MEAN|19.12||0.9826|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9826
92443046|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.6627|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6627
92443047|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.4674|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4674
92443048|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.2965|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2965
92443049|NCT01480076|184771095|SUPERIORITY_OR_OTHER|||||||0.1778|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1778
92443050|NCT01480076|184771095|SUPERIORITY_OR_OTHER||difference of LS means|6.6|STANDARD_ERROR_OF_MEAN|7.65||0.3903|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3903
92443051|NCT01480076|184771095|SUPERIORITY_OR_OTHER||difference of LS means|16.8|STANDARD_ERROR_OF_MEAN|15.53||0.2794|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2794
92443052|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.0628|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0628
92443053|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.1166|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1166
92443054|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.0451|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0451
92443055|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.9327|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9327
92443056|NCT01480076|184771096|SUPERIORITY_OR_OTHER||difference of LS means|5.1|STANDARD_ERROR_OF_MEAN|6.28||0.4177|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4177
92443057|NCT01480076|184771096|SUPERIORITY_OR_OTHER||difference of LS means|-7.9|STANDARD_ERROR_OF_MEAN|14.64||0.5885|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5885
92443058|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.0059|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0059
92443059|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.3467|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3467
92443060|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.0654|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0654
92443061|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.3965|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3965
92443062|NCT01480076|184771096|SUPERIORITY_OR_OTHER||difference of LS means|-1.3|STANDARD_ERROR_OF_MEAN|7.11||0.8548|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8548
92446805|NCT00280566|184780545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.49|STANDARD_ERROR_OF_MEAN|0.87||0.0861|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0861
92446806|NCT00280566|184780545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.82||0.5992|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.5992
92238906|NCT03103750|184382064|SUPERIORITY|||||||0.016|||||||Mixed Models Analysis|||The primary hypothesis of calcitriol-related differences in amphetamine-induced dopamine release was determined by significance of the main effect of medication (calcitriol vs. placebo) on %change in BPND (i.e., post-Amp relative to pre-Amp scans) at a threshold of p\<0.05.||||0.016
92238907|NCT03103750|184382066|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
92238908|NCT04400318|184382117|SUPERIORITY||Odds Ratio (OR)|9.81|||<|0.001|TWO_SIDED|95.0|3.13|30.82|||Cochran-Mantel-Haenszel|||Odds Ratio, 95% confidence interval (CI) of the odds ratio and p-value between the dupilumab and placebo group based on the Cochran-Mantel-Haenszel (CMH) test adjusted by ICS dose level (medium/high) and region (Eastern Europe/ROW).||30.82|3.13|<0.001
92238909|NCT04400318|184382118|SUPERIORITY||Least square mean difference|21.76|STANDARD_ERROR_OF_MEAN|14.022||0.138|TWO_SIDED|95.0|-7.73|51.25|||MMRM|||The mixed model for repeated measures (MMRM) included study intervention, baseline value, region, ICS dose level, visits, study intervention by visit interaction, and baseline by visit interaction terms all as fixed effects. Region, ICS, study intervention and visits were considered as categorical parameters.||51.25|-7.73|0.138
92443063|NCT01480076|184771096|SUPERIORITY_OR_OTHER||difference of LS means|-25.1|STANDARD_ERROR_OF_MEAN|21.35||0.2405|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2405
92443064|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.0056|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0056
92443065|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.8105|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8105
92443066|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.047|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0470
92443067|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.6067|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6067
92443068|NCT01480076|184771096|SUPERIORITY_OR_OTHER||difference of LS means|-6.0|STANDARD_ERROR_OF_MEAN|7.56||0.4309|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4309
92238910|NCT04400318|184382119|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure is reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only 2 secondary outcome measures (#4 and #5) were included in this procedure.|Least square mean difference|-4.92|STANDARD_ERROR_OF_MEAN|0.798|<|0.001|TWO_SIDED|95.0|-6.5|-3.34|||MMRM|||MMRM model included study intervention (dupilumab, placebo), baseline value of global lung UCSF mucus scoring, region (Eastern Europe/ROW), ICS dose level (medium/high), visit (up to Week 24), study intervention-by-visit interaction and baseline-by-visit interaction as covariates.||-3.34|-6.50|<0.001
92238911|NCT04400318|184382120|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure is reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only 2 secondary outcome measures (#4 and #5) were included in this procedure.|Least square mean difference|-53.45|STANDARD_ERROR_OF_MEAN|39.562||0.18|TWO_SIDED|95.0|-132.09|25.19|||MMRM|||MMRM model included study intervention (dupilumab, placebo), baseline value of trimmed distal \[s\]iRaw at TLC, region (Eastern Europe/ROW), ICS dose level (medium/high), visit (up to Week 24), study intervention-by-visit interaction, and baseline-by-visit interaction as covariates.||25.19|-132.09|0.180
92238912|NCT02078713|184382154|SUPERIORITY||Odds Ratio (OR)|0.89||||0.46|TWO_SIDED|95.0|0.65|1.22||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 7 months post-enrollment||1.22|0.65|0.46
92238913|NCT02078713|184382154|SUPERIORITY||Odds Ratio (OR)|0.79||||0.16|TWO_SIDED|95.0|0.57|1.1||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 4 months post-enrollment||1.10|0.57|0.16
92443069|NCT01480076|184771096|SUPERIORITY_OR_OTHER||difference of LS means|0.5|STANDARD_ERROR_OF_MEAN|16.09||0.9761|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9761
92443070|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.6261|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6261
92443071|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.086|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0860
92443072|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.2884|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2884
92443073|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.8854|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8854
92443074|NCT01480076|184771096|SUPERIORITY_OR_OTHER||difference of LS means|16.9|STANDARD_ERROR_OF_MEAN|10.88||0.1226|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1226
92443075|NCT01480076|184771096|SUPERIORITY_OR_OTHER||difference of LS means|-9.2|STANDARD_ERROR_OF_MEAN|26.07||0.7249|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7249
92443076|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.5129|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5129
92443077|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.1138|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1138
92443078|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.1086|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1086
92443079|NCT01480076|184771096|SUPERIORITY_OR_OTHER|||||||0.5746|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5746
92238914|NCT02078713|184382155|SUPERIORITY||Odds Ratio (OR)|1.45||||0.03|TWO_SIDED|95.0|1.03|2.05||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||2.05|1.03|0.03
92443080|NCT01480076|184771096|SUPERIORITY_OR_OTHER||difference of LS means|10.8|STANDARD_ERROR_OF_MEAN|8.07||0.1831|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1831
92443081|NCT01480076|184771096|SUPERIORITY_OR_OTHER||difference of LS means|2.1|STANDARD_ERROR_OF_MEAN|15.54||0.8917|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8917
92443082|NCT01480076|184771097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92443083|NCT01480076|184771097|SUPERIORITY_OR_OTHER|||||||0.1152|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1152
92443084|NCT01480076|184771097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92443085|NCT01480076|184771097|SUPERIORITY_OR_OTHER|||||||0.4578|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4578
92443086|NCT01480076|184771097|SUPERIORITY_OR_OTHER||difference of LS means|-6.4|STANDARD_ERROR_OF_MEAN|2.56||0.0125|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0125
92443087|NCT01480076|184771097|SUPERIORITY_OR_OTHER||difference of LS means|-10.2|STANDARD_ERROR_OF_MEAN|4.23||0.0158|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0158
92443088|NCT01480076|184771097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92443089|NCT01480076|184771097|SUPERIORITY_OR_OTHER|||||||0.2894|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2894
92238915|NCT02078713|184382156|SUPERIORITY||Odds Ratio (OR)|1.61||||0.01|TWO_SIDED|95.0|1.11|2.33||P-value calculated in imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||2.33|1.11|0.01
92238916|NCT02078713|184382157|SUPERIORITY||Odds Ratio (OR)|1.11||||0.62|TWO_SIDED|95.0|0.74|1.67||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||1.67|0.74|0.62
92443090|NCT01480076|184771097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92443091|NCT01480076|184771097|SUPERIORITY_OR_OTHER|||||||0.723|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7230
92443092|NCT01480076|184771097|SUPERIORITY_OR_OTHER||difference of LS means|-9.3|STANDARD_ERROR_OF_MEAN|3.2||0.0038|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0038
92443093|NCT01480076|184771097|SUPERIORITY_OR_OTHER||difference of LS means|-13.9|STANDARD_ERROR_OF_MEAN|5.37||0.0097|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0097
92443094|NCT01480076|184771097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92443095|NCT01480076|184771097|SUPERIORITY_OR_OTHER|||||||0.0628|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0628
92443096|NCT01480076|184771097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92443097|NCT01480076|184771097|SUPERIORITY_OR_OTHER|||||||0.9232|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9232
92443098|NCT01480076|184771097|SUPERIORITY_OR_OTHER||difference of LS means|-5.2|STANDARD_ERROR_OF_MEAN|3.37||0.1249|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1249
92443099|NCT01480076|184771097|SUPERIORITY_OR_OTHER||difference of LS means|-14.1|STANDARD_ERROR_OF_MEAN|5.42||0.0093|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0093
92443100|NCT01480076|184771097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92443101|NCT01480076|184771097|SUPERIORITY_OR_OTHER|||||||0.0937|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0937
92443102|NCT01480076|184771097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92443103|NCT01480076|184771097|SUPERIORITY_OR_OTHER|||||||0.7814|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7814
92443104|NCT01480076|184771097|SUPERIORITY_OR_OTHER||difference of LS means|-3.9|STANDARD_ERROR_OF_MEAN|3.47||0.2561|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2561
92443105|NCT01480076|184771097|SUPERIORITY_OR_OTHER||difference of LS means|-13.6|STANDARD_ERROR_OF_MEAN|6.07||0.0255|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0255
92443106|NCT01480076|184771097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92443107|NCT01480076|184771097|SUPERIORITY_OR_OTHER|||||||0.7241|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7241
92443108|NCT01480076|184771097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
92443109|NCT01480076|184771097|SUPERIORITY_OR_OTHER|||||||0.0427|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0427
92443110|NCT01480076|184771097|SUPERIORITY_OR_OTHER||difference of LS means|-7.2|STANDARD_ERROR_OF_MEAN|3.67||0.0498|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0498
92443111|NCT01480076|184771097|SUPERIORITY_OR_OTHER||difference of LS means|0.7|STANDARD_ERROR_OF_MEAN|5.95||0.9078|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9078
92443112|NCT02120950|184771116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.7||||0.548|TWO_SIDED|95.0|-2.9|1.6|||ANCOVA|||||1.6|-2.9|0.5480
92443113|NCT02120950|184771117|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|0.6||||0.7402|TWO_SIDED|95.0|-3.1|4.3|||Cochran-Mantel-Haenszel|||||4.3|-3.1|0.7402
92443114|NCT02120950|184771119|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1||||0.0682|TWO_SIDED|95.0|0.0|0.2|||ANCOVA||Point estimate, 95% CI and p-value are based on treatment difference (AFL-sham - AFL-PDT) of the LS mean changes using an ANOVA model with treatment group and ethnicity and qualification for rescue therapy at Week 12 as fixed effects.|||0.2|0.0|0.0682
92443115|NCT02120950|184771120|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1||||0.164|TWO_SIDED|95.0|-0.1|0.3|||ANCOVA||Point estimate, 95% CI and p-value are based on treatment difference (AFL-sham - AFL-PDT) of the LS mean changes using an ANOVA model with treatment group and ethnicity and qualification for rescue therapy at Week 12 as fixed effects.|||0.3|-0.1|0.1640
92443116|NCT02120950|184771123|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|-5.6||||0.2348|TWO_SIDED|95.0|-14.9|3.7|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Gained ≥ 5||3.7|-14.9|0.2348
92443117|NCT02120950|184771123|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|-2.2||||0.6877|TWO_SIDED|95.0|-13.1|8.6|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Gained ≥ 10||8.6|-13.1|0.6877
92443118|NCT02120950|184771123|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|-4.0||||0.4556|TWO_SIDED|95.0|-14.5|6.5|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Gained ≥ 15||6.5|-14.5|0.4556
92443119|NCT02120950|184771124|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|1.7||||0.5372|TWO_SIDED|95.0|-3.7|7.2|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Lost ≥ 5||7.2|-3.7|0.5372
92443120|NCT02120950|184771124|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|0.6||||0.7569|TWO_SIDED|95.0|-3.4|4.7|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Lost ≥ 10||4.7|-3.4|0.7569
92443121|NCT02120950|184771124|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|-0.6||||0.7402|TWO_SIDED|95.0|-4.3|3.1|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Lost ≥ 15||3.1|-4.3|0.7402
92443122|NCT02120950|184771125|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|-6.0||||0.3244|TWO_SIDED|95.0|-17.8|5.9|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|||5.9|-17.8|0.3244
92443123|NCT02120950|184771126|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1||||0.7109|TWO_SIDED|95.0|-0.9|0.6|||ANCOVA||Point estimate, 95% CI and p-value are based on difference (AFL-sham - AFL-PDT) of LS mean changes using an ANCOVA model with treatment group and ethnicity and qualification for rescue therapy at Week 12 as fixed effects, baseline value as covariate.|The analysis population included only subjects with leakage in FA at baseline and Week 52. Baseline values were not carried forward.||0.6|-0.9|0.7109
92443124|NCT02120950|184771127|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.1||||0.8355|TWO_SIDED|95.0|-9.2|11.3|||ANCOVA||Point estimate, 95% CI and p-value are based on difference (AFL-sham - AFL-PDT) of LS mean changes using an ANCOVA model with treatment group and ethnicity and qualification for rescue therapy at Week 12 as fixed effects, baseline value as covariate.|The analysis population included only subjects with values for CST at baseline and Week 52. Baseline values were not carried forward.||11.3|-9.2|0.8355
92443125|NCT02120950|184771128|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.7||||0.5069|TWO_SIDED|95.0|-2.9|1.4|||ANCOVA||Point estimate, 95% CI and p-value are based on difference (AFL-sham - AFL-PDT) of LS mean changes using an ANCOVA model with treatment group and ethnicity and qualification for rescue therapy at Week 12 as fixed effects, baseline value as covariate.|The analysis population included only subjects with values for NEI VFQ-25 score at baseline and Week 52.||1.4|-2.9|0.5069
92443126|NCT02120950|184771129|SUPERIORITY_OR_OTHER_LEGACY||Difference %|-0.6||||0.8423|TWO_SIDED|95.0|-6.3|5.1||The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12.|Cochran-Mantel-Haenszel||CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12.|||5.1|-6.3|0.8423
92443127|NCT02424383|184771130|OTHER||||||||||||||||||Freedom from Target LesionRevascularization (TLR) were reported through 12 months with frequency counts, percentages and 95% confidence intervals from exact binomial test. In addition, Kaplan-Meier tables and curves were created.|||
92443128|NCT02424383|184771131|OTHER||||||||||||||||||Freedom from composite of safety events from the time following the index procedure through 30 days post procedure were reported with frequency counts, percentages and 95% confidence intervals from exact binomial test. Kaplan-Meier tables and curves were also calculated.|||
92443129|NCT01928862|184771154|OTHER||Treatment difference|-31.3|||||TWO_SIDED|90.0|-58.8|0.8||||||Confidence interval (CI) of the difference in proportions between each Prepopik® group and PEG within each age group was calculated using the Clopper-Pearson method.||0.8|-58.8|
92443130|NCT01928862|184771154|OTHER||Treatment Difference|6.3|||||TWO_SIDED|90.0|-25.3|36.9||||||CI of the difference in proportions between each Prepopik® group and PEG within each age group was calculated using the Clopper-Pearson method.||36.9|-25.3|
92443131|NCT01928862|184771154|OTHER||Treatment Difference|-4.5|||||TWO_SIDED|90.0|-33.5|26.3||||||CI of the difference in proportions between each Prepopik® group and PEG within each age group was calculated using the Clopper-Pearson method.||26.3|-33.5|
92443132|NCT02053753|184771182|NON_INFERIORITY_OR_EQUIVALENCE|The 2 treatments were considered bioequivalent if the 90% CIs for the ratio of the geometric means were between 0.80 and 1.25.|Ratio of Geometrc Means (CP4:CP2)|1.084|||||TWO_SIDED|90.0|0.995|1.181|||||The ratio and confidence interval of the geometric means are based on natural log scale data converted back to the original scale.|||1.181|0.995|
92443133|NCT02053753|184771183|NON_INFERIORITY_OR_EQUIVALENCE|The 2 treatments were considered bioequivalent if the 90% CIs for the ratio of the geometric means were between 0.80 and 1.25.|Ratio of Geometric Means (CP4:CP2)|1.028|||||TWO_SIDED|90.0|0.934|1.131|||||The ratio and confidence interval of the geometric means are based on natural log scale data converted back to the original scale.|||1.131|0.934|
92443134|NCT02439320|184771191|SUPERIORITY||Odds Ratio (OR)|2.2|||<|0.001|TWO_SIDED|95.0|1.6|3.0|||Regression, Logistic|||||3.0|1.6|<0.001
92443135|NCT02439320|184771191|SUPERIORITY||Odds Ratio (OR)|2.6|||<|0.001|TWO_SIDED|95.0|2.0|3.6|||Regression, Logistic|||||3.6|2.0|<0.001
92443136|NCT02439320|184771192|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.3|2.2|||Regression, Logistic|||||2.2|1.3|<0.001
92443137|NCT02439320|184771192|SUPERIORITY||Odds Ratio, log|1.6|||<|0.001|TWO_SIDED|95.0|1.3|2.1|||Regression, Logistic|||||2.1|1.3|<0.001
92443138|NCT02439320|184771193|SUPERIORITY||Odds Ratio, log|2.4|||<|0.001|TWO_SIDED|95.0|1.8|3.1|||Regression, Logistic|||||3.1|1.8|<0.001
92443139|NCT02439320|184771193|SUPERIORITY||Odds Ratio (OR)|2.5|||<|0.001|TWO_SIDED|95.0|1.9|3.3|||Regression, Logistic|||||3.3|1.9|<0.001
92238917|NCT02078713|184382158|SUPERIORITY||Relative risk ratio|1.1||||0.85|TWO_SIDED|95.0|0.4|3.04||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of patients who wished provider had been less involved to right amount (ref)||3.04|0.40|0.85
92443140|NCT02439320|184771194|SUPERIORITY||Odds Ratio (OR)|1.7|||=|0.029|TWO_SIDED|95.0|1.1|2.8|||Regression, Logistic|||||2.8|1.1|=0.029
92443141|NCT02439320|184771194|SUPERIORITY||Odds Ratio (OR)|2.1|||=|0.002|TWO_SIDED|95.0|1.3|3.4|||Regression, Logistic|||||3.4|1.3|=0.002
92443142|NCT02439320|184771195|SUPERIORITY||Odds Ratio (OR)|0.4|||<|0.001|TWO_SIDED|95.0|0.3|0.5|||Regression, Logistic|||||0.5|0.3|<0.001
92443143|NCT02439320|184771195|SUPERIORITY||Odds Ratio (OR)|0.3|||<|0.001|TWO_SIDED|95.0|0.2|0.4|||Regression, Logistic|||||0.4|0.2|<0.001
92443144|NCT02439320|184771196|SUPERIORITY||Odds Ratio, log|0.7||||0.12|TWO_SIDED|95.0|0.5|1.1|||Regression, Logistic|||||1.1|0.5|0.120
92443145|NCT02439320|184771196|SUPERIORITY||Odds Ratio (OR)|0.6||||0.035|TWO_SIDED|95.0|0.4|1.0|||Regression, Logistic|||||1.0|0.4|0.035
92443146|NCT02439320|184771198|SUPERIORITY||Odds Ratio (OR)|1.1||||0.386|TWO_SIDED|95.0|0.9|1.4|||Regression, Linear|||||1.4|0.9|0.386
92443147|NCT02439320|184771198|SUPERIORITY||Odds Ratio (OR)|1.1||||0.47|TWO_SIDED|95.0|0.9|1.4|||Regression, Linear|||||1.4|0.9|0.470
92443148|NCT02439320|184771199|SUPERIORITY||Odds Ratio (OR)|1.4||||0.006|TWO_SIDED|95.0|1.1|1.8|||Regression, Logistic|||||1.8|1.1|0.006
92443149|NCT02439320|184771199|SUPERIORITY||Odds Ratio (OR)|1.3||||0.037|TWO_SIDED|95.0|1.0|1.6|||Regression, Logistic|||||1.6|1.0|0.037
92443150|NCT02439320|184771200|SUPERIORITY||Odds Ratio (OR)|1.9|||<|0.001|TWO_SIDED|95.0|1.5|2.4|||Regression, Logistic|||||2.4|1.5|<0.001
92443151|NCT02439320|184771200|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.4|2.2|||Regression, Logistic|||||02.2|1.4|<0.001
92443152|NCT01272830|184771241|SUPERIORITY|||||||0.0063||||||Significance threshold p\<0.05|paired t-test|||Change from baseline data.||||0.0063
92443153|NCT01272830|184771241|SUPERIORITY||||||>|0.05||||||Significant threshold p\<0.05|paired t-test|||Changes from baseline data||||>0.05
92443154|NCT01272830|184771242|SUPERIORITY|||||||0.0226||||||Significance threshold p\<0.5|paired|||Change from baseline data (HSS pain walking)||||0.0226
92443155|NCT01272830|184771242|SUPERIORITY|||||||0.0375||||||Significance threshold P\<0.05|paired t-test|||Change from baseline data (HSS total score)||||0.0375
92443156|NCT01272830|184771242|SUPERIORITY|||||||0.0391||||||Significance threshold p\<0.05|paired t-test|||Change from baseline data (KSS knee pain)||||0.0391
92443157|NCT01272830|184771242|SUPERIORITY|||||||0.2137|||||||paired t-test|||Changes from baseline data (HSS pain walking)||||0.2137
92443158|NCT01272830|184771242|SUPERIORITY|||||||0.1312|||||||paired t-test|||Change from baseline data (HSS total score)||||0.1312
92443159|NCT01272830|184771242|SUPERIORITY|||||||0.1578|||||||paired t-test|||Change from baseline data (KSS knee pain)||||0.1578
92443160|NCT01272830|184771243|SUPERIORITY|||||||0.0083||||||Significance threshold p\<0.05|t-test|||Changes from baseline data||||0.0083
92443161|NCT01272830|184771243|SUPERIORITY||||||>|0.05||||||Significant threshold p\<0.05|paired t-test|||Change from baseline data||||>0.05
92443162|NCT01272830|184771244|SUPERIORITY|||||||0.01||||||Significance threshold p\<0.05|ANOVA|||Change from baseline data||||0.01
92443163|NCT01272830|184771244|SUPERIORITY||||||>|0.05|||||||paired t-test|Significant threshold p\<0.05||Changes from baseline data||||>0.05
92443164|NCT00751348|184771262|NON_INFERIORITY|Criterion for evaluation of non-inferiority: the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference (Priorix-Tetra Group minus Priorix+Varilrix Group) in seroconversion rate for anti-measles was above -10%.|Difference in percentage|-1.36|||<|0.05|TWO_SIDED|95.0|-3.77|1.66||The P-value for all reactogenicity comparisons was below (\<) 0.05.|Fisher Exact|||Non-inferiority of Priorix-Tetra® vaccine vs Priorix™ and Varilrix™ administered as concomitant vaccine 42-56 days after vaccination at Day 0 in terms of anti-measles seroconversion rates.||1.66|-3.77|<0.05
92443165|NCT00751348|184771262|NON_INFERIORITY|Criterion for evaluation of non-inferiority: the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference (Priorix-Tetra Group minus Priorix+Varilrix Group) in seroconversion rate for anti-mumps was above -10%.|Difference in percentage|-5.34|||<|0.05|TWO_SIDED|95.0|-10.4|0.38||The P-value for all reactogenicity comparisons was below (\<) 0.05.|Fisher Exact|||Non-inferiority of Priorix-Tetra® vaccine vs Priorix™ and Varilrix™ administered as concomitant vaccine 42-56 days after vaccination at Day 0 in terms of anti-mumps seroconversion rates.||0.38|-10.4|<0.05
92443166|NCT00751348|184771262|NON_INFERIORITY|Criterion for evaluation of non-inferiority: the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference (Priorix-Tetra Group minus Priorix+Varilrix Group) in seroconversion rate for anti-rubella was above -10%.|Difference in percentage|-0.34|||<|0.05|TWO_SIDED|95.0|-1.88|2.06||The P-value for all reactogenicity comparisons was below (\<) 0.05.|Fisher Exact|||Non-inferiority of Priorix-Tetra® vaccine vs Priorix™ and Varilrix™ administered as concomitant vaccine 42-56 days after vaccination at Day 0 in terms of anti-rubella seroconversion rates.||2.06|-1.88|<0.05
92443167|NCT00751348|184771262|NON_INFERIORITY|Criterion for evaluation of non-inferiority: the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference (Priorix-Tetra Group minus Priorix+Varilrix Group) in seroconversion rate for anti-VZV was above -10%.|Difference in percentage|-1.06|||<|0.05|TWO_SIDED|95.0|-3.07|1.44||The P-value for all reactogenicity comparisons was below (\<) 0.05.|Fisher Exact|||Non-inferiority of Priorix-Tetra® vaccine vs Priorix™ and Varilrix™ administered as concomitant vaccine 42-56 days after vaccination at Day 0 in terms of anti-varicella zoster virus (anti-VZV) seroconversion rates.||1.44|-3.07|<0.05
92443168|NCT03583996|184771272|OTHER||Negative Likelihood Ratio (NLR)|0.293|||||TWO_SIDED|95.0|0.097|0.882||||||The performance goal for validation of DSI ≤18.3 was the upper limit of the confidence interval (CI) for negative likelihood ratio (NLR) to rule out an NLR of \>0.52. For the null and alternate hypotheses, the upper limit of the 95% CI was NLR \>0.52 and the upper limit of the 95% CI was NLR \<=0.52, respectively. The confidence level for the CI was adjusted to maintain a 1-sided type I error rate of 0.025.||0.882|0.097|
92443169|NCT03583996|184771272|OTHER||Sensitivity|0.917|||||TWO_SIDED|95.0|0.775|0.982||||||The performance goal for validation of DSI \<= 18.3 was the observed sensitivity must have been \>0.85. The confidence level for the confidence interval (CI) was adjusted to maintain a 1-sided type I error rate of 0.025.||0.982|0.775|
92443170|NCT03583996|184771273|OTHER||Odds Ratio (OR)|1.094|||<|0.0001|TWO_SIDED|95.0|1.047|1.143||The odds ratio was for a 1-unit increase in DSI based on continuous DSI.|Regression, Logistic|Unadjusted (no covariates)||||1.143|1.047|<0.0001
92443171|NCT03583996|184771273|OTHER||Odds Ratio (OR)|1.109|||<|0.0001|TWO_SIDED|95.0|1.058|1.163|||Regression, Logistic|Adjusted for demographic covariates, including age, race, sex, BMI, and ethnicity.||||1.163|1.058|<0.0001
92443172|NCT03583996|184771273|OTHER||Odds Ratio (OR)|1.092|||<|0.001|TWO_SIDED|95.0|1.041|1.145|||Regression, Logistic|Adjusted for severity of liver disease covariates, compensated cirrhosis (CP class A)||||1.145|1.041|<0.001
92443173|NCT03583996|184771273|OTHER||Odds Ratio (OR)|1.089|||<|0.001|TWO_SIDED|95.0|1.038|1.142|||Regression, Logistic|Adjusted for severity of liver disease covariates, decompensated cirrhosis (CP class B)||||1.142|1.038|<0.001
92443174|NCT02404350|184771274|SUPERIORITY||Odds Ratio (OR)|4.02|||<|0.0001|TWO_SIDED|95.0|2.78|5.79|||Regression, Logistic|||Statistical values were calculated from a logistic regression model with treatment and randomization stratum (TNF-a status -naive or Incidence Rate) as factors and baseline weight as a covariate.||5.79|2.78|<0.0001
92443175|NCT02404350|184771274|SUPERIORITY||Odds Ratio (OR)|3.38|||<|0.0001|TWO_SIDED|95.0|2.35|4.87|||Regression, Logistic|||Statistical values were calculated from a logistic regression model with treatment and randomization stratum (TNF-a status -naive or Incidence Rate) as factors and baseline weight as a covariate.||4.87|2.35|<0.0001
92443176|NCT02404350|184771274|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.0001|TWO_SIDED|95.0|3.16|6.63|||Regression, Logistic|||Statistical values were calculated from a logistic regression model with treatment and randomization stratum (TNF-a status -naive or Incidence Rate) as factors and baseline weight as a covariate.||6.63|3.16|<0.0001
92443177|NCT02404350|184771275|SUPERIORITY||Difference in Mean|-0.61|STANDARD_ERROR_OF_MEAN|0.22||0.0061|TWO_SIDED||||||Non-parametric ANCOVA model||\*For the Statistical Test of the Hypothesis for the Secondary Outcome, The Estimation Parameter is the Standard Error of the Difference in Mean and not Standard Error of the Mean|Secukinumab 300 mg With Load compared to Placebo Estimate (for the difference in mean), SE and p-value are from a non-parametric ANCOVA model (Koch, 1998) with the change from baseline van der Heijde total modified Sharp score (or Erosion Score or Joint Space Narrowing Score) as the dependent variable, treatment and randomization stratum (TNFa status -naive or IR ) as factors, and weight and baseline van der Heijde total modified Sharp score as covariates.||||0.0061
92238918|NCT02078713|184382158|SUPERIORITY||Relative risk ratio|1.6||||0.24|TWO_SIDED|95.0|0.73|3.5||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of patients who reported they wished their providers had been more involved, compared to right amount (ref)||3.50|0.73|0.24
92443178|NCT02404350|184771275|SUPERIORITY||Difference in Mean|-0.36|STANDARD_ERROR_OF_MEAN|0.13||0.0048|TWO_SIDED||||||Non-parametric ANCOVA model||\*For the Statistical Test of the Hypothesis for the Secondary Outcome, The Estimation Parameter is the Standard Error of the Difference in Mean and not Standard Error of the Mean|Secukinumab 300 mg With Load compared to Placebo Estimate (for the difference in mean), SE and p-value are from a non-parametric ANCOVA model (Koch, 1998) with the change from baseline van der Heijde total modified Sharp score (or Erosion Score or Joint Space Narrowing Score) as the dependent variable, treatment and randomization stratum (TNFa status -naive or IR ) as factors, and weight and baseline van der Heijde total modified Sharp score as covariates.||||0.0048
92443179|NCT02404350|184771275|SUPERIORITY||Difference in Mean|-0.48|STANDARD_ERROR_OF_MEAN|0.13||0.0003|||||||Non-parametric ANCOVA model||For the Statistical Test of the Hypothesis for the Secondary Outcome, The Estimation Parameter is the Standard Error of the Difference in Mean and not Standard Error of the Mean|Secukinumab 300 mg With Load compared to Placebo Estimate (for the difference in mean), SE and p-value are from a non-parametric ANCOVA model (Koch, 1998) with the change from baseline van der Heijde total modified Sharp score (or Erosion Score or Joint Space Narrowing Score) as the dependent variable, treatment and randomization stratum (TNFa status -naive or IR ) as factors, and weight and baseline van der Heijde total modified Sharp score as covariates.||||0.0003
92443180|NCT02404350|184771276|SUPERIORITY||Odds Ratio (OR)|10.15|||<|0.0001|TWO_SIDED|95.0|5.52|18.63|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||18.63|5.52|<0.0001
92443181|NCT02404350|184771276|SUPERIORITY||Odds Ratio (OR)|11.66|||<|0.0001|TWO_SIDED|95.0|6.37|21.37|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||21.37|6.37|<0.0001
92443182|NCT02404350|184771276|SUPERIORITY||Odds Ratio (OR)|18.06|||<|0.0001|TWO_SIDED|95.0|9.56|34.12|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||34.12|9.56|<0.0001
92443183|NCT02404350|184771277|SUPERIORITY||Odds Ratio (OR)|4.51|||<|0.0001|TWO_SIDED|95.0|2.31|8.83|||Regression, Logistic|||"Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.~Missing responses are imputed as non-responders."||8.83|2.31|<0.0001
92443184|NCT02404350|184771277|SUPERIORITY||Odds Ratio (OR)|6.14|||<|0.0001|TWO_SIDED|95.0|3.18|11.87|||Regression, Logistic|||"Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.~Missing responses are imputed as non-responders."||11.87|3.18|<0.0001
92443185|NCT02404350|184771277|SUPERIORITY||Odds Ratio (OR)|12.55|||<|0.0001|TWO_SIDED|95.0|6.43|24.48|||Regression, Logistic|||"Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.~Missing responses are imputed as non-responders."||24.48|6.43|<0.0001
92443186|NCT02404350|184771278|SUPERIORITY||Odds Ratio, log|5.37|||<|0.0001|TWO_SIDED|95.0|3.3|8.73|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||8.73|3.30|<0.0001
92443187|NCT02404350|184771278|SUPERIORITY||Odds Ratio (OR)|6.37|||<|0.0001|TWO_SIDED|95.0|3.93|10.32|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||10.32|3.93|<0.0001
92443188|NCT02404350|184771278|SUPERIORITY||Odds Ratio (OR)|7.43|||<|0.0001|TWO_SIDED|95.0|4.61|12.0|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||12.00|4.61|<0.0001
92443189|NCT02404350|184771279|SUPERIORITY|Mixed model with treatment regimen, analysis visit and randomization stratum (TNF-alpha status -naïve or IR) as factors, weight and baseline score as continuous covariates, and treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure|Treatment contrast in LS mean (Change)|-0.24|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|-0.32|-0.15|||Mixed Models Analysis|LS Mean, 95% confidence interval, and p-value are from a mixed model for repeated measures (MMRM)||||-0.15|-0.32|<0.0001
92443190|NCT02404350|184771279|SUPERIORITY||Treatment Contrast in LS mean (Change)|-0.23|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|-0.32|-0.14|||Mixed Models Analysis|LS Mean, 95% confidence interval, and p-value are from a mixed model for repeated measures (MMRM)||||-0.14|-0.32|<0.0001
92443191|NCT02404350|184771279|SUPERIORITY||Treatment Contrast inj LS mean (Change)|-0.33|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|-0.42|-0.24|||Mixed Models Analysis|LS Mean, 95% confidence interval, and p-value are from a mixed model for repeated measures (MMRM)||||-0.24|-0.42|<0.0001
92443192|NCT02404350|184771280|SUPERIORITY||Treatment contrast in LS mean (Change)|-0.66|STANDARD_ERROR_OF_MEAN|0.096|<|0.0001|TWO_SIDED|95.0|-0.85|-0.47|||Mixed Models Analysis|LS Mean, 95% CI, and p-value are from a mixed model repeated measures (MMRM)||Mixed model with treatment regimen, analysis visit and randomization stratum (TNF-alpha status -naïve or IR) as factors, weight and baseline score as continuous covariates, and treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure||-0.47|-0.85|<0.0001
92443193|NCT02404350|184771280|SUPERIORITY||Treatment Contrast in LS Mean (Change)|-0.66|STANDARD_ERROR_OF_MEAN|0.096|<|0.0001|TWO_SIDED|95.0|-0.85|-0.47|||Mixed Models Analysis|LS Mean, 95% CI, and p-value are from a mixed model repeated measures (MMRM)||Mixed model with treatment regimen, analysis visit and randomization stratum (TNF-alpha status -naïve or IR) as factors, weight and baseline score as continuous covariates, and treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure||-0.47|-0.85|<0.0001
92443194|NCT02404350|184771280|SUPERIORITY||Treatment contrast in LS mean (Change)|-0.86|STANDARD_ERROR_OF_MEAN|0.096|<|0.0001|TWO_SIDED|95.0|-1.05|-0.67|||Mixed Models Analysis|LS Mean, 95% CI, and p-value are from a mixed model repeated measures (MMRM)||Mixed model with treatment regimen, analysis visit and randomization stratum (TNF-alpha status -naïve or IR) as factors, weight and baseline score as continuous covariates, and treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure||-0.67|-1.05|<0.0001
92443195|NCT02404350|184771281|SUPERIORITY||Odds Ratio (OR)|0.75||||0.225|TWO_SIDED|95.0|0.47|1.19|||Regression, Logistic|||||1.19|0.47|0.2250
92443196|NCT02404350|184771281|SUPERIORITY||Odds Ratio (OR)|0.45||||0.0004|TWO_SIDED|95.0|0.29|0.7|||Regression, Logistic|||||0.70|0.29|0.0004
92443197|NCT02404350|184771281|SUPERIORITY||Odds Ratio, log|0.44||||0.0004|TWO_SIDED|95.0|0.28|0.69|||Regression, Logistic|||||0.69|0.28|0.0004
92443198|NCT02404350|184771282|SUPERIORITY||Odds Ratio (OR)|0.37||||0.0004|TWO_SIDED|95.0|0.22|0.65|||Regression, Logistic|||||0.65|0.22|0.0004
92443199|NCT02404350|184771282|SUPERIORITY||Odds Ratio (OR)|0.34||||0.0003|TWO_SIDED|95.0|0.19|0.6|||Regression, Logistic|||||0.60|0.19|0.0003
92443200|NCT02404350|184771282|SUPERIORITY||Odds Ratio (OR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.13|0.44|||Regression, Logistic|||||0.44|0.13|<0.0001
92443201|NCT05389657|184771283|SUPERIORITY||Odds Ratio (OR)|0.617||||0.47|TWO_SIDED|95.0|0.167|2.283|||Regression, Logistic|multilevel logistic regression||We used logistic multilevel models to examine the impact of training assignment (reference = live training) on training completion, with a random intercept at the agency level. Covariates included prior level of training and/or experience in FBT, attitudes towards evidence-based practice (MPAS), perceived importance of eating disorder treatment to organization, and training preference.||2.283|0.167|0.47
92443202|NCT05389657|184771284|SUPERIORITY||adjusted group difference unstandardized|-1.268||||0.29|TWO_SIDED|95.0|-3.618|1.083|||Regression, Linear|multilevel linear regression with restricted maximum likelihood (REML) estimation||We used linear multilevel models with restricted maximum likelihood (REML) estimation to examine the impact of training assignment (reference = live training) on knowledge acquisition at post-training, with a random intercept at the agency level. Covariates included baseline FBT-KA score, prior level of training and/or experience in FBT, attitudes towards evidence-based practice (MPAS), perceived importance of eating disorder treatment to organization, and training preference.||1.083|-3.618|.29
92443203|NCT05389657|184771285|SUPERIORITY||Odds Ratio (OR)|1.16||||0.92|TWO_SIDED|95.0|0.07|19.293|||Regression, Logistic|multilevel logistic regression||We used logistic multilevel models to examine the impact of training assignment (reference = live training) on engagement in FBT consultation at 12 months, with a random intercept at the agency level. Covariates included baseline intent to seek FBT consultation, prior level of training and/or experience in FBT, attitudes towards evidence-based practice (MPAS), perceived importance of eating disorder treatment to organization, and training preference.||19.293|0.070|0.92
92443204|NCT06049043|184771320|SUPERIORITY||Mean Difference (Final Values)|-5.09|STANDARD_ERROR_OF_MEAN|0.04||0.26|TWO_SIDED|95.0|-14.02|3.84|||t-test, 2 sided|||||3.84|-14.02|0.26
92240056|NCT00570739|184383809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.91|||<|0.0001|TWO_SIDED|95.0|-12.02|-5.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||-5.80|-12.02|<0.0001
92443205|NCT06049043|184771321|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|4.84||0.44|TWO_SIDED|95.0|-13.43|5.85|||t-test, 2 sided|||||5.85|-13.43|0.44
92443206|NCT06049043|184771322|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.44||0.62|TWO_SIDED|95.0|-0.66|1.1|||t-test, 2 sided|||||1.10|-0.66|0.62
92443207|NCT06049043|184771323|SUPERIORITY||Mean Difference (Final Values)|6.34|STANDARD_ERROR_OF_MEAN|0.04||0.16|TWO_SIDED|95.0|-2.5|15.18|||t-test, 2 sided|||||15.18|-2.50|0.16
92443208|NCT06049043|184771323|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.28|TWO_SIDED|95.0|-0.13|0.04|||Regression, Linear|Controlled for participant characteristics at baseline.||||0.04|-0.13|0.28
92443209|NCT06049043|184771324|SUPERIORITY||Mean Difference (Final Values)|1.98|STANDARD_ERROR_OF_MEAN|4.67||0.67|TWO_SIDED|95.0|-7.31|11.28|||t-test, 2 sided|||||11.28|-7.31|0.67
92443210|NCT06049043|184771324|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.69|TWO_SIDED|95.0|-0.12|0.08|||Regression, Linear|Controlled for participant characteristics at baseline.||||0.08|-0.12|0.69
92443211|NCT06049043|184771325|SUPERIORITY||Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|0.32||0.09|TWO_SIDED|95.0|-0.09|1.18|||t-test, 2 sided|||||1.18|-0.09|0.09
92443212|NCT06049043|184771325|SUPERIORITY||Slope|-0.13|STANDARD_ERROR_OF_MEAN|0.36||0.71|TWO_SIDED|95.0|-0.86|0.59|||Regression, Linear|Controlled for participant characteristics at baseline.||||0.59|-0.86|0.71
92443213|NCT06049043|184771326|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.34||0.08|TWO_SIDED|95.0|-0.07|1.27|||t-test, 2 sided|||||1.27|-0.07|0.08
92443214|NCT06049043|184771326|SUPERIORITY||Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.42||0.39|TWO_SIDED|95.0|-1.21|0.48|||Regression, Linear|Controlled for participant characteristics at baseline.||||0.48|-1.21|0.39
92443215|NCT06049043|184771328|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.22||0.89|TWO_SIDED|95.0|-0.95|0.82|||t-test, 2 sided|||||0.82|-0.95|0.89
92443216|NCT03089606|184771330|OTHER|2-tailed Fisher's exact test||||||0.08|||||||2-tailed Fisher's exact test|||Null hypothesis. No association between baseline C11-AMT PET SUVmax value and antitumor response to pembrolizumab.||||0.08
92446807|NCT00280566|184780545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.76||0.5873|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.5873
92443217|NCT00335972|184771336|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was based on being able to detect noninferiority on both analgesia (pain score and opioids) and hemodynamic responses, and superiority on at least one of them with 90% power and significance level of 0.025 for each of noninferiority and superiority. For MAP with a noninferiority delta of 7.5 mmHg and expected the SD of 12, we needed a maximum of N= 65 per group. Incorporating the two interim and one final analyses, we thus planned a maximum sample size of N=71/group (N=142 total).|Mean Difference (Net)|-9.0|||<|0.001|TWO_SIDED|95.0|-13.0|-5.0||Noninferiority confidence intervals are 95% (alpha of 0.05/2=0.025 in direction of interest). Bonferroni correction was used for superiority testing and 97.5% CI were reported.|repeated measures ANOVA||mean difference: Dexmedetomidine arm - Remifentanil arm|||-5|-13|<0.001
92443218|NCT00335972|184771336|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0|||<|0.001|TWO_SIDED|97.5|-13.0|-4.0||Bonferroni correction was used for superiority testing since superiority on either hemodynamics or pain control would be interpreted as Dex better than Remi (alpha=0.0125 = 0.025/2, 97.5% CI).|repeated measures ANOVA model||mean difference: dexmedetomidine arm - remifentanil arm|superiority test||-4|-13|<0.001
92443219|NCT00335972|184771337|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was based on being able to detect noninferiority on both analgesia (pain score and opioids) and hemodynamic responses, and superiority on at least one of them with 90% power and significance level of 0.025 for each of noninferiority and superiority. For VRS pain, the standard deviation (SD) was expected to be about 1.75, such that with a noninferiority delta of 1, we needed a maximum of N= 66 per group|Mean Difference (Net)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.7|-1.1||noninferiority confidence intervals are 95% (alpha of 0.05/2=0.025 in direction of interest).|repeated measures ANOVA model||mean difference: Dexmedetomidine arm - Remifentanil arm|||-1.1|-2.7|<0.001
92443220|NCT00335972|184771337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9|||<|0.001|TWO_SIDED|97.5|-2.8|-0.9||Bonferroni correction was used for superiority testing since superiority on either hemodynamics or pain control would be interpreted as Dex better than Remi (alpha=0.0125 = 0.025/2, 97.5% CI).|repeated measures ANOVA model||mean difference: dexmedetomidine arm - remifentanil arm|superiority test||-0.9|-2.8|<0.001
92443221|NCT00335972|184771338|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was based on being able to detect noninferiority on both analgesia (pain score and opioids) and hemodynamic responses, and superiority on at least one of them with 90% power and significance level of 0.025 for each of noninferiority and superiority.we needed a maximum of N= 65 per group. We assumed for opioids that the coefficient of variation (SD/mean) was about 0.4, resulting in a similar sample size (64/group) with noninferiority deltas of 20% of the observed mean|Mean Difference (Net)|-5.0|||<|0.001|TWO_SIDED|95.0|-10.0|-5.0||noninferiority confidence intervals are 95% (alpha of 0.05/2=0.025 in direction of interest)|Wilcoxon (Mann-Whitney)||mean difference: Dexmedetomidine arm - Remifentanil|||-5|-10|<0.001
92443222|NCT00335972|184771338|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.0|||<|0.001|TWO_SIDED|97.5|-10.0|-3.0||Bonferroni correction was used for superiority testing since superiority on either hemodynamics or pain control would be interpreted as Dex better than Remi (alpha=0.0125 = 0.025/2, 97.5% CI)|repeated measures ANOVA model||mean difference: dexmedetomidine arm - remifentanil arm|superiority||-3|-10|<0.001
92171462|NCT03547908|184232107|SUPERIORITY|P-value for the superiority test comparing the percentages of participants with HBV DNA \< 29 IU/mL between treatment groups was from the CMH test stratified by baseline HBeAg status (positive vs negative) and baseline HBV DNA category (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|Difference in Percentages|2.6||||0.6367|TWO_SIDED|95.0|-8.3|13.4|||Cochran-Mantel-Haenszel|||The difference in percentages of participants with HBV DNA \< 29 IU/mL between treatment groups and its 95% CI were calculated based on the MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA category (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).||13.4|-8.3|0.6367
92443223|NCT03965962|184771340|NON_INFERIORITY|The two-sided 95 percent (%) confidence interval (CI) was calculated based on the Wilson score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentages between the test group (Group 1) and control group (Group 2) was greater than (\>) -5% at Day 28.|Difference in Percentage|-0.42|||||TWO_SIDED|95.0|-2.33|4.35||||||||4.35|-2.33|
92443224|NCT03965962|184771340|NON_INFERIORITY|The two-sided 95 % CI was calculated based on the Wilson score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentages between the test group (Group 1) and control group (Group 3) was \> -5% at Day 28.|Difference in Percentage|0.86|||||TWO_SIDED|95.0|-1.32|6.5||||||||6.50|-1.32|
92443225|NCT00944450|184771360|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified equivalence bounds = (0.80, 1.25) for AUC geometric mean ratio (B/A)|Geometric Mean Ratio|1.05||||||90.0|1.02|1.07||||||100 mg MK0431 monohydrate (Phase III/FMI formulation) (B) vs. 100 mg MK0431 anhydrous (Phase IIB formulation) (A)||1.07|1.02|
92443226|NCT00944450|184771361|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified equivalence bounds = (0.80, 1.25) for Cmax geometric mean ratio (B/A)|Geometric Mean Ratio|1.07||||||90.0|0.94|1.22||||||100 mg MK0431 monohydrate (Phase III/FMI formulation) (B) vs. 100 mg MK0431 anhydrous (Phase IIB formulation) (A)||1.22|0.94|
92443227|NCT00403273|184771378|SUPERIORITY|||||||0.01||||||p-value not adjusted for multiple comparisons; the a priori threshold for statistical significance was \<0.05|t-test, 2 sided|||||||0.01
92443228|NCT00403273|184771379|SUPERIORITY_OR_OTHER||comparison of proportions|0.65|||<|0.05|TWO_SIDED|95.0||||No adjustment for multiple comparisons was made, since we analyzed only one primary outcome. 19 patients per group were needed for 80% power and 24 patients per group for 90% power to detect a difference of 43% in proportion with primary outcome|comparison of proportions|compare proportion of patients with clinically meaningful change in 0-10 VAS pain (at least 2-point reduction on VAS pain) at 2-mths \& all timepoints|we hypothesized a greater proportion with meaningful reduction in pain on 0-10 scale in intervention versus placebo group.|For primary outcome analysis, we compared the proportion of responders with clinically meaningful change \[improvement\] in 0-10 VAS Pain, i.e. those with 2-point reduction in 0-10 VAS pain score at 2-mths, in the 2 groups using comparison of proportions. Proportion of responders were also analyzed at all efficacy timepoints using generalized estimating equation (GEE) modeling. We used GEE for between-group comparisons in secondary outcomes at all efficacy endpoints, adjusted for baseline scores.||||<0.05
92443229|NCT00403273|184771380|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92443230|NCT00403273|184771381|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92443231|NCT00403273|184771382|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
92443232|NCT00403273|184771383|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92443233|NCT00403273|184771384|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92240057|NCT00570739|184383809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.26|||<|0.0001|TWO_SIDED|95.0|-12.25|-4.26||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||-4.26|-12.25|<0.0001
92443234|NCT00589108|184771413|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||ANOVA|||P-value for the difference between the mean maximum flexion between the three groups at 2 years post-surgery.||||0.64
92443235|NCT00589108|184771413|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||ANOVA|||P-value for the difference between the mean maximum flexion between the three groups at 5 years post-surgery.||||0.80
92443236|NCT00589108|184771414|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANOVA|||P-value for the difference for the Knee Society Function Score between the three groups at 5 years post-surgery.||||0.06
92443237|NCT00589108|184771415|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||ANOVA|||P-value for the difference for the Knee Society Pain Score between the three groups at 5 years post-surgery.||||0.87
92443238|NCT00589108|184771416|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||ANOVA|||P-value for the difference between the Knee Society Stair Climbing Score between the three groups at 2 years post-surgery.||||0.44
92443239|NCT00589108|184771416|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANOVA|||P-value for the difference between the Knee Society Stair Climbing Score between the three groups at 5 years post-surgery.||||0.08
92443240|NCT00589108|184771417|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||ANOVA|||P-value for the difference between the percentage of knees surviving between the three groups at 5 years post-surgery.||||0.92
92443241|NCT00380393|184771445|OTHER||Vaccine Efficacy|52.9|||<|0.001|TWO_SIDED|95.0|28.1|69.1|||Regression, Cox||Point estimate of VE was adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum||69.1|28.1|<0.001
92443242|NCT00380393|184771445|OTHER||Vaccine Efficacy|55.0|||<|0.001|TWO_SIDED|95.0|31.4|70.4|||Regression, Cox||Point estimate of VE was not adjusted for site, age, bednet use, area or distance from health center.|Vaccine efficacy against P. falciparum||70.4|31.4|<0.001
92443243|NCT00380393|184771446|OTHER||Vaccine efficacy|54.6|||<|0.001|TWO_SIDED|95.0|31.2|70.0|||Regression, Cox||Point estimate of VE was adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum.||70.0|31.2|<0.001
92443244|NCT00380393|184771446|OTHER||Vaccine efficacy|56.5|||<|0.001|TWO_SIDED|95.0|34.2|71.2|||Regression, Cox||Point estimate of VE was not adjusted for site, age, bednet use, area or distance from health center.|Vaccine efficacy against P. falciparum.||71.2|34.2|<0.001
92443245|NCT00380393|184771447|OTHER||Vaccine efficacy|55.8||||0.0003|TWO_SIDED|95.0|31.0|71.7|||Regression, Cox||Point estimate of VE was adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum.||71.7|31.0|0.0003
92443246|NCT00380393|184771447|OTHER||Vaccine efficacy|57.9|||<|0.001|TWO_SIDED|95.0|34.3|73.0|||Regression, Cox||Point estimate of VE was not adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum.||73.0|34.3|<0.001
92443247|NCT00380393|184771448|OTHER||Vaccine efficacy|58.0|||<|0.001|TWO_SIDED|95.0|34.8|73.0|||Regression, Cox||Point estimate of VE was adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum.||73.0|34.8|<0.001
92443248|NCT00380393|184771448|OTHER||Vaccine efficacy|59.5|||<|0.001|TWO_SIDED|95.0|37.1|73.9|||Regression, Cox||Point estimate of VE was not adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum.||73.9|37.1|<0.001
92443249|NCT01536496|184771467|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Chi-squared|||Chi-square test||||0.04
92443250|NCT03865329|184771486|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
92443251|NCT03865329|184771487|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92443252|NCT03865329|184771489|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.10
92238919|NCT02078713|184382159|SUPERIORITY||Relative risk ratio|1.0||||0.997|TWO_SIDED|95.0|0.45|2.25||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of patients who wished provider had expressed preference less strongly to right amount (ref).||2.25|0.45|0.997
92238920|NCT02078713|184382159|SUPERIORITY||Relative risk ratio|0.69||||0.16|TWO_SIDED|95.0|0.41|1.16||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of patients who reported they wished provider had expressed preference more strongly, compared to right amount (ref).||1.16|0.41|0.16
92238921|NCT02078713|184382160|SUPERIORITY|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|Odds Ratio (OR)|1.3||||0.13|TWO_SIDED|95.0|0.93|1.82||P-value calculated in multiply imputed dataset.|Regression, Logistic||The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||1.82|0.93|0.13
92443253|NCT03865329|184771490|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.25
92443254|NCT00265616|184771491|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
92443255|NCT00265616|184771492|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Fisher Exact|||||||0.67
92443256|NCT00265616|184771493|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
92443257|NCT00265616|184771495|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Fisher Exact|||||||0.4
92443258|NCT00265616|184771496|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
92443259|NCT00278954|184771524|SUPERIORITY_OR_OTHER||SABI per subject per year|0.0||||0.01||99.0|0.0|0.101|||Poisson regression with log link||Mean SABI rate = 0 per subject per year. 1-sided 99% upper confidence bound could not be calculated.|The estimated serious acute bacterial infection (SABI) rate was calculated by dividing no. of infections by no.of subject years. The exponential of the upper limit of the 98% 2-sided Confidence Interval (CI) gave the upper, 1-sided, 99% confidence bound, estimated using Poisson regression. The equivalent upper bound per subject year was obtained by dividing this figure by total subject years.||0.101|0|0.01
92443260|NCT03760796|184771530|OTHER||Hazard Ratio (HR)|0.48||||0.018|TWO_SIDED|95.0|0.26|0.88||The a priori threshold for statistical significance was \<0.05.|Regression, Cox|Adjusting for hospital site and a propensity score inclusive of individual level baseline characteristics.||||0.88|0.26|0.018
92443261|NCT03760796|184771531|OTHER|A Markov Model of cost-effectiveness, based on 30-day readmission rates, was built to assess the Incremental Cost-Effectiveness Ratio (ICER) of adopting the Corrie Platform compared to standard of care for post AMI patients; taking into account the estimated cost of Corrie ($2,750 per patient for a 1-year use term). The reported value is a ratio of the relative cost of intervention compared to the standard of care divided by the change in the outcome, quality-adjusted life years (QALYs).|Incremental Cost-Effectiveness Ratio|-7.0|||||TWO_SIDED||||||||A negative ICER means the intervention cost is lower than the cost of standard of care, while the denominator was positive. A positive ICER means the intervention cost is greater than the cost of standard of care, while the denominator was positive.|||||
92280150|NCT00585780|184463196|OTHER|Expected outcome was that Prazosin will be better than placebo in reducing percent of drinking days (DD%) among High AW individuals but no differences by medication treatment in the Low AW individuals.|Odds Ratio (OR)|0.5||||0.002|TWO_SIDED|95.0|0.28|0.92||This is for apriori hypothesized significant AW X Treatment X Post-full dose time interaction effect.|Mixed Models Analysis|||Intent-to-treat (ITT) analyses with baseline AW severity (mean-centered continuous CIWA-Ar scores) as a moderator of Time (Pre-Full Dose(FD): weeks 1-2; Post FD: weeks 3-12) were conducted with linear or generalized linear mixed effect (LME/GLME) piecewise growth models for continuous and binary outcomes. Control variables that were modeled in all analyses. As hypothesized, significant interactions were tested using AW median cut-offs for high and Low AW groups.||0.92|0.28|0.002
92443262|NCT03760796|184771545|OTHER||Hazard Ratio (HR)|1.45||||0.33|TWO_SIDED|95.0|0.69|2.98||The a priori threshold for statistical significance was \<0.05.|Regression, Cox|Adjusting for hospital site and a propensity score inclusive of individual level baseline characteristics.||||2.98|0.69|0.33
92443263|NCT02211131|184771558|OTHER||Hazard Ratio (HR)|0.75||||0.07|TWO_SIDED|80.0|0.58|0.96||Unstratified log-rank test|Log Rank||Unstratified Hazard Ratio (T-VEC + Surgery / Surgery)|||0.96|0.58|0.070
92443264|NCT02211131|184771559|OTHER||Hazard Ratio (HR)|0.76||||0.092|TWO_SIDED|80.0|0.6|0.97||Unstratified log-rank test|Log Rank||Unstratified Hazard Ratio (T-VEC + Surgery / Surgery)|||0.97|0.60|0.092
92443265|NCT02211131|184771561|OTHER||Treatment Difference|4.3||||0.594|TWO_SIDED|80.0|-6.9|15.3||The two-sided p-value is based on the Pearson's Chi-square test.|Chi-squared||An 80% approximate exact CI for between-arm differences in binary rate is calculated using Wilson's score method with continuity correction.|||15.3|-6.9|0.594
92443266|NCT02211131|184771562|OTHER||Treatment Difference|14.4||||0.003|TWO_SIDED|80.0|7.4|21.6||The two-sided p-value is based on the Pearson's Chi-square test.|Chi-squared||80% exact CI for binary rate of each arm is calculated using the Clopper Pearson method.|||21.6|7.4|0.003
92443267|NCT02211131|184771567|OTHER||Hazard Ratio (HR)|0.54||||0.05|TWO_SIDED|80.0|0.36|0.81||Unstratified log-rank test|Log Rank||Unstratified Hazard Ratio (T-VEC + Surgery / Surgery)|||0.81|0.36|0.050
92443268|NCT05664490|184771573|SUPERIORITY||Risk Ratio (RR)|0.88||||0.44|TWO_SIDED|95.0|0.64|1.22||The threshold for statistical significance is 0.05.|Poisson regression|We used Poisson regression with a log-link and robust standard errors to assess the effect of our intervention on PrEP adherence at Week 12|The Standard of Care Mental Health Services arm was the reference category for the risk ratio.|||1.22|0.64|0.44
92443269|NCT05664490|184771574|SUPERIORITY||Risk Ratio (RR)|1.0||||0.99|TWO_SIDED|95.0|0.71|1.42||The threshold for statistical significance was 0.05.|Poisson regression|We used Poisson regression with a log-link and robust standard errors to assess the effect of our intervention on reduced CMD symptoms at Week 12.|The reference category for the risk ratio presented is the Standard of Care Mental Health Services arm.|||1.42|0.71|0.99
92443270|NCT05664490|184771575|SUPERIORITY||Risk Ratio (RR)|1.4||||0.03|TWO_SIDED|95.0|1.03|1.89||The threshold for statistical significance was 0.05|Poisson regression|We used Poisson regression with a log-link to estimate to assess the effect of our intervention on PrEP adherence at Week 4.|The Standard of Care Mental Health Services arm was the reference category for the risk ratio.|||1.89|1.03|0.03
92443271|NCT05664490|184771576|SUPERIORITY||Risk Ratio (RR)|0.81||||0.37|TWO_SIDED|95.0|0.5|1.29||The threshold for statistical significance was 0.05|Poisson regression|We used Poisson regression with a log-link to assess the effect of the intervention on common mental disorders at Week 4.|The Standard of Care Mental Health Services arm was the reference category.|||1.29|0.50|0.37
92443272|NCT03144180|184771580|EQUIVALENCE|A two-sided two-sample t-test with 80% power, an alpha of 0.05, and a common standard deviation of 14 seconds was used to determine the sample size.|Confidence Interval for a mean|49.0|STANDARD_DEVIATION|47.0|||TWO_SIDED|95.0|15.459|82.571||||||||82.571|15.459|
92443273|NCT03144180|184771581|EQUIVALENCE|A two-sided two-sample t-test with 80% power, an alpha of 0.05, and a common standard deviation of 14 seconds was used to determine the sample size.||||||0.0295||||||The threshold for statistical significance was p = 0.05.|Chi-squared|||||||0.0295
92443274|NCT03144180|184771582|EQUIVALENCE|A two-sided two-sample t-test with 80% power, an alpha of 0.05, and a common standard deviation of 14 seconds was used to determine the sample size.||||||0.403||||||The threshold for statistical significance was p = 0.05.|Chi-squared|||||||0.403
92443275|NCT03969992|184771601|SUPERIORITY|||||||0.1924||||||A closed test procedure is used to protect the type I error rate; the order of testing was: AeroFact high dose compared to control and if significant (p-value \<0.05), the AeroFact low dose was compared to the control.|Generalized estimating equation method|||||||0.1924
92443276|NCT02063737|184771614|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.3882||||0.083|TWO_SIDED|95.0|-0.8272|0.0508|||Mixed Models Analysis|adjusting for shift length|Adjusted difference between intervention groups (intervention - control) from the linear mixed model adjusting for shift length and repeated measures within individuals.|||0.0508|-0.8272|0.0830
92443277|NCT02063737|184771615|SUPERIORITY_OR_OTHER|||||||0.0114|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.0114
92443278|NCT02063737|184771616|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||ANCOVA|adjusting for the baseline measure||||||.99
92443279|NCT02063737|184771617|SUPERIORITY_OR_OTHER|||||||0.0927|TWO_SIDED||||||ANCOVA|adjusted for baseline measure||||||0.0927
92443280|NCT02063737|184771618|SUPERIORITY_OR_OTHER|||||||0.0578|TWO_SIDED||||||ANCOVA|adjusting for the baseline measure||||||0.0578
92443281|NCT02063737|184771619|SUPERIORITY_OR_OTHER|||||||0.69|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.69
92443282|NCT02063737|184771620|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.65
92443283|NCT02063737|184771621|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.95
92443284|NCT02063737|184771622|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.21
92443285|NCT02063737|184771623|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.51
92443286|NCT02063737|184771624|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.28
92443287|NCT02063737|184771625|SUPERIORITY_OR_OTHER|||||||0.093|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.0930
92443288|NCT02063737|184771626|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.56
92443289|NCT02063737|184771627|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.20
92443290|NCT00867451|184771728|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<.05
92443291|NCT02039674|184771745|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|26.3||||0.0016|TWO_SIDED|95.0|8.9|42.1|||Miettinen & Nurminen Method|||||42.1|8.9|0.0016
92443292|NCT02039674|184771746|SUPERIORITY|||||||0.0858|||||||Exact binomial distribution for testing|HO: ORR ≤20% versus H1: ORR \>20%||||||0.0858
92443293|NCT02039674|184771748|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54||||0.00252|TWO_SIDED|95.0|0.35|0.83|||Log Rank|One-sided p-value based on log-rank test||||0.83|0.35|0.00252
92443294|NCT02039674|184771749|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.06762|TWO_SIDED|95.0|0.45|1.12|||Log Rank|One-sided p-value based on log-rank test||||1.12|0.45|0.06762
92443295|NCT01358357|184771751|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.078|TWO_SIDED|95.0|0.49|1.04||A hazard ratio of time to recurrence and its corresponding 95% Wald CI were estimated for the lurasidone arm vs.placebo arm, using a Cox proportional hazards model.Cox model included treatment effect as fixed effect, and stratified by pooled country.|Cox Proportional Hazards Model|||It was assumed that the recurrence event rates during the double-blind phase were to be 24% and 39% for subjects treated with lurasidone and placebo, respectively. A total of 120 recurrence events were required to achieve 90% power to detect the 15% difference in subjects who had a recurrence event during the double-blind phase between the treatment groups using a log-rank test with two sided alpha level of 0.05.||1.04|0.49|<0.078
92443296|NCT01358357|184771752|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.72|||<|0.034|TWO_SIDED|95.0|0.54|0.98||A HR of time to discontinuation and corresponding 95% Wald CI were est. for lurasidone arm vs.the placebo arm, using a Cox proportional hazards model. Model included treatment effect including treatment as a fixed effect,stratified by pooled country.|Cox Proportional Hazards Model|||||0.98|0.54|<0.034
92443297|NCT01358357|184771753|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.72||||0.113|TWO_SIDED|95.0|0.48|1.08||A HR of time to recurrence and its corresponding 95% Wald CI were estimated for lurasidone arm vs. placebo arm,using a Cox proportional hazards model. Model included treatment effect including treatment as a fixed effect stratified by pooled country.|Cox Proportional hazard Model|||||1.08|0.48|0.113
92443298|NCT01358357|184771755|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.09||||0.406|TWO_SIDED|95.0|-0.29|0.12||analysis of ANCOVA model contains treatment ,pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.12|-0.29|0.406
92443299|NCT01358357|184771756|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.11||||0.162|TWO_SIDED|95.0|-0.26|0.04||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.04|-0.26|0.162
92443300|NCT01358357|184771757|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.07||||0.496|TWO_SIDED|95.0|-0.27|0.13||Analysis of covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.13|-0.27|0.496
92443301|NCT01358357|184771758|SUPERIORITY_OR_OTHER||LS mean difference|-0.8||||0.128|TWO_SIDED|95.0|-1.8|0.2||Analysis of Covariance (ANCOVA) model contains treatment, and pool country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.2|-1.8|0.128
92443302|NCT01358357|184771759|SUPERIORITY_OR_OTHER||LS mean difference lurasdione vs.Placebo|-0.5||||0.485|TWO_SIDED|95.0|-1.9|0.9||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.9|-1.9|0.485
92443303|NCT01358357|184771760|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.582|TWO_SIDED|95.0|-0.8|0.5||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.5|-0.8|0.582
92443304|NCT01358357|184771761|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.01||||0.42|TWO_SIDED|95.0|-0.5|0.2||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.2|-0.5|0.420
92443305|NCT01358357|184771762|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.2||||0.788|TWO_SIDED|95.0|-1.6|1.2||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||1.2|-1.6|0.788
92443306|NCT01358357|184771763|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.1||||0.38|TWO_SIDED|95.0|-0.3|0.1||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.1|-0.3|0.380
92443307|NCT01358357|184771764|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|0.37||||0.772|TWO_SIDED|95.0|-2.14|2.88||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||2.88|-2.14|0.772
92443308|NCT00108160|184771769|SUPERIORITY_OR_OTHER|||||||0.356||||||No adjustments were made for multiple comparisons.|Chi-squared|||Our null hypothesis was that no significant effect of mupirocin ointment (treatment) on S. aureus re-infection would be seen at 18 months compared with placebo ointment. Based on prior studies, we estimated that 198 participants would need to be enrolled assuming a 20% dropout rate; 84 participants per arm would be required to detect a 66% decrease in re-infection from 30% to 10% with a significance level alpha of 0.05 and a power of 0.9.||||0.356
92443309|NCT00323492|184771824|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.42||||0.034||95.0|-0.86|-0.03||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were applied.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||-0.03|-0.86|0.034
92443310|NCT00323492|184771825|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.36||||0.031||95.0|-0.67|-0.03||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum text|No adjustments were made.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||-0.03|-0.67|0.031
92443311|NCT00323492|184771826|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.1||||0.009||95.0|-0.18|-0.02||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||-0.02|-0.18|0.009
92238922|NCT02078713|184382161|SUPERIORITY||Relative risk ratio|1.13||||0.5|TWO_SIDED|95.0|0.79|1.61||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of patient decision to both (ref)||1.61|0.79|0.50
92238923|NCT02078713|184382161|SUPERIORITY||Relative risk ratio|2.14||||0.09|TWO_SIDED|95.0|0.89|5.15||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of provider decision to both (ref)||5.15|0.89|0.09
92443312|NCT00323492|184771827|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.64|||<|0.001||95.0|-1.01|-0.27||No adjustments for multiple comparisons were made.|Wicoxon Rank Sum test|no adjustments were made.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||-0.27|-1.01|< 0.001
92446808|NCT00280566|184780545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|0.78||0.2116|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.2116
92446809|NCT00280566|184780545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.68||0.1847|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1847
92446810|NCT00280566|184780545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.82||0.9972|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.9972
92238924|NCT02078713|184382162|SUPERIORITY||Odds Ratio (OR)|1.27||||0.12|TWO_SIDED|95.0|0.94|1.71||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||1.71|0.94|0.12
92240058|NCT00570739|184383809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.23||||0.0002|TWO_SIDED|95.0|-11.03|-3.44||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||-3.44|-11.03|0.0002
92443313|NCT00323492|184771828|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.1||||0.51||95.0|-0.44|0.19||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||0.19|-0.44|0.51
92443314|NCT00323492|184771829|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.79||95.0|-0.03|0.02||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||0.02|-0.03|0.79
92443315|NCT00323492|184771830|SUPERIORITY_OR_OTHER|||||||0.86||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.86
92443316|NCT00323492|184771832|SUPERIORITY_OR_OTHER|||||||0.65||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.65
92443317|NCT00323492|184771833|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||No adjustments were made.|Wilcoxon Signed Rank test|No adjustments were made.||Null Hypothesis: no indication of shift from 0 in distribution of change from baseline. Alternative Hypothesis: shift from 0 is observed in distribution of change from baseline.||||0.11
92443318|NCT00323492|184771833|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||No adjustments were made.|Wilcoxon Signed Rank test|No adjustments were made.||Null Hypothesis: no indication of shift from 0 in distribution of change from baseline. Alternative Hypothesis: shift from 0 is observed in distribution of change from baseline.||||0.34
92443319|NCT00323492|184771834|SUPERIORITY_OR_OTHER|||||||1||95.0||||No adjustments were made.|Fisher Exact|No adjustments were made.||Null Hypothesis: treatment is not associated with the observed virologic response. Alternative Hypothesis: treatment is associated with the observed virologic response||||1.00
92443320|NCT02486042|184771848|OTHER|T-test for equality in means. The p-value threshold for significance was p \< 0.05.||||||0.22|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STAT-3 in T0 blood samples in the Standard of Care versus Omegaven group||||0.22
92443321|NCT02486042|184771848|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.15|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of PPAR-gamma in T0 blood samples in the Standard of Care versus Omegaven group||||0.15
92443322|NCT02486042|184771848|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.78|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STC-1 in T0 blood samples in the Standard of Care versus Omegaven group||||0.78
92443323|NCT02486042|184771852|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.43|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STAT-3 in T1 blood samples in the Standard of Care versus Omegaven group||||0.43
92443324|NCT02486042|184771852|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.44|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of PPAR-gamma in T1 blood samples in the Standard of Care versus Omegaven group||||0.44
92443325|NCT02486042|184771852|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.5|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STC-1 in T1 blood samples in the Standard of Care versus Omegaven group||||0.50
92443326|NCT02486042|184771853|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.001|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STAT-3 in T2 blood samples in the Standard of Care versus Omegaven group||||0.001
92443327|NCT02486042|184771853|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.001|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of PPAR-gamma in T2 blood samples in the Standard of Care versus Omegaven group||||0.001
92443328|NCT02486042|184771853|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.01|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STC-1 in T2 blood samples in the Standard of Care versus Omegaven group||||0.01
92443329|NCT01466387|184771855|NON_INFERIORITY_OR_EQUIVALENCE|GMC TF+YF+MenACWY-CRM/GMC TF+YF.|Ratio of GMC|1.14|||||TWO_SIDED|95.0|0.81|1.6||The testing was done by assessing the confidence interval of the ratio.|ANCOVA|The ANCOVA model included vaccine group and center as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity (postvaccination, day 29) was that the lower limit of the two-sided 95% confidence interval around the observed ratio of geometric mean concentrations between one dose of typhoid Vi polysaccharide and yellow fever vaccines given concomitantly with MenACWY-CRM197 to typhoid Vi polysaccharide and yellow fever vaccines given alone was greater than 0.5.||1.6|0.81|
92443330|NCT01466387|184771856|NON_INFERIORITY_OR_EQUIVALENCE|GMT TF+YF+MenACWY/GMT TF+YF.|Ratio of GMT.|0.96|||||TWO_SIDED|95.0|0.65|1.41||The testing was done by assessing the confidence interval of the ratio.|ANCOVA|The ANCOVA model included vaccine group and center as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity (postvaccination, day 29) was that the lower limit of the two sided 95% CI around the observed ratio of geometric mean titers between one dose of typhoid Vi polysaccharide and yellow fever vaccines given concomitantly with MenACWY-CRM197 to typhoid Vi polysaccharide and yellow fever vaccines given alone was greater than 0.5.||1.41|0.65|
92443331|NCT01466387|184771857|NON_INFERIORITY_OR_EQUIVALENCE|GMT JE + Rab + MenACWY-CRM/GMT JE + Rab.|Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.7|1.16||The testing was done by assessing the confidence interval of the ratio.|ANCOVA|The ANCOVA model included vaccine group and centers as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity (postvaccination, day 57) was that the lower limit of the two sided 95% CI around the observed ratio of geometric mean titers between the second dose of Japanese Encephalitis and third dose of rabies virus vaccines given concomitantly with MenACWY-CRM197 to Japanese Encephalitis and rabies virus vaccines given alone was greater than 0.5.||1.16|0.7|
92443332|NCT01466387|184771858|NON_INFERIORITY_OR_EQUIVALENCE|GMC JE + Rab + MenACWY-CRM/GMC JE + Rab.|Ratio of GMC|0.91|||||TWO_SIDED|95.0|0.71|1.17||The testing was done by assessing the confidence interval of the ratio.|ANCOVA|The ANCOVA model included vaccine group and center as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity (postvaccination, day 57) was that the lower limit of the two sided 95% CI around the observed ratio of geometric mean concentrations between the second dose of Japanese encephalitis and third dose of rabies virus vaccines given concomitantly with MenACWY-CRM197 to Japanese encephalitis and rabies virus vaccines given alone was greater than 0.5.||1.17|0.71|
92443333|NCT02530450|184771869|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Testing the change between two time points within each group using Wilcoxon signed rank test.||||< 0.05
92443334|NCT02586896|184771915|SUPERIORITY|||||||0.29|||||||ANOVA|||||||0.29
92443335|NCT02586896|184771917|SUPERIORITY|||||||0.91|||||||ANOVA|||||||0.91
92443336|NCT02586896|184771918|SUPERIORITY|||||||0.09|||||||ANOVA|||||||0.09
92443337|NCT02586896|184771919|SUPERIORITY|||||||0.54|||||||ANOVA|||||||0.54
92443338|NCT00502697|184771954|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The original proposed sample size for this study was 300. This sample size was based on previous evidence that indicated that a reduction of 15% in the rate of preterm birth would be detectable with groups of 150. Because of concerns with systemic changes in the study's health care delivery environment, an interim analysis was conducted after 200 women had delivered. As a result of that analysis a decision was made to stop recruitment.||||.64
92443339|NCT01713868|184771998|SUPERIORITY|GEE logistic regression accounted for within-hospital clustering, individual-level \& hospital-level covariates. We converted aORs to aRDs (95% CI) using the BF/BF group as the control group prevalence and reported separate effects of the 2 interventions. We fit multiplicative interaction models with indicator variables for education, mHealth, and their interaction. As the interaction between interventions was significant, we presented results from the interaction model.||||||0.03||||||Adjusted education effect p=0.34. Adjusted mHealth effect p\<0.001. Test for interaction p=0.01. Adjusted education only effect p=0.74. Adjusted mHealth only effect p=0.02. Adjusted mHealth and education effect: p=0.03|Regression, Logistic|||Sample size provided power of detecting the effect of an individual intervention in the presence of interaction.We assumed pre-study prevalence of a safe sleep practice ranging from 50% to 60% across hospitals. We powered the study to detect a 10 percentage point difference between two study groups, and determined that an analysis sample of n=1280 (320 per treatment group) was needed for 80% power (testing at two-sided p\<0.05). Allowing for 20% loss to follow-up, this led to a sample of n=1600.||||0.03
92443340|NCT01713868|184771999|SUPERIORITY|GEE logistic regression accounted for within-hospital clustering, individual-level \& hospital-level covariates. We converted aORs to aRDs (95% CI) using the BF/BF group as the control group prevalence and reported separate effects of the 2 interventions. We fit multiplicative interaction models with indicator variables for education, mHealth, and their interaction. As the interaction between interventions was not significant, we only presented main effects model.|||||<|0.001||||||Adjusted education effect: p=0.22. Adjusted mHealth effect p\<0.001. Test for interaction p=0.08.|Regression, Logistic|||Sample size provided power of detecting the effect of an individual intervention in the presence of interaction. We assumed pre-study prevalence of a safe sleep practice ranging from 50% to 60% across hospitals. We powered the study to detect a 10 percentage point difference between two study groups, and determined that an analysis sample of n=1280 (320 per treatment group) was needed for 80% power (testing at two-sided p\<0.05). Allowing for 20% loss to follow-up,this led to a sample of n=1600.||||<0.001
92280151|NCT02978326|184463231|SUPERIORITY||Least Squares (LS) Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|1.37||0.0028|TWO_SIDED|95.0|-6.9|-1.5||Mixed Model for Repeated Measures (MMRM) was used for estimation with treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||||-1.5|-6.9|0.0028
92443341|NCT01713868|184772000|SUPERIORITY|GEE logistic regression accounted for within-hospital clustering, individual-level \& hospital-level covariates. We converted aORs to aRDs (95% CI) using the BF/BF group as the control group prevalence and reported separate effects of the 2 interventions. We fit multiplicative interaction models with indicator variables for education, mHealth, and their interaction. As the interaction between interventions was not significant, we only presented main effects model.|||||<|0.001||||||Adjusted education effect p=0.07. Adjusted mHealth effect p\<0.001. Test for interaction p=0.54|Regression, Logistic|||Sample size provided power of detecting the effect of an individual intervention in the presence of interaction. We assumed pre-study prevalence of a safe sleep practice ranging from 50% to 60% across hospitals. We powered the study to detect a 10 percentage point difference between two study groups, and determined that an analysis sample of n=1280 (320 per treatment group) was needed for 80% power (testing at two-sided p\<0.05). Allowing for 20% loss to follow-up, this led to a sample of n=1600.||||<0.001
92443342|NCT01713868|184772001|SUPERIORITY|GEE logistic regression accounted for within-hospital clustering, individual-level \& hospital-level covariates. We converted aORs to aRDs (95% CI) using the BF/BF group as the control group prevalence and reported separate effects of the 2 interventions. We fit multiplicative interaction models with indicator variables for education, mHealth, and their interaction. As the interaction between interventions was not significant, we only presented main effects model.|||||<|0.001||||||Adjusted education effect p=0.33. Adjusted mHealth effect p\<0.001. Test for interaction p=0.29.|Regression, Logistic|||Sample size provided power of detecting the effect of an individual intervention in the presence of interaction. We assumed pre-study prevalence of a safe sleep practice ranging from 50% to 60% across hospitals. We powered the study to detect a 10 percentage point difference between two study groups, and determined that an analysis sample of n=1280 (320 per treatment group) was needed for 80% power (testing at two-sided p\<0.05). Allowing for 20% loss to follow-up, this led to a sample of n=1600.||||<0.001
92443343|NCT01713868|184772002|OTHER|Causal mediation analysis|Difference in proportions|0.16|||||TWO_SIDED|95.0|||||||||We performed causal mediation analyses to estimate the Total Effect of intervention on a categorical outcome as the difference in the proportion with the outcome for those who received the intervention and were positive on the mediator vs. those who received the control and were negative on the mediator. Significance is determined through 95% confidence intervals (CIs), with CIs not including 0.0 indicating significant effects.|||
92443344|NCT01713868|184772003|OTHER|Causal mediation analysis|Difference in proportions|0.14|||||TWO_SIDED|95.0|||||||||We performed causal mediation analyses to estimate the Total Effect of intervention on a categorical outcome as the difference in the proportion with the outcome for those who received the intervention and were positive on the mediator vs. those who received the control and were negative on the mediator. Significance is determined through 95% confidence intervals (CIs), with CIs not including 0.0 indicating significant effects.|||
92443345|NCT01713868|184772004|OTHER|Causal mediation analysis|Difference in proportions|0.14|||||TWO_SIDED|95.0|||||||||We performed causal mediation analyses to estimate the Total Effect of intervention on a categorical outcome as the difference in the proportion with the outcome for those who received the intervention and were positive on the mediator vs. those who received the control and were negative on the mediator. Significance is determined through 95% confidence intervals (CIs), with CIs not including 0.0 indicating significant effects.|||
92443346|NCT01713868|184772005|OTHER|Causal mediation analysis|Difference in proportions|0.15|||||TWO_SIDED|95.0|||||||||We performed causal mediation analyses to estimate the Total Effect of intervention on a categorical outcome as the difference in the proportion with the outcome for those who received the intervention and were positive on the mediator vs. those who received the control and were negative on the mediator. Significance is determined through 95% confidence intervals (CIs), with CIs not including 0.0 indicating significant effects.|||
92443347|NCT03026257|184772071|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
92443348|NCT03026257|184772071|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
92443349|NCT03026257|184772071|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
92443350|NCT03026257|184772071|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
92443351|NCT03026257|184772071|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
92443352|NCT03026257|184772071|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
92443353|NCT03026257|184772071|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
92443354|NCT03026257|184772071|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
92443355|NCT01589445|184772130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.06|STANDARD_DEVIATION|39.47|<|0.161||95.0|-88.0|118.0||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||TC||118|-88.0|<0.161
92443356|NCT01589445|184772130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.66|STANDARD_DEVIATION|143.22|<|0.913|TWO_SIDED|95.0|-397.0|976.0||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||TG||976|-397.0|<0.913
92443357|NCT01589445|184772130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47|STANDARD_DEVIATION|9.59|<|0.322|TWO_SIDED|95.0|-35.0|19.0||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||HDL||19.0|-35.0|<0.322
92443358|NCT01589445|184772130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.62|STANDARD_DEVIATION|32.05|<|0.21|TWO_SIDED|95.0|-113.8|76.2||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||LDL||76.2|-113.8|<0.210
92443359|NCT01589445|184772131|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|STANDARD_DEVIATION|2.41|<|0.05|TWO_SIDED|95.0|-7.9|8.0||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, Multiple Logistic Regression (MLR), OR, Pearson Correlation)|ANOVA||The group 001 was divided according to Pro12Pro and Pro12Ala groups.There was no Ala12Ala group.These two groups were compared also in accordance with all parameters (glycemic levels, insulin levels, lipid profiles, BMI).|Change from Baseline in FSG at 3rd month||8.0|-7.9|<0.05
92443360|NCT01589445|184772132|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64|STANDARD_DEVIATION|1.07|>|0.05|TWO_SIDED|95.0|-4.4|2.4||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||||2.4|-4.4|>0.05
92443361|NCT01589445|184772133|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|STANDARD_DEVIATION|0.12|<|0.001|TWO_SIDED|95.0|-0.4|0.27||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||||0.27|-0.40|<0.001
92443362|NCT01589445|184772133|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.04|STANDARD_DEVIATION|4.25|<|0.004|TWO_SIDED|95.0|-14.12|15.52||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||HOMA IR||15.52|-14.12|<0.004
92443363|NCT01589445|184772134|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.79|STANDARD_DEVIATION|84.46|<|0.808|TWO_SIDED|95.0|-346.4|328.1||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||HOMA B||328.10|-346.40|<0.808
92443364|NCT01589445|184772134|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.53|STANDARD_DEVIATION|54.0|<|0.025|TWO_SIDED|95.0|-148.7|180.0||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||HOMA S||180|-148.70|<0.025
92443365|NCT01589445|184772135|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.09|STANDARD_DEVIATION|10.2|<|0.039|TWO_SIDED|95.0|-27.04|26.52||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||FSI||26.52|-27.04|<0.039
92443366|NCT00481195|184772155|SUPERIORITY_OR_OTHER|||||||0.0439||95.0|||||ANOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an analysis of variance (ANOVA) with treatment ands concurrent treatment for bipolar disorders as factors. A significant treatment-by baseline interaction was observed in the total score that violates the assumption of parallelism on which an ANCOVA is based, so the data was analyzed using ANOVA without baseline as a covariate rather than ANCOVA.||||0.0439
92443367|NCT00481195|184772156|SUPERIORITY_OR_OTHER|||||||0.0795||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0795
92443368|NCT00481195|184772157|SUPERIORITY_OR_OTHER|||||||0.0272||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0272
92443369|NCT00481195|184772158|SUPERIORITY_OR_OTHER|||||||0.0802||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0802
92443370|NCT00481195|184772159|SUPERIORITY_OR_OTHER|||||||0.2407||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.2407
92280152|NCT02978326|184463232|SUPERIORITY||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|1.19||0.0252|TWO_SIDED|95.0|-5.1|-0.3||MMRM was used for estimation with treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in the HAM-D Total Score at Day 3||-0.3|-5.1|0.0252
92443371|NCT00481195|184772160|SUPERIORITY_OR_OTHER|||||||0.0502||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0502
92443372|NCT00481195|184772161|SUPERIORITY_OR_OTHER|||||||0.0612||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0612
92443373|NCT00481195|184772162|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||P-value is from a Cochran-Mantel-Haenzel chi-square test adjusted for concurrent treatment for bipolar disorder|Cochran-Mantel-Haenszel|||||||0.1980
92443374|NCT00481195|184772163|SUPERIORITY_OR_OTHER|||||||0.896||95.0||||P-value is from a Cochran-Mantel-Haenzel chi-square test adjusted for concurrent treatment for bipolar disorder|Cochran-Mantel-Haenszel|||||||0.8960
92443375|NCT00481195|184772164|SUPERIORITY_OR_OTHER|||||||0.2575||95.0||||P-value is from a Cochran-Mantel-Haenzel chi-square test adjusted for concurrent treatment for bipolar disorder|Cochran-Mantel-Haenszel|||||||0.2575
92443376|NCT00481195|184772165|SUPERIORITY_OR_OTHER|||||||0.3129||95.0||||P-value is from a Cochran-Mantel-Haenzel chi-square test adjusted for concurrent treatment for bipolar disorder|Cochran-Mantel-Haenszel|||||||0.3129
92443377|NCT00481195|184772166|SUPERIORITY_OR_OTHER|||||||0.1565||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.1565
92443378|NCT00481195|184772167|SUPERIORITY_OR_OTHER|||||||0.6737||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.6737
92443379|NCT00481195|184772168|SUPERIORITY_OR_OTHER|||||||0.2249||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.2249
92443380|NCT00481195|184772169|SUPERIORITY_OR_OTHER|||||||0.0862||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0862
92443381|NCT00481195|184772170|SUPERIORITY_OR_OTHER|||||||0.9281||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.9281
92443382|NCT00481195|184772171|SUPERIORITY_OR_OTHER|||||||0.4428||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.4428
92443383|NCT00481195|184772172|SUPERIORITY_OR_OTHER|||||||0.0965||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0965
92443384|NCT00481195|184772173|SUPERIORITY_OR_OTHER|||||||0.5389||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.5389
92443385|NCT00481195|184772174|SUPERIORITY_OR_OTHER|||||||0.0793||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0793
92443386|NCT00481195|184772175|SUPERIORITY_OR_OTHER|||||||0.3814||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.3814
92443387|NCT00481195|184772176|SUPERIORITY_OR_OTHER|||||||0.8099||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.8099
92443388|NCT00481195|184772177|SUPERIORITY_OR_OTHER|||||||0.0968||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0968
92443389|NCT00481195|184772178|SUPERIORITY_OR_OTHER|||||||0.1605||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.1605
92443390|NCT00481195|184772179|SUPERIORITY_OR_OTHER|||||||0.1869||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.1869
92443391|NCT00481195|184772180|SUPERIORITY_OR_OTHER|||||||0.0817||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0817
92443392|NCT00481195|184772181|SUPERIORITY_OR_OTHER|||||||0.3712||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.3712
92443393|NCT00481195|184772182|SUPERIORITY_OR_OTHER|||||||0.5427||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.5427
92240059|NCT00570739|184383810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.0257|TWO_SIDED|95.0|0.43|6.57||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||6.57|0.43|0.0257
92240060|NCT00570739|184383810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.13||||0.2238|TWO_SIDED|95.0|-1.32|5.58||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||5.58|-1.32|0.2238
92238925|NCT02078713|184382163|SUPERIORITY||Odds Ratio (OR)|1.18||||0.41|TWO_SIDED|95.0|0.8|1.74||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of overall score||1.74|0.80|0.41
92238926|NCT02078713|184382163|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0496|TWO_SIDED|95.0|1.0|1.8|||Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of informed decision subscale||1.80|1.00|0.0496
92238927|NCT02078713|184382163|SUPERIORITY||Odds Ratio (OR)|1.45||||0.03|TWO_SIDED|95.0|1.03|2.05||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of uncertainty subscale of DCS||2.05|1.03|0.03
92280153|NCT02978326|184463232|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.31||0.0106|TWO_SIDED|95.0|-6.0|-0.8||MMRM was used for estimation with treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in the HAM-D Total Score at Day 8||-0.8|-6.0|0.0106
92238928|NCT02078713|184382163|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5|TWO_SIDED|95.0|0.8|1.59||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of effective decision subscale||1.59|0.80|0.5
92171463|NCT03547908|184232108|OTHER||Difference in Percentages|17.1||||0.0655|TWO_SIDED|95.0|-1.5|35.7|||Cochran-Mantel-Haenszel|P-value was calculated from CMH tests stratified by baseline HBeAg status (positive vs negative) and HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|The difference in percentages of participants between groups and their 95% CIs were calculated based on MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|||35.7|-1.5|0.0655
92238929|NCT02078713|184382163|SUPERIORITY||Odds Ratio (OR)|1.17||||0.31|TWO_SIDED|95.0|0.86|1.59||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of values clarity subscale||1.59|0.86|0.31
92443394|NCT00481195|184772183|SUPERIORITY_OR_OTHER|||||||0.3463||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.3463
92238930|NCT02078713|184382163|SUPERIORITY||Odds Ratio (OR)|1.06||||0.73|TWO_SIDED|95.0|0.76|1.49||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of support subscale||1.49|0.76|0.73
92280154|NCT02978326|184463232|SUPERIORITY||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|1.44||0.0321|TWO_SIDED|95.0|-6.0|-0.3||MMRM was used for estimation with treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in the HAM-D Total Score at Day 21||-0.3|-6.0|0.0321
92443395|NCT00481195|184772184|SUPERIORITY_OR_OTHER|||||||0.273||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.2730
92443396|NCT00481195|184772185|SUPERIORITY_OR_OTHER|||||||0.7791||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.7791
92443397|NCT00481195|184772186|SUPERIORITY_OR_OTHER|||||||0.9007||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.9007
92443398|NCT00481195|184772187|SUPERIORITY_OR_OTHER|||||||0.6431||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.6431
92443399|NCT00481195|184772188|SUPERIORITY_OR_OTHER|||||||0.6631||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder.||||||0.6631
92443400|NCT00481195|184772189|SUPERIORITY_OR_OTHER|||||||0.9768||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder||||||0.9768
92443401|NCT00481195|184772190|SUPERIORITY_OR_OTHER|||||||0.9873||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment fro bipolar disorder||||||0.9873
92443402|NCT00481195|184772191|SUPERIORITY_OR_OTHER|||||||0.4567||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder||||||0.4567
92238931|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.27||||0.12|TWO_SIDED|95.0|0.94|1.72||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - pills are more effective than condoms||1.72|0.94|0.12
92238932|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|2.65|||<|0.0001|TWO_SIDED|95.0|1.94|3.62||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - IUDs are more effective than pills||3.62|1.94|<0.0001
92238933|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0004|TWO_SIDED|95.0|1.29|2.44||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - depo is more effective than condoms||2.44|1.29|0.0004
92238934|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.92||||0.0002|TWO_SIDED|95.0|1.36|2.71||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - IUDs are an option for nulliparous young women||2.71|1.36|0.0002
92280155|NCT02978326|184463232|SUPERIORITY||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.34||0.0027|TWO_SIDED|95.0|-6.7|-1.4||MMRM was used for estimation with treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in the HAM-D Total Score at Day 45||-1.4|-6.7|0.0027
92443403|NCT00481195|184772192|SUPERIORITY_OR_OTHER|||||||0.6475||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder||||||0.6475
92443404|NCT00481195|184772193|SUPERIORITY_OR_OTHER|||||||0.5066||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder||||||0.5066
92443405|NCT00481195|184772194|SUPERIORITY_OR_OTHER|||||||0.4438||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder||||||0.4438
92443406|NCT02932904|184772195|SUPERIORITY||Least square (LS) Mean Difference|2.74|STANDARD_ERROR_OF_MEAN|1.04||0.009|TWO_SIDED|95.0|0.69|4.78||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA with last observation carried forward (LOCF) model was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||4.78|0.69|0.009
92443407|NCT02932904|184772195|SUPERIORITY||LS Mean Difference|1.05|STANDARD_ERROR_OF_MEAN|1.017||0.303|TWO_SIDED|95.0|-0.95|3.05||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||3.05|-0.95|0.303
92280156|NCT02978326|184463233|SUPERIORITY||Odds Ratio (OR)|1.79||||0.1004|TWO_SIDED|95.0|0.89|3.6||Generalized estimating equations (GEE) for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Response at Day 3||3.60|0.89|0.1004
92443408|NCT02932904|184772196|SUPERIORITY||LS Mean Difference|1.13|STANDARD_ERROR_OF_MEAN|0.627||0.072|TWO_SIDED|95.0|-0.1|2.37|||ANCOVA with LOCF|||Week 1, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.37|-0.10|0.072
92443409|NCT02932904|184772196|SUPERIORITY||LS Mean Difference|1.29|STANDARD_ERROR_OF_MEAN|0.612||0.035|TWO_SIDED|95.0|0.09|2.5|||ANCOVA with LOCF|||Week 1, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.50|0.09|0.035
92443410|NCT02932904|184772196|SUPERIORITY||LS Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|0.846||0.149|TWO_SIDED|95.0|-0.44|2.89|||ANCOVA with LOCF|||Week 2, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.89|-0.44|0.149
92443411|NCT02932904|184772196|SUPERIORITY||LS Mean Difference|0.85|STANDARD_ERROR_OF_MEAN|0.828||0.303|TWO_SIDED|95.0|-0.78|2.48|||ANCOVA with LOCF|||Week 2, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.48|-0.78|0.303
92443412|NCT02932904|184772196|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|0.906||0.028|TWO_SIDED|95.0|0.22|3.78|||ANCOVA with LOCF|||Week 3, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||3.78|0.22|0.028
92443413|NCT02932904|184772196|SUPERIORITY||LS Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.886||0.645|TWO_SIDED|95.0|-1.33|2.15|||ANCOVA with LOCF|||Week 3, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.15|-1.33|0.645
92238935|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.86||||0.001|TWO_SIDED|95.0|1.28|2.71||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - Methods causing periods to stop are safe.||2.71|1.28|0.001
92171464|NCT03547908|184232109|OTHER||Difference in Percentages|14.1||||0.1253|TWO_SIDED|95.0|-4.3|32.6|||Cochran-Mantel-Haenszel|P-value was from the CMH tests stratified by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs \>= 8 log10 IU/mL).|Difference in the proportion between treatment groups and its 95% CI were calculated based on the MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs \>= 8 log10 IU/mL).|||32.6|-4.3|0.1253
92443414|NCT02932904|184772196|SUPERIORITY||LS Mean Difference|1.91|STANDARD_ERROR_OF_MEAN|0.943||0.043|TWO_SIDED|95.0|0.06|3.77|||ANCOVA with LOCF|||Week 4, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||3.77|0.06|0.043
92443415|NCT02932904|184772196|SUPERIORITY||LS Mean Difference|0.68|STANDARD_ERROR_OF_MEAN|0.923||0.465|TWO_SIDED|95.0|-1.14|2.49|||ANCOVA with LOCF|||Week 4, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.49|-1.14|0.465
92443416|NCT02932904|184772197|SUPERIORITY||LS Mean Difference|-1.63|STANDARD_ERROR_OF_MEAN|0.616||0.009|TWO_SIDED|95.0|-2.84|-0.41|||ANCOVA with LOCF|||Week 1, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||-0.41|-2.84|0.009
92171465|NCT03547908|184232110|OTHER||Difference in Percentages|7.1||||0.0591|TWO_SIDED|95.0|-0.8|15.0|||Cochran-Mantel-Haenszel|P-value was from the CMH tests stratified by baseline HBeAg status (positive vs negative)and baseline HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|Difference in the percentages between treatment groups and its 95% CI were calculated based on the MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|||15.0|-0.8|0.0591
92238936|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.15||||0.36|TWO_SIDED|95.0|0.85|1.57||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - LARC can be removed early||1.57|0.85|0.36
92443417|NCT02932904|184772197|SUPERIORITY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.834||0.123|TWO_SIDED|95.0|-2.93|0.35|||ANCOVA with LOCF|||Week 2, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||0.35|-2.93|0.123
92443418|NCT02932904|184772197|SUPERIORITY||LS Mean Difference|-1.85|STANDARD_ERROR_OF_MEAN|0.892||0.039|TWO_SIDED|95.0|-3.61|-0.1|||ANCOVA with LOCF|||Week 3, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||-0.10|-3.61|0.039
92443419|NCT02932904|184772197|SUPERIORITY||LS Mean Difference|-2.49|STANDARD_ERROR_OF_MEAN|0.929||0.008|TWO_SIDED|95.0|-4.32|-0.66|||ANCOVA with LOCF|||Week 4, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||-0.66|-4.32|0.008
92443420|NCT02932904|184772197|SUPERIORITY||LS Mean Difference|-2.77|STANDARD_ERROR_OF_MEAN|1.024||0.007|TWO_SIDED|95.0|-4.78|-0.75|||ANCOVA with LOCF|||Week 5, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||-0.75|-4.78|0.007
92443421|NCT02932904|184772198|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.612||0.419|TWO_SIDED|95.0|-1.7|0.71|||ANCOVA with LOCF|||Week 1, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||0.71|-1.70|0.419
92443422|NCT02932904|184772198|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.6||0.581|TWO_SIDED|95.0|-1.51|0.85|||ANCOVA with LOCF|||Week 1, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||0.85|-1.51|0.581
92443423|NCT02932904|184772198|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.828||0.938|TWO_SIDED|95.0|-1.69|1.56|||ANCOVA with LOCF|||Week 2, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||1.56|-1.69|0.938
92443424|NCT02932904|184772198|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.814||0.592|TWO_SIDED|95.0|-2.04|1.17|||ANCOVA with LOCF|||Week 2, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||1.17|-2.04|0.592
92443425|NCT02932904|184772198|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.886||0.87|TWO_SIDED|95.0|-1.6|1.89|||ANCOVA with LOCF|||Week 3, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||1.89|-1.60|0.870
92443426|NCT02932904|184772198|SUPERIORITY||LS Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.871||0.098|TWO_SIDED|95.0|-3.16|0.27|||ANCOVA with LOCF|||Week 3, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||0.27|-3.16|0.098
92443427|NCT02932904|184772198|SUPERIORITY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.923||0.532|TWO_SIDED|95.0|-2.39|1.24|||ANCOVA with LOCF|||Week 4, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||1.24|-2.39|0.532
92443428|NCT02932904|184772198|SUPERIORITY||LS Mean Difference|-1.82|STANDARD_ERROR_OF_MEAN|0.907||0.046|TWO_SIDED|95.0|-3.6|-0.03|||ANCOVA with LOCF|||Week 4, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||-0.03|-3.60|0.046
92443429|NCT02932904|184772198|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|1.018||0.977|TWO_SIDED|95.0|-2.03|1.97|||ANCOVA with LOCF|||Week 5, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||1.97|-2.03|0.977
92443430|NCT02932904|184772198|SUPERIORITY||LS Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|1.0||0.087|TWO_SIDED|95.0|-3.68|0.25|||ANCOVA with LOCF|||Week 5, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||0.25|-3.68|0.087
92443431|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.44||||0.515|TWO_SIDED|95.0|0.037|5.201|||Regression, Logistic|||Week 1||5.201|0.037|0.515
92443432|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.59||||0.677|TWO_SIDED|95.0|0.049|7.051|||Regression, Logistic|||Week 1||7.051|0.049|0.677
92443433|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|1.47||||0.72|TWO_SIDED|95.0|0.181|11.912|||Regression, Logistic|||Week 1||11.912|0.181|0.720
92443434|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.65||||0.732|TWO_SIDED|95.0|0.053|7.861|||Regression, Logistic|||Week 1||7.861|0.053|0.732
92443435|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.87||||0.913|TWO_SIDED|95.0|0.066|11.303|||Regression, Logistic|||Week 1||11.303|0.066|0.913
92443436|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.37||||0.164|TWO_SIDED|95.0|0.09|1.507|||Regression, Logistic|||Week 2||1.507|0.090|0.164
92238937|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|2.76|||<|0.0001|TWO_SIDED|95.0|1.72|4.41||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of knowledge - Copper IUD can act as EC||4.41|1.72|<0.0001
92443437|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.25||||0.098|TWO_SIDED|95.0|0.05|1.287|||Regression, Logistic|||Week 2||1.287|0.050|0.098
92443438|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|1.2||||0.758|TWO_SIDED|95.0|0.383|3.731|||Regression, Logistic|||Week 2||3.731|0.383|0.758
92443439|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.44||||0.256|TWO_SIDED|95.0|0.107|1.814|||Regression, Logistic|||Week 2||1.814|0.107|0.256
92238938|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|0.77||||0.49|TWO_SIDED|95.0|0.36|1.63||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a regression model in a multiply imputed dataset. This outcome was not adjusted for site due to model being unable to run with imputed data.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of knowledge - After sex, there is something you can do to prevent pregnancy||1.63|0.36|0.49
92443440|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.3||||0.154|TWO_SIDED|95.0|0.059|1.561|||Regression, Logistic|||Week 2||1.561|0.059|0.154
92443441|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.36||||0.16|TWO_SIDED|95.0|0.087|1.497|||Regression, Logistic|||Week 3||1.497|0.087|0.160
92443442|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.82||||0.744|TWO_SIDED|95.0|0.252|2.679|||Regression, Logistic|||Week 3||2.679|0.252|0.744
92443443|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|2.43||||0.194|TWO_SIDED|95.0|0.636|9.317|||Regression, Logistic|||Week 3||9.317|0.636|0.194
92443444|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.88||||0.871|TWO_SIDED|95.0|0.181|4.261|||Regression, Logistic|||Week 3||4.261|0.181|0.871
92443445|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|2.0||||0.329|TWO_SIDED|95.0|0.497|8.037|||Regression, Logistic|||Week 3||8.037|0.497|0.329
92443446|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.42||||0.187|TWO_SIDED|95.0|0.119|1.514|||Regression, Logistic|||Week 4||1.514|0.119|0.187
92443447|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.82||||0.729|TWO_SIDED|95.0|0.273|2.476|||Regression, Logistic|||Week 4||2.476|0.273|0.729
92443448|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|2.71||||0.133|TWO_SIDED|95.0|0.739|9.917|||Regression, Logistic|||Week 4||9.917|0.739|0.133
92443449|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|1.15||||0.852|TWO_SIDED|95.0|0.266|4.961|||Regression, Logistic|||Week 4||4.961|0.266|0.852
92443450|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|2.23||||0.24|TWO_SIDED|95.0|0.585|8.472|||Regression, Logistic|||Week 4||8.472|0.585|0.240
92443451|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using rate of subjects that shifted from normal at baseline to abnormal after baseline as response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.55||||0.317|TWO_SIDED|95.0|0.166|1.789|||Regression, Logistic|||Week 5||1.789|0.166|0.317
92443452|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|1.15||||0.79|TWO_SIDED|95.0|0.41|3.233|||Regression, Logistic|||Week 5||3.233|0.410|0.790
92443453|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using rate of subjects that shifted from normal at baseline to abnormal after baseline as response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|3.64||||0.073|TWO_SIDED|95.0|0.888|14.911|||Regression, Logistic|||Week 5||14.911|0.888|0.073
92443454|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using rate of subjects that shifted from normal at baseline to abnormal after baseline as response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|1.98||||0.371|TWO_SIDED|95.0|0.442|8.902|||Regression, Logistic|||Week 5||8.902|0.442|0.371
92238939|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|0.73||||0.31|TWO_SIDED|95.0|0.39|1.34||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a regression model in a multiply imputed dataset. This outcome was not adjusted for site due to model being unable to run with imputed data.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of knowledge - EC can prevent pregnancy after sex||1.34|0.39|0.31
92238940|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.33||||0.08|TWO_SIDED|95.0|0.96|1.84||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - pill does not affect fertility||1.84|0.96|0.08
92238941|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.65||||0.002|TWO_SIDED|95.0|1.2|2.26||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.||Comparison of correct knowledge - patch does not affect fertility|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|2.26|1.2|0.002
92443455|NCT02932904|184772199|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using rate of subjects that shifted from normal at baseline to abnormal after baseline as response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|4.19||||0.046|TWO_SIDED|95.0|1.027|17.063|||Regression, Logistic|||Week 5||17.063|1.027|0.046
92443456|NCT02932904|184772202|SUPERIORITY||LS Mean Difference|3.38|STANDARD_ERROR_OF_MEAN|1.082||0.002|TWO_SIDED|95.0|1.25|5.51||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||5.51|1.25|0.002
92443457|NCT02932904|184772202|SUPERIORITY||LS Mean Difference|1.63|STANDARD_ERROR_OF_MEAN|1.068||0.129|TWO_SIDED|95.0|-0.47|3.73||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||3.73|-0.47|0.129
92443458|NCT02932904|184772203|SUPERIORITY||LS Mean Difference|4.31|STANDARD_ERROR_OF_MEAN|1.078|<|0.001|TWO_SIDED|95.0|2.19|6.43||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||6.43|2.19|<0.001
92443459|NCT02932904|184772203|SUPERIORITY||LS Mean Difference|3.06|STANDARD_ERROR_OF_MEAN|1.072||0.005|TWO_SIDED|95.0|0.95|5.17||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||5.17|0.95|0.005
92443460|NCT02590939|184772225|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92443461|NCT02590939|184772226|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92443462|NCT02590939|184772227|SUPERIORITY|||||||0.666||||||Statistical significance threshold set to 0.05|Fisher Exact|||||||0.666
92443463|NCT02590939|184772228|SUPERIORITY|||||||0.026||||||Statistical significance threshold set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.026
92443464|NCT02590939|184772229|SUPERIORITY|||||||1||||||Statistical significance threshold set to 0.05|Wilcoxon (Mann-Whitney)|||||||1
92443465|NCT02590939|184772230|SUPERIORITY|||||||0.037||||||Statistical significance threshold set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.037
92443466|NCT02590939|184772231|SUPERIORITY|||||||0.028||||||Statistical significance threshold set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.028
92443467|NCT02590939|184772232|SUPERIORITY|||||||0.062||||||Statistical significance threshold set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.062
92443468|NCT03706794|184772245|SUPERIORITY||Mann-Whitney U|43.0||||0.829|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.829
92238942|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.7||||0.002|TWO_SIDED|95.0|1.23|2.35||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - ring does not affect fertility||2.35|1.23|0.002
92240061|NCT00570739|184383810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.78||||0.2763|TWO_SIDED|95.0|-1.44|4.99||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||4.99|-1.44|0.2763
92443469|NCT03706794|184772246|SUPERIORITY||Mann-Whitney U|45.5||||0.633|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.633
92443470|NCT03706794|184772247|SUPERIORITY||Mann-Whitney U|45.5||||0.633|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.633
92443471|NCT03706794|184772248|SUPERIORITY||Mann-Whitney U|46.0||||0.633|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.633
92443472|NCT03706794|184772249|SUPERIORITY||Mann-Whitney U|52.0||||0.315|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.315
92443473|NCT00566150|184772267|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|TWO_SIDED|95.0||||Unadjusted. Statistical significance was p\<0.05.|Mixed Models Analysis|Fixed categorical effects: group (as a between-subjects factor), time (as a within-subjects factor), group x time interaction.||Comparison of changes in outcome between treatment groups at week 6.||||0.29
92443474|NCT00566150|184772268|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|TWO_SIDED|95.0||||Unadjusted. Statistical significance was p\<0.05.|Mixed Models Analysis|Fixed categorical effects: group (as a between-subjects factor), time (as a within-subjects factor), group x time interaction.||Comparison of changes in outcome between treatment groups at week 6.||||0.07
92443475|NCT00566150|184772269|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038||95.0||||Statistical significance was p\<0.05|Fisher Exact|Fisher's exact test was used to test for significance between groups.||Week 6||||.038
92238943|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|0.94||||0.77|TWO_SIDED|95.0|0.62|1.43||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - Depo does affect fertility||1.43|0.62|0.77
92238944|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.61||||0.002|TWO_SIDED|95.0|1.19|2.17||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - Hormonal IUD does not affect fertility||2.17|1.19|0.002
92238945|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.56||||0.004|TWO_SIDED|95.0|1.15|2.1||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - Non-hormonal IUD does not affect fertility||2.1|1.15|0.004
92280157|NCT02978326|184463233|SUPERIORITY||Odds Ratio (OR)|2.31||||0.0127|TWO_SIDED|95.0|1.2|4.45||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Response at Day 8||4.45|1.20|0.0127
92443476|NCT00566150|184772270|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79||95.0||||Unadjusted. Statistical significance was p\<0.05.|Mixed Models Analysis|Fixed categorical effects: group (as a between-subjects factor), time (as a within-subjects factor), group x time interaction.||Comparison of changes in outcome between treatment groups.||||0.79
92443477|NCT01527682|184772296|OTHER||Proportion|76.7|||||TWO_SIDED|95.0|64.1|89.4|||||||The statistical analysis was performed according to study design. Using a Fleming single stage design (A'Hern approach) setting the probability of erroneously concluding that the responders rate is greater than 35% at 5% (one-sided alpha=0.05) and the probability of correctly concluding that the responders rate is at least 50% at 80% (beta error = 0.20), the minimum number of responder eyes was set at 31 out of 68, since this result is associated with a lower limit of the 90% exact confidence interval of 35.2%.|89.4|64.1|
92443478|NCT03979638|184772302|SUPERIORITY||Estimated percent change|-10.8||||0.1424|TWO_SIDED|95.0|-23.5|4.0|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||4.0|-23.5|0.1424
92238946|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|1.54||||0.005|TWO_SIDED|95.0|1.14|2.07||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - Implant does not affect fertility||2.07|1.14|0.005
92443479|NCT03979638|184772302|SUPERIORITY||Estimated percent change|-6.1||||0.4602|TWO_SIDED|95.0|-20.8|11.2|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||11.2|-20.8|0.4602
92443480|NCT03979638|184772302|SUPERIORITY||Estimated percent change|-7.8||||0.4181|TWO_SIDED|95.0|-24.4|12.5|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||12.5|-24.4|0.4181
92443481|NCT03979638|184772302|SUPERIORITY||Estimated percent change|-16.7||||0.0855|TWO_SIDED|95.0|-32.3|2.6|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||2.6|-32.3|0.0855
92238947|NCT02078713|184382164|SUPERIORITY||Odds Ratio (OR)|2.47|||<|0.0001|TWO_SIDED|95.0|1.75|3.49||P-value calculated in multiply imputed dataset.|Regression, Logistic||OR calculated in multiply imputed dataset. Intervention patients had 2.47 times the odds of control patients to give correct answer.|Comparison of correct knowledge - composite IUD knowledge item (all correct responses on items related to IUD knowledge, versus any incorrect)||3.49|1.75|<0.0001
92238948|NCT02078713|184382165|SUPERIORITY||Odds Ratio (OR)|1.19||||0.25|TWO_SIDED|95.0|0.88|1.61||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of percentage of patients giving top score at baseline||1.61|0.88|0.25
92238949|NCT02078713|184382165|SUPERIORITY||Odds Ratio (OR)|0.9||||0.5|TWO_SIDED|95.0|0.66|1.22||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention groups in the numerator over the odds of the control group in the denominator.|Comparison of percentage of patients giving top score at 4 months post-enrollment||1.22|0.66|0.5
92171466|NCT03547908|184232111|OTHER||Difference in Percentages|9.3||||0.0655|TWO_SIDED|95.0|-0.7|19.2||P value was from the CMH test stratified by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL). Statistically significant values are shown in bold.|Cochran-Mantel-Haenszel||Differences in percentages between treatment groups and their 95% CI were calculated based on MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|||19.2|-0.7|0.0655
92171467|NCT00567398|184232125|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.001|TWO_SIDED|95.0|0.2|0.9|||ANOVA|||Month 3||0.9|0.2|<0.001
92443482|NCT03979638|184772303|SUPERIORITY||Estimated percent change|-20.3||||0.001|TWO_SIDED|95.0|-29.9|-9.5|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-9.5|-29.9|0.0010
92443483|NCT03979638|184772303|SUPERIORITY||Estimated percent change|-17.7||||0.0186|TWO_SIDED|95.0|-29.9|-3.3|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-3.3|-29.9|0.0186
92443484|NCT03979638|184772303|SUPERIORITY||Estimated percent change|-19.4||||0.032|TWO_SIDED|95.0|-33.9|-1.9|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-1.9|-33.9|0.0320
92443485|NCT03979638|184772303|SUPERIORITY||Estimated percent change|-27.0||||0.0026|TWO_SIDED|95.0|-40.3|-10.8|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-10.8|-40.3|0.0026
92443486|NCT03979638|184772304|SUPERIORITY||Estimated percent change|-28.1||||0.0005|TWO_SIDED|95.0|-39.5|-14.5|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-14.5|-39.5|0.0005
92171468|NCT00567398|184232125|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.006|TWO_SIDED|95.0|0.1|0.8|||ANOVA|||Month 6||0.8|0.1|0.006
92171469|NCT00567398|184232126|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.312|TWO_SIDED|95.0|-4.7|14.7|||ANOVA|||Insulin-Month 3||14.7|-4.7|0.312
92171470|NCT00567398|184232126|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.342|TWO_SIDED|95.0|-5.0|14.4|||ANOVA|||Insulin-Month 6||14.4|-5.0|0.342
92171471|NCT00567398|184232128|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.01|TWO_SIDED|95.0|0.1|0.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 3||0.9|0.1|0.010
92171472|NCT00567398|184232128|SUPERIORITY||Median Difference (Final Values)|0.3||||0.073|TWO_SIDED|95.0|0.0|0.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 6||0.7|0|0.073
92171473|NCT00567398|184232128|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.181|TWO_SIDED|95.0|-0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 3||0.5|-0.1|0.181
92443487|NCT03979638|184772304|SUPERIORITY||Estimated percent change|-28.4||||0.0003|TWO_SIDED|95.0|-39.7|-15.0|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-15.0|-39.7|0.0003
92443488|NCT03979638|184772304|SUPERIORITY||Estimated percent change|-29.5||||0.0014|TWO_SIDED|95.0|-42.7|-13.2|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-13.2|-42.7|0.0014
92443489|NCT03979638|184772304|SUPERIORITY||Estimated percent change|-32.4||||0.0006|TWO_SIDED|95.0|-45.3|-16.4|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-16.4|-45.3|0.0006
92171474|NCT00567398|184232128|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.593|TWO_SIDED|95.0|-0.2|0.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 6||0.4|-0.2|0.593
92443490|NCT02678676|184772330|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.3444|TWO_SIDED|95.0|0.88|1.04||No adjustment to the p-value|Regression, Cox|||Test for statistical difference between pioglitazone and placebo with respect to time of first occurrence of the primary composite outcome event.||1.04|0.88|0.3444
92443491|NCT02678676|184772331|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.83|1.16||||||Test for statistical difference between pioglitazone and placebo with respect to time of first occurrence of the primary composite outcome event.||1.16|0.83|
92443492|NCT03200899|184772332|SUPERIORITY|||||||0.926|||||||ANCOVA|||||||0.926
92443493|NCT03200899|184772333|SUPERIORITY|||||||0.75|||||||ANCOVA|||||||0.750
92443494|NCT03200899|184772334|SUPERIORITY|||||||0.129|||||||ANCOVA|||||||0.129
92443495|NCT03200899|184772335|SUPERIORITY|||||||0.152|||||||ANCOVA|||||||0.152
92443496|NCT03200899|184772336|SUPERIORITY|||||||0.037|||||||ANCOVA|||||||0.037
92443497|NCT03200899|184772337|SUPERIORITY|||||||0.297|||||||ANCOVA|||||||0.297
92443498|NCT03200899|184772338|SUPERIORITY|||||||0.293|||||||ANCOVA|||||||0.293
92443499|NCT03200899|184772339|SUPERIORITY|||||||0.045|||||||ANCOVA|||||||0.045
92443500|NCT04646499|184772342|SUPERIORITY|||||||0.34|||||||Sign test|||||||0.34
92171475|NCT00567398|184232128|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.198|TWO_SIDED|95.0|-0.2|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 3||0|-0.2|0.198
92240062|NCT00570739|184383811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.83|||<|0.0001|TWO_SIDED|95.0|-13.68|-5.98||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||-5.98|-13.68|<0.0001
92443501|NCT04646499|184772343|SUPERIORITY|||||||0.024|||||||Sign test|||||||0.024
92443502|NCT04646499|184772344|SUPERIORITY|||||||0.083|||||||Sign test|||||||0.083
92443503|NCT04646499|184772345|SUPERIORITY|||||||0.049|||||||Sign test|||||||0.049
92443504|NCT04646499|184772346|SUPERIORITY|||||||0.31|||||||Sign test|||||||0.31
92443505|NCT01538862|184772359|SUPERIORITY|||||||0.82|||||||Regression, Linear|||||||0.82
92443506|NCT01400516|184772362|SUPERIORITY||Median Difference (Final Values)|9.5||||0.28|TWO_SIDED|||||A p-value \< 0.05 is considered statistically significant.|Linear mixed model||control-teriparatide|||||0.28
92443507|NCT01412866|184772365|SUPERIORITY_OR_OTHER|||||||0.08|||||||Chi-squared|df=1||||||0.08
92443508|NCT02496533|184772392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8|||<|0.001|TWO_SIDED|||||No multiple comparisons were conducted in this analysis. P-value not adjusted for multiple comparisons. No interim analyses performed.|ANOVA|||H0: No difference in reported anxiety as self-reported change of VAS between Baseline and After Imaging time points between the Massage and No Massage groups After Imaging.||||<0.001
92443509|NCT02496533|184772393|SUPERIORITY_OR_OTHER||||||<|0.02||||||No multiple comparisons were conducted in this analysis. P-value not adjusted for multiple comparisons. No interim analyses performed.|ANOVA|||H0: No difference in reported systolic blood pressure measurements between Baseline and After Imaging time points between the Massage and No Massage groups After Imaging.||||<0.02
92443510|NCT02496533|184772393|SUPERIORITY_OR_OTHER||||||<|0.09||||||No multiple comparisons were conducted in this analysis. P-Value not adjusted for multiple comparisons. No interim analyses were performed.|ANOVA|||H0: No difference in reported diastolic blood pressure between Baseline and After Imaging time points between the Massage and No Massage groups After Imaging.||||<0.09
92443511|NCT02496533|184772394|SUPERIORITY_OR_OTHER||||||<|0.009||||||No multiple comparisons were conducted in this analysis. P-value not adjusted for multiple comparisons. No interim analyses performed.|ANOVA|||H0: No difference in reported respiration rate between Baseline and After Imaging time points between the Massage and No Massage groups After Imaging.||||<0.009
92443512|NCT02496533|184772395|SUPERIORITY_OR_OTHER||||||<|0.45||||||No multiple comparisons were conducted in this analysis. P-value not adjusted for multiple comparisons. No interim analyses performed.|ANOVA|||H0: No difference in reported pulse rate between Baseline and After Imaging time points between the Massage and No Massage groups After Imaging.||||<0.45
92443513|NCT03265249|184772418|SUPERIORITY||Median Difference (Final Values)|5.7||||0.8|TWO_SIDED|95.0|-17.5|29.0|||Mixed Models Analysis|||||29|-17.5|0.80
92443514|NCT00004888|184772438|SUPERIORITY_OR_OTHER||Overall Response Rate|0.474|||||TWO_SIDED|95.0|0.31|0.642||||||||0.642|0.31|
92443515|NCT00004888|184772438|SUPERIORITY_OR_OTHER||Overall Response Rate|0.457|||||TWO_SIDED|95.0|0.309|0.61||||||||0.61|0.309|
92443516|NCT00136084|184772443|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.624||||0.1559||95.0|0.832|3.205||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.041 so that the overall level of the study is maintained at 0.05 across the 4 interim analyses and the final analysis.|Cochran-Mantel-Haenszel|The p-value was computed using a Monte Carlo approximation (10000 permutations) to an exact, risk-group stratified, test.|The odds ratio is defined as the ratio of the odds that a LDAC patient is MRD positive to the odds that a HDAC patient is MRD positive.|The study was designed to test the null hypothesis that HDAC and LDAC result in the same proportion of patients with positive MRD after 22 days. Power calculations indicate that enrollment of a total of 186 MRD-evaluable patients in a 5-stage O'Brien-Fleming group sequential design gives 80% power at the 5% level to detect a change in the MRD-positive proportion from 0.50 to 0.30. The design was developed using East statistical software.||3.205|.832|.1559
92443517|NCT00136084|184772444|SUPERIORITY_OR_OTHER||Binomial proportion|0.733||||||95.0|0.449|0.922|||Binomial proportion|||Estimate of the proportion of negative minimal residual disease.||.922|.449|
92443518|NCT00136084|184772445|SUPERIORITY_OR_OTHER||Binomial proportion|0.931||||||95.0|0.772|0.992|||Binomial proportion|||||.992|.772|
92443519|NCT00136084|184772446|SUPERIORITY_OR_OTHER||Binomial proportion|0.9||||||95.0|0.735|0.979|||Binomial proportion|||||.979|.735|
92443520|NCT00136084|184772448|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||t-test, 2 sided|||||||0.60
92443521|NCT00136084|184772449|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.0139||||0.2287|TWO_SIDED|95.0|-0.0365|0.00873|||Regression, Logistic|||||0.00873|-0.0365|0.2287
92443522|NCT02174848|184772467|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||This comparison is for the initial study, during which patients in the placebo-DFP group received placebo and patients in the DFP-DFP group received deferiprone.||||0.0500
92238950|NCT02078713|184382165|SUPERIORITY||Odds Ratio (OR)|0.83||||0.23|TWO_SIDED|95.0|0.6|1.13||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of percentage of patients giving a top score on the 5-point Likert scale at 7 months post-enrollment.||1.13|0.60|0.23
92238951|NCT02078713|184382166|SUPERIORITY||Odds Ratio (OR)|0.91||||0.55|TWO_SIDED|95.0|0.66|1.25||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||1.25|0.66|0.55
92443523|NCT02174848|184772467|SUPERIORITY|||||||0.9781|||||||t-test, 2 sided|||This comparison is for the extension study, during which patients in both groups received deferiprone.||||0.9781
92443524|NCT02174848|184772468|SUPERIORITY|||||||0.0206|||||||paired t-test|||||||0.0206
92443525|NCT02174848|184772469|SUPERIORITY|||||||0.2684|||||||paired t-test|||||||0.2684
92443526|NCT02174848|184772470|SUPERIORITY|||||||0.0821|||||||t-test, 2 sided|||This comparison is for the initial study, during which patients in the placebo-DFP group received placebo and patients in the DFP-DFP group received deferiprone||||0.0821
92443527|NCT02174848|184772470|SUPERIORITY|||||||0.5885|||||||t-test, 2 sided|||For the placebo-DFP group, the comparison is of the scores at the start vs. the end of the extension study; for the DFP-DFP group, the comparison is of the scores at the start vs. the end of the initial study||||0.5885
92443528|NCT02174848|184772471|SUPERIORITY|||||||0.3306|||||||t-test, 2 sided|||||||0.3306
92443529|NCT00644969|184772493|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.74||||0.0457|TWO_SIDED|95.0|1.03|21.78|||Regression, Logistic|||||21.78|1.03|0.0457
92443530|NCT00644969|184772494|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.18||||0.0901|TWO_SIDED|95.0|0.75|50.71|||Regression, Logistic|||||50.71|0.75|0.0901
92443531|NCT00644969|184772495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.1524|TWO_SIDED|95.0|0.82|3.68|||Regression, Logistic|||Week 12||3.68|0.82|0.1524
92171476|NCT00567398|184232128|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.298|TWO_SIDED|95.0|-0.1|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 6||0|-0.1|0.298
92238952|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|1.22||||0.13|TWO_SIDED|95.0|0.92|1.6||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating for hormonal IUD. Patients excluded from analysis if they had not heard of hormonal IUD.||1.6|0.92|0.13
92443532|NCT00644969|184772495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.9235|TWO_SIDED|95.0|0.45|2.05|||Regression, Logistic|||Week 24||2.05|0.45|0.9235
92443533|NCT00644969|184772496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.65||||0.0077|TWO_SIDED|95.0|-6.32|-0.99|||ANCOVA||Least squares mean difference|Week 12 treatment difference||-0.99|-6.32|0.0077
92443534|NCT00644969|184772496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.9022|TWO_SIDED|95.0|-3.99|3.52|||ANCOVA||Least squares mean difference|Week 24 treatment difference||3.52|-3.99|0.9022
92443535|NCT01933048|184772535|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority||||||0.43|||||||Farrington-Manning Method|based on margin of 0.05||A/H1N1||||0.43
92443536|NCT01933048|184772535|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority||||||0.8|||||||Farrington-Manning Method|based on margin of 0.05||A/H3N2||||0.80
92443537|NCT01933048|184772535|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority||||||0.55|||||||Farrington-Manning Method|based on margin of 0.05||B/Yamagata||||0.55
92443538|NCT01933048|184772535|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority||||||0.16|||||||Farrington-Manning Method|based on margin of 0.05||B/Brisbane||||0.16
92443539|NCT01714310|184772583|SUPERIORITY|||||||0.58||||||Group: F=.31, df=1/140|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.58
92443540|NCT01714310|184772583|SUPERIORITY|||||||0.85||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=.03, df=1/140||||||.85
92443541|NCT01714310|184772583|SUPERIORITY|||||||0.26||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=1.28, df=1/140||||||.26
92443542|NCT01714310|184772584|SUPERIORITY|||||||0.97||||||Group: F=0.00, df=1/44|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline through week 12) and time2 (weeks 4-12).||||||.97
92443543|NCT01714310|184772584|SUPERIORITY||||||<|0.0002||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=136.22, df=1/44||||||<.0002
92443544|NCT01714310|184772584|SUPERIORITY||||||<|0.0001||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=64.90, df=1/44||||||<.0001
92443545|NCT01714310|184772585|SUPERIORITY||||||<|0.0001||||||Time: F=41.85, df=1/89, p\<.0001.|Mixed Models Analysis|Linear regression of outcome change over time within single group.||||||<0.0001
92443546|NCT01714310|184772586|SUPERIORITY||||||<|0.0001||||||Time: F=26.65, df=1/92, p \<.0001.|Mixed Models Analysis|Linear regression of outcome change over time within single group.||||||<0.0001
92443547|NCT01714310|184772587|SUPERIORITY||||||<|0.0001||||||Time: F=40.35, df=1/89, p \< .0001.|Mixed Models Analysis|Linear regression of outcome change over time within single group.||||||<0.0001
92443548|NCT01714310|184772588|SUPERIORITY||||||<|0.0001||||||Time: F=26.36, df=1/29, p \<.0001.|Mixed Models Analysis|Linear regression of outcome change over time within single group.||||||<0.0001
92443549|NCT01714310|184772589|SUPERIORITY|||||||0.44||||||Group: F=.60, df=1/157|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.44
92443550|NCT01714310|184772589|SUPERIORITY||||||<|0.0001||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=22.39, df=1/157||||||<.0001
92443551|NCT01714310|184772589|SUPERIORITY|||||||0.04||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=4.40, df=1/157||||||.04
92443552|NCT01714310|184772590|SUPERIORITY|||||||0.05||||||Group: F=3.81, df=1/145|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|||No significant group\*time interactions. Group trend likely due to baseline differences.|||.05
92443553|NCT01714310|184772590|SUPERIORITY|||||||0.0001||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Tie: F=15.28, df=1/145||||||.0001
92443554|NCT01714310|184772590|SUPERIORITY|||||||0.02||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=5.42, df=1/145||||||.02
92443555|NCT01714310|184772591|SUPERIORITY|||||||0.76|||||||Chi-squared|Chi Square = .10, df=1, p=.76||||||.76
92443556|NCT01714310|184772592|SUPERIORITY|||||||0.38||||||Group: F=.78, df=1/220|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline through week 12) and time2 (weeks 4-12).||||||.38
92443557|NCT01714310|184772592|SUPERIORITY|||||||0.42||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=.66, df=1/220||||||.42
92443558|NCT01714310|184772592|SUPERIORITY|||||||0.13||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=.66, df=1/220||||||.13
92443559|NCT01714310|184772593|SUPERIORITY|||||||0.21||||||Group: F=1.56, df=1/222|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.21
92443560|NCT01714310|184772593|SUPERIORITY||||||<|0.0001||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=63.11, df=1/222||||||<.0001
92443561|NCT01714310|184772593|SUPERIORITY|||||||0.0004||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=12.86, df=1/222||||||.0004
92240063|NCT00570739|184383811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.67||||0.0004|TWO_SIDED|95.0|-13.4|-3.94||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||-3.94|-13.40|0.0004
92443562|NCT01714310|184772594|SUPERIORITY|||||||0.02||||||Group: F=5.42, df=1/223|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.02
92443563|NCT01714310|184772594|SUPERIORITY|||||||0.18||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=1.77, df=1/223||||||.18
92443564|NCT01714310|184772594|SUPERIORITY|||||||0.49||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=.47, df=1/223||||||.49
92443565|NCT01714310|184772595|SUPERIORITY|||||||0.9||||||Group: F=.02, df=1/223|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.90
92443566|NCT01714310|184772595|SUPERIORITY|||||||0.21||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=1.60, df=1/223||||||.21
92443567|NCT01714310|184772595|SUPERIORITY|||||||0.73||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=.12, df=1/223||||||.73
92443568|NCT01714310|184772596|SUPERIORITY|||||||0.15||||||Group: F=2.05, df=1/223|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.15
92443569|NCT01714310|184772596|SUPERIORITY|||||||0.59||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=.29, df=1/223||||||.59
92443570|NCT01714310|184772596|SUPERIORITY|||||||0.14||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=2.15, df=1/223||||||.14
92443571|NCT00218296|184772666|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.04|TWO_SIDED|95.0|0.26|0.99|||Chi-squared|There were no adjustments in the analysis.|The reference group for the odds ratio estimate is the usual care condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||0.99|0.26|0.04
92443572|NCT00218296|184772667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.28||||0.019|TWO_SIDED|95.0|0.07|0.83|||Chi-squared|There were no adjustments in the analysis.|The reference group for the odds ratio estimate is the Usual Care condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||0.83|0.07|0.019
92443573|NCT00218296|184772668|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.03|TWO_SIDED|95.0|0.18|0.94|||Chi-squared|There were no adjustments in the analysis.|The reference group for the odds ratio estimate is the usual care condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||0.94|0.18|0.03
92238953|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|0.99||||0.92|TWO_SIDED|95.0|0.75|1.3||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on non-hormonal IUD. Patients were excluded from this analysis if they reported not having heard of the non-hormonal IUD in the post-visit survey.||1.3|0.75|0.92
92280158|NCT02978326|184463233|SUPERIORITY||Odds Ratio (OR)|2.63||||0.0049|TWO_SIDED|95.0|1.34|5.16||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Response at Day 15||5.16|1.34|0.0049
92443574|NCT00218296|184772669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.09||||0.002|TWO_SIDED|95.0|0.004|0.48|||Chi-squared|There were no adjustments in the analysis.|The reference group for the odds ratio estimate is the Usual Care Condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||0.48|0.004|.002
92443575|NCT00218296|184772670|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.056|TWO_SIDED|95.0|0.2|1.03|||Chi-squared|There were no adjustments in the analysis.|The reference group for the odds ratio estimate is the Usual Care Condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||1.03|0.20|0.056
92443576|NCT00218296|184772671|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.09||||0.002|TWO_SIDED|95.0|0.004|0.48||There were no adjustments in the analysis.|Chi-squared||The reference group for the odds ratio estimate is the Usual Care Condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||0.48|0.004|0.002
92443577|NCT02623803|184772672|SUPERIORITY|||||||0.1459|||||||Wilcoxon (Mann-Whitney)|||||||0.1459
92443578|NCT02623803|184772673|SUPERIORITY|||||||0.205|||||||Wilcoxon (Mann-Whitney)|||||||0.2050
92443579|NCT02623803|184772674|SUPERIORITY|||||||0.3989|||||||Wilcoxon (Mann-Whitney)|||||||0.3989
92443580|NCT02623803|184772675|SUPERIORITY|||||||0.5285|||||||Wilcoxon (Mann-Whitney)|||||||0.5285
92443581|NCT02623803|184772676|SUPERIORITY|||||||0.0697|||||||Wilcoxon (Mann-Whitney)|||||||0.0697
92443582|NCT02623803|184772677|SUPERIORITY|||||||0.1029|||||||Wilcoxon (Mann-Whitney)|||||||0.1029
92238954|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|0.85||||0.17|TWO_SIDED|95.0|0.67|1.07||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating of implant||1.07|0.67|0.17
92443583|NCT02623803|184772678|SUPERIORITY|||||||0.3136|||||||Wilcoxon (Mann-Whitney)|||||||0.3136
92443584|NCT02623803|184772679|SUPERIORITY|||||||0.2196|||||||Wilcoxon (Mann-Whitney)|||||||0.2196
92443585|NCT02623803|184772680|SUPERIORITY|||||||0.3057|||||||Wilcoxon (Mann-Whitney)|||||||0.3057
92443586|NCT02623803|184772681|SUPERIORITY|||||||0.0404|||||||Wilcoxon (Mann-Whitney)|||||||0.0404
92443587|NCT02623803|184772682|SUPERIORITY|||||||0.5314|||||||Wilcoxon (Mann-Whitney)|||||||0.5314
92443588|NCT02623803|184772683|SUPERIORITY|||||||0.3166|||||||Wilcoxon (Mann-Whitney)|||||||0.3166
92443589|NCT02623803|184772684|SUPERIORITY|||||||0.2363|||||||Wilcoxon (Mann-Whitney)|||||||0.2363
92443590|NCT02623803|184772685|SUPERIORITY|||||||0.9171|||||||Wilcoxon (Mann-Whitney)|||||||0.9171
92443591|NCT02623803|184772686|SUPERIORITY|||||||0.4194|||||||Wilcoxon (Mann-Whitney)|||||||0.4194
92443592|NCT02623803|184772687|SUPERIORITY|||||||0.7073|||||||Wilcoxon (Mann-Whitney)|||||||0.7073
92443593|NCT02623803|184772688|SUPERIORITY|||||||0.5107|||||||Wilcoxon (Mann-Whitney)|||||||0.5107
92443594|NCT02623803|184772689|SUPERIORITY|||||||0.8339|||||||Wilcoxon (Mann-Whitney)|||||||0.8339
92443595|NCT02623803|184772690|SUPERIORITY|||||||0.8927|||||||Wilcoxon (Mann-Whitney)|||||||0.8927
92443596|NCT04452331|184772693|SUPERIORITY|||||||0.06|||||||Regression, Linear|Adjusted for clinical site||Diastolic BP||||0.06
92443597|NCT04452331|184772693|SUPERIORITY|||||||0.9|||||||Regression, Linear|||Systolic BP||||0.90
92443598|NCT04452331|184772695|SUPERIORITY|||||||0.29|||||||Regression, Linear|||||||.29
92443599|NCT04452331|184772696|SUPERIORITY|||||||0.1|||||||Regression, Logistic|||||||.10
92443600|NCT04452331|184772697|SUPERIORITY|||||||0.44|||||||Regression, Linear|||||||0.44
92443601|NCT04452331|184772698|SUPERIORITY|||||||0.01|||||||Regression, Linear|||||||0.01
92443602|NCT04452331|184772699|SUPERIORITY|||||||0.01|||||||Regression, Logistic|||||||0.01
92443603|NCT04452331|184772700|SUPERIORITY|||||||0.54|||||||Regression, negative binomial|||||||0.54
92443604|NCT04452331|184772701|SUPERIORITY|||||||0.74|||||||Regression, negative binomial|||||||0.74
92443605|NCT04452331|184772702|SUPERIORITY|||||||0.03|||||||Regression, Linear|||||||0.03
92443606|NCT04452331|184772702|SUPERIORITY|||||||0.06|||||||Regression, Linear|||||||0.06
92443607|NCT04452331|184772703|SUPERIORITY||||||<|0.001|||||||Regression, negative binomial|||||||<0.001
92443608|NCT04452331|184772703|SUPERIORITY|||||||0.03|||||||Regression, negative binomial|||||||0.03
92443609|NCT04452331|184772704|SUPERIORITY||||||<|0.001|||||||Regression, poisson|||||||<0.001
92443610|NCT04452331|184772704|SUPERIORITY|||||||0.08|||||||Regression, poisson|||||||0.08
92238955|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|0.71||||0.009|TWO_SIDED|95.0|0.54|0.92||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on condoms. Patients were excluded from this analysis if they reported not having heard of condoms in the post-visit survey.||0.92|0.54|0.009
92443611|NCT04452331|184772705|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Mixed effects logistic regression including random effect of visit, to incorporate clustering of prescriptions within visits.||||||<.001
92443612|NCT04452331|184772705|SUPERIORITY|||||||0.98|||||||Mixed Models Analysis|Mixed effects logistic regression including random effect of visit, to incorporate clustering of prescriptions within visits.||||||0.98
92443613|NCT04452331|184772706|SUPERIORITY|||||||0.2|||||||Regression, Linear|||Systolic BP||||0.20
92443614|NCT04452331|184772706|SUPERIORITY|||||||0.82|||||||Regression, Linear|||Systolic BP||||0.82
92443615|NCT04452331|184772706|SUPERIORITY|||||||0.12|||||||Regression, Linear|||Diastolic BP||||0.12
92443616|NCT04452331|184772706|SUPERIORITY|||||||0.1|||||||Regression, Linear|||Diastolic BP||||0.10
92443617|NCT01420289|184772707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.0|STANDARD_ERROR_OF_MEAN|15.0||0.086|TWO_SIDED|95.0|10.0|80.0|||t-test, 2 sided|||||80|10|0.086
92443618|NCT01420289|184772708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.0|STANDARD_ERROR_OF_MEAN|11.0|<|0.05|TWO_SIDED|95.0|10.0|100.0|||t-test, 2 sided|||||100|10|<0.05
92443619|NCT04064294|184772714|SUPERIORITY|||||||0.63||||||the threshold for statistical significance was p = 0.05|ANOVA|degrees of freedom = 78||||||0.63
92443620|NCT04064294|184772715|SUPERIORITY|||||||0.09||||||the threshold for statistical significance was p = 0.05|ANOVA|degrees of freedom = 78||||||0.09
92443621|NCT04064294|184772716|SUPERIORITY|||||||0.011|||||||Chi-squared|threshold for significance is 0.05, degrees of freedom = 2||||||0.011
92443622|NCT04064294|184772717|SUPERIORITY|||||||0.033|||||||ANOVA|degrees of freedom = 75||||||0.033
92443623|NCT01289847|184772719|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||one-sample Poisson rate|||For the primary efficacy analysis, the SABI rate for GAMMAPLEX and the upper bound of its one-sided 99% confidence interval (CI) were estimated by using the exact method for a one-sample Poisson rate.||||0.01
92443624|NCT01289847|184772720|SUPERIORITY_OR_OTHER|||||||0.01|ONE_SIDED|99.0|||||one-sample Poisson method|||||||0.01
92443625|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.74||||0|TWO_SIDED|95.0|0.68|0.82|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Non-smoker)||0.82|0.68|0.000
92443626|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.32||||0|TWO_SIDED|95.0|1.14|1.52|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Ex-smoker)||1.52|1.14|0.000
92443627|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.04||||0|TWO_SIDED|95.0|0.93|1.17|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Smoker)||1.17|0.93|0.000
92443628|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.95||||0.755|TWO_SIDED|95.0|0.8|1.13|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Non-smoker)||1.13|0.80|0.755
92443629|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.32||||0.426|TWO_SIDED|95.0|0.95|1.83|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Ex-smoker)||1.83|0.95|0.426
92443630|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.93||||0.93|TWO_SIDED|95.0|0.77|1.12|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Smoker)||1.12|0.77|0.930
92443631|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.78||||0|TWO_SIDED|95.0|0.72|0.84|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Non-smoker)||0.84|0.72|0.000
92443632|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.25||||0|TWO_SIDED|95.0|1.1|1.42|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Ex-smoker)||1.42|1.10|0.000
92443633|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.08||||0|TWO_SIDED|95.0|0.98|1.19|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Smoker)||1.19|0.98|0.000
92443634|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.98||||0.755|TWO_SIDED|95.0|0.84|1.14|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Non-smoker)||1.14|0.84|0.755
92443635|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.13||||0.426|TWO_SIDED|95.0|0.84|1.52|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Ex-smoker)||1.52|0.84|0.426
92443636|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.98||||0.93|TWO_SIDED|95.0|0.81|1.12|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Smoker)||1.12|0.81|0.930
92443637|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.79||||0|TWO_SIDED|95.0|0.74|0.84|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Non-smoker)||0.84|0.74|0.000
92443638|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.19||||0|TWO_SIDED|95.0|1.08|1.32|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Ex-smoker)||1.32|1.08|0.000
92443639|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.16||||0|TWO_SIDED|95.0|1.08|1.26|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Smoker)||1.26|1.08|0.000
92443640|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.82||||0.755|TWO_SIDED|95.0|0.6|1.13|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Non-smoker)||1.13|0.60|0.755
92443641|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.48||||0.426|TWO_SIDED|95.0|0.82|2.52|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Ex-smoker)||2.52|0.82|0.426
92443642|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.0||||0.93|TWO_SIDED|95.0|0.7|1.4|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Smoker)||1.40|0.70|0.930
92443643|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.54||||0|TWO_SIDED|95.0|0.49|0.6|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Non-smoker)||0.60|0.49|0.000
92443644|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.51||||0|TWO_SIDED|95.0|1.29|1.76|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Ex-smoker)||1.76|1.29|0.000
92443645|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.72||||0|TWO_SIDED|95.0|1.54|1.93|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Smoker)||1.93|1.54|0.000
92443646|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.91||||0.755|TWO_SIDED|95.0|0.72|1.17|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Non-smoker)||1.17|0.72|0.755
92240064|NCT00570739|184383811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.09||||0.0004|TWO_SIDED|95.0|-12.5|-3.68||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||-3.68|-12.50|0.0004
92443647|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|1.25||||0.426|TWO_SIDED|95.0|0.78|1.95|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Ex-smoker)||1.95|0.78|0.426
92443648|NCT03441633|184772725|SUPERIORITY||Odds Ratio (OR)|0.92||||0.93|TWO_SIDED|95.0|0.7|1.2|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Smoker)||1.20|0.70|0.930
92443649|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|0.99||||0|TWO_SIDED|95.0|0.9|1.09|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (No intake)||1.09|0.90|0.000
92443650|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.11||||0|TWO_SIDED|95.0|0.98|1.25|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Moderate intake)||1.25|0.98|0.000
92443651|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.52||||0.164|TWO_SIDED|95.0|0.94|2.45|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Risk consumption)||2.45|0.94|0.164
92443652|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.03||||0.826|TWO_SIDED|95.0|0.87|1.22|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (No intake)||1.22|0.87|0.826
92443653|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.16||||0.19|TWO_SIDED|95.0|0.94|1.43|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Moderate intake)||1.43|0.94|0.190
92443654|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|0.58||||0.526|TWO_SIDED|95.0|0.18|1.57|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Risk consumption)||1.57|0.18|0.526
92443655|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|0.84||||0|TWO_SIDED|95.0|0.77|0.91|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (No intake)||0.91|0.77|0.000
92443656|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.12||||0|TWO_SIDED|95.0|1.01|1.24|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Moderate intake)||1.24|1.01|0.000
92443657|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.17||||0.164|TWO_SIDED|95.0|0.76|1.83|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Risk consumption)||1.83|0.76|0.164
92443658|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.09||||0.826|TWO_SIDED|95.0|0.95|1.26|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (No intake)||1.26|0.95|0.826
92443659|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|0.93||||0.19|TWO_SIDED|95.0|0.77|1.13|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Moderate intake)||1.13|0.77|0.190
92443660|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.26||||0.526|TWO_SIDED|95.0|0.62|2.65|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Risk consumption)||2.65|0.62|0.526
92443661|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.36||||0|TWO_SIDED|95.0|1.28|1.45|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (No intake)||1.45|1.28|0.000
92443662|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.24||||0|TWO_SIDED|95.0|1.14|1.35|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Moderate intake)||1.35|1.14|0.000
92443663|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.36||||0.164|TWO_SIDED|95.0|0.98|1.95|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Risk consumption)||1.95|0.98|0.164
92443664|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.04||||0.826|TWO_SIDED|95.0|0.76|1.41|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (No intake)||1.41|0.76|0.826
92443665|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.22||||0.19|TWO_SIDED|95.0|0.82|1.76|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Moderate intake)||1.76|0.82|0.190
92443666|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.21||||0.526|TWO_SIDED|95.0|0.17|4.5|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Risk consumption)||4.50|0.17|0.526
92443667|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.28||||0|TWO_SIDED|95.0|1.16|1.42|||Chi-squared|||Warfarin vs. Apixaban in naive participants (No intake)||1.42|1.16|0.000
92443668|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.25||||0|TWO_SIDED|95.0|1.1|1.43|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Moderate intake)||1.43|1.10|0.000
92443669|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|0.92||||0.164|TWO_SIDED|95.0|0.49|1.64|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Risk consumption)||1.64|0.49|0.164
92443670|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|1.06||||0.826|TWO_SIDED|95.0|0.84|1.34|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (No intake)||1.34|0.84|0.826
92443671|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|0.91||||0.19|TWO_SIDED|95.0|0.66|1.23|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Moderate intake)||1.23|0.66|0.190
92443672|NCT03441633|184772726|SUPERIORITY||Odds Ratio (OR)|0.64||||0.526|TWO_SIDED|95.0|0.09|2.36|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Risk consumption)||2.36|0.09|0.526
92443673|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.36||||0|TWO_SIDED|95.0|1.2|1.53|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Quintile 1 - Urban area)||1.53|1.20|0.000
92443674|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.01||||0.014|TWO_SIDED|95.0|0.89|1.15|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Quintile 2 - Urban area)||1.15|0.89|0.014
92443675|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.87||||0|TWO_SIDED|95.0|0.77|0.99|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Quintile 3 - Urban area)||0.99|0.77|0.000
92443676|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.86||||0|TWO_SIDED|95.0|0.75|0.97|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Quintile 4 - Urban area)||0.97|0.75|0.000
92443677|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.85||||0.013|TWO_SIDED|95.0|0.74|0.97|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Quintile 5 - Urban area)||0.97|0.74|0.013
92443678|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.05||||0.157|TWO_SIDED|95.0|0.84|1.31|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Quintile 1 - Urban area)||1.31|0.84|0.157
92443679|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.03||||0.124|TWO_SIDED|95.0|0.82|1.29|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Quintile 2 - Urban area)||1.29|0.82|0.124
92443680|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.77||||0.062|TWO_SIDED|95.0|0.61|0.96|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Quintile 3 - Urban area)||0.96|0.61|0.062
92443681|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.98||||0.079|TWO_SIDED|95.0|0.78|1.22|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Quintile 4 - Urban area)||1.22|0.78|0.079
92443682|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.09||||0.14|TWO_SIDED|95.0|0.86|1.38|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Quintile 5 - Urban area)||1.38|0.86|0.140
92443683|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.31||||0|TWO_SIDED|95.0|1.17|1.45|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Quintile 1 - Urban area)||1.45|1.17|0.000
92443684|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.97||||0.014|TWO_SIDED|95.0|0.87|1.09|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Quintile 2 - Urban area)||1.09|0.87|0.014
92443685|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.01||||0|TWO_SIDED|95.0|0.91|1.12|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Quintile 3 - Urban area)||1.12|0.91|0.000
92443686|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.94||||0|TWO_SIDED|95.0|0.85|1.05|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Quintile 4 - Urban area)||1.05|0.85|0.000
92443687|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.83||||0.013|TWO_SIDED|95.0|0.74|0.93|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Quintile 5 - Urban area)||0.93|0.74|0.013
92443688|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.92||||0.157|TWO_SIDED|95.0|0.76|1.13|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Quintile 1 - Urban area)||1.13|0.76|0.157
92443689|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.98||||0.124|TWO_SIDED|95.0|0.81|1.2|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Quintile 2 - Urban area)||1.20|0.81|0.124
92443690|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.79||||0.062|TWO_SIDED|95.0|0.65|0.96|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Quintile 3 - Urban area)||0.96|0.65|0.062
92443691|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.23||||0.079|TWO_SIDED|95.0|1.02|1.48|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Quintile 4 - Urban area)||1.48|1.02|0.079
92443692|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.21||||0.14|TWO_SIDED|95.0|0.99|1.49|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Quintile 5 - Urban area)||1.49|0.99|0.140
92443693|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.96||||0|TWO_SIDED|95.0|0.88|1.05|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Quintile 1 - Urban area)||1.05|0.88|0.000
92240065|NCT00570739|184383812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.8||||0.0007|TWO_SIDED|95.0|5.87|21.74||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||21.74|5.87|0.0007
92443694|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.91||||0.014|TWO_SIDED|95.0|0.84|0.99|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Quintile 2 - Urban area)||0.99|0.84|0.014
92443695|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.83||||0|TWO_SIDED|95.0|0.76|0.9|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Quintile 3 - Urban area)||0.90|0.76|0.000
92443696|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.84||||0|TWO_SIDED|95.0|0.77|0.91|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Quintile 4 - Urban area)||0.91|0.77|0.000
92443697|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.92||||0.013|TWO_SIDED|95.0|0.85|1.0|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Quintile 5 - Urban area)||1.00|0.85|0.013
92171477|NCT00567398|184232128|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.001|TWO_SIDED|95.0|0.2|0.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 3||0.6|0.2|<0.001
92240066|NCT00570739|184383812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.58||||0.0901|TWO_SIDED|95.0|-1.83|24.99||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||24.99|-1.83|0.0901
92443698|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.03||||0.157|TWO_SIDED|95.0|0.68|1.54|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Quintile 1 - Urban area)||1.54|0.68|0.157
92171478|NCT00567398|184232128|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.003|TWO_SIDED|95.0|0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 6||0.5|0.1|0.003
92238956|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|0.86||||0.26|TWO_SIDED|95.0|0.65|1.12||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on the shot (Depo Provera). Patients were excluded from this analysis if they reported not having heard of the the shot (Depo Provera) in the post-visit survey.||1.12|0.65|0.26
92443699|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.84||||0.124|TWO_SIDED|95.0|0.53|1.29|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Quintile 2 - Urban area)||1.29|0.53|0.124
92443700|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.75||||0.062|TWO_SIDED|95.0|0.48|1.13|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Quintile 3 - Urban area)||1.13|0.48|0.062
92443701|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.88||||0.079|TWO_SIDED|95.0|0.57|1.33|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Quintile 4 - Urban area)||1.33|0.57|0.079
92443702|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.05||||0.14|TWO_SIDED|95.0|0.67|1.59|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Quintile 5 - Urban area)||1.59|0.67|0.140
92443703|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.39||||0|TWO_SIDED|95.0|0.32|0.47|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Quintile 1 - Urban area)||0.47|0.32|0.000
92443704|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.84||||0.014|TWO_SIDED|95.0|0.73|0.97|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Quintile 2 - Urban area)||0.97|0.73|0.014
92443705|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.7||||0|TWO_SIDED|95.0|1.51|1.91|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Quintile 3 - Urban area)||1.91|1.51|0.000
92443706|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.86||||0|TWO_SIDED|95.0|1.65|2.1|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Quintile 4 - Urban area)||2.10|1.65|0.000
92443707|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.94||||0.013|TWO_SIDED|95.0|0.82|1.08|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Quintile 5 - Urban area)||1.08|0.82|0.013
92443708|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.35||||0.157|TWO_SIDED|95.0|1.0|1.8|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Quintile 1 - Urban area)||1.80|1.00|0.157
92171479|NCT00567398|184232128|SUPERIORITY||Mean Difference (Final Values)|0.8|||<|0.001|TWO_SIDED|95.0|0.4|1.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 3||1.3|0.4|<0.001
92443709|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|1.41||||0.124|TWO_SIDED|95.0|1.04|1.88|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Quintile 2 - Urban area)||1.88|1.04|0.124
92443710|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.76||||0.062|TWO_SIDED|95.0|0.55|1.05|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Quintile 3 - Urban area)||1.05|0.55|0.062
92443711|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.92||||0.079|TWO_SIDED|95.0|0.67|1.26|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Quintile 4 - Urban area)||1.26|0.67|0.079
92443712|NCT03441633|184772727|SUPERIORITY||Odds Ratio (OR)|0.81||||0.14|TWO_SIDED|95.0|0.56|1.15|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Quintile 5 - Urban area)||1.15|0.56|0.140
92443713|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.07||||0|TWO_SIDED|95.0|0.91|1.25|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (18.5 - 25 kg per m\^2 Normal)||1.25|0.91|0.000
92443714|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.38||||0.202|TWO_SIDED|95.0|0.58|3.23|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (\<18.5 kg per m\^2 Underweight)||3.23|0.58|0.202
92443715|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.98||||0|TWO_SIDED|95.0|0.88|1.09|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (25 - 30 kg per m\^2 Overweight)||1.09|0.88|0.000
92443716|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.84||||0.003|TWO_SIDED|95.0|0.76|0.93|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (\>30 kg per m\^2 Obese)||0.93|0.76|0.003
92443717|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.82||||0.083|TWO_SIDED|95.0|0.66|1.03|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (18.5 - 25 kg per m\^2 Normal)||1.03|0.66|0.083
92443718|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.99||||0.011|TWO_SIDED|95.0|0.68|6.18|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (\<18.5 kg per m\^2 Underweight)||6.18|0.68|0.011
92443719|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.89||||0.227|TWO_SIDED|95.0|0.75|1.06|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (25 - 30 kg per m\^2 Overweight)||1.06|0.75|0.227
92443720|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.23||||0|TWO_SIDED|95.0|1.03|1.47|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (\>30 kg per m\^2 Obese)||1.47|1.03|0.000
92443721|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.01||||0|TWO_SIDED|95.0|0.88|1.16|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (18.5 - 25 kg per m\^2 Normal)||1.16|0.88|0.000
92443722|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.22||||0.202|TWO_SIDED|95.0|0.58|2.66|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (\<18.5 kg per m\^2 Underweight)||2.66|0.58|0.202
92443723|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.95||||0|TWO_SIDED|95.0|0.87|1.04|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (25 - 30 kg per m\^2 Overweight)||1.04|0.87|0.000
92443724|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.87||||0.003|TWO_SIDED|95.0|0.8|0.95|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (\>30 kg per m\^2 Obese)||0.95|0.80|0.003
92443725|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.97||||0.083|TWO_SIDED|95.0|0.8|1.17|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (18.5 - 25 kg per m\^2 Normal)||1.17|0.80|0.083
92443726|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.06||||0.011|TWO_SIDED|95.0|0.02|1.05|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (\<18.5 kg per m\^2 Underweight)||1.05|0.02|0.011
92443727|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.84||||0.227|TWO_SIDED|95.0|0.72|0.98|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (25 - 30 kg per m\^2 Overweight)||0.98|0.72|0.227
92443728|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.16||||0|TWO_SIDED|95.0|0.99|1.35|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (\>30 kg per m\^2 Obese)||1.35|0.99|0.000
92443729|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.63||||0|TWO_SIDED|95.0|1.47|1.82|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (18.5 - 25 kg per m\^2 Normal)||1.82|1.47|0.000
92443730|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.7||||0.202|TWO_SIDED|95.0|0.98|3.25|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (\<18.5 kg per m\^2 Underweight)||3.25|0.98|0.202
92443731|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.29||||0|TWO_SIDED|95.0|1.2|1.38|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (25 - 30 kg per m\^2 Overweight)||1.38|1.20|0.000
92443732|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.94||||0.003|TWO_SIDED|95.0|0.88|1.0|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (\>30 kg per m\^2 Obese)||1.00|0.88|0.003
92443733|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.86||||0.083|TWO_SIDED|95.0|0.56|1.28|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (18.5 - 25 kg per m\^2 Normal)||1.28|0.56|0.083
92443734|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.49||||0.011|TWO_SIDED|95.0|0.13|8.58|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (\<18.5 kg per m\^2 Underweight)||8.58|0.13|0.011
92443735|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.04||||0.227|TWO_SIDED|95.0|0.75|1.42|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (25 - 30 kg per m\^2 Overweight)||1.42|0.75|0.227
92443736|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.12||||0|TWO_SIDED|95.0|0.81|1.55|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (\>30 kg per m\^2 Obese)||1.55|0.81|0.000
92443737|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.5||||0|TWO_SIDED|95.0|1.28|1.76|||Chi-squared|||Warfarin vs. Apixaban in naive participants (18.5 - 25 kg per m\^2 Normal)||1.76|1.28|0.000
92443738|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.04||||0.202|TWO_SIDED|95.0|0.36|2.73|||Chi-squared|||Warfarin vs. Apixaban in naive participants (\<18.5 kg per m\^2 Underweight)||2.73|0.36|0.202
92443739|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.28||||0|TWO_SIDED|95.0|1.15|1.43|||Chi-squared|||Warfarin vs. Apixaban in naive participants (25 - 30 kg per m\^2 Overweight)||1.43|1.15|0.000
92443740|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.95||||0.003|TWO_SIDED|95.0|0.86|1.06|||Chi-squared|||Warfarin vs. Apixaban in naive participants (\>30 kg per m\^2 Obese)||1.06|0.86|0.003
92443741|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.27||||0.083|TWO_SIDED|95.0|0.95|1.68|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (18.5 - 25 kg per m\^2 Normal)||1.68|0.95|0.083
92443742|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|1.37||||0.011|TWO_SIDED|95.0|0.18|6.21|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (\<18.5 kg per m\^2 Underweight)||6.21|0.18|0.011
92443743|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.92||||0.227|TWO_SIDED|95.0|0.72|1.17|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (25 - 30 kg per m\^2 Overweight)||1.17|0.72|0.227
92443744|NCT03441633|184772728|SUPERIORITY||Odds Ratio (OR)|0.67||||0|TWO_SIDED|95.0|0.5|0.87|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (\>30 kg per m\^2 Obese)||0.87|0.50|0.000
92443745|NCT03441633|184772729|SUPERIORITY||Odds Ratio (OR)|0.68||||0|TWO_SIDED|95.0|0.61|0.75|||Chi-squared|||Dabigatran vs. Apixaban in naive participants||0.75|0.61|0.000
92443746|NCT03441633|184772729|SUPERIORITY||Odds Ratio (OR)|0.85||||0.052|TWO_SIDED|95.0|0.63|1.15|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants||1.15|0.63|0.052
92443747|NCT03441633|184772729|SUPERIORITY||Odds Ratio (OR)|0.73||||0|TWO_SIDED|95.0|0.67|0.8|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants||0.80|0.67|0.000
92443748|NCT03441633|184772729|SUPERIORITY||Odds Ratio (OR)|0.79||||0.052|TWO_SIDED|95.0|0.61|1.03|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants||1.03|0.61|0.052
92443749|NCT03441633|184772729|SUPERIORITY||Odds Ratio (OR)|1.26||||0|TWO_SIDED|95.0|1.17|1.36|||Chi-squared|||Acenocumarol vs. Apixaban in naive participants||1.36|1.17|0.000
92443750|NCT03441633|184772729|SUPERIORITY||Odds Ratio (OR)|0.74||||0.052|TWO_SIDED|95.0|0.45|1.27|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants||1.27|0.45|0.052
92443751|NCT03441633|184772729|SUPERIORITY||Odds Ratio (OR)|1.07||||0|TWO_SIDED|95.0|0.95|1.21|||Chi-squared|||Warfarin vs. Apixaban in naive participants||1.21|0.95|0.000
92443752|NCT03441633|184772729|SUPERIORITY||Odds Ratio (OR)|0.57||||0.052|TWO_SIDED|95.0|0.4|0.84|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants||0.84|0.40|0.052
92443753|NCT03441633|184772730|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0|TWO_SIDED|95.0|-0.26|-0.17|||ANOVA|||Dabigatran vs. Apixaban in naive participants (HAS - BLED)||-0.17|-0.26|0.000
92443754|NCT03441633|184772730|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.001|TWO_SIDED|95.0|-0.18|-0.01|||ANOVA|||Dabigatran vs. Apixaban in non-naive participants (HAS - BLED)||-0.01|-0.18|0.001
92443755|NCT03441633|184772730|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0|TWO_SIDED|95.0|-0.23|-0.15|||ANOVA|||Rivaroxaban vs. Apixaban in naive participants (HAS - BLED)||-0.15|-0.23|0.000
92443756|NCT03441633|184772730|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.001|TWO_SIDED|95.0|-0.19|-0.04|||ANOVA|||Rivaroxaban vs. Apixaban in non-naive participants (HAS - BLED)||-0.04|-0.19|0.001
92443757|NCT03441633|184772730|SUPERIORITY||Mean Difference (Final Values)|0.5||||0|TWO_SIDED|95.0|0.47|0.53|||ANOVA|||Acenocumarol vs. Apixaban in naive participants (HAS - BLED)||0.53|0.47|0.000
92443758|NCT03441633|184772730|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.001|TWO_SIDED|95.0|-0.32|-0.02|||ANOVA|||Acenocumarol vs. Apixaban in non-naive participants (HAS - BLED)||-0.02|-0.32|0.001
92443759|NCT03441633|184772730|SUPERIORITY||Mean Difference (Final Values)|0.17||||0|TWO_SIDED|95.0|0.12|0.23|||ANOVA|||Warfarin vs. Apixaban in naive participants (HAS - BLED)||0.23|0.12|0.000
92443760|NCT03441633|184772730|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.001|TWO_SIDED|95.0|-0.37|-0.1|||ANOVA|||Warfarin vs. Apixaban in non-naive participants (HAS - BLED)||-0.10|-0.37|0.001
92443761|NCT03441633|184772731|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0|TWO_SIDED|95.0|-0.24|-0.12|||ANOVA|||Dabigatran vs. Apixaban in naive participants (CHADS2)||-0.12|-0.24|0.000
92443762|NCT03441633|184772731|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0|TWO_SIDED|95.0|-0.35|-0.12|||ANOVA|||Dabigatran vs. Apixaban in non-naive participants (CHADS2)||-0.12|-0.35|0.000
92443763|NCT03441633|184772731|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0|TWO_SIDED|95.0|-0.28|-0.18|||ANOVA|||Rivaroxaban vs. Apixaban in naive participants (CHADS2)||-0.18|-0.28|0.000
92171480|NCT00567398|184232128|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.002|TWO_SIDED|95.0|0.3|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 6||1.1|0.3|0.002
92171481|NCT00567398|184232129|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.485|TWO_SIDED|95.0|-8.6|4.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 3||4.1|-8.6|0.485
92171482|NCT00567398|184232129|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.556|TWO_SIDED|95.0|-8.2|4.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 6||4.4|-8.2|0.556
92171483|NCT00567398|184232129|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.101|TWO_SIDED|95.0|-1.1|12.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 3||12.2|-1.1|0.101
92171484|NCT00567398|184232129|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.134|TWO_SIDED|95.0|-1.5|11.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 6||11.5|-1.5|0.134
92171485|NCT00567398|184232129|SUPERIORITY||Mean Difference (Final Values)|11.4||||0.004|TWO_SIDED|95.0|3.6|19.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 3||19.2|3.6|0.004
92171486|NCT00567398|184232129|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.03|TWO_SIDED|95.0|0.8|15.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 6||15.9|0.8|0.030
92171487|NCT00567398|184232130|SUPERIORITY||Mean Difference (Final Values)|-56.5||||0.655|TWO_SIDED|95.0|-304.6|191.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 3||191.7|-304.6|0.655
92171488|NCT00567398|184232130|SUPERIORITY||Mean Difference (Final Values)|-29.2||||0.811|TWO_SIDED|95.0|-268.9|210.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 6||210.5|-268.9|0.811
92443764|NCT03441633|184772731|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0|TWO_SIDED|95.0|-0.31|-0.11|||ANOVA|||Rivaroxaban vs. Apixaban in non-naive participants (CHADS2)||-0.11|-0.31|0.000
92443765|NCT03441633|184772731|SUPERIORITY||Mean Difference (Final Values)|0.21||||0|TWO_SIDED|95.0|0.17|0.25|||ANOVA|||Acenocumarol vs. Apixaban in naive participants (CHADS2)||0.25|0.17|0.000
92443766|NCT03441633|184772731|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0|TWO_SIDED|95.0|-0.7|-0.3|||ANOVA|||Acenocumarol vs. Apixaban in non-naive participants (CHADS2)||-0.30|-0.70|0.000
92443767|NCT03441633|184772731|SUPERIORITY||Mean Difference (Final Values)|0.08||||0|TWO_SIDED|95.0|0.01|0.14|||ANOVA|||Warfarin vs. Apixaban in naive participants (CHADS2)||0.14|0.01|0.000
92238957|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|0.85||||0.23|TWO_SIDED|95.0|0.64|1.11||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on the pill. Patients were excluded from this analysis if they reported not having heard of the pill in the post-visit survey.||1.11|0.64|0.23
92238958|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|0.92||||0.55|TWO_SIDED|95.0|0.69|1.22||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on the patch. Patients were excluded from this analysis if they reported not having heard of the patch in the post-visit survey.||1.22|0.69|0.55
92238959|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|0.97||||0.84|TWO_SIDED|95.0|0.76|1.25||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on the pull-out method. Patients were excluded from this analysis if they reported not having heard of the pull-out method in the post-visit survey.||1.25|0.76|0.84
92238960|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|0.81||||0.07|TWO_SIDED|95.0|0.64|1.02||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on the ring. Patients were excluded from this analysis if they reported not having heard of the ring in the post-visit survey.||1.02|0.64|0.07
92280159|NCT02978326|184463233|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0763|TWO_SIDED|95.0|0.94|3.64||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Response at Day 21||3.64|0.94|0.0763
92280160|NCT02978326|184463233|SUPERIORITY||Odds Ratio (OR)|2.28||||0.0216|TWO_SIDED|95.0|1.13|4.6||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Response at Day 45||4.60|1.13|0.0216
92238961|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|0.59||||0.002|TWO_SIDED|95.0|0.42|0.82||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on female sterilization/tubal ligation. Patients were excluded from this analysis if they reported not having heard of female sterilization/tubal ligation in the post-visit survey.||0.82|0.42|0.002
92280161|NCT02978326|184463234|SUPERIORITY||Odds Ratio (OR)|3.89||||0.02|TWO_SIDED|95.0|1.24|12.23||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Remission at Day 3||12.23|1.24|0.0200
92238962|NCT02078713|184382167|SUPERIORITY||Odds Ratio (OR)|0.58||||0.005|TWO_SIDED|95.0|0.4|0.85||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on male sterilization/vasectomy. Patients were excluded from this analysis if they reported not having heard of male sterilization/vasectomy in the post-visit survey.||0.85|0.4|0.005
92238963|NCT02078713|184382168|SUPERIORITY||Odds Ratio (OR)|1.55||||0.27|TWO_SIDED|95.0|0.71|3.42||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of hormonal IUD||3.42|0.71|0.27
92238964|NCT02078713|184382168|SUPERIORITY||Odds Ratio (OR)|1.65||||0.18|TWO_SIDED|95.0|0.8|3.4||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of non-hormonal IUD||3.40|0.80|0.18
92238965|NCT02078713|184382168|SUPERIORITY||Odds Ratio (OR)|1.29||||0.5|TWO_SIDED|95.0|0.62|2.69||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of implant||2.69|0.62|0.5
92238966|NCT02078713|184382168|SUPERIORITY||Odds Ratio (OR)|1.7||||0.32|TWO_SIDED|95.0|0.59|4.89||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of the patch||4.89|0.59|0.32
92238967|NCT02078713|184382168|SUPERIORITY||Odds Ratio (OR)|1.38||||0.37|TWO_SIDED|95.0|0.68|2.81||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of ring||2.81|0.68|0.37
92238968|NCT02078713|184382168|SUPERIORITY||Odds Ratio (OR)|1.49||||0.39|TWO_SIDED|95.0|0.6|3.73||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of male sterilization (vasectomy)||3.73|0.60|0.39
92280162|NCT02978326|184463234|SUPERIORITY||Odds Ratio (OR)|1.91||||0.099|TWO_SIDED|95.0|0.89|4.13||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Remission at Day 8||4.13|0.89|0.0990
92443768|NCT03441633|184772731|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0|TWO_SIDED|95.0|-0.54|-0.2|||ANOVA|||Warfarin vs. Apixaban in non-naive participants (CHADS2)||-0.20|-0.54|0.000
92443769|NCT03441633|184772732|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0|TWO_SIDED|95.0|-0.42|-0.26|||ANOVA|||Dabigatran vs. Apixaban in naive participants (CHA2DS2Vasc)||-0.26|-0.42|0.000
92443770|NCT03441633|184772732|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0|TWO_SIDED|95.0|-0.46|-0.19|||ANOVA|||Dabigatran vs. Apixaban in non-naive participants (CHA2DS2Vasc)||-0.19|-0.46|0.000
92443771|NCT03441633|184772732|SUPERIORITY||Mean Difference (Final Values)|-0.38||||0|TWO_SIDED|95.0|-0.45|-0.32|||ANOVA|||Rivaroxaban vs. Apixaban in naive participants (CHA2DS2Vasc)||-0.32|-0.45|0.000
92443772|NCT03441633|184772732|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0|TWO_SIDED|95.0|-0.39|-0.15|||ANOVA|||Rivaroxaban vs. Apixaban in non-naive participants (CHA2DS2Vasc)||-0.15|-0.39|0.000
92443773|NCT03441633|184772732|SUPERIORITY||Mean Difference (Final Values)|0.19||||0|TWO_SIDED|95.0|0.14|0.24|||ANOVA|||Acenocumarol vs. Apixaban in naive participants (CHA2DS2Vasc)||0.24|0.14|0.000
92443774|NCT03441633|184772732|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0|TWO_SIDED|95.0|-0.86|-0.37|||ANOVA|||Acenocumarol vs. Apixaban in non-naive participants (CHA2DS2Vasc)||-0.37|-0.86|0.000
92171489|NCT00567398|184232130|SUPERIORITY||Mean Difference (Final Values)|441.3||||0.419|TWO_SIDED|95.0|-630.4|1513.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 3||1513.1|-630.4|0.419
92443775|NCT03441633|184772732|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0|TWO_SIDED|95.0|-0.18|-0.01|||ANOVA|||Warfarin vs. Apixaban in naive participants (CHA2DS2Vasc)||-0.01|-0.18|0.000
92443776|NCT03441633|184772732|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0|TWO_SIDED|95.0|-0.64|-0.21|||ANOVA|||Warfarin vs. Apixaban in non-naive participants (CHA2DS2Vasc)||-0.21|-0.64|0.000
92238969|NCT02078713|184382168|SUPERIORITY||Odds Ratio (OR)|1.49||||0.39|TWO_SIDED|95.0|0.6|3.73||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of female sterilization||3.73|0.6|0.39
92238970|NCT02078713|184382169|SUPERIORITY||Odds Ratio (OR)|1.27||||0.18|TWO_SIDED|95.0|0.9|1.81||P-value calculated from multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|"The odds ratio represents the odds of the intervention group rating their appointment as much better, in the numerator, over the odds of the control group giving this rating in the denominator."|Patients excluded from test if they reported not having had a previous contraceptive counseling appointment.||1.81|0.90|0.18
92443777|NCT03441633|184772733|SUPERIORITY||Odds Ratio (OR)|1.88||||0.008|TWO_SIDED|95.0|0.77|5.3|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants||5.30|0.77|0.008
92443778|NCT03441633|184772733|SUPERIORITY||Odds Ratio (OR)|0.62||||0.008|TWO_SIDED|95.0|0.33|1.12|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants||1.12|0.33|0.008
92443779|NCT03441633|184772733|SUPERIORITY||Odds Ratio (OR)|0.55||||0.008|TWO_SIDED|95.0|0.2|1.99|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants||1.99|0.20|0.008
92443780|NCT03441633|184772733|SUPERIORITY||Odds Ratio (OR)|0.39||||0.008|TWO_SIDED|95.0|0.18|0.86|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants||0.86|0.18|0.008
92443781|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|1.41||||0|TWO_SIDED|95.0|1.14|1.75|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Poor adherence)||1.75|1.14|0.000
92443782|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.67||||0|TWO_SIDED|95.0|0.55|0.82|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Good adherence)||0.82|0.55|0.000
92443783|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.1||||0|TWO_SIDED|95.0|0.03|2.01|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Over adherence)||2.01|0.03|0.000
92443784|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|1.58||||0|TWO_SIDED|95.0|1.23|2.04|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Poor adherence)||2.04|1.23|0.000
92443785|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.44||||0|TWO_SIDED|95.0|0.34|0.57|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Good adherence)||0.57|0.34|0.000
92443786|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.43||||0|TWO_SIDED|95.0|0.02|3.73|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Over adherence)||3.73|0.02|0.000
92443787|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.66||||0|TWO_SIDED|95.0|0.52|0.84|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Poor adherence)||0.84|0.52|0.000
92443788|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|1.14||||0|TWO_SIDED|95.0|0.95|1.36|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Good adherence)||1.36|0.95|0.000
92443789|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.52||||0|TWO_SIDED|95.0|0.06|3.41|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Over adherence)||3.41|0.06|0.000
92238971|NCT02078713|184382170|SUPERIORITY||Mean Difference (Final Values)|11.81|||<|0.001|TWO_SIDED|95.0|8.54|18.66||P-value calculated in multiple imputed dataset|Regression, Linear|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation parameter is a beta coefficient from a linear regression model, calculated in an imputed dataset. It represents additional minutes in an intervention visit versus a control visit.|||18.66|8.54|<0.001
92280163|NCT02978326|184463234|SUPERIORITY||Odds Ratio (OR)|2.53||||0.011|TWO_SIDED|95.0|1.24|5.17||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Remission at Day 15||5.17|1.24|0.0110
92443790|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.65||||0|TWO_SIDED|95.0|0.5|0.85|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Poor adherence)||0.85|0.50|0.000
92443791|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|1.11||||0|TWO_SIDED|95.0|0.9|1.37|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Good adherence)||1.37|0.90|0.000
92443792|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|1.07||||0|TWO_SIDED|95.0|0.22|5.85|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Over adherence)||5.85|0.22|0.000
92443793|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|3.37||||0|TWO_SIDED|95.0|2.86|3.99|||Chi-squared|||Acenocumarol vs. Apixaban in naive participants (Poor adherence)||3.99|2.86|0.000
92443794|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.11||||0|TWO_SIDED|95.0|0.09|0.13|||Chi-squared|||Acenocumarol vs. Apixaban in naive participants (Good adherence)||0.13|0.09|0.000
92443795|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.34||||0|TWO_SIDED|95.0|0.11|1.52|||Chi-squared|||Acenocumarol vs. Apixaban in naive participants (Over adherence)||1.52|0.11|0.000
92443796|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|1.23||||0|TWO_SIDED|95.0|0.78|1.91|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants (Poor adherence)||1.91|0.78|0.000
92443797|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.01||||0|TWO_SIDED|95.0|0.0|0.09|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants (Good adherence)||0.09|0.00|0.000
92443798|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|2.07||||0|TWO_SIDED|95.0|0.07|18.0|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants (Over adherence)||18.00|0.07|0.000
92443799|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.58||||0|TWO_SIDED|95.0|0.45|0.75|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Poor adherence)||0.75|0.45|0.000
92171490|NCT00567398|184232130|SUPERIORITY||Mean Difference (Final Values)|121.8||||0.82|TWO_SIDED|95.0|-927.9|1171.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 6||1171.5|-927.9|0.820
92443800|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.51||||0|TWO_SIDED|95.0|0.41|0.63|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Good adherence)||0.63|0.41|0.000
92443801|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|29.4||||0|TWO_SIDED|95.0|11.01|123.8|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Over adherence)||123.80|11.01|0.000
92443802|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|1.31||||0|TWO_SIDED|95.0|0.91|1.86|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Poor adherence)||1.86|0.91|0.000
92443803|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|0.1||||0|TWO_SIDED|95.0|0.05|0.17|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Good adherence)||0.17|0.05|0.000
92443804|NCT03441633|184772734|SUPERIORITY||Odds Ratio (OR)|9.73||||0|TWO_SIDED|95.0|2.81|46.5|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Over adherence)||46.50|2.81|0.000
92443805|NCT03441633|184772735|SUPERIORITY||Odds Ratio (OR)|1.08||||0|TWO_SIDED|95.0|0.92|1.27|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Discontinuation first year)||1.27|0.92|0.000
92443806|NCT03441633|184772735|SUPERIORITY||Odds Ratio (OR)|1.45||||0|TWO_SIDED|95.0|1.15|1.83|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Discontinuation first year)||1.83|1.15|0.000
92443807|NCT03441633|184772735|SUPERIORITY||Odds Ratio (OR)|1.09||||0|TWO_SIDED|95.0|0.93|1.27|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Discontinuation first year)||1.27|0.93|0.000
92443808|NCT03441633|184772735|SUPERIORITY||Odds Ratio (OR)|1.18||||0|TWO_SIDED|95.0|0.96|1.47|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Discontinuation first year)||1.47|0.96|0.000
92443809|NCT03441633|184772735|SUPERIORITY||Odds Ratio (OR)|0.89||||0|TWO_SIDED|95.0|0.79|1.01|||Chi-squared|||Acenocumarol vs. Apixaban in naive participants (Discontinuation first year)||1.01|0.79|0.000
92443810|NCT03441633|184772735|SUPERIORITY||Odds Ratio (OR)|4.82||||0|TWO_SIDED|95.0|3.14|7.55|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants (Discontinuation first year)||7.55|3.14|0.000
92443811|NCT03441633|184772735|SUPERIORITY||Odds Ratio (OR)|1.41||||0|TWO_SIDED|95.0|1.19|1.67|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Discontinuation first year)||1.67|1.19|0.000
92443812|NCT03441633|184772735|SUPERIORITY||Odds Ratio (OR)|2.92||||0|TWO_SIDED|95.0|2.12|4.05|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Discontinuation first year)||4.05|2.12|0.000
92443813|NCT03441633|184772736|SUPERIORITY||Mean Difference (Final Values)|3.63||||0|TWO_SIDED|95.0|3.02|4.24|||ANOVA|||Dabigatran vs. Apixaban in naive participants (NDDDs)||4.24|3.02|0.000
92443814|NCT03441633|184772736|SUPERIORITY||Mean Difference (Final Values)|0.11||||0|TWO_SIDED|95.0|-0.77|0.98|||ANOVA|||Dabigatran vs. Apixaban in non-naive participants (NDDDs)||0.98|-0.77|0.000
92443815|NCT03441633|184772736|SUPERIORITY||Mean Difference (Final Values)|1.51||||0|TWO_SIDED|95.0|0.84|2.17|||ANOVA|||Rivaroxaban vs. Apixaban in naive participants (NDDDs)||2.17|0.84|0.000
92443816|NCT03441633|184772736|SUPERIORITY||Mean Difference (Final Values)|1.98||||0|TWO_SIDED|95.0|1.16|2.8|||ANOVA|||Rivaroxaban vs. Apixaban in non-naive participants (NDDDs)||2.80|1.16|0.000
92443817|NCT03441633|184772736|SUPERIORITY||Mean Difference (Final Values)|0.9||||0|TWO_SIDED|95.0|0.41|1.39|||ANOVA|||Acenocumarol vs. Apixaban in naive participants (NDDDs)||1.39|0.41|0.000
92443818|NCT03441633|184772736|SUPERIORITY||Mean Difference (Final Values)|-2.25||||0|TWO_SIDED|95.0|-4.32|-0.18|||ANOVA|||Acenocumarol vs. Apixaban in non-naive participants (NDDDs)||-0.18|-4.32|0.000
92443819|NCT03441633|184772736|SUPERIORITY||Mean Difference (Final Values)|28.52||||0|TWO_SIDED|95.0|27.56|29.48|||ANOVA|||Warfarin vs. Apixaban in naive participants (NDDDs)||29.48|27.56|0.000
92238972|NCT02078713|184382171|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.63|TWO_SIDED|95.0|-3.19|5.29||P-value calculated in multiply imputed dataset|Regression, Linear|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation parameter is a beta coefficient from a linear regression model, calculated in an imputed dataset. It represents additional minutes in an intervention visit versus a control visit.|||5.29|-3.19|0.63
92443820|NCT03441633|184772736|SUPERIORITY||Mean Difference (Final Values)|1.93||||0|TWO_SIDED|95.0|-1.05|4.9|||ANOVA|||Warfarin vs. Apixaban in non-naive participants (NDDDs)||4.90|-1.05|0.000
92443821|NCT04534764|184772743|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the upper confidence limit of LSM difference is below the non-inferiority margin 0.05 logMAR.|Least Square Mean Difference|-0.016|STANDARD_ERROR_OF_MEAN|0.0114|||TWO_SIDED|95.0|-0.039|0.006|||Mixed Models Analysis||LS Mean difference was calculated as Test - Control.|High Luminance Low Contrast||0.006|-0.039|
92443822|NCT04534764|184772743|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the upper confidence limit of LSM difference is below the non-inferiority margin 0.05 logMAR.|Least Square Mean Difference|0.009|STANDARD_ERROR_OF_MEAN|0.0114|||TWO_SIDED|95.0|-0.014|0.031|||Mixed Models Analysis||LS Mean difference was calculated as Test - Control.|Low Luminance High Contrast||0.031|-0.014|
92238973|NCT02078713|184382172|SUPERIORITY||Observed coefficient|-3.97|STANDARD_ERROR_OF_MEAN|3.34||0.24|TWO_SIDED|95.0|-10.62|2.68|||Regression, Linear||Tool group is compared to control group (ref). Bootstrapping used for standard error.|Test of follow-up score of emotional exhaustion subscale of Maslach Burnout Inventory, controlling for baseline score and site||2.68|-10.62|0.24
92280164|NCT02978326|184463234|SUPERIORITY||Odds Ratio (OR)|1.58||||0.1982|TWO_SIDED|95.0|0.79|3.19||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Remission at Day 21||3.19|0.79|0.1982
92280165|NCT02978326|184463234|SUPERIORITY||Odds Ratio (OR)|2.52||||0.0091|TWO_SIDED|95.0|1.26|5.03||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Remission at Day 45||5.03|1.26|0.0091
92443823|NCT03161483|184772744|SUPERIORITY||Stratified difference|11.4||||0.214|TWO_SIDED|95.0|-6.57|29.0|||Cochran-Mantel-Haenszel|||||29.00|-6.57|0.214
92443824|NCT03161483|184772744|SUPERIORITY||Stratified difference|5.0||||0.512|TWO_SIDED|95.0|-9.77|19.48|||Cochran-Mantel-Haenszel|||||19.48|-9.77|0.512
92443825|NCT03161483|184772744|SUPERIORITY||Stratified difference|19.4||||0.011|TWO_SIDED|95.0|4.12|33.42|||Cochran-Mantel-Haenszel|||||33.42|4.12|0.011
92443826|NCT03161483|184772745|SUPERIORITY||Stratified difference|10.3||||0.264|TWO_SIDED|95.0|-7.66|27.97|||Cochran-Mantel-Haenszel|||||27.97|-7.66|0.264
92443827|NCT03161483|184772745|SUPERIORITY||Stratified difference|6.5||||0.399|TWO_SIDED|95.0|-8.45|21.0|||Cochran-Mantel-Haenszel|||||21.00|-8.45|0.399
92443828|NCT03161483|184772745|SUPERIORITY||Stratified difference|19.3||||0.012|TWO_SIDED|95.0|4.01|33.36|||Cochran-Mantel-Haenszel|||||33.36|4.01|0.012
92443829|NCT03161483|184772746|SUPERIORITY||Stratified difference|24.0||||0.446|TWO_SIDED|95.0|-12.38|53.11|||Cochran-Mantel-Haenszel|||||53.11|-12.38|0.446
92443830|NCT03161483|184772746|SUPERIORITY||Stratified difference|5.3|||>|0.999|TWO_SIDED|95.0|-27.64|39.38|||Cochran-Mantel-Haenszel|||||39.38|-27.64|>0.999
92443831|NCT03161483|184772746|SUPERIORITY||Stratified difference|14.2||||0.488|TWO_SIDED|95.0|-19.54|44.48|||Cochran-Mantel-Haenszel|||||44.48|-19.54|0.488
92443832|NCT03161483|184772747|SUPERIORITY||Stratified difference|12.4||||0.092|TWO_SIDED|95.0|-2.74|24.07|||Cochran-Mantel-Haenszel|||||24.07|-2.74|0.092
92443833|NCT03161483|184772747|SUPERIORITY||Stratified difference|-5.3||||0.434|TWO_SIDED|95.0|-18.43|8.06|||Cochran-Mantel-Haenszel|||||8.06|-18.43|0.434
92443834|NCT03161483|184772747|SUPERIORITY||Stratified difference|8.0||||0.182|TWO_SIDED|95.0|-3.88|19.65|||Cochran-Mantel-Haenszel|||||19.65|-3.88|0.182
92443835|NCT03161483|184772748|SUPERIORITY||Stratified difference|12.1||||0.098|TWO_SIDED|95.0|-2.98|23.78|||Cochran-Mantel-Haenszel|||||23.78|-2.98|0.098
92443836|NCT03161483|184772748|SUPERIORITY||Stratified difference|-4.3||||0.521|TWO_SIDED|95.0|-17.36|8.92|||Cochran-Mantel-Haenszel|||||8.92|-17.36|0.521
92443837|NCT03161483|184772748|SUPERIORITY||Stratified difference|6.8||||0.267|TWO_SIDED|95.0|-5.24|18.55|||Cochran-Mantel-Haenszel|||||18.55|-5.24|0.267
92443838|NCT03161483|184772749|SUPERIORITY||Difference in adjusted mean|0.7||||0.116|TWO_SIDED|95.0|-0.2|1.5|||longitudinal data analysis model|||||1.5|-0.2|0.116
92443839|NCT03161483|184772749|SUPERIORITY||Difference in adjusted mean|0.7||||0.094|TWO_SIDED|95.0|-0.1|1.6|||longitudinal data analysis model|||||1.6|-0.1|0.094
92443840|NCT03161483|184772749|SUPERIORITY||Difference in adjusted mean|0.1||||0.881|TWO_SIDED|95.0|-0.6|0.8|||longitudinal data analysis model|||||0.8|-0.6|0.881
92443841|NCT03161483|184772750|SUPERIORITY||Difference in adjusted mean|1.1||||0.16|TWO_SIDED|95.0|-0.4|2.6|||longitudinal data analysis model|||||2.6|-0.4|0.160
92443842|NCT03161483|184772750|SUPERIORITY||Difference in adjusted mean|1.3||||0.056|TWO_SIDED|95.0|0.0|2.6|||longitudinal data analysis model|||||2.6|0.0|0.056
92443843|NCT03161483|184772750|SUPERIORITY||Difference in adjusted mean|0.3||||0.621|TWO_SIDED|95.0|-1.0|1.6|||longitudinal data analysis model|||||1.6|-1.0|0.621
92443844|NCT03161483|184772752|SUPERIORITY||Difference in adjusted mean|-1.1||||0.546|TWO_SIDED|95.0|-4.7|2.5|||longitudinal data analysis model|||||2.5|-4.7|0.546
92443845|NCT03161483|184772752|SUPERIORITY||Difference in adjusted mean|-0.6||||0.681|TWO_SIDED|95.0|-3.7|2.4|||longitudinal data analysis model|||||2.4|-3.7|0.681
92443846|NCT03161483|184772752|SUPERIORITY||Difference in adjusted mean|1.4||||0.35|TWO_SIDED|95.0|-1.6|4.4|||longitudinal data analysis model|||||4.4|-1.6|0.350
92443847|NCT03161483|184772753|SUPERIORITY|\<= 7.5 mg/day|Stratified difference|0.2|||>|0.999|TWO_SIDED|95.0|-15.13|15.91|||longitudinal data analysis model|||||15.91|-15.13|>0.999
92443848|NCT03161483|184772753|SUPERIORITY|\< 10 mg/day|Stratified difference|-3.2|||>|0.999|TWO_SIDED|95.0|-17.74|13.0|||longitudinal data analysis model|||||13.00|-17.74|>0.999
92443849|NCT03161483|184772754|SUPERIORITY||Difference in adjusted means|2.8||||0.535|TWO_SIDED|95.0|-6.0|11.6|||longitudinal data analysis model|||||11.6|-6.0|0.535
92238974|NCT02078713|184382172|SUPERIORITY||Observed coefficient|-1.52|STANDARD_ERROR_OF_MEAN|1.91||0.36|TWO_SIDED|95.0|-4.76|1.72|||Regression, Linear||Tool group is compared to control group (ref). Bootstrapping used for standard error|Linear regression of follow-up score for depersonalization subscale of Maslach Burnout Inventory, controlling for baseline score and site.||1.72|-4.76|0.36
92238975|NCT02078713|184382172|SUPERIORITY||Slope|-1.64|STANDARD_ERROR_OF_MEAN|1.34||0.28|TWO_SIDED|95.0|-4.61|1.34|||Regression, Linear||Tool group compared to control group (ref). Bootstrapping used for standard error.|Linear regression of follow-up score for personal accomplishment subscale of Maslach Burnout Inventory, controlling for site and baseline score.||1.34|-4.61|0.28
92238976|NCT02078713|184382173|SUPERIORITY||Odds Ratio (OR)|1.06||||0.78|TWO_SIDED|95.0|0.69|1.65||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||1.65|0.69|0.78
92238977|NCT02078713|184382174|SUPERIORITY||Odds Ratio (OR)|0.94||||0.75|TWO_SIDED|95.0|0.66|1.35||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 4 months post-enrollment||1.35|0.66|0.75
92238978|NCT02078713|184382174|SUPERIORITY||Odds Ratio (OR)|1.07||||0.71|TWO_SIDED|95.0|0.75|1.53||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 7 months post-enrollment||1.53|0.75|0.71
92238979|NCT02078713|184382175|SUPERIORITY||Odds Ratio (OR)|0.94||||0.75|TWO_SIDED|95.0|0.66|1.34||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 4 months post-enrollment||1.34|0.66|0.75
92171491|NCT00567398|184232131|SUPERIORITY||Mean Difference (Final Values)|-4.2||||0.721|TWO_SIDED|95.0|-27.5|19.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 3||19|-27.5|0.721
92443850|NCT03161483|184772754|SUPERIORITY||Difference in adjusted means|4.2||||0.309|TWO_SIDED|95.0|-3.9|12.2|||longitudinal data analysis model|||||12.2|-3.9|0.309
92443851|NCT03161483|184772754|SUPERIORITY||Difference in adjusted means|6.5||||0.091|TWO_SIDED|95.0|-1.0|14.1|||longitudinal data analysis model|||||14.1|-1.0|0.091
92171492|NCT00567398|184232131|SUPERIORITY||Mean Difference (Final Values)|13.5||||0.247|TWO_SIDED|95.0|-9.4|36.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 6||36.4|-9.4|0.247
92171493|NCT00567398|184232132|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.624|TWO_SIDED|95.0|0.55|1.43|||ANOVA|||Estimates of Ratio-Month 6||1.43|0.55|0.624
92238980|NCT02078713|184382175|SUPERIORITY||Odds Ratio (OR)|1.17||||0.37|TWO_SIDED|95.0|0.83|1.64||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 7 months post-enrollment||1.64|0.83|0.37
92238981|NCT02078713|184382176|SUPERIORITY||Odds Ratio (OR)|1.27||||0.63|TWO_SIDED|95.0|0.48|3.37||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 4 months post-enrollment||3.37|0.48|0.63
92171494|NCT00567398|184232133|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.338|TWO_SIDED|95.0|-0.6|1.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 3||1.8|-0.6|0.338
92238982|NCT02078713|184382176|SUPERIORITY||Odds Ratio (OR)|1.83||||0.11|TWO_SIDED|95.0|0.88|3.8||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 7 months post-enrollment||3.80|0.88|0.11
92238983|NCT00372190|184382190|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92238984|NCT00623467|184382198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03|STANDARD_DEVIATION|0.86|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92238985|NCT00623467|184382198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|STANDARD_DEVIATION|0.74|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92238986|NCT00623467|184382198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53|STANDARD_DEVIATION|0.54|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92238987|NCT00623467|184382199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.94|STANDARD_DEVIATION|0.8|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92238988|NCT00623467|184382199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17|STANDARD_DEVIATION|0.94|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92443852|NCT02767427|184772757|EQUIVALENCE|An equivalence test on data from a parallel-group design with sample sizes of 18 in the reference group and 18 in the treatment group achieves 80% power. The significance was set at 5%. The standard deviation was 1.00, and the equivalence limits were set at -1.00 and 1.00.|||||<|0.05|||||||t-test, 1 sided|Two one-sided t-tests were conducted with 18 in each group.||||||<0.05
92443853|NCT04753164|184772791|OTHER|Mixed effects model for Repeated Measures: Change from baseline in the number of BE days per week = baseline number of BE days per week + sex (Male; Female) + BMI group (\< 30 ; ≥ 30 kg/m2) + treatment + visit + treatment × visit + baseline × visit.|LS Mean Difference to Placebo|0.0||||0.9992|TWO_SIDED|95.0|-0.69|0.69|||Mixed effects model f. repeated measures|||||0.69|-0.69|0.9992
92443854|NCT00694369|184772792|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||0.05 critical level was used.|ANOVA|"Step-down manner was used (p-value for 90-mg dose comparison was reported only if the p-value~for 120-mg dose comparison is significant)."||||||<0.001
92443855|NCT00694369|184772792|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||0.05 critical level was used.|ANOVA|Step-down manner was used (p-value for 90-mg dose comparison was reported only if the p-value for 120-mg dose comparison is significant)||||||<0.001
92443856|NCT00694369|184772792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority bound (etoricoxib minus ibuprofen) is -4.45.|Difference in LS Means|0.06||||||95.0|-1.37|1.48|||||Difference in Least squares means (LS Means) (etoricoxib minus ibuprofen)|||1.48|-1.37|
92443857|NCT00694369|184772792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority bound (etoricoxib minus ibuprofen) is -4.45.|Difference in LS Means|0.43||||||95.0|-0.73|1.6|||||Difference in LS Means (etoricoxib minus ibuprofen)|||1.60|-0.73|
92443858|NCT00694369|184772792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority bound (etoricoxib minus cetaminophen/codeine) is -2.41.|Difference in LS Means|3.9||||||95.0|2.04|5.76|||||Difference in LS Means (etoricoxib minus acetaminophen/codeine)|||5.76|2.04|
92443859|NCT00694369|184772792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority bound (etoricoxib minus acetaminophen/codeine) is -2.41.|Difference in LS Means|4.27||||||95.0|2.61|5.94|||||Difference in LS Means (etoricoxib minus acetaminophen/codeine)|||5.94|2.61|
92171495|NCT00567398|184232133|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.029|TWO_SIDED|95.0|0.1|2.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 6||2.5|0.1|0.029
92171496|NCT00567398|184232133|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.817|TWO_SIDED|95.0|-1.9|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 3||1.5|-1.9|0.817
92171497|NCT00567398|184232133|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.091|TWO_SIDED|95.0|-0.2|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 6||2.9|-0.2|0.091
92443860|NCT00694369|184772792|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.38||||||95.0|-1.8|1.05|||||Difference in LS Means (etoricoxib 120 mg minus etoricoxib 90 mg)|||1.05|-1.80|
92443861|NCT00694369|184772792|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|10.59||||||95.0|8.72|12.47|||||Difference in LS Means (ibuprofen 2400 mg minus placebo)|||12.47|8.72|
92443862|NCT00694369|184772792|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|6.75||||||95.0|4.53|8.97|||||Difference in LS Means (acetaminophen 2400 mg/codeine 240 mg minus placebo)|||8.97|4.53|
92443863|NCT00694369|184772793|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||0.05 critical level was used.|stratified Wilcoxon rank sum test|Step-down manner was used (p-value for 90-mg dose comparison was reported only if the p-value for 120-mg dose comparison is significant).||||||<0.001
92443864|NCT00694369|184772793|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||0.05 critical level was used.|stratified Wilcoxon rank sum test|Step-down manner was used (p-value for 90-mg dose comparison was reported only if the p-value for 120-mg dose comparison is significant)||||||<0.001
92443865|NCT00694369|184772793|SUPERIORITY_OR_OTHER_LEGACY|||||||0.161||95.0||||0.05 critical level was used.|stratified Wilcoxon rank sum test|Nominal p-value was provided in lieu of the 95% CI. Step-down manner was used, and the nominal p-value for 90-mg dose comparison was not reported.||||||0.161
92443866|NCT00694369|184772793|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||95.0||||0.05 critical level was used.|stratified Wilcoxon rank sum test|Nominal p-value was provided in lieu of the 95% CI. Step-down manner was used.||||||0.014
92443867|NCT00694369|184772793|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0||||0.05 critical level was used.|stratified Wilcoxon rank sum test|Nominal p-value was provided in lieu of the 95% CI. Step-down manner was used.||||||0.007
92238989|NCT00623467|184382199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08|STANDARD_DEVIATION|0.74|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92238990|NCT00623467|184382200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.93|STANDARD_DEVIATION|0.82|<|0.0001||||||for contrast enhancement|paired t-test|||||||<0.0001
92443868|NCT01405963|184772813|OTHER||Treatment Difference|7.65||||0.09|TWO_SIDED|95.0|-1.3|16.6|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 42 was evaluated using a repeated-measures analysis of covariance (ANCOVA) that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||16.60|-1.30|0.09
92443869|NCT01405963|184772813|OTHER||Treatment Difference|9.91||||0.02|TWO_SIDED|95.0|1.59|18.23|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||18.23|1.59|0.02
92238991|NCT00623467|184382200|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.12|STANDARD_DEVIATION|0.74|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92443870|NCT01405963|184772814|OTHER||Treatment Difference|-4.35||||0.11|TWO_SIDED|95.0|-9.8|1.1|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 42 was evaluated using a repeated-measures analysis of covariance (ANCOVA) that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||1.10|-9.80|0.11
92443871|NCT01405963|184772814|OTHER||Treatment Difference|-4.66||||0.07|TWO_SIDED|95.0|-9.71|0.39|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.39|-9.71|0.07
92443872|NCT01405963|184772818|OTHER||Treatment Difference|8.57||||0.05|TWO_SIDED|95.0|0.01|17.13|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||17.13|0.01|0.05
92443873|NCT01405963|184772818|OTHER||Treatment Difference|10.27||||0.06|TWO_SIDED|95.0|-0.46|21.0|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||21.00|-0.46|0.06
92443874|NCT01405963|184772819|OTHER||Treatment Difference|-6.08||||0.03|TWO_SIDED|95.0|-11.56|-0.6|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||-0.60|-11.56|0.03
92171498|NCT00567398|184232134|SUPERIORITY||Mean Difference (Final Values)|-10.2||||0.127|TWO_SIDED|95.0|-23.3|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 3||2.9|-23.3|0.127
92171499|NCT00567398|184232134|SUPERIORITY||Mean Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-16.4|-4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 6||-4.3|-16.4|<0.001
92238992|NCT00623467|184382200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_DEVIATION|0.57|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92171500|NCT00567398|184232134|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.012|TWO_SIDED|95.0|-0.4|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 3||-0.1|-0.4|0.012
92238993|NCT00623467|184382201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.94|STANDARD_DEVIATION|0.77|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92238994|NCT00623467|184382201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|STANDARD_DEVIATION|0.71|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92238995|NCT00623467|184382201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.78|STANDARD_DEVIATION|0.53|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92238996|NCT00623467|184382202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66|STANDARD_DEVIATION|5.31|||||||||||for BR1|||||
92238997|NCT00623467|184382202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_DEVIATION|8.77|||||||||||for BR2|||||
92238998|NCT00623467|184382202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_DEVIATION|4.2|||||||||||for BR3|||||
92443875|NCT01405963|184772819|OTHER||Treatment Difference|-7.44||||0.03|TWO_SIDED|95.0|-14.22|-0.66|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||-0.66|-14.22|0.03
92443876|NCT01405963|184772820|OTHER||Treatment Difference|0.33||||0.05|TWO_SIDED|95.0|-0.01|0.68|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.68|-0.01|0.05
92238999|NCT00623467|184382202|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.32|STANDARD_DEVIATION|3.53|||TWO_SIDED|95.0|-0.07|0.704|||95% confidence interval for paired means||confidence interval provided for average reader, lower limit is compared to noninferiority margin|||0.704|-0.070|
92443877|NCT01405963|184772820|OTHER||Treatment Difference|0.39||||0.08|TWO_SIDED|95.0|-0.06|0.84|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.84|-0.06|0.08
92443878|NCT01405963|184772821|OTHER||Treatment Difference|0.28||||0.03|TWO_SIDED|95.0|0.03|0.53|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.53|0.03|0.03
92443879|NCT01405963|184772821|OTHER||Treatment Difference|0.33||||0.06|TWO_SIDED|95.0|-0.01|0.66|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.66|-0.01|0.06
92443880|NCT01405963|184772822|OTHER||Treatment Difference|0.41||||0.01|TWO_SIDED|95.0|0.12|0.7|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.70|0.12|0.01
92443881|NCT01405963|184772822|OTHER||Treatment Difference|0.42||||0.01|TWO_SIDED|95.0|0.11|0.72|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.72|0.11|0.01
92443882|NCT01405963|184772823|OTHER||Treatment Difference|0.24||||0.02|TWO_SIDED|95.0|0.04|0.45|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.45|0.04|0.02
92239000|NCT00623467|184382203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89|STANDARD_DEVIATION|0.68|<|0.0001||||||for border delineation|paired t-test|||||||< 0.0001
92239001|NCT00623467|184382203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_DEVIATION|0.65|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92443883|NCT01405963|184772823|OTHER||Treatment Difference|0.18||||0.15|TWO_SIDED|95.0|-0.07|0.44|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.44|-0.07|0.15
92443884|NCT04007523|184772853|OTHER|Fisher's Exact Test||||||0.653|||||||Fisher Exact|||||||0.653
92443885|NCT04007523|184772853|OTHER|Fisher's Exact Test||||||0.614|||||||Fisher Exact|||||||0.614
92443886|NCT04007523|184772853|OTHER|Fisher's Exact Test||||||0.999|||||||Fisher Exact|||||||0.999
92443887|NCT01826487|184772875|OTHER||Mean Difference (Final Values)|12.98|STANDARD_ERROR_OF_MEAN|10.415||0.213|TWO_SIDED|95.0|-7.44|33.39||Threshold for significance at 0.05. Secondary endpoints were tested for significance, only if the primary endpoint was statistically significant.|Mixed Models Analysis|||Analysis was performed using analysis of covariance (ANCOVA) method including stratification factors for age (less than \[\<\] 9 years versus \[vs.\] greater than or equal to \[\>=\] 9 years), duration of use of corticosteroids at baseline (approx. \>=6 to \<12 months vs. \>=12 months), and baseline 6MWD category (\>=350 meters vs \<350 meters), as well as baseline 6MWD as covariate.||33.39|-7.44|0.213
92443888|NCT01408030|184772886|OTHER|Two sided testing was performed with a significance level of 0.05.||||||0.97|||||||ANOVA|||||||0.97
92443889|NCT01408030|184772887|OTHER|Two sided testing was performed with a significance level of 0.05.||||||0.47|||||||ANOVA|||||||.47
92239002|NCT00623467|184382204|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.21|STANDARD_DEVIATION|1.6||||95.0|0.03|0.381|||||lower limit of the confidence interval is compared to the noninferiority margin|||0.381|0.030|
92239003|NCT00623467|184382205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59|STANDARD_DEVIATION|1.47|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92239004|NCT00623467|184382205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75|STANDARD_DEVIATION|1.34|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92443890|NCT01408030|184772888|OTHER|Two sided testing was performed with a significance level of 0.05.|||||<|0.001||||||"A mixed-model repeated-measures ANOVA was used to analyze ESS for drug and time (baseline, week 12) effects.~Listed P value is for time effect."|Mixed Models Analysis|Clinical site and patient were included in the model as random effects.||||||<0.001
92443891|NCT01408030|184772889|OTHER|Two sided testing was performed with a significance level of 0.05.||||||0.43|||||||ANCOVA|Adjusted for baseline values and random effect of clinic site.||||||0.43
92443892|NCT01408030|184772890|OTHER|Two sided testing was performed with a significance level of 0.05.||||||0.42|||||||Fisher Exact|||||||0.42
92443893|NCT01408030|184772891|OTHER|Two sided testing was performed with a significance level of 0.05.||||||0.08|||||||Fisher Exact|||||||0.08
92443894|NCT03608774|184772894|SUPERIORITY||Risk Difference (RD)|0.26|||<|0.001|TWO_SIDED|95.0|0.16|0.36||Protocol pre-specified an interim analysis of the primary outcome using O'Brien-Fleming bounds to maintain an overall 5% alpha level. The trial was stopped at the interim analysis. P-value was derived using stage-wise ordering of the sample space.|Chi-squared||Protocol pre-specified an interim analysis of the primary outcome using O'Brien-Fleming bounds to maintain an overall 5% alpha level. The trial was stopped at the interim analysis. Estimates were derived using stage-wise ordering of the sample space.|||0.36|0.16|<0.001
92443895|NCT03608774|184772895|OTHER||Risk Difference (RD)|0.11|||||TWO_SIDED|95.0|0.0|0.22||||||||0.22|0.00|
92443896|NCT03608774|184772896|OTHER||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.01|0.21||||||||0.21|-0.01|
92443897|NCT03608774|184772897|OTHER||Risk Difference (RD)|0.26|||||TWO_SIDED|95.0|0.15|0.38||||||||0.38|0.15|
92443898|NCT03608774|184772898|OTHER||Risk Difference (RD)|0.25|||||TWO_SIDED|95.0|-0.28|0.7||||||||0.70|-0.28|
92443899|NCT03608774|184772899|OTHER||Risk Difference (RD)|0.25|||||TWO_SIDED|95.0|-0.28|0.7||||||||0.70|-0.28|
92443900|NCT01586819|184772900|SUPERIORITY||Z score|-3.3902||||0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that subjects receiving Botox A as an added pre-treatment would have lower scores on the facial wrinkle severity scale post-treatment.||||.002
92443901|NCT01586819|184772901|SUPERIORITY||Z score|3.6115||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that subjects receiving Botox A as an added pre-treatment would have higher difference scores, pre- to post-treatment, on the facial wrinkle severity scale suggesting a more pronounced effect of the chemical peel in combination with the Botox A therapy.||||.001
92239005|NCT00623467|184382205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_DEVIATION|1.03|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92239006|NCT00623467|184382206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.49|STANDARD_DEVIATION|1.38|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92239007|NCT00623467|184382206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|STANDARD_DEVIATION|1.6|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92239008|NCT00623467|184382206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|STANDARD_DEVIATION|1.25|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92239009|NCT00623467|184382207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67|STANDARD_DEVIATION|1.39|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92239010|NCT00623467|184382207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|STANDARD_DEVIATION|1.3|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92239011|NCT00623467|184382207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91|STANDARD_DEVIATION|1.02|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92443902|NCT03917420|184772962|OTHER|Correlation|Spearman's Rho|-0.455|||||TWO_SIDED|||||||||||||
92443903|NCT03917420|184772963|OTHER|Correlation|Spearman's Rho|0.152|||||TWO_SIDED|||||||||||||
92443904|NCT03917420|184772964|OTHER|Correlation|Spearman's Rho|0.564|||||TWO_SIDED|||||||||||||
92443905|NCT03917420|184772965|OTHER|Correlation|Spearman's Rho|0.285|||||TWO_SIDED|||||||||||||
92443906|NCT00591942|184772973|NON_INFERIORITY|95% CI were used|KM Survival Curves|0.5637||||0.5637|TWO_SIDED||||||Chi-squared|df=1||||||0.5637
92443907|NCT03373383|184772988|SUPERIORITY||Percent reduction|17.2|||=|0.102|TWO_SIDED|95.0|-3.8|33.9||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||33.9|-3.8|=0.102
92443908|NCT03373383|184772988|SUPERIORITY||Percent reduction|19.1|||=|0.064|TWO_SIDED|95.0|-1.2|35.4||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||35.4|-1.2|=0.064
92443909|NCT03373383|184772988|SUPERIORITY||Percent reduction|19.2|||=|0.063|TWO_SIDED|95.0|-1.2|35.5||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||35.5|-1.2|=0.063
92443910|NCT03373383|184772988|SUPERIORITY||Percent reduction|12.4|||=|0.248|TWO_SIDED|95.0|-9.7|30.1||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp\[diff\]), where diff was the model estimate of the log ratio between each PSL group and placebo group.||30.1|-9.7|=0.248
92443911|NCT03373383|184772989|SUPERIORITY||Odds Ratio (OR)|2.72|||=|0.081|TWO_SIDED|95.0|0.88|8.39||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo was calculated using logistic regression with categorical factors for treatment group, Region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||8.39|0.88|=0.081
92443912|NCT03373383|184772989|SUPERIORITY||Odds Ratio (OR)|2.37|||=|0.137|TWO_SIDED|95.0|0.76|7.41||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo was calculated using logistic regression with categorical factors for treatment group, Region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||7.41|0.76|=0.137
92443913|NCT03373383|184772989|SUPERIORITY||Odds Ratio (OR)|2.16|||=|0.192|TWO_SIDED|95.0|0.68|6.89||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo was calculated using logistic regression with categorical factors for treatment group, Region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||6.89|0.68|=0.192
92443914|NCT03373383|184772989|SUPERIORITY||Odds Ratio (OR)|3.14|||=|0.041|TWO_SIDED|95.0|1.05|9.42||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo was calculated using logistic regression with categorical factors for treatment group, Region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||9.42|1.05|=0.041
92443915|NCT03373383|184772993|SUPERIORITY||Odds Ratio (OR)|2.09|||=|0.045|TWO_SIDED|95.0|1.02|4.3||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||4.30|1.02|=0.045
92443916|NCT03373383|184772993|SUPERIORITY||Odds Ratio (OR)|1.91|||=|0.079|TWO_SIDED|95.0|0.93|3.93||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||3.93|0.93|=0.079
92443917|NCT03373383|184772993|SUPERIORITY||Odds Ratio (OR)|1.44|||=|0.338|TWO_SIDED|95.0|0.68|3.02||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||3.02|0.68|=0.338
92443918|NCT03373383|184772993|SUPERIORITY||Odds Ratio (OR)|1.88|||=|0.087|TWO_SIDED|95.0|0.91|3.87||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group, Region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||3.87|0.91|=0.087
92443919|NCT03373383|184772994|OTHER||Median Difference (Net)|7.4|||=|0.316|TWO_SIDED|95.0|-6.59|21.89||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value were based on the Wilcoxon-Mann-Whitney test. The Hodges-Lehmann nonparametric estimator was used to estimate the median difference between each PSL dose group versus placebo, along with the corresponding 95% CI of the estimate.||21.89|-6.59|=0.316
92443920|NCT03373383|184772994|OTHER||Median Difference (Net)|9.99|||=|0.133|TWO_SIDED|95.0|-3.15|23.26||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value were based on the Wilcoxon-Mann-Whitney test. The Hodges-Lehmann nonparametric estimator was used to estimate the median difference between each PSL dose group versus placebo, along with the corresponding 95% CI of the estimate.||23.26|-3.15|=0.133
92443921|NCT03373383|184772994|OTHER||Median Difference (Net)|8.19|||=|0.203|TWO_SIDED|95.0|-3.95|21.37||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value were based on the Wilcoxon-Mann-Whitney test. The Hodges-Lehmann nonparametric estimator was used to estimate the median difference between each PSL dose group versus placebo, along with the corresponding 95% CI of the estimate.||21.37|-3.95|=0.203
92443922|NCT03373383|184772994|OTHER||Median Difference (Net)|2.39|||=|0.784|TWO_SIDED|95.0|-13.65|17.79||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value were based on the Wilcoxon-Mann-Whitney test. The Hodges-Lehmann nonparametric estimator was used to estimate the median difference between each PSL dose group versus placebo, along with the corresponding 95% CI of the estimate.||17.79|-13.65|=0.784
92443923|NCT03317431|184772995|SUPERIORITY||||||<|0.01|||||||Regression, Linear|||Analysis the relationship between the duration of mechanical ventilation with DRD1 expression.||||<0.01
92443924|NCT03317431|184772996|SUPERIORITY||||||>|0.01|||||||Regression, Linear|||Analysis the relationship between the duration of mechanical ventilation with DRD2 expression.||||>0.01
92171501|NCT00567398|184232134|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.001|TWO_SIDED|95.0|-0.3|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 6||-0.1|-0.3|<0.001
92443925|NCT03317431|184772997|SUPERIORITY||||||>|0.01|||||||Regression, Linear|||Analysis the relationship between the duration of mechanical ventilation with TH expression.||||>0.01
92171502|NCT00567398|184232135|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.019|TWO_SIDED|95.0|0.5|5.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 3||5.8|0.5|0.019
92171503|NCT00567398|184232135|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.019|TWO_SIDED|95.0|0.5|5.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 6||5.6|0.5|0.019
92443926|NCT03317431|184772998|SUPERIORITY||||||>|0.01|||||||Regression, Linear|||Analysis the relationship between the duration of mechanical ventilation with DDC expression.||||>0.01
92443927|NCT03317431|184772999|SUPERIORITY||||||<|0.01|||||||Regression, Linear|||Analysis the relationship between the duration of mechanical ventilation with Ac-a-tubulin expression.||||<0.01
92443928|NCT00544076|184773068|EQUIVALENCE|The equivalence margin that would be possible to detect (had the protocol reached intended accrual) was 20%,|||||>|0.1||||||no adjustments were made.|Fisher Exact|||||||>0.1
92443929|NCT00544076|184773069|OTHER||||||>|0.1||||||no adjustments done|Chi-squared|no adjustments||compare percentage of patients potent at 6 and 18 months across pairs of treatment arms (arm I vs arm II, arm I vs arm III, arm II vs arm III)||||>0.1
92443930|NCT00544076|184773070|OTHER||||||>|0.2||||||no adjustments done.|ANOVA|||||||>0.2
92443931|NCT00544076|184773071|OTHER||Mean Difference (Final Values)|0.08||||0.08|TWO_SIDED|||||no adjustments|ANOVA|no adjustments for df||"ANOVA test to compare difference of penile length (from baseline to month 18) across arms.~calculations are underpowered, as study did not accrue or retain patients as intended, and many patients declined to have measurements taken."||||0.08
92239012|NCT00623467|184382208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51|STANDARD_DEVIATION|1.32|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92443932|NCT02907359|184773072|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6063|TWO_SIDED|95.0|0.74|1.19||OS between Guadecitabine vs Treatment Choice using stratified log-rank test. Due to pre-specified hierarchical testing plan, other endpoints were not evaluated for statistical significance.|Stratified Log-rank test|||||1.19|0.74|0.6063
92443933|NCT00746941|184773097|SUPERIORITY_OR_OTHER|||||||0.7132|||||||Student's t-test|||||||0.7132
92443934|NCT00746941|184773098|SUPERIORITY_OR_OTHER|||||||0.9086|||||||Student's t-test|||||||0.9086
92443935|NCT01774786|184773213|SUPERIORITY|The study was designed to have 80% power to show a significant difference with respect to the primary endpoint.|Hazard Ratio (HR)|0.84||||0.0565|TWO_SIDED|95.0|0.71|1.0||The actual p-value significance threshold required for OS was 0.0455, after alpha spent at the interim analysis was taken into account.|Stratified Log-Rank|Stratified analysis by geographic region, HER2 status, and prior gastrectomy.|HR was calculated as pertuzumab arm vs. placebo arm.|Primary Analysis. The null hypothesis is that the survival distribution of OS is the same in the two treatment arms.||1.00|0.71|0.0565
92239013|NCT00623467|184382208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|1.27|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92239014|NCT00623467|184382208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_DEVIATION|0.99|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92443936|NCT01774786|184773213|OTHER|Exploratory|Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.72|0.99|||||HR was calculated as pertuzumab arm vs. placebo arm. Stratified analysis by geographic region, HER2 status, and prior gastrectomy.|Final Analysis||0.99|0.72|
92443937|NCT01774786|184773214|SUPERIORITY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.62|0.86||As pre-specified in the protocol, a p-value was only to be calculated for PFS if OS was statistically significant.|||A stratified Cox proportional hazards regression model was used to estimate the HR between the pertuzumab arm vs. the placebo arm.|Primary Analysis||0.86|0.62|
92443938|NCT01774786|184773214|OTHER|Exploratory|Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.62|0.85|||||A stratified Cox proportional hazards regression model was used to estimate the HR between the pertuzumab arm vs. the placebo arm.|Final Analysis||0.85|0.62|
92443939|NCT01774786|184773215|OTHER|Exploratory|Difference in Objective Response|8.4|||||TWO_SIDED|95.0|0.89|15.91|||||Difference in objective response was calculated as the pertuzumab arm minus placebo arm.|Primary Analysis of Objective Response Rate||15.91|0.89|
92443940|NCT01774786|184773215|OTHER|Exploratory|Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|1.04|1.89|||||Odds ratio was calculated as the pertuzumab arm vs. placebo arm.|Primary Analysis of Objective Response Rate||1.89|1.04|
92443941|NCT01774786|184773216|OTHER|Exploratory|Difference in Objective Response|8.4|||||TWO_SIDED|95.0|0.89|15.91|||||Difference in objective response was calculated as the pertuzumab arm minus placebo arm.|Final Analysis of Objective Response Rate||15.91|0.89|
92443942|NCT01774786|184773216|OTHER|Exploratory|Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|1.04|1.89|||||Odds ratio was calculated as the pertuzumab arm vs. placebo arm.|Final Analysis of Objective Response Rate||1.89|1.04|
92443943|NCT01774786|184773217|OTHER|Exploratory|Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.64|1.06|||||HR was calculated as pertuzumab arm vs. placebo arm. Stratified analysis by geographic region, HER2 status, and prior gastrectomy.|Primary Analysis||1.06|0.64|
92443944|NCT01774786|184773217|OTHER|Exploratory|Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.62|0.98|||||HR was calculated as pertuzumab arm vs. placebo arm. Stratified analysis by geographic region, HER2 status, and prior gastrectomy.|Final Analysis||0.98|0.62|
92443945|NCT01774786|184773218|OTHER|Exploratory|Difference in Clinical Benefit Rate|3.37|||||TWO_SIDED|95.0|-2.34|9.07|||||Difference in clinical benefit rate was calculated as the pertuzumab arm minus placebo arm.|||9.07|-2.34|
92443946|NCT01774786|184773218|OTHER|Exploratory|Odds Ratio (OR)|1.27|||||TWO_SIDED|95.0|0.86|1.88|||||Odds ratio was calculated as the pertuzumab arm vs. placebo arm.|||1.88|0.86|
92443947|NCT04544293|184773233|SUPERIORITY||Mean Difference (Net)|6.0||||0.0007|TWO_SIDED|95.0|2.5|9.4|||Mixed Models Analysis|Modelled using MMRM adjusted for baseline % predicted DLCOadj, treatment, visit, region, severity stratification and treatment-visit interaction.|Difference from placebo|||9.4|2.5|0.0007
92443948|NCT04544293|184773234|SUPERIORITY||Mean Difference (Net)|6.9||||0.0008|TWO_SIDED|95.0|2.9|10.9||Modelled using MMRM adjusted for baseline % predicted DLCOadj, treatment, visit, region, severity stratification and treatment-visit interaction.|Mixed Models Analysis||Difference from Placebo|||10.9|2.9|0.0008
92443949|NCT04544293|184773235|SUPERIORITY||Mean Difference (Net)|-6.59||||0.0072|TWO_SIDED|95.0|-11.4|-1.79|||Mixed Models Analysis|||||-1.79|-11.40|0.0072
92443950|NCT04544293|184773236|SUPERIORITY||Mean Difference (Net)|-7.81||||0.0149|TWO_SIDED|95.0|-14.1|-1.52|||Mixed Models Analysis|||||-1.52|-14.10|0.0149
92239015|NCT00623467|184382209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_DEVIATION|0.48|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92239016|NCT00623467|184382209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|STANDARD_DEVIATION|0.46|<|0.0001||||||for border delineation|paired t test|||||||<0.0001
92443951|NCT04544293|184773237|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.0845|TWO_SIDED|95.0|-0.06|0.89|||Mixed Models Analysis|||||0.89|-0.06|0.0845
92443952|NCT04544293|184773238|SUPERIORITY||Mean Difference (Net)|-4.87||||0.1046|TWO_SIDED|95.0|-10.76|1.01|||Mixed Models Analysis|||||1.01|-10.76|0.1046
92443953|NCT04544293|184773239|SUPERIORITY||Mean Difference (Net)|-5.99||||0.1216|TWO_SIDED|95.0|-13.57|1.59|||Mixed Models Analysis|||||1.59|-13.57|0.1216
92443954|NCT04544293|184773240|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.0234|TWO_SIDED|95.0|0.07|1.03|||Mixed Models Analysis||Change from baseline compared to placebo.|||1.03|0.07|0.0234
92443955|NCT04544293|184773241|SUPERIORITY||Mean Difference (Final Values)|-4.01||||0.1043|TWO_SIDED|95.0|-8.84|0.83|||Mixed Models Analysis|||||0.83|-8.84|0.1043
92443956|NCT03556579|184773247|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|95.0|-1.01|-0.36|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|Without Distance Filter||-0.36|-1.01|
92443957|NCT03556579|184773247|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-1.13|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|95.0|-1.45|-0.81|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|Without Distance Filter||-0.81|-1.45|
92443958|NCT03556579|184773248|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-8.86|STANDARD_ERROR_OF_MEAN|2.173|||TWO_SIDED|95.0|-13.16|-4.55|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|||-4.55|-13.16|
92443959|NCT03556579|184773248|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-24.93|STANDARD_ERROR_OF_MEAN|2.173|||TWO_SIDED|95.0|-29.24|-20.62|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|||-20.62|-29.24|
92443960|NCT03556579|184773249|SUPERIORITY|"Superiority was concluded if the lower limit of the 95% confidence interval was above 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|95.0|0.15|0.23|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test minus Control|||0.23|0.15|
92443961|NCT03556579|184773250|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Ratio|0.55|||||TWO_SIDED|95.0|0.46|0.65|||Generalized linear mixed model|Generalized Linear mixed model with a lognormal distribution using the Kenward and Roger method for the denominator degrees of freedom.||||0.65|0.46|
92443962|NCT03556579|184773251|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|-1.07|-0.15|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test minus Control|||-0.15|-1.07|
92443963|NCT03556579|184773252|SUPERIORITY|"Superiority was concluded if the lower limit of the 95% confidence interval was above 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|95.0|0.14|0.23|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test minus Control|||0.23|0.14|
92443964|NCT03556579|184773253|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-30.56|STANDARD_ERROR_OF_MEAN|2.555|||TWO_SIDED|95.0|-31.66|-25.46|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test minus Control.|||-25.46|-31.66|
92443965|NCT03556579|184773253|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-15.38|STANDARD_ERROR_OF_MEAN|2.555|||TWO_SIDED|95.0|-20.48|-10.27|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test Minus Control.|||-10.27|-20.48|
92443966|NCT00744627|184773258|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.81|STANDARD_ERROR_OF_MEAN|0.981|<|0.001|TWO_SIDED|95.0|-5.74|-1.88||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis.||P-values were tested at the 5% level of significance (ie, statistical significance if P\<0.05). To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.05, the testing procedure stopped for all subsequent endpoints.||-1.88|-5.74|<0.001
92443967|NCT00744627|184773259|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.555|<|0.001|TWO_SIDED|95.0|-3.39|-1.2||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis||||-1.20|-3.39|<0.001
92443968|NCT00744627|184773260|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.138|<|0.001|TWO_SIDED|95.0|-0.73|-0.19||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis.||||-0.19|-0.73|<0.001
92443969|NCT00744627|184773261|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.96|STANDARD_ERROR_OF_MEAN|0.901||0.031|TWO_SIDED|95.0|-3.74|-0.18||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis.||||-0.18|-3.74|0.031
92171504|NCT00567398|184232136|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.884|TWO_SIDED|95.0|-3.9|3.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 3||3.4|-3.9|0.884
92443970|NCT00744627|184773262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.393|||<|0.001|TWO_SIDED|95.0|1.496|3.83||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||3.830|1.496|<0.001
92171505|NCT00567398|184232136|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.716|TWO_SIDED|95.0|-3.0|4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 6||4.3|-3|0.716
92239017|NCT00623467|184382209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62|STANDARD_DEVIATION|0.32|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92239018|NCT00623467|184382210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.35|STANDARD_DEVIATION|0.4|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92171506|NCT00567398|184232137|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.961|TWO_SIDED|95.0|-1.2|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 3||1.1|-1.2|0.961
92239019|NCT00623467|184382210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27|STANDARD_DEVIATION|0.38|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92443971|NCT00744627|184773263|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|1.267|<|0.001|TWO_SIDED|95.0|-7.61|-2.6||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis.||||-2.60|-7.61|<0.001
92443972|NCT00744627|184773264|SUPERIORITY_OR_OTHER||LS Mean Difference|8.78|STANDARD_ERROR_OF_MEAN|2.774||0.002|TWO_SIDED|95.0|3.32|14.25||SF-36 social functioning subscore was the last endpoint to be tested in the hierarchical testing sequence.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis.||Results presented are for the number of participants at week 8 only.||14.25|3.32|0.002
92443973|NCT02968979|184773318|OTHER|||||||0.0032|||||||likelihood-ratio test|||Statistical analysis applies to all rows and columns.||||0.0032
92443974|NCT02968979|184773318|OTHER|||||||0.0008|||||||Chi-squared|||"Statistical Analysis 2 for Frequency of the Different Stages of Cachexia, excluding the refractory cachexia stage, in the General NSCLC Population According to Molecular Abnormalities Associated With NSCLC.~Statistical analysis applies to all rows and columns."||||0.0008
92443975|NCT02968979|184773328|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||Statistical analysis compares all cachexia stages.||||<0.0001
92443976|NCT02968979|184773328|OTHER||||||<|0.0001||||||Without refractory cachexia|Kruskal-Wallis|Without refractory cachexia||Statistical analysis compares all cachexia stages.||||<0.0001
92443977|NCT02968979|184773328|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||Statistical analysis compares all cachexia stages.||||<0.0001
92443978|NCT02968979|184773328|OTHER||||||<|0.0001||||||Without refractory cachexia|Kruskal-Wallis|Without refractory cachexia||Statistical analysis compares all cachexia stages.||||<0.0001
92443979|NCT02968979|184773328|OTHER|||||||0.1085|||||||Kruskal-Wallis|||Statistical analysis compares all cachexia stages.||||0.1085
92443980|NCT02968979|184773328|OTHER|||||||0.0482||||||Without refractory cachexia|Kruskal-Wallis|Without refractory cachexia||Statistical analysis compares all cachexia stages.||||0.0482
92443981|NCT02968979|184773328|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||Statistical analysis compares all cachexia stages.||||<0.0001
92443982|NCT02968979|184773328|OTHER||||||<|0.0001||||||Without refractory cachexia|Kruskal-Wallis|Without refractory cachexia||Statistical analysis compares all cachexia stages.||||<0.0001
92443983|NCT02968979|184773328|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||Statistical analysis compares all cachexia stages.||||<0.0001
92239020|NCT00623467|184382210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17|STANDARD_DEVIATION|0.34|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92239021|NCT00623467|184382211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.21|STANDARD_DEVIATION|0.37|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92239022|NCT00623467|184382211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07|STANDARD_DEVIATION|0.45|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92239023|NCT00623467|184382211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72|STANDARD_DEVIATION|0.3|<|0.0001||||||for internal morphology|paired t test|||||||<0.0001
92443984|NCT02968979|184773328|OTHER||||||<|0.0001||||||Without refractory cachexia|Kruskal-Wallis|Without refractory cachexia||Statistical analysis compares all cachexia stages.||||<0.0001
92443985|NCT00788827|184773343|OTHER||||||<|0.05|||||||Mixed Models Analysis|||Each participants Hba1c (%) lab result was analysed pre and post stem cell infusion to achieve 2 mean readings per participant.||||<0.05
92443986|NCT04448210|184773360|SUPERIORITY||||||<|0.25|||||||ANOVA|||||||<.25
92443987|NCT04448210|184773361|SUPERIORITY|||||||0.72|||||||ANOVA|||||||.72
92443988|NCT04448210|184773362|SUPERIORITY|||||||0.16|||||||ANOVA|||||||.16
92443989|NCT04448210|184773363|SUPERIORITY|||||||0.43|||||||ANOVA|||||||.43
92443990|NCT04448210|184773364|SUPERIORITY|||||||0.69|||||||ANOVA|||||||.69
92443991|NCT04448210|184773365|SUPERIORITY|||||||0.38|||||||ANOVA|||||||.38
92443992|NCT04448210|184773366|SUPERIORITY|||||||0.94|||||||ANOVA|||||||.94
92443993|NCT04448210|184773367|SUPERIORITY|||||||0.94|||||||ANOVA|||||||.94
92443994|NCT04448210|184773368|SUPERIORITY|||||||0.3|||||||ANOVA|||||||.30
92443995|NCT01324349|184773418|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.0|||<|0.0001|||||||Log Rank||Median difference equals control median minus Hemostatic Patch median in minutes.|The primary effectiveness endpoint was time to hemostasis. The Kaplan-Meier method was used to estimate the survival distribution and to obtain the estimated median time to hemostasis for each treatment. Subjects who did not achieve hemostasis by 10 minutes were to be censored as of that time point. For each treatment, 95% Brookmeyer-Crowley confidence intervals for the median were computed based upon the sign test.||||<0.0001
92443996|NCT01324349|184773419|SUPERIORITY_OR_OTHER||Risk Difference (RD)|23.2||||0.0339|TWO_SIDED|95.0|1.9|47.3|||Suissa and Shuster test||Risk difference equals percentage hemostasis for Hemostatic Patch minus percentage hemostasis for control.|The secondary effectiveness endpoint was hemostasis within 3 minutes. The number and percentage of subjects who achieved hemostasis within 3 minutes are presented for each treatment group. The proportions of subjects who achieved hemostasis within 3 minutes were compared between treatments using the Suissa and Shuster test. Additionally, a 95% Blyth-Still-Casella confidence interval for the true proportion was computed for each treatment.||47.3|1.9|0.0339
92443997|NCT01324349|184773420|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.5||||0.5029|||||||Fisher Exact||Risk difference equals percent of subjects with any treatment emergent adverse events in control group minus percent of subjects with any treatment emergent adverse events in Hemostatic Patch group.|The incidence of subjects experiencing treatment-emergent adverse events (TEAEs) (defined under this protocol as Adverse Events) was summarized by MedDRA system organ class (SOC) and preferred term (PT) for each treatment group for the safety population. Tests for differences between the two treatments in the proportion of subjects experiencing any adverse event were made using Fisher's Exact Test.||||0.5029
92443998|NCT00851799|184773421|SUPERIORITY_OR_OTHER||Difference in annual rate of change|-4.7||||0.013|TWO_SIDED|97.5|-8.9|-0.4||Inference was assessed against a type I error of 2.5% to account for multiple comparisons.|Mixed Models Analysis||The difference in the rate of CIMT change (Cohort A: ATV/RTV + FTC/TDF - Cohort C: DRV/RTV + FTC/TDF) was estimated by mixed effects linear regression model that adjusted for screening HIV-1 RNA level and Framingham risk score stratification factors.|The primary hypothesis was that rate of change of CIMT would be faster over 144 weeks in participants initiating a RTV-boosted protease inhibitor-containing regimen (the pooled ATV/RTV and DRV/RTV groups) compared with a RAL-containing regimen. However, In the event of a significant difference between ATV/RTV and DRV/RTV groups, the study was designed to make all pairwise treatment group comparisons.||-0.4|-8.9|0.013
92446811|NCT00280566|184780546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.93||0.5954|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.5954
92239024|NCT00623467|184382212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.32|STANDARD_DEVIATION|0.34|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92239025|NCT00623467|184382212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09|STANDARD_DEVIATION|0.3|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92239026|NCT00623467|184382212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.84|STANDARD_DEVIATION|0.22|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92239027|NCT00623467|184382214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|STANDARD_DEVIATION|1.0|<|0.0001||||||for border delineation|paired t-test|||||||< 0.0001
92443999|NCT00851799|184773421|SUPERIORITY_OR_OTHER||Difference in annual rate of change|-2.8||||0.15|TWO_SIDED|97.5|-7.0|1.5||Inference was assessed against a type I error of 2.5% to account for multiple comparisons.|Mixed Models Analysis||The difference in the rate of CIMT change (Cohort A: ATV/RTV + FTC/TDF - Cohort B: RAL + FTC/TDF) was estimated by mixed effects linear regression model that adjusted for screening HIV-1 RNA level and Framingham risk score stratification factors.|The primary hypothesis was that rate of change of CIMT would be faster over 144 weeks in participants initiating a RTV-boosted protease inhibitor-containing regimen (the pooled ATV/RTV and DRV/RTV groups) compared with a RAL-containing regimen. However, In the event of a significant difference between ATV/RTV and DRV/RTV groups, the study was designed to make all pairwise treatment group comparisons.||1.5|-7.0|0.15
92444000|NCT00851799|184773421|SUPERIORITY_OR_OTHER||Difference in annual rate of change|1.9||||0.31|TWO_SIDED|97.5|-2.4|6.2||Inference was assessed against a type I error of 2.5% to account for multiple comparisons.|Mixed Models Analysis||The difference in the rate of CIMT change (Cohort C: DRV/RTV + FTC/TDF - Cohort B: RAL + FTC/TDF) was estimated by mixed effects linear regression model that adjusted for screening HIV-1 RNA level and Framingham risk score stratification factors.|The primary hypothesis was that rate of change of CIMT would be faster over 144 weeks in participants initiating a RTV-boosted protease inhibitor-containing regimen (the pooled ATV/RTV and DRV/RTV groups) compared with a RAL-containing regimen. However, In the event of a significant difference between ATV/RTV and DRV/RTV groups, the study was designed to make all pairwise treatment group comparisons.||6.2|-2.4|0.31
92444001|NCT00851799|184773422|SUPERIORITY_OR_OTHER||Difference in Change|0.24||||0.53|TWO_SIDED|97.5|-0.63|1.11||Inference was assessed against a type I error of 2.5% to account for multiple comparisons.|Regression, Linear||The difference in change in relative FMD (Cohort A: ATV/RTV+FTC/TDF - Cohort C: DRV/RTV+FTC/TDF); estimated by linear regression that adjusted for study entry BA diameter and screening HIV-1 RNA level and Framingham risk score stratification factors.|The study was designed to compare change from study entry to week 24 in brachial artery (BA) flow mediated dilation (FMD) between a RTV-boosted protease inhibitor-containing regimen (the pooled ATV/RTV and DRV/RTV groups) and a RAL-containing regimen. However, in the event of a significant difference between ATV/RTV and DRV/RTV groups, the study was designed to make all pairwise treatment group comparisons.||1.11|-0.63|0.53
92239028|NCT00623467|184382214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66|STANDARD_DEVIATION|0.9|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92280166|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|2.41||0.3832|TWO_SIDED|95.0|-6.9|2.7||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Core: Change from Baseline in HAM-D Subscale Score at Day 3||2.7|-6.9|0.3832
92239029|NCT00623467|184382215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|STANDARD_DEVIATION|0.63|<|0.0001||||||for border delineation|paired t-test|||||||< 0.0001
92239030|NCT00623467|184382215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|STANDARD_DEVIATION|0.64|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92239031|NCT00623467|184382216|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.4||||0.0002|||||||McNemar|||||||0.0002
92239032|NCT00623467|184382217|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.3||||0.0001|||||||McNemar|||||||0.0001
92239033|NCT00623467|184382218|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.0||||0.0285|||||||McNemar|||||||0.0285
92239034|NCT00623467|184382219|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.5||||0.0004|||||||McNemar|||||||0.0004
92239035|NCT00623467|184382220|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-12.5||||0.0588|||||||McNemar|||||||0.0588
92239036|NCT00623467|184382221|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.0||||0.0093|||||||McNemar|||||||0.0093
92239037|NCT00623467|184382222|SUPERIORITY_OR_OTHER||Risk Difference (RD)|20.6||||0.0003|||||||McNemar|||||||0.0003
92239038|NCT00623467|184382223|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||1|||||||McNemar|||||||1.0000
92239039|NCT00623467|184382224|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.8||||0.0016|||||||McNemar|||||||0.0016
92239040|NCT00623467|184382225|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.9||||0.0253|||||||McNemar|||||||0.0253
92239041|NCT00623467|184382226|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.5||||0.0253|||||||McNemar|||||||0.0253
92239042|NCT00623467|184382227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_DEVIATION|0.7|<|0.0001|||||||paired t-test|||||||< 0.0001
92239043|NCT00623467|184382228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.84|STANDARD_DEVIATION|0.81|<|0.0001|||||||paired t-test|||||||< 0.0001
92239044|NCT03691623|184382240|SUPERIORITY||LS Mean Difference|-588.08|||<|0.001|TWO_SIDED|95.0|-719.8|-456.35|||ANCOVA|||||-456.35|-719.8|< 0.001
92239045|NCT03691623|184382240|SUPERIORITY||LS Mean Difference|-564.63|||<|0.001|TWO_SIDED|95.0|-689.23|-440.02|||ANCOVA|||||-440.02|-689.23|< 0.001
92239046|NCT03691623|184382240|SUPERIORITY||LS Mean Difference|-716.08|||<|0.001|TWO_SIDED|95.0|-879.92|-552.24|||ANCOVA|||||-552.24|-879.92|< 0.001
92239047|NCT03691623|184382240|SUPERIORITY||LS Mean Difference|-736.23|||<|0.001|TWO_SIDED|95.0|-916.36|-556.11|||ANCOVA|||||-556.11|-916.36|< 0.001
92239048|NCT03691623|184382241|SUPERIORITY||LS Mean Difference|-355.91|||<|0.001|TWO_SIDED|95.0|-506.12|-205.69|||ANCOVA|||||-205.69|-506.12|< 0.001
92239049|NCT03691623|184382241|SUPERIORITY||LS Mean Difference|-326.64|||<|0.001|TWO_SIDED|95.0|-469.68|-183.6|||ANCOVA|||||-183.6|-469.68|< 0.001
92239050|NCT03691623|184382241|SUPERIORITY||LS Mean Difference|-313.98|||=|0.001|TWO_SIDED|95.0|-494.27|-133.69|||ANCOVA|||||-133.69|-494.27|= 0.001
92239051|NCT03691623|184382241|SUPERIORITY||LS Mean Difference|-312.73|||=|0.003|TWO_SIDED|95.0|-508.05|-117.4|||ANCOVA|||||-117.4|-508.05|= 0.003
92444002|NCT00851799|184773422|SUPERIORITY_OR_OTHER||Difference in Change (%)|-0.21||||0.53|TWO_SIDED|97.5|-0.98|0.55||Inference was assessed against a type I error of 2.5% to account for multiple comparisons.|Regression, Linear||The difference in change in relative FMD (Cohort B - Cohort A and C); estimated by linear regression that adjusted for study entry BA diameter and screening HIV-1 RNA level and Framingham risk score stratification factors.|The study was designed to compare change from study entry to week 24 in brachial artery (BA) flow mediated dilation (FMD) between a RTV-boosted protease inhibitor-containing regimen (the pooled ATV/RTV and DRV/RTV groups) and a RAL-containing regimen. However, in the event of a significant difference between ATV/RTV and DRV/RTV groups, the study was designed to make all pairwise treatment group comparisons.||0.55|-0.98|0.53
92444003|NCT04365556|184773460|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance is p\<.05|ANCOVA|||||||<0.001
92444004|NCT04365556|184773461|SUPERIORITY|||||||0.69|||||||ANCOVA|||||||0.69
92444005|NCT04920123|184773527|SUPERIORITY|||||||0.997||||||The threshold for statistical significance was p=0.05|t-test, 1 sided|||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.997
92444006|NCT04920123|184773528|SUPERIORITY|||||||0.5||||||The threshold for statistical significance was p=0.05|t-test, 1 sided|||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.500
92444007|NCT04920123|184773529|SUPERIORITY|||||||0.821||||||The threshold for statistical significance was p=0.05|t-test, 1 sided|||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.821
92444008|NCT04920123|184773530|SUPERIORITY|||||||0.995||||||The threshold for statistical significance was p=0.05|t-test, 1 sided|||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.995
92444009|NCT04920123|184773531|NON_INFERIORITY|Higher scores indicate more severe depression.||||||0.076|||||||t-test, 1 sided|||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.076
92444010|NCT04920123|184773532|SUPERIORITY|||||||0.432|||||||t-test, 1 sided|The threshold for statistical significance was p=0.05||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.432
92444011|NCT04920123|184773533|SUPERIORITY|Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||||0.75|||||||t-test, 1 sided|||||||0.750
92239052|NCT03691623|184382242|SUPERIORITY||LS Mean Difference|-3.7|||<|0.001|TWO_SIDED|95.0|-5.3|-2.0|||ANCOVA|||||-2|-5.3|< 0.001
92239053|NCT03691623|184382242|SUPERIORITY||LS Mean Difference|-3.9|||<|0.001|TWO_SIDED|95.0|-5.5|-2.4|||ANCOVA|||||-2.4|-5.5|< 0.001
92444012|NCT03249779|184773563|SUPERIORITY|||||||0.0396|||||||t-test, 2 sided|||||||0.0396
92444013|NCT03249779|184773564|SUPERIORITY|||||||0.133|||||||t-test, 2 sided|||||||0.1330
92444014|NCT01604343|184773572|SUPERIORITY_OR_OTHER||Percentage Difference|28.4|||<|0.001|TWO_SIDED|95.0|22.8|33.8|||Cochran-Mantel-Haenszel|||||33.8|22.8|< 0.001
92444015|NCT01604343|184773572|SUPERIORITY_OR_OTHER||Percentage Difference|27.1|||<|0.001|TWO_SIDED|95.0|21.6|32.6|||Cochran-Mantel-Haenszel|||||32.6|21.6|< 0.001
92444016|NCT01604343|184773573|SUPERIORITY_OR_OTHER||||||<|0.001|||||||van der waerden ANOVA|||||||< 0.001
92444017|NCT01604343|184773573|SUPERIORITY_OR_OTHER||||||<|0.001|||||||van der waerden ANOVA|||||||< 0.001
92444018|NCT01604343|184773574|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.226|||<|0.001|TWO_SIDED|95.0|-0.29|-0.17|||ANCOVA|||||-0.17|-0.29|<0.001
92444019|NCT01604343|184773574|SUPERIORITY_OR_OTHER||LS mean difference|-0.256|||<|0.001|TWO_SIDED|95.0|-0.32|-0.2|||ANCOVA|||||-0.20|-0.32|<0.001
92444020|NCT01604343|184773575|SUPERIORITY_OR_OTHER||Percentage Difference|17.8|||<|0.001|TWO_SIDED|95.0|13.1|22.4|||Cochran-Mantel-Haenszel|||||22.4|13.1|< 0.001
92444021|NCT01604343|184773575|SUPERIORITY_OR_OTHER||Percentage Difference|20.8|||<|0.001|TWO_SIDED|95.0|16.1|25.6|||Cochran-Mantel-Haenszel|||||25.6|16.1|< 0.001
92444022|NCT01604343|184773576|SUPERIORITY_OR_OTHER||Percentage Difference|20.5|||<|0.001|TWO_SIDED|95.0|16.4|24.6|||Cochran-Mantel-Haenszel|||||24.6|16.4|< 0.001
92444023|NCT01604343|184773576|SUPERIORITY_OR_OTHER||Percentage Difference|19.9|||<|0.001|TWO_SIDED|95.0|15.8|24.0|||Cochran-Mantel-Haenszel|||||24.0|15.8|< 0.001
92444024|NCT01604343|184773577|SUPERIORITY_OR_OTHER||Percentage Difference|3.6||||0.001|TWO_SIDED|95.0|1.4|5.8|||Cochran-Mantel-Haenszel|||||5.8|1.4|0.001
92444025|NCT01604343|184773577|SUPERIORITY_OR_OTHER||Percentage Difference|7.2|||<|0.001|TWO_SIDED|95.0|4.6|9.8|||Cochran-Mantel-Haenszel|||||9.8|4.6|< 0.001
92444026|NCT00436748|184773606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Exact|||The null hypothesis for the Darbepoetin Alfa QW group was that the correction proportion (p) ≤ 0.8 ; Th alternative hypothesis was that p \> 0.8. The correction proportion was compared with 0.8 using the exact method to test the null hypothesis at a 1-sided overall significance level of 0.025.||||<0.001
92444027|NCT00436748|184773606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.293|||||||Exact|||The null hypothesis for the Darbepoetin Alfa Q2W group was that the correction proportion (p) ≤ 0.8 ; Th alternative hypothesis was that p \> 0.8. The correction proportion was compared with 0.8 using the exact method to test the null hypothesis at a 1-sided overall significance level of 0.025.||||0.293
92444028|NCT03754959|184773688|OTHER||Ratio|97.9|||||TWO_SIDED|90.0|90.2|106.2|||||Ratio is calculated with Placebo+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||106.2|90.2|
92444029|NCT03754959|184773688|OTHER||Ratio|95.9|||||TWO_SIDED|90.0|89.9|102.4|||||Ratio is calculated with BI 1358894 10 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|||102.4|89.9|
92444030|NCT03754959|184773688|OTHER||Ratio|101.0|||||TWO_SIDED|90.0|96.3|106.1|||||Ratio is calculated with BI 1358894 25 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||106.1|96.3|
92444031|NCT03754959|184773688|OTHER||Ratio|93.7|||||TWO_SIDED|90.0|86.8|101.1|||||Ratio is calculated with BI 1358894 50 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||101.1|86.8|
92444032|NCT03754959|184773688|OTHER||Ratio|93.1|||||TWO_SIDED|90.0|87.3|99.3|||||Ratio is calculated with BI 1358894 100 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||99.3|87.3|
92444033|NCT03754959|184773688|OTHER||Ratio|90.0|||||TWO_SIDED|90.0|83.8|96.7|||||Ratio is calculated with BI 1358894 200 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||96.7|83.8|
92444034|NCT03754959|184773689|OTHER||Ratio|105.7|||||TWO_SIDED|90.0|95.6|116.9|||||Ratio is calculated with Placebo+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||116.9|95.6|
92444035|NCT03754959|184773689|OTHER||Ratio|117.5|||||TWO_SIDED|90.0|106.5|129.6|||||Ratio is calculated with BI 1358894 10 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||129.6|106.5|
92444036|NCT03754959|184773689|OTHER||Ratio|112.6|||||TWO_SIDED|90.0|102.9|123.1|||||Ratio is calculated with BI 1358894 25 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||123.1|102.9|
92444037|NCT03754959|184773689|OTHER||Ratio|110.3|||||TWO_SIDED|90.0|90.1|135.1|||||Ratio is calculated with BI 1358894 50 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||135.1|90.1|
92239054|NCT03691623|184382242|SUPERIORITY||LS Mean Difference|-3.0|||=|0.002|TWO_SIDED|95.0|-4.9|-1.2|||ANCOVA|||||-1.2|-4.9|= 0.002
92444038|NCT03754959|184773689|OTHER||Ratio|96.4|||||TWO_SIDED|90.0|84.5|110.1|||||Ratio is calculated with BI 1358894 100 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||110.1|84.5|
92444039|NCT03754959|184773689|OTHER||Ratio|89.3|||||TWO_SIDED|90.0|74.9|106.4|||||Ratio is calculated with BI 1358894 200 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||106.4|74.9|
92239055|NCT03691623|184382242|SUPERIORITY||LS Mean Difference|-2.9|||=|0.006|TWO_SIDED|95.0|-4.9|-0.9|||ANCOVA|||||-0.9|-4.9|= 0.006
92444040|NCT03754959|184773690|OTHER||Ratio|98.3|||||TWO_SIDED|90.0|84.2|114.8|||||Ratio is calculated with Placebo+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||114.8|84.2|
92444041|NCT03754959|184773690|OTHER||Ratio|98.0|||||TWO_SIDED|90.0|87.9|109.3|||||Ratio is calculated with BI 1358894 10mg +Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||109.3|87.9|
92444042|NCT03754959|184773690|OTHER||Ratio|117.5|||||TWO_SIDED|90.0|102.6|134.6|||||Ratio is calculated with BI 1358894 25 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||134.6|102.6|
92444043|NCT03754959|184773690|OTHER||Ratio|94.5|||||TWO_SIDED|90.0|85.5|104.4|||||Ratio is calculated with BI 1358894 50 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||104.4|85.5|
92444044|NCT03754959|184773690|OTHER||Ratio|98.2|||||TWO_SIDED|90.0|87.3|99.3|||||Ratio is calculated with BI 1358894 100 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||99.3|87.3|
92444045|NCT03754959|184773690|OTHER||Ratio|98.0|||||TWO_SIDED|90.0|84.3|114.0|||||Ratio is calculated with BI 1358894 200 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||114.0|84.3|
92444046|NCT03754959|184773691|OTHER||Ratio|95.5|||||TWO_SIDED|90.0|81.3|112.1|||||Ratio is calculated with Placebo+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||112.1|81.3|
92239056|NCT03691623|184382244|SUPERIORITY||LS Mean Difference|-0.82|||=|0.199|TWO_SIDED|95.0|-2.09|0.44|||ANCOVA|||||0.44|-2.09|= 0.199
92444047|NCT03754959|184773691|OTHER||Ratio|105.7|||||TWO_SIDED|90.0|91.5|122.0|||||Ratio is calculated with BI 1358894 10mg +Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||122.0|91.5|
92239057|NCT03691623|184382244|SUPERIORITY||LS Mean Difference|0.22|||=|0.714|TWO_SIDED|95.0|-0.98|1.43|||ANCOVA|||||1.43|-0.98|= 0.714
92239058|NCT03691623|184382244|SUPERIORITY||LS Mean Difference|-0.19|||=|0.844|TWO_SIDED|95.0|-2.15|1.77|||ANCOVA|||||1.77|-2.15|= 0.844
92239059|NCT03691623|184382244|SUPERIORITY||LS Mean Difference|-1.34|||=|0.21|TWO_SIDED|95.0|-3.46|0.79|||ANCOVA|||||0.79|-3.46|= 0.21
92239060|NCT03691623|184382245|SUPERIORITY||LS Mean Difference|-1.01|||=|0.145|TWO_SIDED|95.0|-2.37|0.36|||ANCOVA|||||0.36|-2.37|= 0.145
92239061|NCT03691623|184382245|SUPERIORITY||LS Mean Difference|-0.65|||=|0.352|TWO_SIDED|95.0|-2.03|0.73|||ANCOVA|||||0.73|-2.03|= 0.352
92444048|NCT03754959|184773691|OTHER||Ratio|116.3|||||TWO_SIDED|90.0|90.9|148.7|||||Ratio is calculated with BI 1358894 25 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||148.7|90.9|
92444049|NCT03754959|184773691|OTHER||Ratio|106.8|||||TWO_SIDED|90.0|92.4|123.4|||||Ratio is calculated with BI 1358894 50 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||123.4|92.4|
92444050|NCT03754959|184773691|OTHER||Ratio|83.9|||||TWO_SIDED|90.0|71.2|98.9|||||Ratio is calculated with BI 1358894 100 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||98.9|71.2|
92444051|NCT03754959|184773691|OTHER||Ratio|87.2|||||TWO_SIDED|90.0|73.5|103.5|||||Ratio is calculated with BI 1358894 200 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||103.5|73.5|
92444052|NCT00449956|184773700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||||95.0|-1.3|-0.06|||||An analysis of covariance model with a factor for treatment and time-matched baseline as a covariate was used to compute 95% confidence intervals.|||-0.06|-1.30|
92280167|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|2.6||0.0415|TWO_SIDED|95.0|-10.5|-0.2||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Core: Change from Baseline in HAM-D Subscale Score at Day 8||-0.2|-10.5|0.0415
92444053|NCT00449956|184773700|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 1.2 mmHg|Mean Difference (Final Values)|0.28||||||95.0|-0.22|0.78|||||An analysis of covariance model with a factor for treatment and time-matched baseline as a covariate was used to compute 95% confidence intervals.|||0.78|-0.22|
92444054|NCT03167879|184773703|SUPERIORITY||Odds Ratio (OR)|10.63|||||TWO_SIDED|95.0|2.79|40.49||||||||40.49|2.79|
92444055|NCT03167879|184773704|SUPERIORITY||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.25|2.09||||||||2.09|0.25|
92444056|NCT03167879|184773705|SUPERIORITY||Odds Ratio (OR)|2.23|||||TWO_SIDED|95.0|0.02|257.6||||||||257.6|0.02|
92444057|NCT01067768|184773709|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.5|1.3|||||The primary outcome analysis was performed using relative risk (RR) between the rate of urinary tract infection per 1,000 days of exposure of the test subjects to intervention and that of patients undergoing routine care.|The sample size was calculated for the primary outcome. An infection rate 15 per 1,000 urinary catheter days in the control group and an expected reduction in the intervention group 40% clinically important effect. Mapping one to one, 5% alpha error and beta error 20%.||1.3|0.50|
92444058|NCT01067768|184773710|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||The difference between groups was evaluated with a U test Mann Whitney. The difference was statistically significant with p values less than 0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis: On average catheterization are the same in patients with daily review of the indication and control group patients||||0.016
92444059|NCT02972632|184773712|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 6 relative to baseline||||<0.001
92444060|NCT02972632|184773712|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
92444061|NCT02972632|184773713|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 6 relative to baseline||||<0.001
92444062|NCT02972632|184773713|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
92444063|NCT02972632|184773714|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 6 relative to baseline||||<0.001
92444064|NCT02972632|184773714|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
92444065|NCT02972632|184773715|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
92444066|NCT02972632|184773716|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
92444067|NCT02972632|184773717|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
92444068|NCT03450707|184773746|OTHER||Mean Difference (Final Values)|0.34||||0.72|TWO_SIDED|95.0|-1.82|2.5||"Mixed model controlling for repeated measures within patients used to get a mean difference in lactate between the thiamine and placebo groups at 24 hours.~Lactate imputed using a penalty (20pc increase) for patients who expired."|Mixed Models Analysis|P-value is for the comparison at 24 hours from the mixed model (i.e, not a global p-value)||||2.50|-1.82|0.72
92444069|NCT03450707|184773747|OTHER||Mean Difference (Final Values)|-0.38||||0.43|TWO_SIDED|95.0|-1.34|0.58|||Regression, Linear|||As AUC-VO2s turned out to be normally distributed, we used a linear regression model to compare mean AUC-VO2s between treatment groups controlling for average temperature.||0.58|-1.34|0.43
92444070|NCT03450707|184773748|OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank-sum test, testing the null hypothesis that there is no difference in the distribution of 72-hour lactates between thiamine and placebo groups.|No parameter estimated other than p-value = 0.88 from Wilcoxon rank-sum test.|||0.88
92444071|NCT03450707|184773749|OTHER||Mean Difference (Final Values)|0.4||||0.072|TWO_SIDED|95.0|0.01|0.8||Mixed model controlling for repeated measures within patients used to get a mean difference in PDH specific activity between the thiamine and placebo groups at 72 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model. P-value is obtained from a model that uses a log-transformed version of the variable.||||0.80|0.01|0.072
92444072|NCT03450707|184773750|OTHER||Mean Difference (Final Values)|2.4||||0.044|TWO_SIDED|95.0|0.1|4.7||Mixed model controlling for repeated measures within patients used to get a mean difference in PDH activity between the thiamine and placebo groups at 72 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model. P-value is obtained from a model that uses a log-transformed version of the variable.||||4.7|0.1|0.044
92444073|NCT03450707|184773751|OTHER||Mean Difference (Final Values)|-48.5||||0.828|TWO_SIDED|95.0|-297.0|200.0||Mixed model controlling for repeated measures within patients used to get a mean difference in PDH quantity between the thiamine and placebo groups at 72 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model. P-value is obtained from a model that uses a log-transformed version of the variable.||||200.0|-297.0|0.828
92444074|NCT03450707|184773754|OTHER||Mean Difference (Final Values)|2.34||||0.1|TWO_SIDED|95.0|0.47|4.22||Mixed model controlling for repeated measures within patients used to get a mean difference in SOFA scores between the thiamine and placebo groups at 72 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model.||||4.22|0.47|0.10
92444075|NCT03450707|184773756|OTHER||Mean Difference (Final Values)|-1.0||||0.43|TWO_SIDED|95.0|-3.6|1.6||Mixed model controlling for repeated measures within patients used to get a mean difference in Basal Respiration between the thiamine and placebo groups at 24 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model. P-value is obtained from a model that uses a log-transformed version of the variable.|Mean difference uses a non-logged version of the variable.|||1.6|-3.6|0.43
92444076|NCT03450707|184773757|OTHER||Mean Difference (Final Values)|0.76||||0.02|TWO_SIDED|95.0|-0.27|1.78||Mixed model controlling for repeated measures within patients used to get a mean difference in creatinine between the thiamine and placebo groups at 72 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model. P-value is obtained from a model that uses a log-transformed version of the variable.||||1.78|-0.27|0.02
92444077|NCT01988571|184773762|SUPERIORITY|Power described in protocol.|Mean Difference (Net)|0.1608|STANDARD_ERROR_OF_MEAN|0.7787||0.84|TWO_SIDED||||||ANCOVA|Adjusted for multiple imputation of missing data||Linear models adjusting for baseline values and utilized multiple imputation for missing data.||||0.84
92444078|NCT00004412|184773772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.05|TWO_SIDED||||||Fisher Exact|||Percentage of ulcers undergoing partial and complete healing compared at 12 weeks. Mean Ulcer areas were calculated utilizing computerized planimetry, ulcer area tracings, and photography for baseline and 12 weeks and compared between the two study Arms.||||0.05
92444079|NCT03387813|184773788|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1624|TWO_SIDED|95.0|0.74|1.05|||Anderson-Gill model (robust sandwich)|||||1.05|0.74|0.1624
92444080|NCT03387813|184773792|EQUIVALENCE|Clinical equivalence was met if the lower limit of the confidence interval (CI) of ln(HR) for the primary endpoint in Elevated NT-proBNP/BNP only vs. prior HFH only subjects is \> -0.2877 and the upper limit is \< 0.2877.|Hazard Ratio (HR)|0.51|||||TWO_SIDED|90.0|0.44|0.6||||||||0.60|0.44|
92444081|NCT03387813|184773796|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0958|TWO_SIDED|95.0|0.7|1.03|||Anderson-Gill model (robust sandwich)|||||1.03|0.70|0.0958
92444082|NCT03387813|184773800|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0644|TWO_SIDED|95.0|0.68|1.01|||Anderson-Gill model (robust sandwich)|||||1.01|0.68|0.0644
92444083|NCT03387813|184773804|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.8867|TWO_SIDED|95.0|0.61|1.77|||Anderson-Gill model (robust sandwich)|||||1.77|0.61|0.8867
92444084|NCT03387813|184773808|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7119|TWO_SIDED|95.0|0.7|1.7|||Anderson-Gill model (robust sandwich)|||||1.70|0.70|0.7119
92444085|NCT03387813|184773812|SUPERIORITY||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|1.44||0.3484|TWO_SIDED|95.0|-4.16|1.47|||t-test, 1 sided|||||1.47|-4.16|0.3484
92444086|NCT03387813|184773812|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|1.47||0.6684|TWO_SIDED|95.0|-3.51|2.26|||t-test, 1 sided|||||2.26|-3.51|0.6684
92444087|NCT03387813|184773814|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|1.37||0.9901|TWO_SIDED|95.0|-2.68|2.71|||t-test, 1 sided|||||2.71|-2.68|0.9901
92444088|NCT03387813|184773814|SUPERIORITY||Mean Difference (Final Values)|1.48|STANDARD_ERROR_OF_MEAN|1.41||0.2947|TWO_SIDED|95.0|-1.29|4.24|||t-test, 1 sided|||||4.24|-1.29|0.2947
92444089|NCT03387813|184773816|SUPERIORITY||Mean Difference (Final Values)|4.14|STANDARD_ERROR_OF_MEAN|7.36||0.5741|TWO_SIDED|95.0|-10.32|18.6|||t-test, 1 sided|||||18.60|-10.32|0.5741
92444090|NCT03387813|184773816|SUPERIORITY||Mean Difference (Final Values)|2.93|STANDARD_ERROR_OF_MEAN|7.81||0.7077|TWO_SIDED|95.0|-12.41|18.27|||t-test, 1 sided|||||18.27|-12.41|0.7077
92444091|NCT03387813|184773819|EQUIVALENCE|Clinical equivalence was met if the lower limit of the CI of ln(HR) for the primary endpoint in Elevated NT-proBNP/BNP only vs. prior HFH only subjects is \> -0.2877 and the upper limit is \< 0.2877.|Hazard Ratio (HR)|0.46|||||TWO_SIDED|90.0|0.38|0.55||||||||0.55|0.38|
92444092|NCT03387813|184773823|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
92444093|NCT03387813|184773827|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
92444094|NCT03387813|184773831|OTHER|||||||0.0001|||||||ANOVA|||||||0.0001
92444095|NCT03387813|184773837|OTHER||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.39|0.54|||Anderson-Gill model (robust sandwich)|||||0.54|0.39|<0.0001
92444096|NCT03387813|184773838|OTHER||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.53|0.76|||Anderson-Gill model (robust sandwich)|||||0.76|0.53|<0.001
92444097|NCT03387813|184773843|SUPERIORITY||Least Square Means Difference (T vs C)|1.53|STANDARD_ERROR_OF_MEAN|0.64||0.016|TWO_SIDED|95.0|0.29|2.78|||Mixed Models Analysis|||Comparisons of PA Systolic Pressure at 6 months between Treatment vs Control group||2.78|0.29|0.0160
92444098|NCT03387813|184773843|SUPERIORITY||Least Square Means Difference (T vs C)|0.79|STANDARD_ERROR_OF_MEAN|0.39||0.0427|TWO_SIDED|95.0|0.03|1.56|||Mixed Models Analysis|||Comparisons of PA Diastolic Pressure at 6 months between Treatment vs Control group.||1.56|0.03|0.0427
92444099|NCT03387813|184773843|SUPERIORITY||Least Square Means Difference (T vs C)|1.13|STANDARD_ERROR_OF_MEAN|0.48||0.0188|TWO_SIDED|95.0|0.19|2.08|||Mixed Models Analysis|||Comparisons of PA Mean Pressure at 6 months between Treatment vs Control group.||2.08|0.19|0.0188
92444100|NCT03387813|184773843|SUPERIORITY||Least Square Means Difference (T vs C)|0.63|STANDARD_ERROR_OF_MEAN|0.66||0.3405|TWO_SIDED|95.0|-0.66|1.92|||Mixed Models Analysis|||Comparisons of PA Systolic Pressure at 12 months between Treatment vs Control group.||1.92|-0.66|0.3405
92444101|NCT03387813|184773843|SUPERIORITY||Least Square Means Difference (T vs C)|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.6174|TWO_SIDED|95.0|-0.59|0.99|||Mixed Models Analysis|||Comparisons of PA Diastolic Pressure at 12 months between Treatment vs Control group.||0.99|-0.59|0.6174
92444102|NCT03387813|184773843|SUPERIORITY||Least Square Means Difference (T vs C)|0.4|STANDARD_ERROR_OF_MEAN|0.5||0.4231|TWO_SIDED|95.0|-0.58|1.38|||Mixed Models Analysis|||Comparisons of PA Mean Pressure at 12 months between Treatment vs Control group.||1.38|-0.58|0.4231
92444103|NCT03387813|184773844|SUPERIORITY|||||||0.0214|||||||t-test, 2 sided|||Comparison of PA Systolic Pressure AUC between Treatment and Control group.||||0.0214
92444104|NCT03387813|184773844|OTHER|||||||0.1002|||||||t-test, 2 sided|||Comparison of PA Diastolic Pressure AUC between Treatment and Control group.||||0.1002
92444105|NCT03387813|184773844|OTHER|||||||0.0402|||||||t-test, 2 sided|||Comparison of PA Mean Pressure AUC between Treatment and Control group.||||0.0402
92239062|NCT03691623|184382245|SUPERIORITY||LS Mean Difference|-2.85|||=|0.002|TWO_SIDED|95.0|-4.55|-1.15|||ANCOVA|||||-1.15|-4.55|= 0.002
92239063|NCT03691623|184382245|SUPERIORITY||LS Mean Difference|-3.4|||<|0.001|TWO_SIDED|95.0|-5.19|-1.61|||ANCOVA|||||-1.61|-5.19|< 0.001
92239064|NCT03691623|184382246|SUPERIORITY||LS Mean Difference|-24.081|||<|0.001|TWO_SIDED|95.0|-36.554|-11.607|||ANCOVA|||||-11.607|-36.554|< 0.001
92239065|NCT03691623|184382246|SUPERIORITY||LS Mean Difference|-25.954|||<|0.001|TWO_SIDED|95.0|-37.695|-14.213|||ANCOVA|||||-14.213|-37.695|< 0.001
92444106|NCT03387813|184773845|SUPERIORITY||Least Square Means Difference (T vs C)|37.19|STANDARD_ERROR_OF_MEAN|75.52||0.6227|TWO_SIDED|95.0|-111.38|185.77|||Mixed Models Analysis|||Comparisons of change from baseline in BNP levels at 6 months between Treatment vs Control group||185.77|-111.38|0.6227
92444107|NCT03387813|184773846|SUPERIORITY||Least Square Means Difference (T vs C)|59.78|STANDARD_ERROR_OF_MEAN|76.87||0.4373|TWO_SIDED|95.0|-91.44|211.01|||Mixed Models Analysis|||Comparisons of change from baseline in BNP levels at 12 months between Treatment vs Control group||211.01|-91.44|0.4373
92444108|NCT03387813|184773847|SUPERIORITY||Least Square Means Difference (T vs C)|468.1|STANDARD_ERROR_OF_MEAN|256.65||0.0692|TWO_SIDED|95.0|-37.09|973.3|||Mixed Models Analysis|||Comparisons of change from baseline in NT-proBNP levels at 6months between Treatment vs Control group||973.30|-37.09|0.0692
92444109|NCT03387813|184773848|SUPERIORITY||Least Square Means Difference (T vs C)|284.67|STANDARD_ERROR_OF_MEAN|268.72||0.2903|TWO_SIDED|95.0|-244.27|813.6|||Mixed Models Analysis|||Comparisons of change from baseline in NT-proBNP levels at 12 months between Treatment vs Control group||813.60|-244.27|0.2903
92444110|NCT03387813|184773849|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.53|0.78|||Anderson-Gill model (robust sandwich)|||||0.78|0.53|<0.0001
92444111|NCT03387813|184773850|SUPERIORITY||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.0|0.57|0.81|||Anderson-Gill model (robust sandwich)|||||0.81|0.57|<0.0001
92444112|NCT05876273|184773866|OTHER|The statistical analysis included general linear models (GLM), with repeated measures (NAP vs UMPC) and a covariate the 1-hour average CGM level prior to initiating either controller. This covariate was used to compute the adjusted performance differences between NAP and UMPC. The data was analyzed using the GLM procedures of IBM SPSS 28.0.||||||0.2||||||1-hour average CGM level prior to initiating either controller was included as a covariate in the analysis. This covariate was used to compute the adjusted performance differences between NAP and UMPC.|GLM with Repeated Measures|General linear models (GLM), with repeated measures (NAP vs UMPC)||||||0.2
92444113|NCT00176592|184773898|SUPERIORITY|This includes p value for rank sum test treatment comparison. This includes p value for rank sum test treatment comparison of intention to treat study population.|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||Fisher Exact|||This includes p value for rank sum test treatment comparison. This includes p value for rank sum test treatment comparison of intention to treat study population.||||<0.05
92444114|NCT02180412|184773909|OTHER||Slope|7.76||||0.0434|TWO_SIDED|95.0|2.14|13.37|||ANCOVA|||ALA Day 1 vs Day 2||13.37|2.14|.0434
92444115|NCT02180412|184773909|OTHER||Slope|16.29||||0.0003|TWO_SIDED|95.0|11.32|21.25|||ANCOVA|||ALA Day 1 vs Day 3||21.25|11.32|.0003
92444116|NCT02180412|184773909|OTHER||Slope|15.98||||0.0198|TWO_SIDED|95.0|6.7|25.26|||ANCOVA|||ALA Day 1 vs Day 4||25.26|6.7|.0198
92444117|NCT02180412|184773909|OTHER||Slope|10.69||||0.158|TWO_SIDED|95.0|-1.67|22.49|||ANCOVA|||PBG Day 1 vs Day 2||22.49|-1.67|.158
92444118|NCT02180412|184773909|OTHER||Slope|24.52||||0.0127|TWO_SIDED|95.0|11.3|37.74|||ANCOVA|||PGB Day 1 vs Day 3||37.74|11.3|.0127
92444119|NCT02180412|184773909|OTHER||Slope|28.45||||0.0328|TWO_SIDED|95.0|9.64|47.27|||ANCOVA|||PBG Day 1 vs Day 4||47.27|9.64|.0328
92444120|NCT02180412|184773909|OTHER||Slope|12.2||||0.9993|TWO_SIDED|95.0|-465.4|489.8|||ANCOVA|||Total Porphyrins Day 1 vs Day 2||489.8|-465.4|.9993
92444121|NCT02180412|184773909|OTHER||Slope|454.5||||0.2915|TWO_SIDED|95.0|-200.87|1109.86|||ANCOVA|||Total Porphyrins Day 1 vs Day 3||1109.86|-200.87|.2915
92444122|NCT02180412|184773909|OTHER||Slope|326.12||||0.4382|TWO_SIDED|95.0|-292.0|944.25|||ANCOVA|||Total Porphyrins Day 1 vs Day 4||944.25|-292|.4382
92444123|NCT04654117|184773913|SUPERIORITY|Multilevel model predicting the effect of the overall consultation model on manual adherence, averaged across clinicians.|unstandardized beta|0.33|STANDARD_ERROR_OF_MEAN|3.85|<|0.05|TWO_SIDED||||||multilevel model|||||||<.05
92444124|NCT04654117|184773914|SUPERIORITY||unstandardized beta|0.04|STANDARD_ERROR_OF_MEAN|0.08|<|0.05|TWO_SIDED||||||multilevel model|||||||<.05
92444125|NCT04654117|184773915|OTHER|multilevel modeling|multilevel modeling|2.56|STANDARD_ERROR_OF_MEAN|0.74|<|0.05|TWO_SIDED||||||multilevel modeling|||||||<.05
92444126|NCT04654117|184773916|SUPERIORITY||ANOVA|17.0|||<|0.05|TWO_SIDED||||||ANOVA|||||||<.05
92444127|NCT04654117|184773917|OTHER|multilevel model|multilevel model|0.04|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED||||||multilevel model|||||||<.05
92444128|NCT04654117|184773918|OTHER|multilevel model|multilevel model (beta)|-0.27|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED||||||multilevel model|||||||<.05
92171507|NCT00567398|184232137|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.581|TWO_SIDED|95.0|-0.8|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 6||1.5|-0.8|0.581
92171508|NCT00567398|184232138|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.871|TWO_SIDED|95.0|-3.7|3.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Waist Circumference-Month 6||3.1|-3.7|0.871
92444129|NCT01354496|184773919|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.03|||||TWO_SIDED|90.0|0.897|1.18|||||AUC0-∞ was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.18|0.897|
92444130|NCT01354496|184773920|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.06|||||TWO_SIDED|90.0|0.922|1.22|||||Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.22|0.922|
92444131|NCT01354496|184773921|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.02|||||TWO_SIDED|90.0|0.896|1.16|||||AUC0-∞ was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.16|0.896|
92444132|NCT01354496|184773922|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.01|||||TWO_SIDED|90.0|0.882|1.15|||||Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.15|0.882|
92444133|NCT01354496|184773924|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|0.993|||||TWO_SIDED|90.0|0.951|1.04|||||AUC0-∞ was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.04|0.951|
92444134|NCT01354496|184773924|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|0.943|||||TWO_SIDED|90.0|0.905|0.983|||||AUC0-∞ was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||0.983|0.905|
92444135|NCT01354496|184773925|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|0.98|||||TWO_SIDED|90.0|0.926|1.04|||||Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.04|0.926|
92444136|NCT01354496|184773925|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|0.94|||||TWO_SIDED|90.0|0.891|0.993|||||Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||0.993|0.891|
92444137|NCT05045144|184773942|OTHER|The lot-to-lot consistency is demonstrated only if two-sided 95% confidence intervals (CI) for the 3 pair-wise geometric mean ratios of RSV MAT IgG ELISA concentration falls within 0.67 and 1.5.|GMC Ratio|1.02|||||TWO_SIDED|95.0|0.92|1.13|||GMC ratio|||To demonstrate lot-to-lot consistency of the immune responses of Lot 1 and Lot 2 of the RSV MAT vaccine, as measured by ELISA in terms of IgG GMCs at Day 31.||1.13|0.92|
92444138|NCT05045144|184773942|OTHER|The lot-to-lot consistency is demonstrated only if two-sided 95% confidence intervals (CI) for the 3 pair-wise geometric mean ratios of RSV MAT IgG ELISA concentration falls within 0.67 and 1.5.|GMC ratio|0.95|||||TWO_SIDED|95.0|0.85|1.05|||GMC ratio|||To demonstrate lot-to-lot consistency of the immune responses of Lot 1 and Lot 3 of the RSV MAT vaccine, as measured by ELISA in terms of IgG GMCs at Day 31.||1.05|0.85|
92444139|NCT05045144|184773942|OTHER|The lot-to-lot consistency is demonstrated only if two-sided 95% confidence intervals (CI) for the 3 pair-wise geometric mean ratios of RSV MAT IgG ELISA concentration falls within 0.67 and 1.5.|GMC ratio|0.93|||||TWO_SIDED|95.0|0.83|1.03|||GMC ratio|||To demonstrate lot-to-lot consistency of the immune responses of Lot 2 and Lot 3 of the RSV MAT vaccine, as measured by ELISA in terms of IgG GMCs at Day 31.||1.03|0.83|
92444140|NCT05045144|184773943|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated for the A/Tasmania/503/2020 (H3N2) IVR-221 strain, if the lower limit (LL) of the 95% CI on the GMT ratio (RSV MAT + Flu D-QIV vaccine divided by Flu D-QIV vaccine) is greater than 0.67 at Day 31 post vaccination.|GMC ratio|0.72|||||TWO_SIDED|95.0|0.63|0.82|||GMC ratio|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the ratio of HI GMTs of Flu D-QIV antibody titers against A/Tasmania/503/2020 (H3N2) IVR-221 strain at 30 days post administration (Day 31).||0.82|0.63|
92171509|NCT00567398|184232139|SUPERIORITY||Mean Difference (Final Values)|5.2||||0.608|TWO_SIDED|95.0|-14.7|25.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 3||25|-14.7|0.608
92171510|NCT00567398|184232139|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.731|TWO_SIDED|95.0|-11.5|8.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 6||8.1|-11.5|0.731
92171511|NCT00567398|184232139|SUPERIORITY||Mean Difference (Final Values)|185.3||||0.377|TWO_SIDED|95.0|-227.5|598.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 3||598.1|-227.5|0.377
92444141|NCT05045144|184773943|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated for B/Washington/02/2019 strain, if the lower limit (LL) of the 95% CI on the GMT ratio (RSV MAT + Flu D-QIV vaccine divided by Flu D-QIV vaccine) is greater than 0.67 at Day 31 post vaccination.|GMC ratio|0.93|||||TWO_SIDED|95.0|0.79|1.1|||GMC ratio|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the ratio of HI GMTs of Flu D-QIV antibody titers against B/Washington/02/2019 strain at 30 days post administration (Day 31).||1.10|0.79|
92444142|NCT05045144|184773943|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated for B/Phuket/3073/2013 strain, if the lower limit (LL) of the 95% CI on the GMT ratio (RSV MAT + Flu D-QIV vaccine divided by Flu D-QIV vaccine) is greater than 0.67 at Day 31 post vaccination.|GMC ratio|0.8|||||TWO_SIDED|95.0|0.69|0.93|||GMC ratio|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the ratio of HI GMTs of Flu D-QIV antibody titers against B/Phuket/3073/2013 strain at 30 days post administration (Day 31).||0.93|0.69|
92444143|NCT05045144|184773944|NON_INFERIORITY|The non-inferiority of RSV MAT vaccine is demonstrated for RSV A neutralizing antibody titers, if the LL of the 95% CI on the GMT ratio (RSV MAT + Flu D-QIV vaccine divided by RSV MAT vaccine) is greater than 0.67 at Day 31 post vaccination.|GMC ratio|0.87|||||TWO_SIDED|95.0|0.78|0.97|||GMC ratio|||To demonstrate the immunological non-inferiority of the RSV MAT vaccine when co-administered with Flu D-QIV vaccine, compared to RSV MAT vaccine given alone as measured by the ratio of GMTs of RSV A neutralizing antibody titers at 30 days post administration (Day 31).||0.97|0.78|
92444144|NCT05045144|184773945|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated with respect to the SCR difference for Flu D-QIV antibody titers against A/Tasmania/503/2020 (H3N2) IVR-221 strain, if the upper limit (UL) of the 95% CI on the SCR difference (Flu D-QIV vaccine minus RSV MAT + Flu D-QIV vaccine) is less than or equal to the pre-defined clinical limit of 10% at Day 31 post vaccination.|Difference of Proportion|3.44|||||TWO_SIDED|95.0|-3.44|10.29|||Miettinen and Nurminen|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the difference of proportion of participants achieving seroconversion for HI antibody titers against A/Tasmania/503/2020 (H3N2) IVR-221 strain at 30 days post administration (Day 31).||10.29|-3.44|
92444145|NCT05045144|184773945|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated with respect to the SCR difference for Flu D-QIV antibody titers against B/Washington/02/2019 strain, if the upper limit (UL) of the 95% CI on the SCR difference (Flu D-QIV vaccine minus RSV MAT + Flu D-QIV vaccine) is less than or equal to the pre-defined clinical limit of 10% at Day 31 post vaccination.|Difference of Proportion|4.15|||||TWO_SIDED|95.0|-2.04|10.32|||Miettinen and Nurminen|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the difference of proportion of participants achieving seroconversion for HI antibody titers against B/Washington/02/2019 strain at 30 days post administration (Day 31).||10.32|-2.04|
92171512|NCT00567398|184232139|SUPERIORITY||Mean Difference (Final Values)|-18.3||||0.854|TWO_SIDED|95.0|-214.4|177.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 6||177.8|-214.4|0.854
92171513|NCT00567398|184232140|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.412|TWO_SIDED|95.0|-0.03|0.07|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 3||0.07|-0.03|0.412
92239066|NCT03691623|184382246|SUPERIORITY||LS Mean Difference|-18.13|||<|0.001|TWO_SIDED|95.0|-27.176|-9.083|||ANCOVA|||||-9.083|-27.176|< 0.001
92171514|NCT00567398|184232140|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.485|TWO_SIDED|95.0|-0.07|0.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 6||0.03|-0.07|0.485
92171515|NCT00567398|184232141|SUPERIORITY||Mean Difference (Final Values)|2.18||||0.525|TWO_SIDED|95.0|-4.56|8.93|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 3||8.93|-4.56|0.525
92171516|NCT00567398|184232141|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.995|TWO_SIDED|95.0|-6.79|6.83|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 6||6.83|-6.79|0.995
92171517|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|-1.87||||0.526|TWO_SIDED|95.0|-7.64|3.91|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 3||3.91|-7.64|0.526
92171518|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.779|TWO_SIDED|95.0|-5.01|6.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 6||6.68|-5.01|0.779
92171519|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|-2.95||||0.246|TWO_SIDED|95.0|-7.95|2.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 3||2.04|-7.95|0.246
92171520|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.78|TWO_SIDED|95.0|-5.78|4.34|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 6||4.34|-5.78|0.780
92239067|NCT03691623|184382246|SUPERIORITY||LS Mean Difference|-19.329|||<|0.001|TWO_SIDED|95.0|-29.106|-9.552|||ANCOVA|||||-9.552|-29.106|< 0.001
92444146|NCT05045144|184773945|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated with respect to the SCR difference for Flu D-QIV antibody titers against B/Phuket/3073/2013 strain, if the upper limit (UL) of the 95% CI on the SCR difference (Flu D-QIV vaccine minus RSV MAT + Flu D-QIV vaccine) is less than or equal to the pre-defined clinical limit of 10% at Day 31 post vaccination.|Difference of Proportion|4.08|||||TWO_SIDED|95.0|-2.46|10.58|||Miettinen and Nurminen|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the difference of proportion of participants achieving seroconversion for HI antibody titers against B/Phuket/3073/2013 strain at 30 days post administration (Day 31).||10.58|-2.46|
92444147|NCT04809220|184773955|SUPERIORITY||LS Mean Difference|-0.29|||<|0.001|TWO_SIDED|95.0|-0.43|-0.14|||Mixed Models Analysis|||||-0.14|-0.43|<.001
92444148|NCT04809220|184773956|SUPERIORITY||LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.47|-0.15|||Mixed Models Analysis|||||-0.15|-0.47|<.001
92444149|NCT04809220|184773957|SUPERIORITY||Odds Ratio (OR)|1.15||||0.56|TWO_SIDED|95.0|0.71|1.87|||Generalized Linear Mixed Model (GLM)|||For HbA1c ≤6.5%||1.87|0.71|0.560
92444150|NCT04809220|184773957|SUPERIORITY||Odds Ratio (OR)|1.61||||0.028|TWO_SIDED|95.0|1.05|2.45|||Generalized Linear Mixed Model (GLM)|||For HbA1c \< 7%||2.45|1.05|0.028
92444151|NCT04809220|184773958|SUPERIORITY||LS Mean Difference|-9.4|||<|0.001|TWO_SIDED|95.0|-14.4|-4.3|||Mixed Models Analysis|||||-4.3|-14.4|<.001
92444152|NCT04809220|184773959|SUPERIORITY||LS Mean Difference|-7.2||||0.002|TWO_SIDED|95.0|-11.7|-2.7|||ANCOVA|||Morning premeal-fasting||-2.7|-11.7|0.002
92444153|NCT04809220|184773959|SUPERIORITY||LS Mean Difference|-10.1||||0.016|TWO_SIDED|95.0|-18.3|-1.9|||ANCOVA|||Morning 2-hour post meal||-1.9|-18.3|0.016
92444154|NCT04809220|184773959|SUPERIORITY||LS Mean Difference|-8.3||||0.007|TWO_SIDED|95.0|-14.2|-2.3|||ANCOVA|||Midday premeal||-2.3|-14.2|0.007
92171521|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.885|TWO_SIDED|95.0|-5.22|6.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 3||6.04|-5.22|0.885
92171522|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|4.41||||0.128|TWO_SIDED|95.0|-1.28|10.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 6||10.10|-1.28|0.128
92239068|NCT03691623|184382247|SUPERIORITY||LS Mean Difference|-2.1292|||<|0.001|TWO_SIDED|95.0|-2.8491|-1.4093|||ANCOVA|||||-1.4093|-2.8491|< 0.001
92239069|NCT03691623|184382247|SUPERIORITY||LS Mean Difference|-2.1129|||<|0.001|TWO_SIDED|95.0|-2.7938|-1.4319|||ANCOVA|||||-1.4319|-2.7938|< 0.001
92239070|NCT03691623|184382247|SUPERIORITY||LS Mean Difference|-3.2191|||<|0.001|TWO_SIDED|95.0|-4.1915|-2.2467|||ANCOVA|||||-2.2467|-4.1915|< 0.001
92239071|NCT03691623|184382247|SUPERIORITY||LS Mean Difference|-2.7831|||<|0.001|TWO_SIDED|95.0|-3.8522|-1.714|||ANCOVA|||||-1.714|-3.8522|< 0.001
92444155|NCT04809220|184773959|SUPERIORITY||LS Mean Difference|-12.5||||0.002|TWO_SIDED|95.0|-20.5|-4.5|||ANCOVA|||Midday 2-hour post meal||-4.5|-20.5|0.002
92239072|NCT03691623|184382248|SUPERIORITY||LS Mean Difference|-2.01|||<|0.001|TWO_SIDED|95.0|-2.67|-1.35|||ANCOVA|||||-1.35|-2.67|< 0.001
92444156|NCT04809220|184773959|SUPERIORITY||LS Mean Difference|-3.9||||0.158|TWO_SIDED|95.0|-9.3|1.5|||ANCOVA|||Evening premeal||1.5|-9.3|0.158
92444157|NCT04809220|184773959|SUPERIORITY||LS Mean Difference|-11.3||||0.004|TWO_SIDED|95.0|-19.0|-3.7|||ANCOVA|||Evening 2-hour post meal||-3.7|-19.0|0.004
92444158|NCT04809220|184773960|SUPERIORITY||LS Mean Difference|-0.3||||0.213|TWO_SIDED|95.0|-0.8|0.2|||Mixed Models Analysis|||||0.2|-0.8|0.213
92444159|NCT00729183|184773961|SUPERIORITY_OR_OTHER||Difference in LS Means|3.49|||<|0.001|TWO_SIDED|95.0|2.66|4.32|||Longitudinal Data Analysis (LDA) Model|||A longitudinal ANCOVA was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% confidence interval (CI). The model, applied on all time points during treatment (Screening Visit \[BL\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and BL value as covariate. The weighted Least Squares (LS) mean is based on the described model. Difference in LS Means = Odancatib 50 mg minus Placebo.||4.32|2.66|<0.001
92444160|NCT00729183|184773962|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.2|||||TWO_SIDED|95.0|-12.3|7.9||||||Estimated difference (versus Placebo) and CI were based on the Miettinen \& Nurminen method.||7.9|-12.3|
92444161|NCT00729183|184773963|SUPERIORITY_OR_OTHER||Difference in Percentage|4.4|||||TWO_SIDED|95.0|-3.2|12.3||||||Estimated difference (versus Placebo) and CI were based on the Miettinen \& Nurminen method.||12.3|-3.2|
92444162|NCT00729183|184773964|SUPERIORITY_OR_OTHER||Difference in LS Means|5.39|||<|0.001|TWO_SIDED|95.0|4.36|6.42|||LDA|||A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and BL value as covariate. The weighted LS mean is based on the described model. Difference in LS Means = Odancatib 50 mg minus Placebo.||6.42|4.36|<0.001
92444163|NCT00729183|184773965|SUPERIORITY_OR_OTHER||Difference in LS Means|1.57|||<|0.001|TWO_SIDED|95.0|0.88|2.25|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||2.25|0.88|<0.001
92444164|NCT00729183|184773965|SUPERIORITY_OR_OTHER||Difference in LS Means|3.32|||<|0.001|TWO_SIDED|95.0|2.39|4.26|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||4.26|2.39|<0.001
92444165|NCT00729183|184773966|SUPERIORITY_OR_OTHER||Difference in LS Means|1.48||||0.001|TWO_SIDED|95.0|0.6|2.35|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||2.35|0.60|0.001
92444166|NCT00729183|184773966|SUPERIORITY_OR_OTHER||Difference in LS Means|3.81|||<|0.001|TWO_SIDED|95.0|2.69|4.93|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||4.93|2.69|<0.001
92444167|NCT00729183|184773967|SUPERIORITY_OR_OTHER||Difference in LS Means|2.19|||<|0.001|TWO_SIDED|95.0|1.09|3.29|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||3.29|1.09|<0.001
92444168|NCT00729183|184773967|SUPERIORITY_OR_OTHER||Difference in LS Means|5.48|||<|0.001|TWO_SIDED|95.0|4.08|6.89|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||6.89|4.08|<0.001
92444169|NCT00729183|184773968|SUPERIORITY_OR_OTHER||Difference in LS Means|0.71||||0.03|TWO_SIDED|95.0|0.07|1.35|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||1.35|0.07|0.030
92444170|NCT00729183|184773968|SUPERIORITY_OR_OTHER||Difference in LS Means|1.7|||<|0.001|TWO_SIDED|95.0|0.97|2.43|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||2.43|0.97|<0.001
92444171|NCT00729183|184773969|SUPERIORITY_OR_OTHER||Difference in LS Means|1.71||||0.001|TWO_SIDED|95.0|0.69|2.73|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||2.73|0.69|0.001
92444172|NCT00729183|184773969|SUPERIORITY_OR_OTHER||Difference in LS Means|2.7|||<|0.001|TWO_SIDED|95.0|1.62|3.78|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||3.78|1.62|<0.001
92444173|NCT00729183|184773970|SUPERIORITY_OR_OTHER||Difference in LS Means|0.16||||0.697|TWO_SIDED|95.0|-0.63|0.95|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||0.95|-0.63|0.697
92444174|NCT00729183|184773970|SUPERIORITY_OR_OTHER||Difference in LS Means|1.22||||0.013|TWO_SIDED|95.0|0.27|2.18|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||2.18|0.27|0.013
92444175|NCT00729183|184773971|SUPERIORITY_OR_OTHER||Difference in LS Means|8.01|||<|0.001|TWO_SIDED|95.0|6.03|9.99|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||9.99|6.03|<0.001
92444176|NCT00729183|184773971|SUPERIORITY_OR_OTHER||Difference in LS Means|11.46|||<|0.001|TWO_SIDED|95.0|8.96|13.97|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||13.97|8.96|<0.001
92444177|NCT00729183|184773972|SUPERIORITY_OR_OTHER||Difference in LS Means|5.68|||<|0.001|TWO_SIDED|95.0|3.77|7.58|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||7.58|3.77|<0.001
92444178|NCT00729183|184773972|SUPERIORITY_OR_OTHER||Difference in LS Means|9.38|||<|0.001|TWO_SIDED|95.0|6.98|11.77|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||11.77|6.98|<0.001
92444179|NCT00729183|184773973|SUPERIORITY_OR_OTHER||Difference in LS Means|-54.03|||<|0.001|TWO_SIDED|95.0|-64.81|-43.26|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain geometric LS mean percent change from BL in s-CTx (back-transformation of the log-transformed fraction from BL) and its 95% CI. The model, applied on all time points during treatment (Baseline \[Randomization\], Month 6, Month 12, Month 18, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||-43.26|-64.81|<0.001
92444180|NCT00729183|184773973|SUPERIORITY_OR_OTHER||Difference in LS Means|-45.59|||<|0.001|TWO_SIDED|95.0|-62.22|-28.96|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain geometric LS mean percent change from BL in s-CTx (back-transformation of the log-transformed fraction from BL) and its 95% CI. The model, applied on all time points during treatment (Baseline \[Randomization\], Month 6, Month 12, Month 18, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||-28.96|-62.22|<0.001
92444181|NCT00729183|184773974|SUPERIORITY_OR_OTHER||Difference in LS Means|-25.34|||<|0.001|TWO_SIDED|95.0|-37.77|-12.92|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain geometric LS mean percent change from BL in s-P1NP (back-transformation of the log-transformed fraction from BL) and its 95% CI. The model, applied on all time points during treatment (Baseline \[Randomization\], Month 6, Month 12, Month 18, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and BL value as covariate. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo.||-12.92|-37.77|<0.001
92444182|NCT00729183|184773974|SUPERIORITY_OR_OTHER||Difference in LS Means|-9.07||||0.225|TWO_SIDED|95.0|-23.69|5.56|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain geometric LS mean percent change from BL in s-P1NP (back-transformation of the log-transformed fraction from BL) and its 95% CI. The model, applied on all time points during treatment (Baseline \[Randomization\], Month 6, Month 12, Month 18, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and BL value as covariate. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo.||5.56|-23.69|0.225
92444183|NCT02531321|184773979|OTHER|Unpaired t test with Welch's correction|||||<|0.05|||||||t-test, 2 sided|||||||<.05
92444184|NCT01113879|184773984|OTHER||||||<|0.001|TWO_SIDED|85.0|||||Weighted Tau U|||Weighted Tau U effect size mean values in Block 1 of treatment (no aerobic exercise or stretching) were compared to weighted Tau U mean values in Block 2 of treatment (aerobic exercise or stretching adjuvant).||||< 0.001
92280168|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|2.71||0.0606|TWO_SIDED|95.0|-10.5|0.2||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Core: Change from Baseline in HAM-D Subscale Score at Day 15||0.2|-10.5|0.0606
92280169|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|2.91||0.0318|TWO_SIDED|95.0|-12.1|-0.6||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Core: Change from Baseline in HAM-D Subscale Score at Day 21||-0.6|-12.1|0.0318
92444185|NCT00082433|184774019|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.0005||95.0|0.69|0.9|||Log Rank|||The analysis was conducted when 903 progressions or deaths (446 in combination:457 in capecitabine) were observed in 960 participants.||.90|.69|.0005
92444186|NCT00082433|184774020|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.89|||<|0.0001||95.0|1.44|2.5|||Cochran-Mantel-Haenszel|||||2.50|1.44|<.0001
92444187|NCT00082433|184774024|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wei-Lachin|||There was a statistically significant difference between groups in change from baseline FBSI score favoring capecitabine. A mean change from baseline of 2.5 was considered a clinically meaningful difference (minimally important difference or MID). On-treatment mean changes in the FBSI did not reach the MID in either group.||||<0.0001
92444188|NCT00082433|184774025|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.1162||95.0|0.78|1.03||The test was stratified by (taxane resistance \[yes/no\], measurable disease versus non-measurable disease, prior chemotherapy for metastatic disease \[yes/no\], and anthracycline resistance \[yes/no\]).|Log Rank|The analysis was conducted at the 0.05 level and no adjustments were performed||This primary analysis was a comparison between the 2 treatment arms using a 2-sided, α=0.05 level log-rank test (to reject the null hypothesis of equality of survival). The analysis was conducted when 880 deaths (430 in combination:450 in capecitabine) were observed from the 1221 randomized participants.||1.03|.78|.1162
92444189|NCT00082433|184774025|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.0231||95.0|0.75|0.98|||Regression, Cox|||This prespecified secondary analysis was a Cox model adjusted for age, Karnofsky performance status, number of organ sites, estrogen receptor status, hepatic impairment, time from diagnosis, liver/lung metastases.||.98|.75|.0231
92444190|NCT01796197|184774026|SUPERIORITY||Pathelogic Complete Response Rate|40.0|||||TWO_SIDED||||||Two stage design, exact method||Decision Rule: If the percentage of participants experiencing pathologic complete response (pCR) is ≤ 15% then the preoperative regimen is considered minimally effective. If the proportion of pCR ≥ 40% then the regimen is worthy of further study.|Null Hypothesis: pCR rate is less than or equal to 15% Alternative Hypothesis: pCR rate is greater than or equal to 40% Hypothesized False Positive Rate (alpha) : 3.9% Hypothesized False Negative Rate (1-beta) : 9.9%||||
92444191|NCT00244712|184774056|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the ABC/3TC to the TDF/FTC would be declared if the lower limit of the 2-sided 95% confidence interval on the difference in the percentage of participants with HIV-1 RNA \<50 copies/mL at Week 48 \[ABC/3TC minus TDF/FTC\] was -12% or greater.|difference in response percentage|0.39||||0.913||95.0|-6.63|7.4|||Cochran-Mantel-Haenszel||Difference in response percentage = percentage in Arm 1 minus percentage in Arm 2|||7.40|-6.63|0.913
92444192|NCT05083442|184774077|SUPERIORITY||Mean Difference (Net)|0.8||||0.19|TWO_SIDED|95.0|-0.4|1.9|||ANCOVA||Estimated difference between groups from analysis of covariance with baseline fat mass included as the covariate.|Groups were compared using analysis of covariance with baseline included as the covariate.||1.9|-0.4|0.19
92444193|NCT05083442|184774078|SUPERIORITY||Mean Difference (Net)|0.3||||0.745|TWO_SIDED|95.0|-1.5|2.1|||ANCOVA||Estimated difference between groups from analysis of covariance with baseline fat mass included as the covariate.|Groups were compared using analysis of covariance with baseline included as the covariate.||2.1|-1.5|0.745
92444194|NCT04865354|184774097|NON_INFERIORITY|Noninferiority to be concluded if least squares means difference upper confidence limit is less than 0.05.|Least Squares Mean Difference|0.003|STANDARD_ERROR_OF_MEAN|0.0034|||ONE_SIDED|95.0||0.009||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.||LSM results based on general linear mixed effects model with terms for lens, period and sequence as fixed effects, subject as a random effect|Difference = PRECISION1 minus Clariti 1-Day|||0.009||
92444195|NCT00110812|184774111|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|134.0|||<|0.001|TWO_SIDED|95.0|70.0|198.0||Adjusted for 3 pairwise comparisons.|ANOVA|stratified by geographic region and adjusted for baseline CD4.||||198|70|<.001
92239073|NCT03691623|184382248|SUPERIORITY||LS Mean Difference|-1.78|||<|0.001|TWO_SIDED|95.0|-2.4|-1.16|||ANCOVA|||||-1.16|-2.4|< 0.001
92239074|NCT03691623|184382248|SUPERIORITY||LS Mean Difference|-1.98|||=|0.009|TWO_SIDED|95.0|-3.43|-0.54|||ANCOVA|||||-0.54|-3.43|= 0.009
92239075|NCT03691623|184382248|SUPERIORITY||LS Mean Difference|-2.41|||=|0.004|TWO_SIDED|95.0|-4.0|-0.82|||ANCOVA|||||-0.82|-4|= 0.004
92239076|NCT03691623|184382249|SUPERIORITY||LS Mean Difference|-2.1|||<|0.001|TWO_SIDED|95.0|-3.04|-1.17|||ANCOVA|||||-1.17|-3.04|< 0.001
92444196|NCT00110812|184774111|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|133.0|||<|0.001|TWO_SIDED|95.0|68.0|199.0||Adjusted for 3 pairwise comparisons.|ANOVA|stratified by geographic region and adjusted for baseline CD4.||||199|68|<.001
92444197|NCT00110812|184774113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.31||||0.01|TWO_SIDED|95.0|0.08|0.54|||ANOVA|stratified by region and adjusted for baseline HIV-RNA.||||.54|.08|.01
92444198|NCT00110812|184774113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.36||||0.003|TWO_SIDED|95.0|0.12|0.6|||ANOVA|stratified by region and adjusted for baseline HIV-RNA.||||.60|.12|.003
92444199|NCT00110812|184774114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|65.8||||0.009||95.0|||||ANOVA|ANOVA with stratification by region and adjustment for baseline CD4||||||.009
92444200|NCT00110812|184774114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|58.2||||0.02||95.0|||||ANOVA|stratified by region and adjusted for baseline CD4||||||.02
92444201|NCT00110812|184774117|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|5.08||||0.14|TWO_SIDED|95.0|0.59|43.6|||Regression, Cox|Unadjusted, stratified by region.|Patients taking IL-2 alone compared to patients not taking IL-2.|||43.6|0.59|.14
92444202|NCT00110812|184774117|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|6.56||||0.08|TWO_SIDED|95.0|0.8|53.6|||Regression, Cox|Unadjusted, stratified by region.|Patients taking IL-2 plus pericycle HAART compared to patients not receiving IL-2|||53.6|0.80|.08
92444203|NCT00110812|184774118|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58||||0.048|TWO_SIDED|95.0|0.34|0.99|||Regression, Cox||IL-2 without ART vs control group|||.99|.34|.048
92171523|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|1.07||||0.701|TWO_SIDED|95.0|-4.4|6.54|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 3||6.54|-4.40|0.701
92444204|NCT00110812|184774118|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.32|||<|0.001|TWO_SIDED|95.0|0.17|0.62|||Regression, Cox||IL-2 with pericycle HAART compared to control|||.62|.17|<.001
92444205|NCT00110812|184774119|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.34||||0.03|TWO_SIDED|95.0|0.03|0.64|||ANOVA|Stratified by region and adjusted for baseline HIV-RNA||||0.64|0.03|.03
92444206|NCT00110812|184774119|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.54|||<|0.001|TWO_SIDED|95.0|0.24|0.85|||ANOVA|Stratified by region and adjusted for baseline HIV-RNA||||0.85|0.24|<.001
92444207|NCT00110812|184774122|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.45||||0.59|TWO_SIDED|95.0|0.38|5.45|||Regression, Cox|Stratification by region.|IL-2 group compared to control group|||5.45|0.38|.59
92444208|NCT00110812|184774123|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-55.9|STANDARD_ERROR_OF_MEAN|28.4||0.05||95.0|||||ANOVA|Last measured CD4 is imputed if month 24 CD4 count is missing. Analysis is adjusted for baseline CD4.|IL-2 group minus control group CD4.|||||.05
92444209|NCT00110812|184774125|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.03|TWO_SIDED|95.0|0.52|0.97|||Regression, Cox||IL-2 groups vs. control|||.97|.52|.03
92171524|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|7.21||||0.01|TWO_SIDED|95.0|1.7|12.73|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 6||12.73|1.70|0.010
92171525|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.934|TWO_SIDED|95.0|-4.63|5.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 3||5.03|-4.63|0.934
92239077|NCT03691623|184382249|SUPERIORITY||LS Mean Difference|-2.0|||<|0.001|TWO_SIDED|95.0|-2.89|-1.11|||ANCOVA|||||-1.11|-2.89|< 0.001
92239078|NCT03691623|184382249|SUPERIORITY||LS Mean Difference|-1.97|||<|0.001|TWO_SIDED|95.0|-3.06|-0.89|||ANCOVA|||||-0.89|-3.06|< 0.001
92239079|NCT03691623|184382249|SUPERIORITY||LS Mean Difference|-2.46|||<|0.001|TWO_SIDED|95.0|-3.64|-1.29|||ANCOVA|||||-1.29|-3.64|< 0.001
92239080|NCT03691623|184382250|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||< 0.001
92239081|NCT03691623|184382250|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||< 0.001
92239082|NCT03691623|184382250|SUPERIORITY||||||=|0.001|||||||Log Rank|||||||= 0.001
92239083|NCT03691623|184382250|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||< 0.001
92239084|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.903||||0.0126|TWO_SIDED|95.0|0.833|0.978|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.978|0.833|0.0126
92444210|NCT04476030|184774138|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.55||0.0004|TWO_SIDED|95.0|-3.0|-0.9|||MMRM||Model used was the MMRM with treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||-0.9|-3.0|0.0004
92444211|NCT04476030|184774139|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.56||0.0054|TWO_SIDED|95.0|-2.7|-0.5|||MMRM||Model used was the MMRM with treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||-0.5|-2.7|0.0054
92444212|NCT04476030|184774140|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.7||0.2477|TWO_SIDED|95.0|-2.2|0.6|||MMRM||Model used was the MMRM with treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|Day 15||0.6|-2.2|0.2477
92444213|NCT04476030|184774140|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.79||0.9248|TWO_SIDED|95.0|-1.6|1.5|||MMRM||Model used was the MMRM with treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|Day 42||1.5|-1.6|0.9248
92444214|NCT04476030|184774141|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.65||0.4458|TWO_SIDED|95.0|-1.8|0.8|||MMRM||Model used was the MMRM with treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||0.8|-1.8|0.4458
92444215|NCT04476030|184774142|SUPERIORITY||Odds Ratio (OR)|1.15||||0.4946|TWO_SIDED|95.0|0.78|1.69|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 15|Generalized estimating equation is abbreviated as GEE in the method of estimation section.|1.69|0.78|0.4946
92444216|NCT04476030|184774142|SUPERIORITY||Odds Ratio (OR)|0.82||||0.3579|TWO_SIDED|95.0|0.55|1.24|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 42||1.24|0.55|0.3579
92444217|NCT04476030|184774143|SUPERIORITY||Odds Ratio (OR)|1.41||||0.1417|TWO_SIDED|95.0|0.89|2.24|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 15||2.24|0.89|0.1417
92444218|NCT04476030|184774143|SUPERIORITY||Odds Ratio (OR)|0.94||||0.7872|TWO_SIDED|95.0|0.62|1.44|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 42||1.44|0.62|0.7872
92444219|NCT04476030|184774144|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1993|TWO_SIDED|95.0|-0.4|0.1|||MMRM||Model used was the MMRM with treatment, baseline CGI-S score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||0.1|-0.4|0.1993
92444220|NCT04476030|184774145|SUPERIORITY||Odds Ratio (OR)|2.05||||0.0079|TWO_SIDED|95.0|1.21|3.47|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline CGI-S score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 3||3.47|1.21|0.0079
92444221|NCT04476030|184774145|SUPERIORITY||Odds Ratio (OR)|1.09||||0.6588|TWO_SIDED|95.0|0.74|1.62|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline CGI-S score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 15||1.62|0.74|0.6588
92444222|NCT04476030|184774146|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|1.06||0.2322|TWO_SIDED|95.0|-3.4|0.8|||MMRM||Model used was the MMRM with treatment, baseline MADRS total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||0.8|-3.4|0.2322
92444223|NCT04476030|184774147|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5439|TWO_SIDED|95.0|0.76|1.68|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline MADRS total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|||1.68|0.76|0.5439
92444224|NCT04476030|184774148|SUPERIORITY||Odds Ratio (OR)|1.09||||0.7054|TWO_SIDED|95.0|0.7|1.69|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline MADRS total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|||1.69|0.70|0.7054
92444225|NCT04476030|184774149|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.62||0.4188|TWO_SIDED|95.0|-1.7|0.7|||MMRM||Model used was the MMRM with treatment, baseline HAM-A total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||0.7|-1.7|0.4188
92444226|NCT04476030|184774151|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.62||0.7758|TWO_SIDED|95.0|-1.4|1.0|||MMRM||Model used was the MMRM with treatment, baseline PHQ-9 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||1.0|-1.4|0.7758
92444227|NCT02342704|184774155|SUPERIORITY_OR_OTHER|||||||0.126|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||Week 4||||0.1260
92171526|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|3.13||||0.209|TWO_SIDED|95.0|-1.75|8.01|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 6||8.01|-1.75|0.209
92444228|NCT02342704|184774155|SUPERIORITY_OR_OTHER|||||||0.3525|||||||negative binomial regression|p-value is based on negative binomial regression model, adjusted for baseline GD lesion count||Week 4||||0.3525
92444229|NCT02342704|184774155|SUPERIORITY_OR_OTHER|||||||0.0127|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||Week 12||||0.0127
92444230|NCT02342704|184774155|SUPERIORITY_OR_OTHER|||||||0.0299|||||||negative binomial regression|p-value is based on negative binomial regression model, adjusted for baseline GD lesion count||Week 12||||0.0299
92444231|NCT02342704|184774155|SUPERIORITY_OR_OTHER|||||||0.0123|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||Week 24||||0.0123
92444232|NCT02342704|184774155|SUPERIORITY_OR_OTHER|||||||0.0076|||||||negative binomial regression|p-value is based on negative binomial regression model, adjusted for baseline GD lesion count||Week 24||||0.0076
92444233|NCT02342704|184774156|SUPERIORITY_OR_OTHER|||||||0.5318|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||T1 Lesion Volume Change||||0.5318
92444234|NCT02342704|184774156|SUPERIORITY_OR_OTHER|||||||0.0528|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||T2 Lesion Volume Change||||0.0528
92444235|NCT02342704|184774158|SUPERIORITY_OR_OTHER|||||||0.2632|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||||||0.2632
92444236|NCT01675882|184774165|SUPERIORITY||Relative risk|1.81||||0.0292|TWO_SIDED|95.0|1.05|3.11|||Fisher Exact|||The three pair-wise comparisons of viaskin peanut versus placebo were analyzed using the Bonferroni stepwise procedure, keeping the overall false-positive (alpha) risk below 5%. The comparison of viaskin peanut 250 µg versus placebo is statistically significant at p\<0.05. The subsequent comparison of viaskin peanut 100 µg versus placebo is not statistically significant at p\<0.05. Thus, no conclusion can be made on the comparison of viaskin peanut 50 µg vs placebo.||3.11|1.05|0.0292
92444237|NCT01675882|184774165|SUPERIORITY||Relative risk|1.64||||0.1074|TWO_SIDED|95.0|0.95|2.85|||Fisher Exact|||The three pair-wise comparisons of viaskin peanut versus placebo were analyzed using the Bonferroni stepwise procedure, keeping the overall false-positive (alpha) risk below 5%. The comparison of viaskin peanut 250 µg versus placebo is statistically significant at p\<0.05. The subsequent comparison of viaskin peanut 100 µg versus placebo is not statistically significant at p\<0.05.||2.85|0.95|0.1074
92444238|NCT01675882|184774165|SUPERIORITY||Relative risk|2.0||||0.0108|TWO_SIDED|95.0|1.18|3.38|||Fisher Exact|||The three pair-wise comparisons of viaskin peanut versus placebo were analyzed using the Bonferroni stepwise procedure, keeping the overall false-positive (alpha) risk below 5%. The comparison of viaskin peanut 250 µg versus placebo is statistically significant at p\<0.05.||3.38|1.18|0.0108
92444239|NCT01675882|184774166|SUPERIORITY||Relative risk|2.95||||0.0035|TWO_SIDED|95.0|1.34|6.49|||Fisher Exact|||||6.49|1.34|0.0035
92444240|NCT01675882|184774166|SUPERIORITY||Relative risk|2.38||||0.0453|TWO_SIDED|95.0|1.04|5.47|||Fisher Exact|||||5.47|1.04|0.0453
92444241|NCT01675882|184774166|SUPERIORITY||Relative risk|2.77||||0.0076|TWO_SIDED|95.0|1.25|6.14|||Fisher Exact|||||6.14|1.25|0.0076
92444242|NCT01675882|184774167|SUPERIORITY||Relative risk|1.5||||0.7112|TWO_SIDED|95.0|0.51|4.43|||Fisher Exact|||||4.43|0.51|0.7112
92444243|NCT01675882|184774167|SUPERIORITY||Relative risk|0.47||||0.4048|TWO_SIDED|95.0|0.1|2.28|||Fisher Exact|||||2.28|0.10|0.4048
92444244|NCT01675882|184774167|SUPERIORITY||Relative risk|1.75||||0.4705|TWO_SIDED|95.0|0.62|4.95|||Fisher Exact|||||4.95|0.62|0.4705
92444245|NCT01675882|184774168|SUPERIORITY||Relative risk|0.5||||0.5921|TWO_SIDED|95.0|0.13|1.9|||Fisher Exact|||||1.90|0.13|0.5921
92444246|NCT01675882|184774168|SUPERIORITY||Relative risk|1.43||||0.326|TWO_SIDED|95.0|0.71|2.88|||Fisher Exact|||||2.88|0.71|0.3260
92171527|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.585|TWO_SIDED|95.0|-4.9|8.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 3||8.68|-4.90|0.585
92280170|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-7.7|STANDARD_ERROR_OF_MEAN|2.69||0.0047|TWO_SIDED|95.0|-13.0|-2.4||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Core: Change from Baseline in HAM-D Subscale Score at Day 45||-2.4|-13.0|0.0047
92444247|NCT01675882|184774168|SUPERIORITY||Relative risk|1.05||||1|TWO_SIDED|95.0|0.46|2.38|||Fisher Exact|||||2.38|0.46|1.0000
92444248|NCT01675882|184774169|SUPERIORITY||Difference in LS mean|70.2||||0.0607|TWO_SIDED|95.0|-2.41|193.69||P-value was based on type III sum of squares from analysis of covariance (ANCOVA) model on log transformed values for peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The least squares (LS) mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||193.69|-2.41|0.0607
92444249|NCT01675882|184774169|SUPERIORITY||Difference in LS mean|97.5||||0.015|TWO_SIDED|95.0|14.45|237.82||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||237.82|14.45|0.0150
92444250|NCT01675882|184774169|SUPERIORITY||Difference in LS mean|242.2|||<|0.0001|TWO_SIDED|95.0|100.03|482.65||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||482.65|100.03|<0.0001
92171528|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|1.62||||0.641|TWO_SIDED|95.0|-5.22|8.47|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 6||8.47|-5.22|0.641
92444251|NCT01675882|184774170|SUPERIORITY||Difference in LS mean|73.9||||0.0372|TWO_SIDED|95.0|2.96|225.85||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||225.85|2.96|0.0372
92444252|NCT01675882|184774170|SUPERIORITY||Difference in LS mean|96.7||||0.0143|TWO_SIDED|95.0|12.92|278.11||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||278.11|12.92|0.0143
92444253|NCT01675882|184774170|SUPERIORITY||Difference in LS mean|260.3|||<|0.0001|TWO_SIDED|95.0|89.83|625.95||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||625.95|89.83|<0.0001
92444254|NCT01675882|184774171|SUPERIORITY||Difference in LS mean|26.1||||0.6596|TWO_SIDED|95.0|-59.58|236.0||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||236.00|-59.58|0.6596
92444255|NCT01675882|184774171|SUPERIORITY||Difference in LS mean|8.9||||0.8702|TWO_SIDED|95.0|-65.9|189.96||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||189.96|-65.90|0.8702
92444256|NCT01675882|184774171|SUPERIORITY||Difference in LS mean|158.9||||0.063|TWO_SIDED|95.0|-5.5|562.31||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||562.31|-5.50|0.0630
92444257|NCT01675882|184774172|SUPERIORITY||Difference in LS mean|-80.2||||0.6776|TWO_SIDED|95.0|-237.22|782.24||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||782.24|-237.22|0.6776
92444258|NCT01675882|184774172|SUPERIORITY||Difference in LS mean|158.8||||0.5068|TWO_SIDED|95.0|-166.1|1478.83||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||1478.83|-166.10|0.5068
92444259|NCT01675882|184774172|SUPERIORITY||Difference in LS mean|53.8||||0.7972|TWO_SIDED|95.0|-193.9|1085.38||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||1085.38|-193.90|0.7972
92444260|NCT01675882|184774173|SUPERIORITY||Difference in LS mean|120.0||||0.0444|TWO_SIDED|95.0|2.3|321.8||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for cumulative reactive dose at Month 12, including treatment group, baseline cumulative reactive dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean peanut protein cumulative reactive dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||321.80|2.30|0.0444
92444261|NCT01675882|184774173|SUPERIORITY||Difference in LS mean|147.6||||0.0175|TWO_SIDED|95.0|19.67|365.51||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the cumulative reactive dose at Month 12, including treatment group, baseline cumulative reactive dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean peanut protein cumulative reactive dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||365.51|19.67|0.0175
92444262|NCT01675882|184774173|SUPERIORITY||Difference in LS mean|386.0|||<|0.0001|TWO_SIDED|95.0|159.67|771.16||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the cumulative reactive dose at Month 12, including treatment group, baseline cumulative reactive dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean peanut protein cumulative reactive dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||771.16|159.67|<0.0001
92444263|NCT01675882|184774174|SUPERIORITY||Difference in LS mean|-0.6||||0.251|TWO_SIDED|95.0|-1.55|0.52||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the OFC symptom scores at Month 12, including treatment group, Baseline OFC symptom scores, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean OFC score for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||0.52|-1.55|0.2510
92444264|NCT01675882|184774174|SUPERIORITY||Difference in LS mean|-0.2||||0.682|TWO_SIDED|95.0|-1.24|1.05||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the OFC symptom scores at Month 12, including treatment group, Baseline OFC symptom scores, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean OFC score for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||1.05|-1.24|0.6820
92444265|NCT01675882|184774174|SUPERIORITY||Difference in LS mean|0.8||||0.2117|TWO_SIDED|95.0|-0.42|2.47||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the OFC symptom scores at Month 12, including treatment group, Baseline OFC symptom scores, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean OFC score for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||2.47|-0.42|0.2117
92171529|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.586|TWO_SIDED|95.0|-6.89|3.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 3||3.90|-6.89|0.586
92171530|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.906|TWO_SIDED|95.0|-5.79|5.14|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 6||5.14|-5.79|0.906
92280171|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|2.5||0.0053|TWO_SIDED|95.0|-12.0|-2.1||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety: Change from Baseline in HAM-D Subscale Score at Day 3||-2.1|-12.0|0.0053
92444266|NCT01675882|184774176|SUPERIORITY||Difference in LS mean|17.4||||0.0337|TWO_SIDED|95.0|1.17|38.82||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all Baseline covariates in the analysis set.||38.82|1.17|0.0337
92444267|NCT01675882|184774176|SUPERIORITY||Difference in LS mean|26.2||||0.002|TWO_SIDED|95.0|8.38|49.45||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all Baseline covariates in the analysis set.||49.45|8.38|0.0020
92444268|NCT01675882|184774176|SUPERIORITY||Difference in LS mean|20.0||||0.012|TWO_SIDED|95.0|3.85|40.91||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all Baseline covariates in the analysis set.||40.91|3.85|0.0120
92444269|NCT01675882|184774180|SUPERIORITY||Difference in LS mean|1.2|||<|0.0001|TWO_SIDED|95.0|0.72|1.9||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||1.90|0.72|<0.0001
92444270|NCT01675882|184774180|SUPERIORITY||Difference in LS mean|1.3|||<|0.0001|TWO_SIDED|95.0|0.79|2.01||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||2.01|0.79|<0.0001
92444271|NCT01675882|184774180|SUPERIORITY||Difference in LS mean|2.1|||<|0.0001|TWO_SIDED|95.0|1.39|3.11||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||3.11|1.39|<0.0001
92444272|NCT01451775|184774192|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability study with standard bioequivalence range of 80% to 125%. Ratio calculated as empa 25mg fed divided by empa 25mg fasted.|Geometric mean ratio|84.04|STANDARD_DEVIATION|6.4|||TWO_SIDED|90.0|80.856|87.344|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation.|||87.344|80.856|
92444273|NCT01451775|184774192|NON_INFERIORITY_OR_EQUIVALENCE|This is an analysis of dose proportionality|Slope|0.9367|STANDARD_ERROR_OF_MEAN|0.0178|||TWO_SIDED|95.0|0.8988|0.9746||Does proportionality would be assumed if the 95% confidence interval includes one.|ANCOVA|ANCOVA with logarithm of the dose fitted as a continuous covariate and sequence, subjects within sequence, period included as categorical variables.||||0.9746|0.8988|
92444274|NCT01451775|184774193|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability study with standard bioequivalence range of 80% to 125%. Ratio calculated as empa 25mg fed divided by empa 25mg fasted.|Geometric mean ratio|63.22|STANDARD_DEVIATION|18.1|||TWO_SIDED|90.0|56.736|70.439|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation.|||70.439|56.736|
92444275|NCT01451775|184774193|NON_INFERIORITY_OR_EQUIVALENCE|This is an analysis of dose proportionality|Slope|0.9065|STANDARD_DEVIATION|0.0495|||TWO_SIDED|95.0|0.8011|1.012||Does proportionality would be assumed if the 95% confidence interval includes one.|ANCOVA|ANCOVA with logarithm of the dose fitted as a continuous covariate and sequence, subjects within sequence, period included as categorical variables.||||1.0120|0.8011|
92444276|NCT02016482|184774195|SUPERIORITY_OR_OTHER||Difference in percentage|43.2|||<|0.001|TWO_SIDED|95.0|32.8|53.6||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||For US regulatory purposes, ranked first secondary endpoint.||53.6|32.8|< 0.001
92444277|NCT02016482|184774196|SUPERIORITY_OR_OTHER||Difference in percentage|42.0|||<|0.001|TWO_SIDED|95.0|30.8|53.2||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||Ranked sixth secondary endpoint. For US regulatory purposes, this was the primary endpoint.||53.2|30.8|< 0.001
92444278|NCT02016482|184774197|SUPERIORITY_OR_OTHER||LS Mean|-44.8|||<|0.001|TWO_SIDED|95.0|-53.5|-36.0||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Ranked first secondary endpoint. For US regulatory purposes, ranked second secondary endpoint.||-36.0|-53.5|< 0.001
92444279|NCT02016482|184774198|SUPERIORITY_OR_OTHER||Difference in percentage|6.6||||0.008|TWO_SIDED|95.0|1.8|11.3||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||Ranked second secondary endpoint. For US regulatory purposes, ranked third secondary endpoint.||11.3|1.8|0.008
92444280|NCT02016482|184774199|SUPERIORITY_OR_OTHER||LS Mean Percent Change|-2.6|||<|0.001|TWO_SIDED|95.0|-3.3|-2.0||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Ranked third secondary endpoint. For US regulatory purposes, ranked fourth secondary endpoint.||-2.0|-3.3|< 0.001
92171531|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.97|TWO_SIDED|95.0|-4.93|4.75|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 3||4.75|-4.93|0.970
92171532|NCT00567398|184232142|SUPERIORITY||Mean Difference (Final Values)|2.38||||0.34|TWO_SIDED|95.0|-2.52|7.28|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 6||7.28|-2.52|0.340
92239085|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.966||||0.0042|TWO_SIDED|95.0|0.944|0.989|||Regression, Logistic|||The statistical analysis is presented for Body Mass Index (BMI) in kilogram per square meter (kg/m\^2). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.989|0.944|0.0042
92239086|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.732|||<|0.0001|TWO_SIDED|95.0|0.656|0.816|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at Baseline (BL) in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.816|0.656|<0.0001
92444281|NCT02016482|184774200|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9|||<|0.001|TWO_SIDED|95.0|-3.6|-2.2||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Ranked fourth secondary endpoint. For US regulatory purposes, ranked fifth secondary endpoint.||-2.2|-3.6|< 0.001
92444282|NCT02016482|184774201|SUPERIORITY_OR_OTHER||Difference in percentage|57.9||||0.002|TWO_SIDED|95.0|33.8|82.0||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||Ranked fifth secondary endpoint. For US regulatory purposes, ranked sixth secondary endpoint.||82.0|33.8|0.002
92444283|NCT02016482|184774202|SUPERIORITY_OR_OTHER||Difference in percentage|43.3|||<|0.001|TWO_SIDED|95.0|31.3|55.2||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||55.2|31.3|< 0.001
92444284|NCT02016482|184774203|SUPERIORITY_OR_OTHER||Difference in percentage|44.8|||<|0.001|TWO_SIDED|95.0|33.2|56.5||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||56.5|33.2|< 0.001
92444285|NCT02016482|184774204|SUPERIORITY_OR_OTHER||Difference in percentage|18.6|||<|0.001|TWO_SIDED|95.0|10.6|26.6||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||26.6|10.6|< 0.001
92444286|NCT02016482|184774205|SUPERIORITY_OR_OTHER||Difference in percentage|36.0|||<|0.001|TWO_SIDED|95.0|25.0|46.9||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||46.9|25.0|< 0.001
92444287|NCT02016482|184774206|SUPERIORITY_OR_OTHER||Difference in percentage|13.3|||<|0.001|TWO_SIDED|95.0|6.5|20.0||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||20.0|6.5|<0.001
92171533|NCT00567398|184232143|SUPERIORITY||Mean Difference (Final Values)|24.6||||0.495|TWO_SIDED|95.0|-46.9|96.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Subcutaneous Fat Volume-Month 6||96|-46.9|0.495
92444288|NCT02016482|184774207|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.5|||<|0.001|TWO_SIDED|95.0|-4.3|-2.8||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-2.8|-4.3|< 0.001
92444289|NCT02016482|184774208|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.9|||<|0.001|TWO_SIDED|95.0|-46.9|-30.8||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-30.8|-46.9|< 0.001
92444290|NCT02016482|184774209|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.6|||<|0.001|TWO_SIDED|95.0|-33.5|-23.7||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-23.7|-33.5|< 0.001
92444291|NCT02016482|184774210|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.1|||<|0.001|TWO_SIDED|95.0|-58.3|-41.9||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-41.9|-58.3|< 0.001
92171534|NCT00567398|184232143|SUPERIORITY||Mean Difference (Final Values)|55.4||||0.081|TWO_SIDED|95.0|-7.0|117.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Visceral Fat Volume-Month 6||117.8|-7|0.081
92171535|NCT00567398|184232144|SUPERIORITY||Mean Difference (Final Values)|6.3||||0.626|TWO_SIDED|95.0|-19.3|31.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Diastolic Volume-Month 6||31.9|-19.3|0.626
92239087|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.686|||<|0.0001|TWO_SIDED|95.0|1.347|2.109|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.109|1.347|<0.0001
92239088|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.103||||0.4759|TWO_SIDED|95.0|0.843|1.442|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missed vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.442|0.843|0.4759
92240067|NCT00570739|184383812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.45||||0.0918|TWO_SIDED|95.0|-1.71|22.62||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a||Baseline to 16 Weeks LOCF||22.62|-1.71|0.0918
92240068|NCT00570739|184383813|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|15.78||||0.0005|TWO_SIDED|95.0|6.27|25.83||P-Value is from the non-parametric ANCOVA stratified by country|ANCOVA|Non-parametric|The median difference was calculated using Hodges-Lehmann point estimates and corresponding 95% confidence interval was constructed using the method of Moses.|Baseline to 8 Weeks||25.83|6.27|0.0005
92171536|NCT00567398|184232144|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.486|TWO_SIDED|95.0|-14.5|30.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Systolic Volume-Month 6||30.1|-14.5|0.486
92444292|NCT02016482|184774211|SUPERIORITY_OR_OTHER||Difference in percentage|7.4||||0.004|TWO_SIDED|95.0|2.4|12.4||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||12.4|2.4|0.004
92444293|NCT02016482|184774212|SUPERIORITY_OR_OTHER||Difference in percentage|18.5|||<|0.001|TWO_SIDED|95.0|10.1|26.8||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||26.8|10.1|< 0.001
92171537|NCT00567398|184232145|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.832|TWO_SIDED|95.0|-18.9|23.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass with Pap Muscles-Month 6||23.4|-18.9|0.832
92239089|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.656||||0.018|TWO_SIDED|95.0|0.462|0.93|||Regression, Logistic|||The statistical analysis is presented for Alanine transaminase (ALT) ratio at BL (\<=1 vs \> 3). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.930|0.462|0.0180
92444294|NCT02016482|184774213|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5|||<|0.001|TWO_SIDED|95.0|-3.1|-1.9||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-1.9|-3.1|< 0.001
92444295|NCT02016482|184774214|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.2|||<|0.001|TWO_SIDED|95.0|-50.0|-30.4||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-30.4|-50.0|< 0.001
92444296|NCT02016482|184774215|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.5|||<|0.001|TWO_SIDED|95.0|-23.6|-15.3||Across all strata, P values were calculated from ANCOVA with stratum, Baseline value, and treatment in the model.|ANCOVA|||||-15.3|-23.6|< 0.001
92444297|NCT02016482|184774216|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.1|||<|0.001|TWO_SIDED|95.0|-10.0|-6.1||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-6.1|-10.0|< 0.001
92171538|NCT00567398|184232145|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.82|TWO_SIDED|95.0|-18.3|23.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass without Pap Muscles-Month 6||23.1|-18.3|0.820
92171539|NCT00567398|184232146|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.955|TWO_SIDED|95.0|-6.9|6.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Ejection Fraction-Month 6||6.5|-6.9|0.955
92171540|NCT03517553|184232147|SUPERIORITY|||||||0.999||||||Threshold for statistical significance is P\<0.05|Kruskal-Wallis|||||||0.999
92171541|NCT03517553|184232147|SUPERIORITY|||||||0.768|||||||Kruskal-Wallis|||||||0.768
92171542|NCT03517553|184232148|SUPERIORITY|||||||0.869|||||||Kruskal-Wallis|||||||0.869
92171543|NCT03517553|184232148|SUPERIORITY|||||||0.813|||||||Kruskal-Wallis|||||||0.813
92171544|NCT03517553|184232148|SUPERIORITY|||||||0.978|||||||Kruskal-Wallis|||||||0.978
92171545|NCT03517553|184232148|SUPERIORITY|||||||0.731|||||||Kruskal-Wallis|||||||0.731
92171546|NCT03517553|184232148|SUPERIORITY|||||||0.703|||||||Kruskal-Wallis|||||||0.703
92171547|NCT03517553|184232148|SUPERIORITY|||||||0.909|||||||Kruskal-Wallis|||||||0.909
92239090|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.742||||0.0262|TWO_SIDED|95.0|0.57|0.965|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\> 1 - 3 vs \> 3). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.965|0.570|0.0262
92444298|NCT02016482|184774217|SUPERIORITY_OR_OTHER||LS Mean Difference|-71.2|||<|0.001|TWO_SIDED|95.0|-87.3|-55.0||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-55.0|-87.3|< 0.001
92444299|NCT02016482|184774218|SUPERIORITY_OR_OTHER||Difference in percentage|51.1|||<|0.001|TWO_SIDED|95.0|38.6|63.5||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||PASI 75||63.5|38.6|< 0.001
92444300|NCT02016482|184774218|SUPERIORITY_OR_OTHER||Difference in percentage|52.5|||<|0.001|TWO_SIDED|95.0|39.9|65.0||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||PASI 50||65.0|39.9|< 0.001
92444301|NCT02016482|184774218|SUPERIORITY_OR_OTHER||Difference in percentage|40.9|||<|0.001|TWO_SIDED|95.0|29.0|52.9||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||PASI 90||52.9|29.0|< 0.001
92444302|NCT02016482|184774218|SUPERIORITY_OR_OTHER||Difference in percentage|26.4|||<|0.001|TWO_SIDED|95.0|15.8|36.9||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||PASI 100||36.9|15.8|< 0.001
92444303|NCT02016482|184774219|SUPERIORITY_OR_OTHER||Difference in percentage|52.2|||<|0.001|TWO_SIDED|95.0|40.8|63.7||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||63.7|40.8|< 0.001
92239091|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.717||||0.0069|TWO_SIDED|95.0|0.563|0.913|||Regression, Logistic|||The statistical analysis is presented for aspartate aminotransferase (AST) ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.913|0.563|0.0069
92239092|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.062|||<|0.0001|TWO_SIDED|95.0|1.056|1.067|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.067|1.056|<0.0001
92444304|NCT02016482|184774220|SUPERIORITY_OR_OTHER||Difference in percentage|24.8|||<|0.001|TWO_SIDED|95.0|15.3|34.3||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||34.3|15.3|< 0.001
92444305|NCT02016482|184774221|SUPERIORITY_OR_OTHER||Difference in percentage|90.4|||<|0.001|TWO_SIDED|95.0|72.5|108.3||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||108.3|72.5|< 0.001
92444306|NCT02016482|184774222|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.1|||<|0.001|TWO_SIDED|95.0|-13.9|-8.4||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-8.4|-13.9|< 0.001
92444307|NCT02016482|184774223|SUPERIORITY_OR_OTHER||LS Mean Difference|-80.6|||<|0.001|TWO_SIDED|95.0|-97.9|-63.3||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-63.3|-97.9|< 0.001
92444308|NCT02016482|184774224|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.9|||<|0.001|TWO_SIDED|95.0|-64.0|-37.8||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-37.8|-64.0|< 0.001
92444309|NCT02016482|184774225|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.7|||<|0.001|TWO_SIDED|95.0|-73.1|-42.4||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-42.4|-73.1|< 0.001
92444310|NCT02016482|184774226|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-1.1|-0.7||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-0.7|-1.1|< 0.001
92444311|NCT02016482|184774227|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.7|||<|0.001|TWO_SIDED|95.0|-33.9|-21.6||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-21.6|-33.9|< 0.001
92171548|NCT02201108|184232152|SUPERIORITY||Hazard Ratio (HR)|0.657||||0.2949|TWO_SIDED|95.0|0.388|1.113||Threshold for significance was \< 0.05.|Stratified Log-Rank test|P-value derived from log-rank test with stratification of region and pubertal status.|Hazard ratio was estimated using a Cox proportional-hazards model with factors for treatment group, region, pubertal status, age, and number of relapses in the year prior to randomization as covariates and with robust variance estimation.|||1.113|0.388|0.2949
92171549|NCT02201108|184232154|OTHER||Relative risk ratio|0.511|||||TWO_SIDED|95.0|0.343|0.762||||||||0.762|0.343|
92444312|NCT02016482|184774228|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.1|||<|0.001|TWO_SIDED|95.0|-7.8|-4.5||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-4.5|-7.8|< 0.001
92444313|NCT02016482|184774229|SUPERIORITY_OR_OTHER||Difference in percentage|15.7|||<|0.001|TWO_SIDED|95.0|7.1|24.3||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||DLQI = 0||24.3|7.1|< 0.001
92239093|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.107||||0.0062|TWO_SIDED|95.0|1.029|1.191|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, first 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.191|1.029|0.0062
92239094|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.739||||0.0295|TWO_SIDED|95.0|0.563|0.97|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.970|0.563|0.0295
92240069|NCT00570739|184383813|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|16.07||||0.0011|TWO_SIDED|95.0|6.33|26.02||P-Value is from the non-parametric ANCOVA stratified by country|ANCOVA|Non-parametric|The median difference was calculated using Hodges-Lehmann point estimates and corresponding 95% confidence interval was constructed using the method of Moses.|Baseline to 16 Weeks||26.02|6.33|0.0011
92240070|NCT00570739|184383813|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|14.33||||0.0009|TWO_SIDED|95.0|5.11|23.84||P-Value is from the non-parametric ANCOVA stratified by country|ANCOVA|Non-parametric|The median difference was calculated using Hodges-Lehmann point estimates and corresponding 95% confidence interval was constructed using the method of Moses.|Baseline to 16 Weeks LOCF||23.84|5.11|0.0009
92240071|NCT00570739|184383814|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.29||||0.6523|TWO_SIDED|95.0|-17.5|10.32||P-Value was from the non-parametric ANCOVA stratified by country|ANCOVA|Non-parametric|The median difference was calculated using Hodges-Lehmann point estimates and corresponding 95% confidence interval was constructed using the method of Moses.|Baseline to 16 Weeks||10.32|-17.50|0.6523
92444314|NCT02016482|184774229|SUPERIORITY_OR_OTHER||Difference in percentage|27.1|||<|0.001|TWO_SIDED|95.0|16.7|37.4||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||DLQI = 0/1||37.4|16.7|< 0.001
92444315|NCT02016482|184774230|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.416|TWO_SIDED|95.0|-1.0|2.5||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Absenteeism||2.5|-1.0|0.416
92444316|NCT02016482|184774230|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.3|||<|0.001|TWO_SIDED|95.0|-22.9|-11.6||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Presenteeism||-11.6|-22.9|< 0.001
92444317|NCT02016482|184774230|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.2|||<|0.001|TWO_SIDED|95.0|-21.0|-9.3||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Overall work impairment||-9.3|-21.0|< 0.001
92444318|NCT02016482|184774230|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.4|||<|0.001|TWO_SIDED|95.0|-27.3|-15.4||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Activity impairment||-15.4|-27.3|< 0.001
92444319|NCT02016482|184774231|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|||<|0.001|TWO_SIDED|95.0|0.1|0.2||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||0.2|0.1|< 0.001
92444320|NCT02016482|184774232|SUPERIORITY_OR_OTHER||LS Mean Difference|5.5||||0.012|TWO_SIDED|95.0|1.2|9.8||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||9.8|1.2|0.012
92444321|NCT02016482|184774233|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1||||0.025|TWO_SIDED|95.0|-2.0|-0.1||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||HADS anxiety score||-0.1|-2.0|0.025
92444322|NCT02016482|184774233|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.3||||0.005|TWO_SIDED|95.0|-2.3|-0.4||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||HADS depression score||-0.4|-2.3|0.005
92444323|NCT02016482|184774234|SUPERIORITY_OR_OTHER||Difference in percentage|2.5||||0.164|TWO_SIDED|95.0|-0.9|6.0||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Chi-squared|||||6|-0.9|0.164
92444324|NCT02016482|184774235|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|||<|0.001|TWO_SIDED|95.0|-3.4|-2.1||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-2.1|-3.4|< 0.001
92444325|NCT00606892|184774236|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Significant treatment or treatment-by-time interactions were followed up by post hoc comparisons of placebo vs. varenicline for time (Pre- vs. Post-Nicotine infusion) and testing block (Smoking Block vs. Negative Affect Block).|Mixed Models Analysis|||A mixed-effect repeated-measures crossover model with fixed main effect terms of treatment (placebo or varenicline) and time of measurement (Pre-Nicotine or Post-Nicotine) was utilized. Interactions between main effect terms were also analyzed.||||<0.05
92171550|NCT02201108|184232155|OTHER||Relative risk ratio|0.57|||||TWO_SIDED|95.0|0.331|0.983||||||||0.983|0.331|
92171551|NCT02201108|184232158|OTHER||Relative risk ratio|0.498|||||TWO_SIDED|95.0|0.296|0.836||||||||0.836|0.296|
92171552|NCT02201108|184232172|OTHER||Hazard Ratio (HR)|0.693|||||TWO_SIDED|95.0|0.37|1.296|||||Hazard ratio estimated using a Cox proportional-hazards model using treatment group, region, pubertal status, age, and number of relapses in the year prior to randomisation as covariates and with robust variance estimation.|||1.296|0.37|
92444326|NCT00606892|184774237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0|STANDARD_DEVIATION|40.0|<|0.3|TWO_SIDED|95.0|||||ANOVA|F(1,10)=1.1||||||<0.3
92444327|NCT00606892|184774238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0||||Values of p\<0.05 were considered statistically significant, based on 2-tailed tests. Significant treatment, or treatment-by-time interactions were followed by post hoc comparisons. To account for multiple testing, significance was set at p\<0.016.|Mixed Models Analysis|||A mixed-effect repeated-measures crossover model including fixed main effects for treatment condition (placebo or varenicline), time of measurement and interactions between treatment and time, was utilized. Because multiple measurements were collected before and after each nicotine dose, a change score (maximum post dose score - pre dose baseline) was used in the analysis.||||<0.05
92444328|NCT00606892|184774239|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||Post hoc comparisons of effects of varenicline versus placebo for different nicotine doses were performed and significance was adjusted for multiple testing using a p value of P\<0.016|ANOVA|Two-tailed tests were applied for main effects with P\<0.05||A mixed-effect, repeated-measures, crossover model was used with fixed main effects for treatment (placebo or varenicline), and time after treatment. Interactions between main effects were also analyzed.||||<0.05
92444329|NCT04681482|184774301|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.54|0.7|||Cox Proportional Hazards Model|||Cox Proportional Hazards Model was used to compare the risk of MB between cohorts.||0.70|0.54|<0.001
92444330|NCT04681482|184774303|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.088|TWO_SIDED|95.0|0.66|1.03|||Cox Proportional Hazards Model|||Cox Proportional Hazards Model was used to compare the risk of stroke/SE between cohorts.||1.03|0.66|0.088
92444331|NCT04681482|184774305|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|95.0|0.6|0.76|||Cox Proportional Hazards Model|||Cox Proportional Hazards Model was used to compare the risk of net clinical benefit between cohorts.||0.76|0.60|<0.001
92444332|NCT00896337|184774314|SUPERIORITY_OR_OTHER||9-month major adverse event rate|3.4|||<|0.0001|TWO_SIDED|95.0|0.9|8.5||A one-sided exact-test was used to test the hypothesis that the primary endpoint rate in the Epic-treated cohort is less than the predefined performance goal of 17.0%.|One-sided exact-test|||MAE rate was compared to a predefined performance goal of 17.0%, based on literature-derived expected rate of 8.0% for iliac stenting plus a 9.0% margin. Study had 87% statistical power to show the MAE rate (accounting for 9-month attrition of \<=15%) is less than the performance goal, assuming a 9-month MAE rate of 8.0%. If the exact one-sided 95% upper confidence bound of the observed rate is lower than the performance goal, the Epic stent would be considered to have acceptable performance.||8.5|0.9|<0.0001
92444333|NCT02013167|184774389|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.012|TWO_SIDED|95.0|0.55|0.93|||Stratified Log Rank|Stratified by age (\< 35 years; ≥ 35 years), prior salvage therapy (yes vs. no), and prior allogeneic HSCT (yes vs. no).|Hazard ratio obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicated a lower average event rate and longer survival time for blinatumomab relative to SOC chemotherapy.|||0.93|0.55|0.012
92444334|NCT02013167|184774390|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|17.9|||<|0.001|TWO_SIDED|95.0|9.6|26.2|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors: age (\< 35 vs. ≥ 35), prior salvage therapy (yes vs. no), and prior allogeneic HSCT (yes vs. no).||||26.2|9.6|< 0.001
92444335|NCT02013167|184774391|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|19.3|||<|0.001|TWO_SIDED|95.0|9.9|28.7|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors: age (\< 35 vs. ≥ 35), prior salvage therapy (yes vs. no), and prior allogeneic HSCT (yes vs. no).||||28.7|9.9|< 0.001
92444336|NCT02013167|184774392|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.43|0.71|||||The hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer survival for Blinatumomab relative to SOC Chemotherapy.|||0.71|0.43|
92444337|NCT02818218|184774433|SUPERIORITY||correlation coefficient|0.0005||||0.944|TWO_SIDED|98.3|-0.161|0.17|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CVP. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CVP, and vice versa|||0.170|-0.161|0.944
92444338|NCT02818218|184774434|SUPERIORITY||correlation coefficient|0.27|||<|0.001|TWO_SIDED|98.3|0.11|0.42|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CVP. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CVP, and vice versa|||0.42|0.11|<0.001
92444339|NCT02818218|184774435|SUPERIORITY||correlation coefficient|0.34|||<|0.001|TWO_SIDED|98.3|0.19|0.48|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CVP. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CVP, and vice versa|||0.48|0.19|<0.001
92444340|NCT02818218|184774437|SUPERIORITY||correlation coefficient|0.07||||0.298|TWO_SIDED|98.3|-0.1|0.24|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CI. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CI, and vice versa|||0.24|-0.10|0.298
92444341|NCT02818218|184774438|SUPERIORITY||correlation coefficient|0.22||||0.002|TWO_SIDED|98.3|0.05|0.37|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CI. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CI, and vice versa|||0.37|0.05|0.002
92444342|NCT02818218|184774439|SUPERIORITY||correlation coefficient|0.33|||<|0.001|TWO_SIDED|98.3|0.17|0.47|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CI. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CI, and vice versa|||0.47|0.17|<0.001
92444343|NCT00483223|184774462|OTHER|||||||0.54|||||||t-test, 2 sided|||H0: no association between expression ratio and response rate Ha: Participants with expression ratio greater than 2 would have higher response rate||||0.54
92444344|NCT01336738|184774471|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.164||0.6803|TWO_SIDED|80.0|-0.13|0.29||One-sided p-value was calculated.|Mixed Models Analysis|||Treatment difference and 80% confidence interval (CI) were based on LS mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.29|-0.13|0.6803
92280172|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|2.76||0.0181|TWO_SIDED|95.0|-12.1|-1.1||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety: Change from Baseline in HAM-D Subscale Score at Day 8||-1.1|-12.1|0.0181
92444345|NCT01336738|184774471|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.166||0.0017|TWO_SIDED|80.0|-0.71|-0.28||One-sided p-value was calculated.|Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.28|-0.71|0.0017
92444346|NCT01336738|184774471|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.168||0.0003|TWO_SIDED|80.0|-0.8|-0.36||One-sided p-value was calculated.|Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.36|-0.80|0.0003
92444347|NCT01336738|184774471|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.162|<|0.0001|TWO_SIDED|80.0|-0.91|-0.5||One-sided p-value was calculated.|Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.50|-0.91|<0.0001
92444348|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|3.78|STANDARD_ERROR_OF_MEAN|5.292||0.4757|TWO_SIDED|95.0|-6.64|14.2||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||14.20|-6.64|0.4757
92444349|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|1.32|STANDARD_ERROR_OF_MEAN|5.296||0.8031|TWO_SIDED|95.0|-9.11|11.75||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||11.75|-9.11|0.8031
92444350|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.22|STANDARD_ERROR_OF_MEAN|5.364||0.549|TWO_SIDED|95.0|-13.78|7.34||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||7.34|-13.78|0.5490
92444351|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.07|STANDARD_ERROR_OF_MEAN|5.34||0.0051|TWO_SIDED|95.0|-25.58|-4.55||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-4.55|-25.58|0.0051
92444352|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.43|STANDARD_ERROR_OF_MEAN|5.02||0.6291|TWO_SIDED|95.0|-12.31|7.46||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||7.46|-12.31|0.6291
92444353|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|3.87|STANDARD_ERROR_OF_MEAN|5.001||0.4396|TWO_SIDED|95.0|-5.98|13.72||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||13.72|-5.98|0.4396
92444354|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.56|STANDARD_ERROR_OF_MEAN|5.03||0.1934|TWO_SIDED|95.0|-16.46|3.34||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||3.34|-16.46|0.1934
92444355|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.32|STANDARD_ERROR_OF_MEAN|5.039||0.0007|TWO_SIDED|95.0|-27.24|-7.4||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-7.40|-27.24|0.0007
92444356|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|3.13|STANDARD_ERROR_OF_MEAN|5.201||0.5479|TWO_SIDED|95.0|-7.11|13.37||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||13.37|-7.11|0.5479
92444357|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.14|STANDARD_ERROR_OF_MEAN|5.209||0.4276|TWO_SIDED|95.0|-14.39|6.12||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||6.12|-14.39|0.4276
92444358|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.38|STANDARD_ERROR_OF_MEAN|5.235||0.1596|TWO_SIDED|95.0|-17.69|2.92||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.92|-17.69|0.1596
92444359|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.83|STANDARD_ERROR_OF_MEAN|5.198|<|0.0001|TWO_SIDED|95.0|-33.06|-12.6||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-12.60|-33.06|<0.0001
92171553|NCT05387447|184232174|OTHER|||||||0.05|||||||Z score|||||||.05
92444360|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|5.855||0.8509|TWO_SIDED|95.0|-12.63|10.43||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||10.43|-12.63|0.8509
92444361|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.53|STANDARD_ERROR_OF_MEAN|5.913||0.1505|TWO_SIDED|95.0|-20.17|3.12||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||3.12|-20.17|0.1505
92444362|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.62|STANDARD_ERROR_OF_MEAN|5.94||0.2662|TWO_SIDED|95.0|-18.31|5.08||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.08|-18.31|0.2662
92444363|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.52|STANDARD_ERROR_OF_MEAN|5.818||0.0003|TWO_SIDED|95.0|-32.97|-10.07||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-10.07|-32.97|0.0003
92444364|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.01|STANDARD_ERROR_OF_MEAN|6.94||0.7724|TWO_SIDED|95.0|-15.68|11.66||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||11.66|-15.68|0.7724
92444365|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|6.986||0.9202|TWO_SIDED|95.0|-14.47|13.07||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||13.07|-14.47|0.9202
92444366|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.61|STANDARD_ERROR_OF_MEAN|6.998||0.8183|TWO_SIDED|95.0|-15.4|12.18||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||12.18|-15.40|0.8183
92444367|NCT01336738|184774472|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.96|STANDARD_ERROR_OF_MEAN|6.821||0.0003|TWO_SIDED|95.0|-38.4|-11.53||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-11.53|-38.40|0.0003
92444368|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.048||0.2327|TWO_SIDED|80.0|-0.1|0.03||One-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.03|-0.10|0.2327
92444369|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.048||0.358|TWO_SIDED|80.0|-0.08|0.04||One-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.04|-0.08|0.3580
92171554|NCT05387447|184232175|OTHER|||||||0.05|||||||Z score|||||||.05
92444370|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.049||0.0036|TWO_SIDED|80.0|-0.2|-0.07||One-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.07|-0.20|0.0036
92444371|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.049||0.1251|TWO_SIDED|80.0|-0.12|0.01||One-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.01|-0.12|0.1251
92444372|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.066||0.3466|TWO_SIDED|80.0|-0.11|0.06||One-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.06|-0.11|0.3466
92444373|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.066||0.0439|TWO_SIDED|80.0|-0.2|-0.03||One-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.03|-0.20|0.0439
92444374|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.067||0.004|TWO_SIDED|80.0|-0.27|-0.09||One-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.09|-0.27|0.0040
92444375|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.065||0.0009|TWO_SIDED|80.0|-0.29|-0.12||One-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.12|-0.29|0.0009
92444376|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.096||0.1405|TWO_SIDED|80.0|-0.23|0.02||One-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.02|-0.23|0.1405
92171555|NCT05387447|184232177|OTHER|||||||0.05|||||||Z score|||||||.05
92280173|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|2.82||0.0007|TWO_SIDED|95.0|-15.3|-4.2|||Mixed Model for Repeated Measures|||Anxiety: Change from Baseline in HAM-D Subscale Score at Day 15||-4.2|-15.3|0.0007
92171556|NCT05387447|184232178|OTHER|||||||0.05|||||||Z score|||||||.05
92280174|NCT02978326|184463235|OTHER||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.79||0.0332|TWO_SIDED|95.0|-11.5|-0.5|||Mixed Model for Repeated Measures|||Anxiety: Change from Baseline in HAM-D Subscale Score at Day 21||-0.5|-11.5|0.0332
92444377|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.097||0.0067|TWO_SIDED|80.0|-0.36|-0.12||One-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.12|-0.36|0.0067
92444378|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.098||0.0001|TWO_SIDED|80.0|-0.5|-0.24||One-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.24|-0.50|0.0001
92444379|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.094||0.0002|TWO_SIDED|80.0|-0.46|-0.22||One-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.22|-0.46|0.0002
92444380|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.135||0.4887|TWO_SIDED|80.0|-0.18|0.17||One-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.17|-0.18|0.4887
92444381|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.137||0.002|TWO_SIDED|80.0|-0.57|-0.22||One-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.22|-0.57|0.0020
92444382|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.138|<|0.0001|TWO_SIDED|80.0|-0.76|-0.41||One-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.41|-0.76|<0.0001
92444383|NCT01336738|184774473|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.133|<|0.0001|TWO_SIDED|80.0|-0.76|-0.42||One-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.42|-0.76|<0.0001
92444384|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|0.225||0.2067|TWO_SIDED|95.0|-0.16|0.73||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.73|-0.16|0.2067
92444385|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.224||0.8602|TWO_SIDED|95.0|-0.4|0.48||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.48|-0.40|0.8602
92444386|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.225||0.92|TWO_SIDED|95.0|-0.47|0.42||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.42|-0.47|0.9200
92444387|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.223||0.0399|TWO_SIDED|95.0|0.02|0.9||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.90|0.02|0.0399
92444388|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.242||0.2266|TWO_SIDED|95.0|-0.18|0.77||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.77|-0.18|0.2266
92444389|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.241||0.8493|TWO_SIDED|95.0|-0.43|0.52||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.52|-0.43|0.8493
92444390|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.242||0.9511|TWO_SIDED|95.0|-0.49|0.46||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.46|-0.49|0.9511
92444391|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.241||0.1369|TWO_SIDED|95.0|-0.11|0.83||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.83|-0.11|0.1369
92444392|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.272||0.1562|TWO_SIDED|95.0|-0.15|0.92||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.92|-0.15|0.1562
92444393|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.272||0.4913|TWO_SIDED|95.0|-0.72|0.35||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.35|-0.72|0.4913
92444394|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.272||0.513|TWO_SIDED|95.0|-0.36|0.71||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.71|-0.36|0.5130
92444395|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.269||0.0298|TWO_SIDED|95.0|0.06|1.12||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.12|0.06|0.0298
92444396|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.363||0.3196|TWO_SIDED|95.0|-0.35|1.08||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.08|-0.35|0.3196
92444397|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.367||0.8884|TWO_SIDED|95.0|-0.77|0.67||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.67|-0.77|0.8884
92444398|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.365||0.7325|TWO_SIDED|95.0|-0.59|0.84||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.84|-0.59|0.7325
92444399|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.357||0.3395|TWO_SIDED|95.0|-0.36|1.04||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.04|-0.36|0.3395
92444400|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.41||0.7514|TWO_SIDED|95.0|-0.68|0.94||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.94|-0.68|0.7514
92444401|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.413||0.7529|TWO_SIDED|95.0|-0.68|0.94||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.94|-0.68|0.7529
92444402|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.411||0.9638|TWO_SIDED|95.0|-0.79|0.83||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.83|-0.79|0.9638
92444403|NCT01336738|184774475|SUPERIORITY_OR_OTHER||LS Mean Difference|0.67|STANDARD_ERROR_OF_MEAN|0.404||0.0962|TWO_SIDED|95.0|-0.12|1.47||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.47|-0.12|0.0962
92444404|NCT02970968|184774485|SUPERIORITY|||||||0.0099|||||||Mixed Models Analysis|||||||.0099
92444405|NCT02970968|184774486|SUPERIORITY|||||||0.016|||||||Mixed Models Analysis|||||||.0160
92444406|NCT02970968|184774487|SUPERIORITY|||||||0.039|||||||Mixed Models Analysis|||||||.039
92444407|NCT02970968|184774488|SUPERIORITY|||||||0.0223|||||||Mixed Models Analysis|||||||.0223
92444408|NCT02970968|184774489|SUPERIORITY|||||||0.0497|||||||Mixed Models Analysis|||||||.0497
92444409|NCT02970968|184774490|SUPERIORITY|||||||0.0207|||||||Mixed Models Analysis|||||||.0207
92444410|NCT02970968|184774491|SUPERIORITY|||||||0.0429|||||||Mixed Models Analysis|||||||.0429
92444411|NCT02970968|184774492|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
92444412|NCT02970968|184774493|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||||||.0003
92444413|NCT02970968|184774494|SUPERIORITY|||||||0.023|||||||Mixed Models Analysis|||||||.023
92444414|NCT02970968|184774495|SUPERIORITY|||||||0.0078|||||||Mixed Models Analysis|||||||.0078
92444415|NCT02970968|184774496|SUPERIORITY|||||||0.0294|||||||Mixed Models Analysis|||||||.0294
92444416|NCT02970968|184774497|SUPERIORITY|||||||0.0229|||||||Mixed Models Analysis|||||||.0229
92444417|NCT02970968|184774498|SUPERIORITY|||||||0.0018|||||||Mixed Models Analysis|||||||.0018
92444418|NCT02970968|184774499|SUPERIORITY|||||||0.0013|||||||Mixed Models Analysis|||||||.0013
92444419|NCT02970968|184774500|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||||||.0001
92444420|NCT02970968|184774501|SUPERIORITY|||||||0.018|||||||Mixed Models Analysis|||||||.018
92444421|NCT02970968|184774502|SUPERIORITY|||||||0.0164|||||||Mixed Models Analysis|||||||.0164
92444422|NCT02970968|184774503|SUPERIORITY|||||||0.0053|||||||Mixed Models Analysis|||||||.0053
92444423|NCT02970968|184774504|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||.0020
92444424|NCT03003520|184774507|SUPERIORITY||||||>|0.99||||||Significance defined as 0.05.|Fisher Exact|||||||>0.99
92444425|NCT03003520|184774507|SUPERIORITY||AUC-ROC|0.477||||0.872|TWO_SIDED|||||Significance defined as 0.05.|Wilcoxon (Mann-Whitney)|||The Area Under the Receiver Operator Characteristic Curve (AUC-ROC) is the estimated parameter. Responders were compared to non-responders by ranking them according to their CD8 density.||||0.872
92444426|NCT03003520|184774508|SUPERIORITY|||||||0.0403||||||Significance defined as 0.05.|Fisher Exact|||||||0.0403
92444427|NCT03003520|184774508|SUPERIORITY||AUC-ROC|0.583||||0.523|TWO_SIDED|||||Significance defined as 0.05.|Wilcoxon (Mann-Whitney)|||The Area Under the Receiver Operator Characteristic Curve (AUC-ROC) is the estimated parameter. Responders were compared to non-responders by ranking them according to their PDL1 % of total cells.||||0.523
92444428|NCT03003520|184774509|SUPERIORITY||||||>|0.99||||||Significance defined as 0.05.|Fisher Exact|||||||>0.99
92444429|NCT03003520|184774509|SUPERIORITY||AUC-ROC|0.583||||0.557|TWO_SIDED|||||Significance defined as 0.05.|Wilcoxon (Mann-Whitney)|||The Area Under the Receiver Operator Characteristic Curve (AUC-ROC) is the estimated parameter. Responders were compared to non-responders by ranking them according to their PDL1 % of tumor cells.||||0.557
92444430|NCT03003520|184774510|SUPERIORITY|||||||0.662||||||Significance defined as 0.05.|Fisher Exact|||||||0.662
92444431|NCT03003520|184774510|SUPERIORITY||AUC-ROC|0.6||||0.399|TWO_SIDED|||||Significance defined as 0.05.|Wilcoxon (Mann-Whitney)|||The Area Under the Receiver Operator Characteristic Curve (AUC-ROC) is the estimated parameter. Responders were compared to non-responders by ranking them according to their IFNG-Score.||||0.399
92444432|NCT01332149|184774513|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.148||0.0559|TWO_SIDED|95.0|-0.58|0.01||Primary analysis was two-sided and performed at the 0.05 significance level. No multiple comparisons adjustment was made.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.01|-0.58|0.0559
92444433|NCT01332149|184774514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.12||0.0527|TWO_SIDED|95.0|-0.47|0.0||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 1 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.00|-0.47|0.0527
92444434|NCT01332149|184774514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.121||0.0279|TWO_SIDED|95.0|-0.5|-0.03||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 2 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.03|-0.50|0.0279
92444435|NCT01332149|184774514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.121||0.0508|TWO_SIDED|95.0|-0.48|0.0||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 3 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.00|-0.48|0.0508
92444436|NCT01332149|184774514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.121||0.0349|TWO_SIDED|95.0|-0.49|-0.02||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 4 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.02|-0.49|0.0349
92444437|NCT01332149|184774514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.122||0.0672|TWO_SIDED|95.0|-0.46|0.02||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 5 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.02|-0.46|0.0672
92444438|NCT01332149|184774514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.122||0.0469|TWO_SIDED|95.0|-0.48|0.0||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 6 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.00|-0.48|0.0469
92444439|NCT01332149|184774514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.122||0.028|TWO_SIDED|95.0|-0.51|-0.03||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 7 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.03|-0.51|0.0280
92444440|NCT01332149|184774514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.122||0.014|TWO_SIDED|95.0|-0.54|-0.06||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 8 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.06|-0.54|0.0140
92171557|NCT05919082|184232189|OTHER||Odds Ratio (OR)|1.4||||0.0438|TWO_SIDED|95.0|1.01|1.99|||Regression, Logistic||The odds ratio and p-value are obtained by logistic regression model, adjusted for baseline PGA. Wald CI was presented.|||1.99|1.01|0.0438
92444441|NCT01332149|184774514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.122||0.0375|TWO_SIDED|95.0|-0.49|-0.01||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 9 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.01|-0.49|0.0375
92444442|NCT01332149|184774514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.105||0.0164|TWO_SIDED|95.0|-0.46|-0.05||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis||Overall change was estimated from the mixed effect model treatment main effect.|Overall change from baseline analysis. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.05|-0.46|0.0164
92444443|NCT01332149|184774516|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.143||0.134|TWO_SIDED|95.0|-0.49|0.07||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.07|-0.49|0.1340
92444444|NCT01332149|184774517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.127||0.3438|TWO_SIDED|95.0|-0.37|0.13||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 1 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.13|-0.37|0.3438
92444445|NCT01332149|184774517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.128||0.2482|TWO_SIDED|95.0|-0.4|0.1||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 2 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.10|-0.40|0.2482
92444446|NCT01332149|184774517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.129||0.2249|TWO_SIDED|95.0|-0.41|0.1||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 3 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.10|-0.41|0.2249
92444447|NCT01332149|184774517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.129||0.1094|TWO_SIDED|95.0|-0.46|0.05||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 4 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.05|-0.46|0.1094
92444448|NCT01332149|184774517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.129||0.2095|TWO_SIDED|95.0|-0.41|0.09||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 5 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.09|-0.41|0.2095
92444449|NCT01332149|184774517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.129||0.0531|TWO_SIDED|95.0|-0.5|0.0||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 6 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.00|-0.50|0.0531
92444450|NCT01332149|184774517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.13||0.1628|TWO_SIDED|95.0|-0.44|0.07||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 7 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.07|-0.44|0.1628
92444451|NCT01332149|184774517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.13||0.077|TWO_SIDED|95.0|-0.48|0.02||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 8 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.02|-0.48|0.0770
92444452|NCT01332149|184774517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.13||0.1651|TWO_SIDED|95.0|-0.43|0.07||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 9 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.07|-0.43|0.1651
92444453|NCT01332149|184774517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.11||0.1006|TWO_SIDED|95.0|-0.4|0.04||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Overall change from baseline analysis. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.04|-0.40|0.1006
92444454|NCT01332149|184774518|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.1309|TWO_SIDED|95.0|0.93|1.74||Analysis was two-sided and performed at the 0.05 significance level.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test comparing pregabalin to placebo adjusted for center.||||1.74|0.93|0.1309
92444455|NCT01332149|184774521|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.25|STANDARD_ERROR_OF_MEAN|1.628||0.0463|TWO_SIDED|95.0|-6.45|-0.05||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||-0.05|-6.45|0.0463
92444456|NCT01332149|184774522|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.061||0.2748|TWO_SIDED|95.0|-0.19|0.05||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.05|-0.19|0.2748
92444457|NCT01332149|184774524|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|1.577||0.4758|TWO_SIDED|95.0|-4.22|1.97||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||1.97|-4.22|0.4758
92444458|NCT01332149|184774525|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.31|STANDARD_ERROR_OF_MEAN|2.22||0.1363|TWO_SIDED|95.0|-1.05|7.67||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||7.67|-1.05|0.1363
92444459|NCT01332149|184774526|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|1.371||0.8808|TWO_SIDED|95.0|-2.49|2.9||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||2.90|-2.49|0.8808
92444460|NCT01332149|184774527|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.11||0.0887|TWO_SIDED|95.0|-0.03|0.4||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.40|-0.03|0.0887
92444461|NCT01332149|184774528|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.7929|TWO_SIDED|95.0|0.72|1.53||Analysis was two-sided and performed at the 0.05 significance level.|Regression, Logistic|||Analysis performed using a logistic regression model with treatment and center as factors, and baseline value as a covariate.||1.53|0.72|0.7929
92444462|NCT01332149|184774529|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.05|STANDARD_ERROR_OF_MEAN|1.973||0.596|TWO_SIDED|95.0|-2.83|4.92||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||4.92|-2.83|0.5960
92444463|NCT01332149|184774530|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|1.536||0.8216|TWO_SIDED|95.0|-3.36|2.67||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||2.67|-3.36|0.8216
92444464|NCT01332149|184774531|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.177||0.4829|TWO_SIDED|95.0|-3.14|1.49||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||1.49|-3.14|0.4829
92444465|NCT01332149|184774532|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.073||0.0431|TWO_SIDED|95.0|-0.29|0.0||Analysis was two-sided and performed at the 0.05 significance level.|ANOVA|||Analysis performed using a general linear model with treatment and center as factors.||-0.00|-0.29|0.0431
92444466|NCT01332149|184774533|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.074||0.0602|TWO_SIDED|95.0|-0.28|0.01||Analysis was two-sided and performed at the 0.05 significance level.|ANOVA|||Analysis performed using a general linear model with treatment and center as factors.||0.01|-0.28|0.0602
92444467|NCT01332149|184774535|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.207||0.4172|TWO_SIDED|95.0|-0.57|0.24||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.24|-0.57|0.4172
92444468|NCT01332149|184774536|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.218||0.3724|TWO_SIDED|95.0|-0.62|0.23||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.23|-0.62|0.3724
92444469|NCT01852292|184774594|OTHER|Double Criteria for PFS|Cox Proportional Hazard|0.646|||||TWO_SIDED|95.0|0.44|0.94||||||||0.94|0.44|
92444470|NCT01852292|184774595|OTHER|Double criteria for OS|Cox Proportional Hazard|0.72|||||TWO_SIDED|95.0|0.49|1.04||||||||1.04|0.49|
92444471|NCT00071812|184774610|SUPERIORITY_OR_OTHER||percent difference from placebo|18.8||||0.0097|TWO_SIDED|95.0|4.8|32.8||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||32.8|4.8|0.0097
92444472|NCT00071812|184774610|SUPERIORITY_OR_OTHER||percent difference from placebo|9.4||||0.1677|TWO_SIDED|95.0|-3.9|22.7||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||22.7|-3.9|0.1677
92444473|NCT00071812|184774610|SUPERIORITY_OR_OTHER||percent difference from placebo|12.2||||0.0796|TWO_SIDED|95.0|-1.3|25.8||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||25.8|-1.3|0.0796
92444474|NCT00071812|184774611|SUPERIORITY_OR_OTHER||percent difference from placebo|5.4||||0.2074|TWO_SIDED|95.0|-3.0|13.7||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||13.7|-3.0|0.2074
92239095|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.166|||<|0.0001|TWO_SIDED|95.0|0.083|0.329|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.329|0.083|<0.0001
92280175|NCT02978326|184463235|OTHER||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|2.8||0.0048|TWO_SIDED|95.0|-13.5|-2.5||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety: Change from Baseline in HAM-D Subscale Score at Day 45||-2.5|-13.5|0.0048
92444475|NCT00071812|184774611|SUPERIORITY_OR_OTHER||percent difference from placebo|4.1||||0.3177|TWO_SIDED|95.0|-4.0|12.2||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||12.2|-4.0|0.3177
92444476|NCT00071812|184774611|SUPERIORITY_OR_OTHER||percent difference from placebo|9.7||||0.0418|TWO_SIDED|95.0|0.3|19.2||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||19.2|0.3|0.0418
92444477|NCT00071812|184774612|SUPERIORITY_OR_OTHER||percent difference from placebo|2.7||||0.4299|TWO_SIDED|95.0|-4.0|9.3||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||9.3|-4.0|0.4299
92444478|NCT00071812|184774612|SUPERIORITY_OR_OTHER||percent difference from placebo|-1.5||||0.5393|TWO_SIDED|95.0|-6.3|3.3||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||3.3|-6.3|0.5393
92444479|NCT00071812|184774612|SUPERIORITY_OR_OTHER||percent difference from placebo|-0.1||||0.9769|TWO_SIDED|95.0|-5.6|5.4||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||5.4|-5.6|0.9769
92444480|NCT00071812|184774613|SUPERIORITY_OR_OTHER|||||||0.1752||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have any ACR response were censored at the last visit or exit visit, whichever occurred first. Patients who did not have an ACR response and discontinued from the study prior to study completion were censored at the last date on study.||||0.1752
92444481|NCT00071812|184774613|SUPERIORITY_OR_OTHER|||||||0.344||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have any ACR response were censored at the last visit or exit visit, whichever occurred first. Patients who did not have an ACR response and discontinued from the study prior to study completion were censored at the last date on study.||||0.3440
92444482|NCT00071812|184774613|SUPERIORITY_OR_OTHER|||||||0.4308||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have any ACR response were censored at the last visit or exit visit, whichever occurred first. Patients who did not have an ACR response and discontinued from the study prior to study completion were censored at the last date on study.||||0.4308
92444483|NCT00071812|184774616|SUPERIORITY_OR_OTHER|||||||0.0958||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using last observation carried forward (LOCF) imputation.||||0.0958
92444484|NCT00071812|184774616|SUPERIORITY_OR_OTHER|||||||0.7864||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||||0.7864
92444485|NCT00071812|184774616|SUPERIORITY_OR_OTHER|||||||0.0051||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||||0.0051
92444486|NCT00071812|184774617|SUPERIORITY_OR_OTHER|||||||0.096||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have good or moderate improvement in DAS28 were censored at the last visit or exit visit, whichever occurred first. Patients who did not have good or moderate improvement in DAS28 and discontinued from the study prior to study completion were censored at the last date on study.||||0.0960
92239096|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.049||||0.0048|TWO_SIDED|95.0|1.015|1.084|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.084|1.015|0.0048
92444487|NCT00071812|184774617|SUPERIORITY_OR_OTHER|||||||0.2859||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have good or moderate improvement in DAS28 were censored at the last visit or exit visit, whichever occurred first. Patients who did not have good or moderate improvement in DAS28 and discontinued from the study prior to study completion were censored at the last date on study.||||0.2859
92446812|NCT00280566|184780546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.93||0.3414|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.3414
92239097|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.797||||0.0019|TWO_SIDED|95.0|2.136|28.458|||Regression, Logistic|||The statistical analysis is presented for cumulative PEG-IFN alfa-2a dose per 1000 ug, first 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||28.458|2.136|0.0019
92239098|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.638||||0.0255|TWO_SIDED|95.0|0.431|0.946|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.946|0.431|0.0255
92444488|NCT00071812|184774617|SUPERIORITY_OR_OTHER|||||||0.0109||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have good or moderate improvement in DAS28 were censored at the last visit or exit visit, whichever occurred first. Patients who did not have good or moderate improvement in DAS28 and discontinued from the study prior to study completion were censored at the last date on study.||||0.0109
92444489|NCT00071812|184774618|SUPERIORITY_OR_OTHER|||||||0.194||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||||0.1940
92444490|NCT00071812|184774618|SUPERIORITY_OR_OTHER|||||||0.2561||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||||0.2561
92444491|NCT00071812|184774618|SUPERIORITY_OR_OTHER|||||||0.8707||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||||0.8707
92444492|NCT03711162|184774776|SUPERIORITY||Least square (LS) mean difference|22.7|STANDARD_ERROR_OF_MEAN|38.12||0.5525|TWO_SIDED|95.0|-52.3|97.6||P-value: based on random coefficient regression model (linear slope model) on FVC values.|Coefficient Regression Model|Treatment effect determined by using estimated slopes for each treatment group on basis of time-by-treatment interaction term from the mixed model.||||97.6|-52.3|0.5525
92444493|NCT03711162|184774776|SUPERIORITY||LS mean difference|-26.7|STANDARD_ERROR_OF_MEAN|37.53||0.4776|TWO_SIDED|95.0|-100.5|47.1||P-value: based on random coefficient regression model (linear slope model) on FVC values.|Coefficient Regression Model|Treatment effect was determined by using estimated slopes for each treatment group on basis of time-by-treatment interaction term from mixed model.||||47.1|-100.5|0.4776
92444494|NCT03711162|184774777|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9648|TWO_SIDED|95.0|0.56|1.74|||Regression, Logistic|||||1.74|0.56|0.9648
92171558|NCT05919082|184232190|OTHER||Odds Ratio (OR)|1.5||||0.0108|TWO_SIDED|95.0|1.1|2.12|||Regression, Logistic||The odds ratio and p-value were obtained by logistic regression model, adjusted for baseline PGA and baseline mPASI score. Wald CI was presented.|||2.12|1.10|0.0108
92171559|NCT05919082|184232191|OTHER||Odds Ratio (OR)|1.5||||0.0199|TWO_SIDED|95.0|1.07|2.19|||Regression, Logistic||The odds ratio and p-value were obtained by logistic regression model, adjusted for baseline PGA and baseline mPASI score. Wald CI was presented.|||2.19|1.07|0.0199
92171560|NCT03854578|184232193|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MontgomeryÅsberg Depression Rating Scale (MADRS) ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.08|STANDARD_ERROR_OF_MEAN|0.03||0.0105|TWO_SIDED|90.0|-0.14|-0.03|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Left||-0.03|-0.14|0.0105
92239099|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.755||||0.0059|TWO_SIDED|95.0|0.618|0.922|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.922|0.618|0.0059
92239100|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.521||||0.0005|TWO_SIDED|95.0|1.501|4.236|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.236|1.501|0.0005
92240072|NCT00570739|184383814|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.38||||0.3934|TWO_SIDED|95.0|-17.51|8.77||P-Value was from the non-parametric ANCOVA stratified by country|ANCOVA|Non-parametric|The median difference was calculated using Hodges-Lehmann point estimates and corresponding 95% confidence interval was constructed using the method of Moses.|Baseline to 16 Weeks LOCF||8.77|-17.51|0.3934
92240073|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.9838|TWO_SIDED|95.0|-8.66|8.84||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total VLDL Particles||8.84|-8.66|0.9838
92444495|NCT03711162|184774777|SUPERIORITY||Odds Ratio (OR)|1.05||||0.853|TWO_SIDED|95.0|0.6|1.84|||Regression, Logistic|||||1.84|0.60|0.8530
92280176|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|3.12||0.184|TWO_SIDED|95.0|-10.3|2.0||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Bech-6: Change from Baseline in HAM-D Subscale Score at Day 3||2.0|-10.3|0.1840
92280177|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|3.31||0.0462|TWO_SIDED|95.0|-13.2|-0.1||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Bech-6: Change from Baseline in HAM-D Subscale Score at Day 8||-0.1|-13.2|0.0462
92444496|NCT03711162|184774778|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.5|2.05|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards for time to respiratory-related hospitalization.|||2.05|0.50|
92444497|NCT03711162|184774778|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.47|1.88|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards for time to respiratory-related hospitalization.|||1.88|0.47|
92444498|NCT03711162|184774779|SUPERIORITY||LS mean difference|-0.5||||0.785|TWO_SIDED|95.0|-4.4|3.3|||Mixed Models Analysis||LS mean difference (95% CI) per treatment group with treatment, time (categorical), treatment-by-time interaction, stratum and baseline SGRQ total score as fixed effects and participant as random effect.|||3.3|-4.4|0.7850
92444499|NCT03711162|184774779|SUPERIORITY||LS mean difference|0.3||||0.8617|TWO_SIDED|95.0|-3.4|4.1|||Mixed Models Analysis||LS mean difference (95% CI) per treatment group with treatment, time (categorical), treatment-by-time interaction, stratum and baseline SGRQ total score as fixed effects and participant as random effect.|||4.1|-3.4|0.8617
92444500|NCT03711162|184774780|SUPERIORITY||LS Mean difference|19.4|STANDARD_ERROR_OF_MEAN|33.68|||TWO_SIDED|95.0|-46.9|85.7|||||The treatment effect was determined by using estimated slopes for each study group on the basis of the time-by-treatment interaction term from the mixed model.|||85.7|-46.9|
92444501|NCT03711162|184774780|SUPERIORITY||LS Mean difference|-29.1|STANDARD_ERROR_OF_MEAN|32.95|||TWO_SIDED|95.0|-93.9|35.8|||||The treatment effect was determined by using estimated slopes for each study group on the basis of the time-by-treatment interaction term from the mixed model.|||35.8|-93.9|
92444502|NCT03711162|184774781|SUPERIORITY||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.68|1.95|||||Odds ratio and 95% confidence interval originated from a logistic regression.|||1.95|0.68|
92444503|NCT03711162|184774781|SUPERIORITY||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.74|2.09|||||Odds ratio and 95% confidence interval originated from a logistic regression.|||2.09|0.74|
92444504|NCT03711162|184774782|SUPERIORITY||LS mean difference|3.7|||||TWO_SIDED|95.0|-11.5|19.0|||||The treatment effect was determined by using estimated least square mean difference between each active treatment group and placebo from the mixed model.|||19.0|-11.5|
92444505|NCT03711162|184774782|SUPERIORITY||LS mean difference|2.9|||||TWO_SIDED|95.0|-11.1|16.8|||||The treatment effect was determined by using estimated least square mean difference between each active treatment group and placebo from the mixed model.|||16.8|-11.1|
92444506|NCT03711162|184774783|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.65|1.78|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause hospitalization.|||1.78|0.65|
92444507|NCT03711162|184774783|SUPERIORITY||Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|0.76|1.98|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause hospitalization.|||1.98|0.76|
92280178|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|3.36||0.015|TWO_SIDED|95.0|-14.9|-1.6||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Bech-6: Change from Baseline in HAM-D Subscale Score at Day 15||-1.6|-14.9|0.0150
92444508|NCT03711162|184774786|SUPERIORITY||Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.44|3.81|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first acute IPF exacerbation.|||3.81|0.44|
92444509|NCT03711162|184774786|SUPERIORITY||Hazard Ratio (HR)|1.21|||||TWO_SIDED|95.0|0.42|3.5|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first acute IPF exacerbation.|||3.50|0.42|
92444510|NCT03711162|184774787|SUPERIORITY||Hazard Ratio (HR)|1.64|||||TWO_SIDED|95.0|0.66|4.08|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality or hospitalization for non-elective lung transplant.|||4.08|0.66|
92444511|NCT03711162|184774787|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.36|2.61|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality or hospitalization for non-elective lung transplant.|||2.61|0.36|
92444512|NCT03711162|184774788|SUPERIORITY||Hazard Ratio (HR)|1.64|||||TWO_SIDED|95.0|0.66|4.08|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality, hospitalization for non-elective lung transplant or hospitalization for qualifying for lung transplant.|||4.08|0.66|
92444513|NCT03711162|184774788|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.36|2.61|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality, hospitalization for non-elective lung transplant or hospitalization for qualifying for lung transplant.|||2.61|0.36|
92444514|NCT03711162|184774789|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.59|1.91|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or hospitalization that meets \>=10% absolute decline in %FVC or respiratory-related hospitalization.|||1.91|0.59|
92444515|NCT03711162|184774789|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.43|1.46|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or hospitalization that meets \>=10% absolute decline in %FVC or respiratory-related hospitalization.|||1.46|0.43|
92444516|NCT03711162|184774790|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.59|1.91|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to all-cause mortality or respiratory-related hospitalizations.|||1.91|0.59|
92444517|NCT03711162|184774790|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.43|1.46|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to all-cause mortality or respiratory-related hospitalizations.|||1.46|0.43|
92444518|NCT02431754|184774811|SUPERIORITY_OR_OTHER|||||||0.0937|||||||Normal approximation (Z-test)|||||||0.0937
92444519|NCT02431754|184774812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.1485|TWO_SIDED|95.0|-1.69|0.26|||Mixed Models Analysis|||||0.26|-1.69|0.1485
92444520|NCT01275066|184774818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.5|STANDARD_ERROR_OF_MEAN|9.35||0.0174||95.0||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category as covariates.||||||0.0174
92444521|NCT01275066|184774818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|9.29||0.9542||||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category as covariates.||||||0.9542
92444522|NCT01275066|184774819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|1.66||0.4935||||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category, and baseline 3MSCT as covariates.||||||0.4935
92444523|NCT01275066|184774819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|1.66||0.7783||||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category, and baseline 3MSCT as covariates.||||||0.7783
92444524|NCT01275066|184774820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.7|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001||||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category, and baseline uKS normalized for creatinine, as covariates.||||||<0.0001
92444525|NCT01275066|184774820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|4.19|<|0.0001||||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category, and baseline uKS normalized for creatinine, as covariates.||||||<0.0001
92444526|NCT03240133|184774821|SUPERIORITY|Comparisons were performed separately at each time point using a mixed effect linear model including treatment, period and sequence as fixed effects, subject within sequence as a random effect, and predose 3-symptom composite VAS score as a covariate.|Difference in Least Square Means|-6.98||||0.0024|TWO_SIDED|95.0|-11.37|-2.6|||Mixed effect linear model|||Change in HAE attack symptoms from pre-dose to 4 hours post-dose was assessed following treatment with either 750mg berotralstat or placebo.||-2.6|-11.37|0.0024
92444527|NCT03240133|184774821|SUPERIORITY|Comparisons were performed separately at each time point using a mixed effect linear model including treatment, period and sequence as fixed effects, subject within sequence as a random effect, and predose 3-symptom composite VAS score as a covariate.|Difference in Least Square Means|-2.1||||0.6424|TWO_SIDED|95.0|-11.49|7.29|||Mixed effect linear model|||Change in HAE attack symptoms from pre-dose to 4 hours post-dose was assessed following treatment with either 500mg berotralstat or placebo.||7.29|-11.49|0.6424
92444528|NCT03240133|184774821|SUPERIORITY|Comparisons were performed separately at each time point using a mixed effect linear model including treatment, period and sequence as fixed effects, subject within sequence as a random effect, and predose 3-symptom composite VAS score as a covariate.|Difference in Least Square Means|0.57||||0.8283|TWO_SIDED|95.0|-4.9|6.03|||Mixed effect linear model|||Change in HAE attack symptoms from pre-dose to 4 hours post-dose was assessed following treatment with either 250mg berotralstat or placebo.||6.03|-4.9|0.8283
92444529|NCT03240133|184774822|SUPERIORITY||Odds Ratio (OR)|0.196||||0.0029|TWO_SIDED|95.0|0.069|0.559|||logistic mixed effect model|||Analyses were performed using a generalized logistic model including treatment, period and sequence as fixed effects, and subject within sequence as a random effect. The odds of a berotralstat 750 mg-treated-attack requiring SOC-Rx was 0.196 that of a placebo attack.||0.559|0.069|0.0029
92444530|NCT03240133|184774822|SUPERIORITY||Odds Ratio (OR)|0.472||||0.4048|TWO_SIDED|95.0|0.074|2.988|||logistic mixed effect model|||Analyses were performed using a generalized logistic model including treatment, period and sequence as fixed effects, and subject within sequence as a random effect. The odds of a berotralstat 500 mg-treated-attack requiring SOC-Rx was 0.472 that of a placebo attack.||2.988|0.074|0.4048
92171561|NCT03854578|184232193|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.08|STANDARD_ERROR_OF_MEAN|0.03||0.0134|TWO_SIDED|90.0|-0.14|-0.03|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Right||-0.03|-0.14|0.0134
92444531|NCT03240133|184774822|SUPERIORITY||Odds Ratio (OR)|0.587||||0.5984|TWO_SIDED|95.0|0.073|4.733|||logistic mixed effect model|||Analyses were performed using a generalized logistic model including treatment, period and sequence as fixed effects, and subject within sequence as a random effect. The odds of a berotralstat 250 mg-treated-attack requiring SOC-Rx was 0.587 that of a placebo attack.||4.733|0.073|0.5984
92444532|NCT00116831|184774831|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for atheroma volume|-4.58||||||95.0||||||||||||
92240074|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.53||||0.7157|TWO_SIDED|95.0|-6.73|9.79||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total VLDL Particles||9.79|-6.73|0.7157
92240075|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44|||<|0.0001|TWO_SIDED|95.0|1.25|3.63||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large VLDL Chylomicron Particles||3.63|1.25|<0.0001
92444533|NCT00116831|184774832|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for lumen volume|0.32||||||95.0||||||||||||
92444534|NCT00116831|184774833|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for vessel volume|-3.56||||||95.0||||||||||||
92444535|NCT00116831|184774835|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for atheroma area|-0.13||||||95.0||||||||||||
92444536|NCT00116831|184774836|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for lumen area|0.02||||||95.0||||||||||||
92444537|NCT00116831|184774837|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for vessel area|-0.11||||||95.0||||||||||||
92444538|NCT00116831|184774840|SUPERIORITY_OR_OTHER||Model adjusted mean diff. (RSG-GLP)|-0.64||||0.1221||95.0|-1.457|0.173|||ANCOVA|||||0.173|-1.457|0.1221
92444539|NCT00116831|184774841|SUPERIORITY_OR_OTHER||Model adjusted mean diff. (RSG-GLP)|-5.12||||||95.0||||||||||||
92444540|NCT00116831|184774843|SUPERIORITY_OR_OTHER||Model adjusted mean diff. (RSG-GLP)|-1.72||||||95.0||||||||||||
92444541|NCT00116831|184774845|SUPERIORITY_OR_OTHER||Model adjusted mean diff. (RSG-GLP)|-0.11||||||95.0||||||||||||
92444542|NCT00116831|184774846|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-0.1||||||95.0||||||||||||
92444543|NCT00116831|184774847|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-0.88||||||95.0||||||||||||
92444544|NCT00116831|184774848|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-47.23||||||95.0||||||||||||
92444545|NCT00116831|184774849|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-16.9||||||95.0||||||||||||
92444546|NCT00116831|184774851|SUPERIORITY_OR_OTHER||Ratio to GLP as % difference from GLP|30.591||||||95.0||||||||||||
92444547|NCT00116831|184774852|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|7.642||||||95.0||||||||||||
92444548|NCT00116831|184774853|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|7.316||||||95.0||||||||||||
92444549|NCT00116831|184774854|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|15.731||||||95.0||||||||||||
92280179|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|3.53||0.0245|TWO_SIDED|95.0|-15.0|-1.0||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Bech-6: Change from Baseline in HAM-D Subscale Score at Day 21||-1.0|-15.0|0.0245
92444550|NCT00116831|184774855|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|3.998||||||95.0||||||||||||
92444551|NCT00116831|184774856|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|11.728||||||95.0||||||||||||
92444552|NCT00116831|184774857|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-6.768||||||95.0||||||||||||
92444553|NCT00116831|184774858|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-14.478||||||95.0||||||||||||
92444554|NCT00116831|184774859|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-0.462||||||95.0||||||||||||
92444555|NCT00116831|184774860|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|0.0164||||||95.0||||||||||||
92444556|NCT00116831|184774861|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|0.118||||||95.0||||||||||||
92444557|NCT00116831|184774862|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|0.14||||||95.0||||||||||||
92444558|NCT01344369|184774882|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.44|||||TWO_SIDED|90.0|93.08|112.75|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||112.75|93.08|
92444559|NCT01344369|184774883|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|100.58|||||TWO_SIDED|90.0|96.66|104.66|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.66|96.66|
92444560|NCT01344369|184774884|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|100.85|||||TWO_SIDED|90.0|96.43|105.48|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||105.48|96.43|
92444561|NCT01344369|184774885|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|100.59|||||TWO_SIDED|90.0|93.69|108.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.00|93.69|
92444562|NCT01344369|184774886|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.68|||||TWO_SIDED|90.0|92.76|100.77|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||100.77|92.76|
92446813|NCT00280566|184780546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|1.23||0.9745|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate||||0.9745
92444563|NCT01344369|184774887|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.44|||||TWO_SIDED|90.0|92.22|100.84|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||100.84|92.22|
92280180|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|3.34||0.0054|TWO_SIDED|95.0|-16.0|-2.8||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Bech-6: Change from Baseline in HAM-D Subscale Score at Day 45||-2.8|-16.0|0.0054
92280181|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|2.77||0.0972|TWO_SIDED|95.0|-10.1|0.9||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Meier: Change from Baseline in HAM-D Subscale Score at Day 3||0.9|-10.1|0.0972
92280182|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|2.95||0.0155|TWO_SIDED|95.0|-13.1|-1.4||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Meier: Change from Baseline in HAM-D Subscale Score at Day 8||-1.4|-13.1|0.0155
92444564|NCT00526058|184774914|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of the Futura system to the Secura system would be demonstrated if the upper bound of the 90% confidence interval (CI) for the difference between the two systems (Secura-Futura) in percent change of LDL-C measurements from pre- to post-treatment is less than the noninferiority margin 5.7%.||||||0.005|TWO_SIDED|90.0|||||ANOVA|||||||0.005
92444565|NCT00735371|184774922|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||95.0|||||ANCOVA|||||||0.0056
92171562|NCT03854578|184232193|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3495|TWO_SIDED|90.0|-0.08|0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Left||0.02|-0.08|0.3495
92171563|NCT03854578|184232193|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.7008|TWO_SIDED|90.0|-0.07|0.04|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex right||0.04|-0.07|0.7008
92171564|NCT03854578|184232193|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.6635|TWO_SIDED|90.0|-0.08|0.05|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Left||0.05|-0.08|0.6635
92171565|NCT03854578|184232193|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8792|TWO_SIDED|90.0|-0.09|0.07|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Right||0.07|-0.09|0.8792
92171566|NCT03854578|184232193|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.08|STANDARD_ERROR_OF_MEAN|0.04||0.0419|TWO_SIDED|90.0|-0.15|-0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Left||-0.02|-0.15|0.0419
92280183|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|3.03||0.0149|TWO_SIDED|95.0|-13.4|-1.5||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Meier: Change from Baseline in HAM-D Subscale Score at Day 15||-1.5|-13.4|0.0149
92280184|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|3.14||0.025|TWO_SIDED|95.0|-13.3|-0.9||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Meier: Change from Baseline in HAM-D Subscale Score at Day 21||-0.9|-13.3|0.0250
92280185|NCT02978326|184463235|SUPERIORITY||LS Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|2.96||0.0017|TWO_SIDED|95.0|-15.3|-3.6||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Meier: Change from Baseline in HAM-D Subscale Score at Day 45||-3.6|-15.3|0.0017
92444566|NCT00735371|184774922|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92444567|NCT00735371|184774922|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92444568|NCT00735371|184774923|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0235||95.0|||||Cochran-Mantel-Haenszel|||||||0.0235
92444569|NCT00735371|184774923|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92444570|NCT00735371|184774923|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92444571|NCT01094548|184774936|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0000
92444572|NCT01094548|184774940|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.431||||0.094|TWO_SIDED|95.0|0.157|1.185|||Log Rank|||||1.185|0.157|0.0940
92444573|NCT01094548|184774941|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.666||||0.3919|TWO_SIDED|95.0|0.261|1.698|||Log Rank|||||1.698|0.261|0.3919
92171567|NCT03854578|184232193|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.1658|TWO_SIDED|90.0|-0.12|0.01|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Right||0.01|-0.12|0.1658
92171568|NCT03854578|184232193|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.6673|TWO_SIDED|90.0|-0.08|0.05|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD Signal % change/ Amygdala Left||0.05|-0.08|0.6673
92171569|NCT03854578|184232193|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.07|STANDARD_ERROR_OF_MEAN|0.04||0.0778|TWO_SIDED|90.0|-0.14|-0.01|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD Signal % Change/ Amygdala Right||-0.01|-0.14|0.0778
92171570|NCT03854578|184232193|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3258|TWO_SIDED|90.0|-0.08|0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Left||0.02|-0.08|0.3258
92171571|NCT03854578|184232193|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.5954|TWO_SIDED|90.0|-0.07|0.04|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Right||0.04|-0.07|0.5954
92171572|NCT03854578|184232193|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.5911|TWO_SIDED|90.0|-0.08|0.04|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Left||0.04|-0.08|0.5911
92171573|NCT03854578|184232193|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.8283|TWO_SIDED|90.0|-0.11|0.08|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Right||0.08|-0.11|0.8283
92240076|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.39|||<|0.0001|TWO_SIDED|95.0|1.27|3.51||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large VLDL Chylomicron Particles||3.51|1.27|<0.0001
92444574|NCT04630093|184775027|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Baseline vs. 6 months after receiving panel-based pharmacogenetic testing||||0.001
92444575|NCT04120610|184775059|OTHER||Correlation|0.26|||||TWO_SIDED|95.0|0.1|0.41||||||Descriptive analysis of endpoint with no hypothesis.||0.41|0.10|
92444576|NCT04120610|184775060|OTHER||Correlation|-0.26|||||TWO_SIDED|95.0|-0.46|-0.03||||||Correlation of change in acceleration time and ABI. Descriptive analysis of endpoint with no hypothesis.||-0.03|-0.46|
92444577|NCT04120610|184775060|OTHER||Correlation|-0.33|||||TWO_SIDED|95.0|-0.51|-0.12||||||Correlation of change in acceleration time and ABI. Descriptive analysis of endpoint with no hypothesis.||-0.12|-0.51|
92444578|NCT04120610|184775060|OTHER||Correlation|-0.13|||||TWO_SIDED|95.0|-0.38|0.14||||||Correlation of change in acceleration time and ABI. Descriptive analysis of endpoint with no hypothesis.||0.14|-0.38|
92444579|NCT04120610|184775061|OTHER||Correlation|-0.34|||||TWO_SIDED|95.0|-0.52|-0.12||||||Correlation of change in acceleration time and TBI. Descriptive analysis of endpoint with no hypothesis.||-0.12|-0.52|
92444580|NCT04120610|184775061|OTHER||Correlation|-0.35|||||TWO_SIDED|95.0|-0.52|-0.15||||||Correlation of change in acceleration time and TBI. Descriptive analysis of endpoint with no hypothesis.||-0.15|-0.52|
92444581|NCT04120610|184775061|OTHER||Correlation|-0.24|||||TWO_SIDED|95.0|-0.47|0.02||||||Correlation of change in acceleration time and TBI. Descriptive analysis of endpoint with no hypothesis.||0.02|-0.47|
92444582|NCT04120610|184775062|OTHER||Correlation|0.15|||||TWO_SIDED|95.0|-0.08|0.36||||||Correlation of change in acceleration time and Rutherford Classification. Descriptive analysis of endpoint with no hypothesis.||0.36|-0.08|
92444583|NCT04120610|184775062|OTHER||Correlation|0.19|||||TWO_SIDED|95.0|-0.02|0.39||||||Correlation of change in acceleration time and Rutherford Classification. Descriptive analysis of endpoint with no hypothesis.||0.39|-0.02|
92444584|NCT04120610|184775062|OTHER||Correlation|0.24|||||TWO_SIDED|95.0|-0.02|0.47||||||Correlation of change in acceleration time and Rutherford Classification. Descriptive analysis of endpoint with no hypothesis.||0.47|-0.02|
92444585|NCT03712410|184775072|OTHER|Group Comparisons||||||0.186||||||p-value for Difference (FollowUp-Baseline) Generalised Anxiety Disorder Assessment (GAD-7)|Kruskal-Wallis|||||||0.1860
92444586|NCT03712410|184775072|OTHER|Group Comparisons||||||0.2752||||||p-value for Difference (FollowUp-Baseline) Patient Health Questionnaire 9 (PHQ9)|Kruskal-Wallis|||||||0.2752
92444587|NCT03712410|184775072|OTHER|Group Comparisons||||||0.6233||||||p-value for Difference (FollowUp-Baseline) Caregiver Quality of Life Index (CQLI-R)|Kruskal-Wallis|||||||0.6233
92444588|NCT03712410|184775073|OTHER|Group Comparison||||||0.5638||||||p-value for Difference (FollowUp-Baseline) Generalised Anxiety Disorder Assessment (GAD-7)|Wilcoxon (Mann-Whitney)|||||||0.5638
92444589|NCT03712410|184775073|OTHER|Group Comparisons||||||0.9848||||||p-value for Difference (FollowUp-Baseline) Patient Health Questionnaire 9 (PHQ9)|Wilcoxon (Mann-Whitney)|||||||0.9848
92444590|NCT03712410|184775073|OTHER|Group Comparisons||||||0.9169||||||p-value for Difference (FollowUp-Baseline) Caregiver Quality of Life Index (CQLI-R)|Wilcoxon (Mann-Whitney)|||||||0.9169
92444591|NCT03712410|184775074|OTHER|Group Comparisons|||||<|0.0001||||||p-value for Generalised Anxiety Disorder Assessment (GAD-7) for arm Traditional PISCES|Wilcoxon Signed Rank Test|||||||<0.0001
92444592|NCT03712410|184775074|OTHER|Group Comparisons|||||<|0.0001||||||p-value for Patient Health Questionnaire 9 (PHQ9) for arm Traditional PISCES|Wilcoxon Signed Rank Test|||||||<0.0001
92444593|NCT03712410|184775074|OTHER|Group Comparisons||||||0.0155||||||p-value for Caregiver Quality of Life Index (CQLI-R) for arm Traditional PISCES|Wilcoxon Signed Rank Test|||||||0.0155
92444594|NCT03712410|184775074|OTHER|Group Comparisons|||||<|0.0001||||||p-value for Generalised Anxiety Disorder Assessment (GAD-7) for arm Online PISCES|Wilcoxon Signed Rank Test|||||||<0.0001
92444595|NCT03712410|184775074|OTHER|Group Comparisons|||||<|0.0001||||||p-value for Patient Health Questionnaire 9 (PHQ9) for arm Online PISCES|Wilcoxon Signed Rank Test|||||||<0.0001
92444596|NCT03712410|184775074|OTHER|Group Comparisons||||||0.0504||||||p-value for Caregiver Quality of Life Index (CQLI-R) for arm Online PISCES|Wilcoxon Signed Rank Test|||||||0.0504
92444597|NCT00314236|184775082|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED||||||ANCOVA|||||||0.011
92444598|NCT00314236|184775083|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||ANCOVA|||||||0.033
92444599|NCT01465464|184775086|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.435|TWO_SIDED|95.0|0.878|1.352|||Log Rank|||||1.352|0.878|0.435
92444600|NCT02739269|184775164|SUPERIORITY|||||||0.479|||||||Chi-squared|||||||0.479
92444601|NCT02739269|184775165|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
92171574|NCT03854578|184232193|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.1797|TWO_SIDED|90.0|-0.12|0.01|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Left||0.01|-0.12|0.1797
92444602|NCT02244580|184775166|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.423||||0.0018|TWO_SIDED|95.0|0.246|0.726|||Regression, Cox|||||0.726|0.246|0.0018
92444603|NCT02244580|184775167|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.42||||0.001|TWO_SIDED|95.0|0.25|0.71|||Regression, Cox|||||0.71|0.25|0.001
92444604|NCT01228747|184775169|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-56.13|STANDARD_ERROR_OF_MEAN|6.15|<|0.0001|TWO_SIDED|95.0|-68.24|-44.02||Statistical testing was 2-sided, and was performed using a significance (α) level of 0.05.|ANCOVA|||"The statistical hypotheses, null hypothesis (H0) and alternate hypothesis (H1), are stated below:~H0: μLEV = μPBO vs. H1: μLEV ≠ μPBO~ANCOVA on the endpoint percentage change from Combined Baseline of GTC seizures per week using treatment and country as factors (categorical predictors) and Combined Baseline GTC seizure frequency per week as a covariate (a continuous predictor) where μLEV and μPBO are adjusted means for LEV and PBO, respectively."||-44.02|-68.24|<0.0001
92444605|NCT02136576|184775178|SUPERIORITY|||||||0.72||||||"This p-value is for the Air Schiff comparison.~The threshold of significance was 0.05 and no multiple comparisons were necessary."|Kruskal-Wallis|||Assuming the control group may exhibit a modest improvement in dentinal hypersensitivity (\~5%) whereas the two test groups should demonstrate a more significant improvement (\~30%). Assuming a common standard deviation of 25%, we will have 58% power to detect a difference between the 3 groups using one way analysis of variance, with 10 subjects per group, and setting alpha to 0.05 (nQuery Advisor, Version 7.0). Up to 13 subjects per group will be recruited, to allow for a 20% dropout rate.||||0.72
92444606|NCT02136576|184775178|SUPERIORITY|||||||0.93||||||"This p-value is for the Air VAS comparison.~The threshold of significance was 0.05 and no multiple comparisons were necessary."|Kruskal-Wallis|||Assuming the control group may exhibit a modest improvement in dentinal hypersensitivity (\~5%) whereas the two test groups should demonstrate a more significant improvement (\~30%). Assuming a common standard deviation of 25%, we will have 58% power to detect a difference between the 3 groups using one way analysis of variance, with 10 subjects per group, and setting alpha to 0.05 (nQuery Advisor, Version 7.0). Up to 13 subjects per group will be recruited, to allow for a 20% dropout rate.||||.93
92171575|NCT03854578|184232193|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.5772|TWO_SIDED|90.0|-0.08|0.04|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Right||0.04|-0.08|0.5772
92444607|NCT02136576|184775178|SUPERIORITY|||||||0.77||||||"This p-value is for the WaterSchiff comparison.~The threshold of significance was 0.05 and no multiple comparisons were necessary."|Kruskal-Wallis|||Assuming the control group may exhibit a modest improvement in dentinal hypersensitivity (\~5%) whereas the two test groups should demonstrate a more significant improvement (\~30%). Assuming a common standard deviation of 25%, we will have 58% power to detect a difference between the 3 groups using one way analysis of variance, with 10 subjects per group, and setting alpha to 0.05 (nQuery Advisor, Version 7.0). Up to 13 subjects per group will be recruited, to allow for a 20% dropout rate.||||.77
92444608|NCT02136576|184775178|SUPERIORITY|||||||0.93||||||"This p-value is for the WaterVAS comparison.~The threshold of significance was 0.05 and no multiple comparisons were necessary."|Kruskal-Wallis|||Assuming the control group may exhibit a modest improvement in dentinal hypersensitivity (\~5%) whereas the two test groups should demonstrate a more significant improvement (\~30%). Assuming a common standard deviation of 25%, we will have 58% power to detect a difference between the 3 groups using one way analysis of variance, with 10 subjects per group, and setting alpha to 0.05 (nQuery Advisor, Version 7.0). Up to 13 subjects per group will be recruited, to allow for a 20% dropout rate.||||.93
92444609|NCT00923559|184775186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.69|STANDARD_ERROR_OF_MEAN|3.04||0.006||95.0|2.64|14.74||Null hypothesis MIP and CHC care should yield equal outcomes. A priori threshold p\<.05.|Regression, Linear|Degrees of freedom (df) = 68.3||Null hypothesis: MIP and CHC care should yield equal outcomes. For power calculations, studies on the EPDS and the SPSQ were used. An estimated power of .80 and a two-tailed significance of .05 would necessitate between 29 and 60 participants. Forty dyads per group were chosen.||14.74|2.64|.006
92444610|NCT00923559|184775187|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.57|STANDARD_ERROR_OF_MEAN|1.06||0.018|TWO_SIDED|95.0|0.46|4.68||p-value unadjusted for multiple comparisons. A priori threshold p\<.05.|Regression, Linear|Degrees of freedom (df) = 69.3||Null hypothesis: MIP and CHC care should yield equal outcomes. For power calculations, studies on the EPDS and the SPSQ were used. An estimated power of .80 and a two-tailed significance of .05 would necessitate between 29 and 60 participants. Forty dyads per group were chosen.||4.68|0.46|.018
92239101|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.602||||0.0011|TWO_SIDED|95.0|1.463|4.627|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missed vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.627|1.463|0.0011
92280186|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.1569|TWO_SIDED|95.0|-0.5|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Depressed Mood: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.5|0.1569
92280187|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0376|TWO_SIDED|95.0|-0.7|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Depressed Mood: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.7|0.0376
92280188|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.1035|TWO_SIDED|95.0|-0.6|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Depressed Mood: Change From Baseline in HAM-D Individual Item Score at Day 15||0.1|-0.6|0.1035
92444611|NCT00923559|184775188|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.27|STANDARD_ERROR_OF_MEAN|0.24||0.266|TWO_SIDED|95.0|-0.21|0.75||p-value unadjusted for multiple comparisons. A priori threshold p\<.05.|Regression, Linear|Degrees of freedom = 73.4||Null hypothesis: MIP and CHC care should yield equal outcomes. For power calculations, studies on the EPDS and the SPSQ were used. An estimated power of .80 and a two-tailed significance of .05 would necessitate between 29 and 60 participants. Forty dyads per group were chosen.||0.75|-0.21|.266
92444612|NCT00923559|184775189|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.08||0.052|TWO_SIDED|95.0|0.0|0.32||p-value unadjusted for multiple comparisons. A priori threshold p\<.05.|Regression, Linear|||Null hypothesis: MIP and CHC care should yield equal outcomes. For power calculations, studies on the EPDS and the SPSQ were used. An estimated power of .80 and a two-tailed significance of .05 would necessitate between 29 and 60 participants. Forty dyads per group were chosen.||0.32|0.00|.052
92444613|NCT00923559|184775190|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.84|STANDARD_ERROR_OF_MEAN|0.38||0.031|TWO_SIDED|95.0|-1.61|-0.08|||Regression, Linear|Degrees of freedom (df) = 61.2||see under the PIR-GAS||-0.08|-1.61|.031
92280189|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0037|TWO_SIDED|95.0|-0.9|-0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Depressed Mood: Change From Baseline in HAM-D Individual Item Score at Day 21||-0.2|-0.9|0.0037
92444614|NCT00923559|184775191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.09||0.158|TWO_SIDED|95.0|-0.05|0.31|||Mixed Models Analysis|Degrees of freedom (df) = 71.2||Null hypothesis: MIP and CHC care should yield equal outcomes. For power calculations, studies on the EPDS and the SPSQ were used. An estimated power of .80 and a two-tailed significance of .05 would necessitate between 29 and 60 participants. Forty dyads per group were chosen.||0.31|-0.05|.158
92444615|NCT04903249|184775210|OTHER|||||||0.137|||||||t-test, 2 sided|||||||0.137
92280190|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0061|TWO_SIDED|95.0|-0.8|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Depressed Mood: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.8|0.0061
92444616|NCT04903249|184775211|OTHER|||||||0.293|||||||t-test, 2 sided|||||||0.293
92444617|NCT04903249|184775212|OTHER|||||||0.609|||||||t-test, 2 sided|||||||0.609
92444618|NCT04903249|184775218|OTHER|||||||0.025|||||||t-test, 2 sided|||||||0.025
92444619|NCT04903249|184775219|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92444620|NCT04903249|184775220|OTHER|||||||0.327|||||||t-test, 2 sided|||||||.327
92444621|NCT04903249|184775221|OTHER|||||||0.479|||||||t-test, 2 sided|||||||0.479
92444622|NCT04903249|184775222|OTHER|||||||0.424|||||||t-test, 2 sided|||||||0.424
92444623|NCT04903249|184775223|OTHER|||||||0.279|||||||t-test, 2 sided|||||||0.279
92444624|NCT04903249|184775224|OTHER|||||||0.052|||||||t-test, 2 sided|||||||0.052
92444625|NCT01951157|184775230|SUPERIORITY||The exact binomial estimator|29.2|||||TWO_SIDED|95.0|13.2|48.4||||||The exact binomial estimator and its 95%CI was used. A pre-planned Bayesian supportive analysis test comparing PFS4 was performed.||48.4|13.2|
92239102|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.727||||0.0034|TWO_SIDED|95.0|1.198|2.491|||Regression, Logistic|||The statistical analysis is presented for mode of infection (other vs injection drug U). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.491|1.198|0.0034
92444626|NCT01951157|184775230|SUPERIORITY||The exact binomial estimator|19.0|||||TWO_SIDED|95.0|5.7|37.9||||||The exact binomial estimator and its 95%CI was used. A pre-planned Bayesian supportive analysis test comparing PFS4 was performed||37.9|5.7|
92444627|NCT01951157|184775230|SUPERIORITY||The exact binomial estimator|28.0|||||TWO_SIDED|95.0|12.6|46.7||||||The exact binomial estimator and its 95%CI was used. A pre-planned Bayesian supportive analysis test comparing PFS4 was performed||46.7|12.6|
92444628|NCT01951157|184775231|SUPERIORITY|Pre-specified|||||=|0.3873|||||||Log Rank|||||||= 0.3873
92444629|NCT01951157|184775235|SUPERIORITY|Pre-specified|||||=|0.0177|||||||Log Rank|||||||= 0.0177
92239103|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.545||||0.0014|TWO_SIDED|95.0|0.376|0.792|||Regression, Logistic|||The statistical analysis is presented for AST ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.792|0.376|0.0014
92444630|NCT01951157|184775236|SUPERIORITY_OR_OTHER_LEGACY|Pre-specified||||||0.3526|||||||Log Rank|||||||0.3526
92444631|NCT01951157|184775237|SUPERIORITY|Pre-specified||||||0.9026|||||||Wilcoxon signed ranks test repeat analys|||Changes in QoL scores over time were calculated and tested for statistical significance by means of wilcoxon signed ranks test repeat-measure analyses of variance.||||0.9026
92444632|NCT01951157|184775237|SUPERIORITY|||||||0.9862|||||||Wilcoxon signed ranks test repeat analys|||Changes in QoL scores over time were calculated and tested for statistical significance by means of wilcoxon signed ranks test repeat-measure analyses of variance.||||0.9862
92444633|NCT01951157|184775237|SUPERIORITY|||||||0.8057|||||||Wilcoxon signed ranks test repeat analys|||Changes in QoL scores over time were calculated and tested for statistical significance by means of ilcoxon signed ranks test repeat-measure analyses of variance.||||0.8057
92444634|NCT05218018|184775238|OTHER|||||||0.002|||||||t-test, 2 sided|||||||.002
92444635|NCT00828191|184775246|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis (H0) was tested against the alternative by calculating a two-sided 95% confidence interval for the difference in ongoing pregnancy rates. If the lower bound of the 95% confidence interval was greater than the non-inferiority limit (-10.0%), the null hypothesis was rejected and the test group considered not inferior to the control treatment.|Difference in pregnancy rates|-2.5||||0.52|TWO_SIDED|95.0|-9.4|4.4|||Fisher Exact|||"The non -inferiority hypothesis to be tested for the primary endpoint was that the ongoing pregnancy rate (oPR) in the test group (Pe)was lower than the oPR in the control group (Pc)against the alternative one that the oPR in the test group was equal to or higher than the oPR in the control group.~H0 : Pc\>= Pe + d(-10%) H1 : Pc\< Pe + d(-10%)"||4.4|-9.4|0.52
92444636|NCT00828191|184775247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|1.48||0.54|TWO_SIDED|95.0|-7.6|4.0|||ANOVA|||||4.0|-7.6|0.54
92444637|NCT00828191|184775248|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.0||||0.62|TWO_SIDED|95.0|-8.8|4.8|||Fisher Exact|||||4.8|-8.8|0.62
92444638|NCT01883427|184775249|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Not significant|Wilcoxon (Mann-Whitney)|||Too few included to reach power||||>0.05
92444639|NCT04041869|184775256|SUPERIORITY||Mean Difference (Final Values)|0.01|||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||In order to test the effect of the intervention on physical activity, linear mixed models examined changes in steps per day from study baseline (week 0) to the end of the active intervention (week 8).||||<0.01
92444640|NCT03240575|184775306|SUPERIORITY||Mean Difference (Net)|0.052|STANDARD_ERROR_OF_MEAN|0.027||0.0543|TWO_SIDED|95.0|-0.001|0.105|||Mixed-effects model repeated measures|Treatment, visit and treatment by visit interaction as fixed effects, and baseline as well as baseline by visit interaction as covariates.||||0.105|-0.001|0.0543
92444641|NCT03240575|184775307|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.027||0.0011|TWO_SIDED|95.0|0.037|0.144|||Mixed-effects model repeated measures|Treatment, visit and treatment by visit interaction as fixed effects, and baseline as well as baseline by visit interaction as covariates.||||0.144|0.037|0.0011
92444642|NCT03240575|184775308|SUPERIORITY||Mean Difference (Net)|0.005|STANDARD_ERROR_OF_MEAN|0.027||0.8593|TWO_SIDED|95.0|-0.048|0.058|||Mixed-effects model repeated measures|Treatment, visit and treatment by visit interaction as fixed effects, and baseline as well as baseline by visit interaction as covariates.||||0.058|-0.048|0.8593
92239104|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.047|||<|0.0001|TWO_SIDED|95.0|1.029|1.065|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.065|1.029|<0.0001
92240077|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.04||||0.0577|TWO_SIDED|95.0|-0.17|10.24||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium VLDL Chylomicron Particles||10.24|-0.17|0.0577
92240078|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.24||||0.039|TWO_SIDED|95.0|0.27|10.22||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium VLDL Chylomicron Particles||10.22|0.27|0.0390
92240079|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.49||||0.0044|TWO_SIDED|95.0|-12.61|-2.37||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small VLDL Particles||-2.37|-12.61|0.0044
92240080|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.24||||0.0118|TWO_SIDED|95.0|-11.09|-1.4||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small VLDL Particles||-1.40|-11.09|0.0118
92240081|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-110.6||||0.0293|TWO_SIDED|95.0|-209.9|-11.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Low Density Lipoprotein (LDL) Particles||-11.3|-209.9|0.0293
92240082|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-112.7||||0.0202|TWO_SIDED|95.0|-207.6|-17.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Low Density Lipoprotein (LDL) Particles||-17.8|-207.6|0.0202
92240083|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.9629|TWO_SIDED|95.0|-15.2|14.5|||ANCOVA|||Intermediate Density Lipoprotein (LDL) Particles||14.5|-15.2|0.9629
92239105|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.896||||0.0074|TWO_SIDED|95.0|0.827|0.971|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.971|0.827|0.0074
92239106|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.971||||0.0088|TWO_SIDED|95.0|0.95|0.993|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.993|0.950|0.0088
92239107|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.719|||<|0.0001|TWO_SIDED|95.0|0.643|0.803|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.803|0.643|<0.0001
92239108|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.683|||<|0.0001|TWO_SIDED|95.0|1.346|2.106|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.106|1.346|<0.0001
92239109|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.4479|TWO_SIDED|95.0|0.848|1.453|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.453|0.848|0.4479
92444643|NCT03240575|184775309|SUPERIORITY||Mean Difference (Net)|0.098|STANDARD_ERROR_OF_MEAN|0.029||0.001|TWO_SIDED|95.0|0.04|0.156|||Mixed-effects model repeated measures|Treatment, visit and treatment by visit interaction as fixed effects, and baseline as well as baseline by visit interaction as covariates.||||0.156|0.040|0.0010
92444644|NCT04482179|184775310|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<.05
92444645|NCT04482179|184775311|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<.05
92239110|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.0123|TWO_SIDED|95.0|0.451|0.908|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\<=1 vs \> 3). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.908|0.451|0.0123
92239111|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.0147|TWO_SIDED|95.0|0.553|0.937|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\> 1 - 3 vs \> 3). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.937|0.553|0.0147
92239112|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.718||||0.0071|TWO_SIDED|95.0|0.564|0.914|||Regression, Logistic|||The statistical analysis is presented for AST ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.914|0.564|0.0071
92239113|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.058|||<|0.0001|TWO_SIDED|95.0|1.052|1.064|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.064|1.052|<0.0001
92239114|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.014||||0.0019|TWO_SIDED|95.0|1.005|1.023|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.023|1.005|0.0019
92239115|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.701||||0.0083|TWO_SIDED|95.0|0.539|0.913|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.913|0.539|0.0083
92239116|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.174|||<|0.0001|TWO_SIDED|95.0|0.09|0.338|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.338|0.090|<0.0001
92240084|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.7485|TWO_SIDED|95.0|-16.5|11.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Intermediate Density Lipoprotein (LDL) Particles||11.9|-16.5|0.7485
92280191|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.16||0.7878|TWO_SIDED|95.0|-0.4|0.3||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Feelings of Guilt: Change From Baseline in HAM-D Individual Item Score at Day 3||0.3|-0.4|0.7878
92280192|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.0498|TWO_SIDED|95.0|-0.6|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Feelings of Guilt: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.6|0.0498
92239117|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.057||||0.0008|TWO_SIDED|95.0|1.023|1.091|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.091|1.023|0.0008
92280193|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.1719|TWO_SIDED|95.0|-0.5|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Feelings of Guilt: Change From Baseline in HAM-D Individual Item Score at Day 15||0.1|-0.5|0.1719
92280194|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.16||0.0161|TWO_SIDED|95.0|-0.7|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Feelings of Guilt: Change From Baseline in HAM-D Individual Item Score at Day 21||-0.1|-0.7|0.0161
92280195|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.0191|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Feelings of Guilt: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.6|0.0191
92280196|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.2537|TWO_SIDED|95.0|-0.2|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Suicide: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.2|0.2537
92280197|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0018|TWO_SIDED|95.0|-0.2|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Suicide: Change From Baseline in HAM-D Individual Item Score at Day 8||-0.1|-0.2|0.0018
92444646|NCT04127786|184775353|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95 percent (%) confidence interval (CI) of the difference of the percentages between the test group (Group 1) and control groups (Group 2, Group 3) was greater than (\>) -5% at Day 42.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.4|4.3||||||Primary Series: Cohort-I Group 1: VRVg-2 versus Primary Series: Cohort-I Group 2: Verorab®: Pediatric (\< 18 years)||4.3|-1.4|
92280198|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05||0.2878|TWO_SIDED|95.0|-0.2|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Suicide: Change From Baseline in HAM-D Individual Item Score at Day 15||0.0|-0.2|0.2878
92280199|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.2594|TWO_SIDED|95.0|-0.2|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Suicide: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.2|0.2594
92280200|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.0086|TWO_SIDED|95.0|-0.3|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Suicide: Change From Baseline in HAM-D Individual Item Score at Day 45||0.0|-0.3|0.0086
92280201|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0424|TWO_SIDED|95.0|-0.6|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early - Early Night: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.6|0.0424
92171576|NCT03854578|184232194|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.0147|TWO_SIDED|90.0|-0.14|-0.03|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Left||-0.03|-0.14|0.0147
92171577|NCT03854578|184232194|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.07|STANDARD_ERROR_OF_MEAN|0.03||0.048|TWO_SIDED|90.0|-0.13|-0.01|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Right||-0.01|-0.13|0.0480
92239118|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.638||||0.0255|TWO_SIDED|95.0|0.431|0.946|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.946|0.431|0.0255
92280202|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0207|TWO_SIDED|95.0|-0.6|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early - Early Night: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.6|0.0207
92444647|NCT04127786|184775353|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentages between the test group (Group 1) and control groups (Group 2, Group 3) was \> -5% at Day 42.|Percentage Difference|1.2|||||TWO_SIDED|95.0|-0.6|6.4||||||Primary Series: Cohort-I Group 1: VRVg-2 versus Primary Series: Cohort-I Group 2: Verorab®: Adult (\>=18 years)||6.4|-0.6|
92239119|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.755||||0.0059|TWO_SIDED|95.0|0.618|0.922|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.922|0.618|0.0059
92239120|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.521||||0.0005|TWO_SIDED|95.0|1.501|4.236|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.236|1.501|0.0005
92239121|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.602||||0.0011|TWO_SIDED|95.0|1.463|4.627|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.627|1.463|0.0011
92280203|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14||0.001|TWO_SIDED|95.0|-0.7|-0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early - Early Night: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.2|-0.7|0.0010
92280204|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.0871|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early - Early Night: Change From Baseline in HAM-D Individual Item Score at Day 21||0.0|-0.5|0.0871
92444648|NCT04127786|184775353|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentages between the test group (Group 1) and control groups (Group 2, Group 3) was \> -5% at Day 42.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.4|4.4||||||Primary Series: Cohort-I Group 1: VRVg-2 versus Primary Series: Cohort-I Group 3: Imovax Rabies: Pediatric (\< 18 years)||4.4|-1.4|
92444649|NCT04127786|184775353|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentages between the test group (Group 1) and control groups (Group 2, Group 3) was \> -5% at Day 42.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.5|4.6||||||Primary Series: Cohort-I Group 1: VRVg-2 versus Primary Series: Cohort-I Group 3: Imovax Rabies: Adult (\>= 18 years)||4.6|-1.5|
92444650|NCT04127786|184775354|SUPERIORITY|If the non-inferiority for VRVg-2 versus comparator vaccines was reached at Day 42, then superiority was demonstrated if the overall observed percentage of participants with an RVNA titer \>= 0.5 IU/mL at Day 42 was at least 99% in the VRVg-2 Group, with the lower limit of the 95% CI at least 97%.|Percentage Difference|100.0|||||TWO_SIDED|95.0|99.3|100.0||||||The secondary immunogenicity outcome measures were evaluated sequentially following a fixed-sequence method.||100|99.3|
92444651|NCT04127786|184775355|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between the test groups (Groups 1+4) and control groups (Groups 2+5, Groups 3+6) was \> -5% at Day 28.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.4|4.3||||||Pooled Groups 1 and 4: VRVg-2 versus Pooled Groups 2 and 5: Verorab®: Pediatric (\< 18 years)||4.3|-1.4|
92444652|NCT04127786|184775355|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between the test groups (Groups 1+4) and control groups (Groups 2+5, Groups 3+6) was \> -5% at Day 28.|Percentage Difference|-0.2|||||TWO_SIDED|95.0|-1.9|2.7||||||Pooled Groups 1 and 4: VRVg-2 versus Pooled Groups 2 and 5: Verorab®: Adult (\>=18 years)||2.7|-1.9|
92239122|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.727||||0.0034|TWO_SIDED|95.0|1.198|2.491|||Regression, Logistic|||The statistical analysis is presented for mode of infection (other vs injection drug U). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.491|1.198|0.0034
92239123|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.545||||0.0014|TWO_SIDED|95.0|0.376|0.792|||Regression, Logistic|||The statistical analysis is presented for AST ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.792|0.376|0.0014
92239124|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.0042|TWO_SIDED|95.0|0.822|0.964|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.964|0.822|0.0042
92239125|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.824||||0.0363|TWO_SIDED|95.0|0.687|0.988|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.988|0.687|0.0363
92239126|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.842||||0.0033|TWO_SIDED|95.0|0.751|0.944|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.944|0.751|0.0033
92239127|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.477||||0.0006|TWO_SIDED|95.0|1.183|1.844|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.844|1.183|0.0006
92239128|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.128||||0.381|TWO_SIDED|95.0|0.862|1.477|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.477|0.862|0.3810
92239129|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.812||||0.0279|TWO_SIDED|95.0|0.674|0.978|||Regression, Logistic|||The statistical analysis is presented for AST ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.978|0.674|0.0279
92239130|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|45.894|||<|0.0001|TWO_SIDED|95.0|27.972|75.299|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (RVR vs no RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||75.299|27.972|<0.0001
92239131|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|32.176|||<|0.0001|TWO_SIDED|95.0|20.129|51.434|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs no RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||51.434|20.129|<0.0001
92280205|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.568|TWO_SIDED|95.0|-0.4|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early - Early Night: Change From Baseline in HAM-D Individual Item Score at Day 45||0.2|-0.4|0.5680
92280206|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0143|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Middle - Middle Night: Change From Baseline in HAM-D Individual Item Score at Day 3||-0.1|-0.6|0.0143
92280207|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0063|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Middle - Middle Night: Change From Baseline in HAM-D Individual Item Score at Day 8||-0.1|-0.6|0.0063
92239132|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.928|||<|0.0001|TWO_SIDED|95.0|4.291|11.188|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs NO RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||11.188|4.291|<0.0001
92239133|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.733||||0.0204|TWO_SIDED|95.0|0.564|0.953|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.953|0.564|0.0204
92239134|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.17|||<|0.0001|TWO_SIDED|95.0|0.087|0.331|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.331|0.087|<0.0001
92239135|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.806||||0.001|TWO_SIDED|95.0|1.514|5.201|||Regression, Logistic|||The statistical analysis is presented for on-treatment response, combined (RVR vs no RVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||5.201|1.514|0.0010
92239136|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.663||||0.0459|TWO_SIDED|95.0|0.443|0.993|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.993|0.443|0.0459
92239137|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.758||||0.0087|TWO_SIDED|95.0|0.616|0.932|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.932|0.616|0.0087
92239138|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.054||||0.0064|TWO_SIDED|95.0|1.224|3.447|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.447|1.224|0.0064
92239139|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.931||||0.0271|TWO_SIDED|95.0|1.077|3.461|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missed vs cirrhosis). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.461|1.077|0.0271
92239140|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.738||||0.0039|TWO_SIDED|95.0|1.194|2.528|||Regression, Logistic|||The statistical analysis is presented for mode of infection (other vs injection drug U). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.528|1.194|0.0039
92239141|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.565||||0.0035|TWO_SIDED|95.0|0.386|0.829|||Regression, Logistic|||The statistical analysis is presented for AST ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.829|0.386|0.0035
92239142|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.533||||0.0071|TWO_SIDED|95.0|1.593|19.219|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs no RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||19.219|1.593|0.0071
92239143|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.964||||0.3042|TWO_SIDED|95.0|0.542|7.114|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs no RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||7.114|0.542|0.3042
92239144|NCT01070550|184382291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.726||||0.41|TWO_SIDED|95.0|0.471|6.318|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs no RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.318|0.471|0.4100
92444653|NCT04127786|184775355|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between the test groups (Groups 1+4) and control groups (Groups 2+5, Groups 3+6) was \> -5% at Day 28.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.4|4.5||||||Pooled Groups 1 and 4: VRVg-2 versus Pooled Groups 3 and 6: Imovax Rabies®: Pediatric (\< 18 years)||4.5|-1.4|
92239145|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.379|||<|0.0001|TWO_SIDED|95.0|1.236|1.538|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.538|1.236|<0.0001
92239146|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.033||||0.0251|TWO_SIDED|95.0|1.004|1.063|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.063|1.004|0.0251
92239147|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.585|||<|0.0001|TWO_SIDED|95.0|1.358|1.849|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.849|1.358|<0.0001
92239148|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.501||||0.0317|TWO_SIDED|95.0|1.036|2.174|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\<=1 vs \> 3). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.174|1.036|0.0317
92239149|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.493||||0.0129|TWO_SIDED|95.0|1.089|2.048|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\> 1 - 3 vs \> 3). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.048|1.089|0.0129
92239150|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.616||||0.0128|TWO_SIDED|95.0|1.107|2.357|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\^9/L at BL (\< 140 vs \>=180). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.357|1.107|0.0128
92239151|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.046||||0.7809|TWO_SIDED|95.0|0.763|1.432|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\^9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.432|0.763|0.7809
92239152|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.969|||<|0.0001|TWO_SIDED|95.0|0.962|0.976|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.976|0.962|<0.0001
92239153|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.298||||0.0189|TWO_SIDED|95.0|1.273|14.512|||Regression, Logistic|||The statistical analysis is presented for Cumulative PEG-IFN alfa-2a dose per 1000 ug, first 12 weeks. The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||14.512|1.273|0.0189
92239154|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.567||||0.0316|TWO_SIDED|95.0|1.04|2.359|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.359|1.040|0.0316
92280208|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0042|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Middle - Middle Night: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.1|-0.6|0.0042
92280209|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0137|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Middle - Middle Night: Change From Baseline in HAM-D Individual Item Score at Day 21||-0.1|-0.6|0.0137
92444654|NCT04127786|184775355|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between the test groups (Groups 1+4) and control groups (Groups 2+5, Groups 3+6) was \> -5% at Day 28.|Percentage Difference|1.8|||||TWO_SIDED|95.0|-0.5|5.3||||||Pooled Groups 1 and 4: VRVg-2 versus Pooled Groups 3 and 6: Imovax Rabies®: Adult (\>= 18 years)||5.3|-0.5|
92444655|NCT04127786|184775356|NON_INFERIORITY|If the non-inferiority objective for VRVg-2 versus comparator vaccines at Day 28 was demonstrated, the overall non-inferiority of 2-dose VRVg-2 at Day 28 versus 3-dose Imovax Rabies® at Day 42 was demonstrated if the non-inferiority between pooled Groups 1+4 and Group 3 were both demonstrated in each age group.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.4|4.4|||||Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between 2-dose VRVg-2 at Day 28 and 3-dose Imovax Rabies® at Day 42 was \> -10%.|Pooled Groups 1 and 4: VRVg-2 at Day 28 versus Primary Series: Cohort-1 Group 3: Imovax Rabies® at Day 42: Pediatric (\< 18 years)||4.4|-1.4|
92444656|NCT04127786|184775356|NON_INFERIORITY|If the non-inferiority objective for VRVg-2 versus comparator vaccines at Day 28 was demonstrated, the overall non-inferiority of 2-dose VRVg-2 at Day 28 versus 3-dose Imovax Rabies® at Day 42 was demonstrated if the non-inferiority between pooled Groups 1+4 and Group 3 were both demonstrated in each age group.|Percentage Difference|-1.7|||||TWO_SIDED|95.0|-3.1|3.0|||||Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between 2-dose VRVg-2 at Day 28 and 3-dose Imovax Rabies® at Day 42 was \> -10%.|Pooled Groups 1 and 4: VRVg-2 at Day 28 versus Primary Series: Cohort-1 Group 3: Imovax Rabies® at Day 42: Adult (\>= 18 years)||3.0|-3.1|
92444657|NCT04127786|184775358|NON_INFERIORITY|If the superiority objective of VRVg-2 was reached at Day 28, the non-inferiority of 2-dose Imovax Rabies® at Day 28 versus 3-dose Imovax Rabies® at Day 42 was demonstrated if the lower limit of the 95% CI of the difference of the percentage between the 2-dose Imovax Rabies® at Day 28 and 3-dose Imovax Rabies® at Day 42 was \> -10%.|Percentage Difference|-1.3|||||TWO_SIDED|95.0|-4.4|1.3||||||Imovax Rabies® at Day 28 versus Imovax Rabies® at Day 42||1.3|-4.4|
92239155|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.495||||0.0024|TWO_SIDED|95.0|1.701|11.879|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||11.879|1.701|0.0024
92239156|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.112||||0.0247|TWO_SIDED|95.0|1.014|1.219|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.219|1.014|0.0247
92239157|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.844||||0.0258|TWO_SIDED|95.0|1.077|3.158|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.158|1.077|0.0258
92239158|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.677||||0.0007|TWO_SIDED|95.0|1.243|2.263|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.263|1.243|0.0007
92444658|NCT03034954|184775383|OTHER|||||||0.3||||||Reported p-value represents Time (baseline to post-tDCS) x Condition (Active or Sham) interaction for all OLTT Accuracy Measures. If the multivariate statistic is not significant no univariate statistical analyses are completed.|Repeated Measures ANOVA|repeated measures (OLTT baseline and post-tDCS); between-subjects (active vs. sham)||We used a multivariate statistic to compare OLTT means (Free Recall Total Error, Free Recall Average Error, Cued Recall Total Error, Cued Recall Average Error, Recognition Total Correct) at baseline (Version B) to post HD-tDCS OLTT means (Version C), by groups (active vs. sham). The overall statistic represents the simultaneous comparison of baseline OLTT measures to post HD-tDCS OLTT measures.||||.300
92444659|NCT03034954|184775385|OTHER|||||||0.044||||||Statistic represents the interaction between Time (baseline to post-tDCS) by Condition (Active vs. Sham).|Repeated Measures ANOVA|||A Repeated Measures ANOVA was used to compare baseline OLTT (Version B) to post-tDCS OLTT (Version C) across the treatment groups (Active vs. Sham). The multivariate analyses included OLTT Response Times (i.e., Free Recall Average Response Time, Cued Recall Average Response Time, Recognition Average Response Time)||||.044
92444660|NCT03034954|184775385|OTHER|||||||0.006|||||||Repeated Measures ANOVA|||Univariate analysis of the OLTT Free Recall Average Time to Respond following significant multivariate repeated measures ANOVA comparing baseline OLTT (Version B) to post-tDCS OLTT (Version C) across the treatment groups (Active vs. Sham).||||.006
92444661|NCT03034954|184775388|OTHER|||||||0.15|||||||Repeated Measures ANOVA|||Univariate analysis of the OLTT Cued Recall Average Time to Respond following significant multivariate repeated measures ANOVA comparing baseline OLTT (Version B) to post-tDCS OLTT (Version C) across the treatment groups (Active vs. Sham).||||.15
92444662|NCT03034954|184775390|OTHER|||||||0.3|||||||Repeated Measures ANOVA|||Univariate analysis of the OLTT Recognition Average Time to Respond following significant multivariate repeated measures ANOVA comparing baseline OLTT (Version B) to post-tDCS OLTT (Version C) across the treatment groups (Active vs. Sham).||||.3
92444663|NCT03034954|184775395|OTHER|||||||0.45|||||||MANOVA|||A Multivariate ANOVA was used to compare Active vs. Sham groups on discriminability measures (i.e. 0-back d', 2-back d', semantic 2-back d') and calculated working memory measures (i.e., 2-back d' minus 0-back d', semantic 2-back d' minus 0-back d').||||.450
92444664|NCT03034954|184775396|OTHER|||||||0.078|||||||Chi-squared|||Chi-squared tests were conducted to determine group differences in actual condition assignment vs. estimated/perceived condition||||.078
92280210|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.0099|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Middle - Middle Night: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.6|0.0099
92444665|NCT03034954|184775397|OTHER|||||||0.233|||||||Fisher Exact|||||||.233
92280211|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0507|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early Hours - Morning: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.5|0.0507
92444666|NCT03034954|184775399|OTHER|||||||0.6|||||||Fisher Exact|||||||.600
92444667|NCT03034954|184775400|OTHER|||||||0.999|||||||Fisher Exact|||||||.999
92444668|NCT03034954|184775401|OTHER|||||||0.281|||||||Fisher Exact|||||||.281
92444669|NCT03034954|184775402|OTHER|||||||0.082|||||||Fisher Exact|||||||.082
92444670|NCT03034954|184775403|OTHER|||||||0.49|||||||Fisher Exact|||||||.490
92444671|NCT03034954|184775404|OTHER|||||||0.488|||||||Fisher Exact|||||||.488
92444672|NCT03034954|184775405|OTHER|||||||0.219|||||||Fisher Exact|||||||.219
92444673|NCT02904057|184775466|SUPERIORITY||Difference between proportion|92.1|||<|0.0001|TWO_SIDED|95.0|73.4|98.8|||Fisher Exact|||Imputed Data: Difference between proportion of treatment responders and control responders (P\[treatment\] - P\[control\] with confidence interval (CI) was calculated using an exact approach.||98.8|73.4|<0.0001
92444674|NCT02904057|184775466|SUPERIORITY||Difference between proportion|92.1|||<|0.0001|TWO_SIDED|95.0|73.4|98.8|||Fisher Exact|||Observed Data: Difference between proportion of treatment responders and control responders (P\[treatment\] - P\[control\] with CI was calculated using an exact approach.||98.8|73.4|<0.0001
92444675|NCT00913744|184775486|SUPERIORITY_OR_OTHER||Difference in proportions|12.3||||0.262|TWO_SIDED|95.0|-3.7|28.4|||Fisher Exact|P-value is from Fisher's exact test, comparing sham and ocriplasmin.||||28.4|-3.7|0.262
92444676|NCT00805935|184775487|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|95.0|||||Fisher Exact|||||||1.000
92444677|NCT00805935|184775487|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.000
92444678|NCT00805935|184775487|SUPERIORITY_OR_OTHER|||||||0.481||95.0|||||Fisher Exact|||Comparing Progesterone vaginal insert to Progesterone in oil within the menotropin treatments arms.||||0.481
92444679|NCT00805935|184775487|SUPERIORITY_OR_OTHER|||||||0.483|TWO_SIDED|95.0|||||Fisher Exact|||Comparing Progesterone vaginal insert to Progesterone in oil within the follitropin beta treatment group.||||0.483
92444680|NCT00283439|184775501|SUPERIORITY_OR_OTHER|||||||0.9654||||||One-sided test|Satterhwaite t-test|||||||0.9654
92444681|NCT00283439|184775501|SUPERIORITY_OR_OTHER|||||||0.869||||||One-sided test|Satterhwaite t-test|||||||0.8690
92444682|NCT00283439|184775501|SUPERIORITY_OR_OTHER|||||||0.7133||||||One-sided test|Satterhwaite t-test|||||||0.7133
92444683|NCT00283439|184775502|SUPERIORITY_OR_OTHER|||||||0.294|||||||Fisher Exact|||||||0.294
92444684|NCT00283439|184775502|SUPERIORITY_OR_OTHER|||||||0.608|||||||Fisher Exact|||||||0.608
92444685|NCT00283439|184775502|SUPERIORITY_OR_OTHER|||||||0.603|||||||Fisher Exact|||||||0.603
92444686|NCT00283439|184775503|SUPERIORITY_OR_OTHER|||||||0.091|||||||Satterhwaite t-test|||||||0.091
92444687|NCT00283439|184775503|SUPERIORITY_OR_OTHER|||||||0.3|||||||Satterhwaite t-test|||||||0.300
92444688|NCT00283439|184775503|SUPERIORITY_OR_OTHER|||||||0.881|||||||Satterhwaite t-test|||||||0.881
92444689|NCT00283439|184775504|SUPERIORITY_OR_OTHER|||||||0.576|||||||Fisher Exact|||||||0.576
92444690|NCT00283439|184775504|SUPERIORITY_OR_OTHER|||||||0.588|||||||Fisher Exact|||||||0.588
92444691|NCT00283439|184775504|SUPERIORITY_OR_OTHER|||||||0.421|||||||Fisher Exact|||||||0.421
92444692|NCT01218516|184775513|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.23||||0.3519|TWO_SIDED|80.0|0.92|1.63||Per Primary Analysis Cut-Off Date|Log Rank|||||1.63|0.92|0.3519
92444693|NCT01218516|184775513|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.34||||0.1555|TWO_SIDED|80.0|1.03|1.74||Per Final Analysis Cut-Off Date|Log Rank|||||1.74|1.03|0.1555
92444694|NCT01632891|184775518|SUPERIORITY|Test used alpha level of 0.05||||||1|||||||Fisher Exact|||Compare proportions of Pf SCP clearance between treatment arms||||1.00
92444695|NCT02633956|184775527|OTHER|Estimation|Least Square Mean Difference|13.79|STANDARD_ERROR_OF_MEAN|5.75|||TWO_SIDED|95.0|2.28|25.3||||||||25.30|2.28|
92444696|NCT02633956|184775527|OTHER|Estimation|Least Square Mean Difference|9.06|STANDARD_ERROR_OF_MEAN|5.61|||TWO_SIDED|95.0|-2.18|20.3||||||||20.30|-2.18|
92444697|NCT02633956|184775527|OTHER|Estimation|Least Square Mean Difference|20.13|STANDARD_ERROR_OF_MEAN|6.39|||TWO_SIDED|95.0|7.33|32.92||||||||32.92|7.33|
92444698|NCT02633956|184775528|OTHER|Estimation|Least Square Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|0.07|0.75||||||||0.75|0.07|
92240085|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-63.6||||0.1007|TWO_SIDED|95.0|-139.7|12.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large LDL Particles||12.5|-139.7|0.1007
92444699|NCT02633956|184775528|OTHER|Estimation|Least Square Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-0.25|0.42||||||||0.42|-0.25|
92444700|NCT02633956|184775528|OTHER|Estimation|Least Square Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|0.14|0.89||||||||0.89|0.14|
92444701|NCT02633956|184775529|OTHER|Estimation|Least Square Mean Difference|103.61|STANDARD_ERROR_OF_MEAN|69.51|||TWO_SIDED|95.0|-35.58|242.81||||||||242.81|-35.58|
92444702|NCT02633956|184775529|OTHER|Estimation|Least Square Mean Difference|114.8|STANDARD_ERROR_OF_MEAN|68.08|||TWO_SIDED|95.0|-21.53|251.13||||||||251.13|-21.53|
92444703|NCT02633956|184775529|OTHER|Estimation|Least Square Mean Difference|215.05|STANDARD_ERROR_OF_MEAN|79.51|||TWO_SIDED|95.0|55.84|374.26||||||||374.26|55.84|
92444704|NCT04206293|184775540|SUPERIORITY||Least Squares (LS) Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.9||0.0736|TWO_SIDED|95.0|-0.2|3.6|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||3.6|-0.2|0.0736
92444705|NCT04206293|184775540|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.0||0.5259|TWO_SIDED|95.0|-1.5|2.8|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||2.8|-1.5|0.5259
92444706|NCT04206293|184775541|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.2||0.8848|TWO_SIDED|95.0|-2.8|2.4|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||2.4|-2.8|0.8848
92444707|NCT04206293|184775541|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.8||0.9505|TWO_SIDED|95.0|-1.8|1.7|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||1.7|-1.8|0.9505
92444708|NCT04206293|184775542|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.6||0.0007|TWO_SIDED|95.0|1.4|4.0|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||4.0|1.4|0.0007
92444709|NCT04206293|184775542|SUPERIORITY||LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|0.7||0.0033|TWO_SIDED|95.0|0.9|3.9|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||3.9|0.9|0.0033
92239159|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.384||||0.0002|TWO_SIDED|95.0|1.166|1.641|||Regression, Logistic|||The statistical analysis is presented for weight per 10 kg. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.641|1.166|0.0002
92444710|NCT04206293|184775543|SUPERIORITY||LS Mean Difference|-0.095|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|-0.119|-0.07|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Uf: Change from Baseline to Day 28||-0.070|-0.119|<0.0001
92444711|NCT04206293|184775543|SUPERIORITY||LS Mean Difference|-0.071|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|-0.094|-0.048|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Uf: Change from Baseline to Day 84||-0.048|-0.094|<0.0001
92444712|NCT04206293|184775543|SUPERIORITY||LS Mean Difference|-0.089|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|-0.116|-0.061|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ue: Change from Baseline to Day 28||-0.061|-0.116|<0.0001
92444713|NCT04206293|184775543|SUPERIORITY||LS Mean Difference|-0.081|STANDARD_ERROR_OF_MEAN|0.009|<|0.0001|TWO_SIDED|95.0|-0.102|-0.061|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ue: Change from Baseline to Day 84||-0.061|-0.102|<0.0001
92444714|NCT04206293|184775543|SUPERIORITY||LS Mean Difference|-0.079|STANDARD_ERROR_OF_MEAN|0.018||0.0003||95.0|-0.116|-0.041|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ur: Change from Baseline to Day 28||-0.041|-0.116|0.0003
92444715|NCT04206293|184775543|SUPERIORITY||LS Mean Difference|-0.074|STANDARD_ERROR_OF_MEAN|0.013||0.0001|TWO_SIDED|95.0|-0.103|-0.044|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ur: Change from Baseline to Day 84||-0.044|-0.103|0.0001
92444716|NCT04206293|184775543|SUPERIORITY||LS Mean Difference|-0.081|STANDARD_ERROR_OF_MEAN|0.017||0.0002|TWO_SIDED|95.0|-0.117|-0.045|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ua: Change from Baseline to Day 28||-0.045|-0.117|0.0002
92444717|NCT04206293|184775543|SUPERIORITY||LS Mean Difference|-0.077|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|-0.103|-0.052|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ua: Change from Baseline to Day 84||-0.052|-0.103|<0.0001
92444718|NCT04206293|184775544|SUPERIORITY||LS Mean Difference|-0.008|STANDARD_ERROR_OF_MEAN|0.014||0.5786|TWO_SIDED|95.0|-0.038|0.022|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q1: Change from Baseline to Day 28||0.022|-0.038|0.5786
92444719|NCT04206293|184775544|SUPERIORITY||LS Mean Difference|-0.023|STANDARD_ERROR_OF_MEAN|0.012||0.069|TWO_SIDED|95.0|-0.049|0.002|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q1: Change from Baseline to Day 84||0.002|-0.049|0.0690
92444720|NCT04206293|184775544|SUPERIORITY||LS Mean Difference|-0.021|STANDARD_ERROR_OF_MEAN|0.016||0.1934|TWO_SIDED|95.0|-0.054|0.012|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q2: Change from Baseline to Day 28||0.012|-0.054|0.1934
92444721|NCT04206293|184775544|SUPERIORITY||LS Mean Difference|-0.034|STANDARD_ERROR_OF_MEAN|0.013||0.0194|TWO_SIDED|95.0|-0.062|-0.006|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q2: Change from Baseline to Day 84||-0.006|-0.062|0.0194
92444722|NCT04206293|184775544|SUPERIORITY||LS Mean Difference|0.013|STANDARD_ERROR_OF_MEAN|0.007||0.0652|TWO_SIDED|95.0|-0.001|0.028|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q3: Change from Baseline to Day 28||0.028|-0.001|0.0652
92444723|NCT04206293|184775544|SUPERIORITY||LS Mean Difference|0.012|STANDARD_ERROR_OF_MEAN|0.006||0.0756|TWO_SIDED|95.0|-0.001|0.024|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q3: Change from Baseline to Day 84||0.024|-0.001|0.0756
92444724|NCT04206293|184775545|SUPERIORITY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|2.68||0.8409|TWO_SIDED|95.0|-6.19|5.1|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||5.10|-6.19|0.8409
92444725|NCT04206293|184775545|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|3.98||0.9183|TWO_SIDED|95.0|-9.18|8.35|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||8.35|-9.18|0.9183
92239160|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.0002|TWO_SIDED|95.0|1.421|3.074|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.074|1.421|0.0002
92240086|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-63.8||||0.0768|TWO_SIDED|95.0|-134.6|6.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large LDL Particles||6.9|-134.6|0.0768
92444726|NCT04206293|184775546|SUPERIORITY||LS Mean Difference|70.0|STANDARD_ERROR_OF_MEAN|77.0||0.4128|TWO_SIDED|95.0|-142.0|282.0|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||282|-142|0.4128
92280212|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0205|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early Hours - Morning: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.5|0.0205
92444727|NCT04206293|184775546|SUPERIORITY||LS Mean Difference|-82.0|STANDARD_ERROR_OF_MEAN|79.0||0.3851|TWO_SIDED|95.0|-355.0|191.0|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||191|-355|0.3851
92240087|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.7||||0.4143|TWO_SIDED|95.0|-162.7|67.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small LDL Particles||67.3|-162.7|0.4143
92444728|NCT04206293|184775547|SUPERIORITY||LS Mean Difference|6.52|STANDARD_ERROR_OF_MEAN|3.44||0.0798|TWO_SIDED|95.0|-0.89|13.93|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||13.93|-0.89|0.0798
92280213|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1409|TWO_SIDED|95.0|-0.5|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early Hours - Morning: Change From Baseline in HAM-D Individual Item Score at Day 15||0.1|-0.5|0.1409
92444729|NCT04206293|184775547|SUPERIORITY||LS Mean Difference|5.56|STANDARD_ERROR_OF_MEAN|3.27||0.1142|TWO_SIDED|95.0|-1.55|12.67|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||12.67|-1.55|0.1142
92444730|NCT04206293|184775548|SUPERIORITY||LS Mean Difference|0.96|STANDARD_ERROR_OF_MEAN|0.82||0.2592|TWO_SIDED|95.0|-0.78|2.71|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ra: Change from Baseline to Day 28||2.71|-0.78|0.2592
92444731|NCT04206293|184775548|SUPERIORITY||LS Mean Difference|1.09|STANDARD_ERROR_OF_MEAN|0.69||0.1341|TWO_SIDED|95.0|-0.38|2.57|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ra: Change from Baseline to Day 84||2.57|-0.38|0.1341
92444732|NCT04206293|184775548|SUPERIORITY||LS Mean Difference|5.91|STANDARD_ERROR_OF_MEAN|4.55||0.2138|TWO_SIDED|95.0|-3.79|15.61|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Rz: Change from Baseline to Day 28||15.61|-3.79|0.2138
92444733|NCT04206293|184775548|SUPERIORITY||LS Mean Difference|8.22|STANDARD_ERROR_OF_MEAN|4.2||0.07|TWO_SIDED|95.0|-0.77|17.2|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Rz: Change from Baseline to Day 84||17.20|-0.77|0.0700
92444734|NCT04206293|184775549|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|2.17||0.9608|TWO_SIDED|95.0|-4.7|4.91|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||4.91|-4.70|0.9608
92444735|NCT04206293|184775549|SUPERIORITY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|2.79||0.6192|TWO_SIDED|95.0|-7.48|4.64|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||4.64|-7.48|0.6192
92444736|NCT04206293|184775550|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.08||0.8322|TWO_SIDED|95.0|-0.2|0.16|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||0.16|-0.20|0.8322
92444737|NCT04206293|184775550|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.1334|TWO_SIDED|95.0|-0.25|0.04|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||0.04|-0.25|0.1334
92444738|NCT04206293|184775551|SUPERIORITY||LS Mean Difference|-5.09|STANDARD_ERROR_OF_MEAN|7.78||0.5221|TWO_SIDED|95.0|-21.56|11.38|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||11.38|-21.56|0.5221
92444739|NCT04206293|184775551|SUPERIORITY||LS Mean Difference|6.74|STANDARD_ERROR_OF_MEAN|8.07||0.4174|TWO_SIDED|95.0|-10.55|24.03|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||24.03|-10.55|0.4174
92240088|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.9||||0.402|TWO_SIDED|95.0|-157.1|63.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small LDL Particles||63.3|-157.1|0.4020
92444740|NCT04206293|184775552|SUPERIORITY||LS Mean Difference|2.77|STANDARD_ERROR_OF_MEAN|2.58||0.3052|TWO_SIDED|95.0|-2.9|8.44|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||8.44|-2.90|0.3052
92444741|NCT04206293|184775552|SUPERIORITY||LS Mean Difference|9.99|STANDARD_ERROR_OF_MEAN|2.57||0.0016|TWO_SIDED|95.0|4.48|15.5|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||15.50|4.48|0.0016
92240089|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6||||0.6378|TWO_SIDED|95.0|-29.1|17.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium Small LDL Particles||17.9|-29.1|0.6378
92444742|NCT04206293|184775553|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.48||0.1672|TWO_SIDED|95.0|-0.33|1.73|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||1.73|-0.33|0.1672
92444743|NCT04206293|184775553|SUPERIORITY||LS Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.29||0.0881|TWO_SIDED|95.0|-0.1|1.21|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||1.21|-0.10|0.0881
92444744|NCT04206293|184775554|SUPERIORITY||LS Mean Difference|0.57|STANDARD_ERROR_OF_MEAN|0.28||0.0577|TWO_SIDED|95.0|-0.02|1.17|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||1.17|-0.02|0.0577
92444745|NCT04206293|184775554|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.31||0.5224|TWO_SIDED|95.0|-0.85|0.45|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||0.45|-0.85|0.5224
92444746|NCT04206293|184775555|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.2666|TWO_SIDED|95.0|-0.6|0.2|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||0.2|-0.6|0.2666
92444747|NCT04206293|184775555|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4366|TWO_SIDED|95.0|-0.3|0.7|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||0.7|-0.3|0.4366
92444748|NCT04206293|184775556|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4197|TWO_SIDED|95.0|-0.6|0.3|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||a\*: Change from Baseline to Day 28||0.3|-0.6|0.4197
92280214|NCT02978326|184463236|SUPERIORITY|MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.2021|TWO_SIDED|95.0|-0.5|0.1|||Mixed Model for Repeated Measures|||Insomnia Early Hours - Morning: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.5|0.2021
92280215|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0117|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early Hours - Morning: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.6|0.0117
92444749|NCT04206293|184775556|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.914|TWO_SIDED|95.0|-0.6|0.5|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||a\*: Change from Baseline to Day 84||0.5|-0.6|0.9140
92444750|NCT04206293|184775556|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.7604|TWO_SIDED|95.0|-0.6|0.4|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||b\*: Change from Baseline to Day 28||0.4|-0.6|0.7604
92444751|NCT04206293|184775556|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.5936|TWO_SIDED|95.0|-1.0|0.6|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||b\*: Change from Baseline to Day 84||0.6|-1.0|0.5936
92444752|NCT04206293|184775556|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0808|TWO_SIDED|95.0|-0.9|0.1|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||L\*: Change from Baseline to Day 28||0.1|-0.9|0.0808
92444753|NCT04206293|184775556|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.1633|TWO_SIDED|95.0|-1.0|0.2|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||L\*: Change from Baseline to Day 84||0.2|-1.0|0.1633
92444754|NCT04206293|184775557|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.4||0.1977|TWO_SIDED|95.0|-1.6|0.4|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||0.4|-1.6|0.1977
92444755|NCT04206293|184775557|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.9||0.7535|TWO_SIDED|95.0|-2.2|1.7|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||1.7|-2.2|0.7535
92280216|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.5511|TWO_SIDED|95.0|-0.4|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Work and Activities: Change From Baseline in HAM-D Individual Item Score at Day 3||0.2|-0.4|0.5511
92444756|NCT04206293|184775558|SUPERIORITY||LS Mean Difference|4.35|STANDARD_ERROR_OF_MEAN|3.95||0.2905|TWO_SIDED|95.0|-4.16|12.85|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||12.85|-4.16|0.2905
92444757|NCT04206293|184775558|SUPERIORITY||LS Mean Difference|17.27|STANDARD_ERROR_OF_MEAN|6.37||0.0241|TWO_SIDED|95.0|2.84|31.69|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||31.69|2.84|0.0241
92444758|NCT00782210|184775594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.135|0.209|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.209|0.135|<0.0001
92444759|NCT00782210|184775594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.139|0.214|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.214|0.139|<0.0001
92444760|NCT00782210|184775595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.054|0.128|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.128|0.054|<0.0001
92444761|NCT00782210|184775595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.064|0.137|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.137|0.064|<0.0001
92444762|NCT00782210|184775596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.113|0.233|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 5 mcg qd minus Placebo|||0.233|0.113|<0.0001
92444763|NCT00782210|184775596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.108|0.229|||Mixed Models Analysis|Treatment, tiotropium stratum and baseline as fixed effects|Olo 10 mcg qd minus Placebo|||0.229|0.108|<0.0001
92444764|NCT00782210|184775597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.128|0.201|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.201|0.128|<0.0001
92444765|NCT00782210|184775597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.139|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.212|0.139|<0.0001
92171578|NCT03854578|184232194|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.07|STANDARD_ERROR_OF_MEAN|0.03||0.0294|TWO_SIDED|90.0|-0.12|-0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Left||-0.02|-0.12|0.0294
92280217|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.4949|TWO_SIDED|95.0|-0.5|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Work and Activities: Change From Baseline in HAM-D Individual Item Score at Day 8||0.2|-0.5|0.4949
92444766|NCT00782210|184775598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.144|0.217|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.217|0.144|<0.0001
92444767|NCT00782210|184775598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.156|0.229|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.229|0.156|<0.0001
92444768|NCT00782210|184775599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.133|0.207|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.207|0.133|<0.0001
92444769|NCT00782210|184775599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.13|0.204|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.204|0.130|<0.0001
92444770|NCT00782210|184775600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.136|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.212|0.136|<0.0001
92444771|NCT00782210|184775600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.123|0.199|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.199|0.123|<0.0001
92444772|NCT00782210|184775601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.134|0.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.211|0.134|<0.0001
92444773|NCT00782210|184775601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.131|0.208|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.208|0.131|<0.0001
92444774|NCT00782210|184775602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.059|0.131|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.131|0.059|<0.0001
92280218|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0203|TWO_SIDED|95.0|-0.7|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Work and Activities: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.1|-0.7|0.0203
92280219|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.2076|TWO_SIDED|95.0|-0.6|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Work and Activities: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.6|0.2076
92444775|NCT00782210|184775602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.075|0.147|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.147|0.075|<0.0001
92444776|NCT00782210|184775603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.059|0.131|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.131|0.059|<0.0001
92444777|NCT00782210|184775603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.054|0.127|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.127|0.054|<0.0001
92444778|NCT00782210|184775604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.061|0.135|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.135|0.061|<0.0001
92444779|NCT00782210|184775604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.064|0.138|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.138|0.064|<0.0001
92444780|NCT00782210|184775605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.049|0.123|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.123|0.049|<0.0001
92444781|NCT00782210|184775605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.051|0.126|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.126|0.051|<0.0001
92444782|NCT00782210|184775606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.054|0.13|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.130|0.054|<0.0001
92444783|NCT00782210|184775606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.048|0.123|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.123|0.048|<0.0001
92444784|NCT00782210|184775607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.069|0.145|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.145|0.069|<0.0001
92444785|NCT00782210|184775607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.068|0.143|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.143|0.068|<0.0001
92444786|NCT00782210|184775608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.055|0.13|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.130|0.055|<0.0001
92280220|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0362|TWO_SIDED|95.0|-0.8|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Work and Activities: Change From Baseline in HAM-D Individual Item Score at Day 45||0.0|-0.8|0.0362
92444787|NCT00782210|184775608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.053|0.129|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.129|0.053|<0.0001
92444788|NCT00782210|184775609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.115|0.194|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.194|0.115|<0.0001
92444789|NCT00782210|184775609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.131|0.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.211|0.131|<0.0001
92444790|NCT00782210|184775610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.137|0.217|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.217|0.137|<0.0001
92239161|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.288||||0.0006|TWO_SIDED|95.0|0.141|0.588|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.588|0.141|0.0006
92280221|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.3589|TWO_SIDED|95.0|-0.1|0.3||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Retardation: Change From Baseline in HAM-D Individual Item Score at Day 3||0.3|-0.1|0.3589
92444791|NCT00782210|184775610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.15|0.23|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.230|0.150|<0.0001
92444792|NCT00782210|184775611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.132|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.212|0.132|<0.0001
92444793|NCT00782210|184775611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.132|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.212|0.132|<0.0001
92444794|NCT00782210|184775612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.123|0.204|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.204|0.123|<0.0001
92444795|NCT00782210|184775612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.124|0.206|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.206|0.124|<0.0001
92444796|NCT00782210|184775613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.134|0.216|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.216|0.134|<0.0001
92444797|NCT00782210|184775613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.11|0.192|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.192|0.110|<0.0001
92444798|NCT00782210|184775614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.128|0.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.211|0.128|<0.0001
92280222|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.6991|TWO_SIDED|95.0|-0.2|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Retardation: Change From Baseline in HAM-D Individual Item Score at Day 8||0.2|-0.2|0.6991
92444799|NCT00782210|184775614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.121|0.205|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.205|0.121|<0.0001
92239162|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.247||||0.0013|TWO_SIDED|95.0|0.106|0.579|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.579|0.106|0.0013
92444800|NCT00782210|184775615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.288|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.216|0.359|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.359|0.216|<0.0001
92280223|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.9655|TWO_SIDED|95.0|-0.2|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Retardation: Change From Baseline in HAM-D Individual Item Score at Day 15||0.2|-0.2|0.9655
92444801|NCT00782210|184775615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.258|0.401|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.401|0.258|<0.0001
92444802|NCT00782210|184775616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.296|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.224|0.368|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.368|0.224|<0.0001
92444803|NCT00782210|184775616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.327|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.255|0.399|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.399|0.255|<0.0001
92444804|NCT00782210|184775617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.254|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.181|0.327|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.327|0.181|<0.0001
92444805|NCT00782210|184775617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.293|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.22|0.366|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.366|0.220|<0.0001
92444806|NCT00782210|184775618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.275|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.201|0.348|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.348|0.201|<0.0001
92280224|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8699|TWO_SIDED|95.0|-0.2|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Retardation: Change From Baseline in HAM-D Individual Item Score at Day 21||0.2|-0.2|0.8699
92444807|NCT00782210|184775618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.292|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.219|0.366|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.366|0.219|<0.0001
92444808|NCT00782210|184775619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.161|0.309|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.309|0.161|<0.0001
92444809|NCT00782210|184775619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.254|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.18|0.329|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.329|0.180|<0.0001
92444810|NCT00782210|184775620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.244|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.169|0.319|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.319|0.169|<0.0001
92444811|NCT00782210|184775620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.271|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.196|0.346|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.346|0.196|<0.0001
92444812|NCT00782210|184775621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.076|0.218|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.218|0.076|<0.0001
92444813|NCT00782210|184775621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.113|0.255|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.255|0.113|<0.0001
92444814|NCT00782210|184775622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.037||0.0003||95.0|0.059|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.203|0.059|0.0003
92280225|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.3715|TWO_SIDED|95.0|-0.3|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Retardation: Change From Baseline in HAM-D Individual Item Score at Day 45||0.1|-0.3|0.3715
92444815|NCT00782210|184775622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.036||0.0001||95.0|0.069|0.213|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.213|0.069|0.0001
92444816|NCT00782210|184775623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.037||0.0019||95.0|0.043|0.187|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.187|0.043|0.0019
92444817|NCT00782210|184775623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.088|0.233|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.233|0.088|<0.0001
92444818|NCT00782210|184775624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.037||0.0005||95.0|0.057|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.203|0.057|0.0005
92444819|NCT00782210|184775624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.089|0.235|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.235|0.089|<0.0001
92444820|NCT00782210|184775625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.037||0.0261||95.0|0.01|0.156|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.156|0.010|0.0261
92444821|NCT00782210|184775625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.037||0.001||95.0|0.05|0.197|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.197|0.050|0.0010
92444822|NCT00782210|184775626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.038||0.0154||95.0|0.018|0.165|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.165|0.018|0.0154
92444823|NCT00782210|184775626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.038||0.0011||95.0|0.049|0.197|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.197|0.049|0.0011
92444824|NCT00782210|184775627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.038||0.0006||95.0|0.057|0.205|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.205|0.057|0.0006
92444825|NCT00782210|184775627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.08|0.229|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.229|0.080|<0.0001
92444826|NCT00782210|184775628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.038||0.0134||95.0|0.019|0.168|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.168|0.019|0.0134
92444827|NCT00782210|184775628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.038||0.0025||95.0|0.04|0.19|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.190|0.040|0.0025
92444828|NCT00782210|184775629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.263|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.187|0.339|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.339|0.187|<0.0001
92444829|NCT00782210|184775629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.225|0.376|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.376|0.225|<0.0001
92444830|NCT00782210|184775630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.264|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.188|0.341|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.341|0.188|<0.0001
92444831|NCT00782210|184775630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.292|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.216|0.368|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.368|0.216|<0.0001
92444832|NCT00782210|184775631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.174|0.328|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.328|0.174|<0.0001
92444833|NCT00782210|184775631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.203|0.358|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.358|0.203|<0.0001
92444834|NCT00782210|184775632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.174|0.329|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.329|0.174|<0.0001
92444835|NCT00782210|184775632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.183|0.338|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.338|0.183|<0.0001
92444836|NCT00782210|184775633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.153|0.31|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.310|0.153|<0.0001
92444837|NCT00782210|184775633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.154|0.311|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.311|0.154|<0.0001
92444838|NCT00782210|184775634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.247|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.168|0.327|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.327|0.168|<0.0001
92444839|NCT00782210|184775634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.181|0.34|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.340|0.181|<0.0001
92444840|NCT00782210|184775635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.181|0.422|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 5 mcg qd minus Placebo|||0.422|0.181|<0.0001
92444841|NCT00782210|184775635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.249|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.128|0.37|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 10 mcg qd minus Placebo|||0.370|0.128|<0.0001
92444842|NCT00782210|184775636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.357|STANDARD_ERROR_OF_MEAN|4.253||0.0018|TWO_SIDED|95.0|5.005|21.709|||ANCOVA|non-MMRM ANCOVA models by week, with treatment, tiotropium strata and baseline as fixed effects.||||21.709|5.005|0.0018
92444843|NCT00782210|184775636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.457|STANDARD_ERROR_OF_MEAN|4.248||0.0003|TWO_SIDED|95.0|7.114|23.8|||ANCOVA|non-MMRM ANCOVA models by week, with treatment, tiotropium strata and baseline as fixed effects.||||23.800|7.114|0.0003
92444844|NCT00782210|184775637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.186|STANDARD_ERROR_OF_MEAN|4.245|<|0.0001|TWO_SIDED|95.0|8.849|25.523|||ANCOVA|non-MMRM ANCOVA models by week, with treatment, tiotropium strata and baseline as fixed effects.||||25.523|8.849|<0.0001
92444845|NCT00782210|184775637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.56|STANDARD_ERROR_OF_MEAN|4.226||0.0006|TWO_SIDED|95.0|6.259|22.86|||ANCOVA|non-MMRM ANCOVA models by week, with treatment, tiotropium strata and baseline as fixed effects.||||22.860|6.259|0.0006
92444846|NCT00782210|184775638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.182||0.0045|TWO_SIDED|95.0|-0.878|-0.162|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.162|-0.878|0.0045
92444847|NCT00782210|184775638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.648|STANDARD_ERROR_OF_MEAN|0.182||0.0004|TWO_SIDED|95.0|-1.005|-0.291|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.291|-1.005|0.0004
92444848|NCT00782210|184775639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.582|STANDARD_ERROR_OF_MEAN|0.202||0.0041|TWO_SIDED|95.0|-0.979|-0.185|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.185|-0.979|0.0041
92444849|NCT00782210|184775639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.792|STANDARD_ERROR_OF_MEAN|0.202||0.0001|TWO_SIDED|95.0|-1.189|-0.394|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.394|-1.189|0.0001
92444850|NCT00782210|184775640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.104|STANDARD_ERROR_OF_MEAN|0.354||0.0019|TWO_SIDED|95.0|-1.799|-0.409|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.409|-1.799|0.0019
92444851|NCT00782210|184775640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.435|STANDARD_ERROR_OF_MEAN|0.354|<|0.0001|TWO_SIDED|95.0|-2.13|-0.74|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.740|-2.130|<0.0001
92444852|NCT00782210|184775641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.3|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.3|-0.7|<0.0001
92444853|NCT00782210|184775641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.3|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.3|-0.7|<0.0001
92239163|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.959||||0.0062|TWO_SIDED|95.0|0.931|0.988|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.988|0.931|0.0062
92239164|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.708||||0.002|TWO_SIDED|95.0|0.568|0.881|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, first 12 weeks. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.881|0.568|0.0020
92444854|NCT00782210|184775642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.2|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.2|-0.7|<0.0001
92239165|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.434|||<|0.0001|TWO_SIDED|95.0|1.288|1.596|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.596|1.288|<0.0001
92444855|NCT00782210|184775642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.6|-0.2|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.2|-0.6|<0.0001
92444856|NCT00782210|184775643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.2|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.2|-0.7|<0.0001
92444857|NCT00782210|184775643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.2|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.2|-0.7|<0.0001
92239166|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.475|||<|0.0001|TWO_SIDED|95.0|1.26|1.726|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.726|1.260|<0.0001
92239167|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.963|||<|0.0001|TWO_SIDED|95.0|0.956|0.97|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.970|0.956|<0.0001
92280226|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.067|TWO_SIDED|95.0|-0.4|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Agitation: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.4|0.0670
92444858|NCT00782210|184775644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0109||95.0|-0.5|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum,visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.1|-0.5|0.0109
92444859|NCT00782210|184775644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0031||95.0|-0.6|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.1|-0.6|0.0031
92444860|NCT00782210|184775645|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.728|STANDARD_ERROR_OF_MEAN|0.124||0.0658|TWO_SIDED|95.0|0.522|1.016|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.016|0.522|0.0658
92280227|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.11||0.0104|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Agitation: Change From Baseline in HAM-D Individual Item Score at Day 8||-0.1|-0.5|0.0104
92444861|NCT00782210|184775645|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.799|STANDARD_ERROR_OF_MEAN|0.133||0.1701|TWO_SIDED|95.0|0.576|1.107|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.107|0.576|0.1701
92444862|NCT00782210|184775646|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.656|STANDARD_ERROR_OF_MEAN|0.247||0.2754|TWO_SIDED|95.0|0.313|1.374|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.374|0.313|0.2754
92239168|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.195|||<|0.0001|TWO_SIDED|95.0|1.12|1.275|||Regression, Logistic|||The statistical analysis is presented for cumulative PEG-IFN alfa-2a dose per 1000 ug. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.275|1.120|<0.0001
92239169|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.567||||0.0316|TWO_SIDED|95.0|1.04|2.359|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.359|1.040|0.0316
92239170|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.495||||0.0024|TWO_SIDED|95.0|1.701|11.879|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||11.879|1.701|0.0024
92444863|NCT00782210|184775646|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01|STANDARD_ERROR_OF_MEAN|0.342||0.9792|TWO_SIDED|95.0|0.521|1.961|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.961|0.521|0.9792
92444864|NCT00782210|184775647|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.739|STANDARD_ERROR_OF_MEAN|0.142||0.1194|TWO_SIDED|95.0|0.506|1.078|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.078|0.506|0.1194
92444865|NCT00782210|184775647|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.811|STANDARD_ERROR_OF_MEAN|0.153||0.257|TWO_SIDED|95.0|0.561|1.174|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.174|0.561|0.2570
92444866|NCT00782210|184775648|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.7815|STANDARD_ERROR_OF_MEAN|0.138||0.1631|TWO_SIDED|95.0|0.5524|1.1054|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.1054|0.5524|0.1631
92444867|NCT00782210|184775648|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.8456|STANDARD_ERROR_OF_MEAN|0.1467||0.3342|TWO_SIDED|95.0|0.6015|1.1889|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.1889|0.6015|0.3342
92444868|NCT00782210|184775649|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.655|STANDARD_ERROR_OF_MEAN|0.2664||0.2985|TWO_SIDED|95.0|0.2947|1.4556|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.4556|0.2947|0.2985
92444869|NCT00782210|184775649|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.1211|STANDARD_ERROR_OF_MEAN|0.4103||0.755|TWO_SIDED|95.0|0.5464|2.3003|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||2.3003|0.5464|0.7550
92444870|NCT00782210|184775650|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.8081|STANDARD_ERROR_OF_MEAN|0.163||0.2911|TWO_SIDED|95.0|0.5438|1.2008|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.2008|0.5438|0.2911
92444871|NCT00782210|184775650|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.8485|STANDARD_ERROR_OF_MEAN|0.1686||0.4086|TWO_SIDED|95.0|0.5743|1.2535|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.2535|0.5743|0.4086
92444872|NCT01610791|184775657|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Difference in ALT from Baseline to Week 24||||<0.001
92444873|NCT01610791|184775657|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Difference in AST from Baseline to Week 24||||<0.001
92444874|NCT01610791|184775658|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Diffrence in total cholesterol from baseline to Week 24||||<0.001
92444875|NCT01610791|184775658|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Difference in LDL cholesterol from baseline to Week 24||||<0.001
92240090|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7||||0.5528|TWO_SIDED|95.0|-29.1|15.6||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium Small LDL Particles||15.6|-29.1|0.5528
92240091|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.0||||0.373|TWO_SIDED|95.0|-134.8|50.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Small LDL Particles||50.8|-134.8|0.3730
92240092|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.0||||0.3764|TWO_SIDED|95.0|-129.0|49.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Small LDL Particles||49.0|-129.0|0.3764
92444876|NCT04304001|184775682|SUPERIORITY||||||<|0.05|||||||Chi-squared|||For each arm, the proportion of participants who receive colorectal cancer screening by 12 months was computed. The chi-square test was used to compare the two treatment arms for screening receipt. If the proportion of participants receiving colorectal cancer screening in the intervention arm is at least 15% higher than that in the control arm, the intervention was determined to be effective.||||<0.05
92444877|NCT04304001|184775683|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||Bivariate analyses was conducted for the knowledge scale to compare differences between the intervention and control arms. Since knowledge was a continuous variable,the values between study arms were compared using two-sample independent t-tests.||||<0.05
92444878|NCT04304001|184775684|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||Bivariate analyses was conducted for the self-efficacy scale to compare differences between the intervention and control arms. Since self-efficacy was a continuous variable, the values between study arms were compared using two-sample independent t-tests.||||<0.05
92444879|NCT04164901|184775685|SUPERIORITY||Cox Proportional Hazard|0.39|||<|1e-07|TWO_SIDED|95.0|0.27|0.56|||Kaplan-Meier|||||0.56|0.27|<0.0000001
92444880|NCT04164901|184775688|SUPERIORITY||Odds Ratio (OR)|4.88||||0.003|TWO_SIDED|95.0|1.56|15.25|||Cochran-Mantel-Haenszel||Odds ratio was calculated with placebo as the control (denominator).|||15.25|1.56|0.003
92444881|NCT04164901|184775695|SUPERIORITY||Cox Proportional Hazard|0.35||||2.4e-07|TWO_SIDED|95.0|0.23|0.54|||Kaplan-Meier|||||0.54|0.23|0.00000024
92444882|NCT05358821|184775703|SUPERIORITY||Mean Difference|3.3657|STANDARD_ERROR_OF_MEAN|0.2539|<|0.0001|TWO_SIDED|95.0|2.8566|3.8749|||T-test||Difference was calculated as HP - HD.|||3.8749|2.8566|<0.0001
92444883|NCT02121483|184775719|SUPERIORITY_OR_OTHER||Slope|0.949|STANDARD_ERROR_OF_MEAN|0.1075|||TWO_SIDED|95.0|0.7276|1.1704|||||Dose proportionality was assessed based on a power model that describes the functional relationship between the dose and AUC0-inf. Based on the estimate for the slope parameter β, a 2-sided 95% confidence interval (CI) for the slope was computed.|||1.1704|0.7276|
92444884|NCT02121483|184775720|SUPERIORITY_OR_OTHER||Slope|0.9597|STANDARD_ERROR_OF_MEAN|0.1088|||TWO_SIDED|95.0|0.7356|1.1838|||||Dose proportionality was assessed based on a power model that describes the functional relationship between the dose and AUC0-tz. Based on the estimate for the slope parameter β, a 2-sided 95% CI for the slope was computed.|||1.1838|0.7356|
92444885|NCT02121483|184775721|SUPERIORITY_OR_OTHER||Slope|0.8554|STANDARD_ERROR_OF_MEAN|0.1481|||TWO_SIDED|95.0|0.5504|1.1603|||||Dose proportionality was assessed based on a power model that describes the functional relationship between the dose and Cmax. Based on the estimate for the slope parameter β, a 2-sided 95% CI for the slope was computed.|||1.1603|0.5504|
92444886|NCT05583903|184775732|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92444887|NCT05583903|184775733|SUPERIORITY|||||||0.26|||||||Fisher Exact|||||||0.26
92444888|NCT05583903|184775734|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
92444889|NCT05583903|184775735|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
92444890|NCT05583903|184775736|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92444891|NCT05583903|184775737|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||||||0.21
92444892|NCT05583903|184775738|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.66
92444893|NCT05583903|184775739|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
92444894|NCT05583903|184775740|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||0.71
92171579|NCT03854578|184232194|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.07|STANDARD_ERROR_OF_MEAN|0.03||0.0359|TWO_SIDED|90.0|-0.13|-0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Right||-0.02|-0.13|0.0359
92444895|NCT05583903|184775741|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
92444896|NCT05583903|184775742|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
92444897|NCT05583903|184775743|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.23
92444898|NCT05583903|184775744|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
92444899|NCT05583903|184775745|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
92444900|NCT05583903|184775746|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
92444901|NCT01907828|184775780|OTHER|||||||0.22|||||||Log Rank|||Kaplan-Meier analysis performed to provide freedom from atrial fibrillation rates at one year for each randomization arm using date of ablation procedure to date of first event.||||0.22
92444902|NCT01907828|184775784|SUPERIORITY|||||||0.2766|||||||Paired Student's t-test|||||||0.2766
92444903|NCT01907828|184775785|SUPERIORITY|||||||0.7663|||||||Wilcoxon signed-rank test|||||||0.7663
92444904|NCT01907828|184775788|SUPERIORITY||Mean Difference (Final Values)|-5.86|STANDARD_DEVIATION|15.21||0.0849|TWO_SIDED|95.0|-12.61|0.88|||Paired Student's t-test|||Change in ASBP at 12 months||0.88|-12.61|0.0849
92444905|NCT01907828|184775788|SUPERIORITY||Mean Difference (Final Values)|-5.82|STANDARD_DEVIATION|7.45||0.0014|TWO_SIDED|95.0|-9.12|-2.52|||Paired Student's t-test|||Change in ADBP at 12 months||-2.52|-9.12|0.0014
92444906|NCT01907828|184775788|SUPERIORITY||Mean Difference (Final Values)|-3.07|STANDARD_DEVIATION|19.21||0.5599|TWO_SIDED|95.0|-14.16|8.02|||Paired Student's t-test|||Change in ASBP at 12 months.||8.02|-14.16|0.5599
92444907|NCT01907828|184775788|SUPERIORITY||Mean Difference (Final Values)|-8.43|STANDARD_DEVIATION|9.42||0.0052|TWO_SIDED|95.0|-13.87|-2.99|||Paired Student's t-test|||Change in ADBP at 12 months||-2.99|-13.87|0.0052
92444908|NCT01907828|184775789|SUPERIORITY||Mean Difference (Final Values)|-5.71|STANDARD_DEVIATION|14.84||0.1326|TWO_SIDED|95.0|-13.34|1.93|||Paired Student's t-test|||Change in ASBP at 24 months||1.93|-13.34|0.1326
92444909|NCT01907828|184775789|SUPERIORITY||Mean Difference (Final Values)|-6.94|STANDARD_DEVIATION|6.06||0.0002|TWO_SIDED|95.0|-10.06|-3.83|||Paired Student's t-test|||Change in ADBP at 24 months||-3.83|-10.06|0.0002
92444910|NCT01907828|184775789|SUPERIORITY||Mean Difference (Final Values)|-8.58|STANDARD_DEVIATION|12.41||0.0354|TWO_SIDED|95.0|-16.47|-0.7|||Paired Student's t-test|||Change in ASBP at 24 months||-0.70|-16.47|0.0354
92444911|NCT01907828|184775789|SUPERIORITY||Mean Difference (Final Values)|-10.33|STANDARD_DEVIATION|8.53||0.0015|TWO_SIDED|95.0|-15.75|-4.91|||Paired Student's t-test|||Change in ADBP at 24 months||-4.91|-15.75|0.0015
92444912|NCT01907828|184775790|SUPERIORITY||Mean Difference (Final Values)|2.6|STANDARD_DEVIATION|24.4||0.5399|TWO_SIDED|95.0|-6.0|11.3|||Paired Student's t-test|||Change in OSBP at 12 months.||11.3|-6.0|0.5399
92444913|NCT01907828|184775790|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|11.8||0.8489|TWO_SIDED|95.0|-4.6|3.8|||Paired Student's t-test|||Change in Office Diastolic Blood Pressure (ODBP) at 12 months||3.8|-4.6|0.8489
92444914|NCT01907828|184775790|SUPERIORITY|Change in Office Systolic Blood Pressure (OSBP) at 12 months.|Mean Difference (Final Values)|2.0|STANDARD_DEVIATION|30.0||0.7999|TWO_SIDED|95.0|-14.6|18.6|||Paired Student's t-test|||||18.6|-14.6|0.7999
92444915|NCT01907828|184775790|SUPERIORITY||Mean Difference (Final Values)|-5.4|STANDARD_DEVIATION|15.8||0.2076|TWO_SIDED|95.0|-14.2|3.4|||Paired Student's t-test|||Change in ODBP at 12 months||3.4|-14.2|0.2076
92444916|NCT01907828|184775791|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|22.3||0.882|TWO_SIDED|95.0|-7.9|9.1|||Paired Student's t-test|||Change in OSBP at 24 months||9.1|-7.9|0.8820
92444917|NCT01907828|184775791|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|11.0||0.8019|TWO_SIDED|95.0|-3.7|4.7|||Paired Student's t-test|||Change in ODBP at 24 months||4.7|-3.7|0.8019
92444918|NCT01907828|184775791|SUPERIORITY||Mean Difference (Final Values)|7.4|STANDARD_DEVIATION|22.9||0.2177|TWO_SIDED|95.0|-4.8|19.6|||Paired Student's t-test|||Change in OSBP at 24 months||19.6|-4.8|0.2177
92444919|NCT01907828|184775791|SUPERIORITY||Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|15.5||0.4502|TWO_SIDED|95.0|-11.2|5.2|||Paired Student's t-test|||Change in ODBP at 24 months||5.2|-11.2|0.4502
92444920|NCT01073865|184775792|NON_INFERIORITY_OR_EQUIVALENCE|The lower limit of the CI of the difference is greater than or equal to -17.5%. This non-inferiority margin was pre-defined in the study protocol.|Risk Difference (RD)|1.29|||||TWO_SIDED|95.0|-11.4|13.9|||||%PFS at 24 weeks for Zoladex 10.8mg - %PFS at 24 weeks for Zoladex 3.6mg|CI for the difference (10.8 mg-3.6 mg) in %PFS at 24 weeks calculated using the score method recommended by Newcombe et al||13.90|-11.40|
92280228|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0122|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Agitation: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.1|-0.5|0.0122
92444921|NCT01073865|184775793|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.02|||||TWO_SIDED|95.0|-15.47|9.67|||||ORR at 24 weeks for Zoladex 10.8mg - ORR at 24 weeks for Zoladex 3.6mg|CI for the difference (10.8 mg-3.6 mg) in ORR at 24 weeks calculated using the score method recommended by Newcombe et al||9.67|-15.47|
92444922|NCT00167934|184775808|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||< 0.0001
92444923|NCT00167934|184775809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED||||||ANCOVA|||||||0.04
92444924|NCT00680901|184775824|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.3492|TWO_SIDED|95.0|0.73|1.12||Stratified log-rank test was conducted stratifying for prior adjuvant/neo-adjuvant treatment use and region.|Log Rank||Pike estimator of HR was based on the stratified log rank test.|Primary Analysis: OS (PE population)||1.12|0.73|0.3492
92444925|NCT00680901|184775825|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.3244|TWO_SIDED|95.0|0.74|1.1||Stratified log-rank test was conducted stratifying for prior adjuvant/neo-adjuvant treatment use and region.|Log Rank||Pike estimator of HR was based on the stratified log rank test.|Primary Analysis: OS (ITT population)||1.10|0.74|0.3244
92444926|NCT00847288|184775841|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.5||||0.0043|TWO_SIDED|95.0|1.1|2.0||Cox proportional hazard model was fitted with the group effect and other key baseline variables. The p-value for the main group effect is 0.0043, with an estimated hazard ratio of 1.5, monthly vs quarterly.|Regression, Cox|||"Let TM and TQ denote the median survival time to initiation of clinical action in monthly and quarterly review groups respectively. Null Hypothesis (HO): The time to initiation of clinical action is not affected by review frequency (monthly versus quarterly): TM=TQ Alternative Hypothesis (HA): The time to initiation of clinical action is affected by review frequency (monthly versus quarterly): TM≠TQ~Cox proportional hazard model will be fitted to estimate the hazard ratio."||2.0|1.1|0.0043
92280229|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.3157|TWO_SIDED|95.0|-0.3|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Agitation: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.3|0.3157
92444927|NCT00847288|184775843|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.0001|TWO_SIDED|95.0|1.2|1.74|||logistic GEE for repeated observations|||The probability of action taken in three months interval is evaluated using the generalized estimating equations (GEE) method under a logistic regression model. Univariate analysis is performed first for potential predictors and only those with a p-value less than 0.10 through univariate analysis are included in the multivariate model. Here we report the odds ratio of monthly arm against quarterly arm, adjusting for OptiVol crossing, new or chronic device, and AF or no AF.||1.74|1.20|0.0001
92444928|NCT02120794|184775847|NON_INFERIORITY|non-inferiority test with an A1C margin of 0.4% and a significance level of 0.025 (one-sided).|Mean Difference (Net)|0.26|||||TWO_SIDED|95.0|0.125|0.395||||||||0.395|0.125|
92444929|NCT00500370|184775917|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||<0.0001
92444930|NCT00500370|184775918|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||<0.0001
92444931|NCT00500370|184775919|SUPERIORITY_OR_OTHER|||||||0.6766||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.6766
92444932|NCT00500370|184775920|SUPERIORITY_OR_OTHER|||||||0.0393||95.0|||||Cochran-Mantel-Haenszel|||||||0.0393
92444933|NCT00500370|184775921|SUPERIORITY_OR_OTHER|||||||0.1808||95.0|||||ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.1808
92444934|NCT00500370|184775922|SUPERIORITY_OR_OTHER|||||||0.1204||95.0|||||ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.1204
92444935|NCT00500370|184775923|SUPERIORITY_OR_OTHER|||||||0.6651||95.0|||||ANCOVA|||||||0.6651
92444936|NCT00500370|184775924|SUPERIORITY_OR_OTHER|||||||0.1204||95.0|||||ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.1204
92444937|NCT00500370|184775925|SUPERIORITY_OR_OTHER|||||||0.8479||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.8479
92444938|NCT00500370|184775926|SUPERIORITY_OR_OTHER|||||||0.2151||95.0|||||ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.2151
92444939|NCT00500370|184775927|SUPERIORITY_OR_OTHER|||||||0.7619||95.0|||||ANCOVA|||||||0.7619
92444940|NCT00500370|184775928|SUPERIORITY_OR_OTHER|||||||0.8973||95.0|||||ANCOVA|||||||0.8973
92444941|NCT00500370|184775929|SUPERIORITY_OR_OTHER|||||||0.6507||95.0|||||Cochran-Mantel-Haenszel|||||||0.6507
92444942|NCT00500370|184775930|SUPERIORITY_OR_OTHER|||||||0.2593||95.0|||||Cochran-Mantel-Haenszel|||||||0.2593
92444943|NCT00500370|184775931|SUPERIORITY_OR_OTHER|||||||0.2919||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.2919
92239171|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.112||||0.0247|TWO_SIDED|95.0|1.014|1.219|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.219|1.014|0.0247
92239172|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.844||||0.0258|TWO_SIDED|95.0|1.077|3.158|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.158|1.077|0.0258
92239173|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.0009|TWO_SIDED|95.0|1.232|2.235|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.235|1.232|0.0009
92280230|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.11||0.0077|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Agitation: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.5|0.0077
92444944|NCT00500370|184775932|SUPERIORITY_OR_OTHER|||||||0.0293||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.0293
92444945|NCT02586012|184775945|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92444946|NCT02586012|184775946|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92444947|NCT02586012|184775947|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92444948|NCT02453113|184775948|SUPERIORITY||||||||||||||||||The statistical end point of the study will be the changes in density of CD11c+ dermal dendritic cells between two biopsies from a study subject where one sample is subjected to laser irradiation and the other is the control. For assessment of statistical significance, we will apply a paired sample t-test.|||
92444949|NCT01888497|184776022|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|13.82|||<|0.001|TWO_SIDED|95.0|10.85|17.4||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For primary endpoint sequential order of testing: triazolam versus (vs) placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||17.40|10.85|<0.001
92444950|NCT01888497|184776022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For gabapentin versus placebo comparison, the non-inferiority margin for upper limit of 95 percent (%) confidence interval (CI) was 2.4 cm.|Hodges-Lehman estimate|0.55|||||TWO_SIDED|95.0|-0.66|2.33|||||Hodges-Lehman estimate of treatment difference was reported.|For primary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||2.33|-0.66|
92444951|NCT01888497|184776022|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|1.02||||0.134|TWO_SIDED|95.0|-0.39|2.51||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For primary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||2.51|-0.39|0.134
92239174|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.255||||0.0045|TWO_SIDED|95.0|1.073|1.467|||Regression, Logistic|||The statistical analysis is presented for weight per 10 kg. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.467|1.073|0.0045
92239175|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.086||||0.0001|TWO_SIDED|95.0|1.434|3.034|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.034|1.434|0.0001
92239176|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.318||||0.001|TWO_SIDED|95.0|0.16|0.63|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.630|0.160|0.0010
92239177|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.275||||0.0021|TWO_SIDED|95.0|0.121|0.626|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.626|0.121|0.0021
92444952|NCT01888497|184776022|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|2.37|||<|0.001|TWO_SIDED|95.0|1.01|3.98||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For primary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||3.98|1.01|<0.001
92444953|NCT01888497|184776023|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|0.36|||<|0.001|TWO_SIDED|95.0|0.26|0.47||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||0.47|0.26|<0.001
92444954|NCT01888497|184776023|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For gabapentin versus placebo comparison, the non-inferiority margin for upper limit of 95% CI was 0.1 m/sec.|Hodges-Lehman estimate|-0.01|||||TWO_SIDED|95.0|-0.07|0.05|||||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||0.05|-0.07|
92444955|NCT01888497|184776023|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|0.07||||0.012|TWO_SIDED|95.0|0.02|0.12||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||0.12|0.02|0.012
92444956|NCT01888497|184776023|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|0.06||||0.014|TWO_SIDED|95.0|0.01|0.12||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||0.12|0.01|0.014
92444957|NCT01888497|184776024|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|103.25|||<|0.001|TWO_SIDED|95.0|72.0|130.5||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||130.50|72.00|<0.001
92444958|NCT01888497|184776024|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For gabapentin versus placebo comparison, the non-inferiority margin for upper limit of 95% CI was 8 lanes.|Hodges-Lehman estimate|5.0|||||TWO_SIDED|95.0|-4.0|16.5|||||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||16.50|-4.00|
92444959|NCT01888497|184776024|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|3.0||||0.213|TWO_SIDED|95.0|-3.0|9.0||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||9.00|-3.00|0.213
92444960|NCT01888497|184776024|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|11.0||||0.003|TWO_SIDED|95.0|4.0|20.5||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||20.50|4.00|0.003
92171580|NCT03854578|184232194|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.13|STANDARD_ERROR_OF_MEAN|0.04||0.0022|TWO_SIDED|90.0|-0.19|-0.06|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Left||-0.06|-0.19|0.0022
92444961|NCT04013191|184776029|OTHER||Point Estimate|0.928|||||TWO_SIDED|90.0|0.725|1.19|||ANOVA|||The analysis of variance (ANOVA) model included the fixed effects of age group. The natural logs were taken of the dependent variables and back-transformed after the analysis.||1.19|0.725|
92444962|NCT04013191|184776030|OTHER||Point Estimate|1.22|||||TWO_SIDED|90.0|0.894|1.67|||ANOVA|||The ANOVA model included the fixed effects of age group. The natural logs were taken of the dependent variables and back-transformed after the analysis.||1.67|0.894|
92444963|NCT04013191|184776031|OTHER||Point Estimate|1.22|||||TWO_SIDED|90.0|0.893|1.68|||ANOVA|||The ANOVA model included the fixed effects of age group. The natural logs were taken of the dependent variables and back-transformed after the analysis.||1.68|0.893|
92444964|NCT04013191|184776032|OTHER||Point Estimate|1.02|||||TWO_SIDED|90.0|0.829|1.26|||ANOVA|||The ANOVA model included the fixed effects of age group. The natural logs were taken of the dependent variables and back-transformed after the analysis.||1.26|0.829|
92444965|NCT04013191|184776033|OTHER||Point Estimate|1.18|||||TWO_SIDED|90.0|0.908|1.53|||ANOVA|||The ANOVA model included the fixed effects of age group. The natural logs were taken of the dependent variables and back-transformed after the analysis.||1.53|0.908|
92444966|NCT01904604|184776046|SUPERIORITY_OR_OTHER||Risk Difference (RD)|33.8||||0.005|TWO_SIDED|33.8|10.2|57.5||A one-sided test was used with the a priori threshold for statistical significance of 0.0125. No adjustments were made to the p-value.|Barnard's statistic|||The null hypothesis was that there was no difference between treatment groups. Subjects who did not complete the Week 52 oral food challenge were counted as treatment failures.||57.5|10.2|0.005
92444967|NCT01904604|184776046|SUPERIORITY_OR_OTHER||Risk Difference (RD)|36.0||||0.003|TWO_SIDED|36.0|12.6|59.4||A one-sided test was used with the a priori threshold for statistical significance of 0.0125. No adjustments were made to the p-value.|Barnard's statistic|||The null hypothesis was that there was no difference between treatment groups. Subjects who did not complete the Week 52 oral food challenge were counted as treatment failures.||59.4|12.6|0.003
92444968|NCT01904604|184776046|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.2||||0.48|TWO_SIDED|2.2|-25.8|30.1||A one-sided test was used with the a priori threshold for statistical significance of 0.0125. No adjustments were made to the p-value.|Barnard's statistic|||||30.1|-25.8|0.48
92444969|NCT01904604|184776050|SUPERIORITY_OR_OTHER|||||||0.8||||||No adjustments were made to the p-value.|Wilcoxon (Mann-Whitney)|The two-sided t approximation was used.||The null hypothesis was that there was no difference between treatment groups.||||0.80
92280231|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.16||0.0078|TWO_SIDED|95.0|-0.8|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Psychic: Change From Baseline in HAM-D Individual Item Score at Day 3||-0.1|-0.8|0.0078
92171581|NCT03854578|184232194|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.104|TWO_SIDED|90.0|-0.15|0.0|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Right||0.00|-0.15|0.1040
92444970|NCT01904604|184776050|SUPERIORITY_OR_OTHER|||||||0.008||||||No adjustments were made to the p-value.|Wilcoxon (Mann-Whitney)|The two-sided t approximation was used.||The null hypothesis was that there was no difference between treatment groups.||||0.008
92444971|NCT01904604|184776050|SUPERIORITY_OR_OTHER|||||||0.01||||||No adjustments were made to the p-value.|Wilcoxon (Mann-Whitney)|The two-sided t approximation was used.||The null hypothesis was that there was no difference between treatment groups.||||0.01
92444972|NCT05124665|184776054|EQUIVALENCE|Hypothesis is that proportion of contacts accepting HIV testing between two study arms is equivalent.|Odds Ratio (OR)|4.6||||0.004|TWO_SIDED|95.0|1.6|12.9|||Mixed Models Analysis|Cluster adjusted for household.||||12.9|1.6|0.004
92444973|NCT05124665|184776054|EQUIVALENCE|Hypothesis is proportion of contacts accepting HIV testing is equivalent between the two study arms|Mean Difference (Net)|6.0||||0.006|TWO_SIDED|95.0|2.0|10.0|||t-test, 2 sided||Estimated value and confidence interval reflects the values multiplied by 100 (converting decimal to percentage).|||10|2|0.006
92444974|NCT05124665|184776055|EQUIVALENCE|Hypothesis is that the change in stigma score is equivalent between the two study arms.|Slope|2.2||||0.358|TWO_SIDED|95.0|-2.5|6.9|||Mixed Models Analysis|||Van Rie Perceived TB and HIV Stigma scales adapted and validated in the Ugandan context are used. Scores range from 0 to 100 (standardized scale)||6.9|-2.5|0.358
92444975|NCT05124665|184776056|EQUIVALENCE|Hypothesis is that the difference in stigma score is equivalent between the two study arms|Slope|2.61||||0.199|TWO_SIDED|95.0|-1.38|6.59|||Mixed Models Analysis|||||6.59|-1.38|0.199
92444976|NCT05124665|184776057|EQUIVALENCE|Hypothesis is no effect from perceived HIV Stigma on HIV Test Uptake|Coefficient from Structural Equation|0.00087||||0.03|TWO_SIDED|95.0|0.00007|0.00167|||Structural Equation Modeling|||||0.00167|0.00007|0.03
92444977|NCT05124665|184776058|EQUIVALENCE|Hypothesis is that TB stigma has no effect of HIV test uptake|Coefficient Structural Equation Model|0.0002||||0.64|TWO_SIDED|95.0|-0.0007|0.0011|||Structural Equation Modeling|||||0.0011|-0.0007|0.64
92444978|NCT05124665|184776059|EQUIVALENCE|Hypothesis is that proportion of index patient nominated household contacts accepting HIV testing is equivalent between two study arms||||||0.452|||||||Chi-squared|||||||0.452
92239178|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.962||||0.0064|TWO_SIDED|95.0|0.935|0.989|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.989|0.935|0.0064
92239179|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.391|||<|0.0001|TWO_SIDED|95.0|1.245|1.553|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.553|1.245|<0.0001
92280232|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0372|TWO_SIDED|95.0|-0.7|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Psychic: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.7|0.0372
92444979|NCT05124665|184776060|NON_INFERIORITY|Hypothesis is that the first tester's decision to test does not impact subsequent household contacts decision to test for HIV.|Risk Ratio (RR)|1.23||||0.264|TWO_SIDED|95.0|0.86|1.76|||Regression, Logistic|||||1.76|0.86|0.264
92444980|NCT05124665|184776061|EQUIVALENCE|Hypothesis is that the index patient and contact nominations will match equally regardless of study arm.|||||<|0.001|||||||Chi-squared|||||||<0.001
92444981|NCT04144166|184776072|OTHER||||||||||||||See above|||"Mean value for visual CRT and median value for device CRI were calculated for each participant. 3 values were measured (each) for CRT and CRI. Mean value is equal to SUM(m1,m2,m3)/3.~Median value was then calculated for the set (57) of calculated mean visual CRT and mean device CRI. Median value is equal to the middle value of the series of mean values. All measurements are in units of seconds."|See above|||
92444982|NCT01481116|184776083|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.13|||<|0.001|TWO_SIDED|95.0|0.09|0.18||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Regression, Logistic|||Day 1 up to Week 78: Odds Ratios, corresponding confidence interval, and p-values were calculated using logistic regression with factors for treatment, country, schedule and baseline HbA1c value.||0.18|0.09|<0.001
92444983|NCT01481116|184776083|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.13|||<|0.001|TWO_SIDED|95.0|0.09|0.18||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Regression, Logistic|||Day 1 up to Week 78: Odds Ratios, corresponding confidence interval, and p-values were calculated using logistic regression with factors for treatment, country, schedule and baseline HbA1c value.||0.18|0.09|<0.001
92444984|NCT01481116|184776083|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.13|||<|0.001|TWO_SIDED|95.0|0.09|0.18||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Regression, Logistic|||Day 1 up to Week 104: Odds Ratios, corresponding confidence interval, and p-values were calculated using logistic regression with factors for treatment, country, schedule and baseline HbA1c value.||0.18|0.09|<0.001
92446814|NCT00280566|184780546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|1.47||0.5627|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.5627
92446815|NCT00280566|184780546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|1.1||0.741|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.7410
92239180|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.295||||0.0029|TWO_SIDED|95.0|1.092|1.535|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.535|1.092|0.0029
92239181|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.109|||<|0.0001|TWO_SIDED|95.0|0.05|0.236|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (RVR vs no RVR/EVR). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.236|0.050|<0.0001
92239182|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||0.0014|TWO_SIDED|95.0|0.159|0.645|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs no RVR/EVR). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.645|0.159|0.0014
92444985|NCT01481116|184776083|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.13|||<|0.001|TWO_SIDED|95.0|0.09|0.18||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Regression, Logistic|||Day 1 up to Week 104: Odds Ratios, corresponding confidence interval, and p-values were calculated using logistic regression with factors for treatment, country, schedule and baseline HbA1c value.||0.18|0.09|<0.001
92444986|NCT01481116|184776084|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.707||0.065|TWO_SIDED|95.0|-2.7|0.08||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Mixed Model Repeated Measures|Treatment, schedule and visit-by-treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates.||Change at Week 78||0.08|-2.70|0.065
92444987|NCT01481116|184776084|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.678||0.034|TWO_SIDED|95.0|-2.78|-0.11||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Mixed Model Repeated Measures|Treatment, schedule and visit-by-treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates.||Change at Week 78||-0.11|-2.78|0.034
92444988|NCT04609020|184776244|SUPERIORITY||Mean Difference (Final Values)|46.6|STANDARD_DEVIATION|23.61|<|0.0001|ONE_SIDED|97.5|40.58|||P-value is calculated based on 1-sided t-test or Wilcoxon signed-rank test (if the normality assumption is not met) at 0.025 significance level.|t-test, 1 sided||||||40.58|<0.0001
92444989|NCT04609020|184776245|SUPERIORITY||Mean Difference (Final Values)|35.3|STANDARD_DEVIATION|22.36|<|0.0001|ONE_SIDED|97.5|29.61|||P-value is calculated based on 1-sided t-test or Wilcoxon signed-rank test (if the normality assumption is not met) at 0.025 significance level.|t-test, 1 sided||||||29.61|<0.0001
92444990|NCT04609020|184776246|SUPERIORITY||Mean Difference (Final Values)|27.6|STANDARD_DEVIATION|23.23|<|0.0001|ONE_SIDED|97.5|21.5|||P-value is calculated based on 1-sided t-test or Wilcoxon signed-rank test (if the normality assumption is not met) at 0.025 significance level.|t-test, 1 sided||||||21.50|<0.0001
92444991|NCT04609020|184776247|SUPERIORITY||Mean Difference (Final Values)|22.9|STANDARD_DEVIATION|20.56|<|0.0001|ONE_SIDED|97.5|17.65|||P-value is calculated based on 1-sided t-test or Wilcoxon signed-rank test (if the normality assumption is not met) at 0.025 significance level.|t-test, 1 sided||||||17.65|<0.0001
92444992|NCT04609020|184776248|SUPERIORITY||Mean Difference (Final Values)|43.1|STANDARD_DEVIATION|22.25|<|0.0001|ONE_SIDED|97.5|37.48|||P-value is calculated based on 1-sided t-test or Wilcoxon signed-rank test (if the normality assumption is not met) at 0.025 significance level.|t-test, 1 sided||||||37.48|<0.0001
92444993|NCT02107599|184776253|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Asymptotic Z-test|||||||0.0001
92444994|NCT02107599|184776254|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Monte Carlo test|||Evaluate whether the VisQ interpretation significantly improves the reliability of Amyvid Scan interpretation.||||0.0060
92444995|NCT02107599|184776254|SUPERIORITY_OR_OTHER|||||||0.1229|TWO_SIDED||||||Monte Carlo test|||Evaluate whether the VisQ interpretation significantly improves the reliability of Amyvid Scan interpretation.||||0.1229
92444996|NCT02107599|184776254|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||Monte Carlo test|||Evaluate whether the VisQ interpretation significantly improves the reliability of Amyvid Scan interpretation.||||0.0260
92444997|NCT02462967|184776284|SUPERIORITY|||||||1|||||||ANCOVA|||||||1.000
92444998|NCT02462967|184776284|SUPERIORITY|||||||1|||||||ANCOVA|||||||1.000
92444999|NCT02462967|184776285|SUPERIORITY|||||||0.447|||||||ANCOVA|||||||0.447
92445000|NCT02462967|184776285|SUPERIORITY|||||||0.921|||||||ANCOVA|||||||0.921
92445001|NCT02462967|184776286|SUPERIORITY|||||||0.522|||||||ANCOVA|||||||0.522
92445002|NCT02462967|184776286|SUPERIORITY|||||||1|||||||ANCOVA|||||||1.000
92445003|NCT02462967|184776287|SUPERIORITY|||||||0.943|||||||ANCOVA|||||||0.943
92445004|NCT02462967|184776287|SUPERIORITY|||||||0.492|||||||ANCOVA|||||||0.492
92445005|NCT02462967|184776288|SUPERIORITY|||||||0.832|||||||ANCOVA|||||||0.832
92445006|NCT02462967|184776288|SUPERIORITY|||||||0.558|||||||ANCOVA|||||||0.558
92445007|NCT02462967|184776289|SUPERIORITY|||||||0.362|||||||ANCOVA|||||||0.362
92445008|NCT02462967|184776289|SUPERIORITY|||||||0.602|||||||ANCOVA|||||||0.602
92445009|NCT02462967|184776290|SUPERIORITY|||||||0.633|||||||Chi-squared|||||||0.633
92445010|NCT02462967|184776290|SUPERIORITY|||||||0.814|||||||Chi-squared|||||||0.814
92445011|NCT02272413|184776292|EQUIVALENCE|The null hypothesis was to be rejected in favor of equivalence if the 2-sided 90% confidence interval (CI) for the ratio in best ORR between the treatments was entirely contained within the equivalence margins of 0.736 to 1.359.|Ratio of best ORR|0.855|||||TWO_SIDED|90.0|0.7697|0.9506|||Log-binomial regression|||Analysis was based on a log-binomial regression model with subsequent transformation of the estimated parameter (ratio of best ORR) respective CIs to the ratio scale. The model included the following explanatory variables: treatment, sex (male versus female), smoking status (never smoked versus current/ex-smoker), NSCLC stage (recurrent versus Stage IV) and ethnicity (East Asian origin versus Non-East Asian).||0.9506|0.7697|
92446816|NCT00280566|184780546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.88||0.9632|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.9632
92240093|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9807|TWO_SIDED|95.0|-1.2|1.17||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total High Density Lipoprotein (HDL) Particles||1.17|-1.20|0.9807
92240094|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.8615|TWO_SIDED|95.0|-1.23|1.03||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total High Density Lipoprotein (HDL) Particles||1.03|-1.23|0.8615
92445012|NCT02272413|184776292|EQUIVALENCE|Additional analysis of the primary endpoint was performed for Japan according to a local protocol amendment Japan. For the submission in Japan, to conclude on equivalence, the 2-sided 95% CI for the ratio of best ORR between the treatments had to be entirely contained within the equivalence margins of 0.736 to 1.359.|Ratio of best ORR|0.855|||||TWO_SIDED|95.0|0.7543|0.97|||Log-binomial regression|||Analysis was based on a log-binomial regression model with subsequent transformation of the estimated parameter (ratio of best ORR) respective CIs to the ratio scale. The model included the following explanatory variables: treatment, sex (male versus female), smoking status (never smoked versus current/ex-smoker), NSCLC stage (recurrent versus Stage IV) and ethnicity (East Asian origin versus Non-East Asian).||0.9700|0.7543|
92445013|NCT02272413|184776293|OTHER||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.99|1.37|||Score exact method|||At least 1 AE selected for comparability assessment, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||1.37|0.99|
92239183|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.248||||0.539|TWO_SIDED|95.0|0.616|2.528|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs no RVR/EVR). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.528|0.616|0.5390
92445014|NCT02272413|184776293|OTHER||Risk Ratio (RR)|1.28|||||TWO_SIDED|95.0|0.88|1.88|||Score exact method|||Infusion reactions, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||1.88|0.88|
92445015|NCT02272413|184776293|OTHER||Risk Ratio|1.2|||||TWO_SIDED|95.0|0.64|2.32|||Score exact method|||Thromboembolic events, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||2.32|0.64|
92445016|NCT02272413|184776293|OTHER||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.51|2.76|||Score exact method|||Febrile neutropenia, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||2.76|0.51|
92445017|NCT02272413|184776293|OTHER||Risk Ratio (RR)|3.43|||||TWO_SIDED|95.0|0.79|32.82|||Score exact method|||Gastrointestinal perforations, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||32.82|0.79|
92445018|NCT02272413|184776293|OTHER||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.66|1.39|||Score exact method|||Hypertension, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||1.39|0.66|
92239184|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.604||||0.0223|TWO_SIDED|95.0|1.069|2.405|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.405|1.069|0.0223
92240095|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.0364|TWO_SIDED|95.0|0.04|1.14||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large HDL Particles||1.14|0.04|0.0364
92240096|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56||||0.034|TWO_SIDED|95.0|0.04|1.08||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large HDL Particles||1.08|0.04|0.0340
92240097|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.6587|TWO_SIDED|95.0|-0.68|1.07||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium HDL Particles||1.07|-0.68|0.6587
92240098|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.6554|TWO_SIDED|95.0|-0.63|1.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium HDL Particles||1.00|-0.63|0.6554
92445019|NCT02272413|184776293|OTHER||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.74|1.57|||Score exact method|||Proteinuria, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||1.57|0.74|
92445020|NCT02272413|184776293|OTHER||Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.28|10.79|||Score exact method|||Pulmonary haemorrhage, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||10.79|0.28|
92445021|NCT02272413|184776293|OTHER||Risk Ratio (RR)|1.24|||||TWO_SIDED|95.0|0.88|1.74|||Score exact method|||Other hemorrhages, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||1.74|0.88|
92445022|NCT02272413|184776293|OTHER||Risk Ratio (RR)|1.26|||||TWO_SIDED|95.0|0.47|3.57|||Score excat method|||Wound healing complications/ abscesses/ fistulas, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||3.57|0.47|
92445023|NCT02272413|184776294|OTHER||Hazard Ratio (HR)|1.22|||||TWO_SIDED|95.0|1.02|1.45|||Cox-proportional hazards regression|||Analysis based on a Cox-proportional hazards regression model. The model included the following explanatory variables: treatment, sex (male versus female), smoking status (never smoked versus current/ex-smoker), NSCLC stage (recurrent versus Stage IV) and ethnicity (East Asian origin versus non East Asian).||1.45|1.02|
92445024|NCT02272413|184776295|OTHER||Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|1.0|1.51|||Cox-proportional hazards regression|||Analysis based on a Cox-proportional hazards regression model. The model included the following explanatory variables: treatment, sex (male versus female), smoking status (never smoked versus current/ex-smoker), NSCLC stage (recurrent versus Stage IV) and ethnicity (East Asian origin versus non East Asian).||1.51|1.00|
92445025|NCT02272413|184776296|OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.88|1.48|||Cox-proportional hazards regression|||Analysis based on a Cox-proportional hazards regression model. The model included the following explanatory variables: treatment, sex (male versus female), smoking status (never smoked versus current/ex-smoker), NSCLC stage (recurrent versus Stage IV) and ethnicity (East Asian origin versus non East Asian).||1.48|0.88|
92445026|NCT02872116|184776298|SUPERIORITY||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|98.4|0.59|0.86|||Log Rank|||||0.86|0.59|<0.0001
92445027|NCT02872116|184776299|SUPERIORITY||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|98.0|0.56|0.81|||Log Rank|||||0.81|0.56|<0.0001
92445028|NCT03552575|184776307|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.19|TWO_SIDED|95.0|-4.8|1.0|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, use of diuretics at baseline and time from randomization to cardiac MRI||||1.0|-4.8|0.19
92445029|NCT03552575|184776308|SUPERIORITY||Ratio of adjusted geometric means|0.85||||0.31|TWO_SIDED|95.0|0.63|1.16|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, and use of diuretics at baseline||||1.16|0.63|0.31
92239185|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.444||||0.0056|TWO_SIDED|95.0|1.547|12.766|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||12.766|1.547|0.0056
92445030|NCT03552575|184776309|SUPERIORITY||Ratio of adjusted geometric means|0.87||||0.41|TWO_SIDED|95.0|0.62|1.22|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, and use of diuretics at baseline||||1.22|0.62|0.41
92239186|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.403||||0.0267|TWO_SIDED|95.0|1.04|1.892|||Regression, Logistic|||The statistical analysis is presented for weight per 10 kg. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.892|1.040|0.0267
92445031|NCT03552575|184776310|SUPERIORITY||Mean Difference (Final Values)|-3.1||||0.1|TWO_SIDED|95.0|-6.8|0.6|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, use of diuretics at baseline and time from randomization to cardiac MRI||||0.6|-6.8|0.10
92445032|NCT03552575|184776311|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.29|TWO_SIDED|95.0|-6.6|2.0|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, use of diuretics at baseline and time from randomization to cardiac MRI||||2.0|-6.6|0.29
92280233|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0244|TWO_SIDED|95.0|-0.7|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Psychic: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.1|-0.7|0.0244
92445033|NCT03552575|184776312|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.46|TWO_SIDED|95.0|-2.0|0.9|||Regression, Linear|adjusted for randomized treatment, baseline value of the outcome, use of diuretics at baseline and time from randomization to cardiac MRI||||0.9|-2.0|0.46
92445034|NCT03552575|184776313|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.16|TWO_SIDED|95.0|-3.5|0.6|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, use of diuretics at baseline and time from randomization to cardiac MRI||||0.6|-3.5|0.16
92445035|NCT03552575|184776314|SUPERIORITY|||||||0.56|||||||Fisher Exact|||||||0.56
92445036|NCT01052545|184776316|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Descriptive statistics were used to estimate the incidence rates per 1,000 bed-days and 95% confidence intervals (CI) for urine cultures ordered, ASB overtreatment and CAUTI under-treatment in each study period.|Regression, Logistic|to test whether there was a significant difference in monthly urine cultures ordered between the two study sites over time.||||||<0.05
92445037|NCT01052545|184776322|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||We used χ2 test, Fisher's exact test and one-way ANOVA to determine if patient-level covariates differed between the baseline, intervention and maintenance periods at each study site.|Regression, Logistic|||||||<0.05
92445038|NCT03792672|184776323|SUPERIORITY||Least square mean (LSM) difference|115.0|STANDARD_ERROR_OF_MEAN|144.0||0.4278|TWO_SIDED|90.0|-128.0|359.0||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||||359|-128|0.4278
92445039|NCT03792672|184776323|SUPERIORITY||LSM difference|338.0|STANDARD_ERROR_OF_MEAN|147.0||0.0269|TWO_SIDED|90.0|90.5|585.0||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||||585|90.5|0.0269
92445040|NCT03792672|184776324|SUPERIORITY||LSM difference|-0.388|STANDARD_ERROR_OF_MEAN|0.582||0.5089|TWO_SIDED|90.0|-1.37|0.595||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||||0.595|-1.37|0.5089
92445041|NCT03792672|184776324|SUPERIORITY||LSM difference|-0.209|STANDARD_ERROR_OF_MEAN|0.581||0.7208|TWO_SIDED|90.0|-1.19|0.773||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||||0.773|-1.19|0.7208
92445042|NCT03792672|184776325|SUPERIORITY||LSM difference|14.0|STANDARD_ERROR_OF_MEAN|17.1||0.4174|TWO_SIDED|90.0|-14.8|42.8||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 50 ms peak-to-peak amplitude||42.8|-14.8|0.4174
92445043|NCT03792672|184776325|SUPERIORITY||LSM difference|15.1|STANDARD_ERROR_OF_MEAN|17.1||0.3832|TWO_SIDED|90.0|-25.3|31.5||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 50 ms peak-to-peak amplitude||31.5|-25.3|0.3832
92445044|NCT03792672|184776325|SUPERIORITY||LSM difference|-0.326|STANDARD_ERROR_OF_MEAN|4.09||0.9368|TWO_SIDED|90.0|-7.23|6.58||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 100 ms peak-to-peak amplitude||6.58|-7.23|0.9368
92280234|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0993|TWO_SIDED|95.0|-0.6|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Psychic: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.6|0.0993
92445045|NCT03792672|184776325|SUPERIORITY||LSM difference|3.71|STANDARD_ERROR_OF_MEAN|4.16||0.379|TWO_SIDED|90.0|-3.32|10.7||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 100 ms peak-to-peak amplitude||10.7|-3.32|0.3790
92445046|NCT03792672|184776325|SUPERIORITY||LSM difference|7.36|STANDARD_ERROR_OF_MEAN|6.41||0.258|TWO_SIDED|90.0|-3.44|18.2||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 200 ms peak-to-peak amplitude||18.2|-3.44|0.2580
92445047|NCT03792672|184776325|SUPERIORITY||LSM difference|9.36|STANDARD_ERROR_OF_MEAN|6.41||0.1524|TWO_SIDED|90.0|-1.45|20.2|||Mixed Models Analysis|||LICI 200 ms peak-to-peak amplitude||20.2|-1.45|0.1524
92445048|NCT03792672|184776325|SUPERIORITY||LSM difference|17.2|STANDARD_ERROR_OF_MEAN|7.21||0.022|TWO_SIDED|90.0|5.06|29.4||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 300 ms peak-to-peak amplitude||29.4|5.06|0.0220
92240099|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.1957|TWO_SIDED|95.0|-2.06|0.42||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small HDL Particles||0.42|-2.06|0.1957
92445049|NCT03792672|184776325|SUPERIORITY||LSM difference|9.58|STANDARD_ERROR_OF_MEAN|7.23||0.1927|TWO_SIDED|90.0|-2.59|21.8||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 300 ms peak-to-peak amplitude||21.8|-2.59|0.1927
92445050|NCT03792672|184776326|SUPERIORITY||LSM difference|-5.65|STANDARD_ERROR_OF_MEAN|9.59||0.559|TWO_SIDED|90.0|-21.8|10.5||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||SICI 2 ms peak-to-peak amplitude||10.5|-21.8|0.5590
92445051|NCT03792672|184776326|SUPERIORITY||LSM difference|-16.1|STANDARD_ERROR_OF_MEAN|9.72||0.1049|TWO_SIDED|90.0|-32.5|0.242|||Mixed Models Analysis|||SICI 2 ms peak-to-peak amplitude||0.242|-32.5|0.1049
92445052|NCT03792672|184776326|SUPERIORITY||LSM difference|-16.7|STANDARD_ERROR_OF_MEAN|13.5||0.2238|TWO_SIDED|90.0|-39.4|6.06||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||SICI 5 ms peak-to-peak amplitude||6.06|-39.4|0.2238
92445053|NCT03792672|184776326|SUPERIORITY||LSM difference|-18.3|STANDARD_ERROR_OF_MEAN|13.6||0.1847|TWO_SIDED|90.0|-41.3|4.56|||Mixed Models Analysis|||SICI 5 ms peak-to-peak amplitude||4.56|-41.3|0.1847
92445054|NCT00453999|184776329|SUPERIORITY_OR_OTHER|||||||0.306|TWO_SIDED||||||Log Rank|Differences between groups by log-rank statistic stratified by oxygen saturation and duration of illness at randomization, and flu season.||||||0.306
92445055|NCT00453999|184776330|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Sore Throat: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
92445056|NCT00453999|184776330|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Nasal Congestion: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
92445057|NCT00453999|184776330|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Cough: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
92445058|NCT00453999|184776330|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Aches and Pains: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
92445059|NCT00453999|184776330|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Fatigue: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
92445060|NCT00453999|184776330|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Headache: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
92445061|NCT00453999|184776330|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Feeling Feverish: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
92445062|NCT00453999|184776331|SUPERIORITY_OR_OTHER|||||||0.276|TWO_SIDED||||||Log Rank|||||||0.276
92445063|NCT00453999|184776333|SUPERIORITY_OR_OTHER|||||||0.994|TWO_SIDED||||||Log Rank|||||||0.994
92445064|NCT00453999|184776334|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 12 hours||||>0.05
92445065|NCT00453999|184776334|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 24 hours||||>0.05
92445066|NCT00453999|184776334|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 36 hours||||>0.05
92445067|NCT00453999|184776334|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 48 hours||||>0.05
92445068|NCT00453999|184776334|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 72 hours||||>0.05
92445069|NCT00453999|184776334|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 96 hours||||>0.05
92445070|NCT04414553|184776347|SUPERIORITY|||||||0.29||||||Threshold for statistical significance was \<0.05|t-test, 2 sided|||This compares pre/post data.||||0.29
92445071|NCT04414553|184776348|SUPERIORITY|||||||0.35|||||||Chi-squared|||||||0.35
92445072|NCT04414553|184776349|SUPERIORITY|||||||0.21|||||||Chi-squared|||||||0.21
92445073|NCT04414553|184776350|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||||||0.018
92445074|NCT04414553|184776351|SUPERIORITY|||||||0.062|||||||t-test, 2 sided|||||||0.062
92445075|NCT01874262|184776375|SUPERIORITY_OR_OTHER|||||||0.025|||||||Wilcoxon (Mann-Whitney)|||||||0.025
92445076|NCT03778931|184776385|OTHER||Hazard Ratio (HR)|0.546||||0.0005|TWO_SIDED|95.0|0.387|0.768|||Log Rank|The p-value was generated by using a two-sided stratified log-rank test.||The analysis was performed using a stratified Cox Proportional Hazards model with ties=Efron and the stratification factors: prior treatment with fulvestrant (yes vs no) and presence of visceral metastases (yes vs no); the CI calculated using a profile likelihood approach.||0.768|0.387|0.0005
92445077|NCT03778931|184776386|OTHER||Hazard Ratio (HR)|0.697||||0.0018|TWO_SIDED|95.0|0.552|0.88|||Log Rank|The p-value was generated by using a two-sided stratified log-rank test.||The analysis was performed using a stratified Cox Proportional Hazards model with ties=Efron and the stratification factors: prior treatment with fulvestrant (yes vs no) and presence of visceral metastases (yes vs no); the CI calculated using a profile likelihood approach.||0.880|0.552|0.0018
92445078|NCT03778931|184776387|OTHER||Hazard Ratio (HR)|0.592||||0.0325|TWO_SIDED|95.0|0.361|0.958||The p-value was generated by using a two-sided stratified log-rank test.|Log Rank|||The analysis was performed using a stratified Cox Proportional Hazards model with ties=Efron and the stratification factors: prior treatment with fulvestrant (yes vs no) and presence of visceral metastases (yes vs no); the CI calculated using a profile likelihood approach.||0.958|0.361|0.0325
92240100|NCT00570739|184383815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.1622|TWO_SIDED|95.0|-2.03|0.34||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small HDL Particles||0.34|-2.03|0.1622
92445079|NCT03778931|184776388|OTHER||Hazard Ratio (HR)|0.742||||0.0697|TWO_SIDED|95.0|0.536|1.025|||Log Rank|The p-value was generated by using a two-sided stratified log-rank test.|Applied a stratified Cox Proportional Hazards model with ties=Efron and the stratification factors: ESR1-mutational status (ESR1-mut vs ESR1-wt), prior treatment with fulvestrant (yes vs no) and presence of visceral metastases (yes vs no).|||1.025|0.536|0.0697
92445080|NCT04180020|184776391|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||||||0.94
92445081|NCT00537381|184776423|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.728||||0.014|TWO_SIDED|95.0|1.112|2.686|||Log Rank||Hazard ratio and 95% confidence interval was estimated from a Cox proportional hazards model with treatment as the only explanatory factor.|||2.686|1.112|0.014
92445082|NCT00537381|184776424|SUPERIORITY_OR_OTHER|||||||0.795|||||||Fisher Exact|||||||0.795
92445083|NCT00537381|184776425|SUPERIORITY_OR_OTHER|||||||0.018|||||||Fisher Exact|||||||0.018
92445084|NCT00537381|184776426|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.476||||0.163|TWO_SIDED|95.0|0.853|2.522|||Log Rank||Hazard ratio and 95% confidence interval was estimated from a Cox proportional hazards model with treatment as the only explanatory factor.|||2.522|0.853|0.163
92445085|NCT05544786|184776430|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|113.13|||||TWO_SIDED|90.0|102.77|124.53|||||The ratios (and 90% confidence Intervals \[CIs\]) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||124.53|102.77|
92445086|NCT05544786|184776430|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|121.91|||||TWO_SIDED|90.0|110.75|134.2|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||134.20|110.75|
92445087|NCT05544786|184776430|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|125.49|||||TWO_SIDED|90.0|114.43|137.61|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||137.61|114.43|
92445088|NCT05544786|184776430|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|121.09|||||TWO_SIDED|90.0|110.42|132.79|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||132.79|110.42|
92445089|NCT05544786|184776431|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|113.62|||||TWO_SIDED|90.0|102.96|125.4|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||125.40|102.96|
92445090|NCT05544786|184776431|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|122.53|||||TWO_SIDED|90.0|111.02|135.22|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||135.22|111.02|
92280235|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0185|TWO_SIDED|95.0|-0.7|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Psychic: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.7|0.0185
92280236|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.2471|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Somatic: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.4|0.2471
92280237|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1076|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Somatic: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.5|0.1076
92445091|NCT05544786|184776431|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|126.55|||||TWO_SIDED|90.0|115.0|139.27|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||139.27|115.00|
92445092|NCT05544786|184776431|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|122.28|||||TWO_SIDED|90.0|111.11|134.57|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||134.57|111.11|
92445093|NCT05544786|184776432|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|110.28|||||TWO_SIDED|90.0|99.01|122.82|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||122.82|99.01|
92445094|NCT05544786|184776432|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|140.97|||||TWO_SIDED|90.0|126.57|157.01|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||157.01|126.57|
92445095|NCT05544786|184776432|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|149.83|||||TWO_SIDED|90.0|132.86|168.96|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||168.96|132.86|
92445096|NCT05544786|184776432|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|147.05|||||TWO_SIDED|90.0|130.4|165.83|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||165.83|130.40|
92445097|NCT05544786|184776433|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|96.76|||||TWO_SIDED|90.0|87.31|107.23|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||107.23|87.31|
92445098|NCT05544786|184776433|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|86.86|||||TWO_SIDED|90.0|78.38|96.26|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||96.26|78.38|
92445099|NCT05544786|184776433|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|99.29|||||TWO_SIDED|90.0|87.39|112.8|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||112.80|87.39|
92445100|NCT05544786|184776433|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|79.29|||||TWO_SIDED|90.0|70.07|89.73|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||89.73|70.07|
92239187|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.226||||0.0018|TWO_SIDED|95.0|0.089|0.575|||Regression, Logistic|||The statistical analysis is presented for on-treatment response, combined (RVR vs no RVR). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.575|0.089|0.0018
92239188|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.529||||0.0083|TWO_SIDED|95.0|1.116|2.097|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.097|1.116|0.0083
92280238|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.2782|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Somatic: Change From Baseline in HAM-D Individual Item Score at Day 15||0.1|-0.4|0.2782
92280239|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.4646|TWO_SIDED|95.0|-0.4|0.2|||Mixed Model for Repeated Measures|||Anxiety Somatic: Change From Baseline in HAM-D Individual Item Score at Day 21||0.2|-0.4|0.4646
92280240|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.16|TWO_SIDED|95.0|-0.5|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Somatic: Change From Baseline in HAM-D Individual Item Score at Day 45||0.1|-0.5|0.1600
92280241|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0474|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Somatic Symptoms Gastrointestinal: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.5|0.0474
92445101|NCT05544786|184776434|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|95.92|||||TWO_SIDED|90.0|86.45|106.44|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||106.44|86.45|
92445102|NCT05544786|184776434|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|86.5|||||TWO_SIDED|90.0|77.96|95.98|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||95.98|77.96|
92445103|NCT05544786|184776434|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|88.29|||||TWO_SIDED|90.0|72.97|106.83|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||106.83|72.97|
92445104|NCT05544786|184776434|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|77.49|||||TWO_SIDED|90.0|64.04|93.76|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||93.76|64.04|
92445105|NCT05544786|184776435|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|101.92|||||TWO_SIDED|90.0|87.71|118.44|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||118.44|87.71|
92445106|NCT05544786|184776435|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|92.4|||||TWO_SIDED|90.0|79.52|107.38|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||107.38|79.52|
92445107|NCT05544786|184776435|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|97.04|||||TWO_SIDED|90.0|78.4|120.1|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||120.10|78.40|
92239189|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.285||||0.0028|TWO_SIDED|95.0|1.09|1.515|||Regression, Logistic|||The statistical analysis is presented for weight per 10 kg. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.515|1.090|0.0028
92239190|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.061||||0.0002|TWO_SIDED|95.0|1.401|3.032|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.032|1.401|0.0002
92239191|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.327||||0.0019|TWO_SIDED|95.0|0.162|0.662|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.662|0.162|0.0019
92239192|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||0.0086|TWO_SIDED|95.0|0.137|0.749|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missed vs cirrhosis). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.749|0.137|0.0086
92239193|NCT01070550|184382307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.247|||<|0.0001|TWO_SIDED|95.0|0.138|0.441|||Regression, Logistic|||The statistical analysis is presented for on-treatment response, combined (RVR vs NO RVR). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.441|0.138|<0.0001
92280242|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0446|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Somatic Symptoms Gastrointestinal: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.5|0.0446
92171582|NCT03854578|184232194|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.12|STANDARD_ERROR_OF_MEAN|0.04||0.0022|TWO_SIDED|90.0|-0.18|-0.06|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Left||-0.06|-0.18|0.0022
92239194|NCT01505491|184382337|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|113.22|STANDARD_ERROR_OF_MEAN|1.086||0.1163|TWO_SIDED|90.0|98.752|129.812|||ANOVA||Bio-equivalence of BI 695501 vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||129.812|98.752|0.1163
92239195|NCT01505491|184382337|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|132.24|STANDARD_ERROR_OF_MEAN|1.094||0.7345|TWO_SIDED|90.0|113.984|153.412|||ANOVA||Bio-equivalence of BI 695501 vs. Humira EU was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||153.412|113.984|0.7345
92239196|NCT01505491|184382337|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|86.51|STANDARD_ERROR_OF_MEAN|1.09||0.1833|TWO_SIDED|90.0|74.974|99.83|||ANOVA||Bio-equivalence of Humira EU vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||99.830|74.974|0.1833
92239197|NCT01505491|184382338|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|109.42|STANDARD_ERROR_OF_MEAN|1.073||0.0303|TWO_SIDED|90.0|97.384|122.935|||ANOVA||Bio-equivalence of BI 695501 vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||122.935|97.384|0.0303
92239198|NCT01505491|184382338|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|128.88|STANDARD_ERROR_OF_MEAN|1.08||0.6547|TWO_SIDED|90.0|113.492|146.365|||ANOVA||Bio-equivalence of BI 695501 vs. Humira EU was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||146.365|113.492|0.6547
92239199|NCT01505491|184382338|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|86.24|STANDARD_ERROR_OF_MEAN|1.077||0.1572|TWO_SIDED|90.0|76.238|97.564|||ANOVA||Bio-equivalence of Humira EU vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||97.564|76.238|0.1572
92239200|NCT01505491|184382339|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|110.3|STANDARD_ERROR_OF_MEAN|1.063||0.0212|TWO_SIDED|90.0|99.687|122.035|||ANOVA||Bio-equivalence of BI 695501 vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||122.035|99.687|0.0212
92239201|NCT01505491|184382339|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|117.53|STANDARD_ERROR_OF_MEAN|1.066||0.17|TWO_SIDED|90.0|105.638|130.757|||ANOVA||Bio-equivalence of BI 695501 vs. Humira EU was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||130.757|105.638|0.1700
92239202|NCT01505491|184382339|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|96.53|STANDARD_ERROR_OF_MEAN|1.064||0.0016|TWO_SIDED|90.0|87.064|107.017|||ANOVA||Bio-equivalence of Humira EU vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||107.017|87.064|0.0016
92239203|NCT02759146|184382342|SUPERIORITY||Difference between least squared means|0.09||||0.72|TWO_SIDED|95.0|-0.36|0.52||Adjusted for baseline and balancing factors used in the randomization|Mixed Models Analysis||Difference between reflexology and meditative practice for weeks 1-4|Aim 1: Comparing reflexology vs meditative practice for weeks 1-4||.52|-.36|.72
92239204|NCT02759146|184382342|SUPERIORITY||Difference between least squared means|-0.15||||0.58|TWO_SIDED|95.0|-0.72|0.41|||Mixed Models Analysis||Difference between reflexology and control for weeks 1-4|Aim 1: Comparing reflexology vs control for weeks 1-4||.41|-.72|.58
92280243|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0093|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Somatic Symptoms Gastrointestinal: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.1|-0.6|0.0093
92171583|NCT03854578|184232194|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.08|STANDARD_ERROR_OF_MEAN|0.04||0.0331|TWO_SIDED|90.0|-0.14|-0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Right||-0.02|-0.14|0.0331
92239205|NCT02759146|184382342|SUPERIORITY||Difference between least squared means|-0.24||||0.42|TWO_SIDED|95.0|-0.81|0.34|||Mixed Models Analysis||Difference between meditative practice and control for weeks 1-4|Aim 1: Comparing meditative practices vs control for weeks 1-4||.34|-.81|.42
92280244|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.2998|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Somatic Symptoms Gastrointestinal: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.4|0.2998
92445108|NCT05544786|184776435|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|70.45|||||TWO_SIDED|90.0|56.92|87.19|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||87.19|56.92|
92239206|NCT02759146|184382343|SUPERIORITY||Difference between least squared means|-0.01||||0.96|TWO_SIDED|95.0|-0.44|0.42|||Mixed Models Analysis||Difference between reflexology and meditative practice for weeks 1-4|Aim 1: Comparing reflexology vs meditative practice for weeks 1-4||0.42|-0.44|0.96
92239207|NCT02759146|184382343|SUPERIORITY||Difference between least squared means|-0.2||||0.48|TWO_SIDED|95.0|-0.75|0.35|||Mixed Models Analysis||Difference between reflexology and control for weeks 1-4|Aim 1: Comparing reflexology vs control for weeks 1-4||0.35|-0.75|0.48
92239208|NCT02759146|184382343|SUPERIORITY||Difference between least squared means|-0.19||||0.52|TWO_SIDED|95.0|-0.75|0.38|||Mixed Models Analysis||Difference between meditative practice and control for weeks 1-4|Aim 1: Comparing meditative practice vs control for weeks 1-4||0.38|-0.75|0.52
92239209|NCT02759146|184382344|SUPERIORITY||Difference between least squared means|0.67||||0.68|TWO_SIDED|95.0|-2.52|3.86|||Mixed Models Analysis||Comparing reflexology to meditative practices for weeks 1-4|Aim 1: Comparing reflexology vs meditative practice for weeks 1-4||3.86|-2.52|.68
92239210|NCT02759146|184382344|SUPERIORITY||Difference between least squared means|-2.53||||0.23|TWO_SIDED|95.0|-6.64|1.58|||Mixed Models Analysis||Comparing reflexology to control for weeks 1-4|Aim 1: Comparing reflexology vs control for weeks 1-4||1.58|-6.64|.23
92239211|NCT02759146|184382344|SUPERIORITY||Difference between least squared means|-3.2||||0.14|TWO_SIDED|95.0|-7.41|1.01|||Mixed Models Analysis||Comparing meditative practice to control for weeks 1-4|Aim 1: Comparing meditative practice vs control for weeks 1-4||1.01|-7.41|0.14
92239212|NCT02759146|184382345|SUPERIORITY||Difference between least squared means|0.01||||0.98|TWO_SIDED|95.0|-0.38|0.39|||Mixed Models Analysis||Difference between reflexology and meditative practice for weeks 1-4|Aim 1: Comparing reflexology vs meditative practice for weeks 1-4||0.39|-0.38|0.98
92239213|NCT02759146|184382345|SUPERIORITY||Difference between least squared means|-0.24||||0.34|TWO_SIDED|95.0|-0.74|0.25|||Mixed Models Analysis||Comparing reflexology to control for weeks 1-4|Aim 1: Comparing reflexology vs control for weeks 1-4||0.25|-0.74|0.34
92239214|NCT02759146|184382345|SUPERIORITY||Difference between least squared means|-0.25||||0.34|TWO_SIDED|95.0|-0.76|0.26|||Mixed Models Analysis||Comparing meditative practices vs control for weeks 1-4|Aim 1: Comparing meditative practices vs control for weeks 1-4||0.26|-0.76|0.34
92239215|NCT02759146|184382346|SUPERIORITY||Difference between least squared means|0.25||||0.57|TWO_SIDED|95.0|-0.63|1.14|||Mixed Models Analysis||After the initial 4 weeks of reflexology, comparing continued reflexology to added meditative practice|Aim 2: After 4 weeks of reflexology, comparing continuing reflexology vs adding meditative practice||1.14|-.63|0.57
92239216|NCT02759146|184382346|SUPERIORITY||Least Square (LS) Mean|0.49||||0.39|TWO_SIDED|95.0|-0.64|1.63|||Mixed Models Analysis||After the initial 4 weeks of meditative practices, comparing continuing meditative practice to adding reflexology|Aim 3: After 4 weeks of meditative practice, comparing continuing with meditative practice vs. adding reflexology for weeks 5-12||1.63|-0.64|0.39
92280245|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0545|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Somatic Symptoms Gastrointestinal: Change From Baseline in HAM-D Individual Item Score at Day 45||0.0|-0.5|0.0545
92239217|NCT02759146|184382347|SUPERIORITY||Least Square (LS) Mean|1.94||||0.67|TWO_SIDED|95.0|-10.93|7.04|||Mixed Models Analysis||After 4 weeks of reflexology, comparing continued reflexology vs adding meditative practice|Aim 2: After 4 weeks of reflexology, comparing continued reflexology vs added meditative practice for weeks 5-12||7.04|-10.93|0.67
92239218|NCT02759146|184382347|SUPERIORITY||Least Square (LS) Mean|-1.85||||0.66|TWO_SIDED|95.0|-6.59|10.29|||Mixed Models Analysis||After 4 weeks of meditative practice, comparing continued meditative practice vs adding reflexology for weeks 5-12|Aim 3: After 4 weeks of meditative practices, comparing continued meditative practice vs adding reflexology for weeks 5-12||10.29|-6.59|0.66
92239219|NCT02759146|184382348|SUPERIORITY||Difference between least squared means|-0.19||||0.62|TWO_SIDED|95.0|-0.95|0.57|||Mixed Models Analysis||After 4 weeks of reflexology, comparing continued reflexology vs added meditative practice for weeks 5-12|Aim 2: After 4 weeks of reflexology, comparing continued reflexology vs added meditative practice for weeks 5-12||0.57|-0.95|0.62
92445109|NCT05544786|184776436|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|96.5|||||TWO_SIDED|90.0|90.08|103.37|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||103.37|90.08|
92445110|NCT05544786|184776437|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|96.63|||||TWO_SIDED|90.0|90.13|103.59|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||103.59|90.13|
92445111|NCT05544786|184776438|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|98.15|||||TWO_SIDED|90.0|87.28|110.36|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||110.36|87.28|
92445112|NCT05544786|184776439|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|78.49|||||TWO_SIDED|90.0|72.42|85.07|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||85.07|72.42|
92445113|NCT05544786|184776440|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|87.77|||||TWO_SIDED|90.0|69.45|110.92|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||110.92|69.45|
92445114|NCT05544786|184776441|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|72.6|||||TWO_SIDED|90.0|56.87|92.68|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||92.68|56.87|
92445115|NCT04258605|184776518|OTHER|P-values account for preoperative versus postoperative mean values at 1 and 2 years|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||"The small sample size of arm ASHCOM Shoulder System subjects - Fracture humeral stem of 2 cases is too low for a statistical analysis."||||<.0001
92445116|NCT04258605|184776519|OTHER|P-values account for preoperative versus postoperative mean values at 3-6 months, 1 year, 2 and 3 years|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||"The small sample size of arm ASHCOM Shoulder System subjects - Fracture humeral stem of 2 cases is too low for a statistical analysis."||||<0.001
92445117|NCT04258605|184776520|OTHER|P-values account for preoperative versus postoperative mean values at 3-6 months, 1, 2 and 3 years|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||"The small sample size of arm ASHCOM Shoulder System subjects - Fracture humeral stem of 2 cases is too low for a statistical analysis."||||<0.001
92445118|NCT04258605|184776521|OTHER|P-values account for preoperative versus postoperative mean values at 3-6 months, 1 year, 2 and 3 years|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||"The small sample size of arm ASHCOM Shoulder System subjects - Fracture humeral stem of 2 cases is too low for a statistical analysis."||||<0.001
92445119|NCT00181961|184776528|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||.016
92445120|NCT00603746|184776560|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.275|||<|0.001||95.0|0.18|0.37|||ANCOVA|||||0.370|0.180|<0.001
92445121|NCT00603746|184776560|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.272|||<|0.001|TWO_SIDED|95.0|0.178|0.367|||ANCOVA|||||0.367|0.178|<0.001
92445122|NCT00603746|184776560|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.264|||<|0.001|TWO_SIDED|95.0|0.171|0.357|||ANCOVA|||||0.357|0.171|<0.001
92445123|NCT00603746|184776560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.225|||<|0.001|TWO_SIDED|95.0|0.131|0.32|||ANCOVA|||||0.320|0.131|<0.001
92445124|NCT00603746|184776560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|||<|0.001|TWO_SIDED|95.0|0.105|0.291|||ANCOVA|||||0.291|0.105|<0.001
92445125|NCT00653224|184776620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|||<|0.001||95.0|-1.33|-0.45||If the p-value of this estimated difference is lower than 5% the mean T5SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the mean of T5SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis for the primary endpoint is expressed as follows: 'The mean 24-hr reflective T5SS over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.45|-1.33|<0.001
92445126|NCT00653224|184776621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001||95.0|-0.52|-0.17||If the p-value of this estimated difference is lower than 5% the mean change from baseline in overall RQLQ score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in overall RQLQ score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in overall RQLQ score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.17|-0.52|<0.001
92445127|NCT00653224|184776622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|||<|0.001||95.0|-0.47|-0.15||If the p-value of this estimated difference is lower than 5% the mean change from baseline in overall RQLQ score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in overall RQLQ score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in overall RQLQ score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.15|-0.47|<0.001
92445128|NCT00653224|184776623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001||95.0|-0.52|-0.17||If the p-value of this estimated difference is lower than 5% the mean change from baseline in overall RQLQ score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in overall RQLQ score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in overall RQLQ score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.17|-0.52|<0.001
92445129|NCT00653224|184776624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.042||95.0|-0.49|-0.01||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ activities score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ activities score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ activities score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.01|-0.49|0.042
92445130|NCT00653224|184776625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.014||95.0|-0.52|-0.06||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ activities score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ activities score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ activities score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.06|-0.52|0.014
92445131|NCT00653224|184776626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.036||95.0|-0.51|-0.02||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ activities score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ activities score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ activities score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.02|-0.51|0.036
92445132|NCT00653224|184776627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.01||95.0|-0.48|-0.07||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ sleep score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ sleep score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ sleep score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.07|-0.48|0.010
92445133|NCT00653224|184776628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.026||95.0|-0.43|-0.03||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ sleep score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ sleep score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ sleep score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.03|-0.43|0.026
92446817|NCT00280566|184780547|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.22||0.9538|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.9538
92239220|NCT02759146|184382348|SUPERIORITY||Least Square (LS) Mean|-0.04||||0.95|TWO_SIDED|95.0|-1.15|1.22|||Mixed Models Analysis||After 4 weeks of meditative practice, comparing continued meditative practice vs adding reflexology for weeks 5-12|Aim 3: After 4 weeks of meditative practice, comparing continuing meditative practice vs adding reflexology for weeks 5-12||1.22|-1.15|0.95
92239221|NCT02759146|184382349|SUPERIORITY||Difference between least squared means|-0.14||||0.77|TWO_SIDED|95.0|-1.04|0.77|||Mixed Models Analysis||After 4 weeks of reflexology, comparing continued reflexology vs added meditative practice for weeks 5-12|Aim 2: After 4 weeks of reflexology, comparing continued reflexology vs adding meditative practice for weeks 5-12||0.77|-1.04|0.77
92239222|NCT02759146|184382349|SUPERIORITY||Least Square (LS) Mean|0.22||||0.67|TWO_SIDED|95.0|-1.23|0.8|||Mixed Models Analysis||After 4 weeks of meditative practice, comparing continued meditative practice vs added reflexology for weeks 5-12|Aim 3: After 4 weeks of meditative practice, comparing continued meditative practice vs added reflexology for weeks 5-12||0.80|-1.23|0.67
92239223|NCT02759146|184382350|SUPERIORITY||Least Square (LS) Mean|0.09||||0.42|TWO_SIDED|95.0|-0.88|0.37|||Mixed Models Analysis||Comparing reflexology vs control for weeks 5-12|Aim 4: Comparing reflexology vs control for weeks 5-12||0.37|-0.88|0.42
92239224|NCT02759146|184382350|SUPERIORITY||Least Square (LS) Mean|-0.34||||0.29|TWO_SIDED|95.0|-0.98|0.29|||Mixed Models Analysis||Comparing meditative practice vs control for weeks 5-12|Aim 4: Comparing meditative practices vs control for weeks 5-12||0.29|-0.98|0.29
92280246|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.2177|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||General Somatic Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.4|0.2177
92171584|NCT03854578|184232194|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.2149|TWO_SIDED|90.0|-0.11|0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Left||0.02|-0.11|0.2149
92280247|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.23|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||General Somatic Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 8||0.1|-0.4|0.2300
92445134|NCT00653224|184776629|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.25||||0.018||95.0|-0.45|-0.04||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ sleep score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ sleep score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ sleep score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.04|-0.45|0.018
92239225|NCT02759146|184382351|SUPERIORITY||Least Square (LS) Mean|-0.42||||0.15|TWO_SIDED|95.0|-1.0|0.15|||Mixed Models Analysis||Comparing reflexology vs control for weeks 5-12|Aim 4: Comparing reflexology vs control for weeks 5-12||0.15|-1.00|0.15
92239226|NCT02759146|184382351|SUPERIORITY||Least Square (LS) Mean|-0.2||||0.5|TWO_SIDED|95.0|-0.8|0.39|||Mixed Models Analysis||Comparing meditative practice vs control for weeks 5-12|Aim 4: Comparing meditative practice vs control for weeks 5-12||0.39|-0.80|0.50
92239227|NCT02759146|184382352|SUPERIORITY||Least Square (LS) Mean|-0.27||||0.33|TWO_SIDED|95.0|-0.83|0.28|||Mixed Models Analysis||Comparing reflexology vs control for week 5-12|Aim 4: Comparing reflexology vs control for weeks 5-12||0.28|-0.83|0.33
92239228|NCT02759146|184382352|SUPERIORITY||Least Square (LS) Mean|-0.36||||0.22|TWO_SIDED|95.0|-0.93|0.21|||Mixed Models Analysis|||Aim 4: Comparing meditative practice vs control for weeks 5-12||0.21|-0.93|0.22
92239229|NCT02759146|184382353|SUPERIORITY||Least Square (LS) Mean|0.92||||0.17|TWO_SIDED|95.0|-8.62|1.52|||Mixed Models Analysis||Comparing reflexology vs control for weeks 5-12|Aim 4: Comparing reflexology vs control for weeks 5-12||1.52|-8.62|0.17
92239230|NCT02759146|184382353|SUPERIORITY||Least Square (LS) Mean|-4.48||||0.09|TWO_SIDED|95.0|-9.66|0.7|||Mixed Models Analysis||Comparing meditative practice vs control for weeks 5-12|Aim 4: Comparing meditative practice vs control for weeks 5-12||0.70|-9.66|0.09
92239231|NCT00385268|184382363|SUPERIORITY||Odds Ratio (OR)|1.68||||0.44|TWO_SIDED|95.0|0.55|5.14|||GEE model of repeated measures|GEE on repeated binary indicators of BE positive / negative test||||5.14|0.55|0.44
92239232|NCT00431847|184382372|SUPERIORITY_OR_OTHER||Slope|-0.0323|STANDARD_ERROR_OF_MEAN|0.00619|<|0.0001|TWO_SIDED|95.0|-0.0448|-0.02013|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.02013|-0.0448|<0.0001
92239233|NCT00431847|184382372|SUPERIORITY_OR_OTHER||Chi Squared|2.65||||0.4492|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.4492
92239234|NCT00431847|184382372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.108|STANDARD_ERROR_OF_MEAN|0.2308||0.64|TWO_SIDED|95.0|-0.5621|0.3461|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.|Estimated intercept group difference|A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.3461|-0.5621|0.640
92239235|NCT00431847|184382372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3299|STANDARD_ERROR_OF_MEAN|0.3372||0.3286|TWO_SIDED|95.0|-0.3334|0.9932|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.9932|-0.3334|0.3286
92239236|NCT00431847|184382372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8591|STANDARD_ERROR_OF_MEAN|0.4716||0.0694|TWO_SIDED|95.0|-0.06841|1.7866|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.7866|-0.06841|0.0694
92239237|NCT00431847|184382373|SUPERIORITY_OR_OTHER||Slope|-0.02332|STANDARD_ERROR_OF_MEAN|0.003777|<|0.0001|TWO_SIDED|95.0|-0.03076|-0.01589|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.01589|-0.03076|<0.0001
92280248|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.12||0.0001|TWO_SIDED|95.0|-0.7|-0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||General Somatic Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.2|-0.7|0.0001
92280249|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0151|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||General Somatic Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 21||-0.1|-0.5|0.0151
92445135|NCT00653224|184776630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.002||95.0|-0.47|-0.1||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ non-nose/eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ N-N/E symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as: 'The mean change from baseline in RQLQ non-nose/eye symptoms score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.47|0.002
92445136|NCT00653224|184776631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.006||95.0|-0.41|-0.07||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ non-nose/eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ N-N/E symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ non-nose/eye symptoms score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.07|-0.41|0.006
92171585|NCT03854578|184232194|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.6896|TWO_SIDED|90.0|-0.08|0.05|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Right||0.05|-0.08|0.6896
92445137|NCT00653224|184776632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.003||95.0|-0.47|-0.1||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ non-nose/eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ N-N/E symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ non-nose/eye symptoms score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.47|0.003
92280250|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0502|TWO_SIDED|95.0|-0.5|0.0|||Mixed Model for Repeated Measures|||General Somatic Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 45||0.0|-0.5|0.0502
92239238|NCT00431847|184382373|SUPERIORITY_OR_OTHER||Chi-Squared|2.49||||0.4772|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.4772
92239239|NCT00431847|184382373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07724|STANDARD_ERROR_OF_MEAN|0.1503||0.6077|TWO_SIDED|95.0|-0.2184|0.3729|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.3729|-0.2184|0.6077
92239240|NCT00431847|184382373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2004|STANDARD_ERROR_OF_MEAN|0.2194||0.3616|TWO_SIDED|95.0|-0.2311|0.6319|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.6319|-0.2311|0.3616
92239241|NCT00431847|184382373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3082|STANDARD_ERROR_OF_MEAN|0.3066||0.3155|TWO_SIDED|95.0|-0.2948|0.9112|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.9112|-0.2948|0.3155
92239242|NCT00431847|184382374|SUPERIORITY_OR_OTHER||Slope|-0.02746|STANDARD_ERROR_OF_MEAN|0.004202|<|0.0001|TWO_SIDED|95.0|-0.03573|-0.01919|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.01919|-0.03573|<0.0001
92445138|NCT00653224|184776633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.001||95.0|-0.61|-0.18||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ practical problems score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ practical pbs. score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ practical problems score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.18|-0.61|<0.001
92239243|NCT00431847|184382374|SUPERIORITY_OR_OTHER||Chi-Squared|3.4||||0.3345|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.3345
92239244|NCT00431847|184382374|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0386|STANDARD_ERROR_OF_MEAN|0.1718||0.8223|TWO_SIDED|95.0|-0.2993|0.3765|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.3765|-0.2993|0.8223
92239245|NCT00431847|184382374|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2919|STANDARD_ERROR_OF_MEAN|0.2506||0.2448|TWO_SIDED|95.0|-0.2009|0.7848|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.7848|-0.2009|0.2448
92239246|NCT00431847|184382374|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4482|STANDARD_ERROR_OF_MEAN|0.3502||0.2014|TWO_SIDED|95.0|-0.2405|1.1369|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.1369|-0.2405|0.2014
92239247|NCT00431847|184382375|SUPERIORITY_OR_OTHER||Slope|-0.0403|STANDARD_ERROR_OF_MEAN|0.007196|<|0.0001|TWO_SIDED|95.0|-0.5446|-0.02613|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||-0.02613|-0.5446|<0.0001
92239248|NCT00431847|184382375|SUPERIORITY_OR_OTHER||Chi-Squared|3.19||||0.3631|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.3631
92240101|NCT00570739|184383816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.99|||<|0.0001|TWO_SIDED|95.0|3.51|8.48||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Low Density Lipoprotein Particles||8.48|3.51|<0.0001
92240102|NCT00570739|184383816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.31|||<|0.0001|TWO_SIDED|95.0|3.0|7.63||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Low Density Lipoprotein Particles||7.63|3.00|<0.0001
92240103|NCT00570739|184383816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.1742|TWO_SIDED|95.0|-0.3|0.05||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Low Density Lipoprotein Particles||0.05|-0.30|0.1742
92240104|NCT00570739|184383816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.187|TWO_SIDED|95.0|-0.28|0.06|||ANCOVA|||Low Density Lipoprotein Particles||0.06|-0.28|0.1870
92445139|NCT00653224|184776634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|||<|0.001||95.0|-0.57|-0.16||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ practical problems score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ practical pbs. score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ practical problems score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.16|-0.57|<0.001
92239249|NCT00431847|184382375|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1004|STANDARD_ERROR_OF_MEAN|0.2746||0.7148|TWO_SIDED|95.0|-0.6404|0.4396|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.4396|-0.6404|0.7148
92239250|NCT00431847|184382375|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3568|STANDARD_ERROR_OF_MEAN|0.4009||0.3741|TWO_SIDED|95.0|-0.4318|1.1453|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.1453|-0.4318|0.3741
92239251|NCT00431847|184382375|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2969|STANDARD_ERROR_OF_MEAN|0.5609||0.0213|TWO_SIDED|95.0|0.1938|2.4|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||2.4000|0.1938|0.0213
92239252|NCT00431847|184382376|SUPERIORITY_OR_OTHER||Slope|-0.02776|STANDARD_ERROR_OF_MEAN|0.004706|<|0.0001|TWO_SIDED|95.0|-0.03702|-0.0185|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.01850|-0.03702|<0.0001
92445140|NCT00653224|184776635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.001||95.0|-0.61|-0.18||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ practical problems score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ practical pbs. score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ practical problems score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.18|-0.61|<0.001
92445141|NCT00653224|184776636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|||<|0.001||95.0|-0.59|-0.18||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ nasal symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ nasal symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ nasal symptoms score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.18|-0.59|<0.001
92446818|NCT00280566|184780547|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.25||0.8541|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.8541
92239253|NCT00431847|184382376|SUPERIORITY_OR_OTHER||Chi-Squared|3.88||||0.2752|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.2752
92239254|NCT00431847|184382376|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3079|STANDARD_ERROR_OF_MEAN|0.1918||0.1094|TWO_SIDED|95.0|-0.6851|0.06941|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.06941|-0.6851|0.1094
92239255|NCT00431847|184382376|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0428|STANDARD_ERROR_OF_MEAN|0.28||0.8786|TWO_SIDED|95.0|-0.5079|0.5935|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.5935|-0.5079|0.8786
92239256|NCT00431847|184382376|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6759|STANDARD_ERROR_OF_MEAN|0.391||0.0847|TWO_SIDED|95.0|-0.09297|1.4448|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.4448|-0.09297|0.0847
92239257|NCT00431847|184382377|SUPERIORITY_OR_OTHER||Slope|-0.03645|STANDARD_ERROR_OF_MEAN|0.005913|<|0.0001|TWO_SIDED|95.0|-0.04808|-0.02481|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.02481|-0.04808|<0.0001
92239258|NCT00431847|184382377|SUPERIORITY_OR_OTHER||Chi-Squared|3.16||||0.3677|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.3677
92280251|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.3659|TWO_SIDED|95.0|-0.3|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Genital Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.3|0.3659
92445142|NCT00653224|184776637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|||<|0.001||95.0|-0.55|-0.16||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ nasal symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ nasal symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ nasal symptoms score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.16|-0.55|<0.001
92445143|NCT00653224|184776638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|||<|0.001||95.0|-0.59|-0.17||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ nasal symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ nasal symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ nasal symptoms score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.17|-0.59|<0.001
92239259|NCT00431847|184382377|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05816|STANDARD_ERROR_OF_MEAN|0.221||0.7926|TWO_SIDED|95.0|-0.4929|0.3766|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.3766|-0.4929|0.7926
92239260|NCT00431847|184382377|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1708|STANDARD_ERROR_OF_MEAN|0.3212||0.5953|TWO_SIDED|95.0|-0.461|0.8026|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.8026|-0.4610|0.5953
92445144|NCT00653224|184776639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.001||95.0|-0.63|-0.21||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ eye symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ eye symptoms score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.21|-0.63|<0.001
92445145|NCT00653224|184776640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|||<|0.001||95.0|-0.56|-0.17||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ eye symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ eye symptoms score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.17|-0.56|<0.001
92445146|NCT00653224|184776641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.001||95.0|-0.63|-0.22||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ eye symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ eye symptoms score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.22|-0.63|<0.001
92445147|NCT00653224|184776642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|||<|0.001||95.0|-0.53|-0.13||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ emotional score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ emotional score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ emotional score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.13|-0.53|<0.001
92445148|NCT00653224|184776643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001||95.0|-0.52|-0.15||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ emotional score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ emotional score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ emotional score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.15|-0.52|<0.001
92445149|NCT00653224|184776644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001||95.0|-0.53|-0.14||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ emotional score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ emotional score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ emotional score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.14|-0.53|<0.001
92445150|NCT00653224|184776645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|||<|0.001||95.0|-1.32|-0.45||If the p-value of this estimated difference is lower than 5% the mean T5SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the mean of T5SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean T5SS over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.45|-1.32|<0.001
92445151|NCT00653224|184776646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|||<|0.001||95.0|-1.39|-0.36||If the p-value of this estimated difference is lower than 5% the mean T5SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the mean of T5SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean T5SS over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.36|-1.39|<0.001
92445152|NCT00653224|184776647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|||<|0.001||95.0|-1.2|-0.49||If the p-value of this estimated difference is lower than 5% the mean T4SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean T4SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean T4SS over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.49|-1.20|<0.001
92445153|NCT00653224|184776648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76|||<|0.001||95.0|-1.18|-0.35||If the p-value of this estimated difference is lower than 5% the mean T4SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean T4SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean T4SS over Week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.35|-1.18|<0.001
92445154|NCT00653224|184776649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|||<|0.001||95.0|-1.17|-0.45||If the p-value of this estimated difference is lower than 5% the mean T4SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean T4SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean T4SS over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.45|-1.17|<0.001
92445155|NCT00653224|184776650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|||<|0.001||95.0|-1.17|-0.31||If the p-value of this estimated difference is lower than 5% the mean TNSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TNSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TNSS over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.31|-1.17|<0.001
92171586|NCT03854578|184232194|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.4769|TWO_SIDED|90.0|-0.06|0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Left||0.02|-0.06|0.4769
92239261|NCT00431847|184382377|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6873|STANDARD_ERROR_OF_MEAN|0.4482||0.1261|TWO_SIDED|95.0|-0.1943|1.5689|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.5689|-0.1943|0.1261
92239262|NCT00431847|184382378|SUPERIORITY_OR_OTHER||Slope|-0.4831|STANDARD_ERROR_OF_MEAN|0.1243||0.0002|TWO_SIDED|95.0|-0.7286|-0.2377|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.2377|-0.7286|0.0002
92280252|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.6003|TWO_SIDED|95.0|-0.3|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Genital Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 8||0.2|-0.3|0.6003
92280253|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.0785|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Genital Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 15||0.0|-0.5|0.0785
92445156|NCT00653224|184776651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74||||0.005||95.0|-1.26|-0.22||If the p-value of this estimated difference is lower than 5% the mean TNSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TNSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TNSS over Week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.22|-1.26|0.005
92445157|NCT00653224|184776652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|||<|0.001||95.0|-1.18|-0.3||If the p-value of this estimated difference is lower than 5% the mean TNSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TNSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TNSS over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.30|-1.18|<0.001
92445158|NCT00653224|184776653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||<|0.001||95.0|-0.87|-0.3||If the p-value of this estimated difference is lower than 5% the mean TOSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TOSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TOSS over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.30|-0.87|<0.001
92445159|NCT00653224|184776654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001||95.0|-0.91|-0.24||If the p-value of this estimated difference is lower than 5% the mean TOSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TOSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TOSS over Week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.24|-0.91|<0.001
92280254|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.3668|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Genital Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.4|0.3668
92280255|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1827|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Genital Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 45||0.1|-0.4|0.1827
92445160|NCT00653224|184776655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001||95.0|-0.86|-0.28||If the p-value of this estimated difference is lower than 5% the mean TOSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TOSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TOSS over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.28|-0.86|<0.001
92445161|NCT00653224|184776656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|||<|0.001||95.0|-0.34|-0.13||If the p-value of this estimated difference is lower than 5% the sneezing mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Sneezing Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The sneezing mean score over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.13|-0.34|<0.001
92445162|NCT00653224|184776657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|||<|0.001||95.0|-0.34|-0.09||If the p-value of this estimated difference is lower than 5% the sneezing mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Sneezing Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The sneezing mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.09|-0.34|<0.001
92445163|NCT00653224|184776658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|||<|0.001||95.0|-0.33|-0.12||If the p-value of this estimated difference is lower than 5% the sneezing mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Sneezing Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The sneezing mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.12|-0.33|<0.001
92445164|NCT00653224|184776659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|||<|0.001||95.0|-0.32|-0.11||If the p-value of this estimated difference is lower than 5% the rhinorrhea mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Rhinorrhea Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The rhinorrhea mean score over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.11|-0.32|<0.001
92445165|NCT00653224|184776660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.008||95.0|-0.3|-0.05||If the p-value of this estimated difference is lower than 5% the rhinorrhea mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Rhinorrhea Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The rhinorrhea mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.05|-0.30|0.008
92445166|NCT00653224|184776661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||<|0.001||95.0|-0.3|-0.09||If the p-value of this estimated difference is lower than 5% the rhinorrhea mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Rhinorrhea Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The rhinorrhea mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.09|-0.30|<0.001
92445167|NCT00653224|184776662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.384||95.0|-0.15|0.06||If the p-value of this estimated difference is lower than 5% the nasal congestion mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Congestion Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal congestion mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.06|-0.15|0.384
92445168|NCT00653224|184776663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.063||95.0|-0.24|0.01||If the p-value of this estimated difference is lower than 5% the nasal congestion mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Congestion Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal congestion mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.01|-0.24|0.063
92445169|NCT00653224|184776664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.124||95.0|-0.19|0.02||If the p-value of this estimated difference is lower than 5% the nasal congestion mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Congestion Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal congestion mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.02|-0.19|0.124
92280256|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.1327|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Hypochondriasis: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.4|0.1327
92445170|NCT00653224|184776665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.002||95.0|-0.28|-0.06||If the p-value of this estimated difference is lower than 5% the nasal pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal pruritus mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.06|-0.28|0.002
92445171|NCT00653224|184776666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.016||95.0|-0.28|-0.03||If the p-value of this estimated difference is lower than 5% the nasal pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal pruritus mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.03|-0.28|0.016
92445172|NCT00653224|184776667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.003||95.0|-0.27|-0.06||If the p-value of this estimated difference is lower than 5% the nasal pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal pruritus mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.06|-0.27|0.003
92445173|NCT00653224|184776668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.088||95.0|-0.2|0.01||If the p-value of this estimated difference is lower than 5% the post-nasal drip mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Post-Nasal Drip Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The post-nasal drip mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.01|-0.20|0.088
92445174|NCT00653224|184776669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.117||95.0|-0.23|0.03||If the p-value of this estimated difference is lower than 5% the post-nasal drip mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Post-Nasal Drip Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The post-nasal drip mean score over Week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.03|-0.23|0.117
92445175|NCT00653224|184776670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.065||95.0|-0.21|0.01||If the p-value of this estimated difference is lower than 5% the post-nasal drip mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Post-Nasal Drip Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The post-nasal drip mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.01|-0.21|0.065
92445176|NCT00653224|184776671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|||<|0.001||95.0|-0.32|-0.1||If the p-value of this estimated difference is lower than 5% the ocular pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular pruritus mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.32|<0.001
92445177|NCT00653224|184776672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.002||95.0|-0.33|-0.08||If the p-value of this estimated difference is lower than 5% the ocular pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular pruritus mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-0.33|0.002
92445178|NCT00653224|184776673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|||<|0.001||95.0|-0.32|-0.1||If the p-value of this estimated difference is lower than 5% the ocular pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular pruritus mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.32|<0.001
92445179|NCT00653224|184776674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||<|0.001||95.0|-0.3|-0.08||If the p-value of this estimated difference is lower than 5% the ocular itching/burning mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Itching/Burning Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular itching/burning mean score over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-0.30|<0.001
92171587|NCT03854578|184232194|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.768|TWO_SIDED|90.0|-0.07|0.05|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Right||0.05|-0.07|0.7680
92280257|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0993|TWO_SIDED|95.0|-0.4|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Hypochondriasis: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.4|0.0993
92445180|NCT00653224|184776675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.006||95.0|-0.29|-0.05||If the p-value of this estimated difference is lower than 5% the ocular itching/burning mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Itching/Burning Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular itching/burning mean score over Week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.05|-0.29|0.006
92445181|NCT00653224|184776676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|||<|0.001||95.0|-0.29|-0.08||If the p-value of this estimated difference is lower than 5% the ocular itching/burning mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Itching/Burning Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular itching/burning mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-0.29|<0.001
92445182|NCT00653224|184776677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||<|0.001||95.0|-0.31|-0.1||If the p-value of this estimated difference is lower than 5% the ocular tearing/watering mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Tearing/Watering Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular tearing/watering mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.31|<0.001
92445183|NCT00653224|184776678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.011||95.0|-0.29|-0.04||If the p-value of this estimated difference is lower than 5% the ocular tearing/watering mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Tearing/Watering Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular tearing/watering mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.04|-0.29|0.011
92445184|NCT00653224|184776679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|||<|0.001||95.0|-0.29|-0.08||If the p-value of this estimated difference is lower than 5% the ocular tearing/watering mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Tearing/Watering Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular tearing/watering mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-0.29|<0.001
92445185|NCT00653224|184776680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.004||95.0|-0.27|-0.05||If the p-value of this estimated difference is lower than 5% the ocular redness mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Redness Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular redness mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.05|-0.27|0.004
92445186|NCT00653224|184776681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|||<|0.001||95.0|-0.34|-0.1||If the p-value of this estimated difference is lower than 5% the ocular redness mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Redness Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular redness mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.34|<0.001
92445187|NCT00653224|184776682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||<|0.001||95.0|-0.29|-0.08||If the p-value of this estimated difference is lower than 5% the ocular redness mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Redness Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular redness mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-0.29|<0.001
92445188|NCT00653224|184776683|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||If the p-value is lower than 5% the distribution is considered as different between the two treatment groups.|Wilcoxon (Mann-Whitney)|||The Wilcoxon-Mann-Whitney, or Wilcoxon rank-sum test is generally used to detect 'shift alternatives'. That is, the two distributions have the same general shape, but one of them is shifted relative to the other by a constant amount under the alternative hypothesis.||||<0.001
92445189|NCT00653224|184776684|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||If the p-value is lower than 5% the distribution is considered as different between the two treatment groups.|Wilcoxon (Mann-Whitney)|||The Wilcoxon-Mann-Whitney, or Wilcoxon rank-sum test (Lehmann, 1975 page 23) is generally used to detect 'shift alternatives'. That is, the two distributions have the same general shape, but one of them is shifted relative to the other by a constant amount under the alternative hypothesis.||||<0.001
92446819|NCT00280566|184780547|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.32||0.1084|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1084
92171588|NCT03854578|184232194|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.7997|TWO_SIDED|90.0|-0.08|0.06|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Left||0.06|-0.08|0.7997
92171589|NCT03854578|184232194|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.8334|TWO_SIDED|90.0|-0.08|0.06|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Right||0.06|-0.08|0.8334
92280258|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.11||0.0002|TWO_SIDED|95.0|-0.6|-0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Hypochondriasis: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.2|-0.6|0.0002
92280259|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0056|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Hypochondriasis: Change From Baseline in HAM-D Individual Item Score at Day 21||-0.1|-0.5|0.0056
92446820|NCT00280566|184780547|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.27||0.038|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0380
92446821|NCT00280566|184780547|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.35||0.2649|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.2649
92446822|NCT00280566|184780547|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.27||0.2394|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.2394
92446823|NCT00280566|184780548|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.29||0.8117|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.8117
92446824|NCT00280566|184780548|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.26||0.0443|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0443
92446825|NCT00280566|184780548|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.28||0.3039|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.3039
92446826|NCT00280566|184780548|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.46||0.9953|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.9953
92446827|NCT00280566|184780548|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.32||0.1653|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1653
92446828|NCT00280566|184780548|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.32||0.5771|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.5771
92446829|NCT01077960|184780551|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92446830|NCT01077960|184780552|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92446831|NCT01077960|184780553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92446832|NCT01077960|184780554|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92239263|NCT00431847|184382378|SUPERIORITY_OR_OTHER||Chi-Squared|3.2||||0.3617|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.3617
92445190|NCT00653224|184776685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.027||95.0|-2.56|-0.16||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 1) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 1) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.16|-2.56|0.027
92445191|NCT00653224|184776686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.554||95.0|-1.56|0.84||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 1) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 1) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.84|-1.56|0.554
92445192|NCT00653224|184776687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.015||95.0|-2.72|-0.29||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 1) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 1) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.29|-2.72|0.015
92445193|NCT00653224|184776688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.016||95.0|-8.34|-0.86||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 2) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 2) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.86|-8.34|0.016
92445194|NCT00653224|184776689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.33||||0.017||95.0|-7.88|-0.79||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 2) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 2) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.79|-7.88|0.017
92445195|NCT00653224|184776690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.25||||0.027||95.0|-8.02|-0.47||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 2) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 2) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.47|-8.02|0.027
92445196|NCT00653224|184776691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.44||||0.023||95.0|-8.25|-0.63||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 3) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 3) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.63|-8.25|0.023
92445197|NCT00653224|184776692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.56||||0.015||95.0|-8.23|-0.89||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 3) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 3) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.89|-8.23|0.015
92446833|NCT01077960|184780555|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||||||0.007
92446834|NCT01077960|184780556|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|||||||0.015
92171590|NCT03854578|184232194|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.7402|TWO_SIDED|90.0|-0.07|0.05|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Left||0.05|-0.07|0.7402
92239264|NCT00431847|184382378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.1574|STANDARD_ERROR_OF_MEAN|2.7573||0.2532|TWO_SIDED|95.0|-2.2715|8.5863|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||8.5863|-2.2715|0.2532
92445198|NCT00653224|184776693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.11||||0.036||95.0|-7.95|-0.27||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 3) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 3) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.27|-7.95|0.036
92445199|NCT00653224|184776694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.51||||0.102||95.0|-9.95|0.93||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 4) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 4) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.93|-9.95|0.102
92171591|NCT03854578|184232194|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.812|TWO_SIDED|90.0|-0.06|0.08|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Right||0.08|-0.06|0.8120
92171592|NCT02991534|184232252|SUPERIORITY||Odds Ratio (OR)|1.09||||0.003|TWO_SIDED|95.0|1.03|1.152|||Non-linear model with Logit|Non-linear model with Logit Link Function with Robust Standard Errors||||1.152|1.030|.003
92239265|NCT00431847|184382378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2227|STANDARD_ERROR_OF_MEAN|3.9633||0.758|TWO_SIDED|95.0|-6.5833|9.0286|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||9.0286|-6.5833|0.7580
92445200|NCT00653224|184776695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44||||0.493||95.0|-5.66|2.78||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 4) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 4) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||2.78|-5.66|0.493
92445201|NCT00653224|184776696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.38||||0.117||95.0|-9.91|1.15||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 4) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 4) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||1.15|-9.91|0.117
92445202|NCT00653224|184776697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.58||||0.409||95.0|-15.65|6.49||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 5) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 5) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||6.49|-15.65|0.409
92445203|NCT00653224|184776698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.54||||0.432||95.0|-16.1|7.01||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 5) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 5) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||7.01|-16.10|0.432
92445204|NCT00653224|184776699|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.24||||0.45||95.0|-15.46|6.99||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 5) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 5) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||6.99|-15.46|0.450
92171593|NCT02991534|184232253|SUPERIORITY||Odds Ratio (OR)|1.0||||0.91|TWO_SIDED|95.0|0.976|1.022|||Non-linear model with Logit|Non-linear model with Logit Link Function with Robust Standard Errors||||1.022|0.976|0.91
92239266|NCT00431847|184382378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.1649|STANDARD_ERROR_OF_MEAN|5.3759||0.1837|TWO_SIDED|95.0|-17.7484|3.4187|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||3.4187|-17.7484|0.1837
92171594|NCT02991534|184232254|SUPERIORITY||Odds Ratio (OR)|1.06||||0.265|TWO_SIDED|95.0|0.959|1.165|||Non-linear model with Logit|Non-linear model with Logit Link Function with Robust Standard Errors||||1.165|.959|.265
92280260|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.11||0.0122|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Hypochondriasis: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.5|0.0122
92445205|NCT00653224|184776700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.37||||0.251||95.0|-17.4|4.67||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 6) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 6) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||4.67|-17.40|0.251
92446835|NCT01702233|184780557|NON_INFERIORITY_OR_EQUIVALENCE|All statistical analyses were of exploratory nature. A one-sided test of non-inferiority of Traumeel®S with respect to dexamethasone at level 0.025 was computed using an analysis of covariance (ANCOVA) model with treatment group as qualitative factor and the baseline value of the abduction rotation pain VAS for active external rotation as a covariate. The test decision was based on a one-sided 97.5% confidence interval . The non-inferiority margin was set to 13 mm on a 0-100 mm VAS scale.|Mean Difference (Final Values)|13.0|STANDARD_DEVIATION|13.0|<|0.05|ONE_SIDED|95.0||97.5|||ANCOVA|||||97.5||<0.05
92446836|NCT02800148|184780664|EQUIVALENCE|provides 85% power of success|equivalence ratio|107.0|||||TWO_SIDED|90.0|96.1|115.5||No p-value as calculated for bioequivalence, just a T/R ratio and 90% confidence interval|Fieller's method|||||115.5|96.1|
92171595|NCT02991534|184232255|SUPERIORITY||Odds Ratio (OR)|1.01||||0.015|TWO_SIDED|95.0|1.002|1.022|||Non-linear model with Logit|Non-linear model with Logit Link Function with Robust Standard Errors||||1.022|1.002|0.015
92446837|NCT00613509|184780671|SUPERIORITY_OR_OTHER|||||||0.9406|TWO_SIDED|95.0|||||Log Rank|||||||0.9406
92446838|NCT00613509|184780671|SUPERIORITY_OR_OTHER|||||||0.9179|TWO_SIDED|95.0|||||Likelihood ratio test|||||||0.9179
92446839|NCT03465878|184780674|SUPERIORITY||Ratio of geometric least squares means|0.999||||0.9813|TWO_SIDED|95.0|0.918|1.09|||Mixed Models Analysis|||||1.09|0.918|0.9813
92446840|NCT03465878|184780674|SUPERIORITY||Ratio of geometric least squares means|1.06||||0.1638|TWO_SIDED|95.0|0.976|1.15|||Mixed Models Analysis|||||1.15|0.976|0.1638
92446841|NCT03465878|184780674|SUPERIORITY||Ratio of geometric least squares means|1.01||||0.7623|TWO_SIDED|95.0|0.933|1.1|||Mixed Models Analysis|||||1.10|0.933|0.7623
92446842|NCT03465878|184780674|SUPERIORITY||Ratio of geometric least squares means|1.04||||0.2952|TWO_SIDED|95.0|0.962|1.13|||Mixed Models Analysis|||||1.13|0.962|0.2952
92446843|NCT03465878|184780674|SUPERIORITY||Ratio of geometric least squares means|0.97||||0.4052|TWO_SIDED|95.0|0.901|1.04|||Mixed Models Analysis|||||1.04|0.901|0.4052
92446844|NCT03465878|184780674|SUPERIORITY||Ratio of geometric least squares means|1.02||||0.5314|TWO_SIDED|95.0|0.948|1.11|||Mixed Models Analysis|||||1.11|0.948|0.5314
92446845|NCT02540954|184780676|NON_INFERIORITY|Non-inferiority margin is 5 letters.|Least squares mean difference|0.22|||<|0.0001|TWO_SIDED|95.0|-1.51|1.96|||ANCOVA|||||1.96|-1.51|< 0.0001
92446846|NCT02540954|184780677|NON_INFERIORITY|Non inferiority margin is 7%.|Treatment difference in %|1.1|||||TWO_SIDED|95.0|-3.7|6.0||||||||6.0|-3.7|
92446847|NCT02540954|184780682|OTHER||Mean Difference (Final Values)|-1.88|||||TWO_SIDED|95.0|-4.152|0.392||||||||0.392|-4.152|
92446848|NCT01806896|184780703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|1.68||0.68|TWO_SIDED|90.0|-3.56|2.15||2-sided p-value|ANCOVA|Treatment differences are based on a mixed effect model including treatment as fixed effects and baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Day 28)||2.15|-3.56|0.68
92446849|NCT01806896|184780705|SUPERIORITY_OR_OTHER||Least square mean|-0.1|STANDARD_ERROR_OF_MEAN|0.36||0.79|TWO_SIDED|90.0|-0.72|0.52||2-sided p-value|ANCOVA|Treatment differences are based on a mixed effect model including treatment as fixed effect and baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Cue Rew\>Neut Left VS)||0.52|-0.72|0.79
92446850|NCT01806896|184780705|SUPERIORITY_OR_OTHER||Least square mean|-0.15|STANDARD_ERROR_OF_MEAN|0.37||0.7|TWO_SIDED|90.0|-0.8|0.51||2-sided p-value|ANCOVA|Treatment differences are based on a mixed effect model including treatment as fixed effect and baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Cue Rew\>Neut Right VS)||0.51|-0.80|0.70
92446851|NCT01806896|184780705|SUPERIORITY_OR_OTHER||Least square mean|-0.25|STANDARD_ERROR_OF_MEAN|0.37||0.51|TWO_SIDED|90.0|-0.89|0.4||2-sided p-value|ANCOVA|Treatment differences are based on a mixed effect model including treatment as fixed effect and baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Out\_win\_Rew\>Out\_win N Left VS)||0.40|-0.89|0.51
92446852|NCT01806896|184780705|SUPERIORITY_OR_OTHER||Least square mean|-0.53|STANDARD_ERROR_OF_MEAN|0.33||0.13|TWO_SIDED|90.0|-1.1|0.04||2-sided p-value|ANCOVA|Treatment differences are based on a mixed effect model including treatment as fixed effect and baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Out\_win\_Rew\>Out\_win N Right VS)||0.04|-1.10|0.13
92446853|NCT01806896|184780708|SUPERIORITY_OR_OTHER||Least square mean|7.3|STANDARD_ERROR_OF_MEAN|3.57||0.04|TWO_SIDED|90.0|1.43|13.18||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Emotional Incentive-Neutral) Day 28||13.18|1.43|0.04
92446854|NCT01806896|184780708|SUPERIORITY_OR_OTHER||Least square mean|7.57|STANDARD_ERROR_OF_MEAN|3.57||0.03|TWO_SIDED|90.0|1.69|13.45||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Emotional Incentive-Positive) Day 28||13.45|1.69|0.03
92280261|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1305|TWO_SIDED|95.0|-0.3|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Loss of Weight According to Patient: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.3|0.1305
92280262|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.6638|TWO_SIDED|95.0|-0.2|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Loss of Weight According to Patient: Change From Baseline in HAM-D Individual Item Score at Day 8||0.1|-0.2|0.6638
92280263|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.4341|TWO_SIDED|95.0|-0.2|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Loss of Weight According to Patient: Change From Baseline in HAM-D Individual Item Score at Day 15||0.1|-0.2|0.4341
92280264|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.9085|TWO_SIDED|95.0|-0.1|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Loss of Weight According to Patient: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.1|0.9085
92280265|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.182|TWO_SIDED|95.0|-0.3|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Loss of Weight According to Patient: Change From Baseline in HAM-D Individual Item Score at Day 45||0.1|-0.3|0.1820
92445206|NCT00653224|184776701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.06||||0.258||95.0|-19.48|5.36||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 6) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 6) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||5.36|-19.48|0.258
92445207|NCT00653224|184776702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.96||||0.288||95.0|-17.13|5.22||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 6) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 6) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||5.22|-17.13|0.288
92446855|NCT01806896|184780708|SUPERIORITY_OR_OTHER||Least square mean|7.28|STANDARD_ERROR_OF_MEAN|3.56||0.04|TWO_SIDED|90.0|1.41|13.15||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Emotional Incentive-Negative) Day 28||13.15|1.41|0.04
92446856|NCT01806896|184780708|SUPERIORITY_OR_OTHER||Least square mean|0.98|STANDARD_ERROR_OF_MEAN|3.58||0.78|TWO_SIDED|90.0|-4.91|6.87||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Monetary Incentive-0.01 Euro) Day 28||6.87|-4.91|0.78
92280266|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.1593|TWO_SIDED|95.0|-0.1|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insight: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.1|0.1593
92280267|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.6555|TWO_SIDED|95.0|-0.1|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insight: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.1|0.6555
92446857|NCT01806896|184780708|SUPERIORITY_OR_OTHER||Least square mean|4.78|STANDARD_ERROR_OF_MEAN|3.58||0.18|TWO_SIDED|90.0|-1.11|10.67||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Monetary Incentive-0.1 Euro) Day 28||10.67|-1.11|0.18
92446858|NCT01806896|184780708|SUPERIORITY_OR_OTHER||Least square mean|16.35|STANDARD_ERROR_OF_MEAN|3.58|<|0.01|TWO_SIDED|90.0|10.46|22.24||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Monetary Incentive-1 Euro) Day 28||22.24|10.46|<0.01
92446859|NCT02434770|184780711|EQUIVALENCE|Primary efficacy objective 1 of this study was to demonstrate the equivalence of two lots of BBIBP bOPV in terms of post-vaccination anti-polio neutralizing antibody GMTs. The immune response of the two lots of BBIBP bOPV would be declared equivalent if the 95% confidence interval (CI) for the serotype-specific GMT ratio for both serotypes was contained within (0.5, 2.0).|Ratio of Geometric Mean Titers|0.84|||||TWO_SIDED|95.0|0.65|1.08|||||Lot 1 / Lot 2|||1.08|0.65|
92446860|NCT02434770|184780711|NON_INFERIORITY|Secondary efficacy objective 2 of this study was to demonstrate the non-inferiority of the two lots of BBIBP bOPV combined to the WHO control in terms of post-vaccination anti-polio neutralizing antibody GMTs. The two Lots combined would be declared non-inferior to the WHO control if the lower limit of the 95% CI for the serotype-specific GMT ratio of BBIBP Lots 1+2 over WHO control for both serotypes was \> 0.5.|Ratio of Geometric Mean Titers|1.08|||||TWO_SIDED|95.0|0.87|1.34|||||Lot 1 + Lot 2 / BioFarma bOPV|||1.34|0.87|
92445208|NCT00653224|184776703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.91|||<|0.001||95.0|-9.34|-2.47||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 7) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 7) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-2.47|-9.34|<0.001
92446861|NCT02434770|184780712|EQUIVALENCE|Primary efficacy objective 1 of this study was to demonstrate the equivalence of two lots of BBIBP bOPV in terms of post-vaccination anti-polio neutralizing antibody GMTs. The immune response of the two lots of BBIBP bOPV would be declared equivalent if the 95% confidence interval (CI) for the serotype-specific GMT ratio for both serotypes was contained within (0.5, 2.0).|Ratio of Geometric Mean Titers|0.92|||||TWO_SIDED|95.0|0.73|1.15|||||Lot 1 / Lot 2|||1.15|0.73|
92171596|NCT03732820|184232323|SUPERIORITY||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.54|0.81||A multiple testing procedure is employed across primary (rPFS) and key secondary endpoints (OS) to strongly control overall type 1 error at 2.5% one-sided.|Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||0.81|0.54|<0.0001
92446862|NCT02434770|184780712|NON_INFERIORITY|Secondary efficacy objective 2 of this study was to demonstrate the non-inferiority of the two lots of BBIBP bOPV combined to the WHO control in terms of post-vaccination anti-polio neutralizing antibody GMTs. The two Lots combined would be declared non-inferior to the WHO control if the lower limit of the 95% CI for the serotype-specific GMT ratio of BBIBP Lots 1+2 over WHO control for both serotypes was \> 0.5.|Ratio of Geometric Mean Titers|1.47|||||TWO_SIDED|95.0|1.21|1.79|||||BBIBP bOPV Lot 1 + Lot 2 / BioFarma bOPV|||1.79|1.21|
92446863|NCT02434770|184780713|NON_INFERIORITY|Primary efficacy objective 2 of this study was to demonstrate the non-inferiority of the two lots of BBIBP bOPV combined to the WHO control in terms of post-vaccination anti-polio neutralizing antibody seroconversion rates. The immune response of the combined lots of BBIBP bOPV would be declared non-inferior to the WHO control if the lower limit of the 95% CI for the difference in percent responders is greater than negative 10, provided the two lots are declared equivalent.|Difference in seroconversion rate|1.5|||||TWO_SIDED|95.0|-0.5|4.6|||||BBIBP bOPV (Lot 1 + Lot 2) - BioFarma bOPV|For serotype 1||4.6|-0.5|
92446864|NCT02434770|184780713|NON_INFERIORITY|Primary efficacy objective 2 of this study was to demonstrate the non-inferiority of the two lots of BBIBP bOPV combined to the WHO control in terms of post-vaccination anti-polio neutralizing antibody seroconversion rates. The immune response of the combined lots of BBIBP bOPV would be declared non-inferior to the WHO control if the lower limit of the 95% CI for the difference in percent responders is greater than negative 10, provided the two lots are declared equivalent.|Difference in seroconversion rate|2.2|||||TWO_SIDED|95.0|-0.1|5.6|||||BBIBP bOPV (Lot 1 + Lot 2) - BioFarma bOPV|For Serotype 3||5.6|-0.1|
92446865|NCT02434770|184780713|OTHER|Secondary efficacy objective 1 of this study was to show consistency of the two lots in terms of post-vaccination anti-polio neutralizing antibody seroconversion rates. The two lots would be declared consistent if the upper and lower limits of the 95% CI for the difference in seroconversion rates is within 10 percentage points of the observed difference for both serotypes.|Difference in seroconversion rate|-0.4|||||TWO_SIDED|95.0|-3.0|2.1|||||Lot 1 - Lot 2|For Serotype 1||2.1|-3.0|
92446866|NCT02434770|184780713|NON_INFERIORITY|Secondary efficacy objective 1 of this study was to show consistency of the two lots in terms of post-vaccination anti-polio neutralizing antibody seroconversion rates. The two lots would be declared consistent if the upper and lower limits of the 95% CI for the difference in seroconversion rates is within 10 percentage points of the observed difference for both serotypes.|Difference in seroconversion rate|0.1|||||TWO_SIDED|95.0|-2.6|2.8|||||Lot 1 - Lot 2|For Serotype 3||2.8|-2.6|
92446867|NCT02434770|184780714|NON_INFERIORITY|To show non-inferiority of Lots 1+2 combined versus BioFarma bOPV Control, the lower limit of the 95% CI must be \> 0.5.|Ratio of Geometric Mean Titers|1.2|||||TWO_SIDED|95.0|0.89|1.63|||||Lot 1 + Lot 2 / BioFarma bOPV|||1.63|0.89|
92446868|NCT02434770|184780715|OTHER||Difference in seroprotection rate|-0.09||||0.5586|TWO_SIDED|95.0|-3.86|4.48|||Fisher's exact 1-tailed test|Fisher's exact 1-tailed test of a lower rate in Lots 1+2|BBIBP bOPV (Lot 1 + Lot 2) - BioFarma bOPV|||4.48|-3.86|0.5586
92446869|NCT02434770|184780716|NON_INFERIORITY|To show non-inferiority of Lots 1+2 combined versus BioFarma bOPV Control, the lower limit of the 95% CI must be \> 0.5.|Ratio of Geometric Mean Titers|0.99|||||TWO_SIDED|95.0|0.71|1.38|||||Lot 1 + Lot 2 / BioFarma bOPV|||1.38|0.71|
92446870|NCT01282424|184780724|SUPERIORITY||||||<|0.0001||||||The null hypothesis is ≤ 20%.|Exact binomial test|||||||< 0.0001
92446871|NCT04074317|184780750|EQUIVALENCE|Treatment groups were compared using an analysis of variance (ANOVA) model, including sequence, period, and treatment as fixed effects and patient within sequence as random effect.|||||<|0.0001||||||Least-squares geometric means for ln-transformed data.|ANOVA|||||||<0.0001
92446872|NCT04074317|184780750|EQUIVALENCE|Treatment groups were compared using an analysis of variance (ANOVA) model, including sequence, period, and treatment as fixed effects and patient within sequence as random effect.||||||0.694|||||||ANOVA|||||||0.694
92446873|NCT04074317|184780750|EQUIVALENCE|Treatment groups were compared using an analysis of variance (ANOVA) model, including sequence, period, and treatment as fixed effects and patient within sequence as random effect.|||||<|0.0001|||||||ANOVA|||||||<0.0001
92446874|NCT04074317|184780751|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups.|LS Mean Difference|-21.29||||0.041|TWO_SIDED|95.0|-41.23|-1.36|||ANOVA|||Plasma Glucose Levels: \>180 mg/dL: 0 to 90 minutes||-1.36|-41.23|0.041
92446875|NCT04074317|184780751|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups.|LS Mean Difference|-7.45||||0.453|TWO_SIDED|95.0|-31.43|16.54|||ANOVA|||Plasma Glucose Levels: \>180 mg/dL: 0 to 90 minutes||16.54|-31.43|0.453
92446876|NCT04074317|184780751|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|13.85||||0.161|TWO_SIDED|95.0|-8.46|36.15|||ANOVA|||Plasma Glucose Levels: \>180 mg/dL: 0 to 90 minutes||36.15|-8.46|0.161
92445209|NCT00653224|184776704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.62|||<|0.001||95.0|-9.88|-3.35||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 7) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 7) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-3.35|-9.88|<0.001
92445210|NCT00653224|184776705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.69||||0.001||95.0|-9.16|-2.21||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 7) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 7) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-2.21|-9.16|0.001
92445211|NCT00653224|184776706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.027||95.0|-1.29|-0.08||If the p-value of this estimated difference is lower than 5% the mean change from baseline in ESS score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in ESS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in ESS score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-1.29|0.027
92445212|NCT00653224|184776707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.535||95.0|-0.7|0.37||If the p-value of this estimated difference is lower than 5% the mean change from baseline in ESS score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in ESS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in ESS score at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.37|-0.70|0.535
92239267|NCT00431847|184382379|SUPERIORITY_OR_OTHER||Slope|0.4741|STANDARD_ERROR_OF_MEAN|0.03909|<|0.0001|TWO_SIDED|95.0|0.3971|0.5511|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||0.5511|0.3971|<0.0001
92445213|NCT00653224|184776708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.042||95.0|-1.26|-0.02||If the p-value of this estimated difference is lower than 5% the mean change from baseline in ESS score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in ESS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in ESS score at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.02|-1.26|0.042
92445214|NCT00653224|184776709|SUPERIORITY_OR_OTHER|||||||0.171||95.0||||If the p-value of this estimated difference is lower than 5% the change from baseline is considered as different between the two treatment groups.|Repeated measure analysis (CATMOD)|||The Null Hypothesis is expressed as follows: 'The change from baseline to endpoint visit in score category (ESS score \< 8 or \>= 8) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||||0.171
92445215|NCT02896400|184776723|SUPERIORITY||Odds Ratio (OR)|1.8||||0.01|TWO_SIDED|95.0|1.1|2.8|||Regression, Logistic|Adjusted for gender, age, race/ethnicity, baseline daily cigarette consumption||8 arms including BNI (BNI only, BNI+NRT, BNI+QL, BNI+Text, BNI+NRT+QL, BNI+NRT+Text, BNI+QL+Text, BNI+NRT+QL+Text) compared to the 8 arms that do not include BNI (Control, NRT only, QL only, Text only, NRT+QL, NRT+Text, QL+Text, NRT+QL+Text)||2.8|1.1|.01
92446877|NCT04074317|184780751|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|-23.93|||<|0.001|TWO_SIDED|95.0|-35.37|-12.48|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 180 minutes||-12.48|-35.37|<0.001
92446878|NCT04074317|184780751|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|3.1||||0.564|TWO_SIDED|95.0|-7.8|14.0|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 180 minutes||14.00|-7.80|0.564
92446879|NCT04074317|184780751|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|27.03|||<|0.001|TWO_SIDED|95.0|15.96|38.09|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 180 minutes||38.09|15.96|<0.001
92239268|NCT00431847|184382379|SUPERIORITY_OR_OTHER||Chi-Squared|1.83||||0.6075|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.6075
92240105|NCT00570739|184383816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.0063|TWO_SIDED|95.0|0.03|0.16||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||High Density Lipoprotein Particles||0.16|0.03|0.0063
92240106|NCT00570739|184383816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.002|TWO_SIDED|95.0|0.04|0.16||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||High Density Lipoprotein Particles||0.16|0.04|0.0020
92240107|NCT00570739|184383817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.4||||0.0022|TWO_SIDED|95.0|8.9|39.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes in Calculated Total Triglycerides||39.9|8.9|0.0022
92445216|NCT02896400|184776723|SUPERIORITY||Odds Ratio (OR)|2.1||||0.001|TWO_SIDED|95.0|1.3|3.2|||Regression, Logistic|adjusted for gender, age, race/ethnicity, baseline daily cigarette consumption||8 arms that include NRT (NRT only, BNI+NRT, NRT+QL, NRT+Text, BNI+NRT+QL, BNI+NRT+Text, NRT+QL+Text, BNI+NRT+QL+Text) compared to 8 arms that do not include NRT (Control, BNI only, QL only, Text only, BNI+QL, BNI+Text, QL+Text, BNI+QL+Text)||3.2|1.3|.001
92445217|NCT02896400|184776723|SUPERIORITY||Odds Ratio (OR)|1.4||||0.14|TWO_SIDED|95.0|0.9|2.2|||Regression, Logistic|adjusted for gender, age, race/ethnicity, baseline daily cigarette consumption||8 arms including QL intervention (QL only, BNI+QL, NRT+QL, QL+Text, BNI+NRT+QL, BNI+QL+Text, NRT+QL+Text, BNI+NRT+QL+Text) compared to all 8 arms that did not include QL (Control, BNI only, NRT only, Text only, BNI+NRT, BNI+Text, NRT+Text, BNI+NRT+Text)||2.2|0.9|0.14
92445218|NCT02896400|184776723|SUPERIORITY||Odds Ratio (OR)|1.1||||0.64|TWO_SIDED|95.0|0.7|1.7|||Regression, Logistic|adjusted for gender, age, race/ethnicity, baseline daily cigarette consumption||8 arms including Text (Text only, BNI+Text, NRT+Text, QL+Text, BNI+NRT+Text, BNI+QL+Text, NRT+QL+Text, BNI+NRT+QL+Text) compared to 8 arms that do not include Text (Control, BNI only, NRT only, QL only, BNI+NRT, BNI+QL, NRT+QL, BNI+NRT+QL)||1.7|0.7|0.64
92445219|NCT02984020|184776734|OTHER||Odds Ratio (OR)|0.77|||<|0.0001||95.0|0.69|0.86|||Regression, Logistic|Multiple logistic regression including total treatment duration of Xeljanz as factor||||0.86|0.69|<0.0001
92445220|NCT02984020|184776734|OTHER||Odds Ratio (OR)|2.43|||<|0.0001||95.0|1.64|3.59|||Regression, Logistic|Multiple logistic regression including other past/present disease as factor||||3.59|1.64|<0.0001
92445221|NCT02984020|184776745|OTHER||Odds Ratio (OR)|1.42||||0.0053|TWO_SIDED|95.0|1.11|1.82|||Regression, Logistic|Multiple logistic regression including total duration of treatment with Xeljanz as factor||||1.82|1.11|0.0053
92445222|NCT00934544|184776753|SUPERIORITY_OR_OTHER||Kaplan-Meir estimate|28.1|STANDARD_DEVIATION|22.123|<|0.0001|TWO_SIDED|95.0|21.3|36.6|||Cochran-Mantel-Haenszel|||||36.6|21.3|<0.0001
92445223|NCT02643251|184776764|SUPERIORITY|||||||0.3361|||||||Mixed Models Analysis|||||||0.3361
92445224|NCT00430092|184776814|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mantel Haenszel|||||||<0.0001
92445225|NCT01956110|184776815|NON_INFERIORITY|The lower bound of the 95% CI was well above the pre-specified non-inferiority limit of -8.0%. Thus, non-inferiority of FE 999049 to GONAL-F with regard to ongoing pregnancy rate was demonstrated.|Treatment difference|-0.9|||||TWO_SIDED|95.0|-5.9|4.1||||||The pre-specified non-inferiority margin was -8.0% (absolute). Non-inferiority was evaluated based on a two-sided 95% confidence interval (CI) derived based on the asymptotic normal distribution. The treatment comparison was adjusted for age (\<35, 35-37 and 38-40 years) by using the Mantel-Haenszel method to combine results across age-strata.||4.1|-5.9|
92445226|NCT01956110|184776816|NON_INFERIORITY|The lower bound of the 95% CI was well above the pre-specified non-inferiority limit of -8.0%. Thus, non-inferiority of FE 999049 to GONAL-F with regard to ongoing implantation rate was demonstrated.|Treatment difference|-0.6|||||TWO_SIDED|95.0|-6.1|4.8||||||The pre-specified non-inferiority margin was -8.0% (absolute). Non-inferiority was evaluated based on a two-sided 95% CI derived based on the asymptotic normal distribution. The treatment comparison was adjusted for age (\<35, 35-37 and 38-40 years) by using the Mantel-Haenszel method to combine results across age-strata.||4.8|-6.1|
92445227|NCT01956110|184776817|NON_INFERIORITY|The lower bound of the 95% CI was well above -8.0% (pre-specified non-inferiority limit for the co-primary endpoints). Thus, the result was supportive of the co-primary endpoint analyses.|Treatment difference|-1.6|||||TWO_SIDED|95.0|-6.7|3.4||||||Treatment groups were compared using a two-sided 95% CI derived based on the asymptotic normal distribution. The treatment comparison was adjusted for age (\<35, 35-37 and 38-40 years) by using the Mantel-Haenszel method to combine results across age-strata.||3.4|-6.7|
92445228|NCT01956110|184776818|NON_INFERIORITY|The lower bound of the 95% CI was well above -8.0% (pre-specified non-inferiority limit for the co-primary endpoints). Thus, the result was supportive of the co-primary endpoint analyses.|Treatment difference|-1.4|||||TWO_SIDED|95.0|-7.0|4.2||||||Treatment groups were compared using a two-sided 95% CI derived based on the asymptotic normal distribution. The treatment comparison was adjusted for age (\<35, 35-37 and 38-40 years) by using the Mantel-Haenszel method to combine results across age-strata.||4.2|-7.0|
92445229|NCT01956110|184776819|OTHER|A logistic regression model was fitted to the data including AMH, log(AMH)\^2, treatment group and interactions between treatment group and AMH and treatment group and log(AMH)\^2 in the linear predictor. A second logistic regression model (nested within the first model) was fitted including AMH and log(AMH)\^2 in the linear predictor.|||||=|0.001||||||Inclusion of treatment provides a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: \<4 or \>=15 oocytes retrieved||||=0.001
92445230|NCT01956110|184776819|OTHER|A logistic regression model was fitted to the data including AMH, log(AMH)2, treatment group and interactions between treatment group and AMH and treatment group and log(AMH)\^2 in the linear predictor. A second logistic regression model (nested within the first model) was fitted including AMH and log(AMH)\^2 in the linear predictor.|||||=|0.002||||||Inclusion of treatment provides a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: \<4 or \>=20 oocytes retrieved||||=0.002
92446880|NCT04074317|184780751|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|-1.74||||0.813|TWO_SIDED|95.0|-16.7|13.22|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 360 minutes||13.22|-16.70|0.813
92446881|NCT04074317|184780751|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|2.35||||0.73|TWO_SIDED|95.0|-11.47|16.17|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 360 minutes||16.17|-11.47|0.730
92446882|NCT04074317|184780751|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|4.09||||0.582|TWO_SIDED|95.0|-10.97|19.15|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 360 minutes||19.15|-10.97|0.582
92239269|NCT00431847|184382379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9534|STANDARD_ERROR_OF_MEAN|1.2763||0.4558|TWO_SIDED|95.0|-3.4675|1.5607|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.5607|-3.4675|0.4558
92239270|NCT00431847|184382379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3505|STANDARD_ERROR_OF_MEAN|1.977||0.0914|TWO_SIDED|95.0|-7.2442|0.5432|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.5432|-7.2442|0.0914
92239271|NCT00431847|184382379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.37|STANDARD_ERROR_OF_MEAN|3.0921||0.007|TWO_SIDED|95.0|-14.4589|-2.281|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||-2.2810|-14.4589|0.007
92239272|NCT00431847|184382380|SUPERIORITY_OR_OTHER||Slope|-0.2169|STANDARD_ERROR_OF_MEAN|0.04148|<|0.0001|TWO_SIDED|95.0|-0.2987|-0.1352|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.1352|-0.2987|<0.0001
92239273|NCT00431847|184382380|SUPERIORITY_OR_OTHER||Chi-Squared|6.37||||0.095|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.0950
92445231|NCT01956110|184776820|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.|||||=|0.291||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Early OHSS (any grade)||||=0.291
92445232|NCT01956110|184776820|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.|||||=|0.644||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Early OHSS (moderate/severe)||||=0.644
92445233|NCT01956110|184776820|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.|||||=|0.005||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Preventive interventions||||=0.005
92239274|NCT00431847|184382380|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7246|STANDARD_ERROR_OF_MEAN|1.3351||0.5878|TWO_SIDED|95.0|-1.9056|3.3547|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||3.3547|-1.9056|0.5878
92239275|NCT00431847|184382380|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2466|STANDARD_ERROR_OF_MEAN|2.0697||0.9053|TWO_SIDED|95.0|-4.3231|3.8299|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||3.8299|-4.3231|0.9053
92239276|NCT00431847|184382380|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3457|STANDARD_ERROR_OF_MEAN|3.2285||0.4682|TWO_SIDED|95.0|-8.7034|4.012|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||4.0120|-8.7034|0.4682
92239277|NCT00431847|184382381|SUPERIORITY_OR_OTHER||Slope|0.04639|STANDARD_ERROR_OF_MEAN|0.03562||0.1938|TWO_SIDED|95.0|-0.02369|0.1165|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||0.1165|-0.02369|0.1938
92239278|NCT00431847|184382381|SUPERIORITY_OR_OTHER||Chi-Squared|2.43||||0.4884|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.4884
92445234|NCT01956110|184776820|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.|||||=|0.046||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Early OHSS (any grade) and/or preventive interventions||||=0.046
92445235|NCT01956110|184776820|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.|||||=|0.019||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Early OHSS (moderate/severe) and/or preventive interventions||||=0.019
92445236|NCT01956110|184776821|EQUIVALENCE|Treatment groups were compared using a logistic regression model with treatment and age (\<35, 35- 37, and 38-40 years) as factors.|Odds Ratio (OR)|1.38|||=|0.302|TWO_SIDED|95.0|0.74|2.57||P-value corresponds to test for treatment difference.|Likelihood ratio test|||Treatment comparison: Cycle cancelled due to poor response||2.57|0.74|=0.302
92445237|NCT01956110|184776821|EQUIVALENCE|Treatment groups were compared using a logistic regression model with treatment and age (\<35, 35-37, and 38-40 years) as factors.|Odds Ratio (OR)|0.42||||0.019|TWO_SIDED|95.0|0.2|0.9||P-value corresponds to test for treatment difference.|Likelihood ratio test|||Treatment comparison:Triggering with GnRH agonist||0.9|0.2|0.019
92280268|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.03||0.017|TWO_SIDED|95.0|-0.1|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insight: Change From Baseline in HAM-D Individual Item Score at Day 15||0.0|-0.1|0.0170
92445238|NCT01956110|184776822|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.692|||||||van Elteren|||Treatment comparison: Number of oocytes retrieved||||=0.692
92445239|NCT01956110|184776823|OTHER|"A logistic regression model was fitted to the data including AMH, log(AMH)\^2, treatment group and interactions between treatment group and AMH and treatment group and log(AMH)\^2 in the linear predictor.~A second logistic regression model (nested within the first model) was fitted including AMH and log(AMH)\^2 in the linear predictor."|||||=|0.019||||||Inclusion of treatment provides a better fit to the data|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||The relation between ovarian response potential (AMH at screening) and probability of achieving the targeted response was modelled using logistic regression models.||||=0.019
92445240|NCT01956110|184776824|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.909|||||||van Elteren|||Treatment comparison: Number of metaphase II oocytes||||=0.909
92445241|NCT01956110|184776825|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).||||||0.53|||||||van Elteren|||Treatment comparison: Fertilisation rate||||0.53
92445242|NCT01956110|184776826|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.59|||||||van Elteren|||Treatment comparison: Number of embryos||||=0.59
92445243|NCT01956110|184776826|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.414|||||||van Elteren|||Treatment comparison: Good quality embryos||||=0.414
92445244|NCT01956110|184776827|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.344|||||||van Elteren|||Treatment comparison: Number of blastocysts||||= 0.344
92445245|NCT01956110|184776827|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.58|||||||van Elteren|||Treatment comparison: Good-quality blastocysts||||= 0.58
92445246|NCT01956110|184776828|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||<|0.001|||||||van Elteren|||Treatment comparison: Total gonadotropin dose||||<0.001
92445247|NCT01956110|184776829|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.062|||||||van Elteren|||Treatment comparison: Number of stimulation days||||=0.062
92445248|NCT01956110|184776830|EQUIVALENCE|Treatment groups were compared using a chi-square test.|||||=|0.178|||||||Chi-squared|||Treatment comparison: Investigator-requested gonadotropin dose adjustments||||=0.178
92239279|NCT00431847|184382381|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6174|STANDARD_ERROR_OF_MEAN|1.3991||0.6593|TWO_SIDED|95.0|-2.1348|3.3696|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||3.3696|-2.1348|0.6593
92445249|NCT01956110|184776836|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.||||||0.32||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Late OHSS (any grade)||||0.320
92445250|NCT01956110|184776836|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.||||||0.39||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Late OHSS (moderate/severe)||||0.390
92445251|NCT01166594|184776846|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92445252|NCT01633944|184776873|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.67||||0.0012|TWO_SIDED|95.0|-1.07|-0.26|||ANCOVA|||||-0.26|-1.07|0.0012
92445253|NCT01633944|184776874|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by stratum (dose level)||Responders with ≥30% pain reduction||||0.0012
92445254|NCT01633944|184776874|SUPERIORITY_OR_OTHER|||||||0.0754|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by stratum (dose level)||Responders with ≥50% pain reduction||||0.0754
92445255|NCT03354429|184776958|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.015|TWO_SIDED|95.0|0.71|0.96||The hypothesis was tested at the 4.996% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence was used to address the issue of multiple testing|Regression, Cox||Placebo is the reference group (denominator)|||0.96|0.71|0.015
92445256|NCT03354429|184776959|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.004|TWO_SIDED|95.0|0.68|0.93||The hypothesis was tested at the 4.996% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence was used to address the issue of multiple testing|Regression, Cox||Placebo is the reference group (denominator)|||0.93|0.68|0.004
92445257|NCT03354429|184776960|SUPERIORITY||Odds Ratio (OR)|0.98||||0.613|TWO_SIDED|95.0|0.89|1.07||The hypothesis was tested at the 4.996% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence was used to address the issue of multiple testing|Regression, Logistic|NIHSS (National Institutes of Health Stroke Scale) score and history of stroke (yes/no) included as covariates|Placebo is the reference group (denominator)|||1.07|0.89|0.613
92445258|NCT03354429|184776961|OTHER||Hazard Ratio (HR)|3.99||||0.001|TWO_SIDED|95.0|1.74|9.14|||Regression, Cox||Placebo is the reference group (denominator)|||9.14|1.74|0.001
92445259|NCT03354429|184776962|OTHER||Hazard Ratio (HR)|3.66||||0.005|TWO_SIDED|95.0|1.48|9.02|||Regression, Cox||Placebo is the reference group (denominator)|||9.02|1.48|0.005
92445260|NCT03354429|184776963|OTHER||Hazard Ratio (HR)|3.27|||<|0.001|TWO_SIDED|95.0|1.67|6.43|||Regression, Cox||Placebo is the reference group (denominator)|||6.43|1.67|<0.001
92445261|NCT03354429|184776964|OTHER||Hazard Ratio (HR)|4.8|||<|0.001|TWO_SIDED|95.0|3.28|7.02|||Regression, Cox||Placebo is the reference group (denominator)|||7.02|3.28|<0.001
92445262|NCT00386256|184776965|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Statistical analyses included descriptive statistics to assess demographic and medical characteristics, safety, text messaging or phone adherence, exercise adherence, and patient satisfaction. T-tests were used to determine significant differences between the HB text messaging and telephone groups (with inpatients and outpatients combined within each group). All analyses were conducted using SPSS version 14.0 for Windows.||||<.05
92445263|NCT00386256|184776966|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Statistical analyses included descriptive statistics to assess demographic and medical characteristics, safety, text messaging or phone adherence, exercise adherence, and patient satisfaction. T-tests were used to determine significant differences between the HB text messaging and telephone groups (with inpatients and outpatients combined within each group). All analyses were conducted using SPSS version 14.0 for Windows.||||<.05
92445264|NCT00654381|184776969|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.04|-0.7|||ANCOVA|Model includes treatment,baseline HbA1c, and number of previous antidiabetic medication||Linagliptin 5 mg vs placebo at week 12||-0.7|-1.04|<0.0001
92445265|NCT00654381|184776969|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.05|-0.71|||ANCOVA|Model includes treatment,baseline HbA1c, and number of previous antidiabetic medication||Linagliptin 10 mg vs placebo at week 12||-0.71|-1.05|<0.0001
92445266|NCT00654381|184776970|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09||0.0003|TWO_SIDED|95.0|-0.49|-0.15|||ANCOVA|Model includes treatment,baseline HbA1c, and number of previous antidiabetic medication||||-0.15|-0.49|0.0003
92445267|NCT00654381|184776970|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.56|-0.21|||ANCOVA|Model includes treatment,baseline HbA1c, and number of previous antidiabetic medication||Linagliptin 10 mg vs voglibose at week 26||-0.21|-0.56|<0.0001
92445268|NCT00654381|184776974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-19.7|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-25.4|-14.0|||ANCOVA|Model includes treatment,baseline FPG, and number of previous antidiabetic medication||Linagliptin 5 mg vs placebo at week 12||-14.0|-25.4|<0.0001
92445269|NCT00654381|184776974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.4|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-26.2|-14.7|||ANCOVA|Model includes treatment,baseline FPG, and number of previous antidiabetic medication||Linagliptin 10 mg vs placebo at week 12||-14.7|-26.2|<0.0001
92445270|NCT00654381|184776975|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|3.1||0.0239|TWO_SIDED|95.0|-13.0|-0.9|||ANCOVA|Model includes treatment,baseline FPG, and number of previous antidiabetic medication||Linagliptin 5 mg vs Voglibose at week 26||-0.9|-13.0|0.0239
92445271|NCT00654381|184776975|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|3.1||0.0015|TWO_SIDED|95.0|-15.8|-3.8|||ANCOVA|Model includes treatment,baseline FPG, and number of previous antidiabetic medication||Linagliptin 10 mg vs voglibose at week 26||-3.8|-15.8|0.0015
92445272|NCT00915798|184777142|SUPERIORITY_OR_OTHER||F|0.56||||0.46|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05||Frontal BOLD during abstinence in smokers and nonsmokers||||0.46
92445273|NCT00915798|184777142|SUPERIORITY_OR_OTHER||F|6.64||||0.012|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05|Diagnosis by smoking status interaction.|Parietal BOLD during abstinence in smokers and nonsmokers||||0.012
92445274|NCT00915798|184777142|SUPERIORITY_OR_OTHER||F|211.2||||0.04|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05|Main effect for smoking status.|Occipital BOLD during abstinence in smokers and nonsmokers.||||0.04
92445275|NCT00915798|184777142|SUPERIORITY_OR_OTHER||F|1.6||||0.22|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05||Frontal BOLD smoking versus nonsmoking in smokers with ADHD compared to control smokers.||||0.22
92445276|NCT00915798|184777142|SUPERIORITY_OR_OTHER||F|0.43||||0.51|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05||Parietal BOLD smoking versus nonsmoking in smokers with ADHD compared to control smokers.||||0.51
92445277|NCT00915798|184777142|SUPERIORITY_OR_OTHER||F|0.16||||0.69|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05||Occipital BOLD smoking versus nonsmoking in smokers with ADHD compared to control smokers.||||0.69
92445278|NCT02442778|184777148|SUPERIORITY||Least Squares (LS) Mean Difference|0.4||||0.789|TWO_SIDED|95.0|-2.7|3.5||MMRM included fixed effect treatment,visit,treatment-by-visit,baseline,baseline-by-visit,baseline Neuropsychiatric Inventory Agitation/Aggression(NPI AA)(≤6 vs. \>6),falls risk assessment,baseline concomitant use of antipsychotic medications,cohorts.|MMRM|||||3.5|-2.7|0.789
92445279|NCT02442778|184777148|SUPERIORITY||LS Mean Difference|-2.0||||0.2|TWO_SIDED|95.0|-5.0|1.0||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||1.0|-5.0|0.200
92445280|NCT02442778|184777149|SUPERIORITY||LS Mean Difference|0.1||||0.484|TWO_SIDED|95.0|-0.2|0.4||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.4|-0.2|0.484
92445281|NCT02442778|184777149|SUPERIORITY||LS Mean Difference|-0.1||||0.704|TWO_SIDED|95.0|-0.3|0.2||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.2|-0.3|0.704
92445282|NCT02442778|184777150|SUPERIORITY||LS Mean Difference|-0.3||||0.416|TWO_SIDED|95.0|-0.9|0.4||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.4|-0.9|0.416
92445283|NCT02442778|184777150|SUPERIORITY||LS Mean Difference|-0.6||||0.066|TWO_SIDED|95.0|-1.3|0.0||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.0|-1.3|0.066
92239280|NCT00431847|184382381|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.4575|STANDARD_ERROR_OF_MEAN|2.0263||0.0889|TWO_SIDED|95.0|-0.528|7.4431|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||7.4431|-0.5280|0.0889
92445284|NCT02442778|184777151|SUPERIORITY||LS Mean Difference|-0.2||||0.249|TWO_SIDED|95.0|-0.5|0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.1|-0.5|0.249
92445285|NCT02442778|184777151|SUPERIORITY||LS Mean Difference|-0.2||||0.199|TWO_SIDED|95.0|-0.5|0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.1|-0.5|0.199
92445286|NCT02442778|184777152|SUPERIORITY||LS Mean Difference|0.0||||0.975|TWO_SIDED|95.0|-0.7|0.7||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.7|-0.7|0.975
92445287|NCT02442778|184777152|SUPERIORITY||LS Mean Difference|-0.3||||0.334|TWO_SIDED|95.0|-1.0|0.3||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.3|-1.0|0.334
92445288|NCT02442778|184777153|SUPERIORITY||LS Mean Difference|-0.1||||0.934|TWO_SIDED|95.0|-2.4|2.2||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||2.2|-2.4|0.934
92445289|NCT02442778|184777153|SUPERIORITY||LS Mean Difference|1.1||||0.342|TWO_SIDED|95.0|-1.2|3.4||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||3.4|-1.2|0.342
92445290|NCT02442778|184777154|SUPERIORITY||LS Mean Difference|0.0||||0.888|TWO_SIDED|95.0|-0.7|0.6||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.6|-0.7|0.888
92445291|NCT02442778|184777154|SUPERIORITY||LS Mean Difference|-0.7||||0.019|TWO_SIDED|95.0|-1.3|-0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||-0.1|-1.3|0.019
92240108|NCT00570739|184383817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.3||||0.0013|TWO_SIDED|95.0|9.6|39.1||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes in Calculated Total Triglycerides||39.1|9.6|0.0013
92445292|NCT02442778|184777155|SUPERIORITY||LS Mean Difference|0.6||||0.756|TWO_SIDED|95.0|-2.9|4.0||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||4.0|-2.9|0.756
92445293|NCT02442778|184777155|SUPERIORITY||LS Mean Difference|-3.6||||0.038|TWO_SIDED|95.0|-7.0|-0.2||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||-0.2|-7.0|0.038
92445294|NCT02442778|184777156|SUPERIORITY||LS Mean Difference|-0.1||||0.468|TWO_SIDED|95.0|-0.3|0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.1|-0.3|0.468
92445295|NCT02442778|184777156|SUPERIORITY||LS Mean Difference|-0.1||||0.158|TWO_SIDED|95.0|-0.3|0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.1|-0.3|0.158
92445296|NCT02442778|184777157|SUPERIORITY||LS Mean Difference|0.1||||0.4|TWO_SIDED|95.0|-0.2|0.4||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.4|-0.2|0.400
92445297|NCT02442778|184777157|SUPERIORITY||LS Mean Difference|-0.1||||0.566|TWO_SIDED|95.0|-0.3|0.2||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.2|-0.3|0.566
92445298|NCT02442778|184777158|SUPERIORITY||LS Mean Difference|0.0||||0.751|TWO_SIDED|95.0|-0.2|0.3||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.3|-0.2|0.751
92445299|NCT02442778|184777158|SUPERIORITY||LS Mean Difference|-0.1||||0.32|TWO_SIDED|95.0|-0.3|0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.1|-0.3|0.320
92445300|NCT02442778|184777159|SUPERIORITY||LS Mean Difference|0.3||||0.782|TWO_SIDED|95.0|-1.8|2.4||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||2.4|-1.8|0.782
92445301|NCT02442778|184777159|SUPERIORITY||LS Mean Difference|0.0||||0.991|TWO_SIDED|95.0|-2.1|2.0||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||2.0|-2.1|0.991
92171597|NCT03732820|184232324|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0544|TWO_SIDED|95.0|0.67|1.0||A multiple testing procedure is employed across primary (rPFS) and key secondary endpoints (OS) to strongly control overall type 1 error at 2.5% one-sided. Alpha spend for OS will not exceed 0.02135.|Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||1.00|0.67|0.0544
92240109|NCT00570739|184383817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.3||||0.0006|TWO_SIDED|95.0|11.5|41.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes: Calculated Very Low Density Triglycerides||41.0|11.5|0.0006
92445302|NCT02442778|184777160|SUPERIORITY||LS Mean Difference|0.6||||0.038|TWO_SIDED|95.0|0.0|1.2||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||1.2|0.0|0.038
92445303|NCT02442778|184777160|SUPERIORITY||LS Mean Difference|0.0||||0.911|TWO_SIDED|95.0|-0.6|0.5||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.5|-0.6|0.911
92445304|NCT02442778|184777162|SUPERIORITY||LS Mean Difference|1.0||||0.236|TWO_SIDED|95.0|-0.6|2.6||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||2.6|-0.6|0.236
92445305|NCT02442778|184777162|SUPERIORITY||LS Mean Difference|0.3||||0.684|TWO_SIDED|95.0|-1.3|1.9||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||1.9|-1.3|0.684
92445306|NCT02641379|184777168|SUPERIORITY_OR_OTHER|||||||0.1002|||||||Chi-squared|||For Genotype I, Week 4 response \< 600 U/ml: Comparison of Group A versus Group B was carried out using the Chi-Square test.||||0.1002
92445307|NCT02641379|184777168|SUPERIORITY_OR_OTHER|||||||0.0184|||||||Chi-squared|||For Genotype I, Week 4 response \>= 600 U/ml: Comparison of Group A versus Group B was carried out using the Chi-Square test.||||0.0184
92445308|NCT02641379|184777168|SUPERIORITY_OR_OTHER|||||||0.091|||||||Chi-squared|||For Genotype IV, Week 4 response \< 600 U/ml: Comparison of Group A versus Group B was carried out using the Chi-Square test.||||0.0910
92445309|NCT02641379|184777168|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||For Genotype IV, Week 4 response \>= 600 U/ml: Comparison of Group A versus Group B was carried out using the Chi-Square test.||||1.0000
92445310|NCT02641379|184777169|SUPERIORITY_OR_OTHER|||||||0.0021||||||The SVR rate i.e., 32.1% participants with genotype I who achieved SVR with 95 % confidence interval of 20.3 to 46.0 in groups A1+B1 was compared with SVR rate in group E using Cochran-Mantel-Haenszel method .|Cochran-Mantel-Haenszel|||Comparison of Groups A1+B1 versus group E stratified by genotype I.||||0.0021
92445311|NCT02641379|184777169|SUPERIORITY_OR_OTHER|||||||0.3031||||||The SVR rate i.e., 20.0% participants with genotype IV who achieved SVR with 95 % confidence interval of 0.5 to 71.6 in groups A1+B1 was compared with SVR rate in group E using Cochran-Mantel-Haenszel method .|Cochran-Mantel-Haenszel|||Comparison of Groups A1+B1 versus group E stratified by genotype IV||||0.3031
92445312|NCT01165138|184777183|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.136||||0.002|TWO_SIDED|95.0|0.051|0.222|||ANCOVA|||||0.222|0.051|0.002
92445313|NCT01165138|184777183|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.172|||<|0.001|TWO_SIDED|95.0|0.087|0.258|||ANCOVA|||||0.258|0.087|<0.001
92445314|NCT01165138|184777183|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.036||||0.405|TWO_SIDED|95.0|-0.048|0.12|||ANCOVA|||||0.120|-0.048|0.405
92445315|NCT01165138|184777184|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.186||||0.003|TWO_SIDED|95.0|0.062|0.31|||ANCOVA|||||0.310|0.062|0.003
92445316|NCT01165138|184777184|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.302|||<|0.001|TWO_SIDED|95.0|0.178|0.426|||ANCOVA|||||0.426|0.178|<0.001
92445317|NCT01165138|184777184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116||||0.06|TWO_SIDED|95.0|-0.005|0.236|||ANCOVA|||||0.236|-0.005|0.060
92445318|NCT01644175|184777202|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.9|||<|0.0001|TWO_SIDED|95.0|-52.5|-39.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-39.3|-52.5|<0.0001
92445319|NCT01644175|184777203|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.9|||<|0.0001|TWO_SIDED|95.0|-56.2|-43.6||Threshold for significance was ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-43.6|-56.2|<0.0001
92445320|NCT01644175|184777204|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.4|||<|0.0001|TWO_SIDED|95.0|-53.6|-41.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-41.3|-53.6|<0.0001
92445321|NCT01644175|184777205|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.3|||<|0.0001|TWO_SIDED|95.0|-55.3|-43.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-43.3|-55.3|<0.0001
92171598|NCT03732820|184232325|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0025|TWO_SIDED|95.0|0.64|0.9|||Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||0.90|0.64|0.0025
92171599|NCT03732820|184232326|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.7456|TWO_SIDED|95.0|0.75|1.5|||Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||1.50|0.75|0.7456
92445322|NCT01644175|184777206|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.8|||<|0.0001|TWO_SIDED|95.0|-41.3|-30.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.3|-41.3|<0.0001
92445323|NCT01644175|184777207|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.5|||<|0.0001|TWO_SIDED|95.0|-43.0|-32.0||Threshold for significance ≤0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-32.0|-43.0|<0.0001
92445324|NCT01644175|184777208|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.5|||<|0.0001|TWO_SIDED|95.0|-43.5|-31.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-31.4|-43.5|<0.0001
92445325|NCT01644175|184777209|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.4|||<|0.0001|TWO_SIDED|95.0|-46.4|-34.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-34.4|-46.4|<0.0001
92445326|NCT01644175|184777210|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.0|||<|0.0001|TWO_SIDED|95.0|-29.3|-20.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-20.7|-29.3|<0.0001
92445327|NCT01644175|184777211|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.2|||<|0.0001|TWO_SIDED|95.0|-43.7|-32.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-32.7|-43.7|<0.0001
92445328|NCT01644175|184777212|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.1|||<|0.0001|TWO_SIDED|95.0|-46.2|-33.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-33.9|-46.2|<0.0001
92445329|NCT01644175|184777213|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.4|||<|0.0001|TWO_SIDED|95.0|-31.1|-21.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-21.7|-31.1|<0.0001
92445330|NCT01644175|184777214|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.0|||<|0.0001|TWO_SIDED|95.0|-51.6|-34.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-34.3|-51.6|<0.0001
92445331|NCT01644175|184777215|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|38.5|||<|0.0001|TWO_SIDED|95.0|16.5|89.8||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||89.8|16.5|<0.0001
92445332|NCT01644175|184777216|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|50.0|||<|0.0001|TWO_SIDED|95.0|20.6|121.0||Threshold for significance ≤ 0.05|Regression, Logistic|Multiple imputation approach followed by logistic regression model|Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||121.0|20.6|<0.0001
92445333|NCT01644175|184777217|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.6|||<|0.0001|TWO_SIDED|95.0|-21.3|-7.9||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-7.9|-21.3|<0.0001
92445334|NCT01644175|184777218|SUPERIORITY_OR_OTHER||LS Mean Difference|7.3||||0.0001|TWO_SIDED|95.0|3.6|11.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||11.0|3.6|0.0001
92445335|NCT01644175|184777219|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.6||||0.8699|TWO_SIDED|95.0|-8.3|7.0||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.0|-8.3|0.8699
92445336|NCT01495585|184777225|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||Student t-test was used on the change in serum log HDV RNA after 28 days of therapy with lonafarnib.||||0.03
92445337|NCT01495585|184777225|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Student t-test was used on the change in serum log HDV RNA after 28 days of therapy with lonafarnib.||||<0.0001
92445338|NCT01495585|184777226|SUPERIORITY_OR_OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
92445339|NCT01495585|184777226|SUPERIORITY_OR_OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.6
92445340|NCT01667978|184777243|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92445341|NCT00962104|184777395|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.78|||<|0.001|TWO_SIDED|95.0|-7.66|-3.91||Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline CAARS-Inv:SV 18-Item Total ADHD Symptom score .|ANCOVA|||||-3.91|-7.66|<0.001
92445342|NCT00962104|184777396|SUPERIORITY_OR_OTHER||Slope|4.76|||<|0.001|TWO_SIDED|95.0|1.97|7.56||First gated secondary outcome measure. A gatekeeper strategy (Westfall and Krishen 2001) controlled experiment-wise type I error for 2 QoL measures. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|ANCOVA|Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline AAQoL total score.||||7.56|1.97|<0.001
92445343|NCT00962104|184777397|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.82||||0.289|TWO_SIDED|95.0|-5.2|1.56||Second gated secondary outcome measure. A gatekeeper strategy (Westfall and Krishen 2001) controlled experiment-wise type I error for 2 QoL measures. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|ANCOVA|Least Squares Mean difference between 2 treatment groups from Type III sum of squares analysis of covariance model:Change=treatment+country+baseline.||||1.56|-5.20|0.289
92445344|NCT00962104|184777398|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.18|||<|0.001|TWO_SIDED|95.0|-8.13|-4.22|||Mixed Models Analysis|||||-4.22|-8.13|<0.001
92445345|NCT00962104|184777399|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.18|||<|0.001|TWO_SIDED|95.0|-8.21|-4.14|||Mixed Models Analysis|||||-4.14|-8.21|<0.001
92445346|NCT00962104|184777400|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.59||||0.001|TWO_SIDED|95.0|-5.73|-1.45||This is the p-value for the Raw Behavioral Regulation Index score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||-1.45|-5.73|0.001
92445347|NCT00962104|184777400|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.29|||<|0.001|TWO_SIDED|95.0|-9.28|-3.31||This is the p-value for the Raw MI score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||-3.31|-9.28|<0.001
92445348|NCT00962104|184777400|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.76|||<|0.001|TWO_SIDED|95.0|-14.75|-4.78||This is the p-value for the Global Executive Composite Index score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||-4.78|-14.75|<0.001
92445349|NCT00962104|184777401|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.93||||0.092|TWO_SIDED|95.0|-4.18|0.32||This is the p-value for the Raw Behavioral Regulation Index score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||0.32|-4.18|0.092
92445350|NCT00962104|184777401|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.62||||0.272|TWO_SIDED|95.0|-4.52|1.28||This is the p-value for the Raw MI Index score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||1.28|-4.52|0.272
92445351|NCT00962104|184777401|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.55||||0.153|TWO_SIDED|95.0|-8.43|1.32||This is the p-value for the Raw Global Executive Composite Index score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||1.32|-8.43|0.153
92445352|NCT00962104|184777402|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.67|-0.27||Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||-0.27|-0.67|<0.001
92445353|NCT00962104|184777403|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed using an analysis of variance (ANOVA) with term for treatment and country.|ANOVA|||||||<0.001
92445354|NCT00962104|184777404|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.05||||0.869|TWO_SIDED|95.0|-0.71|0.6||Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||0.60|-0.71|0.869
92445355|NCT00962104|184777405|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.05||||0.87|TWO_SIDED|95.0|-0.59|0.5||Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||0.50|-0.59|0.870
92445356|NCT03274986|184777406|SUPERIORITY||Least Squares Mean Difference|-0.164|STANDARD_ERROR_OF_MEAN|0.0168|<|0.001|TWO_SIDED|95.0|-0.197|-0.131||2-sided p-value reported. A hypothesis test was based on a two sample t-test, with a type I error rate of 0.025, 1-sided.|t-test, 2 sided||Least squares mean difference (DFT015 - SN60WF)|||-0.131|-0.197|<0.001
92445357|NCT03274986|184777407|NON_INFERIORITY|Non-Inferiority margin was 0.1 logMAR.|Least Squares Mean Difference|0.052|STANDARD_ERROR_OF_MEAN|0.0127|||ONE_SIDED|95.0||0.073||The hypothesis test was based on a two-sample t-test, with a type I error rate of 0.05, 1-sided.|t-test, 2 sided||Least squares mean difference (DFT015 - SN60WF). The 1-sided 95% Upper Confidence Limit is presented.|||0.073||
92445358|NCT03274986|184777408|OTHER||Difference in depth of focus|0.54|||||TWO_SIDED|||||Hypothesis testing was not pre-specified.|||Difference in depth of focus (DFT015 - SN60WF)|||||
92171600|NCT03732820|184232327|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.3099|TWO_SIDED|95.0|0.82|1.79|||Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||1.79|0.82|0.3099
92445359|NCT03274986|184777412|SUPERIORITY||Least Squares Mean Difference|-0.156|STANDARD_ERROR_OF_MEAN|0.0206|<|0.001|TWO_SIDED|95.0|-0.197|-0.115||2-sided p-value reported. A hypothesis test was based on a two sample t-test, with a type I error rate of 0.025, 1-sided.|t-test, 2 sided||Least squares mean difference (DFT015 - SN60WF)|||-0.115|-0.197|<0.001
92445360|NCT03274986|184777413|OTHER||Difference in percentage|18.0|||||TWO_SIDED|95.0|9.65|27.37|||||95% CI for the difference (DFT015 - SN60WF) is estimated using Miettinen-Nurminen method (1985).|||27.37|9.65|
92445361|NCT01524627|184777423|SUPERIORITY|||||||0.0004|||||||t-test, 2 sided|||||||0.0004
92445362|NCT01524627|184777423|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
92445363|NCT05627518|184777427|OTHER||Ratio|1.9954|||<|0.0001|TWO_SIDED|95.0|1.8399|2.1641|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treatment A (4x25 mg reference formulation)|The Ratio of geometric mean AUCinf comparing test formulation fasted (treatment B) vs. reference formulation fasted ( treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||2.1641|1.8399|<0.0001
92171601|NCT03732820|184232328|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.3212|TWO_SIDED|95.0|0.55|1.22|||Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||1.22|0.55|0.3212
92445364|NCT05627518|184777427|OTHER||Ratio|2.125|||<|0.0001|TWO_SIDED|95.0|1.9664|2.2963|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treatment A (4x25 mg reference formulation)|AUClast: Ratio of geometric mean AUClast comparing test formulation fasted (treatment B) vs. reference formulation fasted (treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||2.2963|1.9664|<0.0001
92445365|NCT05627518|184777428|OTHER|Ratio|Ratio|2.3167|||<|0.0001|TWO_SIDED|95.0|2.0922|2.5652|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treatment A (4x25 mg reference formulation)|Ratio of geometric mean Cmax comparing test formulation fasted (treatment B) vs. reference formulation fasted (treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||2.5652|2.0922|<0.0001
92445366|NCT05627518|184777429|OTHER|Ratio|Ratio|0.757|||<|0.0001|TWO_SIDED|95.0|0.7009|0.8177|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean AUCinf comparing treatment C (fed) versus treatment B (fasted). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.8177|0.7009|<0.0001
92445367|NCT05627518|184777429|OTHER|Ratio|Ratio|0.7684|||<|0.0001|TWO_SIDED|95.0|0.7102|0.8313|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean AUClast comparing treatment C (fed) versus treatment B (fasted). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.8313|0.7102|<0.0001
92445368|NCT05627518|184777430|OTHER|Ratio|Ratio|0.2548|||<|0.0001|TWO_SIDED|95.0|0.1999|0.3247|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean Cmax comparing treatment C (fed) versus treatment B (fasted). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.3247|0.1999|<0.0001
92445369|NCT05627518|184777431|OTHER|Ratio|Ratio|3.0245|||<|0.0001|TWO_SIDED|95.0|2.5098|3.6446|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treament A (4x25 mg reference formulation)|Ratio of geometric mean AUCinf comparing test formulation fasted (treatment B) vs. reference formulation fasted ( treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||3.6446|2.5098|<0.0001
92445370|NCT05627518|184777431|OTHER|Ratio|Ratio|3.5277|||<|0.0001|TWO_SIDED|95.0|2.9076|4.2799|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treament A (4x25 mg reference formulation)|Ratio of geometric mean AUClast comparing test formulation fasted (treatment B) vs. reference formulation fasted (treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||4.2799|2.9076|<0.0001
92445371|NCT05627518|184777432|OTHER|Ratio|Ratio|3.0245|||<|0.0001|TWO_SIDED|95.0|2.5098|3.6446|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treament A (4x25 mg reference formulation)|Ratio of geometric mean Cmax comparing test formulation fasted (treatment B) vs. reference formulation fasted ( treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||3.6446|2.5098|<0.0001
92445372|NCT05627518|184777433|OTHER|Ratio|Ratio|0.4923|||<|0.0001|TWO_SIDED|95.0|0.4131|0.5867|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean AUCinf comparing treatment C (fed) versus treatment B (fasted). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.5867|0.4131|<0.0001
92445373|NCT05627518|184777433|OTHER|Ratio|Ratio|0.4923|||<|0.0001|TWO_SIDED|95.0|0.4047|0.5989|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean AUClast comparing treatment C (fed) versus treatment B (fasted). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.5989|0.4047|<0.0001
92445374|NCT05627518|184777434|OTHER|Ratio|Ratio|0.2522|||<|0.0001|TWO_SIDED|95.0|0.198|0.3211|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean Cmax comparing test formulation fed (treatment C) vs. reference formulation fasted (treatment B). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.3211|0.1980|<0.0001
92445375|NCT01101841|184777437|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Week 4 frequency|Rank transformed ANCOVA|||||||<0.0001
92445376|NCT01101841|184777437|SUPERIORITY_OR_OTHER|||||||0.0001||||||Week 12 frequency|Rank transformed ANCOVA|||||||0.0001
92445377|NCT01101841|184777438|SUPERIORITY_OR_OTHER|||||||0.0066||||||Week 24 persistence of effect|Logit model|||||||0.0066
92445378|NCT01101841|184777453|SUPERIORITY_OR_OTHER|||||||0.0368||||||Week 4 severity|Rank transformed ANCOVA|||||||0.0368
92445379|NCT01101841|184777453|SUPERIORITY_OR_OTHER|||||||0.0064||||||Week 12 severity|Rank transformed ANCOVA|||||||0.0064
92445380|NCT02223767|184777540|SUPERIORITY|||||||0.025|||||||t-test, 1 sided|||||||0.025
92445381|NCT02223767|184777541|SUPERIORITY|||||||0.08|||||||t-test, 1 sided|||||||0.08
92445382|NCT02822508|184777573|SUPERIORITY|||||||0.034|||||||Cochran-Mantel-Haenszel|||||||0.034
92445383|NCT00994448|184777581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.3|STANDARD_ERROR_OF_MEAN|8.6||0.08|TWO_SIDED|95.0|1.8|34.3|||t-test, 2 sided|||t test for mean of days retained in the bupropion versus placebo groups||34.3|1.8|0.08
92445384|NCT02704364|184777613|SUPERIORITY||Hodges-Lehmann estimate|-14.0|STANDARD_ERROR_OF_MEAN|21.4||0.434|TWO_SIDED|95.0|-68.0|28.0|||Wilcoxon (Mann-Whitney)|||||28.0|-68.0|0.434
92445385|NCT02704364|184777613|SUPERIORITY||Hodges-Lehmann estimate|13.0|STANDARD_ERROR_OF_MEAN|25.0||0.646|TWO_SIDED|95.0|-41.0|71.0|||Wilcoxon (Mann-Whitney)|||||71.0|-41.0|0.646
92445386|NCT01461096|184777640|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78||||0.35|TWO_SIDED|95.1|0.47|1.31||P-value was unadjusted for multiple comparisons and a P-value less than 5% was the threshold for statistical significance.|generalized log-rank test (Sun 1996)|The generalized log-rank test (Sun 1996) was performed to evaluate whether participants in the two arms had the same survival rate.|qHPV group represented the numerator for the hazard ratio and Placebo group represented the denominator.|||1.31|0.47|0.350
92445387|NCT04889625|184777654|NON_INFERIORITY|This study was powered to demonstrate non-inferiority of the Test lens relative to the Control lens with respect to binocular HLHC distance, intermediate and near visual acuity. A non-inferiority margin of 0.05 logMAR was used; (0.05) logMAR is approximately half a line on an ETDRS chart.|least-square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.0085|||TWO_SIDED|95.0|-0.017|0.017|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as senofilcon A - delefilcon A|Distance (4m)||0.017|-0.017|
92445388|NCT04889625|184777654|NON_INFERIORITY|This study was powered to demonstrate non-inferiority of the Test lens relative to the Control lens with respect to binocular HLHC distance, intermediate and near visual acuity. A non-inferiority margin of 0.05 logMAR was used; (0.05) logMAR is approximately half a line on an ETDRS chart.|least-square mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.0108|||TWO_SIDED|95.0|-0.051|-0.008|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as senofilcon A - delefilcon A|Intermediate (64cm)||-0.008|-0.051|
92445389|NCT04889625|184777654|NON_INFERIORITY|This study was powered to demonstrate non-inferiority of the Test lens relative to the Control lens with respect to binocular HLHC distance, intermediate and near visual acuity. A non-inferiority margin of 0.05 logMAR was used; (0.05) logMAR is approximately half a line on an ETDRS chart.|least-square mean difference|-0.036|STANDARD_ERROR_OF_MEAN|0.0129|||TWO_SIDED|95.0|-0.062|-0.011|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as senofilcon A - delefilcon A|Near (40cm)||-0.011|-0.062|
92445390|NCT04889625|184777655|NON_INFERIORITY|This study was powered to demonstrate the primary hypotheses. However, the final sample size calculation was deemed large enough to test for Non-inferiority of the Test relative to the Control. A non-inferiority margin of -5 points was used.|least-square mean difference|6.3|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|95.0|2.0|10.5|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as senofilcon A (C3)- delefilcon A|||10.5|2.0|
92445391|NCT00404352|184777656|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||<0.001
92445392|NCT00404352|184777656|SUPERIORITY_OR_OTHER|||||||0.008|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||0.008
92445393|NCT00404352|184777656|SUPERIORITY_OR_OTHER|||||||0.009|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||0.009
92445394|NCT00404352|184777657|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||<0.001
92445395|NCT00404352|184777657|SUPERIORITY_OR_OTHER|||||||0.002|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||0.002
92445396|NCT00404352|184777657|SUPERIORITY_OR_OTHER|||||||0.774|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||0.774
92445397|NCT01479621|184777664|SUPERIORITY_OR_OTHER|||||||0.0001||||||The study was considered positive if the trend test was positive and the test involving the highest Fp MDPI dose (100 mcg twice daily) indicated significantly greater time averaged FEV1 mean than placebo.|Regression, Linear|||A linear in log-dose trend contrast evaluated the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo). A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level. Specifically, the 2-sided linear in log-dose time-averaged trend test was first performed followed by pairwise comparisons of each Fp MDPI dose versus placebo.||||0.0001
92445398|NCT01479621|184777664|SUPERIORITY_OR_OTHER||LSM difference|0.149||||0.0005|TWO_SIDED|95.0|0.066|0.233||The study was considered positive if the trend test was positive and the test involving the highest Fp MDPI dose (100 mcg twice daily) indicated significantly greater time averaged FEV1 mean than placebo.|mixed model for repeated measures|||This is the second analysis in the fixed-sequence testing procedure employed to control the overall Type I error rate at the 0.05 level.||0.233|0.066|0.0005
92445399|NCT01479621|184777664|SUPERIORITY_OR_OTHER||LSM difference|0.126||||0.0027|TWO_SIDED|95.0|0.044|0.208|||mixed model for repeated measures|||This is the third analysis in the fixed-sequence testing procedure employed to control the overall Type I error rate at the 0.05 level.||0.208|0.044|0.0027
92445400|NCT01479621|184777664|SUPERIORITY_OR_OTHER||LSM difference|0.111||||0.0086|TWO_SIDED|95.0|0.028|0.194|||mixed model for repeated measures|||This is the fourth analysis in the fixed-sequence testing procedure employed to control the overall Type I error rate at the 0.05 level.||0.194|0.028|0.0086
92445401|NCT01479621|184777664|SUPERIORITY_OR_OTHER||LSM difference|0.052||||0.2227|TWO_SIDED|95.0|-0.032|0.136|||mixed model for repeated measures|||This is the fifth analysis in the fixed-sequence testing procedure employed to control the overall Type I error rate at the 0.05 level.||0.136|-0.032|0.2227
92445402|NCT01479621|184777665|SUPERIORITY_OR_OTHER|||||||0.0017||||||Significance at 0.05|Regression, Linear|||A linear in log-dose trend contrast evaluated the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo).||||0.0017
92445403|NCT01479621|184777665|SUPERIORITY_OR_OTHER||LSM difference|18.29||||0.006|TWO_SIDED|95.0|5.28|31.29||Significance at 0.05|mixed model for repeated measures|||||31.29|5.28|0.0060
92445404|NCT01479621|184777665|SUPERIORITY_OR_OTHER||LSM difference|20.32||||0.0018|TWO_SIDED|95.0|7.61|33.03||Significance at 0.05|mixed model for repeated measures|||||33.03|7.61|0.0018
92445405|NCT01479621|184777665|SUPERIORITY_OR_OTHER||LSM difference|11.75||||0.0741|TWO_SIDED|95.0|-1.15|24.64||Significance at 0.05|mixed model for repeated measures|||||24.64|-1.15|0.0741
92445406|NCT01479621|184777665|SUPERIORITY_OR_OTHER||LSM difference|21.72||||0.0011|TWO_SIDED|95.0|8.73|34.72||Significance at 0.05|mixed model for repeated measures|||||34.72|8.73|0.0011
92445407|NCT01479621|184777666|SUPERIORITY_OR_OTHER|||||||0.0434||||||Significance at 0.05|Regression, Linear|||A linear in log-dose trend contrast evaluated the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo).||||0.0434
92445408|NCT01479621|184777666|SUPERIORITY_OR_OTHER||LSM difference|11.06||||0.0852|TWO_SIDED|95.0|-1.54|23.66||Significance at 0.05|mixed model for repeated measures|||||23.66|-1.54|0.0852
92445409|NCT01479621|184777666|SUPERIORITY_OR_OTHER||LSM difference|12.78||||0.0411|TWO_SIDED|95.0|0.52|25.04||Significance at 0.05|mixed model for repeated measures|||||25.04|0.52|0.0411
92239281|NCT00431847|184382381|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4499|STANDARD_ERROR_OF_MEAN|2.8061||0.8727|TWO_SIDED|95.0|-5.9692|5.0694|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||5.0694|-5.9692|0.8727
92239282|NCT00431847|184382382|SUPERIORITY_OR_OTHER||Slope|-0.523|STANDARD_ERROR_OF_MEAN|0.08855|<|0.0001|TWO_SIDED|95.0|-0.6973|-0.3486|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.3486|-0.6973|<.0001
92280269|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.03||0.0188|TWO_SIDED|95.0|-0.1|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insight: Change From Baseline in HAM-D Individual Item Score at Day 21||0.0|-0.1|0.0188
92280270|NCT02978326|184463236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05||0.0726|TWO_SIDED|95.0|-0.2|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insight: Change From Baseline in HAM-D Individual Item Score at Day 45||0.0|-0.2|0.0726
92445410|NCT01479621|184777666|SUPERIORITY_OR_OTHER||LSM difference|9.28||||0.1428|TWO_SIDED|95.0|-3.14|21.69||Significance at 0.05|mixed model for repeated measures|||||21.69|-3.14|0.1428
92280271|NCT02978326|184463237|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.72||0.0791|TWO_SIDED|95.0|-6.5|0.4||MMRM was used for estimation with treatment with treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in MADRS Total Score at Day 3||0.4|-6.5|0.0791
92280272|NCT02978326|184463237|SUPERIORITY||LS Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.86||0.0322|TWO_SIDED|1.86|-7.7|-0.3||MMRM was used for estimation with treatment with treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in MADRS Total Score at Day 8||-0.3|-7.7|0.0322
92445411|NCT01479621|184777666|SUPERIORITY_OR_OTHER||LSM difference|18.23||||0.0046|TWO_SIDED|95.0|5.64|30.82||Significance at 0.05|mixed model for repeated measures|||||30.82|5.64|0.0046
92445412|NCT01479621|184777667|SUPERIORITY_OR_OTHER||estimated mean difference from placebo|2.76||||0.66685|TWO_SIDED|95.0|-10.07|15.6|||GEE|The model contained covariates for sex, age, and treatment. The baseline level was estimated for all subjects combined, adjusted for covariates.||The generalized estimating equation (GEE) algorithm was used to fit the model, using a robust estimator for the variance which provided a proper adjustment for possible correlation between the 2 measurements on each subject. This model was used to obtain 2-sided 95% confidence limits for the difference in treatment effects of Fp MDPI versus placebo.||15.60|-10.07|0.66685
92239283|NCT00431847|184382382|SUPERIORITY_OR_OTHER||Chi-Squared|4.89||||0.18|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.1800
92445413|NCT01479621|184777667|SUPERIORITY_OR_OTHER||estimated mean difference from placebo|6.76||||0.26741|TWO_SIDED|95.0|-5.43|18.94||The model contained covariates for sex, age, and treatment. The baseline level was estimated for all subjects combined, adjusted for covariates.|GEE|||The generalized estimating equation (GEE) algorithm was used to fit the model, using a robust estimator for the variance which provided a proper adjustment for possible correlation between the 2 measurements on each subject. This model was used to obtain 2-sided 95% confidence limits for the difference in treatment effects of Fp MDPI versus placebo.||18.94|-5.43|0.26741
92445414|NCT01479621|184777667|SUPERIORITY_OR_OTHER||estimated mean difference from placebo|10.45||||0.09964|TWO_SIDED|95.0|-2.24|23.15||The model contained covariates for sex, age, and treatment. The baseline level was estimated for all subjects combined, adjusted for covariates.|GEE|||The generalized estimating equation (GEE) algorithm was used to fit the model, using a robust estimator for the variance which provided a proper adjustment for possible correlation between the 2 measurements on each subject. This model was used to obtain 2-sided 95% confidence limits for the difference in treatment effects of Fp MDPI versus placebo.||23.15|-2.24|0.09964
92445415|NCT01479621|184777667|SUPERIORITY_OR_OTHER||Slope|12.78||||0.03825|TWO_SIDED|95.0|0.44|25.11||The model contained covariates for sex, age, and treatment. The baseline level was estimated for all subjects combined, adjusted for covariates.|GEE|||The generalized estimating equation (GEE) algorithm was used to fit the model, using a robust estimator for the variance which provided a proper adjustment for possible correlation between the 2 measurements on each subject. This model was used to obtain 2-sided 95% confidence limits for the difference in treatment effects of Fp MDPI versus placebo.||25.11|0.44|0.03825
92445416|NCT01479621|184777668|SUPERIORITY_OR_OTHER|||||||0.2841||||||Significance at 0.05|Log Rank|||Comparison of survival curve to placebo||||0.2841
92239284|NCT00431847|184382382|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.302|STANDARD_ERROR_OF_MEAN|2.8198||0.4151|TWO_SIDED|95.0|-3.253|7.857|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||7.8570|-3.2530|0.4151
92239285|NCT00431847|184382382|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3376|STANDARD_ERROR_OF_MEAN|4.314||0.3157|TWO_SIDED|95.0|-4.1592|12.8344|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||12.8344|-4.1592|0.3157
92239286|NCT00431847|184382382|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.825|STANDARD_ERROR_OF_MEAN|6.9715||0.0911|TWO_SIDED|95.0|-1.904|25.5541|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||25.5541|-1.9040|0.0911
92239287|NCT00431847|184382383|SUPERIORITY_OR_OTHER||Slope|-0.2888|STANDARD_ERROR_OF_MEAN|0.09078||0.0016|TWO_SIDED|95.0|-0.4675|-0.11|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.1100|-0.4675|0.0016
92239288|NCT00431847|184382383|SUPERIORITY_OR_OTHER||Chi-Squared|6.33||||0.0966|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.0966
92239289|NCT00431847|184382383|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9879|STANDARD_ERROR_OF_MEAN|2.4264||0.2195|TWO_SIDED|95.0|-1.7938|7.7697|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||7.7697|-1.7938|0.2195
92239290|NCT00431847|184382383|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4636|STANDARD_ERROR_OF_MEAN|3.7381||0.5105|TWO_SIDED|95.0|-9.8289|4.9018|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||4.9018|-9.8289|0.5105
92445417|NCT01479621|184777668|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Significance at 0.05|Log Rank|||Comparison of survival curve to placebo||||<0.0001
92445418|NCT01479621|184777668|SUPERIORITY_OR_OTHER|||||||0.0008||||||Significance at 0.05|Log Rank|||Comparison of survival curve to placebo||||0.0008
92171602|NCT03732820|184232329|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0534|TWO_SIDED|95.0|0.59|0.99|||Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||0.99|0.59|0.0534
92171603|NCT03144518|184232332|SUPERIORITY||Partial Eta Squared|0.079||||0.005|TWO_SIDED|90.0|0.014|0.173||ANCOVA, controlling for pre-intervention levels|ANCOVA|ANCOVA, controlling for pre-intervention levels||VAS-Valence Scores||.173|.014|.005
92171604|NCT03144518|184232332|SUPERIORITY||Partial Eta-Squared|0.04||||0.047|TWO_SIDED|90.0|0.0|0.12|||ANCOVA|Controlling for pre-intervention scores||VAS-Arousal Scores||.120|.000|.047
92239291|NCT00431847|184382383|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.3871|STANDARD_ERROR_OF_MEAN|6.1087||0.0903|TWO_SIDED|95.0|-22.4174|1.6433|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.6433|-22.4174|0.0903
92239292|NCT00431847|184382384|SUPERIORITY_OR_OTHER||Slope|-0.04113|STANDARD_ERROR_OF_MEAN|-0.04113||0.6602|TWO_SIDED|95.0|-0.2252|0.1429|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||0.1429|-0.2252|0.6602
92239293|NCT00431847|184382384|SUPERIORITY_OR_OTHER||Chi-Squared|1.53||||0.6764|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.6764
92239294|NCT00431847|184382384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4902|STANDARD_ERROR_OF_MEAN|2.6357||0.3458|TWO_SIDED|95.0|-2.7036|7.684|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||7.6840|-2.7036|0.3458
92445419|NCT01479621|184777668|SUPERIORITY_OR_OTHER|||||||0.001||||||Significance at 0.05|Log Rank|||Comparison of survival curve to placebo||||0.0010
92445420|NCT01479621|184777674|SUPERIORITY_OR_OTHER||LSM difference|-0.114||||0.0058|TWO_SIDED|95.0|-0.195|-0.033||Significance at 0.05|mixed model for repeated measures|||||-0.033|-0.195|0.0058
92445421|NCT01479621|184777674|SUPERIORITY_OR_OTHER||LSM difference|0.034||||0.4083|TWO_SIDED|95.0|-0.046|0.114||Significance at 0.05|mixed model for repeated measures|||||0.114|-0.046|0.4083
92171605|NCT03144518|184232332|SUPERIORITY||Partial Eta Squared|0.096||||0.002|TWO_SIDED|90.0|0.022|0.196|||ANCOVA|Controlling for pre-intervention levels||Pictorial Scale||.196|.022|.002
92239295|NCT00431847|184382384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.2518|STANDARD_ERROR_OF_MEAN|4.0583||0.1969|TWO_SIDED|95.0|-13.2466|2.743|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||2.7430|-13.2466|0.1969
92445422|NCT01479621|184777674|SUPERIORITY_OR_OTHER||LSM difference|0.011||||0.7882|TWO_SIDED|95.0|-0.068|0.089||Significance at 0.05|mixed model for repeated measures|||||0.089|-0.068|0.7882
92445423|NCT01479621|184777674|SUPERIORITY_OR_OTHER||LSM difference|-0.002||||0.9586|TWO_SIDED|95.0|-0.082|0.078||Significance at 0.05|mixed model for repeated measures|||||0.078|-0.082|0.9586
92445424|NCT01479621|184777674|SUPERIORITY_OR_OTHER||LSM difference|-0.062||||0.1306|TWO_SIDED|95.0|-0.143|0.018||Significance at 0.05|mixed model for repeated measures|||||0.018|-0.143|0.1306
92445425|NCT01479621|184777675|SUPERIORITY_OR_OTHER||LSM difference|-17.66||||0.0068|TWO_SIDED|95.0|-30.43|-4.89||Significance at 0.05|mixed model for repeated measures|||||-4.89|-30.43|0.0068
92445426|NCT01479621|184777675|SUPERIORITY_OR_OTHER||LSM difference|0.69||||0.9135|TWO_SIDED|95.0|-11.84|13.23||Significance at 0.05|mixed model for repeated measures|||||13.23|-11.84|0.9135
92445427|NCT01479621|184777675|SUPERIORITY_OR_OTHER||LSM difference|2.67||||0.6689|TWO_SIDED|95.0|-9.58|14.92||Significance at 0.05|mixed model for repeated measures|||||14.92|-9.58|0.6689
92445428|NCT01479621|184777675|SUPERIORITY_OR_OTHER||LSM difference|-5.69||||0.3691|TWO_SIDED|95.0|-18.12|6.74||Significance at 0.05|mixed model for repeated measures|||||6.74|-18.12|0.3691
92171606|NCT03144518|184232332|SUPERIORITY||Partial Eta Squared|0.002||||0.697|TWO_SIDED|90.0|0.0|0.036|||ANCOVA|Controlling for baseline levels||PANAS Positive Affect Scores||.036|.000|.697
92445429|NCT01479621|184777675|SUPERIORITY_OR_OTHER||LSM difference|4.24||||0.5072|TWO_SIDED|95.0|-8.31|16.78||Significance at 0.05|mixed model for repeated measures|||||16.78|-8.31|0.5072
92445430|NCT01479621|184777676|SUPERIORITY_OR_OTHER||LSM difference|-15.26||||0.0158|TWO_SIDED|95.0|-27.63|-2.88||Significance at 0.05|mixed model for repeated measures|||||-2.88|-27.63|0.0158
92445431|NCT01479621|184777676|SUPERIORITY_OR_OTHER||LSM difference|-4.48||||0.4709|TWO_SIDED|95.0|-16.69|7.721||Significance at 0.05|mixed model for repeated measures|||||7.721|-16.69|0.4709
92445432|NCT01479621|184777676|SUPERIORITY_OR_OTHER||LSM difference|-2.68||||0.6572|TWO_SIDED|95.0|-14.55|9.19||Significance at 0.05|mixed model for repeated measures|||||9.19|-14.55|0.6572
92445433|NCT01479621|184777676|SUPERIORITY_OR_OTHER||LSM difference|-5.98||||0.3292|TWO_SIDED|95.0|-18.01|6.05||Significance at 0.05|mixed model for repeated measures|||||6.05|-18.01|0.3292
92445434|NCT01479621|184777676|SUPERIORITY_OR_OTHER||LSM difference|3.05||||0.6237|TWO_SIDED|95.0|-9.16|15.26||Significance at 0.05|mixed model for repeated measures|||||15.26|-9.16|0.6237
92445435|NCT03663283|184777677|SUPERIORITY|||||||0.0197|||||||Wilcoxon (Mann-Whitney)|||||||.0197
92445436|NCT03663283|184777678|SUPERIORITY|||||||0.584|||||||Wilcoxon (Mann-Whitney)|||72 hours||||0.584
92171607|NCT03144518|184232332|SUPERIORITY||Partial Eta Squared|0.005||||0.462|TWO_SIDED|90.0|0.0|0.053|||ANCOVA|||PANAS Negative Affect Scores||.053|.000|.462
92171608|NCT03144518|184232335|SUPERIORITY||Partial Eta Squared|0.001||||0.806|TWO_SIDED|90.0|0.0|0.031|||ANCOVA|Controlling for pre-intervention levels||||.031|.000|.806
92240110|NCT00570739|184383817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.5||||0.0003|TWO_SIDED|95.0|12.5|40.6||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes: Calculated Very Low Density Triglycerides||40.6|12.5|0.0003
92240111|NCT00570739|184383817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.1257|TWO_SIDED|95.0|-0.4|3.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes in Calculated High Density Lipoprotein-Cholesterol||3.5|-0.4|0.1257
92240112|NCT00570739|184383817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.1054|TWO_SIDED|95.0|-0.3|3.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes in Calculated High Density Lipoprotein-Cholesterol||3.3|-0.3|0.1054
92445437|NCT03663283|184777678|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||3 weeks||||.5800
92445438|NCT03663283|184777679|SUPERIORITY|||||||0.11|||||||Log Rank|||||||0.11
92445439|NCT03663283|184777680|SUPERIORITY|||||||0.7018|||||||Wilcoxon (Mann-Whitney)|||72 hours||||.7018
92445440|NCT03663283|184777680|SUPERIORITY|||||||0.5327|||||||Wilcoxon (Mann-Whitney)|||Week 3||||.5327
92445441|NCT00802412|184777692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.51|TWO_SIDED|95.0|0.4|6.5|||Regression, Logistic|||||6.5|0.4|0.51
92445442|NCT00802412|184777692|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.45|TWO_SIDED|95.0|0.66|2.55|||Regression, Cox|||||2.55|0.66|.45
92445443|NCT01417481|184777695|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 1 sided|Due to the cross-over, a paired analysis was done. The hypothesis was that glycine will improve variables, and thus significance was set at one-tail.||||||>0.05
92445444|NCT01417481|184777696|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 1 sided|The hypothesis was that glycine will improve inflammatory biomarkers, and thus statistical significance was set at one-tail.||||||>0.05
92445445|NCT01417481|184777697|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 1 sided|The hypothesis was that glycine will improve inflammatory biomarkers, and thus statistical significance was set at one-tail.||||||>0.05
92445446|NCT01417481|184777698|SUPERIORITY_OR_OTHER||||||=|0.061|TWO_SIDED||||||t-test, 1 sided|The hypothesis was that glycine will improve inflammatory biomarkers, and thus statistical significance was set at one-tail.||||||=0.061
92445447|NCT01417481|184777699|SUPERIORITY_OR_OTHER||||||=|0.068|TWO_SIDED||||||t-test, 1 sided|The hypothesis was that glycine will improve inflammatory biomarkers, and thus statistical significance was set at one-tail.||||||=0.068
92445448|NCT01417481|184777700|SUPERIORITY_OR_OTHER||||||=|0.04|TWO_SIDED||||||t-test, 1 sided|The hypothesis was that glycine will improve inflammatory biomarkers, and thus statistical significance was set at one-tail.||||||=0.040
92445449|NCT01417481|184777701|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|Due to the cross-over, a paired analysis was done. The hypothesis was that glycine will improve variables, and thus significance was set at one-tail.||||||<0.05
92445450|NCT01417481|184777702|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|Due to the cross-over, paired analysis was done. The hypothesis was that glycine will improve variables, thus significance was set at one-tail.||||||<0.05
92445451|NCT01417481|184777703|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 1 sided|Due to the cross-over, a paired analysis was done. The hypothesis was that glycine will improve variables, and thus significance was set at one-tail.||||||<0.01
92445452|NCT01417481|184777704|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 1 sided|Due to the cross-over, a paired analysis was done. The hypothesis was that glycine will improve variables, and thus significance was set at one-tail.||||||>0.05
92445453|NCT02614547|184777705|SUPERIORITY||Least Squares Mean Difference|-12.22|STANDARD_ERROR_OF_MEAN|4.081||0.008|TWO_SIDED|95.0|-20.77|-3.67|||MMRM|||Mixed Effects Model for Repeated Measure (MMRM) used an unstructured covariance model time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment.||-3.67|-20.77|0.008
92445454|NCT02614547|184777706|SUPERIORITY||Odds Ratio (OR)|4.08||||0.198|TWO_SIDED|95.0|0.49|37.67|||Fisher Exact|||60 Hours||37.67|0.49|0.198
92445455|NCT02614547|184777706|SUPERIORITY||Odds Ratio (OR)|16.0||||0.023|TWO_SIDED|95.0|1.31|239.57|||Fisher Exact|||Day 7||239.57|1.31|0.023
92445456|NCT02614547|184777706|SUPERIORITY||Odds Ratio (OR)|6.22||||0.086|TWO_SIDED|95.0|0.7|62.08|||Fisher Exact|||Day 30||62.08|0.70|0.086
92445457|NCT02614547|184777707|SUPERIORITY||Odds Ratio (OR)|23.33||||0.008|TWO_SIDED|95.0|1.56|1152.71|||Fisher Exact|||60 Hours||1152.71|1.56|0.008
92445458|NCT02614547|184777707|SUPERIORITY|||||||0.003|||||||Fisher Exact|||Day 7||||0.003
92445459|NCT02614547|184777707|SUPERIORITY||Odds Ratio (OR)|10.5||||0.03|TWO_SIDED|95.0|1.01|140.57|||Fisher Exact|||Day 30||140.57|1.01|0.030
92445460|NCT02614547|184777708|SUPERIORITY||Least Squares Mean Difference|-15.86|STANDARD_ERROR_OF_MEAN|5.536||0.01|TWO_SIDED|95.0|-27.5|-4.22|||MMRM|||60 Hours: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment||-4.22|-27.50|0.010
92445461|NCT02614547|184777708|SUPERIORITY||Least Square Mean Difference|-15.96|STANDARD_ERROR_OF_MEAN|5.448||0.009|TWO_SIDED|95.0|-27.43|-4.5|||MMRM|||Day 7: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment||-4.50|-27.43|0.009
92445462|NCT02614547|184777708|SUPERIORITY||Least Square Mean Difference|-15.07|STANDARD_ERROR_OF_MEAN|5.213||0.01|TWO_SIDED|95.0|-26.05|-4.09|||MMRM|||Day 30: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment||-4.09|-26.05|0.010
92445463|NCT02614547|184777709|SUPERIORITY||Odds Ratio (OR)|7.0||||0.08|TWO_SIDED|95.0|0.73|90.81|||Fisher Exact|||60 Hours||90.81|0.73|0.080
92445464|NCT02614547|184777709|SUPERIORITY||Odds Ratio (OR)|16.0||||0.023|TWO_SIDED|95.0|1.31|239.57|||Fisher Exact|||Day 7||239.57|1.31|0.023
92445465|NCT02614547|184777709|SUPERIORITY||Odds Ratio (OR)|10.67||||0.03|TWO_SIDED|95.0|1.04|142.2|||Fisher Exact|||Day 30||142.20|1.04|0.030
92445466|NCT02614547|184777710|SUPERIORITY||Least Squares Mean Difference|-6.05|STANDARD_ERROR_OF_MEAN|2.466||0.025|TWO_SIDED|95.0|-11.24|-0.86|||MMRM|||60 Hours: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment.||-0.86|-11.24|0.025
92445467|NCT02614547|184777710|SUPERIORITY||Least Squares Mean Difference|-6.46|STANDARD_ERROR_OF_MEAN|2.427||0.016|TWO_SIDED|95.0|-11.57|-1.34|||MMRM|||Day 7: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment.||-1.34|-11.57|0.016
92445468|NCT02614547|184777710|SUPERIORITY||Least Squares Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|2.568||0.018|TWO_SIDED|95.0|-12.25|-1.35|||MMRM|||Day 30: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment.||-1.35|-12.25|0.018
92445469|NCT02614547|184777712|SUPERIORITY||Least Squares Mean Difference|1.87|STANDARD_ERROR_OF_MEAN|2.461||0.457|TWO_SIDED|95.0|-3.3|7.04|||ANCOVA|||60 Hours||7.04|-3.30|0.457
92445470|NCT02614547|184777712|SUPERIORITY||Least Square Mean|-1.47|STANDARD_ERROR_OF_MEAN|-1.47||0.613|TWO_SIDED|95.0|-7.5|4.55|||ANCOVA|||Day 7||4.55|-7.50|0.613
92445471|NCT02614547|184777712|SUPERIORITY||Least Square Mean|-2.1|STANDARD_ERROR_OF_MEAN|2.871||0.474|TWO_SIDED|95.0|-8.13|3.93|||ANCOVA|||Day 30||3.93|-8.13|0.474
92445472|NCT00087633|184777732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2||||0.725|TWO_SIDED|95.0|-20.8|14.4|||Cochran-Mantel-Haenszel|||||14.4|-20.8|0.725
92280273|NCT02978326|184463237|SUPERIORITY||LS Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|1.91||0.018|TWO_SIDED|95.0|-8.3|-0.8||MMRM was used for estimation with treatment with treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in MADRS Total Score at Day 15||-0.8|-8.3|0.0180
92445473|NCT03316885|184777754|OTHER|The performance target in support of the primary effectiveness was percentage of eyes achieving objective monocular BCDVA at 1 year postoperative (Visit 5A) compared to the a priori SPE percentage of 92.5%. This is for the All Implanted Analysis Set (AAS) (as reported in EN ISO 11979-7:2014).|Comparison|100.0|||||ONE_SIDED|95.0||100.0||||||||100.0||
92171609|NCT03144518|184232336|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.006||||0.438|TWO_SIDED|90.0|0.0|0.055|||ANCOVA|Controlling for Pre-Vaccination levels||4 Weeks A/Hong-Kong||.055|.000|.438
92239296|NCT00431847|184382384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.9796|STANDARD_ERROR_OF_MEAN|6.5287||0.048|TWO_SIDED|95.0|-25.8429|-0.1162|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||-0.1162|-25.8429|0.0480
92239297|NCT00431847|184382385|SUPERIORITY_OR_OTHER||Slope|-0.2349|STANDARD_ERROR_OF_MEAN|0.1003||0.0199|TWO_SIDED|95.0|-0.4323|-0.03745|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.03745|-0.4323|0.0199
92239298|NCT00431847|184382385|SUPERIORITY_OR_OTHER||Chi-Squared|2.6||||0.4577|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.4577
92280274|NCT02978326|184463237|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|1.92||0.0271|TWO_SIDED|95.0|-8.1|-0.5||MMRM was used for estimation with treatment with treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in MADRS Total Score at 21||-0.5|-8.1|0.0271
92280275|NCT02978326|184463237|SUPERIORITY||LS Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|1.82||0.0018|TWO_SIDED|95.0|-9.4|-2.2||MMRM was used for estimation with treatment with treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in MADRS Total Score at 45||-2.2|-9.4|0.0018
92280276|NCT02978326|184463238|SUPERIORITY||Odds Ratio (OR)|1.4||||0.3372|TWO_SIDED|95.0|0.7|2.81||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline CGI-S score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With CGI-I Response at Day 3||2.81|0.70|0.3372
92445474|NCT03316885|184777755|OTHER|The performance target in support of the primary effectiveness was percentage of eyes achieving objective monocular BCDVA at 1 year postoperative (Visit 5A) compared to the a priori SPE percentage of 92.5%. This is for the All Implanted Analysis Set (AAS) (as reported in EN ISO 11979-7:2014).|Comparison|100.0|||||ONE_SIDED|95.0||100.0||||||||100.0||
92445475|NCT00409292|184777776|SUPERIORITY_OR_OTHER|||||||0.1|||||||binomial hypothesis test|||||||0.10
92445476|NCT00405548|184777838|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92171610|NCT03144518|184232336|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.004||||0.516|TWO_SIDED|90.0|0.0|0.051|||ANCOVA|controlling for pre-vaccination levels||A/Hong-Kong 16 Weeks Post-Vaccination||.051|.000|.516
92239299|NCT00431847|184382385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9502|STANDARD_ERROR_OF_MEAN|2.8797||0.7417|TWO_SIDED|95.0|-6.624|4.7236|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||4.7236|-6.6240|0.7417
92239300|NCT00431847|184382385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.258|STANDARD_ERROR_OF_MEAN|4.4523||0.7778|TWO_SIDED|95.0|-7.5129|10.0289|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||10.0289|-7.5129|0.7778
92239301|NCT00431847|184382385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.5232|STANDARD_ERROR_OF_MEAN|7.2532||0.2411|TWO_SIDED|95.0|-5.7608|22.8073|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||22.8073|-5.7608|0.2411
92239302|NCT00431847|184382386|SUPERIORITY_OR_OTHER||Slope|0.1629|STANDARD_ERROR_OF_MEAN|0.08284||0.0504|TWO_SIDED|95.0|-0.00029|0.3261|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||0.3261|-0.00029|0.0504
92239303|NCT00431847|184382386|SUPERIORITY_OR_OTHER||Chi-Squared|1.45||||0.6942|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.6942
92239304|NCT00431847|184382386|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5241|STANDARD_ERROR_OF_MEAN|2.4216||0.5297|TWO_SIDED|95.0|-3.2469|6.2951|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||6.2951|-3.2469|0.5297
92280277|NCT02978326|184463238|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0935|TWO_SIDED|95.0|0.91|3.47||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline CGI-S score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With CGI-I Response at Day 8||3.47|0.91|0.0935
92280278|NCT02978326|184463238|SUPERIORITY||Odds Ratio (OR)|2.16||||0.0276|TWO_SIDED|95.0|1.09|4.28||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline CGI-S score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With CGI-I Response at Day 15||4.28|1.09|0.0276
92280279|NCT02978326|184463238|SUPERIORITY||Odds Ratio (OR)|1.79||||0.092|TWO_SIDED|95.0|0.91|3.54||Generalized estimating equations for binary response model was used for estimation with factors for treatment: Baseline CGI-S score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With CGI-I Response at Day 21||3.54|0.91|0.0920
92445477|NCT00405548|184777839|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92445478|NCT00405548|184777840|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92445479|NCT00405548|184777841|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|A p-value of less 0.05 was considered to be statistically significant.||Mean LV filling pressure was compared from baseline to 12 weeks within the BNP group.||||0.004
92239305|NCT00431847|184382386|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.7679|STANDARD_ERROR_OF_MEAN|3.7464||0.3155|TWO_SIDED|95.0|-11.1478|3.612|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||3.6120|-11.1478|0.3155
92239306|NCT00431847|184382386|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.7558|STANDARD_ERROR_OF_MEAN|6.092||0.1105|TWO_SIDED|95.0|-21.7515|2.2399|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||2.2399|-21.7515|0.1105
92239307|NCT00431847|184382387|SUPERIORITY_OR_OTHER||Slope|-0.2979|STANDARD_ERROR_OF_MEAN|0.07538||0.001|TWO_SIDED|95.0|-0.4465|-0.1493|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.1493|-0.4465|0.001
92445480|NCT00405548|184777841|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||t-test, 2 sided|A p-value of less 0.05 was considered to be statistically significant.||Mean LV filling pressure was compared from baseline to 12 weeks within the Placebo group.||||0.43
92445481|NCT04652479|184777851|OTHER|||||||0.0028||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0028
92445482|NCT04652479|184777851|OTHER|||||||0.0005||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0005
92445483|NCT04652479|184777852|OTHER|||||||0.0027||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0027
92445484|NCT04652479|184777852|OTHER|||||||0.0043||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0043
92445485|NCT04652479|184777853|OTHER|||||||0.0003||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0003
92445486|NCT04652479|184777853|OTHER|||||||0.0003||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0003
92445487|NCT04652479|184777854|OTHER|||||||0.161||||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided|||Between-group analysis of change from baseline||||0.161
92445488|NCT04652479|184777854|OTHER||Mean Difference (Net)|-35.66||||0.201|TWO_SIDED|||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided|||Within-group analysis of change from baseline||||0.201
92239308|NCT00431847|184382387|SUPERIORITY_OR_OTHER||Chi-Squared|2.72||||0.4361|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.4361
92280280|NCT02978326|184463238|SUPERIORITY||Odds Ratio (OR)|1.76||||0.1109|TWO_SIDED|95.0|0.88|3.51||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline CGI-S score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With CGI-I Response at Day 45||3.51|0.88|0.1109
92445489|NCT04652479|184777854|OTHER||Mean Difference (Net)|-67.65||||0.001|TWO_SIDED|||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided|||Within-group analysis of change from baseline||||0.001
92171611|NCT03144518|184232336|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.002||||0.671|TWO_SIDED|90.0|0.0|0.038|||ANCOVA|controlling for pre-vaccination levels||A/Michigan 4 weeks post-vaccination||.038|.000|.671
92239309|NCT00431847|184382387|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9001|STANDARD_ERROR_OF_MEAN|2.6015||0.7297|TWO_SIDED|95.0|-6.0247|4.2246|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||4.2246|-6.0247|0.7297
92445490|NCT04652479|184777855|OTHER|||||||0.145||||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided|||Between-group analysis of change from baseline||||0.145
92445491|NCT04652479|184777855|OTHER||Mean Difference (Net)|-31.88||||0.111|TWO_SIDED|||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided||Change in percentage|Within-group analysis of change from baseline||||0.111
92445492|NCT04652479|184777855|OTHER||Mean Difference (Net)|-53.37||||0.001|TWO_SIDED|||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided||Change in percentage|Within-group analysis of change from baseline||||0.001
92445493|NCT00811577|184777859|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED|95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using serial gate-keeping to preserve the 5% overall type I error of 1-4 two-sided tests, 2-sided Wilcoxon Signed Rank tests were used. Computer graphics were used to display outcomes at Month 12, compare paired differences of outcomes between the 2 dosages and placebo, and show time trends in mean outcomes. Repeated measures regression models (GEE models in SAS/STAT PROC GENMOD) were used to examine longitudinal outcomes with terms for treatment and trocar location adjusted for key covariates.||||0.57
92445494|NCT00811577|184777859|SUPERIORITY_OR_OTHER|||||||0.56||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using serial gate-keeping to preserve the 5% overall type I error of 1-4 two-sided tests, 2-sided Wilcoxon Signed Rank tests were used. Computer graphics were used to display outcomes at Month 12, compare paired differences of outcomes between the 2 dosages and placebo, and show time trends in mean outcomes. Repeated measures regression models (GEE models in SAS/STAT PROC GENMOD) were used to examine longitudinal outcomes with terms for treatment and trocar location adjusted for key covariates.||||0.56
92445495|NCT00811577|184777859|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using serial gate-keeping to preserve the 5% overall type I error of 1-4 two-sided tests, 2-sided Wilcoxon Signed Rank tests were used. Computer graphics were used to display outcomes at Month 12, compare paired differences of outcomes between the 2 dosages and placebo, and show time trends in mean outcomes. Repeated measures regression models (GEE models in SAS/STAT PROC GENMOD) were used to examine longitudinal outcomes with terms for treatment and trocar location adjusted for key covariates.||||0.61
92445496|NCT00811577|184777859|SUPERIORITY_OR_OTHER|||||||0.8||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using serial gate-keeping to preserve the 5% overall type I error of 1-4 two-sided tests, 2-sided Wilcoxon Signed Rank tests were used. Computer graphics were used to display outcomes at Month 12, compare paired differences of outcomes between the 2 dosages and placebo, and show time trends in mean outcomes. Repeated measures regression models (GEE models in SAS/STAT PROC GENMOD) were used to examine longitudinal outcomes with terms for treatment and trocar location adjusted for key covariates.||||0.80
92445497|NCT00811577|184777860|SUPERIORITY_OR_OTHER|||||||0.47||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using a 100 mm VAS scale, each photograph was assessed by two raters, who, in an end-of-study session, were presented with photographs in their longitudinal sequence, but blinded as to dosage group. These data were used for an inter-rater concordance analysis and also to compare the placebo, 3 and 10 mg dosages.||||0.47
92445498|NCT00811577|184777860|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using a 100 mm VAS scale, each photograph was assessed by two raters, who, in an end-of-study session, were presented with photographs in their longitudinal sequence, but blinded as to dosage group. These data were used for an inter-rater concordance analysis and also to compare the placebo, 3 and 10 mg dosages.||||0.080
92445499|NCT00811577|184777860|SUPERIORITY_OR_OTHER|||||||0.96||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using a 100 mm VAS scale, each photograph was assessed by two raters, who, in an end-of-study session, were presented with photographs in their longitudinal sequence, but blinded as to dosage group. These data were used for an inter-rater concordance analysis and also to compare the placebo, 3 and 10 mg dosages.||||0.96
92445500|NCT00811577|184777860|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using a 100 mm VAS scale, each photograph was assessed by two raters, who, in an end-of-study session, were presented with photographs in their longitudinal sequence, but blinded as to dosage group. These data were used for an inter-rater concordance analysis and also to compare the placebo, 3 and 10 mg dosages.||||0.22
92280281|NCT02978326|184463239|SUPERIORITY||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|1.29||0.0169|TWO_SIDED|95.0|-5.7|-0.6||MMRM was used for estimation with treatment, baseline HAM-A total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in HAM-A Total Score at Day 3||-0.6|-5.7|0.0169
92171612|NCT03144518|184232336|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.0||||0.98|TWO_SIDED|90.0|0.0|0.0|||ANCOVA|Controlling for pre-vaccination levels||A/Michigan 16 weeks post-vaccination||.000|.000|.980
92239310|NCT00431847|184382387|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.2896|STANDARD_ERROR_OF_MEAN|4.0186||0.2868|TWO_SIDED|95.0|-3.625|12.2043|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||12.2043|-3.6250|0.2868
92240113|NCT00570739|184383818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.2971|TWO_SIDED|95.0|-0.11|0.03||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 4 Weeks||0.03|-0.11|0.2971
92240114|NCT00570739|184383818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.2567|TWO_SIDED|95.0|-0.11|0.03||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||0.03|-0.11|0.2567
92171613|NCT03144518|184232336|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.007||||0.409|TWO_SIDED|90.0|0.0|0.057|||ANCOVA|Controlling for pre-vaccination levels||B/Brisbane 4 weeks post-vaccination||.057|.000|.409
92445501|NCT00811577|184777861|SUPERIORITY_OR_OTHER|||||||0.87||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.87
92445502|NCT00811577|184777861|SUPERIORITY_OR_OTHER|||||||0.15||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.15
92445503|NCT00811577|184777861|SUPERIORITY_OR_OTHER|||||||0.77||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.77
92445504|NCT00811577|184777861|SUPERIORITY_OR_OTHER|||||||0.75||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.75
92445505|NCT00811577|184777861|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.050
92445506|NCT00811577|184777861|SUPERIORITY_OR_OTHER|||||||0.83||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.83
92445507|NCT00811577|184777861|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.37
92445508|NCT00811577|184777861|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.43
92445509|NCT00811577|184777862|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.16
92445510|NCT00811577|184777862|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.14
92445511|NCT00811577|184777862|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.69
92445512|NCT00811577|184777862|SUPERIORITY_OR_OTHER|||||||0.89||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.89
92445513|NCT00811577|184777862|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.30
92445514|NCT00811577|184777862|SUPERIORITY_OR_OTHER|||||||0.46||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.46
92445515|NCT00811577|184777863|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.086
92445516|NCT00811577|184777863|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.66
92445517|NCT00811577|184777863|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.069
92445518|NCT00811577|184777863|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.68
92445519|NCT00811577|184777863|SUPERIORITY_OR_OTHER|||||||0.095||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.095
92445520|NCT00811577|184777863|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.62
92445521|NCT00811577|184777864|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||Wilcoxon (signed rank)|||A regression analysis was run to compare alpha-SMA between 3 mg and 10 mg AZX100 and placebo, adjusted for the subject's gender and age. GEE regression in SAS/STAT PROC GENMOD was used because it properly handled the correlations among the three observations for each subject.||||0.44
92445522|NCT00811577|184777864|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||Wilcoxon (signed rank)|||A regression analysis was run to compare alpha-SMA between 3 mg and 10 mg AZX100 and placebo, adjusted for the subject's gender and age. GEE regression in SAS/STAT PROC GENMOD was used because it properly handled the correlations among the three observations for each subject.||||0.41
92445523|NCT01455012|184777873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-160.34|STANDARD_ERROR_OF_MEAN|26.46|<|0.0001|TWO_SIDED|95.0|-213.23|-107.45||The analysis of this primary efficacy variable was performed using a two-sided alpha level of 5 %.|ANCOVA||The treatment effect was estimated on the basis of the Least Square Mean (LSM) of the difference as well as on the 95 % Confidence Interval and the p-value for that difference. Difference to Placebo was calculated as Rotigotine-Placebo.|The 95 % Confidence Interval (CI) and the p-value for the mean difference between Rotigotine and Placebo was obtained from a linear Analysis of Covariance (ANCOVA) model with fixed effects for treatment and Baseline antihypertensive use and a covariate for the Baseline number of nocturnal elevations of Systolic Blood Pressure that are associated with Periodic Limb Movements (PLMs).||-107.45|-213.23|<0.0001
92445524|NCT00615056|184777965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.273||||0.8268|TWO_SIDED|95.0|0.769|2.108||One-sided log-rank test at alpha = 0.15 significance level was used.|Log Rank|||Differences in PFS between treatment arms was analyzed by 1-sided log rank test, stratified for Eastern Cooperative Oncology Group (ECOG) performance status (0 versus 1) and prior treatment with bevacizumab (yes versus no).||2.108|0.769|0.8268
92445525|NCT00615056|184777965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.041||||0.5498|TWO_SIDED|95.0|0.553|1.041||One-sided log-rank test at alpha = 0.15 significance level was used.|Log Rank|||Differences in PFS between treatment arms was analyzed by 1-sided log rank test, stratified for ECOG performance status (0 versus 1) and prior treatment with bevacizumab (yes versus no).||1.041|0.553|0.5498
92445526|NCT00615056|184777966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.355||||0.8828|TWO_SIDED|95.0|0.82|2.238||One-sided log-rank test at alpha = 0.15 significance level was used.|Log Rank|||Differences in OS between treatment arms was analyzed by 1-sided log rank test, stratified for ECOG performance status (0 versus 1) and prior treatment with bevacizumab (yes versus no).||2.238|0.820|0.8828
92445527|NCT00615056|184777966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.689||||0.1159|TWO_SIDED|95.0|0.373|1.273||One-sided log-rank test at alpha = 0.15 significance level was used.|Log Rank|||Differences in OS between treatment arms was analyzed by 1-sided log rank test, stratified for ECOG performance status (0 versus 1) and prior treatment with bevacizumab (yes versus no).||1.273|0.373|0.1159
92445528|NCT00615056|184777967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.4552|TWO_SIDED|95.0|-15.8|17.7|||Chi-squared|||One-sided Pearson chi square test at alpha = 0.15 significance level was used.||17.7|-15.8|0.4552
92445529|NCT00615056|184777967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.5235|TWO_SIDED|95.0|-19.1|18.0|||Chi-squared|||One-sided Pearson chi square test at alpha = 0.15 significance level was used.||18.0|-19.1|0.5235
92445530|NCT00717769|184777972|SUPERIORITY|||||||0.519|||||||ANCOVA|||Change from Baseline to Day 8||||0.519
92445531|NCT00717769|184777972|SUPERIORITY|||||||0.032|||||||ANCOVA|||Change from Baseline to Day 15||||0.032
92445532|NCT00717769|184777972|SUPERIORITY|||||||0.008|||||||ANCOVA|||Change from Baseline to Day 22||||0.008
92445533|NCT00717769|184777972|SUPERIORITY|||||||0.006|||||||ANCOVA|||Change from Baseline to Day 29||||0.006
92445534|NCT00717769|184777974|SUPERIORITY|||||||0.533|||||||ANCOVA|||Change from Baseline to Day 8||||0.533
92445535|NCT00717769|184777974|SUPERIORITY|||||||0.009|||||||ANCOVA|||Change from Baseline to Day 15||||0.009
92445536|NCT00717769|184777974|SUPERIORITY|||||||0.002|||||||ANCOVA|||Change from Baseline to Day 22||||0.002
92445537|NCT00717769|184777974|SUPERIORITY|||||||0.003|||||||ANCOVA|||Change from Baseline to Day 29||||0.003
92445538|NCT00692770|184778027|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||=|0.258329|TWO_SIDED|95.0|0.78|1.134||One sided P-value was stratified by region, risk of recurrence and previous curative treatment.|Log Rank|||||1.134|0.78|=0.258329
92445539|NCT00692770|184778028|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.891|||=|0.121383|TWO_SIDED|95.0|0.735|1.081||One sided P-value was stratified by region, risk of recurrence and previous curative treatment.|Log Rank|||||1.081|0.735|=0.121383
92445540|NCT00692770|184778029|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.995|||=|0.484742|TWO_SIDED|95.0|0.761|1.3||One-sided P-value was stratified by region, risk of recurrence and previous curative treatment.|Log Rank|||||1.3|0.761|=0.484742
92445541|NCT00692770|184778030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|||<|0.0001|TWO_SIDED|95.0|0.025|0.052|||ANCOVA|||An analysis of covariance (ANCOVA) model was used to estimate the mean difference in the timeadjusted Area Under Curve (AUC) between the two treatment groups, with covariates for baseline scores and stratification factors. To test the treatment effect, a mixed linear model (random coefficient model) was used for the EQ-5D index score. Statistical tests were performed with a 2 sided type I error of 5%.||0.052|0.025|<0.0001
92171614|NCT03144518|184232336|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.008||||0.377|TWO_SIDED|90.0|0.0|0.062|||ANCOVA|Controlling for pre-vaccination levels||B/Brisbane 16 weeks post-vaccination||.062|.000|.377
92171615|NCT03144518|184232336|SUPERIORITY||Partial Eta Squared|0.0||||0.892|TWO_SIDED|90.0|0.0|0.008|||ANCOVA|Controlling for pre-vaccination levels||B/Phuket 4 weeks post-vaccination||.008|.000|.892
92171616|NCT03144518|184232336|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.007||||0.426|TWO_SIDED|90.0|0.0|0.058|||ANCOVA|Controlling for pre-vaccination levels||||.058|.000|.426
92171617|NCT01989455|184232356|SUPERIORITY_OR_OTHER||Percent ratio|73.19|||||TWO_SIDED|90.0|68.83|77.56||||||||77.56|68.83|
92280282|NCT02978326|184463239|SUPERIORITY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|1.32||0.001|TWO_SIDED|95.0|-7.0|-1.8||MMRM was used for estimation with treatment, baseline HAM-A total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in HAM-A Total Score at Day 8||-1.8|-7.0|0.0010
92445542|NCT00692770|184778031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.978|||<|0.0001|TWO_SIDED|95.0|1.797|4.159|||ANCOVA|||An analysis of covariance (ANCOVA) model was used to estimate the mean difference in the timeadjusted Area Under Curve (AUC) between the two treatment groups, with covariates for baseline scores and stratification factors. To test the treatment effect, a mixed linear model (random coefficient model) was used for the EQ-5D VAS score. Statistical tests were performed with a 2 sided type I error of 5%.||4.159|1.797|<0.0001
92445543|NCT00692770|184778032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|||<|0.0001|TWO_SIDED|95.0|3.5|6.7|||ANCOVA|||An ANCOVA model was used to estimate the mean difference in the timeadjusted AUC between the two treatment groups, with covariates for baseline scores and stratification factors. To test the treatment effect, a mixed linear model (random coefficient model) was used for the FACT-HEP score. Statistical tests were performed with a 2 sided type I error of 5%.||6.7|3.5|<0.0001
92445544|NCT00692770|184778033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||<|0.0001|TWO_SIDED|95.0|1.4|3.6|||ANCOVA|||An ANCOVA model was used to estimate the mean difference in the timeadjusted AUC between the two treatment groups, with covariates for baseline scores and stratification factors. To test the treatment effect, a mixed linear model (random coefficient model) was used for the FACT-G score. Statistical tests were performed with a 2 sided type I error of 5%.||3.6|1.4|<0.0001
92445545|NCT00692770|184778034|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.562|||||TWO_SIDED|95.0|1.241|1.965|||||Significance of the biomarker main effect (RFS) and its corresponding hazard ratio estimate (HR) with 95% CI were reported. HR was expressed as high/low biomarker levels.|||1.965|1.241|
92445546|NCT00692770|184778035|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.747|||||TWO_SIDED|95.0|1.407|2.17|||||Significance of the biomarker main effect (RFS) and its corresponding hazard ratio estimate (HR) with 95% CI were reported. HR was expressed as high/low biomarker levels.|||2.170|1.407|
92445547|NCT00692770|184778036|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.56|||||TWO_SIDED|95.0|1.206|2.018|||||Significance of the biomarker main effect (RFS) and its corresponding hazard ratio estimate (HR) with 95% CI were reported. HR was expressed as high/low biomarker levels.|||2.018|1.206|
92445548|NCT01896895|184778115|SUPERIORITY||LS mean difference|-1.2|||=|0.0004|TWO_SIDED|95.0|-1.9|-0.6|||ANCOVA|||The difference in change of JRS severity subscore between treatment groups was analyzed by an ANCOVA according to a hierarchical test procedure. First step of hierarchy is hypothesis of superiority of 50 unit dose group NT 201 compared to placebo. This was tested confirmatory (α=0.05, 2-sided) by an ANCOVA with treatment group, pooled site, and gender as fixed factors and baseline JRS severity subscore and age as covariates based on LS means comparison. Missing values were imputed by LOCF.||-0.6|-1.9|=0.0004
92445549|NCT01896895|184778115|SUPERIORITY||LS mean difference|-0.5|||=|0.1452|TWO_SIDED|95.0|-1.1|0.2|||ANCOVA|||The difference in change of JRS severity subscore between treatment groups was analyzed by an ANCOVA according to a hierarchical test procedure. Second step of hierarchy is hypothesis of superiority of 25 unit dose group NT 201 compared to placebo. This was tested confirmatory (α=0.05, 2-sided) by an ANCOVA with treatment group, pooled site, and gender as fixed factors and baseline JRS severity subscore and age as covariates based on LS means comparison. Missing values were imputed by LOCF.||0.2|-1.1|=0.1452
92445550|NCT00773175|184778154|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-67.5||||0.5064|TWO_SIDED|95.0|-221.2|86.2||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department plus hospital stay|Treatment difference: subcutaneous minus intravenous|||86.2|-221.2|0.5064
92445551|NCT00773175|184778154|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|24.0||||0.0325|TWO_SIDED|95.0|-54.6|102.7||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department stay only|Treatment difference: subcutaneous minus intravenous|||102.7|-54.6|0.0325
92445552|NCT00773175|184778155|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-174.7||||0.8915|TWO_SIDED|95.0|-340.3|-9.1||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department plus hospital stay|Treatment difference: subcutaneous minus intravenous|||-9.1|-340.3|0.8915
92280283|NCT02978326|184463239|SUPERIORITY||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|1.41||0.0063|TWO_SIDED|95.0|-6.7|-1.1||MMRM was used for estimation with treatment, baseline HAM-A total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in HAM-A Total Score at Day 15||-1.1|-6.7|0.0063
92171618|NCT00632203|184232358|SUPERIORITY_OR_OTHER|||||||0.6995|||||||2-sided Exact Pearson Chi-square Test|||||||0.6995
92171619|NCT00999167|184232366|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0354|TWO_SIDED|95.0|||||Poisson regression adjusting for country|||||||0.0354
92171620|NCT00999167|184232367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0214||95.0|||||Cochran-Mantel-Haenszel|||||||0.0214
92239311|NCT00431847|184382387|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.0118|STANDARD_ERROR_OF_MEAN|6.2663||0.1516|TWO_SIDED|95.0|-3.327|21.3505|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||21.3505|-3.3270|0.1516
92171621|NCT00999167|184232368|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56||||0.047||95.0|||||Regression, Cox|||||||0.047
92239312|NCT00431847|184382388|SUPERIORITY_OR_OTHER||Slope|-0.9776|STANDARD_ERROR_OF_MEAN|0.1426|<|0.0001|TWO_SIDED|95.0|-1.2584|-0.6967|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury. T||-0.6967|-1.2584|<0.0001
92239313|NCT00431847|184382388|SUPERIORITY_OR_OTHER||Chi-Squared|0.78||||0.8548|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.8548
92240115|NCT00570739|184383818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.1081|TWO_SIDED|95.0|-0.13|0.01||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 12 Weeks||0.01|-0.13|0.1081
92445553|NCT00773175|184778155|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-58.6||||0.5469|TWO_SIDED|95.0|-137.5|20.3||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department stay only|Treatment difference: subcutaneous minus intravenous|||20.3|-137.5|0.5469
92445554|NCT00773175|184778157|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-67.0||||0.5035|TWO_SIDED|95.0|-220.6|86.7||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department plus hospital stay|Treatment difference: subcutaneous minus intravenous|||86.7|-220.6|0.5035
92445555|NCT00773175|184778157|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|24.6||||0.0314|TWO_SIDED|95.0|-54.0|103.2||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department stay only|Treatment difference: subcutaneous minus intravenous|||103.2|-54.0|0.0314
92445556|NCT00773175|184778161|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-30.1|||||TWO_SIDED|95.0|-69.5|9.4|||||Treatment difference: subcutaneous minus intravenous; Emergency department plus hospital stay|||9.4|-69.5|
92445557|NCT00773175|184778161|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-40.2|||||TWO_SIDED|95.0|-77.3|-3.1|||||Treatment difference: subcutaneous minus intravenous; Emergency department stay only|||-3.1|-77.3|
92445558|NCT00773175|184778162|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-30.1|||||TWO_SIDED|95.0|-69.5|9.4|||||Treatment difference: subcutaneous minus intravenous; Emergency department plus hospital stay|||9.4|-69.5|
92445559|NCT00773175|184778162|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-40.2|||||TWO_SIDED|95.0|-77.3|-3.1|||||Treatment difference: subcutaneous minus intravenous; Emergency department stay only|||-3.1|-77.3|
92445560|NCT00773175|184778164|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|2.9|||||TWO_SIDED|95.0|0.3|5.5|||||Treatment difference: subcutaneous minus intravenous; Emergency department plus hospital stay|||5.5|0.3|
92445561|NCT00773175|184778164|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|2.2|||||TWO_SIDED|95.0|-0.2|4.7|||||Treatment difference: subcutaneous minus intravenous; Emergency department stay only|||4.7|-0.2|
92445562|NCT00773175|184778165|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.8|1.9|||||Treatment difference: subcutaneous minus intravenous; Emergency department plus hospital stay|||1.9|-2.8|
92445563|NCT00773175|184778165|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-3.4|0.8|||||Treatment difference: subcutaneous minus intravenous; Emergency department stay only|||0.8|-3.4|
92445564|NCT00773175|184778176|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|0.1|0.3|||||Treatment difference = SC minus IV|||0.3|0.1|
92445565|NCT00773175|184778177|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.0658|TWO_SIDED|95.0|-0.9|0.0|||ANOVA|From Analysis of Variance (ANOVA) model with center and treatment as factors.|Treatment difference = SC minus IV.|||0.0|-0.9|0.0658
92171622|NCT00999167|184232369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0713|TWO_SIDED|95.0|||||ANCOVA|||Changes in the Total Index Score from Baseline and Day 56.||||0.0713
92280284|NCT02978326|184463239|SUPERIORITY||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|1.37||0.0119|TWO_SIDED|95.0|-6.2|-0.8||MMRM was used for estimation with treatment, baseline HAM-A total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in HAM-A Total Score at Day 21||-0.8|-6.2|0.0119
92171623|NCT00999167|184232369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.252|TWO_SIDED|95.0|||||ANCOVA|||Changes in the Total Index Score from Baseline and the Final Visit.||||0.2520
92280285|NCT02978326|184463239|SUPERIORITY||LS Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.28||0.0002|TWO_SIDED|95.0|-7.5|-2.4||MMRM was used for estimation with treatment, baseline HAM-A total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in HAM-A Total Score at Day 45||-2.4|-7.5|0.0002
92445566|NCT00773175|184778178|SUPERIORITY||Mean Difference (Net)|-1.0||||0.6208|TWO_SIDED|95.0|-4.8|2.9|||ANOVA|From ANOVA model with center and treatment as factors|Treatment difference = SC minus IV|||2.9|-4.8|0.6208
92445567|NCT00773175|184778180|SUPERIORITY|||||||0.0685||||||Cochran-Mantel-Haenszel (CMH) test controlling for center|Cochran-Mantel-Haenszel|Question 1||||||0.0685
92445568|NCT00773175|184778180|SUPERIORITY|||||||0.0004||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 2||||||0.0004
92445569|NCT00773175|184778180|SUPERIORITY|||||||0.6861||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 3||||||0.6861
92445570|NCT00773175|184778180|SUPERIORITY|||||||0.2323||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 4||||||0.2323
92445571|NCT00773175|184778181|SUPERIORITY|||||||0.0033||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Effectiveness||||||0.0033
92445572|NCT00773175|184778181|SUPERIORITY||||||<|0.0001||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Degree of difficulty||||||< 0.0001
92445573|NCT00773175|184778182|SUPERIORITY|||||||0.2012||||||CMH test controlling for Center|Cochran-Mantel-Haenszel|Question 1||||||0.2012
92445574|NCT00773175|184778182|SUPERIORITY||||||<|0.0001||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 2||||||< 0.0001
92445575|NCT00773175|184778182|SUPERIORITY|||||||0.1302||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 4||||||0.1302
92445576|NCT00773175|184778182|SUPERIORITY|||||||0.0852||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 5||||||0.0852
92445577|NCT00773175|184778182|SUPERIORITY|||||||0.0275||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 6||||||0.0275
92445578|NCT00773175|184778188|SUPERIORITY|||||||0.0247|||||||Wilcoxon (Mann-Whitney)|||||||0.0247
92445579|NCT00773175|184778189|SUPERIORITY|||||||0.0007||||||CMH test controlling for center|Cochran-Mantel-Haenszel|||||||0.0007
92445580|NCT00394212|184778209|SUPERIORITY_OR_OTHER|||||||0.066||95.0||||P-value from non-parametric Mann-Whitney-Wilcoxon test comparing treatments.|Wilcoxon (Mann-Whitney)|||Based on a 2-group test of means for unequal variance and unequal sample size (2:1 randomization ratio) with alpha = 0.05 and a power of 80%, the sample size required was 132; 88 subjects in the Transoral Suturing arm and 44 in the Sham Endoscopy arm. The study was prematurely discontinued due to reasons unrelated to safety and effectiveness and therefore was underpowered for evaluation of the primary and secondary hypotheses.||||0.066
92445581|NCT00394212|184778210|SUPERIORITY_OR_OTHER|||||||0.317||95.0||||P-value from two-sided Fisher's exact test comparing percents achieving 15% EWL at 6 months for the two treatments.|Fisher Exact|||||||0.317
92445582|NCT00394212|184778211|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value from two-sided Fisher's exact test comparing percents achieved for the two treatments.|Fisher Exact|||||||0.019
92445583|NCT00394212|184778212|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||P-value from two-sided Fisher's exact test comparing percents achieved for the two treatments.|Fisher Exact|||||||0.174
92445584|NCT02347527|184778221|SUPERIORITY|||||||0.038|||||||ANOVA|||||||0.038
92445585|NCT02347527|184778221|SUPERIORITY|||||||0.036|||||||ANOVA|||||||0.036
92445586|NCT02347527|184778222|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.010
92445587|NCT02347527|184778223|OTHER|||||||0.04|||||||Pearson's correlation|||Relationship between change in high-calorie food ratings and subsequent food intake (kcals).||||0.040
92445588|NCT02347527|184778223|OTHER|||||||0.92|||||||Pearson's correlation|||Relationship between change in high-calorie food ratings and subsequent food intake (kcals).||||0.92
92445589|NCT01276314|184778224|OTHER|||||||0.01||||||The p-value was analyzed for SJS/TEN participants with \>10% body surface area detachment.|Kaplan-Meier analysis|||For evaluating the time taken to heal skin erosion, the Kaplan-Meier product-limit estimates method was performed. Differences were considered statistically significant at P values of less than 0.05.||||0.01
92445590|NCT01276314|184778224|OTHER|||||||0.06||||||This p-value was analyzed for DRESS participants.|Kaplan-Meier analysis|||For evaluating the time taken to heal skin erosion, the Kaplan-Meier product-limit estimates method was performed. Differences were considered statistically significant at P values of less than 0.05.||||0.06
92445591|NCT00749775|184778247|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean systolic blood pressure at 4 weeks does not differ from that at baseline.||||<0.001
92445592|NCT00749775|184778247|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean systolic blood pressure at 8 weeks does not differ from that at baseline.||||<0.001
92239314|NCT00431847|184382388|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.3635|STANDARD_ERROR_OF_MEAN|3.8899||0.3882|TWO_SIDED|95.0|-4.3026|11.0296|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||11.0296|-4.3026|0.3882
92171624|NCT04238247|184232370|SUPERIORITY||Odds Ratio (OR)|1.876119||||0.006|TWO_SIDED|95.0|1.193531|2.949084||The threshold for statistical significance was p = 0.05.|Regression, Logistic|We conducted logistic regression adjusted for randomization strata (recommended CRS and reason for eligibility).||We hypothesized the intervention group would have greater child passenger safety guideline adherence at 6 months compared with enhanced usual care group. In planning the trial, we assumed 75% of TCBD caregivers would be re-randomized. Baseline randomization was stratified by recommended CRS (rear-facing seat, forward-facing seat, booster seat) and reason for eligibility (not using the recommended CRS at baseline or planning a premature transition in the next 6 months).||2.949084|1.193531|0.006
92240116|NCT00570739|184383818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.079|TWO_SIDED|95.0|-0.17|0.01||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||0.01|-0.17|0.0790
92240117|NCT00570739|184383818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.0206|TWO_SIDED|95.0|-0.18|-0.01||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||-0.01|-0.18|0.0206
92240118|NCT00570739|184383819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.0009|TWO_SIDED|95.0|-6.8|-1.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 4 Weeks||-1.8|-6.8|0.0009
92240119|NCT00570739|184383819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.1184|TWO_SIDED|95.0|-4.5|0.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||0.5|-4.5|0.1184
92171625|NCT04238247|184232371|SUPERIORITY||Odds Ratio (OR)|0.8686678||||0.671|TWO_SIDED|95.0|0.4535589|1.663695||The threshold for statistical significance was p = 0.05.|Regression, Logistic|||This analysis is limited to the Phase 2 participants who were re-randomized at 6 months to test the hypothesis that the enhanced intervention (with booster MI session) would have greater guideline adherent child passenger safety behaviors at 12 month follow-up than the group that continued in the basic intervention (mHealth components).||1.663695|0.4535589|0.671
92171626|NCT04238247|184232371|SUPERIORITY||Odds Ratio (OR)|6.859599|||<|0.001|TWO_SIDED|95.0|3.173121|14.82896|||Regression, Logistic|||||14.82896|3.173121|<0.001
92171627|NCT04238247|184232374|SUPERIORITY||Odds Ratio (OR)|1.74029||||0.032|TWO_SIDED|95.0|1.049169|2.886676||The threshold for statistical significance was p = 0.05.|Regression, Logistic|||||2.886676|1.049169|0.032
92280286|NCT02978326|184463240|SUPERIORITY||Odds Ratio (OR)|1.75||||0.1145|TWO_SIDED|95.0|0.87|3.53||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Response at Day 3||3.53|0.87|0.1145
92171628|NCT04238247|184232375|SUPERIORITY||Odds Ratio (OR)|1.112874||||0.752|TWO_SIDED|95.0|0.5735782|2.159233||The threshold for statistical significance was p = 0.05.|Regression, Logistic|||||2.159233|0.5735782|0.752
92171629|NCT04238247|184232375|SUPERIORITY||Odds Ratio (OR)|7.959981|||<|0.001|TWO_SIDED|95.0|3.321933|19.07362|||Regression, Logistic|||||19.07362|3.321933|<0.001
92240120|NCT00570739|184383819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.0615|TWO_SIDED|95.0|-5.8|0.1||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 12 Weeks||0.1|-5.8|0.0615
92445593|NCT00749775|184778247|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean systolic blood pressure at 12 weeks does not differ from that at baseline.||||<0.001
92445594|NCT00749775|184778247|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean systolic blood pressure at last evaluation date does not differ from that at baseline.||||<0.001
92445595|NCT00749775|184778248|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean diastolic blood pressure at 4 weeks does not differ from that at baseline.||||<0.001
92445596|NCT00749775|184778248|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean diastolic blood pressure at 8 weeks does not differ from that at baseline.||||<0.001
92445597|NCT00749775|184778248|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean diastolic blood pressure at 12 weeks does not differ from that at baseline.||||<0.001
92445598|NCT00749775|184778248|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean diastolic blood pressure at last evaluation date does not differ from that at baseline.||||<0.001
92445599|NCT01236196|184778285|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Mixed Models Analysis|||||||0.11
92445600|NCT01236196|184778286|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
92445601|NCT01236196|184778287|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
92445602|NCT01236196|184778288|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Mixed Models Analysis|||||||0.09
92445603|NCT03064126|184778303|SUPERIORITY||Risk Difference (RD)|0.166||||0.0017|ONE_SIDED|97.5|0.0553||||Chi-squared||||||0.0553|0.0017
92445604|NCT03064126|184778304|NON_INFERIORITY|A Chi-Square Test was used to assess the hypothesis for the difference in 12-month MAE-free rate with non-inferiority margin (-10%).|Risk Difference (RD)|0.106|||<|0.0001|ONE_SIDED|97.5|0.0248||||Chi-squared||||||0.0248|<0.0001
92445605|NCT03907683|184778337|SUPERIORITY||Mean Difference (Final Values)|0.16412|STANDARD_ERROR_OF_MEAN|0.08||0.037|TWO_SIDED|95.0|0.0098|0.3185|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekday move more messages would not differ from zero||0.3185|.0098|0.037
92445606|NCT03907683|184778337|SUPERIORITY||Mean Difference (Net)|0.12538|STANDARD_ERROR_OF_MEAN|0.07674||0.106|TWO_SIDED|95.0|-0.0274|0.2781|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekday sit less messages would not differ from zero||0.2781|-0.0274|.106
92445607|NCT03907683|184778337|SUPERIORITY||Mean Difference (Net)|0.24738|STANDARD_ERROR_OF_MEAN|0.13746||0.076|TWO_SIDED|95.0|-0.0262|0.521|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekday inspirational quote messages would not differ from zero||.5210|-.0262|.076
92445608|NCT03907683|184778337|SUPERIORITY||Mean Difference (Net)|0.30563|STANDARD_ERROR_OF_MEAN|0.16136||0.062|TWO_SIDED|95.0|-0.0156|0.6268|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekend move more messages would not differ from zero||.6268|-.0156|.062
92445609|NCT03907683|184778337|SUPERIORITY||Mean Difference (Net)|0.277|STANDARD_ERROR_OF_MEAN|0.10676||0.11|TWO_SIDED|95.0|0.0645|0.4895|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekend sit less messages would not differ from zero||.4895|.0645|0.11
92445610|NCT03907683|184778337|SUPERIORITY||Mean Difference (Net)|0.10837|STANDARD_ERROR_OF_MEAN|0.16895||0.523|TWO_SIDED|95.0|-0.2279|0.4447|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekend inspirational quote messages would not differ from zero||0.4447|-0.2279|.523
92171630|NCT04950127|184232376|SUPERIORITY||Mean Difference (Net)|-0.72||||0.001|TWO_SIDED|95.0|-1.15|-0.28|||Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline Monthly Itch score (MIS), Visit\*Baseline MIS interaction, Baseline Concomitant Itch Medication.||-0.28|-1.15|0.001
92445611|NCT03400332|184778361|OTHER||Hazard Ratio, log|0.94||||0.7416|TWO_SIDED|95.0|0.61|1.45|||Log Rank|||||1.45|0.61|0.7416
92445612|NCT00048542|184778367|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Chi-square test|||The study was sized to detect a difference in the proportion of subjects (40%) between placebo and the active adalimumab dose group who would experience disease flare assuming a placebo rate of 70% vs. a rate of 30% in the active group. Assuming a binomial distribution, an alpha of 0.05, 80% power, two-sided test, and an initial monotherapy responder rate of 70%, a minimum of 29 subjects were needed per treatment group within the appropriate strata.||||0.031
92445613|NCT00048542|184778369|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||Chi-square test|||||||0.015
92445614|NCT00048542|184778370|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Log Rank|||||||0.029
92445615|NCT00048542|184778371|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Log Rank|||||||0.031
92445616|NCT00048542|184778372|SUPERIORITY_OR_OTHER|||||||0.061||95.0|||||Pearson's Chi-square test|||||||0.061
92445617|NCT00048542|184778372|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Pearson's Chi-square test|||||||0.028
92171631|NCT04950127|184232377|SUPERIORITY||Mean Difference (Net)|-0.71|||<|0.001|TWO_SIDED|95.0|-1.07|-0.34||Adjusted for multiplicity as per Statistical Analysis Plan (SAP)|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Week, Week\*Treatment Group interaction, Baseline Weekly Itch score (WIS), Visit\*Baseline WIS interaction, Baseline Concomitant Itch Medication.||-0.34|-1.07|<0.001
92445618|NCT00048542|184778373|SUPERIORITY_OR_OTHER|||||||0.103||95.0|||||Pearson's Chi-square test|||||||0.103
92445619|NCT00048542|184778373|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Pearson's Chi-square test|||||||0.028
92445620|NCT00048542|184778374|SUPERIORITY_OR_OTHER|||||||0.156||95.0|||||Pearson's Chi-square test|||||||0.156
92445621|NCT00048542|184778374|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Pearson's Chi-square test|||||||0.002
92445622|NCT02346136|184778428|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.25||0.62|TWO_SIDED|95.0|-0.62|0.37||Tested as two-tailed p\<0.025 to accommodate two co-primary outcomes|Mixed Models Analysis|||||0.37|-0.62|0.62
92240121|NCT00570739|184383819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.3617|TWO_SIDED|95.0|-7.2|2.6||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||2.6|-7.2|0.3617
92280287|NCT02978326|184463240|SUPERIORITY||Odds Ratio (OR)|1.71||||0.1069|TWO_SIDED|95.0|0.89|3.3||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Response at Day 8||3.30|0.89|0.1069
92445623|NCT02346136|184778429|SUPERIORITY||Risk Ratio (RR)|0.535||||0.194|TWO_SIDED|95.0|0.182|1.57|||Mixed Models Analysis|Mixed model Poisson reg with fixed effects of age, baseline SPPB, baseline CES-D, and falls in prev year and random intercept and trt by site pair|Numerator of risk ratio is the rate among participants at sites receiving Tai Chi. Denominator of risk ratio is the rate among participants at sites receiving Health Education.|||1.57|0.182|0.194
92445624|NCT02346136|184778430|SUPERIORITY||Mean Difference (Net)|-0.65|STANDARD_ERROR_OF_MEAN|0.94||0.5|TWO_SIDED|95.0|-2.53|1.24|||Mixed Models Analysis|||||1.24|-2.53|.50
92445625|NCT02346136|184778431|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.85|TWO_SIDED|95.0|-0.04|0.05|||Mixed Models Analysis|||Gait NW velocity variable||.05|-.04|.85
92445626|NCT02346136|184778431|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.26|TWO_SIDED|95.0|-0.02|0.06|||Mixed Models Analysis|||Gait DT velocity variable||.06|-.02|.26
92445627|NCT02346136|184778432|SUPERIORITY||Mean Difference (Net)|-0.004|STANDARD_ERROR_OF_MEAN|0.02||0.84|TWO_SIDED|95.0|-0.04|0.03|||Mixed Models Analysis|||||0.03|-0.04|0.84
92445628|NCT02346136|184778433|SUPERIORITY||Mean Difference (Net)|0.81|STANDARD_ERROR_OF_MEAN|0.71||0.26|TWO_SIDED|95.0|-0.61|2.22|||Mixed Models Analysis|||||2.22|-0.61|.26
92445629|NCT02346136|184778434|SUPERIORITY||Median Difference (Net)|0.72|STANDARD_ERROR_OF_MEAN|7.29||0.92|TWO_SIDED|95.0|-13.9|15.3|||Mixed Models Analysis|||||15.3|-13.9|.92
92445630|NCT02346136|184778435|SUPERIORITY||Median Difference (Net)|1.36|STANDARD_ERROR_OF_MEAN|9.28||0.88|TWO_SIDED|95.0|-17.2|19.9|||Mixed Models Analysis|||||19.9|-17.2|.88
92445631|NCT02346136|184778436|SUPERIORITY||Mean Difference (Net)|0.85|STANDARD_ERROR_OF_MEAN|1.43||0.55|TWO_SIDED|95.0|-2.0|3.71|||Mixed Models Analysis|||Physical component score||3.71|-2.00|.55
92445632|NCT02346136|184778436|SUPERIORITY||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|1.66||0.51|TWO_SIDED|95.0|-4.41|2.21|||Mixed Models Analysis|||Mental component score||2.21|-4.41|.51
92445633|NCT02346136|184778437|SUPERIORITY||Median Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|1.0||0.69|TWO_SIDED|95.0|-1.6|2.41|||Mixed Models Analysis|||||2.41|-1.60|.69
92445634|NCT02346136|184778438|SUPERIORITY||Mean Difference (Net)|2.14|STANDARD_ERROR_OF_MEAN|2.56||0.41|TWO_SIDED|95.0|-2.98|7.26||to accommodate two co-primary outcomes|Mixed Models Analysis|||||7.26|-2.98|0.41
92445635|NCT02346136|184778440|SUPERIORITY||Risk Ratio (RR)|0.476||||0.06|TWO_SIDED|95.0|0.216|1.05|||Mixed Models Analysis|Mixed model Poisson reg with fixed effects of age, baseline SPPB, baseline CES-D, and falls in prev year and random intercept and trt by site pair|Numerator of risk ratio is the rate among participants at sites receiving Tai Chi. Denominator of risk ratio is the rate among participants at sites receiving Health Education.|||1.05|0.216|0.060
92445636|NCT02346136|184778441|SUPERIORITY||Mean Difference (Net)|1.27|STANDARD_ERROR_OF_MEAN|0.81||0.13|TWO_SIDED|95.0|-0.4|2.94|||Mixed Models Analysis|||||2.94|-0.40|0.13
92445637|NCT04382911|184778453|EQUIVALENCE|A 2x2 table was constructed among all patients with histopathologically identified endometriosis (true positive) to compare sensitivity for FES PET/MRI versus sensitivity of conventional MRI.||||||0.317|||||||McNemar|||||||0.317
92280288|NCT02978326|184463240|SUPERIORITY||Odds Ratio (OR)|2.67||||0.0045|TWO_SIDED|95.0|1.36|5.27||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Response at Day 15||5.27|1.36|0.0045
92445638|NCT04382911|184778456|OTHER|A random effects linear regression model, modeling SUV-max as a function of the pain rating, while controlling for patient-level covariates (BMI, race, age) was performed. The investigators included physician as a random effect to account for physician-level correlation.|Slope|0.748||||0.24|TWO_SIDED||||||Pearson's Correlation Coefficient|||||||0.24
92445639|NCT04382911|184778456|OTHER|The investigators will implement a random effects linear regression model, modeling SUV-max as a function of EHP-30, while controlling for patient-level covariates (BMI, race, age). The investigators will include physician as a random effect to account for physician-level correlation.|Slope|0.406||||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
92445640|NCT05619692|184778471|SUPERIORITY||Difference in LS Means|1.5|STANDARD_ERROR_OF_MEAN|1.11||0.1642|TWO_SIDED|95.0|-0.64|3.73||The p-value was obtained using MMRM model which included treatment, visit, treatment-by-visit interaction as categorical covariates, and WAIS-IV at baseline as continuous covariates.|MRMM||Difference was calculated as SAGE-718 - placebo.|||3.73|-0.64|0.1642
92445641|NCT02703636|184778491|OTHER|The MMRM model contained visit as a fixed effect, baseline MMSE score as a covariate and patient as a random effect.|Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.259||0.175|TWO_SIDED|95.0|-0.87|0.16|||t-test, 2 sided||change at week 24|||0.16|-0.87|0.1750
92445642|NCT02196324|184778540|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.34|=|0.0111|TWO_SIDED|95.0|-1.5|-0.2|||Mixed Models Analysis|||||-0.2|-1.5|= 0.0111
92445643|NCT02196324|184778541|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.43|=|0.0248|TWO_SIDED|95.0|-1.8|-0.1|||Mixed Models Analysis|||||-0.1|-1.8|= 0.0248
92445644|NCT02196324|184778542|SUPERIORITY||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.47||0.0005|TWO_SIDED|95.0|-2.6|-0.7|||Mixed Models Analysis|||||-0.7|-2.6|0.0005
92445645|NCT02196324|184778548|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.4|0.0||||||Week 2||-0.0|-1.4|
92280289|NCT02978326|184463240|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0421|TWO_SIDED|95.0|1.03|3.93||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Response at Day 21||3.93|1.03|0.0421
92445646|NCT02196324|184778548|SUPERIORITY||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-1.7|-0.1||||||Week 4||-0.1|-1.7|
92445647|NCT02196324|184778548|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.0175|TWO_SIDED|95.0|-2.0|-0.2||p-value assume equal variance|t-test, 2 sided|||Week 8||-0.2|-2.0|0.0175
92445648|NCT02196324|184778549|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-3.1|1.6||||||Week 2||1.6|-3.1|
92445649|NCT02196324|184778549|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.7|2.3||||||Week 4||2.3|-2.7|
92445650|NCT02196324|184778549|SUPERIORITY||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-3.6|2.1||||||Week 8||2.1|-3.6|
92445651|NCT02196324|184778550|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.4|0.1||||||Week 2||0.1|-0.4|
92445652|NCT02196324|184778550|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.4|0.2||||||Week 4||0.2|-0.4|
92445653|NCT02196324|184778550|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.6|0.1||||||Week 8||0.1|-0.6|
92445654|NCT02196324|184778551|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.0625|TWO_SIDED|95.0|-0.02|0.72||p-value assume equal variance.|t-test, 2 sided|||||0.72|-0.02|0.0625
92445655|NCT01399593|184778564|SUPERIORITY||Proportion difference|-3.9||||0.76|TWO_SIDED|95.0|-23.9|16.3|||Fisher Exact|||||16.3|-23.9|0.76
92445656|NCT03019627|184778619|SUPERIORITY||difference in least square means|-3.83|||=|0.428|TWO_SIDED|95.0|-13.34|5.68|||ANCOVA|||Frequency statistical analysis||5.68|-13.34|=0.428
92445657|NCT03019627|184778619|SUPERIORITY||difference in least square means|0.16|||=|0.974|TWO_SIDED|95.0|-9.45|9.76|||ANCOVA|||Severity statistical analysis||9.76|-9.45|=0.974
92445658|NCT03019627|184778620|SUPERIORITY||Difference in least square means|-1.12|||=|0.783|TWO_SIDED|95.0|-9.14|6.91|||ANCOVA|||frequency statistical analysis - week 4||6.91|-9.14|=0.783
92445659|NCT03019627|184778620|SUPERIORITY||difference in least square means|-3.82|||=|0.461|TWO_SIDED|95.0|-14.1|6.41|||ANCOVA|||Frequency statistical analysis - week 8||6.41|-14.1|=0.461
92445660|NCT03019627|184778620|SUPERIORITY||difference in least square means|-15.3|||=|0.004|TWO_SIDED|95.0|-25.6|-4.97|||ANCOVA|||Frequency statistical analysis - week 12||-4.97|-25.6|=0.004
92445661|NCT03019627|184778620|SUPERIORITY||difference in least square means|2.55|||=|0.544|TWO_SIDED|95.0|-5.72|10.82|||ANCOVA|||Severity statistical analysis - week 4||10.82|-5.72|=0.544
92445662|NCT03019627|184778620|SUPERIORITY||difference in least square means|1.06|||=|0.837|TWO_SIDED|95.0|-9.12|11.24|||ANCOVA|||Severity statistical analysis - week 8||11.24|-9.12|=0.837
92445663|NCT03019627|184778620|SUPERIORITY||difference in least square means|-13.8|||=|0.007|TWO_SIDED|95.0|-23.7|3.88|||ANCOVA|||Severity statistical analysis - week 12||3.88|-23.7|=0.007
92445664|NCT03019627|184778621|SUPERIORITY||Difference in least square means|-0.7|||=|0.046|TWO_SIDED|95.0|-1.38|-0.01|||ANCOVA|||week 4||-0.01|-1.38|=0.046
92445665|NCT03019627|184778621|SUPERIORITY||Difference in least square means|-0.3|||=|0.425|TWO_SIDED|95.0|-1.05|0.44|||ANCOVA|||week 8||0.44|-1.05|=0.425
92445666|NCT03019627|184778621|SUPERIORITY||Difference in least square means|-0.09|||=|0.788|TWO_SIDED|95.0|-0.76|0.58|||ANCOVA|||week 12||0.58|-0.76|=0.788
92445667|NCT03019627|184778622|SUPERIORITY||Difference in least square means|-0.71|||=|0.265|TWO_SIDED|95.0|-1.95|0.54|||ANCOVA|||week 4||0.54|-1.95|=0.265
92445668|NCT03019627|184778622|SUPERIORITY||Difference in least square means|-1.38|||=|0.026|TWO_SIDED|95.0|-2.59|-0.17|||ANCOVA|||week 8||-0.17|-2.59|=0.026
92445669|NCT03019627|184778622|SUPERIORITY||Difference in least square means|-0.6|||=|0.361|TWO_SIDED|95.0|-1.9|0.7|||ANCOVA|||week 12||0.70|-1.90|=0.361
92445670|NCT03019627|184778623|SUPERIORITY||Difference in least square means|-0.25|||=|0.323|TWO_SIDED|95.0|-0.76|0.25|||ANCOVA|||week 4||0.25|-0.76|=0.323
92445671|NCT03019627|184778623|SUPERIORITY||Difference in least square means|0.03|||=|0.908|TWO_SIDED|95.0|-0.55|0.62|||ANCOVA|||week 8||0.62|-0.55|=0.908
92445672|NCT03019627|184778623|SUPERIORITY||Difference in least square means|-0.12|||=|0.702|TWO_SIDED|95.0|-0.76|0.52|||ANCOVA|||week 12||0.52|-0.76|=0.702
92445673|NCT03019627|184778624|SUPERIORITY||Difference in least square means|5.75|||=|0.003|TWO_SIDED|95.0|2.02|9.48|||ANCOVA|||||9.48|2.02|=0.003
92445674|NCT05107128|184778625|SUPERIORITY||Difference in Least Square (LS) Means|-1.1|STANDARD_ERROR_OF_MEAN|0.81||0.1675|TWO_SIDED|95.0|-2.7|0.5||The p-value was obtained from Mixed Model for Repeated Measures (MMRM) model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and SDMT score at baseline as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||0.5|-2.7|0.1675
92445675|NCT05107128|184778626|SUPERIORITY||Difference in LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.9||0.4872|TWO_SIDED|95.0|-2.4|1.1||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and UHDRS - Independence Scale at baseline as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||1.1|-2.4|0.4872
92445676|NCT05107128|184778627|SUPERIORITY||Difference in LS Means|-5.0|STANDARD_ERROR_OF_MEAN|6.04||0.4089|TWO_SIDED|95.0|-17.0|6.9||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and SDMT score at baseline as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||6.9|-17.0|0.4089
92445677|NCT05107128|184778628|SUPERIORITY||Difference in LS Means|0.7|STANDARD_ERROR_OF_MEAN|1.26||0.5766|TWO_SIDED|95.0|-1.78|3.19||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and a baseline value as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||3.19|-1.78|0.5766
92445678|NCT05107128|184778629|SUPERIORITY||Difference in LS Means|-0.86|STANDARD_ERROR_OF_MEAN|0.64||0.1777|TWO_SIDED|95.0|-2.13|0.39||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and baseline value as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||0.39|-2.13|0.1777
92445679|NCT05107128|184778630|SUPERIORITY||Difference in LS Means|3.9|STANDARD_ERROR_OF_MEAN|1.76||0.0291|TWO_SIDED|95.0|0.4|7.3||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and Hi-DEF at baseline as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||7.3|0.4|0.0291
92445680|NCT05107128|184778631|SUPERIORITY||Difference in LS Means|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2923|TWO_SIDED|95.0|-0.3|0.1||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and CGI at baseline as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||0.1|-0.3|0.2923
92445681|NCT03761628|184778633|OTHER|The clinical performance endpoint - Clinical cure rate on Day 7 - was calculated and presented together with a one-sided 95% CI based on the exact binomial distribution (Clopper-Pearson).|Clinical cure rate|40.9|||||ONE_SIDED|95.0|23.3|||||||"It was assumed that the true cure rate was equal to 70%, therefore 22 patients were needed to obtain 90% chance (90% power) to show that the one-sided 95% CI for the observed cure rate was above 40%.~Hypotheses for the primary clinical performance endpoint:~* Null hypothesis: Clinical cure rate is less than or equal to 40%.~* Alternative hypothesis (one-sided): Clinical cure rate is above 40%."|||23.3|
92445682|NCT03761628|184778634|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Proportion with reduction|72.7|||||TWO_SIDED|95.0|49.8|89.3||||||||89.3|49.8|
92445683|NCT03761628|184778636|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Recurrence rate Day 14|12.5|||||TWO_SIDED|95.0|0.3|52.7||||||||52.7|0.3|
92445684|NCT03761628|184778636|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Recurrence rate Day 35|0.0|||||TWO_SIDED|95.0|0.0|45.9||||||||45.9|0|
92445685|NCT05459129|184778648|SUPERIORITY||Difference in pCR Rates|33.33|||||TWO_SIDED|95.0|-33.23|99.9||||||||99.90|-33.23|
92445686|NCT05459129|184778649|SUPERIORITY||Difference in pRR|33.33|||||TWO_SIDED|95.0|-21.05|87.72||||||||87.72|-21.05|
92445687|NCT05459129|184778650|SUPERIORITY||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.11|3.91|||||HR was estimated by Cox regression. Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made in terms of median EFS per arm or HR between the arms.|||3.91|0.11|
92445688|NCT05459129|184778651|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.13|6.43|||||HR was estimated by Cox regression. Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made in terms of media RFS per arm or HR between the arms.|||6.43|0.13|
92445689|NCT05459129|184778653|SUPERIORITY||Difference in ORR|16.67|||||TWO_SIDED|95.0|-54.99|88.32||||||||88.32|-54.99|
92445690|NCT05459129|184778654|SUPERIORITY||Difference in Event Free Rate|16.67|||||TWO_SIDED|95.0|-31.42|64.75|||||Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made.|3 Months Analysis||64.75|-31.42|
92445691|NCT05459129|184778654|SUPERIORITY||Difference in Event Free Rate|0.0|||||TWO_SIDED|95.0|-53.34|53.34|||||Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made.|6 Months Analysis||53.34|-53.34|
92445692|NCT05459129|184778655|SUPERIORITY||Difference in Event Free Rate|-13.33|||||TWO_SIDED|95.0|-64.83|38.16|||||Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made|3 Months Analysis||38.16|-64.83|
92445693|NCT05459129|184778655|SUPERIORITY||Difference in Event Free Rate|6.67|||||TWO_SIDED|95.0|-50.49|63.82|||||Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made|6 Months Analysis||63.82|-50.49|
92239315|NCT00431847|184382388|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5029|STANDARD_ERROR_OF_MEAN|5.9044||0.9322|TWO_SIDED|95.0|-12.1376|11.1317|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||11.1317|-12.1376|0.9322
92280290|NCT02978326|184463240|SUPERIORITY||Odds Ratio (OR)|1.99||||0.0541|TWO_SIDED|95.0|0.99|4.03||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Response at Day 45||4.03|0.99|0.0541
92445694|NCT04649151|184778680|NON_INFERIORITY|The noninferiority of Geometric Mean value (based on geometric least squares means \[GLSM\]) was considered demonstrated if: The lower bound of the 95% confidence interval (CI) of the geometric mean ratio (GMR) was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold).|GMR|1.078|||||TWO_SIDED|95.0|0.94|1.237|||||GMR of P203 vs P301|||1.237|0.940|
92445695|NCT04649151|184778681|NON_INFERIORITY|Noninferiority margin of 10%. Lower bound of the 95% CI of the SRR difference \>-10%. and a point estimator \>-5% (minimum threshold)|percentage difference|-0.2|||||TWO_SIDED|95.0|-2.1|1.9|||||SRR difference of P203 vs P301|||1.9|-2.1|
92445696|NCT04649151|184778682|NON_INFERIORITY|The lower bound of the 95% CI of noninferiority margin of 1.5. GMR point estimate \>=0.8 (minimum threshold).|GMR|5.071|||||TWO_SIDED|95.0|4.477|5.745|||||GMR of GMC at BD-Day 29 P203 vs GMC at Day 57 P301|||5.745|4.477|
92445697|NCT04649151|184778683|NON_INFERIORITY|Noninferiority margin of 10%. Lower bound of the 95% CI of the SRR difference \>-10%.|SRR Difference|0.7|||||TWO_SIDED|95.0|-0.8|2.4|||||SRR difference of P203 BD-Day 29 vs P301 Day 57|||2.4|-0.8|
92445698|NCT04649151|184778684|SUPERIORITY|The superiority of GMC (based on GLSM\] was considered demonstrated if: The lower bound of the 95% CI of the GMR was \>1|GMR|48.191|||||TWO_SIDED|95.0|43.765|53.065|||||GMR of P203 vs P301|||53.065|43.765|
92445699|NCT04649151|184778687|NON_INFERIORITY|The noninferiority of Geometric Mean value (based on GLSM) was considered demonstrated if: The lower bound of the 95% CI of the GMR was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold).|GMR|4.493|||||TWO_SIDED|95.0|3.972|5.083|||||GMR of GMC at BD-Day 29 P203 vs GMC at Day 57 P301|||5.083|3.972|
92239316|NCT00431847|184382388|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.1166|STANDARD_ERROR_OF_MEAN|9.2462||0.0233|TWO_SIDED|95.0|2.8992|39.3341|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||39.3341|2.8992|0.0233
92445700|NCT04649151|184778690|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|VE|60.3|||||TWO_SIDED|95.0|26.6|78.6|||VE|Vaccine efficacy (VE, percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).||||78.6|26.6|
92445701|NCT04649151|184778691|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|VE|43.5|||||TWO_SIDED|95.0|-16.5|72.2|||VE|VE (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).||||72.2|-16.5|
92445702|NCT04649151|184778692|OTHER||VE|100.0|||||TWO_SIDED|95.0|61.2||NA = not estimable (not reached).||VE|VE (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.||||61.2|
92445703|NCT04649151|184778693|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|VE|89.9|||||TWO_SIDED|95.0|51.0|98.9|||VE|VE (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).||||98.9|51.0|
92280291|NCT02978326|184463241|SUPERIORITY||Odds Ratio (OR)|2.84||||0.0326|TWO_SIDED|95.0|1.09|7.38||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Remission at Day 3||7.38|1.09|0.0326
92445704|NCT02775344|184778734|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.198|TWO_SIDED||||||Chi-squared, Corrected|||||||0.198
92445705|NCT02775344|184778735|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.393|TWO_SIDED||||||Chi-squared, Corrected|||||||0.393
92445706|NCT03909165|184778750|OTHER||Geometric Mean Ratio (GMR)|0.83|||||TWO_SIDED|90.0|0.56|1.21||||||2 mg/kg AUC0-inf Geometric Mean Ratio (GMR) = Birth to 27 days AUC0-inf Geometric Mean (GM) / 28 days to \< 3 months AUC0-inf GM.||1.21|0.56|
92445707|NCT03909165|184778750|OTHER||Geometric Mean Ratio (GMR)|1.41|||||TWO_SIDED|90.0|1.0|1.98||||||2 mg/kg AUC0-inf GMR = 28 days to \< 3 months AUC0-inf GM / 3 to \< 6 months AUC0-inf GM.||1.98|1.00|
92445708|NCT03909165|184778750|OTHER||Geometric Mean Ratio (GMR)|0.82|||||TWO_SIDED|90.0|0.6|1.11||||||2 mg/kg AUC0-inf GMR = 3 to \< 6 months AUC0-inf GM / 6 months to \< 2 years AUC0-inf GM.||1.11|0.60|
92445709|NCT03909165|184778750|OTHER||Geometric Mean Ratio (GMR)|1.23|||||TWO_SIDED|90.0|0.96|1.56||||||4 mg/kg AUC0-inf GMR = Birth to 27 days AUC0-inf GM / 28 days to \< 3 months AUC0-inf GM.||1.56|0.96|
92445710|NCT03909165|184778750|OTHER||Geometric Mean Ratio (GMR)|1.29|||||TWO_SIDED|90.0|1.03|1.62||||||4 mg/kg AUC0-inf GMR = 28 days to \< 3 months AUC0-inf GM / 3 to \< 6 months AUC0-inf GM.||1.62|1.03|
92445711|NCT03909165|184778750|OTHER||Geometric Mean Ratio (GMR)|0.89|||||TWO_SIDED|90.0|0.7|1.13||||||4 mg/kg AUC0-inf GMR = 3 to \< 6 months AUC0-inf GM / 6 months to \< 2 years AUC0-inf GM.||1.13|0.70|
92445712|NCT03909165|184778751|OTHER||Geometric Mean Ratio (GMR)|0.91|||||TWO_SIDED|90.0|0.67|1.23||||||2 mg/kg AUC0-1hr GMR = Birth to 27 days AUC0-1hr GM / 28 days to \< 3 months AUC0-1hr GM.||1.23|0.67|
92445713|NCT03909165|184778751|OTHER||Geometric Mean Ratio (GMR)|1.25|||||TWO_SIDED|90.0|0.92|1.69||||||2 mg/kg AUC0-1hr GMR = 28 days to \< 3 months AUC0-1hr GM / 3 to \< 6 months AUC0-1hr GM.||1.69|0.92|
92445714|NCT03909165|184778751|OTHER||Geometric Mean Ratio (GMR)|0.83|||||TWO_SIDED|90.0|0.64|1.08||||||2 mg/kg AUC0-1hr GMR = 3 to \< 6 months AUC0-1hr GM / 6 months to \< 2 years AUC0-1hr GM.||1.08|0.64|
92445715|NCT03909165|184778751|OTHER||Geometric Mean Ratio (GMR)|0.86|||||TWO_SIDED|90.0|0.7|1.06||||||4 mg/kg AUC0-1hr GMR = Birth to 27 days AUC0-1hr GM / 28 days to \< 3 months AUC0-1hr GM.||1.06|0.70|
92445716|NCT03909165|184778751|OTHER||Geometric Mean Ratio (GMR)|1.07|||||TWO_SIDED|90.0|0.89|1.29||||||4 mg/kg AUC0-1hr GMR = 28 days to \< 3 months AUC0-1hr GM / 3 to \< 6 months AUC0-1hr GM.||1.29|0.89|
92239317|NCT00076219|184382389|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09|STANDARD_ERROR_OF_MEAN|0.12||0.47|TWO_SIDED|95.0|0.86|1.4|||Regression, Logistic|||||1.40|0.86|0.47
92445717|NCT03909165|184778751|OTHER||Geometric Mean Ratio (GMR)|0.97|||||TWO_SIDED|90.0|0.8|1.17||||||4 mg/kg AUC0-1hr GMR = 3 to \< 6 months AUC0-1hr GM / 6 months to \< 2 years AUC0-1hr GM.||1.17|0.80|
92445718|NCT03909165|184778753|OTHER||Geometric Mean Ratio (GMR)|0.92|||||TWO_SIDED|90.0|0.61|1.4||||||2 mg/kg Cmax GMR = Birth to 27 days Cmax GM / 28 days to \< 3 months Cmax GM.||1.40|0.61|
92445719|NCT03909165|184778753|OTHER||Geometric Mean Ratio (GMR)|1.09|||||TWO_SIDED|90.0|0.7|1.7||||||2 mg/kg Cmax GMR = 28 days to \< 3 months Cmax GM / 3 to \< 6 months Cmax GM.||1.70|0.70|
92445720|NCT03909165|184778753|OTHER||Geometric Mean Ratio (GMR)|0.92|||||TWO_SIDED|90.0|0.63|1.36||||||2 mg/kg Cmax GMR = 3 to \< 6 months Cmax GM / 6 months to \< 2 years Cmax GM.||1.36|0.63|
92445721|NCT03909165|184778753|OTHER||Geometric Mean Ratio (GMR)|0.94|||||TWO_SIDED|90.0|0.7|1.26||||||4 mg/kg Cmax GMR = Birth to 27 days Cmax GM / 28 days to \< 3 months Cmax GM.||1.26|0.70|
92445722|NCT03909165|184778753|OTHER||Geometric Mean Ratio (GMR)|0.68|||||TWO_SIDED|90.0|0.52|0.89||||||4 mg/kg Cmax GMR = 28 days to \< 3 months Cmax GM / 3 to \< 6 months Cmax GM.||0.89|0.52|
92445723|NCT03909165|184778753|OTHER||Geometric Mean Ratio (GMR)|1.09|||||TWO_SIDED|90.0|0.83|1.43||||||4 mg/kg AUC0-1hr GMR = 3 to \< 6 months Cmax GM / 6 months to \< 2 years Cmax GM.||1.43|0.83|
92445724|NCT03909165|184778758|SUPERIORITY||Hazard Ratio (HR)|2.4|||=|0.0002|TWO_SIDED|95.0|1.37|4.18||Two-sided p-value based on log-rank test stratified by neuromuscular blocking agent and age groups.|Log Rank|||The Hazard Ratio (HR) for the pairwise comparison of Sugammadex 2 mg/kg vs. Neostigmine + (Glycopyrrolate or Atropine) was based on a Cox regression model with Efron's method of tie handling with covariates of treatment, age (continuous) and stratified by neuromuscular blocking agent.||4.18|1.37|= 0.0002
92445725|NCT03909165|184778759|OTHER||Difference in Percentage|7.6|||||TWO_SIDED|95.0|-14.2|29.5||||||The difference in percentage of participants with an AE in sugammadex 2 mg/kg group versus the Neostigmine + (Glycopyrrolate or Atropine) group was based on the Miettinen and Nurminen method stratified by neuromuscular blocking agent and age group.||29.5|-14.2|
92239318|NCT00455858|184382416|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean|-1.356|||<|0.0001||95.0|-1.368|-1.344|||t-test|||||-1.344|-1.368|<.0001
92239319|NCT00455858|184382417|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean|-1.338|||<|0.0001||95.0|-1.35|-1.327|||t-test|||||-1.327|-1.350|<.0001
92239320|NCT00455858|184382418|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean|-69.553|||<|0.0001||95.0|-70.047|-69.06|||Paired t-test|||Estimated mean decrease in FPG at week 12||-69.060|-70.047|<.0001
92239321|NCT00455858|184382418|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean|-72.159|||<|0.0001||95.0|-72.647|-71.671|||Paired t-test|||Estimated mean decrease in FPG at week 20||-71.671|-72.647|<.0001
92240122|NCT00570739|184383819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.2372|TWO_SIDED|95.0|-7.0|1.7||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||1.7|-7.0|0.2372
92445726|NCT03909165|184778759|OTHER||Difference in Percentage|5.9|||||TWO_SIDED|95.0|-13.5|26.7||||||The difference in percentage of participants with an AE in sugammadex 4 mg/kg group versus the Neostigmine + (Glycopyrrolate or Atropine) group was based on the Miettinen and Nurminen method stratified by neuromuscular blocking agent and age group.||26.7|-13.5|
92445727|NCT06034496|184778761|SUPERIORITY|||||||0.012||||||CES main effect|ANOVA|||||||.012
92445728|NCT06034496|184778761|SUPERIORITY|||||||0.33||||||Session main effect|ANOVA|||||||.33
92445729|NCT06034496|184778761|SUPERIORITY|||||||0.85||||||Session (baseline, follow-up) x CES|ANOVA|||||||.85
92445730|NCT06034496|184778762|SUPERIORITY|||||||0.6||||||CES main effect|ANOVA|||||||.6
92445731|NCT06034496|184778762|SUPERIORITY|||||||0.9||||||Session main effect|ANOVA|||||||.9
92445732|NCT06034496|184778762|SUPERIORITY|||||||0.05||||||CES x Session interaction|ANOVA|||||||.05
92445733|NCT06034496|184778763|SUPERIORITY|||||||0.26||||||CES main effect|ANOVA|||||||.26
92445734|NCT06034496|184778763|SUPERIORITY|||||||0.17||||||Session main effect|ANOVA|||||||.17
92445735|NCT06034496|184778763|SUPERIORITY|||||||0.73||||||CES x Session main effect|ANOVA|||||||.73
92445736|NCT06034496|184778764|SUPERIORITY|||||||0.18||||||CES main effect|ANOVA|||||||.18
92445737|NCT06034496|184778764|SUPERIORITY|||||||0||||||Time main effect|ANOVA|||||||.00
92445738|NCT06034496|184778764|SUPERIORITY|||||||0.53||||||CES main effect|ANOVA|||||||.53
92445739|NCT06034496|184778764|SUPERIORITY|||||||0.07||||||CES x Time interaction|ANOVA|||||||.07
92445740|NCT06034496|184778764|SUPERIORITY|||||||0.46||||||CES x Session|ANOVA|||||||.46
92445741|NCT06034496|184778764|SUPERIORITY|||||||0.01||||||Time x Session interaction|ANOVA|||||||.01
92445742|NCT06034496|184778764|SUPERIORITY|||||||0.29||||||CES x Time x Session interaction|ANOVA|||||||.29
92445743|NCT06034496|184778765|SUPERIORITY|||||||0.1||||||CES main effect|ANOVA|||||||.10
92445744|NCT06034496|184778765|SUPERIORITY|||||||0||||||Time main effect|ANOVA|||||||.00
92445745|NCT06034496|184778765|SUPERIORITY|||||||0.81||||||Session main effect|ANOVA|||||||.81
92445746|NCT06034496|184778765|SUPERIORITY|||||||0.4||||||CES x Time interaction|ANOVA|||||||.40
92445747|NCT06034496|184778765|SUPERIORITY|||||||0.35||||||CES x Session interaction|ANOVA|||||||.35
92445748|NCT06034496|184778765|SUPERIORITY|||||||0||||||Time x Session interaction|ANOVA|||||||.00
92445749|NCT06034496|184778765|SUPERIORITY|||||||0.4||||||CES x Time x Session interaction|ANOVA|||||||.40
92445750|NCT06034496|184778766|SUPERIORITY|||||||0.23||||||STAI-T CES main effect|ANOVA|||||||.23
92445751|NCT06034496|184778766|SUPERIORITY|||||||0.45||||||STAI-T Session main effect|ANOVA|||||||.45
92445752|NCT06034496|184778766|SUPERIORITY|||||||0.38||||||STAI-T CES x Session interaction|ANOVA|||||||.38
92445753|NCT06034496|184778766|SUPERIORITY|||||||0.4||||||STAI-S CES main effect|ANOVA|||||||.40
92445754|NCT06034496|184778766|SUPERIORITY|||||||0||||||STAI-S Time main effect|ANOVA|||||||.00
92445755|NCT06034496|184778766|SUPERIORITY|||||||0||||||STAI-S Session main effect|ANOVA|||||||.00
92445756|NCT06034496|184778766|SUPERIORITY|||||||0.2||||||STAI-S CES x Time interaction|ANOVA|||||||.20
92445757|NCT06034496|184778766|SUPERIORITY|||||||0.39||||||STAI-S CES x Session interaction|ANOVA|||||||.39
92445758|NCT06034496|184778766|SUPERIORITY|||||||0||||||STAI-S Session x Time interaction|ANOVA|||||||.00
92445759|NCT06034496|184778766|SUPERIORITY|||||||0.38||||||STAI-S CES x Time x Session interaction|ANOVA|||||||.38
92445760|NCT06034496|184778767|SUPERIORITY|||||||0.85||||||CES main effect|ANOVA|||||||.85
92445761|NCT06034496|184778767|SUPERIORITY|||||||0.69||||||Session main effect|ANOVA|||||||.69
92445762|NCT06034496|184778767|SUPERIORITY|||||||0.4||||||CES x Session interaction|ANOVA|||||||.4
92445763|NCT06034496|184778768|SUPERIORITY|||||||0.13||||||CES main effect|ANOVA|||||||.13
92445764|NCT06034496|184778768|SUPERIORITY|||||||0.26||||||Session main effect|ANOVA|||||||.26
92445765|NCT06034496|184778768|SUPERIORITY|||||||0.44||||||CES x Session interaction|ANOVA|||||||.44
92445766|NCT06034496|184778769|SUPERIORITY|||||||0.36||||||CES main effect|ANOVA|||||||.36
92445767|NCT06034496|184778769|SUPERIORITY|||||||0||||||Session main effect|ANOVA|||||||.00
92445768|NCT06034496|184778769|SUPERIORITY|||||||0.96||||||CES x Session interaction|ANOVA|||||||.96
92445769|NCT03277261|184778798|SUPERIORITY||Rate Ratio (Ublituximab/Teriflunomide)|0.406|||<|0.0001|TWO_SIDED|95.0|0.268|0.615||GEE (Generalized Estimating Equation) model for the relapse count per participant with logarithmic link function, treatment, region, and baseline Expanded Disability Status Scale (EDSS) strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.615|0.268|<0.0001
92445770|NCT03277261|184778799|SUPERIORITY||Rate Ratio (Ublituximab/Teriflunomide)|0.033|||<|0.0001|TWO_SIDED|95.0|0.019|0.058||GEE model for the relapse count per participant with logarithmic link function, treatment, region, and baseline EDSS strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.058|0.019|<0.0001
92445771|NCT03277261|184778800|SUPERIORITY||Rate Ratio (Ublituximab/Teriflunomide)|0.076|||<|0.0001|TWO_SIDED|95.0|0.056|0.104||GEE model for the relapse count per participant with logarithmic link function, treatment, region, and baseline EDSS strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.104|0.056|<0.0001
92445772|NCT03277261|184778802|SUPERIORITY||Odds Ratio (Ublituximab/Teriflunomide)|5.442|||<|0.0001|TWO_SIDED|95.0|3.536|8.375||Logistic regression model with treatment, region, baseline EDSS strata and log transformed baseline MRI lesion counts (T1 unenhancing, T2, Gd enhancing) as covariates.|Regression, Logistic|||||8.375|3.536|<0.0001
92445773|NCT03277261|184778803|SUPERIORITY||Odds Ratio (Ublituximab/Teriflunomide)|0.872|||=|0.4669|TWO_SIDED|95.0|0.603|1.261||Logistic regression model with treatment, region, baseline EDSS strata, and log-transformed baseline MRI counts (T1 unenhancing, T2, Gd enhancing) as covariates.|Logistic Regression|||||1.261|0.603|=0.4669
92171632|NCT04950127|184232378|SUPERIORITY||Mean Difference (Net)|-0.53||||0.024|TWO_SIDED|95.0|-0.98|-0.07||Adjusted for multiplicity as per Statistical Analysis Plan (SAP)|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline Monthly sleep score (MSS), Visit\*Baseline MSS interaction, Baseline Concomitant Itch Medication.||-0.07|-0.98|0.024
92171633|NCT04950127|184232379|SUPERIORITY||Percentage difference|4.0||||0.539||95.0|-9.0|17.0||Adjusted for multiplicity as per Statistical Analysis Plan (SAP)|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) stratified analysis adjusted for baseline factors: Baseline Itch Severity (Moderate: \>=4 and less than \[\<\]7, Severe: \>=7); Concomitant cholestatic pruritus treatment regimen (Regimen contains Bile Acid Binding Resin \[BABR\], Regimen does not contain BABR, No defined treatment). Multiple imputation of missing Monthly itch scores was done before deriving responder definitions. Imputed datasets were analyzed using the CMH method and combined.||17.0|-9.0|0.539
92239322|NCT01899144|184382449|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.6|STANDARD_ERROR_OF_MEAN|4.87|<|0.0001|TWO_SIDED|95.0|13.0|32.2|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||32.20|13.00|<0.0001
92239323|NCT01899144|184382449|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.2|STANDARD_ERROR_OF_MEAN|4.87|<|0.0001|TWO_SIDED|95.0|11.6|30.81|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||30.81|11.6|<0.0001
92445774|NCT03277261|184778804|SUPERIORITY||Least squares mean difference|-0.072|||<|0.0001|TWO_SIDED|95.0|-0.107|-0.036||The model includes treatment, region, baseline EDSS strata, visit, treatment-by-visit interaction, and baseline volume (cube root transformed) as covariates and an unstructured covariance matrix.|Mixed Model Repeated Measures (MMRM)|||||-0.036|-0.107|<0.0001
92445775|NCT03762083|184778806|OTHER|The clinical performance endpoint - Clinical cure rate on Day 7 - was calculated and presented together with a one-sided 95% CI based on the exact binomial distribution (Clopper-Pearson).|Clinical cure rate|81.9|||||ONE_SIDED|95.0|63.1|||||||"It was assumed that the true cure rate was equal to 70%, therefore 22 patients were needed to obtain 90% chance (90% power) to show that the one-sided 95% confidence interval (CI) for the observed cure rate was above 40%.~Hypotheses for the primary clinical performance endpoint:~* Null hypothesis: Clinical cure rate is less than or equal to 40%.~* Alternative hypothesis (one-sided): Clinical cure rate is above 40%."|||63.1|
92445776|NCT03762083|184778807|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Prop. negative for Amsel criterion 1.|85.7|||||TWO_SIDED|95.0|63.7|97.0||||||||97.0|63.7|
92445777|NCT03762083|184778808|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Prop. negative for Amsel criterion 2.|90.0|||||TWO_SIDED|95.0|68.3|98.8||||||||98.8|68.3|
92445778|NCT03762083|184778809|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Prop. negative for Amsel criterion 3.|86.4|||||TWO_SIDED|95.0|65.1|97.1||||||||97.1|65.1|
92445779|NCT03762083|184778811|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Recurrence rate Day 14|5.6|||||TWO_SIDED|95.0|0.1|27.3||||||||27.3|0.1|
92445780|NCT03762083|184778811|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Recurrence rate Day 35|0.0|||||TWO_SIDED|95.0|0.0|20.6||||||||20.6|0|
92445781|NCT01203072|184778812|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significance level for Cochran-Armitage test and comparison using Shirley-Williams method was set at one-sided, 0.025. For other tests, significance level and confidence coefficient were set at two-sided, 0.05 and 0.95, respectively, unless specified|Cochran-Armitage|||As the primary analysis, the dose-response relationship in the incidence of thromboembolic event was verified using the Cochran-Armitage test.||||<0.001
92445782|NCT01103934|184778940|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.09
92445783|NCT01103934|184778941|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
92445784|NCT00559962|184778956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.68|||<|0.001|TWO_SIDED|95.0|2.3|7.07|||ANOVA|||One-way analysis of variance (ANOVA) to compare the absolute change from baseline to Week 12 in percent hepatic fat between AEGR-755 5 mg and placebo.||7.07|2.30|<0.001
92445785|NCT00559962|184778957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.92|||<|0.001|TWO_SIDED|95.0|2.27|7.57||(All comparisons)|ANOVA|||One-way ANOVA to compare the absolute change from baseline to Week 12 in percent hepatic fat between active treatment groups and placebo||7.57|2.27|<0.001
92445786|NCT00559962|184778957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.68|||<|0.001|TWO_SIDED|95.0|2.3|7.07||(All comparisons)|ANOVA|||||7.07|2.30|<0.001
92445787|NCT00559962|184778957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.91|||<|0.001|TWO_SIDED|95.0|1.73|6.1||(All comparisons)|ANOVA|||One-way ANOVA to compare the absolute change from baseline to Week 12 in percent hepatic fat between active treatment groups and placebo||6.10|1.73|<0.001
92445788|NCT00559962|184778957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.82|||<|0.001|TWO_SIDED|95.0|4.31|11.33||(All comparisons)|ANOVA|||||11.33|4.31|<0.001
92445789|NCT00559962|184778957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65|||<|0.001|TWO_SIDED|95.0|1.58|5.72||(All comparisons)|ANOVA|||One-way ANOVA to compare the absolute change from baseline to Week 12 in percent hepatic fat between active treatment groups and placebo||5.72|1.58|<0.001
92445790|NCT00559962|184778957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.66|||<|0.001|TWO_SIDED|95.0|4.22|11.11||(All comparisons)|ANOVA|||One-way ANOVA to compare the absolute change from baseline to Week 12 in percent hepatic fat between active treatment groups and placebo||11.11|4.22|<0.001
92239324|NCT01899144|184382449|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|23.7|STANDARD_ERROR_OF_MEAN|4.85|<|0.0001|TWO_SIDED|95.0|14.13|33.23|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||33.23|14.13|<0.0001
92240123|NCT00570739|184383820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.921||||0.2982|TWO_SIDED|95.0|-0.821|2.663||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 4 Weeks||2.663|-0.821|0.2982
92240124|NCT00570739|184383820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.695||||0.2361|TWO_SIDED|95.0|-0.458|1.848||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||1.848|-0.458|0.2361
92240125|NCT00570739|184383820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.218||||0.0413|TWO_SIDED|95.0|-2.388|-0.049|||ANCOVA|||Baseline to 12 Weeks||-0.049|-2.388|0.0413
92240126|NCT00570739|184383820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.434||||0.7858|TWO_SIDED|95.0|-3.583|2.715|||ANCOVA|||Baseline to 16 Weeks||2.715|-3.583|0.7858
92240127|NCT00570739|184383820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.493||||0.7314|TWO_SIDED|95.0|-3.321|2.335|||ANCOVA|||Baseline to 16 Weeks LOCF||2.335|-3.321|0.7314
92240128|NCT00570739|184383821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.089||||0.553|TWO_SIDED|95.0|-0.385|0.207||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||0.207|-0.385|0.5530
92280292|NCT02978326|184463241|SUPERIORITY||Odds Ratio (OR)|1.38||||0.3749|TWO_SIDED|95.0|0.68|2.79||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Remission at Day 8||2.79|0.68|0.3749
92445791|NCT00559962|184778957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.51|||<|0.001|TWO_SIDED|95.0|5.16|9.86||(All comparisons)|ANOVA|||One-way ANOVA to compare the absolute change from baseline to Week 12 in percent hepatic fat between active treatment groups and placebo||9.86|5.16|<0.001
92445792|NCT04521166|184778995|OTHER|A linear mixed model was used to assess whether there was a difference between Settings 1 and 2.|Slope|-0.0099|STANDARD_ERROR_OF_MEAN|0.01572||0.5291|TWO_SIDED|95.0|-0.04075|0.02095||The a priori threshold for statistical significance was 0.05. P-value was adjusted for multiple comparisons using the Bonferroni correction.|Mixed Models Analysis||Setting 2 was considered as the reference and the estimate reflects whether the slope for Setting 1 is significantly different from the slope for Setting 2|||0.02095|-0.04075|0.5291
92445793|NCT04521166|184778995|OTHER|A linear mixed model was used to assess whether there was a difference between Setting 2 and Setting 3.|Slope|0.1329|STANDARD_ERROR_OF_MEAN|0.0174|<|0.001|TWO_SIDED|95.0|0.0988|0.1671||The a priori threshold for statistical significance was 0.05. P-value was adjusted for multiple comparisons using the Bonferroni correction.|Mixed Models Analysis||Setting 2 was considered as the reference and the estimate reflects whether the slope for Setting 3 is significantly different from the slope for Setting 2|||0.1671|0.09880|<0.001
92445794|NCT04521166|184778995|OTHER|A linear mixed model was used to assess whether there was a difference between Setting 2 and Setting 4.|Slope|0.2016|STANDARD_ERROR_OF_MEAN|0.01812|<|0.0001|TWO_SIDED|95.0|0.166|0.2371||The a priori threshold for statistical significance was 0.05. P-value was adjusted for multiple comparisons using the Bonferroni correction.|Mixed Models Analysis||Setting 2 was considered as the reference and the estimate reflects whether the slope for Setting 4 is significantly different from the slope for Setting|||0.2371|0.1660|<.0001
92445795|NCT04521166|184778995|OTHER|A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after controlling for age and degree of hearing loss (decibel hearing level)|Slope|0.002||||0.242|TWO_SIDED|||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after controlling for age and degree of hearing loss (decibel hearing level)||||0.242
92445796|NCT04521166|184778995|OTHER|A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after controlling for age and degree of hearing loss (decibel hearing level)|Slope|0.002||||0.242|TWO_SIDED|||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after controlling for age and degree of hearing loss (decibel hearing level)||||0.242
92445797|NCT04521166|184778995|OTHER|A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after accounting for age and degree of hearing loss (decibel hearing level).|Slope|0.002||||0.242|TWO_SIDED|||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after accounting for age and degree of hearing loss (decibel hearing level).||||0.242
92445798|NCT04521166|184778995|OTHER|A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after accounting for age and degree of hearing loss (decibel hearing level).|Slope|0.002||||0.242|TWO_SIDED|||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after accounting for age and degree of hearing loss (decibel hearing level).||||0.242
92445799|NCT01110915|184779016|SUPERIORITY_OR_OTHER||Percentage|0.0|||<|0.0001|ONE_SIDED|97.5||2.5||A priori threshold for statistical significance was 0.025|exact test of binomial proportions|||Null Hypothesis: MRI-related complication rate between the MRI scan and one-month post-MRI \>=10%.||2.5||<0.0001
92445800|NCT01110915|184779017|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Difference in percentages|0.0|||||||||||Farrington-Manning test|A priori threshold for statistical significance was 0.025. Because there were no failures in either group, a p-value could not be calculated.||Null hypothesis: % successes MRI group ≤ % successes Control group -10%.||||
92445801|NCT01110915|184779018|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Difference in percentages|0.5|||<|0.0001|TWO_SIDED|95.0|-5.0|5.9||A priori threshold for statistical significance was 0.025.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group -10%.||5.9|-5.0|<0.0001
92280293|NCT02978326|184463241|SUPERIORITY||Odds Ratio (OR)|2.49||||0.0087|TWO_SIDED|95.0|1.26|4.92||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Remission at Day 15||4.92|1.26|0.0087
92445802|NCT01110915|184779019|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Difference in percentages|1.5||||0.001|ONE_SIDED|95.0|-6.1|||A priori threshold for statistical significance was 0.05.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group - 10%.|||-6.1|0.0010
92445803|NCT01110915|184779020|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Difference in percentages|0.1||||0.0001|ONE_SIDED|95.0|-4.6|||A priori threshold for statistical significance was 0.05.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group - 10%.|||-4.6|0.0001
92240129|NCT00570739|184383821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.105||||0.4554|TWO_SIDED|95.0|-0.383|0.172||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||0.172|-0.383|0.4554
92445804|NCT01110915|184779021|SUPERIORITY_OR_OTHER||Percentage|0.0|||<|0.0001|ONE_SIDED|95.0||1.9||A priori threshold for statistical significance was 0.05.|exact test of binomial proportions|||Null hypothesis: the proportion of subjects with sustained ventricular arrhythmias and asystole during MRI scans \>= 10%.||1.9||<0.0001
92445805|NCT01110915|184779022|SUPERIORITY_OR_OTHER||Complication rate at 4 months|7.7|||<|0.05|ONE_SIDED|95.0||10.9||A priori threshold for statistical significance was 0.05.|Kaplan-Meier method|||Null hypothesis: the system-related complication rate between the implant procedure and the 4-months visit \>= 20%.||10.9||<0.05
92445806|NCT03985813|184779023|SUPERIORITY|||||||0.083||||||Threshold for significance P\<0.05|Chi-squared|||||||0.083
92445807|NCT03985813|184779024|SUPERIORITY||||||>|0.99||||||Threshold for statistical significance P\<0.05|Chi-squared|||||||>0.99
92445808|NCT02161718|184779031|SUPERIORITY||Hazard Ratio (HR)|0.91|STANDARD_ERROR_OF_MEAN|0.251||0.746|TWO_SIDED|95.0|0.53|1.56|||Log Rank|||||1.56|0.53|0.746
92445809|NCT02161718|184779032|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.372|TWO_SIDED|95.0|0.43|1.37|||Andersen-Gill Recurrent-Event Cox Model|||||1.37|0.43|0.372
92445810|NCT02161718|184779033|SUPERIORITY||Odds Ratio (OR)|0.99||||0.963|TWO_SIDED|95.0|0.56|1.73|||Regression, Logistic|||||1.73|0.56|0.963
92445811|NCT02350309|184779065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.15||||0.0262|ONE_SIDED|95.0|-2.12|||The mixed model included treatment, period and sequence as fixed effects, baseline (predose) measurement as a covariate, and participant nested within treatment sequence as a random effect.|Mixed Models Analysis||||||-2.12|0.0262
92445812|NCT02350309|184779065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.48|||<|0.0001|ONE_SIDED|95.0|-4.46|||The mixed model included treatment, period and sequence as fixed effects, baseline (predose) measurement as a covariate, and participant nested within treatment sequence as a random effect.|Mixed Models Analysis||||||-4.46|<0.0001
92445813|NCT02350309|184779066|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0215||||||P-value was calculated based on non-missing two-way contingency table between placebo and study treatment.|McNemar|||||||0.0215
92445814|NCT02350309|184779066|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||P-value was calculated based on non-missing two-way contingency table between placebo and study treatment.|McNemar|||||||<0.0001
92445815|NCT02350309|184779066|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||P-value was calculated based on non-missing two-way contingency table between placebo and study treatment.|McNemar|||||||<0.0001
92445816|NCT00207142|184779076|NON_INFERIORITY_OR_EQUIVALENCE|Efficacy at Week 48 on the Switch Arm was considered to be non-inferior to the Continuation Arm if the lower limit of the 95% Confidence Interval was greater than -15%.|Difference in proportions|2.9||||||95.0|-9.8|15.5|||Normal approximation|||The planned sample size of 178 randomized subjects (89 on each regimen) provides at least 80% power to demonstrate that the response rate on ATV is within a 15% margin of the response rate on ATV/RTV assuming: a 2-sided 95% confidence interval for the difference in response rate between treatment regimens (switch-continuation); a response rate of 85% in both the Continuation and Switch regimens; a margin of -15% for the difference in response rates between treatment regimens.||15.5|-9.8|
92445817|NCT00207142|184779077|SUPERIORITY_OR_OTHER||Difference in Proportions|5.0||||||95.0|-6.0|16.1|||Normal Approximation|||||16.1|-6.0|
92445818|NCT00207142|184779078|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.97||||||95.0|0.5|1.88|||Cox Proportional Hazards Model|||Covariate in the model: treatment regimen.||1.88|0.50|
92445819|NCT00207142|184779079|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.84||||||95.0|0.37|1.9|||Cox Proportional Hazards Model|||Covariate in the model: treatment regimen||1.90|0.37|
92445820|NCT00207142|184779080|SUPERIORITY_OR_OTHER||Difference in means at Week 48|7.0||||||95.0|-38.0|53.0|||Normal approximation|||||53|-38|
92445821|NCT01554618|184779093|SUPERIORITY||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.33||0.012|TWO_SIDED|95.0|-1.51|-0.19|||Mixed Models Analysis||Exenatide versus Placebo|Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, and treatment group by visit interaction, baseline HbA1c value (continuous) and baseline HbA1c by visit interaction as fixed effects, using an unstructured covariance matrix.||-0.19|-1.51|0.012
92445822|NCT01554618|184779096|SUPERIORITY||LS Mean Difference|-21.6|STANDARD_ERROR_OF_MEAN|13.7||0.119|TWO_SIDED|95.0|-49.0|5.7|||Mixed Models Analysis||Exenatide versus Placebo|Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, and treatment group by visit interaction, baseline fasting plasma glucose value, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline fasting plasma glucose by visit interaction as fixed effects, using an unstructured covariance matrix.||5.7|-49.0|0.119
92445823|NCT01554618|184779097|SUPERIORITY||LS Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|1.189||0.307|TWO_SIDED|95.0|-3.59|1.15|||Mixed Models Analysis||Exenatide versus Placebo|Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, and treatment group by visit interaction, baseline body weight, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline body weight by visit interaction as fixed effects, using an unstructured covariance matrix.||1.15|-3.59|0.307
92445824|NCT01554618|184779098|SUPERIORITY||LS Mean Difference|94.9|STANDARD_ERROR_OF_MEAN|95.26||0.323|TWO_SIDED|95.0|-95.6|285.5|||Mixed Models Analysis||Exenatide versus Placebo|Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, treatment group by visit interaction, baseline fasting insulin, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline fasting insulin by visit interaction as fixed effects, using an unstructured covariance matrix.||285.5|-95.6|0.323
92445825|NCT01554618|184779099|SUPERIORITY||Difference|14.8||||0.077|TWO_SIDED|95.0|1.9|27.7|||Cochran-Mantel-Haenszel||Exenatide versus Placebo. Difference was the risk difference of the 2 proportions.|"Treatment difference in HbA1c \< 6.5%:~Treatment group comparison was based on CMH test stratified by screening HbA1c (\<9.0% or \>=9.0%). P-value was from the general association statistic."||27.7|1.9|0.077
92445826|NCT01554618|184779099|SUPERIORITY||Difference|14.8||||0.077|TWO_SIDED|95.0|1.9|27.7|||Cochran-Mantel-Haenszel||Exenatide versus Placebo. Difference was the risk difference of the 2 proportions.|"Treatment difference in HbA1c ≤ 6.5%:~Treatment group comparison was based on CMH test stratified by screening HbA1c (\<9.0% or \>=9.0%). P-value was from the general association statistic."||27.7|1.9|0.077
92445827|NCT01554618|184779099|SUPERIORITY||Difference|22.7||||0.02|TWO_SIDED|95.0|6.5|39.0|||Cochran-Mantel-Haenszel||Exenatide versus Placebo. Difference was the risk difference of the 2 proportions.|"Treatment difference in HbA1c \< 7.0%:~Treatment group comparison was based on CMH test stratified by screening HbA1c (\<9.0% or \>=9.0%). P-value was from the general association statistic."||39.0|6.5|0.020
92445828|NCT01554618|184779101|SUPERIORITY||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|2.61||0.284|TWO_SIDED|95.0|-8.0|2.4|||Mixed Models Analysis||Exenatide versus Placebo|"Treatment difference in SBP:~Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, treatment group by visit interaction, baseline SBP, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline SBP by visit interaction as fixed effects, using an unstructured covariance matrix."||2.4|-8.0|0.284
92445829|NCT01554618|184779101|SUPERIORITY||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.77||0.376|TWO_SIDED|95.0|-2.0|5.1|||Mixed Models Analysis||Exenatide versus Placebo|"Treatment difference in DBP:~Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, treatment group by visit interaction, baseline DBP, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline DBP by visit interaction as fixed effects, using an unstructured covariance matrix."||5.1|-2.0|0.376
92445830|NCT01554618|184779103|SUPERIORITY||LS Mean Difference|90.37|STANDARD_ERROR_OF_MEAN|69.207||0.211|TWO_SIDED|95.0|-57.27|238.0|||Mixed Models Analysis||Exenatide versus Placebo|"Treatment difference in HOMA-B:~Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, treatment group by visit interaction, baseline HOMA-B, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline HOMA-B by visit interaction as fixed effects, using an unstructured covariance matrix."||238.00|-57.27|0.211
92240130|NCT00570739|184383822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.8583|TWO_SIDED|95.0|-10.7|8.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||8.9|-10.7|0.8583
92239325|NCT01899144|184382449|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.5|STANDARD_ERROR_OF_MEAN|4.85||0.0107|TWO_SIDED|95.0|2.93|22.05|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||22.05|2.93|0.0107
92239326|NCT01899144|184382449|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|4.88||0.7772|TWO_SIDED|95.0|-11.0|8.23||0.05 level of significance|ANOVA||90 mcg - 180 mcg|Pre-specified, exploratory analysis||8.23|-11.00|0.7772
92239327|NCT01899144|184382449|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.2|STANDARD_ERROR_OF_MEAN|4.87||0.0226|TWO_SIDED|95.0|-20.8|-1.59||0.05 level of significance|ANOVA||90 mcg - 180 mcg|Pre-specified, exploratory analysis||-1.59|-20.80|0.0226
92239328|NCT01899144|184382450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|0.26|0.64|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||0.64|0.26|<0.0001
92240131|NCT00570739|184383822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.7975|TWO_SIDED|95.0|-10.5|8.1||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||8.1|-10.5|0.7975
92240132|NCT00570739|184383823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0||||0.233||95.0|-18.5|4.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||4.5|-18.5|0.2330
92240133|NCT00570739|184383823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2||||0.1412|TWO_SIDED|95.0|-19.2|2.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||2.8|-19.2|0.1412
92240134|NCT00570739|184383824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.8192|TWO_SIDED|95.0|-13.7|10.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||10.8|-13.7|0.8192
92239329|NCT01899144|184382450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|0.21|0.59|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||0.59|0.21|<0.0001
92239330|NCT01899144|184382450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|0.26|0.64|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||0.64|0.26|<0.0001
92239331|NCT01899144|184382450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.1||0.0062|TWO_SIDED|95.0|0.08|0.45|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||0.45|0.08|0.0062
92239332|NCT01899144|184382450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.1||0.6342|TWO_SIDED|95.0|-0.23|0.14||0.05 level of significance|ANOVA||90 mcg - 180 mcg|Pre-specified, exploratory analysis||0.14|-0.23|0.6342
92280294|NCT02978326|184463241|SUPERIORITY||Odds Ratio (OR)|2.18||||0.0257|TWO_SIDED|95.0|1.1|4.31||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Remission at Day 21||4.31|1.10|0.0257
92280295|NCT02978326|184463241|SUPERIORITY||Odds Ratio (OR)|2.08||||0.0339|TWO_SIDED|95.0|1.06|4.09||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Remission at Day 45||4.09|1.06|0.0339
92445831|NCT01554618|184779103|SUPERIORITY||LS Mean Difference|-6.75|STANDARD_ERROR_OF_MEAN|6.173||0.289|TWO_SIDED|95.0|-19.8|6.29|||Mixed Models Analysis||Exenatide versus Placebo|"Treatment difference in HOMA-S:~Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, treatment group by visit interaction, baseline HOMA-S, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline HOMA-S by visit interaction as fixed effects, using an unstructured covariance matrix."||6.29|-19.80|0.289
92445832|NCT01857063|184779116|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares (LS) Means|-0.01||||0.913|TWO_SIDED|95.0|-0.11|0.1||Longitudinal Data Analysis (LDA) model with baseline TNSS as a covariate, sequence, treatment and period as fixed effects and participant as a random effect.|Longitudinal Data Analysis (LDA)|||||0.10|-0.11|0.913
92239333|NCT01899144|184382450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.0488|TWO_SIDED|95.0|-0.38|0.0||0.05 level of significance|ANOVA||90 mcg - 180 mcg|Pre-specified, exploratory analysis||0.00|-0.38|0.0488
92239334|NCT00751881|184382452|SUPERIORITY_OR_OTHER||Relative risk reduction (%)|36.3||||0.0001|TWO_SIDED|95.0||||"Step down approach used to adjust for multiplicity:~* H1 tested first~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance for both comparisons ≤0.05"|Regression, Poisson||Relative risk reduction with teriflunomide 14 mg compared to placebo|"Null hypothesis:~* H1: No difference between teriflunomide 14 mg and placebo~* H2: No difference between teriflunomide 7 mg and placebo~The study was sized to have 94% power to detect a 25% relative risk reduction in ARR with teriflunomide compared to placebo at a 2-sided 0.05 significance level."||||0.0001
92239335|NCT00751881|184382452|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|22.3||||0.0183|TWO_SIDED|95.0||||"Step down approach used to adjust for multiplicity:~* H1 tested first~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance for both comparisons ≤0.05"|Regression, Poisson||Relative risk reduction with teriflunomide 7 mg compared to placebo|||||0.0183
92239336|NCT00751881|184382453|SUPERIORITY_OR_OTHER||Hazard ratio reduction (%)|31.5||||0.0442|TWO_SIDED|95.0||||"Step down approach:~* S1 tested only if both comparisons on the primary outcome measure were statistically significant~* S2 tested only if the comparison S1 was statistically significant~A priori threshold for statistical significance ≤0.05"|Log Rank|Two-sided Log-rank test stratified by region of enrollment and baseline EDSS stratum|Relative reduction in the hazard rate with teriflunomide 14 mg compared to placebo (estimated from a Cox proportional hazard model with treatment arm, region of enrollment and baseline EDSS stratum as covariates)|"Null hypothesis:~* S1: No difference between teriflunomide 14 mg and placebo~* S2: No difference between teriflunomide 7 mg and placebo~The study was also sized to have 75% power to detect a 37% hazard ratio reduction in time to disability progression with teriflunomide compared to placebo."||||0.0442
92280296|NCT04309474|184463271|OTHER|A statistical test was not performed.|Area under the curve (AUC)|0.71|||||TWO_SIDED|95.0|-0.764|2.175|||||"AUC analyses based on trapezoidal rule using contrast derived from MMRM with stratification factors, treatment, visit, and a treatment by visit interaction included in the model.~Posterior probability that the difference in AUC exceeds 0.6 = 0.557"|||2.175|-0.764|
92239337|NCT00751881|184382453|SUPERIORITY_OR_OTHER||Hazard ratio reduction (%)|4.5||||0.762|TWO_SIDED|95.0||||"Step down approach:~* S1 tested only if both comparisons on the primary outcome measure were statistically significant~* S2 tested only if the comparison S1 was statistically significant~A priori threshold for statistical significance ≤0.05"|Log Rank|Two-sided Log-rank test stratified by region of enrollment and baseline EDSS stratum|Relative reduction in the hazard rate with teriflunomide 7 mg compared to placebo (estimated from a Cox proportional hazard model with treatment arm, region of enrollment and baseline EDSS stratum as covariates)|||||0.7620
92239338|NCT00866294|184382465|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.8|-1.1||The hypothesis test was conducted with a two-sided significance level of 5% to show the superiority of paroxetine CR relative to placebo.|ANCOVA|The primary analysis was based on an ANCOVA with a model adjusting for baseline HAM-D total score and region (Japan and South Korea).|Mean difference = paroxetine CR minus placebo|||-1.1|-3.8|<0.001
92239339|NCT00492401|184382473|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Expression levels of miR-29b in pre treatment marrow samples from responding or non responding patients were compared using Wilcoxon rank sum tests||||.02
92239340|NCT00492401|184382473|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Expression levels of DNMT3a in pre treatment marrow samples from responding or non responding patients were compared using Wilcoxon rank sum tests||||.06
92280297|NCT04309474|184463272|OTHER|A statistical test was not performed.|Odds Ratio of LS Means|1.74|||||TWO_SIDED|95.0|0.71|4.24|||||Point estimate for responder rate (defined as having an mRS score of 0, 1, or 2), odds ratio and 95% confidence intervals based on a generalized linear mixed model (GLMM).|||4.24|0.71|
92239341|NCT01651260|184382476|SUPERIORITY_OR_OTHER||upper probability of failure|0.05||||||||||Minimum sample size of 60 subjects was required based on the ability of the device to perform at an observed level of non-failure equivalent to an expected upper probability of failure not to exceed 5%.|||Minimum sample size of 60 subjects was required based on the ability of the device to perform at an observed level of non-failure equivalent to an expected upper probability of failure not to exceed 5%.|||||
92239342|NCT02101411|184382535|OTHER|The Chi-squared test was used for comparisons of all categorical variables. If 20% of the cells had an expected value \< 5, then Fisher's exact test was used.|Hazard Ratio (HR)|1.19|STANDARD_DEVIATION|0.005||0.002|TWO_SIDED|||||The Chi-squared test was used for comparisons of all categorical variables. If 20% of the cells had an expected value \< 5, then Fisher's exact test was used.|Chi-squared|The differences among the three PRU groups (\<85, 85-208,\>208) and ADEs were compared using the Chi-squared test.||The differences among the three PRU groups (\<85, 85-208,\>208) and MACE rate at 24 months were compared using the Chi-squared test. was recorded.||||0.002
92239343|NCT02101411|184382535|OTHER|The Chi-squared test was used for comparisons of all categorical variables. If 20% of the cells had an expected value \< 5, then Fisher's exact test was used.|Hazard Ratio (HR)|1.02|STANDARD_DEVIATION|0.005||0.002|TWO_SIDED|||||The Chi-squared test was used for comparisons of all categorical variables. If 20% of the cells had an expected value \< 5, then Fisher's exact test was used.|Chi-squared|||The differences among the three PRU groups (\<85, 85-208,\>208) and ADEs were compared using the Chi-squared test.||||0.002
92239344|NCT03242759|184382537|OTHER|||||||0.505|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.505
92239345|NCT03242759|184382537|OTHER|||||||0.181|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.181
92239346|NCT03242759|184382538|OTHER|||||||0.571|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.571
92239347|NCT03242759|184382538|OTHER|||||||0.232|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.232
92239348|NCT03242759|184382539|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||< 0.001
92239349|NCT03242759|184382539|OTHER|||||||0.375|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.375
92239350|NCT03242759|184382540|OTHER|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.027
92239351|NCT03242759|184382540|OTHER|||||||0.938|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.938
92239352|NCT03242759|184382541|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.001
92239353|NCT03242759|184382541|OTHER|||||||0.048|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.048
92239354|NCT03242759|184382542|OTHER|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.018
92239355|NCT03242759|184382542|OTHER|||||||0.125|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.125
92280298|NCT02974153|184463279|SUPERIORITY||Mean Difference (Final Values)|-2.6|STANDARD_DEVIATION|6.15|<|0.0001|TWO_SIDED|95.0|-3.45|-1.74|||ANCOVA|||||-1.74|-3.45|<0.0001
92280299|NCT02974153|184463279|SUPERIORITY||Mean Difference (Final Values)|-2.03|STANDARD_DEVIATION|6.15|<|0.0001|TWO_SIDED|95.0|-2.88|-1.18|||ANCOVA|||||-1.18|-2.88|<0.0001
92445833|NCT01857063|184779118|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.0||||0.953|TWO_SIDED|95.0|-0.17|0.16||Longitudinal Data Analysis (LDA) model with baseline Weighted TNSS as a covariate, sequence, treatment and period as fixed effects and participant as a random effect.|LDA|||||0.16|-0.17|0.953
92445834|NCT01857063|184779119|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.0||||0.974|TWO_SIDED|95.0|-0.07|0.07||Longitudinal Data Analysis (LDA) model with baseline nasal congestion score as a covariate, sequence, treatment and period as fixed effects and participant as a random effect.|LDA|||||0.07|-0.07|0.974
92445835|NCT01857063|184779120|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.182|TWO_SIDED|95.0|-0.06|0.01||Longitudinal Data Analysis (LDA) model with baseline nasal discharge score as a covariate, sequence, treatment and period as fixed effects and participant as a random effect.|LDA|||||0.01|-0.06|0.182
92445836|NCT01857063|184779121|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.02||||0.161|TWO_SIDED|95.0|-0.01|0.05||Longitudinal Data Analysis (LDA) model with baseline sneezing score as a covariate, sequence, treatment and period as fixed effects and participant as a random effect.|LDA|||||0.05|-0.01|0.161
92445837|NCT01205165|184779146|SUPERIORITY_OR_OTHER|||||||0||95.0||||P-value is calculated from Wilcoxon signed rank test to compare difference between baseline and week12|Wilcoxon signed rank test|||Baseline and Week 12||||0.00000
92445838|NCT00329407|184779160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|TWO_SIDED|95.0|-6.58|-3.14|||Mixed Models Analysis|The Dunnett-Hsu adjustment was used to correct for multiple comparisons.||This was a within subject analysis. The null hypothesis was that there would be no significant difference in least squares means values obtained for the baseline and week 10 assessment weeks.||-3.14|-6.58|<0.0001
92445839|NCT00329407|184779161|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.0|STANDARD_ERROR_OF_MEAN|2.7||0.001|ONE_SIDED|95.0||||There would a significant reduction in COWAT scores between baseline and Week 10.|Mixed Models Analysis|The Dunnett-Hsu adjustment was used to correct for multiple comparisons.||This is a within subject comparison of COWAT scores botained for the baseline session and the Week 10 session. The null hypothesis is that there would be no difference between these scores.||||0.001
92171634|NCT04950127|184232380|SUPERIORITY||Percentage Difference|13.0||||0.043|TWO_SIDED|95.0|0.0|27.0||Adjusted for multiplicity; two-sided p-values \<0.05 were considered to be nominally significant as per SAP.|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) stratified analysis adjusted for baseline factors: Baseline Itch Severity (Moderate: \>=4 and \<7, Severe: \>=7); Concomitant cholestatic pruritus treatment regimen (Regimen contains BABR, Regimen does not contain BABR, No defined treatment). Multiple imputation of missing Monthly itch scores was done before deriving responder definitions. Imputed datasets were analyzed using the CMH method and combined.||27.0|0.0|0.043
92239356|NCT03242759|184382543|OTHER|||||||0.073|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.073
92239357|NCT03242759|184382543|OTHER|||||||0.755|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.755
92445840|NCT00978068|184779162|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.59||||0.04|TWO_SIDED|95.0|0.36|0.97|||Negative Binomial Regression||Group 1 represents the numerator for the rate ratio. Group 2 represents the denominator for the rate ratio.|We assumed that the incidence of malaria in Group 2 would be 0.70 episodes per person-year and estimated that we would need a sample of 300 participants for the study to have 80% power to show a 35% reduction in the incidence of malaria in Group 1, at a 2-sided significance level of 0.05. We then observed an incidence of malaria in Group 2 that was higher than anticipated (2.19 episodes/person-yr) and revised the sample size to 150 participants, who would be followed for at least 6 months.||0.97|0.36|0.04
92445841|NCT00978068|184779163|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Cox Proportional-Hazards|||||||0.13
92445842|NCT00978068|184779164|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.8||||0.87|TWO_SIDED|95.0|0.06|11.16|||Negative Binomial Regression||Group 1 represents the numerator for the rate ratio. Group 2 represents the denominator for the rate ratio.|We assumed that the incidence of malaria in Group 2 would be 0.70 episodes per person-year and estimated that we would need a sample of 300 participants for the study to have 80% power to show a 35% reduction in the incidence of malaria in Group 1, at a 2-sided significance level of 0.05. We then observed an incidence of malaria in Group 2 that was higher than anticipated (2.19 episodes/person-yr) and revised the sample size to 150 participants, who would be followed for at least 6 months.||11.16|0.06|0.87
92239358|NCT03242759|184382544|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||< 0.001
92239359|NCT03242759|184382544|OTHER|||||||0.281|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.281
92280300|NCT02974153|184463280|SUPERIORITY||Mean Difference (Final Values)|18.1|||<|0.0001|TWO_SIDED|95.0|12.0|24.3|||Cochran-Mantel-Haenszel|||||24.3|12.0|<0.0001
92445843|NCT00978068|184779165|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.14|TWO_SIDED|95.0|0.45|1.12|||Cox Proportional-Hazards|Adjustment for repeated measures in the same patient|Group 1 represents the numerator for the hazard ratio. Group 2 represents the denominator for the hazard ratio.|||1.12|0.45|0.14
92445844|NCT00978068|184779166|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.004|TWO_SIDED|95.0|0.14|0.68|||Cox Proportional-Hazards|Adjustment for repeated measures in same participant.|Group 1 represents the numerator for the hazard ratio. Group 2 represents the denominator for the hazard ratio.|||0.68|0.14|0.004
92445845|NCT00978068|184779167|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41||||0.004|TWO_SIDED|95.0|0.22|0.76|||Cox Proportional-Hazards|Adjustment for repeated measures in the same patient.|Group 1 represents the numerator in the hazard ratio. Group 2 represents the denominator in the hazard ratio.|||0.76|0.22|0.004
92445846|NCT01434290|184779182|SUPERIORITY|||||||0.19|||||||One sample z-test|One-sided 0.025 significance level||≤35% was considered acceptable, ≥55% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used. For a given arm, if the null hypothesis of p ≤ 0.35 is rejected, then conclude that the regimen given on that arm is unacceptable. However if it not rejected for both bowel \& urinary domains, then that regimen will be considered acceptable for further use in a Phase III study.||||0.19
92445847|NCT01434290|184779182|SUPERIORITY|||||||0.08|||||||One sample z-test|one-sided 0.025 significance level||≤35% was considered acceptable, ≥55% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used. For a given arm, if the null hypothesis of p ≤ 0.35 is rejected, then conclude that the regimen given on that arm is unacceptable. However if it not rejected for both bowel \& urinary domains, then that regimen will be considered acceptable for further use in a Phase III study.||||0.08
92445848|NCT01434290|184779183|SUPERIORITY|||||||0.18|||||||One sample z-test|One-sided 0.025 significance level||≤40% was considered acceptable, ≥60% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used. For a given arm, if the null hypothesis of p ≤ 0.40 is rejected, then conclude that the regimen given on that arm is unacceptable. However if it not rejected for both bowel \& urinary domains, then that regimen will be considered acceptable for further use in a Phase III study.||||0.18
92445849|NCT01434290|184779183|SUPERIORITY|||||||0.38|||||||One sample z-test|One-sided 0.025 significance level||≤40% was considered acceptable, ≥60% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used. For a given arm, if the null hypothesis of p ≤ 0.40 is rejected, then conclude that the regimen given on that arm is unacceptable. However if it not rejected for both bowel \& urinary domains, then that regimen will be considered acceptable for further use in a Phase III study.||||0.38
92445850|NCT01434290|184779188|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[Bowel one-year results\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the normality of the data.||||0.03
92171635|NCT04950127|184232381|SUPERIORITY||Percentage Difference|12.0||||0.058|TWO_SIDED|95.0|0.0|24.0||Adjusted for multiplicity; two-sided p-values \<0.05 were considered to be nominally significant as per SAP.|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) stratified analysis adjusted for baseline factors: Baseline Itch Severity (Moderate: \>=4 and \<7, Severe: \>=7); Concomitant cholestatic pruritus treatment regimen (Regimen contains BABR, Regimen does not contain BABR, No defined treatment). Multiple imputation of missing Monthly itch scores was done before deriving responder definitions. Imputed datasets were analyzed using the CMH method and combined.||24.0|-0.0|0.058
92239360|NCT03242759|184382545|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||< 0.001
92239361|NCT03242759|184382545|OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.008
92239362|NCT03242759|184382546|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||< 0.001
92445851|NCT01434290|184779188|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[Bowel one-year results\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the normality of the data.||||0.03
92445852|NCT01434290|184779188|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017||\[Urinary one-year results\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the normality of the data.||||0.09
92445853|NCT01434290|184779188|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|Two-side significance level of 0.017||\[Urinary one-year results\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the normality of the data.||||0.43
92239363|NCT03242759|184382546|OTHER|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.031
92239364|NCT03242759|184382548|OTHER||||||<|0.001|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||< 0.001
92239365|NCT03242759|184382548|OTHER|||||||0.939|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.939
92239366|NCT03242759|184382549|OTHER|||||||0.169|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.169
92239367|NCT03242759|184382549|OTHER|||||||0.545|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.545
92280301|NCT02974153|184463280|SUPERIORITY||Mean Difference (Final Values)|11.7||||0.0001|TWO_SIDED|95.0|5.8|17.5|||Cochran-Mantel-Haenszel|||||17.5|5.8|0.0001
92280302|NCT02974153|184463281|SUPERIORITY||Mean Difference (Final Values)|21.3|||<|0.0001|TWO_SIDED|95.0|15.0|27.6|||Cochran-Mantel-Haenszel|||||27.6|15.0|<0.0001
92280303|NCT02974153|184463281|SUPERIORITY||Mean Difference (Final Values)|15.3|||<|0.0001|TWO_SIDED|95.0|9.3|21.4|||Cochran-Mantel-Haenszel|||||21.4|9.3|<0.0001
92445854|NCT01434290|184779189|SUPERIORITY|||||||0.39|||||||One-sample z-test|One-sided 0.025 significance level||≤35% was considered acceptable, ≥55% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used.||||0.39
92445855|NCT01434290|184779189|SUPERIORITY|||||||0.21|||||||One sample z-test|One-side significance level of 0.025||≤35% was considered acceptable, ≥55% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used.||||0.21
92445856|NCT01434290|184779190|SUPERIORITY|||||||0.44|||||||one sampe z-test|One-sided significance level of 0.025||≤38% was considered acceptable, ≥58% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used.||||0.44
92239368|NCT03242759|184382550|OTHER|||||||0.333|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.333
92445857|NCT01434290|184779190|SUPERIORITY|||||||0.53|||||||One sample z-test|One-sided significance level of 0.025||≤38% was considered acceptable, ≥58% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used.||||0.53
92445858|NCT01434290|184779191|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[One-year Index Score\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the non-normality of the data. Each arm analyzed separately.||||0.16
92445859|NCT01434290|184779191|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[One-year Index Score\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the non-normality of the data. Each arm analyzed separately.||||0.03
92445860|NCT01434290|184779191|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[One-year VAS Score\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the non-normality of the data. Each arm analyzed separately.||||0.83
92445861|NCT01434290|184779191|SUPERIORITY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[One-year VAS Score\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the non-normality of the data. Each arm analyzed separately.||||0.86
92239369|NCT03242759|184382550|OTHER|||||||0.786|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.786
92445862|NCT02281552|184779194|NON_INFERIORITY|Non-inferiority of tofacitinib MR 11 mg QD to IR 5 mg BID was concluded if the upper bound of the 2-sided 95% confidence interval of differences between the treatment groups (MR 11 mg QD - IR 5 mg BID) at Week 12 was less than the pre-specified non-inferiority margin of 0.6.|Least Square (LS) mean difference|0.43|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.17|0.69||||||Analysis was conducted using a linear mixed effect model with repeated measures (MMRM), which included treatment (tofacitinib MR 11 mg QD and IR 5 mg BID), visit, and treatment by visit interaction as fixed effects and participants as a random effect.||0.69|0.17|
92445863|NCT02365636|184779223|SUPERIORITY||LSM difference from placebo|0.32||||0.13|TWO_SIDED|95.0|-0.094|0.726||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the daily average NRS scores at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the daily average NRS scores as covariate; and patient as a random effect.||0.726|-0.094|0.130
92445864|NCT02365636|184779223|SUPERIORITY||LSM difference from placebo|0.24||||0.245|TWO_SIDED|95.0|-0.167|0.652||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the daily average NRS scores at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the daily average NRS scores as covariate; and patient as a random effect.||0.652|-0.167|0.245
92239370|NCT03242759|184382551|OTHER|||||||0.245|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.245
92239371|NCT03242759|184382551|OTHER|||||||0.454|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.454
92239372|NCT03242759|184382552|OTHER|||||||0.543|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.543
92239373|NCT03242759|184382552|OTHER|||||||0.733|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.733
92239374|NCT03242759|184382553|OTHER|||||||0.046|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.046
92239375|NCT03242759|184382553|OTHER|||||||0.898|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.898
92239376|NCT03415464|184382556|OTHER|||||||0.134|||||||Chi-squared|||||||0.134
92239377|NCT00839098|184382562|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.27
92239378|NCT00839098|184382563|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92239379|NCT00839098|184382564|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
92239380|NCT00839098|184382565|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92171636|NCT04950127|184232382|SUPERIORITY|Cognitive|Mean Difference (Net)|0.76||||0.176|TWO_SIDED|95.0|-0.34|1.86||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||1.86|-0.34|0.176
92239381|NCT00839098|184382566|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92280304|NCT02974153|184463282|SUPERIORITY||Mean Difference (Final Values)|22.1|||<|0.0001|TWO_SIDED|95.0|14.9|29.2|||Cochran-Mantel-Haenszel|||||29.2|14.9|<0.0001
92445865|NCT02365636|184779224|SUPERIORITY||LSM difference from placebo|0.32||||0.128|TWO_SIDED|95.0|-0.093|0.735||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the average NRS pain scores recorded in the evening at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the average NRS pain scores recorded in the evening as covariate; and patient as a random effect.||0.735|-0.093|0.128
92445866|NCT02365636|184779224|SUPERIORITY||LSM difference from placebo|0.27||||0.194|TWO_SIDED|95.0|-0.14|0.688||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the average NRS pain scores recorded in the evening at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the average NRS pain scores recorded in the evening as covariate; and patient as a random effect.||0.688|-0.140|0.194
92445867|NCT02365636|184779225|SUPERIORITY||LSM difference from placebo|0.28||||0.177|TWO_SIDED|95.0|-0.128|0.691||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the average NRS pain scores recorded in the morning at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the average NRS pain scores recorded in the morning as covariate; and patient as a random effect.||0.691|-0.128|0.177
92445868|NCT02365636|184779225|SUPERIORITY||LSM difference from placebo|0.2||||0.325|TWO_SIDED|95.0|-0.204|0.614||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the average NRS pain scores recorded in the morning at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the average NRS pain scores recorded in the morning as covariate; and patient as a random effect.||0.614|-0.204|0.325
92445869|NCT02365636|184779226|SUPERIORITY||LSM difference from placebo|0.29||||0.202|TWO_SIDED|95.0|-0.158|0.741||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the worst NRS pain scores recorded in the evening at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the worst NRS pain scores recorded in the evening as covariate; and patient as a random effect.||0.741|-0.158|0.202
92445870|NCT02365636|184779226|SUPERIORITY||LSM difference from placebo|0.457||||0.457|TWO_SIDED|95.0|-0.28|0.621||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the worst NRS pain scores recorded in the evening at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the worst NRS pain scores recorded in the evening as covariate; and patient as a random effect.||0.621|-0.280|0.457
92171637|NCT04950127|184232382|SUPERIORITY|Emotional|Mean Difference (Net)|0.27||||0.403|TWO_SIDED|95.0|-0.36|0.89||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||0.89|-0.36|0.403
92239382|NCT00839098|184382567|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||P values below 0.05 were considered statistically significant in this study.|Wilcoxon (Mann-Whitney)|||||||>0.05
92239383|NCT00839098|184382568|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92239384|NCT01345786|184382569|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|137.5||||||90.0|131.0|144.4|||||Commercial Batch Test / Phase 3 Batch Reference.|||144.4|131|
92239385|NCT01345786|184382569|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|111.8||||||90.0|107.5|116.4|||||Commercial Batch Test / Phase 3 Batch Reference.|||116.4|107.5|
92239386|NCT01345786|184382570|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|107.3||||||90.0|99.0|116.4|||||Commercial Batch Test / Phase 3 Batch Reference.|||116.4|99|
92280305|NCT02974153|184463282|SUPERIORITY||Mean Difference (Final Values)|18.2|||<|0.0001|TWO_SIDED|95.0|11.1|25.4|||Cochran-Mantel-Haenszel|||||25.4|11.1|<0.0001
92280306|NCT02974153|184463283|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92280307|NCT02974153|184463283|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92280308|NCT02974153|184463284|SUPERIORITY||Mean Difference (Final Values)|-1.38|||<|0.0001|TWO_SIDED|95.0|-1.88|-0.87|||ANCOVA|||||-0.87|-1.88|<0.0001
92280309|NCT02974153|184463284|SUPERIORITY||Mean Difference (Final Values)|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.66|-0.65|||ANCOVA|||||-0.65|-1.66|<0.0001
92280310|NCT02974153|184463285|SUPERIORITY||Mean Difference (Final Values)|-2.88|||<|0.0001|TWO_SIDED|95.0|-3.91|-1.84|||ANCOVA|||||-1.84|-3.91|<0.0001
92280311|NCT02974153|184463285|SUPERIORITY||Mean Difference (Final Values)|-1.73||||0.001|TWO_SIDED|95.0|-2.76|-0.7|||ANCOVA|||||-0.70|-2.76|0.0010
92280312|NCT02974153|184463286|SUPERIORITY||Mean Difference (Final Values)|-11.0|||<|0.0001|TWO_SIDED|95.0|-14.22|-7.77|||Repeated Measures Model|||||-7.77|-14.22|<0.0001
92280313|NCT02974153|184463286|SUPERIORITY||Mean Difference (Final Values)|-8.26|||<|0.0001|TWO_SIDED|95.0|-11.48|-5.05|||Repeated Measures Model|||||-5.05|-11.48|<0.0001
92445871|NCT02365636|184779227|SUPERIORITY||Odds Ratio (OR)|0.92||||0.815|TWO_SIDED|95.0|0.456|1.856||5% level of significance|Regression, Logistic|||\>=30% improvement. P-value, odds ratio and CI for odds ratio are calculated using logistic model including response (yes/no) as dependent variable, treatment group and pooled study sites as factors.||1.856|0.456|0.815
92445872|NCT02365636|184779227|SUPERIORITY||Odds Ratio (OR)|1.05||||0.893|TWO_SIDED|95.0|0.52|2.117||5% level of significance|Regression, Logistic|||\>=30% improvement. P-value, odds ratio and CI for odds ratio are calculated using logistic model including response (yes/no) as dependent variable, treatment group and pooled study sites as factors.||2.117|0.520|0.893
92445873|NCT02365636|184779227|SUPERIORITY||Odds Ratio (OR)|0.74||||0.43|TWO_SIDED|95.0|0.357|1.55||5% level of significance|Regression, Logistic|||\>=50% improvement. P-value, odds ratio and CI for odds ratio are calculated using logistic model including response (yes/no) as dependent variable, treatment group and pooled study sites as factors.||1.550|0.357|0.430
92445874|NCT02365636|184779227|SUPERIORITY||Odds Ratio (OR)|1.02||||0.967|TWO_SIDED|95.0|0.494|2.088||5% level of significance|Regression, Logistic|||\>=50% improvement. P-value, odds ratio and CI for odds ratio are calculated using logistic model including response (yes/no) as dependent variable, treatment group and pooled study sites as factors.||2.088|0.494|0.967
92445875|NCT02365636|184779228|SUPERIORITY||LSM of difference with placebo|2.2||||0.251|TWO_SIDED|95.0|-1.55|5.92||5% level of significance|mixed model for repeated measures|||Change from baseline at Week 2 The MMRM used pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||5.92|-1.55|0.251
92445876|NCT02365636|184779228|SUPERIORITY||LSM difference from placebo|1.3||||0.495|TWO_SIDED|95.0|-2.46|5.07||5% level of significance|mixed model for repeated measures|||Change from baseline at Week 2. The MMRM used pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||5.07|-2.46|0.495
92445877|NCT02365636|184779228|SUPERIORITY||LSM difference from placebo|3.1||||0.123|TWO_SIDED|95.0|-0.84|7.06||5% level of significance|mixed model for repeated measures|||Change from baseline at Week 4. The MMRM used pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||7.06|-0.84|0.123
92445878|NCT02365636|184779228|SUPERIORITY||LSM difference from placebo|2.8||||0.16|TWO_SIDED|95.0|-1.12|6.77||5% level of significance.|miex model for repeated measures|||Change from baseline at Week 4. The MMRM used pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||6.77|-1.12|0.160
92445879|NCT02365636|184779229|SUPERIORITY||LSM difference from placebo|1.3||||0.609|TWO_SIDED|95.0|-3.81|6.48||5% level of significance|ANCOVA|ANCOVA model includes study center, treatment, and baseline.||||6.48|-3.81|0.609
92239387|NCT01345786|184382570|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|103.6||||||90.0|99.2|108.2|||||"Commercial Batch Test / Phase 3 Batch Reference.~In addition to the participants/profiles excluded, 1 participant from the Phase 3 Batch Reference group did not contribute to this comparison."|||108.2|99.2|
92239388|NCT01345786|184382571|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|110.0||||||90.0|106.4|113.7|||||Commercial Batch Test / Phase 3 Batch Reference.|Analysis for AUClast||113.7|106.4|
92239389|NCT01345786|184382571|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|103.3||||||90.0|100.9|105.7|||||Commercial Batch Test / Phase 3 Batch Reference|Analysis for AUC last||105.7|100.9|
92280314|NCT01364870|184463322|SUPERIORITY|||||||0.016||||||The p value was adjusted using Bonferroni's method to account for the multiple comparisons.|Kruskal-Wallis|||There were instances of missing data due to patient time restraints and patient refusal.||||0.016
92280315|NCT01364870|184463323|SUPERIORITY|||||||0.008||||||P-value was adjusted using Bonferroni's method to account for multiple comparisons.|Kruskal-Wallis|||There were instances of missing data due to patient time restraints and patient refusal.||||0.008
92280316|NCT04471428|184463324|SUPERIORITY|Stratified Analysis: Stratification factors include histology, and prior NSCLC treatment regimens|Hazard Ratio (HR)|0.884||||0.3668|TWO_SIDED|95.0|0.676|1.156|||Log Rank||Hazard ratio was estimated by Cox regression model.|||1.156|0.676|0.3668
92280317|NCT04471428|184463324|SUPERIORITY||Hazard Ratio (HR)|0.907||||0.4709|TWO_SIDED|95.0|0.696|1.182|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||1.182|0.696|0.4709
92445880|NCT02365636|184779229|SUPERIORITY||LSM difference with placebo|2.1||||0.427|TWO_SIDED|95.0|-3.05|7.19||5% level of significance|ANCOVA|ANCOVA model includes study center, treatment, and baseline.||||7.19|-3.05|0.427
92171638|NCT04950127|184232382|SUPERIORITY|Fatigue|Mean Difference (Net)|1.59||||0.132|TWO_SIDED|95.0|-0.48|3.67||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||3.67|-0.48|0.132
92445881|NCT02365636|184779230|SUPERIORITY||LSM difference from placebo|0.2||||0.166|TWO_SIDED|95.0|-0.07|0.43||5% level of significance|mixed model for repeated measures|||Week 2 Mixed model for repeated measures (MMRM) with pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||0.43|-0.07|0.166
92445882|NCT02365636|184779230|SUPERIORITY||LSM difference from placebo|0.3||||0.046|TWO_SIDED|95.0|0.0|0.51||5% level of significance|mixed model for repeated measures|||Week 2 Mixed model for repeated measures (MMRM) with pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||0.51|0.00|0.046
92445883|NCT02365636|184779230|SUPERIORITY||LSM difference from placebo|0.2||||0.152|TWO_SIDED|95.0|-0.08|0.53||5% level of significance|mixed model for repeated measures|||Week 4 Mixed model for repeated measures (MMRM) with pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||0.53|-0.08|0.152
92445884|NCT02365636|184779230|SUPERIORITY||LSM difference from placebo|0.1||||0.342|TWO_SIDED|95.0|-0.16|0.46||5% level of significance|mixed model for repeated measures|||Week 4 Mixed model for repeated measures (MMRM) with pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||0.46|-0.16|0.342
92445885|NCT02365636|184779231|SUPERIORITY||LSM difference from placebo|0.2||||0.311|TWO_SIDED|95.0|-0.22|0.7||5% level of significance|mixed model for repeated measures|||Change from baseline at Week 2 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.70|-0.22|0.311
92445886|NCT02365636|184779231|SUPERIORITY||LSM difference from placebo|0.3||||0.262|TWO_SIDED|95.0|-0.2|0.73||5% level of significance|mixed model for repeated measures|||Change from baseline at week 2 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.73|-0.20|0.262
92445887|NCT02365636|184779231|SUPERIORITY||LSM difference from placebo|0.5||||0.065|TWO_SIDED|95.0|-0.03|0.97||5% level of significance|mixed model for repeated measures|||Change from baseline at week 4 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.97|-0.03|0.065
92445888|NCT02365636|184779231|SUPERIORITY||LSM difference from placebo|0.3||||0.296|TWO_SIDED|95.0|-0.23|0.76||5% level of significance|mixed model for repeated measures|||Change from baseline at week 4 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.76|-0.23|0.296
92445889|NCT02365636|184779232|SUPERIORITY|||||||0.245||||||5% level of significance|Regression, Cox|||||||0.245
92445890|NCT02365636|184779232|SUPERIORITY|||||||0.304||||||5% level of significance|Regression, Cox|||||||0.304
92445891|NCT02365636|184779233|SUPERIORITY||LSM difference from placebo|-0.1||||0.556|TWO_SIDED|95.0|-0.61|0.33||5% level of significance|mixed model for repeated measures|||Change from baseline at week 2 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.33|-0.61|0.556
92445892|NCT02365636|184779233|SUPERIORITY||LSM difference from placebo|-0.2||||0.482|TWO_SIDED|95.0|-0.65|0.31||5% level of significance|mixed model for repeated measures|||Change from baseline at week 2 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.31|-0.65|0.482
92445893|NCT02365636|184779233|SUPERIORITY||LSM difference from placebo|-0.3||||0.333|TWO_SIDED|95.0|-0.81|0.28||5% level of significance|mixed model for repeated measures|||Change from baseline at week 4. The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.28|-0.81|0.333
92280318|NCT04471428|184463325|SUPERIORITY||Hazard Ratio (HR)|0.735||||0.0079|TWO_SIDED|95.0|0.585|0.923|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factors include histology, and prior NSCLC treatment regimens||0.923|0.585|0.0079
92280319|NCT04471428|184463325|SUPERIORITY||Hazard Ratio (HR)|0.731||||0.0061|TWO_SIDED|95.0|0.583|0.915|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified analysis||0.915|0.583|0.0061
92280320|NCT04471428|184463326|SUPERIORITY||Difference in Response Rates|-1.51||||0.6846|TWO_SIDED|95.0|-8.85|5.84|||Cochran-Mantel-Haenszel||95% CIs was computed using the Wald method.|Stratified analysis; stratification factors- histology, prior NSCLC treatment regimens||5.84|-8.85|0.6846
92280321|NCT04471428|184463326|SUPERIORITY||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.47|1.63|||||Odds ratios were estimated by logistic regression. 95% CIs was computed using the Wald method.|Stratified analysis; stratification factors- histology, prior NSCLC treatment regimens||1.63|0.47|
92171639|NCT04950127|184232382|SUPERIORITY|Itch|Mean Difference (Net)|-0.58||||0.132|TWO_SIDED|95.0|-1.34|0.18||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||0.18|-1.34|0.132
92171640|NCT04950127|184232382|SUPERIORITY|Social|Mean Difference (Net)|-0.15||||0.836|TWO_SIDED|95.0|-1.57|1.27||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||1.27|-1.57|0.836
92171641|NCT04950127|184232382|SUPERIORITY|Symptoms|Mean Difference (Net)|0.45||||0.318|TWO_SIDED|95.0|-0.44|1.34||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||1.34|-0.44|0.318
92445894|NCT02365636|184779233|SUPERIORITY||LSM difference from placebo|-0.1||||0.833|TWO_SIDED|95.0|-0.62|0.5||5% level of significance|mixed model for repeated measures|||Change from baseline at week 4 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.50|-0.62|0.833
92171642|NCT04950127|184232383|SUPERIORITY||Mean Difference (Net)|-0.37|||<|0.001|TWO_SIDED|95.0|-0.55|-0.2||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PGI-S score, Visit\*Baseline PGI-S score interaction, Baseline Concomitant Itch Medication.||-0.20|-0.55|<0.001
92171643|NCT04950127|184232384|SUPERIORITY||Mean Difference (Net)|-0.49|||<|0.001|TWO_SIDED|95.0|-0.76|-0.21||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline Concomitant Itch Medication.||-0.21|-0.76|<0.001
92171644|NCT04315181|184232391|SUPERIORITY||||||<|0.0001||||||Statistical significance is 2-sided and accepted at a P value of ≤ 0.05.|Mixed Models Analysis|F=6.89, df=8, 72||Peak scores were calculated for individual participants within each dose condition and analyzed in a one-factor model (drug condition) with a compound symmetry covariance structure.||||<0.0001
92171645|NCT04315181|184232392|SUPERIORITY||||||<|0.0001||||||Statistical significance is 2-sided and accepted at a P value of ≤ 0.05.|Mixed Models Analysis|F=5.51, df=8, 72||Peak scores were calculated for individual participants within each dose condition and analyzed in a one-factor model (drug condition) with a compound symmetry covariance structure.||||<0.0001
92280322|NCT04471428|184463326|SUPERIORITY||Difference in Response Rates|-1.51||||0.7216|TWO_SIDED|95.0|-8.85|5.84|||Chi-squared, Corrected||95% CIs was computed using the Wald method.|Unstratified Analysis||5.84|-8.85|0.7216
92445895|NCT02365636|184779234|SUPERIORITY||LSM difference from placebo|-0.2||||0.563|TWO_SIDED|95.0|-0.75|0.41||5% level of significance|mixed model for repeated measures|||Change from baseline at week 2 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.41|-0.75|0.563
92445896|NCT02365636|184779234|SUPERIORITY||LSM difference from placebo|-0.1||||0.804|TWO_SIDED|95.0|-0.64|0.5||5% level of significance|mixed model for repeated measures|||Change from baseline at week 2. The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.50|-0.64|0.804
92171646|NCT04315181|184232393|SUPERIORITY|||||||0.138||||||Statistical significance is 2-sided and accepted at a P value of ≤ 0.05.|Mixed Models Analysis|F=1.61, df=8, 72||Trough scores were calculated for individual participants within each dose condition and analyzed in a one-factor model (drug condition) with a compound symmetry covariance structure.||||0.138
92171647|NCT04315181|184232394|SUPERIORITY||||||<|0.0001||||||Statistical significance is 2-sided and accepted at a P value of ≤ 0.05.|Mixed Models Analysis|F=8.15, df=8, 72||Peak scores were calculated for individual participants within each dose condition and analyzed in a one-factor model (drug condition) with a compound symmetry covariance structure.||||<0.0001
92280323|NCT04471428|184463326|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.47|1.62|||||Odds ratios were estimated by logistic regression. 95% CIs was computed using the Wald method.|Unstratified Analysis||1.62|0.47|
92280324|NCT04471428|184463328|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.27|TWO_SIDED|95.0|0.59|1.16|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis: Stratification factors include histology, and prior NSCLC treatment regimens||1.16|0.59|0.2700
92445897|NCT02365636|184779234|SUPERIORITY||LSM difference from placebo|0.1||||0.714|TWO_SIDED|95.0|-0.49|0.71||5% level of significance|mixed model for repeated measures|||Change from baseline at week 4 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.71|-0.49|0.714
92445898|NCT02365636|184779234|SUPERIORITY||LSM difference from placebo|0.0||||0.871|TWO_SIDED|95.0|-0.64|0.55||5% level of siignificance|mixed model for repeated measures|||Change from baseline at week 4. The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.55|-0.64|0.871
92280325|NCT04471428|184463328|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.3031|TWO_SIDED|95.0|0.6|1.17|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||1.17|0.60|0.3031
92239390|NCT01345786|184382571|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|108.1||||||90.0|104.7|111.6|||||Commercial Batch Test / Phase 3 Batch Reference.|Analysis for AUC infinity||111.6|104.7|
92280326|NCT04471428|184463329|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.2408|TWO_SIDED|95.0|0.86|1.79|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratification factors include histology, and prior NSCLC treatment regimens||1.79|0.86|0.2408
92445899|NCT01454934|184779236|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.16||||0.1343|TWO_SIDED|95.0|0.95|1.41||P-value was calculated from a 2-sided long-rank test stratified by histology, TPC option, and geographic region.|Log Rank||Hazard Ratio was based on a Cox regression model including treatment as covariate, and histology, TPC option and geographic region as strata.|OS was compared between eribulin and TPC testing the following null hypothesis: H0: OS in Arm A (eribulin) is equal to OS in Arm B (TPC) against the alternative: H1: OS in Arm A (eribulin) is not equal to OS in Arm B (TPC).||1.41|0.95|0.1343
92445900|NCT01454934|184779237|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.09||||0.3946|TWO_SIDED|95.0|0.9|1.32||P-value was calculated from a 2-sided long-rank test stratified by histology, TPC option, and geographic region.|Log Rank||The hazard ratio was based on a Cox regression model including treatment as covariate, and histology, TPC option, and geographic region as strata.|OS was compared between eribulin and TPC testing the following null hypothesis: H0: OS in Arm A (eribulin) is equal to OS in Arm B (TPC) against the alternative: H1: OS in Arm A (eribulin) is not equal to OS in Arm B (TPC).||1.32|0.90|0.3946
92445901|NCT01454934|184779238|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3034||||||The P-value was stratified by histology, TPC option, and geographic region.|Cochran-Mantel-Haenszel|||OS was compared between eribulin and TPC testing the following null hypothesis: H0: OS in Arm A (eribulin) is equal to OS in Arm B (TPC) against the alternative: H1: OS in Arm A (eribulin) is not equal to OS in Arm B (TPC).||||0.3034
92445902|NCT02583256|184779244|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain A/H1N1.||1.3|1.1|
92445903|NCT02583256|184779244|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|0.93|||||TWO_SIDED|95.0|0.9|1.0||||||Comparison performed for strain A/H3N2.||1.0|0.9|
92445904|NCT02583256|184779244|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain B/Yamagata.||1.3|1.1|
92445905|NCT02583256|184779244|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.18|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain B/Victoria.||1.3|1.1|
92445906|NCT02583256|184779245|SUPERIORITY|Superiority criterion for the GMT ratio: Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should exceed 1.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain A/H1N1.||1.3|1.1|
92445907|NCT02583256|184779245|SUPERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should exceed 1.|GMT ratio|0.93|||||TWO_SIDED|95.0|0.9|1.0||||||Comparison performed for strain A/H3N2.||1.0|0.9|
92445908|NCT02583256|184779245|SUPERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should exceed 1.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain B/Yamagata.||1.3|1.1|
92445909|NCT02583256|184779245|SUPERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should exceed 1.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain B/Victoria.||1.3|1.1|
92445910|NCT02583256|184779246|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.39|||||TWO_SIDED|95.0|1.28|1.51||||||Comparison performed for strain A/H1N1.||1.51|1.28|
92445911|NCT02583256|184779246|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.06|||||TWO_SIDED|95.0|0.99|1.14||||||Comparison performed for strain A/H3N2||1.14|0.99|
92239391|NCT01345786|184382571|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|103.1||||||90.0|100.5|105.8|||||Commercial Batch Test / Phase 3 Batch Reference|Analysis for AUC infinity||105.8|100.5|
92239392|NCT01345786|184382572|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|101.5||||||90.0|96.7|106.4|||||Commercial Batch Test / Phase 3 Batch Reference.|||106.4|96.7|
92280327|NCT04471428|184463329|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.1992|TWO_SIDED|95.0|0.88|1.81|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||1.81|0.88|0.1992
92280328|NCT04471428|184463330|SUPERIORITY||Difference in Event Free Rate|15.85||||0.0014|TWO_SIDED|95.0|6.12|25.59|||z-test||The 95% CI for the difference in PFS rates were estimated using the normal approximation method, with standard errors computed using the Greenwood method.|At 6 months||25.59|6.12|0.0014
92280329|NCT04471428|184463330|SUPERIORITY||Difference in Event Free Rate|6.32||||0.0719|TWO_SIDED|95.0|-0.56|13.21|||z-test||The 95% CI for the difference in PFS rates were estimated using the normal approximation method, with standard errors computed using the Greenwood method.|At 1 year||13.21|-0.56|0.0719
92445912|NCT02583256|184779246|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.42|||||TWO_SIDED|95.0|1.27|1.58||||||Comparison performed for strain B/Yamagata.||1.58|1.27|
92445913|NCT02583256|184779246|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.36|||||TWO_SIDED|95.0|1.22|1.51||||||Comparison performed for strain B/Victoria.||1.51|1.22|
92445914|NCT02583256|184779247|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.07|1.32||||||Comparison performed for strain A/H1N1.||1.32|1.07|
92445915|NCT02583256|184779247|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|0.99|||||TWO_SIDED|95.0|0.9|1.09||||||Comparison performed for strain A/H3N2.||1.09|0.90|
92239393|NCT01345786|184382572|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|101.3||||||90.0|98.1|104.7|||||"Commercial Batch Test / Phase 3 Batch Reference.~In addition to the participants/profiles excluded, 1 participant from the Phase 3 Batch Reference group did not contribute to this comparison."|||104.7|98.1|
92445916|NCT02583256|184779247|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.12|||||TWO_SIDED|95.0|1.01|1.25||||||Comparison performed for strain B/Yamagata.||1.25|1.01|
92445917|NCT02583256|184779247|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.11|||||TWO_SIDED|95.0|0.98|1.27||||||Comparison performed for strain B/Victoria.||1.27|0.98|
92445918|NCT02583256|184779247|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.4|||||TWO_SIDED|95.0|1.3|1.5||||||Comparison performed for strain A/H1N1.||1.5|1.3|
92445919|NCT02583256|184779247|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.01|||||TWO_SIDED|95.0|0.9|1.1||||||Comparison performed for strain A/H3N2.||1.1|0.9|
92445920|NCT02583256|184779247|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.3|||||TWO_SIDED|95.0|1.2|1.4||||||Comparison performed for strain B/Yamagata.||1.4|1.2|
92445921|NCT02583256|184779247|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.32|||||TWO_SIDED|95.0|1.2|1.5||||||Comparison performed for strain B/Victoria.||1.5|1.2|
92445922|NCT02583256|184779248|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|1.8|||||TWO_SIDED|95.0|-4.9|8.6||||||Comparison performed for strain A/H1N1.||8.6|-4.9|
92445923|NCT02583256|184779248|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|0.9|||||TWO_SIDED|95.0|-5.6|7.3||||||Comparison performed for strain A/H3N2.||7.3|-5.6|
92445924|NCT02583256|184779248|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|4.3|||||TWO_SIDED|95.0|-1.8|10.4||||||Comparison performed for strain B/Yamagata.||10.4|-1.8|
92445925|NCT02583256|184779248|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|2.6|||||TWO_SIDED|95.0|-3.3|8.5||||||Comparison performed for strain B/Victoria.||8.5|-3.3|
92445926|NCT02583256|184779248|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|9.67|||||TWO_SIDED|95.0|3.11|16.17||||||Comparison performed for strain A/H1N1.||16.17|3.11|
92445927|NCT02583256|184779248|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|-3.95|||||TWO_SIDED|95.0|-10.02|2.15||||||Comparison performed for strain A/H3N2.||2.15|-10.02|
92445928|NCT02583256|184779248|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|12.95|||||TWO_SIDED|95.0|6.73|19.12||||||Comparison performed for strain B/Yamagata.||19.12|6.73|
92445929|NCT02583256|184779248|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|8.36|||||TWO_SIDED|95.0|2.17|14.54||||||Comparison performed for strain B/Victoria.||14.54|2.17|
92445930|NCT02530294|184779268|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
92445931|NCT02530294|184779269|OTHER||||||<|0.001|||||||ANCOVA|Ranked ANCOVA||||||<0.001
92445932|NCT02530294|184779270|OTHER||||||<|0.001|||||||ANCOVA|Ranked ANCOVA||||||< 0.001
92445933|NCT02530294|184779271|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
92445934|NCT02530294|184779272|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
92171648|NCT04315181|184232395|SUPERIORITY|||||||0.0002||||||Statistical significance is 2-sided and accepted at a P value of ≤ 0.05.|Mixed Models Analysis|F=4.58, df=8, 72||Trough scores were calculated for individual participants within each dose condition and analyzed in a one-factor model (drug condition) with a compound symmetry covariance structure.||||0.0002
92239394|NCT02986958|184382584|OTHER|We used generalized estimating equations with an exchangeable correlation structure to assess the direction, magnitude, and statistical significance of between-group differences. Regression models included treatment assignment and patient-level covariates (patient age, gender, and MMSE score) that were postulated as affecting communication outcomes. Statistical tests were 2-sided with a significance level of 0.05. Analyses were performed in SAS statistical software, version 9.4 (SAS, Cary, NC).|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.08||0.046|TWO_SIDED||||||t-test, 2 sided|||||||0.046
92239395|NCT02260193|184382596|SUPERIORITY||Least Squares Mean Differences|0.29|||||TWO_SIDED|95.0|-0.25|0.82||||||||0.82|-0.25|
92239396|NCT02260193|184382596|SUPERIORITY||Least Squares Mean Differences|0.36|||||TWO_SIDED|95.0|-0.19|0.9||||||||0.90|-0.19|
92445935|NCT01948375|184779273|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92445936|NCT01948375|184779275|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.35||||0.007||95.0|1.26|4.4||For the comparison of direct effect of placebo needle and real needle, p=0.007|Generalized Estimating Equation|||||4.40|1.26|0.007
92445937|NCT01948375|184779276|SUPERIORITY_OR_OTHER||||||=|0.006||||||"for the comparison of difference of acupuncture pain in two periods between the two groups,t=-2.88, p=0.006.~t=-2.88 refers to the t value of t test."|t-test, 2 sided|||||||=0.006
92445938|NCT01948375|184779277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63|||=|0.048||95.0|1.01|2.64||For the comparison of direct effect of placebo needle and real needle, p=0.048|Generalized Estimating Equation|||||2.64|1.01|=0.048
92171649|NCT00522951|184232453|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin = -1|Mean Difference (Final Values)|-0.58||||||95.0|-0.87|-0.29|||||Averaged blinded reader (primary analysis)|H01: μG1 - μPr ≤ -1||-0.29|-0.87|
92171650|NCT00522951|184232453|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin = -1|Mean Difference (Final Values)|0.06||||||95.0|-0.23|0.36|||||Averaged blinded reader (primary analysis)|H02: μG2 - μPr ≤ -1||0.36|-0.23|
92239397|NCT02260193|184382596|SUPERIORITY||Least Squares Mean Differences|0.07|||||TWO_SIDED|95.0|-0.48|0.61||||||||0.61|-0.48|
92280330|NCT04471428|184463331|SUPERIORITY||Difference in Event Free Rate|-0.85||||0.8767|TWO_SIDED|95.0|-11.63|9.92|||z-test||The 95% CI for the difference in OS rates were estimated using the normal approximation method, with standard errors computed using the Greenwood method.|At 1 year||9.92|-11.63|0.8767
92445939|NCT04537806|184779280|SUPERIORITY||Proc Genmod|0.0||||1|TWO_SIDED|95.0|-31.8|31.8|||Chi-squared||Estimates for treatment, and the corresponding 95% confidence interval (CI) were estimated using Proc Genmod method, with treatment as a factor and age groups as a covariate variable.|||31.8|-31.8|1.0000
92445940|NCT01802775|184779287|OTHER||Treatment Difference|-3.9|||||TWO_SIDED|95.0|-17.3|9.5||||||Treatment difference was edoxaban - clopidogrel. For the treatment difference, 95% Confidence interval was calculated using a normal approximation to the binomial distribution.||9.5|-17.3|
92445941|NCT02103478|184779322|EQUIVALENCE|The 95% confidence intervals for the difference (oral - IV) were generated using an ANOVA model separately for Course 1 and Course 2.|Mean Difference (Final Values)|-0.144|||||TWO_SIDED|95.0|-3.165|2.876|||||Course 1|||2.876|-3.165|
92445942|NCT02103478|184779322|EQUIVALENCE|The 95% confidence intervals for the difference (oral - IV) were generated using an ANOVA model separately for Course 1 and Course 2.|Mean Difference (Final Values)|-0.087|||||TWO_SIDED|95.0|-3.463|3.288|||||Course 2|||3.288|-3.463|
92445943|NCT02103478|184779322|EQUIVALENCE|The 95% confidence intervals for the difference (oral - IV) were generated using an ANOVA model separately for Course 1 and Course 2.|Mean Difference (Final Values)|-2.588|||||TWO_SIDED|95.0|-6.074|0.899|||||Course 1|||0.899|-6.074|
92445944|NCT02103478|184779322|EQUIVALENCE|The 95% confidence intervals for the difference (oral - IV) were generated using an ANOVA model separately for Course 1 and Course 2.|Mean Difference (Final Values)|-0.096|||||TWO_SIDED|95.0|-5.08|4.888|||||Course 2|||4.888|-5.080|
92445945|NCT02566759|184779372|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.6662|||||TWO_SIDED|90.0|0.5969|0.7355||||||Dose proportionality was evaluated using the following power model: ln (PK Parameter) is equal to (=) a+b\*ln (dose), where a and b are the intercept and slope of the line, respectively. Dose proportionality was declared when the 90 percent (%) confidence interval (CI) of the slope lies entirely within the critical region (0.9483, 1.0517) for the dose range of 10 mg to 750 mg.||0.7355|0.5969|
92171651|NCT00522951|184232453|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin = -1|Mean Difference (Final Values)|-0.3||||||95.0|-0.5|-0.1|||||Investigator (secondary analysis)|H01: μG1 - μPr ≤ -1||-0.1|-0.5|
92171652|NCT00522951|184232453|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin = -1|Mean Difference (Final Values)|0.21||||||95.0|0.02|0.41|||||Investigator (secondary analysis)|H02: μG2 - μPr ≤ -1||0.41|0.02|
92171653|NCT02713126|184232469|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||||||0.770
92239398|NCT02260193|184382597|SUPERIORITY||Least Squares Mean Differences|0.04|||||TWO_SIDED|95.0|-0.54|0.61||||||||0.61|-0.54|
92239399|NCT02260193|184382597|SUPERIORITY||Least Squares Mean Differences|0.1|||||TWO_SIDED|95.0|-0.49|0.7||||||||0.70|-0.49|
92239400|NCT02260193|184382597|SUPERIORITY||Least squares mean difference|0.07|||||TWO_SIDED|95.0|-0.53|0.66||||||||0.66|-0.53|
92239401|NCT02260193|184382598|SUPERIORITY||Least squares mean difference|-0.34|||||TWO_SIDED|95.0|-0.71|0.04||||||||0.04|-0.71|
92239402|NCT02260193|184382598|SUPERIORITY||Least squares mean difference|-0.11|||||TWO_SIDED|95.0|-0.5|0.29||||||||0.29|-0.50|
92239403|NCT02260193|184382598|SUPERIORITY||Least squares mean difference|0.23|||||TWO_SIDED|95.0|-0.16|0.62||||||||0.62|-0.16|
92239404|NCT01000064|184382691|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.053
92239405|NCT01000064|184382692|SUPERIORITY_OR_OTHER|||||||0.052|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.052
92239406|NCT01000064|184382693|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
92280331|NCT03504852|184463338|SUPERIORITY||Risk Difference (RD)|17.72||||0.0003|TWO_SIDED|95.0|7.45|27.98||One-sided p-value|Regression, Logistic|||||27.98|7.45|0.0003
92280332|NCT03504852|184463338|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0003|TWO_SIDED|95.0|1.44|3.78||One-sided p-value|Regression, Logistic|||||3.78|1.44|0.0003
92445946|NCT02566759|184779372|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.7795|||||TWO_SIDED|90.0|0.6597|0.8993|||Power model|||Dose proportionality was evaluated using the following power model: ln (PK Parameter) = a+b\*ln (dose), where a and b were the intercept and slope of the line, respectively. Dose proportionality was declared when the 90% CI of the slope lies entirely within the critical region (0.9139, 1.0861) for the dose range of 30 mg to 400 mg.||0.8993|0.6597|
92445947|NCT02566759|184779372|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) Mean Ratio|0.362|||||TWO_SIDED|90.0|0.3043|0.4301||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed lease square (LS) Means.||0.4301|0.3043|
92445948|NCT02566759|184779372|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Ratio|1.799|||||TWO_SIDED|90.0|1.4625|2.2116||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed LS Means.||2.2116|1.4625|
92445949|NCT02566759|184779375|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.872|||||TWO_SIDED|90.0|0.8145|0.9296||||||Dose proportionality was evaluated using the following power model: ln (PK Parameter) = a+b\*ln (dose), where a and b are the intercept and slope of the line, respectively. Dose proportionality was declared when the 90 % CI of the slope lies entirely within the critical region (0.9483, 1.0517) for the dose range of 10 mg to 750 mg.||0.9296|0.8145|
92445950|NCT02566759|184779375|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.9135|||||TWO_SIDED|90.0|0.8062|1.0209|||Power model|||Dose proportionality was evaluated using the following power model: ln (PK Parameter) = a+b\*ln (dose), where a and b were the intercept and slope of the line, respectively. Dose proportionality was declared when the 90% CI of the slope lies entirely within the critical region (0.9139, 1.0861) for the dose range of 30 mg to 400 mg.||1.0209|0.8062|
92445951|NCT02566759|184779375|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Ratio|0.5|||||TWO_SIDED|90.0|0.4324|0.5777||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed LS Means.||0.5777|0.4324|
92445952|NCT02566759|184779375|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Ratio|2.563|||||TWO_SIDED|90.0|2.1|3.1275||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed LS Means.||3.1275|2.1000|
92445953|NCT02566759|184779376|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.8505|||<|0.001|TWO_SIDED|90.0|0.7925|0.9084|||Power model|||Dose proportionality was evaluated using the following power model: ln (PK Parameter) = a+b\*ln (dose), where a and b are the intercept and slope of the line, respectively. Dose proportionality was declared when the 90 % CI of the slope lies entirely within the critical region (0.9483, 1.0517) for the dose range of 10 mg to 750 mg.||0.9084|0.7925|<0.001
92445954|NCT02566759|184779376|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.8415|||<|0.001|TWO_SIDED|90.0|0.7618|0.9212|||Power model|||Dose proportionality was evaluated using the following power model: ln (PK Parameter) = a+b\*ln (dose), where a and b were the intercept and slope of the line, respectively. Dose proportionality was declared when the 90% CI of the slope lies entirely within the critical region (0.9139, 1.0861) for the dose range of 30 mg to 400 mg.||0.9212|0.7618|<0.001
92445955|NCT02566759|184779376|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Ratio|0.543|||||TWO_SIDED|90.0|0.4797|0.6149||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed LS Means.||0.6149|0.4797|
92445956|NCT02566759|184779376|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Ratio|2.336|||||TWO_SIDED|90.0|1.9592|2.7854||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed LS Means.||2.7854|1.9592|
92445957|NCT01096784|184779378|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0642||95.0|||||CMH Row Mean Score Test|||||||0.0642
92445958|NCT02659020|184779408|SUPERIORITY||Hazard Ratio (HR)|0.945||||0.775|TWO_SIDED|95.0|0.639|1.397||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and Eastern Cooperative Oncology Group Performance Status (ECOG PS) (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||1.397|0.639|0.775
92445959|NCT02659020|184779418|SUPERIORITY||Hazard Ratio (HR)|0.667||||0.148|TWO_SIDED|95.0|0.385|1.158||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||1.158|0.385|0.148
92445960|NCT02659020|184779419|SUPERIORITY||Hazard Ratio (HR)|0.692||||0.055|TWO_SIDED|95.0|0.476|1.007||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||1.007|0.476|0.055
92445961|NCT02659020|184779419|SUPERIORITY||Hazard Ratio (HR)|0.828||||0.482|TWO_SIDED|95.0|0.49|1.398||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank|||||1.398|0.490|0.482
92445962|NCT02659020|184779420|SUPERIORITY||Odds Ratio (OR)|1.589||||0.1891|TWO_SIDED|95.0|0.794|3.179||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Exact Mantel-Haenszel test||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||3.179|0.794|0.1891
92445963|NCT02659020|184779420|SUPERIORITY||Odds Ratio (OR)|2.668||||0.0642|TWO_SIDED|95.0|0.923|7.71||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Exact Mantel-Haenszel test||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||7.710|0.923|0.0642
92280333|NCT03504852|184463339|SUPERIORITY||Risk Difference (RD)|8.28||||0.0498|TWO_SIDED|95.0|-1.65|18.2||One-sided p-value|Regression, Logistic|||||18.20|-1.65|0.0498
92445964|NCT02659020|184779421|SUPERIORITY||Odds Ratio (OR)|1.106||||0.7724|TWO_SIDED|95.0|0.558|2.194||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Exact Mantel-Haenszel test||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||2.194|0.558|0.7724
92445965|NCT02659020|184779421|SUPERIORITY||Odds Ratio (OR)|1.222||||0.6508|TWO_SIDED|95.0|0.513|2.911||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Exact Mantel-Haenszel test||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||2.911|0.513|0.6508
92445966|NCT02659020|184779422|SUPERIORITY||Hazard Ratio (HR)|0.661||||0.073|TWO_SIDED|95.0|0.419|1.041||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||1.041|0.419|0.073
92445967|NCT02659020|184779422|SUPERIORITY||Hazard Ratio (HR)|0.703||||0.225|TWO_SIDED|95.0|0.395|1.253||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||1.253|0.395|0.225
92445968|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.213||||0.332|TWO_SIDED|95.0|0.834|1.764||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Fatigue||1.764|0.834|0.332
92445969|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|0.813||||0.389|TWO_SIDED|95.0|0.514|1.287||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Nausea and vomiting||1.287|0.514|0.389
92445970|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|0.598||||0.02|TWO_SIDED|95.0|0.386|0.926||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Pain||0.926|0.386|0.020
92445971|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|0.947||||0.821|TWO_SIDED|95.0|0.622|1.442||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Dyspnoea||1.442|0.622|0.821
92445972|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|0.931||||0.812|TWO_SIDED|95.0|0.574|1.509||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Insomnia||1.509|0.574|0.812
92445973|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.355||||0.162|TWO_SIDED|95.0|0.893|2.055||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Appetite loss||2.055|0.893|0.162
92445974|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|0.881||||0.619|TWO_SIDED|95.0|0.55|1.413||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Constipation||1.413|0.550|0.619
92171654|NCT02713126|184232470|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||0.087
92171655|NCT02713126|184232471|SUPERIORITY|||||||0.538|||||||t-test, 2 sided|||||||0.538
92171656|NCT02713126|184232472|SUPERIORITY|||||||0.708|||||||t-test, 2 sided|||||||0.708
92171657|NCT02713126|184232473|SUPERIORITY|||||||0.496|||||||t-test, 2 sided|||||||0.496
92171658|NCT01066026|184232474|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|pilot study.|descritive variables|50.0|||<|0.0001|TWO_SIDED|95.0|5.0|95.0|||McNemar||50 was the percentage of hematomas expected for standard needle group.|||95|5|<0.0001
92239407|NCT01000064|184382694|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
92239408|NCT01000064|184382695|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
92239409|NCT01000064|184382696|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.040
92239410|NCT01000064|184382697|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
92239411|NCT00227877|184382717|SUPERIORITY||Adjusted Relative Risk Ratio|1.39|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|95.0|1.08|1.8|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Cessation)/(Control Cessation) controlling for age; gender; parent education; number of parents in home; visit type; perceived parent, sibling, and peer substance use; provider gender; and connectedness to provider.|||1.80|1.08|< 0.05
92171659|NCT02140645|184232478|SUPERIORITY_OR_OTHER||C-statistics|0.624|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171660|NCT02140645|184232479|SUPERIORITY_OR_OTHER||C-statistcs|0.597|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171661|NCT02140645|184232480|SUPERIORITY_OR_OTHER||R-squared|0.0858|||||||||||||The R-squared can be between 0 and 1 and a value of 0 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171662|NCT02140645|184232481|SUPERIORITY_OR_OTHER||C-statistics|0.623|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171663|NCT02140645|184232482|SUPERIORITY_OR_OTHER||R-squared|0.1753|||||||||||||The R-squared can be between 0 and 1 and a value of 0 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171664|NCT02140645|184232483|SUPERIORITY_OR_OTHER||C-statistics|0.699|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171665|NCT02140645|184232484|SUPERIORITY_OR_OTHER||C-statistics|0.683|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171666|NCT02140645|184232485|SUPERIORITY_OR_OTHER||C-statistics|0.757|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171667|NCT02140645|184232486|SUPERIORITY_OR_OTHER||C-statistics|0.618|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92239412|NCT00227877|184382718|SUPERIORITY||Adjusted Relative Risk Ratio|0.7|STANDARD_ERROR_OF_MEAN|0.25||0.32|TWO_SIDED|95.0|0.34|1.42|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Initiation)/(Control Initiation) controlling for age; gender; parent education; number of parents in home; visit type; perceived parent, sibling, and peer substance use; provider gender; and connectedness to provider.|||1.42|0.34|.32
92445975|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.134||||0.597|TWO_SIDED|95.0|0.746|1.724||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Diarrhoea||1.724|0.746|0.597
92239413|NCT00227877|184382719|SUPERIORITY||Adjusted Relative Risk Ratio|1.8|STANDARD_ERROR_OF_MEAN|0.55||0.05|TWO_SIDED|95.0|0.99|3.27|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|||Risk Ratio: (Intervention Cessation)/(Control Cessation) controlling for age; gender; parent education; number of parents in home; visit type; perceived parent, sibling, and peer substance use; provider gender; and connectedness to provider.|3.27|.99|0.05
92280334|NCT03504852|184463339|SUPERIORITY||Odds Ratio (OR)|1.51||||0.0498|TWO_SIDED|95.0|0.92|2.47||One-sided p-value|Regression, Logistic|||||2.47|0.92|0.0498
92445976|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|0.766||||0.38|TWO_SIDED|95.0|0.425|1.381||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Financial difficulties||1.381|0.425|0.380
92445977|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.046||||0.877|TWO_SIDED|95.0|0.635|1.723||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Fatigue||1.723|0.635|0.877
92445978|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.102||||0.791|TWO_SIDED|95.0|0.568|2.139||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Nausea and vomiting||2.139|0.568|0.791
92445979|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.487|TWO_SIDED|95.0|0.454|1.443||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Pain||1.443|0.454|0.487
92171668|NCT02140645|184232487|SUPERIORITY_OR_OTHER||C-statistics|0.618|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171669|NCT02140645|184232488|SUPERIORITY_OR_OTHER||C-statistics|0.733|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171670|NCT02140645|184232489|SUPERIORITY_OR_OTHER||C-statistics|0.827|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92445980|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.014||||0.976|TWO_SIDED|95.0|0.556|1.85||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Dyspnoea||1.850|0.556|0.976
92445981|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.694||||0.111|TWO_SIDED|95.0|0.882|3.25||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Insomnia||3.250|0.882|0.111
92445982|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.108||||0.76|TWO_SIDED|95.0|0.62|1.979||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Appetite loss||1.979|0.620|0.760
92445983|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.119||||0.747|TWO_SIDED|95.0|0.586|2.135||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Constipation||2.135|0.586|0.747
92280335|NCT01893905|184463396|SUPERIORITY_OR_OTHER||||||<|0.0307|||||||Pocock approach|||||||<0.0307
92445984|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.367||||0.33|TWO_SIDED|95.0|0.726|2.576||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Diarrhoea||2.576|0.726|0.330
92239414|NCT00227877|184382720|SUPERIORITY||Adjusted Relative Risk Ratio|0.79|STANDARD_ERROR_OF_MEAN|0.16||0.23|TWO_SIDED|95.0|0.53|1.16|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Initiation)/(Control Initiation) controlling for age; gender; parent education; number of parents in home; visit type; perceived parent, sibling, and peer substance use; provider gender; and connectedness to provider.|||1.16|.53|0.23
92445985|NCT02659020|184779423|SUPERIORITY||Hazard Ratio (HR)|1.373||||0.411|TWO_SIDED|95.0|0.636|2.965||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Financial difficulties||2.965|0.636|0.411
92445986|NCT01120210|184779426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.0595|TWO_SIDED|90.0|-0.016|0.564|||ANCOVA|one-sided p-value and one-sided alpha=0.05||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in cardiac index (CI) at the end of the 5 ng/kg/min dose.||0.564|-0.016|0.0595
92445987|NCT01120210|184779426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.0215|TWO_SIDED|90.0|0.064|0.595||one-sided p-value and one-sided alpha=0.05|ANCOVA|||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in cardiac index (CI) at the end of the 15 ng/kg/min dose.||0.595|0.064|0.0215
92445988|NCT01120210|184779426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57||||0.0049|TWO_SIDED|90.0|0.214|0.921||one-sided p-value and one-sided alpha=0.05|ANCOVA|||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in cardiac index (CI) at the end of the 30 ng/kg/min dose.||0.921|0.214|0.0049
92445989|NCT01120210|184779427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.4729|TWO_SIDED|90.0|-2.312|2.131||one-sided p-value and one-sided alpha=0.05|ANCOVA|||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in pulmonary capillary wedge pressure (PCWP) at the end of the 5 ng/kg/min dose.||2.131|-2.312|0.4729
92445990|NCT01120210|184779427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35||||0.2123|TWO_SIDED|90.0|-4.164|1.464||one-sided p-value and one-sided alpha=0.05|ANCOVA|||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in pulmonary capillary wedge pressure (PCWP) at the end of the 15 ng/kg/min dose.||1.464|-4.164|0.2123
92445991|NCT01120210|184779427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.58||||0.0821|TWO_SIDED|90.0|-5.639|0.483||one-sided p-value and one-sided alpha=0.05|ANCOVA|||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in pulmonary capillary wedge pressure (PCWP) at the end of the 30 ng/kg/min dose.||0.483|-5.639|0.0821
92445992|NCT01120210|184779428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.7682|TWO_SIDED|95.0|-2.527|1.879||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in heart rate (HR) at the end of the 5 ng/kg/min dose.||1.879|-2.527|0.7682
92445993|NCT01120210|184779428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24||||0.4107|TWO_SIDED|95.0|-1.764|4.235||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in heart rate (HR) at the end of the 15 ng/kg/min dose.||4.235|-1.764|0.4107
92445994|NCT01120210|184779428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.16||||0.1811|TWO_SIDED|95.0|-1.046|5.372||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in heart rate (HR) at the end of the 30 ng/kg/min dose.||5.372|-1.046|0.1811
92445995|NCT01120210|184779429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.803|TWO_SIDED|95.0|-6.06|4.718||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in systolic blood pressure (SBP) at the end of the 5 ng/kg/min dose.||4.718|-6.060|0.8030
92239415|NCT00227877|184382721|SUPERIORITY||Adjusted Relative Risk Ratio|1.52|STANDARD_ERROR_OF_MEAN|0.34||0.07|TWO_SIDED|95.0|0.97|2.36|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Cessation)/(Control Cessation) controlling for age and gender.|||2.36|.97|.07
92239416|NCT00227877|184382722|SUPERIORITY||Adjusted Relative Risk Ratio|0.96|STANDARD_ERROR_OF_MEAN|0.41||0.93|TWO_SIDED|95.0|0.42|2.21|||Regression, Logistic||Risk Ratio: (Intervention Initiation)/(Control Initiation) controlling for age and gender.|||2.21|.42|.93
92445996|NCT01120210|184779429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99||||0.4923|TWO_SIDED|95.0|-7.781|3.801||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in systolic blood pressure (SBP) at the end of the 15 ng/kg/min dose.||3.801|-7.781|0.4923
92445997|NCT01120210|184779429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.77||||0.3152|TWO_SIDED|95.0|-11.251|3.708||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in systolic blood pressure (SBP) at the end of the 30 ng/kg/min dose.||3.708|-11.251|0.3152
92445998|NCT01120210|184779430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.36||||0.1561||95.0|-8.047|1.331||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in diastolic blood pressure (DBP) at the end of the 5 ng/kg/min dose.||1.331|-8.047|0.1561
92445999|NCT01120210|184779430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.55||||0.0282|TWO_SIDED|95.0|-10.482|-0.622||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in diastolic blood pressure (DBP) at the end of the 15 ng/kg/min dose.||-0.622|-10.482|0.0282
92171671|NCT02140645|184232490|SUPERIORITY_OR_OTHER||C-statistics|0.801|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92171672|NCT02140645|184232491|SUPERIORITY_OR_OTHER||C-statistics|0.836|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
92280336|NCT00992407|184463397|NON_INFERIORITY_OR_EQUIVALENCE|80% of power and 0.05 of significance level was used|Mean Difference (Final Values)|-0.61||||0.8595|TWO_SIDED|95.0|-7.5|6.3|||t-test, 2 sided|||Change from Baseline in Personal and Social Performance (PSP) Scale Score at Week 52||6.3|-7.5|0.8595
92280337|NCT00992407|184463398|NON_INFERIORITY_OR_EQUIVALENCE|80% of power and 0.05 of significance level was used|Mean Difference (Final Values)|1.29||||0.8118|TWO_SIDED|95.0|-9.6|12.2|||t-test, 2 sided|||Change from Baseline in Positive and Negative Syndrome Scale (PANSS) Score at Week 52||12.2|-9.6|0.8118
92446000|NCT01120210|184779430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.08||||0.0043|TWO_SIDED|95.0|-11.818|-2.332||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in diastolic blood pressure (DBP) at the end of the 30 ng/kg/min dose.||-2.332|-11.818|0.0043
92446001|NCT01120210|184779431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.9769|TWO_SIDED|95.0|-16.347|16.823||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in left ventricular end systolic volume (LVESV) at the end of the 30 ng/kg/min dose.||16.823|-16.347|0.9769
92446002|NCT01120210|184779432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.98||||0.8297|TWO_SIDED|95.0|-16.592|20.551||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in LVEDV at the end of the 30 ng/kg/min dose.||20.551|-16.592|0.8297
92446003|NCT01120210|184779433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.865|TWO_SIDED|95.0|-3.352|3.968||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in LVEF at the end of the 30 ng/kg/min dose.||3.968|-3.352|0.8650
92446004|NCT01120210|184779434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.95||||0.3748|TWO_SIDED|95.0|-1.204|3.102||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in FS at the end of the 30 ng/kg/min dose.||3.102|-1.204|0.3748
92446005|NCT01120210|184779435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.08||||0.2123|TWO_SIDED|95.0|-4.198|18.359||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SV at the end of the 5 ng/kg/min dose.||18.359|-4.198|0.2123
92446006|NCT01120210|184779435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.78||||0.1083|TWO_SIDED|95.0|-2.016|19.575||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SV at the end of the 15 ng/kg/min dose.||19.575|-2.016|0.1083
92446007|NCT01120210|184779435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.16||||0.018|TWO_SIDED|95.0|2.557|25.771||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SV at the end of the 30 ng/kg/min dose.||25.771|2.557|0.0180
92446008|NCT01120210|184779436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38||||0.4841|TWO_SIDED|95.0|-5.308|2.554||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in PASP at the end of the 5 ng/kg/min dose.||2.554|-5.308|0.4841
92446009|NCT01120210|184779436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.6665|TWO_SIDED|95.0|-5.567|3.594||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SV at the end of the 15 ng/kg/min dose.||3.594|-5.567|0.6665
92446010|NCT01120210|184779436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02||||0.6904|TWO_SIDED|95.0|-4.107|6.148||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in PASP at the end of the 30 ng/kg/min dose.||6.148|-4.107|0.6904
92280338|NCT00992407|184463407|NON_INFERIORITY_OR_EQUIVALENCE|80% of power and 0.05 of significance level was used|Mean Difference (Final Values)|10.0||||0.1768|TWO_SIDED|95.0|-4.8|24.8|||Student's t-test|||Change from Baseline in Psychosocial Well-being Index (PWI) Score at Week 52||24.8|-4.8|0.1768
92280339|NCT00992407|184463408|NON_INFERIORITY_OR_EQUIVALENCE|80% of power and 0.05 of significance level was used|Mean Difference (Final Values)|-0.33||||0.9569|TWO_SIDED|95.0|-12.8|12.2|||Student's t-test|||||12.2|-12.8|0.9569
92446011|NCT01120210|184779437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.6304|TWO_SIDED|95.0|-2.197|3.588||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in PADP at the end of the 5 ng/kg/min dose.||3.588|-2.197|0.6304
92446012|NCT01120210|184779437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.842|TWO_SIDED|95.0|-3.851|3.153||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in PADP at the end of the 15 ng/kg/min dose.||3.153|-3.851|0.8420
92446013|NCT01120210|184779437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.6658|TWO_SIDED|95.0|-4.138|2.669||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in PADP at the end of the 30 ng/kg/min dose.||2.669|-4.138|0.6658
92446014|NCT01120210|184779438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-264.36||||0.051|TWO_SIDED|95.0|-529.875|1.147||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SVR at the end of the 5 ng/kg/min dose.||1.147|-529.875|0.0510
92446015|NCT01120210|184779438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-383.32||||0.0006|TWO_SIDED|95.0|-592.781|-173.867||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SVR at the end of the 15 ng/kg/min dose.||-173.867|-592.781|0.0006
92239417|NCT00227877|184382723|SUPERIORITY||Adjusted Relative Risk Ratio|0.85|STANDARD_ERROR_OF_MEAN|0.5||0.78|TWO_SIDED|95.0|0.27|2.7|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Cessation)/(Control Cessation) controlling for age and gender.|||2.70|.27|.78
92280340|NCT00992407|184463409|NON_INFERIORITY_OR_EQUIVALENCE|80% of power and 0.05 of significance level was used|Mean Difference (Final Values)|0.58||||0.5294|TWO_SIDED|95.0|-5.5|2.9|||t-test, 2 sided|||||2.9|-5.5|0.5294
92446016|NCT01120210|184779438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-527.77||||0.0001|TWO_SIDED|95.0|-764.07|-291.478||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SVR at the end of the 30 ng/kg/min dose.||-291.478|-764.070|0.0001
92446017|NCT04296396|184779439|NON_INFERIORITY|A non-inferiority design assumed a noninferiority margin of 5%. For 90% power and 0.025 significance level 1-sided, a total sample size of 4,300 participants was required to state that the IOPP is not inferior to the fixed amount of 20 tablets. Given the short window to assess pain at 1-week post-discharge, a 20% missing rate was incorporated which gives a final sample size of 5,500 (2,750 per group).|Risk Difference (RD)|0.67|||||TWO_SIDED|95.0|-2.03|3.37|||||The risk difference is the rate in the fixed group minus the rate in the IOPP group. IOPP was to be determined as non-inferior if the lower 95% confidence limit for the risk difference is -5 percentage points or greater (i.e., closer to zero).|||3.37|-2.03|
92446018|NCT04296396|184779440|SUPERIORITY||Risk Ratio (RR)|1.22||||0.046|TWO_SIDED|96.25|0.99|1.51|||Chi-squared||Confidence interval is 96.25% due to false discovery rate adjustment|||1.51|0.99|0.046
92446019|NCT04296396|184779441|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92446020|NCT04296396|184779442|SUPERIORITY||Median Difference (Net)|-5.0|||<|0.001|TWO_SIDED|97.5|-6.6|-3.5|||quantile regression||Confidence interval is 97.5% due to false discovery rate adjustment|||-3.5|-6.6|<0.001
92446021|NCT04296396|184779443|SUPERIORITY||Median Difference (Net)|-15.0|||<|0.001|TWO_SIDED|98.75|-19.2|-10.8|||quartile regression||Confidence interval is 98.75% due to false discovery rate adjustment|||-10.8|-19.2|<0.001
92446022|NCT04296396|184779444|SUPERIORITY||Median Difference (Net)|0.0||||1|TWO_SIDED|95.0|0.0|0.0|||quantile regression|||||0|0|1.0
92446023|NCT04296396|184779445|SUPERIORITY||Risk Ratio (RR)|0.96||||0.52|TWO_SIDED|95.0|0.85|1.09|||Chi-squared|||||1.09|0.85|0.52
92446024|NCT04296396|184779446|SUPERIORITY||Risk Ratio (RR)|0.99||||0.15|TWO_SIDED|95.0|0.98|1.0|||Regression, Linear|||||1.00|0.98|0.15
92446025|NCT05320029|184779453|NON_INFERIORITY|If the two-side 95%CI limit of the difference between the two groups is greater than the non-inferiority margin of -10%, the non-inferiority hypothesis of this study is valid|Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.0458|0.0458|||Newcombe-Wilson|||||0.0458|-0.0458|<0.05
92446026|NCT00393939|184779498|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9222||||0.2651|TWO_SIDED|95.0|0.7156|1.1885||1-sided stratified log-rank test adjusted for baseline stratification factors (number of metastatic sites, estrogen receptor status, and disease-free interval from prior adjuvant treatment)|Log Rank|||Independent radiology assessment||1.1885|0.7156|0.2651
92446027|NCT00393939|184779498|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.856||||0.0753|TWO_SIDED|95.0|0.6921|1.0589||1-sided stratified log-rank test adjusted for baseline stratification factors (number of metastatic sites, estrogen receptor status, and disease-free interval from prior adjuvant treatment)|Log Rank|||Investigator's assessment||1.0589|0.6921|0.0753
92239418|NCT00227877|184382724|SUPERIORITY||Adjusted Relative Risk Ratio|0.74|STANDARD_ERROR_OF_MEAN|0.15||0.13|TWO_SIDED|95.0|0.51|1.09|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Initiation)/(Control Initiation) controlling for age and gender.|||1.09|.51|.13
92446028|NCT00393939|184779499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.0018|TWO_SIDED|95.0|1.17|2.33||1-sided stratified log-rank test adjusted for baseline stratification factors (number of metastatic sites, estrogen receptor status, and disease-free interval from prior adjuvant treatment)|Cochran-Mantel-Haenszel|||Independent radiology assessment||2.33|1.17|0.0018
92446029|NCT00393939|184779499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.0172|TWO_SIDED|95.0|1.03|2.02||1-sided stratified log-rank test adjusted for baseline stratification factors (number of metastatic sites, estrogen receptor status, and disease-free interval from prior adjuvant treatment)|Cochran-Mantel-Haenszel|||Investigator's assessment||2.02|1.03|0.0172
92446030|NCT00393939|184779501|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1539||||0.8933|TWO_SIDED|95.0|0.9209|1.4458||1-sided stratified log-rank test adjusted for baseline stratification factors (number of metastatic sites, estrogen receptor status, and disease-free interval from prior adjuvant treatment)|Log Rank|||||1.4458|0.9209|0.8933
92446031|NCT01494610|184779505|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. A two one-sided t-test procedure with α=0.05 for each one-sided test was used. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|1.508|||||TWO_SIDED|90.0|1.366|1.665|||||Data reflect Asthma + COPD participants. The ratio of adjusted geometric means is a comparision of treatment administered by the capsule-based inhaler and the MDPI.|||1.665|1.366|
92280341|NCT01521559|184463428|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.6||||0.0003|TWO_SIDED|95.0|13.0|40.1||P-value was calculated using 2-sided Cochran-Mantel-Haenszel test adjusted by regions (Japan vs North America) and baseline Best Corrected Visual Acuity (BCVA ≤20/200 and BCVA \>20/200).|Cochran-Mantel-Haenszel||Difference was IAI group minus laser group; Difference and confidence interval were calculated using Mantel-Haenszel weighting scheme adjusted by regions (Japan vs North America) and baseline BCVA (BCVA ≤20/200 and BCVA \>20/200).|||40.1|13.0|0.0003
92280342|NCT01521559|184463429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.5|||<|0.0001|TWO_SIDED|95.0|7.1|14.0|||ANCOVA|||Difference was IAI group minus laser group. P-value, Point estimate and 95% confidence interval (CI) were based on an analysis of covariance (ANCOVA) model with baseline measurement as covariate and treatment group, region, and baseline Best Corrected Visual Acuity (BCVA ≤20/200 and BCVA \>20/200) as fixed factors.||14.0|7.1|<0.0001
92171673|NCT05450458|184232492|OTHER|This study assessed longitudinal effects within a single patient group. Statistical power was calculated using a significance level of 0.05, 80% power, and 60 patients, accounting for KOOS score variability over time. The Friedman test was applied with post hoc analyses (Conover and Bonferroni). Since treatments were not compared, no non-inferiority or equivalence margin was defined|Median Change Baseline to month 6|0.22|||<|0.001|TWO_SIDED|95.0|0.15|0.23||P-values were adjusted for multiple comparisons using the Bonferroni method, and the a priori threshold for statistical significance was set at 0.05.|Friedman Test|Post hoc pairwise comparisons were adjusted using the Bonferroni method, and the a priori significance level was set at 0.05|The value represents the intra-individual median KOOS improvement from baseline to month 6 after treatment. Changes were evaluated across time points within a single cohort.|The statistical analysis will use the Friedman test, as the Shapiro-Wilk test confirmed a non-normal distribution. Conover's post hoc test with Bonferroni correction will adjust for multiple comparisons. The null hypothesis states that hyaluronic acid injections with sorbitol do not significantly improve KOOS function and pain scores over time. A power analysis was performed to ensure an adequate sample size for detecting clinically meaningful differences.||0.23|0.15|<0.001
92239419|NCT00227877|184382725|SUPERIORITY||Adjusted Relative Risk Ratio|0.66|STANDARD_ERROR_OF_MEAN|0.11||0.66|TWO_SIDED|95.0|0.48|0.91|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention)/(Control) controlling for age; gender; parent education; number of parents in home; visit type; provider gender; connectedness to provider, and baseline DRWI risk.|||.91|.48|.66
92239420|NCT00227877|184382726|SUPERIORITY||Adjusted Relative Risk Ratio|0.87|STANDARD_ERROR_OF_MEAN|0.13||0.35|TWO_SIDED|95.0|0.64|1.17||Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Regression, Logistic||Risk Ratio: (Intervention)/(Control) controlling for age; gender; parent education; number of parents in home; visit type; provider gender; connectedness to provider, and baseline DRWI risk.|||1.17|.64|.35
92446032|NCT01494610|184779505|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|1.598|||||TWO_SIDED|90.0|1.369|1.864|||||Data reflect participants with asthma only. The ratio of adjusted geometric means is a comparision of treatment administered by the capsule-based inhaler and the MDPI.|||1.864|1.369|
92446033|NCT01494610|184779505|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. A two one-sided t-test procedure with α=0.05 for each one-sided test was used. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|1.421|||||TWO_SIDED|90.0|1.274|1.584|||||Data reflect participants with COPD only. The ratio of adjusted geometric means is the comparision of treatment administered by the capsule-based inhaler and the MDPI.|||1.584|1.274|
92446034|NCT01494610|184779506|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. A two one-sided t-test procedure with α=0.05 for each one-sided test was used. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|0.928|||||TWO_SIDED|90.0|0.886|0.971|||||Data reflect Asthma + COPD participants. The ratio of adjusted geometric means is the comparision of treatment administered by the capsule-based inhaler and the MDPI.|||0.971|0.886|
92446035|NCT01494610|184779506|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. A two one-sided t-test procedure with α=0.05 for each one-sided test was used. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|0.892|||||TWO_SIDED|90.0|0.848|0.939|||||Data reflect participants with asthma only. The ratio of adjusted geometric means is the comparision of treatment administered by the capsule-based inhaler and the MDPI.|||0.939|0.848|
92446036|NCT01494610|184779506|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. A two one-sided t-test procedure with α=0.05 for each one-sided test was used. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|0.966|||||TWO_SIDED|90.0|0.889|1.049|||||Data reflect participants with COPD only. The ratio of adjusted geometric means is the comparision of treatment administered by the capsule-based inhaler and the MDPI.|||1.049|0.889|
92446037|NCT02388997|184779569|SUPERIORITY|||||||0.59|||||||2-sample t-test with unequal variences|||||||0.59
92446038|NCT02388997|184779570|SUPERIORITY|||||||0.58|||||||2-sample t-test with unequal variances|||||||0.58
92446039|NCT02388997|184779571|SUPERIORITY|||||||0.87|||||||2-sample t-test with unequal variances|||||||0.87
92446040|NCT02388997|184779572|SUPERIORITY|||||||0.55|||||||2-sample t-test with unequal variances|||||||0.55
92446041|NCT02388997|184779573|SUPERIORITY|||||||0.6|||||||2-sample t-test with unequal variances|||||||0.6
92446042|NCT02388997|184779575|SUPERIORITY|||||||0.037||||||The p value is based on the fold change (ratio) of the geometric means of the time (days) to peak symptoms among asthmatics in the omalizumab/placebo treatment groups.|2-sample t-test on the log scale|||||||0.037
92446043|NCT00384813|184779579|SUPERIORITY_OR_OTHER||regression coefficient|0.33||||0.23||||||For both baseline to 4 month analyses (see above p value) and baseline to 10 month analyses, the variable of intervention group did not contribute significant additional variance.|Regression, Linear|||||||0.23
92171674|NCT05450458|184232493|OTHER|This study assessed longitudinal effects within a single patient group. Statistical power was calculated using a significance level of 0.05, 80% power, and 60 patients, accounting for IKDC score variability over time. The Friedman test was applied with post hoc analyses (Conover and Bonferroni). Since treatments were not compared, no non-inferiority or equivalence margin was defined|Median Baseline to Month 6|0.18||||0.01|TWO_SIDED|95.0|0.12|0.24||P-values were adjusted for multiple comparisons using the Bonferroni method, and the a priori threshold for statistical significance was set at 0.05.|Friedman Test|The overall p-value is unadjusted. The a priori significance level was set at 0.05 to robustly control the Type I error|This value represents the intra-individual median IKDC improvement from baseline to 6 months after treatment. The analysis was conducted within a single cohort without comparator arms.|The statistical analysis will use the Friedman test, as the Shapiro-Wilk test confirmed a non-normal distribution. Conover's post hoc test with Bonferroni correction will adjust for multiple comparisons. The null hypothesis states that hyaluronic acid injections with sorbitol do not significantly improve IKDC function and pain scores over time. A power analysis was performed to ensure an adequate sample size for detecting clinically meaningful differences.||0.24|0.12|0.01
92239421|NCT00227877|184382727|SUPERIORITY||Adjusted Relative Risk Ratio|0.63|STANDARD_ERROR_OF_MEAN|0.1|<|0.01|TWO_SIDED|95.0|0.46|0.87|||Regression, Logistic||Risk Ratio: (Intervention)/(Control) controlling for age; gender; connectedness to provider, and baseline DRWI risk.|||.87|.46|<.01
92239422|NCT00227877|184382728|SUPERIORITY||Adjusted Relative Risk Ratio|0.73|STANDARD_ERROR_OF_MEAN|0.11|<|0.05|TWO_SIDED|95.0|0.54|0.98|||Regression, Logistic||Risk Ratio: (Intervention)/(Control) controlling for age; gender; connectedness to provider, and baseline DRWI risk.|||.98|.54|< 0.05
92239423|NCT02522481|184382736|SUPERIORITY|||||||0.0896|||||||McNemar|||Sensitivity: superiority test comparing CE-DSE and UE-DSE based on the difference||||0.0896
92280343|NCT01521559|184463430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-148.6|||<|0.0001|TWO_SIDED|95.0|-179.8|-117.4|||ANCOVA|||Difference was IAI group minus laser group; P-value, Point estimate, and 95% CI, were based on an ANCOVA model with baseline measurement as covariate and treatment group, region, and baseline Best Corrected Visual Acuity (BCVA ≤20/200 and BCVA \>20/200) as fixed factors.||-117.4|-179.8|<0.0001
92239424|NCT02522481|184382736|SUPERIORITY||||||<|0.0001|||||||McNemar|||Specificity: superiority test comparing CE-DSE and UE-DSE based on the difference||||<0.0001
92239425|NCT01109004|184382747|SUPERIORITY|||||||0.87||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 38 months post-randomization are equal for those receiving Tandem auto transplant and RVD consolidation therapy.||||0.87
92239426|NCT01109004|184382747|SUPERIORITY|||||||0.37||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 38 months post-randomization are equal for those receiving Tandem auto transplant and Lenalidomide maintenance therapy.||||0.37
92280344|NCT01521559|184463431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.6||||0.0833|TWO_SIDED|95.0|-0.3|5.5|||ANCOVA|||Difference was IAI group minus laser group; P-value, Point estimate, and 95% CI, were based on an ANCOVA model with baseline measurement as covariate and treatment group, region, and baseline Best Corrected Visual Acuity (BCVA ≤20/200 and BCVA \>20/200) as fixed factors.||5.5|-0.3|0.0833
92280345|NCT03197064|184463436|OTHER|||||||0.35|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 30 minutes post-dose||||0.35
92446044|NCT02346240|184779599|SUPERIORITY||Estimated difference in responder rate|61.6|||||TWO_SIDED|95.0|52.1|71.2|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||71.2|52.1|
92171675|NCT05450458|184232495|SUPERIORITY|This is a superiority analysis. Data normality was first assessed with the Shapiro-Wilk test, and due to non-normal distributions, a Wilcoxon Signed-Rank Test was applied to compare paired baseline and six-month IKDC score|Baseline to month 6|0.18||||0.001|TWO_SIDED|95.0|0.14|0.21||P-values from pairwise comparisons were adjusted using the Bonferroni method to control for multiple testing. The global p-value from the Friedman test was not adjusted. An a priori threshold for statistical significance was set at p \< 0.05|Wilcoxon Signed-Rank Test|Friedman test conducted with 3 degrees of freedom. Bonferroni correction applied in pairwise Wilcoxon post hoc comparisons.|Median IKDC improvement from baseline to 6 months in 22 athletes with elevated BMI (≥25). No comparator group was used. Confidence interval calculated via bootstrap (resampling with 1,000 iterations).|The analysis was conducted under the null hypothesis of no change in knee function across time. Data normality was assessed using the Shapiro-Wilk test. Changes across the four time points (baseline, 15 days, 3 months, and 6 months) were evaluated using the Friedman test. Pairwise comparisons were performed post hoc using the Wilcoxon Signed-Rank Test with Bonferroni correction at a 5% significance threshold.||0.21|0.14|0.001
92239427|NCT01109004|184382747|SUPERIORITY|||||||0.27||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 38 months post-randomization are equal for those receiving RVD consolidation and Lenalidomide maintenance therapy.||||0.27
92239428|NCT01109004|184382748|SUPERIORITY|||||||0.92||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with disease progression at 38 months post-randomization are equal for those receiving Tandem auto transplant and RVD consolidation therapy.||||0.92
92280346|NCT03197064|184463436|OTHER|||||||0.47|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 60 minutes post-dose||||0.47
92446045|NCT02346240|184779599|SUPERIORITY||Estimated difference in responder rate|56.2|||||TWO_SIDED|95.0|46.4|66.0|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||66.0|46.4|
92446046|NCT02346240|184779599|SUPERIORITY||Odds Ratio (OR)|37.988|||<|0.0001|TWO_SIDED|95.0|11.312|127.576||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO.|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||127.576|11.312|<0.0001
92446047|NCT02346240|184779599|SUPERIORITY||Odds Ratio (OR)|30.023|||<|0.0001|TWO_SIDED|95.0|8.971|100.481||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO.|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||100.481|8.971|<0.0001
92446048|NCT02346240|184779599|SUPERIORITY||Estimated difference in responder rate|13.4|||||TWO_SIDED|95.0|2.7|24.1|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Etanercept Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||24.1|2.7|
92446049|NCT02346240|184779599|SUPERIORITY||Estimated difference in responder rate|8.0|||||TWO_SIDED|95.0|-2.9|18.9|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Etanercept Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||18.9|-2.9|
92446050|NCT02346240|184779599|SUPERIORITY||Odds Ratio (OR)|1.756|||=|0.0152|TWO_SIDED|95.0|1.114|2.768||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. ETN.|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||2.768|1.114|=0.0152
92446051|NCT02346240|184779599|SUPERIORITY||Odds Ratio (OR)|1.388|||=|0.1523|TWO_SIDED|95.0|0.886|2.175||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. ETN|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||2.175|0.886|=0.1523
92239429|NCT01109004|184382748|SUPERIORITY|||||||0.21||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with disease progression at 38 months post-randomization are equal for those receiving Tandem auto transplant and Lenalidomide maintenance therapy.||||0.21
92239430|NCT01109004|184382748|SUPERIORITY|||||||0.22||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with disease progression at 38 months post-randomization are equal for those receiving RVD consolidation and Lenalidomide maintenance therapy.||||0.22
92239431|NCT01109004|184382749|SUPERIORITY|||||||0.26||||||Two sided testing was performed at a significance level of 0.05|Log Rank|||The null hypothesis is that the percentages of participants with OS at 38 months post-randomization are equal for those receiving Tandem auto transplant and RVD consolidation therapy.||||0.26
92280347|NCT03197064|184463436|OTHER|||||||0.066|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 90 minutes post-dose||||0.066
92239432|NCT01109004|184382749|SUPERIORITY|||||||0.53||||||Two sided testing was performed at a significance level of 0.05|Log Rank|||The null hypothesis is that the percentages of participants with OS at 38 months post-randomization are equal for those receiving Tandem auto transplant and Lenalidomide maintenance therapy.||||0.53
92239433|NCT01109004|184382749|SUPERIORITY|||||||0.57||||||Two sided testing was performed at a significance level of 0.05|Log Rank|||The null hypothesis is that the percentages of participants with OS at 38 months post-randomization are equal for those receiving RVD consolidation and Lenalidomide maintenance therapy.||||0.57
92239434|NCT01109004|184382750|SUPERIORITY|||||||0.63||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with TRM at 38 months post-randomization are equal for those receiving Tandem auto transplant and RVD consolidation therapy.||||0.63
92280348|NCT03197064|184463437|OTHER|||||||0.72|||||||t-test, 2 sided|||Difference in right upper extremity amplitude between baseline (pre-dose) and 30 minutes post-dose||||0.72
92280349|NCT03197064|184463437|OTHER|||||||0.72|||||||t-test, 2 sided|||Difference in right upper extremity amplitude between baseline (pre-dose) and 60 minutes post-dose||||0.72
92280350|NCT03197064|184463437|OTHER|||||||0.78|||||||t-test, 2 sided|||Difference in right upper extremity amplitude between baseline (pre-dose) and 90 minutes post-dose||||0.78
92280351|NCT03197064|184463438|OTHER|||||||0.93|||||||t-test, 2 sided|||Difference in left lower extremity amplitude between baseline (pre-dose) and 30 minutes post-dose||||0.93
92280352|NCT03197064|184463438|OTHER|||||||0.39|||||||t-test, 2 sided|||Difference in left lower extremity amplitude between baseline (pre-dose) and 60 minutes post-dose||||0.39
92280353|NCT03197064|184463438|OTHER|||||||0.08|||||||t-test, 2 sided|||Difference in left lower extremity amplitude between baseline (pre-dose) and 90 minutes post-dose||||0.08
92239435|NCT01109004|184382750|SUPERIORITY|||||||0.15||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with TRM at 38 months post-randomization are equal for those receiving Tandem auto transplant and Lenalidomide maintenance therapy.||||0.15
92239436|NCT01109004|184382750|SUPERIORITY|||||||0.33||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with TRM at 38 months post-randomization are equal for those receiving RVD consolidation and Lenalidomide maintenance therapy.||||0.33
92240135|NCT00570739|184383824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.7513|TWO_SIDED|95.0|-13.5|9.7||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||9.7|-13.5|0.7513
92239437|NCT03059810|184382764|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|0.7|STANDARD_DEVIATION|2.63|||TWO_SIDED|95.0|-4.6|5.9|||Linear mixed model (LMM)|A 95% Confidence Interval for the least squares mean difference between the follow up and baseline was used to test for non-inferiority.|Mean difference was calculated as Test (at 12-16 days follow up) - Habitual (at baseline)|It was a single arm study and the subjects' overall vision was compared against the baseline with the habitual lens. Sample size was determined using Power procedure in SAS 9.4 using the input from historical data (alpha=0.05).||5.9|-4.6|
92239438|NCT00747617|184382776|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Mixed Models Analysis|||||||<0.05
92446052|NCT02346240|184779600|SUPERIORITY||Estimated difference in responder rate|48.5|||||TWO_SIDED|95.0|39.33|57.63|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||57.63|39.33|
92239439|NCT00137436|184382797|SUPERIORITY_OR_OTHER|||||||0.942||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.942
92239440|NCT00137436|184382797|SUPERIORITY_OR_OTHER|||||||0.323||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.323
92239441|NCT00137436|184382797|SUPERIORITY_OR_OTHER|||||||0.865||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.865
92239442|NCT00137436|184382797|SUPERIORITY_OR_OTHER|||||||0.873||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||0.873
92239443|NCT00137436|184382798|SUPERIORITY_OR_OTHER|||||||0.736||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.736
92239444|NCT00137436|184382798|SUPERIORITY_OR_OTHER|||||||0.962||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.962
92239445|NCT00137436|184382798|SUPERIORITY_OR_OTHER|||||||0.185||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.185
92239446|NCT00137436|184382798|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||1.000
92239447|NCT00137436|184382799|SUPERIORITY_OR_OTHER|||||||0.386||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.386
92239448|NCT00137436|184382799|SUPERIORITY_OR_OTHER|||||||0.904||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.904
92239449|NCT00137436|184382799|SUPERIORITY_OR_OTHER|||||||0.812||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.812
92239450|NCT00137436|184382799|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||0.490
92239451|NCT00137436|184382800|SUPERIORITY_OR_OTHER|||||||0.839||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.839
92239452|NCT00137436|184382800|SUPERIORITY_OR_OTHER|||||||0.219||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.219
92239453|NCT00137436|184382800|SUPERIORITY_OR_OTHER|||||||0.788||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.788
92239454|NCT00137436|184382800|SUPERIORITY_OR_OTHER|||||||0.164||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||0.164
92239455|NCT00137436|184382801|SUPERIORITY_OR_OTHER|||||||0.656||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.656
92239456|NCT00137436|184382801|SUPERIORITY_OR_OTHER|||||||0.628||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.628
92239457|NCT00137436|184382801|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.420
92239458|NCT00137436|184382801|SUPERIORITY_OR_OTHER|||||||0.296||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||0.296
92239459|NCT00137436|184382802|SUPERIORITY_OR_OTHER|||||||0.903||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.903
92239460|NCT00137436|184382802|SUPERIORITY_OR_OTHER|||||||0.434||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.434
92446053|NCT02346240|184779600|SUPERIORITY||Estimated difference in responder rate|37.9|||||TWO_SIDED|95.0|28.88|46.96|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||46.96|28.88|
92446054|NCT02346240|184779600|SUPERIORITY||Odds Ratio (OR)|56.129|||<|0.0001|TWO_SIDED|95.0|7.787|404.555||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||404.555|7.787|<0.0001
92446055|NCT02346240|184779600|SUPERIORITY||Odds Ratio (OR)|36.566|||=|0.0004|TWO_SIDED|95.0|5.061|264.196||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||264.196|5.061|=0.0004
92446056|NCT02346240|184779601|SUPERIORITY||Estimated difference in responder rate|33.8|||||TWO_SIDED|95.0|20.68|46.98|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||46.98|20.68|
92446057|NCT02346240|184779601|SUPERIORITY||Estimated difference in responder rate|31.0|||||TWO_SIDED|95.0|18.18|43.8|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||43.80|18.18|
92446058|NCT02346240|184779601|SUPERIORITY||Odds Ratio (OR)|39.949|||<|0.0001|TWO_SIDED|95.0|8.407|189.828||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||189.828|8.407|<0.0001
92446059|NCT02346240|184779601|SUPERIORITY||Odds Ratio (OR)|35.084|||<|0.0001|TWO_SIDED|95.0|7.363|167.179||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||167.179|7.363|<0.0001
92446060|NCT02346240|184779602|SUPERIORITY||Estimated difference in responder rate|70.9|||||TWO_SIDED|95.0|62.15|79.59|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||79.59|62.15|
92446061|NCT02346240|184779602|SUPERIORITY||Estimated difference in responder rate|64.4|||||TWO_SIDED|95.0|55.12|73.63|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||73.63|55.12|
92446062|NCT02346240|184779602|SUPERIORITY||Odds Ratio (OR)|76.277|||<|0.0001|TWO_SIDED|95.0|17.952|324.094||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||324.094|17.952|<0.0001
92446063|NCT02346240|184779602|SUPERIORITY||Odds Ratio (OR)|55.413|||<|0.0001|TWO_SIDED|95.0|13.135|233.782||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||233.782|13.135|<0.0001
92446064|NCT02346240|184779603|SUPERIORITY||Estimated difference in responder rate|55.0|||||TWO_SIDED|95.0|45.59|64.35|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||64.35|45.59|
92239461|NCT00137436|184382802|SUPERIORITY_OR_OTHER|||||||0.687||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.687
92239462|NCT00137436|184382802|SUPERIORITY_OR_OTHER|||||||0.296||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||0.296
92239463|NCT04657016|184382814|SUPERIORITY||Mean Difference (Net)|-24.5|||<|0.001|TWO_SIDED|95.0|-26.1|-22.8|||Mixed Models Analysis|||||-22.8|-26.1|<0.001
92239464|NCT04657016|184382815|SUPERIORITY||Odds Ratio (OR)|130.36|||<|0.001|TWO_SIDED|95.0|69.98|242.84|||Regression, Logistic|||||242.84|69.98|<0.001
92239465|NCT04657016|184382816|SUPERIORITY||Odds Ratio (OR)|101.6|||<|0.001|TWO_SIDED|95.0|39.17|263.55|||Regression, Logistic|||||263.55|39.17|<0.001
92446065|NCT02346240|184779603|SUPERIORITY||Estimated difference in responder rate|44.9|||||TWO_SIDED|95.0|35.39|54.49|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||54.49|35.39|
92446066|NCT02346240|184779603|SUPERIORITY||Odds Ratio (OR)|40.717|||<|0.0001|TWO_SIDED|95.0|9.741|170.198||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||170.198|9.741|<0.0001
92446067|NCT02346240|184779603|SUPERIORITY||Odds Ratio (OR)|27.165|||<|0.0001|TWO_SIDED|95.0|6.504|113.453||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||113.453|6.504|<0.0001
92446068|NCT02346240|184779604|SUPERIORITY||Estimated difference in responder rate|48.8|||||TWO_SIDED|95.0|34.22|63.41|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||63.41|34.22|
92446069|NCT02346240|184779604|SUPERIORITY||Estimated difference in responder rate|39.5|||||TWO_SIDED|95.0|25.58|53.38|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||53.38|25.58|
92446070|NCT02346240|184779604|SUPERIORITY||Odds Ratio (OR)|72.278|||<|0.0001|TWO_SIDED|95.0|14.65|356.602||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||356.602|14.650|<0.0001
92446071|NCT02346240|184779604|SUPERIORITY||Odds Ratio (OR)|49.527|||<|0.0001|TWO_SIDED|95.0|10.002|245.256||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||245.256|10.002|<0.0001
92446072|NCT02942017|184779607|SUPERIORITY||Least Square (LS) Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.019||0.016|TWO_SIDED|95.0|-4.52|-0.48|||MMRM|||Mixed effect model for repeated measures (MMRM) was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.48|-4.52|0.0160
92446073|NCT02942017|184779608|SUPERIORITY||LS Mean Difference|0.54|STANDARD_ERROR_OF_MEAN|1.271||0.671|TWO_SIDED|95.0|-1.98|3.07|||MMRM|||MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.07|-1.98|0.6710
92446074|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.738||0.4216|TWO_SIDED|95.0|-2.06|0.87|||MMRM|||Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.87|-2.06|0.4216
92446075|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.905||0.3947|TWO_SIDED|95.0|-2.57|1.02|||MMRM|||Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.02|-2.57|0.3947
92446076|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.962||0.328|TWO_SIDED|95.0|-2.86|0.96|||MMRM|||Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.96|-2.86|0.3280
92446077|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.994||0.2522|TWO_SIDED|95.0|-3.12|0.83|||MMRM|||Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.83|-3.12|0.2522
92239466|NCT04657016|184382817|SUPERIORITY||Odds Ratio (OR)|153.95|||<|0.001|TWO_SIDED|95.0|78.9|300.37|||Regression, Logistic|||||300.37|78.90|<0.001
92239467|NCT04657016|184382818|SUPERIORITY||Odds Ratio (OR)|144.48|||<|0.001|TWO_SIDED|95.0|62.65|333.21|||Regression, Logistic|||||333.21|62.65|<0.001
92446078|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-1.61|STANDARD_ERROR_OF_MEAN|1.091||0.1431|TWO_SIDED|95.0|-3.78|0.55|||MMRM|||Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.55|-3.78|0.1431
92446079|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-1.85|STANDARD_ERROR_OF_MEAN|1.113||0.0991|TWO_SIDED|95.0|-4.06|0.36|||MMRM|||Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.36|-4.06|0.0991
92446080|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-2.42|STANDARD_ERROR_OF_MEAN|1.155||0.0389|TWO_SIDED|95.0|-4.71|-0.13|||MMRM|||Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.13|-4.71|0.0389
92446081|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-3.48|STANDARD_ERROR_OF_MEAN|1.108||0.0022|TWO_SIDED|95.0|-5.67|-1.28|||MMRM|||Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.28|-5.67|0.0022
92446082|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|1.429||0.0255|TWO_SIDED|95.0|-6.08|-0.4|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.40|-6.08|0.0255
92446083|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-2.03|STANDARD_ERROR_OF_MEAN|1.356||0.1375|TWO_SIDED|95.0|-4.73|0.66|||MMRM|||Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.66|-4.73|0.1375
92446084|NCT02942017|184779609|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|1.4||0.817|TWO_SIDED|95.0|-3.11|2.46|||MMRM|||Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.46|-3.11|0.8170
92446085|NCT02942017|184779610|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0168|TWO_SIDED|95.0|1.2|6.7|||GEE method|||Hour 60: Generalized estimating equation (GEE) method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model.||6.7|1.2|0.0168
92446086|NCT02942017|184779610|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0482|TWO_SIDED|95.0|1.0|6.6|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model.||6.6|1.0|0.0482
92446087|NCT02942017|184779610|SUPERIORITY||Odds Ratio (OR)|0.8||||0.5857|TWO_SIDED|95.0|0.3|2.0|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||2.0|0.3|0.5857
92446088|NCT02942017|184779611|SUPERIORITY||Odds Ratio (OR)|3.4||||0.0033|TWO_SIDED|95.0|1.5|7.9||Hour 60:|GEE method|||Hour 60: GEE method was used for analysis. The HAM-D remission at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||7.9|1.5|0.0033
92446089|NCT02942017|184779611|SUPERIORITY||Odds Ratio (OR)|3.7||||0.0046|TWO_SIDED|95.0|1.5|9.3|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D remission at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||9.3|1.5|0.0046
92239468|NCT04657016|184382819|SUPERIORITY||Odds Ratio (OR)|118.06|||<|0.001|TWO_SIDED|95.0|40.08|347.74|||Regression, Logistic|||||347.74|40.08|<0.001
92239469|NCT04657016|184382820|SUPERIORITY||Mean Difference (Net)|-17.9|||<|0.001|TWO_SIDED|95.0|-19.5|-16.3|||Mixed Models Analysis|||||-16.3|-19.5|<0.001
92239470|NCT04657016|184382821|SUPERIORITY||Mean Difference (Net)|-25.0|||<|0.001|TWO_SIDED|95.0|-26.9|-23.2|||Mixed Models Analysis|||||-23.2|-26.9|<0.001
92239471|NCT04657016|184382822|SUPERIORITY||Mean Difference (Net)|-8.9|||<|0.001|TWO_SIDED|95.0|-9.6|-8.3|||Mixed Models Analysis|||||-8.3|-9.6|<0.001
92446090|NCT02942017|184779611|SUPERIORITY||Odds Ratio (OR)|0.6||||0.3085|TWO_SIDED|95.0|0.3|1.5|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D remission at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||1.5|0.3|0.3085
92171676|NCT05450458|184232495|SUPERIORITY|This is a superiority analysis. Data normality was first assessed with the Shapiro-Wilk test, and due to non-normal distributions, a Wilcoxon Signed-Rank Test was applied to compare paired baseline and six-month KOOS score|Baseline to Month 6|18.5|||<|0.001|TWO_SIDED|95.0|13.0|22.0||The p-values reported were not adjusted for multiple comparisons, and the a priori threshold for statistical significance was set at p \< 0.05|Wilcoxon Signed-Rank Test|Friedman test conducted with 3 degrees of freedom. Bonferroni correction applied in pairwise Wilcoxon post hoc comparisons.|Median KOOS improvement from baseline to 6 months in 22 athletes with elevated BMI. CI calculated via bootstrap resampling (1,000 iterations). No comparator group was involved.|The analysis was conducted under the null hypothesis of no change in knee function between baseline and six months. The study was designed with sufficient power to detect clinically meaningful improvements, with significance determined at a conventional level||22|13|<0.001
92171677|NCT01101451|184232497|SUPERIORITY||Hazard Ratio (HR)|0.6976||||0.0927|TWO_SIDED|95.0|0.408|1.192||the pre\_specified nominal significance level was 0.0451 (one sided).|Log Rank||The RFS hazard ratio estimate is for reporting group 2 vs reporting group 1.|||1.192|0.408|0.0927
92446091|NCT02942017|184779612|SUPERIORITY||LS mean difference|-8.35|STANDARD_ERROR_OF_MEAN|2.989||0.0063|TWO_SIDED|95.0|-14.29|-2.42|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit was the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||-2.42|-14.29|0.0063
92446092|NCT02942017|184779612|SUPERIORITY||LS mean difference|-9.75|STANDARD_ERROR_OF_MEAN|3.566||0.0074|TWO_SIDED|95.0|-16.83|-2.68|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit was the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||-2.68|-16.83|0.0074
92446093|NCT02942017|184779612|SUPERIORITY||LS mean difference|1.37|STANDARD_ERROR_OF_MEAN|3.149||0.6637|TWO_SIDED|95.0|-4.88|7.63|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit was the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||7.63|-4.88|0.6637
92446094|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.154||0.5132|TWO_SIDED|95.0|-0.41|0.21|||MMRM|||Depressed Mood, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.41|0.5132
92446095|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.181||0.1672|TWO_SIDED|95.0|-0.61|0.11|||MMRM|||Depressed Mood, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.61|0.1672
92446096|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.178||0.0963|TWO_SIDED|95.0|-0.65|0.05|||MMRM|||Depressed Mood, Hour 8:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.65|0.0963
92446097|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.183||0.4803|TWO_SIDED|95.0|-0.49|0.23|||MMRM|||Depressed Mood, Hour 12:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.49|0.4803
92446098|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.191||0.0844|TWO_SIDED|95.0|-0.71|0.05|||MMRM|||Depressed Mood, Hour 24:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.71|0.0844
92171678|NCT01101451|184232498|SUPERIORITY||Hazard Ratio (HR)|0.586|||||TWO_SIDED|95.0|0.286|1.199|||||The OS hazard ratio estimate is for reporting group 2 vs reporting group 1.|||1.199|0.286|
92239472|NCT04657016|184382823|SUPERIORITY||Mean Difference (Net)|-10.2|||<|0.001|TWO_SIDED|95.0|-12.2|-8.1|||Mixed Models Analysis|||||-8.1|-12.2|<0.001
92239473|NCT04657016|184382824|SUPERIORITY||Mean Difference (Net)|-5.7|||<|0.001|TWO_SIDED|95.0|-7.2|-4.3|||Mixed Models Analysis|||||-4.3|-7.2|<0.001
92239474|NCT04657016|184382825|SUPERIORITY||Mean Difference (Net)|-7.79|STANDARD_ERROR_OF_MEAN|1.348|<|0.001|TWO_SIDED|95.0|-10.4|-5.1|||Mixed Models Analysis|||||-5.10|-10.40|<0.001
92239475|NCT04657016|184382826|SUPERIORITY||Mean Difference (Net)|11.4|STANDARD_ERROR_OF_MEAN|1.67|<|0.001|TWO_SIDED|95.0|8.2|14.7|||Mixed Models Analysis|||||14.7|8.2|<0.001
92239476|NCT04657016|184382827|SUPERIORITY||Mean Difference (Net)|-11.5|STANDARD_ERROR_OF_MEAN|1.97|<|0.001|TWO_SIDED|95.0|-15.3|-7.53|||Mixed Models Analysis|||||-7.53|-15.30|<0.001
92239477|NCT04657016|184382828|SUPERIORITY||Mean Difference (Net)|-27.8|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|-32.1|-23.2|||Mixed Models Analysis|||||-23.2|-32.1|<0.001
92239478|NCT04657016|184382829|SUPERIORITY||Mean Difference (Net)|-28.0|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|-32.3|-23.4|||Mixed Models Analysis|||||-23.4|-32.3|<0.001
92446099|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.193||0.1325|TWO_SIDED|95.0|-0.68|0.09|||MMRM|||Depressed Mood, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.68|0.1325
92446100|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.192||0.0332|TWO_SIDED|95.0|-0.79|-0.03|||MMRM|||Depressed Mood, Hour 48:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.79|0.0332
92446101|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.189||0.1273|TWO_SIDED|95.0|-0.67|0.08|||MMRM|||Depressed Mood, Hour 60:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.67|0.1273
92171679|NCT01227265|184232508|SUPERIORITY_OR_OTHER||Difference in Estimated Means|-0.2||||0.4933|TWO_SIDED|95.0|-0.72|0.35|||cLDA|||||0.35|-0.72|0.4933
92171680|NCT01227265|184232508|SUPERIORITY_OR_OTHER||Difference in Estimated Means|-0.3||||0.2364|TWO_SIDED|95.0|-0.86|0.21|||cLDA|||||0.21|-0.86|0.2364
92239479|NCT04657016|184382830|SUPERIORITY||Mean Difference (Net)|-21.3|STANDARD_ERROR_OF_MEAN|3.76|<|0.001|TWO_SIDED|95.0|-28.4|-13.6|||Mixed Models Analysis|||||-13.6|-28.4|<0.001
92239480|NCT04657016|184382831|SUPERIORITY||Mean Difference (Net)|-11.2|||<|0.001|TWO_SIDED|95.0|-13.5|-8.8|||Mixed Models Analysis|||||-8.8|-13.5|<0.001
92239481|NCT04657016|184382832|SUPERIORITY||Mean Difference (Net)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.53|-0.42|||Mixed Models Analysis|||||-0.42|-0.53|<0.001
92239482|NCT04657016|184382833|SUPERIORITY||Mean Difference (Net)|-48.1|STANDARD_ERROR_OF_MEAN|3.04|<|0.001|TWO_SIDED|95.0|-53.7|-41.7|||Mixed Models Analysis|||||-41.7|-53.7|<0.001
92239483|NCT04657016|184382834|SUPERIORITY||Mean Difference (Net)|3.8|||<|0.001|TWO_SIDED|95.0|2.8|4.9|||ANCOVA|||||4.9|2.8|<0.001
92239484|NCT04657016|184382835|SUPERIORITY||Mean Difference (Net)|12.8|||<|0.001|TWO_SIDED|95.0|9.7|16.0|||ANCOVA|||||16.0|9.7|<0.001
92239485|NCT00701727|184382836|SUPERIORITY_OR_OTHER|||||||0.019|||||||t-test, 2 sided|||||||0.019
92239486|NCT00701727|184382837|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92239487|NCT00701727|184382838|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92239488|NCT00701727|184382839|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 2 sided|||||||0.12
92239489|NCT00701727|184382840|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92239490|NCT00701727|184382841|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92239491|NCT00701727|184382842|SUPERIORITY_OR_OTHER|||||||0.95|||||||t-test, 2 sided|||||||0.95
92239492|NCT05070429|184382931|SUPERIORITY||Maximum likelihood (MLE)|-0.035||||0.92|TWO_SIDED|95.0|-0.727|0.657||To account for the non-normal distribution of the outcome, confidence intervals and p-values were obtained using a bias corrected and accelerated bootstrap resampling procedure with 10,000 replicates.|generalized linear model (GLM)|generalized linear model (GLM) with an identity link|Confidence intervals and p-values were obtained using a bias-corrected and accelerated bootstrap resampling procedure with 10,000 replicates.|Used a weighted regression model with an identity link to compare average daily hours of hearing aid use at one-year post-randomization between participants assigned to the telehealth HHC or conventional HHC. Inverse probability of treatment weights will be calculated and included in the model for the primary outcome.||0.657|-0.727|0.92
92239493|NCT05070429|184382932|SUPERIORITY||Maximum likelihood (MLE)|-0.011||||0.87|TWO_SIDED|95.0|-0.147|0.125|||generalized linear model (GLM)||To account for the non-normal distribution of the outcome, confidence intervals and p-values were obtained using a bias corrected and accelerated bootstrap resampling procedure with 10,000 replicates.|Used a weighted regression model with an identity link to compare treatment satisfaction at one-year post-randomization between participants assigned to the telehealth HHC or conventional HHC. Inverse probability of treatment weights will be calculated and included in the model for the secondary outcome.||0.125|-0.147|0.87
92240136|NCT00570739|184383825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.91||||0.4301|TWO_SIDED|95.0|-24.156|10.336||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||10.336|-24.156|0.4301
92239494|NCT05070429|184382933|SUPERIORITY||Maximum likelihood (MLE)|0.059||||0.66|TWO_SIDED|95.0|-0.201|0.32|||generalized linear model (GLM)||To account for the non-normal distribution of the outcome, confidence intervals and p-values were obtained using a bias corrected and accelerated bootstrap resampling procedure with 10,000 replicates.|Used a weighted regression model with an identity link to compare primary COSI goal achievement at one-year post-randomization between participants assigned to the telehealth HHC or conventional HHC. Inverse probability of treatment weights will be calculated and included in the model for the secondary outcome.||0.320|-0.201|0.66
92239495|NCT05070429|184382934|SUPERIORITY||Maximum likelihood (MLE)|-1.96||||0.38|TWO_SIDED|95.0|-6.349|2.435|||generalized linear model (GLM)||To account for the non-normal distribution of the outcome, confidence intervals and p-values were obtained using a bias corrected and accelerated bootstrap resampling procedure with 10,000 replicates.|Used a weighted regression model with an identity link to compare hearing-specific quality of life at one-year post-randomization between participants assigned to the telehealth HHC or conventional HHC. Inverse probability of treatment weights will be calculated and included in the model for the secondary outcome.||2.435|-6.349|0.38
92239496|NCT02531373|184382973|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-4.0|||||TWO_SIDED|95.0|-13.5|3.1||||||||3.1|-13.5|
92280354|NCT03197064|184463439|OTHER|||||||0.42|||||||t-test, 2 sided|||Difference in right lower extremity amplitude between baseline (pre-dose) and 30 minutes post-dose||||0.42
92239497|NCT02531373|184382973|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-6.0|||||TWO_SIDED|95.0|-16.3|1.2||||||||1.2|-16.3|
92446102|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.182||0.1059|TWO_SIDED|95.0|-0.66|0.06|||MMRM|||Depressed Mood, Hour 72:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.66|0.1059
92446103|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.215||0.0683|TWO_SIDED|95.0|-0.82|0.03|||MMRM|||Depressed Mood, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.82|0.0683
92446104|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.232||0.4458|TWO_SIDED|95.0|-0.64|0.28|||MMRM|||Depressed Mood, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.64|0.4458
92446105|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.228||0.2905|TWO_SIDED|95.0|-0.21|0.7|||MMRM|||Depressed Mood, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.70|-0.21|0.2905
92446106|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.182||0.3096|TWO_SIDED|95.0|-0.18|0.55|||MMRM|||Depressed Mood, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.55|-0.18|0.3096
92446107|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.165||0.1925|TWO_SIDED|95.0|-0.55|0.11|||MMRM|||Feeling of Guilt, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.55|0.1925
92171681|NCT01227265|184232509|SUPERIORITY_OR_OTHER||Estimated Difference in Percentage|7.0||||0.244|TWO_SIDED|95.0|-4.17|18.05||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline average OFF time (hours/day) as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|Mixed Models Analysis|||||18.05|-4.17|0.244
92239498|NCT02531373|184382973|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-3.9|||||TWO_SIDED|95.0|-13.3|3.2||||||||3.2|-13.3|
92239499|NCT02531373|184382973|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-1.9|||||TWO_SIDED|95.0|-10.2|5.1||||||||5.1|-10.2|
92239500|NCT02531373|184382974|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.9|7.2||||||||7.2|-6.9|
92239501|NCT02531373|184382974|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.9|7.2||||||||7.2|-6.9|
92239502|NCT02531373|184382974|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.9|7.1||||||||7.1|-6.9|
92239503|NCT02531373|184382974|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.9|6.9||||||||6.9|-6.9|
92239504|NCT02531373|184382975|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|20.3||||0.029|TWO_SIDED|95.0|2.1|37.3|||Miettinen and Nurminen method|||||37.3|2.1|0.029
92280355|NCT03197064|184463439|OTHER|||||||0.37|||||||t-test, 2 sided|||Difference in right lower extremity amplitude between baseline (pre-dose) and 60 minutes post-dose||||0.37
92280356|NCT03197064|184463439|OTHER|||||||0.49|||||||t-test, 2 sided|||Difference in right lower extremity amplitude between baseline (pre-dose) and 90 minutes post-dose||||0.49
92280357|NCT03197064|184463440|OTHER|||||||0.386|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 30 minutes post-dose||||0.386
92239505|NCT02531373|184382975|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|22.3||||0.016|TWO_SIDED|95.0|4.3|39.1|||Miettinen and Nurminen method|||||39.1|4.3|0.016
92280358|NCT03197064|184463440|OTHER|||||||0.388|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 60 minutes post-dose||||0.388
92280359|NCT03197064|184463440|OTHER|||||||0.247|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 90 minutes post-dose||||0.247
92446108|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.168||0.0101|TWO_SIDED|95.0|-0.77|-0.11|||MMRM|||Feeling of Guilt, Hour 4:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.11|-0.77|0.0101
92446109|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.163||0.1546|TWO_SIDED|95.0|-0.56|0.09|||MMRM|||Feeling of Guilt, Hour 8:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.56|0.1546
92446110|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.168||0.0901|TWO_SIDED|95.0|-0.62|0.05|||MMRM|||Feeling of Guilt, Hour 12:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.62|0.0901
92446111|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.162||0.0717|TWO_SIDED|95.0|-0.62|0.03|||MMRM|||Feeling of Guilt, Hour 24:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.62|0.0717
92446112|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.169||0.0468|TWO_SIDED|95.0|-0.68|0.0|||MMRM|||Feeling of Guilt, Hour 36:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.68|0.0468
92446113|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.173||0.2222|TWO_SIDED|95.0|-0.56|0.13|||MMRM|||Feeling of Guilt, Hour 48:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.56|0.2222
92446114|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.156||0.0682|TWO_SIDED|95.0|-0.6|0.02|||MMRM|||Feeling of Guilt, Hour 60:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.60|0.0682
92446115|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.16||0.0147|TWO_SIDED|95.0|-0.72|-0.08|||MMRM|||Feeling of Guilt, Hour 72:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.08|-0.72|0.0147
92239506|NCT02531373|184382975|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|1.1||||0.908|TWO_SIDED|95.0|-17.7|19.9|||Miettinen and Nurminen method|||||19.9|-17.7|0.908
92239507|NCT02531373|184382975|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|23.1||||0.011|TWO_SIDED|95.0|5.4|39.6|||Miettinen and Nurminen method|||||39.6|5.4|0.011
92239508|NCT02531373|184382976|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-0.5||||0.943|TWO_SIDED|95.0|-14.0|12.9|||Miettinen and Nurminen method|||||12.9|-14.0|0.943
92280360|NCT00757601|184463453|NON_INFERIORITY_OR_EQUIVALENCE|"To assess the effect of food at the 30 mg dose, a point estimate was constructed for the geometric mean ratio for the fed/fasted states (GMR\[fed/fasted\]) of MK1006 AUC (0-∞).~The GMR (fed/fasted) was calculated using the geometric mean AUC (0-∞) of the fed state divided by the geometric mean AUC (0-∞) fasted state.~A GMR (fed/fasted) point estimate value within 20% of unity (1.00) was considered consistent with an absence of a clinically significant food effect."|Geometric Mean Ratio (fed/fasted)|1.03||||||95.0|||||Mixed-Effect Model|||A linear mixed-effect model was used to estimate the geometric mean AUC (0-∞) for MK1006 at every dose level.||||
92280361|NCT00757601|184463454|NON_INFERIORITY_OR_EQUIVALENCE|"To assess the effect of food at the 30 mg dose, a point estimate was constructed for the geometric mean ratio for the fed/fasted states (GMR\[fed/fasted\]) of MK1006 Cmax.~The GMR (fed/fasted) was calculated using the geometric mean Cmax of the fed state divided by the geometric mean Cmax fasted state.~A GMR (fed/fasted) point estimate value within 20% of unity (1.00) was considered consistent with an absence of a clinically significant food effect."|Geometric Mean Ratio (fed/fasted)|1.14||||||95.0|||||Mixed-effect Model|||A linear mixed-effect model was used to estimate the geometric mean Cmax for MK1006 at every dose level.||||
92446116|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.182||0.0837|TWO_SIDED|95.0|-0.68|0.04|||MMRM|||Feeling of Guilt, Day 7:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.68|0.0837
92446117|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.179||0.5828|TWO_SIDED|95.0|-0.46|0.26|||MMRM|||Feeling of Guilt, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.46|0.5828
92446118|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.168||0.5674|TWO_SIDED|95.0|-0.43|0.24|||MMRM|||Feeling of Guilt, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.43|0.5674
92446119|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.145||0.4613|TWO_SIDED|95.0|-0.18|0.4|||MMRM|||Feeling of Guilt, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.40|-0.18|0.4613
92446120|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.082||0.324|TWO_SIDED|95.0|-0.24|0.08|||MMRM|||Suicide, Hour 2:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.24|0.3240
92446121|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.082||0.3023|TWO_SIDED|95.0|-0.24|0.08|||MMRM|||Suicide, Hour 4:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.24|0.3023
92446122|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.082||0.4127|TWO_SIDED|95.0|-0.23|0.09|||MMRM|||Suicide, Hour 8:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.23|0.4127
92446123|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.082||0.2819|TWO_SIDED|95.0|-0.25|0.07|||MMRM|||Suicide, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.25|0.2819
92446124|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.082||0.3884|TWO_SIDED|95.0|-0.23|0.09|||MMRM|||Suicide, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.23|0.3884
92446125|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.082||0.275|TWO_SIDED|95.0|-0.25|0.07|||MMRM|||Suicide, Hour 36:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.25|0.2750
92446126|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.082||0.1811|TWO_SIDED|95.0|-0.27|0.05|||MMRM|||Suicide, Hour 48:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.27|0.1811
92446127|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.082||0.3854|TWO_SIDED|95.0|-0.23|0.09|||MMRM|||Suicide, Hour 60:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.23|0.3854
92446128|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.082||0.3822|TWO_SIDED|95.0|-0.23|0.09|||MMRM|||Suicide, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.23|0.3822
92446129|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.082||0.9255|TWO_SIDED|95.0|-0.17|0.15|||MMRM|||Suicide, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.17|0.9255
92446130|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.091||0.6714|TWO_SIDED|95.0|-0.14|0.22|||MMRM|||Suicide, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.14|0.6714
92446131|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.091||0.9838|TWO_SIDED|95.0|-0.18|0.18|||MMRM|||Suicide, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.18|0.9838
92446132|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.083||0.8884|TWO_SIDED|95.0|-0.17|0.15|||MMRM|||Suicide, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.17|0.8884
92446133|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.097||0.6996|TWO_SIDED|95.0|-0.23|0.16|||MMRM|||Insomnia-Early, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.23|0.6996
92446134|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.121||0.4426|TWO_SIDED|95.0|-0.15|0.33|||MMRM|||Insomnia-Early, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.15|0.4426
92446135|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.11||0.8743|TWO_SIDED|95.0|-0.2|0.24|||MMRM|||Insomnia-Early, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.20|0.8743
92446136|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.118||0.3498|TWO_SIDED|95.0|-0.12|0.35|||MMRM|||Insomnia-Early, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.12|0.3498
92446137|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.151||0.0839|TWO_SIDED|95.0|-0.56|0.04|||MMRM|||Insomnia-Early, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.56|0.0839
92446138|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.157||0.2595|TWO_SIDED|95.0|-0.49|0.13|||MMRM|||Insomnia-Early, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.49|0.2595
92239509|NCT02531373|184382976|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-2.5||||0.711|TWO_SIDED|95.0|-16.4|11.2|||Miettinen and Nurminen method|||||11.2|-16.4|0.711
92446139|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.168||0.056|TWO_SIDED|95.0|-0.66|0.01|||MMRM|||Insomnia-Early, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.66|0.0560
92446140|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.18||0.6187|TWO_SIDED|95.0|-0.45|0.27|||MMRM|||Insomnia-Early, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.45|0.6187
92446141|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.163||0.0187|TWO_SIDED|95.0|-0.72|-0.07|||MMRM|||Insomnia-Early, Hour 72 MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.07|-0.72|0.0187
92446142|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.18||0.1531|TWO_SIDED|95.0|-0.62|0.1|||MMRM|||Insomnia-Early, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.62|0.1531
92446143|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.197||0.3341|TWO_SIDED|95.0|-0.58|0.2|||MMRM|||Insomnia-Early, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.58|0.3341
92446144|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.216||0.8969|TWO_SIDED|95.0|-0.4|0.46|||MMRM|||Insomnia-Early, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.40|0.8969
92446145|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.174||0.5862|TWO_SIDED|95.0|-0.25|0.44|||MMRM|||Insomnia-Early, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.25|0.5862
92446146|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.117||0.3776|TWO_SIDED|95.0|-0.13|0.34|||MMRM|||Insomnia-Middle, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.34|-0.13|0.3776
92446147|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.121||0.9029|TWO_SIDED|95.0|-0.26|0.23|||MMRM|||Insomnia-Middle, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.26|0.9029
92239510|NCT02531373|184382976|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|3.7||||0.529|TWO_SIDED|95.0|-8.7|16.4|||Miettinen and Nurminen method|||||16.4|-8.7|0.529
92239511|NCT02531373|184382976|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|5.8||||0.298|TWO_SIDED|95.0|-5.8|18.2|||Miettinen and Nurminen method|||||18.2|-5.8|0.298
92239512|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.61|1.1||||||Serotype 1||1.10|0.61|
92446148|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.121||0.6173|TWO_SIDED|95.0|-0.18|0.3|||MMRM|||Insomnia-Middle, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.18|0.6173
92446149|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.124||0.2433|TWO_SIDED|95.0|-0.1|0.39|||MMRM|||Insomnia-Middle, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.10|0.2433
92239513|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.77|||||TWO_SIDED|95.0|1.33|2.35||||||Serotype 3||2.35|1.33|
92239514|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.28|||||TWO_SIDED|95.0|0.91|1.81||||||Serotype 4||1.81|0.91|
92239515|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.95|||||TWO_SIDED|95.0|0.59|1.51||||||Serotype 5||1.51|0.59|
92239516|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.5||||||95.0|0.29|0.86||||||Serotype 6A||0.86|0.29|
92280362|NCT04543136|184463459|SUPERIORITY||Mean Difference (Final Values)|45.0||||0.074|TWO_SIDED|95.0|-4.5|94.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||94.5|-4.5|0.074
92280363|NCT04543136|184463459|SUPERIORITY||Mean Difference (Final Values)|58.8||||0.022|TWO_SIDED|95.0|8.5|109.1||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||109.1|8.5|0.022
92171682|NCT01227265|184232509|SUPERIORITY_OR_OTHER||Estimated Difference in Percentage|6.5||||0.262|TWO_SIDED|95.0|-4.63|17.61||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline average OFF time (hours/day) as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|Mixed Models Analysis|||||17.61|-4.63|0.262
92446150|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.139||0.0234|TWO_SIDED|95.0|-0.59|-0.04|||MMRM|||Insomnia-Middle, Hour 24 MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-0.59|0.0234
92446151|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.139||0.054|TWO_SIDED|95.0|-0.55|0.0|||MMRM|||Insomnia-Middle, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.55|0.0540
92171683|NCT01227265|184232510|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.1||||0.776|TWO_SIDED|95.0|-0.47|0.63|||cLDA|||||0.63|-0.47|0.776
92239517|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.58|2.1||||||Serotype 6B||2.10|0.58|
92239518|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.55|1.03||||||Serotype 7F||1.03|0.55|
92239519|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.74|1.75||||||Serotype 9V||1.75|0.74|
92239520|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.58|1.27||||||Serotype 14||1.27|0.58|
92239521|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.63||||||95.0|0.43|0.92||||||Serotype 18C||0.92|0.43|
92239522|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.64|1.26||||||Serotype 19A||1.26|0.64|
92239523|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.62|1.11||||||Serotype 19F||1.11|0.62|
92239524|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|81.47|||||TWO_SIDED|95.0|60.51|109.68||||||Serotype 22F (non-Prevnar serotype)||109.68|60.51|
92239525|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.56|1.47||||||Serotype 23F||1.47|0.56|
92239526|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|22.23|||||TWO_SIDED|95.0|11.77|41.97||||||Serotype 33F (non-Prevnar serotype)||41.97|11.77|
92239527|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.68|1.23||||||Serotype 1||1.23|0.68|
92239528|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|2.11|||||TWO_SIDED|95.0|1.6|2.8||||||Serotype 3||2.80|1.60|
92239529|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.15|||||TWO_SIDED|95.0|0.82|1.62||||||Serotype 4||1.62|0.82|
92239530|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.53|1.31||||||Serotype 5||1.31|0.53|
92239531|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.54|||||TWO_SIDED|95.0|0.31|0.92||||||Serotype 6A||0.92|0.31|
92239532|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.42|1.5||||||Serotype 6B||1.50|0.42|
92280364|NCT04543136|184463459|SUPERIORITY||Mean Difference (Final Values)|-13.8||||0.587|TWO_SIDED|95.0|-64.2|36.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||36.6|-64.2|0.587
92280365|NCT04543136|184463460|SUPERIORITY||Mean Difference (Final Values)|54.9||||0.03|TWO_SIDED|95.0|5.3|104.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||104.4|5.3|0.030
92280366|NCT04543136|184463460|SUPERIORITY||Mean Difference (Final Values)|61.8||||0.015|TWO_SIDED|95.0|12.5|111.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||111.2|12.5|0.015
92239533|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.71|1.31||||||Serotype 7F||1.31|0.71|
92446152|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.144||0.0406|TWO_SIDED|95.0|-0.58|-0.01|||MMRM|||Insomnia-Middle, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.58|0.0406
92446153|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.132||0.0295|TWO_SIDED|95.0|-0.56|-0.03|||MMRM|||Insomnia-Middle, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.56|0.0295
92446154|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.135||0.0925|TWO_SIDED|95.0|-0.5|0.04|||MMRM|||Insomnia-Middle, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.50|0.0925
92446155|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.152||0.1631|TWO_SIDED|95.0|-0.52|0.09|||MMRM|||Insomnia-Middle, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.52|0.1631
92446156|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.185||0.2213|TWO_SIDED|95.0|-0.6|0.14|||MMRM|||Insomnia-Middle, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.60|0.2213
92446157|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.189||0.9175|TWO_SIDED|95.0|-0.36|0.39|||MMRM|||Insomnia-Middle, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.36|0.9175
92446158|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.165||0.6763|TWO_SIDED|95.0|-0.4|0.26|||MMRM|||Insomnia-Middle, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.40|0.6763
92446159|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.121||0.3805|TWO_SIDED|95.0|-0.13|0.35|||MMRM|||Insomnia-Late, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.13|0.3805
92446160|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.127||0.6073|TWO_SIDED|95.0|-0.19|0.32|||MMRM|||Insomnia-Late, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.19|0.6073
92239534|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.64|1.49||||||Serotype 9V||1.49|0.64|
92239535|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.63|1.37||||||Serotype 14||1.37|0.63|
92239536|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.55|1.16||||||Serotype 18C||1.16|0.55|
92239537|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.63|1.22||||||Serotype 19A||1.22|0.63|
92239538|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.81|1.44||||||Serotype 19F||1.44|0.81|
92239539|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|89.87|||||TWO_SIDED|95.0|67.02|120.51||||||Serotype 22F (non-Prevnar serotype)||120.51|67.02|
92239540|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.61|1.57||||||Serotype 23F||1.57|0.61|
92239541|NCT02531373|184382977|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|18.38|||||TWO_SIDED|95.0|9.82|34.41||||||Serotype 33F (non-Prevnar serotype)||34.41|9.82|
92240137|NCT00570739|184383825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.17||||0.5369|TWO_SIDED|95.0|-21.661|11.321||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||11.321|-21.661|0.5369
92446161|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.119||0.7848|TWO_SIDED|95.0|-0.27|0.2|||MMRM|||Insomnia-Late, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.27|0.7848
92446162|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.121||0.9038|TWO_SIDED|95.0|-0.25|0.23|||MMRM|||Insomnia-Late, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.25|0.9038
92446163|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.134|STANDARD_ERROR_OF_MEAN|0.134||0.6869|TWO_SIDED|95.0|-0.32|0.21|||MMRM|||Insomnia-Late, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.32|0.6869
92446164|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.139||0.9272|TWO_SIDED|95.0|-0.26|0.29|||MMRM|||Insomnia-Late, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.26|0.9272
92446165|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.131||0.6931|TWO_SIDED|95.0|-0.31|0.21|||MMRM|||Insomnia-Late, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.31|0.6931
92446166|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.132||0.8262|TWO_SIDED|95.0|-0.29|0.23|||MMRM|||Insomnia-Late, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.29|0.8262
92446167|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.141||0.0749|TWO_SIDED|95.0|-0.54|0.03|||MMRM|||Insomnia-Late, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.54|0.0749
92446168|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.135||0.1923|TWO_SIDED|95.0|-0.45|0.09|||MMRM|||Insomnia-Late, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.45|0.1923
92446169|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.176||0.0326|TWO_SIDED|95.0|-0.73|-0.03|||MMRM|||Insomnia-Late, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.73|0.0326
92446170|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.171||0.444|TWO_SIDED|95.0|-0.47|0.21|||MMRM|||Insomnia-Late, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.47|0.4440
92171684|NCT01227265|184232510|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.1||||0.683|TWO_SIDED|95.0|-0.44|0.67|||cLDA|||||0.67|-0.44|0.683
92171685|NCT01227265|184232514|SUPERIORITY_OR_OTHER||Difference in Estimated Means|-0.2||||0.6968|TWO_SIDED|95.0|-0.92|0.61|||cLDA|||||0.61|-0.92|0.6968
92171686|NCT01227265|184232514|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.2||||0.6142|TWO_SIDED|95.0|-0.57|0.97|||cLDA|||||0.97|-0.57|0.6142
92280367|NCT04543136|184463460|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.78|TWO_SIDED|95.0|-56.5|42.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||42.5|-56.5|0.780
92171687|NCT02910713|184232515|SUPERIORITY||Least Squares Mean Difference|-13.36|STANDARD_ERROR_OF_MEAN|1.999|<|0.0001|TWO_SIDED|95.0|-17.31|-9.4||One-sided p-value for the difference between Intranasal and Extranasal.|ANOVA|||||-9.40|-17.31|<0.0001
92446171|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.134||0.7057|TWO_SIDED|95.0|-0.32|0.22|||MMRM|||Insomnia-Late, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.32|0.7057
92446172|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.137||0.2865|TWO_SIDED|95.0|-0.42|0.13|||MMRM|||Work and Activities, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.42|0.2865
92446173|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.9475|TWO_SIDED|95.0|-0.33|0.35|||MMRM|||Work and Activities, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.33|0.9475
92446174|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.185||0.188|TWO_SIDED|95.0|-0.61|0.12|||MMRM|||Work and Activities, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.61|0.1880
92446175|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.203||0.595|TWO_SIDED|95.0|-0.51|0.29|||MMRM|||Work and Activities, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.51|0.5950
92446176|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.2||0.9636|TWO_SIDED|95.0|-0.39|0.41|||MMRM|||Work and Activities, Hour 24 : MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.41|-0.39|0.9636
92446177|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.196||0.5836|TWO_SIDED|95.0|-0.5|0.28|||MMRM|||Work and Activities, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.50|0.5836
92446178|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.184||0.1568|TWO_SIDED|95.0|-0.63|0.1|||MMRM|||Work and Activities, Hour 48 : MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.63|0.1568
92446179|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.177||0.0155|TWO_SIDED|5.0|-0.79|-0.09|||Wilcoxon (Mann-Whitney)|||Work and Activities, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.79|0.0155
92446180|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.192||0.0504|TWO_SIDED|95.0|-0.76|0.0|||MMRM|||Work and Activities, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.76|0.0504
92446181|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.212||0.1865|TWO_SIDED|95.0|-0.7|0.14|||MMRM|||Work and Activities, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.70|0.1865
92171688|NCT02910713|184232516|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.101|<|0.0001|TWO_SIDED|95.0|-0.8|-0.4||One-sided p-value for the difference between Intranasal and Extranasal.|ANOVA|||||-0.40|-0.80|<0.0001
92171689|NCT03611153|184232543|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||0.040
92171690|NCT03611153|184232545|SUPERIORITY|||||||0.777|||||||t-test, 2 sided|||||||0.777
92239542|NCT01623531|184382985|SUPERIORITY||Mann-Whitney U test|386.0|STANDARD_ERROR_OF_MEAN|47.5||0.908|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The distributions of cumulative transfusion units did not differ significantly between patients receiving either RiaSTAP (median = 0, IQR = 0-1) or Placebo (median = 0, IQR = 0.1), U = 386, SE = 47.60, p = .908.|Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that the data were not normally distributed, and primary outcomes were zero inflated. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in primary and secondary outcomes between groups 24 hours after infusion of the study drug.||||.908
92280368|NCT04543136|184463461|SUPERIORITY||Mean Difference (Final Values)|-13.3||||0.281|TWO_SIDED|95.0|-37.9|11.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||11.2|-37.9|0.281
92446182|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.22||0.0518|TWO_SIDED|95.0|-0.87|0.0|||MMRM|||Work and Activities, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.87|0.0518
92446183|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.239||0.833|TWO_SIDED|95.0|-0.42|0.53|||MMRM|||Work and Activities, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.53|-0.42|0.8330
92446184|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.191||0.844|TWO_SIDED|95.0|-0.34|0.42|||MMRM|||Work and Activities, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.34|0.8440
92446185|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.121||0.4602|TWO_SIDED|95.0|-0.15|0.33|||MMRM|||Retardation, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.15|0.4602
92446186|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.117||0.0891|TWO_SIDED|95.0|-0.03|0.43|||MMRM|||Retardation, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.03|0.0891
92446187|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.117||0.3088|TWO_SIDED|95.0|-0.11|0.35|||MMRM|||Retardation, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.11|0.3088
92446188|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.112||0.856|TWO_SIDED|95.0|-0.24|0.2|||MMRM|||Retardation, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.24|0.8560
92446189|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.125||0.9702|TWO_SIDED|95.0|-0.24|0.25|||MMRM|||Retardation, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.24|0.9702
92171691|NCT03611153|184232546|SUPERIORITY|||||||0.805|||||||t-test, 2 sided|||Right atrial pressure||||0.805
92446190|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.114||0.8001|TWO_SIDED|95.0|-0.25|0.2|||MMRM|||Retardation, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.25|0.8001
92171692|NCT03611153|184232546|SUPERIORITY|||||||0.148|||||||t-test, 2 sided|||pulmonary artery systolic pressure||||0.148
92171693|NCT03611153|184232546|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Mean pulmonary artery pressure||||0.090
92171694|NCT03611153|184232547|SUPERIORITY|||||||0.786|||||||t-test, 2 sided|||Right atrial pressure||||0.786
92171695|NCT03611153|184232547|SUPERIORITY|||||||0.796|||||||t-test, 2 sided|||Pulmonary artery systolic pressure||||0.796
92171696|NCT03611153|184232547|SUPERIORITY|||||||0.703|||||||t-test, 2 sided|||Mean pulmonary artery pressure||||0.703
92171697|NCT03611153|184232548|SUPERIORITY|||||||0.418|||||||t-test, 2 sided|||||||0.418
92446191|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.109||0.3223|TWO_SIDED|95.0|-0.11|0.32|||MMRM|||Retardation, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.32|-0.11|0.3223
92446192|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.089||0.3385|TWO_SIDED|95.0|-0.26|0.09|||MMRM|||Retardation, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.09|-0.26|0.3385
92446193|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.1||0.7003|TWO_SIDED|95.0|-0.16|0.24|||MMRM|||Retardation, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.24|-0.16|0.7003
92446194|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.099||0.0311|TWO_SIDED|95.0|-0.41|-0.02|||MMRM|||Retardation, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||-0.02|-0.41|0.0311
92446195|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.079||0.1976|TWO_SIDED|95.0|-0.26|0.06|||MMRM|||Retardation, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.06|-0.26|0.1976
92446196|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.092||0.5489|TWO_SIDED|95.0|-0.24|0.13|||MMRM|||Retardation, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.13|-0.24|0.5489
92446197|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.075||0.7992|TWO_SIDED|95.0|-0.17|0.13|||MMRM|||Retardation, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.13|-0.17|0.7992
92446198|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.103||0.0573|TWO_SIDED|95.0|-0.4|0.01|||MMRM|||Agitation, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.40|0.0573
92446199|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.0431|TWO_SIDED|95.0|-0.44|-0.01|||MMRM|||Agitation, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.44|0.0431
92446200|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.108||0.006|TWO_SIDED|95.0|-0.52|-0.09|||MMRM|||Agitation, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.52|0.0060
92446201|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.127||0.0215|TWO_SIDED|95.0|-0.55|-0.04|||MMRM|||Agitation, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-0.55|0.0215
92446202|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.109||0.0422|TWO_SIDED|95.0|-0.44|-0.01|||MMRM|||Agitation, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.44|0.0422
92171698|NCT03611153|184232549|SUPERIORITY|||||||0.669|||||||t-test, 2 sided|||||||0.669
92446203|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.126||0.0433|TWO_SIDED|95.0|-0.51|-0.01|||MMRM|||Agitation, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.51|0.0433
92239543|NCT01623531|184382986|SUPERIORITY||Mean Difference (Net)|-0.498|STANDARD_ERROR_OF_MEAN|0.239||0.047|TWO_SIDED||||||t-test, 2 sided|Unequal variances assumed.|Unequal variances T-test comparing placebo to RiaSTAP.|We tested the null hypothesis of no difference in primary and secondary outcomes between groups 24 hours after infusion of the study drug. Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals. For normally distributed data unequal variance t tests were used.||||.047
92239544|NCT01623531|184382987|SUPERIORITY||Mean Difference (Net)|-0.004|STANDARD_ERROR_OF_MEAN|0.0116||0.729|TWO_SIDED||||||t-test, 2 sided|Unequal variances assumed.|Unequal variances T-test comparing placebo to RiaSTAP.|We tested the null hypothesis of no difference in primary and secondary outcomes between groups 24 hours after infusion of the study drug. Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals. For normally distributed data unequal variance t tests were used.||||.729
92446204|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.118||0.0051|TWO_SIDED|95.0|-0.57|-0.1|||MMRM|||Agitation, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.10|-0.57|0.0051
92239545|NCT01623531|184382988|SUPERIORITY||Mean Difference (Net)|-0.321|STANDARD_ERROR_OF_MEAN|3.699||0.93|TWO_SIDED||||||t-test, 2 sided|Unequal variances assumed.|Unequal variances T-test comparing placebo to RiaSTAP.|We tested the null hypothesis of no difference in primary and secondary outcomes between groups 24 hours after infusion of the study drug. Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals. For normally distributed data unequal variance t tests were used.||||.93
92446205|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.133||0.0973|TWO_SIDED|95.0|-0.48|0.04|||MMRM|||Agitation, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.48|0.0973
92446206|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.126||0.0036|TWO_SIDED|95.0|-0.63|-0.13|||MMRM|||Agitation, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.13|-0.63|0.0036
92446207|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.131||0.0498|TWO_SIDED|95.0|-0.52|0.0|||MMRM|||Agitation, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.52|0.0498
92446208|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.147||0.5111|TWO_SIDED|95.0|-0.39|0.2|||MMRM|||Agitation, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.39|0.5111
92446209|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.155||0.5839|TWO_SIDED|95.0|-0.39|0.22|||MMRM|||Agitation, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.39|0.5839
92446210|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.1||0.1905|TWO_SIDED|95.0|-0.33|0.07|||MMRM|||Agitation, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.33|0.1905
92171699|NCT05338086|184232560|EQUIVALENCE|The estimated mean difference in %CfB lumbar spine BMD at Month 12 was presented with 95% CI and equivalence was concluded if this fell within the predefined equivalence margin of \[-1.45%, 1.45%\].|Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.51|0.91||Mixed-model for repeated measures (MMRM)|Mixed Models Analysis|MMRM included treatment, with stratification variables as classification factors and baseline BMD as a continuous covariate.||||0.91|-0.51|
92239546|NCT01623531|184382989|SUPERIORITY||Mean Difference (Net)|-11.821|STANDARD_ERROR_OF_MEAN|8.471||0.169|TWO_SIDED||||||t-test, 2 sided|Unequal variances assumed.|Unequal variances T-test comparing placebo to RiaSTAP.|||||.169
92240138|NCT00570739|184383826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.151||||0.7447|TWO_SIDED|95.0|-1.068|0.765||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||0.765|-1.068|0.7447
92239547|NCT01623531|184382990|SUPERIORITY||Mann-Whitney U test|450.5|STANDARD_ERROR_OF_MEAN|54.163||0.035|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.035
92239548|NCT01623531|184382991|SUPERIORITY||Mann-Whitney U test|337.5|STANDARD_ERROR_OF_MEAN|51.591||0.794|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.794
92239549|NCT01623531|184382992|SUPERIORITY||Mann-Whitney U test|335.5|STANDARD_ERROR_OF_MEAN|52.957||0.828|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.828
92446211|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.162||0.1767|TWO_SIDED|95.0|-0.54|0.1|||MMRM|||Anxiety Psychic, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.54|0.1767
92446212|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.18||0.5182|TWO_SIDED|95.0|-0.47|0.24|||MMRM|||Anxiety Psychic, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.47|0.5182
92446213|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.185||0.393|TWO_SIDED|95.0|-0.53|0.21|||MMRM|||Anxiety Psychic, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.53|0.3930
92446214|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.189||0.5212|TWO_SIDED|95.0|-0.5|0.25|||MMRM|||Anxiety Psychic, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.50|0.5212
92446215|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.184||0.4741|TWO_SIDED|95.0|-0.5|0.23|||MMRM|||Anxiety Psychic, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.50|0.4741
92446216|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.186||0.4482|TWO_SIDED|95.0|-0.51|0.23|||MMRM|||Anxiety Psychic, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.51|0.4482
92446217|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.187||0.0963|TWO_SIDED|95.0|-0.69|0.06|||MMRM|||Anxiety Psychic, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.69|0.0963
92446218|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.171||0.003|TWO_SIDED|95.0|-0.86|-0.18|||MMRM|||Anxiety Psychic, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.18|-0.86|0.0030
92446219|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.177||0.1116|TWO_SIDED|95.0|-0.63|0.07|||MMRM|||Anxiety Psychic, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.63|0.1116
92239550|NCT01623531|184382993|SUPERIORITY||Mann-Whitney U test|396.0|STANDARD_ERROR_OF_MEAN|60.944||0.941|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.941
92239551|NCT01623531|184382994|SUPERIORITY||Mann-Whitney U test|494.5|STANDARD_ERROR_OF_MEAN|60.783||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.09
92239552|NCT01623531|184382995|SUPERIORITY||Mann-Whitney U test|418.5|STANDARD_ERROR_OF_MEAN|60.93||0.658|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.658
92280369|NCT04543136|184463461|SUPERIORITY||Mean Difference (Final Values)|6.6||||0.597|TWO_SIDED|95.0|-18.3|31.7||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||31.7|-18.3|0.597
92446220|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.173||0.004|TWO_SIDED|95.0|-0.86|-0.17|||MMRM|||Anxiety Psychic, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.17|-0.86|0.0040
92446221|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.244||0.8253|TWO_SIDED|95.0|-0.54|0.43|||MMRM|||Anxiety Psychic, Day 14 : MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.54|0.8253
92446222|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.209||0.5795|TWO_SIDED|95.0|-0.3|0.53|||MMRM|||Anxiety Psychic, Day 21 : MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.53|-0.30|0.5795
92171700|NCT05338086|184232561|EQUIVALENCE|The estimated mean difference in %CfB lumbar spine BMD at Month 12 was presented with 95% CI and equivalence was concluded if this fell within the predefined equivalence margin of \[-1.45%, 1.45%\].|Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.69|0.74|||ANCOVA|ANCOVA included terms for treatment, with stratification variables as classification factors and baseline BMD included as a continuous covariate.|The estimated mean difference in %CfB lumbar spine BMD results was pooled using Rubin's methods and presented with 95% CI.|||0.74|-0.69|
92446223|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.182||0.4032|TWO_SIDED|95.0|-0.21|0.51|||MMRM|||Anxiety Psychic, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.51|-0.21|0.4032
92446224|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.133||0.6117|TWO_SIDED|95.0|-0.33|0.2|||MMRM|||Anxiety Somatic, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.33|0.6117
92239553|NCT01623531|184382996|SUPERIORITY||Mann-Whitney U test|472.5|STANDARD_ERROR_OF_MEAN|60.727||0.182|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.182
92280370|NCT04543136|184463461|SUPERIORITY||Mean Difference (Final Values)|-20.0||||0.116|TWO_SIDED|95.0|-45.1|5.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||5.0|-45.1|0.116
92171701|NCT05338086|184232564|EQUIVALENCE|Equivalence criteria (analysis set mFAS): 95% CI for ratio of geometric LS mean ratios contained in acceptance limits (80.00%, 125.00%).|Ratio of Geometric means|99.91|||||TWO_SIDED|95.0|91.99|108.52|||ANCOVA|ANCOVA model including log-transformed baseline sCTX as a continuous covariate with treatment and stratification variables as fixed effects.||||108.52|91.99|
92171702|NCT05338086|184232565|EQUIVALENCE|Biosimilarity with respect to PD was concluded if the 95% CI for the test (MB09) to reference (EU-Prolia) ratios of the geometric LS means was contained within the \[80.00%, 125.00%\] interval.|Ratio of Geometric means|99.13|||||TWO_SIDED|95.0|96.31|102.02|||ANCOVA|||||102.02|96.31|
92171703|NCT05338086|184232566|EQUIVALENCE|Equivalence criteria (on Pharmacokinetic Parameter Analysis Set): the 95% CIs around the geometric LS mean contained in the acceptance limits (80.00%, 125.00%)|LS Geometric Mean Ratio|104.13|||||TWO_SIDED|95.0|98.83|109.71|||ANCOVA|Cmax was analysed on the log scale by ANCOVA. The model included treatment and stratification variables as fixed effects.||||109.71|98.83|
92240139|NCT00570739|184383826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029||||0.9476|TWO_SIDED|95.0|-0.853|0.911||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||0.911|-0.853|0.9476
92446225|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.13||0.4716|TWO_SIDED|95.0|-0.35|0.16|||MMRM|||Anxiety Somatic, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.35|0.4716
92446226|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.136||0.6041|TWO_SIDED|95.0|-0.34|0.2|||MMRM|||Anxiety Somatic, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.34|0.6041
92446227|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.132||0.0424|TWO_SIDED|95.0|-0.53|-0.01|||MMRM|||Anxiety Somatic, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.53|0.0424
92446228|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.138||0.7622|TWO_SIDED|95.0|-0.32|0.23|||MMRM|||Anxiety Somatic, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.32|0.7622
92446229|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.2689|TWO_SIDED|95.0|-0.4|0.11|||MMRM|||Anxiety Somatic, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.40|0.2689
92446230|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.134||0.211|TWO_SIDED|95.0|-0.44|0.1|||MMRM|||Anxiety Somatic, Hour 48 : MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.44|0.2110
92446231|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.135||0.5873|TWO_SIDED|95.0|-0.34|0.2|||MMRM|||Anxiety Somatic, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.34|0.5873
92446232|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.114||0.045|TWO_SIDED|95.0|-0.46|-0.01|||MMRM|||Anxiety Somatic, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.46|0.0450
92446233|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.152||0.0847|TWO_SIDED|95.0|-0.57|0.04|||MMRM|||Anxiety Somatic, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.57|0.0847
92446234|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.189||0.2522|TWO_SIDED|95.0|-0.16|0.6|||MMRM|||Anxiety Somatic, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.60|-0.16|0.2522
92446235|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.16||0.5026|TWO_SIDED|95.0|-0.43|0.21|||MMRM|||Anxiety Somatic, day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.43|0.5026
92446236|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.149||0.5911|TWO_SIDED|95.0|-0.38|0.22|||MMRM|||Anxiety Somatic, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.38|0.5911
92446237|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.122||0.58|TWO_SIDED|95.0|-0.18|0.31|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.18|0.5800
92446238|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.129||0.6754|TWO_SIDED|95.0|-0.31|0.2|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.31|0.6754
92171704|NCT05338086|184232567|EQUIVALENCE|Equivalence criteria (on Pharmacokinetic Parameter Analysis Set): the 95% CIs around the geometric LS mean contained in the acceptance limits (80.00%, 125.00%)|LS Geometric Mean Ratio|106.06|||||TWO_SIDED|95.0|99.84|112.66|||ANCOVA|AUC0-6 months was analysed on the log scale by ANCOVA. The model included treatment and stratification variables as fixed effects.||||112.66|99.84|
92239554|NCT01623531|184382997|SUPERIORITY||Mann-Whitney U test|428.0|STANDARD_ERROR_OF_MEAN|60.919||0.549|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.549
92239555|NCT01623531|184382998|SUPERIORITY||Mann-Whitney U test|530.5|STANDARD_ERROR_OF_MEAN|60.816||0.022|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The distribution of FIBTEM MCF (maximum clot firmness) was significantly different between RiaSTAP (median = 27 mm, IQR = 24, 30), and placebo (median = 23 mm, IQR = 22, 27) groups, U-test = 530.5, SE = 60.816, p = .022).|Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that the FIBTEM MCF data was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.022
92446239|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.116||0.1006|TWO_SIDED|95.0|-0.04|0.42|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.04|0.1006
92446240|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.12||0.3588|TWO_SIDED|95.0|-0.13|0.35|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.13|0.3588
92446241|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.109||0.5807|TWO_SIDED|95.0|-0.28|0.16|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.28|0.5807
92446242|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.112||0.4241|TWO_SIDED|95.0|-0.13|0.31|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.13|0.4241
92446243|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.115||0.7984|TWO_SIDED|95.0|-0.26|0.2|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.26|0.7984
92446244|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.122||0.8732|TWO_SIDED|95.0|-0.22|0.26|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.22|0.8732
92446245|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.107||0.8621|TWO_SIDED|95.0|-0.19|0.23|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.19|0.8621
92446246|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.126||0.1087|TWO_SIDED|95.0|-0.45|0.05|||MMRM|||Somatic Symptoms Gastrointestinal, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.45|0.1087
92446247|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.125||0.2153|TWO_SIDED|95.0|-0.41|0.09|||MMRM|||Somatic Symptoms Gastrointestinal, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.41|0.2153
92446248|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.145||0.1422|TWO_SIDED|95.0|-0.51|0.07|||MMRM|||Somatic Symptoms Gastrointestinal, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.51|0.1422
92446249|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.114||0.7211|TWO_SIDED|95.0|-0.19|0.27|||MMRM|||Somatic Symptoms Gastrointestinal, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.19|0.7211
92446250|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.103||0.8224|TWO_SIDED|95.0|-0.18|0.23|||MMRM|||Somatic Symptoms General, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.18|0.8224
92446251|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.126||0.6362|TWO_SIDED|95.0|-0.31|0.19|||MMRM|||Somatic Symptoms General, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.31|0.6362
92446252|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.123||0.6094|TWO_SIDED|95.0|-0.31|0.18|||MMRM|||Somatic Symptoms General, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.31|0.6094
92446253|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.123||0.0457|TWO_SIDED|95.0|-0.49|0.0|||MMRM|||Somatic Symptoms General, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.49|0.0457
92446254|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.5691|TWO_SIDED|95.0|-0.36|0.2|||MMRM|||Somatic Symptoms General, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.36|0.5691
92446255|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.2942|TWO_SIDED|95.0|-0.4|0.12|||MMRM|||Somatic Symptoms General, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.40|0.2942
92446256|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.136||0.5389|TWO_SIDED|95.0|-0.35|0.19|||MMRM|||Somatic Symptoms General, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.35|0.5389
92446257|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.141||0.4061|TWO_SIDED|95.0|-0.4|0.16|||MMRM|||Somatic Symptoms General, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.40|0.4061
92446258|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.153||0.099|TWO_SIDED|95.0|-0.56|0.05|||MMRM|||Somatic Symptoms General, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.56|0.0990
92446259|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.138||0.0108|TWO_SIDED|95.0|-0.63|-0.08|||MMRM|||Somatic Symptoms General, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.08|-0.63|0.0108
92446260|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.16||0.0889|TWO_SIDED|95.0|-0.59|0.04|||MMRM|||Somatic Symptoms General, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.59|0.0889
92446261|NCT02942017|184779613|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.169||0.3721|TWO_SIDED|95.0|-0.18|0.49|||MMRM|||Somatic Symptoms General, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.49|-0.18|0.3721
92182201|NCT03960645|184263232|OTHER||GLSM ratio (%)|69.67|||||TWO_SIDED|90.0|58.57|82.88||||||TAF: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||82.88|58.57|
92182202|NCT03960645|184263232|OTHER||GLSM ratio (%)|56.52|||||TWO_SIDED|90.0|46.32|68.96||||||TAF: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||68.96|46.32|
92182203|NCT03960645|184263234|OTHER||GLSM ratio (%)|51.91|||||TWO_SIDED|90.0|46.48|57.97||||||BIC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||57.97|46.48|
92171915|NCT01095796|184233520|NON_INFERIORITY_OR_EQUIVALENCE|A total of 700 HIV-1 infected participants, randomized in a 1:1 ratio to 2 groups would achieve at least 95% power to establish noninferiority in Week 48 response (HIV-1 RNA \< 50 copies/mL per the FDA-defined snapshot analysis) rate difference between the 2 groups. For sample size and power computation, it was assumed that both treatment groups have a response rate of 0.795, a noninferiority margin of 0.12, and that the significance level of the test is at a one-sided, 0.025 level.|Difference in response rates|3.6|||||TWO_SIDED|95.2|-1.6|8.8|||||To preserve the overall alpha level: 0.05, accounting for 2 interim analyses for Independent Data Monitoring Committee meetings, the 95.2% CI was computed using normal approximation stratified by baseline HIV-1 RNA (≤ 100,000 or \> 100,000 copies/mL).|The null hypothesis was that the percentage of participants achieving HIV-1 RNA \< 50 copies/mL (as defined by the snapshot analysis algorithm) at Week 48 in the Stribild group is at least 12% worse than the response rate in the Atripla group; the alternative hypothesis was that the response rate in the Stribild group is less than 12% worse than that in the Atripla Group.||8.8|-1.6|
92171916|NCT04349072|184233527|SUPERIORITY||Proportion Difference|58.93|||<|0.0001|TWO_SIDED|95.0|43.989|73.868|||Cochran-Mantel-Haenszel|||||73.868|43.989|<0.0001
92171917|NCT04349072|184233528|SUPERIORITY||Proportion Difference|41.07|||<|0.0001|TWO_SIDED|95.0|24.481|57.662|||Cochran-Mantel-Haenszel|||||57.662|24.481|<0.0001
92171918|NCT04349072|184233529|SUPERIORITY||Leat Square Mean of Treatment Difference|9.45|||<|0.0001|TWO_SIDED|95.0|4.868|14.041|||Mixed Models Analysis|Mixed model with repeated measure (MMRM)||||14.041|4.868|<0.0001
92171919|NCT04349072|184233530|SUPERIORITY||Mean Ratio|0.33|||<|0.0001|TWO_SIDED|95.0|0.266|0.421|||Mixed Models Analysis|Mixed model with repeated measure (MMRM)||||0.421|0.266|<0.0001
92240383|NCT00905307|184384216|SUPERIORITY_OR_OTHER||Treatment difference|-4.7||||0.2846|TWO_SIDED|95.0|-10.2|0.82||The Hochberg procedure using two-sided alpha of 0.05 was applied to control the type I error rate at 0.05 level (two-sided) due to multiple comparisons.|ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.82|-10.2|0.2846
92264761|NCT01441882|184430908|NON_INFERIORITY|A non-parametric two-sided Mann-Whitney test was run assuming non-Gaussian distributions. Two-tailed with 95% confidence intervals.||||||0.0106|TWO_SIDED|95.0|||||t-test, 2 sided|Threshold for statistical significance is 0.05.||Percent change from baseline in responders compared to non-responders (lymph node size).||||0.0106
92171920|NCT04349072|184233531|SUPERIORITY||Mean Ratio|0.53|||<|0.0001|TWO_SIDED|95.0|0.406|0.7|||Mixed Models Analysis|Mixed model with repeated measure (MMRM)||||0.700|0.406|<0.0001
92171921|NCT04349072|184233532|SUPERIORITY||Leat Square Mean of Treatment Difference|-37.2|||<|0.0001|TWO_SIDED|95.0|-48.08|-26.24|||ANCOVA|||||-26.24|-48.08|<0.0001
92171922|NCT00100698|184233533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.0|STANDARD_ERROR_OF_MEAN|6.0||0.049|TWO_SIDED|95.0|-38.0|-0.5|||repeated measures mixed effects ANCOVA|||||-0.5|-38|0.049
92171923|NCT05480943|184233552|OTHER|chi-square tested correlation between CRP and thiamine deficiency.||||||0.6097||||||P\<=0.05 considered significant|Chi-squared|||For the subset of 123 participants with both C-reactive protein level and plasma thiamine levels (125 had C-reactive protein results but 2 were missing plasma thiamine levels), we used Chi-Square to test for association between those who were thiamine deficient and had elevated C-reactive protein (CRP) levels. A priori hypothesis was that inflammation would cause thiamine deficiency due to increased metabolic demands.||||0.6097
92171924|NCT03069313|184233554|OTHER|Paired t-test|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92171925|NCT03069313|184233555|OTHER|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
92287023|NCT02444715|184479166|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.64
92446883|NCT04074317|184780757|EQUIVALENCE|"Bioequivalence would require 90% confidence intervals of the geometric mean ratio to be contained within the 80-125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|37.04|||<|0.0001|TWO_SIDED|90.0|31.36|43.75||Results of the statistical evaluation of ANOVA (alpha=0.05) for the hypothesis of equal treatment effects.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||43.75|31.36|<0.0001
92446884|NCT04074317|184780758|OTHER||Ratio of least-square means|435.96|||<|0.0001|TWO_SIDED|||||Results of the statistical evaluation of ANOVA (alpha = 0.05) for the hypothesis of equal treatment effects.|ANOVA||Ratio calculated as PRAM least-squares mean divided by the Regular Insulin + Pramlintide least-squares mean, expressed as a percentage.|The statistical model was an analysis of variance (ANOVA) with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||||<0.0001
92446885|NCT04074317|184780759|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|60.44||||0.0075|TWO_SIDED|90.0|45.41|80.43||Results of the statistical evaluation of ANOVA (alpha=0.05) for the hypothesis of equal treatment effects.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 90 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||80.43|45.41|0.0075
92446886|NCT04074317|184780759|EQUIVALENCE|"Bioequivalence would require 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|93.32||||0.6773|TWO_SIDED|90.0|70.14|124.16||Results of the statistical evaluation of ANOVA (alpha=0.05) for the hypothesis of equal treatment effects.|ANOVA|Based on Least-Squares geometric means for ln-transformed data.|"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 180 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||124.16|70.14|0.6773
92446887|NCT04074317|184780759|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|97.43||||0.8768|TWO_SIDED|90.0|72.94|130.14||Results of the statistical evaluation of ANOVA (alpha=0.05) for the hypothesis of equal treatment effects.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 360 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||130.14|72.94|0.8768
92446888|NCT04074317|184780760|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|53.83|||<|0.0001|TWO_SIDED|90.0|44.51|65.11||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|The statistical model was ana analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||65.11|44.51|<0.0001
92446889|NCT04074317|184780760|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|73.16||||0.0192|TWO_SIDED|90.0|61.06|87.67||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||87.67|61.06|0.0192
92446890|NCT04074317|184780760|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|135.91||||0.0244|TWO_SIDED|90.0|113.1|163.31||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as Regular Insulin geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||163.31|113.10|0.0244
92446891|NCT04074317|184780761|OTHER||Ratio of least-square means|73.53||||0.2541|TWO_SIDED|||||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05|ANOVA||Ratio calculated as PRAM least-squares mean divided by the Regular Insulin least-squares mean, expressed as a percentage.|The statistical model was an analysis of variance (ANOVA) with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||||0.2541
92446892|NCT04074317|184780761|OTHER||Ratio of least-squares means|103.89|||>|0.9999|TWO_SIDED|||||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||Ratio calculated as PRAM least-squares mean divided by the Regular Insulin + Pramlintide least-squares mean, expressed as a percentage.|The statistical model was an analysis of variance (ANOVA) with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||||>0.9999
92446893|NCT04074317|184780761|OTHER||Ratio of least-square means|141.29||||0.1747|TWO_SIDED|||||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||Ratio calculated as Regular Insulin least-squares mean divided by the Regular Insulin + Pramlintide least-squares mean, expressed as a percentage.|The statistical model was an analysis of variance (ANOVA) with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||||0.1747
92446894|NCT04074317|184780762|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|53.16|||<|0.0001|TWO_SIDED|90.0|43.59|64.83||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 90 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||64.83|43.59|<0.0001
92446895|NCT04074317|184780762|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|65.24||||0.0018|TWO_SIDED|90.0|54.02|78.8||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 90 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||78.80|54.02|0.0018
92446896|NCT04074317|184780762|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|122.73||||0.2391|TWO_SIDED|90.0|101.33|148.66||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05|ANOVA||"Ratio calculated as Regular Insulin geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 90 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||148.66|101.33|0.2391
92171926|NCT03069313|184233556|OTHER|This analysis is comparing SWB before and after treatment.||||||0.133|||||||t-test, 2 sided|||||||0.133
92171927|NCT03069313|184233556|OTHER|||||||0.056|||||||t-test, 2 sided|||This analysis is comparing EWB before and after treatment.||||0.056
92171928|NCT03069313|184233556|OTHER||||||<|0.0001|||||||t-test, 2 sided|||This analysis is comparing PWB before and after treatment.||||<0.0001
92171929|NCT03069313|184233556|OTHER|||||||0.09|||||||t-test, 2 sided|||This analysis is comparing FWB before and after treatment.||||0.09
92171930|NCT03069313|184233556|OTHER||||||<|0.0001|||||||t-test, 2 sided|||This analysis is comparing ESS before and after treatment.||||<0.0001
92171931|NCT04623775|184233572|SUPERIORITY||Risk Difference (RD)|-6.5|||||TWO_SIDED|95.0|-16.0|3.0||||||||3.0|-16.0|
92171932|NCT04623775|184233573|SUPERIORITY||Odds Ratio (OR)|1.39|||||TWO_SIDED|90.0|0.94|2.05|||Cochran-Mantel-Haenszel|||||2.05|0.94|
92171933|NCT04455035|184233619|OTHER|ttest||||||0.0088|||||||t-test, 2 sided|||||||0.0088
92171934|NCT04455035|184233620|OTHER|ttest||||||1e-05|||||||t-test, 2 sided|||||||0.00001
92171935|NCT02278562|184233745|SUPERIORITY|||||||0.37||||||0.05 is the a priori threshold for statistical significance|Wilcoxon Rank-Sum|||Prior data indicate that LDR is normally distributed with standard deviation ranging from 0.16 to 0.23 in hemodialysis and control patients, respectively. If the true difference in the experimental and control means is 0.21, we will be able to reject the null hypothesis that the population means of the experimental and control groups are equal with probability (power) 0.933. The Type I error probability associated with this test of this null hypothesis is 0.05.||||0.37
92171936|NCT02278562|184233745|SUPERIORITY|||||||0.955||||||0.05 is the a priori threshold for statistical significance|Wilcoxon Rank-Sum|||Prior data indicate that LDR is normally distributed with standard deviation ranging from 0.16 to 0.23 in hemodialysis and control patients, respectively. If the true difference in the experimental and control means is 0.21, we will be able to reject the null hypothesis that the population means of the experimental and control groups are equal with probability (power) 0.933.||||0.955
92171937|NCT05374837|184233791|SUPERIORITY||Odds Ratio (OR)|0.9585||||0.145|TWO_SIDED|95.0|0.4276|2.1485||The a priori threshold for statistical significance is \<0.05. The p-value is for the intervention by time interaction.|Regression, Logistic||Odds of consuming a minimum acceptable diet in control group at endline.|||2.1485|0.4276|0.145
92171938|NCT05374837|184233791|SUPERIORITY||Odds Ratio (OR)|0.9669||||0.145|TWO_SIDED|95.0|0.43|2.1742||The a priori threshold for statistical significance is \<0.05. The p-value is for the intervention by time interaction.|Regression, Logistic||Odds of consuming a minimum acceptable diet in intervention group at endline.|||2.1742|0.43|0.145
92171939|NCT05374837|184233792|SUPERIORITY||Odds Ratio (OR)|0.3084||||0.179|TWO_SIDED|95.0|0.1977|0.481||The a priori threshold for statistical significance is \<0.05. The p-value is for the intervention by time interaction.|Regression, Logistic|||||0.481|0.1977|0.179
92171940|NCT05374837|184233792|SUPERIORITY||Odds Ratio (OR)|0.438||||0.179|TWO_SIDED|95.0|0.2983|0.6431||The a priori threshold for statistical significance is \<0.05. The p-value is for the intervention by time interaction.|Regression, Logistic|||||0.6431|0.2983|0.179
92171941|NCT05374837|184233798|SUPERIORITY|||||||0.054||||||A priori threshold for statistical significance \<0.05.|Chi-squared|||||||0.054
92171942|NCT05374837|184233799|SUPERIORITY|||||||0.65||||||A priori threshold for statistical significance \<0.05|Chi-squared|||||||0.65
92171943|NCT05406921|184233829|SUPERIORITY||Mean Difference (Net)|0.32|||<|0.05|TWO_SIDED||||||ANOVA|||This was a feasibility study and not powered to detect significant differences pre-/post-intervention.||||<0.05
92171944|NCT04299009|184233831|OTHER|multilevel linear models with Epworth sleepiness score scores as the dependent variable; treatment block (BLT vs sBLT) as a fixed effect; treatment sequence as a covariate; and participant intercept as a random effect.|regression coefficient|2.45|||<|0.05|TWO_SIDED|95.0|-0.3|5.19|||Mixed Models Analysis|||||5.19|-0.30|<0.05
92171945|NCT05059262|184233850|SUPERIORITY||Difference in ORR|39.0|||<|0.0001|TWO_SIDED|95.0|28.4|49.6||Stratified by tumor location (lower limb/all other) and region (U.S./non-U.S.) based on Interactive Response Technology (IRT).|Cochran-Mantel-Haenszel||Stratified Mantel-Haenszel with stratification factors based on IRT|||49.6|28.4|<0.0001
92240384|NCT00905307|184384216|SUPERIORITY_OR_OTHER||Treatment difference|-1.44||||0.6066|TWO_SIDED|95.0|-6.96|4.07||The Hochberg procedure using two-sided alpha of 0.05 was applied to control the type I error rate at 0.05 level (two-sided) due to multiple comparisons.|ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||4.07|-6.96|0.6066
92264762|NCT01441882|184430908|NON_INFERIORITY|A non-parametric two-sided Mann-Whitney test was run assuming non-Gaussian distributions. Two-tailed with 95% confidence intervals.||||||0.1986|TWO_SIDED|95.0|||||t-test, 2 sided|Threshold for statistical significance is 0.05.||Percent change from baseline in responders compared to non-responders (Absolute Lymphocyte Count (ALC)).||||0.19860
92171946|NCT05059262|184233851|SUPERIORITY||Difference in ORR|67.2|||<|0.0001|TWO_SIDED|95.0|57.0|77.3||Stratified by tumor location (lower limb/all other) and region (U.S./non-U.S.) based on IRT.|Cochran-Mantel-Haenszel||Stratified Mantel-Haenszel with stratification factors based on IRT.|||77.3|57.0|<0.0001
92171947|NCT05059262|184233852|SUPERIORITY||LS Mean Difference|14.6||||0.0077|TWO_SIDED|95.0|4.0|25.3||Model included treatment+visit+treatment by visit interaction+stratification factor for region (U.S. versus non-U.S.)+joint type (knee, ankle, or other)+the most impaired ROM baseline value.|Mixed model repeated measures|||||25.3|4.0|0.0077
92171948|NCT05059262|184233853|SUPERIORITY||LS Mean Difference|3.3||||0.0007|TWO_SIDED|95.0|1.4|5.2||Model included treatment+visit+treatment by visit interaction+stratification factor for region (U.S. versus non-U.S.) and tumor location (lower limb/all other) based on IRT+PROMIS-PF baseline value.|Mixed model repeated measures|||||5.2|1.4|0.0007
92171949|NCT05059262|184233854|SUPERIORITY||LS Mean Difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.1||Model included treatment+visit+treatment by visit interaction+stratification factor for region (U.S. versus non-U.S.) and tumor location (lower limb/all other) based on IRT+Worst Stiffness NRS baseline value.|Mixed model repeated measures|||||-1.1|-2.5|<0.0001
92287024|NCT02444715|184479166|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.14
92280585|NCT00582309|184463713|NON_INFERIORITY_OR_EQUIVALENCE|Original Power Analysis: The expected differences in mean blood glucose concentration between groups are \> 30 mg/dL. Assuming two-tailed alpha of .05, a standard deviation of approximately 40, and a one-to-one allocation and no subject attrition, fifty patients per treatment group (150 total) will be sufficient to achieve 90% power for group mean comparisons allowing for multiple comparisons.|||||<|0.05|TWO_SIDED|95.0||||All results obtained by ANOVA are verified by the nonparametric Kruskal-Wallis test. Statistical significance will be judged by P-values \< 0.05.|ANOVA|||Demographic and baseline measurements are reported as either means and standard deviations or as frequency and percentages. These and the outcome measures are compared among the three groups by 1-way analysis of variance (ANOVA) for means or by Fisher's Exact test for frequencies as appropriate. If there is an overall significant difference, the post hoc multiple comparisons will be done by Fisher's least significant difference method.||||<0.05
92280586|NCT00955747|184463734|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|1.4|<|0.05|TWO_SIDED|95.0|||||ANCOVA|||All tests will be two-tailed. Unless specified otherwise, p-values less than or equal to O.050, when rounded to four decimal places,will be considered statistically significant.||||<0.05
92446897|NCT04074317|184780762|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|54.2|||<|0.0001|TWO_SIDED|90.0|47.58|61.73||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 180 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||61.73|47.58|<0.0001
92446898|NCT04074317|184780762|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|71.29||||0.0002|TWO_SIDED|90.0|62.99|80.69||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 180 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||80.69|62.99|0.0002
92446899|NCT04074317|184780762|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|131.55||||0.0026|TWO_SIDED|90.0|116.01|149.17||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as Regular Insulin geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 180 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||149.17|116.01|0.0026
92446900|NCT04074317|184780762|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|51.34|||<|0.0001|TWO_SIDED|90.0|46.74|56.39||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 360 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||56.39|46.74|<0.0001
92446901|NCT04074317|184780762|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|78.24||||0.0003|TWO_SIDED|90.0|71.39|85.76||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 360 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||85.76|71.39|0.0003
92446902|NCT04074317|184780762|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|152.41|||<|0.0001|TWO_SIDED|90.0|138.91|167.22||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as Regular Insulin geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 360 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||167.22|138.91|<0.0001
92446903|NCT01610700|184780779|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-5.93||||0.124||95.0|-13.52|1.65|||ANCOVA|||The change in the primary impairment was compared between treatment groups using analysis of covariance (ANCOVA) with baseline primary impairment score as the covariate.||1.65|-13.52|0.124
92446904|NCT01610700|184780780|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-7.1||||0.062|TWO_SIDED|95.0|-14.56|0.37|||ANCOVA|||The change in the spasticity visual analogue scale score was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||0.37|-14.56|0.062
92446905|NCT01610700|184780781|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.88||||0.731|TWO_SIDED|95.0|-12.73|8.96|||ANCOVA|||The change in the pain visual analogue scale score was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||8.96|-12.73|0.731
92446906|NCT01610700|184780782|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-3.3||||0.443|TWO_SIDED|95.0|-11.82|5.21|||ANCOVA|||The change in the muscle spasm visual analogue scale score was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||5.21|-11.82|0.443
92446907|NCT01610700|184780783|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-6.85||||0.311|TWO_SIDED|95.0|-20.31|6.6|||ANCOVA|||The change in the tremor visual analogue scale score was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||6.60|-20.31|0.311
92446908|NCT01610700|184780784|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-6.26|STANDARD_ERROR_OF_MEAN|4.36||0.154|TWO_SIDED|95.0|-14.9|2.38|||ANCOVA|||The change in bladder problems visual analogue scale score was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||2.38|-14.90|0.154
92446909|NCT01610700|184780785|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.36||||0.293|TWO_SIDED|95.0|0.77|2.43|||Fisher Exact|||The proportion of subjects with better/much better assessments was compared between groups using a Fisher's Exact Test.||2.43|0.77|0.293
92446910|NCT01610700|184780787|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.69||||0.45|TWO_SIDED|95.0|-1.11|2.5|||ANCOVA|||The change from baseline in the mean Beck's Depression Inventory score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||2.50|-1.11|0.450
92446911|NCT01610700|184780788|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.12||||0.427|TWO_SIDED|95.0|-0.43|0.18|||ANCOVA|||The change baseline in the mean Fatigue Severity Scale Questionnaire score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||0.18|-0.43|0.427
92446912|NCT01610700|184780790|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.72||||0.647|TWO_SIDED|95.0|-2.38|3.82|||ANCOVA|||The change from baseline in the mean total 28-item General Health Questionnaire score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||3.82|-2.38|0.647
92446913|NCT01610700|184780792|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.12|STANDARD_ERROR_OF_MEAN|0.83||0.889|TWO_SIDED|95.0|-1.77|1.54|||ANCOVA|||The change from baseline in the mean total bladder control test score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||1.54|-1.77|0.889
92446914|NCT01610700|184780795|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-7.1||||0.047|TWO_SIDED|95.0|-14.11|-0.08|||ANCOVA|||The from baseline in the mean sleep quality 100 mm visual analogue scale score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||-0.08|-14.11|0.047
92446915|NCT01610700|184780796|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-4.53||||0.198|TWO_SIDED|95.0|-11.45|2.4|||ANCOVA|||The change from baseline in the mean sleep amount 100 mm visual analogue scale score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||2.40|-11.45|0.198
92446916|NCT01610700|184780797|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.36||||0.717|TWO_SIDED|95.0|-8.8|6.07|||ANCOVA|||The from baseline in the mean feeling upon wakening 100 mm visual analogue scale score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||6.07|-8.80|0.717
92446917|NCT01610700|184780798|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.47||||0.087|TWO_SIDED|95.0|-1.01|0.07|||ANCOVA|||The change from baseline in the mean Barthel Activities for Daily Living scale score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||0.07|-1.01|0.087
92446918|NCT01610700|184780802|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|1.81||||0.048|TWO_SIDED|95.0|0.02|3.6|||ANCOVA|||The change from baseline in the mean Guy's Neurological Disability Scale score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||3.60|0.02|0.048
92446919|NCT01610700|184780803|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.11||||0.904|TWO_SIDED|95.0|-1.85|1.64|||ANCOVA|||The change from baseline in the mean Atkinson Morley Information Processing Battery test score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||1.64|-1.85|0.904
92446920|NCT01706952|184780804|SUPERIORITY_OR_OTHER|For surgical field grade, we calculated the mean within sides and assessed its difference, reporting a 95% confidence interval as calculated by a Student t test. We used the average per patient over time.||||||0.05|||||||t-test, 2 sided|||Data analysis was performed using SPSS version 13 for Windows (SPSS Inc, Chicago, IL). A power study was per formed with a power of 80% and a clinically significant difference in bleeding between the sides of 20% with a significance level of 5% (p \< 0.05).|"For the primary objective of surgical field grade, we calculated the mean within sides treated with cocaine vs adrenaline and assessed its difference, reporting a 95% con- fidence interval as calculated by a Student t test. As all of these values were measured over time, we used the average per patient over time. The total blood loss per side within subjects was also calculated, with 95% confidence interval again calculated by a Student t test. Once again, we took the average per patient over time as the main outcome.~Finally, we used a linear regression with surgical field improvement as the outcome and HR, MAP, or etCO2 as covariates, to investigate which variables may be related to the outcome. As these measures were taken over time, we used repeated measures analysis to investigate how these items correlate over time.~In addition to the operating surgeon, the statistician was blinded to the vasoconstrictor allocation."|||0.05
92446921|NCT02896127|184780813|SUPERIORITY||Odds Ratio (OR)|2.47|||<|0.0001|TWO_SIDED|95.0|1.65|3.69|||Regression, Logistic||||"PTFU=post-treatment follow-up (12 weeks after last study treatment)~95% confidence intervals are from a score method with continuity correction."|3.69|1.65|<.0001
92446922|NCT00958776|184780829|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.973|TWO_SIDED|95.0|0.69|1.55|||Wilcoxon-Gehan statistic|Analysis stratified by duration of illness at randomization, ICU status and use of supplemental oxygen at Baseline, influenza season and type.|The hazard ratio was calculated using a Cox regression model with factors of duration of illness at randomization, ICU status at Baseline, use of supplemental oxygen at Baseline, influenza season, and influenza type.|||1.55|0.69|0.973
92446923|NCT00958776|184780831|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.558|TWO_SIDED|95.0|0.75|1.72|||Wilcoxon-Gehan statistic|Analysis stratified by duration of illness at randomization, ICU status and use of supplemental oxygen at Baseline, influenza season and type.|The hazard ratio was calculated using a Cox regression model with factors of duration of illness at randomization, ICU status at Baseline, use of supplemental oxygen at Baseline, influenza season, and influenza type.|||1.72|0.75|0.558
92446924|NCT00958776|184780832|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.633|TWO_SIDED|95.0|0.59|1.31|||Wilcoxon-Gehan statistic|Analysis stratified by duration of illness at randomization, ICU status and use of supplemental oxygen at Baseline, influenza season and type.|The hazard ratio was calculated using a Cox regression model with factors of duration of illness at randomization, ICU status at Baseline, use of supplemental oxygen at Baseline, influenza season, and influenza type.|||1.31|0.59|0.633
92446925|NCT00958776|184780833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.46||||0.747|TWO_SIDED|95.0|0.92|2.32|||Wilcoxon-Gehan statistic|Analysis stratified by duration of illness at randomization, ICU status and use of supplemental oxygen at Baseline, influenza season and type.|The hazard ratio was calculated using a Cox regression model with factors of duration of illness at randomization, ICU status at Baseline, use of supplemental oxygen at Baseline, influenza season, and influenza type.|||2.32|0.92|0.747
92446926|NCT00958776|184780835|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.303|TWO_SIDED|95.0|0.41|2.98|||Wilcoxon-Gehan statistic|Analysis stratified by duration of illness at randomization, ICU status and use of supplemental oxygen at Baseline, influenza season and type.|The hazard ratio is calculated using a Cox regression model with factors of duration of illness at randomization, ICU status at baseline, use of supplemental oxygen at baseline, influenza season, and influenza type.|||2.98|0.41|0.303
92446927|NCT00958776|184780837|SUPERIORITY_OR_OTHER|||||||0.768|TWO_SIDED||||||Cochran-Mantel-Haenszel|Analysis stratified by symptom onset prior to randomization, Baseline ICU status, need for supplemental oxygen at Baseline, influenza season and type.||||||0.768
92446928|NCT00958776|184780838|SUPERIORITY_OR_OTHER|||||||0.758|TWO_SIDED||||||Cochran-Mantel-Haenszel|Analysis stratified by symptom onset prior to randomization, Baseline ICU status, need for supplemental oxygen at Baseline, influenza season and type.||||||0.758
92446929|NCT04027218|184780865|SUPERIORITY||Odds Ratio (OR)|2.57||||0.001|TWO_SIDED|95.0|2.34|2.79|||McNemar|||||2.79|2.34|0.001
92446930|NCT04027218|184780865|SUPERIORITY||Odds Ratio (OR)|1.92||||0.002|TWO_SIDED|95.0|1.7|2.13|||McNemar|||||2.13|1.70|0.002
92446931|NCT04027218|184780865|SUPERIORITY||Odds Ratio (OR)|1.9||||0.004|TWO_SIDED|95.0|1.87|1.92|||McNemar|||||1.92|1.87|0.004
92446932|NCT04027218|184780866|SUPERIORITY||Median Difference (Net)|-4.179||||0|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.000
92446933|NCT04027218|184780866|SUPERIORITY||Median Difference (Net)|-3.619||||0|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.000
92446934|NCT04027218|184780866|SUPERIORITY||Median Difference (Net)|-4.099||||0|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.000
92446935|NCT04027218|184780867|SUPERIORITY||Median Difference (Net)|-1.073||||0.863|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the number of negative changes, which implies participants with decrease in VAS score.|||||0.863
92446936|NCT04027218|184780867|SUPERIORITY||Median Difference (Net)|-1.267||||0.205|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the number of negative changes, which implies participants with decrease in VAS score.|||||0.205
92446937|NCT04027218|184780867|SUPERIORITY||Median Difference (Net)|-0.858||||0.391|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the number of negative changes, which implies participants with decrease in VAS score.|||||0.391
92446938|NCT04027218|184780869|SUPERIORITY||Median Difference (Net)|-0.672||||0.502|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the absorbance comparing hemolysis in blood samples performed by clinical practice against to the corresponding intervention.|||||0.502
92446939|NCT04027218|184780869|SUPERIORITY||Median Difference (Net)|-0.327||||0.744|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the absorbance comparing hemolysis in blood samples performed by clinical practice against to the corresponding intervention.|||||0.744
92446940|NCT04027218|184780869|SUPERIORITY||Median Difference (Net)|-1.885||||0.059|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the absorbance comparing hemolysis in blood samples performed by clinical practice against to the corresponding intervention.|||||0.059
92240385|NCT00905307|184384216|SUPERIORITY_OR_OTHER||Treatment difference|-3.86||||0.3293|TWO_SIDED|95.0|-9.32|1.59||The Hochberg procedure using two-sided alpha of 0.05 was applied to control the type I error rate at 0.05 level (two-sided) due to multiple comparisons.|ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||1.59|-9.32|0.3293
92240386|NCT00905307|184384216|SUPERIORITY_OR_OTHER||Treatment difference|4.62||||0.2263|TWO_SIDED|95.0|-2.89|12.12|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||12.12|-2.89|0.2263
92240387|NCT00905307|184384216|SUPERIORITY_OR_OTHER||Treatment difference|-3.64||||0.3074|TWO_SIDED|95.0|-10.7|3.38|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||||3.38|-10.7|0.3074
92240388|NCT00905307|184384217|SUPERIORITY_OR_OTHER||Treatment difference|1.61||||0.1807|TWO_SIDED|95.0|-0.75|3.97|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS positive subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||3.97|-0.75|0.1807
92240389|NCT00905307|184384217|SUPERIORITY_OR_OTHER||Treatment difference|-1.41||||0.1313|TWO_SIDED|95.0|-3.24|0.42|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS positive subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.42|-3.24|0.1313
92240390|NCT00905307|184384217|SUPERIORITY_OR_OTHER||Treatment difference|-0.13||||0.8879|TWO_SIDED|95.0|-1.96|1.69|||ANCOVA|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS positive subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||1.69|-1.96|0.8879
92240391|NCT00905307|184384217|SUPERIORITY_OR_OTHER||Treatment difference|-1.24||||0.1764|TWO_SIDED|95.0|-3.05|0.56|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS positive subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.56|-3.05|0.1764
92240392|NCT00905307|184384217|SUPERIORITY_OR_OTHER||Treatment difference|-1.79||||0.1111|TWO_SIDED|95.0|-4.0|0.42|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS positive subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.42|-4.00|0.1111
92171950|NCT05059262|184233855|SUPERIORITY||LS Mean Difference|7.4||||0.0155|TWO_SIDED|95.0|1.4|13.4||Model included treatment+visit+treatment by visit interaction+stratification factor for region (U.S. versus non-U.S.) and tumor location (lower limb/all other) based on IRT+VAS baseline value.|Mixed model repeated measures|||||13.4|1.4|0.0155
92240393|NCT00905307|184384218|SUPERIORITY_OR_OTHER||Treatment difference|1.0||||0.2896|TWO_SIDED|95.0|-0.86|2.86|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS negative subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||2.86|-0.86|0.2896
92240394|NCT00905307|184384218|SUPERIORITY_OR_OTHER||Treatment difference|-0.61||||0.3701|TWO_SIDED|95.0|-1.94|0.72|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS negative subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.72|-1.94|0.3701
92240395|NCT00905307|184384218|SUPERIORITY_OR_OTHER||Treatment difference|-0.35||||0.6074|TWO_SIDED|95.0|-1.69|0.99|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS negative subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.99|-1.69|0.6074
92240396|NCT00905307|184384218|SUPERIORITY_OR_OTHER||Treatment difference|-0.73||||0.2777|TWO_SIDED|95.0|-2.05|0.59|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS negative subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||0.59|-2.05|0.2777
92171951|NCT05059262|184233856|SUPERIORITY||Difference in responder rate|26.2||||0.0056|TWO_SIDED|95.0|9.5|42.8||Stratified by tumor location (lower limb/all other) and region (U.S./non-U.S.) based on IRT.|Cochran-Mantel-Haenszel||Stratified Mantel-Haenszel with stratification factors based on IRT.|||42.8|9.5|0.0056
92171952|NCT03131648|184233879|SUPERIORITY|Primary endpoints tested sequentially at a 5% significance level.|Risk Difference (RD)|8.6||||0.002|TWO_SIDED|95.0|4.1|13.1||Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.|Cochran-Mantel-Haenszel|Primary endpoints tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.The null hypothesis of no difference in response rates between tralokinumab and placebo were tested against the 2-sided alternative that there is a difference.||13.1|4.1|0.002
92171953|NCT03131648|184233880|SUPERIORITY|Primary endpoints tested sequentially at a 5% significance level.|Risk Difference (RD)|12.1|||<|0.001|TWO_SIDED|95.0|6.5|17.7||Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.|Cochran-Mantel-Haenszel|Primary endpoints tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rates between tralokinumab and placebo were tested against the 2-sided alternative that there is a difference.||17.7|6.5|<0.001
92171954|NCT03131648|184233881|SUPERIORITY||Risk Difference (RD)|9.7||||0.002|TWO_SIDED|95.0|4.4|15.0||Based on the primary analysis of the primary estimand 'Composite', subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders.|Cochran-Mantel-Haenszel|Tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Reduction of Worst Daily Pruritus NRS weekly average ≥4 at Week 16 was tested after the sequential testing of IGA 0/1 and EASI75 if these tests showed statistical significance.||15|4.4|0.002
92171955|NCT03131648|184233882|SUPERIORITY|Multiplicity adjustment using the Holm method.|Difference of least square means|-10.4|||<|0.001|TWO_SIDED|95.0|-14.4|-6.5||Based on the primary analysis of the primary estimand 'hypothetical'. Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or after initiation of rescue medication were not included in the analysis.||-6.5|-14.4|<0.001
92171956|NCT03131648|184233883|SUPERIORITY|Multiplicity adjustment using Holm method.|Difference of least square means|-2.1||||0.002|TWO_SIDED|95.0|-3.4|-0.8||Based on the primary analysis of the primary estimand 'hypothetical'. Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included.||-0.8|-3.4|0.002
92171957|NCT03131648|184233884|SUPERIORITY||Risk Difference (RD)|6.0||||0.68|TWO_SIDED|95.0|-21.8|33.7||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.~P value was considered non-significant."|Cochran-Mantel-Haenszel|This test was not statistically significant and hence next maintenance endpoint in the sequential testing procedure was not evaluated.|Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo."||33.7|-21.8|0.68
92171958|NCT03131648|184233884|SUPERIORITY||Risk Difference (RD)|-9.5||||0.5|TWO_SIDED|95.0|-37.1|18.0||Test not evaluated for significance. Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo."||18.0|-37.1|0.50
92171959|NCT03131648|184233885|SUPERIORITY||Risk Difference (RD)|21.2||||0.056|TWO_SIDED|95.0|-0.2|42.6||Test not evaluated for significance. Based on the primary analysis of the primary estimand 'composite'. Subjects who received rescue medication or were transferred to open-label treatment are considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo."||42.6|-0.2|0.056
92171960|NCT03131648|184233885|SUPERIORITY||Risk Difference (RD)|11.7||||0.27|TWO_SIDED|95.0|-8.7|32.0||Test not evaluated for significance. Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo."||32.0|-8.7|0.27
92182204|NCT03960645|184263234|OTHER||GLSM ratio (%)|57.67|||||TWO_SIDED|90.0|52.48|63.36||||||BIC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||63.36|52.48|
92182205|NCT03960645|184263234|OTHER||GLSM ratio (%)|48.18|||||TWO_SIDED|90.0|43.03|53.94||||||BIC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||53.94|43.03|
92182206|NCT03960645|184263234|OTHER||GLSM ratio (%)|54.42|||||TWO_SIDED|90.0|48.39|61.21||||||BIC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||61.21|48.39|
92171961|NCT03131648|184233888|SUPERIORITY|"Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Risk Difference (RD)|20.1|||<|0.001|TWO_SIDED|95.0|13.3|26.8|||Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|||26.8|13.3|<0.001
92171962|NCT03131648|184233889|SUPERIORITY||Risk Difference (RD)|10.3|||<|0.001|TWO_SIDED|95.0|6.4|14.1||"Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|||14.1|6.4|<0.001
92171963|NCT03131648|184233890|SUPERIORITY||Difference of least square means|-6.4|||<|0.001|TWO_SIDED|95.0|-8.8|-4.1||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change will be imputed as 0.||-4.1|-8.8|<0.001
92171964|NCT03131648|184233891|SUPERIORITY||Risk Difference (RD)|5.7||||0.007|TWO_SIDED|95.0|2.5|8.9||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication prior to Week 16 or with missing data at Week 16 were considered nonresponders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||8.9|2.5|0.007
92171965|NCT03131648|184233892|SUPERIORITY||Risk Difference (RD)|14.1|||<|0.001|TWO_SIDED|95.0|8.6|19.6||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication prior to Week 16 or with missing data at Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference stratified by region and disease severity.|||19.6|8.6|<0.001
92171966|NCT03131648|184233893|SUPERIORITY||Difference of least square means|-0.9|||<|0.001|TWO_SIDED|95.0|-1.4|-0.4||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included. In case of no post-baseline assessments before initiation of rescue medication, the Week 1 change will be imputed as 0.||-0.4|-1.4|<0.001
92446941|NCT00494494|184780871|NON_INFERIORITY_OR_EQUIVALENCE|Our estimate of a clinically relevant increase is 25 microns. With these specifications, the sample size that is required to have 0.90 power for the comparison between two groups at the two-sided 0.05 significance level is about 10 per group.|Mean Difference (Net)|2.82|STANDARD_DEVIATION|13.8||0.7029|TWO_SIDED|95.0|-3.27|8.91|||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no correlation between the 2 groups. Standard methods were used for power calculation to determine the sample size needed to have 0.90 power for the comparison between two groups at the two-sided significance of 0.05.||8.91|-3.27|0.7029
92446942|NCT00494494|184780872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.01|STANDARD_DEVIATION|9.56||0.1937|TWO_SIDED|95.0|-2.41|6.43|||Wilcoxon (Mann-Whitney)|||||6.43|-2.41|0.1937
92446943|NCT00494494|184780873|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.7|STANDARD_DEVIATION|19.6||0.5066|TWO_SIDED|95.0|-3.12|16.52|||Wilcoxon (Mann-Whitney)|||||16.52|-3.12|0.5066
92446944|NCT00494494|184780874|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.21||0.5099|TWO_SIDED|95.0|-0.13|0.227|||Wilcoxon (Mann-Whitney)|||||0.227|-0.13|0.5099
92171967|NCT03131648|184233894|SUPERIORITY||Risk Difference (RD)|15.2|||<|0.001|TWO_SIDED|95.0|9.2|21.3||"Subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||21.3|9.2|<0.001
92171968|NCT03131648|184233895|SUPERIORITY||Risk Difference (RD)|13.0||||0.001|TWO_SIDED|95.0|5.4|20.5||"Subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||20.5|5.4|0.001
92171969|NCT02724878|184233903|SUPERIORITY||Response Rate|33.0|||||TWO_SIDED|80.0|25.0|42.0||||||A sample size of 60 would provide 95% power to distinguish the ORR rate of 25% from 10% (historical control) with 1-sided alpha of 0.07. The treatment would be considered effective if 10 or more responses are observed out of 60 patients.||42|25|
92171970|NCT04757610|184233951|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.023||0.284421|TWO_SIDED|95.0|-3.1|0.91|||MMRM|||||0.91|-3.10|0.284421
92171971|NCT04757610|184233951|SUPERIORITY||Least Squares Mean Difference|-1.88|STANDARD_ERROR_OF_MEAN|1.025||0.066678|TWO_SIDED|95.0|-3.9|0.13|||MMRM|||||0.13|-3.90|0.066678
92446945|NCT00494494|184780875|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.03|STANDARD_DEVIATION|5.64||0.5005|TWO_SIDED|95.0|-1.49|3.55|||Wilcoxon (Mann-Whitney)|||||3.55|-1.49|0.5005
92446946|NCT00433654|184780929|SUPERIORITY_OR_OTHER_LEGACY||Percentage|0.0|||<|0.001|ONE_SIDED|95.0||1.7|||exact test of binomial proportions|||Null hypothesis: rate \> 10%||1.7||<0.001
92446947|NCT00433654|184780930|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 10%.|Difference in percentages|0.0||||||95.0||||P-value and confidence interval could not be calculated because both groups were 100% successful.|Farrington-Manning|||Null hypothesis: success rate MRI group \<= success rate control group - 10%||||
92446948|NCT00433654|184780931|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 10%.|Difference in percentages|0.5|||<|0.001||95.0|||||Farrington-Manning|||Null hypothesis: success rate MRI group \<= success rate control group - 10%||||<0.001
92446949|NCT00433654|184780932|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 10%.|Difference in percentages|1.9|||<|0.001||95.0|||||Farrington-Manning|||Null hypothesis: success rate MRI group \<= success rate control group - 10%||||<0.001
92446950|NCT00433654|184780933|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 10%.|Difference in percentages|2.1|||<|0.001||95.0|||||Farrington-Manning|||Null hypothesis: success rate MRI group \<= success rate control group - 10%||||<0.001
92446951|NCT00433654|184780934|SUPERIORITY_OR_OTHER_LEGACY||Percentage|8.3|||<|0.001|ONE_SIDED|95.0||10.7|||exact test of binomial proportions|||Null hypothesis: Percentage of subjects with complication \> 20%||10.7||<0.001
92446952|NCT02915029|184780945|SUPERIORITY|The primary hypothesis being tested was that the intervention will increase patient activation.|Mean Difference (Net)|8.7||||0.01|TWO_SIDED|95.0|1.9|15.5|||ANCOVA|Primary outcome was change in PAM total score, adjusted for baseline level. Adjusting for family clustering with generalized estimated equations.|This reflects the between-group difference for the within-person change scores in PAM total score adjusting for baseline values per person.|Group 1(usual care) is the comparison group, group 2 is the intervention group.|Applied generalized estimating equations (GEE) to account for within family (household) clustering.|15.5|1.9|0.01
92446953|NCT00079274|184780983|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.15|TWO_SIDED|95.0|0.92|1.68|||Regression, Cox|HR and p-value reported from a multivariate Cox PH regression model, adjusted for number of nodes, histologic grade, and T stage.||||1.68|0.92|0.15
92446954|NCT00079274|184780984|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.25|TWO_SIDED|95.0|0.85|1.92|||Regression, Cox|HR and p-value reported from a multivariate Cox PH regression model, adjusted for number of nodes, histologic grade, and T stage.||||1.92|0.85|0.25
92171972|NCT03580369|184234012|SUPERIORITY||LS Mean|-8.002|STANDARD_ERROR_OF_MEAN|1.313|<|0.0001|TWO_SIDED|95.0|-10.576|-5.428|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults||-5.428|-10.576|<.0001
92240397|NCT00905307|184384218|SUPERIORITY_OR_OTHER||Treatment difference|-0.15||||0.8611|TWO_SIDED|95.0|-1.9|1.59|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS negative subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.59|-1.90|0.8611
92446955|NCT00079274|184780985|SUPERIORITY||||||<|0.001|||||||Chi-squared|two-sided chi-squared test||||||<0.001
92446956|NCT00079274|184780986|SUPERIORITY||||||<|0.001|||||||Chi-squared|Two-sided chi-squared test||||||<0.001
92446957|NCT01302392|184780987|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.975||||0.4172|TWO_SIDED|95.0|0.76|1.249||Based on 1-sided test.|Log Rank|Analysis was stratified by the number of previous therapies (3 vs 4 vs ≥ 5) and geographical region (Europe vs. non-Europe)||||1.249|0.760|0.4172
92446958|NCT01696032|184781067|SUPERIORITY|||||||0.0654|||||||Log Rank|||||||0.0654
92264763|NCT01441882|184430908|NON_INFERIORITY|A non-parametric two-sided Mann-Whitney test was run assuming non-Gaussian distributions. Two-tailed with 95% confidence intervals.||||||0.5167|TWO_SIDED|95.0|||||t-test, 2 sided|Threshold for statistical significance is 0.05.||Percent change from baseline in responders compared to non-responders (spleen size).||||0.5167
92446959|NCT00376168|184781079|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||one-sample t-test|one-sample t-test (combined) to test the null hypothesis that percent change = 0||"The primary efficacy analysis was based on two one-sample t-tests (one for each treatment group) to determine if the percent change in spleen volume is different than zero.~With 12 patients in each treatment group, there was greater than 95% power to detect a change of 20% or more using a one-sample t-test (alpha=0.025, 2-sided test to allow for each group to be tested separately) to evaluate the primary outcome of percent change in spleen volume after nine months."||||<0.0001
92446960|NCT00376168|184781079|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||threshold for statistical significance = 0.025|one-sample t-test|one-sample t-test (combined) to test the null hypothesis that percent change = 0||"The primary efficacy analysis was based on two one-sample t-tests (one for each treatment group) to determine if the percent change in spleen volume is different than zero.~With 12 patients in each treatment group, there was greater than 95% power to detect a change of 20% or more using a one-sample t-test (alpha=0.025, 2-sided test to allow for each group to be tested separately) to evaluate the primary outcome of percent change in spleen volume after nine months."||||<0.0001
92280587|NCT00365352|184463735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.0015||95.0|-5.6|-1.3|||ANCOVA||Mean difference was adjusted for Baseline value, treatment pooled sites, and treatment by pool site interaction.|||-1.3|-5.6|0.0015
92280588|NCT00365352|184463736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.287||||0.0001||95.0|2.338|7.861|||Regression, Logistic|A logistic regression model was used with treatment and pooled center as explanatory factors.||||7.861|2.338|0.0001
92446961|NCT00376168|184781080|SUPERIORITY_OR_OTHER|||||||0.0041||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||0.0041
92446962|NCT00376168|184781080|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||<0.0001
92446963|NCT00376168|184781081|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||0.0010
92446964|NCT00376168|184781081|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||<0.0001
92446965|NCT00376168|184781082|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||0.0460
92446966|NCT00376168|184781082|SUPERIORITY_OR_OTHER|||||||0.0031||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||0.0031
92446967|NCT02203591|184781123|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92446968|NCT02203591|184781123|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92446969|NCT02203591|184781123|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92446970|NCT02203591|184781123|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92446971|NCT02203591|184781123|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92446972|NCT02203591|184781123|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92446973|NCT02203591|184781123|OTHER|95% confidence interval generation|Mean value|81.1|||||TWO_SIDED|95.0|75.6|86.6||||||||86.6|75.6|
92446974|NCT02203591|184781123|OTHER|95% confidence interval generation|Mean value|81.7|||||TWO_SIDED|95.0|76.3|87.1||||||||87.1|76.3|
92446975|NCT02203591|184781123|OTHER|95% confidence interval generation|Mean value|83.2|||||TWO_SIDED|95.0|77.9|88.4||||||||88.4|77.9|
92446976|NCT02203591|184781123|OTHER|95% confidence interval generation|Mean value|38.9|||||TWO_SIDED|95.0|32.3|45.6||||||||45.6|32.3|
92446977|NCT02203591|184781123|OTHER|95% confidence interval generation|Mean value|46.9|||||TWO_SIDED|95.0|40.1|53.7||||||||53.7|40.1|
92446978|NCT02203591|184781123|OTHER|95% confidence interval generation|Mean value|53.0|||||TWO_SIDED|95.0|46.3|59.6||||||||59.6|46.3|
92446979|NCT02203591|184781124|NON_INFERIORITY|A non-inferior margin of 0.5 log10/cm\^2|Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.57|-0.1|||||3M CHG/IPA C - Inguinal minus ChloraPrep - Inguinal|||-0.10|-0.57|
92446980|NCT02203591|184781124|NON_INFERIORITY|A non-inferior margin of 0.5 log10/cm\^2|Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|97.5|-0.44|0.74|||||3M CHG/IPA CH - Inguinal minus ChloraPrep - Inguinal|Since there are two investigational products a Hochberg step-up procedure was used to adjust for multiplicity.||0.74|-0.44|
92446981|NCT02203591|184781125|OTHER|Calculate mean value|Mean value|2.83|STANDARD_DEVIATION|0.85|||TWO_SIDED|||||||||||||
92446982|NCT02203591|184781125|OTHER|Calculate mean value|Mean value|2.86|STANDARD_DEVIATION|0.9|||TWO_SIDED|||||||||||||
92446983|NCT02203591|184781125|OTHER|Calculate mean value|Mean value|2.83|STANDARD_DEVIATION|0.97|||TWO_SIDED|||||||||||||
92446984|NCT02203591|184781125|OTHER|Calculate mean value|Mean value|1.0|STANDARD_DEVIATION|0.97|||TWO_SIDED|||||||||||||
92446985|NCT02203591|184781125|OTHER|Calculate mean value|Mean value|3.46|STANDARD_DEVIATION|1.31|||TWO_SIDED|||||||||||||
92446986|NCT02203591|184781125|OTHER|Calculate mean value|Mean value|3.49|STANDARD_DEVIATION|1.33|||TWO_SIDED|||||||||||||
92446987|NCT02203591|184781125|OTHER|Calculate mean value|Mean value|3.69|STANDARD_DEVIATION|1.29|||TWO_SIDED|||||||||||||
92446988|NCT02203591|184781125|OTHER|Calculate mean value|Mean value|1.23|STANDARD_DEVIATION|0.73|||TWO_SIDED|||||||||||||
92446989|NCT02203591|184781126|OTHER|Calculate mean value|Mean value|2.78|STANDARD_DEVIATION|0.94|||TWO_SIDED|||||||||||||
92280589|NCT03708211|184463762|OTHER||Ratio of geometric mean|0.9359|||||TWO_SIDED|90.0|0.8084|1.0835||||||Following log-transformation, PK parameters were analyzed by analysis of variance (ANOVA) fitting terms for treatment group, sequence and period. Participants within sequence were treated as a random effect. The obtained point estimates and adjusted 90 percent (%) confidence intervals (CIs) for difference in treatment were exponentially back transformed to provide point and confidence interval estimates for the ratios of interest appropriately.||1.0835|0.8084|
92446990|NCT02203591|184781126|OTHER|Calculate mean value|Mean value|2.73|STANDARD_DEVIATION|1.0|||TWO_SIDED|||||||||||||
92446991|NCT02203591|184781126|OTHER|Calculate mean value|Mean value|2.75|STANDARD_DEVIATION|0.97|||TWO_SIDED|||||||||||||
92446992|NCT02203591|184781126|OTHER|Calculate mean value|Mean value|0.76|STANDARD_DEVIATION|0.81|||TWO_SIDED|||||||||||||
92446993|NCT02203591|184781126|OTHER|Calculate mean value|Mean value|2.84|STANDARD_DEVIATION|1.19|||TWO_SIDED|||||||||||||
92446994|NCT02203591|184781126|OTHER|Calculate mean value|Mean value|2.99|STANDARD_DEVIATION|1.12|||TWO_SIDED|||||||||||||
92446995|NCT02203591|184781126|OTHER|Calculate mean value|Mean value|3.17|STANDARD_DEVIATION|1.24|||TWO_SIDED|||||||||||||
92446996|NCT02203591|184781126|OTHER|Calculate mean value|Mean value|1.01|STANDARD_DEVIATION|0.67|||TWO_SIDED|||||||||||||
92446997|NCT02203591|184781127|OTHER|Calculate mean value|Mean value|0.8|STANDARD_DEVIATION|0.84|||TWO_SIDED|||||||||||||
92446998|NCT02203591|184781127|OTHER|Calculate mean value|Mean value|0.74|STANDARD_DEVIATION|0.79|||TWO_SIDED|||||||||||||
92446999|NCT02203591|184781127|OTHER|Calculate mean value|Mean value|0.81|STANDARD_DEVIATION|0.94|||TWO_SIDED|||||||||||||
92447000|NCT02203591|184781127|OTHER|Calculate mean value|Mean value|2.65|STANDARD_DEVIATION|0.89|||TWO_SIDED|||||||||||||
92447001|NCT02203591|184781127|OTHER|Calculate mean value|Mean value|2.76|STANDARD_DEVIATION|1.2|||TWO_SIDED|||||||||||||
92447002|NCT02203591|184781127|OTHER|Calculate mean value|Mean value|2.73|STANDARD_DEVIATION|1.22|||TWO_SIDED|||||||||||||
92447003|NCT02203591|184781127|OTHER|Calculate mean value|Mean value|2.58|STANDARD_DEVIATION|1.18|||TWO_SIDED|||||||||||||
92447004|NCT02203591|184781127|OTHER|Calculate mean value|Mean value|4.85|STANDARD_DEVIATION|0.75|||TWO_SIDED|||||||||||||
92447005|NCT02203591|184781128|OTHER|Calculate mean value|Mean value|0.85|STANDARD_DEVIATION|0.95|||TWO_SIDED|||||||||||||
92447006|NCT02203591|184781128|OTHER|Calculate mean value|Mean value|0.87|STANDARD_DEVIATION|0.98|||TWO_SIDED|||||||||||||
92447007|NCT02203591|184781128|OTHER|Calculate mean value|Mean value|0.89|STANDARD_DEVIATION|0.94|||TWO_SIDED|||||||||||||
92447008|NCT02203591|184781128|OTHER|Calculate mean value|Mean value|2.88|STANDARD_DEVIATION|0.7|||TWO_SIDED|||||||||||||
92447009|NCT02203591|184781128|OTHER|Calculate mean value|Mean value|3.39|STANDARD_DEVIATION|1.1|||TWO_SIDED|||||||||||||
92447010|NCT02203591|184781128|OTHER|Calculate mean value|Mean value|3.21|STANDARD_DEVIATION|1.04|||TWO_SIDED|||||||||||||
92447011|NCT02203591|184781128|OTHER|Calculate mean value|Mean value|3.08|STANDARD_DEVIATION|1.14|||TWO_SIDED|||||||||||||
92447012|NCT02203591|184781128|OTHER|Calculate mean value|Mean value|5.08|STANDARD_DEVIATION|0.68|||TWO_SIDED|||||||||||||
92447013|NCT02203591|184781129|OTHER|Calculate mean value|Mean value|3.63|STANDARD_DEVIATION|0.46|||TWO_SIDED|||||||||||||
92447014|NCT02203591|184781129|OTHER|Calculate mean value|Mean value|3.61|STANDARD_DEVIATION|0.48|||TWO_SIDED|||||||||||||
92447015|NCT02203591|184781129|OTHER|Calculate mean value|Mean value|3.64|STANDARD_DEVIATION|0.49|||TWO_SIDED|||||||||||||
92447016|NCT02203591|184781129|OTHER|Calculate mean value|Mean value|3.64|STANDARD_DEVIATION|0.53|||TWO_SIDED|||||||||||||
92447017|NCT02203591|184781129|OTHER|Calculate mean value|Mean value|6.23|STANDARD_DEVIATION|0.6|||TWO_SIDED|||||||||||||
92447018|NCT02203591|184781129|OTHER|Calculate mean value|Mean value|6.22|STANDARD_DEVIATION|0.56|||TWO_SIDED|||||||||||||
92447019|NCT02203591|184781129|OTHER|Calculate mean value|Mean value|6.27|STANDARD_DEVIATION|0.62|||TWO_SIDED|||||||||||||
92447020|NCT02203591|184781129|OTHER|Calculate mean value|Mean value|6.09|STANDARD_DEVIATION|0.63|||TWO_SIDED|||||||||||||
92447021|NCT04115358|184781133|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447022|NCT04115358|184781134|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447023|NCT04115358|184781135|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447024|NCT04115358|184781136|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447025|NCT04115358|184781137|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447026|NCT04115358|184781138|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447027|NCT04115358|184781139|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447028|NCT04115358|184781140|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447029|NCT04115358|184781141|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447030|NCT04115358|184781142|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447031|NCT04115358|184781143|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447032|NCT04115358|184781144|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447033|NCT04115358|184781145|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447034|NCT04115358|184781146|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447035|NCT04115358|184781147|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92240398|NCT00905307|184384219|SUPERIORITY_OR_OTHER||Treatment difference|-2.36||||0.3726|TWO_SIDED|95.0|-7.57|2.85|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PSP score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||2.85|-7.57|0.3726
92240399|NCT00905307|184384219|SUPERIORITY_OR_OTHER||Treatment difference|3.8||||0.0664|TWO_SIDED|95.0|-0.26|7.85|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PSP score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||7.85|-0.26|0.0664
92240400|NCT00905307|184384219|SUPERIORITY_OR_OTHER||Treatment difference|2.2||||0.2944|TWO_SIDED|95.0|-1.92|6.32|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||6.32|-1.92|0.2944
92280590|NCT03708211|184463763|OTHER||Ratio of geometric mean|1.0036|||||TWO_SIDED|90.0|0.8992|1.1201||||||Following log-transformation, PK parameters were analyzed by ANOVA fitting terms for treatment group, sequence and period. Participants within sequence were treated as a random effect. The obtained point estimates and adjusted 90% CIs for difference in treatment were exponentially back transformed to provide point and confidence interval estimates for the ratios of interest appropriately.||1.1201|0.8992|
92447036|NCT04115358|184781148|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447037|NCT04115358|184781149|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447038|NCT04115358|184781150|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92280591|NCT03708211|184463764|OTHER||Ratio of geometric mean|1.0071|||||TWO_SIDED|90.0|0.9033|1.1227||||||Following log-transformation, PK parameters were analyzed by ANOVA fitting terms for treatment group, sequence and period. Participants within sequence were treated as a random effect. The obtained point estimates and adjusted 90% CIs for difference in treatment were exponentially back transformed to provide point and confidence interval estimates for the ratios of interest appropriately.||1.1227|0.9033|
92447039|NCT04115358|184781151|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447040|NCT04115358|184781152|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447041|NCT04115358|184781153|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447042|NCT04115358|184781154|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447043|NCT04115358|184781155|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447044|NCT04115358|184781156|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447045|NCT04115358|184781157|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447046|NCT04115358|184781158|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447047|NCT04115358|184781159|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447048|NCT04115358|184781160|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447049|NCT04115358|184781161|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447050|NCT04115358|184781162|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447051|NCT04115358|184781163|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92447052|NCT04115358|184781164|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
92280592|NCT00097695|184463775|SUPERIORITY_OR_OTHER_LEGACY|||||||0.142||95.0|||||Wilcoxon version of the log-rank test|The Wilcoxon version of the log-rank test of SAS was used to calculate statistical significance between p- vs icatibant group and placebo group.||||||0.142
92280593|NCT00097695|184463776|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Wilcoxon version of the log-rank test|The median time to onset is calculated using Kaplan-Meier methodology. The Wilcoxon version of the log-rank test of SAS is used.||||||< 0.001
92280594|NCT00097695|184463777|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.079||95.0|||||Wilcoxon version of the log-rank test|The median time to almost complete symptom relief was calculated using Kaplan-Meier methodology.The Wilcoxon version of the log-rank test of SAS used.||||||= 0.079
92447053|NCT00835497|184781165|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|86.5||||||90.0|81.8|91.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||91.6|81.8|
92447054|NCT00835497|184781166|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|97.0||||||90.0|94.2|99.9|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.9|94.2|
92447055|NCT00835497|184781167|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|97.0||||||90.0|94.2|99.8|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.8|94.2|
92447056|NCT00835497|184781168|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|88.9||||||90.0|83.5|94.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||94.6|83.5|
92447057|NCT00835497|184781169|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|92.7||||||90.0|88.4|97.1|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||97.1|88.4|
92447058|NCT00835497|184781170|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|93.0||||||90.0|88.8|97.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||97.5|88.8|
92447059|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.026||||0.264|TWO_SIDED|95.0|-0.019|0.071|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.071|-0.019|0.264
92447060|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.033||||0.165|TWO_SIDED|95.0|-0.013|0.079|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.079|-0.013|0.165
92447061|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.026||||0.271|TWO_SIDED|95.0|-0.02|0.071|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.071|-0.020|0.271
92447062|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.055||||0.018|TWO_SIDED|95.0|0.01|0.1|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.100|0.010|0.018
92171973|NCT03580369|184234012|SUPERIORITY||LS mean|0.672|STANDARD_ERROR_OF_MEAN|0.939||0.7628|TWO_SIDED|95.0|-1.169|2.513|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults||2.513|-1.169|0.7628
92280595|NCT05328375|184463797|OTHER||Mean|0.91|||||ONE_SIDED|95.0|0.62||||||The estimate is based on the number of participants enrolled per month over the 11-month recruitment period of the trial. A 1-sided 95% lower confidence limit was computed.||||0.62|
92447063|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.055||||0.018|TWO_SIDED|95.0|0.01|0.101|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.101|0.010|0.018
92447064|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.078|||<|0.001|TWO_SIDED|95.0|0.032|0.124|||Mixed Models Analysis|||||0.124|0.032|<0.001
92447065|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.052||||0.023|TWO_SIDED|95.0|-0.097|-0.007|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-0.007|-0.097|0.023
92447066|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.045||||0.051|TWO_SIDED|95.0|-0.091|0.0|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.000|-0.091|0.051
92447067|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.053||||0.023|TWO_SIDED|95.0|-0.098|-0.007|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-0.007|-0.098|0.023
92447068|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023||||0.306|TWO_SIDED|95.0|-0.068|0.021|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.021|-0.068|0.306
92447069|NCT01573624|184781173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.023||||0.33|TWO_SIDED|95.0|-0.068|0.023|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.023|-0.068|0.330
92447070|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.9|||<|0.001|TWO_SIDED|95.0|9.5|22.3|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||22.3|9.5|<0.001
92447071|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.4|||<|0.001|TWO_SIDED|95.0|10.9|23.9|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||23.9|10.9|<0.001
92447072|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.6|||<|0.001|TWO_SIDED|95.0|12.1|25.1|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||25.1|12.1|<0.001
92447073|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.9|||<|0.001|TWO_SIDED|95.0|16.5|29.4|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||29.4|16.5|<0.001
92447074|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.0|||<|0.001|TWO_SIDED|95.0|15.5|28.4|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||28.4|15.5|<0.001
92447075|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.0|||<|0.001|TWO_SIDED|95.0|20.6|33.5|||Mixed Models Analysis|||||33.5|20.6|<0.001
92447076|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.2|||<|0.001|TWO_SIDED|95.0|-17.6|-4.7|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-4.7|-17.6|<0.001
92182207|NCT03960645|184263234|OTHER||GLSM ratio (%)|75.61|||||TWO_SIDED|90.0|66.7|85.7||||||FTC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||85.70|66.70|
92280596|NCT05328375|184463798|OTHER||Mean|0.87|||||ONE_SIDED|95.0|0.66||||||The estimate is based on the mean proportion of cardiac rehabilitation sessions completed by THCR participants. A 1-sided 95% lower confidence limit was computed.||||0.66|
92280597|NCT05328375|184463799|OTHER||Proportion|1.0|||||ONE_SIDED|95.0|0.55||||||The estimate is based on the proportion of participants in the Telehealth-enhanced Hybrid CR arm who attended at least one cardiac rehabilitation session after randomization. A 1-sided 95% lower confidence limit was computed.||||0.55|
92171974|NCT03580369|184234012|SUPERIORITY||LS Mean|-7.964|STANDARD_ERROR_OF_MEAN|1.305|<|0.0001|TWO_SIDED|95.0|-10.522|-5.047|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults||-5.047|-10.522|<.0001
92182208|NCT03960645|184263234|OTHER||GLSM ratio (%)|77.81|||||TWO_SIDED|90.0|68.76|88.05||||||FTC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||88.05|68.76|
92280598|NCT05328375|184463799|OTHER||Proportion|1.0|||||ONE_SIDED|95.0|0.55||||||The estimate is based on the proportion of participants in the Traditional CR arm who attended at least one cardiac rehabilitation session after randomization. A 1-sided 95% lower confidence limit was computed.||||0.55|
92447077|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.6||||0.004|TWO_SIDED|95.0|-16.1|-3.1|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-3.1|-16.1|0.004
92280599|NCT05328375|184463800|OTHER||Mean|0.69|||||ONE_SIDED|95.0|0.4||||||The estimate is based on the mean proportion of cardiac rehabilitation sessions completed by participants in the Traditional CR arm. A 1-sided 95% lower confidence limit was computed.||||0.40|
92447078|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.4||||0.012|TWO_SIDED|95.0|-14.9|-1.9|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-1.9|-14.9|0.012
92447079|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1||||0.209|TWO_SIDED|95.0|-10.6|2.3|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||2.3|-10.6|0.209
92447080|NCT01573624|184781174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.1||||0.124|TWO_SIDED|95.0|-11.6|1.4|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||1.4|-11.6|0.124
92447081|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.2|||<|0.001|TWO_SIDED|95.0|9.5|22.9|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||22.9|9.5|<0.001
92447082|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.2|||<|0.001|TWO_SIDED|95.0|10.5|24.0|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||24.0|10.5|<0.001
92447083|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.2|||<|0.001|TWO_SIDED|95.0|14.4|28.0|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||28.0|14.4|<0.001
92171975|NCT03580369|184234012|SUPERIORITY||LS mean|0.71|STANDARD_ERROR_OF_MEAN|0.933||0.7768|TWO_SIDED|95.0|-1.118|2.538|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults||2.538|-1.118|0.7768
92447084|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.8|||<|0.001|TWO_SIDED|95.0|22.1|35.5|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||35.5|22.1|<0.001
92447085|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.9|||<|0.001|TWO_SIDED|95.0|16.2|29.6|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||29.6|16.2|<0.001
92447086|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.6|||<|0.001|TWO_SIDED|95.0|19.8|33.4|||Mixed Models Analysis|||||33.4|19.8|<0.001
92447087|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.3||||0.003|TWO_SIDED|95.0|-17.2|-3.5|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-3.5|-17.2|0.003
92447088|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.3||||0.007|TWO_SIDED|95.0|-16.2|-2.5|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-2.5|-16.2|0.007
92447089|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.4||||0.126|TWO_SIDED|95.0|-12.3|1.5|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||1.5|-12.3|0.126
92447090|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2||||0.523||95.0|-4.6|9.1|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||9.1|-4.6|0.523
92447091|NCT01573624|184781175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.7||||0.29|TWO_SIDED|95.0|-10.5|3.1|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||3.1|-10.5|0.290
92240401|NCT00905307|184384219|SUPERIORITY_OR_OTHER||Treatment difference|3.86||||0.0596|TWO_SIDED|95.0|-0.16|7.89|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||7.89|-0.16|0.0596
92280600|NCT05328375|184463801|OTHER||Proportion|1.0|||||ONE_SIDED|95.0|0.55||||||Adequate feasibility was defined as a mean score ≥4 across four post-program items. A 1-sided 95% lower confidence limit was calculated.||||0.55|
92240402|NCT00905307|184384219|SUPERIORITY_OR_OTHER||Treatment difference|3.25||||0.1819|TWO_SIDED|95.0|-1.53|8.03|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||8.03|-1.53|0.1819
92240403|NCT00905307|184384220|SUPERIORITY_OR_OTHER||Treatment difference|0.38||||0.0685|TWO_SIDED|95.0|-0.03|0.79|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in CGI-S score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||0.79|-0.03|0.0685
92447092|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.036|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.0|-0.5|0.036
92447093|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.064|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.0|-0.5|0.064
92447094|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.335|TWO_SIDED|95.0|-0.3|0.1|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.1|-0.3|0.335
92447095|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.012|TWO_SIDED|95.0|-0.5|-0.1|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||-0.1|-0.5|0.012
92447096|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.023|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.0|-0.5|0.023
92447097|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.7|-0.2|||Mixed Models Analysis|||||-0.2|-0.7|<0.001
92447098|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.104|TWO_SIDED|95.0|0.0|0.4|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.4|0.0|0.104
92447099|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.062|TWO_SIDED|95.0|0.0|0.5|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.5|0.0|0.062
92447100|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.006|TWO_SIDED|95.0|0.1|0.6|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.6|0.1|0.006
92447101|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.217|TWO_SIDED|95.0|-0.1|0.4|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.4|-0.1|0.217
92447102|NCT01573624|184781176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.143|TWO_SIDED|95.0|-0.1|0.4|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.4|-0.1|0.143
92447103|NCT04399161|184781177|SUPERIORITY|||||||0.123|||||||ANOVA|||Comparison among Children||||0.123
92447104|NCT04399161|184781177|SUPERIORITY|||||||0.314|||||||ANOVA|||Comparison among Elderly||||0.314
92447105|NCT03417141|184781178|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||Week 12||||0.014
92447106|NCT03417141|184781178|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Week 24||||0.006
92447107|NCT03417141|184781179|SUPERIORITY|||||||0.093|||||||Wilcoxon (Mann-Whitney)|||||||0.093
92171976|NCT03580369|184234014|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|5.68|||<|0.0001|TWO_SIDED|95.0|2.667|12.095|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||12.095|2.667|<.0001
92171977|NCT03580369|184234014|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|0.84||||0.843|TWO_SIDED|95.0|0.598|1.18|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||1.180|0.598|0.8430
92171978|NCT03580369|184234014|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|5.734|||<|0.0001|TWO_SIDED|95.0|2.694|12.207|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||12.207|2.694|<.0001
92240404|NCT00905307|184384220|SUPERIORITY_OR_OTHER||Treatment difference|-0.28||||0.0989|TWO_SIDED|95.0|-0.6|0.05|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||0.05|-0.60|0.0989
92287156|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.163|||<|0.001|TWO_SIDED|95.0|0.1|0.226|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.226|0.100|<0.001
92171979|NCT03580369|184234014|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio, log|0.848||||0.8312|TWO_SIDED|95.0|0.605|1.188|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||1.188|0.605|0.8312
92171980|NCT03580369|184234015|SUPERIORITY||LS Mean|-3.1|STANDARD_ERROR_OF_MEAN|0.597|<|0.0001|TWO_SIDED|95.0|-4.271|-1.929|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults||-1.929|-4.271|<.0001
92171981|NCT03580369|184234015|SUPERIORITY||LS Mean|0.419|STANDARD_ERROR_OF_MEAN|0.428||0.8366|TWO_SIDED|95.0|-0.419|1.258|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults||1.258|-0.419|0.8366
92171982|NCT03580369|184234015|SUPERIORITY|Adults|LS Mean|-3.13|STANDARD_ERROR_OF_MEAN|0.594|<|0.0001|TWO_SIDED|95.0|-4.295|-1.966|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||||-1.966|-4.295|<.0001
92171983|NCT03580369|184234015|SUPERIORITY||LS Mean|0.389|STANDARD_ERROR_OF_MEAN|0.425||0.8201|TWO_SIDED|95.0|-0.444|1.222|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults||1.222|-0.444|0.8201
92447108|NCT03417141|184781180|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
92447109|NCT03417141|184781181|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
92447110|NCT01723228|184781210|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.8||||0.2204|TWO_SIDED|95.0|-0.48|2.05|||repeated measures model|The statistical model is a repeated measures model with visit by treatment interaction, center, baseline score, and age as fixed effects.||||2.05|-0.48|0.2204
92171984|NCT03580369|184234017|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|2.747|||<|0.0001|TWO_SIDED|95.0|1.621|4.656|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||4.656|1.621|<.0001
92447111|NCT01723228|184781211|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.1||||0.8428|TWO_SIDED|95.0|-0.99|0.81|||Repeated Measures Model|The statistical model is a repeated measures model with visit by treatment interaction, center, baseline score, and age as fixed effects.||||0.81|-0.99|0.8428
92447112|NCT01723228|184781212|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.7||||0.4796|TWO_SIDED|95.0|-2.74|1.3|||ANCOVA|The statistical model is an analysis of covariance (ANCOVA) with treatment, center, baseline score, and age as fixed effects.||||1.30|-2.74|0.4796
92447113|NCT01723228|184781213|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.61||||0.1148|TWO_SIDED|95.0|0.89|2.93|||Proportional Odds Model|The statistical model is a proportional odds model with terms for treatment, center, and age.||CGIC||2.93|0.89|0.1148
92447114|NCT01723228|184781213|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1052|TWO_SIDED||||||Cochran-Mantel-Haenszel|For the Cochran-Mantel-Haenszel (CMH) p-value, the statistical model is a CMH test controlling for center with scores=modridit option.||CGIC||||0.1052
92447115|NCT01723228|184781213|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.96||||0.8857|TWO_SIDED|95.0|0.52|1.75|||Proportional Odds Model|The statistical model is a proportional odds model with terms for treatment, center, and age.||CGIC Cognition||1.75|0.52|0.8857
92447116|NCT01723228|184781213|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9945|TWO_SIDED|||||For the CMH p-value, the statistical model is a CMH test controlling for center with scores=modridit option.|Cochran-Mantel-Haenszel|||CGIC Cognition||||0.9945
92447117|NCT01723228|184781213|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.6909|TWO_SIDED|95.0|0.56|2.43|||Proportional Odds Model|The statistical model is a proportional odds model with terms for treatment, center, and age.||CGIC Behavior||2.43|0.56|0.6909
92171985|NCT03580369|184234017|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|0.836||||0.8586|TWO_SIDED|95.0|0.603|1.159|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||1.159|0.603|0.8586
92171986|NCT03580369|184234017|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|3.261|||<|0.0001|TWO_SIDED|95.0|1.929|5.513|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||5.513|1.929|<.0001
92240405|NCT00905307|184384220|SUPERIORITY_OR_OTHER||Treatment difference|-0.04||||0.8006|TWO_SIDED|95.0|-0.37|0.28|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.28|-0.37|0.8006
92171987|NCT03580369|184234017|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|0.992||||0.519|TWO_SIDED|95.0|0.717|1.373|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||1.373|0.717|0.5190
92240406|NCT00905307|184384220|SUPERIORITY_OR_OTHER||Treatment difference|-0.28||||0.0898|TWO_SIDED|95.0|-0.6|0.04|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||0.04|-0.60|0.0898
92240407|NCT00905307|184384220|SUPERIORITY_OR_OTHER||Treatment difference|-0.21||||0.2851|TWO_SIDED|95.0|-0.59|0.18|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||0.18|-0.59|0.2851
92447118|NCT01723228|184781213|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6639|TWO_SIDED||||||Cochran-Mantel-Haenszel|For the CMH p-value, the statistical model is a CMH test controlling for center with scores=modridit option.||CGIC Behavior||||0.6639
92447119|NCT01723228|184781213|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.39||||0.3204|TWO_SIDED|95.0|0.72|2.68|||Proportional Odds Model|The statistical model is a proportional odds model with terms for treatment, center, and age.||CGIC Functional Abilities||2.68|0.72|0.3204
92447120|NCT01723228|184781213|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3331|TWO_SIDED||||||Cochran-Mantel-Haenszel|For the CMH p-value, the statistical model is a CMH test controlling for center with scores=modridit option.||CGIC Functional Abilities||||0.3331
92447121|NCT01723228|184781214|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.5||||0.0151|TWO_SIDED|95.0|-4.47|-0.49|||Repeated Measures Model|The statistical model is a repeated measures model with visit by treatment interaction, center, baseline score, and age as fixed effects.||||-0.49|-4.47|0.0151
92447122|NCT01723228|184781215|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.3||||0.0003|TWO_SIDED|95.0|-3.53|-1.08|||Repeated Measures Model|The statistical model is a repeated measures model with visit by treatment interaction, center, baseline score, and age as fixed effects.||||-1.08|-3.53|0.0003
92171988|NCT03580369|184234018|SUPERIORITY||Risk Ratio (RR)|1.323|||<|0.0001|TWO_SIDED|95.0|1.183|1.48|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults||1.480|1.183|<.0001
92447123|NCT03080961|184781230|OTHER||SADE percentage|0.0|||||TWO_SIDED|95.0|0.0|7.7||||||SADE rate after minimally 26 days of VIBLOK treatment will be assessed by calculating the upper limit of the 2-sided exact 95% Clopper-Pearson confidence interval which needs to be below 10%. With a sample size of 36, an exact two-sided 95.0% confidence interval for a single proportion would show that the SADE incidence is below 10% at an expected incidence of 0.1%.||7.7|0.0|
92171989|NCT03580369|184234018|SUPERIORITY||Risk Ratio (RR)|0.975||||0.7469|TWO_SIDED|95.0|0.904|1.051|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults||1.051|0.904|0.7469
92280601|NCT02708290|184463847|OTHER|Participants in the MITA group were matched to those in Control (treatment-as-usual) group using propensity score analysis based on age and all four ATEC subscales at baseline. Least squares means were calculated for all subscales at all visits.|Mean Difference (Final Values)|4.68|||<|0.0001|TWO_SIDED||||||Regression, Linear|||"The concept of a Visit was developed by dividing the three-year-long observation interval into 3-month periods. All evaluations were mapped into 3-month-long bins (Reference: Mahapatra, S. et al. Autism Dev. Disord. 2018, 1). It was then hypothesized that there was a three-way interaction between an age group, Visit, and treatment. This hypothesis was modeled by applying the Linear Model with repeated measures, where a three-way interaction term was introduced to test the hypothesis."||||<0.0001
92447124|NCT03080961|184781231|SUPERIORITY|||||||0.248|||||||Wilcoxon (Mann-Whitney)|||Statistical analysis will evaluate the difference in detection rate between pre and post-VIBLOK swabs. For each person the number of swabs with shedding only pre-VIBLOK will be assessed, and then the number of swabs with shedding only post-VIBLOK will be subtracted. A number above 0 indicates a decreased detection rate after VIBLOK. With an 8% anticipated asymptomatic shedding rate, 80% power, 50 subjects taking samples for 28 days are needed to show a 50% reduction.||||0.248
92447125|NCT03080961|184781232|SUPERIORITY|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
92447126|NCT04976530|184781262|SUPERIORITY||win ratio|1.07||||0.748|TWO_SIDED|95.0|0.72|1.58|||Finkelstein Schoenfeld test|||||1.58|0.72|0.748
92447127|NCT04976530|184781263|SUPERIORITY||win ratio|1.33||||0.202|TWO_SIDED|95.0|0.86|2.04|||Finkelstein Schoenfeld test|||||2.04|0.86|0.202
92447128|NCT04976530|184781264|SUPERIORITY||win ratio|1.17||||0.451|TWO_SIDED|95.0|0.79|1.73|||Finkelstein Schoenfeld test|||||1.73|0.79|0.451
92447129|NCT04976530|184781265|SUPERIORITY||win ratio|1.59||||0.041|TWO_SIDED|95.0|1.02|2.46|||Finkelstein Schoenfeld test|||||2.46|1.02|0.041
92447130|NCT04976530|184781266|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.6
92447131|NCT04976530|184781267|SUPERIORITY|||||||0.079|||||||Wilcoxon (Mann-Whitney)|||||||0.079
92447132|NCT04976530|184781268|SUPERIORITY|||||||0.427|||||||Wilcoxon (Mann-Whitney)|||||||0.427
92447133|NCT04976530|184781269|SUPERIORITY|||||||0.042|||||||Wilcoxon (Mann-Whitney)|||||||0.042
92447134|NCT00445328|184781300|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is based on chi-square test with alpha as 0.01.|Chi-squared|||||||1.0000
92447135|NCT00445328|184781302|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Chi-squared|||Major Bleeding||||1.0000
92447136|NCT00445328|184781305|SUPERIORITY_OR_OTHER|||||||0.1355||95.0|||||Chi-squared|||||||0.1355
92447137|NCT02239536|184781331|OTHER|||||||0.05|||||||Chi-squared|||||||0.05
92447138|NCT02239536|184781332|OTHER|||||||0.05|||||||Chi-squared|||||||0.05
92447139|NCT02239536|184781332|OTHER|||||||0.001|||||||Chi-squared|||||||0.001
92447140|NCT01221441|184781359|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom were adjusted using the Kenward-Roger's method.||"The primary efficacy evaluation based on IKDC and the VAS were tested at week 52 evaluated 100 mm VAS with the following superiority hypothesis:~HO: μTG = μPC vs. HA: μTG ≠ μPC, where μTG and μPC are the mean change from baseline in IKDC or VAS scores at week 52 for patients in the TG-C and placebo control groups, respectively. If the null hypotheses for both the IKDC and the VAS are rejected, it the clinical effect of TG-C is concluded to be superior to that of the control."||||<0.01
92447141|NCT01221441|184781360|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom were adjusted using the Kenward-Roger's method.||"The primary efficacy evaluation based on IKDC and the VAS were tested at week 52 evaluated 100 mm VAS with the following superiority hypothesis:~HO: μTG = μPC vs. HA: μTG ≠ μPC, where μTG and μPC are the mean change from baseline in IKDC or VAS scores at week 52 for patients in the TG-C and placebo control groups, respectively. If the null hypotheses for both the IKDC and the VAS are rejected, it the clinical effect of TG-C is concluded to be superior to that of the control."||||<0.01
92447142|NCT01221441|184781361|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom were adjusted using the Kenward-Roger's method.||"The efficacy evaluation at week 104 evaluated KOOS with the following superiority hypothesis:~HO: μTG = μPC vs. HA: μTG ≠ μPC, where μTG and μPC are the mean change from baseline in KOOS scores at week 104 for patients in the TG-C and placebo control groups, respectively. If the null hypotheses for KOOS is rejected, it the clinical effect of TG-C is concluded to be superior to that of the control."||||<0.01
92447143|NCT01221441|184781362|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom were adjusted using the Kenward-Roger's method.||"The efficacy evaluation at week 104 evaluated Lysholm score with the following superiority hypothesis:~HO: μTG = μPC vs. HA: μTG ≠ μPC, where μTG and μPC are the mean change from baseline in KOOS scores at week 104 for patients in the TG-C and placebo control groups, respectively. If the null hypotheses for Lysholm score is rejected, it the clinical effect of TG-C is concluded to be superior to that of the control."||||<0.01
92447144|NCT03523117|184781413|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.3108|TWO_SIDED||||||ANCOVA|||||||0.3108
92447145|NCT03523117|184781414|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.0001|TWO_SIDED||||||ANCOVA|||||||0.0001
92447146|NCT03523117|184781415|SUPERIORITY||Mean Difference (Final Values)|15.64||||0.0001|TWO_SIDED||||||ANCOVA|||||||0.0001
92447147|NCT03523117|184781416|SUPERIORITY||Mean Difference (Final Values)|2.06||||0.0002|TWO_SIDED||||||Mixed Models Analysis|||||||0.0002
92280602|NCT00976664|184463855|SUPERIORITY_OR_OTHER|||||||0.0007|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Group differences in VAS for low back pain from randomization visit to 6-week visit were assessed via the Wilcoxon rank sums test.||||||.0007
92447148|NCT04452188|184781417|EQUIVALENCE|Prior studies suggest a 25-50% reduction in oxidative stress in normoxia relative to supra-physiologic oxygen. A 20% difference was considered clinically meaningful, and a sample size of 42 total participants was anticipated to achieve at least 80% power with a two-sided 5% significance level. However, an interim analysis recommended by the DSMB after enrollment of 29 patients revealed a significant difference in the primary outcome between the groups, and enrollment was thus stopped.|||||<|0.01||||||To provide a more conservative estimate of significance, the Hochberg sequential procedure was used for adjustment of multiple comparisons in the serum biomarker data including the primary outcome.|t-test, 2 sided|||Each participant's post-operative samples were normalized to their baseline sample and described as a fold-of-change from baseline.||||<0.01
92447149|NCT04452188|184781419|OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the post-operative length of stay between the two groups.||||0.66
92447150|NCT04452188|184781420|OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the days alive and out of ICU at 30 days since surgery between the two groups||||0.66
92447151|NCT04452188|184781421|OTHER|||||||1|||||||Fisher Exact|||||||1.00
92447152|NCT04452188|184781422|OTHER|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||||||0.49
92447153|NCT04452188|184781423|OTHER||||||<|0.01||||||To provide a more conservative estimate of significance, the Hochberg sequential procedure was used for adjustment of multiple comparisons in the serum biomarker data including the primary outcome.|t-test, 2 sided|||||||<0.01
92447154|NCT04452188|184781424|OTHER||||||<|0.01||||||To provide a more conservative estimate of significance, the Hochberg sequential procedure was used for adjustment of multiple comparisons in the serum biomarker data including the primary outcome.|t-test, 2 sided|||||||<0.01
92447155|NCT04452188|184781425|OTHER||||||<|0.1||||||To provide a more conservative estimate of significance, the Hochberg sequential procedure was used for adjustment of multiple comparisons in the serum biomarker data including the primary outcome.|t-test, 2 sided|||||||<0.1
92447156|NCT00357370|184781426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.1898|||TWO_SIDED|95.0|-1.08|-0.32|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||-0.32|-1.08|
92447157|NCT00357370|184781426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.1903|||TWO_SIDED|95.0|-1.16|-0.4|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||-0.40|-1.16|
92447158|NCT00357370|184781427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.44|STANDARD_ERROR_OF_MEAN|11.4753|||TWO_SIDED|95.0|-38.37|7.48|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||7.48|-38.37|
92447159|NCT00357370|184781427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.44|STANDARD_ERROR_OF_MEAN|11.4574|||TWO_SIDED|95.0|-50.33|-4.55|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||-4.55|-50.33|
92447160|NCT00357370|184781431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.05|STANDARD_ERROR_OF_MEAN|3.8302|||TWO_SIDED|95.0|-10.69|4.6|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||4.60|-10.69|
92447161|NCT00357370|184781431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.52|STANDARD_ERROR_OF_MEAN|3.8291|||TWO_SIDED|95.0|-10.17|5.12|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||5.12|-10.17|
92447162|NCT01502644|184781437|OTHER||Mean Difference (Net)|18.0||||0.01|TWO_SIDED|95.0|3.7|32.2|||Linear Mixed Modeling|Group, group×week, average baseline pain, and opioid use at baseline were entered as fixed effects using an autoregressive covariance structure.||||32.2|3.7|0.01
92447163|NCT03306264|184781450|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% confidence interval (CI) of the 5-day AUC0-24 ratio of Least Square Mean (LSM) for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|98.93|||||TWO_SIDED|90.0|92.66|105.6|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|MDS or CMML: IV Decitabine Versus MDS or CMML: ASTX727||105.6|92.66|
92447164|NCT03306264|184781450|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-24 ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|99.64|||||TWO_SIDED|90.0|91.23|108.8|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|AML: IV Decitabine Versus AML: ASTX727||108.8|91.23|
92447165|NCT03306264|184781456|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-inf ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|98.0|||||TWO_SIDED|90.0|91.8|104.6|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|MDS or CMML: IV Decitabine Versus MDS or CMML: ASTX727||104.6|91.80|
92280603|NCT00976664|184463855|SUPERIORITY_OR_OTHER|||||||0.3913|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Group differences in VAS for low back pain from randomization visit to 12-week visit were assessed via the Wilcoxon rank sums test.||||||.3913
92447166|NCT03306264|184781456|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-inf ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|99.61|||||TWO_SIDED|90.0|91.2|108.8|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|AML: IV Decitabine Versus AML: ASTX727||108.8|91.20|
92447167|NCT03306264|184781457|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-last ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|98.11|||||TWO_SIDED|90.0|91.88|104.8|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|MDS or CMML: IV Decitabine Versus MDS or CMML: ASTX727||104.8|91.88|
92447168|NCT03306264|184781457|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-last ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|98.11|||||TWO_SIDED|90.0|89.75|107.2|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|AML: IV Decitabine Versus AML: ASTX727||107.2|89.75|
92447169|NCT03306264|184781458|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-8 ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|97.93|||||TWO_SIDED|90.0|91.74|104.5|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|MDS or CMML: IV Decitabine Versus MDS or CMML: ASTX727||104.5|91.74|
92447170|NCT03306264|184781458|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-8 ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|97.55|||||TWO_SIDED|90.0|89.32|106.5|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|AML: IV Decitabine Versus AML: ASTX727||106.5|89.32|
92447171|NCT00554749|184781478|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.09|STANDARD_DEVIATION|0.43|<|0.001||95.0|1.69|2.49|||paired t-test|Paired t-test of SSQ at baseline vs at 6 months, degrees of freedom=6. Difference in SSQ is reported.||||2.49|1.69|<0.001
92447172|NCT00457197|184781480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4709|TWO_SIDED||||||ANCOVA|||Baseline drinks/day used as covariate.||||0.4709
92447173|NCT00457197|184781481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1272|TWO_SIDED||||||ANCOVA|||Baseline percent heavy drinking days included as covariate.||||0.1272
92447174|NCT00457197|184781482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9642|TWO_SIDED||||||ANCOVA|||Baseline GGT used as covariate.||||0.9642
92447175|NCT00457197|184781483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7222|TWO_SIDED||||||ANCOVA|||Baseline AST used as covariate.||||0.7222
92447176|NCT00457197|184781484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1412|TWO_SIDED||||||ANCOVA|||Baseline ALT used as covariate.||||0.1412
92447177|NCT00457197|184781485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7071|TWO_SIDED||||||ANCOVA|||Baseline HRSD used as covariate.||||0.7071
92447178|NCT00457197|184781486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2569|TWO_SIDED||||||ANCOVA|||Baseline IDS-SR used as a covariate.||||0.2569
92447179|NCT00457197|184781487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8814|TWO_SIDED||||||ANCOVA|||Baseline YMRS used as a covariate.||||0.8814
92447180|NCT00457197|184781488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2473|TWO_SIDED||||||ANCOVA|||Baseline PACS used as a covariate.||||0.2473
92447181|NCT00094653|184781502|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0004|TWO_SIDED|95.0|0.55|0.85|||Stratified Log Rank||Cox model for Hazard ratios (HR) and log-rank test p-values were stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||0.85|0.55|0.0004
92447182|NCT00094653|184781503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.0026|TWO_SIDED|95.0|0.51|0.87|||Stratified Log Rank||Cox model for Hazard ratios (HR) and log-rank test p-values were stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||0.87|0.51|0.0026
92447183|NCT00094653|184781503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.7575|TWO_SIDED|95.0|0.83|1.3|||Stratified Log Rank||Cox model for Hazard ratios (HR) and log-rank test p-values were stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||1.30|0.83|0.7575
92447184|NCT00094653|184781505|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.66|1.0|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||1.00|0.66|
92447185|NCT00094653|184781505|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.5|0.83|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||0.83|0.50|
92447186|NCT00094653|184781505|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|1.01|1.53|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||1.53|1.01|
92447187|NCT00094653|184781507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.66|1.0|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||1.00|0.66|
92447188|NCT00094653|184781507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.5|0.83|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||0.83|0.50|
92447189|NCT00094653|184781507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|1.01|1.53|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||1.53|1.01|
92447190|NCT00094653|184781509|SUPERIORITY_OR_OTHER|||||||0.0433||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0433
92447191|NCT00094653|184781509|SUPERIORITY_OR_OTHER|||||||0.0012||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0012
92447192|NCT00094653|184781509|SUPERIORITY_OR_OTHER|||||||0.0402||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0402
92240408|NCT00905307|184384221|SUPERIORITY_OR_OTHER|||||||0.4008|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel (CMH) row mean scores differ test controlling for study center was applied to mean CGI-I score||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||||0.4008
92447193|NCT00094653|184781512|SUPERIORITY_OR_OTHER|||||||0.0179||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0179
92447194|NCT00094653|184781512|SUPERIORITY_OR_OTHER|||||||0.0002||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0002
92447195|NCT00094653|184781512|SUPERIORITY_OR_OTHER|||||||0.0429||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0429
92447196|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.2805|TWO_SIDED|95.0|-2.5|8.6|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Global quality of life change from baseline||8.6|-2.5|0.2805
92447197|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.63|TWO_SIDED|95.0|-5.0|8.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Global quality of life change from baseline||8.2|-5.0|0.6300
92447198|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.6026|TWO_SIDED|95.0|-3.9|6.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Global quality of life change from baseline||6.8|-3.9|0.6026
92447199|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9||||0.1219|TWO_SIDED|95.0|-1.1|8.9|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Physical change from baseline||8.9|-1.1|0.1219
92447200|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0||||0.0978|TWO_SIDED|95.0|-0.9|11.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Physical change from baseline||11.0|-0.9|0.0978
92447201|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.659|TWO_SIDED|95.0|-6.0|3.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Physical change from baseline||3.8|-6.0|0.6590
92447202|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3||||0.248|TWO_SIDED|95.0|-3.0|11.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Role change, change from baseline||11.7|-3.0|0.2480
92447203|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2||||0.4742|TWO_SIDED|95.0|-5.6|12.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Role change, change from baseline||12.0|-5.6|0.4742
92447204|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.7597|TWO_SIDED|95.0|-6.1|8.3|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Role change, change from baseline||8.3|-6.1|0.7597
92447205|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.9119|TWO_SIDED|95.0|-4.7|5.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Cognitive change from baseline||5.2|-4.7|0.9119
92447206|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.7616|TWO_SIDED|95.0|-6.9|5.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Cognitive change from baseline||5.0|-6.9|0.7616
92447207|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.6266|TWO_SIDED|95.0|-3.6|6.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Cognitive change from baseline||6.0|-3.6|0.6266
92447208|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9984|TWO_SIDED|95.0|-4.8|4.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Emotional change from baseline||4.8|-4.8|0.9984
92447209|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.4873|TWO_SIDED|95.0|-7.8|3.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Emotional change from baseline||3.7|-7.8|0.4873
92447210|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.3938|TWO_SIDED|95.0|-2.7|6.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Emotional change from baseline||6.7|-2.7|0.3938
92447211|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.6695|TWO_SIDED|95.0|-8.1|5.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Social change from baseline||5.2|-8.1|0.6695
92447212|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.4041|TWO_SIDED|95.0|-11.3|4.6|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Social change from baseline||4.6|-11.3|0.4041
92447213|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9||||0.5538|TWO_SIDED|95.0|-4.5|8.3|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Social change from baseline||8.3|-4.5|0.5538
92447214|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9||||0.2259|TWO_SIDED|95.0|-10.3|2.4|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Fatigue change from baseline||2.4|-10.3|0.2259
92447215|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.6168|TWO_SIDED|95.0|-9.6|5.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Fatigue change from baseline||5.7|-9.6|0.6168
92447216|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.5329|TWO_SIDED|95.0|-8.2|4.3|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Fatigue change from baseline||4.3|-8.2|0.5329
92447217|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.9397|TWO_SIDED|95.0|-4.7|5.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Nausea and Vomiting change from baseline||5.0|-4.7|0.9397
92240409|NCT00905307|184384221|SUPERIORITY_OR_OTHER|||||||0.1117|||||||Cochran-Mantel-Haenszel|The CMH row mean scores differ test controlling for study center was applied to mean CGI-I score||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||||0.1117
92240410|NCT00905307|184384221|SUPERIORITY_OR_OTHER|||||||0.2739|||||||Cochran-Mantel-Haenszel|The CMH row mean scores differ test controlling for study center was applied to mean CGI-I score||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||||0.2739
92240411|NCT00905307|184384221|SUPERIORITY_OR_OTHER|||||||0.1045|||||||Cochran-Mantel-Haenszel|The CMH row mean scores differ test controlling for study center was applied to mean CGI-I score||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||||0.1045
92171990|NCT03580369|184234018|SUPERIORITY||Risk Ratio (RR)|1.376|||<|0.0001|TWO_SIDED|95.0|1.23|1.54|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults||1.540|1.230|<.0001
92171991|NCT03580369|184234018|SUPERIORITY||Risk Ratio (RR)|1.014||||0.3586|TWO_SIDED|95.0|0.941|1.092|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults||1.092|0.941|0.3586
92240412|NCT00905307|184384221|SUPERIORITY_OR_OTHER|||||||0.1149|||||||Cochran-Mantel-Haenszel|The CMH row mean scores differ test controlling for study center was applied to mean CGI-I score||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||||0.1149
92447218|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.6716|TWO_SIDED|95.0|-7.1|4.6|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Nausea and Vomiting change from baseline||4.6|-7.1|0.6716
92447219|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.5497|TWO_SIDED|95.0|-3.3|6.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Nausea and Vomiting change from baseline||6.2|-3.3|0.5497
92447220|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3||||0.0625|TWO_SIDED|95.0|-12.8|0.3|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Pain change from baseline||0.3|-12.8|0.0625
92447221|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.3214|TWO_SIDED|95.0|-11.9|3.9|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Pain change from baseline||3.9|-11.9|0.3214
92447222|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.4898|TWO_SIDED|95.0|-8.7|4.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Pain change from baseline||4.2|-8.7|0.4898
92447223|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6||||0.0761|TWO_SIDED|95.0|-11.8|0.6|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Dyspnea change from baseline||0.6|-11.8|0.0761
92447224|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.3187|TWO_SIDED|95.0|-11.2|3.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Dyspnea change from baseline||3.7|-11.2|0.3187
92447225|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.5548|TWO_SIDED|95.0|-7.9|4.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Dyspnea change from baseline||4.2|-7.9|0.5548
92447226|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5||||0.245|TWO_SIDED|95.0|-12.1|3.1|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Sleep disturbance change from baseline||3.1|-12.1|0.2450
92447227|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.8464|TWO_SIDED|95.0|-10.0|8.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Sleep disturbance change from baseline||8.2|-10.0|0.8464
92447228|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.3351|TWO_SIDED|95.0|-10.9|3.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Sleep Disturbance change from baseline||3.7|-10.9|0.3351
92447229|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.6291|TWO_SIDED|95.0|-9.1|5.5|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Appetite loss change from baseline||5.5|-9.1|0.6291
92447230|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.7675|TWO_SIDED|95.0|-7.4|10.1|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Appetite Loss change from baseline||10.1|-7.4|0.7675
92447231|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.3911|TWO_SIDED|95.0|-10.2|4.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Appetite Loss change from baseline||4.0|-10.2|0.3911
92447232|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5||||0.0431|TWO_SIDED|95.0|-12.9|-0.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Constipation change from baseline||-0.2|-12.9|0.0431
92447233|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9||||0.0101|TWO_SIDED|95.0|-17.4|-2.4|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Constipation change from baseline||-2.4|-17.4|0.0101
92240413|NCT00905307|184384222|SUPERIORITY_OR_OTHER||Relative Risk|0.89||||0.62|TWO_SIDED|95.0|0.57|1.4|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center will be applied to the analysis of response rate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.40|0.57|0.6200
92447234|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4||||0.2796|TWO_SIDED|95.0|-2.8|9.5|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Constipation change from baseline||9.5|-2.8|0.2796
92447235|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3||||0.194|TWO_SIDED|95.0|-2.2|10.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Diarrhea change from baseline||10.8|-2.2|0.1940
92447236|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.9||||0.0821|TWO_SIDED|95.0|-0.9|14.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Diarrhea change from baseline||14.8|-0.9|0.0821
92447237|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.4169|TWO_SIDED|95.0|-9.0|3.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Diarrhea change from baseline||3.8|-9.0|0.4169
92447238|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.5717|TWO_SIDED|95.0|-7.5|4.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Financial Impact change from baseline||4.2|-7.5|0.5717
92447239|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.6949|TWO_SIDED|95.0|-5.6|8.4|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Financial Impact change from baseline||8.4|-5.6|0.6949
92447240|NCT00094653|184781514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.2849|TWO_SIDED|95.0|-8.8|2.6|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Financial Impact change from baseline||2.6|-8.8|0.2849
92447241|NCT00330551|184781573|SUPERIORITY||t-test|0.77|||=|0.05|TWO_SIDED|95.0|0.483|1.058|||t-test, 2 sided||||t(80)=5.3, p\<.001|1.058|0.483|=.05
92447242|NCT00330551|184781574|SUPERIORITY||Risk Difference (RD)|11.1|||=|0.001|TWO_SIDED||||||Chi-squared|||||||=.001
92447243|NCT00330551|184781575|SUPERIORITY||||||=|0.83|||||||Chi-squared|||||||=.83
92280604|NCT00976664|184463856|SUPERIORITY_OR_OTHER|||||||0.002|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Group differences in ODI for low back pain from randomization visit to 6-week visit were assessed using the Wilcoxon rank sums test.||||||.002
92447244|NCT00330551|184781576|SUPERIORITY||||||=|0.2|||||||ANOVA|||A priori hypothesis was that long-acting injectible risperidone would lead to greater duration of work/school attendance than oral risperidone.||||=.20
92447245|NCT00330551|184781577|SUPERIORITY|||||||0.71|||||||ANOVA|||||||.71
92447246|NCT00330551|184781578|SUPERIORITY||||||=|0.57|||||||ANOVA|||||||=.57
92447247|NCT00330551|184781580|SUPERIORITY||||||<|0.16|||||||ANOVA|||||||<.16
92447248|NCT00330551|184781581|SUPERIORITY||||||=|0.41|||||||ANOVA|||||||=.41
92447249|NCT03120013|184781591|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92447250|NCT03120013|184781592|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92447251|NCT03120013|184781593|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92447252|NCT03120013|184781594|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92447253|NCT03120013|184781595|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92447254|NCT03120013|184781596|SUPERIORITY||||||=|0.006|||||||ANCOVA|||||||=0.006
92447255|NCT03120013|184781597|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92447256|NCT03120013|184781598|SUPERIORITY||||||=|0.043|||||||ANCOVA|||||||=0.043
92447257|NCT06561217|184781666|NON_INFERIORITY|A predefined non-inferiority margin of 0.05 was used. The primary study was powered on a retrospective, paired, non-inferiority design to evaluate abstraction accuracy of elements commonly used to help screen patients for clinical trials.|Mean Difference (Final Values)|0.02|||<|0.001|ONE_SIDED|95.0|0.00007515||||Wilcoxon (Mann-Whitney)||The upper bound of the 95% confidence interval is Inf due to the test being one-sided. Alternative hypothesis: true median location shift is greater than -0.05|A Shapiro-Wilk test was used to assess normality of paired differences in chart-level accuracy (alpha = 0.05). A one-sided, paired Wilcoxon Rank Sum test (alpha = 0.05) was employed to test the primary null hypothesis of whether chart-level accuracy of the Human+AI arm for EHR chart abstraction was non-inferior to the chart-level accuracy of a Human-alone arm abstraction by at least 5% (i.e., noninferiority margin).|||0.00007515|<0.001
92240414|NCT00905307|184384222|SUPERIORITY_OR_OTHER||Relative Risk|1.19||||0.1501|TWO_SIDED|95.0|0.95|1.48|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center will be applied to the analysis of response rate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.48|0.95|0.1501
92240415|NCT00905307|184384222|SUPERIORITY_OR_OTHER||Relative Risk|0.91||||0.5271|TWO_SIDED|95.0|0.66|1.25|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center will be applied to the analysis of response rate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.25|0.66|0.5271
92447258|NCT06561217|184781666|SUPERIORITY|The primary study was powered on a retrospective, paired, superiority design to evaluate abstraction accuracy of elements commonly used to help screen patients for clinical trials.|Mean Difference (Final Values)|0.02||||0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||A Shapiro-Wilk test was used to assess normality of paired differences in chart-level accuracy (alpha = 0.05). A one-sided, paired Wilcoxon Rank Sum test (alpha = 0.05) was employed to test the null hypothesis of whether chart-level accuracy of the Human+AI arm for EHR chart abstraction was superior to the chart-level accuracy of a Human-alone arm abstraction.||||0.002
92447259|NCT06561217|184781667|EQUIVALENCE|Null hypothesis: True difference is equal to 0. Alternate hypothesis: true difference is not equal to 0|Median Difference (Final Values)|0.66||||0.513|TWO_SIDED|95.0|-1.25|2.55|||Wilcoxon (Mann-Whitney)|||A two-sided, paired Wilcoxon Rank Sum test (alpha = 0.05) was employed to test for difference between chart-level efficiency of the Human+AI arm and chart-level efficiency of the Human-alone arm abstraction.||2.55|-1.25|0.513
92447260|NCT04552587|184781708|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||We compared change from baseline to follow up in our single group of caregivers.||||0.23
92447261|NCT01833403|184781744|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92447262|NCT02702401|184781746|SUPERIORITY||Hazard Ratio (HR)|0.775||||0.0186|TWO_SIDED|95.0|0.609|0.987|||Log Rank|One-sided p-value stratified by geographic region, macrovascular invasion and alfa-fetoprotein level.|Cox regression model with Efron's method (treatment as covariate) stratified by geographic region, macrovascular invasion and alfa-fetoprotein level|||0.987|0.609|0.0186
92447263|NCT02702401|184781747|SUPERIORITY||Hazard Ratio (HR)|0.781||||0.0238|TWO_SIDED|95.0|0.611|0.998|||Log Rank|One-sided p-value stratified by geographic region, macrovascular invasion and alfa-fetoprotein level.|Cox regression model with Efron's method (treatment as covariate) stratified by geographic region, macrovascular invasion and alfa-fetoprotein level|||0.998|0.611|0.0238
92280605|NCT00976664|184463856|SUPERIORITY_OR_OTHER|||||||0.0336|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Group differences in ODI for low back pain from randomization visit to 12-week visit were assessed using the Wilcoxon rank sums test.||||||.0336
92447264|NCT02702401|184781748|OTHER||Difference in Percent|13.8|||||TWO_SIDED|95.0|7.7|19.5|||||Miettinen \& Nurminen method stratified by geographic region, macrovascular invasion and alfa-fetoprotein level|||19.5|7.7|
92447265|NCT02702401|184781750|OTHER||Hazard Ratio (HR)|0.688||||0.0011|TWO_SIDED|95.0|0.54|0.877||One-sided p-value stratified by geographic region, macrovascular invasion and alfa-fetoprotein level.|Log Rank||Cox regression model with Efron's method (treatment as covariate) stratified by geographic region, macrovascular invasion and alfa-fetoprotein level|||0.877|0.540|0.0011
92447266|NCT01686646|184781764|SUPERIORITY_OR_OTHER||LS Mean DIfference|3.5||||0.0248|TWO_SIDED|95.0|0.4|6.5||A hierarchical testing procedure was used such that p-values were only presented if the preceding treatment comparison was statistically significant (p\<0.05).|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favored the first named treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||6.5|0.4|0.0248
92240416|NCT00905307|184384222|SUPERIORITY_OR_OTHER||Relative Risk|1.02||||0.867|TWO_SIDED|95.0|0.78|1.34|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center will be applied to the analysis of response rate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||1.34|0.78|0.8670
92287157|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.19|||<|0.001|TWO_SIDED|95.0|0.126|0.254|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.254|0.126|<0.001
92287158|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.166|||<|0.001|TWO_SIDED|95.0|0.103|0.229|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.229|0.103|<0.001
92240417|NCT00905307|184384222|SUPERIORITY_OR_OTHER||Relative Risk|1.15||||0.3892|TWO_SIDED|95.0|0.85|1.56|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center will be applied to the analysis of response rate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.56|0.85|0.3892
92447267|NCT01686646|184781764|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.1513|TWO_SIDED|95.0|-0.6|4.1||A hierarchical testing procedure was used such that p-values were only presented if the preceding treatment comparison was statistically significant (p\<0.05).|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favoured the first named treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||4.1|-0.6|0.1513
92447268|NCT01686646|184781764|SUPERIORITY_OR_OTHER||LS Mean Difference|3.9|||||TWO_SIDED|95.0|1.1|6.6||Not significant based on hierarchical testing.|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favoured the first named treatment.|Null hypothesis was no difference in treatments in change from baseline in number of valid responses from RVIP task.||6.6|1.1|
92447269|NCT01686646|184781765|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9||||0.0696|TWO_SIDED|95.0|-0.2|6.1||A hierarchical testing procedure was used such that p-values were only presented if the preceding treatment comparison was statistically significant (p\<0.05).|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favored the first named treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of accurate responses from the RVIP.||6.1|-0.2|0.0696
92447270|NCT01686646|184781765|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7|||||TWO_SIDED|95.0|0.3|5.2||A hierarchical testing procedure was used such that p-values were only presented if the preceding treatment comparison was statistically significant (p\<0.05).|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favored the first named treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||5.2|0.3|
92447271|NCT01686646|184781765|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|||||TWO_SIDED|95.0|-1.7|3.9||A hierarchical testing procedure was used such that p-values were only presented if the preceding treatment comparison was statistically significant (p\<0.05).|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favored the first named treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||3.9|-1.7|
92447272|NCT01393743|184781774|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-30.81||||0.0001|TWO_SIDED|95.0|-45.49|-15.244||The P-value is based on a rank analysis of covariance with treatment and pooled country as factors, and prerandomization seizure frequency as a covariate.|ANCOVA|||The median difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.||-15.244|-45.49|0.0001
92447273|NCT01393743|184781775|SUPERIORITY_OR_OTHER|||||||0.0019||||||The P value is based on non-missing values and is from a Cochran-Mantel-Haenszel test stratified by pooled country.|Cochran-Mantel-Haenszel|||||||0.0019
92447274|NCT01393743|184781777|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-23.45||||0.0018|TWO_SIDED|95.0|-40.668|-8.518||The P value is based on a rank analysis of covariance with treatment and pooled country as factors, and prerandomization seizure frequency as a covariate.|ANCOVA|||The median difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.||-8.518|-40.668|0.0018
92447275|NCT01393743|184781778|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-12.25||||0.3478|TWO_SIDED|95.0|-53.054|26.989||The P value is based on a rank analysis of covariance with treatment and pooled country as factors, and prerandomization seizure frequency as a covariate.|ANCOVA||The median difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|Median Difference to Placebo for Absence Seizures||26.989|-53.054|0.3478
92447276|NCT01393743|184781778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.87||||0.61|TWO_SIDED|95.0|-15.338|59.938|||ANCOVA|||Median Difference to Placebo for Myoclonic Seizure||59.938|-15.338|0.61
92447277|NCT01393743|184781779|SUPERIORITY_OR_OTHER|||||||0.1826||||||The P value is based on non-missing values and is from a Cochran-Mantel-Haenszel test stratified by pooled country.|Cochran-Mantel-Haenszel|||||||0.1826
92447278|NCT01393743|184781780|SUPERIORITY_OR_OTHER|||||||0.4653|||||||Cochran-Mantel-Haenszel|||P Value Compared to Placebo for Absence Seizures||||0.4653
92447279|NCT01393743|184781780|SUPERIORITY_OR_OTHER|||||||0.3694|||||||Cochran-Mantel-Haenszel|||P Value Compared to Placebo for Myoclonic Seizures||||0.3694
92447280|NCT05409235|184781784|SUPERIORITY||difference in percentage of participants|-1.064||||0.573|TWO_SIDED|90.0|-10.578|8.449|||Mantel Haenszel|MH test is adjusted for the randomization stratification factor (Screening DRSS score 47 or 53 or 61B).|A single imputation (non-response) when applying composite variable strategy. MI based for missing data at Week 24, assuming MAR when applying hypothetical strategy. Kept in the analysis when applying treatment policy strategy.|The study was powered to provide a 90% probability to detect a 20% difference between each treatment arm and the combined vehicle control.||8.449|-10.578|0.5730
92447281|NCT05409235|184781784|SUPERIORITY||difference in percentage of participants|-1.152||||0.575|TWO_SIDED|90.0|-11.178|8.874|||Mantel Haenszel|||||8.874|-11.178|0.5750
92447282|NCT05409235|184781785|SUPERIORITY||difference in percentage of participants|3.119||||0.7276|TWO_SIDED|90.0|-5.314|11.592|||Mantel Haenszel|||||11.592|-5.314|0.7276
92171992|NCT03690206|184234029|SUPERIORITY||Difference to Placebo|-2.28||||0.0039|TWO_SIDED|95.0|-3.83|-0.73|||Mixed Models Analysis|||||-0.73|-3.83|0.0039
92280606|NCT02688400|184463860|NON_INFERIORITY|"Non-inferiority of Diacerein versus Celecoxib was assessed by computing the difference in the adjusted mean change from baseline (Visit 2) in WOMAC Pain subscale score after 182 days of treatment between Diacerein and Celecoxib treatment groups from a MMRM.~Assuming that:~* Non inferiority margin of 10 points for the absolute change in WOMAC Pain Subscale Score (scale 0-100)~* SD of 26 in the two treatment groups,~* Type I error: α = 0.025 (one-sided condition) and power equal to 90%"|Mean Difference (Final Values)|0.67|||<|0.025|ONE_SIDED|95.0||3.18||MMRM. Non-inferiority claim:Diacerein to be non-inferior to Celecoxib if upper bound of the the difference in the adjusted mean change was inferior to 5 cm on the PPS.|Mixed Models Analysis|||||3.18||<0.025
92447283|NCT05409235|184781785|SUPERIORITY||difference in percentage of participants|5.779||||0.8492|TWO_SIDED|90.0|-3.424|14.982|||Mantel Haenszel|||||14.982|-3.424|0.8492
92171993|NCT03690206|184234029|SUPERIORITY||Difference to Placebo|-0.91||||0.27|TWO_SIDED|95.0|-2.52|0.71|||Mixed Models Analysis|||||0.71|-2.52|0.2700
92447284|NCT05409235|184781786|SUPERIORITY||difference in percentage of participants|-1.863||||0.3097|TWO_SIDED|90.0|-8.036|4.309|||Mantel Haenszel|||||4.309|-8.036|0.3097
92447285|NCT05409235|184781786|SUPERIORITY||difference in percentage of participants|-1.596||||0.3414|TWO_SIDED|90.0|-8.021|4.829|||Mantel Haenszel|||||4.829|-8.021|0.3414
92447286|NCT05409235|184781787|SUPERIORITY||Cox Proportional Hazard|0.899||||0.397|TWO_SIDED|90.0|0.4378|1.8467|||Log Rank|||||1.8467|0.4378|0.397
92447287|NCT05409235|184781787|SUPERIORITY||Cox Proportional Hazard|1.113||||0.605|TWO_SIDED|90.0|0.5596|2.2117|||Log Rank|||||2.2117|0.5596|0.605
92447288|NCT05409235|184781788|SUPERIORITY||difference in percentage of participants|-10.622||||0.0619|TWO_SIDED|90.0|-21.972|0.728|||Mantel Haenszel|||||0.728|-21.972|0.0619
92447289|NCT05409235|184781788|SUPERIORITY||difference in percentage of participants|-4.942||||0.2483|TWO_SIDED|90.0|-16.897|7.013|||Mantel Haenszel|||||7.013|-16.897|0.2483
92447290|NCT05409235|184781789|SUPERIORITY||Cox Proportional Hazard|0.807||||0.237|TWO_SIDED|90.0|0.4675|1.392|||Log Rank|||||1.3920|0.4675|0.237
92447291|NCT05409235|184781789|SUPERIORITY||Cox Proportional Hazard|1.279||||0.766|TWO_SIDED|90.0|0.7795|2.0981|||Log Rank|||||2.0981|0.7795|0.766
92171994|NCT03690206|184234030|SUPERIORITY||Difference to Placebo|26.6||||0.0243|TWO_SIDED|95.0|4.3|48.9|||Cochran-Mantel-Haenszel|||||48.9|4.3|0.0243
92171995|NCT03690206|184234030|SUPERIORITY||Difference to Placebo|5.5||||0.6255|TWO_SIDED|95.0|-16.2|27.1|||Cochran-Mantel-Haenszel|||||27.1|-16.2|0.6255
92447292|NCT05409235|184781790|SUPERIORITY||difference in percentage of participants|-6.389||||0.2022|TWO_SIDED|90.0|-18.994|6.215|||Mantel Haenszel|||||6.215|-18.994|0.2022
92447293|NCT05409235|184781790|SUPERIORITY||difference in percentage of participants|-1.043||||0.4476|TWO_SIDED|90.0|-14.07|11.984|||Mantel Haenszel|||||11.984|-14.070|0.4476
92447294|NCT05409235|184781791|SUPERIORITY||Hazard Ratio (HR)|0.843||||0.268|TWO_SIDED|90.0|0.533|1.334||log-rank test stratified by randomization stratification factor|Log Rank|||||1.334|0.533|0.268
92447295|NCT05409235|184781791|SUPERIORITY||Hazard Ratio (HR)|1.145||||0.304|TWO_SIDED|90.0|0.738|1.775|||Log Rank|||||1.775|0.738|0.304
92447296|NCT05409235|184781792|SUPERIORITY||Odds Ratio (OR)|1.102||||0.428|TWO_SIDED|90.0|0.4573|2.657|||odds ratio|Odds ratio and p-value are from a proportional odds model with covariates for treatment group and the randomization stratification factor||||2.6570|0.4573|0.428
92447297|NCT05409235|184781792|SUPERIORITY||Odds Ratio (OR)|1.119||||0.419|TWO_SIDED|90.0|0.45|2.7846|||odds ratio|Odds ratio and p-value are from a proportional odds model with covariates for treatment group and the randomization stratification factor||||2.7846|0.4500|0.419
92447298|NCT05409235|184781793|SUPERIORITY||difference in percentage of participants|-1.544||||0.6716|TWO_SIDED|90.0|-7.26|4.172|||Mantel Haenszel|||||4.172|-7.260|0.6716
92447299|NCT05409235|184781793|SUPERIORITY||difference in percentage of participants|-3.412||||0.8414|TWO_SIDED|90.0|-9.025|2.2|||Mantel Haenszel|||||2.200|-9.025|0.8414
92447300|NCT05409235|184781794|SUPERIORITY||Mean Difference (Net)|-0.5325||||0.647|TWO_SIDED|90.0|-2.8478|1.7827|||ANCOVA|||||1.7827|-2.8478|0.647
92447301|NCT05409235|184781794|SUPERIORITY||Mean Difference (Net)|-2.2849||||0.945|TWO_SIDED|90.0|-4.6356|0.0658|||ANCOVA|||||0.0658|-4.6356|0.945
92447302|NCT05409235|184781795|SUPERIORITY||Odds Ratio (OR)|1.108||||0.367|TWO_SIDED|90.0|0.6722|1.8276|||odds ratio|Odds ratio and p-value are from a proportional odds model with covariates for treatment group and the randomization stratification factor||||1.8276|0.6722|0.367
92447303|NCT05409235|184781795|SUPERIORITY||Odds Ratio (OR)|0.717||||0.857|TWO_SIDED|90.0|0.4295|1.1981|||odds ratio|Odds ratio and p-value are from a proportional odds model with covariates for treatment group and the randomization stratification factor||||1.1981|0.4295|0.857
92447304|NCT05409235|184781796|SUPERIORITY||Mean Difference (Net)|4.1531||||0.437|TWO_SIDED|90.0|-38.793|47.0991|||ANCOVA|||||47.0991|-38.7930|0.437
92447305|NCT05409235|184781796|SUPERIORITY||Mean Difference (Net)|-16.2461||||0.733|TWO_SIDED|90.0|-59.2538|26.7616|||ANCOVA|||||26.7616|-59.2538|0.733
92280607|NCT02688400|184463861|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
92447306|NCT05409235|184781797|SUPERIORITY||Mean Difference (Net)|4.0634||||0.77|TWO_SIDED|90.0|-4.9712|13.098|||ANCOVA|||||13.0980|-4.9712|0.770
92447307|NCT05409235|184781797|SUPERIORITY||Mean Difference (Net)|-1.0507||||0.424|TWO_SIDED|90.0|-10.1046|8.0032|||ANCOVA|||||8.0032|-10.1046|0.424
92447308|NCT05409235|184781798|SUPERIORITY||Mean Difference (Net)|0.0205||||0.606|TWO_SIDED|90.0|-0.1043|0.1452|||ANCOVA|||||0.1452|-0.1043|0.606
92447309|NCT05409235|184781798|SUPERIORITY||Mean Difference (Net)|0.0083||||0.544|TWO_SIDED|90.0|-0.1161|0.1326|||ANCOVA|||||0.1326|-0.1161|0.544
92447310|NCT05409235|184781799|SUPERIORITY||difference in percentage of participants|-1.544||||0.406|TWO_SIDED|90.0|-12.247|9.158|||Mantel Haenszel|||||9.158|-12.247|0.406
92447311|NCT05409235|184781799|SUPERIORITY||difference in percentage of participants|1.763||||0.605|TWO_SIDED|90.0|-9.114|12.64|||Mantel Haenszel|||||12.640|-9.114|0.605
92447312|NCT05409235|184781800|SUPERIORITY||Hazard Ratio (HR)|0.916||||0.404|TWO_SIDED|90.0|0.5068|1.6556|||Log Rank|||||1.6556|0.5068|0.404
92447313|NCT05409235|184781800|SUPERIORITY||Hazard Ratio (HR)|1.128||||0.624|TWO_SIDED|90.0|0.6399|1.9868|||Log Rank|||||1.9868|0.6399|0.624
92447314|NCT05409235|184781801|SUPERIORITY||Hazard Ratio (HR)|0.947||||0.478|TWO_SIDED|90.0|0.2473|3.6295|||Log Rank|Comparisons are made using the log-rank test stratified by randomization stratification factor.||||3.6295|0.2473|0.478
92447315|NCT05409235|184781801|SUPERIORITY||Hazard Ratio (HR)|1.296||||0.631|TWO_SIDED|90.0|0.3688|4.5512|||Log Rank|Comparisons are made using the log-rank test stratified by randomization stratification factor||||4.5512|0.3688|0.631
92447316|NCT05409235|184781802|SUPERIORITY||difference in percentage of participants|-13.7727||||0.045|TWO_SIDED|90.0|-27.1319|-0.4134|||Mantel Haenszel|||||-0.4134|-27.1319|0.0450
92447317|NCT05409235|184781802|SUPERIORITY||difference in percentage of participants|-3.8234||||0.3304|TWO_SIDED|90.0|-18.1549|10.5081|||Mantel Haenszel|||||10.5081|-18.1549|0.3304
92447318|NCT05409235|184781803|SUPERIORITY||difference in percentage of participants|-14.8877||||0.0275|TWO_SIDED|90.0|-27.6462|-2.1293|||Mantel Haenszel|||||-2.1293|-27.6462|0.0275
92447319|NCT05409235|184781803|SUPERIORITY||difference in percentage of participants|-7.5535||||0.179|TWO_SIDED|90.0|-21.0688|5.9617|||Mantel Haenszel|||||5.9617|-21.0688|0.1790
92447320|NCT00548808|184781879|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 0.4% for HbA1c was used.|Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.11||0.716|TWO_SIDED|95.0|-0.25|0.17|||ANCOVA|ANCOVA Model: Change in HbA1c = Treatment + Baseline + Country + Sulfonylurea use (Type III sums of squares).|Least Squares Mean Difference = Insulin Lispro LM minus Insulin Glargine.|||0.17|-0.25|0.716
92447321|NCT00548808|184781880|SUPERIORITY_OR_OTHER|||||||0.279||95.0||||P-value for 16 Week Change from Baseline.|Mixed Models Analysis|Mixed Model Analysis: Change in HbA1c = Treatment + Baseline + Country + Sulfonylurea use + Visit + Treatment\*Visit (Type 3 sums of squares).||||||0.279
92447322|NCT00548808|184781880|SUPERIORITY_OR_OTHER|||||||0.846||95.0||||P-value for 32 Week Change from Baseline.|Mixed Models Analysis|Mixed Model Analysis: Change in HbA1c = Treatment + Baseline + Country + Sulfonylurea use + Visit + Treatment\*Visit (Type 3 sums of squares).||||||0.846
92447323|NCT00548808|184781880|SUPERIORITY_OR_OTHER|||||||0.741||95.0||||P-value for 48 Week Change from Baseline.|Mixed Models Analysis|Mixed Model Analysis: Change in HbA1c = Treatment + Baseline + Country + Sulfonylurea use + Visit + Treatment\*Visit (Type 3 sums of squares).||||||0.741
92447324|NCT00548808|184781881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.465|TWO_SIDED|95.0|0.41|1.5||P-value for patients achieving HbA1c \<6.5% at 16 weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||1.50|0.41|0.465
92447325|NCT00548808|184781881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.365|TWO_SIDED|95.0|0.51|1.28||P-value for Patients Achieving HbA1c \<7% at 16 Weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||1.28|0.51|0.365
92447326|NCT00548808|184781881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.683|TWO_SIDED|95.0|0.65|1.95||P-value for patients achieving HbA1c \<6.5% at 32 weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||1.95|0.65|0.683
92240418|NCT00905307|184384223|SUPERIORITY_OR_OTHER||Relative risk|1.06||||0.854|TWO_SIDED|95.0|0.59|1.88||Derived using CMH test stratified by trial center.|Cochran-Mantel-Haenszel|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.88|0.59|0.8540
92447327|NCT00548808|184781881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.81|TWO_SIDED|95.0|0.68|1.64||P-value for patients achieving HbA1c \<7% at 32 weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||1.64|0.68|0.810
92447328|NCT00548808|184781881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.555|TWO_SIDED|95.0|0.69|2.01||P-value for patients achieving HbA1c \<6.5% at 48 weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||2.01|0.69|0.555
92447329|NCT00548808|184781881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.829|TWO_SIDED|95.0|0.67|1.64||P-value for patients achieving HbA1c \<7% at 48 weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||1.64|0.67|0.829
92447330|NCT00548808|184781883|SUPERIORITY_OR_OTHER|||||||0.604||95.0||||P-value for Week 16 Change from Baseline|Mixed Models Analysis|Mixed Model Analysis: Change in Blood Glucose = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use + Visit + Treatment\*Visit||||||0.604
92447331|NCT00548808|184781883|SUPERIORITY_OR_OTHER|||||||0.814||95.0||||P-value for Week 32 Change from Baseline.|Mixed Models Analysis|Mixed Model Analysis: Change in Blood Glucose = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use + Visit + Treatment\*Visit||||||0.814
92240419|NCT00905307|184384223|SUPERIORITY_OR_OTHER||Relative Risk|0.82||||0.4492|TWO_SIDED|95.0|0.49|1.38||Derived using CMH test stratified by trial center.|Cochran-Mantel-Haenszel|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||1.38|0.49|0.4492
92280608|NCT02688400|184463862|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
92447332|NCT00548808|184781883|SUPERIORITY_OR_OTHER|||||||0.582||95.0||||P-value for 48 Week Change from Baseline.|Mixed Models Analysis|Mixed Model Analysis: Change in Blood Glucose = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use + Visit + Treatment\*Visit||||||0.582
92171996|NCT03690206|184234031|SUPERIORITY||Difference to Placebo|31.7||||0.0043|TWO_SIDED|95.0|11.4|51.9|||Cochran-Mantel-Haenszel|||||51.9|11.4|0.0043
92171997|NCT03690206|184234031|SUPERIORITY||Difference to Placebo|13.3||||0.1675|TWO_SIDED|95.0|-5.4|32.0|||Cochran-Mantel-Haenszel|||||32.0|-5.4|0.1675
92171998|NCT03690206|184234033|SUPERIORITY||Difference to Placebo|14.1||||0.016|TWO_SIDED|95.0|2.5|25.6|||Cochran-Mantel-Haenszel|||||25.6|2.5|0.0160
92171999|NCT03690206|184234033|SUPERIORITY||Difference to Placebo|11.2||||0.0424|TWO_SIDED|95.0|0.7|21.6|||Cochran-Mantel-Haenszel|||||21.6|0.7|0.0424
92172000|NCT06143670|184234060|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||<0.0001
92172001|NCT06143670|184234061|SUPERIORITY||Adjusted Mean Difference|-16.9|STANDARD_ERROR_OF_MEAN|1.4|<|0.0001|TWO_SIDED|95.0|-19.6|-14.1|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-14.1|-19.6|<0.0001
92172002|NCT06143670|184234062|SUPERIORITY||Adjusted Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|1.46|<|0.0001|TWO_SIDED|95.0|-18.9|-13.1|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-13.1|-18.9|<0.0001
92172003|NCT06143670|184234062|SUPERIORITY||Adjusted Mean Difference|-17.6|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-19.9|-15.3|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-15.3|-19.9|<0.0001
92172004|NCT06143670|184234063|SUPERIORITY||Adjusted Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001|TWO_SIDED|95.0|-0.35|-0.2|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.20|-0.35|<0.0001
92240420|NCT00905307|184384223|SUPERIORITY_OR_OTHER||Relative Risk|0.67||||0.1854|TWO_SIDED|95.0|0.36|1.23||Derived using CMH test stratified by trial center.|Cochran-Mantel-Haenszel|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.23|0.36|0.1854
92447333|NCT00548808|184781886|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.08||0.162|TWO_SIDED|95.0|-0.26|0.04||P-value for Cholesterol.|ANCOVA|ANCOVA model: Lab Result = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use (Type III sums of squares).|Least Squares Mean Difference = Insulin Lispro LM minus Insulin Glargine.|||0.04|-0.26|0.162
92280609|NCT02688400|184463863|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92447334|NCT00548808|184781886|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.09||0.165|TWO_SIDED|95.0|-0.3|0.05||P-value for Triglycerides.|ANCOVA|ANCOVA model: Lab Result = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use (Type III sums of squares).|Least Squares Mean Difference = Insulin Lispro LM minus Insulin Glargine.|||0.05|-0.30|0.165
92447335|NCT00548808|184781886|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.51|TWO_SIDED|95.0|-0.18|0.09||P-value for Low Density Lipoprotein.|ANCOVA|ANCOVA model: Lab Result = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use (Type III sums of squares).|Least Squares Mean Difference = Insulin Lispro LM minus Insulin Glargine.|||0.09|-0.18|0.510
92447336|NCT00548808|184781886|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.382|TWO_SIDED|95.0|-0.02|0.06||P-value for High Density Lipoprotein.|ANCOVA|ANCOVA model: Lab Result = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use (Type III sums of squares).|Least Squares Mean Difference = Insulin Lispro LM minus Insulin Glargine.|||0.06|-0.02|0.382
92447337|NCT00120042|184781913|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||We planned that up to 300 women would be recruited. This sample size would achieve 80% poer at a 5% significance level to detect a reduction from 40% placental retention rate with no specific therapy (Group 1) to 20% with Group 2 or 3. An interim analysis was planned after 240 women had been recruited.||||0.05
92447338|NCT00120042|184781914|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92172005|NCT06143670|184234063|SUPERIORITY||Adjusted Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|-0.26|-0.13|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.13|-0.26|<0.0001
92172006|NCT06143670|184234063|SUPERIORITY||Adjusted Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|-0.36|-0.22|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.22|-0.36|<0.0001
92172007|NCT06143670|184234064|SUPERIORITY||Adjusted Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.28|-0.16|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.16|-0.28|<0.0001
92172008|NCT06143670|184234064|SUPERIORITY||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|-0.21|-0.1|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.10|-0.21|<0.0001
92172009|NCT06143670|184234064|SUPERIORITY||Adjusted Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.3|-0.18|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.18|-0.30|<0.0001
92280610|NCT02688400|184463864|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Chi-squared|||||||0.05
92172010|NCT06143670|184234065|SUPERIORITY||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|-0.15|-0.1|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.10|-0.15|<0.0001
92172011|NCT06143670|184234065|SUPERIORITY||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.17|-0.13|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.13|-0.17|<0.0001
92172012|NCT06143670|184234065|SUPERIORITY||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|-0.16|-0.11|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.11|-0.16|<0.0001
92172013|NCT06143670|184234066|SUPERIORITY||Adjusted Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|-0.74|-0.53|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.53|-0.74|<0.0001
92172014|NCT06143670|184234066|SUPERIORITY||Adjusted Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|-0.74|-0.56|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.56|-0.74|<0.0001
92172015|NCT06143670|184234066|SUPERIORITY||Adjusted Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001|TWO_SIDED|95.0|-0.77|-0.58|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.58|-0.77|<0.0001
92447339|NCT00844545|184781942|SUPERIORITY_OR_OTHER||LS mean change from baseline|65.18|||<|0.0001|TWO_SIDED|95.0|37.01|93.36|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||With at least 12 patients enrolled and assuming a null hypothesis of no post-dose change from baseline in mean platelet count, the study had approximately 88% power to detect as statistically significant an effect size (mean change from baseline/standard deviation) of at least 1 when using a one sample t-test with a two-sided α=0.05. All analyses were based on the pooled data from the two protocols: C08-002A (adult) and C08-002B (adolescent), a similar protocol, for patients \<18 years with aHUS.||93.36|37.01|<0.0001
92447340|NCT00844545|184781943|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|82.0|||||TWO_SIDED|95.0|57.0|96.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||96|57|
92447341|NCT00844545|184781944|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|76.0|||||TWO_SIDED|95.0|50.0|93.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||93|50|
92447342|NCT00844545|184781945|SUPERIORITY_OR_OTHER||Percent of complete TMA response|65.0|||||TWO_SIDED|95.0|38.0|86.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||86|38|
92447343|NCT00844545|184781946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||||<0.0001
92447344|NCT00844545|184781947|SUPERIORITY_OR_OTHER||LS mean change from baseline|111.62|||<|0.0001|TWO_SIDED|95.0|98.12|125.13|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||125.13|98.12|<0.0001
92447345|NCT00844545|184781948|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|88.0|||||TWO_SIDED|95.0|64.0|99.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||99|64|
92447346|NCT00844545|184781949|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|88.0|||||TWO_SIDED|95.0|64.0|99.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||99|64|
92172016|NCT00837369|184234072|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0||||Compare the differences in sensitivity between myocardial perfusion and wall motion for detecting stenosis.|Chi-squared|||||||<0.001
92172017|NCT00837369|184234072|SUPERIORITY||||||<|0.001||||||Compare the sensitivity of myocardial perfusion in detecting stenosis within the first 4 minutes after regadenoson bolus injection to that of wall motion|Chi-squared|||||||<0.001
92172018|NCT05343390|184234084|SUPERIORITY||Mean Difference (Final Values)|20.6|||<|0.001|TWO_SIDED|95.0|16.1|25.1|||Regression, Linear|A linear model fit using generalized estimating equations to account for correlated observations within clusters.||||25.1|16.1|<0.001
92172019|NCT05343390|184234085|SUPERIORITY||Mean Difference (Final Values)|11.1|||<|0.001|TWO_SIDED|95.0|5.9|16.4|||Regression, Linear|A linear model fit using generalized estimating equations to account for correlated observations within clusters.||||16.4|5.9|<0.001
92172020|NCT05343390|184234086|SUPERIORITY||Rate Ratio|1.22||||0.14|TWO_SIDED|95.0|0.93|1.6|||Mixed Models Analysis|Negative binomial mixed-effect model||||1.60|0.93|0.14
92172021|NCT05343390|184234087|SUPERIORITY||Rate Ratio|1.37||||0.006|TWO_SIDED|95.0|1.1|1.71|||Mixed Models Analysis|Negative binomial mixed-effect model||||1.71|1.10|0.006
92280611|NCT02688400|184463865|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Chi-squared|||||||0.05
92447347|NCT00844545|184781950|SUPERIORITY_OR_OTHER||Percent of complete TMA response|76.0|||||TWO_SIDED|95.0|50.0|93.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||93|50|
92447348|NCT00844545|184781951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||||<0.0001
92447349|NCT01126541|184781954|NON_INFERIORITY_OR_EQUIVALENCE|Primary objective to demonstrate noninferiority of retreatment with one 1000 mg rituximab infusion. Mean ±SD of the DAS28-CRP AUC at 24 months = 2218 ±967 (based on EDWARDS, REFLEX and DANCER study data). H0 (null hypothesis): Arm B - Arm A \>20%. H1: Arm B - Arm A ≤ 20%. Power = 80%; Larger difference clinically acceptable = 20% = 444; Significance level of 2.5% (one-sided).||||||0.465|||||||Wilcoxon (Mann-Whitney)|||Change from Day 1 to Week 24 (initial treatment)||||0.465
92447350|NCT01126541|184781954|NON_INFERIORITY_OR_EQUIVALENCE|Primary objective to demonstrate noninferiority of retreatment with one 1000 mg rituximab infusion. Mean ±SD of the DAS28-CRP AUC at 24 months = 2218 ±967 (based on EDWARDS, REFLEX and DANCER study data). H0 (null hypothesis): Arm B - Arm A \>20%. H1: Arm B - Arm A ≤ 20%. Power = 80%; Larger difference clinically acceptable = 20% = 444; Significance level of 2.5% (one-sided)||||||0.161|||||||Wilcoxon (Mann-Whitney)|||Arm A vs. Arm B: Change from 1st retreatment to 24 weeks after||||0.161
92447351|NCT01126541|184781954|NON_INFERIORITY_OR_EQUIVALENCE|Primary objective to demonstrate noninferiority of retreatment with one 1000 mg rituximab infusion. Mean ±SD of the DAS28-CRP AUC at 24 months = 2218 ±967 (based on EDWARDS, REFLEX and DANCER study data). H0 (null hypothesis): Arm B - Arm A \>20%. H1: Arm B - Arm A ≤ 20%. Power = 80%; Larger difference clinically acceptable = 20% = 444; Significance level of 2.5% (one-sided)||||||0.524|||||||Student t-test|||Arm A vs. Arm B: Change from 2nd retreatment to 24 weeks after||||0.524
92447352|NCT01126541|184781955|NON_INFERIORITY_OR_EQUIVALENCE|Primary objective to demonstrate noninferiority of retreatment with one 1000 mg rituximab infusion. Mean plus or minus (±)SD of the DAS28-CRP AUC at 24 months = 2218 ±967 (based on EDWARDS, REFLEX and DANCER study data). H0 (null hypothesis): Arm B - Arm A \>20%. H1: Arm B - Arm A ≤ 20%. Power = 80%; Larger difference clinically acceptable = 20% = 444; Significance level of 2.5% (one-sided)|Adjusted difference|51.38|STANDARD_DEVIATION|92.0|||TWO_SIDED|95.0|-131.22|233.98|||||Covariate analysis with baseline DAS28-CRP value as covariate|||233.98|-131.22|
92240421|NCT00905307|184384223|SUPERIORITY_OR_OTHER||Relative Risk|0.61||||0.0946|TWO_SIDED|95.0|0.33|1.1||Derived using CMH test stratified by trial center.|Cochran-Mantel-Haenszel|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.10|0.33|0.0946
92280612|NCT02688400|184463866|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
92447353|NCT01126541|184781975|SUPERIORITY_OR_OTHER|||||||0.389|||||||Wilcoxon (Mann-Whitney)|||Day 1 to Week 104||||0.389
92447354|NCT01126541|184781975|SUPERIORITY_OR_OTHER|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||1st retreatment to Week 104||||0.374
92447355|NCT01126541|184781975|SUPERIORITY_OR_OTHER|||||||0.277|||||||Wilcoxon (Mann-Whitney)|||Weel 24 to Week 104||||0.277
92447356|NCT01126541|184781976|SUPERIORITY_OR_OTHER|||||||0.278|||||||Wilcoxon (Mann-Whitney)|||Total cortisone: Week 24 to Week 104||||0.278
92447357|NCT01126541|184781976|SUPERIORITY_OR_OTHER|||||||0.887|||||||Wilcoxon (Mann-Whitney)|||Oral cortisone: Week 24 to Week 104||||0.887
92447358|NCT01126541|184781976|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||IV cortisone: Week 24 to Week 104||||<0.001
92447359|NCT04589559|184782000|OTHER|Paired-samples t-test|Mean change score|-1.5||||0.152|TWO_SIDED|95.0|-3.67|0.67|||t-test, 2 sided|Paired-samples t-test|A negative value of the estimation parameter of mean change score indicates a reduction in cardiac-related interoceptive fear.|||0.67|-3.67|0.152
92447360|NCT04589559|184782001|OTHER|Paired-samples t-test|Mean change score|-6.2||||0.031|TWO_SIDED|95.0|-11.71|-0.69|||t-test, 2 sided|Paired-samples t-test|A negative value of the estimation parameter of mean change score indicates a reduction in trait anxiety.|||-0.69|-11.71|0.031
92447361|NCT04589559|184782002|OTHER|Paired-samples t-test|Mean change score|-1.9||||0.323|TWO_SIDED|95.0|-6.01|2.21|||t-test, 2 sided|Paired-samples t-test|A negative value of the estimation parameter of mean change score indicates a reduction in negative affect.|||2.21|-6.01|0.323
92447362|NCT04589559|184782003|OTHER|Paired-samples t-test|Mean change in the measure|0.58||||0.112|TWO_SIDED|95.0|-0.16|1.33|||t-test, 2 sided|Paired-samples t-test|A positive value of the estimation parameter of mean change in the measure indicates an increase in heart rate variability.|||1.33|-0.16|0.112
92447363|NCT04456699|184782015|SUPERIORITY||Hazard Ratio (HR)|1.41||||0.9774|TWO_SIDED|95.0|1.0|1.97|||Log Rank|One-sided p-value based on log-rank test stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|||1.97|1.00|0.9774
92447364|NCT04456699|184782015|SUPERIORITY||Hazard Ratio (HR)|1.75||||0.9993|TWO_SIDED|95.0|1.23|2.49|||Log Rank|One-sided p-value based on log-rank test stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|||2.49|1.23|0.9993
92447365|NCT04456699|184782016|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.1527|TWO_SIDED|95.0|0.54|1.21|||Log Rank|One-sided p-value based on log-rank test stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|||1.21|0.54|0.1527
92447366|NCT04456699|184782016|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.2491|TWO_SIDED|95.0|0.59|1.3|||Log Rank|One-sided p-value based on log-rank test stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|||1.30|0.59|0.2491
92280613|NCT02688400|184463867|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
92447367|NCT04456699|184782017|SUPERIORITY||Difference in Percentage|-0.2||||0.5272|TWO_SIDED|95.0|-7.0|6.5|||Miettinen and Nurminen|Based on stratified Miettinen \& Nurminen method. One-sided p-value for testing H0: difference in % = 0 versus H1: difference in % \> 0.|Based on Miettinen \& Nurminen method stratified by prior FOLFOX/CAPOX + Bev induction response, cycles and mutation status.|||6.5|-7.0|0.5272
92447368|NCT04456699|184782017|SUPERIORITY||Difference in Percentage|-3.2||||0.902|TWO_SIDED|95.0|-9.7|2.3|||Miettinen & Nurminen|Based on stratified Miettinen \& Nurminen method. One-sided p-value for testing H0: difference in % = 0 versus H1: difference in % \> 0.|Based on Miettinen \& Nurminen method stratified by prior FOLFOX/CAPOX + Bev induction response, cycles and mutation status.|||2.3|-9.7|0.9020
92280614|NCT02688400|184463868|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
92447369|NCT02114879|184782021|SUPERIORITY|||||||0.007||||||The p-value refers to the time by group interaction. The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Marginal Model|||This Primary analysis used a marginal model with time (baseline and discharge), condition (EMR vs SOC), and time x condition as fixed effects, with an unstructured covariance structure specified, based on Bayesian information criteria (BIC).||||0.007
92447370|NCT02114879|184782022|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92447371|NCT02114879|184782023|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
92447372|NCT02114879|184782024|SUPERIORITY|||||||0.96||||||The p-value refers to the time by group interaction. The statistical significance in this test was p\<0.05.|Mixed Models Analysis|||This Primary analysis used a marginal model with time (baseline and discharge), condition (EMR vs SOC), and time x condition as fixed effects, with an unstructured covariance structure specified, based on Bayesian information criteria (BIC).||||0.96
92447373|NCT02114879|184782025|SUPERIORITY|||||||0.37||||||The p-value is calculated from a 2x2 Contingency Table consisting of rows that represent Discharged Home Vs Discharged to Institution and columns that represent the EMR and SOC groups.|Chi-squared|||||||0.37
92447374|NCT02114879|184782026|SUPERIORITY|||||||0.85||||||The p-value is calculated from a 2x2 Contingency Table consisting of rows that represent Yes/No Rehospitalization and columns that represent the EMR and SOC groups.|Chi-squared|||||||0.85
92240422|NCT00905307|184384223|SUPERIORITY_OR_OTHER||Relative Risk|0.63||||0.2133||95.0|0.3|1.34||Derived using CMH test stratified by trial center.|Cochran-Mantel-Haenszel|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.34|0.30|0.2133
92240423|NCT03015610|184384238|SUPERIORITY|||||||0.8716|||||||Wilcoxon (Mann-Whitney)|||||||0.8716
92240424|NCT03015610|184384239|SUPERIORITY|||||||0.2471|||||||Wilcoxon (Mann-Whitney)|||||||0.2471
92240425|NCT03015610|184384240|SUPERIORITY|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
92240426|NCT03015610|184384241|SUPERIORITY|||||||0.2765|||||||Wilcoxon (Mann-Whitney)|||||||0.2765
92240427|NCT03015610|184384242|SUPERIORITY||Risk Ratio (RR)|2.32||||0.191|TWO_SIDED|95.0|0.66|8.2|||Negative binomial regression|||||8.20|0.66|0.191
92280615|NCT03068273|184463881|SUPERIORITY|||||||0.146|||||||Regression, Linear|||||||0.1460
92172022|NCT05343390|184234088|SUPERIORITY||Rate Ratio|2.29||||0.013|TWO_SIDED|95.0|1.19|4.4|||Mixed Models Analysis|Negative binomial mixed-effect model||||4.40|1.19|0.013
92447375|NCT04847674|184782066|OTHER||LS mean difference|-0.027||||0.7914|TWO_SIDED|95.0|-0.2276|0.174|||Mixed Models Analysis|||Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1740|-0.2276|0.7914
92447376|NCT04847674|184782066|OTHER||LS mean difference|-0.011||||0.9115|TWO_SIDED|95.0|-0.2126|0.19|||Mixed Models Analysis|||Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1900|-0.2126|0.9115
92447377|NCT04847674|184782068|OTHER||LS mean difference|0.026||||0.6001|TWO_SIDED|95.0|-0.0733|0.1261|||Mixed Models Analysis||Change from baseline in FEV1 over 12 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1261|-0.0733|0.6001
92447378|NCT04847674|184782068|OTHER||LS mean difference|0.027||||0.5922|TWO_SIDED|95.0|-0.0732|0.1276|||Mixed Models Analysis||Change from baseline in FEV1 over 12 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1276|-0.0732|0.5922
92447379|NCT04847674|184782068|OTHER||LS mean difference|0.027||||0.6017|TWO_SIDED|95.0|-0.0744|0.1277|||Mixed Models Analysis||Change from baseline in FEV1 over 16 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1277|-0.0744|0.6017
92447380|NCT04847674|184782068|OTHER||LS mean difference|0.022||||0.6664|TWO_SIDED|95.0|-0.0796|0.1239|||Mixed Models Analysis||Change from baseline in FEV1 over 16 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1239|-0.0796|0.6664
92447381|NCT04847674|184782069|OTHER||Hodges-Lehmann (HL) estimator|0.4||||0.7261|TWO_SIDED|95.0|-2.33|3.31|||Wilcoxon (Mann-Whitney)||Change from baseline in weekly average of rescue medication use over 12 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using Wilcoxon rank-sum test stratified on randomization stratification factors.||3.31|-2.33|0.7261
92447382|NCT04847674|184782069|OTHER||HL estimator|-0.5||||0.765|TWO_SIDED|95.0|-3.56|3.32|||Wilcoxon (Mann-Whitney)||Change from baseline in weekly average of rescue medication use over 12 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using Wilcoxon rank-sum test stratified on randomization stratification factors.||3.32|-3.56|0.7650
92447383|NCT04847674|184782069|OTHER||HL estimator|0.2||||0.7942|TWO_SIDED|95.0|-2.44|3.04|||Wilcoxon (Mann-Whitney)||Change from baseline in weekly average of rescue medication use over 16 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using Wilcoxon rank-sum test stratified on randomization stratification factors.||3.04|-2.44|0.7942
92447384|NCT04847674|184782069|OTHER||HL estimator|-0.8||||0.6147|TWO_SIDED|95.0|-3.81|2.55|||Wilcoxon (Mann-Whitney)||Change from baseline in weekly average of rescue medication use over 16 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using Wilcoxon rank-sum test stratified on randomization stratification factors.||2.55|-3.81|0.6147
92447385|NCT04847674|184782071|OTHER||LS mean difference|-0.083||||0.4394|TWO_SIDED|95.0|-0.2971|0.1301|||Mixed Models Analysis|||Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1301|-0.2971|0.4394
92447386|NCT04847674|184782071|OTHER||LS mean difference|-0.089||||0.4051|TWO_SIDED|95.0|-0.302|0.1231|||Mixed Models Analysis|||Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1231|-0.3020|0.4051
92447387|NCT04847674|184782074|OTHER||LS mean difference|0.093||||0.3485|TWO_SIDED|95.0|-0.1031|0.2893|||Mixed Models Analysis||Change from baseline in FEF25-75 over 12 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEF25-75 as a covariate.||0.2893|-0.1031|0.3485
92447388|NCT04847674|184782074|OTHER||LS mean difference|0.033||||0.7432|TWO_SIDED|95.0|-0.1644|0.2296|||Mixed Models Analysis||Change from baseline in FEF25-75 over 12 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEF25-75 as a covariate.||0.2296|-0.1644|0.7432
92172023|NCT05343390|184234089|SUPERIORITY||Rate Ratio|1.45||||0.01|TWO_SIDED|95.0|1.1|1.92|||Mixed Models Analysis|Negative binomial mixed-effect model||||1.92|1.10|0.01
92172024|NCT05343390|184234090|SUPERIORITY||Rate Ratio|1.28||||0.12|TWO_SIDED|95.0|0.94|1.76|||Mixed Models Analysis|Negative binomial mixed-effect model||||1.76|0.94|0.12
92240428|NCT03015610|184384243|SUPERIORITY||Risk Ratio (RR)|0.53||||0.0435|TWO_SIDED|95.0|0.29|0.98|||Negative binomial regression|||||0.98|0.29|0.0435
92240429|NCT03015610|184384244|SUPERIORITY|||||||0.3808|||||||Wilcoxon (Mann-Whitney)|||||||0.3808
92240430|NCT01417780|184384279|OTHER|||||||0.016|||||||ANOVA|||||||0.016
92240431|NCT01417780|184384280|OTHER|||||||0.019|||||||Chi-squared|||The null hypothesis was that the frequency of Day 14 SOFA score less than or equal to 1 was not different among treatment groups.||||0.019
92172025|NCT00739648|184234097|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.7282|TWO_SIDED|90.0|0.86|1.39|||Regression, Linear|negative binomial regression model||||1.39|0.86|0.7282
92240432|NCT01417780|184384281|OTHER|||||||0.11||||||Wilcoxon p value represents comparison of active dose groups versus placebo group.|Wilcoxon (Mann-Whitney)|||||||0.11
92240433|NCT01417780|184384282|OTHER|||||||0.18||||||Wilcoxon p value represents comparison of active dose groups versus placebo group.|Wilcoxon (Mann-Whitney)|||||||0.18
92240434|NCT01417780|184384283|OTHER|||||||0.19||||||Wilcoxon p value represents comparison of active dose groups versus placebo group.|Wilcoxon (Mann-Whitney)|||||||0.19
92240435|NCT02086565|184384284|SUPERIORITY||Group differences in expected 12 month c|-0.21|||||TWO_SIDED|95.0|-0.56|0.15||||||||0.15|-0.56|
92240436|NCT02086565|184384285|SUPERIORITY||Group differences in expected 12 month c|0.19|||||TWO_SIDED|95.0|-0.27|0.68|||||Estimation parameter: Other. Group differences in expected 12 month change from baseline|||0.68|-0.27|
92240437|NCT02086565|184384286|SUPERIORITY||Group differences in expected 12 month c|-0.6|||||TWO_SIDED|95.0|-2.21|0.97||||||||0.97|-2.21|
92240438|NCT02086565|184384287|SUPERIORITY||Group differences in expected 12 month c|-0.53|||||TWO_SIDED|95.0|-1.08|-0.24||||||||-0.24|-1.08|
92240439|NCT02086565|184384288|SUPERIORITY||Group differences in expected 12 month c|-0.09|||||TWO_SIDED|95.0|-0.24|0.06||||||||0.06|-0.24|
92240440|NCT01757704|184384291|SUPERIORITY_OR_OTHER||Median Difference (Net)|56.0|||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
92240441|NCT00325442|184384296|SUPERIORITY_OR_OTHER||Hodges-Lehmann|11.0||||0.072|TWO_SIDED|95.0|0.0|22.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||22|0|0.072
92240442|NCT00325442|184384297|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|0.0||||0.062|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Change in Borg dyspnea score from Baseline to Week 16||0.0|-1.0|0.062
92240443|NCT00325442|184384298|SUPERIORITY_OR_OTHER|||||||0.491||95.0|||||Fisher Exact|||||||0.491
92172026|NCT00739648|184234099|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-15.2||||0.9768|TWO_SIDED|90.0|-27.8|-2.66|||Mixed Models Analysis|||||-2.66|-27.8|0.9768
92447389|NCT04847674|184782074|OTHER||LS mean difference|0.087||||0.4014|TWO_SIDED|95.0|-0.118|0.292|||Mixed Models Analysis||Change from baseline in FEF25-75 over 16 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEF25-75 as a covariate.||0.2920|-0.1180|0.4014
92447390|NCT04847674|184782074|OTHER||LS mean difference|0.01||||0.9259|TWO_SIDED|95.0|-0.196|0.2153|||Mixed Models Analysis||Change from baseline in FEF25-75 over 16 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEF25-75 as a covariate.||0.2153|-0.1960|0.9259
92447391|NCT04847674|184782076|OTHER||LS mean difference|0.0||||0.9829|TWO_SIDED|95.0|-0.43|0.42|||Mixed Models Analysis||Change from baseline in ACQ-6 at Week 12: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACQ-6 as a covariate.||0.42|-0.43|0.9829
92447392|NCT04847674|184782076|OTHER||LS mean difference|0.1||||0.6302|TWO_SIDED|95.0|-0.32|0.52|||Mixed Models Analysis||Change from baseline in ACQ-6 at Week 12: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACQ-6 as a covariate.||0.52|-0.32|0.6302
92447393|NCT04847674|184782076|OTHER||LS mean difference|-0.1||||0.6707|TWO_SIDED|95.0|-0.54|0.35|||Mixed Models Analysis||Change from baseline in ACQ-6 at Week 16: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACQ-6 as a covariate.||0.35|-0.54|0.6707
92447394|NCT04847674|184782076|OTHER||LS mean difference|0.0||||0.994|TWO_SIDED|95.0|-0.44|0.43|||Mixed Models Analysis||Change from baseline in ACQ-6 at Week 16: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACQ-6 as a covariate.||0.43|-0.44|0.9940
92447395|NCT04847674|184782077|OTHER||LS mean difference|-0.7||||0.4683|TWO_SIDED|95.0|-2.71|1.26|||Mixed Models Analysis||Change from baseline in ACT at Week 12: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACT as a covariate.||1.26|-2.71|0.4683
92447396|NCT04847674|184782077|OTHER||LS mean difference|-1.2||||0.2239|TWO_SIDED|95.0|-3.16|0.75|||Mixed Models Analysis||Change from baseline in ACT at Week 12: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACT as a covariate.||0.75|-3.16|0.2239
92447397|NCT04847674|184782077|OTHER||LS mean difference|-0.6||||0.5389|TWO_SIDED|95.0|-2.51|1.32|||Mixed Models Analysis||Change from baseline in ACT at Week 16: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACT as a covariate.||1.32|-2.51|0.5389
92447398|NCT04847674|184782077|OTHER||LS mean difference|-0.9||||0.3564|TWO_SIDED|95.0|-2.75|1.0|||Mixed Models Analysis||Change from baseline in ACT at Week 16: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACT as a covariate.||1.00|-2.75|0.3564
92447399|NCT04847674|184782078|OTHER||LS mean difference|-0.2||||0.4436|TWO_SIDED|95.0|-0.62|0.27|||Mixed Models Analysis||Change from baseline in AQLQT at Week 12: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline AQLQ as a covariate.||0.27|-0.62|0.4436
92447400|NCT04847674|184782078|OTHER||LS mean difference|-0.1||||0.597|TWO_SIDED|95.0|-0.56|0.32|||Mixed Models Analysis||Change from baseline in AQLQT at Week 12: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline AQLQ as a covariate.||0.32|-0.56|0.5970
92447401|NCT04847674|184782078|OTHER||LS mean difference|-0.2||||0.3769|TWO_SIDED|95.0|-0.68|0.26|||Mixed Models Analysis||Change from baseline in AQLQT at Week 16: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline AQLQ as a covariate.||0.26|-0.68|0.3769
92447402|NCT04847674|184782078|OTHER||LS mean difference|-0.2||||0.4595|TWO_SIDED|95.0|-0.64|0.29|||Mixed Models Analysis||Change from baseline in AQLQT at Week 16: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline AQLQ as a covariate.||0.29|-0.64|0.4595
92447403|NCT00689481|184782108|SUPERIORITY_OR_OTHER|||||||0.016|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.016
92447404|NCT00689481|184782108|SUPERIORITY_OR_OTHER|||||||0.843|||||||Breslow-Day test|Breslow-Day test of the homogeneity of the odds ratio using a 0.1 significance level.||Consistency of results across investigative centers was verified using the Breslow-Day test of homogeneity the odds ration using a significance level of 0.1||||0.843
92447405|NCT00689481|184782109|SUPERIORITY_OR_OTHER|||||||0.034|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.034
92447406|NCT00689481|184782110|SUPERIORITY_OR_OTHER|||||||0.004||||||P-value is significant based on the Holm stepwise closed testing procedure to control multiplicity for the key secondary analyses if primary analysis was significant.|Cochran-Mantel-Haenszel|Stratified by pooled center.||||||0.004
92447407|NCT00689481|184782111|SUPERIORITY_OR_OTHER|||||||0.052|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.052
92447408|NCT00689481|184782112|SUPERIORITY_OR_OTHER|||||||0.033|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.033
92447409|NCT00689481|184782113|SUPERIORITY_OR_OTHER|||||||0.859|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||Comparison of calcipotriene foam and vehicle foam for patients who had mild disease at baseline||||0.859
92240444|NCT00325442|184384299|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|0.0||||0.011|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon sum-rank test|||Change in dyspnea-fatigue index from Baseline to Week 16||1.0|0.0|0.011
92240445|NCT00325442|184384301|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|13.0||||0.015|TWO_SIDED|95.0|3.0|23.0|||ANCOVA|||Change in 6MWD from Baseline to Week 12||23.0|3.0|0.015
92240446|NCT00325442|184384302|SUPERIORITY_OR_OTHER||Hodges-Lehmann|9.0||||0.051|TWO_SIDED|95.0|0.0|18.0|||ANCOVA|||Change in 6MWD from Baseline to Week 8||18.0|0.0|0.051
92240447|NCT00325442|184384303|SUPERIORITY_OR_OTHER||Hodges-Lehmann ( H-L)|4.0||||0.238|TWO_SIDED|95.0|-2.4|12.0|||ANCOVA|||Change in 6MWD from Baseline to Week 4||12.0|-2.4|0.238
92240448|NCT00325442|184384304|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|24.0||||0.121|TWO_SIDED|95.0|0.0|45.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||45|0|0.121
92240449|NCT00325442|184384305|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|15.0||||0.069|TWO_SIDED|95.0|-7.0|41.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||41|-7|0.069
92240450|NCT00325442|184384306|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|4.0||||0.889|TWO_SIDED|95.0|-15.0|24.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||24|-15|0.889
92240451|NCT00325442|184384307|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|0.0||||0.966|TWO_SIDED|95.0|-23.0|24.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||24|-23|0.966
92240452|NCT00325442|184384309|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|5.0||||0.853|TWO_SIDED|95.0|-16.0|28.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||28|-16|0.853
92240453|NCT00325442|184384310|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|7.0||||0.327|TWO_SIDED|95.0|-7.0|21.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||21|-7|0.327
92240454|NCT00325442|184384311|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|29.5||||0.085|TWO_SIDED|95.0|1.0|73.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||73|1|0.085
92240455|NCT00325442|184384312|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|5.0||||0.615|TWO_SIDED|95.0|-12.0|24.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||24|-12|0.615
92240456|NCT00325442|184384313|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|17.0||||0.23|TWO_SIDED|95.0|-6.0|40.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||40|-6|0.230
92240457|NCT00325442|184384314|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|10.0||||0.209|TWO_SIDED|95.0|-6.0|28.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||28|-6|0.209
92240458|NCT02650284|184384459|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.46||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at pre-operation timepoint.||||0.46
92240459|NCT02650284|184384459|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.23||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at 6-week timepoint.||||0.23
92240460|NCT02650284|184384459|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.1||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at 3-month timepoint.||||0.10
92240461|NCT02650284|184384459|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.98||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at 12-month timepoint.||||0.98
92240462|NCT02650284|184384459|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.5||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at 24-month timepoint.||||0.50
92240463|NCT02650284|184384460|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.59||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D Index preoperatively between both groups.||||0.59
92240464|NCT02650284|184384460|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.9||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D index at 3-months between both groups.||||0.90
92280616|NCT03068273|184463881|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
92240465|NCT02650284|184384460|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.57||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D index at 12-months between both groups.||||0.57
92240466|NCT02650284|184384460|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.49||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D index at 24-months between both groups.||||0.49
92280617|NCT03068273|184463881|SUPERIORITY||Mean Difference (Net)|6.338|STANDARD_ERROR_OF_MEAN|4.331|<|0.05|TWO_SIDED||||||Regression, Linear|||||||<0.05
92280618|NCT03068273|184463882|SUPERIORITY||Mean Difference (Net)|9.141|STANDARD_ERROR_OF_MEAN|4.838||0.0615|TWO_SIDED||||||Regression, Linear|||||||0.0615
92280619|NCT03068273|184463883|SUPERIORITY||Mean Difference (Net)|11.257|STANDARD_ERROR_OF_MEAN|4.775||0.0404|TWO_SIDED||||||Regression, Linear|||||||0.0404
92280620|NCT03068273|184463884|SUPERIORITY||Mean Difference (Net)|0.155|STANDARD_ERROR_OF_MEAN|0.354||0.268|TWO_SIDED||||||Regression, Linear|||||||0.2680
92280621|NCT03068273|184463885|SUPERIORITY||Mean Difference (Net)|-11.412|STANDARD_ERROR_OF_MEAN|4.839||0.0403|TWO_SIDED||||||Regression, Linear|||||||0.0403
92280622|NCT02207231|184463901|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||<0.001
92240467|NCT02650284|184384460|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means||||||0.65||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D VAS preoperatively between both groups.||||0.65
92447410|NCT00689481|184782113|SUPERIORITY_OR_OTHER|||||||0.015|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||Comparison of calcipotriene foam and vehicle foam for patients who had moderate disease at baseline||||0.015
92447411|NCT03337724|184782114|SUPERIORITY||Stratified Hazard Ratio|1.02||||0.9237|TWO_SIDED|95.0|0.71|1.45|||Log Rank||Stratification variables were: prior adjuvant/neoadjuvant chemotherapy (yes vs. no), region, tumor PIK3CA/AKT1/PTEN alteration status (PIK3CA/AKT1-activating mutations vs. PTEN alterations with no PIK3CA/AKT1-activating mutations).|||1.45|0.71|0.9237
92447412|NCT03337724|184782115|SUPERIORITY||Stratified Hazard Ratio|1.0||||0.9965|TWO_SIDED|95.0|0.71|1.4|||Log Rank||Stratification variables were: prior adjuvant/neoadjuvant chemotherapy (yes vs. no), region, prior therapy with a PI3K or mTOR inhibitor (yes vs. no).|||1.40|0.71|0.9965
92447413|NCT03337724|184782123|SUPERIORITY||Stratified Hazard Ratio|1.08|||||TWO_SIDED|95.0|0.73|1.58|||||Stratification was done prior adjuvant/neoadjuvant chemotherapy (yes vs. no), region, tumor PIK3CA/AKT1/PTEN alteration status (PIK3CA/AKT1-activating mutations vs. PTEN alterations with no PIK3CA/AKT1-activating mutations).|||1.58|0.73|
92447414|NCT03337724|184782123|SUPERIORITY||Stratified Hazard Ratio|0.94|||||TWO_SIDED|95.0|0.65|1.37|||||Stratification variables were: prior adjuvant/neoadjuvant chemotherapy (yes vs. no), region, prior therapy with a PI3K or mTOR inhibitor (yes vs. no).|||1.37|0.65|
92447415|NCT03337724|184782126|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.2162|TWO_SIDED|95.0|0.83|2.22|||Log Rank||Stratification variables were: prior adjuvant/neoadjuvant chemotherapy (yes vs. no), region, prior therapy with a PI3K or mTOR inhibitor (yes vs. no).||Stratified Analysis|2.22|0.83|0.2162
92447416|NCT02026115|184782153|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||||||.43
92447417|NCT02026115|184782154|SUPERIORITY|||||||0.02||||||Experimental group performed worse than usual care.|Mixed Models Analysis|||||||.02
92447418|NCT02026115|184782155|SUPERIORITY|||||||0.32|||||||Regression, Linear|||||||.32
92447419|NCT02026115|184782156|SUPERIORITY|||||||0.36|||||||Regression, Logistic|||||||.36
92447420|NCT02026115|184782157|SUPERIORITY|||||||0.01|||||||Regression, Linear|||||||.01
92447421|NCT02026115|184782158|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
92447422|NCT04084769|184782169|OTHER|95% Confidence Interval (CI) of the difference in percentage was calculated from the Wilson Score method without continuity correction.|Difference in percentage|1.65|||||TWO_SIDED|95.0|-3.58|6.95||||||Serogroup A||6.95|-3.58|
92447423|NCT04084769|184782169|OTHER|95% CI of the difference in percentage was calculated from the Wilson Score Method without continuity correction.|Difference in percentage|-1.74|||||TWO_SIDED|95.0|-5.5|1.6||||||Serogroup C||1.60|-5.50|
92447424|NCT04084769|184782169|OTHER|95% CI of the difference in percentage was calculated from the Wilson Score Method without continuity correction.|Difference in percentage|-1.15|||||TWO_SIDED|95.0|-4.09|1.14||||||Serogroup Y||1.14|-4.09|
92447425|NCT04084769|184782169|OTHER|95% CI of the difference in percentage was calculated from the Wilson Score Method without continuity correction.|Difference in percentage|-1.16|||||TWO_SIDED|95.0|-4.72|2.07||||||Serogroup W||2.07|-4.72|
92447426|NCT04477304|184782184|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|-0.12|-0.07||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Left-Censored Tobit Regression||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.07|-0.12|<0.001
92280623|NCT02207231|184463902|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||<0.001
92447427|NCT04477304|184782185|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|-0.23|-0.16||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Left-Censored Tobit Regression||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.16|-0.23|<0.001
92447428|NCT04477304|184782186|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|-0.1|-0.06||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.06|-0.10|<0.001
92447429|NCT04477304|184782187|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|-0.08|-0.03||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Left-Censored Tobit Regression||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.03|-0.08|<0.001
92447430|NCT04477304|184782188|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.392|TWO_SIDED|95.0|-0.03|-0.01||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.01|-0.03|0.392
92447431|NCT04477304|184782189|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|-0.13|-0.05||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Left-Censored Tobit Regression||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.05|-0.13|<0.001
92447432|NCT02782949|184782196|SUPERIORITY|||||||0.399|||||||Wilcoxon Rank-Sum test|||||||0.3990
92447433|NCT02782949|184782199|SUPERIORITY|||||||0.74|||||||Fisher Exact|||||||0.74
92240468|NCT02650284|184384460|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.3||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D VAS at 3-months between both groups.||||0.30
92240469|NCT02650284|184384460|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.06||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D VAS at 12-months between both groups.||||0.06
92240470|NCT02650284|184384460|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.44||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D VAS at 24-months between both groups.||||0.44
92240471|NCT02650284|184384461|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.97||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Rest preoperatively between both groups.||||0.97
92240472|NCT02650284|184384461|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.45||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Rest at 3-months between both groups.||||0.45
92240473|NCT02650284|184384461|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.64||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Rest at 12-months between both groups.||||0.64
92240474|NCT02650284|184384461|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.19||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Rest at 24-months between both groups.||||0.19
92240475|NCT02650284|184384461|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.57||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Mobilisation preoperatively between both groups.||||0.57
92240476|NCT02650284|184384461|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.98||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Mobilisation at 3-months between both groups.||||0.98
92240477|NCT02650284|184384461|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.58||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Mobilisation at 12-months between both groups.||||0.58
92240478|NCT02650284|184384461|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.16||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Mobilisation at 24-months between both groups.||||0.16
92240479|NCT02650284|184384462|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.62||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare New Knee Society Function Score preoperatively between both groups.||||0.62
92240480|NCT02650284|184384462|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.06||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare New Knee Society Function Score at 3-months between both groups.||||0.06
92240481|NCT02650284|184384462|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.93||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare New Knee Society Function Score at 24-months between both groups.||||0.93
92240482|NCT02650284|184384463|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.57||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at pre-operation timepoint.||||0.57
92240483|NCT02650284|184384463|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.17||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare FJS at 3-months between both groups.||||0.17
92280624|NCT02207231|184463903|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 24||||< 0.001
92280625|NCT02207231|184463903|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 48||||< 0.001
92240484|NCT02650284|184384463|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.8||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare FJS at 12-months between both groups.||||0.80
92447434|NCT03238911|184782205|SUPERIORITY||Risk Difference (RD)|-67.0|||<|0.0001|TWO_SIDED|95.0|-77.4|-51.5|||Cochran-Mantel-Haenszel||Iron isomaltoside/ferric derisomaltose was compared to ferric carboxymaltose by estimation of the risk difference and the associated 95% CI, adjusting for strata (underlying disease and screening s-phosphate) using the Cochran-Mantel-Haenszel method.|"Power:~The power was set to 80%. Assuming incidences of 15% for iron isomaltoside/ferric derisomaltose and 40% for ferric carboxymaltose, 49 subjects in each treatment group were required to detect a difference between the treatment groups. The significance level was set to 5%."||-51.5|-77.4|<0.0001
92447435|NCT03238911|184782206|SUPERIORITY|||||||0.8979|||||||Log Rank|||The time with hypophosphatemia from baseline to day 35 was estimated by a Kaplan-Meier plot. The treatment groups were compared by a log-rank test. Only subjects who had one or more s-phosphate value(s) \<2 mg/dL were included.||||0.8979
92447436|NCT03238911|184782207|SUPERIORITY||Risk Difference (RD)|-39.2|||<|0.0001|TWO_SIDED|95.0|-52.2|-23.3|||Cochran-Mantel-Haenszel|||Iron isomaltoside/ferric derisomaltose will be compared to ferric carboxymaltose by estimation of the risk difference and the associated 95 % CI, adjusting for strata (type of underlying disease (women with IDA due to gynaecological blood losses; yes/no) and screening s-phosphate level (\< or ≥ 3.5 mg/dL)) using the Cochran-Mantel-Haenszel method.||-23.3|-52.2|<0.0001
92447437|NCT03238911|184782208|SUPERIORITY||Mean Difference (Final Values)|0.48|||<|0.0001|TWO_SIDED|95.0|0.31|0.65|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.65|0.31|<0.0001
92447438|NCT03238911|184782208|SUPERIORITY||Mean Difference (Final Values)|1.06|||<|0.0001|TWO_SIDED|95.0|0.85|1.27|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.27|0.85|<0.0001
92447439|NCT03238911|184782208|SUPERIORITY||Mean Difference (Final Values)|1.03|||<|0.0001|TWO_SIDED|95.0|0.81|1.25|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.25|0.81|<0.0001
92240485|NCT02650284|184384463|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.9||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare FJS at 24-months between both groups.||||0.90
92240486|NCT02650284|184384465|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.81||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare length of hospital stay (number of nights) between both groups.||||0.81
92240487|NCT04525222|184384466|OTHER||Slope|0.42||||0.0088|TWO_SIDED|95.0|0.1|0.74|||Regression, Linear|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||"Treatment satisfaction items are reported on a Likert-type scale, with response choices ranging from not at all to very much. We used a linear regression adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), and Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5) to test for differences between arms."||0.74|0.10|0.0088
92240488|NCT04525222|184384467|OTHER||Slope|2.92||||0.75|TWO_SIDED|95.0|-15.22|21.07|||Negative Binomial Regression|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||21.07|-15.22|0.75
92280626|NCT02207231|184463904|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 24||||< 0.001
92172027|NCT00739648|184234100|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.3||||0.9464|TWO_SIDED|90.0|-24.9|0.26|||Mixed Models Analysis|||||0.26|-24.9|0.9464
92172028|NCT04173663|184234107|SUPERIORITY||Slope|-3.27||||0.092|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the parental empowerment scale.||||||.092
92172029|NCT04173663|184234108|SUPERIORITY||Slope|-1.62||||1.54e-05|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||||||.0000154
92172030|NCT04173663|184234109|SUPERIORITY||Slope|-0.19||||0.014|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||||||.014
92172031|NCT04173663|184234110|SUPERIORITY||Slope|-0.13||||0.883|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||||||0.883
92172032|NCT04173663|184234111|SUPERIORITY||Slope|-0.11||||0.308|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of services family applied for (6 month post intervention)||||.308
92240489|NCT04525222|184384468|OTHER||Odds Ratio (OR)|1.33||||0.55|TWO_SIDED|95.0|0.5|3.48|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||3.48|0.5|0.55
92240490|NCT04525222|184384469|OTHER||Odds Ratio (OR)|1.63||||0.17|TWO_SIDED|95.0|0.8|3.32|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking \<20 Cigs/ \>=20 Cigs, Baseline Depression Severity PHQ-8\<5 / PHQ-8\>=5||||3.32|0.80|0.17
92240491|NCT04525222|184384470|OTHER||Odds Ratio (OR)|1.63||||0.25|TWO_SIDED|95.0|0.7|3.81|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||3.81|0.70|0.25
92240492|NCT04525222|184384471|OTHER||Odds Ratio (OR)|1.88||||0.07|TWO_SIDED|95.0|0.94|3.72||Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)|Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||3.72|0.94|0.07
92447440|NCT03238911|184782208|SUPERIORITY||Mean Difference (Final Values)|1.35|||<|0.0001|TWO_SIDED|95.0|1.1|1.6|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.60|1.10|<0.0001
92280627|NCT02207231|184463904|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 48||||< 0.001
92280628|NCT02207231|184463905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 24||||< 0.001
92447441|NCT03238911|184782208|SUPERIORITY||Mean Difference (Final Values)|1.03|||<|0.0001|TWO_SIDED|95.0|0.75|1.32|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.32|0.75|<0.0001
92447442|NCT03238911|184782208|SUPERIORITY||Mean Difference (Final Values)|1.13|||<|0.0001|TWO_SIDED|95.0|0.86|1.39|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.39|0.86|<0.0001
92447443|NCT03238911|184782209|SUPERIORITY||Mean Difference (Final Values)|15.55|||<|0.0001|TWO_SIDED|95.0|10.32|20.79|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||20.79|10.32|<0.0001
92447444|NCT03238911|184782209|SUPERIORITY||Mean Difference (Final Values)|33.23|||<|0.0001|TWO_SIDED|95.0|26.62|39.84|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||39.84|26.62|<0.0001
92447445|NCT03238911|184782209|SUPERIORITY||Mean Difference (Final Values)|32.78|||<|0.0001|TWO_SIDED|95.0|25.71|39.84|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||39.84|25.71|<0.0001
92447446|NCT03238911|184782209|SUPERIORITY||Mean Difference (Final Values)|42.11|||<|0.0001|TWO_SIDED|95.0|33.89|50.32|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||50.32|33.89|<0.0001
92240493|NCT04525222|184384472|OTHER||Odds Ratio (OR)|2.42||||0.04|TWO_SIDED|95.0|1.0|5.85|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||5.85|1.00|0.04
92240494|NCT04525222|184384473|OTHER||Odds Ratio (OR)|1.47||||0.25|TWO_SIDED|95.0|0.75|2.89|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||2.89|0.75|0.25
92172033|NCT04173663|184234111|SUPERIORITY||Slope|-0.11||||0.355|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of services family applied for (12 month post intervention)||||.355
92172034|NCT04173663|184234112|SUPERIORITY||Slope|-0.06||||0.699|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of government services family is receiving (6 month post intervention)||||.699
92280629|NCT02207231|184463905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 48||||< 0.001
92172035|NCT04173663|184234112|SUPERIORITY||Slope|-0.1||||0.573|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of government services the family is receiving (12 month post intervention)||||.573
92172036|NCT04173663|184234112|SUPERIORITY||Slope|-0.23||||0.43|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of direct services the family is receiving (6 month post intervention)||||.430
92172037|NCT04173663|184234112|SUPERIORITY||Slope|0.27||||0.391|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of direct services the family is receiving (12 month post intervention)||||.391
92172038|NCT04173663|184234113|SUPERIORITY||Slope|-0.44||||0.51|TWO_SIDED||||||Regression, Logistic|Logistic regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Whether participants were engaged or not engaged in vocational/educational activities (6 month post intervention)||||.510
92172039|NCT04173663|184234113|SUPERIORITY||Slope|0.64||||0.296|TWO_SIDED||||||Regression, Logistic|Logistic regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Whether participants were engaged or not engaged in vocational/educational activities (12 month post intervention)||||.296
92172040|NCT04173663|184234114|SUPERIORITY||Slope|-0.66||||0.361|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||||||.361
92240495|NCT04525222|184384474|OTHER||Odds Ratio (OR)|1.78||||0.17|TWO_SIDED|95.0|0.77|4.12|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||4.12|0.77|0.17
92172041|NCT04173663|184234115|SUPERIORITY||Slope|-0.08||||0.81|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of unmet service needs (6 month post intervention)||||.810
92240496|NCT04525222|184384475|OTHER||Odds Ratio (OR)|1.91||||0.15|TWO_SIDED|95.0|0.77|4.73|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||4.73|0.77|0.15
92240497|NCT04525222|184384476|OTHER||Odds Ratio (OR)|1.25||||0.68|TWO_SIDED|95.0|0.41|3.86|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||3.86|0.41|0.68
92172042|NCT04173663|184234115|SUPERIORITY||Slope|-0.13||||0.678|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of unmet service needs (12 month post intervention)||||.678
92172043|NCT04173663|184234116|SUPERIORITY||Slope|0.03||||0.924|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site and cohort,||||||.924
92172044|NCT04833777|184234130|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92172045|NCT04833777|184234131|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92172046|NCT04833777|184234132|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92172047|NCT04833777|184234133|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92240498|NCT04525222|184384477|OTHER||Odds Ratio (OR)|1.63||||0.21|TWO_SIDED|95.0|0.75|3.46|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||3.46|0.75|0.21
92172048|NCT04833777|184234134|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92172049|NCT04833777|184234135|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92172050|NCT04833777|184234136|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92172051|NCT04833777|184234137|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92172052|NCT04833777|184234138|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92172053|NCT04833777|184234139|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92172054|NCT04833777|184234140|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92172055|NCT04833777|184234141|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92172056|NCT04833777|184234142|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92172057|NCT04833777|184234143|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92280630|NCT02207231|184463906|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||p value is based on analysis of variance (ANOVA) model stratified by investigator site (pooled).||||< 0.001
92172058|NCT04833777|184234145|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92240499|NCT04525222|184384478|OTHER||Odds Ratio (OR)|1.63||||0.3|TWO_SIDED|95.0|0.63|4.19|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||4.19|0.63|0.30
92240500|NCT04525222|184384479|OTHER||Slope|-1.68||||0.0072|TWO_SIDED|95.0|-2.9|-0.46|||Regression, Linear|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||-0.46|-2.90|.0072
92172059|NCT04833777|184234146|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92172060|NCT04838262|184234186|OTHER|||||||0.57|||||||Regression, Linear|||||||0.57
92172061|NCT04838262|184234186|OTHER|||||||0.85|||||||Regression, Linear|||||||0.85
92240501|NCT04525222|184384480|OTHER||Odds Ratio (OR)|1.829||||0.177|TWO_SIDED|95.0|0.77|4.344|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||4.344|0.770|0.1770
92240502|NCT04525222|184384481|OTHER||Slope|3.62||||0.0025|TWO_SIDED|95.0|1.28|5.95|||Regression, Linear|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression, Baseline Activation Score||||5.95|1.28|0.0025
92172062|NCT03661840|184234244|SUPERIORITY||Mean Difference (Final Values)|3.9|STANDARD_ERROR_OF_MEAN|17.0||0.82|TWO_SIDED|95.0|-31.0|39.0||Unadjusted model comparing the mean difference (change from 12 weeks - baseline) in outcome by intervention group.|Regression, Linear|||Sample size was estimated using d= 0.61, with power at 0.80 and α = .05, two-tailed. It is assumed that the correlation between pre and post-test measures will be high at .5. With these parameters and using repeated measures ANOVA to evaluate treatment difference, sample size is powered for clinical outcomes at 92 participants; with an estimated 30% attrition and conservatively including the possibility of screening failures, a maximum sample of 140 participants will be targeted for enrollment.||39|-31|0.82
92172063|NCT03661840|184234245|SUPERIORITY||Mean Difference (Final Values)|12.0|STANDARD_ERROR_OF_MEAN|6.4||0.06|TWO_SIDED|95.0|-0.7|25.0||Unadjusted model comparing the change in outcome by intervention group|Regression, Linear|||||25|-0.7|0.06
92172064|NCT03661840|184234245|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.05|TWO_SIDED||||||ANOVA|||Sample size was estimated using d= 0.61, with power at 0.80 and α = .05, two-tailed. It is assumed that the correlation between pre and post-test measures will be high at .5. With these parameters and using repeated measures ANOVA to evaluate treatment difference, sample size is powered for clinical outcomes at 92 participants; with an estimated 30% attrition and conservatively including the possibility of screening failures, a maximum sample of 140 participants will be targeted for enrollment.||||0.05
92172065|NCT00792636|184234249|SUPERIORITY_OR_OTHER||Least-squares mean|-1.7|||||TWO_SIDED|95.0|-3.2|-0.3|||||Systolic Blood Pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||-0.3|-3.2|
92172066|NCT00792636|184234249|SUPERIORITY_OR_OTHER||Least-squares mean|-0.9|||||TWO_SIDED|95.0|-2.2|0.3|||||Diastolic Blood Pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||0.3|-2.2|
92240503|NCT00374907|184384487|SUPERIORITY_OR_OTHER||Adjusted Percent Difference|18.5||||0.035|TWO_SIDED|95.0|1.3|38.7||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted percent difference for saxagliptin 5 mg vs placebo in Week 12 (LOCF) to baseline ratio. Adjusted for baseline.|ANCOVA model: logarithm(post/pre) = logarithm(pre) treatment|||38.7|1.3|0.0350
92172067|NCT00792636|184234249|SUPERIORITY_OR_OTHER||Least-squares mean|-1.9|||||TWO_SIDED|95.0|-3.4|-0.4|||||Systolic Blood Pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||-0.4|-3.4|
92172068|NCT00792636|184234249|SUPERIORITY_OR_OTHER||Least-squares mean|-0.7|||||TWO_SIDED|95.0|-2.0|0.6|||||Diastolic blood pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||0.6|-2.0|
92447447|NCT03238911|184782209|SUPERIORITY||Mean Difference (Final Values)|32.28|||<|0.0001|TWO_SIDED|95.0|23.09|41.48|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||41.48|23.09|<0.0001
92240504|NCT00374907|184384488|SUPERIORITY_OR_OTHER||Adjusted Percent Difference|27.9||||0.0204|TWO_SIDED|95.0|4.2|57.1||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted percent difference for saxagliptin 5 mg vs placebo in Week 12 (LOCF) to baseline ratio. Adjusted for baseline.|ANCOVA model: logarithm(post/pre) = logarithm(pre) treatment|||57.1|4.2|0.0204
92240505|NCT04598165|184384505|SUPERIORITY||Risk Ratio (RR)|1.25||||0.314|TWO_SIDED|95.0|0.81|1.92||The primary intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and taking into account a 10% attrition. Multiple imputation with chain equations (MICE) was used to impute missing values for any outcome with greater than 10% missingness. Any variables associated with the outcome or outcome missingness were included in the imputation model.||1.92|0.81|0.314
92240506|NCT04598165|184384506|SUPERIORITY||Risk Ratio (RR)|1.36||||0.217|TWO_SIDED|95.0|0.84|2.21||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and taking into account a 10% attrition. Multiple imputation with chain equations (MICE) was used to impute missing values for any outcome with greater than 10% missingness. Any variables associated with the outcome or outcome missingness were included in the imputation model.||2.21|0.84|0.217
92240507|NCT04598165|184384507|SUPERIORITY||Risk Ratio (RR)|1.04||||0.064|TWO_SIDED|95.0|1.0|1.08||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.05 in early initiation of breast feeding assuming 80% uptake in controls.||1.08|1.00|0.064
92240508|NCT04598165|184384508|SUPERIORITY||Risk Ratio (RR)|0.99||||0.363|TWO_SIDED|95.0|0.98|1.01||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.05 in exclusive breast feeding assuming 80% uptake in controls.||1.01|0.98|0.363
92240509|NCT04598165|184384509|SUPERIORITY||Risk Ratio (RR)|1.01||||0.093|TWO_SIDED|95.0|1.0|1.02||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.11 in application of substances to the cord or delaying first bath assuming 50% in controls.||1.02|1.00|0.093
92240510|NCT04598165|184384510|SUPERIORITY||Risk Ratio (RR)|1.03||||0.353|TWO_SIDED|95.0|0.97|1.09||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.11 in application of substances to the cord or delaying first bath assuming 50% in controls.||1.09|0.97|0.353
92240511|NCT04598165|184384511|SUPERIORITY||Risk Ratio (RR)|1.14||||0.751|TWO_SIDED|95.0|0.5|2.61||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.53 in provision of Kangaroo Mother Care assuming 25% in controls.||2.61|0.50|0.751
92280631|NCT02207231|184463907|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= 10.0%|Difference in Percentage|19.3|||<|0.001|TWO_SIDED|95.0|12.9|25.7|||MH Z-test|||p value is based on 1-sided Mantel Haenszel (MH) Z-test adjusted for investigator site (pooled).||25.7|12.9|< 0.001
92280632|NCT02207231|184463907|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
92447448|NCT03238911|184782209|SUPERIORITY||Mean Difference (Final Values)|36.06|||<|0.0001|TWO_SIDED|95.0|27.33|44.78|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||44.78|27.33|<0.0001
92447449|NCT03238911|184782211|SUPERIORITY||Mean Difference (Final Values)|-105.74|||<|0.0001|TWO_SIDED|95.0|-131.04|-80.45|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-80.45|-131.04|<0.0001
92447450|NCT03238911|184782211|SUPERIORITY||Mean Difference (Final Values)|-60.76|||<|0.0001|TWO_SIDED|95.0|-82.95|-38.58|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-38.58|-82.95|<0.0001
92447451|NCT03238911|184782211|SUPERIORITY||Mean Difference (Final Values)|-293.23|||<|0.0001|TWO_SIDED|95.0|-368.15|-218.3|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-218.30|-368.15|<0.0001
92280633|NCT02207231|184463908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= 10.0%|Difference in Percentage|24.1|||<|0.001|TWO_SIDED|95.0|17.0|31.0|||MH Z-test|||p value is based on 1-sided MH Z-test adjusted for investigator site (pooled).||31.0|17.0|< 0.001
92447452|NCT03238911|184782211|SUPERIORITY||Mean Difference (Final Values)|-117.47|||<|0.0001|TWO_SIDED|95.0|-151.6|-83.33|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-83.33|-151.60|<0.0001
92447453|NCT03238911|184782211|SUPERIORITY||Mean Difference (Final Values)|-71.21|||<|0.0001|TWO_SIDED|95.0|-101.8|-40.61|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-40.61|-101.80|<0.0001
92447454|NCT03238911|184782211|SUPERIORITY||Mean Difference (Final Values)|-37.16|||<|0.0001|TWO_SIDED|95.0|-54.92|-19.39|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-19.39|-54.92|<0.0001
92447455|NCT03238911|184782212|SUPERIORITY||Mean Difference (Final Values)|-99.1|||<|0.0001|TWO_SIDED|95.0|-136.42|-61.76|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-61.76|-136.42|<0.0001
92447456|NCT03238911|184782212|SUPERIORITY||Mean Difference (Final Values)|-49.3|||<|0.0001|TWO_SIDED|95.0|-72.8|-25.9|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-25.90|-72.80|<0.0001
92447457|NCT03238911|184782212|SUPERIORITY||Mean Difference (Final Values)|-191.3|||<|0.0001|TWO_SIDED|95.0|-242.47|-140.09|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-140.09|-242.47|<0.0001
92447458|NCT03238911|184782212|SUPERIORITY||Mean Difference (Final Values)|-100.7|||<|0.0001|TWO_SIDED|95.0|-137.19|-64.2|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-64.20|-137.19|<0.0001
92447459|NCT03238911|184782212|SUPERIORITY||Mean Difference (Final Values)|-48.4|||<|0.0001|TWO_SIDED|95.0|-71.78|-24.96|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-24.96|-71.78|<0.0001
92447460|NCT03238911|184782212|SUPERIORITY||Mean Difference (Final Values)|-15.0||||0.1411|TWO_SIDED|95.0|-35.04|5.06|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||5.06|-35.04|0.1411
92172069|NCT00792636|184234250|SUPERIORITY_OR_OTHER||Least-squares mean|-2.1|||||TWO_SIDED|95.0|-3.4|-0.8|||||Systolic blood pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||-0.8|-3.4|
92280634|NCT02207231|184463908|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
92280635|NCT02207231|184463909|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= 10%|Difference in percentage|18.0|||<|0.001|TWO_SIDED|95.0|12.4|23.8|||MH Z-test|||p value is based on 1-sided MH Z-test adjusted for investigator site (pooled).||23.8|12.4|< 0.001
92172070|NCT00792636|184234250|SUPERIORITY_OR_OTHER||Least-squares mean|-1.5|||||TWO_SIDED|95.0|-2.6|-0.3|||||Diastolic blood pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||-0.3|-2.6|
92172071|NCT00792636|184234251|SUPERIORITY_OR_OTHER||Least-squares mean|0.4|||||TWO_SIDED|95.0|-1.6|2.4|||||Systolic Blood Pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||2.4|-1.6|
92240512|NCT04598165|184384512|SUPERIORITY||Risk Ratio (RR)|1.0||||0.431|TWO_SIDED|95.0|1.0|1.01||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson generalized estimating equations||n (%) are values at 6-week visit, and RR compares change over time for enrollment, 2- and 6-week visits. SMS group is the numerator.|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.04 in number of danger signs correctly named assuming median of 3 in controls.||1.01|1.00|0.431
92240513|NCT04598165|184384513|SUPERIORITY||Risk Ratio (RR)|1.03||||0.321|TWO_SIDED|95.0|0.98|1.08||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator.|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.11 in appropriate care seeking assuming 1 clinic visit in the 6-weeks postpartum for controls.||1.08|0.98|0.321
92240514|NCT04598165|184384514|SUPERIORITY||Risk Ratio (RR)|1.01||||0.65|TWO_SIDED|95.0|0.98|1.04||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson generalized estimating equations||n (%) are values at 6-week visit, and RR compares change over time for enrollment, 2- and 6-week visits. SMS group is the numerator.|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 0.76 in elevated depression symptoms assuming 19% in controls.||1.04|0.98|0.650
92240515|NCT04598165|184384515|SUPERIORITY||Coefficient|0.09||||0.071|TWO_SIDED|95.0|-0.007|0.18||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Linear generalized estimating equations||n (%) are values at 6-week visit, and RR compares change over time for enrollment, 2- and 6-week visits. SMS group is the numerator. Coefficient (95% CI) for linear GEE using enrollment, 2- and 6-week visits.|||0.18|-0.007|0.071
92280636|NCT02207231|184463909|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
92447461|NCT03238911|184782213|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.562|TWO_SIDED|95.0|-1.08|0.59|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.59|-1.08|0.5620
92447462|NCT03238911|184782213|SUPERIORITY||Mean Difference (Final Values)|1.75||||0.0126|TWO_SIDED|95.0|0.38|3.12|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||3.12|0.38|0.0126
92447463|NCT03238911|184782213|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.608|TWO_SIDED|95.0|-1.19|2.02|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||2.02|-1.19|0.6080
92172072|NCT00792636|184234251|SUPERIORITY_OR_OTHER||Least-squares mean|0.5|||||TWO_SIDED|95.0|-1.2|2.2|||||Diastolic blood pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||2.2|-1.2|
92172073|NCT00792636|184234252|SUPERIORITY_OR_OTHER||Least-squares mean|0.3|||||TWO_SIDED|95.0|-1.7|2.2|||||Systolic Blood Pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||2.2|-1.7|
92172074|NCT00792636|184234252|SUPERIORITY_OR_OTHER||Least-squares mean|0.8|||||TWO_SIDED|95.0|-0.9|2.5|||||Diastolic blood pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||2.5|-0.9|
92172075|NCT00792636|184234257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|0.9|2.6||||||||2.6|0.9|
92172076|NCT00792636|184234257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|0.9|2.6||||||||2.6|0.9|
92172077|NCT00792636|184234258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.6|1.7||||||||1.7|0.6|
92172078|NCT00792636|184234258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.7|2.2||||||||2.2|0.7|
92447464|NCT03238911|184782213|SUPERIORITY||Mean Difference (Final Values)|2.09||||0.0379|TWO_SIDED|95.0|0.12|4.05|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||4.05|0.12|0.0379
92240516|NCT04598165|184384516|SUPERIORITY||Coefficient|0.02||||0.19|TWO_SIDED|95.0|-0.01|0.04||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Linear generalized estimating equations||n (%) are values at 6-week visit, and RR compares change over time for enrollment, 2- and 6-week visits. SMS group is the numerator. Coefficient (95% CI) for linear GEE using enrollment, 2- and 6-week visits.|||0.04|-0.01|0.190
92240517|NCT00426751|184384517|NON_INFERIORITY_OR_EQUIVALENCE|For the assessment of differences between both treatment groups, a generalized model (under binomial probability distribution), adjusted for center, was applied.|Median Difference (Final Values)|2.1||||||90.0|-8.5|12.8||||||||12.8|-8.5|
92240518|NCT00426751|184384518|NON_INFERIORITY_OR_EQUIVALENCE|For the assessment of differences between both treatment groups a generalised model (under binomial probability distribution), adjusted for centre, was applied.|Mean Difference (Final Values)|6.8||||||95.0|-3.0|16.6|||||Analysis based on the ITT population confirmed the results observed in the PP population.|||16.6|-3.0|
92447465|NCT03238911|184782213|SUPERIORITY||Mean Difference (Final Values)|1.17||||0.2368|TWO_SIDED|95.0|-0.78|3.12|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||3.12|-0.78|0.2368
92447466|NCT03238911|184782213|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.8287|TWO_SIDED|95.0|-2.18|1.75|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.75|-2.18|0.8287
92447467|NCT03238911|184782214|SUPERIORITY||Mean Difference (Final Values)|24.27|||<|0.0001|TWO_SIDED|95.0|18.81|29.73|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||29.73|18.81|<0.0001
92447468|NCT03238911|184782214|SUPERIORITY||Mean Difference (Final Values)|15.75|||<|0.0001|TWO_SIDED|95.0|8.83|22.67|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||22.67|8.83|<0.0001
92447469|NCT03238911|184782214|SUPERIORITY||Mean Difference (Final Values)|20.14|||<|0.0001|TWO_SIDED|95.0|12.07|28.22|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||28.22|12.07|<0.0001
92172079|NCT00792636|184234259|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.1|13.6||||||||13.6|0.1|
92172080|NCT00792636|184234259|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8|||||TWO_SIDED|95.0|0.3|25.6||||||||25.6|0.3|
92280637|NCT02207231|184463910|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
92280638|NCT02207231|184463911|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||p value is based on ANOVA model stratified by investigator site (pooled).||||< 0.001
92172081|NCT00792636|184234260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.5|3.7||||||||3.7|0.5|
92172082|NCT00792636|184234260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||||TWO_SIDED|95.0|0.6|4.2||||||||4.2|0.6|
92172083|NCT00792636|184234261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.84|1.54||||||||1.54|0.84|
92172084|NCT00792636|184234261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|1.01|1.83||||||||1.83|1.01|
92172085|NCT00792636|184234262|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.65|1.21||||||||1.21|0.65|
92172086|NCT00792636|184234262|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.88|1.6||||||||1.60|0.88|
92172087|NCT05873751|184234304|OTHER||Calibrated VE|2.74|||||TWO_SIDED|95.0|-10.35|15.59|||||VE = 1 - HR\*100. The HRs were estimated by exponentiating the coefficient for the vaccine variable in the model. VE was adjusted for the covariates age, gender, and US census region.|||15.59|-10.35|
92172088|NCT05873751|184234305|OTHER||Calibrated VE|-2.2|||||TWO_SIDED|95.0|-23.5|13.85|||||VE = 1 - HR\*100. The HRs were estimated by exponentiating the coefficient for the vaccine variable in the model. VE was adjusted for the covariates age, gender, and US census region.|||13.85|-23.50|
92172089|NCT05873751|184234306|OTHER||Calibrated VE|2.74|||||TWO_SIDED|95.0|-10.35|15.59|||||VE = 1 - HR\*100. The HRs were estimated by exponentiating the coefficient for the vaccine variable in the model. VE was adjusted for the covariates age, gender, and US census region.|||15.59|-10.35|
92447470|NCT03238911|184782214|SUPERIORITY||Mean Difference (Final Values)|32.22|||<|0.0001|TWO_SIDED|95.0|25.49|38.96|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||38.96|25.49|<0.0001
92447471|NCT03238911|184782214|SUPERIORITY||Mean Difference (Final Values)|22.87|||<|0.0001|TWO_SIDED|95.0|14.79|30.95|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||30.95|14.79|<0.0001
92172090|NCT05873751|184234307|OTHER||Calibrated VE|-2.2|||||TWO_SIDED|95.0|-23.5|13.85|||||VE = 1 - HR\*100. The HRs were estimated by exponentiating the coefficient for the vaccine variable in the model. VE was adjusted for the covariates age, gender, and US census region.|||13.85|-23.50|
92240519|NCT01721408|184384537|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that the 2 treatments were equally effective, with cure rates of 75 % at the TOC assessment, the study was powered to ensure with 90% probability that the lower limit of a 2-sided 95% confidence interval (CI) for the true difference (tigecycline minus imipenem/cilastatin) in cure rates was greater than -15%.|Difference in percentage|-6.7||||0.0008|TWO_SIDED|95.0|-12.0|-1.4|||See method of CI||Used the asymptotic method corrected for continuity with normal distribution approximation. Non-inferiority test was conducted on the CE population. If non-inferiority was concluded, superiority test was conducted on both the CE and mITT populations.|||-1.4|-12.0|0.0008
92447472|NCT03238911|184782214|SUPERIORITY||Mean Difference (Final Values)|10.6||||0.0043|TWO_SIDED|95.0|3.39|17.82|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||17.82|3.39|0.0043
92447473|NCT03238911|184782215|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.0552|TWO_SIDED|95.0|-0.34|0.0|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.00|-0.34|0.0552
92447474|NCT03238911|184782215|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.0023|TWO_SIDED|95.0|-0.6|-0.13|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.13|-0.60|0.0023
92447475|NCT03238911|184782215|SUPERIORITY||Mean Difference (Final Values)|-0.51||||0.0008|TWO_SIDED|95.0|-0.8|-0.21|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.21|-0.80|0.0008
92447476|NCT03238911|184782215|SUPERIORITY||Mean Difference (Final Values)|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.11|-0.49|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.49|-1.11|<0.0001
92447477|NCT03238911|184782215|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.0006|TWO_SIDED|95.0|-1.01|-0.28|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.28|-1.01|0.0006
92240520|NCT01721408|184384538|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower limit of the 2-sided CI for the difference in cure rates between treatment groups (tigecycline minus imipenem/cilastatin) was greater than -15%.|Difference in percentage|-7.3||||0.0277|TWO_SIDED|95.0|-15.2|0.5|||See method of CI||CIs and p-values for between-group treatment difference in cure rate were calculated by the asymptotic method corrected for continuity with normal distribution approximation.|||0.5|-15.2|0.0277
92280639|NCT02207231|184463912|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
92172091|NCT01772472|184234316|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001||95.0|0.44|0.66|||Log Rank|||||0.66|0.44|<0.0001
92172092|NCT01772472|184234317|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001||95.0|0.44|0.66|||Log Rank|||||0.66|0.44|<0.0001
92172093|NCT01772472|184234318|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.44|0.66|||Log Rank|||||0.66|0.44|<.0001
92172094|NCT01772472|184234319|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.46|0.69|||Log Rank|||||0.69|0.46|<.0001
92172095|NCT01772472|184234320|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.0001||95.0|0.46|0.69|||Log Rank|||||0.69|0.46|<0.0001
92447478|NCT03238911|184782215|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.0014|TWO_SIDED|95.0|-0.94|-0.23|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.23|-0.94|0.0014
92447479|NCT03238911|184782216|SUPERIORITY||Mean Difference (Final Values)|-1.13||||0.7447|TWO_SIDED|95.0|-7.96|5.71|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||5.71|-7.96|0.7447
92447480|NCT03238911|184782216|SUPERIORITY||Mean Difference (Final Values)|-9.7||||0.0363|TWO_SIDED|95.0|-18.78|-0.63|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.63|-18.78|0.0363
92447481|NCT03238911|184782216|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.9242|TWO_SIDED|95.0|-10.56|9.59|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||9.59|-10.56|0.9242
92447482|NCT03238911|184782216|SUPERIORITY||Mean Difference (Final Values)|-11.17||||0.0602|TWO_SIDED|95.0|-22.84|0.49|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.49|-22.84|0.0602
92447483|NCT03238911|184782216|SUPERIORITY||Mean Difference (Final Values)|-18.2||||0.0008|TWO_SIDED|95.0|-28.68|-7.73|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-7.73|-28.68|0.0008
92447484|NCT03238911|184782216|SUPERIORITY||Mean Difference (Final Values)|-19.79||||0.0031|TWO_SIDED|95.0|-32.75|-6.83|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-6.83|-32.75|0.0031
92447485|NCT03238911|184782217|SUPERIORITY||Mean Difference (Final Values)|0.037||||0.267|TWO_SIDED|95.0|-0.029|0.104|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.104|-0.029|0.2670
92240521|NCT01721408|184384539|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower limit of the 2-sided CI for the difference in eradication rates between treatment groups (tigecycline minus imipenem/cilastatin) was greater than -15%.|Difference in percentage|-7.3||||0.0277|TWO_SIDED|95.0|-15.2|0.5|||See method of CI||CIs and p-values for between-group treatment difference in eradication rates were calculated by the asymptotic method corrected for continuity with normal distribution approximation.|||0.5|-15.2|0.0277
92280640|NCT01545076|184463961|SUPERIORITY||Difference in Percent|-24.6|||=|0.007|TWO_SIDED|95.0|-40.7|-6.21|||Fisher Exact|||||-6.21|-40.7|=0.007
92447486|NCT03238911|184782217|SUPERIORITY||Mean Difference (Final Values)|0.085||||0.004|TWO_SIDED|95.0|0.028|0.142|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.142|0.028|0.0040
92447487|NCT03238911|184782217|SUPERIORITY||Mean Difference (Final Values)|0.064||||0.0472|TWO_SIDED|95.0|0.001|0.127|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.127|0.001|0.0472
92447488|NCT03238911|184782217|SUPERIORITY||Mean Difference (Final Values)|0.101||||0.005|TWO_SIDED|95.0|0.031|0.171|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.171|0.031|0.0050
92447489|NCT03238911|184782217|SUPERIORITY||Mean Difference (Final Values)|0.101||||0.0061|TWO_SIDED|95.0|0.029|0.172|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.172|0.029|0.0061
92447490|NCT03238911|184782217|SUPERIORITY||Mean Difference (Final Values)|0.055||||0.1282|TWO_SIDED|95.0|-0.016|0.126|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.126|-0.016|0.1282
92447491|NCT03238911|184782219|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.4618|TWO_SIDED|95.0|-0.82|0.37|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.37|-0.82|0.4618
92447492|NCT03238911|184782219|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.366|TWO_SIDED|95.0|-0.54|0.2|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.20|-0.54|0.3660
92447493|NCT03238911|184782219|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.858|TWO_SIDED|95.0|-0.25|0.3|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.30|-0.25|0.8580
92447494|NCT03238911|184782219|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.0257|TWO_SIDED|95.0|0.05|0.74|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.74|0.05|0.0257
92447495|NCT03238911|184782219|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.0016|TWO_SIDED|95.0|0.19|0.77|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.77|0.19|0.0016
92280641|NCT01545076|184463961|SUPERIORITY||Difference in Percent|-30.4|||<|0.001|TWO_SIDED|95.0|-46.0|-12.2|||Fisher Exact|||||-12.2|-46.0|<0.001
92447496|NCT03238911|184782219|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.0185|TWO_SIDED|95.0|0.07|0.76|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.76|0.07|0.0185
92447497|NCT03238911|184782220|SUPERIORITY||Mean Difference (Final Values)|-14.84||||0.1922|TWO_SIDED|95.0|-37.26|7.57|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||7.57|-37.26|0.1922
92240522|NCT01721408|184384541|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower limit of the 2-sided CI for the difference in cure rates between treatment groups (tigecycline minus imipenem/cilastatin) was greater than -15%.|Difference in percentage|-6.0||||0.004|TWO_SIDED|95.0|-12.8|0.8|||See method of CI||Used the asymptotic method corrected for continuity with normal distribution approximation. Non-inferiority test was conducted on the CE population. If non-inferiority was concluded, superiority test was conducted on both the CE and mITT populations.|||0.8|-12.8|0.0040
92447498|NCT03238911|184782220|SUPERIORITY||Mean Difference (Final Values)|-18.28||||0.5601|TWO_SIDED|95.0|-80.24|43.68|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||43.68|-80.24|0.5601
92447499|NCT03238911|184782220|SUPERIORITY||Mean Difference (Final Values)|-71.02||||0.0459|TWO_SIDED|95.0|-140.74|-1.3|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-1.30|-140.74|0.0459
92447500|NCT03238911|184782220|SUPERIORITY||Mean Difference (Final Values)|-207.33|||<|0.0001|TWO_SIDED|95.0|-268.82|-145.84|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-145.84|-268.82|<0.0001
92447501|NCT03238911|184782220|SUPERIORITY||Mean Difference (Final Values)|-78.6||||0.001|TWO_SIDED|95.0|-124.81|-32.39|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-32.39|-124.81|0.0010
92447502|NCT03238911|184782220|SUPERIORITY||Mean Difference (Final Values)|-58.79||||0.0002|TWO_SIDED|95.0|-88.75|-28.82|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-28.82|-88.75|0.0002
92447503|NCT03238911|184782221|SUPERIORITY||Mean Difference (Final Values)|40.82|||<|0.0001|TWO_SIDED|95.0|26.3|55.33|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||55.33|26.30|<0.0001
92447504|NCT03238911|184782221|SUPERIORITY||Mean Difference (Final Values)|6.61||||0.0089|TWO_SIDED|95.0|1.69|11.53|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||11.53|1.69|0.0089
92447505|NCT03238911|184782221|SUPERIORITY||Mean Difference (Final Values)|-43.48|||<|0.0001|TWO_SIDED|95.0|-54.92|-32.03|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-32.03|-54.92|<0.0001
92172096|NCT01772472|184234321|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.46|0.69|||Log Rank|||||0.69|0.46|<.0001
92172097|NCT01772472|184234322|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001||95.0|0.48|0.7|||Log Rank|||||0.70|0.48|<0.0001
92240523|NCT04160468|184384542|SUPERIORITY||Risk Difference (RD)|-10.6||||0.392|TWO_SIDED|95.0|-33.6|12.4|||Fisher Exact|||||12.4|-33.6|0.392
92240524|NCT06018350|184384583|OTHER|||||||0.002|||||||McNemar|||||||0.002
92447506|NCT03238911|184782221|SUPERIORITY||Mean Difference (Final Values)|-1.68||||0.373|TWO_SIDED|95.0|-5.41|2.04|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||2.04|-5.41|0.3730
92447507|NCT03238911|184782221|SUPERIORITY||Mean Difference (Final Values)|-1.63||||0.4778|TWO_SIDED|95.0|-6.15|2.9|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||2.90|-6.15|0.4778
92447508|NCT03238911|184782221|SUPERIORITY||Mean Difference (Final Values)|-1.73||||0.3575|TWO_SIDED|95.0|-5.44|1.98|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.98|-5.44|0.3575
92447509|NCT03238911|184782222|SUPERIORITY||Risk Difference (RD)|-11.9||||0.005|TWO_SIDED|95.0|-20.1|-3.6|||Cochran-Mantel-Haenszel|||The rate difference with 95% Newcombe confidence interval, adjusted for stratum using the Cochran-Mantel-Haenszel method, could not be estimated due to lack of events. Thus, the unadjusted treatment difference is presented together with 95% Wald-based confidence interval. The p-value is based on the Cochran-Mantel-Haenszel statistics.||-3.6|-20.1|0.0050
92447510|NCT06893809|184782223|SUPERIORITY||Median Difference (Net)|10.0|STANDARD_DEVIATION|5.0||0.05|TWO_SIDED|95.0|10.0|20.0|||Kruskal-Wallis|||Sixty male patients scheduled for TURP surgery were divided into three equal groups. The results were evaluated at a 95% confidence interval, with significance set at p \< 0.05. This was achieved using SPSS 15.0. Between-group comparisons were performed using One-way ANOVA, Kruskal-Wallis, Wilcoxon Signed Ranks, and Friedman tests. Within-group comparisons used Wilcoxon Signed Ranks tests, and Friedman tests were used for differences over time.||20|10|0.05
92447511|NCT06893809|184782223|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0|>|0.05|TWO_SIDED|95.0|0.0|0.0||No adjustment for multiple comparisons was applied. Non-parametric method used due to ordinal scale structure.|Kruskal-Wallis||Patient and surgeon satisfaction were compared across study arms.|The aim of this analysis is to compare the three groups in terms of patient and surgeon satisfaction using a superiority approach. The null hypothesis is that there is no difference in satisfaction scores between the groups. Statistical significance was set at p \< 0.05.||0|0|>0.05
92447512|NCT06893809|184782225|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.05|TWO_SIDED|95.0|0.5|1.6|||Kruskal-Wallis|Non-parametric test used due to ordinal scale and non-normal distribution.|Sensory block levels compared across study arms using numerical dermatomal codes.|||1.6|0.5|0.05
92447513|NCT06893809|184782227|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.22|<|0.05|TWO_SIDED|95.0|0.07|0.93|||Kruskal-Wallis||Dermatomal regression levels were compared across groups at 60 minutes.|||0.93|0.07|<0.05
92447514|NCT02556710|184782234|SUPERIORITY|||||||0.94|||||||ANCOVA|Adjusted for baseline WOMAC Score||||||0.94
92240525|NCT01096446|184384587|NON_INFERIORITY_OR_EQUIVALENCE|The Chi Square satistical calculation was used for analysis.||||||0.011|TWO_SIDED|95.0|||||Chi-squared|||Four infants(44%)in the control group developed hypertriglyceridemia (\>200 mg/dl) while 100% of the infants in the experimental group developed hypertriglyceridemia (\>200 mg/dl) during the first week of life.||||0.011
92447515|NCT02556710|184782235|SUPERIORITY|||||||0.53|||||||ANCOVA|Adjusted for baseline WOMAC score||||||0.53
92447516|NCT02556710|184782236|SUPERIORITY|||||||0.35||||||Adjusted for baseline WOMAC Score.|ANCOVA|||||||0.35
92447517|NCT00368940|184782237|SUPERIORITY||Cohen D at week 12|0.6||||0.005|TWO_SIDED|95.0|0.13|1.06|||Mixed Models Analysis|||||1.06|0.13|0.005
92447518|NCT00368940|184782238|SUPERIORITY||Cohen D at week 12|0.67||||0.001|TWO_SIDED|95.0|0.2|1.14|||Mixed Models Analysis|||||1.14|0.20|0.001
92447519|NCT00368940|184782239|SUPERIORITY|||||||0.0268|||||||Wilcoxon (Mann-Whitney)|||||||0.0268
92447520|NCT00368940|184782240|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92447521|NCT03370341|184782246|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||The null hypothesis was that of no difference in levels of IA between Active and Sham stimulation. A paired samples t-test was performed with a significance level of 0.05 (two-tailed).||||.56
92240526|NCT02279524|184384603|SUPERIORITY||Difference in least square means|-3.09||||0.0655|TWO_SIDED|1.6|||||Mixed Models Analysis||||Post-Hoc Responder Analysis - was also carried out. See Post-Hoc analysis|||0.0655
92280642|NCT01545076|184463962|OTHER||Median Difference (Net)|0.0|||=|0.005|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank sum|||||0|-1|=0.005
92447522|NCT03370341|184782247|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||The null hypothesis was that of no difference in levels of IA between Active and Sham stimulation. A paired samples t-test was performed with a significance level of 0.05 (two-tailed).||||.38
92447523|NCT02573324|184782265|SUPERIORITY||Cox Proportional Hazard|1.02||||0.633|TWO_SIDED|95.0|0.82|1.26||Weighted log-rank P-value: Stratified Fleming-Harrington (ρ = 0, γ = 0.2) test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world, and EGFRvIII mutation status as covariates.|Terms abbreviated below: O6-methylguaninemethlytransferese (MGMT); Recursive Partitioning Analysis (RPA); EGFRde2-7 (EGFRvIII)||1.26|0.82|0.633
92240527|NCT02279524|184384603|SUPERIORITY||Difference in least square means|-3.32||||0.045|TWO_SIDED|1.6|||||Mixed Models Analysis||||Post-Hoc Responder Analysis - was also carried out. See Post-Hoc analysis|||0.0450
92240528|NCT02279524|184384604|SUPERIORITY||Odds Ratio (OR)|4.74||||0.0514|TWO_SIDED|95.0|0.99|22.66|||Regression, Logistic|The method used was a Baseline Adjusted Logistic Regression||||22.66|0.99|0.0514
92447524|NCT02573324|184782265|SUPERIORITY|||||||0.704||||||Log-rank P-value (1-sided): Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank|||||||0.704
92447525|NCT02573324|184782266|SUPERIORITY||Cox Proportional Hazard|0.97||||0.504|TWO_SIDED|95.0|0.76|1.24||Weighted log-rank P-value: Stratified Fleming-Harrington (ρ = 0, γ = 0.2) test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world, and EGFRvIII mutation status as covariates.|||1.24|0.76|0.504
92447526|NCT02573324|184782266|SUPERIORITY|||||||0.599||||||Log-rank P-value (1-sided): Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank|||||||0.599
92447527|NCT02573324|184782267|SUPERIORITY||Cox Proportional Hazard|1.17||||0.773|TWO_SIDED|95.0|0.76|1.8||Weighted log-rank P-value: Stratified Fleming-Harrington (ρ = 0, γ = 0.2) test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world, and EGFRvIII mutation status as covariates.|||1.80|0.76|0.773
92447528|NCT02573324|184782267|SUPERIORITY|||||||0.74||||||Log-rank P-value (1-sided): Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank|||||||0.740
92447529|NCT02573324|184782268|SUPERIORITY||Cox Proportional Hazard|0.95||||0.381|TWO_SIDED|95.0|0.71|1.27||Weighted log-rank P-value: Stratified Fleming-Harrington (ρ = 0, γ = 0.2) test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||1.27|0.71|0.381
92447530|NCT02573324|184782268|SUPERIORITY|||||||0.409||||||Log-rank P-value (1-sided): Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank|||||||0.409
92447531|NCT02573324|184782269|SUPERIORITY||Cox Proportional Hazard|0.84||||0.029|TWO_SIDED|95.0|0.7|1.01||Stratified log-rank test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||1.01|0.70|0.029
92447532|NCT02573324|184782270|SUPERIORITY||Cox Proportional Hazard|0.72||||0.002|TWO_SIDED|95.0|0.56|0.93||Stratified log-rank test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||0.93|0.56|0.002
92447533|NCT02573324|184782271|SUPERIORITY||Cox Proportional Hazard|1.329||||0.994|TWO_SIDED|95.0|1.087|1.626||Stratified log-rank test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||1.626|1.087|0.994
92447534|NCT02573324|184782272|SUPERIORITY||Cox Proportional Hazard|1.185||||0.938|TWO_SIDED|95.0|0.972|1.446||Stratified log-rank test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||1.446|0.972|0.938
92447535|NCT02573324|184782273|SUPERIORITY||Cox Proportional Hazard|1.136||||0.814|TWO_SIDED|95.0|0.921|1.402||Stratified log-rank test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||1.402|0.921|0.814
92240529|NCT02279524|184384604|SUPERIORITY||Odds Ratio (OR)|1.79||||0.4955|TWO_SIDED|95.0|0.33|9.61|||Regression, Logistic|||||9.61|0.33|0.4955
92447536|NCT03892889|184782338|OTHER||||||<|0.0001|TWO_SIDED|||||Paired t-test was used based on the prospective phase efficacy sample when applicable.|paired t-test|||||||<0.0001
92447537|NCT00630877|184782341|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92447538|NCT00630877|184782343|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Spearman rank-order correlation|||||||<0.0001
92447539|NCT00630877|184782344|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Spearman rank-order correlation|||||||<0.0001
92240530|NCT02279524|184384605|SUPERIORITY||Odds Ratio (OR)|1.88||||0.211|TWO_SIDED|95.0|0.7|5.04|||Regression, Logistic|||||5.04|0.70|0.2110
92240531|NCT02279524|184384605|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8425|TWO_SIDED|95.0|0.4|3.05|||Regression, Logistic|||||3.05|0.40|0.8425
92240532|NCT02279524|184384606|SUPERIORITY||Difference in least square means|-29.1|STANDARD_ERROR_OF_MEAN|6.4|<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.0001
92447540|NCT00630877|184782345|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Spearman rank-order correlation|||||||<0.0001
92447541|NCT00630877|184782346|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Spearman rank-order correlation|||||||<0.0001
92447542|NCT00630877|184782347|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Independent groups t-test|||||||0.002
92447543|NCT00630877|184782348|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Independent groups t-test|||||||<0.001
92447544|NCT02873923|184782361|OTHER||Correlation coefficient|0.66|||||TWO_SIDED|95.0|0.63|0.68|||||||As of today, the meta-analytic surrogacy evaluation scheme proposed by Buyse and Burzykowski et al. is considered as the most statistically rigorous method for the validation of surrogate endpoints. This approach requires individual-patient data (IPD) from multiple randomized clinical trials (RCT) with similar design and treatment to address surrogacy from a multi-level framework. At the patient level, the surrogate endpoint should be correlated and predictive of the final endpoint regardless of the treatment (individual level association). At the trial level, the treatment effect on the surrogate endpoint should be correlated and predictive of the treatment effect on the final endpoint (trial-level association). Individual-level and trial-level associations estimated using weighted linear regression and the two-stage model introduced by Buyse and Burzykowski.|0.68|0.63|
92447545|NCT02873923|184782362|OTHER||correlation coefficient|0.0|||||TWO_SIDED|95.0|0.0|0.005|||||||As of today, the meta-analytic surrogacy evaluation scheme proposed by Buyse and Burzykowski et al. is considered as the most statistically rigorous method for the validation of surrogate endpoints. This approach requires individual-patient data (IPD) from multiple randomized clinical trials (RCT) with similar design and treatment to address surrogacy from a multi-level framework. At the patient level, the surrogate endpoint should be correlated and predictive of the final endpoint regardless of the treatment (individual level association). At the trial level, the treatment effect on the surrogate endpoint should be correlated and predictive of the treatment effect on the final endpoint (trial-level association). Individual-level and trial-level associations estimated using weighted linear regression and the two-stage model introduced by Buyse and Burzykowski.|0.005|0.00|
92447546|NCT01639001|184782366|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.402|||<|0.0001|TWO_SIDED|95.0|0.286|0.565||The study was to be considered positive if the 1-sided log-rank test for PFS, stratified for baseline stratification factors (ECOG PS, ethnicity, and brain metastases) was significant at the 0.02496level.|1 sided stratified log-rank||Based on the Cox Proportional hazards model stratified by ECOG PS, ethnicity, and brain metastases. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of crizotinib.|The study was designed to test the null hypothesis H0: λ=1.0 versus the alternative hypothesis HA: λ \< 1.0, where λ is the hazard ratio (HR; Crizotinib/Chemotherapy). Evaluation of 160 PFS events in the 2 arms using a 1-sided log-rank test at the 0.025 level of significance was required to detect a HR of 0.64 with 80% power.||0.565|0.286|<0.0001
92447547|NCT01639001|184782367|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|41.869|||<|0.0001|TWO_SIDED|95.0|30.34|53.398||If the PFS endpoint was significant, ORR was to be considered significant if 2-sided p-value from Pearson chi-square test was \<= 0.04992.|2-sided pearson chi-square test||Treatment difference in ORR (%)|The confidence interval for the treatment difference was based on normal distribution.||53.398|30.340|<0.0001
92447548|NCT01639001|184782368|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.056||||0.6172|TWO_SIDED|95.0|0.734|1.521||If the PFS and ORR endpoints were significant, OS was to be considered significant if 1-sided, log-rank test stratified for ECOG, ethnicity and metastases was \<= 0.02496.|1 sided stratified log-rank||Based on the Cox Proportional hazards model stratified by ECOG PS, ethnicity, and brain metastases. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of crizotinib.|||1.521|0.734|0.6172
92447549|NCT01639001|184782369|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|8.906||||0.1204|TWO_SIDED|95.0|-2.275|20.086|||2-sided pearson chi-square test||Treatment Difference in DCR Rate (%)|The confidence interval for the treatment difference was based on normal distribution.||20.086|-2.275|0.1204
92447550|NCT01639001|184782373|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.348|||<|0.0001|TWO_SIDED|95.0|0.246|0.493|||1 sided unstratified log-rank||Based on the Cox Proportional hazards model.|||0.493|0.246|<0.0001
92447551|NCT01639001|184782374|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.669||||0.127|TWO_SIDED|95.0|0.335|1.338|||1 sided unstratified log-rank||Based on the Cox Proportional hazards model.|||1.338|0.335|0.1270
92447552|NCT01639001|184782375|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.277|||<|0.0001|TWO_SIDED|95.0|0.186|0.412|||1 sided unstratified log-rank||Based on the Cox Proportional hazards model.|||0.412|0.186|<0.0001
92447553|NCT01639001|184782376|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.432|||<|0.0001|TWO_SIDED|95.0|0.307|0.61||2-sided Hochberg adjusted p-values|2 sided unstratified log rank||Based on the Cox Proportional hazards model.|||0.610|0.307|<0.0001
92447554|NCT01639001|184782377|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.451|||<|0.0001|TWO_SIDED|95.0|3.79|11.11|||Mixed Models Analysis|||Analysis presented for QLQ-C30 Global QoL. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||11.11|3.79|<0.0001
92447555|NCT01639001|184782377|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.613||||0.014|TWO_SIDED|95.0|0.73|6.49|||Mixed Models Analysis|||Analysis presented for QLQ-C30 cognitive functioning. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||6.49|0.73|0.0140
92447556|NCT01639001|184782377|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.652||||0.2427|TWO_SIDED|95.0|-1.12|4.42|||Mixed Models Analysis|||Analysis presented for QLQ-C30 emotional functioning. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||4.42|-1.12|0.2427
92240533|NCT02279524|184384606|SUPERIORITY||Difference in least square means|-23.8|STANDARD_ERROR_OF_MEAN|6.3||0.0002|TWO_SIDED||||||Mixed Models Analysis|||||||0.0002
92447557|NCT01639001|184782377|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.7267|||<|0.0001|TWO_SIDED|95.0|4.15|9.3|||Mixed Models Analysis|||Analysis presented for QLQ-C30 physical functioning. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||9.30|4.15|<0.0001
92447558|NCT01639001|184782377|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.8109||||0.0003|TWO_SIDED|95.0|3.15|10.47|||Mixed Models Analysis|||Analysis presented for QLQ-C30 role functioning. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||10.47|3.15|0.0003
92447559|NCT01639001|184782377|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.594||||0.014|TWO_SIDED|95.0|1.13|10.06|||Mixed Models Analysis|||Analysis presented for QLQ-C30 social functioning. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||10.06|1.13|0.0140
92447560|NCT01639001|184782378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.0432||||0.0016|TWO_SIDED|95.0|-9.79|-2.3|||Mixed Models Analysis|||Analysis presented for QLQ-C30 appetite loss. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-2.30|-9.79|0.0016
92447561|NCT01639001|184782378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.5026||||0.0263|TWO_SIDED|95.0|0.53|8.47|||Mixed Models Analysis|||Analysis presented for QLQ-C30 constipation. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||8.47|0.53|0.0263
92447562|NCT01639001|184782378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|15.8085|||<|0.0001|TWO_SIDED|95.0|12.94|18.68|||Mixed Models Analysis|||Analysis presented for QLQ-C30 diarrhea. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||18.68|12.94|<0.0001
92447563|NCT01639001|184782378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.7449|||<|0.0001|TWO_SIDED|95.0|-11.3|-4.19|||Mixed Models Analysis|||Analysis presented for QLQ-C30 dyspnea. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-4.19|-11.30|<0.0001
92447564|NCT01639001|184782378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.4915||||0.0001|TWO_SIDED|95.0|-9.82|-3.17|||Mixed Models Analysis|||Analysis presented for QLQ-C30 fatigue. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-3.17|-9.82|0.0001
92447565|NCT01639001|184782378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-3.6165||||0.2099|TWO_SIDED|95.0|-9.27|2.04|||Mixed Models Analysis|||Analysis presented for QLQ-C30 financial difficulties. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||2.04|-9.27|0.2099
92447566|NCT01639001|184782378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.7756||||0.0004|TWO_SIDED|95.0|-10.49|-3.06|||Mixed Models Analysis|||Analysis presented for QLQ-C30 insomnia. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-3.06|-10.49|0.0004
92447567|NCT01639001|184782378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.519||||0.0902|TWO_SIDED|95.0|-5.43|0.4|||Mixed Models Analysis|||Analysis presented for QLQ-C30 nausea and vomiting. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||0.40|-5.43|0.0902
92240534|NCT02279524|184384607|SUPERIORITY||Difference in least square means|-0.447||||0.0008|TWO_SIDED|95.0|-0.7063|-0.1877|||Mixed Models Analysis|||||-0.1877|-0.7063|0.0008
92240535|NCT02279524|184384607|SUPERIORITY||Difference in least square means|-0.362||||0.0061|TWO_SIDED|95.0|-0.6196|-0.1043|||Mixed Models Analysis|||||-0.1043|-0.6196|0.0061
92240536|NCT02279524|184384608|SUPERIORITY||Difference in least square means|-17.5|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92447568|NCT01639001|184782378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.4349|||<|0.0001|TWO_SIDED|95.0|-11.42|-5.45|||Mixed Models Analysis|||Analysis presented for QLQ-C30 pain. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-5.45|-11.42|<0.0001
92172098|NCT01772472|184234323|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001||95.0|0.48|0.7|||Log Rank|||||0.70|0.48|<0.0001
92172099|NCT01772472|184234324|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.48|0.7|||Log Rank|||||0.70|0.48|<.0001
92172100|NCT01772472|184234325|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0082|TWO_SIDED|95.0|0.53|0.91|||Log Rank|||||0.91|0.53|0.0082
92172101|NCT01772472|184234326|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0082||95.0|0.53|0.91|||Log Rank|||||0.91|0.53|0.0082
92172102|NCT01772472|184234327|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0082|TWO_SIDED|95.0|0.53|0.91|||Log Rank|||||0.91|0.53|0.0082
92172103|NCT01772472|184234328|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.0001||95.0|0.47|0.76|||Log Rank|||||0.76|0.47|<0.0001
92240537|NCT02279524|184384608|SUPERIORITY||Difference in least square means|-13.9|STANDARD_ERROR_OF_MEAN|4.2||0.0011|TWO_SIDED||||||Mixed Models Analysis|||||||0.0011
92447569|NCT01639001|184782379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.8547||||0.0039|TWO_SIDED|95.0|-8.15|-1.56|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 alopecia. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-1.56|-8.15|0.0039
92447570|NCT01639001|184782379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.9957||||0.0004|TWO_SIDED|95.0|-10.85|-3.14|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 coughing. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-3.14|-10.85|0.0004
92447571|NCT01639001|184782379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.5181||||0.7082|TWO_SIDED|95.0|-3.23|2.2|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 dysphagia. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||2.20|-3.23|0.7082
92447572|NCT01639001|184782379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.6471|||<|0.0001|TWO_SIDED|95.0|-11.85|-5.44|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 dyspnoea. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-5.44|-11.85|<0.0001
92447573|NCT01639001|184782379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.2504||||0.1284|TWO_SIDED|95.0|-2.86|0.36|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 haemoptysis. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||0.36|-2.86|0.1284
92172104|NCT01772472|184234329|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.0001||95.0|0.47|0.76|||Log Rank|||||0.76|0.47|<0.0001
92172105|NCT01772472|184234330|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.0001|TWO_SIDED|95.0|0.47|0.76|||Log Rank|||||0.76|0.47|<.0001
92172106|NCT02697136|184234345|OTHER|Linear mixed model to test for superiority and non-inferiority. Equivalence was defined as a difference of less than 6.7% in MVWA, based on a pilot study. Using an assumed standard deviation of 4.5% and a 2:1 randomization scheme to maximize exposure to active drug, 16 completing patients in the CER-001 group and 8 in the placebo group (24 total completers for mITT) would yield 90% power to detect a difference from baseline versus placebo of 6.7%, using two-tailed testing with α=0.05.|Difference in LS Means|-0.08||||0.185|TWO_SIDED|95.0|-1.9|0.4|||Mixed Models Analysis|||||0.4|-1.9|0.185
92172107|NCT02697136|184234346|OTHER|Linear mixed model to test for superiority and non-inferiority. Equivalence was defined as a difference of less than 6.7% in MVWA, based on a pilot study.|Difference in LS Means|0.7||||0.217|TWO_SIDED|95.0|-0.4|1.8|||Mixed Models Analysis|||||1.8|-0.4|0.217
92172108|NCT02697136|184234347|OTHER|Linear mixed model to test for superiority and non-inferiority. Equivalence was defined as a difference of less than 6.7% in MVWA, based on a pilot study.|Difference in LS Means|-0.2||||0.832|TWO_SIDED|95.0|-1.6|1.3|||Mixed Models Analysis|||||1.3|-1.6|0.832
92172109|NCT04391894|184234351|SUPERIORITY||Least Squares Mean (LS Mean)|-1.1|STANDARD_ERROR_OF_MEAN|2.01||0.585|TWO_SIDED|95.0|-5.0|2.8|||Mixed Models Analysis|||||2.8|-5.0|0.585
92172110|NCT04391894|184234351|SUPERIORITY||Least Squares Mean (LS Mean)|-3.2|STANDARD_ERROR_OF_MEAN|2.0||0.107|TWO_SIDED|95.0|-7.01|0.7|||Mixed Models Analysis|||||0.7|-7.01|0.107
92172111|NCT04391894|184234351|SUPERIORITY||Least Squares Mean (LS Mean)|4.3|STANDARD_ERROR_OF_MEAN|2.02||0.033|TWO_SIDED|95.0|0.3|8.3|||Mixed Models Analysis|||||8.3|0.3|0.033
92172112|NCT04391894|184234352|SUPERIORITY||Least Squares Mean (LS Mean)|-0.2|STANDARD_ERROR_OF_MEAN|0.31||0.605|TWO_SIDED|95.0|-0.8|0.4|||Mixed Models Analysis|||||0.4|-0.8|0.605
92172113|NCT04391894|184234352|SUPERIORITY||Least Squares Mean (LS Mean)|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.646|TWO_SIDED|95.0|-0.7|0.5|||Mixed Models Analysis|||||0.5|-0.7|0.646
92172114|NCT04391894|184234352|SUPERIORITY||Least Squares Mean (LS Mean)|0.1|STANDARD_ERROR_OF_MEAN|0.31||0.847|TWO_SIDED|95.0|-0.5|0.7|||Mixed Models Analysis|||||0.7|-0.5|0.847
92172115|NCT04391894|184234353|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
92172116|NCT04391894|184234353|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.3|0.1||||||||0.1|-0.3|
92240538|NCT02279524|184384609|SUPERIORITY||Odds Ratio (OR)|2.77||||0.0279|TWO_SIDED|95.0|1.11|6.88|||Mixed Models Analysis|||||6.88|1.11|0.0279
92240539|NCT02279524|184384609|SUPERIORITY||Odds Ratio (OR)|2.2||||0.0878|TWO_SIDED|95.0|0.89|5.46|||Regression, Logistic|||||5.46|0.89|0.0878
92172117|NCT04391894|184234353|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
92280643|NCT01545076|184463962|OTHER||Median Difference (Net)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank sum|||||0|-1|<0.001
92447574|NCT01639001|184782379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.2363||||0.0265|TWO_SIDED|95.0|-7.98|-0.49|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 pain in arm or shoulder. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-0.49|-7.98|0.0265
92172118|NCT04391894|184234354|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
92447575|NCT01639001|184782379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.2237||||0.0185|TWO_SIDED|95.0|-7.74|-0.71|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 pain in chest. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-0.71|-7.74|0.0185
92447576|NCT01639001|184782379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.5901||||0.0075|TWO_SIDED|95.0|-7.95|-1.23|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 pain in other parts. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-1.23|-7.95|0.0075
92447577|NCT01639001|184782379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.6732||||0.2848|TWO_SIDED|95.0|-4.74|1.39|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 peripheral neuropathy. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||1.39|-4.74|0.2848
92447578|NCT01639001|184782379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.398||||0.0296|TWO_SIDED|95.0|-4.56|-0.24|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 sore mouth. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-0.24|-4.56|0.0296
92447579|NCT01639001|184782380|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.9136||||0.0123|TWO_SIDED|95.0|0.85|6.98|||Mixed Models Analysis|||From a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EQ-5D VAS subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||6.98|0.85|0.0123
92172119|NCT04391894|184234354|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.3|0.1||||||||0.1|-0.3|
92172120|NCT04391894|184234354|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.1|0.6||||||||0.6|0.1|
92182209|NCT03960645|184263234|OTHER||GLSM ratio (%)|77.45|||||TWO_SIDED|90.0|70.33|85.29||||||FTC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||85.29|70.33|
92182210|NCT03960645|184263234|OTHER||GLSM ratio (%)|77.08|||||TWO_SIDED|90.0|69.78|85.15||||||FTC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||85.15|69.78|
92182211|NCT03960645|184263234|OTHER||GLSM ratio (%)|69.9|||||TWO_SIDED|90.0|56.16|87.0||||||TAF: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||87.00|56.16|
92182212|NCT03960645|184263234|OTHER||GLSM ratio (%)|66.55|||||TWO_SIDED|90.0|53.79|82.34||||||TAF: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||82.34|53.79|
92182213|NCT03960645|184263234|OTHER||GLSM ratio (%)|57.14|||||TWO_SIDED|90.0|46.04|70.91||||||TAF: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||70.91|46.04|
92182214|NCT03960645|184263234|OTHER||GLSM ratio (%)|55.27|||||TWO_SIDED|90.0|44.65|68.42||||||TAF: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||68.42|44.65|
92447580|NCT01639001|184782381|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0425||||0.032|TWO_SIDED|95.0|0.0|0.08|||Mixed Models Analysis|||From a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EQ-5D Index score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||0.08|0.00|0.0320
92447581|NCT01639001|184782383|SUPERIORITY_OR_OTHER_LEGACY||Overall percent agreement|0.934|||||TWO_SIDED|95.0|0.914|0.949|||||95% CI for agreement rate is calculated by the Wilson (Score) Confidence Limit method with alpha=0.05|||0.949|0.914|
92447582|NCT01639001|184782383|SUPERIORITY_OR_OTHER_LEGACY||Kappa|0.847|||||TWO_SIDED|95.0|0.8065|0.8875|||||Kappa coefficient is a statistic which measures inter-rater agreement for qualitative (categorical) items.|||0.8875|0.8065|
92447583|NCT02610868|184782395|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447584|NCT02610868|184782395|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447585|NCT02610868|184782395|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447586|NCT02610868|184782395|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447587|NCT02610868|184782395|SUPERIORITY|||||||0.0006|||||||ANCOVA|||||||0.0006
92447588|NCT02610868|184782395|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447589|NCT02610868|184782395|SUPERIORITY|||||||0.1131|||||||ANCOVA|||||||0.1131
92447590|NCT02610868|184782395|SUPERIORITY|||||||0.0026|||||||ANCOVA|||||||0.0026
92447591|NCT02610868|184782395|SUPERIORITY|||||||0.2569|||||||ANCOVA|||||||0.2569
92447592|NCT02610868|184782396|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447593|NCT02610868|184782396|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447594|NCT02610868|184782396|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447595|NCT02610868|184782396|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447596|NCT02610868|184782396|SUPERIORITY|||||||0.313|||||||ANCOVA|||||||0.3130
92447597|NCT02610868|184782396|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447598|NCT02610868|184782396|SUPERIORITY|||||||0.1054|||||||ANCOVA|||||||0.1054
92447599|NCT02610868|184782396|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
92447600|NCT02610868|184782396|SUPERIORITY|||||||0.1663|||||||ANCOVA|||||||0.1663
92447601|NCT02610868|184782398|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447602|NCT02610868|184782398|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447603|NCT02610868|184782398|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447604|NCT02610868|184782398|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447605|NCT02610868|184782398|SUPERIORITY|||||||0.11|||||||ANCOVA|||||||0.1100
92447606|NCT02610868|184782398|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447607|NCT02610868|184782398|SUPERIORITY|||||||1|||||||ANCOVA|||||||1.0000
92447608|NCT02610868|184782398|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447609|NCT02610868|184782398|SUPERIORITY|||||||0.029|||||||ANCOVA|||||||0.0290
92447610|NCT02610868|184782399|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447611|NCT02610868|184782399|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447612|NCT02610868|184782399|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447613|NCT02610868|184782399|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447614|NCT02610868|184782399|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447615|NCT02610868|184782399|SUPERIORITY|||||||0.0003|||||||ANCOVA|||||||0.0003
92447616|NCT02610868|184782399|SUPERIORITY|||||||0.9016|||||||ANCOVA|||||||0.9016
92447617|NCT02610868|184782399|SUPERIORITY|||||||0.0753|||||||ANCOVA|||||||0.0753
92447618|NCT02610868|184782399|SUPERIORITY|||||||0.4992|||||||ANCOVA|||||||0.4992
92447619|NCT02610868|184782400|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447620|NCT02610868|184782400|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447621|NCT02610868|184782400|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447622|NCT02610868|184782400|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447623|NCT02610868|184782400|SUPERIORITY|||||||0.4567|||||||ANCOVA|||||||0.4567
92447624|NCT02610868|184782400|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447625|NCT02610868|184782400|SUPERIORITY|||||||0.8115|||||||ANCOVA|||||||0.8115
92447626|NCT02610868|184782400|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447627|NCT02610868|184782400|SUPERIORITY|||||||0.3282|||||||ANCOVA|||||||0.3282
92447628|NCT02610868|184782402|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447629|NCT02610868|184782402|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447630|NCT02610868|184782402|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447631|NCT02610868|184782402|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447632|NCT02610868|184782402|SUPERIORITY|||||||0.3786|||||||ANCOVA|||||||0.3786
92447633|NCT02610868|184782402|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447634|NCT02610868|184782402|SUPERIORITY|||||||0.7787|||||||ANCOVA|||||||0.7787
92447635|NCT02610868|184782402|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92447636|NCT02610868|184782402|SUPERIORITY|||||||0.3825|||||||ANCOVA|||||||0.3825
92447637|NCT02665481|184782440|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.5|TWO_SIDED|95.0|-0.15|0.07|||Marginal Model|||Time x MBSR (Month 0 and Month 6)||0.07|-0.15|0.50
92447638|NCT02665481|184782440|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.18|TWO_SIDED|95.0|-0.04|0.19|||Marginal Model|||Time x MBSR (Month 0 and Month 18)||0.19|-0.04|0.18
92447639|NCT02665481|184782440|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.23|TWO_SIDED|95.0|-0.04|0.17|||Marginal Model|||Time x Exercise (Month 0 and Month 6)||0.17|-0.04|0.23
92447640|NCT02665481|184782440|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.47|TWO_SIDED|95.0|-0.15|0.07|||Marginal Model|||Time x Exercise (Month 0 and Month 18)||0.07|-0.15|0.47
92447641|NCT02665481|184782441|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.12|TWO_SIDED|95.0|-0.02|0.19|||Marginal Model|||Time x MBSR (Month 0 and Month 6)||0.19|-0.02|0.12
92447642|NCT02665481|184782441|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.44|TWO_SIDED|95.0|-0.15|0.07|||Marginal Model|||Time x MBSR (Month 0 and Month 18)||0.07|-0.15|0.44
92447643|NCT02665481|184782441|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.17|TWO_SIDED|95.0|-0.03|0.18|||Marginal Model|||Time x Exercise (Month 0 and Month 6)||0.18|-0.03|0.17
92447644|NCT02665481|184782441|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.93|TWO_SIDED|95.0|-0.12|0.11|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||0.11|-0.12|0.93
92447645|NCT02665481|184782442|SUPERIORITY||Mean Difference (Final Values)|-3.46||||0.53|TWO_SIDED|95.0|-14.27|7.34|||Marginal Model|||Time x MBSR (Month 0 and Month 6)||7.34|-14.27|0.53
92447646|NCT02665481|184782442|SUPERIORITY||Mean Difference (Final Values)|-20.16||||0.004|TWO_SIDED|95.0|-33.88|-6.44|||Marginal Model|||Time x MBSR (Month 0 and Month 18).||-6.44|-33.88|0.004
92447647|NCT02665481|184782442|SUPERIORITY||Mean Difference (Final Values)|3.04||||0.58|TWO_SIDED|95.0|-7.76|13.85|||Marginal Model|||Time x Exercise (Month 0 and Month 6)||13.85|-7.76|0.58
92447648|NCT02665481|184782442|SUPERIORITY||Mean Difference (Final Values)|-6.26||||0.37|TWO_SIDED|95.0|-19.98|7.46|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||7.46|-19.98|0.37
92447649|NCT02665481|184782443|SUPERIORITY||Mean Difference (Final Values)|22.71||||0.33|TWO_SIDED|95.0|-22.95|68.36|||Marginal Model|||Time x MBSR (Month 0 and Month 6)||68.36|-22.95|0.33
92447650|NCT02665481|184782443|SUPERIORITY||Mean Difference (Final Values)|25.35||||0.31|TWO_SIDED|95.0|-23.18|73.88|||Marginal Model|||Time x MBSR (Month 0 and Month 18)||73.88|-23.18|0.31
92447651|NCT02665481|184782443|SUPERIORITY||Mean Difference (Final Values)|-17.18||||0.46|TWO_SIDED|95.0|-62.83|28.48|||Marginal Model|||Time x Exercise (Month 0 and Month 6).||28.48|-62.83|0.46
92447652|NCT02665481|184782443|SUPERIORITY||Mean Difference (Final Values)|21.11||||0.39|TWO_SIDED|95.0|-27.41|69.64|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||69.64|-27.41|0.39
92447653|NCT02665481|184782444|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.37|TWO_SIDED|95.0|-0.02|0.01|||Marginal Model|||Time x MBSR (Month 0 and Month 6).||0.01|-0.02|0.37
92447654|NCT02665481|184782444|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.1|TWO_SIDED|95.0|-0.02|0.0|||Marginal Model|||Time x MBSR (Month 0 and Month 18).||0.00|-0.02|0.10
92447655|NCT02665481|184782444|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.21|TWO_SIDED|95.0|-0.004|0.02|||Marginal Model|||Time x Exercise (Month 0 and Month 6).||0.02|-0.004|0.21
92182215|NCT03960645|184263235|OTHER||GLSM ratio (%)|26.17|||||TWO_SIDED|90.0|21.45|31.93||||||BIC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||31.93|21.45|
92280644|NCT01545076|184463963|OTHER||Median Difference (Net)|7.6|||=|0.004|TWO_SIDED|95.0|2.0|14.0|||Wilcoxon rank sum|||||14|2|=0.004
92447656|NCT02665481|184782444|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.09|TWO_SIDED|95.0|-0.02|0.0|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||0.00|-0.02|0.09
92447657|NCT02665481|184782445|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.57|TWO_SIDED|95.0|-0.38|0.69|||Marginal Model|||Time x MBSR (Month 0 and Month 6)||0.69|-0.38|0.57
92447658|NCT02665481|184782445|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.96|TWO_SIDED|95.0|-0.58|0.55|||Marginal Model|||Time x MBSR (Month 0 and Month 18).||0.55|-0.58|0.96
92447659|NCT02665481|184782445|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.37|TWO_SIDED|95.0|-0.78|0.29|||Marginal Model|||Time x Exercise (Month 0 and Month 6).||0.29|-0.78|0.37
92447660|NCT02665481|184782445|SUPERIORITY||Mean Difference (Final Values)|-0.003||||0.99|TWO_SIDED|95.0|-0.57|0.57|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||0.57|-0.57|0.99
92447661|NCT02665481|184782446|SUPERIORITY||Mean Difference (Final Values)|0.93||||0.19|TWO_SIDED|95.0|-0.47|2.33|||Marginal Model|||Time x MBSR (Month 0 and Month 6).||2.33|-0.47|0.19
92447662|NCT02665481|184782446|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.09|TWO_SIDED|95.0|-0.19|2.77|||Marginal Model|||Time x MBSR (Month 0 and Month 18).||2.77|-0.19|0.09
92447663|NCT02665481|184782446|SUPERIORITY||Mean Difference (Final Values)|-0.57||||0.42|TWO_SIDED|95.0|-1.97|0.83|||Marginal Model|||Time x Exercise (Month 0 and Month 6).||0.83|-1.97|0.42
92447664|NCT02665481|184782446|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.54|TWO_SIDED|95.0|-1.01|1.94|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||1.94|-1.01|0.54
92447665|NCT02660359|184782461|SUPERIORITY|If both p-values for the 2 primary tests (the test of Dysport® 800 U vs. placebo and the test of Dysport® 600 U vs. placebo) were lower than 0.05, both were declared statistically significant. If 1 of the primary tests had a p-value greater than or equal to 0.05, then the other test was declared statistically significant if its p-value was lower than 0.025 and only the significant dose continued in the hierarchal testing strategy.|LS Mean Difference|-8.97||||0.0001|TWO_SIDED|95.0|-13.5|-4.44|||MMLM|||Treatment group, visit (Week 6), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[Botulinum toxin \[BTX\]-naïve or BTX-non-naïve\]) and study baseline value (weekly number of UI episodes) as fixed effect variables, and subject as a random effect.||-4.44|-13.5|0.0001
92280645|NCT01545076|184463963|OTHER||Median Difference (Net)|5.7|||=|0.014|TWO_SIDED|95.0|0.7|11.7|||Wilcoxon rank sum|||||11.7|0.7|=0.014
92447666|NCT02660359|184782461|SUPERIORITY|If both p-values for the 2 primary tests (the test of Dysport® 800 U vs. placebo and the test of Dysport® 600 U vs. placebo) were lower than 0.05, both were declared statistically significant. If 1 of the primary tests had a p-value greater than or equal to 0.05, then the other test was declared statistically significant if its p-value was lower than 0.025 and only the significant dose continued in the hierarchal testing strategy.|LS Mean Difference|-9.76|||<|0.0001|TWO_SIDED|95.0|-14.41|-5.12|||MMLM|||Treatment group, visit (Week 6), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[Botulinum toxin \[BTX\]-naïve or BTX-non-naïve\]) and study baseline value (weekly number of UI episodes) as fixed effect variables, and subject as a random effect.||-5.12|-14.41|<0.0001
92447667|NCT02660359|184782462|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|45.55||||0.0002|TWO_SIDED|95.0|6.09|340.69|||Generalised linear mixed model (GLMM)|||Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline- by-visit interaction and study baseline weekly number of UI episodes as fixed effect.||340.69|6.09|0.0002
92447668|NCT02660359|184782462|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|31.69||||0.0009|TWO_SIDED|95.0|4.17|240.58|||GLMM|||Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.||240.58|4.17|0.0009
92447669|NCT02660359|184782463|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|3.55||||0.0007|TWO_SIDED|95.0|1.72|7.34||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥30% Improvement Level: Dysport® 600 U versus Placebo.||7.34|1.72|0.0007
92447670|NCT02660359|184782463|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|2.94||||0.0037|TWO_SIDED|95.0|1.43|6.07||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥30% Improvement Level: Dysport® 800 U versus Placebo||6.07|1.43|0.0037
92447671|NCT02660359|184782463|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|3.98|||<|0.0001|TWO_SIDED|95.0|2.03|7.79||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥50% Improvement level: Dysport® 600 U versus Placebo||7.79|2.03|<0.0001
92447672|NCT02660359|184782463|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by- visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|2.73||||0.0034|TWO_SIDED|95.0|1.4|5.33||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥50% Improvement level: Dysport® 800 U versus Placebo||5.33|1.40|0.0034
92447673|NCT02660359|184782463|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|7.38|||<|0.0001|TWO_SIDED|95.0|3.5|15.58||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥75% Improvement level: Dysport® 600 U versus Placebo||15.58|3.5|<0.0001
92447674|NCT02660359|184782463|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|5.28|||<|0.0001|TWO_SIDED|95.0|2.48|11.24||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥75% Improvement level: Dysport® 800 U versus Placebo||11.24|2.48|<0.0001
92447675|NCT02660359|184782465|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|96.14|||<|0.0001|TWO_SIDED|95.0|53.1|139.19|||MMRM|||Treatment group, visit (Week 6), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (total volume per void) as fixed effect variables, and subject as a random effect.||139.19|53.10|<0.0001
92182216|NCT03960645|184263235|OTHER||GLSM ratio (%)|26.99|||||TWO_SIDED|90.0|22.23|32.78||||||BIC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||32.78|22.23|
92280646|NCT01545076|184463964|OTHER||Median Difference (Final Values)|2.0|||=|0.003|TWO_SIDED|95.0|1.0|4.0|||Wilcoxon rank sum|||||4|1|=0.003
92280647|NCT01545076|184463964|OTHER||Median Difference (Final Values)|2.0|||=|0.002|TWO_SIDED|95.0|1.0|4.0|||Wilcoxon rank sum|||||4|1|=0.002
92280648|NCT01545076|184463965|OTHER||Median Difference (Net)|3.0|||=|0.03|TWO_SIDED|95.0|0.0|9.0|||Wilcoxon rank sum|||||9|0|=0.03
92280649|NCT01545076|184463965|OTHER||Median Difference (Net)|5.0|||<|0.001|TWO_SIDED|95.0|2.0|9.0|||Wilcoxon rank sum|||||9|2|<0.001
92172121|NCT01889199|184234356|OTHER||Mean Difference (Final Values)|1.12||||0.004|TWO_SIDED|||||a priori threshold p\<0.05|t-test, 2 sided|||Only PCOS women were randomized to flutamide versus placebo; controls were not randomized A sample size of 11 per group (PCOS women versus controls) provided adequate power (approximately 80%) to detect effect sizes as small as 1.25 using a two-sample t-test (alpha=0.05, 2 tailed). A sample size of 5 per group (flutamide-treated versus placebo-treated PCOS women) also gave adequate power (approximately 80%) to detect effect sizes as small as 2 using a two-sample t-test (alpha=0.05, 2 tailed).||||0.004
92172122|NCT01889199|184234357|OTHER||Mean Difference (Net)|0.024|||||TWO_SIDED|||||||||6-month changes from baseline were compared between placebo- and flutamide-treated PCOS women using an unpaired Student's t-test to determine whether one group changed more than the other over this time interval.||||
92172123|NCT01889199|184234359|OTHER||Mean Difference (Net)|0.04||||0.04|TWO_SIDED||||||t-test, 2 sided|||6-month changes from baseline were compared between placebo- and flutamide-treated PCOS women using an unpaired Student's t-test to determine whether one group changed more than the other over this time interval.||||0.040
92172124|NCT01889199|184234360|OTHER|||||||0.034|||||||t-test, 2 sided|||6-month changes from baseline were compared between placebo- and flutamide-treated PCOS women using an unpaired Student's t-test to determine whether one group changed more than the other over this time interval.||||0.034
92172125|NCT02323321|184234363|OTHER|The primary hypothesis for this study is that the true (success) proportion of transplanted patients meeting the primary effectiveness endpoint, patient survival at day 30 post-transplantation and absence of severe PGD (left or right ventricle) in the first 24 hours post-transplantation, is greater than the Performance Goal value of 0.65.|Proportion|88.0|||<|0.0001|TWO_SIDED|95.0|78.4|94.4|||one-sided exact binomial test|||||94.4|78.4|<0.0001
92172126|NCT00446225|184234364|SUPERIORITY||Hazard Ratio (HR)|0.42||||0.0001|TWO_SIDED|95.0|0.27|0.64|||Log Rank|||||0.64|0.27|0.0001
92172127|NCT00446225|184234366|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.043|TWO_SIDED|95.0|0.36|0.99|||Log Rank|||||0.99|0.36|0.043
92240540|NCT02279524|184384610|SUPERIORITY||Odds Ratio (OR)|0.14||||0.1008|TWO_SIDED|95.0|0.01|1.46|||Regression, Logistic||This analysis is limited by low number of events, and the duration of the study.|||1.46|0.01|0.1008
92240541|NCT02279524|184384610|SUPERIORITY||Odds Ratio (OR)|0.63||||0.5693|TWO_SIDED|95.0|0.13|3.05|||Regression, Logistic||This analysis is limited by low number of events, and the duration of the study.|||3.05|0.13|0.5693
92172128|NCT00220740|184234394|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||The primary efficacy endpoint was the comparison of the Responder rates in the ITT population. Treatment group differences were tested by a Chi-square test. Subjects who did not complete the 24 week Efficacy Period and entered Rescue treatment with the alternative treatment were counted as Nonresponders.||||<0.001
92172129|NCT00220740|184234395|SUPERIORITY_OR_OTHER|||||||0.542|TWO_SIDED||||||ANCOVA|||||||0.542
92172130|NCT00220740|184234396|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Dominant hand||||<0.001
92172131|NCT00220740|184234396|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANCOVA|||Non-dominant hand||||0.005
92172132|NCT00593489|184234440|SUPERIORITY||Risk Ratio (RR)|0.99||||0.96|TWO_SIDED|95.0|0.8|1.24|||Poisson Regression|||The IPR was analyzed using Poisson regression with the intervention group as a class effect and the mean HbA1c at baseline as a covariate||1.24|0.8|0.96
92182217|NCT03960645|184263235|OTHER||GLSM ratio (%)|29.03|||||TWO_SIDED|90.0|25.74|32.74||||||BIC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||32.74|25.74|
92182218|NCT03960645|184263235|OTHER||GLSM ratio (%)|29.97|||||TWO_SIDED|90.0|26.47|33.93||||||BIC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||33.93|26.47|
92182219|NCT03960645|184263235|OTHER||GLSM ratio (%)|64.22|||||TWO_SIDED|90.0|54.63|75.49||||||FTC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||75.49|54.63|
92240542|NCT05137041|184384623|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
92172133|NCT00715884|184234451|NON_INFERIORITY_OR_EQUIVALENCE|The null inferiority hypothesis was that the upper limit of the 95% confidence interval is equal or greater than the non-inferiority margin 5%. The alternative non-inferiority hypothesis for this study assumed that the upper limit of the 95% confidence interval would be less than the non-inferiority margin 5%.|Difference between TLF rates|2.58|||||ONE_SIDED|95.0||5.55||In the CYPHER® ELITE™ arm the TLF rate was 5.36% (23/429) compared with 2.78% (6/216) in the CYPHER® Bx VELOCITY® arm, a difference in rates of 2.58%, upper limit of 95% two sided confidence interval of 5.55%.||||Sample sizes of 1,061 from the ELITE™ group and 531 from the CYPHER® group were planned to achieve 90 percent power at a 2.5 percent significance level using an one-sided equivalence test, assuming a 10 percent TLF rate in each group and the maximum allowable rate difference between the groups being 5 percent. The total sample size was increased to 1,770 patients to account for an approximately 90 percent compliance to clinical follow-up.||5.55||
92172134|NCT00715884|184234452|SUPERIORITY_OR_OTHER||Difference between event rates|-0.4||||0.549|TWO_SIDED|95.0|-1.3|1.0|||Fisher Exact|||||1.0|-1.3|0.549
92447676|NCT02660359|184782465|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|90.78|||<|0.0001|TWO_SIDED|95.0|47.07|134.48|||MMRM|||Treatment group, visit (Week 6), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (total volume per void) as fixed effect variables, and subject as a random effect.||134.48|47.07|<0.0001
92447677|NCT02660359|184782466|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|175.0|||<|0.0001|TWO_SIDED|95.0|122.9|227.0|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of MCC as covariates.||227.0|122.90|<0.0001
92447678|NCT02660359|184782466|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|168.4|||<|0.0001|TWO_SIDED|95.0|113.6|223.1|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of MCC as covariates.||223.1|113.6|<0.0001
92447679|NCT02660359|184782467|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|-32.9|||<|0.0001|TWO_SIDED|95.0|-41.5|-24.4|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of MDP as covariates.||-24.4|-41.5|<0.0001
92447680|NCT02660359|184782467|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|-32.5|||<|0.0001|TWO_SIDED|95.0|-41.5|-23.4|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of MDP as covariates.||-23.4|-41.5|<0.0001
92447681|NCT02660359|184782468|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|152.8|||<|0.0001|TWO_SIDED|95.0|99.2|206.5|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of Vol@1stIDC as covariates.||206.5|99.2|<0.0001
92447682|NCT02660359|184782468|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|169.7|||<|0.0001|TWO_SIDED|95.0|111.7|227.6|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of Vol@1stIDC as covariates.||227.6|111.7|<0.0001
92447683|NCT02660359|184782469|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|Odds Ratio (OR)|31.1|||<|0.0001|TWO_SIDED|95.0|7.05|137.09|||GLMM|||Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.||137.09|7.05|<0.0001
92447684|NCT02660359|184782469|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|Odds Ratio (OR)|28.08|||<|0.0001|TWO_SIDED|95.0|6.24|126.25|||GLMM|||Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by- visit interaction and study baseline weekly number of UI episodes as fixed effect.||126.25|6.24|<0.0001
92447685|NCT02664038|184782470|SUPERIORITY||Mean Difference (Final Values)|-2.82|STANDARD_ERROR_OF_MEAN|2.68|<|0.05|TWO_SIDED|0.05|-8.23|2.588|||ANCOVA|covaried for days of heavy drinking over the 30 days prior to randomization.||||2.588|-8.23|<.05
92447686|NCT02664038|184782471|SUPERIORITY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|1.66|<|0.05|TWO_SIDED|0.05|-3.26|3.61|||ANCOVA|Days of heavy drinking 30 days prior to randomization||||3.61|-3.26|<.05
92172135|NCT00715884|184234453|SUPERIORITY_OR_OTHER||Difference between event rates|13.8|||<|0.001|TWO_SIDED|95.0|9.2|18.9|||Fisher Exact|||||18.9|9.2|<.001
92172136|NCT00715884|184234454|SUPERIORITY_OR_OTHER||Difference between event rates|0.7||||0.724|TWO_SIDED|95.0|-2.2|4.2|||Fisher Exact|||||4.2|-2.2|0.724
92172137|NCT00715884|184234455|SUPERIORITY_OR_OTHER||Difference between event rates|-1.3||||0.407|TWO_SIDED|95.0|-3.5|1.4|||Fisher Exact|||||1.4|-3.5|0.407
92172138|NCT00715884|184234456|SUPERIORITY_OR_OTHER||Difference between event rates|2.11||||0.203|TWO_SIDED|95.0|-0.84|4.48|||Fisher Exact|||||4.48|-0.84|0.203
92172139|NCT00715884|184234457|SUPERIORITY_OR_OTHER||Difference between event rates|2.35||||0.22|TWO_SIDED|95.0|-1.24|5.28|||Fisher Exact|||||5.28|-1.24|0.22
92172140|NCT00715884|184234458|SUPERIORITY_OR_OTHER||Difference between event rates|2.83||||0.166|TWO_SIDED|95.0|-1.28|6.26|||Fisher Exact|||||6.26|-1.28|0.166
92280650|NCT00797108|184463987|SUPERIORITY_OR_OTHER||Clinical Cure Difference|27.5|||||TWO_SIDED|80.0|-4.0|55.3||||||Two-sided 80% confidence interval (CI) for the difference in the clinical cure response rates between treatement group and the comparator was formed using the exact methods.||55.3|-4.0|
92172141|NCT00715884|184234459|SUPERIORITY_OR_OTHER||Difference between event rates|2.59||||0.2|TWO_SIDED|95.0|-1.35|5.85|||Fisher Exact|||||5.85|-1.35|0.200
92172142|NCT00715884|184234460|SUPERIORITY_OR_OTHER||Difference between event rates|11.56||||0.14|TWO_SIDED|95.0|-3.73|24.64|||Fisher Exact|||||24.64|-3.73|0.140
92172143|NCT00715884|184234461|SUPERIORITY_OR_OTHER||Difference between event rates|5.17||||0.17|TWO_SIDED|95.0|-2.03|10.83|||Fisher Exact|||||10.83|-2.03|0.170
92172144|NCT00715884|184234462|SUPERIORITY_OR_OTHER||Difference between event rates|0.24||||1|TWO_SIDED|95.0|-5.61|5.43|||Fisher Exact|||||5.43|-5.61|1.0
92280651|NCT00797108|184463987|SUPERIORITY_OR_OTHER||Clinical Cure Difference|25.0|||||TWO_SIDED|80.0|-13.1|57.9||||||Two-sided 80% CI for the difference in the clinical cure response rates between treatement group and the comparator was formed using the exact methods.||57.9|-13.1|
92280652|NCT03238677|184464005|SUPERIORITY||Mean Difference (Final Values)|-10.0||||0.132|TWO_SIDED|95.0|-23.2|3.1|||Mixed Models Analysis|||Main effect of biofeedback at 10 weeks||3.1|-23.2|.132
92447687|NCT02664038|184782472|SUPERIORITY||Mean Difference (Final Values)|2.94|STANDARD_ERROR_OF_MEAN|1.49||0.77|TWO_SIDED|0.05|1.45|4.43|||Mixed Models Analysis|Repeated measure with Baseline, 13 weeks and 26 weeks||||4.43|1.45|.77
92447688|NCT02664038|184782473|SUPERIORITY||Mean Difference (Final Values)|1.44|STANDARD_ERROR_OF_MEAN|1.53|<|0.05|TWO_SIDED|95.0|-1.61|4.5|||Mixed Models Analysis|||||4.50|-1.61|<.05
92447689|NCT02664038|184782474|SUPERIORITY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.43||0.05|TWO_SIDED|0.05|0.19|1.11|||t-test, 2 sided|||||1.11|.19|.05
92447690|NCT04875520|184782487|NON_INFERIORITY|Overall rate compared using GEE model includes any person affiliated with the school who tested positive at least once during the study period that the schools reported to us that were positive. This includes people in our testing program and not in our testing program.|Mean Difference (Final Values)|-0.01845||||0.25|TWO_SIDED|95.0|-0.04981|0.01292|||generalized estimating equations|||||0.01292|-0.04981|0.25
92447691|NCT05773287|184782522|SUPERIORITY|||||||0.509||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.509
92447692|NCT05773287|184782523|SUPERIORITY|||||||0.552||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.552
92447693|NCT00673452|184782538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) Model: PGI-S = baseline PGI-S + treatment + pooled investigator + visit + treatment-by-visit + baseline-by-visit.||Patients treated with 60-120 mg duloxetine for 12 weeks compared with placebo will show greater improvement in symptoms as assessed by Patient's Global Impressions of Improvement (PGI-I). Sample size determined using 2-sided t-test with significance level of 0.05, and discontinuation rate of 5% without postbaseline data. With 261 patients per arm, study has approximately 85% power to detect treatment group difference of -0.4 points (standard deviation of 1.5) in PGI-I between treatment groups.||||<0.001
92447694|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-1.19|-0.31||P-value for Worst Pain Severity. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.31|-1.19|<0.001
92447695|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.61||||0.001|TWO_SIDED|95.0|-0.99|-0.24||P-value for Least Pain Severity. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.24|-0.99|0.001
92447696|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.74|||<|0.001|TWO_SIDED|95.0|-1.13|-0.35||P-value for Average Pain Severity. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.35|-1.13|<0.001
92447697|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.76|||<|0.001|TWO_SIDED|95.0|-1.2|-0.31||P-value for Pain Right Now Severity. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.31|-1.20|<0.001
92447698|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.94|||<|0.001|TWO_SIDED|95.0|-1.39|-0.49||P-value for General Activity Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.49|-1.39|<0.001
92447699|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.95|||<|0.001|TWO_SIDED|95.0|-1.41|-0.49||P-value for Mood Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.49|-1.41|<0.001
92447700|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-1.24|-0.36||P-value for Walking Ability Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.36|-1.24|<0.001
92240543|NCT05137041|184384625|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.015|TWO_SIDED|95.0|-0.817|-0.137|||ANCOVA|The p-value was adjusted using a False Discovery Rate approach (Benjamini-Hochberg).||||-0.137|-0.817|0.015
92240544|NCT05137041|184384626|SUPERIORITY||Least Square Mean Difference|-15.9|STANDARD_ERROR_OF_MEAN|8.47||0.103|TWO_SIDED|95.0|-32.661|0.828||The p-value was adjusted using a False Discovery Rate approach (Benjamini-Hochberg).|ANCOVA|||||0.828|-32.661|0.103
92240545|NCT05137041|184384627|SUPERIORITY||Least Square Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|0.511|1.581||The p-value was adjusted using a False Discovery Rate approach (Benjamini-Hochberg).|ANCOVA|||||1.581|0.511|<0.001
92240546|NCT05137041|184384628|SUPERIORITY||Least Square Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.82||0.121|TWO_SIDED|95.0|-2.976|0.25||The p-value was adjusted using a False Discovery Rate approach (Benjamini-Hochberg).|ANCOVA|||||0.250|-2.976|0.121
92240547|NCT05137041|184384629|SUPERIORITY|||||||0.564||||||The p-value is adjusted using a False Discovery Rate approach (Benjamini-Hochberg).|Log Rank|||||||0.564
92240548|NCT05137041|184384630|SUPERIORITY|||||||0.289|||||||Log Rank|||||||0.289
92172145|NCT00715884|184234463|SUPERIORITY_OR_OTHER||Difference between event rates|0.24||||1|TWO_SIDED|95.0|-1.92|1.63|||Fisher Exact|||||1.63|-1.92|1.0
92172146|NCT00715884|184234464|SUPERIORITY_OR_OTHER||Difference between event rates|0.49||||0.801|TWO_SIDED|95.0|-2.73|2.91|||Fisher Exact|||||2.91|-2.73|0.801
92240549|NCT05137041|184384631|SUPERIORITY|||||||0.001|||||||Satterthwaite t-test|||Change from Baseline at Day 1 Evening||||0.001
92240550|NCT05137041|184384631|SUPERIORITY|||||||0.035|||||||Satterthwaite t-test|||Change from Baseline at Day 2 Morning||||0.035
92240551|NCT05137041|184384631|SUPERIORITY|||||||0.004|||||||Satterthwaite t-test|||Change from Baseline at Day 2 Evening||||0.004
92240552|NCT05137041|184384631|SUPERIORITY|||||||0.007|||||||Satterthwaite t-test|||Change from Baseline at Day 3 Morning||||0.007
92172147|NCT00715884|184234465|SUPERIORITY_OR_OTHER||Difference between event rates|-0.92||||0.341|TWO_SIDED|95.0|-3.56|0.6|||Fisher Exact|||||0.60|-3.56|0.341
92172148|NCT00715884|184234466|SUPERIORITY_OR_OTHER||Difference between event rates|0.0||||1|TWO_SIDED|95.0|-2.14|1.28|||Fisher Exact|||||1.28|-2.14|1.00
92172149|NCT00715884|184234467|SUPERIORITY_OR_OTHER||Difference between event rates|0.47||||0.668|TWO_SIDED|95.0|-1.72|1.96|||Fisher Exact|||||1.96|-1.72|0.668
92172150|NCT03930342|184234470|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.83|1.07|||Regression, Logistic|Used marginal standardization to estimate relative risk from logistic regression||Results here reflect analysis of the relative risk for AEP that is a combination of risk from baseline to the 3 month timepoint and risk between the 3 month timepoint and 6 month timepoint. This reflects changes in AEP risk across the course of exposure to the intervention (baseline to 3 month) and enduring change post-exposure (3 months to 6 months)||1.07|0.83|
92172151|NCT02742519|184234471|SUPERIORITY|||||||0.2121|||||||t-test, 2 sided|||||||0.2121
92240553|NCT05137041|184384631|SUPERIORITY|||||||0.005|||||||Satterthwaite t-test|||Change from Baseline at Day 3 Evening||||0.005
92240554|NCT05137041|184384631|SUPERIORITY|||||||0.001|||||||Satterthwaite t-test|||Change from Baseline at Day 4 Morning||||0.001
92240555|NCT05137041|184384631|SUPERIORITY|||||||0.007|||||||Satterthwaite t-test|||Change from Baseline at Day 4 Evening||||0.007
92240556|NCT05137041|184384631|SUPERIORITY|||||||0.096|||||||Satterthwaite t-test|||Change from Baseline at Day 5 Morning||||0.096
92447701|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.76|||<|0.001|TWO_SIDED|95.0|-1.21|-0.32||P-value for Normal Work Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.32|-1.21|<0.001
92447702|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.95|||<|0.001|TWO_SIDED|95.0|-1.38|-0.52||P-value for Relations with Other People Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.52|-1.38|<0.001
92447703|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.87|||<|0.001|TWO_SIDED|95.0|-1.35|-0.39||P-value for Sleep Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.39|-1.35|<0.001
92447704|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.39|||<|0.001|TWO_SIDED|95.0|-1.92|-0.86||P-value for Enjoyment of Life Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.86|-1.92|<0.001
92447705|NCT00673452|184782539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.93|||<|0.001|TWO_SIDED|95.0|-1.33|-0.52||P-value for Average Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.52|-1.33|<0.001
92447706|NCT00673452|184782540|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.83||||0.005|TWO_SIDED|95.0|-1.41|-0.25||P-value for General Fatigue. P-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|ANCOVA|Model: MFI subscale change from baseline at endpoint = MFI subscale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.25|-1.41|0.005
92447707|NCT00673452|184782540|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72||||0.013|TWO_SIDED|95.0|-1.3|-0.15||P-value for Physical Fatigue. P-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|ANCOVA|Model: MFI subscale change from baseline at endpoint = MFI subscale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.15|-1.30|0.013
92447708|NCT00673452|184782540|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.92||||0.003|TWO_SIDED|95.0|-1.52|-0.32||P-value for Mental Fatigue. P-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|ANCOVA|Model: MFI subscale change from baseline at endpoint = MFI subscale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.32|-1.52|0.003
92447709|NCT00673452|184782540|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.88||||0.005|TWO_SIDED|95.0|-1.49|-0.26||P-value for Reduced Activity. P-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|ANCOVA|Model: MFI subscale change from baseline at endpoint = MFI subscale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.26|-1.49|0.005
92447710|NCT00673452|184782540|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.94|||<|0.001|TWO_SIDED|95.0|-1.49|-0.38||P-value for Reduced Motivation. P-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|ANCOVA|Model: MFI subscale change from baseline at endpoint = MFI subscale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.38|-1.49|<0.001
92447711|NCT00673452|184782541|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.89||||0.007|TWO_SIDED|95.0|-3.25|-0.53||The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BDI-II Total score change from baseline to endpoint = baseline BDI-II total score + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.53|-3.25|0.007
92447712|NCT00673452|184782542|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.34|||<|0.001|TWO_SIDED|95.0|-0.51|-0.16||The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: CGI-S score change from baseline at endpoint = CGI-S score baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.16|-0.51|<0.001
92240557|NCT05137041|184384631|SUPERIORITY|||||||0.015|||||||Satterthwaite t-test|||Change from Baseline at Day 5||||0.015
92240558|NCT05137041|184384632|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 1 Evening||||<0.001
92240559|NCT05137041|184384632|SUPERIORITY|||||||0.001|||||||Satterthwaite t-test|||VRS: Day 2 Morning||||0.001
92447713|NCT00673452|184782543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.07||||0.907|TWO_SIDED|95.0|-1.13|1.27||The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BAI total score change from baseline to endpoint = baseline BAI total + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||1.27|-1.13|0.907
92447714|NCT00673452|184782544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.22||||0.003|TWO_SIDED|95.0|1.76|8.67||P-value for Bodily Pain. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||8.67|1.76|0.003
92447715|NCT00673452|184782544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.42|||<|0.001|TWO_SIDED|95.0|3.41|9.43||P-value for General Health. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||9.43|3.41|<0.001
92447716|NCT00673452|184782544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|7.44|||<|0.001|TWO_SIDED|95.0|4.41|10.47||P-value for Mental Health. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||10.47|4.41|<0.001
92447717|NCT00673452|184782544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.47||||0.002|TWO_SIDED|95.0|2.06|8.88||P-value for Physical Functioning. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||8.88|2.06|0.002
92447718|NCT00673452|184782544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|9.78||||0.004|TWO_SIDED|95.0|3.11|16.45||P-value for Role-Emotional. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||16.45|3.11|0.004
92447719|NCT00673452|184782544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.59||||0.632|TWO_SIDED|95.0|-4.93|8.11||P-value for Role-Physical. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||8.11|-4.93|0.632
92447720|NCT00673452|184782544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.67|||<|0.001|TWO_SIDED|95.0|2.73|10.61||P-value for Social Functioning. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||10.61|2.73|<0.001
92447721|NCT00673452|184782544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.31||||0.015|TWO_SIDED|95.0|0.84|7.79||P-value for Vitality. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||7.79|0.84|0.015
92447722|NCT00673452|184782544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.14||||0.134|TWO_SIDED|95.0|-0.35|2.64||P-value for Physical Component Summary (PCS). The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||2.64|-0.35|0.134
92447723|NCT00673452|184782544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.83|||<|0.001|TWO_SIDED|95.0|2.05|5.6||P-value for Mental Component Summary (MCS). The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||5.60|2.05|<0.001
92447724|NCT00673452|184782545|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.96||||0.083|TWO_SIDED|95.0|-2.05|0.13||A priori threshold for statistical significance is 0.05.|ANCOVA|Model: MGH-CPFQ change from baseline at endpoint = MGH-CPFQ baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||0.13|-2.05|0.083
92447725|NCT00673452|184782546|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-1.18|-0.32||P-value for Mood. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Likert scale change from baseline at endpoint = Likert scale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.32|-1.18|<0.001
92447726|NCT00673452|184782546|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.64||||0.003|TWO_SIDED|95.0|-1.05|-0.22||P-value for Anxiety. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Likert scale change from baseline at endpoint = Likert scale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.22|-1.05|0.003
92172152|NCT01091168|184234502|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.673|TWO_SIDED|95.0|0.86|1.25|||Cochran-Mantel-Haenszel|||Kaplan-Meier curves and life tables by treatment arm were provided. Confidence intervals on the median were calculated using the Brookmeyer and Crowley method. Hazard ratio and 95% confidence intervals were reported. A stratified Cox proportional model was performed to compare the two treatment arms taking into account the stratification factors (except centre) used at the time of randomisation.||1.25|0.86|0.673
92172153|NCT01091168|184234503|SUPERIORITY|||||||0.0424|||||||Log Rank|||The disease control rate (DCR) were compared in the ITT population and in the population evaluable for response between the 2 arms with a cochran Mantel Haenszel, stratified on WHO performance status at baseline, number of prior chemotherapy lines for the treatment of disease and disease measurability at Baseline.||||0.0424
92172154|NCT01091168|184234504|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.4927|TWO_SIDED|95.0|0.8|1.12|||Log Rank|||PFS was compared between the 2 treatment arms by the log-rank test procedure with the 5 % significant level, stratified on the stratification factors (except study site) as specified at the time of randomisation. Os was analysed using Kaplan-Meir method and summarized with median and 95% CI of the median||1.12|0.8|0.4927
92172155|NCT05418296|184234580|SUPERIORITY||||||<|0.46|||||||t-test, 1 sided|||||||<0.46
92172156|NCT05418296|184234581|SUPERIORITY||||||<|0.00314|||||||t-test, 1 sided|||||||<0.00314
92240560|NCT05137041|184384632|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 2 Evening||||<0.001
92240561|NCT05137041|184384632|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 3 Morning||||<0.001
92172157|NCT05418296|184234582|SUPERIORITY||||||<|0.066|||||||t-test, 1 sided|||||||<0.066
92172158|NCT05418296|184234583|SUPERIORITY||||||<|0.085|||||||t-test, 1 sided|||||||<0.0850
92172159|NCT05418296|184234584|SUPERIORITY||||||<|0.0716|||||||t-test, 1 sided|||||||<0.0716
92172160|NCT01180634|184234609|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.0715|TWO_SIDED|95.0|0.96|1.84||P-value is determined using a log-rank test stratified by region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|Log Rank||Hazard ratio is obtained from a Cox proportional hazards regression model adjusting for region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|||1.84|0.96|0.0715
92172161|NCT01180634|184234610|SUPERIORITY||LSMean difference|1.41||||0.0213|TWO_SIDED|95.0|0.21|2.6|||Repeared Measures Model||Estimates are determined from a repeated measures model with terms for treatment, visit, treatment\*visit, region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|||2.60|0.21|0.0213
92172162|NCT01180634|184234611|SUPERIORITY||LSMean difference|-0.63||||0.0002|TWO_SIDED|95.0|-0.95|-0.3|||Repeated Measures Model||Estimates are determined from a repeated measures model with terms for treatment, visit, treatment\*visit, region (US, non-US), age (12-18 years, \>18 years), baseline FEV1 (\<55%, \>=55%), and baseline organism log density.|||-0.30|-0.95|0.0002
92172163|NCT01180634|184234612|SUPERIORITY||LSMean difference|0.28||||0.8335|TWO_SIDED|95.0|-2.3|2.85|||Repeated Measures Model||Estimates were determined from a repeated measures model with terms for treatment, visit, treatment\*visit, region (US, non-US), age (12 to 18 years, \> 18 years), Baseline FEV1 (\<55%, ≥ 55%), and Baseline value.|||2.85|-2.30|0.8335
92172164|NCT01180634|184234613|SUPERIORITY||LSMean difference|2.42||||0.0122|TWO_SIDED|95.0|0.53|4.31|||Repeated Measures Model|||||4.31|0.53|0.0122
92182220|NCT03960645|184263235|OTHER||GLSM ratio (%)|42.89|||||TWO_SIDED|90.0|36.55|50.34||||||FTC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||50.34|36.55|
92182221|NCT03960645|184263235|OTHER||GLSM ratio (%)|64.71|||||TWO_SIDED|90.0|59.3|70.61||||||FTC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||70.61|59.30|
92182222|NCT03960645|184263235|OTHER||GLSM ratio (%)|46.92|||||TWO_SIDED|90.0|39.57|55.64||||||FTC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||55.64|39.57|
92240562|NCT05137041|184384632|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 3 Evening||||<0.001
92240563|NCT05137041|184384632|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 4 Morning||||<0.001
92240564|NCT05137041|184384632|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 4 Evening||||<0.001
92240565|NCT05137041|184384632|SUPERIORITY|||||||0.024|||||||Satterthwaite t-test|||VRS: Day 5 Morning||||0.024
92240566|NCT05137041|184384632|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 5||||<0.001
92240567|NCT05137041|184384633|SUPERIORITY||Least Square Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|0.415|0.903|||ANCOVA|||||0.903|0.415|<0.001
92240568|NCT02433210|184384634|SUPERIORITY||||||<|0.001||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 clearance beta 2 microglobilin Optiflux vs Revaclear.||||<0.001
92172165|NCT01180634|184234614|SUPERIORITY||Cox Proportional Hazard|0.82||||0.3|TWO_SIDED|95.0|0.6|1.12||P-value is determined using a log-rank test stratified by region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|Log Rank||Hazard ratio is obtained from a Cox proportional hazards regression model adjusting for region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|||1.12|0.60|0.3000
92172166|NCT01180634|184234615|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.867|TWO_SIDED|95.0|0.47|2.04||P-value is determined using a log-rank test stratified by region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|Log Rank||Hazard ratio is obtained from a Cox proportional hazards regression model adjusting for region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|||2.04|0.47|0.8670
92172167|NCT04419168|184234617|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.57|TWO_SIDED|95.0|-1.3|2.37|||Mixed Models Analysis|||||2.37|-1.30|.57
92280653|NCT03238677|184464005|SUPERIORITY||Mean Difference (Final Values)|-13.7||||0.028|TWO_SIDED|95.0|-25.9|-1.5|||Mixed Models Analysis|||Main effect of Practice Distribution at 10 weeks||-1.5|-25.9|.028
92280654|NCT03238677|184464005|SUPERIORITY||Mean Difference (Final Values)|-10.0||||0.187|TWO_SIDED|95.0|-24.9|5.0|||Mixed Models Analysis|||Main effect comparing telepractice vs face-to-face treatment||5.0|-24.9|.187
92280655|NCT03238677|184464005|SUPERIORITY||Mean Difference (Final Values)|20.22||||0.125|TWO_SIDED|95.0|-5.8|46.3|||Mixed Models Analysis|||Interaction of biofeedback and practice distribution at 10 weeks|η2 =.054|46.3|-5.8|.125
92280656|NCT03194464|184464017|OTHER|||||||0.15||||||The a priori threshold for statistical significance was established at p \<.05 (non-adjusted).|ANOVA|||We performed repeated measures analysis of variance (RM-ANOVA) to determine if intracortical inhibition, as measured by SICI, in the ipsilesional hemisphere was altered by less affected hand exercise to task-failure and to determine the time course and recovery of this effect.||||0.15
92172168|NCT04419168|184234618|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.79|TWO_SIDED|95.0|-0.46|0.61|||Mixed Models Analysis|||||0.61|-0.46|0.79
92172169|NCT04419168|184234619|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.75|TWO_SIDED|95.0|-1.55|1.12|||Mixed Models Analysis|||||1.12|-1.55|0.75
92172170|NCT04419168|184234620|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.31|TWO_SIDED|95.0|-0.6|1.87|||Mixed Models Analysis|||||1.87|-0.60|0.31
92172171|NCT04419168|184234621|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.91|TWO_SIDED|95.0|-1.77|1.99|||Mixed Models Analysis|||These results correspond to ASCQ-Me Social Functioning Impact only.||1.99|-1.77|0.91
92172172|NCT04419168|184234621|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.05|TWO_SIDED|95.0|-0.03|3.46|||Mixed Models Analysis|||These results correspond to ASCQ-Me Emotional Impact only.||3.46|-0.03|0.05
92172173|NCT04419168|184234622|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.12|TWO_SIDED|95.0|-0.31|2.56|||Mixed Models Analysis|||||2.56|-0.31|0.12
92172174|NCT04419168|184234623|SUPERIORITY||Mean Difference (Final Values)|-0.0024||||0.91|TWO_SIDED|95.0|-0.0443|0.0395|||Mixed Models Analysis|||||0.0395|-0.0443|0.91
92172175|NCT04419168|184234624|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.68|TWO_SIDED|95.0|-1.61|2.48|||Mixed Models Analysis|||||2.48|-1.61|0.68
92172176|NCT04419168|184234625|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.75|TWO_SIDED|95.0|-0.46|0.63|||Mixed Models Analysis|||||0.63|-0.46|0.75
92240569|NCT02433210|184384634|SUPERIORITY||||||<|0.001||||||The p value is not adjusted for multiple comparisons and a p\<0.05 is considered significant.|t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Clearance beta 2 microglobulin Optiflux vs ELISIO.||||<0.001
92240570|NCT02433210|184384634|SUPERIORITY||||||=|0.178||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 clearance beta 2 microglobulin Revaclear vs ELISIO..||||=0.178
92280657|NCT03194464|184464018|SUPERIORITY|||||||0.83||||||Statistical Significance established as p \<.05|ANOVA|Repeated-Measures ANOVA||We performed repeated measures analysis of variance (RM-ANOVA) to determine if intracortical inhibition, as measured by SICI, in the ipsilesional hemisphere was altered by repeated sessions of less affected hand exercise to task-failure. Pre-exercise SICI was compared between Session1 and Session8.||||.83
92447727|NCT00673452|184782546|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72||||0.003|TWO_SIDED|95.0|-1.19|-0.25||P-value for Pain. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Likert scale change from baseline at endpoint = Likert scale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.25|-1.19|0.003
92447728|NCT00673452|184782546|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.49||||0.05|TWO_SIDED|95.0|-0.97|0.0||P-value for Sleep. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Likert scale change from baseline at endpoint = Likert scale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.00|-0.97|0.050
92447729|NCT00673452|184782546|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.87|||<|0.001|TWO_SIDED|95.0|-1.32|-0.43||P-value for Stiffness. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Likert scale change from baseline at endpoint = Likert scale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.43|-1.32|<0.001
92240571|NCT02433210|184384634|SUPERIORITY||||||=|0.016||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Clearance of myoglobin Optiflux vs Revaclear.||||=0.016
92280658|NCT03194464|184464019|OTHER|||||||0.204|||||||ANOVA|||RM-ANOVA||||0.204
92447730|NCT00673452|184782547|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||A priori threshold for statistical significance is 0.05.|Fisher Exact|||||||0.002
92447731|NCT00673452|184782548|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||A priori threshold for statistical significance is 0.05.|Fisher Exact|||||||0.003
92172177|NCT04419168|184234626|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.14|TWO_SIDED|95.0|-2.56|0.35|||Mixed Models Analysis|||||0.35|-2.56|0.14
92172178|NCT04419168|184234627|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.75|TWO_SIDED|95.0|-1.69|1.21|||Mixed Models Analysis|||||1.21|-1.69|0.75
92172179|NCT04419168|184234628|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.49|TWO_SIDED|95.0|-1.3|2.71|||Mixed Models Analysis|||These results correspond to ASCQ-Me Social Functioning Impact only.||2.71|-1.30|0.49
92172180|NCT04419168|184234628|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.037|TWO_SIDED|95.0|0.12|3.88|||Mixed Models Analysis|||These results correspond to ASCQ-Me Emotional Impact only.||3.88|0.12|0.037
92172181|NCT04419168|184234629|SUPERIORITY||Mean Difference (Final Values)|2.13||||0.008|TWO_SIDED|95.0|0.56|3.71|||Mixed Models Analysis|||||3.71|0.56|0.008
92172182|NCT04419168|184234630|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.56|TWO_SIDED|95.0|-1.51|0.82|||Mixed Models Analysis|||||0.82|-1.51|0.56
92172183|NCT04419168|184234631|SUPERIORITY||Mean Difference (Final Values)|-0.0013||||0.95|TWO_SIDED|95.0|-0.0464|0.0437|||Mixed Models Analysis|||||0.0437|-0.0464|0.95
92447732|NCT00673452|184782549|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.82||||0.084|TWO_SIDED|95.0|-0.25|3.88||P-value for Systolic Blood Pressure (SBP). A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Change = baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||3.88|-0.25|0.084
92447733|NCT00673452|184782549|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.52||||0.434|TWO_SIDED|95.0|-0.79|1.84||P-value for Diastolic Blood Pressure (DBP). A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Change = baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||1.84|-0.79|0.434
92447734|NCT00673452|184782550|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.96||||0.003|TWO_SIDED|95.0|0.67|3.26||A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Change = baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||3.26|0.67|0.003
92447735|NCT00673452|184782551|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for Suicidal Ideation. A priori threshold for statistical significance is 0.05.|Fisher Exact|||||||1.00
92447736|NCT00673452|184782552|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.83|||<|0.001|TWO_SIDED|95.0|-1.21|-0.45||A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Change = baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.45|-1.21|<0.001
92447737|NCT03049813|184782573|SUPERIORITY|||||||0.027||||||One-sided p value|Regression, Logistic|Adjusted for baseline year of study participation, problematic substance use, social cognition, community functioning, and negative symptoms - anergia||||||0.027
92447738|NCT03049813|184782573|SUPERIORITY|||||||0.0765||||||1-sided p-value|Chi-squared|||||||0.0765
92447739|NCT03049813|184782574|SUPERIORITY|||||||0.062||||||One-sided p value|Regression, Cox|Adjusting for baseline year of study participation, problematic substance use, social cognition, community functioning, and negative symptoms anergia||||||0.062
92447740|NCT03049813|184782575|SUPERIORITY|||||||0.006||||||Adjusting for baseline year of study participation, problematic substance use, social cognition, community functioning, negative symptoms - anergia|Regression, Linear|||||||0.006
92447741|NCT03049813|184782576|SUPERIORITY|||||||0.013||||||Mixed-effects linear regression models. Covariates include: baseline year, problematic substance use, social cognition, community functioning, and negative symptoms (anergia). One-sided p value.|Regression, Linear|||||||0.013
92447742|NCT03049813|184782577|SUPERIORITY|||||||0.019||||||Mixed-effects linear regression models. Covariates include: baseline year, problematic substance use, social cognition, community functioning, and negative symptoms (anergia). One sided p-value.|Regression, Linear|||||||0.019
92447743|NCT03049813|184782578|SUPERIORITY|||||||0.692||||||Mixed-effects linear regression models. Covariates include: baseline year, problematic substance use, social cognition, community functioning, and negative symptoms (anergia).|Regression, Linear|||For this analysis, only participants who completed both pre-test and posttest were included. If someone completed a pre-test SSPA, but not a posttest SSPA, they were not included in the analysis.||||0.692
92447744|NCT01813019|184782583|SUPERIORITY_OR_OTHER|||||||0.671|||||||Mixed Models Analysis|||||||0.671
92447745|NCT01458171|184782601|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.45||||||||0.450||
92447746|NCT01458171|184782601|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.523||||||||0.523||
92447747|NCT01192152|184782629|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of saxagliptin.|Ratio of geometric least squares means|1.045|||||TWO_SIDED|90.0|1.025|1.065|||||Ratio = Treatment B/Treatment A. Geometric least squares means values presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of a 5-mg saxagliptin tablet plus two 500-mg metformin XR tablets under fed conditions, then 24 subjects would have provided 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 94% and 99% power to conclude BE with respect to Cmax and AUC0-inf.||1.065|1.025|
92447748|NCT01192152|184782629|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|103.05||||||95.0||||||||Geometric least squares means for Treatment B||||
92447749|NCT01192152|184782629|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|98.61||||||95.0||||||||Geometric least squares means for Treatment A||||
92447750|NCT01192152|184782630|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.035|||||TWO_SIDED|90.0|1.009|1.062|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|||1.062|1.009|
92447751|NCT01192152|184782630|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|101.16||||||95.0||||||||Geometric least squares means for Treatment B||||
92447752|NCT01192152|184782630|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|97.72||||||95.0||||||||Geometric least squares means for Treatment A||||
92447753|NCT01192152|184782632|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of saxagliptin.|Ratio of geometric least squares mean|0.999|||||TWO_SIDED|90.0|0.948|1.053|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of a 5-mg saxagliptin tablet plus two 500-mg metformin XR tablets under fed conditions, then 24 subjects would have provided 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 94% and 99% power to conclude BE with respect to Cmax and AUC0-inf.||1.053|0.948|
92447754|NCT01192152|184782632|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|24.85||||||95.0||||||||Geometric least squares means for Treatment B||||
92447755|NCT01192152|184782632|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|24.88||||||95.0||||||||Geometric least squares means for Treatment A||||
92447756|NCT01192152|184782649|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of metformin.|ratio of geometric least squares means|0.894|||||TWO_SIDED|90.0|0.833|0.959|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of a 5-mg saxagliptin tablet plus two 500-mg metformin XR tablets under fed conditions, then 24 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided at least 99% power to conclude BE with respect to Cmax and AUC0-inf.||0.959|0.833|
92447757|NCT01192152|184782649|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|8713.4||||||95.0||||||||Geometric least squares mean for Treatment B||||
92447758|NCT01192152|184782649|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|9746.3||||||95.0||||||||Geometric least squares mean for Treatment A||||
92447759|NCT01192152|184782650|SUPERIORITY_OR_OTHER||ratio of geometric least squares means|0.906|||||TWO_SIDED|90.0|0.848|0.968|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|||0.968|0.848|
92447760|NCT01192152|184782650|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|8377.8||||||95.0||||||||Geometric least squares means for Treatment B||||
92447761|NCT01192152|184782650|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|9246.8||||||95.0||||||||Geometric least squares mean for Treatment A||||
92447762|NCT01192152|184782652|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of metformin.|ratio of geometric least squares means|0.917|||||TWO_SIDED|90.0|0.859|0.98|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of a 5-mg saxagliptin tablet plus two 500-mg metformin XR tablets under fed conditions, then 24 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided at least 99% power to conclude BE with respect to Cmax and AUC0-inf.||0.980|0.859|
92447763|NCT01192152|184782652|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|1055.9||||||95.0||||||||Geometric least squares means for Treatment B||||
92447764|NCT01192152|184782652|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|1151.2||||||95.0||||||||Geometric least squares means for Treatment A||||
92447765|NCT03037528|184782678|SUPERIORITY|||||||0.214|||||||t-test, 2 sided|||||||.214
92447766|NCT03037528|184782678|SUPERIORITY|||||||0.017|||||||t-test, 2 sided|||||||.017
92447767|NCT03037528|184782678|SUPERIORITY|||||||0.457|||||||t-test, 2 sided|||||||.457
92447768|NCT03037528|184782678|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||.580
92447769|NCT03037528|184782678|SUPERIORITY|||||||0.275|||||||t-test, 2 sided|||||||.275
92447770|NCT03037528|184782678|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||.001
92447771|NCT03037528|184782678|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||.007
92447772|NCT03037528|184782678|SUPERIORITY|||||||0.142|||||||t-test, 2 sided|||||||.142
92447773|NCT03037528|184782679|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||||||.027
92447774|NCT03037528|184782679|SUPERIORITY|||||||0|||||||t-test, 2 sided|||||||.000
92447775|NCT03037528|184782679|SUPERIORITY|||||||0.054|||||||t-test, 2 sided|||||||.054
92447776|NCT03037528|184782679|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||.014
92240572|NCT02433210|184384634|SUPERIORITY||||||=|0.033||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Clearance of myoglobin Optiflux vs ELISIO.||||=0.033
92447777|NCT03037528|184782679|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||||||.019
92447778|NCT03037528|184782679|SUPERIORITY|||||||0.026|||||||t-test, 2 sided|||||||.026
92447779|NCT03037528|184782679|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||||||.013
92447780|NCT03037528|184782679|SUPERIORITY|||||||0.163|||||||t-test, 2 sided|||||||.163
92447781|NCT03037528|184782680|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||||||.018
92447782|NCT03037528|184782680|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||.004
92447783|NCT03037528|184782680|SUPERIORITY|||||||0.134|||||||t-test, 2 sided|||||||.134
92447784|NCT03037528|184782680|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
92447785|NCT03037528|184782680|SUPERIORITY|||||||0.048|||||||t-test, 2 sided|||||||.048
92447786|NCT03037528|184782680|SUPERIORITY|||||||0.066|||||||t-test, 2 sided|||||||.066
92447787|NCT03037528|184782680|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||||||.045
92447788|NCT03037528|184782680|SUPERIORITY|||||||0.053|||||||t-test, 2 sided|||||||.053
92447789|NCT01339390|184782681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3941|STANDARD_ERROR_OF_MEAN|0.5759||0.4937|TWO_SIDED|95.0|-0.7347|1.5229||calculated after fitting the data to a repeated measures mixed model to control for repeated subject and random site and group effects|t-test, 2 sided|accounted for repeated measures and random effects|The difference is expressed as the Move (arm 2) group minus the Move Out (arm 1) group|This is the analysis at 12 months, comparing the change in weight from 12 months to baseline in our Move Out (arm 1) vs Move (arm 2) groups||1.5229|-.7347|0.4937
92447790|NCT01339390|184782681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5893|STANDARD_ERROR_OF_MEAN|0.5759||0.3062|TWO_SIDED|95.0|-0.5395|1.7181||calculated after fitting the data to a repeated measures mixed model to control for repeated subject and random site and group effects|t-test, 2 sided|accounted for repeated measures and random effects|The difference is expressed as the Move (arm 2) group minus the Move Out (arm 1) group|This is the analysis at 24 months, comparing the change in weight from 24 months to baseline in our Move Out (arm 1) vs Move (arm 2) groups||1.7181|-0.5395|0.3062
92447791|NCT00378703|184782682|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||Log Rank|||Progression-free survival was compared between Arm B (bevacizumab and temsirolimus) and Arm A (bevacizumab alone) using stratified log rank test, stratified on prior cytokine or vaccine therapy and risk category (low/intermediate/high risk)||||0.89
92447792|NCT00378703|184782682|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Log Rank|||Progression-free survival was compared between Arm C (bevacizumab and sorafenib) and Arm A (bevacizumab alone) using stratified log rank test, stratified on prior cytokine or vaccine therapy and risk category (low/intermediate/high risk).||||0.54
92447793|NCT00378703|184782682|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Log Rank|||Progression-free survival was compared between Arm D (sorafenib and temsirolimus) and Arm A (bevacizumab alone) using stratified log rank test, stratified on prior cytokine or vaccine therapy and risk category (low/intermediate/high risk).||||0.68
92447794|NCT00378703|184782685|SUPERIORITY_OR_OTHER|||||||0.0076|TWO_SIDED|||||Each combination arm was compared with the bevacizumab alone arm. Since there were 3 pairwise comparisons, a Bonferroni--adjusted p-value of 0.017 was considered to be statistically significant.|Fisher Exact|||The response rate of each combination arm was compared to that of the bevacizumab alone arm.||||0.0076
92447795|NCT00378703|184782685|SUPERIORITY_OR_OTHER|||||||0.0085|TWO_SIDED|||||Each combination arm was compared with the bevacizumab alone arm. Since there were 3 pairwise comparisons, a Bonferroni--adjusted p-value of 0.017 was considered to be statistically significant.|Fisher Exact|||The response rate of each combination arm was compared to that of the bevacizumab alone arm.||||0.0085
92447796|NCT00378703|184782685|SUPERIORITY_OR_OTHER|||||||0.3006|TWO_SIDED|||||Each combination arm was compared with the bevacizumab alone arm. Since there were 3 pairwise comparisons, a Bonferroni--adjusted p-value of 0.017 was considered to be statistically significant.|Fisher Exact|||The response rate of each combination arm was compared to that of the bevacizumab alone arm.||||0.3006
92447797|NCT03181542|184782713|SUPERIORITY|||||||0.34|||||||Fisher Exact|||||||0.34
92447798|NCT03181542|184782714|SUPERIORITY|||||||0.4|||||||Jonckheere-Terpstra Test|||||||0.40
92447799|NCT03181542|184782715|SUPERIORITY|||||||0.9|||||||Jonckheere-Terpstra Test|||||||0.90
92447800|NCT01462357|184782720|NON_INFERIORITY|Non-inferiority with respect to seroconversion was shown if, one month after the last dose, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% confidence interval (CI) for the difference (Gardasil 2 dose Group minus Cervarix 2 dose Group) was below 5%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.16|1.15||||||Immune response to anti-HPV-16 in terms of seroconversion rates (SCR): To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is non-inferior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, 1 month after the last dose (Month 7), in initially seronegative subjects.||1.15|-1.16|
92447801|NCT01462357|184782720|NON_INFERIORITY|Non-inferiority with respect to seroconversion was shown if, one month after the last dose, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% confidence interval (CI) for the difference (Gardasil 2 dose Group minus Cervarix 2 dose Group) was below 5%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.15|1.14||||||Immune response to anti-HPV-18 in terms of SCR: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is non-inferior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, 1 month after the last dose (Month 7), in initially seronegative subjects.||1.14|-1.15|
92172184|NCT04419168|184234632|SUPERIORITY||Incidence Rate Ratio|1.11||||0.49|TWO_SIDED|95.0|0.83|1.48|||Negative Binomial Regression|Adjustments were made for clinic site, baseline depression (high vs low), and corresponding health care use in the 12 months prior to study entry.||||1.48|0.83|0.49
92172185|NCT04419168|184234633|SUPERIORITY||Incidence Rate Ratio|1.43||||0.1|TWO_SIDED|95.0|0.93|2.18|||Negative Binomial Regression|Adjustments were made for clinic site, baseline depression (high vs low), and corresponding health care use in the 12 months prior to study entry.||||2.18|0.93|0.10
92172186|NCT04419168|184234634|SUPERIORITY||Incidence Rate Ratio|1.31||||0.22|TWO_SIDED|95.0|0.85|2.03|||Negative Binomial Regression|Adjustments were made for clinic site, baseline depression (high vs low), and corresponding health care use in the 12 months prior to study entry.||||2.03|0.85|0.22
92172187|NCT04640961|184234641|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
92240573|NCT02433210|184384634|SUPERIORITY||||||=|0.935|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Clearance of myoglobin Revaclear vs ELISIO.||||=0.935
92447802|NCT01462357|184782721|NON_INFERIORITY|Non-inferiority with respect to GMT was shown if, one month after the last dose, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% CI for the GMT ratio (Gardasil 2 dose Group divided by Cervarix 2 dose Group) was below 2.|GMT ratio|0.61|||||TWO_SIDED|95.0|0.54|0.69|||ANOVA|||Immune response to anti-HPV-16 in terms of Geometric Mean Titers (GMT): To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is non-inferior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, 1 month after the last dose (Month 7), in initially seronegative subjects.||0.69|0.54|
92447803|NCT01462357|184782721|NON_INFERIORITY|Non-inferiority with respect to GMT was shown if, one month after the last dose, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% confidence interval (CI) for the GMT ratio (Gardasil 2 dose Group divided by Cervarix 2 dose Group) was below 2.|GMT ratio|0.23|||||TWO_SIDED|95.0|0.2|0.26|||ANOVA|||Immune response to anti-HPV-18 in terms of GMT: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is non-inferior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, 1 month after the last dose (Month 7), in initially seronegative subjects.||0.26|0.20|
92447804|NCT01462357|184782722|SUPERIORITY|Superiority was shown if the lower limit of the 95% CI for the ratio of GMTs (Cervarix 2 dose Group divided by Gardasil 2 dose Group) was above 1 for anti-HPV-18 antibodies.|GMT ratio|4.52||||0.0001|TWO_SIDED|95.0|3.97|5.13|||ANOVA|||Anti-HPV-18 immune response: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is superior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, in 9-14 year-old females, 1 month after the last dose (Month 7) regardless of serostatus.||5.13|3.97|0.0001
92447805|NCT01462357|184782722|SUPERIORITY|Superiority was shown if the lower limit of the 95% CI for the ratio of GMTs (Cervarix 2 dose Group divided by Gardasil 2 dose Group) was above 1 for anti-HPV-16 antibodies.|GMT ratio|1.69||||0.0001|TWO_SIDED|95.0|1.49|1.91|||ANOVA|||Anti-HPV-16 immune response: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is superior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, in 9-14 year-old females, 1 month after the last dose (Month 7) regardless of serostatus.||1.91|1.49|0.0001
92447806|NCT02908529|184782742|SUPERIORITY||Median Difference (Final Values)|-15.9|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92447807|NCT04497987|184782744|SUPERIORITY||Odds Ratio (OR)|0.4|||<|0.001|TWO_SIDED|95.0|0.26|0.63|||Regression, Logistic|||||0.63|0.26|<0.001
92172188|NCT04640961|184234642|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
92172189|NCT04640961|184234643|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
92172190|NCT05009251|184234646|SUPERIORITY|||||||0.054|||||||Regression, Linear|||This analysis compared groups that were informed they were high risk (High Risk Only, High Risk Based on Medical Records, High Risk Based on Algorithm) to Reminder Control patients who were sent messages that did not disclose their risk status. Null hypothesis: messages that inform patients they are high risk do not increase flu vaccination rate vs. messages that do not disclose risk status; Alternative hypothesis: messages that inform patients they are high risk increase flu vaccination rate.||||.054
92172191|NCT05009251|184234646|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||This analysis compared groups that were informed they were high risk (High Risk Only, High Risk Based on Medical Records, High Risk Based on Algorithm) to No-Contact Control patients who were not sent messages. Null hypothesis: messages that inform patients they are high risk do not increase flu vaccination rate relative to no messages; Alternative hypothesis: messages that inform patients they are high risk increase flu vaccination rate.||||<.001
92172192|NCT05009251|184234646|SUPERIORITY|||||||0.24|||||||Regression, Linear|||This analysis compared groups who received messages including risk reasons (High Risk Based on Medical Records, High Risk Based on Algorithm) to messages that mentioned patients' risk status but do not include reasons (High Risk Only). Null hypothesis: messages that include risk reasons do not increase flu vaccination rate relative to high-risk messages that do not include risk reasons; Alternative hypothesis: messages including risk reasons are more effective at increasing vaccination rates.||||.240
92240574|NCT02433210|184384634|SUPERIORITY||||||=|0.463|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of urea nitrogen Optiflux vs Revaclaer.||||=0.463
92172193|NCT05009251|184234646|SUPERIORITY|||||||0.047|||||||Regression, Linear|||Null hypothesis: flu-shot messages that do not mention high-risk status do not increase vaccination relative to no messages; Alternative hypothesis: flu shot messages that do not mention high-risk status increase flu shots relative to no messages.||||.047
92172194|NCT05009251|184234646|SUPERIORITY|||||||0.781||||||Pairwise comparisons between high-risk messages (Analyses 5, 6 and 7) were analyzed in the same regression. Reported p-values were adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: High Risk Only and High Risk Based on Medical Records messages are equally effective at promoting flu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High Risk Only and High Risk Based on Medical Records.||||.781
92172195|NCT05009251|184234646|SUPERIORITY|||||||0.361||||||Pairwise comparisons between high-risk messages (Analyses 5, 6 and 7) were analyzed in the same regression. Reported p-values were adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: High Risk Only and High Risk Based on Algorithm messages are equally effective at promoting flu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High Risk Only and High Risk Based on Algorithm.||||.361
92172196|NCT05009251|184234646|SUPERIORITY|||||||0.77||||||Pairwise comparisons between high-risk messages (Analyses 5, 6 and 7) were analyzed in the same regression. Reported p-values were adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: High Risk Based on Medical Records and High Risk Based on Algorithm messages are equally effective at promoting flu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High Risk Based on Medical Records and High Risk Based on Algorithm.||||.770
92172197|NCT04204278|184234654|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
92172198|NCT04204278|184234655|OTHER||||||<|0.0001|||||||t-test, 1 sided|P-Value was calculated||||||<0.0001
92172199|NCT04204278|184234656|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
92447808|NCT04497987|184782745|SUPERIORITY||Odds Ratio (OR)|0.43|||<|0.001|TWO_SIDED|95.0|0.27|0.67|||Regression, Logistic|||||0.67|0.27|<0.001
92447809|NCT04497987|184782746|SUPERIORITY||Odds Ratio (OR)|0.66||||0.021|TWO_SIDED|95.0|0.46|0.94|||Regression, Logistic|||||0.94|0.46|0.021
92447810|NCT04099524|184782751|SUPERIORITY|The analysis was based on evaluating whether active tDCS is superior than sham tDCS on outcomes.|Mean Difference (Final Values)|-0.18|||<|0.05|TWO_SIDED|||||multiple correction adjusted p\<0.05|Mixed Models Analysis|||p-value was calculated, and is not attempting to indicate the threshold for statistical significance.||||<0.05
92447811|NCT04099524|184782751|SUPERIORITY||Mean Difference (Final Values)|0.2|||<|0.05|TWO_SIDED|||||multiple correction adjusted p\<0.05|Mixed Models Analysis|||||||<0.05
92447812|NCT04099524|184782752|SUPERIORITY|The analysis was based on evaluating whether active tDCS is superior than sham tDCS on outcomes.|chi-square|3.14|||<|0.05|TWO_SIDED||||||Chi-squared|||reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.||||<0.05
92447813|NCT04099524|184782753|SUPERIORITY|The analysis was based on evaluating whether active tDCS is superior than sham tDCS on outcomes.|Mean Difference (Final Values)|0.2|||<|0.05|TWO_SIDED|||||multiple correction adjusted p\<0.05|Mixed Models Analysis|||p-value was calculated, and is not attempting to indicate the threshold for statistical significance.||||<0.05
92447814|NCT04099524|184782754|SUPERIORITY|The analysis was based on evaluating whether active tDCS is superior than sham tDCS on outcomes.|Mean Difference (Final Values)|0.84|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance||||<0.05
92447815|NCT04733157|184782755|OTHER||Risk Ratio (RR)|0.87|STANDARD_ERROR_OF_MEAN|0.1||0.33|TWO_SIDED|95.0|0.69|1.09||Threshold for statistical significance was 0.05|Chi-squared|||||1.09|0.69|0.33
92447816|NCT01966926|184782790|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|chi square|2.05||||0.15|TWO_SIDED|||||P-value was unadjusted, with an a priori threshold for statistical significance set at p \<.05.|Chi-squared|1 degree of freedom||||||.15
92447817|NCT01966926|184782791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|Wilks' Lambda|0.96||||0.61||||||P-value not adjusted for multiple comparisons; a priori threshold of \<0.05 for statistical significance|MANOVA|Degrees of freedom: 2,27||Repeated measures analysis from baseline to six months.||||0.61
92447818|NCT01966926|184782792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|Wilks' Lambda|0.95||||0.5||||||P-value is unadjusted; a priori threshold for statistical significance was \<0.05.|MANOVA|Degrees of freedom: 2,27||Repeated measures analysis from baseline to six months.||||0.50
92447819|NCT01966926|184782793|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|Wilks' Lambda|0.87||||0.15||||||P-value not adjusted for multiple comparisons; a priori threshold for statistical significance was \<0.05.|MANOVA|Degrees of freedom: 2,27||Repeated measures analysis from baseline to six months.||||0.15
92447820|NCT01966926|184782794|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|Wilks' Lambda|0.91||||0.3||||||P-value not adjusted for multiple comparisons; a priori threshold for statistical significance was \<0.05.|MANOVA|Degrees of freedom: 2,26||Repeated measures analysis from baseline to six months.||||0.30
92447821|NCT01966926|184782795|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|Wilks' Lambda|0.93||||0.17||||||P-value not adjusted for multiple comparisons; a priori threshold for statistical significance was \<0.05.|MANOVA|Degrees of freedom: 1,28||Repeated measures analysis from three to six months.||||0.17
92447822|NCT02139644|184782849|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.154||||0.0076|TWO_SIDED|95.0|0.041|0.267|||ANCOVA|Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the first in the sequence.||0.267|0.041|0.0076
92447823|NCT02139644|184782849|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.131||||0.0322|TWO_SIDED|95.0|0.011|0.25|||ANCOVA|Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the second in the sequence.||0.250|0.011|0.0322
92172200|NCT02662062|184234667|OTHER|This is a single arm study looking at a binary value with the hypothesis suggesting it falls within a certain range.||||||||||||||||The null hypothesis is that the addition of pembrolizumab to chemoradiation is not unsafe (percentage of the population experiencing unacceptable toxicity is not \>50%)|A Clopper-Pearson method was used to determine the unacceptable toxicity rate and a 95% confidence interval for this binary outcome measure.|||
92172201|NCT02662062|184234668|OTHER|Single arm study with no comparator arm and assessment of a binary variable. Clopper-Pearson method used to calculate the 95% confidence interval relating to this proportion.|||||||||||||||||Single arm study with no comparator arm and assessment of a binary variable. Clopper-Pearson method used to calculate the 95% confidence interval relating to this proportion.|||
92172202|NCT02662062|184234669|OTHER|Single arm study with no comparator arm and assessment of a binary variable. Clopper-Pearson method used to calculate the 95% confidence interval relating to this proportion.|||||||||||||||||Single arm study with no comparator arm and assessment of a binary variable. Clopper-Pearson method used to calculate the 95% confidence interval relating to this proportion.|||
92172203|NCT02662062|184234670|OTHER|Non comparative trial with a single arm|Kaplan Meier Estimate|39.0|||||TWO_SIDED|95.0|17.0||missing upper limit of 95% confidence interval on the survival estimate from Kaplan-Meier estimator due to small number events||||||||17|
92447824|NCT02139644|184782849|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.335||||0|TWO_SIDED|95.0|0.216|0.453|||ANCOVA|Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the third in the sequence.||0.453|0.216|0.0000
92447825|NCT02139644|184782849|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.325||||0|TWO_SIDED|95.0|0.203|0.447|||ANCOVA|Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the fourth in the sequence.||0.447|0.203|0.0000
92447826|NCT02139644|184782850|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.262||||0|TWO_SIDED|95.0|0.168|0.356|||ANCOVA|Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the fifth in the sequence.||0.356|0.168|0.0000
92447827|NCT02139644|184782850|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.266||||0|TWO_SIDED|95.0|0.172|0.36|||ANCOVA|Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the sixth in the sequence.||0.360|0.172|0.0000
92447828|NCT02139644|184782850|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.151||||0.0017|TWO_SIDED|95.0|0.057|0.244|||ANCOVA|Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the seventh in the sequence.||0.244|0.057|0.0017
92447829|NCT02139644|184782850|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.119||||0.0132|TWO_SIDED|95.0|0.025|0.212|||ANCOVA|Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the eighth in the sequence.||0.212|0.025|0.0132
92447830|NCT02139644|184782851|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|10.926||||0.0123|TWO_SIDED|95.0|2.38|19.471||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||19.471|2.380|0.0123
92447831|NCT02139644|184782851|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|7.018||||0.1074|TWO_SIDED|95.0|-1.531|15.567||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||15.567|-1.531|0.1074
92172204|NCT02662062|184234671|OTHER|Kaplan Meier Estimate performed for a 12 month timepoint in a single arm non comparative study|Kaplan Meier Estimate|92.0|||||TWO_SIDED|95.0|72.0|98.0||||||||98|72|
92172205|NCT02662062|184234672|OTHER|Kaplan Meier Estimate of single arm non comparative study|Kaplan Meier Estimate|85.0|||||TWO_SIDED|95.0|64.0|94.0||||||||94|64|
92172206|NCT02662062|184234673|OTHER|Kaplan Meier estimate at a 12 month timepoint for a single arm non comparative study|Kaplan Meier Estimate|88.0|||||TWO_SIDED|95.0|68.0|98.0||||||||98|68|
92172207|NCT00676715|184234677|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren Test (stratified)|||Van Elteren test is stratified by region and presence of baseline gadolinium-enhancing lesions (absent or present).||||<0.0001
92172208|NCT00676715|184234677|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren Test (stratified)|||Van Elteren test is stratified by region and presence of baseline gadolinium-enhancing lesions (absent or present).||||<0.0001
92172209|NCT00676715|184234677|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7496|||||||Van Elteren Test (stratified)|||Van Elteren test is stratified by region and presence of baseline gadolinium-enhancing lesions (absent or present).||||0.7496
92172210|NCT00676715|184234678|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019|||||||Poisson model|||Poisson model was fitted for adjusting for geographic region only.||||0.0019
92172211|NCT00676715|184234678|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0136|||||||Poisson model|||Poisson model was fitted for adjusting for geographic region only.||||0.0136
92172212|NCT00676715|184234678|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1814|||||||Poisson model|||Poisson model was fitted for adjusting for geographic region only.||||0.1814
92172213|NCT00676715|184234679|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (RR)|0.6||||0.1978|TWO_SIDED|95.0|0.27|1.34|||Cochran-Mantel-Haenszel chi-square test|Cochran-Mantel-Haenszel (CMH) chi-square test stratified by geographical region only.||||1.34|0.27|0.1978
92172214|NCT00676715|184234679|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (RR)|0.53||||0.131|TWO_SIDED|95.0|0.23|1.22|||CMH chi-square test|CMH chi-square test stratified by geographical region only.||||1.22|0.23|0.1310
92172215|NCT00676715|184234679|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (RR)|0.92||||0.8206|TWO_SIDED|95.0|0.46|1.84|||CMH chi-square tes|CMH chi-square test stratified by geographical region only.||||1.84|0.46|0.8206
92172216|NCT00676715|184234680|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1391|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.1391
92172217|NCT00676715|184234680|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1596|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.1596
92172218|NCT00676715|184234680|SUPERIORITY_OR_OTHER_LEGACY|||||||0.474|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.4740
92172219|NCT00676715|184234681|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||<0.0001
92447832|NCT02139644|184782851|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|20.824||||0|TWO_SIDED|95.0|12.253|29.395||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||29.395|12.253|0.0000
92447833|NCT02139644|184782851|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|21.273||||0|TWO_SIDED|95.0|12.728|29.818||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||29.818|12.728|0.0000
92447834|NCT02139644|184782851|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|9.898||||0.0233|TWO_SIDED|95.0|1.349|18.447||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||18.447|1.349|0.0233
92447835|NCT02139644|184782851|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|14.255||||0.0011|TWO_SIDED|95.0|5.732|22.778||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||22.778|5.732|0.0011
92447836|NCT02139644|184782851|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|10.347||||0.0175|TWO_SIDED|95.0|1.822|18.872||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||18.872|1.822|0.0175
92447837|NCT02139644|184782852|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.165||||0.0002|TWO_SIDED|95.0|-0.251|-0.08||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.080|-0.251|0.0002
92447838|NCT02139644|184782852|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.143||||0.001|TWO_SIDED|95.0|-0.229|-0.058||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.058|-0.229|0.0010
92447839|NCT02139644|184782852|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.23||||0|TWO_SIDED|95.0|-0.315|-0.144||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.144|-0.315|0.0000
92447840|NCT02139644|184782852|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.194||||0|TWO_SIDED|95.0|-0.279|-0.109||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.109|-0.279|0.0000
92447841|NCT02139644|184782852|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.064||||0.1381|TWO_SIDED|95.0|-0.15|0.021||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.021|-0.150|0.1381
92172220|NCT00676715|184234681|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||<0.0001
92172221|NCT00676715|184234681|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4985|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.4985
92172222|NCT00676715|184234682|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.0004
92172223|NCT00676715|184234682|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||<0.0001
92172224|NCT00676715|184234682|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2725|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.2725
92172225|NCT05249439|184234688|OTHER|Paired t-test|Mean Difference (Final Values)|-12.99|||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||I-SatPro starting weight Vs 52 week weight (kg)||||<0.0001
92447842|NCT02139644|184782852|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.051||||0.2438|TWO_SIDED|95.0|-0.136|0.035||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.035|-0.136|0.2438
92447843|NCT02139644|184782852|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.029||||0.5095|TWO_SIDED|95.0|-0.114|0.057||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.057|-0.114|0.5095
92447844|NCT02139644|184782853|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.463||||0.0004|TWO_SIDED|95.0|-0.716|-0.209||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.209|-0.716|0.0004
92447845|NCT02139644|184782853|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.464||||0.0003|TWO_SIDED|95.0|-0.718|-0.211||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.211|-0.718|0.0003
92447846|NCT02139644|184782853|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.675||||0|TWO_SIDED|95.0|-0.928|-0.421||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.421|-0.928|0.0000
92447847|NCT02139644|184782853|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.704||||0|TWO_SIDED|95.0|-0.957|-0.45||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.450|-0.957|0.0000
92447848|NCT02139644|184782853|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.212||||0.1014|TWO_SIDED|95.0|-0.465|0.042||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.042|-0.465|0.1014
92447849|NCT02139644|184782853|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.239||||0.064|TWO_SIDED|95.0|-0.492|0.014||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.014|-0.492|0.0640
92447850|NCT02139644|184782853|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.241||||0.0626|TWO_SIDED|95.0|-0.494|0.013||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.013|-0.494|0.0626
92447851|NCT02139644|184782854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1679||||||Significance level of 0.05|Log Rank|||||||0.1679
92280659|NCT03194464|184464020|SUPERIORITY|||||||0.004||||||statistical significance was established a priori at p \<.05|ANOVA|repeated measures ANOVA comparing Session8 vs. Session1 performance||We performed repeated measures analysis of variance (RM-ANOVA) to determine if motor dexterity, as measured by the BBT, was improved by repeated sessions of non-paretic hand exercise to task-failure. BBT performance was compared between Session1 and Session8.||||.004
92447852|NCT02139644|184782854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1701||||||Significance level of 0.05|Log Rank|||||||0.1701
92447853|NCT02139644|184782854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0437||||||Significance level of 0.05|Log Rank|||||||0.0437
92447854|NCT02139644|184782854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1718||||||Significance level of 0.05|Log Rank|||||||0.1718
92447855|NCT02139644|184782854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3134||||||Significance level of 0.05|Log Rank|||||||0.3134
92447856|NCT02139644|184782854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.993||||||Significance level of 0.05|Log Rank|||||||0.9930
92447857|NCT02139644|184782854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9999||||||Significance level of 0.05|Log Rank|||||||0.9999
92447858|NCT02139644|184782855|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.301||||0.0044|TWO_SIDED|95.0|0.094|0.508||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.508|0.094|0.0044
92447859|NCT02139644|184782855|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.253||||0.0155|TWO_SIDED|95.0|0.048|0.458||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.458|0.048|0.0155
92447860|NCT02139644|184782855|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.473||||0|TWO_SIDED|95.0|0.27|0.676||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.676|0.270|0.0000
92447861|NCT02139644|184782855|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.23||||0.0293|TWO_SIDED|95.0|0.023|0.437||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.437|0.023|0.0293
92240575|NCT02433210|184384634|SUPERIORITY||||||=|0.392|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of urea nitrogen Optiflux vs ELISIO.||||=0.392
92240576|NCT02433210|184384634|SUPERIORITY||||||=|0.597|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance urea nitrogen Revaclear vs ELISIO.||||=0.597
92240577|NCT02433210|184384634|SUPERIORITY||||||=|0.162|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of creatinine Optiflux vs Revaclear.||||=0.162
92240578|NCT02433210|184384634|SUPERIORITY|||||||0.186|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of creatinine Optiflux vs ELISIO.||||0.186
92447862|NCT02139644|184782855|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.172||||0.0913|TWO_SIDED|95.0|-0.028|0.372||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.372|-0.028|0.0913
92447863|NCT02139644|184782855|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.023||||0.8216|TWO_SIDED|95.0|-0.223|0.177||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.177|-0.223|0.8216
92447864|NCT02139644|184782855|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.071||||0.4934|TWO_SIDED|95.0|-0.275|0.133||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.133|-0.275|0.4934
92287159|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.206|||<|0.001|TWO_SIDED|95.0|0.146|0.266|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.266|0.146|<0.001
92447865|NCT01694706|184782883|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|120.35|STANDARD_DEVIATION|23.2||0.342|TWO_SIDED|90.0|102.09|141.88|||ANOVA|Ratio calculated as Faldaprevir after a high-fat meal divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||141.88|102.09|0.3420
92447866|NCT01694706|184782883|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|94.33|STANDARD_DEVIATION|30.8||0.0962|TWO_SIDED|90.0|76.21|116.76|||ANOVA|Ratio calculated as Faldaprevir and Omeprazole divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||116.76|76.21|0.0962
92447867|NCT01694706|184782884|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|118.79|STANDARD_DEVIATION|52.4||0.3993|TWO_SIDED|90.0|83.19|169.628|||ANOVA|Ratio calculated as Faldaprevir after a high-fat meal divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||169.628|83.190|0.3993
92447868|NCT01694706|184782884|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|93.55|STANDARD_DEVIATION|53.0||0.2204|TWO_SIDED|90.0|65.783|133.03|||ANOVA|Ratio calculated as Faldaprevir and Omeprazole divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||133.030|65.783|0.2204
92447869|NCT01694706|184782885|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|121.28|STANDARD_DEVIATION|24.0||0.3765|TWO_SIDED|90.0|102.32|143.74|||ANOVA|Ratio calculated as Faldaprevir after a high-fat meal divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||143.74|102.32|0.3765
92447870|NCT01694706|184782885|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|94.72|STANDARD_DEVIATION|31.4||0.0946|TWO_SIDED|90.0|76.25|117.67|||ANOVA|Ratio calculated as Faldaprevir and Omeprazole divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||117.67|76.25|0.0946
92447871|NCT00451282|184782886|SUPERIORITY_OR_OTHER|||||||0.69|||||||t-test, 2 sided|||||||.69
92447872|NCT00451282|184782887|SUPERIORITY_OR_OTHER|||||||0.89|||||||t-test, 2 sided|||||||.89
92447873|NCT00451282|184782888|SUPERIORITY_OR_OTHER|||||||0.69|||||||t-test, 2 sided|||||||.69
92447874|NCT00451282|184782889|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||||||.18
92447875|NCT01797536|184782893|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (GMR)|0.61|||||TWO_SIDED|90.0|0.34|1.08|||||GMR= Mild Hepatic Insufficiency Geometric Mean (GM) divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.08|0.34|
92447876|NCT01797536|184782893|SUPERIORITY_OR_OTHER||GMR|0.72|||||TWO_SIDED|90.0|0.4|1.31|||||GMR = Moderate Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.31|0.40|
92447877|NCT01797536|184782893|SUPERIORITY_OR_OTHER||GMR|0.88|||||TWO_SIDED|90.0|0.48|1.61|||||GMR = Severe Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.61|0.48|
92172226|NCT00616967|184234697|SUPERIORITY_OR_OTHER_LEGACY||Pathological complete response rate|0.274|||||TWO_SIDED|95.0|0.169|0.402|||||The Estimation Parameter provided above is for overall pCR for both arms combined. We estimated pCR for each arm separately as well.|Patients were stratified by hormone receptor status and randomly assigned to either arm 1 or 2. This study was designed using Simon's two-stage design for each arm in parallel. Interim analysis of early stopping for futility was conducted for the first 32 patients (16 patients per arm) and the study proceeded as more than 2 patients achieved a pCR in each arm (31 patients per arm). This design had 80% power to detect a 25% pCR rate versus a null rate of 10% with a type I error rate of 0.10.||0.402|0.169|
92240579|NCT02433210|184384634|SUPERIORITY|No Significant difference.||||||0.624|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Urea nitrogen clearance Optiflux vs Revaclear.||||0.624
92447878|NCT01797536|184782894|SUPERIORITY_OR_OTHER||GMR|0.6|||||TWO_SIDED|90.0|0.34|1.05|||||GMR = Mild Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.05|0.34|
92447879|NCT01797536|184782894|SUPERIORITY_OR_OTHER||GMR|0.64|||||TWO_SIDED|90.0|0.35|1.14|||||GMR = Moderate Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.14|0.35|
92447880|NCT01797536|184782894|SUPERIORITY_OR_OTHER||GMR|0.63|||||TWO_SIDED|90.0|0.35|1.13|||||GMR = Severe Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.13|0.35|
92447881|NCT01797536|184782895|SUPERIORITY_OR_OTHER||GMR|0.58|||||TWO_SIDED|90.0|0.32|1.05|||||GMR = Mild Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.05|0.32|
92447882|NCT01797536|184782895|SUPERIORITY_OR_OTHER||GMR|0.64|||||TWO_SIDED|90.0|0.35|1.14|||||GMR = Moderate Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.14|0.35|
92447883|NCT01797536|184782895|SUPERIORITY_OR_OTHER||GMR|0.58|||||TWO_SIDED|90.0|0.32|1.08|||||GMR = Severe Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.08|0.32|
92447884|NCT01797536|184782896|SUPERIORITY_OR_OTHER||GMR|0.61|||||TWO_SIDED|90.0|0.34|1.08|||||GMR = Mild Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.08|0.34|
92447885|NCT01797536|184782896|SUPERIORITY_OR_OTHER||GMR|0.69|||||TWO_SIDED|90.0|0.38|1.25|||||GMR = Moderate Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.25|0.38|
92447886|NCT01797536|184782896|SUPERIORITY_OR_OTHER||GMR|0.78|||||TWO_SIDED|90.0|0.43|1.43|||||GMR = Severe Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.43|0.43|
92447887|NCT00456092|184782903|SUPERIORITY||Odds Ratio (OR)|4.19||||0.002|TWO_SIDED|95.0|1.72|10.2||A p-value \< 0.025 (2-sided) is considered statistically significant, after adjusting for two treatment comparisons using the Bonferroni procedure.|Chi-squared, Corrected|||||10.20|1.72|0.002
92447888|NCT00456092|184782903|SUPERIORITY||Odds Ratio (OR)|5.77|||<|0.001|TWO_SIDED|95.0|2.4|13.88||A p-value \< 0.025 (2-sided) is considered statistically significant, after adjusting for two treatment comparisons using the Bonferroni procedure.|Chi-squared, Corrected|||||13.88|2.40|< 0.001
92447889|NCT00456092|184782906|SUPERIORITY||Odds Ratio (OR)|5.12||||0.056|TWO_SIDED|95.0|1.06|24.67|||Chi-squared, Corrected|||||24.67|1.06|0.056
92447890|NCT00456092|184782906|SUPERIORITY||Odds Ratio (OR)|6.95||||0.012|TWO_SIDED|95.0|1.49|32.35|||Chi-squared, Corrected|||||32.35|1.49|0.012
92447891|NCT00456092|184782907|SUPERIORITY||Odds Ratio (OR)|5.4||||0.204|TWO_SIDED|95.0|0.61|47.54|||Chi-squared, Corrected|||||47.54|0.61|0.204
92447892|NCT00456092|184782907|SUPERIORITY||Odds Ratio (OR)|4.12||||0.371|TWO_SIDED|95.0|0.45|37.88|||Chi-squared, Corrected|||||37.88|0.45|0.371
92447893|NCT00456092|184782908|SUPERIORITY||Odds Ratio (OR)|1.568||||0.264|TWO_SIDED|95.0|0.79|3.11|||Chi-squared, Corrected|||||3.11|0.79|0.264
92447894|NCT00456092|184782908|SUPERIORITY||Odds Ratio (OR)|1.98||||0.071|TWO_SIDED|95.0|1.0|3.91|||Chi-squared, Corrected|||||3.91|1.00|0.071
92447895|NCT00456092|184782909|SUPERIORITY||Odds Ratio (OR)|1.305||||0.549|TWO_SIDED|95.0|0.66|2.57|||Chi-squared, Corrected|||||2.57|0.66|0.549
92447896|NCT00456092|184782909|SUPERIORITY||Odds Ratio (OR)|1.033||||1|TWO_SIDED|95.0|0.53|2.03|||Chi-squared, Corrected|||||2.03|0.53|1.000
92447897|NCT00456092|184782910|SUPERIORITY||Odds Ratio (OR)|2.06||||0.083|TWO_SIDED|95.0|0.98|4.34|||Chi-squared, Corrected|||||4.34|0.98|0.083
92447898|NCT00456092|184782910|SUPERIORITY||Odds Ratio (OR)|1.63||||0.279|TWO_SIDED|95.0|0.77|3.44|||Chi-squared, Corrected|||||3.44|0.77|0.279
92447899|NCT00456092|184782911|SUPERIORITY||Odds Ratio (OR)|1.32||||0.548|TWO_SIDED|95.0|0.66|2.66|||Chi-squared, Corrected|||||2.66|0.66|0.548
92447900|NCT00456092|184782911|SUPERIORITY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.52|2.11|||Chi-squared, Corrected|||||2.11|0.52|1.000
92447901|NCT00456092|184782914|SUPERIORITY||Treatment Difference|11.58||||0.136|TWO_SIDED||||||ANOVA|ANOVA model with treatment as the factor.|Treatment Difference = Apremilast 20 mg BID - Placebo|||||0.136
92447902|NCT00456092|184782914|SUPERIORITY||Treatment Difference|13.53||||0.08|TWO_SIDED||||||ANOVA|ANOVA model with treatment as the factor.|Treatment Difference = Apremilast 20 mg BID - Placebo|||||0.080
92240580|NCT02433210|184384634|SUPERIORITY|||||||0.732|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Urea nitrogen clearance Optiflux vs ELISIO.||||0.732
92240581|NCT02433210|184384634|SUPERIORITY|||||||0.427|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Urea Nitrogen clearance Revaclear vs Optiflux.||||0.427
92447903|NCT00456092|184782915|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.65|TWO_SIDED|95.0|0.745|1.211|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||1.211|0.745|0.650
92172227|NCT00616967|184234697|SUPERIORITY_OR_OTHER_LEGACY||pCR in placebo arm (arm 1)|0.29|||||TWO_SIDED|95.0|0.142|0.48||||||||0.48|0.142|
92172228|NCT00616967|184234697|SUPERIORITY_OR_OTHER_LEGACY||pCR in vorinostat arm (arm 2)|0.258|||||TWO_SIDED|95.0|0.119|0.446||||||||0.446|0.119|
92280660|NCT02129348|184464047|SUPERIORITY||Treatment Effect Difference|0.7||||0.53|TWO_SIDED|95.0|-1.4|2.7||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||Lithium will significantly reduce agitation/aggression compared to placebo. In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||2.7|-1.4|0.53
92447904|NCT00456092|184782915|SUPERIORITY||Hazard Ratio (HR)|1.265||||0.283|TWO_SIDED|95.0|0.791|2.024|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||2.024|0.791|0.283
92447905|NCT00456092|184782916|SUPERIORITY||Hazard Ratio (HR)|1.337||||0.253|TWO_SIDED|95.0|0.791|2.26|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||2.260|0.791|0.253
92447906|NCT00456092|184782916|SUPERIORITY||Hazard Ratio (HR)|3.023||||0.026|TWO_SIDED|95.0|1.059|8.63|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||8.630|1.059|0.026
92447907|NCT00456092|184782917|SUPERIORITY||Hazard Ratio (HR)|1.006||||0.984|TWO_SIDED|95.0|0.457|2.215|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||2.215|0.457|0.984
92447908|NCT00456092|184782917|SUPERIORITY||Hazard Ratio (HR)|0.872||||0.836|TWO_SIDED|95.0|0.158|4.797|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||4.797|0.158|0.836
92447909|NCT00456092|184782922|SUPERIORITY||Adjusted Mean Difference|1.4||||0.308|TWO_SIDED||||||ANOVA|ANOVA model including treatment group, methotrexate use, and baseline score.|Adjusted mean difference (Apremilast-Placebo) was based on the ANOVA model described above.|Mental Component||||0.308
92447910|NCT00456092|184782922|SUPERIORITY||Adjusted Mean Difference|4.1||||0.003|TWO_SIDED||||||ANOVA|ANOVA model including treatment group, methotrexate use, and baseline score.|Adjusted mean difference (Apremilast-Placebo) was based on the ANOVA model described above.|Mental Component||||0.003
92447911|NCT00456092|184782922|SUPERIORITY||Adjusted Mean Difference|1.6||||0.182|TWO_SIDED||||||ANOVA|ANOVA model including treatment group, methotrexate use, and baseline score.|Adjusted mean difference (Apremilast-Placebo) was based on the ANOVA model described above.|Physical Component||||0.182
92447912|NCT00456092|184782922|SUPERIORITY||Adjusted Mean Difference|2.7||||0.026|TWO_SIDED||||||ANOVA|ANOVA model including treatment group, methotrexate use, and baseline score.|Adjusted mean difference (Apremilast-Placebo) was based on the ANOVA model described above.|Physical Component||||0.026
92447913|NCT00456092|184782923|SUPERIORITY||Adjusted Mean Difference|-2.1||||0.016|TWO_SIDED||||||ANOVA|ANOVA model using treatment group, methotrexate use, and interaction of treatment group and methotrexate use as factors.|The adjusted mean difference (Apremilast-Placebo) is based on an ANOVA model described above.|||||0.016
92447914|NCT00456092|184782923|SUPERIORITY||Adjusted Mean Difference|-1.4||||0.105|TWO_SIDED||||||ANOVA|ANOVA model using treatment group, methotrexate use, and interaction of treatment group and methotrexate use as factors.|The adjusted mean difference (Apremilast-Placebo) is based on an ANOVA model described above.|||||0.105
92447915|NCT00456092|184782925|SUPERIORITY||Adjusted Mean Difference|3.3||||0.028|TWO_SIDED||||||ANOVA|ANOVA model with treatment, methotrexate use, and interaction of treatment group and methotrexate use as factors and baseline score as the covariate.|The adjusted mean difference (Apremilast-Placebo) is based on an ANOVA model described above.|||||0.028
92447916|NCT00456092|184782925|SUPERIORITY||Adjusted Mean Difference|4.3||||0.004|TWO_SIDED||||||ANOVA|ANOVA model with treatment, methotrexate use, and interaction of treatment group and methotrexate use as factors with baseline score as the covariate.|The adjusted mean difference (Apremilast-Placebo) is based on an ANOVA model described above.|||||0.004
92447917|NCT03670810|184782990|SUPERIORITY||Odds Ratio (OR)|3.83|||<|0.001|TWO_SIDED|95.0|2.56|5.73|||Regression, Logistic|||||5.73|2.56|<0.001
92447918|NCT03670810|184782990|SUPERIORITY||Odds Ratio (OR)|4.56|||<|0.001|TWO_SIDED|95.0|3.07|6.77|||Regression, Logistic|||||6.77|3.07|<0.001
92447919|NCT03670810|184782991|SUPERIORITY||Odds Ratio (OR)|3.77|||<|0.001|TWO_SIDED|95.0|2.1|6.76|||Regression, Logistic|||||6.76|2.10|<.001
92447920|NCT03670810|184782991|SUPERIORITY||Odds Ratio (OR)|7.24|||<|0.001|TWO_SIDED|95.0|4.13|12.67|||Regression, Logistic|||||12.67|4.13|<.001
92447921|NCT03670810|184782992|SUPERIORITY||Odds Ratio (OR)|2.71|||<|0.001|TWO_SIDED|95.0|2.05|3.57|||Regression, Logistic|||||3.57|2.05|<0.001
92447922|NCT03670810|184782992|SUPERIORITY||Odds Ratio (OR)|2.68|||<|0.001|TWO_SIDED|95.0|2.04|3.53|||Regression, Logistic|||||3.53|2.04|<0.001
92447923|NCT03670810|184782993|SUPERIORITY||Odds Ratio (OR)|2.91|||<|0.001|TWO_SIDED|95.0|2.11|4.01|||Regression, Logistic|||||4.01|2.11|<0.001
92172229|NCT00616967|184234700|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.1||||0.023|TWO_SIDED|95.0|1.3|22.7|||Regression, Logistic|||The estimates provided are based upon a multivariate analysis using a logistic regression adjusting for hormone receptor status. Patients with ≥50% reduction in SULmax were more likely to achieve a pCR.||22.7|1.3|0.023
92172230|NCT02910583|184234709|SUPERIORITY||Difference in Rates|4.7||||0.1475|TWO_SIDED|95.0|-1.6|10.9||P-value is from Z test for the difference of two proportions based on Kaplan-Meier estimates with standard error of each arm computed using Greenwood's formula.|Z test||comparison: ibrutininb vs. placebo|||10.9|-1.6|0.1475
92172231|NCT02910583|184234710|SUPERIORITY||||||<|0.0001||||||One-sided P-value from asymptotic test for the binomial proportion (CRR \<= 37% vs CRR \> 37%).|asymptotic test for binomial proportion|||||||< 0.0001
92172232|NCT03779204|184234777|OTHER||Mean Difference (Final Values)|-2.0||||0.18|TWO_SIDED|95.0|-5.0|1.0|||ANCOVA|||||1.0|-5.0|0.18
92172233|NCT03779204|184234778|OTHER||Mean Difference (Final Values)|-1.4||||0.44|TWO_SIDED|95.0|-5.0|2.3|||ANCOVA|||||2.3|-5.0|0.44
92172234|NCT03779204|184234779|OTHER||Mean Difference (Final Values)|7.3||||0.38|TWO_SIDED|95.0|-9.7|24.4|||ANCOVA|||||24.4|-9.7|.38
92172235|NCT03779204|184234780|OTHER||Mean Difference (Final Values)|0.6||||0.76|TWO_SIDED|95.0|-3.3|4.4|||ANCOVA|||||4.4|-3.3|0.76
92172236|NCT03779204|184234781|OTHER|||||||0.68|||||||ANCOVA|||||||0.68
92172237|NCT03779204|184234782|OTHER||Mean Difference (Final Values)|-7.2||||0.12|TWO_SIDED|95.0|-16.4|2.0|||ANCOVA|||||2.0|-16.4|0.12
92172238|NCT03779204|184234783|OTHER||Mean Difference (Final Values)|-4.4||||0.34|TWO_SIDED|95.0|-13.7|5.0|||ANCOVA|||||5.0|-13.7|0.34
92172239|NCT03779204|184234785|OTHER||Mean Difference (Final Values)|-1.3||||0.62|TWO_SIDED|95.0|-6.6|4.0|||ANCOVA|||||4.0|-6.6|0.62
92172240|NCT02384317|184234814|SUPERIORITY||Slope|-2.4|STANDARD_DEVIATION|141.77||0.965|TWO_SIDED|95.0|-133.6|128.7|||Random coefficients regression|||||128.7|-133.6|0.965
92172241|NCT03940963|184234900|NON_INFERIORITY|The visual analog scale (VAS, 0-100 scale) pain score change from baseline value to 12 months was tested for non-inferiority of neurectomy with Axoguard Nerve Cap to standard neurectomy alone using closed testing procedures.||||||0.011||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.011
92280661|NCT02129348|184464048|SUPERIORITY||Treatment Effect Difference|2.11||||0.26|TWO_SIDED|95.0|0.73|6.13||The threshold for statistical significance was p = 0.05.|Chi-squared||Odds ratio and its 95% confidence interval were computed.|Change in both NPI core score (≥30% versus \<30%) and CGI behavior change (1 or 2 versus ≥3) were required for response; these two measures were then analyzed separately. A x² test was used to identify whether there was a change in NPI core scores and CGI scores from baseline to week 12.||6.13|0.73|0.26
92447924|NCT03670810|184782993|SUPERIORITY||Odds Ratio (OR)|3.5|||<|0.001|TWO_SIDED|95.0|2.53|4.85|||Regression, Logistic|||||4.85|2.53|<0.001
92447925|NCT03670810|184782994|SUPERIORITY||Odds Ratio (OR)|3.52|||<|0.001|TWO_SIDED|95.0|2.05|6.02|||Regression, Logistic|||||6.02|2.05|<0.001
92447926|NCT03670810|184782994|SUPERIORITY||Odds Ratio (OR)|4.67|||<|0.001|TWO_SIDED|95.0|2.77|7.88|||Regression, Logistic|||||7.88|2.77|<0.001
92447927|NCT03670810|184782995|SUPERIORITY||Odds Ratio (OR)|2.3||||0.004|TWO_SIDED|95.0|1.3|4.04|||Regression, Logistic|||||4.04|1.30|0.004
92447928|NCT03670810|184782995|SUPERIORITY||Odds Ratio (OR)|4.09|||<|0.001|TWO_SIDED|95.0|2.41|6.94|||Regression, Logistic|||||6.94|2.41|<0.001
92447929|NCT03670810|184782996|SUPERIORITY||Odds Ratio (OR)|3.29|||<|0.001|TWO_SIDED|95.0|1.8|6.02|||Regression, Logistic|||||6.02|1.80|<0.001
92447930|NCT03670810|184782996|SUPERIORITY||Odds Ratio (OR)|3.56|||<|0.001|TWO_SIDED|95.0|1.97|6.42|||Regression, Logistic|||||6.42|1.97|<0.001
92447931|NCT03670810|184782997|SUPERIORITY||Odds Ratio (OR)|2.22|||<|0.001|TWO_SIDED|95.0|1.48|3.33|||Regression, Logistic|||||3.33|1.48|<0.001
92447932|NCT03670810|184782997|SUPERIORITY||Odds Ratio (OR)|2.46|||<|0.001|TWO_SIDED|95.0|1.65|3.67|||Regression, Logistic|||||3.67|1.65|<0.001
92447933|NCT03670810|184782998|SUPERIORITY||Odds Ratio (OR)|2.73||||0.031|TWO_SIDED|95.0|1.1|6.78|||Regression, Logistic|||||6.78|1.10|0.031
92447934|NCT03670810|184782998|SUPERIORITY||Odds Ratio (OR)|5.64|||<|0.001|TWO_SIDED|95.0|2.4|13.25|||Regression, Logistic|||||13.25|2.40|<0.001
92447935|NCT03670810|184782999|SUPERIORITY||Odds Ratio (OR)|1.74|||<|0.001|TWO_SIDED|95.0|1.29|2.35|||Regression, Logistic|||||2.35|1.29|<0.001
92447936|NCT03670810|184782999|SUPERIORITY||Odds Ratio (OR)|1.63||||0.001|TWO_SIDED|95.0|1.21|2.2|||Regression, Logistic|||||2.20|1.21|0.001
92447937|NCT03670810|184783000|SUPERIORITY||Odds Ratio (OR)|0.46|||<|0.001|TWO_SIDED|95.0|0.33|0.65|||Regression, Logistic|||||0.65|0.33|<0.001
92447938|NCT03670810|184783000|SUPERIORITY||Odds Ratio (OR)|0.43|||<|0.001|TWO_SIDED|95.0|0.3|0.6|||Regression, Logistic|||||0.60|0.30|<0.001
92447939|NCT03670810|184783001|SUPERIORITY||Odds Ratio (OR)|2.77|||<|0.001|TWO_SIDED|95.0|1.79|4.28|||Regression, Logistic|||||4.28|1.79|<0.001
92447940|NCT03670810|184783001|SUPERIORITY||Odds Ratio (OR)|3.37|||<|0.001|TWO_SIDED|95.0|2.2|5.15|||Regression, Logistic|||||5.15|2.20|<0.001
92447941|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|6.4||||0.086|TWO_SIDED|95.0|0.77|53.37|||Regression, Logistic|||Pain Freedom 30 Min. Postdose||53.37|0.77|0.086
92447942|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|7.24||||0.065|TWO_SIDED|95.0|0.89|59.08|||Regression, Logistic|||Pain Freedom 30 Min. Postdose||59.08|0.89|0.065
92447943|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|3.08||||0.004|TWO_SIDED|95.0|1.42|6.68|||Regression, Logistic|||Pain Free 1 Hour Postdose||6.68|1.42|0.004
92447944|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|7.04|||<|0.001|TWO_SIDED|95.0|3.43|14.44|||Regression, Logistic|||Pain Free 1 Hour Postdose||14.44|3.43|<0.001
92447945|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|1.41||||0.065|TWO_SIDED|95.0|0.98|2.03|||Regression, Logistic|||Pain Relief 30 Min Postdose 100 mg||2.03|0.98|0.065
92447946|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|1.77||||0.001|TWO_SIDED|95.0|1.25|2.52|||Regression, Logistic|||Pain Relief 30 Min. Postdose 200 mg||2.52|1.25|0.001
92447947|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|2.31|||<|0.001|TWO_SIDED|95.0|1.74|3.06|||Regression, Logistic|||Pain Relief 1 Hour Postdose 100 mg||3.06|1.74|<0.001
92447948|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|2.18|||<|0.001|TWO_SIDED|95.0|1.64|2.88|||Regression, Logistic|||Pain Relief 1 Hour Postdose 200 mg||2.88|1.64|<0.001
92447949|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|1.11||||0.651|TWO_SIDED|95.0|0.71|1.71|||Regression, Logistic|||Freedom from MBS 30 Min 100 mg||1.71|0.71|0.651
92447950|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|1.3||||0.22|TWO_SIDED|95.0|0.85|1.98|||Regression, Logistic|||Freedom from MBS 30 Min. 200 mg||1.98|0.85|0.220
92447951|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|1.1||||0.593|TWO_SIDED|95.0|0.78|1.54|||Regression, Logistic|||Freedom from MBS 1 Hour 100 mg||1.54|0.78|0.593
92447952|NCT03670810|184783003|SUPERIORITY||Odds Ratio (OR)|1.43||||0.03|TWO_SIDED|95.0|1.04|1.98|||Regression, Logistic|||Freedom from MBS 1 Hour 200 mg||1.98|1.04|0.030
92447953|NCT03670810|184783004|SUPERIORITY|||||||0.092|||||||ANCOVA|||||||0.092
92447954|NCT03670810|184783004|SUPERIORITY|||||||0.211|||||||ANCOVA|||||||0.211
92172242|NCT03940963|184234903|EQUIVALENCE|A predefined equivalence margin was not considered.||||||0.485||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.485
92172243|NCT03940963|184234904|EQUIVALENCE|A predefined equivalence margin was not considered.||||||0.259||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.259
92172244|NCT03940963|184234905|EQUIVALENCE|A predefined equivalence margin was not considered.||||||0.14||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.140
92172245|NCT03940963|184234906|EQUIVALENCE|A predefined equivalence margin was not considered.||||||0.544||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.544
92172246|NCT03940963|184234908|EQUIVALENCE|A predefined equivalence margin was not considered.||||||0.049||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.049
92240582|NCT02433210|184384634|SUPERIORITY|||||||0.379|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Creatinine clearance Optiflux vs Revaclear..||||0.379
92240583|NCT02433210|184384634|SUPERIORITY|||||||0.318|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Creatinine clearance Optiflux vs ELISIO.||||0.318
92240584|NCT02433210|184384634|SUPERIORITY||||||=|0.914|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Creatinine clearance Revaclear vs ELISIO.||||=0.914
92447955|NCT03670810|184783005|SUPERIORITY||Odds Ratio (OR)|2.85|||<|0.001|TWO_SIDED|95.0|2.01|4.05|||Regression, Logistic|||||4.05|2.01|<0.001
92447956|NCT03670810|184783005|SUPERIORITY||Odds Ratio (OR)|3.0|||<|0.001|TWO_SIDED|95.0|2.12|4.26|||Regression, Logistic|||||4.26|2.12|<0.001
92447957|NCT03670810|184783006|SUPERIORITY|||||||0.056|||||||ANOVA|||Social Functioning||||0.056
92447958|NCT03670810|184783006|SUPERIORITY|||||||0.267|||||||ANOVA|||Social Functioning||||0.267
92447959|NCT03670810|184783006|SUPERIORITY|||||||0.003|||||||ANOVA|||Migraine Symptoms 100 mg||||0.003
92447960|NCT03670810|184783006|SUPERIORITY|||||||0.002|||||||ANOVA|||Migraine Symptoms 200 mg||||0.002
92447961|NCT03670810|184783006|SUPERIORITY|||||||0.014|||||||ANOVA|||Feeling/Concerns 100 mg||||0.014
92447962|NCT03670810|184783006|SUPERIORITY|||||||0.018|||||||ANOVA|||Feelings/Concerns 200 mg||||0.018
92447963|NCT03670810|184783007|SUPERIORITY||Odds Ratio (OR)|1.25||||0.101|TWO_SIDED|95.0|0.96|1.62|||Regression, Logistic|||Recommend Treatment - Agree Strongly Agree||1.62|0.96|0.101
92447964|NCT03670810|184783007|SUPERIORITY||Odds Ratio (OR)|1.28||||0.063|TWO_SIDED|95.0|0.99|1.67|||Regression, Logistic|||Recommend Treatment Agree/Strongly Agree||1.67|0.99|0.063
92447965|NCT03670810|184783007|SUPERIORITY||Odds Ratio (OR)|0.89||||0.376|TWO_SIDED|95.0|0.68|1.16|||Regression, Logistic|||Willing to Take This Treatment Again - Agree/Strongly Agree||1.16|0.68|0.376
92447966|NCT03670810|184783007|SUPERIORITY||Odds Ratio (OR)|0.79||||0.082|TWO_SIDED|95.0|0.6|1.03|||Regression, Logistic|||Willing to Take This Treatment Again - Agree/Strongly Agree||1.03|0.60|0.082
92447967|NCT03670810|184783007|SUPERIORITY||Odds Ratio (OR)|1.25||||0.096|TWO_SIDED|95.0|0.96|1.62|||Regression, Logistic|||Extremely/Very Satisfied||1.62|0.96|0.096
92447968|NCT03670810|184783007|SUPERIORITY||Odds Ratio (OR)|1.38||||0.016|TWO_SIDED|95.0|1.06|1.8|||Regression, Logistic|||Extremely/Very Satisfied||1.80|1.06|0.016
92172247|NCT04401800|184234925|SUPERIORITY|||||||0.0002|||||||Binomial exact test|||||||0.0002
92172248|NCT04401800|184234927|SUPERIORITY||||||<|0.0001|||||||Binomial exact test|||||||< 0.0001
92172249|NCT04401800|184234928|SUPERIORITY||||||<|0.0001|||||||Binomial exact test|||ORR as Assessed by the Investigator||||< 0.0001
92172250|NCT04401800|184234928|SUPERIORITY||||||<|0.0001|||||||Binomial exact test|||ORR as Assessed by Central Site Imaging Facility||||< 0.0001
92172251|NCT04401800|184234929|SUPERIORITY||||||<|0.0001|||||||Binomial exact test|||ORR as Assessed by the Investigator||||< 0.0001
92172252|NCT04401800|184234929|SUPERIORITY|||||||0.0002|||||||Binomial exact test|||ORR as Assessed by Central Site Imaging Facility||||0.0002
92172253|NCT04927065|184234948|OTHER||Geometric Mean Ratio (GMR)|2.5|||||TWO_SIDED|95.0|2.0|3.0|||||Omicron BA.1 Variant (B.1.1.529) nAB: Part A.2 versus Part A.1|||3.0|2.0|
92172254|NCT04927065|184234948|OTHER||GMR|2.0|||||TWO_SIDED|95.0|1.7|2.3|||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||2.3|1.7|
92172255|NCT04927065|184234949|OTHER||Geometric Mean Ratio (GMR)|6.3|||||TWO_SIDED|95.0|4.5|8.9|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part A.2 versus Part A.1|||8.9|4.5|
92172256|NCT04927065|184234949|OTHER||GMR|2.8|||||TWO_SIDED|95.0|2.1|3.6|||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||3.6|2.1|
92172257|NCT04927065|184234950|OTHER||Percentage Difference|1.3|||||TWO_SIDED|95.0|-3.1|5.6|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part A.2 versus Part A.1|||5.6|-3.1|
92172258|NCT04927065|184234950|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|||||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||||
92172259|NCT04927065|184234951|OTHER||Percentage Difference|-1.3|||||TWO_SIDED|95.0|-6.9|4.3|||||Omicron variant (B.1.1.529) nAb: Part A.2 versus Part A.1|||4.3|-6.9|
92172260|NCT04927065|184234951|OTHER||Percentage Difference|-2.6|||||TWO_SIDED|95.0|-9.6|4.5|||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||4.5|-9.6|
92172261|NCT04927065|184234952|OTHER||Percentage Difference|12.9|||||TWO_SIDED|95.0|4.1|21.6|||||Omicron BA.1 variant (B.1.1.529) nAb: Part A.2 versus Part A.1|||21.6|4.1|
92172262|NCT04927065|184234952|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|||||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||||
92172263|NCT04927065|184234953|OTHER||Percentage Difference|2.9|||||TWO_SIDED|95.0|-11.4|17.1|||||Omicron BA.1 variant (B.1.1.529) nAb: Part A.2 versus Part A.1|||17.1|-11.4|
92172264|NCT04927065|184234953|OTHER||Percentage Difference|-7.1|||||TWO_SIDED|95.0|-21.6|7.3|||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||7.3|-21.6|
92240585|NCT02433210|184384634|SUPERIORITY||||||=|0.623|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Phosphate clearance Optiflux vs Revaclear.||||=0.623
92447969|NCT03670810|184783007|SUPERIORITY||Odds Ratio (OR)|1.12||||0.445|TWO_SIDED|95.0|0.84|1.49|||Regression, Logistic|||Prefer This Treatment||1.49|0.84|0.445
92447970|NCT03670810|184783007|SUPERIORITY||Odds Ratio (OR)|1.19||||0.243|TWO_SIDED|95.0|0.89|1.58|||Regression, Logistic|||||1.58|0.89|0.243
92447971|NCT03670810|184783008|SUPERIORITY|||||||0.142|||||||ANCOVA|||||||0.142
92447972|NCT03670810|184783009|SUPERIORITY||Odds Ratio (OR)|3.01||||0.004|TWO_SIDED|95.0|1.42|6.4|||Regression, Logistic|||||6.40|1.42|0.004
92447973|NCT03670810|184783009|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.001|TWO_SIDED|95.0|2.22|9.47|||Regression, Logistic|||||9.47|2.22|<0.001
92447974|NCT03670810|184783010|SUPERIORITY||Odds Ratio (OR)|2.51|||<|0.001|TWO_SIDED|95.0|1.74|3.62|||Regression, Logistic|||||3.62|1.74|<0.001
92447975|NCT03670810|184783010|SUPERIORITY||Odds Ratio (OR)|3.61|||<|0.001|TWO_SIDED|95.0|2.5|5.2|||Regression, Logistic|||||5.20|2.50|<0.001
92240586|NCT02433210|184384634|SUPERIORITY||||||=|0.403|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Phosphate clearance Optiflux vs ELISIO.||||=0.403
92447976|NCT03670810|184783011|SUPERIORITY||Odds Ratio (OR)|1.01||||0.953|TWO_SIDED|95.0|0.75|1.36|||Regression, Logistic|||Nausea||1.36|0.75|0.953
92447977|NCT03670810|184783011|SUPERIORITY||Odds Ratio (OR)|1.05||||0.768|TWO_SIDED|95.0|0.78|1.41|||Regression, Logistic|||Nausea||1.41|0.78|0.768
92447978|NCT03670810|184783011|SUPERIORITY||Odds Ratio (OR)|0.53|||<|0.001|TWO_SIDED|95.0|0.39|0.71|||Regression, Logistic|||Phonophobia||0.71|0.39|<0.001
92447979|NCT03670810|184783011|SUPERIORITY||Odds Ratio (OR)|0.46|||<|0.001|TWO_SIDED|95.0|0.34|0.62|||Regression, Linear|||Phonophobia||0.62|0.34|<0.001
92447980|NCT03670810|184783011|SUPERIORITY||Odds Ratio (OR)|0.48|||<|0.001|TWO_SIDED|95.0|0.36|0.63|||Regression, Logistic|||Photophobia||0.63|0.36|<0.001
92447981|NCT03670810|184783011|SUPERIORITY||Median Difference (Net)|0.53|||<|0.001|TWO_SIDED|95.0|0.4|0.71|||Regression, Logistic|||Photophobia||0.71|0.40|<0.001
92447982|NCT03670810|184783011|SUPERIORITY||Odds Ratio (OR)|0.46||||0.129|TWO_SIDED|95.0|0.17|1.25|||Regression, Logistic|||Vomiting||1.25|0.17|0.129
92447983|NCT03670810|184783011|SUPERIORITY||Odds Ratio (OR)|1.12||||0.769|TWO_SIDED|95.0|0.52|2.43|||Regression, Logistic|||Vomiting||2.43|0.52|0.769
92447984|NCT00678691|184783012|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||all p-values come from one model analysis and are therefore included in free text as such|piecewise model|A piecewise statistical model results for between group differences: P=.390 (baseline through week 5), p=.775 (week 5 - week 8||Authors expected armodafinal to work better than placebo reducing BFI scale scores by 30%. A piecewise statistical model was used to compare baseline scores against those over through week 8. Piecewise results for between group differences for BFI Scores: P=.390 (baseline through week 5), p=.775 (week 5 - week 8).||||<0.05
92447985|NCT05446909|184783061|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||>0.05
92447986|NCT05446909|184783062|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||>0.05
92447987|NCT05446909|184783063|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||>0.05
92447988|NCT05446909|184783064|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92447989|NCT05446909|184783065|SUPERIORITY|||||||0.754|||||||ANOVA|||||||0.754
92447990|NCT05446909|184783066|SUPERIORITY|||||||0.985|||||||ANOVA|||||||0.985
92447991|NCT05446909|184783067|SUPERIORITY|||||||0.877|||||||ANOVA|||||||0.877
92447992|NCT04646616|184783121|NON_INFERIORITY|This is a single-group, of outcome measured at baseline and at 3 months. We hypothesized there would be an improvement or sustainability of the protective behaviours.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.13||0.28|TWO_SIDED|95.0|-0.12|0.39|||t-test, 2 sided|||This is a single-group study. Selected outcomes were measured at baseline (first interaction with the community popular opinion leader (POL) and 3 months after.||0.39|-0.12|0.28
92447993|NCT04646616|184783122|OTHER|Test of proportions|difference in proportion|-0.007|STANDARD_ERROR_OF_MEAN|0.04||0.85|TWO_SIDED|95.0|-0.08|0.07|||Test of proportions|||Two sample test of proportions, testing whether the proportion of participants who lack health access at baseline and 3 months is equal (null hypothesis)||0.07|-0.08|0.85
92447994|NCT04646616|184783123|OTHER|Test of proportions.|difference in proportion|0.07|STANDARD_ERROR_OF_MEAN|0.58||0.19|TWO_SIDED|95.0|-0.04|0.19|||Test of proportions|||Test of proportions. Testing whether the proportion of participants who had a SAVAME factor at baseline and 3 months is equal (null hypothesis)||0.19|-0.04|0.19
92447995|NCT04646616|184783124|OTHER|Test of proportions.|difference in proportion|0.067|STANDARD_ERROR_OF_MEAN|0.06||0.23|TWO_SIDED|95.0|-0.04|0.18|||Test of proportions|||Test of proportions. Testing whether the proportion of participants who lack access to SAVAME related services at baseline and 3 months is equal (null hypothesis)||0.18|-0.04|0.23
92447996|NCT02144675|184783128|OTHER||||||<|0.05|||||||Regression, Cox|||||||<.05
92447997|NCT03022617|184783158|SUPERIORITY||Mean Difference (Final Values)|21.5|STANDARD_DEVIATION|10.89||0.05|TWO_SIDED||||||t-test, 2 sided|||||||.05
92447998|NCT00247728|184783168|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample size is based on the paper 'Two-stage selection and testing design for comparative clinical trials', Thall, PF, Simon, R and Ellenberg, SS. Biometrika (1988),75,(2),303-310.||||||0.072||95.0|||||Chi-squared|||||||0.072
92447999|NCT00247728|184783168|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample size is based on the paper 'Two-stage selection and testing design for comparative clinical trials', Thall, PF, Simon, R and Ellenberg, SS. Biometrika (1988),75,(2),303-310.||||||0.298||95.0|||||Chi-squared|||||||0.298
92448000|NCT00247728|184783169|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59||||0.087||95.0|||||Mantel Haenszel|||||||0.087
92448001|NCT00247728|184783169|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.653||95.0|||||Mantel Haenszel|||||||0.653
92448002|NCT04292730|184783182|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0174|TWO_SIDED|95.0|1.092|2.483||P-value was calculated using proportional odds model with treatment as the independent variable.|Proportional odds model|||Primary analysis||2.483|1.092|0.0174
92448003|NCT04292730|184783182|SUPERIORITY||Odds Ratio (OR)|1.31||||0.1826|TWO_SIDED|95.0|0.88|1.952||P-value was calculated using proportional odds model with treatment as the independent variable.|Proportional odds model|||Primary analysis||1.952|0.880|0.1826
92448004|NCT04292730|184783182|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0168|TWO_SIDED|95.0|1.095|2.497||P-value was calculated using proportional odds model with treatment as the independent variable and baseline clinical status as a nominal covariate.|Proportional odds model|||Secondary analysis||2.497|1.095|0.0168
92448005|NCT04292730|184783182|SUPERIORITY||Odds Ratio (OR)|1.29||||0.2186|TWO_SIDED|95.0|0.862|1.917||P-value was calculated using proportional odds model with treatment as the independent variable and baseline clinical status as a nominal covariate.|Proportional odds model|||Secondary analysis||1.917|0.862|0.2186
92172265|NCT04927065|184234954|OTHER||GMR|1.777|||||TWO_SIDED|95.0|1.523|2.073|||||Omicron BA.1 Variant (B.1.1.529) nAb - Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||2.073|1.523|
92240587|NCT02433210|184384634|SUPERIORITY||||||=|0.85|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 1 Phosphate clearance Revaclear vs ELISIO.||||=0.850
92240588|NCT02433210|184384634|SUPERIORITY||||||=|0.815|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of creatinine Revaclear vs ELISIO.||||=0.815
92172266|NCT04927065|184234955|OTHER||Percentage Difference|0.6|||||TWO_SIDED|95.0|-1.7|3.0|||||Omicron BA.1 Variant (B.1.1.529) nAb - Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||3.0|-1.7|
92172267|NCT04927065|184234956|OTHER||Percentage Difference|17.9|||||TWO_SIDED|95.0|9.8|26.0|||||Omicron BA.1 Variant (B.1.1.529) nAb - Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||26.0|9.8|
92240589|NCT02433210|184384634|SUPERIORITY||||||=|0.367|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of Phosphate Optiflux vs Revaclear.||||=0.367
92240590|NCT02433210|184384634|SUPERIORITY||||||=|0.821|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of phosphate Optiflux vs Elisio.||||=0.821
92448006|NCT04292730|184783183|SUPERIORITY||Difference in the Percentages|4.8||||0.3633|TWO_SIDED|95.0|-5.2|14.7||P-value was calculated from the Fisher exact test to compare each RDV group and the SOC group.|Fisher Exact|||||14.7|-5.2|0.3633
92448007|NCT04292730|184783183|SUPERIORITY||Difference in the Percentages|12.0||||0.0201|TWO_SIDED|95.0|1.6|21.8||P-value was calculated from the Fisher exact test to compare each RDV group and the SOC group.|Fisher Exact|||||21.8|1.6|0.0201
92448008|NCT00556842|184783214|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|-6.37|||||TWO_SIDED|99.0|-9.18|-3.56||||||Using a multi-level model, the effect of THA versus HA on function (WOMAC) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for WOMAC total at 24 months.||-3.56|-9.18|
92448009|NCT00556842|184783214|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|-0.93|||||TWO_SIDED|99.0|-1.42|-0.44||||||Using a multi-level model, the effect of THA versus HA on function (WOMAC) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for WOMAC pain at 24 months.||-0.44|-1.42|
92448010|NCT00556842|184783214|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|-0.44|||||TWO_SIDED|99.0|-0.65|-0.23||||||Using a multi-level model, the effect of THA versus HA on function (WOMAC) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for WOMAC stiffness at 24 months.||-0.23|-0.65|
92448011|NCT00556842|184783214|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|-4.97|||||TWO_SIDED|99.0|-7.11|-2.83||||||Using a multi-level model, the effect of THA versus HA on function (WOMAC) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for WOMAC function at 24 months.||-2.83|-7.11|
92448012|NCT00556842|184783215|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Odds Ratio (OR)|0.72|||||TWO_SIDED|99.0|0.38|1.36||||||Using a multi-level model, the effect of THA versus HA on mobility (TUG) was estimated. We analyzed the TUG as a dichotomous outcome with the following categories: a) patients who complete the test in ≤12 seconds, and b) those who require \>12 seconds to complete the test or were unable to complete the test. We selected 12 seconds as the cut-off because this was the threshold used by the Centers for Disease Control and Prevention. The TUG was summarized using odds ratios and 99% CIs.||1.36|0.38|
92240591|NCT02433210|184384634|SUPERIORITY||||||=|0.364|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance phosphate Revaclear vs ELISIO.||||=0.364
92448013|NCT00556842|184783216|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|1.41|||||TWO_SIDED|99.0|-0.33|3.14||||||Using a multi-level model, the effect of THA versus HA on quality of life (SF-12) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for SF-12 PCS at 24 months.||3.14|-0.33|
92448014|NCT00556842|184783216|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|1.34|||||TWO_SIDED|99.0|-0.38|3.05||||||Using a multi-level model, the effect of THA versus HA on quality of life (SF-12) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for SF-12 MCS at 24 months.||3.05|-0.38|
92172268|NCT04927065|184234957|OTHER||GMR|1.744|||||TWO_SIDED|97.5|1.492|2.04|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||2.040|1.492|
92240592|NCT02433210|184384634|SUPERIORITY||||||<|0.001||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of beta 2 microglobulin Optiflux vs Revaclear.||||<0.001
92172269|NCT04927065|184234957|OTHER||GMR|1.211|||||TWO_SIDED|97.5|1.074|1.366|||||SARS-CoV-2 (D614G) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||1.366|1.074|
92240593|NCT02433210|184384634|SUPERIORITY||||||<|0.001||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of beta 2 microglobulin Optiflux vs ELISIO.||||<0.001
92280662|NCT02129348|184464049|SUPERIORITY||Treatment Effect Difference|1.79||||0.25|TWO_SIDED|95.0|0.64|5.04||The threshold of statistical significance was p = 0.05.|Chi-squared|||CGI behavior change scores were categorized into responders versus non-responders (1 or 2 versus ≥3) using the last variable observation for drop-outs. A x² test was used to identify the percentage of participants in each group, lithium versus placebo, that improved from baseline to week 12.||5.04|0.64|0.25
92448015|NCT00556842|184783217|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|0.04|||||TWO_SIDED|99.0|-0.03|0.11||||||Using a multi-level model, the effect of THA versus HA on quality of life (EQ-5D) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for EQ-5D utility index at 24 months.||0.11|-0.03|
92448016|NCT00556842|184783217|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|0.72|||||TWO_SIDED|99.0|-2.02|3.46||||||Using a multi-level model, the effect of THA versus HA on quality of life (EQ-5D) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for EQ-5D VAS at 24 months.||3.46|-2.02|
92448017|NCT01032135|184783219|OTHER|||||||0.11|||||||Chi-squared|||||||0.11
92448018|NCT01032135|184783220|OTHER|||||||0.02|||||||Chi-squared|||||||0.02
92448019|NCT01032135|184783221|OTHER|||||||0.005|||||||Chi-squared|||||||0.005
92448020|NCT01032135|184783226|OTHER||Odds Ratio (OR)|0.4||||0.0007|TWO_SIDED|95.0|0.23|0.68|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.68|0.23|0.0007
92448021|NCT01032135|184783226|OTHER||Odds Ratio (OR)|0.54||||0.16|TWO_SIDED|95.0|0.23|1.27|||Chi-squared|||The statistical analyses used data from all follow up assessments.||1.27|0.23|0.16
92448022|NCT01032135|184783226|OTHER||Odds Ratio (OR)|1.12||||0.79|TWO_SIDED|95.0|0.48|2.6|||Chi-squared|||The statistical analyses used data from all follow up assessments.||2.60|0.48|0.79
92448023|NCT01032135|184783231|OTHER||Odds Ratio (OR)|-1.08||||0.009|TWO_SIDED|95.0|-1.87|-0.29|||Chi-squared|||The statistical analyses used data from all follow up assessments.||-0.29|-1.87|0.009
92448024|NCT01032135|184783231|OTHER||Odds Ratio (OR)|-0.84||||0.23|TWO_SIDED|95.0|-2.2|0.52|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.52|-2.20|0.23
92448025|NCT01032135|184783231|OTHER||Odds Ratio (OR)|-0.34||||0.58|TWO_SIDED|95.0|-1.52|0.85|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.85|-1.52|0.58
92448026|NCT01032135|184783236|OTHER||Odds Ratio (OR)|0.33||||0.0001|TWO_SIDED|95.0|0.19|0.58|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.58|0.19|0.0001
92448027|NCT01032135|184783236|OTHER||Odds Ratio (OR)|0.67||||0.36|TWO_SIDED|95.0|0.29|1.54|||Chi-squared|||The statistical analyses used data from all follow up assessments.||1.54|0.29|0.36
92448028|NCT01032135|184783236|OTHER||Odds Ratio (OR)|1.43||||0.45|TWO_SIDED|95.0|0.58|3.54|||Chi-squared|||The statistical analyses used data from all follow up assessments.||3.54|0.58|0.45
92448029|NCT01032135|184783241|OTHER||Odds Ratio (OR)|-1.09||||0.003|TWO_SIDED|95.0|-1.8|-0.39|||Chi-squared|||The statistical analyses used data from all follow up assessments.||-0.39|-1.80|0.003
92448030|NCT01032135|184783241|OTHER||Odds Ratio (OR)|0.02||||0.1|TWO_SIDED|95.0|-1.1|1.14|||Chi-squared|||The statistical analyses used data from all follow up assessments.||1.14|-1.10|0.10
92448031|NCT01032135|184783245|OTHER||Odds Ratio (OR)|0.66||||0.13|TWO_SIDED|95.0|0.38|1.14|||Chi-squared|||The statistical analyses used data from all follow up assessments.||1.14|0.38|0.13
92448032|NCT01032135|184783245|OTHER||Odds Ratio (OR)|0.83||||0.71|TWO_SIDED|95.0|0.33|2.12|||Chi-squared|||The statistical analyses used data from all follow up assessments.||2.12|0.33|0.71
92448033|NCT01032135|184783245|OTHER||Odds Ratio (OR)|1.48||||0.36|TWO_SIDED|95.0|0.64|3.4|||Chi-squared|||The statistical analyses used data from all follow up assessments.||3.40|0.64|0.36
92448034|NCT01032135|184783248|OTHER||Odds Ratio (OR)|-0.13||||0.75|TWO_SIDED|95.0|-0.94|0.6|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.60|-0.94|0.75
92448035|NCT01032135|184783248|OTHER||Odds Ratio (OR)|-0.84||||0.16|TWO_SIDED|95.0|-1.98|0.3|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.30|-1.98|0.16
92448036|NCT01032135|184783248|OTHER||Odds Ratio (OR)|0.6||||0.42|TWO_SIDED|95.0|-0.85|2.04|||Chi-squared|||The statistical analyses used data from all follow up assessments.||2.04|-0.85|0.42
92448037|NCT03400033|184783249|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95 percent (%) confidence interval (CI) for the treatment difference is greater than the pre-specified non-inferiority margin of -0.75 g/dL.|Least square (LS) mean difference|-0.05|||||TWO_SIDED|95.0|-0.21|0.1||||||||0.10|-0.21|
92448038|NCT03400033|184783250|SUPERIORITY||LS mean difference|-8.12||||0.3354|TWO_SIDED|95.0|-45.66|29.41|||ANCOVA|||||29.41|-45.66|0.3354
92240594|NCT02433210|184384634|SUPERIORITY||||||=|0.254|||||||t-test, 2 sided|||Session 2 Clearance of beta 2 microglobulin Revaclear vs ELISIO.||||=0.254
92448039|NCT03400033|184783251|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference is greater than the pre-specified non-inferiority margin of -0.75 g/dL.|LS mean difference|-0.14|||||TWO_SIDED|95.0|-0.37|0.1||||||||0.10|-0.37|
92448040|NCT03400033|184783252|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was above the non-inferiority margin of - 15%.|Median Difference (Final Values)|11.18||||0.0034|TWO_SIDED|95.0|2.83|19.56|||Van Elteren's test||Hodges-Lehmann Estimate of Treatment Difference has been reported.|||19.56|2.83|0.0034
92448041|NCT03400033|184783253|OTHER||Difference in response rate|0.1645||||0.0007|TWO_SIDED|95.0|0.06|0.27|||Cochran-Mantel-Haenszel|||||0.27|0.06|0.0007
92448042|NCT03400033|184783254|OTHER||Hazard Ratio (HR)|1.06||||0.5308|TWO_SIDED|95.0|0.26|4.22|||Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model adjusted for treatment group and region.|||4.22|0.26|0.5308
92448043|NCT03400033|184783255|SUPERIORITY||LS mean difference|-3.73||||0.083|TWO_SIDED|95.0|-9.03|1.56|||MMRM||SBP|||1.56|-9.03|0.083
92448044|NCT03400033|184783255|SUPERIORITY||LS mean difference|-2.23||||0.057|TWO_SIDED|95.0|-4.99|0.54|||MMRM||DBP|||0.54|-4.99|0.057
92448045|NCT03400033|184783255|SUPERIORITY||LS mean difference|-2.6||||0.059|TWO_SIDED|95.0|-5.86|0.67|||MMRM||MAP|||0.67|-5.86|0.059
92448046|NCT03400033|184783256|SUPERIORITY||Mean Difference (Net)|-0.5||||0.407|TWO_SIDED|95.0|-4.73|3.72|||ANCOVA||SBP|||3.72|-4.73|0.407
92448047|NCT03400033|184783256|SUPERIORITY||Mean Difference (Net)|-1.05||||0.179|TWO_SIDED|95.0|-3.29|1.19|||ANCOVA||DBP|||1.19|-3.29|0.179
92448048|NCT03400033|184783256|SUPERIORITY||Mean Difference (Net)|-0.86||||0.261|TWO_SIDED|95.0|-3.5|1.78|||ANCOVA||MAP|||1.78|-3.50|0.261
92448049|NCT03400033|184783257|OTHER||Ratio of exacerbation rate|0.7||||0.0093|TWO_SIDED|95.0|0.52|0.94|||Negative binomial model|||||0.94|0.52|0.0093
92448050|NCT03400033|184783259|SUPERIORITY||LS mean difference|-0.15||||0.0323|TWO_SIDED|95.0|-0.32|0.01|||MMRM||Week 8|||0.01|-0.32|0.0323
92448051|NCT03400033|184783259|SUPERIORITY||LS mean difference|-0.12||||0.0921|TWO_SIDED|95.0|-0.29|0.06|||MMRM||Week 12|||0.06|-0.29|0.0921
92448052|NCT03400033|184783259|SUPERIORITY||LS mean difference|-0.11||||0.1291|TWO_SIDED|95.0|-0.29|0.08|||MMRM||Week 28|||0.08|-0.29|0.1291
92448053|NCT03400033|184783259|SUPERIORITY||LS mean difference|-0.15||||0.0859|TWO_SIDED|95.0|-0.36|0.06|||MMRM||Week 52|||0.06|-0.36|0.0859
92448054|NCT01868633|184783272|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92448055|NCT02457325|184783294|SUPERIORITY_OR_OTHER_LEGACY|||||||0.192|||||||t-test, 2 sided|||||||0.192
92448056|NCT02457325|184783295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.457|||||||t-test, 2 sided|||||||0.457
92448057|NCT02457325|184783296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.158|||||||t-test, 2 sided|||||||0.158
92172270|NCT04927065|184234958|OTHER||GMR|1.676|||||TWO_SIDED|97.5|1.396|2.013|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||2.013|1.396|
92448058|NCT02457325|184783297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.953|||||||t-test, 2 sided|||||||0.953
92448059|NCT02457325|184783298|SUPERIORITY_OR_OTHER_LEGACY|||||||0.693|||||||t-test, 2 sided|||||||0.693
92448060|NCT02457325|184783299|SUPERIORITY_OR_OTHER_LEGACY|||||||0.158|||||||t-test, 2 sided|||||||0.158
92448061|NCT02457325|184783300|SUPERIORITY_OR_OTHER_LEGACY|||||||0.192|||||||t-test, 2 sided|||||||0.192
92448062|NCT02457325|184783301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.512|||||||t-test, 2 sided|||||||0.512
92448063|NCT02457325|184783302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.115|||||||t-test, 2 sided|||||||0.115
92448064|NCT02457325|184783303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.73|||||||t-test, 2 sided|||||||0.730
92448065|NCT02457325|184783304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.835|||||||t-test, 2 sided|||||||0.835
92448066|NCT03385239|184783324|SUPERIORITY||Mean Difference in % CFB|-27.0||||0.0042|TWO_SIDED|95.0|-41.0|-10.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|||-10|-41|0.0042
92448067|NCT03385239|184783324|SUPERIORITY||Mean Difference in % CFB|-58.0|||<|0.0001|TWO_SIDED|95.0|-66.0|-48.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-48|-66|<0.0001
92448068|NCT03385239|184783324|SUPERIORITY||Mean Difference in % CFB|-63.0|||<|0.0001|TWO_SIDED|95.0|-70.0|-54.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-54|-70|<0.0001
92448069|NCT03385239|184783324|SUPERIORITY||Mean Difference in % CFB|-62.0|||<|0.0001|TWO_SIDED|95.0|-69.0|-53.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-53|-69|<0.0001
92448070|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-30.0||||0.0123|TWO_SIDED|95.0|-47.0|-8.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoC III||-8|-47|0.0123
92448071|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-68.0|||<|0.0001|TWO_SIDED|95.0|-76.0|-58.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Apo-C III||-58|-76|<0.0001
92448072|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-74.0|||<|0.0001|TWO_SIDED|95.0|-80.0|-65.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Apo-C III||-65|-80|<0.0001
92448073|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-74.0|||<|0.0001|TWO_SIDED|95.0|-80.0|-66.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Apo-C III||-66|-80|<0.0001
92448074|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-3.0||||0.568|TWO_SIDED|95.0|-11.0|7.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|TC||7|-11|0.568
92448075|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-12.0||||0.008|TWO_SIDED|95.0|-19.0|-3.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|TC||-3|-19|0.008
92448076|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-3.0||||0.4476|TWO_SIDED|95.0|-12.0|6.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|TC||6|-12|0.4476
92448077|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-8.0||||0.0606|TWO_SIDED|95.0|-16.0|0.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|TC||0|-16|0.0606
92448078|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|7.0||||0.4509|TWO_SIDED|95.0|-10.0|26.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||26|-10|0.4509
92240595|NCT02433210|184384634|SUPERIORITY||||||=|0.079|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of myoglobin Optiflux vs Revaclear.||||=0.079
92240596|NCT02433210|184384634|SUPERIORITY||||||=|0.086|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of myoglobin Optiflux vs ELISIO.||||=0.086
92448079|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|4.0||||0.6746|TWO_SIDED|95.0|-12.0|23.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||23|-12|0.6746
92448080|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|29.0||||0.0032|TWO_SIDED|95.0|9.0|53.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||53|9|0.0032
92448081|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|12.0||||0.1996|TWO_SIDED|95.0|-6.0|32.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||32|-6|0.1996
92448082|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|12.0||||0.0373|TWO_SIDED|95.0|1.0|24.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||24|1|0.0373
92448083|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|34.0|||<|0.0001|TWO_SIDED|95.0|21.0|49.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||49|21|<0.0001
92448084|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|42.0|||<|0.0001|TWO_SIDED|95.0|28.0|57.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||57|28|<0.0001
92240597|NCT02433210|184384634|SUPERIORITY||||||=|0.888|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance myoglobin Revaclear vs ELISIO.||||=0.888
92240598|NCT02433210|184384634|SUPERIORITY||||||=|0.663||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of urea nitrogen Optiflux vs Revaclear.||||=0.663
92240599|NCT02433210|184384634|SUPERIORITY||||||=|0.391|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of urea nitrogen Optiflux vs ELISIO.||||=0.391
92448085|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|30.0|||<|0.0001|TWO_SIDED|95.0|18.0|44.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||44|18|<0.0001
92448086|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-7.0||||0.2826|TWO_SIDED|95.0|-18.0|6.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||6|-18|0.2826
92448087|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-24.0|||<|0.0001|TWO_SIDED|95.0|-34.0|-14.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||-14|-34|<0.0001
92448088|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-15.0||||0.0118|TWO_SIDED|95.0|-26.0|-4.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||-4|-26|0.0118
92448089|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-20.0||||0.0009|TWO_SIDED|95.0|-29.0|-9.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||-9|-29|0.0009
92448090|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-21.0||||0.0086|TWO_SIDED|95.0|-34.0|-6.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-6|-34|0.0086
92448091|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-53.0|||<|0.0001|TWO_SIDED|95.0|-60.0|-44.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-44|-60|<0.0001
92172271|NCT04927065|184234958|OTHER||GMR|1.105|||||TWO_SIDED|97.5|0.97|1.26|||||SARS-CoV-2 (D614G) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||1.260|0.970|
92240600|NCT02433210|184384634|SUPERIORITY||||||=|0.214|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of urea nitrogen Revaclear vs ELISIO.||||=0.214
92240601|NCT02433210|184384634|SUPERIORITY||||||=|0.918|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of creatinine Optiflux vs Revaclear.||||=0.918
92240602|NCT02433210|184384634|SUPERIORITY||||||=|0.394|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of creatinine Optiflux vs ELISIO.||||=0.394
92448092|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-58.0|||<|0.0001|TWO_SIDED|95.0|-64.0|-50.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-50|-64|<0.0001
92448093|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-60.0|||<|0.0001|TWO_SIDED|95.0|-66.0|-52.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-52|-66|<0.0001
92448094|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|2.0||||0.6801|TWO_SIDED|95.0|-7.0|13.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||13|-7|0.6801
92448095|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-16.0||||0.0007|TWO_SIDED|95.0|-24.0|-7.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||-7|-24|0.0007
92448096|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-5.0||||0.3183|TWO_SIDED|95.0|-14.0|5.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||5|-14|0.3183
92448097|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|-10.0||||0.024|TWO_SIDED|95.0|-19.0|-1.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||-1|-19|0.024
92448098|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|5.0||||0.0936|TWO_SIDED|95.0|-1.0|11.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoA-I||11|-1|0.0936
92448099|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|14.0|||<|0.0001|TWO_SIDED|95.0|8.0|21.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoA-I||21|8|<0.0001
92448100|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|18.0|||<|0.0001|TWO_SIDED|95.0|11.0|25.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoA-I||25|11|<0.0001
92448101|NCT03385239|184783326|SUPERIORITY||Mean Difference in % CFB|14.0|||<|0.0001|TWO_SIDED|95.0|7.0|20.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoA-I||20|7|<0.0001
92240603|NCT02433210|184384634|SUPERIORITY||||||=|0.211|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of creatinine Revaclear vs ELISIO.||||=0.211
92240604|NCT02433210|184384634|SUPERIORITY||||||=|0.222|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of phosphate Optiflux vs ELISIO.||||=0.222
92240605|NCT02433210|184384634|SUPERIORITY||||||=|0.162|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearances of phosphate Revaclear vs ELISIO.||||=0.162
92240606|NCT02433210|184384634|SUPERIORITY||||||<|0.001||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of beta 2 microglobulin Optiflux vs Revaclear.||||<0.001
92448102|NCT03385239|184783327|SUPERIORITY||Odds Ratio (OR)|3.34||||0.2591|TWO_SIDED|95.0|0.41|27.2|||Regression, Logistic|||||27.20|0.41|0.2591
92448103|NCT03385239|184783327|SUPERIORITY||Odds Ratio (OR)|84.02|||<|0.0001|TWO_SIDED|95.0|9.54|740.02|||Regression, Logistic|||||740.02|9.54|<0.0001
92448104|NCT03385239|184783327|SUPERIORITY||Odds Ratio (OR)|322.79|||<|0.0001|TWO_SIDED|95.0|20.31|5130.99|||Regression, Logistic|||||5130.99|20.31|<0.0001
92448105|NCT03385239|184783327|SUPERIORITY||Odds Ratio (OR)|342.13|||<|0.0001|TWO_SIDED|95.0|23.72|4933.89|||Regression, Logistic|||||4933.89|23.72|<0.0001
92448106|NCT03385239|184783328|SUPERIORITY||Odds Ratio (OR)|1.25||||0.9119|TWO_SIDED|95.0|0.02|69.88|||Regression, Logistic|||||69.88|0.02|0.9119
92448107|NCT03385239|184783328|SUPERIORITY||Odds Ratio (OR)|27.18||||0.0306|TWO_SIDED|95.0|1.36|542.48|||Regression, Logistic|||||542.48|1.36|0.0306
92448108|NCT03385239|184783328|SUPERIORITY||Odds Ratio (OR)|25.54||||0.0344|TWO_SIDED|95.0|1.27|514.2|||Regression, Logistic|||||514.20|1.27|0.0344
92448109|NCT03385239|184783328|SUPERIORITY||Odds Ratio (OR)|44.47||||0.0123|TWO_SIDED|95.0|2.28|866.49|||Regression, Logistic|||||866.49|2.28|0.0123
92172272|NCT04927065|184234959|OTHER||Percentage Difference|1.5|||||TWO_SIDED|97.5|-1.1|4.1|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||4.1|-1.1|
92448110|NCT01574703|184783332|SUPERIORITY_OR_OTHER|||||||0.37||||||P-value for the treatment effect from the Log-Rank test stratified by Cohort.|Log Rank|||Statistical analysis for overall treatment comparison.||||0.37
92448111|NCT01574703|184783333|SUPERIORITY_OR_OTHER|||||||0.53||||||P-value for the treatment effect from the Log-Rank test stratified by Cohort.|Log Rank|||Statistical analysis for overall treatment comparison.||||0.53
92448112|NCT01574703|184783334|SUPERIORITY_OR_OTHER|||||||0.34||||||P-value for the treatment effect from the Log-Rank test stratified by Cohort.|Log Rank|||Statistical analysis for overall treatment comparison.||||0.34
92240607|NCT02433210|184384634|SUPERIORITY||||||=|0.025||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearances of beta 2 microglobulin Optiflux vs ELISIO.||||=0.025
92172273|NCT04927065|184234960|OTHER||Percentage Difference|21.5|||||TWO_SIDED|97.5|12.8|30.2|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||30.2|12.8|
92448113|NCT01574703|184783335|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.49||||0.8375|TWO_SIDED|95.0|-5.22|4.23||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||4.23|-5.22|0.8375
92448114|NCT01574703|184783335|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.07||||0.978|TWO_SIDED|95.0|-5.2|5.05||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||5.05|-5.20|0.9780
92448115|NCT01574703|184783335|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.13||||0.6142|TWO_SIDED|95.0|-5.54|3.27||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||3.27|-5.54|0.6142
92448116|NCT01574703|184783335|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.42||||0.8602|TWO_SIDED|95.0|-4.28|5.13||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||5.13|-4.28|0.8602
92448117|NCT01574703|184783335|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.64||||0.7217|TWO_SIDED|95.0|-4.15|2.88||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.88|-4.15|0.7217
92448118|NCT01574703|184783335|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.06||||0.6322|TWO_SIDED|95.0|-5.41|3.28||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||3.28|-5.41|0.6322
92448119|NCT01574703|184783336|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.07||||0.9687|TWO_SIDED|95.0|-3.48|3.34||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||3.34|-3.48|0.9687
92448120|NCT01574703|184783336|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.56||||0.7905|TWO_SIDED|95.0|-3.58|4.7||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||4.70|-3.58|0.7905
92448121|NCT01574703|184783336|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.21||||0.8962|TWO_SIDED|95.0|-3.36|2.94||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||2.94|-3.36|0.8962
92448122|NCT01574703|184783336|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.63||||0.7767|TWO_SIDED|95.0|-3.72|4.98||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||4.98|-3.72|0.7767
92448123|NCT01574703|184783336|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.14||||0.926|TWO_SIDED|95.0|-3.13|2.85||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.85|-3.13|0.9260
92448124|NCT01574703|184783336|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.77||||0.7113|TWO_SIDED|95.0|-4.85|3.31||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||3.31|-4.85|0.7113
92240608|NCT02433210|184384634|SUPERIORITY||||||=|0.903|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of beta 2 microglobulin Revaclear vs ELISIO.||||=0.903
92448125|NCT01574703|184783337|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.57||||0.8117|TWO_SIDED|95.0|-5.27|4.13||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||4.13|-5.27|0.8117
92448126|NCT01574703|184783337|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.78||||0.7303|TWO_SIDED|95.0|-5.21|3.65||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||3.65|-5.21|0.7303
92448127|NCT01574703|184783337|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.2||||0.5946|TWO_SIDED|95.0|-5.6|3.21||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||3.21|-5.60|0.5946
92448128|NCT01574703|184783337|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.21||||0.92|TWO_SIDED|95.0|-4.27|3.85||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||3.85|-4.27|0.9200
92240609|NCT02433210|184384634|SUPERIORITY||||||=|0.003||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearances of myoglobin Optiflux vs Revaclear.||||=0.003
92240610|NCT02433210|184384634|SUPERIORITY||||||<|0.001||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of myoglobin Optiflux vs ELISIO.||||<0.001
92448129|NCT01574703|184783337|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.62||||0.7236|TWO_SIDED|95.0|-4.09|2.84||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.84|-4.09|0.7236
92448130|NCT01574703|184783337|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.42||||0.8201|TWO_SIDED|95.0|-4.01|3.17||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||3.17|-4.01|0.8201
92448131|NCT01574703|184783338|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.21||||0.8932|TWO_SIDED|95.0|-3.22|2.81||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||2.81|-3.22|0.8932
92448132|NCT01574703|184783338|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.23||||0.8747|TWO_SIDED|95.0|-3.09|2.63||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||2.63|-3.09|0.8747
92448133|NCT01574703|184783338|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.6||||0.671|TWO_SIDED|95.0|-3.35|2.15||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||2.15|-3.35|0.6710
92448134|NCT01574703|184783338|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.02||||0.9886|TWO_SIDED|95.0|-3.32|3.27||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||3.27|-3.32|0.9886
92448135|NCT01574703|184783338|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.39||||0.7631|TWO_SIDED|95.0|-2.92|2.14||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.14|-2.92|0.7631
92448136|NCT01574703|184783338|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.37||||0.8022|TWO_SIDED|95.0|-3.23|2.5||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||2.50|-3.23|0.8022
92448137|NCT01574703|184783339|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.91||||0.6441|TWO_SIDED|95.0|-4.78|2.96||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||2.96|-4.78|0.6441
92448138|NCT01574703|184783339|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.69||||0.7327|TWO_SIDED|95.0|-4.63|3.26||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||3.26|-4.63|0.7327
92448139|NCT01574703|184783339|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.99||||0.6109|TWO_SIDED|95.0|-4.8|2.82||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||2.82|-4.80|0.6109
92448140|NCT01574703|184783339|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.22||||0.8707|TWO_SIDED|95.0|-2.48|2.93||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||2.93|-2.48|0.8707
92448141|NCT01574703|184783339|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.08||||0.9531|TWO_SIDED|95.0|-2.63|2.48||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.48|-2.63|0.9531
92240611|NCT02433210|184384634|SUPERIORITY||||||=|0.472|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of myoglobin Revaclear vs ELISIO.||||=0.472
92172274|NCT04927065|184234961|OTHER||Percentage Difference|1.8|||||TWO_SIDED|97.5|-1.9|5.6|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||5.6|-1.9|
92172275|NCT04927065|184234962|OTHER||Percentage Difference|20.6|||||TWO_SIDED|97.5|12.4|28.7|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||28.7|12.4|
92448142|NCT01574703|184783339|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.3||||0.8262|TWO_SIDED|95.0|-2.99|2.39||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||2.39|-2.99|0.8262
92448143|NCT01574703|184783340|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.59||||0.6105|TWO_SIDED|95.0|-2.84|1.67||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||1.67|-2.84|0.6105
92448144|NCT01574703|184783340|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.32||||0.7895|TWO_SIDED|95.0|-2.65|2.01||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||2.01|-2.65|0.7895
92448145|NCT01574703|184783340|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.48||||0.6804|TWO_SIDED|95.0|-2.75|1.8||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||1.80|-2.75|0.6804
92448146|NCT01574703|184783340|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.27||||0.8127|TWO_SIDED|95.0|-1.95|2.49||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||2.49|-1.95|0.8127
92448147|NCT01574703|184783340|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.11||||0.9218|TWO_SIDED|95.0|-2.04|2.25||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.25|-2.04|0.9218
92448148|NCT01574703|184783340|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.16||||0.8841|TWO_SIDED|95.0|-2.32|2.0||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||2.00|-2.32|0.8841
92240612|NCT02433210|184384635|SUPERIORITY||||||=|0.216||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.216
92448149|NCT00749931|184783341|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92448150|NCT00749931|184783342|SUPERIORITY_OR_OTHER||Relative reduction|0.47||||0.002|||||||Fisher Exact|||||||0.002
92448151|NCT03993938|184783343|OTHER|Delta PVI percentage change and Delta LAP (v-wave) percentage change were correlated using Spearman's rank correlation - two-tailed.|Spearman's rank correlation|0.34||||0.066|TWO_SIDED||||||Spearman's rank correlation|||||||0.066
92448152|NCT03467425|184783359|SUPERIORITY||Odds Ratio (OR)|1.31|||<|0.001|TWO_SIDED|95.0|1.13|1.51||Analysis was performed using logistic regression model with covariates of treatment group, Baseline CAT score, number of exacerbations in the prior year, actual prior medication use strata and country.|Regression, Logistic||Statistical comparison is presented for combined data of responders, non-responders and those with imputed CAT score at Week 24.|||1.51|1.13|<0.001
92448153|NCT03467425|184783360|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.0121|<|0.001|TWO_SIDED|95.0|0.026|0.073|||ANCOVA||Analysis was performed using an ANCOVA with covariates of treatment group, Baseline FEV1, actual prior medication use strata, country and timing of spirometry.|||0.073|0.026|<0.001
92448154|NCT03467425|184783361|SUPERIORITY||Odds Ratio (OR)|1.99||||0.103|TWO_SIDED|95.0|0.87|4.53|||Regression, Logistic||Analysis was performed using logistic regression model with covariates of treatment group, actual prior medication use strata and country.|||4.53|0.87|0.103
92448155|NCT00025883|184783362|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||A null hypothesis of interest is there is no significant change over three time points (baseline, 6 months, 12 months) in response to metreleptin within GLD group.||||<0.001
92448156|NCT00025883|184783362|SUPERIORITY_OR_OTHER|||||||0.004|||||||Mixed Models Analysis|||A null hypothesis of interest is there is no significant change over three time points (baseline, 6 months, 12 months) in response to metreleptin within PLD group.||||0.004
92448157|NCT00025883|184783363|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||Triglycerides were log transformed for analysis due to non-normal distribution. Changes in triglycedies in response to metreleptin over three time points (baseline, 6 months, 12 months) are tested within GLD group.||||0.05
92172276|NCT04927065|184234963|OTHER||GMR|6.412|||||TWO_SIDED|95.0|5.369|7.658|||||Omicron Variant (BA.4/BA.5) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||7.658|5.369|
92172277|NCT04927065|184234963|OTHER||GMR|1.967|||||TWO_SIDED|95.0|1.708|2.265|||||SARS-CoV-2 (D614G) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||2.265|1.708|
92172278|NCT04927065|184234964|OTHER||Percentage Difference|12.2|||||TWO_SIDED|95.0|6.9|17.4|||||Omicron Variant (BA.4/BA.5) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||17.4|6.9|
92172279|NCT04927065|184234964|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|||||||SARS-CoV-2 (D614G) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||||
92172280|NCT04927065|184234965|OTHER||Percentage Difference|54.7|||||TWO_SIDED|95.0|47.5|61.8|||||Omicron Variant (BA.4/BA.5) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||61.8|47.5|
92240613|NCT02433210|184384635|SUPERIORITY|No significant difference|||||=|0.216||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.216
92240614|NCT02433210|184384635|SUPERIORITY|No significant difference|||||=|0.952||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.952
92240615|NCT02433210|184384635|SUPERIORITY|No Significant difference|||||=|0.714||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.714
92287160|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.184|||<|0.001|TWO_SIDED|95.0|0.125|0.243|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.243|0.125|<0.001
92240616|NCT02433210|184384635|SUPERIORITY||||||=|0.156||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.156
92240617|NCT02433210|184384635|SUPERIORITY||||||=|0.427||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.427
92240618|NCT02433210|184384635|SUPERIORITY||||||=|0.487||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||No significant difference||||=0.487
92448158|NCT00025883|184783363|SUPERIORITY_OR_OTHER|||||||0.02|||||||Mixed Models Analysis|||Triglycerides were log transformed for analysis due to non-normal distribution. Changes in triglycedies in response to metreleptin over three time points (baseline, 6 months, 12 months) are tested within PLD group.||||0.02
92448159|NCT01387607|184783388|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.1906||0.0001|TWO_SIDED|95.0|-1.1|-0.36||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||-0.36|-1.10|0.0001
92448160|NCT01387607|184783389|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4376||||0.1397|TWO_SIDED|95.0|0.8732|2.3667||Based on the combined categories from Cochran-Mantel-Haenszel test adjusted for pooled center.|Cochran-Mantel-Haenszel||Overall odds ratio was calculated based on Mentel-Haenszel method as pregabalin versus placebo.|Statistical analysis performed for PGIC endpoint re-categorized into much/very much improved and other.||2.3667|0.8732|0.1397
92448161|NCT01387607|184783389|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4626||||0.151|TWO_SIDED|95.0|0.8596|2.4886||Based on the combined categories from Cochran-Mantel-Haenszel test adjusted for pooled center.|Cochran-Mantel-Haenszel||Overall odds ratio was calculated based on Mentel-Haenszel method as pregabalin versus placebo.|Statistical analysis performed for PGIC endpoint re-categorized into any improvement (participants who were very much improved or much improved or minimally improved) and other.||2.4886|0.8596|0.1510
92448162|NCT01387607|184783390|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.99|STANDARD_ERROR_OF_MEAN|1.6804||0.0762|TWO_SIDED|95.0|-6.3|0.32||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||0.32|-6.30|0.0762
92448163|NCT01387607|184783391|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8924||||0.0044|TWO_SIDED|95.0|1.2007|2.9827||From Cochran-Mantel-Haenszel test comparing pregabalin to placebo adjusted for pooled center.|Cochran-Mantel-Haenszel||Overall odds ratio was calculated based on Mantel-Haenszel method as pregabalin versus placebo.|||2.9827|1.2007|0.0044
92448164|NCT01387607|184783392|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9683||||0.0189|TWO_SIDED|95.0|1.1151|3.4742||From Cochran-Mantel-Haenszel test comparing pregabalin to placebo adjusted for pooled center.|Cochran-Mantel-Haenszel||Overall odds ratio was calculated based on Mantel-Haenszel method as pregabalin versus placebo.|||3.4742|1.1151|0.0189
92448165|NCT01387607|184783393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.427|STANDARD_ERROR_OF_MEAN|2.0152||0.09|TWO_SIDED|95.0|-7.39|0.54||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||||0.54|-7.39|0.0900
92448166|NCT01387607|184783394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.527|STANDARD_ERROR_OF_MEAN|2.1858||0.2485|TWO_SIDED|95.0|-1.77|6.83||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||Statistical analysis for snoring.||6.83|-1.77|0.2485
92448167|NCT01387607|184783394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.355|STANDARD_ERROR_OF_MEAN|2.265||0.2993|TWO_SIDED|95.0|-6.81|2.1||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||Statistical analysis for awaken short of breath.||2.10|-6.81|0.2993
92448168|NCT01387607|184783394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.03|STANDARD_ERROR_OF_MEAN|2.4485||0.0003|TWO_SIDED|95.0|4.21|13.85||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||Statistical analysis for sleep adequacy.||13.85|4.21|0.0003
92448169|NCT01387607|184783395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.286|STANDARD_ERROR_OF_MEAN|0.1114||0.0106|TWO_SIDED|95.0|0.07|0.51||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||Statistical analysis for quantity of sleep.||0.51|0.07|0.0106
92448170|NCT01387607|184783395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.194|STANDARD_ERROR_OF_MEAN|1.6428||0.0112|TWO_SIDED|95.0|0.96|7.43||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||Statistical analysis for somnolence||7.43|0.96|0.0112
92448171|NCT01387607|184783396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.059|STANDARD_ERROR_OF_MEAN|1.6438||0.0637|TWO_SIDED|95.0|-6.29|0.18||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||||0.18|-6.29|0.0637
92448172|NCT01387607|184783397|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.6767|TWO_SIDED|95.0|0.67|1.87||Logistic regression model includes treatment and pooled center as factors and baseline value as covariate.|Regression, Logistic|||||1.87|0.67|0.6767
92448173|NCT01387607|184783398|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.882|STANDARD_ERROR_OF_MEAN|0.1932|<|0.0001|TWO_SIDED|95.0|-1.26|-0.5||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||-0.50|-1.26|<0.0001
92448174|NCT01387607|184783399|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.172|STANDARD_ERROR_OF_MEAN|7.7785||0.0273|TWO_SIDED|95.0|-32.42|-1.92||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||-1.92|-32.42|0.0273
92448175|NCT01387607|184783400|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.0677||0.8082|TWO_SIDED|95.0|-0.12|0.15||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||0.15|-0.12|0.8082
92448176|NCT01387607|184783401|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.655|STANDARD_ERROR_OF_MEAN|0.1223|<|0.0001|TWO_SIDED|95.0|-0.89|-0.41||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||-0.41|-0.89|<0.0001
92448177|NCT01387607|184783402|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.396|STANDARD_ERROR_OF_MEAN|7.7309||0.3388|TWO_SIDED|95.0|-7.76|22.55||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||22.55|-7.76|0.3388
92448178|NCT01387607|184783403|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.765|STANDARD_ERROR_OF_MEAN|0.2115||0.0003|TWO_SIDED|95.0|0.35|1.18||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||1.18|0.35|0.0003
92448179|NCT01387607|184783404|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.8414||0.3186|TWO_SIDED|95.0|-2.5|0.82||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||0.82|-2.50|0.3186
92448180|NCT01387607|184783405|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|1.0404||0.7149|TWO_SIDED|95.0|-1.67|2.43||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||2.43|-1.67|0.7149
92448181|NCT01387607|184783406|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.785|STANDARD_ERROR_OF_MEAN|0.673||0.2442|TWO_SIDED|95.0|-0.54|2.11||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||2.11|-0.54|0.2442
92448182|NCT01387607|184783407|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.616|STANDARD_ERROR_OF_MEAN|2.4019||0.1332|TWO_SIDED|95.0|-8.34|1.11||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||1.11|-8.34|0.1332
92448183|NCT01387607|184783408|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.378|STANDARD_ERROR_OF_MEAN|0.3595||0.2934||95.0|-1.09|0.33||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||0.33|-1.09|0.2934
92448184|NCT01387607|184783409|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.3621||0.0226|TWO_SIDED|95.0|-1.54|-0.12||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||-0.12|-1.54|0.0226
92448185|NCT03890367|184783466|NON_INFERIORITY|The two-sided 97.5 percent (%) confidence interval (CI) was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 97.5% CI of the percentage difference between compared groups was greater than (\>) -10%.|Difference in Percentage|10.43|||||TWO_SIDED|97.5|5.68|16.2||||||||16.2|5.68|
92448186|NCT03890367|184783467|NON_INFERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The non-inferiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1/1.5.|GMT Ratio|16.3|||||TWO_SIDED|97.5|12.7|21.0||||||||21.0|12.7|
92448187|NCT03890367|184783468|SUPERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The superiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1.|GMT Ratio|16.3|||||TWO_SIDED|97.5|12.7|21.0||||||||21.0|12.7|
92448188|NCT03890367|184783469|SUPERIORITY|The two-sided 97.5% CI was calculated based on the Wilson score method without continuity correction. The superiority was demonstrated if the lower limit of the 97.5% CI of the percentage difference between compared groups was \>0%.|Difference in Percentage|10.43|||||TWO_SIDED|97.5|5.68|16.2||||||||16.20|5.68|
92448189|NCT03890367|184783470|NON_INFERIORITY|The two-sided 97.5% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 97.5% CI of the percentage difference between compared groups was \>-10%.|Difference in Percentage|0.0|||||TWO_SIDED|97.5|-2.3|2.28||||||||2.28|-2.30|
92448190|NCT03890367|184783471|NON_INFERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The non-inferiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1/1.5.|GMT Ratio|1.32|||||TWO_SIDED|97.5|1.06|1.64||||||||1.64|1.06|
92448191|NCT03890367|184783472|SUPERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The superiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1.|GMT Ratio|1.32|||||TWO_SIDED|97.5|1.06|1.64||||||||1.64|1.06|
92448192|NCT03890367|184783473|NON_INFERIORITY|The two-sided 97.5% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 97.5% CI of the percentage difference between compared groups was \>-10%.|Difference in Percentage|5.24|||||TWO_SIDED|97.5|1.83|9.85||||||||9.85|1.83|
92448193|NCT03890367|184783474|NON_INFERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The non-inferiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1/1.5.|GMT Ratio|6.8|||||TWO_SIDED|97.5|5.04|9.18||||||||9.18|5.04|
92172281|NCT04927065|184234965|OTHER||Percentage Difference|37.6|||||TWO_SIDED|95.0|29.3|45.9|||||SARS-CoV-2 (D614G) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||45.9|29.3|
92240619|NCT02433210|184384635|SUPERIORITY|Failed normality test|||||=|0.111||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|The difference in the median values between the two groups is not \> enough to exclude that the difference is due to random sampling variability||No significant difference||||=0.111
92448194|NCT03890367|184783475|SUPERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The superiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1.|GMT Ratio|6.8|||||TWO_SIDED|97.5|5.04|9.18||||||||9.18|5.04|
92448195|NCT03890367|184783476|NON_INFERIORITY|The two-sided 97.5% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 97.5% CI of the percentage difference between compared groups was \>-10%.|Difference in Percentage|0.0|||||TWO_SIDED|97.5|-2.71|2.67||||||||2.67|-2.71|
92448196|NCT03890367|184783477|NON_INFERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The non-inferiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1/1.5.|GMT Ratio|2.27|||||TWO_SIDED|97.5|1.82|2.84||||||||2.84|1.82|
92448197|NCT03890367|184783478|SUPERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The superiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1.|GMT Ratio|2.27|||||TWO_SIDED|97.5|1.82|2.84||||||||2.84|1.82|
92448198|NCT04524403|184783484|SUPERIORITY||Least Squares Mean Difference|0.24||||0.787|TWO_SIDED|95.0|-1.52|2.01|||Mixed Models Analysis|||||2.01|-1.52|0.7870
92448199|NCT04524403|184783484|SUPERIORITY||Least Squares Mean Difference|0.75||||0.4018|TWO_SIDED|95.0|-1.01|2.51|||Mixed Models Analysis|||||2.51|-1.01|0.4018
92448200|NCT04524403|184783485|SUPERIORITY||Least Squares Mean Difference|0.5||||0.5228|TWO_SIDED|95.0|-1.03|2.02|||Mixed Models Analysis|||||2.02|-1.03|0.5228
92448201|NCT04524403|184783486|SUPERIORITY||Odds Ratio (OR)|1.781||||0.2537|TWO_SIDED|95.0|0.661|4.802|||Regression, Logistic|||||4.802|0.661|0.2537
92448202|NCT04524403|184783486|SUPERIORITY||Odds Ratio (OR)|0.916||||0.874|TWO_SIDED|95.0|0.308|2.722|||Regression, Logistic|||||2.722|0.308|0.8740
92448203|NCT04524403|184783487|SUPERIORITY||Least Squares Mean Difference|0.0||||0.987|TWO_SIDED|95.0|-0.021|0.021|||Mixed Models Analysis|||||0.021|-0.021|0.9870
92448204|NCT04524403|184783487|SUPERIORITY||Least Squares Mean Difference|0.008||||0.4624|TWO_SIDED|95.0|-0.013|0.029|||Mixed Models Analysis|||||0.029|-0.013|0.4624
92448205|NCT00991302|184783491|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|stratified by dosing complexity||"Treatment comparison was made using a Wilcoxon rank sum test stratified by dosing complexity.~The test was not stratified by region of enrollment due to dosing complexity and region of enrollment were almost identical: almost all (exception with two) participants in the US region were on QD and all participants in the Peru region were on BID or TID."||||0.52
92448206|NCT01709318|184783499|NON_INFERIORITY|Based on a longitudinal data analysis (LDA) model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|8.3|||||TWO_SIDED|95.0|-4.3|26.5|||||95% CI adjusted for multiplicity (Dunnett)|||26.5|-4.3|
92448207|NCT01709318|184783499|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|6.5|||||TWO_SIDED|95.0|-5.7|24.8|||||95% CI adjusted for multiplicity (Dunnett)|||24.8|-5.7|
92448208|NCT01709318|184783499|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|12.3|||||TWO_SIDED|95.0|-1.7|33.1|||||95% CI adjusted for multiplicity (Dunnett)|||33.1|-1.7|
92448209|NCT01709318|184783499|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|6.6|||||TWO_SIDED|95.0|-5.7|25.4|||||95% CI adjusted for multiplicity (Dunnett)|||25.4|-5.7|
92448210|NCT01709318|184783499|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|9.3|||||TWO_SIDED|95.0|-3.5|27.4|||||95% CI adjusted for multiplicity (Dunnett)|||27.4|-3.5|
92172282|NCT04927065|184234974|OTHER||GMR|0.836|||||TWO_SIDED|95.0|0.745|0.938|||||SARS-CoV-2 (D614G) nAb: Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||0.938|0.745|
92240620|NCT02433210|184384635|SUPERIORITY|Failed normality test|||||=|0.198||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||No significant difference||||=0.198
92448211|NCT01709318|184783499|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-10.7|15.9|||||95% CI adjusted for multiplicity (Dunnett)|||15.9|-10.7|
92448212|NCT01709318|184783500|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|3.2|||||TWO_SIDED|95.0|-3.6|16.4|||||95% CI adjusted for multiplicity (Dunnett)|||16.4|-3.6|
92448213|NCT01709318|184783500|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-6.2|11.0|||||95% CI adjusted for multiplicity (Dunnett)|||11.0|-6.2|
92448214|NCT01709318|184783500|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|3.0|||||TWO_SIDED|95.0|-3.8|17.5|||||95% CI adjusted for multiplicity (Dunnett)|||17.5|-3.8|
92448215|NCT01709318|184783500|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|4.7|||||TWO_SIDED|95.0|-2.5|18.9|||||95% CI adjusted for multiplicity (Dunnett)|||18.9|-2.5|
92448216|NCT01709318|184783500|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|1.4|||||TWO_SIDED|95.0|-5.0|13.4|||||95% CI adjusted for multiplicity (Dunnett)|||13.4|-5.0|
92448217|NCT01709318|184783500|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-6.2|11.0|||||95% CI adjusted for multiplicity (Dunnett)|||11.0|-6.2|
92448218|NCT01709318|184783501|OTHER|Based on longitudinal data analysis (LDA) model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of Least Squares (LS) Mean|-0.08||||0.096|||||||LDA|||||||0.096
92448219|NCT01709318|184783501|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.03||||0.993|||||||LDA|||||||0.993
92448220|NCT01709318|184783501|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.08||||0.124|||||||LDA|||||||0.124
92448221|NCT01709318|184783501|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.05||||0.845|||||||LDA|||||||0.845
92448222|NCT01709318|184783501|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.04||||0.976|||||||LDA|||||||0.976
92448223|NCT01709318|184783501|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.03||||0.995|||||||LDA|||||||0.995
92448224|NCT01709318|184783502|OTHER|Based on longitudinal data analysis (LDA) model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of Least Squares (LS) Mean|-0.01||||1|||||||LDA|||||||1.000
92448225|NCT01709318|184783502|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|0.19||||0.996|||||||LDA|||||||0.996
92448226|NCT01709318|184783502|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.06||||1|||||||LDA|||||||1.000
92448227|NCT01709318|184783502|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.04||||1|||||||LDA|||||||1.000
92448228|NCT01709318|184783502|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|0.09||||1|||||||LDA|||||||1.000
92240621|NCT02433210|184384635|SUPERIORITY||||||=|0.007||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Showed a significant difference||||=0.007
92287161|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.027||||0.4|TWO_SIDED|95.0|-0.036|0.09|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.090|-0.036|0.400
92448229|NCT01709318|184783502|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.24||||0.998|||||||LDA|||||||0.998
92448230|NCT00827372|184783512|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0658|||||||t-test, 2 sided|||With a sample size of 14 evaluable subjects, we will have 80% power to detect a change in excess arm volume of .8 standard deviations using a two-sided paired t-test. We will have 90% power to detect a difference of .9 standard deviations. A Paired T-Test was used to test the difference in arm volume from the second baseline measurement to Cycle 2 only.||||0.0658
92448231|NCT00827372|184783513|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0061|||||||t-test, 2 sided|||A Paired T-Test was used to compare the IFP affected at first versus affected at last reading.||||0.0061
92448232|NCT00827372|184783514|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0143|||||||t-test, 2 sided|||A Paired T-Test was used for the difference in the impedance ratio from the second baseline to cycle 2, day 1||||0.0143
92448233|NCT01312909|184783529|SUPERIORITY||Odds Ratio (OR)|1.18||||0.6337|TWO_SIDED|95.0|0.59|2.37||Threshold for significance at 0.05 level.|Regression, Logistic|||Odds ratios and p-values were obtained from a logistic regression model with terms treatment, age strata, body weight strata and pooled center. A testing order was used to control type I error. 1mg Varenicline twice daily group was tested against placebo first, and if statistically significant difference was observed, the 0.5 mg Varenicline twice daily group was tested against placebo.||2.37|0.59|0.6337
92448234|NCT01312909|184783529|SUPERIORITY||Odds Ratio (OR)|1.73||||0.1114|TWO_SIDED|95.0|0.88|3.39||Threshold for significance at 0.05 level.|Regression, Logistic|||Odds ratios and p-values were obtained from a logistic regression model with terms treatment, age strata, body weight strata and pooled center. A testing order was used to control type I error. 1mg Varenicline twice daily group was tested against placebo first, and if statistically significant difference was observed, the 0.5 mg Varenicline twice daily group was tested against placebo.||3.39|0.88|0.1114
92448235|NCT01312909|184783530|SUPERIORITY||Odds Ratio (OR)|1.21||||0.5793|TWO_SIDED|95.0|0.62|2.38|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 12||2.38|0.62|0.5793
92448236|NCT01312909|184783530|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0932|TWO_SIDED|95.0|0.91|3.51|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 12||3.51|0.91|0.0932
92448237|NCT01312909|184783530|SUPERIORITY||Odds Ratio (OR)|1.23||||0.5647|TWO_SIDED|95.0|0.61|2.5|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 24||2.50|0.61|0.5647
92448238|NCT01312909|184783530|SUPERIORITY||Odds Ratio (OR)|1.46||||0.2917|TWO_SIDED|95.0|0.72|2.96|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 24||2.96|0.72|0.2917
92448239|NCT01312909|184783530|SUPERIORITY||Odds Ratio (OR)|1.25||||0.5616|TWO_SIDED|95.0|0.58|2.69|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 52||2.69|0.58|0.5616
92448240|NCT01312909|184783530|SUPERIORITY||Odds Ratio (OR)|1.79||||0.13|TWO_SIDED|95.0|0.84|3.78|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 52||3.78|0.84|0.1300
92448241|NCT01312909|184783532|SUPERIORITY||Least square (LS) mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.58||0.354|TWO_SIDED|95.0|-1.69|0.6|||Longitudinal repeated measures model|||Week 12: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||0.60|-1.69|0.3540
92448242|NCT01312909|184783532|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.59||0.7574|TWO_SIDED|95.0|-1.35|0.98|||Longitudinal repeated measures model|||Week 12: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||0.98|-1.35|0.7574
92448243|NCT01312909|184783532|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.6||0.5676|TWO_SIDED|95.0|-1.53|0.84|||Longitudinal repeated measures model|||Week 24: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||0.84|-1.53|0.5676
92448244|NCT01312909|184783532|SUPERIORITY||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.61||0.2356|TWO_SIDED|95.0|-1.92|0.47|||Longitudinal repeated measures model|||Week 24: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||0.47|-1.92|0.2356
92448245|NCT01312909|184783532|SUPERIORITY||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.62||0.773|TWO_SIDED|95.0|-1.03|1.38|||Longitudinal repeated measures model|||Week 52: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||1.38|-1.03|0.7730
92448246|NCT01312909|184783532|SUPERIORITY||LS mean difference|-0.77|STANDARD_ERROR_OF_MEAN|0.62||0.2166|TWO_SIDED|95.0|-1.99|0.45|||Longitudinal repeated measures model|||Week 52: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||0.45|-1.99|0.2166
92448247|NCT01312909|184783533|SUPERIORITY||Odds Ratio (OR)|0.8||||0.6133|TWO_SIDED|95.0|0.34|1.9|||Regression, Logistic|||Week 9 through Week 24: Odds ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center, age strata and body weight strata.||1.90|0.34|0.6133
92448248|NCT01312909|184783533|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0335|TWO_SIDED|95.0|1.07|4.79|||Regression, Logistic|||Week 9 through Week 24: Odds ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center, age strata and body weight strata.||4.79|1.07|0.0335
92448249|NCT01312909|184783533|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9874|TWO_SIDED|95.0|0.37|2.65|||Regression, Logistic|||Week 9 through Week 52: Odds ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center, age strata and body weight strata.||2.65|0.37|0.9874
92448250|NCT01312909|184783533|SUPERIORITY||Odds Ratio (OR)|2.79||||0.0188|TWO_SIDED|95.0|1.19|6.55|||Regression, Logistic|||Week 9 through Week 52: Odds ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center, age strata and body weight strata.||6.55|1.19|0.0188
92448251|NCT01777997|184783551|OTHER|||||||0.001|||||||Regression, repeated measures (GEE)|||Estimated mean change from baseline to weeks 24-48 on ART from repeated measures (GEE) model, against the null hypothesis of zero change. Estimated mean represents on ART levels minus pre-ART levels.||||0.001
92448252|NCT01923181|184783563|SUPERIORITY|This hypothesis was controlled for multiplicity.|Mean treatment difference|-1.47|||<|0.0001|TWO_SIDED|95.0|-1.73|-1.22|||Mixed Models Analysis||Oral semaglutide 40 mg pooled - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.22|-1.73|<0.0001
92448253|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-0.4||||0.0069|TWO_SIDED|95.0|-0.69|-0.11|||Mixed Models Analysis||Oral semaglutide 2.5 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-0.11|-0.69|0.0069
92448254|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.18|-0.6|||Mixed Models Analysis||Oral semaglutide 5 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-0.60|-1.18|<0.0001
92448255|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.18|||<|0.0001|TWO_SIDED|95.0|-1.47|-0.9|||Mixed Models Analysis||Oral semaglutide 10 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-0.90|-1.47|<0.0001
92448256|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.38|||<|0.0001|TWO_SIDED|95.0|-1.68|-1.09|||Mixed Models Analysis||Oral Semaglutide 20 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.09|-1.68|<0.0001
92448257|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.6|||<|0.0001|TWO_SIDED|95.0|-1.89|-1.3|||Mixed Models Analysis||Oral semaglutide 40 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.30|-1.89|<0.0001
92448258|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.43|||<|0.0001|TWO_SIDED|95.0|-1.72|-1.14|||Mixed Models Analysis||Oral semaglutide 40 mg slow dose-escalation - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.14|-1.72|<0.0001
92448259|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.64|-1.04|||Mixed Models Analysis||Oral semaglutide 40 mg fast dose-escalation - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.04|-1.64|<0.0001
92448260|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.56|||<|0.0001|TWO_SIDED|95.0|-1.85|-1.27|||Mixed Models Analysis||Subcutaneous semaglutide 1 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.27|-1.85|<0.0001
92448261|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|1.16|||<|0.0001|TWO_SIDED|95.0|0.87|1.45|||Mixed Models Analysis||Oral semaglutide 2.5 mg - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||1.45|0.87|<0.0001
92448262|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.67|||<|0.0001|TWO_SIDED|95.0|0.38|0.96|||Mixed Models Analysis||Oral semaglutide 5 mg - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.96|0.38|<0.0001
92448263|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.37||||0.0116|TWO_SIDED|95.0|0.08|0.67|||Mixed Models Analysis||Oral semaglutide 10 mg - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.67|0.08|0.0116
92240622|NCT02433210|184384635|SUPERIORITY||||||=|0.202||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||No significant difference||||=0.202
92448264|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.18||||0.244|TWO_SIDED|95.0|-0.12|0.47|||Mixed Models Analysis||Oral semaglutide 20 mg - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.47|-0.12|0.2440
92448265|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-0.04||||0.7973|TWO_SIDED|95.0|-0.34|0.26|||Mixed Models Analysis||Oral semaglutide 40 mg - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.26|-0.34|0.7973
92448266|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.13||||0.3901|TWO_SIDED|95.0|-0.16|0.42|||Mixed Models Analysis||Oral semaglutide 40 mg slow-dose escalation - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.42|-0.16|0.3901
92448267|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.22||||0.1612|TWO_SIDED|95.0|-0.09|0.52|||Mixed Models Analysis||Oral semaglutide 40 mg fast-dose escalation - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.52|-0.09|0.1612
92448268|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.17||||0.2669|TWO_SIDED|95.0|-0.13|0.46|||Mixed Models Analysis||Oral semaglutide 40 mg slow-dose escalation - Oral semaglutide 40 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.46|-0.13|0.2669
92448269|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.26||||0.0989|TWO_SIDED|95.0|-0.05|0.56|||Mixed Models Analysis||Oral semaglutide 40 mg fast-dose escalation - Oral semaglutide 40 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.56|-0.05|0.0989
92448270|NCT01923181|184783563|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.09||||0.5565|TWO_SIDED|95.0|-0.21|0.39|||Mixed Models Analysis||Oral semaglutide 40 mg fast-dose escalation - Oral semaglutide 40 mg slow-dose escalation|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.39|-0.21|0.5565
92448271|NCT04622254|184783578|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448272|NCT04622254|184783579|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448273|NCT04622254|184783580|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92240623|NCT02433210|184384635|SUPERIORITY||||||=|0.54||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||No significant difference||||=0.540
92240624|NCT02433210|184384636|SUPERIORITY||||||=|0.204|||||||Wilcoxon (Mann-Whitney)|||||||=0.204
92240625|NCT02433210|184384636|SUPERIORITY||||||=|0.234|||||||Wilcoxon (Mann-Whitney)|||||||=0.234
92448274|NCT04622254|184783581|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448275|NCT04622254|184783582|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448276|NCT04622254|184783583|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448277|NCT04622254|184783584|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448278|NCT04622254|184783585|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448279|NCT04622254|184783586|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448280|NCT04622254|184783587|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92448281|NCT04622254|184783588|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448282|NCT04622254|184783589|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448283|NCT04622254|184783590|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448284|NCT04622254|184783590|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92448285|NCT04622254|184783591|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92172283|NCT04927065|184234975|OTHER||SRR Difference|0.0|||||TWO_SIDED|95.0|||||||SARS-CoV-2 (D614G) nAb: Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg 95% CI could not be calculated due to the SRR difference is 0.|||||
92448286|NCT04622254|184783591|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92448287|NCT02652624|184783594|NON_INFERIORITY|A sample size of 470 participants (\~235 participants per treatment group) would provide at least 87% power to detect a non-inferiority margin of 4% difference in the percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48 between the 2 treatment groups. This was based on the assumptions that both treatment groups have 2% of participants with HIV-1 RNA ≥ 50 copies/mL (based on Gilead Genvoya and Stribild studies) and that the significance level of the test is at a 1-sided 0.025 level.|Difference in percentages|0.0|||||TWO_SIDED|95.001|-2.9|2.9|||||The difference in percentages between treatment groups and their 95.001% confidence intervals (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The null hypothesis was that the percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48 in the B/F/TAF group was at least 4% higher than the rate in the SBR group; the alternative hypothesis was that the percentage of participants with HIV-1 RNA ≥ 50 copies/mL in the B/F/TAF group was less than 4% higher than that in the SBR group.||2.9|-2.9|
92448288|NCT02652624|184783594|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92448289|NCT02652624|184783595|NON_INFERIORITY|The non-inferiority of B/F/TAF would be established if the lower bound of the 2-sided 95.001% CI of the difference between the treatment groups (B/F/TAF group - SBR group) in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10%.|Difference in percentages|0.4|||||TWO_SIDED|95.001|-3.7|4.5|||||The difference in percentages between treatment groups and their 95.001% CIs were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||4.5|-3.7|
92448290|NCT02652624|184783595|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92448291|NCT02652624|184783596|OTHER||Difference in least square means|3.0||||0.84|TWO_SIDED|95.0|-27.0|34.0|||ANOVA||Difference in least squares means and its 95% CI were from ANOVA model with treatment group as a fixed effect in the model.|||34|-27|0.84
92448292|NCT00739336|184783609|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||Piecewise linear multilevel models with multiple observations nested within each participant were used. Random components (intercept, slope) were introduced into the model to account for dependence among measurements within a participant and assessed by nested model comparisons using the deviance statistic (difference in -2LL).||||<0.01
92448293|NCT01993108|184783629|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||.02
92448294|NCT01993108|184783629|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.118|TWO_SIDED||||||t-test, 2 sided|||||||.118
92448295|NCT01993108|184783629|SUPERIORITY||Median Difference (Final Values)|0.02||||0.349|TWO_SIDED||||||t-test, 2 sided|||||||.349
92448296|NCT01993108|184783629|SUPERIORITY||Median Difference (Final Values)|0.02||||0.348|TWO_SIDED||||||t-test, 2 sided|||||||.348
92280663|NCT02129348|184464050|SUPERIORITY||Treatment Effect Difference|2.0||||0.21|TWO_SIDED|95.0|-1.1|5.1||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||5.1|-1.1|0.21
92287162|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.003||||0.931|TWO_SIDED|95.0|-0.059|0.064|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.064|-0.059|0.931
92172284|NCT04927065|184234976|OTHER||SRR Difference|-13.1|||||TWO_SIDED|95.0|-21.2|-5.0|||||SARS-CoV-2 (D614G) nAb: Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||-5.0|-21.2|
92448297|NCT01993108|184783630|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.019|TWO_SIDED||||||t-test, 2 sided|||||||.019
92448298|NCT01993108|184783630|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.24|TWO_SIDED||||||t-test, 2 sided|||||||.240
92448299|NCT01993108|184783630|SUPERIORITY||Median Difference (Final Values)|0.06||||0.081|TWO_SIDED||||||t-test, 2 sided|||||||.081
92448300|NCT01993108|184783630|SUPERIORITY||Median Difference (Final Values)|0.04||||0.247|TWO_SIDED||||||t-test, 2 sided|||||||.247
92448301|NCT01993108|184783631|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.049|TWO_SIDED||||||t-test, 2 sided|||||||.049
92448302|NCT01993108|184783631|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.497|TWO_SIDED||||||t-test, 2 sided|||||||.497
92448303|NCT01993108|184783631|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.814|TWO_SIDED||||||t-test, 2 sided|||||||.814
92287163|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.043||||0.16|TWO_SIDED|95.0|-0.017|0.102|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.102|-0.017|0.160
92448304|NCT01993108|184783631|SUPERIORITY||Mean Difference (Net)|0.01||||0.593|TWO_SIDED||||||t-test, 2 sided|||||||.593
92448305|NCT01993108|184783632|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.926|TWO_SIDED||||||t-test, 2 sided|||||||.926
92448306|NCT01993108|184783632|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.126|TWO_SIDED||||||t-test, 2 sided|||||||.126
92448307|NCT01993108|184783632|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.852|TWO_SIDED||||||t-test, 2 sided|||||||.852
92448308|NCT01993108|184783632|SUPERIORITY||Median Difference (Final Values)|0.11||||0.552|TWO_SIDED||||||t-test, 2 sided|||||||.552
92448309|NCT01560624|184783633|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0275|TWO_SIDED|95.0|0.56|0.97|||Cox proportion-hazard model|||||0.97|0.56|0.0275
92448310|NCT01560624|184783633|SUPERIORITY|||||||0.0391|||||||Log Rank|||||||0.0391
92448311|NCT01560624|184783634|SUPERIORITY||Hodges Lehmann estimate location shift|7.0||||0.0913|TWO_SIDED|95.0|0.0|16.0|||ANCOVA|||||16.0|0|0.0913
92448312|NCT01560624|184783635|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92448313|NCT01560624|184783636|SUPERIORITY|||||||0.0028|||||||Fisher Exact|||||||0.0028
92448314|NCT03228680|184783641|NON_INFERIORITY|The pre-specified non-inferiority (NI) margin was -3.0 oocytes. The NI was evaluated based on the two-sided 95% CI from the ANOVA on 'number of oocytes retrieved' with treatment and AMH stratum as fixed factors.|Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-2.3|-0.1|||||If the lower bound of 95% CI was well above pre-specified NI limit of -3.0 oocytes, then NI of FE 999049 to FOLLISTIM with respect to number of oocytes retrieved in women undergoing controlled ovarian stimulation would be demonstrated|Mean number of oocytes retrieved.||-0.1|-2.3|
92448315|NCT03228680|184783642|OTHER||Risk Difference (RD)|1.6|||||TWO_SIDED|95.0|-7.5|10.6|||||The difference (FE 999049-FOLLISTIM) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across AMH strata.|Percentage of participants with at least one gestational sac 5-6 weeks after transfer.||10.6|-7.5|
92448316|NCT03228680|184783643|OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-9.5|9.6|||||The difference (FE 999049-FOLLISTIM) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across AMH strata.|Percentage of participants with positive beta-hCG.||9.6|-9.5|
92448317|NCT03228680|184783644|OTHER||Risk Difference (RD)|2.0|||||TWO_SIDED|95.0|-6.7|10.8|||||The difference (FE 999049-FOLLISTIM) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across AMH strata.|Percentage of participants with vital pregnancy.||10.8|-6.7|
92448318|NCT03228680|184783645|OTHER||Risk Difference (RD)|1.9|||||TWO_SIDED|95.0|-8.9|12.8|||||The difference (FE 999049-FOLLISTIM) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across AMH strata.|Percentage of implanted embryos 5-6 weeks after transfer.||12.8|-8.9|
92448319|NCT03228680|184783647|SUPERIORITY|||||||0.244||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with blastocyst transfer cancellation.||||0.244
92448320|NCT03228680|184783648|SUPERIORITY|||||||0.254||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with \<4 oocytes retrieved (low response).||||0.254
92448321|NCT03228680|184783648|SUPERIORITY|||||||0.041||||||P-value was based on likelihood ratio test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with 4-7 oocytes retrieved (moderate response).||||0.041
92448322|NCT03228680|184783648|SUPERIORITY|||||||0.705||||||P-value was based on likelihood ratio test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with 8-14 oocytes retrieved (targeted response).||||0.705
92448323|NCT03228680|184783648|SUPERIORITY|||||||0.183||||||P-value was based on likelihood ratio test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with 15-19 oocytes retrieved (hyperresponse).||||0.183
92448324|NCT03228680|184783648|SUPERIORITY|||||||0.03||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with \>= (more than equal to) 20 oocytes retrieved (severe hyperresponse).||||0.030
92448325|NCT03228680|184783649|SUPERIORITY|||||||0.893||||||P-value was based on likelihood ratio chi-square test.|Chi-squared|||Proportion of participants with extreme ovarian responses: AMH \< 15 pmol/L (\<4 oocytes retrieved)||||0.893
92448326|NCT03228680|184783649|SUPERIORITY|||||||0.002||||||P-value was based on likelihood ratio chi-square test.|Chi-squared|||Proportion of participants with extreme ovarian responses: AMH \>= 15 pmol/L (\>=15 oocytes retrieved)||||0.002
92448327|NCT03228680|184783649|SUPERIORITY|||||||0.021||||||P-value based on likelihood ratio chi-square test.|Chi-squared|||Proportion of participants with extreme ovarian responses: AMH \>= 15 pmol/L (\>=20 oocytes retrieved)||||0.021
92448328|NCT03228680|184783651|SUPERIORITY|||||||0.017||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportions of participants with early OHSS (any grade).||||0.017
92448329|NCT03228680|184783651|SUPERIORITY|||||||0.035||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with early OHSS (moderate/severe).||||0.035
92448330|NCT03228680|184783651|SUPERIORITY|||||||0.006||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with early OHSS (any grade) and/or preventive interventions.||||0.006
92448331|NCT03228680|184783651|SUPERIORITY|||||||0.009||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with early OHSS (moderate/severe) and/or preventive interventions.||||0.009
92448332|NCT03228680|184783652|SUPERIORITY|||||||0.968||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportions of participants with late OHSS (any grade).||||0.968
92448333|NCT03228680|184783652|SUPERIORITY|||||||0.582||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportions of participants with late OHSS (moderate/severe).||||0.582
92448334|NCT03228680|184783653|SUPERIORITY|||||||0.198||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of follicles on stimulation Day 6 was analyzed.||||0.198
92448335|NCT03228680|184783654|SUPERIORITY|||||||0.036||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of follicles at end-of-stimulation was analyzed.||||0.036
92448336|NCT03228680|184783655|SUPERIORITY|||||||0.592||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The average size of 3 largest follicles was analyzed.||||0.592
92448337|NCT03228680|184783656|SUPERIORITY|||||||0.286||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The average size of 3 largest follicles was analyzed.||||0.286
92240626|NCT02433210|184384636|SUPERIORITY||||||=|0.015||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the \<0.050 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either then the non-parametric Mann-Whitney Rank Sum Test was used.||||||=0.015
92240627|NCT02433210|184384636|SUPERIORITY||||||=|0.413||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.413
92448338|NCT03228680|184783657|SUPERIORITY|||||||0.395||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The fertilization rate (number of oocytes with 2 pronuclei divided by the number of oocytes retrieved) was analyzed.||||0.395
92448339|NCT03228680|184783658|SUPERIORITY|||||||0.001||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of embryos on Day 3 was analyzed.||||0.001
92448340|NCT03228680|184783658|SUPERIORITY|||||||0.004||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of good-quality embryos on Day 3 was analyzed.||||0.004
92448341|NCT03228680|184783659|SUPERIORITY||||||<|0.001||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of blastocysts on Day 5 was analyzed.||||<.001
92448342|NCT03228680|184783659|SUPERIORITY||||||<|0.001||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of good-quality blastocysts on Day 5 was analyzed.||||<0.001
92448343|NCT03228680|184783660|SUPERIORITY||Mean ratio|1.03||||0.228|TWO_SIDED|95.0|0.98|1.09||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of FSH on stimulation Day 6.||1.09|0.98|0.228
92448344|NCT03228680|184783660|SUPERIORITY||Mean ratio|0.97||||0.777|TWO_SIDED|95.0|0.81|1.17||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of LH on stimulation Day 6.||1.17|0.81|0.777
92448345|NCT03228680|184783661|SUPERIORITY||Mean ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.84|0.94||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of FSH at end-of-stimulation.||0.94|0.84|<0.001
92448346|NCT03228680|184783661|SUPERIORITY||Mean ratio|1.17||||0.057|TWO_SIDED|95.0|1.0|1.39||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of LH at end-of-stimulation.||1.39|1.00|0.057
92448347|NCT03228680|184783662|SUPERIORITY||Mean ratio|0.81||||0.002|TWO_SIDED|95.0|0.71|0.93||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of estradiol on stimulation Day 6.||0.93|0.71|0.002
92287164|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|-0.024||||0.464|TWO_SIDED|95.0|-0.09|0.041|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.041|-0.090|0.464
92448348|NCT03228680|184783663|SUPERIORITY||Mean ratio|0.85||||0.003|TWO_SIDED|95.0|0.76|0.95||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of estradiol at end-of-stimulation.||0.95|0.76|0.003
92448349|NCT03228680|184783664|SUPERIORITY||Mean ratio|1.02||||0.814|TWO_SIDED|95.0|0.89|1.16||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of progesterone on stimulation Day 6.||1.16|0.89|0.814
92448350|NCT03228680|184783665|SUPERIORITY||Mean ratio|0.78|||<|0.001|TWO_SIDED|95.0|0.68|0.88||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of progesterone levels at end-of-stimulation.||0.88|0.68|<0.001
92448351|NCT03228680|184783666|SUPERIORITY||Mean ratio|0.82|||<|0.001|TWO_SIDED|95.0|0.73|0.92||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of Inhibin A on stimulation Day 6.||0.92|0.73|<0.001
92448352|NCT03228680|184783667|SUPERIORITY||Mean ratio|0.8|||<|0.001|TWO_SIDED|95.0|0.72|0.88||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of Inhibin A at end-of-stimulation.||0.88|0.72|<0.001
92448353|NCT03228680|184783668|SUPERIORITY||Mean ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.75|0.93||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of Inhibin B on stimulation Day 6.||0.93|0.75|<0.001
92448354|NCT03228680|184783669|SUPERIORITY||Mean ratio|0.88||||0.027|TWO_SIDED|95.0|0.79|0.99||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of Inhibin B at end-of-stimulation.||0.99|0.79|0.027
92448355|NCT03228680|184783670|SUPERIORITY|||||||0.694||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of stimulation days at end-of-stimulation.||||0.694
92448356|NCT02099721|184783682|EQUIVALENCE|The equivalence margin is a hazard ratio significantly above 0.70.|Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.38|0.57|||||The hazard ratio, estimated by a Cox proportional hazard model, has time to first treated VT/VF for 1.5 Prevention in the numerator, with Secondary Prevention in the denominator.|"H0: Hazard ratio of Implanted 1.5 patients (Group C) to implanted secondary patients (Group A) ≤ 0.70~HA: Hazard ratio of Implanted 1.5 patients (Group C) to implanted secondary patients (Group A) \> 0.70"||0.57|0.38|
92448357|NCT02099721|184783683|SUPERIORITY|A hazard ratio significantly below 1 indicates reduced mortality in the 1.5 implanted group.|Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.4|0.66||The p-value is for the effect of treatment group on time to death, adjusting for the baseline covariates of age, gender, QRS duration, ischemic cardiomyopathy, LBBB, NYHA classification, diabetes, LVEF, syncope, NSVT and PVCs.|Wald chi-square||Multiple imputations were employed to account for missing baseline covariates.|The null hypothesis is that the hazard ratio of implanted to non-implanted 1.5 patients = 1. The alternative is that the ratio is not equal to 1.||0.66|0.40|< 0.0001
92448358|NCT03732638|184783705|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.0099|TWO_SIDED|95.0|-1.46|-0.2|||Mixed Models Analysis|||||-0.20|-1.46|0.0099
92448359|NCT03732638|184783706|SUPERIORITY||Risk Difference (RD)|7.6||||0.0438|TWO_SIDED|95.0|0.2|14.9|||Cochran-Mantel-Haenszel|||||14.9|0.2|0.0438
92448360|NCT03732638|184783707|SUPERIORITY||Mean Difference (Net)|-0.8||||0.0017|TWO_SIDED|95.0|-1.34|-0.31|||Mixed Models Analysis|||||-0.31|-1.34|0.0017
92448361|NCT03732638|184783708|SUPERIORITY||Mean Difference (Net)|-0.2||||0.3868|TWO_SIDED|95.0|-0.8|0.31||P-value ≥ 0.05; therefore, all secondary endpoints listed after this endpoint in the hierarchy were not tested.|Mixed Models Analysis|||||0.31|-0.80|0.3868
92280664|NCT02129348|184464051|SUPERIORITY||Treatment Effect Difference|-0.1||||0.91|TWO_SIDED|95.0|-2.6|2.4||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||2.4|-2.6|0.91
92172285|NCT04927065|184234977|OTHER||SRR Difference|0.0|||||TWO_SIDED|97.5|||||||SARS-CoV-2 (D614G) nAb at Day 29: Part G versus Part F (Cohort 2) mRNA-1273 95% CI could not be calculated due to the SRR difference is 0.|||||
92172286|NCT04927065|184234977|OTHER||SRR Difference|0.9|||||TWO_SIDED|97.5|-1.6|3.5|||||SARS-CoV-2 (D614G) nAb at Day 91: Part G versus Part F (Cohort 2) mRNA-1273|||3.5|-1.6|
92448362|NCT04574362|184783758|SUPERIORITY||Risk Difference (RD)|9.2|||<|0.0001|TWO_SIDED|95.0|5.4|13.0|||Cochran-Mantel-Haenszel||Risk difference and associated 95 percent (%) confidence interval (CI) were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||13.0|5.4|<0.0001
92448363|NCT04574362|184783759|SUPERIORITY||Risk Difference (RD)|14.8|||<|0.0001|TWO_SIDED|95.0|9.6|20.0|||Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||20.0|9.6|<0.0001
92280665|NCT02129348|184464052|SUPERIORITY||Treatment Effect Difference|0.1||||0.94|TWO_SIDED|95.0|-1.5|1.4||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Effect size (d)= -0.02 (Cohen's D)|In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||1.4|-1.5|0.94
92448364|NCT04574362|184783760|SUPERIORITY||Risk Difference (RD)|18.1|||<|0.0001|TWO_SIDED|95.0|13.0|23.3|||Cochran-Mantel-Haenszel|Within the family of key secondary endpoints, multiplicity was controlled using the Hochberg procedure.|Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||23.3|13.0|<0.0001
92448365|NCT04574362|184783761|SUPERIORITY||Risk Difference (RD)|16.9|||<|0.0001|TWO_SIDED|95.0|11.4|22.3|||Cochran-Mantel-Haenszel|Within the family of key secondary endpoints, multiplicity was controlled using the Hochberg procedure.|Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||22.3|11.4|<0.0001
92448366|NCT04574362|184783762|SUPERIORITY||Risk Difference (RD)|-11.5|||<|0.0001|TWO_SIDED|95.0|-15.0|-8.0|||Cochran-Mantel-Haenszel|Within the family of key secondary endpoints, multiplicity was controlled using the Hochberg procedure.|Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||-8.0|-15.0|<0.0001
92448367|NCT04574362|184783763|SUPERIORITY||Risk Difference (RD)|7.7|||<|0.0001|TWO_SIDED|95.0|4.3|11.2|||Cochran-Mantel-Haenszel|Within the family of key secondary endpoints, multiplicity was controlled using the Hochberg procedure.|Risk differences and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||11.2|4.3|<0.0001
92448368|NCT04574362|184783764|SUPERIORITY||Risk difference|7.7|||<|0.0001|TWO_SIDED|95.0|4.4|11.0|||Cochran-Mantel-Haenszel|Within the family of key secondary endpoints, multiplicity was controlled using the Hochberg procedure.|Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||11.0|4.4|<0.0001
92448369|NCT04574362|184783765|SUPERIORITY||Risk difference|-0.7||||0.2057|TWO_SIDED|95.0|-1.9|0.4||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|15 minutes post-dose||0.4|-1.9|0.2057
92448370|NCT04574362|184783765|SUPERIORITY||Risk Difference (RD)|0.0||||0.9702|TWO_SIDED|95.0|-1.1|1.1||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|30 minutes post-dose||1.1|-1.1|0.9702
92287165|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.016||||0.623|TWO_SIDED|95.0|-0.047|0.078|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.078|-0.047|0.623
92448371|NCT04574362|184783765|SUPERIORITY||Risk Difference (RD)|1.0||||0.2419|TWO_SIDED|95.0|-0.7|2.8||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|45 minutes post-dose||2.8|-0.7|0.2419
92448372|NCT04574362|184783765|SUPERIORITY||Risk Difference (RD)|2.4||||0.0597|TWO_SIDED|95.0|-0.1|4.8||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|60 minutes post-dose||4.8|-0.1|0.0597
92448373|NCT04574362|184783765|SUPERIORITY||Risk Difference (RD)|5.2||||0.0012|TWO_SIDED|95.0|2.1|8.4||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|90 minutes post-dose||8.4|2.1|0.0012
92448374|NCT04574362|184783766|SUPERIORITY||Risk Difference (RD)|-0.7||||0.6809|TWO_SIDED|95.0|-3.9|2.5||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|15 minutes post-dose||2.5|-3.9|0.6809
92448375|NCT04574362|184783766|SUPERIORITY||Risk Difference (RD)|2.2||||0.2586|TWO_SIDED|95.0|-1.6|6.0||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|30 minutes post-dose||6.0|-1.6|0.2586
92448376|NCT04574362|184783766|SUPERIORITY||Risk Difference (RD)|4.5||||0.0421|TWO_SIDED|95.0|0.2|8.8||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|45 minutes post-dose||8.8|0.2|0.0421
92448377|NCT04574362|184783766|SUPERIORITY||Risk Difference (RD)|6.6||||0.0066|TWO_SIDED|95.0|1.8|11.3||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|60 minutes post-dose||11.3|1.8|0.0066
92172287|NCT04927065|184234977|OTHER||SRR Difference|-0.1|||||TWO_SIDED|95.0|-2.3|2.1|||||SARS-CoV-2 (D614G) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||2.1|-2.3|
92172288|NCT04927065|184234977|OTHER||SRR Difference|-1.9|||||TWO_SIDED|95.0|-5.3|1.5|||||SARS-CoV-2 (D614G) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||1.5|-5.3|
92448378|NCT04574362|184783766|SUPERIORITY||Risk Difference (RD)|9.9||||0.0002|TWO_SIDED|95.0|4.8|14.9||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|90 minutes post-dose||14.9|4.8|0.0002
92448379|NCT04574362|184783767|SUPERIORITY||Risk Difference (RD)|-10.4||||0.1148|TWO_SIDED|95.0|-23.5|2.8||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||2.8|-23.5|0.1148
92448380|NCT03192150|184783783|SUPERIORITY|Statistical hypotheses testing for the primary efficacy endpoint was two-sided and performed using a significance (alpha) level of 0.05.|||||<|0.0001||||||P-values were from a Chi-Square test (with continuity correction) of differences between treatments in the proportion of participants with ACC Grade 0 who did not receive rescue medication versus all other grades combined.|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||||||< 0.0001
92448381|NCT03192150|184783784|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|2.311||||0.0054|TWO_SIDED|95.0|1.311|4.074||P-values were from a Chi-Square test with continuity correction.|Chi-squared, Corrected|A Fisher's exact test was used if ≥ 1 of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 1||4.074|1.311|0.0054
92448382|NCT03192150|184783784|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|3.581|||<|0.0001|TWO_SIDED|95.0|1.967|6.519||P-values were from a Chi-Square test with continuity correction.|Chi-squared, Corrected|A Fisher's exact test was used if ≥ 1 of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 8||6.519|1.967|< 0.0001
92172289|NCT04927065|184234978|OTHER||SRR Difference|10.9|||||TWO_SIDED|97.5|1.7|20.1|||||SARS-CoV-2 (D614G) nAb at Day 29: Part G versus Part F (Cohort 2) mRNA-1273|||20.1|1.7|
92240628|NCT02433210|184384636|SUPERIORITY||||||=|0.314||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.314
92240629|NCT02433210|184384636|SUPERIORITY||||||=|0.769||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.769
92448383|NCT03192150|184783784|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|3.503|||<|0.0001|TWO_SIDED|95.0|1.909|6.426||P-values were from a Chi-Square test with continuity correction.|Chi-squared, Corrected|A Fisher's exact test was used if ≥ 1 of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 15||6.426|1.909|< 0.0001
92448384|NCT03192150|184783784|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|3.659|||<|0.0001|TWO_SIDED|95.0|1.987|6.736||P-values were from a Chi-Square test with continuity correction.|Chi-squared, Corrected|A Fisher's exact test was used if ≥ 1 of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 18||6.736|1.987|< 0.0001
92448385|NCT03192150|184783784|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|2.952||||0.0008|TWO_SIDED|95.0|1.596|5.462||P-values were from a Chi-Square test with continuity correction.|Chi-squared, Corrected|A Fisher's exact test was used if ≥ 1 of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 29||5.462|1.596|0.0008
92448386|NCT01420302|184783787|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92448387|NCT03759223|184783800|SUPERIORITY|||||||0.04||||||0:24 weeks|Mixed Models Analysis|||||||.04
92448388|NCT03759223|184783800|SUPERIORITY|||||||0.05||||||0:24 weeks|Mixed Models Analysis|||||||.05
92448389|NCT03759223|184783800|SUPERIORITY|||||||0.58||||||12:12 weeks|Mixed Models Analysis|||||||.58
92448390|NCT00780572|184783876|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9396||||0.668|TWO_SIDED|95.0|0.7068|1.249|||Regression, Cox|||||1.2490|0.7068|0.6680
92448391|NCT00727857|184783888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|||<|0.0001||95.0|0.51|1.22|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way Analysis of Covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate. Least Squares (LS) mean change and LS mean of the treatment difference reported.||1.22|0.51|<0.0001
92448392|NCT00727857|184783888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.84|||<|0.0001||95.0|0.5|1.18|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.18|0.50|<0.0001
92448393|NCT00727857|184783888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.8919||95.0|-0.37|0.33|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.33|-0.37|0.8919
92448394|NCT00727857|184783889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.8||||0.0005||95.0|7.8|27.7|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||27.7|7.8|0.0005
92240630|NCT02433210|184384637|SUPERIORITY||||||=|0.376|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.376
92448395|NCT00727857|184783889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.1||||0.0021||95.0|5.5|24.7|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||24.7|5.5|0.0021
92448396|NCT00727857|184783889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.5981||95.0|-12.5|7.2|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||7.2|-12.5|0.5981
92448397|NCT00727857|184783890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73||||0.5074||95.0|-1.43|2.88|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||2.88|-1.43|0.5074
92448398|NCT00727857|184783890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.93||||0.0047||95.0|0.9|4.95|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||4.95|0.90|0.0047
92448399|NCT00727857|184783890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2||||0.0435||95.0|0.06|4.33|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||4.33|0.06|0.0435
92448400|NCT00727857|184783891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.629||||0.3158||95.0|-0.602|1.861|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.861|-0.602|0.3158
92448401|NCT00727857|184783891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.619||||0.0067||95.0|0.452|2.785|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||2.785|0.452|0.0067
92448402|NCT00727857|184783891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.989||||0.1094||95.0|-0.223|2.201|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||2.201|-0.223|0.1094
92448403|NCT00727857|184783892|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.88||||0.5963||95.0|-4.71|13.97|||ANCOVA||The estimate of the median percent change from baseline and 95% confidence intervals were based on the Hodges-Lehmann method and the distribution-free confidence interval.|Nonparametric ANCOVA based on Tukey's normal rank transformation with a term for treatment and the baseline value as a covariate.||13.97|-4.71|0.5963
92448404|NCT00727857|184783892|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|12.81||||0.0265||95.0|2.88|22.24|||ANCOVA||The estimate of the median percent change from baseline and 95% confidence intervals were based on the Hodges-Lehmann method and the distribution-free confidence interval.|Nonparametric ANCOVA based on Tukey's normal rank transformation with a term for treatment and the baseline value as a covariate.||22.24|2.88|0.0265
92448405|NCT00727857|184783892|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|8.33||||0.1053||95.0|-1.77|18.07|||ANCOVA||The estimate of the median percent change from baseline and 95% confidence intervals were based on the Hodges-Lehmann method and the distribution-free confidence interval.|Nonparametric ANCOVA based on Tukey's normal rank transformation with a term for treatment and the baseline value as a covariate.||18.07|-1.77|0.1053
92448406|NCT00727857|184783893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.0806||95.0|-0.2|3.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||3.1|-0.2|0.0806
92448407|NCT00727857|184783893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1|||<|0.0001||95.0|-9.6|-6.5|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-6.5|-9.6|<0.0001
92448408|NCT00727857|184783893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.5|||<|0.0001||95.0|-11.1|-7.9|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-7.9|-11.1|<0.0001
92448409|NCT00727857|184783894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.73||||0.0324||95.0|0.31|7.14|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||7.14|0.31|0.0324
92448410|NCT00727857|184783894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.78||||0.0233||95.0|-7.05|-0.52|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.52|-7.05|0.0233
92448411|NCT00727857|184783894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.51|||<|0.0001||95.0|-10.9|-4.12|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-4.12|-10.90|<0.0001
92448412|NCT00727857|184783895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9||||0.0993||95.0|-0.93|10.72|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||10.72|-0.93|0.0993
92448413|NCT00727857|184783895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.56||||0.367||95.0|-8.14|3.01|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||3.01|-8.14|0.3670
92448414|NCT00727857|184783895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.46||||0.0119||95.0|-13.26|-1.66|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-1.66|-13.26|0.0119
92448415|NCT00727857|184783896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.31||||0.0423||95.0|-8.48|-0.15|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.15|-8.48|0.0423
92448416|NCT00727857|184783896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1|||<|0.0001||95.0|-12.08|-4.12|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-4.12|-12.08|<0.0001
92448417|NCT00727857|184783896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.79||||0.728||95.0|-7.93|0.35|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.35|-7.93|0.728
92448418|NCT00727857|184783897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.9231||95.0|-7.94|8.76|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||8.76|-7.94|0.9231
92448419|NCT00727857|184783897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.16||||0.3082||95.0|-3.86|12.19|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||12.19|-3.86|0.3082
92448420|NCT00727857|184783897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75||||0.3753||95.0|-4.56|12.07|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||12.07|-4.56|0.3753
92172290|NCT04927065|184234978|OTHER||SRR Difference|9.2|||||TWO_SIDED|97.5|1.4|17.0|||||SARS-CoV-2 (D614G) nAb at Day 91: Part G versus Part F (Cohort 2) mRNA-1273|||17.0|1.4|
92448421|NCT00727857|184783898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.4||||0.4999||95.0|-44.6|91.4|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with a term for treatment and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||91.4|-44.6|0.4999
92448422|NCT00727857|184783898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.2||||0.0531||95.0|-0.9|129.3|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with a term for treatment and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||129.3|-0.9|0.0531
92448423|NCT00727857|184783898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.9||||0.2369||95.0|-26.9|108.7|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with a term for treatment and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||108.7|-26.9|0.2369
92448424|NCT00727857|184783899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.5023||95.0|-0.09|0.19|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.19|-0.09|0.5023
92448425|NCT00727857|184783899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.0001||95.0|-0.48|-0.21|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.21|-0.48|<0.0001
92448426|NCT00727857|184783899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.0001||95.0|-0.53|-0.25|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.25|-0.53|<0.0001
92448427|NCT00727857|184783900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.7||||0.2849||95.0|-16.5|55.9|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||55.9|-16.5|0.2849
92448428|NCT00727857|184783900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-77.6|||<|0.0001||95.0|-112.4|-42.8|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-42.8|-112.4|<0.0001
92448429|NCT00727857|184783900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-97.3|||<|0.0001||95.0|-133.4|-61.2|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-61.2|-133.4|<0.0001
92448430|NCT00727857|184783901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3||||0.2894||95.0|-4.5|15.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||15.1|-4.5|0.2894
92448431|NCT00727857|184783901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.8463||95.0|-10.3|8.5|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||8.5|-10.3|0.8463
92448432|NCT00727857|184783901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.2||||0.2124||95.0|-16.0|3.6|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||3.6|-16.0|0.2124
92448433|NCT00727857|184783902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.804||95.0|-19.4|15.0|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||15.0|-19.4|0.8040
92448434|NCT00727857|184783902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.5||||0.0008||95.0|12.0|45.0|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||45.0|12.0|0.0008
92448435|NCT00727857|184783902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.6||||0.0005||95.0|13.4|47.8|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||47.8|13.4|0.0005
92172291|NCT04927065|184234978|OTHER||SRR Difference|10.1|||||TWO_SIDED|95.0|3.0|17.2|||||SARS-CoV-2 (D614G) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||17.2|3.0|
92240631|NCT02433210|184384637|SUPERIORITY|||||||1||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||1.000
92240632|NCT02433210|184384637|SUPERIORITY|||||||0.713|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||0.713
92240633|NCT02433210|184384637|SUPERIORITY||||||=|0.424|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.424
92448436|NCT00727857|184783903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.9604||95.0|-83.3|79.2|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||79.2|-83.3|0.9604
92448437|NCT00727857|184783903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|140.3||||0.0004||95.0|62.5|218.0|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||218.0|62.5|0.0004
92448438|NCT00727857|184783903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|142.3||||0.0006||95.0|61.3|223.3|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||223.3|61.3|0.0006
92448439|NCT00727857|184783904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.9922||95.0|-64.4|65.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||65.1|-64.4|0.9922
92448440|NCT00727857|184783904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|111.7||||0.0004||95.0|49.7|173.7|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||173.7|49.7|0.0004
92448441|NCT00727857|184783904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|111.4||||0.0008||95.0|46.8|175.9|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||175.9|46.8|0.0008
92448442|NCT00727857|184783905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.0072||95.0|-1.86|-0.29|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.29|-1.86|0.0072
92448443|NCT00727857|184783905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.3682||95.0|-0.41|1.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.10|-0.41|0.3682
92448444|NCT00727857|184783905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.42||||0.0004||95.0|0.64|2.2|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||2.20|0.64|0.0004
92448445|NCT00727857|184783906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.1986||95.0|-0.02|0.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.10|-0.02|0.1986
92448446|NCT00727857|184783906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.1487||95.0|-0.1|0.02|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.02|-0.10|0.1487
92448447|NCT00727857|184783906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.0076||95.0|-0.14|-0.02|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.02|-0.14|0.0076
92448448|NCT00727857|184783907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.2384||95.0|-0.21|0.83|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.83|-0.21|0.2384
92448449|NCT00727857|184783907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.4617||95.0|-0.69|0.31|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.31|-0.69|0.4617
92448450|NCT00727857|184783907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0593||95.0|-1.02|0.02|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.02|-1.02|0.0593
92448451|NCT00727857|184783908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.5044||95.0|-0.54|1.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.10|-0.54|0.5044
92448452|NCT00727857|184783908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.43||||0.0004||95.0|-2.22|-0.64|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.64|-2.22|0.0004
92448453|NCT00727857|184783908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71|||<|0.0001||95.0|-2.53|-0.89|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.89|-2.53|<0.0001
92448454|NCT00727857|184783909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.0017||95.0|-2.64|-0.62|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.62|-2.64|0.0017
92240634|NCT02433210|184384637|SUPERIORITY||||||=|0.23|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.230
92240635|NCT02433210|184384637|SUPERIORITY||||||=|0.678|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.678
92448455|NCT00727857|184783909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97|||<|0.0001||95.0|1.01|2.94|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||2.94|1.01|<0.0001
92448456|NCT00727857|184783909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6|||<|0.0001||95.0|2.59|4.61|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||4.61|2.59|<0.0001
92448457|NCT00727857|184783910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.76||||0.2466||95.0|-2.61|10.14|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||10.14|-2.61|0.2466
92448458|NCT00727857|184783910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.52||||0.0063||95.0|-14.63|-2.42|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-2.42|-14.63|0.0063
92448459|NCT00727857|184783910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.29||||0.0002||95.0|-18.65|-5.93|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-5.93|-18.65|0.0002
92448460|NCT00727857|184783911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15||||0.2069||95.0|-2.93|0.64|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.64|-2.93|0.2069
92448461|NCT00727857|184783911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44||||0.0052||95.0|0.73|4.15|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||4.15|0.73|0.0052
92448462|NCT00727857|184783911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.59|||<|0.0001||95.0|1.81|5.36|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||5.36|1.81|<0.0001
92448463|NCT00727857|184783912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.609||95.0|-1.28|0.75|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.75|-1.28|0.6090
92448464|NCT00727857|184783912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.6169||95.0|-1.22|0.72|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.72|-1.22|0.6169
92448465|NCT00727857|184783912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.974||95.0|-0.99|1.03|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.03|-0.99|0.9740
92448466|NCT00727857|184783913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06||||0.615||95.0|-3.09|5.21|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||5.21|-3.09|0.6150
92448467|NCT00727857|184783913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.41||||0.2346||95.0|-6.38|1.57|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.57|-6.38|0.2346
92448468|NCT00727857|184783913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47||||0.1001||95.0|-7.61|0.67|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.67|-7.61|0.1001
92448469|NCT00727857|184783914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.86||||0.1217||95.0|-0.76|6.48|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||6.48|-0.76|0.1217
92448470|NCT00727857|184783914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9||||0.0009||95.0|-9.36|-2.44|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-2.44|-9.36|0.0009
92448471|NCT00727857|184783914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.76|||<|0.0001||95.0|-12.36|-5.16|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-5.16|-12.36|<0.0001
92448472|NCT01469065|184783915|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|84.87|||||TWO_SIDED|90.0|78.16|92.15||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test. Formal statistical inference was not performed thus p value was not reported.||92.15|78.16|
92240636|NCT02433210|184384637|SUPERIORITY||||||=|0.643|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.643
92240637|NCT02433210|184384637|SUPERIORITY||||||=|0.43|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.430
92240638|NCT02433210|184384637|SUPERIORITY||||||=|0.295|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.295
92448473|NCT01469065|184783915|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|89.8|||||TWO_SIDED|90.0|82.69|97.53||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||97.53|82.69|
92448474|NCT01469065|184783915|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|87.15|||||TWO_SIDED|90.0|80.27|94.63||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||94.63|80.27|
92448475|NCT01469065|184783915|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|78.28|||||TWO_SIDED|90.0|72.06|85.03||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||85.03|72.06|
92448476|NCT01469065|184783928|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|82.69|||||TWO_SIDED|90.0|76.06|89.9||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 13) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||89.90|76.06|
92448477|NCT01469065|184783928|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|85.39|||||TWO_SIDED|90.0|78.6|92.77||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 13) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||92.77|78.60|
92448478|NCT01469065|184783928|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|85.37|||||TWO_SIDED|90.0|78.59|92.76||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 13) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||92.76|78.59|
92448479|NCT01469065|184783928|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|75.82|||||TWO_SIDED|90.0|69.78|82.39||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 13) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||82.39|69.78|
92172292|NCT04927065|184234978|OTHER||SRR Difference|4.3|||||TWO_SIDED|95.0|-5.0|13.6|||||SARS-CoV-2 (D614G) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||13.6|-5.0|
92240639|NCT02433210|184384637|SUPERIORITY||||||=|0.723|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.723
92240640|NCT02433210|184384637|SUPERIORITY||||||=|0.749|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.749
92448480|NCT01469065|184783928|SUPERIORITY_OR_OTHER||Difference between Test and Reference|-35.84|||||TWO_SIDED|90.0|-52.89|-18.78||||||Treatment difference and 90% confidence interval (CI) were based on adjusted geometric mean.||-18.78|-52.89|
92240641|NCT02433210|184384637|SUPERIORITY||||||=|0.967|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.967
92448481|NCT01469065|184783929|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|86.72|||||TWO_SIDED|90.0|81.13|92.7||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Glucose AUC(2-6) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||92.70|81.13|
92448482|NCT01469065|184783929|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|91.13|||||TWO_SIDED|90.0|85.24|97.44||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Glucose AUC(2-6) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||97.44|85.24|
92448483|NCT01469065|184783929|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|87.05|||||TWO_SIDED|90.0|81.44|93.04||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Glucose AUC(2-6) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||93.04|81.44|
92448484|NCT01469065|184783929|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|77.95|||||TWO_SIDED|90.0|72.91|83.34||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Glucose AUC(2-6) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||83.34|72.91|
92448485|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 2|100.04|||||TWO_SIDED|90.0|92.7|107.96||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 2 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||107.96|92.70|
92448486|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 2|99.44|||||TWO_SIDED|90.0|92.04|107.43||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 2 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||107.43|92.04|
92448487|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 2|101.67|||||TWO_SIDED|90.0|94.1|109.84||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 2 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||109.84|94.10|
92448488|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 2|96.82|||||TWO_SIDED|90.0|89.69|104.52||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 2 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||104.52|89.69|
92448489|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 3|95.85|||||TWO_SIDED|90.0|88.82|103.44||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 3 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||103.44|88.82|
92448490|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 3|98.71|||||TWO_SIDED|90.0|91.37|106.64||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 3 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||106.64|91.37|
92448491|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 3|99.72|||||TWO_SIDED|90.0|92.3|107.73||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 3 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||107.73|92.30|
92448492|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 3|94.49|||||TWO_SIDED|90.0|87.53|102.1||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 3 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||102.10|87.53|
92448493|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 6|93.43|||||TWO_SIDED|90.0|86.5|100.91||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 6 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||100.91|86.50|
92240642|NCT02433210|184384638|SUPERIORITY||||||=|0.67|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.670
92448494|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 6|92.71|||||TWO_SIDED|90.0|85.81|100.15||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 6 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||100.15|85.81|
92448495|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 6|94.08|||||TWO_SIDED|90.0|87.08|101.64||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 6 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||101.64|87.08|
92448496|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 6|87.74|||||TWO_SIDED|90.0|81.2|94.81||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 6 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||94.81|81.20|
92448497|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 10|96.91|||||TWO_SIDED|90.0|89.72|104.67||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 10 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||104.67|89.72|
92448498|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 10|96.05|||||TWO_SIDED|90.0|88.9|103.76||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 10 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||103.76|88.90|
92448499|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 10|99.63|||||TWO_SIDED|90.0|92.21|107.64||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 10 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||107.64|92.21|
92448500|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 10|94.5|||||TWO_SIDED|90.0|87.46|102.11||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 10 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||102.11|87.46|
92448501|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 14|86.75|||||TWO_SIDED|90.0|80.32|93.69||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 14 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||93.69|80.32|
92448502|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 14|87.87|||||TWO_SIDED|90.0|81.34|94.93||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 14 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||94.93|81.34|
92448503|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 14|91.35|||||TWO_SIDED|90.0|84.55|98.7||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 14 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||98.70|84.55|
92448504|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 14|88.6|||||TWO_SIDED|90.0|82.0|95.74||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 14 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||95.74|82.00|
92448505|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 15|90.45|||||TWO_SIDED|90.0|83.75|97.69||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 15 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||97.69|83.75|
92448506|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 15|90.45|||||TWO_SIDED|90.0|84.03|98.08||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 15 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||98.08|84.03|
92240643|NCT02433210|184384638|SUPERIORITY||||||=|0.993|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.993
92448507|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 15|94.75|||||TWO_SIDED|90.0|87.69|102.34||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 15 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||102.34|87.69|
92448508|NCT01469065|184783930|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 15|93.18|||||TWO_SIDED|90.0|86.17|100.77||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 15 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||100.77|86.17|
92448509|NCT01469065|184783931|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|112.83|||||TWO_SIDED|90.0|99.84|127.5||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Insulin AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||127.50|99.84|
92448510|NCT01469065|184783931|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|102.11|||||TWO_SIDED|90.0|90.78|114.85||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Insulin AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||114.85|90.78|
92448511|NCT01469065|184783931|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|111.04|||||TWO_SIDED|90.0|98.5|125.18||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Insulin AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||125.18|98.50|
92448512|NCT01469065|184783931|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|96.73|||||TWO_SIDED|90.0|85.46|109.48||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Insulin AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||109.48|85.46|
92448513|NCT01469065|184783932|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|107.13|||||TWO_SIDED|90.0|98.69|116.3||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in C-peptide AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||116.30|98.69|
92448514|NCT01469065|184783932|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|92.57|||||TWO_SIDED|90.0|85.26|100.5||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in C-peptide AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||100.50|85.26|
92448515|NCT01469065|184783932|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|96.07|||||TWO_SIDED|90.0|88.51|104.27||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in C-peptide AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||104.27|88.51|
92240644|NCT02433210|184384638|SUPERIORITY||||||=|0.65|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.650
92448516|NCT01469065|184783932|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|91.7|||||TWO_SIDED|90.0|84.38|99.65||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in C-peptide AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||99.65|84.38|
92448517|NCT04542070|184783934|NON_INFERIORITY|Non-inferiority concluded if the upper limit of a two-sided 95% confidence interval for the difference in percentage of participants with HIV-1 RNA ≥ 50 c/mL at Month 12 (OLI and BIK)/Month 11 (D2I) between the two treatment arms (Q2M - BIK) is less than 4%.|Difference in percentage|0.9|||||TWO_SIDED|95.0|-0.5|2.2|||||Difference in percentage = percentage of Q2M - percentage of BIK|||2.2|-0.5|
92448518|NCT04542070|184783934|NON_INFERIORITY|Non-inferiority concluded if the upper limit of a two-sided 95% confidence interval for the difference in percentage of participants with HIV-1 RNA ≥ 50 c/mL at Month 12 (OLI and BIK)/Month 11 (D2I) between the two treatment arms (Q2M - BIK) is less than 4%.|Adjusted difference in percentage|0.9|||||TWO_SIDED|95.0|-0.5|2.2|||||Adjusted difference in percentage = percentage of Q2M - percentage of BIK. Based on cochran-mantel haenszel stratified analysis was adjusted for the baseline stratification factors gender at birth and baseline BMI.|||2.2|-0.5|
92448519|NCT04542070|184783935|NON_INFERIORITY|Non-inferiority concluded if the upper limit of a two-sided 95% confidence interval for the difference in percentage of participants with HIV-1 RNA ≥ 50 c/mL at Month 12 (OLI and BIK)/Month 11 (D2I) between the two treatment arms (Q2M - BIK) is less than 4%.|Difference in percentage|0.7|||||TWO_SIDED|95.0|-0.6|2.0|||||Difference in percentage = percentage of Q2M - percentage of BIK|||2.0|-0.6|
92448520|NCT04542070|184783935|NON_INFERIORITY|Non-inferiority concluded if the upper limit of a two-sided 95% confidence interval for the difference in percentage of participants with HIV-1 RNA ≥ 50 c/mL at Month 12 (OLI and BIK)/Month 11 (D2I) between the two treatment arms (Q2M - BIK) is less than 4%.|Adjusted difference in percentage|0.7|||||TWO_SIDED|95.0|-0.7|2.0|||||Adjusted difference in percentage = percentage of Q2M - percentage of BIK. Based on cochran-mantel haenszel stratified analysis was adjusted for the baseline stratification factors gender at birth and baseline BMI.|||2.0|-0.7|
92448521|NCT00600821|184784043|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.093||||0.639|TWO_SIDED|95.0|0.679|1.761||One-sided log-rank test at alpha = 0.20 significance level was used.|Log Rank|||Differences in PFS between treatment arms was analyzed by 1-sided log rank test, stratified by gender and prior adjuvant therapy.||1.761|0.679|0.639
92448522|NCT00600821|184784044|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.117||||0.699|TWO_SIDED|95.0|0.739|1.689||One-sided log-rank test at alpha = 0.20 significance level was used.|Log Rank|||Differences in OS between treatment arms was analyzed by 1-sided log rank test, stratified by gender and prior adjuvant therapy.||1.689|0.739|0.699
92448523|NCT00600821|184784045|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.676||||0.9422|TWO_SIDED|95.0|0.412|1.107|||Cochran-Mantel-Haenszel|||P-value was calculated using 1-sided Cochran-Mantel-Haenszel test stratified by gender and prior adjuvant therapy. Risk ratio in comparison to the Bevacizumab group was calculated assuming all other factors as constant.||1.107|0.412|0.9422
92448524|NCT02066298|184784119|SUPERIORITY|||||||0.14|||||||exact binomial test|a priori threshold for significance was 0.025||The null hypothesis was that, among those participants for which either mometasone is not equal to placebo, the proportion for which mometasone is superior to placebo is equal to the proportion for which placebo is superior to mometasone. The trial was designed to provide power of 0.85 for a 0.20 difference between the proportions being compared at a significance level of 0.025.||||0.14
92448525|NCT02066298|184784119|SUPERIORITY|||||||0.029||||||a priori threshold for significance was 0.025|exact binomial test|||The null hypothesis was that, among those participants for which either tiotropium is not equal to placebo, the proportion for which tiotropium is superior to placebo is equal to the proportion for which placebo is superior to tiotropium. The trial was designed to provide power of 0.85 for a 0.20 difference between the proportions being compared at a significance level of 0.025.||||0.029
92448526|NCT02066298|184784119|SUPERIORITY|||||||0.001||||||this analysis is considered exploratory|exact binomial test|||The null hypothesis was that, among those participants for which either mometasone is not equal to placebo, the proportion for which mometasone is superior to placebo is equal to the proportion for which placebo is superior to mometasone. This was an exploratory analysis and there were no power considerations.||||0.001
92448527|NCT02066298|184784119|SUPERIORITY|||||||0.45||||||this analysis is considered exploratory|exact binomial test|||The null hypothesis was that, among those participants for which either tiotropium is not equal to placebo, the proportion for which tiotropium is superior to placebo is equal to the proportion for which placebo is superior to tiotropium. This was an exploratory analysis and there were no power considerations.||||0.45
92448528|NCT02033889|184784139|SUPERIORITY||Difference in Least Squares Means|-0.88|||<|0.001|TWO_SIDED|95.0|-1.05|-0.71|||Constrained Longitudinal Data Analysis||||Based on Constrained Longitudinal Data Analysis (cLDA) model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another anti-hyperglycemic agent, AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-0.71|-1.05|<0.001
92448529|NCT02033889|184784139|SUPERIORITY||Difference in Least Squares Means|-0.7|||<|0.001|TWO_SIDED|95.0|-0.87|-0.53|||Constrained Longitudinal Data Analysis||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another anti-hyperglycemic agent, AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-0.53|-0.87|<0.001
92280666|NCT02129348|184464053|SUPERIORITY||Treatment Effect Difference|0.2||||0.63|TWO_SIDED|95.0|-0.4|0.8||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||0.8|-0.4|0.63
92448530|NCT02033889|184784141|OTHER||Difference in % vs Placebo/Glimepiride|1.5|||||TWO_SIDED|95.0|-2.1|5.4|||||||Miettinen \& Nurminen method was used to construct the 95% CI|5.4|-2.1|
92448531|NCT02033889|184784141|OTHER||Difference in % vs Placebo/Glimepiride|1.0|||||TWO_SIDED|95.0|-2.5|4.7|||||||Miettinen \& Nurminen method was used to construct the 95% CI|4.7|-2.5|
92172293|NCT04927065|184234980|OTHER||GMR|1.818|||||TWO_SIDED|95.0|1.469|2.249|||||SARS-CoV-2 (D614G) nAb: Part H versus Part F (Cohort 2) mRNA-1273|||2.249|1.469|
92172294|NCT04927065|184234982|OTHER||SRR Difference|0.0|||||TWO_SIDED|95.0|-2.6|2.5|||||SARS-CoV-2 (D614G) nAb: Part H versus Part F (Cohort 2) mRNA-1273|||2.5|-2.6|
92448532|NCT02033889|184784142|SUPERIORITY||Difference in Least Squares Means|-38.25|||<|0.001|TWO_SIDED|95.0|-44.5|-31.99|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-31.99|-44.50|<0.001
92448533|NCT02033889|184784142|SUPERIORITY||Difference in the Least Squares Means|-26.69|||<|0.001|TWO_SIDED|95.0|-32.9|-20.48|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-20.48|-32.90|<0.001
92448534|NCT02033889|184784143|SUPERIORITY||Difference in Least Squares Means|-1.6|||<|0.001|TWO_SIDED|95.0|-2.16|-1.03|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-1.03|-2.16|<0.001
92448535|NCT02033889|184784143|SUPERIORITY||Difference in Least Squares Means|-1.67|||<|0.001|TWO_SIDED|95.0|-2.24|-1.11|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-1.11|-2.24|<0.001
92448536|NCT02033889|184784144|SUPERIORITY||Adjusted Odds Ratio Relative to Placebo|4.48|||<|0.001|TWO_SIDED|95.0|2.64|7.62|||Regression, Logistic||||Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), menopausal status, covariates for baseline A1C and baseline eGFR (continuous). Missing data imputed using a multiple imputation procedure based on cLDA prediction modeling with fixed effects as in the primary analysis, which allows for participants with missing data to be included in the analysis.|7.62|2.64|<0.001
92448537|NCT02033889|184784144|SUPERIORITY||Adjusted Odds Ratio Relative to Placebo|3.03|||<|0.001|TWO_SIDED|95.0|1.81|5.06|||Regression, Logistic||||Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), menopausal status, covariates for baseline A1C and baseline eGFR (continuous). Missing data imputed using a multiple imputation procedure based on cLDA prediction modeling with fixed effects as in the primary analysis, which allows for participants with missing data to be included in the analysis.|5.06|1.81|<0.001
92448538|NCT02033889|184784145|SUPERIORITY||Difference in Least Squares Means|-4.5|||<|0.001|TWO_SIDED|95.0|-6.81|-2.19|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-2.19|-6.81|<0.001
92448539|NCT02033889|184784145|SUPERIORITY||Difference in Least Squares Means|-3.68||||0.002|TWO_SIDED|95.0|-5.96|-1.39|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-1.39|-5.96|0.002
92448540|NCT02033889|184784146|SUPERIORITY||Difference in Least Squares Means|-2.42||||0.001|TWO_SIDED|95.0|-3.86|-0.98|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-0.98|-3.86|0.001
92448541|NCT02033889|184784146|SUPERIORITY||Difference in Least Squares Means|-1.82||||0.013|TWO_SIDED|95.0|-3.24|-0.39|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-0.39|-3.24|0.013
92448542|NCT02033889|184784147|SUPERIORITY||Adjusted Odds Ratio|5.41|||<|0.001|TWO_SIDED|95.0|2.1|13.9|||Regression, Logistic||||Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), menopausal status, covariates for baseline A1C and baseline eGFR (continuous). Missing data imputed using a multiple imputation procedure based on cLDA prediction modeling with fixed effects as in the primary analysis, which allows for participants with missing data to be included in the analysis.|13.90|2.10|<0.001
92172295|NCT04927065|184234984|OTHER||SRR Difference|25.5|||||TWO_SIDED|95.0|16.9|34.1|||||SARS-CoV-2 (D614G) nAb: Part H versus Part F (Cohort 2) mRNA-1273|||34.1|16.9|
92172296|NCT04927065|184234985|OTHER||SRR Difference|5.0|||||TWO_SIDED|95.0|0.3|9.8|||||Omicron BA.1 Variant (B.1.1.529) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||9.8|0.3|
92172297|NCT04927065|184234985|OTHER||SRR Difference|5.6|||||TWO_SIDED|95.0|-0.3|11.5|||||Omicron BA.1 Variant (B.1.1.529) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||11.5|-0.3|
92172298|NCT04927065|184234986|OTHER||SRR Difference|14.5|||||TWO_SIDED|95.0|6.7|22.3|||||Omicron BA.1 Variant (B.1.1.529) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||22.3|6.7|
92172299|NCT04927065|184234986|OTHER||SRR Difference|8.0|||||TWO_SIDED|95.0|-2.1|18.0|||||Omicron BA.1 Variant (B.1.1.529) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||18.0|-2.1|
92172300|NCT04927065|184234987|OTHER||GMR|1.637|||||TWO_SIDED|95.0|1.243|2.155|||||SARS-CoV-2 (B.1.1.529) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||2.155|1.243|
92172301|NCT04927065|184234987|OTHER||GMR|1.373|||||TWO_SIDED|95.0|0.953|1.976|||||SARS-CoV-2 (B.1.1.529) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||1.976|0.953|
92172302|NCT04927065|184234987|OTHER||GMR|1.271|||||TWO_SIDED|95.0|1.051|1.537|||||SARS-CoV-2 (D614G) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||1.537|1.051|
92448543|NCT02033889|184784147|SUPERIORITY||Adjusted Odds Ratio|3.1||||0.023|TWO_SIDED|95.0|1.17|8.22|||Regression, Logistic||||Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), menopausal status, covariates for baseline A1C and baseline eGFR (continuous). Missing data imputed using a multiple imputation procedure based on cLDA prediction modeling with fixed effects as in the primary analysis, which allows for participants with missing data to be included in the analysis.|8.22|1.17|0.023
92448544|NCT02033889|184784148|SUPERIORITY||Difference in % vs Placebo|-16.2|||<|0.001|TWO_SIDED|95.0|-22.2|-11.2|||Miettinen & Nurminen method|Miettinen \& Nurminen method was used to construct both the 95% CI and derive p-value for the difference between the proportions (i.e. percentages).||||-11.2|-22.2|<0.001
92448545|NCT02033889|184784148|SUPERIORITY||Difference in % vs Placebo|-14.8|||<|0.001|TWO_SIDED|95.0|-20.9|-9.4|||Miettinen & Nurminen method.|Miettinen \& Nurminen method was used to construct both the 95% CI and derive p-value for the difference between the proportions (i.e. percentages).||||-9.4|-20.9|<0.001
92448546|NCT02033889|184784167|OTHER||Difference in the Least Squares Means|-0.1|||||TWO_SIDED|95.0|-0.71|0.5|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.50|-0.71|
92448547|NCT02033889|184784167|OTHER||Difference in the Least Squares Means|-0.23|||||TWO_SIDED|97.0|-0.83|0.37|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.37|-0.83|
92448548|NCT02033889|184784168|OTHER||Difference in the Least Squares Means|0.7|||||TWO_SIDED|95.0|0.0|1.39|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|1.39|0.00|
92448549|NCT02033889|184784168|OTHER||Difference in the Least Squares Means|0.3|||||TWO_SIDED|95.0|-0.38|0.99|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.99|-0.38|
92448550|NCT02033889|184784169|OTHER||Difference in the Least Squares Means|0.27|||||TWO_SIDED|95.0|-0.15|0.68|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.68|-0.15|
92448551|NCT02033889|184784169|OTHER||Difference in the Least Squares Means|0.08|||||TWO_SIDED|95.0|-0.33|0.48|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.48|-0.33|
92448552|NCT02033889|184784170|OTHER||Difference in the Least Squares Means|-0.19|||||TWO_SIDED|95.0|-0.76|0.39|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.39|-0.76|
92448553|NCT02033889|184784170|OTHER||Difference in the Least Squares Means|-0.21|||||TWO_SIDED|95.0|-0.78|0.35|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.35|-0.78|
92448554|NCT02033889|184784174|OTHER||Difference in the Least Squares Means|0.17|||||TWO_SIDED|95.0|-0.53|0.88|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.88|-0.53|
92172303|NCT04927065|184234987|OTHER||GMR|1.101|||||TWO_SIDED|95.0|0.83|1.461|||||SARS-CoV-2 (D614G) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||1.461|0.830|
92172304|NCT05767437|184234999|EQUIVALENCE|effect size of 0.02, α \< 0.05, power = 0.02|Mean Difference (Net)|1.63||||0.98|TWO_SIDED|95.0|-55.79|59.05|||Mixed Models Analysis|||||59.05|-55.79|0.98
92172305|NCT05767437|184235000|EQUIVALENCE|an effect size of 0.00, α \< 0.05, power = 0.00|Mean Difference (Net)|0.0||||0.99|TWO_SIDED|95.0|-1.25|1.24|||Mixed Models Analysis|||||1.24|-1.25|0.99
92172306|NCT05767437|184235001|EQUIVALENCE|an effect size of 0.56 , α \< 0.05, power = 32.5|Mean Difference (Net)|6.71||||0.68|TWO_SIDED|95.0|-24.12|10.71|||Mixed Models Analysis|||||10.71|-24.12|0.68
92172307|NCT05767437|184235002|EQUIVALENCE|Analysis population description: patients were randomly assigned to either Group A or Group B|Mean Difference (Net)|0.2||||0.56|TWO_SIDED|95.0|-0.48|0.87|||Mixed Models Analysis|||an effect size of 0.24, α \< 0.05, power = 24.5||0.87|-0.48|0.56
92280667|NCT02129348|184464054|SUPERIORITY||Treatment Effect Difference|3.2||||0.24|TWO_SIDED|95.0|-2.1|8.4||The threshold of statistical significance was p = 0.05.|Mixed Models Analysis||Effect size (d)= 0.44 (Cohen's D)|In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||8.4|-2.1|0.24
92287166|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.197|TWO_SIDED|95.0|-0.021|0.101|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.101|-0.021|0.197
92448555|NCT02033889|184784174|OTHER||Difference in the Least Squares Means|-0.18|||||TWO_SIDED|97.0|-0.88|0.51|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.51|-0.88|
92448556|NCT02033889|184784175|OTHER||Difference in the Least Squares Means|0.25|||||TWO_SIDED|95.0|-0.48|0.98|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.98|-0.48|
92448557|NCT02033889|184784175|OTHER||Difference in the Least Squares Means|0.2|||||TWO_SIDED|95.0|-0.51|0.91|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.91|-0.51|
92448558|NCT02033889|184784176|OTHER||Difference in the Least Squares Means|-0.5|||||TWO_SIDED|95.0|-0.95|-0.04|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-0.04|-0.95|
92448559|NCT02033889|184784176|OTHER||Difference in the Least Squares Means|-0.22|||||TWO_SIDED|95.0|-0.66|0.23|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.23|-0.66|
92448560|NCT02033889|184784177|OTHER||Difference in the Least Squares Means|0.06|||||TWO_SIDED|95.0|-0.61|0.72|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.72|-0.61|
92448561|NCT02033889|184784177|OTHER||Difference in the Least Squares Means|-0.15|||||TWO_SIDED|95.0|-0.78|0.49|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.49|-0.78|
92448562|NCT02033889|184784181|OTHER||Difference in the Least Squares Means|-0.23|||||TWO_SIDED|95.0|-1.01|0.56|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.56|-1.01|
92448563|NCT02033889|184784181|OTHER||Difference in the Least Squares Means|-0.28|||||TWO_SIDED|97.0|-1.06|0.5|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.50|-1.06|
92448564|NCT02033889|184784182|OTHER||Difference in the Least Squares Means|0.27|||||TWO_SIDED|95.0|-0.58|1.13|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|1.13|-0.58|
92448565|NCT02033889|184784182|OTHER||Difference in the Least Squares Means|0.12|||||TWO_SIDED|95.0|-0.7|0.93|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.93|-0.70|
92448566|NCT02033889|184784183|OTHER||Difference in the Least Squares Means|-0.84|||||TWO_SIDED|95.0|-1.44|-0.24|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-0.24|-1.44|
92448567|NCT02033889|184784183|OTHER||Difference in the least Squares Means|-0.54|||||TWO_SIDED|95.0|-1.12|0.05|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.05|-1.12|
92448568|NCT02033889|184784184|OTHER||Difference in the Least Squares Means|-0.06|||||TWO_SIDED|95.0|-0.77|0.65|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.65|-0.77|
92448569|NCT02033889|184784184|OTHER||Difference in the Least Squares Means|0.18|||||TWO_SIDED|95.0|-0.5|0.85|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.85|-0.50|
92448570|NCT02391948|184784245|OTHER||mean population value age 12|98.3|||||TWO_SIDED|95.0|97.8|98.6||||||||98.6|97.8|
92448571|NCT02391948|184784245|OTHER||mean population value age 12|89.1|||||TWO_SIDED|95.0|86.6|91.1||||||||91.1|86.6|
92448572|NCT02391948|184784245|OTHER||mean population value age 12|50.1|||||TWO_SIDED|95.0|46.5|53.6||||||||53.6|46.5|
92448573|NCT02391948|184784245|OTHER||mean population value age 12|25.3|||||TWO_SIDED|95.0|23.7|27.0||||||||27.0|23.7|
92448574|NCT02391948|184784245|OTHER||mean population value age 12|6.48|||||TWO_SIDED|95.0|5.66|7.38||||||||7.38|5.66|
92448575|NCT02391948|184784246|OTHER||mean population value age 12|0.44|||||TWO_SIDED|95.0|0.38|0.49||||||||0.49|0.38|
92448576|NCT02391948|184784246|OTHER||mean population value age 12|0.68|||||TWO_SIDED|95.0|0.6|0.77||||||||0.77|0.60|
92448577|NCT02391948|184784246|OTHER||mean population value age 12|0.93|||||TWO_SIDED|95.0|0.79|1.07||||||||1.07|0.79|
92448578|NCT02391948|184784246|OTHER||mean population value age 12|1.38|||||TWO_SIDED|95.0|1.22|1.54||||||||1.54|1.22|
92448579|NCT02391948|184784246|OTHER||mean population value age 12|2.16|||||TWO_SIDED|95.0|2.01|2.31||||||||2.31|2.01|
92448580|NCT02391948|184784247|OTHER||mean population value|4.49|||||TWO_SIDED|95.0|4.43|4.54||||||||4.54|4.43|
92448581|NCT02391948|184784247|OTHER||mean population value|4.1|||||TWO_SIDED|95.0|3.99|4.2||||||||4.20|3.99|
92448582|NCT02391948|184784247|OTHER||mean population value|3.99|||||TWO_SIDED|95.0|3.75|4.25||||||||4.25|3.75|
92280668|NCT02129348|184464055|SUPERIORITY||Treatment Effect Difference|0.0||||0.96|TWO_SIDED|95.0|-1.7|1.8||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Cohen's d=0.01|In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||1.8|-1.7|0.96
92172308|NCT05767437|184235003|EQUIVALENCE|an effect size of 0.56, α \< 0.05, power = 57.9|Mean Difference (Net)|-250.35||||0.42|TWO_SIDED|95.0|-614.88|114.18||Interaction of Assessment and Group|Mixed Models Analysis|||||114.18|-614.88|0.42
92448583|NCT02391948|184784247|OTHER||mean population value|2.95|||||TWO_SIDED|95.0|2.73|3.19||||||||3.19|2.73|
92448584|NCT02391948|184784247|OTHER||mean population value|1.59|||||TWO_SIDED|95.0|1.44|1.75||||||||1.75|1.44|
92448585|NCT02391948|184784248|OTHER||mean population value|1362.3|||||TWO_SIDED|95.0|1313.6|1410.7||||||||1410.7|1313.6|
92448586|NCT02391948|184784248|OTHER||mean population value|1096.33|||||TWO_SIDED|95.0|1028.8|1158.62||||||||1158.62|1028.80|
92448587|NCT02391948|184784248|OTHER||mean population value|592.62|||||TWO_SIDED|95.0|533.79|652.72||||||||652.72|533.79|
92448588|NCT02391948|184784249|OTHER||mean population value|3.99|||||TWO_SIDED|95.0|3.91|4.07||||||||4.07|3.91|
92448589|NCT02391948|184784249|OTHER||mean population value|3.49|||||TWO_SIDED|95.0|3.39|3.6||||||||3.60|3.39|
92448590|NCT02391948|184784249|OTHER||mean population value|3.23|||||TWO_SIDED|95.0|3.08|3.37||||||||3.37|3.08|
92448591|NCT02391948|184784249|OTHER||mean population value|2.8|||||TWO_SIDED|95.0|2.67|2.93||||||||2.93|2.67|
92448592|NCT02391948|184784249|OTHER||mean population value|1.79|||||TWO_SIDED|95.0|1.67|1.91||||||||1.91|1.67|
92448593|NCT02391948|184784250|OTHER||mean population value|0.59|||||TWO_SIDED|9.0|0.47|0.72||||||||0.72|0.47|
92448594|NCT02391948|184784250|OTHER||mean population value|1.1|||||TWO_SIDED|95.0|0.91|1.3||||||||1.30|0.91|
92448595|NCT02391948|184784250|OTHER||mean population value|0.68|||||TWO_SIDED|95.0|0.48|0.89||||||||0.89|0.48|
92448596|NCT02391948|184784250|OTHER||mean population value|1.38|||||TWO_SIDED|95.0|1.12|1.65||||||||1.65|1.12|
92448597|NCT02391948|184784250|OTHER||mean population value|2.33|||||TWO_SIDED|95.0|2.08|2.6||||||||2.60|2.08|
92448598|NCT02391948|184784251|OTHER||mean population value age 12|70.6|||||TWO_SIDED|95.0|69.1|72.0||||||||72.0|69.1|
92448599|NCT02391948|184784251|OTHER||mean population value age 12|62.1|||||TWO_SIDED|95.0|59.4|65.0||||||||65.0|59.4|
92448600|NCT02391948|184784251|OTHER||mean population value age 12|62.9|||||TWO_SIDED|95.0|60.9|65.0||||||||65.0|60.9|
92172309|NCT05767437|184235004|EQUIVALENCE|an effect size of 0.29, α \< 0.05, power = 88.9|Mean Difference (Net)|12.25||||0.45|TWO_SIDED|95.0|-18.67|43.17|||Mixed Models Analysis|||||43.17|-18.67|0.45
92448601|NCT02391948|184784251|OTHER||mean population value age 12|58.2|||||TWO_SIDED|95.0|56.7|59.7||||||||59.7|56.7|
92448602|NCT02391948|184784251|OTHER||mean population value age 12|51.9|||||TWO_SIDED|95.0|50.2|53.6||||||||53.6|50.2|
92448603|NCT02391948|184784252|OTHER||mean population value age 12|78.3|||||TWO_SIDED|95.0|76.0|80.4||||||||80.4|76.0|
92448604|NCT02391948|184784252|OTHER||mean population value age 12|66.1|||||TWO_SIDED|95.0|63.5|68.5||||||||68.5|63.5|
92448605|NCT02391948|184784252|OTHER||mean population value age 12|60.5|||||TWO_SIDED|95.0|57.3|63.3|||mean population value age 12|||||63.3|57.3|
92448606|NCT02391948|184784252|OTHER||mean population value age 12|37.9|||||TWO_SIDED|95.0|35.6|40.3||||||||40.3|35.6|
92448607|NCT02391948|184784252|OTHER||mean population value age 12|14.5|||||TWO_SIDED|95.0|12.4|16.5||||||||16.5|12.4|
92448608|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.46|||||TWO_SIDED|95.0|1.06|2.02|||||Data from all GMFCS levels was used, country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in family-centredness outcome.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor family-centred service.||2.02|1.06|
92448609|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|1.07|2.03|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor parents' perception of needs being met.||2.03|1.07|
92448610|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.96|1.38|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in the amount of focus on environment.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor degree of focus on environment (assistive devices, equipment, home/school modifications).||1.38|0.96|
92448611|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|1.07|1.58|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in focus on participation.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor focus on participation (structured play/recreation/leisure activities).||1.58|1.07|
92448612|NCT02391948|184784253|OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.72|1.58|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in amount of physical therapy services.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor amount of physical therapy services.||1.58|0.72|
92448613|NCT02391948|184784253|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.74|1.28|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in amount of occupational therapy services.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor amount of occupational therapy.||1.28|0.74|
92448614|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.97|1.6|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in amount of speech and language therapy.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor amount of speech and language therapy.||1.60|0.97|
92240645|NCT02433210|184384638|SUPERIORITY||||||=|0.299|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.299
92448615|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.37|||||TWO_SIDED|95.0|1.0|1.88|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor family-centred service.||1.88|1.00|
92448616|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.78|1.44|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor family-centred service.||1.44|0.78|
92448617|NCT02391948|184784253|OTHER||Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.54|1.26|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor family-centred service.||1.26|0.54|
92448618|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.37|||||TWO_SIDED|95.0|1.0|1.87|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor parents' perception of needs being met.||1.87|1.00|
92448619|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.83|1.53|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor parents' perception of needs being met.||1.53|0.83|
92448620|NCT02391948|184784253|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.59|1.3|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor parents' perception of needs being met.||1.3|0.59|
92448621|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.9|1.29|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor degree of focus on environment (assistive devices, equipment, home/school modifications).||1.29|0.9|
92448622|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.86|1.22||||||Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor degree of focus on environment (assistive devices, equipment, home/school modifications).||1.22|0.86|
92448623|NCT02391948|184784253|OTHER||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.7|1.13|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor degree of focus on environment (assistive devices, equipment, home/school modifications).||1.13|0.7|
92448624|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.09|||||TWO_SIDED|95.0|0.9|1.31|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor focus on participation (structured play/recreation/leisure activities).||1.31|0.9|
92240646|NCT02433210|184384638|SUPERIORITY||||||=|0.659|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.659
92240647|NCT02433210|184384638|SUPERIORITY||||||=|0.176|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.176
92240648|NCT02433210|184384638|SUPERIORITY||||||=|0.853|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.853
92448625|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.91|1.32|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor focus on participation (structured play/recreation/leisure activities).||1.32|0.91|
92448626|NCT02391948|184784253|OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.76|1.24|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor focus on participation (structured play/recreation/leisure activities).||1.24|0.76|
92240649|NCT02433210|184384638|SUPERIORITY||||||=|0.494|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.494
92240650|NCT02433210|184384638|SUPERIORITY||||||=|0.631|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.631
92448627|NCT02391948|184784253|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.7|1.15|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor amount of physical therapy services.||1.15|.7|
92448628|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.74|1.48|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor amount of physical therapy services.||1.48|.74|
92448629|NCT02391948|184784253|OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.72|1.21|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life -Self Care outcome for the predictor amount of occupational therapy.||1.21|.72|
92448630|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.89|1.5|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor amount of occupational therapy.||1.5|.89|
92448631|NCT02391948|184784253|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.65|1.38|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor amount of occupational therapy.||1.38|.65|
92448632|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.81|1.31|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor amount of speech and language therapy.||1.31|.81|
92448633|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.87|1.39|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor amount of speech and language therapy.||1.39|.87|
92448634|NCT02391948|184784253|OTHER||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.6|1.25|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor amount of speech and language therapy.||1.25|.6|
92172310|NCT05767437|184235005|EQUIVALENCE|an effect size of 0.18, α \< 0.05, power =6.5|mean rank (Z)|0.18||||0.67|TWO_SIDED|95.0|-0.61|0.96||MAS of Biceps|Wilcoxon (Mann-Whitney)|||||0.96|-0.61|0.67
92240651|NCT02433210|184384638|SUPERIORITY||||||=|0.37|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.370
92448635|NCT02391948|184784253|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.92|1.53|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor amount of physical therapy services.||1.53|.92|
92448636|NCT02391948|184784257|OTHER||population average|2319.0|||||TWO_SIDED|95.0|1460.0|3218.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||3218|1460|
92448637|NCT02391948|184784257|OTHER||population average|1858.0|||||TWO_SIDED|95.0|1233.0|2530.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||2530|1233|
92448638|NCT02391948|184784258|OTHER||population average|5240.0|||||TWO_SIDED|95.0|3874.0|6670.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||6670|3874|
92448639|NCT02391948|184784258|OTHER||population average|4319.0|||||TWO_SIDED|95.0|3258.0|5443.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||5443|3258|
92448640|NCT02391948|184784259|OTHER||population average|108.0|||||TWO_SIDED|95.0|67.0|151.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||151|67|
92448641|NCT02391948|184784259|OTHER||population average|100.0|||||TWO_SIDED|95.0|58.0|145.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||145|58|
92448642|NCT02391948|184784259|OTHER||population average|10.0|||||TWO_SIDED|95.0|0.0|35.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model. This analysis combined children in GMFCS Levels III-V.||35|0|
92448643|NCT02391948|184784260|OTHER||population average|2815.0|||||TWO_SIDED|95.0|2025.0|3650.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||3650|2025|
92448644|NCT02391948|184784260|OTHER||population average|3109.0|||||TWO_SIDED|95.0|2502.0|3739.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||3739|2502|
92448645|NCT02391948|184784260|OTHER||population average|1056.0|||||TWO_SIDED|95.0|471.0|1665.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model. This analysis combined children in GMFCS Levels III-V.||1665|471|
92448646|NCT02348489|184784264|SUPERIORITY||Difference in response rate (%)|1.92||||0.482|TWO_SIDED|96.0|-3.67|7.5|||Cochran-Mantel-Haenszel|||The complete response rate was compared between the treatment groups using a Cochran Mantel-Haenszel (CMH) test at an alpha level of 0.04 stratified to adjust for stratification factors used at randomization: age (\<75 or \>=75), Eastern Cooperative Oncology Group (ECOG) performance status (0-1, 2-3), study center region (North American, Europe, Rest of World), and secondary AML (secondary to MDS or other antecedent hematologic disorder) or poor-risk cytogenetics (Yes, No/Unknown).||7.5|-3.67|0.482
92240652|NCT02433210|184384638|SUPERIORITY||||||=|0.95|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.950
92240653|NCT02433210|184384638|SUPERIORITY||||||=|0.377|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.377
92240654|NCT02433210|184384639|SUPERIORITY||||||=|0.534|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.534
92448647|NCT02348489|184784265|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.7328|TWO_SIDED|95.0|0.83|1.14|||Stratified log-rank|||Overall survival curves were estimated using Kaplan-Meier method and compared between the treatment groups using a 2-sided stratification log-rank test, stratified by the same factors used at randomization: age (\<75 or \>=75), Eastern Cooperative Oncology Group (ECOG) performance status (0-1, 2-3), study center region (North American, Europe, Rest of World), and secondary AML (secondary to MDS or other antecedent hematologic disorder) or poor-risk cytogenetics (Yes, No/Unknown).||1.14|0.83|0.7328
92448648|NCT01969838|184784278|NON_INFERIORITY|To evaluate the noninferiority of MMB over RUX, a conventional 2-sided confidence interval (CI) was calculated for the difference in splenic response rate (SRR) at Week 24: delta = prob(MMB) - 0.6\*prob(RUX). If the lower bound of the 2-sided 95% CI for delta was greater than 0, MMB was declared noninferior to RUX in SRR at Week 24. The 2-sided 95% CI of delta was calculated based on stratum-adjusted Cochran-Mantel-Haenszel (CMH) proportions. This is the noninferiority proportion difference.|Proportion Difference - Stratified CMH|0.09||||0.014|TWO_SIDED|95.0|0.02|0.16|||Cochran-Mantel-Haenszel|||||0.16|0.02|0.014
92448649|NCT01969838|184784279|NON_INFERIORITY|To evaluate the noninferiority of MMB over RUX, a conventional 2-sided CI was calculated for the difference in TSS response rate at Week 24: delta = prob(MMB) - 0.67\*prob(RUX). If the lower bound of the 2-sided 95% CI for delta was greater than 0, MMB was declared to be noninferior to RUX in TSS response rate at Week 24. The 2-sided 95% CI of delta was calculated based on stratum-adjusted Cochran-Mantel-Haenszel (CMH) proportions. This is called the noninferiority proportion difference.|Proportion Difference - Stratified CMH|0.0||||0.98|TWO_SIDED|95.0|-0.08|0.08|||Cochran-Mantel-Haenszel|||||0.08|-0.08|0.98
92448650|NCT01969838|184784280|SUPERIORITY||Rate ratio|0.28|||<|0.001|TWO_SIDED|95.0|0.19|0.43|||Negative Binomial Model, Adjusted||A smaller ratio represents larger benefit.|||0.43|0.19|<0.001
92448651|NCT01969838|184784281|SUPERIORITY||Proportion Difference - Stratified CMH|0.18|||<|0.001|TWO_SIDED|95.0|0.09|0.26|||Cochran-Mantel-Haenszel||A larger proportion represents larger benefit.|||0.26|0.09|<0.001
92448652|NCT01969838|184784282|SUPERIORITY||Proportion Difference - Stratified CMH|-0.1||||0.019|TWO_SIDED|95.0|-0.19|-0.02|||Cochran-Mantel-Haenszel||A smaller proportion represents larger benefit.|||-0.02|-0.19|0.019
92448653|NCT00408993|184784283|SUPERIORITY_OR_OTHER|||||||0.617||95.0||||Treatment effects were evaluated based on a two-sided significance level of 0.05 and interaction effects at 0.10. No adjustments for multiple comparisons were made.|ANCOVA|Model=Treatment, Pooled Investigator and Baseline.||With 104 patients per arm, the study has at least 85% power to detect a treatment group difference of -1.20 points in baseline to endpoint mean change on the BPI 24-hour average pain score between Duloxetine and Placebo. Sample size determined using a two-sided t-test with alpha=0.05, and assuming a common standard deviation of 2.5 and a discontinuation rate of 25%.||||0.617
92448654|NCT00408993|184784284|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||P-value for Worst Pain Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.070
92448655|NCT00408993|184784284|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||P-value for Least Pain Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.151
92448656|NCT00408993|184784284|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value for Pain Right Now Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.012
92448657|NCT00408993|184784284|SUPERIORITY_OR_OTHER|||||||0.077||95.0||||P-value for Average Interference Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.077
92448658|NCT00408993|184784285|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.036
92448659|NCT00408993|184784286|SUPERIORITY_OR_OTHER|||||||0.955||95.0||||P-value for Visit 3|Mixed Models Analysis|Repeated Measures: Model=Treatment, Pooled Investigator, Visit, Baseline, baseline MDD status, Treatment\*Visit and Baseline\*Visit.||||||0.955
92448660|NCT00408993|184784286|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for Visit 4|Mixed Models Analysis|Repeated Measures: Model=Treatment, Pooled Investigator, Visit, Baseline, baseline MDD status, Treatment\*Visit and Baseline\*Visit.||||||0.004
92448661|NCT00408993|184784286|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value for Visit 5|Mixed Models Analysis|Repeated Measures: Model=Treatment, Pooled Investigator, Visit, Baseline, baseline MDD status, Treatment\*Visit and Baseline\*Visit.||||||0.037
92448662|NCT00408993|184784286|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Visit 6|Mixed Models Analysis|Repeated Measures: Model=Treatment, Pooled Investigator, Visit, Baseline, baseline MDD status, Treatment\*Visit and Baseline\*Visit.||||||<0.001
92448663|NCT00408993|184784286|SUPERIORITY_OR_OTHER|||||||0.028||95.0||||P-value for Visit 7|Mixed Models Analysis|Repeated Measures: Model=Treatment, Pooled Investigator, Visit, Baseline, baseline MDD status, Treatment\*Visit and Baseline\*Visit.||||||0.028
92448664|NCT00408993|184784287|SUPERIORITY_OR_OTHER|||||||0.207||95.0|||||ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.207
92448665|NCT00408993|184784288|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Fisher Exact|||||||0.008
92280669|NCT02129348|184464056|SUPERIORITY||Treatment Effect Difference|2.2||||0.35|TWO_SIDED|95.0|-2.3|6.6||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Cohen's d=0.35|In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||6.6|-2.3|0.35
92448666|NCT00408993|184784290|SUPERIORITY_OR_OTHER|||||||0.364||95.0||||P-value for 5-Item Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.364
92448667|NCT00408993|184784290|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||P-value for 8-Item Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.590
92448668|NCT00408993|184784291|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANOVA|Model=Treatment and Pooled Investigator||||||0.620
92448669|NCT00408993|184784292|SUPERIORITY_OR_OTHER|||||||0.324||95.0|||||ANOVA|Model=Treatment and Pooled Investigator||||||0.324
92448670|NCT00408993|184784293|SUPERIORITY_OR_OTHER|||||||0.642||95.0||||P-value for Systolic Blood Pressure|ANOVA|Model=Treatment and Pooled Investigator||||||0.642
92448671|NCT00408993|184784293|SUPERIORITY_OR_OTHER|||||||0.601||95.0||||P-value for Diastolic Blood Pressure|ANOVA|Model=Treatment and Pooled Investigator||||||0.601
92448672|NCT00408993|184784294|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||P-value for Chloride|ANOVA|Sums of squares from ANOVA on the ranks: Model=Treatment and Pooled Investigator for treatment effects p-value.||||||0.014
92448673|NCT00408993|184784294|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for High Density Lipoprotein Cholesterol|ANOVA|Sums of squares from ANOVA on the ranks: Model=Treatment and Pooled Investigator for treatment effects p-value.||||||0.005
92448674|NCT00408993|184784294|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for Sodium|ANOVA|Sums of squares from ANOVA on the ranks: Model=Treatment and Pooled Investigator for treatment effects p-value.||||||0.011
92448675|NCT00408993|184784294|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||P-value for triglycerides|ANOVA|Sums of squares from ANOVA on the ranks: Model=Treatment and Pooled Investigator for treatment effects p-value.||||||0.044
92448676|NCT00408993|184784295|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||ANOVA|Sums of squares from ANOVA on the ranks: Model=Treatment and Pooled Investigator for treatment effects p-values.||||||0.017
92448677|NCT04193202|184784296|SUPERIORITY||Estimated difference|0.75||||0.034|TWO_SIDED|95.0|0.06|1.44|||Longitudinal ANCOVA|The model included terms for treatment group, visit, interaction of treatment by visit, gender, and baseline LCQ total score.|The estimated difference is the treatment difference in model based mean change from baseline at Week 12|||1.44|0.06|0.034
92448678|NCT04193202|184784297|OTHER||Estimated Difference|-6.92||||0.006|TWO_SIDED|95.0|-11.88|-1.97||Nominal p value, not controlled for multiplicity|Longitudinal ANCOVA|The model included terms for treatment group, visit, interaction of treatment by visit, gender, and baseline mean weekly cough severity VAS score.|The estimated difference is the treatment difference in model based mean change from baseline at Week 12.|||-1.97|-11.88|0.006
92448679|NCT00436280|184784323|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.512|||||TWO_SIDED|95.0|0.217|1.206|||||Comparing GCB versus non-GCB|Comparing GCB versus non-GCB||1.206|0.217|
92448680|NCT00436280|184784324|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.878|||||TWO_SIDED|95.0|0.388|1.989|||||Comparing High Expression versus Low Expression|Comparing High Expression versus Low Expression||1.989|0.388|
92448681|NCT02595684|184784334|SUPERIORITY|||||||0.327|||||||Wilcoxon (Mann-Whitney)|||||||0.327
92448682|NCT02595684|184784334|SUPERIORITY|||||||0.635|||||||Wilcoxon (Mann-Whitney)|||||||0.635
92448683|NCT02595684|184784335|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.380
92448684|NCT02595684|184784335|SUPERIORITY|||||||0.441|||||||Wilcoxon (Mann-Whitney)|||||||0.441
92448685|NCT02595684|184784336|SUPERIORITY|||||||515|||||||Wilcoxon (Mann-Whitney)|||||||0515
92448686|NCT02595684|184784336|SUPERIORITY|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||||||0.953
92448687|NCT02595684|184784337|SUPERIORITY|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
92448688|NCT02595684|184784337|SUPERIORITY|||||||0.594|||||||Wilcoxon (Mann-Whitney)|||||||0.594
92448689|NCT02595684|184784338|SUPERIORITY|||||||0.767|||||||Wilcoxon (Mann-Whitney)|||||||0.767
92448690|NCT02595684|184784338|SUPERIORITY|||||||0.779|||||||Wilcoxon (Mann-Whitney)|||||||0.779
92448691|NCT02595684|184784339|SUPERIORITY|||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||0.859
92240655|NCT02433210|184384639|SUPERIORITY||||||=|0.578|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.578
92240656|NCT02433210|184384639|SUPERIORITY||||||=|0.225|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.225
92240657|NCT02433210|184384639|SUPERIORITY||||||=|0.125|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.125
92240658|NCT02433210|184384639|SUPERIORITY||||||=|0.466|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.466
92240659|NCT02433210|184384639|SUPERIORITY||||||=|0.534|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.534
92448692|NCT02595684|184784339|SUPERIORITY|||||||0.767|||||||Wilcoxon (Mann-Whitney)|||||||0.767
92448693|NCT02595684|184784340|SUPERIORITY|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||||||0.374
92448694|NCT02595684|184784340|SUPERIORITY|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||||||0.953
92448695|NCT02595684|184784341|SUPERIORITY|||||||0.594|||||||Wilcoxon (Mann-Whitney)|||||||0.594
92448696|NCT02595684|184784341|SUPERIORITY|||||||0.085|||||||Wilcoxon (Mann-Whitney)|||||||0.085
92448697|NCT02595684|184784342|SUPERIORITY|||||||0.594|||||||Wilcoxon (Mann-Whitney)|||||||0.594
92448698|NCT02595684|184784342|SUPERIORITY|||||||0.086|||||||Wilcoxon (Mann-Whitney)|||||||0.086
92448699|NCT02595684|184784343|SUPERIORITY|||||||0.285|||||||Wilcoxon (Mann-Whitney)|||||||0.285
92448700|NCT02595684|184784343|SUPERIORITY|||||||0.854|||||||Wilcoxon (Mann-Whitney)|||||||0.854
92448701|NCT02595684|184784344|SUPERIORITY|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||||||0.374
92240660|NCT02433210|184384639|SUPERIORITY||||||=|0.584|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.584
92448702|NCT02595684|184784344|SUPERIORITY|||||||0.263|||||||Wilcoxon (Mann-Whitney)|||||||0.263
92448703|NCT02595684|184784345|SUPERIORITY|||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||0.859
92448704|NCT02595684|184784345|SUPERIORITY|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||||||0.374
92448705|NCT02595684|184784346|SUPERIORITY|||||||0.722|||||||Wilcoxon (Mann-Whitney)|||||||0.722
92448706|NCT02595684|184784346|SUPERIORITY|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||||||0.953
92448707|NCT02595684|184784347|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.260
92448708|NCT02595684|184784347|SUPERIORITY|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
92448709|NCT02595684|184784348|SUPERIORITY|||||||0.058|||||||Wilcoxon (Mann-Whitney)|||||||0.058
92448710|NCT02595684|184784348|SUPERIORITY|||||||0.952|||||||Wilcoxon (Mann-Whitney)|||||||0.952
92448711|NCT02595684|184784349|SUPERIORITY|||||||0.128|||||||Wilcoxon (Mann-Whitney)|||||||0.128
92448712|NCT02595684|184784349|SUPERIORITY|||||||0.108|||||||Wilcoxon (Mann-Whitney)|||||||0.108
92448713|NCT02595684|184784350|SUPERIORITY|||||||0.092|||||||Wilcoxon (Mann-Whitney)|||||||0.092
92448714|NCT02595684|184784350|SUPERIORITY|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||||||0.374
92448715|NCT03160703|184784351|SUPERIORITY||Mean Difference (Net)|-0.02||||0.2681|TWO_SIDED|95.0|-0.05|0.01||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.01|-0.05|0.2681
92448716|NCT03160703|184784351|SUPERIORITY||Mean Difference (Net)|-0.05||||0.0043|TWO_SIDED|95.0|-0.08|-0.02||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||-0.02|-0.08|0.0043
92448717|NCT03160703|184784351|SUPERIORITY||Mean Difference (Net)|-0.08|||<|0.0001|TWO_SIDED|95.0|-0.12|-0.05||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||-0.05|-0.12|<.0001
92448718|NCT03160703|184784351|SUPERIORITY||Mean Difference (Final Values)|-0.11|||<|0.0001|TWO_SIDED|95.0|-0.15|-0.08||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||-0.08|-0.15|<.0001
92448719|NCT03160703|184784351|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.0779|TWO_SIDED|95.0|0.0|0.06||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.06|-0.00|0.0779
92448720|NCT03160703|184784351|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.0001|TWO_SIDED|95.0|0.03|0.1||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.10|0.03|0.0001
92448721|NCT00047463|184784371|SUPERIORITY_OR_OTHER|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that the groups would be similar in tolerance. This was a pilot study so we did not do a power calculation.||||0.26
92448722|NCT02214147|184784418|OTHER|The effect of hepatic impairment on alisertib PK. Combined analysis of moderate and severe hepatic impairment in reference to normal hepatic function.|Least Squares Geometric Mean Ratio|1.42|||||TWO_SIDED|90.0|1.12|1.8|||||Least Squares Geometric Means Ratio= Moderate + Severe Hepatic Impairment/Normal Hepatic Function|||1.80|1.12|
92448723|NCT02214147|184784419|OTHER|The effect of hepatic impairment on alisertib PK. Combined analysis of moderate and severe hepatic impairment in reference to normal hepatic function.|Least Squares Geometric Mean Ratio|3.21|||||TWO_SIDED|90.0|2.33|4.43|||||Least Squares Geometric Mean Ratio=Moderate + Severe Hepatic Impairment/Normal Hepatic Function|||4.43|2.33|
92448724|NCT02214147|184784420|OTHER|The effect of hepatic impairment on alisertib PK. Combined analysis of moderate and severe hepatic impairment in reference to normal hepatic function.|Least Squares Geometric Mean Ratio|2.54|||||TWO_SIDED|90.0|1.84|3.53|||||Least Squares Geometric Mean Ratio=Moderate + Severe Hepatic Impairment/Normal Hepatic Function|||3.53|1.84|
92448725|NCT05421078|184784448|SUPERIORITY||Least Squares (LS) Means|-25.84|STANDARD_ERROR_OF_MEAN|5.387|<|0.0001|TWO_SIDED|95.0|-36.53|-15.14||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-15.14|-36.53|<.0001
92240661|NCT02433210|184384639|SUPERIORITY||||||=|0.981|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.981
92448726|NCT05421078|184784448|SUPERIORITY||Least Squares (LS) Means|-33.34|STANDARD_ERROR_OF_MEAN|5.378|<|0.0001|TWO_SIDED|95.0|-44.01|-22.66||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.66|-44.01|<.0001
92448727|NCT05421078|184784448|SUPERIORITY||Least Squares (LS) Means|-36.12|STANDARD_ERROR_OF_MEAN|5.323|<|0.0001|TWO_SIDED|95.0|-46.68|-25.55||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-25.55|-46.68|<.0001
92448728|NCT05421078|184784449|SUPERIORITY||Least Squares (LS) Means|-25.84|STANDARD_ERROR_OF_MEAN|5.387|<|0.0001|TWO_SIDED|95.0|-36.53|-15.14|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||p value is calculated||-15.14|-36.53|<.0001
92448729|NCT05421078|184784449|SUPERIORITY||Least Squares (LS) Means|-33.34|STANDARD_ERROR_OF_MEAN|5.378|<|0.0001|TWO_SIDED|95.0|-44.01|-22.66||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.66|-44.01|<.0001
92448730|NCT05421078|184784449|SUPERIORITY||Least Squares (LS) Means|-36.12|STANDARD_ERROR_OF_MEAN|5.323|<|0.0001|TWO_SIDED|95.0|-46.68|-25.55||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-25.55|-46.68|<.0001
92448731|NCT05421078|184784450|SUPERIORITY||Least Squares (LS) Means|-25.84|STANDARD_ERROR_OF_MEAN|5.387|<|0.0001|TWO_SIDED|95.0|-36.53|-15.14||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-15.14|-36.53|<.0001
92448732|NCT05421078|184784450|SUPERIORITY||Least Squares (LS) Means|-33.34|STANDARD_ERROR_OF_MEAN|5.378|<|0.0001|TWO_SIDED|95.0|-44.01|-22.66||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.66|-44.01|<.0001
92448733|NCT05421078|184784450|SUPERIORITY||Least Squares (LS) Means|-36.12|STANDARD_ERROR_OF_MEAN|5.323|<|0.0001|TWO_SIDED|95.0|-46.68|-25.55||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-25.55|-46.68|<.0001
92448734|NCT05421078|184784451|SUPERIORITY||Least Squares (LS) Means|-27.2|STANDARD_ERROR_OF_MEAN|5.626|<|0.0001|TWO_SIDED|95.0|-38.37|-16.04||p value is calculated|ANCOVA|||||-16.04|-38.37|<.0001
92448735|NCT05421078|184784451|SUPERIORITY||Least Squares (LS) Means|-31.23|STANDARD_ERROR_OF_MEAN|5.609|<|0.0001|TWO_SIDED|95.0|-42.36|-20.1||p value is calculated|ANCOVA|||||-20.10|-42.36|<.0001
92172311|NCT05767437|184235006|EQUIVALENCE|an effect size of 0.39, α \< 0.05, power = 16.2|Mean Difference (Net)|-6.63||||0.38|TWO_SIDED|95.0|-19.38|6.12|||t-test, 2 sided|||||6.12|-19.38|0.38
92240662|NCT02433210|184384639|SUPERIORITY||||||=|0.568|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.568
92448736|NCT05421078|184784451|SUPERIORITY||Least Squares (LS) Means|-36.81|STANDARD_ERROR_OF_MEAN|5.55|<|0.0001|TWO_SIDED|95.0|-47.83|-25.8||p value is calculated|ANCOVA|||||-25.80|-47.83|<.0001
92448737|NCT05421078|184784452|SUPERIORITY||Least Squares (LS) Means|-27.2|STANDARD_ERROR_OF_MEAN|5.626|<|0.0001|TWO_SIDED|95.0|-38.37|-16.04||p value is calculated|ANCOVA|||||-16.04|-38.37|<.0001
92448738|NCT05421078|184784452|SUPERIORITY||Least Squares (LS) Means|-31.23|STANDARD_ERROR_OF_MEAN|5.609|<|0.0001|TWO_SIDED|95.0|-42.36|-20.1||p value is calculated|ANCOVA|||||-20.10|-42.36|<.0001
92448739|NCT05421078|184784452|SUPERIORITY||Least Squares (LS) Means|-36.81|STANDARD_ERROR_OF_MEAN|5.55|<|0.0001|TWO_SIDED|95.0|-47.83|-25.8||p value is calculated|ANCOVA|||||-25.80|-47.83|<.0001
92448740|NCT05421078|184784453|SUPERIORITY||Least Squares (LS) Means|-27.2|STANDARD_ERROR_OF_MEAN|5.626|<|0.0001|TWO_SIDED|95.0|-38.37|-16.04||p value is calculated|ANCOVA|||||-16.04|-38.37|<.0001
92448741|NCT05421078|184784453|SUPERIORITY||Least Squares (LS) Means|-31.23|STANDARD_ERROR_OF_MEAN|5.609|<|0.0001|TWO_SIDED|95.0|-42.36|-20.1||p value is calculated|ANCOVA|||||-20.10|-42.36|<.0001
92448742|NCT05421078|184784453|SUPERIORITY||Least Squares (LS) Means|-36.81|STANDARD_ERROR_OF_MEAN|5.55|<|0.0001|TWO_SIDED|95.0|-47.83|-25.8||p value is calculated|ANCOVA|||||-25.80|-47.83|<.0001
92448743|NCT05421078|184784454|SUPERIORITY||Least Squares (LS) Means|-19.0|STANDARD_ERROR_OF_MEAN|3.439|<|0.0001|TWO_SIDED|95.0|-25.83|-12.18||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-12.18|-25.83|<.0001
92448744|NCT05421078|184784454|SUPERIORITY||Least Squares (LS) Means|-22.45|STANDARD_ERROR_OF_MEAN|3.441|<|0.0001|TWO_SIDED|95.0|-29.28|-15.62||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-15.62|-29.28|<.0001
92448745|NCT05421078|184784454|SUPERIORITY||Least Squares (LS) Means|-24.86|STANDARD_ERROR_OF_MEAN|3.406|<|0.0001|TWO_SIDED|95.0|-31.62|-18.1||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.10|-31.62|<.0001
92448746|NCT05421078|184784455|SUPERIORITY||Least Squares (LS) Means|-19.0|STANDARD_ERROR_OF_MEAN|3.439|<|0.0001|TWO_SIDED|95.0|-25.83|-12.18||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-12.18|-25.83|<.0001
92448747|NCT05421078|184784455|SUPERIORITY||Least Squares (LS) Means|-22.45|STANDARD_ERROR_OF_MEAN|3.441|<|0.0001|TWO_SIDED|95.0|-29.28|-15.62||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-15.62|-29.28|<.0001
92448748|NCT05421078|184784455|SUPERIORITY||Least Squares (LS) Means|-24.86|STANDARD_ERROR_OF_MEAN|3.406|<|0.0001|TWO_SIDED|95.0|-31.62|-18.1||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.10|-31.62|<.0001
92448749|NCT05421078|184784456|SUPERIORITY||Least Squares (LS) Means|-19.0|STANDARD_ERROR_OF_MEAN|3.439|<|0.0001|TWO_SIDED|95.0|-25.83|-12.18||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-12.18|-25.83|<.0001
92448750|NCT05421078|184784456|SUPERIORITY||Least Squares (LS) Means|-22.45|STANDARD_ERROR_OF_MEAN|3.441|<|0.0001|TWO_SIDED|95.0|-29.28|-15.62||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-15.62|-29.28|<.0001
92448751|NCT05421078|184784456|SUPERIORITY||Least Squares (LS) Means|-24.86|STANDARD_ERROR_OF_MEAN|3.406|<|0.0001|TWO_SIDED|95.0|-31.62|-18.1||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.10|-31.62|<.0001
92448752|NCT05421078|184784457|SUPERIORITY||Least Squares (LS) Means|-23.94|STANDARD_ERROR_OF_MEAN|4.85|<|0.0001|TWO_SIDED|95.0|-33.56|-14.31||p value is calculated|Mixed Models Analysis|||||-14.31|-33.56|<.0001
92448753|NCT05421078|184784457|SUPERIORITY||Least Squares (LS) Means|-28.39|STANDARD_ERROR_OF_MEAN|4.849|<|0.0001|TWO_SIDED|95.0|-38.01|-18.76||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.76|-38.01|<.0001
92448754|NCT05421078|184784457|SUPERIORITY||Least Squares (LS) Means|-28.55|STANDARD_ERROR_OF_MEAN|4.801|<|0.0001|TWO_SIDED|95.0|-38.08|-19.03||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.03|-38.08|<.0001
92448755|NCT05421078|184784458|SUPERIORITY||Least Squares (LS) Means|-23.94|STANDARD_ERROR_OF_MEAN|4.85|<|0.0001|TWO_SIDED|95.0|-33.56|-14.31||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.31|-33.56|<.0001
92448756|NCT05421078|184784458|SUPERIORITY||Least Squares (LS) Means|-28.39|STANDARD_ERROR_OF_MEAN|4.849|<|0.0001|TWO_SIDED|95.0|-38.01|-18.76||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.76|-38.01|<.0001
92448757|NCT05421078|184784458|SUPERIORITY||Least Squares (LS) Means|-28.55|STANDARD_ERROR_OF_MEAN|4.801|<|0.0001|TWO_SIDED|95.0|-38.08|-19.03||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.03|-38.08|<.0001
92448758|NCT05421078|184784459|SUPERIORITY||Least Squares (LS) Means|-23.94|STANDARD_ERROR_OF_MEAN|4.85|<|0.0001|TWO_SIDED|95.0|-33.56|-14.31||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.31|-33.56|<.0001
92448759|NCT05421078|184784459|SUPERIORITY||Least Squares (LS) Means|-28.39|STANDARD_ERROR_OF_MEAN|4.849|<|0.0001|TWO_SIDED|95.0|-38.01|-18.76||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.76|-38.01|<.0001
92448760|NCT05421078|184784459|SUPERIORITY||Least Squares (LS) Means|-28.55|STANDARD_ERROR_OF_MEAN|4.801|<|0.0001|TWO_SIDED|95.0|-38.08|-19.03||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.03|-38.08|<.0001
92448761|NCT05421078|184784460|SUPERIORITY||Least Squares (LS) Means|133.11|STANDARD_ERROR_OF_MEAN|10.205|<|0.0001|TWO_SIDED|95.0|112.85|153.36||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||153.36|112.85|<.0001
92448762|NCT05421078|184784460|SUPERIORITY||Least Squares (LS) Means|147.41|STANDARD_ERROR_OF_MEAN|10.195|<|0.0001|TWO_SIDED|95.0|127.17|167.64||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||167.64|127.17|<.0001
92448763|NCT05421078|184784460|SUPERIORITY||Least Squares (LS) Means|155.98|STANDARD_ERROR_OF_MEAN|10.1|<|0.0001|TWO_SIDED|95.0|135.93|176.02||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||176.02|135.93|<.0001
92448764|NCT05421078|184784461|SUPERIORITY||Least Squares (LS) Means|133.11|STANDARD_ERROR_OF_MEAN|10.205|<|0.0001|TWO_SIDED|95.0|112.85|153.36||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||153.36|112.85|<.0001
92448765|NCT05421078|184784461|SUPERIORITY||Least Squares (LS) Means|147.41|STANDARD_ERROR_OF_MEAN|10.195|<|0.0001|TWO_SIDED|95.0|127.17|167.64||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||167.64|127.17|<.0001
92448766|NCT05421078|184784461|SUPERIORITY||Least Squares (LS) Means|155.98|STANDARD_ERROR_OF_MEAN|10.1|<|0.0001|TWO_SIDED|95.0|135.93|176.02||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||176.02|135.93|<.0001
92448767|NCT05421078|184784462|SUPERIORITY||Least Squares (LS) Means|133.11|STANDARD_ERROR_OF_MEAN|10.205|<|0.0001|TWO_SIDED|95.0|112.85|153.36||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||153.36|112.85|<.0001
92448768|NCT05421078|184784462|SUPERIORITY||Least Squares (LS) Means|147.41|STANDARD_ERROR_OF_MEAN|10.195|<|0.0001|TWO_SIDED|95.0|127.17|167.64||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||167.64|127.17|<.0001
92448769|NCT05421078|184784462|SUPERIORITY||Least Squares (LS) Means|155.98|STANDARD_ERROR_OF_MEAN|10.1|<|0.0001|TWO_SIDED|95.0|135.93|176.02||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||176.02|135.93|<.0001
92448770|NCT05944250|184784490|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||||||0.21
92448771|NCT05944250|184784494|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Wounds that reach \>50% healing from baseline per investigator assessment at Month 1||||1
92448772|NCT05944250|184784494|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Wounds that reach \>50% healing from baseline per investigator assessment at Month 2||||1
92448773|NCT05944250|184784494|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Wounds that reach \>50% healing from baseline per investigator assessment at Month 3||||1
92448774|NCT05944250|184784494|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||Wounds that reach \>50% healing from baseline per investigator assessment at Month 4||||0.15
92448775|NCT05944250|184784495|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Wounds that reach \>70% healing from baseline per investigator assessment at Month 1||||1
92448776|NCT05944250|184784495|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Wounds that reach \>70% healing from baseline per investigator assessment at Month 2||||1
92448777|NCT05944250|184784495|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||Wounds that reach \>70% healing from baseline per investigator assessment at Month 3||||0.59
92448778|NCT05944250|184784495|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Wounds that reach \>70% healing from baseline per investigator assessment at Month 4||||0.09
92448779|NCT00086580|184784496|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61|||<|0.001|TWO_SIDED|95.0|0.467|0.795|||Regression, Cox|Cox proportional hazards model was stratified by Rai Stage Group||||0.795|0.467|<0.001
92448780|NCT00086580|184784497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.178|TWO_SIDED|95.0|-0.03|0.15||P-value presented is adjusted for multiple tests using Hochberg procedure for 3 clinically important secondary endpoints: ORR, CR rates and OS.|Cochran-Mantel-Haenszel|CMH chi-square test for a difference in overall response rates between treatments stratified by Rai Stage Group.|Difference and confidence interval (CI) calculated using the recommended method by Altman et al.|Comparison of Overall Response.||0.15|-0.03|0.178
92240663|NCT02433210|184384639|SUPERIORITY||||||=|0.24|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.240
92448781|NCT00086580|184784497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.018|TWO_SIDED|95.0|0.02|0.15||P-value presented is adjusted for multiple tests using Hochberg procedure for 3 clinically important secondary endpoints: ORR, CR rates and OS.|Cochran-Mantel-Haenszel|CMH chi-square test for a difference in complete response rates between treatments stratified by Rai Stage Group.|Difference and confidence interval (CI) calculated using the recommended method by Altman et al.|Comparison of complete response (CR).||0.15|0.02|0.018
92448782|NCT00086580|184784498|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.648||||0.042|TWO_SIDED|95.0|0.449|0.937||P-value presented is adjusted for multiple tests using Hochberg procedure for 3 clinically important secondary endpoints: ORR, CR rates and OS.|Regression, Cox|Cox proportional hazards model stratified by Rai Stage Group||||0.937|0.449|0.042
92448783|NCT00086580|184784499|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.562|||<|0.001|TWO_SIDED|95.0|0.42|0.752|||Regression, Cox|Cox regression model stratified by Rai Stage Group.||||0.752|0.420|<0.001
92448784|NCT00086580|184784501|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.718||||0.021|TWO_SIDED|95.0|0.543|0.951|||Regression, Cox|Cox proportional hazards model stratified by Rai Stage Group.||||0.951|0.543|0.021
92448785|NCT00086580|184784509|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.75||||0.102|TWO_SIDED|95.0|0.531|1.059|||Regression, Cox|||||1.059|0.531|0.102
92448786|NCT00086580|184784510|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.443|||<|0.001|TWO_SIDED|95.0|0.292|0.671|||Regression, Cox|||||0.671|0.292|<0.001
92448787|NCT00086580|184784511|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.066||||0.819|TWO_SIDED|95.0|0.619|1.836|||Regression, Cox|Cox proportional hazards model||||1.836|0.619|0.819
92240664|NCT02433210|184384639|SUPERIORITY||||||=|0.724|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.724
92240665|NCT02433210|184384639|SUPERIORITY||||||=|0.445|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.445
92280670|NCT01463683|184464102|NON_INFERIORITY_OR_EQUIVALENCE|Incidence of seroprotection with V232-2XP SC is non-inferior to V232-1XP SC if the lower bound of the 95% confidence interval of the difference is greater than -10%|Difference in percentage of participants|7.6|||||TWO_SIDED|95.0|1.9|13.6|||Miettinen & Nurminen|||||13.6|1.9|
92448788|NCT00086580|184784512|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.416|||<|0.001|TWO_SIDED|95.0|0.25|0.69|||Regression, Cox|Cox proportional hazards model||||0.690|0.250|<0.001
92448789|NCT00086580|184784515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.014|TWO_SIDED|95.0|0.01|0.08|||Cochran-Mantel-Haenszel|CMH chi-square test for a difference in response rates between treatments stratified by Rai Stage Group.||||0.08|0.01|0.014
92448790|NCT03296163|184784520|EQUIVALENCE|"Equivalence analysis was based on the risk ratio (RR) (MB02/EU-approved Avastin) with an equivalence margin predefined \[0.73, 1.36\].~The ORR estimate was stratified using the Cochran-Mantel-Haenszel estimate of the RR and corresponding 2-sided 90% confidence interval (CI)."|Risk Ratio (RR)|0.91|||||TWO_SIDED|90.0|0.78|1.06|||||Direction of comparison is: For RR: MB02/EU-approved Avastin. 95% CI was also calculated: (0.758, 1.092)|||1.060|0.780|
92448791|NCT03296163|184784520|EQUIVALENCE|The ORR estimate was stratified using the Cochran-Mantel-Haenszel estimate of the risk difference (RD) (MB02-EU-approved Avastin) with an equivalence margin predefined \[-12%, 12%\] and corresponding 2-sided 95% CI.|Risk Difference (RD)|-4.02|||||TWO_SIDED|90.0|-10.51|2.47|||||Direction of comparison is: For RD: MB02 - EU-approved Avastin. 95% CI was also calculated: (-11.76, 3.71)|||2.47|-10.51|
92448792|NCT03296163|184784521|OTHER|Hazard ratio of MB02 versus EU-approved Avastin; a hazard ratio =1 indicated no difference in progressive disease(PD)/death between 2 reporting groups; \>1 indicated an increase in PD/death in MB02; \<1 indicated an increase in PD/death in EU-approved Avastin.|Hazard Ratio (HR)|1.187|||||TWO_SIDED|95.0|0.98|1.44||||||||1.44|0.98|
92448793|NCT03296163|184784522|OTHER||Hazard Ratio (HR)|1.108|||||TWO_SIDED|95.0|0.827|1.485||||||||1.485|0.827|
92448794|NCT00558103|184784536|SUPERIORITY_OR_OTHER||Percentage of participants|29.0|||||TWO_SIDED|90.0|17.2|43.3|||||The estimated value represents the percentage of participants with CR and PR.|||43.3|17.2|
92448795|NCT00558103|184784536|SUPERIORITY_OR_OTHER||Percentage of participants|45.0|||||TWO_SIDED|90.0|30.9|59.3|||||The estimated value represents the percentage of participants with CR and PR.|||59.3|30.9|
92448796|NCT00558103|184784536|SUPERIORITY_OR_OTHER||Percentage of participants|47.0|||<|0.001|TWO_SIDED|90.0|32.8|62.1||Comparision of participants receiving lapatanib 1500 mg + placebo to historical control of 10% response rate|t-test, 1 sided||The estimated value represents the percentage of participants receiving lapatanib 1500 mg + placebo with CR and PR.|||62.1|32.8|<0.001
92448797|NCT00558103|184784536|SUPERIORITY_OR_OTHER||Percentage of participants|31.0|||||TWO_SIDED|90.0|11.3|57.3|||||The estimated value represents the percentage of participants with CR and PR.|||57.3|11.3|
92448798|NCT00558103|184784536|SUPERIORITY_OR_OTHER||Percentage of participants|58.0|||<|0.001|TWO_SIDED|90.0|43.3|71.5||Comparision of participants receiving lapatanib 1000 mg + pazopanib 400 mg to 10% historical response rate|t-test, 1 sided||The estimated value represents the percentage of participants receiving lapatanib 1000 mg + pazopanib 400 mg with CR and PR.|||71.5|43.3|<0.001
92448799|NCT00558103|184784536|SUPERIORITY_OR_OTHER||Difference in percentage of participants|11.0||||0.485|TWO_SIDED|90.0|-8.3|29.7|||Fisher Exact||The estimated value represents the percent difference in the percentage of participants with CR and PR.|||29.7|-8.3|0.485
92448800|NCT00558103|184784536|SUPERIORITY_OR_OTHER||Difference in percentage of participants|27.0||||0.116|TWO_SIDED|90.0|2.3|52.0|||Fisher Exact||The estimated value represents the percent difference in the percentage of participants with CR and PR.|||52.0|2.3|0.116
92448801|NCT00308711|184784541|SUPERIORITY_OR_OTHER||Kaplan-Meier|1595.5||||0.974||||||The a priori threshold for statistical significance was 0.05.|Log Rank||This was a Kaplan-Meier analysis of median time to vaginal delivery. Cervidil was compared separately to MVI 100 and MVI 50.|Null hypothesis was that there would be no difference in time to vaginal delivery for MVI 100 compared to time to vaginal delivery for Cervidil.||||0.974
92448802|NCT00308711|184784541|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1977.0||||0.011||95.0|1977.0|2253.0|||Log Rank|||||2253|1977|0.011
92448803|NCT00308711|184784542|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority (NI) margin was within 15% relative to the rate of cesarean section for the comparator (Cervidil 10 mg dinoprostone vaginal insert).|Cox Proportional Hazard|27.8||||0.64||95.0|23.61|32.31|||Fisher Exact|||||32.31|23.61|0.64
92448804|NCT00308711|184784542|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin was rate of cearean section within 15% of Cervidil rate.|Cox Proportional Hazard|28.0||||0.59||95.0|23.86|32.42|||Fisher Exact|||||32.42|23.86|0.59
92448805|NCT01556204|184784550|SUPERIORITY_OR_OTHER|||||||0.71||||||This p-value is from a single comparison between two arms for operative time.|t-test, 2 sided|||Variance estimates for this power analysis were taken from Nezhat C, et al, 2010. We determined that 37 subjects in each arm were needed to detect a difference of ≥ 32 minutes in operating time between conventional and robotic surgery for endometriosis with 80% power and a significance level of 0.05.||||0.71
92448806|NCT01556204|184784551|SUPERIORITY_OR_OTHER|||||||0.53||||||This applies to Row title: Baseline|Mixed Models Analysis|||Secondary analysis for pain at baseline for robotic vs conventional laparoscopy for endometriosis.||||0.53
92448807|NCT01556204|184784551|SUPERIORITY_OR_OTHER|||||||0.53||||||This applies to Row title: 6-weeks|Mixed Models Analysis|||Pain scores at 6 weeks comparison between robotic and laparoscopy.||||0.53
92448808|NCT01556204|184784551|SUPERIORITY_OR_OTHER|||||||0.48||||||This applies to Row title: 6-months|Mixed Models Analysis|||Pain scores at 6 months for robotic vs laparoscopy.||||0.48
92448809|NCT04590495|184784559|SUPERIORITY|||||||0.946|||||||Mann Whitney U Test|||||||0.9460
92448810|NCT04590495|184784560|SUPERIORITY|||||||0.5699|||||||Mann Whitney U Test|||||||0.5699
92448811|NCT04590495|184784561|SUPERIORITY|||||||0.6068|||||||t-test, 2 sided|||||||0.6068
92448812|NCT04590495|184784562|SUPERIORITY|||||||0.903|||||||Mann Whitney U Test|||||||0.9030
92448813|NCT04590495|184784563|SUPERIORITY|||||||0.2668|||||||t-test, 2 sided|||||||0.2668
92448814|NCT04590495|184784564|SUPERIORITY|||||||0.8749||||||adjusted for baseline VAMS score|paired t test|||||||0.8749
92448815|NCT04590495|184784565|SUPERIORITY|||||||0.7922||||||adjusted for baseline VAMS score for physical sedation|paired t test|||||||0.7922
92172312|NCT05592418|184235035|SUPERIORITY||Mean Difference (Final Values)|0.0288||||0.9851|TWO_SIDED|95.0|-3.0397|3.0972|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|||3.0972|-3.0397|0.9851
92448816|NCT04590495|184784566|SUPERIORITY|||||||0.9925||||||adjusted for baseline SSS score|paired t test|||||||0.9925
92448817|NCT04590495|184784567|SUPERIORITY|||||||0.2628||||||adjusted for baseline score|paired t test|||||||0.2628
92448818|NCT04590495|184784568|SUPERIORITY|||||||0.0347||||||adjusted for baseline scores|paired t test|||||||0.0347
92448819|NCT04590495|184784569|SUPERIORITY|||||||0.6331||||||adjusted for baseline score|paired t test|||||||0.6331
92448820|NCT04590495|184784570|SUPERIORITY|||||||0.472||||||adjusted for baseline score|paired t test|||||||0.4720
92448821|NCT04590495|184784571|SUPERIORITY|||||||0.02||||||adjusted for baseline reaction time|paired t test|||||||0.0200
92448822|NCT04590495|184784572|SUPERIORITY|||||||0.062||||||adjusted for baseline reaction time|paired t test|||||||0.0620
92448823|NCT02318693|184784576|SUPERIORITY_OR_OTHER||LS Means Difference|-8.8||||0.245|TWO_SIDED|95.0|-23.8|6.2|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||The comparison was conducted at the α=0.05 (2-sided) significance level.||6.2|-23.8|0.245
92448824|NCT02318693|184784577|SUPERIORITY_OR_OTHER||LS Means Difference|-5.9||||0.029|TWO_SIDED|95.0|-11.3|-0.6|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||The comparison was conducted at the α=0.05 (2-sided) significance level.||-0.6|-11.3|0.029
92448825|NCT02318693|184784578|SUPERIORITY_OR_OTHER||LS Means Difference|-12.8||||0.041|TWO_SIDED|95.0|-25.1|-0.5|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||Comparison: Change from Baseline in Maximum Incremental Postprandial Glucose Levels at Breakfast. The comparison was conducted at the α=0.05 (2-sided) significance level.||-0.5|-25.1|0.041
92448826|NCT02318693|184784578|SUPERIORITY_OR_OTHER||LS Means Difference|-14.3||||0.043|TWO_SIDED|95.0|-28.1|-0.5|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||Comparison: Change from Baseline in Maximum Incremental Postprandial Glucose Levels at Lunch. The comparison was conducted at the α=0.05 (2-sided) significance level.||-0.5|-28.1|0.043
92448827|NCT02318693|184784578|SUPERIORITY_OR_OTHER||LS Means Difference|5.1||||0.509|TWO_SIDED|95.0|-10.3|20.4|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||Comparison: Change from Baseline in Maximum Incremental Postprandial Glucose Levels at Dinner. The comparison was conducted at the α=0.05 (2-sided) significance level.||20.4|-10.3|0.509
92448828|NCT02318693|184784579|SUPERIORITY_OR_OTHER||LS Means Difference|15.7||||0.02|TWO_SIDED|95.0|2.5|28.8|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||The comparison was conducted at the α=0.05 (2-sided) significance level.||28.8|2.5|0.020
92448829|NCT02318693|184784580|SUPERIORITY_OR_OTHER||LS Means Difference|-1.1||||0.134|TWO_SIDED|95.0|-2.5|0.3|||constrained longitudinal analysis model|||Comparison: Change in Baseline in Percentage of Hypoglycemic Values \< 70 mg/dL. The comparison was conducted at the α=0.05 (2-sided) significance level.||0.3|-2.5|0.134
92448830|NCT02318693|184784580|SUPERIORITY_OR_OTHER||LS Means Difference|-0.6||||0.226|TWO_SIDED|95.0|-1.5|0.4|||constrained longitudinal analysis model|||Comparison: Change in Baseline in Percentage of Hypoglycemic Values \< 60 mg/dL. The comparison was conducted at the α=0.05 (2-sided) significance level.||0.4|-1.5|0.226
92448831|NCT02318693|184784580|SUPERIORITY_OR_OTHER||LS Means Difference|0.0||||0.332|TWO_SIDED|95.0|-0.1|0.0|||constrained longitudinal analysis model|||Comparison: Change in Baseline in Percentage of Hypoglycemic Values \< 50 mg/dL. The comparison was conducted at the α=0.05 (2-sided) significance level.||0.0|-0.1|0.332
92448832|NCT03591575|184784581|SUPERIORITY|||||||0.0446|||||||Fisher Exact|||Patients who reached the serum ferritin threshold at any time point prior to Month 12 were withdrawn from the study as per protocol, so that they could begin on standard chelation therapy. For these individuals, imputed data were used to estimate the values that would likely have been seen at Month 12 had they remained in the study.||||0.0446
92448833|NCT03591575|184784582|SUPERIORITY|||||||0.0446||||||he p-value shown here is for the difference between the groups at Month 12.|Fisher Exact|||||||0.0446
92448834|NCT02915744|184784593|OTHER||ESMO-MCBS (v1.0)|1.0|||||TWO_SIDED|||||||||||||
92448835|NCT00813358|184784595|NON_INFERIORITY|NI=7%|KM product-limit estimator|99.1|||||TWO_SIDED|95.0|97.4|100.0||||||||100|97.4|
92448836|NCT04011475|184784614|OTHER|||||||0.0276|||||||Log Rank|||||||0.0276
92448837|NCT04011475|184784614|OTHER||Hazard Ratio (HR)|0.875||||0.6665|TWO_SIDED|95.0|0.47|1.604|||Regression, Cox||Hazard Ratio (HR) was from Cox regression comparing group A versus group B using group B as reference.|||1.604|0.47|0.6665
92448838|NCT04011475|184784614|OTHER||Hazard Ratio (HR)|2.377||||0.031|TWO_SIDED|95.0|1.083|5.221|||Regression, Cox||Hazard Ratio (HR) was from Cox regression comparing group A versus group C using group C as reference.|||5.221|1.083|0.0310
92448839|NCT04011475|184784614|OTHER||Hazard Ratio (HR)|2.716||||0.0116|TWO_SIDED|95.0|1.25|5.901|||Regression, Cox||Hazard Ratio (HR) was from Cox regression comparing group B versus group C using group C as reference.|||5.901|1.250|0.0116
92448840|NCT04011475|184784615|OTHER||Rate ratio|0.67||||0.0756|TWO_SIDED|95.0|0.43|1.04|||Z-test||The rate ratio was from Poisson regression for Group A versus Group B using Group B as the reference group.|||1.04|0.43|0.0756
92448841|NCT04011475|184784615|OTHER||Rate ratio|4.36|||<|0.0001|TWO_SIDED|95.0|2.27|8.4|||Z-test||The rate ratio was from Poisson regression for Group B versus Group C using Group C as the reference group.|||8.40|2.27|< 0.0001
92448842|NCT04011475|184784615|OTHER||Rate ratio|0.34||||0.0022|TWO_SIDED|95.0|0.17|0.68|||Z-test||The rate ratio was from Poisson regression for Group C versus Group A using Group A as the reference group.|||0.68|0.17|0.0022
92448843|NCT04011475|184784616|OTHER||Rate ratio|1.25||||0.7394|TWO_SIDED|95.0|0.34|4.65|||Z-test||The rate ratio was from Poisson regression for Group B versus Group C using Group C as the reference group.|||4.65|0.34|0.7394
92448844|NCT04011475|184784617|OTHER||Rate ratio|0.65||||0.1116|TWO_SIDED|95.0|0.38|1.11|||Z-test||The rate ratio was from Poisson regression for Group A versus Group B using Group B as the reference group.|||1.11|0.38|0.1116
92448845|NCT04011475|184784617|OTHER||Rate ratio|3.78||||0.0004|TWO_SIDED|95.0|1.81|7.88|||Z-test||The rate ratio was from Poisson regression for Group B versus Group C using Group C as the reference group.|||7.88|1.81|0.0004
92172313|NCT05592418|184235036|SUPERIORITY||Mean Difference (Final Values)|-1.9076||||0.3095|TWO_SIDED|95.0|-5.6279|1.8128|||ANCOVA|||||1.8128|-5.6279|0.3095
92172314|NCT05592418|184235037|SUPERIORITY||Mean Difference (Final Values)|0.6086||||0.7663|TWO_SIDED|95.0|-3.4656|4.6829|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|||4.6829|-3.4656|0.7663
92448846|NCT04011475|184784617|OTHER||Rate ratio|0.41||||0.0239|TWO_SIDED|95.0|0.19|0.89|||Z-test||The rate ratio was from Poisson regression for Group C versus Group A using Group A as the reference group.|||0.89|0.19|0.0239
92448847|NCT04011475|184784618|OTHER||Rate ratio|0.71||||0.4164|TWO_SIDED|95.0|0.32|1.61|||Z-test||The rate ratio was from Poisson regression for Group A versus Group B using Group B as the reference group.|||1.61|0.32|0.4164
92448848|NCT04011475|184784618|OTHER||Rate ratio|7.0||||0.01|TWO_SIDED|95.0|1.59|30.8|||Z-test||The rate ratio was from Poisson regression for Group B versus Group C using Group C as the reference group.|||30.8|1.59|0.0100
92448849|NCT04011475|184784618|OTHER||Rate ratio|0.2||||0.0377|TWO_SIDED|95.0|0.04|0.91|||Z-test||The rate ratio was from Poisson regression for Group C versus Group A using Group A as the reference group.|||0.91|0.04|0.0377
92448850|NCT04011475|184784619|OTHER|||||||0.2035|||||||Log Rank|||||||0.2035
92448851|NCT04011475|184784620|OTHER|||||||0.1858|||||||Chi-squared|Chi-square test was applied for assessing the inter-group difference.||||||0.1858
92448852|NCT04011475|184784621|OTHER|||||||0.0144|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.0144
92448853|NCT04011475|184784621|OTHER|||||||0.9219|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.9219
92448854|NCT04011475|184784621|OTHER|||||||0.959|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.9590
92448855|NCT04011475|184784622|OTHER|||||||0.2909|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.2909
92448856|NCT04011475|184784622|OTHER|||||||0.1618|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.1618
92448857|NCT04011475|184784622|OTHER|||||||0.4695|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.4695
92448858|NCT04011475|184784623|OTHER||||||>|0.9999|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||> 0.9999
92448859|NCT04011475|184784623|OTHER|||||||0.2516|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.2516
92448860|NCT04011475|184784623|OTHER|||||||0.0036|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.0036
92448861|NCT04011475|184784624|OTHER|||||||0.6189|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was used for assessing the intra-group difference.||||||0.6189
92448862|NCT04011475|184784624|OTHER|||||||0.7656|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was used for assessing the intra-group difference.||||||0.7656
92172315|NCT05592418|184235038|SUPERIORITY||Mean Difference (Final Values)|23.7749||||0.3162|TWO_SIDED|95.0|-23.2463|70.7962|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|||70.7962|-23.2463|0.3162
92172316|NCT05592418|184235039|SUPERIORITY|||||||||||||||||P-value is from The Cochran-Mantel-Haenszel test (CMH) stratified by stratification factors|Since all patients analyzed achieved MCID, there are no comparison results|||
92172317|NCT05592418|184235040|SUPERIORITY||Mean Difference (Final Values)|-3.2342||||0.4232|TWO_SIDED|95.0|-11.2586|4.7901|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|||4.7901|-11.2586|0.4232
92172318|NCT05592418|184235041|SUPERIORITY||Mean Difference (Final Values)|-0.5161||||0.7823|TWO_SIDED|95.0|-4.2356|3.2035|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|||3.2035|-4.2356|0.7823
92172319|NCT05592418|184235043|SUPERIORITY||Mean Difference (Final Values)|0.2779||||0.5185|TWO_SIDED|95.0|-0.5775|1.1333|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo.|||1.1333|-0.5775|0.5185
92172320|NCT05592418|184235044|OTHER||||||||||||||||||No patients were hospitalized.|||
92448863|NCT04011475|184784624|OTHER|||||||0.3594|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was used for assessing the intra-group difference.||||||0.3594
92448864|NCT04011475|184784625|OTHER|||||||0.0483|||||||Chi-squared|Chi-square test was applied for assessing the inter-group difference.||||||0.0483
92448865|NCT00274716|184784638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|1.6||0.157|TWO_SIDED|95.0|-5.3|0.9|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||0.9|-5.3|0.157
92448866|NCT00274716|184784638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|1.5||0.01|TWO_SIDED|95.0|-7.1|-1.0|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||-1.0|-7.1|0.010
92448867|NCT00274716|184784638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|1.6||0.042|TWO_SIDED|95.0|-6.4|-0.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||-0.1|-6.4|0.042
92448868|NCT00274716|184784638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|1.6||0.517|TWO_SIDED|95.0|-2.1|4.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||4.1|-2.1|0.517
92448869|NCT00274716|184784638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.6||0.602|TWO_SIDED|95.0|-3.9|2.3|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||2.3|-3.9|0.602
92448870|NCT00274716|184784639|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|2.4||0.046|TWO_SIDED|95.0|-9.7|-0.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||-0.1|-9.7|0.046
92448871|NCT00274716|184784639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|2.4||0.108|TWO_SIDED|95.0|-8.7|0.9|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||0.9|-8.7|0.108
92448872|NCT00274716|184784639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|2.5||0.099|TWO_SIDED|95.0|-9.0|0.8|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||0.8|-9.0|0.099
92280671|NCT01463683|184464103|SUPERIORITY_OR_OTHER||Difference in percentage of participants|4.9||||0.162|TWO_SIDED|95.0|-2.0|11.9|||Miettinen & Nurminen|||||11.9|-2.0|0.162
92172321|NCT05592418|184235046|SUPERIORITY||Mean Difference (Final Values)|169.389||||0.2175|TWO_SIDED|95.0|-105.892|444.6702|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo.|444.6702|-105.892|0.2175
92448873|NCT00274716|184784639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|2.5||0.752|TWO_SIDED|95.0|-5.7|4.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||4.1|-5.7|0.752
92448874|NCT00274716|184784639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|2.5||0.941|TWO_SIDED|95.0|-4.7|5.0|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||5.0|-4.7|0.941
92448875|NCT00274716|184784640|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.2|-0.7|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline weight as a continuous variable||||-0.7|-2.2|<0.001
92448876|NCT00274716|184784640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.4||0.003|TWO_SIDED|95.0|-1.9|-0.4|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline weight as a continuous variable||||-0.4|-1.9|0.003
92448877|NCT00274716|184784640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.4|-1.0|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline weight as a continuous variable||||-1.0|-2.4|<0.001
92448878|NCT00274716|184784640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.462|TWO_SIDED|95.0|-0.5|1.0|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline weight as a continuous variable||||1.0|-0.5|0.462
92448879|NCT00274716|184784640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.4||0.118|TWO_SIDED|95.0|-0.2|1.3|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline weight as a continuous variable||||1.3|-0.2|0.118
92448880|NCT00274716|184784641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.9||0.059|TWO_SIDED|95.0|-3.7|0.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline waist as a continuous variable||||0.1|-3.7|0.059
92448881|NCT00274716|184784641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|-5.5|-1.7|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline waist as a continuous variable||||-1.7|-5.5|<0.001
92448882|NCT00274716|184784641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.9||0.136|TWO_SIDED|95.0|-3.3|0.5|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline waist as a continuous variable||||0.5|-3.3|0.136
92240666|NCT02433210|184384640|SUPERIORITY||||||=|0.114|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.114
92448883|NCT00274716|184784641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.9||0.686|TWO_SIDED|95.0|-2.2|1.4|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline waist as a continuous variable||||1.4|-2.2|0.686
92448884|NCT00274716|184784641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|0.9||0.022|TWO_SIDED|95.0|-4.0|-0.3|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline waist as a continuous variable||||-0.3|-4.0|0.022
92448885|NCT00274716|184784642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.3|STANDARD_ERROR_OF_MEAN|4.3||0.005|TWO_SIDED|95.0|-20.8|-3.7|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline LDL-C as a continuous variable||||-3.7|-20.8|0.005
92448886|NCT00274716|184784642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1|STANDARD_ERROR_OF_MEAN|4.4||0.066|TWO_SIDED|95.0|-16.7|0.5|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline LDL-C as a continuous variable||||0.5|-16.7|0.066
92448887|NCT00274716|184784642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|4.5||0.319|TWO_SIDED|95.0|-13.4|4.4|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline LDL-C as a continuous variable||||4.4|-13.4|0.319
92448888|NCT00274716|184784642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|4.4||0.077|TWO_SIDED|95.0|-16.4|0.8|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline LDL-C as a continuous variable||||0.8|-16.4|0.077
92448889|NCT00274716|184784642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|4.4||0.418|TWO_SIDED|95.0|-12.2|5.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline LDL-C as a continuous variable||||5.1|-12.2|0.418
92448890|NCT00274716|184784643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|STANDARD_ERROR_OF_MEAN|2.5||0.015|TWO_SIDED|95.0|-11.3|-1.2|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline HDL-C as a continuous variable||||-1.2|-11.3|0.015
92448891|NCT00274716|184784643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|2.6||0.124|TWO_SIDED|95.0|-9.2|1.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline HDL-C as a continuous variable||||1.1|-9.2|0.124
92448892|NCT00274716|184784643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|2.6||0.429|TWO_SIDED|95.0|-3.1|7.2|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline HDL-C as a continuous variable||||7.2|-3.1|0.429
92448893|NCT00274716|184784643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.3|STANDARD_ERROR_OF_MEAN|2.5||0.001|TWO_SIDED|95.0|-13.3|-3.4|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline HDL-C as a continuous variable||||-3.4|-13.3|0.001
92448894|NCT00274716|184784643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|2.5||0.018|TWO_SIDED|95.0|-11.1|-1.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline HDL-C as a continuous variable||||-1.1|-11.1|0.018
92448895|NCT00274716|184784644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9|STANDARD_ERROR_OF_MEAN|9.0||0.587|TWO_SIDED|95.0|-12.9|22.8|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline TG as a continuous variable||||22.8|-12.9|0.587
92448896|NCT00274716|184784644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|9.2||0.562|TWO_SIDED|95.0|-23.5|12.8|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline TG as a continuous variable||||12.8|-23.5|0.562
92448897|NCT00274716|184784644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|9.2||0.802|TWO_SIDED|95.0|-15.8|20.4|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline TG as a continuous variable||||20.4|-15.8|0.802
92448898|NCT00274716|184784644|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|9.0||0.772|TWO_SIDED|95.0|-15.2|20.5|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline TG as a continuous variable||||20.5|-15.2|0.772
92448899|NCT00274716|184784644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6|STANDARD_ERROR_OF_MEAN|9.2||0.409|TWO_SIDED|95.0|-25.9|10.6|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline TG as a continuous variable||||10.6|-25.9|0.409
92448900|NCT01257204|184784649|SUPERIORITY_OR_OTHER||Difference|20.8|||||TWO_SIDED|80.0|4.9|36.8|||||The difference in the percentage of participants with antiviral response between daclatasvir and placebo was presented with a difference estimate (daclatasvir - placebo) and 80% confidence Interval.|||36.8|4.9|
92448901|NCT01257204|184784649|SUPERIORITY_OR_OTHER||Difference|20.1|||||TWO_SIDED|80.0|3.9|36.3|||||The difference in the percentage of participants with antiviral response between daclatasvir and placebo was presented with a difference estimate (daclatasvir - placebo) and 80% confidence Interval.|||36.3|3.9|
92448902|NCT01257204|184784658|SUPERIORITY_OR_OTHER||Difference|10.0|||||TWO_SIDED|80.0|-6.8|26.7|||||The difference in the percentage of participants with antiviral response between daclatasvir and placebo was presented with a difference estimate (daclatasvir - placebo) and 80% confidence Interval.|||26.7|-6.8|
92280672|NCT01463683|184464103|SUPERIORITY_OR_OTHER||Difference in percentage of participants|11.0||||0.028|TWO_SIDED|95.0|1.1|21.6|||Miettinen & Nurminen|||||21.6|1.1|0.028
92280673|NCT01463683|184464103|SUPERIORITY_OR_OTHER||Difference in percentage of participants|6.0||||0.246|TWO_SIDED|95.0|-4.0|16.8|||Miettinen & Nurminen|||||16.8|-4.0|0.246
92448903|NCT01257204|184784658|SUPERIORITY_OR_OTHER||Difference|7.4|||||TWO_SIDED|80.0|-9.4|24.2|||||The difference in the percentage of participants with antiviral response between daclatasvir and placebo was presented with a difference estimate (daclatasvir - placebo) and 80% confidence Interval.|||24.2|-9.4|
92448904|NCT01268644|184784661|SUPERIORITY|||||||0.14||||||P value comparing baseline to week 12|Mixed Models Analysis|||||||0.14
92448905|NCT01268644|184784662|SUPERIORITY|||||||0.01||||||P value comparing week 0 with week 12.|Mixed Models Analysis|||||||0.01
92448906|NCT01268644|184784663|SUPERIORITY|||||||0.009||||||P value comparing week 0 to week 12.|Mixed Models Analysis|||||||0.009
92448907|NCT01268644|184784664|SUPERIORITY|||||||0.75|||||||Mixed Models Analysis|||||||0.75
92448908|NCT03779997|184784669|SUPERIORITY||Risk Ratio (RR)|0.78|STANDARD_DEVIATION|0.1||0.07|TWO_SIDED|95.0|0.6|1.02||0.05 a priori threshold for statistical significance.|Log-linear GEE regression|||Null hypothesis: no difference in the percentage of urine drug tests (UDT) negative for opioids between the two treatment arms.Treatment-as-usual (TAU) is the reference group.||1.02|0.60|0.07
92448909|NCT03779997|184784670|SUPERIORITY||Risk Ratio (RR)|0.84|STANDARD_DEVIATION|0.11||0.2|TWO_SIDED|95.0|0.65|1.1||0.05 a priori threshold for statistical significance.|Poisson regression with robust SEs|||Null hypothesis: no difference between treatment arms in the percentage of patients engaged in treatment at week 12. TAU is the reference group.||1.10|0.65|0.20
92448910|NCT03779997|184784671|SUPERIORITY||Risk Ratio (RR)|0.73|STANDARD_DEVIATION|0.17||0.18|TWO_SIDED|95.0|0.45|1.16||0.05 a priori threshold for statistical significance.|Poisson regression with robust SEs|||Null hypothesis: No difference between arms in the percentage of participants engaged in treatment at week 24 post-randomization. TAU is the reference group.||1.16|0.45|0.18
92240667|NCT02433210|184384640|SUPERIORITY||||||=|0.292|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.292
92448911|NCT03779997|184784672|SUPERIORITY||Median Difference (Final Values)|0.9|STANDARD_DEVIATION|0.45||0.31|TWO_SIDED|95.0|-0.9|2.7||0.05 a priori threshold for statistical significance.|t-test, 2 sided||TAU is the reference group.|Null hypothesis: No difference between arms on the number of consecutive weeks with UDT negative for opioids.||2.7|-0.9|0.31
92448912|NCT03779997|184784673|SUPERIORITY||Risk Ratio (RR)|0.71|STANDARD_DEVIATION|0.41||0.57|TWO_SIDED|95.0|0.23|2.26||0.05 a priori threshold for statistical significance.|Poisson regression with robust SEs||TAU is the reference group.|Null hypothesis: No difference between arms in the number of participants who self-reported illicit opioid use at week 12.||2.26|0.23|0.57
92448913|NCT03779997|184784674|SUPERIORITY||Risk Ratio (RR)|1.01|STANDARD_DEVIATION|0.066||0.88|TWO_SIDED|95.0|0.89|1.15||0.05 a priori threshold for statistical significance.|GEE Poisson regression||TAU is the reference group.|Null hypothesis: No difference between arms in the mean number of days adherent to buprenorphine by self-report.||1.15|0.89|0.88
92448914|NCT03779997|184784676|SUPERIORITY||Risk Ratio (RR)|1.17|STANDARD_DEVIATION|0.6||0.77|TWO_SIDED|95.0|0.42|3.24||0.05 a priori threshold for statistical significance.|Poisson regression with robust SEs||TAU is the reference group.|Null hypothesis: No difference between arms in number of participants who had one or more urine drug tests negative for buprenorphine.||3.24|0.42|0.77
92448915|NCT03779997|184784677|SUPERIORITY||Risk Ratio (RR)|0.67|STANDARD_DEVIATION|0.26||0.3|TWO_SIDED|95.0|0.32|1.43||0.05 a priori threshold for statistical significance.|Poisson regression with robust SEs||TAU is the reference group.|Null hypothesis: No difference between arms in number of participants who tested positive for stimulants at week 12.||1.43|0.32|0.30
92448916|NCT03779997|184784678|SUPERIORITY||Median Difference (Final Values)|0.02|STANDARD_DEVIATION|0.07||0.91|TWO_SIDED|95.0|-0.29|0.32||0.05 a priori threshold for statistical significance|t-test, 2 sided||TAU is the reference group|Null hypothesis: No difference between arms in mean treatment satisfaction scores||0.32|-0.29|0.91
92448917|NCT04086472|184784679|SUPERIORITY||Least squares (LS) Mean Difference|-1.31||||0.808|TWO_SIDED|90.0|-10.25|7.64|||ANOVA|||Treatment vs. Placebo||7.64|-10.25|0.808
92448918|NCT04086472|184784679|SUPERIORITY||LS Mean Difference|-6.51||||0.229|TWO_SIDED|90.0|-15.46|2.43|||ANOVA|||Treatment vs. Placebo||2.43|-15.46|0.229
92448919|NCT04086472|184784679|SUPERIORITY||LS Mean Difference|-4.81||||0.363|TWO_SIDED|90.0|-13.58|3.96|||ANOVA|||Treatment vs. Placebo||3.96|-13.58|0.363
92448920|NCT04086472|184784679|SUPERIORITY||LS Mean Difference|-5.92||||0.273|TWO_SIDED|90.0|-14.87|3.02|||ANOVA|||Treatment vs. Placebo||3.02|-14.87|0.273
92240668|NCT02433210|184384640|SUPERIORITY||||||=|0.714|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.714
92448921|NCT04086472|184784680|OTHER|Treatment vs. Placebo|Difference in percentage|0.51|||||TWO_SIDED|95.0|-36.57|37.78|||||95% CI based on the Chan and Zhang exact method|||37.78|-36.57|
92448922|NCT04086472|184784680|OTHER|Treatment vs. Placebo|Difference in percentage|-22.56|||||TWO_SIDED|95.0|-56.7|15.53|||||95% CI based on the Chan and Zhang exact method|||15.53|-56.70|
92448923|NCT04086472|184784680|OTHER|Treatment vs. Placebo|Difference in percentage|-17.62|||||TWO_SIDED|95.0|-53.09|20.01|||||95% CI based on the Chan and Zhang exact method|||20.01|-53.09|
92448924|NCT04086472|184784680|OTHER|Treatment vs. Placebo|Difference in percentage|-22.56|||||TWO_SIDED|95.0|-56.7|15.53|||||95% CI based on the Chan and Zhang exact method|Treatment vs. Placebo||15.53|-56.70|
92448925|NCT01663259|184784699|OTHER||||||||||||||||||Estimates of proportion event-free at 1 and 2 years calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals were calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
92448926|NCT01663259|184784700|OTHER||||||||||||||||||Survival proportion estimates at 1 and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
92448927|NCT01663259|184784701|OTHER||||||||||||||||||Estimates of proportion LRP event-free at 1 and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
92448928|NCT01513291|184784704|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4||||0.33153|TWO_SIDED|95.0|-1.3|0.4|||Constrained Longitudinal Analysis (cLDA)||Risk difference is for MK-6096 - Placebo. The cLDA model included terms for treatment, time, treatment-by-time interaction, monthly migraine days during the Screening (Baseline) Period (≤8, \>8) as covariates|||0.4|-1.3|0.33153
92240669|NCT02433210|184384640|SUPERIORITY||||||=|0.176|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.176
92240670|NCT02433210|184384640|SUPERIORITY||||||=|0.19|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.190
92240671|NCT02433210|184384640|SUPERIORITY|||||||-0.009|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||-0.009
92240672|NCT02433210|184384640|SUPERIORITY||||||=|0.911|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.911
92240673|NCT02433210|184384640|SUPERIORITY||||||=|0.388|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.388
92240674|NCT02433210|184384640|SUPERIORITY||||||=|0.337|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.337
92240675|NCT02433210|184384640|SUPERIORITY||||||=|0.575|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.575
92240676|NCT02433210|184384640|SUPERIORITY||||||=|0.88|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.880
92240677|NCT02433210|184384640|SUPERIORITY||||||=|0.731|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.731
92240678|NCT01441440|184384707|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.5||||0.031|TWO_SIDED|95.0|0.14|2.87||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||2.87|0.14|0.031
92172322|NCT05592418|184235047|SUPERIORITY||Mean Difference (Final Values)|-56.9984||||0.2086|TWO_SIDED|95.0|-147.021|33.0241|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|33.0241|-147.021|0.2086
92172323|NCT05592418|184235048|SUPERIORITY||Mean Difference (Final Values)|0.1733||||0.0975|TWO_SIDED|95.0|-0.0327|0.3792|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|0.3792|-0.0327|0.0975
92172324|NCT05592418|184235050|SUPERIORITY||Mean Difference (Final Values)|20.7131||||0.4545|TWO_SIDED|95.0|-34.4079|75.8341|||ANCOVA||LS Mean Difference - LS Mean of Ampligen® - LS Mean of Placebo|||75.8341|-34.4079|0.4545
92172325|NCT05592418|184235051|SUPERIORITY||Mean Difference (Final Values)|44.1231||||0.0333|TWO_SIDED|95.0|4.6338|83.6123|||ANCOVA||LS Mean Difference - LS Mean of Ampligen® - LS Mean of Placebo|||83.6123|4.6338|0.0333
92172326|NCT05198310|184235086|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.281||0.047|TWO_SIDED|95.0|-1.13|-0.01||Analyzed using ANCOVA model with baseline value and stratification factor (≤1 vs. ≥2 classes of advanced targeted therapies) as covariates.|ANCOVA|||||-0.01|-1.13|0.0470
92280674|NCT01463683|184464104|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-0.7||||0.659|TWO_SIDED|95.0|-3.8|2.4|||Miettinen & Nurminen|||||2.4|-3.8|0.659
92448929|NCT01513291|184784705|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.3|||||TWO_SIDED|95.0|-3.4|21.6|||||Risk difference (MK-6096 - Placebo) was estimated based on the Miettinen \& Nurminen method|||21.6|-3.4|
92448930|NCT01513291|184784706|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.3|||||TWO_SIDED|95.0|-4.0|8.9|||||Risk difference (MK-6096 - Placebo) was estimated based on the Miettinen \& Nurminen method|||8.9|-4.0|
92448931|NCT01513291|184784707|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.5||||0.24008|TWO_SIDED|95.0|-1.4|0.4|||Constrained Longitudinal Analysis (cLDA)||Risk difference is for MK-6096 - Placebo. The cLDA model included terms for treatment, time, treatment-by-time interaction, monthly migraine days during the Screening (Baseline) Period (≤8, \>8) as covariates|||0.4|-1.4|0.24008
92448932|NCT01513291|184784708|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.43093|TWO_SIDED|95.0|0.7|2.0|||Generalized linear mixed effects model||Odds ratio is for MK-6096 / Placebo. The generalized linear mixed effects model included terms for treatment, time, treatment-by-time interaction, monthly migraine days during the Screening (Baseline) Period 1 (≤8, \>8) as covariates.|||2.0|0.7|0.43093
92448933|NCT01513291|184784709|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.9737|TWO_SIDED|95.0|0.7|1.5|||Generalized linear mixed effects model||Odds ratio is for MK-6096 / Placebo. The generalized linear mixed effects model included terms for treatment, time, treatment-by-time interaction, monthly migraine days during the Treatment Period 1 (≤8, \>8) as covariates.|||1.5|0.7|0.97370
92448934|NCT01034397|184784710|SUPERIORITY_OR_OTHER|||||||1||||||Wrist region: Tocilizumab versus placebo; Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
92448935|NCT01034397|184784710|SUPERIORITY_OR_OTHER|||||||0.026||||||2nd and 5th MCP joints: Tocilizumab versus placebo|t-test, 1 sided|||||||0.026
92448936|NCT01034397|184784710|SUPERIORITY_OR_OTHER|||||||1||||||Total synovitis score: Tocilizumab versus placebo; Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
92448937|NCT01034397|184784711|SUPERIORITY_OR_OTHER|||||||0.421||||||Percentage Change in OMERACT RAMRIS global score; Tocilizumab versus placebo.|t-test, 1 sided|||||||0.421
92240679|NCT01441440|184384707|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.12||||0.106|TWO_SIDED|95.0|-0.24|2.48||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||2.48|-0.24|0.106
92240680|NCT01441440|184384708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.88||||0.008|TWO_SIDED|95.0|0.77|5.0||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||5.00|0.77|0.008
92448938|NCT01034397|184784712|SUPERIORITY_OR_OTHER|||||||0.434||||||Absolute change in OMERACT RAMRIS global score; Placebo versus Tocilizumab|t-test, 1 sided|||||||0.434
92448939|NCT01034397|184784715|SUPERIORITY_OR_OTHER|||||||1||||||Change in Wrist region; Tocilizumab versus placebo. Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
92448940|NCT01034397|184784715|SUPERIORITY_OR_OTHER|||||||0.065||||||Change in 2nd to 5th MCP; Tocilizumab versus placebo.|t-test, 1 sided|||||||0.065
92448941|NCT01034397|184784715|SUPERIORITY_OR_OTHER|||||||1||||||Change in Total synovitis; Tocilizumab versus placebo. Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
92448942|NCT01034397|184784717|SUPERIORITY_OR_OTHER|||||||1||||||Absolute Change in Bone erosion; Tocilizumab versus placebo. Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
92448943|NCT01034397|184784718|SUPERIORITY_OR_OTHER|||||||1||||||Percentage Change in Bone erosion; Tocilizumab versus placebo. Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
92448944|NCT01034397|184784721|SUPERIORITY_OR_OTHER|||||||0.266||||||Percentage Change in Bone oedema; Tocilizumab versus placebo.|t-test, 1 sided|||||||0.266
92448945|NCT01034397|184784722|SUPERIORITY_OR_OTHER|||||||0.337||||||Absolute Change in Bone edema; Tocilizumab versus placebo.|t-test, 1 sided|||||||0.337
92448946|NCT01034397|184784725|SUPERIORITY_OR_OTHER|||||||0.114||||||Percentage change in DCE-MRI EER (global); Placebo versus Tocilizumab|t-test, 1 sided|||||||0.114
92448947|NCT01034397|184784726|SUPERIORITY_OR_OTHER|||||||0.239||||||Absolute Change in DCE-MRI EER; Tocilizumab versus placebo.|t-test, 1 sided|||||||0.239
92448948|NCT01034397|184784729|SUPERIORITY_OR_OTHER|||||||0.271||||||Percentage change in DCE-MRI EER (MCP); Placebo versus Tocilizumab|t-test, 1 sided|||||||0.271
92448949|NCT01034397|184784730|SUPERIORITY_OR_OTHER|||||||0.37||||||Absolute change in DCE-MRI EER (MCP); Placebo versus Tocilizumab|t-test, 1 sided|||||||0.370
92172327|NCT05198310|184235086|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.282||0.2124|TWO_SIDED|95.0|-0.92|0.21||Analyzed using ANCOVA model with baseline value and stratification factor (≤1 vs. ≥2 classes of advanced targeted therapies) as covariates.|ANCOVA|||||0.21|-0.92|0.2124
92448950|NCT01034397|184784733|SUPERIORITY_OR_OTHER|||||||1||||||Percentage and absolute change in DCE-MRI EER (wrist); Placebo versus Tocilizumab|t-test, 1 sided|||||||1.00
92448951|NCT01034397|184784738|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92448952|NCT01034397|184784741|SUPERIORITY_OR_OTHER|||||||0.067|||||||t-test, 1 sided|||||||0.067
92448953|NCT01034397|184784743|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 1 sided|||||||0.001
92448954|NCT01034397|184784745|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 1 sided|||||||0.002
92448955|NCT01034397|184784747|SUPERIORITY_OR_OTHER||||||<|0.001||||||Change from Baseline to Week 12|Friedman's T test|||||||<0.001
92448956|NCT01034397|184784747|SUPERIORITY_OR_OTHER|||||||0.5||||||Change from Baseline to Week 12|Friedman's T test|||||||0.500
92448957|NCT01034397|184784748|SUPERIORITY_OR_OTHER|||||||0.007|||||||t-test, 1 sided|||||||0.007
92448958|NCT01034397|184784751|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 1 sided|||||||0.001
92448959|NCT01034397|184784753|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 1 sided|||||||0.002
92448960|NCT01034397|184784755|SUPERIORITY_OR_OTHER|||||||0.118|||||||t-test, 1 sided|||||||0.118
92448961|NCT01034397|184784757|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 1 sided|||||||1.00
92240681|NCT01441440|184384708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.64||||0.014|TWO_SIDED|95.0|0.54|4.74||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||4.74|0.54|0.014
92240682|NCT01441440|184384709|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26||||0.025|TWO_SIDED|95.0|0.03|0.49||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||0.49|0.03|0.025
92240683|NCT01441440|184384709|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25||||0.032|TWO_SIDED|95.0|0.02|0.48||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||0.48|0.02|0.032
92240684|NCT01441440|184384710|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.18||||0.004|TWO_SIDED|95.0|0.39|1.97||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||1.97|0.39|0.004
92240685|NCT01441440|184384710|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.06||||0.008|TWO_SIDED|95.0|0.28|1.85||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||1.85|0.28|0.008
92240686|NCT01441440|184384711|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.5||||0.004|TWO_SIDED|95.0|0.48|2.53||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||2.53|0.48|0.004
92240687|NCT01441440|184384711|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.77||||0.137|TWO_SIDED|95.0|-0.25|1.79||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||1.79|-0.25|0.137
92240688|NCT01441440|184384712|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21||||0.073|TWO_SIDED|95.0|-0.02|0.45||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline score of CGI-S as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||0.45|-0.02|0.073
92240689|NCT01441440|184384712|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25||||0.034|TWO_SIDED|95.0|0.02|0.48||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline score of CGI-S as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||0.48|0.02|0.034
92240690|NCT01993329|184384713|SUPERIORITY||Geometric means ratio|1.108||||0.616|TWO_SIDED|95.0|0.734|1.673|||ANOVA||Analysis was based on an ANOVA model with log (base 2) PC20 methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect.|||1.673|0.734|0.616
92240691|NCT01993329|184384713|SUPERIORITY||Geometric means ratio|1.016||||0.939|TWO_SIDED|95.0|0.673|1.534|||ANOVA||Analysis was based on an ANOVA model with log (base 2) PC20 methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect.|||1.534|0.673|0.939
92240692|NCT01993329|184384713|SUPERIORITY||Geometric means ratio|0.917||||0.671|TWO_SIDED|95.0|0.607|1.384|||ANOVA||Analysis was based on an ANOVA model with log (base 2) PC20 methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect.|||1.384|0.607|0.671
92240693|NCT01993329|184384714|SUPERIORITY||Mean Difference (Final Values)|-0.111||||0.066|TWO_SIDED|95.0|-0.23|0.008|||ANOVA||Analysis is based on an ANOVA model with minimum highest FEV1 after methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect.|||0.008|-0.230|0.066
92240694|NCT01993329|184384714|SUPERIORITY||Mean Difference (Final Values)|-0.012||||0.843|TWO_SIDED|95.0|-0.131|0.107|||ANOVA||Analysis is based on an ANOVA model with minimum highest FEV1 after methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect|||0.107|-0.131|0.843
92240695|NCT01993329|184384714|SUPERIORITY||Mean Difference (Final Values)|-0.099||||0.098|TWO_SIDED|95.0|-0.218|0.02|||ANOVA||Analysis is based on an ANOVA model with minimum highest FEV1 after methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect|||0.020|-0.218|0.098
92240696|NCT00883558|184384715|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of INSULIN-PH20 NP to insulin lispro was supported if the upper limit of the one-sided 95% confidence interval for the difference in blood glucose between the treatments did not exceed 21.6 mg/dL.|LS Mean Difference|3.06||||0.3217|ONE_SIDED|95.0||14.11|||Mixed Models Analysis|Adjustments included treatment, phase, and treatment sequence as fixed effects and participant within treatment sequence as a random effect.||A total of at least 40 participants were to be enrolled in the study, and 30 participants were expected to complete both treatment cycles. Assuming a standard deviation for blood glucose of 45 milligrams per deciliter (mg/dL) and a true difference between the treatments of 0 mg/dL, the study had approximately 80% power to show that INSULIN-PH20 NP was non-inferior to insulin lispro with respect to the overall two-hour postprandial blood glucose excursion.||14.11||0.3217
92240697|NCT04742907|184384759|SUPERIORITY||Cox Proportional Hazard|0.91||||0.767|TWO_SIDED|90.0|0.74|1.12||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: hazard ratio (HR) = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and confidence intervals (CIs) are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|||1.12|0.74|0.767
92448962|NCT01034397|184784759|SUPERIORITY_OR_OTHER|||||||0.437|||||||t-test, 1 sided|||||||0.437
92280675|NCT01463683|184464104|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-1.6||||0.459|TWO_SIDED|95.0|-7.7|2.2|||Miettinen & Nurminen|||||2.2|-7.7|0.459
92280676|NCT01463683|184464104|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-0.9||||0.686|TWO_SIDED|95.0|-7.1|3.0|||Miettinen & Nurminen|||||3.0|-7.1|0.686
92448963|NCT01034397|184784760|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 1 sided|||||||1.00
92448964|NCT01034397|184784763|SUPERIORITY_OR_OTHER|||||||0.19|||||||t-test, 1 sided|||||||0.190
92448965|NCT01034397|184784765|SUPERIORITY_OR_OTHER|||||||0.051|||||||t-test, 1 sided|||||||0.051
92172328|NCT05198310|184235086|SUPERIORITY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.352||0.1091|TWO_SIDED|95.0|-1.28|0.13||Analyzed using ANCOVA model with baseline value and stratification factor (≤1 vs. ≥2 classes of advanced targeted therapies) as covariates.|ANCOVA|||||0.13|-1.28|0.1091
92172329|NCT05198310|184235087|SUPERIORITY|||||||0.0312|||||||t-test|||||||0.0312
92172330|NCT05198310|184235087|SUPERIORITY|||||||0.0338|||||||t-test|||||||0.0338
92172331|NCT05198310|184235091|SUPERIORITY|||||||0.0333|||||||Fisher exact test|||||||0.0333
92172332|NCT05198310|184235091|SUPERIORITY|||||||0.1905|||||||Fisher exact test|||||||0.1905
92240698|NCT04742907|184384759|SUPERIORITY||Cox Proportional Hazard|1.17||||0.107|TWO_SIDED|90.0|0.95|1.44||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|||1.44|0.95|0.107
92240699|NCT04742907|184384760|SUPERIORITY||Cox Proportional Hazard|0.9||||0.78|TWO_SIDED|90.0|0.71|1.13||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to GI-2||1.13|0.71|0.780
92240700|NCT04742907|184384760|SUPERIORITY||Cox Proportional Hazard|1.06||||0.33|TWO_SIDED|90.0|0.84|1.34||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to GI-2||1.34|0.84|0.330
92240701|NCT04742907|184384760|SUPERIORITY||Cox Proportional Hazard|0.9||||0.788|TWO_SIDED|90.0|0.73|1.11||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to first toleration of clear liquids||1.11|0.73|0.788
92240702|NCT04742907|184384760|SUPERIORITY||Cox Proportional Hazard|1.22||||0.055|TWO_SIDED|90.0|0.99|1.51||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to first toleration of clear liquids||1.51|0.99|0.055
92448966|NCT01448850|184784796|SUPERIORITY_OR_OTHER||Rate ratio|0.92||||0.645|TWO_SIDED|90.0|0.68|1.25||Data was analyzed using Poisson regression with Pearson correction, adjusting for treatment, background therapy and history of previous exacerbations.|Poisson regression|||||1.25|0.68|0.645
92172333|NCT05198310|184235091|SUPERIORITY||Odds Ratio (OR)|2.95||||0.0716|TWO_SIDED|95.0|0.9|9.65|||Cochran-Mantel-Haenszel|||||9.65|0.90|0.0716
92172334|NCT05198310|184235091|SUPERIORITY||Odds Ratio (OR)|1.52||||0.471|TWO_SIDED|95.0|0.5|4.67|||Cochran-Mantel-Haenszel|||||4.67|0.50|0.4710
92172335|NCT05198310|184235091|SUPERIORITY||Odds Ratio (OR)|6.09||||0.0057|TWO_SIDED|95.0|1.62|22.88|||Cochran-Mantel-Haenszel|||||22.88|1.62|0.0057
92172336|NCT05198310|184235092|SUPERIORITY|||||||0.0762|||||||Fisher exact test|||||||0.0762
92172337|NCT05198310|184235092|SUPERIORITY|||||||1|||||||Fisher exact test|||||||1.000
92172338|NCT05198310|184235092|SUPERIORITY||Odds Ratio (OR)|1.67||||0.4172|TWO_SIDED|95.0|0.49|5.62|||Cochran-Mantel-Haenszel|||||5.62|0.49|0.4172
92172339|NCT05198310|184235092|SUPERIORITY||Odds Ratio (OR)|1.89||||0.3144|TWO_SIDED|95.0|0.55|6.45|||Cochran-Mantel-Haenszel|||||6.45|0.55|0.3144
92172340|NCT05198310|184235092|SUPERIORITY||Odds Ratio (OR)|0.97||||0.956|TWO_SIDED|95.0|0.28|3.39|||Cochran-Mantel-Haenszel|||||3.39|0.28|0.9560
92172341|NCT05198310|184235093|SUPERIORITY|||||||0.4667|||||||Fisher exact test|||||||0.4667
92172342|NCT05198310|184235093|SUPERIORITY|||||||1|||||||Fisher exact test|||||||1.0000
92172343|NCT05198310|184235093|SUPERIORITY||Odds Ratio (OR)|1.95||||0.5789|TWO_SIDED|95.0|0.17|22.3|||Cochran-Mantel-Haenszel|||||22.30|0.17|0.5789
92172344|NCT05198310|184235093|SUPERIORITY||Odds Ratio (OR)|6.12||||0.0799|TWO_SIDED|95.0|0.62|60.1|||Cochran-Mantel-Haenszel|||||60.10|0.62|0.0799
92172345|NCT05198310|184235093|SUPERIORITY||Odds Ratio (OR)|0.28||||0.1034|TWO_SIDED|95.0|0.06|1.35|||Cochran-Mantel-Haenszel|||||1.35|0.06|0.1034
92172346|NCT01872078|184235132|SUPERIORITY_OR_OTHER||Ratio (%)|87.04|||||TWO_SIDED|95.0|58.52|129.47||||||The null hypothesis is that the ratio of Active to Control in LH AUC(0-8) ratio to baseline at day 7= 100%||129.47|58.52|
92172347|NCT01872078|184235132|SUPERIORITY_OR_OTHER||Ratio (%)|78.76|||||TWO_SIDED|95.0|53.41|116.16||||||The null hypothesis is that the ratio of Active to Control in LH AUC(0-8) ratio to baseline at day 7= 100%||116.16|53.41|
92172348|NCT01872078|184235132|SUPERIORITY_OR_OTHER||Ratio (%)|47.99|||||TWO_SIDED|95.0|32.73|70.36||||||The null hypothesis is that the ratio of Active to Control in LH AUC(0-8) ratio to baseline at day 7= 100%||70.36|32.73|
92172349|NCT04052516|184235144|OTHER|Cochran-Mantel-Haenszal test|Odds Ratio (OR)|1.7||||0.2991|TWO_SIDED|95.0|0.62|4.63|||Cochran-Mantel-Haenszel|||||4.63|0.62|0.2991
92172350|NCT04052516|184235144|OTHER|Cochran-Mantel-Haenszel Test|Odds Ratio (OR)|2.01||||0.1386|TWO_SIDED|95.0|0.8|5.08|||Cochran-Mantel-Haenszel|||||5.08|0.80|0.1386
92448967|NCT03235024|184784812|EQUIVALENCE|A sample size of 52 per group would achieve \>80% power to reject the null hypothesis of equal means when the population mean difference is μ1 - μ2 = (-1.4) - (-5.3) = 3.9 with a standard deviation for both groups of 7.0 and with a significance level (alpha) of 0.025 using a 1-sided 2-sample equal variance t-test.||||||0.0228||||||At Week 2|t-test, 1 sided|||||||0.0228
92448968|NCT02357576|184784819|OTHER|Percentage and frequencies were used to describe the incidence of PNAC in the two groups.||||||0.617|||||||Fisher Exact|||||||0.617
92448969|NCT02357576|184784820|OTHER|Percentage and frequencies were used to describe the incidence of severe PNAC.||||||0.45|||||||Fisher Exact|||||||0.450
92448970|NCT02357576|184784821|OTHER|The Kaplan Meier curve was used to evaluated the time to first PNAC event.||||||0.2716|||||||Log Rank|A log rank test was used to test the equality of the survival curve between the two groups.||||||0.2716
92448971|NCT00261716|184784838|SUPERIORITY_OR_OTHER|||||||0.33|||||||Chi-squared|1 degree of freedom||Intent to treat analysis||||.33
92448972|NCT00261716|184784839|SUPERIORITY_OR_OTHER|||||||0.75|||||||t-test, 2 sided|degrees of freedom=36||intent to treat analysis||||.75
92448973|NCT00261716|184784840|SUPERIORITY_OR_OTHER|||||||0.41|||||||t-test, 2 sided|degrees of freedom=17||||||.41
92240703|NCT04742907|184384760|SUPERIORITY||Cox Proportional Hazard|1.07||||0.306|TWO_SIDED|90.0|0.86|1.32||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to absence of distension and presence of bowel sounds and flatus||1.32|0.86|0.306
92240704|NCT04742907|184384760|SUPERIORITY||Cox Proportional Hazard|1.09||||0.243|TWO_SIDED|90.0|0.88|1.35||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to absence of distension and presence of bowel sounds and flatus||1.35|0.88|0.243
92240705|NCT04742907|184384761|SUPERIORITY||Cox Proportional Hazard|1.0||||0.489|TWO_SIDED|90.0|0.81|1.24||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to ready for discharge||1.24|0.81|0.489
92240706|NCT04742907|184384761|SUPERIORITY||Cox Proportional Hazard|1.15||||0.138|TWO_SIDED|90.0|0.93|1.42||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to ready for discharge||1.42|0.93|0.138
92240707|NCT04742907|184384761|SUPERIORITY||Cox Proportional Hazard|1.01||||0.473|TWO_SIDED|90.0|0.82|1.24||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to discharge order written||1.24|0.82|0.473
92280677|NCT01497938|184464116|NON_INFERIORITY_OR_EQUIVALENCE|pre-specified non-inferiority margin of 0.4% was used for sample size calculation. sample size is based on two-sample t test with one-sided type 1 error of 2.5%. Assuming a same mean of change in A1C for the treatment arm and control arm and a common standard deviation of 1% for both treatment groups, it showed that a total of 200 subjects will provide over 80% power to detect the non-inferiority with a margin of 0.4%|Mean Difference (Final Values)|0.05|||||ONE_SIDED|97.5||0.15|||ANCOVA|||||0.15||
92280678|NCT01497938|184464117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-588.0|||<|0.025||95.0|||||ANCOVA|||||||<0.025
92280679|NCT05665595|184464118|OTHER||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|0.87|1.8|||||Hazard Ratio based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by melanoma risk-based stage (IIB/IIC/clinical IIB and IIC/IIIA/IIIB vs IIIC/IIID/IV) and region of enrollment (Asia vs ROW).|||1.80|0.87|
92172351|NCT04521478|184235168|OTHER||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|2.2||0.7636|TWO_SIDED|90.0|-3.0|4.3|||Mixed Models Analysis||Difference = (adjusted mean 5 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline MADRS total score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||4.3|-3.0|0.7636
92448974|NCT00261716|184784841|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|Fishers exact= 1.0; one degree of freedom||intent to treat --all participants who obtained at least one job||||>.05
92448975|NCT00261716|184784841|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||||||>.05
92240708|NCT04742907|184384761|SUPERIORITY||Cox Proportional Hazard|1.24||||0.045|TWO_SIDED|90.0|1.01|1.53||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to discharge order written||1.53|1.01|0.045
92240709|NCT04742907|184384762|SUPERIORITY|||||||0.923||||||P-value is from two-sample t-test comparing TU-100 15 g/day treatment group versus placebo.|t-test, 2 sided|||||||0.923
92280680|NCT02581345|184464121|EQUIVALENCE|Per Food and Drug Administration (FDA), the equivalence testing was made using 90% confidence interval and an equivalence margin of 18%|Difference in proportion (M923 - EU RPP)|0.014|||||TWO_SIDED|90.0|-0.043|0.072||||||||0.072|-0.043|
92448976|NCT00261716|184784842|SUPERIORITY_OR_OTHER|||||||0.37|||||||Mixed Models Analysis|employment status effect- F(1,12)=..85||Intent to treat analysis||||.37
92448977|NCT00261716|184784842|SUPERIORITY_OR_OTHER|||||||0.16|||||||Mixed Models Analysis|time effect F(1,54)=.2.05||||||.16
92448978|NCT00261716|184784842|SUPERIORITY_OR_OTHER|||||||0.63|||||||Mixed Models Analysis|employment status X time effect F (1,54)=.. 24||||||.63
92448979|NCT00261716|184784843|SUPERIORITY_OR_OTHER|||||||0.62|||||||Mixed Models Analysis|employment status effect F(1,12)=.26||intent to treat analysis||||.62
92240710|NCT04742907|184384762|SUPERIORITY|||||||0.039||||||P-value is from two-sample t-test comparing TU-100 7.5 g/day treatment group versus placebo.|t-test, 2 sided|||||||0.039
92448980|NCT00261716|184784843|SUPERIORITY_OR_OTHER|||||||0.65|||||||Mixed Models Analysis|time effect F (1,58)=.21 ,.||||||.65
92448981|NCT00261716|184784843|SUPERIORITY_OR_OTHER|||||||0.81|||||||Mixed Models Analysis|employment status X time effect F(1,58)=.06||||||.81
92448982|NCT00261716|184784844|SUPERIORITY_OR_OTHER|||||||0.19|||||||Mixed Models Analysis|employment status effect F(1,12)=1.95,||Intent to treat analysis||||.19
92448983|NCT00261716|184784844|SUPERIORITY_OR_OTHER|||||||0.09|||||||Mixed Models Analysis|time effect (1.54)=2.99,||||||.09
92240711|NCT04742907|184384764|SUPERIORITY||Odds Ratio (OR)|0.79||||0.434|TWO_SIDED|95.0|0.44|1.42||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||1.42|0.44|0.434
92240712|NCT04742907|184384764|SUPERIORITY||Odds Ratio (OR)|0.9||||0.71|TWO_SIDED|95.0|0.51|1.59||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||1.59|0.51|0.710
92280681|NCT02581345|184464121|EQUIVALENCE|Per European Medicines Agency (EMA), the equivalence testing was made using 95% confidence interval and an equivalence margin of 15%|Difference in proportion (M923 - EU RPP)|0.014|||||TWO_SIDED|95.0|-0.054|0.082||||||||0.082|-0.054|
92280682|NCT02581345|184464122|OTHER|No formal hypothesis testing of equivalence was performed for the comparison between M923 and EU RPP using the secondary efficacy outcome measures. Confidence Interval for difference in proportion in original scale was calculated using stratified Newcombe method.|Difference in proportion (M923 - EU RPP)|0.031|||||TWO_SIDED|95.0|-0.048|0.11||||||||0.110|-0.048|
92448984|NCT00261716|184784844|SUPERIORITY_OR_OTHER|||||||0.39|||||||Mixed Models Analysis|employment status X time effect (F(1,54)=.74||||||.39
92448985|NCT00128180|184784845|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Fisher Exact|||||||0.18
92240713|NCT04742907|184384764|SUPERIORITY||Odds Ratio (OR)|1.23||||0.41|TWO_SIDED|95.0|0.75|2.02||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Chi-squared||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||2.02|0.75|0.410
92240714|NCT04742907|184384764|SUPERIORITY||Odds Ratio (OR)|1.7||||0.037|TWO_SIDED|95.0|1.03|2.81||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||2.81|1.03|0.037
92240715|NCT04742907|184384764|SUPERIORITY||Odds Ratio (OR)|0.84||||0.579|TWO_SIDED|95.0|0.46|1.55||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 3||1.55|0.46|0.579
92240716|NCT04742907|184384764|SUPERIORITY||Odds Ratio (OR)|0.63||||0.167|TWO_SIDED|95.0|0.33|1.21||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic|||For Day 3||1.21|0.33|0.167
92448986|NCT02047110|184784859|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.5||||0.2652|TWO_SIDED|90.0|-12.1|26.6||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the primary endpoint, ASAS 40 response at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper-Pearson method. Difference calculated as risankizumab 18 mg minus Placebo."|To control the type I error rate, the primary endpoint was tested in a hierarchical fixed sequence approach. The proportion of patients achieving ASAS 40 response at Week 12 was pairwise compared in the following sequence: risankizumab 180 mg vs. placebo (1.) and risankizumab 90 mg vs. placebo (2.). The significance level was 5% (1-sided). The comparison risankizumab 18 mg vs. placebo was not included in the formal testing sequence; an exploratory p-value was provided.||26.6|-12.1|0.2652
92448987|NCT02047110|184784859|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.0||||0.4129|TWO_SIDED|90.0|-15.9|20.8||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the primary endpoint, ASAS 40 response at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 90 mg minus Placebo."|To control the type I error rate, the primary endpoint was tested in a hierarchical fixed sequence approach. The proportion of patients achieving ASAS 40 response at Week 12 was pairwise compared in the following sequence: risankizumab 180 mg vs. placebo (1.) and risankizumab 90 mg vs. placebo (2.). The significance level was 5% (1-sided). The comparison risankizumab 18 mg vs. placebo was not included in the formal testing sequence; an exploratory p-value was provided.||20.8|-15.9|0.4129
92240717|NCT04742907|184384764|SUPERIORITY||Odds Ratio (OR)|0.63||||0.4|TWO_SIDED|95.0|0.21|1.86||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||1.86|0.21|0.400
92240718|NCT04742907|184384764|SUPERIORITY||Odds Ratio (OR)|0.28||||0.083|TWO_SIDED|95.0|0.07|1.18|||Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||1.18|0.07|0.083
92448988|NCT02047110|184784859|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.5||||0.4243|TWO_SIDED|90.0|-21.8|17.0||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the primary endpoint, ASAS 40 response at Week 12, between treatment groups|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 180 mg minus Placebo."|To control the type I error rate, the primary endpoint was tested in a hierarchical fixed sequence approach. The proportion of patients achieving ASAS 40 response at Week 12 was pairwise compared in the following sequence: risankizumab 180 mg vs. placebo (1.) and risankizumab 90 mg vs. placebo (2.). The significance level was 5% (1-sided). The comparison risankizumab 18 mg vs. placebo was not included in the formal testing sequence; an exploratory p-value was provided.||17.0|-21.8|0.4243
92448989|NCT02047110|184784860|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|-0.4||||0.0229|TWO_SIDED|90.0|-0.7|-0.1||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 18 mg minus Placebo."|||-0.1|-0.7|0.0229
92448990|NCT02047110|184784860|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|-0.3||||0.1038|TWO_SIDED|90.0|-0.6|0.1||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 90 mg minus Placebo."|||0.1|-0.6|0.1038
92448991|NCT02047110|184784860|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|-0.5||||0.0101|TWO_SIDED|90.0|-0.7|-0.1||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 180 mg minus Placebo."|||-0.1|-0.7|0.0101
92448992|NCT02047110|184784861|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.0||||0.0238|TWO_SIDED|90.0|-4.6|33.8||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper-Pearson method. Difference calculated as risankizumab 18 mg minus Placebo."|||33.8|-4.6|0.0238
92448993|NCT02047110|184784861|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.1||||0.012|TWO_SIDED|90.0|-0.8|35.3||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 90 mg minus Placebo."|||35.3|-0.8|0.0120
92448994|NCT02047110|184784861|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.5||||0.0465|TWO_SIDED|90.0|-7.1|31.4||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 180 mg minus Placebo."|||31.4|-7.1|0.0465
92182223|NCT00790699|184263249|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||RM-ANOVA|||The results were evaluated to determine if any statistically significant changes in any of these measures between the first and final visit occurred and if these changes were associated with membership in the treatment or control group.||||>.05
92182224|NCT03732807|184263250|SUPERIORITY||Estimate of difference|29.11|||<|1e-06|TWO_SIDED|95.0|21.17|37.91|||Miettinen and Nurminen method|||||37.91|21.17|<0.000001
92182225|NCT03732807|184263250|SUPERIORITY||Estimate of difference|20.78|||<|1e-06|TWO_SIDED|95.0|13.65|29.18|||Miettinen and Nurminen method|||||29.18|13.65|<0.000001
92182226|NCT03732807|184263250|SUPERIORITY||Estimate of difference|21.85|||<|1e-06|TWO_SIDED|95.0|14.65|30.23|||Miettinen and Nurminen method|||||30.23|14.65|<0.000001
92182227|NCT03732807|184263250|SUPERIORITY||Estimate of difference|12.75||||0.000154|TWO_SIDED|95.0|6.69|20.36|||Miettinen and Nurminen method|||||20.36|6.69|0.000154
92182228|NCT03732807|184263251|SUPERIORITY||Estimate of difference|19.75|||<|1e-06|TWO_SIDED|95.0|11.91|27.59|||Miettinen and Nurminen method|||A generalized linear mixed effect model without imputation using observed data up to Week 24 was used as the imputation model. A single complete imputed data set for Week 24 was analyzed using the Miettinen and Nurminen method as the analysis model.||27.59|11.91|<0.000001
92182229|NCT03732807|184263251|SUPERIORITY||Estimate of difference|11.33||||0.000526||95.0|4.93|17.74|||Miettinen and Nurminen method|||A generalized linear mixed effect model without imputation using observed data up to Week 24 was used as the imputation model. A single complete imputed data set for Week 24 was analyzed using the Miettinen and Nurminen method as the analysis model.||17.74|4.93|0.000526
92448995|NCT02047110|184784862|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|90.0|-19.4|19.4|||||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper-Pearson method. Difference calculated as risankizumab 18 mg minus Placebo."|p-values are not presented as they were not meaningful; 3 treatment groups had only a single patient with partial remission.||19.4|-19.4|
92448996|NCT02047110|184784862|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1|||||TWO_SIDED|90.0|-18.3|18.3|||||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 90 mg minus Placebo."|p-values are not presented as they were not meaningful; 3 treatment groups had only a single patient with partial remission.||18.3|-18.3|
92448997|NCT02047110|184784862|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.5|||||TWO_SIDED|90.0|-12.1|26.6|||||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 180 mg minus Placebo."|p-values are not presented as they were not meaningful; 3 treatment groups had only a single patient with partial remission.||26.6|-12.1|
92448998|NCT02047110|184784863|SUPERIORITY_OR_OTHER||Risk Difference (RD)|25.0||||0.0092|TWO_SIDED|90.0|5.5|43.1||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper-Pearson method. Difference calculated as risankizumab 18 mg minus Placebo."|||43.1|5.5|0.0092
92448999|NCT02047110|184784863|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.3||||0.1243|TWO_SIDED|90.0|-5.9|30.5||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 90 mg minus Placebo."|||30.5|-5.9|0.1243
92449000|NCT02047110|184784863|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.5||||0.1198|TWO_SIDED|90.0|-7.1|31.4||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 180 mg minus Placebo."|||31.4|-7.1|0.1198
92449001|NCT02047110|184784864|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|-0.4||||0.1241|TWO_SIDED|90.0|-1.0|0.2||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 18 mg minus Placebo."|||0.2|-1.0|0.1241
92449002|NCT02047110|184784864|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|0.3||||0.3033|TWO_SIDED|90.0|-0.5|1.0||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 90 mg minus Placebo."|||1.0|-0.5|0.3033
92449003|NCT02047110|184784864|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|-0.2||||0.3203|TWO_SIDED|90.0|-0.8|0.4||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 180 mg minus Placebo."|||0.4|-0.8|0.3203
92449004|NCT02047110|184784865|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.5||||0.2639|TWO_SIDED|90.0|-12.1|26.6||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 24, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper-Pearson method. Difference calculated as risankizumab 18 mg minus Placebo."|||26.6|-12.1|0.2639
92449005|NCT02047110|184784865|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.1||||0.2691|TWO_SIDED|90.0|-10.9|25.7||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 24, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 90 mg minus Placebo."|||25.7|-10.9|0.2691
92449006|NCT02047110|184784865|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.5||||0.4174|TWO_SIDED|90.0|-21.8|17.0||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 24, between treatment groups|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 180 mg minus Placebo."|||17.0|-21.8|0.4174
92449007|NCT01959581|184784888|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||Repeated measures ANOVA||||<.05
92449008|NCT03304379|184784890|SUPERIORITY||Least Square (LS) Mean Difference|-0.63|||=|0.0003|TWO_SIDED|95.0|-0.971|-0.286||Threshold for significance at 0.05 level.|MMRM|||Analyses were based on a multiple imputation approach using a Mixed-Effect Model With Repeated Measure (MMRM) model with baseline randomization strata, baseline, treatment, visit and treatment by-visit interaction.||-0.286|-0.971|= 0.0003
92449009|NCT03304379|184784890|SUPERIORITY||LS Mean Difference|-0.77|||>|0.0001|TWO_SIDED|95.0|-1.154|-0.383||Threshold for significance at 0.05 level.|MMRM|||"(mFAS)~Analyses were based on a multiple imputation approach using a MMRM model with baseline, randomization strata, baseline, treatment, visit and treatment by-visit interaction"||-0.383|-1.154|> 0.0001
92449010|NCT03304379|184784891|SUPERIORITY||LS Mean Difference|-0.64|||=|0.0003|TWO_SIDED|95.0|-0.981|-0.29||Threshold for significance at 0.05 level.|MMRM|||Analyses were based on a multiple imputation approach using a Mixed-Effect Model With Repeated Measure (MMRM) model with baseline randomization strata, baseline, treatment, visit and treatment by-visit interaction.||-0.290|-0.981|= 0.0003
92449011|NCT03304379|184784891|SUPERIORITY||LS Mean Difference|-0.82|||<|0.0001|TWO_SIDED|95.0|-1.198|-0.443||Threshold for significance at 0.05 level|MMRM|||"(mFAS)~Analyses were based on a multiple imputation approach using an Mixed-Effect Model With Repeated Measure (MMRM) model with baseline randomization strata, baseline, treatment, visit and treatment by-visit interaction."||-0.443|-1.198|<0.0001
92240719|NCT04742907|184384765|SUPERIORITY||Odds Ratio (OR)|1.33||||0.621|TWO_SIDED|95.0|0.43|4.14||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||POI-related Morbidity status is analyzed using logistic regression with POI-related morbidity as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|||4.14|0.43|0.621
92449012|NCT03304379|184784892|SUPERIORITY||Odds Ratio (OR)|1.581|||=|0.0013|TWO_SIDED|95.0|1.195|2.092||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Analyses are based on Cochran-Mantel-Haenszel model.||2.092|1.195|= 0.0013
92449013|NCT03304379|184784893|SUPERIORITY||LS Mean Difference|-0.14|||=|0.0365|TWO_SIDED|95.0|-0.28|-0.009||Threshold for significance at 0.05 level.|MMRM|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Analyses are based on a multiple imputation approach using Mixed-Effect Model With Repeated Measure (MMRM) model.||-0.009|-0.28|= 0.0365
92449014|NCT03402243|184784908|SUPERIORITY||Estimated mean ratio|1.38|||||TWO_SIDED|95.0|1.1|1.75|||||Baseline adjusted model estimated mean ratio in cigarettes smoked per day of those randomized to a total menthol ban smoked relative to those randomized to a menthol cigarette ban|||1.75|1.1|
92449015|NCT03402243|184784908|SUPERIORITY||Estimated mean ratio|0.87|||||TWO_SIDED|95.0|0.68|1.11|||||Baseline adjusted model estimated mean ratio in cigarettes smoked per day of those randomized to a menthol cigarettes ban relative to those randomized to no menthol ban|||1.11|0.68|
92449016|NCT03402243|184784908|SUPERIORITY||Estimated mean ratio|1.2|||||TWO_SIDED|95.0|0.99|1.45|||||Baseline adjusted model estimated mean ratio in cigarettes smoked per day of those randomized to a menthol ban for cigarettes and e-cigarettes relative to those randomized to no menthol ban|||1.45|0.99|
92449017|NCT03402243|184784908|SUPERIORITY|||||||0.349|||||||Kruskal-Wallis|||Average number of puffs per participants over the 6 week study period||||0.349
92449018|NCT03402243|184784909|SUPERIORITY|||||||0.185|||||||Mixed Models Analysis|||Comparison among groups in number of cigarette packs selected||||0.185
92449019|NCT03402243|184784909|SUPERIORITY|||||||0.076|||||||Mixed Models Analysis|||Comparison among groups in number of e-cigarette liquid units selected||||0.076
92449020|NCT03402243|184784910|SUPERIORITY|||||||0.27|||||||Mixed Models Analysis|||||||0.27
92449021|NCT02802345|184784915|SUPERIORITY||Adjusted mean difference|-0.52|STANDARD_ERROR_OF_MEAN|1.431||0.7191|TWO_SIDED|95.0|-3.33|2.3|||Mixed Model for Repeated Measures (MMRM)|The Roger- Kenward approximation was used to estimate denominator degrees of freedom.|Adjusted mean difference (Nintedanib +placebo vs Nintedanib+sildenafil) is based on all analyzed patients in the model (not only patients with a measurement at baseline and at 12 weeks).|Mixed Model for Repeated Measures (MMRM) included fixed effects for treatment, visit, presence of any echocardiographic signs, baseline SGRQ total score as covariate, treatment-by-visit and baseline SGRQ total score-by-visit interaction terms using an unstructured covariance matrix. No imputation was planned. Data collected after Visit 5 (planned 12 weeks after start of study treatment) were not used for this analysis.|"H0: There is no difference in the mean change from baseline in SGRQ total score at Week 12 between treatment with nintedanib co-administered with sildenafil and treatment with nintedanib alone.~Ha: There is a difference in the mean change from baseline in SGRQ total score at Week 12 between treatment with nintedanib co-administered with sildenafil and treatment with nintedanib alone."|2.30|-3.33|0.7191
92449022|NCT02802345|184784916|SUPERIORITY||Adjusted mean difference|-2.94|STANDARD_ERROR_OF_MEAN|2.198||0.1823|TWO_SIDED|95.0|-7.27|1.39|||Mixed Model for Repeated Measures (MMRM)|The Roger- Kenward approximation was used to estimate denominator degrees of freedom.|Adjusted mean difference (Nintedanib +placebo vs Nintedanib+sildenafil) is based on all analyzed patients in the model (not only patients with a measurement at baseline and at 12 weeks)|Mixed Model for Repeated Measures (MMRM) included fixed effects for treatment, visit, presence of any echocardiographic signs, baseline UCSD SOBQ total score as covariate, treatment-by-visit and baseline UCSD SOBQ total score-by-visit interaction terms using an unstructured covariance matrix. No imputation was planned. Data collected after Visit 5 (planned 12 weeks after start of study treatment) were not used for this analysis.||1.39|-7.27|0.1823
92240720|NCT04742907|184384765|SUPERIORITY||Odds Ratio (OR)|1.03||||0.962|TWO_SIDED|95.0|0.31|3.46||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||POI-related Morbidity status is analyzed using logistic regression with POI-related morbidity as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|||3.46|0.31|0.962
92240721|NCT04742907|184384767|SUPERIORITY||Odds Ratio (OR)|1.16||||0.604|TWO_SIDED|95.0|0.66|2.05||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||2.05|0.66|0.604
92240722|NCT04742907|184384767|SUPERIORITY||Odds Ratio (OR)|1.12||||0.693|TWO_SIDED|95.0|0.63|1.99||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||1.99|0.63|0.693
92449023|NCT02802345|184784917|SUPERIORITY||Adjusted mean difference|-2.19|STANDARD_ERROR_OF_MEAN|1.631||0.1809|TWO_SIDED|95.0|-5.4|1.02|||Mixed Model for Repeated Measures (MMRM)|The Roger- Kenward approximation was used to estimate denominator degrees of freedom.|Adjusted mean difference (Nintedanib +placebo vs Nintedanib+sildenafil) is based on all analyzed patients in the model (not only patients with a measurement at baseline and at 24 weeks)|Mixed Model for Repeated Measures (MMRM) included fixed effects for treatment, visit, presence of any echocardiographic signs, baseline SGRQ total score as covariate, treatment-by-visit and baseline SGRQ total score-by-visit interaction terms using an unstructured covariance matrix. No imputation was planned.||1.02|-5.40|0.1809
92449024|NCT02802345|184784918|SUPERIORITY||Adjusted mean difference|-2.41|STANDARD_ERROR_OF_MEAN|2.529||0.3421|TWO_SIDED|95.0|-7.39|2.58|||Mixed Model for Repeated Measures (MMRM)|The Roger- Kenward approximation was used to estimate denominator degrees of freedom.|Adjusted mean difference (Nintedanib +placebo vs Nintedanib+sildenafil) is based on all analyzed patients in the model (not only patients with a measurement at baseline and at 24 weeks)|Mixed Model for Repeated Measures (MMRM) included fixed effects for treatment, visit, presence of any echocardiographic signs, baseline UCSD SOBQ total score as covariate, treatment-by-visit and baseline UCSD SOBQ total score-by-visit interaction terms using an unstructured covariance matrix. No imputation was planned.||2.58|-7.39|0.3421
92449025|NCT02802345|184784919|SUPERIORITY||Percentage ratio (%)|0.83|||||TWO_SIDED|95.0|0.58|1.2|||||Within strata confidence limits are calculated according to Wald. Percentage ratio = (% of Nintedanib+sildenafil) / (% of Nintedanib+placebo).|Relative risk, Comparison of treatment groups is calculated by Cochran-Mantel-Haenszel test adjusting for the categorical covariate presence of any echocardiographic signs indicative of right heart dysfunction (yes/no), adjusted Mantel-Haenszel type risk ratios and risk differences with 95% confidence are presented.||1.20|0.58|
92449026|NCT02802345|184784919|SUPERIORITY||Percentage difference (%)|-5.37||||0.334|TWO_SIDED|95.0|-16.25|5.52|||Cochran-Mantel-Haenszel||Within strata confidence limits are calculated according to Wald. Percentage difference = (% of Nintedanib+sildenafil) - (% of Nintedanib+placebo).|Risk difference, Comparison of treatment groups is calculated by Cochran-Mantel-Haenszel test adjusting for the categorical covariate presence of any echocardiographic signs indicative of right heart dysfunction (yes/no), adjusted Mantel-Haenszel type risk ratios and risk differences with 95% confidence are presented.||5.52|-16.25|0.334
92449027|NCT03969212|184784921|SUPERIORITY||Adjusted OR (BMX vs Placebo)|0.68|||=|0.013|TWO_SIDED|95.38|0.5|0.93|||GEE|||The odds ratio (OR) shown represents the odds of Baloxavir Marboxil (BMX) versus the odds of Placebo.||0.93|0.50|= 0.013
92449028|NCT03969212|184784922|SUPERIORITY||Adjusted OR (BMX vs Placebo)|0.75|||=|0.155|TWO_SIDED|95.38|0.5|1.12|||GEE model|||The OR shown represents the odds of BMX versus the odds of Placebo.||1.12|0.50|= 0.1550
92449029|NCT03969212|184784923|OTHER||Odds Ratio (BMX vs Placebo}]|0.76|||||TWO_SIDED|95.38|0.55|1.06||||||The OR shown represents the odds of BMX versus the odds of Placebo.||1.06|0.55|
92449030|NCT03969212|184784924|OTHER||Odds Ratio (BMX vs Placebo)|0.69|||||TWO_SIDED|95.38|0.46|1.04||||||The OR shown represents the odds of BMX versus the odds of Placebo.||1.04|0.46|
92449031|NCT03969212|184784925|OTHER||Adjusted OR (BMX vs Placebo)|0.66|||||TWO_SIDED|95.38|0.48|0.91|||GEE model|||The OR shown represents the odds of BMX versus the odds of Placebo.||0.91|0.48|
92449032|NCT03969212|184784926|OTHER||Adjusted OR (BMX vs Placebo)|0.73|||||TWO_SIDED|95.38|0.48|1.09|||Two-Sided P-value|||The OR shown represents the odds of BMX versus the odds of Placebo.||1.09|0.48|
92449033|NCT03969212|184784927|OTHER||Adjusted OR (BMX vs Placebo)|0.71|||||TWO_SIDED|95.38|0.53|0.94|||Two-Sided P-value|||The OR shown represents the odds of BMX versus the odds of Placebo.||0.94|0.53|
92449034|NCT03969212|184784928|OTHER||Odds Ratio (BMX vs Placebo)|0.79|||||TWO_SIDED|95.38|0.59|1.06||||||The OR shown represents the odds of BMX versus the odds of Placebo.||1.06|0.59|
92449035|NCT03969212|184784929|OTHER||Adjusted OR (BMX vs Placebo)|0.72|||||TWO_SIDED|95.38|0.49|1.07|||Two-Sided P-value|||The OR shown represents the odds of BMX versus the odds of Placebo.||1.07|0.49|
92449036|NCT03969212|184784930|OTHER||Odds Ratio (BMX vs Placebo)|0.71|||||TWO_SIDED|95.38|0.48|1.04||||||The OR shown represents the odds of BMX versus the odds of Placebo.||1.04|0.48|
92449037|NCT03773757|184784938|SUPERIORITY|Longitudinal measures of NPI-Q patient over 24 months were compared between the two groups using mixed effects model that included a group indicator variable, time since baseline, and an interaction between group and time as independent variables. Unstructured variance-covariance matrix was used to adjust for within-subject correlations over time. Predicted differences in mean scores between the two groups at each time point were estimated using the contrast procedures in the mixed model.||||||0.8719|||||||Mixed Models Analysis|||||||0.8719
92449038|NCT03773757|184784939|SUPERIORITY|Longitudinal measures of SM-EOLD over 24 months were compared between the two groups using mixed effects model that included a group indicator variable, time since baseline, and an interaction between group and time as independent variables. Unstructured variance-covariance matrix was used to adjust for within-subject correlations over time. Predicted differences in mean scores between the two groups at each time point were estimated using the contrast procedures in the mixed model.||||||0.8389|||||||Mixed Models Analysis|||||||0.8389
92240723|NCT04742907|184384767|SUPERIORITY||Odds Ratio (OR)|1.8||||0.122|TWO_SIDED|95.0|0.85|3.78||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||3.78|0.85|0.122
92240724|NCT04742907|184384767|SUPERIORITY||Odds Ratio (OR)|0.78||||0.518|TWO_SIDED|95.0|0.36|1.67||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||1.67|0.36|0.518
92240725|NCT04742907|184384767|SUPERIORITY||Odds Ratio (OR)|1.45||||0.528|TWO_SIDED|95.0|0.46|4.53||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 3||4.53|0.46|0.528
92240726|NCT04742907|184384767|SUPERIORITY||Odds Ratio (OR)|1.27||||0.689|TWO_SIDED|95.0|0.4|4.07||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 3||4.07|0.40|0.689
92240727|NCT04742907|184384767|SUPERIORITY||Odds Ratio (OR)|0.68||||0.653|TWO_SIDED|95.0|0.12|3.7||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||3.70|0.12|0.653
92240728|NCT04742907|184384767|SUPERIORITY||Odds Ratio (OR)|1.85||||0.452|TWO_SIDED|95.0|0.37|9.25||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||9.25|0.37|0.452
92240729|NCT04742907|184384768|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.359|TWO_SIDED|95.0|-1.8|0.6|||Mixed Models Analysis|||For Day 1, least square (LS) mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||0.6|-1.8|0.359
92449039|NCT03773757|184784940|SUPERIORITY|Longitudinal measures of PHQ-8 over 24 months were compared between the two groups using mixed effects model that included a group indicator variable, time since baseline, and an interaction between group and time as independent variables. Unstructured variance-covariance matrix was used to adjust for within-subject correlations over time. Predicted differences in mean scores between the two groups at each time point were estimated using the contrast procedures in the mixed model.||||||0.3431|||||||Mixed Models Analysis|||||||0.3431
92449040|NCT03773757|184784941|SUPERIORITY|Longitudinal measures of NPI-Q caregiver distress over 24 months were compared between the two groups using mixed effects model including a group indicator variable, time since baseline, and an interaction between group and time as independent variables. Unstructured variance-covariance matrix was used to adjust for within-subject correlations over time. Predicted differences in mean scores between the two groups at each time point were estimated using the contrast procedures in the mixed model.||||||0.6612|||||||Mixed Models Analysis|||||||0.6612
92240730|NCT04742907|184384768|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.907|TWO_SIDED|95.0|-1.3|1.2|||Mixed Models Analysis|||For Day 1, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||1.2|-1.3|0.907
92449041|NCT03773757|184784942|SUPERIORITY|A zero-inflated Poisson (ZIP) model was used to compare the mean numbers of hospitalization/ED events between the two groups. The ZIP model consists of a combination of a standard Poisson distribution for count data and a binary logistic regression model to account for additional zero events exceeding what would be expected from an underlying Poisson distribution.||||||0.0007|||||||Zero-Inflated Poisson Regression Model|||||||0.0007
92280683|NCT02581345|184464123|OTHER|No formal hypothesis testing of equivalence was performed for the comparison between M923 and EU RPP using the secondary efficacy outcome measures. Confidence Interval for difference in proportion in original scale calculated using stratified Newcombe method. Protocol defined margins are: \[-0.18;+0.18\] for 90% confidence interval.|Difference in proportion (M923 - EU RPP)|-0.022|||||TWO_SIDED|90.0|-0.061|0.016||||||||0.016|-0.061|
92449042|NCT01109316|184784944|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.48|||||TWO_SIDED|95.0|0.2|0.76|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Age stratum + Baseline HbA1c.|This was the primary gated analysis.||0.76|0.20|
92449043|NCT01109316|184784945|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.22|||||TWO_SIDED|95.0|-0.07|0.52|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Age Stratum + Baseline HbA1c; where participant is treated as a random effect.|||0.52|-0.07|
92449044|NCT01109316|184784945|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.25|||||TWO_SIDED|95.0|-0.05|0.56|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Age Stratum + Baseline HbA1c; where participant is treated as a random effect.|||0.56|-0.05|
92449045|NCT01109316|184784946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.11|||||TWO_SIDED|95.0|-0.29|0.51|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.51|-0.29|
92449046|NCT01109316|184784946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.16|||||TWO_SIDED|95.0|-0.41|0.73|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.73|-0.41|
92449047|NCT01109316|184784946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.03|||||TWO_SIDED|95.0|-0.18|0.24|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.24|-0.18|
92449048|NCT01109316|184784946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.14|||||TWO_SIDED|95.0|-0.56|0.27|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.27|-0.56|
92449049|NCT01109316|184784946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.06|||||TWO_SIDED|95.0|-0.48|0.6|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.60|-0.48|
92449050|NCT01109316|184784946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.1|||||TWO_SIDED|95.0|-0.85|0.65|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.65|-0.85|
92449051|NCT01109316|184784947|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.06|||||TWO_SIDED|95.0|-0.02|0.14|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Period + Sequence + Baseline HbA1c.|||0.14|-0.02|
92449052|NCT01109316|184784947|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.09|||||TWO_SIDED|95.0|0.01|0.18|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Period + Sequence + Baseline HbA1c.|||0.18|0.01|
92449053|NCT01109316|184784948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.5|1.75|||||Odds Ratio of HbA1c ≤6.5% for Insulin Lispro 6 Day versus Insulin Aspart 6 Day.|||1.75|0.50|
92449054|NCT01109316|184784948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.29|1.67|||||Odds Ratio of HbA1c ≤6.5% for Insulin Lispro 6 Day versus Insulin Lispro 2 Day.|||1.67|0.29|
92449055|NCT01109316|184784948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.56|1.41|||||Odds Ratio of HbA1c \<7% for Insulin Lispro 6 Day versus Insulin Aspart 6 Day.|||1.41|0.56|
92449056|NCT01109316|184784948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.66|1.64|||||Odds Ratio of HbA1c \<7% for Insulin Lispro 6 Day versus Insulin Lispro 2 Day.|||1.64|0.66|
92449057|NCT01109316|184784949|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value computed using Treatment comparison Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used for p-value calculation.|Gart's Test|||||||1.00
92449058|NCT01109316|184784950|SUPERIORITY_OR_OTHER|||||||0.164||95.0||||P-value computed using a negative binomial test including factors for treatment, period, and sequence.|Negative Binomial Test|||||||0.164
92449059|NCT01109316|184784950|SUPERIORITY_OR_OTHER|||||||0.185||95.0||||P-value computed using a negative binomial test including factors for treatment, period, and sequence.|Negative Binomial Test|||||||0.185
92449060|NCT01109316|184784951|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||P-value for Premature Reservoir Change. P-value computed using Treatment comparison Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used for p-value calculation.|Gart's Test|||||||0.736
92240731|NCT04742907|184384768|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.856|TWO_SIDED|95.0|-1.3|1.6|||Mixed Models Analysis|||For Day 2, LS mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||1.6|-1.3|0.856
92240732|NCT04742907|184384768|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.18|TWO_SIDED|95.0|-2.7|0.5|||Mixed Models Analysis|||For Day 2, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||0.5|-2.7|0.180
92240733|NCT04742907|184384768|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.814|TWO_SIDED|95.0|-1.9|2.4|||Mixed Models Analysis|||For Day 3, LS mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||2.4|-1.9|0.814
92449061|NCT01109316|184784951|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value for Premature Reservoir Change. P-value computed using Treatment comparison Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used for p-value calculation.|Gart's Test|||||||0.006
92449062|NCT01109316|184784951|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for Premature Infusion Set Change. P-value computed using Treatment comparison Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used for p-value calculation.|Gart's Test|||||||1.00
92449063|NCT01109316|184784951|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value for Premature Infusion Set Change. P-value computed using Treatment comparison Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used for p-value calculation.|Gart's Test|||||||0.017
92449064|NCT01109316|184784952|SUPERIORITY_OR_OTHER|||||||0.471||95.0||||P-value for Premature Reservoir Change. P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||0.471
92449065|NCT01109316|184784952|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Premature Reservoir Change. P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||<0.001
92449066|NCT01109316|184784952|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||P-value for Premature Infusion Set Change. P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||0.737
92449067|NCT01109316|184784952|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Premature Infusion Set Change. P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||<0.001
92240734|NCT04742907|184384768|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.409|TWO_SIDED|95.0|-3.2|1.3|||Mixed Models Analysis|||For Day 3, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||1.3|-3.2|0.409
92449068|NCT01109316|184784954|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||0.006
92449069|NCT01109316|184784954|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||0.002
92449070|NCT01109316|184784955|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Body Weight.|Crossover Model|||||||0.060
92449071|NCT01109316|184784955|SUPERIORITY_OR_OTHER|||||||0.486||95.0||||P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Body Weight.|Crossover Model|||||||0.486
92449072|NCT01109316|184784956|SUPERIORITY_OR_OTHER|||||||0.056||95.0||||P-value is for Systolic Blood Pressure. P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Systolic Blood Pressure.|Crossover Model|||||||0.056
92449073|NCT01109316|184784956|SUPERIORITY_OR_OTHER|||||||0.805||95.0||||P-value is for Systolic Blood Pressure. P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Systolic Blood Pressure.|Crossover Model|||||||0.805
92449074|NCT01109316|184784956|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value is for Diastolic Blood Pressure. P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Diastolic Blood Pressure.|Crossover Model|||||||0.020
92449075|NCT01109316|184784956|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value is for Diastolic Blood Pressure. P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Diastolic Blood Pressure.|Crossover Model|||||||0.051
92449076|NCT00550836|184784977|SUPERIORITY|||||||0.36|||||||Log Rank|||It was calculated that 39 participants randomized in a 1:1 fashion between the 2 arms would have 80% to detect a difference in median survival of 6 vs. 9.7 months for GE vs. PGE respectively with a minimum follow up of 6 months. Sample size was determined using a 1-sided log-rank test at alpha=0.20.||||0.36
92449077|NCT00550836|184784978|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92449078|NCT00550836|184784979|SUPERIORITY|||||||0.419|||||||Log Rank|||||||0.419
92449079|NCT00550836|184784980|OTHER|||||||0.36|||||||Log Rank|||||||0.36
92449080|NCT01848990|184785043|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the 95% CI for the treatment difference ≤0.40, it is concluded that Hylenex recombinant preadministration is noninferior to standard CSII.|least squares mean treatment difference|0.05||||0.4516|TWO_SIDED|95.0|-0.08|0.18|||ANOVA|Analysis of variance (ANOVA) with treatment (Hylenex, standard rapid-acting insulin CSII) as a fixed effect|Hylenex minus Standard CSII|Sample size calculated based on approximately 400 participants (Pt) being enrolled. No more than 10% dropout rate at 6 months allowed at least 270 Hylenex and 90 standard CSII Pt to reach primary metabolic endpoint evaluation. Assuming HbA1c standard deviation of 0.7% and population difference of 0% between treatments, Pt reaching primary efficacy endpoint would provide \>90% power to demonstrate HbA1c noninferiority at margin of 0.4% using confidence bound from 2-tailed 95% confidence interval.||0.18|-0.08|0.4516
92240735|NCT04742907|184384769|SUPERIORITY||Odds Ratio (OR)|0.8||||0.43|TWO_SIDED|95.0|0.46|1.4||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||1.40|0.46|0.430
92449081|NCT01848990|184785044|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the 95% CI for the treatment difference ≤0.40, it is concluded that Hylenex recombinant preadministration is noninferior to standard CSII.|least squares mean treatment difference|0.14||||0.0711|TWO_SIDED|95.0|-0.01|0.28|||ANOVA|ANOVA with treatment (Hylenex, standard rapid-acting insulin CSII) as a fixed effect|Hylenex minus Standard CSII|Sample size calculated based on approximately 400 Pt being enrolled. No more than 10% dropout rate at 6 months allowed at least 270 Hylenex and 90 standard CSII Pt to reach primary metabolic endpoint evaluation. Assuming HbA1c standard deviation of 0.7% and population difference of 0% between treatments, Pt reaching primary efficacy endpoint would provide \>90% power to demonstrate HbA1c noninferiority at margin of 0.4% using confidence bound from 2-tailed 95% confidence interval.||0.28|-0.01|0.0711
92449082|NCT01848990|184785045|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.69||||0.0105|TWO_SIDED|||||SMBG \<56 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.0105
92449083|NCT01848990|184785045|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.79||||0.013|TWO_SIDED|||||SMBG \<=70 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.0130
92240736|NCT04742907|184384769|SUPERIORITY||Odds Ratio (OR)|1.1||||0.739|TWO_SIDED|95.0|0.62|1.96||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||1.96|0.62|0.739
92449084|NCT01848990|184785045|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.78||||0.0511|TWO_SIDED|||||Nocturnal HEs|negative binomial model||Hylenex/Standard CSII|||||0.0511
92449085|NCT01848990|184785045|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.34||||0.1176|TWO_SIDED|||||Severe HEs|negative binomial model||Hylenex/Standard CSII|||||0.1176
92449086|NCT01848990|184785046|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.81||||0.0456|TWO_SIDED|||||SMBG \<56 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.0456
92449087|NCT01848990|184785046|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.92||||0.2322|TWO_SIDED|||||SMBG \<=70 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.2322
92449088|NCT01848990|184785046|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.87||||0.1365|TWO_SIDED|||||Nocturnal HEs|negative binomial model||Hylenex/Standard CSII|||||0.1365
92449089|NCT01848990|184785046|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|1.07||||0.8909|TWO_SIDED|||||Severe HEs|negative binomial model||Hylenex/Standard CSII|||||0.8909
92449090|NCT01848990|184785047|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.98||||0.7292|TWO_SIDED|||||SMBG \>240 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.7292
92449091|NCT01848990|184785047|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.95||||0.5895|TWO_SIDED|||||SMBG \>300 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.5895
92449092|NCT01848990|184785048|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|1.04||||0.5414|TWO_SIDED|||||SMBG \>240 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.5414
92449093|NCT01848990|184785048|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|1.03||||0.711|TWO_SIDED|||||SMBG \>300 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.7110
92449094|NCT01848990|184785049|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-3.4||||0.5394|TWO_SIDED|95.0|-14.2|7.5||Breakfast|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||7.5|-14.2|0.5394
92449095|NCT01848990|184785049|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|4.3||||0.4151|TWO_SIDED|95.0|-6.1|14.8||Lunch|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||14.8|-6.1|0.4151
92449096|NCT01848990|184785049|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.993|TWO_SIDED|95.0|-9.5|9.6||Dinner|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||9.6|-9.5|0.9930
92449097|NCT01848990|184785049|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.2||||0.941|TWO_SIDED|95.0|-6.4|6.9||Overall|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||6.9|-6.4|0.9410
92449098|NCT01848990|184785050|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-4.8||||0.3239|TWO_SIDED|95.0|-14.3|4.7||Breakfast|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||4.7|-14.3|0.3239
92449099|NCT01848990|184785050|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|1.4||||0.754|TWO_SIDED|95.0|-7.4|10.2||Lunch|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||10.2|-7.4|0.7540
92449100|NCT01848990|184785050|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-1.1||||0.7904|TWO_SIDED|95.0|-9.5|7.2||Dinner|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||7.2|-9.5|0.7904
92449101|NCT01848990|184785050|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-2.6||||0.4016|TWO_SIDED|95.0|-8.5|3.4||Overall|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||3.4|-8.5|0.4016
92240737|NCT04742907|184384769|SUPERIORITY||Odds Ratio (OR)|0.54||||0.13|TWO_SIDED|95.0|0.25|1.2||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||1.20|0.25|0.130
92240738|NCT04742907|184384769|SUPERIORITY||Odds Ratio (OR)|0.52||||0.099|TWO_SIDED|95.0|0.24|1.13||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||1.13|0.24|0.099
92449102|NCT01848990|184785051|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-1.4||||0.526|TWO_SIDED|95.0|-5.6|2.9|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||2.9|-5.6|0.5260
92449103|NCT01848990|184785052|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.5||||0.8049|TWO_SIDED|95.0|-3.7|4.7|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||4.7|-3.7|0.8049
92449104|NCT01848990|184785053|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%||||||0.8955||||||HbA1c \<7.0%|Chi-squared|||||||0.8955
92449105|NCT01848990|184785053|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%||||||0.8926||||||HbA1c ≤6.5%|Chi-squared|||||||0.8926
92449106|NCT01848990|184785054|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.13||||0.7735|TWO_SIDED|95.0|-0.76|1.03|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||1.03|-0.76|0.7735
92449107|NCT01848990|184785055|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-1.1||||0.4948|TWO_SIDED|95.0|-4.1|2.0||Daily bolus dose|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||2.0|-4.1|0.4948
92449108|NCT01848990|184785055|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|2.3||||0.1099|TWO_SIDED|95.0|-0.5|5.2||Daily basal dose|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||5.2|-0.5|0.1099
92449109|NCT01848990|184785055|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|1.4||||0.583|TWO_SIDED|95.0|-3.7|6.6||Daily total dose|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||6.6|-3.7|0.5830
92449110|NCT01848990|184785056|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.8778|TWO_SIDED|95.0|-1.0|1.1|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||1.1|-1.0|0.8778
92449111|NCT01848990|184785057|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-2.1||||0.3233|TWO_SIDED|95.0|-6.3|2.1|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||2.1|-6.3|0.3233
92449112|NCT01848990|184785059|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|1.0||||0.7708|TWO_SIDED|95.0|-5.8|7.8||Average glucose|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||7.8|-5.8|0.7708
92449113|NCT01848990|184785059|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|1.8||||0.6058|TWO_SIDED|95.0|-5.0|8.6||Median glucose|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||8.6|-5.0|0.6058
92449114|NCT01848990|184785059|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.7||||0.6571|TWO_SIDED|95.0|-4.0|2.5||Average daily standard deviation|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||2.5|-4.0|0.6571
92449115|NCT01848990|184785060|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-2.2||||0.6252|TWO_SIDED|95.0|-11.3|6.9||Time per day \<56 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||6.9|-11.3|0.6252
92449116|NCT01848990|184785060|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-5.5||||0.5929|TWO_SIDED|95.0|-25.9|14.9||Time per day ≤70 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||14.9|-25.9|0.5929
92449117|NCT01848990|184785060|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|6.9||||0.5207|TWO_SIDED|95.0|-14.4|28.3||Time per day \>70 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||28.3|-14.4|0.5207
92449118|NCT01848990|184785060|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-23.3||||0.4754|TWO_SIDED|95.0|-87.8|41.2||Time per day \<140 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||41.2|-87.8|0.4754
92449119|NCT01848990|184785060|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|23.9||||0.4644|TWO_SIDED|95.0|-40.7|88.6||Time per day ≥140 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||88.6|-40.7|0.4644
92449120|NCT01848990|184785060|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|2.8||||0.9232|TWO_SIDED|95.0|-54.2|59.8||Time per day outside of 71 to 180 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||59.8|-54.2|0.9232
92240739|NCT04742907|184384769|SUPERIORITY||Odds Ratio (OR)|0.78||||0.686|TWO_SIDED|95.0|0.23|2.63||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 3||2.63|0.23|0.686
92449121|NCT01848990|184785060|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|18.4||||0.5151|TWO_SIDED|95.0|-37.5|74.4||Time per day outside of 71 to 139 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||74.4|-37.5|0.5151
92449122|NCT01848990|184785061|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-33.5||||0.4216|TWO_SIDED|95.0|-115.9|48.9||Area per day \<56 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||48.9|-115.9|0.4216
92172352|NCT04521478|184235168|OTHER||Mean Difference (Net)|2.3|STANDARD_ERROR_OF_MEAN|2.2||0.304|TWO_SIDED|90.0|-1.4|5.9|||Mixed Models Analysis||Difference = (adjusted mean 25 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline MADRS total score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||5.9|-1.4|0.3040
92172353|NCT04521478|184235168|OTHER||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|2.2||0.309|TWO_SIDED|90.0|-1.4|5.7|||Mixed Models Analysis||Difference = (adjusted mean 75 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline MADRS total score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||5.7|-1.4|0.3090
92172354|NCT04521478|184235168|OTHER||Mean Difference (Net)|1.5|STANDARD_ERROR_OF_MEAN|1.7||0.3694|TWO_SIDED|90.0|-1.3|4.4|||Mixed Models Analysis||Difference = (adjusted mean 125 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline MADRS total score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||4.4|-1.3|0.3694
92172355|NCT04521478|184235168|OTHER|||||||0.9158|||||||MCPMod Linear model|No parameter assumptions required. Corresponding dose response is linear||The Multiple Comparison Procedures and Modeling (MCPMod) procedure used the estimated values from an MMRM model as input and allowed for simultaneous evaluation of different potential dose response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax), while protecting the overall false positive rate (probability of Type I error) using a one-sided, nominal α level of 10 %.||||0.9158
92240740|NCT04742907|184384769|SUPERIORITY||Odds Ratio (OR)|0.75||||0.644|TWO_SIDED|95.0|0.22|2.56||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 3||2.56|0.22|0.644
92240741|NCT04742907|184384769|SUPERIORITY||Odds Ratio (OR)|0.54||||0.498|TWO_SIDED|95.0|0.09|3.18||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||3.18|0.09|0.498
92449123|NCT01848990|184785061|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-84.7||||0.5697|TWO_SIDED|95.0|-379.2|209.8||Area per day ≤70 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||209.8|-379.2|0.5697
92449124|NCT01848990|184785061|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|342.9||||0.9241|TWO_SIDED|95.0|-6772.3|7458.2||Area per day ≥140 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||7458.2|-6772.3|0.9241
92449125|NCT01848990|184785061|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|2.8||||0.9232|TWO_SIDED|95.0|-54.2|59.8||Area per day outside of 71 to 180 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||59.8|-54.2|0.9232
92449126|NCT01848990|184785061|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|Mean Difference (Final Values)|258.2||||0.9423|TWO_SIDED|95.0|-6792.2|7308.7||Area per day outside of 71 to 139 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Least squares mean treatment difference (Hylenex minus Standard CSII)|||7308.7|-6792.2|0.9423
92449127|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.2||||0.5246|TWO_SIDED|95.0|-0.7|0.4||Leisure activities|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.4|-0.7|0.5246
92449128|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.1||||0.638|TWO_SIDED|95.0|-0.8|0.5||Work life|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.5|-0.8|0.6380
92449129|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.2||||0.5719|TWO_SIDED|95.0|-0.7|0.4||Local or long distance travel|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.4|-0.7|0.5719
92449130|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.2||||0.4052|TWO_SIDED|95.0|-0.8|0.3||Vacations|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.3|-0.8|0.4052
92449131|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.724|TWO_SIDED|95.0|-0.4|0.6||Do physically|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.4|0.7240
92172356|NCT04521478|184235168|OTHER|||||||0.8676|||||||MCPMod Exponential model|Assumption: 5% of the maximum effect is achieved at 25 mg; corresponding to a drug effect achieved mainly at higher doses||The Multiple Comparison Procedures and Modeling (MCPMod) procedure used the estimated values from an MMRM model as input and allowed for simultaneous evaluation of different potential dose response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax), while protecting the overall false positive rate (probability of Type I error) using a one-sided, nominal α level of 10 %.||||0.8676
92449132|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.6876|TWO_SIDED|95.0|-0.4|0.6||Family life|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.4|0.6876
92449133|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.6478|TWO_SIDED|95.0|-0.4|0.6||Friendships and social life|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.4|0.6478
92172357|NCT04521478|184235168|OTHER|||||||0.9552|||||||MCPMod Emax1 model|Assumption: 50% of the maximum effect is achieved at 25 mg; corresponding to the assumed true median effective dose (ED50) = 25 mg||The Multiple Comparison Procedures and Modeling (MCPMod) procedure used the estimated values from an MMRM model as input and allowed for simultaneous evaluation of different potential dose response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax), while protecting the overall false positive rate (probability of Type I error) using a one-sided, nominal α level of 10 %.||||0.9552
92172358|NCT04521478|184235168|OTHER|||||||0.9619|||||||MCPMod Emax2 model|Assumption: 70% of the maximum effect is achieved at 5 mg; corresponding to a drug effect achieved mainly with low doses, ED50 = 2.14 mg||The Multiple Comparison Procedures and Modeling (MCPMod) procedure used the estimated values from an MMRM model as input and allowed for simultaneous evaluation of different potential dose response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax), while protecting the overall false positive rate (probability of Type I error) using a one-sided, nominal α level of 10 %.||||0.9619
92172359|NCT04521478|184235168|OTHER|||||||0.9507|||||||MCPMod Sigmoid Emax model|Assumption: 50% of the maximum effect is achieved at 25 mg, 90% 75 mg; corresponding to a more flexible model of the assumed true ED50 = 25 mg||The Multiple Comparison Procedures and Modeling (MCPMod) procedure used the estimated values from an MMRM model as input and allowed for simultaneous evaluation of different potential dose response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax), while protecting the overall false positive rate (probability of Type I error) using a one-sided, nominal α level of 10 %.||||0.9507
92280684|NCT02581345|184464123|OTHER|No formal hypothesis testing of equivalence was performed for the comparison between M923 and EU RPP using the secondary efficacy outcome measures. Confidence Interval for difference in proportion in original scale calculated using stratified Newcombe method. Protocol defined margins are: \[-0.15;+0.15\] for 95% confidence interval.|Difference in proportion (M923 - EU RPP)|-0.022|||||TWO_SIDED|95.0|-0.069|0.024||||||||0.024|-0.069|
92449134|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.9744|TWO_SIDED|95.0|-0.6|0.6||Close personal relationship|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.6|0.9744
92449135|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.3||||0.3177|TWO_SIDED|95.0|-0.3|0.8||Sex life|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.8|-0.3|0.3177
92449136|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.3||||0.2087|TWO_SIDED|95.0|-0.2|0.7||Physical appearance|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.7|-0.2|0.2087
92449137|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.7907|TWO_SIDED|95.0|-0.4|0.5||Self-confidence|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.5|-0.4|0.7907
92449138|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.3||||0.3444|TWO_SIDED|95.0|-0.8|0.3||Motivation|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.3|-0.8|0.3444
92449139|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.2||||0.2175|TWO_SIDED|95.0|-0.1|0.6||The way people in general react|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.1|0.2175
92449140|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.4||||0.2062|TWO_SIDED|95.0|-1.0|0.2||Feelings about the future|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.2|-1.0|0.2062
92449141|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.8762|TWO_SIDED|95.0|-0.5|0.6||Financial situation|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.5|0.8762
92449142|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.89|TWO_SIDED|95.0|-0.5|0.5||Living situation and conditions|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.5|-0.5|0.8900
92449143|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.5||||0.1367|TWO_SIDED|95.0|-1.1|0.2||Depend on others|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.2|-1.1|0.1367
92449144|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.3||||0.3144|TWO_SIDED|95.0|-0.3|0.9||Freedom to eat|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.9|-0.3|0.3144
92449145|NCT01848990|184785062|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.6869|TWO_SIDED|95.0|-0.4|0.6||Freedom to drink|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.4|0.6869
92172360|NCT04521478|184235169|OTHER||Odds Ratio (OR)|0.9427||||0.8889|TWO_SIDED|90.0|0.4709|1.8873|||Regression, Logistic||5 mg BI 1358894 vs Placebo|Logistic regression model, including the fixed categorical effects of treatment and baseline MDD severity.||1.8873|0.4709|0.8889
92172361|NCT04521478|184235169|OTHER||Odds Ratio (OR)|0.6581||||0.3284|TWO_SIDED|90.0|0.3255|1.3307|||Regression, Logistic||25 mg BI 1358894 vs Placebo|Logistic regression model, including the fixed categorical effects of treatment and baseline MDD severity.||1.3307|0.3255|0.3284
92449146|NCT01848990|184785063|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.9901|TWO_SIDED|95.0|-0.3|0.3|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.3|-0.3|0.9901
92449147|NCT01848990|184785064|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.9081|TWO_SIDED|95.0|-1.1|1.3||DTSQs|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||1.3|-1.1|0.9081
92449148|NCT01848990|184785064|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.984|TWO_SIDED|95.0|-1.5|1.6||DTSQc|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||1.6|-1.5|0.9840
92172362|NCT04521478|184235169|OTHER||Odds Ratio (OR)|1.1026||||0.8048|TWO_SIDED|90.0|0.5757|2.1114|||Regression, Logistic||75 mg BI 1358894 vs Placebo|Logistic regression model, including the fixed categorical effects of treatment and baseline MDD severity.||2.1114|0.5757|0.8048
92172363|NCT04521478|184235169|OTHER||Odds Ratio (OR)|1.0072||||0.982|TWO_SIDED|90.0|0.5968|1.6999|||Regression, Logistic||125 mg BI 1358894 vs Placebo|Logistic regression model, including the fixed categorical effects of treatment and baseline MDD severity.||1.6999|0.5968|0.9820
92172364|NCT04521478|184235170|OTHER||Mean Difference (Net)|4.3|STANDARD_ERROR_OF_MEAN|2.6||0.1013|TWO_SIDED|90.0|0.0|8.6|||Mixed Models Analysis||Difference = (adjusted mean 5 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (S-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||8.6|0.0|0.1013
92172365|NCT04521478|184235170|OTHER||Mean Difference (Net)|2.4|STANDARD_ERROR_OF_MEAN|2.6||0.3596|TWO_SIDED|90.0|-1.9|6.6|||Mixed Models Analysis||Difference = (adjusted mean 25 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (S-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||6.6|-1.9|0.3596
92172366|NCT04521478|184235170|OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|2.5||0.6745|TWO_SIDED|90.0|-5.2|3.1|||Mixed Models Analysis||Difference = (adjusted mean 75 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (S-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||3.1|-5.2|0.6745
92172367|NCT04521478|184235170|OTHER||Mean Difference (Net)|2.7|STANDARD_ERROR_OF_MEAN|2.0||0.187|TWO_SIDED|90.0|-0.7|6.0|||Mixed Models Analysis||Difference = (adjusted mean 125 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (S-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||6.0|-0.7|0.1870
92240742|NCT04742907|184384769|SUPERIORITY||Odds Ratio (OR)|0.71||||0.7|TWO_SIDED|95.0|0.12|4.05||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||4.05|0.12|0.700
92449149|NCT01312766|184785095|NON_INFERIORITY_OR_EQUIVALENCE|The one-way Analysis of Variance with Least-Squares means was performed to calculate the 95% Confidence Interval of the difference between the two treatments. If the lower bound of the 95% Confidence Interval of the difference between means (hMG-IBSA minus Menopur®) was greater than -2.1, then hMG-IBSA would be considered to be not-inferior to the comparator.|Mean Difference (Final Values)|1.9||||0.012|TWO_SIDED|95.0|0.43|3.43|||ANOVA|||||3.43|0.43|0.012
92449150|NCT01312766|184785096|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||ANOVA|||||||0.25
92449151|NCT01312766|184785098|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Fisher Exact|||||||0.90
92449152|NCT01312766|184785099|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||ANOVA|||||||0.02
92449153|NCT01312766|184785102|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Fisher Exact|||||||0.61
92449154|NCT01312766|184785103|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANOVA|||||||0.002
92449155|NCT01312766|184785104|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||ANOVA|||||||0.004
92172368|NCT04521478|184235170|OTHER||Mean Difference (Net)|4.1|STANDARD_ERROR_OF_MEAN|2.4||0.0921|TWO_SIDED|90.0|0.1|8.1|||Mixed Models Analysis||Difference = (adjusted mean 5 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (T-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||8.1|0.1|0.0921
92172369|NCT04521478|184235170|OTHER||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|2.4||0.7395|TWO_SIDED|90.0|-3.2|4.8|||Mixed Models Analysis||Difference = (adjusted mean 25 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (T-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||4.8|-3.2|0.7395
92449156|NCT01312766|184785105|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
92449157|NCT01312766|184785106|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||ANOVA|||||||0.04
92449158|NCT01312766|184785107|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Fisher Exact|||||||0.61
92240743|NCT04742907|184384770|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.919|TWO_SIDED|95.0|-0.9|0.8|||Mixed Models Analysis|||For Day 1, LS mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||0.8|-0.9|0.919
92240744|NCT04742907|184384770|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.016|TWO_SIDED|95.0|-1.8|-0.2|||Mixed Models Analysis|||For Day 1, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||-0.2|-1.8|0.016
92172370|NCT04521478|184235170|OTHER||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|2.4||0.6296|TWO_SIDED|90.0|-2.7|5.0|||Mixed Models Analysis||Difference = (adjusted mean 75 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (T-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||5.0|-2.7|0.6296
92449159|NCT00298038|184785108|SUPERIORITY|Analysis based on the overall comparison of time to the first breakthrough overt HE episode between rifaximin and placebo groups adjusting for analysis region, using the Cox proportional hazards model (Score test, \[that is, Log rank test stratified by analysis region\]) with a 2-sided test at a significance level of 0.05 under the proportional hazards assumption.|Hazard Ratio (HR)|0.421|||<|0.0001|TWO_SIDED|95.0|0.276|0.641|||Cox proportional hazards model|||||0.641|0.276|<0.0001
92449160|NCT01940705|184785117|SUPERIORITY||Mean Difference (Final Values)|5.578||||0.001|TWO_SIDED||||||ANOVA|||Analysis for Hearing Aid Skills and Knowledge test Skills scale||||0.001
92449161|NCT01940705|184785117|SUPERIORITY||Mean Difference (Final Values)|4.235||||0.003|TWO_SIDED||||||ANOVA|||Analysis for Hearing Aid Skills and Knowledge test Knowledge scale||||0.003
92449162|NCT01940705|184785118|SUPERIORITY||Mean Difference (Final Values)|0.956||||0.414|TWO_SIDED||||||ANOVA|||||||0.414
92449163|NCT01940705|184785119|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.847|TWO_SIDED||||||ANOVA|||||||0.847
92449164|NCT02447991|184785120|SUPERIORITY||||||<|0.33||||||Significance level p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of vertigo as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication.||||<0.33
92449165|NCT02447991|184785121|SUPERIORITY||||||<|0.18||||||Signficant at p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of unsteadiness/dizziness as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication||||<0.18
92449166|NCT02447991|184785122|SUPERIORITY||||||<|0.62||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of vertigo as measured by the proportion of treated episodes in which subjects experience freedom from vestibular symptoms (i.e., severity rating of Grade 0) at 1 hour after taking study medication.||||<0.62
92449167|NCT02447991|184785123|SUPERIORITY||||||<|0.19||||||Significance threshold p \< 0.05|Chi-squared, Corrected|This analysis applies to proportions of treated episodes||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of unsteadiness/dizziness as measured by the proportion of treated episodes in which subjects experience freedom from vestibular symptoms (i.e., severity rating of Grade 0) at 1 hour after taking study medication.||||<0.19
92449168|NCT02447991|184785124|SUPERIORITY||||||<|0.14||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of headaches as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication.||||<0.14
92449169|NCT02447991|184785125|SUPERIORITY||||||<|0.72||||||Significance threshold p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of photophobia/phonophobia as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication.||||<0.72
92449170|NCT02447991|184785126|SUPERIORITY||||||<|0.48||||||Significance threshold p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of sensitivity to motion as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication.||||<0.48
92449171|NCT02447991|184785127|SUPERIORITY||||||<|0.35||||||Significance threshold p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of nausea/vomiting as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication..||||<0.35
92449172|NCT02447991|184785128|SUPERIORITY||||||<|0.022||||||Significance of threshold p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on the Treatment Satisfaction Questionnaire for Medication at 48 hours after each attack treated with effectiveness of study medication||||<0.022
92449173|NCT02447991|184785128|SUPERIORITY||||||<|0.418||||||Significance of threshold p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on the Treatment Satisfaction Questionnaire for Medication at 48 hours after each attack treated with side effects of study medication||||<0.418
92182230|NCT03732807|184263251|SUPERIORITY||Estimate of difference|11.88||||0.000311||95.0|5.42|18.33|||Miettinen and Nurminen method|||A generalized linear mixed effect model without imputation using observed data up to Week 24 was used as the imputation model. A single complete imputed data set for Week 24 was analyzed using the Miettinen and Nurminen method as the analysis model.||18.33|5.42|0.000311
92182231|NCT03732807|184263251|SUPERIORITY||Estimate of difference|9.09||||0.002922||95.0|3.1|15.07|||Miettinen and Nurminen method|||A generalized linear mixed effect model without imputation using observed data up to Week 24 was used as the imputation model. A single complete imputed data set for Week 24 was analyzed using the Miettinen and Nurminen method as the analysis model.||15.07|3.10|0.002922
92182232|NCT03732807|184263252|SUPERIORITY||Estimate of difference|20.24|||<|1e-06||95.0|13.23|28.49|||Miettinen and Nurminen method|||||28.49|13.23|<0.000001
92182233|NCT03732807|184263252|SUPERIORITY||Estimate of difference|11.68||||0.000337||95.0|5.82|19.07|||Miettinen and Nurminen method|||||19.07|5.82|0.000337
92240745|NCT04742907|184384770|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.064|TWO_SIDED|95.0|-0.1|2.0|||Mixed Models Analysis|||For Day 2, LS mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||2.0|-0.1|0.064
92240746|NCT04742907|184384770|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.683|TWO_SIDED|95.0|-1.3|0.8|||Mixed Models Analysis|||For Day 2, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||0.8|-1.3|0.683
92449174|NCT02447991|184785128|SUPERIORITY||||||<|0.674||||||Significance of threshold p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on the Treatment Satisfaction Questionnaire for Medication at 48 hours after each attack treated with convenience of study medication||||<0.674
92449175|NCT02447991|184785128|SUPERIORITY||||||<|0.016||||||Significance of threshold of p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on the Treatment Satisfaction Questionnaire for Medication at 48 hours after each attack treated with overall satisfaction of study medication||||<0.016
92449176|NCT02447991|184785129|SUPERIORITY||||||<|0.009||||||Significance threshold p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on physical well-being||||<0.009
92449177|NCT02447991|184785129|SUPERIORITY||||||<|0.467||||||Significance threshold p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on mental well-being||||<0.467
92449178|NCT02447991|184785130|SUPERIORITY||||||<|0.013||||||Significance threshold p\<0.05|Logistic regression with GEE|GEE=generalized estimating equations - this accounts for repeated measures within patients.This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be tolerated as well as placebo with regard to fatigue.||||<0.013
92449179|NCT02447991|184785130|SUPERIORITY||||||<|0.021||||||Significance threshold p\<0.05|Logistic regression with GEE|GEE=generalized estimating equations - this accounts for repeated measures within patients. This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be tolerated as well as placebo with regard to sleepiness/drowsiness||||<0.021
92449180|NCT02447991|184785131|SUPERIORITY||||||<|0.76||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of vertigo measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.76
92449181|NCT02447991|184785132|SUPERIORITY||||||<|0.041||||||Significance threshold p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of unsteadiness/dizziness episodes measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.041
92449182|NCT02447991|184785133|SUPERIORITY||||||<|0.12||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of headaches measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.12
92449183|NCT02447991|184785134|SUPERIORITY||||||<|0.051||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of photophobia/phonophobia measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.051
92449184|NCT02447991|184785135|SUPERIORITY||||||<|0.006||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of sensitivity to motion measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.006
92449185|NCT02447991|184785136|SUPERIORITY||||||<|0.67||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of nausea/vomiting measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.67
92449186|NCT00829621|184785137|SUPERIORITY_OR_OTHER||||||=|0.36|||||||t-test, 1 sided|||||||=0.36
92449187|NCT03551210|184785138|NON_INFERIORITY|The non-inferiority bound was designated at the level of -15%|Difference in percentage|6.1|||||TWO_SIDED|95.0|-0.7|13.0||||||||13.0|-0.7|
92449188|NCT03551210|184785138|OTHER||Odds Ratio (OR)|1.45|||=|0.499|TWO_SIDED|95.0|0.49|4.29|||Regression, Logistic|||||4.29|0.49|=0.499
92449189|NCT03551210|184785139|OTHER||Difference in percentage|4.3|||=|0.08|TWO_SIDED|95.0|-0.6|9.7|||Barnard's test|||Visit 2||9.7|-0.6|=0.08
92449190|NCT03551210|184785139|OTHER||Difference in percentage|3.7|||=|0.246|TWO_SIDED|95.0|-2.0|9.8|||Barnard's test|||Visit 3||9.8|-2.0|=0.246
92449191|NCT03551210|184785140|OTHER||||||=|0.154|||||||Barnard test|||||||=0.154
92449192|NCT03551210|184785141|OTHER||||||=|0.14|||||||Log Rank|||||||=0.14
92449193|NCT03551210|184785142|OTHER||||||=|0.26|||||||Barnard test|||||||=0.26
92449194|NCT03551210|184785143|OTHER||||||=|0.14||||||Visit 2 assessment|Barnard's test|||||||=0.14
92449195|NCT03551210|184785143|OTHER|||||||0.515||||||Visit 3 assessment|Barnard's test|||||||0.515
92449196|NCT03551210|184785143|OTHER|||||||0.515||||||Visit 4 assessment|Barnard's test|||||||0.515
92449197|NCT01513317|184785191|SUPERIORITY_OR_OTHER||Difference in proportions|0.082||||0.271|TWO_SIDED|95.0|-0.03|0.2|||Cochran-Mantel-Haenszel||The estimated parameter is the difference in proportion of participants who had a reduction in RBC transfusion to treat the anemia of MDS.|||0.20|-0.03|0.271
92449198|NCT01513317|184785192|SUPERIORITY_OR_OTHER||Difference in LS means|0.07||||0.872|TWO_SIDED|95.0|-0.79|0.93|||ANCOVA||The estimated parameter is the difference in LS means of the change from baseline hemoglobin levels at Week 13.|||0.93|-0.79|0.872
92449199|NCT01513317|184785193|SUPERIORITY_OR_OTHER||Difference in proportions|0.042||||0.494|TWO_SIDED|95.0|-0.06|0.15|||Cochran-Mantel-Haenszel||The estimated parameter is the difference in proportion of participants achieving hemoglobin improvement at Week 13.|||0.15|-0.06|0.494
92449200|NCT01513317|184785194|SUPERIORITY_OR_OTHER||Difference in proportions|0.002||||0.986|TWO_SIDED|95.0|-0.09|0.09|||Cochran-Mantel-Haenszel||The estimated parameter is the difference in proportion of participants who did not require a blood transfusion in the 8 weeks of treatment before unblinding at Week 13.|||0.09|-0.09|0.986
92449201|NCT01513317|184785195|SUPERIORITY_OR_OTHER||Difference in LS means|1.96||||0.363|TWO_SIDED|95.0|-2.35|6.27|||ANCOVA||The estimated parameter is the difference in LS means for changes from baseline in bone marrow blasts at Week 13.|||6.27|-2.35|0.363
92449202|NCT01513317|184785196|SUPERIORITY_OR_OTHER||Difference in LS means|-1.69||||0.073|TWO_SIDED|95.0|-3.55|0.17|||ANCOVA||The estimated parameter is the difference in LS means of the number of RBC transfusions during the 8 weeks of treament before unblinding at Week 13.|||0.17|-3.55|0.073
92280685|NCT02581345|184464126|OTHER|No formal hypothesis testing of equivalence was performed for the comparison between M923 and EU RPP using the secondary efficacy outcome measures. Confidence Interval for difference in proportion in original scale calculated using stratified Newcombe method. Protocol defined margins are: \[-0.18;+0.18\] for 90% confidence interval.|Difference in proportion (M923 - EU RPP)|0.08|||||TWO_SIDED|90.0|0.01|0.149||||||||0.149|0.010|
92449203|NCT00924950|184785245|SUPERIORITY||Mean Difference (Final Values)|0.8571||||0.0008|TWO_SIDED||||||t-test, 2 sided|||||||0.0008
92449204|NCT01602315|184785250|SUPERIORITY_OR_OTHER_LEGACY||median HR|0.99||||||||||||||The hazard ratio was estimated using the Bayesian Cox proportional hazard (PH) model.||||
92449205|NCT01602315|184785250|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.12||||0.643|TWO_SIDED|95.0|0.69|1.82|||Regression, Cox|||||1.82|0.69|0.643
92449206|NCT01602315|184785250|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54||||0.039|TWO_SIDED|95.0|0.3|0.97|||Regression, Cox|||Adjusted on Covariates: treatment, sum of longest diameters from central data \[SLD (C)\], Hemaglobin (Hgb) and White Blood Cells (WBC).||0.97|0.30|0.039
92449207|NCT01602315|184785253|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier method (median)|43.0|||||TWO_SIDED|95.0|27.0|88.0|||||days|||88.0|27.0|
92182234|NCT03732807|184263252|SUPERIORITY||Estimate of difference|12.17||||0.000228||95.0|6.27|19.53|||Miettinen and Nurminen method|||||19.53|6.27|0.000228
92182235|NCT03732807|184263252|SUPERIORITY||Estimate of difference|9.39||||0.001875|TWO_SIDED|95.0|3.86|16.46|||Miettinen and Nurminen method|||||16.46|3.86|0.001875
92182236|NCT03732807|184263253|SUPERIORITY||Estimate of difference|42.96|||<|1e-06|TWO_SIDED|95.0|31.68|54.25|||Miettinen and Nurminen method|||||54.25|31.68|<0.000001
92182237|NCT03732807|184263253|SUPERIORITY||Estimate of difference|36.18|||<|1e-06|TWO_SIDED|95.0|25.22|47.14|||Miettinen and Nurminen method|||||47.14|25.22|<0.000001
92182238|NCT03732807|184263253|SUPERIORITY||Estimate of difference|39.96|||<|1e-06|TWO_SIDED|95.0|28.85|51.06|||Miettinen and Nurminen method|||||51.06|28.85|<0.000001
92182239|NCT03732807|184263253|SUPERIORITY||Estimate of difference|32.72|||<|1e-06|TWO_SIDED|95.0|21.95|43.5|||Miettinen and Nurminen method|||||43.50|21.95|<0.000001
92182240|NCT03345979|184263273|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92182241|NCT03345979|184263273|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92182242|NCT00734578|184263284|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-4.5||||0.002||95.0|-7.5|-1.4||Both SPD503 groups were compared with placebo using Dunnett's adjustment. Each treatment comparison was evaluated at the 0.05 significance level (Dunnett's adjusted).|ANCOVA|||The null hypothesis stated that there was no difference between SPD503 AM or placebo and that there was no difference between SPD503 PM or placebo. 90% power was needed to detect an effect size of at least 0.4 between either SPD503 group and placebo.||-1.4|-7.5|0.002
92182243|NCT00734578|184263284|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-5.3|||<|0.001||95.0|-8.3|-2.3||Both SPD503 groups were compared with placebo using Dunnett's adjustment. Each treatment comparison was evaluated at the 0.05 significance level (Dunnett's adjusted).|ANCOVA|||The null hypothesis stated that there was no difference between SPD503 AM or placebo and that there was no difference between SPD503 PM or placebo. 90% power was needed to detect an effect size of at least 0.4 between either SPD503 group and placebo.||-2.3|-8.3|<0.001
92182244|NCT00734578|184263285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||0.024
92182245|NCT00734578|184263285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||0.003
92182246|NCT00734578|184263286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||0.013
92182247|NCT00734578|184263286|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||<0.001
92182248|NCT00734578|184263287|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-1.7||||0.019||95.0|-3.2|-0.3||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-0.3|-3.2|0.019
92182249|NCT00734578|184263287|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-2.6|||<|0.001||95.0|-4.0|-1.1||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-1.1|-4.0|<0.001
92182250|NCT00734578|184263288|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-2.4||||0.002||95.0|-4.0|-0.9||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-0.9|-4.0|0.002
92182251|NCT00734578|184263288|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-3.0|||<|0.001||95.0|-4.5|-1.5||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-1.5|-4.5|<0.001
92182252|NCT00734578|184263289|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||<0.001
92182253|NCT00734578|184263289|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||<0.001
92182254|NCT00734578|184263290|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-2.4||||0.001||95.0|-3.9|-0.9||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-0.9|-3.9|0.001
92182255|NCT00734578|184263290|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-2.2||||0.003||95.0|-3.6|-0.7||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-0.7|-3.6|0.003
92182256|NCT00734578|184263291|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-5.1|||<|0.001||95.0|-8.0|-2.2||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-2.2|-8.0|<0.001
92182257|NCT00734578|184263291|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-4.7||||0.002||95.0|-7.6|-1.7||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-1.7|-7.6|0.002
92182258|NCT00734578|184263292|SUPERIORITY_OR_OTHER_LEGACY|||||||0.971||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||0.971
92182259|NCT00734578|184263292|SUPERIORITY_OR_OTHER_LEGACY|||||||0.502||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||0.502
92172371|NCT04521478|184235170|OTHER||Mean Difference (Net)|3.8|STANDARD_ERROR_OF_MEAN|1.9||0.0429|TWO_SIDED|90.0|0.7|6.9|||Mixed Models Analysis||Difference = (adjusted mean 125 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (T-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||6.9|0.7|0.0429
92172372|NCT04521478|184235171|OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.6211|TWO_SIDED|90.0|-0.3|0.5|||Mixed Models Analysis||Difference = (adjusted mean 5 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||0.5|-0.3|0.6211
92449208|NCT01602315|184785259|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.28||||0.313|TWO_SIDED|95.0|0.79|2.05|||Regression, Cox|||||2.05|0.79|0.313
92449209|NCT01602315|184785260|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier (median)|294.0|||||TWO_SIDED|95.0|172.0|463.0||||||||463.0|172.0|
92449210|NCT01602315|184785274|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||0.235|TWO_SIDED|95.0|0.49|1.19|||Regression, Cox|||||1.19|0.49|0.235
92449211|NCT01602315|184785274|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.64||||0.062|TWO_SIDED|95.0|0.4|1.02|||Regression, Cox|||Adjusted on Covariates: treatment, sum of longest diameters from local data \[SLD (L)\], Hemaglobin (Hgb) and White Blood Cells (WBC).||1.02|0.4|0.062
92449212|NCT01222494|184785350|SUPERIORITY|||||||0.01||||||The p-value refers to the treatment group term in the model. The a priori threshold for statistical significance in this planned primary test was p \< 0.05.|ANCOVA|||An ANCOVA was used to test for differences between groups at endpoint, controlling for baseline values.||||0.01
92449213|NCT01222494|184785351|SUPERIORITY|||||||0.04||||||The p-value refers to the treatment group term in the model. The a priori threshold for statistical significance in this planned primary test was p \< 0.05.|ANCOVA|||An ANCOVA was used to test for differences between groups at endpoint, controlling for baseline values.||||0.04
92449214|NCT01222494|184785352|SUPERIORITY|||||||0.7||||||The p-value refers to the treatment group term in the model. The a priori threshold for statistical significance in this planned primary test was p \< 0.05.|ANCOVA|||An ANCOVA was used to test for differences between groups at endpoint, controlling for baseline values.||||0.70
92449215|NCT01222494|184785353|SUPERIORITY|||||||0.003||||||The p-value refers to the treatment group term in the model. The a priori threshold for statistical significance in this planned primary test was p \< 0.05.|ANCOVA|||An ANCOVA was used to test for differences between groups at endpoint, controlling for baseline values.||||0.003
92449216|NCT01174030|184785354|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.392|||<|0.001||95.0|2.637|26.71|||GEE:Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||26.710|2.637|<0.001
92449217|NCT01174030|184785354|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.269||||0.549||95.0|0.586|2.747|||GEE:Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||2.747|0.586|0.549
92449218|NCT01174030|184785354|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.738||||0.027||95.0|1.097|12.742|||GEE:Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||12.742|1.097|0.027
92449219|NCT01174030|184785355|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.683||||0.003||95.0|1.388|5.188|||GEE:Logit link Function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model||||5.188|1.388|.003
92182260|NCT03883724|184263294|OTHER|ANCOVA between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||||||0.3|||||||ANCOVA|between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||Change in NPi pre- vs post-intervention comparing between group analysis||||0.3
92182882|NCT02434328|184264728|OTHER||Difference in proportions|-6.0|||||TWO_SIDED|95.0|-13.0|0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||0.1|-13.0|
92449220|NCT01174030|184785355|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.892||||0.056||95.0|0.98|3.651|||GEE: Logit link Function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||3.651|0.980|0.056
92449221|NCT01174030|184785355|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.885||||0.074||95.0|0.946|3.756|||GEE:Logit link Function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||3.756|0.946|0.074
92449222|NCT01174030|184785356|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.582|||<|0.001||95.0|2.755|15.723|||GEE: Logit link function|Generalize Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||15.723|2.755|<0.001
92449223|NCT01174030|184785356|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.853||||0.093||95.0|0.903|3.802|||GEE: Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||3.802|0.903|0.093
92449224|NCT01174030|184785356|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.365||||0.054||95.0|0.96|5.825|||GEE: Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||5.825|0.960|0.054
92449225|NCT01532687|184785363|SUPERIORITY|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.017|||||||Gehan-Wilcoxon|||Statistical results are for the full randomized population (n = 54). The study was originally designed with overall one-sided alpha of 5%, where a total of 73 patients (36 in the gemcitabine + placebo arm, and 37 in the gemcitabine + pazopanib arm) were required to achieve 80% power to detect a 2.5 month increase in median PFS (a hazard ratio of 0.55) between the two treatment arms. Study was closed early by the sponsor due to slow accrual and funds and thus was under powered.||||0.017
92172373|NCT04521478|184235171|OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.5158|TWO_SIDED|90.0|-0.2|0.6|||Mixed Models Analysis||Difference = (adjusted mean 25 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||0.6|-0.2|0.5158
92172374|NCT04521478|184235171|OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4518|TWO_SIDED|90.0|-0.2|0.6|||Mixed Models Analysis||Difference = (adjusted mean 75 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||0.6|-0.2|0.4518
92240747|NCT04742907|184384770|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.462|TWO_SIDED|95.0|-1.0|2.1|||Mixed Models Analysis|||For Day 3, LS mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||2.1|-1.0|0.462
92240748|NCT04742907|184384770|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.343|TWO_SIDED|95.0|-2.3|0.8|||Mixed Models Analysis|||For Day 3, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||0.8|-2.3|0.343
92280686|NCT02581345|184464126|OTHER|No formal hypothesis testing of equivalence was performed for the comparison between M923 and EU RPP using the secondary efficacy outcome measures. Confidence Interval for difference in proportion in original scale calculated using stratified Newcombe method. Protocol defined margins are:\[-0.15;+0.15\] for 95% confidence interval.|Difference in proportion (M923 - EU RPP)|0.08|||||TWO_SIDED|95.0|-0.004|0.162||||||||0.162|-0.004|
92449226|NCT01532687|184785363|OTHER|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.195|||||||Gehan-Wilcoxon|||Comparison between the two arms for the liposarcoma subgroup||||0.195
92449227|NCT01532687|184785363|OTHER|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.079|||||||Gehan-Wilcoxon|||Statistical results are for the 'other' sarcoma subgroup (n = 38)||||0.079
92280687|NCT02122796|184464158|SUPERIORITY_OR_OTHER||||||<|0.01||||||Means of pre- and post-treatment measurements were compared using paired, two-sided Student's t tests. P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.|t-test, 2 sided|P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.||||||<0.01
92449228|NCT01532687|184785365|SUPERIORITY|Analysis was not powered for secondary endpoints. Given the study closed early due to slow enrollment, we do not anticipate detecting a statistical difference between the two groups||||||0.5||||||Yate's continuity correction was applied because of the number of subjects and successes (n = 4)|One-sided Proportions Test|||Statistical results are for the full randomized population (n = 54). The study tests whether gemcitabine plus pazopanib is superior to gemcitabine plus placebo (one-sided proportion test with Yate's continuity correction)||||0.5
92449229|NCT01532687|184785365|SUPERIORITY|||||||0.3||||||Yate's continuity correction was applied because of small number of participants (n = 16) and successes (n = 2).|One-sided Proportion Test|||Statistical results are for the Liposarcoma group (n = 16). The study tests whether gemcitabine plus pazopanib is superior to gemcitabine plus placebo (one-sided proportion test with Yate's continuity correction). Analysis was not powered for the secondary endpoints. Given the study closed early due to slow enrollment we do not anticipate detecting a statistical difference between the groups.||||0.3
92449230|NCT01532687|184785365|SUPERIORITY|||||||0.8||||||Yate's continuity correction was applied because of the small number of participants and successes (n = 2).|One-sided Proportion Test|||Statistical results are for the Other Sarcoma group (n = 38). The study tests whether gemcitabine plus pazopanib is superior to gemcitabine plus placebo (one-sided proportion test with Yate's continuity correction). Analysis was not powered for secondary endpoints. Given the study closed early due to slow enrollment, we do not anticipate detecting a statistical difference between the two groups.||||0.8
92449231|NCT01532687|184785366|OTHER|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.481|||||||Gehan-Wilcoxon|||Overall survival estimated among all randomized participants (n = 54)||||0.481
92449232|NCT01532687|184785366|OTHER|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.353|||||||Gehan-Wilcoxon|||Overall survival compared between the two arms for the liposarcoma subgroup (n = 16)||||0.353
92449233|NCT01532687|184785366|OTHER|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.408|||||||Gehan-Wilcoxon|||Overall survival comparison between the two treatment arms for the other sarcoma group (n = 38)||||0.408
92449234|NCT04116229|184785367|EQUIVALENCE|"Alternative hypothesis: people with normal-weight BMI have lower DBSI restricted fraction, or putative cellularity, than people with obesity.~Null hypothesis: DBSI restricted fraction, or putative cellularity, is not different between normal-weight and obese groups."|Median Difference (Final Values)|0.05||||0.28|TWO_SIDED|||||a priori threshold: p \< 0.05|Independent-Samples Median Test|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.||||0.28
92449235|NCT04116229|184785367|EQUIVALENCE|"Alternative hypothesis: people with normal-weight BMI have lower DBSI hindered fraction, or putative vasogenic edema, than people with obesity.~Null hypothesis: DBSI hindered fraction, or putative vasogenic edema, is not different between normal-weight and obese groups."|Median Difference (Final Values)|0.18||||0.03|TWO_SIDED|||||a priori threshold: p \< 0.05|Independent-Samples Median Test|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.||||0.03
92449236|NCT04116229|184785368|OTHER|"Alternative hypothesis: Worse crystallized cognitive function will relate to greater putative vasogenic edema (DBSI HF) in white matter tracts.~Null hypothesis: Crystallized cogntive function is not related to DBSI HF."|Slope|-0.69||||0.01|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.01
92449237|NCT04116229|184785368|OTHER|"Alternative hypothesis: Worse fluid cognitive function will relate to greater putative vasogenic edema (DBSI HF) in white matter tracts.~Null hypothesis: Fluid cogntive function is not related to DBSI HF."|Slope|0.52||||0.1|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.10
92449238|NCT04116229|184785368|OTHER|"Alternative hypothesis: Worse crystallized cognitive function will relate to greater putative cellularity (DBSI RF) in white matter tracts.~Null hypothesis: Crystallized cognitive function is not related to DBSI RF."|Slope|-0.45||||0.01|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.01
92449239|NCT04116229|184785368|OTHER|"Alternative hypothesis: Worse fluid cognitive function will relate to greater putative cellularity (DBSI RF) in white matter tracts.~Null hypothesis: Fluid cognitive function is not related to DBSI RF."|Slope|0.22||||0.1|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.10
92449240|NCT04116229|184785369|OTHER|"Alternative hypothesis: higher levels of insulin, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: Insulin levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|-0.18|||>|0.46|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||>0.46
92280688|NCT02122796|184464159|SUPERIORITY_OR_OTHER||||||<|0.01||||||Means of pre- and post-treatment measurements were compared using paired, two-sided Student's t tests. P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.|t-test, 2 sided|P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.||||||<0.01
92172375|NCT04521478|184235171|OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.2347|TWO_SIDED|90.0|-0.1|0.6|||Mixed Models Analysis||Difference = (adjusted mean 125 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||0.6|-0.1|0.2347
92172376|NCT04521478|184235172|OTHER||Mean Difference (Net)|3.4|STANDARD_ERROR_OF_MEAN|2.5||0.1723|TWO_SIDED|90.0|-0.7|7.6|||Mixed Models Analysis||Difference = (adjusted mean 5 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||7.6|-0.7|0.1723
92172377|NCT04521478|184235172|OTHER||Mean Difference (Net)|4.4|STANDARD_ERROR_OF_MEAN|2.5||0.0757|TWO_SIDED|90.0|0.3|8.5|||Mixed Models Analysis||Difference = (adjusted mean 25 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||8.5|0.3|0.0757
92449241|NCT04116229|184785369|OTHER|"Alternative hypothesis: higher levels of insulin, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: Insulin levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.22|||>|0.5|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||>0.5
92172378|NCT04521478|184235172|OTHER||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|2.4||0.6864|TWO_SIDED|90.0|-3.0|5.0|||Mixed Models Analysis||Difference = (adjusted mean 75 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||5.0|-3.0|0.6864
92172379|NCT04521478|184235172|OTHER||Mean Difference (Net)|2.8|STANDARD_ERROR_OF_MEAN|1.9||0.1585|TWO_SIDED|90.0|-0.5|6.0|||Mixed Models Analysis||Difference = (adjusted mean 125 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||6.0|-0.5|0.1585
92172380|NCT04172441|184235188|SUPERIORITY||Difference in LS means|-5.21||||0.0037|TWO_SIDED|95.0|-8.29|-2.13|||Mixed Models Analysis|A mixed model was used, with treatment and period as fixed effects and patient as random effect.|The comparison was in the direction of dasiglucagon minus placebo.|Null hypothesis: weighted mean IV GIR in the last 12 hours of treatment with dasiglucagon = weighted mean IV GIR in the last 12 hours of treatment with placebo||-2.13|-8.29|0.0037
92172381|NCT04172441|184235189|SUPERIORITY||Difference in LS means|-30.93||||0.0238|TWO_SIDED|95.0|-56.8|-5.05|||Mixed Models Analysis|A mixed model was used, with treatment and period as fixed effects and patient as random effect.|The comparison was in the direction of dasiglucagon minus placebo.|Null hypothesis: Total amount of carbohydrates administered (regardless of route) per day in patients treated with dasiglucagon = total amount of carbohydrates administered (regardless of route) per day in patients treated with placebo||-5.05|-56.80|0.0238
92172382|NCT06311084|184235227|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172383|NCT06311084|184235228|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172384|NCT06311084|184235229|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172385|NCT06311084|184235230|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172386|NCT06311084|184235231|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172387|NCT06311084|184235232|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172388|NCT06311084|184235233|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172389|NCT06311084|184235234|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172390|NCT06311084|184235235|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172391|NCT06311084|184235236|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172392|NCT06311084|184235237|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92280689|NCT02122796|184464161|SUPERIORITY_OR_OTHER||||||<|0.01||||||Means of pre- and post-treatment measurements were compared using paired, two-sided Student's t tests. P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.|t-test, 2 sided|P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.||||||<0.01
92449242|NCT04116229|184785370|OTHER|"Alternative hypothesis: higher levels of leptin, a pro-inflammatory marker and satiety hormone, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: Leptin levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.15||||0.62|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.62
92449243|NCT04116229|184785370|OTHER|"Alternative hypothesis: higher levels of leptin, a pro-inflammatory marker and satiety hormone, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: Leptin levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.07||||0.82|TWO_SIDED||||||Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.82
92449244|NCT04116229|184785371|OTHER|"Alternative hypothesis: higher levels of ghrelin, an anti-inflammatory marker and hunger hormone, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: Ghrelin levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.19||||0.53|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.53
92449245|NCT04116229|184785371|OTHER|"Alternative hypothesis: higher levels of ghrelin, an anti-inflammatory marker and hunger hormone, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: Ghrelin levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.12||||0.71|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.71
92449246|NCT04116229|184785372|OTHER|"Alternative hypothesis: greater HOMA-IR, where higher HOMA-IR indicates greater insulin resistance, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: HOMA-IR levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|-0.19||||0.53|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.53
92449247|NCT04116229|184785372|OTHER|"Alternative hypothesis: greater HOMA-IR, where higher HOMA-IR indicates greater insulin resistance, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: HOMA-IR levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.21||||0.5|TWO_SIDED||||||Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.5
92449248|NCT04116229|184785373|OTHER|"Alternative hypothesis: higher levels of IL-10, an anti-inflammatory marker, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: IL-10 levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.5||||0.09|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.09
92449249|NCT04116229|184785373|OTHER|"Alternative hypothesis: higher levels of IL-10, an anti-inflammatory marker, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: IL-10 levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.2||||0.45|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.45
92449250|NCT04116229|184785374|OTHER|"Alternative hypothesis: higher levels of adiponectin, an anti-inflammatory marker, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: Adiponectin levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.38||||0.19|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.19
92449251|NCT04116229|184785374|OTHER|"Alternative hypothesis: higher levels of adiponectin, an anti-inflammatory marker, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: Adiponectin levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.2||||0.52|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.52
92449252|NCT04116229|184785375|OTHER|"Alternative hypothesis: higher levels of TNF-alpha, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: TNF-alpha levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|-0.05||||0.9|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.90
92449253|NCT04116229|184785375|OTHER|"Alternative hypothesis: higher levels of TNF-alpha, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: TNF-alpha levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|0.04||||0.87|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.87
92449254|NCT04116229|184785376|OTHER|"Alternative hypothesis: higher levels of MCP-1, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: MCP-1 levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.34||||0.26|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.26
92449255|NCT04116229|184785376|OTHER|"Alternative hypothesis: higher levels of MCP-1, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: MCP-1 levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|0.12||||0.71|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.71
92449256|NCT04116229|184785377|OTHER|"Alternative hypothesis: higher levels of CRP, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: CRP levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.19||||0.54|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.54
92449257|NCT04116229|184785377|OTHER|"Alternative hypothesis: higher levels of CRP, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: CRP levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|0.09||||0.77|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.77
92449258|NCT02809976|184785378|OTHER|single group/descriptive analysis||||||0.02|||||||paired t-test|||||||0.02
92449259|NCT01163682|184785388|NON_INFERIORITY|"This tests determined the odds of an increase of greater than or equal to 2 points on the BPI-SF worst pain score, from baseline to 16 weeks, among those in the intervention arm (electo-acupuncture), compared to those in the control arm (sham acupuncture). This change was considered to be clinically meaningful.~Null Hypothesis: electro-acupucture does not prevent taxane-induced peripheral neuropathy"|Odds Ratio (OR)|1.16||||0.25|TWO_SIDED|95.0|0.9|1.5|||Regression, Logistic|||||1.50|0.90|0.25
92240749|NCT00436969|184384779|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.472||||0.696|TWO_SIDED|95.0|-8.888|5.943||The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||Anticipated VAS difference of 10 mm and SD of 25 mm indicated a sample size of 225 subjects in a 2:1 randomization would provide 80% power to detect a significant difference with a two-sided significance level of 5%. To account for a 15% dropout rate the sample size was increased to 270 subjects (180 Orthovisc, 90 control). The primary null hypothesis (Ho) no difference in VAS means at 6 months and the alternative hypothesis (Ha) was that Orthovisc (mean VAS) is superior to the control.||5.943|-8.888|0.696
92240750|NCT00436969|184384780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-15.6|15.1||||||Asymptotic 95% confidence interval for the treatment group difference (Orthovisc - Control) in proportions of responders was calculated. The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups at 6 months is unequal.||15.1|-15.6|
92240751|NCT00436969|184384781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|||||TWO_SIDED|95.0|-19.7|9.1||||||Asymptotic 95% confidence interval for the treatment group difference (Orthovisc - Control) in proportions of responders was calculated. The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups at 6 months is unequal.||9.1|-19.7|
92240752|NCT00436969|184384782|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.87||||0.827|TWO_SIDED|95.0|-8.698|6.957||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||6.957|-8.698|0.827
92240753|NCT00436969|184384783|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.875||||0.392|TWO_SIDED|95.0|-9.472|3.723||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||3.723|-9.472|0.392
92240754|NCT00436969|184384784|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.932||||0.772|TWO_SIDED|95.0|-7.26|5.396||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||5.396|-7.260|0.772
92240755|NCT00436969|184384785|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.028||||0.707|TWO_SIDED|95.0|-4.338|6.393||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||6.393|-4.338|0.707
92240756|NCT00436969|184384786|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.82||||0.79|TWO_SIDED|95.0|-6.866|5.227||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||5.227|-6.866|0.790
92240757|NCT00436969|184384787|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.13||||0.685|TWO_SIDED|95.0|-4.341|6.001||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||6.001|-4.341|0.685
92240758|NCT00436969|184384788|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.317||||0.018|TWO_SIDED|95.0|1.249|13.386||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||13.386|1.249|0.018
92280690|NCT03471078|184464171|OTHER|The primary efficacy endpoint was tested between avatrombopag and placebo using the Cochran-Mantel-Haenszel 2-sided test at α=0.05, adjusting for the number of eligible chemotherapy agents as collected in IWRS (1 or ≥2 permissible chemotherapy agents).|Mean Difference (Final Values)|-3.0||||0.7186|TWO_SIDED|95.0|-21.7|15.6|||Cochran-Mantel-Haenszel|||||15.6|-21.7|0.7186
92280691|NCT03471078|184464172|OTHER|||||||0.8372|||||||Van Elteren Test|||||||0.8372
92172393|NCT06311084|184235238|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172394|NCT06311084|184235239|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172395|NCT06311084|184235240|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92172396|NCT06311084|184235241|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92240759|NCT00436969|184384789|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.361||||0.369|TWO_SIDED|95.0|-2.801|7.522||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||7.522|-2.801|0.369
92240760|NCT00436969|184384790|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.79||||0.41|TWO_SIDED|95.0|-9.441|3.861||The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||Anticipated VAS difference of 10 mm and SD of 25 mm indicated a sample size of 225 subjects in a 2:1 randomization would provide 80% power to detect a significant difference with a two-sided significance level of 5%. To account for a 15% dropout rate the sample size was increased to 270 subjects (180 Orthovisc, 90 control). The primary null hypothesis (Ho) no difference in VAS means at 6 months and the alternative hypothesis (Ha) was that Orthovisc (mean VAS) is superior to the control.||3.861|-9.441|0.410
92240761|NCT00436969|184384791|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.617||||0.379|TWO_SIDED|95.0|-3.226|8.46||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||8.460|-3.226|0.379
92240762|NCT00436969|184384792|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.208||||0.409|TWO_SIDED|95.0|-7.455|3.039||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||3.039|-7.455|0.409
92240763|NCT00436969|184384793|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.558||||0.232|TWO_SIDED|95.0|-4.119|1.003||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||1.003|-4.119|0.232
92240764|NCT00436969|184384794|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.228||||0.832|TWO_SIDED|95.0|-2.343|1.887||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||1.887|-2.343|0.832
92280692|NCT05381948|184464229|OTHER||Least Square (LS) Mean|-0.12|STANDARD_ERROR_OF_MEAN|1.199||0.919|TWO_SIDED|95.0|-2.48|2.24|||Mixed Model for Repeated Measures (MMRM)|||||2.24|-2.48|0.919
92172397|NCT04725240|184235242|OTHER||||||<|0.0001||||||Threshold for significance at 0.001 level.|One-sided exact binomial test|||||||<0.0001
92172398|NCT04725240|184235243|OTHER||||||<|0.0001||||||Threshold for significance at 0.001 level.|One-sided exact binomial test|||||||<0.0001
92172399|NCT04725240|184235244|OTHER||||||<|0.0001||||||Threshold for significance at 0.001 level.|One-sided exact binomial test|||||||<0.0001
92172400|NCT04725240|184235245|OTHER||||||<|0.0001||||||Threshold for significance at 0.001 level.|One-sided exact binomial test|||||||<0.0001
92172401|NCT03958955|184235326|SUPERIORITY||Attributable risk|-0.14||||0.4531|TWO_SIDED|95.0|-0.37|0.09||Exact p-value of McNemar's test.|McNemar||Attributable risk is defined as the difference in estimated probability of treatment success of delgocitinib compared to vehicle. Exact p-value of McNemar's test. Success is defined as having an IGA score of 0 (clear) or 1 (almost clear) at Week 6.|||0.09|-0.37|0.4531
92172402|NCT03958955|184235329|SUPERIORITY||Attributable risk|0.07||||0.5|TWO_SIDED|95.0|-0.02|0.17||Exact p-value of McNemar's test.|McNemar||Attributable risk is defined as the difference in estimated probability of treatment success (i.e. no lesion-specific treatment-related AEs) of delgocitinib compared to vehicle. Exact p-value of McNemar's test.|||0.17|-0.02|0.5000
92172403|NCT03958955|184235330|SUPERIORITY||Attributable risk|-0.14||||0.4531|TWO_SIDED|95.0|-0.37|0.09||Exact p-value of McNemar's test.|McNemar||Attributable risk is defined as the difference in estimated probability of treatment success of delgocitinib vs vehicle. Exact p-value of McNemar's test. Success is defined as having at least a 2-point reduction in IGA score from baseline to Week 6.|||0.09|-0.37|0.4531
92172404|NCT03958955|184235331|SUPERIORITY||Attributable risk|0.0||||1|TWO_SIDED|95.0|-0.22|0.22||Exact p-value of McNemar's test.|McNemar||||Attributable risk is defined as the difference in estimated probability of treatment success of delgocitinib compared to vehicle. Exact p-value of McNemar's test. Success is defined as having at least a 2-point reduction in IGA score from baseline to Week 6.|0.22|-0.22|1.0000
92240765|NCT00436969|184384795|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.068||||0.957|TWO_SIDED|95.0|-2.396|2.532||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||2.532|-2.396|0.957
92280693|NCT05381948|184464229|OTHER||LS Mean|-0.31|STANDARD_ERROR_OF_MEAN|1.187||0.795|TWO_SIDED|95.0|-2.63|2.02|||MMRM|||||2.02|-2.63|0.795
92240766|NCT00436969|184384796|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.22||||0.267|TWO_SIDED|95.0|-0.937|3.378||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||3.378|-0.937|0.267
92240767|NCT00436969|184384797|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.19||||0.333|TWO_SIDED|95.0|-1.225|3.604||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||3.604|-1.225|0.333
92240768|NCT00436969|184384798|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.771||||0.473|TWO_SIDED|95.0|-1.339|2.881||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||2.881|-1.339|0.473
92240769|NCT00436969|184384799|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.018||||0.988|TWO_SIDED|95.0|-2.314|2.278||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||2.278|-2.314|0.988
92280694|NCT02433665|184464249|NON_INFERIORITY|The primary end point for this study was a comparison between fixed-dose and customized-dose contrast material injection CT protocols for vascular and parenchymal enhancement by using a noninferiority approach. The limit of noninferiority was set at 0.1 before the initiation of the study on the basis of a similar study that examined contrast media dose optimization for CT angiography examinations.|Odds Ratio, log|0.75|STANDARD_DEVIATION|0.35|>|0.05|TWO_SIDED|0.38|||||Mixed Models Analysis|||||||>0.05
92449260|NCT01163682|184785389|NON_INFERIORITY|This tests determined the odds of an increase of greater than or equal to 5 points on the FACT-NTX scale, from baseline to 16 weeks, among those in the intervention arm (electo-acupuncture), compared to those in the control arm (sham acupuncture). This change was considered to be clinically meaningful.|Odds Ratio (OR)|1.25||||0.09|TWO_SIDED|95.0|0.97|1.62|||Regression, Logistic|||||1.62|0.97|0.09
92449261|NCT02002767|184785390|OTHER||Geometric Least Squares Mean(GLSM) Ratio|149.05|||||TWO_SIDED|90.0|116.62|190.49||||||A sample size of 8 evaluable participants in each renal function group (normal and severely impaired) will provide at least 80% power to reject the null hypothesis that participants with severe renal impairment have a minimum increase of 100% in AUC0-last, AUCinf, or Cmax of velpatasvir compared to participants with normal renal function.||190.49|116.62|
92449262|NCT02002767|184785391|OTHER||GLSM Ratio|149.9|||||TWO_SIDED|90.0|116.97|192.11||||||A sample size of 8 evaluable participants in each renal function group (normal and severely impaired) will provide at least 80% power to reject the null hypothesis that participants with severe renal impairment have a minimum increase of 100% in AUC0-last, AUCinf, or Cmax of velpatasvir compared to participants with normal renal function.||192.11|116.97|
92449263|NCT02002767|184785392|OTHER||GLSM Ratio|110.85|||||TWO_SIDED|90.0|90.76|135.38||||||A sample size of 8 evaluable participants in each renal function group (normal and severely impaired) will provide at least 80% power to reject the null hypothesis that participants with severe renal impairment have a minimum increase of 100% in AUC0-last, AUCinf, or Cmax of velpatasvir compared to participants with normal renal function.||135.38|90.76|
92449264|NCT00113516|184785407|SUPERIORITY_OR_OTHER||probability|0.405|||||TWO_SIDED|90.0|0.315|0.494|||Kaplan-Meier||The probability of survival along with the corresponding confidence interval (CI) (for the log \[-log (1-year survival rate)\]) was calculated using a normal approximation and then back transformed to give a CI for the 1-year survival rate itself.|The study was designed to test the null hypothesis that the true one-year probability of survival is 0.40 versus the alternative hypothesis that the true one-year probability of survival is at least 0.55. The sample size was determined using a One-Sample Survival design, assuming alpha=0.05 (1-sided), power= 0.90, 6 month accrual, a minimum follow-up period of 12 months, and an expectation that approximately 5% of subjects may be lost to follow-up.||0.494|0.315|
92449265|NCT00113516|184785411|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|27.4|||||TWO_SIDED|95.0|18.2|38.2||||||||38.2|18.2|
92449266|NCT00113516|184785425|SUPERIORITY_OR_OTHER|||||||0.474||95.0|||||Wilcoxon Rank Sum Test|||||||0.474
92449267|NCT00113516|184785426|SUPERIORITY_OR_OTHER|||||||0.836||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.836
92449268|NCT00113516|184785426|SUPERIORITY_OR_OTHER|||||||0.071||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.071
92449269|NCT00113516|184785426|SUPERIORITY_OR_OTHER|||||||0.393||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.393
92449270|NCT00113516|184785426|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.029
92449271|NCT00113516|184785426|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.247
92449272|NCT00113516|184785427|SUPERIORITY_OR_OTHER|||||||0.305||95.0|||||Wilcoxon Rank Sum Test|||||||0.305
92449273|NCT00113516|184785428|SUPERIORITY_OR_OTHER|||||||0.738||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.738
92449274|NCT00113516|184785428|SUPERIORITY_OR_OTHER|||||||0.438||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.438
92449275|NCT00113516|184785428|SUPERIORITY_OR_OTHER|||||||0.236||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.236
92449276|NCT00113516|184785428|SUPERIORITY_OR_OTHER|||||||0.287||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.287
92449277|NCT00113516|184785428|SUPERIORITY_OR_OTHER|||||||0.772||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.772
92449278|NCT00113516|184785429|SUPERIORITY_OR_OTHER|||||||0.537||95.0|||||Wilcoxon Rank Sum Test|||||||0.537
92449279|NCT00113516|184785430|SUPERIORITY_OR_OTHER|||||||0.813||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.813
92449280|NCT00113516|184785430|SUPERIORITY_OR_OTHER|||||||0.849||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.849
92449281|NCT00113516|184785430|SUPERIORITY_OR_OTHER|||||||0.121||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.121
92449282|NCT00113516|184785430|SUPERIORITY_OR_OTHER|||||||0.582||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.582
92449283|NCT00113516|184785430|SUPERIORITY_OR_OTHER|||||||0.383||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.383
92172405|NCT03958955|184235332|SUPERIORITY|||||||0.5797||||||P-value of the Wilcoxon signed rank test.|Wilcoxon signed rank test|Erythema is scored as 0=absent, 1=pink, faint, 2=red, 3=dark red, purple/violaceous/crusted/haemorrhagic. P-value of the Wilcoxon signed rank test.||||||0.5797
92172406|NCT03958955|184235333|SUPERIORITY|||||||0.7862||||||P-value of the Wilcoxon signed rank test.|Wilcoxon signed rank test|P-value of the Wilcoxon signed rank test.||Total skin disease activity score is the sum of the scores for erythema, scaling/hyperkeratosis, and oedema/infiltration. Total skin disease activity score ranges from 0 to 7 with lower score indicating better state.||||0.7862
92172407|NCT04638829|184235340|OTHER|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92449284|NCT00113516|184785431|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.6782|TWO_SIDED|95.0|0.61|2.15|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.15|0.61|0.6782
92449285|NCT00113516|184785431|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.198|TWO_SIDED|95.0|0.77|3.3|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.30|0.77|0.1980
92449286|NCT00113516|184785431|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8||||0.1344|TWO_SIDED|95.0|0.82|3.98|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||3.98|0.82|0.1344
92449287|NCT00113516|184785431|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.4809|TWO_SIDED|95.0|0.56|3.39|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||3.39|0.56|0.4809
92449288|NCT00113516|184785431|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.6||||0.0153|TWO_SIDED|95.0|1.19|11.13|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group|Cycle 3, Day 1||11.13|1.19|0.0153
92449289|NCT00113516|184785431|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.7||||0.2085|TWO_SIDED|95.0|0.52|14.37|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group|Cycle 3, Day 28||14.37|0.52|0.2085
92449290|NCT00113516|184785431|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.8084|TWO_SIDED|95.0|0.08|23.57|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group|Cycle 5, Day 28||23.57|0.08|0.8084
92449291|NCT00113516|184785432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.507|TWO_SIDED|95.0|0.65|2.39|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.39|0.65|0.5070
92449292|NCT00113516|184785432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.4474|TWO_SIDED|95.0|0.63|2.82|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||2.82|0.63|0.4474
92449293|NCT00113516|184785432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.7599|TWO_SIDED|95.0|0.4|1.95|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||1.95|0.40|0.7599
92449294|NCT00113516|184785432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.0109|TWO_SIDED|95.0|0.12|0.8|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||0.80|0.12|0.0109
92449295|NCT00113516|184785432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.6878|TWO_SIDED|95.0|0.43|3.58|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||3.58|0.43|0.6878
92449296|NCT00113516|184785432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.7||||0.4637|TWO_SIDED|95.0|0.38|8.12|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||8.12|0.38|0.4637
92449297|NCT00113516|184785433|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.5277|TWO_SIDED|95.0|0.39|1.62|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||1.62|0.39|0.5277
92449298|NCT00113516|184785433|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.466|TWO_SIDED|95.0|0.58|3.29|||Log Rank||HR was based upon the ratio of \>=Median Cutpoint group hazard to \<Median Cutpoint group.|Cycle 1, Day 28||3.29|0.58|0.4660
92172408|NCT04638829|184235341|OTHER|||||||0.0093|||||||t-test, 2 sided|||||||0.0093
92172409|NCT04638829|184235342|OTHER|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
92172410|NCT04638829|184235343|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92172411|NCT02807636|184235349|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0073|TWO_SIDED|95.0|0.7|0.96||inverse normal combination|Log Rank|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||0.96|0.70|0.0073
92172412|NCT02807636|184235350|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.023|TWO_SIDED|95.0|0.73|1.0||one-sided, inverse normal combination|Regression, Cox|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||1.0|0.73|0.0230
92172413|NCT02807636|184235351|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.3968|TWO_SIDED|95.0|0.82|1.16|||Log Rank|one-sided||Stratification factors: PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||1.16|0.82|0.3968
92280695|NCT02456532|184464250|OTHER|analyses of variance comparing the three treatment gropus|||||=|0.05|||||||ANOVA|||||||=0.05
92280696|NCT02456532|184464251|OTHER|ANOVA|||||=|0.643|||||||ANOVA|||||||=0.643
92449299|NCT00113516|184785433|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.5337|TWO_SIDED|95.0|0.52|3.44|||Log Rank||HR was based upon the ratio of \>=Median Cutpoint group hazard to \<Median Cutpoint group.|Cycle 2, Day 1||3.44|0.52|0.5337
92449300|NCT00113516|184785433|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.0712|TWO_SIDED|95.0|0.13|1.13|||Log Rank||HR was based upon the ratio of \>=Median Cutpoint group hazard to \<Median Cutpoint group.|Cycle 2, Day 28||1.13|0.13|0.0712
92449301|NCT00113516|184785433|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.0||||0.2948|TWO_SIDED|95.0|0.54|7.07|||Log Rank||HR was based upon the ratio of \>=Median Cutpoint group hazard to \<Median Cutpoint group.|Cycle 3, Day 1||7.07|0.54|0.2948
92449302|NCT00113516|184785433|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.3||||0.32|TWO_SIDED|95.0|0.28|38.48|||Log Rank||HR was based upon the ratio of \>=Median Cutpoint group hazard to \<Median Cutpoint group.|Cycle 3, Day 28||38.48|0.28|0.3200
92449303|NCT00113516|184785434|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.7824|TWO_SIDED|95.0|0.56|2.17|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.17|0.56|0.7824
92280697|NCT02750761|184464266|OTHER|Bioavailability: Geometric least squares mean ratio between the Oral Group's and IV Group's dose normalized AUC from time zero to infinity.|Geometric Least Squares Mean Ratio|1.12|||||TWO_SIDED|90.0|0.93|1.35|||||The Oral Group represented the numerator in the bioavailability ratio, and the IV Group represented the denominator.|||1.35|0.93|
92280698|NCT01860976|184464270|SUPERIORITY_OR_OTHER_LEGACY||Estimate of Difference|17.2|||<|0.001|TWO_SIDED|95.0|8.7|25.6|||Cochran-Mantel-Haenszel|||||25.6|8.7|<0.001
92449304|NCT00113516|184785434|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.1918|TWO_SIDED|95.0|0.77|3.47|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.47|0.77|0.1918
92449305|NCT00113516|184785434|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.9||||0.1093|TWO_SIDED|95.0|0.85|4.3|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||4.30|0.85|0.1093
92449306|NCT00113516|184785434|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.4809|TWO_SIDED|95.0|0.56|3.39|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||3.39|0.56|0.4809
92449307|NCT00113516|184785434|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.2||||0.011|TWO_SIDED|95.0|1.26|13.85|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||13.85|1.26|0.0110
92449308|NCT00113516|184785434|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.7||||0.2085|TWO_SIDED|95.0|0.52|14.37|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||14.37|0.52|0.2085
92449309|NCT00113516|184785434|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.8084|TWO_SIDED|95.0|0.08|23.57|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 5, Day 28||23.57|0.08|0.8084
92449310|NCT00113516|184785435|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.5215|TWO_SIDED|95.0|0.62|2.53|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.53|0.62|0.5215
92449311|NCT00113516|184785435|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.2504|TWO_SIDED|95.0|0.72|3.49|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.49|0.72|0.2504
92449312|NCT00113516|184785435|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.8766|TWO_SIDED|95.0|0.42|2.11|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||2.11|0.42|0.8766
92449313|NCT00113516|184785435|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.0109|TWO_SIDED|95.0|0.12|0.8|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||0.80|0.12|0.0109
92449314|NCT00113516|184785435|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.5627|TWO_SIDED|95.0|0.46|4.18|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||4.18|0.46|0.5627
92449315|NCT00113516|184785435|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.7||||0.4637|TWO_SIDED|95.0|0.38|8.12|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||8.12|0.38|0.4637
92449316|NCT00113516|184785436|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.6682|TWO_SIDED|95.0|0.39|1.84|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||1.84|0.39|0.6682
92449317|NCT00113516|184785436|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.6854|TWO_SIDED|95.0|0.49|3.0|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.00|0.49|0.6854
92449318|NCT00113516|184785436|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.6028|TWO_SIDED|95.0|0.49|3.37|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||3.37|0.49|0.6028
92449319|NCT00113516|184785436|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.0712|TWO_SIDED|95.0|0.13|1.13|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||1.13|0.13|0.0712
92449320|NCT00113516|184785436|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.9||||0.3411|TWO_SIDED|95.0|0.5|7.15|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||7.15|0.50|0.3411
92449321|NCT00113516|184785436|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.3||||0.32|TWO_SIDED|95.0|0.28|38.48|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||38.48|0.28|0.3200
92449322|NCT00113516|184785437|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.4768|TWO_SIDED|95.0|0.7|2.17|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.17|0.70|0.4768
92449323|NCT00113516|184785437|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.1484|TWO_SIDED|95.0|0.84|3.13|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.13|0.84|0.1484
92449324|NCT00113516|184785437|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.8957|TWO_SIDED|95.0|0.5|2.18|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||2.18|0.50|0.8957
92449325|NCT00113516|184785437|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.5681|TWO_SIDED|95.0|0.33|1.85|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||1.85|0.33|0.5681
92449326|NCT00113516|184785437|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.8||||0.0074|TWO_SIDED|95.0|1.35|10.88|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||10.88|1.35|0.0074
92449327|NCT00113516|184785437|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.1637|TWO_SIDED|95.0|0.06|1.7|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||1.70|0.06|0.1637
92449328|NCT00113516|184785437|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.6||||0.4328|TWO_SIDED|95.0|0.23|29.12|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 5, Day 28||29.12|0.23|0.4328
92449329|NCT00113516|184785438|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.4269|TWO_SIDED|95.0|0.72|2.21|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.21|0.72|0.4269
92449330|NCT00113516|184785438|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.929|TWO_SIDED|95.0|0.51|1.86|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||1.86|0.51|0.9290
92449331|NCT00113516|184785438|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.8195|TWO_SIDED|95.0|0.44|1.91|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||1.91|0.44|0.8195
92449332|NCT00113516|184785438|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.221|TWO_SIDED|95.0|0.26|1.38|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||1.38|0.26|0.2210
92449333|NCT00113516|184785438|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.4297|TWO_SIDED|95.0|0.24|1.85|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||1.85|0.24|0.4297
92449334|NCT00113516|184785438|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.0522|TWO_SIDED|95.0|0.06|1.11|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||1.11|0.06|0.0522
92449335|NCT00113516|184785438|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.6949|TWO_SIDED|95.0|0.05|7.0|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 5, Day 28||7.00|0.05|0.6949
92449336|NCT00113516|184785439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.766|TWO_SIDED|95.0|0.51|1.65|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||1.65|0.51|0.7660
92449337|NCT00113516|184785439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.5||||0.2682|TWO_SIDED|95.0|0.72|3.23|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.23|0.72|0.2682
92449338|NCT00113516|184785439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.2726|TWO_SIDED|95.0|0.69|3.7|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||3.70|0.69|0.2726
92449339|NCT00113516|184785439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.2787|TWO_SIDED|95.0|0.22|1.55|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||1.55|0.22|0.2787
92449340|NCT00113516|184785439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.4||||0.0241|TWO_SIDED|95.0|1.09|17.56|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||17.56|1.09|0.0241
92449341|NCT00113516|184785439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.4||||0.0943|TWO_SIDED|95.0|0.59|48.81|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||48.81|0.59|0.0943
92449342|NCT00113516|184785439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.8084|TWO_SIDED|95.0|0.04|11.79|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 5, Day 28||11.79|0.04|0.8084
92287167|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.098|TWO_SIDED|95.0|-0.01|0.113|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.113|-0.010|0.098
92449343|NCT03915548|184785444|OTHER|Group by time interaction (difference in trajectory)||||||0.54||||||Adjusted|Mixed Models Analysis|multiple-degree-of-freedom test|||F(3,747)=0.88|||.54
92449344|NCT03915548|184785445|OTHER|Group by time interaction (difference in trajectory)||||||0.09||||||Adjusted|Mixed Models Analysis|multiple-degree-of-freedom test|||F(3,746.4)=2.64|||.09
92449345|NCT03915548|184785446|OTHER|Group by time interaction (difference in trajectory)||||||0.55||||||Adjusted|Mixed Models Analysis|Poisson model with log link; multiple-degree-of-freedom test|||F(3,717)=0.7|||.55
92449346|NCT03915548|184785447|OTHER|Group by time interaction (difference in trajectory)||||||0.99||||||Adjusted|Mixed Models Analysis|multiple-degree-of-freedom test|||F(3,394.7)=0.18|||.99
92449347|NCT03915548|184785448|OTHER|Group by time interaction (difference in trajectory)||||||0.99||||||Overall score adjusted P = 0.99 Physical subscale adjusted P = 0.99 Social subscale adjusted P = 0.99 Emotional subscale adjusted P = 0.99 Functional subscale adjusted P = 0.99|Mixed Models Analysis|multiple-degree-of-freedom test|||"Group by time interaction:~Overall score: F(3,731.3)=0.03 Physical subscale: F(3,744.5)=0.23 Social subscale: F(3,740.6)=0.32 Emotional subscale: F(3,743)=0.46 Functional subscale: F(3,746.1)=0.3"|||0.99
92449348|NCT03915548|184785449|OTHER|Group by time interaction (difference in trajectory)||||||0.99||||||Active coping adjusted P = 0.99 Planning adjusted P = 0.21 Positive reframing adjusted P = 0.99|Mixed Models Analysis|multiple-degrees-of-freedom test|||Active planning: F(3,746)=0.8 Planning: F(3,744.8)=2.93 Positive reframing = F(3,742)=0.21|||0.99
92449349|NCT03915548|184785450|OTHER|Group by time interaction (difference in trajectory)||||||0.02|||||||Mixed Models Analysis|multiple-degrees-of-freedom test|||Disengagement: F(3,741.2)=5.09 Reengagement: F(3,745.7)=0.81|||0.02
92449350|NCT03915548|184785451|OTHER|Group by time interaction (difference in trajectory)||||||0.99||||||Anxiety adjusted P = 0.99 Depression adjusted P = 0.99|Mixed Models Analysis|multiple-degrees-of-freedom test|||Anxiety: F(3,737.5)=0.17 Depression: F(3,733.6)=0.85|||0.99
92449351|NCT03915548|184785452|SUPERIORITY||Cohen's d|0.26||||0.09|TWO_SIDED|95.0|-0.01|0.54||Importance subscale: Adjusted P = .09 Performance subscale: Adjusted P = \<.001 Satisfaction subscale: Adjusted P = \<.001|Mixed Models Analysis|multiple-degrees-of-freedom test|Importance subscale: Cohen's d = 0.26 (-.01, 0.54) Performance subscale: Cohen's d = 0.60 (0.32, 0.87) Satisfaction subscale: Cohen's d = 0.76 (0.48, 1.02)|||0.54|-.01|.09
92449352|NCT03217136|184785463|OTHER|The Miettinen \& Nurminen method was used.|Difference in Percentage|18.1|||||TWO_SIDED|95.0|-2.6|41.1||||||Difference in Percentage (C/T+MTZ minus MERO)||41.1|-2.6|
92449353|NCT03217136|184785464|OTHER|The Miettinen \& Nurminen method was used.|Difference in Percentage|2.9|||||TWO_SIDED|95.0|-12.9|9.9||||||Difference in Percentage (C/T+MTZ minus MERO)||9.9|-12.9|
92240770|NCT00436969|184384800|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.467||||0.671|TWO_SIDED|95.0|-1.692|2.627||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||2.627|-1.692|0.671
92240771|NCT00358917|184384805|NON_INFERIORITY_OR_EQUIVALENCE|The 95% confidence interval for the difference in response rates (once daily \[QD\] minus twice daily \[BID\], based on the normal approximation to the binomial distribution) was used to assess noninferiority. The QD regimen was considered noninferior to the BID regimen if the lower limit of the confidence interval remained above -12%.|Diff. in Percentage of Subj. Responding|3.5||||0.413||95.0|-4.5|11.5|||normal approx. to binomial distribution|||The null hypothesis was that the response rate for the once daily (QD) regimen was more than 12% lower than the response rate for the twice daily (BID) regimen. The planned sample size of 600 participants (300 participants in each of the QD and BID treatment regimens) provided 83% power (with a type I error rate of 0.05) to reject the null hypothesis, i.e., to determine noninferiority based on the 12% margin.||11.5|-4.5|0.413
92240772|NCT00358917|184384806|SUPERIORITY_OR_OTHER||Diff. in Percentage of Subj. Responding|3.8||||0.389||95.0|-4.3|11.9|||normal approx. to binomial distribution|||||11.9|-4.3|0.389
92240773|NCT00358917|184384807|SUPERIORITY_OR_OTHER|||||||0.281||95.0|||||ANOVA|||||||0.281
92240774|NCT00358917|184384809|SUPERIORITY_OR_OTHER|||||||0.222||95.0|||||Fisher Exact|||||||0.222
92280699|NCT00810368|184464330|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|||||2-tailed paired Student's t-tests between Week 0 and Week 12 responses (above) were anticipated to show significant benefits with carnosine treatment but no change with placebo. There were no corrections for multiple comparisons in the reported data.|t-test, 2 sided|Paired t-test||Description of Power Calculation: The planned sample size completing each arm was based on individual incremental improvements in the primary outcomes of : A) CFS Severity Scores (Baraniuk et al., Annals Allergy Astma Immunol, 1998), B) Instantaneous Fatigue (Kim et al. Journal of Rehab Res Dev, 2010), and C) increased accuracy of 4/35 letters for 2 back working memory task (Owen, Human Brain Mapping, 2005).||||0.30
92240775|NCT00772967|184384820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.611||||0.089||90.0|-1.36|0.14||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||0.14|-1.36|0.089
92280700|NCT00810368|184464330|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||t-test, 2 sided|||||||0.40
92449354|NCT03217136|184785465|OTHER|The difference in percentage was based on the Miettinen \& Nurminen method stratified by age group with Cochran-Mantel-Haenszel (CMH) weights. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Difference in Percentage|-14.3|||||TWO_SIDED|95.0|-26.67|4.93||||||Difference in Percentage (C/T+MTZ minus MERO)||4.93|-26.67|
92449355|NCT03217136|184785466|OTHER|The difference in percentage was based on the Miettinen \& Nurminen method stratified by age group with Cochran-Mantel-Haenszel (CMH) weights. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Difference in Percentage|-19.1|||||TWO_SIDED|95.0|-30.18|-2.89||||||Difference in Percentage (C/T+MTZ minus MERO)||-2.89|-30.18|
92449356|NCT03217136|184785467|OTHER|The difference in percentage was based on the Miettinen \& Nurminen method stratified by age group with Cochran-Mantel-Haenszel (CMH) weights. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Difference in Percentage|-11.2|||||TWO_SIDED|95.0|-23.66|9.61||||||Difference in Percentage (C/T+MTZ minus MERO)||9.61|-23.66|
92449357|NCT03217136|184785468|OTHER|The difference in percentage was based on the Miettinen \& Nurminen method stratified by age group with Cochran-Mantel-Haenszel (CMH) weights. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Difference in Percentage|-16.3|||||TWO_SIDED|95.0|-27.59|1.39||||||Difference in Percentage (C/T+MTZ minus MERO)||1.39|-27.59|
92449358|NCT03091751|184785486|OTHER||Mean Difference (Final Values)|10.41||||0.77|TWO_SIDED|95.0|-224.88|245.7|||t-test, 1 sided|||||245.70|-224.88|0.77
92449359|NCT03091751|184785487|OTHER||Mean Difference (Final Values)|0.3068||||0.002|TWO_SIDED|95.0|0.1501|0.4635|||t-test, 1 sided|||||0.4635|0.1501|0.002
92449360|NCT03091751|184785488|OTHER||Mean Difference (Final Values)|-3.3||||0.3|TWO_SIDED|95.0|-8.9|2.3|||t-test, 1 sided|||||2.3|-8.9|0.30
92449361|NCT03091751|184785489|OTHER||Mean Difference (Final Values)|-0.0058||||0.16|TWO_SIDED|95.0|-0.0119|0.0003|||t-test, 1 sided|||||0.0003|-0.0119|0.16
92280701|NCT00810368|184464331|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED|||||Using Fisher's Exact Test, we determined whether there was a significant difference in the number of participants complaining of IBS symptoms.|Fisher Exact|2 by 2 Fisher's Exact Test||||||0.018
92280702|NCT00810368|184464332|SUPERIORITY_OR_OTHER|||||||0.0018|TWO_SIDED||||||t-test, 2 sided|||||||0.0018
92280703|NCT00810368|184464332|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.60
92280704|NCT00810368|184464334|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
92449362|NCT03091751|184785490|OTHER||Mean Difference (Final Values)|-7.609||||0.02|TWO_SIDED|95.0|-13.344|-1.879|||t-test, 1 sided|||||-1.879|-13.344|0.02
92240776|NCT00772967|184384820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.804||||0.043||90.0|-1.57|-0.04||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.04|-1.57|0.043
92240777|NCT00772967|184384821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.518||||0.048||90.0|-1.03|-0.01||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.01|-1.03|0.048
92172414|NCT02807636|184235356|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0373|TWO_SIDED|95.0|0.73|1.01||inverse normal combination|Regression, Cox|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||1.01|0.73|0.0373
92172415|NCT02807636|184235357|SUPERIORITY||Difference in Event Free Rate|5.0||||0.1509|TWO_SIDED|95.0|-1.82|11.81|||Z-test|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||11.81|-1.82|0.1509
92172416|NCT02807636|184235358|SUPERIORITY||Difference in Event Free Rate|3.36||||0.3761|TWO_SIDED|95.0|-4.08|10.79|||Z-test|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||10.79|-4.08|0.3761
92172417|NCT02807636|184235359|SUPERIORITY||Difference in Event Free Rate|-8.29||||0.0083|TWO_SIDED|95.0|-14.45|-2.13|||Z-test|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||-2.13|-14.45|0.0083
92172418|NCT02807636|184235360|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0542|TWO_SIDED|95.0|0.64|1.0|||Log Rank|||Strata are: Enrollment Stage, PD-L1 Status, BAJORIN Risk Factor Score and Stratum 4 for all participants.||1.00|0.64|0.0542
92172419|NCT02807636|184235361|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6139|TWO_SIDED|95.0|0.74|1.19|||Log Rank|||Strata are: PD-L1 Status, BAJORIN Risk Factor Score and Stratum 4 for all participants.||1.19|0.74|0.6139
92172420|NCT02807636|184235362|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.554|TWO_SIDED|95.0|0.86|1.32|||Log Rank|||Strata are: Enrollment Stage, PD-L1 Status, BAJORIN Risk Factor Score and Stratum 4 for all participants.||1.32|0.86|0.5540
92240778|NCT00772967|184384821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.001||90.0|-1.54|-0.53||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.53|-1.54|0.001
92240779|NCT00772967|184384822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.658||||0.052||90.0|-1.32|0.01||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||0.01|-1.32|0.052
92240780|NCT00772967|184384822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15||||0.003||90.0|-1.81|-0.49||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.49|-1.81|0.003
92172421|NCT02807636|184235363|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.0241|TWO_SIDED|95.0|1.03|1.62|||Log Rank|||Strata are: Enrollment Stage, PD-L1 Status, BAJORIN Risk Factor Score and Stratum 4 for all participants.||1.62|1.03|0.0241
92172422|NCT02807636|184235367|SUPERIORITY||Hazard Ratio (HR)|1.42||||1|TWO_SIDED|95.0|1.19|1.69|||Log Rank|||Stratification factors: PD-L1 status and Bajorin risk score/presence of liver metastases and investigator choice of chemotherapy.||1.69|1.19|1.0000
92172423|NCT04088630|184235377|SUPERIORITY|||||||0.0427||||||p\<0.05 considered significant. Between group pairwise comparisons performed with Bonferroni correction.|Fisher Exact|||Difference in proportion of subjects with cardiac events up to 30 days post-ictus tested between three groups.||||0.0427
92172424|NCT04088630|184235378|SUPERIORITY|||||||0.19|||||||Fisher Exact|||Difference in proportion of subjects with nosocomial infections up to 90 days post-ictus tested between three groups. No pairwise comparisons performed.||||0.19
92172425|NCT04088630|184235379|SUPERIORITY|||||||0.3|||||||Fisher Exact|||Difference in proportion of subjects with neurologic decline up to 30 days post-ictus tested between three groups. No pairwise comparisons performed.||||0.30
92172426|NCT05493787|184235400|SUPERIORITY|||||||0.003||||||Comparisons between Passive Control and all other arms (Analyses 1-5) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Flu shot self-scheduling does not differ between those sent an Active Control message and those not sent a message (i.e., those in the Passive Control group); Alternative hypothesis: Sending an Active Control message increases self-scheduling compared with sending no message. Analysis combines across November and December send dates.||||.003
92172427|NCT05493787|184235400|SUPERIORITY||||||<|0.001||||||Comparisons between Passive Control and all other arms (Analyses 1-5) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Flu shot self-scheduling does not differ between those sent an Ease message and those not sent a message (i.e., those in the Passive Control group); Alternative hypothesis: Sending an Ease message increases self-scheduling compared with sending no message. Analysis combines across November and December send dates.||||<.001
92172428|NCT05493787|184235400|SUPERIORITY||||||<|0.001||||||Comparisons between Passive Control and all other arms (Analyses 1-5) were analyzed in the same regression.|Regression, Linear|||Null hypothesis: Flu shot self-scheduling does not differ between those sent an Waiting for You message message and those not sent a message (i.e., those in the Passive Control group); Alternative hypothesis: Sending a Waiting for You message increases self-scheduling compared with sending no message. Analysis combines across November and December send dates.||||<.001
92240781|NCT00772967|184384823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.875||||0.019||90.0|-1.56|-0.19||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.19|-1.56|0.019
92240782|NCT00772967|184384823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.007||90.0|-1.77|-0.37||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.37|-1.77|0.007
92172429|NCT05493787|184235400|SUPERIORITY|||||||0.003||||||Comparisons between Passive Control and all other arms (Analyses 1-5) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Flu shot self-scheduling does not differ between those sent a Protect Yourself - Rare message and those not sent a message (i.e., those in the Passive Control group); Alternative hypothesis: Sending a Protect Yourself - Rare Message increases self-scheduling compared with sending no message. Analysis combines across November and December send dates.||||.003
92240783|NCT00803244|184384833|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.49||||0.2344||95.0|-1.3|0.32|||ANCOVA|||||0.32|-1.30|0.2344
92449363|NCT01161329|184785495|NON_INFERIORITY_OR_EQUIVALENCE|It was estimated that 128 individuals would be required for 80 % Power with a type I error of 5% to detect a 2-point difference in BBS with a standard deviation of +/- 4 points. Because of the slow recruitment and the statistically significant improvements observed in the primary outcome in the intervention group during an interim analysis the study was finalized with fewer participants than had been initially calculated.||||||0.001||||||The Bonferroni method was used to assess longitudinal Changes and correct for multiple comparisons, with significance set at p\<0.016 to minimize the risk for type I errors.|Wilcoxon (Mann-Whitney)|||Intention-to-treat analysis was performed to assess the effects on the outcome measures. Between-group differences for all outcome measures were analyzed using Mann-Whitney U-test.||||0.001
92449364|NCT01161329|184785496|SUPERIORITY_OR_OTHER|||||||0.09||||||The p-value for the man differnece in SPPB between grpoups att three months was 0.09|Wilcoxon (Mann-Whitney)|||||||0.09
92449365|NCT01591746|184785532|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
92449366|NCT01591746|184785533|SUPERIORITY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||||||0.56
92449367|NCT01591746|184785534|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Right breast initial percent volume expansion||||0.45
92449368|NCT01591746|184785534|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||Left breast initial percent volume expansion||||0.98
92449369|NCT01591746|184785535|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
92449370|NCT01591746|184785536|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
92449371|NCT01591746|184785537|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
92449372|NCT03495908|184785551|NON_INFERIORITY|Non-inferiority margin is 0.4% HbA1c|Mean Difference (Net)|-0.2207||||0.007|TWO_SIDED|95.0|-0.6654|0.2241||Non-inferiority p-value based on the 0.4% non-inferiority margin|Mixed Models Analysis||RHI - RAI estimated treatment difference. Upper confidence interval 0.22 is less than the 0.4% non-inferiority margin.|RHI - RAI estimated treatment difference (ETD) in HbA1c. Per-protocol analysis is the pre-specified primary outcome.||0.2241|-0.6654|0.007
92449373|NCT03495908|184785552|SUPERIORITY|Comparison of Post-randomization prevalence of hypoglycemia based on 7-point glucose profiles.||||||0.82|||||||Fisher Exact|||Post-randomization prevalence of hypoglycemia based on 7-point glucose profiles.||||.82
92449374|NCT03495908|184785553|SUPERIORITY|Analysis of the 7-point profiles within the ITT population (n=136)|Risk Ratio (RR)|0.925||||0.861|TWO_SIDED|95.0|0.386|2.217||Results are from a Poisson regression model with repeated measures; generalized estimating equations (GEE) approach.|Regression, Poisson|Poisson regression model with repeated measures; generalized estimating equations (GEE) approach|The incidence rate ratio quantitates the risk of hypoglycemia in the RHI group (RR numerator) compared with the RAI group (RR numerator). Results from Poisson regression model with repeated measures; generalized estimating equations (GEE) approach.|Level 1 (≤70 mg/dL or (\<3.9 mmol/L)) and level 2 hypoglycemia (\<54 mg/dL (\<3.0 mmol/L)) events are analyzed. No level 3 events were reported for either group.||2.217|0.386|0.861
92449375|NCT03495908|184785554|SUPERIORITY||Mean Difference (Net)|-0.01073||||0.415|TWO_SIDED|95.0|-0.03674|0.01528|||Mixed Models Analysis||Between Group Comparison (RHI-RAI) Estimated Treatment Difference (ETD) mixed effects model analysis|RHI versus RAI for Insulin Intent-to-treat Population N=136 Mixed Model Estimates for Insulin TDD U/kg I||0.01528|-0.03674|0.415
92449376|NCT03495908|184785555|SUPERIORITY||Mean Difference (Net)|-1.0776||||0.32|TWO_SIDED|95.0|-3.2139|1.0587|||Mixed Models Analysis||Between Group Comparison (RHI-RAI) Estimated Treatment Difference (ETD) mixed effects model analysis|||1.0587|-3.2139|0.320
92449377|NCT03495908|184785556|SUPERIORITY||Mean Difference (Net)|-265.85|||<|0.0001|TWO_SIDED|95.0|-288.6|-243.11|||Mixed Models Analysis||Estimated Treatment Difference (RHI-RAI) from repeated measures mixed model least squares estimates|||-243.11|-288.60|<0.0001
92449378|NCT03495908|184785557|NON_INFERIORITY|Change in A1C Non-inferiority Margin is 0.4%|Mean Difference (Net)|-0.1317||||0.02|TWO_SIDED|95.0|-0.5838|0.3205||p-value for non-inferiority|Mixed Models Analysis||Between Group Difference (RHI-RAI) mixed effects repeated measures model analysis.Upper confidence interval 0.32 is less than the 0.4% non-inferiority margin.|Intent-to-treat secondary outcome of HbA1c response for assessment of non-inferiority of RHI compared to RAI||0.3205|-0.5838|0.02
92449379|NCT01559311|184785563|SUPERIORITY_OR_OTHER|||||||0.1734|||||||Wilcoxon (Mann-Whitney)|||"* H01: μ LVEF, 1= μ LVEF, 2a vs H1a: μ LVEF, 1 \< μ LVEF, 2a~* Where μ LVEF, 1 is the mean of LVEF at month 12 in DDDR Gp.~* μ LVEF, 2a is the mean of LVEF at month 12 in CRT-P ON Gp,"||||0.1734
92449380|NCT01559311|184785563|SUPERIORITY_OR_OTHER|||||||0.1439|||||||Wilcoxon (Mann-Whitney)|||"* H03: μ LVEF, 1= μ LVEF, 2b vs H1a: μ LVEF, 1 \< μ LVEF, 2b~* Where μ LVEF, 1 is the mean of LVEF at month 12 in DDDR Gp.~* μ LVEF, 2b is the mean of LVEF at month 12 in the CRT-P OFF Gp"||||0.1439
92449381|NCT01559311|184785564|SUPERIORITY_OR_OTHER|||||||0.6276|||||||Wilcoxon (Mann-Whitney)|||"* H02: μ LVESV, 1 = μ LVESV, 2a vs H1b: μ LVESV, 1 \> μ LVESV, 2a~* Where, μLVESV, 1 is the mean of LVESV at month 12 in the DDDR Group,~* μLVESV, 2a is the mean of LVESV at month 12 in the CRT-P ON group"||||0.6276
92449382|NCT01559311|184785564|SUPERIORITY_OR_OTHER|||||||0.5871|||||||Wilcoxon (Mann-Whitney)|||"* H04: μ LVESV, 1 = μ LVESV, 2b vs H1b: μ LVESV, 1 \> μ LVESV, 2b~* Where, μLVESV, 1 is the mean of LVESV at month 12 in the DDDR Group,~* and μLVESV, 2b is the mean of LVESV at month 12 in CRT-P OFF group."||||0.5871
92240784|NCT00803244|184384834|SUPERIORITY_OR_OTHER||LS Mean difference vs. Placebo|-0.09||||0.0401|TWO_SIDED|95.0|-0.18|0.0|||ANCOVA||Relative LS Means difference (%) = -19.7|||0.00|-0.18|0.0401
92280705|NCT00810368|184464335|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
92280706|NCT00810368|184464336|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.50
92280707|NCT02362594|184464348|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|98.4|0.43|0.74||One-sided p-value based on log-rank test.|Regression, Cox|||Comparison of RFS time-to-event distribution between the 2 treatment arms was based on Cox regression model with treatment as a covariate stratified by stage (IIIA \[\>1 mm metastasis\] vs. IIIB vs. IIIC 1-3 nodes vs. IIIC ≥4 nodes) as indicated at randomization.||0.74|0.43|<0.0001
92449383|NCT00515827|184785580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.546||95.0||||P-value is 2-sided and is not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.546
92449384|NCT01856140|184785603|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at baseline||||0.52
92449385|NCT01856140|184785603|OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 6 weeks.||||0.47
92449386|NCT01856140|184785603|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 12 weeks.||||0.52
92449387|NCT01856140|184785604|OTHER|||||||0.227|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at baseline||||0.227
92449388|NCT01856140|184785604|OTHER|||||||0.573|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 6 weeks.||||0.573
92449389|NCT01856140|184785604|OTHER|||||||0.588|||||||Wilcoxon (Mann-Whitney)|||||||0.588
92449390|NCT01856140|184785605|OTHER|||||||0.262|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at baseline||||0.262
92449391|NCT01856140|184785605|OTHER|||||||0.631|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 6 weeks.||||0.631
92449392|NCT01856140|184785605|OTHER|||||||0.796|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 12 weeks.||||0.796
92449393|NCT01856140|184785606|OTHER|||||||0.337|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at baseline||||0.337
92449394|NCT01856140|184785606|OTHER|||||||0.078|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 6 weeks||||0.078
92449395|NCT01856140|184785606|OTHER|||||||0.439|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 12 weeks.||||0.439
92280708|NCT02362594|184464349|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.42|0.69||One-sided p-value based on log-rank test.|Regression, Cox|||Comparison of RFS time-to-event distribution between the 2 treatment arms (PD-L1-positive participants) was based on Cox regression model with treatment as a covariate stratified by stage (IIIA \[\>1 mm metastasis\] vs. IIIB vs. IIIC 1-3 nodes vs. IIIC ≥4 nodes) as indicated at randomization.||0.69|0.42|<0.0001
92449396|NCT03223298|184785625|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||3-month mean change (from pre-op) in Jaw Pain compared between the Botox group and Placebo group.||||0.80
92449397|NCT03223298|184785626|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||3-month mean Jaw Function Limitation Scale score compared between Botox group and placebo group.||||0.50
92449398|NCT03223298|184785627|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Change in MIO with Pain at 3-months post-intervention compared between Botox group and Placebo group.||||0.30
92449399|NCT03223298|184785627|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Change in MIO without Pain at 3-months post-intervention compared between Botox group and Placebo group.||||0.50
92280709|NCT03365375|184464372|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.82|TWO_SIDED||||||t-test, 2 sided|||||||0.82
92280710|NCT01807871|184464415|SUPERIORITY|||||||0.48|||||||Chi-squared|||||||0.48
92280711|NCT01807871|184464417|SUPERIORITY|||||||0.24|||||||Chi-squared|||Comparison of number of participants who reported removing the nicotine patch due to a side effect||||0.24
92449400|NCT03223298|184785628|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Mean change at 3 months post intervention - General Health Score, compared between Botox group and Placebo group.||||0.40
92449401|NCT03143829|184785649|OTHER|||||||0.083|||||||t-test, 2 sided|||Differences at week 10||||0.083
92449402|NCT03143829|184785650|OTHER|||||||0.099|||||||t-test, 2 sided|||Descriptive comparison||||.099
92449403|NCT03143829|184785651|OTHER|||||||0.558|||||||t-test, 2 sided|||comparison at time 4||||.558
92449404|NCT03143829|184785652|OTHER|||||||0.153|||||||Chi-squared|||descriptive comparison of resource use||||.153
92449405|NCT00672477|184785653|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||< 0.0001
92449406|NCT00672477|184785654|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||< 0.0001
92449407|NCT02057757|184785688|EQUIVALENCE|The equivalence margin is 1.25 Days.||||||0.5634|||||||Fay - Shaw|||||||0.5634
92449408|NCT02057757|184785689|SUPERIORITY|||||||0.645||||||The p-value for each time point was calculated; Day 3|Fay - Shaw|||||||0.645
92449409|NCT02057757|184785689|SUPERIORITY|||||||0.989||||||The p-value for each value was calculated (Day 7).|Fay-Shaw|||||||0.989
92449410|NCT02057757|184785689|SUPERIORITY|||||||0.809||||||Day 14|Fay-Shaw|||||||0.809
92449411|NCT02057757|184785689|SUPERIORITY|||||||0.671||||||Day 28|Fay-Shaw|||||||0.671
92449412|NCT02057757|184785691|SUPERIORITY|||||||0.4277||||||Cough|Fay - Shaw|||||||0.4277
92449413|NCT02057757|184785691|SUPERIORITY|||||||0.4022||||||Sore Throat|Fay-Shaw|||||||0.4022
92449414|NCT02057757|184785691|SUPERIORITY|||||||0.5957||||||Fatigue|Fay-Shaw|||||||0.5957
92449415|NCT02057757|184785691|SUPERIORITY|||||||0.0446||||||Nasal Discharge|Fay-Shaw|||||||0.0446
92449416|NCT02057757|184785691|SUPERIORITY|||||||0.8628||||||Difficulty Breathing|Fay-Shaw|||||||0.8628
92449417|NCT02057757|184785691|SUPERIORITY|||||||0.16||||||Headache|Fay-Shaw|||||||0.16
92449418|NCT02057757|184785691|SUPERIORITY|||||||0.1234||||||Muscle Pain|Fay-Shaw|||||||0.1234
92449419|NCT02057757|184785691|SUPERIORITY|||||||0.2155||||||Nausea|Fay-Shaw|||||||0.2155
92240785|NCT00053846|184384850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.483|STANDARD_ERROR_OF_MEAN|0.275||0.08|TWO_SIDED|95.0|-1.02|0.0576|||ANCOVA||Multiple Imputation (MI) used for estimates. MICE software in R was used to generate 100 imputed datasets. ANCOVA was run on each, and results were pooled.|H0: The true difference in means is equal to zero. Ha: The true difference in means is not equal to zero.||0.0576|-1.020|0.080
92240786|NCT02389946|184384859|NON_INFERIORITY|Non-inferiority of the 12-month TLF rate for the Orsiro stent vs. the Xience stent was assessed as the primary endpoint. The null hypothesis H0 was that the Orsiro stent would have a primary endpoint (12-month TLF) rate equal to or exceeding that of the Xience group by the non-inferiority margin or more. The alternative hypothesis HA was that the Orsiro stent would have a 12-month TLF rate less than the Xience group rate plus the non-inferiority margin of 3.85%.|Posterior Probability of non-inferioriry|100.0|||||TWO_SIDED|||||||||Bayesian calculation using a hierarchical model to incorporate data from previous BIOFLOW-II and BIOFLOW-IV trials.||||
92240787|NCT02389946|184384860|OTHER|||||||0.415|||||||Fisher Exact|||||||0.415
92240788|NCT01605396|184384872|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.565|TWO_SIDED|80.0|0.81|1.72|||Regression, Cox|||Hazard ratio (HR) and p-value for treatment difference based on Cox regression model with Efron tie handling for treatment comparison (Ridaforolimus + Dalotuzumab + Exemestane arm versus Ridaforolimus + Exemestane arm).||1.72|0.81|0.565
92240789|NCT01605396|184384874|OTHER||Difference of Percentages|-10.0||||0.267|TWO_SIDED|95.0|-27.8|8.0|||Miettinen and Nurminen's Method|||Miettinen and Nurminen's method was used to compare ORR between the two treatment arms (Ridaforolimus + Dalotuzumab + Exemestane arm versus Ridaforolimus + Exemestane arm), and to calculate a p-value and 95% confidence interval (CI) for the difference in response rates.||8.0|-27.8|0.267
92240790|NCT01605396|184384875|OTHER||Hazard Ratio (HR)|1.38||||0.562|TWO_SIDED|95.0|0.46|4.13|||Regression, Cox|||HR and p-value for treatment difference based on Cox regression model with Efron tie handling for treatment comparison (Ridaforolimus + Dalotuzumab + Exemestane arm versus Ridaforolimus + Exemestane arm).||4.13|0.46|0.562
92240791|NCT03283163|184384887|OTHER|||||||0.04|||||||t-test, 2 sided|||paired samples t-test to compare PTSD severity from baseline to endpoint (week 13).||||.040
92280712|NCT01915732|184464458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5||||0.002|TWO_SIDED|95.0|-7.4|-1.6|||ANCOVA|||||-1.6|-7.4|0.002
92240792|NCT03283163|184384888|OTHER|||||||0.69|||||||t-test, 2 sided|||paired samples t-test to compare degree of pain-related interference from baseline to endpoint (week 13).||||.69
92240793|NCT03283163|184384889|OTHER|||||||0.098|||||||t-test, 2 sided|||paired samples t-test to compare severity of pain catastrophizing from baseline to endpoint (week 13).||||.098
92240794|NCT03283163|184384890|OTHER|||||||0.194|||||||t-test, 2 sided|||paired samples t-tests were conducted for comparison of resting ALLO+PA levels from baseline to endpoint (week 13).||||.194
92240795|NCT03283163|184384891|OTHER|paired samples t-test||||||0.343|||||||t-test, 2 sided|||paired samples t-tests were conducted for comparison of peak ALLO+PA levels (30 minutes post MAXEX) from baseline to endpoint (week 13).||||.343
92240796|NCT04238663|184384899|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of Geometric Least Square Mean|1.06|||||TWO_SIDED|90.0|0.976|1.16|||||For the comparison, MB02 represents the numerator and EU Avastin represents the denominator.|||1.16|0.976|
92240797|NCT04238663|184384899|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of Geometric Least Square Mean|0.983|||||TWO_SIDED|90.0|0.897|1.08||||||For the comparison, MB02 represents the numerator and US Avastin represents the denominator.||1.08|0.897|
92280713|NCT01915732|184464459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|||<|0.001|TWO_SIDED|95.0|-7.3|-1.9|||ANCOVA|||||-1.9|-7.3|<0.001
92240798|NCT04238663|184384899|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of Geometric Least Square Mean|0.926|||||TWO_SIDED|90.0|0.851|1.01|||||For Ratio of geometric least square mean (GLSM): EU is the numerator and US Avastin acts as the denominator|||1.01|0.851|
92240799|NCT04238663|184384900|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25.~The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|1.07|||||TWO_SIDED|90.0|1.0|1.14|||||For the comparison, MB02 represents the numerator and EU Avastin represents the denominator|||1.14|1.00|
92280714|NCT01915732|184464460|SUPERIORITY_OR_OTHER|||||||0.018|||||||Cochran-Mantel-Haenszel|||||||0.018
92280715|NCT01915732|184464461|SUPERIORITY_OR_OTHER|||||||0.013|||||||Cochran-Mantel-Haenszel|||||||0.013
92280716|NCT01915732|184464462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.077|TWO_SIDED|95.0|-1.8|0.1|||ANCOVA||Statistical data for the category=IL.|||0.1|-1.8|0.077
92280717|NCT01915732|184464462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.004|TWO_SIDED|95.0|-5.7|-1.1|||ANCOVA||Statistical data for the category=NIL.|||-1.1|-5.7|0.004
92280718|NCT01915732|184464463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.028|TWO_SIDED|95.0|-2.0|-0.1|||ANCOVA||Statistical data for the category=IL.|||-0.1|-2.0|0.028
92280719|NCT01915732|184464463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.002|TWO_SIDED|95.0|-5.5|-1.2|||ANCOVA||Statistical data for the category=NIL.|||-1.2|-5.5|0.002
92280720|NCT01915732|184464464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.08|TWO_SIDED|95.0|-0.06|0.0|||ANCOVA||Statistical data for the category=IL.|||0.00|-0.06|0.080
92449420|NCT02057757|184785691|SUPERIORITY|||||||0.5176||||||Vomiting|Fay-Shaw|||||||0.5176
92449421|NCT02057757|184785691|SUPERIORITY|||||||0.6986||||||Diarrhea|Fay-Shaw|||||||0.6986
92449422|NCT02057757|184785692|SUPERIORITY|||||||0.985|||||||Fay - Shaw|||||||0.9850
92449423|NCT02057757|184785693|SUPERIORITY|||||||0.681||||||Any Time|Fay - Shaw|||||||0.681
92449424|NCT02057757|184785693|SUPERIORITY|||||||0.341||||||Day 0|Fay-Shaw|||||||0.341
92280721|NCT01915732|184464464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.004|TWO_SIDED|95.0|-0.12|-0.02|||ANCOVA||Statistical data for the category=NIL.|||-0.02|-0.12|0.004
92449425|NCT02057757|184785693|SUPERIORITY|||||||0.321||||||Day 3|Fay-Shaw|||||||0.321
92449426|NCT02057757|184785693|SUPERIORITY|||||||0.957||||||Day 7|Fay-Shaw|||||||0.957
92449427|NCT02057757|184785693|SUPERIORITY|||||||0.788||||||Day 14|Fay-Shaw|||||||0.788
92449428|NCT02057757|184785693|SUPERIORITY|||||||0.544||||||Day 28|Fay-Shaw|||||||0.544
92449429|NCT02057757|184785694|SUPERIORITY|||||||0.671||||||Any Time|Fay - Shaw|||||||0.671
92449430|NCT02057757|184785694|SUPERIORITY|||||||0.325||||||Day 0|Fay-Shaw|||||||0.325
92449431|NCT02057757|184785694|SUPERIORITY|||||||0.987||||||Day 3|Fay-Shaw|||||||0.987
92449432|NCT02057757|184785694|SUPERIORITY|||||||0.987||||||Day 7|Fay-Shaw|||||||0.987
92449433|NCT02057757|184785694|SUPERIORITY|||||||0.311||||||Day 14|Fay-Shaw|||||||0.311
92449434|NCT02057757|184785695|SUPERIORITY|||||||0.973||||||Any Time|Fay - Shaw|||||||0.973
92449435|NCT02057757|184785695|SUPERIORITY|||||||0.575||||||Day 0|Fay-Shaw|||||||0.575
92449436|NCT02057757|184785695|SUPERIORITY|||||||0.548||||||Day 3|Fay-Shaw|||||||0.548
92449437|NCT02057757|184785695|SUPERIORITY|||||||0.987||||||Day 7|Fay-Shaw|||||||0.987
92449438|NCT02057757|184785695|SUPERIORITY|||||||0.987||||||Day 14|Fay-Shaw|||||||0.987
92449439|NCT02057757|184785695|SUPERIORITY|||||||0.987||||||Day 28|Fay-Shaw|||||||0.987
92449440|NCT02057757|184785696|SUPERIORITY|||||||0.928||||||Pneumonia|Fay - Shaw|||||||0.928
92449441|NCT02057757|184785696|SUPERIORITY|||||||0.9669||||||ARDS|Fay-Shaw|||||||0.9669
92240800|NCT04238663|184384900|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25.~The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|0.998|||||TWO_SIDED|90.0|0.944|1.05|||||For the comparison, MB02 represents the numerator and US Avastin represents the denominator.|||1.05|0.944|
92240801|NCT04238663|184384900|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25.~The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|0.934|||||TWO_SIDED|90.0|0.884|0.988|||||EU Avastin corresponds to the numerator and US Avastin corresponds to the denominator|||0.988|0.884|
92240802|NCT04430582|184384920|OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.90
92240803|NCT04430582|184384921|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
92240804|NCT04430582|184384922|OTHER|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
92240805|NCT04430582|184384923|OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
92240806|NCT04430582|184384924|OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.70
92240807|NCT04430582|184384925|OTHER|||||||0.95|||||||Kruskal-Wallis|||||||0.95
92240808|NCT04430582|184384926|OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92240809|NCT04430582|184384927|OTHER|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||||||0.85
92240810|NCT04430582|184384928|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92240811|NCT04430582|184384929|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92240812|NCT04430582|184384930|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92240813|NCT04430582|184384931|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92449442|NCT02057757|184785696|SUPERIORITY|||||||0.0832||||||Bronchitis|Fay-Shaw|||||||0.0832
92449443|NCT02057757|184785697|SUPERIORITY|||||||0.036||||||Adults (\>= 18 Years ) - Global Assessment: Have you felt as good as you did before you had the respiratory illness?|Fay - Shaw|||||||0.0360
92449444|NCT02057757|184785697|SUPERIORITY|||||||0.038||||||Adults (\>= 18 Years) - Global Assessment: Are you functioning as well as you were before you had the respiratory illness?|Fay-Shaw|||||||0.0380
92240814|NCT04430582|184384932|OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.30
92240815|NCT04430582|184384933|OTHER|||||||0.045|||||||Wilcoxon (Mann-Whitney)|||||||0.045
92240816|NCT04430582|184384934|OTHER|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
92240817|NCT00074412|184384960|SUPERIORITY_OR_OTHER_LEGACY||6 month Rate of Cum. HIV Infection (%)|1.1|||||TWO_SIDED|95.0|0.3|1.8|||Kaplan-Meier Method|||||1.8|0.3|
92240818|NCT00074412|184384960|SUPERIORITY_OR_OTHER_LEGACY||6 month Rate of Cum. HIV Infection (%)|2.4|||||TWO_SIDED|95.0|1.3|3.6|||Kaplan-Meier Method|||||3.6|1.3|
92240819|NCT00074412|184384960|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|1.973||||0.049||95.0||||P-value has not been adjusted for interim analysis or multiple testing. A priori threshold for statistical significance was 0.05.|Z-test|||Assuming the cumulative HIV infection rate in placebo group would be 4.2% (2.6 at 6 wk. \& 6.7 at 6 mon.), we estimated 1500 mother/infant pairs would provide 90% power to detect a reduction in HIV infection from 4.2% to 1.4% at 6 mon. with a Pearson χ² test statistic and a one-sided false positive error rate of 0.025. Rate of cumulative infection was calculated using Kaplan-Meier method and rates between extended NVP group and placebo were done with the Z statistic.||||0.049
92240820|NCT00074412|184384962|SUPERIORITY_OR_OTHER_LEGACY||Cum. Rate of HIV-free Survival 6mon (%)|97.7|||||TWO_SIDED|95.0|96.6|98.8|||Kaplan-Meier Method|||The cumulative rate of HIV-free survival at 6 months in the extended NVP arm was calculated using the Kaplan-Meier method; while the 95% CI was calculated using Greenwood's formula.||98.8|96.6|
92240821|NCT00074412|184384962|SUPERIORITY_OR_OTHER_LEGACY||Cum. Rate of HIV-free Survival 6mon (%)|96.8|||||TWO_SIDED|95.0|95.5|98.0|||Kaplan-Meier Method|||The cumulative rate of HIV-free survival at 6 months in the placebo arm was calculated using the Kaplan-Meier method; while the 95% CI was calculated using Greenwood's formula.||98.0|95.5|
92240822|NCT00074412|184384962|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|1.095||||0.274||95.0||||P-value was not adjusted for interim analysis or multiple testing.|Z-test|||The cumulative rates of HIV-free survival at 6 months were compared between the two groups using a Z-statistic.||||0.274
92240823|NCT00074412|184384962|SUPERIORITY_OR_OTHER_LEGACY||Cum. Rate of HIV-free Survival 18mon (%)|94.5|||||TWO_SIDED|95.0|92.9|96.2|||Kaplan-Meier Method|||The cumulative rate of HIV-free survival at 18 months in the extended NVP arm was calculated using the Kaplan-Meier method; while 95% confidence intervals were calculated using Greenwood's formula.||96.2|92.9|
92240824|NCT00074412|184384962|SUPERIORITY_OR_OTHER_LEGACY||Cum. Rate of HIV-free Survival 18mon (%)|93.3|||||TWO_SIDED|95.0|91.5|95.1|||Kaplan-Meier Method|||The cumulative rate of HIV-free survival at 18 months in the placebo arm was calculated using the Kaplan-Meier method; while the 95% confidence interval was calculated using Greenwood's formula.||95.1|91.5|
92240825|NCT00074412|184384962|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|0.988||||0.323||95.0||||P-value was not adjusted for interim analysis or multiple testing.|Z-test|||The cumulative rates of HIV-free survival at 18 months were compared between the two groups using a Z statistic.||||0.323
92240826|NCT00074412|184384963|SUPERIORITY_OR_OTHER_LEGACY||18 mon. Rate of Cum HIV Infection (%)|2.2|||||TWO_SIDED|95.0|1.1|3.3|||Kaplan-Meier Method|||The cumulative rate of HIV infection at 18 months in the extended NVP arm was calculated using the Kaplan-Meier method; while the 95% confidence interval was calculated using Greenwood's formula.||3.3|1.1|
92280722|NCT01915732|184464464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.003|TWO_SIDED|95.0|-0.09|-0.02|||ANCOVA||Statisticial data for the category=Total.|||-0.02|-0.09|0.003
92449445|NCT02057757|184785697|SUPERIORITY|||||||0.5035||||||Children (\< 18 Years) - Global Assessment: Have you/your child felt as good as you did before you had the respiratory illness?|Fay-Shaw|||||||0.5035
92449446|NCT02057757|184785697|SUPERIORITY|||||||0.9231||||||Children (\<18 Years) - Global Assessment: Are you/your child functioning as well as you/your child were before you/your child had the respiratory illness?|Fay-Shaw|||||||0.9231
92449447|NCT02057757|184785701|SUPERIORITY|||||||0.9785||||||No Detectable Virus on Day 3|Fay-Shaw|||||||0.9785
92449448|NCT01416194|184785724|SUPERIORITY||Hazard Ratio (HR)|0.4|||<|0.01|TWO_SIDED|95.0|0.3|0.7|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.7|0.3|<0.01
92240827|NCT00074412|184384963|SUPERIORITY_OR_OTHER_LEGACY||18 mon. Rate of Cum. HIV Infection (%)|3.1|||||TWO_SIDED|95.0|1.9|4.4|||Kaplan-Meier Method|||The cumulative rate of HIV infection at 18 months in the placebo arm was calculated using the Kaplan-Meier method; while the 95% confidence interval was calculated using Greenwood's formula.||4.4|1.9|
92240828|NCT00074412|184384963|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|1.081||||0.28||95.0||||P-value was not adjusted for interim analysis or multiple testing.|Z-test|||The cumulative rates of HIV infection at 18 months were calculated using the Kaplan-Meier method and were compared between arms using a Z statistic.||||0.280
92240829|NCT00074412|184384964|SUPERIORITY_OR_OTHER_LEGACY||Cumulative Mortality Rate at 18mon (%)|4.7|||||TWO_SIDED|95.0|2.0|7.4|||Kaplan-Meier Method|||||7.4|2.0|
92240830|NCT00074412|184384964|SUPERIORITY_OR_OTHER_LEGACY||Cumulative Mortality Rate at 18mon (%)|4.1|||||TWO_SIDED|95.0|2.7|5.6|||Kaplan-Meier Method|||||5.6|2.7|
92240831|NCT00074412|184384964|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|-0.247||||0.805||95.0||||P-value was not adjusted for interim analysis or multiple testing|Z-test|||The cumulative rates of mortality at 6 months, as calculated by Kaplan-Meier, were compared between the two groups using a Z-statistic.||||0.805
92240832|NCT00074412|184384964|SUPERIORITY_OR_OTHER_LEGACY||Cumulative Mortality Rate at 6mon (%)|1.2|||||TWO_SIDED|95.0|0.4|2.0|||Kaplan-Meier Method|||||2.0|0.4|
92172430|NCT05493787|184235400|SUPERIORITY|||||||0.035||||||Comparisons between Passive Control and all other arms (Analyses 1-5) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Flu shot self-scheduling does not differ between those sent a Protect Yourself - Frequent message and those not sent a message (i.e., those in the Passive Control group); Alternative hypothesis: Sending a Protect Yourself - Frequent message increases self-scheduling compared with sending no message. Analysis combines across November and December send dates.||||.035
92240833|NCT00074412|184384964|SUPERIORITY_OR_OTHER_LEGACY||Cumulative Mortality Rate at 6mon (%)|1.1|||||TWO_SIDED|95.0|0.3|1.8|||Kaplan-Meier Method|||||1.8|0.3|
92240834|NCT00074412|184384964|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|-0.36||||0.719||95.0||||P-value was not adjusted for interim analysis or multiple testing.|Z-test|||The cumulative mortality rates at 18 months, as calculated by Kaplan-Meier, were compared between the two groups using a Z statistic.||||0.719
92240835|NCT00074412|184384964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.611||95.0|||||Log Rank|||We compared the cumulative mortality rates, as calculated using Kaplan-Meier, between the two study groups over all 18 months of the study follow-up using a log-rank test.||||0.611
92240836|NCT03656926|184384992|SUPERIORITY|Estimates are from a Linear Mixed Model on the response variable change from baseline in FEV1 with factors for time splines, treatment, the interactions of time splines by treatment, baseline FEV1, the interactions of time splines with baseline FEV1, region (North America vs all other countries together), age (\<55 versus \>=55 years), use of azithromycin at randomization, and time as random effect.|least square mean difference|-0.028||||0.6639|TWO_SIDED|95.0|-0.16|0.104||This is a 1-side p value.|Mixed Models Analysis|||V9 - week 48||0.104|-0.160|0.6639
92240837|NCT02902172|184385003|NON_INFERIORITY||Mean Difference (Net)|0.85|||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
92449449|NCT01416194|184785724|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.91|TWO_SIDED|95.0|0.4|2.2|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||2.2|0.4|0.91
92240838|NCT01773135|184385007|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||U statistic|||||||<0.001
92240839|NCT01212172|184385034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9||||0.2879|TWO_SIDED|95.0|-6.7|21.1|||t-test, 1 sided|||||21.1|-6.7|0.2879
92240840|NCT01253044|184385080|SUPERIORITY_OR_OTHER|||||||0.912|TWO_SIDED||||||MMRM|||||||.912
92240841|NCT01253044|184385081|SUPERIORITY_OR_OTHER|||||||0.273|TWO_SIDED||||||MMRM|||||||.273
92240842|NCT02262039|184385082|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92240843|NCT02262039|184385083|SUPERIORITY_OR_OTHER|||||||0.92|||||||t-test, 2 sided|||||||0.92
92240844|NCT02262039|184385084|SUPERIORITY_OR_OTHER|||||||0.78|||||||t-test, 2 sided|||||||0.78
92240845|NCT02262039|184385085|SUPERIORITY_OR_OTHER|||||||0.52|||||||t-test, 2 sided|||||||0.52
92240846|NCT02262039|184385086|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|||||||0.25
92240847|NCT02262039|184385087|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||||||0.82
92240848|NCT02262039|184385088|SUPERIORITY_OR_OTHER|||||||0.45|||||||t-test, 2 sided|||||||0.45
92280723|NCT01915732|184464465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.025|TWO_SIDED|95.0|-0.07|0.0|||ANCOVA||Statistical data for the category=IL.|||-0.00|-0.07|0.025
92280724|NCT01915732|184464465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|||<|0.001|TWO_SIDED|95.0|-0.14|-0.04|||ANCOVA||Statistical data for the category=NIL.|||-0.04|-0.14|<0.001
92280725|NCT01915732|184464465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|||<|0.001|TWO_SIDED|95.0|-0.1|-0.03|||ANCOVA||Statistical data for the category=Total.|||-0.03|-0.10|<0.001
92449450|NCT01416194|184785725|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.01|TWO_SIDED|95.0|0.3|0.7|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.7|0.3|<0.01
92449451|NCT01416194|184785725|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.76|TWO_SIDED|95.0|0.5|2.4|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||2.4|0.5|0.76
92449452|NCT01416194|184785726|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.01|TWO_SIDED|95.0|0.3|0.9|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.9|0.3|0.01
92449453|NCT01416194|184785726|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.37|TWO_SIDED|95.0|0.4|1.5|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.5|0.4|0.37
92449454|NCT01416194|184785727|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.1|TWO_SIDED|95.0|0.5|1.1|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.1|0.5|0.10
92449455|NCT01416194|184785727|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.19|TWO_SIDED|95.0|0.4|1.2|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.2|0.4|0.19
92449456|NCT01416194|184785728|SUPERIORITY||Hazard Ratio (HR)|0.4|||<|0.01|TWO_SIDED|95.0|0.3|0.7|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.7|0.3|<0.01
92280726|NCT01915732|184464466|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92449457|NCT01416194|184785728|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9|TWO_SIDED|95.0|0.4|2.1|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||2.1|0.4|0.90
92449458|NCT01416194|184785729|SUPERIORITY||Hazard Ratio (HR)|1.9|||<|0.01|TWO_SIDED|95.0|1.4|2.5|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||2.5|1.4|<0.01
92449459|NCT01416194|184785729|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.74|TWO_SIDED|95.0|0.7|1.3|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.3|0.7|0.74
92280727|NCT01915732|184464467|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92449460|NCT01416194|184785730|SUPERIORITY||Hazard Ratio (HR)|0.4|||<|0.01|TWO_SIDED|95.0|0.3|0.6|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.6|0.3|<0.01
92449461|NCT01416194|184785730|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.01|TWO_SIDED|95.0|0.4|0.9|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.9|0.4|0.01
92449462|NCT01416194|184785731|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.01|TWO_SIDED|95.0|0.1|0.5|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.5|0.1|<0.01
92449463|NCT01416194|184785731|SUPERIORITY||Hazard Ratio (HR)|0.4||||0.06|TWO_SIDED|95.0|0.2|1.1|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.1|0.2|0.06
92449464|NCT01416194|184785732|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.01|TWO_SIDED|95.0|0.3|0.7|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.7|0.3|<0.01
92449465|NCT01416194|184785732|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.38|TWO_SIDED|95.0|0.5|1.4|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.4|0.5|0.38
92449466|NCT01416194|184785734|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.24|TWO_SIDED|95.0|0.9|1.5|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.5|0.9|0.24
92280728|NCT01325207|184464468|OTHER||||||||||||||||||The Maximum Tolerated Dose (MTD) was determined to be 80mg IT every two weeks. This is based on no DLTs being seeing in Cohorts 1-4 with lower doses and 1 DLT out of 7 patients observed at 80mg IT in Cohort 5.|||
92280729|NCT00698685|184464475|SUPERIORITY_OR_OTHER||actuarial probability of engraftment|70.0||||||95.0|||||||Actuarial probability of engraftment at day +100 is calculated according to the product-limit estimate method.|||||
92449467|NCT01416194|184785734|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.59|TWO_SIDED|95.0|0.8|1.6|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.6|0.8|0.59
92182883|NCT02434328|184264728|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-10.1|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.4|-10.1|
92449468|NCT01416194|184785735|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.03|TWO_SIDED|95.0|0.6|1.0|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.0|0.6|0.03
92280730|NCT01890915|184464485|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANOVA|||"Due to impaired thermoregulatory mechanisms secondary to spinal cord injury, subjects with tetraplegia were hypothesized to have a significant rise in core temperature after exposure to warm ambient temperatures, while control subjects were hypothesized to maintain constant core temperature.~Percent change in core temperature of subjects in each group were compared to determine if they were significantly different from baseline to warm exposure."||||0.0001
92280731|NCT01890915|184464486|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||ANOVA|||We hypothesized that subjects with tetraplegia would demonstrate a change in cognitive performance after heat exposure if they had demonstrated a significant increase in core body temperature - as was hypothesized in our primary hypothesis. Cognitive performance was measured, in part, by Interference T-scores derived from the Stroop Color and Word Test.||||0.006
92280732|NCT01890915|184464487|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||ANOVA|||Due to impaired thermoregulatory mechanisms, subjects with tetraplegia were hypothesized to have diminished increases in sweat rate in comparison to controls after heat exposure.||||0.015
92449469|NCT01416194|184785735|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.19|TWO_SIDED|95.0|0.6|1.1|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.1|0.6|0.19
92449470|NCT01416194|184785736|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.01|TWO_SIDED|95.0|0.2|0.5|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.5|0.2|<0.01
92449471|NCT01416194|184785736|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.24|TWO_SIDED|95.0|0.3|1.3|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.3|0.3|0.24
92449472|NCT00048724|184785737|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.452||||0.1439||95.0|0.88|2.396|||Cox Proportional Hazards Model|Age (\<= 50 years, \>50 years) and participation in a prior study (yes, no) were stratification factors.|Hazard ratio represents results of untreated control relative to treatment.|The primary scientific hypothesis is that, 0.5 ug/kg subcutaneous once weekly PegIntron as maintenance therapy is efficacious, when compared to no treatment, in the prevention of clinical events in adult subjects with compensated cirrhosis (Metavir F4), secondary to Chronic Hepatitis C, who have failed to respond to therapy with any α interferon plus ribavirin.||2.396|0.880|0.1439
92449473|NCT00048724|184785738|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.564||||0.007||95.0|1.13|2.166|||Cox Proportional Hazards Model|Age (\<= 50 years, \>50 years) and participation in a prior study (yes, no) were stratification factors.|Hazard ratio represents results of untreated control relative to treatment.|The secondary hypothesis is that 0.5 ug/kg subcutaneous once weekly PegIntron as maintenance therapy is efficacious, when compared to no treatment, in the prevention of disease progression in adult subjects with compensated cirrhosis (Metavir F4), secondary to Chronic Hepatitis C, who have failed to respond to therapy with any α interferon plus ribavirin.||2.166|1.130|0.0070
92449474|NCT00009737|184785755|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested by comparing the upper limit of the 95% confidence interval for the hazard ratio to the non-inferiority margin of 1.25 in a first step, and then of 1.20 in a second step.|Hazard Ratio (HR)|0.87||||0.053|TWO_SIDED|95.0|0.75|1.0||For difference between arms, \< 0.001 for non-inferiority|Wald Chi-Square Test|||||1.00|0.75|0.053
92449475|NCT00009737|184785756|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested by comparing the upper limit of the 95% confidence interval for the hazard ratio to the non-inferiority margin of 1.25|Hazard Ratio (HR)|0.86||||0.041|TWO_SIDED|95.0|0.74|0.99||For difference between arms, \< 0.001 for non-inferiority|Wald Chi-Square Test|||||0.99|0.74|0.041
92449476|NCT00009737|184785757|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested by comparing the upper limit of the 95% confidence interval for the hazard ratio to the non-inferiority margin of 1.25|Hazard Ratio (HR)|0.84||||0.071|TWO_SIDED|95.0|0.69|1.01||For difference between arms, \< 0.001 for non-inferiority|Wald Chi-Square Test|||||1.01|0.69|0.071
92449477|NCT02732847|184785761|OTHER|Chi square tests used to compared groups||||||0.924||||||A p-value of \< 0.05 was considered|Chi-squared|||||||0.924
92280733|NCT01569451|184464491|SUPERIORITY_OR_OTHER|||||||0.0493|||||||Chi-squared|||||||0.0493
92449478|NCT01260922|184785778|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.16|||||TWO_SIDED|90.0|97.07|107.51|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||107.51|97.07|
92449479|NCT01260922|184785779|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Slope|94.75|||||TWO_SIDED|90.0|92.11|97.46|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||97.46|92.11|
92449480|NCT02248922|184785780|OTHER|||||||0.4099|||||||ANOVA|||||||0.4099
92449481|NCT02248922|184785781|OTHER|||||||0.6961|||||||ANOVA|||||||0.6961
92449482|NCT02248922|184785782|OTHER|||||||0.354|||||||ANOVA|||||||0.3540
92280734|NCT01569451|184464492|SUPERIORITY_OR_OTHER|||||||0.0268|||||||Peto|||||||0.0268
92449483|NCT02248922|184785783|OTHER|||||||0.591|||||||ANOVA|||||||0.5910
92449484|NCT02248922|184785784|OTHER|||||||0.4249|||||||ANOVA|||||||0.4249
92280735|NCT01569451|184464493|SUPERIORITY_OR_OTHER|||||||0.0189|||||||Chi-squared|||||||0.0189
92280736|NCT01569451|184464494|SUPERIORITY_OR_OTHER|||||||0.3167|||||||Chi-squared|||||||0.3167
92449485|NCT02248922|184785785|OTHER|||||||0.3963|||||||ANOVA|||||||0.3963
92449486|NCT02248922|184785786|OTHER|||||||0.3502|||||||ANOVA|||||||0.3502
92449487|NCT00414050|184785794|NON_INFERIORITY_OR_EQUIVALENCE|Modified Process Hepatitis B vaccine-5µg (micrograms) declared non-inferior to RECOMBIVAX HB™ if the lower bound of the 95% Confidence Interval for the ratio of Geometric Mean Titers (Modified Process Vaccine 5 micrograms/RECOMBIVAX HB™) was \>= 0.67. The study had 98 percent power for this test, based on an assumption of true equality.|Ratio of geometric means|1.99|||||TWO_SIDED|95.0|1.69|2.35||||||Comparison of Induced (effected) Geometric Mean Titer for the Modified Hepatitis B Process Vaccine and RECOMBIVAX Hepatitis B vaccine.||2.35|1.69|
92449488|NCT02708745|184785799|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||.29
92449489|NCT02708745|184785800|SUPERIORITY|||||||0.18|||||||Chi-squared|||||||0.18
92449490|NCT02708745|184785801|SUPERIORITY|||||||0.78||||||For the barrier 'not having enough time to discuss vaccine concerns', P=0.78. For the barrier 'not realizing until late in visit that parent had vaccine concerns', P=0.37. For the barrier 'not understanding parent specific vaccine concerns', P=0.66.|Chi-squared|||||||0.78
92172431|NCT05493787|184235400|SUPERIORITY|||||||0.593||||||Comparisons between Active Control and all other arms (Analyses 6-9) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Active Control messages and Ease messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: Ease messages are more effective at promoting flu shot self-scheduling than Active Control messages. Analysis combines across November and December send dates.||||.593
92172432|NCT05493787|184235400|SUPERIORITY|||||||0.052||||||Comparisons between Active Control and all other arms (Analyses 6-9) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Active Control messages and Waiting for You messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: Waiting for You messages are more effective at promoting flu shot self-scheduling than Active Control messages. Analysis combines across November and December send dates.||||.052
92240849|NCT00962000|184385113|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size required for the study was estimated using a web-based power calculation tool. Analysis of data from some 50,000 hemodialysis patients showed a within-patient between-treatment standard deviation of 0.21 for Kt/Vurea. Using this estimate of standard deviation, 38 subjects would be needed to detect a difference in Kt/Vurea of 0.1 with a significance level of 0.05 and a power of 90% with two determinations per subject at each level of dialysate flow rate.|Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.02217|||TWO_SIDED|95.0|-0.064|0.024||There is no p values because the power calculation is based on the primary outcome variable|ANOVA|The three centers and the two flow rates were treated as fixed effects and the subjects within centers modeled as a random effect.||Increasing the dialysate flow rates from 600 mL/min to 800 mL/min will not significantly increase Kt/Vurea.||0.024|-0.064|
92280737|NCT01569451|184464495|SUPERIORITY_OR_OTHER|||||||0.094|||||||Chi-squared|||||||0.0940
92280738|NCT01569451|184464496|SUPERIORITY_OR_OTHER|||||||0.3507|||||||Fisher Exact|||||||0.3507
92280739|NCT01569451|184464497|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92172433|NCT05493787|184235400|SUPERIORITY|||||||0.952||||||Comparisons between Active Control and all other arms (Analyses 6-9) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Active Control messages and Protect Yourself - Rare messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: Protect Yourself - Rare messages are more effective at promoting flu shot self-scheduling than Active Control messages. Analysis combines across November and December send dates.||||.952
92280740|NCT01569451|184464498|SUPERIORITY_OR_OTHER|||||||0.4904|||||||t-test, 2 sided|||T-test||||0.4904
92280741|NCT01569451|184464499|SUPERIORITY_OR_OTHER|||||||0.4073|||||||Chi-squared|||||||0.4073
92280742|NCT01569451|184464500|SUPERIORITY_OR_OTHER|||||||0.8677|||||||Mixed Models Analysis|||||||0.8677
92280743|NCT01569451|184464501|OTHER|Mean difference between treatment groups.||||||0.3974|||||||t-test, 2 sided|||||||0.3974
92240850|NCT00962000|184385114|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size required for the study was estimated using a web-based power calculation tool. Analysis of data from some 50,000 hemodialysis patients showed a within-patient between-treatment standard deviation of 0.21 for Kt/Vurea. Using this estimate of standard deviation, 38 subjects would be needed to detect a difference in Kt/Vurea of 0.1 with a significance level of 0.05 and a power of 90% with two determinations per subject at each level of dialysate flow rate.|Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.01849|||TWO_SIDED|95.0|-0.051|0.023||There is no p value for eKt/V because the power calculation is based on the primary outcome variable (Kt/Vsp) alone.|ANOVA|The three centers and the two flow rates were treated as fixed effects and the subjects within centers modeled as a random effect.||Increasing the dialysate flow rates from 600 mL/min to 800 mL/min will not significantly increase Kt/Vurea.||0.023|-0.051|
92240851|NCT00962000|184385115|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size required for the study was estimated using a web-based power calculation tool. Analysis of data from some 50,000 hemodialysis patients showed a within-patient between-treatment standard deviation of 0.21 for Kt/Vurea. Using this estimate of standard deviation, 38 subjects would be needed to detect a difference in Kt/Vurea of 0.1 with a significance level of 0.05 and a power of 90% with two determinations per subject at each level of dialysate flow rate.|Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.03103||||95.0|-0.029|0.099||There is no p value for Kt/VID because the power calculation is based on the primary outcome variable (Kt/Vsp) alone.|ANOVA|||Increasing the dialysate flow rates from 600 mL/min to 800 mL/min will not significantly increase Kt/Vurea.||0.099|-0.029|
92240852|NCT02749721|184385153|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
92280744|NCT03552757|184464518|SUPERIORITY||Treatment difference|-6.21|||<|0.0001|TWO_SIDED|95.0|-7.28|-5.15|||ANCOVA|||Results are based on the data from in-trial observation period. Week 68 responses were analysed using an analysis of covariance model (ANCOVA) with randomised treatment, stratification groups (oral anti-diabetic (OAD) treatment status and HbA1c category at screening) and the interaction between stratification groups as factors and baseline body weight as covariate.||-5.15|-7.28|<0.0001
92449491|NCT01298063|184785809|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|92.64|STANDARD_DEVIATION|33.6||0.1998|TWO_SIDED|90.0|67.96|126.27||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||126.270|67.960|0.1998
92449492|NCT01298063|184785809|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|94.88|STANDARD_DEVIATION|31.6||0.144|TWO_SIDED|90.0|72.278|124.549||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||124.549|72.278|0.1440
92240853|NCT02749721|184385154|OTHER|||||||0.012|||||||Paired t-test|||||||0.012
92240854|NCT02749721|184385155|OTHER||Pearson's R|0.125||||0.61|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P200 (amplitude) baseline scores||||0.610
92240855|NCT02749721|184385155|OTHER||Pearson's R|-0.294||||0.288|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3a (amplitude) baseline scores||||0.288
92280745|NCT03552757|184464518|SUPERIORITY||Treatment difference|-7.57|||<|0.0001|TWO_SIDED|95.0|-8.56|-6.58|||MMRM|||Results are based on the data from on-treatment observation period. All responses prior to first discontinuation of treatment (or initiation of other anti-obesity medication or bariatric surgery) were included in a mixed model for repeated measurements (MMRM) with randomised treatment, stratification groups (OAD treatment status and HbA1c category at screening) and the interaction between stratification groups as factors and baseline body weight as covariate, all nested within visit.||-6.58|-8.56|<0.0001
92287168|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.097||||0.002|TWO_SIDED|95.0|0.035|0.159|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.159|0.035|0.002
92449493|NCT01298063|184785810|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|109.47|STANDARD_DEVIATION|30.3||0.2002|TWO_SIDED|90.0|82.683|144.947||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||144.947|82.683|0.2002
92449494|NCT01298063|184785810|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|126.89|STANDARD_DEVIATION|42.8||0.5281|TWO_SIDED|90.0|86.028|187.159||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||187.159|86.028|0.5281
92449495|NCT01298063|184785811|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|90.61|STANDARD_DEVIATION|32.8||0.2309|TWO_SIDED|90.0|66.915|122.705||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||122.705|66.915|0.2309
92449496|NCT01298063|184785811|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|94.49|STANDARD_DEVIATION|32.4||0.1546|TWO_SIDED|90.0|71.563|124.764||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||124.764|71.563|0.1546
92449497|NCT00395044|184785813|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Mixed Models Analysis|||||||.029
92449498|NCT02550652|184785858|SUPERIORITY||Difference in Percentage of Participants|12.3||||0.1145|TWO_SIDED|95.0|-3.4|28.1||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||28.1|-3.4|0.1145
92172434|NCT05493787|184235400|SUPERIORITY|||||||0.386||||||Comparisons between Active Control and all other arms (Analyses 6-9) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Active Control messages and Protect Yourself - Frequent messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: Protect Yourself - Frequent messages are more effective at promoting flu shot self-scheduling than Active Control messages. Analysis combines across November and December send dates.||||.386
92172435|NCT05493787|184235400|SUPERIORITY|||||||0.498||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Ease messages and Waiting for You messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Ease and Waiting for You messages. Analysis combines across November and December send dates.||||.498
92240856|NCT02749721|184385155|OTHER||Pearson's R|-0.405||||0.134|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3b (amplitude) baseline scores||||0.134
92240857|NCT02749721|184385155|OTHER||Pearson's R|-0.397||||0.083|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P200 (amplitude) baseline scores||||0.083
92172436|NCT05493787|184235400|SUPERIORITY|||||||0.935||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Ease messages and Protect Yourself - Rare messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Ease and Protect Yourself - Rare messages. Analysis combines across November and December send dates.||||.935
92240858|NCT02749721|184385155|OTHER||Pearson's R|-0.476||||0.034|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P3a (amplitude) baseline scores||||0.034
92240859|NCT02749721|184385155|OTHER||Pearson's R|-0.509||||0.031|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P200 baseline scores||||0.031
92240860|NCT02749721|184385155|OTHER||Pearson's R|-0.197||||0.5|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3a (amplitude) baseline scores||||0.500
92172437|NCT05493787|184235400|SUPERIORITY|||||||0.504||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Ease messages and Protect Yourself - Frequent messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Ease and Protect Yourself - Frequent message messages. Analysis combines across November and December send dates.||||.504
92172438|NCT05493787|184235400|SUPERIORITY|||||||0.19||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Protect Yourself - Rare and Waiting for You messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Protect Yourself - Rare and Waiting for You messages. Analysis combines across November and December send dates.||||.190
92172439|NCT05493787|184235400|SUPERIORITY|||||||0.027||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Protect Yourself - Frequent messages and Waiting for You messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Protect Yourself - Frequent and Waiting for You messages. Analysis combines across November and December send dates.||||.027
92172440|NCT05493787|184235400|SUPERIORITY|||||||0.854||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Protect Yourself - Rare and Protect Yourself - Frequent messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Protect Yourself - Rare and Protect Yourself - Frequent messages. Analysis combines across November and December send dates.||||.854
92172441|NCT05493787|184235400|SUPERIORITY|||||||0.637||||||The reported p-value (2-tailed) is for the interaction term between message send date (November, December) and message (any message arm no message)|Regression, Linear|||"Null Hypothesis: Messages sent in November and December are equally effective at promoting flu-shot self-scheduling. Alternative hypothesis: Messages sent in November and December are differentially effective.~To test the alternative hypothesis, all message arms (Active control, Ease, Waiting for you, Protect yourself - rare, Protect yourself - frequent) were combined and compared with Passive control."||||.637
92240861|NCT02749721|184385155|OTHER||Pearson's R|0.376||||0.185|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3b baseline scores||||0.185
92240862|NCT02749721|184385155|OTHER||Pearson's R|-0.108||||0.659|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P200 baseline scores||||0.659
92240863|NCT02749721|184385155|OTHER||Pearson's R|0.125||||0.611|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P3a baseline scores||||0.611
92240864|NCT02749721|184385155|OTHER||Pearson's R|-0.111||||0.671|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and MADRS (baseline to endpoint percent change)||||0.671
92449499|NCT02550652|184785858|SUPERIORITY||Difference in Percentage of Participants|12.3||||0.1145|TWO_SIDED|80.0|2.1|22.6||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|Difference in Percentage of Participants||||22.6|2.1|0.1145
92449500|NCT02550652|184785859|SUPERIORITY||Difference in Percentage of Participants|20.1||||0.0246||95.0|3.0|37.2||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||37.2|3.0|0.0246
92449501|NCT02550652|184785859|SUPERIORITY||Difference in Percentage of Participants|20.1||||0.0246|TWO_SIDED|80.0|8.9|31.3||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||31.3|8.9|0.0246
92449502|NCT02550652|184785860|SUPERIORITY|||||||0.0744|||||||Log Rank|||||||0.0744
92449503|NCT02550652|184785861|SUPERIORITY||Difference in Percentage of Participants|21.7||||0.015||95.0|4.7|38.7||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||38.7|4.7|0.0150
92449504|NCT02550652|184785861|SUPERIORITY||Difference in Percentage of Participants|21.7||||0.015|TWO_SIDED|80.0|10.6|32.8||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||32.8|10.6|0.0150
92172442|NCT03526861|184235431|SUPERIORITY|Primary endpoint tested sequentially at a 5% significance level|Risk Difference (RD)|13.8||||0.002|TWO_SIDED|95.0|5.3|22.3||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects with IGA score of 0 (clear) or 1 (almost clear) at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||22.3|5.3|0.002
92240865|NCT02749721|184385155|OTHER||Pearson's R|-0.026||||0.931|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and MADRS (baseline to endpoint percent change)||||0.931
92240866|NCT02749721|184385155|OTHER||Pearson's R|0.516||||0.155|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and MADRS (baseline to endpoint percent change)||||0.155
92240867|NCT02749721|184385155|OTHER||Pearson's R|0.268||||0.297|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and MADRS (baseline to endpoint percent change)||||0.297
92240868|NCT02749721|184385155|OTHER||Pearson's R|0.184||||0.494|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and MADRS (baseline to endpoint percent change)||||0.494
92449505|NCT02550652|184785862|SUPERIORITY||Difference in Percentage of Participants|-2.0||||0.8461|TWO_SIDED|95.0|-17.5|13.4||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||13.4|-17.5|0.8461
92449506|NCT02550652|184785862|SUPERIORITY||Difference in Percentage of Participants|-2.0||||0.8461|TWO_SIDED|80.0|-12.1|8.1||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||8.1|-12.1|0.8461
92449507|NCT02550652|184785863|SUPERIORITY|||||||0.353|||||||Log Rank|||||||0.3530
92449508|NCT02550652|184785864|SUPERIORITY||Difference in Adjusted Mean|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.13|-0.491||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|ANCOVA|||||-0.491|-1.13|<0.0001
92240869|NCT02749721|184385155|OTHER||Pearson's R|-0.065||||0.811|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and DSST (baseline to endpoint percent change)||||0.811
92240870|NCT02749721|184385155|OTHER||Pearson's R|-0.048||||0.877|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and DSST (baseline to endpoint percent change)||||0.877
92240871|NCT02749721|184385155|OTHER||Pearson's R|-0.246||||0.557|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and DSST (baseline to endpoint percent change)||||0.557
92449509|NCT02550652|184785864|SUPERIORITY||Difference in Adjusted Mean|-0.81|||<|0.0001|TWO_SIDED|80.0|-1.019|-0.602||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|ANCOVA|||||-0.602|-1.019|<0.0001
92449510|NCT02550652|184785865|SUPERIORITY||Difference in Adjusted Mean|0.178||||0.0004|TWO_SIDED|95.0|0.081|0.275||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|ANCOVA|||||0.275|0.081|0.0004
92449511|NCT02550652|184785865|SUPERIORITY||Difference in Adjusted Mean|0.178||||0.0004|TWO_SIDED|80.0|0.115|0.241|||ANCOVA|||||0.241|0.115|0.0004
92449512|NCT02550652|184785866|SUPERIORITY||Difference in Adjusted Mean|0.088|||<|0.0001||95.0|0.052|0.124|||ANCOVA|Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).||||0.124|0.052|<0.0001
92449513|NCT02550652|184785866|SUPERIORITY||Difference in Adjusted Mean|0.088|||<|0.0001|TWO_SIDED|80.0|0.065|0.112||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|ANCOVA|||||0.112|0.065|<0.0001
92240872|NCT02749721|184385155|OTHER||Pearson's R|0.182||||0.5|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and DSST (baseline to endpoint percent change)||||0.500
92240873|NCT02749721|184385155|OTHER||Pearson's R|0.288||||0.297|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and DSST (baseline to endpoint percent change)||||0.297
92449514|NCT02550652|184785867|SUPERIORITY||Difference in Percentage of Participants|13.9||||0.09||95.0|-2.4|30.1||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%"|Cochran-Mantel-Haenszel|||||30.1|-2.4|0.0900
92449515|NCT02550652|184785867|SUPERIORITY||Difference in Percentage of Participants|13.9||||0.09|TWO_SIDED|80.0|3.2|24.5||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%"|Cochran-Mantel-Haenszel|||||24.5|3.2|0.0900
92449516|NCT02550652|184785868|SUPERIORITY||Difference in Percentage of Participants|10.6||||0.1838|TWO_SIDED|95.0|-6.4|27.6||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%"|Cochran-Mantel-Haenszel|||||27.6|-6.4|0.1838
92449517|NCT02550652|184785868|SUPERIORITY||Difference in Percentage of Participants|10.6||||0.1838|TWO_SIDED|80.0|-0.5|21.7||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%"|Cochran-Mantel-Haenszel|||||21.7|-0.5|0.1838
92449518|NCT02550652|184785869|SUPERIORITY||Difference in Percentage of Participants|7.3||||0.3726|TWO_SIDED|95.0|-10.0|24.6||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||24.6|-10.0|0.3726
92449519|NCT02550652|184785869|SUPERIORITY||Difference in Percentage of Participants|7.3||||0.3726|TWO_SIDED|80.0|-4.0|18.6||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%"|Cochran-Mantel-Haenszel|||||18.6|-4.0|0.3726
92172443|NCT03526861|184235431|SUPERIORITY|Primary endpoint tested sequentially at a 5% significance level|Risk Difference (RD)|17.5|||<|0.001|TWO_SIDED|95.0|8.4|26.6||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects with IGA score of 0 (clear) or 1 (almost clear) at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||26.6|8.4|<0.001
92182261|NCT03883724|184263295|OTHER|ANCOVA between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome|||||<|0.01||||||Change in nocturia frequency pre- vs post-intervention comparing between groups BBTI vs IC|ANCOVA|between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||Change in nocturia frequency pre- vs post-intervention comparing between group analysis||||<.01
92449520|NCT02486406|184785892|SUPERIORITY||Wilson's score method|98.4|||||TWO_SIDED|95.0|91.7|99.7||||||According to the Highlights of Prescribing Information of PEGASYS, the SVR24 rate was 47% among 45 treatment-naïve pediatric participants with HCV GT1 in the NV17424 trial. To show that the DAA regimen is superior to this current standard of care by 20%, the lower bound of the 2-sided 95% confidence interval of the SVR12 rate across all participants in the study must be greater than 67%.||99.7|91.7|
92449521|NCT01196871|184785898|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUC0-t Ratio|2.942|||||TWO_SIDED|90.0|2.439|3.548|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 AUC0-t Data: Point estimates for the geometric means and their 90% confidence interval (CI) are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||3.548|2.439|
92449522|NCT01196871|184785898|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUCinfinity Ratio|2.942|||||TWO_SIDED|90.0|2.431|3.56|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 AUCinfinity Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||3.560|2.431|
92449523|NCT01196871|184785898|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUC0-t Ratio|2.354|||||TWO_SIDED|90.0|1.826|3.035|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 2 AUC0-t Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||3.035|1.826|
92449524|NCT01196871|184785898|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUCinfinity Ratio|2.375|||||TWO_SIDED|90.0|1.839|3.068|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 2 AUCinfinity Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||3.068|1.839|
92182262|NCT03883724|184263296|OTHER|ANCOVA between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||||||0.3|||||||ANCOVA|ANCOVA between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||||0.3
92182263|NCT02502461|184263380|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.04|TWO_SIDED|95.0|0.1|1.7||Bonferroni correction|t-test, 2 sided|||||1.7|0.1|0.04
92182264|NCT01701401|184263398|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF 12 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
92172444|NCT03526861|184235432|SUPERIORITY|Primary endpoint tested sequentially at a 5% significance level|Risk Difference (RD)|22.0|||<|0.001|TWO_SIDED|95.0|12.0|32.0||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects who achieved at least 75% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||32.0|12.0|<0.001
92172445|NCT03526861|184235432|SUPERIORITY|Primary endpoint tested sequentially at a 5% significance level|Risk Difference (RD)|22.5|||<|0.001|TWO_SIDED|95.0|12.4|32.6||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects who achieved at least 75% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||32.6|12.4|<0.001
92172446|NCT03526861|184235433|SUPERIORITY|Secondary endpoint tested sequentially at a 2.5% significance level|Risk Difference (RD)|21.7|||<|0.001|TWO_SIDED|95.0|12.3|31.1||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects with at least 4-point reduction in Adolescent Worst Pruritus NRS were considered responders. Subjects with missing data or who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||31.1|12.3|<0.001
92172447|NCT03526861|184235433|SUPERIORITY|Secondary endpoint tested sequentially at a 5% significance level|Risk Difference (RD)|19.9|||<|0.001|TWO_SIDED|95.0|10.6|29.2||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects with at least 4-point reduction in Adolescent Worst Pruritus NRS were considered responders. Subjects with missing data or who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||29.2|10.6|<0.001
92172448|NCT03526861|184235434|SUPERIORITY|This secondary endpoint was tested sequentially using the Holm-Bonferroni method for multiplicity adjustment at a 2.5% significance level after the sequential testing of the primary endpoints and first secondary endpoint, if these showed statistical significance.|Difference of least square means|-19.7|||<|0.001|TWO_SIDED|95.0|-27.1|-12.2||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-12.2|-27.1|<0.001
92182265|NCT01701401|184263398|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF+RBV 12 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
92280746|NCT03552757|184464519|SUPERIORITY||Odds Ratio (OR)|4.88|||<|0.0001|TWO_SIDED|95.0|3.58|6.64|||Regression, Logistic|||Results are based on the data from in-trial observation period. Week 68 responses were analysed using a binary logistic regression model with randomised treatment, stratification groups (OAD treatment status and HbA1c category at screening) and the interaction between stratification groups as factors and baseline body weight as covariate.||6.64|3.58|<0.0001
92287169|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.101||||0.002|TWO_SIDED|95.0|0.039|0.163|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.163|0.039|0.002
92240874|NCT02749721|184385155|OTHER|Differences in BNA scores between MDD and healthy subjects were analyzed for baseline visits using an ANCOVA model with group as a factor, and age as a covariate.|F statistic|0.318||||0.575|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P200 amplitudes at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.575
92172449|NCT03526861|184235434|SUPERIORITY|This secondary endpoint was tested sequentially using the Holm-Bonferroni method for multiplicity adjustment at a 5% significance level after the sequential testing of the primary endpoints and first secondary endpoint, if these showed statistical significance.|Difference of least square means|-18.0|||<|0.001|TWO_SIDED|95.0|-25.6|-10.4||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-10.4|-25.6|<0.001
92172450|NCT03526861|184235435|SUPERIORITY|This secondary endpoint was tested sequentially using the Holm-Bonferroni method for multiplicity adjustment at a 2.5% significance level after the sequential testing of the primary endpoints and first secondary endpoint, if these showed statistical significance.|Difference of least square means|-2.6||||0.007|TWO_SIDED|95.0|-4.5|-0.7||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-0.7|-4.5|0.007
92172451|NCT03526861|184235435|SUPERIORITY|This secondary endpoint was tested sequentially using the Holm-Bonferroni method for multiplicity adjustment at a 5% significance level after the sequential testing of the primary endpoints and first secondary endpoint, if these showed statistical significance.|Difference of least square means|-2.0||||0.04|TWO_SIDED|95.0|-3.9|-0.1||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-0.1|-3.9|0.040
92240875|NCT02749721|184385155|OTHER||F statistic|0.378||||0.541|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P200 amplitudes at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.541
92172452|NCT03526861|184235438|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|38.5|||<|0.001|TWO_SIDED|95.0|26.8|50.2||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 50% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||50.2|26.8|<0.001
92449525|NCT01196871|184785899|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|Cmax Ratio|1.629|||||TWO_SIDED|90.0|1.44|1.843|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 Cmax Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.843|1.440|
92449526|NCT01196871|184785899|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|Cmax Ratio|1.546|||||TWO_SIDED|90.0|1.3|1.838|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 2 Cmax Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.838|1.300|
92449527|NCT01196871|184785901|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUC0-t Ratio|1.025|||||TWO_SIDED|90.0|0.921|1.14|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 AUC0-t Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.140|0.921|
92449528|NCT01196871|184785901|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects mode Log (parameter) = Intercept + ß\*Treatment + Error.|AUC0-t Ratio|1.256|||||TWO_SIDED|90.0|1.026|1.538|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 2 AUC0-t Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.538|1.026|
92449529|NCT01196871|184785903|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|Cmax Ratio|1.034|||||TWO_SIDED|90.0|0.929|1.152|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 Cmax Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.152|0.929|
92287170|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.122|||<|0.001|TWO_SIDED|95.0|0.063|0.182|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.182|0.063|<0.001
92449530|NCT01196871|184785903|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|Cmax Ratio|1.063|||||TWO_SIDED|90.0|0.972|1.164|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 2 Cmax Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.164|0.972|
92449531|NCT01196871|184785905|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUC0-t Ratio|1.059|||||TWO_SIDED|90.0|0.818|1.371|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 AUC0-t Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.371|0.818|
92449532|NCT01196871|184785905|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUCinfinity Ratio|1.052|||||TWO_SIDED|90.0|0.807|1.371|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 AUCinfinity Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.371|0.807|
92449533|NCT01196871|184785906|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|Cmax Ratio|0.997|||||TWO_SIDED|90.0|0.791|1.259|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 Cmax Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.259|0.791|
92449534|NCT03509948|184785912|SUPERIORITY||Geometric Least Squares Mean|79.57|||||TWO_SIDED|90.0|66.4|95.35||||||Fed/Fasted Ratio||95.35|66.40|
92449535|NCT03509948|184785913|SUPERIORITY||Geometric Least Squares Mean|92.08|||||TWO_SIDED|90.0|88.37|95.95||||||Fed/Fasted Ratio||95.95|88.37|
92449536|NCT03509948|184785914|SUPERIORITY||Geometric Least Squares Mean|90.89|||||TWO_SIDED|90.0|84.99|97.2||||||Fed/Fasted Ratio||97.20|84.99|
92172453|NCT03526861|184235438|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|32.4|||<|0.001|TWO_SIDED|95.0|20.6|44.1||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 50% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||44.1|20.6|<0.001
92182266|NCT01701401|184263398|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF 24 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
92240876|NCT02749721|184385155|OTHER||F|0.012||||0.912|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3a amplitudes at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.912
92240877|NCT02749721|184385155|OTHER||F statistic|1.586||||0.214|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3a amplitudes at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.214
92449537|NCT03509948|184785916|SUPERIORITY||Geometric Least Squares Mean|1.0|||||TWO_SIDED|90.0|0.25|1.75||||||Fed/Fasted Ratio||1.75|0.25|
92449538|NCT03509948|184785918|SUPERIORITY||Geometric Least Squares Mean|91.4|||||TWO_SIDED|90.0|87.55|95.41||||||Fed/Fasted Ratio||95.41|87.55|
92449539|NCT03254134|184785950|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.534|0.97||||||There was no formal hypothesis testing.|The hazard ratio of stroke for the dabigatran group as compared to the warfarin group and its 95% CI were estimated from the propensity score matched group using a Cox regression model with treatment group as the dependent variable|0.970|0.534|
92449540|NCT03254134|184785951|SUPERIORITY||Hazard Ratio (HR)|0.549|||||TWO_SIDED|95.0|0.303|0.994||||||There was no formal hypothesis testing.|The hazard ratio of systemic embolism for the dabigatran group as compared to the warfarin group and its 95% CI were estimated from the propensity score matched group using a Cox regression model with treatment group as the dependent variable|0.994|0.303|
92449541|NCT01009099|184785955|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||ANCOVA|Co-variates included in the analysis were time walked on the constant workrate test at baseline and adherence (sessions completed/expected).||The outcomes compared were time walked on the constant workrate treadmill test measured in minutes.||||0.63
92449542|NCT01331694|184785956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.64||||||95.0|1.5|1.79|||||Hazard ratio for hospitalization or emergency department visit for IP compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.79|1.50|
92449543|NCT01331694|184785956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||||95.0|1.17|1.41|||||Hazard ratio for hospitalization or emergency department visit for TIO compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.41|1.17|
92449544|NCT01331694|184785956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.78||||||95.0|1.59|2.0|||||Hazard ratio for emergency department visit for IP compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||2.00|1.59|
92449545|NCT01331694|184785956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.33||||||95.0|1.17|1.51|||||Hazard ratio for emergency department visit for TIO compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.51|1.17|
92449546|NCT01331694|184785956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.65||||||95.0|1.41|1.94|||||Hazard ratio for outpatient visit with oral steroid fill for IP compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.94|1.41|
92449547|NCT01331694|184785956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||||95.0|1.26|1.76|||||Hazard ratio for outpatient visit with oral steroid fill for TIO compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.76|1.26|
92449548|NCT01331694|184785956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.39||||||95.0|1.23|1.57|||||Hazard ratio for outpatient visit with antibiotic fill for IP compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.57|1.23|
92449549|NCT01331694|184785956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.33||||||95.0|1.17|1.51|||||Hazard ratio for outpatient visit with antibiotic fill for TIO compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.51|1.17|
92449550|NCT02188485|184785966|SUPERIORITY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.72||0.278|TWO_SIDED||||||Mixed Models Analysis||This mean difference is not identical to the mean difference presented in the summary table because this mean difference was adjusted for random effects in the model.|Thwarted belonging (INQ-TB) at 10 week follow-up||||.278
92449551|NCT02188485|184785966|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.38||0.591|TWO_SIDED||||||Mixed Models Analysis||This mean difference is not identical to the mean difference presented in the summary table because this mean difference was adjusted for random effects in the model.|Perceived burden (INQ-PB) at 10-week follow-up||||.591
92182267|NCT01701401|184263398|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF+RBV 24 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
92240878|NCT02749721|184385155|OTHER||F statistic|0.453||||0.504|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3b amplitudes at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.504
92449552|NCT02188485|184785967|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.52||0.511|TWO_SIDED||||||Mixed Models Analysis||This mean difference is not identical to the mean difference presented in the summary table because this mean difference was adjusted for random effects in the model.|||||.511
92449553|NCT02188485|184785968|SUPERIORITY||Mean Difference (Final Values)|-2.47|STANDARD_ERROR_OF_MEAN|0.85||0.014|TWO_SIDED||||||Mixed Models Analysis||This mean difference is not identical to the mean difference presented in the summary table because this mean difference was adjusted for random effects in the model.|||||.014
92449554|NCT00799617|184785969|SUPERIORITY||Mean Difference (Net)|0.58|||<|0.001|TWO_SIDED|95.0|0.38|0.78||The p value for the treatment effect was determined with the use of a linear mixed model with a random effect for participant.|Mixed Models Analysis|Adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, use of PDE5 inhibitors||||0.78|0.38|<0.001
92449555|NCT00799617|184785970|SUPERIORITY||Odds Ratio (OR)|1.42||||0.2|TWO_SIDED|95.0|0.83|2.45||The P value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||The treatment effect for dichotomous outcomes is the odds ratio for achieving the outcome versus not achieving the outcome among men assigned to testosterone versus those assigned to placebo.||2.45|0.83|0.20
92449556|NCT00799617|184785971|SUPERIORITY||Odds Ratio (OR)|1.23||||0.3|TWO_SIDED|95.0|0.83|1.84||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||1.84|0.83|0.30
92449557|NCT00799617|184785972|SUPERIORITY||Mean Difference (Final Values)|41.0||||0.003|TWO_SIDED|95.0|14.0|67.0||Determined by a linear mixed model with all balancing factors and baseline outcome value as covariates and a random effect for participant.|Regression, Linear||Mean difference in change from baseline for participants assigned to testosterone v. placebo, with adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, PDE5 inhibitors, baseline outcome.|||67|14|.003
92240879|NCT02749721|184385155|OTHER||F statistic|0.37||||0.546|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3b amplitudes at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.546
92449558|NCT00799617|184785973|SUPERIORITY||Mean Difference (Final Values)|6.8|||<|0.001|TWO_SIDED|95.0|4.8|8.7||Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors.|Regression, Linear|||||8.7|4.8|<.001
92449559|NCT00799617|184785974|SUPERIORITY||Mean Difference (Net)|-0.07||||0.88|TWO_SIDED|95.0|-0.92|0.79||The estimated difference and P-value were determined by a linear mixed-model with a random effect for participants using outcomes at month 6 and month 12.|Mixed Models Analysis|||"A positive estimated difference indicates greater increases, smaller decreases, or both for the testosterone group compared with the placebo group.~The difference is the mean difference in the change from baseline to 6 months to 12 months in participants allocated to testosterone vs placebo adjusted for balancing factors."||0.79|-0.92|.88
92449560|NCT00799617|184785975|SUPERIORITY|Dichotomous hemoglobin response is an increase of 1g/dL or more from baseline.|Odds Ratio (OR)|31.5||||0.002|TWO_SIDED|95.0|3.7|277.8||The P-value for the significance of the treatment effect was determined by a logistic mixed model with a random intercept for participant.|Mixed Models Analysis|The statistical analysis was intent-to-treat by a logistic mixed effects model adjusted for balancing factors.||||277.8|3.7|.002
92449561|NCT00799617|184785976|SUPERIORITY||Mean Difference (Net)|2.93|||<|0.001|TWO_SIDED|95.0|2.13|3.74||The p value for the treatment effect was determined with the use of a linear mixed model with a random effect for participant.|Mixed Models Analysis|Adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, use of PDE5 inhibitors||||3.74|2.13|<0.001
92449562|NCT00799617|184785977|SUPERIORITY||Median Difference (Net)|2.64|||<|0.001|TWO_SIDED|95.0|1.68|3.61||The p value for the treatment effect was determined with the use of a linear mixed model with a random effect for participant.|Mixed Models Analysis|Adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, use of PDE5 inhibitors||||3.61|1.68|<0.001
92449563|NCT00799617|184785978|SUPERIORITY||Mean Difference (Final Values)|4.09||||0.28|TWO_SIDED|95.0|-3.0|11.18||The P value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||11.18|-3.00|0.28
92449564|NCT00799617|184785979|SUPERIORITY||Odds Ratio (OR)|1.34||||0.15|TWO_SIDED|95.0|0.9|2.0||The P value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||2.00|0.90|0.15
92449565|NCT00799617|184785980|SUPERIORITY||Mean Difference (Net)|2.75||||0.03|TWO_SIDED|95.0|0.2|5.29||The P value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||5.29|0.20|0.03
92449566|NCT00799617|184785981|SUPERIORITY||Mean Difference (Net)|1.21||||0.06|TWO_SIDED|95.0|-0.04|2.46||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||2.46|-0.04|0.06
92449567|NCT00799617|184785982|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.41||||0.03|TWO_SIDED|95.0|0.31|4.5||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||4.50|0.31|0.03
92449568|NCT00799617|184785983|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.47||||0.04|TWO_SIDED|95.0|0.02|0.92||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||0.92|0.02|0.04
92449569|NCT00799617|184785984|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49|||<|0.001|TWO_SIDED|95.0|-0.79|-0.19||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Treatment Effect|||||-0.19|-0.79|<0.001
92449570|NCT00799617|184785985|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.72||||0.004|TWO_SIDED|95.0|-1.2|-0.23||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Treatment Effect|||||-0.23|-1.20|0.004
92449571|NCT00799617|184785986|SUPERIORITY||Mean Difference (Final Values)|47.0||||0.006|TWO_SIDED|95.0|13.0|80.0||Determined by linear mixed model with all balancing factors and baseline outcome value as covariates and a random effect for participant.|Regression, Linear||Mean difference in change from baseline for participants assigned to testosterone v. placebo, with adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, PDE5 inhibitors, baseline outcome.|||80|13|.006
92449572|NCT00799617|184785987|SUPERIORITY||Mean Difference (Final Values)|-27.0||||0.31|TWO_SIDED|95.0|-80.0|26.0||Determined by a linear mixed model with all balancing factors and baseline outcome value as covariates and a random effect for participant.|Regression, Linear||Mean difference in change from baseline for participants assigned to testosterone v. placebo, with adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, PDE5 inhibitors, baseline outcome.|||26|-80|.31
92449573|NCT00799617|184785988|SUPERIORITY||Mean Difference (Final Values)|2.9|||<|0.001|TWO_SIDED|95.0|2.1|3.7||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||3.7|2.1|<.001
92449574|NCT00799617|184785989|SUPERIORITY||Mean Difference (Final Values)|4.2|||<|0.001|TWO_SIDED|95.0|3.2|5.3||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||5.3|3.2|<.001
92449575|NCT00799617|184785990|SUPERIORITY||Median Difference (Final Values)|1.5|||<|0.001|TWO_SIDED|95.0|0.9|2.0||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||2.0|0.9|<.001
92449576|NCT00799617|184785991|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|95.0|0.5|1.5||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||1.5|0.5|<.001
92240880|NCT02749721|184385155|OTHER||F statistic|0.017||||0.895|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P200 amplitudes at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.895
92240881|NCT02749721|184385155|OTHER||F statistic|0.179||||0.673|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P200 amplitudes at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.673
92449577|NCT00799617|184785992|SUPERIORITY||Mean Difference (Final Values)|1.3|||<|0.001|TWO_SIDED|95.0|0.8|1.7|||Regression, Linear|||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."||1.7|0.8|<.001
92449578|NCT00799617|184785993|SUPERIORITY||Mean Difference (Final Values)|7.1|||<|0.001|TWO_SIDED|95.0|5.3|809.0||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||809|5.3|<.001
92449579|NCT00799617|184785994|SUPERIORITY||Mean Difference (Final Values)|8.5|||<|0.001|TWO_SIDED|95.0|6.0|10.9||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||10.9|6.0|<.001
92449580|NCT00799617|184785995|SUPERIORITY||Mean Difference (Final Values)|5.7|||<|0.001|TWO_SIDED|95.0|4.3|7.2||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||7.2|4.3|<.001
92449581|NCT00799617|184785996|SUPERIORITY||Mean Difference (Final Values)|1.8|||<|0.001|TWO_SIDED|95.0|1.1|2.6||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||2.6|1.1|<.001
92449582|NCT00799617|184785997|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.005|TWO_SIDED|95.0|0.3|1.7||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||1.7|0.3|.005
92449583|NCT00799617|184785998|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|95.0|0.5|1.4||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||1.4|0.5|<.001
92449584|NCT00799617|184785999|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.01|TWO_SIDED|95.0|0.25|2.09||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||2.09|0.25|.01
92449585|NCT00799617|184786000|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.052|TWO_SIDED|95.0|-0.01|1.36||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||1.36|-0.01|.052
92449586|NCT00799617|184786001|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.27|TWO_SIDED|95.0|-0.45|1.58||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||1.58|-0.45|0.27
92449587|NCT00799617|184786002|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.24|TWO_SIDED|95.0|-0.76|0.19||The estimated difference and P-value were determined by a linear mixed-model with a random effect for participants using outcomes at month 6 and month 12.|Mixed Models Analysis||The difference is the mean difference in the change from baseline to 6 months to 12 months in participants allocated to testosterone vs placebo adjusted for balancing factors.|A positive estimated difference indicates greater increases, smaller decreases, or both for the testosterone group compared with the placebo group.||0.19|-0.76|.24
92449588|NCT00799617|184786003|SUPERIORITY||Mean Difference (Net)|-0.12||||0.89|TWO_SIDED|95.0|-1.89|1.65||The estimated difference and P-value were determined by a linear mixed-model with a random effect for participants using outcomes at month 6 and month 12.|Mixed Models Analysis||The difference is the mean difference in the change from baseline to 6 months to 12 months in participants allocated to testosterone vs placebo adjusted for balancing factors.|A positive estimated difference indicates greater increases, smaller decreases, or both for the testosterone group compared with the placebo group.||1.65|-1.89|.89
92280747|NCT03552757|184464519|SUPERIORITY||Odds Ratio (OR)|8.69|||<|0.0001|TWO_SIDED|95.0|6.31|11.97|||Regression, Logistic|||Results are based on the data from on-treatment observation period. All responses prior to first discontinuation of treatment (or initiation of other anti-obesity medication or bariatric surgery) were included in a MMRM with randomised treatment, stratification groups (OAD treatment status and HbA1c category at screening) and the interaction between stratification groups as factors and baseline body weight as covariate, all nested within visit.||11.97|6.31|<0.0001
92449589|NCT00799617|184786004|SUPERIORITY||Mean Difference (Net)|-5.51||||0.14|TWO_SIDED|95.0|-12.91|1.88||The estimated difference and P-value were determined by a linear mixed-model with a random effect for participants using outcomes at month 6 and month 12.|Mixed Models Analysis||The difference is the mean difference in the change from baseline to 6 months to 12 months in participants allocated to testosterone vs placebo adjusted for balancing factors.|A positive estimated difference indicates greater increases, smaller decreases, or both for the testosterone group compared with the placebo group.||1.88|-12.91|.14
92449590|NCT00799617|184786005|SUPERIORITY||Mean Difference (Net)|0.83|||<|0.001|TWO_SIDED|95.0|0.48|1.39||The P-value for the significance of the treatment effect was determined by a linear mixed model for continuous outcomes with a random intercept for participant.|Mixed Models Analysis||Intent-to-treat analysis by a linear mixed effects model adjusted for balancing factors.|||1.39|0.48|<.001
92449591|NCT02442830|184786021|OTHER|Log rank test||||||0.002|||||||Log Rank|||||||.002
92449592|NCT03851016|184786030|SUPERIORITY|||||||0.113|||||||Mancova|||"Null hypothesis is that there would be no difference in change of depressive symptoms between Life Story Book Intervention and Usual Care. A multivariate analysis of covariance (MANCOVA) models with the GDS-12R at baseline as the covariate, and the treatment group and study site as factors. The test was performed with a significance level of 0.05.~A sample size of 20 was needed to provide 90% power to detect a 5 point difference in depressive symptoms."||||.113
92449593|NCT03851016|184786031|SUPERIORITY|||||||0.123|||||||Mancova|||"Null hypothesis is that there would be no difference in change of Presence of Meaning (POM) between Life Story Book Intervention and Usual Care. A multivariate analysis of covariance (MANCOVA) models with the POM at baseline as the covariate, and the treatment group and study site as factors. The test was performed with a significance level of 0.05.~A sample size of 20 was needed to provide 90% power to detect a 5 point difference in POM."||||.123
92449594|NCT03851016|184786032|SUPERIORITY|||||||0.91|||||||Mancova|||"The null hypothesis is that there would be no difference in change of Search for Meaning (SFM) between Life Story Book Intervention and Usual Care. A multivariate analysis of covariance (MANCOVA) models with the SFM at baseline as the covariate, and the treatment group and study site as factors. The test was performed with a significance level of 0.05.~A sample size of 20 was needed to provide 90% power to detect a 5 point difference in SFM."||||.910
92449595|NCT02553746|184786044|SUPERIORITY|||||||0.748|||||||Chi-squared, Corrected|||||||0.748
92449596|NCT02553746|184786045|SUPERIORITY|||||||0.498|||||||Chi-squared, Corrected|||||||0.498
92449597|NCT02553746|184786046|SUPERIORITY|||||||0.171|||||||Wilcoxon (Mann-Whitney)|||||||0.171
92449598|NCT02553746|184786047|SUPERIORITY|||||||0.162|||||||Wilcoxon (Mann-Whitney)|||||||0.162
92449599|NCT02553746|184786048|SUPERIORITY|||||||0.104|||||||Chi-squared, Corrected|||||||0.104
92449600|NCT02553746|184786049|SUPERIORITY||||||<|0.005|||||||Wilcoxon (Mann-Whitney)|||||||<0.005
92449601|NCT01660412|184786090|OTHER||Mean Difference (Final Values)|1.42|STANDARD_DEVIATION|2.17|<|0.0001|TWO_SIDED|95.0|0.85|2.0|||t-test, 2 sided|||||2.00|0.85|<0.0001
92449602|NCT00320281|184786092|SUPERIORITY_OR_OTHER_LEGACY|||||||0.432||95.0|||||ANCOVA|||||||0.432
92449603|NCT03328897|184786124|SUPERIORITY||Mean Difference (Net)|-4.23|STANDARD_ERROR_OF_MEAN|0.746|<|0.001|TWO_SIDED|95.0|-5.7|-2.77|||Mixed Model with Repeated Measures(MMRM)|||||-2.77|-5.70|<0.001
92449604|NCT03328897|184786124|SUPERIORITY||Mean Difference (Net)|-3.79|STANDARD_ERROR_OF_MEAN|0.738|<|0.001|TWO_SIDED|95.0|-5.24|-2.33|||Mixed Model with Repeated Measures(MMRM)|||||-2.33|-5.24|<0.001
92449605|NCT03328897|184786125|SUPERIORITY||Mean Difference (Net)|-10.19|STANDARD_ERROR_OF_MEAN|1.555|<|0.001|TWO_SIDED|95.0|-13.25|-7.14|||Mixed Model with Repeated Measures(MMRM)|||||-7.14|-13.25|<0.001
92449606|NCT03328897|184786125|SUPERIORITY||Mean Difference (Net)|-9.12|STANDARD_ERROR_OF_MEAN|1.535|<|0.001|TWO_SIDED|95.0|-12.14|-6.1|||Mixed Model with Repeated Measures(MMRM)|||||-6.10|-12.14|<0.001
92449607|NCT03328897|184786126|SUPERIORITY||Mean Difference (Net)|-5.92|STANDARD_ERROR_OF_MEAN|0.853|<|0.001|TWO_SIDED|95.0|-7.59|-4.24|||Mixed Model with Repeated Measures(MMRM)|||||-4.24|-7.59|<0.001
92449608|NCT03328897|184786126|SUPERIORITY||Mean Difference (Net)|-5.35|STANDARD_ERROR_OF_MEAN|0.842|<|0.001|TWO_SIDED|95.0|-7.0|-3.69|||Mixed Model with Repeated Measures(MMRM)|||||-3.69|-7.00|<0.001
92449609|NCT03328897|184786127|SUPERIORITY||Odds Ratio (OR)|7.02|||<|0.001|TWO_SIDED|95.0|3.27|15.06|||Regression, Logistic|||||15.06|3.27|<0.001
92449610|NCT03328897|184786127|SUPERIORITY||Odds Ratio (OR)|7.03|||<|0.001|TWO_SIDED|95.0|3.29|15.06|||Regression, Logistic|||||15.06|3.29|<0.001
92449611|NCT03328897|184786128|SUPERIORITY||Odds Ratio (OR)|11.21|||<|0.001|TWO_SIDED|95.0|3.88|32.37|||Regression, Logistic|||||32.37|3.88|<0.001
92449612|NCT03328897|184786128|SUPERIORITY||Odds Ratio (OR)|5.88||||0.001|TWO_SIDED|95.0|2.01|17.17|||Regression, Logistic|||||17.17|2.01|0.001
92240882|NCT02749721|184385155|OTHER||F statistic|1.241||||0.27|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P3a amplitudes at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.27
92240883|NCT02749721|184385155|OTHER||F statistic|0.042||||0.837|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P3a amplitudes at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.837
92240884|NCT02749721|184385156|OTHER||Pearson's R|0.359||||0.143|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P200 (Latency) baseline scores||||0.143
92449613|NCT03328897|184786129|SUPERIORITY||Odds Ratio (OR)|2.73|||<|0.001|TWO_SIDED|95.0|1.51|4.95|||Regression, Logistic|||||4.95|1.51|<0.001
92449614|NCT03328897|184786129|SUPERIORITY||Odds Ratio (OR)|2.53||||0.002|TWO_SIDED|95.0|1.41|4.56|||Regression, Logistic|||||4.56|1.41|0.002
92449615|NCT03328897|184786130|SUPERIORITY||Mean Difference (Net)|-4.0|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|-5.7|-2.3|||Mixed Model with Repeated Measures(MMRM)|||||-2.3|-5.7|<0.001
92449616|NCT03328897|184786130|SUPERIORITY||Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|-5.1|-1.8|||Mixed Model with Repeated Measures(MMRM)|||||-1.8|-5.1|<0.001
92449617|NCT03328897|184786131|SUPERIORITY||Hazard Ratio (HR)|1.71|||<|0.001|TWO_SIDED|95.0|1.25|2.33|||Regression, Cox|||||2.33|1.25|<0.001
92449618|NCT03328897|184786131|SUPERIORITY||Hazard Ratio (HR)|1.66||||0.001|TWO_SIDED|95.0|1.22|2.25|||Regression, Cox|||||2.25|1.22|0.001
92449619|NCT01040871|184786200|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.038||||0.915|TWO_SIDED|95.0|0.529|2.037|||Cochran-Mantel-Haenszel|Stratified by IPI score|Odds ratio: VR-CAP CR rate relative to R-CHOP CR rate|||2.037|0.529|0.915
92449620|NCT01175824|184786236|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the upper limit of the 95% confidence interval (CI) of the difference in the LS mean between the two treatment arms (twice-daily insulin lispro Low Mixture minus the comparator arm) at 24 weeks is \<0.4%.|LS mean difference|-0.21|||||TWO_SIDED|95.0|-0.38|-0.04||||||||-0.04|-0.38|
92449621|NCT01175824|184786237|SUPERIORITY_OR_OTHER|||||||0.1858||95.0|||||Mixed Models Analysis|||||||0.1858
92449622|NCT01175824|184786238|SUPERIORITY_OR_OTHER|||||||0.3588||95.0||||HbA1c concentration \<7%|Fisher Exact|||||||0.3588
92449623|NCT01175824|184786238|SUPERIORITY_OR_OTHER|||||||0.5958||95.0||||HbA1c \<=6.5%|Fisher Exact|||||||0.5958
92449624|NCT01175824|184786239|SUPERIORITY_OR_OTHER|||||||0.0827||95.0||||p-value is for the Week 12 comparison|Mixed Models Analysis|||||||0.0827
92240885|NCT02749721|184385156|OTHER||Pearson's R|-0.197||||0.5|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3b (latency) baseline scores||||0.500
92449625|NCT01175824|184786239|SUPERIORITY_OR_OTHER|||||||0.5353||95.0||||p-value is for the Week 24 comparison|Mixed Models Analysis|||||||0.5353
92449626|NCT01175824|184786243|SUPERIORITY_OR_OTHER|||||||0.2833||95.0||||p-value is for the comparison at Week 12.|Mixed Models Analysis|||||||0.2833
92449627|NCT01175824|184786243|SUPERIORITY_OR_OTHER|||||||0.0176||95.0||||p-value is for the comparison at Week 24.|Mixed Models Analysis|||||||0.0176
92449628|NCT01175824|184786249|SUPERIORITY_OR_OTHER||LS mean difference|-0.22|||||TWO_SIDED|95.0|-0.39|-0.05||||Superiority will be concluded if of 95% CI upper limit for treatment difference (2x-daily insulin lispro LM minus the comparator arm) at 24 wks is \<0%||||-0.05|-0.39|
92449629|NCT00982319|184786254|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92449630|NCT00767000|184786256|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.51|||<|0.001||95.0|-0.8|-0.22|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-0.22|-0.80|<0.001
92449631|NCT00767000|184786256|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.64|||<|0.001||95.0|-0.93|-0.36|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-0.36|-0.93|<0.001
92449632|NCT00767000|184786256|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.81|||<|0.001||95.0|-1.1|-0.53|||Contrained longitudinal model|||Analysis for change from baseline to Week 14||-0.53|-1.10|<0.001
92449633|NCT00767000|184786256|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.75|||<|0.001||95.0|-1.04|-0.46|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-0.46|-1.04|<0.001
92449634|NCT00767000|184786257|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-36.6|||<|0.001||95.0|-55.6|-17.5|||Constrained longitudial model|||Analysis for change from baseline to Week 14||-17.5|-55.6|<0.001
92449635|NCT00767000|184786257|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-26.7||||0.005||95.0|-45.4|-8.1|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-8.1|-45.4|0.005
92449636|NCT00767000|184786257|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-35.0|||<|0.001||95.0|-54.0|-16.0|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-16.0|-54.0|<0.001
92449637|NCT00767000|184786257|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-36.9|||<|0.001||95.0|-55.9|-17.9|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-17.9|-55.9|<0.001
92449638|NCT00767000|184786258|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.8||||0.791||95.0|-11.6|15.2|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||15.2|-11.6|0.791
92449639|NCT00767000|184786258|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|10.3||||0.121||95.0|-2.7|23.2|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||23.2|-2.7|0.121
92449640|NCT00767000|184786258|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.3||||0.169||95.0|-22.6|4.0|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||4.0|-22.6|0.169
92449641|NCT00767000|184786258|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.7||||0.321||95.0|-6.6|20.0|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||20.0|-6.6|0.321
92280748|NCT00571428|184464559|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was defined a priori such that 90%CI for the difference between therapies had to fall entirely within +/- 0.07L.|Mean Difference (Final Values)|0.011||||||90.0|-0.015|0.037|||Mixed Models Analysis|Treatment group, treatment sequence, predose FEV1, \& Visit number are fixed effects; subject within treatment sequence is a random effect.||||0.037|-0.015|
92449642|NCT00127790|184786263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0||||0.01|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.010
92449643|NCT00127790|184786263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.581|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.581
92449644|NCT00127790|184786263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6||||0.011|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores||||0.011
92449645|NCT00127790|184786264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.33|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.33
92449646|NCT00127790|184786264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.112|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.112
92449647|NCT00127790|184786264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.737|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores||||0.737
92449648|NCT00127790|184786265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.063|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores||||0.063
92449649|NCT00127790|184786265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.786|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores||||0.786
92449650|NCT00127790|184786265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.039|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.039
92449651|NCT00127790|184786266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.2||||0.016|||||||Generlaized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.016
92449652|NCT00127790|184786266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4||||0.187|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.187
92449653|NCT00127790|184786266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.2||||0.015|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.015
92449654|NCT00097591|184786280|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.002|TWO_SIDED|95.0|0.726|0.927||The primary outcome measure was analyzed first in the UA/NSTEMI population, followed by All ACS subjects, followed by the STEMI population.|Gehan-Wilcoxon|||For UA/NSTEMI population||0.927|0.726|0.002
92449655|NCT00097591|184786280|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.793||||0.019|TWO_SIDED|95.0|0.649|0.968|||Gehan-Wilcoxon|||For STEMI population||0.968|0.649|0.019
92449656|NCT00097591|184786280|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.812|||<|0.001|TWO_SIDED|95.0|0.732|0.902|||Gehan-Wilcoxon|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For All ACS population||0.902|0.732|<0.001
92449657|NCT00097591|184786281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.314||||0.002|TWO_SIDED|95.0|1.107|1.559|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For non-CABG TIMI Major or Minor Bleeding||1.559|1.107|0.002
92449658|NCT00097591|184786281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.315||||0.029|TWO_SIDED|95.0|1.028|1.683|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For non-CABG TIMI Major Bleeding||1.683|1.028|0.029
92449659|NCT00097591|184786281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.517||||0.015|TWO_SIDED|95.0|1.083|2.126|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - Life-threatening events (LT)||2.126|1.083|0.015
92449660|NCT00097591|184786281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.191||||0.002|TWO_SIDED|95.0|1.158|11.113|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - LT - Fatal||11.113|1.1580|0.002
92449661|NCT00097591|184786281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.119||||0.736|TWO_SIDED|95.0|0.582|2.152|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - LT - Symptomatic intracranial hemorrage (ICH)||2.152|0.582|0.736
92449662|NCT00097591|184786281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.617||||0.016|TWO_SIDED|95.0|1.159|5.908|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - LT - Requiring inotropes||5.908|1.159|0.016
92449663|NCT00097591|184786281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.998||||0.995|TWO_SIDED|95.0|0.528|1.885|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - LT - Requiring surgical intervention||1.885|0.528|0.995
92449664|NCT00097591|184786281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.499||||0.084|TWO_SIDED|95.0|0.945|2.379|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - LT - Requiring transfusion (\>=4 units)||2.379|0.945|0.084
92449665|NCT00097591|184786281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.313||||0.022|TWO_SIDED|95.0|1.04|1.656|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Minor Bleeding||1.656|1.040|0.022
92449666|NCT00097591|184786282|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.784|||<|0.001|TWO_SIDED|95.0|0.688|0.894|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||Through 30 days||0.894|0.688|<0.001
92280749|NCT00571428|184464560|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was defined a priori such that 90%CI for the difference between therapies has to fall entirely within +/- 0.07L.|Mean Difference (Final Values)|0.062||||||90.0|0.035|0.09|||Mixed Models Analysis|Treatment group, treatment sequence, pre-dose FEV1, \& Visit Number are fixed effects; subjects within treatment sequence is a random effect.||||0.090|0.035|
92449667|NCT00097591|184786282|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.794|||<|0.001|TWO_SIDED|95.0|0.703|0.896|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||Through 90 days||0.896|0.703|<0.001
92449668|NCT00097591|184786283|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.767|||<|0.001|TWO_SIDED|95.0|0.672|0.876|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||Through 30 days||0.876|0.672|<0.001
92449669|NCT00097591|184786283|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.797|||<|0.001|TWO_SIDED|95.0|0.705|0.901|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||Through 90 days||0.901|0.705|<0.001
92449670|NCT00097591|184786284|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.838|||<|0.001|TWO_SIDED|95.0|0.762|0.921|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||||0.921|0.762|<0.001
92449671|NCT00097591|184786285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.831|||<|0.001|TWO_SIDED|95.0|0.751|0.919|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||||0.919|0.751|<0.001
92240886|NCT02749721|184385156|OTHER||Pearson's R|0.277||||0.337|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3b (latency) baseline scores||||0.337
92240887|NCT02749721|184385156|OTHER||Pearson's R|0.052||||0.832|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P200 (latency) baseline scores||||0.832
92449672|NCT02312310|184786286|SUPERIORITY|Test of trend across doses.||||||0.393|||||||Mixed Models Analysis|Change in outcome from baseline to 12 weeks tested using mixed effects models controlling for baseline measures, treatment, sex, age, and education.|||The flavanol effect on the change in each outcome from baseline to 12 weeks was tested using linear mixed effects models controlling for the respective baseline measures, four categories of treatment, sex, age, and education. Regression adjusted mean within-group tests of change were estimated and tested for statistical significance from the model. The primary test used for assessing the treatment effect was the linear trend contrast from the model across: placebo, low, medium and high dose. The model for cognitive measures incorporated additional outcome measurement times at 4 weeks and 20 weeks and included categorical time (4, 12, 20 weeks) as a predictor as well as a treatment (4 category) by time interaction, and a random intercept to control for repeated measures within individuals (results for 4 and 20 weeks not presented).|||.393
92449673|NCT00563797|184786295|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|||||F=7.73|Mixed Models Analysis|||Comparison is between baseline and during treatment.||||0.014
92449674|NCT00563797|184786296|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||F=36.32|Mixed Models Analysis|||Comparison of baseline and post-treatment||||.0001
92449675|NCT00563797|184786297|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED||||||Mixed Models Analysis|||||||.025
92449676|NCT00563797|184786298|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Mixed Models Analysis|||||||.019
92449677|NCT03264157|184786299|NON_INFERIORITY|The null hypothesis is p-p0 ≤ -0.1. The alternative hypothesis is p-p0 \> -0.1, where p is the proportion of subjects with anti-rabies titer of \>0.5 IU/mL at Day 14 in subjects receiving BPL HRIG + vaccine and p0 is the proportion receiving comparator HRIG + vaccine. We reject the null hypothesis at the one-sided 0.025 significance level, and conclude that p-p0 \> -0.1, if the lower bound of an exact 95% binomial confidence interval exceeds -0.1.|lower 95% CI|-0.05||||0.0006|ONE_SIDED|95.0|-0.05|||The threshold for this test is \<=0.025.|Farrington and Manning test||||||-0.05|0.0006
92449678|NCT03264157|184786300|NON_INFERIORITY|The prespecified non inferiority margin was 20%. The lower bound of the 95% CI required should be greater than 0.8 to conclude non-inferiority.|lower 95% CI|0.74|||||TWO_SIDED|95.0|0.74|0.94||||||||0.94|0.74|
92449679|NCT03264157|184786301|SUPERIORITY||95% CI|0.97|||||TWO_SIDED||||||||Data analyzed as log normal. The value presented is the untransformed value of the difference between means.|||||
92449680|NCT03264157|184786302|NON_INFERIORITY|The same methodology was used as the primary endpoint for each visit. The statistical analysis is presenting the Day 14 data.|lower 95% CI|-0.05||||0.0006|TWO_SIDED|95.0|-0.05|0.1|||Farrington and Manning test|||||0.10|-0.05|0.0006
92449681|NCT03264157|184786303|NON_INFERIORITY|The same methodology was used as the primary endpoint for each visit. The statistical analysis is presenting the Day 14 data.|lower 95% CI|0.0||||0|TWO_SIDED|95.0|0.0|0.0|||Farrington and Manning test||For Day 14, all subjects achieved the endpoint (RVNA titer \> LLOQ). Since the statistic to measure the performance is a proportion, the proportion is 1 and no variance is calculable.|||0|0|0
92449682|NCT04188041|184786312|OTHER|see above||||||0.02|||||||Wilcoxon signed rank test|||Non-parametric Wilcoxon signed rank test for paired data was used to test for significant change in confidence.||||0.02
92449683|NCT04165291|184786355|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<.01
92449684|NCT04165291|184786356|OTHER|||||||0.08|||||||ANOVA|||||||.08
92449685|NCT04165291|184786357|SUPERIORITY|||||||0.116|||||||Repeated Measures Analysis of Variance|||||||.116
92449686|NCT04165291|184786358|SUPERIORITY||Mean Difference (Final Values)|5.146|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
92449687|NCT04165291|184786359|SUPERIORITY|||||||0.13|||||||ANOVA|||||||.13
92449688|NCT04165291|184786360|SUPERIORITY|||||||0.35|||||||ANOVA|||||||.35
92449689|NCT04632940|184786370|OTHER||LS Mean Difference|-0.528|STANDARD_ERROR_OF_MEAN|0.8912||0.5553|TWO_SIDED|95.0|-2.308|1.251|||Mixed Models Analysis|||||1.251|-2.308|0.5553
92449690|NCT01649856|184786380|SUPERIORITY_OR_OTHER||Difference in Response Rates|8.2||||0.076||95.0|-1.1|17.5|||Chi-squared|||||17.5|-1.1|0.076
92449691|NCT00835406|184786418|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA will be performed on ln-transformed Ae0-36 and Rmax at the α level of 0.05.|Ratio of the mean|97.94||||||90.0|90.96|105.45|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.45|90.96|
92449692|NCT00835406|184786419|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA will be performed on ln-transformed Ae0-35 and Rmax at the α level of 0.05.|Ratio of the mean|100.36||||||90.0|92.85|108.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||108.48|92.85|
92449693|NCT01706250|184786467|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.29|STANDARD_DEVIATION|32.98||0.6779|||||||t-test, 2 sided|||Percent change for IL count for MAXCLARITY II Vs PROACTIV at Wk 8||||0.6779
92449694|NCT01706250|184786467|SUPERIORITY_OR_OTHER||Median Difference (Net)|7.68|STANDARD_DEVIATION|29.51||0.2847|||||||t-test, 2 sided|||Percent change for NIL count for MAXCLARITY II Vs PROACTIV at Wk 8||||0.2847
92449695|NCT01706250|184786467|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.24|STANDARD_DEVIATION|23.35||0.6894|||||||t-test, 2 sided|||Percent change for TL count for MAXCLARITY II Vs PROACTIV at Wk 8||||0.6894
92449696|NCT01706250|184786468|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.38|STANDARD_DEVIATION|50.1||0.9909|||||||Signed Rank|||Percent change for MAXCLARITY II Vs PROACTIV: IL count, BL to Wk 1 (within group)||||0.9909
92449697|NCT01706250|184786468|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.0|STANDARD_DEVIATION|39.91||0.6671|||||||t-test, 2 sided|||IL count for MAXCLARITY II Vs PROACTIV- BL to Wk 2 (within group)||||0.6671
92449698|NCT01706250|184786468|SUPERIORITY_OR_OTHER||Median Difference (Net)|23.64|STANDARD_DEVIATION|52.05||0.0632|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: IL count, BL to Wk 4 (within group)||||0.0632
92449699|NCT01706250|184786469|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2|STANDARD_DEVIATION|42.31||0.7385|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: NIL count, BL to Wk 1 (within group)||||0.7385
92449700|NCT01706250|184786469|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.04|STANDARD_DEVIATION|37.77||0.7296|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: NIL count, BL to Wk 2 (within group)||||0.7296
92240888|NCT02749721|184385156|OTHER||Pearson's R|0.103||||0.68|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P3a (latency) baseline scores||||0.68
92449701|NCT01706250|184786469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5|STANDARD_DEVIATION|36.11||0.3774|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: NIL count, BL to Wk 4 (within group)||||0.3774
92449702|NCT01706250|184786470|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.02|STANDARD_DEVIATION|29.53||0.7634|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: TL count, BL to Wk 1 (within group)||||0.7634
92449703|NCT01706250|184786470|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.75|STANDARD_DEVIATION|29.61||0.4087|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: TL count, BL to Wk 2 (within group)||||0.4087
92240889|NCT02749721|184385156|OTHER||Pearson's R|-0.074||||0.777|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P200 (Latency) baseline to endpoint percentage change||||0.777
92449704|NCT01706250|184786470|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.0|STANDARD_DEVIATION|25.4||0.2455|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: TL count, BL to Wk 4 (within group)||||0.2455
92449705|NCT01706250|184786471|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05|STANDARD_DEVIATION|0.39||1|||||||Signed Rank|||Change, in ISGA for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||1.0000
92449706|NCT01706250|184786471|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26|STANDARD_DEVIATION|0.56||0.125|||||||Signed Rank|||Change, in ISGA for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.1250
92449707|NCT01706250|184786471|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|STANDARD_DEVIATION|0.46||0.625|||||||Signed Rank|||Change, in ISGA for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.6250
92449708|NCT01706250|184786471|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.59||1|||||||Signed Rank|||Change, in ISGA for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||1.0000
92240890|NCT02749721|184385156|OTHER||Pearson's R|0.061||||0.834|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3a (Latency) baseline to endpoint percentage change||||0.834
92240891|NCT02749721|184385156|OTHER||Pearson's R|-0.006||||0.988|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3b (Latency) baseline to endpoint percentage change||||0.988
92240892|NCT02749721|184385156|OTHER||Pearson's R|0.073||||0.788|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P200 (Latency) baseline to endpoint percentage change||||0.788
92449709|NCT01706250|184786472|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|0.45||1|||||||Signed Rank|||Change, in Erythema for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||1.0000
92449710|NCT01706250|184786472|SUPERIORITY_OR_OTHER||Signed Rank|0.05|STANDARD_DEVIATION|0.23||1|||||||Signed Rank|||Change, in Erythema for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||1.0000
92240893|NCT02749721|184385156|OTHER||Pearson's R|0.375||||0.168|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P3a (Latency) baseline to endpoint percentage change||||0.168
92240894|NCT02749721|184385156|OTHER||Pearson's R|-0.392||||0.108|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P200 (Latency) baseline scores||||0.108
92240895|NCT02749721|184385156|OTHER||Pearson's R|0.415||||0.124|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3a (Latency) baseline scores||||0.124
92182268|NCT02409680|184263410|SUPERIORITY||Risk Ratio (RR)|0.89||||0.012|TWO_SIDED|95.0|0.81|0.98||A-priori threshold for statistical significance at 0.05 was specified.|Cochran-Mantel-Haenszel|||The null hypothesis is there is no treatment effect on preterm delivery.||0.98|0.81|0.012
92182269|NCT02409680|184263411|SUPERIORITY||Risk Ratio (RR)|1.08||||0.299|TWO_SIDED|95.0|0.94|1.25|||Cochran-Mantel-Haenszel|||||1.25|0.94|0.299
92182270|NCT02409680|184263412|SUPERIORITY||Risk Ratio (RR)|0.95||||0.171|TWO_SIDED|95.0|0.9|1.01|||Cochran-Mantel-Haenszel|||||1.01|0.90|0.171
92182271|NCT02409680|184263413|SUPERIORITY||Risk Ratio (RR)|0.86||||0.048|TWO_SIDED|95.0|0.73|1.0|||Cochran-Mantel-Haenszel|||||1.00|0.73|0.048
92182272|NCT02409680|184263414|SUPERIORITY||Risk Ratio (RR)|0.87||||0.125|TWO_SIDED|95.0|0.73|1.04|||Cochran-Mantel-Haenszel|||||1.04|0.73|0.125
92182273|NCT02409680|184263415|SUPERIORITY||Risk Ratio (RR)|1.03||||0.9|TWO_SIDED|95.0|0.6|1.79|||Cochran-Mantel-Haenszel|||||1.79|0.60|0.900
92182274|NCT02409680|184263416|SUPERIORITY||Risk Ratio (RR)|1.25||||0.274|TWO_SIDED|95.0|0.84|1.86|||Cochran-Mantel-Haenszel|||||1.86|0.84|0.274
92449711|NCT01706250|184786473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.22||1|||||||Signed Rank|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||1.00
92172454|NCT03526861|184235439|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|13.7||||0.002|TWO_SIDED|95.0|5.2|22.2||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 90% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||22.2|5.2|0.002
92172455|NCT03526861|184235439|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|15.3|||<|0.001|TWO_SIDED|95.0|6.5|24.1||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 90% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||24.1|6.5|<0.001
92172456|NCT03526861|184235440|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-9.4|||<|0.001|TWO_SIDED|95.0|-13.5|-5.3||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-5.3|-13.5|<0.001
92182275|NCT02409680|184263417|SUPERIORITY||Risk Ratio (RR)|0.75||||0.512|TWO_SIDED|95.0|0.32|1.78|||Cochran-Mantel-Haenszel|||||1.78|0.32|0.512
92449712|NCT01706250|184786473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.23||1|||||||Signed rank|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||1.0000
92449713|NCT01706250|184786474|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|STANDARD_DEVIATION|0.46||1|||||||Signed rank|||Change, in Peeling, for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||1.0000
92449714|NCT01706250|184786475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|STANDARD_DEVIATION|0.67||0.5313||95.0|||||Signed Rank|||Change, in Redness for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||0.5313
92240896|NCT02749721|184385156|OTHER||Pearson's R|0.362||||0.185|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3b (Latency) baseline scores||||0.185
92240897|NCT02749721|184385156|OTHER||Pearson's R|-0.023||||0.923|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P200 (Latency) baseline scores||||0.923
92240898|NCT02749721|184385156|OTHER||Pearson's R|0.071||||0.77|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P3a (Latency) baseline scores||||0.77
92240899|NCT02749721|184385156|OTHER||Pearson's R|0.097||||0.712|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P200 (Latency) baseline to endpoint percent change||||0.712
92240900|NCT02749721|184385156|OTHER||Pearson's R|-0.058||||0.845|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3a (Latency) baseline to endpoint percent change||||0.845
92240901|NCT02749721|184385156|OTHER||Pearson's R|0.194||||0.616|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3b (Latency) baseline to endpoint percent change||||0.616
92240902|NCT02749721|184385156|OTHER||Pearson's R|0.255||||0.323|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P200 (Latency) baseline to endpoint percent change||||0.323
92240903|NCT02749721|184385156|OTHER||Pearson's R|-0.193||||0.473|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P3a (Latency) baseline to endpoint percent change||||0.473
92240904|NCT02749721|184385156|OTHER||F statistic|4.909||||0.031|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P200 latencies at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.031
92240905|NCT02749721|184385156|OTHER||F statistic|1.189||||0.281|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P200 latencies at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.281
92240906|NCT02749721|184385156|OTHER||F statistic|0.001||||0.966|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3a latencies at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.966
92240907|NCT02749721|184385156|OTHER||F statistic|4.121||||0.048|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3a latencies at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.048
92280750|NCT00571428|184464561|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was defined a priori such that 90%CI for the difference between therapies has to fall entirely within +/- 0.07L.|Median Difference (Final Values)|-0.035||||||90.0|-0.079|0.008|||Mixed Models Analysis|Treatment group, treatment sequence, pre-dose FEV1, \& Visit Number are fixed effects; subjects within treatment sequence is a random effect.||||0.008|-0.079|
92449715|NCT01706250|184786475|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.16|STANDARD_DEVIATION|0.6||0.5||95.0|||||Signed Rank|||Change, in Redness for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.5000
92449716|NCT01706250|184786475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_DEVIATION|0.86||0.75|||||||Signed Rank|||Change, in Redness for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.7500
92449717|NCT01706250|184786475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|STANDARD_DEVIATION|0.84||0.25|||||||Signed rank|||Change, in Redness for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||0.2500
92449718|NCT01706250|184786476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_DEVIATION|0.86||0.2131|||||||Signed Rank)|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||0.2131
92449719|NCT01706250|184786476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37|STANDARD_DEVIATION|1.16||0.2656||95.0|||||Signed Rank|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.2656
92449720|NCT01706250|184786476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|STANDARD_DEVIATION|0.75||0.2344||95.0|||||Signed Rank|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.2344
92449721|NCT01706250|184786476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22|STANDARD_DEVIATION|0.73||0.3594||95.0|||||Signed Rank|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||0.3594
92449722|NCT01706250|184786477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.32||0.6172|||||||Signed Rank|||Change, in Burning for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||0.6172
92449723|NCT01706250|184786477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.26|STANDARD_DEVIATION|0.93||0.3984|||||||Signed Rank|||Change, in Burning for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.3984
92449724|NCT01706250|184786477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56|STANDARD_DEVIATION|1.1||0.0781||95.0|||||Signed Rank|||Change, in Burning for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.0781
92449725|NCT01706250|184786477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39|STANDARD_DEVIATION|1.24||0.375||95.0|||||Signed Rank|||Change, in Burning for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||0.3750
92449726|NCT01706250|184786478|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0|STANDARD_DEVIATION|0.46||1||95.0|||||[Signed Rank]|||Change, in Itching for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||1.0000
92449727|NCT01706250|184786478|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.32|STANDARD_DEVIATION|0.58||0.0625||95.0|||||Signed Rank|||Change, in Itching for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.0625
92449728|NCT01706250|184786478|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|STANDARD_DEVIATION|0.75||0.25||95.0|||||Signed Rank|||Change, in Itching for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.2500
92449729|NCT01706250|184786478|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_DEVIATION|0.38||0.25||95.0|||||Signed Rank|||Change, in Itching for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||0.2500
92182276|NCT02409680|184263418|SUPERIORITY||Risk Ratio (RR)|0.77||||0.331|TWO_SIDED|95.0|0.45|1.31|||Cochran-Mantel-Haenszel|||||1.31|0.45|0.331
92182277|NCT02409680|184263420|SUPERIORITY||Risk Ratio (RR)|0.38||||0.015|TWO_SIDED|95.0|0.17|0.85|||Cochran-Mantel-Haenszel|||||0.85|0.17|0.015
92182278|NCT02409680|184263421|SUPERIORITY||Risk Ratio (RR)|0.75||||0.039|TWO_SIDED|95.0|0.61|0.93|||Cochran-Mantel-Haenszel|||||0.93|0.61|0.039
92182279|NCT02409680|184263422|SUPERIORITY||Risk Ratio (RR)|0.93||||0.073|TWO_SIDED|95.0|0.87|1.01|||Cochran-Mantel-Haenszel|||||1.01|0.87|0.073
92182280|NCT02409680|184263423|SUPERIORITY||Risk Ratio (RR)|0.87||||0.084|TWO_SIDED|95.0|0.57|1.33|||Cochran-Mantel-Haenszel|||||1.33|0.57|0.084
92182281|NCT02409680|184263424|SUPERIORITY||Risk Ratio (RR)|0.86||||0.039|TWO_SIDED|95.0|0.73|1.0|||Cochran-Mantel-Haenszel|||||1.00|0.73|0.039
92182282|NCT02409680|184263425|SUPERIORITY||Risk Ratio (RR)|0.88||||0.261|TWO_SIDED|95.0|0.7|1.1|||Cochran-Mantel-Haenszel|||||1.10|0.70|0.261
92182283|NCT02409680|184263426|SUPERIORITY||Risk Ratio (RR)|0.85||||0.141|TWO_SIDED|95.0|0.68|1.06|||Cochran-Mantel-Haenszel|||||1.06|0.68|0.141
92182284|NCT02409680|184263427|SUPERIORITY||Risk Ratio (RR)|1.4||||0.157|TWO_SIDED|95.0|0.88|2.23|||Cochran-Mantel-Haenszel|||||2.23|0.88|0.157
92280751|NCT00571428|184464562|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was defined a priori such that 90%CI for the difference between therapies has to fall entirely within +/- 0.07L.|Median Difference (Final Values)|-0.03||||||90.0|-0.086|0.026|||Mixed Models Analysis|Treatment group, treatment sequence, pre-dose FEV1, \& Visit Number are fixed effects; subjects within treatment sequence is a random effect.||||0.026|-0.086|
92280752|NCT00571428|184464567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.694||||||90.0|0.525|2.862|||Mixed Models Analysis|Treatment group, treatment sequence, pre-dose FEV1, \& Visit number are fixed effects; subject within treatment sequence is a random effect.||||2.862|0.525|
92287171|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.112|||<|0.001|TWO_SIDED|95.0|0.054|0.171|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.171|0.054|<0.001
92449730|NCT01706250|184786479|SUPERIORITY_OR_OTHER||Signed Rank|0.15|STANDARD_DEVIATION|0.59||0.5||95.0|||||Signed Rank|||Change, in Scaling for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||0.5000
92449731|NCT01706250|184786479|SUPERIORITY_OR_OTHER||Signed Rank|0.11|STANDARD_DEVIATION|0.57||0.75||95.0|||||Signed Rank|||Change, in Scaling for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.7500
92449732|NCT01706250|184786479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_DEVIATION|0.62||0.4531||95.0|||||Signed Rank|||Change, in Scaling for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.4531
92449733|NCT01706250|184786479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_DEVIATION|0.86||0.625||95.0|||||Signed Rank|||Change, in Scaling for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||0.6250
92449734|NCT01071512|184786496|OTHER|||||||0.17|||||||Mixed Models Analysis|||Analysis used all available data from subjects, including those who dropped out early.||||0.17
92449735|NCT01071512|184786497|OTHER|||||||0.6|||||||Mixed Models Analysis|||Analysis used all available data||||0.6
92449736|NCT01071512|184786498|OTHER|||||||0.3|||||||Mixed Models Analysis|||Analysis used all available data||||0.3
92449737|NCT01071512|184786499|OTHER|||||||0.02|||||||Mixed Models Analysis|||Analysis used all available data||||0.02
92449738|NCT01071512|184786500|OTHER|||||||0.9|||||||Mixed Models Analysis|||Analysis used all available data||||0.9
92449739|NCT00508742|184786510|SUPERIORITY_OR_OTHER||Rate Ratio|0.56|||||TWO_SIDED|95.0|0.47|0.65||||||||0.65|0.47|
92449740|NCT00508742|184786511|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.5|0.9||||||Month 7: 13vPnC/7vPnC, odds ratio was calculated using a logistic regression model with treatment group as the independent variable.||0.9|0.5|
92449741|NCT00508742|184786511|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.4|0.7||||||Month 12: 13vPnC/7vPnC, odds ratio was calculated using a logistic regression model with treatment group as the independent variable.||0.7|0.4|
92449742|NCT00508742|184786511|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|||||TWO_SIDED|95.0|0.3|0.5||||||Month 13: 13vPnC/7vPnC, odds ratio was calculated using a logistic regression model with treatment group as the independent variable.||0.5|0.3|
92449743|NCT00508742|184786511|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.4|0.7||||||Month 18: 13vPnC/7vPnC, odds ratio was calculated using a logistic regression model with treatment group as the independent variable.||0.7|0.4|
92182285|NCT05785832|184263446|SUPERIORITY||Mean Difference (Net)|-0.6|||<|0.001|TWO_SIDED|95.0|-0.8|-0.4|||Regression, Linear|||Adjusted Difference Between Groups||-0.4|-0.8|<0.001
92182286|NCT05785832|184263447|SUPERIORITY||Mean Difference (Net)|14.0|||<|0.001|TWO_SIDED|95.0|11.0|17.0|||Regression, Linear|||Adjusted Difference Between Groups||17|11|<0.001
92449744|NCT00508742|184786511|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.4|0.8||||||Month 24: 13vPnC/7vPnC, odds ratio was calculated using a logistic regression model with treatment group as the independent variable.||0.8|0.4|
92449745|NCT00594256|184786533|SUPERIORITY_OR_OTHER||||||=|0.002||95.0|||||t-test, 2 sided|||Open label baseline final paired t test||||=0.002
92449746|NCT00594256|184786534|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||Open label baseline final paired t test||||0.02
92449747|NCT00594256|184786535|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||t-test, 2 sided|||Open label baseline final paired t test||||0.04
92449748|NCT00594256|184786536|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||t-test, 2 sided|||Open label baseline final paired t test||||0.8
92449749|NCT00594256|184786537|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 1 sided|||Open label baseline final paired t test||||<0.01
92449750|NCT00853658|184786538|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.1724|TWO_SIDED|95.0|0.85|1.03|||Regression, Cox|||(superiority)||1.03|0.85|0.1724
92449751|NCT00853658|184786538|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.4579|TWO_SIDED|95.0|0.85|1.07|||Regression, Cox|||(superiority) Non-Diabetic patients||1.07|0.85|0.4579
92172457|NCT03526861|184235440|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-9.4|||<|0.001|TWO_SIDED|95.0|-13.6|-5.3||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-5.3|-13.6|<0.001
92172458|NCT03526861|184235441|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|11.5||||0.002|TWO_SIDED|95.0|4.5|18.4||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 75% reduction in SCORAD at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||18.4|4.5|0.002
92172459|NCT03526861|184235441|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|15.6|||<|0.001|TWO_SIDED|95.0|7.8|23.3||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 75% reduction in SCORAD at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||23.3|7.8|<0.001
92449752|NCT00853658|184786538|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified Non-inferiority margin 1.104 is used.|Hazard Ratio (HR)|0.99||||0.0368|TWO_SIDED|95.0|0.9|1.1|||Regression, Cox|||||1.10|0.90|0.0368
92449753|NCT00853658|184786538|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.9118|TWO_SIDED|95.0|0.9|1.1|||Regression, Cox|||(superiority)||1.10|0.90|0.9118
92449754|NCT02797262|184786542|SUPERIORITY||Mean Difference (Net)|0.02||||0.57|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)||Treatment Difference = Intervention - Control|Compared the IPAM score between two groups.||||0.57
92449755|NCT02797262|184786544|SUPERIORITY||Mean Difference (Net)|-0.02||||0.08|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Treatment Difference = Intervention - Control|Compared the change of the plasma HIV RNA levels during the intervention period (week 0-16) between two groups.||||0.08
92449756|NCT02797262|184786544|SUPERIORITY||Mean Difference (Net)|-0.02||||0.23|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Treatment Difference = Intervention - Control|Compared the change of the plasma HIV RNA levels during the post-intervention period (week 16-28) between two groups.||||0.23
92449757|NCT02797262|184786544|SUPERIORITY||Mean Difference (Net)|-0.73||||0.03|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Treatment Difference = Intervention - Control|Compared the plasma HIV RNA levels during week 4-28 between two groups.||||0.03
92449758|NCT01404312|184786552|NON_INFERIORITY|"Non-inferiority margin: 1.25 events per 100 person-years.~Sample size determination was based on the assumption of a primary endpoint rate of 2.0/100 person-years, with a one-sided 0.025 alpha level, and targeting at least 90% power. This required a sample size of approximately 2500. The sample size was adjusted upwards to account for loss to follow-up, interim monitoring, and to allow for subgroup analyses with reasonable power."|Incidence Rate Difference|-0.0231|||||TWO_SIDED|95.1|-0.346|0.3|||||"Estimate given as Incidence rate in Arm A - Incidence Rate in Arm B (negative favors Arm A).~Incidence rate units: Events per 100 person-years"|Mantel-Haenszel method used for estimating standardized incidence rate in each arm and incidence rate difference.||0.300|-0.346|
92449759|NCT01404312|184786553|SUPERIORITY||Risk Difference (RD)|-0.016||||0.073|TWO_SIDED|95.0|-0.035|0.002||Not adjusted for multiple comparisons.|Fisher Exact||Estimate given as: Proportion Arm A - Proportion Arm B|"Comparison of the proportion of participants with any SAE occurrence between arms A and B.~H0: Proportion of participants with SAE in Arm A = Proportion of participants with SAE in Arm B."||0.002|-0.035|0.073
92449760|NCT01404312|184786554|SUPERIORITY||Risk Difference (RD)|-0.0058||||0.405|TWO_SIDED|95.0|-0.019|0.007||Not adjusted for multiple comparisons|Fisher Exact||Estimate given as: Proportion Arm A - Proportion Arm B|"Comparison of the proportion of participants with any targeted adverse event occurrence between arms A and B.~H0: Proportion of participants with a targeted adverse event in Arm A = Proportion of participants with a targeted adverse event in Arm B."||0.007|-0.019|0.405
92449761|NCT01404312|184786555|SUPERIORITY||Odds Ratio (OR)|2.093|||||TWO_SIDED|95.0|1.315|3.332|||||"Estimate given as: Odds of being in higher category (more stringent management due to toxicity) for Arm B compared with arm A~Not adjusted for multiple comparisons."|"Odds ratio of being in higher category estimated from proportional odds model~H0: Odds ratio of being in higher category for Arm A vs Arm B = 1"||3.332|1.315|
92449762|NCT01404312|184786556|SUPERIORITY|||||||0.3078||||||Not adjusted for multiple comparisons|Log Rank|||H0: Survival curve Arm A = Survival curve Arm B||||0.3078
92449763|NCT01404312|184786557|SUPERIORITY||Hazard Ratio (HR)|1.396||||0.2802|TWO_SIDED|95.0|0.762|2.559||Not adjusted for multiple comparisons|Hazard Ratio||Hazard ratio given as: Arm B hazard / Arm A hazard, i.e. HR \> 1 favors arm A|"Competing risk analysis using the Fine-Gray model, treating TB-related deaths as competing risks, and other deaths including deaths of unknown cause as the event of interest.~H0: Hazard Ratio for Arm A vs Arm B = 1"||2.559|0.762|0.2802
92449764|NCT02451748|184786575|EQUIVALENCE|ANOVA||||||0.5378||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7 was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the first and second visit is as follows.||||0.5378
92449765|NCT02451748|184786575|EQUIVALENCE|ANOVA||||||0.919||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7 was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the first and third visit is as follows.||||0.919
92449766|NCT02451748|184786575|EQUIVALENCE|ANOVA||||||0.4255||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7 was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the second and third visit is as follows.||||0.4255
92172460|NCT03526861|184235442|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|26.2|||<|0.001|TWO_SIDED|95.0|16.1|36.3||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 50% reduction in SCORAD at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||36.3|16.1|<0.001
92172461|NCT03526861|184235442|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|25.5|||<|0.001|TWO_SIDED|95.0|15.3|35.7||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 50% reduction in SCORAD at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||35.7|15.3|<0.001
92240908|NCT02749721|184385156|OTHER||F statistic|8.573||||0.005|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3b latencies at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.005
92449767|NCT02451748|184786575|EQUIVALENCE|ANOVA||||||0.1037||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7R was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the first and second visit is as follows.||||0.1037
92240909|NCT02749721|184385156|OTHER||F statistic|2.823||||0.101|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3b latencies at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.101
92240910|NCT02749721|184385156|OTHER||F statistic|0.806||||0.373|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P200 latencies at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.373
92449768|NCT02451748|184786575|EQUIVALENCE|ANOVA||||||0.0008||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7R was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the first and third visit is as follows.||||0.0008
92172462|NCT03526861|184235443|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-1.5|||<|0.001|TWO_SIDED|95.0|-2.4|-0.6||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-0.6|-2.4|<0.001
92172463|NCT03526861|184235443|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-1.2||||0.007|TWO_SIDED|95.0|-2.1|-0.3||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-0.3|-2.1|0.007
92172464|NCT03526861|184235444|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|20.3|||<|0.001|TWO_SIDED|95.0|9.7|31.0||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects with at least 3-point reduction in Adolescent Worst Pruritus NRS were considered responders. Subjects with missing data or who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||31.0|9.7|<0.001
92172465|NCT03526861|184235444|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|21.8|||<|0.001|TWO_SIDED|95.0|10.9|32.7||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects with at least 3-point reduction in Adolescent Worst Pruritus NRS were considered responders. Subjects with missing data or who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||32.7|10.9|<0.001
92172466|NCT03526861|184235445|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-6.0|||<|0.001|TWO_SIDED|95.0|-8.4|-3.6||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-3.6|-8.4|<0.001
92172467|NCT03526861|184235445|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-5.4|||<|0.001|TWO_SIDED|95.0|-7.9|-3.0||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-3.0|-7.9|<0.001
92172468|NCT05285618|184235483|OTHER|A linear mixed model accounted for repeated measures ('subject\_id' as a random factor). No power calculation was performed, but the sample size (1,485 observations, 6 subjects) supports robust estimation.||||||0.002||||||P-values are unadjusted for multiple comparisons, as the analysis focused on a limited number of predictors. The a priori threshold for statistical significance was set at p\<0.05.|Mixed Models Analysis|||The model tested whether stimulation delay ('abs\_delay'), retinal distance ('dist\_ret'), and their interaction ('abs\_delay:dist\_ret') affect the number of elicited phosphenes ('num\_phosphenes').|We hypothesize that the parameter 'dist\_ret' may influence the number of phosphenes perceived ('num\_phosphenes'), while the roles of 'abs\_delay' and its interaction with 'dist\_ret' may be less pronounced. Further evaluation of these parameters will be conducted in the Results section|||0.002
92172469|NCT04556656|184235490|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.162||0.167|TWO_SIDED|95.0|-0.54|0.09|||Mixed Models Analysis|||In the mixed model for repeated measures (MMRM), change from baseline in TFC score was the dependent variable, and independent variables included treatment arm, baseline TFC, region, neuroleptic use or no use, baseline HD stage (HD1 and HD2), categorical week, and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. The unstructured covariance matrix was used for repeated measurements at patient level.||0.09|-0.54|0.1670
92182287|NCT05785832|184263448|SUPERIORITY||Mean Difference (Net)|-21.0|||<|0.001|TWO_SIDED|95.0|-26.0|-15.0|||Regression, Linear|||Adjusted Difference Between Groups||-15|-26|<0.001
92449769|NCT02451748|184786575|EQUIVALENCE|ANOVA||||||0.0001||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7R was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the second and third visit is as follows.||||0.0001
92449770|NCT00673049|184786605|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.091||||0.35|TWO_SIDED|95.0|0.909|1.31||One-sided significance level at alpha=0.024 was used. Two-sided p-value was reported.|Log Rank|Nominal p-values were reported without adjustment for the interim analysis.||P-value was calculated using log-rank test stratified by gender (Male or Female), Eastern Cooperative Oncology Group (ECOG) performance status (less than or equal to \[=\<1\] or 2), and region (United States/Canada, European Union, rest of world). The stratified Cox proportional hazards model was fitted to estimate the hazard ratio, using the same stratification variables as above.||1.310|0.909|0.35
92182288|NCT05785832|184263449|SUPERIORITY||Mean Difference (Net)|-14.0|||<|0.001|TWO_SIDED|95.0|-17.0|-11.0|||Regression, Linear|||Adjusted Difference Between Groups||-11|-17|<0.001
92182289|NCT05785832|184263450|SUPERIORITY||Mean Difference (Net)|-9.1|||<|0.001|TWO_SIDED|95.0|-11.7|-6.6|||Regression, Linear|||Adjusted Difference Between Groups||-6.6|-11.7|<0.001
92182290|NCT05785832|184263451|SUPERIORITY||Mean Difference (Net)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.0|-0.4|||Regression, Linear|||Adjusted Difference Between Groups||-0.4|-1.0|<0.001
92172470|NCT04556656|184235491|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.162||0.1598|TWO_SIDED|95.0|-0.55|0.09|||Mixed Models Analysis|||In the mixed model for repeated measures (MMRM), change from baseline in TFC score was the dependent variable, and independent variables included treatment arm, baseline TFC, region, neuroleptic use or no use, baseline HD stage (HD1 and HD2), categorical week, and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. The unstructured covariance matrix was used for repeated measurements at patient level.||0.09|-0.55|0.1598
92172471|NCT04556656|184235492|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.148||0.4544|TWO_SIDED|95.0|-0.4|0.18|||Mixed Models Analysis|||In the MMRM, change in cUHDRS score from baseline was the dependent variable, while independent variables included treatment arm, baseline cUHDRS, region, neuroleptic use or no use, baseline HD stage (HD1 and HD2), categorical week, and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. The unstructured covariance matrix was used for repeated measurements at patient level. No imputation was performed on missing data.||0.18|-0.4|0.4544
92172472|NCT04556656|184235493|SUPERIORITY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.156||0.0038|TWO_SIDED|95.0|0.15|0.76|||Mixed Models Analysis|||"From baseline to Week 26.~In the MMRM model, change in cUHDRS score from baseline was the dependent variable and independent variables included treatment group, baseline cUHDRS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, concomitant use of select medications and Treatment x Concomitant use of select medications, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data."||0.76|0.15|0.0038
92172473|NCT04556656|184235493|SUPERIORITY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.179||0.0135|TWO_SIDED|95.0|0.09|0.8|||Mixed Models Analysis|||From baseline to Week 39||0.80|0.09|0.0135
92172474|NCT04556656|184235493|SUPERIORITY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.193||0.0351|TWO_SIDED|95.0|0.03|0.79|||Mixed Models Analysis|||From baseline to Week 52||0.79|0.03|0.0351
92172475|NCT04556656|184235493|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.197||0.1683|TWO_SIDED|95.0|-0.12|0.66|||Mixed Models Analysis|||From baseline to Week 65.||0.66|-0.12|0.1683
92172476|NCT04556656|184235493|SUPERIORITY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.223||0.5315|TWO_SIDED|95.0|-0.3|0.58|||Mixed Models Analysis|||From baseline to Week 78||0.58|-0.30|0.5315
92172477|NCT04556656|184235494|SUPERIORITY||Mean Difference (Final Values)|-21.15|STANDARD_ERROR_OF_MEAN|9.406||0.0253|TWO_SIDED|95.0|-39.66|-2.64|||Mixed Models Analysis||Negative change = improvement.|From baseline to Week 26. In the MMRM model, change in Q-Motor Finger Tapping IOI Mean from baseline was the dependent variable and independent variables included treatment group, baseline Finger Tapping IOI Mean, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, concomitant use of select medications and Treatment x Concomitant use of select medications, with Kenward-Roger approximation for degrees of freedom. No imputation was performed.||-2.64|-39.66|0.0253
92172478|NCT04556656|184235494|SUPERIORITY||Mean Difference (Final Values)|-14.31|STANDARD_ERROR_OF_MEAN|9.853||0.1474|TWO_SIDED|95.0|-33.71|5.08|||Mixed Models Analysis|||From baseline to Week 52.||5.08|-33.71|0.1474
92172479|NCT04556656|184235494|SUPERIORITY||Mean Difference (Final Values)|-24.71|STANDARD_ERROR_OF_MEAN|10.185||0.0159|TWO_SIDED|95.0|-44.76|-4.67|||Mixed Models Analysis|||From baseline to Week 65.||-4.67|-44.76|0.0159
92172480|NCT04556656|184235494|SUPERIORITY||Mean Difference (Final Values)|-22.9|STANDARD_ERROR_OF_MEAN|10.38||0.0283|TWO_SIDED|95.0|-43.34|-2.45|||Mixed Models Analysis|||From baseline to Week 78.||-2.45|-43.34|0.0283
92172481|NCT04556656|184235495|SUPERIORITY||Mean Difference (Final Values)|-38.06|STANDARD_ERROR_OF_MEAN|10.999||0.0007|TWO_SIDED|95.0|-59.74|-16.37|||Mixed Models Analysis|||From baseline to Week 26. In MMRM model, change in Q-Motor Pronation/Supination ITI Mean from baseline was the dependent variable and independent variables included treatment group, baseline Q-Motor Pronation/Supination ITI Mean, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||-16.37|-59.74|0.0007
92172482|NCT04556656|184235495|SUPERIORITY||Mean Difference (Final Values)|-20.21|STANDARD_ERROR_OF_MEAN|12.547||0.1087|TWO_SIDED|95.0|-44.95|4.53|||Mixed Models Analysis|||From baseline to Week 52.||4.53|-44.95|0.1087
92172483|NCT04556656|184235495|SUPERIORITY||Mean Difference (Final Values)|-23.92|STANDARD_ERROR_OF_MEAN|11.541||0.0395|TWO_SIDED|95.0|-46.68|-1.16|||Mixed Models Analysis|||From baseline to Week 65.||-1.16|-46.68|0.0395
92172484|NCT04556656|184235495|SUPERIORITY||Mean Difference (Final Values)|-22.23|STANDARD_ERROR_OF_MEAN|13.587||0.1038|TWO_SIDED|95.0|-49.08|4.61|||Mixed Models Analysis|||From baseline to Week 78.||4.61|-49.08|0.1038
92172485|NCT04556656|184235496|SUPERIORITY||Mean Difference (Final Values)|-30.38|STANDARD_ERROR_OF_MEAN|12.902||0.0193|TWO_SIDED|95.0|-55.78|-4.98|||Mixed Models Analysis|||From baseline to Week 26. In the MMRM model, change in Pronation/Supination IOI Mean from BL was the dependent variable and independent variables included treatment group, BL Pronation/Supination IOI Mean, region, categorical week, baseline HD stage (HD1 and HD2), treatment by categorical week interaction, conc. use of select medications and Treatment x Concomitant use of select medications, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||-4.98|-55.78|0.0193
92172486|NCT04556656|184235496|SUPERIORITY||Mean Difference (Final Values)|-16.84|STANDARD_ERROR_OF_MEAN|15.17||0.268|TWO_SIDED|95.0|-46.69|13.02|||Mixed Models Analysis|||From baseline to Week 52.||13.02|-46.69|0.2680
92172487|NCT04556656|184235496|SUPERIORITY||Mean Difference (Final Values)|-22.79|STANDARD_ERROR_OF_MEAN|14.829||0.1255|TWO_SIDED|95.0|-51.97|6.4|||Mixed Models Analysis|||From baseline to Week 65.||6.4|-51.97|0.1255
92172488|NCT04556656|184235496|SUPERIORITY||Mean Difference (Final Values)|-22.72|STANDARD_ERROR_OF_MEAN|17.777||0.2024|TWO_SIDED|95.0|-57.72|12.28|||Mixed Models Analysis|||From baseline to Week 78.||12.28|-57.72|0.2024
92240911|NCT02749721|184385156|OTHER||F statistic|1.822||||0.183|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P200 latencies at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.183
92449771|NCT00673049|184786606|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.075||||0.426|TWO_SIDED|95.0|0.898|1.287||One-sided significance level at alpha=0.001 was used. Two-sided p-value was reported.|Log Rank|||P-value was calculated using log-rank test stratified by gender (Male or Female), ECOG performance status (less than or equal to \[=\<1\] or 2), and region (United States/Canada, European Union, rest of world). The stratified Cox proportional hazards model was fitted to estimate the hazard ratio, using the same stratification variables as above.||1.287|0.898|0.426
92240912|NCT02749721|184385156|OTHER||F statistic|0.516||||0.475|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P3a latencies at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.475
92240913|NCT02749721|184385156|OTHER||F statistic|0.214||||0.645|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P3a latencies at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.645
92280753|NCT00571428|184464568|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was defined a priori such that 90%CI for the difference between therapies had to fall entirely within +/- 0.07L.|Mean Difference (Final Values)|0.052||||||90.0|0.015|0.09|||Mixed Models Analysis|Treatment group, treatment sequence, pre-dose FEV1, \& Visit number are fixed effects; subject within treatment sequence is a random effect||||0.090|0.015|
92449772|NCT00673049|184786607|SUPERIORITY_OR_OTHER||Difference in response rates|1.668||||0.338|TWO_SIDED|95.0|-1.7|5.1|||Chi-squared|||||5.1|-1.7|0.338
92449773|NCT01863446|184786632|SUPERIORITY|Unpaired t-test comparing Lighting 1 and Lighting2||||||0.334|||||||t-test, 2 sided|||||||0.334
92449774|NCT01863446|184786632|SUPERIORITY|Unpaired t-test comparing Lighting3 vs Lighting 4||||||0.423|||||||t-test, 2 sided|||||||0.423
92449775|NCT01863446|184786633|SUPERIORITY|Unpaired t-test of Lighting1 vs Lighting2||||||0.78|||||||t-test, 2 sided|||||||0.780
92449776|NCT01863446|184786633|SUPERIORITY|Unpaired t-test of Lighting3 vs Lighting4||||||0.791|||||||t-test, 2 sided|||||||0.791
92240914|NCT02749721|184385157|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
92240915|NCT02749721|184385158|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
92449777|NCT01863446|184786634|SUPERIORITY|Unpaired t-test||||||0.883|||||||t-test, 2 sided|||||||0.883
92449778|NCT01863446|184786634|SUPERIORITY|Unpaired t-test||||||0.271|||||||t-test, 2 sided|||||||0.271
92449779|NCT02652780|184786667|SUPERIORITY||Mean Difference (Net)|-0.008||||0.8783|TWO_SIDED|95.0|-0.119|0.102|||ANCOVA|||A mixed model of analysis of covariance (ANCOVA) was used with change from baseline at Week 48 as the response, and participants, eyes of the participant as random factor, treatment and baseline LogMAR value as covariates in the model. P-value is used to assess the significance of the difference between All-GS010 and All-Sham with respect to change of LogMAR from baseline.||0.102|-0.119|0.8783
92449780|NCT04177693|184786688|SUPERIORITY|||||||0.112|||||||Kruskal-Wallis|||||||0.112
92449781|NCT04177693|184786689|SUPERIORITY|||||||0.613|||||||Kruskal-Wallis|||||||0.613
92449782|NCT04177693|184786690|SUPERIORITY|||||||0.202|||||||Kruskal-Wallis|||||||0.202
92449783|NCT04177693|184786691|SUPERIORITY|||||||0.508|||||||Kruskal-Wallis|||||||0.508
92449784|NCT04177693|184786692|SUPERIORITY|||||||0.237|||||||Kruskal-Wallis|||||||0.237
92449785|NCT04177693|184786693|SUPERIORITY|||||||0.327|||||||Kruskal-Wallis|||||||0.327
92240916|NCT02749721|184385159|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
92240917|NCT02749721|184385160|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
92280754|NCT00386009|184464574|SUPERIORITY_OR_OTHER|||||||0.068||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.068
92449786|NCT04177693|184786694|SUPERIORITY|||||||0.633|||||||Kruskal-Wallis|||||||0.633
92449787|NCT04177693|184786695|SUPERIORITY|||||||0.146|||||||Kruskal-Wallis|||||||0.146
92449788|NCT04177693|184786696|SUPERIORITY|||||||0.372|||||||t-test, 2 sided|||||||0.372
92449789|NCT04177693|184786697|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
92449790|NCT04177693|184786698|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
92240918|NCT02749721|184385161|OTHER||Pearson's R|-0.044||||0.859|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and HDRS-28 baseline scores||||0.859
92172489|NCT04556656|184235497|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.179||0.2088|TWO_SIDED|95.0|-0.13|0.58|||Mixed Models Analysis|||"From baseline to Week 26.~In the MMRM model, change in UHDRS-TFC score from baseline was the dependent variable and independent variables included treatment group, Baseline UHDRS-TFC, region, categorical week, Baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, concomitant use of select medications and Treatment x Concomitant use of select medications, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data."||0.58|-0.13|0.2088
92172490|NCT04556656|184235497|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.188||0.2991|TWO_SIDED|95.0|-0.17|0.57|||Mixed Models Analysis|||From baseline to Week 39.||0.57|-0.17|0.2991
92172491|NCT04556656|184235497|SUPERIORITY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.205||0.2116|TWO_SIDED|95.0|-0.15|0.66|||Mixed Models Analysis|||From baseline to Week 52.||0.66|-0.15|0.2116
92240919|NCT02749721|184385161|OTHER||Pearson's R|-0.211||||0.451|TWO_SIDED||||||Pearson's correlation|||AOB P3a (amplitude)||||0.451
92172492|NCT04556656|184235497|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.215||0.8242|TWO_SIDED|95.0|-0.38|0.47|||Mixed Models Analysis|||From baseline to Week 65.||0.47|-0.38|0.8242
92172493|NCT04556656|184235497|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.231||0.5918|TWO_SIDED|95.0|-0.33|0.58|||Mixed Models Analysis|||From baseline to Week 78.||0.58|-0.33|0.5918
92280755|NCT00386009|184464575|SUPERIORITY_OR_OTHER|||||||0.626||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.626
92172494|NCT04556656|184235498|SUPERIORITY||Mean Difference (Final Values)|3.16|STANDARD_ERROR_OF_MEAN|1.326||0.0178|TWO_SIDED|95.0|0.55|5.77|||Mixed Models Analysis|||From baseline to Week 26. In the MMRM model, change in SWR score from baseline was the dependent variable and independent variables included treatment group, baseline SWR, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, concomitant use of select medications and Treatment x Concomitant use of select medications, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||5.77|0.55|0.0178
92172495|NCT04556656|184235498|SUPERIORITY||Mean Difference (Final Values)|2.89|STANDARD_ERROR_OF_MEAN|1.518||0.0576|TWO_SIDED|95.0|-0.09|5.88|||Mixed Models Analysis|||From baseline to Week 39.||5.88|-0.09|0.0576
92280756|NCT00386009|184464576|SUPERIORITY_OR_OTHER|||||||0.113||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.113
92449791|NCT03224468|184786699|SUPERIORITY|Power was determined to be 85.2% using a Monte Carlo simulation approach in which data were simulated from a multi-level linear regression model with a subject-varying random intercept, a shared baseline across WLC and MMC, and fixed effects for a change over each time point. Simulated data were fit with a linear model estimated via GEE - simulations were repeated 1000 times and power was estimated as the proportion where the contrast between WLC and MM had p\<0.05.|Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.15|0.4||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the five primary outcome measures. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|Estimate is the mean difference in number of symptoms for MM above and beyond WLC (positive values denote higher number of symptoms for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's number of symptoms at baseline.||0.40|0.15|<0.001
92172496|NCT04556656|184235498|SUPERIORITY||Mean Difference (Final Values)|3.05|STANDARD_ERROR_OF_MEAN|1.493||0.0418|TWO_SIDED|95.0|0.11|5.99|||Mixed Models Analysis|||From baseline to Week 52.||5.99|0.11|0.0418
92172497|NCT04556656|184235498|SUPERIORITY||Mean Difference (Final Values)|2.32|STANDARD_ERROR_OF_MEAN|1.719||0.1775|TWO_SIDED|95.0|-1.06|5.71|||Mixed Models Analysis|||From baseline to Week 65.||5.71|-1.06|0.1775
92172498|NCT04556656|184235498|SUPERIORITY||Mean Difference (Final Values)|1.99|STANDARD_ERROR_OF_MEAN|1.772||0.2627|TWO_SIDED|95.0|-1.5|5.48|||Mixed Models Analysis|||From baseline to Week 78.||5.48|-1.50|0.2627
92240920|NCT02749721|184385161|OTHER||Pearson's R|0.015||||0.957|TWO_SIDED||||||Pearson's correlation|||AOB P3b (amplitude)||||0.957
92240921|NCT02749721|184385161|OTHER||Pearson's R|-0.322||||0.166|TWO_SIDED||||||Pearson's correlation|||VGNG P200 (amplitude)||||0.166
92240922|NCT02749721|184385161|OTHER||Pearson's R|-0.374||||0.105|TWO_SIDED||||||Pearson's correlation|||VGNG P3a (amplitude)||||0.105
92240923|NCT02749721|184385161|OTHER||Pearson's R|-0.137||||0.601|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and HDRS-28 baseline to endpoint percent change||||0.601
92280757|NCT00386009|184464577|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.837
92280758|NCT00386009|184464578|SUPERIORITY_OR_OTHER|||||||0.4||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.400
92280759|NCT00386009|184464579|SUPERIORITY_OR_OTHER|||||||0.864||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.864
92280760|NCT00386009|184464580|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.340
92240924|NCT02749721|184385161|OTHER||Pearson's R|-0.234||||0.421|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and HDRS-28 baseline to endpoint percent change||||0.421
92240925|NCT02749721|184385161|OTHER||Pearson's R|0.378||||0.316|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and HDRS-28 baseline to endpoint percent change||||0.316
92240926|NCT02749721|184385161|OTHER||Pearson's R|0.185||||0.478|TWO_SIDED||||||Pearson's correlation|||||||0.478
92240927|NCT02749721|184385161|OTHER||Pearson's R|0.011||||0.969|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and HDRS-28 baseline to endpoint percent change||||0.969
92240928|NCT02749721|184385161|OTHER||Pearson's R|-0.018||||0.943|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and HDRS-17 baseline scores||||0.943
92240929|NCT02749721|184385161|OTHER||Pearson's R|-0.074||||0.795|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and HDRS-17 baseline scores||||0.795
92449792|NCT03224468|184786700|SUPERIORITY|Power was determined to be 83.6% using a Monte Carlo simulation approach in which data were simulated from a multi-level linear regression model with a subject-varying random intercept, a shared baseline across WLC and MMC, and fixed effects for a change over each time point. Simulated data were fit with a linear model estimated via GEE - simulations were repeated 1000 times and power was estimated as the proportion where the contrast between WLC and MM had p\<0.05.|Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.45||0.5|TWO_SIDED|95.0|-1.4|0.4||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the five primary outcome measures. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|Estimate is the mean difference in scale score for MM above and beyond WLC (positive values denote higher score for MM).|The mean difference in scale scores between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's scale scores at baseline.||0.4|-1.4|0.50
92449793|NCT03224468|184786701|SUPERIORITY|Power was determined to be 84.3% using a Monte Carlo simulation approach in which data were simulated from a multi-level linear regression model with a subject-varying random intercept, a shared baseline across WLC and MMC, and fixed effects for a change over each time point. Simulated data were fit with a linear model estimated via GEE - simulations were repeated 1000 times and power was estimated as the proportion where the contrast between WLC and MM had p\<0.05.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.5||0.9|TWO_SIDED|95.0|-0.3|0.24||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the five primary outcome measures. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|Estimate is the mean difference in number of symptoms for MM above and beyond WLC (positive values denote higher number of symptoms for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's number of symptoms at baseline.||0.24|-0.30|0.90
92172499|NCT04556656|184235499|SUPERIORITY||Mean Difference (Final Values)|1.01|STANDARD_ERROR_OF_MEAN|0.712||0.1586|TWO_SIDED|95.0|-0.4|2.41|||Mixed Models Analysis|||From baseline to Week 26. In the MMRM model, change in SDMT score from baseline was the dependent variable and independent variables included treatment group, baseline SDMT, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||2.41|-0.4|0.1586
92172500|NCT04556656|184235499|SUPERIORITY||Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|0.701||0.2144|TWO_SIDED|95.0|-0.51|2.25|||Mixed Models Analysis|||From baseline to Week 39. In the MMRM model, change in SDMT score from baseline was the dependent variable and independent variables included treatment group, baseline SDMT, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||2.25|-0.51|0.2144
92240930|NCT02749721|184385161|OTHER||Pearson's R|-0.011||||0.969|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and HDRS-17 baseline scores||||0.969
92240931|NCT02749721|184385161|OTHER||Pearson's R|-0.197||||0.406|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and HDRS-17 baseline scores||||0.406
92240932|NCT02749721|184385161|OTHER||Pearson's R|-0.309||||0.185|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and HDRS-17 baseline scores||||0.185
92172501|NCT04556656|184235499|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.793||0.9119|TWO_SIDED|95.0|-1.65|1.48|||Mixed Models Analysis|||From baseline to Week 52. In the MMRM model, change in SDMT score from baseline was the dependent variable and independent variables included treatment group, baseline SDMT, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.48|-1.65|0.9119
92240933|NCT02749721|184385161|OTHER||Pearson's R|-0.195||||0.454|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and HDRS-17 baseline to endpoint percent change||||0.454
92240934|NCT02749721|184385161|OTHER||Pearson's R|-0.162||||0.579|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and HDRS-17 baseline to endpoint percent change||||0.579
92240935|NCT02749721|184385161|OTHER||Pearson's R|0.232||||0.549|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and HDRS-17 baseline to endpoint percent change||||0.549
92240936|NCT02749721|184385161|OTHER||Pearson's R|0.169||||0.518|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and HDRS-17 baseline to endpoint percent change||||0.518
92240937|NCT02749721|184385161|OTHER||Pearson's R|0.027||||0.922|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and HDRS-17 baseline to endpoint percent change||||0.922
92172502|NCT04556656|184235499|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.844||0.7339|TWO_SIDED|95.0|-1.38|1.95|||Mixed Models Analysis|||From baseline to Week 65. In the MMRM model, change in SDMT score from baseline was the dependent variable and independent variables included treatment group, baseline SDMT, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.95|-1.38|0.7339
92449794|NCT03224468|184786702|SUPERIORITY|Power was determined to be 83.6% using a Monte Carlo simulation approach in which data were simulated from a multi-level linear regression model with a subject-varying random intercept, a shared baseline across WLC and MMC, and fixed effects for a change over each time point. Simulated data were fit with a linear model estimated via GEE - simulations were repeated 1000 times and power was estimated as the proportion where the contrast between WLC and MM had p\<0.05.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.5||0.93|TWO_SIDED|95.0|-0.38|0.39||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the five primary outcome measures. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|Estimate is the mean difference in number of symptoms for MM above and beyond WLC (positive values denote higher number of symptoms for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's number of symptoms at baseline.||0.39|-0.38|0.93
92449795|NCT03224468|184786703|SUPERIORITY|Power was determined to be 90.4% using a Monte Carlo simulation approach in which data were simulated from a multi-level linear regression model with a subject-varying random intercept, a shared baseline across WLC and MMC, and fixed effects for a change over each time point. Simulated data were fit with a linear model estimated via GEE - simulations were repeated 1000 times and power was estimated as the proportion where the contrast between WLC and MM had p\<0.05.|Mean Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-1.3|-0.43||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the five primary outcome measures. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|Estimate is the mean difference in number of symptoms for MM above and beyond WLC (positive values denote higher number of symptoms for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's number of symptoms at baseline.||-0.43|-1.30|<0.001
92449796|NCT03224468|184786704|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-1.0|2.5|||||Estimate is the mean difference in number of symptoms for MM above and beyond WLC (positive values denote higher number of symptoms for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's score at baseline.||2.5|-1.0|
92449797|NCT03224468|184786706|SUPERIORITY||Mean Difference (Net)|-7.7|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-19.0|3.5|||||Estimate is the mean difference in the congruency cost on response time for MM above and beyond WLC (positive values indicate higher cost for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||3.5|-19.0|
92449798|NCT03224468|184786707|SUPERIORITY||Mean Difference (Net)|-24.1|STANDARD_ERROR_OF_MEAN|11.2|||TWO_SIDED|95.0|-45.9|-2.2|||||Estimate is the mean difference in the switching cost on response time for MM above and beyond WLC (positive values indicate higher cost for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||-2.2|-45.9|
92449799|NCT03224468|184786708|SUPERIORITY||Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.005|||TWO_SIDED|95.0|-0.007|0.011|||||Estimate is the mean difference in discriminability for MM above and beyond WLC (positive values indicate better ability to identify target items for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||0.011|-0.007|
92449800|NCT03224468|184786709|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-1.8|1.7|||||Estimate is the mean difference in number of total errors for MM above and beyond WLC (positive values indicate greater number of errors for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||1.7|-1.8|
92449801|NCT03224468|184786710|SUPERIORITY||Mean Difference (Net)|-3.6|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-7.4|0.3|||||Estimate is the mean difference in number of repetition errors for MM above and beyond WLC (positive values indicate greater number of errors for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||0.3|-7.4|
92449802|NCT03224468|184786711|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.2|0.1|||||Estimate is the mean difference in discriminability for MM above and beyond WLC (positive values indicate a greater ability to recognize previously studied words for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||0.1|-0.2|
92240938|NCT02749721|184385161|OTHER||Pearson's R|-0.064||||0.796|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and QIDS-SR baseline scores||||0.796
92449803|NCT03224468|184786712|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.2|1.0|||||Estimate is the mean difference in number recalled for MM above and beyond WLC (positive values indicate a greater ability to recall previously studied words for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||1.0|-0.2|
92449804|NCT04713748|184786714|OTHER||||||<|0.0001|||||||Interclass correlation coefficient|||||||<0.0001
92449805|NCT00406029|184786718|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.753|TWO_SIDED|95.0|-0.9|1.2||The alpha threshold for statistical significance is 0.049 (2-sided).|ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.9|0.753
92449806|NCT00406029|184786718|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.162|TWO_SIDED|95.0|-1.7|0.3||The alpha threshold for statistical significance is 0.049 (2-sided).|ANCOVA|||LS means treatment difference in change from baseline at endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-1.7|0.162
92449807|NCT00406029|184786718|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.049|TWO_SIDED|95.0|-2.1|0.0||The alpha threshold for statistical significance is 0.049 (2-sided).|ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-2.1|0.049
92449808|NCT00406029|184786718|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.2||||0.019|TWO_SIDED|95.0|-2.2|-0.2||The alpha threshold for statistical significance is 0.049 (2-sided).|ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.2|-2.2|0.019
92172503|NCT04556656|184235499|SUPERIORITY||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.859||0.6213|TWO_SIDED|95.0|-1.27|2.12|||Mixed Models Analysis|||From baseline to Week 78. In the MMRM model, change in SDMT score from baseline was the dependent variable and independent variables included treatment group, baseline SDMT, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||2.12|-1.27|0.6213
92172504|NCT04556656|184235500|SUPERIORITY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.777||0.8205|TWO_SIDED|95.0|-1.71|1.36|||Mixed Models Analysis|||From baseline to Week 26. In the MMRM model, change in TMS score from baseline was the dependent variable and independent variables included treatment group, baseline TMS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.36|-1.71|0.8205
92449809|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.935|TWO_SIDED|95.0|-0.9|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-0.9|0.935
92449810|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.326|TWO_SIDED|95.0|-1.3|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.3|0.326
92449811|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.07|TWO_SIDED|95.0|-1.7|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-1.7|0.070
92449812|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.02|TWO_SIDED|95.0|-1.9|-0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.2|-1.9|0.020
92449813|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.982|TWO_SIDED|95.0|-1.0|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-1.0|0.982
92449814|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.281|TWO_SIDED|95.0|-1.5|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.5|0.281
92449815|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.261|TWO_SIDED|95.0|-1.6|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.6|0.261
92449816|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.447|TWO_SIDED|95.0|-1.4|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.4|0.447
92182291|NCT05785832|184263452|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.4|0.1||A hierarchical procedure was used to control for the overall type I error. Since the P value for this outcome was more than 0.05, no additional P values are provided for subsequent secondary outcomes.|Regression, Linear|||Adjusted Difference Between Groups||0.1|-0.4|
92449817|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.378|TWO_SIDED|95.0|-0.6|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.6|0.378
92449818|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.299|TWO_SIDED|95.0|-1.7|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-1.7|0.299
92449819|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.377|TWO_SIDED|95.0|-1.6|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.6|0.377
92449820|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.707|TWO_SIDED|95.0|-1.3|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-1.3|0.707
92449821|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.562|TWO_SIDED|95.0|-1.4|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-1.4|0.562
92449822|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.156|TWO_SIDED|95.0|-1.7|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-1.7|0.156
92449823|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.292|TWO_SIDED|95.0|-1.6|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-1.6|0.292
92449824|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.2||||0.034|TWO_SIDED|95.0|-2.2|-0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.1|-2.2|0.034
92449825|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.762|TWO_SIDED|95.0|-0.9|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.9|0.762
92449826|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.092|TWO_SIDED|95.0|-1.9|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-1.9|0.092
92449827|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.3||||0.013|TWO_SIDED|95.0|-2.3|-0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.3|-2.3|0.013
92449828|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.005|TWO_SIDED|95.0|-2.5|-0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.4|-2.5|0.005
92172505|NCT04556656|184235500|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|1.067||0.4028|TWO_SIDED|95.0|-3.0|1.21|||Mixed Models Analysis|||From baseline to Week 39. In the MMRM model, change in TMS score from baseline was the dependent variable and independent variables included treatment group, baseline TMS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.21|-3.0|0.4028
92172506|NCT04556656|184235500|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|1.051||0.7577|TWO_SIDED|95.0|-2.4|1.75|||Mixed Models Analysis|||From baseline to Week 52. In the MMRM model, change in TMS score from baseline was the dependent variable and independent variables included treatment group, baseline TMS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.75|-2.4|0.7577
92172507|NCT04556656|184235500|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|1.158||0.7605|TWO_SIDED|95.0|-2.64|1.93|||Mixed Models Analysis|||From baseline to Week 65. In the MMRM model, change in TMS score from baseline was the dependent variable and independent variables included treatment group, baseline TMS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.93|-2.64|0.7605
92182292|NCT05785832|184263453|SUPERIORITY||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.09|0.04|||Regression, Linear|||Adjusted Difference Between Groups||0.04|-0.09|
92182293|NCT05785832|184263454|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.1|0.0|||Regression, Linear|||Adjusted Difference Between Groups||0.0|-0.1|
92182294|NCT05785832|184263455|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-0.5|1.2|||Regression, Linear|||Adjusted Difference Between Groups||1.2|-0.5|
92240939|NCT02749721|184385161|OTHER||Pearson's R|-0.506||||0.054|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and QIDS-SR baseline scores||||0.054
92240940|NCT02749721|184385161|OTHER||Pearson's R|0.002||||0.995|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and QIDS-SR baseline scores||||0.995
92240941|NCT02749721|184385161|OTHER||Pearson's R|0.102||||0.668|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and QIDS-SR baseline scores||||0.668
92240942|NCT02749721|184385161|OTHER||Pearson's R|0.037||||0.875|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and QIDS-SR baseline scores||||0.875
92240943|NCT02749721|184385161|OTHER||Pearson's R|-0.049||||0.852|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and QIDS-SR baseline to endpoint percent change||||0.852
92280761|NCT00386009|184464581|SUPERIORITY_OR_OTHER|||||||0.838||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.838
92280762|NCT00386009|184464582|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.609
92449829|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.293|TWO_SIDED|95.0|-1.8|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.8|0.293
92449830|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.095|TWO_SIDED|95.0|-2.0|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-2.0|0.095
92449831|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.2||||0.04||95.0|-2.3|-0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.1|-2.3|0.040
92449832|NCT00406029|184786719|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.4||||0.011|TWO_SIDED|95.0|-2.5|-0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.3|-2.5|0.011
92449833|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.47|TWO_SIDED|95.0|-0.6|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.6|0.470
92449834|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.505|TWO_SIDED|95.0|-0.6|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.6|0.505
92449835|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.114|TWO_SIDED|95.0|-0.2|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.2|0.114
92449836|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.042|TWO_SIDED|95.0|0.0|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|0.0|0.042
92449837|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.684|TWO_SIDED|94.0|-0.8|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-0.8|0.684
92449838|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.489|TWO_SIDED|95.0|-0.7|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-0.7|0.489
92449839|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.305|TWO_SIDED|95.0|-0.5|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.5|0.305
92449840|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.451|TWO_SIDED|95.0|-0.6|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-0.6|0.451
92240944|NCT02749721|184385161|OTHER||Pearson's R|-0.34||||0.234|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and QIDS-SR baseline to endpoint percent change||||0.234
92240945|NCT02749721|184385161|OTHER||Pearson's R|0.655||||0.056|TWO_SIDED||||||Pearson's correlation|||||||0.056
92240946|NCT02749721|184385161|OTHER||Pearson's R|0.297||||0.248|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and QIDS-SR baseline to endpoint percent change||||0.248
92240947|NCT02749721|184385161|OTHER||Pearson's R|0.179||||0.507|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and QIDS-SR baseline to endpoint percent change||||0.507
92240948|NCT02749721|184385161|OTHER||Pearson's R|0.049||||0.841|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and PDQ baseline scores||||0.841
92240949|NCT02749721|184385161|OTHER||Pearson's R|-0.185||||0.508|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and PDQ baseline scores||||0.508
92240950|NCT02749721|184385161|OTHER||Pearson's R|-0.03||||0.916|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and PDQ baseline scores||||0.916
92240951|NCT02749721|184385161|OTHER||Pearson's R|-0.345||||0.147|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and PDQ baseline scores||||0.147
92240952|NCT02749721|184385161|OTHER||Pearson's R|-0.284||||0.225|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and PDQ baseline scores||||0.225
92280763|NCT00386009|184464583|SUPERIORITY_OR_OTHER|||||||0.427||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.427
92280764|NCT00386009|184464584|SUPERIORITY_OR_OTHER|||||||0.838||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.838
92280765|NCT00386009|184464585|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.090
92280766|NCT00386009|184464586|SUPERIORITY_OR_OTHER|||||||0.113||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.113
92280767|NCT00386009|184464589|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||<0.001
92449841|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.68|TWO_SIDED|95.0|-1.5|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-1.5|0.680
92449842|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.466|TWO_SIDED|95.0|-0.8|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.8|0.466
92449843|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.45|TWO_SIDED|95.0|-0.8|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.8|0.450
92449844|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.523|TWO_SIDED|95.0|-0.8|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.8|0.523
92449845|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.309|TWO_SIDED|95.0|-0.6|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-0.6|0.309
92449846|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.136|TWO_SIDED|95.0|-0.3|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-0.3|0.136
92449847|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.106|TWO_SIDED|95.0|-0.2|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-0.2|0.106
92449848|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.144|TWO_SIDED|95.0|-0.3|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-0.3|0.144
92449849|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.954|TWO_SIDED|95.0|-1.1|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-1.1|0.954
92449850|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.152|TWO_SIDED|95.0|-0.3|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-0.3|0.152
92449851|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|1.4||||0.012|TWO_SIDED|95.0|0.3|2.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.4|0.3|0.012
92449852|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.025|TWO_SIDED|95.0|0.2|2.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|0.2|0.025
92182295|NCT05785832|184263456|SUPERIORITY||Difference in percent of participants.|12.0|||||TWO_SIDED|95.0|1.0|21.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||21|1|
92287172|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.162|TWO_SIDED|95.0|-0.018|0.108|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.108|-0.018|0.162
92172508|NCT04556656|184235500|SUPERIORITY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|1.323||0.6694|TWO_SIDED|95.0|-2.05|3.18|||Mixed Models Analysis|||From baseline to Week 78. In the MMRM model, change in TMS score from baseline was the dependent variable and independent variables included treatment group, baseline TMS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||3.18|-2.05|0.6694
92240953|NCT02749721|184385161|OTHER||Pearson's R|-0.044||||0.868|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and PDQ baseline to endpoint percent change||||0.868
92240954|NCT02749721|184385161|OTHER||Pearson's R|-0.18||||0.537|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and PDQ baseline to endpoint percent change||||0.537
92449853|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.151|TWO_SIDED|95.0|-0.3|2.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-0.3|0.151
92449854|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.235|TWO_SIDED|95.0|-0.5|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-0.5|0.235
92449855|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|1.7||||0.007|TWO_SIDED|95.0|0.5|2.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.9|0.5|0.007
92449856|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.033|TWO_SIDED|95.0|0.1|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|0.1|0.033
92449857|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.757|TWO_SIDED|95.0|-0.9|1.2|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.9|0.757
92449858|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.341|TWO_SIDED|95.0|-0.5|1.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.5|0.341
92449859|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.024|TWO_SIDED|95.0|0.2|2.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|0.2|0.024
92449860|NCT00406029|184786720|SUPERIORITY_OR_OTHER||Difference in LS Means|1.1||||0.049|TWO_SIDED|95.0|0.0|2.1|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|0.0|0.049
92449861|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.151|TWO_SIDED|95.0|-0.3|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-0.3|0.151
92449862|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.93|TWO_SIDED|95.0|-1.1|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-1.1|0.930
92449863|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.343|TWO_SIDED|95.0|-0.6|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.6|0.343
92449864|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.746|TWO_SIDED|95.0|-0.9|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.9|0.746
92449865|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.222|TWO_SIDED|94.0|-0.5|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-0.5|0.222
92449866|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.673|TWO_SIDED|95.0|-1.0|1.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.5|-1.0|0.673
92449867|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.415|TWO_SIDED|95.0|-0.7|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.7|0.415
92449868|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.968|TWO_SIDED|95.0|-1.3|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-1.3|0.968
92449869|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.543|TWO_SIDED|95.0|-1.0|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-1.0|0.543
92449870|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.967|TWO_SIDED|95.0|-1.4|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-1.4|0.967
92449871|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.411|TWO_SIDED|95.0|-0.8|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-0.8|0.411
92449872|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.864|TWO_SIDED|95.0|-1.6|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-1.6|0.864
92449873|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.449|TWO_SIDED|95.0|-0.9|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-0.9|0.449
92449874|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.411|TWO_SIDED|95.0|-2.0|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-2.0|0.411
92449875|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.576|TWO_SIDED|95.0|-1.0|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-1.0|0.576
92449876|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.603|TWO_SIDED|95.0|-1.9|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-1.9|0.603
92172509|NCT01566695|184235524|SUPERIORITY||Rate Difference|18.9||||0.0005|TWO_SIDED|95.0|8.3|29.6||2 sided|Stratified Mantel-Haenszel Chi-squared|Stratified by average baseline (BL) RBC tfx needs: ≤4 vs \>4 units of RBC per 28 days; BL platelet tfx status: dependent or ind. \&ECOG PS: 0 to 1 vs 2||||29.6|8.3|0.0005
92240955|NCT02749721|184385161|OTHER||Pearson's R|0.476||||0.195|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and PDQ baseline to endpoint percent change||||0.195
92240956|NCT02749721|184385161|OTHER||Pearson's R|0.594||||0.015|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and PDQ baseline to endpoint percent change||||0.015
92240957|NCT02749721|184385161|OTHER||Pearson's R|-0.009||||0.972|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and PDQ baseline to endpoint percent change||||0.972
92280768|NCT00936975|184464605|SUPERIORITY_OR_OTHER||Slope|-6.6084|STANDARD_ERROR_OF_MEAN|1.7644|<|0.001|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|GEE||GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|This was an exploratory study and no a priori assumptions were employed.||||<0.001
92449877|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.842|TWO_SIDED|95.0|-1.4|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-1.4|0.842
92449878|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.558|TWO_SIDED|95.0|-1.9|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-1.9|0.558
92449879|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.245|TWO_SIDED|95.0|-0.6|2.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.4|-0.6|0.245
92449880|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.93|TWO_SIDED|95.0|-1.5|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-1.5|0.930
92449881|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.759|TWO_SIDED|95.0|-1.5|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-1.5|0.759
92449882|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.374|TWO_SIDED|95.0|-2.4|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-2.4|0.374
92172510|NCT01566695|184235528|SUPERIORITY||Rate Difference|21.6|||<|0.0001|TWO_SIDED|95.0|11.9|31.3||2 sided|Stratified Mantel-Haenszel; Chi-squared|Stratified by average baseline (BL) RBC tfx needs: ≤4 vs \>4 units of RBC per 28 days; BL platelet tfx status: dependent or ind. \&ECOG PS: 0 to 1 vs 2||||31.3|11.9|<0.0001
92172511|NCT01566695|184235529|SUPERIORITY|||||||0.4347|||||||Two-Sided Unstratified Log Rank Test|||||||0.4347
92172512|NCT01566695|184235531|SUPERIORITY|HI-E|Rate Difference|10.9||||0.1467|TWO_SIDED|95.0|-2.0|23.7|||Stratified Mantel-Haenszel. Chi-squared|Stratified by average BL RBC tfx needs: ≤4 units versus \>4 units; BL platelet tfx status: dependent or independent and ECOG PS: 0 to 1 vs 2||||23.7|-2.0|0.1467
92287173|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.049||||0.117|TWO_SIDED|95.0|-0.012|0.11|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.110|-0.012|0.117
92172513|NCT01566695|184235531|SUPERIORITY|≥ 1.5 g/dL Hemoglobin Increase|Rate Diffrence|17.9||||0.0002|TWO_SIDED|95.0|8.8|26.9|||Stratified Mantel-Haenszel. Chi-squared|Stratified by average BL RBC tfx needs: ≤4 units versus \>4 units; BL platelet tfx status: dependent or independent and ECOG PS: 0 to 1 vs 2||||26.9|8.8|0.0002
92172514|NCT01566695|184235531|SUPERIORITY|RBC Transfusion Reduction|Rate Difference|10.9||||0.1431|TWO_SIDED|95.0|-1.9|23.6|||Stratified Mantel-Haenszel. Chi-squared|Stratified by average BL RBC tfx needs: ≤4 units versus \>4 units; BL platelet tfx status: dependent or independent and ECOG PS: 0 to 1 vs 2||||23.6|-1.9|0.1431
92172515|NCT01566695|184235532|SUPERIORITY||Rate Difference|17.0||||0.0007|TWO_SIDED|95.0|7.5|26.4|||Stratified Mantel-Haenszel. Chi-squared|Stratified by average BL RBC tfx needs: ≤4 units versus \>4 units; BL platelet tfx status: dependent or independent and ECOG PS: 0 to 1 vs 2||||26.4|7.5|0.0007
92172516|NCT01566695|184235535|OTHER||Hazard Ratio (HR)|1.08||||0.6257|TWO_SIDED|95.0|0.79|1.49|||Log Rank||||Cox proportional hazards model with stratifies factors|1.49|0.79|0.6257
92240958|NCT02749721|184385161|OTHER||Pearson's R|0.067||||0.785|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and MGH-CPFQ baseline scores||||0.785
92240959|NCT02749721|184385161|OTHER||Pearson's R|-0.129||||0.646|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and MGH-CPFQ baseline scores||||0.646
92240960|NCT02749721|184385161|OTHER||Pearson's R|0.364||||0.182|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and MGH-CPFQ baseline scores||||0.182
92240961|NCT02749721|184385161|OTHER||Pearson's R|-0.414||||0.069|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and MGH-CPFQ baseline scores||||0.069
92240962|NCT02749721|184385161|OTHER||Pearson's R|-0.416||||0.068|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and MGH-CPFQ baseline scores||||0.068
92240963|NCT02749721|184385161|OTHER||Pearson's R|-0.023||||0.929|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and MGH-CPFQ baseline to endpoint percent change||||0.929
92240964|NCT02749721|184385161|OTHER||Pearson's R|-0.074||||0.802|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and MGH-CPFQ baseline to endpoint percent change||||0.802
92240965|NCT02749721|184385161|OTHER||Pearson's R|0.518||||0.153|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and MGH-CPFQ baseline to endpoint percent change||||0.153
92240966|NCT02749721|184385161|OTHER||Pearson's R|0.268||||0.298|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and MGH-CPFQ baseline to endpoint percent change||||0.298
92240967|NCT02749721|184385161|OTHER||Pearson's R|-0.001||||0.996|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and MGH-CPFQ baseline to endpoint percent change||||0.996
92240968|NCT02749721|184385161|OTHER||Pearson's R|0.242||||0.531|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and WLQ baseline scores||||0.531
92240969|NCT02749721|184385161|OTHER||Pearson's R|-0.598||||0.21|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and WLQ baseline scores||||0.210
92240970|NCT02749721|184385161|OTHER||Pearson's R|0.054||||0.899|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and WLQ baseline scores||||0.899
92240971|NCT02749721|184385161|OTHER||Pearson's R|0.568||||0.087|TWO_SIDED||||||Pearson's correlation|||||||0.087
92240972|NCT02749721|184385161|OTHER||Pearson's R|0.568||||0.087|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and WLQ baseline scores||||0.087
92240973|NCT02749721|184385161|OTHER||Pearson's R|0.231||||0.55|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and WLQ baseline to endpoint percent change||||0.550
92240974|NCT02749721|184385161|OTHER||Pearson's R|0.158||||0.766|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and WLQ baseline to endpoint percent change||||0.766
92240975|NCT02749721|184385161|OTHER||Pearson's R|-0.406||||0.498|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and WLQ baseline to endpoint percent change||||0.498
92240976|NCT02749721|184385161|OTHER||Pearson's R|0.221||||0.599|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and WLQ baseline to endpoint percent change||||0.599
92240977|NCT02749721|184385161|OTHER||Pearson's R|0.679||||0.064|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and WLQ baseline to endpoint percent change||||0.064
92172517|NCT01566695|184235541|SUPERIORITY|||||||0.214|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.214
92172518|NCT01566695|184235542|SUPERIORITY|||||||0.446|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.446
92280769|NCT00936975|184464606|SUPERIORITY_OR_OTHER||Slope|-0.0115|STANDARD_ERROR_OF_MEAN|0.0089||0.1945|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|GEE|GEE was used to model the change, accounting for 37 tumors in 12 patients measured at 2 time points.|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|the difference in Patlak flux in tumor bone between baseline and 12 weeks, accounting for the fact that each participant could contribute more than one tumor bone.||||0.1945
92240978|NCT02749721|184385162|OTHER||Pearson's R|-0.038||||0.881|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and HDRS-28 baseline scores||||0.881
92240979|NCT02749721|184385162|OTHER||Pearson's R|0.299||||0.279|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and HDRS-28 baseline scores||||0.279
92240980|NCT02749721|184385162|OTHER||Pearson's R|0.538||||0.039|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and HDRS-28 baseline scores||||0.039
92240981|NCT02749721|184385162|OTHER||Pearson's R|-0.018||||0.94|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and HDRS-28 baseline scores||||0.940
92240982|NCT02749721|184385162|OTHER||Pearson's R|0.107||||0.65|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and HDRS-28 baseline scores||||0.65
92240983|NCT02749721|184385162|OTHER||Pearson's R|0.247||||0.34|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and HDRS-28 baseline to endpoint percentage change||||0.340
92240984|NCT02749721|184385162|OTHER||Pearson's R|0.067||||0.819|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and HDRS-28 baseline to endpoint percentage change||||0.819
92449883|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.621|TWO_SIDED|95.0|-1.3|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-1.3|0.621
92449884|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.607|TWO_SIDED|95.0|-2.1|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-2.1|0.607
92449885|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.907|TWO_SIDED|95.0|-1.4|1.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-1.4|0.907
92240985|NCT02749721|184385162|OTHER||Pearson's R|0.321||||0.4|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and HDRS-28 baseline to endpoint percentage change||||0.400
92240986|NCT02749721|184385162|OTHER||Pearson's R|0.279||||0.278|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and HDRS-28 baseline to endpoint percentage change||||0.278
92240987|NCT02749721|184385162|OTHER||Pearson's R|-0.136||||0.614|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and HDRS-28 baseline to endpoint percentage change||||0.614
92449886|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.368|TWO_SIDED|95.0|-2.1|0.8|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-2.1|0.368
92449887|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.654|TWO_SIDED|95.0|-1.1|1.8|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-1.1|0.654
92449888|NCT00406029|184786721|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.769|TWO_SIDED|95.0|-1.7|1.2|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-1.7|0.769
92449889|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.055|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-1.0|0.055
92172519|NCT01566695|184235543|SUPERIORITY|||||||0.248|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.248
92240988|NCT02749721|184385162|OTHER||Pearson's R|0.0||||0.999|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and HDRS-17 baseline scores||||0.999
92240989|NCT02749721|184385162|OTHER||Pearson's R|0.193||||0.491|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and HDRS-17 baseline scores||||0.491
92240990|NCT02749721|184385162|OTHER||Pearson's R|0.567||||0.028|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and HDRS-17 baseline scores||||0.028
92240991|NCT02749721|184385162|OTHER||Pearson's R|-0.03||||0.9|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and HDRS-17 baseline scores||||0.900
92240992|NCT02749721|184385162|OTHER||Pearson's R|0.141||||0.55|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and HDRS-17 baseline scores||||0.55
92240993|NCT02749721|184385162|OTHER||Pearson's R|0.231||||0.373|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and HDRS-17 baseline to endpoint percent change||||0.373
92449890|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.071|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-1.0|0.071
92449891|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.288|TWO_SIDED|95.0|-0.8|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.8|0.288
92172520|NCT01566695|184235544|SUPERIORITY|||||||0.058|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.058
92172521|NCT01566695|184235545|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.130
92240994|NCT02749721|184385162|OTHER||Pearson's R|0.019||||0.949|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and HDRS-17 baseline to endpoint percent change||||0.949
92449892|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.764|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.6|0.764
92449893|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.342|TWO_SIDED|94.0|-0.9|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.9|0.342
92449894|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.611|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.7|0.611
92240995|NCT02749721|184385162|OTHER||Pearson's R|0.122||||0.754|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and HDRS-17 baseline to endpoint percent change||||0.754
92240996|NCT02749721|184385162|OTHER||Pearson's R|0.176||||0.499|TWO_SIDED||||||0.176|||Correlation between VGNG P200 (latency) and HDRS-17 baseline to endpoint percent change||||0.499
92240997|NCT02749721|184385162|OTHER||Pearson's R|-0.162||||0.549|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and HDRS-17 baseline to endpoint percent change||||0.549
92240998|NCT02749721|184385162|OTHER||Pearson's R|-0.126||||0.617|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and QIDS-SR baseline scores||||0.617
92240999|NCT02749721|184385162|OTHER||Pearson's R|0.1||||0.722|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and QIDS-SR baseline scores||||0.722
92280770|NCT00936975|184464607|SUPERIORITY_OR_OTHER||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.3274||0.32|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized Estimating Equation|GEE was used to model the change, accounting for 37 tumors in 12 patients measured at 2 time points.|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|||||0.32
92241000|NCT02749721|184385162|OTHER||Pearson's R|0.249||||0.371|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and QIDS-SR baseline scores||||0.371
92241001|NCT02749721|184385162|OTHER||Pearson's R|-0.072||||0.764|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and QIDS-SR baseline scores||||0.764
92241002|NCT02749721|184385162|OTHER||Pearson's R|-0.225||||0.34|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and QIDS-SR baseline scores||||0.34
92241003|NCT02749721|184385162|OTHER||Pearson's R|0.148||||0.57|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and QIDS-SR baseline to endpoint percent change||||0.570
92241004|NCT02749721|184385162|OTHER||Pearson's R|0.228||||0.434|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and QIDS-SR baseline to endpoint percent change||||0.434
92241005|NCT02749721|184385162|OTHER||Pearson's R|0.22||||0.569|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and QIDS-SR baseline to endpoint percent change||||0.569
92241006|NCT02749721|184385162|OTHER||Pearson's R|0.645||||0.005|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and QIDS-SR baseline to endpoint percent change||||0.005
92241007|NCT02749721|184385162|OTHER||Pearson's R|0.105||||0.698|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and QIDS-SR baseline to endpoint percent change||||0.698
92241008|NCT02749721|184385162|OTHER||Pearson's R|-0.073||||0.774|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and PDQ baseline scores||||0.774
92241009|NCT02749721|184385162|OTHER||Pearson's R|0.577||||0.024|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and PDQ baseline score||||0.024
92241010|NCT02749721|184385162|OTHER||Pearson's R|0.146||||0.603|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and PDQ baseline scores||||0.603
92241011|NCT02749721|184385162|OTHER||Pearson's R|-0.232||||0.326|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and PDQ baseline scores||||0.326
92241012|NCT02749721|184385162|OTHER||Pearson's R|0.098||||0.68|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and PDQ baseline scores||||0.68
92241013|NCT02749721|184385162|OTHER||Pearson's R|-0.073||||0.774|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and PDQ baseline to endpoint percent change||||0.774
92241014|NCT02749721|184385162|OTHER||Pearson's R|0.577||||0.024|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and PDQ baseline to endpoint percent change||||0.024
92241015|NCT02749721|184385162|OTHER||Pearson's R|0.146||||0.603|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and PDQ baseline to endpoint percent change||||0.603
92241016|NCT02749721|184385162|OTHER||Pearson's R|-0.232||||0.326|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and PDQ baseline to endpoint percent change||||0.326
92241017|NCT02749721|184385162|OTHER||Pearson's R|0.098||||0.68|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and PDQ baseline to endpoint percent change||||0.68
92241018|NCT02749721|184385162|OTHER||Pearson's R|-0.1||||0.692|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and MGH-CPFQ baseline scores||||0.692
92241019|NCT02749721|184385162|OTHER||Pearson's R|0.498||||0.059|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and MGH-CPFQ baseline scores||||0.059
92449895|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.424|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.8|0.424
92449896|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.991|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.6|0.991
92241020|NCT02749721|184385162|OTHER||Pearson's R|-0.332||||0.227|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and MGH-CPFQ baseline scores||||0.227
92241021|NCT02749721|184385162|OTHER||Pearson's R|-0.125||||0.6|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and MGH-CPFQ baseline scores||||0.600
92241022|NCT02749721|184385162|OTHER||Pearson's R|-0.096||||0.69|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and MGH-CPFQ baseline scores||||0.69
92241023|NCT02749721|184385162|OTHER||Pearson's R|0.259||||0.315|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and MGH-CPFQ baseline to endpoint percent change||||0.315
92241024|NCT02749721|184385162|OTHER||Pearson's R|0.002||||0.996|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and MGH-CPFQ baseline to endpoint percent change||||0.996
92241025|NCT02749721|184385162|OTHER||Pearson's R|0.234||||0.544|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and MGH-CPFQ baseline to endpoint percent change||||0.544
92241026|NCT02749721|184385162|OTHER||Pearson's R|0.455||||0.066|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and MGH-CPFQ baseline to endpoint percent change||||0.066
92241027|NCT02749721|184385162|OTHER||Pearson's R|-0.28||||0.293|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and MGH-CPFQ baseline to endpoint percent change||||0.293
92241028|NCT02749721|184385162|OTHER||Pearson's R|0.783||||0.013|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and WLQ baseline scores||||0.013
92241029|NCT02749721|184385162|OTHER||Pearson's R|0.135||||0.799|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and WLQ baseline scores||||0.799
92241030|NCT02749721|184385162|OTHER||Pearson's R|0.506||||0.201|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and WLQ baseline scores||||0.201
92241031|NCT02749721|184385162|OTHER||Pearson's R|-0.197||||0.586|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and WLQ baseline scores||||0.586
92241032|NCT02749721|184385162|OTHER||Pearson's R|-0.024||||0.95|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and WLQ baseline scores||||0.95
92241033|NCT02749721|184385162|OTHER||Pearson's R|0.039||||0.92|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and WLQ baseline to endpoint percent change||||0.920
92241034|NCT02749721|184385162|OTHER||Pearson's R|0.113||||0.831|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and WLQ baseline to endpoint percent change||||0.831
92449897|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.185|TWO_SIDED|95.0|-1.3|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-1.3|0.185
92449898|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.597|TWO_SIDED|95.0|-1.0|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.0|0.597
92449899|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.09|TWO_SIDED|95.0|-1.5|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-1.5|0.090
92280771|NCT00936975|184464607|SUPERIORITY_OR_OTHER||Slope|6.98|STANDARD_ERROR_OF_MEAN|1.6943|<|0.001|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized Estimating Equations|Age was included in the model as a confounder|Estimated value is the slope of the Normal bone. Tumor Bone was used as reference category. GEEs, rather than a simple mean difference, were used to account for clustering and correlation of bone measurement values within a patient|H0: No difference in uptake b/w normal \& tumor bones||||<0.001
92241035|NCT02749721|184385162|OTHER||Pearson's R|0.655||||0.23|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and WLQ baseline to endpoint percent change||||0.230
92241036|NCT02749721|184385162|OTHER||Pearson's R|-0.602||||0.115|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and WLQ baseline to endpoint percent change||||0.115
92241037|NCT02749721|184385162|OTHER||Pearson's R|-0.313||||0.45|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and WLQ baseline to endpoint percent change||||0.450
92241038|NCT04590937|184385167|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|98.22|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|90.0|94.89|101.67|||||The geometric means ratio was calculated as Metformin + BI 730357 / Metformin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||101.67|94.89|
92241039|NCT04590937|184385168|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|123.08|STANDARD_ERROR_OF_MEAN|12.7|||TWO_SIDED|90.0|112.22|134.98|||||The geometric means ratio was calculated as Rosuvastatin + BI 730357 / Rosuvastatin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||134.98|112.22|
92241040|NCT04590937|184385169|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|117.72|STANDARD_ERROR_OF_MEAN|9.0|||TWO_SIDED|90.0|110.57|125.34|||||The geometric means ratio was calculated as Furosemide + BI 730357 / Furosemide. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||125.34|110.57|
92449900|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.686|TWO_SIDED|95.0|-0.9|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.9|0.686
92449901|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.501|TWO_SIDED|95.0|-1.0|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-1.0|0.501
92449902|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.764|TWO_SIDED|95.0|-0.6|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-0.6|0.764
92449903|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.715|TWO_SIDED|95.0|-0.9|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.9|0.715
92449904|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.924|TWO_SIDED|95.0|-0.7|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-0.7|0.924
92449905|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.264|TWO_SIDED|95.0|-1.2|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-1.2|0.264
92449906|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.976|TWO_SIDED|95.0|-0.7|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.7|0.976
92241041|NCT04590937|184385170|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|170.29|STANDARD_ERROR_OF_MEAN|25.6|||TWO_SIDED|90.0|143.73|201.76|||||The geometric means ratio was calculated as Digoxin + BI 730357 / Digoxin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||201.76|143.73|
92241042|NCT04590937|184385171|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|91.42|STANDARD_ERROR_OF_MEAN|5.6|||TWO_SIDED|90.0|88.04|94.93|||||The geometric means ratio was calculated as Metformin + BI 730357 / Metformin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||94.93|88.04|
92241043|NCT04590937|184385172|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|139.03|STANDARD_ERROR_OF_MEAN|16.9|||TWO_SIDED|90.0|124.29|155.51|||||The geometric means ratio was calculated as Rosuvastatin + BI 730357 / Rosuvastatin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||155.51|124.29|
92449907|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.626|TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.9|0.626
92449908|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.925|TWO_SIDED|95.0|-0.8|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.8|0.925
92449909|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.849|TWO_SIDED|95.0|-1.0|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-1.0|0.849
92449910|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.755|TWO_SIDED|95.0|-0.7|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.7|0.755
92449911|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.863|TWO_SIDED|95.0|-0.8|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.8|0.863
92449912|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.477|TWO_SIDED|95.0|-0.5|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-0.5|0.477
92449913|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.432|TWO_SIDED|95.0|-1.0|0.4|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.0|0.432
92449914|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.909|TWO_SIDED|95.0|-0.8|0.7|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.8|0.909
92449915|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.812|TWO_SIDED|95.0|-0.8|0.7|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.8|0.812
92449916|NCT00406029|184786722|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.54|TWO_SIDED|95.0|-0.5|1.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.5|0.540
92449917|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.829|TWO_SIDED|95.0|-0.7|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.7|0.829
92449918|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.042|TWO_SIDED|95.0|0.0|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|0.0|0.042
92449919|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.204|TWO_SIDED|95.0|-0.3|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-0.3|0.204
92449920|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.035|TWO_SIDED|95.0|0.1|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|0.1|0.035
92449921|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.696|TWO_SIDED|94.0|-1.2|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-1.2|0.696
92449922|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.625|TWO_SIDED|95.0|-0.7|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.7|0.625
92449923|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.478|TWO_SIDED|95.0|-0.6|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-0.6|0.478
92449924|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.38|TWO_SIDED|95.0|-0.5|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-0.5|0.380
92449925|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.925|TWO_SIDED|95.0|-1.2|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-1.2|0.925
92449926|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.285|TWO_SIDED|95.0|-0.5|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.5|0.285
92449927|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.296|TWO_SIDED|95.0|-0.5|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.5|0.296
92280772|NCT00936975|184464608|SUPERIORITY_OR_OTHER||Slope|-0.0177|STANDARD_ERROR_OF_MEAN|0.0125||0.16|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized Estimating Equations|GEE was used to model the change, accounting for 37 tumors in 12 patients measured at 2 time points.|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|||||0.16
92241044|NCT04590937|184385173|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|112.1|STANDARD_ERROR_OF_MEAN|15.4|||TWO_SIDED|90.0|101.26|124.11|||||The geometric means ratio was calculated as Furosemide + BI 730357 / Furosemide. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||124.11|101.26|
92241045|NCT04590937|184385174|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|161.29|STANDARD_ERROR_OF_MEAN|34.1|||TWO_SIDED|90.0|129.17|201.39|||||The geometric means ratio was calculated as Digoxin + BI 730357 / Digoxin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||201.39|129.17|
92241046|NCT04590937|184385175|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|98.23|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|90.0|94.86|101.73|||||The geometric means ratio was calculated as Metformin + BI 730357 / Metformin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||101.73|94.86|
92241047|NCT04590937|184385176|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|118.67|STANDARD_ERROR_OF_MEAN|13.0|||TWO_SIDED|90.0|108.83|129.4|||||The geometric means ratio was calculated as Rosuvastatin + BI 730357 / Rosuvastatin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||129.40|108.83|
92449928|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.241|TWO_SIDED|95.0|-0.5|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-0.5|0.241
92449929|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.571|TWO_SIDED|95.0|-0.9|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.9|0.571
92449930|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.032|TWO_SIDED|95.0|0.1|2.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.4|0.1|0.032
92449931|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.214|TWO_SIDED|95.0|-0.4|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-0.4|0.214
92449932|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.051|TWO_SIDED|95.0|0.0|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|0.0|0.051
92449933|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.572|TWO_SIDED|95.0|-0.9|1.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.5|-0.9|0.572
92449934|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.041|TWO_SIDED|95.0|0.1|2.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.4|0.1|0.041
92449935|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.24|TWO_SIDED|95.0|-0.5|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-0.5|0.240
92449936|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.047|TWO_SIDED|95.0|0.0|2.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.4|0.0|0.047
92449937|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.228|TWO_SIDED|95.0|-0.5|2.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-0.5|0.228
92449938|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.4||||0.03|TWO_SIDED|95.0|0.1|2.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.6|0.1|0.030
92449939|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.059|TWO_SIDED|95.0|0.0|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|0.0|0.059
92449940|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.5||||0.021|TWO_SIDED|95.0|0.2|2.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.7|0.2|0.021
92449941|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.428|TWO_SIDED|95.0|-0.6|1.5|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.5|-0.6|0.428
92449942|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.025|TWO_SIDED|95.0|0.2|2.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|0.2|0.025
92449943|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.0||||0.064|TWO_SIDED|95.0|-0.1|2.1|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-0.1|0.064
92449944|NCT00406029|184786723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.1||||0.047|TWO_SIDED|95.0|0.0|2.1|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|0.0|0.047
92449945|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.345|TWO_SIDED|95.0|-1.4|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-1.4|0.345
92449946|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.468|TWO_SIDED|95.0|-0.6|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-0.6|0.468
92449947|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.596|TWO_SIDED|95.0|-0.7|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.7|0.596
92449948|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.107|TWO_SIDED|95.0|-0.2|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.2|0.107
92449949|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.348|TWO_SIDED|94.0|-1.8|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.8|0.348
92449950|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.938|TWO_SIDED|95.0|-1.1|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-1.1|0.938
92449951|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.897|TWO_SIDED|95.0|-1.1|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-1.1|0.897
92449952|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.518|TWO_SIDED|95.0|-0.8|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.8|0.518
92241048|NCT04590937|184385177|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|114.07|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|90.0|107.93|120.56|||||The geometric means ratio was calculated as Furosemide + BI 730357 / Furosemide. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||120.56|107.93|
92241049|NCT04590937|184385178|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|173.77|STANDARD_ERROR_OF_MEAN|30.8|||TWO_SIDED|90.0|141.9|212.8|||||The geometric means ratio was calculated as Digoxin + BI 730357 / Digoxin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||212.80|141.90|
92241050|NCT01544595|184385182|SUPERIORITY|"H1: Secukinumab 150 mg was not different from placebo with respect to the cumulative rate for patients who lost PASI 75 response up to Week 68~• H2: Secukinumab 300 mg was not different from placebo with respect to the cumulative rate for patients who lost PASI 75 response up to Week 68"|Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.42|||Log Rank|||"The following hypotheses were tested for 52 weeks≤ t ≤68 weeks~* H1: p1(t) - p0,1(t) = 0 versus HA1: p1(t)- p0,1(t) ≥ 0,~* H2: p2(t) - p0,2(t) = 0 versus HA2: p2(t) - p0,2(t) ≥ 0,"||0.42|0.22|<0.0001
92280773|NCT00936975|184464609|SUPERIORITY_OR_OTHER||Slope|0.0017|STANDARD_ERROR_OF_MEAN|0.0027||0.53|TWO_SIDED||||||Generalized Estimating Equation|GEE was used to model the change, accounting for 37 tumors in 12 patients measured at 2 time points.|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|||||0.53
92449953|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.311|TWO_SIDED|95.0|-2.2|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-2.2|0.311
92449954|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.597|TWO_SIDED|95.0|-1.0|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-1.0|0.597
92449955|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.925|TWO_SIDED|95.0|-1.5|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-1.5|0.925
92449956|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.478|TWO_SIDED|95.0|-0.9|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-0.9|0.478
92449957|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.995|TWO_SIDED|95.0|-1.5|1.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.5|-1.5|0.995
92449958|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.057|TWO_SIDED|95.0|0.0|2.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.7|0.0|0.057
92449959|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.431|TWO_SIDED|95.0|-0.9|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-0.9|0.431
92449960|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.099|TWO_SIDED|95.0|-0.2|2.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.7|-0.2|0.099
92449961|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.847|TWO_SIDED|95.0|-1.5|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-1.5|0.847
92449962|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.093|TWO_SIDED|95.0|-0.2|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|-0.2|0.093
92449963|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.471|TWO_SIDED|95.0|-0.9|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-0.9|0.471
92449964|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.102|TWO_SIDED|95.0|-0.2|2.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.6|-0.2|0.102
92449965|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.415|TWO_SIDED|95.0|-0.9|2.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|-0.9|0.415
92449966|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|1.5||||0.051|TWO_SIDED|95.0|0.0|3.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.0|0.0|0.051
92449967|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.103|TWO_SIDED|95.0|-0.3|2.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.8|-0.3|0.103
92449968|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|1.7||||0.022|TWO_SIDED|95.0|0.3|3.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.2|0.3|0.022
92449969|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.903|TWO_SIDED|95.0|-1.2|1.4|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-1.2|0.903
92449970|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.074|TWO_SIDED|95.0|-0.1|2.5|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|-0.1|0.074
92172522|NCT01566695|184235546|SUPERIORITY|||||||0.123|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.123
92172523|NCT01566695|184235547|SUPERIORITY|||||||0.069|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.069
92172524|NCT01566695|184235548|SUPERIORITY|||||||0.078|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.078
92449971|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.185|TWO_SIDED|95.0|-0.4|2.2|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-0.4|0.185
92449972|NCT00406029|184786724|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.054|TWO_SIDED|95.0|0.0|2.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.6|0.0|0.054
92449973|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.985|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.5|0.985
92449974|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.556|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.3|0.556
92449975|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.776|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.4|0.776
92449976|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.777|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.4|0.777
92449977|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.92|TWO_SIDED|94.0|-0.5|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.5|0.920
92449978|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.155|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.1|0.155
92449979|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.843|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.5|0.843
92449980|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.673|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.4|0.673
92449981|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.612|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.7|0.612
92449982|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.512|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.4|0.512
92449983|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.269|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.9|0.269
92172525|NCT01566695|184235549|SUPERIORITY|||||||0.073|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.073
92172526|NCT01566695|184235550|SUPERIORITY||Common Odds Raatio|0.77||||0.56|TWO_SIDED|95.0|0.54|1.3|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|1.30|0.54|0.560
92172527|NCT01566695|184235551|SUPERIORITY||Common Odds Raatio|0.72||||0.48|TWO_SIDED|95.0|0.29|1.78|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|1.78|0.29|0.480
92182296|NCT05785832|184263457|SUPERIORITY||Difference in percent of participants.|18.0|||||TWO_SIDED|95.0|2.0|32.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||32|2|
92182297|NCT05785832|184263458|SUPERIORITY||Difference in percent of participants.|23.0|||||TWO_SIDED|95.0|12.0|33.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||33|12|
92182298|NCT05785832|184263459|SUPERIORITY||Difference in percent of participants.|25.0|||||TWO_SIDED|95.0|11.0|38.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||38|11|
92182299|NCT05785832|184263460|SUPERIORITY||Difference in percent of participants.|22.0|||||TWO_SIDED|95.0|11.0|33.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||33|11|
92182300|NCT05785832|184263461|SUPERIORITY||Difference in percent of participants.|21.0|||||TWO_SIDED|95.0|10.0|32.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||32|10|
92182301|NCT05785832|184263462|SUPERIORITY||Difference in percent of participants.|21.0|||||TWO_SIDED|95.0|9.0|31.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||31|9|
92182302|NCT05785832|184263463|SUPERIORITY||Median Difference (Net)|10.0|||||TWO_SIDED|95.0|7.0|12.0||||||Adjusted Difference Between Groups||12|7|
92241051|NCT01544595|184385182|SUPERIORITY|"H1: Secukinumab 150 mg was not different from placebo with respect to the cumulative rate for patients who lost PASI 75 response up to Week 68~• H2: Secukinumab 300 mg was not different from placebo with respect to the cumulative rate for patients who lost PASI 75 response up to Week 68"|Hazard Ratio (HR)|0.2|||<|0.0001|TWO_SIDED|95.0|0.14|0.29|||Log Rank|||"The following hypotheses were tested for 52 weeks≤ t ≤68 weeks~* H1: p1(t) - p0,1(t) = 0 versus HA1: p1(t)- p0,1(t) ≥ 0,~* H2: p2(t) - p0,2(t) = 0 versus HA2: p2(t) - p0,2(t) ≥ 0,"||0.29|0.14|<0.0001
92241052|NCT01929044|184385204|NON_INFERIORITY_OR_EQUIVALENCE|One-sided test relative to the non-inferiority margin of 1|Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-0.88|0.04|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|Restricted maximum likelihood (REML) -repeated measures approach||0.04|-0.88|<0.0001
92241053|NCT01929044|184385204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.23||0.0743|TWO_SIDED|95.0|-0.88|0.04|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|||0.04|-0.88|0.0743
92241054|NCT01929044|184385205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.2||0.121|TWO_SIDED|95.0|-0.7|0.08|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|||0.08|-0.70|0.1210
92241055|NCT01929044|184385206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0658|TWO_SIDED|95.0|-0.82|0.03|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|||0.03|-0.82|0.0658
92241056|NCT01929044|184385207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.2||0.022|TWO_SIDED|95.0|-0.85|-0.07|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|||-0.07|-0.85|0.0220
92449984|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.516|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.7|0.516
92449985|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.597|TWO_SIDED|95.0|-0.8|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.8|0.597
92449986|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.766|TWO_SIDED|95.0|-0.7|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.7|0.766
92449987|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.428|TWO_SIDED|95.0|-0.9|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.9|0.428
92449988|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.796|TWO_SIDED|95.0|-0.7|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.7|0.796
92449989|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.988|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.6|0.988
92449990|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.786|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.5|0.786
92449991|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.702|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.5|0.702
92449992|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.371|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.3|0.371
92449993|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.981|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.6|0.981
92449994|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.282|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.3|0.282
92449995|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.55|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.7|0.550
92449996|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.72|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.5|0.720
92449997|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.742|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.5|0.742
92449998|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.211|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.2|0.211
92449999|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.906|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.6|0.906
92450000|NCT00406029|184786725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.868|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.5|0.868
92450001|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.747|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.6|0.747
92450002|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.14|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-0.9|0.140
92241057|NCT01929044|184385208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.0149|TWO_SIDED|95.0|-0.81|-0.09|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|||-0.09|-0.81|0.0149
92241058|NCT01929044|184385209|SUPERIORITY_OR_OTHER|||||||0.0113|||||||van Elteren test|The van Elteren test stratifying for centre (Cochran-Mantel-Haenszel test using modified ridit scores) was performed.||||||0.0113
92241059|NCT01929044|184385210|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.0992|TWO_SIDED|95.0|0.37|1.09|||Regression, Logistic|A logistic regression model was used to evaluate the response with treatment as fixed effect and baseline pain intensity as continuous covariate.|Exact 95% confidence interval obtained by Clopper and Pearson approach.|||1.09|0.37|0.0992
92241060|NCT00554294|184385211|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|||<|0.05||95.0|0.48|0.98|||Regression, Logistic|The Odds Ratio (OR) describes the probability ob beeing overweight of the intervention group compared to the control group (reference, denominator).||adjusted for overweight at baseline, age at baseline,sex and clustering by school||0.98|0.48|<0.05
92172528|NCT01566695|184235552|SUPERIORITY||Common Odds Ratio|1.67||||0.197|TWO_SIDED|95.0|0.76|3.65|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|3.65|0.76|0.197
92241061|NCT05022004|184385216|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|Mean Difference (Final Values)|0.31|||||TWO_SIDED|95.0|-0.28|0.91|||||The reported mean difference represents value for Left Eye at Week 2, 08:00am|||0.91|-0.28|
92450003|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.148|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-0.9|0.148
92450004|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.005|TWO_SIDED|95.0|-1.2|-0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.2|-1.2|0.005
92182303|NCT05785832|184263464|SUPERIORITY||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-0.02|0.01||||||||0.01|-0.02|
92182304|NCT05785832|184263465|SUPERIORITY||Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.07|0.01||||||Adjusted Difference Between Groups||0.01|-0.07|
92182305|NCT05785832|184263466|SUPERIORITY||Mean Difference (Net)|-4.4|||||TWO_SIDED|95.0|-6.0|-2.7||||||Adjusted Difference Between Groups||-2.7|-6.0|
92182306|NCT05785832|184263467|SUPERIORITY||Mean Difference (Net)|-14.0|||||TWO_SIDED|95.0|-18.0|-10.0||||||Adjusted Difference Between Groups||-10|-18|
92182307|NCT05785832|184263468|SUPERIORITY||Mean Difference (Net)|-3.9|||||TWO_SIDED|95.0|-5.2|-2.7||||||Adjusted Difference Between Groups||-2.7|-5.2|
92182308|NCT05785832|184263469|SUPERIORITY||Difference in percent of participants.|16.0|||||TWO_SIDED|95.0|8.0|24.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||24|8|
92450005|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.256|TWO_SIDED|94.0|-0.8|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.8|0.256
92450006|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.343|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.8|0.343
92450007|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.102|TWO_SIDED|95.0|-1.0|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-1.0|0.102
92450008|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.161|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.9|0.161
92182309|NCT05785832|184263470|SUPERIORITY||Difference in percent of participants.|26.0|||||TWO_SIDED|95.0|12.0|41.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||41|12|
92450009|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.15|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-0.9|0.150
92182310|NCT05785832|184263471|SUPERIORITY||Difference in percent of participants.|34.0|||||TWO_SIDED|95.0|21.0|45.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||45|21|
92450010|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.175|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.9|0.175
92450011|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.013|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.1|-1.2|0.013
92450012|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.12|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-0.9|0.120
92450013|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.971|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.6|0.971
92450014|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.456|TWO_SIDED|95.0|-0.7|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.7|0.456
92450015|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.018|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.1|-1.2|0.018
92450016|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.175|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.9|0.175
92450017|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.422|TWO_SIDED|95.0|-0.3|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-0.3|0.422
92450018|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.651|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.4|0.651
92450019|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.096|TWO_SIDED|95.0|-1.0|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-1.0|0.096
92172529|NCT01566695|184235553|SUPERIORITY||Common Odds Ratio|2.14||||0.121|TWO_SIDED|95.0|0.82|5.57|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|5.57|0.82|0.121
92172530|NCT01566695|184235554|SUPERIORITY||Common Odds Ratio|2.0||||0.075|TWO_SIDED|95.0|0.93|4.3|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|4.30|0.93|0.075
92172531|NCT01566695|184235555|SUPERIORITY||Common Odds Ratio|1.58||||0.222|TWO_SIDED|95.0|0.76|3.29|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|3.29|0.76|0.222
92241062|NCT05022004|184385216|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-0.39|0.76|||||The reported mean difference represents value for Right Eye at Week 2, 08:00am|||0.76|-0.39|
92241063|NCT05022004|184385216|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.59|0.5|||||The reported mean difference represents value for Left Eye at Week 6, 08:00am|||0.50|-0.59|
92241064|NCT05022004|184385216|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-0.64|0.4|||||The reported mean difference represents value for Right Eye at Week 6, 08:00am|||0.40|-0.64|
92241065|NCT05022004|184385217|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed||||||0.0015||||||P value reported for Left Eye at Week 2; 08:00 am|two-sample t-test|||||||0.0015
92241066|NCT05022004|184385217|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed||||||0.0008|||||||two-sample t-test|P value reported for Right Eye at Week 2; 08:00am||||||0.0008
92241067|NCT05022004|184385217|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|||||<|0.0001|||||||two-sample t-test|P value reported for left eye at week 6, 08:00 am||||||<.0001
92450020|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.86|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.5|0.860
92450021|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.511|TWO_SIDED|95.0|-0.8|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.8|0.511
92450022|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.286|TWO_SIDED|95.0|-0.9|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.9|0.286
92450023|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.004|TWO_SIDED|95.0|-1.4|-0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.3|-1.4|0.004
92450024|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.06|TWO_SIDED|95.0|-1.1|0.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-1.1|0.060
92450025|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.345|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.8|0.345
92450026|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.439|TWO_SIDED|95.0|-0.7|0.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.7|0.439
92450027|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.004|TWO_SIDED|95.0|-1.4|0.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-1.4|0.004
92450028|NCT00406029|184786732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.04|TWO_SIDED|95.0|-1.1|0.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-1.1|0.040
92450029|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.743|TWO_SIDED|95.0|-1.1|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-1.1|0.743
92450030|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.225|TWO_SIDED|95.0|-2.2|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-2.2|0.225
92241068|NCT05022004|184385217|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|||||<|0.0001|||||||two-sample t-test|P value reported for Right eye at Week 6; 08:00 am||||||<.0001
92450031|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.252|TWO_SIDED|95.0|-2.2|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-2.2|0.252
92450032|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.173|TWO_SIDED|95.0|-2.3|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-2.3|0.173
92450033|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.757|TWO_SIDED|94.0|-1.3|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-1.3|0.757
92450034|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.581|TWO_SIDED|95.0|-1.1|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-1.1|0.581
92450035|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.195|TWO_SIDED|95.0|-2.5|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-2.5|0.195
92450036|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.272|TWO_SIDED|95.0|-2.4|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-2.4|0.272
92450037|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.758|TWO_SIDED|95.0|-1.7|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-1.7|0.758
92450038|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.416|TWO_SIDED|95.0|-2.1|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-2.1|0.416
92450039|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.174|TWO_SIDED|95.0|-2.5|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-2.5|0.174
92450040|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.547|TWO_SIDED|95.0|-1.1|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-1.1|0.547
92172532|NCT01566695|184235556|SUPERIORITY||Common Odds Ratio|1.65||||0.249|TWO_SIDED|95.0|0.71|3.83|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|3.83|0.71|0.249
92172533|NCT01566695|184235557|SUPERIORITY||Common Odds Ratio|2.03||||0.082|TWO_SIDED|95.0|0.92|4.48|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|4.48|0.92|0.082
92241069|NCT03382899|184385248|SUPERIORITY||Odds Ratio (OR)|1.1||||0.7626|TWO_SIDED|95.0|0.5|2.5|||Cochran-Mantel-Haenszel||Odds Ratio stratified by histology type, squamous versus non-squamous based on interactive web response system (IWRS). 95% Confidence intervals (CIs) were estimated using the Clopper-Pearson method.|||2.5|0.5|0.7626
92172534|NCT01566695|184235558|SUPERIORITY||Common Odds Ratio|1.86||||0.153|TWO_SIDED|95.0|0.79|4.34|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|4.34|0.79|0.153
92172535|NCT01566695|184235559|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92241070|NCT03382899|184385249|SUPERIORITY||Hazard Ratio (HR)|1.53||||0.263|TWO_SIDED|95.0|0.722|3.243|||Log Rank||Hazard Ratio stratified by histology type, squamous versus non-squamous based on IWRS. 95% CIs were estimated using the methods of Brookmeyer and Crowley, and Greenwood, respectively.|||3.243|0.722|0.263
92241071|NCT03382899|184385250|SUPERIORITY||Hazard Ratio (HR)|0.975||||0.2|TWO_SIDED|95.0|0.571|1.663|||Log Rank||Hazard Ratio stratified by histology type, squamous versus non-squamous based on IWRS. 95% CIs were estimated using the Kaplan-Meier method.|||1.663|0.571|0.20
92241072|NCT03382899|184385251|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9418|TWO_SIDED|95.0|0.5|2.3|||Cochran-Mantel-Haenszel||Odds Ratio stratified by histology type, squamous versus non-squamous based on IWRS. 95% CIs were estimated using the Clopper-Pearson method.|||2.3|0.5|0.9418
92172536|NCT01566695|184235560|SUPERIORITY|||||||0.046|||||||Fisher Exact|||||||0.046
92172537|NCT01566695|184235561|SUPERIORITY|||||||0.134|||||||Fisher Exact|||||||0.134
92172538|NCT01566695|184235562|SUPERIORITY|||||||0.324|||||||Fisher Exact|||||||0.324
92241073|NCT03382899|184385252|SUPERIORITY||Hazard Ratio (HR)|1.124||||0.8312|TWO_SIDED|95.0|0.384|3.289|||Log Rank||Hazard Ratio stratified by histology type, squamous versus non-squamous based on IWRS. 95% CIs were estimated using the methods of Brookmeyer and Crowley, and Greenwood, respectively.|||3.289|0.384|0.8312
92172539|NCT01566695|184235563|SUPERIORITY|||||||0.442|||||||Fisher Exact|||||||0.442
92172540|NCT01566695|184235564|SUPERIORITY|||||||0.063|||||||Fisher Exact|||||||0.063
92172541|NCT01566695|184235565|SUPERIORITY|||||||0.198|||||||Fisher Exact|||||||0.198
92172542|NCT01566695|184235566|SUPERIORITY|||||||0.972|||||||Fisher Exact|||||||0.972
92172543|NCT01566695|184235567|SUPERIORITY|||||||0.601|||||||Fisher Exact|||||||0.601
92172544|NCT01566695|184235568|SUPERIORITY|||||||0.07|||||||Fisher Exact|||||||0.070
92172545|NCT01566695|184235569|SUPERIORITY|||||||0.436|||||||Fisher Exact|||||||0.436
92172546|NCT01566695|184235570|SUPERIORITY|||||||0.683|||||||Fisher Exact|||||||0.683
92172547|NCT05956002|184235590|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUClast for etrasimod 2 mg mini tablets mixed with applesauce (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|94.66|||||TWO_SIDED|90.0|91.33|98.12|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2mg mini tablets in applesauce vs etrasimod 2mg clinical IR tablet mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||98.12|91.33|
92172548|NCT05956002|184235590|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUClast for etrasimod 2 mg mini tablets mixed with chocolate pudding (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|94.96|||||TWO_SIDED|90.0|91.69|98.34|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in chocolate pudding vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||98.34|91.69|
92241074|NCT00576693|184385266|SUPERIORITY_OR_OTHER|||||||0.0252|||||||Log Rank|||The statistical analysis was based on a comparison of the of the two treatment groups with respect to the time to a primary outcome using the logrank test.||||0.0252
92287174|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.071||||0.02|TWO_SIDED|95.0|0.011|0.13|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.130|0.011|0.020
92172549|NCT05956002|184235590|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUClast for etrasimod 2 mg mini tablets mixed with water (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|85.86|||||TWO_SIDED|90.0|82.9|88.92|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in water vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||88.92|82.90|
92172550|NCT05956002|184235590|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUClast for etrasimod 2 mg mini tablets mixed with yogurt (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|93.24|||||TWO_SIDED|90.0|89.76|96.84|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in yogurt vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||96.84|89.76|
92172551|NCT05956002|184235591|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUCinf for etrasimod 2 mg mini tablets mixed with applesauce (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|94.36|||||TWO_SIDED|90.0|90.97|97.89|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in applesauce vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||97.89|90.97|
92182311|NCT05785832|184263474|SUPERIORITY||Difference in percent of participants.|15.0|||||TWO_SIDED|95.0|8.0|22.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||22|8|
92182312|NCT05785832|184263475|SUPERIORITY||Mean Difference (Net)|-10.0|||||TWO_SIDED|95.0|-20.0|0.0||||||Adjusted Difference Between Groups.||0|-20|
92182313|NCT05785832|184263476|SUPERIORITY||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-4.4|3.4||||||Adjusted Difference Between Groups.||3.4|-4.4|
92182314|NCT05785832|184263477|SUPERIORITY||Median Difference (Net)|1.5|||||TWO_SIDED|95.0|0.5|2.5||||||Adjusted Difference Between Groups.||2.5|0.5|
92182315|NCT05785832|184263478|SUPERIORITY||Mean Difference (Net)|1.1|||||TWO_SIDED|95.0|-2.5|4.7||||||Adjusted Difference Between Groups.||4.7|-2.5|
92182316|NCT05785832|184263479|SUPERIORITY||Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-3.4|0.7||||||Adjusted Difference Between Groups.||0.7|-3.4|
92182317|NCT05785832|184263480|SUPERIORITY||Median Difference (Net)|2.1|||||TWO_SIDED|95.0|0.5|3.7||||||Adjusted Difference Between Groups.||3.7|0.5|
92182318|NCT05785832|184263481|SUPERIORITY||Mean Difference (Net)|4.9|||||TWO_SIDED|95.0|-1.4|11.1||||||Adjusted Difference Between Groups.||11.1|-1.4|
92241075|NCT00540449|184385272|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|-0.4|||<|0.0001||95.0|-5.9|5.2||Significance level was set at 2.5% (one-sided). No adjustment of p-value for multiple comparisons, since there was only single comparison for the primary endpoint.|Regression, Logistic|Logistic regression model included treatment arm as factor and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|Assuming a response rate of 75% at 48 weeks for both treatment groups, 340 subjects were needed per treatment (TMC278 or EFV) to establish non-inferiority of TMC278 versus EFV with a maximum allowable difference of 12% and a 1-sided significance level of 2.5%, to yield 95% power.||5.2|-5.9|<0.0001
92241076|NCT00540449|184385273|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|0.3|||<|0.0001||95.0|-5.4|5.9|||Regression, Logistic|Logistic regression model included treatment arm as factor and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|||5.9|-5.4|<0.0001
92280774|NCT00936975|184464609|SUPERIORITY_OR_OTHER||Slope|0.0205|STANDARD_ERROR_OF_MEAN|0.0128||0.1095|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized estimating equations|Age was included in the model as a confounder|Estimated value is the slope of the Normal bone. Tumor Bone was used as reference category. GEEs, rather than a simple mean difference, were used to account for clustering and correlation of bone measurement values within a patient|H0: influx(Ki) is the same in normal and tumor bones||||0.1095
92280775|NCT00936975|184464610|SUPERIORITY_OR_OTHER||Slope|0.0061|STANDARD_ERROR_OF_MEAN|0.0021||0.0033|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized Estimating Equations|GEE was used to model the change, accounting for 37 bones in 12 patients measured at 2 time points.|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|||||0.0033
92172552|NCT05956002|184235591|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUCinf for etrasimod 2 mg mini tablets mixed with chocolate pudding (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|94.75|||||TWO_SIDED|90.0|91.41|98.2|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in chocolate pudding vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||98.20|91.41|
92280776|NCT00936975|184464610|SUPERIORITY_OR_OTHER||Slope|0.0177|STANDARD_ERROR_OF_MEAN|0.0097||0.067|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized estimating equations|Age was included in the model as a confounder|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|H0: Change Patlak Flux from TP1 to TP2 is the same in normal and tumor bones||||0.0670
92280777|NCT00936975|184464610|SUPERIORITY_OR_OTHER||Slope|32.3288|STANDARD_ERROR_OF_MEAN|14.6956||0.0278|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized estimating equations||Estimated value is the slope of the Normal bone. Tumor Bone was used as reference category. GEEs, rather than a simple mean difference, were used to account for clustering and correlation of bone measurement values within a patient|H0: %Change in Patlak Flux between timepoint 1 and 2 is the same for Normal and Tumor bones||||0.0278
92280778|NCT01656889|184464628|SUPERIORITY_OR_OTHER|||||||0.5896|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value is based on the chi-squared proportion of wounds closed in each group.||||||0.5896
92280779|NCT01656889|184464629|SUPERIORITY_OR_OTHER|||||||0.3675|TWO_SIDED|0.0|||||Regression, Cox|||||||.3675
92241077|NCT00540449|184385274|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|-3.2||||0.0055||95.0|-9.4|3.1|||Regression, Logistic|Logistic regression model included treatment arm as factor and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|||3.1|-9.4|0.0055
92280780|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.6426|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 01||||0.6426
92280781|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.3843|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 02||||.3843
92280782|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.2792|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 03||||0.2792
92182319|NCT05785832|184263482|SUPERIORITY||Mean Difference (Net)|-20.0|||||TWO_SIDED|95.0|-45.0|4.0||||||Adjusted Difference Between Groups.||4|-45|
92182320|NCT02921555|184263490|SUPERIORITY||Mean Difference (Final Values)|16.2||||0.05|TWO_SIDED|95.0|||||Chi-squared|||||||0.05
92182321|NCT02921555|184263490|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92280783|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.1502|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 04||||0.1502
92280784|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.3823|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 05||||0.3823
92280785|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.5528|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 06||||0.5528
92280786|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.02913|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 07||||.02913
92280787|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.3896|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 08||||0.3896
92280788|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.3989|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 09||||0.3989
92280789|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.8682|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 10||||0.8682
92280790|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.8083|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 11||||0.8083
92280791|NCT01656889|184464630|SUPERIORITY_OR_OTHER|||||||0.6687|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 12||||0.6687
92280792|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.3601|TWO_SIDED||||||ANCOVA|||Week 01||||0.3601
92280793|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.9398|TWO_SIDED||||||ANCOVA|||Week 02||||0.9398
92280794|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.905|TWO_SIDED||||||ANCOVA|||Week 03||||0.905
92280795|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.4471|TWO_SIDED||||||ANCOVA|||Week 04||||0.4471
92280796|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.3004|TWO_SIDED||||||ANCOVA|||Week 05||||0.3004
92280797|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.1815|TWO_SIDED||||||ANCOVA|||Week 06||||0.1815
92172553|NCT05956002|184235591|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUCinf for etrasimod 2 mg mini tablets mixed with water (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|85.44|||||TWO_SIDED|90.0|82.43|88.55|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in water vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||88.55|82.43|
92172554|NCT05956002|184235591|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUCinf for etrasimod 2 mg mini tablets mixed with yogurt (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|93.28|||||TWO_SIDED|90.0|89.61|97.1|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in yogurt vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||97.10|89.61|
92241078|NCT00540449|184385275|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|-1.7||||0.0013||95.0|-8.0|4.5|||Regression, Logistic|Logistic regression model included treatment arm as factor and baseline (log10) viral load as covariate.||||4.5|-8.0|0.0013
92241079|NCT00337467|184385290|SUPERIORITY_OR_OTHER||Percentage of Participants|21.3|||||TWO_SIDED|95.0|11.9|33.7|||exact binomial methods|Given the small sample size, the 95% confidence interval is made with exact binomial methods.||||33.7|11.9|
92280798|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.399|TWO_SIDED||||||ANCOVA|||Week 07||||0.399
92172555|NCT05956002|184235592|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of Cmax for etrasimod 2 mg mini tablets mixed with applesauce (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|94.7|||||TWO_SIDED|90.0|90.38|99.22|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in applesauce vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||99.22|90.38|
92241080|NCT00337467|184385291|SUPERIORITY_OR_OTHER||Percentage of Participants|34.4|||||TWO_SIDED|95.0|22.7|47.7|||exact binomial methods|Given the small sample size, the 95% confidence interval is made with exact binomial methods.||||47.7|22.7|
92241081|NCT00337467|184385296|SUPERIORITY_OR_OTHER||Mean Change (Final Values)|61.0|STANDARD_ERROR_OF_MEAN|24.3|||TWO_SIDED|95.0|12.3|109.8|||normal approximation for 95% CI|||||109.8|12.3|
92241082|NCT00337467|184385297|SUPERIORITY_OR_OTHER||Mean Change (Final Values)|53.0|STANDARD_ERROR_OF_MEAN|30.0|||TWO_SIDED|95.0|-7.1|113.7|||normal approximation for 95% CI|||||113.7|-7.1|
92241083|NCT00337467|184385298|SUPERIORITY_OR_OTHER||Mean Change (Final Values)|63.0|STANDARD_ERROR_OF_MEAN|32.9|||TWO_SIDED|95.0|-4.0|129.1|||normal approximation for 95% CI|||||129.1|-4.0|
92241084|NCT00337467|184385300|SUPERIORITY_OR_OTHER||Mean Change|9.0|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|2.5|14.6|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Total Cholesterol at Week 48||14.6|2.5|
92241085|NCT00337467|184385300|SUPERIORITY_OR_OTHER||Mean Change|2.0|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-3.9|8.8|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting HDL Cholesterol at Week 48||8.8|-3.9|
92241086|NCT00337467|184385300|SUPERIORITY_OR_OTHER||Mean Change|12.0|STANDARD_ERROR_OF_MEAN|4.1|||TWO_SIDED|95.0|4.0|20.8|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Non-HDL Cholesterol at Week 48||20.8|4.0|
92241087|NCT00337467|184385300|SUPERIORITY_OR_OTHER||Mean Change|20.0|STANDARD_ERROR_OF_MEAN|5.8|||TWO_SIDED|95.0|8.0|31.7|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting LDL Cholesterol at Week 48||31.7|8.0|
92241088|NCT00337467|184385300|SUPERIORITY_OR_OTHER||Mean Change|17.0|STANDARD_ERROR_OF_MEAN|8.6|||TWO_SIDED|95.0|-0.4|34.4|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Triglycerides at Week 48||34.4|-0.4|
92280799|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.8027|TWO_SIDED||||||ANCOVA|||Week 08||||0.8027
92450041|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.372|TWO_SIDED|95.0|-0.8|2.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-0.8|0.372
92450042|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.942|TWO_SIDED|95.0|-1.4|1.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.5|-1.4|0.942
92450043|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.3||||0.082|TWO_SIDED|95.0|-2.8|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-2.8|0.082
92450044|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.267|TWO_SIDED|95.0|-2.3|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-2.3|0.267
92450045|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.801|TWO_SIDED|95.0|-1.5|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-1.5|0.801
92450046|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.753|TWO_SIDED|95.0|-1.9|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-1.9|0.753
92450047|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.4||||0.087|TWO_SIDED|95.0|-3.1|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-3.1|0.087
92450048|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.796|TWO_SIDED|95.0|-1.9|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-1.9|0.796
92450049|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.621|TWO_SIDED|95.0|-1.3|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-1.3|0.621
92450050|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.784|TWO_SIDED|95.0|-1.8|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-1.8|0.784
92450051|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.9||||0.024|TWO_SIDED|95.0|-3.5|-0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.2|-3.5|0.024
92450052|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.963|TWO_SIDED|95.0|-1.6|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-1.6|0.963
92450053|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.331|TWO_SIDED|95.0|-0.8|2.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|-0.8|0.331
92450054|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.898|TWO_SIDED|95.0|-1.4|1.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-1.4|0.898
92450055|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.058|TWO_SIDED|95.0|-3.0|0.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-3.0|0.058
92450056|NCT00406029|184786733|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.832|TWO_SIDED|95.0|-1.3|1.7|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-1.3|0.832
92280800|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.4913|TWO_SIDED||||||ANCOVA|||Week 09||||0.4913
92280801|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.5227|TWO_SIDED||||||ANCOVA|||Week 10||||0.5227
92280802|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.7032|TWO_SIDED||||||ANCOVA|||Week 11||||0.7032
92280803|NCT01656889|184464632|SUPERIORITY_OR_OTHER|||||||0.9366|TWO_SIDED||||||ANCOVA|||||||0.9366
92280804|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.9853|TWO_SIDED||||||ANCOVA|||Week 01||||0.9853
92280805|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.7083|TWO_SIDED||||||ANCOVA|||Week 02||||0.7083
92280806|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.6744|TWO_SIDED||||||ANCOVA|||Week 03||||0.6744
92280807|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.2891|TWO_SIDED||||||ANCOVA|||||||0.2891
92280808|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.9923|TWO_SIDED||||||ANCOVA|||Week 05||||0.9923
92280809|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.1775|TWO_SIDED||||||ANCOVA|||Week 06||||0.1775
92280810|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.499|TWO_SIDED||||||ANCOVA|||Week 07||||0.499
92280811|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.4423|TWO_SIDED||||||ANCOVA|||Week 08||||0.4423
92280812|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.5138|TWO_SIDED||||||ANCOVA|||Week 09||||0.5138
92280813|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.3409|TWO_SIDED||||||ANCOVA|||Week 10||||0.3409
92280814|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.6358|TWO_SIDED||||||ANCOVA|||Week 11||||0.6358
92280815|NCT01656889|184464633|SUPERIORITY_OR_OTHER|||||||0.6753|TWO_SIDED||||||ANCOVA|||Week 12||||0.6753
92280816|NCT01656889|184464634|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Kaplan-Meier Survival analysis|||||||< 0.05
92172556|NCT05956002|184235592|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of Cmax for etrasimod 2 mg mini tablets mixed with chocolate pudding (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|92.72|||||TWO_SIDED|90.0|88.59|97.04|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in chocolate pudding vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||97.04|88.59|
92172557|NCT05956002|184235592|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of Cmax for etrasimod 2 mg mini tablets mixed with water (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|87.24|||||TWO_SIDED|90.0|83.35|91.31|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in water vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||91.31|83.35|
92172558|NCT05956002|184235592|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of Cmax for etrasimod 2 mg mini tablets mixed with yogurt (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|92.59|||||TWO_SIDED|90.0|88.24|97.17|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in yogurt vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||97.17|88.24|
92172559|NCT04784559|184235603|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.8751|TWO_SIDED|95.0|0.727|1.53||Unadjusted 2-sided p-value, for multiplicity adjustment uses the Hochberg step-up procedure|Log Rank|Stratified log-rank test, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Stratified Cox proportional-hazards regression model, including the fixed effect of the treatment group and levels of the randomisation stratification factors,|Plitidepsin 2.5 mg arm versus Control arm||1.53|0.727|0.8751
92172560|NCT04784559|184235603|SUPERIORITY||Hazard Ratio (HR)|1.37||||0.0625|TWO_SIDED|95.0|0.96|1.96||Unadjusted 2-sided p-value, for multiplicity adjustment uses the Hochberg step-up procedure|Log Rank|Stratified log-rank test, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Stratified Cox proportional-hazards regression model, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Plitidepsin 1.5 mg arm versus Control arm||1.96|0.960|0.0625
92172561|NCT04784559|184235604|SUPERIORITY||Hazard Ratio (HR)|0.948||||0.5945|TWO_SIDED|95.0|0.655|1.37||Unadjusted 2-sided p-value, for multiplicity adjustment uses the Hochberg step-up procedure|Log Rank|Stratified log-rank test, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Stratified Cox proportional-hazards regression model, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Plitidepsin 2.5 mg arm versus Control arm||1.37|0.655|0.5945
92172562|NCT04784559|184235604|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.3358|TWO_SIDED|95.0|0.827|1.7||Unadjusted 2-sided p-value, for multiplicity adjustment uses the Hochberg step-up procedure|Log Rank|Stratified log-rank test, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Stratified Cox proportional-hazards regression model, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Plitidepsin 1.5 mg arm versus Control arm||1.70|0.827|0.3358
92172563|NCT04784559|184235605|SUPERIORITY||Odds Ratio (OR)|1.12||||0.7252|TWO_SIDED|95.0|0.604|2.06||2-sided|p-value based on proportional odds model|Proportional odds model with fixed effects of treatment group and randomisation stratification factors|Adjusted Odds Ratio and 95% CI based on a proportional odds model with fixed effects of treatment group and randomisation stratification factors|Plitidepsin 2.5 mg arm versus Control arm||2.06|0.604|0.7252
92450057|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|1.7||||0.365|TWO_SIDED|95.0|-2.0|5.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.3|-2.0|0.365
92450058|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|1.4||||0.476|TWO_SIDED|95.0|-2.4|5.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.1|-2.4|0.476
92450059|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|1.8||||0.343|TWO_SIDED|95.0|-2.0|5.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.6|-2.0|0.343
92450060|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.1||||0.103|TWO_SIDED|95.0|-6.8|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-6.8|0.103
92450061|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.3||||0.224|TWO_SIDED|94.0|-6.0|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-6.0|0.224
92450062|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.4||||0.448|TWO_SIDED|95.0|-5.1|2.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-5.1|0.448
92450063|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.7||||0.154|TWO_SIDED|95.0|-6.4|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-6.4|0.154
92450064|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-4.8||||0.01|TWO_SIDED|95.0|-8.5|-1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-1.1|-8.5|0.010
92450065|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.54|TWO_SIDED|95.0|-2.6|5.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.0|-2.6|0.540
92450066|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.646|TWO_SIDED|95.0|-4.7|2.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.9|-4.7|0.646
92241089|NCT00337467|184385301|SUPERIORITY_OR_OTHER||Mean Change|14.0|STANDARD_ERROR_OF_MEAN|3.2||||95.0|6.9|20.1|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Total Cholesterol at Week 96||20.1|6.9|
92241090|NCT00337467|184385301|SUPERIORITY_OR_OTHER||Mean Change|2.0|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|-6.0|10.2|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting HDL Cholesterol at Week 96||10.2|-6.0|
92241091|NCT00337467|184385301|SUPERIORITY_OR_OTHER||Mean Change|19.0|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|10.3|28.4|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Non-HDL Cholesterol at Week 96||28.4|10.3|
92241092|NCT00337467|184385301|SUPERIORITY_OR_OTHER||Mean Change|29.0|STANDARD_ERROR_OF_MEAN|6.5|||TWO_SIDED|95.0|15.3|42.0|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting LDL Cholesterol at Week 96||42.0|15.3|
92280817|NCT02114307|184464639|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92450067|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.608|TWO_SIDED|95.0|-4.9|2.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.9|-4.9|0.608
92450068|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.9||||0.343|TWO_SIDED|95.0|-6.0|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-6.0|0.343
92450069|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|1.7||||0.419|TWO_SIDED|95.0|-2.5|5.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.9|-2.5|0.419
92450070|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|1.1||||0.562|TWO_SIDED|95.0|-2.8|5.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.1|-2.8|0.562
92450071|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.3||||0.525|TWO_SIDED|95.0|-5.3|2.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.7|-5.3|0.525
92450072|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.0||||0.148|TWO_SIDED|95.0|-7.0|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-7.0|0.148
92450073|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.3||||0.546|TWO_SIDED|95.0|-5.4|2.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.9|-5.4|0.546
92450074|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.7||||0.068|TWO_SIDED|95.0|-7.6|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-7.6|0.068
92450075|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.5||||0.208|TWO_SIDED|95.0|-6.5|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-6.5|0.208
92450076|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.4||||0.099|TWO_SIDED|95.0|-7.5|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-7.5|0.099
92450077|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.731|TWO_SIDED|95.0|-3.6|5.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.1|-3.6|0.731
92450078|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.861|TWO_SIDED|95.0|-4.5|3.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.8|-4.5|0.861
92450079|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.621|TWO_SIDED|95.0|-5.2|3.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.1|-5.2|0.621
92450080|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.2||||0.288|TWO_SIDED|95.0|-6.4|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-6.4|0.288
92450081|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.861|TWO_SIDED|95.0|-3.5|4.1|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||4.1|-3.5|0.861
92450082|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.954|TWO_SIDED|95.0|-4.0|3.7|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.7|-4.0|0.954
92450083|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.6||||0.419|TWO_SIDED|95.0|-5.5|2.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|-5.5|0.419
92450084|NCT00406029|184786734|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.2||||0.088|TWO_SIDED|95.0|-6.9|0.5|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-6.9|0.088
92450085|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.924|TWO_SIDED|95.0|-3.5|3.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.2|-3.5|0.924
92450086|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.84|TWO_SIDED|95.0|-3.8|3.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.1|-3.8|0.840
92450087|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.599|TWO_SIDED|95.0|-4.4|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|-4.4|0.599
92450088|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.6||||0.134|TWO_SIDED|95.0|-6.0|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-6.0|0.134
92241093|NCT00337467|184385301|SUPERIORITY_OR_OTHER||Mean Change|16.0|STANDARD_ERROR_OF_MEAN|12.5|||TWO_SIDED|95.0|-9.5|41.6|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Triglycerides at Week 96||41.6|-9.5|
92172564|NCT04784559|184235605|SUPERIORITY||Odds Ratio (OR)|1.69||||0.091|TWO_SIDED|95.0|0.92|3.11||2-sided|p-value based on proportional odds model|Proportional odds model with fixed effects of treatment group and randomisation stratification factors|Adjusted Odds Ratio and 95% CI based on a proportional odds model with fixed effects of treatment group and randomisation stratification factors|Plitidepsin 1.5 mg arm versus Control arm||3.11|0.920|0.0910
92241094|NCT01187901|184385306|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92450089|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.846|TWO_SIDED|94.0|-4.1|3.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.3|-4.1|0.846
92450090|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.467|TWO_SIDED|95.0|-2.3|5.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.0|-2.3|0.467
92450091|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.2||||0.533|TWO_SIDED|95.0|-4.8|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|-4.8|0.533
92450092|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.1||||0.094|TWO_SIDED|95.0|-6.7|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-6.7|0.094
92450093|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.994|TWO_SIDED|95.0|-3.7|3.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.7|-3.7|0.994
92450094|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.944|TWO_SIDED|95.0|-3.5|3.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.8|-3.5|0.944
92450095|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.424|TWO_SIDED|95.0|-5.1|2.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-5.1|0.424
92450096|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-4.0||||0.042|TWO_SIDED|95.0|-7.8|-0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.2|-7.8|0.042
92450097|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|3.7||||0.075|TWO_SIDED|95.0|-0.4|7.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||7.8|-0.4|0.075
92450098|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|3.9||||0.052|TWO_SIDED|95.0|0.0|7.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||7.8|0.0|0.052
92450099|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.975|TWO_SIDED|95.0|-4.0|3.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.9|-4.0|0.975
92450100|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.2||||0.541|TWO_SIDED|95.0|-5.2|2.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.8|-5.2|0.541
92450101|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.931|TWO_SIDED|95.0|-4.1|3.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.7|-4.1|0.931
92450102|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.618|TWO_SIDED|95.0|-4.7|2.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.8|-4.7|0.618
92450103|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.8||||0.341|TWO_SIDED|95.0|-5.6|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-5.6|0.341
92450104|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.2||||0.256|TWO_SIDED|95.0|-6.0|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-6.0|0.256
92450105|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|1.8||||0.399|TWO_SIDED|95.0|-2.4|6.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||6.0|-2.4|0.399
92172565|NCT03336333|184235654|SUPERIORITY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.28|0.63||One-sided|Log Rank|||||0.63|0.28|<0.0001
92241095|NCT01187901|184385307|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92241096|NCT01187901|184385308|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92241097|NCT01187901|184385309|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92241098|NCT01187901|184385310|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92241099|NCT01187901|184385311|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92241100|NCT03141086|184385312|SUPERIORITY||Mean Difference (Final Values)|1.711||||0.1272|TWO_SIDED|95.0|-1.34|4.762|||ANOVA|||||4.762|-1.340|0.1272
92241101|NCT03141086|184385313|SUPERIORITY||Mean Difference (Final Values)|2.866||||0.0607|TWO_SIDED|95.0|-0.821|6.553|||Mixed Models Analysis|||3.5 hours post dose||6.553|-0.821|0.0607
92241102|NCT03141086|184385313|SUPERIORITY||Mean Difference (Net)|1.975||||0.0919|TWO_SIDED|95.0|-1.024|4.973|||Mixed Models Analysis|||5.5 hours post dose||4.973|-1.024|0.0919
92241103|NCT03141086|184385313|SUPERIORITY||Mean Difference (Net)|1.576||||0.0811|TWO_SIDED|95.0|-0.697|3.848|||Mixed Models Analysis|||7.5 hours post dose||3.848|-0.697|0.0811
92280818|NCT02114307|184464640|SUPERIORITY|||||||0.0023|||||||t-test, 2 sided|||Sham Group - 6 week Time Point - Pre-stimulation versus Post-Stimulation||||0.0023
92172566|NCT05671029|184235684|NON_INFERIORITY|Null hypothesis: difference to placebo of change from baseline QTcF ≥ 10 ms.|Prediction @ mean max concentration|0.8|||<|0.05|TWO_SIDED|90.0|-1.3|2.9|||Mixed Models Analysis|||||2.9|-1.3|<0.05
92172567|NCT03665597|184235690|OTHER|Geometric Least-Square Mean Ratio (GMR) = GM of Pembrolizumab 130 mg/mL SC/GM of Pembrolizumab 200 mg IV|GMR|0.73|||||TWO_SIDED|90.0|0.68|0.78||||||||0.78|0.68|
92172568|NCT03665597|184235690|OTHER|GMR = GM of Pembrolizumab 165 mg/mL SC/GM of Pembrolizumab 200 mg IV|GMR|0.69|||||TWO_SIDED|90.0|0.64|0.74||||||||0.74|0.64|
92172569|NCT03665597|184235691|OTHER|GMR = GM of Pembrolizumab 130 mg/mL SC/GM of Pembrolizumab 200 mg IV|Geometric Least-Square Mean Ratio|0.4|||||TWO_SIDED|90.0|0.36|0.44||||||||0.44|0.36|
92172570|NCT03665597|184235691|OTHER|GMR = GM of Pembrolizumab 165 mg/mL SC/GM of Pembrolizumab 200 mg IV|Geometric Least-Square Mean Ratio|0.38|||||TWO_SIDED|90.0|0.34|0.41||||||||0.41|0.34|
92172571|NCT05516147|184235713|SUPERIORITY||||||<|0.01||||||A one-sample t-test was used to assess whether the mean was different from a known Constructive Engagement mean of 0.85 for standard programming.|t-test, 2 sided|||A one-sample t-test was used to assess whether the mean was different from a known Constructive Engagement mean of 0.85 for standard programming.||||<.01
92172572|NCT05516147|184235714|SUPERIORITY||||||<|0.01||||||A one-sample t-test was used to assess whether the mean was different from a known Passive Engagement mean of 1.06 for standard programming.|t-test, 2 sided|A one-sample t-test was used to assess whether the mean was different from a known Passive Engagement mean of 1.06 for standard programming.||A one-sample t-test was used to assess whether the mean was different from a known Passive Engagement mean of 1.06 for standard programming.||||<.01
92172573|NCT05516147|184235715|SUPERIORITY|||||||0.06||||||A one-sample t-test was used to assess whether the mean was different from a known Other Engagement mean of 0.42 for standard programming.|t-test, 2 sided|A one-sample t-test was used to assess whether the mean was different from a known Other Engagement mean of 0.42 for standard programming.||A one-sample t-test was used to assess whether the mean was different from a known Other Engagement mean of 0.42 for standard programming.||||0.06
92172574|NCT05516147|184235716|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||A one-sample t-test was used to assess whether the mean was different from a known Non Engagement mean of 0.40 for standard programming.||||<.01
92450106|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|1.4||||0.477|TWO_SIDED|95.0|-2.5|5.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.4|-2.5|0.477
92450107|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.8||||0.172|TWO_SIDED|95.0|-6.8|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-6.8|0.172
92450108|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.3||||0.254|TWO_SIDED|95.0|-6.2|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-6.2|0.254
92450109|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.972|TWO_SIDED|95.0|-3.6|3.8|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.8|-3.6|0.972
92450110|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.891|TWO_SIDED|95.0|-3.5|4.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||4.0|-3.5|0.891
92450111|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.8||||0.143|TWO_SIDED|95.0|-6.6|1.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-6.6|0.143
92450112|NCT00406029|184786735|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.2||||0.083|TWO_SIDED|95.0|-6.8|0.4|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-6.8|0.083
92450113|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.154|TWO_SIDED|95.0|-0.2|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.2|0.154
92450114|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.38|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.4|0.380
92172575|NCT05516147|184235718|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||baseline score vs. post-treatment, paired sample t-test||||0.81
92172576|NCT05516147|184235719|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||baseline vs. post-treatment, paired sample t-test||||0.20
92450115|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.288|TWO_SIDED|95.0|-0.3|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-0.3|0.288
92172577|NCT05516147|184235720|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||baseline vs. post-treatment, paired sample t-test||||0.83
92172578|NCT05516147|184235721|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||baseline vs. post-treatment, paired sample t-test||||0.320
92172579|NCT04093752|184235820|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.4% noninferiority (NI) boundary, 0.45% greater mean reduction in tirzepatide doses compared to insulin glargine, 1:1:1:1 randomization, a common standard deviation (SD) of 1.2%, one-sided significance level of 0.0125 and a dropout rate of 25%.|LS Mean Difference|-1.49|||||TWO_SIDED|95.0|-1.69|-1.29||||||||-1.29|-1.69|
92172580|NCT04093752|184235820|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.4% NI boundary, 0.45% greater mean reduction in tirzepatide doses compared to insulin glargine, 1:1:1:1 randomization, a common SD of 1.2%, one-sided significance level of 0.0125 and a dropout rate of 25%.|LS Mean Difference|-1.54|||||TWO_SIDED|95.0|-1.74|-1.34||||||||-1.34|-1.74|
92280819|NCT02114307|184464640|SUPERIORITY|||||||0.0815|||||||t-test, 2 sided|||Test Group - 6 week Time Point - Pre-stimulation versus Post-Stimulation||||0.0815
92280820|NCT02114307|184464641|SUPERIORITY|||||||0.127|||||||t-test, 1 sided|||||||0.127
92172581|NCT04093752|184235821|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.4% NI boundary, 0.45% greater mean reduction in tirzepatide doses compared to insulin glargine, 1:1:1:1 randomization, a common SD of 1.2%, one-sided significance level of 0.0125 and a dropout rate of 25%.|LS Mean Difference|-1.29|||||TWO_SIDED|95.0|-1.49|-1.09||||||||-1.09|-1.49|
92450116|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.355|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.4|0.355
92450117|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.831|TWO_SIDED|94.0|-0.8|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.8|0.831
92450118|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.198|TWO_SIDED|95.0|-1.2|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-1.2|0.198
92450119|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.792|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.8|0.792
92450120|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.749|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.8|0.749
92450121|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.896|TWO_SIDED|95.0|-0.8|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.8|0.896
92450122|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.48|TWO_SIDED|95.0|-0.5|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.5|0.480
92450123|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.285|TWO_SIDED|95.0|-0.4|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.4|0.285
92450124|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.212|TWO_SIDED|95.0|-0.3|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-0.3|0.212
92450125|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.883|TWO_SIDED|95.0|-0.9|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.9|0.883
92450126|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.947|TWO_SIDED|95.0|-0.9|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.9|0.947
92450127|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.663|TWO_SIDED|95.0|-1.1|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-1.1|0.663
92450128|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.157|TWO_SIDED|95.0|-0.3|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.3|0.157
92450129|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.283|TWO_SIDED|95.0|-1.4|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.4|0.283
92450130|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.768|TWO_SIDED|95.0|-1.0|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-1.0|0.768
92450131|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.334|TWO_SIDED|95.0|-1.3|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.3|0.334
92450132|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.465|TWO_SIDED|95.0|-1.2|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.2|0.465
92450133|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.688|TWO_SIDED|95.0|-1.2|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-1.2|0.688
92450134|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.062|TWO_SIDED|95.0|0.0|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|0.0|0.062
92450135|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.579|TWO_SIDED|95.0|-1.2|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-1.2|0.579
92450136|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.644|TWO_SIDED|95.0|-0.7|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.7|0.644
92450137|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.825|TWO_SIDED|95.0|-0.8|1.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.8|0.825
92450138|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.233|TWO_SIDED|95.0|-0.3|1.4|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-0.3|0.233
92450139|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.853|TWO_SIDED|95.0|-0.8|1.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.8|0.853
92172582|NCT04093752|184235822|SUPERIORITY||LS Mean Difference|-6.5|||<|0.001|TWO_SIDED|95.0|-7.4|-5.6|||Mixed Models Analysis|||||-5.6|-7.4|<0.001
92172583|NCT04093752|184235822|SUPERIORITY||LS Mean Difference|-8.5|||<|0.001|TWO_SIDED|95.0|-9.5|-7.6|||Mixed Models Analysis|||||-7.6|-9.5|<0.001
92241104|NCT03141086|184385313|SUPERIORITY||Mean Difference (Net)|0.879||||0.2026|TWO_SIDED|95.0|-1.268|3.026|||Mixed Models Analysis|||9.5 hours post dose||3.026|-1.268|0.2026
92172584|NCT04093752|184235822|SUPERIORITY||LS Mean Difference|-8.7|||<|0.001|TWO_SIDED|95.0|-9.6|-7.7|||Mixed Models Analysis|||||-7.7|-9.6|<0.001
92172585|NCT04093752|184235823|SUPERIORITY||Odds Ratio (OR)|14.54|||<|0.001|TWO_SIDED|95.0|8.94|23.64|||Regression, Logistic|||||23.64|8.94|<0.001
92172586|NCT04093752|184235823|SUPERIORITY||Odds Ratio (OR)|28.76|||<|0.001|TWO_SIDED|95.0|16.72|49.49|||Regression, Logistic|||||49.49|16.72|<0.001
92241105|NCT01128972|184385328|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.66|||<|0.0001|TWO_SIDED|95.0|7.09|16.24||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and test dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||16.24|7.09|<0.0001
92241106|NCT01128972|184385328|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|26.6|||<|0.0001|TWO_SIDED|95.0|22.02|31.18||No adjustments made for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and reference dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||31.18|22.02|<0.0001
92450140|NCT00406029|184786736|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.592|TWO_SIDED|95.0|-0.6|1.1|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-0.6|0.592
92450141|NCT00812812|184786737|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.6||||0.198|TWO_SIDED|95.0|-11.7|2.5|||ANCOVA||Mean difference was estimated as paroxetine minus placebo.|||2.5|-11.7|0.198
92450142|NCT02114892|184786742|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131|||||||Wilcoxon (Mann-Whitney)|||||||0.131
92450143|NCT02114892|184786743|SUPERIORITY_OR_OTHER_LEGACY|||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||0.859
92450144|NCT02114892|184786744|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.070
92450145|NCT02114892|184786745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.338|||||||Wilcoxon (Mann-Whitney)|||||||0.338
92450146|NCT02114892|184786746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.278|||||||Wilcoxon (Mann-Whitney)|||||||0.278
92450147|NCT02114892|184786747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92450148|NCT02114892|184786748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.083|||||||Wilcoxon (Mann-Whitney)|||||||0.083
92450149|NCT02114892|184786749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92450150|NCT02114892|184786750|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92450151|NCT02114892|184786751|SUPERIORITY_OR_OTHER_LEGACY|||||||0.946|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.946
92450152|NCT02114892|184786752|SUPERIORITY_OR_OTHER_LEGACY|||||||0.365|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.365
92450153|NCT02114892|184786753|SUPERIORITY_OR_OTHER_LEGACY|||||||0.557|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.557
92450154|NCT02114892|184786754|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92450155|NCT02114892|184786755|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92450156|NCT02114892|184786756|SUPERIORITY_OR_OTHER_LEGACY|||||||0.672|||||||Wilcoxon (Mann-Whitney)|||||||0.672
92450157|NCT00718042|184786779|SUPERIORITY_OR_OTHER||Specificity|99.86|||||TWO_SIDED|95.0|99.79|99.91|||Point Estimate||Numerator = All blood donors tested nonreactive from all True Negative blood donors (16,223) Denominator = All True Negative blood donors (16,246) True Negative excludes donor specimens positive by supplemental testing (3)|||99.91|99.79|
92450158|NCT00718042|184786781|SUPERIORITY_OR_OTHER||Point estimate|100.0|||||TWO_SIDED|95.0|96.7|100.0|||Sensitivity|||||100.00|96.70|
92450159|NCT00718042|184786784|SUPERIORITY_OR_OTHER||Percentage|99.1|||||TWO_SIDED|95.0|97.4|99.8|||Percentage Negative|||||99.8|97.4|
92450160|NCT04327934|184786788|EQUIVALENCE|We compared groups across treatments||||||0.018|||||||ANOVA|||||||0.018
92450161|NCT04327934|184786789|EQUIVALENCE|We compared across groups and within groups over time.|||||<|0.016|||||||ANOVA|||||||<0.016
92450162|NCT04327934|184786789|EQUIVALENCE|We compared across groups and within groups over time.||||||0.08|||||||ANOVA|||||||0.08
92450163|NCT04327934|184786792|OTHER|||||||0.05||||||Friedman's tests to compare slopes|Friedman's test|||||||0.05
92450164|NCT04327934|184786794|OTHER|||||||0.023|||||||t-test, 2 sided|||||||0.023
92450165|NCT04327934|184786794|OTHER||||||<|0.04|||||||ANOVA|||||||<0.04
92450166|NCT04327934|184786795|EQUIVALENCE|We compared groups across treatments||||||0.0023|||||||ANOVA|||||||0.0023
92450167|NCT04327934|184786796|OTHER||||||<|0.04|||||||ANOVA|||||||<0.04
92450168|NCT04327934|184786797|OTHER||||||<|0.04|||||||ANOVA|||||||<0.04
92450169|NCT02443298|184786798|SUPERIORITY||Hazard Ratio (HR)|1.46||||0.0255|TWO_SIDED|80.0|1.18|1.81|||Cox proportional hazards model||Comparison of Risankizumab to Placebo|This was analyzed by using a Cox proportional hazards model that included treatment and the stratification factor of OCS use at baseline as fixed effects.||1.81|1.18|0.0255
92450170|NCT02443298|184786799|SUPERIORITY||Hazard Ratio (HR)|1.47||||0.0131|TWO_SIDED|80.0|1.2|1.79|||Cox proportional hazards model||Comparison of Risankizumab to Placebo|This was analyzed by using a Cox proportional hazards model that included treatment and the stratification factor of OCS use at baseline as fixed effects.||1.79|1.20|0.0131
92450171|NCT02443298|184786800|SUPERIORITY||Rate Ratio|1.4937|STANDARD_ERROR_OF_MEAN|0.22||0.0065|TWO_SIDED|80.0|1.2366|1.8044|||Negative binomial regression||Comparison of Risankizumab to Placebo|Annualized rate is obtained from fitting a negative binomial regression including logarithm of the exposure as an offset, treatment, and OCS use at baseline as covariate.||1.8044|1.2366|0.0065
92172587|NCT04093752|184235823|SUPERIORITY||Odds Ratio (OR)|25.27|||<|0.001|TWO_SIDED|95.0|14.88|42.95|||Regression, Logistic|||||42.95|14.88|<0.001
92172588|NCT04093752|184235824|SUPERIORITY||Odds Ratio (OR)|82.54||||0.002|TWO_SIDED|95.0|5.13|1327.81|||Regression, Logistic|||||1327.81|5.13|0.002
92172589|NCT04093752|184235824|SUPERIORITY||Odds Ratio (OR)|124.76|||<|0.001|TWO_SIDED|95.0|7.79|1997.01|||Regression, Logistic|||||1997.01|7.79|<0.001
92450172|NCT02443298|184786801|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.4619|TWO_SIDED|80.0|0.88|1.57|||Cox proportional hazards model||Comparison of Risankizumab to Placebo|Time to first event is obtained from fitting a Cox proportional-hazards model including treatment, and OCS use at baseline as covariate||1.57|0.88|0.4619
92450173|NCT02443298|184786802|SUPERIORITY||Rate Ratio|1.1317|STANDARD_ERROR_OF_MEAN|0.237||0.555|TWO_SIDED|80.0|0.8652|1.4803|||Negative binomial regression||Comparison of Risankizumab to Placebo|Annualized rate is obtained from fitting a negative binomial regression including logarithm of the exposure as an offset, treatment, and OCS use at baseline as covariate.||1.4803|0.8652|0.5550
92450174|NCT02443298|184786803|SUPERIORITY||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.051||0.4423|TWO_SIDED|80.0|-0.104|0.026|||Mixed Models Analysis|Unstructured covariance structure for within-patient variation|Comparison of Risankizumab to Placebo|The adjusted mean (SE) are obtained from fitting a mixed effect repeated measures (MMRM) model including treatment, OCS use at baseline, test day, treatment-by-test day interaction, baseline, and baseline-by-test day interaction as covariates patient as a random effect.||0.026|-0.104|0.4423
92450175|NCT02443298|184786804|SUPERIORITY||Mean Difference (Final Values)|-0.068|STANDARD_ERROR_OF_MEAN|0.045||0.1377|TWO_SIDED|80.0|-0.126|-0.009|||Mixed Models Analysis|Unstructured covariance structure for within-patient variation|Comparison of Risankizumab to Placebo|The adjusted mean (SE) are obtained from fitting a mixed effect repeated measures (MMRM) model including treatment, OCS use at baseline, test day, treatment-by-test day interaction, baseline, and baseline-by-test day interaction as covariates patient as a random effect.||-0.009|-0.126|0.1377
92450176|NCT02443298|184786805|SUPERIORITY||Mean Difference (Final Values)|0.149|STANDARD_ERROR_OF_MEAN|0.115||0.1985|TWO_SIDED|80.0|0.0|0.297|||ANCOVA||Comparison of Risankizumab to Placebo|The adjusted mean (SE) are obtained from fitting an analysis of covariance (ANCOVA) model separately for each week including treatment, OCS use at baseline, and baseline as covariates. The weekly averages of daily measurements are calculated before fitting the model.||0.297|0.000|0.1985
92450177|NCT03095417|184786806|SUPERIORITY|||||||0.747|||||||Mixed Models Analysis|||||||0.747
92450178|NCT03095417|184786807|SUPERIORITY|||||||0.032|||||||Mixed Models Analysis|||||||0.032
92450179|NCT03095417|184786808|SUPERIORITY|||||||0.264|||||||Mixed Models Analysis|||||||0.264
92450180|NCT03095417|184786809|SUPERIORITY|||||||0.511|||||||Mixed Models Analysis|||||||0.511
92450181|NCT03095417|184786810|SUPERIORITY|||||||0.677|||||||Mixed Models Analysis|||||||0.677
92450182|NCT03095417|184786811|SUPERIORITY|||||||0.815|||||||Mixed Models Analysis|||||||0.815
92450183|NCT03095417|184786812|SUPERIORITY|||||||0.719|||||||Mixed Models Analysis|||||||0.719
92450184|NCT03095417|184786813|SUPERIORITY|||||||0.346|||||||Mixed Models Analysis|||||||0.346
92450185|NCT03095417|184786814|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||||||0.910
92450186|NCT03095417|184786815|SUPERIORITY|||||||0.794|||||||Mixed Models Analysis|||||||0.794
92450187|NCT03095417|184786816|SUPERIORITY|||||||0.626|||||||Mixed Models Analysis|||||||0.626
92450188|NCT03095417|184786817|SUPERIORITY|||||||0.774|||||||Mixed Models Analysis|||||||0.774
92450189|NCT02571452|184786818|SUPERIORITY||Mean Difference (Net)|-3.6|STANDARD_ERROR_OF_MEAN|1.53||0.021|TWO_SIDED|95.0|-6.65|-0.55||The threshold for statistical significance was p=.05.|Mixed Models Analysis|||||-0.55|-6.65|.021
92450190|NCT02571452|184786819|SUPERIORITY||Mean Difference (Net)|0.52|STANDARD_ERROR_OF_MEAN|0.57||0.568|TWO_SIDED|95.0|-1.26|2.3||The threshold for statistical significance was p=.05.|Mixed Models Analysis|||||2.30|-1.26|.568
92450191|NCT02571452|184786820|SUPERIORITY||Mean Difference (Net)|-4.1|STANDARD_ERROR_OF_MEAN|0.89|<|0.001|TWO_SIDED|95.0|-5.87|-2.33||The threshold for statistical significance was p=.05.|Mixed Models Analysis|||||-2.33|-5.87|<.001
92450192|NCT02571452|184786821|SUPERIORITY||Mean Difference (Net)|-0.66|STANDARD_ERROR_OF_MEAN|0.49||0.173|TWO_SIDED|95.0|-1.61|0.29||The threshold for statistical significance was p=.05.|Mixed Models Analysis|||||0.29|-1.61|.173
92450193|NCT03161314|184786822|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||Baseline||||0.660
92450194|NCT03161314|184786822|SUPERIORITY|||||||0.734|||||||t-test, 2 sided|||2 weeks after the intervention||||0.734
92450195|NCT03161314|184786822|SUPERIORITY|||||||0.629|||||||t-test, 2 sided|||4 weeks after the intervention||||0.629
92450196|NCT03161314|184786822|SUPERIORITY|||||||0.752|||||||t-test, 2 sided|||1-month follow-up||||0.752
92450197|NCT03161314|184786822|SUPERIORITY|||||||0.512|||||||t-test, 2 sided|||2-month follow-up||||0.512
92450198|NCT03161314|184786822|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
92450199|NCT03161314|184786822|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
92450200|NCT03161314|184786823|SUPERIORITY|||||||0.128|||||||t-test, 2 sided|||Baseline||||0.128
92450201|NCT03161314|184786823|SUPERIORITY|||||||0.889|||||||t-test, 2 sided|||2 weeks after the intervention||||0.889
92450202|NCT03161314|184786823|SUPERIORITY|||||||0.793|||||||t-test, 2 sided|||4 weeks after the intervention||||0.793
92450203|NCT03161314|184786823|SUPERIORITY|||||||0.602|||||||t-test, 2 sided|||1-month follow-up||||0.602
92450204|NCT03161314|184786823|SUPERIORITY|||||||0.574|||||||t-test, 2 sided|||2-month follow-up||||0.574
92450205|NCT03161314|184786823|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
92450206|NCT03161314|184786823|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
92450207|NCT03161314|184786824|SUPERIORITY|||||||0.374|||||||t-test, 2 sided|||Baseline||||0.374
92450208|NCT03161314|184786824|SUPERIORITY|||||||0.674|||||||t-test, 2 sided|||2 weeks after the intervention||||0.674
92450209|NCT03161314|184786824|SUPERIORITY|||||||0.781|||||||t-test, 2 sided|||4 weeks after the intervention||||0.781
92450210|NCT03161314|184786824|SUPERIORITY|||||||0.778|||||||t-test, 2 sided|||1-month follow-up||||0.778
92450211|NCT03161314|184786824|SUPERIORITY|||||||0.727|||||||t-test, 2 sided|||2-month follow-up||||0.727
92450212|NCT03161314|184786824|SUPERIORITY|||||||0.014|||||||ANOVA|||Within group comparison||||0.014
92450213|NCT03161314|184786824|SUPERIORITY|||||||0.002|||||||ANOVA|||Within group comparison||||0.002
92241107|NCT01128972|184385328|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|37.17|||<|0.0001|TWO_SIDED|95.0|32.59|41.74||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and placebo dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||41.74|32.59|<0.0001
92241108|NCT01128972|184385329|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.11||||0.0083|TWO_SIDED|95.0|1.07|7.15||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and test dentifrice + Sterile water rinse to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||7.15|1.07|0.0083
92241109|NCT01128972|184385329|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|11.25|||<|0.0001|TWO_SIDED|95.0|8.22|14.29||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect)|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and reference dentifrice + Sterile water rinse treatment regimen to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||14.29|8.22|<0.0001
92241110|NCT01128972|184385329|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.56|||<|0.0001|TWO_SIDED|95.0|8.53|14.6||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect)|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and placebo dentifrice + Sterile water rinse treatment regimen to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||14.60|8.53|<0.0001
92241111|NCT01128972|184385330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.88||||0.7041|TWO_SIDED|95.0|-5.46|3.69||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Placebo Dentifrice + Test MR and Test dentifrice+ Test MR treatment regimen treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||3.69|-5.46|0.7041
92241112|NCT01128972|184385330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.78|||<|0.0001|TWO_SIDED|95.0|6.21|15.36||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Placebo dentifrice+ test MR treatment regimen and test dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||15.36|6.21|<0.0001
92280821|NCT02275364|184464651|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|15.28|||<|0.0001|TWO_SIDED|95.0|12.32|18.25||Obtained from ANOVA model with Treatment and Period as fixed effects and subject as a random effect.|ANOVA||Adjusted Mean Difference is the treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||18.25|12.32|<0.0001
92280822|NCT02275364|184464652|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.93||||0.7366|TWO_SIDED|95.0|-6.43|4.57||Obtained from ANOVA with treatment, period and region of interest as fixed effects and subject as a random effect.|ANCOVA||Adjusted Mean Difference is the Treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||4.57|-6.43|0.7366
92241113|NCT01128972|184385330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|25.72|||<|0.0001|TWO_SIDED|95.0|21.14|30.29||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the Placebo dentifrice+ Test MR treatment regimen and Reference dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||30.29|21.14|<0.0001
92241114|NCT01128972|184385330|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|36.29|||<|0.0001|TWO_SIDED|95.0|31.71|40.86||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Placebo dentifrice+ test MR treatment regimen and Placebo dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||40.86|31.71|<0.0001
92280823|NCT02275364|184464653|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1533.74||||0.0004|TWO_SIDED|95.0|794.16|2273.32||Obtained from ANOVA model with Treatment and Period as fixed effects and subject as a random effect.|ANOVA||Adjusted Mean Difference is the Treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||2273.32|794.16|0.0004
92450214|NCT03161314|184786825|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||Baseline||||0.390
92450215|NCT03161314|184786825|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||2 weeks after the intervention||||0.770
92450216|NCT03161314|184786825|SUPERIORITY|||||||0.603|||||||t-test, 2 sided|||4 weeks after the intervention||||0.603
92450217|NCT03161314|184786825|SUPERIORITY|||||||0.922|||||||t-test, 2 sided|||1-month follow-up||||0.922
92450218|NCT03161314|184786825|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||2-month follow-up||||0.560
92450219|NCT03161314|184786825|SUPERIORITY|||||||0.181|||||||ANOVA|||Within group comparison||||0.181
92172590|NCT04093752|184235824|SUPERIORITY||Odds Ratio (OR)|184.9|||<|0.001|TWO_SIDED|95.0|11.59|2950.73|||Regression, Logistic|||||2950.73|11.59|<0.001
92172591|NCT04093752|184235825|SUPERIORITY||LS Mean Difference|-12.3|||<|0.001|TWO_SIDED|95.0|-18.3|-6.3|||Mixed Models Analysis|||||-6.3|-18.3|<0.001
92172592|NCT04093752|184235825|SUPERIORITY||LS Mean Difference|-20.0|||<|0.001|TWO_SIDED|95.0|-26.1|-13.9|||Mixed Models Analysis|||||-13.9|-26.1|<0.001
92172593|NCT04093752|184235825|SUPERIORITY||LS Mean Difference|-18.6|||<|0.001|TWO_SIDED|95.0|-24.6|-12.5|||Mixed Models Analysis|||||-12.5|-24.6|<0.001
92172594|NCT04093752|184235826|SUPERIORITY||LS Mean Difference|-34.2|||<|0.001|TWO_SIDED|95.0|-40.1|-28.3|||Mixed Models Analysis|||||-28.3|-40.1|<0.001
92172595|NCT04093752|184235826|SUPERIORITY||LS Mean Difference|-40.6|||<|0.001|TWO_SIDED|95.0|-46.7|-34.6|||Mixed Models Analysis|||||-34.6|-46.7|<0.001
92172596|NCT04093752|184235826|SUPERIORITY||LS Mean Difference|-41.8|||<|0.001|TWO_SIDED|95.0|-47.9|-35.8|||Mixed Models Analysis|||||-35.8|-47.9|<0.001
92172597|NCT04093752|184235827|SUPERIORITY||Odds Ratio (OR)|21.89|||<|0.001|TWO_SIDED|95.0|11.63|41.2|||Regression, Logistic|||||41.20|11.63|<0.001
92172598|NCT04093752|184235827|SUPERIORITY||Odds Ratio (OR)|43.79|||<|0.001|TWO_SIDED|95.0|22.96|83.5|||Regression, Logistic|||||83.50|22.96|<0.001
92172599|NCT04093752|184235827|SUPERIORITY||Odds Ratio (OR)|48.41|||<|0.001|TWO_SIDED|95.0|25.34|92.49|||Regression, Logistic|||||92.49|25.34|<0.001
92172600|NCT04093752|184235828|SUPERIORITY||LS Mean Difference|-0.47||||0.007|TWO_SIDED|95.0|-0.81|-0.13|||ANCOVA|||Hyperglycemia||-0.13|-0.81|0.007
92172601|NCT04093752|184235828|SUPERIORITY||LS Mean Difference|-0.77|||<|0.001|TWO_SIDED|95.0|-1.11|-0.43|||ANCOVA|||Hyperglycemia||-0.43|-1.11|<0.001
92172602|NCT04093752|184235828|SUPERIORITY||LS Mean Difference|-0.71|||<|0.001|TWO_SIDED|95.0|-1.05|-0.36|||ANCOVA|||Hyperglycemia||-0.36|-1.05|<0.001
92172603|NCT04093752|184235828|SUPERIORITY||LS Mean Difference|-0.14||||0.384|TWO_SIDED|95.0|-0.46|0.18|||ANCOVA|||Hypoglycemia||0.18|-0.46|0.384
92172604|NCT04093752|184235828|SUPERIORITY||LS Mean Difference|-0.17||||0.307|TWO_SIDED|95.0|-0.49|0.16|||ANCOVA|||Hypoglycemia||0.16|-0.49|0.307
92450220|NCT03161314|184786825|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
92450221|NCT03161314|184786826|SUPERIORITY|||||||0.334|||||||t-test, 2 sided|||Baseline||||0.334
92450222|NCT03161314|184786826|SUPERIORITY|||||||0.766|||||||t-test, 2 sided|||2 weeks after the intervention||||0.766
92450223|NCT03161314|184786826|SUPERIORITY|||||||0.598|||||||t-test, 2 sided|||4 weeks after the intervention||||0.598
92450224|NCT03161314|184786826|SUPERIORITY|||||||0.682|||||||t-test, 2 sided|||1-month follow-up||||0.682
92450225|NCT03161314|184786826|SUPERIORITY|||||||0.707|||||||t-test, 2 sided|||2-month follow-up||||0.707
92450226|NCT03161314|184786826|SUPERIORITY|||||||0.008|||||||ANOVA|||Within group comparison||||0.008
92450227|NCT03161314|184786826|SUPERIORITY|||||||0.002|||||||ANOVA|||Within group comparison||||0.002
92450228|NCT03161314|184786827|SUPERIORITY|||||||0.287|||||||t-test, 2 sided|||Baseline||||0.287
92450229|NCT03161314|184786827|SUPERIORITY|||||||0.861|||||||t-test, 2 sided|||2 weeks after the intervention||||0.861
92450230|NCT03161314|184786827|SUPERIORITY|||||||0.641|||||||t-test, 2 sided|||4 weeks after the intervention||||0.641
92450231|NCT03161314|184786827|SUPERIORITY|||||||0.864|||||||t-test, 2 sided|||1-month follow-up||||0.864
92450232|NCT03161314|184786827|SUPERIORITY|||||||0.888|||||||t-test, 2 sided|||2-month follow-up||||0.888
92450233|NCT03161314|184786827|SUPERIORITY|||||||0.262|||||||ANOVA|||Within group comparison||||0.262
92450234|NCT03161314|184786827|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
92450235|NCT03698773|184786838|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
92172605|NCT04093752|184235828|SUPERIORITY||LS Mean Difference|-0.22||||0.184|TWO_SIDED|95.0|-0.55|0.11|||ANCOVA|||Hypoglycemia||0.11|-0.55|0.184
92172606|NCT04093752|184235828|SUPERIORITY||LS Mean Difference|1.81|||<|0.001|TWO_SIDED|95.0|1.03|2.59|||ANCOVA|||Treatment Satisfaction Score||2.59|1.03|<0.001
92172607|NCT04093752|184235828|SUPERIORITY||LS Mean Difference|1.63|||<|0.001|TWO_SIDED|95.0|0.84|2.41|||ANCOVA|||Treatment Satisfaction Score||2.41|0.84|<0.001
92172608|NCT04093752|184235828|SUPERIORITY||LS Mean Difference|1.68|||<|0.001|TWO_SIDED|95.0|0.89|2.47|||ANCOVA|||Treatment Satisfaction Score||2.47|0.89|<0.001
92172609|NCT03811366|184235842|OTHER||||||<|0.001||||||significance when p\<0;05|generalized estimated equation|generalized estimated equation with normal distribution and logarithmic link function||||||<0.001
92172610|NCT03811366|184235845|OTHER|||||||0.054||||||significance when p\<0.05|Fisher Exact|||Recurrence or worsening of cells in anterior chamber in ERG-stable and ERG worsening group.||||0.054
92450236|NCT03698773|184786839|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92450237|NCT01599650|184786845|SUPERIORITY_OR_OTHER||difference in LS mean|10.0|STANDARD_ERROR_OF_MEAN|1.41|<|0.0001|TWO_SIDED|95.0|7.3|12.8|||ANOVA|||||12.8|7.3|<0.0001
92450238|NCT01599650|184786845|SUPERIORITY_OR_OTHER||difference in LS Means|8.7|STANDARD_ERROR_OF_MEAN|1.46|<|0.0001|TWO_SIDED|95.0|5.8|11.6|||ANOVA|||||11.6|5.8|<0.0001
92450239|NCT01731171|184786856|OTHER|The effect of treatment was calculated using logistic regression and the Cox proportional hazard function employing age, gender, and race as covariates.|Cox Proportional Hazard|0.37|||=|0.029|TWO_SIDED|95.0|||||Regression, Logistic||Values less than one favor adjunctive probiotic treatment, while values higher than one favor the placebo.|||||=.029
92450240|NCT01731171|184786857|SUPERIORITY||||||=|0.022|||||||Chi-squared|||||||=.022
92450241|NCT01731171|184786858|SUPERIORITY||||||=|0.009|||||||Regression, Linear|||||||=.009
92450242|NCT01731171|184786859|SUPERIORITY||||||=|0.017|||||||Kruskal-Wallis|||||||=.017
92450243|NCT01410110|184786860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.66|STANDARD_ERROR_OF_MEAN|4.41||0.55|TWO_SIDED|95.0|-11.57|6.25||a prior threshold p \< .05|t-test, 2 sided|df = 40||t-test for equality of means||6.25|-11.57|.55
92450244|NCT01410110|184786861|SUPERIORITY_OR_OTHER||Slope|0.162|STANDARD_ERROR_OF_MEAN|0.94||0.86|TWO_SIDED|95.0|-1.73|2.05||Time X Condition|Mixed Models Analysis|Mixed Models allows for all randomized participants (N=48) to be included in the model.||F Test (df = 1,39.32), Type III Fixed Effects for Time X Condition||2.05|-1.73|.86
92172611|NCT03811366|184235846|OTHER|||||||0.478||||||17 eyes presented dark dots fluctuation during follow up in stable ERG group when compared to 5 eyes in worsening ERG group.|generalized estimated equation|Generalized estimated equation with Poisson distribution and identity link function supposing an interchangeable correlation matrix between the eyes||||||0.478
92450245|NCT01410110|184786862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.49|STANDARD_ERROR_OF_MEAN|2.41|<|0.31|TWO_SIDED|95.0|-7.36|2.39||a priori threshold p \< .05|t-test, 2 sided|||||2.39|-7.36|<.31
92450246|NCT01410110|184786863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.952||0.87|TWO_SIDED|95.0|-1.77|2.08||a priori threshold p \< .05|t-test, 2 sided|df=39||||2.08|-1.77|.87
92450247|NCT01410110|184786864|SUPERIORITY_OR_OTHER||Slope|-0.37|STANDARD_ERROR_OF_MEAN|0.84||0.67|TWO_SIDED|95.0|-2.07|1.33|||Mixed Models Analysis|Time X Condition||Type III Fixed Effects for Time X Condition F Test (df = 1,36.86)||1.33|-2.07|.67
92450248|NCT01410110|184786865|SUPERIORITY_OR_OTHER||Slope|-0.42|STANDARD_ERROR_OF_MEAN|0.62||0.5|TWO_SIDED|95.0|-1.67|0.83|||Mixed Models Analysis|Time X Condition||Type III Fixed Effects for Time X Condition, F Test F (df = 1,42.4)||.83|-1.67|.50
92172612|NCT03811366|184235848|OTHER|9 (52.9%) eyes in ERG stable group x 4 (57.1%)eyes presented change in perivascular leakage during follow up (p=0.936).||||||0.936|||||||Generalized estimated equation|Generalized estimated equation with binomial distribution and logit link function, supposing an interchangeable correlation matrix between the eyes;||Change in perivascular leakage in ERG-stable and ERG- worsening groups.||||0.936
92241115|NCT01128972|184385331|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.39||||0.0049|TWO_SIDED|95.0|-7.43|-1.35||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis considered population means for the Placebo dentifrice+ Test MR treatment regimen and Test dentifrice + Test MR to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||-1.35|-7.43|0.0049
92280824|NCT02275364|184464654|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.46||||0.7278|TWO_SIDED|95.0|-3.06|2.14||Obtained from ANOVA model with Treatment and Period as fixed effects and subject as a random effect.|ANOVA||Adjusted Mean Difference is the Treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||2.14|-3.06|0.7278
92280825|NCT02275364|184464655|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|191.72||||0.1639|TWO_SIDED|95.0|-78.62|462.06||Obtained from ANOVA model with Treatment and Period as fixed effects and subject as a random effect.|ANCOVA||Adjusted Mean Difference is the Treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||462.06|-78.62|0.1639
92172613|NCT03811366|184235849|OTHER|||||||0.853||||||significance when p\<0.05|Generalized estimated equation|Generalized estimated equation with binomial distribution and logit link function, supposing an interchangeable correlation matrix between the eyes;||||||0.853
92172614|NCT03811366|184235850|OTHER|||||||0.272||||||significance when p\<0.05|Fisher Exact|||||||0.272
92280826|NCT02275364|184464656|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.02||||0.4621|TWO_SIDED|95.0|-0.03|0.07||Obtained from ANOVA with treatment, period and region of interest as fixed effects and subject as a random effect.|ANOVA||Adjusted Mean Difference is the Treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||0.07|-0.03|0.4621
92450249|NCT01410110|184786866|SUPERIORITY_OR_OTHER||Slope|1.16|STANDARD_ERROR_OF_MEAN|0.42||0.008|TWO_SIDED|95.0|0.32|2.01|||Mixed Models Analysis|Time X Condition||Type III Fixed Effects Time X Condition F Test (df = 1,70.15)||2.01|.32|.008
92450250|NCT01410110|184786867|SUPERIORITY_OR_OTHER||Slope|2.025|STANDARD_ERROR_OF_MEAN|0.93||0.03|TWO_SIDED|95.0|0.169|3.93|||Mixed Models Analysis|Time X Condition||Type III Fixed Effects Time X Condition F Test (df = 1,37.8)||3.93|.169|.03
92450251|NCT01410110|184786868|SUPERIORITY_OR_OTHER||Slope|3.86|STANDARD_ERROR_OF_MEAN|2.77||0.17|TWO_SIDED|95.0|-1.73|9.46||a priori p-value is .05. for two-tailed test. Positive estimated value is in the direction of the experimental condition.|Mixed Models Analysis|Time X Condition||Type III Fixed Effects for Time X Condition F Test (df = 1,39.8)||9.46|-1.73|.17
92450252|NCT01700946|184786869|SUPERIORITY|||||||0.035|||||||Log Rank|||||||0.035
92450253|NCT01700946|184786870|SUPERIORITY|||||||0.105|||||||Log Rank|||||||0.105
92450254|NCT01700946|184786871|SUPERIORITY|||||||0.1181|||||||Fisher Exact|||||||0.1181
92450255|NCT00684424|184786876|SUPERIORITY_OR_OTHER_LEGACY||R-ratio|-56.723|STANDARD_DEVIATION|46.9499||||95.0|||||summary statistic|||R-ratio of seizure frequency summaries = \[(t-b)/(t+b)\]\*100; where t= treatment seizure frequency and b= baseline seizure frequency.||||
92450256|NCT02138214|184786886|OTHER|||||||0.567||||||p-value threshold for statistical significance is 0.05|Fisher Exact|||||||0.567
92450257|NCT02138214|184786887|OTHER|||||||0.11|||||||t-test, 2 sided|||||||0.110
92450258|NCT02138214|184786889|OTHER|||||||0.758|||||||Fisher Exact|||||||0.758
92450259|NCT02138214|184786891|OTHER|||||||0.236|||||||Fisher Exact|||||||0.236
92450260|NCT02138214|184786892|OTHER|||||||0.759|||||||t-test, 2 sided|||||||0.759
92450261|NCT02138214|184786893|OTHER|||||||0.4|||||||t-test, 2 sided|||||||0.400
92450262|NCT03221257|184786904|SUPERIORITY||Mean Difference (Net)|-0.14||||0.9326|TWO_SIDED||||||Mixed Models Analysis|||||||0.9326
92450263|NCT03221257|184786905|SUPERIORITY||Mean Difference (Net)|-0.01||||0.9968|TWO_SIDED||||||Mixed Models Analysis|||||||0.9968
92450264|NCT03221257|184786906|SUPERIORITY||Mean Difference (Net)|0.46||||0.7489|TWO_SIDED||||||Mixed Models Analysis|||||||0.7489
92450265|NCT03221257|184786907|SUPERIORITY||Mean Difference (Net)|-9.2||||0.8898|TWO_SIDED||||||Mixed Models Analysis|||||||0.8898
92450266|NCT03221257|184786908|SUPERIORITY||Mean Difference (Net)|0.86||||0.3826|TWO_SIDED||||||Mixed Models Analysis|||||||0.3826
92450267|NCT03221257|184786909|SUPERIORITY||Mean Difference (Net)|-0.14||||0.2819|TWO_SIDED||||||Mixed Models Analysis|||||||0.2819
92450268|NCT03221257|184786910|SUPERIORITY||Mean Difference (Net)|-1.35||||0.7534|TWO_SIDED||||||Mixed Models Analysis|||||||0.7534
92450269|NCT03221257|184786911|SUPERIORITY||Mean Difference (Net)|-1.58||||0.1701|TWO_SIDED||||||ANCOVA|||||||0.1701
92450270|NCT03221257|184786912|SUPERIORITY||Mean Difference (Net)|-2.44||||0.3515|TWO_SIDED||||||ANCOVA|||||||0.3515
92450271|NCT03221257|184786913|SUPERIORITY||Mean Difference (Net)|-3.51||||0.1177|TWO_SIDED||||||ANCOVA|||||||0.1177
92450272|NCT03221257|184786914|SUPERIORITY||Mean Difference (Net)|-3.98||||0.1931|TWO_SIDED||||||ANCOVA|||||||0.1931
92450273|NCT03221257|184786915|SUPERIORITY||Mean Difference (Net)|121.3||||0.1811|TWO_SIDED||||||ANCOVA|||||||0.1811
92450274|NCT03221257|184786916|SUPERIORITY||Hazard Ratio (HR)|1.433||||0.3261|TWO_SIDED||||||Stratified log rank|||||||0.3261
92450275|NCT03221257|184786917|SUPERIORITY||Odds Ratio (OR)|1.6||||0.454|TWO_SIDED||||||Regression, Logistic|||||||0.454
92450276|NCT01971346|184786944|OTHER|||||||0.38||||||Type III TNF-alpha p-value=0.36. Type III IFN-alpha p-value=0.36. Interaction was not included in this model.|Regression, Linear|||A cumulative score reflecting change in PASI during the course of treatment was calculated and treated as a continuous response variable. Linear modeling was done to determine if change in PASI score was associated with the baseline TNF-alpha signal, baseline IFN-alpha signal and/or an interaction between these two signals.||||0.38
92450277|NCT01971346|184786945|OTHER|||||||0.03||||||Test of Hypotheses for Between subject effect of PASI profile p-value=0.03 Test of Hypotheses for Within subject effect of Time p-value=0.38 Test of Hypotheses for Within subject effect of Time\*PASI profile p-value=0.31|ANOVA|||The strength of the TNF-alpha cytokine signals will be treated as a response variable in a univariate repeated measure analysis of variance, with PASI response profile and time as covariates. Testing if TNF-alpha signals are significantly altered during the course of etanercept therapy and if such changes differ between subjects with different PASI response profiles.||||0.03
92450278|NCT01971346|184786946|OTHER|||||||0.34||||||Test of Hypotheses for Between subject effect of PASI profile p-value=0.34 Test of Hypotheses for Within subject effect of Time p-value=0.73 Test of Hypotheses for Within subject effect of Time\*PASI profile p-value=0.57|ANOVA|||The strength of the IFN-alpha cytokine signals will be treated as a response variable in a univariate repeated measure analysis of variance, with PASI response profile and time as covariates. Testing if IFN-alpha signals are significantly altered during the course of etanercept therapy and if such changes differ between subjects with different PASI response profiles.||||0.34
92450279|NCT02755831|184786963|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||Fisher's Exact Test||||<0.05
92450280|NCT02755831|184786964|OTHER||||||<|0.05|||||||Friedman test|Friedman's test was used to analyze differences with a post hoc Wilcoxon Ranked Sign test to compare differences at individual time points.||||||<.05
92450281|NCT02755831|184786965|OTHER||||||<|0.05|||||||Friedman|Friedman's test was used to analyze differences with a post hoc Wilcoxon Ranked Sign test to compare differences at individual time points.||||||<0.05
92450282|NCT02755831|184786966|OTHER||||||<|0.05|||||||Friedman Test|Friedman's test was used to analyze differences with a post hoc Wilcoxon Ranked Sign test to compare differences in treatment group only.||||||<0.05
92450283|NCT02755831|184786967|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|T-test used to compare mean difference in hospital costs at time of delivery.||||||<0.05
92450284|NCT04160260|184786973|EQUIVALENCE|Omadacycline 300 mg PO provided equivalent total exposure as measured by AUC relative to omadacycline 100 mg IV.|Geometric Mean Ratio|95.17|||||TWO_SIDED|90.0|84.2|107.5|||||A t-test on the natural log-transformed PK parameter AUC(0-48) was performed to obtain the Geometric Mean Ratio and its confidence interval.|Comparison was performed with the 100 mg intravenous (IV) omadacycline treatment group (data were obtained from 6 completed studies-NCT numbers not available). Using the Day 1 plasma concentration profile of the 100 mg IV QD dosing from these studies, a BID dosing on Day 1 and a QD dosing on Day 2 was simulated using the superposition principle. Log Geometric Mean (GM) AUC(0-48) of omadacycline for the 100 mg IV omadacycline group was as follows:Participants analyzed=63; GM (SD)=9.98 (0.2091).||107.5|84.2|
92287025|NCT00819741|184479223|NON_INFERIORITY_OR_EQUIVALENCE|"If non-inferiority was shown (that was if H0 was rejected), then superiority of repaglinide and metformin combination therapy compared to repaglinide monotherapy would be claimed if the upper limit of the 95% CI for the difference was lower than 0%.~The non-inferiority margin for HbA1c was set to 0.4%."|Estimated treatment difference, LS Mean|-0.302|STANDARD_ERROR_OF_MEAN|0.0096||||95.0|-0.491|-0.114|||ANCOVA|||"The non-inferiority margin for HbA1c was set to 0.4%.~The null hypothesis (H0) was:~H0: HbA1c of repaglinide + metformin therapy after 16 weeks of treatment - HbA1c of repaglinide monotherapy after 16 weeks of treatment ≥0.4%~Against the alternative hypothesis (H1):~H1: HbA1c of repaglinide + metformin therapy after 16 weeks of treatment - HbA1c of repaglinide monotherapy after 16 weeks of treatment \<0.4%"||-0.114|-0.491|
92172615|NCT03811366|184235851|OTHER|||||||0.983||||||significance when p\<0.05|Generalized estimated equation with bino|Generalized estimated equation with binomial distribution and logit link function, supposing an interchangeable correlation matrix between the eyes||||||0.983
92172616|NCT02520063|184235854|OTHER||||||||||||||||||The primary analysis was of safety and included all patients who received at least one dose of the investigational regimen. The rate of adverse events was be estimated at the end of the study along with two-sided 95% exact CIs (Clopper-Pearson intervals).|||
92172617|NCT03328702|184235932|SUPERIORITY|Repeated measures ANOVA|Mean Difference (Net)|0.01|||<|0.05|TWO_SIDED|||||Repeated measures ANOVA, N=4|ANOVA|Repeated measures ANOVA||The null hypothesis is that there is no difference in total pharyngeal transit time with the use of CPAP||||<0.05
92172618|NCT04674358|184235957|SUPERIORITY||Odds Ratio (OR)|2.63|||||TWO_SIDED|95.0|1.67|4.14||||||||4.14|1.67|
92172619|NCT03703700|184235959|OTHER||Risk Ratio (RR)|1.23||||0.042|TWO_SIDED|95.0|1.01|1.5|||Chi-squared|||||1.50|1.01|0.042
92172620|NCT03703700|184235960|OTHER|||||||0.781|||||||Wilcoxon (Mann-Whitney)|||||||0.781
92172621|NCT03703700|184235961|OTHER|||||||0.609|||||||Wilcoxon (Mann-Whitney)|||||||0.609
92172622|NCT03703700|184235962|OTHER|||||||0.528|||||||Wilcoxon (Mann-Whitney)|||||||0.528
92172623|NCT03703700|184235963|OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.880
92172624|NCT03703700|184235964|OTHER|||||||0.289|||||||Wilcoxon (Mann-Whitney)|||||||0.289
92172625|NCT03703700|184235965|OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||||||0.860
92172626|NCT03703700|184235966|OTHER|||||||0.163|||||||Wilcoxon (Mann-Whitney)|||||||0.163
92450285|NCT04160260|184786974|EQUIVALENCE|Omadacycline 300 mg PO provided equivalent total exposure as measured by AUC relative to omadacycline 100 mg IV.|Geometric Mean Ratio|100.8|||||TWO_SIDED|90.0|88.0|115.5|||||A t-test on the natural log-transformed PK parameter AUC(0-24) was performed to obtain the Geometric Mean Ratio and its confidence interval.|Comparison was performed with the 100 mg IV omadacycline treatment group (data were obtained from 6 completed studies-NCT numbers not available). Using the Day 1 plasma concentration profile of the 100 mg IV QD dosing from these studies, a BID dosing on Day 1 and a QD dosing on Day 2 was simulated using the superposition principle. Log GM AUC(0-24) of omadacycline for the 100 mg IV omadacycline group was as follows:Participants analyzed=63; GM (SD)=9.26 (0.1985).||115.5|88.0|
92172627|NCT03703700|184235967|OTHER|||||||0.197|||||||Wilcoxon (Mann-Whitney)|||||||0.197
92172628|NCT03703700|184235968|OTHER|||||||0.178|||||||Wilcoxon (Mann-Whitney)|||||||0.178
92172629|NCT03703700|184235969|OTHER|||||||0.549|||||||Wilcoxon (Mann-Whitney)|||||||0.549
92450286|NCT01227512|184786981|SUPERIORITY_OR_OTHER|||||||0.9495||||||The alpha level was set at 0.05|Generalized Wilcoxon Test|Participants who used rescue therapy within first 7 days of treatment period were censored at time they started the rescue therapy.||||||0.9495
92172630|NCT03703700|184235970|OTHER||Risk Ratio (RR)|1.19||||0.035|TWO_SIDED|95.0|1.01|1.4|||Chi-squared|||||1.40|1.01|0.035
92450287|NCT01227512|184786982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.146||95.0|-0.7|0.11||alpha level was set at 0.05. p-value was derived from an ANCOVA model with treatment and clinical center as factors and baseline value as covariate.|ANCOVA|Includes factors of treatment, study center and covariate baseline.||||0.11|-0.70|0.1460
92450288|NCT01227512|184786983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.315||95.0|-0.57|0.19|||ANCOVA|P-value was derived from an ANCOVA model with treatment and clinical center as factors and baseline value as covariate.||P value corresponds to 24 hours post-dose.||0.19|-0.57|0.3150
92450289|NCT01227512|184786983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.5381||95.0|-0.57|0.3|||ANCOVA|P-value was derived from an ANCOVA model with treatment and clinical center as factors and baseline value as covariate.||P value corresponds to 72 hours post-dose.||0.30|-0.57|0.5381
92450290|NCT01227512|184786984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.2702||95.0|-0.73|0.21||P-value was derived from a Cochran-Mantel-Haenszel (CMH) row mean scores test.|Cochran-Mantel-Haenszel|||||0.21|-0.73|0.2702
92450291|NCT01227512|184786985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.77||||0.0019||95.0|1.43|6.11||P-value was derived from an ANCOVA model with treatment and clinical center as factors and baseline value as covariate.|ANCOVA|||||6.11|1.43|0.0019
92450292|NCT01227512|184786986|SUPERIORITY_OR_OTHER|||||||0.5128||||||p-value was derived from Generalized Wilcoxon test stratified by treatment. Participants who received rescue therapy were censored at the time of receiving rescue therapy.|Generalized Wilcoxon Test|||||||0.5128
92450293|NCT01227512|184786987|SUPERIORITY_OR_OTHER||Relative Risk|1.1||||0.5795||95.0|0.79|1.52||P-value was derived using a CMH test stratified by hyponatremia symptoms severity.|Cochran-Mantel-Haenszel|||||1.52|0.79|0.5795
92450294|NCT01227512|184786988|SUPERIORITY_OR_OTHER||Relative Risk|0.33||||0.1568||95.0|0.07|1.65||p-value was derived using a CMH test stratified by hyponatremia symptoms severity.|Cochran-Mantel-Haenszel|||||1.65|0.07|0.1568
92450295|NCT02517905|184787051|SUPERIORITY||LSMD|-2.7||||0.8661|TWO_SIDED|95.0|-33.5|28.2|||ANOVA|||||28.2|-33.5|0.8661
92450296|NCT02517905|184787052|SUPERIORITY||LSMD|-4.0||||0.578|TWO_SIDED|95.0|-18.2|10.2|||ANOVA|||||10.2|-18.2|0.5780
92450297|NCT02517905|184787053|SUPERIORITY||LSMD|5.9||||0.801|TWO_SIDED|95.0|-40.2|52.1|||ANOVA|||||52.1|-40.2|0.8010
92450298|NCT00023452|184787057|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority test statistic was based on the difference of the nonparametric Kaplan-Meier estimators. The asymptotic variance of the test statistic was obtained through Greenwood's formula and a two-sided 95% confidence interval (CI) was constructed for the difference. If the upper bound of the CI was smaller than the noninferiority margin 0.75%, then the null hypothesis would be rejected and noninferiority could be claimed.|Difference in Cumulative TB Disease Rate|-0.24|||||ONE_SIDED|95.0||0.01|||||The difference in cumulative TB disease rate is the rate in the 3RPT/INH arm minus the rate in the 9INH arm.|||0.01||
92450299|NCT00023452|184787058|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority test statistic was based on the difference of the nonparametric Kaplan-Meier estimators. The asymptotic variance of the test statistic was obtained through Greenwood's formula and a two-sided 95% CI was constructed for the difference. If the upper bound of the CI was smaller than the noninferiority margin 0.75%, then the null hypothesis would be rejected and noninferiority could be claimed.|Difference in Cumulative TB Rate|-0.21|||||ONE_SIDED|95.0||0.04|||||The difference in cumulative TB disease rate is the percentage in the 3RPT/INH arm minus the percentage in the 9INH arm.|||0.04||
92450300|NCT00023452|184787059|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority test statistic was based on the difference of the nonparametric Kaplan-Meier estimators. The asymptotic variance of the test statistic was obtained through Greenwood's formula and a two-sided 95% CI was constructed for the difference. If the upper bound of the CI was smaller than the noninferiority margin 0.75%, then the null hypothesis would be rejected and noninferiority could be claimed.|Difference in Cumulative TB Disease Rate|-0.25|||||ONE_SIDED|95.0||0.03|||||The difference in cumulative TB disease rate is the percentage in the 3RPT/INH arm minus the percentage in the 9INH arm.|||0.03||
92450301|NCT00023452|184787060|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Chi-squared|||||||0.02
92450302|NCT00023452|184787061|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24||95.0|||||Chi-squared|||Grade 3 Drug Toxicity||||0.24
92450303|NCT00023452|184787061|SUPERIORITY_OR_OTHER_LEGACY|||||||0.59||95.0|||||Chi-squared|||Grade 4 Drug Toxicity||||0.59
92450304|NCT00023452|184787062|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||95.0|||||Chi-squared|||||||0.22
92450305|NCT00023452|184787064|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92450306|NCT00023452|184787065|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
92450307|NCT00023452|184787066|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority test statistic was based on the difference of the nonparametric Kaplan-Meier estimators. The asymptotic variance of the test statistic was obtained through Greenwood's formula and a two-sided 95% CI was constructed for the difference. If the upper bound of the CI was smaller than the noninferiority margin 0.75%, then the null hypothesis would be rejected and noninferiority could be claimed.|Difference in Cumulative TB Disease Rate|-0.19|||||ONE_SIDED|95.0||0.06|||||The difference in cumulative TB disease rate is the percentage in the 3RPT/INH arm minus the percentage in the 9INH arm.|||0.06||
92450308|NCT04551105|184787097|SUPERIORITY||different in area under the LROC curve|0.0374|||<|0.05|TWO_SIDED|95.0|0.019|0.0557|||OR-DBM model|||||0.0557|0.0190|<0.05
92450309|NCT04551105|184787098|SUPERIORITY||Mean Difference (Net)|12.78|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92450310|NCT04551105|184787099|SUPERIORITY||different in sensitivity|-0.0013|||<|0.05|TWO_SIDED|95.0|-0.2307|0.2281|||McNemar|||||0.2281|-0.2307|<0.05
92450311|NCT04551105|184787099|SUPERIORITY||different in specificity|0.1065|||<|0.05|TWO_SIDED|95.0|0.0008|0.2122|||McNemar|||||0.2122|0.0008|<0.05
92450312|NCT04551105|184787099|SUPERIORITY||different in PPV|-0.086|||<|0.05|TWO_SIDED|95.0|-0.1824|0.0104|||McNemar|||||0.0104|-0.1824|<0.05
92450313|NCT04551105|184787099|SUPERIORITY||different in NPV|0.086|||<|0.05|TWO_SIDED|95.0|-0.0104|0.1824|||McNemar|||||0.1824|-0.0104|<0.05
92450314|NCT00459134|184787106|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|1.19||0.576|TWO_SIDED|95.0|-1.67|3.0||This p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|Mixed effect repeated measures model constrained such that the baseline means were equal in the two groups.||The null hypothesis is that sexual function will be the same in both groups at 12 weeks. A Mixed effect repeated measures model constrained such that the baseline means were equal in the two groups was used to test this hypothesis.||3.00|-1.67|0.576
92450315|NCT00459134|184787107|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.49|STANDARD_ERROR_OF_MEAN|1.73||0.01|TWO_SIDED|95.0|1.09|7.89||This p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|Mixed effect repeated measures model constrained such that the baseline means were equal in the two groups.||The null hypothesis was that quality of life would be the same in both groups at 12 weeks. A mixed effect repeated measures model constrained such that the baseline means were equal in the two groups was used to test this hypothesis.||7.89|1.09|0.010
92450316|NCT02276495|184787131|SUPERIORITY|||||||0.668|||||||Kruskal-Wallis|||||||0.668
92450317|NCT02276495|184787132|SUPERIORITY|||||||0.006|||||||Kruskal-Wallis|||||||0.006
92450318|NCT02276495|184787133|SUPERIORITY|||||||0.013|||||||Kruskal-Wallis|||||||0.013
92450319|NCT03047447|184787159|OTHER|||||||0.001||||||Change over time from week 0 to week 10 with HgA1c for experimental ketogenic group vs.control exercise and non-exercise groups.|ANOVA|||||||0.001
92450320|NCT03047447|184787160|OTHER|||||||0.001|||||||ANOVA|Change over time from week 0 to week 10 with weight for experimental ketogenic group vs.control exercise and non-exercise groups.||||||0.001
92450321|NCT03047447|184787161|OTHER|||||||0.001|||||||ANOVA|Change over time from week 0 to week 10 with BMI for experimental ketogenic group vs.control exercise and non-exercise groups.||||||0.001
92450322|NCT03047447|184787162|OTHER|||||||0.001|||||||ANOVA|Change over time from week 0 to week 10 with body fat mass for experimental ketogenic group vs.control exercise and non-exercise groups.||||||0.001
92450323|NCT03047447|184787163|OTHER|||||||0.001|||||||ANOVA|Change over time from week 0 to week 10 with blood ketones for experimental ketogenic group vs.control exercise and non-exercise groups.||||||0.001
92450324|NCT02669329|184787177|OTHER||success proportion|85.2|||||TWO_SIDED|95.0|72.9|93.4||||||||93.4|72.9|
92450325|NCT01627249|184787183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.5|||<|0.001|TWO_SIDED|95.0|1.4|5.7|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs. Bevacizumab||5.7|1.4|<0.001
92450326|NCT01627249|184787183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.1||||0.034|TWO_SIDED|95.0|0.1|4.2|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs. Ranibizumab||4.2|0.1|0.034
92450327|NCT01627249|184787183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4||||0.12|TWO_SIDED|95.0|-0.4|3.2|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Ranibizumab vs. Bevacizumab||3.2|-0.4|0.12
92450328|NCT01627249|184787184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-69.9|||<|0.001|TWO_SIDED|95.0|-91.1|-48.6|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs Bevacizumab||-48.6|-91.1|<0.001
92172631|NCT03703700|184235971|OTHER||Risk Ratio (RR)|1.18||||0.034|TWO_SIDED|95.0|1.01|1.37|||Chi-squared|||||1.37|1.01|0.034
92172632|NCT03703700|184235972|OTHER||Risk Ratio (RR)|1.22||||0.022|TWO_SIDED|95.0|1.03|1.45|||Chi-squared|||||1.45|1.03|0.022
92172633|NCT03703700|184235973|OTHER||Risk Ratio (RR)|0.94||||0.707|TWO_SIDED|95.0|0.68|1.3|||Chi-squared|||||1.30|0.68|0.707
92450329|NCT01627249|184787184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.6||||0.036|TWO_SIDED|95.0|-36.0|-1.2|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs Ranibizumab||-1.2|-36|0.036
92450330|NCT01627249|184787184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-51.2|||<|0.001|TWO_SIDED|95.0|-71.2|-31.3|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Ranibizumab vs Bevacizumab||-31.3|-71.2|<0.001
92450331|NCT01627249|184787185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.5||||0.001|TWO_SIDED|95.0|2.9|10.1|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs. Bevacizumab||10.1|2.9|0.001
92450332|NCT01627249|184787185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.7||||0.0031|TWO_SIDED|95.0|1.4|8.0|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs. Ranibizumab||8.0|1.4|0.0031
92450333|NCT01627249|184787185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.8||||0.21|TWO_SIDED|95.0|-1.1|4.8|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Ranibizumab vs Bevacizumab||4.8|-1.1|0.21
92450334|NCT01627249|184787186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.69|TWO_SIDED|95.0|-1.3|2.7|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs Bevacizumab||2.7|-1.3|0.69
92450335|NCT01627249|184787186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.69|TWO_SIDED|95.0|-2.3|1.5|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs Ranibizumab||1.5|-2.3|0.69
92450336|NCT01627249|184787186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.69|TWO_SIDED|95.0|-0.9|3.1|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Ranibizumab vs Bevacizumab||3.1|-0.9|0.69
92450337|NCT00071487|184787207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.3677|TWO_SIDED|95.0|-19.4|7.2||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using a last observation carried forward (LOCF) imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||7.2|-19.4|0.3677
92450338|NCT00071487|184787207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9||||0.4244|TWO_SIDED|95.0|-8.7|20.6||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||20.6|-8.7|0.4244
92450339|NCT00071487|184787207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5||||0.3296|TWO_SIDED|95.0|-19.6|6.6||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||6.6|-19.6|0.3296
92450340|NCT00071487|184787208|SUPERIORITY_OR_OTHER|||||||0.6423||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required protocol-prohibited medications were considered to have a flare on the date the prohibited medication was started or date of the first flare, whichever came first. Patients who withdrew from the study for reasons other than SLE disease manifestations or hospitalization related to SLE or who missed 2 or more consecutive visits were censored at the time of the last assessment.||||0.6423
92450341|NCT00071487|184787208|SUPERIORITY_OR_OTHER|||||||0.8536||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required protocol-prohibited medications were considered to have a flare on the date the prohibited medication was started or date of the first flare, whichever came first. Patients who withdrew from the study for reasons other than SLE disease manifestations or hospitalization related to SLE or who missed 2 or more consecutive visits were censored at the time of the last assessment.||||0.8536
92450342|NCT00071487|184787208|SUPERIORITY_OR_OTHER|||||||0.9705||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required protocol-prohibited medications were considered to have a flare on the date the prohibited medication was started or date of the first flare, whichever came first. Patients who withdrew from the study for reasons other than SLE disease manifestations or hospitalization related to SLE or who missed 2 or more consecutive visits were censored at the time of the last assessment.||||0.9705
92450343|NCT00071487|184787209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.1||||0.1763|TWO_SIDED|95.0|-22.4|4.1||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||4.1|-22.4|0.1763
92450344|NCT00071487|184787209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3||||0.7112|TWO_SIDED|95.0|-20.9|14.3||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||14.3|-20.9|0.7112
92450345|NCT00071487|184787209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.4||||0.332|TWO_SIDED|95.0|-22.2|7.5||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||7.5|-22.2|0.3320
92450346|NCT00071487|184787210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.6||||0.1287|TWO_SIDED|95.0|-65.6|8.4||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||8.4|-65.6|0.1287
92450347|NCT00071487|184787210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.98||||0.8807|TWO_SIDED|95.0|-36.2|42.1||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||42.1|-36.2|0.8807
92172634|NCT03703700|184235974|OTHER||Risk Ratio (RR)|0.97||||0.878|TWO_SIDED|95.0|0.66|1.42|||Chi-squared|||||1.42|0.66|0.878
92172635|NCT03703700|184235975|OTHER|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||Singleton||||0.564
92172636|NCT03703700|184235975|OTHER|||||||0.417|||||||Wilcoxon (Mann-Whitney)|||Twin||||0.417
92172637|NCT03703700|184235976|OTHER|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||Singleton||||0.985
92172638|NCT03703700|184235976|OTHER|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||Twin||||0.157
92172639|NCT03703700|184235977|OTHER||Risk Ratio (RR)|1.07||||0.789|TWO_SIDED|95.0|0.65|1.78|||Chi-squared|||||1.78|0.65|0.789
92172640|NCT03703700|184235978|OTHER||Risk Ratio (RR)|1.09||||0.769|TWO_SIDED|95.0|0.61|1.94|||Chi-squared|||||1.94|0.61|0.769
92172641|NCT03703700|184235979|OTHER||Risk Ratio (RR)|0.41||||0.59|TWO_SIDED|95.0|0.04|4.45|||Fisher Exact|||||4.45|0.04|0.590
92172642|NCT03703700|184235980|OTHER||Risk Ratio (RR)|2.04||||0.465|TWO_SIDED|95.0|0.4|10.39|||Fisher Exact|||||10.39|0.40|0.465
92172643|NCT03205800|184235996|SUPERIORITY||||||<|0.05|||||||Wilcoxon signed rank test|||||||<0.05
92172644|NCT04501861|184235999|EQUIVALENCE|Compare mPAP-to-MAP ratio between patients who received norepinephrine versus vasopressin intraoperatively. Post intervention measurements will be recorded after protamine administration until end of chest closure.|Mean Difference (Final Values)|0.01||||0.53|TWO_SIDED|95.0|-0.043|0.022|||Mixed Models Analysis|||||0.022|-0.043|0.53
92172645|NCT04501861|184235999|EQUIVALENCE|Compare mPAP-to-MAP ratio between patients who with preop PH received norepinephrine versus vasopressin intraoperatively. Post intervention measurements will be recorded after protamine administration until end of chest closure. The number of patients in norepinephrine group is 52 and in vasopressin group is 40. The significance level was 0.05 for all analyses. All tests were 2-sided. Interactions were considered significant when the interaction P was \< 0.10.|Mean Difference (Final Values)|-0.022||||0.26|TWO_SIDED|95.0|-0.061|0.016|||Mixed Models Analysis|||mPAP-to-MAP ratio was compared between patients with pre-existing pulmonary hypertension of use of vasopressin and norepinephrine. Preoperative pulmonary arterial hypertension was defined by using the cut-off value of 25 mmHg for the time-weighted average mPAP, i.e., time weighted average mPAP \< 25 mmHg indicated absence of preoperative pulmonary arterial hypertension; otherwise, presence of preoperative pulmonary hypertension.||0.016|-0.061|0.26
92450348|NCT00071487|184787210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.41||||0.1131|TWO_SIDED|95.0|-68.1|7.3||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||7.3|-68.1|0.1131
92450349|NCT00071487|184787211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.7823|TWO_SIDED|95.0|-13.8|10.4||P-value was not adjusted for multiple testing|t-test, 2 sided|||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||10.4|-13.8|0.7823
92450350|NCT00071487|184787211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.4||||0.1774|TWO_SIDED|95.0|-18.2|3.4||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||3.4|-18.2|0.1774
92450351|NCT00071487|184787211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.6406|TWO_SIDED|95.0|-14.8|9.1|||t-test, 2 sided|P-value was not adjusted for multiple testing.||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||9.1|-14.8|0.6406
92450352|NCT00071487|184787212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8||||0.7822|TWO_SIDED|95.0|-38.6|29.1||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||29.1|-38.6|0.7822
92450353|NCT00071487|184787212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9||||0.3332|TWO_SIDED|95.0|-45.3|15.4||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||15.4|-45.3|0.3332
92450354|NCT00071487|184787212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.7||||0.466|TWO_SIDED|95.0|-46.9|21.5||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||21.5|-46.9|0.4660
92450355|NCT00071487|184787213|SUPERIORITY_OR_OTHER|||||||0.5615||95.0||||P-value was not adjusted for multiple comparisons.|Log Rank|||Missing data for BILAG were handled as described previously for SELENA SLEDAI (SLE Flare Index).||||0.5615
92450356|NCT00071487|184787213|SUPERIORITY_OR_OTHER|||||||0.7593||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Missing data for BILAG were handled as described previously for SELENA SLEDAI (SLE Flare Index).||||0.7593
92172646|NCT04501861|184235999|EQUIVALENCE|Compare mPAP-to-MAP ratio between patients who without preop PH received norepinephrine versus vasopressin intraoperatively. Post intervention measurements will be recorded after protamine administration until end of chest closure. The number of patients in norepinephrine group is 31 and in vasopressin group is 29. The significance level was 0.05 for all analyses. All tests were 2-sided. Interactions were considered significant when the interaction P was \< 0.10.|Mean Difference (Final Values)|-0.0035||||0.88|TWO_SIDED|95.0|-0.05|0.043|||Mixed Models Analysis|||mPAP-to-MAP ratio was compared between patients without pre-existing pulmonary hypertension of use of vasopressin and norepinephrine. Preoperative pulmonary arterial hypertension was defined by using the cut-off value of 25 mmHg for the time-weighted average mPAP, i.e., time weighted average mPAP \< 25 mmHg indicated absence of preoperative pulmonary arterial hypertension; otherwise, presence of preoperative pulmonary hypertension.||0.043|-0.05|0.88
92172647|NCT04501861|184236000|EQUIVALENCE|Imbalanced confounders such as female, coronary artery disease, preoperative ejection fraction, surgery type, primary or repeat surgery, and bypass time were additionally adjusted. A different inverse probability of treatment weighting was fit for secondary analysis and a linear mixed regression model with random intercept to account for intra-week correlation to estimate the effect of norepinephrine on right ventricular free wall strain using the new obtained stabilized weights|Mean Difference (Final Values)|-1.8||||0.37|TWO_SIDED|95.0|-6.0|2.3|||Mixed Models Analysis|||||2.3|-6.0|0.37
92287175|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.004||||0.909|TWO_SIDED|95.0|-0.062|0.07|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.070|-0.062|0.909
92182322|NCT05986617|184263530|SUPERIORITY|||||||0.06429||||||2-tail t-test with non-equivalent variances|t-test, 2 sided|||Power calculation: 2 factor (group, time) ANOVA design with a group\*time interaction term to estimate the proposed sample size. Using a Cohen's effect size estimate for 2 groups with 5 time-points, a sample size of 40 per group will provide \>90% to detect a moderate effect size (0.25) for group, for time and for the group\*time interaction.||||.06429
92287176|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.025||||0.419|TWO_SIDED|95.0|-0.037|0.088|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.088|-0.037|0.419
92450357|NCT00071487|184787213|SUPERIORITY_OR_OTHER|||||||0.2273||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Missing data for BILAG were handled as described previously for SELENA SLEDAI (SLE Flare Index).||||0.2273
92450358|NCT00071487|184787214|SUPERIORITY_OR_OTHER||percent difference from placebo|-7.1||||0.4355|TWO_SIDED|95.0|-24.7|10.6||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who dropped out or had missing data were considered failures.||10.6|-24.7|0.4355
92450359|NCT00071487|184787214|SUPERIORITY_OR_OTHER||percent difference from placebo|4.4||||0.6669|TWO_SIDED|95.0|-15.5|24.2||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who dropped out or had missing data were considered failures.||24.2|-15.5|0.6669
92450360|NCT00071487|184787214|SUPERIORITY_OR_OTHER||percent difference from placebo|17.7||||0.0882|TWO_SIDED|95.0|-2.5|37.9||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who dropped out or had missing data were considered failures.||37.9|-2.5|0.0882
92450361|NCT01176591|184787216|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08|||||||t-test, 2 sided|||||||0.08
92450362|NCT01176591|184787217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08|||||||t-test, 2 sided|||||||0.08
92450363|NCT01176591|184787218|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046|||||||t-test, 2 sided|||||||0.046
92450364|NCT01176591|184787219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|||||||t-test, 2 sided|||||||0.039
92450365|NCT01176591|184787221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|||||||t-test, 2 sided|||||||0.035
92450366|NCT02039505|184787263|SUPERIORITY||Adjusted Odds Ratio|1.37||||0.2722|TWO_SIDED|95.0|0.779|2.399|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel (CMH) test was used for analysis. Prior tumor necrosis factor alpha (TNFα) antagonist use (yes/no) was used as stratification factor.|||2.399|0.779|0.2722
92450367|NCT02039505|184787264|SUPERIORITY||Adjusted Odds Ratio|2.88||||0.021|TWO_SIDED|95.0|1.168|7.108|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||7.108|1.168|0.0210
92287177|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.483|TWO_SIDED|95.0|-0.039|0.083|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.083|-0.039|0.483
92287178|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.043||||0.126|TWO_SIDED|95.0|-0.012|0.099|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.099|-0.012|0.126
92450368|NCT02039505|184787270|SUPERIORITY||Adjusted Odds Ratio|1.66||||0.198|TWO_SIDED|95.0|0.762|3.596|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||3.596|0.762|0.1980
92450369|NCT02039505|184787271|SUPERIORITY||Adjusted Odds Ratio|1.33||||0.3168|TWO_SIDED|95.0|0.755|2.356|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||2.356|0.755|0.3168
92450370|NCT02039505|184787272|SUPERIORITY||Adjusted Odds Ratio|3.48||||0.0067|TWO_SIDED|95.0|1.407|8.626|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||8.626|1.407|0.0067
92450371|NCT02039505|184787273|SUPERIORITY||Adjusted Odds Ratio|3.49||||0.0066|TWO_SIDED|95.0|1.409|8.642|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||8.642|1.409|0.0066
92450372|NCT02039505|184787274|SUPERIORITY||Adjusted Odds Ratio|2.02||||0.209|TWO_SIDED|95.0|0.677|6.033|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||6.033|0.677|0.2090
92450373|NCT02039505|184787275|SUPERIORITY||Adjusted Odds Ratio|3.38||||0.1571|TWO_SIDED|95.0|0.636|17.981|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||17.981|0.636|0.1571
92450374|NCT01722331|184787282|SUPERIORITY||Difference in percentages|56.6|||<|0.001|TWO_SIDED|95.0|49.6|62.8|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||62.8|49.6|<0.001
92450375|NCT01722331|184787282|SUPERIORITY||Difference in percentages|58.0|||<|0.001|TWO_SIDED|95.0|51.0|64.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||64.1|51.0|<0.001
92450376|NCT01722331|184787283|SUPERIORITY||Difference in percentages|52.1|||<|0.001|TWO_SIDED|95.0|44.8|58.5|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||58.5|44.8|<0.001
92450377|NCT01722331|184787283|SUPERIORITY||Difference in percentages|50.9|||<|0.001|TWO_SIDED|95.0|43.6|57.4|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||57.4|43.6|<0.001
92450378|NCT01722331|184787287|SUPERIORITY||Difference in percentages|32.9|||<|0.001|TWO_SIDED|95.0|26.8|38.8|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||38.8|26.8|<0.001
92450379|NCT01722331|184787287|SUPERIORITY||Difference in percentages|32.1|||<|0.001|TWO_SIDED|95.0|25.9|38.0|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||38.0|25.9|<0.001
92450380|NCT01722331|184787288|SUPERIORITY||Difference in percentages|12.7|||<|0.001|TWO_SIDED|95.0|8.3|17.2|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||17.2|8.3|<0.001
92182323|NCT05293717|184263537|OTHER|This is an open-label study. No power calculation was performed.|||||<|0.001|||||||ANOVA|||||||<0.001
92450381|NCT01722331|184787288|SUPERIORITY||Difference in percentages|12.7|||<|0.001|TWO_SIDED|95.0|8.0|17.3|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||17.3|8.0|<0.001
92182324|NCT03052517|184263580|OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.74|1.0|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||1.00|0.74|
92450382|NCT01722331|184787290|OTHER||Difference in least squares means|-7.7|||<|0.001|TWO_SIDED|95.0|-8.6|-6.8|||Constrained Longitudinal Data Analysis|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-6.8|-8.6|<0.001
92450383|NCT01722331|184787290|OTHER||Difference in least squares means|-7.4|||<|0.001|TWO_SIDED|95.0|-8.3|-6.5|||Constrained Longitudinal Data Analysis|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-6.5|-8.3|<0.001
92450384|NCT01722331|184787291|OTHER||Difference in percentages|38.9|||<|0.001|TWO_SIDED|95.0|31.9|45.4|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||45.4|31.9|<0.001
92450385|NCT01722331|184787291|OTHER||Difference in percentages|36.1|||<|0.001|TWO_SIDED|95.0|29.3|42.5|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||42.5|29.3|<0.001
92450386|NCT00693992|184787292|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.0006|TWO_SIDED|95.0|0.47|0.82|||Log Rank|||||0.82|0.47|0.0006
92450387|NCT00693992|184787293|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.89|TWO_SIDED|95.0|0.73|1.31|||Log Rank|||||1.31|0.73|0.89
92450388|NCT00693992|184787295|SUPERIORITY|||||||0.0061|||||||Fisher Exact|||||||0.0061
92450389|NCT00693992|184787296|SUPERIORITY|||||||0.8393|||||||Fisher Exact|||||||0.8393
92450390|NCT04265755|184787299|OTHER|Adjusted analysis utilizes a logistic regression model which includes age, sex, dose switch, Baseline value of interest, and mPRS as covariates and presents the mPRS estimates.|Odds Ratio (OR)|1.01||||0.86|TWO_SIDED|95.0|0.9|1.13|||Regression, Logistic||Based on a 1 standard deviation increase in mPRS.|Odds of achieving at least 50% reduction from Baseline in mean MMD over months 4, 5, and 6 in relation to mPRS.||1.13|0.90|0.86
92450391|NCT02832674|184787337|SUPERIORITY|||||||0.05|TWO_SIDED|90.0|||||Fisher Exact|||The primary endpoint was an evaluation of the proportion of subjects with ≥ 20 mm2 lift at Day 90.||||0.05
92450392|NCT02832674|184787338|OTHER|Binomial test of proportions||||||0.025|TWO_SIDED|95.0|||||Chi-squared||||The summary included number and percentage of subjects in each of the categories and the 2 sided Clopper-Pearson 95% CI. a binomial test of proportions tested the improvement at Day 90 and Day 180.|||0.025
92450393|NCT02832674|184787339|OTHER|||||||0.025|TWO_SIDED|95.0|||||Chi-squared|||Analysis of all effectiveness endpoints was conducted on the ITT population and on the PP population.|The summary included number and percentage of subjects in each of the categories and the 2 sided Clopper-Pearson 95% CI. a binomial test of proportions tested the improvement at Day 90 and Day 180.|||0.025
92450394|NCT02832674|184787340|OTHER|||||||0.025|TWO_SIDED|95.0|||||Chi-squared||||The summary included number and percentage of subjects in each of the categories and the 2 sided Clopper-Pearson 95% CI. a binomial test of proportions tested the improvement at Day 90 and Day 180.|||0.025
92450395|NCT02832674|184787341|OTHER|||||||0.025|TWO_SIDED|95.0|||||Chi-squared||||The summary included number and percentage of subjects in each of the categories and the 2 sided Clopper-Pearson 95% CI. a binomial test of proportions tested the improvement at Day 90 and Day 180.|||0.025
92450396|NCT02832674|184787342|OTHER|||||||0.025|TWO_SIDED|95.0|||||Chi-squared||||The summary included number and percentage of subjects in each of the categories and the 2 sided Clopper-Pearson 95% CI. a binomial test of proportions tested the improvement at Day 90 and Day 180.|||0.025
92450397|NCT02822794|184787343|SUPERIORITY||||||<|0.001|||||||Binomial test|P-value is obtained from the 2-sided exact 1-sample binomial test for the superiority of SOF/VEL+RBV 12 Weeks (GT1) over the performance goal of 50%.||||||<0.001
92450398|NCT02822794|184787343|SUPERIORITY||||||<|0.001|||||||Binomial test|P-value is obtained from the 2-sided exact 1-sample binomial test for the superiority of SOF/VEL +RBV 24 Weeks (GT1) over the performance goal of 50%.||||||<0.001
92450399|NCT04788147|184787372|OTHER|"The modified 3+3 design with 6 patients at the 'Recommended RefleXion FDG Dose level' aims to ensure that the observed proportion of patients below activity threshold to be less than 33%.~Probability of Observations at Most 1 of 6 below Activity Threshold True below activity rate 40% 30% 20% 10% Probability at most 1 of 6 patients below activity threshold 0.233 0.420 0.655 0.886"||||||||||||||||"Statistical analysis of the primary endpoint is not applicable to Cohort I. A modified 3+3 design was utilized wherein meeting the activity level threshold, not dose-limiting toxicity, is the endpoint. The RRFD is primarily based upon the lower FDG dose level where 5 to 6 out of 6 subjects have an Activity Concentration greater than 5 kBq/ml."|"Statistical analysis of the primary endpoint is not applicable to Cohort I. A modified 3+3 design was utilized wherein meeting the activity level threshold, not dose-limiting toxicity, is the endpoint. The RRFD is primarily based upon the lower FDG dose level where 5 to 6 out of 6 subjects have an Activity Concentration greater than 5 kBq/ml."|||
92450400|NCT05101252|184787388|SUPERIORITY|Superiority was declared if the upper limit of the 98.75% confidence interval of was below 0.00 logMAR for distance.|Least-square Mean|-0.08|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|98.75|-0.14|-0.01|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1.25% individually) with at least 90% statistical power, that 22 subjects were required to test for superiority for distance.||-0.01|-0.14|
92450401|NCT05101252|184787388|SUPERIORITY|Superiority was declared if the upper limit of the 98.75% confidence interval of was below 0.17 logMAR for intermediate.|Least-square Mean|0.0|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|98.75|-0.06|0.07|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1.25% individually) with at least 90% statistical power, that 12 subjects were required to test for superiority for intermediate.||0.07|-0.06|
92450402|NCT05101252|184787388|SUPERIORITY|Superiority was declared if the upper limit of the 98.75% confidence interval of was below 0.17 logMAR for near.|Least-square Mean|0.09|STANDARD_ERROR_OF_MEAN|0.023|||TWO_SIDED|98.75|0.02|0.16|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1.25% individually) with at least 90% statistical power, that 60 subjects were required to test for superiority for near.||0.16|0.02|
92450403|NCT05101252|184787389|SUPERIORITY|Superiority was declared if the lower bound of the 98.75% confidence interval was above 32.|Least-square Mean|50.8|STANDARD_ERROR_OF_MEAN|2.922|||TWO_SIDED|98.75|43.1|58.5|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1.25% individually) with at least 99% statistical power, that 13 subjects were required to test for superiority for CLUE vision scores.||58.5|43.1|
92450404|NCT05101252|184787390|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 95% confidence interval of the least-square mean difference was below 0.05 logMAR.|LSM Difference|0.0|STANDARD_ERROR_OF_MEAN|0.024|||TWO_SIDED|95.0|-0.05|0.05|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Test minus Control|It was calculated using a 2 independent sample means t-test with a 2-sided type I error rate of 5% with at least 95% statistical power, that 60 subjects were required to test for non-inferiority of the Test compared to the Control for distance (4m).||0.05|-0.05|
92450405|NCT01504438|184787391|OTHER|||||||0.29|||||||ANOVA|||||||0.29
92450406|NCT01504438|184787392|OTHER|||||||0.31|||||||ANOVA|||||||0.31
92450407|NCT01504438|184787393|OTHER|||||||0.07|||||||ANOVA|||||||0.07
92450408|NCT01504438|184787394|OTHER|||||||0.04|||||||ANOVA|||||||0.04
92450409|NCT03282955|184787414|NON_INFERIORITY|Non-inferiority margin= 1.151||||||0.025|||||||t-test, 1 sided|||||||0.025
92450410|NCT01129141|184787446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.198|STANDARD_ERROR_OF_MEAN|2.88|<|0.0001|TWO_SIDED|95.0|-22.86|-11.53|||Mixed Models Analysis|||||-11.53|-22.86|<.0001
92450411|NCT02076412|184787448|SUPERIORITY||Risk Difference (RD)|13.8||||0.1519|TWO_SIDED|95.0|0.5|27.1|||Fisher Exact||Confidence interval for treatment difference (risk difference) was based on the normal approximation|||27.1|0.5|0.1519
92450412|NCT02076412|184787453|SUPERIORITY||Risk Difference (RD)|-0.01||||0.4927|TWO_SIDED|95.0|-0.05|0.02||P-value from a two-sided two-sample t-test, testing for a difference in means between fostamatinib and placebo.|t-test, 2 sided|||||0.02|-0.05|0.4927
92450413|NCT02076412|184787454|SUPERIORITY||Risk Difference (RD)|-0.12||||0.2499|TWO_SIDED|95.0|-0.32|0.09||P-value from a two-sided two-sample t-test, testing for a difference in means between fostamatinib and placebo.|t-test, 2 sided|||||0.09|-0.32|0.2499
92450414|NCT00958880|184787455|SUPERIORITY_OR_OTHER||Slope|10.46||||0.015||95.0|||||Regression, Linear|||||||.015
92450415|NCT00958880|184787456|SUPERIORITY_OR_OTHER||Slope|0.03||||0.575||95.0|||||Regression, Linear|||||||.575
92450416|NCT01516879|184787509|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.97|STANDARD_ERROR_OF_MEAN|2.1|<|0.001|TWO_SIDED|95.0|-61.08|-52.85|||Repeated measures linear effects model|The model included treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 52 in LDL-C between evolocumab 420 mg and placebo, and the alternative hypothesis was that a mean difference did exist.||-52.85|-61.08|<0.001
92450417|NCT01516879|184787510|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.8|STANDARD_ERROR_OF_MEAN|2.3|<|0.001|TWO_SIDED|95.0|-62.3|-53.3|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-53.3|-62.3|<0.001
92450418|NCT01516879|184787511|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|75.8|||<|0.001|TWO_SIDED|95.0|70.8|79.7|||Cochran-Mantel-Haenszel|CMH test stratified by the stratification factor. For testing, non-achievement was imputed for participants with a missing value at Week 52.|Treatment difference using placebo as the reference.|||79.7|70.8|<0.001
92450419|NCT01516879|184787512|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.51|STANDARD_ERROR_OF_MEAN|1.56|<|0.001|TWO_SIDED|95.0|-60.57|-54.45|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-54.45|-60.57|<0.001
92450420|NCT01516879|184787513|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.15|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-37.19|-33.11|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-33.11|-37.19|<0.001
92450421|NCT01516879|184787514|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.45|STANDARD_ERROR_OF_MEAN|1.41|<|0.001|TWO_SIDED|95.0|-36.21|-30.68|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-30.68|-36.21|<0.001
92450422|NCT01516879|184787515|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.27|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-54.25|-46.28|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-46.28|-54.25|<0.001
92450423|NCT01516879|184787516|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.21|STANDARD_ERROR_OF_MEAN|1.71|<|0.001|TWO_SIDED|95.0|-47.56|-40.85|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-40.85|-47.56|<0.001
92450424|NCT01516879|184787517|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.14|STANDARD_ERROR_OF_MEAN|1.67|<|0.001|TWO_SIDED|95.0|-40.41|-33.87|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-33.87|-40.41|<0.001
92450425|NCT01516879|184787518|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.21|STANDARD_ERROR_OF_MEAN|1.82|<|0.001|TWO_SIDED|95.0|-49.79|-42.63|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-42.63|-49.79|<0.001
92450426|NCT01516879|184787519|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.35|STANDARD_ERROR_OF_MEAN|1.94|<|0.001|TWO_SIDED|95.0|-26.15|-18.55|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-18.55|-26.15|<0.001
92172648|NCT04501861|184236000|EQUIVALENCE|We examined the effect of norepinephrine versus vasopressin on right ventricular free wall strain by considering patients who have preoperative pulmonary hypertension. The number of patients in norepinephrine group is 34 and in vasopressin group is 28. The significance level was 0.05 for all analyses. All tests were 2-sided. The significance levels of subgroup analyses were not corrected for multiple comparisons. Interactions were considered significant when the interaction P was \< 0.10.|Mean Difference (Final Values)|-2.1||||0.39|TWO_SIDED|95.0|-7.1|2.8|||Mixed Models Analysis|||RV free wall strain compare between patients with pre-existing pulmonary hypertension of use of vasopressin and norepinephrine. Preoperative pulmonary arterial hypertension was defined by using the cut-off value of 25 mmHg for the time-weighted average mPAP, i.e., time weighted average mPAP \< 25 mmHg indicated absence of preoperative pulmonary arterial hypertension; otherwise, presence of preoperative pulmonary hypertension;||2.8|-7.1|0.39
92182325|NCT03052517|184263580|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.72|0.97|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||0.97|0.72|
92182326|NCT03052517|184263580|OTHER||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.87|1.09|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||1.09|0.87|
92241116|NCT01128972|184385331|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.28||||0.8571|TWO_SIDED|95.0|-3.31|2.76||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the Placebo dentifrice+ test MR treatment regimen and test dentifrice + sterile water rinse to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||2.76|-3.31|0.8571
92450427|NCT01516879|184787520|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-11.54|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-17.21|-5.86|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-5.86|-17.21|<0.001
92450428|NCT01516879|184787521|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.42|STANDARD_ERROR_OF_MEAN|1.09|<|0.001|TWO_SIDED|95.0|3.28|7.56|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||7.56|3.28|<0.001
92450429|NCT01516879|184787522|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.15|STANDARD_ERROR_OF_MEAN|5.64|<|0.001|TWO_SIDED|95.0|-40.23|-18.08|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-18.08|-40.23|<0.001
92450430|NCT01516879|184787523|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-0.14|STANDARD_ERROR_OF_MEAN|1.84||0.94|TWO_SIDED|95.0|-3.76|3.48|||ANCOVA|The ANCOVA model includes treatment group and stratification factor as covariates.|Treatment difference using placebo as the reference.|||3.48|-3.76|0.94
92241117|NCT01128972|184385331|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.87|||<|0.0001|TWO_SIDED|95.0|3.83|9.9||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Placebo Dentifrice + Test MR treatment regimen and Reference Dentifrice + Sterile water rinse to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||9.90|3.83|<0.0001
92450431|NCT03837496|184787614|SUPERIORITY||Slope|-0.66||||0.504|TWO_SIDED|95.0|-2.59|1.27||a priori threshold p\<0.05|ANCOVA|Adjusted for distress and receipt of ovarian suppression.||Analysis comparing the change in monthly adherence to adjuvant endocrine therapy across the study period adjusting for distress and receipt of ovarian suppression.||1.27|-2.59|.504
92450432|NCT03837496|184787614|SUPERIORITY||Slope|-0.17||||0.225|TWO_SIDED|95.0|-0.44|-0.1||a priori threshold p\<0.05|ANCOVA|Adjusted for distress and receipt of ovarian suppression||Analysis comparing the change in weekly adherence rates to adjuvant endocrine therapy across the study period adjusting for distress and receipt of ovarian suppression.||-0.10|-0.44|.225
92450433|NCT03837496|184787615|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.63|TWO_SIDED|95.0|-0.4|0.66||a priori threshold p \< 0.05|ANCOVA|Adjusted for baseline values of criterion outcomes, distress and receipt of ovarian suppression||Analysis comparing the change in self-reported endocrine therapy adherence between groups on the MARS-5 scale from baseline to 12-weeks post-baseline adjusting for distress, receipt of ovarian suppression, and baseline values of criterion outcome.||0.66|-0.40|.630
92450434|NCT03837496|184787616|SUPERIORITY||Mean Difference (Final Values)|2.58||||0.186|TWO_SIDED|95.0|-1.27|6.44||a priori threshold p \< 0.05|ANCOVA|Adjusted for baseline values of criterion outcomes, distress and receipt of ovarian suppression||Analysis comparing the change in satisfaction with adjuvant endocrine therapy between groups on the CTSQ from baseline to 12 weeks post-baseline adjusting for distress, receipt of ovarian suppression, and baseline values of criterion outcome.||6.44|-1.27|.186
92450435|NCT03837496|184787617|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.562|TWO_SIDED|95.0|-3.49|1.91||a priori threshold p \< 0.05|ANCOVA|Adjusted for baseline values of criterion outcomes, distress and receipt of ovarian suppression||Analysis comparing the change in symptom distress between groups on the BCPT scale from baseline to 12-weeks post-baseline adjusting for distress, receipt of ovarian suppression, and baseline values of criterion outcome.||1.91|-3.49|.562
92450436|NCT04666441|184787633|SUPERIORITY||Difference of LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.16||0.0004|TWO_SIDED|95.0|-0.88|-0.25|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.25|-0.88|0.0004
92450437|NCT04666441|184787633|SUPERIORITY||Difference of LS Means|-0.66|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-0.99|-0.34|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.34|-0.99|<0.0001
92450438|NCT04666441|184787633|SUPERIORITY||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.16||0.0007|TWO_SIDED|95.0|-0.89|-0.24|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.24|-0.89|0.0007
92450439|NCT04666441|184787633|SUPERIORITY||Difference of LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.05|-0.38|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.38|-1.05|<0.0001
92241118|NCT01128972|184385331|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.17|||<|0.0001|TWO_SIDED|95.0|4.14|10.21||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the Placebo Dentifrice + Test MR treatment regimen and Placebo dentifrice + Sterile water rinse to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||10.21|4.14|<0.0001
92241119|NCT01128972|184385332|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|14.94|||||TWO_SIDED|95.0|10.36|19.51||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Test Dentifrice + Sterile water rinse treatment regimen andReference Dentifrice + Sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||19.51|10.36|
92241120|NCT01128972|184385333|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.14|||<|0.0001|TWO_SIDED|95.0|4.11|10.18||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Test Dentifrice + Sterile water rinse treatment regimen and Reference Dentifrice + Sterile water rinse to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||10.18|4.11|<0.0001
92450440|NCT04666441|184787633|SUPERIORITY||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.16||0.0006||95.0|-0.88|-0.24|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.24|-0.88|0.0006
92450441|NCT04666441|184787633|SUPERIORITY||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.16||0.0007||95.0|-0.87|-0.24|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.24|-0.87|0.0007
92450442|NCT04666441|184787634|SUPERIORITY||Difference of LS Means|-0.47|STANDARD_ERROR_OF_MEAN|0.13||0.0002||95.0|-0.72|-0.23|||ANCOVA|||||-0.23|-0.72|0.0002
92450443|NCT04666441|184787634|SUPERIORITY||Difference of LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|-0.82|-0.32|||ANCOVA|||||-0.32|-0.82|<0.0001
92450444|NCT04666441|184787634|SUPERIORITY||Difference of LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|-0.83|-0.33|||ANCOVA|||||-0.33|-0.83|<0.0001
92450445|NCT04666441|184787634|SUPERIORITY||Difference of LS Means|-0.49|STANDARD_ERROR_OF_MEAN|0.13||0.0002||95.0|-0.75|-0.24|||ANCOVA|||||-0.24|-0.75|0.0002
92450446|NCT04666441|184787634|SUPERIORITY||Difference of LS Means|-0.37|STANDARD_ERROR_OF_MEAN|0.13||0.004||95.0|-0.62|-0.12|||ANCOVA|||||-0.12|-0.62|0.0040
92450447|NCT04666441|184787634|SUPERIORITY||Difference of LS Means|-0.42|STANDARD_ERROR_OF_MEAN|0.12||0.0007||95.0|-0.67|-0.18|||ANCOVA|||||-0.18|-0.67|0.0007
92450448|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.82|-0.33|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.33|-0.82|<0.0001
92450449|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.65|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.40|-0.90|<0.0001
92450450|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.7|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.97|-0.42|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.42|-0.97|<0.0001
92450451|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.88|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.19|-0.58|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.58|-1.19|<0.0001
92450452|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.84|-0.33|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.33|-0.84|<0.0001
92450453|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.69|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.95|-0.43|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.43|-0.95|<0.0001
92450454|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.98|-0.44|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.44|-0.98|<0.0001
92450455|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.95|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.25|-0.64|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.64|-1.25|<0.0001
92450456|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.62|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.87|-0.37|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.37|-0.87|<0.0001
92450457|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.93|-0.42|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.42|-0.93|<0.0001
92450458|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.72|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.99|-0.44|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.44|-0.99|<0.0001
92450459|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.93|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.25|-0.61|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.61|-1.25|<0.0001
92450460|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.8|-0.31|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.31|-0.80|<0.0001
92450461|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.89|-0.38|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.38|-0.89|<0.0001
92450462|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.7|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.97|-0.43|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.43|-0.97|<0.0001
92450463|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.84|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.15|-0.52|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.52|-1.15|<0.0001
92450464|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.76|-0.27|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.27|-0.76|<0.0001
92450465|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.83|-0.33|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.33|-0.83|<0.0001
92450466|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.55|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.82|-0.28|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.28|-0.82|<0.0001
92450467|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-0.95|-0.32|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.32|-0.95|<0.0001
92450468|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.13||0.0002|TWO_SIDED|95.0|-0.73|-0.23|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.23|-0.73|0.0002
92450469|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.82|-0.31|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.31|-0.82|<0.0001
92450470|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.87|-0.33|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.33|-0.87|<0.0001
92287179|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.074||||0.012|TWO_SIDED|95.0|0.017|0.131|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.131|0.017|0.012
92287180|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.037|TWO_SIDED|95.0|0.004|0.116|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.116|0.004|0.037
92287181|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.082||||0.003|TWO_SIDED|95.0|0.028|0.136|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.136|0.028|0.003
92450471|NCT04666441|184787635|SUPERIORITY||Difference of LS Means|-0.84|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.16|-0.52|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.52|-1.16|<0.0001
92450472|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.12||0.0005|TWO_SIDED|95.0|-0.64|-0.18|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.18|-0.64|0.0005
92450473|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.46|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.69|-0.23|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.23|-0.69|<0.0001
92450474|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.75|-0.26|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.26|-0.75|<0.0001
92450475|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.88|-0.32|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.32|-0.88|<0.0001
92450476|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.45|STANDARD_ERROR_OF_MEAN|0.12||0.0003|TWO_SIDED|95.0|-0.69|-0.21|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.21|-0.69|0.0003
92450477|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.53|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.77|-0.29|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.29|-0.77|<0.0001
92450478|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.53|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.78|-0.29|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.29|-0.78|<0.0001
92450479|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.69|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.98|-0.41|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.41|-0.98|<0.0001
92450480|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.72|-0.25|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.25|-0.72|<0.0001
92450481|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.74|-0.28|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.28|-0.74|<0.0001
92450482|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.54|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.79|-0.3|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.30|-0.79|<0.0001
92450483|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.7|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.99|-0.4|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.40|-0.99|<0.0001
92450484|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.12||0.0009|TWO_SIDED|95.0|-0.63|-0.16|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.16|-0.63|0.0009
92450485|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.46|STANDARD_ERROR_OF_MEAN|0.12||0.0001|TWO_SIDED|95.0|-0.69|-0.23|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.23|-0.69|0.0001
92450486|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.52|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.77|-0.27|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.27|-0.77|<0.0001
92450487|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.92|-0.34|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.34|-0.92|<0.0001
92450488|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.34|STANDARD_ERROR_OF_MEAN|0.12||0.0046|TWO_SIDED|95.0|-0.57|-0.1|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.10|-0.57|0.0046
92450489|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.12||0.0011|TWO_SIDED|95.0|-0.62|-0.15|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.15|-0.62|0.0011
92450490|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.37|STANDARD_ERROR_OF_MEAN|0.13||0.0029|TWO_SIDED|95.0|-0.62|-0.13|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.13|-0.62|0.0029
92450491|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.37|STANDARD_ERROR_OF_MEAN|0.15||0.012|TWO_SIDED|95.0|-0.66|-0.08|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.08|-0.66|0.0120
92450492|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.33|STANDARD_ERROR_OF_MEAN|0.12||0.0062|TWO_SIDED|95.0|-0.56|-0.09|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.09|-0.56|0.0062
92450493|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.12||0.0011|TWO_SIDED|95.0|-0.62|-0.16|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.16|-0.62|0.0011
92450494|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.13||0.0011|TWO_SIDED|95.0|-0.66|-0.17|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.17|-0.66|0.0011
92450495|NCT04666441|184787636|SUPERIORITY||Difference of LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.15||0.0001|TWO_SIDED|95.0|-0.87|-0.29|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.29|-0.87|0.0001
92450496|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.49|STANDARD_ERROR_OF_MEAN|0.18||0.007||95.0|-0.85|-0.14|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||-0.14|-0.85|0.0070
92450497|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.69|STANDARD_ERROR_OF_MEAN|0.19||0.0002|TWO_SIDED|95.0|-1.06|-0.33|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||-0.33|-1.06|0.0002
92450498|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.19||0.0008||95.0|-1.0|-0.26|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||-0.26|-1.00|0.0008
92172649|NCT04501861|184236000|EQUIVALENCE|We're going to explore the interaction between preoperative pulmonary arterial hypertension status and treatment group by equivalence analysis. The number of patients in norepinephrine group is 22 and in vasopressin group is 18.The significance level was 0.05 for all analyses. All tests were 2-sided. The significance levels of subgroup analyses were not corrected for multiple comparisons. Interactions were considered significant when the interaction P was \< 0.10.|Mean Difference (Final Values)|-1.5||||0.63|TWO_SIDED|95.0|-7.6|4.6|||Mixed Models Analysis|||"We examined the effect of norepinephrine versus vasopressin on right ventricular free wall strain by separately considering patients who did not have preoperative pulmonary hypertension.~Preoperative pulmonary arterial hypertension was defined by using the cut-off value of 25 mmHg for the time-weighted average mPAP, i.e., time weighted average mPAP \< 25 mmHg indicated absence of preoperative pulmonary arterial hypertension; otherwise, presence of preoperative pulmonary hypertension."||4.6|-7.6|0.63
92172650|NCT01007591|184236037|SUPERIORITY||Mean Difference (Final Values)|-6.02||||0.75|TWO_SIDED|95.0|-43.7|31.7|||ANOVA|Treatment comparison using an ANOVA model with age group and treatment as design variables.||||31.7|-43.7|0.75
92172651|NCT04083235|184236042|OTHER||Hazard Ratio (HR)|0.83||||0.04|TWO_SIDED|95.0|0.7|0.99|||Stratified log-rank test||The HR and 95% confidence interval (CI) was based on a stratified Cox proportional hazards regression model, stratified by baseline Eastern Cooperative Oncology Group (ECOG) performance status, region and liver metastases as per IWRS.|||0.99|0.70|0.04
92172652|NCT04083235|184236043|OTHER||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.58|0.83|||Stratified log-rank test||The HR and 95% CI was based on a stratified Cox proportional hazards regression model, stratified by baseline ECOG performance status, region and liver metastases as per IWRS.|||0.83|0.58|<0.0001
92172653|NCT04083235|184236044|OTHER||Odds Ratio (OR)|1.26||||0.11|TWO_SIDED|95.0|0.95|1.69|||Cochran-Mantel-Haenszel||OR, 95% CI and p-value were obtained from the Cochran-Mantel-Haenszel test adjusting by baseline ECOG performance status, region and liver metastases as per IWRS.|||1.69|0.95|0.11
92172654|NCT04258709|184236077|SUPERIORITY|||||||0.12|||||||Chi-squared|||||||.1200
92172655|NCT04258709|184236077|SUPERIORITY||Odds Ratio (OR)|0.593||||0.0474|TWO_SIDED|95.0|0.352|0.9907|||Regression, Logistic||Adjusted for race, Iowa Infant Feeding Attitudes Score at baseline, infant gestational age, NICU admission, maternal age at enrollment, WIC enrollment at baseline, maternal pre-pregnancy BMI. This is an adjusted odds ratio.|||.9907|.352|.0474
92172656|NCT04258709|184236078|SUPERIORITY|||||||0.5201|||||||t-test, 1 sided|||||||.5201
92172657|NCT04258709|184236078|SUPERIORITY||Slope|0.1399||||0.9178|TWO_SIDED|95.0|-2.5299|2.8098|||Regression, Linear|||||2.8098|-2.5299|.9178
92172658|NCT04258709|184236079|SUPERIORITY|||||||0.8614|||||||t-test, 1 sided|||||||.8614
92172659|NCT04258709|184236079|SUPERIORITY||Odds Ratio (OR)|1.0763||||0.7836|TWO_SIDED|95.0|0.6364|1.8216|||Regression, Logistic|||||1.8216|.6364|.7836
92172660|NCT04258709|184236080|SUPERIORITY|||||||0.9788|||||||Chi-squared|||||||.9788
92450499|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.19||0.0125||95.0|-0.85|-0.1|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||-0.10|-0.85|0.0125
92450500|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.34|STANDARD_ERROR_OF_MEAN|0.18||0.0696||95.0|-0.7|0.03|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||0.03|-0.70|0.0696
92450501|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.0187|TWO_SIDED|95.0|-0.79|-0.07|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||-0.07|-0.79|0.0187
92450502|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.96|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001||95.0|-1.39|-0.52|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.52|-1.39|<0.0001
92450503|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-1.09|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.53|-0.64|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.64|-1.53|<0.0001
92450504|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-1.03|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.48|-0.59|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.59|-1.48|<0.0001
92450505|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-1.05|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.5|-0.6|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.60|-1.50|<0.0001
92450506|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.34|-0.46|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.46|-1.34|<0.0001
92450507|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.92|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001||95.0|-1.35|-0.48|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.48|-1.35|<0.0001
92450508|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.79|STANDARD_ERROR_OF_MEAN|0.22||0.0004||95.0|-1.23|-0.35|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.35|-1.23|0.0004
92450509|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.23||0.0058||95.0|-1.08|-0.18|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.18|-1.08|0.0058
92450510|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.66|STANDARD_ERROR_OF_MEAN|0.23||0.0046||95.0|-1.11|-0.2|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.20|-1.11|0.0046
92450511|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.73|STANDARD_ERROR_OF_MEAN|0.23||0.0019||95.0|-1.18|-0.27|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.27|-1.18|0.0019
92450512|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.89|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.33|-0.44|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.44|-1.33|<0.0001
92450513|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.22||0.0079||95.0|-1.04|-0.16|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.16|-1.04|0.0079
92450514|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.45|STANDARD_ERROR_OF_MEAN|0.23||0.0515||95.0|-0.9|0.0|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||0.00|-0.90|0.0515
92450515|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.31|STANDARD_ERROR_OF_MEAN|0.23||0.1864||95.0|-0.77|0.15|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||0.15|-0.77|0.1864
92450516|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.25|STANDARD_ERROR_OF_MEAN|0.24||0.2866||95.0|-0.72|0.21|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||0.21|-0.72|0.2866
92450517|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.11|STANDARD_ERROR_OF_MEAN|0.24||0.647||95.0|-0.58|0.36|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||0.36|-0.58|0.6470
92450518|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.23||0.028||95.0|-0.97|-0.06|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||-0.06|-0.97|0.0280
92450519|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.23||0.0854||95.0|-0.84|0.05|||Mixed Models Analysis|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||0.05|-0.84|0.0854
92450520|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.31|STANDARD_ERROR_OF_MEAN|0.19||0.1078|TWO_SIDED|95.0|-0.69|0.07|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||0.07|-0.69|0.1078
92450521|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.24|STANDARD_ERROR_OF_MEAN|0.19||0.2235||95.0|-0.62|0.14|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||0.14|-0.62|0.2235
92450522|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.29|STANDARD_ERROR_OF_MEAN|0.2||0.1369||95.0|-0.68|0.09|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||0.09|-0.68|0.1369
92450523|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.09|STANDARD_ERROR_OF_MEAN|0.2||0.661||95.0|-0.48|0.31|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||0.31|-0.48|0.6610
92450524|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.43|STANDARD_ERROR_OF_MEAN|0.19||0.0284||95.0|-0.81|-0.05|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||-0.05|-0.81|0.0284
92450525|NCT04666441|184787640|SUPERIORITY||Difference of LS Means|-0.33|STANDARD_ERROR_OF_MEAN|0.19||0.08||95.0|-0.71|0.04|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||0.04|-0.71|0.0800
92450526|NCT01130740|184787670|SUPERIORITY_OR_OTHER|||||||0.158|TWO_SIDED||||||Mixed Models Analysis|||This is a comparison of 6-month outcomes between the two study groups. (Primary comparison is for 12 months.)||||0.158
92450527|NCT01130740|184787670|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Mixed Models Analysis|||This is the 12-month comparison between the 2 study groups, which is the primary study analysis.||||0.008
92450528|NCT01130740|184787671|SUPERIORITY_OR_OTHER|||||||0.274|TWO_SIDED||||||Mixed Models Analysis|||This is the between-group 12-month comparison.||||0.274
92450529|NCT01130740|184787672|SUPERIORITY_OR_OTHER|||||||0.177|TWO_SIDED||||||Mixed Models Analysis|||||||0.177
92172661|NCT04258709|184236080|SUPERIORITY||Odds Ratio (OR)|1.0307||||0.9119|TWO_SIDED|95.0|0.603|1.7067|||Regression, Logistic|||||1.7067|.603|.9119
92172662|NCT04258709|184236081|SUPERIORITY||Odds Ratio (OR)|0.7157||||0.2173|TWO_SIDED|95.0|0.4192|1.216|||Regression, Logistic|||||1.216|.4192|.2173
92172663|NCT04258709|184236082|SUPERIORITY||Odds Ratio (OR)|0.7157||||0.5209|TWO_SIDED|95.0|0.4192|1.216|||Regression, Logistic|||||1.216|.4192|.5209
92172664|NCT04258709|184236085|SUPERIORITY|||||||0.4258|||||||Chi-squared|||||||.4258
92172665|NCT04258709|184236085|SUPERIORITY||Odds Ratio (OR)|0.8882||||0.6246|TWO_SIDED|95.0|0.5523|1.4283|||Regression, Logistic|||||1.4283|.5523|.6246
92172666|NCT04258709|184236086|SUPERIORITY|||||||0.5613|||||||Chi-squared|||||||.5613
92172667|NCT04258709|184236086|SUPERIORITY||Odds Ratio (OR)|0.7157||||0.2173|TWO_SIDED|95.0|0.4206|1.2178|||Regression, Logistic|||||1.2178|.4206|.2173
92172668|NCT04258709|184236087|SUPERIORITY|||||||0.6291|||||||Chi-squared|||||||.6291
92172669|NCT04258709|184236087|SUPERIORITY||Odds Ratio (OR)|1.1955||||0.5426|TWO_SIDED|95.0|0.8745|1.3931|||Regression, Logistic|||||1.3931|.8745|.5426
92172670|NCT04258709|184236088|SUPERIORITY|||||||0.9071|||||||Chi-squared|||||||.9071
92287182|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.074||||0.006|TWO_SIDED|95.0|0.021|0.127|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.127|0.021|0.006
92172671|NCT04258709|184236088|SUPERIORITY||Odds Ratio (OR)|1.0233||||0.9328|TWO_SIDED|95.0|0.7751|1.2084|||Regression, Logistic|||||1.2084|.7751|.9328
92172672|NCT04258709|184236089|SUPERIORITY||Slope|0.8213||||0.5548|TWO_SIDED|95.0|-1.9161|3.5588|||Regression, Linear|||||3.5588|-1.9161|.5548
92172673|NCT04258709|184236090|SUPERIORITY||Slope|1.2412||||0.3861|TWO_SIDED|95.0|-1.5771|4.0594|||Regression, Linear|||||4.0594|-1.5771|.3861
92172674|NCT04258709|184236091|SUPERIORITY|||||||0.4779|||||||t-test, 1 sided|||||||.4779
92172675|NCT04258709|184236092|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92172676|NCT04258709|184236092|SUPERIORITY||Odds Ratio (OR)|0.9508||||0.9163|TWO_SIDED|95.0|0.3669|2.4621|||Regression, Logistic|||||2.4621|.3669|.9163
92172677|NCT04258709|184236093|SUPERIORITY||Odds Ratio (OR)|1.1084||||0.8031|TWO_SIDED|95.0|0.4937|2.4882|||Regression, Logistic|||||2.4882|.4937|.8031
92450530|NCT01181895|184787681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.244|TWO_SIDED|95.0|-0.048|0.188||P-value for the adjusted treatment difference for Vilanterol 25 µg OD versus Placebo.|ANCOVA||The estimated value represents the adjusted treatment difference in the weighted mean 0-24 hour FEV1 (Liters) at Week 12 for Vilanterol 25 µg OD versus Placebo.|||0.188|-0.048|0.244
92450531|NCT01181895|184787681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006||||0.926|TWO_SIDED|95.0|-0.124|0.113||P-value for the adjusted treatment difference for Salmetarol 50 µg BID versus Placebo.|ANCOVA||The estimated value represents the adjusted treatment difference in the weighted mean 0-24 hour FEV1 (Liters) at Week 12 for Salmeterol 50 µg BID versus Placebo.|||0.113|-0.124|0.926
92450532|NCT01114516|184787716|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||Log Rank|||Kaplan Meier survival analysis||||0.018
92450533|NCT01114516|184787717|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.48|||||TWO_SIDED|95.0|1.06|2.05||||||||2.05|1.06|
92450534|NCT01114516|184787718|SUPERIORITY_OR_OTHER|||||||0.393|TWO_SIDED||||||Kruskal-Wallis|||||||0.393
92450535|NCT04419493|184787743|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%|Geometric Least Squares Mean ratio (%)|102.2|STANDARD_ERROR_OF_MEAN|10.8|||TWO_SIDED|92.83|94.87|110.1|||||Geometric Least Squares Mean ratio is: Alteplase, TPA-02/Alteplase, TPA-05. Standard Error of the mean is actually the intra-individual geometric coefficient variation.|"The null hypothesis was that the ratio of expected geometric least squares means Alteplase, TPA-02 vs. Alteplase, TPA-05 is less than 80.00% or more than 125.00%.~The statistical model used for the analysis of this endpoints was an analysis of variance (ANOVA) model on the logarithmic scale.~This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. All effects were considered as fixed."||110.10|94.87|
92450536|NCT04419493|184787745|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%|Geometric Least Squares Mean ratio (%)|105.81|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|92.83|99.18|112.88|||||Geometric Least Squares Mean ratio is: Alteplase, TPA-02/Alteplase, TPA-05. Standard Error of the mean is actually the intra-individual geometric coefficient variation.|"The null hypothesis was that the ratio of expected geometric least squares means Alteplase, TPA-02 vs. Alteplase, TPA-05 is less than 80.00% or more than 125.00%.~The statistical model used for the analysis of this endpoints was an analysis of variance (ANOVA) model on the logarithmic scale.~This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. All effects were considered as fixed."||112.88|99.18|
92450537|NCT04419493|184787747|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00% .|Geometric Least Squares Mean ratio (%)|102.17|STANDARD_ERROR_OF_MEAN|10.8|||TWO_SIDED|92.83|94.79|110.12|||||Geometric Least Squares Mean ratio is: Alteplase, TPA-02/Alteplase, TPA-05. Standard Error of the mean is actually the intra-individual geometric coefficient variation.|"The null hypothesis was that the ratio of expected geometric least squares means Alteplase, TPA-02 vs. Alteplase, TPA-05 is less than 80.00% or more than 125.00%.~The statistical model used for the analysis of this endpoints was an analysis of variance (ANOVA) model on the logarithmic scale.~This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. All effects were considered as fixed."||110.12|94.79|
92450538|NCT03794089|184787752|SUPERIORITY|||||||0.035||||||a priori threshold for statistical significance was p\<=.05|ANCOVA|||comparisons of groups at post-assessment controls for baseline GAD-7 total scores||||0.035
92450539|NCT03794089|184787753|SUPERIORITY|||||||0.231||||||a priori threshold for statistical significance was p\<=0.05|ANCOVA|||comparisons of groups at post-assessment controls for baseline PHQ-9 total scores||||0.231
92450540|NCT03794089|184787754|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.393||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Anxiety subscale total from Baseline to 4 weeks||||0.393
92450541|NCT03794089|184787754|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.022||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Anxiety subscale total from Baseline to 8 weeks||||0.022
92450542|NCT03794089|184787754|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.013||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Anxiety subscale total from Baseline to 12 weeks||||0.013
92450543|NCT03794089|184787754|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.049||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Anxiety subscale total from Baseline to Post assessment (16 weeks)||||0.049
92450544|NCT03794089|184787755|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.008||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Depression subscale total from Baseline to 4 weeks||||0.008
92450545|NCT03794089|184787755|SUPERIORITY|Testing null hypothesis of no difference between groups|||||<|0.001||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Depression subscale total from Baseline to 8 weeks||||<0.001
92450546|NCT03794089|184787755|SUPERIORITY|Testing null hypothesis of no difference between groups|||||<|0.001||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Depression subscale total from Baseline to 12 weeks||||<0.001
92450547|NCT03794089|184787755|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.008||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Depression subscale total from Baseline to Post-assessment (16 weeks)||||0.008
92450548|NCT03794089|184787756|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.44||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Stress subscale total from Baseline to 4 weeks||||0.440
92172678|NCT04258709|184236094|SUPERIORITY||Odds Ratio (OR)|1.1346||||0.8175|TWO_SIDED|95.0|0.3882|3.3161|||Regression, Logistic|||||3.3161|.3882|.8175
92241121|NCT02574312|184385343|NON_INFERIORITY|Non-Inferiority Analysis of absolute value of mechanical axis alignment with NI margin of 1.5 degrees, using a 1-sided T-test with alpha of 0.05. Anticipated power was 95%.||||||0.028|||||||t-test, 1 sided|||||||0.028
92450549|NCT03794089|184787756|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.022||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Stress subscale total from Baseline to 8 weeks||||0.022
92241122|NCT02410902|184385349|OTHER|ANCOVA using MMRM analysis|Mean Difference (Final Values)|-2.56||||0.038|TWO_SIDED|95.0|-4.98|-0.14|||ANCOVA|||||-0.14|-4.98|0.038
92450550|NCT03794089|184787756|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.032||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Stress subscale total from Baseline to 12 weeks||||0.032
92450551|NCT03794089|184787756|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.091||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Stress subscale total from Baseline to Post-assessment (16 weeks)||||0.091
92450552|NCT03794089|184787757|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.058||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in OASIS total score from Baseline to 4 weeks||||0.058
92450553|NCT03794089|184787757|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.032||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in OASIS total score from Baseline to 8 weeks||||0.032
92450554|NCT03794089|184787757|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.007||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in OASIS total score from Baseline to 12 weeks||||0.007
92450555|NCT03794089|184787757|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.044||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in OASIS total score from Baseline to Post assessment (16 weeks)||||0.044
92450556|NCT03794089|184787758|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.328||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in ODSIS total from Baseline to 4 weeks||||0.328
92450557|NCT03794089|184787758|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.148||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in ODSIS total from Baseline to 8 weeks||||0.148
92450558|NCT03794089|184787758|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.002||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in ODSIS total from Baseline to 12 weeks||||0.002
92241123|NCT02410902|184385350|OTHER|ANCOVA using MMRM analysis|Mean Difference (Final Values)|-1.07||||0.325|TWO_SIDED|95.0|-3.21|1.07|||ANCOVA|||||1.07|-3.21|0.325
92450559|NCT03794089|184787758|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.069||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in ODSIS total from Baseline to Post-assessment (16 weeks)||||0.069
92450560|NCT03794089|184787759|SUPERIORITY|||||||0.928||||||a priori threshold for statistical significance was p\<=0.05|ANCOVA|||comparisons of groups at post-assessment controls for baseline Q-LES-Q-SF total scores||||0.928
92450561|NCT03794089|184787760|SUPERIORITY|||||||0.402||||||a priori threshold for statistical significance was p\<.05|Fisher Exact|degrees of freedom = 1||Testing null hypothesis of no difference between groups||||0.402
92450562|NCT03794089|184787761|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance was p\<=.05|t-test, 2 sided|||Testing the null hypothesis of no difference between groups||||<0.001
92450563|NCT03794089|184787762|SUPERIORITY|||||||0.006||||||a priori threshold for statistical significance was p\<=.05|t-test, 2 sided|Used Satterthwaite method given unequal variances||Testing the null hypothesis of no difference between groups||||.006
92450564|NCT03794089|184787763|SUPERIORITY|||||||0.004||||||a priori threshold for statistical significance was p\<=.05|t-test, 2 sided|used Satterthwaite method given unequal variances||Testing the null hypothesis of no difference between groups||||0.004
92450565|NCT03794089|184787764|SUPERIORITY|||||||0.002||||||a priori threshold for statistical significance was p\<=.05|t-test, 2 sided|||Testing the null hypothesis of no difference between groups||||0.002
92450566|NCT03119766|184787776|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.041|TWO_SIDED|95.0|0.04|1.85|||ANOVA||Results are presented as estimated differences of Least Squares Means according to ANOVA model|Mean changes of GIS scores after 8 weeks of treatment were compared.||1.85|0.04|0.041
92450567|NCT03119766|184787776|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.041|TWO_SIDED|95.0|0.04|1.74|||Mixed Models Analysis||"Fixed factor Treatment and random factor research center were used in mixed model. Difference in mean changes between groups was estimeted."|Mean changes of GIS scores after 8 weeks of treatment were compared. Influence of between center variation was estimated.||1.74|0.04|0.041
92450568|NCT03119766|184787777|SUPERIORITY|||||||0.067|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 1 point.||||0.067
92450569|NCT03119766|184787777|SUPERIORITY|||||||0.029|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 2 points.||||0.029
92450570|NCT03119766|184787777|SUPERIORITY|||||||0.082|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 3 points.||||0.082
92450571|NCT03119766|184787777|SUPERIORITY|||||||0.046|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 4 points.||||0.046
92450572|NCT03119766|184787777|SUPERIORITY|||||||0.111|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 5 points.||||0.111
92450573|NCT03119766|184787778|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.435|TWO_SIDED|95.0|-0.93|2.15|||ANOVA||Results are presented as estimated differences of Least Squares Means according to ANOVA model|Mean changes of NDI scores after 8 weeks of treatment were compared.||2.15|-0.93|0.435
92450574|NCT03119766|184787779|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.655|TWO_SIDED|95.0|-2.0|1.26|||ANOVA||Results are presented as estimated differences of Least Squares Means according to ANOVA model|Mean changes of SF-36 scores (physical health domain) after 8 weeks of treatment were compared.||1.26|-2.00|0.655
92450575|NCT03119766|184787779|SUPERIORITY||Median Difference (Final Values)|0.65||||0.375|TWO_SIDED|95.0|-0.79|2.1|||ANOVA|||Mean changes of SF-36 scores (mental health domain) after 8 weeks of treatment were compared.||2.10|-0.79|0.375
92450576|NCT03119766|184787780|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92172679|NCT04258709|184236095|SUPERIORITY||Odds Ratio (OR)|0.6964||||0.434|TWO_SIDED|95.0|0.2813|1.7241|||Regression, Logistic|||||1.7241|.2813|.434
92450577|NCT03119766|184787781|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Side effects analysis.||||0.08
92450578|NCT03119766|184787781|SUPERIORITY|||||||0.139|||||||Wilcoxon (Mann-Whitney)|||Therapeutic effect||||0.139
92450579|NCT03119766|184787781|SUPERIORITY|||||||0.251|||||||Wilcoxon (Mann-Whitney)|||Efficacy index analysis.||||0.251
92450580|NCT02034578|184787784|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.953|||||TWO_SIDED|90.0|0.873|1.04||||||B versus A||1.040|0.873|
92450581|NCT02034578|184787784|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.805|||||TWO_SIDED|90.0|0.749|0.865||||||C versus A||0.865|0.749|
92450582|NCT02034578|184787786|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.966|||||TWO_SIDED|90.0|0.924|1.01||||||B versus A||1.010|0.924|
92450583|NCT02034578|184787786|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.919|||||TWO_SIDED|90.0|0.896|0.942||||||C versus A||0.942|0.896|
92172680|NCT04258709|184236096|SUPERIORITY||Odds Ratio (OR)|1.2533||||0.4968|TWO_SIDED|95.0|0.6534|2.4041|||Regression, Logistic|||||2.4041|.6534|.4968
92450584|NCT02034578|184787787|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.968|||||TWO_SIDED|90.0|0.926|1.011||||||B versus A||1.011|0.926|
92450585|NCT02034578|184787787|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.922|||||TWO_SIDED|90.0|0.899|0.947||||||C versus A||0.947|0.899|
92450586|NCT01782131|184787800|NON_INFERIORITY|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme. The p-Value is based on the one-sided non-inferiority test. Non-inferiority of posaconazole vs. voriconazole is established if the upper limit of the 95% confidence interval is less than 10%.|Estimated Difference in Percent|-5.3|||<|0.0001|TWO_SIDED|95.0|-11.6|1.0|||Miettinen and Nurminen|||||1.0|-11.6|<.0001
92450587|NCT01782131|184787801|OTHER|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme.|Estimated Difference in Percent|0.3|||||TWO_SIDED|95.0|-8.2|8.8||||||||8.8|-8.2|
92450588|NCT01782131|184787802|OTHER|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme.|Estimated Difference in Percent|-2.5|||||TWO_SIDED|95.0|-9.9|4.9||||||||4.9|-9.9|
92450589|NCT01782131|184787803|OTHER|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme.|Estimated Difference in Percent|3.1|||||TWO_SIDED|95.0|-6.9|13.1||||||||13.1|-6.9|
92450590|NCT01782131|184787804|OTHER|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme.|Estimated Difference in Percent|-3.4|||||TWO_SIDED|95.0|-13.9|7.1||||||||7.1|-13.9|
92450591|NCT01782131|184787805|OTHER|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme.|Difference in Percent|-0.6|||||TWO_SIDED|95.0|-11.2|10.1||||||||10.1|-11.2|
92450592|NCT01782131|184787806|OTHER||Survival Rate in Percent|60.7||||0.2767|TWO_SIDED|95.0|52.8|67.8||Based on Stratified Log-Rank method stratified by the risk for mortality/poor outcome (high risk, not high risk).|Kaplan-Meier|From product-limit (Kaplan-Meier) method for censored data.||Analysis of Time to All-Cause Mortality Through Day 114: Posaconazole vs. Voriconazole||67.8|52.8|0.2767
92450593|NCT01782131|184787807|OTHER|Based on Miettinen and Nurminen's method.|Difference in Percent|20.4|||||TWO_SIDED|95.0|-4.1|42.7||||||||42.7|-4.1|
92450594|NCT01782131|184787808|OTHER|Based on Miettinen and Nurminen's method.|Difference in Percent|11.3|||||TWO_SIDED|95.0|-6.9|28.6||||||||28.6|-6.9|
92450595|NCT01782131|184787809|OTHER||Difference in Percent|0.3||||0.8305|TWO_SIDED|95.0|-2.9|3.6|||Miettinen & Nurminen|||Abnormal Hepatic Laboratory Value||3.6|-2.9|0.8305
92450596|NCT01782131|184787809|OTHER||Difference in Percent|-3.6||||0.3633|TWO_SIDED|95.0|-11.3|4.2|||Miettinen & Nurminen|||CNS and Visual Disturbances||4.2|-11.3|0.3633
92450597|NCT01782131|184787809|OTHER||Difference in Percent|-2.8||||0.3724|TWO_SIDED|95.0|-9.1|3.4|||Miettinen & Nurminen|||Dermatologic Reactions||3.4|-9.1|0.3724
92450598|NCT01782131|184787809|OTHER||Difference in Percent|1.0||||0.6431|TWO_SIDED|95.0|-3.4|5.5|||Miettinen & Nurminen|||Adrenal Insufficiency or Temporal Hypotension||5.5|-3.4|0.6431
92450599|NCT01782131|184787810|OTHER|Based on Miettinen \& Nurminen|Difference in Percent|0.0|||||TWO_SIDED|95.0|-2.8|2.8||||||||2.8|-2.8|
92450600|NCT01782131|184787811|OTHER|Based on Miettinen \& Nurminen method.|Difference in Percent|-10.2|||||TWO_SIDED|95.0|-17.9|-2.4||||||||-2.4|-17.9|
92450601|NCT01782131|184787812|OTHER|Based on Miettinen \& Nurminen method.|Difference in Percent|1.9|||||TWO_SIDED|95.0|-6.1|9.8||||||||9.8|-6.1|
92450602|NCT01782131|184787813|OTHER|Based on Miettinen \& Nurminen method.|Difference in Percent|-1.4|||||TWO_SIDED|95.0|-5.6|2.7||||||||2.7|-5.6|
92450603|NCT01782131|184787814|OTHER|Based on Miettinen \& Nurminen method.|Difference in Percent|-3.2|||||TWO_SIDED|95.0|-11.0|4.5||||||||4.5|-11.0|
92450604|NCT01073618|184787820|SUPERIORITY_OR_OTHER||Efficacy rate (percent)|75.15|||||TWO_SIDED|95.0|71.36|78.94|||Normal approximation to binomial||Confidence Interval (CI) by normal approximation to binomial.|Efficacy Rate (treatment effective) = Percentage of evaluable participants with clinical response of cure or improvement||78.94|71.36|
92450605|NCT04088097|184787834|SUPERIORITY|||||||0.01|||||||ANOVA|||||||.01
92450606|NCT04088097|184787835|SUPERIORITY|||||||0.75|||||||ANOVA|||||||.75
92450607|NCT04088097|184787836|SUPERIORITY|||||||0.03|||||||ANOVA|||||||.03
92450608|NCT03556761|184787838|SUPERIORITY||Risk Ratio (RR)|0.4||||0.03|TWO_SIDED|95.0|0.2|0.81|||Regression, Linear|||||0.81|0.20|0.03
92450609|NCT03556761|184787839|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.12|TWO_SIDED|95.0|0.95|1.51|||Regression, Cox|||||1.51|0.95|0.12
92450610|NCT03556761|184787840|SUPERIORITY||Risk Ratio (RR)|0.55||||0.14|TWO_SIDED|95.0|0.25|1.21|||Chi-squared|||||1.21|0.25|0.14
92450611|NCT03556761|184787841|SUPERIORITY||Risk Ratio (RR)|0.87||||0.36|TWO_SIDED|95.0|0.64|1.18|||Chi-squared|||||1.18|0.64|0.36
92450612|NCT03556761|184787842|SUPERIORITY||Risk Ratio (RR)|0.02||||0.76|TWO_SIDED|95.0|-0.09|0.13|||Regression, Linear|||||.13|-0.09|0.76
92450613|NCT03556761|184787843|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
92450614|NCT03556761|184787844|SUPERIORITY||Risk Ratio (RR)|3.0|||||TWO_SIDED|95.0|0.32|28.59||||||||28.59|0.32|
92450615|NCT03556761|184787845|SUPERIORITY||Risk Ratio (RR)|0.61||||0.03|TWO_SIDED|95.0|0.39|0.96|||Chi-squared|||||0.96|0.39|0.03
92450616|NCT01154166|184787882|SUPERIORITY_OR_OTHER||Adjusted mean for treatment difference|-1.76|||<|0.001|TWO_SIDED|95.0|-2.27|-1.26|||ANCOVA||The estimated value indicates the treatment difference for the adjusted mean for Ropinirole PR and placebo.|||-1.26|-2.27|<0.001
92172681|NCT04258709|184236097|SUPERIORITY||Odds Ratio (OR)|1.0288||||0.9005|TWO_SIDED|95.0|0.659|1.6062|||Regression, Logistic|||||1.6062|.659|.9005
92172682|NCT04258709|184236098|SUPERIORITY||Slope|-1.4018||||0.127|TWO_SIDED|95.0|-3.2052|0.4015|||Regression, Linear|||||.4015|-3.2052|.127
92450617|NCT00491244|184787908|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.8|||<|0.001|TWO_SIDED|95.0|1.46|2.21|||Chi-squared|||||2.21|1.46|< 0.001
92450618|NCT00491244|184787909|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.61||||0.35|TWO_SIDED|95.0|0.65|4.01|||Chi-squared|||||4.01|0.65|0.35
92450619|NCT01276327|184787910|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|99.92|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|97.11|102.81|||Unscaled average Bioequivalence||Geometric standard error of mean was calculated.|||102.81|97.11|
92450620|NCT01276327|184787911|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|94.17|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|89.08|99.55|||Unscaled average Bioequivalence||Geometric Standard error of mean was calculated.|||99.55|89.08|
92450621|NCT01276327|184787912|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together.|Adjusted gMean Ratio (Test/Ref) (%)|79.99|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|74.65|85.72|||Scaled average bioequivalence (SABE)||Geometric Standard error of mean was calculated.|||85.72|74.65|
92450622|NCT01276327|184787913|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|97.31|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|90.0|88.9|106.51|||Scaled average bioequivalence (SABE)||Geometric standard error of mean was calculated.|||106.51|88.90|
92450623|NCT01276327|184787914|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|99.92|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|97.1|102.81|||Unscaled average bioequivalence||Geometric Standard error of mean was calculated.|||102.81|97.10|
92450624|NCT01276327|184787915|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|101.85|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|98.18|105.67|||Unscaled average bioequivalence||Geometric standard error of mean was calculated.|||105.67|98.18|
92450625|NCT01276327|184787916|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|80.79|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|75.6|86.34|||Scaled average bioequivalence (SABE)||Geometric standard error of mean was calculated.|||86.34|75.60|
92450626|NCT00807092|184787919|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.013|STANDARD_ERROR_OF_MEAN|0.666||||95.0|-1.332|1.306||A statistical significant threshold p less than 0.025|ANCOVA|Treatment and strata as factors; baseline (visit 2) value of mean IAUC(0-4hours) as covariate|BIAsp 30 - BHI 30|"The null hypothesis (H0) was:~H0: Change in mean IAUC(0-4hours) of BIAsp 30 after 6 weeks of treatment-Change in mean IAUC(0-4hours) of BHI 30 after 6 weeks of treatment greater than or equal to 0 mol\*h/L against the alternative hypothesis(H1): H1: Change in mean IAUC (0-4hours) of BIAsp 30 after 6 weeks of treatment-Change in mean IAUC(0-4hours) of BHI 30 after 6 weeks of treatment less than 0 mol\*h/L"||1.306|-1.332|
92450627|NCT00807092|184787920|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.178|STANDARD_ERROR_OF_MEAN|1.0||0.2412||95.0|-0.802|3.157||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; corresponding baseline (week 0) value of mean IAUC(0-4h) as covariate (breakfast/lunch/dinner)|Breakfast|"Null hypothesis and alternative hypothesis for breakfast:~The null hypothesis (H0) was:~H0: Change in mean IAUC(0-4h) of BIAsp 30 for breakfast after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for breakfast after 6 weeks of treatment =0 mol\*h/L against the alternative hypothesis(H1): H1: Change in mean IAUC (0-4h) of BIAsp 30 for breakfast after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for breakfast after 6 weeks of treatment≠0 mol\*h/L"||3.157|-0.802|0.2412
92450628|NCT00807092|184787920|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.318|STANDARD_ERROR_OF_MEAN|1.216||0.794||95.0|-2.724|2.087||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; corresponding baseline (week 0) value of mean IAUC(0-4h) as covariate (breakfast/lunch/dinner)|Lunch|"Null hypothesis and alternative hypothesis for lunch:~The null hypothesis (H0) was:~H0: Change in mean IAUC(0-4h) of BIAsp 30 for lunch after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for lunch after 6 weeks of treatment =0 mol\*h/L against the alternative hypothesis(H1): H1: Change in mean IAUC (0-4h) of BIAsp 30 for lunch after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for lunch after 6 weeks of treatment≠0 mol\*h/L"||2.087|-2.724|0.794
92450629|NCT00807092|184787920|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.749||||0.3093||95.0|-2.2|0.703||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; corresponding baseline (week 0) value of mean IAUC(0-4h) as covariate (breakfast/lunch/dinner)|Dinner|"Null hypothesis and alternative hypothesis for dinner:~The null hypothesis (H0) was:~H0: Change in mean IAUC(0-4h) of BIAsp 30 for dinner after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for dinner after 6 weeks of treatment =0 mol\*h/L against the alternative hypothesis(H1): H1: Change in mean IAUC (0-4h) of BIAsp 30 for dinner after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for dinner after 6 weeks of treatment≠0 mol\*h/L"||0.703|-2.2|0.3093
92450630|NCT00807092|184787921|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.448|STANDARD_ERROR_OF_MEAN|0.261||0.0891||95.0|-0.069|0.964||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of mean FBG as covariate||"The null hypothesis (H0) was:~H0: Change in mean FBG of BIAsp 30 after 6 weeks of treatment-Change in mean FBG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in mean FBG of BIAsp 30 after 6 weeks of treatment-Change in mean FBG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.964|-0.069|0.0891
92280827|NCT03384745|184464671|SUPERIORITY|A sample size of 300 subjects has 99% power to detect a statistically significant difference between any treatment arm and placebo in the IGA score of 0 or 1 rate at Week 12, with a two-sided, unadjusted type I error of 0.05. Calculations assume IGA score 0 or 1 rates \>88% for study drug and \<=7% for placebo.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Null hypotheses were tested at Week 12 (individual M1095 treatment arms would not be different from placebo with respect to achievement of IGA scores of 0 or 1). The primary analysis was based on the intent-to-treat (ITT) population using a non-responder imputation (NRI) for missing values. Primary treatment comparisons versus placebo were made with the two-sided Cochran-Mantel-Haenszel (CMH) test stratified by actual prior biologic use (yes/no) and body weight (\<=90; \>90kg).|At Week 12, none (0.0% \[95% CI 0.0-6.8\]) of the 52 participants in the placebo group had an IGA score of 0 or 1 versus 25 (48.1% \[34.0-62.4\], p\<0.0001) of 52 participants in the M1095 30mg treatment group. Odds ratio could not be calculated due to the placebo group containing no responders.|||<0.0001
92287183|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.031||||0.282|TWO_SIDED|95.0|-0.025|0.087|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.087|-0.025|0.282
92287184|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.554|TWO_SIDED|95.0|-0.039|0.072|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.072|-0.039|0.554
92450631|NCT00807092|184787923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.495|STANDARD_ERROR_OF_MEAN|0.247||0.0472||95.0|0.006|0.984||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of mean FBG as covariate||"The null hypothesis (H0) was:~H0: Change in FPG of BIAsp 30 after 6 weeks of treatment-Change in FPG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in FPG of BIAsp 30 after 6 weeks of treatment-Change in FPG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.984|0.0060|0.0472
92287185|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.039||||0.149|TWO_SIDED|95.0|-0.014|0.091|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.091|-0.014|0.149
92450632|NCT00807092|184787924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.676||95.0|-0.41|0.63||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 2) value of BG as covariate|Before breakfast|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.63|-0.41|0.676
92450633|NCT00807092|184787924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.23||||0.026||95.0|0.15|2.31||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|2 hours after breakfast|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||2.31|0.15|0.026
92450634|NCT00807092|184787924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.5||95.0|-0.53|1.08||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|Before lunch|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||1.08|-0.53|0.5
92450635|NCT00807092|184787924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.747||95.0|-0.86|1.19||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|2 hours after lunch|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||1.19|-0.86|0.747
92450636|NCT00807092|184787924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.581||95.0|-1.23|0.69||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|Before dinner|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.69|-1.23|0.581
92450637|NCT00807092|184787924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.326||95.0|-1.42|0.48||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|2 hours after dinner|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.48|-1.42|0.326
92450638|NCT00807092|184787924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19||||0.643||95.0|-0.61|0.99||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|Bedtime|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.99|-0.61|0.643
92450639|NCT00807092|184787924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77||||0.008||95.0|0.21|1.33||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|3 AM|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||1.33|0.21|0.0080
92450640|NCT00807092|184787924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.274||95.0|-0.22|0.75||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|Average|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.75|-0.22|0.274
92450641|NCT00807092|184787925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.99||||0.062||95.0|-0.05|2.04||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of prandial BG increment as covariate|Breakfast|"For each endpoint of Prandial Blood Glucose Increment :The null hypothesis (H0) was:~H0: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment≠0 mmol/L"||2.04|-0.05|0.062
92241124|NCT04149899|184385368|OTHER|The null hypothesis is that the mean change from Baseline, Hour 2 = 0 at Day 14, Hour 2.|Mean Difference (Net)|-4.9|STANDARD_DEVIATION|1.85|<|0.001|TWO_SIDED|95.0|-5.73|-4.14||The p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||A within-group comparison was performed between Baseline, Hour 2 and Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5%.||-4.14|-5.73|<0.001
92172683|NCT04258709|184236099|SUPERIORITY||Slope|-1.8958||||0.07|TWO_SIDED|95.0|-3.9475|0.1559|||Regression, Linear|||||.1559|-3.9475|.07
92450642|NCT00807092|184787925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.933||95.0|-1.12|1.22||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of prandial BG increment as covariate|Lunch|"For each endpoint of Prandial Blood Glucose Increment :The null hypothesis (H0) was:~H0: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment≠0 mmol/L"||1.22|-1.12|0.933
92450643|NCT00807092|184787925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.922||95.0|-1.16|1.05||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of prandial BG increment as covariate|Dinner|"For each endpoint of Prandial Blood Glucose Increment :The null hypothesis (H0) was:~H0: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment≠0 mmol/L"||1.05|-1.16|0.922
92450644|NCT00807092|184787925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.29||||0.313||95.0|-0.28|0.85||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of prandial BG increment as covariate|Average|"For each endpoint of Prandial Blood Glucose Increment :The null hypothesis (H0) was:~H0: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.85|-0.28|0.313
92450645|NCT00807092|184787926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.187|STANDARD_ERROR_OF_MEAN|0.371||0.6149||95.0|-0.547|0.921||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (visit 2) value of mean MAGE as covariate||The full analysis set using LOCF (Last Observation Carried Forward) consists of all randomised subjects who had been exposed to at least one dose of the trial products.||0.921|-0.547|0.6149
92450646|NCT00807092|184787927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.328|STANDARD_ERROR_OF_MEAN|0.577||0.5706||95.0|-0.813|1.468||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of GA as covariate||"The null hypothesis (H0) was:~H0: Change in GA of BIAsp 30 after 6 weeks of treatment-Change in GA of BHI 30 after 6 weeks of treatment =0 % against the alternative hypothesis(H1): H1: Change in GA of BIAsp 30 after 6 weeks of treatment-Change in GA of BHI 30 after 6 weeks of treatment≠0 %"||1.468|-0.813|0.5706
92172684|NCT04258709|184236100|SUPERIORITY||Slope|-0.506||||0.6299|TWO_SIDED|95.0|-2.574|1.562|||Regression, Linear|||||1.562|-2.574|.6299
92241125|NCT04149899|184385368|OTHER|The null hypothesis is that the mean change from Baseline, Hour 2 = 0 at Day 14, Hour 2.|Mean Difference (Net)|-5.1|STANDARD_DEVIATION|2.51|<|0.001|TWO_SIDED|95.0|-6.14|-4.02||The p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||A within-group comparison was performed between Baseline, Hour 2 and Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5%.||-4.02|-6.14|<0.001
92287186|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|-0.014||||0.636|TWO_SIDED|95.0|-0.072|0.044|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.044|-0.072|0.636
92241126|NCT04149899|184385368|OTHER|The null hypothesis is that the mean change from Baseline, Hour 2 = 0 at Day 14, Hour 2.|Mean Difference (Net)|-6.0|STANDARD_DEVIATION|3.05|<|0.001|TWO_SIDED|95.0|-7.93|-4.07||The p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||A within-group comparison was performed between Baseline, Hour 2 and Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5%.||-4.07|-7.93|<0.001
92280828|NCT03384745|184464671|SUPERIORITY|A sample size of 300 subjects has 99% power to detect a statistically significant difference between any treatment arm and placebo in the IGA score of 0 or 1 rate at Week 12, with a two-sided, unadjusted type I error of 0.05. Calculations assume IGA score 0 or 1 rates \>88% for study drug and \<=7% for placebo.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Null hypotheses were tested at Week 12 (individual M1095 treatment arms would not be different from placebo with respect to achievement of IGA scores of 0 or 1). The primary analysis was based on the intent-to-treat (ITT) population using a non-responder imputation (NRI) for missing values. Primary treatment comparisons versus placebo were made with the two-sided Cochran-Mantel-Haenszel (CMH) test stratified by actual prior biologic use (yes/no) and body weight (\<=90; \>90kg).|At Week 12, none (0.0% \[95% CI 0.0-6.8\]) of the 52 participants in the placebo group had an IGA score of 0 or 1 versus 44 (84.6% \[71.9-93.1\], p\<0.0001) of 52 participants in the M1095 60mg treatment group. Odds ratio could not be calculated due to the placebo group containing no responders.|||<0.0001
92280829|NCT03384745|184464671|SUPERIORITY|A sample size of 300 subjects has 99% power to detect a statistically significant difference between any treatment arm and placebo in the IGA score of 0 or 1 rate at Week 12, with a two-sided, unadjusted type I error of 0.05. Calculations assume IGA score 0 or 1 rates \>88% for study drug and \<=7% for placebo.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Null hypotheses were tested at Week 12 (individual M1095 treatment arms would not be different from placebo with respect to achievement of IGA scores of 0 or 1). The primary analysis was based on the intent-to-treat (ITT) population using a non-responder imputation (NRI) for missing values. Primary treatment comparisons versus placebo were made with the two-sided Cochran-Mantel-Haenszel (CMH) test stratified by actual prior biologic use (yes/no) and body weight (\<=90; \>90kg).|At Week 12, none (0.0% \[95% CI 0.0-6.8\]) of the 52 participants in the placebo group had an IGA score of 0 or 1 versus 41 (77.4% \[63.8-87.7\], p\<0.0001) of 53 participants in the M1095 120mg normal load treatment group. Odds ratio could not be calculated due to the placebo group containing no responders.|||<0.0001
92280830|NCT03384745|184464671|SUPERIORITY|A sample size of 300 subjects has 99% power to detect a statistically significant difference between any treatment arm and placebo in the IGA score of 0 or 1 rate at Week 12, with a two-sided, unadjusted type I error of 0.05. Calculations assume IGA score 0 or 1 rates \>88% for study drug and \<=7% for placebo.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Null hypotheses were tested at Week 12 (individual M1095 treatment arms would not be different from placebo with respect to achievement of IGA scores of 0 or 1). The primary analysis was based on the intent-to-treat (ITT) population using a non-responder imputation (NRI) for missing values. Primary treatment comparisons versus placebo were made with the two-sided Cochran-Mantel-Haenszel (CMH) test stratified by actual prior biologic use (yes/no) and body weight (\<=90; \>90kg).|At Week 12, none (0.0% \[95% CI 0.0-6.8\]) of the 52 participants in the placebo group had an IGA score of 0 or 1 versus 45 (88.2% \[76.1-95.6\], p\<0.0001) of 51 participants in the M1095 120mg augmented load treatment group. Odds ratio could not be calculated due to the placebo group containing no responders.|||<0.0001
92280831|NCT03384745|184464671|SUPERIORITY|A sample size of 300 subjects has 99% power to detect a statistically significant difference between any treatment arm and placebo in the IGA score of 0 or 1 rate at Week 12, with a two-sided, unadjusted type I error of 0.05. Calculations assume IGA score 0 or 1 rates \>88% for study drug and \<=7% for placebo.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Null hypotheses were tested at Week 12 (individual M1095 treatment arms would not be different from placebo with respect to achievement of IGA scores of 0 or 1). The primary analysis was based on the intent-to-treat (ITT) population using a non-responder imputation (NRI) for missing values. Primary treatment comparisons versus placebo were made with the two-sided Cochran-Mantel-Haenszel (CMH) test stratified by actual prior biologic use (yes/no) and body weight (\<=90; \>90kg).|At Week 12, none (0.0% \[95% CI 0.0-6.8\]) of the 52 participants in the placebo group had an IGA score of 0 or 1 versus 41 (77.4% \[63.8-87.7\], p\<0.0001) of 53 participants in the secukinumab 300mg treatment group. Odds ratio could not be calculated due to the placebo group containing no responders.|||<0.0001
92280832|NCT02260492|184464688|EQUIVALENCE|"Equivalence test compares the Test/Reference with confidence bounds set at standard 80-125%.~Superiority test compares Test with Placebo (p\<0.05) Superiority test compares Reference with Placebo (p\<0.05) (p\<0.05)"|Test/Reference|1.0799|||<|0.05|TWO_SIDED|90.0|0.8|1.25|||ANCOVA|||"Primary analyses were conducted on BL subtracted values (pre-dose - post-dose). The two one-sided tests method of interval analysis is standard for bioequivalence testing and employs 2 sets of one-sided hypotheses as follows, performed at the 5% alpha level:~H01: uT-uR \< -0.20 uR vs. Ha1: -0.20 uR \</= uT- uR (the lower tail) and H02: uT-uR \>0.25 uR vs. Ha2: uT- uR \</=0.25 uR (the upper tail) When uT is the LSM SOLIS, uR is the LSM of ADVAIR DISKUS"|"Day 1 superiority to placebo:~Solis vs. Placebo p=0.004 Advair vs. Placebo p=0.012"|1.25|.8|<0.05
92450647|NCT00807092|184787928|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.113||0.8598||95.0|-0.243|0.243||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of HbA1c as covariate||"The null hypothesis (H0) was:~H0: Change in HbA1c of BIAsp 30 after 6 weeks of treatment-Change in HbA1c of BHI 30 after 6 weeks of treatment =0 % against the alternative hypothesis(H1): H1: Change in HbA1c of BIAsp 30 after 6 weeks of treatment-Change in HbA1c of BHI 30 after 6 weeks of treatment≠0%"||0.243|-0.243|0.8598
92450648|NCT00807092|184787929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.054|STANDARD_ERROR_OF_MEAN|0.128||0.671||95.0|-0.307|0.198||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of duration of hypoglycaemic events as covariate|Blood glucose below 3.5 mmol/l|"The null hypothesis (H0) was:~H0: Duration of Hypoglycaemic Events Based on CGMS of BIAsp 30 after 6 weeks of treatment-Duration of Hypoglycaemic Events Based on CGMS of BHI 30 after 6 weeks of treatment =0 hours against the alternative hypothesis(H1): H1: Duration of Hypoglycaemic Events Based on CGMS of BIAsp 30 after 6 weeks of treatment-Duration of Hypoglycaemic Events Based on CGMS of BHI 30 after 6 weeks of treatment≠0 hours"||0.198|-0.307|0.671
92172685|NCT04258709|184236101|SUPERIORITY||Odds Ratio (OR)|0.7573||||0.3835|TWO_SIDED|95.0|0.4029|1.4138|||Regression, Logistic|||||1.4138|.4029|.3835
92280833|NCT02260492|184464689|EQUIVALENCE|Standard bioequivalence 90% confidence bounds set at 0.8-1.25.|Test/Reference|1.0475|||<|0.05|TWO_SIDED|90.0|0.8|1.25|||ANOVA|||Same as the Day 1 analyses|"Week 4 superiority to placebo:~Solis vs. Placebo p=0.019 Advair vs. Placebo p=0.035"|1.25|.8|<0.05
92280834|NCT04634409|184464691|SUPERIORITY||Odds Ratio (OR)|0.37||||0.009273|TWO_SIDED|95.0|0.18|0.78|||Regression, Logistic|||||0.78|0.18|0.009273
92280835|NCT04634409|184464691|SUPERIORITY||Odds Ratio (OR)|0.32||||0.000271|TWO_SIDED|95.0|0.18|0.59|||Regression, Logistic|||||0.59|0.18|0.000271
92172686|NCT04258709|184236102|SUPERIORITY||Odds Ratio (OR)|0.784||||0.459|TWO_SIDED|95.0|0.409|1.4912|||Regression, Logistic|||||1.4912|.409|.459
92172687|NCT04258709|184236103|SUPERIORITY||Odds Ratio (OR)|0.9338||||0.8499|TWO_SIDED|95.0|0.458|1.9039|||Regression, Logistic|||||1.9039|.458|.8499
92280836|NCT04634409|184464691|SUPERIORITY||Odds Ratio (OR)|0.23||||0.000257|TWO_SIDED|95.0|0.1|0.51|||Regression, Logistic|||||0.51|0.10|0.000257
92280837|NCT04634409|184464691|SUPERIORITY||Odds Ratio (OR)|0.44||||0.013378|TWO_SIDED|95.0|0.23|0.84|||Regression, Logistic|||||0.84|0.23|0.013378
92280838|NCT04634409|184464691|SUPERIORITY||Odds Ratio (OR)|0.24||||0.000318|TWO_SIDED|95.0|0.11|0.52|||Regression, Logistic|||||0.52|0.11|0.000318
92280839|NCT04634409|184464691|SUPERIORITY||Odds Ratio (OR)|0.35||||0.140563|TWO_SIDED|95.0|0.09|1.41|||Regression, Logistic|||||1.41|0.09|0.140563
92280840|NCT04634409|184464692|SUPERIORITY||Odds Ratio (OR)|0.27||||0.000835|TWO_SIDED|95.0|0.12|0.58|||Regression, Logistic|||||0.58|0.12|0.000835
92280841|NCT04634409|184464693|SUPERIORITY||Odds Ratio (OR)|0.56||||0.097231|TWO_SIDED|95.0|0.28|1.11|||Regression, Logistic|||||1.11|0.28|0.097231
92280842|NCT04634409|184464693|SUPERIORITY||Odds Ratio (OR)|0.59||||0.13236|TWO_SIDED|95.0|0.3|1.17|||Regression, Logistic|||||1.17|0.30|0.132360
92280843|NCT04634409|184464699|SUPERIORITY||Odds Ratio (OR)|0.62||||0.769|TWO_SIDED|95.0|0.02|15.57|||Regression, Logistic|||||15.57|0.02|0.769
92280844|NCT04634409|184464699|SUPERIORITY||Odds Ratio (OR)|0.32||||0.494|TWO_SIDED|95.0|0.01|8.12|||Regression, Logistic|||||8.12|0.01|0.494
92450649|NCT00807092|184787929|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.012|STANDARD_ERROR_OF_MEAN|0.038||0.7544||95.0|-0.088|0.064||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of duration of hypoglycaemic events as covariate|Blood glucose below 2.5 mmol/l|"The null hypothesis (H0) was:~H0: Duration of Hypoglycaemic Events Based on CGMS of BIAsp 30 after 6 weeks of treatment-Duration of Hypoglycaemic Events Based on CGMS of BHI 30 after 6 weeks of treatment =0 hours against the alternative hypothesis(H1): H1: Duration of Hypoglycaemic Events Based on CGMS of BIAsp 30 after 6 weeks of treatment-Duration of Hypoglycaemic Events Based on CGMS of BHI 30 after 6 weeks of treatment≠0 hours"||0.064|-0.088|0.7544
92172688|NCT03175029|184236105|SUPERIORITY||Mean Difference (Final Values)|10.552|||<|0.001|TWO_SIDED|95.0|5.514|15.59|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BCI in the TAC-302 group||15.590|5.514|<0.001
92172689|NCT03175029|184236105|SUPERIORITY||Mean Difference (Final Values)|-0.826||||0.819|TWO_SIDED|95.0|-8.676|7.023|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BCI in the Placebo group||7.023|-8.676|0.819
92280845|NCT04634409|184464699|SUPERIORITY||Odds Ratio (OR)|0.5||||0.671|TWO_SIDED|95.0|0.02|12.51|||Regression, Logistic|||||12.51|0.02|0.671
92450650|NCT01229228|184787944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.417|STANDARD_ERROR_OF_MEAN|2.7891|<|0.001|TWO_SIDED|95.0|16.923|27.91|||ANCOVA|||||27.910|16.923|<0.001
92450651|NCT01807585|184787956|NON_INFERIORITY|Non-inferiority was determined by the application of a Z-test with a 10% non-inferiority margin as well as examination of confidence intervals.|Risk Difference (RD)|3.5|||<|0.0001|TWO_SIDED|95.0|-0.7|7.6|||One tailed Z-test|||Last Observation Carried Forward (LOCF)||7.6|-0.7|<0.0001
92450652|NCT00359762|184787963|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority test was based on the upper 1-sided 97.5% CI for the hazard ratio of Exenatide/Glimepiride;the upper bound was compared to 1.25: if \<1.25, the hypothesis that the risk of treatment failure with Exenatide is more than 1.25 times greater than the risk with Glimepiride is rejected.Superiority test was based on the 2-sided 95% CI for the hazard ratio. If CI excludes 1, the hypothesis that the risk of treatment failure with Exenatide is equal to that with Glimepiride is rejected.|Hazard Ratio|0.748||||0.002|TWO_SIDED|95.0|0.623|0.899|||Regression, Cox|Time to treatment failure was modeled using Cox regression with treatment and baseline HbA1c as predictive terms.||The null hypothesis (H0) and alternative hypothesis (H1) for the primary analysis (i.e., non-inferiority) are:H0: hazards of treatment for Exenatide/hazards of treatment for Glimepiride \>=1.25.H1: hazards of treatment for Exenatide/hazards of treatment for Glimepiride \< 1.25. With 527 patients in each arm, the study would have approximately 90% power to conclude non-inferiority of Exenatide to Glimepiride.||0.899|0.623|0.0020
92450653|NCT00359762|184787964|SUPERIORITY_OR_OTHER|||||||0.0315|TWO_SIDED|99.95|||||Log Rank|||Kaplan-Meier survival curves for time to treatment failure were compared between treatment groups using log rank test.||||0.0315
92450654|NCT00359762|184787965|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|5.56||0.7648|TWO_SIDED|95.0|-12.58|9.25|||Mixed Models Analysis|||Mixed-model Repeated Measures (MMRM) analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||9.25|-12.58|0.7648
92450655|NCT00359762|184787966|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-14.35|STANDARD_ERROR_OF_MEAN|7.399||0.0528|TWO_SIDED|95.0|-28.88|0.17|||ANCOVA|||Change in HOMA-B from baseline to endpoint was analyzed by an analysis of covariance (ANCOVA) model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||0.17|-28.88|0.0528
92450656|NCT00359762|184787967|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.032||0.904|TWO_SIDED|95.0|-0.07|0.06|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||0.06|-0.07|0.9040
92450657|NCT00359762|184787968|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.017||0.25|TWO_SIDED|95.0|-0.05|0.01|||ANCOVA|||Change in fasting proinsulin/insulin ratio from baseline to endpoint was analyzed by an ANCOVA model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||0.01|-0.05|0.2500
92450658|NCT00359762|184787969|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|4.497||0.9001|TWO_SIDED|95.0|-9.4|8.27|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||8.27|-9.40|0.9001
92450659|NCT00359762|184787970|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|11.19|STANDARD_ERROR_OF_MEAN|4.966||0.0246|TWO_SIDED|95.0|1.44|20.95|||ANCOVA|||Change in DI30/DG30 ratio from baseline to endpoint was analyzed by an ANCOVA model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||20.95|1.44|0.0246
92450660|NCT00359762|184787971|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.67|STANDARD_ERROR_OF_MEAN|1.598||0.0036|TWO_SIDED|95.0|1.53|7.81|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||7.81|1.53|0.0036
92172690|NCT03175029|184236105|SUPERIORITY||Mean Difference (Final Values)|11.378|STANDARD_ERROR_OF_MEAN|4.454||0.015|TWO_SIDED|95.0|2.345|20.411|||t-test, 2 sided|||TAC-302 group vs. Placebo group for changes in the mean BCI from baseline to Week 12||20.411|2.345|0.015
92172691|NCT03175029|184236106|SUPERIORITY||Mean Difference (Final Values)|10.604|STANDARD_DEVIATION|8.76|<|0.001|TWO_SIDED|95.0|5.753|15.455|||t-test, 2 sided|||Baseline vs. Week 12 for the mean PIP1 in the TAC-302 group||15.455|5.753|<0.001
92280846|NCT04634409|184464699|SUPERIORITY||Odds Ratio (OR)|0.49||||0.663|TWO_SIDED|95.0|0.02|12.27|||Regression, Logistic|||||12.27|0.02|0.663
92280847|NCT04634409|184464699|SUPERIORITY||Odds Ratio (OR)|0.51||||0.68|TWO_SIDED|95.0|0.02|12.76|||Regression, Logistic|||||12.76|0.02|0.680
92172692|NCT03175029|184236106|SUPERIORITY||Mean Difference (Final Values)|4.926|STANDARD_DEVIATION|7.62||0.138|TWO_SIDED|95.0|-2.121|11.973|||t-test, 2 sided|||Baseline vs. Week 12 for the mean PIP1 in the Placebo group||11.973|-2.121|0.138
92172693|NCT03175029|184236106|SUPERIORITY||Mean Difference (Final Values)|5.678|STANDARD_ERROR_OF_MEAN|3.861||0.157|TWO_SIDED|95.0|-2.375|13.731|||t-test, 2 sided|||TAC-302 group vs. Placebo group for changes in the mean PIP1 from baseline to Week 12||13.731|-2.375|0.157
92241127|NCT04149899|184385368|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANCOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Net)|0.14||||0.828|TWO_SIDED|95.0|-1.16|1.43||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model used the Baseline IOP values at Hour 2 as the covariate.|The estimated treatment difference is based on the least-square means from the ANCOVA model.|The mean IOP change from Baseline, Hour 2 to Day 14, Hour 2 (the timepoint for the peak effect of Timolol 0.5%) was compared between WB007 0.15% and Timolol 0.5%.||1.43|-1.16|0.828
92241128|NCT04149899|184385368|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANCOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Net)|-0.42||||0.52|TWO_SIDED|95.0|-1.73|0.89||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model used the Baseline IOP values at Hour 2 as the covariate.|The estimated treatment difference is based on the least-square means from the ANCOVA model.|The mean IOP change from Baseline, Hour 2 to Day 14, Hour 2 (the timepoint for the peak effect of Timolol 0.5%) was compared between WB007 0.4% and Timolol 0.5%.||0.89|-1.73|0.520
92172694|NCT03175029|184236107|SUPERIORITY||Mean Difference (Final Values)|10.91|STANDARD_DEVIATION|26.48||0.006|TWO_SIDED|95.0|3.22|18.59|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the TAC-302 group||18.59|3.22|0.006
92172695|NCT03175029|184236107|SUPERIORITY||Mean Difference (Final Values)|2.42|STANDARD_DEVIATION|20.09||0.57|TWO_SIDED|95.0|-6.27|11.1|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the Placebo group||11.10|-6.27|0.570
92280848|NCT04634409|184464699|SUPERIORITY||Odds Ratio (OR)|2.51||||0.584|TWO_SIDED|95.0|0.09|67.88|||Regression, Logistic|||||67.88|0.09|0.584
92280849|NCT04634409|184464701|SUPERIORITY||Odds Ratio (OR)|1.02||||0.979|TWO_SIDED|95.0|0.17|6.06|||Regression, Logistic|||||6.06|0.17|0.979
92280850|NCT04634409|184464701|SUPERIORITY||Odds Ratio (OR)|1.42||||0.675|TWO_SIDED|95.0|0.27|7.39|||Regression, Logistic|||||7.39|0.27|0.675
92172696|NCT03175029|184236107|SUPERIORITY||Mean Difference (Final Values)|8.49|STANDARD_ERROR_OF_MEAN|6.24||0.178|TWO_SIDED|95.0|-3.96|20.95|||t-test, 2 sided|||TAC-302 group vs. Placebo group for changes in the mean BVE from baseline to Week 12||20.95|-3.96|0.178
92172697|NCT03175029|184236108|SUPERIORITY||Mean Difference (Final Values)|18.41|STANDARD_DEVIATION|24.39|<|0.001|TWO_SIDED|95.0|9.13|27.69|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the TAC-302 group||27.69|9.13|<0.001
92172698|NCT03175029|184236108|SUPERIORITY||Mean Difference (Final Values)|2.88|STANDARD_DEVIATION|15.7||0.489|TWO_SIDED|95.0|-5.81|11.58|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the Placebo group||11.58|-5.81|0.489
92172699|NCT03175029|184236108|SUPERIORITY||Mean Difference (Final Values)|15.53|STANDARD_ERROR_OF_MEAN|6.96||0.031|TWO_SIDED|95.0|1.48|29.58|||t-test, 2 sided|||TAC-302 group vs. Placebo group for changes in the mean BVE from baseline to Week 12||29.58|1.48|0.031
92172700|NCT03175029|184236109|SUPERIORITY||Mean Difference (Final Values)|23.57|STANDARD_DEVIATION|25.54|<|0.001|TWO_SIDED|95.0|11.26|35.88|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the TAC-302 group||35.88|11.26|<0.001
92172701|NCT03175029|184236109|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_DEVIATION|17.18||0.708|TWO_SIDED|95.0|-10.19|14.4|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the Placebo group||14.40|-10.19|0.708
92172702|NCT03175029|184236109|SUPERIORITY||Mean Difference (Final Values)|21.47|STANDARD_ERROR_OF_MEAN|9.02||0.025|TWO_SIDED|95.0|2.96|39.98|||t-test, 2 sided|||TAC-302 group vs. Placebo group for changes in the mean BVE from baseline to Week 12||39.98|2.96|0.025
92280851|NCT04634409|184464704|SUPERIORITY||LSM Difference|-0.67||||0.009|TWO_SIDED|95.0|-1.17|-0.17|||Mixed Models Analysis|||||-0.17|-1.17|0.009
92280852|NCT04634409|184464704|SUPERIORITY||LSM Difference|-0.65||||0.002|TWO_SIDED|95.0|-1.06|-0.24|||Mixed Models Analysis|||||-0.24|-1.06|0.002
92172703|NCT03381261|184236122|OTHER|While descriptive statistics were presented in the original mRNA units using median and interquartile range (25th, 75th), statistical group comparison and effect sizes were reported as the ratio of the geometric means.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92172704|NCT05634226|184236123|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
92172705|NCT05634226|184236124|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
92172706|NCT05324124|184236151|OTHER||Ratio of Geometric Least Squares Mean|0.952|||||TWO_SIDED|90.0|0.876|1.03||||||||1.03|0.876|
92172707|NCT05324124|184236152|OTHER||Ratio of Geometric Least Squares Mean|0.949|||||TWO_SIDED|90.0|0.869|1.04||||||||1.04|0.869|
92172708|NCT05324124|184236153|OTHER||Ratio of Geometric Least Squares Mean|0.829|||||TWO_SIDED|90.0|0.744|0.925||||||||0.925|0.744|
92172709|NCT05034952|184236154|SUPERIORITY|||||||0.3914|||||||ANCOVA|||||||0.3914
92172710|NCT05034952|184236154|SUPERIORITY|||||||0.1266|||||||ANCOVA|||||||0.1266
92172711|NCT05034952|184236154|SUPERIORITY|||||||0.0097|||||||ANCOVA|||||||0.0097
92172712|NCT05034952|184236155|SUPERIORITY|||||||0.5476|||||||ANCOVA|||||||0.5476
92172713|NCT05034952|184236155|SUPERIORITY|||||||0.0825|||||||ANCOVA|||||||0.0825
92450661|NCT00359762|184787972|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|7.33|STANDARD_ERROR_OF_MEAN|2.128||0.0006|TWO_SIDED|95.0|3.15|11.5|||ANCOVA|||Change in disposition index from baseline to endpoint was analyzed by an ANCOVA model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||11.50|3.15|0.0006
92450662|NCT00359762|184787973|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.0128|TWO_SIDED|95.0|-0.31|-0.04|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-0.04|-0.31|0.0128
92172714|NCT05034952|184236155|SUPERIORITY|||||||0.0036|||||||ANCOVA|||||||0.0036
92172715|NCT05034952|184236156|SUPERIORITY|||||||0.4712|||||||Cochran-Mantel-Haenszel|||||||0.4712
92280853|NCT04634409|184464704|SUPERIORITY||LSM Difference|-0.26||||0.263|TWO_SIDED|95.0|-0.72|0.2|||Mixed Models Analysis|||||0.20|-0.72|0.263
92172716|NCT05034952|184236156|SUPERIORITY|||||||0.1635|||||||Cochran-Mantel-Haenszel|||||||0.1635
92172717|NCT05034952|184236156|SUPERIORITY|||||||0.1158|||||||Cochran-Mantel-Haenszel|||||||0.1158
92172718|NCT05034952|184236157|SUPERIORITY|||||||0.2882|||||||Cochran-Mantel-Haenszel|||||||0.2882
92450663|NCT00359762|184787974|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.05||0.0015|TWO_SIDED|95.0|-0.26|-0.06|||ANCOVA|||Change in HbA1c from baseline to endpoint was analyzed by an ANCOVA model that includes treatment as factor and baseline value as a covariate.||-0.06|-0.26|0.0015
92172719|NCT05034952|184236157|SUPERIORITY|||||||0.2344|||||||Cochran-Mantel-Haenszel|||||||0.2344
92172720|NCT05034952|184236157|SUPERIORITY|||||||0.1724|||||||Cochran-Mantel-Haenszel|||||||0.1724
92172721|NCT05034952|184236158|SUPERIORITY|||||||0.1343|||||||Cochran-Mantel-Haenszel|||||||0.1343
92172722|NCT05034952|184236158|SUPERIORITY|||||||0.4501|||||||Cochran-Mantel-Haenszel|||||||0.4501
92172723|NCT05034952|184236158|SUPERIORITY|||||||0.1009|||||||Cochran-Mantel-Haenszel|||||||0.1009
92172724|NCT03761537|184236194|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|14.1||||0.018|TWO_SIDED|95.0|2.5|25.7||This endpoint was the first endpoint in the sequential testing hierarchy.|Mantel Haenszel|Mantel-Haenszel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||25.7|2.5|0.018
92172725|NCT03761537|184236195|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|9.7||||0.106|TWO_SIDED|95.0|-2.0|21.4||This endpoint was the second endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Mantel Haenszel|Mantel-Haenszel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||21.4|-2.0|0.106
92172726|NCT03761537|184236196|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Difference|-8.6|||<|0.001|TWO_SIDED|95.0|-13.0|-4.2||This was the third endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Repeated measurements model|Treatment effect at each visit adjusted for baseline SCORAD interacting with each visit, prior CSA, and baseline disease severity (IGA 3 or 4).||Data collected after permanent discontinuation of IMP, after initiation of rescue treatment, or after subject-onset of the COVID-19 pandemic will not be included in the analysis.||-4.2|-13.0|<0.001
92182327|NCT03052517|184263581|OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.76|1.02|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||1.02|0.76|
92182328|NCT03052517|184263581|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.73|0.99|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||0.99|0.73|
92280854|NCT04634409|184464704|SUPERIORITY||LSM Difference|-0.41||||0.083|TWO_SIDED|95.0|-0.87|0.05|||Mixed Models Analysis|||||0.05|-0.87|0.083
92172727|NCT03761537|184236197|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Difference|-1.5||||0.009|TWO_SIDED|95.0|-2.6|-0.4||This was the fourth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Repeated measurements model|Treatment effect at each visit adjusted for baseline DLQI interacting with each visit, prior CSA, and baseline disease severity (IGA 3 or 4).||Data collected after permanent discontinuation of IMP, after initiation of rescue treatment, or after subject-onset of the COVID-19 pandemic will not be included in the analysis.||-0.4|-2.6|0.009
92172728|NCT03761537|184236198|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|15.6||||0.005|TWO_SIDED|95.0|4.8|26.3||This endpoint was the fifth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Mantel Haenszel|Mantel-Haenszel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||26.3|4.8|0.005
92172729|NCT03761537|184236199|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|14.1||||0.014|TWO_SIDED|95.0|2.9|25.3||This endpoint was the sixth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Mantel Haenszel|Mantel-Haenszel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||25.3|2.9|0.014
92172730|NCT03761537|184236200|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|7.3||||0.228|TWO_SIDED|95.0|-4.6|19.2||This endpoint was the seventh endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Mantel Haenszel|HaenszMantelel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||19.2|-4.6|0.228
92172731|NCT03761537|184236201|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Difference|-8.9|||<|0.001|TWO_SIDED|95.0|-13.2|-4.6||This endpoint was the eighth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Repeated measurements model|Unstructured covariance matrix. Adjusted for baseline SCORAD in interaction with each visit, prior CSA use, and baseline disease severity (IGA 3 or 4)||Data collected after permanent discontinuation of IMP, after initiation of rescue treatment, or after subject-onset of the COVID-19 pandemic will not be included in the analysis.||-4.6|-13.2|<0.001
92280855|NCT04634409|184464704|SUPERIORITY||LSM Difference|-0.87|||<|0.001|TWO_SIDED|95.0|-1.35|-0.4|||Mixed Models Analysis|||||-0.40|-1.35|<0.001
92172732|NCT03761537|184236202|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Difference|-1.6||||0.005|TWO_SIDED|95.0|-2.7|-0.5||This endpoint was the ninth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Repeated measurements model|Unstructured covariance matrix. Adjusted for baseline DLQI in interaction with each visit, prior CSA use, and baseline disease severity (IGA 3 or 4)||Data collected after permanent discontinuation of IMP, after initiation of rescue treatment, or after subject-onset of the COVID-19 pandemic will not be included in the analysis.||-0.5|-2.7|0.005
92172733|NCT03761537|184236203|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|14.3||||0.014|TWO_SIDED|95.0|2.9|25.6||This endpoint was the tenth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Mantel Haenszel|Mantel-Haenszel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||25.6|2.9|0.014
92172734|NCT04382898|184236241|SUPERIORITY|||||||0.1041|||||||Fisher Exact|||||||0.1041
92172735|NCT04382898|184236247|SUPERIORITY|||||||0.0541|||||||Binomial test|||||||0.0541
92172736|NCT05229120|184236248|SUPERIORITY||Mean Difference (Final Values)|1.24||||0.124|ONE_SIDED||||||t-test, 1 sided|No adjustments were made. DF = 10.||A single-sided paired-samples t-test comparing k-values at baseline to k-values at follow-up (approximately 4 weeks after baseline assessment) was examined. Given that k-values are typically skewed (and to be consistent with the existing literature) we used a log-k as our outcome variable.||||.124
92280856|NCT04634409|184464704|SUPERIORITY||LSM Difference|-0.64||||0.149|TWO_SIDED|95.0|-1.52|0.23|||Mixed Models Analysis|||||0.23|-1.52|0.149
92280857|NCT04634409|184464705|SUPERIORITY||LSM Difference|-0.82||||0.002|TWO_SIDED|95.0|-1.33|-0.31|||Mixed Models Analysis|||||-0.31|-1.33|0.002
92280858|NCT04634409|184464706|SUPERIORITY||LSM Difference|-0.14||||0.606|TWO_SIDED|95.0|-0.7|0.41|||Mixed Models Analysis|||||0.41|-0.70|0.606
92172737|NCT05229120|184236249|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.219|TWO_SIDED||||||t-test, 1 sided|No adjustments were made. DF = 14.||Changes in consideration of future consequences (parenting) was evaluated using one-sided paired samples t-tests.||||.219
92280859|NCT04634409|184464706|SUPERIORITY||LSM Difference|-0.38||||0.17|TWO_SIDED|95.0|-0.93|0.17|||Mixed Models Analysis|||||0.17|-0.93|0.170
92280860|NCT04634409|184464712|SUPERIORITY||Odds Ratio (OR)|0.96||||0.89|TWO_SIDED|95.0|0.53|1.73|||Regression, Logistic|||||1.73|0.53|0.890
92280861|NCT04634409|184464712|SUPERIORITY||Odds Ratio (OR)|1.43||||0.141|TWO_SIDED|95.0|0.89|2.29|||Regression, Logistic|||||2.29|0.89|0.141
92280862|NCT04634409|184464712|SUPERIORITY||Odds Ratio (OR)|1.15||||0.603|TWO_SIDED|95.0|0.67|1.98|||Regression, Logistic|||||1.98|0.67|0.603
92280863|NCT04634409|184464712|SUPERIORITY||Odds Ratio (OR)|1.69||||0.048|TWO_SIDED|95.0|1.0|2.84|||Regression, Logistic|||||2.84|1.00|0.048
92280864|NCT04634409|184464712|SUPERIORITY||Odds Ratio (OR)|1.19||||0.533|TWO_SIDED|95.0|0.69|2.04|||Regression, Logistic|||||2.04|0.69|0.533
92450664|NCT00359762|184787975|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.174|<|0.0001|TWO_SIDED|95.0|-1.03|-0.34|||Mixed Models Analysis|||MMRM includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-0.34|-1.03|<.0001
92280865|NCT04634409|184464712|SUPERIORITY||Odds Ratio (OR)|1.09||||0.869|TWO_SIDED|95.0|0.4|2.99|||Regression, Logistic|||||2.99|0.40|0.869
92450665|NCT00359762|184787976|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.183||0.0109|TWO_SIDED|95.0|-0.83|-0.11|||ANCOVA|||Change in fasting plasma glucose from baseline to endpoint was analyzed by an ANCOVA model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||-0.11|-0.83|0.0109
92450666|NCT00359762|184787977|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.424|<|0.0001|TWO_SIDED|95.0|-3.64|-1.97|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-1.97|-3.64|<.0001
92450667|NCT00359762|184787978|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.19|STANDARD_ERROR_OF_MEAN|0.327|<|0.0001|TWO_SIDED|95.0|-2.84|-1.55|||ANCOVA|||Change in postprandial (2 hours) plasma glucose from baseline to endpoint was analyzed by an ANCOVA model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||-1.55|-2.84|<.0001
92450668|NCT00359762|184787979|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|0.463|<|0.0001|TWO_SIDED|95.0|-6.31|-4.49|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction and baseline value as a covariate. The unstructured covariance matrix was used.||-4.49|-6.31|<.0001
92450669|NCT00359762|184787980|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|1.228|<|0.0001|TWO_SIDED|95.0|-7.61|-2.79|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-2.79|-7.61|<.0001
92450670|NCT00359762|184787981|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.71|STANDARD_ERROR_OF_MEAN|0.75||0.0228|TWO_SIDED|95.0|-3.18|-0.24|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-0.24|-3.18|0.0228
92450671|NCT00359762|184787982|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.805||0.3737|TWO_SIDED|95.0|-2.3|0.86|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and visit by treatment interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||0.86|-2.30|0.3737
92450672|NCT00359762|184787983|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.089||0.0042|TWO_SIDED|95.0|-0.43|-0.08|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-0.08|-0.43|0.0042
92450673|NCT00359762|184787984|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.079||0.7914|TWO_SIDED|95.0|-0.13|0.18|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||0.18|-0.13|0.7914
92450674|NCT00359762|184787985|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.019||0.0011|TWO_SIDED|95.0|0.02|0.1|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||0.10|0.02|0.0011
92172738|NCT05229120|184236250|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.5|TWO_SIDED||||||t-test, 1 sided|No adjustments were made. DF = 5||Performed a one-sided paired samples t-test examining changes in both positive parenting.||||.50
92450675|NCT00359762|184787986|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.22|0.37|||Negative Binomial Model|||The number of hypoglycemic episodes by patient were compared between treatment groups using a negative binomial model with effects for treatment and baseline HbA1c and the logarithm of the days of exposure as the offset variable.||0.37|0.22|<.0001
92450676|NCT00359762|184787987|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|0.141||0.0508|TWO_SIDED|95.0|0.0|0.55|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value at Period III as a covariate. The compound symmetric covariance structure was assumed.||0.55|-0.00|0.0508
92172739|NCT05229120|184236250|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.187|TWO_SIDED||||||t-test, 1 sided|||Used a one-sided paired samples t-test to examine changes in negative parenting.||||.187
92172740|NCT05229120|184236251|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.498|TWO_SIDED||||||t-test, 1 sided|||Examined changes in parental involvement using a paired-samples t-test.||||.498
92280866|NCT04634409|184464713|SUPERIORITY||Odds Ratio (OR)|1.31||||0.374|TWO_SIDED|95.0|0.72|2.35|||Regression, Logistic|||||2.35|0.72|0.374
92172741|NCT05229120|184236251|SUPERIORITY||Mean Difference (Final Values)|1.301||||0.108|TWO_SIDED||||||t-test, 1 sided|||Examined changes in positive parenting using paired samples t-tests||||.108
92450677|NCT01172938|184787990|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|19.0||||0.0001|TWO_SIDED|95.0|9.7|28.3|||Cochran-Mantel-Haenszel|2-sided p-value is based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline disease modifying antirheumatic drug (DMARD) use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% confidence interval (CI) is based on a normal approximation to the weighted average.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||28.3|9.7|0.0001
92450678|NCT01172938|184787990|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|11.3||||0.0166|TWO_SIDED|95.0|2.2|20.4|||Cochran-Mantel-Haenszel|2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||20.4|2.2|0.0166
92450679|NCT01172938|184787991|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.159||||0.0017|TWO_SIDED|95.0|-0.258|-0.06|||ANCOVA|Based on an ANCOVA model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.060|-0.258|0.0017
92172742|NCT05229120|184236251|SUPERIORITY||Mean Difference (Final Values)|-1.01||||0.145|TWO_SIDED||||||t-test, 1 sided|||Examined changes in parental monitoring using a paired samples t-test||||.145
92172743|NCT05229120|184236251|SUPERIORITY||Mean Difference (Final Values)|-0.688||||0.252|TWO_SIDED||||||t-test, 1 sided|||Examined changes in inconsistent parenting using a paired samples one-sided t-test||||.252
92280867|NCT04634409|184464714|SUPERIORITY||Odds Ratio (OR)|1.87||||0.015|TWO_SIDED|95.0|1.13|3.08|||Regression, Logistic|||||3.08|1.13|0.015
92172744|NCT05229120|184236251|SUPERIORITY||Mean Difference (Final Values)|0.306||||0.382|TWO_SIDED||||||t-test, 1 sided|||Examined changes in corporal punishment using a paired samples one-tailed t-test||||.382
92172745|NCT03932682|184236260|OTHER|The primary objective would be achieved if efficacy was demonstrated for at least one of the two primary efficacy endpoints, that is, if the interim analysis-adjusted lower limit of the two-sided confidence interval (CI) for absolute vaccine efficacy (aVE) of QIVc versus the comparator vaccine was greater than 0%.|Cox Proportional Hazard|41.26|||||TWO_SIDED|97.98|21.55|56.02||||||||56.02|21.55|
92172746|NCT03932682|184236261|OTHER|The primary objective would be achieved if efficacy was demonstrated for at least one of the two primary efficacy endpoints, that is, if the interim analysis-adjusted lower limit of the two-sided CI for aVE of QIVc versus the comparator vaccine was greater than 0%.|Cox Proportional Hazard|46.9|||||TWO_SIDED|97.5|19.19|65.11||||||||65.11|19.19|
92450680|NCT01172938|184787991|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.113||||0.0252|TWO_SIDED|95.0|-0.211|-0.014|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.014|-0.211|0.0252
92450681|NCT01172938|184787992|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|22.2|||<|0.0001|TWO_SIDED|95.0|13.4|30.9||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||30.9|13.4|<0.0001
92450682|NCT01172938|184787992|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|12.4||||0.0038|TWO_SIDED|95.0|4.2|20.7||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||20.7|4.2|0.0038
92450683|NCT01172938|184787993|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.182||||0.0005|TWO_SIDED|95.0|-0.283|-0.08||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.080|-0.283|0.0005
92450684|NCT01172938|184787993|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.135||||0.0091|TWO_SIDED|95.0|-0.236|-0.034||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.034|-0.236|0.0091
92450685|NCT01172938|184787994|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.42||||0.0056|TWO_SIDED|95.0|0.71|4.13||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||4.13|0.71|0.0056
92450686|NCT01172938|184787994|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.7||||0.0504|TWO_SIDED|95.0|0.0|3.4||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||3.40|-0.00|0.0504
92450687|NCT01172938|184787995|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|16.7||||0.0017|TWO_SIDED|95.0|6.6|26.8||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||26.8|6.6|0.0017
92450688|NCT01172938|184787995|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|8.9|||||TWO_SIDED|95.0|-1.2|18.9|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||18.9|-1.2|
92450689|NCT01172938|184787996|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.9||||0.0023|TWO_SIDED|95.0|-12.9|-2.8||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-2.8|-12.9|0.0023
92450690|NCT01172938|184787996|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.8|||||TWO_SIDED|95.0|-10.8|-0.7|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-0.7|-10.8|
92450691|NCT01172938|184787997|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|||||TWO_SIDED|95.0|-1.2|0.4|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.4|-1.2|
92450692|NCT01172938|184787997|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|||||TWO_SIDED|95.0|-1.3|0.3|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.3|-1.3|
92450693|NCT01172938|184787998|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|||||TWO_SIDED|95.0|-1.1|0.4|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.4|-1.1|
92172747|NCT03932682|184236262|OTHER|The secondary efficacy objectives were not associated with any hypothesis testing|Cox Proportional Hazard|54.49|||||TWO_SIDED|95.0|22.55|73.26||||||||73.26|22.55|
92280868|NCT04634409|184464714|SUPERIORITY||Odds Ratio (OR)|1.29||||0.317|TWO_SIDED|95.0|0.78|2.11|||Regression, Logistic|||||2.11|0.78|0.317
92450694|NCT01172938|184787998|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|||||TWO_SIDED|95.0|-1.3|0.3|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.3|-1.3|
92450695|NCT01172938|184787999|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.88|||||TWO_SIDED|95.0|-7.41|-2.34|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-2.34|-7.41|
92450696|NCT01172938|184787999|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.39|||||TWO_SIDED|95.0|-6.92|-1.86|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-1.86|-6.92|
92450697|NCT01172938|184788000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|||||TWO_SIDED|95.0|-0.76|-0.31|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-0.31|-0.76|
92172748|NCT03932682|184236263|OTHER|The secondary efficacy objectives were not associated with any hypothesis testing|Cox Proportional Hazard|50.67|||||TWO_SIDED|95.0|32.83|63.77||||||||63.77|32.83|
92280869|NCT04634409|184464717|SUPERIORITY||Odds Ratio (OR)|1.62||||0.082|TWO_SIDED|95.0|0.94|2.81|||Regression, Logistic|||||2.81|0.94|0.082
92450698|NCT01172938|184788000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|||||TWO_SIDED|95.0|-0.7|-0.25|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-0.25|-0.70|
92450699|NCT01172938|184788001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.33|||||TWO_SIDED|95.0|0.43|4.23|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||4.23|0.43|
92450700|NCT01172938|184788001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|||||TWO_SIDED|95.0|-1.77|2.03|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||2.03|-1.77|
92450701|NCT01172938|184788002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.56|||||TWO_SIDED|95.0|1.72|5.4|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||5.40|1.72|
92450702|NCT01172938|184788002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.04|||||TWO_SIDED|95.0|0.21|3.88|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||3.88|0.21|
92450703|NCT01172938|184788003|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|24.6|||||TWO_SIDED|95.0|15.2|34.0|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||34.0|15.2|
92280870|NCT04634409|184464717|SUPERIORITY||Odds Ratio (OR)|1.86||||0.018|TWO_SIDED|95.0|1.11|3.11|||Regression, Logistic|||||3.11|1.11|0.018
92280871|NCT04634409|184464717|SUPERIORITY||Odds Ratio (OR)|1.71||||0.021|TWO_SIDED|95.0|1.09|2.71|||Regression, Logistic|||||2.71|1.09|0.021
92280872|NCT04634409|184464717|SUPERIORITY||Odds Ratio (OR)|1.93||||0.011|TWO_SIDED|95.0|1.16|3.22|||Regression, Logistic|||||3.22|1.16|0.011
92450704|NCT01172938|184788003|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|12.4|||||TWO_SIDED|95.0|3.4|21.5|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||21.5|3.4|
92450705|NCT01172938|184788004|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|-10.6|||||TWO_SIDED|95.0|-15.4|-5.7|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-5.7|-15.4|
92450706|NCT01172938|184788004|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.1|||||TWO_SIDED|95.0|-12.0|-2.2|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-2.2|-12.0|
92450707|NCT01172938|184788005|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|||||TWO_SIDED|95.0|-1.6|0.0|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.0|-1.6|
92450708|NCT01172938|184788005|SUPERIORITY_OR_OTHER_LEGACY||LS Mean DIfference|-0.8|||||TWO_SIDED|95.0|-1.6|0.1|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.1|-1.6|
92450709|NCT01172938|184788006|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|||||TWO_SIDED|95.0|-1.2|0.3|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.3|-1.2|
92450710|NCT01172938|184788006|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|||||TWO_SIDED|95.0|-1.5|0.1|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.1|-1.5|
92450711|NCT01172938|184788007|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-6.38|||||TWO_SIDED|95.0|-9.0|-3.75|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-3.75|-9.00|
92280873|NCT04634409|184464717|SUPERIORITY||Odds Ratio (OR)|2.17||||0.003|TWO_SIDED|95.0|1.3|3.6|||Regression, Logistic|||||3.60|1.30|0.003
92280874|NCT04634409|184464717|SUPERIORITY||Odds Ratio (OR)|1.34||||0.546|TWO_SIDED|95.0|0.52|3.48|||Regression, Logistic|||||3.48|0.52|0.546
92450712|NCT01172938|184788007|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-4.41|||||TWO_SIDED|95.0|-7.03|-1.79|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-1.79|-7.03|
92450713|NCT01172938|184788008|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|||||TWO_SIDED|95.0|-0.94|-0.46|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-0.46|-0.94|
92450714|NCT01172938|184788008|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|||||TWO_SIDED|95.0|-0.7|-0.22|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-0.22|-0.70|
92450715|NCT01172938|184788009|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|2.21|||||TWO_SIDED|95.0|0.32|4.1|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||4.10|0.32|
92450716|NCT01172938|184788009|SUPERIORITY_OR_OTHER_LEGACY||LS Mean DIfference|0.4|||||TWO_SIDED|95.0|-1.5|2.29|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||2.29|-1.50|
92450717|NCT01172938|184788010|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|3.3|||||TWO_SIDED|95.0|-10.1|16.7|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.7|-10.1|
92450718|NCT01172938|184788010|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|7.3|||||TWO_SIDED|95.0|-6.5|21.1|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||21.1|-6.5|
92450719|NCT01172938|184788011|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|2.9|||||TWO_SIDED|95.0|-13.4|19.3|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||19.3|-13.4|
92450720|NCT01172938|184788011|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|7.7|||||TWO_SIDED|95.0|-9.1|24.6|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||24.6|-9.1|
92450721|NCT01172938|184788012|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|19.2|||||TWO_SIDED|95.0|9.0|29.3|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||29.3|9.0|
92450722|NCT01172938|184788012|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|16.6|||||TWO_SIDED|95.0|6.4|26.8|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||26.8|6.4|
92450723|NCT01172938|184788013|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|13.2|||||TWO_SIDED|95.0|-0.1|26.5|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||26.5|-0.1|
92450724|NCT01172938|184788013|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|11.3|||||TWO_SIDED|95.0|-2.4|25.0|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||25.0|-2.4|
92450725|NCT01172938|184788014|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|8.9|||||TWO_SIDED|95.0|-6.8|24.6|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||24.6|-6.8|
92450726|NCT01172938|184788014|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|7.7|||||TWO_SIDED|95.0|-8.7|24.2|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||24.2|-8.7|
92450727|NCT01172938|184788015|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|26.3|||||TWO_SIDED|95.0|17.1|35.5|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||35.5|17.1|
92450728|NCT01172938|184788015|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|14.2|||||TWO_SIDED|95.0|5.4|23.1|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||23.1|5.4|
92450729|NCT01172938|184788016|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|10.3|||||TWO_SIDED|95.0|3.7|16.8|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.8|3.7|
92172749|NCT03932682|184236264|OTHER|The secondary efficacy objectives were not associated with any hypothesis testing|Cox Proportional Hazard|100.0|||||TWO_SIDED|95.0|||||||"The 2-sided 95% confidence interval was calculated with a lower limit of not estimable and an upper limit of 100."|||||
92280875|NCT04634409|184464718|SUPERIORITY||Odds Ratio (OR)|1.04||||0.888|TWO_SIDED|95.0|0.6|1.82|||Regression, Logistic|||||1.82|0.60|0.888
92280876|NCT04634409|184464719|SUPERIORITY||Odds Ratio (OR)|1.88||||0.014|TWO_SIDED|95.0|1.13|3.13|||Regression, Logistic|||||3.13|1.13|0.014
92450730|NCT01172938|184788016|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|9.5|||||TWO_SIDED|95.0|3.0|16.0|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.0|3.0|
92450731|NCT01172938|184788017|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|3.1|||||TWO_SIDED|95.0|-0.4|6.5|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||6.5|-0.4|
92450732|NCT01172938|184788017|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|4.8|||||TWO_SIDED|95.0|0.8|8.7|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||8.7|0.8|
92450733|NCT01172938|184788018|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|14.9|||||TWO_SIDED|95.0|8.3|21.5|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||21.5|8.3|
92450734|NCT01172938|184788018|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|10.1|||||TWO_SIDED|95.0|4.0|16.1|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.1|4.0|
92450735|NCT01172938|184788019|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|9.5|||||TWO_SIDED|95.0|4.8|14.2|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||14.2|4.8|
92450736|NCT01172938|184788019|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|4.7|||||TWO_SIDED|95.0|1.2|8.3|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||8.3|1.2|
92450737|NCT01172938|184788020|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|7.6|||||TWO_SIDED|95.0|-2.8|17.9|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||17.9|-2.8|
92172750|NCT04321031|184236275|SUPERIORITY||Risk Difference (RD)|0.08|||||TWO_SIDED|90.0|-0.02|0.2|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the statistical analysis plan (SAP).||0.20|-0.02|
92450738|NCT01172938|184788020|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|11.9|||||TWO_SIDED|95.0|0.8|23.0|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||23.0|0.8|
92450739|NCT01172938|184788021|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|-1.4|||||TWO_SIDED|95.0|-17.7|14.8|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||14.8|-17.7|
92450740|NCT01172938|184788021|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|2.4|||||TWO_SIDED|95.0|-14.8|19.6|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||19.6|-14.8|
92450741|NCT01172938|184788022|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|17.4|||||TWO_SIDED|95.0|6.6|28.2|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||28.2|6.6|
92450742|NCT01172938|184788022|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|16.8|||||TWO_SIDED|95.0|5.6|27.9|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||27.9|5.6|
92450743|NCT01172938|184788023|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|5.8|||||TWO_SIDED|95.0|-10.7|22.4|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||22.4|-10.7|
92450744|NCT01172938|184788023|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|8.8|||||TWO_SIDED|95.0|-8.5|26.2|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||26.2|-8.5|
92450745|NCT00403546|184788046|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.98|TWO_SIDED|95.0|-1.09|1.12|||Mixed Models Analysis|||At Baseline||1.12|-1.09|0.980
92450746|NCT00403546|184788046|SUPERIORITY||Mean Difference (Net)|1.02||||0.033|TWO_SIDED|95.0|0.08|1.95|||Mixed Models Analysis|||At Week 2||1.95|0.08|0.033
92450747|NCT00403546|184788046|SUPERIORITY||Mean Difference (Net)|0.73||||0.171|TWO_SIDED|95.0|-0.32|1.77|||Mixed Models Analysis|||At Week 4||1.77|-0.32|0.171
92450748|NCT00403546|184788046|SUPERIORITY||Mean Difference (Net)|0.5||||0.38|TWO_SIDED|95.0|-0.62|1.62|||Mixed Models Analysis|||At Week 6||1.62|-0.62|0.380
92450749|NCT00403546|184788046|SUPERIORITY||Mean Difference (Net)|-0.12||||0.84|TWO_SIDED|95.0|-1.32|1.08|||Mixed Models Analysis|||At Week 8||1.08|-1.32|0.840
92450750|NCT00403546|184788047|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.737|TWO_SIDED|95.0|-1.23|0.88|||Mixed Models Analysis|||At Baseline||0.88|-1.23|0.737
92450751|NCT00403546|184788047|SUPERIORITY||Mean Difference (Net)|-0.14||||0.764|TWO_SIDED|95.0|-1.09|0.8|||Mixed Models Analysis|||At Week 2||0.80|-1.09|0.764
92280877|NCT04634409|184464719|SUPERIORITY||Odds Ratio (OR)|1.63||||0.057|TWO_SIDED|95.0|0.98|2.71|||Regression, Logistic|||||2.71|0.98|0.057
92450752|NCT00403546|184788047|SUPERIORITY||Mean Difference (Net)|0.25||||0.642|TWO_SIDED|95.0|-0.82|1.32|||Mixed Models Analysis|||At Week 4||1.32|-0.82|0.642
92280878|NCT02683187|184464731|EQUIVALENCE|Insulin secretion, determined by insulin or C-peptide values in the 10 minutes after arginine infusion will be compared as a repeated measure for each subject in a 2 x 2 analysis of sitagliptin/placebo and Exendin-9/saline.|Median Difference (Final Values)|371.0|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.05
92450753|NCT00403546|184788047|SUPERIORITY||Mean Difference (Net)|-0.34||||0.57|TWO_SIDED|95.0|-1.5|0.83|||Mixed Models Analysis|||At Week 6||0.83|-1.50|0.570
92450754|NCT00403546|184788047|SUPERIORITY||Mean Difference (Net)|-0.09||||0.894|TWO_SIDED|95.0|-1.34|1.17|||Mixed Models Analysis|||At Week 8||1.17|-1.34|0.894
92450755|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|-1.82||||0.599|TWO_SIDED|95.0|-8.68|5.05|||Mixed Models Analysis|||SBP at Baseline||5.05|-8.68|0.599
92450756|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|3.53||||0.235|TWO_SIDED|95.0|-2.31|9.37|||Mixed Models Analysis|||SBP at Week 1||9.37|-2.31|0.235
92450757|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|2.83||||0.449|TWO_SIDED|95.0|-3.8|8.57|||Mixed Models Analysis|||SBP at Week 2||8.57|-3.80|0.449
92450758|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|3.64||||0.301|TWO_SIDED|95.0|-3.28|10.56|||Mixed Models Analysis|||SBP at Week 4||10.56|-3.28|0.301
92450759|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|-0.75||||0.842|TWO_SIDED|95.0|-8.13|6.63|||Mixed Models Analysis|||SBP at Week 6||6.63|-8.13|0.842
92450760|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|6.33||||0.109|TWO_SIDED|95.0|-1.43|14.09|||Mixed Models Analysis|||SBP at Week 8||14.09|-1.43|0.109
92450761|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|-0.8||||0.741|TWO_SIDED|95.0|-5.62|4.02|||Mixed Models Analysis|||DBP at Baseline||4.02|-5.62|0.741
92450762|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|1.44||||0.552|TWO_SIDED|95.0|-3.32|6.19|||Mixed Models Analysis|||DBP at Week 1||6.19|-3.32|0.552
92450763|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|2.83||||0.268|TWO_SIDED|95.0|-2.18|7.84|||Mixed Models Analysis|||DBP at Week 2||7.84|-2.18|0.268
92450764|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|1.02||||0.719|TWO_SIDED|95.0|-4.53|6.56|||Mixed Models Analysis|||DBP at Week 4||6.56|-4.53|0.719
92450765|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|-2.86||||0.334|TWO_SIDED|95.0|-8.68|2.96|||Mixed Models Analysis|||DBP at Week 6||2.96|-8.68|0.334
92450766|NCT00403546|184788049|SUPERIORITY||Mean Difference (Net)|4.38||||0.151|TWO_SIDED|95.0|-1.61|10.37|||Mixed Models Analysis|||DBP at Week 8||10.37|-1.61|0.151
92172751|NCT04321031|184236275|SUPERIORITY||Risk Difference (RD)|0.1|||||TWO_SIDED|90.0|-0.03|0.24|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.24|-0.03|
92172752|NCT04321031|184236275|SUPERIORITY||Risk Difference (RD)|0.12|||||TWO_SIDED|90.0|-0.03|0.26|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.26|-0.03|
92172753|NCT04321031|184236275|SUPERIORITY||Risk Difference (RD)|0.13|||||TWO_SIDED|90.0|-0.04|0.28|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.28|-0.04|
92172754|NCT04321031|184236276|SUPERIORITY||Risk Difference (RD)|0.14|||||TWO_SIDED|90.0|-0.04|0.32||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.32|-0.04|
92450767|NCT00403546|184788051|SUPERIORITY||Mean Difference (Final Values)|2.77||||0.416|TWO_SIDED|95.0|-3.97|9.5|||Mixed Models Analysis|Mixed models analysis with random slopes||At Baseline||9.50|-3.97|0.416
92172755|NCT04321031|184236276|SUPERIORITY||Risk Difference (RD)|0.08|||||TWO_SIDED|90.0|-0.11|0.27||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.27|-0.11|
92172756|NCT04321031|184236276|SUPERIORITY||Risk Difference (RD)|0.12|||||TWO_SIDED|90.0|-0.07|0.3||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.30|-0.07|
92172757|NCT04321031|184236276|SUPERIORITY||Risk Difference (RD)|0.27|||||TWO_SIDED|90.0|0.07|0.43||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.43|0.07|
92172758|NCT04321031|184236276|SUPERIORITY||Risk Difference (RD)|0.07|||||TWO_SIDED|90.0|-0.12|0.27||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.27|-0.12|
92172759|NCT04321031|184236276|SUPERIORITY||Risk Difference (RD)|0.25|||||TWO_SIDED|90.0|0.04|0.42||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.42|0.04|
92172760|NCT04321031|184236276|SUPERIORITY||Risk Difference (RD)|0.16|||||TWO_SIDED|50.0|0.08|0.23||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.23|0.08|
92450768|NCT00403546|184788051|SUPERIORITY||Mean Difference (Net)|0.37||||0.854|TWO_SIDED|95.0|-3.59|4.33|||Mixed Models Analysis|||At Week 2||4.33|-3.59|0.854
92172761|NCT04321031|184236276|SUPERIORITY||Risk Difference (RD)|0.16|||||TWO_SIDED|90.0|-0.03|0.31||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.31|-0.03|
92172762|NCT04321031|184236276|SUPERIORITY||Risk Difference (RD)|0.18|||||TWO_SIDED|50.0|0.09|0.26||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.26|0.09|
92172763|NCT04321031|184236276|SUPERIORITY||Risk Difference (RD)|0.18|||||TWO_SIDED|90.0|-0.03|0.35||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.35|-0.03|
92172764|NCT04321031|184236277|SUPERIORITY||Least Square (LS) Mean|-25.98|||||TWO_SIDED|90.0|-58.42|-2.57||||||||-2.57|-58.42|
92172765|NCT04321031|184236277|SUPERIORITY||LS Mean|-35.41|||||TWO_SIDED|90.0|-69.41|-5.42||||||||-5.42|-69.41|
92172766|NCT04321031|184236277|SUPERIORITY||LS Mean|-40.54|||||TWO_SIDED|90.0|-75.55|-7.32||||||||-7.32|-75.55|
92172767|NCT04321031|184236277|SUPERIORITY||LS Mean|-44.74|||||TWO_SIDED|90.0|-81.72|-8.42||||||||-8.42|-81.72|
92450769|NCT00403546|184788051|SUPERIORITY||Mean Difference (Net)|1.95||||0.406|TWO_SIDED|95.0|-2.68|6.58|||Mixed Models Analysis|||At Week 4||6.58|-2.68|0.406
92450770|NCT00403546|184788051|SUPERIORITY||Mean Difference (Net)|-3.01||||0.256|TWO_SIDED|95.0|-8.23|2.21|||Mixed Models Analysis|||At Week 6||2.21|-8.23|0.256
92172768|NCT04321031|184236278|SUPERIORITY||LS Mean|-41.82|||||TWO_SIDED|90.0|-62.57|-9.57||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-9.57|-62.57|
92172769|NCT04321031|184236278|SUPERIORITY||LS Mean|-43.33|||||TWO_SIDED|90.0|-62.37|-14.64||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-14.64|-62.37|
92172770|NCT04321031|184236278|SUPERIORITY||LS Mean|-59.35|||||TWO_SIDED|90.0|-73.95|-36.55||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-36.55|-73.95|
92172771|NCT04321031|184236278|SUPERIORITY||LS Mean|-68.21|||||TWO_SIDED|90.0|-79.72|-50.15||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-50.15|-79.72|
92450771|NCT00403546|184788051|SUPERIORITY||Mean Difference (Net)|-1.37||||0.642|TWO_SIDED|95.0|-7.2|4.45|||Mixed Models Analysis|||At Week 8||4.45|-7.20|0.642
92450772|NCT00403546|184788053|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.135|TWO_SIDED|95.0|-1.55|0.2|||Mixed Models Analysis|||At Baseline||0.20|-1.55|0.135
92450773|NCT00403546|184788053|SUPERIORITY||Mean Difference (Net)|0.44||||0.262|TWO_SIDED|95.0|-0.33|1.21|||Mixed Models Analysis|||At Week 2||1.21|-0.33|0.262
92450774|NCT00403546|184788053|SUPERIORITY||Mean Difference (Net)|0.58||||0.209|TWO_SIDED|95.0|-0.33|1.49|||Mixed Models Analysis|||At Week 4||1.49|-0.33|0.209
92450775|NCT00403546|184788053|SUPERIORITY||Mean Difference (Net)|0.03||||0.95|TWO_SIDED|95.0|-1.01|1.07|||Mixed Models Analysis|||At Week 6||1.07|-1.01|0.950
92450776|NCT00403546|184788053|SUPERIORITY||Mean Difference (Net)|0.57||||0.34|TWO_SIDED|95.0|-0.61|1.76|||Mixed Models Analysis|||At Week 8||1.76|-0.61|0.340
92450777|NCT05061446|184788072|OTHER||Difference in percentage|6.7|||||TWO_SIDED|95.0|-5.96|19.29||||||||19.29|-5.96|
92450778|NCT05061446|184788072|OTHER||Difference in percentage|26.3|||||TWO_SIDED|95.0|6.52|46.12||||||||46.12|6.52|
92450779|NCT05061446|184788073|OTHER||Difference in percentage|6.7|||||TWO_SIDED|95.0|-5.96|19.29||||||||19.29|-5.96|
92450780|NCT05061446|184788073|OTHER||Difference in percentage|26.3|||||TWO_SIDED|95.0|6.52|46.12||||||||46.12|6.52|
92172772|NCT04321031|184236278|SUPERIORITY||LS Mean|-50.46|||||TWO_SIDED|90.0|-69.53|-19.44||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-19.44|-69.53|
92172773|NCT04321031|184236278|SUPERIORITY||LS Mean|-69.27|||||TWO_SIDED|90.0|-81.08|-50.07||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-50.07|-81.08|
92172774|NCT04321031|184236278|SUPERIORITY||LS Mean|-21.8|||||TWO_SIDED|50.0|-34.02|-7.32||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-7.32|-34.02|
92172775|NCT04321031|184236278|SUPERIORITY||LS Mean|-21.8|||||TWO_SIDED|90.0|-48.51|18.76||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||18.76|-48.51|
92172776|NCT04321031|184236278|SUPERIORITY||LS Mean|-37.97|||||TWO_SIDED|50.0|-49.4|-23.95||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-23.95|-49.40|
92450781|NCT05061446|184788074|OTHER||Difference in percentage|20.0|||||TWO_SIDED|95.0|-0.24|40.24||||||||40.24|-0.24|
92450782|NCT05061446|184788074|OTHER||Difference in percentage|31.6|||||TWO_SIDED|95.0|10.68|52.48||||||||52.48|10.68|
92450783|NCT05061446|184788075|OTHER||Difference in percentage|6.7|||||TWO_SIDED|95.0|-5.96|19.29||||||||19.29|-5.96|
92450784|NCT05061446|184788075|OTHER||Difference in percentage|5.3|||||TWO_SIDED|95.0|-4.78|15.3||||||||15.30|-4.78|
92450785|NCT05061446|184788076|OTHER||Difference in percentage|26.2|||||TWO_SIDED|95.0|-1.22|53.6||||||||53.60|-1.22|
92450786|NCT05061446|184788076|OTHER||Difference in percentage|45.5|||||TWO_SIDED|95.0|19.3|71.68||||||||71.68|19.30|
92450787|NCT02799082|184788108|SUPERIORITY_OR_OTHER||||||<|0.0001||||||"The percentages stated relate to the total number of subjects for the respective week and treatment.~Cochran-Mantel-Haenszel Test stratified by center"|Cochran-Mantel-Haenszel|||||||<0.0001
92450788|NCT02799082|184788109|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92450789|NCT02799082|184788117|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92450790|NCT02799082|184788118|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92450791|NCT02442700|184788154|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92450792|NCT00752908|184788163|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92450793|NCT02617589|184788165|SUPERIORITY|Hazard Ratio is Nivolumab over Temozolomide|Stratified Cox proportional hazard model|1.31||||0.0037|TWO_SIDED|95.0|1.09|1.58|||Log-rank test stratified|Log-rank test stratified by complete or partial resection at baseline as entered into the IVRS.||||1.58|1.09|0.0037
92450794|NCT02617589|184788166|SUPERIORITY|Hazard Ratio is Nivolumab over Temozolomide|Stratified Cox proportional hazard model|1.43|||||TWO_SIDED|95.0|1.19|1.71|||Log-rank test stratified|Log-rank test stratified by complete or partial resection at baseline as entered into the IVRS.||||1.71|1.19|
92450795|NCT02617589|184788170|SUPERIORITY|Hazard Ratio is Nivolumab over Temozolomide|Stratified Cox proportional hazard model|1.31||||0.0024|TWO_SIDED|95.0|1.1|1.55|||Log-rank test stratified|Log-rank test stratified by complete or partial resection at baseline as entered into the IVRS.||||1.55|1.10|0.0024
92450796|NCT01591681|184788177|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||Sample size was computed to be 45 participants using the system for 42 nights (21 nights with system active and 21 control nights) for a total of 1,890 nights in order to have 90% power with a type 1 error rate of 5% to reject the null hypothesis of no difference in nocturnal hypoglycemia assuming a true population rate of 30% of control nights and 15% of intervention nights with hypoglycemia after adjusting for the correlation from repeated nights and misclassification due to sensor inaccuracy.||||<0.001
92280879|NCT00076102|184464772|OTHER|||||||0.0301||||||The reported F statistic and p-value are representative of the difference in the Parent proxy Form and the Child Self-Report Form response for Adaptive Behavior.|ANOVA|||F=5.45 under the null hypothesis||||0.0301
92450797|NCT01591681|184788178|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|repeated measures logistic regression|Was used to test differences using mixed effects and a within subject autocorrelation structure to account for multiple nights from the same subject.||||||<0.001
92172777|NCT04321031|184236278|SUPERIORITY||LS Mean|-37.97|||||TWO_SIDED|90.0|-62.41|2.37||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||2.37|-62.41|
92172778|NCT04321031|184236279|SUPERIORITY||Risk Difference (RD)|0.21|||||TWO_SIDED|90.0|0.09|0.32|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.32|0.09|
92172779|NCT04321031|184236279|SUPERIORITY||Risk Difference (RD)|0.27|||||TWO_SIDED|90.0|0.15|0.37|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.37|0.15|
92172780|NCT04321031|184236279|SUPERIORITY||Risk Difference (RD)|0.29|||||TWO_SIDED|90.0|0.18|0.39|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.39|0.18|
92280880|NCT00076102|184464772|OTHER|||||||0.0186||||||The reported p-value is representative of the difference in the Parent proxy Form and the Child Self-Report Form response for Emotional Functioning.|ANOVA|||F = 6.56 under the null hypothesis||||0.0186
92450798|NCT01591681|184788179|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||<0.001
92450799|NCT01591681|184788180|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||<0.001
92172781|NCT04321031|184236279|SUPERIORITY||Risk Difference (RD)|0.31|||||TWO_SIDED|90.0|0.19|0.42|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.42|0.19|
92172782|NCT04321031|184236280|SUPERIORITY||Risk Difference (RD)|0.23|||||TWO_SIDED|90.0|0.04|0.51||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.51|0.04|
92172783|NCT04321031|184236280|SUPERIORITY||Risk Difference (RD)|0.37|||||TWO_SIDED|90.0|0.13|0.63||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.63|0.13|
92280881|NCT00076102|184464772|OTHER|||||||0.0032||||||The reported p-value is representative of the difference in the Parent proxy Form and the Child Self-Report Form response for Medical/Physical Status.|ANOVA|||F=11.23 under the null hypothesis||||0.0032
92172784|NCT04321031|184236280|SUPERIORITY||Risk Difference (RD)|0.22|||||TWO_SIDED|90.0|0.04|0.49||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.49|0.04|
92172785|NCT04321031|184236280|SUPERIORITY||Risk Difference (RD)|0.54|||||TWO_SIDED|90.0|0.26|0.75||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.75|0.26|
92172786|NCT04321031|184236280|SUPERIORITY||Risk Difference (RD)|0.34|||||TWO_SIDED|90.0|0.1|0.61||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.61|0.10|
92172787|NCT04321031|184236280|SUPERIORITY||Risk Difference (RD)|0.48|||||TWO_SIDED|90.0|0.2|0.72||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.72|0.20|
92241129|NCT04149899|184385369|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANCOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Final Values)|0.14||||0.828|TWO_SIDED|95.0|-1.16|1.43||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANCOVA||The estimated treatment difference is based on the least-square means from the ANCOVA model.|The mean IOP for WB007 0.15% was compared to Timolol 0.5% at Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5% and the primary efficacy timepoint for the study.||1.43|-1.16|0.828
92450800|NCT01591681|184788181|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||<0.001
92450801|NCT01591681|184788182|SUPERIORITY_OR_OTHER|||||||0.71||||||The a priori threshold for statistical significance is 0.05.|repeated measures logistic regression|Was used to test differences using mixed effects and a within subject autocorrelation structure to account for multiple nights from the same subject.||||||0.71
92280882|NCT00076102|184464773|OTHER|||||||0.6263|||||||ANOVA|||F=0.25 under the null hypothesis||||0.6263
92280883|NCT00076102|184464773|OTHER|||||||0.3625|||||||ANOVA|||F= 0.87 under the null hypothesis||||0.3625
92280884|NCT00076102|184464773|OTHER|||||||0.5877|||||||ANOVA|||F=0.31 under the null hypothesis||||0.5877
92280885|NCT00076102|184464773|OTHER|||||||0.2767|||||||ANOVA|||F=1.27 under the null hypothesis||||0.2767
92280886|NCT00076102|184464773|OTHER|||||||0.8466|||||||ANOVA|||F=0.04 under the null hypothesis||||0.8466
92450802|NCT01591681|184788183|SUPERIORITY_OR_OTHER|||||||0.62||||||The a priori threshold for statistical significance is 0.05.|repeated measures logistic regression|Was used to test differences using mixed effects and a within subject autocorrelation structure to account for multiple nights from the same subject.||||||0.62
92450803|NCT01591681|184788184|SUPERIORITY_OR_OTHER|||||||0.1||||||The a priori threshold for statistical significance is 0.05.|repeated measures logistic regression|Was used to test differences using mixed effects and a within subject autocorrelation structure to account for multiple nights from the same subject.||||||0.10
92172788|NCT04321031|184236280|SUPERIORITY||Risk Difference (RD)|0.32|||||TWO_SIDED|50.0|0.24|0.39||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.39|0.24|
92172789|NCT04321031|184236280|SUPERIORITY||Risk Difference (RD)|0.32|||||TWO_SIDED|90.0|0.12|0.48||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.48|0.12|
92172790|NCT04321031|184236280|SUPERIORITY||Risk Difference (RD)|0.14|||||TWO_SIDED|50.0|0.06|0.23||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.23|0.06|
92172791|NCT04321031|184236280|SUPERIORITY||Risk Difference (RD)|0.14|||||TWO_SIDED|90.0|-0.06|0.33||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.33|-0.06|
92172792|NCT04321031|184236281|SUPERIORITY||Risk Difference (RD)|-0.05|||||TWO_SIDED|90.0|-0.16|0.02|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.02|-0.16|
92172793|NCT04321031|184236281|SUPERIORITY||Risk Difference (RD)|-0.07|||||TWO_SIDED|90.0|-0.2|0.03|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.03|-0.20|
92172794|NCT04321031|184236281|SUPERIORITY||Risk Difference (RD)|-0.09|||||TWO_SIDED|90.0|-0.23|0.04|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.04|-0.23|
92172795|NCT04321031|184236281|SUPERIORITY||Risk Difference (RD)|-0.1|||||TWO_SIDED|90.0|-0.26|0.05|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.05|-0.26|
92241130|NCT04149899|184385369|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANCOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Final Values)|-0.42||||0.52|TWO_SIDED|95.0|-1.73|0.89||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANCOVA||The estimated treatment difference is based on the least-square means from the ANCOVA model.|The mean IOP for WB007 0.4% was compared to Timolol 0.5% at Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5% and the primary efficacy timepoint for the study.||0.89|-1.73|0.520
92280887|NCT00076102|184464773|OTHER|||||||0.6774|||||||ANOVA|||F=0.18 under the null hypothesis||||0.6774
92280888|NCT00234078|184464799|SUPERIORITY_OR_OTHER|||||||0.385||||||versus placebo|t-test, 2 sided|a general linear model||||||0.385
92280889|NCT00234078|184464800|SUPERIORITY_OR_OTHER|||||||0.601||||||versus placebo|t-test, 2 sided|a general linear model||||||0.601
92450804|NCT01591681|184788185|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||<0.001
92450805|NCT01591681|184788186|SUPERIORITY_OR_OTHER|||||||0.98||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||0.98
92450806|NCT01591681|184788187|SUPERIORITY_OR_OTHER|||||||0.93||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||0.93
92450807|NCT03062891|184788194|SUPERIORITY||Slope|0.54||||0.572|TWO_SIDED|95.0|-1.33|2.4|||Regression, Linear|||This analysis looked at the interaction between baseline anxiety symptoms and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||2.40|-1.33|.572
92450808|NCT03062891|184788195|SUPERIORITY||Slope|0.08||||0.934|TWO_SIDED|95.0|-1.82|1.98|||Regression, Linear|||This analysis looked at the interaction between baseline depression symptoms and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||1.98|-1.82|.934
92450809|NCT03062891|184788196|SUPERIORITY||Slope|1.07||||0.253|TWO_SIDED|95.0|-0.76|2.89|||Regression, Linear|||This analysis looked at the interaction between attentional problems and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||2.89|-0.76|.253
92172796|NCT04321031|184236282|SUPERIORITY||Risk Difference (RD)|-0.07|||||TWO_SIDED|90.0|-0.21|0.13||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.13|-0.21|
92280890|NCT00234078|184464801|SUPERIORITY_OR_OTHER|||||||0.084||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.084
92280891|NCT00234078|184464801|SUPERIORITY_OR_OTHER|||||||0.02||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.020
92280892|NCT00234078|184464801|SUPERIORITY_OR_OTHER|||||||0.421||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.421
92450810|NCT03062891|184788197|SUPERIORITY||Slope|1.2||||0.215|TWO_SIDED|95.0|-0.7|3.1|||Regression, Linear|||This analysis looked at the interaction between baseline paranois and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||3.10|-0.70|.215
92450811|NCT03062891|184788197|SUPERIORITY||Slope|1.14||||0.254|TWO_SIDED|95.0|-0.83|3.11|||Regression, Linear|||This analysis looked at the interaction between baseline hallucinations and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||3.11|-0.83|.254
92450812|NCT03062891|184788197|SUPERIORITY||Slope|-0.27||||0.778|TWO_SIDED|95.0|-2.13|1.59|||Regression, Linear|||This analysis looked at the interaction between baseline cognitive disorganization and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||1.59|-2.13|.778
92450813|NCT03062891|184788198|SUPERIORITY||Slope|-0.25||||0.8|TWO_SIDED|95.0|-2.16|1.67|||Regression, Linear|||This analysis looked at the interaction between baseline positive mental health and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||1.67|-2.16|.800
92450814|NCT03062891|184788199|SUPERIORITY||Slope|0.59||||0.525|TWO_SIDED|95.0|-1.25|2.44|||Regression, Linear|||This analysis looked at the interaction between baseline perceived stress and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||2.44|-1.25|.525
92280893|NCT00234078|184464802|SUPERIORITY_OR_OTHER|||||||0.087||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.087
92172797|NCT04321031|184236282|SUPERIORITY||Risk Difference (RD)|-0.14|||||TWO_SIDED|90.0|-0.25|0.02||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.02|-0.25|
92172798|NCT04321031|184236282|SUPERIORITY||Risk Difference (RD)|-0.02|||||TWO_SIDED|90.0|-0.17|0.17||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.17|-0.17|
92172799|NCT04321031|184236282|SUPERIORITY||Risk Difference (RD)|0.02|||||TWO_SIDED|90.0|-0.15|0.22||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.22|-0.15|
92450815|NCT03062891|184788200|SUPERIORITY||Slope|1.3||||0.14|TWO_SIDED|95.0|-0.43|3.03|||Regression, Linear|||This analysis looked at the interaction between baseline threatening life events and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||3.03|-0.43|.140
92450816|NCT03062891|184788201|SUPERIORITY||Slope|-2.58||||0.03|TWO_SIDED|95.0|-4.9|-0.25|||Generalized estimating equation|||This analysis looked at the effect of group on changes in anxiety symptoms across the intervention period.||-0.25|-4.90|.030
92450817|NCT03062891|184788202|SUPERIORITY||Slope|-0.63||||0.456|TWO_SIDED|95.0|-2.24|1.01|||Generalized estimating equation|||This analysis looked at the effect of group on changes in depression symptoms across the intervention period.||1.01|-2.24|.456
92450818|NCT03062891|184788203|SUPERIORITY||Slope|-2.34||||0.11|TWO_SIDED|95.0|-5.21|0.53|||Generalized estimating equation|||This analysis looked at the effect of group on changes attentional problems across the intervention period.||0.53|-5.21|.110
92450819|NCT03062891|184788204|SUPERIORITY||Slope|-1.69||||0.041|TWO_SIDED|95.0|-3.31|-0.07|||Generalized estimating equations|||This analysis looked at the effect of group on changes in psychotic experiences (paranoia) across the intervention period.||-0.07|-3.31|.041
92450820|NCT03062891|184788204|SUPERIORITY||Slope|-0.22||||0.531|TWO_SIDED|95.0|-0.92|0.48|||Generalized estimating equation|||This analysis looked at the effect of group on changes in psychotic experiences (hallucinations) across the intervention period.||0.48|-0.92|.531
92450821|NCT03062891|184788204|SUPERIORITY||Slope|-0.37||||0.13|TWO_SIDED|95.0|-0.84|0.11|||Generalized estimating equation|||This analysis looked at the effect of group on changes in psychotic experiences (cognitive disorganization) across the intervention period.||0.11|-0.84|.130
92450822|NCT03062891|184788205|SUPERIORITY||Slope|0.07||||0.916|TWO_SIDED|95.0|-1.17|1.3|||Generalized estimating equation|||This analysis looked at the effect of group on changes in positive mental health across the intervention period.||1.30|-1.17|.916
92172800|NCT04321031|184236282|SUPERIORITY||Risk Difference (RD)|-0.22|||||TWO_SIDED|90.0|-0.3|-0.05||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||-0.05|-0.30|
92172801|NCT04321031|184236282|SUPERIORITY||Risk Difference (RD)|0.05|||||TWO_SIDED|90.0|-0.13|0.26||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.26|-0.13|
92280894|NCT00234078|184464802|SUPERIORITY_OR_OTHER|||||||0.004||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.004
92450823|NCT03062891|184788206|SUPERIORITY||Slope|-2.03||||0.027|TWO_SIDED|95.0|-3.83|-0.23|||Generalized estimating equation|||This analysis looked at the effect of group on changes in perceived stress across the intervention period.||-0.23|-3.83|.027
92450824|NCT03062891|184788208|SUPERIORITY||Odds Ratio (OR)|1.36||||0.296|TWO_SIDED|95.0|0.77|2.4|||Regression, Logistic|||Assocation between baseline anxiety symptoms and exploding head syndrome||2.40|0.77|.296
92450825|NCT03062891|184788208|SUPERIORITY||Odds Ratio (OR)|0.69||||0.065|TWO_SIDED|95.0|0.47|1.02|||Regression, Logistic|||Assocation between baseline insomnia symptoms and exploding head syndrome||1.02|0.47|.065
92450826|NCT03062891|184788208|SUPERIORITY||Odds Ratio (OR)|0.67||||0.145|TWO_SIDED|95.0|0.39|1.15|||Regression, Logistic|||Assocation between baseline depression symptoms and exploding head syndrome||1.15|0.39|.145
92450827|NCT03062891|184788208|SUPERIORITY||Odds Ratio (OR)|1.26||||0.398|TWO_SIDED|95.0|0.73|2.19|||Regression, Logistic|||Assocation between baseline life stress and exploding head syndrome||2.19|0.73|.398
92450828|NCT03062891|184788208|SUPERIORITY||Odds Ratio (OR)|1.72||||0.001|TWO_SIDED|95.0|1.24|2.38|||Regression, Logistic|||Assocation between sleep paralysis and exploding head syndrome||2.38|1.24|.001
92450829|NCT01431508|184788220|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||t-test, 2 sided|||Comparison of Week 12 and Baseline||||<0.05
92450830|NCT00132769|184788221|SUPERIORITY_OR_OTHER||Difference in LS Mean|1.48||||0.278|TWO_SIDED|95.0|-1.21|4.18|||ANCOVA|||||4.18|-1.21|0.278
92450831|NCT00132769|184788222|SUPERIORITY_OR_OTHER||Difference in Percent|-5.66||||0.543|TWO_SIDED|95.0|-24.45|13.13|||Cochran-Mantel-Haenszel|||||13.13|-24.45|0.543
92450832|NCT00132769|184788229|SUPERIORITY_OR_OTHER||LS mean ratio between treatments|0.84||||0.225|TWO_SIDED|95.0|0.63|1.12|||ANCOVA|||||1.12|0.63|0.225
92450833|NCT01612546|184788239|OTHER||||||<|0.01|||||||Fisher Exact|||||||<0.01
92450834|NCT01016834|184788244|SUPERIORITY_OR_OTHER|||||||0.0007|||||||t-test, 2 sided|||For the primary analyses and other PPMQ-R variables, the mean of the differences between each subject's rating of overall treatment satisfaction at the end of study based on the subject's experience using Sumavel DosePro and the rating at baseline based on the subject's pre-study triptan treatment were compared using a two-sided paired t-test at the 5% level of significance||||0.0007
92450835|NCT06748040|184788280|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.4852|TWO_SIDED|95.0|-2.4|1.2||P-value less than 0.05 is considered as statistically significant.|t-test, 2 sided|||||1.2|-2.4|0.4852
92450836|NCT01159938|184788281|SUPERIORITY_OR_OTHER||LS mean difference|0.26||||0.617|TWO_SIDED|95.0|-0.78|1.3||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.30|-0.78|0.617
92450837|NCT01159938|184788281|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.732|TWO_SIDED|95.0|-1.23|1.73||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.73|-1.23|0.732
92450838|NCT01159938|184788281|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27||||0.715|TWO_SIDED|95.0|-1.2|1.73||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.73|-1.20|0.715
92450839|NCT01159938|184788281|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35||||0.177|TWO_SIDED|95.0|-0.85|0.16||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in brachial arteries. Significance was assessed at 2-sided 5% level.|ANCOVA|||||0.16|-0.85|0.177
92280895|NCT00234078|184464802|SUPERIORITY_OR_OTHER|||||||0.029||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.029
92450840|NCT01159938|184788281|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.579|TWO_SIDED|95.0|-0.94|0.53||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.53|-0.94|0.579
92450841|NCT01159938|184788281|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.49||||0.167|TWO_SIDED|95.0|-1.19|0.21||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in brachial arteries. Significance was assessed at 2-sided 5% level.|ANCOVA|||||0.21|-1.19|0.167
92450842|NCT01159938|184788282|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.676|TWO_SIDED|95.0|-1.1|0.72||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.72|-1.10|0.676
92450843|NCT01159938|184788282|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.957|TWO_SIDED|95.0|-1.27|1.34||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.34|-1.27|0.957
92450844|NCT01159938|184788282|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.41||||0.513|TWO_SIDED|95.0|-1.68|0.85||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.85|-1.68|0.513
92450845|NCT01159938|184788282|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.623|TWO_SIDED|95.0|-0.47|0.28||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.28|-0.47|0.623
92450846|NCT01159938|184788282|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.916|TWO_SIDED|95.0|-0.51|0.57||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.57|-0.51|0.916
92450847|NCT01159938|184788282|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21||||0.413|TWO_SIDED|95.0|-0.73|0.31||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.31|-0.73|0.413
92450848|NCT01159938|184788283|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.724|TWO_SIDED|95.0|-0.94|1.34||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 120-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.34|-0.94|0.724
92450849|NCT01159938|184788283|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.479|TWO_SIDED|95.0|-1.05|2.2||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 120-min post-breakfast in aortic arteries. Significance was assessed at 2-sided 5% level.|ANCOVA|||||2.20|-1.05|0.479
92450850|NCT01159938|184788283|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.18||||0.825|TWO_SIDED|95.0|-1.76|1.41||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 120-min post-breakfast in aortic arteries. Significance was assessed at 2-sided 5% level.|ANCOVA|||||1.41|-1.76|0.825
92450851|NCT01159938|184788283|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.378|TWO_SIDED|95.0|-0.65|0.25||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 120-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.25|-0.65|0.378
92450852|NCT01159938|184788283|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.553|TWO_SIDED|95.0|-0.84|0.46||The p-value is for the LS mean difference (high minus low postprandial glucose) in PWV at 120 mins post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.46|-0.84|0.553
92450853|NCT01159938|184788283|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.512|TWO_SIDED|95.0|-0.83|0.42||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 120-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.42|-0.83|0.512
92450854|NCT01159938|184788284|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29||||0.466|TWO_SIDED|95.0|-1.09|0.51||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.51|-1.09|0.466
92450855|NCT01159938|184788284|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.44||||0.449|TWO_SIDED|95.0|-1.6|0.72||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.72|-1.60|0.449
92450856|NCT01159938|184788284|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.15||||0.792|TWO_SIDED|95.0|-1.25|0.96||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.96|-1.25|0.792
92450857|NCT01159938|184788284|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16||||0.493|TWO_SIDED|95.0|-0.63|0.31||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.31|-0.63|0.493
92450858|NCT01159938|184788284|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58||||0.091|TWO_SIDED|95.0|-1.25|0.1||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.10|-1.25|0.091
92172802|NCT04321031|184236282|SUPERIORITY||Risk Difference (RD)|0.04|||||TWO_SIDED|50.0|-0.03|0.12||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.12|-0.03|
92450859|NCT01159938|184788284|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26||||0.425|TWO_SIDED|95.0|-0.39|0.9||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.90|-0.39|0.425
92450860|NCT01159938|184788285|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48||||0.275|TWO_SIDED|95.0|-1.36|0.4||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.40|-1.36|0.275
92450861|NCT01159938|184788285|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17||||0.784||95.0|-1.44|1.1||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.10|-1.44|0.784
92287187|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.008||||0.775|TWO_SIDED|95.0|-0.047|0.063|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.063|-0.047|0.775
92450862|NCT01159938|184788285|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.79||||0.197|TWO_SIDED|95.0|-2.01|0.43||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.43|-2.01|0.197
92450863|NCT01159938|184788285|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.122|TWO_SIDED|95.0|-0.9|0.11||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.11|-0.90|0.122
92450864|NCT01159938|184788285|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.43||||0.246|TWO_SIDED|95.0|-1.16|0.31||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.31|-1.16|0.246
92450865|NCT01159938|184788285|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.37||||0.298|TWO_SIDED|95.0|-1.06|0.33||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.33|-1.06|0.298
92450866|NCT01159938|184788286|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.49||||0.024|TWO_SIDED|95.0|-6.5|-0.48||P-value is for the Least Square (LS) mean difference (high minus low postprandial glucose) in change in PWA at 60-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, body mass index (BMI), visit, group, condition, group by condition, and random participant.||||-0.48|-6.50|0.024
92450867|NCT01159938|184788286|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.859|TWO_SIDED|95.0|-2.59|3.09||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 60-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|The LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||3.09|-2.59|0.859
92450868|NCT01159938|184788286|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.19||||0.155|TWO_SIDED|95.0|-5.25|0.87||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 120-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.87|-5.25|0.155
92450869|NCT01159938|184788286|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58||||0.685|TWO_SIDED|95.0|-3.46|2.3||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 120-min post-breakfast. Significance was assessed at 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||2.30|-3.46|0.685
92450870|NCT01159938|184788286|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.84||||0.292|TWO_SIDED|95.0|-5.33|1.64||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 180-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||1.64|-5.33|0.292
92450871|NCT01159938|184788286|SUPERIORITY_OR_OTHER||LS Mean Difference|2.04||||0.216|TWO_SIDED|95.0|-1.25|5.33||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 180-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||5.33|-1.25|0.216
92450872|NCT01159938|184788286|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.87||||0.065|TWO_SIDED|95.0|-5.92|0.18||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 240-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.18|-5.92|0.065
92450873|NCT01159938|184788286|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.954|TWO_SIDED|95.0|-2.96|2.8||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 240-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||2.80|-2.96|0.954
92450874|NCT01159938|184788287|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.905|TWO_SIDED|95.0|-0.31|0.27||P-value is for Least Square (LS) mean difference (high minus low postprandial glucose) in change in PAT at 120-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.27|-0.31|0.905
92450875|NCT01159938|184788287|SUPERIORITY_OR_OTHER||LS Mean Difference|0.42||||0.004|TWO_SIDED|95.0|0.14|0.69||P-value is for LS mean difference (high minus low postprandial glucose) in change in PAT at 120-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.69|0.14|0.004
92450876|NCT01159938|184788287|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.584|TWO_SIDED|95.0|-0.41|0.23||P-value is for LS mean difference (high minus low postprandial glucose) in change in PAT at 240-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.23|-0.41|0.584
92172803|NCT04321031|184236282|SUPERIORITY||Risk Difference (RD)|0.04|||||TWO_SIDED|90.0|-0.12|0.23||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.23|-0.12|
92287188|NCT03086460|184479324|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.425|TWO_SIDED|95.0|-0.032|0.077|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.077|-0.032|0.425
92450877|NCT01159938|184788287|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.436|TWO_SIDED|95.0|-0.19|0.44||P-value is for LS mean difference (high minus low postprandial glucose) in change in PAT at 240-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.44|-0.19|0.436
92450878|NCT04837482|184788304|NON_INFERIORITY|Noninferiority of AGN-190584 was concluded if the lower bound of the 95% CI of the least-square mean difference between AGN-190584 and vehicle was greater than the pre-specified margin of -0.25.|Least-Square (LS) Mean|-0.224|STANDARD_ERROR_OF_MEAN|0.0602||0.0006|TWO_SIDED|95.0|-0.346|-0.103|||Mixed Models Analysis|Linear mixed-effects model with repeated measures||||-0.103|-0.346|0.0006
92450879|NCT02979535|184788312|OTHER||GMT ratio|0.947|||||TWO_SIDED|95.0|0.773|1.16||||||Antigen HPV-16||1.16|0.773|
92450880|NCT02979535|184788312|OTHER||GMT ratio|0.986|||||TWO_SIDED|95.0|0.803|1.21||||||Antigen HPV-18||1.21|0.803|
92450881|NCT02979535|184788313|OTHER||GMT ratio|0.977|||||TWO_SIDED|95.0|0.653|1.46||||||Dengue Virus Serotype 1||1.46|0.653|
92450882|NCT02979535|184788313|OTHER||GMT ratio|0.911|||||TWO_SIDED|95.0|0.654|1.27||||||Dengue Virus Serotype 2||1.27|0.654|
92450883|NCT02979535|184788313|OTHER||GMT ratio|0.921|||||TWO_SIDED|95.0|0.727|1.17||||||Dengue Virus Serotype 3||1.17|0.727|
92450884|NCT02979535|184788313|OTHER||GMT ratio|0.931|||||TWO_SIDED|95.0|0.733|1.18||||||Dengue Virus Serotype 4||1.18|0.733|
92172804|NCT04321031|184236282|SUPERIORITY||Risk Difference (RD)|0.27|||||TWO_SIDED|50.0|0.17|0.38||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.38|0.17|
92172805|NCT04321031|184236282|SUPERIORITY||Risk Difference (RD)|0.27|||||TWO_SIDED|90.0|0.06|0.53||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.53|0.06|
92450885|NCT04820673|184788327|OTHER||||||<|0.0001||||||P\<0.0001, calculated by t-test, corresponds to baseline response group domain scores in comparison to week-12 domain scores (CFB). CFB is calculated using available matching data for each domain. Higher domain scores indicate higher disease burden.|t-test, 2 sided|||Week 12 vs Baseline||||<.0001
92450886|NCT00587587|184788333|SUPERIORITY_OR_OTHER|||||||1||||||"P-value compares overall incidence of AEs between groups, ie Apligraf 12/17 and Control 10/13.~UADE is defined in 21CFR812.3(s)"|Fisher Exact|||Fisher's exact test used to evaluate treatment differences between Apligraf subjects and Control subjects experiencing any AEs.||||1.0000
92450887|NCT00587587|184788334|SUPERIORITY_OR_OTHER|||||||0.5863||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5863
92450888|NCT00587587|184788335|SUPERIORITY_OR_OTHER|||||||0.3783||95.0|||||Fisher Exact|||||||0.3783
92450889|NCT00587587|184788336|SUPERIORITY_OR_OTHER|||||||0.7149|||||||Wilcoxon (Mann-Whitney)|||Treatment differences in scar firmness evaluated using a 2-tailed Wilcoxon rank sum test with pooled variances.||||0.7149
92450890|NCT00587587|184788337|SUPERIORITY_OR_OTHER|||||||0.167||95.0|||||Wilcoxon (Mann-Whitney)|||Treatment differences in scar thickness evaluated using a 2-tailed Wilcoxon rank sum test||||0.1670
92450891|NCT00587587|184788338|SUPERIORITY_OR_OTHER|||||||0.7221|TWO_SIDED|0.0|||||Wilcoxon (Mann-Whitney)|||Global assessments analyzed as ordinal ranks. Treatment differences in global assessment evaluated using a 2-tailed Wilcoxon rank sum test with pooled variances.||||0.7221
92450892|NCT00587587|184788339|SUPERIORITY_OR_OTHER|||||||0.408|||||||Wilcoxon (Mann-Whitney)|||Global assessments analyzed as ordinal ranks. Treatment differences in global assessment evaluated using a 2-tailed Wilcoxon rank sum test with pooled variances.||||0.4080
92450893|NCT00587587|184788340|SUPERIORITY_OR_OTHER|||||||0.9556||0.0|||||Wilcoxon (Mann-Whitney)|||Differences evaluated using a 2-tailed Wilcoxon rank sum test with pooled variances.||||0.9556
92450894|NCT01162005|184788341|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
92450895|NCT00466193|184788357|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for treatment|ANCOVA|||||||<0.001
92450896|NCT00466193|184788359|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||p-value is for treatment|ANCOVA|||||||0.006
92450897|NCT00466193|184788362|SUPERIORITY_OR_OTHER|||||||0.0041||95.0||||P-value is for treatment|ANCOVA|||||||0.0041
92450898|NCT00086346|184788368|SUPERIORITY_OR_OTHER|||||||0.342|||||||Rank ANCOVA|||||||0.342
92450899|NCT00086346|184788369|SUPERIORITY_OR_OTHER|||||||0.017|||||||Cochran-Mantel-Haenszel|||Comparison between treatment groups of percentages of patients with biopsy-confirmed acute rejection.||||0.017
92450900|NCT00086346|184788370|SUPERIORITY_OR_OTHER||||||>|0.05|||||||1 way ANOVA, two sided|||||||>0.05
92450901|NCT00086346|184788371|NON_INFERIORITY_OR_EQUIVALENCE|The a priori criterion for declaring non-inferiority was a lower bound of the 95% confidence interval (CI) having a ≥ 5% difference in graft loss. -5.2 is \< 5 % difference.|Mean Difference (Net)|-1.2||||||95.0|-5.2|2.8|||||Weighted difference in percentage of graft loss: (CNI% minus SRL%); negative values are favorable to CNI group|||2.8|-5.2|
92450902|NCT01075074|184788387|SUPERIORITY_OR_OTHER|||||||0.006||||||Corrected for 6 comparisons.|Kruskal-Wallis|||A sample size of 23 subjects per group was estimated to achieve 80% power to detect a 10 point difference in the aggregated QOR40 score for the 3 study groups to be compared assuming an overall standard deviation of 12.||||0.006
92450903|NCT01075074|184788387|SUPERIORITY_OR_OTHER||Median Difference (Net)|16.0||||0.03|TWO_SIDED|95.0|1.0|30.0|||Wilcoxon (Mann-Whitney)|||||30|1|0.03
92450904|NCT01075074|184788387|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.0||||0.01|TWO_SIDED|95.0|2.0|31.0|||Wilcoxon (Mann-Whitney)|||||31|2|0.01
92450905|NCT01075074|184788387|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0||||1|TWO_SIDED|95.0|-16.0|12.0|||Wilcoxon (Mann-Whitney)|||||12|-16|1.0
92241131|NCT04149899|184385369|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Final Values)|-0.84||||0.283|TWO_SIDED|95.0|-2.39|0.71||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANOVA|The ANOVA model has the treatment group as the main effect.|The estimated treatment difference is based on the least-square means from the ANOVA model.|The mean IOP for WB007 0.15% was compared to Timolol 0.5% at Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5% and the primary efficacy timepoint for the study.||0.71|-2.39|0.283
92280896|NCT00502775|184464803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|0.16|<|0.001||95.0|-1.2|-0.6||Symptom scores were grouped in 3 families: nasal, ocular, instantaneous. Within each family, results of hypothesis tests were adjusted using Hochberg's method.|ANCOVA|No other strata or covariates, other than investigator, were defined.|Mean Difference = Mean Change in Fluticasone Furoate - Mean Change in Fexofenadine|The primary efficacy measure, mean change from baseline over the two-week treatment period in NSS compared between fluticasone furoate and fexofenadine, was assessed at a significance level of α=0.05. If the null hypothesis of this comparison was rejected, then the secondary measures were subject to hypothesis testing. The study was powered at 90%.||-0.6|-1.2|<0.001
92280897|NCT00502775|184464803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.16|<|0.001||95.0|-1.1|-0.4|||ANCOVA||Mean Difference = Mean Change in Fluticasone Furoate - Mean Change in Placebo|||-0.4|-1.1|<0.001
92172806|NCT04321031|184236283|SUPERIORITY||Risk Difference (RD)|0.03|||||TWO_SIDED|90.0|-0.01|0.08|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.08|-0.01|
92450906|NCT01075074|184788388|SUPERIORITY_OR_OTHER|||||||0.0003||95.0||||P values is corrected for 6 comparisons|Kruskal-Wallis|||||||0.0003
92450907|NCT01075074|184788388|SUPERIORITY_OR_OTHER|||||||0.0003||95.0||||Corrected for 6 comparisons|Kruskal-Wallis|||||||0.0003
92450908|NCT01075074|184788388|SUPERIORITY_OR_OTHER||Median Difference (Net)|195.0||||0.0004|TWO_SIDED|95.0|98.0|300.0|||Wilcoxon (Mann-Whitney)|||||300|98|0.0004
92450909|NCT01075074|184788388|SUPERIORITY_OR_OTHER||Median Difference (Net)|195.0||||0.0003|TWO_SIDED|95.0|98.0|278.0|||Wilcoxon (Mann-Whitney)|||||278|98|0.0003
92450910|NCT01075074|184788388|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.86|TWO_SIDED|95.0|-105.0|83.0|||Wilcoxon (Mann-Whitney)|||||83|-105|0.86
92450911|NCT01075074|184788389|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||Corrected for multiple comparisons (n=6).|Kruskal-Wallis|||||||0.0005
92450912|NCT01075074|184788389|SUPERIORITY_OR_OTHER||Median Difference (Net)|38.0||||0.01|TWO_SIDED|95.0|8.0|50.0|||Wilcoxon (Mann-Whitney)|||||50|8|0.01
92450913|NCT01075074|184788389|SUPERIORITY_OR_OTHER||Median Difference (Net)|40.0||||0.003|TWO_SIDED|95.0|12.0|47.0|||Wilcoxon (Mann-Whitney)|||||47|12|0.003
92450914|NCT01075074|184788389|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0||||0.95|TWO_SIDED|95.0|-18.0|20.0|||Wilcoxon (Mann-Whitney)|||||20|-18|0.95
92450915|NCT01075074|184788390|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Corrected for multiple comparisons (n=6).|Kruskal-Wallis|||||||0.03
92450916|NCT01075074|184788390|SUPERIORITY_OR_OTHER||Median Difference (Net)|30.0||||0.01|TWO_SIDED|95.0|0.0|60.0|||Wilcoxon (Mann-Whitney)|||||60|0|0.01
92450917|NCT01075074|184788390|SUPERIORITY_OR_OTHER||Median Difference (Net)|30.0||||0.04|TWO_SIDED|95.0|0.0|60.0|||Wilcoxon (Mann-Whitney)|||||60|0|0.04
92450918|NCT01075074|184788390|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.92|TWO_SIDED|95.0|-30.0|30.0|||Wilcoxon (Mann-Whitney)|||||30|-30|0.92
92450919|NCT01168999|184788432|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Chi-squared|||||||<0.01
92450920|NCT01168999|184788433|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Chi-squared|||||||0.01
92450921|NCT01168999|184788434|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Repeated Measure ANOVA|||||||>0.05
92450922|NCT01168999|184788435|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Repeated Measure ANOVA|||||||>0.05
92450923|NCT01168999|184788436|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Repeated Measure ANOVA|||||||0.05
92450924|NCT01168999|184788437|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Repeated Measure ANOVA|||||||>0.05
92450925|NCT01282710|184788442|SUPERIORITY_OR_OTHER|||||||0.04627||95.0|||||Mixed Models Analysis|||"Agreement between SureCALL® and IUPC Contraction Peak Events~Null hypothesis: the mean peak difference between TOCO and IUPC is equal to 0. Alternative hypothesis: the mean peak difference is not equal to 0."||||.04627
92450926|NCT01282710|184788442|SUPERIORITY_OR_OTHER|||||||0.1676||95.0|||||Mixed Models Analysis|||"Agreement between TOCO and IUPC Contraction Peak Events~Null hypothesis: the mean peak difference between TOCO and IUPC is equal to 0. Alternative hypothesis: the mean peak difference is not equal to 0."||||0.1676
92450927|NCT02504645|184788443|SUPERIORITY|||||||0.2631|TWO_SIDED|0.0|||||Chi-squared|||||||0.2631
92450928|NCT01854554|184788445|SUPERIORITY|||||||0.74|||||||Gray's test|Cumulative Incidence Function treating progressive disease (RANO) or death before cognitive function decline as a competing risk.||||||.74
92450929|NCT01854554|184788446|SUPERIORITY|||||||0.6|||||||Log Rank|||||||.60
92450930|NCT01854554|184788447|SUPERIORITY|||||||0.24|||||||Log Rank|||||||0.24
92450931|NCT02819726|184788449|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ration|95.33|||||TWO_SIDED|90.0|87.07|104.37||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model (ANOVA) with fixed effect for treatment||104.37|87.07|
92450932|NCT02819726|184788449|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|93.43|||||TWO_SIDED|90.0|85.54|102.15||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||102.15|85.54|
92450933|NCT02819726|184788449|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|98.06|||||TWO_SIDED|90.0|89.49|107.45||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model (ANOVA) with fixed effect for treatment||107.45|89.49|
92172807|NCT04321031|184236283|SUPERIORITY||Risk Difference (RD)|0.04|||||TWO_SIDED|90.0|-0.02|0.09|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.09|-0.02|
92450934|NCT02819726|184788450|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|94.07|||||TWO_SIDED|90.0|86.91|101.81||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||101.81|86.91|
92450935|NCT02819726|184788450|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ration|94.39|||||TWO_SIDED|90.0|87.21|102.16||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||102.16|87.21|
92450936|NCT02819726|184788450|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|100.35|||||TWO_SIDED|90.0|92.68|108.65||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||108.65|92.68|
92450937|NCT02819726|184788451|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|96.31|||||TWO_SIDED|90.0|90.52|102.46||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||102.46|90.52|
92450938|NCT02819726|184788451|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|98.65|||||TWO_SIDED|90.0|92.64|105.05||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||105.05|92.64|
92450939|NCT02819726|184788451|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|102.43|||||TWO_SIDED|90.0|96.14|109.14||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||109.14|96.14|
92450940|NCT02819726|184788452|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|94.93|||||TWO_SIDED|90.0|89.03|101.23||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||101.23|89.03|
92450941|NCT02819726|184788452|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|98.75|||||TWO_SIDED|90.0|92.61|105.3||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||105.30|92.61|
92172808|NCT04321031|184236283|SUPERIORITY||Risk Difference (RD)|0.05|||||TWO_SIDED|90.0|-0.02|0.11|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.11|-0.02|
92172809|NCT04321031|184236283|SUPERIORITY||Risk Difference (RD)|0.05|||||TWO_SIDED|90.0|-0.02|0.12|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.12|-0.02|
92450942|NCT02819726|184788452|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|104.03|||||TWO_SIDED|90.0|97.54|110.95||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||110.95|97.54|
92450943|NCT02819726|184788453|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|89.08|||||TWO_SIDED|90.0|77.2|102.79||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||102.79|77.20|
92450944|NCT02819726|184788453|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|102.56|||||TWO_SIDED|90.0|88.72|118.56||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||118.56|88.72|
92450945|NCT02819726|184788453|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|115.13|||||TWO_SIDED|90.0|99.51|133.21||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||133.21|99.51|
92450946|NCT02819726|184788454|EQUIVALENCE|The equivalence between 2 study treatments would be declared if the two-sided 95% CI of the difference in change from baseline in DAS28-CRP at week 24 in entirely contained within the equivalence margin of \[-0.6,0.6\]|LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.134||0.2402|TWO_SIDED|95.0|-0.422|0.106|||ANCOVA|||Least square means and confidence intervals (CIs) were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only||0.106|-0.422|0.2402
92450947|NCT02819726|184788454|EQUIVALENCE|The equivalence between 2 study treatments would be declared if the two-sided 95% CI of the difference in change from baseline in DAS28-CRP at week 24 in entirely contained within the equivalence margin of \[-0.6,0.6\]|LS Means Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.135||0.1346|TWO_SIDED|95.0|-0.469|0.063|||ANCOVA|||Least square means and CIs were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only||0.063|-0.469|0.1346
92450948|NCT02819726|184788454|EQUIVALENCE|The equivalence between 2 study treatments would be declared if the two-sided 95% CI of the difference in change from baseline in DAS28-CRP at week 24 in entirely contained within the equivalence margin of \[-0.6,0.6\]|LS Means Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.137||0.7429|TWO_SIDED|95.0|-0.314|0.224|||ANCOVA|||Least square means and CIs were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only||0.224|-0.314|0.7429
92450949|NCT02819726|184788463|OTHER||LS Means Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.172||0.6068|TWO_SIDED|95.0|-0.428|0.25|||ANCOVA|||Week 52 (EOS). Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and Baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only.||0.250|-0.428|0.6068
92450950|NCT02819726|184788463|OTHER||LS Means Difference|0.09|STANDARD_ERROR_OF_MEAN|0.172||0.599|TWO_SIDED|95.0|-0.249|0.43|||ANCOVA|||Week 52 (EOS) Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and Baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only.||0.430|-0.249|0.5990
92172810|NCT04321031|184236284|SUPERIORITY||Risk Difference (RD)|0.09|||||TWO_SIDED|90.0|-0.01|0.43||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.43|-0.01|
92450951|NCT02819726|184788463|OTHER||LS Means Difference|0.18|STANDARD_ERROR_OF_MEAN|0.175||0.3053|TWO_SIDED|95.0|-0.165|0.532|||ANCOVA|||Week 53 (EOS) MabThera vs Rituxan. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and Baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only.||0.532|-0.165|0.3053
92450952|NCT02819726|184788464|OTHER||Difference (%)|9.4|STANDARD_ERROR_OF_MEAN|7.22|||TWO_SIDED|95.0|-4.74|23.03||||||Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method.||23.03|-4.74|
92450953|NCT02819726|184788464|OTHER||Difference (%)|-2.5|STANDARD_ERROR_OF_MEAN|7.05|||TWO_SIDED|95.0|-15.95|11.22||||||Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method.||11.22|-15.95|
92450954|NCT02819726|184788464|OTHER||Difference (%)|-11.8|STANDARD_ERROR_OF_MEAN|7.26|||TWO_SIDED|95.0|-25.47|2.45||||||Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method.||2.45|-25.47|
92450955|NCT02819726|184788465|OTHER||Difference (%)|9.5|STANDARD_ERROR_OF_MEAN|6.87|||TWO_SIDED|95.0|-4.07|22.46||||||ACR20 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||22.46|-4.07|
92450956|NCT02819726|184788465|OTHER||Difference (%)|3.5|STANDARD_ERROR_OF_MEAN|7.07|||TWO_SIDED|95.0|-10.22|17.03||||||ACR50 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||17.03|-10.22|
92241132|NCT04149899|184385369|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Final Values)|-1.02||||0.189|TWO_SIDED|95.0|-2.56|0.52||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANOVA|The ANOVA model has the treatment group as the main effect.|The estimated treatment difference is based on the least-square means from the ANOVA model.|The mean IOP for WB007 0.4% was compared to Timolol 0.5% at Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5% and the primary efficacy timepoint for the study.||0.52|-2.56|0.189
92241133|NCT00630812|184385393|SUPERIORITY||Mean Difference (Net)|54.14||||0.059|TWO_SIDED|95.0|-1.97|110.26|||Mixed Models Analysis|||||110.26|-1.97|0.059
92241134|NCT00630812|184385393|SUPERIORITY||Odds Ratio (OR)|1.69||||0.041|TWO_SIDED|95.0|1.02|2.8||Response defined as change of \>=100mL at week 26|Regression, Logistic|45.7% response on Mannitol 400mg, 35.5% on Control||||2.80|1.02|0.041
92241135|NCT00630812|184385394|SUPERIORITY||Mean Difference (Net)|43.49||||0.177|TWO_SIDED|95.0|-19.8|106.78|||Mixed Models Analysis|||||106.78|-19.8|0.177
92450957|NCT02819726|184788465|OTHER||Difference (%)|-5.9|STANDARD_ERROR_OF_MEAN|6.88|||TWO_SIDED|95.0|-19.1|7.51||||||ACR50 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||7.51|-19.10|
92450958|NCT02819726|184788465|OTHER||Difference (%)|10.0|STANDARD_ERROR_OF_MEAN|5.78|||TWO_SIDED|95.0|-1.52|21.22||||||ACR70 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||21.22|-1.52|
92172811|NCT04321031|184236284|SUPERIORITY||Risk Difference (RD)|0.03|||||TWO_SIDED|90.0|-0.02|0.29||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.29|-0.02|
92280898|NCT00502775|184464803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.16||0.374||95.0|-0.2|0.5|||ANCOVA||Mean Difference = Mean Change in Fexofenadine - Mean Change in Placebo|||0.5|-0.2|0.374
92450959|NCT02819726|184788465|OTHER||Difference|5.4|STANDARD_ERROR_OF_MEAN|6.08|||TWO_SIDED|95.0|-6.69|17.13||||||ACR70 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||17.13|-6.69|
92172812|NCT04321031|184236284|SUPERIORITY||Risk Difference (RD)|0.09|||||TWO_SIDED|90.0|-0.01|0.43||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.43|-0.01|
92241136|NCT00630812|184385395|SUPERIORITY||Rate ratio|0.85||||0.52|TWO_SIDED|95.0|0.51|1.41|||Poisson regression|Offset of the natural logarithm of follow-up time||||1.41|0.51|0.520
92241137|NCT00630812|184385396|SUPERIORITY||Rate ratio|0.75||||0.328|TWO_SIDED|95.0|0.42|1.33|||Poisson regression|Offset of the natural logarithm of follow-up time||||1.33|0.42|0.328
92241138|NCT00630812|184385397|SUPERIORITY||Rate ratio|0.89||||0.368|TWO_SIDED|95.0|0.69|1.15|||Poisson regression|||||1.15|0.69|0.368
92241139|NCT00630812|184385398|SUPERIORITY||Mean Difference (Net)|2.42||||0.024|TWO_SIDED|95.0|0.33|4.51|||ANCOVA|||||4.51|0.33|0.024
92241140|NCT00630812|184385399|SUPERIORITY||Mean Difference (Net)|71.35||||0.022|TWO_SIDED|95.0|10.57|132.13|||Mixed Models Analysis|||||132.13|10.57|0.022
92241141|NCT00630812|184385400|SUPERIORITY||Mean Difference (Net)|34.34||||0.49|TWO_SIDED|95.0|-63.47|132.14|||Mixed Models Analysis|||||132.14|-63.47|0.49
92241142|NCT00630812|184385401|SUPERIORITY|||||||0.042|||||||Wilcoxon (Mann-Whitney)|||||||0.042
92241143|NCT05761444|184385408|OTHER||Least Squares (LS) mean difference|-21.22|||<|0.0001|TWO_SIDED|95.0|-29.26|-13.19||The analysis of covariance (ANCOVA) model with treatment group (ezetimibe/atorvastatin, atorvastatin) and history of statin administration (yes, no) as fixed effects and baseline LDL-C as a covariate.|ANCOVA|||||-13.19|-29.26|<0.0001
92241144|NCT05761444|184385411|OTHER||LS mean difference|-15.96|||<|0.0001|TWO_SIDED|95.0|-23.56|-8.36||The ANCOVA model with treatment group (ezetimibe/atorvastatin, atorvastatin) and history of statin administration (yes, no) as fixed effects and baseline LDL-C as a covariate.|ANCOVA|||||-8.36|-23.56|<0.0001
92241145|NCT00850759|184385430|SUPERIORITY_OR_OTHER||Slope|0.04|||<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
92241146|NCT00578864|184385431|SUPERIORITY_OR_OTHER_LEGACY|||||||0.367||95.0|||||Fisher Exact|||||||0.367
92241147|NCT00578864|184385434|SUPERIORITY_OR_OTHER_LEGACY|||||||0.592||95.0|||||Fisher Exact|||||||0.592
92241148|NCT02868216|184385443|OTHER||Mean Difference (Final Values)|2.3|STANDARD_DEVIATION|0.84||0.05|TWO_SIDED|95.0|0.63|3.98|||ANOVA|||||3.98|0.63|0.05
92241149|NCT00904826|184385452|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between before treatment and one year after treatment.||||<0.0001
92172813|NCT04321031|184236284|SUPERIORITY||Risk Difference (RD)|0.17|||||TWO_SIDED|90.0|0.01|0.57||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.57|0.01|
92172814|NCT04321031|184236284|SUPERIORITY||Risk Difference (RD)|0.04|||||TWO_SIDED|90.0|-0.02|0.33||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.33|-0.02|
92172815|NCT04321031|184236284|SUPERIORITY||Risk Difference (RD)|0.17|||||TWO_SIDED|90.0|0.01|0.58||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.58|0.01|
92172816|NCT04321031|184236284|SUPERIORITY||Risk Difference (RD)|0.08|||||TWO_SIDED|50.0|0.02|0.16||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.16|0.02|
92172817|NCT04321031|184236284|SUPERIORITY||Risk Difference (RD)|0.08|||||TWO_SIDED|90.0|-0.04|0.3||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.30|-0.04|
92172818|NCT04321031|184236284|SUPERIORITY||Risk Difference (RD)|0.13|||||TWO_SIDED|50.0|0.06|0.24||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.24|0.06|
92172819|NCT04321031|184236284|SUPERIORITY||Risk Difference (RD)|0.13|||||TWO_SIDED|90.0|-0.01|0.44||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.44|-0.01|
92450960|NCT02819726|184788465|OTHER||Difference (%)|-4.7|STANDARD_ERROR_OF_MEAN|5.58|||TWO_SIDED|92.0|-15.68|6.41||||||ACR70 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||6.41|-15.68|
92450961|NCT02819726|184788466|OTHER||LS Means Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.991||0.1997|TWO_SIDED|95.0|-3.23|0.671|||ANCOVA|||Swollen Joint Count (SJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||0.671|-3.230|0.1997
92450962|NCT02819726|184788466|OTHER||LS Means Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.996||0.9098|TWO_SIDED|95.0|-2.074|1.848|||ANCOVA|||Swollen Joint Count (SJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||1.848|-2.074|0.9098
92450963|NCT02819726|184788466|OTHER||LS Means Difference|1.17|STANDARD_ERROR_OF_MEAN|1.008||0.248|TWO_SIDED|95.0|-0.817|3.15|||ANCOVA|||Swollen Joint Count (SJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||3.150|-0.817|0.2480
92450964|NCT02819726|184788466|OTHER||LS Means Difference|-1.96|STANDARD_ERROR_OF_MEAN|1.5||0.1931|TWO_SIDED|95.0|-4.909|0.996|||ANCOVA|||Tender Joint Count (TJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||0.996|-4.909|0.1931
92172820|NCT04321031|184236285|SUPERIORITY||Risk Difference (RD)|0.18|||||TWO_SIDED|90.0|0.05|0.31|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.31|0.05|
92172821|NCT04321031|184236285|SUPERIORITY||Risk Difference (RD)|0.23|||||TWO_SIDED|90.0|0.09|0.36|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.36|0.09|
92172822|NCT04321031|184236285|SUPERIORITY||Risk Difference (RD)|0.25|||||TWO_SIDED|90.0|0.1|0.38|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.38|0.10|
92172823|NCT04321031|184236285|SUPERIORITY||Risk Difference (RD)|0.27|||||TWO_SIDED|90.0|0.11|0.4|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.40|0.11|
92241150|NCT00904826|184385454|SUPERIORITY_OR_OTHER|||||||0.0078||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison was made between baseline and after 12 months of treatment.||||0.0078
92450965|NCT02819726|184788466|OTHER||LS Means Difference|-0.77|STANDARD_ERROR_OF_MEAN|1.5||-0.77|TWO_SIDED|95.0|-3.722|2.184|||ANCOVA|||Swollen Joint Count (SJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||2.184|-3.722|-0.77
92450966|NCT02819726|184788466|OTHER||LS Means Difference|1.19|STANDARD_ERROR_OF_MEAN|1.52||0.4352|TWO_SIDED|95.0|-1.805|4.18|||ANCOVA|||Swollen Joint Count (SJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||4.180|-1.805|0.4352
92450967|NCT02819726|184788467|OTHER||LS Means Difference|-4.16|STANDARD_ERROR_OF_MEAN|3.242||0.2008|TWO_SIDED|95.0|-10.541|2.226|||ANCOVA|||Week 52 (EOS) Physician's Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline)||2.226|-10.541|0.2008
92450968|NCT02819726|184788467|OTHER||LS Means Difference|-0.39|STANDARD_ERROR_OF_MEAN|3.242||-0.39|TWO_SIDED|95.0|-6.771|5.994|||ANOVA|||Week 52 (EOS) Physician's Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline||5.994|-6.771|-0.39
92241151|NCT00904826|184385458|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison is between 6 weeks and baseline.||||<0.0001
92450969|NCT02819726|184788467|OTHER||LS Means Difference|3.77|STANDARD_ERROR_OF_MEAN|3.268||0.2498|TWO_SIDED|95.0|-2.665|10.204|||ANCOVA|||Week 52 (EOS) Physician's Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline||10.204|-2.665|0.2498
92450970|NCT02819726|184788468|OTHER||LS Means Difference|-1.23|STANDARD_ERROR_OF_MEAN|3.592||0.7322|TWO_SIDED|95.0|-8.0302|5.841|||ANCOVA|||Week 52 (EOS) Participants Pain Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||5.841|-8.0302|0.7322
92450971|NCT02819726|184788468|OTHER||LS Means Difference|-2.21|STANDARD_ERROR_OF_MEAN|3.623||0.5418|TWO_SIDED|95.0|-9.347|4.92|||ANCOVA|||Week 52 (EOS) Participants Pain Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||4.920|-9.347|0.5418
92450972|NCT02819726|184788468|OTHER||LS Means Difference|-0.98|STANDARD_ERROR_OF_MEAN|3.633||0.7869|TWO_SIDED|95.0|-8.136|6.169|||ANCOVA|||Week 52 (EOS) Participants Pain Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||6.169|-8.136|0.7869
92450973|NCT02819726|184788469|OTHER||LS Means Difference|-1.28|STANDARD_ERROR_OF_MEAN|3.443||0.7097|TWO_SIDED|95.0|-8.062|5.496|||ANCOVA|||Week 52 (EOS) Participants Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline)||5.496|-8.062|0.7097
92450974|NCT02819726|184788469|OTHER||LS Means Difference|-1.48|STANDARD_ERROR_OF_MEAN|3.453||0.6683|TWO_SIDED|95.0|-8.28|5.317|||ANCOVA|||Week 52 (EOS) Participants Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline)||5.317|-8.280|0.6683
92172824|NCT04321031|184236286|SUPERIORITY||Risk Difference (RD)|0.14|||||TWO_SIDED|90.0|-0.04|0.36||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.36|-0.04|
92450975|NCT02819726|184788469|OTHER||LS Means Difference|-0.2|STANDARD_ERROR_OF_MEAN|3.494||0.9548|TWO_SIDED|95.0|-7.078|6.682|||ANCOVA|||Week 52 (EOS) Participants Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline)||6.682|-7.078|0.9548
92450976|NCT02819726|184788470|OTHER||LS Means Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.086||0.0505|TWO_SIDED|95.0|-0.339|0.0|||ANCOVA|||Week 52 (EOS) HAQ-DI (0-3). Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||0.000|-0.339|0.0505
92450977|NCT02819726|184788470|OTHER||LS Means Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.086||0.1141|TWO_SIDED|95.0|-0.307|0.033|||ANCOVA|||Week 52 (EOS) HAQ-DI (0-3). Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||0.033|-0.307|0.1141
92450978|NCT02819726|184788470|OTHER||LS Means Difference|0.03|STANDARD_ERROR_OF_MEAN|0.087||0.7111|TWO_SIDED|95.0|-0.139|0.204|||ANCOVA|||Week 52 (EOS) HAQ-DI )0-3). Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||0.204|-0.139|0.7111
92450979|NCT02819726|184788471|OTHER||LS Means Difference|-0.43|STANDARD_ERROR_OF_MEAN|1.871||0.8183|TWO_SIDED|95.0|-4.113|3.253|||ANCOVA|||Week 52 (EOS) CRP. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||3.253|-4.113|0.8183
92172825|NCT04321031|184236286|SUPERIORITY||Risk Difference (RD)|0.35|||||TWO_SIDED|90.0|0.15|0.53||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.53|0.15|
92241152|NCT00904826|184385458|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison is between 3 months and baseline.||||<0.0001
92241153|NCT00904826|184385458|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison is between 6 months and baseline||||0.0001
92241154|NCT00904826|184385458|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison is between 9 months and baseline.||||0.0001
92241155|NCT00904826|184385458|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison is between 12 months and baseline.||||<0.0001
92241156|NCT00904826|184385460|SUPERIORITY_OR_OTHER|||||||0.0019||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison was between 3 months and baseline.||||0.0019
92241157|NCT01519245|184385470|SUPERIORITY_OR_OTHER|||||||0.0493||95.0|||||t-test, 2 sided|||Intention to Treat principles of data analysis were applied. The two-sided T-test (95% confidence interval) was used for statistical calculation of primary outcomes. The null hypothesis was that no difference in chest tube losses would be found between the topical tranexamic acid and placebo groups in low-risk cardiac patients undergoing CABG.||||0.0493
92241158|NCT01519245|184385472|SUPERIORITY_OR_OTHER|||||||0.1876||95.0|||||t-test, 2 sided|||Intention to Treat principles of data analysis were applied. The two-sided T-test (95% confidence interval) was used for statistical calculation of secondary outcomes. The null hypothesis was that no difference in chest tube losses would be found between the topical tranexamic acid and placebo groups in low-risk cardiac patients undergoing CABG.||||0.1876
92280899|NCT00520741|184464828|SUPERIORITY_OR_OTHER||Predicted exit rate at 112 days|0.3|||||TWO_SIDED|95.0|0.246|0.355|||Kaplan-Meier|Subjects who dropped out due to non-exit criteria reasons over the 10 % censoring maximum were to be counted as an exit.||The upper limit of the Confidence Interval for the estimate of the Lacosamide (LCM) 400 mg/day exit rate was compared with the lower bound of the 95 % prediction interval for the historical-control of 0.653; hereafter referred to as the historical-control exit rate. The LCM 400 mg/day dose group would be declared an effective conversion to monotherapy treatment if the upper 95 % confidence limit for the estimate of the exit rate was less than 0.653.||0.355|0.246|
92280900|NCT00520741|184464830|SUPERIORITY_OR_OTHER||predicted exit rate at 112 days|0.323|||||TWO_SIDED|95.0|0.268|0.378|||Kaplan-Meier|Subjects who dropped out due to non-exit criteria reasons over the 10 % censoring maximum were to be counted as an exit.||The upper limit of the Confidence Interval for the estimate of the Lacosamide (LCM) 400 mg/day exit rate was compared with the historical-control exit rate. The LCM 400 mg/day dose group would be declared an effective conversion to monotherapy treatment if the upper 95 % confidence limit for the estimate of the exit rate was less than 0.653.||0.378|0.268|
92450980|NCT02819726|184788471|OTHER||LS Means Difference|1.51|STANDARD_ERROR_OF_MEAN|1.868||0.4186|TWO_SIDED|95.0|-2.164|5.191|||ANCOVA|||Week 52 (EOS) CRP. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||5.191|-2.164|0.4186
92450981|NCT02819726|184788471|OTHER||LS Means Difference|1.94|STANDARD_ERROR_OF_MEAN|1.885||0.3035|TWO_SIDED|95.0|-1.768|5.655|||ANCOVA|||Week 52 (EOS) CRP. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||5.655|-1.768|0.3035
92450982|NCT02819726|184788472|OTHER||LS Means Difference|0.02|STANDARD_ERROR_OF_MEAN|0.2||0.9249|TWO_SIDED|95.0|-0.375|0.413|||ANCOVA|||Week 52 ( EOS) Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-ESR value as a covariate. ANCOVA model contains treatment group only.||0.413|-0.375|0.9249
92241159|NCT01519245|184385473|SUPERIORITY_OR_OTHER|||||||0.093||95.0|||||t-test, 2 sided|||Intention to Treat principles of data analysis were applied. The two-sided T-test (95% confidence interval) was used for statistical calculation of secondary outcomes. The null hypothesis was that no difference in chest tube losses would be found between the topical tranexamic acid and placebo groups in low-risk cardiac patients undergoing CABG.||||0.0930
92241160|NCT02873715|184385476|SUPERIORITY||Mean Difference (Final Values)|-6.21|||<|0.05|TWO_SIDED|95.0|-10.14|-2.29|||ANCOVA||Results are pooled across 10 multiple imputations and reported as mean (standard error)|||-2.29|-10.14|<0.05
92241161|NCT02873715|184385477|SUPERIORITY||Mean Difference (Final Values)|-3.97||||0.001|TWO_SIDED|95.0|-5.68|-2.26|||ANCOVA||Results are pooled across 10 multiple imputations and reported as mean (standard error)|||-2.26|-5.68|0.001
92241162|NCT02873715|184385479|SUPERIORITY||Mean Difference (Final Values)|-0.5384||||0.65|TWO_SIDED||||||ANOVA|time x group analysis.||repeated measures analysis of variance for parent delay discounting changes from 0 to 24-month. This includes only parents with complete data for both time points and does not exclude based on johnson-bickel rules. Reporting time x group analysis.||||0.65
92241163|NCT02873715|184385479|SUPERIORITY||Mean Difference (Net)|-0.3913||||0.87|TWO_SIDED|||||time x group analysis|ANOVA|||repeated measures analysis of variance for child delay discounting changes from 0 to 24-month. This includes only parents with complete data for both time points and does not exclude based on johnson-bickel rules. Reporting time x group analysis.||||0.87
92241164|NCT02144220|184385483|SUPERIORITY_OR_OTHER|||||||0.39|||||||t-test, 2 sided|||||||0.39
92241165|NCT01254396|184385487|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|41.35|||||TWO_SIDED|90.0|32.4|52.76||||||Natural log transformed Cmax of sildenafil was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% confidence intervals for the ratios.||52.76|32.40|
92241166|NCT01254396|184385489|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|93.42|||||TWO_SIDED|90.0|80.23|108.78||||||Natural log transformed AUC (0-∞) of sildenafil was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% confidence intervals for the ratios.||108.78|80.23|
92241167|NCT01254396|184385490|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|87.66|||||TWO_SIDED|90.0|77.62|98.99||||||Natural log transformed AUClast of sildenafil was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% confidence intervals for the ratios.||98.99|77.62|
92450983|NCT02819726|184788472|OTHER||LS Measn Difference|0.05|STANDARD_ERROR_OF_MEAN|0.201||0.05|TWO_SIDED|95.0|-0.351|0.442|||ANCOVA|||Week 52 ( EOS) Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-ESR value as a covariate. ANCOVA model contains treatment group only.||0.442|-0.351|0.05
92450984|NCT02819726|184788472|OTHER||LS Means Diference|0.03|STANDARD_ERROR_OF_MEAN|0.205||0.8962|TWO_SIDED|95.0|-0.376|0.43|||ANCOVA|||Week 52 ( EOS) Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-ESR value as a covariate. ANCOVA model contains treatment group only.||0.430|-0.376|0.8962
92450985|NCT02819726|184788473|OTHER||Difference (%)|2.2|STANDARD_ERROR_OF_MEAN|1.57|||TWO_SIDED|95.0|-2.56|7.83||||||Week 52 (EOS) Major Clinical Response. The 95% CIs for major clinical response rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||7.83|-2.56|
92450986|NCT02819726|184788473|OTHER||Difference (%)|1.0|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-4.74|6.67||||||Week 52 (EOS) Major Clinical Response. The 95% CIs for major clinical response rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||6.67|-4.74|
92450987|NCT02819726|184788473|OTHER||Difference (%)|-1.3|STANDARD_ERROR_OF_MEAN|1.24|||TWO_SIDED|95.0|-6.75|3.39||||||Week 52 (EOS) Major Clinical Response. The 95% CIs for major clinical response rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||3.39|-6.75|
92450988|NCT02819726|184788474|OTHER||Difference (%)|-1.2|STANDARD_ERROR_OF_MEAN|1.92|||TWO_SIDED|95.0|-6.9|3.9||||||Week 52 (EOS). Clinical remission is defined as score of Simplified Disease Activity Index (SDAI) smaller than 3.3. The 95% CIs for clinical remission rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||3.90|-6.9|
92450989|NCT02819726|184788474|OTHER||Difference (%)|-1.2|STANDARD_ERROR_OF_MEAN|1.95|||TWO_SIDED|95.0|-7.07|3.86||||||Week 52 (EOS). Clinical remission is defined as score of Simplified Disease Activity Index (SDAI) smaller than 3.3. The 95% CIs for clinical remission rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||3.86|-7.07|
92450990|NCT02819726|184788474|OTHER||Differnce (%)|-0.1|STANDARD_ERROR_OF_MEAN|2.27|||TWO_SIDED|95.0|-6.05|5.83||||||Week 52 (EOS). Clinical remission is defined as score of Simplified Disease Activity Index (SDAI) smaller than 3.3. The 95% CIs for clinical remission rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||5.83|-6.05|
92450991|NCT02819726|184788475|OTHER||Difference (%)|1.3|STANDARD_ERROR_OF_MEAN|7.19|||TWO_SIDED|95.0|-12.59|15.1||||||Week 52 EULAR score 'Good'. EULAR (European League Against Rheumatism) response was classified using the individual amount of change in the DAS28-CRP score. The 95% CIs for EULAR response rate and treatment difference were derived using the Wilson Score method.||15.10|-12.59|
92450992|NCT02819726|184788475|OTHER||Difference (%)|0.2|STANDARD_ERROR_OF_MEAN|7.21|||TWO_SIDED|95.0|-13.75|14.03|||Difference (%)|||Week 52 EULAR score 'Good'. EULAR (European League Against Rheumatism) response was classified using the individual amount of change in the DAS28-CRP score. The 95% CIs for EULAR response rate and treatment difference were derived using the Wilson Score method.||14.03|-13.75|
92172826|NCT04321031|184236286|SUPERIORITY||Risk Difference (RD)|0.26|||||TWO_SIDED|90.0|0.06|0.46||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.46|0.06|
92280901|NCT03702621|184464834|OTHER|P values are from mixed model least squares (LS) means differences with Sidak adjustment for multiple comparisons.||||||0.54|||||||Mixed Models Analysis|Sidak adjustment||||||0.54
92280902|NCT03702621|184464835|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.59|||||||Mixed Models Analysis|||||||0.59
92450993|NCT02819726|184788475|OTHER||Difference (%)|-1.1|STANDARD_ERROR_OF_MEAN|7.29|||TWO_SIDED|95.0|-15.14|12.91||||||Week 52 EULAR score 'Good'. EULAR (European League Against Rheumatism) response was classified using the individual amount of change in the DAS28-CRP score. The 95% CIs for EULAR response rate and treatment difference were derived using the Wilson Score method.||12.91|-15.14|
92450994|NCT02819726|184788481|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day 15 \[AUEC(0-d15)\]|Statistical Comparisons Difference|22.1|||||TWO_SIDED|90.0|-137.1|181.3||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||181.3|-137.1|
92450995|NCT02819726|184788481|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day 15 \[AUEC(0-d15)\]|Statistical Comparisons Difference|69.5|||||TWO_SIDED|90.0|-91.8|230.8||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||230.8|-91.8|
92450996|NCT02819726|184788481|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day 15 \[AUEC(0-d15)\]|Statistical Comparisons Difference|47.4|||||TWO_SIDED|90.0|-112.5|207.2||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||207.2|-112.5|
92450997|NCT02819726|184788481|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day week \[AUEC(0-w24)\]|Statistical Comparisons Difference|310.7|||||TWO_SIDED|90.0|-187.9|809.4||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||809.4|-187.9|
92450998|NCT02819726|184788481|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day week \[AUEC(0-w24)\]|Statistical Comparisons Difference|296.1|||||TWO_SIDED|90.0|-213.8|806.1||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||806.1|-213.8|
92450999|NCT02819726|184788481|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day week \[AUEC(0-w24)\]|Statistical Comparisons Difference|-14.6|||||TWO_SIDED|90.0|-527.4|498.2||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||498.2|-527.4|
92451000|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-8.6|||||TWO_SIDED|95.0|-12.1|-5.1||||||Serotype 1: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-5.1|-12.1|
92451001|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-15.5|||||TWO_SIDED|95.0|-20.1|-10.8||||||Serotype 3: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||-10.8|-20.1|
92451002|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-8.4|||||TWO_SIDED|95.0|-12.0|-4.9||||||Serotype 4: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-4.9|-12.0|
92451003|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-4.3|||||TWO_SIDED|95.0|-7.8|-0.8||||||Serotype 5: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-0.8|-7.8|
92241168|NCT02026271|184385506|OTHER||||||||||||||||||"MTD was not determined in this study. Dose escalation decision rules were based on a standard 3+3 design modified to independently evaluate the two stratified subject groups that may exhibit different safety and tolerability profiles.~The study was planned to explore 4 veledimex (V) dose cohorts of 20, 40, 80 and 120 mg once daily, and two doses of Ad-RTS-hIL-12 (2x10\^11vp and 1x10\^12vp). Dose cohorts were treated at 10, 20, 30 and 40 mg of V. Only one dose of Ad-RTS-hIL-12 was explored (2x10\^11vp).~If ≥ 33% of subjects in the expansion cohort experience DLTs, additional subjects may be enrolled at the next lower dose, or at an intermediate dose, as recommended by the SRC.~Grp 1: After 20mg cohort, SRC approved 40mg, which was deemed the MAD due to DLTs. SRC approved 30mg cohort to determine MTD, but due to poor compliance, SRC opened a 20mg exp cohort and then an intermediate 10mg cohort. Based on V compliance and efficacy, 20mg was determined to be the optimal dose."|||
92241169|NCT00783705|184385585|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.39|TWO_SIDED|95.0|0.7|3.0|||Generalized estimating equation model|||Generalized estimating equation model on lesions (progressive disease vs. complete response/stable disease) was used to account for intra-patient correlation in the lesion-specific analysis.||3.0|0.7|0.39
92172827|NCT04321031|184236286|SUPERIORITY||Risk Difference (RD)|0.48|||||TWO_SIDED|90.0|0.27|0.63||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.63|0.27|
92241170|NCT00783705|184385589|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CC-16 level between arms.||||0.10
92241171|NCT00783705|184385590|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker IL-6 level between arms.||||0.03
92241172|NCT00783705|184385591|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CCL-2 level between arms.||||0.58
92241173|NCT00783705|184385592|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker MPO level between arms.||||0.06
92451004|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-2.4|||||TWO_SIDED|95.0|-4.6|-0.2||||||Serotype 6A: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-0.2|-4.6|
92451005|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-4.1|||||TWO_SIDED|95.0|-7.0|-1.2||||||Serotype 6B: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-1.2|-7.0|
92451006|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-1.0|||||TWO_SIDED|95.0|-2.7|0.7||||||Serotype 7F: 2-sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||0.7|-2.7|
92451007|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-7.9|||||TWO_SIDED|95.0|-11.3|-4.6||||||Serotype 9V: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-4.6|-11.3|
92451008|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-0.8|||||TWO_SIDED|95.0|-3.1|1.6||||||Serotype 14: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||1.6|-3.1|
92451009|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-0.6|||||TWO_SIDED|95.0|-3.1|1.9||||||Serotype 18C: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||1.9|-3.1|
92451010|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-1.0|||||TWO_SIDED|95.0|-2.6|0.5||||||Serotype 19A: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||0.5|-2.6|
92451011|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|0.2|||||TWO_SIDED|95.0|-1.5|2.0||||||Serotype 19F: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||2.0|-1.5|
92451012|NCT04382326|184788513|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-7.6|||||TWO_SIDED|95.0|-11.4|-3.9||||||Serotype 23F: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-3.9|-11.4|
92451013|NCT04382326|184788513|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|11.2|||||TWO_SIDED|95.0|8.6|14.0||||||Serotype 8: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||14.0|8.6|
92172828|NCT04321031|184236286|SUPERIORITY||Risk Difference (RD)|0.16|||||TWO_SIDED|90.0|-0.03|0.38||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.38|-0.03|
92172829|NCT04321031|184236286|SUPERIORITY||Risk Difference (RD)|0.4|||||TWO_SIDED|90.0|0.18|0.58||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.58|0.18|
92172830|NCT04321031|184236286|SUPERIORITY||Risk Difference (RD)|0.22|||||TWO_SIDED|50.0|0.15|0.28||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.28|0.15|
92280903|NCT03702621|184464836|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons||||||0.98||||||P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons|Mixed Models Analysis|Sidak adjustment||||||0.98
92451014|NCT04382326|184788513|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|-3.3|||||TWO_SIDED|95.0|-6.9|0.3||||||Serotype 10A: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||0.3|-6.9|
92451015|NCT04382326|184788513|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|7.1||||||95.0|4.2|10.2||||||Serotype 11A: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||10.2|4.2|
92451016|NCT04382326|184788513|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|-18.1|||||TWO_SIDED|95.0|-22.1|-14.0||||||Serotype 12F: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-14.0|-22.1|
92451017|NCT04382326|184788513|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|12.7|||||TWO_SIDED|95.0|10.2|15.4||||||Serotype 15B: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||15.4|10.2|
92451018|NCT04382326|184788513|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|12.8|||||TWO_SIDED|95.0|10.3|15.5||||||Serotype 22F: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||15.5|10.3|
92451019|NCT04382326|184788513|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|1.1|||||TWO_SIDED|95.0|-2.2|4.5||||||Serotype 33F: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||4.5|-2.2|
92451020|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.69|||||TWO_SIDED|95.0|0.63|0.76||||||Serotype 1: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.76|0.63|
92172831|NCT04321031|184236286|SUPERIORITY||Risk Difference (RD)|0.22|||||TWO_SIDED|90.0|0.03|0.35||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.35|0.03|
92172832|NCT04321031|184236286|SUPERIORITY||Risk Difference (RD)|0.24|||||TWO_SIDED|50.0|0.16|0.32||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.32|0.16|
92172833|NCT04321031|184236286|SUPERIORITY||Risk Difference (RD)|0.24|||||TWO_SIDED|90.0|0.03|0.42||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.42|0.03|
92172834|NCT03420833|184236300|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92172835|NCT03420833|184236300|SUPERIORITY|||||||0.009|||||||t-test, 2 sided|||||||0.009
92451021|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.66|||||TWO_SIDED|95.0|0.61|0.73||||||Serotype 3: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.73|0.61|
92451022|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.78||||||95.0|0.7|0.86||||||Serotype 4: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.86|0.70|
92451023|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.74|||||TWO_SIDED|95.0|0.67|0.82||||||Serotype 5: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.82|0.67|
92451024|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.7|0.85||||||Serotype 6A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.85|0.70|
92451025|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.7|||||TWO_SIDED|95.0|0.62|0.79||||||Serotype 6B: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.79|0.62|
92451026|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.76|||||TWO_SIDED|95.0|0.7|0.82||||||Serotype 7F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.82|0.70|
92451027|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.8||||||95.0|0.73|0.88||||||Serotype 9V: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.88|0.73|
92451028|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.9|||||TWO_SIDED|95.0|0.81|1.0||||||Serotype 14: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||1.00|0.81|
92172836|NCT03420833|184236303|SUPERIORITY|||||||0.024|||||||t-test, 2 sided|||||||0.024
92172837|NCT03420833|184236305|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92172838|NCT03420833|184236305|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
92172839|NCT05687916|184236307|SUPERIORITY||LS Mean Difference Estimate|-0.24|STANDARD_ERROR_OF_MEAN|3.277|=|0.989|TWO_SIDED|95.0|-6.67|6.18||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||6.18|-6.67|=0.989
92172840|NCT05687916|184236307|SUPERIORITY||LS Mean Difference Estimate|2.4|STANDARD_ERROR_OF_MEAN|3.227|=|0.916|TWO_SIDED|95.0|-3.93|8.72||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||8.72|-3.93|=0.916
92172841|NCT05687916|184236308|SUPERIORITY||LS Mean Difference Estimate|-0.32|STANDARD_ERROR_OF_MEAN|1.656|=|0.989|TWO_SIDED|95.0|-3.57|2.92||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.|LS in LS Mean Difference denotes least squares.|||2.92|-3.57|=0.989
92241174|NCT00783705|184385593|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CC18 level between arms.||||0.63
92241175|NCT00783705|184385594|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker SFTPD level between arms.||||0.22
92241176|NCT00783705|184385595|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker Total Glutathione level between arms.||||0.06
92451029|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.74||||||95.0|0.67|0.82||||||Serotype 18C: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.82|0.67|
92451030|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.85|||||TWO_SIDED|95.0|0.77|0.94||||||Serotype 19A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.94|0.77|
92451031|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.86|||||TWO_SIDED|95.0|0.78|0.96||||||Serotype 19F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.96|0.78|
92451032|NCT04382326|184788514|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.64|||||TWO_SIDED|95.0|0.57|0.72||||||Serotype 23F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.72|0.57|
92451033|NCT04382326|184788514|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.87|||||TWO_SIDED|95.0|1.71|2.06||||||Serotype 8: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||2.06|1.71|
92451034|NCT04382326|184788514|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|2.94||||||95.0|2.64|3.26||||||Serotype 10A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||3.26|2.64|
92451035|NCT04382326|184788514|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.67|||||TWO_SIDED|95.0|1.51|1.84||||||Serotype 11A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||1.84|1.51|
92451036|NCT04382326|184788514|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.88||||||95.0|0.79|0.97||||||Serotype 12F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.97|0.79|
92241177|NCT00783705|184385596|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CC-16 level between arms.||||0.35
92241178|NCT00783705|184385597|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CRP level between arms.||||0.80
92241179|NCT00783705|184385598|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker IL-6 level between arms.||||0.22
92241180|NCT00783705|184385599|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CCL-2 level between arms.||||0.74
92241181|NCT00783705|184385600|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker MPO level between arms.||||0.55
92241182|NCT00783705|184385601|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker Nitrotyrosine level between arms.||||0.91
92241183|NCT00783705|184385602|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CC18 level between arms.||||0.46
92241184|NCT00783705|184385603|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker SFTPD level between arms.||||0.52
92280904|NCT03702621|184464837|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons||||||0.94||||||P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons|Mixed Models Analysis|Sidak adjustment||||||0.94
92280905|NCT03702621|184464838|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons||||||0.86|||||||Mixed Models Analysis|Sidak adjustment||P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons||||0.86
92172842|NCT05687916|184236308|SUPERIORITY||LS Mean Difference Estimate|-3.06|STANDARD_ERROR_OF_MEAN|1.59|=|0.216|TWO_SIDED|95.0|-6.18|0.06||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||0.06|-6.18|=0.216
92172843|NCT03892616|184236341|OTHER||Ratio of adjusted geometric means [%]|97.4|||||TWO_SIDED|90.0|82.3|115.3|||||The ratio was calculated as adjusted geometric mean of TF2a fasted (C) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 25.44|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||115.3|82.3|
92172844|NCT03892616|184236341|OTHER||Ratio of adjusted geometric means [%]|183.0|||||TWO_SIDED|90.0|154.0|217.4|||||The ratio was calculated as adjusted geometric mean of TF2b fasted (E) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 25.44|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||217.4|154.0|
92172845|NCT03892616|184236341|OTHER||Ratio of adjusted geometric means [%]|114.8|||||TWO_SIDED|90.0|96.5|136.6|||||The ratio was calculated as adjusted geometric mean of TF2a fed (B) as numerator and adjusted geometric mean of TF2a fasted (C) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 25.44|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||136.6|96.5|
92172846|NCT03892616|184236341|OTHER||Ratio of adjusted geometric means [%]|66.5|||||TWO_SIDED|90.0|55.5|79.5|||||The ratio was calculated as adjusted geometric mean of TF2b fed (D) as numerator and adjusted geometric mean of TF2b fasted (E) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 25.44|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||79.5|55.5|
92172847|NCT03892616|184236342|OTHER||Ratio of adjusted geometric means [%]|60.2|||||TWO_SIDED|90.0|55.3|65.5|||||The ratio was calculated as adjusted geometric mean of TF2a fasted (C) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.65|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||65.5|55.3|
92182329|NCT03052517|184263581|OTHER||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.86|1.08|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||1.08|0.86|
92280906|NCT03702621|184464839|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons||||||1||||||P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons|Mixed Models Analysis|Sidak adjustment||||||1.0
92451037|NCT04382326|184788514|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|5.95||||||95.0|5.39|6.55||||||Serotype 15B: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||6.55|5.39|
92451038|NCT04382326|184788514|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|5.01||||||95.0|4.54|5.52||||||Serotype 22F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||5.52|4.54|
92451039|NCT04382326|184788514|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|4.4|||||TWO_SIDED|95.0|3.99|4.85||||||Serotype 33F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||4.85|3.99|
92451040|NCT04382326|184788515|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|-4.3|||||TWO_SIDED|95.0|-7.5|-1.4||||||Diphtheria: 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||-1.4|-7.5|
92451041|NCT04382326|184788515|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.3|||||TWO_SIDED|95.0|-1.0|1.7||||||Tetanus: 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||1.7|-1.0|
92280907|NCT03702621|184464840|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.99|||||||Mixed Models Analysis|||||||0.99
92280908|NCT03702621|184464841|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.99|||||||Mixed Models Analysis|||||||0.99
92280909|NCT03702621|184464842|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.72|||||||Mixed Models Analysis|||||||0.72
92241185|NCT04743635|184385609|OTHER|"Performance goal.~Hypothesis:~Ho: D \< 1 Ha: D ≥ 1, where D = reduction in the CSS score from baseline to 3 months, and 1 is the performance goal. If the lower bound of the two-sided 95% confidence interval is greater than or equal to 1 then we will reject the null hypothesis and conclude the device performs effectively."|Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|0.9||0.0001|TWO_SIDED|95.0|1.28|1.71|||t-test, 2 sided|The 2-sided 95% confidence interval for the mean reduction in CSS was calculated along with the corresponding p-value (Student's t-test).||The endpoint tested the mean of the changes for each treated participant, not a 1-point change between mean score of the group at baseline versus 3 months. Success is achieved when the mean change across all treated participants is at least one point.||1.71|1.28|.0001
92451042|NCT04382326|184788515|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|-0.2||||||95.0|-3.5|3.1||||||Pertussis (PT): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||3.1|-3.5|
92451043|NCT04382326|184788515|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.6||||||95.0|-2.5|3.9||||||Pertussis (FHA): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||3.9|-2.5|
92451044|NCT04382326|184788515|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|-1.3||||||95.0|-4.7|2.2||||||Pertussis (PRN): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.2-Sided CIs are calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||2.2|-4.7|
92451045|NCT04382326|184788515|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.0||||||95.0|-3.2|2.9||||||HBsAg: 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||2.9|-3.2|
92451046|NCT04382326|184788515|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.0||||||95.0|-3.4|3.2||||||Poliovirus (Type 1): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||3.2|-3.4|
92172848|NCT03892616|184236342|OTHER||Ratio of adjusted geometric means [%]|71.5|||||TWO_SIDED|90.0|65.6|78.0|||||The ratio was calculated as adjusted geometric mean of TF2b fasted (E) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.65|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||78.0|65.6|
92280910|NCT03702621|184464843|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.29|||||||Mixed Models Analysis|||||||0.29
92280911|NCT03702621|184464844|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.46|||||||Mixed Models Analysis|||||||0.46
92182330|NCT03052517|184263582|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.51|1.22|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||1.22|0.51|
92280912|NCT03702621|184464845|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.77|||||||Mixed Models Analysis|||||||0.77
92280913|NCT01024738|184464932|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92451047|NCT04382326|184788515|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.8||||||95.0|-2.4|4.6||||||Poliovirus (Type 2): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||4.6|-2.4|
92451048|NCT04382326|184788515|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.0||||||95.0|-3.2|3.1||||||Poliovirus (Type 3): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||3.1|-3.2|
92451049|NCT04382326|184788515|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0||||||Hib (≥0.15 μg/mL): 2-Sided CI were calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||3.0|-3.0|
92451050|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratios|0.65|||||TWO_SIDED|95.0|0.59|0.72||||||Serotype 1: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.72|0.59|
92451051|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.7|||||TWO_SIDED|95.0|0.64|0.76||||||Serotype 3: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.76|0.64|
92451052|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.7||||||95.0|0.63|0.78||||||Serotype 4: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.78|0.63|
92241186|NCT04743635|184385610|OTHER|Performance goal. The hierarchal endpoint is met if the lower bound of the 2-sided 95% confidence interval is greater than or equal to 0.6.|Percentage improved|95.6||||0.0001|TWO_SIDED|95.0|87.6|99.1|||t-test, 2 sided|||"The GAIS scale counted if at least two of the three evaluators selected it, otherwise the median between the three was counted (e.g., if improved, worse and much worse, worse was counted). A participant is considered improved if the GAIS assessment is improved (1), much improved (2) or very much improved (3)."||99.1|87.6|.0001
92451053|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.69||||||95.0|0.61|0.77||||||Serotype 5: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.77|0.61|
92451054|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.72||||||95.0|0.65|0.81||||||Serotype 6A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.81|0.65|
92451055|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.6|||||TWO_SIDED|95.0|0.51|0.7||||||Serotype 6B: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.70|0.51|
92451056|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.75||||||95.0|0.69|0.81||||||Serotype 7F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.81|0.69|
92451057|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.72|||||TWO_SIDED|95.0|0.65|0.8||||||Serotype 9V: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.80|0.65|
92451058|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.79||||||95.0|0.71|0.89||||||Serotype 14: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.89|0.71|
92451059|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.77||||||95.0|0.7|0.84||||||Serotype 18C: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.84|0.70|
92451060|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.79|||||TWO_SIDED|95.0|0.72|0.86||||||Serotype 19A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.86|0.72|
92241187|NCT04743635|184385613|OTHER|Performance goal. In order to meet the endpoint, the lower bound of the 2-sided 95% confidence interval had to be greater than or equal to 0.6.|Percentage improved|72.1||||0.0264|TWO_SIDED|95.0|59.9|82.3|||t-test, 2 sided|||||82.3|59.9|.0264
92451061|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.79||||||95.0|0.73|0.86||||||Serotype 19F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.86|0.73|
92241188|NCT00804193|184385624|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CI was constructed for the difference in the Therapeutic Success rates between the Test Product and Reference Product at Visit 4/Week 6 (Follow-Up). The interval was calculated using Wald's method with Yates' continuity correction. Therapeutic equivalence (bioequivalence) was established if this 90% CI was contained within the interval -0.20 to +0.20 (-20% to +20%).|Difference in Percentage of Participants|9.0|||||TWO_SIDED|90.0|-0.69|18.85|||Wald's method, Yates|CI calculated using Wald's method with Yates' continuity correction.|The sample size for this study was calculated assuming that both active treatments would have equivalent success proportions of at least 55% and the Vehicle would have a success proportion no greater than 25%.|||18.85|-0.69|
92241189|NCT00804193|184385625|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CI was constructed for the difference in the Success rates between the Test Product and Reference Product at Visit 4/Week 6 (Follow-Up). The interval was calculated using Wald's method with Yates' continuity correction. Bioequivalence was established if this 90% confidence interval was contained within the interval -0.20 to +0.20).|Difference in Percentage of Participants|1.0||||0.001|TWO_SIDED|90.0|-7.08|9.24|||Wald's method with Yates' continuity cor||The sample size for this study was calculated assuming that both active treatments would have equivalent success proportions of at least 55% and the Vehicle would have a success proportion no greater than 25%.|||9.24|-7.08|0.001
92241190|NCT00804193|184385626|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CI was constructed for the difference in the Success rates between the Test Product and Reference Product at Visit 4/Week 6 (Follow-Up). The interval was calculated using Wald's method with Yates' continuity correction. Bioequivalence was established if this 90% confidence interval was contained within the interval -0.20 to +0.20).|Difference in Percentage of Participants|4.0||||0.001|TWO_SIDED|90.0|-4.6|14.24|||Wald's method Yates' continuity cor||The sample size for this study was calculated assuming that both active treatments would have equivalent success proportions of at least 55% and the Vehicle would have a success proportion no greater than 25%.|||14.24|-4.60|0.001
92280914|NCT02483975|184464934|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non inferiority was demonstrated if the lower limit of the two-sided 95% CI for the geometric mean ratio of each dose of fluticasone furoate 50 µg versus placebo was greater than 0.8.|Least square Geometric Mean ratio|0.92|||||TWO_SIDED|95.0|0.804|1.0505||||||||1.0505|0.8040|
92451062|NCT04382326|184788516|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.66|||||TWO_SIDED|95.0|0.58|0.75||||||Serotype 23F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.75|0.58|
92451063|NCT04382326|184788516|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.98||||||95.0|1.81|2.16||||||Serotype 8: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||2.16|1.81|
92451064|NCT04382326|184788516|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.32||||||95.0|1.18|1.49||||||Serotype 10A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||1.49|1.18|
92451065|NCT04382326|184788516|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.52||||||95.0|1.39|1.67||||||Serotype 11A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||1.67|1.39|
92451066|NCT04382326|184788516|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.6||||||95.0|0.54|0.67||||||Serotype 12F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.67|0.54|
92451067|NCT04382326|184788516|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|4.82|||||TWO_SIDED|95.0|4.39|5.3||||||Serotype 15B: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||5.30|4.39|
92241191|NCT01193348|184385627|SUPERIORITY_OR_OTHER||Percent of Complete TMA Response|63.6|||||TWO_SIDED|95.0|40.7|82.8||||||||82.8|40.7|
92241192|NCT01193348|184385628|SUPERIORITY_OR_OTHER||Percent of Complete Hematologic Response|81.8|||||TWO_SIDED|95.0|59.7|94.8||||||||94.8|59.7|
92241193|NCT01193348|184385629|SUPERIORITY_OR_OTHER||Percent of Platelet Count Normalization|95.0|||||TWO_SIDED|95.0|77.2|99.9||||||||99.9|77.2|
92241194|NCT01193348|184385630|SUPERIORITY_OR_OTHER||Percent of eGFR Improvement|86.4|||||TWO_SIDED|95.0|65.1|97.1||||||||97.1|65.1|
92241195|NCT01193348|184385631|SUPERIORITY_OR_OTHER||LS mean change from baseline|204.96|||<|0.0001|TWO_SIDED|95.0|164.44|245.49|||ANOVA|||||245.49|164.44|<0.0001
92241196|NCT01193348|184385632|SUPERIORITY_OR_OTHER||Percent of Complete TMA Response|68.2|||||TWO_SIDED|95.0|45.1|86.1||||||||86.1|45.1|
92182331|NCT03052517|184263582|OTHER||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.39|0.97|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||0.97|0.39|
92280915|NCT02483975|184464935|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non inferiority was demonstrated if the lower limit of the two-sided 95% CI for the geometric mean ratio of each dose of fluticasone furoate 50 µg versus placebo was greater than 0.8.|Least square Geometric Mean ratio|0.93|||||TWO_SIDED|95.0|0.8096|1.062||||||||1.0620|0.8096|
92451068|NCT04382326|184788516|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|4.06||||||95.0|3.68|4.48||||||Serotype 22F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||4.48|3.68|
92451069|NCT04382326|184788516|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.64||||||95.0|1.46|1.83||||||Serotype 33F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||1.83|1.46|
92451070|NCT04382326|184788524|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR of 20vPnC group to 13vPnC group is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratios|1.29||||||95.0|1.05|1.58||||||Measles: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - 13vPnC) of the logarithms of the concentrations and the corresponding CI (based on the Student's t distribution).||1.58|1.05|
92451071|NCT04382326|184788525|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR of 20vPnC group to 13vPnC group is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratios|1.08|||||TWO_SIDED|95.0|0.85|1.38||||||Mumps: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - 13vPnC) of the logarithms of the concentrations and the corresponding CI (based on the Student's t distribution).||1.38|0.85|
92451072|NCT04382326|184788526|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR of 20vPnC group to 13vPnC group is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratios|1.23|||||TWO_SIDED|95.0|1.02|1.48||||||Rubella: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - 13vPnC) of the logarithms of the concentrations and the corresponding CI (based on the Student's t distribution).||1.48|1.02|
92451073|NCT04382326|184788527|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR of 20vPnC group to 13vPnC group is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratios|0.99|||||TWO_SIDED|95.0|0.84|1.17||||||Varicella: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - 13vPnC) of the logarithms of the concentrations and the corresponding CI (based on the Student's t distribution)||1.17|0.84|
92451074|NCT02461589|184788529|OTHER||Treatment difference|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.77|||Mixed Models Analysis|||||-0.77|-1.30|<0.0001
92451075|NCT02461589|184788529|OTHER||Treatment difference|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.61|-1.08|||Mixed Models Analysis|||||-1.08|-1.61|<0.0001
92451076|NCT02461589|184788529|OTHER||Treatment difference|-1.69|||<|0.0001|TWO_SIDED|95.0|-1.95|-1.42|||Mixed Models Analysis|||||-1.42|-1.95|<0.0001
92451077|NCT02461589|184788529|OTHER||Treatment difference|-1.86|||<|0.0001|TWO_SIDED|95.0|-2.12|-1.6|||Mixed Models Analysis|||||-1.60|-2.12|<0.0001
92451078|NCT01038921|184788534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0||||0.013|||||||Mixed Models Analysis|||Average change in systolic blood pressure from pre-treatment baseline to post-treatment at 10 weeks when those subjects were on Melatonin was compared to the average change in systolic blood pressure from pre-treatment baseline to post-treatment at 10 weeks when those same subjects were on Placebo using an intent-to-treat mixed model. Power was estimated based on having 30 subjects completing both the melatonin arm and the placebo arm.||||0.013
92451079|NCT01978119|184788535|NON_INFERIORITY_OR_EQUIVALENCE|Non- inferiority was demonstrated if lower limit of the CI (0.025 one sided significance level) for the difference of the mean change from Baseline in trough FEV1 of FSC administered BID by capsule-based unit dose DPI versus FSC administered BID by multi-dose DPI is greater than -125 milliliter (mL).|Mean Difference (Net)|0.028|||||TWO_SIDED|95.0|-0.024|0.08|||Repeated Measures Mixed Models|||||0.080|-0.024|
92451080|NCT01978119|184788536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.352|||||TWO_SIDED|95.0|-1.039|0.334||||||||0.334|-1.039|
92451081|NCT01978119|184788537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|||||TWO_SIDED|95.0|-0.372|0.927||||||||0.927|-0.372|
92451082|NCT01978119|184788538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.007|||||TWO_SIDED|95.0|-0.074|0.088|||||Day 28 Change from Baseline Analysis|||0.088|-0.074|
92451083|NCT01978119|184788538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.022||||||95.0|-0.049|0.092|||||Day 56 Change from Baseline Analysis|||0.092|-0.049|
92451084|NCT01978119|184788539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.35|||||TWO_SIDED|95.0|-1.34|10.05||||||||10.05|-1.34|
92451085|NCT01978119|184788540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-0.2|0.09||||||||0.09|-0.20|
92451086|NCT01978119|184788542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.25|||||TWO_SIDED|95.0|-6.97|2.46||||||||2.46|-6.97|
92451087|NCT01978119|184788543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.9|0.5||||||||0.5|-0.9|
92451088|NCT01978119|184788544|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.77|||||TWO_SIDED|95.0|-4.64|3.11||||||||3.11|-4.64|
92451089|NCT01958918|184788649|SUPERIORITY|||||||0.185|||||||ANOVA|||||||0.1850
92451090|NCT00659269|184788680|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED||||||ANOVA|||||||0.91
92241197|NCT01193348|184385633|SUPERIORITY_OR_OTHER||Percent of Complete Hematologic Response|90.9|||||TWO_SIDED|95.0|70.8|98.9||||||||98.9|70.8|
92241198|NCT01193348|184385634|SUPERIORITY_OR_OTHER||Percent of Platelet Count Normalization|95.5|||||TWO_SIDED|95.0|77.2|99.9||||||||99.9|77.2|
92241199|NCT01193348|184385635|SUPERIORITY_OR_OTHER||Percent of eGFR Improvement|86.4|||||TWO_SIDED|95.0|65.1|97.1||||||||97.1|65.1|
92241200|NCT01193348|184385636|SUPERIORITY_OR_OTHER||LS mean change from baseline|165.43|||<|0.0001|TWO_SIDED|95.0|98.43|232.43|||ANOVA|||||232.43|98.43|<0.0001
92280916|NCT02483975|184464936|SUPERIORITY_OR_OTHER_LEGACY||Least square Geometric Mean ratio|0.93|||||TWO_SIDED|95.0|0.81|1.06||||||||1.06|0.81|
92241201|NCT00968253|184385642|SUPERIORITY_OR_OTHER||Maximum tolerated dose|5.0|||||TWO_SIDED||||||||Maximum tolerated dose (MTD) of Everolimus measured in mg/day in combination with HyperCVAD|||||
92241202|NCT01678807|184385672|SUPERIORITY_OR_OTHER||Percent Difference|13.8|||||TWO_SIDED|95.0|-3.4|30.3|||||Estimate based on Miettinen \& Nurminen method stratified by asthma status.|||30.3|-3.4|
92241203|NCT01678807|184385672|SUPERIORITY_OR_OTHER||Percent Difference|10.8|||||TWO_SIDED|95.0|-6.4|27.4|||||Estimate based on Miettinen \& Nurminen method stratified by asthma status.|||27.4|-6.4|
92241204|NCT01678807|184385673|SUPERIORITY_OR_OTHER||Percent Difference|6.2|||||TWO_SIDED|95.0|0.4|14.8|||||Estimate based on Miettinen \& Nurminen method stratified by asthma status.|||14.8|0.4|
92241205|NCT01678807|184385673|SUPERIORITY_OR_OTHER||Percent Difference|6.2|||||TWO_SIDED|95.0|0.4|14.8|||||Estimate based on Miettinen \& Nurminen method stratified by asthma status.|||14.8|0.4|
92241206|NCT05281523|184385674|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group.|Difference in Least Square Means|-0.6||||0.004|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||-0.2|-1.0|0.004
92241207|NCT05281523|184385675|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, subgroup, visit by baseline, visit by treatment group.|Difference in Least Square Means|-0.25||||0.025|TWO_SIDED|95.0|-0.46|-0.03|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||-0.03|-0.46|0.025
92241208|NCT05281523|184385676|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, subgroup, visit by baseline, visit by treatment group, subgroup by treatment group and subgroup by visit by treatment group.|Difference in Least Square Means|-0.18||||0.125|TWO_SIDED|95.0|-0.4|0.05|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 49 to Week 52 in participants with a diagnosis of CRSwNP||0.05|-0.40|0.125
92241209|NCT05281523|184385677|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, subgroup, visit by baseline, visit by treatment group, subgroup by treatment group and subgroup by visit by treatment group. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.26||||0.007|TWO_SIDED|95.0|-0.45|-0.07|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 49 to Week 52 in participants with a diagnosis of CRSwNP||-0.07|-0.45|0.007
92280917|NCT02483975|184464937|SUPERIORITY_OR_OTHER_LEGACY||Least square Geometric Mean ratio|0.79|||||TWO_SIDED|95.0|0.61|1.03||||||||1.03|0.61|
92280918|NCT02483975|184464938|SUPERIORITY_OR_OTHER_LEGACY||Least square Geometric Mean ratio|0.88|||||TWO_SIDED|95.0|0.72|1.07||||||||1.07|0.72|
92451091|NCT00908960|184788681|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.7||||0.06|TWO_SIDED|95.0|1.03|43.17|||Fine and Gray regression|||||43.17|1.03|0.06
92451092|NCT02401672|184788684|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92451093|NCT02401672|184788685|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92451094|NCT02401672|184788686|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92451095|NCT02401672|184788687|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92451096|NCT01736852|184788689|NON_INFERIORITY|non-inferiority margin of 10%, α = 0.025, power = 0.80,||||||0.06|||||||Fisher Exact|||.ample size calculations were performed using an expected rate of 4% for each group,a one-sided exact test, α = 0.025, power = 0.80, non-inferiority margin of 10% resulting in a sample size of 124 patients or 62 patients per treatment arm.||||0.06
92182332|NCT03052517|184263582|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.54|1.14|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||1.14|0.54|
92451097|NCT01168934|184788698|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|43.44|||||TWO_SIDED|90.0|39.68|47.56||||||Natural log transformed AUC (0 - ∞)(dn) of crizotinib was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||47.56|39.68|
92451098|NCT01168934|184788701|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|44.67|||||TWO_SIDED|90.0|40.9|48.78||||||Natural log transformed AUClast(dn) of crizotinib was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||48.78|40.90|
92451099|NCT01070810|184788716|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
92451100|NCT01070810|184788717|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.97|TWO_SIDED|95.0|0.61|1.62|||Regression, Cox|||Time to shock reversal was complicated by a high incidence of death prior to the event. To account for this we classified death as a competing risk event and used the estimated cumulative incidence function (CIF) to illustrate the comparison of CIFs between the two treatment groups using the Fine-Gray competing risk model. We tested the subdistribution hazards of these two CIF functions and obtained the estimated hazard ratio with 95% confidence intervals.||1.62|0.61|0.97
92451101|NCT01070810|184788718|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
92451102|NCT01070810|184788719|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92451103|NCT01070810|184788720|SUPERIORITY|||||||0.1|||||||Chi-squared|||||||0.10
92451104|NCT02610140|184788732|SUPERIORITY||Hazard Ratio (HR)|1.215||||0.859125|TWO_SIDED|95.0|0.85|||1-sided p-value from log-rank test (stratified by TTP on 1st line treatment). P-value is calculated based on alpha level 0.0125.|Log Rank||Hazard ratio (anetumab ravtansine / vinorelbine) was estimated using Cox proportional hazards models with Wald CIs, stratified by Time to progression (TTP) on 1st line treatment.|PFS anetumab ravtansine / vinorelbine||1,738|0.850|0.859125
92451105|NCT02610140|184788733|SUPERIORITY||Hazard Ratio (HR)|1.072||||0.655624|TWO_SIDED|95.0|0.763|1.506||1-sided p-value from log-rank test (stratified by TTP on 1st line treatment). Alpha spending/boundary for interim was 0.00245. Alpha boundary value for final analysis was 0.02421.|Log Rank||Hazard ratio (anetumab ravtansine/vinorelbine) was estimated using Cox proportional hazards models with Wald CIs, stratified by TTP on 1st line treatment.|OS anetumab ravtansine / vinorelbine||1.506|0.763|0.655624
92172849|NCT03892616|184236342|OTHER||Ratio of adjusted geometric means [%]|177.9|||||TWO_SIDED|90.0|162.8|194.3|||||The ratio was calculated as adjusted geometric mean of TF2a fed (B) as numerator and adjusted geometric mean of TF2a fasted (C) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.65|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||194.3|162.8|
92182333|NCT03052517|184263583|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.54|1.22|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||1.22|0.54|
92451106|NCT02610140|184788738|SUPERIORITY||Difference (%) improvement rate symptoms|4.65||||0.244|TWO_SIDED|95.0|-8.2|17.51|||Cochran-Mantel-Haenszel|1-sided Cochran-Mantel-Haenszel test, stratified by TTP on 1st line treatment||Anetumab ravtansine versus vinorelbine||17.51|-8.20|0.244
92451107|NCT02610140|184788739|SUPERIORITY||Hazard Ratio (HR)|0.829||||0.313747|TWO_SIDED|95.0|0.386|1.779|||Log Rank|one-sided log-rank test stratified by time to progression (TTP) on first line treatment||Anetumab ravtansine versus vinorelbine||1.779|0.386|0.313747
92451108|NCT02610140|184788740|SUPERIORITY||Hazard Ratio (HR)|0.924||||0.378916|TWO_SIDED|95.0|0.557|1.533|||Log Rank|one-sided log-rank test stratified by time to progression (TTP) on first line treatment||Anetumab ravtansine versus vinorelbine||1.533|0.557|0.378916
92451109|NCT02610140|184788741|SUPERIORITY||Difference (%) improvement rate of pain|6.64||||0.214|TWO_SIDED|95.0|-9.4|22.68|||Cochran-Mantel-Haenszel|1-sided Cochran-Mantel-Haenszel test, stratified by TTP on 1st line treatment||||22.68|-9.40|0.214
92451110|NCT02610140|184788744|SUPERIORITY||Mean Difference (Final Values)|9.5|||||TWO_SIDED|95.0|0.1|39.3||||||||39.3|0.1|
92451111|NCT02610140|184788744|SUPERIORITY||Mean Difference (Final Values)|11.6|||||TWO_SIDED|95.0|0.0|35.9||||||||35.9|0.0|
92451112|NCT00887341|184788745|SUPERIORITY_OR_OTHER|||||||0.238|||||||Chi-squared|||||||0.238
92451113|NCT00887341|184788752|SUPERIORITY_OR_OTHER|||||||0.121|||||||Chi-squared|||Week 4||||0.121
92451114|NCT00887341|184788752|SUPERIORITY_OR_OTHER|||||||0.809|||||||Chi-squared|||Week 8||||0.809
92451115|NCT00887341|184788752|SUPERIORITY_OR_OTHER|||||||0.367|||||||Chi-squared|||Week 12||||0.367
92451116|NCT00887341|184788752|SUPERIORITY_OR_OTHER|||||||0.339|||||||Chi-squared|||Week 16||||0.339
92451117|NCT00887341|184788752|SUPERIORITY_OR_OTHER|||||||0.017|||||||Chi-squared|||Week 20||||0.017
92451118|NCT00887341|184788752|SUPERIORITY_OR_OTHER|||||||0.451|||||||Chi-squared|||Final visit||||0.451
92451119|NCT00887341|184788753|SUPERIORITY_OR_OTHER|||||||0.377|||||||Chi-squared|||Week 4||||0.377
92451120|NCT00887341|184788753|SUPERIORITY_OR_OTHER|||||||0.387|||||||Chi-squared|||Week 8||||0.387
92451121|NCT00887341|184788753|SUPERIORITY_OR_OTHER|||||||0.304|||||||Chi-squared|||Week 12||||0.304
92451122|NCT00887341|184788753|SUPERIORITY_OR_OTHER|||||||0.509|||||||Chi-squared|||Week 16||||0.509
92451123|NCT00887341|184788753|SUPERIORITY_OR_OTHER|||||||0.11|||||||Chi-squared|||Week 20||||0.110
92451124|NCT00887341|184788753|SUPERIORITY_OR_OTHER|||||||0.504|||||||Chi-squared|||Final visit||||0.504
92451125|NCT00887341|184788754|SUPERIORITY_OR_OTHER|||||||0.327|||||||Chi-squared|||Week 4||||0.327
92451126|NCT00887341|184788754|SUPERIORITY_OR_OTHER|||||||0.786|||||||Chi-squared|||Week 8||||0.786
92451127|NCT00887341|184788754|SUPERIORITY_OR_OTHER|||||||0.482|||||||Chi-squared|||Week 12||||0.482
92451128|NCT00887341|184788754|SUPERIORITY_OR_OTHER|||||||0.68|||||||Chi-squared|||Week 16||||0.680
92451129|NCT00887341|184788754|SUPERIORITY_OR_OTHER|||||||0.69|||||||Chi-squared|||Week 20||||0.690
92451130|NCT00887341|184788754|SUPERIORITY_OR_OTHER|||||||0.516|||||||Chi-squared|||Final Visit||||0.516
92451131|NCT00887341|184788755|SUPERIORITY_OR_OTHER|||||||0.97|||||||Chi-squared|||Week 8||||0.970
92451132|NCT00887341|184788755|SUPERIORITY_OR_OTHER|||||||0.587|||||||Chi-squared|||Week 12||||0.587
92451133|NCT00887341|184788755|SUPERIORITY_OR_OTHER|||||||0.184|||||||Chi-squared|||Week 16||||0.184
92451134|NCT00887341|184788755|SUPERIORITY_OR_OTHER|||||||0.6|||||||Chi-squared|||Week 20||||0.600
92451135|NCT00887341|184788755|SUPERIORITY_OR_OTHER|||||||0.937|||||||Chi-squared|||Final Visit||||0.937
92451136|NCT01312961|184788764|SUPERIORITY||Odds Ratio (OR)|0.077|||<|0.0001|TWO_SIDED|95.0|0.021|0.28||Threshold for significance at 0.05 level.|Regression, Logistic||Dupilumab 300 mg vs. Placebo|Analysis was performed using a logistic regression model with treatment groups and stratification factor (prior ICS/LABA combination therapy dose) as covariates.||0.280|0.021|<0.0001
92451137|NCT01306617|184788798|SUPERIORITY_OR_OTHER|||||||0.547|TWO_SIDED||||||Regression, Logistic|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||For the percentage of subjects with HCV RNA suppressed below the LLOD from Week 4 through Week 12, if it was assumed that 60% of subjects would be successfully suppressed from Week 4 through Week 12, then 20 subjects in arm 1 would give a 95% 2-sided confidence interval (CI) of (38.5%, 81.5%), 10 subjects in arm 2 would give a 95% CI of (29.6%, 90.4%), and 15 subjects in arm 3 would give a 95% CI of (35.2%, 84.8%) for the percentage of subjects suppressed using the binomial exact method.||||0.547
92451138|NCT01306617|184788798|SUPERIORITY_OR_OTHER|||||||0.207|TWO_SIDED||||||Regression, Logistic|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.207
92451139|NCT01306617|184788799|SUPERIORITY_OR_OTHER|||||||0.061|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.061
92451140|NCT01306617|184788800|SUPERIORITY_OR_OTHER|||||||0.061|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.061
92451141|NCT01306617|184788800|SUPERIORITY_OR_OTHER|||||||0.375|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.375
92451142|NCT01306617|184788801|SUPERIORITY_OR_OTHER|||||||0.312|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.312
92172850|NCT03892616|184236342|OTHER||Ratio of adjusted geometric means [%]|152.9|||||TWO_SIDED|90.0|139.5|167.7|||||The ratio was calculated as adjusted geometric mean of TF2b fed (D) as numerator and adjusted geometric mean of TF2b fasted (E) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.65|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||167.7|139.5|
92182334|NCT03052517|184263583|OTHER||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.41|0.97|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||0.97|0.41|
92280919|NCT00818883|184464939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6|||<|0.001|TWO_SIDED|95.0|-8.3|-2.9||Overall type I error rate controlled using stepwise testing procedure. First treatment test done at Week 6. If statistically significant at significance level of 5%, then treatment comparison at Week 10 was performed. Tested at 5% significance level.|ANCOVA|||Analysis of Covariance (ANCOVA) model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-2.9|-8.3|<0.001
92280920|NCT00818883|184464939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0|||<|0.001||95.0|-7.5|-2.5||Overall type I error rate controlled using stepwise testing procedure. First treatment test done at Week 6. If statistically significant at significance level of 5%, then treatment comparison at Week 10 was performed. Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-2.5|-7.5|<0.001
92280921|NCT00818883|184464940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7|||<|0.001|TWO_SIDED|95.0|-5.2|-2.2||Overall type I error rate controlled using stepwise testing procedure. First treatment test done at Week 6. If statistically significant at significance level of 5%, then treatment comparison at Week 10 was performed. Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-2.2|-5.2|<0.001
92451143|NCT01306617|184788801|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.012
92451144|NCT01306617|184788802|SUPERIORITY_OR_OTHER|||||||0.312|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.312
92451145|NCT01306617|184788802|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.012
92451146|NCT01306617|184788803|SUPERIORITY_OR_OTHER|||||||0.395|TWO_SIDED||||||Log Rank|||||||0.395
92451147|NCT01306617|184788803|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Log Rank|||||||0.010
92451148|NCT01306617|184788804|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||Log Rank|||||||0.048
92451149|NCT01208233|184788823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.735||||0.4962|TWO_SIDED|80.0|0.41|1.31|||Regression, Logistic|LOCF was used to impute missing data.||||1.31|0.41|0.4962
92451150|NCT01208233|184788823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.561||||0.2517|TWO_SIDED|80.0|0.29|1.07|||Regression, Logistic|The analysis was based on OC.||||1.07|0.29|0.2517
92451151|NCT01208233|184788824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|3.942||0.9716|TWO_SIDED|80.0|-4.972|5.254|||Mixed Models Analysis|||Paretic hand||5.254|-4.972|0.9716
92451152|NCT01208233|184788825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.789|STANDARD_ERROR_OF_MEAN|7.2392||0.1417|TWO_SIDED|80.0|1.401|20.177|||Mixed Models Analysis|||Paretic to non-paretic hand ratio (%)||20.177|1.401|0.1417
92451153|NCT01208233|184788826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.33|STANDARD_ERROR_OF_MEAN|5.4241||0.0611|TWO_SIDED|80.0|-17.351|-3.31|||Mixed Models Analysis|||Paretic hand||-3.310|-17.351|0.0611
92451154|NCT01208233|184788826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|3.2899||0.9433|TWO_SIDED|80.0|-4.011|4.48|||Mixed Models Analysis|||Non-paretic hand||4.480|-4.011|0.9433
92451155|NCT01208233|184788827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.812|STANDARD_ERROR_OF_MEAN|6.8448||0.0654|TWO_SIDED|80.0|-21.668|-3.957|||Mixed Models Analysis|||Paretic to non-paretic hand ratio (%)||-3.957|-21.668|0.0654
92451156|NCT01208233|184788828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.972||||0.951|TWO_SIDED|80.0|0.54|1.76|||Regression, Logistic|||LOCF was used to impute missing data.||1.76|0.54|0.9510
92451157|NCT01208233|184788829|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.854||||0.7234|TWO_SIDED|80.0|0.48|1.51|||Regression, Logistic|||LOCF was used to impute missing data.||1.51|0.48|0.7234
92451158|NCT01208233|184788830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.283|STANDARD_ERROR_OF_MEAN|0.6755||0.6759|TWO_SIDED|80.0|-1.156|0.589|||Mixed Models Analysis|||||0.589|-1.156|0.6759
92451159|NCT01208233|184788831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.433||||0.4213|TWO_SIDED|80.0|0.81|2.54|||Regression, Logistic|||BI \>=95, LOCF was used to impute missing data.||2.54|0.81|0.4213
92451160|NCT01208233|184788831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.651||||0.276|TWO_SIDED|80.0|0.92|2.98|||Regression, Logistic|||BI=100, LOCF was used to impute missing data.||2.98|0.92|0.2760
92451161|NCT01208233|184788832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.599|STANDARD_ERROR_OF_MEAN|4.4547||0.2118|TWO_SIDED|80.0|-0.15|11.348|||Mixed Models Analysis|||||11.348|-0.150|0.2118
92451162|NCT01208233|184788833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.062|STANDARD_ERROR_OF_MEAN|1.7844||0.5541|TWO_SIDED|80.0|-1.252|3.375|||Mixed Models Analysis|||||3.375|-1.252|0.5541
92451163|NCT01208233|184788834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.334|STANDARD_ERROR_OF_MEAN|0.4178||0.426|TWO_SIDED|80.0|-0.874|0.205|||Mixed Models Analysis|||||0.205|-0.874|0.4260
92451164|NCT01208233|184788835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.477|STANDARD_ERROR_OF_MEAN|5.4394||0.65|TWO_SIDED|80.0|-4.547|9.5|||Mixed Models Analysis|||(L+R)/28 × 100%||9.500|-4.547|0.6500
92451165|NCT01208233|184788835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.874|STANDARD_ERROR_OF_MEAN|6.7431||0.5671|TWO_SIDED|80.0|-4.834|12.583|||Mixed Models Analysis|||(L/14) × 100%||12.583|-4.834|0.5671
92451166|NCT01208233|184788835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.049|STANDARD_ERROR_OF_MEAN|5.2816||0.843|TWO_SIDED|80.0|-5.771|7.87|||Mixed Models Analysis|||(R/14) × 100%||7.870|-5.771|0.8430
92241210|NCT05281523|184385678|OTHER|Analysis performed using an analysis of covariance model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region and previous surgery for nasal polyps. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level|Difference in Least Square Means|-3.2|||<|0.001|TWO_SIDED|95.0|-4.4|-2.0|||ANCOVA|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||-2.0|-4.4|<0.001
92172851|NCT03892616|184236343|OTHER||Ratio of adjusted geometric means [%]|60.3|||||TWO_SIDED|90.0|55.4|65.7|||||The ratio was calculated as adjusted geometric mean of TF2a fasted (C) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.70|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||65.7|55.4|
92172852|NCT03892616|184236343|OTHER||Ratio of adjusted geometric means [%]|71.1|||||TWO_SIDED|90.0|65.2|77.6|||||The ratio was calculated as adjusted geometric mean of TF2b fasted (E) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.70|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||77.6|65.2|
92451167|NCT01208233|184788836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.0733||0.1512|TWO_SIDED|80.0|0.011|0.201|||Mixed Models Analysis|||(L R)/(L+R)||0.201|0.011|0.1512
92451168|NCT01208233|184788837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.279|STANDARD_ERROR_OF_MEAN|0.5041||0.0128|TWO_SIDED|80.0|-1.929|-0.629|||Mixed Models Analysis|||||-0.629|-1.929|0.0128
92451169|NCT01208233|184788838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.1226||0.4713|TWO_SIDED|80.0|-0.07|0.248|||Mixed Models Analysis|||||0.248|-0.070|0.4713
92451170|NCT01208233|184788845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.516|STANDARD_ERROR_OF_MEAN|2.7201||0.8501|TWO_SIDED|80.0|-4.026|2.995|||Mixed Models Analysis|||Non-paretic hand||2.995|-4.026|0.8501
92451171|NCT01891734|184788847|SUPERIORITY_OR_OTHER||Cohen's d|0.3|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92451172|NCT01891734|184788848|SUPERIORITY_OR_OTHER||Cohen's d|0.3|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92451173|NCT04028388|184788850|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.1465|TWO_SIDED|95.0|0.56|2.65|||Wilcoxon (Mann-Whitney)|||||2.65|0.56|0.1465
92451174|NCT04028388|184788854|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.4576|TWO_SIDED|95.0|0.39|7.93|||Log Rank|||DOR is calculated in the subpopulation of subjects experiencing a response (CR or PR). Hazard Ratio \< 1 means that tested drug (ModraDoc006/r) has better outcome.||7.93|0.39|0.4576
92451175|NCT04028388|184788855|SUPERIORITY||Hazard Ratio (HR)|1.5||||0.0776|TWO_SIDED|95.0|0.65|3.48|||Wilcoxon (Mann-Whitney)|||"Difference between the cohorts is tested with Log-rank test and estimated using Univariate Cox model.~Wilcoxon test is used if proportional hazards assumption is not fulfilled. Hazard Ratio \< 1 means that tested drug (ModraDoc006/r) has better outcome"||3.48|0.65|0.0776
92451176|NCT04028388|184788857|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.2539|TWO_SIDED|95.0|0.79|2.49|||Log Rank|||"Difference between the cohorts is tested with Log-rank test and estimated using Univariate Cox model.~Wilcoxon test is used if proportional hazards assumption is not fulfilled. Hazard Ratio \< 1 means that tested drug (ModraDoc006/r) has better outcome."||2.49|0.79|0.2539
92451177|NCT04028388|184788858|SUPERIORITY||Hazard Ratio (HR)|1.35||||0.3062|TWO_SIDED|95.0|0.76|2.42|||Wilcoxon (Mann-Whitney)|||"Difference between the cohorts is tested with Log-rank test and estimated using Univariate Cox model.~Wilcoxon test is used if proportional hazards assumption is not fulfilled. Hazard Ratio \< 1 means that tested drug (ModraDoc006/r) has better outcome."||2.42|0.76|0.3062
92451178|NCT00129259|184788877|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|P-value for testing treatment effect uses change in ln(AUC+1) as the outcome variable and adjusts for baseline ln(AUC+1).||"Null hypothesis: The mean change from baseline to Month 24 in the 4-hour C-peptide AUC does not differ between treatment groups after adjusting for baseline C-peptide AUC.~Alternative hypothesis: The mean change from baseline to Month 24 in the 4-hour C-peptide AUC differs between the treatment groups after adjusting for baseline values."||||0.002
92451179|NCT00129259|184788878|SUPERIORITY_OR_OTHER|||||||0.697||95.0|||||ANCOVA|ANCOVA adjusts for baseline HbA1c.||"Null hypothesis: The mean change in HbA1c from baseline (pre-treatment) to Month 24 does not differ between treatment groups.~Alternative hypothesis: The mean change in HbA1c from baseline to Month 24 differs between treatment groups."||||0.697
92451180|NCT00129259|184788879|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANCOVA|ANCOVA adjusts for baseline daily insulin use per kg||"Null hypothesis: The mean change from baseline to Month 24 in daily insulin use per kg does not differ between the treatment and control groups.~Alternative hypothesis: The mean change from baseline to Month 24 in daily insulin use per kg differs between the treatment and control groups."||||0.110
92451181|NCT00139997|184788904|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||t-test, 2 sided|||||||0.028
92451182|NCT00019682|184788918|SUPERIORITY|||||||0.035|||||||Chi-squared|||||||0.035
92451183|NCT00019682|184788919|SUPERIORITY|||||||0.008||||||Unadjusted 2 tail p value.|Log Rank|||||||0.008
92451184|NCT00019682|184788920|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92451185|NCT00019682|184788921|NON_INFERIORITY|Evaluated inferiority in quality of life outcomes between arms.|||||>|0.05|||||||Mixed Models Analysis|||FACT-G scale||||>0.05
92451186|NCT00019682|184788921|NON_INFERIORITY|Evaluated inferiority in quality of life outcomes between arms.|||||>|0.05|||||||Mixed Models Analysis|||FACT-F scale||||>0.05
92287189|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.122|||<|0.001|TWO_SIDED|95.0|0.058|0.187|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.187|0.058|<0.001
92451187|NCT00019682|184788921|NON_INFERIORITY|Evaluated inferiority in quality of life outcomes between arms.|||||>|0.05|||||||Mixed Models Analysis|||SF-36 scale||||>0.05
92451188|NCT00019682|184788921|NON_INFERIORITY|Evaluated inferiority in quality of life outcomes between arms.|||||>|0.05|||||||Mixed Models Analysis|||SDS scale||||>0.05
92241211|NCT05281523|184385679|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-9.9||||0.015|TWO_SIDED|95.0|-17.9|-2.0|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||-2.0|-17.9|0.015
92241212|NCT05281523|184385680|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.24||||0.016|TWO_SIDED|95.0|-0.43|-0.04|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 21 to Week 24 in participants with a diagnosis of CRSwNP||-0.04|-0.43|0.016
92241213|NCT05281523|184385681|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.3||||0.066|TWO_SIDED|95.0|-0.7|0.0|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 26 in participants with a diagnosis of CRSwNP||0.0|-0.7|0.066
92241214|NCT05281523|184385682|OTHER|Cox Proportional Hazards Model with covariates of treatment, baseline total endoscopic nasal polyps score, baseline nasal obstruction score (VRS), log(e) baseline blood eosinophil count, region, study and previous surgery for nasal polyps. The covariate for study is removed for the individual-study analyses.|Hazard Ratio (HR)|0.735||||0.128|TWO_SIDED|95.0|0.495|1.092|||Cox Proportional Hazards Model|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis)||1.092|0.495|0.128
92241215|NCT05281523|184385683|OTHER|Cox Proportional Hazards Model with covariates of treatment, baseline total endoscopic nasal polyps score, baseline nasal obstruction score (VRS), log(e) baseline blood eosinophil count, region, study and previous surgery for nasal polyps. The covariate for study is removed for the individual-study analyses. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Hazard Ratio (HR)|0.713||||0.146|TWO_SIDED|95.0|0.453|1.124|||Cox Proportional Hazards Model|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis)||1.124|0.453|0.146
92241216|NCT05281523|184385684|OTHER|Logistic regression with covariates of treatment, number of courses of systemic CS in 12 months prior to screening for NP (0, 1,\>1), log(e) baseline blood eosinophil count, baseline total endoscopic NP score, baseline nasal obstruction score (VRS), region, study and previous surgery for NPs. The study covariate is removed for individual study analyses. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Odds Ratio (OR)|0.58||||0.006|TWO_SIDED|95.0|0.4|0.86|||Regression, Logistic|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis)||0.86|0.40|0.006
92241217|NCT05281523|184385685|OTHER|The pooled statistical analyses was performed using a Mixed Models Repeated Measures (MMRM) model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, study, visit and interaction terms for visit by baseline score and visit by treatment group. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.75||||0.004|TWO_SIDED|95.0|-1.26|-0.25|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis).||-0.25|-1.26|0.004
92451189|NCT01543256|184788949|NON_INFERIORITY|Non-Inferiority margin was 20%||||||0.008|||||||Exact non-inferiority|||||||.008
92241218|NCT01953328|184385754|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-73.97|STANDARD_ERROR_OF_MEAN|2.3|<|0.001|TWO_SIDED|95.0|-78.54|-69.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-69.41|-78.54|<0.001
92241219|NCT01953328|184385754|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-72.89|STANDARD_ERROR_OF_MEAN|2.18|<|0.001|TWO_SIDED|95.0|-77.22|-68.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-68.57|-77.22|<0.001
92241220|NCT01953328|184385754|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-74.41|STANDARD_ERROR_OF_MEAN|3.43|<|0.001|TWO_SIDED|95.0|-81.21|-67.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-67.61|-81.21|<0.001
92451190|NCT01543256|184788950|SUPERIORITY|||||||0.568|||||||Fisher Exact|||||||.568
92451191|NCT01543256|184788951|SUPERIORITY||||||<|0.001|||||||Negative binomial|||||||<.001
92451192|NCT01543256|184788952|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||.99
92451193|NCT01543256|184788953|SUPERIORITY|||||||0.519|||||||Wilcoxon (Mann-Whitney)|||||||.519
92451194|NCT01543256|184788954|SUPERIORITY||||||<|0.001|||||||Negative binomial|||||||<.001
92172853|NCT03892616|184236343|OTHER||Ratio of adjusted geometric means [%]|175.8|||||TWO_SIDED|90.0|160.8|192.2|||||The ratio was calculated as adjusted geometric mean of TF2a fed (B) as numerator and adjusted geometric mean of TF2a fasted (C) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.70|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||192.2|160.8|
92172854|NCT03892616|184236343|OTHER||Ratio of adjusted geometric means [%]|150.2|||||TWO_SIDED|90.0|136.9|164.7|||||The ratio was calculated as adjusted geometric mean of TF2b fed (D) as numerator and adjusted geometric mean of TF2b fasted (E) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.70|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||164.7|136.9|
92172855|NCT03892616|184236344|OTHER||Ratio of adjusted geometric means [%]|56.5|||||TWO_SIDED|90.0|51.8|61.7|||||The ratio was calculated as adjusted geometric mean of TF2a fasted (C) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 13.02|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||61.7|51.8|
92172856|NCT03892616|184236344|OTHER||Ratio of adjusted geometric means [%]|70.5|||||TWO_SIDED|90.0|64.4|77.1|||||The ratio was calculated as adjusted geometric mean of TF2b fasted (E) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 13.02|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||77.1|64.4|
92172857|NCT03892616|184236344|OTHER||Ratio of adjusted geometric means [%]|185.3|||||TWO_SIDED|90.0|169.4|202.8|||||The ratio was calculated as adjusted geometric mean of TF2a fed (B) as numerator and adjusted geometric mean of TF2a fasted (C) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 13.02|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||202.8|169.4|
92172858|NCT03892616|184236344|OTHER||Ratio of adjusted geometric means [%]|158.4|||||TWO_SIDED|90.0|144.3|173.9|||||The ratio was calculated as adjusted geometric mean of TF2b fed (D) as numerator and adjusted geometric mean of TF2b fasted (E) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 13.02|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||173.9|144.3|
92172859|NCT03924986|184236345|OTHER||Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.38|0.73|||||Estimated using a Cox proportional hazards model with Efron's method for tied events, with Arm B as the reference group. The analysis was stratified by gender and liver metastases status.|The null hypothesis to be tested is that progression-free survival (PFS) in Arm A is less than or equal to PFS in Arm B. This is compared against the alternative hypothesis, which posits that PFS in Arm A is greater than PFS in Arm B.||0.73|0.38|
92172860|NCT03924986|184236346|OTHER||Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|1.11|3.07|||||||Arm B was the reference group, and the odds ratio between arms was calculated using the Cochran-Mantel-Haenszel chi-square test, stratified by gender and liver metastases status.|3.07|1.11|
92451195|NCT00822510|184788961|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<.05
92451196|NCT00822510|184788963|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED|0.79|||||ANOVA|||||||.79
92451197|NCT00822510|184788964|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|0.001|||||ANOVA|||||||.001
92451198|NCT00822510|184788965|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|0.001|||||ANOVA|||||||.001
92451199|NCT00822510|184788966|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED|0.71|||||ANOVA|||||||.71
92451200|NCT00822510|184788967|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|0.01|||||ANOVA|||||||.01
92451201|NCT02055352|184788968|NON_INFERIORITY_OR_EQUIVALENCE|A change of 5-10% from baseline values is considered to be clinically important. The estimated adjusted treatment difference for budesonide 400 μg twice a day/ indacaterol 150 μg once daily minus fixed combination of fluticasone/ salmeterol 250/ 50 μg twice daily was displayed along with the associated one-sided 97.5% confidence interval. If the lower limit of this confidence interval was to the right (i.e. above) - 10 mL, then non-inferiority could be claimed.||||||0.004|||||||Mixed effects General linear model|||||||0.004
92451202|NCT04745169|184788973|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
92451203|NCT04745169|184788974|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
92451204|NCT04745169|184788975|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
92451205|NCT04745169|184788976|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
92451206|NCT04745169|184788977|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
92451207|NCT04745169|184788978|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92451208|NCT04745169|184788979|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
92451209|NCT04745169|184788980|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
92451210|NCT04745169|184788981|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
92451211|NCT03809182|184788982|SUPERIORITY|||||||0.38|TWO_SIDED|95.0||||A p-value less than .05 was considered statistically significant.|Mixed Models Analysis|||Null hypothesis: There is no difference in plasmatic glucose levels between dexmedetomidine and 0.9% sodium-chloride groups.||||0.38
92451212|NCT03809182|184788983|SUPERIORITY|||||||0.02||||||A p-value less than .05 was considered statistically significant.|Mixed Models Analysis|||Null hypothesis: There is no difference in insulin levels between dexmedetomidine and 0.9% sodium-chloride groups.||||0.02
92451213|NCT01763567|184788989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.8|STANDARD_DEVIATION|9.5|||TWO_SIDED|||||||||||||
92451214|NCT01763567|184788990|SUPERIORITY_OR_OTHER||percent of events correctly detected|16.7|||||TWO_SIDED|||||||||||||
92451215|NCT01763567|184788991|SUPERIORITY_OR_OTHER||percent of events correctly detected|88.9|||||TWO_SIDED|||||||||||||
92280922|NCT00818883|184464940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|||<|0.001|TWO_SIDED|95.0|-4.1|-1.3||Overall type I error rate controlled using stepwise testing procedure. First treatment test done at Week 6. If statistically significant at significance level of 5%, then treatment comparison at Week 10 was performed. Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-1.3|-4.1|<0.001
92451216|NCT01763567|184788992|SUPERIORITY_OR_OTHER||% of false alert|85.8|||||TWO_SIDED|||||||||||||
92451217|NCT01763567|184788993|SUPERIORITY_OR_OTHER||% of false alert|56.5|||||TWO_SIDED|||||||||||||
92172861|NCT03924986|184236348|OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.51|1.05|||||Estimated using a Cox proportional hazards model with Efron's method for tied events, with Arm B as the reference group. The analysis was stratified by gender and liver metastases status.|||1.05|0.51|
92182335|NCT03052517|184263583|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.55|1.11|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||1.11|0.55|
92182336|NCT03052517|184263584|OTHER||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.47|2.23|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||2.23|0.47|
92182337|NCT03052517|184263584|OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.59|2.64|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||2.64|0.59|
92182338|NCT03052517|184263584|OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.7|2.1|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||2.10|0.70|
92182339|NCT03052517|184263585|OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.56|2.56|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||2.56|0.56|
92182340|NCT03052517|184263585|OTHER||Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.67|2.95|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||2.95|0.67|
92182341|NCT03052517|184263585|OTHER||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.7|1.96|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||1.96|0.70|
92182342|NCT03052517|184263586|SUPERIORITY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.626|1.047|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 150mg /Placebo||1.047|0.626|
92182343|NCT03052517|184263586|SUPERIORITY||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.622|1.038|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 450mg /Placebo||1.038|0.622|
92182344|NCT03052517|184263586|SUPERIORITY||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.821|1.2|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 450mg /QAW039 150mg||1.200|0.821|
92182345|NCT03052517|184263587|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.667|1.125|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 150mg /Placebo||1.125|0.667|
92182346|NCT03052517|184263587|SUPERIORITY||Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.643|1.082|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 450mg /Placebo||1.082|0.643|
92451218|NCT00116805|184788998|NON_INFERIORITY_OR_EQUIVALENCE|With a sample size of 160 subjects in the TDF group and 80 subjects in the ADV group, a two group large-sample normal approximation test of proportions with a one-sided 0.025 significance level would have 95% power to reject the null hypothesis that the TDF treatment was inferior to the ADV treatment (the difference in proportions was less than -0.080) in favor of the alternative hypothesis that the TDF treatment was not inferior.|Difference in proportions|54.1|STANDARD_ERROR_OF_MEAN|4.8|<|0.001|TWO_SIDED|95.0|44.6|63.6||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted (baseline ALT ≤ 4 x upper limit of the normal range \[ULN\] or \> 4 x ULN) difference is 0.|Z-test|2-sided 95% confidence interval (CI), stratified by baseline ALT was used to evaluate difference between groups in proportion of complete responders.||||63.6|44.6|<0.001
92451219|NCT00116805|184788999|SUPERIORITY_OR_OTHER||Difference in proportions|63.1|STANDARD_ERROR_OF_MEAN|4.7|<|0.001|TWO_SIDED|95.0|53.8|72.3||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference in zero.|Z-test|Difference, standard error of the difference, and the CI are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).||||72.3|53.8|<0.001
92451220|NCT00116805|184789000|SUPERIORITY_OR_OTHER||Difference in proportions|-1.4|STANDARD_ERROR_OF_MEAN|5.4||0.801|TWO_SIDED|95.0|-12.0|9.3||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference is zero.|Z-test|Two-sided 95% CIs, stratified by baseline ALT (baseline ALT ≤ 4 x ULN or \> 4 x ULN), were used to evaluate treatment group differences.||||9.3|-12.0|0.801
92451221|NCT00116805|184789005|SUPERIORITY_OR_OTHER||Difference in proportions|5.8|STANDARD_ERROR_OF_MEAN|5.8||0.32|TWO_SIDED|95.0|-5.6|17.2||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference in zero. Difference, standard error of the difference, and the CI are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).|Z-test|||||17.2|-5.6|0.320
92451222|NCT00116805|184789011|SUPERIORITY_OR_OTHER||Difference in proportions|13.6|STANDARD_ERROR_OF_MEAN|6.4||0.032|TWO_SIDED|95.0|1.1|26.1||P-value corresponds to a Z-test. Statistical tests were not adjusted for baseline ALT stratum.|Z-test|Difference, standard error of the difference, and CI are stratum adjusted (baseline ALT ≤ 4 x ULN or \> 4 x ULN).||||26.1|1.1|0.032
92451223|NCT00116805|184789012|SUPERIORITY_OR_OTHER||Difference in proportions|-9.8|STANDARD_ERROR_OF_MEAN|6.0||0.1|TWO_SIDED|95.0|-21.5|1.9||P-value corresponds to a Z-test of the null hypothesis that the ALT stratum-adjusted difference is zero.|Z-test|Difference, standard error of the difference, and CI are stratum adjusted (baseline ALT ≤ 4 x ULN or \> 4 x ULN).||||1.9|-21.5|0.100
92172862|NCT03924986|184236349|OTHER||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.38|0.76|||||Estimated using a Cox proportional hazards model with Efron's method for tied events, with Arm B as the reference group. The analysis was stratified by gender and liver metastases status.|The null hypothesis to be tested is that progression-free survival (PFS) in Arm A is less than or equal to PFS in Arm B. This is compared against the alternative hypothesis, which posits that PFS in Arm A is greater than PFS in Arm B.||0.76|0.38|
92172863|NCT02907099|184236382|OTHER|||||||0.5|||||||t-test, 2 sided|||||||0.5
92172864|NCT02907099|184236383|OTHER|||||||0.5|||||||t-test, 2 sided|||||||0.5
92172865|NCT02815813|184236508|SUPERIORITY||||||<|0.01|||||||GLMM|||||||<0.01
92172866|NCT02815813|184236509|SUPERIORITY||||||<|0.01|||||||GLMM|||||||<0.01
92172867|NCT05902793|184236513|NON_INFERIORITY|the non-inferiority margin is 20%|least square means difference|0.89|||||TWO_SIDED|95.0|-14.3|16.07|||||To establish non-inferiority the lower limit of the least square mean difference had to be \> -20%.|||16.07|-14.30|
92172868|NCT05902793|184236515|SUPERIORITY|||||||0.24|||||||ANCOVA|ANCOVA model had fixed effects of treatment arm, center and wound size||||||0.24
92280923|NCT00818883|184464941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.3|||<|0.001|TWO_SIDED|95.0|-10.5|-4.2||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-4.2|-10.5|<0.001
92451224|NCT00116805|184789017|SUPERIORITY_OR_OTHER||Difference in proportions|6.1|STANDARD_ERROR_OF_MEAN|5.3||0.245|TWO_SIDED|95.0|-4.2|16.4||P-value above for HBeAg loss corresponds to a Z-test of the null hypothesis that stratum-adjusted difference is zero.|Z-test|Difference, standard error of the difference, and Cl are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).||This information pertains to HBeAg loss.||16.4|-4.2|0.245
92451225|NCT00116805|184789017|SUPERIORITY_OR_OTHER||Difference in proportions|4.7|STANDARD_ERROR_OF_MEAN|5.2||0.363|TWO_SIDED|95.0|-5.5|14.9||P-value for HBeAg seroconversion corresponds to Z-test of the null hypothesis that stratum-adjusted difference is zero.|Z-test|Difference, standard error of difference, and Cl are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).||This information pertains to HBeAg seroconversion.||14.9|-5.5|0.363
92451226|NCT00116805|184789018|SUPERIORITY_OR_OTHER||Difference in proportions|0.3|STANDARD_ERROR_OF_MEAN|5.9||0.963|TWO_SIDED|95.0|-11.3|11.9||P-value above for HBeAg loss corresponds to a Z-test of the null hypothesis that stratum-adjusted difference is zero.|Z-test|Difference, standard error of the difference, and Cl are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).||This information pertains to HBeAg loss.||11.9|-11.3|0.963
92451227|NCT00116805|184789018|SUPERIORITY_OR_OTHER||Difference in proportions|0.7|STANDARD_ERROR_OF_MEAN|5.6||0.904|TWO_SIDED|95.0|-10.4|11.7||P-value above for HBeAg loss corresponds to a Z-test of the null hypothesis that stratum-adjusted difference is zero.|Z-test|Difference, standard error of the difference, and Cl are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \>4 x ULN).||This information pertains to seroconversion to anti-HBe.||11.7|-10.4|0.904
92451228|NCT00116805|184789019|SUPERIORITY_OR_OTHER||Difference in proportions|10.9|STANDARD_ERROR_OF_MEAN|4.6||0.018|TWO_SIDED|95.0|1.9|19.9||P-value corresponds to a Z-test of the null hypothesis that the ALT stratum-adjusted difference is zero. Difference, standard error of the difference, and confidence interval (CI) are stratum adjusted (baseline ALT ≤ 4 x ULN or \> 4 x ULN).|Z-test|||This information pertains to HBsAg loss.||19.9|1.9|0.018
92451229|NCT00116805|184789019|SUPERIORITY_OR_OTHER||Difference in proportions|4.3|STANDARD_ERROR_OF_MEAN|3.0||0.148|TWO_SIDED|95.0|-1.5|10.2||P-value corresponds to a Z-test of the null hypothesis that the ALT stratum-adjusted difference is zero. Difference, standard error of the difference, and confidence interval (CI) are stratum adjusted (baseline ALT ≤ 4 x ULN or \> 4 x ULN).|Z-test|||This information pertains to HBsAg seroconversion.||10.2|-1.5|0.148
92451230|NCT00116805|184789020|SUPERIORITY_OR_OTHER||Difference in proportions|0.9|STANDARD_ERROR_OF_MEAN|2.9||0.757|TWO_SIDED|95.0|-4.8|6.5||P-value above for HBsAg loss corresponds to a Z-test of the null hypothesis that stratum-adjusted difference is zero. Difference, standard error of the difference, and CI are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).|Z-test|||This information pertains to HBsAg loss.||6.5|-4.8|0.757
92451231|NCT00116805|184789020|SUPERIORITY_OR_OTHER||Difference in proportions|0.9|STANDARD_ERROR_OF_MEAN|2.6||0.733|TWO_SIDED|95.0|-4.2|5.9||P-value above corresponds to Z-test of the null hypothesis that stratum-adjusted difference is zero. Difference, standard error of the difference, and CI are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).|Z-test|||This information pertains to seroconversion to anti-HBs.||5.9|-4.2|0.733
92451232|NCT05209191|184789041|SUPERIORITY||Mean Difference (Net)|7.28|STANDARD_DEVIATION|0.65||0.001|TWO_SIDED||||||t-test, 2 sided|||||||.001
92451233|NCT05209191|184789043|SUPERIORITY||Mean Difference (Net)|0.08||||0.38|TWO_SIDED||||||t-test, 2 sided|||Paired t-test.||||.38
92451234|NCT05209191|184789044|SUPERIORITY||Chi square|52.07||||0.001|TWO_SIDED||||||Chi-squared|||||||.001
92451235|NCT00844194|184789051|SUPERIORITY_OR_OTHER||LSmean|-1.49|||<|0.0001|TWO_SIDED|95.0|-1.89|-1.1|||ANCOVA|with last observation carried forward (LOCF)||||-1.10|-1.89|< 0.0001
92451236|NCT00844194|184789051|SUPERIORITY_OR_OTHER||LSmean|-1.67|||<|0.0001|TWO_SIDED|95.0|-2.3|-1.04|||ANCOVA|||||-1.04|-2.30|< 0.0001
92451237|NCT00701389|184789150|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the 90% CI is less than 5 mmHg, the primary hypothesis would be supported.|Difference in Least Squares Means|1.5|||||TWO_SIDED|90.0|0.0|3.0|||Mixed Effect Model|||100 mg sumatriptan/600 mg telcagepant minus 100 mg sumatriptan/telcagepant placebo||3.0|0.0|
92451238|NCT00701389|184789151|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.2|||||TWO_SIDED|90.0|-0.2|2.7|||Mixed Effect Model|||sumatriptan placebo/600 mg telcagepant minus sumatriptan placebo/telcagepant placebo||2.7|-0.2|
92451239|NCT04808609|184789158|OTHER|feasibility test|Risk Ratio (RR)|1.27|STANDARD_ERROR_OF_MEAN|1.63||0.77|TWO_SIDED|95.0|0.24|6.76|||Fisher Exact|||||6.76|0.24|0.77
92451240|NCT04808609|184789159|OTHER|feasibility test|Risk Ratio (RR)|1.27|STANDARD_ERROR_OF_MEAN|0.84||0.66|TWO_SIDED|95.0|0.43|3.78|||Chi-squared|||||3.78|0.43|0.66
92172869|NCT02187003|184236516|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.7944|TWO_SIDED|95.0|0.77|1.22|||Log Rank|||A Cox proportional hazards regression model with age group and genotype group as stratification covariates was used to estimate the hazard ratio (Placebo/Rivipansel) and the corresponding 95 percent (%) confidence interval (CI). A stratified log-rank test with age group and genotype group as stratification variables was performed to evaluate P value.||1.22|0.77|0.7944
92172870|NCT02187003|184236517|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.7156|TWO_SIDED|95.0|0.77|1.19|||Log Rank|||A Cox proportional hazards regression model with age group and genotype group as stratification covariates was used to estimate the hazard ratio (Placebo/Rivipansel) and the corresponding 95% CI. A stratified log-rank test with age group and genotype group as stratification variables was performed to evaluate P- value.||1.19|0.77|0.7156
92172871|NCT02187003|184236518|SUPERIORITY||Mean Difference (Net)|-0.06||||0.852|TWO_SIDED|95.0|-1.27|0.88|||ANCOVA|||The difference in medians (Rivipansel- Placebo) was estimated by the difference of treatment medians from summary statistics. The corresponding 95% CI was estimated by a bootstrap method with stratification for age and genotype groups. P-value was from analysis of covariance (ANCOVA) model based on rank-transformed values using age group and genotype group as the stratification covariates.||0.88|-1.27|0.8520
92172872|NCT02187003|184236519|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.8593|TWO_SIDED|95.0|0.82|1.26|||Log Rank|||A Cox proportional hazards regression model with age group and genotype group as stratification covariates was used to estimate the hazard ratio (Placebo/Rivipansel) and the corresponding 95% CI. A stratified log-rank test with age group and genotype group as stratification variables was performed to evaluate P- value.||1.26|0.82|0.8593
92172873|NCT02187003|184236520|SUPERIORITY||Median Difference (Final Values)|-0.02||||0.9332|TWO_SIDED|95.0|-0.13|0.16|||ANCOVA|||The difference in medians (Rivipansel- Placebo) was estimated by the difference of treatment medians from summary statistics. The corresponding 95% CI was estimated by a bootstrap method with stratification for age and genotype groups. P value was from ANCOVA model based on rank-transformed values using age group and genotype group as the stratification covariates.||0.16|-0.13|0.9332
92451241|NCT04808609|184789160|OTHER|feasibility test|Cohen's D|0.21|STANDARD_ERROR_OF_MEAN|0.33||0.59|TWO_SIDED|95.0|-0.44|0.86|||t-test, 2 sided|||||0.86|-0.44|0.59
92451242|NCT04808609|184789160|OTHER|feasibility|Cohen's D|0.41|STANDARD_ERROR_OF_MEAN|0.17||0.02|TWO_SIDED|95.0|0.07|0.74|||t-test, 1 sided|||Results from Paired T-Test assessing the with-subject time effect on exhaled CO in ppm from baseline to 12 weeks||0.74|0.07|0.02
92451243|NCT04808609|184789161|OTHER|feasibility test|Cohen's D|0.16|STANDARD_ERROR_OF_MEAN|0.31||0.61|TWO_SIDED|95.0|-0.46|0.78|||t-test, 2 sided|||||0.78|-0.46|0.61
92451244|NCT04808609|184789162|OTHER|feasibility test|Cohen's D|0.19|STANDARD_ERROR_OF_MEAN|0.31||0.55|TWO_SIDED|95.0|-0.42|0.8|||t-test, 2 sided|||||0.80|-0.42|0.55
92451245|NCT04808609|184789163|OTHER|feasibility test|Cohen's D|0.004|STANDARD_ERROR_OF_MEAN|0.31||0.99|TWO_SIDED|95.0|-0.61|0.62|||t-test, 2 sided|||||0.62|-0.61|0.99
92451246|NCT00562159|184789164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31|||=|0.005|TWO_SIDED|95.0|-2.22|-0.4|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.40|-2.22|=0.005
92451247|NCT00562159|184789165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|||=|0.015|TWO_SIDED|95.0|-1.46|-0.26|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.26|-1.46|=0.015
92451248|NCT00562159|184789166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|||=|0.084|TWO_SIDED|95.0|-0.96|0.06|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||0.06|-0.96|=0.084
92172874|NCT02187003|184236521|SUPERIORITY||Difference in percentage of participants|-1.17||||0.5349|TWO_SIDED|95.0|-5.19|2.46|||Chan and Zhang|||P values and 95% CI for the difference in percentages were based on the exact method by Chan and Zhang.||2.46|-5.19|0.5349
92451249|NCT00562159|184789167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|||=|0.022|TWO_SIDED|95.0|-0.48|-0.05|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.05|-0.48|=0.022
92172875|NCT02187003|184236528|SUPERIORITY||Risk Difference (RD)|-3.336||||0.302|TWO_SIDED|95.0|-10.024|2.968|||Chan and Zhang|||||2.968|-10.024|0.3020
92172876|NCT02187003|184236529|SUPERIORITY||Risk Difference (RD)|1.203||||0.5429|TWO_SIDED|95.0|-2.379|5.104|||Chan and Zhang|||||5.104|-2.379|0.5429
92172877|NCT03648840|184236547|OTHER||||||<|0.2|||||||t-test, 2 sided|||2-tailed, unpaired T-test||||<0.2
92172878|NCT05063994|184236551|NON_INFERIORITY|Non-inferiority of Chronocort to Cortef was declared if the 95% CI for the difference in biochemical response rates between the 2 treatment arms (Chronocort minus Cortef) was wholly above minus 15 percentage points.|Treatment Difference|25.7|STANDARD_ERROR_OF_MEAN|11.82||0.0003|TWO_SIDED|95.0|2.5|48.9||One-sided non-inferiority. The Ge et al (2011) method was used to calculate the estimate, standard error, confidence interval and P-value for the treatment difference from the results of a logistic regression analysis.|Regression, Logistic|||||48.9|2.5|0.0003
92172879|NCT05063994|184236552|SUPERIORITY|Superiority of Chronocort to Cortef with respect to the dose response after 28 weeks of randomized treatment was declared if the two-sided 95% CI for the difference in response rates between the 2 treatment arms (Chronocort minus Cortef) was wholly above zero, provided that non-inferiority of Chronocort to Cortef with respect to the biochemical response had been declared under the primary efficacy objective.|Treatment Difference|25.3|STANDARD_ERROR_OF_MEAN|11.24||0.012|TWO_SIDED|95.0|3.3|47.3||One-sided superiority. The Ge et al (2011) method was used to calculate the estimate, standard error, confidence interval and P-value for the treatment difference from the results of a logistic regression analysis.|Regression, Logistic|||||47.3|3.3|0.012
92172880|NCT05063994|184236553|SUPERIORITY|Superiority of Chronocort to Cortef (with respect to the total daily dose after 28 weeks of randomized treatment) was declared if the two-sided 95% CI for the difference in means between the 2 treatment arms (Chronocort minus Cortef) was wholly below zero, provided that non-inferiority of Chronocort to Cortef in terms of biochemical response had been declared under the primary efficacy objective, and superiority of Chronocort to Cortef in terms of dose response has been declared.|Treatment Difference|-5.8|STANDARD_ERROR_OF_MEAN|1.66||0.0005|TWO_SIDED|95.0|-9.2|-2.5||One-sided superiority.|MMRM|||||-2.5|-9.2|0.0005
92451250|NCT00618657|184789184|OTHER||Standard Error|0.03|||||TWO_SIDED|||||||||||||
92451251|NCT00618657|184789184|OTHER||Standard Error|0.03|||||TWO_SIDED|||||||||||||
92451252|NCT02710630|184789188|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|119.33|STANDARD_DEVIATION|40.4|||TWO_SIDED|90.0|101.838|139.834|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||139.834|101.838|
92172881|NCT03988634|184236620|SUPERIORITY||Geometric Mean Ratio|0.8546||||0.0492|TWO_SIDED|95.0|0.7307|0.9994|||ANCOVA||Geometric Mean Ratio: sac/val vs valsartan|||0.9994|0.7307|0.0492
92451253|NCT02710630|184789188|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|52.97|STANDARD_DEVIATION|168.9|||TWO_SIDED|90.0|33.341|84.158|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||84.158|33.341|
92451254|NCT02710630|184789188|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|59.01|STANDARD_DEVIATION|73.4|||TWO_SIDED|90.0|45.255|76.955|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||76.955|45.255|
92451255|NCT02710630|184789188|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|108.21|STANDARD_DEVIATION|55.7|||TWO_SIDED|90.0|87.698|133.53|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||133.530|87.698|
92451256|NCT02710630|184789188|SUPERIORITY_OR_OTHER||Ratio|110.21|STANDARD_DEVIATION|41.1|||TWO_SIDED|90.0|93.939|129.297|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||129.297|93.939|
92451257|NCT02710630|184789189|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|118.31|STANDARD_DEVIATION|44.2|||TWO_SIDED|90.0|99.569|140.579|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||140.579|99.569|
92451258|NCT02710630|184789189|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|57.49|STANDARD_DEVIATION|132.3|||TWO_SIDED|90.0|38.502|85.837|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||85.837|38.502|
92451259|NCT02710630|184789189|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|61.94|STANDARD_DEVIATION|69.0|||TWO_SIDED|90.0|48.13|79.72|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||79.720|48.130|
92451260|NCT02710630|184789189|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|108.26|STANDARD_DEVIATION|55.8|||TWO_SIDED|90.0|87.704|133.629|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||133.629|87.704|
92451261|NCT02710630|184789189|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|107.76|STANDARD_DEVIATION|43.0|||TWO_SIDED|90.0|91.238|127.281|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||127.281|91.238|
92451262|NCT02710630|184789190|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|118.26|STANDARD_DEVIATION|38.5|||TWO_SIDED|90.0|101.627|137.621|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||137.621|101.627|
92451263|NCT02710630|184789190|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|87.26|STANDARD_DEVIATION|60.2|||TWO_SIDED|90.0|69.404|109.722|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||109.722|69.404|
92451264|NCT02710630|184789190|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|71.4|STANDARD_DEVIATION|49.2|||TWO_SIDED|90.0|58.828|86.648|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||86.648|58.828|
92451265|NCT02710630|184789190|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|116.67|STANDARD_DEVIATION|37.7|||TWO_SIDED|90.0|100.516|135.41|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||135.410|100.516|
92451266|NCT02710630|184789190|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|109.85|STANDARD_DEVIATION|38.7|||TWO_SIDED|90.0|94.452|127.75|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||127.750|94.452|
92451267|NCT02710630|184789191|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|115.69|STANDARD_DEVIATION|40.2|||TWO_SIDED|90.0|98.783|135.491|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||135.491|98.783|
92451268|NCT02710630|184789191|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|50.43|STANDARD_DEVIATION|173.7|||TWO_SIDED|90.0|31.519|80.689|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||80.689|31.519|
92451269|NCT02710630|184789191|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|56.71|STANDARD_DEVIATION|74.2|||TWO_SIDED|90.0|43.388|74.122|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||74.122|43.388|
92451270|NCT02710630|184789191|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|106.99|STANDARD_DEVIATION|52.8|||TWO_SIDED|90.0|87.554|130.732|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||130.732|87.554|
92451271|NCT02710630|184789191|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|107.07|STANDARD_DEVIATION|40.7|||TWO_SIDED|90.0|91.399|125.432|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||125.432|91.399|
92172882|NCT03988634|184236621|SUPERIORITY||Win Ratio|1.193||||0.1578|TWO_SIDED|95.0|0.934|1.524|||unmatched pairwise win-ratio||A win ratio greater than 1 was in favor of sacubitril/valsartan arm|||1.524|0.934|0.1578
92172883|NCT03988634|184236622|SUPERIORITY||rate ratio|0.8346||||0.3563|TWO_SIDED|95.0|0.5684|1.2255|||LWYY model||A rate ratio \< 1 indicates an effect in favor of LCZ696|||1.2255|0.5684|0.3563
92451272|NCT02710630|184789192|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|115.39|STANDARD_DEVIATION|45.3|||TWO_SIDED|90.0|96.74|137.644|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||137.644|96.740|
92451273|NCT02710630|184789192|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|54.12|STANDARD_DEVIATION|138.6|||TWO_SIDED|90.0|35.818|81.774|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||81.774|35.818|
92280924|NCT00818883|184464941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2||||0.001|TWO_SIDED|95.0|-6.8|-1.7||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-1.7|-6.8|0.001
92451274|NCT02710630|184789192|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|58.96|STANDARD_DEVIATION|71.4|||TWO_SIDED|90.0|45.489|76.431|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||76.431|45.489|
92451275|NCT02710630|184789192|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|106.38|STANDARD_DEVIATION|57.0|||TWO_SIDED|90.0|85.846|131.836|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||131.836|85.846|
92451276|NCT02710630|184789192|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|103.73|STANDARD_DEVIATION|43.3|||TWO_SIDED|90.0|87.74|122.628|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||122.628|87.740|
92451277|NCT02710630|184789193|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|115.27|STANDARD_DEVIATION|38.4|||TWO_SIDED|90.0|99.063|134.13|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||134.130|99.063|
92451278|NCT02710630|184789193|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|83.73|STANDARD_DEVIATION|62.8|||TWO_SIDED|90.0|66.033|106.163|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||106.163|66.033|
92451279|NCT02710630|184789193|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|68.77|STANDARD_DEVIATION|50.3|||TWO_SIDED|90.0|56.452|83.782|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||83.782|56.452|
92451280|NCT02710630|184789193|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|107.13|STANDARD_DEVIATION|49.6|||TWO_SIDED|90.0|88.616|129.51|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||129.510|88.616|
92451281|NCT02710630|184789193|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|106.64|STANDARD_DEVIATION|38.9|||TWO_SIDED|90.0|91.625|124.114|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||124.114|91.625|
92451282|NCT01762761|184789220|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|26.08|||<|0.001|TWO_SIDED|95.0|7.29|93.26|||Regression, Logistic|||||93.26|7.29|<0.001
92451283|NCT01762761|184789221|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|23.8|||<|0.001|TWO_SIDED|95.0|8.54|66.33|||Regression, Logistic|||||66.33|8.54|<0.001
92451284|NCT01762761|184789222|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.52|||<|0.001|TWO_SIDED|95.0|3.84|18.94|||Regression, Logistic|||||18.94|3.84|<0.001
92451285|NCT01762761|184789223|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.28||||0.001|TWO_SIDED|95.0|0.13|0.59|||Mixed Models Analysis|||||0.59|0.13|0.001
92451286|NCT01762761|184789224|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.59||||0.306|TWO_SIDED|95.0|0.21|1.64|||Mixed Models Analysis|||||1.64|0.21|0.306
92451287|NCT01762761|184789225|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|6.12|||<|0.001|TWO_SIDED|95.0|4.01|9.34|||Log Rank|||||9.34|4.01|<0.001
92451288|NCT01762761|184789226|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.13|||<|0.001|TWO_SIDED|95.0|0.05|0.37|||Regression, Logistic|||||0.37|0.05|<0.001
92451289|NCT01762761|184789227|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|16.54||||0.008|TWO_SIDED|95.0|2.09|131.12|||Regression, Logistic|||||131.12|2.09|0.008
92172884|NCT03988634|184236623|SUPERIORITY||Rate ratio|0.6249||||0.3155|TWO_SIDED|95.0|0.2496|1.5649|||negative binomial regression model|||||1.5649|0.2496|0.3155
92172885|NCT03988634|184236624|SUPERIORITY||ratio of the change|0.9316||||0.4766|TWO_SIDED|95.0|0.7661|1.1329|||ANCOVA|||||1.1329|0.7661|0.4766
92172886|NCT03988634|184236625|SUPERIORITY||ratio of the change|0.8268|||<|0.0001|TWO_SIDED|95.0|0.76|0.91|||ANCOVA|||Week 4||0.91|0.76|<.0001
92172887|NCT03988634|184236625|SUPERIORITY||ratio of the change|0.8103|||<|0.0001|TWO_SIDED|95.0|0.74|0.89|||ANCOVA|||Week 8||0.89|0.74|<.0001
92182347|NCT03052517|184263587|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.794|1.167|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 450mg /QAW039 150mg||1.167|0.794|
92451290|NCT01762761|184789228|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||van Elteren stratified rank test|||||||<0.001
92451291|NCT01762761|184789229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||van Elteren stratified rank test|||||||<0.001
92451292|NCT03017508|184789250|SUPERIORITY||Mean Difference (Final Values)|-8.34|STANDARD_DEVIATION|18.34||0.056|TWO_SIDED||||||t-test, 2 sided|||Paired t-test on VAS scores during speech comparing sublingual riluzole to placebo||||0.056
92451293|NCT02162810|184789261|OTHER||||||<|0.62|||||||Fisher Exact|||Due to the number of 0 cell counts, it is not possible to do individual statistics for each complication, so we looked at the incidence of complications overall between the two arms.||||<.62
92451294|NCT02162810|184789262|OTHER||||||<|0.61|||||||Fisher Exact|||||||<0.61
92451295|NCT02162810|184789263|OTHER||||||<|0.87|||||||Fisher Exact|||Improvement category: Chordee with Degloving||||<.87
92451296|NCT02162810|184789263|OTHER||||||<|0.64|||||||Fisher Exact|||Improvement category: Ventral Chordee||||<.64
92451297|NCT02162810|184789263|OTHER||||||<|0.85|||||||Fisher Exact|||Improvement category: Chordee with Plication||||<.85
92451298|NCT00389324|184789269|NON_INFERIORITY_OR_EQUIVALENCE|The administration effect between SC and IV was assessed by exponentiation of the difference in least squares means between study phases (Test minus Reference) and the corresponding 90% confidence interval (CI) for the geometric LSM ratio between study phases (Test/Reference) for AUC. The Test (SC) was to be considered non-inferior to Reference (IV) if the lower bound of 90% CIs for the geometric LSM ratios of AUC between the Test and Reference was above 0.80 (80%).|Geometric Least Square Mean Ratio|0.888||||||90.0|0.861|0.917|||ANOVA||An adjusted steady-state area under the concentration vs. time curve following SC administration based on IV dosing schedule was calculated as AUC0-τ,SC multiplied by 3 or 4 for subjects on every-3-week or every-4-week IV dosing schedule.|The IV phase was considered as the Reference study phase and the SC phase as the Test study phase. The ANOVA included calculation of least-squares means (LSM), differences between adjusted means and the standard error associated with these differences.||0.917|0.861|
92451299|NCT02480621|184789368|SUPERIORITY||Mean Difference (Net)|1.74|||<|0.1|TWO_SIDED||||||t-test, 2 sided|||||||<0.10
92451300|NCT01975389|184789398|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.021469|TWO_SIDED|95.0|0.65|0.97|||Log Rank|||Hazard ratio and 95% Confidence Interval (CI) were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.97|0.65|0.021469
92451301|NCT01975389|184789399|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.007597|TWO_SIDED|95.0|0.6|0.93|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.93|0.60|0.007597
92451302|NCT01975389|184789400|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.035958|TWO_SIDED|95.0|0.68|0.99|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.99|0.68|0.035958
92451303|NCT01975389|184789401|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.015694|TWO_SIDED|95.0|0.64|0.95|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.95|0.64|0.015694
92451304|NCT01975389|184789402|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.814224|TWO_SIDED|95.0|0.62|1.46|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.46|0.62|0.814224
92451305|NCT01975389|184789403|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.018053|TWO_SIDED|95.0|0.65|0.96|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.96|0.65|0.018053
92451306|NCT01975389|184789404|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.446033|TWO_SIDED|95.0|0.5|1.36|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.36|0.50|0.446033
92451307|NCT01975389|184789405|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.029977|TWO_SIDED|95.0|0.57|0.97|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.97|0.57|0.029977
92451308|NCT01975389|184789406|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.162615|TWO_SIDED|95.0|0.14|1.44|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.44|0.14|0.162615
92451309|NCT01975389|184789407|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.051534|TWO_SIDED|95.0|0.59|1.0|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.00|0.59|0.051534
92451310|NCT01975389|184789408|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.104998|TWO_SIDED|95.0|0.41|1.09|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.09|0.41|0.104998
92451311|NCT01975389|184789409|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.294331|TWO_SIDED|95.0|0.5|1.24|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.24|0.50|0.294331
92451312|NCT01975389|184789411|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.104998|TWO_SIDED|95.0|0.41|1.09|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.09|0.41|0.104998
92451313|NCT01975389|184789412|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6012|TWO_SIDED|95.0|0.6|1.34|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.34|0.60|0.601200
92451314|NCT01975389|184789413|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.678061|TWO_SIDED|95.0|0.72|1.67|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.67|0.72|0.678061
92182348|NCT00910962|184263617|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.411|TWO_SIDED|95.0|0.46|1.38|||Cox' proportional hazards model|||||1.38|0.46|0.4110
92451315|NCT01975389|184789414|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.010457|TWO_SIDED|95.0|0.63|0.94|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.94|0.63|0.010457
92451316|NCT01975389|184789415|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.509847|TWO_SIDED|95.0|0.71|2.01|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||2.01|0.71|0.509847
92280925|NCT00818883|184464942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3|||<|0.001|TWO_SIDED|95.0|-6.3|-2.3||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-2.3|-6.3|<0.001
92451317|NCT01975389|184789416|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.002981|TWO_SIDED|95.0|0.58|0.9|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.90|0.58|0.002981
92451318|NCT01975389|184789417|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.748975|TWO_SIDED|95.0|0.7|1.3|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.30|0.70|0.748975
92451319|NCT01975389|184789418|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.626157|TWO_SIDED|95.0|0.63|1.32|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.32|0.63|0.626157
92451320|NCT01975389|184789419|SUPERIORITY||LS mean difference|-56.9|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|-57.91|-55.89|||MMRM|||Least square (LS) mean differences, associated 95% CI, and p-values were from an mixed model repeated measures (MMRM) model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-55.89|-57.91|<0.001
92451321|NCT01975389|184789420|SUPERIORITY||LS mean difference|-73.8|STANDARD_ERROR_OF_MEAN|0.67|<|0.001|TWO_SIDED|95.0|-75.11|-72.5|||MMRM|||LS mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-72.50|-75.11|<0.001
92451322|NCT01975389|184789421|SUPERIORITY||LS mean difference|-39.31|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-40.55|-38.06|||ANCOVA|||LS-mean difference, associated 95% CI, and p-value were from an analysis of covariance (ANCOVA) model with fixed effects for treatment group, baseline value, geographic region and complete statin intolerance.||-38.06|-40.55|<0.001
92451323|NCT01975389|184789422|SUPERIORITY||LS mean difference|-51.87|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|-52.81|-50.94|||MMRM|||Non-HDLC: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-50.94|-52.81|<0.001
92451324|NCT01975389|184789422|SUPERIORITY||LS mean difference|-18.41|STANDARD_ERROR_OF_MEAN|0.79|<|0.001|TWO_SIDED|95.0|-19.96|-16.86|||MMRM|||VLDL-C: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-16.86|-19.96|<0.001
92451325|NCT01975389|184789422|SUPERIORITY||LS mean difference|-29.2|STANDARD_ERROR_OF_MEAN|1.14|<|0.001|TWO_SIDED|95.0|-31.44|-26.96|||MMRM|||RLP-C: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-26.96|-31.44|<0.001
92451326|NCT01975389|184789422|SUPERIORITY||LS mean difference|-51.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-52.37|-50.42|||MMRM|||Apo B: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-50.42|-52.37|<0.001
92451327|NCT01975389|184789422|SUPERIORITY||LS mean difference|6.91|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|6.33|7.5|||MMRM|||HDL-C: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||7.50|6.33|<0.001
92451328|NCT01975389|184789422|SUPERIORITY||LS mean difference|4.4|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|3.9|4.9|||MMRM|||Apo A-I: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||4.90|3.90|<0.001
92451329|NCT01975389|184789422|SUPERIORITY||LS mean difference|-37.99|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-38.75|-37.22|||MMRM|||Total cholesterol: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-37.22|-38.75|<0.001
92451330|NCT01975389|184789423|SUPERIORITY||LS mean difference|0.82|||<|0.001|TWO_SIDED|95.0|0.81|0.83|||MMRM|||Triglycerides: LS-mean differences, associated 95% CI and p-values were from an MMRM model including observations through Week 70 on the difference of log-transformed observations with fixed effects for treatment group, visit, treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and complete statin intolerance. The 95% CI was derived by exponentiating the LS-mean difference confidence interval from the log scale.||0.83|0.81|<0.001
92451331|NCT01975389|184789423|SUPERIORITY||LS mean difference|0.68|||<|0.001|TWO_SIDED|95.0|0.67|0.69|||MMRM|||Lp(a): LS-mean differences, associated 95% CI and p-values were from an MMRM model on the Difference of log-transformed observations with fixed effects for treatment group, visit, a treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and complete statin intolerance. The 95% CI was derived by exponentiating the LS-mean difference confidence interval from the log scale.||0.69|0.67|<0.001
92182349|NCT00910962|184263617|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.9318|TWO_SIDED|95.0|0.6|1.74|||Cox' proportional hazards model|||||1.74|0.60|0.9318
92182350|NCT00910962|184263617|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6805|TWO_SIDED|95.0|0.56|1.46|||Cox' proportional hazards model|||||1.46|0.56|0.6805
92451332|NCT01975389|184789424|SUPERIORITY||LS mean difference|1.06||||0.002|TWO_SIDED|95.0|1.02|1.09|||MMRM|||LS-mean differences, associated 95% CI and p-values were from an MMRM model on the difference of log-transformed observations with fixed effects for treatment group, visit, treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and complete statin intolerance.||1.09|1.02|0.002
92451333|NCT03735862|184789432|OTHER|Paired t-Test|||||<|0.001|||||||t-test, 1 sided|||Difference between baseline and follow-up||||<0.001
92451334|NCT03735862|184789433|SUPERIORITY||||||<|0.0001|||||||McNemar|||Difference between baseline and follow-up||||<0.0001
92451335|NCT01720069|184789459|SUPERIORITY|||||||0.772|||||||ANCOVA|||||||0.772
92182351|NCT00910962|184263618|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.299|TWO_SIDED|95.0|0.39|1.34|||Cox' proportional hazards model|||||1.34|0.39|0.2990
92182352|NCT00910962|184263618|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.8235|TWO_SIDED|95.0|0.6|1.9|||Cox' proportional hazards model|||||1.90|0.60|0.8235
92451336|NCT01720069|184789460|SUPERIORITY|||||||0.891|||||||ANCOVA|||||||0.891
92451337|NCT01720069|184789461|SUPERIORITY|||||||0.066|||||||ANCOVA|||||||0.066
92451338|NCT01720069|184789462|SUPERIORITY|||||||0.063|||||||ANCOVA|||||||0.063
92451339|NCT01720069|184789463|SUPERIORITY|||||||0.054|||||||ANCOVA|||||||0.054
92451340|NCT01720069|184789464|SUPERIORITY|||||||0.168|||||||Fisher Exact|||||||0.168
92451341|NCT01720069|184789464|SUPERIORITY|||||||0.363|||||||Fisher Exact|||||||0.363
92451342|NCT01720069|184789464|SUPERIORITY|||||||0.805|||||||Fisher Exact|||||||0.805
92451343|NCT00360334|184789466|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.71|||<|0.001||95.0|2.62|8.46|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the primary outcome divided by the odds of a patient in the insulin glargine arm achieving the primary outcome||8.46|2.62|<0.001
92451344|NCT00360334|184789467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.76|||<|0.001||95.0|3.11|10.64|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||10.64|3.11|<0.001
92451345|NCT00360334|184789468|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92182353|NCT00910962|184263618|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.659|TWO_SIDED|95.0|0.52|1.51|||Cox' proportional hazards model|||||1.51|0.52|0.6590
92451346|NCT00360334|184789469|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.28||95.0|0.44|1.26|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||1.26|0.44|0.280
92451347|NCT00360334|184789470|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.191||95.0|0.42|1.19|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||1.19|0.42|0.191
92451348|NCT00360334|184789471|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43||||0.363||95.0|0.66|3.07|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||3.07|0.66|0.363
92451349|NCT00360334|184789473|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Model Repeated Measures|||||||<0.001
92182354|NCT00910962|184263624|SUPERIORITY||test to reference ratio|0.8||||0.151|TWO_SIDED|95.0|0.59|1.09|||Repeated measures ANCOVA|||||1.09|0.59|0.151
92451350|NCT00360334|184789474|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Model Repeated Measures|||||||<0.001
92451351|NCT00360334|184789475|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Model Repeated Measures|||||||<0.001
92451352|NCT00360334|184789476|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Model Repeated Measures|||||||<0.001
92451353|NCT00360334|184789477|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Repeated Measures|||||||<0.001
92451354|NCT00360334|184789478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.91||||0.001||95.0|3.7|210.54|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||210.54|3.70|0.001
92451355|NCT00360334|184789480|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Mixed Model Repeated Measures|||||||0.014
92451356|NCT00360334|184789481|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Mixed Model Repeated Measures|||||||0.100
92451357|NCT00360334|184789482|SUPERIORITY_OR_OTHER|||||||0.125||95.0|||||ANCOVA|||||||0.125
92451358|NCT00360334|184789483|SUPERIORITY_OR_OTHER|||||||0.471||95.0|||||ANCOVA|||||||0.471
92451359|NCT00360334|184789484|SUPERIORITY_OR_OTHER|||||||0.601||95.0|||||ANCOVA|||||||0.601
92451360|NCT00360334|184789485|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||ANCOVA|||||||0.650
92451361|NCT00360334|184789486|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||ANCOVA|||||||0.017
92451362|NCT00360334|184789487|SUPERIORITY_OR_OTHER|||||||0.667||95.0|||||ANCOVA|||||||0.667
92451363|NCT00360334|184789488|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.675||||0.139||95.0|0.401|1.136|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||1.136|0.401|0.139
92451364|NCT00360334|184789489|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.317||||0.001||95.0|0.159|0.63|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||0.630|0.159|0.001
92451365|NCT00360334|184789490|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.797||||0.716||95.0|0.235|2.705|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||2.705|0.235|0.716
92451366|NCT00360334|184789491|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||ANCOVA on ranks|||||||0.113
92451367|NCT00360334|184789492|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA on ranks|||||||<0.001
92451368|NCT00360334|184789493|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||ANCOVA on ranks|||||||0.740
92182355|NCT00910962|184263624|SUPERIORITY||test to reference ratio|0.95||||0.744|TWO_SIDED|95.0|0.7|1.29|||Repeated measures ANCOVA|||||1.29|0.70|0.744
92182356|NCT00910962|184263624|SUPERIORITY||test to treatment ratio|0.87||||0.317|TWO_SIDED|95.0|0.66|1.14|||Repeated measures ANCOVA|||||1.14|0.66|0.317
92451369|NCT00982020|184789515|SUPERIORITY_OR_OTHER|||||||0.15||||||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed model repeated measures analysis terms included baseline BMI, baseline age, gender, intervention group, visit, region, intervention group\*visit.||||||0.150
92451370|NCT00982020|184789516|SUPERIORITY_OR_OTHER|||||||0.52||||||The threshold for statistical significance was 0.05.|ANCOVA|ANCOVA model terms included: baseline, baseline age, gender, intervention group, and region.||||||0.520
92451371|NCT00982020|184789518|SUPERIORITY_OR_OTHER|||||||0.008||||||Threshold for statistical significance was 0.05|Mixed Models Analysis|MMRM analysis terms included baseline, intervention group, visit, region, and intervention group\*visit.||||||0.008
92451372|NCT00982020|184789519|SUPERIORITY_OR_OTHER|||||||0.266||||||The threshold for statistical significance was 0.05|Mixed Models Analysis|MMRM analysis terms included intervention group, visit, region, and intervention group\*visit.||||||0.266
92451373|NCT00982020|184789520|SUPERIORITY_OR_OTHER|||||||0.954||||||The threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM analysis terms included baseline, baseline age, gender, intervention group, visit, region, and intervention group\*visit.||||||0.954
92451374|NCT00982020|184789521|SUPERIORITY_OR_OTHER|||||||0.103||||||Threshold for statistical significance was 0.05|Mixed Models Analysis|MMRM analysis terms included baseline, intervention group, visit, region, and intervention group\*visit.||||||0.103
92451375|NCT00982020|184789522|SUPERIORITY_OR_OTHER|||||||0.436||||||The threshold for statistical significance was 0.05|Mixed Models Analysis|MMRM analysis terms included baseline, intervention group, visit, region, and intervention group\*visit.||||||0.436
92451376|NCT01381172|184789547|OTHER|The primary analysis employed a Bayesian repeated measures linear model to estimate group differences in mean pVO2 at 24 weeks from baseline, with 30% borrowing of information (70% down-weighting) from the corresponding treatment group difference observed in the FIX-5 study subgroup. The Bayesian posterior probability would need to be \> 0.975 to be considered a positive result with statistical significance.||||||0.975||||||The posterior probability (Pr) that the mean difference in pVO2 (Δ3) between device and control groups is greater than zero must exceed 0.975 to meet the primary effectiveness endpoint.|Bayesian posterior probability|||The FIX-HF-5C Study was a study designed to confirm the preliminary evidence reported in the FIX-HF-5 subgroup analysis demonstrating improvement in subjects with LVEF 25-45% and NYHA class III-IV. A Bayesian statistical approach was employed to leverage the data available, particularly the pVO2 results, from the FIX-HF-5 subgroup.||||0.975
92172888|NCT02995434|184236628|EQUIVALENCE|As reliable estimates of expected effect size were unknown, the study was powered to detect a medium effect (0.5 SD change), considered a reasonable clinically meaningful impact to obtain 80% power based on a repeated measures analysis of variance (RM ANOVA) with 2-tailed alpha of .05 model.|Mean Difference (Net)|-2.08|||||TWO_SIDED|95.0|-3.86|-0.3|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|Null hypothesis: There is no difference between the reported daily pain experiences of participants during, or after exposure to VR immersive environments, overall and within four different VR immersive environments, compared to the equivalent applications experienced on a 2D computer screen.||-0.30|-3.86|
92451377|NCT02753751|184789559|SUPERIORITY|The Mantel-Haenszel test was used, accounting for each hospital as an individual stratum, and to obtain the pooled relative risks across hospitals without adjusting for other baseline factors. (Alert arm is the numerator, control arm is the denominator.) Patients discharged prior to 14 days without an outcome of interest were assumed to be free of that outcome at 14 days. A p-value of \<=0.04 was considered statistically significant to account for the interim analysis.|Risk Ratio (RR)|1.02||||0.67|TWO_SIDED|95.0|0.93|1.13||A p-value of \<=0.04 was considered statistically significant to account for the interim analysis.|Cochran-Mantel-Haenszel|||In our retrospective analysis of patients with AKI at 3 potential study hospitals, the composite outcome was 24.5%. A clinically meaningful relative reduction in this risk would be 20%. 5,024 patients (2,512 in each group) would have 90% power to detect a difference in outcome at least this extreme at a two-sided alpha of 0.05 as calculated using the Cochran-Mantel-Haenszel test. We have elected to increase this number by 20% to account for potential contamination.||1.13|0.93|0.67
92451378|NCT02667912|184789568|SUPERIORITY||Mean Difference (Final Values)|10.8||||0.045|TWO_SIDED|95.0|0.3|21.4||The a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||21.4|0.3|0.045
92451379|NCT02667912|184789571|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
92451380|NCT02667912|184789572|OTHER|||||||0.203|||||||t-test, 2 sided|||||||0.203
92172889|NCT02995434|184236628|EQUIVALENCE|As reliable estimates of expected effect size were unknown, the study was powered to detect a medium effect (0.5 SD change), considered a reasonable clinically meaningful impact to obtain 80% power based on a repeated measures analysis of variance (RM ANOVA) with 2-tailed alpha of .05 model|Mean Difference (Net)|0.53|||||TWO_SIDED|95.0|-1.24|2.37|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||2.37|-1.24|
92182357|NCT00910962|184263625|SUPERIORITY||test to reference ratio|1.03||||0.83|TWO_SIDED|95.0|0.8|1.32|||ANCOVA|||||1.32|0.80|0.83
92451381|NCT02667912|184789573|SUPERIORITY||Mean Difference (Final Values)|-4.3||||0.27|TWO_SIDED|95.0|-11.9|3.4|||t-test, 2 sided|||||3.4|-11.9|0.27
92451382|NCT02667912|184789574|SUPERIORITY||Mean Difference (Final Values)|7.8|STANDARD_ERROR_OF_MEAN|5.7||0.17|TWO_SIDED|95.0|-3.7|19.3||The a priori threshold for statistical significance p\<0.05|t-test, 2 sided|||||19.3|-3.7|0.17
92451383|NCT02667912|184789577|SUPERIORITY|||||||0.213|||||||t-test, 2 sided|||||||0.213
92451384|NCT02667912|184789578|SUPERIORITY|||||||0.041|||||||t-test, 2 sided|||||||0.041
92451385|NCT02667912|184789579|OTHER|||||||0.304|||||||t-test, 2 sided|||||||0.304
92451386|NCT02667912|184789580|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
92451387|NCT02667912|184789581|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
92451388|NCT02667912|184789582|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
92451389|NCT02667912|184789583|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
92451390|NCT02667912|184789584|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92451391|NCT02667912|184789585|SUPERIORITY|||||||0.054|||||||t-test, 2 sided|||||||0.054
92451392|NCT02667912|184789586|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||||||0.204
92451393|NCT02667912|184789587|SUPERIORITY|||||||0.324|||||||t-test, 2 sided|||||||0.324
92451394|NCT02667912|184789588|SUPERIORITY|||||||0.217|||||||t-test, 2 sided|||||||0.217
92451395|NCT02667912|184789589|SUPERIORITY|||||||0.238|||||||t-test, 2 sided|||||||0.238
92451396|NCT02667912|184789590|SUPERIORITY|||||||0.969|||||||t-test, 2 sided|||||||0.969
92451397|NCT02667912|184789591|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||||||0.37
92280926|NCT00818883|184464942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.006|TWO_SIDED|95.0|-4.2|-0.7||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-0.7|-4.2|0.006
92451398|NCT01047683|184789598|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-33.1|||<|0.0001|TWO_SIDED|95.0|-46.6|-21.5||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.01 for the primary endpoint.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|A standard deviation of 45% in the TG measurements and a significance level of P \< 0.01 required a sample size of 69 completed patients per treatment group to provide greater than or equal to 90% power to detect a difference of 30% between AMR101 and placebo in the percentage of change from baseline in the fasting TG levels.||-21.5|-46.6|<0.0001
92451399|NCT01047683|184789598|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-19.7||||0.0051|TWO_SIDED|95.0|-33.3|-5.6|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-5.6|-33.3|0.0051
92451400|NCT01047683|184789599|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-28.6||||0.0005|TWO_SIDED|95.0|-43.4|-13.9||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05 for secondary and exploratory endpoints.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-13.9|-43.4|0.0005
92451401|NCT01047683|184789599|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-15.3||||0.1152|TWO_SIDED|95.0|-30.3|-0.7|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-0.7|-30.3|0.1152
92451402|NCT01047683|184789600|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-13.6||||0.0006|TWO_SIDED|95.0|-20.2|-6.3||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-6.3|-20.2|0.0006
92451403|NCT01047683|184789600|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-5.1||||0.2367|TWO_SIDED|95.0|-12.3|2.2|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||2.2|-12.3|0.2367
92451404|NCT01047683|184789601|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-8.5||||0.0019|TWO_SIDED|95.0|-13.5|-3.2||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-3.2|-13.5|0.0019
92172890|NCT02995434|184236629|EQUIVALENCE|See section for primary outcome.|Mean Difference (Net)|1.08|||||TWO_SIDED|95.0|-1.59|3.95|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||3.95|-1.59|
92172891|NCT02995434|184236629|EQUIVALENCE|See section on primary outcome|Mean Difference (Net)|2.16|||||TWO_SIDED|95.0|-0.55|5.08|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||5.08|-0.55|
92182358|NCT00910962|184263625|SUPERIORITY||test to reference ratio|1.08||||0.56|TWO_SIDED|95.0|0.84|1.39|||ANCOVA|||||1.39|0.84|0.56
92280927|NCT00818883|184464943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.8|||<|0.001|TWO_SIDED|95.0|-8.4|-3.2||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-3.2|-8.4|<0.001
92451405|NCT01047683|184789601|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-2.6||||0.2367|TWO_SIDED|95.0|-7.8|1.9|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||1.9|-7.8|0.2367
92451406|NCT01047683|184789602|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-2.3||||0.6768|TWO_SIDED|95.0|-12.9|8.1||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||8.1|-12.9|0.6768
92451407|NCT01047683|184789602|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|5.2||||0.3022|TWO_SIDED|95.0|-5.4|15.6|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||15.6|-5.4|0.3022
92451408|NCT01047683|184789603|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-17.7|||<|0.0001|TWO_SIDED|95.0|-25.0|-11.3||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-11.3|-25.0|<0.0001
92172892|NCT02995434|184236629|EQUIVALENCE|See section on primary outcome|Mean Difference (Net)|0.39|||||TWO_SIDED|95.0|-2.64|3.42|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||3.42|-2.64|
92172893|NCT02995434|184236629|EQUIVALENCE|See section on primary outcome|Mean Difference (Net)|2.56|||||TWO_SIDED|95.0|-0.08|5.48|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||5.48|-0.08|
92172894|NCT02995434|184236630|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|0.37|||||TWO_SIDED|95.0|-0.71|1.5|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||1.5|-0.71|
92172895|NCT02995434|184236630|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|0.62|||||TWO_SIDED|95.0|-0.49|1.89|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||1.89|-0.49|
92172896|NCT02995434|184236630|EQUIVALENCE|See comments in primary outcome|Mean Difference (Net)|-0.13|||||TWO_SIDED|95.0|-1.19|1.09|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||1.09|-1.19|
92172897|NCT02995434|184236630|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|0.33|||||TWO_SIDED|95.0|-0.88|1.57|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||1.57|-0.88|
92172898|NCT02995434|184236631|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|2.48|||||TWO_SIDED|95.0|0.02|4.7|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||4.70|0.02|
92280928|NCT00818883|184464943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2|||<|0.001|TWO_SIDED|95.0|-6.4|-2.0||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-2.0|-6.4|<0.001
92451409|NCT01047683|184789603|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-8.1||||0.0182|TWO_SIDED|95.0|-15.1|-1.4|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-1.4|-15.1|0.0182
92451410|NCT03447769|184789604|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.258|TWO_SIDED|95.0|0.78|1.14||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test.|||1.14|0.78|0.258
92451411|NCT03447769|184789609|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.676|TWO_SIDED|95.0|0.76|1.58||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test|PD-L1 \<1%||1.58|0.76|0.676
92172899|NCT02995434|184236631|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|2.04|||||TWO_SIDED|95.0|-0.42|4.39|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||4.39|-0.42|
92172900|NCT02995434|184236631|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|3.79|||||TWO_SIDED|95.0|1.02|6.08|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||6.08|1.02|
92172901|NCT02995434|184236631|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|3.18|||||TWO_SIDED|95.0|0.68|5.69|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||5.69|0.68|
92172902|NCT02995434|184236632|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|-2.31|||||TWO_SIDED|95.0|-5.63|0.98|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||0.98|-5.63|
92172903|NCT02995434|184236632|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|-3.9|||||TWO_SIDED|95.0|-7.35|-0.48|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||-0.48|-7.35|
92172904|NCT02995434|184236632|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|-0.87|||||TWO_SIDED|95.0|-4.11|2.62|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||2.62|-4.11|
92172905|NCT02995434|184236632|EQUIVALENCE|See comments in primary outcome|Median Difference (Net)|-2.95|||||TWO_SIDED|95.0|-6.1|0.41|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method.|||0.41|-6.10|
92182359|NCT00910962|184263625|SUPERIORITY||test to reference ratio|1.05||||0.65|TWO_SIDED|95.0|0.84|1.32|||ANCOVA|||||1.32|0.84|0.65
92280929|NCT00818883|184464944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|||<|0.001|TWO_SIDED|95.0|-5.5|-2.1||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-2.1|-5.5|<0.001
92451412|NCT03447769|184789609|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.036|TWO_SIDED|95.0|0.34|1.05||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test|PD-L1 ≥1% and \<49%||1.05|0.34|0.036
92451413|NCT03447769|184789609|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.823|TWO_SIDED|95.0|0.73|2.43||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test|PD-L1 ≥50%||2.43|0.73|0.823
92451414|NCT03447769|184789610|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.872|TWO_SIDED|95.0|0.87|1.72||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test.|CD8 \< median||1.72|0.87|0.872
92451415|NCT03447769|184789610|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.303|TWO_SIDED|95.0|0.62|1.33||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test.|CD8 ≥ median||1.33|0.62|0.303
92172906|NCT03400059|184236634|SUPERIORITY||Mean Difference (Final Values)|-2.23||||0.0132|TWO_SIDED|95.0|-4.11|-0.49||"analysis of covariance (ANCOVA) model containing terms for treatment, baseline value and medication overuse.~Group-sequential analysis using updated boundaries from interim analysis"|ANCOVA|||||-0.49|-4.11|0.0132
92172907|NCT03400059|184236635|SUPERIORITY||Mean Difference (Final Values)|-2.68||||0.0014|TWO_SIDED|95.0|-4.32|-1.04|||ANCOVA|ANCOVA model containing terms for treatment, baseline value and medication overuse||||-1.04|-4.32|0.0014
92172908|NCT03400059|184236636|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.0048|TWO_SIDED|95.0|-4.06|-0.73|||ANCOVA|ANCOVA model containing terms for treatment, baseline value and medication overuse||||-0.73|-4.06|0.0048
92172909|NCT03400059|184236637|SUPERIORITY||Mean Difference (Final Values)|-2.87||||0.0008|TWO_SIDED|95.0|-4.54|-1.2|||ANCOVA|ANCOVA model containing terms for treatment, baseline value and medication overuse.||||-1.20|-4.54|0.0008
92172910|NCT03400059|184236638|SUPERIORITY||Mean Difference (Final Values)|-1.53||||0.0598|TWO_SIDED|95.0|-3.12|0.06|||ANCOVA|ANCOVA model containing terms for treatment, baseline value and medication overuse.||||0.06|-3.12|0.0598
92172911|NCT03400059|184236639|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.031|TWO_SIDED|95.0|-3.63|-0.17|||ANCOVA|ANCOVA model containing terms for treatment, baseline value and medication overuse.||||-0.17|-3.63|0.0310
92172912|NCT03400059|184236640|SUPERIORITY|||||||0.0102|||||||Chi-squared|||||||0.0102
92241221|NCT01953328|184385754|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-74.27|STANDARD_ERROR_OF_MEAN|2.35|<|0.001|TWO_SIDED|95.0|-78.93|-69.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-69.60|-78.93|<0.001
92451416|NCT03029208|184789631|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than the pre-specified non-inferiority margin of -0.75 g/dL.|Least square (LS) mean difference|-0.1|||||TWO_SIDED|95.0|-0.34|0.14|||||An ANCOVA model including randomization stratification factors Baseline Hgb and treatment was performed to obtain a point estimate and two-sided 95% CI for the treatment difference (daprodustat-darbepoetin alfa).|||0.14|-0.34|
92451417|NCT03029208|184789632|SUPERIORITY||LS mean difference|19.4||||0.8949|TWO_SIDED|95.0|-11.0|49.9|||ANCOVA||An ANCOVA model was used to compare the difference in this average monthly IV iron dose between arms, including factors for Baseline dose, treatment and the randomization stratification factors.|||49.9|-11.0|0.8949
92451418|NCT03029208|184789633|SUPERIORITY||LS mean difference|3.23||||0.8168|TWO_SIDED|95.0|-3.82|10.27|||Mixed model repeated measures (MMRM)||The difference in change from Baseline in SBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||10.27|-3.82|0.8168
92451419|NCT03029208|184789633|SUPERIORITY||LS mean difference|4.21||||0.9793|TWO_SIDED|95.0|0.17|8.26|||MMRM||The difference in change from Baseline in DBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||8.26|0.17|0.9793
92451420|NCT03029208|184789633|SUPERIORITY||LS mean difference|4.1||||0.9597|TWO_SIDED|95.0|-0.51|8.7|||MMRM||The difference in change from Baseline in MAP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||8.70|-0.51|0.9597
92451421|NCT03029208|184789634|SUPERIORITY||LS mean difference|-0.09||||0.484|TWO_SIDED|95.0|-4.72|4.53|||ANCOVA||The difference in change from Baseline in SBP at the derived end of treatment was analyzed with an ANCOVA model including terms for treatment, prognostic randomization stratification factors.|||4.53|-4.72|0.4840
92172913|NCT03400059|184236641|SUPERIORITY|||||||0.1615|||||||Chi-squared|||||||0.1615
92172914|NCT03400059|184236642|SUPERIORITY|||||||0.0798|||||||Chi-squared|||||||0.0798
92172915|NCT03400059|184236643|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.1300
92172916|NCT03400059|184236644|SUPERIORITY||Median Difference (Final Values)|-1.0||||0.066|TWO_SIDED|||||posthoc|Van-Elteren|||||||0.0660
92172917|NCT03400059|184236645|SUPERIORITY||Median Difference (Final Values)|-2.0||||0.0152|TWO_SIDED|||||posthoc|Van-Elteren|||||||0.0152
92451422|NCT03029208|184789634|SUPERIORITY||LS mean difference|1.99||||0.9156|TWO_SIDED|95.0|-0.85|4.82|||ANCOVA||The difference in change from Baseline in DBP at the derived end of treatment was analyzed with an ANCOVA model including terms for treatment, prognostic randomization stratification factors.|||4.82|-0.85|0.9156
92451423|NCT03029208|184789634|SUPERIORITY||LS mean difference|1.29||||0.7966|TWO_SIDED|95.0|-1.76|4.33|||ANCOVA||The difference in change from Baseline in MAP at the derived end of treatment was analyzed with an ANCOVA model including terms for treatment, prognostic randomization stratification factors.|||4.33|-1.76|0.7966
92451424|NCT03029208|184789635|SUPERIORITY||Ratio of exacerbation rate|1.01||||0.5174|TWO_SIDED|95.0|0.73|1.39|||Negative binomial model||Model estimated exacerbation rates, ratio of model estimated exacerbation rates and CIs were estimated using a negative binomial model for the treatment group comparison.|||1.39|0.73|0.5174
92451425|NCT03029208|184789637|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than the pre-specified non-inferiority margin of -0.75 g/dL.|LS mean difference|0.04|||||TWO_SIDED|95.0|-0.29|0.36|||||The difference in change from Baseline in post-randomization Hgb at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||0.36|-0.29|
92451426|NCT03029208|184789638|SUPERIORITY||Difference in response rate|-0.8||||0.5411|TWO_SIDED|95.0|-12.2|10.7|||Cochran-Mantel-Haenszel||A Cochran-Mantel-Haenszel (CMH) test adjusted for treatment and randomization stratification factors were used to compare the number of responders between the treatment groups.|||10.7|-12.2|0.5411
92451427|NCT03029208|184789639|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% confidence interval for the treatment difference was greater than non-inferiority margin of -15%.|Median Difference (Final Values)|2.05|||||TWO_SIDED|95.0|-4.45|11.27|||||Hodges-Lehmann Estimate of Treatment Difference has been reported.|||11.27|-4.45|
92451428|NCT03029208|184789640|SUPERIORITY||Probability|0.54||||0.1538|TWO_SIDED|95.0|0.46|0.61|||van Elteren test||Mann-Whitney estimate (Probability) of the treatment effect has been presented.|||0.61|0.46|0.1538
92451429|NCT03029208|184789641|OTHER||Hazard Ratio (HR)|1.06||||0.5348|TWO_SIDED|95.0|0.31|3.66|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model adjusted for treatment group, dialysis type and dialysis start manner.|||3.66|0.31|0.5348
92280930|NCT00818883|184464944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|||<|0.001|TWO_SIDED|95.0|-4.1|-1.1||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-1.1|-4.1|<0.001
92280931|NCT02684578|184464964|SUPERIORITY|||||||0.39||||||The threshold for statistical significance was p = 0.05.|Linear mixed-effects regression|||||||0.39
92451430|NCT03029208|184789642|SUPERIORITY||LS mean difference|-0.39||||0.6641|TWO_SIDED|95.0|-2.22|1.44|||MMRM||SF-36 HRQoL PCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||1.44|-2.22|0.6641
92451431|NCT03029208|184789642|SUPERIORITY||LS mean difference|1.13||||0.103|TWO_SIDED|95.0|-0.63|2.89|||MMRM||SF-36 HRQoL PCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||2.89|-0.63|0.1030
92451432|NCT03029208|184789642|SUPERIORITY||LS mean difference|0.49||||0.3157|TWO_SIDED|95.0|-1.51|2.48|||MMRM||SF-36 HRQoL PCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||2.48|-1.51|0.3157
92451433|NCT03029208|184789642|SUPERIORITY||LS mean difference|-1.31||||0.8855|TWO_SIDED|95.0|-3.46|0.84|||MMRM||SF-36 HRQoL PCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||0.84|-3.46|0.8855
92451434|NCT03029208|184789643|SUPERIORITY||LS mean difference|-0.67||||0.7146|TWO_SIDED|95.0|-2.99|1.66|||MMRM||SF-36 HRQoL MCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||1.66|-2.99|0.7146
92451435|NCT03029208|184789643|SUPERIORITY||LS mean difference|-1.53||||0.905|TWO_SIDED|95.0|-3.82|0.76|||MMRM||SF-36 HRQoL MCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||0.76|-3.82|0.9050
92172918|NCT04150718|184236652|OTHER||||||<|0.05||||||a priori threshold for statistical significance set at \<0.05|ANOVA|Repeated measures ANOVA, main effect of time, F(1,35) =4.73||||||<0.05
92172919|NCT04150718|184236653|OTHER||||||<|0.05||||||a priori threshold for statistical significance set at p\<0.05.|ANOVA|Repeated Measures ANOVA, main effect of time, F(1,39) = 4.20||||||<0.05
92172920|NCT04150718|184236654|OTHER||||||<|0.001||||||a priori threshold for statistical significance set at p \<0.05|ANOVA|Repeated measures ANOVA interaction, F(1,48) = 61.849||||||<0.001
92172921|NCT02437318|184236660|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.00065|TWO_SIDED|95.0|0.5|0.85||(one-sided)|Log Rank|||||0.85|0.50|0.00065
92182360|NCT00910962|184263626|SUPERIORITY||Test to reference ratio|0.77||||0.04|TWO_SIDED|95.0|0.6|0.99|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For 24 hours||0.99|0.60|0.040
92182361|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.66||||0.001|TWO_SIDED|95.0|0.52|0.85|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For 24 hours||0.85|0.52|0.001
92182362|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.71||||0.003|TWO_SIDED|95.0|0.57|0.89|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For 24 hours||0.89|0.57|0.003
92182363|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.56|||<|0.001|TWO_SIDED|95.0|0.4|0.78|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For 48 hours||0.78|0.40|<0.001
92451436|NCT03029208|184789643|SUPERIORITY||LS mean difference|-0.32||||0.595|TWO_SIDED|95.0|-2.91|2.28|||MMRM||SF-36 HRQoL MCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||2.28|-2.91|0.5950
92451437|NCT03029208|184789643|SUPERIORITY||LS mean difference|-0.23||||0.5619|TWO_SIDED|95.0|-3.17|2.7|||MMRM||SF-36 HRQoL MCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||2.70|-3.17|0.5619
92451438|NCT03029208|184789644|SUPERIORITY||LS mean difference|0.14||||0.4523|TWO_SIDED|95.0|-2.21|2.49|||MMRM||SF-36 HRQoL bodily pain domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||2.49|-2.21|0.4523
92451439|NCT03029208|184789644|SUPERIORITY||LS mean difference|-0.07||||0.5222|TWO_SIDED|95.0|-2.57|2.43|||MMRM||SF-36 HRQoL bodily pain domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||2.43|-2.57|0.5222
92451440|NCT03029208|184789644|SUPERIORITY||LS mean difference|2.33||||0.044|TWO_SIDED|95.0|-0.35|5.02|||MMRM||SF-36 HRQoL bodily pain domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||5.02|-0.35|0.0440
92451441|NCT03029208|184789644|SUPERIORITY||LS mean difference|-2.61||||0.9523|TWO_SIDED|95.0|-5.68|0.46|||MMRM||SF-36 HRQoL bodily pain domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||0.46|-5.68|0.9523
92451442|NCT03029208|184789644|SUPERIORITY||LS mean difference|0.05||||0.4811|TWO_SIDED|95.0|-1.82|1.91|||MMRM||SF-36 HRQoL general health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||1.91|-1.82|0.4811
92451443|NCT03029208|184789644|SUPERIORITY||LS mean difference|0.28||||0.3834|TWO_SIDED|95.0|-1.56|2.11|||MMRM||SF-36 HRQoL general health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||2.11|-1.56|0.3834
92451444|NCT03029208|184789644|SUPERIORITY||LS mean difference|0.26||||0.3983|TWO_SIDED|95.0|-1.72|2.24|||MMRM||SF-36 HRQoL general health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||2.24|-1.72|0.3983
92451445|NCT03029208|184789644|SUPERIORITY||LS mean difference|-0.18||||0.5617|TWO_SIDED|95.0|-2.51|2.15|||MMRM||SF-36 HRQoL general health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||2.15|-2.51|0.5617
92172922|NCT06074523|184236682|EQUIVALENCE|Comparing three conditions in a basic science experiment in healthy adults.|partial eta squared|0.81|||<|0.001|TWO_SIDED||||||ANOVA|||Comparing Cued Suppression Task; Positive, Negative, and Neutral Cue condtions||||<.001
92172923|NCT06074523|184236683|EQUIVALENCE|P\<.05 criterion|cohen's d|0.24||||0.08|TWO_SIDED||||||t-test, 2 sided|||Comparing performance on target absent and target present trials||||.08
92172924|NCT06074523|184236684|OTHER||Slope|-0.37||||0.007|TWO_SIDED|95.0|-0.5803|-0.1135|||correlation|||Relationship between Cued Attention Negative Cue Benefit (Neutral Cue RT- Negative Cue RT) and working memory capacity.||-0.1135|-0.5803|.007
92172925|NCT06074523|184236685|OTHER||Slope|-0.27||||0.046|TWO_SIDED|95.0|-0.5015|-0.002414|||correlation|||Correlation of Inattentive Traits subscale and learned suppression (difference in RT between target absent and target present trials)||-0.002414|-0.5015|.046
92451446|NCT03029208|184789644|SUPERIORITY||LS mean difference|-1.15||||0.8336|TWO_SIDED|95.0|-3.48|1.18|||MMRM||SF-36 HRQoL mental health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||1.18|-3.48|0.8336
92172926|NCT02167867|184236688|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|||t=+7.76||||<0.0001
92451447|NCT03029208|184789644|SUPERIORITY||LS mean difference|-1.41||||0.9188|TWO_SIDED|95.0|-3.4|0.57|||MMRM||SF-36 HRQoL mental health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||0.57|-3.40|0.9188
92451448|NCT03029208|184789644|SUPERIORITY||LS mean difference|-0.48||||0.6495|TWO_SIDED|95.0|-2.96|1.99|||MMRM||SF-36 HRQoL mental health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||1.99|-2.96|0.6495
92451449|NCT03029208|184789644|SUPERIORITY||LS mean difference|-0.27||||0.5737|TWO_SIDED|95.0|-3.09|2.56|||MMRM||SF-36 HRQoL mental health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||2.56|-3.09|0.5737
92451450|NCT03029208|184789644|SUPERIORITY||LS mean difference|0.33||||0.3963|TWO_SIDED|95.0|-2.15|2.82|||MMRM||SF-36 HRQoL role-emotional domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||2.82|-2.15|0.3963
92451451|NCT03029208|184789644|SUPERIORITY||LS mean difference|0.62||||0.322|TWO_SIDED|95.0|-2.01|3.25|||MMRM||SF-36 HRQoL role-emotional domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||3.25|-2.01|0.3220
92451452|NCT03029208|184789644|SUPERIORITY||LS mean difference|0.53||||0.3485|TWO_SIDED|95.0|-2.13|3.18|||MMRM||SF-36 HRQoL role-emotional domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||3.18|-2.13|0.3485
92451453|NCT03029208|184789644|SUPERIORITY||LS mean difference|-1.49||||0.8064|TWO_SIDED|95.0|-4.87|1.9|||MMRM||SF-36 HRQoL role-emotional domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||1.90|-4.87|0.8064
92172927|NCT03683719|184236768|SUPERIORITY||||||<|0.001||||||"P-values were adjusted for multiple comparisons. Models with an adjusted p-value \<0.025 were statistically sign. different from a flat dose-response model. Model: IGA-CHE TS = Treatment + Region + Baseline IGA-CHE.~Model selected: Emax model"|Multiple contrast test|||The primary endpoint was evaluated by determining if there was a dose-response relationship between the IGA-CHE response rate at Week 16 and the dose administered, using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed and multiple comparison techniques were used to choose the model(s) most likely to represent the true underlying dose-response curve.||||<0.001
92182364|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.47|||<|0.001|TWO_SIDED|95.0|0.33|0.65|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For 48 hours||0.65|0.33|<0.001
92182365|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.51|||<|0.001|TWO_SIDED|95.0|0.38|0.69|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For 48 hours||0.69|0.38|<0.001
92182366|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.68||||0.059|TWO_SIDED|95.0|0.45|1.01|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For 72 hours||1.01|0.45|0.059
92182367|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.6||||0.013|TWO_SIDED|95.0|0.4|0.9|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For 72 hours||0.90|0.40|0.013
92182368|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.64||||0.015|TWO_SIDED|95.0|0.45|0.92|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For 72 hours||0.92|0.45|0.015
92451454|NCT03029208|184789644|SUPERIORITY||LS mean difference|-1.29||||0.8687|TWO_SIDED|95.0|-3.57|0.98|||MMRM||SF-36 HRQoL role-physical domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||0.98|-3.57|0.8687
92451455|NCT03029208|184789644|SUPERIORITY||LS mean difference|0.71||||0.2435|TWO_SIDED|95.0|-1.29|2.7|||MMRM||SF-36 HRQoL role-physical domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||2.70|-1.29|0.2435
92451456|NCT03029208|184789644|SUPERIORITY||LS mean difference|-0.87||||0.7747|TWO_SIDED|95.0|-3.15|1.41|||MMRM||SF-36 HRQoL role-physical domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||1.41|-3.15|0.7747
92451457|NCT03029208|184789644|SUPERIORITY||LS mean difference|-0.73||||0.7141|TWO_SIDED|95.0|-3.26|1.81|||MMRM||SF-36 HRQoL role-physical domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||1.81|-3.26|0.7141
92451458|NCT03029208|184789644|SUPERIORITY||LS mean difference|-1.03||||0.7803|TWO_SIDED|95.0|-3.65|1.59|||MMRM||SF-36 HRQoL social functioning domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||1.59|-3.65|0.7803
92451459|NCT03029208|184789644|SUPERIORITY||LS mean difference|-1.18||||0.8556|TWO_SIDED|95.0|-3.35|1.0|||MMRM||SF-36 HRQoL social functioning domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||1.00|-3.35|0.8556
92172928|NCT03683719|184236768|SUPERIORITY||Risk Difference (RD)|13.29|||>|0.05|TWO_SIDED|95.0|0.34|26.24||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue medication before Week 16 were considered missing and imputed as non-responders (as were any other missing data).|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline IGA-CHE score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative that there is a difference.||26.24|0.34|>0.05
92172929|NCT03683719|184236768|SUPERIORITY||Risk Difference (RD)|-0.03|||>|0.05|TWO_SIDED|95.0|-10.44|10.39||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue medication before Week 16 were considered missing and imputed as non-responders (as were any other missing data).|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline IGA-CHE score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative that there is a difference.||10.39|-10.44|>0.05
92182369|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.7||||0.073|TWO_SIDED|95.0|0.48|1.03|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 2||1.03|0.48|0.073
92182370|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.7||||0.075|TWO_SIDED|95.0|0.48|1.04|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 2||1.04|0.48|0.075
92182371|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.7||||0.044|TWO_SIDED|95.0|0.5|0.99|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 2||0.99|0.50|0.044
92451460|NCT03029208|184789644|SUPERIORITY||LS mean difference|0.08||||0.4763|TWO_SIDED|95.0|-2.61|2.77|||MMRM||SF-36 HRQoL social functioning domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||2.77|-2.61|0.4763
92451461|NCT03029208|184789644|SUPERIORITY||LS mean difference|0.73||||0.3208|TWO_SIDED|95.0|-2.35|3.8|||MMRM||SF-36 HRQoL social functioning domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||3.80|-2.35|0.3208
92241222|NCT01953328|184385755|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-74.85|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-80.22|-69.47||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-69.47|-80.22|<0.001
92451462|NCT03029208|184789645|SUPERIORITY||LS mean difference|-1.02||||0.791|TWO_SIDED|95.0|-3.5|1.46|||MMRM||SF-36 HRQoL vitality domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||1.46|-3.50|0.7910
92451463|NCT03029208|184789645|SUPERIORITY||LS mean difference|-1.45||||0.8648|TWO_SIDED|95.0|-4.03|1.14|||MMRM||SF-36 HRQoL vitality domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||1.14|-4.03|0.8648
92451464|NCT03029208|184789646|SUPERIORITY||LS mean difference|-0.28||||0.5879|TWO_SIDED|95.0|-2.75|2.19|||MMRM||SF-36 HRQoL physical functioning domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||2.19|-2.75|0.5879
92451465|NCT03029208|184789646|SUPERIORITY||LS mean difference|-1.43||||0.8525|TWO_SIDED|95.0|-4.12|1.26|||MMRM||SF-36 HRQoL physical functioning domain scor was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||1.26|-4.12|0.8525
92451466|NCT03029208|184789647|SUPERIORITY||LS mean difference|0.03||||0.3154|TWO_SIDED|95.0|-0.09|0.14|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.14|-0.09|0.3154
92451467|NCT03029208|184789648|SUPERIORITY||LS mean difference|-3.4||||0.7651|TWO_SIDED|95.0|-12.7|5.9|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||5.9|-12.7|0.7651
92280932|NCT02684578|184464965|SUPERIORITY|||||||0.97||||||The threshold for statistical significance was p = 0.05.|Linear mixed-effects|||||||0.97
92280933|NCT02684578|184464966|SUPERIORITY|||||||0.12||||||The threshold for statistical significance was p = 0.05.|Linear mixed-effects|||||||0.12
92280934|NCT00625807|184464987|OTHER||||||>|0.1||||||Cohen's d = 0.5|ANOVA|||ANOVA for group by time interaction||||> 0.1
92451468|NCT03029208|184789649|SUPERIORITY||LS mean difference|-6.43||||0.9875|TWO_SIDED|95.0|-12.05|-0.82|||MMRM||Tired/Low energy/Weak domain: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||-0.82|-12.05|0.9875
92451469|NCT03029208|184789649|SUPERIORITY||LS mean difference|-4.11||||0.9663|TWO_SIDED|95.0|-8.52|0.3|||MMRM||Chest pain/Shortness of breath domain: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.30|-8.52|0.9663
92451470|NCT03029208|184789649|SUPERIORITY||LS mean difference|-6.6||||0.993|TWO_SIDED|95.0|-11.84|-1.35|||MMRM||Cognitive domain: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||-1.35|-11.84|0.9930
92451471|NCT03029208|184789649|SUPERIORITY||LS mean difference|-3.03||||0.8765|TWO_SIDED|95.0|-8.19|2.12|||MMRM||Shortness of breath, no activity: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||2.12|-8.19|0.8765
92451472|NCT03029208|184789649|SUPERIORITY||LS mean difference|-4.27||||0.9464|TWO_SIDED|95.0|-9.48|0.94|||MMRM||Severity-short breath, Resting: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.94|-9.48|0.9464
92451473|NCT03029208|184789649|SUPERIORITY||LS mean difference|-5.31||||0.9101|TWO_SIDED|95.0|-13.09|2.47|||MMRM||Difficulty standing for long time: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||2.47|-13.09|0.9101
92451474|NCT03029208|184789649|SUPERIORITY||LS mean difference|-6.52||||0.9586|TWO_SIDED|95.0|-13.9|0.86|||MMRM||Difficulty sleeping: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.86|-13.90|0.9586
92451475|NCT03029208|184789650|SUPERIORITY||LS mean difference|0.27||||0.981|TWO_SIDED|95.0|0.02|0.53|||MMRM||MMRM model was fitted from Baseline up to Week 8 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.53|0.02|0.9810
92451476|NCT03029208|184789650|SUPERIORITY||LS mean difference|0.05||||0.6743|TWO_SIDED|95.0|-0.17|0.26|||MMRM||MMRM model was fitted from Baseline up to Week 12 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.26|-0.17|0.6743
92172930|NCT03683719|184236768|SUPERIORITY||Risk Difference (RD)|28.22|||<|0.001|TWO_SIDED|95.0|13.8|42.64||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue medication before Week 16 were considered missing and imputed as non-responders (as were any other missing data).|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline IGA-CHE score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative that there is a difference.||42.64|13.8|<0.001
92172931|NCT03683719|184236768|SUPERIORITY||Risk Difference (RD)|29.61|||<|0.001|TWO_SIDED|95.0|14.56|44.67||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue medication before Week 16 were considered missing and imputed as non-responders (as were any other missing data).|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline IGA-CHE score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative that there is a difference.||44.67|14.56|<0.001
92172932|NCT03683719|184236769|SUPERIORITY||||||<|0.0001||||||"P-values were adjusted for multiple comparisons. Models with an adj. p-value \<0.025 were statistically sign. different from a flat dose-response model. Model: Change = Treatment + Baseline + Region + Baseline IGA-CHE.~Model selected: Emax model"|Multiple contrast test|||"The secondary endpoint Change from baseline to Week 16 in HECSI score was evaluated by determining if there was a dose-response relationship between the change from baseline in HECSI score at Week 16 and the dose administered, using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed and multiple comparison techniques were used to choose the model(s) most likely to represent the true underlying dose-response curve."||||<0.0001
92172933|NCT03683719|184236769|SUPERIORITY||Mean Difference (Net)|-13.41|||<|0.01|TWO_SIDED|95.0|-22.82|-4.01||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. before Week 16 were considered missing and imputed with MMRM predicted values (as were any other missing data).|Mixed Models Analysis|||"Least Square (LS) Means were calculated using a mixed model for repeated measurements on the post-baseline responses up to Week 16 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom, and the mean modelled as follows:~Change from baseline in HECSI~= treatment × visit + baseline HECSI × visit + region + baseline IGA-CHE.~The primary comparison between each active delgocitinib dose and vehicle was at Week 16."||-4.01|-22.82|<0.01
92172934|NCT03683719|184236769|SUPERIORITY||Mean Difference (Net)|-9.53|||<|0.05|TWO_SIDED|95.0|-19.04|-0.02||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. before Week 16 were considered missing and imputed with MMRM predicted values (as were any other missing data).|Mixed Models Analysis|||"Least Square (LS) Means were calculated using a mixed model for repeated measurements on the post-baseline responses up to Week 16 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom, and the mean modelled as follows:~Change from baseline in HECSI~= treatment × visit + baseline HECSI × visit + region + baseline IGA-CHE.~The primary comparison between each active delgocitinib dose and vehicle was at Week 16."||-0.02|-19.04|<0.05
92172935|NCT03683719|184236769|SUPERIORITY||Mean Difference (Net)|-20.29|||<|0.0001|TWO_SIDED|95.0|-29.56|-11.02||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. before Week 16 were considered missing and imputed with MMRM predicted values (as were any other missing data).|Mixed Models Analysis|||"Least Square (LS) Means were calculated using a mixed model for repeated measurements on the post-baseline responses up to Week 16 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom, and the mean modelled as follows:~Change from baseline in HECSI~= treatment × visit + baseline HECSI × visit + region + baseline IGA-CHE.~The primary comparison between each active delgocitinib dose and vehicle was at Week 16."||-11.02|-29.56|<0.0001
92182372|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.78||||0.157|TWO_SIDED|95.0|0.55|1.1|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 4||1.10|0.55|0.157
92182373|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.9||||0.548|TWO_SIDED|95.0|0.63|1.28|||ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 4||1.28|0.63|0.548
92182374|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.83||||0.253|TWO_SIDED|95.0|0.61|1.14|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 4||1.14|0.61|0.253
92182375|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.8||||0.204|TWO_SIDED|95.0|0.58|1.13|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 8||1.13|0.58|0.204
92182376|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.99||||0.965|TWO_SIDED|95.0|0.71|1.39|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 8||1.39|0.71|0.965
92182377|NCT00910962|184263626|SUPERIORITY||test to reference ratio|0.89||||0.457|TWO_SIDED|95.0|0.66|1.2|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 8||1.20|0.66|0.457
92280935|NCT00625807|184464988|OTHER|||||||0.103|||||||ANOVA|||||||0.103
92451477|NCT03029208|184789650|SUPERIORITY||LS mean difference|0.16||||0.8997|TWO_SIDED|95.0|-0.09|0.4|||MMRM||MMRM model was fitted from Baseline up to Week 28 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.40|-0.09|0.8997
92451478|NCT03029208|184789650|SUPERIORITY||LS mean difference|0.18||||0.8835|TWO_SIDED|95.0|-0.12|0.47|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.47|-0.12|0.8835
92280936|NCT00625807|184464989|OTHER|||||||0.022|||||||t-test, 2 sided|||within group change pre to week 8||||.022
92280937|NCT00625807|184464989|OTHER|within group change from pre to week 8|||||<|0.001|||||||t-test, 2 sided|||||||<.001
92280938|NCT00625807|184464990|OTHER|||||||0.015|||||||t-test, 2 sided|||within group change from pre to week 8||||.015
92182378|NCT00910962|184263626|SUPERIORITY||test to reference ratio|1.58||||0.008|TWO_SIDED|95.0|1.13|2.22|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 14||2.22|1.13|0.008
92280939|NCT00625807|184464990|OTHER|||||||0.53|||||||t-test, 2 sided|||within group change from pre to week 8||||.53
92280940|NCT00625807|184464991|OTHER|||||||0.06|||||||t-test, 2 sided|||within group change from pre to week 8||||.06
92280941|NCT00625807|184464991|OTHER||||||<|0.001|||||||t-test, 2 sided|||within group change from pre to post||||<.001
92280942|NCT01966042|184464992|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Friedman test (n=13)|||||||< 0.001
92451479|NCT03893448|184789654|OTHER||Percentage Point Difference|-4.8|||=|0.039|TWO_SIDED|95.0|-9.3|-0.2|||Miettinen & Nurminen||V114-Prevnar 13™|Injection site erythema Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.2|-9.3|= 0.039
92451480|NCT03893448|184789654|OTHER||Percentage Point Difference|-0.4|||=|0.836|TWO_SIDED|95.0|-4.6|3.7|||Miettinen & Nurminen||V114-Prevnar 13™|Injection site induration Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||3.7|-4.6|= 0.836
92451481|NCT03893448|184789654|OTHER||Percentage Point Difference|2.9|||=|0.235|TWO_SIDED|95.0|-1.9|7.6|||Miettinen & Nurminen||V114-Prevnar 13™|Injection site pain Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||7.6|-1.9|= 0.235
92451482|NCT03893448|184789654|OTHER||Percentage Point Difference|2.4|||=|0.26|TWO_SIDED|95.0|-1.7|6.5|||Miettinen & Nurminen||V114-Prevnar 13™|Injection site swelling Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||6.5|-1.7|= 0.260
92451483|NCT03893448|184789655|OTHER||Percentage Point Difference|-1.8|||=|0.446|TWO_SIDED|95.0|-6.3|2.8|||Miettinen & Nurminen||V114-Prevnar 13™|Decreased appetite Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||2.8|-6.3|= 0.446
92451484|NCT03893448|184789655|OTHER||Percentage Point Difference|1.0|||=|0.622|TWO_SIDED|95.0|-3.0|5.1|||Miettinen & Nurminen||V114-Prevnar 13™|Irritability Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||5.1|-3.0|= 0.622
92451485|NCT03893448|184789655|OTHER||Percentage Point Difference|-3.0|||=|0.202|TWO_SIDED|95.0|-7.6|1.6|||Miettinen & Nurminen||V114-Prevnar 13™|Somnolence (drowsiness) Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||1.6|-7.6|= 0.202
92451486|NCT03893448|184789655|OTHER||Percentage Point Difference|0.0|||=|0.985|TWO_SIDED|95.0|-2.4|2.3|||Miettinen & Nurminen||V114-Prevnar 13™|Urticaria (Hives) Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||2.3|-2.4|= 0.985
92451487|NCT03893448|184789656|OTHER||Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.4|0.4|||||V114-Prevnar 13™|Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||0.4|-0.4|
92182379|NCT00910962|184263626|SUPERIORITY||test to reference ratio|1.69||||0.002|TWO_SIDED|95.0|1.21|2.38|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 14||2.38|1.21|0.002
92182380|NCT00910962|184263626|SUPERIORITY||test to reference ratio|1.64||||0.001|TWO_SIDED|95.0|1.21|2.21|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 14||2.21|1.21|0.001
92182381|NCT00910962|184263627|SUPERIORITY||test to reference ratio|0.54|||<|0.001|TWO_SIDED|95.0|0.43|0.69|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For 24 hours||0.69|0.43|<0.001
92182382|NCT00910962|184263627|SUPERIORITY||test to reference ratio|0.64|||<|0.001|TWO_SIDED|95.0|0.5|0.82|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For 24 hours||0.82|0.50|<0.001
92182383|NCT00910962|184263627|SUPERIORITY||test to reference ratio|0.59|||<|0.001|TWO_SIDED|95.0|0.48|0.73|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For 24 hours||0.73|0.48|<0.001
92451488|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-3.4|||<|0.001|TWO_SIDED|95.0|-5.2|-1.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 1 Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-1.8|-5.2|< 0.001
92451489|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|15.6|||<|0.001|TWO_SIDED|95.0|12.1|19.2||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 3 Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||19.2|12.1|< 0.001
92451490|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-2.2|||<|0.001|TWO_SIDED|95.0|-4.0|-0.6||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 4 Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.6|-4.0|< 0.001
92451491|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-2.1|||<|0.001|TWO_SIDED|95.0|-4.2|-0.2||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 5 Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.2|-4.2|< 0.001
92451492|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-4.9|||<|0.001|TWO_SIDED|95.0|-7.1|-3.0||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 6A Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-3.0|-7.1|< 0.001
92241223|NCT01953328|184385755|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-69.91|STANDARD_ERROR_OF_MEAN|2.36|<|0.001|TWO_SIDED|95.0|-74.6|-65.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-65.23|-74.60|<0.001
92241224|NCT01953328|184385755|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-78.85|STANDARD_ERROR_OF_MEAN|3.88|<|0.001|TWO_SIDED|95.0|-83.55|-68.15||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-68.15|-83.55|<0.001
92241225|NCT01953328|184385755|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-66.87|STANDARD_ERROR_OF_MEAN|3.03|<|0.001|TWO_SIDED|95.0|-72.88|-60.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-60.87|-72.88|<0.001
92241226|NCT01953328|184385756|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-89.3|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|-98.4|-80.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-80.2|-98.4|<0.001
92241227|NCT01953328|184385756|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-86.3|STANDARD_ERROR_OF_MEAN|4.4|<|0.001|TWO_SIDED|95.0|-95.1|-77.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-77.5|-95.1|<0.001
92451493|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-3.4|||<|0.001|TWO_SIDED|95.0|-6.6|-0.3||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 6B Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.3|-6.6|< 0.001
92172936|NCT03683719|184236769|SUPERIORITY||Mean Difference (Net)|-15.59|||<|0.01|TWO_SIDED|95.0|-24.82|-6.36||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. before Week 16 were considered missing and imputed with MMRM predicted values (as were any other missing data).|Mixed Models Analysis|||"Least Square (LS) Means were calculated using a mixed model for repeated measurements on the post-baseline responses up to Week 16 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom, and the mean modelled as follows:~Change from baseline in HECSI~= treatment × visit + baseline HECSI × visit + region + baseline IGA-CHE.~The primary comparison between each active delgocitinib dose and vehicle was at Week 16."||-6.36|-24.82|<0.01
92241228|NCT01953328|184385756|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.7|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-75.3|-62.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.1|-75.3|<0.001
92241229|NCT01953328|184385756|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-72.0|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-79.5|-64.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-64.6|-79.5|<0.001
92241230|NCT01953328|184385757|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-90.8|STANDARD_ERROR_OF_MEAN|5.1|<|0.001|TWO_SIDED|95.0|-100.9|-80.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-80.7|-100.9|<0.001
92241231|NCT01953328|184385757|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-83.6|STANDARD_ERROR_OF_MEAN|4.5|<|0.001|TWO_SIDED|95.0|-92.5|-74.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-74.8|-92.5|<0.001
92241232|NCT01953328|184385757|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-69.6|STANDARD_ERROR_OF_MEAN|3.5|<|0.001|TWO_SIDED|95.0|-76.5|-62.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.6|-76.5|<0.001
92280943|NCT00266409|184464998|SUPERIORITY_OR_OTHER|||||||0.1143||95.0|||||Generalized Wilcoxon|||This analysis refers to the test of the null hypothesis that there is no difference in the survival distribution function between the treatment groups.||||0.1143
92451494|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-1.9|-0.1||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 7F Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.1|-1.9|< 0.001
92172937|NCT03683719|184236770|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline IGA-CHE score. An event was defined as the first time achieving IGA-CHE TS.|||||<|0.05||||||"IGA-CHE TS was reached in less than 50% of participants, therefore the median time was not estimable.~The statistical test was not controlled for multiplicity."|Log Rank|||Time to IGA-CHE TS was defined as the time from the date of the first IMP application to first assessment of IGA-CHE TS. Subjects without baseline observation were censored at the date of the first IMP application. Subjects with baseline observation not achieving IGA-CHE TS during the treatment period were censored at the date of the last visit with a valid post-baseline assessment on or prior to the date of discontinuation of IMP or initiation of rescue medication, whichever occurred first.||||<0.05
92451495|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-1.0|||<|0.001|TWO_SIDED|95.0|-2.8|0.6||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 9V Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||0.6|-2.8|< 0.001
92451496|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-1.6|1.6||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 14 Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||1.6|-1.6|< 0.001
92451497|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-2.6|0.7||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 18C Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||0.7|-2.6|< 0.001
92451498|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-1.8|||<|0.001|TWO_SIDED|95.0|-3.2|-0.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 19A Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.8|-3.2|< 0.001
92451499|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-1.0|||<|0.001|TWO_SIDED|95.0|-2.1|-0.4||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 19F Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.4|-2.1|< 0.001
92451500|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-0.3|||<|0.001|TWO_SIDED|95.0|-3.2|2.7||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 23F Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||2.7|-3.2|< 0.001
92451501|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|6.7|||<|0.001|TWO_SIDED|95.0|4.6|9.2||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 22F This analysis represents the difference between response rate to Serotype 22F in recipients of V114 and lowest response (Serotype 23F at 91.8) in recipients of Prevnar 13™ for shared serotypes, excluding serotype 3. Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||9.2|4.6|< 0.001
92451502|NCT03893448|184789657|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-4.5|||<|0.001|TWO_SIDED|95.0|-7.8|-1.3||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 33F This analysis represents the difference between response rate to Serotype 33F in recipients of V114 and lowest response (Serotype 23F at 91.8) in recipients of Prevnar 13™ for shared serotypes, excluding serotype 3. Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-1.3|-7.8|< 0.001
92451503|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.64|||<|0.001|TWO_SIDED|95.0|0.59|0.69|||t-test, 1 sided||V114/Prevnar 13™|Serotype 1 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.69|0.59|< 0.001
92182384|NCT00910962|184263627|SUPERIORITY||test to reference ratio|0.76||||0.031|TWO_SIDED|95.0|0.59|0.98|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 2||0.98|0.59|0.031
92451504|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|1.73|||<|0.001|TWO_SIDED|95.0|1.61|1.87|||t-test, 1 sided||V114/Prevnar 13™|Serotype 3 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.87|1.61|< 0.001
92451505|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.95|||<|0.001|TWO_SIDED|95.0|0.88|1.03|||t-test, 1 sided||V114/Prevnar 13™|Serotype 4 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.03|0.88|< 0.001
92280944|NCT00266409|184464998|SUPERIORITY_OR_OTHER|||||||0.4544||95.0|||||Generalized Wilcoxon|||This analysis refers to the test of the null hypothesis that there is no difference in the survival distribution function between the treatment groups.||||0.4544
92451506|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.72|||<|0.001|TWO_SIDED|95.0|0.66|0.8|||t-test, 1 sided||V114/Prevnar 13™|Serotype 5 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.80|0.66|< 0.001
92451507|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.52|||=|0.167|TWO_SIDED|95.0|0.48|0.58|||t-test, 1 sided||V114/Prevnar 13™|Serotype 6A GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.58|0.48|= 0.167
92451508|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.81|||<|0.001|TWO_SIDED|95.0|0.71|0.93|||t-test, 1 sided||V114/Prevnar 13™|Serotype 6B GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.93|0.71|< 0.001
92451509|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.77|||<|0.001|TWO_SIDED|95.0|0.71|0.83|||t-test, 1 sided||V114/Prevnar 13™|Serotype 7F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.83|0.71|< 0.001
92451510|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.91|||<|0.001|TWO_SIDED|95.0|0.84|1.0|||t-test, 1 sided||V114/Prevnar 13™|Serotype 9V GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.00|0.84|< 0.001
92451511|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.7|||<|0.001|TWO_SIDED|95.0|0.63|0.78|||t-test, 1 sided||V114/Prevnar 13™|Serotype 14 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.78|0.63|< 0.001
92451512|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.76|||<|0.001|TWO_SIDED|95.0|0.7|0.83|||t-test, 1 sided||V114/Prevnar 13™|Serotype 18C GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.83|0.70|< 0.001
92451513|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.71|||<|0.001|TWO_SIDED|95.0|0.65|0.77|||t-test, 1 sided||V114/Prevnar 13™|Serotype 19A GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.77|0.65|< 0.001
92182385|NCT00910962|184263627|SUPERIORITY||test to reference ratio|0.88||||0.315|TWO_SIDED|95.0|0.68|1.13|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 2||1.13|0.68|0.315
92280945|NCT00266409|184464999|SUPERIORITY_OR_OTHER|||||||0.0173||95.0|||||ANCOVA|||ANCOVA with treatment as a fixed effect and baseline total HAM-A score as a covariate||||0.0173
92280946|NCT00266409|184464999|SUPERIORITY_OR_OTHER|||||||0.0516||95.0|||||ANCOVA|||ANCOVA with treatment as a fixed effect and baseline total HAM-A score as a covariate||||0.0516
92280947|NCT00266409|184465000|SUPERIORITY_OR_OTHER|||||||0.0361||95.0||||P-value based on ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.0361
92182386|NCT00910962|184263627|SUPERIORITY||test to reference ratio|0.82||||0.075|TWO_SIDED|95.0|0.65|1.02|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 2||1.02|0.65|0.075
92182387|NCT00910962|184263627|SUPERIORITY||test to reference ratio|0.81||||0.068|TWO_SIDED|95.0|0.65|1.02|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 12||1.02|0.65|0.068
92182388|NCT00910962|184263627|SUPERIORITY||test to reference ratio|0.97||||0.824|TWO_SIDED|95.0|0.78|1.22|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 12||1.22|0.78|0.824
92451514|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.74|||<|0.001|TWO_SIDED|95.0|0.69|0.79|||t-test, 1 sided||V114/Prevnar 13™|Serotype 19F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.79|0.69|< 0.001
92451515|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.89|||<|0.001|TWO_SIDED|95.0|0.8|0.99|||t-test, 1 sided||V114/Prevnar 13™|Serotype 23F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.99|0.80|< 0.001
92280948|NCT00266409|184465000|SUPERIORITY_OR_OTHER|||||||0.0366||95.0||||P-value based on ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.0366
92451516|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|3.64|||<|0.001|TWO_SIDED|95.0|3.33|3.98|||t-test, 1 sided||V114/Prevnar 13™|Serotype 22F IgG GMC for Serotype 22F in recipients of V114 was compared to lowest IgG GMC (Serotype 4 at 1.35 ug/mL) for shared serotype in recipients of Prevnar 13™, excluding serotype 3. GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||3.98|3.33|< 0.001
92451517|NCT03893448|184789658|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|1.24|||<|0.001|TWO_SIDED|95.0|1.1|1.39|||t-test, 1 sided||V114/Prevnar 13™|Serotype 33F IgG GMC for Serotype 33F in recipients of V114 was compared to lowest IgG GMC (Serotype 4 at 1.35 ug/mL) for shared serotype in recipients of Prevnar 13™, excluding serotype 3. GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.39|1.10|< 0.001
92451518|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.66|||<|0.001|TWO_SIDED|95.0|0.62|0.72|||t-test, 1 sided||V114/Prevnar 13™|Serotype 1 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.72|0.62|< 0.001
92451519|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|1.35|||<|0.001|TWO_SIDED|95.0|1.25|1.46|||t-test, 1 sided||V114/Prevnar 13™|Serotype 3 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.46|1.25|< 0.001
92451520|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.77|||<|0.001|TWO_SIDED|95.0|0.71|0.84|||t-test, 1 sided||V114/Prevnar 13™|Serotype 4 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.84|0.71|< 0.001
92451521|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.63|||<|0.001|TWO_SIDED|95.0|0.58|0.69|||t-test, 1 sided||V114/Prevnar 13™|Serotype 5 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.69|0.58|< 0.001
92451522|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.6|||<|0.001|TWO_SIDED|95.0|0.54|0.65|||t-test, 1 sided||V114/Prevnar 13™|Serotype 6A GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.65|0.54|< 0.001
92451523|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.74|||<|0.001|TWO_SIDED|95.0|0.67|0.81|||t-test, 1 sided||V114/Prevnar 13™|Serotype 6B GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.81|0.67|< 0.001
92241233|NCT01953328|184385757|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-65.5|STANDARD_ERROR_OF_MEAN|4.2|<|0.001|TWO_SIDED|95.0|-73.8|-57.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-57.1|-73.8|<0.001
92241234|NCT01953328|184385758|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.67|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|-73.06|-64.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-64.27|-73.06|<0.001
92241235|NCT01953328|184385758|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-65.95|STANDARD_ERROR_OF_MEAN|1.91|<|0.001|TWO_SIDED|95.0|-69.74|-62.16||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.16|-69.74|<0.001
92241236|NCT01953328|184385758|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.14|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-73.3|-62.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.99|-73.30|<0.001
92241237|NCT01953328|184385758|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-67.28|STANDARD_ERROR_OF_MEAN|1.94|<|0.001|TWO_SIDED|95.0|-71.14|-63.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-63.42|-71.14|<0.001
92241238|NCT01953328|184385759|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.93|STANDARD_ERROR_OF_MEAN|2.54|<|0.001|TWO_SIDED|95.0|-73.96|-63.89||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-63.89|-73.96|<0.001
92241239|NCT01953328|184385759|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-63.58|STANDARD_ERROR_OF_MEAN|2.2|<|0.001|TWO_SIDED|95.0|-67.96|-59.21||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-59.21|-67.96|<0.001
92241240|NCT01953328|184385759|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.82|STANDARD_ERROR_OF_MEAN|3.01|<|0.001|TWO_SIDED|95.0|-74.79|-62.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.86|-74.79|<0.001
92241241|NCT01953328|184385759|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.89|STANDARD_ERROR_OF_MEAN|2.47|<|0.001|TWO_SIDED|95.0|-65.78|-55.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-55.99|-65.78|<0.001
92280949|NCT00266409|184465001|SUPERIORITY_OR_OTHER|||||||0.739||95.0||||P-value based on ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.7390
92451524|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.7|||<|0.001|TWO_SIDED|95.0|0.65|0.77|||t-test, 1 sided||V114/Prevnar 13™|Serotype 7F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.77|0.65|< 0.001
92182389|NCT00910962|184263627|SUPERIORITY||test to reference ratio|0.89||||0.246|TWO_SIDED|95.0|0.73|1.09|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 12||1.09|0.73|0.246
92451525|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.73|||<|0.001|TWO_SIDED|95.0|0.67|0.8|||t-test, 1 sided||V114/Prevnar 13™|Serotype 9V GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.80|0.67|< 0.001
92451526|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.81|||<|0.001|TWO_SIDED|95.0|0.73|0.89|||t-test, 1 sided||V114/Prevnar 13™|Serotype 14 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.89|0.73|< 0.001
92451527|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.85|||<|0.001|TWO_SIDED|95.0|0.78|0.93|||t-test, 1 sided||V114/Prevnar 13™|Serotype 18C GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.93|0.78|< 0.001
92451528|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.74|||<|0.001|TWO_SIDED|95.0|0.68|0.8|||t-test, 1 sided||V114/Prevnar 13™|Serotype 19A GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.80|0.68|< 0.001
92451529|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.79|||<|0.001|TWO_SIDED|95.0|0.74|0.86|||t-test, 1 sided||V114/Prevnar 13™|Serotype 19F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.86|0.74|< 0.001
92451530|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.61|||<|0.001|TWO_SIDED|95.0|0.56|0.68|||t-test, 1 sided||V114/Prevnar 13™|Serotype 23F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.68|0.56|< 0.001
92182390|NCT00910962|184263628|SUPERIORITY||test to reference ratio|1.04||||0.66|TWO_SIDED|95.0|0.89|1.21|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For 72 hours||1.21|0.89|0.66
92182391|NCT00910962|184263628|SUPERIORITY||test to reference ratio|1.07||||0.39|TWO_SIDED|95.0|0.92|1.25|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For 72 hours||1.25|0.92|0.39
92182392|NCT00910962|184263628|SUPERIORITY||test to reference ratio|1.05||||0.47|TWO_SIDED|95.0|0.92|1.21|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For 72 hours||1.21|0.92|0.47
92280950|NCT00266409|184465001|SUPERIORITY_OR_OTHER|||||||0.6735||95.0||||P-value based on ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.6735
92172938|NCT03683719|184236770|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline IGA-CHE score. An event was defined as the first time achieving IGA-CHE TS.|||||>|0.1||||||"IGA-CHE TS was reached in less than 50% of participants, therefore the median time was not estimable.~The statistical test was not controlled for multiplicity."|Log Rank|||Time to IGA-CHE TS was defined as the time from the date of the first IMP application to first assessment of IGA-CHE TS. Subjects without baseline observation were censored at the date of the first IMP application. Subjects with baseline observation not achieving IGA-CHE TS during the treatment period were censored at the date of the last visit with a valid post-baseline assessment on or prior to the date of discontinuation of IMP or initiation of rescue medication, whichever occurred first.||||>0.1
92182393|NCT00910962|184263629|SUPERIORITY||test to reference ratio|0.99||||0.92|TWO_SIDED|95.0|0.78|1.25|||Repeated measures ANCOVA|||||1.25|0.78|0.92
92182394|NCT00910962|184263629|SUPERIORITY||test to reference ratio|1.08||||0.52|TWO_SIDED|95.0|0.85|1.36|||Repeated measures ANCOVA|||||1.36|0.85|0.52
92280951|NCT00266409|184465002|SUPERIORITY_OR_OTHER|||||||0.4261||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.4261
92280952|NCT00266409|184465002|SUPERIORITY_OR_OTHER|||||||0.0231||95.0||||P-value based on ANCOVA with treatment as a fixed effect and baseline HAM-A score as a covariate|ANCOVA|||||||0.0231
92280953|NCT00266409|184465003|SUPERIORITY_OR_OTHER|||||||0.182||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and total HAM-A score as a covariate|ANCOVA|||||||0.1820
92172939|NCT03683719|184236770|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline IGA-CHE score. An event was defined as the first time achieving IGA-CHE TS.|||||<|0.0001||||||The statistical test was not controlled for multiplicity.|Log Rank|||Time to IGA-CHE TS was defined as the time from the date of the first IMP application to first assessment of IGA-CHE TS. Subjects without baseline observation were censored at the date of the first IMP application. Subjects with baseline observation not achieving IGA-CHE TS during the treatment period were censored at the date of the last visit with a valid post-baseline assessment on or prior to the date of discontinuation of IMP or initiation of rescue medication, whichever occurred first.||||<0.0001
92280954|NCT00266409|184465003|SUPERIORITY_OR_OTHER|||||||0.2187||95.0||||P-value based on ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as covariate|ANCOVA|||||||0.2187
92172940|NCT03683719|184236770|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline IGA-CHE score. An event was defined as the first time achieving IGA-CHE TS.|||||<|0.01||||||The statistical test was not controlled for multiplicity.|Log Rank|||Time to IGA-CHE TS was defined as the time from the date of the first IMP application to first assessment of IGA-CHE TS. Subjects without baseline observation were censored at the date of the first IMP application. Subjects with baseline observation not achieving IGA-CHE TS during the treatment period were censored at the date of the last visit with a valid post-baseline assessment on or prior to the date of discontinuation of IMP or initiation of rescue medication, whichever occurred first.||||<0.01
92182395|NCT00910962|184263629|SUPERIORITY||test to reference ratio|1.03||||0.76|TWO_SIDED|95.0|0.84|1.27|||Repeated measures ANCOVA|||||1.27|0.84|0.76
92182396|NCT00910962|184263630|SUPERIORITY||test to reference ratio|0.93||||0.57|TWO_SIDED|95.0|0.72|1.2|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For discharge/early withdrawal||1.20|0.72|0.57
92182397|NCT00910962|184263630|SUPERIORITY||test to reference ratio|0.92||||0.52|TWO_SIDED|95.0|0.72|1.18|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For discharge/early withdrawal||1.18|0.72|0.52
92182398|NCT00910962|184263630|SUPERIORITY||test to reference ratio|0.92||||0.5|TWO_SIDED|95.0|0.74|1.16|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For discharge/early withdrawal||1.16|0.74|0.50
92182399|NCT00910962|184263630|SUPERIORITY||test to reference ratio|0.73||||0.03|TWO_SIDED|95.0|0.55|0.96|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 12||0.96|0.55|0.03
92182400|NCT00910962|184263630|SUPERIORITY||test to reference ratio|0.81||||0.14|TWO_SIDED|95.0|0.61|1.07|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 12||1.07|0.61|0.14
92182401|NCT00910962|184263630|SUPERIORITY||test to reference ratio|0.76||||0.04|TWO_SIDED|95.0|0.6|0.98|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 12||0.98|0.60|0.04
92182402|NCT00910962|184263631|SUPERIORITY||Mean Difference (Final Values)|-1.92||||0.254|TWO_SIDED|95.0|-5.25|1.41|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Day 3-5 (visit 1)||1.41|-5.25|0.254
92182403|NCT00910962|184263631|SUPERIORITY||Mean Difference (Final Values)|-2.84||||0.106|TWO_SIDED|95.0|-6.29|0.62|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Day 3-5 (visit 1)||0.62|-6.29|0.106
92182404|NCT00910962|184263631|SUPERIORITY||Mean Difference (Final Values)|-2.38||||0.126|TWO_SIDED|95.0|-5.44|0.69|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Day 3-5 (visit 1)||0.69|-5.44|0.126
92182405|NCT00910962|184263631|SUPERIORITY||Mean Difference (Final Values)|-1.91||||0.184|TWO_SIDED|95.0|-4.74|0.92|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 12||0.92|-4.74|0.184
92182406|NCT00910962|184263631|SUPERIORITY||Mean Difference (Final Values)|-2.47||||0.093|TWO_SIDED|95.0|-5.37|0.43|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 12||0.43|-5.37|0.093
92182407|NCT00910962|184263631|SUPERIORITY||Mean Difference (Final Values)|-2.19||||0.096|TWO_SIDED|95.0|-4.78|0.4|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 12||0.40|-4.78|0.096
92182408|NCT00910962|184263632|SUPERIORITY||Mean Difference (Final Values)|4.22||||0.124|TWO_SIDED|95.0|-1.18|9.62|||Repeated measures ANCOVA|||||9.62|-1.18|0.124
92182409|NCT00910962|184263632|SUPERIORITY||Mean Difference (Final Values)|6.05||||0.029|TWO_SIDED|95.0|0.63|11.47|||Repeated measures ANCOVA|||||11.47|0.63|0.029
92182410|NCT00910962|184263632|SUPERIORITY||Mean Difference (Final Values)|5.14||||0.039|TWO_SIDED|95.0|0.28|10.0|||Repeated measures ANCOVA|||||10.00|0.28|0.039
92182411|NCT00910962|184263633|SUPERIORITY||Mean Difference (Final Values)|-21.53||||0.025|TWO_SIDED|95.0|-40.27|-2.79|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For LVEDV||-2.79|-40.27|0.025
92182412|NCT00910962|184263633|SUPERIORITY||Mean Difference (Final Values)|-18.65||||0.053|TWO_SIDED|95.0|-37.58|0.29|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For LVEDV||0.29|-37.58|0.053
92182413|NCT00910962|184263633|SUPERIORITY||Mean Difference (Final Values)|-20.09||||0.021|TWO_SIDED|95.0|-37.01|-3.18|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For LVEDV||-3.18|-37.01|0.021
92182414|NCT00910962|184263633|SUPERIORITY||Mean Difference (Final Values)|-15.82||||0.024|TWO_SIDED|95.0|-29.51|-2.14|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For LVESV||-2.14|-29.51|0.024
92182415|NCT00910962|184263633|SUPERIORITY||Mean Difference (Final Values)|-17.22||||0.016|TWO_SIDED|95.0|-31.14|-3.29|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For LVESV||-3.29|-31.14|0.016
92182416|NCT00910962|184263633|SUPERIORITY||Mean Difference (Final Values)|-16.52||||0.01|TWO_SIDED|95.0|-28.91|-4.13|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For LVESV||-4.13|-28.91|0.010
92182417|NCT00910962|184263634|SUPERIORITY||Mean Difference (Final Values)|-22.21||||0.109|TWO_SIDED|95.0|-49.51|5.09|||Repeated measures ANCOVA|||||5.09|-49.51|0.109
92182418|NCT00910962|184263634|SUPERIORITY||Mean Difference (Final Values)|-7.13||||0.614|TWO_SIDED|95.0|-35.22|20.96|||Repeated measures ANCOVA|||||20.96|-35.22|0.614
92182419|NCT00910962|184263634|SUPERIORITY||Mean Difference (Final Values)|-14.67||||0.243|TWO_SIDED|95.0|-39.52|10.18|||Repeated measures ANCOVA|||||10.18|-39.52|0.243
92182420|NCT00910962|184263635|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.023|TWO_SIDED|95.0|-0.44|-0.03|||Repeated measures ANCOVA|||||-0.03|-0.44|0.023
92172941|NCT05081583|184236771|OTHER||AUC ratio (geometric mean)|0.88|||||TWO_SIDED|90.0|0.82|0.96||||||The predefined no effect range was 0.80-1.25; that is, if the geometric mean ratio lay outside this range, a pharmacokinetic interaction was evident.||0.96|0.82|
92172942|NCT05081583|184236772|OTHER|The predefined no effect range was 0.80-1.25; that is, if the geometric mean ratio lay outside this range, a pharmacokinetic interaction was evident.|Cmax ratio (geometric mean)|0.93|||||TWO_SIDED|90.0|0.85|1.01||||||||1.01|0.85|
92172943|NCT05081583|184236773|OTHER||Half-life ratio (geometric mean)|1.01|||||TWO_SIDED|90.0|0.93|1.07||||||||1.07|0.93|
92172944|NCT05081583|184236774|OTHER||Renal clearance ratio (geometric mean)|0.97|||||TWO_SIDED|90.0|0.84|1.12||||||||1.12|0.84|
92172945|NCT05081583|184236775|OTHER||AUC ratio (geometric mean)|0.97|||||TWO_SIDED|90.0|0.81|1.15||||||||1.15|0.81|
92182421|NCT00910962|184263635|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.021|TWO_SIDED|95.0|-0.45|-0.04|||Repeated measures ANCOVA|||||-0.04|-0.45|0.021
92182422|NCT00910962|184263635|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.011|TWO_SIDED|95.0|-0.42|-0.06|||Repeated measures ANCOVA|||||-0.06|-0.42|0.011
92241242|NCT01953328|184385760|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-64.44|STANDARD_ERROR_OF_MEAN|2.04|<|0.001|TWO_SIDED|95.0|-68.49|-60.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-60.39|-68.49|<0.001
92182423|NCT00910962|184263636|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.137|TWO_SIDED|95.0|-0.26|0.04|||Repeated measures ANCOVA|||||0.04|-0.26|0.137
92182424|NCT00910962|184263636|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.036|TWO_SIDED|95.0|-0.32|-0.01|||Repeated measures ANCOVA|||||-0.01|-0.32|0.036
92182425|NCT00910962|184263636|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.047|TWO_SIDED|95.0|-0.28|0.0|||Repeated measures ANCOVA|||||-0.00|-0.28|0.047
92182426|NCT00195819|184263637|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.1||||0.06||95.0|-0.5|40.7|||Chi-squared|||||40.7|-0.5|0.060
92182427|NCT00195819|184263680|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.42||0.387||95.0|||||ANCOVA|||||||0.387
92182428|NCT05794191|184263696|SUPERIORITY||Vaccine effectiveness percentage|22.438|||||TWO_SIDED|95.0|5.425|36.391||||||||36.391|5.425|
92182429|NCT05794191|184263697|SUPERIORITY||Vaccine effectiveness percentage|34.985|||||TWO_SIDED|95.0|13.249|51.275||||||||51.275|13.249|
92182430|NCT05794191|184263698|SUPERIORITY||Vaccine effectiveness percentage|-5.284|||||TWO_SIDED|95.0|-50.408|26.302||||||||26.302|-50.408|
92182431|NCT05794191|184263699|SUPERIORITY||Vaccine effectiveness percentage|9.274|||||TWO_SIDED|95.0|-46.883|43.961||||||||43.961|-46.883|
92182432|NCT05794191|184263700|SUPERIORITY||Vaccine effectiveness percentage|17.169|||||TWO_SIDED|95.0|3.994|28.536||||||||28.536|3.994|
92182433|NCT05794191|184263701|SUPERIORITY||Vaccine effectiveness percentage|25.526|||||TWO_SIDED|95.0|9.4|38.781||||||||38.781|9.400|
92182434|NCT05794191|184263702|SUPERIORITY||Vaccine effectiveness percentage|-7.561|||||TWO_SIDED|95.0|-42.076|18.569||||||||18.569|-42.076|
92182435|NCT05794191|184263703|SUPERIORITY||Vaccine effectiveness percentage|11.442|||||TWO_SIDED|95.0|-34.916|41.871||||||||41.871|-34.916|
92182436|NCT05794191|184263704|SUPERIORITY||Vaccine effectiveness percentage|8.435|||||TWO_SIDED|95.0|5.705|11.086||||||||11.086|5.705|
92182437|NCT05794191|184263705|SUPERIORITY||Vaccine effectiveness percentage|11.445|||||TWO_SIDED|95.0|8.089|14.679||||||||14.679|8.089|
92182438|NCT05794191|184263706|SUPERIORITY||Vaccine effectiveness percentage|7.125|||||TWO_SIDED|95.0|1.427|12.493||||||||12.493|1.427|
92172946|NCT03519581|184236795|OTHER|The primary statistical analysis was an intention-to-treat analysis. The primary outcome was analyzed by Kruskal-Wallis test because the data was non-parametric.||||||0.76|||||||Kruskal-Wallis|||The target sample size for the study was 30 eyes, based on power calculations to achieve 80% power assuming 40% of sham-treated eyes will reach the vision loss threshold within 2 years, while SML treatment will reduce that value to 15%, using a 2:1 ratio for randomization (2 treatment : 1 sham).||||.76
92172947|NCT03519581|184236796|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||||||.16
92172948|NCT03519581|184236797|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||.12
92172949|NCT03519581|184236798|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||.68
92172950|NCT03519581|184236799|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||.96
92172951|NCT03519581|184236800|SUPERIORITY|Two-tailed t-tests and mixed effects regression models||||||0.5|||||||t-test, 2 sided|||||||.50
92172952|NCT04410042|184236818|EQUIVALENCE|Two-sided test at 0.05 level.||||||0.4|||||||Wilcoxon rank sum test|||||||0.4000
92172953|NCT04410042|184236819|EQUIVALENCE|Two-sided test at 0.05 level.||||||0.4286|||||||Wilcoxon rank sum test|||||||0.4286
92172954|NCT04410042|184236820|EQUIVALENCE|Two-sided test at 0.05 level.||||||0.9307|||||||Wilcoxon rank sum test|||||||0.9307
92172955|NCT04410042|184236821|EQUIVALENCE|Two-sided test at 0.05 level.||||||0.0714|||||||Wilcoxon rank sum test|||||||0.0714
92172956|NCT04410042|184236822|EQUIVALENCE|Two-sided test at 0.05 level.||||||0.9004|||||||Wilcoxon rank sum test|||||||0.9004
92172957|NCT05486078|184236846|OTHER|Repeated measures ANOVA||||||0.001|||||||ANOVA|||Hip abduction strength was analyzed using repeated measures ANOVA. The assumption of sphericity was tested and Bonferroni correction was applied for pairwise comparisons. A p-value \< 0.001 was considered statistically significant.||||0.001
92172958|NCT05486078|184236847|OTHER|McNemar Exact Test|||||<|0.0001||||||P-value derived from McNemar exact test comparing binary outcome (improved vs. unchanged). Statistical significance threshold set at p \< 0.05.|McNemar|McNemar Exact Test||MRI improvement was assessed using paired evaluation of inflammatory signs (edema) at baseline and Week 24. McNemar exact test was used for within-subject categorical comparison.||||< 0.0001
92172959|NCT05486078|184236848|OTHER|Friedman Test Within-group||||||0.992|||||||Friedman Test Within-group|||Analgesic use (units/week) was analyzed over time using the Friedman test for repeated measures. No significant variation across follow-up visits was found.||||0.992
92172960|NCT03978871|184236855|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p = 0.05.|ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect.||||<0.001
92172961|NCT03978871|184236856|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.023|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect.||||0.023
92172962|NCT03978871|184236856|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.034|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.034
92172963|NCT03978871|184236857|SUPERIORITY|The threshold for statistical significance was p = 0.0.5|||||<|0.001|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect.||||<.001
92172964|NCT03978871|184236857|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.002|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.002
92172965|NCT03978871|184236858|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.227|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education). This is a test of between-subjects effect.||||0.227
92172966|NCT03978871|184236859|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.272|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect for accuracy (Growth Mindset vs. Brain Education). This is a test of between-subjects effect.||||0.272
92172967|NCT03978871|184236860|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.217|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) for the ERS emotion regulation involuntary dysregulation subscale post psycho-educational lesson. This is a test of between-subjects effect.||||0.217
92172968|NCT03978871|184236860|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.458|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) for the ERS emotion regulation involuntary dysregulation subscale post psycho-educational lesson. This is a test of between-subjects effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.458
92172969|NCT03978871|184236860|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.037|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) for the ERS emotion regulation proactive engagement subscale post psycho-educational lesson. This is a test of between-subjects effect.||||0.037
92172970|NCT03978871|184236860|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.107|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) for the ERS emotion regulation proactive engagement subscale post psycho-educational lesson. This is a test of between-subjects effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.107
92182439|NCT05794191|184263707|SUPERIORITY||Vaccine effectiveness percentage|-3.716|||||TWO_SIDED|95.0|-12.626|4.488||||||||4.488|-12.626|
92182440|NCT05794191|184263708|SUPERIORITY||Vaccine effectiveness percentage|13.685|||||TWO_SIDED|95.0|10.213|17.022||||||IPTW\*IPCW + imbalanced variables: 0-3 years||17.022|10.213|
92280955|NCT00266409|184465004|SUPERIORITY_OR_OTHER|||||||0.1456||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.1456
92172971|NCT03978871|184236860|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.369|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) for the ERS emotion regulation cognitive avoidance subscale post psycho-educational lesson. This is a test of between-subjects test.||||0.369
92172972|NCT03978871|184236861|SUPERIORITY|Data were collected using a Siemens Prisma MRI 3T scanner and preprocessed with fMRIprep. An ROI mask was generated from left and right amygdala of the AAL1.V4 atlas. First-level contrast estimates (negative immerse \> neutral immerse) for each voxel within the ROI were averaged with MarsBaR to produce a single value for each person. A two-sample t-test was conducted in R to test for differences across intervention groups (mindset vs control).||||||0.265||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(146) = -1.12||||||0.265
92172973|NCT03978871|184236862|SUPERIORITY|Data were collected using a Siemens Prisma MRI 3T scanner and preprocessed with fMRIprep. An ROI mask was generated from left and right amygdala of the AAL1.V4 atlas. First-level contrast estimates (negative \> neutral) for each voxel within the ROI were averaged with MarsBaR to produce a single value for each person. A two-sample t-test was conducted in R to test for differences across intervention groups (mindset vs control).||||||0.96||||||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|t(145) = -0.53||||||0.96
92451531|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|4.69|||<|0.001|TWO_SIDED|95.0|4.3|5.11|||t-test, 1 sided||V114/Prevnar 13™|Serotype 22F IgG GMC for Serotype 22F in recipients of V114 was compared to the lowest IgG GMC (Serotype 4 at 1.60 ug/mL) for shared serotype in recipients of Prevnar 13™, excluding serotype 3. GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||5.11|4.30|< 0.001
92451532|NCT03893448|184789659|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|2.59|||<|0.001|TWO_SIDED|95.0|2.36|2.83|||t-test, 1 sided||V114/Prevnar 13™|Serotype 33F IgG GMC for Serotype 33F in recipients of V114 was compared to the lowest IgG GMC (Serotype 4 at 1.60 ug/mL) for shared serotype in recipients of Prevnar 13™, excluding serotype 3. GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||2.83|2.36|< 0.001
92451533|NCT03893448|184789660|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|-0.7|||<|0.001|TWO_SIDED|95.0|-2.6|1.1||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Diphtheria toxoid % ≥0.1 IU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||1.1|-2.6|< 0.001
92451534|NCT03893448|184789660|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.4|0.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Tetanus toxoid: % ≥0.1 IU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.8|-0.4|< 0.001
92451535|NCT03893448|184789660|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|0.5|||<|0.001|TWO_SIDED|95.0|-0.7|1.9||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Pertussis toxin (PT): % ≥ 5 EU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||1.9|-0.7|< 0.001
92451536|NCT03893448|184789660|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|-0.3|||<|0.001|TWO_SIDED|95.0|-1.3|0.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Pertussis filamentous hemagglutinin (FHA): % ≥5 EU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.8|-1.3|< 0.001
92172974|NCT03978871|184236863|SUPERIORITY|Data were preprocessed in fMRIprep. Separate right/left amygdala seeds were defined with the AAL1 atlas. Interaction regressors were created between seeds and task conditions. Average contrast estimates for interaction terms of relevant trials (negative reframe \> negative immerse) were extracted with MarsBaR from 15 ROIs in the FPN of a modified Schaefer atlas and the 30 values averaged. A two-sample t-test was conducted in R to compare average connectivity between groups (mindset vs control).||||||0.76||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(146) = -.3047||||||0.76
92172975|NCT03978871|184236864|SUPERIORITY|Data were preprocessed in fMRIprep. Separate right/left amygdala seeds were defined with the AAL1 atlas. Interaction regressors were created between seeds and task conditions. Average contrast estimates for interaction terms of relevant trials (negative \> neutral) were extracted with MarsBaR from 15 ROIs in the FPN of a modified Schaefer atlas and the 30 values averaged. A two-sample t-test was conducted in R to compare average connectivity between groups (mindset vs control).||||||0.048||||||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|t(145) = 1.998, p = .048||||||.048
92182441|NCT05794191|184263708|SUPERIORITY||Vaccine effectiveness percentage|7.665|||||TWO_SIDED|95.0|1.707|13.261||||||IPTW\*IPCW + imbalanced variables: 3-5 years||13.261|1.707|
92182442|NCT05794191|184263708|SUPERIORITY||Vaccine effectiveness percentage|-5.792|||||TWO_SIDED|95.0|-15.691|3.26||||||IPTW\*IPCW + imbalanced variables: 5-7 years||3.260|-15.691|
92182443|NCT05794191|184263708|SUPERIORITY||Vaccine effectiveness percentage|9.902|||||TWO_SIDED|95.0|7.056|12.66||||||IPTW\*IPCW + imbalanced variables: overall follow up||12.660|7.056|
92182444|NCT05794191|184263709|SUPERIORITY||Vaccine effectiveness percentage|13.631|||||TWO_SIDED|95.0|10.149|16.978||||||IPTW\*IPCW + imbalanced variables: 0-3 years||16.978|10.149|
92182445|NCT05794191|184263709|SUPERIORITY||Vaccine effectiveness percentage|7.673|||||TWO_SIDED|95.0|1.708|13.276||||||IPTW\*IPCW + imbalanced variables: 3-5 years||13.276|1.708|
92182446|NCT05794191|184263709|SUPERIORITY||Vaccine effectiveness percentage|-5.897|||||TWO_SIDED|95.0|-15.809|3.166||||||IPTW\*IPCW + imbalanced variables: 5-7 years||3.166|-15.809|
92172976|NCT03978871|184236865|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.833|||||||ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect.||||0.833
92172977|NCT03978871|184236866|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.321|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) across self-reported affect on the SET task. This is a test of between-subjects effect.||||0.321
92172978|NCT03978871|184236867|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.002|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) for fixed emotion mindset scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.002
92280956|NCT00266409|184465004|SUPERIORITY_OR_OTHER|||||||0.3618||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.3618
92172979|NCT03978871|184236867|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.005|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on fixed emotion mindset scores from time 1 to time 2. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons included as a covariate.||||0.005
92172980|NCT03978871|184236868|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.033|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on fixed emotion mindset scores from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||.033
92172981|NCT03978871|184236869|SUPERIORITY|Threshold for statistical significance was p = 0.05||||||0.403|||||||ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.403
92182447|NCT05794191|184263709|SUPERIORITY||Vaccine effectiveness percentage|9.853|||||TWO_SIDED|95.0|7.0|12.617||||||IPTW\*IPCW + imbalanced variables: overall follow up||12.617|7.000|
92280957|NCT00266409|184465005|SUPERIORITY_OR_OTHER|||||||0.3535||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.3535
92451537|NCT03893448|184789660|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|2.0|||<|0.001|TWO_SIDED|95.0|-3.1|7.1||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Pertussis fimbrae types 2/3 (FIM 2/3): % ≥20 EU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||7.1|-3.1|< 0.001
92241243|NCT01953328|184385760|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-59.24|STANDARD_ERROR_OF_MEAN|2.05|<|0.001|TWO_SIDED|95.0|-63.3|-55.17||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-55.17|-63.30|<0.001
92451538|NCT03893448|184789660|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|1.8|||<|0.001|TWO_SIDED|95.0|-3.2|6.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Pertussis pertactin (PRN): % ≥5 EU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||6.8|-3.2|< 0.001
92451539|NCT03893448|184789660|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|0.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Poliovirus 1: % NAb ≥1:8 dilution Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.8|-0.7|< 0.001
92451540|NCT03893448|184789660|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.6|0.6||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Poliovirus 2: % NAb ≥1:8 dilution Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.6|-0.6|< 0.001
92451541|NCT03893448|184789660|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.6|0.6||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Poliovirus 3: % NAb ≥1:8 dilution Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.6|-0.6|< 0.001
92451542|NCT03893448|184789660|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|-1.4|||<|0.001|TWO_SIDED|95.0|-4.3|1.5||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Haemophilus influenzae Type B polyribosylribitol phosphate (Hib-PRP): % ≥0.15 ug/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||1.5|-4.3|< 0.001
92451543|NCT03893448|184789661|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.67 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.99|||<|0.001|TWO_SIDED|95.0|0.89|1.09|||t-test, 1 sided||V114/Prevnar 13™|Pertussis - PT GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.09|0.89|< 0.001
92280958|NCT00266409|184465005|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.5660
92280959|NCT00266409|184465006|SUPERIORITY_OR_OTHER|||||||0.3414||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.3414
92172982|NCT03978871|184236869|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.19|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy scores from time 1 to time 2. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.190
92172983|NCT03978871|184236870|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.784||||||degrees of freedom = 1.|ANOVA|||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy scores from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.784
92241244|NCT01953328|184385760|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.06|STANDARD_ERROR_OF_MEAN|2.42|<|0.001|TWO_SIDED|95.0|-64.87|-55.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-55.25|-64.87|<0.001
92172984|NCT03978871|184236870|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.586|||||||ANCOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy scores from time 1 to time 3. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.586
92172985|NCT03978871|184236871|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.916|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy vignette scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.916
92280960|NCT00266409|184465006|SUPERIORITY_OR_OTHER|||||||0.7344||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.7344
92241245|NCT01953328|184385760|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-63.39|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|-67.15|-59.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-59.62|-67.15|<0.001
92241246|NCT01953328|184385761|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-65.56|STANDARD_ERROR_OF_MEAN|2.4|<|0.001|TWO_SIDED|95.0|-70.34|-60.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-60.79|-70.34|<0.001
92280961|NCT00266409|184465007|SUPERIORITY_OR_OTHER|||||||0.1197||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.1197
92280962|NCT00266409|184465007|SUPERIORITY_OR_OTHER|||||||0.4416||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.4416
92280963|NCT00266409|184465008|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.0350
92280964|NCT00266409|184465008|SUPERIORITY_OR_OTHER|||||||0.4205||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.4205
92280965|NCT00266409|184465009|SUPERIORITY_OR_OTHER|||||||0.2645||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.2645
92280966|NCT00266409|184465009|SUPERIORITY_OR_OTHER|||||||0.5369||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.5369
92280967|NCT00266409|184465010|SUPERIORITY_OR_OTHER|||||||0.9988||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.9988
92280968|NCT00266409|184465010|SUPERIORITY_OR_OTHER|||||||0.7729||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.7729
92451544|NCT03893448|184789661|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.67 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.98|||<|0.001|TWO_SIDED|95.0|0.87|1.09|||t-test, 1 sided||V114/Prevnar 13™|Pertussis - FHA GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.09|0.87|< 0.001
92241247|NCT01953328|184385761|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-57.23|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-62.05|-52.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-52.40|-62.05|<0.001
92280969|NCT00266409|184465011|SUPERIORITY_OR_OTHER|||||||0.7338||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.7338
92451545|NCT03893448|184789661|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.67 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|1.08|||<|0.001|TWO_SIDED|95.0|0.91|1.28|||t-test, 1 sided||V114/Prevnar 13™|Pertussis - FIM 2/3 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.28|0.91|< 0.001
92451546|NCT03893448|184789661|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.67 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|1.0|||<|0.001|TWO_SIDED|95.0|0.84|1.19|||t-test, 1 sided||V114/Prevnar 13™|Pertussis - PRN GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.19|0.84|< 0.001
92451547|NCT03893448|184789662|NON_INFERIORITY|A conclusion of non-inferiority of VAQTA™ administered concomitantly with V114 to VAQTA™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-1.6|2.2||p value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||2.2|-1.6|< 0.001
92451548|NCT03893448|184789663|NON_INFERIORITY|A conclusion of non-inferiority of M-M-R™ II administered concomitantly with V114 to M-M-R™ II administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.8|1.3||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Measles antigen ≥255 mIU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||1.3|-1.8|< 0.001
92451549|NCT03893448|184789663|NON_INFERIORITY|A conclusion of non-inferiority of M-M-R™ II administered concomitantly with V114 to M-M-R™ II administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-3.8|0.2||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Mumps antigen ≥10 mumps Ab units/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.2|-3.8|< 0.001
92451550|NCT03893448|184789663|NON_INFERIORITY|A conclusion of non-inferiority of M-M-R™ II administered concomitantly with V114 to M-M-R™ II administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-2.3|0.5||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Rubella antigen ≥10 IU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.5|-2.3|< 0.001
92451551|NCT03893448|184789664|NON_INFERIORITY|A conclusion of non-inferiority of VARIVAX™ administered concomitantly with V114 to VARIVAX™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|-1.3|||<|0.001|TWO_SIDED|95.0|-3.2|0.5||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.5|-3.2|< 0.001
92451552|NCT03893448|184789665|NON_INFERIORITY|A conclusion of non-inferiority of HIBERIX™ administered concomitantly with V114 to HIBERIX™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|-1.1|||<|0.001|TWO_SIDED|95.0|-2.2|-0.5||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||-0.5|-2.2|< 0.001
92451553|NCT03893448|184789666|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|92.03|||<|0.001|TWO_SIDED|95.0|83.47|101.47|||t-test, 1 sided||V114/Prevnar 13™|Serotype 22F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||101.47|83.47|< 0.001
92241248|NCT01953328|184385761|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.37|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-65.91|-54.83||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-54.83|-65.91|<0.001
92280970|NCT00266409|184465011|SUPERIORITY_OR_OTHER|||||||0.0897||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.0897
92451554|NCT03893448|184789666|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|29.5|||<|0.001|TWO_SIDED|95.0|26.16|33.26|||t-test, 1 sided||V114/Prevnar 13™|Serotype 33F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||33.26|26.16|< 0.001
92451555|NCT03893448|184789667|SUPERIORITY||Percentage Point Difference|95.1|||<|0.001|TWO_SIDED|95.0|93.1|96.5||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 22F Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||96.5|93.1|< 0.001
92451556|NCT03893448|184789667|SUPERIORITY||Percentage Point Difference|85.2|||<|0.001|TWO_SIDED|95.0|82.3|87.7||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 33F Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||87.7|82.3|< 0.001
92451557|NCT03893448|184789668|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|68.8|||<|0.001|TWO_SIDED|95.0|63.1|75.02|||t-test, 1 sided||V114/Prevnar 13™|Serotype 22F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||75.02|63.10|< 0.001
92451558|NCT03893448|184789668|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|44.91|||<|0.001|TWO_SIDED|95.0|41.04|49.14|||t-test, 1 sided||V114/Prevnar 13™|Serotype 33F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||49.14|41.04|< 0.001
92451559|NCT03893448|184789671|SUPERIORITY||Percentage Point Difference|15.6|||<|0.001|TWO_SIDED|95.0|12.1|19.2||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method||19.2|12.1|< 0.001
92451560|NCT03893448|184789672|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|1.73|||<|0.001|TWO_SIDED|95.0|1.61|1.87|||t-test, 1 sided||V114/Prevnar 13™|GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.87|1.61|< 0.001
92451561|NCT03893448|184789673|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|1.35|||<|0.001|TWO_SIDED|95.0|1.25|1.46|||t-test, 1 sided||V114/Prevnar 13™|GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.46|1.25|< 0.001
92451562|NCT01385059|184789703|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92451563|NCT00022516|184789704|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.14|TWO_SIDED|95.0|0.6|1.06|||Log Rank|||||1.06|0.6|0.14
92451564|NCT00022516|184789705|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.357|TWO_SIDED|95.0|0.65|1.17|||Log Rank|||||1.17|0.65|0.3570
92451565|NCT00022516|184789706|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.3178|TWO_SIDED|95.0|0.62|1.17|||Log Rank|||||1.17|0.62|0.3178
92451566|NCT00022516|184789707|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.06|TWO_SIDED|95.0|0.6|1.01|||Log Rank|||||1.01|0.6|0.06
92451567|NCT02328326|184789741|SUPERIORITY||Mean Difference (Net)|2.6||||0.048|TWO_SIDED|95.0|0.02|5.18|||Regression, Linear|Model was adjusted for baseline value of PAM, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in PAM is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' PAM score compared to patient participants in PACT.||5.18|0.02|0.048
92451568|NCT02328326|184789742|SUPERIORITY||Mean Difference (Net)|0.9||||0.32|TWO_SIDED|95.0|-0.87|2.67|||Regression, Linear|Model adjusted for baseline value of ukpds, insulin use, site, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline. Reference for comparison is PACT.|The null hypothesis was that change (baseline to 12 months) in ukpds 5 year risk score is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly decrease patient participants' 5-year cardiovascular event risk.||2.67|-0.87|0.32
92451569|NCT02328326|184789743|SUPERIORITY||Mean Difference (Net)|0.71||||0.01|TWO_SIDED|95.0|0.2|1.22|||Regression, Linear|Model adjusted for BL value of Healthy Eating, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Healthy Eating is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly change patient participants' Healthy Eating scores compared to patient participants in PACT.||1.22|0.20|0.01
92280971|NCT00266409|184465012|SUPERIORITY_OR_OTHER|||||||0.6501||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.6501
92451570|NCT02328326|184789744|SUPERIORITY||Mean Difference (Net)|0.17||||0.33|TWO_SIDED|95.0|-0.17|0.51|||Regression, Linear|Model was adjusted for baseline value of A1c, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in A1c is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly decrease patient participants' A1c score compared to patient participants in PACT.||0.51|-0.17|0.33
92241249|NCT01953328|184385761|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-56.15|STANDARD_ERROR_OF_MEAN|2.4|<|0.001|TWO_SIDED|95.0|-60.92|-51.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-51.39|-60.92|<0.001
92451571|NCT02328326|184789745|SUPERIORITY||Mean Difference (Net)|-2.82||||0.18|TWO_SIDED|95.0|-7.0|1.35|||Regression, Linear|Model was adjusted for baseline value of SBP, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40.|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in SBP is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly decrease patient participants' SBP score compared to patient participants in PACT.||1.35|-7.00|0.18
92241250|NCT01953328|184385762|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-45.54|STANDARD_ERROR_OF_MEAN|1.92|<|0.001|TWO_SIDED|95.0|-49.35|-41.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-41.73|-49.35|<0.001
92172986|NCT03978871|184236871|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.343|||||||ANCOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy vignette scores from time 1 to time 2. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.343
92172987|NCT03978871|184236872|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.048|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy vignette scores from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.048
92172988|NCT03978871|184236872|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.153|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy vignette scores from time 1 to time 3. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lesson was included as a covariate.||||0.153
92172989|NCT03978871|184236873|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.566|||||||ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD proactive engagement scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.566
92280972|NCT00266409|184465012|SUPERIORITY_OR_OTHER|||||||0.8196||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.8196
92451572|NCT02328326|184789746|SUPERIORITY||Mean Difference (Net)|0.12||||0.83|TWO_SIDED|95.0|-0.95|1.19|||Regression, Linear|Model was adjusted for baseline value of PAID, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in PAID is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' PAID score compared to patient participants in PACT.||1.19|-0.95|0.83
92451573|NCT02328326|184789747|SUPERIORITY||Mean Difference (Net)|0.11||||0.79|TWO_SIDED|95.0|-0.71|0.93|||Regression, Linear|Model was adjusted for baseline value of PEPPI, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in PEPPI is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' PEPPI score compared to patient participants in PACT.||0.93|-0.71|0.79
92451574|NCT02328326|184789748|SUPERIORITY||Median Difference (Net)|0.15||||0.21|TWO_SIDED|95.0|-0.09|0.4|||Regression, Linear|Model adjusted for BL value of Cho to HDL Ratio, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40.|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Chol to HDL Ratio is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly decrease patient participants' Chol to HDL Ratio score compared to patient participants in PACT.||0.40|-0.09|0.21
92451575|NCT02328326|184789750|SUPERIORITY||Mean Difference (Net)|0.3||||0.01|TWO_SIDED|95.0|0.08|0.53|||Regression, Linear|Model was adjusted for baseline value of IOCQ, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in IOCQ is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' IOCQ score compared to patient participants in PACT.||0.53|0.08|0.01
92451576|NCT02328326|184789751|EQUIVALENCE|Equivalent distribution among categories|difference in count|-1.0||||0.17|TWO_SIDED||||||Chi-squared||||Difference in count of those who stopped smoking in CO-IMPACT vs. those who stopped smoking in PACT.|||0.17
92451577|NCT02328326|184789752|SUPERIORITY||Mean Difference (Net)|-0.04||||0.87|TWO_SIDED|95.0|-0.56|0.47|||Regression, Linear|Model adjusted for BL value of Physical Activity, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Physical activity is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Physical activity score compared to patient participants in PACT.||0.47|-0.56|0.87
92451578|NCT02328326|184789753|SUPERIORITY||Mean Difference (Net)|0.23||||0.31|TWO_SIDED|95.0|-0.22|0.68|||Regression, Linear|Model adjusted for BL value of Blood Sugar Home Testing, insulin use, randomization strat. variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Blood Sugar Home Testing is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Blood Sugar Home Testing score compared to patient participants in PACT.||0.68|-0.22|0.31
92451579|NCT02328326|184789754|SUPERIORITY||Mean Difference (Net)|0.07||||0.87|TWO_SIDED|95.0|-0.76|0.89|||Regression, Linear|Model adjusted for BL value of Blood Pressure Home Testing, insulin use, randomization strat. variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Blood Pressure Home Testing is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Blood Pressure Home Testing score compared to patient participants in PACT.||0.89|-0.76|0.87
92451580|NCT02328326|184789755|SUPERIORITY||Mean Difference (Net)|-0.1||||0.56|TWO_SIDED|95.0|-0.42|0.23|||Regression, Linear|Model adjusted for BL value of Take Oral Meds as Prescribed, insulin use, randomization strat variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Take Oral Meds as Prescribed is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Take Oral Meds as Prescribed score compared to patient participants in PACT.||0.23|-0.42|0.56
92451581|NCT02328326|184789756|SUPERIORITY||Mean Difference (Net)|0.07||||0.67|TWO_SIDED|95.0|-0.26|0.41|||Regression, Linear|Model adjusted for baseline value of Take Insulin as Prescribed, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Take Insulin as prescribed is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Take Insulin as Prescribed compared to patient participants in PACT.||0.41|-0.26|0.67
92451582|NCT02328326|184789757|SUPERIORITY|The null hypothesis was that change (baseline to 12 months) in Foot Care is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Foot Care score compared to patient participants in PACT.|Median Difference (Net)|0.26||||0.29|TWO_SIDED|95.0|-0.22|0.75|||Regression, Linear|Model was adjusted for baseline value of Foot Care, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|||Net difference defined as 12 months minus baseline|0.75|-0.22|0.29
92172990|NCT03978871|184236873|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.048|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD involuntary dysregulation scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.048
92451583|NCT02328326|184789758|SUPERIORITY||Mean Difference (Net)|0.4||||0.01|TWO_SIDED|95.0|0.09|0.71|||Regression, Linear|Model was adjusted for baseline value of SE, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in SE is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly change patient participants' SE scores compared to patient participants in PACT.||0.71|0.09|0.01
92280973|NCT00266409|184465013|SUPERIORITY_OR_OTHER|||||||0.6404||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.6404
92172991|NCT03978871|184236873|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.266|||||||ANCOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD involuntary dysregulation scores from time 1 to time 2. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.266
92280974|NCT00266409|184465013|SUPERIORITY_OR_OTHER|||||||0.8263||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.8263
92241251|NCT01953328|184385762|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-43.43|STANDARD_ERROR_OF_MEAN|1.69|<|0.001|TWO_SIDED|95.0|-46.78|-40.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-40.08|-46.78|<0.001
92451584|NCT02328326|184789759|SUPERIORITY||Mean Difference (Net)|0.1||||0.67|TWO_SIDED|95.0|-0.34|0.55|||Regression, Linear|Model was adjusted for baseline value of Lorig\_CP, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Lorig\_CP is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Lorig\_CP score compared to patient participants in PACT.||0.55|-0.34|0.67
92451585|NCT02328326|184789760|SUPERIORITY||Mean Difference (Net)|0.28||||0.53|TWO_SIDED|95.0|-0.6|1.16|||Regression, Linear||Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in CSIS is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' CSIS score compared to patient participants in PACT.||1.16|-0.60|0.53
92241252|NCT01953328|184385762|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-40.98|STANDARD_ERROR_OF_MEAN|1.96|<|0.001|TWO_SIDED|95.0|-44.88|-37.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-37.08|-44.88|<0.001
92451586|NCT02328326|184789761|SUPERIORITY||Mean Difference (Net)|0.32||||0.5|TWO_SIDED|95.0|-0.61|1.25|||Regression, Linear|Model was adjusted for baseline value of PAID\_CP, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baselineNet difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in PAID\_CP is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' PAID\_CP score compared to patient participants in PACT.||1.25|-0.61|0.50
92451587|NCT04289753|184789767|SUPERIORITY||Odds Ratio (OR)|0.56|||||TWO_SIDED|95.0|0.46|0.69||||||||0.69|0.46|
92451588|NCT04289753|184789768|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.55|0.85||||||||0.85|0.55|
92451589|NCT04289753|184789769|SUPERIORITY||Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.7|1.0||||||||1.0|0.70|
92451590|NCT00366626|184789805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|STANDARD_DEVIATION|6.32||0.51|TWO_SIDED|95.0|-1.85|3.69|||ANOVA|||This was a 2 gene (asn40asn vs 40asp) by two medication (naltrexone vs placebo) design. The main hypothesis was that the effect of naltrexone (mean naltrexone drinking - placebo drinking) would be greater in the 40asp subjects than in the asn40asn subjects. Thus the null hypothesis there would be no gene by medication interaction. The mean difference above is then the difference in the size of the naltrexone effect in the two genotypes, equivalent to the interaction.||3.69|-1.85|0.51
92241253|NCT01953328|184385762|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-43.14|STANDARD_ERROR_OF_MEAN|1.68|<|0.001|TWO_SIDED|95.0|-46.48|-39.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-39.80|-46.48|<0.001
92280975|NCT00266409|184465014|SUPERIORITY_OR_OTHER|||||||0.6946||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.6946
92451591|NCT00366626|184789806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46|STANDARD_DEVIATION|6.1||0.28|TWO_SIDED|95.0|-1.22|4.11|||ANOVA|||This was a 2 gene (asn40asn vs 40asp) by 2 medication (naltrexone vs. placebo)interaction analysis. The main hypothesis was that subjects who had 40asp OPRM1 allele would a greater naltrexone effect on drinking (Placebo - Naltrexxone) than the asn40asn subjects. Thus the null hypothesis was the gene by medication interaction.||4.11|-1.22|0.28
92280976|NCT00266409|184465014|SUPERIORITY_OR_OTHER|||||||0.9629||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.9629
92280977|NCT00266409|184465015|SUPERIORITY_OR_OTHER|||||||0.8617||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.8617
92451592|NCT01242527|184789816|SUPERIORITY_OR_OTHER||Placebo adjusted % change from baseline|-21.68||||0.005|TWO_SIDED|95.0|-40.7|-2.89||P-value adjusted with Dunnett's procedure for multiple comparisons of Epanova vs olive oil|ANCOVA p-value on ranked data|ANCOVA model with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors|ANCOVA on log-scale TG with baseline value as covariate and treatment and user/non-user of lipid-altering drugs as factors|||-2.89|-40.70|0.005
92451593|NCT01242527|184789816|SUPERIORITY_OR_OTHER||Placebo adjusted % change from baseline|-21.19||||0.007|TWO_SIDED|95.0|-40.32|-2.29||P-value adjusted with Dunnett's procedure for multiple comparisons of Epanova vs olive oil|ANCOVA p-value on ranked data|ANCOVA model with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors|ANCOVA on log-scale TG with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors|||-2.29|-40.32|0.007
92451594|NCT01242527|184789816|SUPERIORITY_OR_OTHER||Placebo adjusted % change from baseline|-26.6|||<|0.001|TWO_SIDED|95.0|-45.12|-8.38||P-value adjusted with Dunnett's procedure for multiple comparisons of Epanova vs olive oil|ANCOVA p-value on ranked data|ANCOVA model with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors|ANCOVA on log-scale TG with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors|||-8.38|-45.12|<0.001
92451595|NCT03169153|184789905|SUPERIORITY||||||<|0.0001|||||||Mixed effects repeated measures|||||||<0.0001
92451596|NCT02127307|184789920|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.446|||<|0.0001|TWO_SIDED|95.0|0.3227|0.6156||At 0.025 level of significance.|Cox proportional hazards model|||"AdreView-Heart Failure Group with H/M \<1.60 vs. H/M ≥1.60:~Data analysis was performed using Cox proportional hazards model to demonstrate the relationship of consensus numeric H/M ratio and time to adverse cardiac events to identify participants with higher risk of death. Hazard (risk) of a death for a participant with H/M ratio at time t was expressed as Hl (t)/Hh (t)=Ψ,where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.6156|0.3227|<0.0001
92451597|NCT00983580|184789938|SUPERIORITY|||||||0.448|||||||Chi-squared|||||||0.448
92451598|NCT00983580|184789939|SUPERIORITY|||||||0.358|||||||Wilcoxon (Mann-Whitney)|||This statistical analysis compares the difference between the number of patients with No adenoma recurrence at 12 months with those with adenoma recurrence at 12 months.||||0.358
92451599|NCT00983580|184789941|SUPERIORITY|||||||0.513|||||||t-test, 2 sided|||||||0.513
92451600|NCT02752048|184789964|OTHER|Change in time to rise from the floor from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|-1.378||||0.596|TWO_SIDED|95.0|-6.757|4.0|||t-test, 2 sided|||||4.000|-6.757|0.596
92451601|NCT02752048|184789964|OTHER|Change in time to rise from the floor from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|1.349||||0.433|TWO_SIDED|95.0|-2.22|4.918|||t-test, 2 sided|||||4.918|-2.220|0.433
92451602|NCT02752048|184789965|OTHER|Change in 10-m walk/run test from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|-0.484||||0.382|TWO_SIDED|95.0|-1.618|0.65|||t-test, 2 sided|||||0.650|-1.618|0.382
92241254|NCT01953328|184385763|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-45.44|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|-49.83|-41.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-41.05|-49.83|<0.001
92451603|NCT02752048|184789965|OTHER|Change in 10-m walk/run test from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|-0.397||||0.501|TWO_SIDED|95.0|-1.61|0.817|||t-test, 2 sided|||||0.817|-1.610|0.501
92451604|NCT02752048|184789966|OTHER|Change in time to up and go from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|-0.533||||0.549|TWO_SIDED|95.0|-2.363|1.298|||t-test, 2 sided|||||1.298|-2.363|0.549
92451605|NCT02752048|184789966|OTHER|Change in time to up and go from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|-0.225||||0.767|TWO_SIDED|95.0|-1.801|1.351|||t-test, 2 sided|||||1.351|-1.801|0.767
92451606|NCT04286594|184790002|OTHER|Change in single group over time|Mean Difference (Final Values)|11.667|STANDARD_DEVIATION|5.051|<|0.001|TWO_SIDED|95.0|8.457|14.876|||t-test, 1 sided|||||14.876|8.457|<0.001
92451607|NCT05955560|184790026|SUPERIORITY|||||||0.04||||||A two-sided paired t-test was used and p-value derived. The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||||0.04
92451608|NCT04621500|184790031|OTHER|The sequencing transcriptional profile cannot be analyzed by a statistical method.|||||||||||||||||In this open label study, the RNA sequencing transcription analysis was performed to assess if the transcriptome would be modified by vitamin D supplementation and it uniformaly was.|||
92451609|NCT01880424|184790076|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.001||95.0|1.21|2.09||Statistical significance (p\<0.05) was required in both co-primary efficacy parameters to meet the primary efficacy objective; both p-values met this criterion.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for geographic region|Odds ratio for response rate (linaclotide : placebo)|Null Hypothesis: There is no difference between the linaclotide dose and placebo in the proportion of 12-week Abdominal Pain/Abdominal Discomfort Responders or there is no difference in the proportion of 12-week IBS Degree of Relief Responders. With 800 planned patients, the statistical power was expected to be approximately 95%, with an overall type I error rate controlled at the 0.05 level (2-sided), based on assumptions from NCT00948818 (LIN-MD-31) study data.||2.09|1.21|0.0010
92241255|NCT01953328|184385763|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-41.34|STANDARD_ERROR_OF_MEAN|1.76|<|0.001|TWO_SIDED|95.0|-44.84|-37.85||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-37.85|-44.84|<0.001
92451610|NCT01880424|184790077|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.56|||<|0.0001||95.0|1.83|3.58||Statistical significance (p\<0.05) was required in both co-primary efficacy parameters to meet the primary efficacy objective; both p-values met this criterion.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for geographic region|Odds ratio for response rate (linaclotide : placebo)|Null Hypothesis: There is no difference between the linaclotide dose and placebo in the proportion of 12-week Abdominal Pain/Abdominal Discomfort Responders or there is no difference in the proportion of 12-week IBS Degree of Relief Responders. With 800 planned patients, the statistical power was expected to be approximately 95%, with an overall type I error rate controlled at the 0.05 level (2-sided), based on assumptions from NCT00948818 (LIN-MD-31) study data.||3.58|1.83|<0.0001
92451611|NCT02646423|184790106|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.84|1.05||||||||1.05|0.84|
92451612|NCT02646423|184790107|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.86|1.16||||||||1.16|0.86|
92451613|NCT02646423|184790108|SUPERIORITY||Mean Difference (Net)|0.01|||||TWO_SIDED|95.0|-0.16|0.19||||||||0.19|-0.16|
92451614|NCT02646423|184790109|SUPERIORITY||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-1.81|1.05||||||||1.05|-1.81|
92451615|NCT02646423|184790110|SUPERIORITY||Mean Difference (Net)|-0.34|||||TWO_SIDED|95.0|-1.96|1.27||||||||1.27|-1.96|
92451616|NCT02646423|184790111|SUPERIORITY||Mean Difference (Net)|0.36|||||TWO_SIDED|95.0|-0.94|1.66||||||||1.66|-0.94|
92451617|NCT02646423|184790112|SUPERIORITY||Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.09|0.03||||||||0.03|-0.09|
92451618|NCT02646423|184790113|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.46|1.51||||||||1.51|0.46|
92451619|NCT02646423|184790114|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.64|1.56||||||||1.56|0.64|
92280978|NCT00266409|184465015|SUPERIORITY_OR_OTHER|||||||0.7555||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.7555
92451620|NCT02646423|184790115|SUPERIORITY||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.64|2.81||||||||2.81|0.64|
92451621|NCT02646423|184790116|SUPERIORITY||Risk Ratio (RR)|2.0|||||TWO_SIDED|95.0|0.6|6.62||||||||6.62|0.60|
92451622|NCT02646423|184790117|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.72|1.35||||||||1.35|0.72|
92451623|NCT02646423|184790118|SUPERIORITY||Risk Ratio (RR)|1.13|||||TWO_SIDED|95.0|0.86|1.48||||||||1.48|0.86|
92451624|NCT04564833|184790119|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92451625|NCT04564833|184790119|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92451626|NCT04564833|184790120|SUPERIORITY|||||||0.3954|||||||ANCOVA|||||||0.3954
92451627|NCT04564833|184790120|SUPERIORITY|||||||0.0682|||||||ANCOVA|||||||0.0682
92451628|NCT04564833|184790121|SUPERIORITY|||||||0.6755|||||||Fisher Exact|||||||0.6755
92451629|NCT04564833|184790121|SUPERIORITY|||||||0.6758|||||||Fisher Exact|||||||0.6758
92451630|NCT04564833|184790122|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||||||>0.9999
92451631|NCT04564833|184790122|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||||||>0.9999
92451632|NCT01303627|184790170|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Statistical analyses were performed x2 test or Mann Whitney U test as approriate. A p value of \<0.05 was considered statistically significant.|Chi-squared|||The incidence of complications on removal of the cLMA has been reported 54 % in awake patients group A power analysis indicated that a minimum 16 patients in each group were required to demonstrate a difference that 50% reduction the complications (a power of 80% and α error 0.05).||||<0.05
92451633|NCT00321919|184790181|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.778976||||0.2036|TWO_SIDED|95.0|0.53|1.14|||Regression, Cox||The Cox regression model was used to estimate the relative risk of the time to first cardiovascular event in Late Epoetin beta therapy group compared to the Early Epoetin beta therapy group.|The null hypothesis stated that there was no difference with regard to the event-free distribution of the combined endpoint of all protocol specified cardiovascular events between Early Epoetin beta therapy and Late Epoetin beta therapy groups.||1.14|0.53|0.2036
92451634|NCT00321919|184790182|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.744575||||0.4833|TWO_SIDED|95.0|0.33|1.7|||Regression, Cox||The Cox regression model was used to estimate the relative risk of an event of the time to death due to cardiovascular reasons in Late Epoetin beta therapy group compared to the Early Epoetin beta therapy group.|||1.70|0.33|0.4833
92280979|NCT00266409|184465016|SUPERIORITY_OR_OTHER|||||||0.5836||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.5836
92451635|NCT00321919|184790184|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.658259||||0.1391|TWO_SIDED|95.0|0.38|1.15|||Regression, Cox||The Cox regression model was used to estimate the relative risk of the time to death for all causes in Late Epoetin beta therapy group compared to the Early Epoetin beta therapy treatment group.|||1.15|0.38|0.1391
92451636|NCT00321919|184790187|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.804594||||0.4985|TWO_SIDED|95.0|0.43|1.51|||Regression, Cox||The Cox regression model was used to estimate the relative risk of time to first cardiovascular intervention in Late Epoetin beta therapy group compared to the Early Epoetin beta therapy group|||1.51|0.43|0.4985
92451637|NCT00321919|184790189|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.82046||||0.3419|TWO_SIDED|95.0|0.55|1.23|||Regression, Cox||The Cox regression model was used to estimate the relative risk of the time to first hospitalization for cardiovascular reasons in Late Epoetin beta therapy group compared to the Early Epoetin beta therapy group.|||1.23|0.55|0.3419
92451638|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of General health scale of Quality of life for Year 1.||||0.0029
92451639|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.0081|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of General health scale of Quality of life for Year 2||||0.0081
92451640|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Mental health scale of Quality of life for Year 1||||0.0005
92451641|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.0965|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Mental Health scale of Quality of life for Year 2||||0.0965
92451642|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Physical function scale of Quality of life for Year 1||||0.0004
92451643|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.9864|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Physical function scale of Quality of life for Year 2||||0.9864
92451644|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.0097|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Physical Role scale of Quality of life for Year 1||||0.0097
92241256|NCT01953328|184385763|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-40.96|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|-45.35|-36.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-36.57|-45.35|<0.001
92280980|NCT00266409|184465016|SUPERIORITY_OR_OTHER|||||||0.9096||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.9096
92451645|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.167|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Physical Role scale of Quality of life for Year 2||||0.1670
92172992|NCT03978871|184236873|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.402|||||||ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD disengagement scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.402
92172993|NCT03978871|184236874|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.363|||||||ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD proactive engagement from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.363
92287190|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.15|||<|0.001|TWO_SIDED|95.0|0.085|0.215|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.215|0.085|<0.001
92451646|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Social function scale of Quality of life for Year 1||||0.0058
92451647|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.1455|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Social function scale of Quality of life for Year 2||||0.1455
92451648|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Vitality function scale of Quality of life for Year 1||||0.0009
92451649|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.0123|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Vitality function scale of Quality of life for Year 2||||0.0123
92172994|NCT03978871|184236874|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.363|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD involuntary dysregulation scores from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.363
92172995|NCT03978871|184236874|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.583|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD involuntary dysregulation scores from time 1 to time 3. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.583
92182448|NCT01079806|184263719|SUPERIORITY||Difference estimate|20.2||||0.0049|TWO_SIDED|95.0|9.1|31.4|||Normal approximation||Difference estimate is stratified by age randomization strata, using Cochran-Mantel-Haenszel weighting.|||31.4|9.1|0.0049
92451650|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.3155|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Bodily pain scale of Quality of life for Year 1||||0.3155
92451651|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.7076|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Bodily pain scale of Quality of life for Year 2||||0.7076
92451652|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.1291|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Emotional role scale of Quality of life for Year 1||||0.1291
92451653|NCT00321919|184790196|SUPERIORITY_OR_OTHER|||||||0.5528|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Emotional role scale of Quality of life for Year 2||||0.5528
92451654|NCT00996996|184790206|SUPERIORITY_OR_OTHER||Percentage of participants|95.0|||||TWO_SIDED|95.0|90.0|100.0|||||The estimated value represents the percentage of participants with a confirmed response.|||100|90|
92451655|NCT00996996|184790207|SUPERIORITY_OR_OTHER||Percentage of participants|97.0|||||TWO_SIDED|95.0|94.0|100.0|||||The estimated value represents the percentage of participants with a response.|||100|94|
92451656|NCT00996996|184790208|SUPERIORITY_OR_OTHER||Percentage of participants|70.0|||||TWO_SIDED|95.0|59.0|80.0|||||The estimated value represents the percentage of participants with a confirmed CR.|||80|59|
92451657|NCT00996996|184790208|SUPERIORITY_OR_OTHER||Percentage of participants|3.0|||||TWO_SIDED|95.0|0.0|6.0|||||The estimated value represents the percentage of participants with a confirmed CCR.|||6|0|
92451658|NCT00996996|184790208|SUPERIORITY_OR_OTHER||Percentage of participants|75.0|||||TWO_SIDED|95.0|65.0|85.0|||||The estimated value represents the percentage of participants with confirmed CR + confirmed CCR.|||85|65|
92451659|NCT00996996|184790208|SUPERIORITY_OR_OTHER||Percentage of participants|17.0|||||TWO_SIDED|95.0|9.0|26.0|||||The estimated value represents the percentage of participants with a confirmed PR.|||26|9|
92451660|NCT00996996|184790209|SUPERIORITY_OR_OTHER||Percentage of participants|74.0|||||TWO_SIDED|95.0|64.0|84.0|||||The estimated value represents the percentage of participants with a CR.|||84|64|
92451661|NCT00996996|184790209|SUPERIORITY_OR_OTHER||Percentage of participants|4.0|||||TWO_SIDED|95.0|0.0|8.0|||||The estimated value represents the percentage of participants with a CCR.|||8|0|
92451662|NCT00996996|184790209|SUPERIORITY_OR_OTHER||Percentage of participants|78.0|||||TWO_SIDED|95.0|68.0|87.0|||||The estimated value represents the percentage of participants with a CR + CCR.|||87|68|
92451663|NCT00996996|184790209|SUPERIORITY_OR_OTHER||Percentage of participants|20.0|||||TWO_SIDED|95.0|11.0|29.0|||||The estimated value represents the percentage of participants with a PR.|||29|11|
92451664|NCT01227889|184790235|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||<|0.0001|TWO_SIDED|95.0|0.26|0.6||The p value from a stratified log-rank test was adjusted for disease stage at screening.|Log Rank||HRs were estimated using a Pike estimator. HR from a stratified log-rank test was adjusted for disease stage at screening.|||0.60|0.26|<0.0001
92451665|NCT01227889|184790236|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.2|0.61|||||HRs were estimated using a Pike estimator. HR was adjusted for disease stage at screening.|||0.61|0.20|
92451666|NCT01227889|184790237|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.57|1.18|||||HRs were estimated using a Pike estimator. HR was adjusted for disease stage at screening.|||1.18|0.57|
92451667|NCT02203019|184790247|EQUIVALENCE|Outcome comparison used the Mann Whitney U test||||||0.107|||||||Wilcoxon (Mann-Whitney)|||||||0.107
92451668|NCT02203019|184790248|EQUIVALENCE|Outcomes were compared using a Mann Whitney U test.||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.260
92451669|NCT02203019|184790249|EQUIVALENCE|Outcomes were compared using a Mann Whitney U test.||||||0.376|||||||Wilcoxon (Mann-Whitney)|||||||0.376
92451670|NCT02203019|184790250|EQUIVALENCE|Outcomes were compared using a Chi square test.||||||0.739|||||||Chi-squared|||||||0.739
92451671|NCT02165722|184790251|OTHER|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention.|||||<|0.001||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention.||||||<0.001
92451672|NCT02165722|184790251|OTHER|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention.|||||<|0.001||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention.||||||<0.001
92182449|NCT01079806|184263720|SUPERIORITY||Difference estimate|41.8|||<|0.0001|TWO_SIDED|95.0|29.4|54.2|||Normal approximation||Difference estimate is stratified by age randomization strata, using Cochran-Mantel-Haenszel weighting.|||54.2|29.4|<0.0001
92182450|NCT01079806|184263721|SUPERIORITY||Difference estimate|45.2|||<|0.0001||95.0|29.2|61.2|||Normal approximation||Difference estimate is stratified by age randomization strata, using Cochran-Mantel-Haenszel weighting.|||61.2|29.2|<0.0001
92182451|NCT01079806|184263722|SUPERIORITY||Difference estimate|38.2|||<|0.0001|TWO_SIDED|95.0|25.9|50.5|||Normal approximation||Difference estimate is stratified by age randomization strata, using Cochran-Mantel-Haenszel weighting.|||50.5|25.9|<0.0001
92451673|NCT02165722|184790251|OTHER|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention between intervention and control clinics.|||||<|0.001||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|||Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention between intervention and control clinics.||||<0.001
92172996|NCT03978871|184236874|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.379|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD disengagement scores from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.379
92241257|NCT01953328|184385763|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-38.44|STANDARD_ERROR_OF_MEAN|1.93|<|0.001|TWO_SIDED|95.0|-42.26|-34.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-34.62|-42.26|<0.001
92172997|NCT03978871|184236874|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.246|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD disengagement scores from time 1 to time 3. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.246
92172998|NCT03978871|184236875|SUPERIORITY|Data were collected using a Siemens Prisma MRI 3T scanner and preprocessed with fMRIprep. 12 ROI masks were generated from the CON network of a modified Schaefer atlas. First-level contrast estimates (negative reframe \> negative immerse) for each voxel within each ROI were averaged with MarsBaR to produce 12 values for each person. These were then averaged to produce a single value each.A two-sample t-test was conducted in R to test for differences across intervention groups (mindset vs control)||||||0.455||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(146) = .75||||||0.455
92172999|NCT03978871|184236876|SUPERIORITY|Data were collected using a Siemens Prisma MRI 3T scanner and preprocessed with fMRIprep. 12 ROI masks were generated from the CON network of a modified Schaefer atlas. First-level contrast estimates (negative \> neutral) for each voxel within each ROI were averaged with MarsBaR to produce 12 values for each person. These were subsequently averaged to produce a single value per person. A two-sample t-test was conducted in R to test for differences across intervention groups (mindset vs control).||||||0.43||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(145) = 0.80||||||0.43
92173000|NCT03978871|184236877|SUPERIORITY|BOLD signals were spatially averaged within ROIs to produce a single time series for each ROI. Timeseries were averaged to produce a single value representing each ROI's mean activity. Values for each ROI were then averaged to produce a single value per person representing mean network activity. These values were then submitted to a two-sample t-test to test for differences across intervention groups (mindset vs control).||||||0.29||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(142) = -1.057||||||0.29
92173001|NCT03978871|184236878|SUPERIORITY|Data were preprocessed in fMRIprep. Separate right/left amygdala seeds were defined with the AAL1 atlas. Interaction regressors were created between seeds and task conditions. Average contrast estimates for interaction terms of relevant trials (negative reframe \> negative immerse) were extracted with MarsBaR from 12 ROIs in the CON of a modified Schaefer atlas and the 24 values averaged. A two-sample t-test was conducted in R to compare average connectivity between groups (mindset vs control).||||||0.88||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(146) = 0.148||||||0.88
92241258|NCT01953328|184385764|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-54.77|STANDARD_ERROR_OF_MEAN|2.32|<|0.001|TWO_SIDED|95.0|-59.37|-50.17||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-50.17|-59.37|<0.001
92287191|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.124|||<|0.001|TWO_SIDED|95.0|0.059|0.189|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.189|0.059|<0.001
92173002|NCT03978871|184236879|SUPERIORITY|Data were preprocessed in fMRIprep. Separate right/left amygdala seeds were defined with the AAL1 atlas. Interaction regressors were created between seeds and task conditions. Average contrast estimates for interaction terms of relevant trials (negative \> neutral) were extracted with MarsBaR from 12 ROIs in the CON of a modified Schaefer atlas and the 24 values averaged. A two-sample t-test was conducted in R to compare average connectivity between groups (mindset vs control).||||||0.11||||||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|t(145) = 1.631||||||.11
92173003|NCT03978871|184236880|SUPERIORITY|BOLD signals were spatially averaged within ROIs to produce a single time series for each ROI. Pearson correlations were calculated between each mean BOLD signal in the CON and each amygdala ROI to produce 24 connectivity values. These were averaged to produce a single value representing the strength of coupling of the CON network to the amygdala for each participant. These values were then submitted to a two-sample t-test to test for differences across intervention groups (mindset vs control).||||||0.92||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(142) = 0.101||A two-sample t-test was conducted to compare average connectivity (between the amygdala and the CON network) during resting state between the mindset and control groups.||||0.92
92451674|NCT02165722|184790251|OTHER|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention between intervention and control clinics.|||||<|0.001||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|||||||<0.001
92241259|NCT01953328|184385764|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-52.66|STANDARD_ERROR_OF_MEAN|2.17|<|0.001|TWO_SIDED|95.0|-56.95|-48.36||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-48.36|-56.95|<0.001
92241260|NCT01953328|184385764|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-50.83|STANDARD_ERROR_OF_MEAN|1.96|<|0.001|TWO_SIDED|95.0|-54.72|-46.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-46.93|-54.72|<0.001
92241261|NCT01953328|184385764|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.69|STANDARD_ERROR_OF_MEAN|2.04|<|0.001|TWO_SIDED|95.0|-53.74|-45.64||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-45.64|-53.74|<0.001
92451675|NCT02165722|184790252|OTHER|Chi-square tests performed to test for differences in cumulative HPV series completion vaccination rates from baseline to post-intervention.||||||0.001||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|Chi-square tests performed to test for differences in cumulative HPV series completion vaccination rates from baseline to post-intervention.||||||0.001
92451676|NCT02165722|184790252|OTHER|Chi-square tests performed to test for differences in cumulative HPV series completion vaccination rates from baseline to post-intervention.|||||>|0.05||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|||||||>0.05
92241262|NCT01953328|184385765|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-55.45|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-60.93|-49.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-49.98|-60.93|<0.001
92451677|NCT02165722|184790252|OTHER|Chi-square tests performed to test for differences in cumulative HPV series completion vaccination rates from baseline to post-intervention between intervention and control clinics.|||||>|0.05||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|||||||>0.05
92241263|NCT01953328|184385765|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-50.95|STANDARD_ERROR_OF_MEAN|2.5|<|0.001|TWO_SIDED|95.0|-55.91|-46.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-46.00|-55.91|<0.001
92241264|NCT01953328|184385765|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-51.36|STANDARD_ERROR_OF_MEAN|2.3|<|0.001|TWO_SIDED|95.0|-55.93|-46.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-46.80|-55.93|<0.001
92241265|NCT01953328|184385765|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-45.44|STANDARD_ERROR_OF_MEAN|2.33|<|0.001|TWO_SIDED|95.0|-50.08|-40.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-40.81|-50.08|<0.001
92280981|NCT00266409|184465017|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0002
92280982|NCT00266409|184465017|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0006
92173004|NCT03978871|184236881|OTHER|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||2.22e-05||||||Reported result for cluster localized in the Superior/Middle Temporal Gyrus (Right). FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels.|t-test, 2 sided|||||||.0000222
92182452|NCT01079806|184263723|SUPERIORITY||Difference estimate|12.1||||0.11|TWO_SIDED|95.0|-1.5|25.7|||Normal approximation||Difference estimate is stratified by age randomization strata, using Cochran-Mantel-Haenszel weighting.|||25.7|-1.5|0.11
92182453|NCT03739866|184263740|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92182454|NCT03739866|184263740|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92182455|NCT03739866|184263740|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92182456|NCT03739866|184263740|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92182457|NCT03739866|184263740|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92182458|NCT01034306|184263767|SUPERIORITY|||||||0.0352||||||normal approximation to the binomial test|t-test, 2 sided|||||||0.0352
92182459|NCT01034306|184263768|SUPERIORITY|||||||0.2472|||||||t-test, 2 sided|||||||.2472
92182460|NCT01034306|184263769|SUPERIORITY|||||||0.1972|||||||t-test, 2 sided|||||||0.1972
92182461|NCT03057600|184263770|SUPERIORITY|||||||0.2252|||||||exact one-sample binomial tests|||||||0.2252
92182462|NCT03057600|184263770|SUPERIORITY|||||||0.9437|||||||exact one-sample binomial tests|||||||0.9437
92182463|NCT03057600|184263770|SUPERIORITY|||||||0.5797|||||||exact one-sample binomial tests|||||||0.5797
92182464|NCT03057600|184263770|SUPERIORITY|||||||0.0243|||||||exact one-sample binomial tests|||||||0.0243
92182465|NCT01604824|184263784|SUPERIORITY||LS Mean Difference|-53.72|STANDARD_ERROR_OF_MEAN|11.486|=|0.0009|TWO_SIDED|95.0|-79.31|-28.12||Threshold for significance ≤ 0.05|ANCOVA|||||-28.12|-79.31|= 0.0009
92182466|NCT01604824|184263784|SUPERIORITY||LS Mean Difference|-43.28|STANDARD_ERROR_OF_MEAN|10.965|=|0.0056|TWO_SIDED|95.0|-69.21|17.35||Threshold for significance ≤ 0.05|ANCOVA|||||17.35|-69.21|= 0.0056
92182467|NCT01604824|184263785|SUPERIORITY||LS Mean Difference|-49.55|STANDARD_ERROR_OF_MEAN|12.05|=|0.0021|TWO_SIDED|95.0|-76.39|-22.7||Threshold for significance ≤ 0.05|ANCOVA|||LS means (SE), mean difference, 95% CI, and p-values were derived from ANCOVA with treatment group as factor and baseline as covariate.||-22.7|-76.39|= 0.0021
92241266|NCT01953328|184385766|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-66.47|STANDARD_ERROR_OF_MEAN|2.07|<|0.001|TWO_SIDED|95.0|-70.58|-62.36||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.36|-70.58|<0.001
92451678|NCT02165722|184790252|OTHER|Chi-square tests performed to test for differences in cumulative HPV series completion vaccination rates from baseline to post-intervention between intervention and control clinics.|||||>|0.05||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|||||||>0.05
92451679|NCT01485861|184790295|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.77||||0.1606|TWO_SIDED|90.0|0.56|1.04|||Log Rank|||||1.04|0.56|0.1606
92451680|NCT01485861|184790295|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.89||||0.53|TWO_SIDED|90.0|0.66|1.2|||Log Rank|||||1.20|0.66|0.5300
92451681|NCT01485861|184790295|SUPERIORITY|Strata are: prior enzalutamide (Yes vs. No), progression factor (prostate-specific antigen \[PSA\] only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).|Hazard Ratio (HR)|0.75||||0.1689|TWO_SIDED|90.0|0.54|1.05|||Log Rank|||||1.05|0.54|0.1689
92451682|NCT01485861|184790295|SUPERIORITY|Strata are: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).|Hazard Ratio (HR)|0.94||||0.7484|TWO_SIDED|90.0|0.69|1.28|||Log Rank|||||1.28|0.69|0.7484
92451683|NCT01485861|184790296|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.39||||0.0064|TWO_SIDED|90.0|0.22|0.7|||Log Rank|||||0.70|0.22|0.0064
92451684|NCT01485861|184790296|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.46||||0.0285|TWO_SIDED|90.0|0.25|0.83|||Log Rank|||||0.83|0.25|0.0285
92451685|NCT01485861|184790314|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.87||||0.417|TWO_SIDED|95.0|0.62|1.22|||Log Rank|||||1.22|0.62|0.4170
92451686|NCT01485861|184790314|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.93||||0.6712|TWO_SIDED|95.0|0.67|1.3|||Log Rank|||||1.30|0.67|0.6712
92451687|NCT01485861|184790314|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.5164|TWO_SIDED|95.0|0.62|1.27|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||1.27|0.62|0.5164
92451688|NCT01485861|184790314|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.8955|TWO_SIDED|95.0|0.72|1.44|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||1.44|0.72|0.8955
92451689|NCT01485861|184790315|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.63||||0.1472|TWO_SIDED|95.0|0.33|1.19|||Log Rank|||||1.19|0.33|0.1472
92451690|NCT01485861|184790315|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.45||||0.0157|TWO_SIDED|95.0|0.23|0.87|||Log Rank|||||0.87|0.23|0.0157
92451691|NCT01485861|184790318|SUPERIORITY||Hazard Ratio (HR)|0.7|||=|0.0665|TWO_SIDED|90.0|0.51|0.97|||Log Rank|||||0.97|0.51|= 0.0665
92451692|NCT01485861|184790318|SUPERIORITY||Hazard Ratio (HR)|0.99|||=|0.9319|TWO_SIDED|90.0|0.73|1.33|||Log Rank|||||1.33|0.73|= 0.9319
92451693|NCT01485861|184790318|SUPERIORITY||Hazard Ratio (HR)|0.7|||=|0.071|TWO_SIDED|90.0|0.5|0.97|||Log Rank|||Strata were: prior Enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||0.97|0.50|= 0.0710
92451694|NCT01485861|184790318|SUPERIORITY||Hazard Ratio (HR)|0.95|||=|0.789|TWO_SIDED|90.0|0.7|1.31|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||1.31|0.70|= 0.7890
92451695|NCT01485861|184790319|SUPERIORITY||Hazard Ratio (HR)|0.68|||=|0.2906|TWO_SIDED|90.0|0.37|1.25|||Log Rank|||||1.25|0.37|= 0.2906
92451696|NCT01485861|184790319|SUPERIORITY||Hazard Ratio (HR)|0.65|||=|0.2716|TWO_SIDED|90.0|0.35|1.22|||Log Rank|||||1.22|0.35|= 0.2716
92451697|NCT01485861|184790320|SUPERIORITY|Unstratified|Difference in response rates|1.97|||=|0.7913|TWO_SIDED|90.0|-10.25|14.18|||Chi-squared|||||14.18|-10.25|= 0.7913
92451698|NCT01485861|184790320|SUPERIORITY|Unstratified|Difference in response rates|-1.22|||=|0.8675|TWO_SIDED|90.0|-13.24|10.8|||Chi-squared|||||10.80|-13.24|= 0.8675
92451699|NCT01485861|184790321|SUPERIORITY||Difference in response rates|11.43|||=|0.4176|TWO_SIDED|90.0|-11.43|58.32|||Chi-squared|||||58.32|-11.43|= 0.4176
92451700|NCT01485861|184790321|SUPERIORITY||Difference in response rates|15.43|||=|0.2802|TWO_SIDED|90.0|-7.58|38.44|||Chi-squared|||||38.44|-7.58|= 0.2802
92451701|NCT01485861|184790322|SUPERIORITY||Difference in response rates|9.58|||=|0.3646|TWO_SIDED|90.0|-7.65|26.8|||Chi-squared|||||26.80|-7.65|= 0.3646
92451702|NCT01485861|184790322|SUPERIORITY||Difference in response rates|0.22|||=|0.9821|TWO_SIDED|90.0|-15.89|16.33|||Chi-squared|||||16.33|-15.89|= 0.9821
92451703|NCT01485861|184790323|SUPERIORITY||Difference in response rates|-3.17|||=|0.8489|TWO_SIDED|90.0|-30.93|24.58|||Chi-squared|||||24.58|-30.93|= 0.8489
92451704|NCT01485861|184790323|SUPERIORITY||Difference in response rates|12.38|||=|0.5186|TWO_SIDED|90.0|-16.36|41.12|||Chi-squared|||||41.12|-16.36|= 0.5186
92451705|NCT01485861|184790324|SUPERIORITY|Unstratified|Hazard Ratio (HR)|1.31|||=|0.678|TWO_SIDED|90.0|0.45|3.8|||Log Rank|||||3.80|0.45|= 0.6780
92451706|NCT01485861|184790324|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.85|||=|0.8372|TWO_SIDED|90.0|0.24|3.02|||Log Rank|||||3.02|0.24|= 0.8372
92451707|NCT01485861|184790324|SUPERIORITY||Hazard Ratio (HR)|0.77|||=|0.7733|TWO_SIDED|90.0|0.17|3.5|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||3.50|0.17|= 0.7733
92451708|NCT01485861|184790324|SUPERIORITY||Hazard Ratio (HR)|2.46|||=|0.4227|TWO_SIDED|90.0|0.36|16.59|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||16.59|0.36|= 0.4227
92451709|NCT01485861|184790325|SUPERIORITY||Hazard Ratio (HR)|999.99|||=|0.3173|TWO_SIDED|90.0|0.0||NA = Not estimable due to limited number of events observed||Log Rank||\>||||0.00|= 0.3173
92451710|NCT01485861|184790325|SUPERIORITY||Hazard Ratio (HR)|999.99|||=|0.6171|TWO_SIDED|90.0|0.0||NA = Not estimable due to limited number of events observed||Log Rank||\>||||0.00|= 0.6171
92451711|NCT01485861|184790326|SUPERIORITY||Difference in response rates|3.75|||=|0.6652|TWO_SIDED|90.0|-10.47|17.97|||Chi-squared|||||17.97|-10.47|= 0.6652
92451712|NCT01485861|184790326|SUPERIORITY||Difference in response rates|7.48|||=|0.3734|TWO_SIDED|90.0|-6.29|21.24|||Chi-squared|||||21.24|-6.29|= 0.3734
92451713|NCT01485861|184790327|SUPERIORITY||Difference in response rates|4.41|||=|0.7633|TWO_SIDED|90.0|-19.76|28.58|||Chi-squared|||||28.58|-19.76|= 0.7633
92451714|NCT01485861|184790327|SUPERIORITY||Difference in response rates|4.41|||=|0.7633|TWO_SIDED|90.0|-19.76|28.58|||Chi-squared|||||28.58|-19.76|= 0.7633
92451715|NCT01485861|184790328|SUPERIORITY||Difference in response rates|2.24|||=|0.8317|TWO_SIDED|90.0|-15.07|19.54|||Chi-squared|||||19.54|-15.07|= 0.8317
92451716|NCT01485861|184790328|SUPERIORITY||Difference in response rates|5.14|||=|0.6139|TWO_SIDED|90.0|-11.6|21.88|||Chi-squared|||||21.88|-11.60|= 0.6139
92451717|NCT01485861|184790329|SUPERIORITY||Difference in response rates|34.85|||=|0.0505|TWO_SIDED|90.0|7.14|62.56|||Chi-squared|||||62.56|7.14|= 0.0505
92451718|NCT01485861|184790329|SUPERIORITY||Difference in response rates|-9.6|||=|0.4989|TWO_SIDED|90.0|-32.54|13.35|||Chi-squared|||||13.35|-32.54|= 0.4989
92451719|NCT01485861|184790332|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.95|||=|0.8483|TWO_SIDED|90.0|0.61|1.47|||Log Rank|||||1.47|0.61|= 0.8483
92451720|NCT01485861|184790332|SUPERIORITY|Unstratified|Hazard Ratio (HR)|1.08|||=|0.785|TWO_SIDED|90.0|0.7|1.65|||Log Rank|||||1.65|0.70|= 0.7850
92451721|NCT01485861|184790332|SUPERIORITY||Hazard Ratio (HR)|1.04|||=|0.8847|TWO_SIDED|90.0|0.66|1.65|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||1.65|0.66|= 0.8847
92451722|NCT01485861|184790332|SUPERIORITY||Hazard Ratio (HR)|1.05|||=|0.8647|TWO_SIDED|90.0|0.67|1.63|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||1.63|0.67|= 0.8647
92451723|NCT01485861|184790333|SUPERIORITY||Hazard Ratio (HR)|0.89|||=|0.8271|TWO_SIDED|90.0|0.39|2.06|||Log Rank|||||2.06|0.39|= 0.8271
92451724|NCT01485861|184790333|SUPERIORITY||Hazard Ratio (HR)|0.84|||=|0.7383|TWO_SIDED|90.0|0.35|2.02|||Log Rank|||||2.02|0.35|= 0.7383
92451725|NCT01243944|184790384|SUPERIORITY_OR_OTHER||Odds Ratio, log|32.67|||<|0.0001|TWO_SIDED|95.0|5.04|1337.0|||Exact Cochran-Mantel-Haenszel|||||1337|5.04|< 0.0001
92173005|NCT03978871|184236881|SUPERIORITY|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||1.17e-05||||||Reported result for cluster localized in the Middle Temporal Gyrus (Left). FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels.|t-test, 2 sided|||||||.0000117
92173006|NCT03978871|184236881|SUPERIORITY|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||0||||||"Reported result for cluster localized in the Anterior Cingulate/Medial Frontal Gyrus.~FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels."|t-test, 2 sided|||||||.000000000
92173007|NCT03978871|184236881|SUPERIORITY|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||1.86e-05||||||Reported result for cluster localized in the Middle Frontal Gyrus (Right). FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels.|t-test, 2 sided|||||||.0000186
92173008|NCT03978871|184236881|SUPERIORITY|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||0||||||Reported result for cluster localized in the Middle Frontal Gyrus (Left). FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels.|t-test, 2 sided|||||||.000000000
92280983|NCT00266409|184465018|SUPERIORITY_OR_OTHER|||||||0.0255||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint, CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0255
92451726|NCT01243944|184790385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|28.01|||<|0.0001|TWO_SIDED|95.0|4.24|1144.0|||Exact Cochran-Mantel-Haenszel|||||1144|4.24|<0.0001
92451727|NCT01243944|184790386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.57||||0.0016|TWO_SIDED|95.0|1.5|9.06|||Exact Cochran-Mantel-Haenszel|P-value was calculated using stratified exact Cochran-Mantel-Haenszel test by adjusting for the WBC/platelet status (abnormal vs normal) at baseline.||||9.06|1.50|0.0016
92451728|NCT02673697|184790415|NON_INFERIORITY|"The primary analysis will calculate the Bayesian posterior probability that the difference \[MACCECONTROL~\- MACCEPERCEVAL\] is lower than 0.05 (predetermined non-inferiority margin): The null hypothesis will be rejected, and non-inferiority concluded, if the posterior probability exceeds 0.9775 at the final analysis."||||||0.9914||||||The null hypothesis will be rejected, and non-inferiority concluded, if the posterior probability exceeds 0.9775 at the final analysis.|Bayesian|||"A the primary analysis will compare Perceval valve (Treatment arm) vs. standard sutured stented valve (Control arm) on the Per Protocol population.~A one-sided non-inferiority test, using the non-inferiority margin Δ=0.05, will be performed to compare the two arms on the proportion of subjects that are event-free at one year (primary analysis)."||||0.9914
92173009|NCT03978871|184236881|SUPERIORITY|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||1.61e-05||||||Reported result for cluster localized in the Posterior Cingulate/Cingulate. FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels.|t-test, 2 sided|||||||.0000161
92451729|NCT00289341|184790421|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||for injection site reaction only||||0.001
92451730|NCT00289341|184790421|SUPERIORITY_OR_OTHER||||||>|0.2||95.0|||||Fisher Exact|||for all other adverse events||||>0.2
92451731|NCT00289341|184790423|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||Linear Spline model|||||||0.016
92451732|NCT03321019|184790436|OTHER||F-statistic|8.59|||<|0.0001|TWO_SIDED|||||The p value was adjusted for multiple comparisons using Tukey's method.|ANOVA|Degree of freedom - 3, 278||Healthy controls were compared to PD participants across each of the 3 visits. PD participants were compared between visits 1, 2 and 3.||||<.0001
92451733|NCT03321019|184790437|OTHER||F-statistic|0.44||||0.72|TWO_SIDED|||||Tukey's method was used to control for multiple comparisons.|ANOVA|Degrees of freedom - 3. 278||Healthy controls were compared to PD participants across each of the 3 visits. PD participants were compared between visits 1, 2 and 3.||||0.72
92451734|NCT03321019|184790438|OTHER||F-statistic|3.048||||0.02|TWO_SIDED|||||Dunnett's T3 method was used to account for multiple comparisons.|ANOVA|degrees of freedom: 3, 229||Healthy controls were compared to PD participants across each of the 3 visits. PD participants were compared between visits 1, 2 and 3.||||0.02
92451735|NCT03321019|184790439|OTHER||F-statistic|2.939||||0.034|TWO_SIDED|||||The p value was adjusted in the analysis for multiple comparisons using Tukey's method.|ANOVA|Degrees of freedom - 3, 231||Healthy controls were compared to PD participants across each of the 3 visits. PD participants were compared between visits 1, 2 and 3.||||0.034
92241267|NCT01953328|184385766|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-64.33|STANDARD_ERROR_OF_MEAN|2.35|<|0.001|TWO_SIDED|95.0|-69.01|-59.66||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-59.66|-69.01|<0.001
92241268|NCT01953328|184385766|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-64.05|STANDARD_ERROR_OF_MEAN|2.44|<|0.001|TWO_SIDED|95.0|-68.9|-59.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-59.20|-68.90|<0.001
92241269|NCT01953328|184385766|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-67.26|STANDARD_ERROR_OF_MEAN|2.07|<|0.001|TWO_SIDED|95.0|-71.36|-63.15||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-63.15|-71.36|<0.001
92451736|NCT03321019|184790440|OTHER||F-statistic|1.494||||0.022|TWO_SIDED|||||Tukey's method was used to adjust for multiple comparisons.|ANOVA|Degrees of freedom - 3, 274||Healthy controls were compared to PD participants across each of the 3 visits. PD participants were compared between visits 1, 2 and 3.||||0.022
92451737|NCT03880578|184790441|SUPERIORITY||Mean Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-14.9|-5.7|||Mixed Models Analysis|The outcome measure is change over time between treatment groups, reported as a mean adjusted difference.|change in the composite score of the ThyPRO between groups|||-5.7|-14.9|<0.001
92451738|NCT03880578|184790442|SUPERIORITY||Mean Difference (Final Values)|-2.14||||0.06|TWO_SIDED|95.0|-4.34|0.06|||Mixed Models Analysis|||||0.06|-4.34|0.06
92241270|NCT01953328|184385767|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.29|STANDARD_ERROR_OF_MEAN|2.24|<|0.001|TWO_SIDED|95.0|-72.75|-63.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-63.84|-72.75|<0.001
92451739|NCT03880578|184790443|SUPERIORITY||Median Difference (Final Values)|1.7|||<|0.001|TWO_SIDED|95.0|1.27|2.03|||Mixed Models Analysis||MAD obtained after log transformation of TSH|||2.03|1.27|<0.001
92451740|NCT03880578|184790444|SUPERIORITY||Mean Difference (Final Values)|-0.61|||<|0.001|TWO_SIDED|95.0|-0.87|-0.35|||Mixed Models Analysis|||FT3||-0.35|-0.87|<0.001
92241271|NCT01953328|184385767|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-62.53|STANDARD_ERROR_OF_MEAN|2.81|<|0.001|TWO_SIDED|95.0|-68.11|-56.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-56.94|-68.11|<0.001
92451741|NCT03880578|184790444|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.12|TWO_SIDED|95.0|-1.81|0.15|||Mixed Models Analysis|||FT4||0.15|-1.81|0.12
92451742|NCT03880578|184790445|SUPERIORITY||Mean Difference (Final Values)|-11.6|||<|0.001|TWO_SIDED|95.0|-14.6|-8.5|||Mixed Models Analysis|||||-8.5|-14.6|<0.001
92451743|NCT03056690|184790454|SUPERIORITY|Mixed model repeated measures (MMRM) analysis model is performed with change from baseline (Week 8) as response; treatment, center (pooled where necessary), time (week 8) and treatment\*time as fixed effects, baseline and baseline\*time as covariates.|LSMean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.25||0.086|TWO_SIDED|90.0|-0.76|0.07|||MMRM|||||0.07|-0.76|0.086
92451744|NCT03056690|184790460|SUPERIORITY||Difference|0.2||||0.551|TWO_SIDED|90.0|-11.9|12.5|||Fisher Exact|CI for each treatment group and the difference of the proportions is an exact unconditional confidence interval based on Santner-Snell approach.||||12.5|-11.9|0.551
92451745|NCT03056690|184790461|SUPERIORITY||Difference|6.9||||0.202|TWO_SIDED|90.0|-5.2|19.1|||Fisher Exact|CI for each treatment group and the difference of the proportions is an exact unconditional confidence interval based on Santner-Snell approach.||||19.1|-5.2|0.202
92451746|NCT03056690|184790462|SUPERIORITY||Difference|1.7||||0.451|TWO_SIDED|90.0|-10.5|13.8|||Fisher Exact|CI for each treatment group and the difference of the proportions is an exact unconditional confidence interval based on Santner-Snell approach.||||13.8|-10.5|0.451
92451747|NCT03056690|184790463|SUPERIORITY||Difference|6.1||||0.174|TWO_SIDED|90.0|-6.2|18.1|||Fisher Exact|CI for each treatment group and the difference of the proportions is an exact unconditional confidence interval based on Santner-Snell approach.||||18.1|-6.2|0.174
92241272|NCT01953328|184385767|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-63.97|STANDARD_ERROR_OF_MEAN|2.75|<|0.001|TWO_SIDED|95.0|-69.44|-58.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-58.50|-69.44|<0.001
92451748|NCT03056690|184790464|SUPERIORITY||Least Square (LS) Mean difference|-1.48|STANDARD_ERROR_OF_MEAN|2.04||0.235|TWO_SIDED|90.0|-4.86|1.9||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Function Subscale: Week 2||1.90|-4.86|0.235
92173010|NCT03978871|184236881|OTHER|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative reframe \> negative immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005.|||||>|0.001||||||pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 298 voxels.|t-test, 2 sided|||||||>.001
92173011|NCT03978871|184236882|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.56|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (baseline and follow-up) on depression levels from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.560
92173012|NCT03978871|184236883|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.327|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (baseline and follow-up) on depression levels from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.327
92173013|NCT03978871|184236884|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.439|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (baseline and follow-up) on anxiety levels from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.439
92173014|NCT03978871|184236884|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.545|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (baseline and follow-up) on anxiety levels from time 1 to time 2. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.545
92241273|NCT01953328|184385767|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.62|STANDARD_ERROR_OF_MEAN|2.47|<|0.001|TWO_SIDED|95.0|-65.51|-55.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-55.72|-65.51|<0.001
92451749|NCT03056690|184790464|SUPERIORITY||LSMean Difference|-2.97|STANDARD_ERROR_OF_MEAN|2.34||0.103|TWO_SIDED|90.0|-6.84|0.89||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Function Subscale: Week 4||0.89|-6.84|0.103
92451750|NCT03056690|184790464|SUPERIORITY||LSMean Difference|-2.59|STANDARD_ERROR_OF_MEAN|2.53||0.154|TWO_SIDED|90.0|-6.78|1.6||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Function Subscale: Week 8||1.60|-6.78|0.154
92451751|NCT03056690|184790464|SUPERIORITY||LSMean Difference|-1.34|STANDARD_ERROR_OF_MEAN|1.88||0.238|TWO_SIDED|90.0|-4.45|1.77||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Symptoms Subscale: Week 2||1.77|-4.45|0.238
92451752|NCT03056690|184790464|SUPERIORITY||LSMean Difference|-3.73|STANDARD_ERROR_OF_MEAN|2.11||0.039|TWO_SIDED|90.0|-7.22|-0.24||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Symptoms Subscale: Week 4||-0.24|-7.22|0.039
92173015|NCT03978871|184236885|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.74|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (baseline and follow-up) on anxiety levels from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.740
92173016|NCT04166773|184236893|SUPERIORITY||Odds Ratio (OR)|7.45|||<|0.001|TWO_SIDED|95.0|2.27|24.44|||Regression, Logistic||Odds ratio, Confidence Interval (CI), and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||24.44|2.27|<0.001
92173017|NCT04166773|184236893|SUPERIORITY||Odds Ratio (OR)|11.86|||<|0.001|TWO_SIDED|95.0|3.59|39.11|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||39.11|3.59|<0.001
92173018|NCT04166773|184236893|SUPERIORITY||Odds Ratio (OR)|19.63|||<|0.001|TWO_SIDED|95.0|5.73|67.25|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||67.25|5.73|<0.001
92173019|NCT04166773|184236894|SUPERIORITY||Odds Ratio (OR)|3.01||||0.025|TWO_SIDED|95.0|1.15|7.9|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||7.90|1.15|0.025
92173020|NCT04166773|184236894|SUPERIORITY||Odds Ratio (OR)|2.37||||0.074|TWO_SIDED|95.0|0.92|6.13|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors|||6.13|0.92|0.074
92173021|NCT04166773|184236894|SUPERIORITY||Odds Ratio (OR)|2.47||||0.063|TWO_SIDED|95.0|0.95|6.4|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||6.40|0.95|0.063
92241274|NCT01953328|184385768|SUPERIORITY_OR_OTHER||Treatment Difference|98.0|||<|0.001|TWO_SIDED|95.0|86.8|99.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||99.6|86.8|<0.001
92241275|NCT01953328|184385768|SUPERIORITY_OR_OTHER||Treatment Difference|96.0|||<|0.001|TWO_SIDED|95.0|84.1|98.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||98.9|84.1|<0.001
92451753|NCT03056690|184790464|SUPERIORITY||LSMean Difference|-3.06|STANDARD_ERROR_OF_MEAN|2.34||0.097|TWO_SIDED|90.0|-6.93|0.81||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Symptoms Subscale: Week 8||0.81|-6.93|0.097
92451754|NCT03056690|184790464|SUPERIORITY||LSMean DIfference|-0.99|STANDARD_ERROR_OF_MEAN|0.63||0.057|TWO_SIDED|90.0|-2.03|0.04||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Overall Impact Subscale: Week 2||0.04|-2.03|0.057
92451755|NCT03056690|184790464|SUPERIORITY||LSMean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.63||0.018|TWO_SIDED|90.0|-2.39|-0.29||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Overall Impact Subscale: Week 4||-0.29|-2.39|0.018
92451756|NCT03056690|184790464|SUPERIORITY||LSMean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.7||0.111|TWO_SIDED|90.0|-2.02|0.3||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Overall Impact Subscale: Week 8||0.30|-2.02|0.111
92451757|NCT03056690|184790465|SUPERIORITY||LSMean difference|-3.15|STANDARD_ERROR_OF_MEAN|2.36||0.092|TWO_SIDED|90.0|-7.05|0.75||ANCOVA model is performed with change from baseline at the EOT timepoint as response treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.|ANCOVA|||Function Subscale||0.75|-7.05|0.092
92451758|NCT03056690|184790465|SUPERIORITY||LSMean difference|-3.29|STANDARD_ERROR_OF_MEAN|2.16||0.065|TWO_SIDED|90.0|-6.85|0.28||ANCOVA model is performed with change from baseline at the EOT timepoint as response treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.|ANCOVA|||Symptoms subscale||0.28|-6.85|0.065
92451759|NCT03056690|184790465|SUPERIORITY||LSMean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.65||0.049|TWO_SIDED|90.0|-2.15|-0.01||ANCOVA model is performed with change from baseline at the EOT timepoint as response treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.|ANCOVA|||Overall Impact Subscale.||-0.01|-2.15|0.049
92451760|NCT03056690|184790466|SUPERIORITY|The 90% 2-sided CI is based on profile likelihood and 2-sided p-value is based on likelihood test. p-value is for the comparison of ASP0819 15 mg with Placebo from the above described proportional odds model.|Odds Ratio (OR)|1.43||||0.192|TWO_SIDED|90.0|0.91|2.24|||Likelihood test|||Week 2||2.24|0.91|0.192
92451761|NCT03056690|184790466|SUPERIORITY||Odds Ratio (OR)|1.33||||0.285|TWO_SIDED|90.0|0.86|2.07||The 90% 2-sided CI is based on profile likelihood and 2-sided p-value is based on likelihood test. p-value is for the comparison of ASP0819 15 mg with Placebo from the above described proportional odds model.|Likelihod test|||Week 4||2.07|0.86|0.285
92451762|NCT03056690|184790466|SUPERIORITY||Odds Ratio (OR)|1.2||||0.486|TWO_SIDED|90.0|0.78|1.87||The 90% 2-sided CI is based on profile likelihood and 2-sided p-value is based on likelihood test. p-value is for the comparison of ASP0819 15 mg with Placebo from the above described proportional odds model.|Likelihood test|||EOT||1.87|0.78|0.486
92451763|NCT03056690|184790467|SUPERIORITY|The 90% 2-sided CI is based on profile likelihood and 2-sided p-value is based on likelihood test.|Odds Ratio (OR)|1.32||||0.305|TWO_SIDED|90.0|0.85|2.05|||Likelihood test|||Week 8||2.05|0.85|0.305
92451764|NCT01944046|184790476|SUPERIORITY|||||||0.503||||||not adjusted primary outcome|Mixed Models Analysis|adjusted for baseline, age category, functionality category||||||0.503
92451765|NCT01944046|184790477|SUPERIORITY|||||||0.61||||||not adjusted primary outcome, p threshold 0.05|Mixed Models Analysis|adjustment for value at week 24,||||||0.61
92451766|NCT00153101|184790494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.8462||95.0|0.92|1.07|||Regression, Cox|||||1.07|0.92|0.8462
92451767|NCT00153101|184790494|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin was 1.13|Hazard Ratio (HR)|1.01||||0.0019||97.5|0.93|1.1|||Regression, Cox|||||1.10|0.93|0.0019
92451768|NCT00153101|184790495|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9086||95.0|0.93|1.09|||Regression, Cox|||||1.09|0.93|0.9086
92451769|NCT00153101|184790495|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin was 1.13|Hazard Ratio (HR)|0.99||||0.0004||97.5|0.9|1.08|||Regression, Cox|||||1.08|0.90|0.0004
92451770|NCT00153101|184790496|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.4535||95.0|0.93|1.17|||Regression, Cox|||||1.17|0.93|0.4535
92451771|NCT00153101|184790496|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9421||95.0|0.89|1.12|||Regression, Cox|||||1.12|0.89|0.9421
92451772|NCT00153101|184790497|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.2909||95.0|0.94|1.23|||Regression, Cox|||||1.23|0.94|0.2909
92451773|NCT00153101|184790497|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.2534||95.0|0.94|1.24|||Regression, Cox|||||1.24|0.94|0.2534
92451774|NCT00153101|184790498|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.2248||95.0|0.79|1.06|||Regression, Cox|||||1.06|0.79|0.2248
92451775|NCT00153101|184790498|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.1829||95.0|0.79|1.05|||Regression, Cox|||||1.05|0.79|0.1829
92451776|NCT00153101|184790499|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.4984||95.0|0.82|1.1|||Regression, Cox|||||1.10|0.82|0.4984
92173022|NCT04166773|184236895|SUPERIORITY||Odds Ratio (OR)|0.91||||0.893|TWO_SIDED|95.0|0.25|3.4|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||3.40|0.25|0.893
92173023|NCT04166773|184236895|SUPERIORITY||Odds Ratio (OR)|0.73||||0.647|TWO_SIDED|95.0|0.18|2.87|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||2.87|0.18|0.647
92173024|NCT04166773|184236895|SUPERIORITY||Odds Ratio (OR)|0.39||||0.246|TWO_SIDED|95.0|0.08|1.91|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||1.91|0.08|0.246
92173025|NCT04166773|184236896|SUPERIORITY||Odds Ratio (OR)|6.94|||<|0.001|TWO_SIDED|95.0|2.41|20.0|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||20.00|2.41|<0.001
92280984|NCT00266409|184465018|SUPERIORITY_OR_OTHER|||||||0.0065||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0065
92451777|NCT00153101|184790499|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.1203||95.0|0.97|1.29|||Regression, Cox|||||1.29|0.97|0.1203
92451778|NCT00153101|184790500|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.4221|TWO_SIDED|95.0|0.73|2.15|||Regression, Cox|||||2.15|0.73|0.4221
92451779|NCT00153101|184790500|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.7305||95.0|0.51|1.6|||Regression, Cox|||||1.60|0.51|0.7305
92451780|NCT00153101|184790501|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.6248||95.0|0.54|1.45|||Regression, Cox|||||1.45|0.54|0.6248
92451781|NCT00153101|184790501|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.0751|TWO_SIDED|95.0|0.36|1.05|||Regression, Cox|||||1.05|0.36|0.0751
92451782|NCT00153101|184790502|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.3682||95.0|0.63|1.18|||Regression, Cox|||||1.18|0.63|0.3682
92451783|NCT00153101|184790502|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.6014||95.0|0.69|1.24|||Regression, Cox|||||1.24|0.69|0.6014
92451784|NCT00153101|184790503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.255||95.0|0.91|1.42|||Regression, Cox|||||1.42|0.91|0.2550
92451785|NCT00153101|184790503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.5297||95.0|0.86|1.34|||Regression, Cox|||||1.34|0.86|0.5297
92173026|NCT04166773|184236896|SUPERIORITY||Odds Ratio (OR)|10.46|||<|0.001|TWO_SIDED|95.0|3.36|32.61|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||32.61|3.36|<0.001
92173027|NCT04166773|184236896|SUPERIORITY||Odds Ratio (OR)|12.85|||<|0.001|TWO_SIDED|95.0|3.87|42.65|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||42.65|3.87|<0.001
92173028|NCT04166773|184236897|SUPERIORITY||LS Mean difference (Final Values)|-8.81|STANDARD_ERROR_OF_MEAN|1.632|<|0.001|TWO_SIDED|95.0|-12.04|-5.58|||Mixed Models Analysis|||||-5.58|-12.04|<0.001
92173029|NCT04166773|184236897|SUPERIORITY||LS Mean difference (Final Values)|-8.83|STANDARD_ERROR_OF_MEAN|1.566|<|0.001|TWO_SIDED|95.0|-11.93|-5.73|||Mixed Models Analysis|||||-5.73|-11.93|<0.001
92173030|NCT04166773|184236897|SUPERIORITY||LS Mean difference (Final Values)|-10.02|STANDARD_ERROR_OF_MEAN|1.591|<|0.001|TWO_SIDED|95.0|-13.17|-6.87|||Mixed Models Analysis|||||-6.87|-13.17|<0.001
92173031|NCT04166773|184236898|SUPERIORITY||LS Mean difference (Final Values)|-10.42|STANDARD_ERROR_OF_MEAN|1.976|<|0.001|TWO_SIDED|95.0|-14.32|-6.52|||Mixed Models Analysis|||||-6.52|-14.32|<0.001
92173032|NCT04166773|184236898|SUPERIORITY||LS Mean difference (Final Values)|-13.19|STANDARD_ERROR_OF_MEAN|1.96|<|0.001|TWO_SIDED|95.0|-17.05|-9.32|||Mixed Models Analysis|||||-9.32|-17.05|<0.001
92173033|NCT04166773|184236898|SUPERIORITY||LS Mean difference (Final Values)|-16.84|STANDARD_ERROR_OF_MEAN|1.957|<|0.001|TWO_SIDED|95.0|-20.71|-12.98|||Mixed Models Analysis|||||-12.98|-20.71|<0.001
92182468|NCT01604824|184263785|SUPERIORITY||LS Mean Difference|-44.64|STANDARD_ERROR_OF_MEAN|10.876|=|0.0045|TWO_SIDED|95.0|-70.36|18.92||Threshold for significance ≤ 0.05|ANCOVA|||LS means (SE), mean difference, 95% CI, and p-values were derived from ANCOVA with treatment group as factor and baseline as covariate.||18.92|-70.36|= 0.0045
92451786|NCT00153101|184790504|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.4593||95.0|0.82|1.56|||Regression, Cox|||||1.56|0.82|0.4593
92451787|NCT00153101|184790504|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.7468||95.0|0.68|1.32|||Regression, Cox|||||1.32|0.68|0.7468
92451788|NCT00153101|184790505|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.5461|TWO_SIDED|95.0|0.71|1.2|||Regression, Cox|||||1.20|0.71|0.5461
92451789|NCT00153101|184790505|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.3436||95.0|0.68|1.14|||Regression, Cox|||||1.14|0.68|0.3436
92451790|NCT00153101|184790506|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.0133||95.0|0.8|0.97|||Regression, Cox|||||0.97|0.80|0.0133
92451791|NCT00153101|184790506|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.1251||95.0|0.84|1.02|||Regression, Cox|||||1.02|0.84|0.1251
92451792|NCT00153101|184790507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0213||95.0|0.67|0.97|||Regression, Cox|||||0.97|0.67|0.0213
92451793|NCT00153101|184790507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.2396||95.0|0.75|1.07|||Regression, Cox|||||1.07|0.75|0.2396
92451794|NCT00153101|184790508|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.0111||95.0|0.83|0.98|||Regression, Cox|||||0.98|0.83|0.0111
92451795|NCT00153101|184790508|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.0606||95.0|0.85|1.0|||Regression, Cox|||||1.00|0.85|0.0606
92451796|NCT00153101|184790509|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.0082||95.0|1.05|1.35|||Regression, Cox|||||1.35|1.05|0.0082
92451797|NCT00153101|184790509|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.2164||95.0|0.95|1.23|||Regression, Cox|||||1.23|0.95|0.2164
92451798|NCT00153101|184790510|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.3732||95.0|0.83|1.07|||Regression, Cox|||||1.07|0.83|0.3732
92241276|NCT01953328|184385768|SUPERIORITY_OR_OTHER||Treatment Difference|73.6|||<|0.001|TWO_SIDED|95.0|57.1|83.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||83.4|57.1|<0.001
92451799|NCT00153101|184790510|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.3633||95.0|0.94|1.2|||Regression, Cox|||||1.20|0.94|0.3633
92451800|NCT00153101|184790511|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.2713||95.0|0.97|1.13|||Regression, Cox|||||1.13|0.97|0.2713
92451801|NCT00153101|184790511|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.515||95.0|0.95|1.11|||Regression, Cox|||||1.11|0.95|0.5150
92451802|NCT00153101|184790512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.3485||95.0|0.77|1.1|||Regression, Cox|||for subjects without diabetes at baseline||1.10|0.77|0.3485
92241277|NCT01953328|184385768|SUPERIORITY_OR_OTHER||Treatment Difference|82.4|||<|0.001|TWO_SIDED|95.0|67.5|90.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||90.0|67.5|<0.001
92287192|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.18|||<|0.001|TWO_SIDED|95.0|0.118|0.242|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.242|0.118|<0.001
92451803|NCT00153101|184790512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.1235||95.0|0.96|1.36|||Regression, Cox|||for subjects without diabetes at baseline||1.36|0.96|0.1235
92451804|NCT00153101|184790513|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99||||0.869||95.0|0.89|1.11|||Chi-squared|||for subjects with available Mini Mental State Examination (MMSE) at baseline||1.11|0.89|0.8690
92451805|NCT00153101|184790513|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.04||||0.4337||95.0|0.94|1.17|||Chi-squared|||for subjects with available Mini Mental State Examination (MMSE) at baseline||1.17|0.94|0.4337
92451806|NCT00153101|184790514|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.2666||95.0|0.83|1.05|||Regression, Cox|||for subjects without atrial fibrillation at baseline||1.05|0.83|0.2666
92451807|NCT00153101|184790514|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.4784||95.0|0.85|1.08|||Regression, Cox|||for subjects without atrial fibrillation at baseline||1.08|0.85|0.4784
92451808|NCT00153101|184790515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.0483||95.0|0.76|1.0|||Regression, Cox|||||1.00|0.76|0.0483
92451809|NCT00153101|184790516|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.2192||95.0|0.81|1.05|||Regression, Cox|||||1.05|0.81|0.2192
92451810|NCT00153101|184790517|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.7764||95.0|0.85|1.24|||Regression, Cox|||||1.24|0.85|0.7764
92451811|NCT00153101|184790518|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0574||95.0|0.62|1.01|||Regression, Cox|||||1.01|0.62|0.0574
92451812|NCT00153101|184790519|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.1365||95.0|0.64|1.06|||Regression, Cox|||||1.06|0.64|0.1365
92451813|NCT00153101|184790520|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.694||95.0|0.82|1.34|||Regression, Cox|||||1.34|0.82|0.6940
92451814|NCT00153101|184790521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.58||||0.0245||95.0|1.06|2.35|||Regression, Cox|||||2.35|1.06|0.0245
92451815|NCT00153101|184790522|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.5798||95.0|0.36|1.76|||Regression, Cox|||||1.76|0.36|0.5798
92451816|NCT00153101|184790523|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.0006||95.0|0.65|0.89|||Regression, Cox|||||0.89|0.65|0.0006
92451817|NCT00153101|184790524|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.0085||95.0|0.48|0.9|||Regression, Cox|||||0.90|0.48|0.0085
92241278|NCT01953328|184385769|SUPERIORITY_OR_OTHER||Treatment Difference|98.0|||<|0.001|TWO_SIDED|95.0|86.7|99.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||99.6|86.7|<0.001
92451818|NCT00153101|184790525|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.0015||95.0|0.69|0.92|||Regression, Cox|||||0.92|0.69|0.0015
92451819|NCT00153101|184790526|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.39||||0.0101||95.0|1.08|1.79|||Regression, Cox|||||1.79|1.08|0.0101
92451820|NCT00153101|184790527|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9563||95.0|0.82|1.24|||Regression, Cox|||||1.24|0.82|0.9563
92451821|NCT00153101|184790528|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.17||||0.0868||95.0|0.98|1.41|||Chi-squared|||||1.41|0.98|0.0868
92451822|NCT00153101|184790529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.0172||95.0|0.6|0.95|||Regression, Cox|||||0.95|0.60|0.0172
92451823|NCT00153101|184790530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.1431||95.0|0.78|1.04|||Regression, Cox|||||1.04|0.78|0.1431
92451824|NCT00153101|184790531|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.8974||95.0|0.81|1.21|||Regression, Cox|||||1.21|0.81|0.8974
92280985|NCT00266409|184465019|SUPERIORITY_OR_OTHER|||||||0.037||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0370
92182469|NCT01604824|184263786|SUPERIORITY||LS Mean Difference|-49.37|STANDARD_ERROR_OF_MEAN|11.487|=|0.0016|TWO_SIDED|95.0|-74.96|-23.77||Threshold for significance ≤ 0.05|ANCOVA|||||-23.77|-74.96|= 0.0016
92182470|NCT01604824|184263786|SUPERIORITY||LS Mean Difference|-40.36|STANDARD_ERROR_OF_MEAN|10.471|=|0.0063|TWO_SIDED|95.0|-65.12|15.6||Threshold for significance ≤ 0.05|ANCOVA|||||15.60|-65.12|= 0.0063
92182471|NCT01604824|184263787|SUPERIORITY||LS Mean Difference|-30.75|STANDARD_ERROR_OF_MEAN|7.224|=|0.0017|TWO_SIDED|95.0|-46.85|-14.66||Threshold for significance ≤ 0.05|ANCOVA|||||-14.66|-46.85|= 0.0017
92451825|NCT00439777|184790532|NON_INFERIORITY_OR_EQUIVALENCE|Assuming equal efficacy, a total of 88 events will give a power of 90% to demonstrate that rivaroxaban is at least as effective as the comparator, considering a relative non-inferiority upper CI margin for the hazard ratio of 2.0 (two-sided alpha=0.05). The mean overall incidence for the primary efficacy outcome of 3% was expected and therefore 1465 patients per group would be needed. This number was to be adjusted based on the observed overall incidence of symptomatic recurrent VTE.|Hazard Ratio (HR)|1.12|STANDARD_ERROR_OF_MEAN|0.2067||0.0026|TWO_SIDED|95.0|0.75|1.68|||Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline|The standard error of the log hazard ratio was estimated.|The rivaroxaban to comparator hazard ratio was computed with a 95% CI (confidence interval) (two-sided testing). Based on this model, rivaroxaban would be considered at least as effective as the comparator if the upper limit of the CI was less than 2.0.||1.68|0.75|0.0026
92451826|NCT00439777|184790533|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16|STANDARD_ERROR_OF_MEAN|0.15||0.33|TWO_SIDED|95.0|0.86|1.56||Nominal p-value|Regression, Cox||The standard error of the log hazard ratio was estimated.|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.||1.56|0.86|0.33
92451827|NCT00439777|184790534|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85|STANDARD_ERROR_OF_MEAN|0.1499||0.275|TWO_SIDED|95.0|0.63|1.14||Nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline|The standard error of the log hazard ratio was estimated.|||1.14|0.63|0.275
92451828|NCT00439777|184790535|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16|STANDARD_ERROR_OF_MEAN|0.257||0.55|TWO_SIDED|95.0|0.7|1.93||nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||1.93|0.70|0.55
92451829|NCT00439777|184790536|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|STANDARD_ERROR_OF_MEAN|0.3289||0.85|TWO_SIDED|95.0|0.49|1.79||Nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||1.79|0.49|0.85
92173034|NCT03033576|184236915|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.04|TWO_SIDED|90.0|0.41|0.97||Pre-specified one-sided alpha=0.1|Log Rank|||The statistical design assumed exponential PFS with a median of 3.0 months on the ipilimumab group (null hypothesis). The study was powered to detect a change in median PFS to 6.0 months in the combination therapy group (corresponding to an HR of 0.50). A total of 84 participants (63 randomized to combination group and 21 to ipilimumab group) with 78 events (across both groups) would provide 89% power for a one-sided alpha of 10% using a log-rank test.||0.97|0.41|0.04
92280986|NCT00266409|184465019|SUPERIORITY_OR_OTHER|||||||0.9569||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.9569
92451830|NCT00439777|184790537|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|STANDARD_ERROR_OF_MEAN|0.08756||0.23|TWO_SIDED|95.0|0.76|1.07||If the primary efficacy analysis shows that rivaroxaban is non-inferior to the comparator, the principal safety outcome was to be compared between treatment groups to maintain the overall type I error of 0.05 (2-sided) (a closed testing procedure).|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||1.07|0.76|0.23
92451831|NCT01175226|184790567|SUPERIORITY|||||||0.02|||||||ANCOVA|||||||0.020
92451832|NCT01072201|184790570|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92451833|NCT01072201|184790571|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92451834|NCT01072201|184790572|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups||||0.05
92451835|NCT02062502|184790624|NON_INFERIORITY_OR_EQUIVALENCE|The conclusion of non-inferiority (similarity) is based on the lower bound of the 2-sided 95% CI on the risk difference excluding a decrease equal to or more than the prespecified criterion of 10.0 percentage points for Varicella zoster virus.|Risk Difference (RD)|0.0|||<|0.001|TWO_SIDED|95.0|-3.2|3.2|||Miettinen and Nurminen|||||3.2|-3.2|<0.001
92451836|NCT02062502|184790625|NON_INFERIORITY_OR_EQUIVALENCE|The conclusion of non-inferiority (similarity) is based on the lower bound of the 2-sided 95% CI on fold-difference, excluding a decrease of 1.5 fold or more.|Risk Difference (RD)|0.95|||<|0.001|TWO_SIDED|95.0|0.85|1.06|||t-test, 2 sided|||||1.06|0.85|<0.001
92451837|NCT02062502|184790625|SUPERIORITY_OR_OTHER||Antibody Response Rate|97.2|||<|0.001|TWO_SIDED|95.0|94.4|98.9|||Exact CI method/binomial proportion|||The conclusion of acceptability is based on the lower bound of the 95% Confidence Interval (CI) being \>76%, and implies that the value of the parameter is statistically significantly greater than the prespecified acceptability criterion (76%).||98.9|94.4|<0.001
92451838|NCT05349617|184790631|SUPERIORITY||Percent Difference|86.2|||<|0.0001|TWO_SIDED|95.0|80.0|90.3||p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups. Both coprimary endpoints were required to be met for success, so no multiple comparisons were performed.|Chi-squared||Seroresponse rate difference is (PXVX0317 minus placebo).|Day 22||90.3|80|<0.0001
92451839|NCT05349617|184790632|SUPERIORITY||[GMT Ratio]|90.0|||<|0.0001|TWO_SIDED|95.0|69.0|117.0||Both coprimary endpoints were required to be met for success, so no multiple comparisons were performed.|ANOVA|ANOVA model covers site and treatment group as fixed effects, assuming log titers' normality. p-value tests equivalence of mean titers between groups.|Ratio of GMTs is (PXVX0317:placebo).|Day 22||117|69|<0.0001
92451840|NCT05349617|184790638|SUPERIORITY||Percent Difference|79.5|||<|0.0001|TWO_SIDED|95.0|72.3|84.6||Key secondary endpoints were tested hierarchically (Day 15 tested prior to Day 183), such that each was only tested if both coprimary endpoints and prior key secondary endpoints were met, so no multiple comparisons were performed|Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|Day 15||84.6|72.3|<0.0001
92287193|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.177|||<|0.001|TWO_SIDED|95.0|0.115|0.238|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.238|0.115|<0.001
92173035|NCT03033576|184236918|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.28|TWO_SIDED|90.0|0.5|1.39|||Log Rank|||||1.39|0.50|0.28
92173036|NCT02132936|184236955|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.55|||<|0.001|TWO_SIDED|95.0|1.46|4.46|||Mantel Haenszel|||"Mantel-Haenszel odds of treatment success in LEO 90100 group relative to calcipotriol BDP gel group, adjusted for pooled centre and baseline PGA.~Multiple imputation was used to handle missing PGA values."||4.46|1.46|<0.001
92173037|NCT02132936|184236956|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.18|||=|0.001|TWO_SIDED|95.0|1.37|3.47|||Mantel Haenszel|||"Mantel-Haenszel odds of having PASI 75 in LEO 90100 group relative to calcipotriol BDP gel group, adjusted for pooled centre and baseline PGA.~Multiple imputation was used to handle missing data."||3.47|1.37|=0.001
92173038|NCT02132936|184236957|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Log Rank|||||||<0.001
92241279|NCT01953328|184385769|SUPERIORITY_OR_OTHER||Treatment Difference|91.8|||<|0.001|TWO_SIDED|95.0|78.2|96.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||96.0|78.2|<0.001
92241280|NCT01953328|184385769|SUPERIORITY_OR_OTHER||Treatment Difference|75.6|||<|0.001|TWO_SIDED|95.0|59.3|85.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||85.0|59.3|<0.001
92451841|NCT05349617|184790638|SUPERIORITY||Percent Difference|74.4|||<|0.0001|TWO_SIDED|95.0|67.1|80.1||Key secondary endpoints were tested hierarchically (Day 15 tested prior to Day 183), such that each was only tested if both coprimary endpoints and prior key secondary endpoints were met, so no multiple comparisons were performed|Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|Day 183||80.1|67.1|<0.0001
92173039|NCT02132936|184236958|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||Mean change in itch adjusted for pooled centre, baseline PGA and baseline itch. Multiple imputation used for missing data.||||<0.001
92173040|NCT02132936|184236959|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.33|TWO_SIDED||||||ANCOVA|||Mean change in itch adjusted for pooled centre, baseline PGA and baseline itch. Multiple imputation used for missing data.||||=0.33
92241281|NCT01953328|184385769|SUPERIORITY_OR_OTHER||Treatment Difference|78.0|||<|0.001|TWO_SIDED|95.0|62.6|86.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||86.9|62.6|<0.001
92241282|NCT01953328|184385770|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-51.2|STANDARD_ERROR_OF_MEAN|6.39|<|0.001|TWO_SIDED|95.0|-63.88|-38.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-38.52|-63.88|<0.001
92241283|NCT01953328|184385770|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.08|STANDARD_ERROR_OF_MEAN|4.94|<|0.001|TWO_SIDED|95.0|-58.89|-39.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-39.27|-58.89|<0.001
92241284|NCT01953328|184385770|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.55|STANDARD_ERROR_OF_MEAN|5.14|<|0.001|TWO_SIDED|95.0|-59.74|-39.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-39.35|-59.74|<0.001
92241285|NCT01953328|184385770|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-43.93|STANDARD_ERROR_OF_MEAN|4.95|<|0.001|TWO_SIDED|95.0|-53.75|-34.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-34.12|-53.75|<0.001
92451842|NCT05349617|184790639|SUPERIORITY||[GMT Ratio]|42.0|||<|0.0001|TWO_SIDED|95.0|32.0|56.0|||ANOVA|ANOVA model covers site and treatment group as fixed effects, assuming log titers' normality. p-value tests equivalence of mean titers between groups.|Ratio of GMTs is (PXVX0317:placebo)|Day 15||56|32|<0.0001
92451843|NCT05349617|184790639|SUPERIORITY||[GMT Ratio]|28.0|||<|0.0001|TWO_SIDED|95.0|22.0|35.0|||ANOVA|ANOVA model covers site and treatment group as fixed effects, assuming log titers' normality. p-value tests equivalence of mean titers between groups.|Ratio of GMTs is (PXVX0317:placebo)|Day 183||35|22|<0.0001
92173041|NCT02596126|184237000|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI). If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.76|||<|0.025|TWO_SIDED|95.0|0.6|0.96|||Regression, Cox|||||0.96|0.6|< 0.025
92173042|NCT02596126|184237000|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
92173043|NCT02596126|184237001|EQUIVALENCE|Treatment adherence is measured at visit 1 (6 months) and visit 3 (24 months) using the Morisky-Medication Adherence Scale (8 item) Questionnaire (MMAS-8). The number and percentage of patients with low (0-5), medium (6-7) and high (8) adherence will be reported by treatment group. The distributions of the MMAS-8 score at 6 months and 24 months will be compared between treatment groups using an ordinal logistic regression model.|Risk Ratio (RR)|1.13|||<|0.005|TWO_SIDED|95.0|1.06|1.2|||Chi-squared|||Statistical analysis title - Treatment adherence at 6 months||1.2|1.06|< 0.005
92241286|NCT01953328|184385771|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-50.07|STANDARD_ERROR_OF_MEAN|7.64|<|0.001|TWO_SIDED|95.0|-65.25|-34.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-34.90|-65.25|<0.001
92451844|NCT05349617|184790640|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95 percent CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 15||||<0.0001
92451845|NCT05349617|184790640|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95 percent CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 22||||<0.0001
92241287|NCT01953328|184385771|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-48.77|STANDARD_ERROR_OF_MEAN|5.9|<|0.001|TWO_SIDED|95.0|-60.49|-37.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-37.05|-60.49|<0.001
92451846|NCT05349617|184790640|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95 percent CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 183||||<0.0001
92241288|NCT01953328|184385771|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-52.68|STANDARD_ERROR_OF_MEAN|5.73|<|0.001|TWO_SIDED|95.0|-64.06|-41.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-41.30|-64.06|<0.001
92451847|NCT05349617|184790641|SUPERIORITY||Percent Difference|91.6|||<|0.0001|TWO_SIDED|95.0|86.0|94.6|||Chi-squared|p-value is from a two-sided chi-square test of equality of SNA response percentages between groups.|SNA response rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 15||94.6|86.0|<0.0001
92451848|NCT05349617|184790641|SUPERIORITY||Percent Difference|94.1|||<|0.0001|TWO_SIDED|95.0|89.2|96.5|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 22||96.5|89.2|<0.0001
92451849|NCT05349617|184790641|SUPERIORITY||Percent Difference|91.8|||<|0.0001|TWO_SIDED|95.0|86.3|94.8|||Chi-squared|p-value is from a two-sided chi-square test of equality of SNA response percentages between groups.|SNA response rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 183||94.8|86.3|<0.0001
92451850|NCT05349617|184790641|SUPERIORITY||Percent Difference|82.8|||<|0.0001|TWO_SIDED|95.0|75.9|87.5||p-value is from a two-sided chi-square test of equality of SNA response percentages between groups.|Chi-squared||SNA response rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 15||87.5|75.9|<0.0001
92451851|NCT05349617|184790641|SUPERIORITY||Percent Difference|88.3|||<|0.0001|TWO_SIDED|95.0|82.4|92.0|||Chi-squared|p-value is from a two-sided chi-square test of equality of SNA response percentages between groups.|SNA response rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 22||92.0|82.4|<0.0001
92451852|NCT05349617|184790641|SUPERIORITY||Percent Difference|82.0|||<|0.0001|TWO_SIDED|95.0|75.2|86.8|||Chi-squared|p-value is from a two-sided chi-square test of equality of SNA response percentages between groups.|SNA response rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 183||86.8|75.2|<0.0001
92451853|NCT00746954|184790642|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||ANOVA|||Comparisons among groups||||0.45
92241289|NCT01953328|184385771|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-39.97|STANDARD_ERROR_OF_MEAN|5.29|<|0.001|TWO_SIDED|95.0|-50.46|-29.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-29.48|-50.46|<0.001
92241290|NCT01953328|184385772|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-27.93|STANDARD_ERROR_OF_MEAN|6.72|<|0.001|TWO_SIDED|95.0|-41.27|-14.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-14.59|-41.27|<0.001
92451854|NCT04401579|184790647|SUPERIORITY||Cox Proportional Hazard|1.15||||0.047|TWO_SIDED|95.0|1.0|1.31|||Log Rank|||||1.31|1.00|0.047
92451855|NCT04401579|184790663|SUPERIORITY||Risk Difference (RD)|-6.0|||||TWO_SIDED|95.0|-12.0|0.0||||||||0|-12|
92451856|NCT04401579|184790664|SUPERIORITY||Risk Difference (RD)|-5.0|||||TWO_SIDED|95.0|-10.0|0.0||||||||0|-10|
92241291|NCT01953328|184385772|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-21.94|STANDARD_ERROR_OF_MEAN|5.34|<|0.001|TWO_SIDED|95.0|-32.54|-11.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-11.35|-32.54|<0.001
92451857|NCT04401579|184790674|SUPERIORITY||Odds Ratio (OR)|1.26||||0.44|TWO_SIDED|95.0|1.01|1.57|||Regression, Logistic|||||1.57|1.01|0.44
92451858|NCT04401579|184790684|SUPERIORITY||Cox Proportional Hazard|1.21||||0.002|TWO_SIDED|95.0|1.06|1.39|||Log Rank|||||1.39|1.06|0.002
92451859|NCT04401579|184790685|SUPERIORITY||Cox Proportional Hazard|1.2||||0.005|TWO_SIDED|95.0|1.05|1.38|||Log Rank|||||1.38|1.05|0.005
92451860|NCT04401579|184790686|SUPERIORITY||Cox Proportional Hazard|1.24||||0.003|TWO_SIDED|95.0|1.07|1.44|||Log Rank|||||1.44|1.07|0.003
92451861|NCT04401579|184790689|SUPERIORITY||Cox Proportional Hazard|1.11|||||TWO_SIDED|95.0|0.73|1.68||||||This analysis is for Asian participants.||1.68|0.73|
92451862|NCT04401579|184790689|SUPERIORITY||Cox Proportional Hazard|1.06|||||TWO_SIDED|95.0|0.75|1.5||||||This analysis is for Black or African American participants.||1.50|0.75|
92451863|NCT04401579|184790689|SUPERIORITY||Cox Proportional Hazard|1.13|||||TWO_SIDED|95.0|0.93|1.37||||||This analysis is for White participants.||1.37|0.93|
92451864|NCT04401579|184790689|SUPERIORITY||Cox Proportional Hazard|1.34|||||TWO_SIDED|95.0|1.03|1.74||||||This analysis is for Race of Other participants.||1.74|1.03|
92451865|NCT04401579|184790690|SUPERIORITY||Cox Proportional Hazard|1.31|||||TWO_SIDED|95.0|1.08|1.6||||||This analysis is for Not Hispanic or Latino participants||1.60|1.08|
92451866|NCT04401579|184790690|SUPERIORITY||Cox Proportional Hazard|1.08|||||TWO_SIDED|95.0|0.89|1.31||||||This analysis is for Hispanic or Latino participants.||1.31|0.89|
92451867|NCT04401579|184790691|SUPERIORITY||Cox Proportional Hazard|1.23|||||TWO_SIDED|95.0|1.04|1.46||||||This analysis is for Male participants.||1.46|1.04|
92451868|NCT04401579|184790691|SUPERIORITY||Cox Proportional Hazard|1.06|||||TWO_SIDED|95.0|0.85|1.32||||||This analysis is for Female participants.||1.32|0.85|
92451869|NCT00489970|184790700|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% confidence interval (CI) for the difference between groups in the seroprotection rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against diphtheria antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in percentage|1.41|||||TWO_SIDED|97.5|-1.16|4.17|||||Standardized asymptotic 97.5% CI for the group difference in the seroprotection rate was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group and Control group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to seroprotection rate against diphtheria antigen, one month following vaccination.||4.17|-1.16|
92451870|NCT00489970|184790700|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% confidence interval (CI) for the difference between groups in the seroprotection rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against tetanus antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in percentage|0.31|||||TWO_SIDED|97.5|-1.52|2.07|||||Standardized asymptotic 97.5% CI for the group difference in the seroprotection rate was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group and Control group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to seroprotection rate against tetanus antigen, one month following vaccination.||2.07|-1.52|
92451871|NCT00489970|184790700|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the seroprotection rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against diphtheria antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in percentage|1.32|||||TWO_SIDED|97.5|-3.41|4.15|||||Standardized asymptotic 97.5% CI for the group difference in the seroprotection rate was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group and Control group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to seroprotection rate against diphtheria antigen, one month following vaccination.||4.15|-3.41|
92451872|NCT00489970|184790700|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the seroprotection rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against tetanus antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in percentage|0.31|||||TWO_SIDED|97.5|-3.69|2.07|||||Standardized asymptotic 97.5% CI for the group difference in the seroprotection rate was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group and Control group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to seroprotection rate against tetanus antigen, one month following vaccination.||2.07|-3.69|
92451873|NCT00489970|184790702|NON_INFERIORITY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-PT GMC ratios (Boostrix Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|1.53|||||TWO_SIDED|97.5|1.31|1.79|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Boostrix Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-PT one month following vaccination||1.79|1.31|
92241292|NCT01953328|184385772|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-20.01|STANDARD_ERROR_OF_MEAN|4.83|<|0.001|TWO_SIDED|95.0|-29.59|-10.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-10.43|-29.59|<0.001
92173044|NCT02596126|184237002|SUPERIORITY|Time to first event will be investigated using Cox proportional hazards regression. Hazard ratios and 95% confidence intervals will be obtained from the Cox proportional hazards model. P-values will be obtained using the log-rank test.|Hazard Ratio (HR)|0.97|||<|0.05|TWO_SIDED|95.0|0.75|1.25|||Log Rank|||Statistical analysis title - All-cause death||1.25|0.75|< 0.05
92173045|NCT02596126|184237003|EQUIVALENCE|Treatment adherence is measured at visit 1 (6 months) and visit 3 (24 months) using the Morisky- Medication Adherence Scale (8 item) Questionnaire (MMAS-8). The number and percentage of patients with low (0-5), medium (6-7) and high(8) adherence will be reported by treatment group. The distributions of the MMAS-8 score at 6 months and 24 months will be compared between treatment groups using an ordinal logistic regression model.|Hazard Ratio (HR)|1.17|||<|0.005|TWO_SIDED|95.0|1.1|1.25|||Chi-squared|||Statistical analysis title - Treatment adherence at 24 months||1.25|1.1|< 0.005
92173046|NCT02596126|184237004|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|-0.3|||<|0.05|TWO_SIDED|95.0|-1.8|1.2||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - SBP - 6 months||1.2|-1.8|< 0.05
92241293|NCT01953328|184385772|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-20.72|STANDARD_ERROR_OF_MEAN|6.78||0.01|TWO_SIDED|95.0|-34.18|-7.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-7.26|-34.18|0.010
92451874|NCT00489970|184790702|NON_INFERIORITY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-FHA GMC ratios (Boostrix Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|5.27|||||TWO_SIDED|97.5|4.62|6.01|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Boostrix Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-FHA one month following vaccination||6.01|4.62|
92451875|NCT00489970|184790702|NON_INFERIORITY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-PRN GMC ratios (Boostrix Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|3.62|||||TWO_SIDED|97.5|3.07|4.25|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Boostrix Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-PRN one month following vaccination||4.25|3.07|
92451876|NCT00489970|184790702|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-PT GMC ratios (Adacel Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|1.64||||||97.5|1.33|2.03|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Adacel Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-PT one month following vaccination||2.03|1.33|
92451877|NCT00489970|184790702|NON_INFERIORITY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-FHA GMC ratios (Adacel Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|5.27|||||TWO_SIDED|97.5|4.37|6.36|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Adacel Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-FHA one month following vaccination||6.36|4.37|
92451878|NCT00489970|184790702|NON_INFERIORITY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-PRN GMC ratios (Adacel Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|4.47|||||TWO_SIDED|97.5|3.58|5.57|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Adacel Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-PRN one month following vaccination||5.57|3.58|
92451879|NCT00489970|184790703|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against diphtheria antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-5.91|||||TWO_SIDED|97.5|-14.67|2.85|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against diphtheria antigen, one month following vaccination.||2.85|-14.67|
92451880|NCT00489970|184790703|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against tetanus antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-1.44|||||TWO_SIDED|97.5|-10.63|7.79|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against tetanus antigen, one month following vaccination.||7.79|-10.63|
92451881|NCT00489970|184790703|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against diphtheria antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-8.56|||||TWO_SIDED|97.5|-20.33|2.73|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against diphtheria antigen, one month following vaccination.||2.73|-20.33|
92451882|NCT00489970|184790703|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against tetanus antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-11.79|||||TWO_SIDED|97.5|-22.98|0.15|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against tetanus antigen, one month following vaccination.||0.15|-22.98|
92173047|NCT02596126|184237005|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|1.4|||<|0.05|TWO_SIDED|95.0|-0.1|3.0||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - SBP - 12 months||3|-0.1|< 0.05
92173048|NCT02596126|184237006|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-1.7|1.4||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - SBP - 24 months||1.4|-1.7|< 0.05
92173049|NCT02596126|184237007|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|0.2|||<|0.05|TWO_SIDED|95.0|-0.7|1.0||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - DBP - 6 months||1|-0.7|< 0.05
92173050|NCT02596126|184237008|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|0.8|||<|0.05|TWO_SIDED|95.0|-0.1|1.6||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - DBP - 12 months||1.6|-0.1|< 0.05
92182472|NCT01604824|184263787|SUPERIORITY||LS Mean Difference|-22.23|STANDARD_ERROR_OF_MEAN|6.294|=|0.0096|TWO_SIDED|95.0|-37.11|-7.34||Threshold for significance ≤ 0.05|ANCOVA|||||-7.34|-37.11|= 0.0096
92182473|NCT01604824|184263788|SUPERIORITY||LS Mean Difference|-49.72|STANDARD_ERROR_OF_MEAN|9.867|=|0.0005|TWO_SIDED|95.0|-71.71|-27.74||Threshold for significance ≤ 0.05|ANCOVA|||||-27.74|-71.71|= 0.0005
92182474|NCT01604824|184263788|SUPERIORITY||LS Mean Difference|-49.33|STANDARD_ERROR_OF_MEAN|11.545|=|0.0037|TWO_SIDED|95.0|-76.63|-22.03||Threshold for significance ≤ 0.05|ANCOVA|||||-22.03|-76.63|= 0.0037
92182475|NCT03758742|184263795|SUPERIORITY||||||<|0.0001|||||||Binomial Test|||||||<0.0001
92173051|NCT02596126|184237009|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.9|1.0||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - DBP - 24 months||1|-0.9|< 0.05
92173052|NCT02596126|184237010|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|2.1|||<|0.05|TWO_SIDED|95.0|-0.2|4.4|||ANCOVA|||Statistical analysis title - LDL cholesterol - 12 months||4.4|-0.2|< 0.05
92173053|NCT02596126|184237011|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-2.5|2.4|||ANCOVA|||Statistical analysis title - LDL cholesterol - 24 months||2.4|-2.5|< 0.05
92173054|NCT02596126|184237012|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI).If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.7|||<|0.025|TWO_SIDED|95.0|0.54|0.9|||Regression, Cox|||||0.90|0.54|< 0.025
92173055|NCT02596126|184237012|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
92241294|NCT01953328|184385773|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-27.57|STANDARD_ERROR_OF_MEAN|9.45|<|0.001|TWO_SIDED|95.0|-46.33|-8.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-8.81|-46.33|<0.001
92241295|NCT01953328|184385773|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-19.97|STANDARD_ERROR_OF_MEAN|5.9|<|0.001|TWO_SIDED|95.0|-31.68|-8.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-8.25|-31.68|<0.001
92173056|NCT02596126|184237013|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI).If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.67|||<|0.025|TWO_SIDED|95.0|0.47|0.97|||Regression, Cox|||||0.97|0.47|< 0.025
92173057|NCT02596126|184237013|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
92173058|NCT02596126|184237014|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI).If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.71|||<|0.025|TWO_SIDED|95.0|0.48|1.05|||Regression, Cox|||||1.05|0.48|< 0.025
92173059|NCT02596126|184237014|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
92241296|NCT01953328|184385773|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-17.17|STANDARD_ERROR_OF_MEAN|5.53|<|0.001|TWO_SIDED|95.0|-28.15|-6.19||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-6.19|-28.15|<0.001
92241297|NCT01953328|184385773|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-16.92|STANDARD_ERROR_OF_MEAN|7.24||0.01|TWO_SIDED|95.0|-31.29|-2.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-2.56|-31.29|0.010
92451883|NCT00489970|184790704|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against PT antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-2.85|||||TWO_SIDED|97.5|-9.09|3.08|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against PT antigen, one month following vaccination.||3.08|-9.09|
92451884|NCT00489970|184790704|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against FHA antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-7.05|||||TWO_SIDED|97.5|-13.16|-1.4|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against FHA antigen, one month following vaccination.||-1.40|-13.16|
92451885|NCT00489970|184790704|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against PRN antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-10.32|||||TWO_SIDED|97.5|-17.5|-3.38|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against PRN antigen, one month following vaccination.||-3.38|-17.50|
92451886|NCT00489970|184790704|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against PT antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-1.24|||||TWO_SIDED|97.5|-10.03|5.57|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against PT antigen, one month following vaccination.||5.57|-10.03|
92451887|NCT00489970|184790704|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against FHA antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|4.01|||||TWO_SIDED|97.5|-2.38|8.66|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against FHA antigen, one month following vaccination.||8.66|-2.38|
92451888|NCT00489970|184790704|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against PRN antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response|-4.76|||||TWO_SIDED|97.5|-14.53|3.18|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against PRN antigen, one month following vaccination.||3.18|-14.53|
92451889|NCT02212028|184790729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|68.0||||0.022|TWO_SIDED|95.0|10.0|126.0|||ANOVA|||||126|10|0.022
92241298|NCT01953328|184385774|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|12.33|STANDARD_ERROR_OF_MEAN|2.49|<|0.001|TWO_SIDED|95.0|7.39|17.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||17.27|7.39|<0.001
92451890|NCT02212028|184790730|SUPERIORITY_OR_OTHER|||||||0.005|||||||ANOVA|||||||0.005
92451891|NCT01148810|184790777|SUPERIORITY_OR_OTHER||Bayesian analysis|0.96|||||||||||||||Probability that the difference (BAF312-Placebo) is greater than the threshold|||
92451892|NCT02731131|184790815|SUPERIORITY_OR_OTHER|||||||0.3|||||||Fisher Exact|||||||0.30
92451893|NCT02731131|184790817|SUPERIORITY_OR_OTHER|||||||0.22|||||||Fisher Exact|||||||0.22
92451894|NCT02731131|184790818|SUPERIORITY_OR_OTHER|||||||0.3|||||||Fisher Exact|||||||0.30
92241299|NCT01953328|184385774|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|14.61|STANDARD_ERROR_OF_MEAN|2.36|<|0.001|TWO_SIDED|95.0|9.93|19.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||19.30|9.93|<0.001
92241300|NCT01953328|184385774|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|15.36|STANDARD_ERROR_OF_MEAN|2.64|<|0.001|TWO_SIDED|95.0|10.12|20.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||20.60|10.12|<0.001
92451895|NCT02731131|184790819|SUPERIORITY_OR_OTHER|||||||0.3|||||||Fisher Exact|||||||0.30
92451896|NCT02731131|184790820|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||||||0.50
92451897|NCT02509624|184790821|OTHER||%Geometric least-square mean(GLSM) ratio|105.08|||||TWO_SIDED|90.0|77.08|143.23||||||AUCinf of selonsertib||143.23|77.08|
92451898|NCT02509624|184790821|OTHER||% GLSM ratio|142.65|||||TWO_SIDED|90.0|120.52|168.84||||||AUCinf of selonsertib||168.84|120.52|
92451899|NCT02509624|184790821|OTHER||% GLSM ratio|110.55|||||TWO_SIDED|90.0|86.99|140.49||||||AUCinf of selonsertib||140.49|86.99|
92451900|NCT02509624|184790821|OTHER||% GLSM ratio|62.05|||||TWO_SIDED|90.0|43.84|87.81||||||AUCinf of GS-607509||87.81|43.84|
92451901|NCT02509624|184790821|OTHER||% GLSM ratio|66.44|||||TWO_SIDED|90.0|36.72|120.21||||||AUCinf of GS-607509||120.21|36.72|
92451902|NCT02509624|184790821|OTHER||% GLSM ratio|103.46|||||TWO_SIDED|90.0|51.75|206.83||||||AUCinf of GS-607509||206.83|51.75|
92451903|NCT02509624|184790822|OTHER||% GLSM ratio|99.87|||||TWO_SIDED|90.0|73.38|135.92||||||AUClast of selonsertib||135.92|73.38|
92451904|NCT02509624|184790822|OTHER||% GLSM ratio|141.75|||||TWO_SIDED|90.0|118.5|169.55||||||AUClast of selonsertib||169.55|118.50|
92451905|NCT02509624|184790822|OTHER||% GLSM ratio|112.24|||||TWO_SIDED|90.0|87.69|143.65||||||AUClast of selonsertib||143.65|87.69|
92451906|NCT02509624|184790822|OTHER||% GLSM ratio|61.2|||||TWO_SIDED|90.0|43.06|86.98||||||AUClast of GS-607509||86.98|43.06|
92451907|NCT02509624|184790822|OTHER||% GLSM ratio|61.07|||||TWO_SIDED|90.0|33.62|110.91||||||AUClast of GS-607509||110.91|33.62|
92451908|NCT02509624|184790822|OTHER||% GLSM ratio|96.13|||||TWO_SIDED|90.0|48.47|190.67||||||AUClast of GS-607509||190.67|48.47|
92451909|NCT02509624|184790823|OTHER||% GLSM ratio|88.68|||||TWO_SIDED|90.0|74.83|105.1||||||Cmax of selonsertib||105.10|74.83|
92451910|NCT02509624|184790823|OTHER||% GLSM ratio|91.16|||||TWO_SIDED|90.0|78.76|105.52||||||Cmax of selonsertib||105.52|78.76|
92451911|NCT02509624|184790823|OTHER||% GLSM ratio|100.19|||||TWO_SIDED|90.0|83.73|119.88||||||Cmax of selonsertib||119.88|83.73|
92451912|NCT02509624|184790823|OTHER||% GLSM ratio|71.44|||||TWO_SIDED|90.0|54.58|93.5||||||Cmax of GS-607509||93.50|54.58|
92451913|NCT02509624|184790823|OTHER||% GLSM ratio|46.92|||||TWO_SIDED|90.0|32.59|67.54||||||Cmax of GS-607509||67.54|32.59|
92451914|NCT02509624|184790823|OTHER||% GLSM ratio|93.93|||||TWO_SIDED|90.0|67.6|130.5||||||Cmax of GS-607509||130.50|67.60|
92451915|NCT00795600|184790857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.645|STANDARD_ERROR_OF_MEAN|3.364||0.849||95.0|-7.404|6.114||H01 (hypothesis): Micro detemir = micro NPH against the alternative H01: Microl detemir ≠ micro NPH.|ANCOVA|||The primary objective and endpoint of the trial was to compare the change in trunk fat mass (g) between insulin detemir versus insulin NPH at baseline and at week 26. A standard deviation of 5% was chosen based on a previous trial. A difference in trunk fat mass of 5% was considered clinically relevant also according to this trial.||6.114|-7.404|0.849
92451916|NCT00795600|184790858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|3.478||0.948||95.0|-7.588|6.407||H01: Micro detemir = micro NPH against the alternative H01: Microl detemir ≠ micro NPH.|ANCOVA|||The primary objective and endpoint of the trial was to compare the change in trunk fat mass (g) between insulin detemir versus insulin NPH at baseline and at week 26. A standard deviation of 5% was chosen based on a previous trial. A difference in trunk fat mass of 5% was considered clinically relevant also according to this trial.||6.407|-7.588|0.948
92451917|NCT00795600|184790859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|196.36|STANDARD_ERROR_OF_MEAN|498.7||0.696||95.0|-805.8|1198.5||H01: Micro detemir = micro NPH against the alternative H01: Microl detemir ≠ micro NPH.|ANCOVA|||The primary objective and endpoint of the trial was to compare the change in trunk fat mass (g) between insulin detemir versus insulin NPH at baseline and at week 26. A standard deviation of 5% was chosen based on a previous trial. A difference in trunk fat mass of 5% was considered clinically relevant also according to this trial.||1198.5|-805.8|0.696
92241301|NCT01953328|184385774|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|9.15|STANDARD_ERROR_OF_MEAN|2.26||0.001|TWO_SIDED|95.0|4.67|13.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||13.62|4.67|0.001
92241302|NCT01953328|184385775|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|13.46|STANDARD_ERROR_OF_MEAN|3.06|<|0.001|TWO_SIDED|95.0|7.4|19.53||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||19.53|7.40|<0.001
92241303|NCT01953328|184385775|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|15.2|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|9.87|20.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||20.52|9.87|<0.001
92241304|NCT01953328|184385775|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|16.85|STANDARD_ERROR_OF_MEAN|3.08|<|0.001|TWO_SIDED|95.0|10.74|22.95||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||22.95|10.74|<0.001
92241305|NCT01953328|184385775|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|10.2|STANDARD_ERROR_OF_MEAN|2.7||0.001|TWO_SIDED|95.0|4.85|15.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||15.55|4.85|0.001
92241306|NCT01953328|184385776|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-27.85|STANDARD_ERROR_OF_MEAN|5.8|<|0.001|TWO_SIDED|95.0|-39.37|-16.34||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-16.34|-39.37|<0.001
92451918|NCT00795600|184790860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|192.81|STANDARD_ERROR_OF_MEAN|515.4||0.71||95.0|-844.0|1229.7||H01: Micro detemir = micro NPH against the alternative H01: Microl detemir ≠ micro NPH.|ANCOVA|||The primary objective and endpoint of the trial was to compare the change in trunk fat mass (g) between insulin detemir versus insulin NPH at baseline and at week 26. A standard deviation of 5% was chosen based on a previous trial. A difference in trunk fat mass of 5% was considered clinically relevant also according to this trial.||1229.7|-844.0|0.710
92451919|NCT00795600|184790861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|288.21|STANDARD_ERROR_OF_MEAN|766.41||0.709||95.0|-1252.0|1828.4|||ANCOVA|||||1828.4|-1252.0|0.709
92451920|NCT00795600|184790862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.178|STANDARD_ERROR_OF_MEAN|2.732||0.948||95.0|-5.668|5.313|||ANCOVA|||||5.313|-5.668|0.948
92451921|NCT00795600|184790863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1151.0|STANDARD_ERROR_OF_MEAN|810.48||0.162||95.0|-2780.0|477.33|||ANCOVA|||||477.33|-2780.0|0.162
92451922|NCT00795600|184790864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.747|STANDARD_ERROR_OF_MEAN|1.788||0.131||95.0|-6.34|0.846|||ANCOVA|||||0.846|-6.340|0.131
92451923|NCT00795600|184790865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-110.4|STANDARD_ERROR_OF_MEAN|368.69||0.766||95.0|-851.3|630.51|||ANCOVA|||||630.51|-851.3|0.766
92451924|NCT00795600|184790866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|1.662||0.716||95.0|-3.949|2.729|||ANCOVA|||||2.729|-3.949|0.716
92451925|NCT00795600|184790867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.491|STANDARD_ERROR_OF_MEAN|0.695||0.483||95.0|-0.906|1.888|||ANCOVA|||||1.888|-0.906|0.483
92451926|NCT00795600|184790868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116|STANDARD_ERROR_OF_MEAN|1.909||0.952||95.0|-3.721|3.953|||ANCOVA|||||3.953|-3.721|0.952
92451927|NCT00795600|184790869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.278|STANDARD_ERROR_OF_MEAN|0.746||0.711||95.0|-1.778|1.221|||ANCOVA|||||1.221|-1.778|0.711
92451928|NCT00795600|184790870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.585|STANDARD_ERROR_OF_MEAN|1.854||0.397||95.0|-5.31|2.141|||ANCOVA|||||2.141|-5.310|0.397
92451929|NCT00795600|184790871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.916|STANDARD_ERROR_OF_MEAN|10.985||0.421||95.0|-30.99|13.159|||ANCOVA|||||13.159|-30.99|0.421
92451930|NCT00795600|184790872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.061|STANDARD_ERROR_OF_MEAN|6.216||0.42||95.0|-17.55|7.43|||ANCOVA|||||7.430|-17.55|0.420
92451931|NCT00795600|184790873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.961|STANDARD_ERROR_OF_MEAN|13.007||0.705||95.0|-31.1|21.178|||ANCOVA|||||21.178|-31.10|0.705
92451932|NCT00795600|184790874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.59|STANDARD_ERROR_OF_MEAN|4.776||0.341||95.0|-14.19|5.007|||ANCOVA|||||5.007|-14.19|0.341
92451933|NCT00795600|184790875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.034||0.902||95.0|-0.064|0.073|||ANCOVA|||||0.073|-0.064|0.902
92451934|NCT00795600|184790876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.789|STANDARD_ERROR_OF_MEAN|3.85||0.839||95.0|-8.525|6.947|||ANCOVA|||||6.947|-8.525|0.839
92451935|NCT00795600|184790877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.041||0.607||95.0|-0.105|0.062|||ANCOVA|||||0.062|-0.105|0.607
92451936|NCT00795600|184790878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.777|STANDARD_ERROR_OF_MEAN|3.719||0.635||95.0|-9.254|5.7|||ANCOVA|||||5.700|-9.254|0.635
92451937|NCT00795600|184790879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.266||0.628||95.0|-0.663|0.403|||ANCOVA|||||0.403|-0.663|0.628
92280987|NCT00266409|184465020|SUPERIORITY_OR_OTHER|||||||0.0978||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0978
92280988|NCT00266409|184465020|SUPERIORITY_OR_OTHER|||||||0.7096||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.7096
92451938|NCT00795600|184790880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.92|STANDARD_ERROR_OF_MEAN|17.46||0.535||95.0|-46.03|24.182|||ANCOVA|||||24.182|-46.03|0.535
92173060|NCT02596126|184237015|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI).If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.7|||<|0.025|TWO_SIDED|95.0|0.39|1.26|||Regression, Cox|||||1.26|0.39|< 0.025
92173061|NCT02596126|184237015|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
92173062|NCT02596126|184237016|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI).If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.96|||<|0.025|TWO_SIDED|95.0|0.57|1.63|||Regression, Cox|||||1.63|0.57|< 0.025
92173063|NCT02596126|184237016|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
92173064|NCT02596126|184237017|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|3.09|||<|0.05|TWO_SIDED|95.0|1.38|4.79|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||4.79|1.38|< 0.05
92173065|NCT02596126|184237018|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|-5.19|||<|0.05|TWO_SIDED|95.0|-12.73|2.35|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||2.35|-12.73|< 0.05
92287194|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.028||||0.41|TWO_SIDED|95.0|-0.039|0.094|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.094|-0.039|0.410
92451939|NCT00795600|184790881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.918|STANDARD_ERROR_OF_MEAN|4.332||0.66||95.0|-10.65|6.813|||ANCOVA|||||6.813|-10.65|0.660
92451940|NCT00795600|184790908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.629|STANDARD_ERROR_OF_MEAN|0.967||0.518||95.0|-2.572|1.313|||ANCOVA|||||1.313|-2.572|0.518
92451941|NCT00795600|184790909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.546|STANDARD_ERROR_OF_MEAN|1.283||0.673||95.0|-3.123|2.032|||ANCOVA|||||2.032|-3.123|0.673
92451942|NCT00795600|184790910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.466|STANDARD_ERROR_OF_MEAN|1.386||0.738||95.0|-2.319|3.25|||ANCOVA|||||3.250|-2.319|0.738
92173066|NCT02596126|184237019|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|7.09|||<|0.05|TWO_SIDED|95.0|5.57|8.62|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||8.62|5.57|< 0.05
92173067|NCT02596126|184237020|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|3.79|||<|0.05|TWO_SIDED|95.0|2.04|5.55|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||5.55|2.04|< 0.05
92182476|NCT03617835|184263829|OTHER|Relative bioavailability|Ratio of the geometric means (T1/R) [%]|93.67|||||TWO_SIDED|90.0|78.48|111.8|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.0.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||111.80|78.48|
92241307|NCT01953328|184385776|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-22.65|STANDARD_ERROR_OF_MEAN|5.17|<|0.001|TWO_SIDED|95.0|-32.91|-12.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-12.39|-32.91|<0.001
92241308|NCT01953328|184385776|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-18.09|STANDARD_ERROR_OF_MEAN|4.69||0.001|TWO_SIDED|95.0|-27.4|-8.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-8.77|-27.40|0.001
92241309|NCT01953328|184385776|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-27.16|STANDARD_ERROR_OF_MEAN|6.12|<|0.001|TWO_SIDED|95.0|-39.31|-15.01||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-15.01|-39.31|<0.001
92451943|NCT00795600|184790911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.062|STANDARD_ERROR_OF_MEAN|2.168||0.346||95.0|-2.3|6.423|||ANCOVA|||||6.423|-2.300|0.346
92451944|NCT00795600|184790912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.726|STANDARD_ERROR_OF_MEAN|6.173||0.781||95.0|-10.71|14.167|||ANCOVA|||||14.167|-10.71|0.781
92451945|NCT01659021|184790915|SUPERIORITY||Hazard Ratio (HR)|0.26|||<|0.0001|TWO_SIDED|95.0|0.18|0.37||P-value is from stratified log-rank test, adjusted for randomization stratification factors (17p deletion/TP53 mutation, immunoglobulin heavy chain variable region (IGHV) mutation, and disease status).|Log Rank||Hazard Ratio and 95% confidence intervals (CI) are from the proportional hazard model, adjusted for randomization stratification factors.|||0.37|0.18|<0.0001
92451946|NCT01659021|184790916|SUPERIORITY||Odds Ratio (OR)|16.85|||<|0.0001|TWO_SIDED|95.0|8.17|34.76||P-value was calculated from the Cochran-Mantel-Haenszel (CMH) Chi-square test stratified by stratification factors.|Cochran-Mantel-Haenszel||Odds ratio and 95% CIs were calculated from the CMH Chi-square test stratified by stratification factors.|||34.76|8.17|<0.0001
92451947|NCT01659021|184790917|SUPERIORITY||Odds Ratio (OR)|483.16|||<|0.0001|TWO_SIDED|95.0|94.63|2467.02||P-value was calculated from the CMH Chi-square test stratified by stratification factors.|Cochran-Mantel-Haenszel||Odds ratio and 95% CIs were calculated from the CMH Chi-square test stratified by stratification factors.|||2467.02|94.63|<0.0001
92451948|NCT01659021|184790918|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.247|TWO_SIDED|95.0|0.54|1.15||P-value is from stratified log-rank test, adjusted for randomization stratification factors (17p deletion/TP53 mutation, IGHV mutation, and disease status).|Log Rank|||||1.15|0.54|0.247
92451949|NCT01659021|184790919|OTHER||Hazard Ratio (HR)|0.3|||||TWO_SIDED|95.0|0.17|0.51|||||Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model without any adjustments.|||0.51|0.17|
92451950|NCT01248884|184790923|NON_INFERIORITY|Non-inferiority in terms of immune response to diphteria antigens was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK2177744 Group 1) in the percentage of seroprotected subject was below or equal to 10%.|Difference in percentage|0.0|||||TWO_SIDED|97.5|-2.25|2.3||||||||2.3|-2.25|
92451951|NCT01248884|184790923|NON_INFERIORITY|Non-inferiority in terms of immune response to tetanus antigens was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK2177744 Group 1) in the percentage of seroprotected subject was below or equal to 10%.|Difference in percentage|0.0|||||TWO_SIDED|97.5|-2.25|2.3||||||||2.3|-2.25|
92451952|NCT01248884|184790923|NON_INFERIORITY|Non-inferiority in terms of immune response to diphteria antigens was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK2177744 Group 2) in the percentage of seroprotected subject was below or equal to 10%.|Difference in percentage|0.0|||||TWO_SIDED|97.5|-2.25|2.27||||||||2.27|-2.25|
92451953|NCT01248884|184790923|NON_INFERIORITY|Non-inferiority in terms of immune response to tetanus antigens was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK2177744 Group 2) in the percentage of seroprotected subject was below or equal to 10%.|Difference in percentage|0.0|||||TWO_SIDED|97.5|-2.25|2.27||||||||2.27|-2.25|
92451954|NCT01248884|184790925|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigen (anti-PT) was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the GMC ratio (Infanrix hexa Group divided by GSK2177744 Group 1) was below or equal to 1.5.|GMC ratio|1.26|||||TWO_SIDED|97.5|1.11|1.44||||||||1.44|1.11|
92241310|NCT01953328|184385777|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-28.42|STANDARD_ERROR_OF_MEAN|7.08|<|0.001|TWO_SIDED|95.0|-42.48|-14.36||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-14.36|-42.48|<0.001
92241311|NCT01953328|184385777|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-20.81|STANDARD_ERROR_OF_MEAN|5.78|<|0.001|TWO_SIDED|95.0|-32.29|-9.33||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-9.33|-32.29|<0.001
92451955|NCT01248884|184790925|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigen (anti-PRN) was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the GMC ratio (Infanrix hexa Group divided by GSK2177744 Group 1) was below or equal to 1.5.|GMC ratio|1.33|||||TWO_SIDED|97.5|1.14|1.54||||||||1.54|1.14|
92451956|NCT01248884|184790925|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigen (anti-PT) was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the GMC ratio (Infanrix hexa Group divided by GSK2177744 Group 2) was below or equal to 1.5.|GMC ratio|1.25|||||TWO_SIDED|97.5|1.1|1.43||||||||1.43|1.1|
92173068|NCT02596126|184237021|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|5.26|||<|0.05|TWO_SIDED|95.0|3.59|6.94|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||6.94|3.59|< 0.05
92451957|NCT01248884|184790925|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigen (anti-PRN) was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the GMC ratio (Infanrix hexa Group divided by GSK2177744 Group 2) was below or equal to 1.5.|GMC ratio|1.58|||||TWO_SIDED|97.5|1.37|1.84||||||||1.84|1.37|
92451958|NCT01248884|184790926|NON_INFERIORITY|Non-inferiority in terms of immune response to PRP antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK217744 Group 1) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|-3.52|||||TWO_SIDED|97.5|-10.19|3.0||||||||3|-10.19|
92451959|NCT01248884|184790926|NON_INFERIORITY|Non-inferiority in terms of immune response to PRP antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK217744 Group 2) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|0.57|||||TWO_SIDED|97.5|-6.53|7.7||||||||7.7|-6.53|
92182884|NCT02434328|184264728|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-7.3|6.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||6.3|-7.3|
92182885|NCT02434328|184264728|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-11.2|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.2|-11.2|
92182886|NCT02434328|184264728|OTHER||Difference in proportions|-3.7|||||TWO_SIDED|95.0|-10.7|3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.0|-10.7|
92173069|NCT02596126|184237022|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|4.55|||<|0.05|TWO_SIDED|95.0|-4.35|13.46|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||13.46|-4.35|< 0.05
92451960|NCT01248884|184790927|NON_INFERIORITY|Non-inferiority in terms of immune response to hepatitis B (HBs) antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa minus GSK217744 Group 1) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|0.56|||||TWO_SIDED|97.5|-3.27|4.63||||||Immune response non-inferiority - anti-HBs (ELISA)||4.63|-3.27|
92451961|NCT01248884|184790927|NON_INFERIORITY|Non-inferiority in terms of immune response to hepatitis B (HBs) antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa minus GSK217744 Group 2) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|-0.94|||||TWO_SIDED|97.5|-4.57|2.36||||||Immune response non-inferiority - anti-HBs (ELISA)||2.36|-4.57|
92451962|NCT01248884|184790927|NON_INFERIORITY|Non-inferiority in terms of immune response to hepatitis B (HBs) antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa minus GSK217744 Group 1) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|-0.4|||||TWO_SIDED|97.5|-4.62|3.8||||||Immune response non-inferiority - anti-HBs (CLIA)||3.8|-4.62|
92451963|NCT01248884|184790927|NON_INFERIORITY|Non-inferiority in terms of immune response to hepatitis B (HBs) antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa minus GSK217744 Group 2) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|-0.92|||||TWO_SIDED|97.5|-5.07|3.02||||||Immune response non-inferiority - anti-HBs (CLIA)||3.02|-5.07|
92451964|NCT01854827|184790962|SUPERIORITY|Percent was evaluated relative to 80% where statistical superiority was demonstrated if the one-sided, 90% Clopper-Pearson lower confidence bound was \> 80%.|Percent of patients|79.3|||||ONE_SIDED|90.0|63.2||||||||The lower bound of the 90% Clopper-Pearson confidence interval was \< 80%, therefore the study failed to achieve the feasibility definition stated in the protocol.||63.2|
92451965|NCT01854827|184790963|SUPERIORITY|Percent was evaluated relative to 80% where statistical superiority was demonstrated if the one-sided, 90% Clopper-Pearson lower confidence bound was \> 80%.|Percent of patients|79.3|||||ONE_SIDED|90.0|63.2||||||||The lower bound of the 90% Clopper-Pearson confidence interval was \< 80%, therefore the study failed to achieve the feasibility definition stated in the protocol.||63.2|
92451966|NCT01854827|184790964|OTHER|Percents with serious AEs prior to liver transplant were calculated, along with one-sided 90% Clopper-Pearson confidence interval lower bounds.|Percent of patients|89.7|||||ONE_SIDED|90.0|75.4||||||||||75.4|
92451967|NCT01854827|184790965|OTHER|Percent of patients with level 3-5 toxicity are presented along with one-sided 90% Clopper-Pearson confidence interval lower bound.|Percent of patients|89.7|||||ONE_SIDED|90.0|75.4||||||||||75.4|
92451968|NCT01854827|184790966|OTHER|Percent of patients with other expected AEs are presented along with one-sided 90% Clopper-Pearson confidence limit lower bound.|Percent of patients|27.6|||||ONE_SIDED|90.0|14.5||||||||||14.5|
92451969|NCT01854827|184790967|SUPERIORITY|One-sided testing for superiority of IVIG to historical control.|Odds Ratio (OR)|0.67||||0.5486|ONE_SIDED|90.0||2.38|||Regression, Logistic|||IVIG was compared to the historical placebo control from the START study (n=64): PMID: 24794368 NCT00294684||2.38||0.5486
92451970|NCT01854827|184790968|SUPERIORITY|One-sided testing for superiority of IVIG relative to historical control.|Odds Ratio (OR)|0.33||||0.8455|ONE_SIDED|90.0||1.22|||Regression, Logistic|||IVIG was compared for superiority to the historical control of START study placebo (N=64). PMID: 24794368 NCT00294684||1.22||0.8455
92451971|NCT01854827|184790969|SUPERIORITY|One-sided.|Odds Ratio (OR)|0.29||||0.8431|ONE_SIDED|90.0||1.24||One-sided|Regression, Logistic|||IVIG was compared for superiority to the historical START placebo control (N=64).||1.24||0.8431
92451972|NCT01854827|184790970|SUPERIORITY|One-sided for IVIG superior to historical START placebo control. PMID: 24794368 NCT00294684|Risk Difference (RD)|-11.9|||||ONE_SIDED|90.0||2.1||||||K-M estimates for survival for IVIG vs the historical START placebo control are provided, along with one-sided 90% upper bounds of the confidence intervals.||2.1||
92451973|NCT00736996|184790972|SUPERIORITY_OR_OTHER||||||<|0.0125|TWO_SIDED|||||Statistical significance was defined as a 2-sided p-value \< 0.0125 (=0.05/4) to adjust for multiple comparisons.|Regression, Linear|||The mean change in domain score with PIO was compared with the mean change in domain score with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline domain score.||||<0.0125
92451974|NCT00736996|184790972|SUPERIORITY_OR_OTHER||||||<|0.0125|TWO_SIDED|||||Statistical significance was defined as a 2-sided p-value \< 0.0125 (=0.05/4) to adjust for multiple comparisons.|Regression, Linear|||The mean change in domain score with EET was compared with the mean change in domain score with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline domain score.||||<0.0125
92451975|NCT00736996|184790973|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Linear|||The mean change with PIO was compared with the mean change with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline level of the outcome variable.||||<0.05
92451976|NCT00736996|184790973|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Linear|||The mean change with EET was compared with the mean change with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline level of the outcome variable.||||<0.05
92241312|NCT01953328|184385777|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-15.05|STANDARD_ERROR_OF_MEAN|5.37||0.001|TWO_SIDED|95.0|-25.72|-4.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-4.39|-25.72|0.001
92241313|NCT01953328|184385777|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-24.35|STANDARD_ERROR_OF_MEAN|6.22|<|0.001|TWO_SIDED|95.0|-36.7|-11.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-11.99|-36.70|<0.001
92241314|NCT05113953|184385788|SUPERIORITY||Treatment Difference|-0.42||||0.1893|TWO_SIDED|95.0|-1.06|0.21||P-value was analysed by MMRM method with change from baseline in binge eating days per week at scheduled visit as dependent variable and included fixed effect terms for treatment, trial center, visit week, interaction term of treatment by visit week.|MMRM|||||0.21|-1.06|0.1893
92173070|NCT02596126|184237023|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|7.11|||<|0.05|TWO_SIDED|95.0|5.55|8.67|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||8.67|5.55|< 0.05
92280989|NCT00266409|184465021|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0001
92241315|NCT05113953|184385788|SUPERIORITY||Treatment Difference|-0.06||||0.8502|TWO_SIDED|95.0|-0.69|0.57||P-value was analysed by MMRM method with change from baseline in binge eating days per week at scheduled visit as dependent variable and included fixed effect terms for treatment, trial center, visit week, interaction term of treatment by visit week.|MMRM|||||0.57|-0.69|0.8502
92241316|NCT05113953|184385789|SUPERIORITY||Treatment Difference|-0.54||||0.0313|TWO_SIDED|95.0|-1.02|-0.05||P-value was analysed by MMRM method with change from baseline value as dependent variable and included treatment, trial center, visit week, treatment-by-week interaction as fixed effects and baseline-by-week interaction as covariates.|MMRM|||Change from baseline at Week 8||-0.05|-1.02|0.0313
92451977|NCT00736996|184790974|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Linear|||The mean change with PIO was compared with the mean change with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline level of the outcome variable.||||<0.05
92451978|NCT00736996|184790974|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Linear|||The mean change with EET was compared with the mean change with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline level of the outcome variable.||||<0.05
92451979|NCT02660944|184791010|SUPERIORITY|Two-sample t-test with Satterthwaite approximation|Mean Difference (Final Values)|0.37||||0.845|TWO_SIDED|95.0|-3.42|4.15|||t-test, 2 sided|||Change from baseline at Day 85 RSLV-132 versus placebo||4.15|-3.42|0.845
92241317|NCT05113953|184385789|SUPERIORITY||Treatment Difference|0.19||||0.4471|TWO_SIDED|95.0|-0.3|0.67||P-value was analysed by MMRM method with change from baseline value as dependent variable and included treatment, trial center, visit week, treatment-by-week interaction as fixed effects and baseline-by-week interaction as covariates.|MMRM|||Change from baseline at Week 8||0.67|-0.30|0.4471
92451980|NCT02660944|184791010|SUPERIORITY|Two-sample t-test with Satterthwaite approximation|Mean Difference (Final Values)|-0.48||||0.818|TWO_SIDED|95.0|-4.66|3.7|||t-test, 2 sided|||Change from baseline at Day 169 RSLV-132 versus placebo||3.70|-4.66|0.818
92451981|NCT03586999|184791023|SUPERIORITY||proportion|0.3||||0.1|TWO_SIDED|90.0||||The proportion achieving a complete response will be calculated and will compared to null proportion of 30%. The population proportion for complete response rate, p-value and 90% confidence intervals for the complete response rate will be calculated.|t-test, 2 sided|||The study was to be suspended, if, at any time, there was sufficient evidence to suggest that the true probability of achieving a complete response falls below 30% while assuming the treatment drug will elicit a 56% complete response rate. Statistically significant evidence for this low complete response rate is defined as an observed complete response rate whose upper one-sided 90% confidence limit is 0-30%. Sample size calculations were made assuming 80% power.||||.1
92451982|NCT04096560|184791033|SUPERIORITY||LS Mean Difference|26.4|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|20.07|32.73||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||32.73|20.07|<0.001
92451983|NCT04096560|184791033|SUPERIORITY||LS Mean Difference|29.9|STANDARD_ERROR_OF_MEAN|3.08|<|0.001|TWO_SIDED|95.0|23.68|36.07||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||36.07|23.68|<0.001
92451984|NCT04096560|184791033|SUPERIORITY||LS Mean Difference|35.0|STANDARD_ERROR_OF_MEAN|3.14|<|0.001|TWO_SIDED|95.0|28.73|41.34||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||41.34|28.73|<0.001
92173071|NCT02596126|184237024|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|6.6|||<|0.05|TWO_SIDED|95.0|4.93|8.27|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||8.27|4.93|< 0.05
92173072|NCT02596126|184237025|SUPERIORITY|Time to first event will be investigated using Cox proportional hazards regression. Hazard ratios and 95% confidence intervals will be obtained from the Cox proportional hazards model. P-values will be obtained using the log-rank test.|Hazard Ratio (HR)|1.42|||<|0.05|TWO_SIDED|95.0|0.97|2.07|||Log Rank|||Statistical analysis title - Non-cardiovascular death||2.07|0.97|< 0.05
92173073|NCT05529966|184237044|OTHER|||||||0.45490734||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||||||0.45490734
92280990|NCT00266409|184465021|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0003
92280991|NCT00266409|184465022|SUPERIORITY_OR_OTHER|||||||0.0025||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0025
92451985|NCT04096560|184791040|SUPERIORITY||LS Mean Difference|-10.1|STANDARD_ERROR_OF_MEAN|1.96|<|0.001|TWO_SIDED|95.0|-14.07|-6.16||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||-6.16|-14.07|<0.001
92451986|NCT04096560|184791040|SUPERIORITY||LS Mean Difference|-11.4|STANDARD_ERROR_OF_MEAN|1.89|<|0.001|TWO_SIDED|95.0|-15.2|-7.56||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||-7.56|-15.20|<0.001
92173074|NCT05529966|184237045|OTHER|||||||0.9237611||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||||||0.92376110
92173075|NCT05529966|184237046|OTHER|||||||0.94342221||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||||||0.94342221
92173076|NCT05529966|184237047|OTHER|||||||0.38902793||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||||||0.38902793
92173077|NCT05529966|184237048|OTHER|||||||0.0042494||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of comfort score||||0.00424940
92173078|NCT05529966|184237048|OTHER|||||||0.00223547||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Visibility score||||.00223547
92173079|NCT05529966|184237048|OTHER|||||||1.858e-05||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Image Quality score||||.00001858
92173080|NCT05529966|184237048|OTHER|||||||0.03003194||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Focus score||||.03003194
92173081|NCT05529966|184237048|OTHER|||||||2.8e-07||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Depth Perception score||||.00000028
92451987|NCT04096560|184791040|SUPERIORITY||LS Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|1.95|<|0.001|TWO_SIDED|95.0|-16.96|-9.09||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||-9.09|-16.96|<0.001
92173082|NCT05529966|184237048|OTHER|||||||0.00112148||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Staff Engagement score||||.00112148
92173083|NCT05529966|184237048|OTHER|||||||951||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Teaching score||||00000951
92241318|NCT01328249|184385837|OTHER|Fisher's Exact test||||||0.4422||||||Null hypothesis: The feasibility rates of Cohort 1 and Cohort 2 are same.|Fisher Exact|Exploratory analysis comparing primary feasibilities between 2 cohorts, based on Fisher's Exact test.||||||0.4422
92241319|NCT04467164|184385863|SUPERIORITY|||||||0.03|||||||ANCOVA|||The null hypothesis is that there were no differences in change of brain activity in the subgenual anterior cingulate cortex (fMRI BOLD signal) between exhalatory-gated and inhalatory-gated tVNS. An ANCOVA model was used with average beta weights in response to stress task at baseline as a covariate. The test was performed with a significance level of 0.05 (two-sided).||||0.03
92451988|NCT04096560|184791041|SUPERIORITY||IRR|0.05|||=|0.002|TWO_SIDED|95.0|0.007|0.317||The incidence rate was the exponentiated LS means and the incidence rate ratio (IRR) was the exponentiated LS mean differences from the generalized estimating equation (GEE) Poisson regression model.|MMRM|The Poisson regression with natural log link was on the count of cataplexy per week.||||0.317|0.007|=0.002
92173084|NCT05529966|184237048|OTHER|||||||0.03493564||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of En Face Confidence score||||.03493564
92173085|NCT05529966|184237048|OTHER|||||||0.12895248||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Hydrus Placement Confidence score||||.12895248
92173086|NCT05529966|184237048|OTHER|||||||0.00279611||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Scope Preference score||||.00279611
92173087|NCT05529966|184237049|OTHER|||||||0.959638658||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Comfort score||||.959638658
92173088|NCT05529966|184237049|OTHER|||||||0.213464715||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Visibility score||||.213464715
92173089|NCT05529966|184237049|OTHER|||||||0.213464715||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Image Quality score||||.213464715
92451989|NCT04096560|184791041|SUPERIORITY||IRR|0.2|||=|0.019|TWO_SIDED|95.0|0.05|0.767||The incidence rate was the exponentiated LS means and the IRR was the exponentiated LS mean differences from the GEE Poisson regression model.|MMRM|The Poisson regression with natural log link was on the count of cataplexy per week.||||0.767|0.050|=0.019
92451990|NCT04096560|184791041|SUPERIORITY||IRR|0.15|||=|0.001|TWO_SIDED|95.0|0.047|0.482||The incidence rate was the exponentiated LS means and the IRR was the exponentiated LS mean differences from the GEE Poisson regression model.|MMRM|The Poisson regression with natural log link was on the count of cataplexy per week.||||0.482|0.047|=0.001
92173090|NCT05529966|184237049|OTHER|||||||0.155899777||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Focus score||||.155899777
92451991|NCT00534352|184791052|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was shown for Cmin as the 90% confidence intervals (CI) of the LSmean ratio was within the 80-125% limits.|Least Square (LS) mean ratio|95.47||||||90.0|82.77|110.1||No p-values.|Mixed Models Analysis (Cmin)|The linear mixed effects model was controlled for treatment as fixed effects, and subject as a random effect.|The results are for the mean ratio of Cmin. Numerator: Treatment B Denominator: Treatment A|Previous studies showed that the intrasubject variability on the log transformed Cmax and AUC12h of TMC125 was less than or equal to 40%. Based on this and with complete data on 20 patients, the 90% CI of the true ratio of the means was expected to be contained within 81-124% of the observed ratio of the means.||110.1|82.77|
92451992|NCT00534352|184791052|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was shown for Cmax as the 90% confidence intervals (CI) of the LSmean ratio was within the 80-125% limits.|Least Square (LS) mean ratio|102.6||||||90.0|92.91|113.3||No p-values.|Mixed Models Analysis (Cmax)|The linear mixed effects model was controlled for treatment as fixed effects, and subject as a random effect.|The results are for the mean ratio of Cmax. Numerator: Treatment B Denominator: Treatment A|Previous studies showed that the intrasubject variability on the log transformed Cmax and AUC12h of TMC125 was less than or equal to 40%. Based on this and with complete data on 20 patients, the 90% CI of the true ratio of the means was expected to be contained within 81-124% of the observed ratio of the means.||113.3|92.91|
92451993|NCT00534352|184791052|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was shown for AUC24 as the 90% confidence intervals (CI) of the LSmean ratio was within the 80-125% limits.|LS means of ratios|98.97||||||90.0|89.23|109.8||No p-values.|Mixed Models Analysis (AUC24)|The linear mixed effects model was controlled for treatment as fixed effects, and subject as a random effect.|The results are for the mean ratio of AUC24. Numerator: Treatment B Denominator: Treatment A|Previous studies showed that the intrasubject variability on the log transformed Cmax and AUC12h of TMC125 was less than or equal to 40%. Based on this and with complete data on 20 patients, the 90% CI of the true ratio of the means was expected to be contained within 81-124% of the observed ratio of the means.||109.8|89.23|
92451994|NCT00534352|184791052|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was shown for Css,av as the 90% confidence intervals (CI) of the LSmean ratio was within the 80-125% limits.|Least Square (LS) mean ratio|99.3||||||90.0|89.39|110.3||No p-values.|Mixed Models Analysis (Css,av)|The linear mixed effects model was controlled for treatment as fixed effects, and subject as a random effect.|The results are for the mean ratio of Css,av. Numerator: Treatment B Denominator: Treatment A|Previous studies showed that the intrasubject variability on the log transformed Cmax and AUC12h of TMC125 was less than or equal to 40%. Based on this and with complete data on 20 patients, the 90% CI of the true ratio of the means was expected to be contained within 81-124% of the observed ratio of the means.||110.3|89.39|
92451995|NCT00833924|184791098|SUPERIORITY_OR_OTHER||Rate of 30-day freedom from MAE|99.2|||<|0.01|TWO_SIDED|95.0|95.4|100.0|||Exact binomial test|||Null hypothesis: The 30-day Freedom from MAE for patients treated with the Zenith® Low Profile AAA Endovascular Graft does not meet the performance goal (88%).||100|95.4|<0.01
92451996|NCT00833924|184791099|SUPERIORITY_OR_OTHER||12-month Device Success Rate|97.3|||<|0.01|TWO_SIDED|95.0|92.4|99.4|||Exact binomial test|||Null hypothesis: The 12-month device success for patients treated with the Zenith® Low Profile AAA Endovascular Graft does not meet the performance goal (84%).||99.4|92.4|<0.01
92451997|NCT01144338|184791136|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.91||||0.061|TWO_SIDED|95.0|0.832|1.004|||Regression, Cox|||||1.004|0.832|0.061
92173091|NCT05529966|184237049|OTHER|||||||0.055960023||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Depth Perception score||||.055960023
92173092|NCT05529966|184237049|OTHER|||||||0.000685499||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Staff Engagement score||||.000685499
92173093|NCT05529966|184237049|OTHER|||||||0.004526118||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Teaching score||||.004526118
92241320|NCT04467164|184385863|SUPERIORITY|||||||0.022|||||||ANCOVA|||The null hypothesis is that there were no differences in change of brain activity in the orbitofrontal cortex (fMRI BOLD signal) between exhalatory-gated and inhalatory-gated tVNS. An ANCOVA model was used with average beta weights in response to stress task at baseline as a covariate. The test was performed with a significance level of 0.05 (two-sided).||||0.022
92451998|NCT01144338|184791137|NON_INFERIORITY|Non-inferiority test of EQW over Placebo H0: HR ≥ 1.3 vs. H1: HR \< 1.3|Hazard Ratio (HR)|0.91|||<|0.001|TWO_SIDED|95.0|0.832|1.004|||Regression, Cox|||This analysis uses the same endpoint and cox regression method as the primary efficacy analysis. However, the statistical hypothesis is a non-inferiority test with a margin of HR=1.3.||1.004|0.832|< 0.001
92451999|NCT01144338|184791138|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.86||||0.016|TWO_SIDED|95.0|0.77|0.97|||Regression, Cox|||||0.97|0.77|0.016
92241321|NCT04467164|184385863|SUPERIORITY|||||||0.027|||||||ANCOVA|||The null hypothesis is that there were no differences in change of brain activity in the ventromedial prefrontal cortex (fMRI BOLD signal) between exhalatory-gated and inhalatory-gated tVNS. An ANCOVA model was used with average beta weights in response to stress task at baseline as a covariate. The test was performed with a significance level of 0.05 (two-sided).||||0.027
92452000|NCT01144338|184791139|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.88||||0.096|TWO_SIDED|95.0|0.76|1.02|||Regression, Cox|||||1.02|0.76|0.096
92452001|NCT01144338|184791140|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.97||||0.622|TWO_SIDED|95.0|0.85|1.1|||Regression, Cox|||||1.10|0.85|0.622
92452002|NCT01144338|184791141|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.85||||0.095|TWO_SIDED|95.0|0.7|1.03|||Regression, Cox|||||1.03|0.70|0.095
92241322|NCT04467164|184385864|SUPERIORITY|||||||0.03|||||||ANOVA|||Null hypothesis is that there was no difference in the change in BDI scale score between exhalatory-gated tVNS and inhalatory-gated tVNS. A repeated measures ANOVA controlled by baseline values was used to test this difference. A p\<0.05 was designated for statistical significance. A positive difference indicates an increase in depressive symptomatology, whereas a negative difference indicates a reduction in depressive symptoms.||||0.03
92452003|NCT01144338|184791142|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|1.05||||0.402|TWO_SIDED|95.0|0.94|1.18|||Regression, Cox|||||1.18|0.94|0.402
92452004|NCT01144338|184791143|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.94||||0.485|TWO_SIDED|95.0|0.78|1.13|||Regression, Cox|||||1.13|0.78|0.485
92452005|NCT04796610|184791164|SUPERIORITY||Odds Ratio (OR)|0.55||||0.49|TWO_SIDED|95.0|0.1|2.98|||Regression, Logistic|Model is adjusted for participant age|Results are presented for an indicator where 0=control and 1=intervention|||2.98|.1|0.49
92452006|NCT04796610|184791165|SUPERIORITY||Odds Ratio (OR)|16.82||||0.011|TWO_SIDED|95.0|1.93|146.91||Model is adjusted for participant age|Regression, Logistic||Results are presented for an indicator where 0=control and 1=intervention|||146.91|1.93|.011
92452007|NCT04796610|184791166|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.03|TWO_SIDED|95.0|0.07|0.97|||Regression, Linear|Model is adjusted for participant age|Results are presented for an indicator where 0=control and 1=intervention|||0.97|0.07|.03
92452008|NCT02059148|184791186|SUPERIORITY_OR_OTHER||Ratio of Geometric LSMeans|1.24|||||TWO_SIDED|90.0|1.11|1.38||||||||1.38|1.11|
92280992|NCT00266409|184465022|SUPERIORITY_OR_OTHER|||||||0.0101||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0101
92452009|NCT02059148|184791187|SUPERIORITY_OR_OTHER||Ratio of Geometric LSMeans|1.14|||||TWO_SIDED|90.0|1.05|1.23||||||||1.23|1.05|
92452010|NCT02059148|184791188|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.95||||0.0006|TWO_SIDED|90.0|1.0|2.0|||Wilcoxon (Mann-Whitney)|||||2.00|1.00|0.0006
92452011|NCT00856583|184791223|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 90% confidence interval (CI) for the estimated all-cause mortality ratio was \<1.5 (pre-specified), the null hypothesis was rejected. With this limit, 7,600 patient years of exposure (PYE) were required to ensure 80% power at the 5% significance level of rejecting the null hypothesis when assuming a mortality of 2 deaths per 100 PYE. As the actual mortality was only about half that anticipated, more exposure was necessary and the duration of the study increased markedly.|Hazard Ratio (HR)|1.117||||0.05|TWO_SIDED|90.0|0.831|1.5|||Cox Proportional Hazard|Adjusted for: age, sex, time since last suicide attempt, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.|The hazard ratio is calculated as sertindole (numerator) versus risperidone (denominator).|The basis for the statistical analysis of the first primary outcome was the null hypothesis of an excess mortality in sertindole-treated patients compared to the mortality in risperidone-treated patients for the WRT+30 days period.||1.500|0.831|0.05
92452012|NCT00856583|184791223|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 90% CI for the estimated all-cause mortality ratio was \<1.5 (pre-specified), the null hypothesis was rejected. With this limit, 7,600 PYE were required to ensure 80% power at the 5% significance level of rejecting the null hypothesis when assuming a mortality of 2 deaths per 100 PYE. As the actual mortality was only about half that anticipated, more exposure was necessary and the duration of the study increased markedly.|Hazard Ratio (HR)|0.98|||<|0.05|TWO_SIDED|90.0|0.684|1.405|||Cox Proportional Hazard|Adjusted for: age, sex, time since last suicide attempt, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.|The hazard ratio is calculated as sertindole (numerator) versus risperidone (denominator).|The basis for the statistical analysis of the first primary outcome was the null hypothesis of an excess mortality in sertindole-treated patients compared to the mortality in risperidone-treated patients for the ORT period.||1.405|0.684|<0.05
92452013|NCT00856583|184791224|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.84||||0.0022|TWO_SIDED|95.0|1.45|5.55|||Cox Proportional Hazard|Adjusted: age, sex, time since last suicide attempt, last previous antipsychotic treatment (mono-/polytherapy), region, year since start of enrollment||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||5.55|1.45|0.0022
92452014|NCT00856583|184791225|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.73||||0.29|TWO_SIDED|95.0|0.63|4.78|||Cox Proportional Hazard|Adjusted for: age and sex.||The basis for the statistical analysis of time to 1st occurence of the secondary primary outcome (one patient in the risperidone group reported more than one occurrence of this event) was the null hypothesis of hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||4.78|0.63|0.29
92452015|NCT00856583|184791226|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.34|TWO_SIDED|95.0|0.36|1.41|||Cox Proportional Hazard|Adjusted for: age, sex, time since last suicide attempt, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.41|0.36|0.34
92241323|NCT04467164|184385865|SUPERIORITY|||||||0.01|||||||Regression, Linear|||The null hypothesis is that there were no differences in percent HFn changes post-pre stimulation between exhalatory-gated and inhalatory-gated tVNS. A General Linear Model (GLM) analysis adjusted by baseline values was used for evaluating differences in this measure between treatment groups. A p\<0.05 was designated for statistical significance. A positive percent change value indicates an increase in cardiovagal activity, whereas a negative change indicates a reduction in cardiovagal activity.||||0.01
92241324|NCT03463941|184385871|OTHER||||||||||||||||||descriptive|||
92241325|NCT03463941|184385872|OTHER||||||||||||||||||descriptive|||
92241326|NCT03463941|184385874|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92241327|NCT03463941|184385875|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92241328|NCT03463941|184385876|OTHER||||||||||||||||||descriptive|||
92241329|NCT03463941|184385877|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92241330|NCT02273050|184385878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.885|STANDARD_ERROR_OF_MEAN|0.0994|<|0.001|TWO_SIDED|95.0|-1.08|-0.689|||ANCOVA|||||-0.689|-1.080|<0.001
92241331|NCT02273050|184385878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.213|STANDARD_ERROR_OF_MEAN|0.1005||0.034|TWO_SIDED|95.0|-0.41|-0.016|||ANCOVA|||||-0.016|-0.410|0.034
92241332|NCT02273050|184385879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.5|||<|0.001|TWO_SIDED|95.0|29.0|46.0|||Fisher Exact|||||46.0|29.0|<0.001
92241333|NCT02273050|184385879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.7||||0.011|TWO_SIDED|95.0|2.6|18.9|||Fisher Exact|||||18.9|2.6|0.011
92241334|NCT02273050|184385880|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.39|STANDARD_ERROR_OF_MEAN|0.158|<|0.001|TWO_SIDED|95.0|-1.7|-1.08|||ANCOVA|||||-1.08|-1.70|<0.001
92241335|NCT02273050|184385880|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.159||0.046|TWO_SIDED|95.0|-0.63|0.0|||ANCOVA|||||0.00|-0.63|0.046
92241336|NCT02273050|184385881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-416.0|STANDARD_ERROR_OF_MEAN|51.54|<|0.001|TWO_SIDED|95.0|-517.3|-314.6|||ANCOVA|||||-314.6|-517.3|<0.001
92241337|NCT02273050|184385881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-169.3|STANDARD_ERROR_OF_MEAN|52.05||0.001|TWO_SIDED|95.0|-271.7|-66.9|||ANCOVA|||||-66.9|-271.7|0.001
92241338|NCT02273050|184385882|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.9|||<|0.001|TWO_SIDED|95.0|26.0|43.9|||Fisher Exact|||||43.9|26.0|<0.001
92241339|NCT02273050|184385882|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.6||||0.02|TWO_SIDED|95.0|2.3|20.9|||Fisher Exact|||||20.9|2.3|0.020
92241340|NCT02273050|184385883|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.97|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-3.7|-2.25|||ANCOVA|||||-2.25|-3.70|<0.001
92241341|NCT02273050|184385883|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.14|STANDARD_ERROR_OF_MEAN|0.374||0.002|TWO_SIDED|95.0|-1.88|-0.41|||ANCOVA|||||-0.41|-1.88|0.002
92241342|NCT02273050|184385884|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.9|||<|0.001|TWO_SIDED|95.0|-13.3|-4.5|||Fisher Exact|||||-4.5|-13.3|<0.001
92241343|NCT02273050|184385884|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||>|0.999|TWO_SIDED|95.0|-2.3|2.3|||Fisher Exact|||||2.3|-2.3|>0.999
92241344|NCT00903032|184385893|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.003|TWO_SIDED||||||Chi-squared|||Unpaired t tests were used to compare continuous variables, and χ2 testswere used to compare categorical variables across the intervention and usual care. We used a log-rank test to compare the hazardof first hospitalization for MI, revascularization, or death.We used a Wilcoxon rank sum test to compare PDCs between study arms. For all other outcomes, χ2 tests and t testswere used for comparisons, as appropriate.||||0.003
92241345|NCT01763905|184385925|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.06|STANDARD_ERROR_OF_MEAN|2.87|<|0.001|TWO_SIDED|95.0|-43.73|-32.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||The null hypothesis was that there is no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis is that a mean difference does exist.||-32.99|-43.73|<0.001
92287195|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.002||||0.961|TWO_SIDED|95.0|-0.063|0.066|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.066|-0.063|0.961
92241346|NCT01763905|184385925|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.55|STANDARD_ERROR_OF_MEAN|2.33|<|0.001|TWO_SIDED|95.0|-42.16|-32.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||The null hypothesis was that there is no mean difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis is that a mean difference does exist.||-32.94|-42.16|<0.001
92241347|NCT01763905|184385926|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-66.3|STANDARD_ERROR_OF_MEAN|5.9|<|0.001|TWO_SIDED|95.0|-77.9|-54.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-54.7|-77.9|<0.001
92241348|NCT01763905|184385926|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-70.6|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-80.5|-60.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-60.7|-80.5|<0.001
92452016|NCT00856583|184791227|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.715||||0.26|TWO_SIDED|95.0|0.4|1.28|||Cox Proportional Hazard|Adjusted for: age, sex, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.28|0.40|0.26
92452017|NCT00856583|184791228|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.13||||0.081|TWO_SIDED|95.0|0.91|4.98|||Cox Proportional Hazard|Adjusted for: age, sex, last previous antipsychotic treatment (mono-/polytherapy).||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||4.98|0.91|0.081
92452018|NCT00856583|184791229|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.24|TWO_SIDED|95.0|0.33|1.32|||Cox Proportional Hazard|Adjusted for: age, sex, time since last suicide attempt, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.32|0.33|0.24
92452019|NCT00856583|184791230|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.59|TWO_SIDED|95.0|0.7|1.85|||Cox Proportional Hazard|Adjusted for: age, sex, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.85|0.70|0.59
92452020|NCT00856583|184791231|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.65|TWO_SIDED|95.0|0.66|1.29|||Cox Proportional Hazard|Adjusted for: age, sex, duration of schizophrenia, time since last suicide attempt, year since start of enrollment.||The basis for the statistical analysis of time to 1st occurence of this secondary outcome was the null hypothesis of hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.29|0.66|0.65
92452021|NCT00856583|184791232|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.044|TWO_SIDED|95.0|0.45|0.99|||Cox Proportional Hazard|Adjusted for: age, sex, duration of schizophrenia, time since last suicide attempt, year since start of enrollment.||The basis for the statistical analysis of time to 1st occurence of this secondary outcome was the null hypothesis of hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||0.99|0.45|0.044
92452022|NCT00856583|184791233|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||0.04|TWO_SIDED|95.0|1.01|1.57|||Cox Proportional Hazard|Adjusted for: age, sex, time since last suicide attempt, last antipsychotic medication (a-/typicals/both), region, year since start of enrollment.||The basis for the statistical analysis of time to 1st occurence of this secondary outcome was the null hypothesis of hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.57|1.01|0.040
92452023|NCT00856583|184791234|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.35|||<|0.0001|TWO_SIDED|95.0|1.28|1.43|||Cox Proportional Hazard|Adjusted: disease duration, time since last suicide attempt, last antipsychotic medication (a-/typicals/both), region, year since start of enrollment.||The basis for the statistical analysis of this secondary outcome was the null hypothesis of hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.43|1.28|<0.0001
92452024|NCT03299192|184791254|SUPERIORITY|||||||0.001||||||This feasibility study is small and not designed to look at outcome statistics|GEE with Ancova features|||||||.001
92452025|NCT01418209|184791260|SUPERIORITY_OR_OTHER|||||||0.02||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo||||0.02
92452026|NCT01418209|184791260|SUPERIORITY_OR_OTHER|||||||0.02||||||p-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold of statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo||||0.02
92452027|NCT01418209|184791261|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||VMS frequency values were log transformed for modeling.||||<0.001
92241349|NCT01763905|184385927|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-69.7|STANDARD_ERROR_OF_MEAN|6.2|<|0.001|TWO_SIDED|95.0|-82.0|-57.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-57.5|-82.0|<0.001
92452028|NCT01418209|184791261|SUPERIORITY_OR_OTHER|||||||0.005||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||VMS frequency values were log transformed for modeling.||||0.005
92452029|NCT01418209|184791263|SUPERIORITY_OR_OTHER|||||||0.01||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo||||0.01
92452030|NCT01418209|184791263|SUPERIORITY_OR_OTHER|||||||0.07||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo||||0.07
92452031|NCT01418209|184791265|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo.||||<0.001
92452032|NCT01418209|184791265|SUPERIORITY_OR_OTHER|||||||0.03||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo||||0.03
92452033|NCT03779841|184791266|SUPERIORITY||Risk Ratio (RR)|0.8||||0.1612|TWO_SIDED|95.0|0.58|1.1|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.10|0.58|0.1612
92452034|NCT03779841|184791266|SUPERIORITY||Risk Ratio (RR)|1.04||||0.7789|TWO_SIDED|95.0|0.79|1.37|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.37|0.79|0.7789
92452035|NCT03779841|184791267|SUPERIORITY|||||||0.2972|||||||stratified Wilcoxon (Van Elteren)|||P-value is obtained from stratified Wilcoxon (Van Elteren) test versus Placebo with type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years) as stratification factors.||||0.2972
92452036|NCT03779841|184791267|SUPERIORITY|||||||0.8722|||||||stratified Wilcoxon (Van Elteren)|||P-value is obtained from stratified Wilcoxon (Van Elteren) test versus Placebo with type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years) as stratification factors.||||0.8722
92452037|NCT03779841|184791268|SUPERIORITY||Risk Ratio (RR)|0.99||||0.9814|TWO_SIDED|95.0|0.5|1.96|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.96|0.50|0.9814
92452038|NCT03779841|184791268|SUPERIORITY||Risk Ratio (RR)|0.99||||0.9715|TWO_SIDED|95.0|0.5|1.97|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.97|0.50|0.9715
92241350|NCT01763905|184385927|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-68.8|STANDARD_ERROR_OF_MEAN|5.3|<|0.001|TWO_SIDED|95.0|-79.2|-58.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-58.4|-79.2|<0.001
92452039|NCT03779841|184791269|SUPERIORITY|||||||0.1281|||||||Log Rank|||P-value is from stratified log-rank test versus Placebo with type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years) as stratification factors.||||0.1281
92452040|NCT03779841|184791269|SUPERIORITY|||||||0.882|||||||Log Rank|||P-value is from stratified log-rank test versus Placebo with type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years) as stratification factors.||||0.8820
92452041|NCT03779841|184791270|SUPERIORITY||Risk Ratio (RR)|0.79||||0.1623|TWO_SIDED|95.0|0.57|1.1|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.10|0.57|0.1623
92452042|NCT03779841|184791270|SUPERIORITY||Risk Ratio (RR)|1.04||||0.7776|TWO_SIDED|95.0|0.78|1.39|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.39|0.78|0.7776
92452043|NCT03779841|184791271|SUPERIORITY||Risk Ratio (RR)|0.79||||0.1603|TWO_SIDED|95.0|0.56|1.1|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.10|0.56|0.1603
92452044|NCT03779841|184791271|SUPERIORITY||Risk Ratio (RR)|1.06||||0.6706|TWO_SIDED|95.0|0.8|1.42|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.42|0.80|0.6706
92452045|NCT03779841|184791272|SUPERIORITY||Risk Ratio (RR)|0.78||||0.1583|TWO_SIDED|95.0|0.55|1.1|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.10|0.55|0.1583
92452046|NCT03779841|184791272|SUPERIORITY||Risk Ratio (RR)|1.07||||0.6694|TWO_SIDED|95.0|0.8|1.43|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.43|0.80|0.6694
92452047|NCT03779841|184791273|SUPERIORITY||Risk Ratio (RR)|0.81||||0.2578|TWO_SIDED|95.0|0.55|1.18|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.18|0.55|0.2578
92452048|NCT03779841|184791273|SUPERIORITY||Risk Ratio (RR)|1.05||||0.7526|TWO_SIDED|95.0|0.76|1.47|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.47|0.76|0.7526
92452049|NCT03779841|184791274|SUPERIORITY||Risk Ratio (RR)|0.8||||0.2549|TWO_SIDED|95.0|0.55|1.18|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.18|0.55|0.2549
92452050|NCT03779841|184791274|SUPERIORITY||Risk Ratio (RR)|1.03||||0.8544|TWO_SIDED|95.0|0.73|1.45|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.45|0.73|0.8544
92173094|NCT05529966|184237049|OTHER|||||||0.299921137||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of En Face Confidence score||||.299921137
92241351|NCT01763905|184385928|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|43.5|||<|0.001|TWO_SIDED|95.0|30.9|53.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and statin use. For testing, non-achievement was imputed for participants with missing data.||||53.4|30.9|<0.001
92241352|NCT01763905|184385928|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|42.0|||<|0.001|TWO_SIDED|95.0|30.3|51.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and statin use. For testing, non-achievement was imputed for participants with missing data.||||51.8|30.3|<0.001
92452051|NCT03779841|184791275|SUPERIORITY||Risk Ratio (RR)|0.74||||0.1718|TWO_SIDED|95.0|0.48|1.14|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.14|0.48|0.1718
92452052|NCT03779841|184791275|SUPERIORITY||Risk Ratio (RR)|0.83||||0.3801|TWO_SIDED|95.0|0.54|1.27|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.27|0.54|0.3801
92173095|NCT05529966|184237049|OTHER|||||||0.368082084||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Hydrus Placement Confidence score||||.368082084
92241353|NCT01763905|184385929|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|48.0|||<|0.001|TWO_SIDED|95.0|35.0|57.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and statin use. For testing, non-achievement was imputed for participants with missing data.||||57.8|35.0|<0.001
92452053|NCT03779841|184791276|SUPERIORITY||Risk Ratio (RR)|0.87||||0.5531|TWO_SIDED|95.0|0.54|1.39|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.39|0.54|0.5531
92452054|NCT03779841|184791276|SUPERIORITY||Risk Ratio (RR)|0.82||||0.4213|TWO_SIDED|95.0|0.51|1.33|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.33|0.51|0.4213
92452055|NCT03779841|184791277|SUPERIORITY||Risk Ratio (RR)|0.92||||0.804|TWO_SIDED|95.0|0.49|1.73|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.73|0.49|0.8040
92173096|NCT05529966|184237049|OTHER|||||||0.015036417||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Scope Preference score||||.015036417
92173097|NCT04490915|184237066|SUPERIORITY||LS Mean Difference|-17.022|STANDARD_ERROR_OF_MEAN|3.433|<|0.0001|TWO_SIDED|95.0|-23.802|-10.243|||ANCOVA||LS Mean Difference of Crinecerfont - Placebo|||-10.243|-23.802|<0.0001
92287196|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.057||||0.07|TWO_SIDED|95.0|-0.005|0.119|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.119|-0.005|0.070
92173098|NCT03149315|184237078|SUPERIORITY|Values for grouped data were reported as mean ± SD and were calculated using Graphpad Prism 7 software (La Jolla, CA), which was also used for generating figures and for statistical analyses. Changes in skin test area (wheal and flare) were analyzed at each time point (after 2 doses, 4 doses, etc) using Friedman tests for grouped analysis and Wilcoxon signed rank tests between pairs.|||||<|0.0001||||||The above p value reflects the statistical analysis of skin test area between baseline and 2 doses of ibrutinib.|Wilcoxon (Mann-Whitney)|Changes in skin test area at each time point were analyzed using Friedman tests for grouped analysis and Wilcoxon signed rank tests between pairs.||||||<0.0001
92241354|NCT01763905|184385929|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|37.5|||<|0.001|TWO_SIDED|95.0|25.5|47.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and statin use. For testing, non-achievement was imputed for participants with missing data.||||47.5|25.5|<0.001
92452056|NCT03779841|184791277|SUPERIORITY||Risk Ratio (RR)|1.1||||0.7573|TWO_SIDED|95.0|0.61|1.98|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.98|0.61|0.7573
92452057|NCT03779841|184791278|SUPERIORITY||Risk Ratio (RR)|0.69||||0.4065|TWO_SIDED|95.0|0.28|1.67|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.67|0.28|0.4065
92241355|NCT01763905|184385930|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.53|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-36.34|-26.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-26.73|-36.34|<0.001
92452058|NCT03779841|184791278|SUPERIORITY||Risk Ratio (RR)|1.28||||0.5257|TWO_SIDED|95.0|0.6|2.7|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||2.70|0.60|0.5257
92452059|NCT03779841|184791279|SUPERIORITY||Risk Ratio (RR)|0.78||||0.1612|TWO_SIDED|95.0|0.55|1.11|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.11|0.55|0.1612
92452060|NCT03779841|184791279|SUPERIORITY||Risk Ratio (RR)|1.0||||0.9966|TWO_SIDED|95.0|0.74|1.35|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.35|0.74|0.9966
92452061|NCT03779841|184791280|SUPERIORITY||Risk Ratio (RR)|0.68||||0.3374|TWO_SIDED|95.0|0.3|1.52|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.52|0.30|0.3374
92452062|NCT03779841|184791280|SUPERIORITY||Risk Ratio (RR)|1.23||||0.5403|TWO_SIDED|95.0|0.62|2.45|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||2.45|0.62|0.5403
92452063|NCT03779841|184791281|SUPERIORITY||Risk Ratio (RR)|3.94||||0.0163|TWO_SIDED|95.0|1.16|13.42|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||13.42|1.16|0.0163
92452064|NCT03779841|184791281|SUPERIORITY||Risk Ratio (RR)|2.7||||0.1101|TWO_SIDED|95.0|0.76|9.64|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||9.64|0.76|0.1101
92280993|NCT00266409|184465023|SUPERIORITY_OR_OTHER|||||||0.0095||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0095
92452065|NCT03779841|184791282|SUPERIORITY||Risk Ratio (RR)|0.86||||0.3339|TWO_SIDED|95.0|0.64|1.16|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.16|0.64|0.3339
92452066|NCT03779841|184791282|SUPERIORITY||Risk Ratio (RR)|1.1||||0.4614|TWO_SIDED|95.0|0.85|1.42|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.42|0.85|0.4614
92452067|NCT03117387|184791285|OTHER|Bland-Altman analysis estimates bias between TOF-Cuff and electromyography.|bias|0.0|||||TWO_SIDED|0.05|-0.05|0.05||||||"Paired measurements were compared using a Bland-Altman analysis modified for repeated measurements (http://sec.lumc.nl/method\_agreement\_analysis, Leiden, the Netherlands).~This Bland-Altman analysis corrects for between subject variability of repeated paired measurements in individual subjects."||0.05|-0.05|
92452068|NCT00566228|184791338|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.69|TWO_SIDED|95.0|0.62|2.08|||Log Rank|||||2.08|0.62|0.690
92452069|NCT00566228|184791341|SUPERIORITY|||||||0.679|||||||Log Rank|||||||0.679
92452070|NCT03320070|184791348|SUPERIORITY|||||||0.5076|||||||Chi-squared|||||||0.5076
92452071|NCT03320070|184791350|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0000
92452072|NCT03320070|184791352|SUPERIORITY|||||||0.0848|||||||Chi-squared|||||||0.0848
92452073|NCT03320070|184791354|SUPERIORITY|||||||0.2005|||||||Chi-squared|||||||0.2005
92452074|NCT03320070|184791356|SUPERIORITY|||||||0.9416|||||||Chi-squared|||||||0.9416
92452075|NCT03320070|184791358|SUPERIORITY|||||||0.1853|||||||Chi-squared|||||||0.1853
92452076|NCT03586648|184791360|SUPERIORITY|Statistically superiority will be concluded if the lower limit of the confidence intervals of the Test lens is greater than 32 points.|Least-square Mean|39.3|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|32.7|45.9|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||Data only from the first period will be used if period effect is significant.||45.9|32.7|
92452077|NCT03586648|184791361|NON_INFERIORITY|Statistically superiority will be concluded if the lower limit of the confidence intervals of the Test lens is greater than -5 points.|Least-square Mean Difference|-11.5|STANDARD_ERROR_OF_MEAN|4.14|||TWO_SIDED|95.0|-19.7|-3.3|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test minus Control.|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.||-3.3|-19.7|
92280994|NCT00266409|184465023|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0390
92452078|NCT02041195|184791363|OTHER||Least Squares (LS) Mean Difference|-4.26||||0.004|TWO_SIDED|90.0|-6.81|-1.72||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, timepoint, treatment-by-timepoint, baseline weight as covariate, and participant as random effect was used.|||-1.72|-6.81|0.004
92452079|NCT02041195|184791363|OTHER||LS Mean difference|-3.63||||0.012|TWO_SIDED|90.0|-6.23|-1.03|||Longitudinal mixed analysis of variance|One-sided p-value.|A longitudinal mixed analysis of variance model with fixed effects for treatment, timepoint, treatment-by-timepoint, baseline weight as covariate, and participant as random effect was used.|||-1.03|-6.23|0.012
92452080|NCT02041195|184791365|OTHER||LS Mean Difference|-3.57|||<|0.001|TWO_SIDED|90.0|-5.24|-1.89||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, timepoint, treatment-by-timepoint, baseline weight as covariate, and participant as random effect was used.|||-1.89|-5.24|<0.001
92452081|NCT02041195|184791367|OTHER||LS Mean Difference|-2.22||||0.002|TWO_SIDED|90.0|-3.44|-1.0|||Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, timepoint, treatment-by-timepoint, baseline weight as covariate, and participant as random effect was used.|||-1.00|-3.44|0.002
92452082|NCT00414700|184791377|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANCOVA|Adjusted for age, associated lesion(s) and location of lesion||Test for superiority||||0.003
92452083|NCT00414700|184791378|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANCOVA|Adjusted for age, associated lesion(s) and location of lesion.||Test for superiority||||0.010
92452084|NCT00414700|184791379|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -9 % points|Mean Difference (Final Values)|1.81|STANDARD_ERROR_OF_MEAN|2.4||||95.0|-3.28|6.9|||ANCOVA|Adjusted for baseline Overall KOOS score, age, associated lesion(s) and location of lesion.||||6.90|-3.28|
92452085|NCT01055639|184791463|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 2 sided|||||||0.12
92452086|NCT01055639|184791464|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
92452087|NCT01055639|184791465|SUPERIORITY_OR_OTHER|||||||0.88|||||||t-test, 2 sided|||||||0.88
92452088|NCT01055639|184791466|SUPERIORITY_OR_OTHER|||||||0.48|||||||t-test, 2 sided|||||||0.48
92452089|NCT01055639|184791467|SUPERIORITY_OR_OTHER|||||||0.87|||||||t-test, 2 sided|||||||0.87
92452090|NCT01055639|184791468|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||||||0.29
92452091|NCT01055639|184791469|SUPERIORITY_OR_OTHER|||||||0.19|||||||t-test, 2 sided|||||||0.19
92452092|NCT01055639|184791470|SUPERIORITY_OR_OTHER|||||||0.53|||||||t-test, 2 sided|||||||0.53
92452093|NCT01055639|184791471|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||||||1.00
92452094|NCT02585895|184791507|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|74.2|||<|0.0001|TWO_SIDED|95.0|44.6|86.8|||Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel (CMH) test stratified by screening LDL-C level|Treatment difference used apheresis as the reference.|||86.8|44.6|< 0.0001
92452095|NCT02585895|184791508|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-52.74|STANDARD_ERROR_OF_MEAN|5.64|<|0.0001|TWO_SIDED|95.0|-64.18|-41.3|||Repeated measures linear effects model|Model included treatment group, screening LDL-C level, scheduled visit, and the interaction of treatment group with scheduled visit as covariates.|Treatment difference used apheresis as the reference.|||-41.30|-64.18|< 0.0001
92452096|NCT02585895|184791509|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-46.37|STANDARD_ERROR_OF_MEAN|4.67|<|0.0001|TWO_SIDED|95.0|-55.85|-36.9|||Repeated measures linear effects model|Model included treatment group, screening LDL-C level, scheduled visit, and the interaction of treatment group with scheduled visit as covariates.|Treatment difference used apheresis as the reference.|||-36.90|-55.85|< 0.0001
92452097|NCT02585895|184791510|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-35.8|STANDARD_ERROR_OF_MEAN|3.74|<|0.0001|TWO_SIDED|95.0|-43.39|-28.21|||Repeated measures linear effects model|Model included treatment group, screening LDL-C level, scheduled visit, and the interaction of treatment group with scheduled visit as covariates.||||-28.21|-43.39|< 0.0001
92452098|NCT01169467|184791515|SUPERIORITY_OR_OTHER|||||||0.395|TWO_SIDED||||||t-test, 2 sided|||||||0.395
92452099|NCT02334800|184791545|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|73.6|||||TWO_SIDED|90.0|57.81|93.71||||||||93.71|57.81|
92241356|NCT01763905|184385930|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.58|STANDARD_ERROR_OF_MEAN|2.05|<|0.001|TWO_SIDED|95.0|-38.63|-30.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-30.54|-38.63|<0.001
92241357|NCT01763905|184385931|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.09|STANDARD_ERROR_OF_MEAN|2.63|<|0.001|TWO_SIDED|95.0|-37.28|-26.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-26.90|-37.28|<0.001
92241358|NCT01763905|184385931|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.99|STANDARD_ERROR_OF_MEAN|2.12|<|0.001|TWO_SIDED|95.0|-37.19|-28.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-28.79|-37.19|<0.001
92241359|NCT01763905|184385932|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.2|STANDARD_ERROR_OF_MEAN|2.39|<|0.001|TWO_SIDED|95.0|-36.92|-27.49||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-27.49|-36.92|<0.001
92241360|NCT01763905|184385932|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.99|STANDARD_ERROR_OF_MEAN|2.33|<|0.001|TWO_SIDED|95.0|-39.59|-30.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-30.39|-39.59|<0.001
92241361|NCT01763905|184385933|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.86|STANDARD_ERROR_OF_MEAN|2.62|<|0.001|TWO_SIDED|95.0|-38.04|-27.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-27.68|-38.04|<0.001
92173099|NCT03149315|184237079|SUPERIORITY|Changes in BAT were analyzed at each time point (after 2 doses, 4 doses, etc) using repeated measures ANOVA for grouped analysis and paired Students t tests between pairs. A p value \< 0.05 was considered significant.|||||<|0.001||||||The above p value reflects the statistical analysis of BAT between baseline and 2 doses of ibrutinib.|ANOVA|Changes in BAT were analyzed at each time point using repeated measures ANOVA for grouped analysis and paired Students t tests between pairs.||||||<0.001
92173100|NCT00667251|184237081|OTHER||Hazard Ratio (HR)|1.367||||0.001|TWO_SIDED|95.0|1.133|1.648|||Log Rank|||PFS at the time of Primary Analysis (IIT population)||1.648|1.133|0.0010
92173101|NCT00667251|184237081|OTHER||Hazard Ratio (HR)|1.484||||0.0002|TWO_SIDED|95.0|1.204|1.829|||Log Rank|||PFS at the time of Primary Analysis (Central HER2+ population)||1.829|1.204|0.0002
92173102|NCT00667251|184237082|OTHER||Hazard Ratio (HR)|1.3722|||||TWO_SIDED|95.0|1.1466|1.6422|||||Stratified HR for LTax/L versus TTax/T|PFS at the time of Final Analysis (IIT population)||1.6422|1.1466|
92452100|NCT02334800|184791545|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|115.3|||||TWO_SIDED|90.0|90.57|146.79||||||||146.79|90.57|
92241362|NCT01763905|184385933|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.1|STANDARD_ERROR_OF_MEAN|2.5|<|0.001|TWO_SIDED|95.0|-38.04|-28.17||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-28.17|-38.04|<0.001
92452101|NCT02334800|184791545|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|133.68|||||TWO_SIDED|90.0|105.0|170.19||||||||170.19|105.00|
92452102|NCT02334800|184791546|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|94.99|||||TWO_SIDED|90.0|69.93|129.03||||||||129.03|69.93|
92452103|NCT02334800|184791546|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|117.75|||||TWO_SIDED|90.0|86.69|159.95||||||||159.95|86.69|
92452104|NCT02334800|184791546|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|129.89|||||TWO_SIDED|90.0|95.63|176.43||||||||176.43|95.63|
92452105|NCT02334800|184791547|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|83.01|||||TWO_SIDED|90.0|65.37|105.43||||||||105.43|65.37|
92452106|NCT02334800|184791547|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|134.28|||||TWO_SIDED|90.0|105.73|170.53||||||||170.53|105.73|
92452107|NCT02334800|184791547|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|176.88|||||TWO_SIDED|90.0|139.28|224.63||||||||224.63|139.28|
92452108|NCT02334800|184791548|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|72.81|||||TWO_SIDED|90.0|56.43|93.93||||||||93.93|56.43|
92452109|NCT02334800|184791548|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|115.57|||||TWO_SIDED|90.0|89.58|149.11||||||||149.11|89.58|
92452110|NCT02334800|184791548|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|134.66|||||TWO_SIDED|90.0|104.38|173.73||||||||173.73|104.38|
92452111|NCT02334800|184791549|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|82.14|||||TWO_SIDED|90.0|63.83|105.71||||||||105.71|63.83|
92452112|NCT02334800|184791549|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|134.9|||||TWO_SIDED|90.0|104.82|173.6||||||||173.60|104.82|
92452113|NCT02334800|184791549|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|178.39|||||TWO_SIDED|90.0|138.62|229.57||||||||229.57|138.62|
92452114|NCT02334800|184791552|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|107.37|||||TWO_SIDED|90.0|78.06|147.68||||||||147.68|78.06|
92452115|NCT02334800|184791552|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|137.5|||||TWO_SIDED|90.0|99.96|189.12||||||||189.12|99.96|
92452116|NCT02334800|184791552|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|172.27|||||TWO_SIDED|90.0|125.25|236.96||||||||236.96|125.25|
92452117|NCT00575588|184791568|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.053|||TWO_SIDED|95.0|-0.05|0.16||||||||0.16|-0.05|
92452118|NCT00575588|184791569|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-33.2|||<|0.0001|TWO_SIDED|95.0|-38.1|-28.5||Between group comparison significant after controlling overall alpha of the study|Fisher Exact|||||-28.5|-38.1|<0.0001
92452119|NCT00575588|184791570|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001||95.0|-2.7|-1.7||Between group comparison significant after controlling overall alpha of the study|ANCOVA|||||-1.7|-2.7|<0.0001
92452120|NCT00575588|184791571|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.04|TWO_SIDED|95.0|-0.0046|-0.0001||Between group comparison significant after controlling overall alpha of the study|Mixed Models Analysis|||||-0.0001|-0.0046|0.040
92452121|NCT00575588|184791572|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.059|||TWO_SIDED|95.0|-0.17|0.06|||Repeated Measures|||||0.06|-0.17|
92452122|NCT00575588|184791573|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.9|||||TWO_SIDED|95.0|-39.8|-30.0||||||||-30.0|-39.8|
92452123|NCT00575588|184791574|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.76|STANDARD_ERROR_OF_MEAN|0.286|||TWO_SIDED|95.0|-3.32|-2.2|||Repeated Measures|||||-2.20|-3.32|
92452124|NCT00575588|184791575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0035|STANDARD_ERROR_OF_MEAN|0.0007|||TWO_SIDED|95.0|-0.0048|-0.0022|||Mixed Models Analysis|||||-0.0022|-0.0048|
92452125|NCT02265705|184791576|SUPERIORITY||Odds Ratio (OR)|4.1||||0.001|TWO_SIDED|95.0|2.5|6.9|||Regression, Logistic|||||6.9|2.5|0.001
92452126|NCT02265705|184791577|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.056||0.001|TWO_SIDED|95.0|-0.31|-0.09|||ANCOVA|||||-0.09|-0.31|0.001
92452127|NCT02265705|184791578|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.116||0.001|TWO_SIDED|95.0|-1.25|-0.79|||ANCOVA|||||-0.79|-1.25|0.001
92452128|NCT02265705|184791579|SUPERIORITY||Difference in response rate|1.4|||||TWO_SIDED|95.0|-0.5|3.3||||||||3.3|-0.5|
92452129|NCT02265705|184791580|SUPERIORITY||Median Difference (Final Values)|-12.9||||0.004|TWO_SIDED|95.0|-28.0|-2.9|||Wilcoxon (Mann-Whitney)|||||-2.9|-28.0|0.004
92452130|NCT02265705|184791581|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.23||0.002|TWO_SIDED|95.0|-1.2|-0.3|||ANCOVA|||||-0.3|-1.2|0.002
92452131|NCT02265705|184791582|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED|95.0|-1.2|-0.4|||ANCOVA|||||-0.4|-1.2|0.001
92452132|NCT02265705|184791583|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED|95.0|-1.3|-0.5|||ANCOVA|||||-0.5|-1.3|0.001
92452133|NCT02703844|184791584|SUPERIORITY|||||||0.0089|||||||ANCOVA|||||||0.0089
92452134|NCT00801684|184791602|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||The difference between the active treatment was compared to placebo. For a null hypothesis, the difference would equal 0 (zero).||||<0.0001
92452135|NCT02828111|184791606|OTHER|Pairwise comparison||||||0.132|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.132
92452136|NCT02828111|184791606|OTHER|Pairwise comparison||||||0.658|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.658
92452137|NCT02828111|184791606|OTHER|Pairwise comparison||||||0.142|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.142
92452138|NCT02828111|184791606|OTHER|Pairwise comparison||||||0.207|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.207
92452139|NCT02828111|184791606|OTHER|Pairwise comparison||||||0.077|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||This is the analysis of combined patidegib gel 2% once daily and twice daily compared with vehicle gel at Week 12.||||0.077
92173103|NCT00667251|184237082|OTHER||Hazard Ratio (HR)|1.4968|||||TWO_SIDED|95.0|1.2251|1.8288|||||Stratified HR for LTax/L versus TTax/T|PFS at the time of Final Analysis (Central HER2+ population)||1.8288|1.2251|
92173104|NCT00667251|184237083|OTHER||Hazard Ratio (HR)|1.3786|||||TWO_SIDED|95.0|1.0246|1.8549|||||Stratified HR for LTax/L versus TTax/T|Overall Survival (OS) (IIT population)||1.8549|1.0246|
92173105|NCT00667251|184237084|OTHER||Hazard Ratio (HR)|1.5818|||||TWO_SIDED|95.0|1.1181|2.2379|||||Stratified HR for LTax/L versus TTax/T|Overall Survival (OS) (Central HER2+ population)||2.2379|1.1181|
92173106|NCT00667251|184237087|OTHER||Hazard Ratio (HR)|1.0916|||||TWO_SIDED|95.0|0.7271|1.6389|||||Stratified HR for LTax/L versus TTax/T|Time to Central Nervous System (CNS) metastasis (IIT population)||1.6389|0.7271|
92173107|NCT00667251|184237088|OTHER||Hazard Ratio (HR)|1.0951|||||TWO_SIDED|95.0|0.7144|1.6787|||||Stratified HR for LTax/L versus TTax/T|Time to Central Nervous System (CNS) metastasis (Central HER2+ population)||1.6787|0.7144|
92241363|NCT01763905|184385934|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.39|STANDARD_ERROR_OF_MEAN|2.39|<|0.001|TWO_SIDED|95.0|-32.11|-22.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-22.67|-32.11|<0.001
92241364|NCT01763905|184385934|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.94|STANDARD_ERROR_OF_MEAN|2.42|<|0.001|TWO_SIDED|95.0|-34.72|-25.17||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-25.17|-34.72|<0.001
92241365|NCT01763905|184385935|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.28|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-31.42|-21.15||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-21.15|-31.42|<0.001
92241366|NCT01763905|184385935|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.66|STANDARD_ERROR_OF_MEAN|2.64|<|0.001|TWO_SIDED|95.0|-33.88|-23.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-23.43|-33.88|<0.001
92452140|NCT02828111|184791606|OTHER|Pairwise comparison||||||0.331|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||This is the analysis of combined patidegib gel 4% once daily and twice daily compared with vehicle gel at Week 12.||||0.331
92241367|NCT01763905|184385936|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.86|STANDARD_ERROR_OF_MEAN|2.52|<|0.001|TWO_SIDED|95.0|-39.84|-29.88||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-29.88|-39.84|<0.001
92452141|NCT02828111|184791606|OTHER|Pairwise comparison||||||0.117|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||This is the analysis of all four patidegib gel treatment groups combined compared with vehicle gel at Week 12.||||0.117
92452142|NCT02828111|184791610|OTHER|Pairwise comparison||||||0.038|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.038
92173108|NCT00667251|184237093|OTHER||Hazard Ratio (HR)|1.0091|||||TWO_SIDED|95.0|0.809|1.2586|||||Stratified HR for LTax/L versus TTax/T|Time to Response (TTR) (IIT population)||1.2586|0.8090|
92173109|NCT00667251|184237094|OTHER||Hazard Ratio (HR)|0.9573|||||TWO_SIDED|95.0|0.7544|1.2148|||||Stratified HR for LTax/L versus TTax/T|Time to Response (TTR) (Central HER2+ population)||1.2148|0.7544|
92173110|NCT00667251|184237095|OTHER||Hazard Ratio (HR)|1.4866|||||TWO_SIDED|95.0|1.1479|1.9251|||||Stratified HR for LTax/L versus TTax/T|Duration of Response (DoR) (IIT population)||1.9251|1.1479|
92173111|NCT00667251|184237096|OTHER||Hazard Ratio (HR)|1.5594|||||TWO_SIDED|95.0|1.1767|2.0666|||||Stratified HR for LTax/L versus TTax/T|Duration of Response (DoR) (Central HER2+ population)||2.0666|1.1767|
92173112|NCT01426425|184237118|SUPERIORITY_OR_OTHER_LEGACY||Chronic effectiveness prob at 6 months|0.926|||<|0.0001|TWO_SIDED|95.0|0.895|0.948|||Kaplan-Meier log-log 95% CI||The chronic effectiveness success probability at 6 months was estimated using the Kaplan-Meier method. The standard error was approximated using Greenwood's formula. A two-sided 95% log-log confidence interval for the probability was constructed.|"The following hypothesis was tested at a one-sided 0.025 significance level.~Ho: PE ≤ 0.83~Ha: PE \> 0.83~Where PE is the probability of a subject achieving chronic effectiveness success at the 6-month follow-up and 0.83 (83%) is the pre-specified performance goal."||0.948|0.895|<0.0001
92173113|NCT01426425|184237119|SUPERIORITY_OR_OTHER_LEGACY||Safety failure probability at 6 months|0.01|||<|0.0001|TWO_SIDED|95.0|0.004|0.027|||Kaplan-Meier log-log 95% CI||The chronic safety failure probability at 6 months was estimated using the Kaplan-Meier method. The standard error was approximated using Greenwood's formula. A two-sided 95% log-log confidence interval for the probability was constructed.|"The following hypothesis was tested at a one-sided 0.025 significance level.~Ho: Ps ≥ 0.07~Ha: Ps \< 0.07~Where Ps is the probability of a subject experiencing at least one safety event through 6 months with a 0.07 pre-specified performance goal."||0.027|0.004|<0.0001
92173114|NCT01426425|184237120|SUPERIORITY_OR_OTHER_LEGACY||Chronic effectiveness prob at 6 months|0.973|||<|0.0001|TWO_SIDED|95.0|0.95|0.985|||Kaplan-Meier log-log 95% CI||The chronic effectiveness success probability at 6 months was estimated using the Kaplan-Meier method. The standard error was approximated using Greenwood's formula. A two-sided 95% log-log confidence interval for the probability was constructed.|"The following hypothesis was tested at a one-sided 0.025 significance level.~Ho: PE ≤ 0.80~Ha: PE \> 0.80~Where PE is the probability of a subject achieving chronic effectiveness success at 6-month follow-up, and 0.80 is the pre-specified performance goal. As pre-defined in the study protocol, this hypothesis is tested if the primary effectiveness objective null hypothesis (Ho) is rejected."||0.985|0.950|<0.0001
92173115|NCT03281291|184237127|OTHER||Vaccine Efficacy|29.7|||||TWO_SIDED|95.0|14.7|42.1|||Regression, Cox||VE = 1 minus the Hazard Ratio (HR). HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy (VE) in the TVC against the first new genotypic infection, between enrollment and Month 20 visit, for R012-20 Group vs Control Group.||42.1|14.7|
92452143|NCT02828111|184791610|OTHER|Pairwise comparison||||||0.099|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.099
92452144|NCT02828111|184791610|OTHER|Pairwise comparison||||||0.198|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.198
92452145|NCT02828111|184791610|OTHER|Pairwise comparison||||||0.757|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.757
92452146|NCT02828111|184791611|OTHER|Pairwise comparison||||||0.043|||||||Fisher Exact|||at Week 12||||0.043
92241368|NCT01763905|184385936|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.37|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-41.73|-31.01||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-31.01|-41.73|<0.001
92452147|NCT02828111|184791611|OTHER|Pairwise comparison||||||0.312|||||||Fisher Exact|||at Week 12||||0.312
92452148|NCT02828111|184791611|OTHER|Pairwise comparison||||||0.353|||||||Fisher Exact|||at Week 12||||0.353
92452149|NCT02828111|184791611|OTHER|Pairwise comparison||||||0.093|||||||Fisher Exact|||This is the analysis of combined patidegib gel 2% once daily and twice daily compared with vehicle gel at Week 12.||||0.093
92452150|NCT02828111|184791611|OTHER|Pairwise comparison||||||1|||||||Fisher Exact|||This is the analysis of combined patidegib gel 4% once daily and twice daily compared with vehicle gel at Week 12.||||1.000
92452151|NCT02828111|184791611|OTHER|Pairwise comparison||||||0.157|||||||Fisher Exact|||This is the analysis of all four patidegib gel treatment groups combined compared with combined vehicle gel at Week 12.||||0.157
92452152|NCT00614939|184791612|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.151||0.007|TWO_SIDED|95.0|-0.71|-0.12|||ANCOVA|\*Adjusted for baseline HbA1c||||-0.12|-0.71|0.007
92452153|NCT00614939|184791613|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.34|STANDARD_ERROR_OF_MEAN|12.847||0.339||95.0|-37.91|13.22|||ANCOVA|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||13.22|-37.91|0.339
92452154|NCT00614939|184791614|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.36|STANDARD_ERROR_OF_MEAN|16.938||0.798|TWO_SIDED|95.0|-38.65|29.93|||ANCOVA|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||29.93|-38.65|0.798
92173116|NCT03281291|184237127|OTHER||Vaccine Efficacy|31.2|||||TWO_SIDED|95.0|16.4|43.3|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 20 visit, for R012-14-mD Group vs Control Group.||43.3|16.4|
92173117|NCT03281291|184237127|OTHER||Vaccine Efficacy|24.6|||||TWO_SIDED|95.0|9.0|37.6|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 20 visit, for Fx012-14-mFxD Group vs Control Group.||37.6|9.0|
92173118|NCT03281291|184237127|OTHER||Vaccine Efficacy|28.8|||||TWO_SIDED|95.0|13.9|41.1|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 20 visit, for Fx017-mFxD Group vs Control Group.||41.1|13.9|
92452155|NCT00614939|184791615|SUPERIORITY_OR_OTHER||Mean Difference (Net)|44.01|STANDARD_ERROR_OF_MEAN|30.815||0.164|TWO_SIDED|95.0|-18.93|106.94|||ANCOVA|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||106.94|-18.93|0.164
92452156|NCT00614939|184791616|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.68|STANDARD_ERROR_OF_MEAN|0.713|||TWO_SIDED|95.0|-2.1|0.74|||Footnote|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||0.74|-2.10|
92452157|NCT00614939|184791617|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.941|||TWO_SIDED|95.0|-2.14|1.67|||Footnote|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||1.67|-2.14|
92452158|NCT00614939|184791618|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.44|STANDARD_ERROR_OF_MEAN|1.709|||TWO_SIDED|95.0|-1.05|5.93|||Footnote|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||5.93|-1.05|
92452159|NCT00614939|184791619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.82|STANDARD_ERROR_OF_MEAN|0.228|||TWO_SIDED|95.0|-1.27|-0.37|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=26 for saxagliptin and n=34 for placebo~\*Adjusted for baseline HbA1c"||||-0.37|-1.27|
92452160|NCT00614939|184791620|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.98|STANDARD_ERROR_OF_MEAN|18.475|||TWO_SIDED|95.0|-54.28|18.33|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=17 for saxagliptin and n=16 for placebo~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||18.33|-54.28|
92452161|NCT00614939|184791621|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.73|STANDARD_ERROR_OF_MEAN|25.326|||TWO_SIDED|95.0|-65.77|34.3|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=5 for saxagliptin and n=11 for placebo.~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||34.30|-65.77|
92452162|NCT00614939|184791622|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-38.09|STANDARD_ERROR_OF_MEAN|53.822|||TWO_SIDED|95.0|-144.44|68.26|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=2 for saxagliptin and n=5 for placebo.~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||68.26|-144.44|
92173119|NCT03281291|184237128|OTHER||Vaccine Efficacy|42.8|||||TWO_SIDED|95.0|30.7|52.8|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 2.5 and 14, for R012-20 + R012-14-mD Pooled Group vs Control Group.||52.8|30.7|
92173120|NCT03281291|184237128|OTHER||Vaccine Efficacy|36.7|||||TWO_SIDED|95.0|21.2|49.2|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 2.5 and 14, for Fx012-14-mFxD Group vs Control Group.||49.2|21.2|
92173121|NCT03281291|184237128|OTHER||Vaccine Efficacy|41.4|||||TWO_SIDED|95.0|26.7|53.1|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 7.5 and 19, for Fx017-mFxD Group vs Control Group.||53.1|26.7|
92173122|NCT03281291|184237129|OTHER||Vaccine Efficacy|29.6|||||TWO_SIDED|95.0|15.4|41.5|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 32 visit, for R012-20 Group vs Control Group.||41.5|15.4|
92452163|NCT00614939|184791623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97|STANDARD_ERROR_OF_MEAN|1.027|||TWO_SIDED|95.0|-2.99|1.04|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=17 for saxagliptin and n=16 for placebo.~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||1.04|-2.99|
92241369|NCT01763905|184385937|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.53|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-40.05|-29.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-29.00|-40.05|<0.001
92452164|NCT00614939|184791624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|1.405|||TWO_SIDED|95.0|-3.66|1.89|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=5 for saxagliptin and n=11 for placebo.~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||1.89|-3.66|
92452165|NCT00614939|184791625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.14|STANDARD_ERROR_OF_MEAN|2.985|||TWO_SIDED|95.0|-8.04|3.76|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=2 for saxagliptin and n=5 for placebo.~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||3.76|-8.04|
92452166|NCT02079805|184791640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|||||TWO_SIDED|95.0|-0.89|1.78||||||Telmisartan 40 mg, Azilsartan 20 mg||1.78|-0.89|
92452167|NCT00383435|184791647|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92452168|NCT00383435|184791647|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||ANCOVA|||||||0.007
92452169|NCT00383435|184791648|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92452170|NCT00383435|184791648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.029|||||||ANCOVA|||||||0.029
92452171|NCT00383435|184791649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANCOVA|||||||0.002
92452172|NCT00383435|184791649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.059|||||||ANCOVA|||||||0.059
92452173|NCT02347761|184791667|SUPERIORITY|A sample size of 215 subjects per treatment would give \~ 90% power to detect a treatment difference of 80 mL in the change from baseline in trough FEV1 at Week 12 between each of the 2 SUN-101 dose groups and placebo at alpha= 0.05, assuming a standard deviation of 255 mL and using a 2-sided test.|Least Squares Mea Difference (SE)|0.1036|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.0663|0.1409||The primary null hypothesis for this study is that the mean change from baseline in trough FEV1 at Week 12 for the SUN-101 50 mcg dose is equal to the mean change from baseline in trough FEV1 at Week 12 for Placebo.|MMixed Model Repeat Measurement|to control the family-wise Type I error rate,the Hochberg procedure(a tree-structured gatekeeping procedure)was used for comparisons of this endpoint|standard error of the least squares mean|The change from baseline in trough FEV1 was analyzed using a mixed model for repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit, visit by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1409|0.0663|<0.0001
92452174|NCT02347761|184791667|SUPERIORITY|A sample size of 215 subjects per treatment would give \~ 90% power to detect a treatment difference of 80 mL in the change from baseline in trough FEV1 at Week 12 between each of the 2 SUN-101 dose groups and placebo at alpha= 0.05, assuming a standard deviation of 255 mL and using a 2-sided test.|Least Squares Mean Difference (SE)|0.0961|STANDARD_ERROR_OF_MEAN|0.01896|<|0.0001|TWO_SIDED|95.0|0.0589|0.1334||The primary null hypothesis for this study is that the mean change from baseline in trough FEV1 at Week 12 for the SUN-101 50 mcg dose is equal to the mean change from baseline in trough FEV1 at Week 12 for Placebo.|Mixed Model Repeat Measurement|to control the family-wise Type I error rate,the Hochberg procedure(a tree-structured gatekeeping procedure)was used for comparisons of the endpoint.|Standard error of the least squares mean|The change from baseline in trough FEV1 was analyzed using a mixed model for repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit, visit by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1334|0.0589|<0.0001
92452175|NCT02347761|184791668|SUPERIORITY||Least Squares Mean (SE)|0.1264|STANDARD_ERROR_OF_MEAN|0.02076|<|0.0001|TWO_SIDED|95.0|0.0856|0.1672||In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|Least squares mean (SE)|||The change from baseline in trough FEV1 was analyzed using mixed model repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1672|0.0856|<0.0001
92452176|NCT02347761|184791668|SUPERIORITY|In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|LS mean (SE)|0.1052|STANDARD_ERROR_OF_MEAN|0.0206|<|0.0001|TWO_SIDED|95.0|0.0647|0.1457|||LS mean (SE)|||The change from baseline in trough FEV1 was analyzed using mixed model repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1457|0.0647|<0.0001
92452177|NCT01255358|184791685|OTHER|Changes from baseline (V1) at V2, V4 and V7 were analyzed with a RMANOVA design with age and ICARS at baseline as covariates. A Wilcoxon non-parametric test between visits was performed when the overall analysis was significant in order to help determine timing of effects|Mean Difference (Final Values)|-4.0|STANDARD_DEVIATION|7.5||0.02|TWO_SIDED|95.0|-7.1|-0.9|||Wilcoxon (Mann-Whitney)|||The primary analysis on ICARS Total score has been conducted on the ITT Population employing carry-forward and carry-backward procedures for missing data imputation, in order to evaluate all enrolled patients.||-0.9|-7.1|0.02
92241370|NCT01763905|184385937|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.13|STANDARD_ERROR_OF_MEAN|2.91|<|0.001|TWO_SIDED|95.0|-39.87|-28.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-28.39|-39.87|<0.001
92452178|NCT01255358|184791686|OTHER|Changes from baseline (V1) at V2, V4 and V7 were analyzed with a RMANOVA design with age and ICARS at baseline as covariates. A Wilcoxon non-parametric test between visits was performed when the overall analysis was significant in order to help determine timing of effects|Mean Difference (Final Values)|-5.2|STANDARD_DEVIATION|7.0||0.0031|TWO_SIDED|95.0|-8.4|-2.0|||Wilcoxon (Mann-Whitney)|||Overall analysis on the PP Population||-2|-8.4|0.0031
92452179|NCT01255358|184791691|OTHER|VABS Total score and subscales have been analyzed with a RMANOVA design, using age as covariate (dichotomized as Low- or High-, using median age as threshold).|Median Difference (Final Values)|1.3|STANDARD_DEVIATION|1.2|<|0.0001|TWO_SIDED|95.0|0.8|1.8|||Wilcoxon (Mann-Whitney)|||VABS total score at V7||1.8|0.8|<0.0001
92452180|NCT01255358|184791692|OTHER||Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|1.1|<|0.0001|TWO_SIDED|95.0|1.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|1|<0.0001
92452181|NCT04079933|184791726|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline in urinary total NNAL|Mean Difference (Net)|-12.6||||0.2347|TWO_SIDED|95.0|-33.5|8.27|||t-test, 2 sided||"Difference in Least Square (LS) means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline in urinary total NNAL||8.27|-33.5|0.2347
92452182|NCT04079933|184791726|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline in urinary total NNAL|Mean Difference (Net)|-11.9||||0.2905|TWO_SIDED|95.0|-33.9|10.2|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline in urinary total NNAL||10.2|-33.9|0.2905
92452183|NCT04079933|184791727|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study in urinary total NNAL|Mean Difference (Net)|-3.72||||0.9433|TWO_SIDED|95.0|-107.0|99.4|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study in urinary total NNAL||99.4|-107|0.9433
92241371|NCT01763905|184385938|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-23.9|STANDARD_ERROR_OF_MEAN|3.73|<|0.001|TWO_SIDED|95.0|-31.27|-16.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-16.54|-31.27|<0.001
92452184|NCT04079933|184791727|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in urinary total NNAL|Mean Difference (Net)|-12.2||||0.8264|TWO_SIDED|95.0|-122.0|97.5|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in urinary total NNAL||97.5|-122|0.8264
92452185|NCT04079933|184791728|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in nicotine equivalents|Mean Difference (Net)|-1.13||||0.4903|TWO_SIDED|95.0|-4.35|2.1|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in nicotine equivalents||2.10|-4.35|0.4903
92173123|NCT03281291|184237129|OTHER||Vaccine Efficacy|30.6|||||TWO_SIDED|95.0|16.6|42.2|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 32 visit, for R012-14-mD Group vs Control Group.||42.2|16.6|
92173124|NCT03281291|184237129|OTHER||Vaccine Efficacy|27.4|||||TWO_SIDED|95.0|13.1|39.4|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 32 visit, for Fx012-14-mFxD Group vs Control Group.||39.4|13.1|
92173125|NCT03281291|184237129|OTHER||Vaccine Efficacy|26.3|||||TWO_SIDED|95.0|11.9|38.3|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 32 visit, for Fx017-mFxD Group vs Control Group.||38.3|11.9|
92173126|NCT03281291|184237130|OTHER||Vaccine Efficacy|41.8|||||TWO_SIDED|95.0|28.6|52.5|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 2.5 and 26, for R012-20 Group vs Control Group.||52.5|28.6|
92173127|NCT03281291|184237130|OTHER||Vaccine Efficacy|39.9|||||TWO_SIDED|95.0|26.8|50.6|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 2.5 and 26, for R012-14-mD Group vs Control Group.||50.6|26.8|
92173128|NCT03281291|184237130|OTHER||Vaccine Efficacy|33.6|||||TWO_SIDED|95.0|19.3|45.3|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 2.5 and 26, for Fx012-14-mFxD Group vs Control Group.||45.3|19.3|
92173129|NCT03281291|184237130|OTHER||Vaccine Efficacy|40.6|||||TWO_SIDED|95.0|27.2|51.5|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 7.5 and 31, for Fx017-mFxD Group vs Control Group.||51.5|27.2|
92173130|NCT03281291|184237131|OTHER||Additive difference|-1.5|||||TWO_SIDED|95.0|-1.979|-1.022|||Wald Test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 20 visit, for R012-20 Group vs Control Group.||-1.022|-1.979|
92452186|NCT04079933|184791728|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in nicotine equivalents|Mean Difference (Net)|-1.4||||0.4251|TWO_SIDED|95.0|-4.88|2.07|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in nicotine equivalents||2.07|-4.88|0.4251
92173131|NCT03281291|184237131|OTHER||Additive difference|-1.544|||||TWO_SIDED|95.0|-2.027|-1.061|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 20 visit, for R012-14-mD Group vs Control Group.||-1.061|-2.027|
92173132|NCT03281291|184237131|OTHER||Additive difference|-1.575|||||TWO_SIDED|95.0|-2.065|-1.085|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 20 visit, for Fx012-14-mFxD Group vs Control Group.||-1.085|-2.065|
92173133|NCT03281291|184237131|OTHER||Additive difference|-1.11|||||TWO_SIDED|95.0|-1.635|-0.586|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 20 visit, for Fx017-mFxD Group vs Control Group.||-0.586|-1.635|
92182887|NCT02434328|184264728|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-9.6|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||4.0|-9.6|
92182888|NCT02434328|184264728|OTHER||Difference in proportions|-2.6|||||TWO_SIDED|95.0|-9.4|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.5|-9.4|
92173134|NCT03281291|184237132|OTHER||Additive difference|-0.769|||||TWO_SIDED|95.0|-1.068|-0.469|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 2.5 to 14, for R012-20 + R012-14-mD Pooled Group vs Control Group.||-0.469|-1.068|
92173135|NCT03281291|184237132|OTHER||Additive difference|-0.786|||||TWO_SIDED|95.0|-1.133|-0.439|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 2.5 to 14, for Fx012-14-mFxD groups vs Control Group.||-0.439|-1.133|
92173136|NCT03281291|184237132|OTHER||Additive difference|-1.275|||||TWO_SIDED|95.0|-1.592|-0.959|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 7.5 to 19, for Fx017-mFxD groups vs Control Group.||-0.959|-1.592|
92452187|NCT04079933|184791729|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in nicotine equivalents|Mean Difference (Net)|-9.83||||0.406|TWO_SIDED|95.0|-33.2|13.5|||t-test, 2 sided||"Difference in Least Square means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in nicotine equivalents||13.5|-33.2|0.4060
92452188|NCT04079933|184791729|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in nicotine equivalents|Mean Difference (Net)|-10.3||||0.4165|TWO_SIDED|95.0|-35.4|14.7|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in nicotine equivalents||14.7|-35.4|0.4165
92452189|NCT04079933|184791730|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in S-PMA|Mean Difference (Net)|-269.0||||0.724|TWO_SIDED|95.0|-1773.0|1235.0|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in S-PMA||1235|-1773|0.7240
92452190|NCT04079933|184791730|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in S-PMA|Mean Difference (Net)|50.5||||0.9508|TWO_SIDED|95.0|-1566.0|1667.0|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in S-PMA||1667|-1566|0.9508
92452191|NCT04079933|184791731|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in S-PMA|Mean Difference (Net)|-19.0||||0.1524|TWO_SIDED|95.0|-45.1|7.12|||t-test, 2 sided||"Difference in Least Square means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in S-PMA||7.12|-45.1|0.1524
92452192|NCT04079933|184791731|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in S-PMA|Mean Difference (Net)|-12.1||||0.4014|TWO_SIDED|95.0|-40.4|16.3|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in S-PMA||16.3|-40.4|0.4014
92452193|NCT04079933|184791732|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in carboxyhemoglobin|Mean Difference (Net)|-0.507||||0.0241|TWO_SIDED|95.0|-0.946|-0.0674|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in carboxyhemoglobin||-0.0674|-0.946|0.0241
92452194|NCT04079933|184791732|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in carboxyhemoglobin|Mean Difference (Net)|-0.367||||0.1292|TWO_SIDED|95.0|-0.843|0.108|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in carboxyhemoglobin||0.108|-0.843|0.1292
92452195|NCT04079933|184791733|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin|Mean Difference (Net)|-10.0||||0.0333|TWO_SIDED|95.0|-19.2|-0.803|||t-test, 2 sided||"Difference in Least Square means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin||-0.803|-19.2|0.0333
92241372|NCT01763905|184385938|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.26|STANDARD_ERROR_OF_MEAN|4.3|<|0.001|TWO_SIDED|95.0|-33.75|-16.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-16.77|-33.75|<0.001
92241373|NCT01763905|184385939|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.29|STANDARD_ERROR_OF_MEAN|4.03|<|0.001|TWO_SIDED|95.0|-33.26|-17.33||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-17.33|-33.26|<0.001
92241374|NCT01763905|184385939|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.88|STANDARD_ERROR_OF_MEAN|5.73|<|0.001|TWO_SIDED|95.0|-39.21|-16.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-16.56|-39.21|<0.001
92241375|NCT01763905|184385940|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-2.59|STANDARD_ERROR_OF_MEAN|4.45||0.97|TWO_SIDED|95.0|-11.38|6.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||6.20|-11.38|0.97
92241376|NCT01763905|184385940|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-6.42|STANDARD_ERROR_OF_MEAN|5.13||0.33|TWO_SIDED|95.0|-16.55|3.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||3.71|-16.55|0.33
92241377|NCT01763905|184385941|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|1.58|STANDARD_ERROR_OF_MEAN|4.92||0.97|TWO_SIDED|95.0|-8.14|11.31||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||11.31|-8.14|0.97
92241378|NCT01763905|184385941|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-4.69|STANDARD_ERROR_OF_MEAN|6.25||0.33|TWO_SIDED|95.0|-17.04|7.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||7.67|-17.04|0.33
92241379|NCT01763905|184385942|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.15|STANDARD_ERROR_OF_MEAN|2.23||0.068|TWO_SIDED|95.0|0.74|9.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||9.56|0.74|0.068
92241380|NCT01763905|184385942|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.74|STANDARD_ERROR_OF_MEAN|2.28||0.13|TWO_SIDED|95.0|1.23|10.24||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||10.24|1.23|0.13
92241381|NCT01763905|184385943|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|3.57|STANDARD_ERROR_OF_MEAN|2.56||0.068|TWO_SIDED|95.0|-1.49|8.63||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||8.63|-1.49|0.068
92241382|NCT01763905|184385943|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|4.83|STANDARD_ERROR_OF_MEAN|2.52||0.13|TWO_SIDED|95.0|-0.16|9.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||9.81|-0.16|0.13
92241383|NCT01763905|184385944|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.84|STANDARD_ERROR_OF_MEAN|4.35||0.97|TWO_SIDED|95.0|-10.43|6.75||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||6.75|-10.43|0.97
92241384|NCT01763905|184385944|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-3.53|STANDARD_ERROR_OF_MEAN|4.85||0.33|TWO_SIDED|95.0|-13.12|6.06||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||6.06|-13.12|0.33
92241385|NCT01763905|184385945|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-0.67|STANDARD_ERROR_OF_MEAN|4.7||0.97|TWO_SIDED|95.0|-9.96|8.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||8.61|-9.96|0.97
92173137|NCT03281291|184237133|OTHER||Additive difference|-2.686|||||TWO_SIDED|95.0|-3.448|-1.924|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 32 visit, for R012-20 Group vs Control Group.||-1.924|-3.448|
92173138|NCT03281291|184237133|OTHER||Additive difference|-2.452|||||TWO_SIDED|95.0|-3.217|-1.686|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 32 visit, for R012-14-mD Group vs Control Group.||-1.686|-3.217|
92173139|NCT03281291|184237133|OTHER||Additive difference|-2.585|||||TWO_SIDED|95.0|-3.345|-1.824|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 32 visit, for Fx012-14-mFxD Group vs Control Group.||-1.824|-3.345|
92173140|NCT03281291|184237133|OTHER||Additive difference|-1.897|||||TWO_SIDED|95.0|-2.726|-1.067|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 32 visit, for Fx017-mFxD Group vs Control Group.||-1.067|-2.726|
92173141|NCT03281291|184237134|OTHER||Additive difference|-1.633|||||TWO_SIDED|95.0|-2.252|-1.015|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 2.5 to 26, for R012-20 group vs Control Group.||-1.015|-2.252|
92241386|NCT01763905|184385945|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|0.08|STANDARD_ERROR_OF_MEAN|5.72||0.33|TWO_SIDED|95.0|-11.24|11.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||11.39|-11.24|0.33
92280995|NCT00266409|184465024|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0160
92173142|NCT03281291|184237134|OTHER||Additive difference|-1.997|||||TWO_SIDED|95.0|-2.601|-1.393|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 2.5 to 26, for R012-14 group vs Control Group.||-1.393|-2.601|
92173143|NCT03281291|184237134|OTHER||Additive difference|-1.776|||||TWO_SIDED|95.0|-2.399|-1.153|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 2.5 to 26, for Fx012-14-mFxD group vs Control Group.||-1.153|-2.399|
92173144|NCT03281291|184237134|OTHER||Additive difference|-1.843|||||TWO_SIDED|95.0|-2.527|-1.158|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 7.5 to 31, for Fx017-mFxD group vs Control Group.||-1.158|-2.527|
92173145|NCT03143153|184237170|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.001|TWO_SIDED|98.6|0.46|0.9||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT.|Log Rank||Stratified Cox proportional hazard model.|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy.||0.90|0.46|0.0010
92173146|NCT03143153|184237170|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.001|TWO_SIDED|95.0|0.49|0.84||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT.|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy.||0.84|0.49|0.0010
92173147|NCT03143153|184237170|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|99.5|0.37|0.8||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT.|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.80|0.37|<0.0001
92173148|NCT03143153|184237170|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.41|0.71||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT.|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.71|0.41|<0.0001
92173149|NCT03143153|184237171|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.8958|TWO_SIDED|98.5|0.73|1.43||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy||1.43|0.73|0.8958
92173150|NCT03143153|184237171|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.8958|TWO_SIDED|95.0|0.78|1.34||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy||1.34|0.78|0.8958
92173151|NCT03143153|184237171|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0023|TWO_SIDED|98.5|0.46|0.92||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.92|0.46|0.0023
92173152|NCT03143153|184237171|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0023|TWO_SIDED|95.0|0.49|0.86||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.86|0.49|0.0023
92173153|NCT03143153|184237172|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.011||95.0|0.65|0.95||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy||0.95|0.65|0.0110
92452196|NCT04079933|184791733|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin|Mean Difference (Net)|-6.76||||0.1767|TWO_SIDED|95.0|-16.6|3.08|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin||3.08|-16.6|0.1767
92452197|NCT04079933|184791734|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in exhaled carbon monoxide|Mean Difference (Net)|-1.51||||0.2961|TWO_SIDED|95.0|-4.36|1.34|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in exhaled carbon monoxide||1.34|-4.36|0.2961
92452198|NCT04079933|184791734|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in exhaled carbon monoxide|Mean Difference (Net)|-1.05||||0.5015|TWO_SIDED|95.0|-4.12|2.03|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in exhaled carbon monoxide||2.03|-4.12|0.5015
92452199|NCT04079933|184791735|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in exhaled carbon monoxide|Mean Difference (Net)|-12.1||||0.2048|TWO_SIDED|95.0|-30.9|6.68|||t-test, 2 sided||"Difference in Least Square means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in exhaled carbon monoxide||6.68|-30.9|0.2048
92452200|NCT04079933|184791735|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to control in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to control in exhaled carbon monoxide|Mean Difference (Net)|-7.32||||0.4731|TWO_SIDED|95.0|-27.4|12.8|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to control in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to control in exhaled carbon monoxide||12.8|-27.4|0.4731
92452201|NCT04079933|184791736|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in cigarettes smoked per day|Mean Difference (Net)|-3.86|||<|0.0001|TWO_SIDED|95.0|-5.25|-2.47|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in cigarettes smoked per day||-2.47|-5.25|<0.0001
92452202|NCT04079933|184791736|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in cigarettes smoked per day|Mean Difference (Net)|-3.74|||<|0.0001|TWO_SIDED|95.0|-5.14|-2.34|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in cigarettes smoked per day||-2.34|-5.14|<0.0001
92452203|NCT04079933|184791737|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day|Mean Difference (Net)|-22.5|||<|0.0001|TWO_SIDED|95.0|-30.5|-14.5|||t-test, 2 sided||"Difference in Least Square means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day||-14.5|-30.5|<0.0001
92241387|NCT01763905|184385946|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.9|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-42.26|-31.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||The null hypothesis was that there is no mean difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis is that a mean difference does exist.||-31.55|-42.26|<0.001
92280996|NCT00266409|184465024|SUPERIORITY_OR_OTHER|||||||0.1024||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.1024
92452204|NCT04079933|184791737|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day|Mean Difference (Net)|-22.3|||<|0.0001|TWO_SIDED|95.0|-30.4|-14.1|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day||-14.1|-30.4|<0.0001
92452205|NCT04079933|184791738|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence|Mean Difference (Net)|-0.408||||0.0919|TWO_SIDED|95.0|-0.884|0.0673|||t-test, 2 sided||"Difference in LS mean change between study groups using Mixed Effects Repeated Measures Model 1:~Change from baseline=study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence||0.0673|-0.884|0.0919
92452206|NCT04079933|184791738|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence|Mean Difference (Net)|-0.405||||0.0975|TWO_SIDED|95.0|-0.886|0.0751|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence||0.0751|-0.886|0.0975
92452207|NCT04079933|184791738|EQUIVALENCE|"Statistical Analysis of Difference in Percent Change from Baseline in Total Score of Fagerstrom Test for Cigarette Dependence between the Study Groups.~Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence"|Mean Difference (Net)|-8.31||||0.0643|TWO_SIDED|95.0|-17.1|0.499|||t-test, 2 sided||"Difference in LS mean percent change between study groups using Mixed Effects Repeated Measures Model 1:~Change from baseline=study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix"|"Statistical Analysis of Difference in Percent Change from Baseline in Total Score of Fagerstrom Test for Cigarette Dependence between the Study Groups.~Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence"||0.499|-17.1|0.0643
92452208|NCT04079933|184791738|EQUIVALENCE|"Statistical Analysis of Difference in Percent Change from Baseline in Total Score of Fagerstrom Test for Cigarette Dependence between the Study Groups.~Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence"|Mean Difference (Net)|-8.84||||0.0517|TWO_SIDED|95.0|-17.7|0.0661|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|"Statistical Analysis of Difference in Percent Change from Baseline in Total Score of Fagerstrom Test for Cigarette Dependence between the Study Groups.~Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence"||0.0661|-17.7|0.0517
92452209|NCT04079933|184791739|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change in quit attempts from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quit attempts from baseline to end of study|Probability|0.216||||0.216|TWO_SIDED||||||Fisher Exact||Estimated value is the probability of observed distribution assuming the null hypothesis|Null hypothesis = Test and Control groups will have equivalent levels of change in quit attempts from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quit attempts from baseline to end of study||||0.2160
92287197|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|-0.026||||0.454|TWO_SIDED|95.0|-0.095|0.043|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.043|-0.095|0.454
92452210|NCT04079933|184791739|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change in quit attempts from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quit attempts from baseline to end of study|Probability|0.0648||||0.0648|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Null hypothesis = Test and Control groups will have equivalent levels of change in quit attempts from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quit attempts from baseline to end of study||||0.0648
92452211|NCT04079933|184791740|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change in quitting intentions from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quitting intentions from baseline to end of study|Probability|0.5977||||0.5977|TWO_SIDED||||||Fisher Exact||Estimated value is the probability of observed distribution assuming the null hypothesis|Null hypothesis = Test and Control groups will have equivalent levels of change in quitting intentions from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quitting intentions from baseline to end of study||||0.5977
92452212|NCT04079933|184791741|EQUIVALENCE|Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of NNAL; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of NNAL|Mean Difference (Net)|10.0||||0.4388|TWO_SIDED|95.0|-15.5|35.5|||t-test, 2 sided|||Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of NNAL; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of NNAL||35.5|-15.5|0.4388
92452213|NCT04079933|184791742|EQUIVALENCE|Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of nicotine metabolites; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of nicotine metabolites|Mean Difference (Net)|0.45||||0.339|TWO_SIDED|95.0|-0.48|1.38|||t-test, 2 sided|||Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of nicotine metabolites; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of nicotine metabolites||1.38|-0.48|0.3390
92452214|NCT04079933|184791743|EQUIVALENCE|Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of S-PMA; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of S-PMA|Mean Difference (Net)|-205.0||||0.4526|TWO_SIDED|95.0|-745.0|334.0|||t-test, 2 sided|||Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of S-PMA; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of S-PMA||334|-745|0.4526
92452215|NCT04079933|184791744|EQUIVALENCE|Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of carboxyhemoglobin; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of carboxyhemoglobin|Mean Difference (Net)|0.0||||0.944|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|||Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of carboxyhemoglobin; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of carboxyhemoglobin||0.2|-0.2|0.9440
92452216|NCT04079933|184791745|EQUIVALENCE|Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of carbon monoxide; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of carbon monoxide|Mean Difference (Net)|0.0||||0.7484|TWO_SIDED|95.0|-1.0|1.0|||t-test, 2 sided|||Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of carbon monoxide; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of carbon monoxide||1|-1|0.7484
92452217|NCT04079933|184791746|EQUIVALENCE|Null hypothesis = Cigarette consumption (CPD) determined using the Day 1 (Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will be equivalent; Alternate hypothesis = Cigarette consumption (CPD) determined using the Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT be equivalent|Mean Difference (Net)|0.0||||0.9992|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Null hypothesis = Cigarette consumption (CPD) determined using the Day 1 (Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will be equivalent; Alternate hypothesis = Cigarette consumption (CPD) determined using the Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT be equivalent||0|0|0.9992
92173154|NCT03143153|184237172|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.011||98.2|0.62|0.98||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT.|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy||0.98|0.62|0.0110
92173155|NCT03143153|184237172|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0021||99.1|0.58|0.96||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.96|0.58|0.0021
92173156|NCT03143153|184237172|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0021|TWO_SIDED|95.0|0.61|0.9||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.90|0.61|0.0021
92280997|NCT00266409|184465025|SUPERIORITY_OR_OTHER|||||||0.0761||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0761
92173157|NCT03143153|184237173|SUPERIORITY||Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|1.04|1.52|||||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy||1.52|1.04|
92173158|NCT03143153|184237173|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0355|TWO_SIDED|95.0|0.67|0.99||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.99|0.67|0.0355
92173159|NCT03143153|184237173|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0355|TWO_SIDED|98.5|0.64|1.04||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||1.04|0.64|0.0355
92173160|NCT02736409|184237180|SUPERIORITY||Difference in Proportion|-0.19||||0.131|TWO_SIDED|95.0|-0.452|0.082|||Fisher Exact|||||0.082|-0.452|0.131
92452218|NCT04079933|184791768|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study|Probability|0.1661||||0.1661|TWO_SIDED||||||Cochran-Mantel-Haenszel||Estimated value is the probability of observed distribution assuming the null hypothesis|Null hypothesis = Test and Control groups will have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study||||0.1661
92452219|NCT04079933|184791768|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study|Probability|0.2139||||0.2139|TWO_SIDED||||||Fisher Exact||Estimated value is the probability of observed distribution assuming the null hypothesis|Null hypothesis = Test and Control groups will have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study||||0.2139
92452220|NCT03207750|184791769|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% Confidence Interval (CI) for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-D antibodies should be ≥-10%.|Difference in anti-D concentration|0.0|||||TWO_SIDED|95.0|-0.8|0.79||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective concentrations (≥ 0.1 IU/mL) of anti-D antibodies.||0.79|-0.80|
92452221|NCT03207750|184791769|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% Confidence Interval (CI) for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-T antibodies should be ≥-10%.|Difference in anti-T concentration|0.0|||||TWO_SIDED|95.0|-0.79|0.77||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective concentrations (≥ 0.1 IU/mL) of anti-T antibodies.||0.77|-0.79|
92241388|NCT01763905|184385946|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.69|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|-43.06|-34.22||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||The null hypothesis was that there is no mean difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis is that a mean difference does exist.||-34.22|-43.06|<0.001
92241389|NCT04346628|184385947|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.24|TWO_SIDED|95.0|0.48|1.2||The final test was performed at the alpha = 0.04999 level of significance, adjusted for age group and sex.|Cox proportional hazards model||Hazard ratio adjusted for age and sex|||1.20|0.48|0.24
92241390|NCT04346628|184385949|SUPERIORITY|||||||0.06||||||A p-value of 0.05 would have been considered statistically significant.|Fisher Exact|||Difference in hospitalizations||||0.06
92241391|NCT04346628|184385949|SUPERIORITY|||||||0.56||||||A p-value of 0.05 would have been considered statistically significant.|Fisher Exact|||Difference in ED visits||||0.56
92241392|NCT04346628|184385951|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.43|TWO_SIDED|95.0|0.54|1.29||A p-value of 0.05 would have been considered statistically significant.|Cox proportional hazards model||Hazard ratio adjusted for age and sex|Difference in days until initial resolution of symptoms||1.29|0.54|0.43
92241393|NCT04346628|184385951|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.59|TWO_SIDED|95.0|0.52|1.45||A p-value of 0.05 would have been considered statistically significant.|Cox proportional hazards model||Hazard ratio adjusted for age and sex|Difference in days until sustained resolution of symptoms||1.45|0.52|0.59
92241394|NCT01533935|184386010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.215|0.315|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Placebo QD|||0.315|0.215|<0.0001
92241395|NCT01533935|184386010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.025||0.0015|TWO_SIDED|95.0|0.031|0.129|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg QD|||0.129|0.031|0.0015
92241396|NCT01533935|184386010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.025||0.0005|TWO_SIDED|95.0|0.039|0.137|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.137|0.039|0.0005
92241397|NCT01533935|184386010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.274|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.224|0.324|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||0.324|0.224|<0.0001
92173161|NCT04382404|184237249|OTHER||Geometric mean ratio|0.85|||||TWO_SIDED|90.0|0.63|1.15|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|Maximum concentration of Velpatasvir in plasma was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean concentration (percent coefficient of variation) for the non-pregnant cohort was 449.39 (77.12).||1.15|0.63|
92241398|NCT01533935|184386010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.025||0.0004|TWO_SIDED|95.0|0.039|0.138|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||0.138|0.039|0.0004
92452222|NCT03207750|184791770|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-HB antibodies should be ≥-10%.|Difference in anti-HB concentration|-0.65|||||TWO_SIDED|95.0|-1.9|0.16||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective concentrations (≥ 10 mIU/mL) of anti-HB antibodies.||0.16|-1.90|
92452223|NCT03207750|184791771|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-poliovirus type 1 antibodies should be ≥-5%.|Difference in anti-polio 1 concentration|0.21|||||TWO_SIDED|95.0|-0.6|1.15||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective titers (≥ 8 ED50) of anti-poliovirus type 1 antibodies.||1.15|-0.60|
92452224|NCT03207750|184791771|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-poliovirus type 2 antibodies should be ≥-5%.|Difference in anti-polio 2 concentration|-0.01|||||TWO_SIDED|95.0|-1.02|0.98||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective titers (≥ 8 ED50) of anti-poliovirus type 2 antibodies.||0.98|-1.02|
92452225|NCT03207750|184791771|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-poliovirus type 3 antibodies should be ≥-5%.|Difference in anti-polio 3 concentration|0.0|||||TWO_SIDED|95.0|-0.87|0.84||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective titers (≥ 8 ED50) of anti-poliovirus type 3 antibodies.||0.84|-0.87|
92452226|NCT03207750|184791772|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for each of anti-PT antibodies should be ≥ 0.67.|GMC ratio|0.94|||||TWO_SIDED|95.0|0.86|1.03|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for anti-PT antibodies.||1.03|0.86|
92452227|NCT03207750|184791772|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for each of anti-FHA antibodies should be ≥ 0.67.|GMC ratio|1.0|||||TWO_SIDED|95.0|0.92|1.08|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for anti-FHA antibodies.||1.08|0.92|
92452228|NCT03207750|184791772|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for each of anti-PRN antibodies should be ≥ 0.67.|GMC ratio|0.97|||||TWO_SIDED|95.0|0.86|1.1|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for anti-PRN antibodies.||1.10|0.86|
92452229|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 1 should be ≥ 0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.93|1.14|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 1.||1.14|0.93|
92452230|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 3 should be ≥ 0.5.|GMC ratio|1.0|||||TWO_SIDED|95.0|0.91|1.11|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 3.||1.11|0.91|
92452231|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 4 should be ≥ 0.5.|GMC ratio|0.99|||||TWO_SIDED|95.0|0.9|1.09|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 4.||1.09|0.90|
92452232|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 5 should be ≥ 0.5.|GMC ratio|1.05|||||TWO_SIDED|95.0|0.94|1.17|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 5.||1.17|0.94|
92173162|NCT04382404|184237250|OTHER||Geometric mean ratio|1.19|||||TWO_SIDED|90.0|0.88|1.6|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|Maximum concentration of Sofosbuvir in plasma was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean concentration (percent coefficient of variation) for the non-pregnant cohort was 1226.16 (59.46).||1.60|0.88|
92173163|NCT04382404|184237251|OTHER||Geometric mean ratio|0.57|||||TWO_SIDED|90.0|0.49|0.67|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|Maximum concentration of GS-331007 in plasma was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean concentration (percent coefficient of variation) for the non-pregnant cohort was 1312.17 (32.55).||0.67|0.49|
92173164|NCT04382404|184237252|OTHER||Geometric mean ratio|0.91|||||TWO_SIDED|90.0|0.67|1.23|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|Area under the plasma concentration versus time curve tau of Velpatasvir was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean (percent coefficient of variation) for the non-pregnant cohort was 3570.65 (72.04).||1.23|0.67|
92173165|NCT04382404|184237253|OTHER||Geometric mean ratio|1.39|||||TWO_SIDED|90.0|1.06|1.78||||||Area under the plasma concentration versus time curve tau of Sofosbuvir was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean (percent coefficient of variation) for the non-pregnant cohort was 1483.83 (66.43).|The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|1.78|1.06|
92241399|NCT01533935|184386010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.025||0.0001|TWO_SIDED|95.0|0.047|0.147|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.147|0.047|0.0001
92280998|NCT00266409|184465025|SUPERIORITY_OR_OTHER|||||||0.0376||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0376
92452233|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 6A should be ≥ 0.5.|GMC ratio|1.01|||||TWO_SIDED|95.0|0.92|1.12|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 6A.||1.12|0.92|
92452234|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 6B should be ≥ 0.5.|GMC ratio|0.96|||||TWO_SIDED|95.0|0.83|1.12|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 6B.||1.12|0.83|
92452235|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 7F should be ≥ 0.5.|GMC ratio|0.99|||||TWO_SIDED|95.0|0.91|1.08|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 7F.||1.08|0.91|
92452236|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 9V should be ≥ 0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.93|1.14|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 9V.||1.14|0.93|
92452237|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 14 should be ≥ 0.5.|GMC ratio|1.0|||||TWO_SIDED|95.0|0.89|1.13|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 14.||1.13|0.89|
92173166|NCT04382404|184237254|OTHER||Geometric mean ratio|0.62|||||TWO_SIDED|90.0|0.55|0.71||||||Area under the plasma concentration versus time curve tau of Sofosbuvir was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean (percent coefficient of variation) for the non-pregnant cohort was 15361.31 (22.35).|The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|0.71|0.55|
92173167|NCT04382404|184237255|OTHER||Geometric mean ratio|1.43|||||TWO_SIDED|95.0|0.91|2.25||||||The geometric mean (95 percent confidence interval) concentration of GS-461203 in peripheral blood mononuclear cells was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 1474 (488, 4453) fmol /10\^6 cells in the nonpregnant cohort.|The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|2.25|0.91|
92241400|NCT01533935|184386011|SUPERIORITY_OR_OTHER||Ratio|1.134|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001|TWO_SIDED|95.0|1.065|1.206|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 5/5 QD divided by Placebo QD|||1.206|1.065|<0.0001
92173168|NCT04382404|184237256|OTHER||Geometric mean ratio|1.91|||||TWO_SIDED|95.0|1.14|3.19|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|The geometric mean (95 percent confidence interval) concentration of GS-461203 in peripheral blood mononuclear cells was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 1474 (488, 4453) fmol /10\^6 cells in the nonpregnant cohort.||3.19|1.14|
92173169|NCT04382404|184237257|OTHER||Geometric mean ratio|1.5|||||TWO_SIDED|95.0|0.87|2.6|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|The geometric mean (95 percent confidence interval) concentration of GS-461203 in peripheral blood mononuclear cells was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 1474 (488, 4453) fmol /10\^6 cells in the nonpregnant cohort.||2.60|0.87|
92173170|NCT04382404|184237258|OTHER||Geometric mean ratio|0.53|||||TWO_SIDED|95.0|0.5|0.56|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|The geometric mean (95 percent confidence interval) concentration of GS-461203 in dried blood spots was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 647 (571, 723) fmol/punch in the nonpregnant cohort.||.56|.50|
92287198|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.37|TWO_SIDED|95.0|-0.035|0.095|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.095|-0.035|0.370
92173171|NCT04382404|184237259|OTHER||Geometric mean ratio|0.53|||||TWO_SIDED|95.0|0.49|0.58|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|The geometric mean (95 percent confidence interval) concentration of GS-461203 in dried blood spots was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 647 (571, 723) fmol/punch in the nonpregnant cohort.||.58|.49|
92182889|NCT02434328|184264728|OTHER||Difference in proportions|-5.4|||||TWO_SIDED|95.0|-12.1|1.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||1.1|-12.1|
92452238|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 18C should be ≥ 0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.92|1.14|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 18C.||1.14|0.92|
92452239|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 19A should be ≥ 0.5.|GMC ratio|1.04|||||TWO_SIDED|95.0|0.93|1.15|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 19A.||1.15|0.93|
92452240|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 19F should be ≥ 0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.95|1.12|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 19F.||1.12|0.95|
92452241|NCT03207750|184791773|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 23F should be ≥ 0.5.|GMC ratio|0.98|||||TWO_SIDED|95.0|0.87|1.1|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 23F.||1.10|0.87|
92452242|NCT03207750|184791774|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentrations (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-PRP antibodies should be ≥-5%.|Difference in anti-PRP concentration|0.17|||||TWO_SIDED|95.0|-1.94|2.28||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with concentrations (≥ 0.15 µg/mL) of anti-PRP antibodies.||2.28|-1.94|
92452243|NCT03207750|184791775|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentrations (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-PRP antibodies should be ≥-10%.|Difference in anti-PRP concentration|-0.88|||||TWO_SIDED|95.0|-5.75|3.99||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with concentrations (≥ 1.0 µg/mL) of anti-PRP antibodies.||3.99|-5.75|
92452244|NCT03207750|184791776|OTHER|p-value on the difference in seroresponse (HRV PCV-free Liquid group minus HRV Lyophilized group) between groups should be \<=0.025 for PT antigen.|||||<|0.0001|||||||t-test, 1 sided|p-value was computed by integrating on p-values of 1 sided test with alpha=0.025 \& the posterior probability of the cut-off in HRV Lyophilized group||To rule out 10% decrease in seroresponse to PT antigen in subjects who received Pediarix co-administered with PCV-free-Liquid-HRV vaccine compared to subjects who received Pediarix co-administered with currently licensed lyophilized HRV vaccine where seroresponse was defined as percentage of subjects who showed a concentration above a threshold that led to 95% seroresponse in HRV lyophilized group.||||<.0001
92173172|NCT04382404|184237260|OTHER||Geometric mean ratio|0.55|||||TWO_SIDED|95.0|0.48|0.64|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|The geometric mean (95 percent confidence interval) concentration of GS-461203 in dried blood spots was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 647 (571, 723) fmol/punch in the nonpregnant cohort.||.64|.48|
92173173|NCT03562377|184237323|NON_INFERIORITY|The difference in response rates was calculated using the Mantel-Haenszel estimate of the risk difference stratified by baseline disease severity together with the 2-sided 95% CI. Non-inferiority of tralokinumab was demonstrated if the lower limit of the 95% CI was greater than -25%. Power calculation assumed 160 subjects in the per protocol analysis set, providing 98% power to establish non-inferiority, assuming response rates of 80% in both treatment groups and a non-inferiority margin of -25%|Risk Difference (RD)|-4.1|||||TWO_SIDED|95.0|-11.3|3.1|||Mantel Haenszel|||||3.1|-11.3|
92173174|NCT03562377|184237324|NON_INFERIORITY|The difference in response rates was calculated using the Mantel-Haenszel estimate of the risk difference stratified by baseline disease severity together with the 2-sided 95% CI. Non-inferiority of tralokinumab was demonstrated if the lower limit of the 95% CI was greater than -25%. Power calculation assumed 160 subjects in the per protocol analysis set, providing 98% power to establish non-inferiority, assuming response rates of 80% in both treatment groups and a non-inferiority margin of -25%|Risk Difference (RD)|1.8|||||TWO_SIDED|95.0|-9.2|12.8|||Mantel Haenszel|||||12.8|-9.2|
92452245|NCT03207750|184791776|OTHER|p-value on the difference in seroresponse (HRV PCV-free Liquid group minus HRV Lyophilized group) between groups should be \<=0.025 for FHA antigen.|||||<|0.0001|||||||t-test, 1 sided|p-value was computed by integrating on p-values of 1 sided test with alpha=0.025 \& the posterior probability of the cut-off in HRV lyophilized group||To rule out 10% decrease in seroresponse to FHA antigen in subjects who received Pediarix co-administered with PCV-free-Liquid-HRV vaccine compared to subjects who received Pediarix co-administered with currently licensed lyophilized HRV vaccine where seroresponse was defined as percentage of subjects who showed a concentration above a threshold that led to 95% seroresponse in HRV lyophilized group.||||<.0001
92452246|NCT03207750|184791776|OTHER|p-value on the difference in seroresponse (HRV PCV-free Liquid group minus HRV Lyophilized group) between groups should be \<=0.025 for PRN antigen.|||||<|0.0001|||||||t-test, 1 sided|p-value was computed by integrating on p-values of 1 sided test with alpha=0.025 \& the posterior probability of the cut-off in HRV Lyophilized group||To rule out 10% decrease in seroresponse to PRN antigen in subjects who received Pediarix co-administered with PCV-free-Liquid-HRV vaccine compared to subjects who received Pediarix co-administered with currently licensed lyophilized HRV vaccine where seroresponse was defined as percentage of subjects who showed a concentration above a threshold that led to 95% seroresponse in HRV lyophilized group.||||<.0001
92452247|NCT02504294|184791861|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded since the lower bound of the 95% CI of the difference in percentage was greater than the non-inferiority margin (-12.5%).|Difference in Percentage|-1.3975|||||TWO_SIDED|95.0|-7.6503|4.8553||||||Clustered binomial analysis using logistic regression method was performed and generalized estimating equation method was used to construct 95 percent (%) two-sided confidence intervals (CIs).||4.8553|-7.6503|
92452248|NCT02504294|184791862|SUPERIORITY_OR_OTHER||LS Mean Difference|-1062.0|STANDARD_ERROR_OF_MEAN|803.95||0.1874|TWO_SIDED|95.0|-2643.2|519.2|||ANCOVA|||P-value was calculated using analysis of covariance (ANCOVA) model with treatment as factor and baseline ESA dose as covariate.||519.2|-2643.2|0.1874
92452249|NCT02255175|184791919|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|t=.501, df=33||||||.620
92452250|NCT02255175|184791920|SUPERIORITY|||||||0.855|||||||t-test, 2 sided|t=.185, df=33||||||.855
92452251|NCT02255175|184791921|SUPERIORITY|||||||0.758|||||||t-test, 2 sided|t=-.310, df=33||||||.758
92452252|NCT02255175|184791922|SUPERIORITY|||||||0.518|||||||t-test, 2 sided|t=.653, df=33||||||.518
92452253|NCT02255175|184791923|SUPERIORITY|||||||0.645|||||||t-test, 2 sided|t=.465, df=33||||||.645
92452254|NCT02255175|184791924|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|t=2.56, df=33||||||.015
92452255|NCT02255175|184791925|SUPERIORITY|||||||0.486|||||||t-test, 2 sided|t=.705, df=33||||||.486
92452256|NCT02255175|184791926|SUPERIORITY|||||||0.831|||||||t-test, 2 sided|t=.216, df=33||||||.831
92452257|NCT02255175|184791927|SUPERIORITY|||||||0.0002|||||||Repeated measures ANOVA|F(1,33)=17.91||||||.0002
92452258|NCT05799495|184791928|OTHER||LS Mean difference|-0.671|STANDARD_ERROR_OF_MEAN|0.3178||0.0181|TWO_SIDED|80.0|-1.08|-0.262|||Mixed Models Analysis|||||-0.262|-1.080|0.0181
92452259|NCT05799495|184791928|OTHER||LS Mean difference|-0.802|STANDARD_ERROR_OF_MEAN|0.3562||0.0127|TWO_SIDED|80.0|-1.26|-0.344|||Mixed Models Analysis|||||-0.344|-1.260|0.0127
92452260|NCT05799495|184791928|OTHER||LS Mean difference|-1.167|STANDARD_ERROR_OF_MEAN|0.264|<|0.0001|TWO_SIDED|80.0|-1.506|-0.827|||Mixed Models Analysis|||||-0.827|-1.506|<.0001
92452261|NCT05799495|184791929|OTHER||LS Mean difference|-0.608|STANDARD_ERROR_OF_MEAN|0.3402||0.0378|TWO_SIDED|80.0|-1.046|-0.17|||Mixed Models Analysis|||Day 3||-0.170|-1.046|0.0378
92452262|NCT05799495|184791929|OTHER||LS Mean difference|-1.304|STANDARD_ERROR_OF_MEAN|0.3718||0.0003|TWO_SIDED|80.0|-1.782|-0.826|||Mixed Models Analysis|||Day 3||-0.826|-1.782|0.0003
92452263|NCT05799495|184791929|OTHER||LS Mean difference|-1.148|STANDARD_ERROR_OF_MEAN|0.2803|<|0.0001|TWO_SIDED|80.0|-1.509|-0.788|||Mixed Models Analysis|||Day 3||-0.788|-1.509|<.0001
92452264|NCT05799495|184791929|OTHER||LS Mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.2732||0.5931|TWO_SIDED|80.0|-0.287|0.416|||Mixed Models Analysis|||Day 10||0.416|-0.287|0.5931
92452265|NCT05799495|184791929|OTHER||LS Mean difference|0.006|STANDARD_ERROR_OF_MEAN|0.2914||0.508|TWO_SIDED|80.0|-0.369|0.381|||Mixed Models Analysis|||Day 10||0.381|-0.369|0.5080
92452266|NCT05799495|184791929|OTHER||LS Mean difference|-0.214|STANDARD_ERROR_OF_MEAN|0.223||0.1692|TWO_SIDED|80.0|-0.501|0.073|||Mixed Models Analysis|||Day 10||0.073|-0.501|0.1692
92452267|NCT05799495|184791929|OTHER||LS Mean difference|-0.239|STANDARD_ERROR_OF_MEAN|0.2004||0.1172|TWO_SIDED|80.0|-0.497|0.019|||Mixed Models Analysis|||Day 14||0.019|-0.497|0.1172
92452268|NCT05799495|184791929|OTHER||LS Mean difference|-0.056|STANDARD_ERROR_OF_MEAN|0.2178||0.3979|TWO_SIDED|80.0|-0.337|0.224|||Mixed Models Analysis|||Day 14||0.224|-0.337|0.3979
92452269|NCT05799495|184791929|OTHER||LS Mean difference|-0.383|STANDARD_ERROR_OF_MEAN|0.1655||0.0109|TWO_SIDED|80.0|-0.595|-0.17|||Mixed Models Analysis|||Day 14||-0.170|-0.595|0.0109
92452270|NCT04177108|184791949|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0098||95.0|0.28|0.85|||Log Rank|||||0.85|0.28|0.0098
92173175|NCT03562377|184237325|SUPERIORITY||Risk Difference (RD)|11.4||||0.049|TWO_SIDED|95.0|0.2|22.6||The p-value was adjusted for multiplicity by a pre-specified testing hierarchy. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders in the primary analysis of the primary estimand.|Cochran-Mantel-Haenszel|The difference in response rates was analysed using the Cochran-Mantel-Haenszel test stratified by baseline disease severity (moderate or severe).||||22.6|0.2|0.049
92173176|NCT03562377|184237326|SUPERIORITY||Risk Difference (RD)|12.7||||0.057|TWO_SIDED|95.0|-0.2|25.7||The p-value was adjusted for multiplicity by a pre-specified testing hierarchy. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders in the primary analysis of the primary estimand.|Cochran-Mantel-Haenszel|The difference in response rates was analysed using the Cochran-Mantel-Haenszel test stratified by baseline disease severity (moderate or severe).||||25.7|-0.2|0.057
92173177|NCT04650087|184237358|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.44|1.95||||||||1.95|0.44|
92173178|NCT04650087|184237359|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.83|1.31||||||||1.31|0.83|
92173179|NCT04650087|184237360|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.78|1.24||||||||1.24|0.78|
92173180|NCT04650087|184237361|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.44|1.74||||||||1.74|0.44|
92173181|NCT04650087|184237362|SUPERIORITY||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.58|2.12||||||||2.12|0.58|
92173182|NCT04650087|184237363|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.29|3.42||||||||3.42|0.29|
92173183|NCT04650087|184237364|SUPERIORITY||Risk Ratio (RR)|0.33|||||TWO_SIDED|95.0|0.03|3.18||||||||3.18|0.03|
92173184|NCT04650087|184237365|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.34|2.28||||||||2.28|0.34|
92173185|NCT03001414|184237373|SUPERIORITY||Mean Difference (Final Values)|13.7|STANDARD_ERROR_OF_MEAN|16.69||0.42|TWO_SIDED|95.0|-20.08|47.48|||ANOVA|Global test of difference between the arms analyzed as absolute change from baseline.||Due to sample size restriction, the primary analysis plan was modified to analyze change from baseline to each time point using repeated measures of ANOVA.||47.48|-20.08|0.42
92173186|NCT03001414|184237373|SUPERIORITY||Mean Difference (Final Values)|13.7||||0.57|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Calculation of raw change from baseline in meters using non-parametric Wilcoxon test.||||0.57
92173187|NCT03001414|184237373|SUPERIORITY||Mean Difference (Final Values)|4.55||||0.53|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Secondary analysis of primary outcome using non-parametric Wilcoxon test of percent change from baseline.||||||0.53
92173188|NCT03001414|184237374|SUPERIORITY|Change from baseline calculated in meters using non-parametric analysis.|Mean Difference (Final Values)|41.97||||0.1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of these arms is in accordance with the statistical analysis plan.||||0.10
92173189|NCT03001414|184237375|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.5|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The selected arm for this outcome measure is in accordance with the statistical analysis plan.||||0.50
92241401|NCT01533935|184386011|SUPERIORITY_OR_OTHER||Ratio|1.111|STANDARD_ERROR_OF_MEAN|0.035||0.0009|TWO_SIDED|95.0|1.045|1.182|||Mixed Models Analysis||Ratio calculated Tiotropium + olodaterol 5/5 QD as divided by Olodaterol 5 mcg QD|||1.182|1.045|0.0009
92173190|NCT03001414|184237376|SUPERIORITY||Mean Difference (Final Values)|22.92||||0.88|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Comparison of change from baseline in meters at 6 and 12 months.||Selection of the arm for analysis of this outcome measure is in accordance with the statistical analysis plan.||||0.88
92173191|NCT03001414|184237377|SUPERIORITY||Mean Difference (Final Values)|0.132||||0.81|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Selection of the arms for analysis of this outcome measure is in accordance with the statistical analysis plan.||||0.81
92173192|NCT03001414|184237378|SUPERIORITY||Median Difference (Final Values)|2.06||||0.63|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Selection of the arms for analysis of this outcome measure is in accordance with the statistical analysis plan.||||0.63
92241402|NCT01533935|184386011|SUPERIORITY_OR_OTHER||Ratio|1.043|STANDARD_ERROR_OF_MEAN|0.033||0.1807|TWO_SIDED|95.0|0.981|1.109|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 5/5 QD divided by Tiotropium 5 mcg QD|||1.109|0.981|0.1807
92241403|NCT01533935|184386011|SUPERIORITY_OR_OTHER||Ratio|1.121|STANDARD_ERROR_OF_MEAN|0.036||0.0003|TWO_SIDED|95.0|1.054|1.193|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 2.5/5 QD divided by Placebo QD|||1.193|1.054|0.0003
92241404|NCT01533935|184386011|SUPERIORITY_OR_OTHER||Ratio|1.099|STANDARD_ERROR_OF_MEAN|0.035||0.0029|TWO_SIDED|95.0|1.033|1.17|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 2.5/5 QD divided by Olodaterol 5 mcg QD|||1.170|1.033|0.0029
92241405|NCT01533935|184386011|SUPERIORITY_OR_OTHER||Ratio|1.032|STANDARD_ERROR_OF_MEAN|0.033||0.324|TWO_SIDED|95.0|0.97|1.098|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 2.5/5 QD divided by Tiotropium 5 mcg QD|||1.098|0.970|0.3240
92241406|NCT01533935|184386012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.001|<|0.0001|TWO_SIDED|95.0|-0.004|-0.002|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Placebo QD|||-0.002|-0.004|<0.0001
92241407|NCT01533935|184386012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.0033|TWO_SIDED|95.0|-0.003|-0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg QD|||-0.001|-0.003|0.0033
92241408|NCT01533935|184386012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.001||0.2306|TWO_SIDED|95.0|-0.002|0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.001|-0.002|0.2306
92280999|NCT00266409|184465026|SUPERIORITY_OR_OTHER|||||||0.1196||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.1196
92281000|NCT00266409|184465026|SUPERIORITY_OR_OTHER|||||||0.0029||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint.CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0029
92281001|NCT00266409|184465027|SUPERIORITY_OR_OTHER|||||||0.6323||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.6323
92241409|NCT01533935|184386012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.001|<|0.0001|TWO_SIDED|95.0|-0.005|-0.002|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||-0.002|-0.005|<0.0001
92241410|NCT01533935|184386012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.001|TWO_SIDED|95.0|-0.004|-0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||-0.001|-0.004|0.0010
92241411|NCT01533935|184386012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.001||0.1206|TWO_SIDED|95.0|-0.002|0.0|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.000|-0.002|0.1206
92452271|NCT04177108|184791949|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.2396||95.0|0.42|1.25|||Log Rank|||||1.25|0.42|0.2396
92452272|NCT04177108|184791949|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9809||95.0|0.63|1.58|||Log Rank|||||1.58|0.63|0.9809
92452273|NCT04177108|184791950|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.6805||95.0|0.55|2.51|||Log Rank|||||2.51|0.55|0.6805
92452274|NCT04177108|184791950|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.6314||95.0|0.55|2.64|||Log Rank|||||2.64|0.55|0.6314
92241412|NCT01533935|184386013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.329|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.294|0.364|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Placebo QD|||0.364|0.294|<0.0001
92241413|NCT01533935|184386013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.099|0.169|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg QD|||0.169|0.099|<0.0001
92241414|NCT01533935|184386013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.1|0.17|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.170|0.100|<0.0001
92241415|NCT01533935|184386013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.305|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.269|0.34|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||0.340|0.269|<0.0001
92241416|NCT01533935|184386013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.075|0.145|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||0.145|0.075|<0.0001
92241417|NCT01533935|184386013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.076|0.146|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.146|0.076|<0.0001
92452275|NCT04177108|184791950|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9164||95.0|0.52|2.06|||Log Rank|||||2.06|0.52|0.9164
92452276|NCT04737538|184791962|OTHER||Mean Difference (Final Values)|-11.0|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|-13.3|-8.8|||Non-parametric method (Van Elteren test)|||||-8.8|-13.3|<0.0001
92173193|NCT03001414|184237379|SUPERIORITY||Mean Difference (Final Values)|1.39||||0.25|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.25
92173194|NCT03001414|184237380|SUPERIORITY||Mean Difference (Final Values)|5.6||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|This analysis represents the results for the Physical Component score of the questionnaire.||Selection of the arms for analysis of this outcome measure is in accordance with the statistical analysis plan.||||1.0
92173195|NCT03001414|184237380|SUPERIORITY||Median Difference (Final Values)|0.1||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||This analysis represents the difference in score for the mental component of the questionnaire.|Selection of the arms for analysis of this outcome measure is in accordance with the statistical analysis plan.||||0.64
92173196|NCT03001414|184237381|SUPERIORITY||Mean Difference (Final Values)|8.0||||0.4|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||This analysis represents the difference in score for the physical component of the questionnaire.|Selection of the arms for analysis of this outcome measure is in accordance with the statistical analysis plan.||||0.40
92173197|NCT03001414|184237381|SUPERIORITY||Mean Difference (Final Values)|15.4||||0.23|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||||This analysis represents the change in score for the mental component of the questionnaire.|||0.23
92173198|NCT05177848|184237435|OTHER|||||||0.9793||||||"A linear mixed effects model tested the interaction between group and condition on the rate of substitution~Results:~Condition: X2(6) = 4.30, p = 0.64 Group: X2(1) 0.22, p = 0.64 Condition:Group: X2(6) = 1.15, p = 0.98"|Mixed Models Analysis|||||||0.9793
92173199|NCT05177848|184237436|OTHER|||||||0.29||||||"A linear mixed effects model tested the interaction between group and condition on Q0 (derived intensity).~Results:~Condition: X2(6) = 6.59, p = 0.36 Group: X2(1) = 0.07, p = 0.79 Condition:Group: X2(6) = 7.38, p = 0.29"|Mixed Models Analysis|||||||0.29
92241418|NCT00681538|184386029|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.84||||0.0002|TWO_SIDED|95.0|-1.29|-0.4|||ANCOVA|||||-0.40|-1.29|0.0002
92173200|NCT05177848|184237436|OTHER|||||||0.46||||||"A linear mixed effects model tested the interaction between group and condition on Alpha (demand elasticity).~Results:~Condition: X2(6) = 0.0001, p = 1.00 Group: X2(1) = 0.00, p = 0.99 Condition:Group: X2(6) = 5.65, p = 0.46"|Mixed Models Analysis|||||||0.46
92173201|NCT01781468|184237449|SUPERIORITY|||||||0.9601|||||||Fisher Exact|||||||0.9601
92173202|NCT01781468|184237450|SUPERIORITY|||||||0.7877|||||||Fisher Exact|||||||0.7877
92241419|NCT00681538|184386030|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.731||||0.0003|TWO_SIDED|95.0|1.589|4.694|||Regression, Logistic||Odds ratio\>1 indicates an improvement in favour of Sativex|30% responders||4.694|1.589|0.0003
92173203|NCT01781468|184237451|SUPERIORITY|||||||0.3272|||||||Kruskal-Wallis|||||||0.3272
92173204|NCT01781468|184237452|SUPERIORITY|||||||0.9122|||||||Kruskal-Wallis|||Baseline to Week 4||||0.9122
92173205|NCT01781468|184237452|SUPERIORITY|||||||0.8559|||||||Kruskal-Wallis|||Baseline to Week 8||||0.8559
92173206|NCT05386758|184237474|OTHER||Gemetric Mean Ratio (GMR)|1.24|||||TWO_SIDED|90.0|0.94|1.64||||||||1.64|0.94|
92241420|NCT00681538|184386030|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.647||||0.0612|TWO_SIDED|95.0|0.977|2.777|||Regression, Logistic||Odds ratio\>1 indicates an improvement in favour of Sativex|50% Responders||2.777|0.977|0.0612
92173207|NCT05386758|184237475|OTHER||Geometric Mean Ratio (GMR)|1.21|||||TWO_SIDED|90.0|0.9|1.62||||||||1.62|0.90|
92173208|NCT01573442|184237480|SUPERIORITY|||||||0.4952|||||||Wilcoxon (Mann-Whitney)|||||||0.4952
92173209|NCT01573442|184237481|SUPERIORITY|||||||0.2116|||||||Fisher Exact|||||||0.2116
92173210|NCT01573442|184237482|SUPERIORITY|||||||0.676|||||||Wilcoxon (Mann-Whitney)|||||||0.6760
92173211|NCT01573442|184237483|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 1||||0.029
92173212|NCT01573442|184237483|SUPERIORITY|||||||0.8214|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 2||||0.8214
92173213|NCT01573442|184237483|SUPERIORITY|||||||0.4952|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 3||||0.4952
92173214|NCT01573442|184237483|SUPERIORITY|||||||0.5232|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 4||||0.5232
92173215|NCT01573442|184237483|SUPERIORITY|||||||0.5522|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 5||||0.5522
92173216|NCT01573442|184237483|SUPERIORITY|||||||0.7005|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 6||||0.7005
92173217|NCT01573442|184237487|SUPERIORITY|||||||0.139|||||||Wilcoxon (Mann-Whitney)|||||||0.139
92173218|NCT01573442|184237488|SUPERIORITY|||||||0.8761|||||||Wilcoxon (Mann-Whitney)|||||||0.8761
92173219|NCT01573442|184237489|SUPERIORITY|||||||0.0176|||||||Wilcoxon (Mann-Whitney)|||||||0.0176
92173220|NCT01573442|184237490|SUPERIORITY|||||||0.7077|||||||Wilcoxon (Mann-Whitney)|||||||0.7077
92173221|NCT01573442|184237491|SUPERIORITY|||||||0.8748|||||||Wilcoxon (Mann-Whitney)|||||||0.8748
92173222|NCT01573442|184237492|SUPERIORITY|||||||0.4335|||||||Wilcoxon (Mann-Whitney)|||||||0.4335
92173223|NCT01573442|184237493|SUPERIORITY|||||||0.286|||||||Wilcoxon (Mann-Whitney)|||||||0.286
92173224|NCT01573442|184237494|SUPERIORITY|||||||0.7694|||||||Wilcoxon (Mann-Whitney)|||||||0.7694
92173225|NCT01573442|184237495|SUPERIORITY|||||||0.9609|||||||Wilcoxon (Mann-Whitney)|||||||0.9609
92173226|NCT03649659|184237496|SUPERIORITY||Odds Ratio (OR)|4.06|||<|0.0001|TWO_SIDED|99.9|2.54|6.48|||Regression, Logistic|Multiple imputation (25) of missing data, FCS methods. Group comparisons using GEE logistic model, exchangeable correlation, study site as covariate.||||6.48|2.54|<0.0001
92452277|NCT04737538|184791963|OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|1.01||0.4488|TWO_SIDED|95.0|-1.6|2.4|||Non-parametric method (Van Elteren test)|||||2.4|-1.6|0.4488
92452278|NCT04737538|184791964|OTHER||Mean Difference (Final Values)|-11.5|STANDARD_ERROR_OF_MEAN|1.18|<|0.0001|TWO_SIDED|95.0|-13.8|-9.1|||Non-parametric method (Van Elteren test)|||||-9.1|-13.8|<0.0001
92452279|NCT01652716|184791965|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1349||0.0072|TWO_SIDED|95.0|-0.63|-0.1|||Mixed model for repeated measure (MMRM)|Based on a repeated measures mixed model including fixed categorical effects of treatment||||-0.10|-0.63|0.0072
92452280|NCT01652716|184791966|SUPERIORITY_OR_OTHER|||||||0.2247|||||||Cochran-Mantel-Haenszel|||||||0.2247
92452281|NCT01652716|184791967|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.2|STANDARD_ERROR_OF_MEAN|5.841||0.1656|TWO_SIDED|95.0|-21.7|1.3||Adjusted|Cochran-Mantel-Haenszel|||||1.3|-21.7|0.1656
92452282|NCT01652716|184791968|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.4497||0.3744|TWO_SIDED|95.0|-0.48|1.28|||Cochran-Mantel-Haenszel|||||1.28|-0.48|0.3744
92452283|NCT01652716|184791969|SUPERIORITY_OR_OTHER||LS Mean Difference|26.74|STANDARD_ERROR_OF_MEAN|15.8957||0.0985|TWO_SIDED|95.0|-5.16|58.64|||Cochran-Mantel-Haenszel|||||58.64|-5.16|0.0985
92452284|NCT01422070|184791973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63|||<|0.05|TWO_SIDED|95.0|0.45|0.88|||generalized estimating equation|Generalized estimating equation adjusts the confidence interval for the correlation of outcomes within-centre.|The fully adjusted multivariable logistic regression analysis showed an OR of 0.63 in favour of the presence of an intermediate care unit in the hospital|The null hypothesis was that hospital mortality of patients admitted to intensive care units with intermediate care unit in the hospital is similar to that of the patients admitted to intensive care units without intermediate care unit in the hospital||0.88|0.45|<0.05
92452285|NCT04122443|184791974|SUPERIORITY||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|0.3|1.9||||||||1.9|0.3|
92452286|NCT04122443|184791975|SUPERIORITY||Mean Difference (Final Values)|13.0|||||TWO_SIDED|95.0|-3.0|29.0||||||||29|-3|
92452287|NCT04122443|184791976|SUPERIORITY||Mean Difference (Final Values)|9.0|||||TWO_SIDED|95.0|-5.0|23.0||||||||23|-5|
92452288|NCT04122443|184791977|SUPERIORITY||Mean Difference (Final Values)|6.0|||||TWO_SIDED|95.0|-10.0|21.0||||||||21|-10|
92452289|NCT05204134|184791981|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
92452290|NCT05204134|184791982|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92452291|NCT05204134|184791983|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92452292|NCT05204134|184791984|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92452293|NCT05204134|184791985|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
92452294|NCT05204134|184791986|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92452295|NCT05204134|184791987|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452296|NCT05204134|184791988|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452297|NCT05204134|184791989|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452298|NCT05204134|184791990|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison between 2 week run-in and 13 weeks Control-IQ use with adaptation.||||<0.001
92452299|NCT05204134|184791991|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452300|NCT05204134|184791992|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452301|NCT05204134|184791993|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452302|NCT05204134|184791994|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452303|NCT05204134|184791995|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452304|NCT05204134|184791996|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452305|NCT05204134|184791997|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452306|NCT05204134|184791998|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452307|NCT05204134|184791999|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452308|NCT05204134|184792000|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
92452309|NCT05204134|184792001|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92173227|NCT03649659|184237497|SUPERIORITY||Odds Ratio (OR)|4.78|||<|0.0001|TWO_SIDED|99.9|2.84|8.05||Multiple imputation (25) of missing data, FCS methods. Group comparisons using GEE logistic model, exchangeable correlation, study site as covariate.|Regression, Logistic|||||8.05|2.84|<0.0001
92452310|NCT05204134|184792002|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
92452311|NCT01312467|184792011|SUPERIORITY_OR_OTHER||||||>|0.773|TWO_SIDED||||||A paired t-test|||||||> 0.773
92452312|NCT03283670|184792015|SUPERIORITY||Mean Difference (Net)|-0.75||||0.55|TWO_SIDED||||||t-test, 2 sided|||HAMD-21 at 2 Hours, placebo vs 25% nitrous oxide||||0.55
92452313|NCT03283670|184792015|SUPERIORITY||Mean Difference (Net)|-1.4||||0.47|TWO_SIDED||||||t-test, 2 sided|||Change in HAMD-21, 25% nitrous oxide vs placebo at 24 hours||||0.47
92452314|NCT03283670|184792015|SUPERIORITY||Median Difference (Net)|-0.87||||0.49|TWO_SIDED||||||t-test, 2 sided|||HAMD-21 at 2 Hours, placebo vs 50% nitrous oxide||||0.49
92452315|NCT03283670|184792015|SUPERIORITY||Mean Difference (Net)|-1.9||||0.34|TWO_SIDED||||||t-test, 2 sided|||Change in HAMD-21 at 24 hours, placebo vs 50% nitrous oxide||||0.34
92452316|NCT03283670|184792015|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.94|TWO_SIDED||||||t-test, 2 sided|||Change in HAMD-21 at 2 hours, 25% nitrous oxide vs 50% nitrous oxide||||0.94
92452317|NCT03283670|184792015|SUPERIORITY||Mean Difference (Net)|-0.5||||0.8|TWO_SIDED||||||t-test, 2 sided|||Change in HAMD-21 at 24 hours, 25% nitrous oxide vs 50% nitrous oxide||||0.80
92452318|NCT01968434|184792065|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||The sample size was calculated to detect a 0.75 point difference between any two treatment groups with a 90% power and p\<0.05. Such sample size was 60 subject which was elevated ot 75 subjects per group to account for drop outs. For comparison of cough evaluation before and after treatment a paired Student t test was used.||||<0.01
92452319|NCT01968434|184792066|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92452320|NCT01968434|184792067|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92452321|NCT02199691|184792068|NON_INFERIORITY|95% confidence interval (CI) of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|9.2|||||TWO_SIDED|95.0|3.4|15.0||||||Serogroup A||15|3.4|
92452322|NCT02199691|184792068|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|24.6|||||TWO_SIDED|95.0|20.3|29.0||||||Serogroup C||29|20.3|
92452323|NCT02199691|184792068|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|16.2|||||TWO_SIDED|95.0|12.3|20.2||||||||20.2|12.3|
92452324|NCT02199691|184792068|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|19.6|||||TWO_SIDED|95.0|14.2|24.8||||||Serogroup W||24.8|14.2|
92452325|NCT02199691|184792069|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|5.0|||||TWO_SIDED|95.0|-0.8|10.5||||||Serogroup A||10.5|-0.8|
92452326|NCT02199691|184792069|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.5|2.4||||||Serogroup C||2.4|-2.5|
92452327|NCT02199691|184792069|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|-1.4|||||TWO_SIDED|95.0|-4.3|1.2||||||Serogroup Y||1.2|-4.3|
92452328|NCT02199691|184792069|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|-2.3|||||TWO_SIDED|95.0|-7.3|2.6||||||Serogroup W||2.6|-7.3|
92452329|NCT02199691|184792070|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio was \>2/3.|Geometric Mean Ratio|0.845|||||TWO_SIDED|95.0|0.722|0.99||||||PT: Geometric Mean Ratio||0.99|0.722|
92452330|NCT02199691|184792070|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio was \>2/3.|Geometric Mean Ratio|0.746|||||TWO_SIDED|95.0|0.661|0.842||||||FHA: Geometric Mean Ratio||0.842|0.661|
92452331|NCT02199691|184792070|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio was \>2/3.|Geometric Mean Ratio|0.753|||||TWO_SIDED|95.0|0.627|0.903||||||PRN: Geometric Mean Ratio||0.903|0.627|
92452332|NCT02199691|184792070|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio was \>2/3.|Geometric Mean Ratio|0.679|||||TWO_SIDED|95.0|0.525|0.878||||||FIM: Geometric Mean Ratio||0.878|0.525|
92452333|NCT02199691|184792071|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|-1.1|||||TWO_SIDED|95.0|-3.3|1.3||||||Serogroup Diphtheria||1.3|-3.3|
92452334|NCT02199691|184792071|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|0.1|||||TWO_SIDED|95.0|-1.2|1.9||||||Serogroup Tetanus||1.9|-1.2|
92173228|NCT03649659|184237498|SUPERIORITY||Odds Ratio (OR)|5.84|||<|0.0001|TWO_SIDED|99.9|3.59|9.51||Multiple imputation (25) of missing data, FCS methods. Group comparisons using GEE logistic model, exchangeable correlation, study site as covariate.|Regression, Logistic|||||9.51|3.59|<0.0001
92452335|NCT02199691|184792072|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|1.8|||||TWO_SIDED|95.0|-1.8|6.3||||||HPV Type 6||6.3|-1.8|
92452336|NCT02199691|184792072|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|0.8|||||TWO_SIDED|95.0|-1.3|3.9||||||HPV Type 11||3.9|-1.3|
92452337|NCT02199691|184792072|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|0.4|||||TWO_SIDED|95.0|-1.9|3.6||||||HPV Type 16||3.6|-1.9|
92452338|NCT02199691|184792072|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|0.4|||||TWO_SIDED|95.0|-1.9|3.6||||||HPV Type 18||3.6|-1.9|
92452339|NCT00612313|184792090|SUPERIORITY_OR_OTHER||Difference in percentages|9.7||||0.02|TWO_SIDED|||||The estimated rate of time spent well was evaluated using a Poisson regression with adjustment for CDRS-R score at the end of the acute phase, age group, and gender.|Regression, Poisson||Differencein percentages represents estimated percentage for medication management + CBT Arm minus estimated percentage for medication management only Arm.|||||.02
92452340|NCT00791765|184792110|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||van Elteren's test|Stratified by baseline body mass index group||||||<0.0001
92452341|NCT00791765|184792111|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified by baseline body mass index group||||||<0.0001
92452342|NCT00791765|184792112|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||2-sided pairwise van Elteren's test|Stratified by baseline body mass index group||Comparison of week 24 outcome to week 12 outcome (see Outcome Measure 1)||||<0.0001
92452343|NCT00791765|184792113|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Two-sided test with modified ridit scores stratified by baseline body mass index group||||||<0.0001
92452344|NCT04295564|184792114|SUPERIORITY||Mean Difference (Final Values)|82.1|||<|0.05|TWO_SIDED|95.0|8.3|155.9||This is a calculate p value|Mixed Models Analysis|adjusted for the correlation between twin pairs and gestational age at birth (stratification variable), sex, and length at outpatient testing||||155.9|8.3|<0.05
92452345|NCT04295564|184792115|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.02|TWO_SIDED|95.0|0.1|1.1||This is a calculated p value|Mixed Models Analysis|Adjusted for correlation between twin pairs and gestational age at birth (stratification variable), sex, and length at outpatient test.||||1.1|0.1|<0.02
92452346|NCT04295564|184792116|SUPERIORITY||Mean Difference (Final Values)|62.7|||<|0.05|TWO_SIDED|95.0|4.5|121.0||This is a calculated p value|Mixed Models Analysis|P-value adjusted for correlation between twin pairs and gestational age at birth (stratification variable), sex, and length at outpatient testing.||||121|4.5|<0.05
92452347|NCT04295564|184792117|SUPERIORITY||Odds Ratio (OR)|0.59|||>|0.05|TWO_SIDED|95.0|0.27|1.31||This is a calculated p value|Regression, Logistic|||||1.31|0.27|>0.05
92452348|NCT04295564|184792117|SUPERIORITY||Odds Ratio (OR)|0.59|||>|0.05|TWO_SIDED|95.0|0.27|1.31|||Regression, Logistic|Adjusted for gestational age at birth (stratification variable)||||1.31|0.27|>0.05
92452349|NCT04537923|184792119|NON_INFERIORITY|0.3% noninferiority margin.|LS Mean Difference|-1.1|||<|0.001|TWO_SIDED|95.0|-1.24|-0.97|||Mixed Models Analysis|||||-0.97|-1.24|<0.001
92173229|NCT03649659|184237499|SUPERIORITY||Odds Ratio (OR)|0.95||||0.8942|TWO_SIDED|99.9|0.25|3.54||Multiple imputation (25) of missing data, FCS methods. Group comparisons using GEE logistic model, exchangeable correlation, study site as covariate.|Regression, Logistic|||||3.54|0.25|0.8942
92173230|NCT05908344|184237524|OTHER|Effect size determination|Cohen's d|-0.24|||||TWO_SIDED|||||||||Comparison for NREM1 minutes. Group Selection refers to study device Condition (Active/Sham); repeated-measures design||||
92173231|NCT05908344|184237524|OTHER|Effect size determination|Cohen's d|-0.15|||||TWO_SIDED|||||||||Comparison for NREM2 minutes. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
92173232|NCT05908344|184237524|OTHER|Effect size determination|Cohen's d|0.69|||||TWO_SIDED|||||||||Comparison for NREM3 minutes. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
92173233|NCT05908344|184237524|OTHER|Effect size determination|Cohen's d|-0.82|||||TWO_SIDED|||||||||Comparison for REM minutes. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
92452350|NCT04537923|184792120|NON_INFERIORITY|0.3% noninferiority margin.|LS Mean Difference|-0.89|||<|0.001|TWO_SIDED|95.0|-1.08|-0.7|||Mixed Models Analysis|||||-0.70|-1.08|<0.001
92452351|NCT04537923|184792120|NON_INFERIORITY|0.3% noninferiority margin.|LS Mean Difference|-1.11|||<|0.001|TWO_SIDED|95.0|-1.3|-0.92|||Mixed Models Analysis|||||-0.92|-1.30|<0.001
92452352|NCT04537923|184792120|NON_INFERIORITY|0.3% noninferiority margin.|LS Mean Difference|-1.3|||<|0.001|TWO_SIDED|95.0|-1.49|-1.11|||Mixed Models Analysis|||||-1.11|-1.49|<0.001
92452353|NCT04537923|184792121|SUPERIORITY||Odds Ratio (OR)|3.13|||<|0.0001|TWO_SIDED|95.0|2.25|4.36|||Regression, Logistic|||||4.36|2.25|<0.0001
92452354|NCT04537923|184792121|SUPERIORITY||Odds Ratio (OR)|6.16|||<|0.0001|TWO_SIDED|95.0|4.27|8.88|||Regression, Logistic|||||8.88|4.27|<0.0001
92452355|NCT04537923|184792121|SUPERIORITY||Odds Ratio (OR)|7.94|||<|0.0001|TWO_SIDED|95.0|5.37|11.75|||Regression, Logistic|||||11.75|5.37|<0.0001
92452356|NCT04537923|184792122|SUPERIORITY||LS Mean Difference|-10.7|||<|0.001|TWO_SIDED|95.0|-11.5|-9.9|||Mixed Models Analysis|||||-9.9|-11.5|<0.001
92452357|NCT04537923|184792122|SUPERIORITY||LS Mean Difference|-13.7|||<|0.001|TWO_SIDED|95.0|-14.5|-12.9|||Mixed Models Analysis|||||-12.9|-14.5|<0.001
92452358|NCT04537923|184792122|SUPERIORITY||LS Mean Difference|-15.9|||<|0.001|TWO_SIDED|95.0|-16.7|-15.0|||Mixed Models Analysis|||||-15.0|-16.7|<0.001
92452359|NCT04537923|184792123|SUPERIORITY||LS Mean Difference|-23.2|||<|0.001|TWO_SIDED|95.0|-30.8|-15.7|||Mixed Models Analysis|||||-15.7|-30.8|<0.001
92452360|NCT04537923|184792123|SUPERIORITY||LS Mean Difference|-33.0|||<|0.001|TWO_SIDED|95.0|-40.6|-25.4|||Mixed Models Analysis|||||-25.4|-40.6|<0.001
92452361|NCT04537923|184792123|SUPERIORITY||LS Mean Difference|-31.6|||<|0.001|TWO_SIDED|95.0|-39.3|-23.8|||Mixed Models Analysis|||||-23.8|-39.3|<0.001
92452362|NCT04537923|184792124|SUPERIORITY||LS Mean Difference|-0.9||||0.682|TWO_SIDED|95.0|-5.0|3.3|||Mixed Models Analysis|||||3.3|-5.0|0.682
92452363|NCT04537923|184792124|SUPERIORITY||LS Mean Difference|-5.6||||0.01|TWO_SIDED|95.0|-9.9|-1.4|||Mixed Models Analysis|||||-1.4|-9.9|0.010
92452364|NCT04537923|184792124|SUPERIORITY||LS Mean Difference|-11.8|||<|0.001|TWO_SIDED|95.0|-16.0|-7.5|||Mixed Models Analysis|||||-7.5|-16.0|<0.001
92452365|NCT04537923|184792125|SUPERIORITY||Odds Ratio (OR)|8.19|||<|0.001|TWO_SIDED|95.0|5.66|11.83|||Regression, Logistic|||||11.83|5.66|<0.001
92452366|NCT04537923|184792125|SUPERIORITY||Odds Ratio (OR)|16.9|||<|0.001|TWO_SIDED|95.0|11.44|24.96|||Regression, Logistic|||||24.96|11.44|<0.001
92452367|NCT04537923|184792125|SUPERIORITY||Odds Ratio (OR)|21.85|||<|0.001|TWO_SIDED|95.0|14.49|32.93|||Regression, Logistic|||||32.93|14.49|<0.001
92452368|NCT04537923|184792126|SUPERIORITY||Odds Ratio (OR)|28.25|||<|0.001|TWO_SIDED|95.0|18.36|43.46|||Regression, Logistic|||||43.46|18.36|<0.001
92452369|NCT04537923|184792126|SUPERIORITY||Odds Ratio (OR)|58.9|||<|0.001|TWO_SIDED|95.0|36.76|94.39|||Regression, Logistic|||||94.39|36.76|<0.001
92452370|NCT04537923|184792126|SUPERIORITY||Odds Ratio (OR)|77.76|||<|0.001|TWO_SIDED|95.0|47.49|127.33|||Regression, Logistic|||||127.33|47.49|<0.001
92452371|NCT04537923|184792127|SUPERIORITY||LS Mean Difference|1.5||||0.005|TWO_SIDED|95.0|0.5|2.6|||ANCOVA|||||2.6|0.5|0.005
92452372|NCT04537923|184792127|SUPERIORITY||LS Mean Difference|2.3|||<|0.001|TWO_SIDED|95.0|1.2|3.3|||ANCOVA|||||3.3|1.2|<0.001
92452373|NCT04537923|184792127|SUPERIORITY||LS Mean Difference|2.2|||<|0.001|TWO_SIDED|95.0|1.2|3.3|||ANCOVA|||||3.3|1.2|<0.001
92452374|NCT04537923|184792128|SUPERIORITY||LS Mean Difference|1.6||||0.02|TWO_SIDED|95.0|0.3|2.9|||ANCOVA|||||2.9|0.3|0.020
92452375|NCT04537923|184792128|SUPERIORITY||LS Mean Difference|2.8|||<|0.001|TWO_SIDED|95.0|1.5|4.2|||ANCOVA|||||4.2|1.5|<0.001
92452376|NCT04537923|184792128|SUPERIORITY||LS Mean Difference|2.1||||0.004|TWO_SIDED|95.0|0.7|3.5|||ANCOVA|||||3.5|0.7|0.004
92452377|NCT01261611|184792129|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANCOVA|An ANCOVA on the change from baseline, baseline TWSTRS Total score, baseline BTX status and pooled centre as explanatory variables was performed.||A pre-specified analysis of the LS mean difference between the Dysport NG and Placebo arms was performed. A total of 210 subjects were included in the analysis.||||<0.0001
92452378|NCT01261611|184792129|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANCOVA|An ANCOVA on the change from baseline, baseline TWSTRS Total score, baseline BTX status and pooled centre as explanatory variables was performed.||A pre-specified analysis of the LS mean difference between the Dysport and Placebo arms was performed. A total of 213 subjects were included in the analysis.||||<0.0001
92452379|NCT01261611|184792129|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An ANCOVA on the change from baseline with treatment, baseline TWSTRS Total score, BTX status at baseline and pooled centre as explanatory variables had been performed. The non-inferiority margin was 3 points.|LS mean difference|1.532|||||TWO_SIDED|95.0|-0.819|3.883||||||A pre-specified analysis of the LS mean difference between the Dysport NG and Dysport arms was performed. A total of 315 subjects were included in the analysis.||3.883|-0.819|
92452380|NCT03521635|184792231|OTHER||Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|1.68||0.688|TWO_SIDED|95.0|-2.7|4.0|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release|Mean changes from baseline of PDSS-2 score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||4.0|-2.7|0.688
92452381|NCT03521635|184792232|OTHER||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.51||0.69|TWO_SIDED|95.0|-1.2|0.8|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of NHQ score by patients were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||0.8|-1.2|0.690
92452382|NCT03521635|184792232|OTHER||Adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.91||0.376|TWO_SIDED|95.0|-2.7|1.1|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of NHQ score by caregivers were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||1.1|-2.7|0.376
92452383|NCT03521635|184792233|OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.66||0.333|TWO_SIDED|95.0|-1.9|0.7|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of SCOPA-Sleep night-time sleep score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||0.7|-1.9|0.333
92452384|NCT03521635|184792233|OTHER||Adjusted mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.29||0.374|TWO_SIDED|95.0|-0.8|0.3|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of SCOPA-Sleep overall night sleep score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||0.3|-0.8|0.374
92452385|NCT03521635|184792233|OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.49||0.352|TWO_SIDED|95.0|-1.4|0.5|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of SCOPA-Sleep daytime sleepiness score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||0.5|-1.4|0.352
92452386|NCT03521635|184792234|OTHER||Adjusted mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.259|TWO_SIDED|95.0|-0.8|0.2|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of EMO sore were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||0.2|-0.8|0.259
92452387|NCT03521635|184792235|OTHER||Odds Ratio (OR)|0.96||||0.9373|TWO_SIDED|95.0|0.36|2.54|||Regression, Logistic||The odds ratio (OR) between Pramipexole Sustained Release and Pramipexole Immediate Release groups.|Logistic regression analyses for responder rate at week 18 of PDSS-2 score \<18 were performed with treatment and baseline as the independent variables.||2.54|0.36|0.9373
92452388|NCT03521635|184792236|OTHER||Odds Ratio (OR)|2.24||||0.1611|TWO_SIDED|95.0|0.73|7.49|||Regression, Logistic||The odds ratio (OR) between Pramipexole Sustained Release and Pramipexole Immediate Release groups.|Logistic regression analyses for responder rate at week 18 of EMO score were performed with treatment and baseline as the independent variables.||7.49|0.73|0.1611
92452389|NCT03521635|184792237|OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.87||0.517|TWO_SIDED|95.0|-2.3|1.2|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of PDQ-8 score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||1.2|-2.3|0.517
92452390|NCT03521635|184792238|OTHER||Odds Ratio (OR)|3.44||||0.2374|TWO_SIDED|95.0|0.57|36.85|||Regression, Logistic||The odds ratio (OR) between Pramipexole Sustained Release and Pramipexole Immediate Release groups.|Logistic regression analyses for responder rate at week 18 of CGI-I were performed with treatment as the independent variable.||36.85|0.57|0.2374
92452391|NCT03521635|184792239|OTHER||Odds Ratio (OR)|3.44||||0.2374|TWO_SIDED|95.0|0.57|36.85|||Regression, Logistic||The odds ratio (OR) between Pramipexole Sustained Release and Pramipexole Immediate Release groups.|Logistic regression analyses for responder rate at week 18 of PGI-I were performed with treatment as the independent variable.||36.85|0.57|0.2374
92452392|NCT03521635|184792240|OTHER||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.79||0.82|TWO_SIDED|95.0|-1.4|1.7|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of ESS score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||1.7|-1.4|0.820
92452393|NCT00492349|184792259|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||ANCOVA|||Mixed model ANCOVA in which baseline served as the covariate and Smoking status and measurement occasions were between and within-groups factors, respectively.||||<0.05
92452394|NCT00492349|184792260|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||||||All treatment main and interaction effect p-values were \> 0.05.|ANCOVA|||Mixed model ANCOVA in which baseline CPT Detectability served as the covariate and Smoking status and measurement occasions were between and within-groups factors, respectively.||||>0.05
92452395|NCT00492349|184792261|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||ANCOVA|||Mixed model ANCOVA in which baseline Antisaccade Errors served as the covariate and Smoking status and measurement occasions were between and within-groups factors, respectively.||||<0.05
92452396|NCT01138124|184792275|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.04|||<|0.0001|TWO_SIDED|95.0|1.51|2.75|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||2.75|1.51|<0.0001
92452397|NCT01138124|184792275|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.82||||0.0001|TWO_SIDED|95.0|1.34|2.46|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.46|1.34|0.0001
92241421|NCT00681538|184386031|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|-2.53||||0.0046|TWO_SIDED|95.0|-4.27|-0.79|||ANCOVA||A negative difference indicates an improvement in spasm frequency in favour of Sativex.|||-0.79|-4.27|0.0046
92241422|NCT00681538|184386032|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.25|-0.51|||ANCOVA||A negative difference indicates an improvement in sleep disruption in favour of Sativex.|||-0.51|-1.25|<0.0001
92452398|NCT01138124|184792275|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.52||||0.0627|TWO_SIDED|95.0|0.98|2.36|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||2.36|0.98|0.0627
92452399|NCT01138124|184792275|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.33||||0.2183|TWO_SIDED|95.0|0.85|2.08|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.08|0.85|0.2183
92452400|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.82|||<|0.0001|TWO_SIDED|95.0|1.86|4.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.28|1.86|<0.0001
92452401|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.53|||<|0.0001|TWO_SIDED|95.0|1.66|3.85|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy"|||3.85|1.66|<0.0001
92452402|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.75||||0.001|TWO_SIDED|95.0|1.51|5.03|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||5.03|1.51|0.001
92452403|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.44||||0.0042|TWO_SIDED|95.0|1.32|4.49|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||4.49|1.32|0.0042
92241423|NCT00681538|184386033|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-1.75||||0.0939|TWO_SIDED|95.0|-3.8|0.3|||ANCOVA||A negative difference indicates an improvement in spasticity in favour of Sativex.|||0.30|-3.80|0.0939
92452404|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.8||||0.0645|TWO_SIDED|95.0|0.97|3.36|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.36|0.97|0.0645
92452405|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.65||||0.1232|TWO_SIDED|95.0|0.87|3.11|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||3.11|0.87|0.1232
92452406|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.55||||0.316|TWO_SIDED|95.0|0.17|1.78|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.78|0.17|0.3160
92452407|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.48||||0.2234|TWO_SIDED|95.0|0.15|1.57|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||1.57|0.15|0.2234
92452408|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.35||||0.3071|TWO_SIDED|95.0|0.76|2.42|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.42|0.76|0.3071
92452409|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.17||||0.6062|TWO_SIDED|95.0|0.65|2.11|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.11|0.65|0.6062
92452410|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.31||||0.5205|TWO_SIDED|95.0|0.58|2.97|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.97|0.58|0.5205
92452411|NCT01138124|184792276|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.11||||0.8042|TWO_SIDED|95.0|0.48|2.57|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.57|0.48|0.8042
92452412|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|3.15|||<|0.0001|TWO_SIDED|95.0|2.04|4.86|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.86|2.04|<0.0001
92452413|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.88|||<|0.0001|TWO_SIDED|95.0|1.85|4.46|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||4.46|1.85|<0.0001
92452414|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.75||||0.0015|TWO_SIDED|95.0|1.47|5.13|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||5.13|1.47|0.0015
92452415|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.45||||0.0053|TWO_SIDED|95.0|1.31|4.62|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||4.62|1.31|0.0053
92452416|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.68||||0.0777|TWO_SIDED|95.0|0.94|2.99|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.99|0.94|0.0777
92452417|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.5||||0.1762|TWO_SIDED|95.0|0.83|2.69|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.69|0.83|0.1762
92452418|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.82||||0.699|TWO_SIDED|95.0|0.29|2.28|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.28|0.29|0.6990
92452419|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.72||||0.5274|TWO_SIDED|95.0|0.26|2.01|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.01|0.26|0.5274
92452420|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.34||||0.3245|TWO_SIDED|95.0|0.75|2.39|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.39|0.75|0.3245
92452421|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.15||||0.6388|TWO_SIDED|95.0|0.64|2.07|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.07|0.64|0.6388
92452422|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.11||||0.796|TWO_SIDED|95.0|0.49|2.51|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.51|0.49|0.796
92452423|NCT01138124|184792277|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.94||||0.8772|TWO_SIDED|95.0|0.41|2.15|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.15|0.41|0.8772
92452424|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.9|||<|0.0001|TWO_SIDED|95.0|1.88|4.47|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.47|1.88|<0.0001
92452425|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.65|||<|0.0001|TWO_SIDED|95.0|1.71|4.11|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||4.11|1.71|<0.0001
92452426|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.19||||0.0212|TWO_SIDED|95.0|1.12|4.25|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||4.25|1.12|0.0212
92452427|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.95||||0.0522|TWO_SIDED|95.0|0.99|3.81|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||3.81|0.99|0.0522
92452428|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.87||||0.0337|TWO_SIDED|95.0|1.05|3.32|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.32|1.05|0.0337
92452429|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.64||||0.0947|TWO_SIDED|95.0|0.92|2.95|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.95|0.92|0.0947
92452430|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.42||||0.3928|TWO_SIDED|95.0|0.64|3.16|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||3.16|0.64|0.3928
92452431|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.21||||0.6502|TWO_SIDED|95.0|0.54|2.72|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.72|0.54|0.6502
92452432|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.34||||0.3275|TWO_SIDED|95.0|0.75|2.39|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.39|0.75|0.3275
92452433|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.15||||0.6365|TWO_SIDED|95.0|0.64|2.08|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.08|0.64|0.6365
92452434|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.01||||0.9858|TWO_SIDED|95.0|0.42|2.41|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.41|0.42|0.9858
92452435|NCT01138124|184792278|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.87||||0.7671|TWO_SIDED|95.0|0.36|2.12|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.12|0.36|0.7671
92452436|NCT01138124|184792279|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.79||||0.0031|TWO_SIDED|95.0|1.22|2.63|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||2.63|1.22|0.0031
92452437|NCT01138124|184792279|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.68||||0.0095|TWO_SIDED|95.0|1.13|2.49|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.49|1.13|0.0095
92452438|NCT01138124|184792279|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.65||||0.097|TWO_SIDED|95.0|0.91|2.99|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||2.99|0.91|0.0970
92452439|NCT01138124|184792279|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.63||||0.1123|TWO_SIDED|95.0|0.89|2.97|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.97|0.89|0.1123
92452440|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.53||||0.0012|TWO_SIDED|95.0|1.44|4.44|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)"|||4.44|1.44|0.0012
92452441|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.34||||0.0034|TWO_SIDED|95.0|1.32|4.14|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.14|1.32|0.0034
92452442|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.18||||0.0856|TWO_SIDED|95.0|0.9|5.32|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||5.32|0.9|0.0856
92452443|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.14||||0.0996|TWO_SIDED|95.0|0.87|5.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||5.28|0.87|0.0996
92173234|NCT05908344|184237525|OTHER|Effect size determination|Cohen's d|-0.04|||||TWO_SIDED|||||||||Comparison for NREM1 percentage. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
92452444|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.89||||0.0563|TWO_SIDED|95.0|0.98|3.63|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.63|0.98|0.0563
92452445|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.77||||0.0896|TWO_SIDED|95.0|0.92|3.43|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||3.43|0.92|0.0896
92452446|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.4||||0.5308|TWO_SIDED|95.0|0.49|4.01|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||4.01|0.49|0.5308
92452447|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.39||||0.5458|TWO_SIDED|95.0|0.48|4.02|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.02|0.48|0.5458
92452448|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.87||||0.7744|TWO_SIDED|95.0|0.35|2.19|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.19|0.35|0.7744
92452449|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.83||||0.6999|TWO_SIDED|95.0|0.33|2.11|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.11|0.33|0.6999
92452450|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.32||||0.6528|TWO_SIDED|95.0|0.39|4.47|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||4.47|0.39|0.6528
92452451|NCT01138124|184792280|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.3||||0.6722|TWO_SIDED|95.0|0.38|4.47|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.47|0.38|0.6722
92452452|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|3.24|||<|0.0001|TWO_SIDED|95.0|1.79|5.85|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||5.85|1.79|<0.0001
92452453|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.9||||0.0005|TWO_SIDED|95.0|1.59|5.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||5.28|1.59|0.0005
92452454|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.54||||0.042|TWO_SIDED|95.0|1.03|6.25|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||6.25|1.03|0.042
92452455|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.4||||0.0603|TWO_SIDED|95.0|0.96|5.98|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||5.98|0.96|0.0603
92452456|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.35||||0.3762|TWO_SIDED|95.0|0.69|2.65|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.65|0.69|0.3762
92452457|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.33||||0.4073|TWO_SIDED|95.0|0.68|2.63|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.63|0.68|0.4073
92452458|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.95||||0.9294|TWO_SIDED|95.0|0.29|3.12|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||3.12|0.29|0.9294
92452459|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.99||||0.9875|TWO_SIDED|95.0|0.3|3.29|||Wilcoxon (Mann-Whitney)||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||3.29|0.3|0.9875
92452460|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.19||||0.66|TWO_SIDED|95.0|0.54|2.63|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.63|0.54|0.66
92173235|NCT05908344|184237525|OTHER|Effect size determination|Cohen's d|0.24|||||TWO_SIDED|||||||||Comparison for NREM2 percentage. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
92452461|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||0.811|TWO_SIDED|95.0|0.5|2.45|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.45|0.5|0.8110
92452462|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.7||||0.3336|TWO_SIDED|95.0|0.58|4.96|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||4.96|0.58|0.3336
92452463|NCT01138124|184792281|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.63||||0.3782|TWO_SIDED|95.0|0.55|4.84|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.84|0.55|0.3782
92452464|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.89||||0.0841|TWO_SIDED|95.0|0.92|3.88|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||3.88|0.92|0.0841
92452465|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.75||||0.1313|TWO_SIDED|95.0|0.85|3.63|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||3.63|0.85|0.1313
92452466|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.03||||0.1488|TWO_SIDED|95.0|0.78|5.34|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||5.34|0.78|0.1488
92281002|NCT00266409|184465027|SUPERIORITY_OR_OTHER|||||||0.5533||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.5533
92173236|NCT05908344|184237525|OTHER|Effect size determination|Cohen's d|0.8|||||TWO_SIDED|||||||||Comparison for NREM3 percentage. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
92452467|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.05||||0.1495|TWO_SIDED|95.0|0.77|5.46|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||5.46|0.77|0.1495
92452468|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.44||||0.0013|TWO_SIDED|95.0|1.42|4.22|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||4.22|1.42|0.0013
92452469|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.34||||0.0026|TWO_SIDED|95.0|1.35|4.07|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.07|1.35|0.0026
92452470|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.78||||0.2421|TWO_SIDED|95.0|0.68|4.69|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||4.69|0.68|0.2421
92452471|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.7||||0.2899|TWO_SIDED|95.0|0.64|4.53|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.53|0.64|0.2899
92452472|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.99||||0.9723|TWO_SIDED|95.0|0.42|2.29|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.29|0.42|0.9723
92452473|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.91||||0.8206|TWO_SIDED|95.0|0.39|2.13|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.13|0.39|0.8206
92452474|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.15||||0.8135|TWO_SIDED|95.0|0.35|3.82|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||3.82|0.35|0.8135
92452475|NCT01138124|184792282|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.15||||0.8173|TWO_SIDED|95.0|0.34|3.86|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||3.86|0.34|0.8173
92452476|NCT00987467|184792283|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92452477|NCT00262834|184792295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum tests were used to compare the differences (post-pre) between groups.||||||0.42
92452478|NCT00262834|184792296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum tests were used to compare the differences (post-pre) between groups.||||||0.50
92452479|NCT00262834|184792297|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
92173237|NCT05908344|184237525|OTHER|Effect size determination|Cohen's d|-0.78|||||TWO_SIDED|||||||||Comparison for REM percentage. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
92452480|NCT00377819|184792315|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.35%|Mean Difference (Final Values)|0.85|||<|0.0001||95.0|0.44|1.25|||Repeated Measures Model||Based on repeated measures model adjusting for treatment, length of prior alendronate stratification variable, visit, baseline value, machine type, treatment by visit interaction, and baseline value by machine type interaction|||1.25|0.44|<0.0001
92452481|NCT00377819|184792316|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.22%|Mean Difference (Final Values)|1.18|||<|0.0001||95.0|0.63|1.73|||Repeated Measures Model||Based on repeated measures model adjusting for treatment, length of prior alendronate stratification variable, visit, baseline value, machine type, treatment by visit interaction, and baseline value by machine type interaction|||1.73|0.63|<0.0001
92452482|NCT00377819|184792317|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Van Elteren Stratified Rank Test|||||||<0.0001
92452483|NCT01054820|184792329|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||Null hypothesis: no change from baseline. Study powered at 95 percent (%) to detect a mean change of at least 1.2 units, with assumed standard deviation of at most 3.2 units.||||<0.0001
92452484|NCT01054820|184792330|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|McNemar|||||||<0.0001
92452485|NCT01054820|184792331|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||||||<0.0001
92452486|NCT01054820|184792332|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||||||<0.0001
92452487|NCT01054820|184792333|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||||||<0.0001
92452488|NCT01054820|184792334|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||||||<0.0001
92452489|NCT01054820|184792337|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||||||<0.0001
92452490|NCT02239679|184792375|SUPERIORITY|||||||0.0166|||||||ANCOVA|||||||0.0166
92452491|NCT02239679|184792381|SUPERIORITY|||||||0.0102||||||no adjustments for multiple comparisons|Cochran-Mantel-Haenszel|stratified by site||||||0.0102
92452492|NCT02239679|184792381|SUPERIORITY|||||||0.0089||||||no adjustment for multiple comparisons|Cochran-Mantel-Haenszel|stratified by site||||||0.0089
92452493|NCT02239679|184792382|SUPERIORITY|||||||0.0004||||||no adjustments for multiple comparisons|Cochran-Mantel-Haenszel|stratified by site||||||0.0004
92452494|NCT02239679|184792382|SUPERIORITY||||||<|0.0001||||||no adjustment for multiple comparison|Cochran-Mantel-Haenszel|stratified by site||||||<0.0001
92173238|NCT05908344|184237526|OTHER|Effect size determination|Cohen's d|0.11|||||TWO_SIDED|||||||||Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
92173239|NCT04856163|184237585|SUPERIORITY|||||||0.08|||||||Regression, Logistic|||||||0.08
92452495|NCT00760929|184792449|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.4301||90.0|0.58|1.21|||Wald Test|||||1.21|0.58|0.4301
92452496|NCT00760929|184792449|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.0342||90.0|0.42|0.9|||Wald Test|||||0.90|0.42|0.0342
92452497|NCT02099838|184792453|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HbA1c between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||<0.0001
92452498|NCT02099838|184792453|SUPERIORITY_OR_OTHER|||||||0.065||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HbA1c between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.0650
92241424|NCT00681538|184386034|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-2.85||||0.56|TWO_SIDED|95.0|-12.75|7.04|||ANCOVA||A positive treatment difference indicates an improvement in favour of Sativex.|For Arm||7.04|-12.75|0.56
92452499|NCT02099838|184792453|SUPERIORITY_OR_OTHER|||||||0.0005||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HbA1c between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0005
92452500|NCT02099838|184792454|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of FPG between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||<0.0001
92452501|NCT02099838|184792454|SUPERIORITY_OR_OTHER|||||||0.0849||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of FPG between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.0849
92452502|NCT02099838|184792454|SUPERIORITY_OR_OTHER|||||||0.0005||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of FPG between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0005
92452503|NCT02099838|184792455|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2hPPG between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||<0.0001
92452504|NCT02099838|184792455|SUPERIORITY_OR_OTHER|||||||0.2428||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2hPPG between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.2428
92452505|NCT02099838|184792455|SUPERIORITY_OR_OTHER|||||||0.0003||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2hPPG between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0003
92452506|NCT02099838|184792456|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of fasting insulin between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||<0.0001
92452507|NCT02099838|184792456|SUPERIORITY_OR_OTHER|||||||0.7353||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of fasting insulin between before and after treatment in Placebo group.. The test was performed with a significance level of 0.05.||||0.7353
92452508|NCT02099838|184792456|SUPERIORITY_OR_OTHER|||||||0.0013||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of fasting insulin between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0013
92452509|NCT02099838|184792457|SUPERIORITY_OR_OTHER|||||||0.1147||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2-hour postprandial insulin between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.1147
92452510|NCT02099838|184792457|SUPERIORITY_OR_OTHER|||||||0.4006||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2-hour postprandial insulin between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.4006
92173240|NCT04856163|184237586|SUPERIORITY|||||||0.21|||||||discrete-time survival model|||||||0.21
92452511|NCT02099838|184792457|SUPERIORITY_OR_OTHER|||||||0.0614||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2-hour postprandial insulin between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0614
92452512|NCT02099838|184792458|SUPERIORITY_OR_OTHER|||||||0.3795||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TC between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.3795
92241425|NCT00681538|184386034|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|0.04||||0.98|TWO_SIDED|95.0|-2.56|2.64|||ANCOVA||A positive treatment difference indicates an improvement in favour of Sativex.|For leg||2.64|-2.56|0.98
92241426|NCT00681538|184386035|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|-3.34||||0.0687|TWO_SIDED|95.0|-6.95|0.26|||ANCOVA||A negative treatment difference indicates an improvement in favour of Sativex.|||0.26|-6.95|0.0687
92241427|NCT00681538|184386036|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.703||||0.0234|TWO_SIDED|95.0|1.075|2.698|||Regression, Logistic||An odds ratio \> 1 indicates an improvement in favour of Sativex.|||2.698|1.075|0.0234
92452513|NCT02099838|184792458|SUPERIORITY_OR_OTHER|||||||0.4236||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TC between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.4236
92452514|NCT02099838|184792458|SUPERIORITY_OR_OTHER|||||||1||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TC between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||1.0000
92452515|NCT02099838|184792459|SUPERIORITY_OR_OTHER|||||||0.3151||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TG between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.3151
92452516|NCT02099838|184792459|SUPERIORITY_OR_OTHER|||||||0.6963||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TG between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.6963
92452517|NCT02099838|184792459|SUPERIORITY_OR_OTHER|||||||0.3204||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TG between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.3204
92452518|NCT02099838|184792460|SUPERIORITY_OR_OTHER|||||||0.0038||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HDL between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.0038
92452519|NCT02099838|184792460|SUPERIORITY_OR_OTHER|||||||0.3812||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HDL between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.3812
92452520|NCT02099838|184792460|SUPERIORITY_OR_OTHER|||||||0.0108||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HDL between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0108
92452521|NCT02099838|184792461|SUPERIORITY_OR_OTHER|||||||0.5476||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of LDL between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.5476
92452522|NCT02099838|184792461|SUPERIORITY_OR_OTHER|||||||0.1248||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of LDL between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.1248
92452523|NCT02099838|184792461|SUPERIORITY_OR_OTHER|||||||0.362||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of LDL between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.3620
92452524|NCT02099838|184792462|SUPERIORITY_OR_OTHER|||||||0.5636||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of ALT between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.5636
92452525|NCT02099838|184792462|SUPERIORITY_OR_OTHER|||||||0.3681||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of ALT between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.3681
92452526|NCT02099838|184792462|SUPERIORITY_OR_OTHER|||||||0.2589||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of ALT between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.2589
92241428|NCT00681538|184386037|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.4||||0.0053|TWO_SIDED|95.0|1.297|4.443|||Regression, Logistic||An odds ratio \> 1 indicates an improvement in favour of Sativex.|||4.443|1.297|0.0053
92241429|NCT00681538|184386038|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.792||||0.0613|TWO_SIDED|95.0|0.973|3.301|||Regression, Logistic||An odds ratio \> 1 indicates an improvement in favour of Sativex.|||3.301|0.973|0.0613
92241430|NCT00681538|184386039|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.958||||0.0045|TWO_SIDED|95.0|1.232|3.112|||Regression, Logistic||An odds ratio \> 1 indicates an improvement in favour of Sativex.|||3.112|1.232|0.0045
92452527|NCT02099838|184792463|SUPERIORITY_OR_OTHER|||||||0.7972||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of AST between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.7972
92452528|NCT02099838|184792463|SUPERIORITY_OR_OTHER|||||||0.7801||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of AST between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.7801
92173241|NCT04856163|184237587|SUPERIORITY|||||||0.28|||||||Regression, Logistic|||||||0.28
92452529|NCT02099838|184792463|SUPERIORITY_OR_OTHER|||||||0.8744||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of AST between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.8744
92452530|NCT02099838|184792464|SUPERIORITY_OR_OTHER|||||||0.8034||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of DBil between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.8034
92452531|NCT02099838|184792464|SUPERIORITY_OR_OTHER|||||||0.7675||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TBil between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.7675
92452532|NCT02099838|184792464|SUPERIORITY_OR_OTHER|||||||0.6918||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TBil between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.6918
92452533|NCT02099838|184792465|SUPERIORITY_OR_OTHER|||||||0.0339||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of DBil between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.0339
92452534|NCT02099838|184792465|SUPERIORITY_OR_OTHER|||||||0.0997||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of DBil between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.0997
92173242|NCT04856163|184237588|SUPERIORITY|||||||0.05|||||||Regression, Linear|||||||0.05
92452535|NCT02099838|184792465|SUPERIORITY_OR_OTHER|||||||0.5015||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of DBil between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.5015
92452536|NCT01175382|184792469|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis of Covariance used to compare mean changes from baseline to 6 weeks among groups adjusting for baseline values and age. Last Observation Carried Forward was used for imputation of missing data.||||<.0001
92452537|NCT01175382|184792470|SUPERIORITY_OR_OTHER|||||||0.0013|||||||ANCOVA|||Analysis of Covariance to test for differences in mean change from 6 weeks to 12 weeks in voiding frequency controlling for age and 6 week frequency. Last Observation Carried Forward was used to impute missing data.||||.0013
92452538|NCT01175382|184792471|SUPERIORITY_OR_OTHER|||||||0.2933|||||||ANCOVA|||Analysis of Covariance testing whether mean change in 24-hour voiding frequency differed among the groups after adjusting for baseline voiding frequency and age. Last Observation Carried Forward was used to impute missing data.||||0.2933
92452539|NCT01175382|184792472|SUPERIORITY_OR_OTHER|||||||0.0051|||||||ANCOVA|||Analysis of Covariance used to test means changes among the groups adjusting for baseline values and age. Last Observation Carried Forward was used to impute missing data.||||0.0051
92452540|NCT01175382|184792473|SUPERIORITY_OR_OTHER|||||||0.1402|||||||ANCOVA|||Analysis of Covariance comparing mean change score among groups controlling for age and baseline score||||.1402
92452541|NCT01175382|184792474|SUPERIORITY_OR_OTHER|||||||0.0015|||||||ANCOVA|||Analysis of Covariance comparing mean change in Nocturia among groups adjusting for baseline values of nocturia and age. Last Observation Carried Forward was used to impute missing data.||||0.0015
92173243|NCT02515773|184237606|SUPERIORITY||Mean Difference (Net)|0.08|||<|0.001|TWO_SIDED|||||This is a calculated p-value less than 0.001|ANCOVA|||||||<0.001
92173244|NCT02515773|184237607|SUPERIORITY||Mean Difference (Net)|0.07||||0.044|TWO_SIDED||||||ANCOVA|||||||0.044
92173245|NCT02515773|184237608|SUPERIORITY||Mean Difference (Net)|0.08|||<|0.001|TWO_SIDED|||||This is a calculated p-value less than 0.001|ANCOVA|||||||<0.001
92173246|NCT02515773|184237609|SUPERIORITY||Mean Difference (Net)|0.09||||0.041|TWO_SIDED||||||ANCOVA|||||||0.041
92173247|NCT04072380|184237617|SUPERIORITY|||||||0.024||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Mixed model for repeated measures (MMRM)||||||0.024
92173248|NCT04072380|184237618|SUPERIORITY|||||||0.009||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Mixed model for repeated measures (MMRM)||||||0.009
92241431|NCT00681538|184386040|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.02||||0.2836|TWO_SIDED|95.0|-0.02|0.07|||ANCOVA||A positive difference indicates an improvement in favour of Sativex.|For Health State Index||0.07|-0.02|0.2836
92241432|NCT00681538|184386040|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.24||||0.5644|TWO_SIDED|95.0|-3.01|5.5|||ANCOVA||A positive difference indicates an improvement in favour of Sativex.|Health Status VAS||5.50|-3.01|0.5644
92452542|NCT01175382|184792475|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||Analysis of Covariance comparing mean change in Overactive Bladder Questionnaire from baseline to 6 weeks among groups after controlling for baseline value and age. Last Observation Carried Forward was used to impute missing data.||||<.0001
92452543|NCT01175382|184792476|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||"Analysis of Covariance comparing mean chance in IPSS from baseline to 6 weeks among groups controlling for baseline IPSS values and age.~Last Observation Carried Forward was used to impute missing data."||||<.0001
92452544|NCT01175382|184792477|SUPERIORITY_OR_OTHER|||||||0.0022|||||||Cochran-Mantel-Haenszel|||||||0.0022
92452545|NCT01175382|184792478|SUPERIORITY_OR_OTHER|||||||0.0222|||||||Cochran-Mantel-Haenszel|||||||.0222
92452546|NCT01175382|184792479|SUPERIORITY_OR_OTHER|||||||0.0217|||||||Cochran-Mantel-Haenszel|||||||.0217
92452547|NCT01175382|184792480|SUPERIORITY_OR_OTHER|||||||0.669|||||||ANCOVA|||Analysis of Covariance used to test whether mean changes in Urgency Score from 6 weeks to 12 weeks differed among groups after controlling for age and 6 week Urgency Score. Last Observation Carried Forward was used to impute missing values.||||0.6690
92452548|NCT01175382|184792481|SUPERIORITY_OR_OTHER|||||||0.0812|||||||ANCOVA|||Analysis of Covariance to test whether mean change in Incontinence Episodes from 6 weeks to 12 weeks differed among groups after controlling for age and frequency of incontinence episodes at 6 weeks. Last Observation Carried Forward was used to impute missing values.||||0.0812
92452549|NCT01175382|184792482|SUPERIORITY_OR_OTHER|||||||0.5578|||||||ANCOVA|||Analysis of Covariance used to test whether mean changes in nocturia from 6 weeks to 12 weeks differed among groups after controlling for age and 6 week nocturia frequency. Last Observation Carried Forward was used to impute missing values.||||0.5578
92452550|NCT01175382|184792483|SUPERIORITY_OR_OTHER|||||||0.0279|||||||ANCOVA|||Analysis of Covariance to test whether mean change in Overactive Bladder Questionnaire (OAB-q) from 6 to 12 weeks differed among groups after controlling for age and 6 week OAB-q score. Last Observation Carried Forward was used to impute missing values.||||0.0279
92452551|NCT01175382|184792484|SUPERIORITY_OR_OTHER|||||||0.2553|||||||ANCOVA|||Analysis of Covariance to test whether mean change in the International Prostate Symptom Scale (IPSS) from 6 to 12 weeks differed among groups||||0.2553
92452552|NCT01175382|184792485|SUPERIORITY_OR_OTHER|||||||0.3165|||||||Cochran-Mantel-Haenszel|||||||0.3165
92452553|NCT01175382|184792486|SUPERIORITY_OR_OTHER|||||||0.8153|||||||Cochran-Mantel-Haenszel|||||||0.8153
92452554|NCT01175382|184792487|SUPERIORITY_OR_OTHER|||||||0.5536|||||||Cochran-Mantel-Haenszel|||||||0.5536
92452555|NCT01175382|184792488|SUPERIORITY_OR_OTHER|||||||0.2035|||||||ANCOVA|||Analysis of Covariance testing whether mean change in Nocturia frequency differed among the groups after adjusting for baseline Nocturia frequency and age. Last Observation Carried Forward was used to impute missing data||||0.2035
92452556|NCT01175382|184792489|SUPERIORITY_OR_OTHER|||||||0.0549|||||||ANCOVA|||Analysis of Covariance testing whether mean change in Urgency Score differed among the groups after adjusting for Urgency Scoe and age. Last Observation Carried Forward was used to impute missing data||||.0549
92452557|NCT01175382|184792490|SUPERIORITY_OR_OTHER|||||||0.507|||||||ANCOVA|||Analysis of Covariance testing whether mean change in Incontinent Episodes differed among the groups after adjusting for baseline Incontinent episodes frequency and age. Last Observation Carried Forward was used to impute missing data||||0.5070
92452558|NCT01175382|184792491|SUPERIORITY_OR_OTHER|||||||0.0529|||||||ANCOVA|||Analysis of Covariance testing whether mean change in Overactive Bladder Questionnaire differed among the groups after adjusting for baseline Overactive Bladder Questionnaire Score and age. Last Observation Carried Forward was used to impute missing data||||.0529
92452559|NCT01175382|184792492|SUPERIORITY_OR_OTHER|||||||0.2384|||||||ANCOVA|||Analysis of Covariance to test whether mean change in International Prostate Symptom Score from Baseline to 12 weeks differed among groups after controlling for baseline International Prostate Symptom Score and age. Last Observation Carried Forward was used to impute missing values.||||0.2384
92452560|NCT04535037|184792497|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 2-sided 95% confidence interval (CI) of group GMC ratio (Infanrix Hexa over Vaxelis group) was above 0.5.|Adjusted GMC Ratio|0.917|||||TWO_SIDED|95.0|0.71|1.185||||The 95% CI for GMC ratio derived from an ANOVA model on log10 transformed concentration was used. GMC was adjusted for DTPA vaccination of the mother.||To demonstrate that the Haemophilus influenzae type b(Hib) response of Infanrix Hexa Group is non-inferior to the Vaxelis Group in terms of anti-PRP GMCs, 1 month post-booster vaccination.||1.185|0.710|
92452561|NCT04535037|184792498|NON_INFERIORITY|Non-inferiority was demonstrated if the non inferiority of anti-PRP GMC ratio was met and the LL of the 2 sided 95% CI on group difference in the percentage (Infanrix Hexa over Vaxelis group) was more than -10%.|Difference in Percentage|-6.3|||||TWO_SIDED|95.0|-14.1|1.49||||The 2 sided 95% CI of group difference in seroconversion rate (Inv\_group minus Com\_group) was computed based on Miettinen and Nurminen method.||To demonstrate that the Hib response in Infanrix Hexa group is non-inferior to Vaxelis Group in terms of percentage of subjects with anti-PRP antibody concentrations ≥ 5 µg/mL, 1 month post-booster vaccination.||1.49|-14.10|
92452562|NCT02031276|184792506|OTHER||difference in percentage of participants|12.6||||0.0955|TWO_SIDED|95.0|-2.2|27.5|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-tumor necrosis factor (anti-TNF) exposure.||27.5|-2.2|0.0955
92452563|NCT02031276|184792507|OTHER||difference in percentage of participants|13.4||||0.1151|TWO_SIDED|95.0|-3.3|30.1|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-TNF exposure.||30.1|-3.3|0.1151
92452564|NCT02031276|184792508|OTHER||difference in percentage of participants|12.0||||0.0057|TWO_SIDED|95.0|3.5|20.6|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-TNF exposure.||20.6|3.5|0.0057
92452565|NCT02031276|184792509|OTHER||difference in percentage of participants|18.7||||0.0104|TWO_SIDED|95.0|4.4|33.0|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-TNF exposure.||33.0|4.4|0.0104
92452566|NCT02031276|184792510|OTHER||difference in percentage of participants|2.4||||0.4977|TWO_SIDED|95.0|-4.5|9.2|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-TNF exposure.||9.2|-4.5|0.4977
92452567|NCT02031276|184792511|OTHER||difference in percentage of participants|7.4||||0.0107|TWO_SIDED|95.0|1.7|13.0|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-TNF exposure.||13.0|1.7|0.0107
92452568|NCT01614210|184792540|OTHER||percentage decrease in Ki67 after 7 days|||||0.0001|||||||t-test, 1 sided|||||||0.0001
92452569|NCT04321460|184792561|SUPERIORITY||Odds Ratio (OR)|4.564||||0.007|TWO_SIDED|95.0|1.66|16.039|||Wilcoxon (Mann-Whitney)|||||16.039|1.66|0.007
92452570|NCT04321460|184792562|SUPERIORITY||Odds Ratio (OR)|4.716||||0.002|TWO_SIDED|95.0|1.898|14.268|||Wilcoxon (Mann-Whitney)|||||14.268|1.898|0.002
92452571|NCT04495712|184792575|SUPERIORITY|||||||0.71|||||||Log Rank|||||||0.71
92452572|NCT04495712|184792576|SUPERIORITY|||||||0.07|||||||Log Rank|||||||0.07
92452573|NCT04495712|184792577|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||||||0.42
92452574|NCT03669081|184792581|OTHER|The null hypothesis for the test was no difference between groups.||||||0.006||||||The significance level for this test was 0.05.|Wilcoxon (Mann-Whitney)|We used an exact Wilcoxon rank sum test due to the skewed nature of the morphine equivalents data and the small sample sizes in each group.||||||0.006
92452575|NCT03669081|184792582|OTHER|The null hypothesis was no difference between groups.||||||0.029|||||||Exact Wilcoxon rank sum test|||||||0.029
92452576|NCT03669081|184792583|NON_INFERIORITY|We conducted a 1-sided non-inferiority test using an alpha level of 0.025, for a comparison of the fold change of creatinine levels (pre-operative creatinine/post-operative creatinine) in the Toradol group. Our minimum non-inferiority margin was 0.5, ie the post-operative creatinine level could only increase to at most two times the pre-operative creatinine level.|||||<|0.0001||||||This p-value was compared to a significance threshold of 0.025.|Wilcoxon (Mann-Whitney)|||The safety outcome was used to power our study.To achieve 90% power at a 2.5% significance level for testing that the post-surgery creatinine increase is at most two-fold (where 1.5 fold is expected), or alternatively for the pre-surgery creatinine group to be ≥0.5 times the post-surgery, we need 17 subjects in the toradol group. This calculation was based on a non-inferiority test (one sided t-test) using a coefficient of variation of 0.25 based on preliminary data.||||<0.0001
92452577|NCT03669081|184792584|OTHER|The null hypothesis was no difference between groups.||||||0.002|||||||t-test, 2 sided|||||||0.002
92452578|NCT03669081|184792585|OTHER|The null hypothesis was no difference between groups.|||||>|0.99|||||||Fisher Exact|||||||>0.99
92452579|NCT00706121|184792587|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.96||||0.96|TWO_SIDED|95.0|0.9|1.02|||Log binomial regression|||||1.02|0.9|0.96
92452580|NCT00706121|184792588|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.92||||0.32|TWO_SIDED|95.0|0.78|1.08|||Log binomial regression|||||1.08|0.78|0.32
92452581|NCT00706121|184792590|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.91||||0.24|TWO_SIDED|95.0|0.77|1.07|||Log binomial regression|||||1.07|0.77|0.24
92452582|NCT00706121|184792591|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.03||||0.38|TWO_SIDED|95.0|0.96|1.1|||Log binomial regression|||||1.10|0.96|0.38
92173249|NCT04072380|184237619|SUPERIORITY|||||||0.734||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Mixed model for repeated measures (MMRM)||||||0.734
92452583|NCT01308749|184792596|OTHER||||||||||||||||||No analyses were completed, this is descriptive only and is an absolute value (number of participants).|||
92452584|NCT01308749|184792600|EQUIVALENCE|Within group test of difference using t-scores adjusted by baseline score, no correction for multiple comparisons, nonparametric model||||||0.023|||||||t-test, 2 sided|||||||0.023
92452585|NCT01308749|184792602|EQUIVALENCE|t-test between groups||||||0.23|||||||t-test, 2 sided|no adjustment for multiple comparison. non parametric||||||0.23
92452586|NCT02223390|184792613|SUPERIORITY|A sample size of 60 was chosen as adequate to examine the feasibility and acceptability of a pilot randomized controlled trial (RCT) with two conditions.||||||0.08||||||A priori threshold for statistical significance was p\<.05. The p-value presented corresponds to the time by condition interaction parameter.|Mixed Models Analysis|To assess changes in PTSD symptoms over time by intervention condition, linear mixed models were fit using the PROC MIXED procedure in SAS.||Statistical analyses reported below is for PCL - Total at 3 months.||||0.08
92452587|NCT02223390|184792614|SUPERIORITY|A sample size of 60 was chosen as adequate to examine the feasibility and acceptability of a pilot RCT with two conditions.||||||0.05||||||A priori threshold was defined as p\<0.05.|Chi-squared|||||||0.05
92452588|NCT01666002|184792637|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92452589|NCT01666002|184792638|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92452590|NCT03108924|184792656|OTHER||GMR|0.77|||||TWO_SIDED|90.0|0.53|1.13||||Categorical Analysis|GMR = GM for ESRD HD / GM for ESRD Non-HD|||1.13|0.53|
92452591|NCT03108924|184792659|OTHER||GMR|2.98|||||TWO_SIDED|90.0|2.01|4.41||||Categorical Analysis|GMR = GM for Moderate RI / GM for Healthy Controls|||4.41|2.01|
92452592|NCT03108924|184792659|OTHER||GMR|4.43|||||TWO_SIDED|95.0|2.82|6.96||||Categorical Analysis|GMR = GM for Severe RI / GM for Healthy Controls|||6.96|2.82|
92452593|NCT03108924|184792659|OTHER||GMR|4.74|||||TWO_SIDED|90.0|2.95|7.59||||Categorical Analysis|GMR = GM for ESRD HD / GM for Healthy Controls|||7.59|2.95|
92452594|NCT03108924|184792661|OTHER||GMR|0.77|||||TWO_SIDED|90.0|0.54|1.08||||Categorical Analysis|GMR = GM for ESRD HD / GM for ESRD Non-HD|||1.08|0.54|
92452595|NCT03108924|184792664|OTHER||GMR|3.23|||||TWO_SIDED|90.0|2.01|5.2||||Categorical Analysis|GMR = GM for Moderate RI / GM for Healthy Controls|||5.20|2.01|
92173250|NCT04072380|184237620|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92173251|NCT04072380|184237621|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92241433|NCT00681538|184386041|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.06||||0.9369|TWO_SIDED|95.0|-1.62|1.49|||ANCOVA||A negative difference indicates an improvement in depression in favour of Sativex.|||1.49|-1.62|0.9369
92281003|NCT00266409|184465028|SUPERIORITY_OR_OTHER|||||||0.1705||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.1705
92452596|NCT03108924|184792664|OTHER||GMR|4.08|||||TWO_SIDED|90.0|2.49|6.7||||Categorical Analysis|GMR = GM for Severe RI / GM for Healthy Controls|||6.70|2.49|
92173252|NCT01552473|184237628|OTHER|This is a functional Magnetic Resonance Imaging analysis. We aimed to determine whether functional brain network connectivity was equivalent between the two intervention arms prior to the interventions beginning. This was computed in significant numbers of connections between the two groups.|pNBS|0.0001||||0.01|TWO_SIDED|||||This is a p-value that is used in Network Based Statistics analysis for resting-state functional brain network data.|Network Based Statistics analysis|This is a type of statistical analysis used to test for group differences among functional connectivity levels between two or more groups.|This analysis evaluated monotonic changes from time point 1 (pre-intervention) to time points 2 (immediate post-intervention) and 3 (12 weeks post-intervention) that may have occurred between the SMART and BHW groups.|A network-based statistics analysis was carried out to determine brain connectivity differences observed at time points two (initial post-intervention testing phase) and three (the final post-intervention phase) occurring three months post-intervention.||||0.01
92173253|NCT03526874|184237649|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||||||0.013
92173254|NCT03526874|184237650|SUPERIORITY|||||||0.031|||||||t-test, 2 sided|||||||0.031
92281004|NCT00266409|184465028|SUPERIORITY_OR_OTHER|||||||0.3196||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.3196
92452597|NCT03108924|184792664|OTHER||GMR|4.43|||||TWO_SIDED|90.0|2.65|7.39||||Categorical Analysis|GMR = GM for ESRD Non-HD / GM for Healthy Controls|||7.39|2.65|
92452598|NCT03108924|184792666|OTHER||GMR|0.73|||||TWO_SIDED|90.0|0.52|1.03||||Categorical Analysis|GMR = GM for ESRD HD / GM for ESRD Non-HD|||1.03|0.52|
92452599|NCT03108924|184792669|OTHER||GMR|2.09|||||TWO_SIDED|90.0|1.22|3.56||||Categorical Analysis|GMR = GM for Moderate RI / GM for Healthy Controls|||3.56|1.22|
92452600|NCT03108924|184792669|OTHER||GMR|1.89|||||TWO_SIDED|95.0|1.1|3.25||||Categorical Analysis|GMR = GM for Severe RI / GM for Healthy Controls|||3.25|1.10|
92452601|NCT03108924|184792669|OTHER||GMR|1.9|||||TWO_SIDED|90.0|1.13|3.19||||Categorical Analysis|GMR = GM for ESRD Non-HD / GM for Healthy Controls|||3.19|1.13|
92452602|NCT03108924|184792671|OTHER||GMR|1.3|||||TWO_SIDED|90.0|0.88|1.9||||Categorical Analysis|GMR = GM for ESRD / GM for ESRD Non-HD|||1.90|0.88|
92452603|NCT03108924|184792674|OTHER||GMR|0.34|||||TWO_SIDED|95.0|0.23|0.5||||Categorical Analysis|GMR = GM for Moderate RI / GM for Healthy Controls|||0.50|0.23|
92452604|NCT03108924|184792674|OTHER||GMR|0.23|||||TWO_SIDED|95.0|0.14|0.35||||Categorical Analysis|GMR = GM for Severe RI / GM for Healthy Controls|||0.35|0.14|
92173255|NCT03526874|184237651|SUPERIORITY|||||||0.0162|||||||ANOVA|Two-way Anova to test sex interaction with treatment effect. The study was not powered for subgroup analyses.||||||0.0162
92173256|NCT03526874|184237652|SUPERIORITY|||||||0.04||||||Two-way Anova to test sex interaction with treatment effect. The study was not powered for subgroup analyses.|ANOVA|||||||0.04
92452605|NCT03108924|184792674|OTHER||GMR|0.21|||||TWO_SIDED|95.0|0.13|0.34||||Categorical Analysis|GMR = GM for ESRD Non-HD / GM for Healthy Controls|||0.34|0.13|
92452606|NCT03108924|184792676|OTHER||GMR|0.31|||||TWO_SIDED|90.0|0.25|0.39||||Categorical Analysis|GMR = GM for Moderate RI / GM for Healthy Controls|||0.39|0.25|
92452607|NCT03108924|184792676|OTHER||GMR|0.1|||||TWO_SIDED|90.0|0.07|0.16||||Categorical Analysis|GMR = GM for Severe RI / GM for Healthy Controls|||0.16|0.07|
92452608|NCT00167544|184792689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4|||<|0.05|TWO_SIDED|95.0|-19.49|30.29|||ANCOVA|||The primary analysis of total brain tissue volume was performed using multiple linear regression controlling for postmenstrual age at MRI scan to adjust for differences in timing at MRI. The distributions of potentially important confounding variables at baseline were compared in the two groups using parametric and non-parametric tests as appropriate. All analyses were performed using STATA 11.0. Please see PubMed: 23140612.||30.29|-19.49|<0.05
92452609|NCT00754845|184792714|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.01|TWO_SIDED|95.0|0.48|0.91|||Log Rank|Stratified by the stratification factors at randomization||||0.91|0.48|0.01
92452610|NCT00754845|184792715|SUPERIORITY|||||||0.007|||||||Log Rank|||||||0.007
92452611|NCT00754845|184792716|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.83|TWO_SIDED|95.0|0.73|1.28|||Log Rank|||||1.28|0.73|0.83
92452612|NCT00754845|184792717|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
92452613|NCT03238001|184792724|NON_INFERIORITY|In order to show non-inferiority, a lower 90% confidence limit (CL) for the difference in kappa scores would need to be greater than or equal to -0.20. The 90% confidence interval was calculated based on 5000 bootstrapped differences in kappa scores.|Lower 90% CL for difference in Kappas|-0.12|||||TWO_SIDED|90.0|-0.12|0.05|||||90% CI for Kappa of DCTclock/MoCA - Kappa of MMSE/MoCA (estimated with bootstrap method using 5000 bootstraps).|A two-one-sided tests approach was taken, where, prior to analysis, it was determined that a delta (equivalence margin) of 0.20 would be considered a significant difference between the DCTclock/MoCA kappa and the MMSE/MoCA kappa. The reasoning behind this determination can be found in the study's statistical analysis plan.||0.05|-0.12|
92452614|NCT05003791|184792743|OTHER|This was a cross-sectional design|||||<|0.05|||||||Regression, Linear|||||||<0.05
92452615|NCT05003791|184792744|OTHER|This was a cross-sectional design|||||<|0.05|||||||Regression, Linear|||||||<0.05
92452616|NCT05003791|184792745|OTHER|This was a cross-sectional design|||||<|0.05|||||||Regression, Linear|||||||<0.05
92452617|NCT02207829|184792746|NON_INFERIORITY_OR_EQUIVALENCE|Alternate hypothesis: the difference between the trt means (umeclidinium minus tiotropium) would be \> -50 milliliters (mL). If the lower CI (2.5% 1-sided significance level) of the statistical test should fall above -50 mL, then umeclidinium may be deemed statistically non-inferior to tiotropium. If the lower CI (2.5% 1-sided significance) of the statistical testing exceeded 0 then, umeclidinium may be deemed statistically superior to tiotropium.|Mean Difference (Final Values)|0.059|||<|0.001|TWO_SIDED|95.0|0.029|0.088|||Mixed Models Analysis|||||0.088|0.029|<0.001
92173257|NCT03526874|184237653|SUPERIORITY|||||||0.0098|||||||ANOVA|Two-way Anova to test ethnicity interaction with treatment effect. The study was not powered for subgroup analyses.||||||0.0098
92173258|NCT03526874|184237654|SUPERIORITY|||||||0.02|||||||ANOVA|Two-way Anova to test ethnicity interaction with treatment effect. The study was not powered for subgroup analyses.||||||0.02
92173259|NCT03526874|184237655|SUPERIORITY|||||||0.01|||||||ANOVA|Two-way Anova to test race interaction with treatment effect. The study was not powered for subgroup analyses.||||||0.01
92173260|NCT03526874|184237656|SUPERIORITY|||||||0.0329|||||||ANOVA|Two-way Anova to test race interaction with treatment effect. The study was not powered for subgroup analyses.||||||0.0329
92173261|NCT03526874|184237657|SUPERIORITY|||||||0.294|||||||t-test, 2 sided|||||||0.294
92173262|NCT03526874|184237658|SUPERIORITY|||||||0.058|||||||t-test, 2 sided|||||||0.058
92173263|NCT03526874|184237659|SUPERIORITY|||||||0.182|||||||t-test, 2 sided|||||||0.182
92173264|NCT03526874|184237660|SUPERIORITY|||||||0.423|||||||Fisher Exact|||||||0.423
92173265|NCT03526874|184237661|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.030
92173266|NCT03526874|184237662|SUPERIORITY|||||||0.112|||||||Fisher Exact|||||||0.112
92173267|NCT03526874|184237663|SUPERIORITY|||||||0.052|||||||Fisher Exact|||||||0.052
92173268|NCT03526874|184237664|SUPERIORITY|||||||0.027|||||||Chi-squared|||||||0.027
92173269|NCT05493423|184237696|NON_INFERIORITY|The null hypothesis is that the difference between the rates of completed hemodialysis sessions for the test and control groups is less than or equal to the non-inferiority margin (indicating inferior success rate). Rejection of the null hypothesis indicates the data supports the alternative hypothesis that the difference between the rates of successfully completed HD sessions for the test and control groups is at least the non-inferiority margin (indicating non-inferior success rate).||||||0.008|||||||Farrington-Manning|non-inferiority margin = 0.08||||||.008
92173270|NCT05493423|184237696|EQUIVALENCE|non-inferiority margin = 0.08||||||0.002|||||||Equivalence Test with paired data|||||||.002
92173271|NCT05493423|184237697|SUPERIORITY|||||||0||||||The p-value was calculated, but was low enough to be rounded down to 0 by the statistical software.|t-test, 2 sided|||||||0
92173272|NCT05493423|184237698|SUPERIORITY|||||||0.84||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.84
92173273|NCT05493423|184237699|SUPERIORITY|||||||0.132|||||||t-test, 2 sided|||||||0.132
92173274|NCT05493423|184237700|SUPERIORITY|||||||0.84||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.84
92173275|NCT05493423|184237701|SUPERIORITY|||||||0.197||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.197
92173276|NCT05493423|184237702|SUPERIORITY|||||||0.424|||||||t-test, 2 sided|||||||0.424
92173277|NCT05493423|184237703|SUPERIORITY|||||||0||||||The p-value was calculated, but was low enough to be rounded down to 0 by the statistical software.|t-test, 2 sided|||||||0
92173278|NCT05493423|184237704|SUPERIORITY|||||||0||||||The p-value was calculated, but was low enough to be rounded down to as 0 by the statistical software.|t-test, 2 sided|||||||0
92173279|NCT05493423|184237705|SUPERIORITY|||||||0.57||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.57
92173280|NCT05493423|184237706|SUPERIORITY|||||||0||||||The p-value was calculated, but was low enough to be rounded down to 0 by the statistical software.|t-test, 2 sided|||||||0
92173281|NCT05493423|184237707|SUPERIORITY|||||||0.211|||||||t-test, 2 sided|||||||0.211
92173282|NCT05493423|184237708|SUPERIORITY|||||||0.804||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.804
92173283|NCT05493423|184237709|SUPERIORITY|||||||0.307||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.307
92173284|NCT05493423|184237710|SUPERIORITY|||||||0.315||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.315
92173285|NCT05862870|184237743|OTHER|Frequency count|exact count|20.0|STANDARD_DEVIATION|0.0||0.05|TWO_SIDED|0.0|20.0|20.0|||count|||Frequency count of patients retained in treatment.|Threshold for frequency count|20|20|.05
92173286|NCT05722704|184237793|SUPERIORITY||Median Difference (Net)|0.118|STANDARD_DEVIATION|0.05||0.986|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.986
92173287|NCT05722704|184237794|SUPERIORITY||Median Difference (Net)|0.016|STANDARD_DEVIATION|0.05|<|0.118|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||<0.118
92173288|NCT05722704|184237795|SUPERIORITY||Median Difference (Net)|95.0|STANDARD_DEVIATION|0.05||0.225|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.225
92173289|NCT05722704|184237796|SUPERIORITY||Median Difference (Net)|95.0|STANDARD_DEVIATION|0.05||0.424|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.424
92173290|NCT03498651|184237803|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_DEVIATION|0.03|||TWO_SIDED|95.0|1.04|1.16|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."||1.16|1.04|
92173291|NCT03498651|184237803|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_DEVIATION|0.16|||TWO_SIDED|95.0|-0.43|0.2|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.20|-0.43|
92182890|NCT02434328|184264728|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-9.9|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||3.5|-9.9|
92452618|NCT03285477|184792759|SUPERIORITY||||||<|0.0001||||||P-value threshold for statistical significance was 0.5%|Cochran-Mantel-Haenszel|||Statistical significance in the study for Day 57 complete clearance rate was analyzed using a Cochran-Mantel-Haenszel model controlling for treatment location (face or scalp) and treatment group (Placebo versus KX2-391 Ointment 1%).||||<0.0001
92452619|NCT03285477|184792760|SUPERIORITY||||||<|0.0001||||||P-value threshold for statistical significance was 0.5%|Cochran-Mantel-Haenszel|||Statistical significance in the study for Day 57 partial clearance rate was analyzed using a Cochran-Mantel-Haenszel model controlling for treatment location (face or scalp) and treatment group (Placebo versus KX2-391 Ointment 1%).||||<0.0001
92452620|NCT00560833|184792771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|||<|0.01|TWO_SIDED|95.0|-2.3|-0.4||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.4|-2.3|<0.01
92452621|NCT00560833|184792771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|||<|0.01|TWO_SIDED|95.0|-3.1|-1.2||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-1.2|-3.1|<0.01
92452622|NCT00560833|184792771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|||<|0.01|TWO_SIDED|95.0|-2.9|-1.0||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-1.0|-2.9|<0.01
92452623|NCT00560833|184792771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|||<|0.01|TWO_SIDED|95.0|-2.9|-1.0||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-1.0|-2.9|<0.01
92452624|NCT00560833|184792773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.06|TWO_SIDED|95.0|-2.0|0.0||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.0|-2.0|0.06
92452625|NCT00560833|184792773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|||<|0.01|TWO_SIDED|95.0|-3.0|-0.9||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.9|-3.0|<0.01
92452626|NCT00560833|184792773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|||<|0.01|TWO_SIDED|95.0|-2.9|-0.9||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.9|-2.9|<0.01
92182477|NCT03617835|184263829|OTHER|Relative bioavailability|Ratio of the geometric means (T2/R) [%]|139.95|||||TWO_SIDED|90.0|117.26|167.03|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.0.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||167.03|117.26|
92452627|NCT00560833|184792773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|||<|0.01|TWO_SIDED|95.0|-2.6|-0.5||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.5|-2.6|<0.01
92452628|NCT00560833|184792774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.62|TWO_SIDED|95.0|-0.09|0.03||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.03|-0.09|0.62
92452629|NCT00560833|184792774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.02|TWO_SIDED|95.0|-0.12|-0.01||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.01|-0.12|0.02
92452630|NCT00560833|184792774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.01|TWO_SIDED|95.0|-0.13|-0.01||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.01|-0.13|0.01
92452631|NCT00560833|184792774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.02|TWO_SIDED|95.0|-0.12|-0.01||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.01|-0.12|0.02
92452632|NCT00560833|184792775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||1|TWO_SIDED|95.0|-0.06|0.07||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.07|-0.06|1.0
92452633|NCT00560833|184792775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.72|TWO_SIDED|95.0|-0.09|0.04||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.04|-0.09|0.72
92452634|NCT00560833|184792775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.13|TWO_SIDED|95.0|-0.12|0.01||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.01|-0.12|0.13
92452635|NCT00560833|184792775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.15|TWO_SIDED|95.0|-0.12|0.01||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.01|-0.12|0.15
92452636|NCT01085318|184792776|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|864.1||||0.061|||||||Wilcoxon (Mann-Whitney)|||||||0.061
92452637|NCT01085318|184792777|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|644.99|||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92452638|NCT01808690|184792862|SUPERIORITY|||||||0.005||||||Threshold for statistical significance P=0.05|Regression, Linear|We also fitted multivariable models, which included sex, pubertal status, change in BMI, and baseline M/I.||Insulin function was defined as M/I (mg/kg/min)/(insulin). Power calculations were based on data from a small study in youth with poorly controlled T1DM, which reported a significant increase in M/I in the 11 participants treated with Metformin. On the basis of the effect size reported in that study, a sample size of 25 per group and an alpha of 0.05 provided us with 93% power to detect a difference of 1 SD in the primary outcome of M/I.||||0.005
92452639|NCT01808690|184792863|SUPERIORITY|||||||0.46||||||Threshold for statistical significance P=0.05|Regression, Linear|Adjusted for the baseline value of the variable, sex, age, change in VO2peak, change in insulin sensitivity, and treatment condition.||||||0.46
92452640|NCT01808690|184792864|SUPERIORITY|||||||0.04||||||Threshold for statistical significance P=0.05|Regression, Linear|We also fitted mutlivariable models, which included changed in SBP, change in BMI, and change in M/I.||||||0.04
92452641|NCT01808690|184792865|SUPERIORITY|||||||0.04||||||Threshold for significance P=0.05|Regression, Linear|We also fitted mutlivariable models, which included changed in systolic blood pressure, change in BMI, and change in M/I.||||||0.04
92452642|NCT01808690|184792866|SUPERIORITY|||||||0.01||||||Threshold for statistical significance P=0.05|Regression, Linear|Adjusted for the baseline value of BMI percentile, diabetes duration, and A1c.||||||0.01
92173292|NCT03498651|184237804|SUPERIORITY||Mean Difference (Net)|-0.63|STANDARD_DEVIATION|0.03|||TWO_SIDED|95.0|-0.69|-0.57|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."||-0.57|-0.69|
92173293|NCT03498651|184237804|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_DEVIATION|0.17|||TWO_SIDED|95.0|-0.26|0.39|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.39|-0.26|
92173294|NCT03498651|184237805|SUPERIORITY||Mean Difference (Net)|0.48|STANDARD_DEVIATION|0.03|||TWO_SIDED|95.0|0.42|0.54|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.||"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|0.54|0.42|
92173295|NCT03498651|184237805|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_DEVIATION|0.16|||TWO_SIDED|95.0|-0.23|0.39|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.39|-0.23|
92173296|NCT03498651|184237806|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_DEVIATION|0.02|||TWO_SIDED|95.0|-0.6|-0.51|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."||-0.51|-0.60|
92173297|NCT03498651|184237806|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_DEVIATION|0.13|||TWO_SIDED|95.0|-0.23|0.27|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.27|-0.23|
92452643|NCT01808690|184792867|SUPERIORITY|||||||0.03||||||Threshold for statistical significance P=0.05|Regression, Linear|We also fitted mutlivariable models, which included changed in SBP, change in BMI, and change in M/I.||||||0.03
92452644|NCT01808690|184792868|SUPERIORITY|||||||0.8||||||Threshold for significance P=0.05|Regression, Linear|We also fitted mutlivariable models, which included changed in systolic blood pressure, change in BMI, and change in M/I.||||||0.8
92173298|NCT03498651|184237807|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_DEVIATION|0.03|||TWO_SIDED|95.0|-0.46|-0.37|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."||-0.37|-0.46|
92173299|NCT03498651|184237807|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.14|||TWO_SIDED|95.0|-0.23|0.32|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.32|-0.23|
92241434|NCT00069095|184386042|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit of the 2-sided 97.5% confidence interval (CI) for the hazard ratio (HR) was less than the predefined limit of 1.23 (the non-inferiority margin). A stratified Cox model was used. In order to retain an experiment-wise two-sided type I error of 5%, the non-inferiority analysis for PFS used a two-sided significance level of 2.5%.|Hazard Ratio (HR)|1.05|||||TWO_SIDED|97.5|0.94|1.18||||||Equivalence of treatment arm A ('XELOX') to treatment arm B ('FOLFOX-4') was tested via the following hypotheses - H0: HRA/B \>/= 1.23 versus H1: HRA/B \< 1.23. HRA/B denotes the hazard of disease progression or death under treatment A ('XELOX') divided by the hazard of disease progression or death under treatment B ('FOLFOX-4').||1.18|0.94|
92241435|NCT00069095|184386043|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit of the 2-sided 97.5% confidence interval (CI) for the hazard ratio (HR) was less than the predefined limit of 1.23 (the non-inferiority margin). A stratified Cox model was used. In order to retain an experiment-wise two-sided type I error of 5%, the non-inferiority analysis for PFS used a two-sided significance level of 2.5%.|Hazard Ratio (HR)|1.22|||||TWO_SIDED|97.5|1.05|1.42||||||Equivalence of treatment arm A ('XELOX') to treatment arm B ('FOLFOX-4') was tested via the following hypotheses - H0: HRA/B \>/= 1.23 versus H1: HRA/B \< 1.23. HRA/B denotes the hazard of disease progression or death under treatment A ('XELOX') divided by the hazard of disease progression or death under treatment B ('FOLFOX-4').||1.42|1.05|
92173300|NCT03498651|184237808|SUPERIORITY||Mean Difference (Net)|-0.33|STANDARD_DEVIATION|0.03|||TWO_SIDED|95.0|-0.39|-0.27|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."||-0.27|-0.39|
92173301|NCT03498651|184237808|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_DEVIATION|0.16|||TWO_SIDED|95.0|-0.14|0.48|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.48|-0.14|
92241436|NCT00069095|184386044|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||<|0.0001|TWO_SIDED|97.5|0.58|0.83|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.83|0.58|<0.0001
92241437|NCT00069095|184386045|NON_INFERIORITY_OR_EQUIVALENCE|Fewer events were expected in the 'on-treatment analysis', thus leading to reduced power. No formal statistical testing was therefore applied.|Hazard Ratio (HR)|1.24|||||TWO_SIDED|97.5|1.07|1.44||||||HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV).||1.44|1.07|
92241438|NCT00069095|184386046|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|97.5|0.52|0.75|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.75|0.52|<0.0001
92173302|NCT04323137|184237820|SUPERIORITY|||||||0.0035|||||||Regression, Logistic|||"This analysis compared all groups that were informed they were high risk (High risk only, High risk based on medical records, High risk based on algorithm) to control patients who were not sent a message.~Null hypothesis: informing patients they are high risk for flu and flu-related complications does not increase flu vaccination rate; Alternative hypothesis: informing patients they are high risk for flu and flu-related complications increases flu vaccination rate"||||0.0035
92173303|NCT04323137|184237820|SUPERIORITY|||||||0.613||||||The p-value reported is uncorrected, but the Holm method was used to determine whether the p-value reached statistical significance.|Regression, Logistic|||Null hypothesis: the High risk only and High risk based on medical records messages are equally effective at promoting ﬂu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High risk only and High risk based on medical records. Separate regressions were run to assess pairwise differences between the high-risk arms (analyses 2, 3, and 4). The Holm method was used to test whether each comparison reached significance.||||.613
92173304|NCT04323137|184237820|SUPERIORITY|||||||0.889||||||The p-value reported is uncorrected, but the Holm method was used to determine whether the p-value reached statistical significance.|Regression, Logistic|||Null hypothesis: the High risk only and High risk based on algorithm messages are equally effective at promoting ﬂu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High risk only and High risk based on algorithm messages. Separate regressions were run to assess pairwise differences between the high-risk arms (analyses 2, 3, and 4). The Holm method was used to test whether each comparison reached significance.||||0.889
92173305|NCT04323137|184237820|SUPERIORITY|||||||0.714||||||The p-value reported is uncorrected, but the Holm method was used to determine whether the p-value reached statistical significance.|Regression, Logistic|||Null hypothesis: the High risk based on medical records and High risk based on algorithm messages are equally effective at promoting ﬂu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High risk based on medical records and High risk based on algorithm messages. Separate regressions were run to assess pairwise differences between the high-risk arms (analyses 2, 3, and 4). The Holm method was used to test whether each comparison reached significance.||||.714
92173306|NCT04323137|184237821|SUPERIORITY|||||||0.181||||||This p-value is from the same regression as the top 10% risk vs. top 3% risk contrast (analysis 2).|Regression, Logistic|||"This analysis tested whether vaccination differed in patients with the same risk level who were sent messages with a vague verbal (high risk) vs. specific numeric (top 10%) risk framing.~This analysis was limited to those informed they were high risk (High risk only, High risk based on medical records, High risk based on algorithm)."||||.181
92173307|NCT04323137|184237821|SUPERIORITY|||||||0.301||||||This p-value is from the same regression as the high risk vs. top 10% risk contrast (analysis 1).|Regression, Logistic|||"This analysis tested whether vaccination differed in patients with the same numeric risk phrasing are differentially affected due to different specific risk levels (3% vs. 10%).~This analysis was limited to those informed they were high risk (High risk only, High risk based on medical records, High risk based on algorithm)."||||.301
92173308|NCT05563246|184237838|SUPERIORITY||LS Mean Difference (Final Values)|-47.61|||<|0.001|TWO_SIDED|95.0|-57.68|-35.14|||Mixed Models Analysis|||||-35.14|-57.68|<.001
92173309|NCT05563246|184237838|SUPERIORITY||LS Mean Difference (Final Values)|-81.66|||<|0.001|TWO_SIDED|95.0|-84.62|-78.13|||Mixed Models Analysis|||||-78.13|-84.62|<.001
92173310|NCT05563246|184237838|SUPERIORITY||LS Mean Difference (Final Values)|-85.77|||<|0.001|TWO_SIDED|95.0|-88.03|-83.09|||Mixed Models Analysis|||||-83.09|-88.03|<.001
92173311|NCT05563246|184237839|SUPERIORITY||LS Mean Difference (Final Values)|-40.38|||<|0.001|TWO_SIDED|95.0|-50.45|-28.27|||Mixed Models Analysis|||||-28.27|-50.45|<.001
92173312|NCT05563246|184237839|SUPERIORITY||LS Mean Difference (Final Values)|-69.95|||<|0.001|TWO_SIDED|95.0|-74.23|-64.96|||Mixed Models Analysis|||||-64.96|-74.23|<.001
92173313|NCT05563246|184237839|SUPERIORITY||LS Mean Difference (Final Values)|-68.9|||<|0.001|TWO_SIDED|95.0|-73.27|-63.81|||Mixed Models Analysis|||||-63.81|-73.27|<.001
92173314|NCT05563246|184237840|SUPERIORITY||Risk Difference (RD)|58.15|||<|0.001|TWO_SIDED|95.0|40.3|75.99|||Regression, Logistic|||||75.99|40.30|<.001
92173315|NCT05563246|184237840|SUPERIORITY||Risk Difference (RD)|89.87|||<|0.001|TWO_SIDED|95.0|81.54|98.2|||Regression, Logistic|||||98.20|81.54|<.001
92173316|NCT05563246|184237840|SUPERIORITY||Risk Difference (RD)|90.71|||<|0.001|TWO_SIDED|95.0|82.8|98.62|||Regression, Logistic|||||98.62|82.80|<.001
92173317|NCT05563246|184237841|SUPERIORITY||Risk Difference (RD)|35.18|||<|0.001|TWO_SIDED|95.0|18.9|51.46|||Regression, Logistic|||||51.46|18.90|<.001
92173318|NCT05563246|184237841|SUPERIORITY||Risk Difference (RD)|78.18|||<|0.001|TWO_SIDED|95.0|67.7|88.65|||Regression, Logistic|||||88.65|67.70|<.001
92173319|NCT05563246|184237841|SUPERIORITY||Risk Difference (RD)|73.62|||<|0.001|TWO_SIDED|95.0|63.65|83.58|||Regression, Logistic|||||83.58|63.65|<.001
92241439|NCT00069095|184386047|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit of the 2-sided 97.5% confidence interval (CI) for the hazard ratio (HR) was less than the predefined limit of 1.23 (the non-inferiority margin). A stratified Cox model was used. In order to retain an experiment-wise two-sided type I error of 5%, the non-inferiority analysis for PFS used a two-sided significance level of 2.5%.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|97.5|0.92|1.15||||||Equivalence of treatment arm A ('XELOX') to treatment arm B ('FOLFOX-4') was tested via the following hypotheses - H0: HRA/B \>/= 1.23 versus H1: HRA/B \< 1.23. HRA/B denotes the hazard of disease progression or death under treatment A ('XELOX') divided by the hazard of disease progression or death under treatment B ('FOLFOX-4').||1.15|0.92|
92241440|NCT00069095|184386048|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0015|TWO_SIDED|97.5|0.72|0.95|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.95|0.72|0.0015
92241441|NCT00069095|184386049|NON_INFERIORITY_OR_EQUIVALENCE|This study was not powered for testing non-inferiority of XELOX vs FOLFOX-4 with respect to overall survival and no margin could be derived following the effect retention concept. The same margins used for the PFS analysis \[Non-inferiority was demonstrated if the upper limit of the 2-sided 97.5% confidence interval (CI) for the hazard ratio (HR) was less than the predefined limit of 1.23 (the non-inferiority margin)\] were therefore applied to OS as well.|Hazard Ratio (HR)|0.97|||||TWO_SIDED|97.5|0.84|1.14||||||HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV).||1.14|0.84|
92241442|NCT00069095|184386050|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.1921|TWO_SIDED|97.5|0.72|1.09|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented together with the 97.5% confidence interval.||1.09|0.72|0.1921
92241443|NCT00069095|184386051|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0023|TWO_SIDED|97.5|0.72|0.95|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.95|0.72|0.0023
92241444|NCT00069095|184386052|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was based on the two-sided 97.5% confidence interval for OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV). Non-inferiority of XELOX with/without bevacizumab to FOLFOX-4 with/without bevacizumab was concluded if the lower limit of this confidence interval is above 0.66.|Odds Ratio (OR)|0.89|||||TWO_SIDED|97.5|0.72|1.09||||||Non-inferiority of XELOX with/without bevacizumab to FOLFOX-4 with/without bevacizumab was tested by the pair of hypotheses - H0: OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV) \</= 0.66 versus H1: OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV) \> 0.66, where OR denotes Odds ratio.||1.09|0.72|
92241445|NCT00069095|184386053|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.3091|TWO_SIDED|97.5|0.71|1.14|||Chi-squared|||Superiority of adding bevacizumab to chemotherapy was tested as follows - H0: OR(FOLFOX-4+BV/XELOX+BV)/(FOLFOX-4+P/XELOX+P) \</= 1.0 versus H1: OR(FOLFOX-4+BV/XELOX+BV)/(FOLFOX-4+P/XELOX+P) \> 1.0. The test used a two-sided significance level of 2.5%.||1.14|0.71|0.3091
92241446|NCT00069095|184386054|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was based on the two-sided 97.5% confidence interval for OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV). Non-inferiority of XELOX with/without bevacizumab to FOLFOX-4 with/without bevacizumab shall be concluded if the lower limit of this confidence interval is above 0.66.|Odds Ratio (OR)|0.94|||||TWO_SIDED|97.5|0.76|1.16||||||Non-inferiority of XELOX with/without bevacizumab to FOLFOX-4 with/without bevacizumab was tested by the pair of hypotheses - H0: OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV) \</= 0.66 versus H1: OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV) \> 0.66||1.16|0.76|
92173320|NCT05563246|184237842|SUPERIORITY||LS Mean Difference (Final Values)|-8.94||||0.11|TWO_SIDED|95.0|-18.84|2.17|||Mixed Models Analysis|||||2.17|-18.84|0.110
92241447|NCT00069095|184386055|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.9887|TWO_SIDED|97.5|0.78|1.28|||Chi-squared|||Superiority of adding bevacizumab to chemotherapy was tested as follows - H0: OR(FOLFOX-4+BV/XELOX+BV)/(FOLFOX 4+P/XELOX+P) \</= 1.0 versus H1: OR(FOLFOX-4+BV/XELOX+BV)/(FOLFOX-4+P/XELOX+P) \> 1.0. The test used a two-sided significance level of 2.5%||1.28|0.78|0.9887
92241448|NCT00069095|184386056|NON_INFERIORITY_OR_EQUIVALENCE|No formal statistical testing was done.|Hazard Ratio (HR)|1.08|||||TWO_SIDED|97.5|0.97|1.2||||||General approach: HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV)||1.20|0.97|
92241449|NCT00069095|184386056|NON_INFERIORITY_OR_EQUIVALENCE|Fewer events were expected in analyses using the on-treatment approach than in the analyses using the general approach, thus leading to reduced power.Therefore, no formal statistical testing was performed.|Hazard Ratio (HR)|1.1|||||TWO_SIDED|97.5|0.98|1.23||||||On-treatment Approach: HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV).||1.23|0.98|
92241450|NCT00069095|184386057|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.003|TWO_SIDED|97.5|0.74|0.96|||Log Rank|||General approach: Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.96|0.74|0.0030
92241451|NCT00069095|184386057|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0004|TWO_SIDED|97.5|0.7|0.92|||Log Rank|||On treatment approach: Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.92|0.70|0.0004
92241452|NCT00069095|184386060|NON_INFERIORITY_OR_EQUIVALENCE|No formal statistical testing was performed for duration of overall response.|Hazard Ratio (HR)|1.02|||||TWO_SIDED|97.5|0.86|1.22||||||HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV)||1.22|0.86|
92173321|NCT05563246|184237842|SUPERIORITY||LS Mean Difference (Final Values)|-13.05||||0.004|TWO_SIDED|95.0|-20.92|-4.4|||Mixed Models Analysis|||||-4.40|-20.92|0.004
92452645|NCT02395120|184792877|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.05|TWO_SIDED|95.0|1.21|3.08||We addressed the issue of multiple testing, both multiple comparisons and multiple sites, using a gatekeeper approach. The use of 0.05 alpha level for each test maintained a 0.05 family-wise alpha level for the six tests (three at each site).|Regression, Logistic||||The primary outcome analysis utilized generalized estimating equations (GEE) with a logit link for the binary dental care receipt outcome. The GEE analysis was conducted using dental care receipt outcomes as restorative care alone (ICDAS codes ≥3), as well as combined preventive (i.e. sealants) and restorative care (ICDAS codes ≥1). Models were fit separately to the overall data (all sites combined), the combined EC and WA sites (based on our original plan of two predominantly low-income school districts), and the BD schools alone. Each model included, as covariates, indicator variables for intervention, site (except for the model with BD alone), child grade, and caregiver demographic variables (race, education, marital status). Corresponding estimated odds ratios and 95% Confidence Intervals were computed.|3.08|1.21|<0.05
92452646|NCT00674986|184792880|SUPERIORITY_OR_OTHER||Difference|0.28|STANDARD_ERROR_OF_MEAN|0.14||0.0416|TWO_SIDED|95.0|0.01|0.54|||Fisher Exact|||||0.54|0.01|0.0416
92173322|NCT05563246|184237842|SUPERIORITY||LS Mean Difference (Final Values)|-16.13|||<|0.001|TWO_SIDED|95.0|-23.69|-7.84|||Mixed Models Analysis|||||-7.84|-23.69|<.001
92173323|NCT05563246|184237843|SUPERIORITY||LS Mean Difference (Final Values)|35.27||||0.131|TWO_SIDED|95.0|-8.63|100.27|||Mixed Models Analysis|||||100.27|-8.63|0.131
92173324|NCT05563246|184237843|SUPERIORITY||LS Mean Difference (Final Values)|8.32||||0.627|TWO_SIDED|95.0|-21.62|49.7|||Mixed Models Analysis|||||49.70|-21.62|0.627
92173325|NCT05563246|184237843|SUPERIORITY||LS Mean Difference (Final Values)|-6.08||||0.701|TWO_SIDED|95.0|-31.89|29.51|||Mixed Models Analysis|||||29.51|-31.89|0.701
92241453|NCT00069095|184386061|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0307|TWO_SIDED|97.5|0.66|1.01|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||1.01|0.66|0.0307
92173326|NCT03332017|184237862|SUPERIORITY|||||||0.0017|||||||Cochran-Mantel-Haenszel|P-value was stratified by rituximab-refractory status, number of prior lines of therapy, and geographic region per interactive response technology.||||||0.0017
92241454|NCT00069095|184386062|NON_INFERIORITY_OR_EQUIVALENCE|No formal statistical testing was done.|Hazard Ratio (HR)|0.35|||||TWO_SIDED|97.5|0.09|1.39||||||HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV).||1.39|0.09|
92241455|NCT00069095|184386063|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.8207|TWO_SIDED|97.5|0.2|7.05|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||7.05|0.20|0.8207
92241456|NCT00818324|184386071|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 2|t-test, 2 sided|||||||<0.001
92452647|NCT00674986|184792881|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92452648|NCT00674986|184792882|SUPERIORITY_OR_OTHER|||||||0.2777||95.0|||||t-test, 2 sided|||||||0.2777
92452649|NCT00674986|184792883|SUPERIORITY_OR_OTHER|||||||0.116||95.0|||||t-test, 2 sided|||||||0.1160
92452650|NCT00674986|184792884|SUPERIORITY_OR_OTHER|||||||0.1146||95.0|||||t-test, 2 sided|||||||0.1146
92452651|NCT00674986|184792885|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||t-test, 2 sided|||||||0.0470
92452652|NCT00674986|184792886|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||t-test, 2 sided|||||||0.0003
92452653|NCT00377234|184792888|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Null hypothesis: Preference rate (including patients not expressing treatment preference and considering order treatments were received) for monthly ibandronate = 50%. Null hypothesis is rejected if P-value was below significance threshold of P \<0.05|Garts Test|||||||<0.0001
92452654|NCT00377234|184792888|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The reported p-values for the primary analysis test whether the overall preference rate for ibandronate equals 50%. Preference within each sequence is not tested.|Prescott Test|||||||<0.0001
92241457|NCT00818324|184386071|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 4.|t-test, 2 sided|||||||<0.001
92452655|NCT01997398|184792893|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Differences in baseline and 6-month postoperative scores were assessed using a series of repeated measures general linear models with a single within-subjects factor and no between-subjects factors.|Repeated measures general linear models|||||||<0.001
92452656|NCT01024569|184792909|SUPERIORITY||MIXREG Estimate|-1.16|STANDARD_ERROR_OF_MEAN|-2.21||0.027|TWO_SIDED||||||Mixed Effects Random Regression|||||||0.027
92452657|NCT01024569|184792910|SUPERIORITY||MIXREG Estimate|0.4|STANDARD_ERROR_OF_MEAN|2.37||0.02|TWO_SIDED||||||Mixed Effects Random Regression|||Mixed Effects Random Regression analysis was used to assess the effects of study condition on Hope outcomes.||||0.020
92241458|NCT00818324|184386071|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 28.|t-test, 2 sided|||||||<0.001
92452658|NCT01024569|184792911|SUPERIORITY||MIXREG Estimate|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.029|TWO_SIDED||||||Mixed Effects Random Regression|||||||0.029
92452659|NCT01024569|184792912|SUPERIORITY||MIXREG Estimate|1.06|STANDARD_ERROR_OF_MEAN|0.52||0.042|TWO_SIDED||||||Mixed Effects Random Regression|||||||0.042
92452660|NCT01024569|184792913|SUPERIORITY||MIXREG Estimate|0.39|STANDARD_ERROR_OF_MEAN|0.11||0.001|TWO_SIDED||||||Mixed Effects Random Regression|||||||.001
92452661|NCT00626522|184792925|SUPERIORITY_OR_OTHER||Least squares mean difference|0.206|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.131|0.28|||ANCOVA|||||0.280|0.131|<0.0001
92452662|NCT00626522|184792925|SUPERIORITY_OR_OTHER||Least squares mean difference|0.254|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.18|0.329|||ANCOVA|||||0.329|0.180|<0.0001
92452663|NCT00626522|184792925|SUPERIORITY_OR_OTHER||Least squares mean difference|0.265|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.191|0.34|||ANCOVA|||||0.340|0.191|<0.0001
92452664|NCT01928719|184792934|OTHER||Hazard Ratio (HR)|3.3|||<|0.0001|TWO_SIDED|95.0|1.95|5.58|||Regression, Cox||The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||5.58|1.95|<0.0001
92452665|NCT01928719|184792935|OTHER||Hazard Ratio (HR)|3.4|||<|0.0001|TWO_SIDED|95.0|1.99|5.81||Testing the effect of treatment group in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Age Group, Working Status, and BMI.|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|The reference group is Same Nicotine Content Group.||5.81|1.99|<0.0001
92452666|NCT01928719|184792935|OTHER||Hazard Ratio (HR)|0.51||||0.06|TWO_SIDED|95.0|0.26|1.03||Testing the effect of age group (ages 30-39) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and BMI.|The direction of comparison is Age group 30-39 to the Age group 18-29.|The reference group is Age equals 18-29.||1.03|0.26|0.06
92452667|NCT01928719|184792935|OTHER||Hazard Ratio (HR)|0.33|||<|0.002|TWO_SIDED|95.0|0.17|0.66||Testing the effect of age group (ages 40-49) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and BMI.|The direction of comparison is Age group 40-49 to the Age group 18-29.|The reference group is Age equals 18-29.||0.66|0.17|<0.002
92241459|NCT00818324|184386071|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 52.|t-test, 2 sided|||||||<0.001
92287199|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.056||||0.086|TWO_SIDED|95.0|-0.008|0.12|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.120|-0.008|0.086
92182891|NCT02434328|184264728|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-10.3|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.2|-10.3|
92182892|NCT02434328|184264728|OTHER||Difference in proportions|-1.9|||||TWO_SIDED|95.0|-8.7|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||4.7|-8.7|
92182893|NCT02434328|184264728|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-8.0|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||5.7|-8.0|
92182894|NCT02434328|184264728|OTHER||Difference in proportions|-2.8|||||TWO_SIDED|95.0|-9.8|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||4.3|-9.8|
92182895|NCT02434328|184264728|OTHER|Hypothesis testing not pre-specified.|Difference in proportions|-2.8|||||TWO_SIDED|95.0|-9.6|4.2|||Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||4.2|-9.6|
92452668|NCT01928719|184792935|OTHER||Hazard Ratio (HR)|0.33|||<|0.002|TWO_SIDED|95.0|0.16|0.65||Testing the effect of age group (Ages 50-59) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and BMI.|The direction of comparison is Age group 50-59 to Age group 18-29.|The reference group is Age equals 18-29.||0.65|0.16|<0.002
92452669|NCT01928719|184792935|OTHER||Hazard Ratio (HR)|0.39||||0.1|TWO_SIDED|95.0|0.13|1.18||Testing the effect of age group (Ages 60-65) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and BMI.|The direction of comparison is Age group 60-65 to the Age group 18-29.|The reference group is Age equals 18-29.||1.18|0.13|0.1
92452670|NCT01928719|184792935|OTHER||Hazard Ratio (HR)|1.6||||0.1|TWO_SIDED|95.0|0.92|2.66||Testing the effect of working status in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Age, and BMI.||The reference group is not currently working.|The direction of comparison is currently working to not currently working.|2.66|0.92|0.1
92452671|NCT01928719|184792935|OTHER||Hazard Ratio (HR)|0.25||||0.006|TWO_SIDED|95.0|0.1|0.67||Testing the effect of BMI Normal Weight group (\>=18.5 \& \<25) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and Age.|The direction of comparison is Normal Weight (\>=18.5 \& \<25) to Underweight (\<18.5) group.|The reference group is BMI Underweight (\<18.5)||0.67|0.1|0.006
92452672|NCT01928719|184792935|OTHER||Hazard Ratio (HR)|0.35||||0.034|TWO_SIDED|95.0|0.13|0.92||Testing the effect of BMI Overweight group (\>=25 \& \< 30) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and Age.|The direction of comparison is Overweight (\>=25 \& \< 30) to Underweight (\<18.5) group.|The reference group is BMI Underweight group (\<18.5)||0.92|0.13|0.034
92452673|NCT01928719|184792935|OTHER||Hazard Ratio (HR)|0.31||||0.011|TWO_SIDED|95.0|0.13|0.77||Testing the effect of BMI Obese group (\>=30) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and Age.|The direction of comparison is Obese (\>=30) to Underweight (\<18.5) group.|The reference group is BMI Underweight group (\<18.5)||0.77|0.13|0.011
92452674|NCT01928719|184792936|OTHER||Least Squares Mean Difference|-4.1||||0.0006|TWO_SIDED|95.0|-6.44|-1.75|||Mixed Models Analysis|The model included time, group, and time-by-group interaction; treating baseline scores for outcomes as covariates|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||-1.75|-6.44|0.0006
92452675|NCT01928719|184792937|OTHER||Least Squares Mean Difference|-136.7|||<|0.0001|TWO_SIDED|95.0|-171.7|-101.7|||Mixed Models Analysis|The model included time, group, and time-by-group interaction; treating baseline scores for outcomes as covariates|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||-101.7|-171.7|<.0001
92452676|NCT01928719|184792938|OTHER||Least Squares Mean Difference|-4.03||||0.0305|TWO_SIDED|95.0|-7.68|-0.38|||Mixed Models Analysis|The model included time, group, and time-by-group interaction; treating baseline scores for outcomes as covariates|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||-0.38|-7.68|0.0305
92241460|NCT00818324|184386072|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 2.|t-test, 2 sided|||||||<0.001
92452677|NCT01928719|184792939|OTHER||Least Squares Mean Difference|1.81||||0.0207|TWO_SIDED|95.0|0.28|3.33|||Mixed Models Analysis|The model included time, group, and time-by-group interaction; treating baseline scores for outcomes as covariates|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||3.33|0.28|0.0207
92241461|NCT00818324|184386072|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 4.|t-test, 2 sided|||||||<0.001
92241462|NCT00818324|184386072|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 28.|t-test, 2 sided|||||||<0.001
92452678|NCT01928719|184792940|OTHER||Least Squares Mean Difference|-0.16||||0.4191|TWO_SIDED|95.0|-0.56|0.23|||Mixed Models Analysis|The model included time, group, and time-by-group interaction; treating baseline scores for outcomes as covariates|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||0.23|-0.56|0.4191
92452679|NCT05732454|184792967|SUPERIORITY||Difference in percentage|-3.76|||=|0.558|TWO_SIDED|95.0|-16.36|8.83|||Cochran-Mantel-Haenszel|||Normal approximation adjusting for the stratification factor (disease severity as measured by baseline IGA score 3 \[moderate\], 4 \[severe\]) derived from clinical database via Cochran-Mantel-Haenszel (CMH) approach was used.||8.83|-16.36|=0.5580
92452680|NCT05732454|184792968|SUPERIORITY||Difference in percentage|9.07|||=|0.3685|TWO_SIDED|95.0|-10.7|28.85|||Cochran-Mantel-Haenszel|||Normal approximation adjusting for the stratification factor (disease severity as measured by baseline IGA score 3 \[moderate\], 4 \[severe\]) derived from clinical database via Cochran-Mantel-Haenszel (CMH) approach was used.||28.85|-10.70|=0.3685
92173327|NCT04005716|184237881|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.004|TWO_SIDED|95.0|0.61|0.93|||Log Rank|Stratified log rank test with ECOG performance status, and investigator chosen platinum as stratification factors.|The hazard ratio was estimated using a stratified Cox regression model with Efron's method for ties, stratified by ECOG performance status and investigator-selected platinum agents, with Arm B as the reference group.|The null hypothesis stated that the overall survival in Arm A (Tislelizumab + Chemotherapy) is less than or equal to that in Arm B (the placebo group), while the alternative hypothesis posits that the overall survival in Arm A is greater than that in Arm B.||0.93|0.61|0.0040
92173328|NCT04005716|184237882|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.52|0.78|||Log Rank|One-sided log-rank test p-value, stratified by ECOG performance status (1 vs 0) and type of platinum therapy (carboplatin vs cisplatin).|The hazard ratio was estimated using a stratified Cox regression model with Efron's method for ties, stratified by ECOG performance status and investigator-selected platinum agents, with Arm B as the reference group.|||0.78|0.52|<0.0001
92173329|NCT04005716|184237883|OTHER||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.9|1.96|||||Odds ratio was calculated using Cochran-Mantel-Haenszel estimates and stratified by ECOG performance (1 vs 0) and platinum (Carboplatin vs Cisplatin)|||1.96|0.90|
92173330|NCT04005716|184237890|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.642|1.33|||||Hazard ratio was based on unstratified Cox regression model including treatment as covariate.|Analyses of Time to Deterioration of EORTC QLQ-C30 Physical Functioning Score||1.330|0.642|
92287200|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.086||||0.011|TWO_SIDED|95.0|0.02|0.151|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.151|0.020|0.011
92452681|NCT05732454|184792969|SUPERIORITY||Difference in Mean|-29.22|||=|0.0303|TWO_SIDED|95.0|-55.53|-2.9|||Rubin's rule|||Jump-to-Control (JTC) method was used for evaluation. A complete imputed dataset was analyzed using analysis of covariance model including effects of treatment group, actual stratification factor, and baseline value. Multiple results of the treatment comparison were combined using Rubin's rules, reporting the combined treatment difference, its standard error, 95% CI and 2-sided p-value, across the visits.||-2.90|-55.53|=0.0303
92452682|NCT05912400|184793005|OTHER||||||<|0.01||||||Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Current (Numeric Pain Rating Scale for current pain).|Spearman's Rho|||||||<0.01
92452683|NCT05912400|184793005|OTHER|||||||0.02|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Best (Numeric Pain Rating Scale for best pain).||||||0.02
92452684|NCT05912400|184793005|OTHER|||||||0.03|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Worst (Numeric Pain Rating Scale for worst pain).||||||0.03
92452685|NCT05912400|184793005|OTHER|||||||0.88|||||||Spearman's Rho|Correlation: OCR (Oxygen Consumption Rate) and FACIT-F TOI (Functional Assessment of Chronic Illness Therapy - Fatigue, Trial Outcome Index)||||||0.88
92452686|NCT05912400|184793005|OTHER|||||||0.36|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and vitamin D levels.||||||0.36
92452687|NCT05912400|184793006|OTHER|||||||0.54|||||||Spearman's Rho|Spearman's rho used analyze correlation btwn ECAR (Extracellular Acidification Rate) and NRS-11 Current (Numeric Pain Rating Scale for current pain)||||||0.54
92452688|NCT05912400|184793006|OTHER|||||||0.36|||||||Spearman's Rho|Spearman's rho used to analyze correlation between ECAR (Extracellular Acidification Rate) and NRS-11 Best (Numeric Pain Rating Scale for best pain).||||||0.36
92452689|NCT05912400|184793006|OTHER|||||||0.94|||||||Spearman's Rho|Spearman's rho used to analyze correlation between ECAR (Extracellular Acidification Rate) \& NRS-11 Worst (Numeric Pain Rating Scale for worst pain).||||||0.94
92452690|NCT05912400|184793006|OTHER|||||||0.53|||||||Spearman's Rho|Correlation: ECAR (Extracellular Acidification Rate) \& FACIT-F TOI (Functional Assessment of Chronic Illness Therapy - Fatigue, Trial Outcome Index).||||||0.53
92452691|NCT05912400|184793006|OTHER|||||||0.51|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between ECAR (Extracellular Acidification Rate) and vitamin D levels.||||||0.51
92452692|NCT05912400|184793007|OTHER|||||||0.36|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and vitamin D levels.||||||0.36
92452693|NCT05912400|184793007|OTHER|||||||0.51|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between ECAR (Extracellular Acidification Rate) and vitamin D levels.||||||0.51
92452694|NCT05912400|184793008|OTHER||||||<|0.01|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Current (Numeric Pain Rating Scale for current pain).||||||<0.01
92452695|NCT05912400|184793008|OTHER|||||||0.54|||||||Spearman's Rho|Spearman's rho used analyze correlation between ECAR (Extracellular Acidification Rate) \& NRS-11 Current (Numeric Pain Rating Scale for current pain).||||||0.54
92452696|NCT05912400|184793009|OTHER|||||||0.02|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Best (Numeric Pain Rating Scale for best pain).||||||0.02
92452697|NCT05912400|184793009|OTHER|||||||0.36|||||||Spearman's Rho|Spearman's rho used to analyze correlation between ECAR (Extracellular Acidification Rate) and NRS-11 Best (Numeric Pain Rating Scale for best pain).||||||0.36
92452698|NCT05912400|184793010|OTHER|||||||0.03|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Worst (Numeric Pain Rating Scale for worst pain).||||||0.03
92452699|NCT05912400|184793010|OTHER|||||||0.94|||||||Spearman's Rho|Spearman's rho used to analyze correlation between ECAR (Extracellular Acidification Rate) \& NRS-11 Worst (Numeric Pain Rating Scale for worst pain).||||||0.94
92452700|NCT05912400|184793011|OTHER|||||||0.88|||||||Spearman's Rho|Correlation: OCR (Oxygen Consumption Rate) and FACIT-F TOI (Functional Assessment of Chronic Illness Therapy - Fatigue, Trial Outcome Index).||||||0.88
92452701|NCT05912400|184793011|OTHER|||||||0.53|||||||Spearman's Rho|Correlation: ECAR (Extracellular Acidification Rate) \& FACIT-F TOI (Functional Assessment of Chronic Illness Therapy - Fatigue, Trial Outcome Index).||||||0.53
92452702|NCT01262651|184793029|SUPERIORITY||Median Difference (Final Values)|3.41||||0.0854|TWO_SIDED|95.0|0.0|8.16|||Wilcoxon (Mann-Whitney)|||||8.16|0.00|0.0854
92452703|NCT03822533|184793042|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.69|TWO_SIDED|95.0|-0.059|0.089|||t-test, 2 sided|||Mean difference using independent samples t-test.||0.089|-0.059|0.69
92173331|NCT04005716|184237890|OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.473|1.123|||||Hazard ratio was based on unstratified Cox regression model including treatment as covariate.|Analyses of Time to Deterioration of EORTC QLQ-LC13 Coughing Score||1.123|0.473|
92173332|NCT04005716|184237890|OTHER||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.485|1.057|||||Hazard ratio was based on unstratified Cox regression model including treatment as covariate.|Analyses of Time to Deterioration of EORTC QLQ-LC13 Chest Pain Score||1.057|0.485|
92173333|NCT02243709|184237986|OTHER||||||>|0.05|||||||Chi-squared|||||||>.05
92173334|NCT03378570|184237989|OTHER|comparative effectiveness trial||||||0.945|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures.||||0.945
92452704|NCT03822533|184793042|SUPERIORITY||Mean Difference (Final Values)|-0.015|||||TWO_SIDED|95.0|-0.093|0.063||The linear regression analysis was needed to calculate the incremental cost efficiency ratio (ICER). The p-value from this test was not relevant for the ICER calculation.|Regression, Linear|First step in a cost-efficiency analysis||Presenting β-values from linear regression analysis for group variable adjusted for baseline differences in EQ-5D-3L-index. The results from this analysis were used to calculate incremental cost-effectiveness ratio (mean difference in costs divided by mean difference in QALYs).||0.063|-0.093|
92452705|NCT03822533|184793043|SUPERIORITY||Mean Difference (Final Values)|-364.0||||0.17|TWO_SIDED|95.0|-891.0|164.0|||t-test, 2 sided|||Independent-samples t-test. Dependent variable cost items, independent variable group (physiotherapist or physician assessment)||164|-891|0.17
92452706|NCT03822533|184793043|SUPERIORITY||Mean Difference (Final Values)|-364.0|||||TWO_SIDED|95.0|-870.0|143.0||The linear regression analysis was needed to calculate the incremental cost efficiency ratio (ICER). The p-value from this test was not relevant for the ICER calculation.|Regression, Linear|First step in a cost-efficiency analysis||||143|-870|
92452707|NCT03822533|184793044|SUPERIORITY||Mean Difference (Final Values)|-233.0||||0.23|TWO_SIDED|95.0|-616.0|150.0|||t-test, 2 sided|||Independent-samples t-test. Dependent variable cost items, independent variable group (physiotherapist or physician assessment)||150|-616|0.23
92452708|NCT03822533|184793044|SUPERIORITY||Mean Difference (Final Values)|-233.0|||||TWO_SIDED|95.0|-605.0|139.0||The linear regression analysis was needed to calculate the incremental cost efficiency ratio (ICER). The p-value from this test was not relevant for the ICER calculation.|Regression, Linear|First step in a cost-efficiency analysis.||Linear regression analysis. The results from this analysis were used to calculate incremental cost-effectiveness ratio (mean difference in costs divided by mean difference in QALYs).||139|-605|
92452709|NCT03822533|184793047|SUPERIORITY||Mean Difference (Final Values)|48.0||||0.72|TWO_SIDED|95.0|-219.0|314.0|||t-test, 2 sided|||||314|-219|0.72
92452710|NCT03822533|184793048|SUPERIORITY||Mean Difference (Final Values)|-178.0|||<|0.01|TWO_SIDED|95.0|-239.0|118.0|||t-test, 2 sided|||||118|-239|<0.01
92452711|NCT03822533|184793049|SUPERIORITY||Mean Difference (Final Values)|-24.0||||0.01|TWO_SIDED|95.0|-42.0|6.2|||t-test, 2 sided|||||6.2|-42|0.01
92452712|NCT03822533|184793050|SUPERIORITY||Mean Difference (Final Values)|-12.0||||0.62|TWO_SIDED|95.0|-59.0|36.0|||t-test, 2 sided|||||36|-59|0.62
92452713|NCT03822533|184793051|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.87|TWO_SIDED|95.0|-13.0|15.0|||t-test, 2 sided|||||15|-13|0.87
92173335|NCT03378570|184237990|OTHER|comparative effectiveness trial||||||0.828|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures.||||0.828
92173336|NCT03378570|184237991|OTHER|comparative effectiveness trial||||||0.252|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures.||||0.252
92173337|NCT03378570|184237992|OTHER|||||||0.505||||||p value for response rate|Chi-squared|||"The null hypothesis of this study was that there would be no differences between targets across all measures.~A power analysis revealed that a total sample size of 144 would have 80% power when testing for differences between target groups at alpha = 0.05. Accounting for potential attrition, the study conservatively planned to enroll 200 participants, with a planned interim analysis after 100 participants were randomized."||||0.505
92173338|NCT03378570|184237992|OTHER|||||||0.888||||||p value for remission rate|Chi-squared|||"The null hypothesis of this study was that there would be no differences between targets across all measures.~A power analysis revealed that a total sample size of 144 would have 80% power when testing for differences between target groups at alpha = 0.05. Accounting for potential attrition, the study conservatively planned to enroll 200 participants, with a planned interim analysis after 100 participants were randomized."||||0.888
92173339|NCT03378570|184237993|OTHER|||||||0.994|||||||Chi-squared|p value for response rates||"The null hypothesis of this study was that there would be no differences between targets across all measures.~A power analysis revealed that a total sample size of 144 would have 80% power when testing for differences between target groups at alpha = 0.05. Accounting for potential attrition, the study conservatively planned to enroll 200 participants, with a planned interim analysis after 100 participants were randomized."||||0.994
92241463|NCT00818324|184386072|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 52.|t-test, 2 sided|||||||<0.001
92241464|NCT02389816|184386096|SUPERIORITY||Least square (LS) mean difference|-2.66|STANDARD_ERROR_OF_MEAN|0.999||0.008|TWO_SIDED|95.0|-4.63|-0.7|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||||-0.70|-4.63|0.0080
92452714|NCT03822533|184793052|SUPERIORITY||Mean Difference (Final Values)|-254.0||||0.27|TWO_SIDED|95.0|-728.0|220.0|||t-test, 2 sided|||||220|-728|0.27
92452715|NCT03822533|184793053|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.96|TWO_SIDED|95.0|-113.0|118.0|||t-test, 2 sided|||||118|-113|0.96
92452716|NCT02019719|184793096|SUPERIORITY_OR_OTHER||E0 (g/dL)|-1.37|||||TWO_SIDED|95.0|-1.72|-1.03|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||-1.03|-1.72|
92452717|NCT02019719|184793096|SUPERIORITY_OR_OTHER||ED50 (mg)|21.88|||||TWO_SIDED|95.0|9.99|42.64|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||42.64|9.99|
92452718|NCT02019719|184793096|SUPERIORITY_OR_OTHER||Emax (g/dL)|5.88|||||TWO_SIDED|95.0|3.2|8.61|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||8.61|3.20|
92452719|NCT02019719|184793096|SUPERIORITY_OR_OTHER||Gamma|1.13|||||TWO_SIDED|95.0|0.7|1.68|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||1.68|0.70|
92452720|NCT02019719|184793096|SUPERIORITY_OR_OTHER||Var|0.66|||||TWO_SIDED|95.0|0.5|0.88|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||0.88|0.50|
92173340|NCT03378570|184237993|OTHER|||||||0.911|||||||Chi-squared|p value for remission rates||"The null hypothesis of this study was that there would be no differences between targets across all measures.~A power analysis revealed that a total sample size of 144 would have 80% power when testing for differences between target groups at alpha = 0.05. Accounting for potential attrition, the study conservatively planned to enroll 200 participants, with a planned interim analysis after 100 participants were randomized."||||0.911
92452721|NCT02019719|184793096|SUPERIORITY_OR_OTHER||MED (mg)|1.98|||||TWO_SIDED|95.0|0.75|3.41|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||3.41|0.75|
92452722|NCT02019719|184793096|SUPERIORITY_OR_OTHER||TD (mg)|3.9|||||TWO_SIDED|95.0|2.2|5.63|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||5.63|2.20|
92452723|NCT02019719|184793096|SUPERIORITY_OR_OTHER||MAD (mg)|8.65|||||TWO_SIDED|95.0|6.51|11.44|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||11.44|6.51|
92452724|NCT02417246|184793114|EQUIVALENCE|A paired t-test was used to compare mean values of AUC0-24 for brand name metoprolol ER and Generic B at the 50mg dose. With a sample size of 38, at an alpha level of 0.025 (0.05/2 comparisons), using a 2-sided paired t test, we would have \>80% power to detect a 16% difference in AUC.|Mean Difference (Final Values)|45.1|STANDARD_DEVIATION|222.2||0.3|TWO_SIDED|95.0|-41.1|131.2|||t-test, 2 sided|Average AUC from 0 to 24 hours (0-24) for patients on the 50mg dose of brand name metoprolol ER and Generic B were compared by a paired t-test (n=28)||||131.2|-41.1|0.3
92173341|NCT03378570|184237994|OTHER|||||||0.778|||||||t-test, 2 sided|||"The null hypothesis of this study was that there would be no differences between targets across all measures.~A power analysis revealed that a total sample size of 144 would have 80% power when testing for differences between target groups at alpha = 0.05. Accounting for potential attrition, the study conservatively planned to enroll 200 participants, with a planned interim analysis after 100 participants were randomized."||||0.778
92452725|NCT02417246|184793114|EQUIVALENCE|A bioequivalence (BE) test was performed for patients who were administered the 50mg dose. BE was declared if 90% confidence interval for the ratio of the population geometric means of the AUC0-24 for Generic B to brand name metoprolol ER falls within 0.8 to 1.25|Geometric mean ratio|0.85|||||TWO_SIDED|90.0|0.76|0.95||The analysis included a total of 20 patients on Generic B and brand name metoprolol ER, which is less than the initial plan of including 38 patients.||||||0.95|0.76|
92452726|NCT02417246|184793114|EQUIVALENCE|A paired t-test was used to compare mean values of AUC0-24 for brand name metoprolol ER and Generic A at the 50mg dose. With a sample size of 38, at an alpha level of 0.025 (0.05/2 comparisons), using a 2-sided paired t test, we would have \>80% power to detect a 16% difference in AUC.|Mean Difference (Final Values)|7.2|STANDARD_DEVIATION|176.5||0.8|TWO_SIDED|95.0|-60.0|74.3|||t-test, 2 sided|Average AUC0-24 for patients on the 50mg dose who were administered brand name metoprolol ER and Generic A were compared using a paired t-test (n=29)||||74.3|-60.0|0.8
92173342|NCT03378570|184237995|OTHER|comparative effectiveness trial||||||0.951|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures.||||.951
92173343|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.278|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Positive Affect.||||.278
92173344|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.024|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, General Life Satisfaction.||||.024
92173345|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.439|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Meaning \& Purpose.||||.439
92173346|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.025|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Emotional Support.||||.025
92173347|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.007|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Instrumental Support.||||.007
92173348|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.014|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Friendship.||||.014
92173349|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.398|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Loneliness.||||.398
92241465|NCT02389816|184386096|SUPERIORITY||LS mean difference|-3.07|STANDARD_ERROR_OF_MEAN|1.003||0.0023|TWO_SIDED|95.0|-5.05|-1.1|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||||-1.10|-5.05|0.0023
92452727|NCT02417246|184793114|EQUIVALENCE|A bioequivalence (BE) test was performed for patients who were administered the 50mg dose. BE was declared if the 90% confidence interval for the ratio of the population geometric means of the AUC0-24 for Generic A to brand name metoprolol ER fell within 0.8 to 1.25|Geometric mean ratio|0.93|||||TWO_SIDED|90.0|0.86|1.01||This analysis included 21 individuals who were administered brand name metoprolol ER and Generic A, which is less than the initial plan of including 38 patients.||||||1.01|0.86|
92452728|NCT02417246|184793115|EQUIVALENCE|A paired t-test was used to compare the mean values of Cmax for brand name metoprolol ER and Generic B at the 50mg dose. With a sample size of 38, at an alpha level of 0.025 (0.05/2 comparisons), using a 2-sided paired t-test, we would have \>80% power to detect a 11% difference in Cmax.|Mean Difference (Final Values)|2.6|STANDARD_DEVIATION|10.7||0.2|TWO_SIDED|95.0|-1.5|6.6|||t-test, 2 sided|Average Cmax for patients on the 50mg dose who were administered brand name metoprolol ER and Generic B were compared using a paired t-test (n=29)||||6.6|-1.5|0.2
92452729|NCT02417246|184793115|EQUIVALENCE|A bioequivalence (BE) test was performed for patients who were administered the 50mg dose. BE was declared if the 90% confidence interval for the ratio of the population geometric means of Cmax for Generic B to brand name metoprolol ER fell within 0.8 to 1.25|Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.79|0.95||The analysis included a total of 29 patients on Generic B and brand name metoprolol ER, which is less than the initial plan of including 38 patients||||||0.95|0.79|
92452730|NCT02417246|184793115|EQUIVALENCE|A paired t-test was used to compare the mean values of Cmax for brand name metoprolol ER and Generic A at the 50mg dose. With a sample size of 38, at an alpha level of 0.025 (0.05/2 comparisons), using a 2-sided paired t-test, we would have \>80% power to detect a 11% difference in Cmax.|Mean Difference (Final Values)|-2.5|STANDARD_DEVIATION|12.6||0.3|TWO_SIDED|95.0|-7.3|2.3|||t-test, 2 sided|Average Cmax for patients on the 50mg dose who were administered brand name metoprolol ER and Generic A were compared using a paired t-test (n=29)||||2.3|-7.3|0.3
92452731|NCT02417246|184793115|EQUIVALENCE|A bioequivalence (BE) test was performed for patients who were administered the 50mg dose. BE was declared if the 90% confidence interval for the ratio of the population geometric means of Cmax for Generic A to brand name metoprolol ER fell within 0.8 to 1.25|Geometric mean ratio|1.12|||||TWO_SIDED|90.0|1.02|1.23||The analysis included a total of 29 patients on Generic A and brand name metoprolol ER, which is less than a pre-planned sample size of 38.||||||1.23|1.02|
92452732|NCT02417246|184793116|EQUIVALENCE|A mixed effect model for repeated measures was used to model medication effect on HRV comparing brand name metoprolol ER to Generic B, adjusting for quartile, (quartile\*med) interaction, and treatment assignment.|Slope|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0858|TWO_SIDED||||||Mixed Models Analysis|||||||0.0858
92452733|NCT02417246|184793116|EQUIVALENCE|A mixed effect model for repeated measures was used to model medication effect on HRV comparing brand name metoprolol ER to Generic A, adjusting for quartile,(quartile\*med) interaction, and treatment assignment.|Slope|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.0168|TWO_SIDED||||||Mixed Models Analysis||p for medication\*quartile interaction considered significant if p\<0.025.|||||0.0168
92173350|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.064|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Perceived Rejection.||||.064
92173351|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.368|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Perceived Hostility.||||.368
92241466|NCT02389816|184386097|SUPERIORITY||Odds Ratio (OR)|1.621||||0.0341|TWO_SIDED|95.0|1.037|2.533|||Regression, Logistic|||||2.533|1.037|0.0341
92241467|NCT02389816|184386097|SUPERIORITY||Odds Ratio (OR)|1.788||||0.011||95.0|1.143|2.799|||Regression, Logistic|||||2.799|1.143|0.0110
92241468|NCT02389816|184386098|SUPERIORITY||Odds Ratio (OR)|1.839||||0.0186|TWO_SIDED|95.0|1.107|3.054|||Regression, Logistic|||||3.054|1.107|0.0186
92241469|NCT02389816|184386098|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0418|TWO_SIDED|95.0|1.02|2.834|||Regression, Logistic|||||2.834|1.020|0.0418
92173352|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.504|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Self-Efficacy.||||.504
92173353|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.371|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Perceived Stress.||||.371
92173354|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.438|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Fear-Affect.||||.438
92173355|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.096|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Fear-Somatic Arousal.||||.096
92173356|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.132|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Sadness.||||.132
92173357|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.951|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Anger-Affect.||||.951
92173358|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.852|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Anger-Hostility.||||.852
92173359|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.083|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Anger-Physical Aggression.||||.083
92173360|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.391|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Negative Affect.||||.391
92173361|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.014|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Social Satisfaction.||||.014
92173362|NCT03378570|184237996|OTHER|comparative effectiveness trial||||||0.109|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Psychological Well Being.||||.109
92173363|NCT03378570|184237997|SUPERIORITY|||||||0.231||||||Week 6 timepoint p-value listed above|Mixed Models Analysis|"Other timepoint p-values below:~First Visit p = 0.875 Week 1 p = 0.084 Week 2 p = 0.277 Week 3 p = 0.686 Week 4 p = 0.369 Week 5 p = 0.806"||||||0.231
92173364|NCT03378570|184237998|SUPERIORITY|||||||0.963||||||Week 6-7 Follow-up p-value listed above|Mixed Models Analysis|"Other timepoint p-values below:~Evaluation p = 0.570 Week 2-3 Follow-up p = 0.063 Week 4-5 Follow-up p = 0.792"||||||0.963
92173365|NCT03378570|184237999|SUPERIORITY|||||||0.051||||||Week 6 timepoint p-value listed above|Mixed Models Analysis|"Other timepoint p-values below:~First Visit p = 0.772 Week 1 p = 0.194 Week 2 p = 0.127 Week 3 p = 0.196 Week 4 p = 0.079 Week 5 p = 0.187"||||||0.051
92173366|NCT03843151|184238000|OTHER||Ratio|192.67|||||TWO_SIDED|90.0|175.19|211.89|||||"The effect of itraconazole on BI 1358894 is estimated by the ratio of geometric mean (BI 1358894 + itraconazole / BI 1358894).~geometric coefficient of variation (gCV) \[%\] = 14.9."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for 'subject' and 'treatment'. The 'subject' effect was considered as random, whereas the 'treatment' effect was considered as fixed.||211.89|175.19|
92173367|NCT03843151|184238001|OTHER||Ratio|120.72|||||TWO_SIDED|90.0|105.69|137.87|||||"The effect of itraconazole on BI 1358894 is estimated by the ratio of geometric mean (BI 1358894 + itraconazole / BI 1358894).~geometric coefficient of variation (gCV) \[%\] = 21.7."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for 'subject' and 'treatment'. The 'subject' effect was considered as random, whereas the 'treatment' effect was considered as fixed.||137.87|105.69|
92173368|NCT03843151|184238002|OTHER||Ratio|120.72|||||TWO_SIDED|90.0|105.69|137.87|||||"The effect of itraconazole on BI 1358894 is estimated by the ratio of geometric mean (BI 1358894 + itraconazole / BI 1358894).~geometric coefficient of variation (gCV) \[%\] = 13.3."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for 'subject' and 'treatment'. The 'subject' effect was considered as random, whereas the 'treatment' effect was considered as fixed.||137.87|105.69|
92173369|NCT01787383|184238003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.13
92173370|NCT01787383|184238004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34|TWO_SIDED||||||Regression, Logistic|||||||0.34
92173371|NCT01787383|184238005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.088|TWO_SIDED||||||Regression, Logistic|||||||0.088
92173372|NCT01787383|184238006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.20
92173373|NCT01787383|184238007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.38|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.38
92173374|NCT01787383|184238008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.033
92173375|NCT01787383|184238009|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.37
92241470|NCT02389816|184386099|SUPERIORITY||LS mean difference|-1.81|STANDARD_ERROR_OF_MEAN|0.753||0.0165|TWO_SIDED|95.0|-3.29|-0.332|||ANCOVA|||||-0.332|-3.290|0.0165
92241471|NCT02389816|184386099|SUPERIORITY||LS mean difference|-1.79|STANDARD_ERROR_OF_MEAN|0.759||0.019|TWO_SIDED|95.0|-3.278|-0.295|||ANCOVA|||||-0.295|-3.278|0.0190
92452734|NCT02417246|184793117|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour ambulatory systolic blood pressure (SBP) by quartile for 35 patients receiving brand name metoprolol ER and Generic B.|Slope|-2.39||||0.203|TWO_SIDED||||||Mixed Models Analysis|||||||0.203
92452735|NCT02417246|184793117|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour ambulatory diastolic blood pressure (DBP) by quartile for 35 patients receiving brand name metoprolol ER and Generic B.|Slope|-0.543||||0.671|TWO_SIDED||||||Mixed Models Analysis|||||||0.671
92173376|NCT01787383|184238010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.66
92452736|NCT02417246|184793117|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour ambulatory SBP by quartile for 35 patients receiving brand name metoprolol ER and Generic A.|Slope|-2.371||||0.2|TWO_SIDED||||||Mixed Models Analysis|||||||0.200
92452737|NCT02417246|184793117|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour ambulatory DBP by quartile for 35 patients receiving brand name metoprolol ER and Generic A.|Slope|-2.329||||0.068|TWO_SIDED||||||Mixed Models Analysis|||||||0.068
92452738|NCT02417246|184793118|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour HR by quartile for 35 patients receiving brand name metoprolol ER and Generic B.|Slope|1.233||||0.333|TWO_SIDED||||||Mixed Models Analysis|||||||0.333
92452739|NCT02417246|184793118|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour HR by quartile for 35 patients receiving brand name metoprolol ER and Generic A.|Slope|1.134||||0.368|TWO_SIDED||||||Mixed Models Analysis|||||||0.368
92452740|NCT02896855|184793132|OTHER||Stratified Hazard Ratio|0.69||||0.0418|TWO_SIDED|95.0|0.49|0.99|||Log Rank|A two-sided log-rank test was used, stratified by disease type and hormone-receptor status.|This stratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model, stratified by disease type and hormone-receptor status, was used to estimate HR and its 95% CI.|This was for the primary analysis. Hypothesis testing is considered exploratory in this bridging study.||0.99|0.49|0.0418
92452741|NCT02896855|184793132|OTHER||Unstratified Hazard Ratio|0.71||||0.0556|TWO_SIDED|95.0|0.5|1.01|||Log Rank|This two-sided log-rank test was unstratified.|This unstratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model was used to estimate HR and its 95% CI.|This was for the primary analysis. Hypothesis testing is considered exploratory in this bridging study.||1.01|0.50|0.0556
92452742|NCT02896855|184793132|OTHER||Stratified Hazard Ratio|0.6||||0.0008|TWO_SIDED|95.0|0.45|0.81|||Log Rank|A two-sided log-rank test was used, stratified by disease type and hormone-receptor status.|This stratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model, stratified by disease type and hormone-receptor status, was used to estimate HR and its 95% CI.|This was for the final analysis. Hypothesis testing is considered exploratory in this bridging study.||0.81|0.45|0.0008
92452743|NCT02896855|184793132|OTHER||Unstratified Hazard Ratio|0.63||||0.0019|TWO_SIDED|95.0|0.47|0.85|||Log Rank|This two-sided log-rank test was unstratified.|This unstratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model was used to estimate HR and its 95% CI.|This was for the final analysis. Hypothesis testing is considered exploratory in this bridging study.||0.85|0.47|0.0019
92452744|NCT02896855|184793134|OTHER||Stratified Hazard Ratio|0.68||||0.0658|TWO_SIDED|95.0|0.45|1.03|||Log Rank|A two-sided log-rank test was used, stratified by disease type and hormone-receptor status.|This stratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model, stratified by disease type and hormone-receptor status, was used to estimate HR and its 95% CI.|Hypothesis testing is considered exploratory in this bridging study.||1.03|0.45|0.0658
92452745|NCT02896855|184793134|OTHER||Unstratified Hazard Ratio|0.7||||0.0864|TWO_SIDED|95.0|0.46|1.06|||Log Rank|This two-sided log-rank test was unstratified.|This unstratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model was used to estimate HR and its 95% CI.|Hypothesis testing is considered exploratory in this bridging study.||1.06|0.46|0.0864
92452746|NCT02896855|184793136|OTHER||Difference in Objective Response|9.98||||0.1126|TWO_SIDED|95.0|-2.65|22.6|||Cochran-Mantel-Haenszel|Statistical test is stratified by disease type and hormone receptor status.|The difference in objective response is calculated as Arm B: Pertuzumab minus Arm A: Placebo. 95% CI was calculated using Hauck-Anderson method.|Hypothesis testing is considered exploratory in this bridging study.||22.60|-2.65|0.1126
92173377|NCT03443323|184238011|SUPERIORITY||||||<|0.001||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (OTMP skills \[COSS-P, COSS-T\]).|Mixed Models Analysis|||||||<.001
92452747|NCT02896855|184793136|OTHER||Difference in Objective Response|9.98||||0.1108|TWO_SIDED|95.0|-2.65|22.6|||Fisher Exact|Unadjusted|The difference in objective response is calculated as Arm B: Pertuzumab minus Arm A: Placebo. 95% CI was calculated using Hauck-Anderson method.|Hypothesis testing is considered exploratory in this bridging study.||22.60|-2.65|0.1108
92452748|NCT02896855|184793137|OTHER||Cox Proportional Hazard|0.78||||0.2867|TWO_SIDED|95.0|0.49|1.24|||Log Rank|Two-sided log-rank test was used, stratified by disease type and hormone-receptor status.|This stratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model, stratified by disease type and hormone-receptor status, was used to estimate HR and its 95% CI.|Hypothesis testing is considered exploratory in this bridging study.||1.24|0.49|0.2867
92452749|NCT02896855|184793144|OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-1.96|0.75|||||The treatment difference for change from baseline to maximum on-treatment decrease in LVEF is defined as Arm B: Pertuzumab minus Arm A: Placebo.|||0.75|-1.96|
92452750|NCT00941603|184793161|SUPERIORITY_OR_OTHER||Difference in percent|-3.5||||0.06|TWO_SIDED|95.0|-7.2|0.2|||ANOVA|Least-square (LS) means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||0.2|-7.2|0.06
92452751|NCT00941603|184793161|SUPERIORITY_OR_OTHER||Difference in percent|-3.1||||0.1|TWO_SIDED|95.0|-6.7|0.6||LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.|ANOVA|||||0.6|-6.7|0.10
92452752|NCT00941603|184793161|SUPERIORITY_OR_OTHER||Difference in percent|-5.7|||<|0.01|TWO_SIDED|95.0|-9.4|-2.0|||ANOVA|||LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||-2.0|-9.4|<0.01
92452753|NCT00941603|184793161|SUPERIORITY_OR_OTHER||Difference in percent|-1.3||||0.48|TWO_SIDED|95.0|-5.0|2.4|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||2.4|-5.0|0.48
92452754|NCT00941603|184793161|SUPERIORITY_OR_OTHER||Difference in percent|-0.4||||0.85|TWO_SIDED|95.0|-4.0|3.3|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||3.3|-4.0|0.85
92452755|NCT00941603|184793162|SUPERIORITY_OR_OTHER||Difference in percent|-3.0||||0.09|TWO_SIDED|95.0|-6.5|0.4|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||0.4|-6.5|0.09
92452756|NCT00941603|184793162|SUPERIORITY_OR_OTHER||Difference in percent|-3.6||||0.04|TWO_SIDED|95.0|-7.1|-0.2|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||-0.2|-7.1|0.04
92452757|NCT00941603|184793162|SUPERIORITY_OR_OTHER||Difference in percent|-4.4||||0.01|TWO_SIDED|95.0|-7.9|-1.0|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||-1.0|-7.9|0.01
92452758|NCT00941603|184793162|SUPERIORITY_OR_OTHER||Difference in percent|-1.4||||0.41|TWO_SIDED|95.0|-4.9|2.0|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||2.0|-4.9|0.41
92452759|NCT00941603|184793162|SUPERIORITY_OR_OTHER||Difference in percent|0.7||||0.68|TWO_SIDED|95.0|-2.7|4.2|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||4.2|-2.7|0.68
92452760|NCT01343407|184793197|OTHER||Difference in Least Squares Means (LSM)|-22.2||||0.011|TWO_SIDED|90.0|-35.7|-8.7|||Linear mixed effects model|||||-8.7|-35.7|0.011
92452761|NCT01343407|184793197|OTHER||Difference in LSM|-18.9||||0.023|TWO_SIDED|90.0|-32.1|-5.8|||Linear mixed effects model|||||-5.8|-32.1|0.023
92452762|NCT01343407|184793198|OTHER||LS Mean Ratio (LSMR)|0.48||||0.006|TWO_SIDED|90.0|0.32|0.72|||Linear mixed effects model||||% Inhibition: 52.2 (90% CI: 28.3, 68.2). The % Inhibition of FEV1\*hr (reduction of the allergen-induced LAR) for MK-1029 vs Placebo was calculated as 100\*(1-LSMR).|0.72|0.32|0.006
92452763|NCT01343407|184793198|OTHER||LS Mean Ratio (LSMR)|0.58||||0.012|TWO_SIDED|90.0|0.41|0.81|||Linear mixed effects model||||% Inhibition: 42.4 (90% CI: 19.3, 58.8) The % Inhibition of FEV1\*hr (reduction of the allergen-induced LAR) for MK-1029 vs Placebo was calculated as 100\*(1-LSMR).|0.81|0.41|0.012
92173378|NCT03443323|184238012|SUPERIORITY||||||<|0.001||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (OTMP skills \[COSS-P, COSS-T\]).|Mixed Models Analysis|||||||<.001
92173379|NCT03443323|184238013|SUPERIORITY|||||||0.007||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (homework performance \[HPC, HPQ-T\]).|Mixed Models Analysis|||||||0.007
92173380|NCT03443323|184238014|SUPERIORITY||||||<|0.001||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (homework performance \[HPC, HPQ-T\]).|Mixed Models Analysis|||||||<.001
92173381|NCT03443323|184238015|SUPERIORITY||||||<|0.06||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (academic performance \[ACES, APS\]).|Mixed Models Analysis|||||||<.06
92173382|NCT03443323|184238016|SUPERIORITY||||||>|0.0083||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (academic performance \[ACES, APS\]).|Mixed Models Analysis|||||||>.0083
92173383|NCT03443323|184238017|SUPERIORITY||||||>|0.05||||||Statistical significance was evaluated using a threshold p value of .05.|Mixed Models Analysis|||||||>.05
92173384|NCT03443323|184238018|SUPERIORITY||||||>|0.05||||||Statistical significance was evaluated using a threshold p value of .05.|Mixed Models Analysis|||||||>.05
92173385|NCT05178316|184238029|SUPERIORITY||Least squares mean difference|0.31|STANDARD_ERROR_OF_MEAN|2.175|=|0.8862|TWO_SIDED|95.0|-3.98|4.6|||Mixed Models Analysis|||||4.60|-3.98|=0.8862
92173386|NCT05178316|184238029|SUPERIORITY||Least squares mean difference|-0.74|STANDARD_ERROR_OF_MEAN|1.817|=|0.6832|TWO_SIDED|95.0|-4.32|2.84|||Mixed Models Analysis|||||2.84|-4.32|=0.6832
92173387|NCT05178316|184238030|SUPERIORITY||Least squares mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.204|=|0.4522|TWO_SIDED|95.0|-0.55|0.25|||Mixed Models Analysis|||||0.25|-0.55|=0.4522
92173388|NCT05178316|184238030|SUPERIORITY||Least squares mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.169|=|0.2032|TWO_SIDED|95.0|-0.55|0.12|||Mixed Models Analysis|||||0.12|-0.55|=0.2032
92173389|NCT05178316|184238031|SUPERIORITY||Least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.165|=|0.717|TWO_SIDED|95.0|-0.38|0.26|||Mixed Models Analysis|||||0.26|-0.38|=0.7170
92173390|NCT05178316|184238031|SUPERIORITY||Least squares mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.137|=|0.2423|TWO_SIDED|95.0|-0.43|0.11|||Mixed Models Analysis|||||0.11|-0.43|=0.2423
92173391|NCT04169373|184238034|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|26.4|||<|0.0001|TWO_SIDED|95.0|17.9|34.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|Efficacy analyses and hypothesis testing including multiplicity adjustment were performed independently for Study 1 and Study 2.||34.9|17.9|<0.0001
92173392|NCT04169373|184238035|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|22.2|||<|0.0001|TWO_SIDED|95.0|12.1|32.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP status.|Response Rate Difference = Upadacitinib - Placebo|"Efficacy analyses and hypothesis testing including multiplicity adjustment were performed independently for Study 1 and Study 2.~Binary endpoints in Study 2 were analyzed using the Cochran-Mantel-Haenszel (CMH) test stratified by the main stratification factor of positivity for MRI inflammation in the sacroiliac joints and screening hsCRP status (MRI-positive and hsCRP \> ULN vs MRI-positive and hsCRP ≤ ULN vs MRI-negative and hsCRP \> ULN)."||32.3|12.1|<0.0001
92173393|NCT04169373|184238035|OTHER||Odds Ratio (OR)|2.8|||||TWO_SIDED|95.0|1.7|4.5|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||4.5|1.7|
92241472|NCT02389816|184386100|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.12||0.0031|TWO_SIDED|95.0|-0.59|-0.121|||ANCOVA|||||-0.121|-0.590|0.0031
92241473|NCT02389816|184386100|SUPERIORITY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.12||0.0011|TWO_SIDED|95.0|-0.629|-0.158|||ANCOVA|||||-0.158|-0.629|0.0011
92241474|NCT02389816|184386101|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.123||0.0609|TWO_SIDED|95.0|-0.474|0.011|||ANCOVA|||||0.011|-0.474|0.0609
92287201|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.097||||0.005|TWO_SIDED|95.0|0.029|0.164|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.164|0.029|0.005
92241475|NCT02389816|184386101|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.124||0.0179|TWO_SIDED|95.0|-0.537|-0.051|||ANCOVA|||||-0.051|-0.537|0.0179
92241476|NCT02389816|184386102|SUPERIORITY||LS mean difference|-1.34|STANDARD_ERROR_OF_MEAN|0.621||0.0311|TWO_SIDED|95.0|-2.564|-0.122|||ANCOVA|||||-0.122|-2.564|0.0311
92241477|NCT02389816|184386102|SUPERIORITY||LS mean difference|-1.57|STANDARD_ERROR_OF_MEAN|0.628||0.0126|TWO_SIDED|95.0|-2.807|-0.339|||ANCOVA|||||-0.339|-2.807|0.0126
92241478|NCT02389816|184386103|SUPERIORITY||LS mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.893||0.3793|TWO_SIDED|95.0|-2.539|0.968|||ANCOVA|||||0.968|-2.539|0.3793
92241479|NCT02389816|184386103|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.891||0.9011|TWO_SIDED|95.0|-1.862|1.641|||ANCOVA|||||1.641|-1.862|0.9011
92241480|NCT02389816|184386104|SUPERIORITY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.329||0.0089|TWO_SIDED|95.0|-1.512|-0.218|||ANCOVA|||||-0.218|-1.512|0.0089
92241481|NCT02389816|184386104|SUPERIORITY||LS mean difference|-1.27|STANDARD_ERROR_OF_MEAN|0.332||0.0001|TWO_SIDED|95.0|-1.922|-0.619|||ANCOVA|||||-0.619|-1.922|0.0001
92281005|NCT00266409|184465029|SUPERIORITY_OR_OTHER|||||||0.0419||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0419
92182896|NCT02434328|184264728|OTHER||Difference in proportions|-1.7|||||TWO_SIDED|95.0|-8.8|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.4|-8.8|
92182897|NCT02434328|184264728|OTHER||Difference in proportions|-1.7|||||TWO_SIDED|95.0|-8.4|5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||5.0|-8.4|
92182898|NCT02434328|184264728|OTHER||Difference in proportions|-3.6|||||TWO_SIDED|95.0|-10.4|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||2.9|-10.4|
92182899|NCT02434328|184264728|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-6.5|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||7.2|-6.5|
92182900|NCT02434328|184264728|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-7.5|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.1|-7.5|
92182901|NCT02434328|184264728|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-10.4|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||3.1|-10.4|
92182902|NCT02434328|184264728|OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-9.6|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.9|-9.6|
92182903|NCT02434328|184264728|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-5.0|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||8.3|-5.0|
92182904|NCT02434328|184264728|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-7.0|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||6.8|-7.0|
92182905|NCT02434328|184264729|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-10.4|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.6|-10.4|
92281006|NCT00266409|184465029|SUPERIORITY_OR_OTHER|||||||0.2541||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.2541
92452764|NCT01343407|184793199|OTHER||LSM Difference|85.84|||<|0.001|TWO_SIDED|90.0|65.3|106.4|||Linear mixed effects model||Full inhibition is ≥74% inhibition of blood eosinophil CD11b expression at trough|||106.4|65.3|<0.001
92452765|NCT01343407|184793199|OTHER||LSM Difference|83.29|||<|0.001|TWO_SIDED|90.0|63.9|102.7|||Linear mixed effects model||Full inhibition is ≥74% inhibition of blood eosinophil CD11b expression at trough|||102.7|63.9|<0.001
92452766|NCT01767116|184793262|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333, plus placebo RBV treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 73% to achieve noninferiority.|Percentage of Participants|100.0|||||TWO_SIDED|95.0|98.2|100.0|||||95% CI was calculated using the Wilson score method for the single proportion because the point estimate was 100%..|For the primary efficacy endpoint of sustained virologic response at 12 weeks after treatment, based on a 2-sided significance level of 0.05 and an underlying rate of 92% or higher in each arm, a sample size of 200 participants per treatment arm provides \>95% power to demonstrate noninferiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (84%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|98.2|
92452767|NCT01767116|184793262|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 73% to achieve noninferiority.|Percentage of Participants|99.5|||||TWO_SIDED|95.0|98.6|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution.|For the primary efficacy endpoint of sustained virologic response at 12 weeks after treatment, based on a 2-sided significance level of 0.05 and an underlying rate of 92% or higher in each arm, a sample size of 200 participants per treatment arm provides \>95% power to demonstrate noninferiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (84%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|98.6|
92452768|NCT01767116|184793263|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333, plus placebo RBV treatment group as compared with the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group was analyzed using a noninferiority margin of -10.5%. The lower confidence bound of the 2-sided 95% CI for the difference in percentage of participants with sustained virologic response at 12 weeks after treatment must exceed -10.5% to achieve noninferiority.|Difference in Percentage of Participants|0.5|||||TWO_SIDED|95.0|-0.5|1.4|||||95% CI was calculated using the normal approximation to the binomial distribution.|For the secondary efficacy endpoint of sustained virologic response at 12 weeks after treatment, based on a -10% margin, a 2-sided significance level of 0.05 and an underlying rate of 92% or higher in each arm, a sample size of 200 participants per arm provides \>95% power to demonstrate noninferiority of ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV compared with ABT-450/r/ABT-267 and ABT-333, plus RBV (normal approximation of a single binomial proportion in a 1-sample test for superiority).||1.4|-0.5|
92452769|NCT01767116|184793264|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92452770|NCT01767116|184793265|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|100.0|||||TWO_SIDED|95.0|98.2|100.0|||||95% CI calculated using the Wilson score method for the single proportion; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 84% to achieve superiority.|For the secondary efficacy endpoint of sustained virologic response at 12 weeks after treatment, based on a 2-sided significance level of 0.05 and an underlying rate of 92% or higher in each arm, a sample size of 200 participants per treatment arm provides \>90% power to demonstrate superiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (84%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|98.2|
92452771|NCT01767116|184793265|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|99.5|||||TWO_SIDED|95.0|98.6|100.0|||||95% CI calculated using the normal approximation to the binomial distribution; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 84% to achieve superiority.|For the secondary efficacy endpoint of sustained virologic response at 12 weeks after treatment, based on a 2-sided significance level of 0.05 and an underlying rate of 92% or higher in each arm, a sample size of 200 participants per treatment arm provides \>90% power to demonstrate superiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (84%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|98.6|
92452772|NCT00968669|184793268|SUPERIORITY_OR_OTHER|||||||0.435|||||||ANOVA|Missing mean ACQ scores at Day 92 was imputed by last observation carried forward||||||0.435
92452773|NCT00968669|184793268|SUPERIORITY_OR_OTHER|||||||0.828|||||||ANOVA|Missing mean ACQ scores at Day 92 was imputed by last observation carried forward||||||0.828
92452774|NCT00968669|184793268|SUPERIORITY_OR_OTHER|||||||0.628|||||||ANOVA|Missing mean ACQ scores at Day 92 was imputed by last observation carried forward||||||0.628
92452775|NCT00968669|184793269|SUPERIORITY_OR_OTHER|||||||0.271|||||||Pairwise Poisson Regression|||||||0.271
92281007|NCT00266409|184465030|SUPERIORITY_OR_OTHER|||||||0.0677||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.0677
92452776|NCT00968669|184793269|SUPERIORITY_OR_OTHER|||||||0.319|||||||Pairwise Poisson Regression|||||||0.319
92173394|NCT04169373|184238036|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Least Squares (LS) Mean Difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.85|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.85|-1.20|<0.0001
92173395|NCT04169373|184238037|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-3.9|||<|0.0001|TWO_SIDED|95.0|-5.47|-2.33|||ANCOVA|ANCOVA model including treatment and screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-2.33|-5.47|<0.0001
92281008|NCT00266409|184465030|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.0273
92281009|NCT00266409|184465031|SUPERIORITY_OR_OTHER|||||||0.5153||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.5153
92281010|NCT00266409|184465031|SUPERIORITY_OR_OTHER|||||||0.0122||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.0122
92452777|NCT00968669|184793269|SUPERIORITY_OR_OTHER|||||||0.502|||||||Pairwise Poisson Regression|||||||0.502
92452778|NCT00968669|184793270|SUPERIORITY_OR_OTHER|||||||0.756|||||||Pairwise Poisson Regression|||||||0.756
92452779|NCT00968669|184793270|SUPERIORITY_OR_OTHER|||||||0.047|||||||Pairwise Poisson Regression|||||||0.047
92452780|NCT00968669|184793270|SUPERIORITY_OR_OTHER|||||||1|||||||Pairwise Poisson Regression|||||||1.000
92452781|NCT00968669|184793271|SUPERIORITY_OR_OTHER|||||||0.1764|||||||Fisher Exact|||||||0.1764
92452782|NCT00968669|184793271|SUPERIORITY_OR_OTHER|||||||0.4031|||||||Fisher Exact|||||||0.4031
92452783|NCT00968669|184793271|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92452784|NCT00968669|184793272|SUPERIORITY_OR_OTHER|||||||0.8475|||||||Fisher Exact|||||||0.8475
92452785|NCT00968669|184793272|SUPERIORITY_OR_OTHER|||||||0.0811|||||||Fisher Exact|||||||0.0811
92452786|NCT00968669|184793272|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92452787|NCT00968669|184793273|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.938||||0.144|||||||Log Rank|Stratified by atopic asthma and steroid use||||||0.144
92452788|NCT00968669|184793273|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.618||||0.395|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.395
92452789|NCT00968669|184793273|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.899||||0.863|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.863
92452790|NCT00968669|184793274|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.162||||0.717|||||||Log Rank|Stratified by atopic asthma and steroid use||||||0.717
92452791|NCT00968669|184793274|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.467||||0.07|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.070
92452792|NCT00968669|184793274|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.955||||0.934|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.934
92452793|NCT00968669|184793275|SUPERIORITY_OR_OTHER|||||||0.813|||||||ANOVA|||||||0.813
92452794|NCT00968669|184793275|SUPERIORITY_OR_OTHER|||||||0.29|||||||ANOVA|||||||0.290
92452795|NCT00968669|184793275|SUPERIORITY_OR_OTHER|||||||0.303|||||||ANOVA|||||||0.303
92452796|NCT00968669|184793276|SUPERIORITY_OR_OTHER|||||||0.764|||||||Fisher Exact|||Combined MEDI-528 treatment was compared to placebo||||0.764
92452797|NCT00968669|184793277|SUPERIORITY_OR_OTHER|||||||0.986|||||||Fisher Exact|||Combined MEDI-528 treatment was compared to placebo||||0.986
92452798|NCT00968669|184793278|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.955||||0.7171|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.7171
92452799|NCT00968669|184793278|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.942||||0.6219|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.6219
92452800|NCT00968669|184793278|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.909||||0.6182|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.6182
92452801|NCT00968669|184793279|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.952||||0.712|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.7120
92452802|NCT00968669|184793279|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.928||||0.5086|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.5086
92452803|NCT00968669|184793279|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.887||||0.5184|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.5184
92452804|NCT00968669|184793280|SUPERIORITY_OR_OTHER|||||||0.837|||||||Two-sample t-test|||||||0.837
92452805|NCT00968669|184793280|SUPERIORITY_OR_OTHER|||||||0.756|||||||Two-sample t-test|||||||0.756
92452806|NCT00968669|184793280|SUPERIORITY_OR_OTHER|||||||0.224|||||||Two-sample t-test|||||||0.224
92452807|NCT00968669|184793281|SUPERIORITY_OR_OTHER|||||||0.409|||||||Two-sample t-test|||||||0.409
92452808|NCT00968669|184793281|SUPERIORITY_OR_OTHER|||||||0.847|||||||Two-sample t-test|||||||0.847
92452809|NCT00968669|184793281|SUPERIORITY_OR_OTHER|||||||0.968|||||||Two-sample t-test|||||||0.968
92452810|NCT00968669|184793282|SUPERIORITY_OR_OTHER|||||||0.208|||||||Fisher Exact|||Combined MEDI-528 dose groups versus placebo||||0.208
92452811|NCT00968669|184793283|SUPERIORITY_OR_OTHER|||||||0.574|||||||Fisher Exact|||Combined MEDI-528 dose groups versus placebo||||0.574
92452812|NCT03836287|184793289|OTHER||Odds Ratio (OR)|2.34||||0.0004|TWO_SIDED|95.0|1.47|3.72|||Regression, Logistic|||||3.72|1.47|0.0004
92452813|NCT03836287|184793290|OTHER||Mean Difference (Net)|-29.71|STANDARD_ERROR_OF_MEAN|9.543||0.0019|TWO_SIDED|95.0|-48.42|-11.0|||ANCOVA|||||-11.00|-48.42|0.0019
92452814|NCT04433767|184793332|OTHER||Slope|-1.22|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED||||||Mixed Models Analysis|Adjusted for age and gender.||||||< 0.001
92452815|NCT04433767|184793334|OTHER||Intercept|0.18|STANDARD_ERROR_OF_MEAN|0.07||0.0127|TWO_SIDED|95.0|0.04|0.32|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||0.32|0.04|0.0127
92452816|NCT04433767|184793335|OTHER||Intercept|0.34|STANDARD_ERROR_OF_MEAN|0.08||0.0005|TWO_SIDED|95.0|0.17|0.51|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||0.51|0.17|0.0005
92241482|NCT03161678|184386116|OTHER|The effect of CES1 genotype on agonist-stimulated change in platelet aggregation was calculated using variance component method that simultaneously adjusted for age, sex, body mass index (BMI), and relatedness among study participants. Relatedness among participants were accounted for by including a polygenic component as a random effect. Please see the Study Protocol and Statistical Analysis Plan document for additional information.|||||<|0.001|||||||Regression, Linear|All analyses were adjusted for age, sex, body mass index (BMI), and relatedness among study participants.||Change in platelet aggregation was assessed between the wild-type group and the carriers of the CES1 G143E mutation. The null hypothesis is that, following drug intervention, there is no difference in the change in platelet aggregation between genotype groups.||||<0.001
92281011|NCT00266409|184465032|SUPERIORITY_OR_OTHER|||||||0.4648||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.4648
92452817|NCT04433767|184793336|OTHER||Intercept|0.19|STANDARD_ERROR_OF_MEAN|0.11||0.1027|TWO_SIDED|95.0|-0.04|0.42|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||0.42|-0.04|0.1027
92173396|NCT04169373|184238038|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|26.4|||<|0.0001|TWO_SIDED|95.0|18.0|34.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|||34.8|18.0|<0.0001
92452818|NCT04433767|184793337|OTHER||Intercept|0.09|STANDARD_ERROR_OF_MEAN|0.13||0.4846|TWO_SIDED|95.0|-0.18|0.37|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||0.37|-0.18|0.4846
92452819|NCT04433767|184793338|OTHER||Intercept|9.04|STANDARD_ERROR_OF_MEAN|25.77||0.729|TWO_SIDED|95.0|-44.28|62.36|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||62.36|-44.28|0.7290
92452820|NCT04433767|184793339|OTHER||Intercept|-0.25|STANDARD_ERROR_OF_MEAN|2.43||0.9196|TWO_SIDED|95.0|-5.28|4.78|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||4.78|-5.28|0.9196
92452821|NCT04433767|184793340|OTHER||Slope|0.17|STANDARD_ERROR_OF_MEAN|0.08||0.033|TWO_SIDED|95.0|0.01|0.33|||Mixed Models Analysis|Adjusted for age and gender.||||0.33|0.01|0.033
92452822|NCT04433767|184793341|OTHER||Slope|0.18|STANDARD_ERROR_OF_MEAN|0.09||0.041|TWO_SIDED|95.0|0.01|0.35|||Mixed Models Analysis|Adjusted for age and gender.||||0.35|0.01|0.041
92452823|NCT04433767|184793342|OTHER||Slope|-11.13|STANDARD_ERROR_OF_MEAN|3.36||0.001|TWO_SIDED|95.0|-17.81|-4.45|||Mixed Models Analysis|Adjusted for age and gender.||||-4.45|-17.81|0.001
92281012|NCT00266409|184465032|SUPERIORITY_OR_OTHER|||||||0.5502||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.5502
92452824|NCT04433767|184793343|OTHER||Slope|-12.64|STANDARD_ERROR_OF_MEAN|3.68||0.001|TWO_SIDED|95.0|-19.94|-5.33|||Mixed Models Analysis|Adjusted for age and gender.||||-5.33|-19.94|0.001
92452825|NCT04433767|184793344|OTHER||Slope|-0.74|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.15|-0.32|||Mixed Models Analysis|||||-0.32|-1.15|<0.001
92452826|NCT04433767|184793345|OTHER||Slope|-0.63|STANDARD_ERROR_OF_MEAN|0.14||0.001|TWO_SIDED|95.0|-0.92|-0.34|||Mixed Models Analysis|Adjusted for age and gender.||||-0.34|-0.92|0.001
92452827|NCT04433767|184793346|OTHER||Slope|-0.41|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.65|-0.18|||Mixed Models Analysis|Adjusted for age and gender.||||-0.18|-0.65|<0.001
92452828|NCT04433767|184793347|OTHER||Slope|-0.47|STANDARD_ERROR_OF_MEAN|0.35||0.183|TWO_SIDED|95.0|-1.17|0.23|||Mixed Models Analysis|Adjusted for age and gender.||||0.23|-1.17|0.183
92452829|NCT04433767|184793348|OTHER||Slope|-0.3|STANDARD_ERROR_OF_MEAN|0.22||0.17|TWO_SIDED|95.0|-0.74|0.13|||Mixed Models Analysis|Analyses adjusted for age and gender.||||0.13|-0.74|0.170
92452830|NCT04433767|184793349|OTHER||Slope|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.051|TWO_SIDED|95.0|0.0|0.8|||Mixed Models Analysis|Analyses adjusted for age and gender.||||0.80|0.00|0.051
92452831|NCT04433767|184793350|OTHER||Slope|-0.22|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.33|-0.11|||Mixed Models Analysis|Analyses adjusted for age and gender.||||-0.11|-0.33|<0.001
92452832|NCT04433767|184793351|OTHER||Slope|0.43|STANDARD_ERROR_OF_MEAN|0.13||0.002|TWO_SIDED|95.0|0.17|0.69|||Mixed Models Analysis|Analyses adjusted for age and gender.||||0.69|0.17|0.002
92452833|NCT04433767|184793352|OTHER||Slope|0.52|STANDARD_ERROR_OF_MEAN|0.14||0.002|TWO_SIDED|95.0|0.21|0.83|||Mixed Models Analysis|Analyses adjusted for age and gender.||||0.83|0.21|0.002
92452834|NCT04433767|184793353|OTHER||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.55||0.876|TWO_SIDED|95.0|-1.05|1.23|||Mixed Models Analysis|Analyses adjusted for age and gender.||||1.23|-1.05|0.876
92452835|NCT00298233|184793354|SUPERIORITY_OR_OTHER|||||||0.42||||||Significance assessed at the 5% level for a two-sided comparison|conditional univariate logistic regressi|analysis stratified by study site||Based on previous studies, assumption was made that 30% of children and 55% of adults treated with standard dose oseltamivir would test negative for virus on day five. This would require a sample size of 242 patients to show a 20% absolute improvement in cessation of viral shedding with 85% power and a two sided α of 0.05. To allow for study withdrawals, the target sample size was set at 300 patients.||||0.42
92452836|NCT00298233|184793355|SUPERIORITY_OR_OTHER|||||||0.54||||||Significance assessed at the 5% level for a two-sided comparison|Mantel Haenszel|||||||0.54
92452837|NCT00298233|184793356|SUPERIORITY_OR_OTHER|||||||0.54||||||Significance assessed at the 5% level for a two-sided comparison|Mantel Haenszel|Mantel-Haenszel chi-square stratified by study site||||||0.54
92452838|NCT00298233|184793357|SUPERIORITY_OR_OTHER|||||||0.48||||||Significance assessed at the 5% level for a two-sided comparison|Kruskal-Wallis|||||||0.48
92173397|NCT04169373|184238039|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|27.1|||<|0.0001|TWO_SIDED|95.0|17.9|36.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|||36.3|17.9|<0.0001
92281013|NCT00266409|184465033|SUPERIORITY_OR_OTHER|||||||0.9093||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.9093
92281014|NCT00266409|184465033|SUPERIORITY_OR_OTHER|||||||0.1354||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.1354
92182906|NCT02434328|184264729|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-10.2|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||3.7|-10.2|
92182907|NCT02434328|184264729|OTHER||Difference in proportions|-3.7|||||TWO_SIDED|95.0|-10.7|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||3.3|-10.7|
92281015|NCT00266409|184465034|SUPERIORITY_OR_OTHER|||||||0.7434||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.7434
92241483|NCT03161678|184386116|OTHER|The effect of CES1 genotype on agonist-stimulated change in platelet aggregation was calculated using variance component method that simultaneously adjusted for age, sex, body mass index (BMI), and relatedness among study participants. Relatedness among participants were accounted for by including a polygenic component as a random effect. Please see the Study Protocol and Statistical Analysis Plan document for additional information.||||||0.24|||||||Regression, Linear|All analyses were adjusted for age, sex, body mass index (BMI), and relatedness among study participants.||Change in platelet aggregation was assessed between the wild-type group and the carriers of the CES1 functional mutation (rs7498748). The null hypothesis is that, following drug intervention, there is no difference in the change in platelet aggregation between genotype groups.||||0.24
92241484|NCT03161678|184386117|OTHER|The effect of CES1 genotype on agonist-stimulated change in platelet aggregation was calculated using variance component method that simultaneously adjusted for age, sex, body mass index (BMI), and relatedness among study participants. Relatedness among participants were accounted for by including a polygenic component as a random effect. Please see the Study Protocol and Statistical Analysis Plan document for additional information.||||||0.75|||||||Regression, Linear|All analyses were adjusted for age, sex, body mass index (BMI), and relatedness among study participants.||Change in platelet aggregation was assessed between the wild-type group and the carriers of the CES1 G143E mutation. The null hypothesis is that, following drug intervention, there is no difference in the change in platelet aggregation between genotype groups.||||0.75
92241485|NCT03161678|184386117|OTHER|The effect of CES1 genotype on agonist-stimulated change in platelet aggregation was calculated using variance component method that simultaneously adjusted for age, sex, body mass index (BMI), and relatedness among study participants. Relatedness among participants were accounted for by including a polygenic component as a random effect. Please see the Study Protocol and Statistical Analysis Plan document for additional information.||||||0.011|||||||Regression, Linear|All analyses were adjusted for age, sex, body mass index (BMI), and relatedness among study participants.||Change in platelet aggregation was assessed between the wild-type group and the carriers of the CES1 functional mutation (rs7498748). The null hypothesis is that, following drug intervention, there is no difference in the change in platelet aggregation between genotype groups.||||0.011
92241486|NCT00752609|184386118|SUPERIORITY_OR_OTHER||Mean change from baseline|-0.42|||||TWO_SIDED|95.0|-0.65|-0.19|||||A two-sided 95% CI of the estimated mean change from Baseline in hemoglobin was derived from the t-distribution.|||-0.19|-0.65|
92241487|NCT00752609|184386118|SUPERIORITY_OR_OTHER||Mean change from baseline|0.49|||||TWO_SIDED|95.0|0.26|0.71|||||A two-sided 95% CI of the estimated mean change from Baseline in hemoglobin was derived from the t-distribution.|||0.71|0.26|
92241488|NCT00872170|184386170|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||This study had 80% power at level alpha=0.05 to detect a 60 m change in 6MWT among N=10 participants, assuming a 60 m standard deviation for 12-week change.||||0.97
92241489|NCT00872170|184386171|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.04
92281016|NCT00266409|184465034|SUPERIORITY_OR_OTHER|||||||0.1148||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.1148
92281017|NCT00266409|184465035|SUPERIORITY_OR_OTHER|||||||0.9346||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A insomnia subscore as a covariate|ANCOVA|||||||0.9346
92452839|NCT00298233|184793358|SUPERIORITY_OR_OTHER|||||||0.66||||||Significance assessed at the 5% level for a two-sided comparison|Kruskal-Wallis|||||||0.66
92452840|NCT00298233|184793359|SUPERIORITY_OR_OTHER|||||||0.58||||||Significance assessed at the 5% level for a two-sided comparison|Kruskal-Wallis|||||||0.58
92452841|NCT02371369|184793360|OTHER|Treatment comparison analysis|||||<|0.0001|||||||Fisher's Exact Test|||Treatment comparison between the pexidartinib and placebo groups at Week 25||||<0.0001
92452842|NCT02371369|184793361|OTHER|Treatment comparison analysis||||||0.0043|||||||Fisher's Exact Test|||Treatment comparison between the pexidartinib and placebo groups at Week 25||||0.0043
92452843|NCT02371369|184793362|OTHER|Treatment comparison analysis|||||<|0.0001|||||||Fisher's Exact Test|||Treatment comparison between the pexidartinib and placebo groups at Week 25||||<0.0001
92452844|NCT02371369|184793363|OTHER|Treatment comparison analysis||||||0.0019|||||||Mixed effects model for repeated measure|||Treatment comparison between pexidartinib and placebo groups at Week 25||||0.0019
92452845|NCT02371369|184793364|OTHER|Treatment comparison analysis|||||<|0.0001|||||||Mixed effects model for repeated measure|||Treatment comparison between the pexidartinib and placebo groups at Week 25||||<0.0001
92452846|NCT03855189|184793382|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452847|NCT03855189|184793382|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from ANOVA.||||<0.01
92452848|NCT03855189|184793382|OTHER|||||||0.06|||||||ANOVA|||Pairwise treatment comparison based on t-test from ANOVA.||||0.06
92452849|NCT03855189|184793383|OTHER|||||||0.04|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.04
92452850|NCT03855189|184793383|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
92452851|NCT03855189|184793383|OTHER|||||||0.5|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.50
92452852|NCT03855189|184793386|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452853|NCT03855189|184793386|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452854|NCT03855189|184793386|OTHER|||||||0.11|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.11
92452855|NCT03855189|184793387|OTHER|||||||0.05|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.05
92452856|NCT03855189|184793387|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452857|NCT03855189|184793387|OTHER|||||||0.13|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.13
92452858|NCT03855189|184793388|OTHER|||||||0.06|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.06
92241490|NCT00872170|184386172|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.005
92452859|NCT03855189|184793388|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
92452860|NCT03855189|184793388|OTHER|||||||0.81|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.81
92452861|NCT03855189|184793389|OTHER|||||||0.02|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.02
92452862|NCT03855189|184793389|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452863|NCT03855189|184793389|OTHER|||||||0.17|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.17
92452864|NCT03855189|184793390|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452865|NCT03855189|184793390|OTHER|||||||0.02|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.02
92452866|NCT03855189|184793390|OTHER|||||||0.39|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.39
92182908|NCT02434328|184264729|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-8.4|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||5.7|-8.4|
92452867|NCT03855189|184793391|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452868|NCT03855189|184793391|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452869|NCT03855189|184793391|OTHER|||||||0.6|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.60
92452870|NCT03855189|184793392|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
92452871|NCT03855189|184793392|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
92452872|NCT03855189|184793392|OTHER|||||||0.54|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.54
92452873|NCT03855189|184793393|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452874|NCT03855189|184793393|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
92452875|NCT03855189|184793393|OTHER|||||||0.71|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.71
92452876|NCT03855189|184793394|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452877|NCT03855189|184793394|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452878|NCT03855189|184793394|OTHER|||||||0.77|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.77
92452879|NCT03855189|184793395|OTHER|||||||0.11|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.11
92452880|NCT03855189|184793395|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
92452881|NCT03855189|184793395|OTHER|||||||0.6|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.60
92452882|NCT03855189|184793396|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452883|NCT03855189|184793396|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452884|NCT03855189|184793396|OTHER|||||||0.59|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.59
92452885|NCT03855189|184793397|OTHER|||||||0.07|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.07
92452886|NCT03855189|184793397|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
92452887|NCT03855189|184793397|OTHER|||||||0.43|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.43
92452888|NCT03855189|184793398|OTHER|||||||0.09|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.09
92452889|NCT03855189|184793398|OTHER|||||||0.08|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.08
92182909|NCT02434328|184264729|OTHER||Difference in proportions|-5.3|||||TWO_SIDED|95.0|-12.3|1.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||1.5|-12.3|
92241491|NCT00872170|184386173|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.02
92452890|NCT03855189|184793398|OTHER|||||||0.96|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.96
92452891|NCT03855189|184793399|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
92452892|NCT03855189|184793399|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452893|NCT03855189|184793399|OTHER|||||||0.64|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.64
92452894|NCT03855189|184793400|OTHER|||||||0.25|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.25
92452895|NCT03855189|184793400|OTHER|||||||0.02|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.02
92452896|NCT03855189|184793400|OTHER|||||||0.26|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.26
92452897|NCT03855189|184793401|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452898|NCT03855189|184793401|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452899|NCT03855189|184793401|OTHER|||||||0.09|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.09
92452900|NCT03855189|184793402|OTHER|||||||0.05|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.05
92452901|NCT03855189|184793402|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452902|NCT03855189|184793402|OTHER|||||||0.07|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.07
92452903|NCT03855189|184793403|OTHER|||||||0.04|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.04
92452904|NCT03855189|184793403|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
92173398|NCT04169373|184238040|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|10.9|||<|0.0001|TWO_SIDED|95.0|6.0|15.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|||15.8|6.0|<0.0001
92241492|NCT00872170|184386174|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.05
92241493|NCT00872170|184386175|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.02
92452905|NCT03855189|184793403|OTHER|||||||0.53|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.53
92452906|NCT03855189|184793404|OTHER|||||||0.02|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.02
92452907|NCT03855189|184793404|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452908|NCT03855189|184793404|OTHER|||||||0.02|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.02
92452909|NCT03855189|184793405|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
92452910|NCT03855189|184793405|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452911|NCT03855189|184793405|OTHER|||||||0.34|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.34
92452912|NCT03855189|184793406|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452913|NCT03855189|184793406|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452914|NCT03855189|184793406|OTHER|||||||0.04|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.04
92452915|NCT03855189|184793407|OTHER|||||||0.06|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.06
92452916|NCT03855189|184793407|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452917|NCT03855189|184793407|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
92452918|NCT03855189|184793408|OTHER|||||||0.13|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.13
92452919|NCT03855189|184793408|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452920|NCT03855189|184793408|OTHER|||||||0.07|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.07
92452921|NCT03855189|184793409|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
92452922|NCT03855189|184793409|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
92452923|NCT03855189|184793409|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
92452924|NCT04307186|184793412|OTHER|"McNemar test was used for the exploratory analysis of difference between the percentage of participants greatly prefer/prefer gadoquatrane and greatly prefer/prefer gadobutrol."|||||<|0.0001||||||P-Value was calculated. p \< 0.05 indicates a difference between the two reads; p \> 0.05 indicates the observed data do not contradict equality.|McNemar|||Reader 1||||<0.0001
92452925|NCT04307186|184793412|OTHER|"McNemar test was used for the exploratory analysis of difference between the percentage of participants greatly prefer/prefer gadoquatrane and greatly prefer/prefer gadobutrol."||||||0.5775||||||P-Value was calculated. p \< 0.05 indicates a difference between the two reads; p \> 0.05 indicates the observed data do not contradict equality.|McNemar|||Reader 2||||0.5775
92452926|NCT04307186|184793412|OTHER|"McNemar test was used for the exploratory analysis of difference between the percentage of participants greatly prefer/prefer gadoquatrane and greatly prefer/prefer gadobutrol."||||||0.3173||||||P-Value was calculated. p \< 0.05 indicates a difference between the two reads; p \> 0.05 indicates the observed data do not contradict equality.|McNemar|||Reader 3||||0.3173
92452927|NCT04307186|184793413|NON_INFERIORITY|The non-inferiority of gadoquatrane versus gadobutrol was evaluated using CIs based on the t-distribution. A non-inferiority margin of 1 was used, i.e. meaning that a 95% two-sided CI for the mean difference gadoquatrane minus gadobutrol score must exclude the value -1.|Mean Difference (Final Values)|-0.05|||<|0.0001|TWO_SIDED|95.0|-0.24|0.13||P-Value was calculated. Non-inferiority was achieved with a one-sided p-value lower than 0.025.|t-test, 1 sided|||Average reader||0.13|-0.24|<0.0001
92452928|NCT04307186|184793414|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|1.06|1.34|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||1.34|1.06|
92452929|NCT04307186|184793414|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|0.94|1.25|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||1.25|0.94|
92452930|NCT04307186|184793415|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|2.07|||||TWO_SIDED|95.0|1.87|2.28|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||2.28|1.87|
92241494|NCT00872170|184386176|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.04
92241495|NCT00872170|184386177|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.33
92452931|NCT04307186|184793415|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|2.06|||||TWO_SIDED|95.0|1.86|2.25|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||2.25|1.86|
92173399|NCT04169373|184238041|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.53|||<|0.0001|TWO_SIDED|95.0|-1.96|-1.11|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-1.11|-1.96|<0.0001
92281018|NCT00266409|184465035|SUPERIORITY_OR_OTHER|||||||0.2709||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.2709
92452932|NCT04307186|184793416|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|1.27|||||TWO_SIDED|95.0|1.11|1.43|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||1.43|1.11|
92452933|NCT04307186|184793416|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|1.19|||||TWO_SIDED|95.0|1.05|1.32|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||1.32|1.05|
92452934|NCT01587651|184793435|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was assessed using a 95% CI of the difference in mean PRU between ticagrelor and prasugrel (2 arms combined). Under the assumption of 0 difference in mean PRU between prasugrel 10 mg QD MD and ticagrelor 90 mg BID MD, a common SD of 60 PRU (based on previous DSI studies and published data), and a drop-out rate not exceeding 15%, a sample size of 105 allows for the 95% CI to stay within ± 45 PRU (non-inferiority margin) with a power of 90%.|Mean Difference (Final Values)|46.0|STANDARD_ERROR_OF_MEAN|10.66|||TWO_SIDED|95.0|24.9|67.2||||||ANCOVA model included treatment as a main effect and pre-randomization baseline PRU as a covariate. The combined prasugrel groups were modeled as a single treatment. If the upper limit of the CI for the mean difference was not greater than 45 PRU, then the PD response to prasugrel 10 mg QD MD was deemed noninferior to that achieved by ticagrelor 90 mg BID MD.||67.2|24.9|
92452935|NCT00358735|184793441|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92452936|NCT00358735|184793442|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92452937|NCT00358735|184793443|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Chi-squared|||||||0.0004
92452938|NCT00358735|184793445|SUPERIORITY_OR_OTHER|||||||0.953|||||||Chi-squared|||||||0.953
92452939|NCT00358735|184793446|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||||||0.050
92452940|NCT00358735|184793447|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||||||0.010
92452941|NCT00358735|184793448|SUPERIORITY_OR_OTHER|||||||0.507|||||||Chi-squared|||||||0.507
92452942|NCT00358735|184793449|SUPERIORITY_OR_OTHER|||||||0.052|||||||Chi-squared|||||||0.052
92452943|NCT00358735|184793450|SUPERIORITY_OR_OTHER|||||||0.798|||||||Chi-squared|||||||0.798
92452944|NCT00358735|184793451|SUPERIORITY_OR_OTHER|||||||0.036|||||||Chi-squared|||||||0.036
92452945|NCT00780962|184793460|SUPERIORITY||Percentage Difference|0.6|||>|0.5|TWO_SIDED|95.0|-4.8|6.0|||Wald|||"The study was powered to find a 10% absolute risk reduction in the rate of contrast-induced nephropathy (a=.05, 90% power). We initially estimated the need for 600 patients and repowered to 800 patients after the 1st interim analysis. The study was halted for futility at the 2nd interim analysis.~Reported here 357 (89.4%) of the 399 enrolled subjects who completed a second blood draw at the time the study closed."||6.0|-4.8|>0.5
92452946|NCT00156065|184793478|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Loss of Effect|0.8619||||||95.0|0.6912|0.9644|||||Loss of effect = increase in total PANSS \>=30% from start of current study; subjective worsening of schizophrenia/request for dose increase; Clinical Global Impressions of Severity of Illness score \>=6; discontinuation for lack of efficacy.|||0.9644|0.6912|
92452947|NCT00156065|184793478|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Loss of Effect|0.8834||||||95.0|0.7744|0.955|||||Loss of effect = increase in total PANSS \>=30% from start of current study; subjective worsening of schizophrenia/request for dose increase; Clinical Global Impressions of Severity of Illness score \>=6; discontinuation for lack of efficacy.|||0.9550|0.7744|
92452948|NCT00156065|184793478|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Loss of Effect|0.9376||||||95.0|0.7631|0.9952|||||Loss of effect = increase in total PANSS \>=30% from start of current study; subjective worsening of schizophrenia/request for dose increase; Clinical Global Impressions of Severity of Illness score \>=6; discontinuation for lack of efficacy.|||0.9952|0.7631|
92452949|NCT02250612|184793480|SUPERIORITY|||||||0.93|||||||ANCOVA|||||||0.93
92452950|NCT02250612|184793480|SUPERIORITY|||||||0.92|||||||ANCOVA|||||||0.92
92452951|NCT02250612|184793480|SUPERIORITY|||||||0.23|||||||ANCOVA|||||||0.23
92452952|NCT02250612|184793480|SUPERIORITY|||||||0.85|||||||ANCOVA|||||||0.85
92452953|NCT02250612|184793480|SUPERIORITY|||||||0.25|||||||ANCOVA|||||||0.25
92452954|NCT02250612|184793480|SUPERIORITY|||||||0.18|||||||ANCOVA|||||||0.18
92452955|NCT02250612|184793481|SUPERIORITY|||||||0.94|||||||ANCOVA|||||||0.94
92452956|NCT02250612|184793481|SUPERIORITY|||||||0.38|||||||ANCOVA|||||||0.38
92452957|NCT02250612|184793481|SUPERIORITY|||||||0.85|||||||ANCOVA|||||||0.85
92452958|NCT02250612|184793481|SUPERIORITY|||||||0.412|||||||ANCOVA|||||||0.412
92452959|NCT02250612|184793481|SUPERIORITY|||||||0.79|||||||ANCOVA|||||||0.79
92452960|NCT02250612|184793481|SUPERIORITY|||||||0.28|||||||ANCOVA|||||||0.28
92452961|NCT01153633|184793502|SUPERIORITY_OR_OTHER|||||||0.2317||95.0||||F-test (2-sided), ANCOVA with baseline target ulcer size as covariate|F-test|||||||0.2317
92452962|NCT01153633|184793506|SUPERIORITY_OR_OTHER|||||||0.4905||95.0|||||Fisher Exact|||||||0.4905
92452963|NCT01153633|184793507|SUPERIORITY_OR_OTHER|||||||0.9945||95.0||||F-test (2-sided), ANCOVA with baseline target ulcer size as covariate|F-test|||||||0.9945
92452964|NCT00384085|184793508|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.56||||0.0628|TWO_SIDED|95.0|0.97|2.52||The type I error was controlled by performing a 2-tailed comparison at a p=0.0475 level for superiority testing.|Regression, Logistic|||||2.52|0.97|0.0628
92452965|NCT00384085|184793509|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of Lantus/Apidra-1 would be established if the upper limit of the 2 sided, 99.75% CI for the difference in the mean change from baseline between Lantus/Apidra-1 and Novolog Mix 70/30 was \<0.5%.|Adjusted Mean of difference|-0.34||||0.0359|TWO_SIDED|95.0|-0.82|0.15||The type I error was controlled by performing a 2-tailed comparison at a p=0.0025 level for noninferiority testing.|Mixed Models Analysis|||||0.15|-0.82|0.0359
92452966|NCT00384085|184793510|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.66||||0.0313|TWO_SIDED|95.0|1.04|2.64||The type I error was controlled by performing a 2-tailed comparison at a p=0.0475 level for superiority testing.|Regression, Logistic|||||2.64|1.04|0.0313
92452967|NCT00384085|184793511|SUPERIORITY_OR_OTHER||Adjusted Mean of difference|-0.31||||0.0565|TWO_SIDED|95.0|-0.63|0.01|||ANCOVA|||||0.01|-0.63|0.0565
92452968|NCT00384085|184793512|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.79||||0.014|TWO_SIDED|95.0|1.12|2.85|||Regression, Logistic|||||2.85|1.12|0.0140
92452969|NCT00384085|184793513|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.02||||0.9268|TWO_SIDED|95.0|0.61|1.71|||Regression, Logistic|||||1.71|0.61|0.9268
92452970|NCT00384085|184793513|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.11||||0.0107|TWO_SIDED|95.0|1.19|3.73|||Regression, Logistic|||||3.73|1.19|0.0107
92452971|NCT00384085|184793513|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.06||||0.0121|TWO_SIDED|95.0|1.17|3.61|||Regression, Logistic|||||3.61|1.17|0.0121
92452972|NCT01944631|184793516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.613|STANDARD_ERROR_OF_MEAN|0.359||0.0895|TWO_SIDED|95.0|-1.321|0.095|||ANCOVA||Difference calculated as bisolviral minus placebo|||0.095|-1.321|0.0895
92452973|NCT01944631|184793517|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.176|STANDARD_ERROR_OF_MEAN|0.146||0.231|TWO_SIDED|95.0|-0.464|0.113|||ANCOVA||Difference calculated as bisolviral minus placebo|||0.113|-0.464|0.2310
92452974|NCT01944631|184793518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.443|STANDARD_ERROR_OF_MEAN|0.304||0.1465|TWO_SIDED|95.0|-1.042|0.156|||ANCOVA||Difference calculated as bisolviral minus placebo|||0.156|-1.042|0.1465
92452975|NCT01944631|184793519|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.728|STANDARD_ERROR_OF_MEAN|3.102||0.8148|TWO_SIDED|95.0|-5.39|6.845|||ANCOVA||Difference calculated as bisolviral minus placebo|||6.845|-5.390|0.8148
92452976|NCT01944631|184793520|SUPERIORITY_OR_OTHER|||||||0.1887|TWO_SIDED||||||Log Rank|Log-rank test stratifying for the variable 'baseline TSS'||||||0.1887
92452977|NCT01944631|184793521|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1069||||0.6954|TWO_SIDED|95.0|0.666|1.84|||Regression, Logistic||A value greater than one favours bisolviral|||1.840|0.666|0.6954
92452978|NCT04389762|184793530|OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
92452979|NCT04389762|184793531|OTHER|||||||0.004|||||||t-test, 2 sided|||||||0.004
92452980|NCT04389762|184793532|OTHER|||||||0.007|||||||t-test, 2 sided|||||||0.007
92452981|NCT04389762|184793533|OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.040
92452982|NCT04389762|184793534|OTHER|||||||0.031|||||||t-test, 2 sided|||||||0.031
92452983|NCT04389762|184793535|OTHER|||||||0.115|||||||t-test, 2 sided|||||||0.115
92452984|NCT04389762|184793536|OTHER|||||||0.031|||||||t-test, 2 sided|||||||0.031
92452985|NCT00304070|184793577|OTHER||2 Year EFS|0.89||||0.44|TWO_SIDED|95.0|||||2-year KM estimate|||We will test the 2-year EFS is 90% using the asymptotic distribution of the complementary log-log distribution of the Kaplan-Meier (KM) estimate.||||0.44
92452986|NCT00304070|184793577|OTHER||2 Year EFS|0.53||||0.4|TWO_SIDED|95.0|||||2-year KM estimate|||We will test the 2-year EFS is 50% using the asymptotic distribution of the complementary log-log distribution of the Kaplan-Meier (KM) estimate.||||0.40
92452987|NCT00304070|184793577|OTHER||2 Year EFS|0.55||||8.53e-06|TWO_SIDED|95.0|||||2-year KM estimate|||We will test the 2-year EFS is 15% using the asymptotic distribution of the complementary log-log distribution of the Kaplan-Meier (KM) estimate.||||0.00000853
92452988|NCT04118348|184793586|SUPERIORITY||Odds Ratio (OR)|5.73|||<|0.001|TWO_SIDED|95.0|4.46|7.36|||Regression, Logistic||BPA+HMT is the numerator|Passive control was set as the reference group.||7.36|4.46|<.001
92452989|NCT04118348|184793586|SUPERIORITY||Odds Ratio (OR)|4.87|||<|0.001|TWO_SIDED|95.0|3.79|6.27|||Regression, Logistic||BPA-only is the numerator|Passive control was set as the reference group.||6.27|3.79|<.001
92452990|NCT04118348|184793586|SUPERIORITY||Odds Ratio (OR)|1.67|||<|0.001|TWO_SIDED|95.0|1.28|2.19|||Regression, Logistic||HMT-only is the numerator|Passive control was set as the reference group.||2.19|1.28|<.001
92452991|NCT04118348|184793586|SUPERIORITY||Odds Ratio (OR)|3.43|||<|0.001|TWO_SIDED|95.0|2.73|4.29|||Regression, Logistic||BPA+HMT is the numerator|HMT was set as the reference group.||4.29|2.73|<.001
92452992|NCT04118348|184793586|SUPERIORITY||Odds Ratio (OR)|2.92|||<|0.001|TWO_SIDED|95.0|2.32|3.66|||Regression, Logistic||BPA-only is the numerator|HMT was set as the reference group.||3.66|2.32|<.001
92452993|NCT04118348|184793586|SUPERIORITY||Odds Ratio (OR)|1.17||||0.114|TWO_SIDED|95.0|0.96|1.43|||Regression, Logistic||BPA+HMT is the numerator|BPA was set as the reference group.||1.43|0.96|.114
92452994|NCT04118348|184793587|SUPERIORITY||Odds Ratio (OR)|2.9|||<|0.001|TWO_SIDED|95.0|2.02|4.15|||Regression, Logistic||BPA+HMT is the numerator|Passive control was set as the reference group.||4.15|2.02|<.001
92452995|NCT04118348|184793587|SUPERIORITY||Odds Ratio (OR)|2.28|||<|0.001|TWO_SIDED|95.0|1.57|3.3|||Regression, Logistic||BPA-only is the numerator|Passive control was set as the reference group.||3.30|1.57|<.001
92452996|NCT04118348|184793587|SUPERIORITY||Odds Ratio (OR)|1.54||||0.03|TWO_SIDED|95.0|1.04|2.27|||Regression, Logistic||HMT-only is the numerator|Passive control was set as the reference group.||2.27|1.04|.030
92452997|NCT04118348|184793587|SUPERIORITY||Odds Ratio (OR)|1.88|||<|0.001|TWO_SIDED|95.0|1.37|2.59|||Regression, Logistic||BPA+HMT is the numerator|HMT was set as the reference group.||2.59|1.37|<.001
92241496|NCT00872170|184386178|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.18
92241497|NCT00872170|184386179|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.97
92173400|NCT04169373|184238042|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.69|||<|0.0001|TWO_SIDED|95.0|-2.14|-1.24|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-1.24|-2.14|<0.0001
92241498|NCT00872170|184386180|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.96
92241499|NCT03302416|184386189|SUPERIORITY|Baseline scan VT vs. Post-hydrocortisone scan VT||||||0.005|||||||Linear mixed model|||||||0.005
92241500|NCT05319535|184386191|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.26|TWO_SIDED|95.0|-1.8|6.1|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); prior implementation of Caregivers First (yes vs. no)).||6.1|-1.8|0.26
92281019|NCT00266409|184465036|SUPERIORITY_OR_OTHER|||||||0.3827||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.3827
92281020|NCT00266409|184465036|SUPERIORITY_OR_OTHER|||||||0.2513||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.2513
92281021|NCT00266409|184465037|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.3930
92281022|NCT00266409|184465037|SUPERIORITY_OR_OTHER|||||||0.5461||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.5461
92281023|NCT00266409|184465038|SUPERIORITY_OR_OTHER|||||||0.0722||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.0722
92281024|NCT00266409|184465038|SUPERIORITY_OR_OTHER|||||||0.4639||95.0||||P-values based on an ANCOVA with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.4639
92173401|NCT04169373|184238043|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|34.0|||<|0.0001|TWO_SIDED|95.0|26.2|41.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|||41.8|26.2|<0.0001
92241501|NCT05319535|184386192|SUPERIORITY||rate ratio|1.7||||0.11|TWO_SIDED|95.0|0.9|3.4|||negative binomial regression|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); prior implementation of Caregivers First (yes vs. no)).||3.4|0.9|0.11
92452998|NCT04118348|184793587|SUPERIORITY||Odds Ratio (OR)|1.48||||0.021|TWO_SIDED|95.0|1.06|2.06|||Regression, Logistic||BPA-only is the numerator|HMT was set as the reference group.||2.06|1.06|.021
92452999|NCT04118348|184793587|SUPERIORITY||Odds Ratio (OR)|1.27||||0.107|TWO_SIDED|95.0|0.95|1.71|||Regression, Logistic||BPA+HMT is the numerator|BPA was set as the reference group.||1.71|0.95|.107
92453000|NCT00779246|184793588|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1|||>|0.05|TWO_SIDED|95.0|0.5|2.9|||Regression, Logistic|||Null hypothesis was that ASC and CHG would be no different in preventing acquisition of MRSA.||2.9|0.5|>0.05
92173402|NCT04169373|184238044|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.17|||<|0.0001|TWO_SIDED|95.0|-1.55|-0.8|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.80|-1.55|<0.0001
92182910|NCT02434328|184264729|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-9.9|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.7|-9.9|
92182911|NCT02434328|184264729|OTHER||Difference in proportions|-5.9|||||TWO_SIDED|95.0|-12.8|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||0.7|-12.8|
92182912|NCT02434328|184264729|OTHER||Difference in proportions|-1.9|||||TWO_SIDED|95.0|-8.2|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.8|-8.2|
92182913|NCT02434328|184264729|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-9.2|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||4.2|-9.2|
92453001|NCT01046643|184793616|SUPERIORITY_OR_OTHER|||||||0.222||95.0||||Category = Medial Frontal Cortex|t-test, 2 sided|||"Category = Medial Frontal Cortex~p-value for null hypothesis = \<0.05"||||.222
92453002|NCT01046643|184793616|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||Category = Left Hippocampus|t-test, 2 sided|||"Category = Left Hippocampus~p-value for null hypothesis = \<0.05"||||.107
92453003|NCT01046643|184793616|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||Category = Medial Frontal Cortex|t-test, 2 sided|||"Category = Right Hippocampus~p-value for null hypothesis = \<0.05"||||.127
92453004|NCT01046643|184793616|SUPERIORITY_OR_OTHER|||||||0.954||95.0||||Category = Medial Frontal Cortex|t-test, 2 sided|||"Category = Medial Frontal Cortex~p-value for null hypothesis = \<0.05"||||.954
92182914|NCT02434328|184264729|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-8.2|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||5.6|-8.2|
92453005|NCT01046643|184793616|SUPERIORITY_OR_OTHER|||||||0.385||95.0||||Category = Left Hippocampus|t-test, 2 sided|||"Category = Left Hippocampus~p-value for null hypothesis = \<0.05"||||.385
92453006|NCT01046643|184793616|SUPERIORITY_OR_OTHER|||||||0.31||95.0||||Category = Right Hippocampus|t-test, 2 sided|||"Category = Right Hippocampus~p-value for null hypothesis = \<0.05"||||.310
92453007|NCT01046643|184793617|SUPERIORITY_OR_OTHER|||||||0.594||95.0|||||t-test, 2 sided|||p-value for null hypothesis = \<0.05||||.594
92453008|NCT01046643|184793617|SUPERIORITY_OR_OTHER|||||||0.653||95.0|||||t-test, 2 sided|||p-value for null hypothesis = \<0.05||||.653
92453009|NCT01046643|184793618|SUPERIORITY_OR_OTHER|||||||0.452||95.0||||Category = Medial Frontal Cortex|t-test, 2 sided|||"Category = Medial Frontal Cortex~p-value for null hypothesis = \<0.05"||||.452
92453010|NCT01046643|184793618|SUPERIORITY_OR_OTHER|||||||0.868||95.0||||Category = Left Hippocampus|t-test, 2 sided|||"Category = Left Hippocampus~p-value for null hypothesis = \<0.05"||||.868
92453011|NCT01046643|184793618|SUPERIORITY_OR_OTHER|||||||0.549||95.0||||Category = Right Hippocampus|t-test, 2 sided|||"Category = Right Hippocampus~p-value for null hypothesis = \<0.05"||||.549
92453012|NCT01046643|184793618|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||Category = Medial Frontal Cortex|t-test, 2 sided|||"Category = Medial Frontal Cortex~p-value for null hypothesis = \<0.05"||||.124
92453013|NCT01046643|184793618|SUPERIORITY_OR_OTHER|||||||0.158||95.0||||Category = Left Hippocampus|t-test, 2 sided|||"Category = Left Hippocampus~p-value for null hypothesis = \<0.05"||||.158
92182915|NCT02434328|184264729|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-8.5|5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||5.0|-8.5|
92182916|NCT02434328|184264729|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-7.4|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.2|-7.4|
92241502|NCT05319535|184386193|SUPERIORITY||Mean Difference (Final Values)|37.6||||0.17|TWO_SIDED|95.0|-18.1|93.3|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); prior implementation of Caregivers First (yes vs. no)).||93.3|-18.1|0.17
92241503|NCT05319535|184386194|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.1|TWO_SIDED|95.0|-0.1|1.4|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); prior implementation of Caregivers First (yes vs. no)).||1.4|-0.1|0.10
92453014|NCT01046643|184793618|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||Category = Right Hippocampus|t-test, 2 sided|||"Category = Right Hippocampus~p-value for null hypothesis = \<0.05"||||.055
92453015|NCT01046643|184793619|SUPERIORITY_OR_OTHER|||||||0.561||95.0|||||t-test, 2 sided|||p-value for null hypothesis = \<0.05||||.561
92173403|NCT04169373|184238045|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|13.2|||<|0.0001|TWO_SIDED|95.0|7.4|19.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|||19.0|7.4|<0.0001
92173404|NCT04169373|184238046|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-3.07|||<|0.0001|TWO_SIDED|95.0|-3.9|-2.24|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-2.24|-3.90|<0.0001
92173405|NCT04169373|184238047|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.85|||<|0.0001|TWO_SIDED|95.0|-2.47|-1.24|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-1.24|-2.47|<0.0001
92173406|NCT04169373|184238048|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.46|-0.18|||ANCOVA|ANCOVA model including treatment and screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.18|-0.46|<0.0001
92182917|NCT02434328|184264729|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-9.8|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.0|-9.8|
92182918|NCT02434328|184264729|OTHER||Difference in proportions|-1.7|||||TWO_SIDED|95.0|-8.6|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||4.8|-8.6|
92182919|NCT02434328|184264729|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-7.8|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||6.1|-7.8|
92182920|NCT02434328|184264729|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-4.5|9.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||9.2|-4.5|
92453016|NCT01046643|184793619|SUPERIORITY_OR_OTHER|||||||0.726||95.0|||||t-test, 2 sided|||p-value for null hypothesis = \<0.05||||.726
92453017|NCT00823082|184793661|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92453018|NCT00823082|184793662|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92453019|NCT00823082|184793663|SUPERIORITY_OR_OTHER|||||||0.6115|TWO_SIDED||||||Fisher Exact|||At ICU discharge visit||||0.6115
92453020|NCT00823082|184793664|SUPERIORITY_OR_OTHER|||||||0.1211|TWO_SIDED||||||Fisher Exact|||Follow-up visit||||0.1211
92453021|NCT00823082|184793664|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||ICU discharge visit||||1.000
92453022|NCT00823082|184793665|SUPERIORITY_OR_OTHER|||||||0.487|TWO_SIDED||||||Fisher Exact|||ICU discharge visit||||0.4870
92453023|NCT00823082|184793666|SUPERIORITY_OR_OTHER|||||||0.3897|TWO_SIDED||||||Hodges-Lehmann test|||||||0.3897
92453024|NCT00823082|184793667|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0000
92453025|NCT00823082|184793668|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||Fisher Exact|||||||0.0004
92453026|NCT00823082|184793669|SUPERIORITY_OR_OTHER|||||||0.0209|TWO_SIDED||||||ANCOVA|||||||0.0209
92453027|NCT00823082|184793670|SUPERIORITY_OR_OTHER|||||||0.7433|TWO_SIDED||||||ANCOVA|||Number of units of packed red blood cells||||0.7433
92453028|NCT00823082|184793670|SUPERIORITY_OR_OTHER|||||||0.7453|TWO_SIDED||||||ANCOVA|||Units of fresh frozen plasma||||0.7453
92453029|NCT00823082|184793670|SUPERIORITY_OR_OTHER|||||||0.2705|TWO_SIDED||||||ANCOVA|||Units of platelets||||0.2705
92453030|NCT00823082|184793671|SUPERIORITY_OR_OTHER|||||||0.446|TWO_SIDED||||||Fisher Exact|||||||0.4460
92453031|NCT00823082|184793672|SUPERIORITY_OR_OTHER|||||||0.4936|TWO_SIDED||||||Fisher Exact|||||||0.4936
92453032|NCT00823082|184793673|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Follow-up visit||||1.000
92453033|NCT00823082|184793673|SUPERIORITY_OR_OTHER|||||||0.6218|TWO_SIDED||||||Fisher Exact|||ICU discharge visit||||0.6218
92453034|NCT00823082|184793674|SUPERIORITY_OR_OTHER|||||||0.9574|TWO_SIDED||||||Hodges-Lehmann|||||||0.9574
92453035|NCT00823082|184793675|SUPERIORITY_OR_OTHER|||||||0.7489|||||||Hodges-Lehmann test|||||||0.7489
92453036|NCT03452917|184793676|SUPERIORITY||Mean Difference (Final Values)|-2.9||||0.82|ONE_SIDED|95.0|-8.0||||Chi-squared||||||-8.0|0.82
92241504|NCT05319535|184386195|SUPERIORITY||rate ratio|1.3||||0.36|TWO_SIDED|95.0|0.7|2.3|||negative binomial regression|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); prior implementation of Caregivers First (yes vs. no)).||2.3|0.7|0.36
92241505|NCT05319535|184386196|SUPERIORITY||Odds Ratio (OR)|3.3||||0.17|TWO_SIDED|95.0|0.6|18.5|||Regression, Logistic|||Model included the arm indicator variable.||18.5|0.6|0.17
92453037|NCT03452917|184793676|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.66|ONE_SIDED|95.0|-6.5||||Chi-squared||||||-6.5|0.66
92453038|NCT03452917|184793677|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.44|TWO_SIDED|95.0|-6.0|2.6|||Chi-squared|||||2.6|-6.0|0.44
92453039|NCT03452917|184793677|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.85|TWO_SIDED|95.0|-4.9|4.0|||Chi-squared|||||4.0|-4.9|0.85
92453040|NCT03452917|184793678|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.12|TWO_SIDED|95.0|-0.9|5.4|||Wilcoxon (Mann-Whitney)|||||5.4|-0.9|0.12
92453041|NCT03452917|184793678|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.41|TWO_SIDED|95.0|-2.5|3.6|||Wilcoxon (Mann-Whitney)|||||3.6|-2.5|0.41
92453042|NCT03452917|184793679|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.42|TWO_SIDED|95.0|-8.3|3.5|||Chi-squared|||||3.5|-8.3|0.42
92453043|NCT03452917|184793679|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.49|TWO_SIDED|95.0|-8.0|3.9|||Chi-squared|||||3.9|-8.0|0.49
92453044|NCT03452917|184793680|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.93|TWO_SIDED|95.0|-7.8|8.6|||Chi-squared|||||8.6|-7.8|0.93
92453045|NCT03452917|184793680|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.2|TWO_SIDED|95.0|-2.8|13.3|||Chi-squared|||||13.3|-2.8|0.20
92453046|NCT03452917|184793681|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.5|TWO_SIDED|95.0|-7.7|3.8|||Chi-squared|||||3.8|-7.7|0.50
92453047|NCT03452917|184793681|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.48|TWO_SIDED|95.0|-7.8|3.7|||Chi-squared|||||3.7|-7.8|0.48
92453048|NCT03452917|184793682|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.49|TWO_SIDED|95.0|-6.0|2.6|||Chi-squared|||||2.6|-6.0|0.49
92453049|NCT03452917|184793682|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.85|TWO_SIDED|95.0|-4.9|4.0|||Chi-squared|||||4.0|-4.9|0.85
92453050|NCT03198000|184793683|EQUIVALENCE|Prespecified equivalence interval of (-0.22, 0.44).|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.049||0.392|TWO_SIDED|95.0|-0.14|0.055|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.055|-0.140|0.392
92453051|NCT03198000|184793683|EQUIVALENCE|Prespecified equivalence interval of (-0.22, 0.44)|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.049||0.828|TWO_SIDED|95.0|-0.086|0.107|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.107|-0.086|0.828
92453052|NCT03198000|184793684|EQUIVALENCE|Prespecified equivalence interval of (0.80, 1.25).|Odds Ratio (OR)|0.87||||0.576|TWO_SIDED|95.0|0.539|1.411|||GEE model|GEE model with treatment as factor.||||1.411|0.539|0.576
92453053|NCT03198000|184793684|EQUIVALENCE|Prespecified equivalence interval of (0.80, 1.25)|Odds Ratio (OR)|0.87||||0.544|TWO_SIDED|95.0|0.552|1.368|||GEE model|GEE model with treatment as factor.||||1.368|0.552|0.544
92453054|NCT03198000|184793685|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.893|TWO_SIDED|95.0|-0.085|0.074|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.074|-0.085|0.893
92453055|NCT03198000|184793685|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.886|TWO_SIDED|95.0|-0.073|0.084|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.084|-0.073|0.886
92453056|NCT03198000|184793686|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.117|TWO_SIDED|95.0|-0.177|0.02|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.020|-0.177|0.117
92453057|NCT03198000|184793686|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.049||0.255|TWO_SIDED|95.0|-0.153|0.041|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.041|-0.153|0.255
92453058|NCT03198000|184793688|EQUIVALENCE|No equivalence interval was specified.|Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.21||0.085|TWO_SIDED|95.0|-0.05|0.78|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.78|-0.05|0.085
92453059|NCT03198000|184793688|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.269|TWO_SIDED|95.0|-0.18|0.64|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.64|-0.18|0.269
92453060|NCT03198000|184793689|EQUIVALENCE|No equivalence interval was specified.|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.162|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.10|-0.60|0.162
92453061|NCT03198000|184793689|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.234|TWO_SIDED|95.0|-0.55|0.14|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.14|-0.55|0.234
92453062|NCT03198000|184793690|EQUIVALENCE|No equivalence interval was specified.|Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.398|TWO_SIDED|95.0|-0.48|0.19|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.19|-0.48|0.398
92453063|NCT03198000|184793690|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.233|TWO_SIDED|95.0|-0.54|0.13|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.13|-0.54|0.233
92453064|NCT04102501|184793738|SUPERIORITY|||||||0.5858|||||||Mixed Models Analysis|||||||0.5858
92453065|NCT04102501|184793739|SUPERIORITY|||||||0.8061|||||||Mixed Models Analysis|||||||0.8061
92241506|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.0||||0.9946|TWO_SIDED|95.0|0.83|1.2|||Regression, Cox|Cox regression of time to first vascular AE. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/ Placebo\].|Time to first vascular AE (SAF-M1)||1.20|0.83|0.9946
92173407|NCT04169373|184238049|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.0|-0.9|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.9|-2.0|<0.0001
92241507|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.95||||0.7474|TWO_SIDED|95.0|0.72|1.27|||Regression, Cox|Cox regression of time to first vascular AE. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus placebo. \[Treatment/Placebo\].|Time to first vascular AE (SAF-M2)||1.27|0.72|0.7474
92241508|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.03||||0.7943|TWO_SIDED|95.0|0.81|1.31|||Regression, Cox|Cox regression for time to first vascular AE on-treatment. Cox regression model with a term for treatment.|Comparison vs. Placebo \[Treatment / Placebo\]|Time to first vascular AE (Trial NCT01131676, all empagliflozin (10 and 25 mg vs. Placebo))||1.31|0.81|0.7943
92453066|NCT03176693|184793757|EQUIVALENCE|A power analysis was calculated based on findings reported by Weingarten et al. of more frequent episodes of hypotension (defined as difference of mean systolic blood pressure \<30% from baseline) in phenoxybenzamine compared with doxazosin (15.7% versus 5.1%). Using a standard deviation of 16 and 11 (derived from reported interquartile ranges, assuming normal distribution), respectively, to achieve 80% power using an alpha =.05, a total sample size of 56 patients was determined.||||||0.56||||||Threshold for statistical significance = 0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis: hemodynamic instability time will not differ between arms||||.56
92453067|NCT03325712|184793764|OTHER||Slope|0.8188|STANDARD_ERROR_OF_MEAN|0.0725|||TWO_SIDED|90.0|0.6966|0.941|||||Based on the estimate for slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is standard error of slope.|The basic model for the investigation of dose proportionality is a power model that describes the functional relationship between the dose and PK endpoints. Statistical hypotheses were not tested in a confirmatory sense.||0.9410|0.6966|
92453068|NCT03325712|184793765|OTHER||Slope|0.7708|STANDARD_ERROR_OF_MEAN|0.0747|||TWO_SIDED|90.0|0.6449|0.8967|||||Based on the estimate for slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is standard error of slope.|The basic model for the investigation of dose proportionality is a power model that describes the functional relationship between the dose and PK endpoints. Statistical hypotheses were not tested in a confirmatory sense.||0.8967|0.6449|
92453069|NCT03325712|184793766|OTHER||Slope|0.7167|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|90.0|0.4922|0.9412|||||Based on the estimate for slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is standard error of slope.|The basic model for the investigation of dose proportionality is a power model that describes the functional relationship between the dose and PK endpoints. Statistical hypotheses were not tested in a confirmatory sense.||0.9412|0.4922|
92453070|NCT03325712|184793767|OTHER||Slope|0.6825|STANDARD_ERROR_OF_MEAN|0.1344|||TWO_SIDED|90.0|0.4556|0.9094|||||Based on the estimate for slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is standard error of slope.|The basic model for the investigation of dose proportionality is a power model that describes the functional relationship between the dose and PK endpoints. Statistical hypotheses were not tested in a confirmatory sense.||0.9094|0.4556|
92453071|NCT03325712|184793768|OTHER||Ratio (T/R)|102.81|STANDARD_DEVIATION|17.5|||TWO_SIDED|90.0|87.18|121.25||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"Placebo matching BI 705564. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||121.25|87.18|
92453072|NCT03325712|184793768|OTHER||Ratio (T/R)|93.06|STANDARD_DEVIATION|17.4|||TWO_SIDED|90.0|79.94|108.32||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 2. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||108.32|79.94|
92453073|NCT03325712|184793768|OTHER||Ratio (T/R)|109.82|STANDARD_DEVIATION|5.0|||TWO_SIDED|90.0|103.59|116.42||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 3. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||116.42|103.59|
92241509|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.97||||0.8518|TWO_SIDED|95.0|0.69|1.36|||Regression, Cox|Cox regression for time to first vascular AE on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs. Placebo \[Treatment / Placebo\].|Time to first vascular AE (Trial NCT03057951)||1.36|0.69|0.8518
92453074|NCT03325712|184793768|OTHER||Ratio ( T/R)|108.37|STANDARD_DEVIATION|17.4|||TWO_SIDED|90.0|92.0|127.66||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 5. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||127.66|92.00|
92173408|NCT04169373|184238050|OTHER||LS Mean Difference|-3.31|||<|0.0001|TWO_SIDED|95.0|-4.5|-2.12||This comparison was not part of the pre-specified multiplicity testing sequence.|ANCOVA|ANCOVA model including treatment and screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-2.12|-4.50|<0.0001
92173409|NCT04169373|184238051|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-0.65|||<|0.0001|TWO_SIDED|95.0|-0.85|-0.45|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-0.45|-0.85|<0.0001
92173410|NCT04169373|184238052|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-3.06|||<|0.0001|TWO_SIDED|95.0|-4.08|-2.04|||ANCOVA|ANCOVA model including treatment, main stratification factor, treatment and stratification factor interaction and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-2.04|-4.08|<0.0001
92173411|NCT04169373|184238053|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|20.1||||0.0001|TWO_SIDED|95.0|10.1|30.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||30.1|10.1|0.0001
92173412|NCT04169373|184238053|OTHER||Odds Ratio (OR)|2.6|||||TWO_SIDED|95.0|1.6|4.2|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||4.2|1.6|
92182921|NCT02434328|184264729|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-8.6|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.9|-8.6|
92281025|NCT00266409|184465039|SUPERIORITY_OR_OTHER|||||||0.0075||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.0075
92182922|NCT02434328|184264729|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-5.8|7.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||7.5|-5.8|
92453075|NCT03325712|184793768|OTHER||Ratio (T/R)|109.11|STANDARD_DEVIATION|17.6|||TWO_SIDED|90.0|92.43|128.79||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 4. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||128.79|92.43|
92453076|NCT03325712|184793769|OTHER||Ratio (T/R)|100.1|STANDARD_DEVIATION|18.7|||TWO_SIDED|90.0|83.99|119.31||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"Placebo matching BI 705564. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||119.31|83.99|
92453077|NCT03325712|184793769|OTHER||Ratio (T/R)|84.43|STANDARD_DEVIATION|16.5|||TWO_SIDED|90.0|72.29|98.62||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 2. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||98.62|72.29|
92453078|NCT03325712|184793769|OTHER||Ratio (T/R)|109.41|STANDARD_DEVIATION|13.1|||TWO_SIDED|90.0|94.34|126.88||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 3. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||126.88|94.34|
92453079|NCT03325712|184793769|OTHER||Ratio (T/R)|95.44|STANDARD_DEVIATION|19.1|||TWO_SIDED|90.0|79.75|114.21||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 5. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||114.21|79.75|
92453080|NCT03325712|184793769|OTHER||Ratio (T/R)|90.04|STANDARD_DEVIATION|25.9|||TWO_SIDED|90.0|70.75|114.59||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 4. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||114.59|70.75|
92241510|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.93||||0.766|TWO_SIDED|95.0|0.56|1.53|||Regression, Cox|Cox regression for time to first vascular AE on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first vascular AE (Trial NCT03057977)||1.53|0.56|0.7660
92241511|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.15||||0.3612|TWO_SIDED|95.0|0.85|1.55|||Regression, Cox|Cox regression of time to first diabetic foot related AE. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus placebo \[Treatment/Placebo\].|Time to first diabetic foot related AE (SAF-M1)||1.55|0.85|0.3612
92241512|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.44||||0.161|TWO_SIDED|95.0|0.86|2.4|||Regression, Cox|Cox regression of time to first diabetic foot related AE. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first diabetic foot related AE (SAF-M2)||2.40|0.86|0.1610
92241513|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.02||||0.9128|TWO_SIDED|95.0|0.71|1.47|||Regression, Cox|Cox regression for time to first diabetic foot related AE on treatment. Cox regression model with a term for treatment.|Comparison vs. Placebo \[Treatment/Placebo\]|Time to first diabetic foot related AE (Trial NCT01131676, all empagliflozin (10 and 25 mg) vs. Placebo)||1.47|0.71|0.9128
92241514|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.81||||0.5276|TWO_SIDED|95.0|0.43|1.54|||Regression, Cox|Cox regression for time to first diabetic foot related AE. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs. Placebo \[Treatment/Placebo\]|Time to first diabetic foot related AE (Trial NCT03057951)||1.54|0.43|0.5276
92241515|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|4.72||||0.0048|TWO_SIDED|95.0|1.6|13.87|||Regression, Cox|Cox regression for time to first diabetic foot related AE. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment / Placebo\]|Time to first diabetic foot related AE (Trial NCT03057977)||13.87|1.60|0.0048
92453081|NCT02265237|184793770|SUPERIORITY|97.5% CI was calculated using the Wilson score method; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 67% to achieve superiority. The predefined threshold of 67% was based on historical SVR rates for HCV genotype 4 (GT4)-infected subjects treated with pegIFN/RBV.|Percentage of Participants|100.0|||||TWO_SIDED|97.5|92.4|100.0|||||The confidence interval was calculated using the Wilson score method.|The overall 2-sided significance level of 0.05 was split between Part I (arms A and B) and Part II (arm C) using a Bonferroni corrected alpha level of 0.025 for each part. Additionally, a fixed sequence procedure for Part I was used to proceed through the primary efficacy comparisons in the following order: 1) test of superiority of arm B and 2) test of superiority of arm A. The primary outcome within Arm C was tested with a Bonferroni-corrected Type 1 error rate of 0.025 for superiority.||100.0|92.4|
92453082|NCT02265237|184793770|SUPERIORITY|97.5% confidence interval (CI) was calculated using the Wilson score method; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 67% to achieve superiority. The predefined threshold of 67% was based on historical SVR rates for HCV GT4-infected subjects treated with pegIFN/RBV.|Percentage of Participants|96.6|||||TWO_SIDED|97.5|86.7|99.2|||||The confidence interval was calculated using the Wilson score method.|The overall 2-sided significance level of 0.05 was split between Part I (arms A and B) and Part II (arm C) using a Bonferroni corrected alpha level of 0.025 for each part. Additionally, a fixed sequence procedure for Part I was used to proceed through the primary efficacy comparisons in the following order: 1) test of superiority of arm B and 2) test of superiority of arm A. The primary outcome within Arm C was tested with a Bonferroni-corrected Type 1 error rate of 0.025 for superiority.||99.2|86.7|
92453083|NCT02265237|184793770|SUPERIORITY|97.5% CI was calculated using the Wilson score method; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 67% to achieve superiority. The predefined threshold of 67% was based on historical SVR rates for HCV genotype 4 (GT4)-infected subjects treated with pegIFN/RBV.|Percentage of Participants|93.4|||||TWO_SIDED|97.5|82.6|97.7|||||The confidence interval was calculated using the Wilson score method.|The overall 2-sided significance level of 0.05 was split between Part I (arms A and B) and Part II (arm C) using a Bonferroni corrected alpha level of 0.025 for each part. Additionally, a fixed sequence procedure for Part I was used to proceed through the primary efficacy comparisons in the following order: 1) test of superiority of arm B and 2) test of superiority of arm A. The primary outcome within Arm C was tested with a Bonferroni-corrected Type 1 error rate of 0.025 for superiority.||97.7|82.6|
92453084|NCT02265237|184793771|SUPERIORITY|Treatment differences (with 95% confidence intervals) and corresponding P-value for the specified comparisons were estimated using stratum adjusted Mantel-Haenszel (MH) proportion and continuity-corrected variance, adjusting for IFN/RBV treatment history (treatment-naïve or treatment-experienced).|Stratum-Adjusted MH Difference|-3.39||||0.304|TWO_SIDED|95.0|-9.85|3.07|||Mantel Haenszel|||Within Part I (arm A and B), since superiority was demonstrated for both arms in the primary outcome measures, testing continued to the first secondary outcome measure.||3.07|-9.85|0.304
92241516|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.89||||0.1526|TWO_SIDED|95.0|0.77|1.04|||Regression, Cox|Cox regression of time to first infections potentially related to LLA's. Cox regression with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first infections potentially related to LLA's (SAF-M1)||1.04|0.77|0.1526
92241517|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.96||||0.743|TWO_SIDED|95.0|0.76|1.21|||Regression, Cox|Cox regression of time to first infection potentially related to LLA's. Cox regression with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first infection potentially related to LLA's (SAF-M2)||1.21|0.76|0.7430
92281026|NCT00266409|184465039|SUPERIORITY_OR_OTHER|||||||0.1641||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A psychic factors subscore as a covariate|ANCOVA|||||||0.1641
92241518|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.85||||0.1049|TWO_SIDED|95.0|0.69|1.04|||Regression, Cox|Cox regression for infections potentially related to LLA-on treatment. Cox regression model with a term for treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first infections potentially related to LLA (Trial NCT01131676, all Empagliflozin (10 mg and 25 mg) vs. Placebo)||1.04|0.69|0.1049
92281027|NCT00266409|184465040|SUPERIORITY_OR_OTHER|||||||0.0932||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.0932
92241519|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.89||||0.395|TWO_SIDED|95.0|0.67|1.17|||Regression, Cox|Cox regression for infections potentially related to LLA on treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first infections potentially related to LLA (Trial NCT03057951)||1.17|0.67|0.3950
92281028|NCT00266409|184465040|SUPERIORITY_OR_OTHER|||||||0.0852||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.0852
92241520|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.19||||0.4429|TWO_SIDED|95.0|0.76|1.87|||Regression, Cox|Cox regression for infections potentially related to LLA on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first infections potentially related to LLA (Trial NCT03057977)||1.87|0.76|0.4429
92241521|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.89||||0.3396|TWO_SIDED|95.0|0.7|1.13|||Regression, Cox|Cox regression of time to first wound infections. Cox regression with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first wound/infection (SAF-M1)||1.13|0.70|0.3396
92241522|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.7||||0.105|TWO_SIDED|95.0|0.46|1.08|||Regression, Cox|Cox regression of time to first wound infections. Cox regression with terms for study, baseline diabetes status and treatment|Comparison versus Placebo \[Treatment/Placebo\].|Time to first wound/infection (SAF-M2)||1.08|0.46|0.1050
92453085|NCT02265237|184793772|SUPERIORITY|Treatment differences (with 95% confidence intervals) and corresponding P-value for the specified comparisons were estimated using stratum adjusted Mantel-Haenszel proportion and continuity-corrected variance, adjusting for IFN/RBV treatment history (treatment-naïve or treatment-experienced).|Stratum-Adjusted MH Difference|6.45||||0.086|TWO_SIDED|95.0|-0.91|13.81|||Mantel Haenszel|||Within Part II (arm C), since superiority was demonstrated for the primary outcome measure, testing continued to the second secondary outcome measure.||13.81|-0.91|0.086
92453086|NCT00839072|184793796|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LS means) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax does not exceed 125%.|Ratio of the mean|59.66|||||TWO_SIDED|90.0|50.99|69.81|||||Trazodone Contramid® OAD/Desyrel®|||69.81|50.99|
92453087|NCT00839072|184793797|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUCT is between 80% and 125%.|Ratio of the mean|78.55|||||TWO_SIDED|90.0|69.7|88.51|||||Trazodone Contramid® OAD/Desyrel®|||88.51|69.70|
92453088|NCT00839072|184793798|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC∞ is between 80% and 125%.|Ratio of the mean|80.05|||||TWO_SIDED|90.0|70.67|90.68|||||Trazodone Contramid® OAD/Desyrel®|||90.68|70.67|
92453089|NCT00380068|184793802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.5|STANDARD_DEVIATION|65.64|<|0.001||95.0|11.8|29.3|||t-test, 2 sided|Paired t-test on change from Baseline to Week 24||||29.3|11.8|<0.001
92453090|NCT00380068|184793803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|2.11|<|0.001||95.0|-0.8|-0.3|||t-test, 2 sided|Paired t-test on change from Baseline to Week 24||||-0.3|-0.8|<0.001
92453091|NCT00380068|184793804|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.001||95.0|-1.0|-0.2|||t-test, 2 sided|Paired t-test on change from Baseline to Week 48||||-0.2|-1.0|0.001
92281029|NCT00266409|184465041|SUPERIORITY_OR_OTHER|||||||0.7896||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.7896
92453092|NCT00380068|184793805|SUPERIORITY_OR_OTHER||Percent change from baseline|-25.5||||||95.0|-33.6|-16.3|||||Percent change from baseline derived from Geometric Mean Ratio|||-16.3|-33.6|
92453093|NCT00380068|184793806|SUPERIORITY_OR_OTHER||Percent change from baseline|-29.2||||||95.0|-39.8|-16.6|||||Percent change from baseline derived from Geometric Mean Ratio|||-16.6|-39.8|
92453094|NCT00380068|184793807|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical test performed on actual change from baseline WHO functional Class (eg, a change from WHO Class III to II is -1; a change from WHO Class IV to II is -2; etc).|Wilcoxon signed-rank test|||||||<0.001
92453095|NCT00380068|184793808|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical test performed on actual change from baseline WHO functional Class (eg, a change from WHO Class III to II is -1; a change from WHO Class IV to II is -2; etc).|Wilcoxon signed-rank test|||||||<0.001
92453096|NCT00380068|184793809|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|Paired t-test on change from Baseline to Week 24||||||<0.001
92453097|NCT00380068|184793810|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|Paired t-test on change from Baseline to Week 48||||||<0.001
92453098|NCT00380068|184793811|SUPERIORITY_OR_OTHER||percent event free|89.4||||||95.0|84.4|92.8|||||Estimate obtained through Kaplan-Meier methods|||92.8|84.4|
92453099|NCT00380068|184793812|SUPERIORITY_OR_OTHER||percent event free|84.1||||||95.0|78.2|88.6|||||Estimate obtained through Kaplan-Meier methods|||88.6|78.2|
92453100|NCT00380068|184793813|SUPERIORITY_OR_OTHER||percent event free|95.3||||||95.0|91.4|97.4|||||Estimate obtained through Kaplan-Meier methods|||97.4|91.4|
92453101|NCT00380068|184793814|SUPERIORITY_OR_OTHER||percent event free|92.9||||||95.0|88.3|95.8|||||Estimate obtained through Kaplan-Meier methods|||95.8|88.3|
92453102|NCT00380068|184793815|SUPERIORITY_OR_OTHER||percent event free|95.0||||||95.0|88.5|97.9|||||Estimate obtained through Kaplan-Meier methods|||97.9|88.5|
92453103|NCT00380068|184793816|SUPERIORITY_OR_OTHER||percent event free|90.0||||||95.0|81.6|94.7|||||Estimate obtained through Kaplan-Meier methods|||94.7|81.6|
92281030|NCT00266409|184465041|SUPERIORITY_OR_OTHER|||||||0.9651||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.9651
92173413|NCT04169373|184238054|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|8.8||||0.0063|TWO_SIDED|95.0|2.5|15.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||15.2|2.5|0.0063
92241523|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.0||||0.9919|TWO_SIDED|95.0|0.74|1.35|||Regression, Cox|Cox regression for time to first wound/infection on-treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first wound/infection (Trial NCT01131676, all Empagliflozin (10 mg and 25 mg) vs Placebo)||1.35|0.74|0.9919
92241524|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.79||||0.3634|TWO_SIDED|95.0|0.48|1.31|||Regression, Cox|Cox regression for time to first wound/infection on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first wound/infection (Trial NCT03057951)||1.31|0.48|0.3634
92241525|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.52||||0.1177|TWO_SIDED|95.0|0.23|1.18|||Regression, Cox|Cox regression for time to first wound/infection on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first wound/infection (Trial NCT03057977)||1.18|0.23|0.1177
92281031|NCT00266409|184465042|SUPERIORITY_OR_OTHER|||||||0.828||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.8280
92453104|NCT00380068|184793817|SUPERIORITY_OR_OTHER||percent event free|97.1||||||95.0|93.6|98.7|||||Estimate obtained through Kaplan-Meier methods|||98.7|93.6|
92453105|NCT00380068|184793818|SUPERIORITY_OR_OTHER||percent event free|95.3||||||95.0|91.2|97.6|||||Estimate obtained through Kaplan-Meier methods|||97.6|91.2|
92453106|NCT01297062|184793819|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is established if the upper limit of 2-sided 90% confidence interval (CI), equivalent to the upper limit of 1-sided 95% CI, for change from baseline in QTcP (exenatide - placebo) is below 10 msec.|Least Squares Mean Difference|-1.36|||||TWO_SIDED|90.0|-2.21|-0.5||No adjustment on CI for the primary outcome measure.|Mixed Models Analysis||The MMRM includes Treatment (Exenatide versus Placebo), Day, Time, Period, Sequence, and Day-Time-Treatment interaction as fixed effects, subject random intercept.|60 evaluable subjects gives more than 90% power to show non-inferiority of exenatide versus placebo, using t-test in 2-way crossover, alpha=0.05, true difference of 5 msec, and standard deviation of the within-subject difference of 10.04 msec.||-0.50|-2.21|
92453107|NCT01297062|184793820|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is established if the upper limit of 2-sided 90% CI, equivalent to the upper limit of 1-sided 95% CI, for change from baseline in QTcP (exenatide - placebo) is below 10 msec.|Least Squares Mean Difference|-2.02|||||TWO_SIDED|90.0|-2.88|-1.16||No adjustment on CI for the primary outcome measure.|Mixed Models Analysis||The MMRM includes Treatment (Exenatide versus Placebo), Day, Time, Period, Sequence, and Day-Time-Treatment interaction as fixed effects, subject random intercept.|60 evaluable subjects gives more than 90% power to show non-inferiority of exenatide versus placebo, using t-test in 2-way crossover, alpha=0.05, true difference of 5 msec, and standard deviation of the within-subject difference of 10.04 msec.||-1.16|-2.88|
92453108|NCT01297062|184793821|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is established if the upper limit of 2-sided 90% CI, equivalent to the upper limit of 1-sided 95% CI, for change from baseline in QTcP (exenatide - placebo) is below 10 msec.|Least Squares Mean Difference|-1.13|||||TWO_SIDED|90.0|-2.11|-0.15||No adjustment on CI for the primary outcome measure.|Mixed Models Analysis||The MMRM includes Treatment (Exenatide versus Placebo), Day, Time, Period, Sequence, and Day-Time-Treatment interaction as fixed effects, subject random intercept.|60 evaluable subjects gives more than 90% power to show non-inferiority of exenatide versus placebo, using t-test in 2-way crossover, alpha=0.05, true difference of 5 msec, and standard deviation of the within-subject difference of 10.04 msec.||-0.15|-2.11|
92453109|NCT01297062|184793822|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.47|||||TWO_SIDED|90.0|2.82|8.12|||Mixed Models Analysis||The MMRM includes Treatment (Moxifloxacin versus Placebo), Time, Period, Sequence, and Time-Treatment interaction as fixed effects, subject random intercept. Multiplicity adjusted CI for the mean difference is shown.|Assay sensitivity of moxifloxacin is established if the lower limit of the 2-sided 90% CI for difference in change from baseline in QTcP (moxifloxacin - placebo) is greater than 5 msec.||8.12|2.82|
92453110|NCT01297062|184793823|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|10.56|||||TWO_SIDED|90.0|8.46|12.67|||Mixed Models Analysis||The MMRM includes Treatment (Moxifloxacin versus Placebo), Time, Period, Sequence, and Time-Treatment interaction as fixed effects, subject random intercept. Multiplicity adjusted CI for the mean difference is shown.|Assay sensitivity of moxifloxacin is established if the lower limit of the 2-sided 90% CI for difference in change from baseline in QTcP (moxifloxacin - placebo) is greater than 5 msec.||12.67|8.46|
92281032|NCT00266409|184465042|SUPERIORITY_OR_OTHER|||||||0.0936||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.0936
92281033|NCT00266409|184465043|SUPERIORITY_OR_OTHER|||||||0.3539||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.3539
92281034|NCT00266409|184465043|SUPERIORITY_OR_OTHER|||||||0.4672||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.4672
92453111|NCT01297062|184793824|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|10.92|||||TWO_SIDED|90.0|8.71|13.13|||Mixed Models Analysis||The MMRM includes Treatment (Moxifloxacin versus Placebo), Time, Period, Sequence, and Time-Treatment interaction as fixed effects, subject random intercept. Multiplicity adjusted CI for the mean difference is shown.|Assay sensitivity of moxifloxacin is established if the lower limit of the 2-sided 90% CI for difference in change from baseline in QTcP (moxifloxacin - placebo) is greater than 5 msec.||13.13|8.71|
92453112|NCT01297062|184793827|SUPERIORITY_OR_OTHER||Slope|0.0008||||0.5962|TWO_SIDED|90.0|-0.0017|0.0033|||Mixed Models Analysis||The linear mixed-effects model includes placebo-adjusted change from baseline in QTcP as response, plasma exenatide concentration as covariate, fixed intercept of zero, subject random slope.|The analysis is to test the significance of the linear regression slope (null hypothesis: slope equal to zero) between placebo-adjusted change from baseline in QTcP and exenatide concentration.||0.0033|-0.0017|0.5962
92453113|NCT03191903|184793828|SUPERIORITY|||||||0.5874|||||||ANOVA|||||||0.5874
92453114|NCT03191903|184793829|SUPERIORITY|||||||0.0829|||||||ANOVA|||||||0.0829
92453115|NCT03191903|184793830|SUPERIORITY|||||||0.4673|||||||ANOVA|||||||0.4673
92453116|NCT03191903|184793831|SUPERIORITY|||||||0.9408|||||||ANOVA|||||||0.9408
92453117|NCT03191903|184793832|SUPERIORITY|||||||0.777|||||||ANOVA|||||||0.7770
92453118|NCT03191903|184793833|SUPERIORITY|||||||0.759|||||||ANOVA|||||||0.7590
92453119|NCT03191903|184793834|SUPERIORITY|||||||0.8309|||||||ANOVA|||||||0.8309
92453120|NCT03191903|184793835|SUPERIORITY|||||||0.6215|||||||ANOVA|||||||0.6215
92453121|NCT03191903|184793836|SUPERIORITY|||||||0.216|||||||ANOVA|||||||0.2160
92453122|NCT03191903|184793837|SUPERIORITY|||||||0.7026|||||||ANOVA|||||||0.7026
92453123|NCT03191903|184793838|SUPERIORITY|||||||0.0438|||||||ANOVA|||||||0.0438
92453124|NCT03149328|184793839|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates).||||||0.3||||||Threshold for statistical significance was p=0.05|ANCOVA|||We will examine the trajectories of outcome measures for patients in the comparator and intervention groups. The area under the curve (AUC) will be calculated for each trajectory during the period that the patient is participating to create a summary score. Null Hypothesis is that both groups are the same.||||0.30
92453125|NCT03149328|184793840|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates).||||||0.28|||||||ANCOVA|||We will examine the trajectories of outcome measures for patients in the comparator and intervention groups. The area under the curve (AUC) will be calculated for each trajectory during the period that the patient is participating to create a summary score. Null Hypothesis = both groups are the same||||0.28
92453126|NCT03149328|184793841|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates)||||||0.22||||||Threshold for statistical Significance was p = 0.05|ANCOVA|||"Analysis of covariance (ANCOVA) will be used as the method of analysis to compare outcomes of both groups while controlling for within- and between-group differences, such as comorbidities, gender, age and dialysis type. ANCOVA is necessary to control for baseline and potential confounders.~Null hypotheses = No difference between groups in the number of hospitalizations"||||0.22
92453127|NCT03149328|184793841|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates)||||||0.1||||||Threshold for statistical Significance was p = 0.05|ANCOVA|||"Analysis of covariance (ANCOVA) will be used as the method of analysis to compare outcomes of both groups while controlling for within- and between-group differences, such as comorbidities, gender, age and dialysis type. ANCOVA is necessary to control for baseline and potential confounders.~Null hypotheses = No difference between groups in the number of emergency room visits"||||0.10
92453128|NCT03149328|184793842|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates)||||||0.18||||||Threshold for statistical significance p = 0.05|ANCOVA|||"Analysis of covariance (ANCOVA) will be used as the method of analysis to compare outcomes of both groups while controlling for within- and between-group differences, such as comorbidities, gender, age and dialysis type. ANCOVA is necessary to control for baseline and potential confounders.~Null hypotheses = No difference between groups"||||0.18
92281035|NCT00266409|184465044|SUPERIORITY_OR_OTHER|||||||0.255||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.2550
92173414|NCT04169373|184238054|OTHER||Odds Ratio (OR)|3.0|||||TWO_SIDED|95.0|1.3|7.0|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||7.0|1.3|
92241526|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.0||||0.9992|TWO_SIDED|95.0|0.84|1.19|||Regression, Cox|Cox regression of time to first nervous system disorder. Cox regression with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first nervous system disorder (SAF-M1)||1.19|0.84|0.9992
92453129|NCT03149328|184793843|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates)||||||0.79||||||Threshold for statistical significance p = 0.05|ANCOVA|||"Analysis of covariance (ANCOVA) will be used as the method of analysis to compare outcomes of both groups while controlling for within- and between-group differences, such as comorbidities, gender, age and dialysis type. ANCOVA is necessary to control for baseline and potential confounders.~Null hypotheses = No difference between groups"||||0.79
92453130|NCT03149328|184793844|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates)|||||<|0.001||||||Threshold for statistical significance p = 0.05|ANCOVA|||"Analysis of covariance (ANCOVA) will be used as the method of analysis to compare outcomes of both groups while controlling for within- and between-group differences, such as comorbidities, gender, age and dialysis type. ANCOVA is necessary to control for baseline and potential confounders.~Null hypotheses = No difference between groups"||||<0.001
92453131|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|-0.541|STANDARD_ERROR_OF_MEAN|0.156||0.001|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Anxiety||||0.001
92453132|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|-0.149|STANDARD_ERROR_OF_MEAN|0.161||0.356|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count; a=0.05|Mixed Models Analysis|||Cough or Shortness of Breath||||0.356
92453133|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|-0.533|STANDARD_ERROR_OF_MEAN|0.163||0.001|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Depression||||0.001
92453134|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.141||0.962|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Diarrhea||||0.962
92453135|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|-0.073|STANDARD_ERROR_OF_MEAN|0.162||0.651|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Difficulty falling or staying asleep||||0.651
92453136|NCT02897141|184793880|SUPERIORITY|Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mean Difference (Final Values)|-0.174|STANDARD_ERROR_OF_MEAN|0.145||0.23|TWO_SIDED||||||Mixed Models Analysis|||Difficulty remembering||||0.230
92453137|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|-0.138|STANDARD_ERROR_OF_MEAN|0.126||0.275|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Dizziness||||0.275
92453138|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.175||0.987|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Fatigue||||0.987
92453139|NCT02897141|184793880|SUPERIORITY||Mean Difference (Net)|-0.275|STANDARD_ERROR_OF_MEAN|0.132||0.037|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Fever, chills, sweats||||0.037
92453140|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.101||0.534|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Nausea or vomiting||||0.534
92453141|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|-0.485|STANDARD_ERROR_OF_MEAN|0.157||0.002|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Neuropathy||||0.002
92453142|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.139||0.349|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Skin problems||||0.349
92453143|NCT02897141|184793880|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.107||0.02|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Weight loss or wasting||||0.020
92453144|NCT02897141|184793881|SUPERIORITY|\[Not specified\]|Mean Difference (Final Values)|-3.06|STANDARD_ERROR_OF_MEAN|7.27||0.001|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|\[Not specified\]|\[Not specified\]|Physical functioning scale||||0.001
92453145|NCT02897141|184793881|SUPERIORITY|\[Not specified\]|Median Difference (Final Values)|7.47|STANDARD_ERROR_OF_MEAN|10.02||0.458|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|\[Not specified\]|\[Not specified\]|Role limitations due to physical health scale||||0.458
92453146|NCT02897141|184793881|SUPERIORITY|\[Not specified\]|Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|9.91||0.725|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|\[Not specified\]|\[Not specified\]|Role limitations due to emotional problems scale||||0.725
92453147|NCT02897141|184793881|SUPERIORITY|\[Not specified\]|Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|4.09||0.807|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|\[Not specified\]|\[Not specified\]|Energy/fatigue scale|\[Not specified\]|||0.807
92453148|NCT02897141|184793881|SUPERIORITY||Mean Difference (Final Values)|1.48|STANDARD_ERROR_OF_MEAN|3.73||0.693|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Emotional well-being scale||||0.693
92453149|NCT02897141|184793881|SUPERIORITY||Mean Difference (Final Values)|-8.93|STANDARD_ERROR_OF_MEAN|5.8||0.128|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Social functioning scale||||0.128
92241527|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.09||||0.6274|TWO_SIDED|95.0|0.78|1.52|||Regression, Cox|Cox regression of time to first nervous system disorder. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first nervous system disorder (SAF-M2)||1.52|0.78|0.6274
92173415|NCT04169373|184238055|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-0.92||||0.0004|TWO_SIDED|95.0|-1.42|-0.41|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-0.41|-1.42|0.0004
92241528|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|0.97||||0.7597|TWO_SIDED|95.0|0.79|1.19|||Regression, Cox|Cox regression for time to first nervous system disorder on-treatment. Cox regression model with a term for treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first nervous system disorder (Trial NCT01131676, all Empagliflozin (10 mg and 25 mg) vs Placebo)||1.19|0.79|0.7597
92281036|NCT00266409|184465044|SUPERIORITY_OR_OTHER|||||||0.3125||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.3125
92182923|NCT02434328|184264729|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-5.1|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||8.4|-5.1|
92182924|NCT02434328|184264729|OTHER||Difference in proportions|4.2|||||TWO_SIDED|95.0|-2.8|10.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||10.9|-2.8|
92182925|NCT02434328|184264729|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-9.3|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.1|-9.3|
92182926|NCT02434328|184264729|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-6.1|7.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||7.7|-6.1|
92182927|NCT02434328|184264729|OTHER||Difference in proportions|3.7|||||TWO_SIDED|95.0|-3.0|10.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||10.4|-3.0|
92241529|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.08||||0.7067|TWO_SIDED|95.0|0.74|1.57|||Regression, Cox|Cox regression for time to first nervous system disorder on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first nervous system disorder (Trial NCT03057951)||1.57|0.74|0.7067
92241530|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.12||||0.7404|TWO_SIDED|95.0|0.56|2.25|||Regression, Cox|Cox regression for time to first nervous system disorder on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|time to first nervous system disorder (Trial NCT03057977)||2.25|0.56|0.7404
92241531|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.21||||0.1765|TWO_SIDED|95.0|0.92|1.58|||Regression, Cox|Cox regression of time to first volume depletion AE. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first volume depletion AE (SAF-M1)||1.58|0.92|0.1765
92241532|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.22||||0.1978|TWO_SIDED|95.0|0.9|1.66|||Regression, Cox|Cox regression of time to first volume depletion AE. Cox regression with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first volume depletion AE (SAF-M2)||1.66|0.90|0.1978
92453150|NCT02897141|184793881|SUPERIORITY||Mean Difference (Final Values)|-14.33|STANDARD_ERROR_OF_MEAN|5.18||0.007|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Pain scale||||0.007
92453151|NCT02897141|184793881|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|3.93||0.96|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||General health scale||||0.960
92453152|NCT02897141|184793881|SUPERIORITY||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|4.47||0.836|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Physical health summary scale||||0.836
92453153|NCT02897141|184793881|SUPERIORITY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|3.6||0.822|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Mental health summary scale||||0.822
92453154|NCT02897141|184793882|SUPERIORITY||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|1.25||0.529|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Physical Function||||0.529
92241533|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.14||||0.6561|TWO_SIDED|95.0|0.64|2.05|||Regression, Cox|Cox regression for time to first volume depletion on-treatment. Cox regression model with a term for treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first volume depletion (Trial NCT01131676, all Empagliflozin (10 mg and 25 mg) vs Placebo)||2.05|0.64|0.6561
92241534|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.29||||0.1699|TWO_SIDED|95.0|0.9|1.87|||Regression, Cox|Cox regression for time to first volume depletion on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first volume depletion (Trial NCT03057951)||1.87|0.90|0.1699
92241535|NCT04937816|184386213|OTHER||Hazard Ratio (HR)|1.08||||0.7944|TWO_SIDED|95.0|0.62|1.87|||Regression, Cox|Cox regression for time to first volume depletion on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first volume depletion (Trial NCT03057977)||1.87|0.62|0.7944
92241536|NCT04937816|184386214|OTHER||Hazard Ratio (HR)|1.02||||0.9276|TWO_SIDED|95.0|0.73|1.42|||Regression, Cox|Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus placebo \[Treatment/Placebo\].|||1.42|0.73|0.9276
92241537|NCT04937816|184386214|OTHER||Hazard Ratio (HR)|0.85||||0.6205|TWO_SIDED|95.0|0.45|1.6|||Regression, Cox|Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus placebo \[Treatment/Placebo\]|||1.60|0.45|0.6205
92241538|NCT04937816|184386214|OTHER||Hazard Ratio (HR)|1.09||||0.6768|TWO_SIDED|95.0|0.73|1.63|||Regression, Cox|Cox regression model with terms for treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Empagliflozin (10 mg + 25 mg) versus Placebo.||1.63|0.73|0.6768
92241539|NCT04937816|184386214|OTHER||Hazard Ratio (HR)|0.73||||0.4294|TWO_SIDED|95.0|0.34|1.59|||Regression, Cox|Cox regression model with terms for baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment /Placebo\]|||1.59|0.34|0.4294
92241540|NCT04937816|184386214|OTHER||Hazard Ratio (HR)|1.17||||0.7826|TWO_SIDED|95.0|0.39|3.47|||Regression, Cox|Cox regression model with terms for baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment /Placebo\]|||3.47|0.39|0.7826
92241541|NCT05513053|184386218|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the two-sided 95% confidence interval (CI) of the ratio of GMTs between groups (9 to 17 years/18 to 49 years) was \> 0.667 for each strain.|GMT Ratio|1.98|||||TWO_SIDED|95.0|1.73|2.27||||||Statistical analysis for A/H1N1||2.27|1.73|
92241542|NCT05513053|184386218|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (9 to 17 years/18 to 49 years) was \> 0.667 for each strain.|GMT Ratio|3.27|||||TWO_SIDED|95.0|2.76|3.87||||||Statistical analysis for A/H3N2||3.87|2.76|
92241543|NCT05513053|184386218|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (9 to 17 years/18 to 49 years) was \> 0.667 for each strain.|GMT Ratio|1.57|||||TWO_SIDED|95.0|1.35|1.82||||||Statistical analysis for B/Victoria||1.82|1.35|
92241544|NCT05513053|184386218|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (9 to 17 years/18 to 49 years) was \> 0.667 for each strain.|GMT Ratio|1.22|||||TWO_SIDED|95.0|1.09|1.37||||||Statistical analysis for B/Yamagata||1.37|1.09|
92241545|NCT05513053|184386219|NON_INFERIORITY|Non-inferiority for seroconversion rates was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for the 4 strains.|Percent Difference|1.92|||||TWO_SIDED|95.0|-2.78|6.62||||||Statistical analysis for A/H1N1||6.62|-2.78|
92453155|NCT02897141|184793882|SUPERIORITY||Mean Difference (Final Values)|1.71|STANDARD_ERROR_OF_MEAN|1.68||0.312|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Anxiety||||0.312
92453156|NCT02897141|184793882|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|1.81||0.841|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Depression||||0.841
92241546|NCT05513053|184386219|NON_INFERIORITY|Non-inferiority for seroconversion rates was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for the 4 strains.|Percent Difference|-0.59|||||TWO_SIDED|95.0|-4.41|3.23||||||Statistical analysis for A/H3N2||3.23|-4.41|
92241547|NCT05513053|184386219|NON_INFERIORITY|Non-inferiority for seroconversion rates was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for the 4 strains.|Percent Difference|3.29|||||TWO_SIDED|95.0|-1.57|8.14||||||Statistical analysis for B/Victoria||8.14|-1.57|
92241548|NCT05513053|184386219|NON_INFERIORITY|Non-inferiority for seroconversion rates was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for the 4 strains.|Percent Difference|14.3|||||TWO_SIDED|95.0|9.17|19.3||||||Statistical analysis for B/Yamagata||19.3|9.17|
92241549|NCT05299983|184386228|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<.001
92281037|NCT00266409|184465045|SUPERIORITY_OR_OTHER|||||||0.3174||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.3174
92281038|NCT00266409|184465045|SUPERIORITY_OR_OTHER|||||||0.9427||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.9427
92241550|NCT05299983|184386229|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.02
92241551|NCT05299983|184386230|SUPERIORITY|||||||0.22|||||||Chi-squared|||||||0.22
92241552|NCT05299983|184386231|SUPERIORITY|||||||0.45|||||||Chi-squared|||||||0.45
92241553|NCT02614287|184386245|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92241554|NCT02614287|184386249|SUPERIORITY|||||||0.215|||||||Fisher Exact|||TE ADA Positive (TE ADA+)||||.215
92241555|NCT02614287|184386250|SUPERIORITY||LSMean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.46||0.6|TWO_SIDED|95.0|-1.76|0.04|||Mixed Models Analysis|||||0.04|-1.76|0.60
92241556|NCT02614287|184386251|SUPERIORITY||LSMean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.41||0.835|TWO_SIDED|95.0|-0.72|0.89|||Mixed Models Analysis|||||0.89|-0.72|.835
92241557|NCT02614287|184386252|SUPERIORITY||Odds Ratio (OR)|1.467||||0.063|TWO_SIDED|95.0|0.979|2.197|||CPLRM|CPLRM: Categorical pseudo likelihood-based repeated measures model||||2.197|0.979|.063
92241558|NCT02614287|184386253|SUPERIORITY||LSMean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.51||0.937|TWO_SIDED|95.0|-0.96|1.04|||Mixed Models Analysis|||||1.04|-0.96|.937
92241559|NCT02614287|184386254|SUPERIORITY||LSMean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.073|TWO_SIDED|95.0|-0.4|0.02|||Mixed Models Analysis|||||0.02|-0.40|0.073
92241560|NCT02614287|184386255|SUPERIORITY||LSMean Difference|0.91|STANDARD_ERROR_OF_MEAN|2.82||0.747|TWO_SIDED|95.0|-4.65|6.47|||Mixed Models Analysis|||||6.47|-4.65|.747
92241561|NCT02614287|184386256|SUPERIORITY||LSMean Difference|1.98|STANDARD_ERROR_OF_MEAN|1.55||0.203|TWO_SIDED|95.0|-1.07|5.03|||Mixed Models Analysis|||Total Score||5.03|-1.07|0.203
92241562|NCT02614287|184386256|SUPERIORITY||LSMean Difference|1.85|STANDARD_ERROR_OF_MEAN|1.59||0.247|TWO_SIDED|95.0|-1.29|4.98|||Mixed Models Analysis|||Role Function-Restrictive Domain Score||4.98|-1.29|.247
92281039|NCT00266409|184465046|SUPERIORITY_OR_OTHER|||||||0.3252||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.3252
92281040|NCT00266409|184465046|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.6090
92281041|NCT00266409|184465047|SUPERIORITY_OR_OTHER|||||||0.1247||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.1247
92241563|NCT02614287|184386256|SUPERIORITY||LSMean Difference|1.26|STANDARD_ERROR_OF_MEAN|1.49||0.399|TWO_SIDED|95.0|-1.67|4.19|||Mixed Models Analysis|||Role Function-Preventive Domain Score||4.19|-1.67|0.399
92241564|NCT02614287|184386256|SUPERIORITY||LSMean Difference|3.09|STANDARD_ERROR_OF_MEAN|1.8||0.88|TWO_SIDED|95.0|-0.46|6.64|||Mixed Models Analysis|||Emotional Function Domain Score||6.64|-0.46|0.88
92241565|NCT00418834|184386259|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.8|STANDARD_ERROR_OF_MEAN|1.1|<|0.001||95.0|-16.0|-11.7|||ANCOVA|Model terms: treatment, baseline LDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-11.7|-16.0|<0.001
92241566|NCT00418834|184386260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-7.4|-1.8|||ANCOVA|Model terms: treatment, baseline LDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-1.8|-7.4|<0.001
92241567|NCT00418834|184386261|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.32|||<|0.001||95.0|4.52|8.84|||Regression, Logistic|Model terms: treatment, baseline LDL-C, and AVD status|Estimated ratio is the predictive odds of attaining LDL-C target on Atorva 10 mg + EZ versus Atorva 20 mg|||8.84|4.52|<0.001
92241568|NCT00418834|184386262|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.87|||<|0.001||95.0|1.4|2.5|||Regression, Logistic|Model terms: treatment, baseline LDL-C, and AVD status|Estimated ratio is the predictive odds of attaining LDL-C target on Atorva 10 mg + EZ versus Atorva 20 mg / Atorva 40 mg|||2.50|1.40|<0.001
92241569|NCT00418834|184386263|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.48|||<|0.001||95.0|3.98|7.55|||Regression, Logistic|Model terms: treatment, baseline LDL-C, and AVD status|Estimated ratio is the predictive odds of attaining LDL-C target on Atorva 10 mg + EZ versus Atorva 20 mg|||7.55|3.98|<0.001
92241570|NCT00418834|184386264|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.75|||<|0.001||95.0|1.32|2.31|||Regression, Logistic|Model terms: treatment, baseline LDL-C, and AVD status|Estimated ratio is the predictive odds of attaining LDL-C target on Atorva 10 mg + EZ versus Atorva 20 mg / Atorva 40 mg|||2.31|1.32|<0.001
92241571|NCT00418834|184386265|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.8|<|0.001||95.0|0.3|3.5|||ANCOVA|Model terms: treatment, baseline HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||3.5|0.3|<0.001
92241572|NCT00418834|184386266|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|0.8|<|0.001||95.0|1.5|4.8|||ANCOVA|Model terms: treatment, baseline HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||4.8|1.5|<0.001
92241573|NCT00418834|184386267|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|1.0|<|0.001||95.0|-14.2|-10.3|||ANCOVA|Model terms: treatment, baseline non-HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-10.3|-14.2|<0.001
92241574|NCT00418834|184386268|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|1.3|<|0.001||95.0|-6.8|-1.7|||ANCOVA|Model terms: treatment, baseline non-HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-1.7|-6.8|<0.001
92241575|NCT00418834|184386269|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|0.7|<|0.001||95.0|-9.4|-6.5|||ANCOVA|Model terms: treatment, baseline Total Cholesterol, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-6.5|-9.4|<0.001
92241576|NCT00418834|184386270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-3.8|-0.2|||ANCOVA|Model terms: treatment, baseline Total Cholesterol, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-0.2|-3.8|<0.001
92241577|NCT00418834|184386271|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-6.2|||<|0.001||95.0|-9.0|-3.4|||Nonparametric ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment, baseline TG value (normalized scores), and AVD status|"(Atorva 10 mg + EZ minus Atorva 20 mg)~The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic"|||-3.4|-9.0|<0.001
92173416|NCT04169373|184238056|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.12||||0.0001|TWO_SIDED|95.0|-1.68|-0.55|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-0.55|-1.68|0.0001
92241578|NCT00418834|184386272|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-2.1|||<|0.001||95.0|-5.2|1.0|||Nonparametric ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment, baseline TG value (normalized scores), and AVD status|"(Atorva 10 mg + EZ minus Atorva 20 mg)~The median difference is based on the Hodges-Lehmann estimates~of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic"|||1.0|-5.2|<0.001
92241579|NCT00418834|184386273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.1|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-11.0|-7.3|||ANCOVA|Model terms: treatment, baseline Apo B, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-7.3|-11.0|<0.001
92241580|NCT00418834|184386274|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-5.5|-0.9|||ANCOVA|Model terms: treatment, baseline Apo B, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-0.9|-5.5|<0.001
92241581|NCT00418834|184386275|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.8||0.401||95.0|-0.9|2.1|||ANCOVA|Model terms: treatment, baseline Apo A-I, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||2.1|-0.9|0.401
92241582|NCT00418834|184386276|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|0.8|<|0.001||95.0|1.1|4.2|||ANCOVA|Model terms: treatment, baseline Apo A-I, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||4.2|1.1|<0.001
92241583|NCT00418834|184386277|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-10.7|-7.3|||ANCOVA|Model terms: treatment, baseline Total-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-7.3|-10.7|<0.001
92241584|NCT00418834|184386278|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.1|<|0.001||95.0|-6.8|-2.4|||ANCOVA|Model terms: treatment, baseline Total-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-2.4|-6.8|<0.001
92241585|NCT00418834|184386279|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.6|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-17.0|-12.2|||ANCOVA|Model terms: treatment, baseline LDL-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-12.2|-17.0|<0.001
92241586|NCT00418834|184386280|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-10.1|-3.7|||ANCOVA|Model terms: treatment, baseline LDL-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-3.7|-10.1|<0.001
92241587|NCT00418834|184386281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.5|STANDARD_ERROR_OF_MEAN|1.0|<|0.001||95.0|-11.6|-7.5|||ANCOVA|Model terms: treatment, baseline Apo B:Apo A-I, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-7.5|-11.6|<0.001
92241588|NCT00418834|184386282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-7.7|-2.9|||ANCOVA|Model terms: treatment, baseline Apo B:Apo A-I, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-2.9|-7.7|<0.001
92182928|NCT02434328|184264729|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|-3.9|10.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||10.0|-3.9|
92241589|NCT00418834|184386283|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.9|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-15.3|-10.5|||ANCOVA|Model terms: treatment, baseline non-HDL-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-10.5|-15.3|<0.001
92241590|NCT00418834|184386284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|-9.8|-3.6|||ANCOVA|Model terms: treatment, baseline non-HDL-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-3.6|-9.8|<0.001
92173417|NCT04169373|184238057|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|23.8|||<|0.0001|TWO_SIDED|95.0|14.2|33.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||33.4|14.2|<0.0001
92241591|NCT00418834|184386285|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8||||0.534||95.0|-11.9|6.4|||Longitudinal Data Analysis (LDA)|LDA method of Liang and Zeger with model terms: treatment, time, AVD status, and the interaction of time by treatment|"(Atorva 10 mg + EZ minus Atorva 20 mg)~Data for analysis was transformed by the natural log and the difference in geometric mean % change from BL calculated based on the difference in the back-transformed least squares means."|||6.4|-11.9|0.534
92241592|NCT00418834|184386286|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0||||0.09||95.0|-15.6|1.6|||Longitudinal Data Analysis (LDA)|LDA method of Liang and Zeger with model terms: treatment, time, AVD status, and the interaction of time by treatment|"(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)~Data for analysis was transformed by the natural log and the difference in geometric mean % change from BL calculated based on the difference in the back-transformed least squares means."|||1.6|-15.6|0.090
92241593|NCT02429258|184386287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.0|STANDARD_ERROR_OF_MEAN|6.08|<|0.001||95.0|-36.1|-12.0|||Mixed Models Analysis|||||-12.0|-36.1|<0.001
92241594|NCT02429258|184386288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|STANDARD_ERROR_OF_MEAN|5.8||0.01||95.0|-26.8|-3.8|||ANCOVA|||||-3.8|-26.8|0.010
92241595|NCT02429258|184386289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.42||0.023||95.0|0.1|1.8|||ANCOVA|||||1.8|0.1|0.023
92241596|NCT02429258|184386290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0|STANDARD_ERROR_OF_MEAN|3.65|<|0.001||95.0|7.7|22.2|||ANCOVA|||||22.2|7.7|<0.001
92241597|NCT02429258|184386291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.1|STANDARD_ERROR_OF_MEAN|3.72|<|0.001||95.0|-23.5|-8.7|||ANCOVA|||||-8.7|-23.5|<0.001
92241598|NCT02429258|184386292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.7|STANDARD_ERROR_OF_MEAN|8.47|<|0.001||95.0|-46.6|-12.9|||ANCOVA|||||-12.9|-46.6|<0.001
92241599|NCT02429258|184386293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.8|STANDARD_ERROR_OF_MEAN|9.14|<|0.001||95.0|-59.0|-22.7|||ANCOVA|||||-22.7|-59.0|<0.001
92241600|NCT02429258|184386294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.1||0.024||95.0|-0.43|-0.03|||ANCOVA|||||-0.03|-0.43|0.024
92241601|NCT02429258|184386295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|STANDARD_ERROR_OF_MEAN|4.55||0.019||95.0|-19.9|-1.8|||ANCOVA|||||-1.8|-19.9|0.019
92241602|NCT02429258|184386296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.3|STANDARD_ERROR_OF_MEAN|9.25|<|0.001||95.0|-54.7|-17.9|||ANCOVA|||||-17.9|-54.7|<0.001
92241603|NCT02429258|184386297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|STANDARD_ERROR_OF_MEAN|2.86||0.017||95.0|1.3|12.7|||ANCOVA|||||12.7|1.3|0.017
92241604|NCT03987919|184386307|SUPERIORITY||LS Mean Difference|-0.51|||<|0.001|TWO_SIDED|95.0|-0.64|-0.38|||Mixed Models Analysis|||||-0.38|-0.64|<0.001
92241605|NCT03987919|184386307|SUPERIORITY||LS Mean Difference|-0.6|||<|0.001|TWO_SIDED|95.0|-0.73|-0.47|||Mixed Models Analysis|||||-0.47|-0.73|<0.001
92241606|NCT03987919|184386308|SUPERIORITY||LS Mean Difference|-0.23|||<|0.001|TWO_SIDED|95.0|-0.36|-0.1|||Mixed Models Analysis|||||-0.10|-0.36|<0.001
92241607|NCT03987919|184386309|SUPERIORITY||LS Mean Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-2.6|-0.7|||Mixed Models Analysis|||||-0.7|-2.6|<0.001
92241608|NCT03987919|184386309|SUPERIORITY||LS Mean Difference|-4.1|||<|0.001|TWO_SIDED|95.0|-5.0|-3.2|||Mixed Models Analysis|||||-3.2|-5.0|<0.001
92241609|NCT03987919|184386309|SUPERIORITY||LS Mean Difference|-6.2|||<|0.001|TWO_SIDED|95.0|-7.1|-5.3|||Mixed Models Analysis|||||-5.3|-7.1|<0.001
92241610|NCT03987919|184386310|SUPERIORITY||Odds Ratio (OR)|1.54||||0.023|TWO_SIDED|95.0|1.06|2.23|||Regression, Logistic|||||2.23|1.06|0.023
92241611|NCT03987919|184386310|SUPERIORITY||Odds Ratio (OR)|2.14|||<|0.001|TWO_SIDED|95.0|1.44|3.17|||Regression, Logistic|||||3.17|1.44|<0.001
92241612|NCT03987919|184386310|SUPERIORITY||Odds Ratio (OR)|3.03|||<|0.001|TWO_SIDED|95.0|1.97|4.66|||Regression, Logistic|||||4.66|1.97|<0.001
92241613|NCT03987919|184386311|SUPERIORITY||LS Mean Difference|-7.3||||0.001|TWO_SIDED|95.0|-11.7|-3.0|||Mixed Models Analysis|||||-3.0|-11.7|0.001
92241614|NCT03987919|184386311|SUPERIORITY||LS Mean Difference|-13.0|||<|0.001|TWO_SIDED|95.0|-17.4|-8.6|||Mixed Models Analysis|||||-8.6|-17.4|<0.001
92281042|NCT00266409|184465047|SUPERIORITY_OR_OTHER|||||||0.843||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.8430
92241615|NCT03987919|184386311|SUPERIORITY||LS Mean Difference|-14.7|||<|0.001|TWO_SIDED|95.0|-19.1|-10.3|||Mixed Models Analysis|||||-10.3|-19.1|<0.001
92241616|NCT03987919|184386313|SUPERIORITY||Odds Ratio (OR)|1.58||||0.001|TWO_SIDED|95.0|1.2|2.08|||Regression, Logistic|||||2.08|1.20|0.001
92241617|NCT03987919|184386313|SUPERIORITY||Odds Ratio (OR)|3.49|||<|0.001|TWO_SIDED|95.0|2.57|4.75|||Regression, Logistic|||||4.75|2.57|<0.001
92241618|NCT03987919|184386313|SUPERIORITY||Odds Ratio (OR)|4.6|||<|0.001|TWO_SIDED|95.0|3.32|6.38|||Regression, Logistic|||||6.38|3.32|<0.001
92241619|NCT03987919|184386314|SUPERIORITY||LS Mean Difference|-0.24||||0.084|TWO_SIDED|95.0|-0.5|0.03|||ANCOVA|||Hyperglycemia||0.03|-0.50|0.084
92241620|NCT03987919|184386314|SUPERIORITY||LS Mean Difference|-0.27||||0.05|TWO_SIDED|95.0|-0.54|0.0|||ANCOVA|||Hyperglycemia||0.00|-0.54|0.050
92241621|NCT03987919|184386314|SUPERIORITY||LS Mean Difference|-0.39||||0.005|TWO_SIDED|95.0|-0.66|-0.12|||ANCOVA|||Hyperglycemia||-0.12|-0.66|0.005
92241622|NCT03987919|184386314|SUPERIORITY||LS Mean Difference|-0.06||||0.688|TWO_SIDED|95.0|-0.33|0.22|||ANCOVA|||Hypoglycemia||0.22|-0.33|0.688
92241623|NCT03987919|184386314|SUPERIORITY||LS Mean Difference|-0.02||||0.909|TWO_SIDED|95.0|-0.29|0.26|||ANCOVA|||Hypoglycemia||0.26|-0.29|0.909
92241624|NCT03987919|184386314|SUPERIORITY||LS Mean Difference|-0.13||||0.358|TWO_SIDED|95.0|-0.4|0.15|||ANCOVA|||Hypoglycemia||0.15|-0.40|0.358
92173418|NCT04169373|184238057|OTHER||Odds Ratio (OR)|3.2|||||TWO_SIDED|95.0|1.9|5.4|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||5.4|1.9|
92241625|NCT03987919|184386314|SUPERIORITY||LS Mean Difference|-0.1||||0.701|TWO_SIDED|95.0|-0.62|0.41|||ANCOVA|||Total Score||0.41|-0.62|0.701
92241626|NCT03987919|184386314|SUPERIORITY||LS Mean Difference|-0.25||||0.341|TWO_SIDED|95.0|-0.78|0.27|||ANCOVA|||Total Score||0.27|-0.78|0.341
92173419|NCT04169373|184238058|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|10.9||||0.0035|TWO_SIDED|95.0|3.6|18.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||18.3|3.6|0.0035
92173420|NCT04169373|184238058|OTHER||Odds Ratio (OR)|2.7|||||TWO_SIDED|95.0|1.3|5.6|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||5.6|1.3|
92241627|NCT03987919|184386314|SUPERIORITY||LS Mean Difference|0.26||||0.321|TWO_SIDED|95.0|-0.26|0.79|||ANCOVA|||Total Score||0.79|-0.26|0.321
92241628|NCT03987919|184386316|SUPERIORITY||Odds Ratio (OR)|1.86|||<|0.001|TWO_SIDED|95.0|1.35|2.57|||Regression, Logistic|||||2.57|1.35|<0.001
92281043|NCT00266409|184465048|SUPERIORITY_OR_OTHER|||||||0.1031||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.1031
92281044|NCT00266409|184465048|SUPERIORITY_OR_OTHER|||||||0.0543||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.0543
92241629|NCT03987919|184386316|SUPERIORITY||Odds Ratio (OR)|3.94|||<|0.001|TWO_SIDED|95.0|2.88|5.39|||Regression, Logistic|||||5.39|2.88|<0.001
92241630|NCT03987919|184386316|SUPERIORITY||Odds Ratio (OR)|5.1|||<|0.001|TWO_SIDED|95.0|3.73|6.97|||Regression, Logistic|||||6.97|3.73|<0.001
92241631|NCT01520324|184386318|OTHER|The data documented in this trial and the parameters measured were described using classic statistics, i.e. mean, SD, CV(%), median, minimum and maximum values for quantitative variables and frequencies for qualitative variables.||||||||||||||||The number of detected neoplasiae for each patient was listed and summarised by descriptive statistics. Number and percentage of patients with intraepithelial neoplasiae was presented|The data documented in this trial and the parameters measured were described using classic statistics, i.e. mean, SD, CV(%), median, minimum and maximum values for quantitative variables and frequencies for qualitative variables.|||
92173421|NCT04169373|184238059|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.14|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.68|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-0.68|-1.60|<0.0001
92182929|NCT02434328|184264730|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.6|1.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||1.4|-1.6|
92281045|NCT00266409|184465049|SUPERIORITY_OR_OTHER|||||||0.0508||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.0508
92182930|NCT02434328|184264730|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-2.3|1.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.1|-2.3|
92182931|NCT02434328|184264730|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.9|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2 mg) was estimated using a bootstrap method.|Week 12||2.2|-1.9|
92182932|NCT02434328|184264730|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-2.1|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||2.3|-2.1|
92173422|NCT04169373|184238060|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-2.23|||<|0.0001|TWO_SIDED|95.0|-3.26|-1.21|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-1.21|-3.26|<0.0001
92173423|NCT04169373|184238061|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.78|||<|0.0001|TWO_SIDED|95.0|-2.56|-1.0|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-1.00|-2.56|<0.0001
92173424|NCT04169373|184238062|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|22.8|||<|0.0001|TWO_SIDED|95.0|12.2|33.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||33.4|12.2|<0.0001
92173425|NCT04169373|184238062|OTHER||Odds Ratio (OR)|2.5|||||TWO_SIDED|95.0|1.6|4.0|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||4.0|1.6|
92182933|NCT02434328|184264730|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-2.0|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||3.3|-2.0|
92182934|NCT02434328|184264730|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-3.0|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||2.2|-3.0|
92281046|NCT00266409|184465049|SUPERIORITY_OR_OTHER|||||||0.0871||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.0871
92241632|NCT03470922|184386326|SUPERIORITY||Cox Proportional Hazard|0.75||||0.0055|TWO_SIDED|95.0|0.62|0.92|||Log Rank|Log-rank test stratified by LAG-3 (≥ 1% vs \< 1%), BRAF (mutation positive vs mutation wild-type), AJCC M-stage (M0/M1any\[0\] vs M1any\[1\])||||0.92|0.62|0.0055
92241633|NCT02626819|184386335|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Weight change was analyzed using Wilcoxon Rank-Sum test along with multiple imputation to adjust for missing data||||||<0.05
92241634|NCT02626819|184386336|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Weight change was analyzed using Wilcoxon Rank-Sum test along with multiple imputation to adjust for missing data.||||||<0.05
92241635|NCT02626819|184386337|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Weight change was analyzed using Wilcoxon Rank-Sum test along with multiple imputation to adjust for missing data||||||<0.05
92453157|NCT02897141|184793882|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|2.07||0.848|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Fatigue||||0.848
92453158|NCT02897141|184793882|SUPERIORITY||Mean Difference (Final Values)|2.58|STANDARD_ERROR_OF_MEAN|2.03||0.208|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Sleep Disturbance||||0.208
92453159|NCT02897141|184793882|SUPERIORITY||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|2.29||0.754|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Satisfaction with participation in social roles||||0.754
92453160|NCT02897141|184793882|SUPERIORITY||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|1.66||0.454|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Pain interference||||0.454
92241636|NCT02626819|184386338|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92281047|NCT00266409|184465050|SUPERIORITY_OR_OTHER|||||||0.8318||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.8318
92453161|NCT02897141|184793883|SUPERIORITY||Mean Difference (Final Values)|-2.52|STANDARD_ERROR_OF_MEAN|2.19||0.252|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||||||0.252
92453162|NCT02897141|184793884|SUPERIORITY||Mean Difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|0.62||0.017|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||CASE adherence index||||0.017
92453163|NCT02897141|184793884|SUPERIORITY||Mean Difference (Final Values)|-4.88|STANDARD_ERROR_OF_MEAN|5.06||0.338|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Visual analogue scale||||0.338
92453164|NCT02897141|184793885|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.23||0.743|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Overall||||0.743
92453165|NCT02897141|184793885|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.2||0.166|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Quality of life||||0.166
92241637|NCT02626819|184386339|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92241638|NCT02626819|184386340|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92241639|NCT02626819|184386341|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92241640|NCT02626819|184386342|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92241641|NCT00502307|184386347|OTHER||Exact binomial distribution|24.6|||||TWO_SIDED|95.0|19.6|30.2||||||||30.2|19.6|
92241642|NCT00502307|184386347|OTHER||Exact binomial distribution|18.0|||||TWO_SIDED|95.0|13.6|23.1||||||||23.1|13.6|
92241643|NCT00502307|184386348|OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
92453166|NCT02897141|184793885|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.26||0.899|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Perceived usefulness||||0.899
92453167|NCT02897141|184793885|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.26||0.803|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Perceived ease of use||||0.803
92453168|NCT02897141|184793885|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.48|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||User Control||||0.480
92453169|NCT02605954|184793904|NON_INFERIORITY|With 200 participants randomized to switch to the E/C/F/TAF FDC group at Day 1 and 100 participants randomized to the ABC/3TC+3rd Agent group at Week 24, the lower limit of the observed one sided 97.5% confidence interval was expected to be greater than -0.120 (ie, non-inferiority margin of 12%) with \> 90% power when the percentage of responders in both treatment groups for the primary endpoint is at least 90% at Week 24.|Difference in Percentages|-4.4||||0.15|TWO_SIDED|95.0|-9.4|1.9|||Fisher Exact|||||1.9|-9.4|0.15
92453170|NCT02605954|184793905|NON_INFERIORITY|With 200 participants randomized to switch to the E/C/F/TAF FDC group at Day 1 and 100 participants randomized to the delayed switch group at Week 12, the lower limit of the observed one sided 97.5% confidence interval will be expected to be greater than -0.120 (ie, non-inferiority margin of 12%) with \> 90% power when the percentage of responders in both treatment groups for the primary endpoint is at least 90% at Week 12.|Difference in Percentages|-3.8||||0.17|TWO_SIDED|95.0|-8.3|1.6|||Fisher Exact|||||1.6|-8.3|0.17
92453171|NCT02605954|184793907|OTHER||Difference in least square mean|-36.0||||0.11|TWO_SIDED|95.0|-80.0|9.0|||ANOVA|||||9|-80|0.11
92453172|NCT03214367|184793942|NON_INFERIORITY|Noninferiority margin = 0.4% for HbA1c|LS Mean Difference|-0.08||||0.06|TWO_SIDED|95.0|-0.16|0.0|||Mixed Models Analysis|||||0.00|-0.16|0.060
92453173|NCT03214367|184793942|NON_INFERIORITY|Noninferiority margin = 0.4% for HbA1c|LS Mean Difference|0.13||||0.003|TWO_SIDED|95.0|0.04|0.22|||Mixed Models Analysis|||||0.22|0.04|0.003
92453174|NCT03214367|184793943|SUPERIORITY||LS Mean Difference|-27.9|||<|0.001|TWO_SIDED|95.0|-35.3|-20.6|||ANCOVA|||||-20.6|-35.3|<0.001
92453175|NCT03214367|184793943|SUPERIORITY||LS Mean Difference|13.2||||0.002|TWO_SIDED|95.0|5.0|21.4|||ANCOVA|||||21.4|5.0|0.002
92241644|NCT00502307|184386348|OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
92453176|NCT03214367|184793944|SUPERIORITY||LS Mean Difference|-31.2|||<|0.001|TWO_SIDED|95.0|-41.1|-21.2|||ANCOVA|||||-21.2|-41.1|<0.001
92453177|NCT03214367|184793944|SUPERIORITY||LS Mean Difference|-6.7||||0.235|TWO_SIDED|95.0|-17.6|4.3|||ANCOVA|||||4.3|-17.6|0.235
92453178|NCT03214367|184793953|SUPERIORITY||LS Mean Difference|-0.06||||0.184|TWO_SIDED|95.0|-0.16|0.03|||Mixed Models Analysis|||||0.03|-0.16|0.184
92453179|NCT03740490|184793955|SUPERIORITY||Mean Difference (Net)|-0.1||||0.284|TWO_SIDED|95.0|-0.28|0.08|||Mixed Models Analysis|||Each outcome was modeled using a mixed-effects regression with the change score as the dependent variable and treatment group (Smart-T vs. QuitGuide) as the predictor, restricted to participants who received or would have received that type of message.||0.08|-0.28|0.284
92453180|NCT03740490|184793956|SUPERIORITY||Mean Difference (Net)|0.06||||0.477|TWO_SIDED|95.0|-0.11|0.24|||Mixed Models Analysis|||||0.24|-0.11|0.477
92453181|NCT03740490|184793957|SUPERIORITY||Mean Difference (Net)|0.03||||0.456|TWO_SIDED|95.0|-0.05|0.1|||Mixed Models Analysis|||||0.10|-0.05|0.456
92453182|NCT03740490|184793958|SUPERIORITY||Mean Difference (Net)|-0.22||||0.215|TWO_SIDED|95.0|-0.56|0.13|||Mixed Models Analysis|||||0.13|-0.56|0.215
92453183|NCT01221597|184794051|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||ANOVA|||||||0.0005
92453184|NCT01221597|184794052|SUPERIORITY_OR_OTHER|||||||0.0451|TWO_SIDED||||||ANOVA|||||||0.0451
92453185|NCT01221597|184794053|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
92453186|NCT01221597|184794054|SUPERIORITY_OR_OTHER|||||||0.0268|TWO_SIDED||||||ANOVA|||||||0.0268
92453187|NCT01221597|184794055|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||ANOVA|||||||0.0800
92241645|NCT00502307|184386349|OTHER|||||||0.005|||||||Log Rank|||||||0.005
92241646|NCT00502307|184386349|OTHER|||||||0.129|||||||Log Rank|||||||0.129
92241647|NCT00502307|184386350|OTHER|||||||0.003|||||||Log Rank|||||||0.003
92241648|NCT00502307|184386350|OTHER|||||||0.089|||||||Log Rank|||||||0.089
92453188|NCT01221597|184794056|SUPERIORITY_OR_OTHER|||||||0.3085|TWO_SIDED||||||ANOVA|||||||0.3085
92453189|NCT01221597|184794057|SUPERIORITY_OR_OTHER|||||||0.6321|TWO_SIDED||||||ANOVA|||||||0.6321
92453190|NCT01221597|184794058|SUPERIORITY_OR_OTHER|||||||0.7965|TWO_SIDED||||||ANOVA|||||||0.7965
92453191|NCT01221597|184794059|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
92453192|NCT00320216|184794078|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi square test|Stratified by baseline weight \[\<=90kg vs \> 90 kg\].||||||<0.001
92453193|NCT00320216|184794078|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
92453194|NCT00320216|184794078|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
92281048|NCT00266409|184465050|SUPERIORITY_OR_OTHER|||||||0.5375||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.5375
92281049|NCT00266409|184465051|SUPERIORITY_OR_OTHER|||||||0.2186||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.2186
92453195|NCT00320216|184794078|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||To control for the multiplicity for the primary endpoint analysis, the 4 pairwise comparisons between ustekinumab groups and placebo were performed sequentially at alpha = 0.05. The order of testing was prespecified from high to low doses.|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||Null Hypothesis:No difference between any ustekinumab group and placebo at an overall significant level of 0.05. Sample Size: With 300 participants (60 in each treatment group), simulation studies were conducted to calculate the power to detect a treatment difference in primary endpoint between ustekinumab groups and placebo using a CMH test with stratification by baseline weight \[≤ 90kg vs \> 90 kg). For all the scenarios evaluated, the power is \>99% at an overall significance level of 0.05.||||<0.01
92453196|NCT00320216|184794079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
92453197|NCT00320216|184794079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
92453198|NCT00320216|184794079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|||||||<0.001
92453199|NCT00320216|184794079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||Null Hypothesis: No difference between any ustekinumab group and placebo.||||<0.001
92182935|NCT02434328|184264730|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-3.0|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.3|-3.0|
92281050|NCT00266409|184465051|SUPERIORITY_OR_OTHER|||||||0.0422||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.0422
92281051|NCT00266409|184465052|SUPERIORITY_OR_OTHER|||||||0.1164||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.1164
92453200|NCT00148343|184794082|SUPERIORITY_OR_OTHER||Slope|1.26|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-0.2|2.75|||||Mixed model analysis. Slope is in reference to treatment x time interaction for full 36 weeks|||2.75|-0.2|
92453201|NCT00148343|184794083|SUPERIORITY||Slope|-5.07|STANDARD_ERROR_OF_MEAN|2.54|<|0.05|TWO_SIDED|95.0|-10.05|-0.09|||Mixed Models Analysis||Slope is in reference to from baseline to end of follow-up at 36 weeks.|||-0.09|-10.05|<0.05
92453202|NCT00148343|184794084|SUPERIORITY_OR_OTHER||Slope|0.31|STANDARD_ERROR_OF_MEAN|7.35|<|0.05|TWO_SIDED|95.0|-14.096|14.716|||Mixed Models Analysis||Slope is in reference to start of treatment to end of follow up at 36 weeks|||14.716|-14.096|<0.05
92453203|NCT00148343|184794085|SUPERIORITY||Slope|-1.95|STANDARD_ERROR_OF_MEAN|5.53|||TWO_SIDED|95.0|-12.79|8.89|||||Mixed models analysis. Slope refers to baseline to final follow up at 36 weeks|||8.89|-12.79|
92453204|NCT00148343|184794086|SUPERIORITY||Slope|0.006|STANDARD_ERROR_OF_MEAN|0.026|<|0.05|TWO_SIDED|95.0|-0.045|0.057|||Mixed Models Analysis||Slope is in reference to baseline to end of follow-up at 36 weeks|||0.057|-0.045|<0.05
92241649|NCT02330549|184386358|OTHER|This was a proof of concept study, and is not powered for statistical detection of differences between groups, no adjustments for multiplicity was made, or no-imputation for missing data.|LS Mean Difference|-0.2286|STANDARD_ERROR_OF_MEAN|0.195||0.2483|TWO_SIDED|95.0|-0.62|0.17||An analysis of covariance (ANCOVA) model that included treatment and presence or absence of nonalcoholic steatohepatitis (NASH) as factors, and the baseline value of Matsuda index as a covariate was used for analysis.|ANCOVA|||Change from Baseline to Week 12||0.17|-0.62|0.2483
92241650|NCT02330549|184386358|OTHER|This was a proof of concept study, and is not powered for statistical detection of differences between groups, no adjustments for multiplicity was made, or no-imputation for missing data.|LS Mean Difference|-0.4113|STANDARD_ERROR_OF_MEAN|0.205||0.053|TWO_SIDED|95.0|-0.83|0.01||An ANCOVA model that included treatment and presence or absence of NASH as factors, and the baseline value of Matsuda index as a covariate was used for analysis.|ANCOVA|||Change form Baseline to Week 24||0.01|-0.83|0.053
92241651|NCT02330549|184386359|OTHER|This was a proof of concept study, and is not powered for statistical detection of differences between groups, no adjustments for multiplicity was made, or no-imputation for missing data.|LS Mean Difference|-1.505|STANDARD_ERROR_OF_MEAN|2.369||0.5297|TWO_SIDED|95.0|-6.33|3.32||An ANCOVA model that included treatment and presence or absence of NASH as factors, and the baseline value of ADIPO-IR as a covariate was used for analysis.|ANCOVA|||Change from Baseline to Week 12||3.32|-6.33|0.5297
92241652|NCT02330549|184386359|OTHER|This was a proof of concept study, and is not powered for statistical detection of differences between groups, no adjustments for multiplicity was made, or no-imputation for missing data.|LS Mean Difference|3.2146|STANDARD_ERROR_OF_MEAN|2.757||0.2522|TWO_SIDED|95.0|-2.4|8.83||An ANCOVA model that included treatment and presence or absence of NASH as factors, and the baseline value of ADIPO-IR as a covariate was used for analysis.|ANCOVA|||Change from Baseline to Week 24||8.83|-2.4|0.2522
92241653|NCT00495495|184386415|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.02||||0.1126|ONE_SIDED||||||McNemar|||"Null hypothesis: there is no difference between the HealOzone and Placebo devices in the proportion of teeth with lesion progression after 1 year.~Power calculation: the study was sized to have 90% power to detect a 15% difference between treatments in the percentage of teeth with lesion progression at one year (i.e., assuming 45% for the lesions treated with the Placebo device and 30% for the lesions treated with the HealOzone device) with a sample size of 258 subjects completing the study."||||0.1126
92281052|NCT00266409|184465052|SUPERIORITY_OR_OTHER|||||||0.1935||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.1935
92281053|NCT00266409|184465053|SUPERIORITY_OR_OTHER|||||||0.1244||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.1244
92281054|NCT00266409|184465053|SUPERIORITY_OR_OTHER|||||||0.6182||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.6182
92241654|NCT00495495|184386416|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.08||||0.9777|ONE_SIDED||||||McNemar|||||||.9777
92241655|NCT00495495|184386417|SUPERIORITY_OR_OTHER|||||||0.0416|ONE_SIDED|95.0|||||McNemar|||||||.0416
92281055|NCT00266409|184465054|SUPERIORITY_OR_OTHER|||||||0.4589||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.4589
92281056|NCT00266409|184465054|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.3930
92281057|NCT00266409|184465055|SUPERIORITY_OR_OTHER|||||||0.445||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.4450
92281058|NCT00266409|184465055|SUPERIORITY_OR_OTHER|||||||0.2924||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.2924
92281059|NCT00266409|184465056|SUPERIORITY_OR_OTHER|||||||0.2184||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.2184
92241656|NCT00495495|184386418|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.01||||0.6585|ONE_SIDED|95.0|||||McNemar|||||||0.6585
92241657|NCT00495495|184386419|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.02||||0.7666|ONE_SIDED|95.0|||||McNemar|||||||.7666
92281060|NCT00266409|184465056|SUPERIORITY_OR_OTHER|||||||0.1281||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.1281
92281061|NCT00266409|184465057|SUPERIORITY_OR_OTHER|||||||0.6602||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.6602
92281062|NCT00266409|184465058|SUPERIORITY_OR_OTHER|||||||0.5544||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.5544
92281063|NCT00266409|184465059|SUPERIORITY_OR_OTHER|||||||0.9269||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.9269
92281064|NCT00266409|184465060|SUPERIORITY_OR_OTHER|||||||0.5271||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.5271
92281065|NCT00266409|184465061|SUPERIORITY_OR_OTHER|||||||0.1447||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.1447
92241658|NCT02713230|184386464|SUPERIORITY||LSMD|-117.688|||<|0.0001|TWO_SIDED|95.0|-150.896|-84.48|||ANOVA|||||-84.480|-150.896|<0.0001
92241659|NCT02713230|184386465|SUPERIORITY||LSM treatment ratio|0.22|||<|0.0001|TWO_SIDED|95.0|0.131|0.371|||ANOVA|||||0.371|0.131|<0.0001
92241660|NCT02713230|184386466|SUPERIORITY||Treatment difference|0.116||||0.008|TWO_SIDED|95.0|0.032|0.2|||Cochran-Mantel-Haenszel|||||0.200|0.032|0.008
92241661|NCT02713230|184386467|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
92241662|NCT04009096|184386471|OTHER|||||||0.14||||||Two tailed p value reported for Mann-Whitney test comparing controls with each vaccinees|Wilcoxon (Mann-Whitney)|||Comparison of pooled data from Groups 1, 2 and 3 volunteers who completed CHMI with pooled data of infectivity controls (unvaccinated) from CHMI study running in parallel (VAC069 study)||||0.14
92241663|NCT00769704|184386479|SUPERIORITY_OR_OTHER||Treatment Difference|14.1|||<|0.0001|TWO_SIDED|95.0|9.3|19.0|||Fisher Exact|||The null hypothesis was that there was no difference in the durable response rate between the talimogene laherparepvec and control arms. Study success was defined as the rejection of this hypothesis such that talimogene laherparepvec was found to be superior to GM-CSF using the 2-sided Fisher's exact test, with a p-value of ≤ 0.0488.||19.0|9.3|<0.0001
92281066|NCT00266409|184465062|SUPERIORITY_OR_OTHER|||||||0.9375||95.0||||P-value from a Chi-squared test|Chi-squared|||||||0.9375
92281067|NCT00266409|184465063|SUPERIORITY_OR_OTHER|||||||0.9883||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.9883
92281068|NCT00266409|184465064|SUPERIORITY_OR_OTHER|||||||0.3093||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.3093
92281069|NCT00266409|184465065|SUPERIORITY_OR_OTHER|||||||0.5824||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.5824
92281070|NCT00266409|184465066|SUPERIORITY_OR_OTHER|||||||0.044||95.0|||||Generalized Wilcoxon Test|||This analysis refers to the test of the null hypothesis that there is no difference in the survival distribution function between the treatment groups.||||0.044
92281071|NCT00266409|184465066|SUPERIORITY_OR_OTHER|||||||0.6587||95.0|||||Generalized Wilcoxon Test|||This analysis refers to the test of the null hypothesis that there is no difference in the survival distribution function between the treatment groups.||||0.6587
92453205|NCT04153409|184794087|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Statistical comparisons of the 7 mean changes from baseline to different time-points (0-24 hours) were undertaken in one mixed effects model of analysis taking into account the cross-over nature of the study and the multiple time points within each period to explore a possible treatment effect in this small proof of concept study. Change from baseline at 0.5 hours is presented in this section|Mean Difference (Net)|-0.02||||0.9733|TWO_SIDED|95.0|-1.23|1.19||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 0.5 hours||1.19|-1.23|0.9733
92281072|NCT00108732|184465074|SUPERIORITY_OR_OTHER||Percent|62.5|||||TWO_SIDED|90.0|48.3|75.3||||||||75.3|48.3|
92281073|NCT00108732|184465075|SUPERIORITY_OR_OTHER||Response rate (percent)|0.0|||||TWO_SIDED|90.0|0.0|7.2||||||||7.2|0|
92453206|NCT04153409|184794087|SUPERIORITY||Mean Difference (Net)|-0.42||||0.4942|TWO_SIDED|95.0|-1.64|0.79||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 1 hour. The change from baseline at 1 hour was extracted from the mixed model analysis including all time points.||0.79|-1.64|0.4942
92453207|NCT04153409|184794087|SUPERIORITY||Mean Difference (Net)|-0.25||||0.6866|TWO_SIDED|95.0|-1.46|0.97||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 1.5 hours. The change from baseline at 1.5 hours was extracted from the mixed model analysis including all time points.||0.97|-1.46|0.6866
92453208|NCT04153409|184794087|SUPERIORITY||Mean Difference (Net)|-0.89||||0.1488|TWO_SIDED|95.0|-2.11|0.32||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 2 hours. The change from baseline at 2 hours was extracted from the mixed model analysis including all time points.||0.32|-2.11|0.1488
92453209|NCT04153409|184794087|SUPERIORITY||Mean Difference (Net)|-0.36||||0.5644|TWO_SIDED|95.0|-1.57|0.86||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 4 hours. The change from baseline at 4 hours was extracted from the mixed model analysis including all time points.||0.86|-1.57|0.5644
92453210|NCT04153409|184794087|SUPERIORITY||Mean Difference (Net)|-0.7||||0.2561|TWO_SIDED|95.0|-1.91|0.51||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 8 hours, The change from baseline at 8 hours was extracted from the mixed model analysis including all time points.||0.51|-1.91|0.2561
92453211|NCT04153409|184794087|SUPERIORITY||Mean Difference (Net)|-0.01||||0.9875|TWO_SIDED|95.0|-1.22|1.2||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 24 hours. The change from baseline at 24 hours was extracted from the mixed model analysis including all time points.||1.20|-1.22|0.9875
92453212|NCT00574587|184794098|SUPERIORITY_OR_OTHER_LEGACY||95% Confidence interval|54.0|||<|0.1|TWO_SIDED|20.0|34.0|74.0|||Simon's Mimimax 2-stage design|||||74|34|<0.10
92453213|NCT00121238|184794130|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.27
92453214|NCT01380327|184794134|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.7||||0.001|TWO_SIDED|95.0|1.2|2.3|||Mixed Models Analysis||Estimated value \& associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.18) vs. high dose group (numerator=1.98).|Analysis compared cockroach SLIT -high dose, Placebo - high dose||2.3|1.2|0.001
92453215|NCT01380327|184794134|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.7|3.1|||Mixed Models Analysis||Estimated value \& associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.18) vs. low dose group (numerator=2.69).|Analysis compared cockroach SLIT - low dose, placebo - low dose||3.1|1.7|<0.0001
92453216|NCT01380327|184794135|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3|||<|0.0001|TWO_SIDED|95.0|1.1|1.4|||Mixed Models Analysis||Estimated value \& associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.04) vs. high dose group (numerator=1.32).|Analysis compared cockroach SLIT - high dose, placebo - high dose||1.4|1.1|<0.0001
92453217|NCT01380327|184794135|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.11|TWO_SIDED|95.0|1.0|1.2|||Mixed Models Analysis||Estimated value \& associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.04) vs. low dose group (numerator=1.14).|Analysis compared cockroach SLIT - low dose, placebo - low dose||1.2|1.0|0.11
92453218|NCT01380327|184794136|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.5||||0.06|TWO_SIDED|95.0|1.0|2.4|||Mixed Models Analysis||Estimated value and associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.03) vs. high dose group (numerator=1.57).|Analysis compared cockroach SLIT - high dose, placebo - high dose||2.4|1.0|0.06
92453219|NCT01380327|184794136|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.4||||0.13|TWO_SIDED|95.0|0.9|2.2|||Mixed Models Analysis||Estimated value \& associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.03) vs. low dose group (numerator=1.45).|Analysis compared cockroach SLIT - low dose, placebo - low dose||2.2|0.9|0.13
92173426|NCT04169373|184238063|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-0.1||||0.1781|TWO_SIDED|95.0|-0.25|0.05|||ANCOVA|ANCOVA model including treatment and main stratification factor MRI and hsCRP status as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||0.05|-0.25|0.1781
92281074|NCT00108732|184465076|SUPERIORITY_OR_OTHER||median of difference|0.45||||0.003||95.0|||||Wilcoxon signed rank test|The Wilcoxon signed rank test was used to test the difference between day 4 PSA and day 15 PSA.||||||0.003
92241664|NCT00769704|184386480|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0511|TWO_SIDED|95.0|0.62|1.0|||Log Rank||The hazard ratio was obtained from the unadjusted Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average death rate and a longer overall survival for talimogene laherparepvec relative to GM-CSF.|The primary method for analysis of overall survival was an unadjusted log-rank test. Testing of overall survival was conditional on a statistically significance difference in the primary endpoint of durable response. Success was defined as a p-value ≤ 0.05.||1.00|0.62|0.0511
92241665|NCT00769704|184386481|SUPERIORITY_OR_OTHER||Treatment Difference|20.8|||<|0.0001|TWO_SIDED|95.0|14.4|27.1||Descriptive|Fisher Exact|||||27.1|14.4|<0.0001
92241666|NCT00769704|184386482|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.0868|TWO_SIDED|95.0|0.14|1.18||Descriptive|Log Rank||The hazard ratio was obtained from the unadjusted Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a longer average duration of response for talimogene laherparepvec relative to GM-CSF.|||1.18|0.14|0.0868
92241667|NCT00769704|184386483|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.202|TWO_SIDED|95.0|0.3|1.3||Descriptive|Log Rank||The hazard ratio was obtained from the unadjusted Cox Proportional Hazard Model. A hazard ratio \> 1.0 indicates a a higher average response onset rate for talimogene laherparepvec relative to GM-CSF.|||1.30|0.30|0.2020
92281075|NCT00108732|184465077|SUPERIORITY_OR_OTHER||median of difference|-0.04||||0.02||95.0||||The Wilcoxon signed-rank test was used to test the difference between pre and post-treatment PSA slopes assessed by multiple PSA values on natural log scale using a piecewise linear model with a common knot point at the date of registration.|Wilcoxon signed rank test|||||||0.02
92453220|NCT01380327|184794137|SUPERIORITY_OR_OTHER||Treatment effect|-12.9||||0.21|TWO_SIDED|95.0|-33.2|7.5|||Mixed Models Analysis||Estimated value\& associated CI is the treatment effect: baseline to post-baseline change in measurement in high dose group (-7.2) minus baseline to post-baseline change in measurement in placebo group (5.7) .|Analysis compared cockroach SLIT - high dose, placebo - high dose||7.5|-33.2|0.21
92453221|NCT01380327|184794137|SUPERIORITY_OR_OTHER||Treatment effect|13.5||||0.2|TWO_SIDED|95.0|-7.1|34.1|||Mixed Models Analysis||Estimated value\& associated CI is the treatment effect: baseline to post-baseline change in measurement in high dose group (19.2) minus baseline to post-baseline change in measurement in placebo group (5.7) .|Analysis compared cockroach SLIT - low dose, placebo - low dose||34.1|-7.1|0.20
92453222|NCT03732209|184794152|SUPERIORITY||F value, group x time interaction|7.155||||0.017|TWO_SIDED|||||This p value reflects the interaction between group (episodic future thinking, control) and time (baseline, Week 8)|ANOVA||Reported values in outcome measures data table reflect mean change in glycosylated hemoglobin for each group (Session 2 - Session 1)|Due to minimal data being available at Weeks 16 and 24 due to COVID-19-related attrition, only baseline (Week 0) and Week 8 data were included in the analysis.||||.017
92453223|NCT03732209|184794153|SUPERIORITY||F value, group x time interaction|4.885||||0.042|TWO_SIDED|||||This p value reflects the interaction between group (episodic future thinking, control) and time (baseline, Week 8)|ANOVA||The values reported in the outcome measures data table reflect mean change in AUC (Session 2 - Session 1)|Due to minimal data being available at Weeks 16 and 24 due to COVID-19-related attrition, only baseline (Week 0) and Week 8 data were included in the analysis.||||.042
92453224|NCT03732209|184794154|SUPERIORITY||F value, group x time interaction|2.33||||0.146|TWO_SIDED|||||This p value reflects the interaction between group (episodic future thinking, control) and time (baseline, Week 8)|ANOVA|||Due to minimal data available at Week 16 and 24 due to COVID-19-related attrition, only ratings from Week 8 were included in the analysis.||||.146
92453225|NCT03732209|184794155|SUPERIORITY||Median Difference (Final Values)|1.23||||0.042|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Due to minimal data available at Week 16 and 24 due to COVID-19-related attrition, only ratings from Week 8 were included in the analysis.||||.042
92453226|NCT05046795|184794156|SUPERIORITY||Mean Difference (Net)|150.91|STANDARD_ERROR_OF_MEAN|23.727|<|0.0001|TWO_SIDED|95.0|104.145|197.671|||Mixed Models Analysis|||||197.671|104.145|<0.0001
92453227|NCT05046795|184794157|SUPERIORITY||Mean Difference (Net)|144.35|STANDARD_ERROR_OF_MEAN|21.192|<|0.0001|TWO_SIDED|95.0|102.61|186.088|||Mixed Models Analysis|||||186.088|102.610|<0.0001
92173427|NCT04169373|184238064|OTHER||LS Mean Difference|-0.7||||0.0193|TWO_SIDED|95.0|-1.3|-0.1|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-0.1|-1.3|0.0193
92241668|NCT00769704|184386484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.32|0.54||Descriptive|Log Rank||The hazard ratio was obtained from the unadjusted Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a longer average time to treatment failure for talimogene laherparepvec relative to GM-CSF.|||0.54|0.32|<0.0001
92241669|NCT00769704|184386485|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.005|TWO_SIDED|95.0|0.13|0.73||Descriptive|Log Rank||The hazard ratio was obtained from the unadjusted Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a longer response interval for talimogene laherparepvec relative to GM-CSF.|||0.73|0.13|0.0050
92453228|NCT05046795|184794158|SUPERIORITY||Mean Difference (Net)|287.75|STANDARD_ERROR_OF_MEAN|38.473|<|0.0001|TWO_SIDED|95.0|211.933|363.57|||Mixed Models Analysis|||||363.570|211.933|<0.0001
92453229|NCT05046795|184794159|SUPERIORITY||Mean Difference (Net)|105.9|STANDARD_ERROR_OF_MEAN|16.89|<|0.0001|TWO_SIDED|95.0|72.6|139.12|||ANCOVA|||||139.12|72.60|<0.0001
92453230|NCT05046795|184794160|SUPERIORITY||Mean Difference (Net)|154.8|STANDARD_ERROR_OF_MEAN|28.37|<|0.0001|TWO_SIDED|95.0|98.86|210.78|||ANCOVA|||||210.78|98.86|<0.0001
92453231|NCT05046795|184794161|SUPERIORITY||Mean Difference (Net)|-4.9|STANDARD_ERROR_OF_MEAN|1.8||0.0064|TWO_SIDED|95.0|-8.49|-1.4|||ANCOVA|||||-1.40|-8.49|0.0064
92453232|NCT05046795|184794162|SUPERIORITY||Odds Ratio (OR)|2.1||||0.0144|TWO_SIDED|95.0|1.16|3.84|||Regression, Logistic|||||3.84|1.16|0.0144
92453233|NCT00782340|184794225|SUPERIORITY_OR_OTHER|||||||0.003||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|ANCOVA|ANCOVA model that includes treatment as a factor and baseline OHQ composite score as a co-variate.||||||0.003
92453234|NCT00782340|184794226|SUPERIORITY_OR_OTHER|||||||0.003||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|ANCOVA|ANCOVA model that includes treatment as a factor and baseline OHDAS composite score as a co-variate.||||||0.003
92453235|NCT00782340|184794227|SUPERIORITY_OR_OTHER|||||||0.01||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|ANCOVA|ANCOVA model including a factor for randomized treatment along with the OHSA composite value at randomization as a covariate.||||||0.010
92453236|NCT00782340|184794228|SUPERIORITY_OR_OTHER|||||||0.003||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at baseline.||||||0.003
92453237|NCT00782340|184794229|SUPERIORITY_OR_OTHER|||||||0.009||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|ANCOVA|ANCOVA model including a factor for randomized treatment along with the OHSA composite value at randomization as a covariate.||||||0.009
92453238|NCT00782340|184794230|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at baseline.||||||<0.001
92453239|NCT00782340|184794231|SUPERIORITY_OR_OTHER|||||||0.327||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors. As the this endpoint was not positive, no additional statistical analyses will be performed on secondary endpoints.|Fisher Exact|||||||0.327
92453240|NCT01949480|184794234|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.643|||||||t-test, 2 sided|||||||0.643
92453241|NCT01949480|184794236|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.077|||||||t-test, 2 sided|||This p-value is calculated for the NRS at rest.||||.077
92453242|NCT01949480|184794236|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.39|||||||t-test, 2 sided|||This p-value is calculated for the NRS during deep inspiration at 24 hrs.||||0.39
92241670|NCT00520676|184386486|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.001|TWO_SIDED|95.0|0.34|0.6||The comparison was conducted at a 1-sided significance level of 0.05.|Log Rank|Note that the 2-sided p-value for log rank is reported, which is \<0.001, hence 1-sided p-value is \<0.001.|Cox regression model is used for HR estimate.|||0.60|0.34|<0.001
92453243|NCT01949480|184794237|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.605|||||||t-test, 2 sided|||||||0.605
92453244|NCT01949480|184794238|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.104|||||||t-test, 2 sided|||This p-value is for the Local Anesthetic infused in 24 hrs.||||0.104
92173428|NCT04169373|184238065|SUPERIORITY||Response Rate Difference|20.1||||0.0003|TWO_SIDED|95.0|9.3|30.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||30.9|9.3|0.0003
92453245|NCT01949480|184794239|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.308|||||||t-test, 2 sided|||||||0.308
92453246|NCT01949480|184794240|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.487|||||||t-test, 2 sided|||||||0.487
92173429|NCT04169373|184238066|OTHER||LS Mean Difference|-1.13||||0.0206|TWO_SIDED|95.0|-2.08|-0.17||This comparison was not part of the pre-specified multiplicity testing sequence.|ANCOVA|ANCOVA model including treatment and main stratification factors MRI and hsCRP status as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.17|-2.08|0.0206
92173430|NCT04169373|184238068|SUPERIORITY||Response Rate Difference|17.6||||0.0004|TWO_SIDED|95.0|7.9|27.3||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||27.3|7.9|0.0004
92173431|NCT04169373|184238069|SUPERIORITY||Response Rate Difference|21.9|||<|0.0001|TWO_SIDED|95.0|13.2|30.6||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||30.6|13.2|<0.0001
92173432|NCT04169373|184238070|SUPERIORITY||Response Rate Difference|23.1|||<|0.0001|TWO_SIDED|95.0|12.4|33.7||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||33.7|12.4|<0.0001
92241671|NCT00520676|184386487|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.934|TWO_SIDED|95.0|0.72|1.42||The comparison was conducted at a 2-sided significance level of 0.05.|Log Rank||Cox regression model is used for hazard ratio (HR) estimate.|||1.42|0.72|0.934
92173433|NCT04610892|184238071|SUPERIORITY||Least Square Mean difference|-8.3797||||0.065||90.0|-17.498|0.7387||One-sided p-value|ANCOVA|The treatment as a fixed effects and the baseline value and the geographic region and statin therapy intensity at screening as covariates.||||0.7387|-17.4980|0.065
92173434|NCT04610892|184238071|SUPERIORITY||Least Square Mean difference|2.3915||||0.747||90.0|-3.5338|8.3167||One-sided p-value|ANCOVA|The treatment as a fixed effects and the baseline value and the geographic region and statin therapy intensity at screening as covariates.||||8.3167|-3.5338|0.747
92173435|NCT04610892|184238071|SUPERIORITY||Least Square Mean difference|0.5766||||0.563||90.0|-5.4389|6.5921||One-sided p-value|ANCOVA|The treatment as a fixed effects and the baseline value and the geographic region and statin therapy intensity at screening as covariates.||||6.5921|-5.4389|0.563
92241672|NCT00520676|184386488|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.8|TWO_SIDED|95.0|0.72|1.29||The comparison was conducted at a 2-sided significance level of 0.05.|Log Rank|Cox regression model is used for hazard ratio (HR) estimate.||||1.29|0.72|0.800
92241673|NCT00520676|184386489|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.081|TWO_SIDED|95.0|0.93|3.15||The comparison of tumor response rates was conducted at a 2-sided significance level of 0.05.|Fisher Exact|Tumor response rate= # participants with a confirmed best response of CR or PR / # of participants who qualify for the analysis population.|Logistic regression model is used for odds ratio (OR) estimate.|||3.15|0.93|0.081
92241674|NCT00520676|184386490|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.641|TWO_SIDED|95.0|0.49|1.55||The comparison was conducted at a 2-sided significance level of 0.05.|Log Rank||Cox regression model is used for hazard ratio (HR) estimate.|||1.55|0.49|0.641
92241675|NCT00520676|184386491|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.4|0.71||The comparison was conducted at a 2-sided significance level of 0.05.|Log Rank||Cox regression model is used for unadjusted hazard ratio (HR) estimate.|||0.71|0.40|<0.001
92281076|NCT01901055|184465083|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.18||0.017|TWO_SIDED|95.0|-0.68|0.04||F-test statistics for group X time = 4.27|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|Statistical analyses were revised from the original protocol for reporting results at 24 week because unable to recruit an adequate sample size at this time point of participants originally on CPAP for 24 weeks and those who were in the original sham-CPAP group who crossed over to CPAP and completed 24 weeks of treatment.||0.04|-0.68|0.017
92241676|NCT00520676|184386492|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.35|0.66||The comparison was conducted at a 2-sided significance level of 0.05.|Log Rank||Cox regression model is used for unadjusted hazard ratio (HR) estimate.|||0.66|0.35|<0.001
92453247|NCT01949480|184794241|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.493|||||||t-test, 2 sided|||||||0.493
92241677|NCT00335504|184386496|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||Adjusting for multiple comparisons yields 84% power to detect a difference of at least 25% in % change of ACF at the 0.016 level of significance and using a two-sample, 2-sided t-test.|Wilcoxon (Mann-Whitney)|||The study was designed to test the hypotheses of observing a 25% difference in % change ACF over baseline, between patients treated with atorvastatin compared to placebo. N=25 subjects per group yielded 93% power to detect this difference using a 2 sided t-test at significance level of 0.05. Non-parametric tests (eg, Wilcoxon Rank Sum) could be used if the statistical assumptions of the t-test were violated.||||0.30
92453248|NCT01949480|184794242|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.574|||||||t-test, 2 sided|||||||0.574
92453249|NCT01949480|184794243|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.913|||||||t-test, 2 sided|||||||0.913
92453250|NCT01949480|184794244|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.783|||||||t-test, 2 sided|||||||0.783
92173436|NCT04610892|184238071|SUPERIORITY||Least Square Mean difference|1.5204||||0.685||90.0|-3.6657|6.7064||One-sided p-value|ANCOVA|The treatment as a fixed effects and the baseline value and the geographic region and statin therapy intensity at screening as covariates.||||6.7064|-3.6657|0.685
92453251|NCT00144339|184794246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|2.0||0.9524||95.0|-4.0|4.0|||t-test, 2 sided|Random-effects model|Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||4|-4|0.9524
92453252|NCT00144339|184794247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|2.0||0.2074||95.0|-2.0|6.0|||t-test, 2 sided|Random-effects model|Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||6|-2|0.2074
92453253|NCT00144339|184794248|SUPERIORITY_OR_OTHER|||||||0.2488||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.2488
92453254|NCT00144339|184794249|SUPERIORITY_OR_OTHER|||||||0.0145||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.0145
92453255|NCT00144339|184794250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|4.0||0.299||95.0|-12.0|4.0|||t-test, 2 sided||Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||4|-12|0.2990
92241678|NCT00335504|184386496|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||Adjusting for multiple comparisons yields 84% power to detect a difference of at least 25% in % change of ACF at the 0.016 level of significance and using a two-sample, 2-sided t-test.|Wilcoxon (Mann-Whitney)|||The study was designed to test the hypotheses of observing a 25% difference in % change ACF over baseline, between patients treated with sulindac compared to placebo. N=25 subjects per group yielded 93% power to detect this difference using a 2 sided t-test at significance level of 0.05. Non-parametric tests (eg, Wilcoxon Rank Sum) could be used if the statistical assumptions of the t-test were violated.||||0.60
92453256|NCT00144339|184794251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|4.0||0.8375||95.0|-9.0|7.0|||t-test, 2 sided||Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||7|-9|0.8375
92453257|NCT00144339|184794252|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-6.0|STANDARD_ERROR_OF_MEAN|4.0||0.1143||95.0|-14.0|2.0|||t-test, 2 sided||Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||2|-14|0.1143
92453258|NCT00144339|184794253|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|4.0||0.787||95.0|-9.0|7.0|||t-test, 2 sided||Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||7|-9|0.7870
92453259|NCT00144339|184794254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.784||95.0|-0.2|0.3|||t-test, 2 sided||Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||0.3|-0.2|0.7840
92453260|NCT00144339|184794255|SUPERIORITY_OR_OTHER|||||||0.2705||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.2705
92453261|NCT00144339|184794256|SUPERIORITY_OR_OTHER|||||||0.306||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.306
92453262|NCT00144339|184794257|SUPERIORITY_OR_OTHER|||||||0.8103||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.8103
92453263|NCT00144339|184794258|SUPERIORITY_OR_OTHER|||||||0.9814||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.9814
92453264|NCT00144339|184794259|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.81|0.91|||Log Rank|Cox regression with treatment|Median estimated by Kaplan-Meier estimates; hazard ratio shown as tio vs. placebo|Cox regression||0.91|0.81|<0.0001
92453265|NCT00144339|184794260|SUPERIORITY_OR_OTHER||Rate Ratio|0.86|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.81|0.91|||t-test, 2 sided||Ratio calculated as estimated number of events in tio/number of events in placebo|Poisson regression adjusted for overdispersion and treatment exposure||0.91|0.81|<0.0001
92453266|NCT00144339|184794261|SUPERIORITY_OR_OTHER|||||||0.3481||95.0|||||Fisher Exact|||||||0.3481
92241679|NCT00335504|184386496|SUPERIORITY_OR_OTHER|||||||0.92||95.0||||Adjusting for multiple comparisons yields 84% power to detect a difference of at least 25% in % change of ACF at the 0.016 level of significance and using a two-sample, 2-sided t-test.|Wilcoxon (Mann-Whitney)|||The study was designed to test the hypotheses of observing a 25% difference in % change ACF over baseline, between patients treated with oligofructose-enriched inulin compared to placebo. N=25 subjects per group yielded 93% power to detect this difference using a 2 sided t-test at significance level of 0.05. Non-parametric tests (eg, Wilcoxon Rank Sum) could be used if the statistical assumptions of the t-test were violated.||||0.92
92241680|NCT00335504|184386496|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Sign test|||Signed Rank p-value for comparison of % change in ACF within each randomization arm.||||0.59
92453267|NCT00144339|184794262|SUPERIORITY_OR_OTHER||Rate Ratio|0.89|STANDARD_ERROR_OF_MEAN|0.03||0.0011||95.0|0.83|0.95|||t-test, 2 sided||Poisson regression adjusting for overdispersion with Pearson's method adjusting for treatment exposure. The logarithm of treatment exposure is used as offset when building the Poisson model.|Poisson regression adjusted for overdispersion and treatment exposure||0.95|0.83|0.0011
92453268|NCT00144339|184794263|SUPERIORITY_OR_OTHER|||||||0.1766||95.0|||||Fisher Exact|||||||0.1766
92453269|NCT00144339|184794264|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86|STANDARD_ERROR_OF_MEAN|0.04||0.0024||95.0|0.78|0.95|||Log Rank||Hazard ratio shown as tiotropium bromide vs. placebo|Cox regression||0.95|0.78|0.0024
92453270|NCT00144339|184794265|SUPERIORITY_OR_OTHER||Rate ratio|0.94|STANDARD_ERROR_OF_MEAN|0.06||0.3413||95.0|0.82|1.07|||t-test, 2 sided||Ratio of estimated number of events between tiotropium bromide and placebo|||1.07|0.82|0.3413
92453271|NCT00144339|184794266|SUPERIORITY_OR_OTHER||Rate ratio|1.01||||0.8624||95.0|0.87|1.18|||t-test, 2 sided||Ratio of estimated number of days of chronic obstructive pulmonary disease (COPD) exacerbation leading to hospitalization between tio and placebo|Poisson regression adjusting for overdispersion with Pearson's method adjusting for treatment exposure. The logarithm of treatment exposure is used as offset when building the Poisson model.||1.18|0.87|0.8624
92453272|NCT00144339|184794267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|||<|0.0001||95.0|0.077|0.098|||ANOVA|Repeated measures ANOVA||||0.098|0.077|<.0001
92453273|NCT00144339|184794268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|||<|0.0001||95.0|0.037|0.057|||ANOVA|Repeated measures ANOVA||||0.057|0.037|<.0001
92453274|NCT00144339|184794269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|||<|0.0001||95.0|0.087|0.11|||ANOVA|Repeated measures ANOVA||||0.110|0.087|<.0001
92453275|NCT00144339|184794270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|||<|0.0001||95.0|0.047|0.069|||ANOVA|Repeated measures ANOVA||||0.069|0.047|<.0001
92453276|NCT00144339|184794271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|||<|0.0001||95.0|0.091|0.115|||ANOVA|Repeated measures ANOVA||||0.115|0.091|<.0001
92453277|NCT00144339|184794272|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.054|||<|0.0001||95.0|0.042|0.065|||ANOVA|Repeated measures ANOVA||||0.065|0.042|<.0001
92453278|NCT00144339|184794273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|||<|0.0001||95.0|0.078|0.104|||ANOVA|Repeated measures ANOVA||||0.104|0.078|<.0001
92241681|NCT00335504|184386496|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Sign test|||Signed Rank p-value for comparison of % change in ACF within each randomization arm.||||0.12
92241682|NCT00335504|184386496|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Sign test|||Signed Rank p-value for comparison of % change in ACF within each randomization arm.||||0.54
92453279|NCT00144339|184794274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|||<|0.0001||95.0|0.04|0.066|||ANOVA|Repeated measures ANOVA||||0.066|0.040|<.0001
92453280|NCT00144339|184794275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|||<|0.0001||95.0|0.081|0.107|||ANOVA|Repeated measures ANOVA||||0.107|0.081|<.0001
92453281|NCT00144339|184794276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|||<|0.0001||95.0|0.049|0.075|||ANOVA|Repeated measures ANOVA||||0.075|0.049|<.0001
92453282|NCT00144339|184794277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095|||<|0.0001||95.0|0.081|0.109|||ANOVA|Repeated measures ANOVA||||0.109|0.081|<.0001
92453283|NCT00144339|184794278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|||<|0.0001||95.0|0.047|0.075|||ANOVA|Repeated measures ANOVA||||0.075|0.047|<.0001
92453284|NCT00144339|184794279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|||<|0.0001||95.0|0.085|0.114|||ANOVA|Repeated measures ANOVA||||0.114|0.085|<.0001
92453285|NCT00144339|184794280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|||<|0.0001||95.0|0.051|0.08|||ANOVA|Repeated measures ANOVA||||0.080|0.051|<.0001
92453286|NCT00144339|184794281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095|||<|0.0001||95.0|0.08|0.11|||ANOVA|Repeated measures ANOVA||||0.110|0.080|<.0001
92453287|NCT00144339|184794282|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|||<|0.0001||95.0|0.045|0.076|||ANOVA|Repeated measures ANOVA||||0.076|0.045|<.0001
92453288|NCT00144339|184794283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|||<|0.0001||95.0|0.073|0.103|||ANOVA|Repeated measures ANOVA||||0.103|0.073|<.0001
92453289|NCT00144339|184794284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.049|||<|0.0001||95.0|0.033|0.065|||ANOVA|Repeated measures ANOVA||||0.065|0.033|<.0001
92453290|NCT00144339|184794285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|||<|0.0001||95.0|0.168|0.211|||ANOVA|Repeated measures ANOVA||||0.211|0.168|<.0001
92453291|NCT00144339|184794286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|||<|0.0001||95.0|0.037|0.073|||ANOVA|Repeated measures ANOVA||||0.073|0.037|<.0001
92453292|NCT00144339|184794287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204|||<|0.0001||95.0|0.18|0.228|||ANOVA|Repeated measures ANOVA||||0.228|0.180|<.0001
92453293|NCT00144339|184794288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|||<|0.0001||95.0|0.034|0.076|||ANOVA|Repeated measures ANOVA||||0.076|0.034|<.0001
92453294|NCT00144339|184794289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|||<|0.0001||95.0|0.173|0.222|||ANOVA|Repeated measures ANOVA||||0.222|0.173|<.0001
92453295|NCT00144339|184794290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|||<|0.0001||95.0|0.026|0.07|||ANOVA|Repeated measures ANOVA||||0.070|0.026|<.0001
92453296|NCT00144339|184794291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.194|||<|0.0001||95.0|0.167|0.221|||ANOVA|Repeated measures ANOVA||||0.221|0.167|<.0001
92453297|NCT00144339|184794292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|||<|0.0001||95.0|0.026|0.074|||ANOVA|Repeated measures ANOVA||||0.074|0.026|<.0001
92453298|NCT00144339|184794293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.189|||<|0.0001||95.0|0.161|0.216|||ANOVA|Repeated measures ANOVA||||0.216|0.161|<.0001
92453299|NCT00144339|184794294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|||<|0.0001||95.0|0.035|0.084|||ANOVA|Repeated measures ANOVA||||0.084|0.035|<.0001
92453300|NCT00144339|184794295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|||<|0.0001||95.0|0.157|0.213|||ANOVA|Repeated measures ANOVA||||0.213|0.157|<.0001
92453301|NCT00144339|184794296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047||||0.0005||95.0|0.021|0.074|||ANOVA|Repeated measures ANOVA||||0.074|0.021|0.0005
92453302|NCT00144339|184794297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||<|0.0001||95.0|0.17|0.229|||ANOVA|Repeated measures ANOVA||||0.229|0.170|<.0001
92453303|NCT00144339|184794298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|||<|0.0001||95.0|0.038|0.093|||ANOVA|Repeated measures ANOVA||||0.093|0.038|<.0001
92453304|NCT00144339|184794299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|||<|0.0001||95.0|0.154|0.215|||ANOVA|Repeated measures ANOVA||||0.215|0.154|<.0001
92453305|NCT00144339|184794300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046||||0.002||95.0|0.017|0.076|||ANOVA|Repeated measures ANOVA||||0.076|0.017|0.0020
92453306|NCT00144339|184794301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||<|0.0001||95.0|0.139|0.201|||ANOVA|Repeated measures ANOVA||||0.201|0.139|<.0001
92453307|NCT00144339|184794302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.0365||95.0|0.002|0.061|||ANOVA|Repeated measures ANOVA||||0.061|0.002|0.0365
92453308|NCT00144339|184794303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||<|0.0001||95.0|0.147|0.192|||ANOVA|Repeated measures ANOVA||||0.192|0.147|<.0001
92453309|NCT00144339|184794304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038||||0.0002||95.0|0.018|0.058|||ANOVA|Repeated measures ANOVA||||0.058|0.018|0.0002
92453310|NCT00144339|184794305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|||<|0.0001||95.0|0.161|0.21|||ANOVA|Repeated measures ANOVA||||0.210|0.161|<.0001
92453311|NCT00144339|184794306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037||||0.0018||95.0|0.014|0.06|||ANOVA|Repeated measures ANOVA||||0.060|0.014|0.0018
92453312|NCT00144339|184794307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|||<|0.0001||95.0|0.151|0.201|||ANOVA|Repeated measures ANOVA||||0.201|0.151|<.0001
92453313|NCT00144339|184794308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.0069||95.0|0.009|0.055|||ANOVA|Repeated measures ANOVA||||0.055|0.009|0.0069
92453314|NCT00144339|184794309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|||<|0.0001||95.0|0.127|0.182|||ANOVA|Repeated measures ANOVA||||0.182|0.127|<.0001
92453315|NCT00144339|184794310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.002||95.0|0.015|0.065|||ANOVA|Repeated measures ANOVA||||0.065|0.015|0.0020
92453316|NCT00144339|184794311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|||<|0.0001||95.0|0.139|0.194|||ANOVA|Repeated measures ANOVA||||0.194|0.139|<.0001
92453317|NCT00144339|184794312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.0165||95.0|0.006|0.057|||ANOVA|Repeated measures ANOVA||||0.057|0.006|0.0165
92453318|NCT00144339|184794313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||<|0.0001||95.0|0.141|0.199|||ANOVA|Repeated measures ANOVA||||0.199|0.141|<.0001
92453319|NCT00144339|184794314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031||||0.0248||95.0|0.004|0.059|||ANOVA|Repeated measures ANOVA||||0.059|0.004|0.0248
92453320|NCT00144339|184794315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|||<|0.0001||95.0|0.136|0.196|||ANOVA|Repeated measures ANOVA||||0.196|0.136|<.0001
92453321|NCT00144339|184794316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.0004||95.0|0.022|0.078|||ANOVA|Repeated measures ANOVA||||0.078|0.022|0.0004
92453322|NCT00144339|184794317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|||<|0.0001||95.0|0.13|0.192|||ANOVA|Repeated measures ANOVA||||0.192|0.130|<.0001
92453323|NCT00144339|184794318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027||||0.0809||95.0|-0.003|0.057|||ANOVA|Repeated measures ANOVA||||0.057|-0.003|0.0809
92453324|NCT00144339|184794319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|||<|0.0001||95.0|0.119|0.182|||ANOVA|Repeated measures ANOVA||||0.182|0.119|<.0001
92453325|NCT00144339|184794320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026||||0.0915||95.0|-0.004|0.057|||ANOVA|Repeated measures ANOVA||||0.057|-0.004|0.0915
92453326|NCT00144339|184794321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.88|||<|0.0001||95.0|-3.535|-2.226|||ANOVA|Repeated measures ANOVA||||-2.226|-3.535|<.0001
92453327|NCT00144339|184794322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.771|||<|0.0001||95.0|-3.461|-2.081|||ANOVA|Repeated measures ANOVA||||-2.081|-3.461|<.0001
92453328|NCT00144339|184794323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.593|||<|0.0001||95.0|-3.352|-1.834|||ANOVA|Repeated measures ANOVA||||-1.834|-3.352|<.0001
92453329|NCT00144339|184794324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.384|||<|0.0001||95.0|-3.191|-1.576|||ANOVA|Repeated measures ANOVA||||-1.576|-3.191|<.0001
92453330|NCT00144339|184794325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.423|||<|0.0001||95.0|-3.277|-1.569|||ANOVA|Repeated measures ANOVA||||-1.569|-3.277|<.0001
92453331|NCT00144339|184794326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.345|||<|0.0001||95.0|-4.229|-2.462|||ANOVA|Repeated measures ANOVA||||-2.462|-4.229|<.0001
92453332|NCT00144339|184794327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.818|||<|0.0001||95.0|-3.742|-1.894|||ANOVA|Repeated measures ANOVA||||-1.894|-3.742|<.0001
92173437|NCT04610892|184238072|SUPERIORITY||Geometric LS mean ratio estimate|1.12||||0.854||90.0|0.94|1.33||One sided p-value|Mixed model with repeated measurements|The model was adjusted for the baseline value and the stratification factors (geographic region and statin therapy intensity at screening).||||1.33|0.94|0.854
92173438|NCT04610892|184238072|SUPERIORITY||Geometric LS mean ratio estimate|1.06||||0.79||90.0|0.94|1.18||One sided p-value|Mixed model with repeated measurements|The model was adjusted for the baseline value and the stratification factors (geographic region and statin therapy intensity at screening).||||1.18|0.94|0.790
92173439|NCT04610892|184238072|SUPERIORITY||Geometric LS mean ratio estimate|1.0||||0.498||90.0|0.89|1.12||One sided p-value|Mixed model with repeated measurements|The model was adjusted for the baseline value and the stratification factors (geographic region and statin therapy intensity at screening).||||1.12|0.89|0.498
92173440|NCT04610892|184238072|SUPERIORITY||Geometric LS mean ratio estimate|1.03||||0.678||90.0|0.93|1.13||One sided p-value|Mixed model with repeated measurements|The model was adjusted for the baseline value and the stratification factors (geographic region and statin therapy intensity at screening).||||1.13|0.93|0.678
92241683|NCT00335504|184386496|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||Sign test|||Signed Rank p-value for comparison of % change in ACF within each randomization arm.||||0.41
92173441|NCT04610892|184238073|SUPERIORITY||Least Squares mean difference|-1.44||||0.99||90.0|-2.44|-0.43||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.43|-2.44|0.990
92173442|NCT04610892|184238073|SUPERIORITY||Least Squares mean difference|-0.21||||0.697||90.0|-0.87|0.45||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||0.45|-0.87|0.697
92173443|NCT04610892|184238073|SUPERIORITY||Least Squares mean difference|-0.42||||0.849||90.0|-1.08|0.25||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||0.25|-1.08|0.849
92241684|NCT00335504|184386497|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in Ki67 between atorvastatin and placebo.||||0.37
92241685|NCT00335504|184386497|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in Ki67 between sulindac and placebo.||||1.00
92453333|NCT00144339|184794328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.303|||<|0.0001||95.0|-3.266|-1.34|||ANOVA|Repeated measures ANOVA||||-1.340|-3.266|<.0001
92453334|NCT00144339|184794329|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85|STANDARD_ERROR_OF_MEAN|0.06||0.0242||95.0|0.74|0.98|||Log Rank||Cox regression with treatment; hazard ratio shown as tiotropium bromide vs. placebo|||0.98|0.74|0.0242
92453335|NCT00144339|184794330|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|STANDARD_ERROR_OF_MEAN|0.06||0.0339||95.0|0.76|0.99|||Log Rank||Cox regression; cut-off at 4 years ; vital status form intended at 4 years; hazard ratio shown as tio vs. placebo|Hazard ratio of all cause mortality vital status was information followed-up after discontinuation; vital status information up to 1440 days after the start of treatment was used||0.99|0.76|0.0339
92453336|NCT00144339|184794331|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|STANDARD_ERROR_OF_MEAN|0.06||0.0859||95.0|0.79|1.02|||Log Rank||Cox regression; cut-off at 4 years plus 30 days; vital status form intended at 4 years; hazard ratio shown as tio vs. placebo|||1.02|0.79|0.0859
92453337|NCT00144339|184794332|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.1936||95.0|0.67|1.08|||Log Rank||Cox regression with treatment; hazard ratio shown as tiotropium bromide vs. placebo|||1.08|0.67|0.1936
92453338|NCT00144339|184794333|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.2377||95.0|0.71|1.09|||Log Rank||Cox regression; cut-off at 4 years plus 30 days; vital status form intended at 4 years; hazard ratio shown as tiotropium bromide vs. placebo|||1.09|0.71|0.2377
92453339|NCT00144339|184794334|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.84||||0.029||95.0|0.73|0.98|||Z-test|incidence rate = number of patients with event/ time at risk|Rate ratio of incidence rates (tiotropium/placebo)|||0.98|0.73|0.0290
92453340|NCT00144339|184794335|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|1.44||||0.1158||95.0|0.91|2.26|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||2.26|0.91|0.1158
92453341|NCT00144339|184794336|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.95||||0.7725||95.0|0.68|1.33|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||1.33|0.68|0.7725
92453342|NCT00144339|184794337|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|1.25||||0.2666||95.0|0.84|1.87|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||1.87|0.84|0.2666
92453343|NCT00144339|184794338|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.59||||0.0337||95.0|0.37|0.96|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.96|0.37|0.0337
92453344|NCT00144339|184794339|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.58||||0.0537||95.0|0.33|1.01|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||1.01|0.33|0.0537
92453345|NCT00144339|184794340|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.71||||0.0403||95.0|0.52|0.99|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.99|0.52|0.0403
92453346|NCT00144339|184794341|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.84||||0.0001||95.0|0.77|0.92|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.92|0.77|0.0001
92453347|NCT00144339|184794342|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|1.2||||0.4789||95.0|0.73|1.98|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||1.98|0.73|0.4789
92453348|NCT00144339|184794343|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.84||||0.0014||95.0|0.76|0.94|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.94|0.76|0.0014
92453349|NCT00144339|184794344|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.61||||0.0236||95.0|0.4|0.94|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.94|0.40|0.0236
92453350|NCT00144339|184794345|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.95||||0.5064||95.0|0.81|1.11|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||1.11|0.81|0.5064
92453351|NCT00144339|184794346|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.69||||0.0104||95.0|0.52|0.92|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.92|0.52|0.0104
92453352|NCT01156701|184794368|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.15|||||TWO_SIDED|95.0|-1.42|1.12|||||Direct effect of Zanamivir prophylaxis on influenza risk|||1.12|-1.42|
92453353|NCT01156701|184794368|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.38|||||TWO_SIDED|95.0|-0.93|0.17|||||Total effect of zanamivir prophylaxis|||0.17|-0.93|
92453354|NCT01156701|184794368|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.14|||||TWO_SIDED|95.0|-0.75|0.47|||||Direct effect of zanamivir prophylaxis when index is treated|||0.47|-0.75|
92453355|NCT01156701|184794368|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.23|||||TWO_SIDED|95.0|-1.15|1.62|||||Risk in cohort 1 minus risk in cohort 2|||1.62|-1.15|
92453356|NCT01156701|184794368|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.24|||||TWO_SIDED|95.0|-0.51|0.03|||||Protective effect of zanamivir on susceptible risk|||0.03|-0.51|
92453357|NCT01156701|184794368|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||Direct effect of Zanamivir prophylaxis on influenza risk|||1.01|0.99|
92453358|NCT01156701|184794368|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Total effect of zanamivir prophylaxis|||1.00|0.99|
92453359|NCT01156701|184794368|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Direct effect of zanamivir prophylaxis when index is treated|||1.00|0.99|
92453360|NCT01156701|184794368|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.02|||||Risk in cohort 1 minus risk in cohort 2|||1.02|0.99|
92453361|NCT01156701|184794368|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Protective effect of zanamivir on susceptible risk|||1.00|0.99|
92453362|NCT01156701|184794369|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-1.17|0.36|||||Direct effect of Zanamivir prophylaxis on asthma risk|||0.36|-1.17|
92453363|NCT01156701|184794369|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.38|||||TWO_SIDED|95.0|-0.8|0.03|||||Total effect of zanamivir prophylaxis|||0.03|-0.80|
92453364|NCT01156701|184794369|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.28|||||TWO_SIDED|95.0|-0.75|0.18|||||Direct effect of zanamivir prophylaxis when index is treated|||0.18|-0.75|
92453365|NCT01156701|184794369|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.02|||||TWO_SIDED|95.0|-0.89|0.85|||||Risk in cohort 1 minus risk in cohort 2|||0.85|-0.89|
92453366|NCT01156701|184794369|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.31|0.11|||||Protective effect of zanamivir on susceptible risk|||0.11|-0.31|
92453367|NCT01156701|184794369|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Direct effect of Zanamivir prophylaxis on asthma risk|||1.00|0.99|
92453368|NCT01156701|184794369|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Total effect of zanamivir prophylaxis|||1.00|0.99|
92453369|NCT01156701|184794369|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Direct effect of zanamivir prophylaxis when index is treated|||1.00|0.99|
92453370|NCT01156701|184794369|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||Risk in cohort 1 minus risk in cohort 2|||1.01|0.99|
92453371|NCT01156701|184794369|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Protective effect of zanamivir on susceptible risk|||1.00|1.00|
92453372|NCT01156701|184794370|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.46|||||TWO_SIDED|95.0|-0.61|1.54|||||Direct effect of Zanamivir prophylaxis on pneumonia risk|||1.54|-0.61|
92453373|NCT01156701|184794370|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.25|||||TWO_SIDED|95.0|-0.45|-0.04|||||Total effect of zanamivir prophylaxis|||-0.04|-0.45|
92453374|NCT01156701|184794370|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.15|||||TWO_SIDED|95.0|-0.39|0.09|||||Direct effect of zanamivir prophylaxis when index is treated|||0.09|-0.39|
92241686|NCT00335504|184386497|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in Ki67 between oligofructose-enriched inulin and placebo.||||0.58
92453375|NCT01156701|184794370|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.72|||||TWO_SIDED|95.0|-0.38|1.81|||||Risk in cohort 1 minus risk in cohort 2|||1.81|-0.38|
92453376|NCT01156701|184794370|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.22|0.02|||||Protective effect of zanamivir on susceptible risk|||0.02|-0.22|
92453377|NCT01156701|184794370|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.02|||||Direct effect of Zanamivir prophylaxis on pneumonia risk|||1.02|0.99|
92453378|NCT01156701|184794370|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Total effect of zanamivir prophylaxis|||1.00|1.00|
92453379|NCT01156701|184794370|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Direct effect of zanamivir prophylaxis when index is treated|||1.00|1.00|
92241687|NCT00335504|184386498|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in apoptosis between atorvastatin calcium and placebo.||||0.26
92241688|NCT00335504|184386498|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in apoptosis between sulindac and placebo.||||0.88
92241689|NCT00335504|184386498|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in apoptosis between oligofructose-enriched inulin and placebo.||||0.38
92453380|NCT01156701|184794370|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|1.0|1.02|||||Risk in cohort 1 minus risk in cohort 2|||1.02|1.00|
92453381|NCT01156701|184794370|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Protective effect of zanamivir on susceptible risk|||1.00|1.00|
92453382|NCT01156701|184794371|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.28|||||TWO_SIDED|95.0|-0.83|3.4|||||Direct effect of Zanamivir prophylaxis on bronchitis risk|||3.40|-0.83|
92453383|NCT01156701|184794371|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.24|||||TWO_SIDED|95.0|-0.98|0.47|||||Total effect of zanamivir prophylaxis|||0.47|-0.98|
92453384|NCT01156701|184794371|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.09|||||TWO_SIDED|95.0|-0.85|0.67|||||Direct effect of zanamivir prophylaxis when index is treated|||0.67|-0.85|
92453385|NCT01156701|184794371|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.53|||||TWO_SIDED|95.0|-0.7|3.76|||||Risk in cohort 1 minus risk in cohort 2|||3.76|-0.70|
92453386|NCT01156701|184794371|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.16|||||TWO_SIDED|95.0|-0.44|0.12|||||Protective effect of zanamivir on susceptible risk|||0.12|-0.44|
92453387|NCT01156701|184794371|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.99|1.03|||||Direct effect of Zanamivir prophylaxis on bronchitis risk|||1.03|0.99|
92453388|NCT01156701|184794371|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Total effect of zanamivir prophylaxis|||1.00|0.99|
92453389|NCT01156701|184794371|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||Direct effect of zanamivir prophylaxis when index is treated|||1.01|0.99|
92453390|NCT01156701|184794371|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|0.99|1.04|||||Risk in cohort 1 minus risk in cohort 2|||1.04|0.99|
92453391|NCT01156701|184794371|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Protective effect of zanamivir on susceptible risk|||1.00|1.00|
92241690|NCT03161938|184386554|SUPERIORITY||Odds Ratio (OR)|0.508||||0.248|TWO_SIDED|95.0|0.159|1.62|||Chi-squared, Corrected|||Null hypothesis: Patients receiving 48 mg of preoperative dexamethasone have less postoperative pain. Power calculation: Acute pain is reduced from 70% to 35% for patients receiving 48 mg of dexamathesone, 80% power, 0.05 statistical significance level.||1.620|0.159|0.248
92241691|NCT03161938|184386555|SUPERIORITY|||||||0.519|||||||Wilcoxon (Mann-Whitney)|||||||0.519
92241692|NCT03161938|184386556|SUPERIORITY|||||||0.468|||||||Wilcoxon (Mann-Whitney)|||||||0.468
92241693|NCT03161938|184386557|SUPERIORITY|||||||0.913|||||||Wilcoxon (Mann-Whitney)|||Maximal pain||||0.913
92241694|NCT03161938|184386557|SUPERIORITY|||||||0.722|||||||Wilcoxon (Mann-Whitney)|||Average pain||||0.722
92241695|NCT03161938|184386558|SUPERIORITY||Odds Ratio (OR)|1.19||||0.768|TWO_SIDED|95.0|0.374|3.793|||Chi-squared, Corrected|||||3.793|0.374|0.768
92241696|NCT03161938|184386559|SUPERIORITY|||||||0.133|||||||Regression, Linear|||||||0.133
92453392|NCT01156701|184794372|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.14|||||TWO_SIDED|95.0|-3.08|2.79|||||Direct effect of Zanamivir prophylaxis on risk of any respiratory diagnosis|||2.79|-3.08|
92453393|NCT01156701|184794372|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.07|||||TWO_SIDED|95.0|-2.39|0.25|||||Total effect of zanamivir prophylaxis|||0.25|-2.39|
92241697|NCT03161938|184386560|SUPERIORITY|||||||0.768||||||Not adjusted for multiple comparisons, statistical level of significance 0.01 (bonferroni correction)|Chi-squared, Corrected|||Day 0||||0.768
92241698|NCT03161938|184386560|SUPERIORITY|||||||0.376|||||||Chi-squared, Corrected|||Day 1||||0.376
92281077|NCT01901055|184465084|SUPERIORITY||Mean Difference (Net)|-16.78|STANDARD_ERROR_OF_MEAN|10.99||0.307|TWO_SIDED|95.0|-38.66|5.09||F test statistics for group X time = 1.20|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||5.09|-38.66|0.307
92281078|NCT01901055|184465085|SUPERIORITY||Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.3||0.732|TWO_SIDED|95.0|-0.85|0.35||F test statistics for group X time = 0.31|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||0.35|-0.85|0.732
92281079|NCT01901055|184465086|SUPERIORITY||Mean Difference (Net)|3.65|STANDARD_ERROR_OF_MEAN|2.65||0.919|TWO_SIDED|95.0|-1.62|8.92||F test statistics for group X time = 0.01|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||8.92|-1.62|0.919
92241699|NCT03161938|184386560|SUPERIORITY|||||||0.59|||||||Chi-squared, Corrected|||Day 2||||0.590
92241700|NCT03161938|184386560|SUPERIORITY|||||||0.32|||||||Chi-squared, Corrected|||Day 3||||0.320
92241701|NCT03161938|184386560|SUPERIORITY|||||||0.666|||||||Chi-squared, Corrected|||day 4||||0.666
92241702|NCT03161938|184386561|SUPERIORITY||||||>|0.999|||||||Chi-squared, Corrected|||day 0||||>0.999
92241703|NCT03161938|184386561|SUPERIORITY|||||||0.154|||||||Chi-squared, Corrected|||day 1||||0.154
92241704|NCT03161938|184386561|SUPERIORITY|||||||0.447|||||||Chi-squared, Corrected|||day 2||||0.447
92241705|NCT03161938|184386561|SUPERIORITY|||||||0.678|||||||Chi-squared, Corrected|||day 3||||0.678
92241706|NCT03161938|184386561|SUPERIORITY|||||||0.604|||||||Chi-squared, Corrected|||day 4||||0.604
92241707|NCT03161938|184386562|SUPERIORITY|||||||0.075|||||||Chi-squared, Corrected|||day 0, sadness||||0.075
92241708|NCT03161938|184386562|SUPERIORITY|||||||0.447|||||||Chi-squared, Corrected|||day 0, restlessness||||0.447
92241709|NCT03161938|184386562|SUPERIORITY|||||||0.703|||||||Chi-squared, Corrected|||Day 0, fatigue||||0.703
92241710|NCT03161938|184386562|SUPERIORITY|||||||0.731|||||||Chi-squared, Corrected|||Day 1, sadness||||0.731
92241711|NCT03161938|184386562|SUPERIORITY|||||||0.052|||||||Chi-squared, Corrected|||Day 1, restlessness||||0.052
92241712|NCT03161938|184386562|SUPERIORITY|||||||0.807|||||||Chi-squared, Corrected|||Day 1, fatigue||||0.807
92241713|NCT03161938|184386562|SUPERIORITY|||||||0.371|||||||Chi-squared, Corrected|||Day 2, sadness||||0.371
92241714|NCT03161938|184386562|SUPERIORITY|||||||0.064|||||||Chi-squared, Corrected|||Day 2, restlessness||||0.064
92241715|NCT03161938|184386562|SUPERIORITY|||||||0.11|||||||Chi-squared, Corrected|||day 2, fatigue||||0.110
92241716|NCT03161938|184386562|SUPERIORITY|||||||0.531|||||||Chi-squared, Corrected|||Day 3, sadness||||0.531
92241717|NCT03161938|184386562|SUPERIORITY|||||||0.954|||||||Chi-squared, Corrected|||Day 3, restlessness||||0.954
92241718|NCT03161938|184386562|SUPERIORITY|||||||0.526|||||||Chi-squared, Corrected|||Day 3, fatigue||||0.526
92241719|NCT03161938|184386562|SUPERIORITY|||||||0.491|||||||Chi-squared, Corrected|||Day 4, sadness||||0.491
92241720|NCT03161938|184386562|SUPERIORITY|||||||0.042|||||||Chi-squared, Corrected|||Day 4, restlessness||||0.042
92241721|NCT03161938|184386562|SUPERIORITY|||||||0.097|||||||Chi-squared, Corrected|||Day 4, fatigue||||0.097
92241722|NCT03161938|184386563|SUPERIORITY|||||||0.613|||||||Chi-squared, Corrected|||||||0.613
92241723|NCT03456713|184386577|OTHER||Ratio of geometric least squares mean|1.47|||||TWO_SIDED|90.0|1.12|1.94||||||||1.94|1.12|
92241724|NCT03456713|184386578|OTHER||Ratio of geometric least squares mean|1.44|||||TWO_SIDED|90.0|1.15|1.81||||||||1.81|1.15|
92241725|NCT03456713|184386579|OTHER||Ratio of geometric least squares mean|1.66|||||TWO_SIDED|90.0|1.31|2.11||||||||2.11|1.31|
92241726|NCT03456713|184386580|SUPERIORITY||Ratio of Geometric Least Squares Means|0.73|||||TWO_SIDED|90.0|0.43|1.23||||||||1.23|0.43|
92241727|NCT03456713|184386581|OTHER||Ratio of geometric least squares mean|0.98|||||TWO_SIDED|90.0|0.58|1.67||||||||1.67|0.58|
92453394|NCT01156701|184794372|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.08|||||TWO_SIDED|95.0|-2.51|0.35|||||Direct effect of zanamivir prophylaxis when index is treated|||0.35|-2.51|
92453395|NCT01156701|184794372|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.93|||||TWO_SIDED|95.0|-2.29|4.14|||||Risk in cohort 1 minus risk in cohort 2|||4.14|-2.29|
92453396|NCT01156701|184794372|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.01|||||TWO_SIDED|95.0|-0.58|0.59|||||Protective effect of zanamivir on susceptible risk|||0.59|-0.58|
92453397|NCT01156701|184794372|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.97|1.03|||||Direct effect of Zanamivir prophylaxis on risk of any respiratory diagnosis|||1.03|0.97|
92453398|NCT01156701|184794372|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.98|1.0|||||Total effect of zanamivir prophylaxis|||1.00|0.98|
92453399|NCT01156701|184794372|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.98|1.0|||||Direct effect of zanamivir prophylaxis when index is treated|||1.00|0.98|
92453400|NCT01156701|184794372|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.98|1.04|||||Risk in cohort 1 minus risk in cohort 2|||1.04|0.98|
92453401|NCT01156701|184794372|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Protective effect of zanamivir on susceptible risk|||1.00|0.99|
92453402|NCT02232893|184794383|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92453403|NCT01764945|184794384|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|82.58|STANDARD_DEVIATION|19.7|||TWO_SIDED|90.0|73.69|92.54|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment B : treatment A)."||92.54|73.69|
92453404|NCT01764945|184794384|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|83.34|STANDARD_DEVIATION|22.2|||TWO_SIDED|90.0|73.65|94.3|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment C : treatment A)."||94.30|73.65|
92241728|NCT03456713|184386582|OTHER||Ratio of geometric least squares mean|0.7|||||TWO_SIDED|90.0|0.41|1.2||||||||1.20|0.41|
92453405|NCT01764945|184794384|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|83.92|STANDARD_DEVIATION|19.6|||TWO_SIDED|90.0|74.69|94.28|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment D : treatment A)."||94.28|74.69|
92453406|NCT01764945|184794384|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|92.9|STANDARD_DEVIATION|10.5|||TWO_SIDED|90.0|88.94|97.04|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment F : treatment E)."||97.04|88.94|
92453407|NCT01764945|184794384|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|96.37|STANDARD_DEVIATION|12.7|||TWO_SIDED|90.0|91.55|101.43|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment G : treatment E)."||101.43|91.55|
92453408|NCT01764945|184794384|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|94.44|STANDARD_DEVIATION|12.0|||TWO_SIDED|90.0|89.88|99.24|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment H : treatment E)."||99.24|89.88|
92453409|NCT01764945|184794385|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|74.07|STANDARD_DEVIATION|21.5|||TWO_SIDED|90.0|65.44|83.83|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment B : treatment A)."||83.83|65.44|
92453410|NCT01764945|184794385|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|73.23|STANDARD_DEVIATION|26.2|||TWO_SIDED|90.0|63.33|84.68|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment C : treatment A)."||84.68|63.33|
92453411|NCT01764945|184794385|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|78.76|STANDARD_DEVIATION|22.7|||TWO_SIDED|90.0|68.94|89.99|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment D : treatment A)."||89.99|68.94|
92453412|NCT01764945|184794385|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|78.3|STANDARD_DEVIATION|22.5|||TWO_SIDED|90.0|71.42|85.84|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment F : treatment E)."||85.84|71.42|
92453413|NCT01764945|184794385|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|78.43|STANDARD_DEVIATION|30.4|||TWO_SIDED|90.0|69.54|88.46|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment G : treatment E)."||88.46|69.54|
92453414|NCT01764945|184794385|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|78.09|STANDARD_DEVIATION|29.4|||TWO_SIDED|90.0|69.35|87.94|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment H : treatment E)."||87.94|69.35|
92453415|NCT01764945|184794386|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|82.02|STANDARD_DEVIATION|13.1|||TWO_SIDED|90.0|75.98|88.55|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment B : treatment A)."||88.55|75.98|
92453416|NCT01764945|184794386|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|80.93|STANDARD_DEVIATION|14.5|||TWO_SIDED|90.0|74.58|87.83|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment C : treatment A)."||87.83|74.58|
92453417|NCT01764945|184794386|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|79.6|STANDARD_DEVIATION|10.2|||TWO_SIDED|90.0|74.84|84.67|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment D : treatment A)."||84.67|74.84|
92173444|NCT04610892|184238073|SUPERIORITY||Least Squares mean difference|-0.31||||0.811||90.0|-0.89|0.27||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||0.27|-0.89|0.811
92453418|NCT01764945|184794386|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|91.59|STANDARD_DEVIATION|11.0|||TWO_SIDED|90.0|87.53|95.84|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment F : treatment E)."||95.84|87.53|
92453419|NCT01764945|184794386|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|94.38|STANDARD_DEVIATION|12.4|||TWO_SIDED|90.0|89.76|99.24|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment G : treatment E)."||99.24|89.76|
92453420|NCT01764945|184794386|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|92.91|STANDARD_DEVIATION|12.0|||TWO_SIDED|90.0|88.42|97.63|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment H : treatment E)."||97.63|88.42|
92453421|NCT02911948|184794400|SUPERIORITY|Superiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was strictly below 0.0% for null hypothesis (H0): D=0.0% against the alternative (HA): D≠0.0%, where D is the mean difference (IDegLira - IDeg).|Treatment contrast|-1.28|||<|0.0001|TWO_SIDED|95.0|-1.5|-1.06|||ANCOVA|||The response and change from baseline in response after 26 weeks are analysed using an ANCOVA model with treatment and pre-trial anti-diabetic treatment as fixed factors and corresponding baseline HbA1c value as covariate.||-1.06|-1.50|<0.0001
92453422|NCT02854540|184794429|OTHER||Mean difference (percent)|59.0|STANDARD_DEVIATION|16.0|||TWO_SIDED|||||||||||||
92453423|NCT03819660|184794460|OTHER||percentage|38.5|||||TWO_SIDED|||||||||||||
92241729|NCT00300469|184386583|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect a 20% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
92241730|NCT00300469|184386583|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect a 20% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
92241731|NCT00300469|184386584|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide 99% power to detect a 13% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||0.005
92241732|NCT00300469|184386584|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide 99% power to detect a 13% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||0.010
92241733|NCT00300469|184386585|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect a 31% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
92241734|NCT00300469|184386585|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect a 31% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
92281080|NCT01901055|184465087|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.54||0.125|TWO_SIDED|95.0|-1.18|0.96||F-test statistics for group X time = 2.12|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||0.96|-1.18|0.125
92241735|NCT01943864|184386624|SUPERIORITY_OR_OTHER||non PD rate at Week 12|10.0||||0.976|TWO_SIDED|95.0|1.2|31.7|||Exact Binomial Test|||||31.7|1.2|0.976
92241736|NCT01943864|184386625|SUPERIORITY_OR_OTHER||non PD rate at Week 12|15.0||||0.909|TWO_SIDED|95.0|3.2|37.9|||Exact Binomial Test|||||37.9|3.2|0.909
92241737|NCT01943864|184386640|SUPERIORITY_OR_OTHER||Median PFS|10.6|||||TWO_SIDED|95.0|4.6|12.1|||||Lower and upper limits and estimation value are in terms of weeks|||12.1|4.6|
92241738|NCT01943864|184386641|SUPERIORITY_OR_OTHER||Median PFS|10.6|||||TWO_SIDED|95.0|4.6|12.7|||||Lower and upper limits and estimation value are in terms of weeks|||12.7|4.6|
92281081|NCT01901055|184465088|SUPERIORITY||Mean Difference (Net)|87.22|STANDARD_ERROR_OF_MEAN|529.1||0.639|TWO_SIDED|95.0|-936.1|1137.5||F-test statistics for group X time = 0.45|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||1137.50|-936.10|0.639
92281082|NCT01901055|184465089|SUPERIORITY||Mean Difference (Net)|-0.63|STANDARD_ERROR_OF_MEAN|0.49||0.461|TWO_SIDED|95.0|-1.61|0.35||F-test statistics for group X time = 0.78|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||0.35|-1.61|0.461
92281083|NCT01901055|184465090|SUPERIORITY||Mean Difference (Net)|3.04|STANDARD_ERROR_OF_MEAN|3.94||0.776|TWO_SIDED|95.0|-4.78|10.86||F-test statistics for group X time= 0.25|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||10.86|-4.78|0.776
92173445|NCT04610892|184238074|SUPERIORITY||Least Squares mean difference|-3.5||||0.972||90.0|-6.49|-0.5||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.50|-6.49|0.972
92173446|NCT04610892|184238074|SUPERIORITY||Least Squares mean difference|-1.1||||0.777||90.0|-3.49|1.3||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||1.30|-3.49|0.777
92173447|NCT04610892|184238074|SUPERIORITY||Least Squares mean difference|-0.32||||0.596||90.0|-2.54|1.89||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||1.89|-2.54|0.596
92241739|NCT01943864|184386642|SUPERIORITY_OR_OTHER||Overall Survival|20.0|||||TWO_SIDED|95.0|6.2|39.3||||||||39.3|6.2|
92241740|NCT01943864|184386643|SUPERIORITY_OR_OTHER||ORR|0.0|||||TWO_SIDED|95.0|0.0|16.8||||||||16.8|0|
92241741|NCT01943864|184386644|SUPERIORITY_OR_OTHER||ORR|5.0|||||TWO_SIDED|95.0|0.1|24.9||||||||24.9|0.1|
92281084|NCT01901055|184465091|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.79||0.378|TWO_SIDED|95.0|-1.24|1.89||F-test statistics for group X time = 0.98|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||1.89|-1.24|0.378
92281085|NCT01901055|184465092|SUPERIORITY||Mean Difference (Net)|3.18|STANDARD_ERROR_OF_MEAN|7.24||0.213|TWO_SIDED|95.0|-11.19|17.56||F-test statistics for group X time = 1.57|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||17.56|-11.19|0.213
92241742|NCT01954121|184386654|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for the adjusted difference in seizure free proportion in the LEV minus the seizure free proportion in the CBZ-IR group was set to absolute -20% points.|adjusted difference in proportions|-22.9|||||TWO_SIDED|95.0|-33.1|-12.6||||||The adjusted absolute difference in treatment group seizure-free proportions (referenced as 'Adjusted difference in proportions' in 'Method of Estimation' below) was derived from the adjusted treatment group proportions of seizure-free subjects. The adjusted proportions were derived from a logistic regression model of seizure freedom using treatment and the categories for the number of seizures in the 3-month period prior to Visit 1 (≤2 seizures and \>2 seizures) as covariates.||-12.6|-33.1|
92453424|NCT01136291|184794462|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||The homogeneity between the groups was compared by the Student's t test or the Mann-Whitney test for continuous variables and chi-square for categorical variables.A comparison between values before and after the study group session was performed by the Student's t test. The effect of the exercise was evaluated by repeated measures ANOVA, where the effect of time and group were evaluated on pressure, weight, Body Mass Index (BMI)and World Health Organization Quality of Life Questionnarie domains.||||<0.05
92453425|NCT03965052|184794465|OTHER|||||||1|||||||Fisher Exact|||||||1.000
92453426|NCT03965052|184794467|OTHER|||||||1|||||||Fisher Exact|||Lissamine green treatment groups||||1.000
92453427|NCT03965052|184794467|OTHER|||||||0.667|||||||Fisher Exact|||Fluorescein treatment groups||||0.667
92453428|NCT03965052|184794468|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92453429|NCT03965052|184794469|OTHER|||||||0.977|||||||Chi-squared, Corrected|||the analysis was per protocol||||0.977
92453430|NCT03965052|184794471|OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||||||0.019
92453431|NCT02308033|184794497|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
92453432|NCT02308033|184794498|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
92453433|NCT02308033|184794499|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||Comparison of normal Nugent scores at 7-14 days||||<0.001
92453434|NCT02308033|184794500|SUPERIORITY|||||||0.034|||||||Chi-squared, Corrected|||Comparison of the number of subjects whose reported their symptoms completely resolved||||0.034
92453435|NCT04773015|184794513|OTHER|||||||0.6371|||||||Fisher Exact|||||||0.6371
92453436|NCT04773015|184794514|OTHER|||||||0.1448|||||||Fisher Exact|||||||0.1448
92453437|NCT04773015|184794515|OTHER|||||||0.1507|||||||Fisher Exact|||||||0.1507
92453438|NCT04773015|184794516|OTHER|||||||0.1189|||||||Fisher Exact|||||||0.1189
92453439|NCT04964089|184794518|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept participants to be considered non-inferior is 4.5 ETDRS letters, i.e. the non-inferiority margin (NI) is 4.5 letters.|Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.91||0.0083|TWO_SIDED|95.03|-3.88|-0.29|||Mixed Models Analysis|MMRM model with treatment, visit, treatment by visit interaction, randomization stratification factors, and continuous baseline BCVA as covariates.||||-0.29|-3.88|0.0083
92241743|NCT04415489|184386673|SUPERIORITY|||||||0.57||||||The a priori threshold for statistical significance was p \< 0.05.|Fisher Exact|||||||0.57
92241744|NCT04415489|184386674|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance was p \< 0.05.|t-test, 2 sided|||||||<0.01
92241745|NCT04415489|184386675|SUPERIORITY|||||||0.11||||||The a priori threshold for statistical significance was \< 0.05.|Fisher Exact|||||||0.11
92241746|NCT04415489|184386676|SUPERIORITY|||||||0.16||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||||0.16
92453440|NCT00434057|184794542|SUPERIORITY_OR_OTHER||Sensitivity to melanoma|98.0||||0.05||95.0|95.1|100.0|||exact mid-P||"Of 127 melanomas, 114 melanomas had a pre-biopsy diagnosis of Melanoma can not be ruled out or Not melanoma, which qualified them for primary endpoint analysis of sensitivity. MelaFind correctly identified 112/114 melanomas."|MelaFind's sensitivity to cutaneous melanoma and 95% confidence intervals were determined.||100|95.1|0.05
92453441|NCT00434057|184794542|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared|||Specificty of MelaFind and examining dermatologists on the same set of pigmented skin lesions.||||0.02
92453442|NCT00823719|184794556|SUPERIORITY_OR_OTHER||percentage of participants|69.0|||||TWO_SIDED|95.0|48.2|85.7|||||The estimated value represents the percentage of participants with OR for participants receiving Ofatumumab + DHAP treatment.|||85.7|48.2|
92453443|NCT00823719|184794556|SUPERIORITY_OR_OTHER||percentage of participants|55.0|||||TWO_SIDED|95.0|36.4|71.9|||||The estimated value represents the percentage of participants with OR for participants receiving Ofatumumab + ICE treatment.|||71.9|36.4|
92453444|NCT00823719|184794556|SUPERIORITY_OR_OTHER||percentage of participants|61.0|||||TWO_SIDED|95.0|47.4|73.5|||||The estimated value represents the percentage of participants with OR for participants receiving Total Ofatumumab + Chemotherapy treatment.|||73.5|47.4|
92453445|NCT00373334|184794572|SUPERIORITY_OR_OTHER|||||||0.528||95.0|||||Cochran-Mantel-Haenszel|||||||0.528
92453446|NCT00373334|184794572|SUPERIORITY_OR_OTHER|||||||0.341||95.0|||||Cochran-Mantel-Haenszel|||||||0.341
92281086|NCT01901055|184465093|SUPERIORITY||Mean Difference (Net)|0.006|STANDARD_ERROR_OF_MEAN|0.64||0.005|TWO_SIDED|95.0|-1.27|1.28||F-test statistics for group X time = 5.66|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||1.28|-1.27|0.005
92453447|NCT00373334|184794573|SUPERIORITY_OR_OTHER|||||||0.746||95.0|||||Chi-squared|||Comparison of nizatidine 2.5 group to placebo group. P-value is for overall difference between groups (not comparison of individual categories).||||0.746
92453448|NCT00373334|184794573|SUPERIORITY_OR_OTHER|||||||0.262||95.0|||||Chi-squared|||Comparison of nizatidine 5.0 group to placebo group. P-value is for overall difference between groups (not comparison of individual categories).||||0.262
92453449|NCT00373334|184794574|SUPERIORITY_OR_OTHER|||||||0.609||95.0|||||Chi-squared|||Comparison of nizatidine 2.5 group to placebo group. P-value is for overall difference between groups (not comparison of individual categories).||||0.609
92453450|NCT00373334|184794574|SUPERIORITY_OR_OTHER|||||||0.938||95.0|||||Chi-squared|||Comparison of nizatidine 5.0 group to placebo group. P-value is for overall difference between groups (not comparison of individual categories).||||0.938
92453451|NCT02103439|184794579|NON_INFERIORITY_OR_EQUIVALENCE|the lower limit of the 95% confidence interval for the difference in proportions between the difference in the early virological response rate with Algeron and PegIntron should be higher than the non-inferiority margin of 0.2 (-20%)||||||0.227|TWO_SIDED||||||Fisher Exact|||||||0.227
92453452|NCT02103439|184794580|NON_INFERIORITY_OR_EQUIVALENCE|the lower limit of the 95 % confidence interval between the difference in rate of rapid virological response with Algeron and PegIntron should be more than the non-inferiority margin (-20 %)|||||>|0.05|TWO_SIDED||||||Fisher Exact|||||||> 0.05
92453453|NCT00784810|184794619|NON_INFERIORITY_OR_EQUIVALENCE|As above.|Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|1.19||0.002|ONE_SIDED|90.0|-5.65||||Mixed Models Analysis|||To achieve a study with 80% power at the 1-sided 5% significance level, for the purposes of demonstrating non inferiority, a sample size of 98 subjects per treatment group was required, i.e. a total of 196 subjects completing the study.|||-5.65|0.002
92453454|NCT02119416|184794636|OTHER|Maximum heart rate after 2 mg/kg of caffeine compared to baseline was assessed using a mixed effects regression model. Sex and pubertal stage were included in the model as time invariant predictors.|||||<|0.05||||||The p-value was not adjusted for multiple comparisons.|mixed effects regression|||||||<0.05
92453455|NCT02119416|184794636|OTHER|We compared means of our dependent variables after administration of different doses of caffeine.|||||<|0.05||||||The p-value was set prior to the analysis and all comparisons were planned.|ANCOVA|||We used repeated measures ANOVAS and conducted planned comparisons between groups as post-hoc tests.||||< 0.05
92453456|NCT02119416|184794637|OTHER|mixed effects regression models were used with sex and pubertal stage as time invariant predictors.|||||<|0.05|||||||mixed effects regression|||order was included in the analysis. We examined caffeine dose.||||<0.05
92453457|NCT02119416|184794637|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92453458|NCT01306162|184794681|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtB: TrtA (%)|214.0|STANDARD_DEVIATION|19.9||1|TWO_SIDED|90.0|191.0|240.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation.|150mg DE + 400mg DR same time (TrtB) vs 150mg DE (TrtA)||240|191|1.0000
92453459|NCT01306162|184794681|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtC: TrtA (%)|130.0|STANDARD_DEVIATION|25.0||0.6697|TWO_SIDED|90.0|112.0|151.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR 2h later (TrtC) vs 150mg DE (TrtA)||151|112|0.6697
92453460|NCT01306162|184794681|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtD: TrtA (%)|236.0|STANDARD_DEVIATION|21.8||0.9992||90.0|173.0|321.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid same time (TrtD) vs 150mg DE (TrtA)||321|173|0.9992
92453461|NCT01306162|184794681|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtE: TrtA (%)|162.0|STANDARD_DEVIATION|20.1||0.9171|TWO_SIDED|90.0|119.0|221.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid 2h later (TrtE) vs 150mg DE (TrtA)||221|119|0.9171
92453462|NCT01306162|184794682|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtB: TrtA (%)|187.0|STANDARD_DEVIATION|24.3||0.9999|TWO_SIDED|90.0|162.0|215.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR (TrtB) vs 150mg DE (TrtA)||215|162|0.9999
92453463|NCT01306162|184794682|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtC: TrtA (%)|115.0|STANDARD_DEVIATION|31.2||0.2207|TWO_SIDED|90.0|95.0|138.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR 2h later (TrtC) vs 150mg DE (TrtA)||138|95|0.2207
92453464|NCT01306162|184794682|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtD: TrtA (%)|225.0|STANDARD_DEVIATION|26.1||0.9946||90.0|156.0|326.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid same time (TrtD) vs 150mg DE (TrtA)||326|156|0.9946
92453465|NCT01306162|184794682|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtE: TrtA (%)|133.0|STANDARD_DEVIATION|23.0||0.6221|TWO_SIDED|90.0|94.0|190.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid 2h later (TrtE) vs 150mg DE (TrtA)||190|94|0.6221
92241747|NCT04415489|184386677|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance was \< 0.05.|Fisher Exact|||||||< 0.01
92241748|NCT04415489|184386681|SUPERIORITY|||||||0.12||||||The a priori threshold for statistical significance was \< 0.05.|Fisher Exact|||||||0.12
92241749|NCT03342469|184386690|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Delta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
92241750|NCT03342469|184386690|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Theta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
92241751|NCT03342469|184386690|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Alpha Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
92453466|NCT01306162|184794683|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtB: TrtA (%)|214.0|STANDARD_DEVIATION|20.7||1|TWO_SIDED|90.0|190.0|241.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR (TrtB) vs 150mg DE (TrtA)||241|190|1.0000
92281087|NCT03019965|184465094|SUPERIORITY||Risk Ratio (RR)|0.95||||0.156|TWO_SIDED|95.0|0.87|1.02|||Chi-squared||||The efficacy of the maneuver was evaluated by calculating the absolute risk reduction and the number needed to treat.|1.02|0.87|0.156
92453467|NCT01306162|184794683|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtC: TrtA (%)|132.0|STANDARD_DEVIATION|26.3||0.7223|TWO_SIDED|90.0|113.0|155.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR 2h later (TrtC) vs 150mg DE (TrtA)||155|113|0.7223
92281088|NCT03019965|184465095|SUPERIORITY||Risk Ratio (RR)|2.98||||0.722|TWO_SIDED|95.0|0.31|28.45|||Chi-squared|||||28.45|0.31|0.722
92453468|NCT01306162|184794683|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtD: TrtA (%)|258.0|STANDARD_DEVIATION|24.6||0.9993||90.0|182.0|365.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid same time (TrtD) vs 150mg DE (TrtA)||365|182|0.9993
92241752|NCT03342469|184386690|OTHER|||||||0.08||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Beta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||0.08
92241753|NCT03342469|184386690|OTHER|||||||0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|F(1,14)= 4.55||Difference in Gamma Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||0.05
92281089|NCT00635154|184465124|SUPERIORITY_OR_OTHER||Proportion of confirmed responses (%)|1.8||||||95.0|0.5|10.0|||||95% Confidence intervals were calculated for the true confirmed response rate using properties of the binomial distribution.|Proportion of confirmed responses to Anakinra alone was estimated by the number of patients who achieved a confirmed response divided by the total number of assessable patients.||10|0.5|
92281090|NCT03312257|184465132|OTHER|Repeated measures analyses using mixed linear models in STATA (version 15) were undertaken to model myopia progression (primary outcome) and axial elongation (secondary outcome) to account for the clusters of correlated data due to repeated participant outcome measures.|Mean Difference (Final Values)|0.03||||0.7|TWO_SIDED|95.0|-0.14|0.21|||Repeated measures analyses|||||0.21|-0.14|0.70
92241754|NCT03342469|184386690|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Delta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
92241755|NCT03342469|184386690|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Theta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
92241756|NCT03342469|184386690|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Alpha Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
92241757|NCT03342469|184386690|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Beta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)||||>0.05
92241758|NCT03342469|184386690|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Gamma Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241759|NCT03342469|184386691|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Delta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241760|NCT03342469|184386691|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Theta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92281091|NCT03312257|184465133|OTHER|Repeated measures analyses using mixed linear models in STATA (version 15) were undertaken to model myopia progression (primary outcome) and axial elongation (secondary outcome) to account for the clusters of correlated data due to repeated participant outcome measures.|Mean Difference (Final Values)|-0.08||||0.054|TWO_SIDED|95.0|-0.16|0.002|||Repeated measures analyses|||||0.002|-0.16|0.054
92287202|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.087||||0.01|TWO_SIDED|95.0|0.021|0.153|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.153|0.021|0.010
92453469|NCT01306162|184794683|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtE: TrtA (%)|159.0|STANDARD_DEVIATION|21.5||0.8875|TWO_SIDED|90.0|114.0|222.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid 2h later (TrtE) vs 150mg DE (TrtA)||222|114|0.8875
92453470|NCT01306162|184794684|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtB: TrtA (%)|180.0|STANDARD_DEVIATION|24.6||0.9998|TWO_SIDED|90.0|156.0|207.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR (TrtB) vs 150mg DE (TrtA)||207|156|0.9998
92453471|NCT01306162|184794684|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtC: TrtA (%)|114.0|STANDARD_DEVIATION|29.4||0.1866|TWO_SIDED|90.0|95.0|136.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR 2h later (TrtC) vs 150mg DE (TrtA)||136|95|0.1866
92241761|NCT03342469|184386691|OTHER|||||||0.04||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|F(1.14)= 4.88, p=0.04||"Difference in Alpha Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||0.04
92281092|NCT02660242|184465143|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Mixed model w/ repeated measures to account for correlation from cross-over design and multiple measures, adjusting for baseline glucose and period.||The mini-dose glucagon (MDG) condition was compared with each of the conditions. In the event that exercise was terminated early due to glucose \<70 mg/dL and the participant was treated for hypoglycemia (or if participant was treated for hypoglycemia during early recovery \[prior to the meal\]), the nadir glucose value was carried forward through the end of early recovery.||||<0.001
92281093|NCT02660242|184465144|OTHER|||||||0.99|||||||Mixed Models Analysis|Adjusted for subject effect, exercise session, and baseline blood glucose||||||0.99
92453472|NCT01306162|184794684|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtD: TrtA (%)|234.0|STANDARD_DEVIATION|26.7||0.9958||90.0|160.0|340.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid same time (TrtD) vs 150mg DE (TrtA)||340|160|0.9958
92173448|NCT04610892|184238074|SUPERIORITY||Least Squares mean difference|-0.63||||0.698||90.0|-2.64|1.38||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||1.38|-2.64|0.698
92173449|NCT04610892|184238075|SUPERIORITY||Least Squares mean difference|-1.29||||0.981||90.0|-2.32|-0.27||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.27|-2.32|0.981
92173450|NCT04610892|184238075|SUPERIORITY||Least Squares mean difference|-0.8||||0.974||90.0|-1.47|-0.12||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.12|-1.47|0.974
92281094|NCT02660242|184465145|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|Adjusted for subject effect, exercise session, and baseline blood glucose||||||0.15
92281095|NCT02660242|184465146|SUPERIORITY|||||||0.99|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.99
92453473|NCT01306162|184794684|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtE: TrtA (%)|126.0|STANDARD_DEVIATION|22.6||0.5164|TWO_SIDED|90.0|89.0|179.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid 2h later (TrtE) vs 150mg DE (TrtA)||179|89|0.5164
92453474|NCT00690755|184794689|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|||||||.001
92453475|NCT02830594|184794775|EQUIVALENCE|Specifically, a sample-size of 14 patients will have 80% power to detect an effect size of 0.71 using a paired t-test with a 0.05 one-sided significance level. The effect size is the mean difference divided by the standard deviation of the difference.||||||0.6|||||||Paired t Test|||||||0.60
92453476|NCT02830594|184794776|EQUIVALENCE|Specifically, a sample-size of 14 patients will have 80% power to detect an effect size of 0.71 using a paired t-test with a 0.05 one-sided significance level. The effect size is the mean difference divided by the standard deviation of the difference.||||||0.87|||||||Paired t Test|||||||0.87
92453477|NCT02830594|184794777|EQUIVALENCE|Specifically, a sample-size of 14 patients will have 80% power to detect an effect size of 0.71 using a paired t-test with a 0.05 one-sided significance level. The effect size is the mean difference divided by the standard deviation of the difference.||||||0.64|||||||Paired t Test|||||||0.64
92453478|NCT01934218|184794782|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.988|TWO_SIDED|95.0|-2.7|2.7|||Basic longitudinal model|||||2.7|-2.7|0.988
92453479|NCT01934218|184794783|OTHER|Euflexxa would be considered superior to Gel-One if the difference in mean change from baseline in VAS pain score at week 26 was 5 mm or greater (on the 100mm VAS pain scale). If the difference in mean change values were within 5 mm, Gel-One would not be considered inferior to Euflexxa.||||||||||||||||A post-hoc non-inferiority comparison of the Gel-One mean change from baseline in VAS pain score at week 26 (Following 50-foot walk test) against the same assessment collected from subjects treated with Euflexxa in a separate study (PMID:19539353) was also performed.|Change from baseline (95% CI) for Euflexxa was -25.7 (-29.0, -22.4) and the difference between Euflexxa and Gel-One (95% CI) was -3.8 (-inf, -0.3).|||
92453480|NCT02279641|184794837|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|133.0|||||TWO_SIDED|90.0|111.0|159.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||159|111|
92453481|NCT02279641|184794837|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|67.9|||||TWO_SIDED|90.0|65.2|70.7|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||70.7|65.2|
92453482|NCT02279641|184794839|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|102.0|||||TWO_SIDED|90.0|93.3|111.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||111|93.3|
92453483|NCT02279641|184794839|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|61.8|||||TWO_SIDED|90.0|58.1|65.7|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||65.7|58.1|
92281096|NCT02660242|184465147|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.43
92173451|NCT04610892|184238075|SUPERIORITY||Least Squares mean difference|-0.86||||0.983||90.0|-1.53|-0.2||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.20|-1.53|0.983
92241762|NCT03342469|184386691|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Beta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241763|NCT03342469|184386691|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Gamma Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241764|NCT03342469|184386691|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Delta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241765|NCT03342469|184386691|OTHER||||||>|0.05|||||||repeated measures General Linear Model|||"Difference in Theta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons"||||>0.05
92241766|NCT03342469|184386691|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Alpha Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92281097|NCT02660242|184465148|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.16
92281098|NCT02660242|184465149|SUPERIORITY|||||||0.69|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.69
92281099|NCT02660242|184465150|SUPERIORITY|||||||0.67|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.67
92281100|NCT02660242|184465151|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.84
92281101|NCT02660242|184465152|SUPERIORITY|||||||0.63|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.63
92173452|NCT04610892|184238075|SUPERIORITY||Least Squares mean difference|-0.83||||0.99||90.0|-1.42|-0.25||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.25|-1.42|0.990
92173453|NCT04610892|184238076|SUPERIORITY||Least Squares mean difference|-2.14||||0.959||90.0|-4.16|-0.12||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.12|-4.16|0.959
92241767|NCT03342469|184386691|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Beta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241768|NCT03342469|184386691|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Gamma Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241769|NCT03342469|184386692|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|F(1,15) = 3.65, p = 0.08||"Difference in inattentive ASRS in ADHD group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (inattentive ASRS score during AFC, inattentive ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241770|NCT03342469|184386692|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in hyperactive ASRS in ADHD group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (hyperactive ASRS score during AFC, hyperactive ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241771|NCT03342469|184386692|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in total ASRS in ADHD group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (total ASRS score during AFC, total ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241772|NCT03342469|184386692|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"inattentive ASRS in control group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (inattentive ASRS score during AFC, inattentive ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241773|NCT03342469|184386692|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Hyperactive ASRS in control group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (hyperactive ASRS score during AFC, hyperactive ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241774|NCT03342469|184386692|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in total ASRS in control group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (total ASRS score during AFC, total ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
92241775|NCT05515601|184386693|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability.|Ratio of Geometric least squares mean|0.986|||||TWO_SIDED|90.0|0.929|1.05||||||||1.05|0.929|
92281102|NCT02660242|184465153|SUPERIORITY|||||||0.24|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.24
92281103|NCT02660242|184465154|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.26
92281104|NCT00982553|184465155|SUPERIORITY||Geometric mean ratios|0.79|||||TWO_SIDED|95.0|0.62|1.0||||||||1.00|0.62|
92281105|NCT00982553|184465156|SUPERIORITY||Geometric mean ratios|1.16|||||TWO_SIDED|95.0|0.73|1.86||||||||1.86|0.73|
92173454|NCT04610892|184238076|SUPERIORITY||Least Squares mean difference|-2.92||||0.998||90.0|-4.53|-1.31||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-1.31|-4.53|0.998
92241776|NCT05515601|184386694|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability.|Ratio of Geometric least squares mean|1.01|||||TWO_SIDED|90.0|0.948|1.08||||||||1.08|0.948|
92241777|NCT05515601|184386695|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability|Ratio of Geometric least squares mean|1.02|||||TWO_SIDED|90.0|0.96|1.09||||||||1.09|0.960|
92241778|NCT01064648|184386720|OTHER||Hazard Ratio (HR)|0.71||||0.06|TWO_SIDED|80.0|0.54|0.95||1-sided p-value|Log Rank|Stratified log rank test by performance status and histology type.||||0.95|0.54|0.06
92241779|NCT01064648|184386721|OTHER||Hazard Ratio (HR)|0.88||||0.28|TWO_SIDED|80.0|0.65|1.17||1-sided p-value|Log Rank|Stratified log-rank test by performance status and histology.||||1.17|0.65|0.28
92241780|NCT01064648|184386722|OTHER||Odds Ratio (OR)|1.85||||0.15|TWO_SIDED|95.0|0.59|5.83||1-sided p-value|Chi-squared|Stratified Chi-square by performance status and histology.||||5.83|0.59|0.15
92241781|NCT01064648|184386723|OTHER||Odds Ratio (OR)|0.45||||0.09|TWO_SIDED|95.0|0.14|1.49||1-sided p-value|Chi-squared|Stratified Chi-Square by performance status and histology||||1.49|0.14|0.09
92241782|NCT01064648|184386724|OTHER||Odds Ratio (OR)|4.3||||0.006|TWO_SIDED|95.0|1.4|13.3||1-sided p-value|Chi-squared|Stratified Chi-Square by performance status and histology.||||13.3|1.4|0.006
92241783|NCT01064648|184386725|OTHER||Odds Ratio (OR)|0.59||||0.19|TWO_SIDED|95.0|0.18|1.94||1-sided p-value|Chi-squared|Stratified Chi-Square by performance status and histology||||1.94|0.18|0.19
92241784|NCT05513391|184386728|NON_INFERIORITY|Non inferiority for GMTs was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) of the GMT ratio was greater than (\>) 0.667 for each virus strain.|GMT Ratio|1.28|||||TWO_SIDED|95.0|0.948|1.73||||||Statistical analysis for A/H1N1||1.73|0.948|
92241785|NCT05513391|184386728|NON_INFERIORITY|Non inferiority for GMTs was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio was \> 0.667 for each virus strain.|GMT Ratio|2.53|||||TWO_SIDED|95.0|1.93|3.3||||||Statistical analysis for A/H3N2||3.30|1.93|
92241786|NCT05513391|184386728|NON_INFERIORITY|Non inferiority for GMTs was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio was \> 0.667 for each virus strain.|GMT Ratio|0.515|||||TWO_SIDED|95.0|0.397|0.668||||||Statistical analysis for B/Victoria||0.668|0.397|
92241787|NCT05513391|184386728|NON_INFERIORITY|Non inferiority for GMTs was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio was \> 0.667 for each virus strain.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.799|1.3||||||Statistical analysis for B/Yamagata||1.30|0.799|
92241788|NCT05513391|184386729|NON_INFERIORITY|Non-inferiority for SC was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for the 4 strains.|Difference in percentage of participants|7.1|||||TWO_SIDED|95.0|-1.55|15.7||||||Statistical analysis for A/H1N1||15.7|-1.55|
92453484|NCT02279641|184794839|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|95.9|||||TWO_SIDED|90.0|88.4|104.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||104|88.4|
92241789|NCT05513391|184386729|NON_INFERIORITY|Non-inferiority for SC was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for the 4 strains.|Difference in percentage of participants|15.4|||||TWO_SIDED|95.0|5.8|24.7||||||Statistical analysis for A/H3N2||24.7|5.80|
92241790|NCT05513391|184386729|NON_INFERIORITY|Non-inferiority for SC was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for the 4 strains.|Difference in percentage of participants|-6.91|||||TWO_SIDED|95.0|-14.02|0.1||||||Statistical analysis for B/Victoria||0.10|-14.02|
92241791|NCT05513391|184386729|NON_INFERIORITY|Non-inferiority for SC was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for the 4 strains.|Difference in percentage of participants|5.81|||||TWO_SIDED|95.0|-1.99|13.6||||||Statistical analysis for B/Yamagata||13.6|-1.99|
92241792|NCT02429427|184386738|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.751|TWO_SIDED|95.0|0.8|1.17|||Log Rank|Analysis stratified by oestrogen receptor status and country.|Analysis stratified by oestrogen receptor status and country.|||1.17|0.80|0.751
92241793|NCT02429427|184386739|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.781|TWO_SIDED|95.0|0.76|1.22|||Log Rank|Analysis is stratified for oestrogen receptor status and country.|Analysis is stratified for oestrogen receptor status and country.|||1.22|0.76|0.781
92241794|NCT05138783|184386769|NON_INFERIORITY|Noninferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.004|||ONE_SIDED|95.0||0.0||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, period, and sequence) and random (subject) effects. Difference = PRECISION1 minus BIOTRUE. Sign (either negative or positive) is retained with the rounded value.|||0.00||
92241795|NCT04710862|184386770|SUPERIORITY||||||<|0.0005|||||||Mixed Models Analysis|||||||<0.0005
92241796|NCT04710862|184386771|SUPERIORITY||||||<|0.0005|||||||Mixed Models Analysis|||||||<0.0005
92241797|NCT04710862|184386772|SUPERIORITY|||||||0.012|||||||Mixed Models Analysis|||||||0.012
92241798|NCT04710862|184386773|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92241799|NCT04710862|184386774|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||||||0.004
92241800|NCT04710862|184386775|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92241801|NCT04710862|184386776|SUPERIORITY|||||||0.328|||||||Mixed Models Analysis|||||||0.328
92241802|NCT02361762|184386777|OTHER|||||||0.36|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.36
92241803|NCT02361762|184386778|OTHER|||||||0.79|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.79
92241804|NCT02361762|184386779|OTHER|||||||0.009|||||||ANOVA|Repeated measures ANOVA compared group (Training/Waitlist) by time (Pre/Post) by condition (Congruent/Incongruent)||||||0.009
92241805|NCT02361762|184386780|OTHER|||||||0.79||||||ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)|ANCOVA|Compared scores at post testing with baseline scores covaried.||||||.79
92241806|NCT02361762|184386781|OTHER|||||||0.61|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.61
92281106|NCT00982553|184465157|SUPERIORITY||Geometric mean ratios|1.01|||||TWO_SIDED|95.0|0.87|1.18||||||||1.18|0.87|
92453485|NCT02279641|184794840|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|103.0|||||TWO_SIDED|90.0|94.9|112.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||112|94.9|
92453486|NCT02279641|184794840|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|61.8|||||TWO_SIDED|90.0|58.1|65.7|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||65.7|58.1|
92453487|NCT02279641|184794842|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|89.5|||||TWO_SIDED|90.0|81.8|98.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||98.0|81.8|
92241807|NCT02361762|184386782|OTHER|||||||0.68|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)0.||||||0.68
92241808|NCT02361762|184386783|OTHER|||||||0.54|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.54
92241809|NCT02361762|184386784|OTHER|||||||0.08|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.08
92241810|NCT02361762|184386785|OTHER|||||||0.37|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.37
92241811|NCT02361762|184386787|OTHER|||||||0.62|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.62
92241812|NCT02361762|184386788|OTHER|||||||0.1|||||||ANCOVA|Repeated measures ANOVA compared group (Training/Waitlist) by time (Pre/Post) by condition (Go/Nogo)||||||0.10
92241813|NCT02361762|184386789|OTHER|||||||0.02|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.02
92241814|NCT00948818|184386793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6||||0.0004|TWO_SIDED|95.0|1.51|4.47||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week APC 3 + 1 Responders.~The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data."||4.47|1.51|0.0004
92241815|NCT00948818|184386795|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.65|||<|0.0001|TWO_SIDED|95.0|2.26|5.88||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week CSBM 3 + 1 Responders.~The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data."||5.88|2.26|<0.0001
92241816|NCT00948818|184386796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.0262|TWO_SIDED|95.0|1.04|1.91||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week Abdominal Pain Responders.~The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data."||1.91|1.04|0.0262
92241817|NCT00948818|184386797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93|||<|0.0001|TWO_SIDED|95.0|1.4|2.66||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 6/12 Week APC + 1 Responders.~The power, adjusted for multiplicity, was expected to be 86% based on NCT00460811 (MCP-103-202) study data."||2.66|1.40|<0.0001
92241818|NCT01156597|184386815|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|The percent change of HDL and triglycerides from baseline between groups was evaluated by ANOVA using baseline, 12 week and 24 week values||||||0.05
92281107|NCT00982553|184465158|SUPERIORITY||Geometric mean ratios|0.82|||||TWO_SIDED|95.0|0.36|1.85||||||||1.85|0.36|
92241819|NCT02364947|184386818|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-4.34|STANDARD_ERROR_OF_MEAN|0.87||0.0001|TWO_SIDED|95.0|-6.05|-2.62||Efficacy of the doses (change from baseline in the number of HDDs vs placebo) was assessed using a closed testing procedure. The 20 mg dose was tested at a 5% level of significance and only if significant, the testing would proceed to the 10 mg dose.|Mixed Models Analysis|||||-2.62|-6.05|0.0001
92241820|NCT02364947|184386818|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-4.18|STANDARD_ERROR_OF_MEAN|0.95||0.0001|TWO_SIDED|95.0|-6.05|-2.32||Efficacy of the doses (change from baseline in the number of HDDs vs placebo) was assessed using a closed testing procedure. The 20 mg dose was tested at a 5% level of significance and only if significant, the testing would proceed to the 10 mg dose.|Mixed Models Analysis|||||-2.32|-6.05|0.0001
92453488|NCT02279641|184794842|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|119.0|||||TWO_SIDED|90.0|114.0|125.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||125|114|
92281108|NCT04087395|184465159|NON_INFERIORITY|To achieve non-inferiority, the observed p-value must be \<= 0.5 taking into account of the non-inferiority margin (i.e., 10mm difference in Pain VAS between the two treatment groups).|||||<|0.0001||||||One-sided paired student t-test|t-test, 1 sided|||||||<0.0001
92241821|NCT02364947|184386819|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-3.92|STANDARD_ERROR_OF_MEAN|0.9|<|0.0001|TWO_SIDED|95.0|-5.69|-2.16|||Mixed Models Analysis|||||-2.16|-5.69|<0.0001
92241822|NCT02364947|184386819|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-4.54|STANDARD_ERROR_OF_MEAN|0.98|<|0.0001|TWO_SIDED|95.0|-6.46|-2.63|||Mixed Models Analysis|||||-2.63|-6.46|<0.0001
92173455|NCT04610892|184238076|SUPERIORITY||Least Squares mean difference|-1.35||||0.939||90.0|-2.79|0.09||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||0.09|-2.79|0.939
92281109|NCT02796664|184465168|OTHER|Equality test||||||0.462|||||||Fisher Exact|||The null hypothesis is that there is no relationship between ginseng administration and cerebral ischemic events including ischemic stroke and transient ischemic attack. The number of participants who suffered ischemic stroke and the number of paticipants who suffered transient ischemic attack were analyzed together to test the null hypothesis in two by two table.||||0.462
92173456|NCT04610892|184238076|SUPERIORITY||Least Squares mean difference|-1.94||||0.991||90.0|-3.27|-0.62||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.62|-3.27|0.991
92241823|NCT02364947|184386820|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-12.47|STANDARD_ERROR_OF_MEAN|2.72|<|0.0001|TWO_SIDED|95.0|-17.81|-7.13|||Mixed Models Analysis|||Change in total alcohol consumption (TAC) from baseline at Week 12||-7.13|-17.81|<0.0001
92241824|NCT02364947|184386820|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-12.94|STANDARD_ERROR_OF_MEAN|2.95|<|0.0001|TWO_SIDED|95.0|-18.72|-7.15|||Mixed Models Analysis|||||-7.15|-18.72|<0.0001
92281110|NCT02796664|184465169|OTHER|Equality test||||||0.34|||||||Fisher Exact|||The null hypothesis is that there is no relationship between ginseng administration and modified Rankin Scale at follow-up.||||0.34
92453489|NCT02279641|184794843|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|87.5|||||TWO_SIDED|90.0|79.3|96.6|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||96.6|79.3|
92453490|NCT02279641|184794843|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|193.0|||||TWO_SIDED|90.0|177.0|210.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||210|177|
92453491|NCT02279641|184794843|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|105.0|||||TWO_SIDED|90.0|94.4|117.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||117|94.4|
92453492|NCT02279641|184794846|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|98.7|||||TWO_SIDED|95.0|87.7|111.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||111|87.7|
92453493|NCT02279641|184794847|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|95.9|||||TWO_SIDED|95.0|88.4|104.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||104|88.4|
92453494|NCT02279641|184794848|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|95.9|||||TWO_SIDED|95.0|88.4|104.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||104|88.4|
92453495|NCT02279641|184794849|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|101.0|||||TWO_SIDED|95.0|86.7|117.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||117|86.7|
92453496|NCT01682837|184794850|SUPERIORITY_OR_OTHER|||||||0.07|||||||Mixed Models Analysis|||||||0.07
92453497|NCT01682837|184794851|SUPERIORITY_OR_OTHER|||||||0.2|||||||Mixed Models Analysis|||||||0.20
92453498|NCT01682837|184794852|SUPERIORITY_OR_OTHER|||||||0.16|||||||Mixed Models Analysis|||||||0.16
92453499|NCT01682837|184794853|SUPERIORITY_OR_OTHER|||||||0.7|||||||Mixed Models Analysis|||||||0.70
92453500|NCT01682837|184794854|SUPERIORITY_OR_OTHER|||||||0.42|||||||Mixed Models Analysis|||||||0.42
92453501|NCT01682837|184794855|SUPERIORITY_OR_OTHER|||||||0.1|||||||Mixed Models Analysis|||||||0.10
92453502|NCT01682837|184794856|SUPERIORITY_OR_OTHER|||||||0.64|||||||Mixed Models Analysis|||||||0.64
92453503|NCT01682837|184794857|SUPERIORITY_OR_OTHER|||||||0.18|||||||Mixed Models Analysis|||||||0.18
92453504|NCT01682837|184794858|SUPERIORITY_OR_OTHER|||||||0.12|||||||Mixed Models Analysis|||||||0.12
92453505|NCT01664078|184794859|OTHER|The Intent-to-Treat (ITT) analysis set includes all subjects who had the aortic bifurcate device introduced into the body. This ITT analysis set will be used for all safety and clinical assessment endpoints.||||||0.47|||||||Mixed Models Analysis|||||||0.47
92453506|NCT02877485|184794888|OTHER||Mean Difference (Net)|1.5||||0.7|TWO_SIDED|95.0|-6.0|8.9||"Statistical Tests:~Independent t-test to assess differences in mean change in NOSE scores when comparing the two study groups, and p\<0.05 deemed statistically significant"|t-test, 2 sided||Change in Mean NOSE score from baseline to post saline versus change in NOSE score from baseline to post intranasal steroid.|"1\) H0: mean change in NOSE score from baseline after in study group 1 = mean change in NOSE score from baseline in study group 2~Power calculation: To detect a 20% difference in NOSE scores with 80% power and a 2-sided alpha level of 0.05 required 20 participants per study group, for a total of 40 participants."||8.9|-6.0|0.7
92241825|NCT02364947|184386821|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-11.15|STANDARD_ERROR_OF_MEAN|2.86||0.0001|TWO_SIDED|95.0|-16.77|-5.53|||Mixed Models Analysis|||||-5.53|-16.77|0.0001
92241826|NCT02364947|184386821|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-11.27|STANDARD_ERROR_OF_MEAN|3.11||0.0003|TWO_SIDED|95.0|-17.37|-5.17|||Mixed Models Analysis|||||-5.17|-17.37|0.0003
92241827|NCT02364947|184386822|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|22.0|||<|0.0001|TWO_SIDED|95.0|13.6|30.4|||Cochran-Mantel-Haenszel|||||30.4|13.6|<0.0001
92241828|NCT02364947|184386822|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|15.7||||0.0007|TWO_SIDED|95.0|6.5|25.0|||Cochran-Mantel-Haenszel|||||25.0|6.5|0.0007
92453507|NCT02877485|184794889|OTHER||Mean Difference (Final Values)|-50.0|STANDARD_DEVIATION|27.6|<|0.001|TWO_SIDED|||||Paired t-tests to assess differences in mean NOSE score when the treatment groups were combined (saline arm+ steroid arm) at five post-operative time intervals compared to the combined preoperative baseline scores. Significance at p\<0.05.|Paired t-test|||H0: Mean pre- treatment baseline patient NOSE score = Mean post- treatment baseline patient NOSE score.||||<0.001
92241829|NCT02364947|184386823|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|18.0||||0.0002|TWO_SIDED|95.0|8.8|27.2|||Cochran-Mantel-Haenszel|||||27.2|8.8|0.0002
92241830|NCT02364947|184386823|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|20.6||||0.0001|TWO_SIDED|95.0|10.4|30.8|||Cochran-Mantel-Haenszel|||||30.8|10.4|0.0001
92241831|NCT02364947|184386824|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|17.8|||<|0.0001|TWO_SIDED|95.0|10.5|25.1|||Cochran-Mantel-Haenszel|||||25.1|10.5|<0.0001
92241832|NCT02364947|184386824|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|14.3||||0.0002|TWO_SIDED|95.0|6.4|22.2|||Cochran-Mantel-Haenszel|||||22.2|6.4|0.0002
92241833|NCT02364947|184386825|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|11.0||||0.0079|TWO_SIDED|95.0|2.9|19.1|||Cochran-Mantel-Haenszel|||||19.1|2.9|0.0079
92241834|NCT02364947|184386825|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|14.8||||0.001|TWO_SIDED|95.0|5.8|23.9|||Cochran-Mantel-Haenszel|||||23.9|5.8|0.0010
92241835|NCT02364947|184386826|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|9.9||||0.0022|TWO_SIDED|95.0|3.5|16.3|||Cochran-Mantel-Haenszel|||||16.3|3.5|0.0022
92241836|NCT02364947|184386826|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|11.1||||0.0016|TWO_SIDED|95.0|3.8|18.3|||Cochran-Mantel-Haenszel|||||18.3|3.8|0.0016
92241837|NCT02364947|184386827|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|13.6||||0.0003|TWO_SIDED|95.0|6.2|20.9|||Cochran-Mantel-Haenszel|||||20.9|6.2|0.0003
92241838|NCT02364947|184386827|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|12.8||||0.0013|TWO_SIDED|95.0|4.6|21.0|||Cochran-Mantel-Haenszel|||||21.0|4.6|0.0013
92241839|NCT02364947|184386828|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|15.2||||0.0002|TWO_SIDED|95.0|7.1|23.3|||Cochran-Mantel-Haenszel|||||23.3|7.1|0.0002
92241840|NCT02364947|184386828|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|17.9||||0.0001|TWO_SIDED|95.0|8.9|26.9|||Cochran-Mantel-Haenszel|||||26.9|8.9|0.0001
92281111|NCT02796664|184465170|OTHER|Equality test||||||0.13|||||||Fisher Exact|||The null hypothesis is that there is no relationship between ginseng administration and flow change in steno-occlusive lesion.||||0.13
92453508|NCT04369469|184794890|OTHER||Risk Difference (RD)|-0.0205||||0.6059|TWO_SIDED|95.0|-0.1703|0.1293||One-sided Mantel-Haenszel test of the difference in two proportions stratified by intubated or not intubated on Day 1 and a family-wise Type I error of 0.025.|Mantel Haenszel||Two-sided 95% confidence interval using the Sato variance estimator, combined overall imputations.|||0.1293|-0.1703|0.6059
92241841|NCT02364947|184386829|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|8.0||||0.0724|TWO_SIDED|95.0|-0.7|16.7|||Cochran-Mantel-Haenszel|||||16.7|-0.7|0.0724
92453509|NCT01344460|184794927|SUPERIORITY_OR_OTHER||Percentage difference|18.3|||<|0|TWO_SIDED|95.0|15.2||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Majority reader; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||15.2|<0.000
92241842|NCT02364947|184386829|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|19.6||||0.0001|TWO_SIDED|95.0|9.9|29.2|||Cochran-Mantel-Haenszel|||||29.2|9.9|0.0001
92453510|NCT01344460|184794927|SUPERIORITY_OR_OTHER||Percentage difference|16.4|||<|0|TWO_SIDED|95.0|13.2||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Blinded reader 1; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||13.2|<0.000
92453511|NCT01344460|184794927|SUPERIORITY_OR_OTHER||Percentage difference|24.0|||<|0|TWO_SIDED|95.0|20.5||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Blinded reader 2; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||20.5|<0.000
92453512|NCT01344460|184794927|SUPERIORITY_OR_OTHER||Percentage difference|17.4|||<|0|TWO_SIDED|95.0|14.3||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|||Blinded reader 3; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||14.3|<0.000
92453513|NCT01344460|184794927|SUPERIORITY_OR_OTHER||Percentage difference|25.6|||<|0|TWO_SIDED|95.0|21.9||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|||Clinical investigator; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||21.9|<0.000
92453514|NCT01344460|184794928|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|6.8|||||TWO_SIDED|95.0|-2.2||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Majority reader; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-2.2|
92241843|NCT02364947|184386830|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.07||0.0002|TWO_SIDED|95.0|-0.4|-0.13|||Mixed Models Analysis|||||-0.13|-0.40|0.0002
92241844|NCT02364947|184386830|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.08||0.0001|TWO_SIDED|95.0|-0.45|-0.15|||Mixed Models Analysis|||||-0.15|-0.45|0.0001
92281112|NCT02796664|184465170|OTHER|Equality test||||||0.17|||||||Chi-squared|||The null hypothesis is that there is no relationship between ginseng administration and flow change in collateral vessel.||||0.17
92453515|NCT01344460|184794928|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|0.0|||||TWO_SIDED|95.0|-9.7||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 1; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-9.7|
92453516|NCT01344460|184794928|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|14.3|||||TWO_SIDED|95.0|5.1||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 2; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||5.1|
92453517|NCT01344460|184794928|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|3.0|||||TWO_SIDED|95.0|-5.8||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 3; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-5.8|
92453518|NCT01344460|184794928|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|20.0|||||TWO_SIDED|95.0|11.7||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Clinical investigator; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||11.7|
92453519|NCT01344460|184794929|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|9.0|||||TWO_SIDED|95.0|7.0||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Majority reader; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||7.0|
92453520|NCT01344460|184794929|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|11.3|||||TWO_SIDED|95.0|9.1||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 1; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||9.1|
92453521|NCT01344460|184794929|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|9.7|||||TWO_SIDED|95.0|7.6||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 2; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||7.6|
92453522|NCT01344460|184794929|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|13.4|||||TWO_SIDED|95.0|11.2||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 3; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||11.2|
92453523|NCT01344460|184794929|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|13.1|||||TWO_SIDED|95.0|11.0||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Clinical investigator; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||11.0|
92241845|NCT02364947|184386831|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.48|-0.18|||Mixed Models Analysis|||||-0.18|-0.48|<0.0001
92241846|NCT02364947|184386831|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.51|-0.19|||Mixed Models Analysis|||||-0.19|-0.51|<0.0001
92281113|NCT02796664|184465171|OTHER|Equality test||||||0.74|||||||Fisher Exact|||The null hypothesis is that there is no relationship between ginseng administration and periventricular white matter lesions at follow-up.||||0.74
92173457|NCT04610892|184238077|SUPERIORITY||Least Squares mean difference|-16.137||||0.077||90.0|-34.7829|2.5089||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||2.5089|-34.7829|0.077
92241847|NCT02364947|184386832|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used. Baseline CGI-S value was used as baseline value in MMRM.|Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.69|-0.33|||Mixed Models Analysis|||||-0.33|-0.69|<0.0001
92281114|NCT02796664|184465171|OTHER|Equality test||||||0.95|||||||Fisher Exact|||The null hypothesis is that there is no relationship between ginseng administration and deep white matter lesions at follow-up.||||0.95
92281115|NCT02796664|184465172|OTHER|Equality test||||||0.23|||||||Chi-squared|||The null hypothesis is that there is no relationship between ginseng administration and parenchymal ischemic lesions at follow-up.||||0.23
92453524|NCT01344460|184794930|SUPERIORITY_OR_OTHER||percentage|54.6|||||ONE_SIDED|95.0|46.2||||One sided 95% confidence interval|||Majority reader|||46.2|
92453525|NCT01344460|184794930|SUPERIORITY_OR_OTHER||percentage|51.6|||||ONE_SIDED|95.0|43.6||||One sided 95% confidence interval|||Blinded Reader 1|||43.6|
92453526|NCT01344460|184794930|SUPERIORITY_OR_OTHER||percentage|54.4|||||ONE_SIDED|95.0|45.5||||One sided 95% confidence interval|||Blinded Reader 2|||45.5|
92453527|NCT01344460|184794930|SUPERIORITY_OR_OTHER||percentage|53.4|||||ONE_SIDED|95.0|44.8||||One sided 95% confidence interval|||Blinded Reader 3|||44.8|
92453528|NCT01344460|184794930|SUPERIORITY_OR_OTHER||percentage|71.3|||||ONE_SIDED|95.0|64.7||||One sided 95% confidence interval|||Clinical investigator|||64.7|
92453529|NCT01344460|184794931|SUPERIORITY_OR_OTHER||percentage|95.9|||||ONE_SIDED|95.0|94.9||||One sided 95% confidence interval|||Majority reader|||94.9|
92453530|NCT01344460|184794931|SUPERIORITY_OR_OTHER||percentage|95.0|||||ONE_SIDED|95.0|93.8||||One sided 95% confidence interval|||Blinded Reader 1|||93.8|
92281116|NCT02796664|184465173|OTHER|Equality test||||||0.79|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no relationship between ginseng administration and drug compliance at follow-up.||||0.79
92287203|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.145|||<|0.001|TWO_SIDED|95.0|0.081|0.208|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.208|0.081|<0.001
92453531|NCT01344460|184794931|SUPERIORITY_OR_OTHER||percentage|96.2|||||ONE_SIDED|95.0|95.2||||One sided 95% confidence interval|||Blinded Reader 2|||95.2|
92453532|NCT01344460|184794931|SUPERIORITY_OR_OTHER||percentage|95.8|||||ONE_SIDED|95.0|94.8||||One sided 95% confidence interval|||Blinded Reader 3|||94.8|
92453533|NCT01344460|184794931|SUPERIORITY_OR_OTHER||percentage|98.4|||||ONE_SIDED|95.0|97.8||||One sided 95% confidence interval|||Clinical investigator|||97.8|
92453534|NCT01344460|184794934|SUPERIORITY_OR_OTHER||Diameter difference|0.17|STANDARD_DEVIATION|1.28|||||||||Mean Difference|||CTA Minus Unenhanced MRA for blinded Reader on vessel DIA at normal point||||
92453535|NCT01344460|184794934|SUPERIORITY_OR_OTHER||Diameter difference|-0.09|STANDARD_DEVIATION|1.14|||||||||Mean Difference|||CTA minus Gadobutrol-Enhanced MRA for blinded reader on vessel DIA at normal point||||
92453536|NCT01344460|184794934|SUPERIORITY_OR_OTHER||Mean Difference|0.41|STANDARD_DEVIATION|1.15|||||||||Mean Difference|||CTA minus Unenhanced MRA for blinded reader on vessel DIA at narrowest point||||
92453537|NCT01344460|184794934|SUPERIORITY_OR_OTHER||Diameter difference|-0.15|STANDARD_DEVIATION|1.01|||||||||Mean Difference|||CTA minus Gadobutrol-Enhanced MRA for blinded reader on vessel DIA at narrowest point||||
92453538|NCT02120924|184794963|EQUIVALENCE|Bioequivalence was established if the 90% CI for the ratio of Test/Reference means was contained within the interval \[0.80, 1.25\].|Mean Difference (Net)|0.98|||||TWO_SIDED|90.0|0.92|1.05|||||Bioequivalence was established if the 90% CI for the ratio of Test/Reference means was contained within the interval \[0.80, 1.25\].|The primary endpoint was the percent change from baseline to Week 12 in the inflammatory (papules and pustules) lesion counts in PP population.||1.05|0.92|
92453539|NCT02120924|184794964|EQUIVALENCE|A two-sided, continuity-corrected, 90% CI on the Test-to-Reference difference for the proportion of subjects with treatment success on the IGE was constructed.|Mean Difference (Net)|0.044|||||TWO_SIDED|90.0|-0.028|0.116|||||Bioequivalence was established if the 90% CI for the difference was contained within the interval \[-0.20, +0.20\].|||0.116|-0.028|
92453540|NCT03483623|184794965|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
92453541|NCT03483623|184794966|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
92453542|NCT03483623|184794967|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
92453543|NCT03483623|184794968|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
92453544|NCT03483623|184794969|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
92453545|NCT03483623|184794970|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
92453546|NCT03483623|184794971|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
92453547|NCT03483623|184794972|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
92453548|NCT01884350|184794973|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.24||||0.8117|TWO_SIDED|95.0|-2.18|1.7||P-value (two-sided) corresponds to the two-sample t-tests for difference in percentage of adherence at Week 24|t-test, 2 sided|||||1.7|-2.18|0.8117
92453549|NCT01884350|184794974|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value is from a paired t-test comparing percent adherence at 12 and 24 Weeks. Only participants with available data at both Study Days 85 and 169 are included.|paired t-test|||Percent adherence at 12 Weeks v. Percent adherence at 24 Weeks||||<0.0001
92453550|NCT01884350|184794974|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value is from a paired t-test comparing percent adherence at 12 and 24 Weeks. Only participants with available data at both Study Days 85 and 169 are included.|paired t-test|||Percent adherence at 12 Weeks v. Percent adherence at 24 Weeks||||<0.0001
92453551|NCT01884350|184794975|NON_INFERIORITY_OR_EQUIVALENCE|F-test p-value is obtained from the one-way ANOVA model||||||0.8707|||||||ANOVA|||||||0.8707
92453552|NCT01884350|184794975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.6399|TWO_SIDED|95.0|-2.88|4.68||P-values are obtained from the Cochran t-test for pairwise comparison between groups (two-sided).|t-test, 2 sided|||||4.68|-2.88|0.6399
92453553|NCT01884350|184794975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.9616|TWO_SIDED|95.0|-3.45|3.29||P-values are obtained from the Cochran t-test for pairwise comparison between groups (two-sided).|t-test, 2 sided|||||3.29|-3.45|0.9616
92173458|NCT04610892|184238077|SUPERIORITY||Least Squares mean difference|-0.5927||||0.468||90.0|-12.7267|11.5413||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||11.5413|-12.7267|0.468
92241848|NCT02364947|184386832|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used. Baseline CGI-S value was used as baseline value in MMRM.|Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.67|-0.27|||Mixed Models Analysis|||||-0.27|-0.67|<0.0001
92241849|NCT02364947|184386833|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used. Baseline CGI-S value was used as baseline value in MMRM.|Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.7|-0.31|||Mixed Models Analysis|||||-0.31|-0.70|<0.0001
92173459|NCT04610892|184238077|SUPERIORITY||Least Squares mean difference|-0.1767||||0.491||90.0|-12.4678|12.1144||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||12.1144|-12.4678|0.491
92173460|NCT04610892|184238077|SUPERIORITY||Least Squares mean difference|-0.393||||0.476||90.0|-11.0022|10.2162||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||10.2162|-11.0022|0.476
92241850|NCT02364947|184386833|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used. Baseline CGI-S value was used as baseline value in MMRM.|Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.77|-0.33|||Mixed Models Analysis|||||-0.33|-0.77|<0.0001
92287204|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.127|||<|0.001|TWO_SIDED|95.0|0.065|0.189|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.189|0.065|<0.001
92241851|NCT02364947|184386834|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.192|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001|TWO_SIDED|95.0|-0.262|-0.121|||Mixed Models Analysis|||||-0.121|-0.262|<0.0001
92281117|NCT01626079|184465174|NON_INFERIORITY|Two thousand (2000) simulations were performed to calculate sample size and power for the primary safety endpoint. Assuming 22% mortality and 7.5% attrition at 12 months, a total of 305 subjects in the Device group will provide \> 95% power to reject the null hypothesis at the one-sided significance level of 5%.|Kaplan Meier|0.966|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|ONE_SIDED|95.0|0.948||||Z test Using Kaplan Meier Survival|P-value calculated from Z test using Kaplan Meier survival estimate together with Greenwood method estimated variance|||||0.948|<0.0001
92453554|NCT01884350|184794975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82||||0.6341|TWO_SIDED|95.0|-2.6|4.24||P-values are obtained from the Cochran t-test for pairwise comparison between groups (two-sided).|t-test, 2 sided|||||4.24|-2.60|0.6341
92453555|NCT01884350|184794976|SUPERIORITY|||||||0.1924||||||\<=2 Drink/Day Average vs None|Wald Chi-square test|||||||0.1924
92453556|NCT01884350|184794976|SUPERIORITY|||||||0.0305||||||\>=3 Drink/Day Average vs None|Wald Chi-square test|||||||0.0305
92453557|NCT01884350|184794976|SUPERIORITY|||||||0.0107||||||Mini-mental state examination score|Wald Chi-square test|||||||0.0107
92453558|NCT01884350|184794976|SUPERIORITY|||||||0.6982||||||Higher managerial, administrative and professional occupations vs UKSOC1|Wald Chi-square test|||||||0.6982
92453559|NCT01884350|184794976|SUPERIORITY|||||||0.7277||||||Higher professional occupations vs UKSOC1|Wald Chi-square test|||||||0.7277
92453560|NCT01884350|184794976|SUPERIORITY|||||||0.7581||||||Intermediate occupations vs UKSOC1|Wald Chi-square test|||||||0.7581
92453561|NCT01884350|184794976|SUPERIORITY|||||||0.2328||||||Large employers and higher managerial and adm. occupations vs UKSOC1|Wald Chi-square test|||||||0.2328
92453562|NCT01884350|184794976|SUPERIORITY|||||||0.7507||||||Lower managerial, administrative and professional occupations vs UKSOC1|Wald Chi-square test|||||||0.7507
92453563|NCT01884350|184794976|SUPERIORITY|||||||0.0091||||||Lower supervisory and technical occupations vs UKSOC1|Wald Chi-square test|||||||0.0091
92453564|NCT01884350|184794976|SUPERIORITY|||||||0.673||||||Never worked and long-term unemployed vs UKSOC1|Wald Chi-square test|||||||0.6730
92453565|NCT01884350|184794976|SUPERIORITY|||||||0.0117||||||Routine occupations vs UKSOC1|Wald Chi-square test|||||||0.0117
92453566|NCT01884350|184794976|SUPERIORITY|||||||0.191||||||Semi-routine occupations vs UKSOC1|Wald Chi-square test|||||||0.1910
92453567|NCT01884350|184794976|SUPERIORITY|||||||0.9559||||||Paroxysmal vs Persistent Atrial Fibrillation|Wald Chi-square test|||||||0.9559
92453568|NCT01884350|184794976|SUPERIORITY|||||||0.0264||||||Permanent vs Persistant Atrial Fibrillation|Wald Chi-square test|||||||0.0264
92453569|NCT01884350|184794976|SUPERIORITY|||||||0.1087||||||\<=2 Drink/Day Average vs None|Wald Chi-square test|||||||0.1087
92453570|NCT01884350|184794976|SUPERIORITY|||||||0.0679||||||\>=3 Drink/Day Average vs None|Wald Chi-square test|||||||0.0679
92453571|NCT01884350|184794976|SUPERIORITY|||||||0.2128||||||Paroxysmal vs Persistant Atrial Fibrillation|Wald Chi-square test|||||||0.2128
92453572|NCT01884350|184794976|SUPERIORITY|||||||0.3739||||||Permanent vs Persistant Atrial Fibrillation|Wald Chi-square test|||||||0.3739
92453573|NCT01884350|184794976|SUPERIORITY|||||||0.843||||||VKA status: Naive vs. Non-Naive|Wald Chi-square test|||||||0.843
92453574|NCT02730819|184794993|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||P-values of 0.05 or lower were considered statistically significant.||||0.006
92453575|NCT02730819|184794994|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||P-values of 0.05 or lower were considered statistically significant.||||0.006
92453576|NCT01308580|184794996|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 1.214|Hazard Ratio (HR)|1.024|||||ONE_SIDED|98.89||1.184|||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|The hazard ratio for OS was estimated using the Cox proportional hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization. Cabazitaxel 20 mg/m\^2 relative to 25 mg/m\^2 dose group was considered non-inferior if the upper bound of 1-sided 98.89% confidence interval of hazard ratio (20 mg/m\^2 versus 25 mg/m\^2) was less than the non-inferiority margin of 1.214.||1.184||
92453577|NCT01308580|184794996|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.024|||||ONE_SIDED|95.0|0.922||||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|The hazard ratio for OS was estimated using the Cox proportional hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization. Cabazitaxel 25 mg/m\^2 was considered to be superior to 20 mg/m\^2 dose if the lower bound of 1-sided 95% confidence interval of hazard ratio was greater than 1.|||0.922|
92453578|NCT01308580|184794997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.099|||||TWO_SIDED|95.0|0.974|1.24|||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization.||1.24|0.974|
92453579|NCT01308580|184794998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.096|||||TWO_SIDED|95.0|0.902|1.331|||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization.||1.331|0.902|
92453580|NCT01308580|184795000|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.195|||||TWO_SIDED|95.0|1.025|1.393|||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization.||1.393|1.025|
92453581|NCT01308580|184795002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.046|||||TWO_SIDED|95.0|0.874|1.251|||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|Hazard ratio is estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization.||1.251|0.874|
92241852|NCT02364947|184386834|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.156|STANDARD_ERROR_OF_MEAN|0.039||0.0001|TWO_SIDED|95.0|-0.232|-0.08|||Mixed Models Analysis|||||-0.080|-0.232|0.0001
92173461|NCT04610892|184238078|SUPERIORITY||Least Squares mean difference|-4.3435||||0.136||90.0|-10.8637|2.1768||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||2.1768|-10.8637|0.136
92281118|NCT01626079|184465207|SUPERIORITY||Hazard Ratio (HR)|0.76|||<|0.02|TWO_SIDED|95.0|0.6|0.96|||Joint Fraility Model|||||0.96|0.60|<0.02
92453582|NCT03403634|184795014|SUPERIORITY|||||||0.046||||||significance level = 0.05|t-test, 1 sided|df = 11. one-sided as post treatment increases were of interest. the fold changes were log-transformed prior to inferences.||||||0.046
92453583|NCT00932893|184795019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.487|||<|0.0001||95.0|0.371|0.638||To control family-wise Type 1 error, a step-down procedure was applied in following order: PFS, objective response rate (ORR), overall survival (OS), and disease control rate (DCR). Statistical significance: 1-sided at alpha=0.025.|Log Rank|||P-value was obtained from 1-sided log-rank test stratified by Eastern Cooperative Oncology Group performance status (ECOG PS) score, brain metastases, and prior epidermal growth factor receptor tyrosine kinase inhibitor (EGFR TKI) treatment. The hazard ratio and corresponding 95% confidence interval (CI) from the stratified Cox Proportional Hazards model were also presented.||0.638|0.371|<0.0001
92453584|NCT00932893|184795020|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.854||||0.1145||95.0|0.661|1.104||Statistical significance: 1-sided at alpha=0.025|Log Rank|||P-value was obtained from 1-sided log-rank test stratified by ECOG PS score, brain metastases, and prior EGFR TKI treatment. The hazard ratio and corresponding 95% CI from the stratified Cox proportional hazards model were also presented.||1.104|0.661|0.1145
92453585|NCT00932893|184795022|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.394|||<|0.0001||95.0|2.463|4.676||Statistical significance: 2-sided at alpha=0.025.|Cochran-Mantel-Haenszel|||P-value was obtained from Cochran-Mantel-Haenszel (CMH) test stratified by ECOG PS, brain metastases, and prior EGFR TKI treatment. The risk ratio and corresponding 95% CI from the stratified CMH test were also reported.||4.676|2.463|<0.0001
92453586|NCT00932893|184795023|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.502|||<|0.0001||95.0|1.297|1.741||Statistical significance: 2-sided at alpha=0.0004.|Cochran-Mantel-Haenszel|||P-value was obtained from CMH test stratified by ECOG PS, brain metastases, and prior EGFR TKI treatment. The risk ratio and corresponding 95% CI from the stratified CMH test were also reported.||1.741|1.297|<0.0001
92453587|NCT00932893|184795024|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.697|||<|0.0001|TWO_SIDED|95.0|1.368|2.103||Statistical significance: 2-sided at alpha=0.0004.|Cochran-Mantel-Haenszel|||P-value was obtained from CMH test stratified by ECOG PS, brain metastases, and prior EGFR TKI treatment. The risk ratio and corresponding 95% CI from the stratified CMH test were also reported.||2.103|1.368|<0.0001
92453588|NCT00932893|184795030|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.497|||<|0.0001||95.0|0.373|0.661|||Log Rank|||The p-value was obtained from 2-sided unstratified log-rank test. The hazard ratio and corresponding 95% CI from the Cox Proportional Hazards model were also presented.||0.661|0.373|<0.0001
92453589|NCT00413153|184795094|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||t-test, 2 sided|||Initial samples size of N=16 calculated to provide 80% power to detect a 30% change in muscle glucose uptake between groups. Student's t-test used to compare change from baseline and determine treatment effect (net difference over time between the ATV/r vs. LPV/r groups).||||0.035
92453590|NCT00413153|184795095|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Repeated measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs. LPV/r)||||0.12
92453591|NCT00413153|184795096|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Repeated Measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.002
92453592|NCT00413153|184795097|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Repeated measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.02
92453593|NCT00413153|184795098|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||t-test, 2 sided|||||||0.047
92453594|NCT00413153|184795099|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Repeated Measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.72
92453595|NCT00413153|184795100|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Repeated Measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.22
92453596|NCT00413153|184795101|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Repeated Measures Ancova|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.004
92453597|NCT00413153|184795102|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Repeated Measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.0002
92453598|NCT00924885|184795103|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||The primary end-point was the 'overall pain experience', evaluated as described previously. Assuming the mean overall pain in the RN group to be 27 mm (value chosen after analysis of data from a previous study, Cerne et al., 2006) on VAS, with a standard deviation (SD) of 21.5 mm, 121 patients in each group would be needed to demonstrate a decrease in overall pain of 8 mm (30%) with 80% power and a significance level of 0.05 (two-tailed tests).||||0.04
92281119|NCT01626079|184465208|SUPERIORITY||Win Ratio|1.61|||<|0.0001|TWO_SIDED|95.0|1.29|2.04|||Finkelstein-Schoenfeld Analysis|||||2.04|1.29|<0.0001
92453599|NCT02508480|184795105|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction. The p-value reported below is for group effect.||||0.66
92173462|NCT04610892|184238078|SUPERIORITY||Least Squares mean difference|-1.2369||||0.316||90.0|-5.4796|3.0059||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||3.0059|-5.4796|0.316
92453600|NCT02508480|184795106|SUPERIORITY|||||||0.884||||||Group effect for Proactive Coping|Mixed Models Analysis|||"The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.~The p-value reported below is for group effect for Proactive Coping."||||0.884
92453601|NCT02508480|184795106|SUPERIORITY|||||||0.543||||||Group effect for Avoidant Coping.|Mixed Models Analysis|||"The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.~The p-value reported below is for group effect for Avoidant Coping."||||0.543
92453602|NCT02508480|184795107|SUPERIORITY|||||||0.135||||||The p-value above is for the overall group effect.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.135
92453603|NCT02508480|184795108|SUPERIORITY|||||||0.25||||||The p-value above represents the overall group effect.|Mixed Models Analysis|||The two study arms were compared on the interpersonal function subscale using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.25
92453604|NCT02508480|184795108|SUPERIORITY|||||||0.118||||||The p-value represents the overall group effect.|Mixed Models Analysis|||The two study arms were compared on the intrapsychic foundations subscale using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.118
92453605|NCT02508480|184795109|SUPERIORITY|||||||0.917||||||The p-value is for group effect for tcpm\_days\_participated.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction. The p-value reported below is for group effect for tcpm\_days\_participated.||||0.917
92453606|NCT02508480|184795110|SUPERIORITY|||||||0.017||||||The p-value above is for the overall group effect.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.017
92453607|NCT02508480|184795111|SUPERIORITY|||||||0.597||||||The p-value above represents the overall group effect.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.597
92453608|NCT02508480|184795112|SUPERIORITY|||||||0.076||||||The p-value above represents the overall group effect.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.076
92453609|NCT02508480|184795113|SUPERIORITY|||||||0.978||||||The p-value above represents the overall group effect.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.978
92453610|NCT04969250|184795119|SUPERIORITY|||||||0.73|||||||Fisher Exact|||||||0.73
92453611|NCT04969250|184795120|SUPERIORITY|||||||0.4|||||||Fisher Exact|||||||0.40
92453612|NCT04969250|184795121|SUPERIORITY|||||||0.078|||||||Fisher Exact|||||||0.078
92453613|NCT04969250|184795122|SUPERIORITY|||||||0.033|||||||Fisher Exact|||||||0.033
92453614|NCT00377676|184795124|NON_INFERIORITY_OR_EQUIVALENCE|In order to test the primary hypothesis at a one-sided alpha = .05 and have a power of 0.9, when the non-inferiority margin is 1.5, the total number of subjects with all-cause SAEs that must be observed during the study was found to be 235. Assuming the placebo rate is 0.08, the required sample size was found to be 2991.|Hazard Ratio (HR)|1.02|||<|0.05|ONE_SIDED|95.0||1.27||Using the Lan and Demets alpha spending function for O'Brien-Fleming boundaries and the overall one-sided significance level of 5%, a level of 0.04068 was to be used at the interim analysis and 0.03938 at the time of the final analysis.|Regression, Cox||cycloset to placebo|||1.27||<0.05
92453615|NCT00377676|184795125|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.58|||<|0.05|TWO_SIDED|95.0|0.35|0.96|||Regression, Cox|||In order to test the hypothesis for serious cardiovascular adverse events as for the primary endpoint at a one-sided alpha = 0.5 when the non-inferiority margin is 1.5, the final sample size of 3000 to 3300 subjects was to provide at least 62% power, assuming a hypothetical rate of events of 3.43%, or 103 to 113 cardiovascular SAEs. Upon demonstration of non-inferiority - a 2 sided using 95% CI was used to assess for superiority.||.96|.35|<0.05
92453616|NCT00377676|184795126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|1.4|<|0.001|||||||ANOVA|||If the standard deviation of HbA1c level is about 1.0% and the baseline and 24 week scores have a correlation of 0.50 then the effect size is 0.5%/1.0% = 0.50. For the metformin/SU analysis, 160 subjects assuming a standard deviation of 1.0% would provide a power of 90% power to detect differences in mean changes of 0.5% or larger.||||<0.001
92453617|NCT00377676|184795127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||<|0.001|||||||ANOVA|||||||<0.001
92453618|NCT03579459|184795135|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|Geometric Mean ratio (GMR)|1.01|||||TWO_SIDED|95.0|0.86|1.18|||||Confidence intervals (CIs) were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin A||1.18|0.86|
92453619|NCT03579459|184795135|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|GMR|1.01|||||TWO_SIDED|95.0|0.86|1.18|||||CIs were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin A||1.18|0.86|
92453620|NCT03579459|184795135|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|GMR|1.0|||||TWO_SIDED|95.0|0.85|1.17|||||CIs were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin A||1.17|0.85|
92241853|NCT02364947|184386835|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.168|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.248|-0.088|||Mixed Models Analysis|||||-0.088|-0.248|<0.0001
92241854|NCT02364947|184386835|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.139|STANDARD_ERROR_OF_MEAN|0.044||0.0017|TWO_SIDED|95.0|-0.226|-0.052|||Mixed Models Analysis|||||-0.052|-0.226|0.0017
92173463|NCT04610892|184238078|SUPERIORITY||Least Squares mean difference|-0.7015||||0.394||90.0|-5.0096|3.6065||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||3.6065|-5.0096|0.394
92241855|NCT02364947|184386836|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.031||0.0234|TWO_SIDED|95.0|-0.13|-0.009|||Mixed Models Analysis|||||-0.009|-0.130|0.0234
92241856|NCT02364947|184386836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.049|STANDARD_ERROR_OF_MEAN|0.033||0.1374|TWO_SIDED|95.0|-0.115|0.016|||Mixed Models Analysis|||Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.||0.016|-0.115|0.1374
92173464|NCT04610892|184238078|SUPERIORITY||Least Squares mean difference|-0.9799||||0.332||90.0|-4.6927|2.7329||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||2.7329|-4.6927|0.332
92173465|NCT04760678|184238146|OTHER|Fisher's exact test||||||0.107|||||||Fisher Exact|||||||0.107
92241857|NCT02364947|184386837|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.031||0.0348|TWO_SIDED|95.0|-0.127|-0.005|||Mixed Models Analysis|||||-0.005|-0.127|0.0348
92241858|NCT02364947|184386837|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.049|STANDARD_ERROR_OF_MEAN|0.034||0.1444|TWO_SIDED|95.0|-0.116|0.017|||Mixed Models Analysis|||||0.017|-0.116|0.1444
92173466|NCT01748448|184238175|SUPERIORITY||Cox Proportional Hazard|1.27|||=|0.324|TWO_SIDED|95.0|0.79|2.03|||Fisher Exact|||||2.03|0.79|= 0.324
92173467|NCT02226276|184238181|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92173468|NCT02226276|184238182|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92281120|NCT02566135|184465532|OTHER||Risk Ratio (RR)|1.4628||||0.5033|TWO_SIDED|95.0|0.6401|3.3428|||Chi-squared, Corrected|||Chi square test was applied to see weather there is a statistical significant difference between group I and group C for attempt for supraglottic airway insertion.||3.3428|0.6401|0.5033
92453621|NCT03579459|184795135|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|GMR|1.07|||||TWO_SIDED|95.0|0.87|1.31|||||CIs were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin B||1.31|0.87|
92281121|NCT02566135|184465533|OTHER||Risk Ratio (RR)|0.8972|||>|0.05|TWO_SIDED|95.0|0.4858|1.6569|||Chi-squared, Corrected|||We had applied chi square to see the statistical significant difference between group I and group C for number of attempt for ventilating bougie insertion.||1.6569|0.4858|>0.05
92453622|NCT03579459|184795135|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|GMR|1.07|||||TWO_SIDED|95.0|0.88|1.31|||||CIs were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin B||1.31|0.88|
92453623|NCT03579459|184795135|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|GMR|1.01|||||TWO_SIDED|95.0|0.83|1.23|||||CIs were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin B||1.23|0.83|
92453624|NCT02528214|184795144|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.|Least Square (LS) Mean Difference|28.24|||<|0.0001|TWO_SIDED|95.0|15.81|40.67||Threshold for significance at two-sided 0.05 level.|ANCOVA||LS mean difference represents reduction difference i.e. dupilumab - placebo.|The outcome measure was analyzed using analysis of covariance (ANCOVA) model which included percentage reduction of OCS dose at Week 24 as the response variable, and treatment group, baseline eosinophil level, optimized OCS dose at baseline, region as covariates. Missing data was imputed using a pattern mixture model by multiple imputation approach.||40.67|15.81|< 0.0001
92453625|NCT02528214|184795146|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).|Odds Ratio (OR)|3.98|||<|0.0001|TWO_SIDED|95.0|2.06|7.67||Threshold for significance at 0.05.|Regression, Logistic||Dupilumab 300 mg q2w v Placebo q2w|The outcome measure was analyzed using a logistic regression model. The model included the binary status of whether or not a participant achieved the 50% OCS dose reduction criterion as the response variable, and treatment groups, optimized OCS dose at baseline, regions, and baseline eosinophil level subgroups as covariates. Missing data was imputed by using a pattern mixture model by multiple imputation approach.||7.67|2.06|< 0.0001
92453626|NCT02528214|184795147|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).|Odds Ratio (OR)|4.48|||<|0.0001|TWO_SIDED|95.0|2.39|8.39||Threshold for significance at 0.05.|Regression, Logistic||Dupilumab 300 mg q2w v Placebo q2w|The outcome measure was analyzed using a logistic regression model. The model included the binary status of whether or not a participant achieved a reduction of OCS dose to \<5 mg/day at Week 24 as the response variable, treatment groups, optimized OCS dose at baseline, regions, and baseline eosinophil level subgroups as covariates. Missing data was imputed by using a pattern mixture model by multiple imputation approach.||8.39|2.39|< 0.0001
92453627|NCT02528214|184795148|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).|Odds Ratio (OR)|2.57||||0.0024|TWO_SIDED|95.0|1.4|4.73||Threshold for significance at 0.05.|Regression, Logistic||Dupilumab 300 mg q2w v Placebo q2w|The outcome was analyzed using a logistic regression model. The model included binary status of whether or not a participant achieved their maximum possible reduction of OCS dose per protocol at Week 24 as the response variable, treatment groups, optimized OCS dose at baseline, regions, and baseline eosinophil level subgroups as covariates. Missing data was imputed by using a pattern mixture model by multiple imputation approach.||4.73|1.4|0.0024
92453628|NCT02528214|184795149|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).|Odds Ratio (OR)|2.74||||0.0015|TWO_SIDED|95.0|1.47|5.1||Threshold for significance at 0.05.|Regression, Logistic||Dupilumab 300 mg q2w v Placebo q2w|The outcome measure was analyzed using a logistic regression model. The model included the binary status of whether or not a participant no longer required OCS at Week 24 as the response variable, and treatment groups, optimized OCS dose at baseline, regions, and baseline eosinophil level subgroups as covariates. Missing data was imputed using a pattern mixture model by multiple imputation approach.||5.1|1.47|0.0015
92173469|NCT03675282|184238186|SUPERIORITY||Mean Difference (Final Values)|19.8||||0.66|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 1 (Baseline vs. 24 months)||||0.66
92173470|NCT03675282|184238186|SUPERIORITY||Mean Difference (Final Values)|-21.3||||0.63|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 (Baseline vs. 24 months)||||0.63
92241859|NCT02702518|184386838|OTHER||||||<|0.001||||||p-values were calculated via linear quantile mixed model for continuous variables with missing data.|Mixed Models Analysis|||For the outcome measure corneal staining, data at week 8 was compared with data at baseline to determine if a change was significant (threshold p \< 0.05).||||<0.001
92241860|NCT02702518|184386838|OTHER|||||||0.2324||||||p-values were calculated via linear quantile mixed model for continuous variables with missing data.|Mixed Models Analysis|||For the outcome measure corneal staining data at week 8 was compared with data at baseline to determine significant change.||||0.2324
92281122|NCT02566135|184465534|OTHER||||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
92173471|NCT03675282|184238186|SUPERIORITY||Mean Difference (Final Values)|0.87||||0.99|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder (Baseline vs. 24 months)||||0.99
92241861|NCT02702518|184386839|OTHER|||||||0.001||||||p-values were calculated via linear quantile mixed model for continuous variables.|Mixed Models Analysis|||For the outcome measure OSDI, data at week 8 was compared with data at baseline to determine if a change was significant (threshold p \< 0.05).||||0.001
92241862|NCT02702518|184386839|OTHER|||||||0.2257||||||p-values were calculated via linear quantile mixed model for continuous variables.|Mixed Models Analysis|||For the outcome measure OSDI data at week 8 was compared with data at baseline to determine significant change.||||0.2257
92281123|NCT02566135|184465535|OTHER|||||||0.44|||||||t-test, 2 sided|||Heart rate beats per minute measured at base line among the group I and group C.||||0.44
92281124|NCT02566135|184465535|OTHER|||||||0.58|||||||t-test, 2 sided|||Heart rate beats per minute is measured following Dexmedetomidine injection among the group I and group C.||||0.58
92241863|NCT01725152|184386860|SUPERIORITY|||||||0.4475|||||||Linear mixed-effect|||Null hypothesis of no treatment difference in CGI-I will be assessed using a linear mixed-effects model for repeated measures, accounting for treatment (ganaxolone versus placebo) and period at a significant level of 0.05. A sample size of 30 participants in each arm/group was planned in the study will have 90% power to detect a modest effect size of 0.6 at level 0.05 in CGI-I. With a possible dropout rate of 15%, the power for testing the effect size becomes 84%.||||0.4475
92241864|NCT02420223|184386870|SUPERIORITY|||||||0.017|||||||Regression, Logistic|||||||.017
92241865|NCT02420223|184386870|SUPERIORITY|||||||0.337|||||||Regression, Logistic|||||||0.337
92281125|NCT02566135|184465535|OTHER|||||||0.16|||||||t-test, 2 sided|||Heart rate beats per minute measured following induction of anaesthesia among the group I and group C.||||0.16
92453629|NCT00407537|184795158|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-4.72|||<|0.001|TWO_SIDED|95.0|-5.55|-3.89||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|It was estimated that each study site would on average complete 8 evaluable participants, therefore enrolling 164 sites, 1968 participants would provide at least 90% power to detect a 10% relative reduction in the 10-year predicted risk of total CHD at 12 months (as calculated from the Framingham model) from the control arm based on a two-sided t-test with a 5% significance level.||-3.89|-5.55|<0.001
92453630|NCT00407537|184795159|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-4.76|||<|0.001|TWO_SIDED|95.0|-5.58|-3.93||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|||-3.93|-5.58|<0.001
92453631|NCT00407537|184795160|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-0.97|||<|0.001|TWO_SIDED|95.0|-1.23|-0.72||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|||-0.72|-1.23|<0.001
92241866|NCT02420223|184386873|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
92241867|NCT02420223|184386874|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
92241868|NCT02420223|184386875|SUPERIORITY|||||||0.06|||||||Likelihood ration Chi-Square test|||||||0.06
92241869|NCT01826422|184386877|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.05
92241870|NCT01826422|184386878|SUPERIORITY_OR_OTHER||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||>0.05
92241871|NCT01826422|184386879|SUPERIORITY_OR_OTHER||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||>0.05
92241872|NCT01826422|184386880|SUPERIORITY_OR_OTHER||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.05
92241873|NCT01826422|184386881|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.05
92241874|NCT01826422|184386882|SUPERIORITY_OR_OTHER||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
92241875|NCT01826422|184386883|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||<0.05
92453632|NCT00407537|184795161|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-0.88|||<|0.001|TWO_SIDED|95.0|-1.16|-0.59||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|||-0.59|-1.16|<0.001
92453633|NCT00407537|184795162|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-1.35|||<|0.001|TWO_SIDED|95.0|-1.56|-1.15||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|||-1.15|-1.56|<0.001
92453634|NCT00407537|184795163|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-1.35|||<|0.001|TWO_SIDED|95.0|-1.57|-1.14||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|||-1.14|-1.57|<0.001
92453635|NCT00407537|184795168|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.15|||<|0.007|TWO_SIDED|95.0|-5.42|-0.88|||Mixed-effect linear model|||||-0.88|-5.42|<0.007
92453636|NCT00407537|184795169|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.61|||<|0.011|TWO_SIDED|95.0|-2.86|-0.37|||Mixed-effect linear model|||||-0.37|-2.86|<0.011
92453637|NCT00407537|184795170|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.75|||<|0.001|TWO_SIDED|95.0|-8.0|-3.5|||Mixed-effect linear model|||||-3.50|-8.00|<0.001
92453638|NCT00407537|184795171|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.17|||<|0.001|TWO_SIDED|95.0|-4.42|-1.92|||Mixed-effect linear model|||||-1.92|-4.42|<0.001
92241876|NCT01826422|184386884|SUPERIORITY_OR_OTHER||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||<0.05
92241877|NCT01826422|184386885|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||<0.05
92241878|NCT01826422|184386886|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|t-test, 1 sided|||||||<0.05
92241879|NCT01826422|184386887|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|t-test, 1 sided|||||||<0.05
92173472|NCT03675282|184238186|SUPERIORITY||Mean Difference (Final Values)|11.5||||0.67|TWO_SIDED||||||paired t-test|||Healthy Controls (Baseline vs. 24 months)||||0.67
92241880|NCT01826422|184386888|SUPERIORITY|||||||0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|t-test, 1 sided|||||||0.05
92241881|NCT01826422|184386889|SUPERIORITY||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
92241882|NCT01826422|184386890|SUPERIORITY||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
92241883|NCT01826422|184386891|SUPERIORITY||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
92241884|NCT01826422|184386892|SUPERIORITY_OR_OTHER||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
92241885|NCT01826422|184386893|SUPERIORITY||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
92241886|NCT01826422|184386894|SUPERIORITY|||||||0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||0.05
92241887|NCT01826422|184386895|SUPERIORITY|||||||0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||0.05
92241888|NCT01826422|184386896|SUPERIORITY|||||||0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||0.05
92241889|NCT04263142|184386897|OTHER||Ratio|0.998|||||TWO_SIDED|90.0|0.9263|1.0757|||||Analysis was performed using analysis of variance (ANOVA) with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-inf). Ratio of GSK3640254 200 mg tablets/capsules.|||1.0757|0.9263|
92241890|NCT04263142|184386898|OTHER||Ratio|1.002|||||TWO_SIDED|90.0|0.9321|1.0781|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-t). Ratio of GSK3640254 200 mg tablets/capsules.|||1.0781|0.9321|
92241891|NCT04263142|184386899|OTHER||Ratio|1.093|||||TWO_SIDED|90.0|0.9885|1.208|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter Cmax. Ratio of GSK3640254 200 mg tablets/capsules.|||1.2080|0.9885|
92241892|NCT04263142|184386901|OTHER||Ratio|2.926|||||TWO_SIDED|90.0|2.3703|3.6107|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-inf). Ratio of GSK3640254 200 mg tablet (moderate fat)/(fasted)|||3.6107|2.3703|
92281126|NCT02566135|184465535|OTHER|||||||0.22|||||||t-test, 2 sided|||Heart rate beats per minute measured following supraglottic airway insertion among the group I and group C.||||0.22
92281127|NCT02566135|184465535|OTHER|||||||0.059|||||||t-test, 2 sided|||Heart rate beats per minute measured following ventilating bougie insertion among the group I and group C.||||0.059
92281128|NCT02566135|184465535|OTHER||||||>|0.33|||||||t-test, 2 sided|||Heart rate beats per minute measured at endotracheal intubation among the group I and group C.||||>0.33
92281129|NCT02566135|184465535|OTHER|||||||0.63|||||||t-test, 2 sided|||Heart rate beats per minute measured after 3 minute of ETT insertion among the group I and group C.||||0.63
92281130|NCT02566135|184465535|OTHER|||||||0.29|||||||t-test, 2 sided|||Heart rate beats per minute measured after 5 minute of ETT insertion among the group I and group C.||||0.29
92281131|NCT02566135|184465535|OTHER|||||||0.18|||||||t-test, 2 sided|||Heart rate beats per minute measured after 7 minute of ETT insertion among the group I and group C.||||0.18
92453639|NCT00407537|184795172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.94|||<|0.001|TWO_SIDED|95.0|-43.71|-34.17||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||TC||-34.17|-43.71|<0.001
92281132|NCT02566135|184465535|OTHER|||||||0.98|||||||t-test, 2 sided|||Heart rate beats per minute measured after 10 minute of ETT insertion among the group I and group C.||||0.98
92281133|NCT02566135|184465535|OTHER|||||||0.49|||||||t-test, 2 sided|||Heart rate beats per minute measured after 15 minute of ETT insertion among the group I and group C.||||0.49
92281134|NCT02566135|184465536|OTHER|||||||0.24|||||||t-test, 2 sided|||Systolic blood pressure measured and compared at base line between group I and group C.||||0.24
92173473|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-0.625||||0.4|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 1 UPDRS Part I (Baseline vs. 24 months)||||0.40
92173474|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-1.453||||0.4|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 1 UPDRS Part II (Baseline vs. 24 months)||||0.40
92281135|NCT02566135|184465536|OTHER|||||||0.11|||||||t-test, 2 sided|||Systolic blood pressure measured and compared following Dexmedetomidine injection between group I and group C.||||0.11
92281136|NCT02566135|184465536|OTHER|||||||0.07|||||||t-test, 2 sided|||Systolic blood pressure measured and compared following induction os anaesthesia between group I and group C.||||0.07
92281137|NCT02566135|184465536|OTHER|||||||0.85|||||||t-test, 2 sided|||Systolic blood pressure measured and compared following supraglottic airway insertion between group I and group C.||||0.85
92281138|NCT02566135|184465536|OTHER|||||||0.055|||||||t-test, 2 sided|||Systolic blood pressure measured and compared following ventilating bougie insertion between group I and group C.||||0.055
92281139|NCT02566135|184465536|OTHER|||||||0.71|||||||t-test, 2 sided|||Systolic blood pressure measured and compared at ETT insertion time between group I and group C.||||0.71
92281140|NCT02566135|184465536|OTHER|||||||0.2|||||||t-test, 2 sided|||Systolic blood pressure measured and compared 3 minutes after ETT insertion between group I and group C.||||0.20
92281141|NCT02566135|184465536|OTHER|||||||0.86|||||||t-test, 2 sided|||Systolic blood pressure measured and compared 5 minutes after ETT insertion between group I and group C.||||0.86
92281142|NCT02566135|184465536|OTHER|||||||0.68|||||||t-test, 2 sided|||Systolic blood pressure measured and compared 7 minutes after ETT insertion between group I and group C.||||0.68
92281143|NCT02566135|184465536|OTHER|||||||0.98|||||||t-test, 2 sided|||Systolic blood pressure measured and compared 10 minutes after ETT insertion between group I and group C.||||0.98
92281144|NCT02566135|184465536|OTHER|||||||0.49|||||||t-test, 2 sided|||Systolic blood pressure measured and compared 15 minutes after ETT insertion between group I and group C.||||0.49
92281145|NCT02566135|184465537|OTHER|||||||0.34|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared at base line between group I and group C.||||0.34
92281146|NCT02566135|184465537|OTHER|||||||0.27|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared following Dexmedetomidine injection between group I and group C.||||0.27
92281147|NCT02566135|184465537|OTHER|||||||0.22|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared following induction of anaesrthesia between group I and group C.||||0.22
92453640|NCT00407537|184795172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-35.31|||<|0.001|TWO_SIDED|95.0|-39.64|-30.99||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||LDL||-30.99|-39.64|<0.001
92453641|NCT00407537|184795172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.99||||0.087|TWO_SIDED|95.0|-0.14|2.13||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||HDL||2.13|-0.14|0.087
92241893|NCT04263142|184386901|OTHER||Ratio|2.594|||||TWO_SIDED|90.0|2.1003|3.2038|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-inf). Ratio of GSK3640254 200 mg tablet (high fat)/(fasted)|||3.2038|2.1003|
92241894|NCT04263142|184386902|OTHER||Ratio|3.146|||||TWO_SIDED|90.0|2.5925|3.8178|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-t). Ratio of GSK3640254 200 mg tablet (moderate fat)/(fasted)|||3.8178|2.5925|
92241895|NCT04263142|184386902|OTHER||Ratio|2.785|||||TWO_SIDED|90.0|2.2943|3.3807|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-t). Ratio of GSK3640254 200 mg tablet (high fat)/(fasted)|||3.3807|2.2943|
92241896|NCT04263142|184386903|OTHER||Ratio|4.101|||||TWO_SIDED|90.0|3.2442|5.183|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter Cmax. Ratio of GSK3640254 200 mg tablet (moderate fat)/(fasted)|||5.1830|3.2442|
92241897|NCT04263142|184386903|OTHER||Ratio|3.08|||||TWO_SIDED|90.0|2.4359|3.8935|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter Cmax. Ratio of GSK3640254 200 mg tablet (high fat)/(fasted)|||3.8935|2.4359|
92241898|NCT03439748|184387034|SUPERIORITY|||||||0.002||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference between PAT and NAT as small as d=.35.||||.002
92241899|NCT03439748|184387035|SUPERIORITY||||||>|0.05||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference between PAT and NAT as small as d=.35.||||>.05
92453642|NCT00407537|184795172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-23.65|||<|0.001|TWO_SIDED|95.0|-32.6|-14.7||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effects linear model|||Triglycerides||-14.70|-32.60|<0.001
92241900|NCT03439748|184387036|SUPERIORITY|||||||0.024||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference between PAT and NAT as small as d=.35.||||.024
92241901|NCT03439748|184387040|SUPERIORITY|||||||0.922||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.922
92241902|NCT03439748|184387041|SUPERIORITY|||||||0.049||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.049
92281148|NCT02566135|184465537|OTHER|||||||0.96|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared following supraglottic airway insertion between group I and group C.||||0.96
92281149|NCT02566135|184465537|OTHER|||||||0.71|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared following ventilating bougie insertion between group I and group C.||||0.71
92281150|NCT02566135|184465537|OTHER|||||||0.55|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared the time of endotracheal tube insertion between group I and group C.||||0.55
92281151|NCT02566135|184465537|OTHER|||||||0.49|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared 3 minutes after endotracheal tube insertion between group I and group C.||||0.49
92173475|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-6.15||||0.04|TWO_SIDED|||||Parkinson Disease - Stage 1 UPDRS Part III (Baseline vs. 24 months)|paired t-test|||||||0.04
92173476|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-0.056||||0.94|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 1 UPDRS Part IV (Baseline vs. 24 months)||||0.94
92241903|NCT03439748|184387042|SUPERIORITY|||||||0.591||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.591
92241904|NCT03439748|184387043|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.004
92241905|NCT03439748|184387044|SUPERIORITY|||||||0.03||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.030
92241906|NCT03439748|184387045|SUPERIORITY|||||||0.029||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.029
92241907|NCT03439748|184387047|SUPERIORITY|||||||0.494||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.494
92173477|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-0.414||||0.53|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 UPDRS Part I (Baseline vs. 24 months)||||0.53
92241908|NCT03439748|184387048|SUPERIORITY|||||||0.231||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.231
92241909|NCT03439748|184387049|SUPERIORITY|||||||0.344||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.344
92241910|NCT03439748|184387050|SUPERIORITY|||||||0.267||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.267
92241911|NCT03439748|184387051|SUPERIORITY|||||||0.051||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.051
92241912|NCT01856595|184387086|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-2.77|STANDARD_ERROR_OF_MEAN|8.532||0.7457|TWO_SIDED|90.0|-16.93|11.38||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||11.38|-16.93|0.7457
92453643|NCT00407537|184795173|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-33.07|||<|0.001|TWO_SIDED|95.0|-37.57|-28.56||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||TC||-28.56|-37.57|<0.001
92241913|NCT01856595|184387086|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-21.64|STANDARD_ERROR_OF_MEAN|8.334||0.0108|TWO_SIDED|90.0|-35.47|-7.81||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-7.81|-35.47|0.0108
92281152|NCT02566135|184465537|OTHER|||||||0.49|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared 5 minutes after endotracheal tube insertion between group I and group C.||||0.49
92453644|NCT00407537|184795173|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.83|||<|0.001|TWO_SIDED|95.0|-33.7|-25.95||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||LDL||-25.95|-33.70|<0.001
92453645|NCT00407537|184795173|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.58||||0.379|TWO_SIDED|95.0|-0.71|1.86||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||HDL||1.86|-0.71|0.379
92453646|NCT00407537|184795173|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.27|||<|0.001|TWO_SIDED|95.0|-28.72|-7.81||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||Triglycerides||-7.81|-28.72|<0.001
92173478|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-1.779||||0.38|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 UPDRS Part II (Baseline vs. 24 months)||||0.38
92173479|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-3.59||||0.24|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 UPDRS Part III (Baseline vs. 24 months)||||0.24
92173480|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-0.376||||0.73|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 UPDRS Part IV (Baseline vs. 24 months)||||0.73
92173481|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-1.187||||0.16|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder UPDRS Part I (Baseline vs. 24 months)||||0.16
92281153|NCT02566135|184465537|OTHER|||||||0.76|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared 7 minutes after endotracheal tube insertion between group I and group C.||||0.76
92281154|NCT02566135|184465537|OTHER|||||||0.69|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared 10 minutes after endotracheal tube insertion between group I and group C.||||0.69
92281155|NCT02566135|184465537|OTHER|||||||0.81|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared 15 minutes after endotracheal tube insertion between group I and group C.||||0.81
92281156|NCT02566135|184465538|OTHER||||||<|0.0001|||||||t-test, 2 sided|||We had compared time of insertion for supraglottic airway between group I and group C.||||<0.0001
92281157|NCT02566135|184465539|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92287205|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.011||||0.74|TWO_SIDED|95.0|-0.055|0.078|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.078|-0.055|0.740
92241914|NCT01856595|184387086|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-26.59|STANDARD_ERROR_OF_MEAN|8.309||0.0018|TWO_SIDED|90.0|-40.38|-12.8||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-12.80|-40.38|0.0018
92241915|NCT01856595|184387086|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-32.33|STANDARD_ERROR_OF_MEAN|8.038||0.0001|TWO_SIDED|90.0|-45.66|-18.99||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-18.99|-45.66|0.0001
92241916|NCT01856595|184387086|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-42.39|STANDARD_ERROR_OF_MEAN|8.34|<|0.0001|TWO_SIDED|90.0|-56.23|-28.55||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-28.55|-56.23|<0.0001
92241917|NCT01856595|184387087|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|10.47|STANDARD_ERROR_OF_MEAN|9.621||0.279|TWO_SIDED|90.0|-5.5|26.43||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||26.43|-5.50|0.2790
92241918|NCT01856595|184387087|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-19.33|STANDARD_ERROR_OF_MEAN|8.777||0.0299||90.0|-33.89|-4.76||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-4.76|-33.89|0.0299
92173482|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-0.154||||0.75|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder UPDRS Part II (Baseline vs. 24 months)||||0.75
92173483|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-0.829||||0.28|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder UPDRS Part III (Baseline vs. 24 months)||||0.28
92241919|NCT01856595|184387088|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-29.43|STANDARD_ERROR_OF_MEAN|7.609||0.0005|TWO_SIDED|90.0|-42.28|-16.57||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-16.57|-42.28|0.0005
92241920|NCT01856595|184387088|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-11.89|STANDARD_ERROR_OF_MEAN|7.321||0.1133|TWO_SIDED|90.0|-24.26|0.48||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.48|-24.26|0.1133
92241921|NCT01856595|184387089|SUPERIORITY_OR_OTHER||Ratio|0.99|STANDARD_ERROR_OF_MEAN|1.066||0.853|TWO_SIDED|90.0|0.89|1.1||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.10|0.89|0.8530
92453647|NCT00407537|184795174|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.94|||<|0.001|TWO_SIDED|95.0|-43.71|-34.17||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||TC||-34.17|-43.71|<0.001
92173484|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-0.077||||0.85|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder UPDRS Part IV (Baseline vs. 24 months)||||0.85
92173485|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|0.204||||0.78|TWO_SIDED||||||paired t-test|||Healthy Controls UPDRS Part I (Baseline vs. 24 months)||||0.78
92453648|NCT00407537|184795174|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-35.31|||<|0.001|TWO_SIDED|95.0|-39.64|-30.99||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||LDL||-30.99|-39.64|<0.001
92453649|NCT00407537|184795174|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.99||||0.087|TWO_SIDED|95.0|-0.14|2.13||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|mixed-effect linear model|||HDL||2.13|-0.14|0.087
92241922|NCT01856595|184387089|SUPERIORITY_OR_OTHER||Ratio|0.86|STANDARD_ERROR_OF_MEAN|1.065||0.0172|TWO_SIDED|90.0|0.77|0.95||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.95|0.77|0.0172
92453650|NCT00407537|184795174|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-23.65|||<|0.001|TWO_SIDED|95.0|-32.6|-14.7||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||Triglycerides||-14.70|-32.60|<0.001
92241923|NCT01856595|184387089|SUPERIORITY_OR_OTHER||Ratio|0.85|STANDARD_ERROR_OF_MEAN|1.064||0.0106|TWO_SIDED|90.0|0.77|0.94||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.94|0.77|0.0106
92241924|NCT01856595|184387089|SUPERIORITY_OR_OTHER||Ratio|0.82|STANDARD_ERROR_OF_MEAN|1.062||0.0012|TWO_SIDED|90.0|0.74|0.9||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.90|0.74|0.0012
92453651|NCT00407537|184795175|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-33.07|||<|0.001|TWO_SIDED|95.0|-37.57|-28.56||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||Total cholesterol||-28.56|-37.57|<0.001
92453652|NCT00407537|184795175|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.83|||<|0.001|TWO_SIDED|95.0|-33.7|-25.95||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||LDL||-25.95|-33.70|<0.001
92453653|NCT00407537|184795175|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.58||||0.379|TWO_SIDED|95.0|-0.71|1.86||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|mixed-effect linear model|||HDL||1.86|-0.71|0.379
92453654|NCT00407537|184795175|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.27|||<|0.001|TWO_SIDED|95.0|-28.72|-7.81||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||Triglycerides||-7.81|-28.72|<0.001
92453655|NCT03593655|184795181|SUPERIORITY||incidence rate ratio|1.01||||0.92|TWO_SIDED|95.0|0.9|1.12||the a priori threshold for statistical significance was \<0.05|generalized estimating equation|Poisson (log) link, adjusted for period, offset of number of visits per period, exchangeable correlation structure, and robust errors.|The incidence rate ratio compares FTC/TDF to the dapivirine vaginal ring.|Comparison of the proportion of participants experiencing a grade 2 adverse event between products, with a null hypothesis of no difference.||1.12|0.90|0.92
92453656|NCT04420221|184795207|SUPERIORITY||Vaccine Efficacy (VE)|-74.76||||0.8042||92.5|-680.61|36.62|||Log Rank|One-sided Group Sequential Design with non-binding beta, yielding two CIs based on cumulative alpha (92.5%) and beta (80.5%) spending|Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio times 100.|||36.62|-680.61|0.8042
92453657|NCT04420221|184795208|OTHER||Vaccine Efficacy (VE)|-38.09|||||TWO_SIDED|95.0|-245.77|40.86|||||Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio times 100.|||40.86|-245.77|
92453658|NCT04420221|184795209|OTHER||Vaccine Efficacy (VE)|-75.52|||||TWO_SIDED|95.0|-295.41|17.46|||||Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio times 100.|||17.46|-295.41|
92453659|NCT01040130|184795213|SUPERIORITY_OR_OTHER||Ratio to placebo|1.14|STANDARD_ERROR_OF_MEAN|0.04||0.0002||95.0|1.065|1.221|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline endurance time and period as fixed and patient as random effect. Means, CI back-transformed.|Olo 5 mcg divided by Placebo|||1.221|1.065|0.0002
92453660|NCT01040130|184795213|SUPERIORITY_OR_OTHER||Ratio to placebo|1.138|STANDARD_ERROR_OF_MEAN|0.04||0.0003||95.0|1.062|1.219|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline endurance time and period as fixed and patient as random effect. Means, CI back-transformed.|Olo 10 mcg divided by Placebo|||1.219|1.062|0.0003
92173486|NCT03675282|184238187|SUPERIORITY||Mean Difference (Final Values)|-0.381||||0.03|TWO_SIDED||||||paired t-test|||Healthy Controls UPDRS Part IV (Baseline vs. 24 months)||||0.03
92453661|NCT01040130|184795214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.112|0.252|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.252|0.112|<0.0001
92453662|NCT01040130|184795214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.104|0.245|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.245|0.104|<0.0001
92453663|NCT01040130|184795215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.766|STANDARD_ERROR_OF_MEAN|0.223||0.0007||95.0|-1.205|-0.326|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||-0.326|-1.205|0.0007
92453664|NCT01040130|184795215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.634|STANDARD_ERROR_OF_MEAN|0.225||0.0051||95.0|-1.077|-0.192|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||-0.192|-1.077|0.0051
92453665|NCT01040130|184795216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.258|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.191|0.325|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.325|0.191|<0.0001
92173487|NCT03675282|184238188|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.3|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 1 (Baseline vs. 24 months)||||0.30
92173488|NCT03675282|184238188|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.94|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 (Baseline vs. 24 months)||||0.94
92173489|NCT03675282|184238188|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.45|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder (Baseline vs. 24 months)||||0.45
92241925|NCT01856595|184387089|SUPERIORITY_OR_OTHER||Ratio|0.77|STANDARD_ERROR_OF_MEAN|1.065|<|0.0001|TWO_SIDED|90.0|0.69|0.85||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.85|0.69|<0.0001
92241926|NCT01856595|184387090|SUPERIORITY_OR_OTHER||Ratio|0.98|STANDARD_ERROR_OF_MEAN|1.075||0.7804|TWO_SIDED|90.0|0.87|1.1||Two-sided p-values are from analysis of ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.10|0.87|0.7804
92453666|NCT01040130|184795216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.294|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.226|0.362|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.362|0.226|<0.0001
92287206|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.001||||0.973|TWO_SIDED|95.0|-0.064|0.066|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.066|-0.064|0.973
92453667|NCT01040130|184795217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.107|0.252|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.252|0.107|<0.0001
92453668|NCT01040130|184795217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.037||0.0003||95.0|0.064|0.21|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.210|0.064|0.0003
92173490|NCT03675282|184238188|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.8|TWO_SIDED||||||paired t-test|||Healthy Controls (Baseline vs. 24 months)||||0.80
92241927|NCT01856595|184387090|SUPERIORITY_OR_OTHER||Ratio|0.88|STANDARD_ERROR_OF_MEAN|1.068||0.0908|TWO_SIDED|90.0|0.77|1.0||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.00|0.77|0.0908
92241928|NCT01856595|184387091|SUPERIORITY_OR_OTHER||Ratio|0.77|STANDARD_ERROR_OF_MEAN|1.083||0.0027|TWO_SIDED|90.0|0.68|0.88||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.88|0.68|0.0027
92241929|NCT01856595|184387091|SUPERIORITY_OR_OTHER||Ratio|0.88|STANDARD_ERROR_OF_MEAN|1.079||0.0908|TWO_SIDED|90.0|0.77|1.0||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.00|0.77|0.0908
92241930|NCT01856595|184387095|SUPERIORITY_OR_OTHER||Ratio|0.98|STANDARD_ERROR_OF_MEAN|1.123||0.8723|TWO_SIDED|90.0|0.81|1.19||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.19|0.81|0.8723
92453669|NCT01040130|184795218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.103|STANDARD_ERROR_OF_MEAN|0.051||0.0447||95.0|-0.204|-0.002|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||-0.002|-0.204|0.0447
92453670|NCT01040130|184795218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.064|STANDARD_ERROR_OF_MEAN|0.052||0.2132||95.0|-0.166|0.037|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.037|-0.166|0.2132
92453671|NCT01040130|184795219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.088|STANDARD_ERROR_OF_MEAN|0.154||0.5698||95.0|-0.391|0.216|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.216|-0.391|0.5698
92453672|NCT01040130|184795219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.256|STANDARD_ERROR_OF_MEAN|0.155||0.1003||95.0|-0.05|0.561|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.561|-0.050|0.1003
92453673|NCT01040130|184795220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.122|STANDARD_ERROR_OF_MEAN|0.069||0.0784||95.0|-0.258|0.014|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.014|-0.258|0.0784
92453674|NCT01040130|184795220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.115|STANDARD_ERROR_OF_MEAN|0.07||0.1013||95.0|-0.252|0.023|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.023|-0.252|0.1013
92453675|NCT01040130|184795221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.066||0.0015||95.0|-0.339|-0.081|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||-0.081|-0.339|0.0015
92453676|NCT01040130|184795221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.373|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001||95.0|-0.503|-0.243|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||-0.243|-0.503|<0.0001
92453677|NCT01040130|184795222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.034||0.0005||95.0|0.052|0.185|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.185|0.052|0.0005
92287207|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.064|TWO_SIDED|95.0|-0.003|0.122|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.122|-0.003|0.064
92453678|NCT01040130|184795222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.034||0.0073||95.0|0.025|0.159|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.159|0.025|0.0073
92453679|NCT01040130|184795223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.136|0.275|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.275|0.136|<0.0001
92453680|NCT01040130|184795223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.216|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.146|0.285|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.285|0.146|<0.0001
92453681|NCT01040130|184795224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.062||0.9239||95.0|-0.115|0.127|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.127|-0.115|0.9239
92173491|NCT03232138|184238189|EQUIVALENCE|2-sided P-value in the analysis|Mean Difference (Final Values)|0.22||||0.452|TWO_SIDED|95.0|0.03|0.41||Hypothesis: sulforaphane treatment slows or reverse the progression of lung histological lesions or lower the dysplasia score.|ANCOVA|ANCOVA model includes baseline average endobronchial histopathological scores,age,sex,cigarettes per day,years of smoking, years since quit smoking.||Derived from ANCOVA model with adjustment for baseline average endobronchial histopathological scores, age, sex, cigarettes per day, years of smoking, and years since quit smoking.||0.41|0.03|0.452
92287208|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.774|TWO_SIDED|95.0|-0.079|0.059|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.059|-0.079|0.774
92182936|NCT02434328|184264730|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-3.2|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||2.5|-3.2|
92453682|NCT01040130|184795224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.062||0.7368||95.0|-0.144|0.102|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.102|-0.144|0.7368
92453683|NCT01040130|184795225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.067||0.8302||95.0|-0.146|0.118|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.118|-0.146|0.8302
92453684|NCT01040130|184795225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.159|STANDARD_ERROR_OF_MEAN|0.068||0.0202||95.0|-0.292|-0.025|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||-0.025|-0.292|0.0202
92453685|NCT01040130|184795226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.056|0.123|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.123|0.056|<0.0001
92453686|NCT01040130|184795226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.068|0.134|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.134|0.068|<0.0001
92453687|NCT01040130|184795227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.224|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.191|0.258|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.258|0.191|<0.0001
92453688|NCT01040130|184795227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.193|0.259|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.259|0.193|<0.0001
92453689|NCT01040130|184795228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.031||0.0006||95.0|0.046|0.167|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.167|0.046|0.0006
92453690|NCT01040130|184795228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.031||0.0017||95.0|0.037|0.158|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.158|0.037|0.0017
92453691|NCT01040130|184795229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.285|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.227|0.342|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.342|0.227|<0.0001
92453692|NCT01040130|184795229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.233|0.348|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.348|0.233|<0.0001
92453693|NCT01040130|184795230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.318|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|0.207|0.429|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.429|0.207|<0.0001
92453694|NCT01040130|184795230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.303|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|0.192|0.414|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.414|0.192|<0.0001
92453695|NCT01040130|184795231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.585|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.47|0.701|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.701|0.470|<0.0001
92453696|NCT01040130|184795231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.618|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001||95.0|0.502|0.734|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.734|0.502|<0.0001
92453697|NCT00553267|184795253|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.76|STANDARD_ERROR_OF_MEAN|0.52|<|0.0001||95.0|-3.77|-1.75||Doses tested against A10 in a hierarchical manner to address issues of multiplicity. T80/A10 was tested first, then T40/A10.|ANCOVA|Adjusted for baseline and country effect||"Testing that the combination treatments are superior to monotherapy A10.~The number of patients in the treatment arms ensure the tests have over 90% power."||-1.75|-3.77|<0.0001
92453698|NCT00553267|184795253|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.85|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001||95.0|-3.86|-1.84||Doses tested against A10 in a hierarchical manner to address issues of multiplicity. T80/A10 was tested first, then T40/A10.|ANCOVA|Adjusted for baseline and country effect||"Testing that the combination treatments are superior to monotherapy A10.~The number of patients in the treatment arms ensure the tests have over 90% power."||-1.84|-3.86|<0.0001
92453699|NCT00553267|184795254|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.66|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001||95.0|-5.15|-2.16|||ANCOVA|Adjusted for baseline and country effect||||-2.16|-5.15|<0.0001
92453700|NCT00553267|184795254|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.85|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001||95.0|-5.35|-2.36|||ANCOVA|Adjusted for baseline and country effect||||-2.36|-5.35|<0.0001
92453701|NCT00553267|184795255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.002|TWO_SIDED|95.0|1.21|2.32|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.32|1.21|0.002
92453702|NCT00553267|184795255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91|||<|0.001||95.0|1.37|2.65|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.65|1.37|<0.001
92453703|NCT00553267|184795256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.35||||0.004||95.0|1.3|4.25|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||4.25|1.30|0.004
92453704|NCT00553267|184795256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.33||||0.004||95.0|1.29|4.22|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||4.22|1.29|0.004
92173492|NCT03232138|184238189|EQUIVALENCE|2-sided P-value in the analysis|Mean Difference (Final Values)|0.12||||0.452|TWO_SIDED|95.0|-0.04|0.28||Hypothesis: sulforaphane treatment slows or reverse the progression of lung histological lesions or lower the dysplasia score.|ANCOVA|ANCOVA model includes baseline average endobronchial histopathological scores,age,sex,cigarettes per day,years of smoking, years since quit smoking||Derived from ANCOVA model with adjustment for baseline average endobronchial histopathological scores, age, sex, cigarettes per day, years of smoking, and years since quit smoking.||0.28|-0.04|0.452
92173493|NCT03232138|184238190|EQUIVALENCE|2-sided P-value in the analysis||||||0.738||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|||All positive nuclei. Mean (95%CI) changes in baseline.||||0.738
92173494|NCT03232138|184238190|EQUIVALENCE|2-sided P-value in the analysis||||||0.78||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|||Weak-intensity positive nuclei. Mean (95%CI) baseline.||||0.780
92173495|NCT03232138|184238190|EQUIVALENCE|2-sided P-value in the analysis||||||0.733||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|||Moderate intensity positive nuclei. Mean (95%CI) changes in baseline.||||0.733
92173496|NCT03232138|184238190|EQUIVALENCE|2-sided P-value in the analysis||||||0.751||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|||Strong-Intensity positive nuclei. Mean (95%CI) changes in baseline.||||0.751
92173497|NCT03232138|184238190|EQUIVALENCE|2-sided P-value in the analysis||||||0.014||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of Ki-67 positive nuclei||All positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.014
92453705|NCT00553267|184795257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.002||95.0|1.21|2.34|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.34|1.21|0.002
92173498|NCT03232138|184238190|EQUIVALENCE|2-sided P-value in the analysis||||||0.056|||||||Covariance|Analysis of Covariance adjustment age, sex, cigarettes/day, years of smoking, years of quit smoking,baseline values of the same cellular biomarker||Week intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.056
92173499|NCT03232138|184238190|EQUIVALENCE|2-sided P-value in the analysis||||||0.028|||||||Analysis of Covariance|Analysis of Covariance adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking,baseline values of the same cellular biomarker||Moderate Intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.028
92173500|NCT03232138|184238190|EQUIVALENCE|2-sided P-value in the analysis||||||0.004|||||||Analysis of Covariance|Analysis of Covariance adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking,baseline values of the same cellular biomarker||Strong intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.004
92182937|NCT02434328|184264730|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-2.3|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||3.3|-2.3|
92287209|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.151|TWO_SIDED|95.0|-0.018|0.113|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.113|-0.018|0.151
92453706|NCT00553267|184795257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92|||<|0.001||95.0|1.38|2.68|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.68|1.38|<0.001
92453707|NCT00553267|184795258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.027||95.0|1.04|2.0|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.00|1.04|0.027
92453708|NCT00553267|184795258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.008||95.0|1.12|2.15|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.15|1.12|0.008
92241931|NCT01856595|184387095|SUPERIORITY_OR_OTHER||Ratio|0.93|STANDARD_ERROR_OF_MEAN|1.124||0.5158|TWO_SIDED|90.0|0.76|1.13||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.13|0.76|0.5158
92241932|NCT01856595|184387095|SUPERIORITY_OR_OTHER||Ratio|0.83|STANDARD_ERROR_OF_MEAN|1.126||0.1258|TWO_SIDED|90.0|0.68|1.01||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.01|0.68|0.1258
92241933|NCT01856595|184387095|SUPERIORITY_OR_OTHER||Ratio|0.89|STANDARD_ERROR_OF_MEAN|1.115||0.2883|TWO_SIDED|90.0|0.74|1.07||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.07|0.74|0.2883
92241934|NCT01856595|184387095|SUPERIORITY_OR_OTHER||Ratio|0.98|STANDARD_ERROR_OF_MEAN|1.12||0.8437|TWO_SIDED|90.0|0.81|1.18||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.18|0.81|0.8437
92241935|NCT01856595|184387096|SUPERIORITY_OR_OTHER||Ratio|1.12|STANDARD_ERROR_OF_MEAN|1.154||0.4405|TWO_SIDED|90.0|0.88|1.42||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.42|0.88|0.4405
92241936|NCT01856595|184387096|SUPERIORITY_OR_OTHER||Ratio|1.09|STANDARD_ERROR_OF_MEAN|1.146||0.5178|TWO_SIDED|90.0|0.87|1.37||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.37|0.87|0.5178
92241937|NCT01856595|184387097|SUPERIORITY_OR_OTHER||Ratio|0.69|STANDARD_ERROR_OF_MEAN|1.181||0.034|TWO_SIDED|90.0|0.52|0.92||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.92|0.52|0.0340
92241938|NCT01856595|184387097|SUPERIORITY_OR_OTHER||Ratio|1.2|STANDARD_ERROR_OF_MEAN|1.173||0.2519|TWO_SIDED|90.0|0.92|1.58||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.58|0.92|0.2519
92241939|NCT01856595|184387098|SUPERIORITY_OR_OTHER||Ratio|1.06|STANDARD_ERROR_OF_MEAN|1.079||0.4579|TWO_SIDED|90.0|0.93|1.2||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.20|0.93|0.4579
92287210|NCT03086460|184479325|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.076|TWO_SIDED|95.0|-0.006|0.122|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.122|-0.006|0.076
92241940|NCT01856595|184387098|SUPERIORITY_OR_OTHER||Ratio|0.98|STANDARD_ERROR_OF_MEAN|1.079||0.8144|TWO_SIDED|90.0|0.87|1.11||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.11|0.87|0.8144
92453709|NCT00553267|184795259|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.006||95.0|1.14|2.21|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.21|1.14|0.006
92453710|NCT00553267|184795259|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.002||95.0|1.2|2.32|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.32|1.20|0.002
92453711|NCT00553267|184795260|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Wilcoxon rank sum test|Stratified (for country) Wilcoxon rank sum test||||||0.006
92453712|NCT00553267|184795260|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon rank sum test|Stratified (for country) Wilcoxon rank sum test||||||<0.001
92453713|NCT00762320|184795283|SUPERIORITY_OR_OTHER||||||=|0.004|||||||t-test, 2 sided|df=4||||||=.004
92453714|NCT00762320|184795288|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|df=7||||||<.001
92453715|NCT01660763|184795350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|87.59|STANDARD_ERROR_OF_MEAN|10.88|<|0.001|TWO_SIDED|95.0|66.2|108.98|||ANCOVA|||||108.98|66.20|<0.001
92453716|NCT00952653|184795362|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|71.4|||||TWO_SIDED|90.0|65.08|78.33|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference). Based on the sample size, this study has at least 85% power overall to demonstrate the lack of an interaction \[that is, equivalence in both AUCinf and Cmax and both midazolam and 1-hydroxy midazolam\], where overall study power is to be based on the product of the individual powers of the parameters of interest.||78.33|65.08|
92453717|NCT00952653|184795363|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|86.08|||||TWO_SIDED|90.0|79.04|93.74|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference). Based on the sample size, this study has at least 85% power overall to demonstrate the lack of an interaction \[that is, equivalence in both AUCinf and Cmax and both midazolam and 1-hydroxy midazolam\], where overall study power is to be based on the product of the individual powers of the parameters of interest.||93.74|79.04|
92453718|NCT00952653|184795364|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|92.55|||||TWO_SIDED|90.0|87.43|97.97|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference). Based on the sample size, this study has at least 85% power overall to demonstrate the lack of an interaction \[that is, equivalence in both AUCinf and Cmax and both midazolam and 1-hydroxy midazolam\], where overall study power is to be based on the product of the individual powers of the parameters of interest.||97.97|87.43|
92453719|NCT00952653|184795365|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|101.17|||||TWO_SIDED|90.0|92.96|110.11|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference). Based on the sample size, this study has at least 85% power overall to demonstrate the lack of an interaction \[that is, equivalence in both AUCinf and Cmax and both midazolam and 1-hydroxy midazolam\], where overall study power is to be based on the product of the individual powers of the parameters of interest.||110.11|92.96|
92453720|NCT00952653|184795366|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|72.1|||||TWO_SIDED|90.0|66.04|78.72|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference)||78.72|66.04|
92453721|NCT00952653|184795369|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|87.39|||||TWO_SIDED|90.0|80.42|94.96|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference)||94.96|80.42|
92453722|NCT03980470|184795373|SUPERIORITY|||||||0.198|||||||ANOVA|||||||0.198
92453723|NCT03980470|184795374|SUPERIORITY|||||||0.9|||||||ANOVA|||||||0.9
92453724|NCT03980470|184795375|SUPERIORITY|||||||0.8|||||||ANOVA|||||||0.8
92453725|NCT03980470|184795376|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92453726|NCT03980470|184795377|OTHER|Bland-Altmann analysis (bias)|Mean Difference (Final Values)|-1.42|||||TWO_SIDED|||||||||||||
92453727|NCT01365494|184795380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be achieved if the lower limit of the two-sided 95% CI of the post vaccination (day 14) ratio of GMCs between the groups (GMCGroup Zagreb / GMCGroup Essen) was greater than 0.667|Ratio of GMCs-Zagreb and Essen at day 14|1.03|||||TWO_SIDED|95.0|0.89|1.19|||ANOVA|||To demonstrate non-inferiority in immune response of the Zagreb postexposure schedule of Rabipur to that of the conventional Essen postexposure schedule at study day 14||1.19|0.89|
92453728|NCT01365494|184795382|SUPERIORITY_OR_OTHER||Ratio of GMCs-Zagreb and Essen at day 7|0.38|||||TWO_SIDED|95.0|0.3|0.48|||ANOVA|||||0.48|0.3|
92453729|NCT01365494|184795382|SUPERIORITY_OR_OTHER||Ratio of GMCs-Zagreb and Essen at day 42|0.96||||||95.0|0.86|1.07|||ANOVA|||||1.07|0.86|
92453730|NCT03021187|184795384|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.3||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 3mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment, strata, interaction strata and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.3|-0.7|< 0.0001
92453731|NCT03021187|184795384|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 7 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, interaction strata and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.7|-1.1|< 0.0001
92453732|NCT03021187|184795384|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.4|-1.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, interaction strata and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.0|-1.4|< 0.0001
92453733|NCT03021187|184795384|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 3 mg - Placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and interaction strata as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.4|-0.7|<0.0001
92453734|NCT03021187|184795384|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 7 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and the interaction strata as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.8|-1.2|<0.0001
92453735|NCT03021187|184795384|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.2||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and the interaction strata as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.2|-1.6|<0.0001
92453736|NCT03021187|184795385|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.9||||0.0392|TWO_SIDED|95.0|-1.8|0.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 3 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, interaction strata and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.0|-1.8|0.0392
92173501|NCT03232138|184238191|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) at baseline for positive cells. TUNEL positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.377||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies compared with the place|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||All positive nuclei. Mean (95%CI) baseline.||||0.377
92241941|NCT01856595|184387098|SUPERIORITY_OR_OTHER||Ratio|0.93|STANDARD_ERROR_OF_MEAN|1.082||0.3425|TWO_SIDED|90.0|0.81|1.06||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.06|0.81|0.3425
92241942|NCT01856595|184387098|SUPERIORITY_OR_OTHER||Ratio|1.0|STANDARD_ERROR_OF_MEAN|1.076||0.967|TWO_SIDED|90.0|0.88|1.13||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.13|0.88|0.9670
92241943|NCT01856595|184387098|SUPERIORITY_OR_OTHER||Ratio|1.08|STANDARD_ERROR_OF_MEAN|1.079||0.319|TWO_SIDED|90.0|0.95|1.23||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.23|0.95|0.3190
92241944|NCT01856595|184387099|SUPERIORITY_OR_OTHER||Ratio|1.14|STANDARD_ERROR_OF_MEAN|1.095||0.1617|TWO_SIDED|90.0|0.98|1.32||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.32|0.98|0.1617
92173502|NCT03232138|184238191|EQUIVALENCE|2-sided P-value in the analysis||||||0.413||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|||Weak-intensity positive nuclei. Mean (95%CI) baseline.||||0.413
92241945|NCT01856595|184387099|SUPERIORITY_OR_OTHER||Ratio|1.08|STANDARD_ERROR_OF_MEAN|1.084||0.3703|TWO_SIDED|90.0|0.94|1.23||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.23|0.94|0.3703
92241946|NCT01856595|184387100|SUPERIORITY_OR_OTHER||Ratio|0.95|STANDARD_ERROR_OF_MEAN|1.119||0.6833|TWO_SIDED|90.0|0.79|1.15||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.15|0.79|0.6833
92241947|NCT01856595|184387100|SUPERIORITY_OR_OTHER||Ratio|1.18|STANDARD_ERROR_OF_MEAN|1.112||0.1318|TWO_SIDED|90.0|0.98|1.41||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.41|0.98|0.1318
92287211|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.114||||0.003|TWO_SIDED|95.0|0.039|0.19|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.190|0.039|0.003
92241948|NCT00458406|184387107|SUPERIORITY_OR_OTHER_LEGACY|||||||0.512||95.0|||||t-test, 2 sided|||"We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP.~Description of power calculation: The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% confidence interval (CI) for the difference between the 2 means had a range of 1.282 standard deviation (SD)."||||0.512
92241949|NCT00458406|184387108|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||t-test, 2 sided|||"Two-sided t-test. We hypothesized that Bi-Flex would result in improved adherence but similar effi cacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||>0.05
92241950|NCT00458406|184387109|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||t-test, 2 sided|||"Two-sided t-test. We hypothesized that Bi-Flex would result in improved adherence but similar effi cacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||>0.05
92241951|NCT00458406|184387110|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Chi-squared|||"Chi-Square test. We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||>0.05
92241952|NCT00458406|184387111|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Mann-Whitney test. We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP. The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD.||||>0.05
92241953|NCT00458406|184387111|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||t-test, 2 sided|||"Two-sided t-test. We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||<0.05
92453737|NCT03021187|184795385|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-2.0||||0.0001|TWO_SIDED|95.0|-3.0|-1.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 7 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, interaction strata and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.0|-3.0|0.0001
92453738|NCT03021187|184795385|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-3.3|||<|0.0001|TWO_SIDED|95.0|-4.2|-2.3||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, interaction strata and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-2.3|-4.2|<0.0001
92453739|NCT03021187|184795385|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.9||||0.0111|TWO_SIDED|95.0|-1.6|-0.2||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 3 mg - Placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and interaction strata as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.2|-1.6|0.0111
92241954|NCT00458406|184387113|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||"Mann-Whitney test. We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||>0.05
92241955|NCT00458406|184387114|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||"Mann-Whitney test. We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||>0.05
92241956|NCT04716933|184387136|OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.48|0.97||||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate||0.97|0.48|
92241957|NCT04716933|184387137|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.54|1.12||||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate||1.12|0.54|
92241958|NCT04716933|184387138|OTHER||Percent Difference|11.3|||||TWO_SIDED|95.0|-2.0|24.2||||||Comparision based on unstratified Miettinen \& Nurminen method||24.2|-2.0|
92453740|NCT03021187|184795385|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.8||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 7 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and the interaction strata as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.8|-3.2|<0.0001
92241959|NCT01071044|184387161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||ANOVA|These data were initially analyzed with a one-way ANOVA.||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||.005
92241960|NCT01071044|184387162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|TWO_SIDED|95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.008
92241961|NCT01071044|184387163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.183||95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.183
92241962|NCT01071044|184387164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.046
92241963|NCT01071044|184387165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.219||95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.219
92241964|NCT01071044|184387166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038||95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.038
92453741|NCT03021187|184795385|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-3.7|||<|0.0001|TWO_SIDED|95.0|-4.4|-3.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and the interaction strata as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-3.0|-4.4|<0.0001
92453742|NCT03021187|184795405|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.73||||0.0627|TWO_SIDED|95.0|0.53|1.02||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.02|0.53|0.0627
92453743|NCT03021187|184795405|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.63||||0.0083|TWO_SIDED|95.0|0.44|0.89||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.89|0.44|0.0083
92453744|NCT03021187|184795405|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.57||||0.0019|TWO_SIDED|95.0|0.4|0.81||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.81|0.40|0.0019
92453745|NCT03021187|184795406|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.75||||0.121|TWO_SIDED|95.0|0.53|1.08||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.08|0.53|0.1210
92453746|NCT03021187|184795406|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.48||||0.0007|TWO_SIDED|95.0|0.32|0.74||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.74|0.32|0.0007
92453747|NCT03021187|184795406|SUPERIORITY||Hazard Ratio (HR)|0.48||||0.0006|TWO_SIDED|95.0|0.31|0.73||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.73|0.31|0.0006
92453748|NCT03351049|184795421|SUPERIORITY|||||||0.8|||||||Chi-squared|||Compare the effectiveness of reactive support surfaces with and without low air loss in preventing pressure injuries||||0.8
92453749|NCT00718718|184795422|SUPERIORITY_OR_OTHER|||||||0.026|||||||Cochran-Mantel-Haenszel|||||||0.026
92453750|NCT00718718|184795422|SUPERIORITY_OR_OTHER|||||||0.052|||||||Cochran-Mantel-Haenszel|||||||0.052
92453751|NCT00718718|184795422|SUPERIORITY_OR_OTHER|||||||0.026|||||||Cochran-Mantel-Haenszel|||||||0.026
92453752|NCT00718718|184795422|SUPERIORITY_OR_OTHER|||||||0.104|||||||Cochran-Mantel-Haenszel|||||||0.104
92453753|NCT00718718|184795423|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Van Der Waerden ANOVA|||||||< 0.001
92453754|NCT00718718|184795423|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Van Der Waerden ANOVA|||||||< 0.001
92453755|NCT00718718|184795423|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Van Der Waerden ANOVA|||||||< 0.001
92453756|NCT00718718|184795423|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Van Der Waerden ANOVA|||||||< 0.001
92453757|NCT00718718|184795423|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Van Der Waerden ANOVA|||||||< 0.001
92453758|NCT00718718|184795424|SUPERIORITY_OR_OTHER|||||||0.148|||||||Cochran-Mantel-Haenszel|||||||0.148
92453759|NCT02939105|184795429|OTHER||success proportion|86.7|||||TWO_SIDED|95.0|69.3|96.2||||||||96.2|69.3|
92453760|NCT01802411|184795433|SUPERIORITY||LSMD|13.1||||0.5598|TWO_SIDED|95.0|-31.0|57.0|||ANCOVA|||||57|-31|0.5598
92453761|NCT01812044|184795437|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|P-value based on Wilcoxon rank sum test of difference in medians between groups.||||||0.035
92453762|NCT01812044|184795437|SUPERIORITY_OR_OTHER|||||||0.189|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|P-value based on Wilcoxon rank sum test of difference in medians between groups.||||||0.189
92453763|NCT01812044|184795437|SUPERIORITY_OR_OTHER|||||||0.298|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|P-value based on Wilcoxon rank sum test of difference in medians between groups.||||||0.298
92453764|NCT02670629|184795462|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED||||||Chi-squared|||||||0.003
92241965|NCT01071044|184387167|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.022
92241966|NCT02913222|184387191|OTHER|||||||1||||||The threshold for statistical significance was set at p = 0.05.|Fisher Exact|||A priori criteria for success was that we would achieve 90% adherence to attending treatment sessions. Fisher's exact test compared patient adherence to treatment session rates by site and by group.||||1.0
92287212|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.13|||<|0.001|TWO_SIDED|95.0|0.055|0.206|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.206|0.055|<0.001
92453765|NCT01165281|184795474|NON_INFERIORITY_OR_EQUIVALENCE|In order to demonstrate that the upper limit of the confidence interval of intergroup differences in change from baseline is not higher than the noninferiority margin of 1 with a 1-tailed significance level of 0.025 and 90% power, the sample size was calculated to be 133 patients in each group for a total of 266 patients. Assuming approximately 20% of patients would be excluded from the analyses, the target sample size was 330 patients.|Least-Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.226||0.786|TWO_SIDED|95.0|-0.506|0.383|||ANCOVA|Analysis of covariance (ANCOVA) model was used with treatment and country as factors and baseline pain intensity score as a covariate.||The primary hypothesis to be tested for the study was that the JNS024 ER group was not inferior to oxycodone CR as defined by the upper limit of the 95% confidence interval of the difference between JNS024 ER and oxycodone CR on the mean change from baseline of the NRS pain intensity score during the last 3 days of study drug administration. It was to be concluded that JNS024 ER is not inferior to oxycodone CR if the upper 95% confidence limit is less than 1 point.||0.383|-0.506|0.786
92453766|NCT00364858|184795533|SUPERIORITY_OR_OTHER||Agresti and Min|-0.176||||||95.0|-0.357|0.058||||||Difference in proportion of Clinical Success = (Proportion of participants with Clinical Success Q4 - Proportion of participants with Clinical Success Q2).||0.058|-0.357|
92453767|NCT02099006|184795608|SUPERIORITY_OR_OTHER|||||||0.3|||||||t-test, 2 sided|Paired T test||Null hypothesis - that the improvement in daily genital pain would be no different with the daily application of loperamide than with the daily application of a placebo cream.||||0.30
92453768|NCT02099006|184795608|SUPERIORITY_OR_OTHER|||||||0.33|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in daily genital pain would be no different with the daily application of ketamine than with the daily application of a placebo cream.||||0.33
92453769|NCT02099006|184795608|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|paired||Null hypothesis - that the improvement in daily genital pain would be no different with the daily application of gabapentin than with the daily application of a placebo cream.||||0.65
92453770|NCT02099006|184795608|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in daily genital pain would be no different with the daily application of amitriptyline and baclofen than with the daily application of a placebo cream.||||0.25
92453771|NCT02099006|184795608|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in daily genital pain would be no different with the daily application of ketoprofen than with the daily application of a placebo cream.||||1.0
92453772|NCT02099006|184795609|SUPERIORITY_OR_OTHER|||||||0.31|||||||t-test, 2 sided|paired||Null hypothesis - that the improvement in tampon test pain would be no different with the daily application of loperamide cream than with the daily application of a placebo cream.||||0.31
92453773|NCT02099006|184795609|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in tampon test pain would be no different with the daily application of ketamine cream than with the daily application of a placebo cream.||||1
92173503|NCT03232138|184238191|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) at baseline Moderate-intensity positive nuclei. TUNEL positive (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.338||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies compared with the place|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||Moderate Intensity positive nuclei. Mean (95%CI) at baseline.||||0.338
92241967|NCT02913222|184387192|OTHER|The purpose of this study was to determine preliminary estimates of the effect of movement pattern training and standard rehabilitation on patient-reported function.|Mean Difference (Final Values)|-2.2||||0.32|TWO_SIDED|95.0|-6.51|2.11||The threshold for statistical significance was p = 0.05|ANCOVA|||We hypothesized MPT would demonstrate greater improvement in HOOS compared to Standard. Data collected at pretest and posttest were analyzed with ANCOVA where posttest was the dependent variable, pretest was the covariate, and treatment group was the independent variable which tests the null hypothesis that after adjusting for pretest, posttest is not significantly different across treatment groups.||2.11|-6.51|0.32
92287213|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.137|||<|0.001|TWO_SIDED|95.0|0.061|0.213|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.213|0.061|<0.001
92453774|NCT02099006|184795609|SUPERIORITY_OR_OTHER|||||||0.66|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in tampon test pain would be no different with the daily application of gabapentin cream than with the daily application of a placebo cream.||||0.66
92453775|NCT02099006|184795609|SUPERIORITY_OR_OTHER|||||||0.42|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in tampon test pain would be no different with the daily application of ketoprofen cream than with the daily application of a placebo cream.||||0.42
92453776|NCT02099006|184795609|SUPERIORITY_OR_OTHER|||||||0.79|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in tampon test pain would be no different with the daily application of amitriptyline/baclofen cream than with the daily application of a placebo cream.||||0.79
92453777|NCT05932290|184795655|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.37|0.71|||Regression, Cox||Hazard ratios (HRs) were estimated using unadjusted Cox proportional hazard models.|||0.71|0.37|<.0001
92453778|NCT05932290|184795656|SUPERIORITY||Hazard Ratio (HR)|0.37||||0.0003|TWO_SIDED|95.0|0.22|0.64|||Regression, Cox||IPTW HRs were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances.|||0.64|0.22|.0003
92453779|NCT05932290|184795659|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0062|TWO_SIDED|95.0|0.47|0.88|||Regression, Cox||HRs were estimated using unadjusted Cox proportional hazard models.|||0.88|0.47|.0062
92453780|NCT05932290|184795660|SUPERIORITY||Hazard Ratio (HR)|0.46||||0.0032|TWO_SIDED|95.0|0.27|0.77|||Regression, Cox|IPTW HRs were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances.||||0.77|0.27|.0032
92453781|NCT01461668|184795798|SUPERIORITY||Odds Ratio (OR)|0.41||||0.32|TWO_SIDED|95.0|0.08|1.86|||Fisher Exact||Confidence interval for the odds ratio is based upon the inversion Fisher's exact test|||1.86|0.08|0.320
92453782|NCT01760239|184795824|SUPERIORITY||Odds Ratio (OR)|4.51|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<.001
92453783|NCT01760239|184795825|SUPERIORITY||Odds Ratio (OR)|2.36||||0.046|TWO_SIDED||||||Mixed Models Analysis|||||||.046
92453784|NCT01760239|184795826|SUPERIORITY||Odds Ratio (OR)|5.13||||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||.001
92453785|NCT01983293|184795827|SUPERIORITY|||||||0.001|ONE_SIDED|95.0|||||Fisher Exact|||||||0.001
92453786|NCT03147248|184795829|NON_INFERIORITY|The non-inferiority was to be concluded if the lower limit of the two-sided 95% confidence interval (CI) for the difference in the mean change from baseline of DAS28 (CRP) at Week 22 was greater that the pre-specified non-inferiority margin of -0.6.|Difference of Least square mean|0.27|||||TWO_SIDED|95.0|0.02|0.52|||||The least squares means and standard errors, estimate of treatment difference (CT-P13 SC 120 mg - CT-P13 IV 3 mg/kg), and 2-sided 95% CI obtained from the ANCOVA model.|Primary efficacy analysis were analyzed using an ANCOVA considering the treatment as fixed effect and country, serum CRP concentration at Week 2 (≤0.6 mg/dL vs. \>0.6 mg/dL), and body weight at Week 6 (≤100 kg vs. \>100 kg) as covariates.||0.52|0.02|
92453787|NCT03750552|184795834|SUPERIORITY||Least Squares Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.413||0.574|TWO_SIDED|95.0|-1.05|0.58|||Mixed Model Repeated Measures|||||0.58|-1.05|0.574
92453788|NCT03750552|184795835|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.284||0.331|TWO_SIDED|95.0|-0.84|0.28|||Mixed Model Repeated Measures|||||0.28|-0.84|0.331
92453789|NCT03750552|184795836|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.376||0.481|TWO_SIDED|95.0|-1.01|0.48|||Mixed Model Repeated Measures|||||0.48|-1.01|0.481
92453790|NCT03750552|184795837|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.073||0.74|TWO_SIDED|95.0|-0.12|0.17|||Cochran-Mantel-Haenszel|Stratified by disease type|The assumed common risk difference estimate and standard error are calculated using Mantel-Haenszel stratum weights and the Sato variance estimator. Mantel-Haenszel confidence limits are shown.|||0.17|-0.12|0.740
92453791|NCT03750552|184795838|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.064||0.0903|TWO_SIDED|95.0|-0.02|0.24|||Cochran-Mantel-Haenszel|Stratified by disease type|The assumed common risk difference estimate and standard error are calculated using Mantel-Haenszel stratum weights and the Sato variance estimator. Mantel-Haenszel confidence limits are shown.|||0.24|-0.02|0.0903
92453792|NCT00581230|184795851|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||Wilcoxon signed rank test|||||||0.0003
92453793|NCT00581230|184795852|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon signed rank test|||||||0.0001
92453794|NCT02008890|184795866|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5722|TWO_SIDED|95.0|0.5|3.53|||Regression, Logistic|with factors treatment, country, body weight at baseline visit (\> 90 kg or \>= 90kg) and presence of plaque-type psoriasis||||3.53|0.50|0.5722
92281158|NCT00865709|184465540|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.884||||0.2309|TWO_SIDED|95.0|0.635|1.231||1-sided p-value from stratified log-rank test, stratified by factors of # metastatic sites and liver metastasis determined by Principal Investigator|Log Rank||The relative risk (sorafenib to placebo) was estimated by the hazard ratio from stratified Cox regression with a 95% confidence interval.|A sample size of 120 PFS events would provide a \> 85% power at a target HR = 0.65 between sorafenib and matching placebo, with a 1-sided alpha = 0.10, for testing the null hypothesis H0: HR ≥ 1 versus the alternative hypothesis H1: HR \< 1 based on the log-rank test. The test was conducted using the intent-to-treat (ITT) population, defined as all subjects who were randomized to treatment.||1.231|0.635|0.2309
92453795|NCT02008890|184795866|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0411|TWO_SIDED|95.0|1.04|6.6|||Regression, Logistic|with factors treatment, country, body weight at baseline visit (\> 90 kg or \>= 90kg) and presence of plaque-type psoriasis||||6.60|1.04|0.0411
92453796|NCT02008890|184795867|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.9431|TWO_SIDED|95.0|-4.59|3.47|||Regression, Linear|with factors treatment, country, body weight at baseline visit (\> 90 kg or \>= 90kg) and presence of plaque-type psoriasis||||3.47|-4.59|0.9431
92453797|NCT02008890|184795867|SUPERIORITY||Mean Difference (Final Values)|-3.13||||0.1576|TWO_SIDED|95.0|-7.14|0.88|||Regression, Linear|with factors treatment, country, body weight at baseline visit (\> 90 kg or \>= 90kg) and presence of plaque-type psoriasis||||0.88|-7.14|0.1576
92453798|NCT02207816|184795874|SUPERIORITY||Vaccine efficacy|74.38||||0.2235|TWO_SIDED|95.0|-130.0|97.14|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||97.14|-130|0.2235
92453799|NCT02207816|184795874|SUPERIORITY||Vaccine efficacy|-9.57||||0.8972|TWO_SIDED|95.0|-339.0|72.64|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||72.64|-339|0.8972
92453800|NCT02207816|184795874|SUPERIORITY||Vaccine efficacy|30.58||||0.5333|TWO_SIDED|95.0|-119.0|78.0|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||78.00|-119|0.5333
92453801|NCT02207816|184795874|SUPERIORITY||Vaccine efficacy|44.2||||0.3523|TWO_SIDED|95.0|-90.9|83.69|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||83.69|-90.9|0.3523
92453802|NCT02207816|184795875|SUPERIORITY||Vaccine efficacy|53.68||||0.093|TWO_SIDED|95.0|-13.7|81.13|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||81.13|-13.7|0.0930
92453803|NCT02207816|184795875|SUPERIORITY||Vaccine efficacy|23.33||||0.5035|TWO_SIDED|95.0|-67.1|64.82|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||64.82|-67.1|0.5035
92453804|NCT02207816|184795875|SUPERIORITY||Vaccine efficacy|32.08||||0.3504|TWO_SIDED|95.0|-53.1|69.87|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||69.87|-53.1|0.3504
92453805|NCT02207816|184795875|SUPERIORITY||Vaccine efficacy|37.57||||0.2704|TWO_SIDED|95.0|-44.4|73.01|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||73.01|-44.4|0.2704
92453806|NCT02207816|184795876|SUPERIORITY||Vaccine efficacy|-5.26||||0.4434|TWO_SIDED|95.0|-20.0|7.69|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||7.69|-20.0|0.4434
92453807|NCT02207816|184795876|SUPERIORITY||Vaccine efficacy|-8.1||||0.2634|TWO_SIDED|95.0|-23.9|5.7|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||5.70|-23.9|0.2634
92453808|NCT02207816|184795876|SUPERIORITY||Vaccine efficacy|0.62||||0.9278|TWO_SIDED|95.0|-13.7|13.13|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||13.13|-13.7|0.9278
92173504|NCT03232138|184238191|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) at baseline for positive cells. TUNEL positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.547||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||Strong-intensity positive nuclei. Mean (95%CI) baseline.||||0.547
92241968|NCT02913222|184387193|OTHER|The purpose of this study was to determine preliminary estimates of the effect of movement pattern training and standard rehabilitation on patient-reported function.|Mean Difference (Final Values)|-5.55||||0.14|TWO_SIDED|95.0|-13.1|1.99||The threshold for statistical significance was p = 0.05.|ANCOVA|||We hypothesized MPT would demonstrate greater improvement in HOOS compared to Standard. Data collected at pretest and posttest were analyzed with ANCOVA where posttest was the dependent variable, pretest was the covariate, and treatment group was the independent variable which tests the null hypothesis that after adjusting for pretest, posttest is not significantly different across treatment groups.||1.99|-13.10|0.14
92241969|NCT01201798|184387237|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority margin was 0.5 units, meaning that the upper limit of the two-tailed 95% confidence interval must have been less than 0.5 to establish noninferiority.|Mean Difference (Net)|-0.22|||||TWO_SIDED|95.0|-0.53|0.09|||ANCOVA|||A two-tailed 95% confidence interval was calculated for the difference in change from baseline in anterior chamber cell grade at Day 14 (difluprednate minus prednisolone). The confidence interval was derived from an analysis of covariance (ANCOVA), with investigative site included as a fixed effect to match the stratification used in the randomization process. Treatment and baseline anterior chamber cell grade were also included as fixed effects.||0.09|-0.53|
92241970|NCT04891770|184387261|OTHER||percentage difference|2.5|||||TWO_SIDED|95.0|-2.3|7.3|||||For Cohort 2A versus Cohort 2B, the percentage difference and the corresponding 95% confidence interval was calculated using the stratum-adjusted Mantel-Haenszel method, stratified by HBsAg group (\> 3 and ≤ 3 log10 IU/mL).|||7.3|-2.3|
92241971|NCT05692154|184387271|SUPERIORITY||Least Square Mean Difference|-4.24|STANDARD_ERROR_OF_MEAN|2.015||0.038|TWO_SIDED|95.0|-8.24|-0.23|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance model, with treatment group as fixed effect and baseline TNSS (H0 at Visit 4) as covariate.|||-0.23|-8.24|0.038
92241972|NCT05692154|184387272|SUPERIORITY||Least Square Mean Difference|-4.75|STANDARD_ERROR_OF_MEAN|2.088||0.025|TWO_SIDED|95.0|-8.9|-0.6|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance, with treatment group as fixed categorical effect and baseline TOSS (H0 at Visit 4) as covariate.|||-0.60|-8.90|0.025
92241973|NCT05692154|184387273|SUPERIORITY||Least Square Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|3.247||0.048|TWO_SIDED|95.0|-12.95|-0.05|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance model, with treatment group as fixed effect and baseline TNSS (H0 at Visit 4) as covariate.|||-0.05|-12.95|0.048
92241974|NCT05692154|184387274|SUPERIORITY||Least Square Mean Difference|-7.47|STANDARD_ERROR_OF_MEAN|2.89||0.011|TWO_SIDED|95.0|-13.21|-1.73|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance, with treatment group as fixed categorical effect and baseline TOSS (H0 at Visit 4) as covariate.|||-1.73|-13.21|0.011
92241975|NCT05692154|184387275|SUPERIORITY||Least Square Mean Difference|-18.45|STANDARD_ERROR_OF_MEAN|10.211||0.074|TWO_SIDED|95.0|-38.74|1.83|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance, with treatment group as fixed categorical effect and baseline TNSS (Day 1) as covariate.|||1.83|-38.74|0.074
92241976|NCT05692154|184387276|SUPERIORITY||Least Square Mean Difference|-4.06|STANDARD_ERROR_OF_MEAN|11.672||0.729|TWO_SIDED|95.0|-27.24|19.12|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance, with treatment group as fixed categorical effect and baseline TOSS (H0 at Day 1) as covariate.|||19.12|-27.24|0.729
92241977|NCT01125176|184387312|OTHER|Exact Clopper-Pearson 95% confidence interval for overall response rate.|Proportion (percent)|85.7|||||TWO_SIDED|95.0|73.5|100.0||||||||100.0|73.5|
92287214|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.151|||<|0.001|TWO_SIDED|95.0|0.078|0.223|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.223|0.078|<0.001
92453809|NCT02207816|184795876|SUPERIORITY||Vaccine efficacy|5.32||||0.4189|TWO_SIDED|95.0|-8.12|17.09|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||17.09|-8.12|0.4189
92241978|NCT01052012|184387327|SUPERIORITY||LS Mean Difference (Final Values)|-0.89|STANDARD_ERROR_OF_MEAN|0.597||0.1473|TWO_SIDED|95.0|-2.11|0.33|||ANCOVA|With pooled site and treatment group as factors and incision length as a covariate.||||0.33|-2.11|0.1473
92241979|NCT01052012|184387327|SUPERIORITY||LS Mean Difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|0.547||0.0601|TWO_SIDED|95.0|-2.16|0.05|||ANCOVA|with pooled site and treatment group as factors and incision length as a covariate.||||0.05|-2.16|0.0601
92241980|NCT01052012|184387327|SUPERIORITY||LS Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.233||0.1483|TWO_SIDED|95.0|-0.8|0.12|||ANCOVA|with pooled site and treatment group as factors and incision length as a covariate.||||0.12|-0.80|0.1483
92241981|NCT01052012|184387328|SUPERIORITY||Median Difference (Hodge-Lehmann)|-1.0||||0.9901|TWO_SIDED|95.0|-54.5|52.0|||Wilcoxon (Mann-Whitney)|||||52.0|-54.5|0.9901
92241982|NCT01052012|184387328|SUPERIORITY||Median Difference (Hodge-Lehmann)|-5.0||||0.201|TWO_SIDED|95.0|-14.0|3.4|||Wilcoxon Rank-Sum|||||3.4|-14.0|0.2010
92241983|NCT01052012|184387328|SUPERIORITY||Median Difference (Hodge-Lehmann)|-3.0||||0.5897|TWO_SIDED|95.0|-15.0|8.0|||Wilcoxon Rank-Sum|||||8.0|-15.0|0.5897
92241984|NCT00418262|184387343|SUPERIORITY||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.21|0.3|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.30|-0.21|
92241985|NCT00418262|184387343|SUPERIORITY||Mean Difference (Net)|0.11|||||TWO_SIDED|95.0|-0.42|0.6|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.60|-0.42|
92241986|NCT00418262|184387344|SUPERIORITY||Mean Difference (Net)|0.12|||||TWO_SIDED|95.0|-0.11|0.39|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.39|-0.11|
92241987|NCT00418262|184387344|SUPERIORITY||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|-0.23|0.77|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.77|-0.23|
92241988|NCT00418262|184387345|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.17|0.36|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.36|-0.17|
92241989|NCT00418262|184387345|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.17|0.36|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.36|-0.17|
92241990|NCT00418262|184387346|SUPERIORITY||Mean Difference (Net)|0.13|||||TWO_SIDED|95.0|-0.16|0.4|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.40|-0.16|
92241991|NCT00418262|184387346|SUPERIORITY||Mean Difference (Net)|0.13|||||TWO_SIDED|95.0|-0.16|0.4|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.40|-0.16|
92453810|NCT02207816|184795877|SUPERIORITY||Vaccine efficacy|50.1||||0.1302|TWO_SIDED|95.0|-32.2|82.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||82.90|-32.2|0.1302
92453811|NCT02207816|184795877|SUPERIORITY||Vaccine efficacy|16.9||||0.6897|TWO_SIDED|95.0|-96.9|65.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||65.90|-96.9|0.6897
92241992|NCT00418262|184387347|SUPERIORITY||Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.36|0.18|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.18|-0.36|
92241993|NCT00418262|184387347|SUPERIORITY||Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.36|0.18|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.18|-0.36|
92241994|NCT00418262|184387348|SUPERIORITY||Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.2|0.35|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.35|-0.20|
92281159|NCT00865709|184465542|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.829||||0.1437|TWO_SIDED|95.0|0.586|1.174||1-sided p-value from stratified log-rank test, stratified by factors of # metastatic sites and liver metastasis determined by Principal Investigator|Log Rank||The relative risk (sorafenib to placebo) was estimated by the hazard ratio from stratified Cox regression with a 95% confidence interval.|A sample size of 120 PDs would provide a \> 85% power at a target HR = 0.65 between sorafenib and matching placebo, with a 1-sided alpha = 0.10, for testing H0: HR ≥ 1 versus H1: HR \< 1 based on the log-rank test. The test was conducted using the intent-to-treat (ITT) population (all subjects who were randomized).||1.174|0.586|0.1437
92287215|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.168|||<|0.001|TWO_SIDED|95.0|0.097|0.24|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.240|0.097|<0.001
92453812|NCT02207816|184795877|SUPERIORITY||Vaccine efficacy|25.9||||0.5299|TWO_SIDED|95.0|-82.9|70.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||70.90|-82.9|0.5299
92453813|NCT02207816|184795877|SUPERIORITY||Vaccine efficacy|25.4||||0.5307|TWO_SIDED|95.0|-84.1|70.7|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||70.70|-84.1|0.5307
92182938|NCT02434328|184264730|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-1.7|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||4.6|-1.7|
92182939|NCT02434328|184264730|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-2.7|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||3.4|-2.7|
92182940|NCT02434328|184264730|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-3.9|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||2.2|-3.9|
92182941|NCT02434328|184264730|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-4.3|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||2.3|-4.3|
92182942|NCT02434328|184264730|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-2.8|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||3.9|-2.8|
92182943|NCT02434328|184264730|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-2.5|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||4.2|-2.5|
92182944|NCT02434328|184264730|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-2.7|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||4.5|-2.7|
92182945|NCT02434328|184264730|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-4.2|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||2.6|-4.2|
92182946|NCT02434328|184264730|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.5|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.5|-2.5|
92182947|NCT02434328|184264730|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-2.5|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.4|-2.5|
92182948|NCT02434328|184264730|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.4|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||4.6|-2.4|
92182949|NCT02434328|184264730|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-3.1|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.1|-3.1|
92182950|NCT02434328|184264730|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-3.5|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.6|-3.5|
92241995|NCT00418262|184387348|SUPERIORITY||Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.2|0.35|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.35|-0.20|
92241996|NCT00418262|184387349|SUPERIORITY||Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.24|0.24|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.24|-0.24|
92241997|NCT00418262|184387349|SUPERIORITY||Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-0.49|0.49|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.49|-0.49|
92287216|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.016||||0.679|TWO_SIDED|95.0|-0.061|0.093|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.093|-0.061|0.679
92453814|NCT02207816|184795878|SUPERIORITY||Vaccine efficacy|46.2||||0.1853|TWO_SIDED|95.0|-45.0|81.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||81.80|-45.0|0.1853
92453815|NCT02207816|184795878|SUPERIORITY||Vaccine efficacy|35.0||||0.3828|TWO_SIDED|95.0|-69.3|76.6|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||76.60|-69.3|0.3828
92453816|NCT02207816|184795878|SUPERIORITY||Vaccine efficacy|31.2||||0.4112|TWO_SIDED|95.0|-66.5|72.7|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||72.70|-66.5|0.4112
92453817|NCT02207816|184795878|SUPERIORITY||Vaccine efficacy|30.8||||0.4121|TWO_SIDED|95.0|-67.6|72.5|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||72.50|-67.6|0.4121
92281160|NCT00865709|184465543|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||1-sided p-value from the Cochran-Mantel-Haenszel test, adjusting for the stratification factors of # metastatic sites and liver metastasis determined by Principal Investigator|Cochran-Mantel-Haenszel|||The proportion of subjects achieving overall response (CR or PR), when confirmation of response was not required, was estimated with a 95% confidence interval for each treatment group. The treatment groups were compared with respect to overall response rate using the Cochran-Mantel-Haenszel test, adjusting for the stratification factors.||||0.023
92281161|NCT00429923|184465545|SUPERIORITY_OR_OTHER|||||||0.0014||95.0|||||Mantel Haenszel|||||||0.0014
92281162|NCT03740165|184465575|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0002|TWO_SIDED|95.0|0.53|0.83||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||0.83|0.53|0.0002
92182951|NCT02434328|184264730|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-3.8|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||3.3|-3.8|
92453818|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|40.8|||<|0.0001|TWO_SIDED|95.0|15.7|58.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||58.80|15.70|<0.0001
92182952|NCT02434328|184264730|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-3.8|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||3.3|-3.8|
92182953|NCT02434328|184264731|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-2.6|1.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||1.6|-2.6|
92453819|NCT02207816|184795879|SUPERIORITY||Vaccine effiicacy|42.7|||<|0.0001|TWO_SIDED|95.0|17.4|60.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||60.80|17.40|<0.0001
92453820|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|16.0||||0.0883|TWO_SIDED|95.0|-6.6|33.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||33.90|-6.60|0.0883
92453821|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|13.0||||0.1889|TWO_SIDED|95.0|-10.7|31.7|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||31.70|-10.7|0.1889
92453822|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|16.4||||0.077|TWO_SIDED|95.0|-5.9|34.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||34.00|-5.90|0.0770
92453823|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|0.1||||1|TWO_SIDED|95.0|-25.8|20.7|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||20.70|-25.8|1.0000
92453824|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|20.8||||0.1624|TWO_SIDED|95.0|-17.5|46.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||46.90|-17.5|0.1624
92453825|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|-2.3||||0.9112|TWO_SIDED|95.0|-47.6|29.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||29.00|-47.6|0.9112
92453826|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|9.2||||0.4023|TWO_SIDED|95.0|-18.0|30.1|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||30.10|-18.0|0.4023
92453827|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|-4.4||||0.7091|TWO_SIDED|95.0|-34.5|18.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||18.90|-34.5|0.7091
92453828|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|-1.4||||0.9361|TWO_SIDED|95.0|-34.7|23.6|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||23.60|-34.7|0.9361
92453829|NCT02207816|184795879|SUPERIORITY||Vaccine efficacy|-6.8||||0.628|TWO_SIDED|95.0|-42.0|19.6|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||19.60|-42.0|0.6280
92453830|NCT02207816|184795880|SUPERIORITY||Vaccine efficacy|100.0||||0.4987|TWO_SIDED|95.0|-3779.0|100.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent severe anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||100.0|-3779|0.4987
92453831|NCT02207816|184795880|SUPERIORITY||Vaccine efficacy|100.0||||1|TWO_SIDED|95.0|-4051.0|100.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent severe anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||100.0|-4051|1.0000
92182478|NCT03617835|184263830|OTHER|Relative bioavailability|Ratio of the geometric means (T3/R) [%]|121.84|||||TWO_SIDED|90.0|102.08|145.41|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.0.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||145.41|102.08|
92182479|NCT03617835|184263831|OTHER|Relative bioavailability|Ratio of the geometric means (T1/R) [%]|99.17|||||TWO_SIDED|90.0|83.77|117.39|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 24.8.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||117.39|83.77|
92241998|NCT00418262|184387350|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.28|0.26|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.26|-0.28|
92241999|NCT00418262|184387350|SUPERIORITY||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-0.56|0.52|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.52|-0.56|
92242000|NCT00418262|184387351|SUPERIORITY||Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-0.32|0.2|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.20|-0.32|
92242001|NCT00418262|184387351|SUPERIORITY||Median Difference (Net)|-0.12|||||TWO_SIDED|95.0|-0.64|0.39|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.39|-0.64|
92281163|NCT03740165|184465575|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.3339|TWO_SIDED|95.0|0.77|1.19||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.19|0.77|0.3339
92281164|NCT03740165|184465576|SUPERIORITY||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.61|0.84||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||0.84|0.61|<0.0001
92453832|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|-254.6||||0.1025|TWO_SIDED|95.0|-3399.0|32.5|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||32.50|-3399|0.1025
92453833|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|-398.6||||0.0284|TWO_SIDED|95.0|-4642.0|-3.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||-3.20|-4642|0.0284
92453834|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|36.7||||0.3543|TWO_SIDED|95.0|-78.8|79.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||79.20|-78.8|0.3543
92453835|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|3.2||||1|TWO_SIDED|95.0|-151.0|63.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||63.20|-151|1.0000
92453836|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|44.0||||0.3809|TWO_SIDED|95.0|-120.0|88.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||88.00|-120|0.3809
92453837|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|39.1||||0.549|TWO_SIDED|95.0|-140.0|86.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||86.90|-140|0.5490
92242002|NCT00418262|184387352|SUPERIORITY||Mean Difference (Net)|-0.05|||||TWO_SIDED|95.0|-0.28|0.24|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.24|-0.28|
92242003|NCT00418262|184387352|SUPERIORITY||Mean Difference (Net)|-0.09|||||TWO_SIDED|95.0|-0.57|0.47|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.47|-0.57|
92242004|NCT00418262|184387353|SUPERIORITY||Mean Difference (Net)|0.07|||||TWO_SIDED|95.0|-0.21|0.32|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.32|-0.21|
92242005|NCT00418262|184387353|SUPERIORITY||Mean Difference (Net)|0.07|||||TWO_SIDED|95.0|-0.21|0.32|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.32|-0.21|
92242006|NCT00418262|184387354|SUPERIORITY||Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.36|0.13|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.13|-0.36|
92242007|NCT00418262|184387354|SUPERIORITY||Mean Difference (Net)|-0.22|||||TWO_SIDED|95.0|-0.72|0.27|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.27|-0.72|
92242008|NCT00418262|184387355|SUPERIORITY||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.19|0.35|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.35|-0.19|
92281165|NCT03740165|184465576|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5527|TWO_SIDED|95.0|0.87|1.18||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.18|0.87|0.5527
92453838|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|-46.3||||0.3239|TWO_SIDED|95.0|-249.0|36.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||36.20|-249|0.3239
92453839|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|47.6||||0.2184|TWO_SIDED|95.0|-54.5|84.1|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||84.10|-54.5|0.2184
92453840|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|-116.8||||0.0724|TWO_SIDED|95.0|-476.0|10.3|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||10.30|-476|0.0724
92453841|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|-81.0||||0.2055|TWO_SIDED|95.0|-393.0|27.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||27.90|-393|0.2055
92173505|NCT03232138|184238191|EQUIVALENCE|used 2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for all positive cells. TUNEL all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.291||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||All positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.291
92173506|NCT03232138|184238191|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. TUNEL all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.552||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||Weak-intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.552
92173507|NCT03232138|184238191|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. TUNEL all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.205||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||Moderate-intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.205
92173508|NCT03232138|184238191|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. TUNEL all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.295||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||Strong-intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.295
92173509|NCT03232138|184238192|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) baseline positive cells. Caspase-3 positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.295||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||All positive nuclei. Mean (95%CI) at baseline.||||0.295
92453842|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|-18.4||||0.8138|TWO_SIDED|95.0|-245.0|57.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||57.90|-245|0.8138
92453843|NCT02207816|184795881|SUPERIORITY||Vaccine efficacy|24.4||||0.7887|TWO_SIDED|95.0|-148.0|78.4|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||78.40|-148|0.7887
92173510|NCT03232138|184238192|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) baseline positive cells. Caspase-3 positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.242||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||weak intensity positive nuclei. Mean (95%CI) at baseline.||||0.242
92453844|NCT02207816|184795882|SUPERIORITY||Vaccine efficacy|40.5||||0.0077|TWO_SIDED|95.0|12.84|59.39|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||59.39|12.84|0.0077
92453845|NCT02207816|184795882|SUPERIORITY||Vaccine efficacy|-4.52||||0.7922|TWO_SIDED|95.0|-45.3|24.8|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||24.80|-45.3|0.7922
92453846|NCT02207816|184795882|SUPERIORITY||Vaccine efficacy|29.03||||0.0802|TWO_SIDED|95.0|-4.22|51.67|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||51.67|-4.22|0.0802
92453847|NCT02207816|184795882|SUPERIORITY||Vaccine efficacy|33.87||||0.0387|TWO_SIDED|95.0|2.13|55.32|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||55.32|2.13|0.0387
92453848|NCT02207816|184795883|SUPERIORITY||Vaccine efficacy|36.69||||0.0028|TWO_SIDED|95.0|14.6|53.07|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||53.07|14.60|0.0028
92453849|NCT02207816|184795883|SUPERIORITY||Vaccine efficacy|10.14||||0.443|TWO_SIDED|95.0|-18.1|31.64|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||31.64|-18.1|0.4430
92453850|NCT02207816|184795883|SUPERIORITY||Vaccine efficacy|30.99||||0.0245|TWO_SIDED|95.0|4.67|50.04|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||50.04|4.67|0.0245
92453851|NCT02207816|184795883|SUPERIORITY||Vaccine efficacy|34.24||||0.0122|TWO_SIDED|95.0|8.74|52.61|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||52.61|8.74|0.0122
92453852|NCT02207816|184795884|SUPERIORITY||Vaccine efficacy|23.67|||<|0.0001|TWO_SIDED|95.0|15.93|30.71|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||30.71|15.93|<.0001
92453853|NCT02207816|184795884|SUPERIORITY||Vaccine efficacy|19.15|||<|0.0001|TWO_SIDED|95.0|10.81|26.71|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||26.71|10.81|<.0001
92453854|NCT02207816|184795884|SUPERIORITY||Vaccine efficacy|15.55||||0.0009|TWO_SIDED|95.0|6.72|23.54|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||23.54|6.72|0.0009
92242009|NCT00418262|184387355|SUPERIORITY||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.19|0.35|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.35|-0.19|
92453855|NCT02207816|184795884|SUPERIORITY||Vaccine efficacy|13.15||||0.0056|TWO_SIDED|95.0|4.05|21.39|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||21.39|4.05|0.0056
92453856|NCT02207816|184795885|SUPERIORITY||Vaccine efficacy|35.5||||0.0053|TWO_SIDED|95.0|10.0|54.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||54.00|10.00|0.0053
92453857|NCT02207816|184795885|SUPERIORITY||Vaccine efficacy|11.7||||0.4255|TWO_SIDED|95.0|-20.0|35.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||35.20|-20.0|0.4255
92453858|NCT02207816|184795885|SUPERIORITY||Vaccine efficacy|29.2||||0.0479|TWO_SIDED|95.0|-2.4|51.4|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||51.40|-2.40|0.0479
92453859|NCT02207816|184795885|SUPERIORITY||Vaccine efficacy|18.1||||0.2346|TWO_SIDED|95.0|-16.9|42.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||42.80|-16.9|0.2346
92453860|NCT02207816|184795886|SUPERIORITY||Vaccine efficacy|35.9||||0.0051|TWO_SIDED|95.0|10.3|54.4|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||54.40|10.30|0.0051
92453861|NCT02207816|184795886|SUPERIORITY||Vaccine efficacy|14.0||||0.334|TWO_SIDED|95.0|-17.3|37.1|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||37.10|-17.3|0.3340
92453862|NCT02207816|184795886|SUPERIORITY||Vaccine efficacy|28.5||||0.0511|TWO_SIDED|95.0|-2.9|50.5|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Meenjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||50.50|-2.90|0.0511
92453863|NCT02207816|184795886|SUPERIORITY||Vaccine efficacy|20.3||||0.1729|TWO_SIDED|95.0|-13.5|44.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Meenjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||44.20|-13.5|0.1729
92453864|NCT02207816|184795889|SUPERIORITY||Vaccine efficacy|50.1||||0.6244|TWO_SIDED|95.0|-859.0|99.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||99.20|-859|0.6244
92453865|NCT02207816|184795889|SUPERIORITY||Vaccine efficacy|-5.7||||1|TWO_SIDED|95.0|-1358.0|92.3|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||92.30|-1358|1.0000
92453866|NCT02207816|184795889|SUPERIORITY||Vaccine efficacy|-188.9||||0.6244|TWO_SIDED|95.0|-15000.0|76.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||76.80|-15000|0.6244
92453867|NCT02207816|184795889|SUPERIORITY||Vaccine efficacy|3.1||||1|TWO_SIDED|95.0|-7509.0|98.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||98.80|-7509|1.0000
92281166|NCT03740165|184465577|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4314|TWO_SIDED|95.0|0.75|1.27||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.27|0.75|0.4314
92453868|NCT02207816|184795890|SUPERIORITY||Vaccine efficacy|-98.8||||0.6869|TWO_SIDED|95.0|-2098.0|71.5|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||71.50|-2098|0.6869
92242010|NCT00418262|184387356|SUPERIORITY||Mean Difference (Net)|-7.4|||||TWO_SIDED|95.0|-7.76|-7.04|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||-7.04|-7.76|
92453869|NCT02207816|184795890|SUPERIORITY||Vaccine efficacy|-406.0||||0.0213|TWO_SIDED|95.0|-4650.0|-7.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||-7.80|-4650|0.0213
92453870|NCT02207816|184795891|SUPERIORITY||Vaccine efficacy|-98.8||||1|TWO_SIDED|95.0|-12000.0|89.6|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||89.60|-12000|1.0000
92453871|NCT02207816|184795891|SUPERIORITY||Vaccine efficacy|-304.8||||0.2154|TWO_SIDED|95.0|-20000.0|59.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||59.90|-20000|0.2154
92453872|NCT02207816|184795892|SUPERIORITY||Vaccine efficacy|-24.3||||1|TWO_SIDED|95.0|-526.0|73.3|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||73.30|-526|1.0000
92453873|NCT02207816|184795892|SUPERIORITY||Vaccine efficacy|-77.1||||0.3834|TWO_SIDED|95.0|-725.0|55.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||55.00|-725|0.3834
92453874|NCT02207816|184795892|SUPERIORITY||Vaccine efficacy|-297.5||||0.374|TWO_SIDED|95.0|-19000.0|60.7|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||60.70|-19000|0.3740
92453875|NCT02207816|184795892|SUPERIORITY||Vaccine efficacy|-498.1||||0.124|TWO_SIDED|95.0|-27000.0|27.4|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||27.40|-27000|0.1240
92173511|NCT03232138|184238192|EQUIVALENCE|-sided P-value in the analysis, Mean (95%CI) baseline positive cells. Caspase-3 positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.985||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||Moderate intensity positive nuclei. Mean (95%CI) at baseline.||||0.985
92281167|NCT03740165|184465577|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.3107|TWO_SIDED|95.0|0.72|1.22||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.22|0.72|0.3107
92453876|NCT02349295|184795916|OTHER||Odds Ratio (OR)|4.74|||<|0.001|TWO_SIDED|95.0|2.65|8.48||model includes: treatment, geographic region, and tumor necrosis factor inhibitor (TNFi) experience (inadequate responder to 1 TNFi, inadequate responder to 2 TNFi, or intolerance to a TNFi).|Regression, Logistic|1\) uses a Wald's test , 2) Non-responder imputation (NRI) was used to calculate the response rates.||||8.48|2.65|<0.001
92453877|NCT02349295|184795916|OTHER|1\) uses a Wald's test , 2) Non-responder imputation (NRI) was used to calculate the response rates.|Odds Ratio (OR)|3.79|||<|0.001|TWO_SIDED|95.0|2.12|6.78|||Regression, Logistic|||model includes: treatment, geographic region, and TNFi experience (inadequate responder to 1 TNFi, inadequate responder to 2 TNFi, or intolerance to a TNFi)||6.78|2.12|<0.001
92453878|NCT03248739|184795945|EQUIVALENCE|Based on occlusion data from the previously referenced prospective study, as well as a P-value of 0.05 and power of 0.80, the study will need to include 90 patients to demonstrate statistical significance. To ensure that power is adequate, we will plan to enroll 120 patients (60 in each arm).||||||0.23|||||||Fisher Exact|||||||0.23
92453879|NCT01259713|184795950|NON_INFERIORITY_OR_EQUIVALENCE|For the interim analysis performed when 50% of the subjects had completed the study, an alpha of 0.0003 was spent. Therefore, the significance level for the 2-sided test in the primary analysis at the end of the study was 0.0497 (corresponding to 95.03% confidence interval (CI)).|Relative risk reduction|0.33||||0.24|TWO_SIDED|95.03|-0.32|0.66||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel||Relative risk reduction = 1 - risk ratio.|A two-group Cochran-Mantel-Haenszel (CMH) test with a 0.05 two-sided significance level and 2:1 allocation of 354 randomized subjects (236 AmBisome, 118 placebo) would have 81% power to detect a relative reduction of 75% if the rate of IFI is 10% in the placebo group (based on unpublished data from the German Multicenter Acute Lymphoblastic Leukemia Working Group (GMALL) and consistent with the published rate of 16.4% in patients with hematological malignancies undergoing remission induction).||0.66|-0.32|0.24
92453880|NCT01259713|184795951|SUPERIORITY_OR_OTHER||Relative risk reduction|0.25||||0.15|TWO_SIDED|95.0|-0.11|0.5||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel||Relative risk reduction = 1 - risk ratio.|||0.50|-0.11|0.15
92453881|NCT01259713|184795952|SUPERIORITY_OR_OTHER||Relative risk reduction|-0.01||||0.97|TWO_SIDED|95.0|-0.94|0.47||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel||Relative risk reduction = 1 - risk ratio.|||0.47|-0.94|0.97
92453882|NCT01259713|184795953|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED|||||The p-value is from the log-rank test stratified by region.|Log Rank|||||||0.33
92453883|NCT01259713|184795954|SUPERIORITY_OR_OTHER||Relative risk reduction|0.25||||0.22|TWO_SIDED|95.0|-0.19|0.53||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel||Relative risk reduction = 1 - risk ratio.|||0.53|-0.19|0.22
92453884|NCT01259713|184795955|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED|||||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel|||||||0.32
92453885|NCT01259713|184795956|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED|||||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel|||||||0.32
92453886|NCT01259713|184795957|SUPERIORITY_OR_OTHER|||||||0.69|TWO_SIDED|||||The p-value was from the log-rank test stratified by region.|Log Rank|Participants without consolidation/salvage therapy dates were censored using the earlier of the Early Termination and Study Completion dates.||||||0.69
92453887|NCT01259713|184795958|SUPERIORITY_OR_OTHER||Relative risk reduction|0.08||||0.2|TWO_SIDED|95.0|-0.04|0.19||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel||Relative risk reduction = 1 - risk ratio.|Participants were not stratified for leukemia risk.||0.19|-0.04|0.20
92453888|NCT06111742|184795980|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Induction||||<0.001
92453889|NCT06111742|184795980|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||OR entry||||<0.001
92453890|NCT06111742|184795981|SUPERIORITY|||||||0.022|||||||t-test, 2 sided|||||||0.022
92453891|NCT06111742|184795983|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
92453892|NCT01914926|184795990|NON_INFERIORITY_OR_EQUIVALENCE|Chi-Square test||||||0.0001||95.0|||||Chi-squared|||We estimated a sample size of 200 patients assigned in a 1:1 ratio to receive diltiazem and metoprolol would achieve 80% power to detect non-inferiority using a one-sided two sample t-test. The margin of equivalence is -10.||||.0001
92453893|NCT01227681|184795991|SUPERIORITY_OR_OTHER|||||||0.64|||||||t-test, 2 sided|||Null hypothesis: there is significant deterioration of UPDRS part III scores from baseline to post G-CSF injection one year||||0.64
92453894|NCT03073603|184796237|NON_INFERIORITY|We performed a non-inferiority test for the proportions of the drug continuation and drug discontinuation arms experiencing a new MS relapse and/or MRI Brain Lesion over the course of the study duration. The non-inferiority margin used was 8%.|Difference in proportion|0.0753||||0.521|TWO_SIDED|95.0|0.0063|0.15|||Exact binomial test|Exact binomial test for difference in two proportions||We tested the null hypothesis of inferiority with the proportion of disease events (i.e., new MS relapse and/or MRI brain lesion) for the drug discontinuation group being 8% greater than the proportion for the drug continuation group under the alternative that the two rates are equal.||0.1500|0.0063|0.521
92453895|NCT03073603|184796238|SUPERIORITY|||||||0.766|||||||Chi-squared|||||||0.766
92453896|NCT03073603|184796239|SUPERIORITY|||||||0.604|||||||t-test, 2 sided|||||||0.604
92453897|NCT03073603|184796240|SUPERIORITY|||||||0.198|||||||t-test, 2 sided|||||||0.198
92453898|NCT03073603|184796241|SUPERIORITY|||||||0.354|||||||t-test, 2 sided|||||||0.354
92173512|NCT03232138|184238192|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) baseline positive cells. Caspase-3 positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.547||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||Strong intensity positive nuclei. Mean (95%CI) at baseline.||||0.547
92173513|NCT03232138|184238192|EQUIVALENCE|used 2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for all positive cells. Caspase-3 all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.778||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||All positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.778
92173514|NCT03232138|184238192|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. Caspase-3 all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker||||||0.685||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||Weak intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.685
92242011|NCT00418262|184387356|SUPERIORITY||Mean Difference (Net)|-2.44|||||TWO_SIDED|95.0|-3.03|-1.9|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||-1.90|-3.03|
92242012|NCT00418262|184387357|SUPERIORITY||Mean Difference (Net)|0.39|||||TWO_SIDED|95.0|-0.69|1.38|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||1.38|-0.69|
92453899|NCT03073603|184796242|SUPERIORITY|||||||0.831|||||||t-test, 2 sided|||||||0.831
92453900|NCT03073603|184796243|SUPERIORITY|||||||0.252|||||||t-test, 2 sided|||||||0.252
92453901|NCT03073603|184796244|SUPERIORITY|||||||0.983|||||||t-test, 2 sided|||||||0.983
92453902|NCT03073603|184796245|SUPERIORITY|||||||0.155|||||||t-test, 2 sided|||||||0.155
92453903|NCT03073603|184796246|SUPERIORITY|||||||0.748|||||||t-test, 2 sided|||||||0.748
92453904|NCT03073603|184796247|SUPERIORITY|||||||0.773|||||||t-test, 2 sided|||||||0.773
92453905|NCT03073603|184796248|SUPERIORITY|||||||0.224|||||||t-test, 2 sided|||||||0.224
92453906|NCT03073603|184796249|SUPERIORITY|||||||0.962|||||||t-test, 2 sided|||||||0.962
92453907|NCT03073603|184796250|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||||||0.005
92453908|NCT03073603|184796251|SUPERIORITY|||||||0.406|||||||t-test, 2 sided|||||||0.406
92453909|NCT03073603|184796252|SUPERIORITY|||||||0.348|||||||t-test, 2 sided|||||||0.348
92453910|NCT03073603|184796253|SUPERIORITY|||||||0.086|||||||t-test, 2 sided|||||||0.086
92453911|NCT03073603|184796254|SUPERIORITY|||||||0.575|||||||t-test, 2 sided|||||||0.575
92453912|NCT03073603|184796255|SUPERIORITY|||||||0.733|||||||Chi-squared|||||||0.733
92453913|NCT03073603|184796256|SUPERIORITY|||||||0.733|||||||Chi-squared|||||||0.733
92453914|NCT03073603|184796257|SUPERIORITY|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||||||0.036
92453915|NCT01866410|184796287|OTHER|||||||0.4|||||||Log Rank|||||||0.4
92453916|NCT01866410|184796288|OTHER|||||||0.5|||||||Log Rank|||||||0.5
92453917|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|0.231|||TWO_SIDED|95.0|-0.03|0.92|||Mixed Model Repeated Measure Analysis||Mean difference = GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 4||0.92|-0.03|
92453918|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.69|STANDARD_ERROR_OF_MEAN|0.214|||TWO_SIDED|95.0|0.25|1.13|||Mixed Model Repeated Measure Analysis||Mean difference = GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 4||1.13|0.25|
92453919|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.246|||TWO_SIDED|95.0|-0.2|0.8|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 4||0.80|-0.20|
92453920|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.292|||TWO_SIDED|95.0|-0.24|0.95|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 5||0.95|-0.24|
92453921|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.52|STANDARD_ERROR_OF_MEAN|0.279|||TWO_SIDED|95.0|-0.05|1.09|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 5 mg/kg- Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 5||1.09|-0.05|
92453922|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.319|||TWO_SIDED|95.0|-0.61|0.69|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 5||0.69|-0.61|
92453923|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.63|STANDARD_ERROR_OF_MEAN|0.235|||TWO_SIDED|95.0|0.15|1.11|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 6||1.11|0.15|
92453924|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.225|||TWO_SIDED|95.0|-0.06|0.86|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 6||0.86|-0.06|
92453925|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.259|||TWO_SIDED|95.0|-0.29|0.77|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 6||0.77|-0.29|
92287217|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.549|TWO_SIDED|95.0|-0.052|0.098|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.098|-0.052|0.549
92453926|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.61|STANDARD_ERROR_OF_MEAN|0.251|||TWO_SIDED|95.0|0.1|1.12|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 7||1.12|0.10|
92173515|NCT03232138|184238192|EQUIVALENCE|-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. Caspase-3 all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker||||||0.469||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||Moderate intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.469
92287218|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.036||||0.323|TWO_SIDED|95.0|-0.036|0.109|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.109|-0.036|0.323
92173516|NCT03232138|184238192|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. Caspase-3 all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarke||||||0.052||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||strong intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.052
92173517|NCT03232138|184238193|EQUIVALENCE|This analysis was focused on the gene set that were found to be upregulated in lung cancer. the objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these lung-cancer associated upregulated genes in bronchial brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RNA integrity number or RIN.|Slope|0.02|STANDARD_ERROR_OF_MEAN|0.1||0.82|TWO_SIDED|||||Hypothesis: Sulforaphane treatment downregulate these genes whose over-expressions are associated with risk of lung cancer.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after 12-month sulforaphane treatment.|||||0.82
92173518|NCT03232138|184238194|EQUIVALENCE|This analysis was focused on the gene set that were found to be down-regulated in lung cancer. The objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these lung-cancer associated down-regulated genes in bronchial brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.1||0.5|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would upregulate these genes whose down-expressions are associated with lung cancer risk.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after 12-month sulforaphane treatment.|||||0.50
92173519|NCT03232138|184238195|EQUIVALENCE|This analysis was focused on the gene set that were found to be upregulated in lung pre-malignant lesions. The objective was to examine if sulforaphane treatment for 12 months would have any significant impact on the expression of these pre-malignant lesions associated upregulated genes in bronchial brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|0.15|STANDARD_ERROR_OF_MEAN|0.15||0.32|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would downregulate these genes whose over-expressions are associated with risk of lung pre-malignant lesions.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.32
92242013|NCT00418262|184387357|SUPERIORITY||Mean Difference (Net)|0.39|||||TWO_SIDED|95.0|-0.69|1.38|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||1.38|-0.69|
92281168|NCT03740165|184465578|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.6716|TWO_SIDED|95.0|0.87|1.25||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.25|0.87|0.6716
92453927|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.59|STANDARD_ERROR_OF_MEAN|0.242|||TWO_SIDED|95.0|0.09|1.08|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 7||1.08|0.09|
92453928|NCT00833989|184796327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.277|||TWO_SIDED|95.0|-0.39|0.73|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 7||0.73|-0.39|
92453929|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.56|STANDARD_ERROR_OF_MEAN|4.981|||TWO_SIDED|95.0|-0.6|19.71|||Mixed Model Repeated Measures Analysis||Mean difference =GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, visit 4||19.71|-0.60|
92453930|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.47|STANDARD_ERROR_OF_MEAN|4.801|||TWO_SIDED|95.0|-1.32|18.26|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 4||18.26|-1.32|
92453931|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|5.47|||TWO_SIDED|95.0|-11.1|11.24|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 4||11.24|-11.1|
92453932|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.58|STANDARD_ERROR_OF_MEAN|5.631|||TWO_SIDED|95.0|0.01|23.15|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 5||23.15|0.01|
92453933|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.77|STANDARD_ERROR_OF_MEAN|5.411|||TWO_SIDED|95.0|-2.35|19.89|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 5||19.89|-2.35|
92453934|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|6.195|||TWO_SIDED|95.0|-12.2|13.21|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 5||13.21|-12.2|
92453935|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.66|STANDARD_ERROR_OF_MEAN|5.351|||TWO_SIDED|95.0|-1.34|20.66|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 6||20.66|-1.34|
92453936|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.45|STANDARD_ERROR_OF_MEAN|5.198|||TWO_SIDED|95.0|-3.22|18.13|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 6||18.13|-3.22|
92173520|NCT03232138|184238196|EQUIVALENCE|This analysis was focused on the gene set that were found to be downregulated in lung pre-malignant lesions. The objective was to examine if sulforaphane treatment for 12 months would have any significant impact on the expression of these pre-malignant lesions associated downregulated genes in bronchial brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.5|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would upregulate these genes whose down-regulated expressions are associated with risk of lung pre-malignant lesions.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.5
92173521|NCT03232138|184238197|EQUIVALENCE|This analysis was focused on the gene set that were found to be upregulated in lung cancer. The objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these lung-cancer associated upregulated genes in nasal brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|-0.27|STANDARD_ERROR_OF_MEAN|0.1||0.012|TWO_SIDED|||||Sulforaphane treatment would downregulate the expression of these genes whose upregulated expressions in bronchial epithelial cells have been found to be associated with risk of lung cancer.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.012
92173522|NCT03232138|184238198|EQUIVALENCE|This analysis was focused on the gene set that were found to be downregulated in lung cancer. The objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these lung-cancer associated upregulated genes in nasal brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|0.38|STANDARD_ERROR_OF_MEAN|0.12||0.0045|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would upregulate the expression of these genes whose downregulated expressions in nasal epithelial cells have been found to be associated with risk of lung cancer.|Mixed Models Analysis||Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.0045
92182480|NCT03617835|184263831|OTHER|Relative bioavailability|Ratio of the geometric means (T2/R) [%]|156.2|||||TWO_SIDED|90.0|131.95|184.9|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 24.8.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||184.90|131.95|
92281169|NCT03740165|184465578|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.7448|TWO_SIDED|95.0|0.89|1.27||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.27|0.89|0.7448
92453937|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.63|STANDARD_ERROR_OF_MEAN|5.959|||TWO_SIDED|95.0|-22.9|1.6|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 6||1.60|-22.9|
92453938|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.59|STANDARD_ERROR_OF_MEAN|6.134|||TWO_SIDED|95.0|-3.07|22.24|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, visit 7||22.24|-3.07|
92453939|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.89|STANDARD_ERROR_OF_MEAN|5.948|||TWO_SIDED|95.0|-6.37|18.15|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 7||18.15|-6.37|
92453940|NCT00833989|184796328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.11|STANDARD_ERROR_OF_MEAN|6.768|||TWO_SIDED|95.0|-17.1|10.84|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 7||10.84|-17.1|
92453941|NCT00833989|184796329|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.47|STANDARD_ERROR_OF_MEAN|7.047|||TWO_SIDED|95.0|-15.81|12.86|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 4||12.86|-15.81|
92453942|NCT00833989|184796329|SUPERIORITY_OR_OTHER||Median Difference (Net)|9.86|STANDARD_ERROR_OF_MEAN|6.852|||TWO_SIDED|95.0|-4.08|23.8|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 4||23.80|-4.08|
92453943|NCT00833989|184796329|SUPERIORITY_OR_OTHER||Median Difference (Net)|-5.4|STANDARD_ERROR_OF_MEAN|7.376|||TWO_SIDED|95.0|-20.41|9.6|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo.~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 4||9.60|-20.41|
92453944|NCT00833989|184796329|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.4|STANDARD_ERROR_OF_MEAN|10.04|||TWO_SIDED|95.0|-22.87|18.07|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 7||18.07|-22.87|
92453945|NCT00833989|184796329|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.03|STANDARD_ERROR_OF_MEAN|10.31|||TWO_SIDED|95.0|-15.95|26.0|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 7||26.00|-15.95|
92453946|NCT00833989|184796329|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.07|STANDARD_ERROR_OF_MEAN|10.916|||TWO_SIDED|95.0|-32.29|12.15|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 7||12.15|-32.29|
92453947|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|5.147|||TWO_SIDED|95.0|-10.4|10.61|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 4||10.61|-10.4|
92453948|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.75|STANDARD_ERROR_OF_MEAN|5.157|||TWO_SIDED|95.0|-7.75|13.26|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 4||13.26|-7.75|
92453949|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.85|STANDARD_ERROR_OF_MEAN|5.409|||TWO_SIDED|95.0|-6.17|15.88|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 4||15.88|-6.17|
92453950|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|6.504|||TWO_SIDED|95.0|-12.1|14.45|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 5||14.45|-12.1|
92453951|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.05|STANDARD_ERROR_OF_MEAN|6.426|||TWO_SIDED|95.0|-11.0|15.12|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 5||15.12|-11.0|
92453952|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.22|STANDARD_ERROR_OF_MEAN|6.82|||TWO_SIDED|95.0|-16.1|11.68|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 5||11.68|-16.1|
92453953|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.63|STANDARD_ERROR_OF_MEAN|6.664|||TWO_SIDED|95.0|-12.9|14.18|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 6||14.18|-12.9|
92453954|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.03|STANDARD_ERROR_OF_MEAN|6.595||||95.0|-12.4|14.43|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 6||14.43|-12.4|
92453955|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|7.02|||TWO_SIDED|95.0|-15.2|13.32|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 6||13.32|-15.2|
92453956|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.25|STANDARD_ERROR_OF_MEAN|6.953|||TWO_SIDED|95.0|-11.9|16.4|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 7||16.40|-11.9|
92453957|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.52|STANDARD_ERROR_OF_MEAN|6.909|||TWO_SIDED|95.0|-10.5|17.55|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 7||17.55|-10.5|
92453958|NCT00833989|184796330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|7.328|||TWO_SIDED|95.0|-15.4|14.39|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 7||14.39|-15.4|
92453959|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.66|STANDARD_ERROR_OF_MEAN|3.42|||TWO_SIDED|95.0|-5.33|8.65|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 4||8.65|-5.33|
92287219|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.007||||0.866|TWO_SIDED|95.0|-0.073|0.087|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.087|-0.073|0.866
92453960|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|3.55|||TWO_SIDED|95.0|-7.56|6.96|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 4||6.96|-7.56|
92453961|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.56|STANDARD_ERROR_OF_MEAN|3.534|||TWO_SIDED|95.0|-2.67|11.78|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 4||11.78|-2.67|
92453962|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.05|STANDARD_ERROR_OF_MEAN|3.841|||TWO_SIDED|95.0|-5.78|9.89|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 5||9.89|-5.78|
92453963|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.35|STANDARD_ERROR_OF_MEAN|3.958|||TWO_SIDED|95.0|-10.4|5.72|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 5||5.72|-10.4|
92453964|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.44|STANDARD_ERROR_OF_MEAN|3.978|||TWO_SIDED|95.0|-6.68|9.55|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 5||9.55|-6.68|
92242014|NCT00829166|184387359|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.549|0.771|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or greater than \[\>\] 1), and visceral/ non-visceral disease.||0.771|0.549|<0.0001
92453965|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.46|STANDARD_ERROR_OF_MEAN|4.109|||TWO_SIDED|95.0|-4.94|11.85|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 6||11.85|-4.94|
92453966|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.49|STANDARD_ERROR_OF_MEAN|4.235|||TWO_SIDED|95.0|-8.15|9.12|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 6||9.12|-8.15|
92453967|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.77|STANDARD_ERROR_OF_MEAN|4.28|||TWO_SIDED|95.0|-7.97|9.5|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 6||9.50|-7.97|
92453968|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.04|STANDARD_ERROR_OF_MEAN|4.205|||TWO_SIDED|95.0|-5.53|11.61|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 7||11.61|-5.53|
92453969|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.58|STANDARD_ERROR_OF_MEAN|4.376|||TWO_SIDED|95.0|-11.5|6.32|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 7||6.32|-11.5|
92453970|NCT00833989|184796331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.73|STANDARD_ERROR_OF_MEAN|4.396|||TWO_SIDED|95.0|-5.22|12.69|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 7||12.69|-5.22|
92453971|NCT00833989|184796332|SUPERIORITY_OR_OTHER|||||||0.926|||||||Fisher Exact|||Visit 4||||0.9260
92453972|NCT00833989|184796332|SUPERIORITY_OR_OTHER|||||||0.5647|||||||Fisher Exact|||Visit 6||||0.5647
92453973|NCT00833989|184796333|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.34|STANDARD_ERROR_OF_MEAN|0.896|||TWO_SIDED|95.0|-3.17|0.49|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 3||0.49|-3.17|
92453974|NCT00833989|184796333|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.861|||TWO_SIDED|95.0|-1.95|1.57|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 3||1.57|-1.95|
92242015|NCT00829166|184387361|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.682||||0.0006|TWO_SIDED|95.0|0.548|0.849|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||0.849|0.548|0.0006
92453975|NCT00833989|184796333|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.92|STANDARD_ERROR_OF_MEAN|0.933|||TWO_SIDED|95.0|-4.83|-1.02|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 3||-1.02|-4.83|
92453976|NCT00833989|184796333|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.868|||TWO_SIDED|95.0|-2.47|1.08|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 4||1.08|-2.47|
92453977|NCT00833989|184796333|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.834|||TWO_SIDED|95.0|-1.98|1.44|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 4||1.44|-1.98|
92453978|NCT00833989|184796333|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.92|STANDARD_ERROR_OF_MEAN|0.904|||TWO_SIDED|95.0|-2.77|0.92|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 4||0.92|-2.77|
92453979|NCT00833989|184796333|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.03|STANDARD_ERROR_OF_MEAN|1.278|||TWO_SIDED|95.0|-3.64|1.57|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 6||1.57|-3.64|
92453980|NCT00833989|184796333|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|1.278|||TWO_SIDED|95.0|-2.97|2.24|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 6||2.24|-2.97|
92453981|NCT00833989|184796333|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|2.21|||TWO_SIDED|95.0|-0.66|1.408|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 6||1.408|-0.66|
92453982|NCT00833989|184796334|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.46|STANDARD_ERROR_OF_MEAN|12.584|||TWO_SIDED|95.0|-6.11|45.04|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 1 mg/kg, Visit 4||45.04|-6.11|
92453983|NCT00833989|184796334|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.99|STANDARD_ERROR_OF_MEAN|12.131|||TWO_SIDED|95.0|-3.66|45.64|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 5 mg/kg, Visit 4||45.64|-3.66|
92453984|NCT00833989|184796334|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.79|STANDARD_ERROR_OF_MEAN|13.143|||TWO_SIDED|95.0|-14.9|38.5|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 15 mg/kg, Visit 4||38.50|-14.9|
92242016|NCT00829166|184387363|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.749||||0.0003|TWO_SIDED|95.0|0.639|0.877|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||0.877|0.639|0.0003
92242017|NCT00829166|184387367|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.658|||<|0.0001|TWO_SIDED|95.0|0.56|0.774|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||0.774|0.560|<0.0001
92242018|NCT00829166|184387368|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|12.7||||0.0002|TWO_SIDED|95.0|6.0|19.4|||Mantel-Haenszel chi-squared test||The 95% CI for the difference in objective response rate (Trastuzumab emtansine minus Lapatinib + Capecitabine) was computed by using the approximate normal method.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||19.4|6.0|0.0002
92242019|NCT00829166|184387370|SUPERIORITY_OR_OTHER||Difference in Clinical Benefit Rate|14.0|||||TWO_SIDED|95.0|7.0|20.9|||||The 95% CI for the difference in clinical benefit rate (Trastuzumab emtansine minus Lapatinib + Capecitabine) was computed by using the normal approximation method.|||20.9|7.0|
92453985|NCT00833989|184796334|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.71|STANDARD_ERROR_OF_MEAN|9.021|||TWO_SIDED|95.0|-2.63|34.06|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 1 mg/kg, Visit 6||34.06|-2.63|
92453986|NCT00833989|184796334|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.56|STANDARD_ERROR_OF_MEAN|8.835|||TWO_SIDED|95.0|-6.38|29.5|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 5 mg/kg, Visit 6||29.50|-6.38|
92453987|NCT00833989|184796334|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.49|STANDARD_ERROR_OF_MEAN|9.641|||TWO_SIDED|95.0|-27.1|12.08|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 15 mg/kg, Visit 6||12.08|-27.1|
92453988|NCT00833989|184796335|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|1.849|||TWO_SIDED|95.0|-4.12|3.43|||ANCOVA||Mean difference= GSK249320 1 mg/kg - Placebo Day 90 MoCA = Treatment + Day 5 MoCA|Placebo Vs GSK249320 1 mg/kg, Visit 6||3.43|-4.12|
92242020|NCT00829166|184387372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.703|||<|0.0001|TWO_SIDED|95.0|0.602|0.82|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||0.820|0.602|<0.0001
92242021|NCT00829166|184387374|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.796||||0.0121|TWO_SIDED|95.0|0.667|0.951|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||0.951|0.667|0.0121
92242022|NCT02538666|184387375|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.3693|TWO_SIDED|95.0|0.75|1.12|||Stratified Log Rank|Stratified by response to ECOG PS (0vs1), gender (MvF), irradiation following chemotherapy (YorN) as entered in IVRS|based on stratified 3-arms Cox proportional hazard model|nivolumab + ipilimumab over placebo||1.12|0.75|0.3693
92242023|NCT02538666|184387376|SUPERIORITY||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.68|0.97|||||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab over global placebo||0.97|0.68|
92242024|NCT02538666|184387376|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.53|1.66|||||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China nivolumab over China Placebo||1.66|0.53|
92242025|NCT02538666|184387377|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.94|1.36|||||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab + ipilimumab over global nivolumab||1.36|0.94|
92242026|NCT02538666|184387377|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.56|1.79|||||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China nivolumab + ipilimumab over China nivolumab||1.79|0.56|
92242027|NCT02538666|184387378|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.62|0.88|||||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab + ipilimumab over global placebo||0.88|0.62|
92242028|NCT02538666|184387378|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.55|0.79|||||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab over global placebo||0.79|0.55|
92453989|NCT00833989|184796335|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|1.856|||TWO_SIDED|95.0|-3.96|3.62|||ANCOVA||Mean difference= GSK249320 5 mg/kg - Placebo Day 90 MoCA = Treatment + Day 5 MoCA|Placebo Vs GSK249320 5 mg/kg, Visit 6||3.62|-3.96|
92453990|NCT00833989|184796335|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.15|STANDARD_ERROR_OF_MEAN|2.037|||TWO_SIDED|95.0|-5.31|3.01|||ANCOVA||Mean difference= GSK249320 15 mg/kg - Placebo Day 90 MoCA = Treatment + Day 5 MoCA|Placebo Vs GSK249320 15 mg/kg, Visit 6||3.01|-5.31|
92453991|NCT00833989|184796336|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|1.408|||TWO_SIDED|95.0|-3.12|2.63|||ANCOVA||"Mean difference= GSK249320 1 mg/kg - Placebo.~Day 90 GDS Score= Treatment + Day 5 GDS Score"|Placebo Vs GSK249320 1 mg/kg, Visit 6||2.63|-3.12|
92453992|NCT00833989|184796336|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.55|STANDARD_ERROR_OF_MEAN|1.347|||TWO_SIDED|95.0|-1.2|4.3|||ANCOVA||"Mean difference= GSK249320 5 mg/kg - Placebo~Day 90 GDS Score= Treatment + Day 5 GDS Score"|Placebo Vs GSK249320 5 mg/kg, Visit 6||4.30|-1.20|
92453993|NCT00833989|184796336|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|1.486|||TWO_SIDED|95.0|-3.09|2.98|||ANCOVA||"Mean difference= GSK249320 15 mg/kg - Placebo.~Day 90 GDS Score= Treatment+Day 5 GDS Score"|Placebo Vs GSK249320 15 mg/kg, Visit 6||2.98|-3.09|
92453994|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.289|STANDARD_ERROR_OF_MEAN|0.2639|||TWO_SIDED|95.0|-0.841|0.264|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline|Stimulation Level 100%, Visit 4 Day 30||0.264|-0.841|
92242029|NCT02538666|184387378|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.94|1.35|||||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab+ ipilimumab over nivolumab||1.35|0.94|
92242030|NCT02538666|184387378|SUPERIORITY||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.33|1.12|||||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China Nivolumab + Ipilimumab over China placebo||1.12|0.33|
92242031|NCT02538666|184387378|SUPERIORITY||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.24|0.85|||||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China Nivolumab over China placebo||0.85|0.24|
92242032|NCT02538666|184387378|SUPERIORITY||Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|0.72|2.49|||||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China Nivolumab + Ipilimumab over China Nivolumab||2.49|0.72|
92242033|NCT02538666|184387379|SUPERIORITY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.61|1.15|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥10 mutations/mb: Nivo+Ipi over placebo||1.15|0.61|
92242034|NCT02538666|184387379|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.55|1.04|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥10 mutations/mb: Nivo over placebo||1.04|0.55|
92242035|NCT02538666|184387379|SUPERIORITY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.42|0.92|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥13 mutations/mb: Nivo+Ipi over placebo||0.92|0.42|
92242036|NCT02538666|184387379|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.44|0.93|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥13 mutations/mb: Nivo over placebo||0.93|0.44|
92242037|NCT02538666|184387379|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.68|1.21|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<10 mutations/mb: Nivo+Ipi over placebo||1.21|0.68|
92242038|NCT02538666|184387379|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.66|1.18|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<10 mutations/mb: Nivo over placebo||1.18|0.66|
92287220|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.596|TWO_SIDED|95.0|-0.055|0.096|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.096|-0.055|0.596
92242039|NCT02538666|184387379|SUPERIORITY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.81|1.35|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<13 mutations/mb: Nivo+Ipi over placebo||1.35|0.81|
92242040|NCT02538666|184387379|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.72|1.2|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<13 mutations/mb: Nivo over placebo||1.20|0.72|
92242041|NCT02538666|184387380|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.58|1.09|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥10 mutations/mb: Nivo+Ipi over placebo||1.09|0.58|
92242042|NCT02538666|184387380|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.5|0.92|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥10 mutations/mb: Nivo over placebo||0.92|0.50|
92242043|NCT02538666|184387380|SUPERIORITY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.5|1.07|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥13 mutations/mb: Nivo+Ipi over placebo||1.07|0.50|
92242044|NCT02538666|184387380|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.46|0.95|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥13 mutations/mb: Nivo over placebo||0.95|0.46|
92242045|NCT02538666|184387380|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.54|0.96|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<10 mutations/mb: Nivo+Ipi over placebo||0.96|0.54|
92242046|NCT02538666|184387380|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.49|0.89|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<10 mutations/mb: Nivo over placebo||0.89|0.49|
92242047|NCT02538666|184387380|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.6|1.01|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<13 mutations/mb: Nivo+Ipi over placebo||1.01|0.60|
92242048|NCT02538666|184387380|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.53|0.89|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<13 mutations/mb: Nivo over placebo||0.89|0.53|
92242049|NCT02538666|184387381|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.76|1.09|||Stratified Log Rank||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab + ipilimumab over Global placebo||1.09|0.76|
92242050|NCT02538666|184387381|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.52|1.67|||Stratified Log Rank||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China nivolumab + ipilimumab over China placebo||1.67|0.52|
92242051|NCT00320385|184387392|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.008|TWO_SIDED|95.0|0.57|0.93|||Log Rank||The Pike estimator of the treatment hazard ratio based on the log-rank test was provided, together with a 95% confidence interval.|||0.93|0.57|0.008
92242052|NCT00320385|184387393|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.106|TWO_SIDED|95.0|0.53|1.07|||Log Rank||The Pike estimator of the treatment hazard ratio based on the log-rank test was provided, together with a 95% confidence interval.|||1.07|0.53|0.106
92242053|NCT00320385|184387394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.46|TWO_SIDED|95.0|0.6|3.9|||Fisher Exact||Responses were compared between treatment arms using stratified Fisher's exact tests.|||3.9|0.6|0.460
92242054|NCT00320385|184387395|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.01|TWO_SIDED|95.0|1.2|4.5|||Fisher Exact||Clinical Benefit was compared between treatment arms using stratified Fisher's exact tests.|||4.5|1.2|0.010
92173523|NCT03232138|184238199|EQUIVALENCE|This analysis was focused on the gene set that were found to be upregulated in lung premalignant lesions. The objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these premalignant lesion-associated upregulated genes in nasal brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|0.17|STANDARD_ERROR_OF_MEAN|0.16||0.32|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would downregulate the expression of these genes whose upregulated expressions in bronchial epithelial cells have been found to be associated with risk of lung premalignant lesions.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.32
92173524|NCT03232138|184238200|EQUIVALENCE|This analysis was focused on the gene set that were found to be downregulated in lung premalignant lesions. The objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these premalignant lesion-associated downregulated genes in nasal brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|-0.16|STANDARD_ERROR_OF_MEAN|0.14||0.27|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would upregulate the expression of these genes whose downregulated expressions in bronchial epithelial cells have been found to be associated with risk of lung premalignant lesions.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.27
92173525|NCT03232138|184238201|EQUIVALENCE|Total number of adverse events by attrition and severity by treatment group during the study period, The Pittsburgh Clinical Trial of Sulforaphane (SFN) on Risk Markers of Lung Cancer||||||0.59||||||For severity by treatment group.|Fisher Exact|||||||0.590
92173526|NCT03232138|184238201|EQUIVALENCE|Total number of adverse events by attrition and severity by treatment group during the study period, The Pittsburgh Clinical Trial of Sulforaphane (SFN) on Risk Markers of Lung Cancer||||||0.131||||||For attribution by treatment group.|Fisher Exact|||||||0.131
92173527|NCT04359108|184238236|OTHER|||||||0.02|||||||ANOVA|||Navigate to Destination Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||0.02
92173528|NCT04359108|184238236|OTHER|||||||0.22|||||||t-test, 2 sided|||Navigate to Destination Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||0.22
92173529|NCT04359108|184238236|OTHER|||||||0.017|||||||t-test, 2 sided|||Navigate to Destination Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.017
92173530|NCT04359108|184238236|OTHER|||||||0.98|||||||t-test, 2 sided|||Navigate to Destination Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.98
92242055|NCT04370028|184387400|SUPERIORITY||Mean Difference (Net)|4.57|||<|1e-05|TWO_SIDED|95.0|4.42|4.72|||t-test, 2 sided|Paired test was performed||||4.72|4.42|<0.00001
92173531|NCT04359108|184238236|OTHER|||||||0.014|||||||t-test, 2 sided|||Navigate to Destination Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||0.014
92173532|NCT04359108|184238236|OTHER||||||<|0.001|||||||ANOVA|||Obstacle Avoidance Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||<0.001
92173533|NCT04359108|184238236|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||<0.01
92173534|NCT04359108|184238236|OTHER|||||||0.156|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.156
92173535|NCT04359108|184238236|OTHER|||||||0.541|||||||t-test, 2 sided|||Obstacle Avoidance Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.541
92173536|NCT04359108|184238236|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||<0.01
92173537|NCT04359108|184238236|OTHER|||||||||||||||||Obstacle Avoidance Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.10"|||
92242056|NCT04370028|184387401|SUPERIORITY||Odds Ratio (OR)|7.2|||<|1e-05|TWO_SIDED|95.0|6.01|8.67|||Fisher Exact||OR estimated (week 1 to week 12) the higher the better|Odds ratio of occuring MoCA score \<26 was assessed||8.67|6.01|<0.00001
92242057|NCT04370028|184387402|SUPERIORITY||Odds Ratio (OR)|5.31|||<|1e-05|TWO_SIDED|95.0|4.28|6.64|||Fisher Exact||OR estimated (week 1 to week 12) the higher the better|Odds ratio of occuring MoCA score \<17 was assessed||6.64|4.28|<0.00001
92242058|NCT04370028|184387403|SUPERIORITY||Mean Difference (Net)|2.375|||<|0.07|TWO_SIDED|95.0|-0.21|4.96|||ANOVA|||Change of mean MoCA score||4.96|-0.21|<0.07
92242059|NCT04370028|184387403|SUPERIORITY||Mean Difference (Net)|4.74|||<|0.01|TWO_SIDED|95.0|4.17|5.31|||ANOVA|||Change of mean MoCA score||5.31|4.17|<0.01
92242060|NCT04370028|184387403|SUPERIORITY||Mean Difference (Net)|4.55|||<|0.01|TWO_SIDED|95.0|4.16|4.94|||ANOVA|||Change of mean MoCA score||4.94|4.16|<0.01
92242061|NCT04370028|184387403|SUPERIORITY||Mean Difference (Net)|4.49|||<|0.01|TWO_SIDED|95.0|3.7|5.27|||ANOVA|||Change of mean MoCA score||5.27|3.7|<0.01
92242062|NCT04370028|184387405|SUPERIORITY||Mean Difference (Net)|0.803|STANDARD_ERROR_OF_MEAN|0.246||0.0011|TWO_SIDED|95.0|0.321|1.28|||ANOVA|||||1.28|0.321|0.0011
92242063|NCT02492750|184387407|OTHER||Maximum Tolerated Dose (MTD) Level|3.0|||||TWO_SIDED||||||||MTD is defined as the dose level below the lowest dose that induces DLT in at least one-third of patients. A total of 6 patients treated at the MTD will be sufficient to identify common toxicities at the MTD.|||||
92242064|NCT00540436|184387460|SUPERIORITY_OR_OTHER||Mean change|33.49||||||95.0|15.231|51.744||||||||51.744|15.231|
92242065|NCT00540436|184387461|SUPERIORITY_OR_OTHER||Mean change|46.82||||||95.0|24.566|69.076||||||||69.076|24.566|
92242066|NCT01515306|184387471|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Geo LS means|1.09|||||TWO_SIDED|90.0|0.93|1.29|||Mixed Models Analysis|Ratio of Geo LS mean is AUC(0-∞) of Cycle 2/Cycle 1.||||1.29|0.93|
92242067|NCT01515306|184387473|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Geo LS means|0.97|||||TWO_SIDED|90.0|0.83|1.13|||Mixed Models Analysis|Ratio of Geo LS mean is Cmax of Cycle 2/Cycle 1.||||1.13|0.83|
92242068|NCT03364335|184387500|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.5461|||||||ANCOVA|||||||0.5461
92242069|NCT03364335|184387500|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0364|||||||ANCOVA|||||||0.0364
92242070|NCT03364335|184387500|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0156|||||||ANCOVA|||||||0.0156
92242071|NCT03364335|184387500|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0349|||||||ANCOVA|||||||0.0349
92242072|NCT03364335|184387501|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.5348|||||||ANCOVA|||||||0.5348
92173538|NCT04359108|184238236|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 1.00"|||
92242073|NCT03364335|184387501|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0379|||||||ANCOVA|||||||0.0379
92242074|NCT03364335|184387501|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0215|||||||ANCOVA|||||||0.0215
92242075|NCT03364335|184387501|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0464|||||||ANCOVA|||||||0.0464
92242076|NCT03364335|184387502|OTHER|Pearson's Chi Square Test is used. Fisher exact test is used when any expected cell count is less than 5. Treatment A is used as the reference group.||||||1|||||||Chi-squared|||||||1.0000
92242077|NCT03364335|184387502|OTHER|Pearson's Chi Square Test is used. Fisher exact test is used when any expected cell count is less than 5. Treatment A is used as the reference group.||||||0.2646|||||||Chi-squared|||||||0.2646
92242078|NCT03364335|184387502|OTHER|Pearson's Chi Square Test is used. Fisher exact test is used when any expected cell count is less than 5. Treatment A is used as the reference group.||||||0.0749|||||||Chi-squared|||||||0.0749
92242079|NCT03364335|184387502|OTHER|Pearson's Chi Square Test is used. Fisher exact test is used when any expected cell count is less than 5. Treatment A is used as the reference group.||||||0.6758|||||||Chi-squared|||||||0.6758
92242080|NCT03364335|184387503|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline waist circumference as the covariate. Treatment A is used as the reference group.||||||0.9656|||||||ANCOVA|||||||0.9656
92242081|NCT03364335|184387503|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline waist circumference as the covariate. Treatment A is used as the reference group.||||||0.4254|||||||ANCOVA|||||||0.4254
92242082|NCT03364335|184387503|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline waist circumference as the covariate. Treatment A is used as the reference group.||||||0.1276|||||||ANCOVA|||||||0.1276
92242083|NCT03364335|184387503|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline waist circumference as the covariate. Treatment A is used as the reference group.||||||0.5937|||||||ANCOVA|||||||0.5937
92242084|NCT03364335|184387504|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.601|||||||ANCOVA|||||||0.6010
92242085|NCT03364335|184387504|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.6513|||||||ANCOVA|||||||0.6513
92242086|NCT03364335|184387504|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.4354|||||||ANCOVA|||||||0.4354
92242087|NCT03364335|184387504|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.031|||||||ANCOVA|||||||0.0310
92242088|NCT03364335|184387505|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.4644|||||||ANCOVA|||||||0.4644
92242089|NCT03364335|184387505|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.8573|||||||ANCOVA|||||||0.8573
92242090|NCT03364335|184387505|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.8167|||||||ANCOVA|||||||0.8167
92453995|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.2637|||TWO_SIDED|95.0|-0.862|0.241|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 100%, Visit 4 Day 30||0.241|-0.862|
92453996|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.303|STANDARD_ERROR_OF_MEAN|0.3172|||TWO_SIDED|95.0|-0.966|0.361|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 100%, Visit 4 Day 30||0.361|-0.966|
92453997|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.204|STANDARD_ERROR_OF_MEAN|0.1841|||TWO_SIDED|95.0|-0.184|0.593|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 100%, Visit 7 Day 112||0.593|-0.184|
92453998|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.105|STANDARD_ERROR_OF_MEAN|0.1846|||TWO_SIDED|95.0|-0.284|0.494|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 100%, Visit 7 Day 112||0.494|-0.284|
92453999|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.416|STANDARD_ERROR_OF_MEAN|0.2602|||TWO_SIDED|95.0|-0.132|0.965|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 100%, Visit 7 Day 112||0.965|-0.132|
92454000|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.156|STANDARD_ERROR_OF_MEAN|0.8652|||TWO_SIDED|95.0|-0.65|2.961|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 110%, Visit 4 Day 30||2.961|-0.650|
92454001|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.518|STANDARD_ERROR_OF_MEAN|0.8324|||TWO_SIDED|95.0|-2.249|1.213|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 110%, Visit 4 Day 30||1.213|-2.249|
92454002|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.269|STANDARD_ERROR_OF_MEAN|1.0383|||TWO_SIDED|95.0|-2.436|1.898|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 110%, Visit 4 Day 30||1.898|-2.436|
92454003|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.806|STANDARD_ERROR_OF_MEAN|0.5862|||TWO_SIDED|95.0|-0.42|2.031|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 110%, Visit 7 Day 112||2.031|-0.420|
92454004|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.007|STANDARD_ERROR_OF_MEAN|0.564|||TWO_SIDED|95.0|-1.183|1.168|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit"|Stimulation Level 110%, Visit 7 Day 112||1.168|-1.183|
92454005|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.506|STANDARD_ERROR_OF_MEAN|0.757|||TWO_SIDED|95.0|-0.064|3.077|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 110%, Visit 7 Day 112||3.077|-0.064|
92454006|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.644|STANDARD_ERROR_OF_MEAN|1.2976|||TWO_SIDED|95.0|-1.056|4.344|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 4 Day 30||4.344|-1.056|
92454007|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.231|STANDARD_ERROR_OF_MEAN|1.1762|||TWO_SIDED|95.0|-2.681|2.219|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 4 Day 30||2.219|-2.681|
92454008|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.184|STANDARD_ERROR_OF_MEAN|1.4796|||TWO_SIDED|95.0|-3.279|2.91|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 4 Day 30||2.910|-3.279|
92454009|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.622|STANDARD_ERROR_OF_MEAN|0.9746|||TWO_SIDED|95.0|-1.428|2.672|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 7 Day 112||2.672|-1.428|
92454010|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.602|STANDARD_ERROR_OF_MEAN|0.934|||TWO_SIDED|95.0|-2.56|1.356|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 7 Day 112||1.356|-2.560|
92454011|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.063|STANDARD_ERROR_OF_MEAN|1.281|||TWO_SIDED|95.0|-0.61|4.736|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 7 Day 112||4.736|-0.610|
92454012|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.556|STANDARD_ERROR_OF_MEAN|1.4588|||TWO_SIDED|95.0|-1.494|4.607|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 4 Day 30||4.607|-1.494|
92454013|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.531|STANDARD_ERROR_OF_MEAN|1.2336|||TWO_SIDED|95.0|-3.102|2.041|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 4 Day 30||2.041|-3.102|
92242091|NCT03364335|184387505|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.9223|||||||ANCOVA|||||||0.9223
92454014|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.185|STANDARD_ERROR_OF_MEAN|1.5697|||TWO_SIDED|95.0|-3.471|3.101|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 4 Day 30||3.101|-3.471|
92454015|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.686|STANDARD_ERROR_OF_MEAN|1.2689|||TWO_SIDED|95.0|-1.996|3.367|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 7 Day 112||3.367|-1.996|
92454016|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.556|STANDARD_ERROR_OF_MEAN|1.0822|||TWO_SIDED|95.0|-2.838|1.726|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 7 Day 112||1.726|-2.838|
92454017|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.219|STANDARD_ERROR_OF_MEAN|1.4792|||TWO_SIDED|95.0|-0.884|5.322|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 7 Day 112||5.322|-0.884|
92454018|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.631|STANDARD_ERROR_OF_MEAN|1.589|||TWO_SIDED|95.0|-1.696|4.958|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 4 Day 30||4.958|-1.696|
92454019|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.508|STANDARD_ERROR_OF_MEAN|1.2985|||TWO_SIDED|95.0|-3.219|2.203|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 4 Day 30||2.203|-3.219|
92454020|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|1.6603|||TWO_SIDED|95.0|-3.369|3.588|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 4 Day 30||3.588|-3.369|
92454021|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.852|STANDARD_ERROR_OF_MEAN|1.5675|||TWO_SIDED|95.0|-2.446|4.15|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 7 Day 112||4.150|-2.446|
92454022|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.357|STANDARD_ERROR_OF_MEAN|1.2918|||TWO_SIDED|95.0|-3.074|2.359|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 7 Day 112||2.359|-3.074|
92454023|NCT00833989|184796337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.686|STANDARD_ERROR_OF_MEAN|1.7306|||TWO_SIDED|95.0|-1.937|5.308|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 7 Day 112||5.308|-1.937|
92454024|NCT01827904|184796412|SUPERIORITY|Percent change from Baseline at the 3 Month visit in the Exablate test vs. Sham control arms was tested using the t-test.|||||<|0.001|||||||t-test, 1 sided|alpha = 0.05 for the hypothesis test. H0: M3ExAblate ≤ M3Sham H1: M3ExAblate \> M3Sham||"Note that the Crossover group was a rescue treatment group and not integral to the experimental design statistical analysis."||||<0.001
92242092|NCT03364335|184387506|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.6574|||||||ANCOVA|||||||0.6574
92454025|NCT04266028|184796418|OTHER|No statistical analyses were performed.|no statistical analyses were performed|0.0|||||TWO_SIDED|||||No statistical analyses were performed||||No statistical analyses were performed.|No statistical analyses were performed.|||
92454026|NCT01458574|184796422|SUPERIORITY_OR_OTHER||Difference in percentage|23.2|||<|0.0001|TWO_SIDED|95.0|15.3|31.2|||CMH chi-square test|||P-value based on Cochran-Mantel-Haenszel (CMH) chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95 percent (%) confidence interval (CI) based on normal approximation for the difference in binomial proportions. Missing data were imputed using Non-responder imputation (NRI).||31.2|15.3|<0.0001
92454027|NCT01458574|184796422|SUPERIORITY_OR_OTHER||Difference in percentage|29.5|||<|0.0001|TWO_SIDED|95.0|21.4|37.6|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||37.6|21.4|<0.0001
92454028|NCT01458574|184796423|SUPERIORITY_OR_OTHER||Difference in percentage|24.2|||<|0.0001|TWO_SIDED|95.0|16.0|32.5|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||32.5|16.0|<0.0001
92454029|NCT01458574|184796423|SUPERIORITY_OR_OTHER||Difference in percentage|32.6|||<|0.0001|TWO_SIDED|95.0|24.2|41.0|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||41.0|24.2|<0.0001
92242093|NCT03364335|184387506|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.8971|||||||ANCOVA|||||||0.8971
92242094|NCT03364335|184387506|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.6317|||||||ANCOVA|||||||0.6317
92242095|NCT03364335|184387506|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.0341|||||||ANCOVA|||||||0.0341
92454030|NCT01458574|184796424|SUPERIORITY_OR_OTHER||Difference in percentage|30.3|||<|0.0001|TWO_SIDED|95.0|17.4|43.2|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||43.2|17.4|<0.0001
92454031|NCT01458574|184796424|SUPERIORITY_OR_OTHER||Difference in percentage|42.2|||<|0.0001|TWO_SIDED|95.0|27.9|56.5|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||56.5|27.9|<0.0001
92454032|NCT01458574|184796425|SUPERIORITY_OR_OTHER||Difference in percentage|22.7|||<|0.0001|TWO_SIDED|95.0|14.8|30.6|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||30.6|14.8|<0.0001
92454033|NCT01458574|184796425|SUPERIORITY_OR_OTHER||Difference in percentage|24.4|||<|0.0001|TWO_SIDED|95.0|16.4|32.4|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||32.4|16.4|<0.0001
92454034|NCT01458574|184796426|SUPERIORITY_OR_OTHER||Difference in percentage|17.2|||<|0.0001|TWO_SIDED|95.0|10.6|23.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||23.7|10.6|<0.0001
92454035|NCT01458574|184796426|SUPERIORITY_OR_OTHER||Difference in percentage|20.3|||<|0.0001|TWO_SIDED|95.0|13.5|27.1|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||27.1|13.5|<0.0001
92454036|NCT01458574|184796427|SUPERIORITY_OR_OTHER||Difference in percentage|26.8|||<|0.0001|TWO_SIDED|95.0|18.1|35.5|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||35.5|18.1|<0.0001
92454037|NCT01458574|184796427|SUPERIORITY_OR_OTHER||Difference in percentage|29.0|||<|0.0001|TWO_SIDED|95.0|20.3|37.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||37.7|20.3|<0.0001
92454038|NCT01458574|184796428|SUPERIORITY_OR_OTHER||Difference in percentage|21.2|||<|0.0001|TWO_SIDED|95.0|14.1|28.3|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||28.3|14.1|<0.0001
92454039|NCT01458574|184796428|SUPERIORITY_OR_OTHER||Difference in percentage|26.4|||<|0.0001|TWO_SIDED|95.0|19.0|33.8|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||33.8|19.0|<0.0001
92454040|NCT01458574|184796429|SUPERIORITY_OR_OTHER||Difference in percentage|30.6|||<|0.0001|TWO_SIDED|95.0|18.1|43.1|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||43.1|18.1|<0.0001
92454041|NCT01458574|184796429|SUPERIORITY_OR_OTHER||Difference in percentage|44.5|||<|0.0001|TWO_SIDED|95.0|31.8|57.2|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||57.2|31.8|<0.0001
92242096|NCT03364335|184387507|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.372|||||||ANCOVA|||||||0.3720
92454042|NCT01458574|184796429|SUPERIORITY_OR_OTHER||Difference in percentage|30.0|||<|0.0001|TWO_SIDED|95.0|18.7|41.4|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||41.4|18.7|<0.0001
92242097|NCT03364335|184387507|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.2302|||||||ANCOVA|||||||0.2302
92454043|NCT01458574|184796429|SUPERIORITY_OR_OTHER||Difference in percentage|43.2|||<|0.0001|TWO_SIDED|95.0|31.1|55.3|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||55.3|31.1|<0.0001
92454044|NCT01458574|184796430|SUPERIORITY_OR_OTHER||Difference in percentage|24.4|||<|0.0001|TWO_SIDED|95.0|13.8|35.0|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||35.0|13.8|<0.0001
92242098|NCT03364335|184387507|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.1377|||||||ANCOVA|||||||0.1377
92242099|NCT03364335|184387507|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.4295|||||||ANCOVA|||||||0.4295
92454045|NCT01458574|184796430|SUPERIORITY_OR_OTHER||Difference in percentage|40.5|||<|0.0001|TWO_SIDED|95.0|28.7|52.3|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||52.3|28.7|<0.0001
92454046|NCT01458574|184796431|SUPERIORITY_OR_OTHER||Difference in percentage|30.3|||<|0.0001|TWO_SIDED|95.0|20.9|39.7|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||39.7|20.9|<0.0001
92454047|NCT01458574|184796431|SUPERIORITY_OR_OTHER||Difference in percentage|37.2|||<|0.0001|TWO_SIDED|95.0|28.1|46.4|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||46.4|28.1|<0.0001
92454048|NCT01458574|184796431|SUPERIORITY_OR_OTHER||Difference in percentage|31.3|||<|0.0001|TWO_SIDED|95.0|22.4|40.2|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||40.2|22.4|<0.0001
92454049|NCT01458574|184796431|SUPERIORITY_OR_OTHER||Difference in percentage|41.7|||<|0.0001|TWO_SIDED|95.0|32.9|50.5|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||50.5|32.9|<0.0001
92454050|NCT01458574|184796432|SUPERIORITY_OR_OTHER||Difference in percentage|29.8|||<|0.0001|TWO_SIDED|95.0|20.9|38.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||38.7|20.9|<0.0001
92454051|NCT01458574|184796432|SUPERIORITY_OR_OTHER||Difference in percentage|40.2|||<|0.0001|TWO_SIDED|95.0|31.4|49.0|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||49.0|31.4|<0.0001
92242100|NCT03364335|184387508|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline Fasting Plasma Glucose as the covariate. Treatment A is used as the reference group.||||||0.6726|||||||ANCOVA|||||||0.6726
92454052|NCT01458574|184796433|SUPERIORITY_OR_OTHER||Difference in percentage|23.2|||<|0.0001|TWO_SIDED|95.0|15.3|31.2|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||31.2|15.3|<0.0001
92242101|NCT03364335|184387508|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline Fasting Plasma Glucose as the covariate. Treatment A is used as the reference group.||||||0.7934|||||||ANCOVA|||||||0.7934
92242102|NCT03364335|184387508|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline Fasting Plasma Glucose as the covariate. Treatment A is used as the reference group.||||||0.5485|||||||ANCOVA|||||||0.5485
92242103|NCT03364335|184387508|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline Fasting Plasma Glucose as the covariate. Treatment A is used as the reference group.||||||0.3676|||||||ANCOVA|||||||0.3676
92242104|NCT03364335|184387509|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline HbA1c as the covariate. Treatment A is used as the reference group.||||||0.1653|||||||ANCOVA|||||||0.1653
92242105|NCT03364335|184387509|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline HbA1c as the covariate. Treatment A is used as the reference group.||||||0.197|||||||ANCOVA|||||||0.1970
92242106|NCT03364335|184387509|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline HbA1c as the covariate. Treatment A is used as the reference group.||||||0.0608|||||||ANCOVA|||||||0.0608
92242107|NCT03364335|184387509|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline HbA1c as the covariate. Treatment A is used as the reference group.||||||0.1583|||||||ANCOVA|||||||0.1583
92242108|NCT03364335|184387510|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline diastolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.0524|||||||ANCOVA|||||||0.0524
92242109|NCT03364335|184387510|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline diastolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.5221|||||||ANCOVA|||||||0.5221
92242110|NCT03364335|184387510|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline diastolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.3702|||||||ANCOVA|||||||0.3702
92454053|NCT01458574|184796433|SUPERIORITY_OR_OTHER||Difference in percentage|24.4|||<|0.0001|TWO_SIDED|95.0|16.4|32.4|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||32.4|16.4|<0.0001
92454054|NCT01458574|184796433|SUPERIORITY_OR_OTHER||Difference in percentage|23.2|||<|0.0001|TWO_SIDED|95.0|15.3|31.2|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||31.2|15.3|<0.0001
92454055|NCT01458574|184796433|SUPERIORITY_OR_OTHER||Difference in percentage|30.0|||<|0.0001|TWO_SIDED|95.0|21.9|38.2|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||38.2|21.9|<0.0001
92454056|NCT01458574|184796434|SUPERIORITY_OR_OTHER||Difference in percentage|17.2|||<|0.0001|TWO_SIDED|95.0|10.6|23.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||23.7|10.6|<0.0001
92454057|NCT01458574|184796434|SUPERIORITY_OR_OTHER||Difference in percentage|20.8|||<|0.0001|TWO_SIDED|95.0|14.0|27.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||27.7|14.0|<0.0001
92454058|NCT01458574|184796435|SUPERIORITY_OR_OTHER||Difference in percentage|10.1||||0.0006|TWO_SIDED|95.0|4.5|15.7|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||15.7|4.5|0.0006
92454059|NCT01458574|184796435|SUPERIORITY_OR_OTHER||Difference in percentage|6.6||||0.0092|TWO_SIDED|95.0|1.5|11.7|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||11.7|1.5|0.0092
92454060|NCT01458574|184796435|SUPERIORITY_OR_OTHER||Difference in percentage|10.6||||0.0004|TWO_SIDED|95.0|5.0|16.2|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||16.2|5.0|0.0004
92454061|NCT01458574|184796435|SUPERIORITY_OR_OTHER||Difference in percentage|11.2|||<|0.0001|TWO_SIDED|95.0|5.5|16.9|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||16.9|5.5|<0.0001
92454062|NCT01458574|184796436|SUPERIORITY_OR_OTHER||Difference in percentage|5.6||||0.0029|TWO_SIDED|95.0|2.1|9.0|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||9.0|2.1|0.0029
92454063|NCT01458574|184796436|SUPERIORITY_OR_OTHER||Difference in percentage|3.0||||0.035|TWO_SIDED|95.0|0.3|5.8|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||5.8|0.3|0.0350
92242111|NCT03364335|184387510|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline diastolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.5426|||||||ANCOVA|||||||0.5426
92242112|NCT03364335|184387511|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline systolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.1843|||||||ANCOVA|||||||0.1843
92242113|NCT03364335|184387511|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline systolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.4411|||||||ANCOVA|||||||0.4411
92454064|NCT01458574|184796437|SUPERIORITY_OR_OTHER||Difference in percentage|17.2|||<|0.0001|TWO_SIDED|95.0|10.3|24.0|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||24.0|10.3|<0.0001
92454065|NCT01458574|184796437|SUPERIORITY_OR_OTHER||Difference in percentage|15.3|||<|0.0001|TWO_SIDED|95.0|8.5|22.0|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||22.0|8.5|<0.0001
92454066|NCT01458574|184796437|SUPERIORITY_OR_OTHER||Difference in percentage|15.7|||<|0.0001|TWO_SIDED|95.0|8.8|22.5|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||22.5|8.8|<0.0001
92454067|NCT01458574|184796437|SUPERIORITY_OR_OTHER||Difference in percentage|19.8|||<|0.0001|TWO_SIDED|95.0|12.7|27.0|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||27.0|12.7|<0.0001
92454068|NCT01458574|184796438|SUPERIORITY_OR_OTHER||Difference in percentage|11.1|||<|0.0001|TWO_SIDED|95.0|5.9|16.4|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||16.4|5.9|<0.0001
92454069|NCT01458574|184796438|SUPERIORITY_OR_OTHER||Difference in percentage|13.2|||<|0.0001|TWO_SIDED|95.0|7.7|18.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||18.7|7.7|<0.0001
92454070|NCT01458574|184796439|SUPERIORITY_OR_OTHER||Difference in percentage|12.1|||<|0.0001|TWO_SIDED|95.0|6.3|17.9|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||17.9|6.3|<0.0001
92454071|NCT01458574|184796439|SUPERIORITY_OR_OTHER||Difference in percentage|8.1||||0.0021|TWO_SIDED|95.0|2.8|13.5|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||13.5|2.8|0.0021
92454072|NCT01458574|184796439|SUPERIORITY_OR_OTHER||Difference in percentage|10.6||||0.0004|TWO_SIDED|95.0|5.0|16.2|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||16.2|5.0|0.0004
92242114|NCT03364335|184387511|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline systolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.6991|||||||ANCOVA|||||||0.6991
92242115|NCT03364335|184387511|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline systolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.3721|||||||ANCOVA|||||||0.3721
92454073|NCT01458574|184796439|SUPERIORITY_OR_OTHER||Difference in percentage|12.7|||<|0.0001|TWO_SIDED|95.0|6.8|18.6|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||18.6|6.8|<0.0001
92454074|NCT01458574|184796440|SUPERIORITY_OR_OTHER||Difference in percentage|5.6||||0.0029|TWO_SIDED|95.0|2.1|9.0|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||9.0|2.1|0.0029
92454075|NCT01458574|184796440|SUPERIORITY_OR_OTHER||Difference in percentage|4.6||||0.0064|TWO_SIDED|95.0|1.4|7.8|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||7.8|1.4|0.0064
92454076|NCT01458574|184796442|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.9|||Linear mixed effect model|||At Week 24||-1.9|-3.2|<0.0001
92454077|NCT01458574|184796442|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.8|||<|0.0001|TWO_SIDED|95.0|-3.5|-2.2|||Linear mixed effect model|||At Week 24||-2.2|-3.5|<0.0001
92454078|NCT01458574|184796442|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.4|-1.7|||Linear mixed effect model|||At Week 52||-1.7|-3.4|<0.0001
92454079|NCT01458574|184796442|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.3|||<|0.0001|TWO_SIDED|95.0|-4.1|-2.5|||Linear mixed effect model|||At Week 52||-2.5|-4.1|<0.0001
92454080|NCT01458574|184796443|SUPERIORITY_OR_OTHER||Difference in percentage|40.1|||<|0.0001|TWO_SIDED|95.0|25.0|55.3|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||55.3|25.0|<0.0001
92454081|NCT01458574|184796443|SUPERIORITY_OR_OTHER||Difference in percentage|48.4|||<|0.0001|TWO_SIDED|95.0|32.7|64.1|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||64.1|32.7|<0.0001
92454082|NCT01458574|184796443|SUPERIORITY_OR_OTHER||Difference in percentage|36.0|||<|0.0001|TWO_SIDED|95.0|21.6|50.3|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||50.3|21.6|<0.0001
92454083|NCT01458574|184796443|SUPERIORITY_OR_OTHER||Difference in percentage|46.2|||<|0.0001|TWO_SIDED|95.0|31.0|61.4|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||61.4|31.0|<0.0001
92454084|NCT01458574|184796444|SUPERIORITY_OR_OTHER||Difference in percentage|31.8|||<|0.0001|TWO_SIDED|95.0|18.8|44.8|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||44.8|18.8|<0.0001
92454085|NCT01458574|184796444|SUPERIORITY_OR_OTHER||Difference in percentage|42.2|||<|0.0001|TWO_SIDED|95.0|27.9|56.5|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||56.5|27.9|<0.0001
92454086|NCT01458574|184796445|SUPERIORITY_OR_OTHER||Difference in percentage|38.6|||<|0.0001|TWO_SIDED|95.0|23.4|53.8|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||53.8|23.4|<0.0001
92454087|NCT01458574|184796445|SUPERIORITY_OR_OTHER||Difference in percentage|48.4|||<|0.0001|TWO_SIDED|95.0|32.7|64.1|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||64.1|32.7|<0.0001
92454088|NCT01458574|184796445|SUPERIORITY_OR_OTHER||Difference in percentage|34.4|||<|0.0001|TWO_SIDED|95.0|20.1|48.8|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||48.8|20.1|<0.0001
92454089|NCT01458574|184796445|SUPERIORITY_OR_OTHER||Difference in percentage|46.2|||<|0.0001|TWO_SIDED|95.0|31.0|61.4|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||61.4|31.0|<0.0001
92454090|NCT01458574|184796446|SUPERIORITY_OR_OTHER||Difference in percentage|12.9||||0.0074|TWO_SIDED|95.0|2.6|23.2|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||23.2|2.6|0.0074
92454091|NCT01458574|184796446|SUPERIORITY_OR_OTHER||Difference in percentage|13.2||||0.0103|TWO_SIDED|95.0|2.4|24.1|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||24.1|2.4|0.0103
92454092|NCT01458574|184796446|SUPERIORITY_OR_OTHER||Difference in percentage|16.8||||0.0018|TWO_SIDED|95.0|6.2|27.5|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||27.5|6.2|0.0018
92242116|NCT03364335|184387512|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline hsCRP as the covariate. Treatment A is used as the reference group.||||||0.0318|||||||ANCOVA|||||||0.0318
92242117|NCT03364335|184387512|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline hsCRP as the covariate. Treatment A is used as the reference group.||||||0.3827|||||||ANCOVA|||||||0.3827
92454093|NCT01458574|184796446|SUPERIORITY_OR_OTHER||Difference in percentage|16.7||||0.0029|TWO_SIDED|95.0|5.5|27.9|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||27.9|5.5|0.0029
92242118|NCT03364335|184387512|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline hsCRP as the covariate. Treatment A is used as the reference group.||||||0.005|||||||ANCOVA|||||||0.0050
92454094|NCT01458574|184796447|SUPERIORITY_OR_OTHER||Difference in percentage|7.9||||0.0419|TWO_SIDED|95.0|0.1|15.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||15.7|0.1|0.0419
92454095|NCT01458574|184796447|SUPERIORITY_OR_OTHER||Difference in percentage|11.1||||0.0121|TWO_SIDED|95.0|2.3|19.9|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||19.9|2.3|0.0121
92454096|NCT03394924|184796493|SUPERIORITY||Odds Ratio (OR)|5.6||||0.106|TWO_SIDED|95.0|0.6|52.0|||Cochran-Mantel-Haenszel|||||52|0.6|0.106
92454097|NCT03394924|184796493|SUPERIORITY||Odds Ratio (OR)|7.0||||0.063|TWO_SIDED|95.0|0.75|65.22|||Cochran-Mantel-Haenszel|||||65.22|0.75|0.063
92454098|NCT03394924|184796497|SUPERIORITY||Least squares mean difference|0.47||||0.616|TWO_SIDED|95.0|-1.39|2.32|||ANCOVA|||Analysis for total bilirubin.||2.32|-1.39|0.616
92454099|NCT03394924|184796497|SUPERIORITY||Least squares mean difference|0.19||||0.844|TWO_SIDED|95.0|-1.78|2.16|||ANCOVA|||Analysis for total bilirubin.||2.16|-1.78|0.844
92454100|NCT03394924|184796497|SUPERIORITY||Least squares mean difference|-0.67||||0.18|TWO_SIDED|95.0|-1.67|0.32|||ANCOVA|||Analysis for conjugated bilirubin.||0.32|-1.67|0.18
92454101|NCT03394924|184796497|SUPERIORITY||Least squares mean difference|-0.64||||0.239|TWO_SIDED|95.0|-1.71|0.44|||ANCOVA|||Analysis for conjugated bilirubin.||0.44|-1.71|0.239
92454102|NCT03394924|184796497|SUPERIORITY||Least squares mean difference|1.21||||0.116|TWO_SIDED|95.0|-0.31|2.73|||ANCOVA|||Analysis for unconjugated bilirubin.||2.73|-0.31|0.116
92454103|NCT03394924|184796497|SUPERIORITY||Least squares mean difference|0.72||||0.36|TWO_SIDED|95.0|-0.84|2.28|||ANCOVA|||Analysis for unconjugated bilirubin.||2.28|-0.84|0.36
92454104|NCT03394924|184796498|SUPERIORITY||Least squares mean difference|-25.55||||0.001|TWO_SIDED|95.0|-40.07|-11.04|||ANCOVA|||Analysis for ALT.||-11.04|-40.07|0.001
92454105|NCT03394924|184796498|SUPERIORITY||Least squares mean difference|-21.35||||0.009|TWO_SIDED|95.0|-37.1|-5.6|||ANCOVA|||Analysis for ALT.||-5.6|-37.1|0.009
92454106|NCT03394924|184796498|SUPERIORITY||Least squares mean difference|-21.42||||0|TWO_SIDED|95.0|-32.48|-10.35|||ANCOVA|||Analysis for AST.||-10.35|-32.48|0.000
92454107|NCT03394924|184796498|SUPERIORITY||Least squares mean difference|-20.84||||0.001|TWO_SIDED|95.0|-32.8|-8.87|||ANCOVA|||Analysis for AST.||-8.87|-32.8|0.001
92242119|NCT03364335|184387512|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline hsCRP as the covariate. Treatment A is used as the reference group.||||||0.1045|||||||ANCOVA|||||||0.1045
92287221|NCT03086460|184479326|SUPERIORITY|"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."|Mean Difference (Final Values)|0.014||||0.72|TWO_SIDED|95.0|-0.061|0.088|||ANCOVA|||||0.088|-0.061|0.720
92454108|NCT03394924|184796498|SUPERIORITY||Least squares mean difference|-86.49||||0|TWO_SIDED|95.0|-123.78|-49.21|||ANCOVA|||Analysis for GGT.||-49.21|-123.78|0.000
92454109|NCT03394924|184796498|SUPERIORITY||Least squares mean difference|-115.13||||0|TWO_SIDED|95.0|-155.04|-75.22|||ANCOVA|||Analysis for GGT.||-75.22|-155.04|0.000
92454110|NCT03394924|184796499|SUPERIORITY||Least squares mean difference|-26.66||||0.148|TWO_SIDED|95.0|-63.1|9.79|||ANCOVA|||Analysis for HA.||9.79|-63.1|0.148
92454111|NCT03394924|184796499|SUPERIORITY||Least squares mean difference|-28.99||||0.142|TWO_SIDED|95.0|-68.02|10.05|||ANCOVA|||Analysis for HA.||10.05|-68.02|0.142
92454112|NCT03394924|184796499|SUPERIORITY||Least squares mean difference|-3.09||||0.02|TWO_SIDED|95.0|-5.68|-0.51|||ANCOVA|||Analysis for PIIINP.||-0.51|-5.68|0.02
92454113|NCT03394924|184796499|SUPERIORITY||Least squares mean difference|-3.79||||0.009|TWO_SIDED|95.0|-6.6|-0.97|||ANCOVA|||Analysis for PIIINP.||-0.97|-6.6|0.009
92454114|NCT03394924|184796499|SUPERIORITY||Least squares mean difference|-41.96||||0.015|TWO_SIDED|95.0|-75.47|-8.44|||ANCOVA|||Analysis for TIMP 1.||-8.44|-75.47|0.015
92454115|NCT03394924|184796499|SUPERIORITY||Least squares mean difference|-46.56||||0.011|TWO_SIDED|95.0|-81.91|-11.21|||ANCOVA|||Analysis for TIMP 1.||-11.21|-81.91|0.011
92454116|NCT03394924|184796499|SUPERIORITY||Least squares mean difference|-9.73||||0.018|TWO_SIDED|95.0|-17.7|-1.75|||ANCOVA|||Analysis for PRO C3.||-1.75|-17.7|0.018
92454117|NCT03394924|184796499|SUPERIORITY||Least squares mean difference|-6.73||||0.125|TWO_SIDED|95.0|-15.41|1.95|||ANCOVA|||Analysis for PRO C3.||1.95|-15.41|0.125
92454118|NCT03394924|184796500|SUPERIORITY||Least squares mean difference|-0.37||||0|TWO_SIDED|95.0|-0.56|-0.18|||ANCOVA|||||-0.18|-0.56|0.000
92242120|NCT03725202|184387513|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|17.1|||=|0.0019|TWO_SIDED|95.0|6.3|27.8|||Cochran-Mantel-Haenszel||Response rate difference = 15 mg Upadacitinib - Placebo|15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||27.8|6.3|=0.0019
92242121|NCT03725202|184387513|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|12.1|||=|0.0579|TWO_SIDED|95.0|-0.4|24.6|||Cochran-Mantel-Haenszel||Response rate difference = 7.5 mg Upadacitinib - Placebo|7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||24.6|-0.4|=0.0579
92242122|NCT03725202|184387514|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|20.7|||<|0.0001|TWO_SIDED|95.0|11.3|30.2|||Cochran-Mantel-Haenszel||Response rate difference = 15 mg Upadacitinib - Placebo|15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||30.2|11.3|<0.0001
92242123|NCT03725202|184387514|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|9.9|||=|0.0699|TWO_SIDED|95.0|-0.8|20.6|||Cochran-Mantel-Haenszel||Response rate difference = 7.5 mg Upadacitinib - Placebo|7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||20.6|-0.8|=0.0699
92242124|NCT03725202|184387515|SUPERIORITY|P-value is based on the van Elteren test, adjusting for the strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease)).|||||<|0.0001|||||||van Elteren test|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||||<0.0001
92242125|NCT03725202|184387515|SUPERIORITY|P-value is based on the van Elteren test, adjusting for the strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease)).|||||<|0.0001|||||||van Elteren test|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||||<0.0001
92242126|NCT03725202|184387516|SUPERIORITY|Treatment comparisons in the distribution of time-to-event between each upadacitinib group and the placebo are conducted using stratified log-rank test stratified by stratification factors (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease). Within each stratum, 95% CI for difference are calculated using Cox proportional hazards model with stratification factors as covariates|Cox Proportional Hazard|0.57|||=|0.0025|TWO_SIDED|95.0|0.399|0.826|||Log-rank test|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||0.826|0.399|=0.0025
92281170|NCT03740165|184465579|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0012|TWO_SIDED|95.0|0.5|0.86||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||0.86|0.50|0.0012
92454119|NCT03394924|184796500|SUPERIORITY||Least squares mean difference|-0.33||||0.002|TWO_SIDED|95.0|-0.54|-0.13|||ANCOVA|||||-0.13|-0.54|0.002
92454120|NCT03394924|184796501|SUPERIORITY||Least squares mean difference|-0.35||||0.026|TWO_SIDED|95.0|-0.65|-0.04|||ANCOVA|||||-0.04|-0.65|0.026
92454121|NCT03394924|184796501|SUPERIORITY||Least squares mean difference|-0.26||||0.104|TWO_SIDED|95.0|-0.57|0.05|||ANCOVA|||||0.05|-0.57|0.104
92454122|NCT03394924|184796502|SUPERIORITY||Least squares mean difference|6.81||||0.757|TWO_SIDED|95.0|-37.17|50.78|||ANCOVA|||Analysis for fibrinogen.||50.78|-37.17|0.757
92454123|NCT03394924|184796502|SUPERIORITY||Least squares mean difference|31.77||||0.174|TWO_SIDED|95.0|-14.42|77.97|||ANCOVA|||Analysis for fibrinogen.||77.97|-14.42|0.174
92454124|NCT03394924|184796502|SUPERIORITY||Least squares mean difference|-0.98||||0.378|TWO_SIDED|95.0|-3.18|1.23|||ANCOVA|||Analysis for CRP.||1.23|-3.18|0.378
92454125|NCT03394924|184796502|SUPERIORITY||Least squares mean difference|-3.1||||0.008|TWO_SIDED|95.0|-5.38|-0.83|||ANCOVA|||Analysis for CRP.||-0.83|-5.38|0.008
92454126|NCT03394924|184796503|SUPERIORITY||Least squares mean difference|0.34||||0.841|TWO_SIDED|95.0|-3.07|3.76|||ANCOVA|||Analysis for IL6.||3.76|-3.07|0.841
92454127|NCT03394924|184796503|SUPERIORITY||Least squares mean difference|-2.49||||0.163|TWO_SIDED|95.0|-6.01|1.04|||ANCOVA|||Analysis for IL6.||1.04|-6.01|0.163
92454128|NCT03394924|184796503|SUPERIORITY||Least squares mean difference|-0.53||||0.03|TWO_SIDED|95.0|-1.02|-0.05|||ANCOVA|||Analysis for TNF α.||-0.05|-1.02|0.03
92242127|NCT03725202|184387516|SUPERIORITY|Treatment comparisons in the distribution of time-to-event between each upadacitinib group and the placebo are conducted using stratified log-rank test stratified by stratification factors (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease). Within each stratum, 95% CI for difference are calculated using Cox proportional hazards model with stratification factors as covariates|Cox Proportional Hazard|0.75|||=|0.1778|TWO_SIDED|95.0|0.499|1.136|||Log-rank test|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||1.136|0.499|=0.1778
92281171|NCT03740165|184465579|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4366|TWO_SIDED|95.0|0.75|1.27||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.27|0.75|0.4366
92281172|NCT03740165|184465580|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0008|TWO_SIDED|95.0|0.61|0.89||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||0.89|0.61|0.0008
92454129|NCT03394924|184796503|SUPERIORITY||Least squares mean difference|-0.4||||0.11|TWO_SIDED|95.0|-0.9|0.09|||ANCOVA|||Analysis for TNF α.||0.09|-0.9|0.11
92454130|NCT03394924|184796504|SUPERIORITY||Least squares mean difference|0.01||||0.944|TWO_SIDED|95.0|-0.25|0.27|||ANCOVA|||Analysis for haptoglobin.||0.27|-0.25|0.944
92454131|NCT03394924|184796504|SUPERIORITY||Least squares mean difference|-0.03||||0.83|TWO_SIDED|95.0|-0.3|0.24|||ANCOVA|||Analysis for haptoglobin.||0.24|-0.3|0.83
92454132|NCT03394924|184796504|SUPERIORITY||Least squares mean difference|-0.04||||0.546|TWO_SIDED|95.0|-0.19|0.1|||ANCOVA|||Analysis for alpha2 macroglobulin.||0.1|-0.19|0.546
92454133|NCT03394924|184796504|SUPERIORITY||Least squares mean difference|-0.02||||0.785|TWO_SIDED|95.0|-0.18|0.13|||ANCOVA|||Analysis for alpha2 macroglobulin.||0.13|-0.18|0.785
92454134|NCT03394924|184796505|SUPERIORITY||Least squares mean difference|-0.17||||0.176|TWO_SIDED|95.0|-0.43|0.08|||ANCOVA|||Analysis for TG.||0.08|-0.43|0.176
92454135|NCT03394924|184796505|SUPERIORITY||Least squares mean difference|-0.04||||0.783|TWO_SIDED|95.0|-0.3|0.23|||ANCOVA|||Analysis for TG.||0.23|-0.3|0.783
92454136|NCT03394924|184796505|SUPERIORITY||Least squares mean difference|-0.64||||0.061|TWO_SIDED|95.0|-1.31|0.03|||ANCOVA|||Analysis for TC.||0.03|-1.31|0.061
92454137|NCT03394924|184796505|SUPERIORITY||Least squares mean difference|-0.63||||0.08|TWO_SIDED|95.0|-1.34|0.08|||ANCOVA|||Analysis for TC.||0.08|-1.34|0.08
92242128|NCT03725202|184387517|SUPERIORITY|The point estimate of flare rate at Week 52 from the Kaplan-Meier estimate for each stratum is used to derive the stratified disease flare rate. P-value, and 95% CI for the odds ratio between each upadacitinib group and placebo is also provided. Stratification factors (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease) were used.|Odds Ratio (OR)|0.47|||=|0.0014|TWO_SIDED|95.0|0.29|0.74|||Stratified Test for Odds Ratio|This method is described in J Immunother Cancer. 2021 Nov;9(11):e003323. doi: 10.1136/jitc-2021-003323.||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||0.74|0.29|=0.0014
92242129|NCT03725202|184387517|SUPERIORITY|The point estimate of flare rate at Week 52 from the Kaplan-Meier estimate for each stratum is used to derive the stratified disease flare rate. P-value, and 95% CI for the odds ratio between each upadacitinib group and placebo is also provided. Stratification factors (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease) were used.|Odds Ratio (OR)|0.6|||=|0.0633|TWO_SIDED|95.0|0.35|1.03|||Stratified Test for Odds Ratio|This method is described in J Immunother Cancer. 2021 Nov;9(11):e003323. doi: 10.1136/jitc-2021-003323.||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||1.03|0.35|=0.0633
92242130|NCT03725202|184387518|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|30.3|||<|0.0001|TWO_SIDED|95.0|20.4|40.2|||Cochran-Mantel-Haenszel|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||40.2|20.4|<0.0001
92454138|NCT03394924|184796505|SUPERIORITY||Least squares mean difference|0.08||||0.584|TWO_SIDED|95.0|-0.21|0.37|||ANCOVA|||Analysis for HDL-C.||0.37|-0.21|0.584
92454139|NCT03394924|184796505|SUPERIORITY||Least squares mean difference|-0.22||||0.148|TWO_SIDED|95.0|-0.51|0.08|||ANCOVA|||Analysis for HDL-C.||0.08|-0.51|0.148
92454140|NCT03394924|184796505|SUPERIORITY||Least squares mean difference|-0.5||||0.074|TWO_SIDED|95.0|-1.04|0.05|||ANCOVA|||Analysis for LDL-C.||0.05|-1.04|0.074
92454141|NCT03394924|184796505|SUPERIORITY||Least squares mean difference|-0.3||||0.304|TWO_SIDED|95.0|-0.87|0.28|||ANCOVA|||Analysis for LDL-C.||0.28|-0.87|0.304
92454142|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|0.25||||0.378|TWO_SIDED|95.0|-0.32|0.82|||ANCOVA|||Analysis for duration.||0.82|-0.32|0.378
92454143|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|0.65||||0.03|TWO_SIDED|95.0|0.07|1.23|||ANCOVA|||Analysis for duration.||1.23|0.07|0.03
92454144|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|0.53||||0.036|TWO_SIDED|95.0|0.04|1.03|||ANCOVA|||Analysis for degree.||1.03|0.04|0.036
92454145|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|1.18||||0|TWO_SIDED|95.0|0.67|1.69|||ANCOVA|||Analysis for degree.||1.69|0.67|0.000
92454146|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|0.02||||0.971|TWO_SIDED|95.0|-0.92|0.96|||ANCOVA|||Analysis for direction.||0.96|-0.92|0.971
92454147|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|1.01||||0.042|TWO_SIDED|95.0|0.04|1.99|||ANCOVA|||Analysis for direction.||1.99|0.04|0.042
92454148|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|0.37||||0.336|TWO_SIDED|95.0|-0.4|1.14|||ANCOVA|||Analysis for disability.||1.14|-0.4|0.336
92242131|NCT03725202|184387518|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|23.5|||<|0.0001|TWO_SIDED|95.0|11.7|35.3|||Cochran-Mantel-Haenszel|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||35.3|11.7|<0.0001
92454149|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|1.46||||0|TWO_SIDED|95.0|0.67|2.26|||ANCOVA|||Analysis for disability.||2.26|0.67|0.000
92454150|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|0.48||||0.214|TWO_SIDED|95.0|-0.29|1.25|||ANCOVA|||Analysis for distribution.||1.25|-0.29|0.214
92454151|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|1.23||||0.003|TWO_SIDED|95.0|0.44|2.02|||ANCOVA|||Analysis for distribution.||2.02|0.44|0.003
92454152|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|2.21||||0.103|TWO_SIDED|95.0|-0.47|4.9|||ANCOVA|||Analysis for total.||4.9|-0.47|0.103
92287222|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.112||||0.003|TWO_SIDED|95.0|0.038|0.185|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.185|0.038|0.003
92454153|NCT03394924|184796506|SUPERIORITY||Least squares mean difference|6.35||||0|TWO_SIDED|95.0|3.57|9.13|||ANCOVA|||Analysis for total.||9.13|3.57|0.000
92454154|NCT03394924|184796507|SUPERIORITY||Least squares mean difference|12.48||||0.16|TWO_SIDED|95.0|-5.09|30.06|||ANCOVA|||||30.06|-5.09|0.16
92454155|NCT03394924|184796507|SUPERIORITY||Least squares mean difference|25.58||||0.006|TWO_SIDED|95.0|7.67|43.48|||ANCOVA|||||43.48|7.67|0.006
92454156|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|-0.15||||0.908|TWO_SIDED|95.0|-2.72|2.43|||ANCOVA|||Analysis for symptoms.||2.43|-2.72|0.908
92454157|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|-1.41||||0.298|TWO_SIDED|95.0|-4.09|1.27|||ANCOVA|||Analysis for symptoms.||1.27|-4.09|0.298
92454158|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|1.91||||0.042|TWO_SIDED|95.0|0.07|3.76|||ANCOVA|||Analysis for itch.||3.76|0.07|0.042
92454159|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|3.47||||0.001|TWO_SIDED|95.0|1.55|5.38|||ANCOVA|||Analysis for itch.||5.38|1.55|0.001
92454160|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|-0.46||||0.839|TWO_SIDED|95.0|-4.96|4.04|||ANCOVA|||Analysis for fatigue.||4.04|-4.96|0.839
92454161|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|-0.32||||0.891|TWO_SIDED|95.0|-5.0|4.36|||ANCOVA|||Analysis for fatigue.||4.36|-5.00|0.891
92454162|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|0.26||||0.834|TWO_SIDED|95.0|-2.25|2.77|||ANCOVA|||Analysis for cognition.||2.77|-2.25|0.834
92242132|NCT03725202|184387519|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|20.8|||=|0.0002|TWO_SIDED|95.0|9.7|31.9|||Cochran-Mantel-Haenszel|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||31.9|9.7|=0.0002
92242133|NCT03725202|184387519|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|3.2|||=|0.6276|TWO_SIDED|95.0|-9.6|16.0|||Cochran-Mantel-Haenszel|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||16.0|-9.6|=0.6276
92242134|NCT03725202|184387520|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|3.7526|STANDARD_ERROR_OF_MEAN|1.1981|=|0.0019|TWO_SIDED|95.0|1.3932|6.1119|||Mixed-Effect Model Repeat Measurement||Difference = 15 mg Upadacitinib - Placebo|15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||6.1119|1.3932|=0.0019
92242135|NCT03725202|184387520|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|2.6094|STANDARD_ERROR_OF_MEAN|1.4185|=|0.067|TWO_SIDED|95.0|-0.1841|5.4028|||Mixed-Effect Model Repeat Measurement||Difference = 7.5 mg Upadacitinib - Placebo|7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||5.4028|-0.1841|=0.0670
92242136|NCT03725202|184387521|SUPERIORITY|Comparisons between each upadacitinib treatment group and the placebo group are carried out using Poisson regression model with stratification factors as covariates and log(duration of study participation in years) as an offset. Robust standard error is used in inference.|Rate Ratio|0.6||||0.001|TWO_SIDED|95.0|0.4|0.8|||Poisson regression model|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||0.8|0.4|0.0010
92242137|NCT03725202|184387521|SUPERIORITY|Comparisons between each upadacitinib treatment group and the placebo group are carried out using Poisson regression model with stratification factors as covariates and log(duration of study participation in years) as an offset. Robust standard error is used in inference.|Rate Ratio|0.8|||=|0.2722|TWO_SIDED|95.0|0.6|1.2|||Poisson regression model|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||1.2|0.6|=0.2722
92242138|NCT03725202|184387522|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|1.38|=|0.0036|TWO_SIDED|95.0|1.33|6.76|||Mixed-Effect Model Repeat Measurement||Difference = 15 mg Upadacitinib -Placebo|15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||6.76|1.33|=0.0036
92242139|NCT03725202|184387522|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|1.63|=|0.0338|TWO_SIDED|95.0|0.27|6.7|||Mixed-Effect Model Repeat Measurement||Difference = 7.5 mg Upadacitinib -Placebo|7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||6.70|0.27|=0.0338
92242140|NCT03725202|184387523|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|2.7325|STANDARD_ERROR_OF_MEAN|2.9635|=|0.3573|TWO_SIDED|95.0|-3.102|8.567|||Mixed-Effect Model Repeat Measurement||Difference = 15 mg Upadacitinib -Placebo|15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||8.5670|-3.1020|=0.3573
92287223|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.133|||<|0.001|TWO_SIDED|95.0|0.057|0.209|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.209|0.057|<0.001
92454163|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|1.3||||0.327|TWO_SIDED|95.0|-1.33|3.92|||ANCOVA|||Analysis for cognition.||3.92|-1.33|0.327
92454164|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|-2.12||||0.262|TWO_SIDED|95.0|-5.86|1.62|||ANCOVA|||Analysis for social.||1.62|-5.86|0.262
92454165|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|-0.78||||0.69|TWO_SIDED|95.0|-4.68|3.12|||ANCOVA|||Analysis for social.||3.12|-4.68|0.69
92454166|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|-0.62||||0.433|TWO_SIDED|95.0|-2.19|0.95|||ANCOVA|||Analysis for emotional.||0.95|-2.19|0.433
92454167|NCT03394924|184796508|SUPERIORITY||Least squares mean difference|0.37||||0.653|TWO_SIDED|95.0|-1.28|2.03|||ANCOVA|||Analysis for emotional.||2.03|-1.28|0.653
92454168|NCT03394924|184796512|SUPERIORITY||Least squares mean difference|1.34||||0.971|TWO_SIDED|95.0|-71.51|74.18|||ANCOVA|||Analysis for FGF19.||74.18|-71.51|0.971
92454169|NCT03394924|184796512|SUPERIORITY||Least squares mean difference|5.54||||0.882|TWO_SIDED|95.0|-68.86|79.95|||ANCOVA|||Analysis for FGF19.||79.95|-68.86|0.882
92454170|NCT03394924|184796512|SUPERIORITY||Least squares mean difference|-51.66||||0.242|TWO_SIDED|95.0|-139.27|35.96|||ANCOVA|||Analysis for C4.||35.96|-139.27|0.242
92454171|NCT03394924|184796512|SUPERIORITY||Least squares mean difference|-94.3||||0.042|TWO_SIDED|95.0|-184.85|-3.75|||ANCOVA|||Analysis for C4.||-3.75|-184.85|0.042
92454172|NCT03394924|184796512|SUPERIORITY||Least squares mean difference|-24.57||||0.52|TWO_SIDED|95.0|-101.03|51.89|||ANCOVA|||Analysis for BA.||51.89|-101.03|0.52
92454173|NCT03394924|184796512|SUPERIORITY||Least squares mean difference|-17.96||||0.672|TWO_SIDED|95.0|-103.07|67.16|||ANCOVA|||Analysis for BA.||67.16|-103.07|0.672
92454174|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|44.54||||0.611|TWO_SIDED|95.0|-205.97|295.06|||ANCOVA|||Analysis for FGF19 AUC0-8.||295.06|-205.97|0.611
92454175|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|-29.98||||0.819|TWO_SIDED|95.0|-411.28|351.31|||ANCOVA|||Analysis for FGF19 AUC0-8.||351.31|-411.28|0.819
92454176|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|24.41||||0.818|TWO_SIDED|95.0|-251.92|300.74|||ANCOVA|||Analysis for FGF19 AUC2-8.||300.74|-251.92|0.818
92173539|NCT04359108|184238236|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision + Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 0.88"|||
92242141|NCT03725202|184387523|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|5.4216|STANDARD_ERROR_OF_MEAN|3.4785|=|0.1203|TWO_SIDED|95.0|-1.4269|12.2701|||Mixed-Effect Model Repeat Measurement||Difference = 7.5 mg Upadacitinib -Placebo|7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||12.2701|-1.4269|=0.1203
92242142|NCT03725202|184387524|SUPERIORITY|Comparisons between each upadacitinib treatment group and the placebo group are carried out using Poisson regression model with stratification factors as covariates and log(duration of study participation in years) as an offset. Robust standard error is used in inference.|Rate Ratio|1.1|||=|0.4371|TWO_SIDED|95.0|0.8|1.6|||Poisson regression model|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||1.6|0.8|=0.4371
92242143|NCT03725202|184387524|SUPERIORITY|Comparisons between each upadacitinib treatment group and the placebo group are carried out using Poisson regression model with stratification factors as covariates and log(duration of study participation in years) as an offset. Robust standard error is used in inference.|Rate Ratio|0.9|||=|0.7749|TWO_SIDED|95.0|0.6|1.4|||Poisson regression model|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||1.4|0.6|=0.7749
92242144|NCT02658994|184387547|SUPERIORITY||Mean Difference (Final Values)|-0.13|||||TWO_SIDED|95.0|-0.33|0.07||||||||0.07|-0.33|
92242145|NCT02658994|184387548|SUPERIORITY||Median Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-1.39|1.19||||||||1.19|-1.39|
92281173|NCT03740165|184465580|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7174|TWO_SIDED|95.0|0.88|1.27||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.27|0.88|0.7174
92281174|NCT03740165|184465581|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0228|TWO_SIDED|95.0|0.62|1.0||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.00|0.62|0.0228
92281175|NCT03740165|184465581|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.3935|TWO_SIDED|95.0|0.77|1.22||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.22|0.77|0.3935
92242146|NCT02658994|184387549|SUPERIORITY||Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-0.33|0.09||||||||0.09|-0.33|
92242147|NCT02658994|184387550|SUPERIORITY||Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|-0.19|0.96||||||Child Bayley scaled receptive score||0.96|-0.19|
92242148|NCT02658994|184387550|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.83|0.9||||||Child Bayley scaled fine motor score||0.90|-0.83|
92242149|NCT02658994|184387551|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.43|1.05||||||||1.05|0.43|
92242150|NCT02658994|184387552|SUPERIORITY||Risk Ratio (RR)|-0.09|||||TWO_SIDED|95.0|-0.32|0.15||||||Length-for-age z-scores||0.15|-0.32|
92242151|NCT02658994|184387552|SUPERIORITY||Risk Ratio (RR)|-0.12|||||TWO_SIDED|95.0|-0.33|0.1||||||Weight-for-age z-scores||0.10|-0.33|
92242152|NCT00262080|184387553|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037||95.0||||no adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|non-parametric Wilcoxon Rank Sum test|||The primary efficacy analysis compared the TOS at 4 hours post-dosing for patients treated with ecallantide and placebo. Treatment effect was assessed by the non-parametric Wilcoxon Rank Sum test because of an assumed non-normal distribution.||||0.037
92242153|NCT00262080|184387554|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0||||No adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|Wilcoxon Rank Sum Test.|||The analysis compared the change from baseline in MSCS score at 4 hours post-dosing for patients treated with ecallantide and placebo. Treatment effect was assessed by the non-parametric Wilcoxon Rank Sum test because of an assumed non-normal distribution.||||0.044
92281176|NCT03740165|184465582|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.0573|TWO_SIDED|95.0|0.74|1.03||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.03|0.74|0.0573
92281177|NCT03740165|184465582|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7234|TWO_SIDED|95.0|0.89|1.23||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.23|0.89|0.7234
92454177|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|-10.53||||0.948|TWO_SIDED|95.0|-435.33|414.27|||ANCOVA|||Analysis for FGF19 AUC2-8.||414.27|-435.33|0.948
92454178|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|-91.7||||0.412|TWO_SIDED|95.0|-475.92|292.51|||ANCOVA|||Analysis for C4 AUC0-8.||292.51|-475.92|0.412
92242154|NCT00262080|184387558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.055||95.0||||No adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|Log Rank|||The Log-Rank test was used to compare the time distribution between the two treatment groups.||||0.055
92454179|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|-250.18||||0.094|TWO_SIDED|95.0|-605.33|104.98|||ANCOVA|||Analysis for C4 AUC0-8.||104.98|-605.33|0.094
92454180|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|-83.7||||0.266|TWO_SIDED|95.0|-279.15|111.75|||ANCOVA|||Analysis for C4 AUC2-8.||111.75|-279.15|0.266
92454181|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|-238.19||||0.047|TWO_SIDED|95.0|-470.22|-6.15|||ANCOVA|||Analysis for C4 AUC2-8.||-6.15|-470.22|0.047
92454182|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|28.41||||0.694|TWO_SIDED|95.0|-180.2|237.02|||ANCOVA|||Analysis for BA AUC0-8.||237.02|-180.2|0.694
92454183|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|-39.5||||0.615|TWO_SIDED|95.0|-264.32|185.32|||ANCOVA|||Analysis for BA AUC0-8.||185.32|-264.32|0.615
92454184|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|2.93||||0.974|TWO_SIDED|95.0|-229.6|235.46|||ANCOVA|||Analysis for BA AUC2-8.||235.46|-229.6|0.974
92454185|NCT03394924|184796513|SUPERIORITY||Least squares mean difference|-26.05||||0.793|TWO_SIDED|95.0|-283.24|231.15|||ANCOVA|||Analysis for BA AUC2-8.||231.15|-283.24|0.793
92454186|NCT03508843|184796553|SUPERIORITY||||||<|0.001|||||||McNemar|||||||<.001
92454187|NCT03508843|184796554|SUPERIORITY||||||<|0.001|||||||McNemar|||||||<.001
92454188|NCT03508843|184796555|SUPERIORITY||||||>|0.05|||||||McNemar|||||||>.05
92454189|NCT00765843|184796557|SUPERIORITY_OR_OTHER|||||||0.78|||||||ANOVA|||baseline comparisons||||0.78
92454190|NCT00765843|184796557|SUPERIORITY_OR_OTHER|||||||0.21|||||||ANOVA|||one month comparisons||||0.21
92454191|NCT00765843|184796557|SUPERIORITY_OR_OTHER|||||||0.93|||||||ANOVA|||three months comparisons||||0.93
92454192|NCT03555396|184796558|SUPERIORITY||Mean Difference (Final Values)|-3.54||||0.483|TWO_SIDED|95.0|-13.53|6.46|||t-test, 2 sided|||||6.46|-13.53|0.483
92454193|NCT03555396|184796559|SUPERIORITY|||||||0.637|||||||Chi-squared|||||||0.637
92454194|NCT03555396|184796560|SUPERIORITY||Mean Difference (Net)|9.54||||0.037|TWO_SIDED|95.0|0.59|18.49||Difference in mean change in adherence from baseline to 6 month follow-up between individuals in the intervention and control arms.|Mixed Models Analysis|Multilevel linear mixed model with random effects (dyad \& intercept); adjusting for participant age, sex, baseline adherence, and partner HIV status||||18.49|0.59|0.037
92454195|NCT03555396|184796561|SUPERIORITY|||||||0.621|||||||Chi-squared|Fisher's Exact Test used for small sample sizes||||||0.621
92454196|NCT03814889|184796590|OTHER|||||||0.00025|||||||Wilcoxon Signed-Rank|Paired, ordinal data||||||0.00025
92454197|NCT03814889|184796591|OTHER|||||||0.0014|||||||Wilcoxon Signed-Rank|||||||0.0014
92454198|NCT03814889|184796592|OTHER|||||||0.02|||||||t-test, 1 sided|||||||0.02
92242155|NCT01111539|184387573|SUPERIORITY||Treatment Difference|-1.0|||=|0.644|TWO_SIDED|95.0|-5.2|3.3|||ANCOVA|||The statistical analyses was performed by fitting an analysis of covariance (ANCOVA) model to the change from baseline data (Week 8 Visit) for the MADRS Total Score at the Week 14 visit (LOCF). The model included baseline MADRS Total Score as a covariate and treatment as the main effect.||3.3|-5.2|=0.644
92242156|NCT01111539|184387573|SUPERIORITY||Treatment Difference|-3.7|||=|0.08|TWO_SIDED|95.0|-7.8|0.4|||ANCOVA|||The statistical analyses will be performed by fitting an ANCOVA model to the change from baseline data (Week 8 Visit) for the MADRS Total Score at the Week 14 visit (LOCF). The model will include baseline MADRS Total Score as a covariate and treatment as the main effect.||0.4|-7.8|=0.080
92242157|NCT01111539|184387574|SUPERIORITY||Treatment Difference|-0.3|||=|0.366|TWO_SIDED|95.0|-0.8|0.3|||Cochran-Mantel-Haenszel|||||0.3|-0.8|=0.366
92242158|NCT01111539|184387574|SUPERIORITY||Treatment Difference|-0.4|||=|0.138|TWO_SIDED|95.0|-0.9|0.1|||Cochran-Mantel-Haenszel|||||0.1|-0.9|=0.138
92242159|NCT01111539|184387575|SUPERIORITY||Treatment Difference|0.0|||=|0.995|TWO_SIDED|95.0|-1.2|1.2|||ANCOVA|||||1.2|-1.2|=0.995
92242160|NCT01111539|184387575|SUPERIORITY||Treatment Difference|-0.9|||=|0.118|TWO_SIDED|95.0|-2.1|0.2|||ANCOVA|||||0.2|-2.1|=0.118
92454199|NCT03814889|184796593|OTHER|||||||0.001|||||||t-test, 1 sided|||||||0.001
92454200|NCT03814889|184796596|OTHER|||||||0.001|||||||Wilcoxcon Signed-Ranks|||||||0.001
92454201|NCT00958919|184796598|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0||||0.0004|TWO_SIDED|95.0|2.69|9.38|||t-test, 2 sided|||||9.38|2.69|.0004
92454202|NCT00958919|184796599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.024|TWO_SIDED|95.0|0.49|6.85|||t-test, 2 sided|||||6.85|0.49|.024
92454203|NCT00958919|184796600|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||t-test, 2 sided|||||||0.45
92454204|NCT00958919|184796601|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92454205|NCT00958919|184796602|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92454206|NCT04256733|184796670|SUPERIORITY|||||||0.23|||||||Mixed Models Analysis|||||||.23
92454207|NCT04256733|184796671|SUPERIORITY|||||||0.57|||||||Mixed Models Analysis|||||||.57
92454208|NCT04256733|184796672|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
92454209|NCT04542343|184796683|OTHER||Mean Difference (Net)|3.0|||<|0.01|TWO_SIDED|95.0|2.246|3.754|||t-test, 2 sided|||||3.75400|2.24600|<0.01
92454210|NCT04542343|184796684|OTHER||Mean Difference (Net)|-3.3|||<|0.001|TWO_SIDED|95.0|-4.256785|-2.343215|||t-test, 2 sided|||||-2.343215|-4.256785|<0.001
92454211|NCT04542343|184796689|OTHER||Mean Difference (Net)|-0.21818|||<|0.01|TWO_SIDED|95.0|-0.36828|-0.06809|||t-test, 2 sided|||||-0.06809|-0.36828|<0.01
92454212|NCT04542343|184796690|OTHER||Mean Difference (Net)|0.05623|STANDARD_ERROR_OF_MEAN|0.026|<|0.05|TWO_SIDED|95.0|0.00459|0.10788|||t-test, 2 sided|||||0.10788|0.00459|<0.05
92454213|NCT01369342|184796693|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
92454214|NCT01369342|184796693|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
92454215|NCT01369342|184796694|SUPERIORITY_OR_OTHER|||||||0.009||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||0.009
92454216|NCT01369342|184796694|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
92454217|NCT01369342|184796695|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
92454218|NCT01369342|184796695|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
92454219|NCT01369342|184796696|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
92454220|NCT01369342|184796696|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
92454221|NCT01369342|184796697|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
92454222|NCT01369342|184796697|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
92454223|NCT00321854|184796698|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.9||0.6503||95.0|-2.2|1.4|||ANCOVA|||||1.4|-2.2|0.6503
92454224|NCT00321854|184796699|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.9||0.9568||95.0|-1.7|1.8|||ANCOVA|||||1.8|-1.7|0.9568
92242161|NCT03007485|184387576|SUPERIORITY||Odds Ratio (OR)|1.0|||<|0.05|TWO_SIDED|95.0||||Reported p-value was calculated|t-test, 2 sided|||Sample size and power calculation was a composite of COPD-related hospital readmissions or death within 6 months of discharge. First level of analysis was the ITT, which included all the patients randomly assigned to an arm at the beginning of the study (excluding those who were found to not meet inclusion criteria for referral). The second included all the patients medically cleared and third included all the patients who were medically cleared and who had participated in at least 1 PR session.|"The primary outcome was a composite of COPD-related hospital readmissions or death within 6 months of discharge (binary: yes/no). Logistic regression was used to compare the primary outcome in terms of the OR of event rates between the 2 arms, in 3 sets of models (per each of the 3 aforementioned level of analyses):~* Model 1: Treatment arm only with no other covariates added to the model~* Model 2: Treatment arm, adjusted for race and clinical site (stratification variables)~* Model 3: Treatment arm, adjusted for race, clinical site, and risk factors reported in the literature to be associated with the primary outcome, for explanatory purposes To examine the role of adherence on the primary outcome, we included adherence as a binary variable and as a continuous variable (percentage of sessions attended) in the 3 models."|||<.05
92281178|NCT03740165|184465583|SUPERIORITY||Difference in Least Squares Means (LSM)|0.26||||0.8481|TWO_SIDED|95.0|-2.44|2.97|||t-test, 2 sided||Based on cLDA model with scores as response variable; covariates for treatment by time interaction and stratification factors (debulking surgery \[planned interval vs R0 following primary vs R1 following primary\], bevacizumab use, and PD-L1 CPS)|||2.97|-2.44|0.8481
92281179|NCT03740165|184465583|SUPERIORITY||Difference in LS Means|-1.1||||0.4335|TWO_SIDED|95.0|-3.87|1.66|||t-test, 2 sided||Based on cLDA model with scores as response variable; covariates for treatment by time interaction and stratification factors (debulking surgery \[planned interval vs R0 following primary vs R1 following primary\], bevacizumab use, and PD-L1 CPS)|||1.66|-3.87|0.4335
92281180|NCT03740165|184465584|SUPERIORITY||Difference in Least Squares Means (LSM)|0.14||||0.9024|TWO_SIDED|95.0|-2.15|2.44|||t-test, 2 sided||Based on cLDA model with scores as response variable; covariates for treatment by time interaction and stratification factors (debulking surgery \[planned interval vs R0 following primary vs R1 following primary\], bevacizumab use, and PD-L1 CPS)|||2.44|-2.15|0.9024
92454225|NCT00321854|184796700|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.8|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001||95.0|-6.3|-3.2|||ANCOVA|||||-3.2|-6.3|<0.0001
92287224|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.106||||0.005|TWO_SIDED|95.0|0.032|0.18|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.180|0.032|0.005
92454226|NCT00321854|184796701|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.4|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001||95.0|-5.8|-3.0|||ANCOVA|||||-3|-5.8|<0.0001
92454227|NCT00321854|184796702|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001||95.0|-4.1|-1.7|||ANCOVA|||||-1.7|-4.1|<0.0001
92454228|NCT00321854|184796703|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.9||0.8693||95.0|-1.8|1.5|||ANCOVA|||||1.5|-1.8|0.8693
92454229|NCT00321854|184796704|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.9||0.8155||95.0|-1.5|1.9|||ANCOVA|||||1.9|-1.5|0.8155
92454230|NCT00321854|184796705|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.5|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001||95.0|-6.0|-3.0|||ANCOVA|||||-3|-6|<0.0001
92454231|NCT00321854|184796706|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.0|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001||95.0|-5.4|-2.6|||ANCOVA|||||-2.6|-5.4|<0.0001
92454232|NCT00321854|184796707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.8|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001||95.0|-3.9|-1.7|||ANCOVA|||||-1.7|-3.9|<0.0001
92242162|NCT01848054|184387581|NON_INFERIORITY_OR_EQUIVALENCE|The primary efficacy analysis of retention in treatment at Day 3 was assessed in the per protocol population. In addition, a sensitivity analysis assessed retention in treatment in the full analysis population. For these assessments, the margin to determine non-inferiority (i.e., lower limit of the 95% CI for the difference between BNX and generic buprenorphine of ≥-10%) was selected based on clinical experience to justify comparison between the 2 treatments.|||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|Comparisons between treatment groups were reported with 2-sided p values using 95% CIs for the difference.||||||<0.05
92242163|NCT01848054|184387588|NON_INFERIORITY_OR_EQUIVALENCE|The primary efficacy analysis of retention in treatment at Day 3 was assessed in the per protocol population. In addition, a sensitivity analysis assessed retention in treatment in the full analysis population. For these assessments, the margin to determine non-inferiority (i.e., lower limit of the 95% CI for the difference between BNX and generic buprenorphine of ≥-10%) was selected based on clinical experience to justify comparison between the 2 treatments.|||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|Comparisons between treatment groups were reported with 2-sided p values using 95% CIs for the difference.||||||<0.05
92281181|NCT03740165|184465584|SUPERIORITY||Difference in Least Squares Means (LSM)|-0.08||||0.9478|TWO_SIDED|95.0|-2.47|2.31|||t-test, 2 sided||Based on cLDA model with scores as response variable; covariates for treatment by time interaction and stratification factors (debulking surgery \[planned interval vs R0 following primary vs R1 following primary\], bevacizumab use, and PD-L1 CPS)|||2.31|-2.47|0.9478
92242164|NCT02808312|184387591|OTHER|Two-sided 90% Confidence Intervals (CIs) were calculated for the ratios of geometric least-squares means (GLSMs) of PK parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.7869|||||TWO_SIDED|90.0|1.2885|2.4781||||||An analysis of variance (ANOVA) model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUClast) for each cohort.||2.4781|1.2885|
92281182|NCT03740165|184465585|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.2644|TWO_SIDED|95.0|0.73|1.17||One-sided p-value based on log-rank test stratified by surgery (planned interval debulking versus R0 following primary debulking versus R1 following primary debulking), bevacizumab use (yes versus no), and PD-L1 status (CPS\<10 vs CPS≥10).|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by surgery (planned interval vs R0 following primary vs R1 following primary debulking), bevacizumab use (Yes vs No), PD-L1 status (CPS\<10 vs CPS≥10)|||1.17|0.73|0.2644
92454233|NCT00321854|184796708|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.7999||95.0|-1.5|1.1|||ANCOVA|||||1.1|-1.5|0.7999
92454234|NCT00321854|184796709|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.7||0.7395||95.0|-1.1|1.5|||ANCOVA|||||1.5|-1.1|0.7395
92454235|NCT00321854|184796710|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001||95.0|-4.5|-2.2|||ANCOVA|||||-2.2|-4.5|<0.0001
92454236|NCT00321854|184796711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001||95.0|-4.0|-1.8|||ANCOVA|||||-1.8|-4|<0.0001
92454237|NCT00321854|184796712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.5||0.0002||95.0|-2.7|-0.9|||ANCOVA|||||-0.9|-2.7|0.0002
92454238|NCT00321854|184796713|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9256||95.0|-0.6|0.6|||ANCOVA|||||0.6|-0.6|0.9256
92454239|NCT00321854|184796714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9792||95.0|-0.6|0.6|||ANCOVA|||||0.6|-0.6|0.9792
92454240|NCT00321854|184796715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.3||0.0001||95.0|-1.7|-0.5|||ANCOVA|||||-0.5|-1.7|0.0001
92454241|NCT00321854|184796716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001||95.0|-1.6|-0.6|||ANCOVA|||||-0.6|-1.6|<0.0001
92454242|NCT00321854|184796717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-1.5|-0.6|||ANCOVA|||||-0.6|-1.5|<0.0001
92454243|NCT00321854|184796718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0376||95.0|-0.5|0.0|||ANCOVA|||||0|-0.5|0.0376
92454244|NCT00321854|184796719|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1607||95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.1607
92454245|NCT00321854|184796720|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0173||95.0|-0.5|-0.1|||ANCOVA|||||-0.1|-0.5|0.0173
92454246|NCT00321854|184796721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0007||95.0|-0.6|-0.2|||ANCOVA|||||-0.2|-0.6|0.0007
92454247|NCT00321854|184796722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4381||95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.4381
92454248|NCT00321854|184796723|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.796||||0.5116||95.0|0.403|1.573|||Regression, Logistic|||||1.573|0.403|0.5116
92454249|NCT00321854|184796724|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.153||||0.7913||95.0|0.403|3.299|||Regression, Logistic|||The ordinal responses (3 levels) were analysed using the proportional odds model extension of logistic regression||3.299|0.403|0.7913
92454250|NCT00321854|184796725|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.1702||95.0|-1.3|0.2|||ANCOVA|||||0.2|-1.3|0.1702
92454251|NCT00321854|184796726|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|0.4||0.0009||95.0|-2.2|-0.6|||ANCOVA|||||-0.6|-2.2|0.0009
92454252|NCT00321854|184796727|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|0.4||0.0005||95.0|-2.1|-0.6|||ANCOVA|||||-0.6|-2.1|0.0005
92454253|NCT00321854|184796728|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0422||95.0|-1.4|0.0|||ANCOVA|||||0|-1.4|0.0422
92454254|NCT00321854|184796729|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.573||||0.2149||95.0|-1.823|0.677|||Wilcoxon (Mann-Whitney)|||||0.677|-1.823|0.2149
92454255|NCT00321854|184796730|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.031||||0.0001||95.0|-3.125|-0.938|||Wilcoxon (Mann-Whitney)|||||-0.938|-3.125|0.0001
92454256|NCT00321854|184796731|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.2605||95.0|0.0|0.026|||Wilcoxon (Mann-Whitney)|||||0.026|0|0.2605
92454257|NCT00321854|184796732|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.051|||<|0.0001||95.0|0.0|0.089|||Wilcoxon (Mann-Whitney)|||||0.089|0|<0.0001
92454258|NCT00321854|184796733|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.0||||0.0489||95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|||||5|0|0.0489
92242165|NCT02808312|184387591|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|2.4868|||||TWO_SIDED|90.0|1.6735|3.6954||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUClast) for each cohort.||3.6954|1.6735|
92242166|NCT02808312|184387591|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|6.324|||||TWO_SIDED|90.0|4.3675|9.1569||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUClast) for each cohort.||9.1569|4.3675|
92242167|NCT02808312|184387592|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.7628|||||TWO_SIDED|90.0|1.275|2.4374||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUCinf) for each cohort.||2.4374|1.2750|
92242168|NCT02808312|184387592|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|2.4559|||||TWO_SIDED|90.0|1.6531|3.6486||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUCinf) for each cohort.||3.6486|1.6531|
92242169|NCT02808312|184387592|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|6.2497|||||TWO_SIDED|90.0|4.2965|9.091||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUCinf) for each cohort.||9.0910|4.2965|
92242170|NCT02808312|184387593|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.5703|||||TWO_SIDED|90.0|1.0723|2.2995||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (Cmax) for each cohort.||2.2995|1.0723|
92242171|NCT02808312|184387593|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.7343|||||TWO_SIDED|90.0|1.2193|2.4667||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (Cmax) for each cohort.||2.4667|1.2193|
92454259|NCT00321854|184796734|SUPERIORITY_OR_OTHER||Median Difference (Net)|3.0||||0.0282||95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|||||5|0|0.0282
92454260|NCT00321854|184796750|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|2.5||0.8397||95.0|-5.4|4.4|||ANCOVA|||||4.4|-5.4|0.8397
92454261|NCT01816594|184796755|SUPERIORITY|||||||0.811|||||||Fisher Exact|(one-sided)||All participantss||||0.811
92454262|NCT01816594|184796756|SUPERIORITY|||||||0.83|||||||Fisher Exact|(one-sided)||wild type cohort||||0.830
92454263|NCT01816594|184796757|SUPERIORITY|||||||0.786|||||||Fisher Exact|(one-sided)||mutant cohort||||0.786
92454264|NCT01816594|184796758|SUPERIORITY|||||||0.286|||||||Fisher Exact|(one-sided)||All participants||||0.286
92454265|NCT01816594|184796759|SUPERIORITY|||||||0.177|||||||Fisher Exact|(one-sided)||wild type cohort||||0.177
92454266|NCT01816594|184796760|SUPERIORITY|||||||0.929|||||||Fisher Exact|(one-sided)||mutant cohort||||0.929
92242172|NCT02808312|184387593|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|2.5369|||||TWO_SIDED|90.0|1.7562|3.6648||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (Cmax) for each cohort.||3.6648|1.7562|
92454267|NCT01816594|184796761|SUPERIORITY|||||||0.811|||||||Fisher Exact|(one-sided)||||||0.811
92454268|NCT01816594|184796762|SUPERIORITY|||||||0.84|||||||Fisher Exact|(one-sided)||||||0.840
92454269|NCT01816594|184796763|SUPERIORITY|||||||0.724|||||||Fisher Exact|(one-sided)||||||0.724
92454270|NCT01816594|184796764|SUPERIORITY|||||||0.964|||||||Fisher Exact|(one-sided)||All participants||||0.964
92454271|NCT01816594|184796765|SUPERIORITY|||||||0.546|||||||Fisher Exact|(one-sided)||For ER+ participants - pCR||||0.546
92454272|NCT01816594|184796766|SUPERIORITY|||||||0.949|||||||Fisher Exact|(one-sided)||For ER- participants - pCR||||0.949
92454273|NCT01816594|184796767|SUPERIORITY|||||||0.053|||||||Fisher Exact|(one-sided)||For ER+ participants - ORR||||0.053
92454274|NCT01816594|184796768|SUPERIORITY|||||||0.949|||||||Fisher Exact|(one-sided)||For ER- participants - ORR||||0.949
92454275|NCT01816594|184796769|SUPERIORITY|||||||0.666|||||||Fisher Exact|(one-sided)||||||0.666
92454276|NCT01816594|184796770|SUPERIORITY|||||||0.803|||||||Fisher Exact|(one-sided)||||||0.803
92454277|NCT04723576|184796771|OTHER|Standard 2-sided non-equivalence test|Mean Difference (Net)|0.189||||0.77|TWO_SIDED|95.0|-1.068|1.446|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care.|||1.446|-1.068|.77
92173540|NCT04359108|184238236|OTHER|||||||||||||||||Obstacle Avoidance Test - Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -1.6"|||
92173541|NCT04359108|184238236|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = N/A \*~\* N/A for Argus Vision test because subject did not successfully reach intended destination for any trial using this mode."|||
92173542|NCT04359108|184238236|OTHER|||||||||||||||||Navigate to Destination Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -1.10"|||
92182954|NCT02434328|184264731|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-2.2|2.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.1|-2.2|
92182955|NCT02434328|184264731|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-2.8|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.2|-2.8|
92182956|NCT02434328|184264731|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-4.4|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||1.7|-4.4|
92242173|NCT02808312|184387604|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|0.8722|||||TWO_SIDED|90.0|0.6827|1.1144||||||||1.1144|0.6827|
92454278|NCT04723576|184796772|OTHER|Standard 2-sided non-equivalence test|Median Difference (Net)|0.238||||0.39|TWO_SIDED|95.0|-0.31|0.785|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care.|||0.785|-0.310|.39
92454279|NCT04723576|184796773|OTHER|Standard 2-sided non-equivalence test|Mean Difference (Net)|-0.232||||0.24|TWO_SIDED|95.0|-0.618|0.153|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care.|||0.153|-0.618|.24
92454280|NCT04723576|184796774|OTHER|Standard 2-sided non-equivalence test|Median Difference (Net)|0.134||||0.23|TWO_SIDED|95.0|-0.085|0.352|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care.|||0.352|-0.085|.23
92454281|NCT04723576|184796775|OTHER|Standard 2-sided non-equivalence test|Median Difference (Net)|-0.051||||0.44|TWO_SIDED|95.0|-0.179|0.078|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care.|||0.078|-0.179|.44
92454282|NCT04723576|184796776|OTHER|Standard 2-sided non-equivalence test|Odds Ratio, log|-0.051||||0.85|TWO_SIDED|95.0|-0.179|0.078|||Repeated measure logistic regression|using GEE method|Effect sizes are the difference between SFA minus Usual Care.|||0.078|-0.179|.85
92454283|NCT04723576|184796777|OTHER|Standard 2-sided non-equivalence test|Median Difference (Net)|0.23||||0.08|TWO_SIDED|95.0|-0.025|0.484|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care|||0.484|-0.025|.08
92454284|NCT03905655|184796778|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
92454285|NCT03905655|184796778|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
92454286|NCT03905655|184796778|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
92454287|NCT03905655|184796779|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92454288|NCT03905655|184796779|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92454289|NCT03905655|184796779|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92454290|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Day 3 values||||1.000
92454291|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 1 values||||1.000
92454292|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 2 values||||1.000
92454293|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 4 values||||1.000
92454294|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 8 values||||1.000
92454295|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Day 3 values||||1.000
92454296|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 1 values||||1.000
92454297|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 2 values||||1.000
92454298|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 4 values||||1.000
92454299|NCT03905655|184796780|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Comparison of Week 8 values||||0.001
92454300|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Day 3 values||||1.000
92454301|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 1 values||||1.000
92454302|NCT03905655|184796780|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Comparison of Week 2 values||||<0.001
92454303|NCT03905655|184796780|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Comparison of Week 4 values||||0.002
92454304|NCT03905655|184796780|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 8 values||||1.000
92454305|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
92242174|NCT02808312|184387604|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.0731|||||TWO_SIDED|90.0|0.8295|1.3883||||||||1.3883|0.8295|
92242175|NCT02808312|184387604|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.1475|||||TWO_SIDED|90.0|0.8783|1.4992||||||||1.4992|0.8783|
92454306|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
92454307|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
92242176|NCT02808312|184387605|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|0.8188|||||TWO_SIDED|90.0|0.5837|1.1486||||||||1.1486|0.5837|
92454308|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
92242177|NCT02808312|184387605|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.1323|||||TWO_SIDED|90.0|0.8772|1.4615||||||||1.4615|0.8772|
92454309|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
92454310|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
92454311|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
92454312|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
92173543|NCT04359108|184238236|OTHER|||||||||||||||||Navigate to Destination Test - Depth Vision + Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 0.45"|||
92242178|NCT02808312|184387605|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.3563|||||TWO_SIDED|90.0|1.0468|1.7574||||||||1.7574|1.0468|
92242179|NCT02808312|184387606|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.0658|||||TWO_SIDED|90.0|0.8275|1.3726||||||||1.3726|0.8275|
92242180|NCT02808312|184387606|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.2942|||||TWO_SIDED|90.0|0.9663|1.7334||||||||1.7334|0.9663|
92454313|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
92242181|NCT02808312|184387606|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|0.8225|||||TWO_SIDED|90.0|0.5479|1.2347||||||||1.2347|0.5479|
92454314|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
92454315|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
92454316|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
92454317|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
92454318|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
92454319|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
92454320|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
92454321|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
92454322|NCT03905655|184796781|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
92454323|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
92454324|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
92454325|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
92454326|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
92454327|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
92454328|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
92454329|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
92242182|NCT02808312|184387607|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.0806|||||TWO_SIDED|90.0|0.791|1.4762||||||||1.4762|0.7910|
92242183|NCT02808312|184387607|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.3729|||||TWO_SIDED|90.0|0.9663|1.9506||||||||1.9506|0.9663|
92242184|NCT02808312|184387607|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|0.903|||||TWO_SIDED|90.0|0.6142|1.3275||||||||1.3275|0.6142|
92454330|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
92454331|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
92454332|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
92454333|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
92454334|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
92454335|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
92454336|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
92454337|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
92454338|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
92454339|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
92454340|NCT03905655|184796782|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
92454341|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
92454342|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
92454343|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
92454344|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
92454345|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
92454346|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
92454347|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
92454348|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
92454349|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
92454350|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
92454351|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
92454352|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
92454353|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
92173544|NCT04359108|184238236|OTHER|||||||||||||||||Navigate to Destination Test - Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 1.02"|||
92242185|NCT03628417|184387608|NON_INFERIORITY|Examined the objective response rate (ORR) that there was 20% difference between the 2 treatment arms at day 180. With a significance level of 0,05 and a power of 80% the study required 28 evaluable metastases.|Odds Ratio (OR)|0.4489629||||0.3|TWO_SIDED|95.0|-13.3|53.3|||Fisher Exact|||After reviewing existing data from electrochemotherapy with intratumoral bleomycin on small cutaneous metastases ≤3cm , we estimated the expected response rate for electrochemotherapy to 85%. We have no clinical results for the treatment of calcium electroporation, but on the basis of preclinical studies, we decided to accept a difference in response of 20%. All statistical analysis were done using IBM SPSS v24.||53.30|-13.30|0.30
92242186|NCT03696758|184387619|OTHER|Descriptive statistics||||||0.004||||||p value is 0.004 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.004
92242187|NCT03696758|184387620|OTHER|Descriptive statistics||||||0.13||||||P-Value is 0.13 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.13
92242188|NCT03696758|184387621|OTHER|descriptive statistics||||||0.004||||||p value is 0.004 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.004
92287225|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.152|||<|0.001|TWO_SIDED|95.0|0.081|0.223|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.223|0.081|<0.001
92454354|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
92454355|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
92454356|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
92454357|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
92454358|NCT03905655|184796783|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
92454359|NCT03905655|184796784|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||Comparison of Week 1 values||||0.006
92454360|NCT03905655|184796784|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||Comparison of Week 2 values||||0.003
92454361|NCT03905655|184796784|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||Comparison of Week 4 values||||0.004
92454362|NCT03905655|184796784|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||Comparison of Week 8 values||||0.006
92454363|NCT03905655|184796784|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Comparison of Week 12 values||||0.002
92454364|NCT03905655|184796784|SUPERIORITY|||||||0.141|||||||t-test, 2 sided|||Comparison of Week 1 values||||0.141
92454365|NCT03905655|184796784|SUPERIORITY|||||||0.081|||||||t-test, 2 sided|||Comparison of Week 2 values||||0.081
92454366|NCT03905655|184796784|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Comparison of Week 4 values||||0.160
92454367|NCT03905655|184796784|SUPERIORITY|||||||0.184|||||||t-test, 2 sided|||Comparison of Week 8 values||||0.184
92454368|NCT03905655|184796784|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||Comparison of Week 12 values||||0.046
92454369|NCT03905655|184796784|SUPERIORITY|||||||0.379|||||||t-test, 2 sided|||Comparison of Week 1 values||||0.379
92454370|NCT03905655|184796784|SUPERIORITY|||||||0.308|||||||t-test, 2 sided|||Comparison of Week 2 values||||0.308
92454371|NCT03905655|184796784|SUPERIORITY|||||||0.794|||||||t-test, 2 sided|||Comparison of Week 4 values||||0.794
92454372|NCT03905655|184796784|SUPERIORITY|||||||0.297|||||||t-test, 2 sided|||Comparison of Week 8 values||||0.297
92454373|NCT03905655|184796784|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||Comparison of Week 12 values||||0.007
92454374|NCT03905655|184796785|SUPERIORITY|||||||0.123|||||||t-test, 2 sided|||||||0.123
92454375|NCT03905655|184796785|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
92454376|NCT03905655|184796785|SUPERIORITY|||||||0.266|||||||t-test, 2 sided|||||||0.266
92454377|NCT03204279|184796811|OTHER|No comparison between the two dose groups is performed, thus no statistical test is applied. In the next section the goodness of fit of the loess function correlating exposure and response is reported.|Pearson R|0.076||||0.55|TWO_SIDED|||||CR in the delayed phase vs AUC0-inf|loess (Local regression or polynomial)|The p-value represents the probability found if the correlation coefficient was zero (null hypothesis).|R is the Pearson correlation is a coefficient statistic that measures linear correlation between two variables CR in the delayed phase vs AUC0-inf|The population consist of all patients having CR in the delayed phase and AUC0-inf and Cmax, there is no comparison between the two dose groups.||||0.55
92454378|NCT03204279|184796811|OTHER|No comparison between the two dose groups is performed, thus no statistical test is applied. In the next section the goodness of fit of the loess function correlating exposure and response is reported.|Pearson R|-0.041||||0.75|TWO_SIDED|||||CR in the delayed phase vs Cmax|loess (Local regression or polynomial)|The p-value represents the probability found if the correlation coefficient was zero (null hypothesis).|R is the Pearson correlation is a coefficient statistic that measures linear correlation between two variables CR in the delayed phase vs Cmax|The population consist of all patients having CR in the delayed phase and AUC0-inf and Cmax, there is no comparison between the two dose groups.||||0.75
92454379|NCT04827212|184796839|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.037|TWO_SIDED|||||P\<0.05|Mixed Models Analysis|||||||0.037
92454380|NCT04827212|184796840|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.78|TWO_SIDED|||||p-value is adjusted for multiple comparisons- P\<0.025; controlled for baseline values as there was a significant difference between groups at baseline|Mixed Models Analysis|||||||0.78
92454381|NCT04827212|184796841|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.56|TWO_SIDED|||||adjusted for multiple comparisons- P\<0.025; controlled for baseline value due to a significant difference between groups at baseline|Mixed Models Analysis|||||||0.56
92454382|NCT04827212|184796842|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.4|TWO_SIDED||||||Mixed Models Analysis|||||||0.4
92242189|NCT03696758|184387622|OTHER|Descriptive statistics||||||0.1||||||p value is 0.10 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.1
92242190|NCT03696758|184387623|OTHER|Descriptive statistics||||||0.09||||||p value is 0.09 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.09
92242191|NCT03696758|184387624|OTHER|Descriptive statistics||||||0.1||||||p value is 0.10 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.10
92242192|NCT03696758|184387625|OTHER|Descriptive statistics||||||0.82||||||p value is 0.82 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.82
92242193|NCT03696758|184387626|OTHER|Descriptive statistics||||||0.3||||||p value is 0.30 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.30
92454383|NCT04827212|184796843|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.18|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.18
92454384|NCT04827212|184796844|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.86|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.86
92454385|NCT04827212|184796845|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.21|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.21
92454386|NCT04827212|184796846|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.19|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.19
92454387|NCT04827212|184796847|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.12|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.12
92454388|NCT04827212|184796848|SUPERIORITY||Mean Difference (Final Values)|6.2||||0.41|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.41
92454389|NCT04827212|184796849|SUPERIORITY||Mean Difference (Final Values)|6.2||||0.43|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.43
92454390|NCT04827212|184796850|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.53|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.53
92454391|NCT04827212|184796851|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.98|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.98
92173545|NCT04359108|184238237|OTHER|||||||0.3|||||||ANOVA|||Navigate to Destination Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||0.30
92454392|NCT04827212|184796852|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.96|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.96
92454393|NCT04827212|184796853|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.91|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.91
92454394|NCT04827212|184796854|SUPERIORITY||Mean Difference (Final Values)|13.1||||0.25|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.25
92454395|NCT04827212|184796855|SUPERIORITY||Mean Difference (Final Values)|8.5||||0.46|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.46
92454396|NCT04827212|184796856|SUPERIORITY||Mean Difference (Final Values)|9.6||||0.41|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.41
92454397|NCT04827212|184796857|SUPERIORITY||Mean Difference (Final Values)|-13.8||||0.12|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.12
92454398|NCT04827212|184796858|SUPERIORITY||Mean Difference (Final Values)|-11.9||||0.2|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.20
92454399|NCT04827212|184796859|SUPERIORITY||Mean Difference (Final Values)|-14.0||||0.13|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.13
92454400|NCT04827212|184796860|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.94|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.94
92242194|NCT03696758|184387627|OTHER|Descriptive statistics||||||0.36||||||p value is 0.36 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.36
92242195|NCT03696758|184387628|OTHER|Descriptive statistics||||||0.36||||||p value is 0.36 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.36
92242196|NCT03696758|184387629|OTHER|Descriptive statistics||||||0.65||||||P-Value is 0.65 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.65
92242197|NCT03696758|184387630|OTHER|Descriptive statistics||||||0.25||||||P-Value is 0.25 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.25
92242198|NCT03696758|184387631|OTHER|Descriptive statistics||||||0.43||||||P-Value is 0.43 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.43
92242199|NCT03696758|184387632|OTHER|Descriptive statistics||||||0.66||||||P-Value is 0.66 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.66
92242200|NCT03696758|184387633|OTHER|Descriptive statistics||||||0.13||||||P-Value is 0.13 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.13
92454401|NCT04827212|184796861|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.72|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.72
92242201|NCT03696758|184387634|OTHER|Descriptive statistics||||||0.57||||||P-Value is 0.57 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.57
92242202|NCT03696758|184387635|OTHER|Descriptive statistics||||||0.25||||||P-Value is 0.25 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.25
92242203|NCT03696758|184387636|OTHER|Descriptive statistics||||||0.07||||||P-Value is 0.07 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.07
92454402|NCT04827212|184796862|SUPERIORITY||Mean Difference (Final Values)|12.3||||0.33|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.33
92454403|NCT04386096|184796883|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92454404|NCT04386096|184796885|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Change in Adolescent Pre-Intention Factors||||0.30
92454405|NCT04386096|184796885|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||Change in Parent Pre-Intention Factors||||0.71
92454406|NCT04386096|184796886|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Change in Adolescent Intention to take/give ADHD medicine regularly||||0.29
92454407|NCT04386096|184796886|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||Change in Parent Intention to take/give ADHD medicine regularly||||0.19
92454408|NCT04386096|184796887|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||0.64
92454409|NCT04386096|184796888|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||||||0.81
92454410|NCT04386096|184796890|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Change in Adolescent: Child Seek||||0.10
92454411|NCT04386096|184796890|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||Change in Adolescent: Child Express||||0.51
92173546|NCT04359108|184238237|OTHER||||||<|0.001|||||||ANOVA|||Obstacle Avoidance Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||<0.001
92242204|NCT03696758|184387637|OTHER|Descriptive statistics||||||0.36||||||P-Value is 0.36 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.36
92242205|NCT03696758|184387638|OTHER|Descriptive statistics||||||0.91||||||P-Value is 0.91 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.91
92454412|NCT04386096|184796890|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||Change in Adolescent: Parent Seek||||0.84
92454413|NCT04386096|184796890|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||Change in Adolescent: Parent Express||||0.93
92287226|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.142|||<|0.001|TWO_SIDED|95.0|0.072|0.212|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.212|0.072|<0.001
92454414|NCT04386096|184796890|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||Change in Adolescent: Joint/Options||||0.43
92454415|NCT04386096|184796890|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||Change in Parent: Child Seek||||0.94
92454416|NCT04386096|184796890|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||Change in Parent: Child Express||||0.79
92454417|NCT04386096|184796890|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||Change in Parent: Parent Seek||||0.61
92454418|NCT04386096|184796890|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Change in Parent: Parent Express||||0.10
92242206|NCT03207022|184387654|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92242207|NCT03207022|184387655|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92242208|NCT03207022|184387656|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92454419|NCT04386096|184796890|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||Change in Parent: Joint/Options||||0.98
92454420|NCT04402866|184796953|OTHER||Common Odds Ratio|1.142||||0.6137|TWO_SIDED|95.0|0.706|1.846|||Van Elteren test||Common Odds Ratio (TD-0903 vs. placebo) and corresponding 95% Wald confidence interval (CI) were obtained from the proportional odds regression model of RFD adjusting for baseline age strata (≤ 60 years vs. \> 60 years).|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.||1.846|0.706|0.6137
92454421|NCT04402866|184796954|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|LS mean difference|-0.51||||0.962|TWO_SIDED|95.0|-21.95|20.92|||Mixed model repeated measures model|||Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group||20.92|-21.95|0.962
92454422|NCT04402866|184796955|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|Odds Ratio (OR)|1.153||||0.5918|TWO_SIDED|95.0|0.692|1.922|||Van Elteren test||Between-group comparisons analyzed using a proportional odds model adjusting for baseline age strata (≤ 60 years vs. \> 60 years).|Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group on Day 7||1.922|0.692|0.5918
92454423|NCT04402866|184796955|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|Odds Ratio (OR)|1.105||||0.6978|TWO_SIDED|95.0|0.651|1.878|||Van Elteren test|||Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group on Day 14|Between-group comparisons analyzed using a proportional odds model adjusting for baseline age strata (≤ 60 years vs. \> 60 years).|1.878|0.651|0.6978
92242209|NCT06150573|184387657|SUPERIORITY||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.498||0.9141|TWO_SIDED|95.0|-1.04|0.93|||ANOVA|||||0.93|-1.04|0.9141
92242210|NCT06150573|184387658|SUPERIORITY||Adjusted Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.494||0.4583|TWO_SIDED|95.0|-0.61|1.34|||ANOVA|||||1.34|-0.61|0.4583
92454424|NCT04402866|184796955|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|Odds Ratio (OR)|1.295||||0.399|TWO_SIDED|95.0|0.702|2.388|||Van Elteren test|||Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group on Day 21|Between-group comparisons analyzed using a proportional odds model adjusting for baseline age strata (≤ 60 years vs. \> 60 years).|2.388|0.702|0.3990
92454425|NCT04402866|184796955|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|Odds Ratio (OR)|1.18||||0.6445|TWO_SIDED|95.0|0.605|2.299|||Van Elteren test||Between-group comparisons analyzed using a proportional odds model adjusting for baseline age strata (≤ 60 years vs. \> 60 years).|Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group on Day 28||2.299|0.605|0.6445
92454426|NCT04402866|184796956|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|Risk Difference (RD)|5.06||||0.3005|TWO_SIDED|95.0|-4.5|14.63||The p-value was calculated using the Cochran-Mantel-Haenszel chi-square test stratified by baseline age group (≤ 60 years vs. \> 60 years)|Cochran-Mantel-Haenszel chi-square test|||Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group||14.63|-4.50|0.3005
92454427|NCT03317002|184796970|SUPERIORITY||Ratio|0.04|||<|0.001|ONE_SIDED|95.0||0.05|||Mixed Models Analysis|||||0.05||<0.001
92454428|NCT03317002|184796970|SUPERIORITY||Ratio|0.08||||0.001|ONE_SIDED|95.0||0.1|||Mixed Models Analysis|||||0.10||0.001
92454429|NCT03317002|184796971|SUPERIORITY||Ratio|0.04|||<|0.001|ONE_SIDED|95.0||0.05|||Mixed Models Analysis|||||0.05||<0.001
92173547|NCT04359108|184238237|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||<0.01
92173548|NCT04359108|184238237|OTHER|||||||0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.01
92173549|NCT04359108|184238237|OTHER|||||||0.93|||||||t-test, 2 sided|||Obstacle Avoidance Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.93
92173550|NCT04359108|184238237|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||<0.01
92454430|NCT03317002|184796971|SUPERIORITY||Ratio|0.09||||0.001|ONE_SIDED|95.0||0.12|||Mixed Models Analysis|||||0.12||0.001
92454431|NCT01592435|184796984|SUPERIORITY_OR_OTHER|||||||0.02||||||level of significance (alpha) = 0.05 All p-values were calculated (and verified) by our statistician and are correct. They were rounded to fit four digits.|t-test, 1 sided|||||||0.02
92454432|NCT01592435|184796985|SUPERIORITY_OR_OTHER|||||||0||||||level of significance (alpha) = 0.05 All p-values were calculated (and verified) by our statistician and are correct. They were rounded to fit four digits.|t-test, 1 sided|||||||0.00
92454433|NCT02395042|184797052|SUPERIORITY||Least Squares Mean Difference|-1.15||||0.142|||||||ANCOVA|ANCOVA model with baseline value as a covariate and treatment group and stratification (baseline bladder pain NRS: ≤ 5 or \> 5) as factors.||||||0.142
92454434|NCT02395042|184797052|SUPERIORITY||Least Squares Mean Difference|-0.92||||0.319|||||||ANCOVA|ANCOVA model with baseline value as a covariate and treatment group and stratification (baseline bladder pain NRS: ≤ 5 or \> 5) as factors.||||||0.319
92454435|NCT02395042|184797053|SUPERIORITY||Least Squares Mean Difference|-1.46||||0.024|||||||ANCOVA|ANCOVA model with baseline value as a covariate and treatment group and stratification (baseline bladder pain NRS: ≤ 5 or \> 5) as factors.||||||0.024
92454436|NCT02395042|184797053|SUPERIORITY||Least Squares Mean Difference|-1.02||||0.137|||||||ANCOVA|ANCOVA model with baseline value as a covariate and treatment group and stratification (baseline bladder pain NRS: ≤ 5 or \> 5) as factors.||||||0.137
92454437|NCT01910519|184797168|OTHER|||||||0.0039|||||||ANOVA|||Correlation of vaccine-induced blood transcription modules (BTMs) M183-TBA at day 1 with MN titers at day 42||||0.0039
92454438|NCT01910519|184797168|OTHER|||||||0.0368|||||||ANOVA|||Correlation of vaccine-induced blood transcription modules (BTMs) M115-cytokines-receptors cluster at day 1 with MN titers at day 42||||0.0368
92454439|NCT01910519|184797168|OTHER|||||||0.0465|||||||ANOVA|||Correlation of vaccine-induced blood transcription modules (BTMs) M74-transcriptional targets of glucocorticoid receptor at day 1 with MN titers at day 42||||0.0465
92242211|NCT06150573|184387659|SUPERIORITY||Adjusted Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.061||0.0042|TWO_SIDED|95.0|-0.3|-0.06|||ANOVA|||Week 12||-0.06|-0.30|0.0042
92454440|NCT01910519|184797168|OTHER|||||||0.0411|||||||ANOVA|||Correlation of vaccine-induced blood transcription modules (BTMs) M58-B cell development/activation at day 1 with MN titers at day 42||||0.0411
92454441|NCT01910519|184797168|OTHER|||||||0.0067|||||||ANOVA|||Correlation of vaccine-induced blood transcription modules (BTMs) M114.0-TBA at day 1 with MN titers at day 42||||0.0067
92454442|NCT02276482|184797210|OTHER||Difference in percentages|3.6|||||TWO_SIDED|95.0|-6.3|13.5|||||The difference (Tedizolid minus Comparator group) in the clinical success rate and 95% confidence interval calculated using the unstratified method of Miettinen and Nurminen.|||13.5|-6.3|
92242212|NCT06150573|184387659|SUPERIORITY||Adjusted Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.074|<|0.0001|TWO_SIDED|95.0|-0.46|-0.17|||ANOVA|||Week 24||-0.17|-0.46|<0.0001
92173551|NCT04359108|184238237|OTHER|||||||||||||||||Obstacle Avoidance Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.27"|||
92173552|NCT04359108|184238237|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 1.00"|||
92173553|NCT04359108|184238237|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision + Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 2.75"|||
92242213|NCT06150573|184387660|SUPERIORITY||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.016||0.2478|TWO_SIDED|95.0|-0.05|0.01|||ANOVA|||Mean Gingival MLSI, Week 12||0.01|-0.05|0.2478
92242214|NCT06150573|184387660|SUPERIORITY||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.0957|TWO_SIDED|95.0|-0.07|0.01|||ANOVA|||Mean Gingival MLSI, Week 24||0.01|-0.07|0.0957
92454443|NCT02276482|184797211|OTHER||Difference in percentages|3.7|||||TWO_SIDED|95.0|-3.4|10.8|||||The difference (Tedizolid minus Comparator group) in the clinical success rate and 95% confidence interval calculated using the unstratified method of Miettinen and Nurminen.|||10.8|-3.4|
92454444|NCT02276482|184797212|OTHER||Difference in percentages|-4.2|||||TWO_SIDED|95.0|-12.9|4.4|||||The difference (Tedizolid minus Comparator group) in the clinical success rate and 95% confidence interval calculated using the unstratified method of Miettinen and Nurminen.|||4.4|-12.9|
92454445|NCT02276482|184797213|OTHER||Difference in percentages|0.2|||||TWO_SIDED|95.0|-7.4|7.7|||||The difference (Tedizolid minus Comparator group) in the clinical success rate and 95% confidence interval calculated using the unstratified method of Miettinen and Nurminen.|||7.7|-7.4|
92454446|NCT02276482|184797214|OTHER||Difference in percentages|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The difference (Tedizolid minus Comparator group) in the clinical success rate and 95% confidence interval calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
92454447|NCT02005471|184797231|SUPERIORITY||Hazard Ratio (HR)|0.23|||<|0.0001|TWO_SIDED|95.0|0.18|0.29|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified analysis: 17p deletion, risk status, geographic region.||0.29|0.18|<.0001
92454448|NCT02005471|184797231|SUPERIORITY||Hazard Ratio (HR)|0.25|||<|0.0001|TWO_SIDED|95.0|0.19|0.31|||Log Rank||Hazard ratio was estimated by Cox regression model|Unstratified Analysis||0.31|0.19|<.0001
92454449|NCT02005471|184797233|SUPERIORITY||Hazard Ratio (HR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.13|0.28|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factors: 17p deletion, risk status, geographic region.||0.28|0.13|<.0001
92454450|NCT02005471|184797233|SUPERIORITY||Hazard Ratio (HR)|0.2|||<|0.0001|TWO_SIDED|95.0|0.14|0.3|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.30|0.14|<.0001
92454451|NCT02005471|184797235|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.21|0.57|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factor: geographic region.||0.57|0.21|<.0001
92173554|NCT04359108|184238237|OTHER|||||||||||||||||Obstacle Avoidance Test - Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 0.60"|||
92242215|NCT06150573|184387660|SUPERIORITY||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.122||0.0063|TWO_SIDED|95.0|-0.58|-0.1|||ANOVA|||Mean Interproximal MLSI, Week 12||-0.10|-0.58|0.0063
92242216|NCT06150573|184387660|SUPERIORITY||Adjusted Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.147|<|0.0001|TWO_SIDED|95.0|-0.89|-0.31|||ANOVA|||Mean Interproximal MLSI, Week 24||-0.31|-0.89|<0.0001
92242217|NCT06150573|184387660|SUPERIORITY||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.1536|TWO_SIDED|95.0|-0.03|0.01|||ANOVA|||Mean Body MLSI, Week 12||0.01|-0.03|0.1536
92287227|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.021||||0.573|TWO_SIDED|95.0|-0.053|0.096|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.096|-0.053|0.573
92454452|NCT02005471|184797235|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.22|0.56|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.56|0.22|<.0001
92454453|NCT02005471|184797237|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.09|0.49|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factor: geographic region.||0.49|0.09|<.0001
92454454|NCT02005471|184797237|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.09|0.46|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.46|0.09|<.0001
92454455|NCT02005471|184797238|SUPERIORITY||Difference in Response Rates|25.61|||<|0.0001|TWO_SIDED|95.0|17.88|33.33|||Cochran-Mantel-Haenszel||95% CI for rates were constructed using Pearson- Clopper method. 95% CI for difference in rates were constructed using Anderson-Hauck method.|||33.33|17.88|<.0001
92454456|NCT02005471|184797238|SUPERIORITY||Odds Ratio (OR)|7.81|||||TWO_SIDED|95.0|3.97|15.37|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||15.37|3.97|
92454457|NCT02005471|184797239|SUPERIORITY||Difference in Response Rates|25.61|||<|0.0001|TWO_SIDED|95.0|17.88|33.33|||Cochran-Mantel-Haenszel||95% CI for rates were constructed using Pearson- Clopper method. 95% CI for difference in rates were constructed using Anderson-Hauck method.|||33.33|17.88|<.0001
92454458|NCT02005471|184797239|SUPERIORITY||Odds Ratio (OR)|7.81|||||TWO_SIDED|95.0|3.97|15.37|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||15.37|3.97|
92454459|NCT02005471|184797240|SUPERIORITY||Difference in Response Rates|25.07|||<|0.0001|TWO_SIDED|95.0|16.63|33.51|||Cochran-Mantel-Haenszel||The 95% CI was computed using Anderson-Hauck method.|||33.51|16.63|<.0001
92454460|NCT02005471|184797240|SUPERIORITY||Odds Ratio (OR)|4.59|||||TWO_SIDED|95.0|2.68|7.88|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||7.88|2.68|
92454461|NCT02005471|184797241|SUPERIORITY||Difference in Response Rates|24.55|||<|0.0001|TWO_SIDED|95.0|16.0|33.1|||Cochran-Mantel-Haenszel||The 95% CI was computed using Anderson-Hauck method.|||33.10|16.00|<.0001
92454462|NCT02005471|184797241|SUPERIORITY||Odds Ratio (OR)|4.59|||||TWO_SIDED|95.0|2.68|7.85|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||7.85|2.68|
92454463|NCT02005471|184797243|SUPERIORITY|Stratified Analysis; Stratification factors: 17p deletion, risk status, geographic region.|Hazard Ratio (HR)|0.53||||0.0002|TWO_SIDED|95.0|0.37|0.74|||Log Rank||Hazard ratio was estimated by Cox regression model.|||0.74|0.37|0.0002
92454464|NCT02005471|184797243|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.0003|TWO_SIDED|95.0|0.39|0.76|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.76|0.39|0.0003
92454465|NCT02005471|184797245|SUPERIORITY||Hazard Ratio (HR)|0.22|||<|0.0001|TWO_SIDED|95.0|0.17|0.29|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factors: 17p deletion, risk status, geographic region.||0.29|0.17|<.0001
92173555|NCT04359108|184238237|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = N/A\*~\* N/A for Argus Vision test because subject did not successfully reach intended destination for any trial using this mode."|||
92242218|NCT06150573|184387660|SUPERIORITY||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.006||0.1166|TWO_SIDED|95.0|-0.02|0.0|||ANOVA|||Mean Body MLSI, Week 24||0.00|-0.02|0.1166
92242219|NCT06150573|184387661|SUPERIORITY||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|-0.21|-0.07|||ANOVA|||Week 12||-0.07|-0.21|<0.0001
92242220|NCT06150573|184387661|SUPERIORITY||Adjusted Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|-0.25|-0.1|||ANOVA|||Week 24||-0.10|-0.25|<0.0001
92242221|NCT06150573|184387662|SUPERIORITY||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.033||0.04|TWO_SIDED|95.0|-0.13|0.0|||ANOVA|||Week 12||-0.00|-0.13|0.0400
92242222|NCT06150573|184387662|SUPERIORITY||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.037||0.001|TWO_SIDED|95.0|-0.2|-0.05|||ANOVA|||Week 24||-0.05|-0.20|0.0010
92242223|NCT00210158|184387663|SUPERIORITY||Mean Difference (Final Values)|9.7||||0.5|TWO_SIDED|95.0|-23.4|42.8|||t-test, 2 sided|||T-test for a difference of means, assuming independant samples and unequal variances||42.8|-23.4|0.5
92242224|NCT04096326|184387688|SUPERIORITY||Rate difference|40.6||||0.0096|TWO_SIDED|95.0|23.6|57.6||P-value was based on Cochran-Mantel-Haenszel (CMH) tests stratified by baseline GL severity at maximum frown to compare each AGN-151586 study intervention group versus placebo for each cohort.|Cochran-Mantel-Haenszel|||||57.6|23.6|0.0096
92242225|NCT04096326|184387688|SUPERIORITY||Rate difference|46.4||||0.0094|TWO_SIDED|95.0|28.0|64.9||P-value was based on CMH tests stratified by baseline GL severity at maximum frown to compare each AGN-151586 study intervention group versus placebo for each cohort.|Cochran-Mantel-Haenszel|||||64.9|28.0|0.0094
92454466|NCT02005471|184797245|SUPERIORITY||Hazard Ratio (HR)|0.25|||<|0.0001|TWO_SIDED|95.0|0.19|0.31|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.31|0.19|<.0001
92454467|NCT02005471|184797249|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.23|0.39|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factors: 17p deletion, risk status, geographic region.||0.39|0.23|<.0001
92454468|NCT02005471|184797249|SUPERIORITY||Hazard Ratio (HR)|0.32|||<|0.0001|TWO_SIDED|95.0|0.25|0.41|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.41|0.25|<.0001
92454469|NCT02005471|184797250|SUPERIORITY||Difference in MRD Negativity Rates|49.04|||<|0.0001|TWO_SIDED|95.0|40.44|57.64|||Chi-squared||The 95% CI was computed using Anderson-Hauck method.|||57.64|40.44|<.0001
92454470|NCT02005471|184797250|SUPERIORITY||Odds Ratio (OR)|10.77|||||TWO_SIDED|95.0|6.5|17.85|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||17.85|6.50|
92454471|NCT02005471|184797251|SUPERIORITY||Difference in MRD negative rates|13.41|||<|0.0001|TWO_SIDED|95.0|7.99|18.82|||Chi-squared||The 95% CI was computed using Anderson-Hauck method.|||18.82|7.99|<.0001
92454472|NCT02005471|184797251|SUPERIORITY||Odds Ratio (OR)|16.28|||||TWO_SIDED|95.0|3.82|69.35|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||69.35|3.82|
92454473|NCT02091167|184797302|OTHER|||||||0.05|||||||ANOVA|||We powered for a medium effect size based on our previous study with effect size (partial ղ2) of 0.10384 for the main within-subject factor in the two-way ANOVA with repeated measures. With a power of 80%, and a two-sided probability of a type I error of 5%, the resulting minimum sample size was 30 participants. To account for waiving or dropouts we increased the estimated sample size to approximately 10%, resulting in 33 subjects in total (approximately 16 to 17 subjects in each group).|"Most of data (age, patterns of crack-cocaine use, 5-items OCCS) were normally distributed according to the D'Agostino \& Pearson normality test, thus they were analyzed by parametric tests. Between-group (sham- and real tDCS) comparisons were conducted by unpaired Student´s t-tests. For all other non-parametric data (gender, schooling, employment, marital state and tobacco use), Chi-square or Fisher tests were used to compare sham and real tDCS groups.~Besides the two-way ANOVA with repeated measures followed by Bonferroni-corrected t-tests, linear regression analyses were done over craving scores obtained along the 4-week treatment (five time-points measurements) for both groups. Additional comparisons between initial and final OCDS scores were done by paired t-tests for each group, and differences between final and initial scores were compared between sham-tDCS and real tDCS groups with unpaired t-test."|||0.05
92454474|NCT02091167|184797303|OTHER|||||||0.05|||||||Fisher Exact|||Two patients from each group were lost to follow-up after their discharge from the hospital.||||0.05
92454475|NCT01002872|184797321|SUPERIORITY|||||||0.037|||||||t-test, 2 sided|||||||0.037
92454476|NCT01002872|184797322|SUPERIORITY|||||||0.721|||||||t-test, 2 sided|||||||0.721
92454477|NCT01002872|184797323|SUPERIORITY|||||||0.897|||||||t-test, 2 sided|||||||0.897
92454478|NCT01002872|184797324|SUPERIORITY|||||||0.743|||||||t-test, 2 sided|||||||0.743
92454479|NCT01002872|184797325|SUPERIORITY|||||||0.416|||||||t-test, 2 sided|||||||0.416
92454480|NCT01002872|184797326|SUPERIORITY|||||||0.672|||||||t-test, 2 sided|||||||0.672
92454481|NCT01002872|184797327|SUPERIORITY|||||||0.955|||||||t-test, 2 sided|||||||0.955
92454482|NCT01002872|184797328|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92454483|NCT01002872|184797329|SUPERIORITY|||||||0.0066|||||||t-test, 2 sided|||||||0.0066
92454484|NCT02388724|184797380|NON_INFERIORITY|If the lower bound of the 95% confidence intervals of the difference was more than -10% (non-inferiority margin), non-inferiority for Vonoprazan relative to Lansoprazole was declared.|Difference in percentages|1.1|||||TWO_SIDED|95.0|-3.822|6.087||||||||6.087|-3.822|
92454485|NCT02388724|184797381|SUPERIORITY||Difference in percentages|7.2|||||TWO_SIDED|95.0|-1.054|15.371||||||2 Weeks||15.371|-1.054|
92454486|NCT02388724|184797381|SUPERIORITY||Difference in percentages|1.8|||||TWO_SIDED|95.0|-4.763|8.395||||||4 Weeks||8.395|-4.763|
92242226|NCT04096326|184387688|SUPERIORITY||Rate difference|52.2||||0.0044|TWO_SIDED|95.0|23.6|80.8||P-value was based on CMH tests stratified by baseline GL severity at maximum frown to compare each AGN-151586 study intervention group versus placebo for each cohort.|Cochran-Mantel-Haenszel|||||80.8|23.6|0.0044
92242227|NCT04096326|184387688|SUPERIORITY||Rate difference|63.3||||0.0026|TWO_SIDED|95.0|35.2|91.5||P-value was based on CMH tests stratified by baseline GL severity at maximum frown to compare each AGN-151586 study intervention group versus placebo for each cohort.|Cochran-Mantel-Haenszel|||||91.5|35.2|0.0026
92242228|NCT04096326|184387688|SUPERIORITY||Rate difference|85.7||||0|TWO_SIDED|95.0|64.2|100.0||P-value was based on CMH tests stratified by baseline GL severity at maximum frown to compare each AGN-151586 study intervention group versus placebo for each cohort.|Cochran-Mantel-Haenszel|||||100.0|64.2|0.0000
92173556|NCT04359108|184238237|OTHER|||||||||||||||||Navigate to Destination Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.72"|||
92173557|NCT04359108|184238237|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 2.47"|||
92242229|NCT04490265|184387704|SUPERIORITY||Cohen's d|0.33|||||TWO_SIDED|||||||||||||
92242230|NCT04490265|184387705|SUPERIORITY||Cohen's d|0.78|||||TWO_SIDED|||||||||||||
92242231|NCT04490265|184387710|SUPERIORITY||Cohen's d|0.14|||||TWO_SIDED|||||||||Belonging Subscale change from baseline to 12-weeks||||
92242232|NCT04490265|184387710|SUPERIORITY||Cohen's D|0.05|||||TWO_SIDED|||||||||Belonging subscale Baseline to 6-months||||
92242233|NCT04490265|184387710|SUPERIORITY||Cohen's D|0.6|||||TWO_SIDED|||||||||Change in Burdensome subscale Baseline to 12-weeks||||
92242234|NCT04490265|184387710|SUPERIORITY||Cohen's D|0.43|||||TWO_SIDED|||||||||Change in Burdensome subscale Baseline to 6 months||||
92173558|NCT04359108|184238237|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 3.81"|||
92242235|NCT04490265|184387711|SUPERIORITY||Cohen's D|0.07|||||TWO_SIDED|||||||||Baseline to 12-weeks||||
92173559|NCT04359108|184238238|OTHER||||||<|0.001|||||||ANOVA|navigation system mode and test block as factors||Navigate to Destination Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||<0.001
92242236|NCT04490265|184387711|SUPERIORITY||Cohen's D|0.13|||||TWO_SIDED|||||||||Baseline to 6-months||||
92242237|NCT04490265|184387712|SUPERIORITY||Cohen's d|0.6|||||TWO_SIDED|||||||||||||
92173560|NCT04359108|184238238|OTHER||||||<|0.01|||||||t-test, 2 sided|within-participant, 2 sided t-test||Navigate to Destination Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||<0.01
92173561|NCT04359108|184238238|OTHER|||||||0.037||||||within-participant, 2 sided t-test|t-test, 2 sided|||Navigate to Destination Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.037
92173562|NCT04359108|184238238|OTHER|||||||0.34|||||||t-test, 2 sided|within-participant, 2 sided t-test||Navigate to Destination Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.34
92242238|NCT04490265|184387713|SUPERIORITY||Cohen's d|0.52|||||TWO_SIDED|||||||||||||
92281183|NCT03740165|184465585|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.1953|TWO_SIDED|95.0|0.71|1.14||One-sided p-value based on log-rank test stratified by surgery (planned interval debulking versus R0 following primary debulking versus R1 following primary debulking), bevacizumab use (yes versus no), and PD-L1 status (CPS\<10 vs CPS≥10).|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by surgery (planned interval vs R0 following primary vs R1 following primary debulking), bevacizumab use (Yes vs No), PD-L1 status (CPS\<10 vs CPS≥10)|||1.14|0.71|0.1953
92242239|NCT04490265|184387714|SUPERIORITY||Cohen's d|0.21|||||TWO_SIDED|||||||||||||
92242240|NCT04490265|184387715|SUPERIORITY||Cohen's d|0.2|||||TWO_SIDED|||||||||||||
92242241|NCT04490265|184387716|SUPERIORITY||Cohen's d|0.66|||||TWO_SIDED|||||||||||||
92242242|NCT04490265|184387717|SUPERIORITY||cohen's d|0.38|||||TWO_SIDED|||||||||||||
92242243|NCT04490265|184387718|SUPERIORITY||Cohens d|0.47|||||TWO_SIDED|||||||||Severity||||
92242244|NCT04490265|184387718|SUPERIORITY||Cohens d|0.46|||||TWO_SIDED|||||||||interference||||
92242245|NCT04490265|184387719|SUPERIORITY||Cohens d|0.64|||||TWO_SIDED|||||||||Severity Subscale||||
92242246|NCT04490265|184387719|SUPERIORITY||Cohen's d|0.38|||||TWO_SIDED|||||||||Interference subscale||||
92173563|NCT04359108|184238238|OTHER|||||||0.1|||||||t-test, 2 sided|within-participant, 2 sided t-test||Navigate to Destination Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||0.10
92173564|NCT04359108|184238238|OTHER||||||<|0.001|||||||ANOVA|||Obstacle Avoidance Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||<0.001
92173565|NCT04359108|184238238|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||<0.01
92173566|NCT04359108|184238238|OTHER|||||||0.67|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.67
92173567|NCT04359108|184238238|OTHER|||||||0.23|||||||t-test, 2 sided|||Obstacle Avoidance Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.23
92173568|NCT04359108|184238238|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||<0.01
92173569|NCT04359108|184238238|OTHER|||||||||||||||||Obstacle Avoidance Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.79"|||
92242247|NCT03280550|184387756|SUPERIORITY||Difference in Least Squares Means|-1.14|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.59|-0.69||Tested at the two-sided 0.05 significance level. There was no adjustment for multiplicity for the co-primary outcome measures.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NPS, treatment and baseline NPS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The primary analysis tested the null hypothesis that no treatment group difference existed for change from baseline in NPS at Week 24. As NPS and NCS are co-primary outcome measures, both null hypotheses for NPS and NCS must be rejected, with parameter estimates indicating a benefit of omalizumab over placebo, for the study to be deemed positive.||-0.69|-1.59|<0.0001
92173570|NCT04359108|184238238|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 1.38"|||
92173571|NCT04359108|184238238|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision + Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 2.24"|||
92281184|NCT03740165|184465586|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5188|TWO_SIDED|95.0|0.77|1.3||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.30|0.77|0.5188
92182957|NCT02434328|184264731|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-1.7|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||4.9|-1.7|
92182958|NCT02434328|184264731|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-3.9|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||2.8|-3.9|
92173572|NCT04359108|184238238|OTHER|||||||||||||||||Obstacle Avoidance Test - Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.85"|||
92242248|NCT03280550|184387757|SUPERIORITY||Difference in Least Squares Means|-0.55|STANDARD_ERROR_OF_MEAN|0.15||0.0004|TWO_SIDED|95.0|-0.84|-0.25||Tested at the two-sided 0.05 significance level. There was no adjustment for multiplicity for the co-primary outcome measures.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NCS, treatment and baseline NCS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The primary analysis tested the null hypothesis that no treatment group difference existed for change from baseline in NCS at Week 24. As NPS and NCS are co-primary outcome measures, both null hypotheses for NPS and NCS must be rejected, with parameter estimates indicating a benefit of omalizumab over placebo, for the study to be deemed positive.||-0.25|-0.84|0.0004
92287228|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|-0.006||||0.881|TWO_SIDED|95.0|-0.078|0.067|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.067|-0.078|0.881
92454487|NCT01217073|184797415|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.71|||<|0.001|TWO_SIDED|95.0|-0.93|-0.5||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-0.50|-0.93|<0.001
92454488|NCT01217073|184797415|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.67|||<|0.001|TWO_SIDED|95.0|-0.88|-0.45||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-0.45|-0.88|<0.001
92454489|NCT01217073|184797415|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.49|||<|0.001|TWO_SIDED|95.0|-0.7|-0.27||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-0.27|-0.70|<0.001
92454490|NCT01217073|184797415|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.5|||<|0.001|TWO_SIDED|95.0|-0.71|-0.28||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-0.28|-0.71|<0.001
92454491|NCT01217073|184797415|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.28||||0.012|TWO_SIDED|95.0|-0.5|-0.06||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-0.06|-0.50|0.012
92454492|NCT01217073|184797416|SUPERIORITY_OR_OTHER||Difference in percentage|6.2|||||TWO_SIDED|95.0|-6.2|18.4||||||||18.4|-6.2|
92454493|NCT01217073|184797416|SUPERIORITY_OR_OTHER||Difference in percentage|12.5|||||TWO_SIDED|95.0|-0.1|24.7||||||||24.7|-0.1|
92454494|NCT01217073|184797416|SUPERIORITY_OR_OTHER||Difference in percentage|5.9|||||TWO_SIDED|95.0|-6.5|18.0||||||||18.0|-6.5|
92454495|NCT01217073|184797416|SUPERIORITY_OR_OTHER||Difference in percentage|5.5|||||TWO_SIDED|95.0|-6.8|17.7||||||||17.7|-6.8|
92454496|NCT01217073|184797416|SUPERIORITY_OR_OTHER||Difference in percentage|2.4|||||TWO_SIDED|95.0|-9.8|14.5||||||||14.5|-9.8|
92182959|NCT02434328|184264731|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-3.2|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||3.8|-3.2|
92454497|NCT01217073|184797417|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-4.1|4.1||||||||4.1|-4.1|
92454498|NCT01217073|184797417|SUPERIORITY_OR_OTHER||Difference in percentage|-0.9|||||TWO_SIDED|95.0|-4.9|2.4||||||||2.4|-4.9|
92454499|NCT01217073|184797417|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-4.1|4.0||||||||4.0|-4.1|
92454500|NCT01217073|184797417|SUPERIORITY_OR_OTHER||Difference in percentage|-0.9|||||TWO_SIDED|95.0|-4.9|2.4||||||||2.4|-4.9|
92454501|NCT01217073|184797417|SUPERIORITY_OR_OTHER||Difference in percentage|2.6|||||TWO_SIDED|95.0|-1.7|7.9||||||||7.9|-1.7|
92454502|NCT01217073|184797418|SUPERIORITY_OR_OTHER||Difference in percent|1.0|||||TWO_SIDED|95.0|-9.8|13.1||||||||13.1|-9.8|
92454503|NCT01217073|184797419|SUPERIORITY_OR_OTHER||Difference in percent|-1.4|||||TWO_SIDED|95.0|-9.1|2.6||||||||2.6|-9.1|
92454504|NCT01217073|184797420|SUPERIORITY_OR_OTHER||Difference in least squares mean|-44.9|||<|0.001|TWO_SIDED|95.0|-59.0|-30.7||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-30.7|-59.0|<0.001
92182960|NCT02434328|184264731|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-3.8|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||3.5|-3.8|
92454505|NCT01217073|184797420|SUPERIORITY_OR_OTHER||Difference in least squares mean|-41.6|||<|0.001|TWO_SIDED|95.0|-55.3|-27.8||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-27.8|-55.3|<0.001
92454506|NCT01217073|184797420|SUPERIORITY_OR_OTHER||Difference in least squares mean|-35.1|||<|0.001|TWO_SIDED|95.0|-48.9|-21.3||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-21.3|-48.9|<0.001
92454507|NCT01217073|184797420|SUPERIORITY_OR_OTHER||Difference in least squares mean|-33.5|||<|0.001||95.0|-47.3|-19.7||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-19.7|-47.3|<0.001
92454508|NCT01217073|184797420|SUPERIORITY_OR_OTHER||Difference in least squares mean|-18.8||||0.009|TWO_SIDED|95.0|-32.9|-4.8||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-4.8|-32.9|0.009
92454509|NCT01217073|184797421|SUPERIORITY_OR_OTHER||Difference in least squares mean|-21.4|||<|0.001|TWO_SIDED|95.0|-29.4|-13.4||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-13.4|-29.4|<0.001
92454510|NCT01217073|184797421|SUPERIORITY_OR_OTHER||Difference in least squares mean|-13.5|||<|0.001|TWO_SIDED|95.0|-21.3|-5.7||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-5.7|-21.3|<0.001
92454511|NCT01217073|184797421|SUPERIORITY_OR_OTHER||Difference in least squares mean|-14.3|||<|0.001|TWO_SIDED|95.0|-22.2|-6.3||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-6.3|-22.2|<0.001
92454512|NCT01217073|184797421|SUPERIORITY_OR_OTHER||Difference in least squares mean|-19.0|||<|0.001|TWO_SIDED|95.0|-26.9|-11.2||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-11.2|-26.9|<0.001
92454513|NCT01217073|184797421|SUPERIORITY_OR_OTHER||Difference in least squares mean|-2.5||||0.539|TWO_SIDED|95.0|-10.4|5.5||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||5.5|-10.4|0.539
92454514|NCT03561090|184797428|SUPERIORITY||Least squares (LS) mean difference|0.055||||0.6346|TWO_SIDED|95.0|-0.172|0.281|||MMRM||Treatment difference (IW-3718 - placebo)|Treatment difference calculated as least squares mean (LSM) change from baseline at Week 8; IW-3718 - placebo based on an mixed models repeated measures (MMRM) model with week (categorical), treatment group, week-by-treatment group, and week-by-baseline value interactions, baseline esophagitis status (present vs. not present), and baseline WHSS (\< 3 vs. ≥ 3) as fixed effect terms and baseline value as a covariate, with subject as a random effect. An unstructured covariance structure was used.||0.281|-0.172|0.6346
92454515|NCT03561090|184797429|SUPERIORITY||LS Mean Difference|0.035||||0.7101|TWO_SIDED|95.0|-0.151|0.221|||MMRM||Treatment difference (IW-3718 - placebo)|Treatment difference calculated as LSM change from baseline at Week 8; IW-3718 - placebo based on an MMRM model with week (categorical), treatment group, week-by-treatment group, and week-by-baseline value interactions, baseline esophagitis status (present vs. not present), and baseline WHSS (\< 3 vs. ≥ 3) as fixed effect terms and baseline value as a covariate, with subject as a random effect. An unstructured covariance structure was used.||0.221|-0.151|0.7101
92454516|NCT03561090|184797430|SUPERIORITY||Difference in percentage of responders|-5.5|||||TWO_SIDED|95.0|-14.7|3.7|||||95% confidence interval (CI) for Difference in Responder Rates is obtained using the Newcombe CI.|||3.7|-14.7|
92454517|NCT03561090|184797430|SUPERIORITY||Odds Ratio (OR)|0.81||||0.2531|TWO_SIDED|95.0|0.56|1.17|||Cochran-Mantel-Haenszel||Odds Ratio for Response (IW-3718 : placebo)|Treatment difference was calculated as the difference in the responder rates at Week 8; IW-3718 - placebo. The 95% CI for the difference in the responder rates was obtained using the Newcombe CI. P value was based on the odds ratio for the response rate (IW-3718:placebo) obtained from the CMH tests controlling for baseline esophagitis status and baseline heartburn severity level (\< 3 vs. ≥ 3).||1.17|0.56|0.2531
92454518|NCT03561090|184797431|SUPERIORITY||Proportion ratio|0.938||||0.7445|TWO_SIDED|95.0|0.636|1.382||Negative binomial model was used to deal with data overdispersion.|Negative binomial model||Proportion Ratio (1500 mg IW-3718 BID + PPI: Placebo + PPI)|Poisson regression including the fixed categorical effect of treatment, the baseline esophagitis status (present vs. not present) and baseline WHSS (\<3 vs. ≥3), the covariate of baseline proportion of heartburn-free days, and with the diary entry duration (in days) as a weight variable adjusted in the model was applied.||1.382|0.636|0.7445
92454519|NCT03561090|184797431|OTHER|Negative binomial model was used to deal with data overdispersion.|Difference in Proportion Ratio|-0.015|||||TWO_SIDED|95.0|-0.103|0.074|||||Difference in Proportion Ratio, (1500 mg IW-3718 BID + PPI) - (Placebo + PPI).|Poisson regression including the fixed categorical effect of treatment, the baseline esophagitis status (present vs. not present) and baseline WHSS (\<3 vs. ≥3), the covariate of baseline proportion of heartburn-free days, and with the diary entry duration (in days) as a weight variable adjusted in the model was applied.||0.074|-0.103|
92454520|NCT00713648|184797442|SUPERIORITY_OR_OTHER||Mean (Lambda)|0.048||||||95.0|0.0094|0.2501|||Poisson model (log-link)|The estimated rate was adjusted for age and overdispersion which was estimated by Pearson's chi-square statistic divided by its degrees of freedom.|Mean (Lambda) refer to the estimate of the annualised bleeding rate|||0.2501|0.0094|
92454521|NCT02479412|184797592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02691|STANDARD_ERROR_OF_MEAN|0.05697||0.6379|TWO_SIDED|95.0|-0.08626|0.1401|||Mixed Models Analysis|||AZD7594 58 µg vs. PBO||0.1401|-0.08626|0.6379
92454522|NCT02479412|184797592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07604|STANDARD_ERROR_OF_MEAN|0.05663||0.1827|TWO_SIDED|95.0|-0.03645|0.1885|||Mixed Models Analysis|||AZD7594 250 µg vs.PBO||0.1885|-0.03645|0.1827
92454523|NCT02479412|184797592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1478|STANDARD_ERROR_OF_MEAN|0.05679||0.0108|TWO_SIDED|95.0|0.03494|0.2606|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||0.2606|0.03494|0.0108
92454524|NCT02479412|184797593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.857|STANDARD_ERROR_OF_MEAN|3.214||0.1342|TWO_SIDED|95.0|-11.24|1.528|||Mixed Models Analysis|||AZD7594 58 µg vs. PBO||1.528|-11.24|0.1342
92454525|NCT02479412|184797593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.41|STANDARD_ERROR_OF_MEAN|3.19||0.0016|TWO_SIDED|95.0|-16.75|-4.075|||Mixed Models Analysis|||AZD7594 250 µg vs. PBO||-4.075|-16.75|0.0016
92454526|NCT02479412|184797593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.75|STANDARD_ERROR_OF_MEAN|3.236|<|0.0001|TWO_SIDED|95.0|-21.18|-8.319|||Mixed Models Analysis|||AZD7594 800 µg vs. PBO||-8.319|-21.18|<0.0001
92454527|NCT02479412|184797594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.85|STANDARD_ERROR_OF_MEAN|5.139||0.0084|TWO_SIDED|95.0|-24.06|-3.642|||Mixed Models Analysis|||AZD7594 58 µg vs. PBO||-3.642|-24.06|0.0084
92242249|NCT03280550|184387758|SUPERIORITY||Difference in Least Squares Means|-0.33|STANDARD_ERROR_OF_MEAN|0.14||0.0161|TWO_SIDED|95.0|-0.6|-0.06||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline SSS, treatment and baseline SSS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Sense of Smell Score (SSS) at Week 24.||-0.06|-0.60|0.0161
92242250|NCT03280550|184387759|SUPERIORITY||Difference in Least Squares Means|-0.56|STANDARD_ERROR_OF_MEAN|0.14||0.0001|TWO_SIDED|95.0|-0.84|-0.28||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline PRS, treatment and baseline PRS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Posterior Rhinorrhea Score (PRS) at Week 24.||-0.28|-0.84|0.0001
92242251|NCT03280550|184387760|SUPERIORITY||Difference in Least Squares Means|-1.01|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.43|-0.6||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NPS, treatment and baseline NPS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the NPS at Week 16.||-0.60|-1.43|<0.0001
92242252|NCT03280550|184387761|SUPERIORITY||Difference in Least Squares Means|-0.57|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.83|-0.31||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NCS, treatment and baseline NCS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily NCS at Week 16.||-0.31|-0.83|<0.0001
92454528|NCT02479412|184797594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.26|STANDARD_ERROR_OF_MEAN|5.088||0.0062|TWO_SIDED|95.0|-24.37|-4.149|||Mixed Models Analysis|||AZD7594 250 µg vs. PBO||-4.149|-24.37|0.0062
92454529|NCT02479412|184797594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9|STANDARD_ERROR_OF_MEAN|5.137||0.0002|TWO_SIDED|95.0|-30.1|-9.689|||Mixed Models Analysis|||AZD7594 800 µg vs. PBO||-9.689|-30.10|0.0002
92454530|NCT02479412|184797595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03051|STANDARD_ERROR_OF_MEAN|0.05856||0.6036|TWO_SIDED|95.0|-0.08579|0.1468|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||0.1468|-0.08579|0.6036
92454531|NCT02479412|184797595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01744|STANDARD_ERROR_OF_MEAN|0.05869||0.767|TWO_SIDED|95.0|-0.09912|0.134|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.1340|-0.09912|0.7670
92454532|NCT02479412|184797595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1561|STANDARD_ERROR_OF_MEAN|0.05874||0.0093|TWO_SIDED|95.0|0.03943|0.2728|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||0.2728|0.03943|0.0093
92454533|NCT02479412|184797596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03467|STANDARD_ERROR_OF_MEAN|0.05377||0.5207|TWO_SIDED|95.0|-0.1415|0.07213|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||0.07213|-0.1415|0.5207
92454534|NCT02479412|184797596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02821|STANDARD_ERROR_OF_MEAN|0.05336||0.5983|TWO_SIDED|95.0|-0.07778|0.1342|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.1342|-0.07778|0.5983
92454535|NCT02479412|184797596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06169|STANDARD_ERROR_OF_MEAN|0.05371||0.2538|TWO_SIDED|95.0|-0.04501|0.1684|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||0.1684|-0.04501|0.2538
92454536|NCT02479412|184797597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02262|STANDARD_ERROR_OF_MEAN|0.05743||0.6945|TWO_SIDED|95.0|-0.1367|0.09144|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||0.09144|-0.1367|0.6945
92454537|NCT02479412|184797597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.000314|STANDARD_ERROR_OF_MEAN|0.05755||0.9957|TWO_SIDED|95.0|-0.1146|0.114|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.1140|-0.1146|0.9957
92454538|NCT02479412|184797597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06831|STANDARD_ERROR_OF_MEAN|0.05774||0.2398|TWO_SIDED|95.0|-0.04637|0.183|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||0.1830|-0.04637|0.2398
92454539|NCT02479412|184797598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.34|STANDARD_ERROR_OF_MEAN|5.877||0.0819|TWO_SIDED|95.0|-1.335|22.01|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||22.01|-1.335|0.0819
92454540|NCT02479412|184797598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.253|STANDARD_ERROR_OF_MEAN|5.881||0.3741|TWO_SIDED|95.0|-6.427|16.93|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||16.93|-6.427|0.3741
92454541|NCT02479412|184797598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.52|STANDARD_ERROR_OF_MEAN|5.926||0.0374|TWO_SIDED|95.0|0.7481|24.29|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||24.29|0.7481|0.0374
92454542|NCT02479412|184797599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.73|STANDARD_ERROR_OF_MEAN|5.384||0.0044|TWO_SIDED|95.0|5.039|26.43|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||26.43|5.039|0.0044
92454543|NCT02479412|184797599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.3|STANDARD_ERROR_OF_MEAN|5.419||0.0098|TWO_SIDED|95.0|3.534|25.06|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||25.06|3.534|0.0098
92454544|NCT02479412|184797599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.91|STANDARD_ERROR_OF_MEAN|5.459||0.0004|TWO_SIDED|95.0|9.068|30.75|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||30.75|9.068|0.0004
92454545|NCT02479412|184797600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3435|STANDARD_ERROR_OF_MEAN|0.189||0.0723|TWO_SIDED|95.0|-0.7189|0.03179|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||0.03179|-0.7189|0.0723
92454546|NCT02479412|184797600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4852|STANDARD_ERROR_OF_MEAN|0.1903||0.0124|TWO_SIDED|95.0|-0.8631|-0.1073|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||-0.1073|-0.8631|0.0124
92454547|NCT02479412|184797600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8026|STANDARD_ERROR_OF_MEAN|0.1914|<|0.0001|TWO_SIDED|95.0|-1.183|-0.4224|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||-0.4224|-1.183|<0.0001
92454548|NCT02479412|184797601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3071|STANDARD_ERROR_OF_MEAN|0.1051||0.0044|TWO_SIDED|95.0|-0.5159|-0.09836|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||-0.09836|-0.5159|0.0044
92242253|NCT03280550|184387762|SUPERIORITY||Difference in Least Squares Means|-16.12|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-21.86|-10.38||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the SNOT-22 score at Week 24.||-10.38|-21.86|<0.0001
92242254|NCT03280550|184387763|SUPERIORITY||Difference in Least Squares Means|-0.43|STANDARD_ERROR_OF_MEAN|0.14||0.0023|TWO_SIDED|95.0|-0.7|-0.16||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline ARS, treatment and baseline ARS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Anterior Rhinorrhea Score (ARS) at Week 24.||-0.16|-0.70|0.0023
92173573|NCT04359108|184238238|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = N/A\*~\* N/A for Argus Vision test because subject did not successfully reach intended destination for any trial using this mode."|||
92281185|NCT03740165|184465586|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.5091|TWO_SIDED|95.0|0.77|1.3||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.30|0.77|0.5091
92454549|NCT02479412|184797601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1824|STANDARD_ERROR_OF_MEAN|0.1059||0.0883|TWO_SIDED|95.0|-0.3927|0.02789|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.02789|-0.3927|0.0883
92242255|NCT03280550|184387764|SUPERIORITY||Odds Ratio (OR)|0.61||||0.6716|TWO_SIDED|95.0|0.05|5.51||Tested at the two-sided 0.05 significance level.|Fisher Exact|Unadjusted|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for requirement of rescue medication through Week 24.||5.51|0.05|0.6716
92281186|NCT03740165|184465587|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.51|0.79||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||0.79|0.51|<0.0001
92173574|NCT04359108|184238238|OTHER|||||||||||||||||Navigate to Destination Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 0.18"|||
92454550|NCT02479412|184797601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4301|STANDARD_ERROR_OF_MEAN|0.1055|<|0.0001|TWO_SIDED|95.0|-0.6397|-0.2205|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||-0.2205|-0.6397|<0.0001
92454551|NCT02479412|184797602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1651|STANDARD_ERROR_OF_MEAN|0.09139||0.0741|TWO_SIDED|95.0|-0.3466|0.01638|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||0.01638|-0.3466|0.0741
92173575|NCT04359108|184238238|OTHER|||||||||||||||||Navigate to Destination Test - Depth Vision + Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.97"|||
92454552|NCT02479412|184797602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09079|STANDARD_ERROR_OF_MEAN|0.09204||0.3265|TWO_SIDED|95.0|-0.2736|0.09201|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.09201|-0.2736|0.3265
92454553|NCT02479412|184797602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2532|STANDARD_ERROR_OF_MEAN|0.09176||0.007|TWO_SIDED|95.0|-0.4354|-0.07092|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||-0.07092|-0.4354|0.0070
92454554|NCT02479412|184797603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4185|STANDARD_ERROR_OF_MEAN|0.1626||0.0116|TWO_SIDED|95.0|-0.7414|-0.09563|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||-0.09563|-0.7414|0.0116
92182961|NCT02434328|184264731|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-3.0|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||4.2|-3.0|
92182962|NCT02434328|184264731|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.4|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||5.1|-2.4|
92242256|NCT03280550|184387765|SUPERIORITY||Odds Ratio (OR)|0.0||||0.4815|TWO_SIDED|95.0|0.0|17.64||Tested at the two-sided 0.05 significance level.|Fisher Exact|Unadjusted|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for having had surgery for nasal polyps through Week 24.||17.64|0.00|0.4815
92454555|NCT02479412|184797603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1794|STANDARD_ERROR_OF_MEAN|0.1628||0.2732|TWO_SIDED|95.0|-0.5027|0.1438|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.1438|-0.5027|0.2732
92454556|NCT02479412|184797603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7661|STANDARD_ERROR_OF_MEAN|0.1636|<|0.0001|TWO_SIDED|95.0|-1.091|-0.4411|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||-0.4411|-1.091|<0.0001
92454557|NCT02479412|184797604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1067|STANDARD_ERROR_OF_MEAN|0.04982||0.0349|TWO_SIDED|95.0|-0.2057|-0.007755|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||-0.007755|-0.2057|0.0349
92454558|NCT02479412|184797604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08205|STANDARD_ERROR_OF_MEAN|0.05015||0.1052|TWO_SIDED|95.0|-0.1817|0.01756|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.01756|-0.1817|0.1052
92454559|NCT02479412|184797604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2027|STANDARD_ERROR_OF_MEAN|0.05044||0.0001|TWO_SIDED|95.0|-0.3028|-0.1025|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||-0.1025|-0.3028|0.0001
92454560|NCT02479412|184797605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.673|STANDARD_ERROR_OF_MEAN|0.2946||0.0247|TWO_SIDED|95.0|0.08779|1.258|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||1.258|0.08779|0.0247
92454561|NCT02479412|184797605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4281|STANDARD_ERROR_OF_MEAN|0.2965||0.1521|TWO_SIDED|95.0|-0.1607|1.017|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||1.017|-0.1607|0.1521
92454562|NCT02479412|184797605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9415|STANDARD_ERROR_OF_MEAN|0.2987||0.0022|TWO_SIDED|95.0|0.3483|1.535|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||1.535|0.3483|0.0022
92454563|NCT02479412|184797609|SUPERIORITY_OR_OTHER||Ratio Estimate (%)|272.2|||<|0.0001|TWO_SIDED|90.0|237.43|312.05|||ANOVA|||AZD7594 250 μg versus AZD7594 58 μg||312.05|237.43|<0.0001
92454564|NCT02479412|184797609|SUPERIORITY_OR_OTHER||Ratio Estimate (%)|676.13|||<|0.0001|TWO_SIDED|90.0|580.91|786.95|||ANOVA|||AZD7594 800 μg versus AZD7594 58 μg||786.95|580.91|<0.0001
92454565|NCT02479412|184797610|SUPERIORITY_OR_OTHER||Ratio Estimate (%)|337.82|||<|0.0001|TWO_SIDED|90.0|290.8|392.43|||ANOVA|||AZD7594 250 μg versus AZD7594 58 μg||392.43|290.80|<0.0001
92454566|NCT02479412|184797610|SUPERIORITY_OR_OTHER||Ratio Estimate (%)|964.62|||<|0.0001|TWO_SIDED|90.0|816.13|1140.13|||ANOVA|||AZD7594 800 μg versus AZD7594 58 μg||1140.13|816.13|<0.0001
92454567|NCT01571362|184797618|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.62|STANDARD_ERROR_OF_MEAN|0.246||0.0114|TWO_SIDED|95.0|-1.11|-0.14||No adjustment was made for multiple comparisons. Statistical significance was if unadjusted p was less than or equal to (\<=) 0.05.|ANCOVA|||Null Hypothesis: No treatment difference. Power was 90%, 2-sided Alpha of 0.05, with assumed difference of 1 point and assumed standard deviation of 2.4 points.||-0.14|-1.11|0.0114
92454568|NCT01571362|184797619|SUPERIORITY_OR_OTHER||Difference of LS Means|0.18|STANDARD_ERROR_OF_MEAN|0.565||0.7547|TWO_SIDED|95.0|-0.94|1.29||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and Baseline score and final total daily dose of Titration Period as covariates.|ANCOVA|||||1.29|-0.94|0.7547
92454569|NCT01571362|184797620|SUPERIORITY_OR_OTHER|||||||0.1272|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) stratified by prior pain analgesic (opioid or non-opioid)||||||0.1272
92454570|NCT01571362|184797621|SUPERIORITY_OR_OTHER|||||||0.021|||||||Cochran-Mantel-Haenszel|CMH was stratified by prior pain analgesic (opioid and non-opioid).||||||0.0210
92454571|NCT01571362|184797622|SUPERIORITY_OR_OTHER|||||||0.0248|||||||Cochran-Mantel-Haenszel|The CMH test was stratified by prior pain analgesic (opioid or non-opioid).||||||0.0248
92454572|NCT01571362|184797623|SUPERIORITY_OR_OTHER|||||||0.009|||||||Cochran-Mantel-Haenszel|The CMH test was stratified by prior pain analgesic (opioid or non-opioid).||||||0.0090
92454573|NCT01571362|184797624|SUPERIORITY_OR_OTHER|||||||0.0874|||||||Cochran-Mantel-Haenszel|The CMH test was stratified by prior pain analgesic (opioid or non-opioid).||||||0.0874
92454574|NCT01571362|184797625|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Worst Pain Score||||<0.0001
92454575|NCT01571362|184797625|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Least Pain Score||||<0.0001
92454576|NCT01571362|184797625|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Average Pain Score||||<0.0001
92454577|NCT01571362|184797625|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Pain Right Now||||<0.0001
92454578|NCT01571362|184797625|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Pain Severity Index||||<0.0001
92454579|NCT01571362|184797625|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Pain Interference Index||||<0.0001
92454580|NCT01571362|184797626|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Worst Pain Score||||<0.0001
92454581|NCT01571362|184797626|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Least Pain Score||||<0.0001
92454582|NCT01571362|184797626|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Average Pain Score||||<0.0001
92454583|NCT01571362|184797626|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Pain Right Now||||<0.0001
92454584|NCT01571362|184797626|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Pain Severity Index||||<0.0001
92182963|NCT02434328|184264731|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-1.1|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||6.5|-1.1|
92281187|NCT03740165|184465587|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.0981|TWO_SIDED|95.0|0.7|1.08||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.08|0.70|0.0981
92454585|NCT01571362|184797626|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Pain Interference Index||||<0.0001
92454586|NCT01571362|184797627|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.62|STANDARD_ERROR_OF_MEAN|0.222||0.0056|TWO_SIDED|95.0|-1.06|-0.18|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2.||-0.18|-1.06|0.0056
92454587|NCT01571362|184797627|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.243||0.009|TWO_SIDED|95.0|-1.12|-0.16|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4.||-0.16|-1.12|0.0090
92454588|NCT01571362|184797627|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.37|STANDARD_ERROR_OF_MEAN|0.271||0.1684|TWO_SIDED|95.0|-0.91|0.16|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||0.16|-0.91|0.1684
92454589|NCT01571362|184797627|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.98|STANDARD_ERROR_OF_MEAN|0.244|<|0.0001|TWO_SIDED|95.0|-1.46|-0.5|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.50|-1.46|<0.0001
92454590|NCT01571362|184797628|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.4|STANDARD_ERROR_OF_MEAN|0.193||0.0412|TWO_SIDED|95.0|-0.78|-0.02|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2||-0.02|-0.78|0.0412
92454591|NCT01571362|184797628|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.87|STANDARD_ERROR_OF_MEAN|0.201|<|0.0001|TWO_SIDED|95.0|-1.27|-0.48|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4||-0.48|-1.27|<0.0001
92454592|NCT01571362|184797628|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.226||0.0055|TWO_SIDED|95.0|-1.08|-0.19|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||-0.19|-1.08|0.0055
92454593|NCT01571362|184797628|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.86|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.27|-0.44|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.44|-1.27|<0.0001
92454594|NCT01571362|184797629|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.65|STANDARD_ERROR_OF_MEAN|0.19||0.0007|TWO_SIDED|95.0|-1.02|-0.27|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2.||-0.27|-1.02|0.0007
92454595|NCT01571362|184797629|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.74|STANDARD_ERROR_OF_MEAN|0.213||0.0006|TWO_SIDED|95.0|-1.16|-0.32|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4.||-0.32|-1.16|0.0006
92454596|NCT01571362|184797629|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.236||0.007|TWO_SIDED|95.0|-1.11|-0.18|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||-0.18|-1.11|0.0070
92454597|NCT01571362|184797629|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.88|STANDARD_ERROR_OF_MEAN|0.221|<|0.0001|TWO_SIDED|95.0|-1.31|-0.44|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.44|-1.31|<0.0001
92454598|NCT01571362|184797630|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.207||0.0022|TWO_SIDED|95.0|-1.05|-0.23|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2.||-0.23|-1.05|0.0022
92454599|NCT01571362|184797630|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.79|STANDARD_ERROR_OF_MEAN|0.214||0.0003|TWO_SIDED|95.0|-1.21|-0.37|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4.||-0.37|-1.21|0.0003
92173576|NCT04359108|184238238|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -1.23"|||
92173577|NCT04359108|184238239|OTHER||||||<|0.001|||||||ANOVA|Single-factor test on navigation system mode||Navigate to Destination Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||<0.001
92173578|NCT04359108|184238239|OTHER|||||||0.17|||||||t-test, 2 sided|||Navigate to Destination Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||0.17
92173579|NCT04359108|184238239|OTHER||||||<|0.01|||||||t-test, 2 sided|||Navigate to Destination Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||<0.01
92173580|NCT04359108|184238239|OTHER|||||||0.33|||||||t-test, 2 sided|||Navigate to Destination Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.33
92173581|NCT04359108|184238239|OTHER||||||<|0.01|||||||t-test, 2 sided|||Navigate to Destination Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||<0.01
92173582|NCT04359108|184238240|OTHER|||||||0.023|||||||ANOVA|2X2 within-participant test with factors of resolution and field-of-view||Significance of Resolution: test for null hypothesis of equivalent performance between low and high resolution vision modes||||0.023
92173583|NCT04359108|184238240|OTHER|||||||0.039|||||||ANOVA|2X2 within-participant test with factors of resolution and field-of-view||Significance of Resolution: test for null hypothesis of equivalent performance between low and high field-of-view vision modes||||0.039
92173584|NCT04359108|184238240|OTHER|||||||0.801|||||||ANOVA|2x2 within-participant test with factors of resolution and field-of-view||Significance of Interaction between Resolution and Field-of-View: test for null hypothesis of no interaction||||.801
92454600|NCT01571362|184797630|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.264||0.0078|TWO_SIDED|95.0|-1.23|-0.19|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||-0.19|-1.23|0.0078
92173585|NCT06393088|184238241|SUPERIORITY|It was calculated that 24 participants randomized 1:1 between 2 arms would have at least an 85% power to detect a difference in pain relief of 30 points as measured using a Visual Analog Device. The actual difference in the mean of the change in pain level, as measured using a Visual Analog Scale, between the two independent groups is 41.67. Results of the post trial calculation was a 95.7% power to detect the difference in pain relief using 29 randomized participants.|Mean Difference (Net)|41.67|||<|0.01|TWO_SIDED|95.0|20.15|61.67||The threshold is P-value \<.0.05 for statistical significance A bootstrap N=20,000 was used for all estimates|t-test, 2 sided|||"Null Hypothesis:~There is not a statistically significant difference in nociceptive musculoskeletal pain when using an IR REHAB device when compared with a sham (placebo) device as a therapy in an approved and standardized clinical protocol."||61.67|20.15|<0.01
92173586|NCT04176965|184238242|NON_INFERIORITY|Non-inferiority based on the observed 95% Upper Confidence Limit of the difference in means between the 2 groups (FINEVISION HP - AcrySof SN60AT). Non-inferiority margin = 0.10 logMAR.|Mean difference|0.045|STANDARD_ERROR_OF_MEAN|0.0084|<|0.0001|TWO_SIDED|90.0|0.0316|0.0592|||t-test, 1 sided|||||0.0592|0.0316|<0.0001
92173587|NCT04176965|184238243|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92173588|NCT04176965|184238244|NON_INFERIORITY|Noninferiority of FINEVISION HP compared to control in percentages of first operative eyes with secondary surgical interventions related to the optical properties of the IOL was evaluated using two-sided 90% Farrington method confidence intervals around the difference in percentages between the 2 groups. If the upper limit of the confidence interval is less than 1.4%, the FINEVISION HP IOL will be considered statistically non-inferior to the control IOL.|Difference in percentages|0.3|||||TWO_SIDED|90.0|-0.76|1.36||||||||1.36|-0.76|
92173589|NCT04176965|184238249|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92173590|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Cystoid macular oedema. The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92454601|NCT01571362|184797630|SUPERIORITY_OR_OTHER||Difference of LS Means|-1.07|STANDARD_ERROR_OF_MEAN|0.231|<|0.0001|TWO_SIDED|95.0|-1.52|-0.62|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.62|-1.52|<0.0001
92454602|NCT01571362|184797631|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.189||0.0022|TWO_SIDED|95.0|-0.95|-0.21|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2.||-0.21|-0.95|0.0022
92173591|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Cystoid macular oedema. The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173592|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Hypopyon. The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173593|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Hypopyon. The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173594|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Endophthalmitis. The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173595|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Endophthalmitis. The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92242257|NCT03280550|184387766|SUPERIORITY||Odds Ratio (OR)|3.71||||0.0492|TWO_SIDED|95.0|1.0|13.71|||Wald Chi-Square|Adjusted for Baseline AQLQ, geographic region, and aspirin sensitivity status.|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for number of participants with a change from baseline in AQLQ score of ≥0.5 at Week 24.||13.71|1.00|0.0492
92173596|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Lens dislocated from posterior chamber. The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173597|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Lens dislocated from posterior chamber. The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92242258|NCT03280550|184387767|SUPERIORITY||Odds Ratio (OR)|0.61||||0.6716|TWO_SIDED|95.0|0.05|5.51||Tested at the two-sided 0.05 significance level.|Fisher Exact|Unadjusted|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for requirement of rescue treatment through Week 24.||5.51|0.05|0.6716
92242259|NCT03280550|184387768|SUPERIORITY||Odds Ratio (OR)|6.25||||0.0209|TWO_SIDED|95.0|1.32|29.6||Tested at the two-sided 0.05 significance level.|Wald Chi-Square|Adjusted for geographic region and asthma/aspirin sensitivity comorbidity status.|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in reduction in the need for surgery for nasal polyps by Week 24.||29.60|1.32|0.0209
92281188|NCT03740165|184465588|SUPERIORITY||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.59|0.8||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||0.80|0.59|<0.0001
92281189|NCT03740165|184465588|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.1206|TWO_SIDED|95.0|0.79|1.06||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.06|0.79|0.1206
92281190|NCT03740165|184465589|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0316||95.0|0.63|1.01||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.01|0.63|0.0316
92281191|NCT03740165|184465589|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4441||95.0|0.78|1.24||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.24|0.78|0.4441
92281192|NCT03740165|184465590|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.0853||95.0|0.76|1.05||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.05|0.76|0.0853
92281193|NCT03740165|184465590|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7165||95.0|0.89|1.23||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.23|0.89|0.7165
92173598|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Pupillary block.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173599|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Pupillary block.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173600|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Retinal detachment.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92281194|NCT03740165|184465591|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.1029|TWO_SIDED|95.0|0.71|1.08||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.08|0.71|0.1029
92454603|NCT01571362|184797631|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.76|STANDARD_ERROR_OF_MEAN|0.198||0.0002|TWO_SIDED|95.0|-1.15|-0.37|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4.||-0.37|-1.15|0.0002
92454604|NCT01571362|184797631|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.61|STANDARD_ERROR_OF_MEAN|0.228||0.0078|TWO_SIDED|95.0|-1.06|-0.16|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||-0.16|-1.06|0.0078
92454605|NCT01571362|184797631|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.95|STANDARD_ERROR_OF_MEAN|0.207|<|0.0001|TWO_SIDED|95.0|-1.35|-0.54|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.54|-1.35|<0.0001
92454606|NCT01571362|184797632|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.188||0.0285|TWO_SIDED|95.0|-0.78|-0.04|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2.||-0.04|-0.78|0.0285
92454607|NCT01571362|184797632|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.188||0.0106|TWO_SIDED|95.0|-0.85|-0.11|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4.||-0.11|-0.85|0.0106
92454608|NCT01571362|184797632|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.17|STANDARD_ERROR_OF_MEAN|0.222||0.4529|TWO_SIDED|95.0|-0.6|0.27|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||0.27|-0.60|0.4529
92454609|NCT01571362|184797632|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.65|STANDARD_ERROR_OF_MEAN|0.207||0.0018|TWO_SIDED|95.0|-1.06|-0.25|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.25|-1.06|0.0018
92454610|NCT01571362|184797633|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.258||0.0061|TWO_SIDED|95.0|-1.22|-0.2|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||-0.20|-1.22|0.0061
92454611|NCT01571362|184797633|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.73|STANDARD_ERROR_OF_MEAN|0.277||0.0087|TWO_SIDED|95.0|-1.28|-0.19|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||-0.19|-1.28|0.0087
92454612|NCT01571362|184797633|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.315||0.0769|TWO_SIDED|95.0|-1.18|0.06|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||0.06|-1.18|0.0769
92454613|NCT01571362|184797633|SUPERIORITY_OR_OTHER||Difference of LS Means|-1.1|STANDARD_ERROR_OF_MEAN|0.289||0.0002|TWO_SIDED|95.0|-1.67|-0.53|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/Early Termination.||-0.53|-1.67|0.0002
92454614|NCT01571362|184797634|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.224||0.025|TWO_SIDED|95.0|-0.95|-0.06|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||-0.06|-0.95|0.0250
92454615|NCT01571362|184797634|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.89|STANDARD_ERROR_OF_MEAN|0.234||0.0002|TWO_SIDED|95.0|-1.36|-0.43|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||-0.43|-1.36|0.0002
92454616|NCT01571362|184797634|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.77|STANDARD_ERROR_OF_MEAN|0.263||0.0038|TWO_SIDED|95.0|-1.29|-0.25|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||-0.25|-1.29|0.0038
92454617|NCT01571362|184797634|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.98|STANDARD_ERROR_OF_MEAN|0.243|<|0.0001|TWO_SIDED|95.0|-1.46|-0.5|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/Early Termination.||-0.50|-1.46|<0.0001
92454618|NCT01571362|184797635|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.8|STANDARD_ERROR_OF_MEAN|0.214||0.0002|TWO_SIDED|95.0|-1.22|-0.38|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||-0.38|-1.22|0.0002
92454619|NCT01571362|184797635|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.78|STANDARD_ERROR_OF_MEAN|0.235||0.001|TWO_SIDED|95.0|-1.25|-0.32|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||-0.32|-1.25|0.0010
92454620|NCT01571362|184797635|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.79|STANDARD_ERROR_OF_MEAN|0.271||0.0041|TWO_SIDED|95.0|-1.32|-0.25|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||-0.25|-1.32|0.0041
92173601|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Retinal detachment.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173602|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Secondary surgical intervention.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173603|NCT04176965|184238250|NON_INFERIORITY|Cumulative: Secondary surgical intervention.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173604|NCT04176965|184238250|NON_INFERIORITY|Persistent: Corneal stroma oedema.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92281195|NCT03740165|184465591|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.8231|TWO_SIDED|95.0|0.9|1.36||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.36|0.90|0.8231
92173605|NCT04176965|184238250|NON_INFERIORITY|Persistent: Corneal stroma oedema.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173606|NCT04176965|184238250|NON_INFERIORITY|Persistent: Cystoid macular oedema.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173607|NCT04176965|184238250|NON_INFERIORITY|Persistent: Cystoid macular oedema.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173608|NCT04176965|184238250|NON_INFERIORITY|Persistent: Iritis.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173609|NCT04176965|184238250|NON_INFERIORITY|Persistent: Iritis.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173610|NCT04176965|184238250|NON_INFERIORITY|Persistent: Raised Intraocular Pressure (IOP) requiring treatment.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173611|NCT04176965|184238250|NON_INFERIORITY|Persistent: Raised Intraocular Pressure (IOP) requiring treatment.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
92173612|NCT05026320|184238260|EQUIVALENCE|The primary efficacy hypothesis to be tested was the equality of tenderness (algometry) over the initial 72 hours (algometry AUC 0-72).||||||0.0221|||||||ANCOVA|||||||0.0221
92173613|NCT03721952|184238295|SUPERIORITY||Avg. Intervention Effect (CON--INT)|0.13|STANDARD_ERROR_OF_MEAN|0.323||0.688|TWO_SIDED|95.0|-0.505|0.764|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional estimation information: Positive sign of estimate defined as lower average depression score \& negative sign of estimate defined as higher average depression score, over 3 follow-up points for the intervention group vs. the control group.|Superior outcome for Group2 (Facilitator-based INTERVENTION: Family)||0.764|-0.505|0.688
92173614|NCT03721952|184238295|SUPERIORITY|||||||0.51|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.510
92173615|NCT03721952|184238296|SUPERIORITY||Avg. Intervention Effect (CON--INT)|0.143|STANDARD_ERROR_OF_MEAN|0.323||0.658|TWO_SIDED|95.0|-0.491|0.777|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional estimation information: Positive sign of estimate defined as lower average anxiety score \& negative sign of estimate defined as higher average anxiety score, over 3 follow-up points for the intervention group vs. the control group.|Superior outcome for Group2 (Facilitator-based INTERVENTION: Family)||0.777|-0.491|0.658
92173616|NCT03721952|184238296|SUPERIORITY|||||||0.268|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.268
92173617|NCT03721952|184238297|SUPERIORITY||Avg. Intervention Effect (CON--INT)|-0.2|STANDARD_ERROR_OF_MEAN|0.077||0.01|TWO_SIDED|95.0|-0.353|-0.048|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional information: Positive sign of estimate defined as lower average quality-of-relationship score \& negative sign of estimate defined as higher average quality-of-relationship score over 3 follow-up points for intervention vs control groups.|Superior outcome for Group 2 (Facilitator-based INTERVENTION: Family)||-0.048|-0.353|0.010
92173618|NCT03721952|184238297|SUPERIORITY|||||||0.175|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.175
92173619|NCT03721952|184238298|SUPERIORITY||Avg. Intervention Effect (CON--INT)|-0.021|STANDARD_ERROR_OF_MEAN|0.092||0.817|TWO_SIDED|95.0|-0.203|0.16|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional information: Positive sign of estimate defined as lower average quality-of-relationship score \& negative sign of estimate defined as higher average quality-of-relationship score, over 3 follow-up points for intervention vs control group.|Superior outcome for Group 2 (Facilitator-based INTERVENTION: Family)||0.160|-0.203|0.817
92173620|NCT03721952|184238298|SUPERIORITY|||||||0.949|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.949
92173621|NCT03721952|184238299|SUPERIORITY||Avg. Intervention Effect (CON--INT)|-0.45|STANDARD_ERROR_OF_MEAN|0.239||0.06|TWO_SIDED|95.0|-0.919|0.02|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional information: Positive sign of estimate defined as lower average preparation score \& negative sign of estimate defined as higher average preparation score, over 3 follow-up points for intervention vs control group.|Superior outcome for Group 2 (Facilitator-based INTERVENTION: Family)||0.020|-0.919|0.060
92173622|NCT03721952|184238299|SUPERIORITY|||||||0.701|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.701
92173623|NCT03721952|184238300|SUPERIORITY||Avg. Intervention Effect (CON--INT)|-0.393||||0.053|TWO_SIDED|95.0|-0.791|0.005|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional estimation information: Positive sign of estimate defined as lower average goal-concordant care \& negative sign of estimate defined as higher average goal-concordant care, over 3 follow-up points for intervention group vs. control group.|Superior outcome for Group 2 (Facilitator-based INTERVENTION: Family)||0.005|-0.791|0.053
92173624|NCT03721952|184238300|SUPERIORITY|||||||0.039|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.039
92173625|NCT03721952|184238301|SUPERIORITY||Avg. Intervention Effect (CON--INT)|0.636||||0.239|TWO_SIDED|95.0|-0.425|1.7|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.||Superior outcome for Group2 (Facilitator-based INTERVENTION: Family)||1.700|-0.425|0.239
92173626|NCT03721952|184238301|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.170
92242260|NCT03280550|184387769|SUPERIORITY||Difference in Least Squares Means|-1.91|STANDARD_ERROR_OF_MEAN|0.48||0.0001|TWO_SIDED|95.0|-2.85|-0.96||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline TNSS, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Total Nasal Symptom Score (TNSS) at Week 24.||-0.96|-2.85|0.0001
92242261|NCT03280550|184387770|SUPERIORITY||Difference in Least Squares Means|3.81|STANDARD_ERROR_OF_MEAN|1.23||0.0024|TWO_SIDED|95.0|1.38|6.24||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline UPSIT, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the UPSIT score at Week 24.||6.24|1.38|0.0024
92182964|NCT02434328|184264731|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-4.0|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||3.3|-4.0|
92242262|NCT05896761|184387779|OTHER||Ratio of geometric least square mean|0.926|||||TWO_SIDED|90.0|0.831|1.03||||||||1.03|0.831|
92182965|NCT02434328|184264731|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.8|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.7|-2.8|
92454621|NCT01571362|184797635|SUPERIORITY_OR_OTHER||Difference of LS Means|-1.04|STANDARD_ERROR_OF_MEAN|0.245|<|0.0001|TWO_SIDED|95.0|-1.52|-0.56|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/Early Termination.||-0.56|-1.52|<0.0001
92454622|NCT01571362|184797636|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.236||0.0115|TWO_SIDED|95.0|-1.06|-0.14|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||-0.14|-1.06|0.0115
92454623|NCT01571362|184797636|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.66|STANDARD_ERROR_OF_MEAN|0.256||0.0099|TWO_SIDED|95.0|-1.17|-0.16|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||-0.16|-1.17|0.0099
92454624|NCT01571362|184797636|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.307||0.0222|TWO_SIDED|95.0|-1.31|-0.1|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||-0.10|-1.31|0.0222
92454625|NCT01571362|184797636|SUPERIORITY_OR_OTHER||Difference of LS Means|-1.02|STANDARD_ERROR_OF_MEAN|0.264||0.0001|TWO_SIDED|95.0|-1.54|-0.5|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/ Early Termination.||-0.50|-1.54|0.0001
92454626|NCT01571362|184797637|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.66|STANDARD_ERROR_OF_MEAN|0.218||0.0025|TWO_SIDED|95.0|-1.09|-0.24|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||-0.24|-1.09|0.0025
92454627|NCT01571362|184797637|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.77|STANDARD_ERROR_OF_MEAN|0.235||0.0012|TWO_SIDED|95.0|-1.23|-0.31|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||-0.31|-1.23|0.0012
92454628|NCT01571362|184797637|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.73|STANDARD_ERROR_OF_MEAN|0.272||0.0078|TWO_SIDED|95.0|-1.27|-0.19|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||-0.19|-1.27|0.0078
92454629|NCT01571362|184797637|SUPERIORITY_OR_OTHER||Difference of LS Means|-1.04|STANDARD_ERROR_OF_MEAN|0.243|<|0.0001|TWO_SIDED|95.0|-1.52|-0.56|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/Early Termination.||-0.56|-1.52|<0.0001
92454630|NCT01571362|184797638|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.228||0.0727|TWO_SIDED|95.0|-0.86|0.04|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||0.04|-0.86|0.0727
92454631|NCT01571362|184797638|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.47|STANDARD_ERROR_OF_MEAN|0.238||0.0501|TWO_SIDED|95.0|-0.94|0.0|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||0.00|-0.94|0.0501
92454632|NCT01571362|184797638|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.15|STANDARD_ERROR_OF_MEAN|0.262||0.5704|TWO_SIDED|95.0|-0.67|0.37|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||0.37|-0.67|0.5704
92454633|NCT01571362|184797638|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.245||0.0096|TWO_SIDED|95.0|-1.12|-0.16|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/ Early Termination.||-0.16|-1.12|0.0096
92454634|NCT01571362|184797639|SUPERIORITY_OR_OTHER||Difference of LS Means|-27.75|STANDARD_ERROR_OF_MEAN|10.968||0.012|TWO_SIDED|95.0|-49.34|-6.16|||ANCOVA||Difference between treatment groups evaluated by ANCOVA with treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|||-6.16|-49.34|0.0120
92454635|NCT01571362|184797640|SUPERIORITY_OR_OTHER||Difference of LS Means|-3.87|STANDARD_ERROR_OF_MEAN|50.5||0.939|TWO_SIDED|95.0|-103.29|95.55|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the average daily rescue acetaminophen during the Titration Period and final total daily study medication dose of the Titration Period as covariates.|||95.55|-103.29|0.9390
92454636|NCT01571362|184797646|SUPERIORITY_OR_OTHER|||||||0.0014|||||||Wilcoxon test, survival analysis|P-value from Wilcoxon test with treatment and opioid stratum as factors||Time to 20% loss of analgesic response||||0.0014
92454637|NCT01571362|184797646|SUPERIORITY_OR_OTHER|||||||0.0024|||||||Wilcoxon test, survival analysis|P-value from Wilcoxon test with treatment and opioid stratum as factors||Time to 30% loss of analgesic response.||||0.0024
92454638|NCT01571362|184797646|SUPERIORITY_OR_OTHER|||||||0.0006|||||||Wilcoxon test, survival analysis|P-value from Wilcoxon test with treatment and opioid stratum as factors||Time to 40% loss of analgesic response.||||0.0006
92454639|NCT01571362|184797646|SUPERIORITY_OR_OTHER|||||||0.0021|||||||Wilcoxon test, survival analysis|P-value from Wilcoxon test with treatment and opioid stratum as factors||Time to 50% loss of analgesic response||||0.0021
92454640|NCT01571362|184797648|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon test, survival analysis|P-value from Wilcoxon test with treatment and opioid stratum as factors.||||||0.006
92454641|NCT01571362|184797658|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to the End of Open-Label Titration Period.||||<0.0001
92454642|NCT01571362|184797659|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline.||||<0.0001
92454643|NCT01571362|184797660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.05|STANDARD_ERROR_OF_MEAN|0.584||0.0733|TWO_SIDED|95.0|-2.2|0.1||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||Model-adjusted Change from Screening to Week 2.||0.10|-2.20|0.0733
92454644|NCT01571362|184797660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.642||0.2783|TWO_SIDED|95.0|-1.96|0.57||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||Model-adjusted Change from Screening to Week 4.||0.57|-1.96|0.2783
92454645|NCT01571362|184797660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|0.684||0.3951|TWO_SIDED|95.0|-0.77|1.93||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||Model-adjusted Change from Screening to Week 8.||1.93|-0.77|0.3951
92454646|NCT01571362|184797660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.614||0.9063|TWO_SIDED|95.0|-1.14|1.28||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||Model-adjusted Change from Screening to Week 12.||1.28|-1.14|0.9063
92454647|NCT01571362|184797661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|0.463||0.1139|TWO_SIDED|95.0|-1.65|0.18||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Model-adjusted change from Baseline to Week 2.||0.18|-1.65|0.1139
92454648|NCT01571362|184797661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.577||0.2264|TWO_SIDED|95.0|-1.84|0.44||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Model-adjusted Change from Baseline to Week 4.||0.44|-1.84|0.2264
92454649|NCT01571362|184797661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|STANDARD_ERROR_OF_MEAN|0.619||0.5074|TWO_SIDED|95.0|-0.81|1.63||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Model-adjusted Change from Baseline to Week 8.||1.63|-0.81|0.5074
92454650|NCT01571362|184797662|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Bowker's test of symmetry|||||||<0.0001
92454651|NCT01571362|184797663|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Bowker's test of symmetry|||||||<0.0001
92454652|NCT01571362|184797664|SUPERIORITY_OR_OTHER|||||||0.2211|||||||Cochran-Mantel-Haenszel|Stratified by opioid stratum.||||||0.2211
92454653|NCT01571362|184797665|SUPERIORITY_OR_OTHER|||||||0.5767|||||||Cochran-Mantel-Haenszel|Stratified by opioid stratum.||||||0.5767
92454654|NCT01571362|184797668|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Cochran-Mantel-Haenszel|Stratified by opioid stratum.||||||0.0004
92454655|NCT01571362|184797669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Physical Functioning.||||<0.0001
92454656|NCT01571362|184797669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Role-Physical.||||<0.0001
92242263|NCT05896761|184387779|OTHER||Ratio of geometric least square mean|0.929|||||TWO_SIDED|90.0|0.816|1.06||||||||1.06|0.816|
92454657|NCT01571362|184797669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Bodily Pain.||||<0.0001
92454658|NCT01571362|184797669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for General Health.||||<0.0001
92454659|NCT01571362|184797669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Vitality.||||<0.0001
92454660|NCT01571362|184797669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Social Functioning.||||<0.0001
92454661|NCT01571362|184797669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Role-Emotional.||||<0.0001
92454662|NCT01571362|184797669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Mental Health.||||<0.0001
92454663|NCT01571362|184797669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Physical Component Score.||||<0.0001
92454664|NCT01571362|184797669|SUPERIORITY_OR_OTHER|||||||0.0026|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Mental Component Score.||||0.0026
92173627|NCT03721952|184238302|SUPERIORITY||Slope|0.089|STANDARD_ERROR_OF_MEAN|0.041||0.029|TWO_SIDED|95.0|0.009|0.169|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher proportion of readmissions \& negative sign of estimate defined as lower proportion of readmissions, for the intervention group vs. the control group|Superior outcome for Group2 (Patient-Intervention)||0.169|0.009|0.029
92173628|NCT03721952|184238303|SUPERIORITY||Slope|1.078|STANDARD_ERROR_OF_MEAN|0.808||0.183|TWO_SIDED|95.0|-0.511|2.666|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of hospital free days \& negative sign of estimate defined as lower number of hospital free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||2.666|-0.511|0.183
92242264|NCT05896761|184387780|OTHER||Ratio of geometric least square mean|1.06|||||TWO_SIDED|90.0|0.966|1.17||||||||1.17|0.966|
92242265|NCT05896761|184387780|OTHER||Ratio of geometric least square mean|1.18|||||TWO_SIDED|90.0|1.07|1.29||||||||1.29|1.07|
92173629|NCT03721952|184238304|SUPERIORITY||Slope|1.687|STANDARD_ERROR_OF_MEAN|3.157||0.593|TWO_SIDED|95.0|-4.518|7.892|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of hospital free days \& negative sign of estimate defined as lower number of hospital free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||7.892|-4.518|0.593
92454665|NCT01571362|184797670|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Physical Functioning, Role-Physical, Bodily Pain, General Health, Vitality, Social Functioning, Role-Emotional, Mental Health, Physical Component Score, and Mental Component Score||||<0.0001
92454666|NCT01571362|184797671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.62|STANDARD_ERROR_OF_MEAN|0.952||0.5181|TWO_SIDED|95.0|-1.26|2.49||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Physical Functioning.||2.49|-1.26|0.5181
92454667|NCT01571362|184797671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.998||0.9733|TWO_SIDED|95.0|-2.0|1.93||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Role-Physical.||1.93|-2.00|0.9733
92454668|NCT01571362|184797671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.37|STANDARD_ERROR_OF_MEAN|0.914||0.01|TWO_SIDED|95.0|0.57|4.18||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Bodily Pain.||4.18|0.57|0.0100
92454669|NCT01571362|184797671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.764||0.4712|TWO_SIDED|95.0|-2.06|0.95||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for General Health Perceptions.||0.95|-2.06|0.4712
92454670|NCT01571362|184797671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.16|STANDARD_ERROR_OF_MEAN|1.091||0.2898|TWO_SIDED|95.0|-3.3|0.99||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Vitality.||0.99|-3.30|0.2898
92454671|NCT01571362|184797671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.48|STANDARD_ERROR_OF_MEAN|1.044||0.1565|TWO_SIDED|95.0|-0.57|3.54||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Social Functioning.||3.54|-0.57|0.1565
92242266|NCT05896761|184387781|OTHER||Ratio of geometric least square mean|1.35|||||TWO_SIDED|90.0|1.22|1.49||||||||1.49|1.22|
92454672|NCT01571362|184797671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.86|STANDARD_ERROR_OF_MEAN|1.348||0.522|TWO_SIDED|95.0|-3.52|1.79||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Role-Emotional.||1.79|-3.52|0.5220
92242267|NCT05896761|184387781|OTHER||Ratio of geometric least square mean|1.1|||||TWO_SIDED|90.0|0.975|1.24||||||||1.24|0.975|
92242268|NCT05896761|184387782|OTHER||Ratio of geometric least square mean|1.26|||||TWO_SIDED|90.0|1.12|1.4||||||||1.40|1.12|
92242269|NCT05896761|184387782|OTHER||Ratio of geometric least square mean|1.18|||||TWO_SIDED|90.0|1.09|1.28||||||||1.28|1.09|
92242270|NCT05896761|184387783|OTHER||Ratio of geometric least square mean|1.21|||||TWO_SIDED|90.0|1.13|1.3||||||||1.30|1.13|
92242271|NCT05896761|184387783|OTHER||Ratio of geometric least square mean|1.09|||||TWO_SIDED|90.0|1.0|1.2||||||||1.20|1.00|
92454673|NCT01571362|184797671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.995||0.9865|TWO_SIDED|95.0|-1.94|1.98||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Mental Health.||1.98|-1.94|0.9865
92454674|NCT01571362|184797671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.02|STANDARD_ERROR_OF_MEAN|0.885||0.2491|TWO_SIDED|95.0|-0.72|2.77||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Physical Component Score.||2.77|-0.72|0.2491
92454675|NCT01571362|184797671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.69|STANDARD_ERROR_OF_MEAN|1.073||0.5219|TWO_SIDED|95.0|-2.8|1.43||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Mental Component Score.||1.43|-2.80|0.5219
92454676|NCT01571362|184797672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.52|STANDARD_ERROR_OF_MEAN|1.111||0.1731|TWO_SIDED|95.0|-0.67|3.71||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Physical Functioning.||3.71|-0.67|0.1731
92454677|NCT01571362|184797672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|1.127||0.329|TWO_SIDED|95.0|-1.12|3.32||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Role-Physical.||3.32|-1.12|0.3290
92454678|NCT01571362|184797672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.39|STANDARD_ERROR_OF_MEAN|1.047||0.0232|TWO_SIDED|95.0|0.33|4.45||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Bodily Pain.||4.45|0.33|0.0232
92454679|NCT01571362|184797672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.858||0.8139|TWO_SIDED|95.0|-1.89|1.49||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for General Health Perceptions.||1.49|-1.89|0.8139
92454680|NCT01571362|184797672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45|STANDARD_ERROR_OF_MEAN|1.117||0.6878|TWO_SIDED|95.0|-2.65|1.75||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Vitality.||1.75|-2.65|0.6878
92454681|NCT01571362|184797672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_ERROR_OF_MEAN|1.08||0.0658|TWO_SIDED|95.0|-0.13|4.12||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Social Functioning.||4.12|-0.13|0.0658
92454682|NCT01571362|184797672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|STANDARD_ERROR_OF_MEAN|1.374||0.867|TWO_SIDED|95.0|-2.48|2.94||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Role-Emotional.||2.94|-2.48|0.8670
92454683|NCT01571362|184797672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|1.056||0.7259|TWO_SIDED|95.0|-1.71|2.45||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Mental Health.||2.45|-1.71|0.7259
92454684|NCT01571362|184797672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.67|STANDARD_ERROR_OF_MEAN|1.007||0.0989|TWO_SIDED|95.0|-0.32|3.65||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Physical Component Score.||3.65|-0.32|0.0989
92454685|NCT01571362|184797672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.142||0.9969|TWO_SIDED|95.0|-2.25|2.25||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Mental Component Score.||2.25|-2.25|0.9969
92454686|NCT01571362|184797673|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92454687|NCT01571362|184797674|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92454688|NCT01571362|184797675|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92454689|NCT01571362|184797676|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92454690|NCT01571362|184797677|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.032|STANDARD_ERROR_OF_MEAN|0.0168||0.0605|TWO_SIDED|95.0|-0.001|0.065||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of study drug during the Titration Period as covariates.|ANCOVA|||||0.065|-0.001|0.0605
92454691|NCT01571362|184797678|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.72|STANDARD_ERROR_OF_MEAN|1.999||0.7196|TWO_SIDED|95.0|-3.22|4.66||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors; Randomization Baseline score and final total daily dose of study drug during the Titration Period as covariates.|ANCOVA|||||4.66|-3.22|0.7196
92454692|NCT01571362|184797679|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.021|STANDARD_ERROR_OF_MEAN|0.0172||0.228|TWO_SIDED|95.0|-0.013|0.055||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||||0.055|-0.013|0.2280
92454693|NCT01571362|184797680|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.26|STANDARD_ERROR_OF_MEAN|2.048||0.2701|TWO_SIDED|95.0|-1.77|6.3||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||||6.30|-1.77|0.2701
92242272|NCT05896761|184387784|OTHER||Ratio of geometric least square mean|1.15|||||TWO_SIDED|90.0|1.07|1.23||||||||1.23|1.07|
92454694|NCT01571362|184797681|SUPERIORITY_OR_OTHER|||||||0.3822|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label for % Work Time Missed due to Low Back Pain.||||0.3822
92454695|NCT01571362|184797681|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label for % Impairment while Working due to Low Back Pain.||||<0.0001
92454696|NCT01571362|184797681|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label for % Overall Work Impairment due to Low Back Pain.||||<0.0001
92454697|NCT01571362|184797681|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label for % Activity Impairment due to Low Back Pain.||||<0.0001
92454698|NCT01571362|184797682|SUPERIORITY_OR_OTHER|||||||0.0017|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for % Work Time Missed due to Low Back Pain||||0.0017
92173630|NCT03721952|184238305|SUPERIORITY||Slope|4.365|STANDARD_ERROR_OF_MEAN|6.987||0.533|TWO_SIDED|95.0|-9.367|18.097|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of hospital free days \& negative sign of estimate defined as lower number of hospital free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||18.097|-9.367|0.533
92173631|NCT03721952|184238306|SUPERIORITY||Slope|1.07|STANDARD_ERROR_OF_MEAN|1.07||0.318|TWO_SIDED|95.0|-1.032|3.173|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of ICU free days \& negative sign of estimate defined as lower number of ICU free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||3.173|-1.032|0.318
92242273|NCT05896761|184387784|OTHER||Ratio of geometric least square mean|1.29|||||TWO_SIDED|90.0|1.2|1.38||||||||1.38|1.20|
92242274|NCT05896761|184387785|OTHER||Ratio of geometric least square mean|1.16|||||TWO_SIDED|90.0|1.08|1.25||||||||1.25|1.08|
92454699|NCT01571362|184797682|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for % Impairment while Working due to Low Back Pain||||<0.0001
92454700|NCT01571362|184797682|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for % Overall Work Impairment due to Low Back Pain||||<0.0001
92454701|NCT01571362|184797682|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for % Activity Impairment due to Low Back Pain||||<0.0001
92242275|NCT05896761|184387785|OTHER||Ratio of geometric least square mean|0.983|||||TWO_SIDED|90.0|0.89|1.09||||||||1.09|0.890|
92242276|NCT05896761|184387786|OTHER||Ratio of geometric least square mean|1.06|||||TWO_SIDED|90.0|0.991|1.13||||||||1.13|0.991|
92242277|NCT05896761|184387786|OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|0.974|1.12||||||||1.12|0.974|
92242278|NCT05896761|184387787|OTHER||Ratio of geometric least square mean|1.18|||||TWO_SIDED|90.0|1.11|1.25||||||||1.25|1.11|
92242279|NCT05896761|184387787|OTHER||Ratio of geometric least square mean|1.06|||||TWO_SIDED|90.0|0.989|1.14||||||||1.14|0.989|
92242280|NCT05896761|184387788|OTHER||Ratio of geometric least square mean|1.08|||||TWO_SIDED|90.0|1.03|1.12||||||||1.12|1.03|
92242281|NCT05896761|184387788|OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|0.997|1.08||||||||1.08|0.997|
92242282|NCT05896761|184387789|OTHER||Ratio of geometric least square mean|1.13|||||TWO_SIDED|90.0|1.08|1.19||||||||1.19|1.08|
92242283|NCT05896761|184387789|OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|0.97|1.11||||||||1.11|0.97|
92242284|NCT05896761|184387790|OTHER||Ratio of geometric least square mean|1.06|||||TWO_SIDED|90.0|1.02|1.11||||||||1.11|1.02|
92454702|NCT01571362|184797683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.31|STANDARD_ERROR_OF_MEAN|2.883||0.1389|TWO_SIDED|95.0|-10.06|1.43||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 4||1.43|-10.06|0.1389
92454703|NCT01571362|184797683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.88|STANDARD_ERROR_OF_MEAN|4.34||0.5094|TWO_SIDED|95.0|-11.56|5.8||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 8||5.80|-11.56|0.5094
92454704|NCT01571362|184797683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.77|STANDARD_ERROR_OF_MEAN|4.043||0.4944|TWO_SIDED|95.0|-10.81|5.26||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 12/ET||5.26|-10.81|0.4944
92454705|NCT01571362|184797684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.76|STANDARD_ERROR_OF_MEAN|4.295||0.1201|TWO_SIDED|95.0|-15.33|1.81||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 4||1.81|-15.33|0.1201
92454706|NCT01571362|184797684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.99|STANDARD_ERROR_OF_MEAN|5.288||0.3497|TWO_SIDED|95.0|-15.6|5.62||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 8||5.62|-15.60|0.3497
92242285|NCT05896761|184387790|OTHER||Ratio of geometric least square mean|1.06|||||TWO_SIDED|90.0|1.01|1.11||||||||1.11|1.01|
92242286|NCT01318083|184387813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.936|||||TWO_SIDED|95.0|-1.097|-0.775||||||||-0.775|-1.097|
92242287|NCT01318083|184387813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.998|||||TWO_SIDED|95.0|-1.16|-0.837||||||||-0.837|-1.160|
92242288|NCT01318083|184387814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.196|||||TWO_SIDED|95.0|-0.261|-0.131||||||||-0.131|-0.261|
92242289|NCT01318083|184387814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.213|||||TWO_SIDED|95.0|-0.273|-0.154||||||||-0.154|-0.273|
92242290|NCT01318083|184387815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||||TWO_SIDED|95.0|-0.507|-0.312||||||||-0.312|-0.507|
92242291|NCT01318083|184387815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.453|||||TWO_SIDED|95.0|-0.547|-0.358||||||||-0.358|-0.547|
92242292|NCT01318083|184387816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.695|||||TWO_SIDED|95.0|-0.834|-0.556||||||||-0.556|-0.834|
92242293|NCT01318083|184387816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|||||TWO_SIDED|95.0|-0.911|-0.629||||||||-0.629|-0.911|
92242294|NCT01318083|184387817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.71|||||TWO_SIDED|95.0|-24.6|-10.83||||||||-10.83|-24.60|
92242295|NCT01318083|184387817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.59|||||TWO_SIDED|95.0|-24.93|-10.25||||||||-10.25|-24.93|
92242296|NCT01318083|184387818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.17|||||TWO_SIDED|95.0|-30.33|-16.02||||||||-16.02|-30.33|
92242297|NCT01318083|184387818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.88|||||TWO_SIDED|95.0|-32.33|-17.43||||||||-17.43|-32.33|
92242298|NCT01318083|184387819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.62|||||TWO_SIDED|95.0|-35.32|-19.91||||||||-19.91|-35.32|
92242299|NCT01318083|184387819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.72|||||TWO_SIDED|95.0|-30.76|-14.69||||||||-14.69|-30.76|
92242300|NCT01318083|184387820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.37|||||TWO_SIDED|95.0|-37.14|-19.59||||||||-19.59|-37.14|
92242301|NCT01318083|184387820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.93|||||TWO_SIDED|95.0|-30.33|-13.54||||||||-13.54|-30.33|
92242302|NCT01318083|184387821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.41|||||TWO_SIDED|95.0|-36.58|-10.23||||||||-10.23|-36.58|
92242303|NCT01318083|184387821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.18|||||TWO_SIDED|95.0|-33.4|-4.95||||||||-4.95|-33.40|
92242304|NCT03552549|184387838|OTHER||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.28|1.77|||||Hazard ratio presented as PEG-Intron/INTRON A; HR \<1 indicates treatment effect in favor of PEG-Intron.|||1.77|0.28|
92242305|NCT02094586|184387853|EQUIVALENCE|The GMT of each lot was required to be within ±50% of each other lot with 95% confidence. Specifically, the 95% CI around each pairwise ratio of GMTs was required to be within \[0.67, 1.5\].|Geometric Mean Ratio|0.92|||||TWO_SIDED|95.0|0.78|1.08||||||Lot A vs. Lot B||1.08|0.78|
92242306|NCT02094586|184387858|EQUIVALENCE|The GMT of each lot was required to be within ±50% of each other lot with 95% confidence. Specifically, the 95% CI around each pairwise ratio of GMTs was required to be within \[0.67, 1.5\].|Geometric Mean Ratio|1.02|||||TWO_SIDED|95.0|0.87|1.2||||||Lot B vs Lot C||1.20|0.87|
92242307|NCT02094586|184387859|EQUIVALENCE|The GMT of each lot was required to be within ±50% of each other lot with 95% confidence. Specifically, the 95% CI around each pairwise ratio of GMTs was required to be within \[0.67, 1.5\].|Geometric Mean Ratio|0.94|||||TWO_SIDED|95.0|0.8|1.1||||||Lot A vs. Lot C||1.10|0.80|
92242308|NCT02761993|184387860|SUPERIORITY|||||||0.341||||||Since there were two (2) primary hypotheses, Bonferroni corrections were used to control for multiplicity, with p \< 0.025 considered significant.|Generalized Estimating Equation|Generalized estimating equations (GEE) method with a linear link and exchangeable covariance matrix (with subject correlation structure)||||||0.341
92242309|NCT02761993|184387860|SUPERIORITY|||||||0.774||||||Since there were two (2) primary hypotheses, Bonferroni corrections were used to control for multiplicity, with p \< 0.025 considered significant.|Generalized Estimating Equations|Generalized estimating equations (GEE) method with a linear link and exchangeable covariance matrix (with subject correlation structure)||||||0.774
92242310|NCT02761993|184387861|SUPERIORITY|||||||0.501||||||Since there were two (2) primary hypotheses, Bonferroni corrections were used to control for multiplicity, with p \< 0.025 considered significant.|Generalized Estimating Equations|Generalized estimating equations (GEE) method with a linear link and exchangeable covariance matrix (with subject correlation structure)||||||0.501
92454707|NCT01571362|184797684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.38|STANDARD_ERROR_OF_MEAN|4.532||0.6008|TWO_SIDED|95.0|-11.41|6.65||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 12/ET||6.65|-11.41|0.6008
92454708|NCT01571362|184797685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.34|STANDARD_ERROR_OF_MEAN|4.986||0.1458|TWO_SIDED|95.0|-17.29|2.62||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 4||2.62|-17.29|0.1458
92454709|NCT01571362|184797685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.35|STANDARD_ERROR_OF_MEAN|6.496||0.1558|TWO_SIDED|95.0|-22.38|3.68||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 8||3.68|-22.38|0.1558
92454710|NCT01571362|184797685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.14|STANDARD_ERROR_OF_MEAN|5.582||0.3604|TWO_SIDED|95.0|-16.25|5.98||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 12/ET||5.98|-16.25|0.3604
92242311|NCT02761993|184387861|SUPERIORITY|||||||0.486||||||Since there were two (2) primary hypotheses, Bonferroni corrections were used to control for multiplicity, with p \< 0.025 considered significant.|Generalized Estimating Equations|Generalized estimating equations (GEE) method with a linear link and exchangeable covariance matrix (with subject correlation structure)||||||0.486
92454711|NCT01571362|184797686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.25|STANDARD_ERROR_OF_MEAN|2.389||0.0768|TWO_SIDED|95.0|-8.95|0.46||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 4||0.46|-8.95|0.0768
92454712|NCT01571362|184797686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|2.684||0.7109|TWO_SIDED|95.0|-4.3|6.29||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 8||6.29|-4.30|0.7109
92454713|NCT01571362|184797686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.15|STANDARD_ERROR_OF_MEAN|2.536||0.1031|TWO_SIDED|95.0|-9.14|0.85||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 12/ET||0.85|-9.14|0.1031
92454714|NCT01571362|184797687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.73|STANDARD_ERROR_OF_MEAN|2.776||0.0926|TWO_SIDED|95.0|-10.26|0.8||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 4||0.80|-10.26|0.0926
92454715|NCT01571362|184797687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.59|STANDARD_ERROR_OF_MEAN|3.414||0.6437|TWO_SIDED|95.0|-8.42|5.24||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 8||5.24|-8.42|0.6437
92454716|NCT01571362|184797687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09|STANDARD_ERROR_OF_MEAN|3.391||0.748|TWO_SIDED|95.0|-7.84|5.65||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 12/ET||5.65|-7.84|0.7480
92242312|NCT02761993|184387862|SUPERIORITY|||||||0.816|||||||ANCOVA|||||||0.816
92242313|NCT02761993|184387862|SUPERIORITY|||||||0.706|||||||ANCOVA|||||||0.706
92454717|NCT01571362|184797688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.38|STANDARD_ERROR_OF_MEAN|4.666||0.0098|TWO_SIDED|95.0|-21.68|-3.07||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 4||-3.07|-21.68|0.0098
92242314|NCT01617434|184387878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19|||<|0.0001||95.0|-1.39|-0.99|||Mixed Models Analysis|||The null hypothesis of no difference between the two treatment arms with regard to changes from baseline in HbA1c (%) after 26 weeks of randomised treatment was analysed using a mixed model repeated measurements (MMRM) analysis with treatment, country, stratification groups as factors and baseline HbA1c as a covariate, all nested within visit.||-0.99|-1.39|<0.0001
92454718|NCT01571362|184797688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.94|STANDARD_ERROR_OF_MEAN|5.336||0.0186|TWO_SIDED|95.0|-23.63|-2.25||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 8||-2.25|-23.63|0.0186
92454719|NCT01571362|184797688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.2|STANDARD_ERROR_OF_MEAN|4.785||0.0581|TWO_SIDED|95.0|-18.72|0.32||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 12/ET||0.32|-18.72|0.0581
92454720|NCT01571362|184797689|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.56|STANDARD_ERROR_OF_MEAN|5.168||0.0177|TWO_SIDED|95.0|-22.87|-2.25||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 4||-2.25|-22.87|0.0177
92454721|NCT01571362|184797689|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.16|STANDARD_ERROR_OF_MEAN|5.998||0.0219|TWO_SIDED|95.0|-26.19|-2.14||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 8||-2.14|-26.19|0.0219
92173632|NCT03721952|184238307|SUPERIORITY||Slope|4.117|STANDARD_ERROR_OF_MEAN|3.506||0.241|TWO_SIDED|95.0|-2.773|11.007|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of ICU free days \& negative sign of estimate defined as lower number of ICU free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||11.007|-2.773|0.241
92242315|NCT01617434|184387879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|||<|0.0001||95.0|-1.7|-0.86|||Mixed Models Analysis|||The response was analysed using a mixed model repeated measurements (MMRM) analysis with treatment, country, stratification groups as factors and baseline as a covariate, all nested within visit.||-0.86|-1.70|<0.0001
92242316|NCT01617434|184387880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.59|||<|0.0001||95.0|-2.01|-1.18|||Mixed Models Analysis|||The response was analysed using a mixed model repeated measurements (MMRM) analysis with treatment, country, stratification groups as factors and baseline as a covariate, all nested within visit.||-1.18|-2.01|<0.0001
92242317|NCT01617434|184387881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.11|||<|0.0001||95.0|-3.85|-2.37|||Mixed Models Analysis|||The response was analysed using a mixed model repeated measurements (MMRM) analysis with treatment, country, stratification groups as factors and baseline as a covariate, all nested within visit.||-2.37|-3.85|<0.0001
92242318|NCT01617434|184387882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.91|||<|0.0001||95.0|5.45|14.59|||Regression, Logistic|||This endpoint was analysed using a logistic regression model with treatment and stratification factors as fixed factors and the HbA1c value at baseline as a covariate. Subjects previously treated with insulin detemir without the use of metformin were not included in the analysis due to the small size of the stratum.||14.59|5.45|<0.0001
92454722|NCT01571362|184797689|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.35|STANDARD_ERROR_OF_MEAN|5.589||0.0679|TWO_SIDED|95.0|-21.47|0.78||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 12/ET||0.78|-21.47|0.0679
92242319|NCT01617434|184387883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.12|||<|0.0001||95.0|9.92|40.84|||Regression, Logistic|||This endpoint was analysed using a logistic regression model with treatment and stratification factors as fixed factors and the HbA1c value at baseline as a covariate. Subjects previously treated with insulin detemir without the use of metformin were not included in the analysis due to the small size of the stratum.||40.84|9.92|<0.0001
92454723|NCT01571362|184797690|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.5|STANDARD_ERROR_OF_MEAN|2.654||0.0052|TWO_SIDED|95.0|-12.72|-2.27||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 4||-2.27|-12.72|0.0052
92454724|NCT01571362|184797690|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.62|STANDARD_ERROR_OF_MEAN|2.999||0.1249|TWO_SIDED|95.0|-10.54|1.29||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 8||1.29|-10.54|0.1249
92454725|NCT01571362|184797690|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.19|STANDARD_ERROR_OF_MEAN|2.818||0.004|TWO_SIDED|95.0|-13.74|-2.64||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 12/ET||-2.64|-13.74|0.0040
92242320|NCT02993224|184387887|SUPERIORITY||Difference of proportion|0.83|||<|0.0001|TWO_SIDED|95.0|0.75|0.89|||McNemar|||Preference for deferasirox DT vs deferasirox FCT||0.89|0.75|<.0001
92242321|NCT02993224|184387888|SUPERIORITY||Difference of proportion|0.78|||<|0.0001|TWO_SIDED|95.0|0.65|0.88|||McNemar|||Preference of deferasirox FCT vs deferasirox DT||0.88|0.65|<0.0001
92454726|NCT03667053|184797719|SUPERIORITY||||||<|0.001|||||||Log Rank|||The treatment group difference between dasiglucagon and placebo was evaluated inferentially using a pairwise two-sided log rank test stratified by injection site and age group.||||<0.001
92454727|NCT03667053|184797720|SUPERIORITY|||||||0.0073||||||Assessed at 30 minutes. Note that p-value was 0.0005 at 10 minutes and \<0.0001 at 15 and 20 minutes.|Cochran-Mantel-Haenszel|||The recovery rates of dasiglucagon and placebo were compared at each time point using a Cochran-Mantel-Haenszel test stratified by age group and injection site. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||0.0073
92242322|NCT02993224|184387888|SUPERIORITY||Difference of proportion|0.83|||<|0.0001|TWO_SIDED|95.0|0.71|0.91|||McNemar|||Preference for deferasirox FCT vs previous iron chelation therapy||0.91|0.71|<0.0001
92242323|NCT02993224|184387889|SUPERIORITY||Difference of proportion|0.66|||<|0.0001|TWO_SIDED|95.0|0.51|0.77|||McNemar|||Deferasirox DT vs previous iron chelation therapy at Week 4||0.77|0.51|< 0.0001
92242324|NCT02993224|184387889|SUPERIORITY||Difference of proportion|0.59|||<|0.0001|TWO_SIDED|95.0|0.44|0.72|||McNemar|||Deferasirox DT vs previous iron chelation therapy at Week 24||0.72|0.44|< 0.0001
92242325|NCT02993224|184387891|SUPERIORITY||Least squares mean|-3.6|STANDARD_ERROR_OF_MEAN|2.3||0.1191|TWO_SIDED|95.0|-8.1|0.9|||ANCOVA|||Compliance of deferasirox DT vs deferasirox FCT||0.9|-8.1|0.1191
92242326|NCT02426658|184387933|SUPERIORITY|||||||0.7044|||||||Mixed Models Analysis|||||||0.7044
92242327|NCT00088634|184387938|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||Comparisons between SM-13496 and placebo will be performed by means of a 2-way analysis of covariance (ANCOVA) model with treatment group and study center as factors, and baseline BPRS score as a covariate. Ninety-five percent (95%) confidence intervals will be constructed using the variability estimates from the ANCOVA model.||||<0.05
92242328|NCT00088634|184387939|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||Comparisons between SM-13496 and placebo will be performed by means of a 2-way analysis of covariance (ANCOVA) model with treatment group and study center as factors, and baseline PANSS score as a covariate. Ninety-five percent (95%) confidence intervals will be constructed using the variability estimates from the ANCOVA model.||||<0.05
92242329|NCT00088634|184387940|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||Comparisons between SM-13496 and placebo will be performed by means of a 2-way analysis of covariance (ANCOVA) model with treatment group and study center as factors, and baseline CGI-S score as a covariate. Ninety-five percent (95%) confidence intervals will be constructed using the variability estimates from the ANCOVA model.||||<0.05
92454728|NCT03667053|184797721|SUPERIORITY||||||<|0.0001||||||The p-value was \<0.0001 at all time points (10, 15, 20 and 30 minutes)|ANOVA|||Change from baseline in plasma glucose at 30, 20, 15, and 10 minutes after investigational product injection was calculated using nominal sampling times and analyzed using an analysis of variance model with treatment, age group and injection site for each endpoint. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
92454729|NCT01059565|184797741|SUPERIORITY_OR_OTHER||Difference in least squares mean (LSM)|0.91||||0.663|TWO_SIDED|95.0|-3.24|5.06||"To correct for multiplicity, a family alpha spending rule was used to control the type 1 error rate of alpha=0.05.~A gate-keeping procedure to control family-wise Type 1 error was established a priori for primary and key secondary endpoints."|ANCOVA|Baseline was included as a covariate in this model.||"The primary analysis was a test for superiority. Null hypothesis was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.~A sample size of 50 participants per group provided at least 80% power to detect an 8.5% difference in mean AUCave of relative change from baseline in FEV1 % predicted through Week 24 using a two-sided 0.05-level test, assuming a common standard deviation of 15."||5.06|-3.24|0.663
92454730|NCT01059565|184797742|SUPERIORITY_OR_OTHER|||||||0.4158||||||To correct for multiplicity, a family alpha spending rule was used to control the type 1 error rate of alpha=0.05.|Negative binomial regression|The negative binomial regression model included an offset parameter which accounted for potential differing study durations due to discontinuations.||The primary analysis was a test for superiority. Null hypothesis was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||||0.4158
92454731|NCT01059565|184797743|SUPERIORITY_OR_OTHER||Difference in LSM|0.18||||0.939|TWO_SIDED|95.0|-4.43|1.78||To correct for multiplicity, a family alpha spending rule was used to control the type 1 error rate of alpha=0.05.|ANCOVA|The AUCs of changes from baseline were compared between treatment groups using ANCOVA methods with baseline value as a covariate.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||1.78|-4.43|0.939
92242330|NCT00088634|184387941|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||Comparisons between SM-13496 and placebo will be performed by means of a 2-way analysis of covariance (ANCOVA) model with treatment group and study center as factors, and baseline MADRS score as a covariate. Ninety-five percent (95%) confidence intervals will be constructed using the variability estimates from the ANCOVA model.||||<0.05
92264764|NCT02777554|184431064|EQUIVALENCE|Equivalent exposure of the QD formulation to the BID tablet was established if the 90% confidence intervals (CIs) of the geometric mean ratio for Day 7 AUC0-24 and Cmax were completely contained within the range of 80% to 125%.|Ratio (%) of Geometric Means|101.6|||||TWO_SIDED|90.0|95.1|108.5|||||Geometric mean ratio (Apremilast 75 mg XL QD / Apremilast 30 mg IR BID) from an ANOVA model, expressed as a percentage.|To assess the exposure between the extended release apremilast formulation, and Reference IR (30 mg reference IR BID) tablet following multiple oral doses, an analysis of variance (ANOVA) model, with sequence, period, and treatment as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Day 7 Cmax.||108.5|95.1|
92264765|NCT02777554|184431065|EQUIVALENCE|Equivalent exposure of the QD formulation to the BID tablet was established if the 90% CIs of the geometric mean ratio for Day 7 AUC0-24 and Cmax were completely contained within the range of 80% to 125%.|Ratio (%) of Geometric Means|95.3|||||TWO_SIDED|90.0|88.9|102.2|||||Geometric mean ratio (Apremilast 75 mg XL QD / Apremilast 30 mg IR BID) from an ANOVA model, expressed as a percentage.|To assess the exposure between the extended release apremilast formulation, and Reference IR (30 mg reference IR BID) tablet following multiple oral doses, an ANOVA model, with sequence, period, and treatment as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Day 7 AUC0-24.||102.2|88.9|
92264766|NCT02777554|184431066|OTHER||Ratio (%) of Geometric Means|103.9|||||TWO_SIDED|90.0|93.6|115.4|||||Geometric mean ratio (Apremilast 75 mg XL / Apremilast 30 mg IR BID) from an ANOVA model, expressed as a percentage.|To estimate the exposure of apremilast following single dose administration of extended release (QD) relative to the Reference IR (BID) tablet under fasted conditions, an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax of apremilast.||115.4|93.6|
92264767|NCT02777554|184431066|OTHER||Ratio (%) of Geometric Means|90.9|||||TWO_SIDED|90.0|81.6|101.3|||||Geometric mean ratio (Apremilast 75 mg XL (Fasted) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax of apremilast.||101.3|81.6|
92454732|NCT01059565|184797744|SUPERIORITY_OR_OTHER||Difference in LSM|0.77||||0.711|TWO_SIDED|95.0|-3.33|4.86|||ANCOVA|The AUCs of changes from baseline were compared between treatment groups using ANCOVA methods with baseline value as a covariate.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||4.86|-3.33|0.711
92454733|NCT01059565|184797745|SUPERIORITY_OR_OTHER||Difference in LSM|0.6||||0.762|TWO_SIDED|95.0|-3.3|4.49|||ANCOVA|The AUCs of changes from baseline were compared between treatment groups using ANCOVA methods with baseline value as a covariate.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||4.49|-3.30|0.762
92454734|NCT01059565|184797746|SUPERIORITY_OR_OTHER||Difference in LSM|1.95||||0.553|TWO_SIDED|95.0|-4.54|8.44|||ANCOVA|The AUCs of changes from baseline were compared between treatment groups using ANCOVA methods with baseline value as a covariate.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||8.44|-4.54|0.553
92454735|NCT01059565|184797747|SUPERIORITY_OR_OTHER||Difference in LSM|2.99||||0.17|TWO_SIDED|95.0|-1.2|7.28|||ANCOVA|Baseline was included as a covariate in this model.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||7.28|-1.20|0.170
92454736|NCT01059565|184797748|SUPERIORITY_OR_OTHER||Difference in LSM|-2.57||||0.528|TWO_SIDED|95.0|-10.62|5.49|||ANCOVA|Baseline was included as a covariate in this model.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||5.49|-10.62|0.528
92242331|NCT03050359|184387942|NON_INFERIORITY|If the lower bound of the 95% CI was ≥-6%, the DU healing rate for TAK-438 was considered to be noninferior to that seen with lansoprazole.|Exact (Clopper-Pearson)|0.4|||||TWO_SIDED|95.0|-2.998|3.791||||||||3.791|-2.998|
92242332|NCT03050359|184387943|NON_INFERIORITY|If the lower bound of the 95% CI was ≥-10%, the HP eradication rate for TAK-438 was considered to be noninferior to that seen with lansoprazole.|Exact (Clopper-Pearson)|4.7|||||TWO_SIDED|95.0|-1.281|10.69||||||||10.690|-1.281|
92281196|NCT03740165|184465592|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.0442||95.0|0.76|1.02||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.02|0.76|0.0442
92281197|NCT03740165|184465592|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.9565||95.0|0.98|1.31||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.31|0.98|0.9565
92454737|NCT01059565|184797749|SUPERIORITY_OR_OTHER||Difference in LSM|3.62||||0.132|TWO_SIDED|95.0|-1.11|8.34|||ANCOVA|Baseline was included as a covariate in this model.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||8.34|-1.11|0.132
92454738|NCT01059565|184797750|SUPERIORITY_OR_OTHER||Difference in LSM|0.14||||0.531|TWO_SIDED|95.0|-0.29|0.56|||Mixed Models Analysis|P-value was based on a Mixed-Effect Model Repeated Measure model that included terms for treatment, visit, baseline, and treatment/visit interaction.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||0.56|-0.29|0.531
92454739|NCT01059565|184797751|SUPERIORITY_OR_OTHER||Difference in LSM|0.93||||0.232|TWO_SIDED|95.0|-0.62|2.48|||ANCOVA|Baseline was included as a covariate in this model.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||2.48|-0.62|0.232
92454740|NCT01059565|184797752|SUPERIORITY_OR_OTHER|||||||0.103|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||||0.103
92454741|NCT01059565|184797753|SUPERIORITY_OR_OTHER|||||||0.646|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||||0.646
92454742|NCT01059565|184797754|SUPERIORITY_OR_OTHER|||||||0.284|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||||0.284
92454743|NCT01981564|184797874|SUPERIORITY|||||||0.06|||||||ANOVA|||ANOVA F=3.55, df=1, p=0.06||||0.06
92454744|NCT01869491|184797896|SUPERIORITY||Mean Difference (Final Values)|-0.21|||<|0.0001|TWO_SIDED|95.0|-0.31|-0.11|||Mixed Models Analysis|||||-0.11|-0.31|<0.0001
92454745|NCT01869491|184797897|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.0004|TWO_SIDED|95.0|-0.29|-0.08|||Mixed Models Analysis|||||-0.08|-0.29|0.0004
92454746|NCT01869491|184797898|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.0001|TWO_SIDED|95.0|-0.32|-0.1|||Mixed Models Analysis|||||-0.10|-0.32|0.0001
92242333|NCT03050359|184387944|NON_INFERIORITY|If the lower bound of the 95% CI was ≥-6%, the DU healing rate for TAK-438 was considered to be noninferior to that seen with lansoprazole.|Exact (Clopper-Pearson)|0.7|||||TWO_SIDED|95.0|-4.901|6.319||||||||6.319|-4.901|
92242334|NCT03050359|184387945|OTHER||Difference in percentages|-4.1|||||TWO_SIDED|95.0|-15.579|7.344||||||Epigastric Pain (Postprandial)||7.344|-15.579|
92242335|NCT03050359|184387945|OTHER||Difference in percentages|1.6|||||TWO_SIDED|95.0|-5.23|8.422||||||Epigastric Pain (Fasting/Nocturnal)||8.422|-5.230|
92242336|NCT03050359|184387945|OTHER||Difference in percentages|-4.0|||||TWO_SIDED|95.0|-17.338|9.401||||||Abdominal Bloating||9.401|-17.338|
92242337|NCT03050359|184387945|OTHER||Difference in percentages|-9.3|||||TWO_SIDED|95.0|-26.334|7.815||||||Nausea/Vomiting||7.815|-26.334|
92242338|NCT03050359|184387945|OTHER||Difference in percentages|4.5|||||TWO_SIDED|95.0|-4.159|13.25||||||Heartburn||13.250|-4.159|
92242339|NCT03050359|184387945|OTHER||Difference in percentages|-9.1|||||TWO_SIDED|95.0|-21.104|2.922||||||Lack of Appetite||2.922|-21.104|
92242340|NCT02020031|184387946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 3 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
92281198|NCT03740165|184465593|SUPERIORITY||Difference in Percentage|5.4||||0.0644|TWO_SIDED|95.0|-1.9|11.5||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|t-test, 1 sided||Based on Miettinen \& Nurminen method stratified by bevacizumab use (Yes vs No)|||11.5|-1.9|0.0644
92281199|NCT03740165|184465594|SUPERIORITY||Difference in Percentage|3.7||||0.0318|TWO_SIDED|95.0|-0.3|7.3||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|t-test, 1 sided||Based on Miettinen \& Nurminen method stratified by bevacizumab use (Yes vs No) and PD-L1 CPS (\<10 vs ≥10)|||7.3|-0.3|0.0318
92454747|NCT01869491|184797899|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.0004|TWO_SIDED|95.0|-0.32|-0.09|||Mixed Models Analysis|||||-0.09|-0.32|0.0004
92454748|NCT01869491|184797900|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92454749|NCT01869491|184797901|SUPERIORITY|||||||0.0433|||||||Wilcoxon (Mann-Whitney)|||||||0.0433
92454750|NCT01869491|184797902|SUPERIORITY|||||||0.0503|||||||Wilcoxon (Mann-Whitney)|||||||0.0503
92454751|NCT04313634|184797926|SUPERIORITY|||||||0.611|||||||Wilcoxon (Mann-Whitney)|||||||0.611
92454752|NCT04313634|184797927|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
92454753|NCT04313634|184797928|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
92454754|NCT04313634|184797929|SUPERIORITY|||||||0.149|||||||Wilcoxon (Mann-Whitney)|||||||0.149
92454755|NCT04313634|184797931|SUPERIORITY|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||||||0.953
92454756|NCT02105948|184797946|SUPERIORITY||Rate ratio (mepolizumab/placebo)|0.82|||=|0.036|TWO_SIDED|95.0|0.68|0.98||Adjusted p-value to account for two treatment comparisons|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no.of moderate/severe exacerbations in previous year, Baseline percent predicted for FEV1,smoking status and offset of log (time in on-and off-treatment period)|||0.98|0.68|=0.036
92454757|NCT02105948|184797946|SUPERIORITY||Rate ratio (mepolizumab/placebo)|0.82|||=|0.029|TWO_SIDED|95.0|0.68|0.98||Unadjusted p-value.|Negative binomial mode||Analysis using a negative binomial model with covariates of treatment, geographic region, no.of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period)|||0.98|0.68|=0.029
92454758|NCT02105948|184797947|SUPERIORITY||Rate ratio (mepolizumab/placebo)|0.98|||>|0.999|TWO_SIDED|95.0|0.85|1.12||Adjusted p-value to account for two treatment comparisons|Negative Binomial Model||Analysis using a negative binomial model with covariates of treatment, geographic region, no.of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period)|||1.12|0.85|>0.999
92454759|NCT02105948|184797947|SUPERIORITY||Rate ratio (mepolizumab/placebo)|0.98|||=|0.731|TWO_SIDED|95.0|0.85|1.12||Unadjusted p-value.|Negative binomial mode||Analysis using a negative binomial model with covariates of treatment, geographic region, no.of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period)|||1.12|0.85|=0.731
92454760|NCT02105948|184797948|SUPERIORITY||Hazard ratio (Mepolizumab/placebo)|0.75|||=|0.036|TWO_SIDED|95.0|0.6|0.94||Adjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||0.94|0.60|=0.036
92454761|NCT02105948|184797948|SUPERIORITY||Hazard ratio (Mepolizumab/placebo)|0.75|||=|0.012|TWO_SIDED|95.0|0.6|0.94||Unadjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||0.94|0.60|=0.012
92454762|NCT02105948|184797949|SUPERIORITY||Rate ratio (mepolizumab/placebo)|1.16|||=|0.598|TWO_SIDED|95.0|0.77|1.75||Adjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period).|||1.75|0.77|=0.598
92454763|NCT02105948|184797949|SUPERIORITY||Rate ratio (mepolizumab/placebo)|1.16|||=|0.479|TWO_SIDED|95.0|0.77|1.75||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period).|||1.75|0.77|=0.479
92454764|NCT02105948|184797950|SUPERIORITY||Mean Difference (Mepolizumab - Placebo)|0.2|||>|0.999|TWO_SIDED|95.0|-2.8|3.2||Adjusted p-value|Mixed Model Repeated Measure Analysis||Analysis performed using mixed model repeated measures with covariates of baseline SGRQ Total Score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||3.2|-2.8|>0.999
92454765|NCT02105948|184797950|SUPERIORITY||Mean Difference (Mepolizumab - Placebo)|0.2|||=|0.901|TWO_SIDED|95.0|-2.8|3.2||Unadjusted p-value|Mixed Model Repeated Measure Analysis||Analysis performed using mixed model repeated measures with covariates of baseline SGRQ Total Score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||3.2|-2.8|=0.901
92454766|NCT02105948|184797951|SUPERIORITY||Mean Difference (Mepolizumab - Placebo)|-0.8|||>|0.999|TWO_SIDED|95.0|-2.0|0.5||Adjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.5|-2.0|>0.999
92242341|NCT02020031|184387946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 30 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
92242342|NCT02020031|184387946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 50 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
92242343|NCT02020031|184387946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 115 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
92281200|NCT03049618|184465602|OTHER|||||||0.34|||||||Fisher Exact|||||||0.34
92281201|NCT03049618|184465603|OTHER|||||||0.34|||||||Fisher Exact|||||||0.34
92454767|NCT02105948|184797951|SUPERIORITY||Mean Difference (Mepolizumab - Placebo)|-0.8|||=|0.244|TWO_SIDED|95.0|-2.0|0.5||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.5|-2.0|=0.244
92454768|NCT02105948|184797952|SUPERIORITY||Hazard ratio (Mepolizumab/Placebo)|0.89|||>|0.999|TWO_SIDED|95.0|0.75|1.05||Adjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||1.05|0.75|>0.999
92454769|NCT02105948|184797952|SUPERIORITY||Hazard ratio (Mepolizumab/Placebo)|0.89|||=|0.16|TWO_SIDED|95.0|0.75|1.05||Unadjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||1.05|0.75|=0.160
92454770|NCT02105948|184797953|SUPERIORITY||Rate ratio (mepolizumab/placebo)|1.1|||>|0.999|TWO_SIDED|95.0|0.81|1.49||Adjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period).|||1.49|0.81|>0.999
92454771|NCT02105948|184797953|SUPERIORITY||Rate ratio (mepolizumab/placebo)|1.1|||=|0.556|TWO_SIDED|95.0|0.81|1.49||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period).|||1.49|0.81|=0.556
92454772|NCT02105948|184797954|SUPERIORITY||Mean difference (Mepolizumab - Placebo)|0.7|||>|0.999|TWO_SIDED|95.0|-1.5|2.9||Adjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline SGRQ Total Score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||2.9|-1.5|>0.999
92242344|NCT02020031|184387946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 150 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
92281202|NCT03049618|184465604|OTHER|||||||0.057|||||||Fisher Exact|||||||0.057
92454773|NCT02105948|184797954|SUPERIORITY||Mean difference (Mepolizumab - Placebo)|0.7|||=|0.532|TWO_SIDED|95.0|-1.5|2.9||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline SGRQ Total Score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||2.9|-1.5|=0.532
92454774|NCT02105948|184797955|SUPERIORITY||Mean difference (Mepolizumab - Placebo)|-0.6|||>|0.999|TWO_SIDED|95.0|-1.5|0.4||Adjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.4|-1.5|>0.999
92454775|NCT02105948|184797955|SUPERIORITY||Mean difference (Mepolizumab - Placebo)|-0.6|||=|0.252|TWO_SIDED|95.0|-1.5|0.4||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.4|-1.5|=0.252
92454776|NCT01358526|184797963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.163||0.0055|TWO_SIDED|95.0|0.13|0.77||A gate-keeping strategy and a Bonferroni-Holm method was used to control the family-wise (primary and secondary efficacy analysis) error rate at the 5% level.|Mixed Models Analysis|Mixed-model repeated measures analysis of pain data using a pattern mixture model framework||||0.77|0.13|0.0055
92454777|NCT01358526|184797964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3|STANDARD_ERROR_OF_MEAN|2.26||0.0191|TWO_SIDED|95.0|0.9|9.8|||Mixed Models Analysis|Mixed-model repeated measures analysis|Mean difference (final values) is the treatment comparison estimated using mixed model repeated measures analysis with effect for treatment, time (weeks 4, 8, 12), treatment by time interaction, and prerandomization value. Subject is a random effect.|||9.8|0.9|0.0191
92454778|NCT01358526|184797965|SUPERIORITY_OR_OTHER|||||||0.0002||||||"The proportion of subjects responding much improved and very much improved was summarized by treatment group and compared between groups using an exact test"|Fisher Exact|||||||0.0002
92454779|NCT01358526|184797966|SUPERIORITY_OR_OTHER|||||||0.0006|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test: responder as dependent variable, treatment as explanatory variable, dose at time of randomization as stratifying factor||Proportion of subjects with a response to treatment that is ≥ 30%||||0.0006
92242345|NCT02020031|184387946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 180 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
92281203|NCT03049618|184465605|OTHER|||||||1|||||||Fisher Exact|||||||1.00
92454780|NCT01358526|184797967|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test: responder as dependent variable, treatment as explanatory variable, dose at time of randomization as stratifying factor||Proportion of subjects with a response to treatment that is ≥ 50%||||0.0018
92454781|NCT00627705|184797987|SUPERIORITY_OR_OTHER|||||||0.449|||||||mixed effects regression models|F= 0.81||Cohen's d = 0.30||||0.449
92454782|NCT00627705|184797989|SUPERIORITY_OR_OTHER||||||<|0.001||||||Aberrant Behavior Checklist irritability subscale (F = 6.80; p = \<.001; d = .96).|Mixed effects regression models|||F values were derived from the interaction of participant group (NAC vs. placebo) and time (week) in mixed effects regression models. Cohen's d was computed based on the standardized mean difference in the change from baseline to week 12.||||<.001
92242346|NCT00755846|184387949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.135||0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and body mass index (BMI), diabetes duration and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance has at least 98% power to detect a treatment difference (all active versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.001
92281204|NCT03049618|184465607|OTHER|||||||0.83|||||||Log Rank|||||||0.83
92281205|NCT03049618|184465608|OTHER|||||||0.83|||||||Log Rank|||||||0.83
92454783|NCT00627705|184797991|SUPERIORITY_OR_OTHER|||||||0.141|||||||mixed effects regression models|degrees of freedom were 1, 22||F-values were derived from the interaction of Participant Group (NAC vs. Placebo) and Time (Week) in mixed effects regression models.||||.141
92454784|NCT01410448|184797995|SUPERIORITY_OR_OTHER|||||||0.0921|||||||Regression, Logistic|||||||0.0921
92454785|NCT01218438|184798049|SUPERIORITY_OR_OTHER_LEGACY||Poisson|0.012|||<|0.0001|ONE_SIDED|99.0||0.024|||Poisson|||||0.024||<0.0001
92454786|NCT05054816|184798220|SUPERIORITY||||||<|0.05||||||The p-value was adjusted for multiple comparisons between three conditions: investigative feature, comparative feature 1, comparative feature 2|ANOVA|The data were protected against deviations from sphericity by modifying degrees of freedom using Greenhouse-Geisser corrections.||Previous research with subjective ratings has repeatedly shown that data collected with 15-25 participants can yield significant results.||||<0.05
92454787|NCT05054816|184798221|SUPERIORITY||||||<|0.05||||||The p-value was adjusted for multiple comparisons between three conditions: investigative feature, comparative feature 1, comparative feature 2|ANOVA|The data were protected against deviations from sphericity by modifying degrees of freedom using Greenhouse-Geisser corrections||Previous research with subjective ratings has repeatedly shown that data collected with 15-25 participants can yield significant results.||||<0.05
92454788|NCT05054816|184798222|SUPERIORITY||||||<|0.05||||||The p-value was adjusted for multiple comparisons between three conditions: investigative feature, comparative feature 1, comparative feature 2|ANOVA|The data were protected against deviations from sphericity by modifying degrees of freedom using Greenhouse-Geisser corrections||Previous research with subjective ratings has repeatedly shown that data collected with 15-25 participants can yield significant results.||||<0.05
92454789|NCT05054816|184798223|SUPERIORITY||||||<|0.05||||||The p-value was adjusted for multiple comparisons between two conditions: investigative feature, comparative feature 1|ANOVA|The data were protected against deviations from sphericity by modifying degrees of freedom using Greenhouse-Geisser corrections||Previous research with subjective ratings has repeatedly shown that data collected with 15-25 participants can yield significant results.||||<0.05
92182966|NCT02434328|184264731|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.8|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||5.5|-2.8|
92182967|NCT02434328|184264731|OTHER||Difference of proportions|1.0|||||TWO_SIDED|95.0|-2.6|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||4.7|-2.6|
92182968|NCT02434328|184264731|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-4.0|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||4.3|-4.0|
92182969|NCT02434328|184264731|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-4.2|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||3.6|-4.2|
92182970|NCT02434328|184264731|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-4.0|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||3.7|-4.0|
92182971|NCT02434328|184264731|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-3.5|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.7|-3.5|
92182972|NCT02434328|184264731|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-4.5|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.4|-4.5|
92454790|NCT05054816|184798224|SUPERIORITY||||||<|0.05||||||The p-value was adjusted for multiple comparisons between three conditions: investigative feature, comparative feature 1, comparative feature 2|ANOVA|The data were protected against deviations from sphericity by modifying degrees of freedom using Greenhouse-Geisser corrections||Previous research with subjective ratings has repeatedly shown that data collected with 15-25 participants can yield significant results.||||<0.05
92173633|NCT03721952|184238308|SUPERIORITY||Slope|8.195|STANDARD_ERROR_OF_MEAN|7.466||0.273|TWO_SIDED|95.0|-6.479|22.868|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of ICU free days \& negative sign of estimate defined as lower number of ICU free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||22.868|-6.479|0.273
92242347|NCT00755846|184387949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.171||0.004||95.0||||A step-down sequential approach was used to test the hypothesis that the treatment coefficient in the model is 0 for each of the five individual active treatment groups vs. placebo.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.004
92242348|NCT00755846|184387949|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.176||0.017||95.0||||A step-down sequential approach was used to test the hypothesis that the treatment coefficient in the model is 0 for each of the five individual active treatment groups vs. placebo.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.017
92281206|NCT03049618|184465609|OTHER|||||||0.83|||||||Log Rank|||||||0.83
92281207|NCT03049618|184465610|OTHER|||||||0.47|||||||Log Rank|||||||0.47
92281208|NCT03049618|184465612|OTHER|||||||0.83|||||||Log Rank|||||||0.83
92454791|NCT02693665|184798225|SUPERIORITY|First measure of congruence was taken at 2 weeks post-baseline for controls, or immediately post-Session 2 for intervention dyads. Analysis presented here assessed differences between groups in agreement. This represents the underlying data without examining the pattern of congruence for each dyad over time. Longitudinal latent class analysis of congruence in responses over time between adolescents/families was conducted at the person not variable level.|Odds Ratio (OR)|3.22|||<|0.05|TWO_SIDED|95.0|1.09|9.57|||longitudinal latent class analysis|examined the pattern of change over time.||"Analysis was at the level of the dyad. AIM 1. To evaluate the efficacy of FACE-TC on patient-family congruence in treatment preferences.~H1a: FACE-TC participants will better maintain congruence over time, compared to controls.~H1b: Development of congruence may not be homogeneous and FACE-TC may influence the pattern of congruence development."||9.57|1.09|<0.05
92281209|NCT03049618|184465613|OTHER|||||||0.83|||||||Log Rank|||||||0.83
92454792|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.00743162|||<|0.05|TWO_SIDED|95.0|0.928|1.094||The generalized mixed effect models are taking into account missingness by attrition. There were not missing values for the outcomes or predictors that we used.|Mixed Models Analysis|Model forced age, gender, race, family education, family income under the Federal Poverty level, on/off treatment.||Emotional distress-anxiety analysis at baseline comparing intervention and control.||1.094|0.928|<0.05
92454793|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.05037501|||<|0.05|TWO_SIDED|95.0|0.96438584|1.14403138||The generalized mixed effect models are taking into account missingness by attrition. There were not missing values for the outcomes or predictors that we used.|Mixed Models Analysis|Model forced age, gender, race, family education, family income under the Federal Poverty level, on/off treatment.||Emotional distress-anxiety analysis at 3 months post baseline comparing intervention and control. We hypothesized that anxiety would be lower in the intervention group compared to controls.||1.14403138|0.96438584|<0.05
92454794|NCT02693665|184798226|SUPERIORITY|See earlier comments.|Risk Ratio (RR)|1.01136067|||<|0.05|TWO_SIDED|95.0|0.92887892|1.10116656||See earlier comments.|t-test, 2 sided|See earlier comments.||This is analysis for 6 month outcomes of Emotional-distress - anxiety. See details in 3 month outcomes.||1.10116656|0.92887892|<0.05
92454795|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.14070431|||<|0.05|TWO_SIDED|95.0|1.04444724|1.2458325|||t-test, 2 sided||See earlier comments.|These are the 12 month outcomes for Emotional distress - anxiety. See earlier comments.||1.24583250|1.04444724|<0.05
92454796|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|0.98078271|||<|0.05|TWO_SIDED|95.0|0.89845609|1.07065301|||t-test, 2 sided|||This analysis is for the outcome Emotional distress - depressive symptoms. We hypothesized that adolescent in the intervention would have lower depressive symptoms compared to controls at 3, 6, and 12 month outcomes. The following are the baseline comparisons between control and intervention which were controlled for in the 3, 6, and 12 month analysis of outcomes.||1.07065301|0.89845609|<0.05
92454797|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.04007715|||<|0.05|TWO_SIDED|95.0|0.94970156|1.13905306|||t-test, 2 sided|||The results here are for the outcome variable Emotional Distress - Depressive symptoms at 3 month outcomes. We hypothesized that adolescents randomized to the intervention would have lower depressive symptoms than controls.||1.13905306|0.94970156|<0.05
92454798|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.07347088|||<|0.05|TWO_SIDED|95.0|0.9806271|1.17510491|||t-test, 2 sided|||We hypothesize that Emotional Distress - Depressive symptoms would be lower in intervention adolescents compared to controls at 6 months post intervention.||1.17510491|0.98062710|<0.05
92454799|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.11582434|||<|0.05|TWO_SIDED|95.0|1.01653156|1.22481585|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention would have lower scores on Emotional Distress - Depressive symptoms compared to controls at 12 months post baseline.||1.22481585|1.01653156|<0.05
92454800|NCT02693665|184798226|SUPERIORITY||Risk Ratio, log|0.98803061|||<|0.05|TWO_SIDED|95.0|0.89065531|1.09605195|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention would have no differences in fatigue at baseline if randomization was successful. In this analysis we examine the baseline results.||1.09605195|0.89065531|<0.05
92454801|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.13509797|||<|0.05|TWO_SIDED|95.0|1.01959639|1.26368376|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention arm would report less Fatigue at 3 months outcome compared to controls.||1.26368376|1.01959639|<0.05
92242349|NCT00755846|184387949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.17||0.001||95.0||||A step-down sequential approach was used to test the hypothesis that the treatment coefficient in the model is 0 for each of the five individual active treatment groups vs. placebo.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.001
92264768|NCT02777554|184431066|OTHER||Ratio (%) of Geometric Means|115.0|||||TWO_SIDED|90.0|103.3|128.1|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax of apremilast.||128.1|103.3|
92454802|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.04944737|||<|0.05|TWO_SIDED|95.0|0.94281417|1.16814089|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention would report less Fatigue at 6 months post baseline compared to control adolescents.||1.16814089|0.94281417|<0.05
92454803|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.11042568|||<|0.05|TWO_SIDED|95.0|0.99383841|1.24068981|||t-test, 2 sided|||We hypothesized that intervention adolescents would report less Fatigue than controls at 12 months post baseline.||1.24068981|0.99383841|<0.05
92454804|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|0.9683347|||<|0.05|TWO_SIDED|95.0|0.88658183|1.05762611|||t-test, 2 sided|||We hypothesized that there would be no differences at baseline between intervention and control adolescents with respect to Pain Interference.||1.05762611|0.88658183|<0.05
92454805|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.04450374|||<|0.05|TWO_SIDED|95.0|0.95307464|1.1447037|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention compared to controls would report less Pain Interference at 3 months post baseline.||1.14470370|0.95307464|<0.05
92454806|NCT02693665|184798226|SUPERIORITY||Risk Ratio (RR)|1.07182133|||<|0.05|TWO_SIDED|95.0|0.97835451|1.17421748|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention compared to controls would report less Pain Interference at 6 months post baseline.||1.17421748|0.97835451|<0.05
92454807|NCT02693665|184798226|SUPERIORITY||Risk Ratio, log|1.09964781|||<|0.05|TWO_SIDED|95.0|1.00051223|1.20860622|||t-test, 2 sided|||We hypothesized that at 12 month outcome adolescents randomized to the intervention would report less Pain Interference compared to control adolescents.||1.20860622|1.00051223|<0.05
92454808|NCT02693665|184798227|SUPERIORITY||Mean ratio|0.98|||<|0.05|TWO_SIDED|95.0|0.88|1.09|||Mixed Models Analysis|||Meaning and Peace Subscale at 3 months post intervention||1.09|0.88|<0.05
92454809|NCT02693665|184798227|SUPERIORITY||Mean ratio|0.97|||<|0.05|TWO_SIDED|95.0|0.88|1.08|||Mixed Models Analysis|||Meaning and Peace subscale at 6 months post intervention||1.08|0.88|<0.05
92173634|NCT03721952|184238309|SUPERIORITY||Slope|-0.0000009|STANDARD_ERROR_OF_MEAN|0.00000248||0.71|TWO_SIDED|95.0|-0.0000057|0.0000039|||other type of regression|Regression \[gamma family, link function g(u)=u-0.9\], outcome on random group (0=control, 1=intervention), adjusted for hospital, robust SEs.||Superior outcome for Group2 (Patient-Intervention)||0.0000039|-0.0000057|0.710
92173635|NCT03721952|184238310|SUPERIORITY||Slope|0.00000113|STANDARD_ERROR_OF_MEAN|0.00000215||0.599|TWO_SIDED|95.0|-0.000003|0.0000053|||other type of regression|Regression \[inverse Gaussian family, link function g(u)=u-0.9\], outcome on random group (0=control,1=intervention), adjusted for hospital, robust SEs.||Superior outcome for Group2 (Patient-Intervention)||0.0000053|-0.0000030|0.599
92173636|NCT05480124|184238340|SUPERIORITY|||||||0.609|||||||t-test, 2 sided|||||||0.609
92173637|NCT05480124|184238342|SUPERIORITY|||||||0.098|||||||t-test, 2 sided|||||||0.098
92173638|NCT05480124|184238343|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||||||0.204
92173639|NCT05480124|184238344|SUPERIORITY|||||||0.383|||||||t-test, 2 sided|||||||0.383
92173640|NCT05480124|184238345|SUPERIORITY|||||||0.201|||||||t-test, 2 sided|||||||0.201
92242350|NCT00755846|184387949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.174||0.003||95.0||||A step-down sequential approach was used to test the hypothesis that the treatment coefficient in the model is 0 for each of the five individual active treatment groups vs. placebo.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.003
92173641|NCT03640312|184238359|SUPERIORITY||Mean Difference (Net)|-4.78|STANDARD_ERROR_OF_MEAN|2.97||0.114|TWO_SIDED|95.0|-10.74|1.18||Adjusting for baseline systolic blood pressure.|Mixed Models Analysis|Difference in Least Squared Means (LSM). Random participant effect, fixed baseline, study arm, and time effects.||||1.18|-10.74|0.114
92173642|NCT03640312|184238360|SUPERIORITY|Adjusted for baseline systolic blood pressure.|Mean Difference (Net)|-4.78|STANDARD_ERROR_OF_MEAN|2.97||0.114|TWO_SIDED|95.0|-10.74|1.18|||Mixed Models Analysis|||||1.18|-10.74|0.114
92173643|NCT03640312|184238361|SUPERIORITY||Mean Difference (Net)|-4.86|STANDARD_ERROR_OF_MEAN|1.87||0.012|TWO_SIDED|95.0|-8.62|-1.11||Adjusted Least Squares Mean.|Mixed Models Analysis|||Adjusted for baseline diastolic blood pressure.||-1.11|-8.62|0.012
92173644|NCT03640312|184238362|SUPERIORITY||Mean Difference (Net)|-4.86|STANDARD_ERROR_OF_MEAN|1.87||0.012|TWO_SIDED|95.0|-8.62|-1.11|||Mixed Models Analysis|||||-1.11|-8.62|0.012
92173645|NCT03640312|184238363|SUPERIORITY||Odds Ratio (OR)|2.4||||0.077|TWO_SIDED|95.0|0.91|6.35|||Mixed Models Analysis|Generalized Linear Mixed Model (binomial distribution assumption with logit link).||||6.35|0.91|0.077
92173646|NCT03640312|184238364|SUPERIORITY||Odds Ratio (OR)|0.13||||0.003|TWO_SIDED|95.0|0.03|0.48|||Regression, Logistic|||Logistic regression model adjusting for baseline systolic and diastolic blood pressure.||0.48|0.03|0.003
92173647|NCT03640312|184238365|SUPERIORITY||Odds Ratio (OR)|0.8||||0.71|TWO_SIDED|95.0|0.24|2.69|||Mixed Models Analysis|||Generalized linear mixed model adjusting for baseline systolic and diastolic blood pressure. Random participant effects. Fixed baseline systolic, diastolic, study arm, and time effects.||2.69|0.24|0.710
92173648|NCT03640312|184238366|SUPERIORITY||Odds Ratio (OR)|0.64||||0.437|TWO_SIDED|95.0|0.21|1.98|||Regression, Logistic|||Logistic regression model adjusting for baseline systolic and diastolic blood pressure.||1.98|0.21|0.437
92173649|NCT03640312|184238367|SUPERIORITY||Mean Difference (Net)|-3.45|STANDARD_ERROR_OF_MEAN|2.01||0.09|TWO_SIDED|95.0|-7.49|0.59||Adjusted for baseline T score|ANCOVA|||Statistical test for difference in Physical Health T Score||0.59|-7.49|0.09
92173650|NCT03640312|184238367|SUPERIORITY||Mean Difference (Net)|0.55|STANDARD_ERROR_OF_MEAN|1.88||0.77|TWO_SIDED|95.0|-3.22|4.32||Adjusted for baseline mental health T score|ANCOVA|||Statistical test for difference in Mental Health T Score||4.32|-3.22|0.77
92173651|NCT03640312|184238368|SUPERIORITY||Mean Difference (Net)|-4.78|STANDARD_ERROR_OF_MEAN|2.97||0.114|TWO_SIDED|95.0|-10.74|1.182|||Mixed Models Analysis|||Linear mixed model. Random participant effects. Fixed baseline systolic, study arm, and time effects.||1.182|-10.74|0.114
92264769|NCT02777554|184431066|OTHER||Ratio (%) of Geometric Means|126.5|||||TWO_SIDED|90.0|113.7|140.8|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Fasted)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax of apremilast.||140.8|113.7|
92281210|NCT03049618|184465614|OTHER|||||||0.11|||||||Log Rank|||||||0.11
92173652|NCT03640312|184238369|SUPERIORITY||Risk Difference (RD)|-0.06|STANDARD_ERROR_OF_MEAN|0.04||0.49|TWO_SIDED|95.0|-0.15|0.02|||Fisher Exact|||||0.02|-0.15|0.49
92173653|NCT03640312|184238370|SUPERIORITY||Risk Difference (RD)|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.21|TWO_SIDED|95.0|-0.33|0.03|||Chi-squared|||||0.03|-0.33|0.21
92173654|NCT03640312|184238371|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.12||0.18|TWO_SIDED|95.0|-0.41|0.08|||Chi-squared|||||0.08|-0.41|0.18
92173655|NCT03640312|184238372|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.09||0.56|TWO_SIDED|95.0|-0.24|0.13|||Mixed Models Analysis|||||0.13|-0.24|0.56
92173656|NCT03640312|184238373|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|0.45||0.12|TWO_SIDED|95.0|-1.61|0.19||Linear mixed model. Random participant effects. Fixed baseline systolic, study arm, and time effects.|Mixed Models Analysis|||||0.19|-1.61|0.12
92173657|NCT03640312|184238374|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.95||0.94|TWO_SIDED|95.0|-1.84|1.99||Linear mixed model. Random participant effects. Fixed baseline systolic, study arm, and time effects.|Mixed Models Analysis||The model estimated mean differences, adjusted for covariates, will not be equal to the raw mean differences observed.|||1.99|-1.84|0.94
92281211|NCT03049618|184465615|OTHER|||||||0.96|||||||Log Rank|||||||0.96
92454810|NCT02693665|184798227|SUPERIORITY||Mean ratio|0.92|||<|0.05|TWO_SIDED|95.0|0.82|1.02|||Mixed Models Analysis|||Meaning and Peace subscale at 12 months post intervention||1.02|0.82|<0.05
92454811|NCT02693665|184798227|SUPERIORITY||Mean ratio|0.92|||<|0.05|TWO_SIDED|95.0|0.73|1.16|||Mixed Models Analysis|||Faith subscale score at 3 months post intervention||1.16|0.73|<0.05
92454812|NCT02693665|184798227|SUPERIORITY||Mean ratio|0.96|||<|0.05|TWO_SIDED|95.0|0.76|1.21|||Mixed Models Analysis|||Faith subscale at 6 months post intervention||1.21|0.76|<0.05
92454813|NCT02693665|184798227|SUPERIORITY||Mean ratio|0.92|||<|0.05|TWO_SIDED|95.0|0.72|1.17|||Mixed Models Analysis|||Faith subscale scores at 12 months post intervention||1.17|0.72|<0.05
92454814|NCT02693665|184798228|SUPERIORITY||Mean Difference (Final Values)|-0.14|||<|0.05|TWO_SIDED|95.0|-0.42|0.15|||GEE model|||Caregiver Strain subscale at 3 months post-intervention comparing intervention to TAU, controlling for baseline levels.||0.15|-0.42|<0.05
92454815|NCT02693665|184798228|SUPERIORITY||Mean Difference (Final Values)|0.19|||<|0.05|TWO_SIDED|95.0|0.02|0.36|||GEE model|||Positive Caregiving Appraisal subscale at 3 months post-intervention comparing intervention to TAU, controlling for baseline levels.||0.36|0.02|<0.05
92454816|NCT02693665|184798228|SUPERIORITY||Mean Difference (Final Values)|-0.01|||<|0.05|TWO_SIDED|95.0|-0.35|0.32|||GEE model|||Caregiver Distress subscale at 3 months post-intervention comparing intervention to TAU, controlling for baseline levels.||0.32|-0.35|<0.05
92281212|NCT01055223|184465617|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42|||||TWO_SIDED|95.0|1.13|1.78|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||1.78|1.13|
92454817|NCT02693665|184798228|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.05|TWO_SIDED|95.0|-0.07|0.38|||GEE model|||Family Well-Being subscale at 3 months post-intervention, comparing intervention to TAU, controlling for baseline levels.||0.38|-0.07|<0.05
92454818|NCT02693665|184798230|SUPERIORITY||Slope|0.44|STANDARD_ERROR_OF_MEAN|0.59||0.47|TWO_SIDED||||||Regression, Linear|Intervention effect for quality of adolescent communication score controlling for age, gender, race, income and on active treatment.|It is the standard error of the slope, but this was not an option.|Quality of communication analysis for adolescents||||0.47
92454819|NCT02693665|184798230|SUPERIORITY||Slope|1.15|STANDARD_ERROR_OF_MEAN|0.41|<|0.01|TWO_SIDED||||||Regression, Linear|Testing intervention effect for family member quality of communication score controlling for age, gender, race, income nd on active treatment.|This is standard error of the slope.|Quality of communication analysis for family member.||||<0.01
92454820|NCT02693665|184798236|SUPERIORITY||Mean Difference (Net)|0.72|STANDARD_ERROR_OF_MEAN|0.71|<|0.05|TWO_SIDED||||||t-test, 2 sided|||Adolescent positive score comparing intervention with TAU.||||<0.05
92454821|NCT02693665|184798236|SUPERIORITY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.73|<|0.05|TWO_SIDED||||||t-test, 2 sided|||Adolescent negative worded score comparing intervention to TAU.||||<0.05
92454822|NCT02693665|184798236|SUPERIORITY||Mean Difference (Final Values)|2.98|STANDARD_ERROR_OF_MEAN|0.74|<|0.05|TWO_SIDED||||||t-test, 2 sided|||Family member positively worded score comparing intervention with treatment as usual.||||<0.05
92454823|NCT02693665|184798236|SUPERIORITY||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.81|<|0.05|TWO_SIDED||||||t-test, 2 sided|||Family member negative worded score comparing intervention to TAU.||||<0.05
92454824|NCT02010060|184798291|SUPERIORITY|||||||0.074|||||||ANCOVA|||||||0.074
92454825|NCT02010060|184798291|SUPERIORITY|||||||0.684|||||||ANCOVA|||Change in waist circumference between AERO and CON||||0.684
92454826|NCT02010060|184798291|SUPERIORITY|||||||0.18|||||||ANCOVA|||Comparison between the AERO group and the AERO-PA group||||0.180
92454827|NCT02010060|184798292|SUPERIORITY|||||||0.011|||||||ANCOVA|||Change in body fat between the AERO-PA group and the CON group||||0.011
92454828|NCT02010060|184798292|SUPERIORITY|||||||0.16|||||||ANCOVA|||||||0.16
92454829|NCT02010060|184798292|SUPERIORITY|||||||0.258|||||||ANCOVA|||Change in body fat between the AERO and AERO-PA group||||0.258
92454830|NCT02010060|184798293|SUPERIORITY|||||||0.104|||||||ANCOVA|||Comparison of body weight between the CON and AERO-PA groups||||0.104
92454831|NCT02010060|184798293|SUPERIORITY|||||||0.578|||||||ANCOVA|||Change in body weight between the CON and AERO groups||||0.578
92454832|NCT02010060|184798293|SUPERIORITY|||||||0.3|||||||ANCOVA|||Change in body weight between the AERO and AERO-PA groups||||0.300
92454833|NCT02010060|184798294|SUPERIORITY|||||||0.002|||||||ANCOVA|||Change in cardiorespiratory fitness (L/min) between the AERO and AERO-PA groups||||0.002
92454834|NCT02010060|184798294|SUPERIORITY|||||||0.314|||||||ANCOVA|||Change in cardiorespiratory fitness (L/min) AERO and CON groups||||0.314
92454835|NCT02010060|184798294|SUPERIORITY|||||||0.041|||||||ANCOVA|||Change in cardiorespiratory fitness (L/min) between the AERO and AERO-PA groups||||0.041
92454836|NCT02010060|184798295|SUPERIORITY|||||||0.891|||||||ANCOVA|||Change in insulin sensitivity between the CON and AERO-PA groups||||0.891
92454837|NCT02010060|184798295|SUPERIORITY|||||||0.417|||||||ANCOVA|||Change in insulin sensitivity between the CON and AERO groups||||0.417
92454838|NCT02010060|184798295|SUPERIORITY|||||||0.484|||||||ANCOVA|||Change in insulin sensitivity between the AERO and AERO-PA groups||||0.484
92454839|NCT02010060|184798296|SUPERIORITY|||||||0.274|||||||ANCOVA|||Change in Low density lipoprotein (LDL) between the CON and the AERO groups||||0.274
92454840|NCT02010060|184798296|SUPERIORITY|||||||0.461|||||||ANCOVA|||Change in Low density lipoprotein (LDL) between the CON and AERO groups||||0.461
92454841|NCT02010060|184798296|SUPERIORITY|||||||0.739|||||||ANCOVA|||Change in Low density lipoprotein (LDL) between AERO and AERO-PA groups||||0.739
92454842|NCT02010060|184798297|SUPERIORITY|||||||0.837|||||||ANCOVA|||Change in high density lipoprotein (HDL) between the CON and AERO-PA group||||0.837
92173658|NCT03640312|184238375|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.55|TWO_SIDED|95.0|-0.07|0.04||Linear mixed model. Random participant effects. Fixed baseline systolic, study arm, and time effects.|Mixed Models Analysis|||||0.04|-0.07|0.55
92173659|NCT03536754|184238376|SUPERIORITY||LSM Ratio|1.23|STANDARD_ERROR_OF_MEAN|1.171||0.1924|TWO_SIDED|90.0|0.95|1.6||≤ 0.1924|Mixed effects model for repeated measure|||||1.6|0.95|0.1924
92173660|NCT03536754|184238376|SUPERIORITY||LSM Ratio|1.35|STANDARD_ERROR_OF_MEAN|1.172||0.0612|TWO_SIDED|90.0|1.04|1.76||≤ 0.0612|Mixed effects model for repeated measure|||||1.76|1.04|0.0612
92264770|NCT02777554|184431067|OTHER||Ratio (%) of Geometric Means|92.9|||||TWO_SIDED|90.0|81.3|106.2|||||Geometric mean ratio (Apremilast 75 mg XL / Apremilast 30 mg IR BID) from an ANOVA model, expressed as a percentage.|To estimate the exposure of apremilast following single dose administration of extended release (QD) relative to the Reference IR (BID) tablet under fasted conditions, an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t of apremilast.||106.2|81.3|
92173661|NCT03536754|184238376|SUPERIORITY||LSM Ratio|1.05|STANDARD_ERROR_OF_MEAN|1.169||0.7653|TWO_SIDED|90.0|0.81|1.36||≤ 0.7653|Mixed effects model for repeated measure|||||1.36|0.81|0.7653
92173662|NCT03536754|184238376|SUPERIORITY||LSM Ratio|1.2|STANDARD_ERROR_OF_MEAN|1.136||0.1537|TWO_SIDED|90.0|0.97|1.48||≤ 0.1537|Mixed effects model for repeated measure|||||1.48|0.97|0.1537
92173663|NCT03964350|184238475|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
92454843|NCT02010060|184798297|SUPERIORITY|||||||0.895|||||||ANCOVA|||Change in high density lipoprotein (HDL) between the CON and AERO groups||||0.895
92173664|NCT02379156|184238476|SUPERIORITY||||||<|0.001|||||||ANOVA|||Between-group differences in the change in core body temperature (Tcore) from baseline (BL) values to after cold exposure (Cold) were analyzed using a Mixed Model ANOVA. We hypothesized that participants with tetraplegia would have a greater decrease in Tcore when exposed to cool ambient temperature than control participants exposed to the same cool ambient temperature.||||<0.001
92454844|NCT02010060|184798297|SUPERIORITY|||||||0.744|||||||ANCOVA|||||||0.744
92454845|NCT02010060|184798298|SUPERIORITY|||||||0.067|||||||ANCOVA|||Change in total cholesterol (mg/dL)||||0.067
92454846|NCT02010060|184798298|SUPERIORITY|||||||0.254|||||||ANCOVA|||Change in total cholesterol (mg/dL) between the CON and AERO groups||||0.254
92454847|NCT02010060|184798298|SUPERIORITY|||||||0.501|||||||ANCOVA|||Change in total cholesterol (mg/dL) between AERO and AERO-PA groups||||0.501
92454848|NCT02010060|184798299|SUPERIORITY|||||||0.456|||||||ANCOVA|||Change in triglyceride level between the AERO-PA and CON groups||||0.456
92454849|NCT02010060|184798299|SUPERIORITY|||||||0.422|||||||ANCOVA|||Change in triglyceride level between the CON and AERO groups||||0.422
92454850|NCT02010060|184798299|SUPERIORITY|||||||0.136|||||||ANCOVA|||Change in triglyceride level between the AERO and AERO-PA groups||||0.136
92454851|NCT02010060|184798300|SUPERIORITY|||||||0.483|||||||ANCOVA|||Change in glucose level between the CON and AERO-PA groups||||0.483
92454852|NCT02010060|184798300|SUPERIORITY|||||||0.274|||||||ANCOVA|||Change in glucose between the CON and AERO groups||||0.274
92454853|NCT02010060|184798300|SUPERIORITY|||||||0.685|||||||ANCOVA|||Change in glucose level between the AERO and AERO-PA groups||||0.685
92454854|NCT02010060|184798301|SUPERIORITY|||||||0.489|||||||ANCOVA|||Change in systemic inflammation between CON and AERO-PA groups||||0.489
92454855|NCT02010060|184798301|SUPERIORITY|||||||0.652|||||||ANCOVA|||Change in systemic inflammation between the CON and AERO groups||||0.652
92454856|NCT02010060|184798301|SUPERIORITY|||||||0.822|||||||ANCOVA|||Change in systemic inflammation between the AERO and AERO-PA groups||||0.822
92454857|NCT02010060|184798302|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Changes in steps between the CON group and the AERO-PA group||||<0.001
92454858|NCT02010060|184798302|SUPERIORITY|||||||0.648|||||||ANCOVA|||Changes in steps between the CON and the AERO group||||0.648
92454859|NCT02010060|184798302|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Changes in steps between the AERO and AERO-PA groups||||<0.001
92454860|NCT02010060|184798303|SUPERIORITY|||||||0.226|||||||ANCOVA|||Change in kilocalories (dietary intake) between CON and AERO-PA group||||0.226
92454861|NCT02010060|184798303|SUPERIORITY|||||||0.215|||||||ANCOVA|||Change in caloric intake between the CON and the AERO groups||||0.215
92454862|NCT02010060|184798303|SUPERIORITY|||||||0.957|||||||ANCOVA|||Change in caloric intake (kilocalories) between the AERO and AERO-PA groups||||0.957
92454863|NCT02010060|184798304|SUPERIORITY|||||||0.337|||||||ANCOVA|||Change in insulin concentration between the CON and AERO-PA group||||0.337
92454864|NCT02010060|184798304|SUPERIORITY|||||||0.77|||||||ANCOVA|||Change in insulin level between the AERO and CON groups||||0.770
92454865|NCT02010060|184798304|SUPERIORITY|||||||0.515|||||||ANCOVA|||Change in insulin concentration between AERO and AERO-PA groups||||0.515
92454866|NCT00844857|184798337|SUPERIORITY_OR_OTHER|||||||0.003||||||The a priori threshold for statistical significance was 0.05. Mixed Model Repeated Measures Analysis (MMRM) terms included baseline, country, treatment, visit, and treatment \* visit interaction.|Mixed Models Analysis|||"Tested was the null hypothesis that there was no difference in mean changes from baseline to Week 8 between OFC and placebo.~A conservative estimate of effect size of 0.4 was used in the sample size estimation for this study. A randomized ratio of 2:1 provided a 90% power with an effect size of 0.4."||||0.003
92454867|NCT00844857|184798338|SUPERIORITY_OR_OTHER|||||||0.035||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.035
92454868|NCT00844857|184798339|SUPERIORITY_OR_OTHER|||||||0.003||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.003
92454869|NCT00844857|184798340|SUPERIORITY_OR_OTHER|||||||0.007||||||The a priori threshold for statistical significance was 0.05. Ordinal Logistic Regression Model terms include baseline CDRS-R, baseline YMRS, and treatment.|Ordinal Logistic Regression|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.007
92454870|NCT00844857|184798341|SUPERIORITY_OR_OTHER|||||||0.527||||||The a priori threshold for statistical significance was 0.05. MMRM terms included baseline, country, treatment, visit, and treatment\*visit interaction.|Mixed Models Analysis|||Tested was the null hypothesis that there was no difference in mean changes from baseline to Week 8 between OFC and placebo.||||0.527
92264771|NCT02777554|184431067|OTHER||Ratio (%) of Geometric Means|86.0|||||TWO_SIDED|90.0|74.9|98.7|||||Geometric mean ratio (Apremilast 75 mg XL (Fasted) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t of apremilast.||98.7|74.9|
92173665|NCT02379156|184238476|SUPERIORITY|||||||0.006|||||||ANOVA|||Within-group differences in the change in (Tcore) in the participants with tetraplegia from BL values to Cold, with and without a dose of 10 mg of midodrine (two separate visits), were analyzed using a Repeated Measures ANOVA .||||0.006
92173666|NCT02379156|184238477|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||Between-group differences in the percent change in total WAIS IV scores from BL to after cold ambient exposure were analyzed using an independent samples T-test. We hypothesized that participants with tetraplegia would have a greater percent change in total WAIS IV scores due to impaired cognitive function post cool ambient exposure.||||.042
92173667|NCT02379156|184238477|SUPERIORITY|||||||0.149|||||||t-test, 2 sided|||"Within-group differences in the percent change in total WAIS IV scores from BL to after cold ambient exposure were analyzed using a paired samples t-test. We hypothesized that participants with tetraplegia in the No Drug condition would have a greater percent change in total WAIS IV scores than the same participants in the With drug condition."||||0.149
92454871|NCT00844857|184798342|SUPERIORITY_OR_OTHER|||||||0.03||||||The a priori threshold for statistical significance was 0.05. MMRM terms included baseline, country, treatment, visit, and treatment\*visit interaction|Mixed Models Analysis|||Tested was the null hypothesis that there was no difference in mean changes from baseline to Week 8 between OFC and placebo.||||0.030
92454872|NCT00844857|184798343|SUPERIORITY_OR_OTHER|||||||0.002||||||The a priori threshold for statistical significance was 0.05. ANCOVA (analysis of covariance) Model terms included baseline, country, and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.002
92454873|NCT00844857|184798344|SUPERIORITY_OR_OTHER|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||1.00
92454874|NCT00844857|184798345|SUPERIORITY_OR_OTHER|||||||0.309||||||P-value for Suicidal Ideation. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.309
92454875|NCT00844857|184798345|SUPERIORITY_OR_OTHER|||||||0.667||||||P-value for Suicidal Behavior. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.667
92173668|NCT02379156|184238478|SUPERIORITY||||||<|0.001|||||||ANOVA|||Between-group differences in the change in distal skin temperature temperature (Tsk) from baseline (BL) values to after ambient cold exposure (Cold) were analyzed using a mixed-model ANOVA for the AB vs Tetra comparison. We hypothesized that participants with tetraplegia would have a smaller change in Tsk due to being in a constant state of vasodilation.||||<0.001
92281213|NCT01055223|184465617|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.93|1.52|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||1.52|0.93|
92173669|NCT02379156|184238478|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within-group differences in the change in distal skin temperature temperature (Tsk) from baseline (BL) values to after ambient cold exposure (Cold) were analyzed using a repeated measures ANOVA for the within-group comparison of drug vs no drug in the tetraplegia group. We hypothesized that participants with tetraplegia with drug would have a larger decrease in Tsk due to enhanced peripheral vasoconstriction due to the drug's effects.||||<.001
92454876|NCT00844857|184798345|SUPERIORITY_OR_OTHER|||||||0.309||||||P-value for Suicidal Ideation or Behavior. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.309
92454877|NCT00844857|184798346|SUPERIORITY_OR_OTHER|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||1.00
92454878|NCT00844857|184798347|SUPERIORITY_OR_OTHER|||||||0.545||||||P-value for ADHDRS-IV-PI Total Score. The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline, country and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.545
92454879|NCT00844857|184798348|SUPERIORITY_OR_OTHER|||||||0.066||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline, country and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.066
92454880|NCT00844857|184798349|SUPERIORITY_OR_OTHER|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||1.00
92454881|NCT00844857|184798350|SUPERIORITY_OR_OTHER|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||1.00
92454882|NCT00844857|184798351|SUPERIORITY_OR_OTHER|||||||0.05||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline, country and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.050
92454883|NCT00844857|184798352|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||<0.001
92454884|NCT00844857|184798353|SUPERIORITY_OR_OTHER|||||||0.98||||||P-value for Fasting Glucose. The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.980
92173670|NCT02379156|184238479|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Between-group differences in the percent change in microvascular perfusion from baseline to after cool ambient exposure were analyzed using independent samples T-test. We hypothesized that participants with tetraplegia would have a smaller percent change in microvascular perfusion due impaired vasomotor control which causes a constant state of vasodilation.||||<0.001
92264772|NCT02777554|184431067|OTHER||Ratio (%) of Geometric Means|97.3|||||TWO_SIDED|90.0|84.9|111.6|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t of apremilast.||111.6|84.9|
92281214|NCT01055223|184465617|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53|||||TWO_SIDED|95.0|0.78|2.98|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||2.98|0.78|
92454885|NCT00844857|184798353|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for Fasting Cholesterol. The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||<0.001
92454886|NCT00844857|184798353|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for Fasting Triglycerides. The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||<0.001
92454887|NCT00844857|184798354|SUPERIORITY_OR_OTHER|||||||0.005||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.005
92454888|NCT00844857|184798355|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||<0.001
92454889|NCT00844857|184798356|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||<0.001
92454890|NCT00570674|184798363|OTHER||||||<|0.01|||||||Sign test|||||||<0.01
92173671|NCT02379156|184238479|SUPERIORITY|||||||0.066|||||||t-test, 2 sided|||"Within-group differences in the percent change in microvascular perfusion from baseline to after cool ambient exposure were analyzed using a paired samples t-test. We hypothesized that participants with tetraplegia in the No Drug condition would have a smaller percent change in microvascular perfusion due impaired vasomotor control which causes a constant state of vasodilation."||||0.066
92173672|NCT02379156|184238480|SUPERIORITY|||||||0.127|||||||t-test, 2 sided|||Between-group differences in the percent change in VO2 from baseline to after cool ambient exposure were analyzed using independent samples t-test. We hypothesized that participants with tetraplegia would have a smaller percent change in VO2 consumption.||||0.127
92173673|NCT02379156|184238480|SUPERIORITY|||||||0.964|||||||t-test, 2 sided|||"Within-group differences in the percent change in VO2 consumption from baseline to after cool ambient exposure were analyzed using a paired samples t-test. We hypothesized that participants with tetraplegia in the No Drug condition would have a greater percent change in VO2 consumption due to impaired vasoconstriction and greater heat loss compared to the With Drug condition, in response to cool ambient exposure."||||0.964
92454891|NCT00570674|184798364|OTHER||||||<|0.01|||||||Sign test|||||||<0.01
92454892|NCT00570674|184798365|OTHER|||||||0.52|||||||Sign test|||||||0.52
92454893|NCT00570674|184798366|OTHER|||||||0.39|||||||Sign test|||||||0.39
92454894|NCT03069482|184798367|SUPERIORITY||Slope|1.063|STANDARD_DEVIATION|3.377|=|0.754|TWO_SIDED||||||ANOVA|||||||=0.754
92454895|NCT03069482|184798368|SUPERIORITY||Risk Ratio (RR)|2.103|STANDARD_DEVIATION|0.369||0.044|TWO_SIDED|95.0|1.2|2.6|||Mixed Models Analysis|Zero inflated negative binomial mixed methods regression.||||2.6|1.2|0.044
92454896|NCT03069482|184798369|OTHER||Percent accrual relative to target N|102.0|||||TWO_SIDED||||||||||The goal of this outcome was to determine whether the trial could reach its enrollment target (90 participants).|||
92454897|NCT03069482|184798370|OTHER||Percent retention relative to target|98.3|||||TWO_SIDED||||||||||We calculated the percent of retained participants relative to the retention target (N = 62)|||
92454898|NCT03069482|184798371|OTHER||Percent of respondents|58.0|||||TWO_SIDED|||||||||||||
92454899|NCT03069482|184798373|SUPERIORITY||Trimmed mean difference|8.29574|STANDARD_ERROR_OF_MEAN|2.11||0.046|TWO_SIDED|95.0|0.138|16.453|||Yuen's trimmed mean t-test|||||16.453|0.138|0.046
92454900|NCT03069482|184798374|SUPERIORITY||Trimmed mean difference|7.79514|STANDARD_ERROR_OF_MEAN|2.16||0.109|TWO_SIDED|95.0|-1.867|17.457|||Yuen's trimmed means t-test|||||17.457|-1.867|0.109
92454901|NCT03069482|184798375|SUPERIORITY||Trimmed mean difference|2.22222|STANDARD_ERROR_OF_MEAN|1.75||0.50537|TWO_SIDED|95.0|-4.492|8.943|||Yuen's trimmed means t-test|||||8.943|-4.492|0.50537
92454902|NCT03069482|184798376|SUPERIORITY||Trimmed mean difference|5.83333|STANDARD_ERROR_OF_MEAN|2.3||0.27411|TWO_SIDED|95.0|-4.88|16.54|||Yuen's trimmed means t-test|||||16.54|-4.88|0.27411
92454903|NCT00240487|184798423|NON_INFERIORITY_OR_EQUIVALENCE|The primary outcome variable is the mean PaO2/FiO2 in each group after 8 hours of study participation to determine whether timing of treatment with nitric oxide impacts outcome (immediate treatment versus delayed treatment).|||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||Differences in mean PaO2/FiO2 ratios between the two groups will help to determine whether order of therapy (immediate treatment with nitric oxide versus delayed treatment with nitric oxide) impacts outcomes.||||>0.05
92454904|NCT00907153|184798426|SUPERIORITY||Mean Difference (Net)|-0.017||||0.05|TWO_SIDED|95.0|-0.034|0.0|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||-0.000|-0.034|0.05
92454905|NCT00907153|184798427|SUPERIORITY||Mean Difference (Net)|-1.14||||0.62|TWO_SIDED|95.0|-5.89|3.62|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||3.62|-5.89|0.62
92454906|NCT00907153|184798428|SUPERIORITY||Mean Difference (Net)|-3.65||||0.48|TWO_SIDED|95.0|-14.32|7.02|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||7.02|-14.32|0.48
92454907|NCT00907153|184798429|SUPERIORITY||Mean Difference (Net)|-6.51||||0.02|TWO_SIDED|95.0|-12.07|-0.96|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||-0.96|-12.07|0.02
92454908|NCT00907153|184798430|SUPERIORITY||Mean Difference (Net)|6.28||||0.22|TWO_SIDED|95.0|-3.97|16.54|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||16.54|-3.97|0.22
92454909|NCT00907153|184798431|SUPERIORITY||Mean Difference (Net)|13.84||||0.33|TWO_SIDED|95.0|-210.29|37.98|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||37.98|-210.29|0.33
92454910|NCT00907153|184798432|SUPERIORITY||Mean Difference (Net)|-12.8||||0.39|TWO_SIDED|95.0|-42.94|17.34|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||17.34|-42.94|0.39
92454911|NCT00907153|184798433|SUPERIORITY||Mean Difference (Net)|-75.08||||0.09|TWO_SIDED|95.0|-161.9|11.78|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||11.78|-161.9|0.09
92454912|NCT00907153|184798434|SUPERIORITY||Mean Difference (Net)|0.73||||0.96|TWO_SIDED|95.0|-32.59|34.06|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||34.06|-32.59|0.96
92454913|NCT00907153|184798435|SUPERIORITY||Mean Difference (Net)|3.08||||0.21|TWO_SIDED|95.0|-1.84|7.99|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||7.99|-1.84|0.21
92264773|NCT02777554|184431067|OTHER||Ratio (%) of Geometric Means|113.2|||||TWO_SIDED|90.0|98.8|129.7|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Fasted)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t of apremilast.||129.7|98.8|
92281215|NCT01055223|184465617|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46|||||TWO_SIDED|95.0|0.74|2.89|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||2.89|0.74|
92454914|NCT00907153|184798436|SUPERIORITY||Mean Difference (Net)|0.11||||0.99|TWO_SIDED|95.0|-24.43|24.64|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||24.64|-24.43|0.99
92454915|NCT00907153|184798437|SUPERIORITY||Median Difference (Net)|-1.93||||0.62|TWO_SIDED|95.0|-10.12|6.26|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||6.26|-10.12|0.62
92454916|NCT00907153|184798438|SUPERIORITY||Mean Difference (Net)|0.28||||0.98|TWO_SIDED|95.0|-20.29|20.85|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||20.85|-20.29|0.98
92454917|NCT00907153|184798439|SUPERIORITY||Mean Difference (Net)|10.24||||0.64|TWO_SIDED|95.0|-34.61|55.08|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||55.08|-34.61|0.64
92454918|NCT00907153|184798440|SUPERIORITY||Mean Difference (Net)|0.88||||0.88|TWO_SIDED|95.0|-22.81|8.51|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||8.51|-22.81|0.88
92454919|NCT00907153|184798441|SUPERIORITY||Mean Difference (Net)|-3.15||||0.25|TWO_SIDED|95.0|-8.7|2.41|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||2.41|-8.70|0.25
92454920|NCT00907153|184798442|SUPERIORITY||Mean Difference (Net)|44.31|||<|0.001|TWO_SIDED|95.0|27.13|61.48|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||61.48|27.13|<0.001
92454921|NCT00907153|184798443|SUPERIORITY||Mean Difference (Net)|1.56||||0.38|TWO_SIDED|95.0|-2.08|5.2|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||5.20|-2.08|0.38
92454922|NCT00907153|184798444|SUPERIORITY||Mean Difference (Net)|-7.84||||0.46|TWO_SIDED|95.0|-29.34|13.67|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||13.67|-29.34|0.46
92454923|NCT04098939|184798445|EQUIVALENCE|Bland-Altman plots|Bland-Altman plots|0.39|||<|0.05|TWO_SIDED|95.0|0.26|1.04||Analysis of Bland-Altman plots|Bland-Altman plots|Analysis of Bland-Altman plots|||Analysis of Bland-Altman plots|1.04|0.26|<0.05
92454924|NCT00778648|184798449|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANOVA|||||||0.023
92454925|NCT01552213|184798491|SUPERIORITY||Risk Ratio (RR)|0.8||||0.32|TWO_SIDED|95.0|0.53|1.24|||Chi-squared|||||1.24|0.53|0.32
92454926|NCT01552213|184798492|SUPERIORITY|||||||0.32|||||||Chi-squared|||||||0.32
92454927|NCT01552213|184798493|SUPERIORITY|||||||0.96|||||||Chi-squared|||||||0.96
92454928|NCT01552213|184798494|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92454929|NCT01552213|184798495|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||0.75
92454930|NCT01552213|184798496|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
92454931|NCT01552213|184798497|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
92454932|NCT01552213|184798498|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.6
92454933|NCT01552213|184798499|SUPERIORITY|||||||0.36|||||||Chi-squared|||||||0.36
92454934|NCT01552213|184798500|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||||||0.42
92454935|NCT01552213|184798501|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.5
92454936|NCT01552213|184798502|SUPERIORITY|||||||0.46|||||||Chi-squared|||||||0.46
92454937|NCT01552213|184798503|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92454938|NCT01552213|184798504|SUPERIORITY|||||||0.56|||||||Chi-squared|||||||0.56
92454939|NCT02566031|184798512|SUPERIORITY||Mean Difference (Net)|0.05||||0.0129|TWO_SIDED|95.0|0.011|0.093|||ANCOVA|||||0.093|0.011|0.0129
92242351|NCT00755846|184387949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.173||0.307||95.0||||A step-down sequential approach was used to test the hypothesis that the treatment coefficient in the model is 0 for each of the five individual active treatment groups vs. placebo.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.307
92454940|NCT02566031|184798513|SUPERIORITY||Mean Difference (Net)|0.06||||0.0058|TWO_SIDED|95.0|0.017|0.098|||ANCOVA|||-45 min||0.098|0.017|0.0058
92454941|NCT02566031|184798513|SUPERIORITY||Mean Difference (Net)|0.05||||0.0161|TWO_SIDED|95.0|0.009|0.091|||ANCOVA|||-15min||0.091|0.009|0.0161
92454942|NCT02566031|184798514|SUPERIORITY||Mean Difference (Net)|0.31||||0.0767|TWO_SIDED|95.0|-0.033|0.646|||ANCOVA|||||0.646|-0.033|0.0767
92454943|NCT02566031|184798515|SUPERIORITY||Mean Difference (Net)|-0.81||||0.1008|TWO_SIDED|95.0|-1.77|0.16|||ANCOVA|||||0.16|-1.77|0.1008
92454944|NCT00000392|184798612|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||ANOVA|||||||0.18
92173674|NCT02754882|184238502|EQUIVALENCE|Pre-defined equivalence margin was \[0.737, 1.357\]|Risk Ratio (RR)|1.11|||||TWO_SIDED|90.0|0.975|1.269|||||SB8 vs. Avastin|||1.269|0.975|
92173675|NCT02111798|184238512|SUPERIORITY|||||||0.889|||||||Mixed Models Analysis|||Comparisons were conducted as a function of medication condition, collapsed across abstinence initiation and relapse prevention groups, according to a priori-stated statistical analysis.||||0.889
92281216|NCT01055223|184465617|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01|||||TWO_SIDED|95.0|0.18|22.14|||||Undadjusted Odds Ratio. Reference Group: TZD alone.|||22.14|0.18|
92454945|NCT01426191|184798633|OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
92454946|NCT01426191|184798634|OTHER|||||||0.01|||||||Fisher Exact|||||||0.01
92454947|NCT01715805|184798656|SUPERIORITY||Least Squares Mean Difference (LSMD)|-0.2||||0.7948|TWO_SIDED|95.0|-1.6|1.2||MMRM with treatment group, study center, visit, and treatment group-by-visit interaction as fixed effects, and the baseline value and baseline by-visit interaction as the covariates was used for analyses.|Mixed Models Analysis||Cariprazine + ADT - Placebo + ADT|||1.2|-1.6|0.7948
92454948|NCT01715805|184798657|SUPERIORITY||LSMD|-0.7||||0.2784|TWO_SIDED|95.0|-1.9|0.5||MMRM with treatment group, study center, visit, and treatment group-by-visit interaction as fixed effects, and the baseline value and baseline by-visit interaction as the covariates was used for analyses.|Mixed Models Analysis||Cariprazine +ADT - Placebo + ADT|||0.5|-1.9|0.2784
92454949|NCT02647359|184798664|OTHER||Least Square (LS) Mean Difference|10.76||||0.4868|TWO_SIDED|95.0|-21.914|43.434||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with age and baseline Maximum Reading Speed (both eyes) as covariates, and treatment as a factor.||43.434|-21.914|0.4868
92454950|NCT02219932|184798692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.006|TWO_SIDED|95.0|1.15|2.26|||Regression, Logistic||fampridine vs. placebo|Based on logistic regression, adjusting for baseline MSWS-12 score, baseline TUG speed, age, screening Expanded Disability Status Scale (EDSS) score and prior aminopyridine. Missing data handled by multiple imputation. Hypothesis testing was performed at the 2-sided 5% significance level overall, with adjustment for testing multiple secondary endpoints.||2.26|1.15|0.006
92454951|NCT02219932|184798692|SUPERIORITY_OR_OTHER||Risk Difference for Adjusted Proportions|0.104|||||TWO_SIDED|95.0|0.03|0.178||||||Based on logistic regression, adjusting for baseline MSWS-12 score, baseline TUG speed, age, screening Expanded Disability Status Scale (EDSS) score and prior aminopyridine. Missing data handled by multiple imputation. Hypothesis testing was performed at the 2-sided 5% significance level overall, with adjustment for testing multiple secondary endpoints.||0.178|0.030|
92454952|NCT02219932|184798692|SUPERIORITY_OR_OTHER||Relative Risk|1.38|||||TWO_SIDED|95.0|1.06|1.7||||||Based on logistic regression, adjusting for baseline MSWS-12 score, baseline TUG speed, age, screening Expanded Disability Status Scale (EDSS) score and prior aminopyridine. Missing data handled by multiple imputation. Hypothesis testing was performed at the 2-sided 5% significance level overall, with adjustment for testing multiple secondary endpoints.||1.70|1.06|
92454953|NCT02219932|184798693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.03|TWO_SIDED|95.0|1.04|2.07|||Regression, Logistic|||Based on logistic regression, adjusting for baseline TUG speed, screening EDSS score and prior aminopyridine. Missing data were handled using multiple imputation.||2.07|1.04|0.030
92454954|NCT02219932|184798693|SUPERIORITY_OR_OTHER||Risk Difference for Adjusted Proportions|0.092|||||TWO_SIDED|95.0|0.009|0.175||||||Based on logistic regression, adjusting for baseline TUG speed, screening EDSS score and prior aminopyridine. Missing data were handled using multiple imputation.||0.175|0.009|
92454955|NCT02219932|184798693|SUPERIORITY_OR_OTHER||Relative Risk|1.25|||||TWO_SIDED|95.0|0.99|1.51||||||Based on logistic regression, adjusting for baseline TUG speed, screening EDSS score and prior aminopyridine. Missing data were handled using multiple imputation.||1.51|0.99|
92173676|NCT02111798|184238513|SUPERIORITY|||||||0.605|||||||Mixed Models Analysis|||Comparisons were conducted as a function of medication condition, collapsed across abstinence initiation and relapse prevention groups, according to a priori-stated statistical analysis.||||0.605
92173677|NCT03138512|184238555|SUPERIORITY||Cox Proportional Hazard|0.95||||0.6676||95.0|0.75|1.2|||Log Rank|||||1.20|0.75|0.6676
92454956|NCT02219932|184798694|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.31|STANDARD_ERROR_OF_MEAN|0.925|<|0.001|TWO_SIDED|95.0|-5.13|-1.5|||mixed model for repeated measures|||||-1.50|-5.13|< 0.001
92454957|NCT02219932|184798695|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.277||0.141|TWO_SIDED|95.0|-0.13|0.95|||mixed model for repeated measures|||||0.95|-0.13|0.141
92454958|NCT02219932|184798696|SUPERIORITY_OR_OTHER||LS Mean Difference|0.74|STANDARD_ERROR_OF_MEAN|0.573||0.197|TWO_SIDED|95.0|-0.38|1.86|||mixed model for repeated measures|||||1.86|-0.38|0.197
92454959|NCT00511004|184798699|SUPERIORITY_OR_OTHER||||||<|0.2|TWO_SIDED|||||Adjusted for multiple comparisons|Fisher Exact|||||||<0.2
92454960|NCT00511004|184798700|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Fisher Exact|||||||0.9
92454961|NCT04642638|184798703|OTHER||Difference in median|6.7|STANDARD_ERROR_OF_MEAN|3.35|||TWO_SIDED|95.0|0.0|6.7|||||Post-baseline change from baseline in IFN-gamma ELISpot response magnitudes was compared between groups using differences in medians and associated non-parametric 95% confidence interval (CI).|||6.70|0.00|
92454962|NCT04642638|184798703|OTHER||Difference in median|13.3|STANDARD_ERROR_OF_MEAN|10.55|||TWO_SIDED|95.0|3.3|17.8|||||Post-baseline change from baseline in IFN-gamma ELISpot response magnitudes was compared between groups using differences in medians and associated non-parametric 95% CI.|||17.80|3.30|
92454963|NCT04642638|184798703|OTHER||Difference in median|-6.6|STANDARD_ERROR_OF_MEAN|-5.0|||TWO_SIDED|95.0|-10.0|0.0|||||Post-baseline change from baseline in IFN-gamma ELISpot response magnitudes was compared between groups using differences in medians and associated non-parametric 95% CI.|||0.00|-10.00|
92454964|NCT04642638|184798704|OTHER||Geometric Mean Fold Rise (GMFR) Ratio|2.5|||||TWO_SIDED|95.0|1.72|3.632|||||95% CI of GMFR ratio is based on t-distribution, where GMFR ratio is based on the between-treatment-group comparisons.|||3.632|1.720|
92454965|NCT04642638|184798704|OTHER||GMFR Ratio|3.88|||||TWO_SIDED|95.0|2.638|5.7|||||95% CI of GMFR ratio is based on t-distribution, where GMFR ratio is based on the between-treatment-group comparisons.|||5.700|2.638|
92454966|NCT04642638|184798704|OTHER||GMFR Ratio|0.68|||||TWO_SIDED|95.0|0.512|0.893|||||95% CI of GMFR ratio is based on t-distribution, where GMFR ratio is based on the between-treatment-group comparisons|||0.893|0.512|
92454967|NCT04313881|184798747|SUPERIORITY||Odds Ratio (OR)|0.876||||0.5218|TWO_SIDED|95.0|0.585|1.312||2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors (geographic region, cytogenetic risk status, and bone marrow blast percentage).|Cochran-Mantel-Haenszel|||||1.312|0.585|0.5218
92454968|NCT04313881|184798748|SUPERIORITY||Hazard Ratio (HR)|1.203||||0.1299|TWO_SIDED|95.0|0.947|1.528||2-sided P-value was based on stratified log-rank test, stratified by stratification factors.|Log Rank||Hazard ratio and its 95% confidence interval (CI) were calculated using the Cox proportional hazards regression model, stratified by stratification factors.|||1.528|0.947|0.1299
92454969|NCT04313881|184798750|SUPERIORITY||Odds Ratio (OR)|0.821||||0.2563|TWO_SIDED|95.0|0.584|1.155||2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors (geographic region, cytogenetic risk status, and bone marrow blast percentage).|Cochran-Mantel-Haenszel|||||1.155|0.584|0.2563
92454970|NCT04313881|184798752|SUPERIORITY||Odds Ratio (OR)|0.72||||0.2191|TWO_SIDED|95.0|0.427|1.212||95% CI for transfusion independence rate was based on Clopper-Pearson exact method. 2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors.|Cochran-Mantel-Haenszel|||||1.212|0.427|0.2191
92454971|NCT04313881|184798753|SUPERIORITY||Hazard Ratio (HR)|0.979||||0.8788|TWO_SIDED|95.0|0.746|1.285||2-sided P-value was based on stratified log-rank test, stratified by stratification factors.|Log Rank||Hazard ratio and its 95% CI were calculated using the Cox proportional hazards regression model, stratified by stratification factors.|||1.285|0.746|0.8788
92454972|NCT04313881|184798754|SUPERIORITY||Odds Ratio (OR)|0.441||||0.0375|TWO_SIDED|95.0|0.203|0.96||2-sided P-value, odds ratio and its 95% CI were based on unstratified Cochran-Mantel-Haenszel (CMH) method.|Cochran-Mantel-Haenszel||95% CI for response rate was based on Clopper-Pearson exact method.|||0.960|0.203|0.0375
92454973|NCT04313881|184798755|SUPERIORITY||Odds Ratio (OR)|0.947||||0.795|TWO_SIDED|95.0|0.629|1.426||2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors (geographic region, cytogenetic risk status, and bone marrow blast percentage).|Cochran-Mantel-Haenszel||95% CI for response rate was based on Clopper-Pearson exact method.|||1.426|0.629|0.7950
92454974|NCT04313881|184798756|SUPERIORITY||Hazard Ratio (HR)|0.837||||0.461|TWO_SIDED|95.0|0.522|1.343||2-sided P-value was based on stratified log-rank test, stratified by stratification factors.|Log Rank||Hazard ratio and its 95% CI were calculated using the Cox proportional hazards regression model, stratified by stratification factors.|||1.343|0.522|0.4610
92454975|NCT04313881|184798757|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.872|TWO_SIDED|95.0|0.802|1.297||2-sided P-value was based on stratified log-rank test, stratified by stratification factors (geographic region, cytogenetic risk status, and bone marrow blast percentage).|Log Rank||Hazard ratio and its 95% CI were calculated using the Cox proportional hazards regression model, stratified by stratification factors.|||1.297|0.802|0.8720
92454976|NCT04313881|184798758|SUPERIORITY|2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors|Odds Ratio (OR)|0.605||||0.0048|TWO_SIDED|95.0|0.428|0.857||2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors (geographic region, cytogenetic risk status, and bone marrow blast percentage).|Cochran-Mantel-Haenszel||95% CI for response rate was based on Clopper-Pearson exact method.|||0.857|0.428|0.0048
92454977|NCT01392560|184798821|SUPERIORITY_OR_OTHER||Mean change from baseline|-19.6|STANDARD_ERROR_OF_MEAN|5.6||0.0011|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test of the difference between baseline and end of treatment under euglycaemia condition for all patients||||0.0011
92454978|NCT01392560|184798821|SUPERIORITY_OR_OTHER||Mean change from baseline|-30.8|STANDARD_ERROR_OF_MEAN|6.2|<|0.0001|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test the difference between baseline and end of treatment under hyperglycaemia condition for all patients||||<0.0001
92454979|NCT01392560|184798821|SUPERIORITY_OR_OTHER||Change from baseline|-33.4|STANDARD_ERROR_OF_MEAN|6.2|<|0.0001|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test of the difference between baseline and end of treatment under euglycaemia condition for hyperfilterers||||<0.0001
92454980|NCT01392560|184798821|SUPERIORITY_OR_OTHER||Mean change from baseline|-44.5|STANDARD_ERROR_OF_MEAN|7.1|<|0.0001|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test of the difference between baseline and end of treatment under hyperglycaemia condition for hyperfilterers||||<0.0001
92454981|NCT01392560|184798821|SUPERIORITY_OR_OTHER||Mean change from baseline|9.0|STANDARD_ERROR_OF_MEAN|5.9||0.1524|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test of the difference between baseline and end of treatment under euglycaemia condition for non-hyperfilterers||||0.1524
92454982|NCT01392560|184798821|SUPERIORITY_OR_OTHER||Mean change from baseline|-2.4|STANDARD_ERROR_OF_MEAN|7.7||0.7585|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test of the difference between baseline and end of treatment under hyperglycaemia condition for non-filterers||||0.7585
92454983|NCT02558010|184798828|SUPERIORITY||||||<|0.05||||||The p-value was calculated, and does not indicate the threshold for statistical significance.|Mixed Models Analysis|||||||<0.05
92454984|NCT03301051|184798853|OTHER|Vaccine Efficacy (VE) of VLP vaccine versus placebo = (1 - attack rate in vaccinated participants \[ARV\]/attack rate in unvaccinated participants \[ARU\]) x 100%.|Vaccine Efficacy|34.9|||||TWO_SIDED|95.0|17.6|48.6|||||The VE success criterion is defined as a \>40% lower limit of the two-sided 95% confidence interval (CI).|||48.6|17.6|
92242352|NCT00755846|184387950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.106||0.004||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has at least 98% power to detect a treatment difference (all active versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.004
92454985|NCT03301051|184798854|OTHER|VE of VLP vaccine versus placebo = (1 - ARV/ARU) x 100%.|Vaccine Efficacy|38.6|||||TWO_SIDED|95.0|27.6|48.0|||||The VE success criterion is defined as a \>40% lower limit of the two-sided 95% CI.|||48.0|27.6|
92454986|NCT03301051|184798855|OTHER|VE of VLP vaccine versus placebo = (1 - ARV/ARU) x 100%.|Vaccine Efficacy|33.8|||||TWO_SIDED|95.0|14.9|48.5|||||The VE success criterion is defined as a \>40% lower limit of the two-sided 95% CI.|||48.5|14.9|
92454987|NCT03301051|184798856|OTHER|VE of VLP vaccine versus placebo = (1 - ARV/ARU) x 100%.|Vaccine Efficacy|37.6|||||TWO_SIDED|95.0|25.1|48.0|||||The VE success criterion is defined as a \>40% lower limit of the two-sided 95% CI.|||48.0|25.1|
92454988|NCT03301051|184798857|OTHER|VE of VLP vaccine versus placebo = (1 - ARV/ARU) x 100%.|Vaccine Efficacy|6.2|||||TWO_SIDED|95.0|0.8|11.3|||||The VE success criterion is defined as a \>40% lower limit of the two-sided 95% CI.|||11.3|0.8|
92454989|NCT01359735|184798909|SUPERIORITY_OR_OTHER|||||||0.263|TWO_SIDED|||||Week 04|Wilcoxon (Mann-Whitney)|||||||0.263
92454990|NCT01359735|184798909|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|||||Week 13|Wilcoxon (Mann-Whitney)|||||||0.500
92454991|NCT01359735|184798910|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|||||Over weeks 1 through 4 or Week 4?|Fisher Exact|||||||0.5
92454992|NCT01359735|184798911|SUPERIORITY_OR_OTHER|||||||0.0594|TWO_SIDED||||||Log Rank|||||||0.0594
92454993|NCT01359735|184798912|SUPERIORITY_OR_OTHER|||||||0.1354|ONE_SIDED|||||3 Weeks|t-test, 1 sided|||||||0.1354
92454994|NCT01359735|184798912|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|||||12 Weeks|t-test, 1 sided|||||||0.5000
92454995|NCT01359735|184798913|SUPERIORITY_OR_OTHER|||||||0.0841|TWO_SIDED|||||Week 3 Post-surgery|t-test, 1 sided|||||||0.0841
92454996|NCT01359735|184798913|SUPERIORITY_OR_OTHER|||||||0.178|TWO_SIDED|||||Week 12 Post-surgery|t-test, 1 sided|||||||0.1780
92454997|NCT01462344|184798914|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority comparison was statistically significant if the upper bound of the two-sided 95% CI falls below 2.675, the non-inferiority margin, and the non-inferiority test one-sided p-value \<0.025.|Hazard Ratio (HR)|1.285||||0.006|TWO_SIDED|95.0|0.726|2.272|||Regression, Cox||Estimated for Hazard ratio|||2.272|0.726|0.006
92454998|NCT01462344|184798914|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0019|||||TWO_SIDED|95.0|-0.0024|0.0063|||||Estimated for Absolute risk difference|||0.0063|-0.0024|
92454999|NCT01462344|184798915|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.859|||||TWO_SIDED|95.0|0.729|1.012|||||Estimated for Hazard ratio|||1.012|0.729|
92455000|NCT00360529|184798922|SUPERIORITY_OR_OTHER|||||||0.0454||95.0||||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|Wilcoxon (Mann-Whitney)|||Flibanserin 50 mg qhs versus placebo||||0.0454
92455001|NCT00360529|184798922|SUPERIORITY_OR_OTHER|||||||0.0024||95.0||||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|Wilcoxon (Mann-Whitney)|||Flibanserin 100 mg qhs versus placebo||||0.0024
92455002|NCT00360529|184798923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.2606||95.0|-1.0|3.7||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 50 mg qhs versus placebo||3.7|-1.0|0.2606
92455003|NCT00360529|184798923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2||||0.066||95.0|-0.1|4.6|||ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 100 mg qhs versus placebo||4.6|-0.1|0.066
92173678|NCT03138512|184238555|SUPERIORITY||Cox Proportional Hazard|0.93||||0.6556||95.0|0.67|1.28|||Log Rank|||||1.28|0.67|0.6556
92242353|NCT00755846|184387950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.134||0.017||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.017
92455004|NCT00360529|184798924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.1601||95.0|-2.9|0.5||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 50 mg qhs versus placebo||0.5|-2.9|0.1601
92455005|NCT00360529|184798924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9||||0.0001||95.0|-5.6|-2.2||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 100 mg qhs versus placebo||-2.2|-5.6|0.0001
92455006|NCT00360529|184798925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.1144||95.0|-0.3|0.0||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 50 mg qhs versus placebo||0.0|-0.3|0.1144
92455007|NCT00360529|184798925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.0001||95.0|-0.5|-0.2||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 100 mg qhs versus placebo||-0.2|-0.5|0.0001
92455008|NCT00360529|184798926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.0173||95.0|0.0|0.4|||ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 50 mg qhs versus placebo||0.4|0.0|0.0173
92455009|NCT00360529|184798926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0001||95.0|0.2|0.5|||ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 100 mg qhs versus placebo||0.5|0.2|0.0001
92455010|NCT00360529|184798927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.0071||95.0|0.4|2.6|||ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 50 mg qhs versus placebo||2.6|0.4|0.0071
92455011|NCT00360529|184798927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.0001||95.0|1.4|3.6|||ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 100 mg qhs versus placebo||3.6|1.4|0.0001
92455012|NCT00360529|184798928|SUPERIORITY_OR_OTHER||Percentage responders|34.7||||0.0513||95.0|29.0|40.4|||Cochran-Mantel-Haenszel|Model includes treatment and centre||Flibanserin 25 mg bid versus placebo||40.4|29.0|0.0513
92455013|NCT00360529|184798928|SUPERIORITY_OR_OTHER||Percentage responders|38.6||||0.0059||95.0|32.6|44.6|||Cochran-Mantel-Haenszel|Model includes treatment and centre||Flibanserin 50 mg qhs versus placebo||44.6|32.6|0.0059
92455014|NCT01483924|184798988|SUPERIORITY_OR_OTHER|||||||0.9048|TWO_SIDED||||||ANOVA|||The difference in change in PASI score from baseline to Week 12 was compared all active treatment groups and the placebo group||||0.9048
92455015|NCT01483924|184798989|SUPERIORITY_OR_OTHER|||||||0.1975|TWO_SIDED||||||Cochran-Armitage trend test|||||||0.1975
92455016|NCT01483924|184798990|SUPERIORITY_OR_OTHER|||||||0.6349|TWO_SIDED||||||Kruskal-Wallis|||||||0.6349
92455017|NCT01483924|184798991|SUPERIORITY_OR_OTHER|||||||0.6212|TWO_SIDED||||||Kruskal-Wallis|||||||0.6212
92455018|NCT02890381|184798992|OTHER||% vaccine recipients with solicited AEs|64.0|||||TWO_SIDED|90.0|35.0|86.0||||||||86|35|
92455019|NCT02890381|184798992|OTHER||% placebo recipients with solicited AEs|100.0|||||TWO_SIDED|90.0|61.0|100.0||||||||100|61|
92455020|NCT02890381|184798993|OTHER||% vaccinees with unsolicited AEs|36.0|||||TWO_SIDED|90.0|14.0|65.0||||||||65|14|
92173679|NCT03138512|184238556|SUPERIORITY||Cox Proportional Hazard|1.26||||0.2436||95.0|0.85|1.85|||Log Rank|||Treatment Part A||1.85|0.85|0.2436
92173680|NCT03138512|184238556|SUPERIORITY||Cox Proportional Hazard|1.36||||0.45||95.0|0.61|3.07|||Log Rank|||Treatment Part B||3.07|0.61|0.4500
92455021|NCT02890381|184798993|OTHER||% placebo with unsolicited AEs|50.0|||||TWO_SIDED|90.0|15.0|85.0||||||||85|15|
92455022|NCT02890381|184798998|SUPERIORITY|||||||0.64||||||Since the sample sizes are unequal, at the suggestion of the DSMB statistician, a 1-sided Fisher's exact test was used to test the hypothesis that the proportions of \>=4-fold rises were higher in the vaccinated group than in the placebo group.|Fisher Exact|||||||0.64
92455023|NCT02890381|184798999|SUPERIORITY|||||||0.73||||||The threshold for statistical significance is 0.05.|Log Rank|||||||0.73
92455024|NCT01201629|184799021|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
92455025|NCT01201629|184799022|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92455026|NCT02415400|184799024|NON_INFERIORITY|Non-Inferiority (NI) margin = 1.2|||||<|0.0001|||||||1-sided p-value for NI test|||Separate hierarchical testing was performed for apixaban vs VKA: 1) Non-inferiority for the primary endpoint.||||<0.0001
92455027|NCT02415400|184799024|SUPERIORITY||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.58|0.82|||2-sided p-value for superiority test|||Separate hierarchical testing was performed for apixaban vs VKA: 2) Superiority for the primary endpoint||0.82|0.58|<0.0001
92455028|NCT02415400|184799025|SUPERIORITY||Hazard Ratio (HR)|1.88|||<|0.0001|TWO_SIDED|95.0|1.58|2.23|||2-sided p-value for superiority test|||Separate hierarchical testing was performed for aspirin vs placebo: 2) Superiority for the primary endpoint.||2.23|1.58|<0.0001
92455029|NCT02415400|184799026|SUPERIORITY||||||<|0.0001|||||||2-sided p-value for superiority test|||Separate hierarchical testing was performed for apixaban vs VKA: 2) Superiority for the primary endpoint.||||<0.0001
92455030|NCT02415400|184799027|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0033|TWO_SIDED|95.0|0.75|0.94|||2-sided p-value|||Separate hierarchical testing was performed for apixaban vs VKA: 3) Superiority for all-cause death and all-cause rehospitalization.||0.94|0.75|0.0033
92455031|NCT02415400|184799028|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.2219|TWO_SIDED|95.0|0.96|1.2|||2-sided p-value|||Separate hierarchical testing was performed for aspirin vs placebo: 3) Superiority for all-cause death and all-cause rehospitalization.||1.20|0.96|0.2219
92455032|NCT02415400|184799029|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.437|TWO_SIDED|95.0|0.75|1.13|||2-sided p-value|||Separate hierarchical testing was performed for apixaban vs VKA: 4) Superiority for all-cause death and ischemic events.||1.13|0.75|0.4370
92455033|NCT02415400|184799030|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.1742|TWO_SIDED|95.0|0.7|1.07|||2-sided p-value|||Separate hierarchical testing was performed for aspirin vs placebo: 4) Superiority for all-cause death and ischemic events.||1.07|0.70|0.1742
92173681|NCT03138512|184238558|SUPERIORITY||Cox Proportional Hazard|1.22|||||TWO_SIDED|95.0|0.89|1.67||||||||1.67|0.89|
92242354|NCT00755846|184387950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.138||0.016||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.016
92455034|NCT03825380|184799042|NON_INFERIORITY|"Primary tested:Non-inferiority of T4032 to Lumigan® on the change from baseline in IOP using a MMRM. 3 independent models will be performed, one for each time point (8:00, 10:00~\& 16:00). The 95% CI for treatment effect (difference T4032 - Lumigan) will be estimated at Wk 12. NI will be achieved if the upper bound of the 95% CI for the difference between treatment groups (T4032 - Lumigan) is lower than the margin of +1.5 mmHg for each of the 3 time points 8:00, 10:00 \& 16:00."|Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.23||0.453|TWO_SIDED|95.0|-0.62|0.28|||Mixed Models Analysis|||||0.28|-0.62|0.453
92455035|NCT00395876|184799043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.6||||0.0002||95.0|18.4|54.8||Stratified by baseline weight (\< 30 kg, ≥ 30 kg)|Cochran-Mantel-Haenszel|||||54.8|18.4|0.0002
92455036|NCT00395876|184799044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.4||||0.1385||95.0|-3.1|25.8||Stratified by baseline weight (\< 30 kg, ≥ 30 kg)|Cochran-Mantel-Haenszel|||||25.8|-3.1|0.1385
92455037|NCT00395876|184799045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.9||||0.0093||95.0|7.1|42.6||Stratified by baseline weight (\< 30 kg, ≥ 30 kg)|Cochran-Mantel-Haenszel|||||42.6|7.1|0.0093
92455038|NCT02270450|184799054|SUPERIORITY||Mean Difference (Net)|2.87|STANDARD_ERROR_OF_MEAN|4.3||0.5|TWO_SIDED|||||A p-value less than 0.05 is considered statistically significant.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|"A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the number of good days between patients assigned to surgery and patients assigned to non-surgical management."||||0.50
92281217|NCT01055223|184465617|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.12|15.5|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||15.50|0.12|
92281218|NCT01055223|184465618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41|||||TWO_SIDED|95.0|1.05|1.89|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||1.89|1.05|
92281219|NCT01055223|184465618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.88|1.65|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||1.65|0.88|
92281220|NCT01055223|184465618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58|||||TWO_SIDED|95.0|0.69|3.6|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||3.60|0.69|
92455039|NCT02270450|184799055|SUPERIORITY||Mean Difference (Net)|-1.09||||0.64|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the length of the initial hospital stay between patients assigned to surgery and patients and patients assigned to non-surgical management. An interaction term between treatment and pathway was included.||||0.64
92173682|NCT03138512|184238559|SUPERIORITY||Cox Proportional Hazard|0.75||||||95.0|0.33|1.68||||||||1.68|0.33|
92173683|NCT05481216|184238606|OTHER|Unadjusted and adjusted hazard ratios (HR) will be calculated using a proportional Cox regression model. The adjusted variables were body mass index (BMI), dementia, peripheral vascular disease, history of pneumonia, connective tissue disease, liver disease, diabetes, chronic kidney disease, glucocorticoids, hydroxychloroquine, tocilizumab, and anti-IL6 inhibitors.|Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.73|2.29||||||||2.29|0.73|
92242355|NCT00755846|184387950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.134||0.005||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.005
92281221|NCT01055223|184465618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63|||||TWO_SIDED|95.0|0.7|3.81|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||3.81|0.70|
92281222|NCT01055223|184465618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
92281223|NCT01055223|184465618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
92281224|NCT01055223|184465619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|0.92|1.79|||||Unadjusted Odds Ratio. Reference Group: TZD alone.|||1.79|0.92|
92281225|NCT01055223|184465619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.71|1.45|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||1.45|0.71|
92281226|NCT01055223|184465619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.44|||||TWO_SIDED|95.0|0.1|1.9|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||1.90|0.10|
92281227|NCT01055223|184465619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.35|||||TWO_SIDED|95.0|0.08|1.54|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||1.54|0.08|
92281228|NCT01055223|184465619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.99|||||TWO_SIDED|95.0|0.18|21.93|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||21.93|0.18|
92242356|NCT00755846|184387950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.137||0.008||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.008
92242357|NCT00755846|184387950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.136||0.321||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.321
92242358|NCT00755846|184387951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.2|STANDARD_ERROR_OF_MEAN|6.65|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and body mass index (BMI), diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting plasma glucose (FPG). The treatment effect was evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
92242359|NCT00755846|184387951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.5|STANDARD_ERROR_OF_MEAN|8.4|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
92242360|NCT00755846|184387951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.8|STANDARD_ERROR_OF_MEAN|8.68||0.009||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.009
92242361|NCT00755846|184387951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.4|STANDARD_ERROR_OF_MEAN|8.38|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
92242362|NCT00755846|184387951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|8.57||0.057||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.057
92264774|NCT02777554|184431068|OTHER||Ratio (%) of Geometric Means|92.6|||||TWO_SIDED|90.0|81.1|105.9|||||Geometric mean ratio (Apremilast 75 mg XL / Apremilast 30 mg IR BID) from an ANOVA model, expressed as a percentage.|To estimate the exposure of apremilast following single dose administration of extended release (QD) relative to the Reference IR (BID) tablet under fasted conditions, an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞ of apremilast.||105.9|81.1|
92455040|NCT02270450|184799056|SUPERIORITY||Odds Ratio (OR)|0.82||||0.6|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Logistic|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A parallel logistic regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares NG tube use vs no NG tube use between patients assigned to surgery and patients assigned to non-surgical management.||||0.60
92455041|NCT02270450|184799057|SUPERIORITY||Mean Difference (Net)|0.64||||0.47|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the number of days of NG tube use between patients assigned to surgery and patients and patients assigned to non-surgical management.||||0.47
92455042|NCT02270450|184799058|SUPERIORITY||Mean Difference (Net)|-4.1||||0.001|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the MDASI-GI Symptom Assessment score for nausea severity between patients assigned to surgery and patients and patients assigned to non-surgical management. An interaction term between treatment and pathway was included.||||0.001
92455043|NCT02270450|184799058|SUPERIORITY||Mean Difference (Net)|-1.63||||0.008|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the MDASI-GI Symptom Assessment score for vomiting severity between patients assigned to surgery and patients and patients assigned to non-surgical management.||||0.008
92455044|NCT02270450|184799058|SUPERIORITY||Mean Difference (Net)|-1.31||||0.04|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the MDASI-GI Symptom Assessment score for bloating severity between patients assigned to surgery and patients and patients assigned to non-surgical management.||||0.04
92455045|NCT02270450|184799058|SUPERIORITY||Mean Difference (Net)|-3.6||||0.01|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the MDASI-GI Symptom Assessment score for pain severity between patients assigned to surgery and patients and patients assigned to non-surgical management. An interaction term between treatment and pathway was included.||||0.01
92455046|NCT02270450|184799058|SUPERIORITY||Mean Difference (Net)|-1.9||||0.007|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the MDASI-GI Symptom Assessment score for constipation severity between patients assigned to surgery and patients and patients assigned to non-surgical management.||||0.007
92455047|NCT02270450|184799059|SUPERIORITY||Odds Ratio (OR)|0.64||||0.52|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Logistic|Adjusted for treatment, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A parallel logistic regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares ability to eat between patients assigned to surgery and patients and patients assigned to non-surgical management.||||0.52
92455048|NCT02270450|184799060|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.12|TWO_SIDED|95.0|0.45|1.09|||Regression, Cox|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A Cox proportional hazards regression model stratified by pathway (randomized vs Patient Choice) was used to estimate the effect of treatment assignment (surgery vs non-surgical management) on overall survival.||1.09|0.45|0.12
92455049|NCT01968213|184799077|SUPERIORITY||Cox Proportional Hazard|0.365|||<|0.0001|TWO_SIDED|95.0|0.295|0.451|||Regression, Cox||||Analysis is performed by randomization strata of HRD classification by CTA, best response, and penultimate platinum progression-free interval.|0.451|0.295|<0.0001
92455050|NCT01968213|184799078|SUPERIORITY||Cox Proportional Hazard|0.354|||<|0.0001|TWO_SIDED|95.0|0.278|0.45|||Regression, Cox||||Analysis is performed by randomization strata of HRD classification by CTA, best response, and penultimate platinum progression-free interval.|0.450|0.278|<0.0001
92455051|NCT01581281|184799092|SUPERIORITY||Odds Ratio (OR)|0.71||||0.2636|TWO_SIDED|98.3|0.34|1.48||A Bonferroni approach was used to control the type I error rate. Because there were three comparisons, the Bonferroni corrected level of significance is 0.017 (= 0.05 / 3).|Regression, Logistic|||"Logistic regression models were used to estimate the odds of successful primary endpoint for amitriptyline relative to placebo. The analyses followed the intention to treat principle, imputing an outcome of failure for any participant who withdrew early for any reason or did not provide week 24 headache diary data (endpoint data). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days)."||1.48|0.34|0.2636
92455052|NCT01581281|184799092|SUPERIORITY||Odds Ratio (OR)|0.81||||0.4821|TWO_SIDED|98.3|0.39|1.68||A Bonferroni approach was used to control the type I error rate. Because there were three comparisons of interest, the Bonferroni corrected level of significance is 0.017 ( = 0.05 / 3).|Regression, Logistic|||"Logistic regression models were used to estimate the odds of successful primary endpoint for topiramate relative to placebo. The analyses followed the intention to treat principle, imputing an outcome of failure for any participant who withdrew early for any reason or did not provide week 24 headache diary data (endpoint data). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days)."||1.68|0.39|0.4821
92455053|NCT01581281|184799092|SUPERIORITY||Odds Ratio (OR)|0.88||||0.6107|TWO_SIDED|98.3|0.49|1.59||A Bonferroni approach was used to control the type I error rate. Because there were three comparisons of interest, the Bonferroni corrected level of significance is 0.017 ( = 0.05 / 3).|Regression, Logistic|||"Logistic regression models were used to estimate the odds of successful primary endpoint for topiramate relative to amitriptyline. The analyses followed the intention to treat principle, imputing an outcome of failure for any participant who withdrew early for any reason or did not provide week 24 headache diary data (endpoint data). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days)."||1.59|0.49|0.6107
92455054|NCT01581281|184799093|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.9137|TWO_SIDED|95.0|-6.64|5.95|||Regression, Linear|||The mean change from baseline in PedMIDAS score over time for the three groups was assessed using a linear regression model for each of the three pairwise comparisons (Amitriptyline relative to placebo, Topiramate relative to placebo, and Amitriptyline relative to Topiramate), adjusted for the baseline PedMIDAS score. The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||5.95|-6.64|0.9137
92455055|NCT01581281|184799093|SUPERIORITY||Median Difference (Final Values)|-4.84||||0.1331|TWO_SIDED|95.0|-11.16|1.49|||Regression, Linear|||The mean change from baseline in PedMIDAS score over time for the three groups was assessed using a linear regression model for each of the three pairwise comparisons (Amitriptyline relative to placebo, Topiramate relative to placebo, and Amitriptyline relative to Topiramate), adjusted for the baseline PedMIDAS score. The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||1.49|-11.16|0.1331
92455056|NCT01581281|184799093|SUPERIORITY||Mean Difference (Final Values)|4.49||||0.1011|TWO_SIDED|95.0|-0.88|9.87|||Regression, Linear|||The mean change from baseline in PedMIDAS score over time for the three groups was assessed using a linear regression model for each of the three pairwise comparisons (Amitriptyline relative to placebo, Topiramate relative to placebo, and Amitriptyline relative to Topiramate), adjusted for the baseline PedMIDAS score. The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||9.87|-0.88|0.1011
92455057|NCT01581281|184799094|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.3553|TWO_SIDED|98.3|-2.59|1.15||Each comparison was tested using a Bonferroni corrected significance level of 0.017 (0.05/3).|Regression, Linear|||Another major secondary objective was to determine if the change in absolute headache days from baseline to week 24 differed between treatment groups. This objective was assessed using linear regression models, with three pairwise comparisons between treatment groups (Amitriptyline vs. Placebo, Topiramate vs. Placebo, and Amitriptyline vs. Topiramate). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||1.15|-2.59|0.3553
92455058|NCT01581281|184799094|SUPERIORITY||Median Difference (Final Values)|-0.64||||0.4143|TWO_SIDED|98.3|-2.52|1.24||Each comparison was tested using a Bonferroni corrected significance level of 0.017 (0.05/3).|Regression, Linear|||Another major secondary objective was to determine if the change in absolute headache days from baseline to week 24 differed between treatment groups. This objective was assessed using linear regression models, with three pairwise comparisons between treatment groups (Amitriptyline vs. Placebo, Topiramate vs. Placebo, and Amitriptyline vs. Topiramate). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||1.24|-2.52|0.4143
92173684|NCT05481216|184238606|OTHER||Adjusted Hazard Ratio|1.3|||||TWO_SIDED|95.0|0.73|2.29||||||The adjusted variables were body mass index (BMI), dementia, peripheral vascular disease, history of pneumonia, connective tissue disease, liver disease, diabetes, chronic kidney disease, glucocorticoids, hydroxychloroquine, tocilizumab, and anti-IL6 inhibitors.||2.29|0.73|
92455059|NCT01581281|184799094|SUPERIORITY||Median Difference (Final Values)|-0.08||||0.9038|TWO_SIDED|98.3|-1.68|1.52||Each comparison was tested using a Bonferroni corrected significance level of 0.017 (0.05/3).|Regression, Linear|||Another major secondary objective was to determine if the change in absolute headache days from baseline to week 24 differed between treatment groups. This objective was assessed using linear regression models, with three pairwise comparisons between treatment groups (Amitriptyline vs. Placebo, Topiramate vs. Placebo, and Amitriptyline vs. Topiramate). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||1.52|-1.68|0.9038
92455060|NCT01581281|184799095|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1557|TWO_SIDED|95.0|0.85|5.05|||Fisher Exact|||Tolerability was assessed by calculating the percent of subjects who completed the entire 24 week treatment period and the corresponding 95% confidence intervals for each treatment group. Concerns regarding tolerability would be raised if the upper bound of a confidence interval was less than 65% or if the percent of subjects who completed the entire 24 week treatment period in either of the active treatment groups was significantly less than the placebo group.||5.05|0.85|0.1557
92455061|NCT01581281|184799095|SUPERIORITY||Odds Ratio (OR)|2.31||||0.0754|TWO_SIDED|95.0|0.95|5.62|||Fisher Exact|||Tolerability was assessed by calculating the percent of subjects who completed the entire 24 week treatment period and the corresponding 95% confidence intervals for each treatment group. Concerns regarding tolerability would be raised if the upper bound of a confidence interval was less than 65% or if the percent of subjects who completed the entire 24 week treatment period in either of the active treatment groups was significantly less than the placebo group.||5.62|0.95|0.0754
92455062|NCT01581281|184799095|SUPERIORITY||Odds Ratio (OR)|0.89||||0.7611|TWO_SIDED|95.0|0.49|1.62|||Fisher Exact|||Tolerability was assessed by calculating the percent of subjects who completed the entire 24 week treatment period and the corresponding 95% confidence intervals for each treatment group. Concerns regarding tolerability would be raised if the upper bound of a confidence interval was less than 65% or if the percent of subjects who completed the entire 24 week treatment period in either of the active treatment groups was significantly less than the placebo group.||1.62|0.49|0.7611
92455063|NCT01581281|184799096|SUPERIORITY|||||||0.3038|||||||Fisher Exact|||The occurrence of treatment-related SAE's was assessed in two ways: 1) percentage of subjects who experience any treatment-related SAE in each of the three groups was compared using Fishers exact test; 2) rates of treatment-emergent SAS's across the three groups were compared using a Poisson regression model. However, due to the small number of SAEs that were deemed treatment-emergent (4 in AMI, 1 in TPM, 0 in PBO), the parameter estimates did not converge for the Poisson regression model.||||0.3038
92455064|NCT01581281|184799096|SUPERIORITY|||||||1|||||||Fisher Exact|||The occurrence of treatment-related SAE's was assessed in two ways: 1) percentage of subjects who experience any treatment-related SAE in each of the three groups was compared using Fishers exact test; 2) rates of treatment-emergent SAS's across the three groups were compared using a Poisson regression model. However, due to the small number of SAEs that were deemed treatment-emergent (4 in AMI, 1 in TPM, 0 in PBO), the parameter estimates did not converge for the Poisson regression model.||||1.000
92455065|NCT01581281|184799096|SUPERIORITY|||||||0.2139|||||||Fisher Exact|||The occurrence of treatment-related SAE's was assessed in two ways: 1) percentage of subjects who experience any treatment-related SAE in each of the three groups was compared using Fishers exact test; 2) rates of treatment-emergent SAS's across the three groups were compared using a Poisson regression model. However, due to the small number of SAEs that were deemed treatment-emergent (4 in AMI, 1 in TPM, 0 in PBO), the parameter estimates did not converge for the Poisson regression model.||||0.2139
92455066|NCT02081846|184799100|SUPERIORITY|||||||0.047|||||||Regression, Logistic|||||||0.047
92455067|NCT02081846|184799101|SUPERIORITY|||||||0.32|||||||Regression, Linear|||||||0.32
92455068|NCT02081846|184799102|SUPERIORITY|||||||0.82|||||||censored Poisson model|||||||0.82
92455069|NCT02081846|184799103|SUPERIORITY||||||<|0.01|||||||Poisson model|||||||<0.01
92455070|NCT02081846|184799104|SUPERIORITY|||||||0.08|||||||Regression, Logistic|||||||0.08
92455071|NCT02081846|184799105|SUPERIORITY|||||||0.052|||||||Regression, Logistic|||||||0.052
92455072|NCT02081846|184799106|SUPERIORITY|||||||0.12|||||||Regression, Logistic|||||||0.12
92455073|NCT03265600|184799107|SUPERIORITY||Odds Ratio (OR)|2.91||||0.006|TWO_SIDED||||||Unadjusted bivariate logistic regression|||||||0.006
92455074|NCT03265600|184799108|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|Cohen's d: -0.25||||||0.19
92455075|NCT03265600|184799109|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|Cohen's d: -0.36||||||0.12
92455076|NCT03265600|184799110|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|Cohen's d: -0.34||||||0.08
92455077|NCT03265600|184799111|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Cohen's d: 0.57||||||<0.001
92455078|NCT03265600|184799112|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|Cohen's d: 0.41||||||0.03
92455079|NCT03265600|184799113|SUPERIORITY|||||||0.31|||||||Mixed Models Analysis|Cohen's d: 0.15||||||0.31
92455080|NCT03265600|184799114|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|Cohen's d: 0.22||||||0.26
92455081|NCT03265600|184799115|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Cohen's d: -0.58||||||<0.001
92455082|NCT03265600|184799116|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Cohen's d: 0.75||||||<0.001
92455083|NCT00535730|184799117|NON_INFERIORITY_OR_EQUIVALENCE|The power for the noninferiority hypothesis of VZV antibody titers is 92%. The noninferiority margin is the lower bound of the two-sided 95% confidence interval on the VZV antibody GMT ratio\[concomitant/nonconcomitant\] being \>0.67.||||||0.244||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|longitudinal regression model|Week 4 postvac, estimated responses, GMT ratio, 95% CI, p-value based on a longitudinal regression model adjusting for prevac titers and age (years)||The hypothesis was that the GMT of the VZV antibody responses at 4 weeks postvaccination in subjects who receive ZOSTAVAX™ concomitantly with PNEUMOVAX™ 23 will be noninferior to that in subjects who receive ZOSTAVAX™ nonconcomitantly||||0.244
92455084|NCT00535730|184799119|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|t-test, 1 sided|The one-sided p-value for testing acceptability for GMFR is computed based on t-test. CI is computed based on the t distribution||The hypothesis was that ZOSTAVAX™ elicits an acceptable VZV antibody response when administered concomitantly with PNEUMOVAX™ 23.||||<0.001
92455085|NCT00535730|184799120|NON_INFERIORITY_OR_EQUIVALENCE|The power for the noninferiority hypothesis regarding PnPs antibody titer is \~99%. The noninferiority margin is the lower bound of the two-sided 95% confidence interval (CI) on the PnPs antibody GMT ratio \[concomitant/nonconcomitant\] being \>05.|||||<|0.001||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|longitudinal regression model|Week 4 postvac, estimated responses, GMT ratio, 95% CI, p-value based on a longitudinal regression model adjusting for prevac titers and age (years)||"The hypothesis was that the GMT of the PnPs antibody response to serotype 3 at 4 weeks postvaccination in subjects who receive ZOSTAVAX™ concomitantly with PNEUMOVAX™ 23 will be noninferior to those in subjects who~receive ZOSTAVAX™ nonconcomitantly."||||<0.001
92455086|NCT00535730|184799121|NON_INFERIORITY_OR_EQUIVALENCE|The power for the noninferiority hypothesis regarding PnPs antibody titer is \~99%. The noninferiority margin is the lower bound of the two-sided 95% confidence interval (CI) on the PnPs antibody GMT ratio \[concomitant/nonconcomitant\] being \>05.|||||<|0.001||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|longitudinal regression model|Week 4 postvac, estimated responses, GMT ratio, 95% CI, p-value based on a longitudinal regression model adjusting for prevac titers and age (years)||The hypothesis was that the GMT of the PnPs antibody responses to serotype 14 at 4 weeks postvaccination in subjects who receive ZOSTAVAX™ concomitantly with PNEUMOVAX™ 23 will be noninferior to those in subjects who receive ZOSTAVAX™ nonconcomitantly.||||<0.001
92455087|NCT00535730|184799122|NON_INFERIORITY_OR_EQUIVALENCE|The power for the noninferiority hypothesis regarding PnPs antibody titer is \~99%. The noninferiority margin is the lower bound of the two-sided 95% confidence interval (CI) on the PnPs antibody GMT ratio \[concomitant/nonconcomitant\] being \>05.|||||<|0.001||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|longitudinal regression model|Week 4 postvac, estimated responses, GMT ratio, 95% CI, p-value based on a longitudinal regression model adjusting for prevac titers and age (years)||The hypothesis was that the GMT of the PnPs antibody responses to serotype 19A at 4 weeks postvaccination in subjects who receive ZOSTAVAX™ concomitantly with PNEUMOVAX™ 23 will be noninferior to those in subjects who receive ZOSTAVAX™ nonconcomitantly.||||<0.001
92455088|NCT00535730|184799123|NON_INFERIORITY_OR_EQUIVALENCE|The power for the noninferiority hypothesis regarding PnPs antibody titer is \~99%. The noninferiority margin is the lower bound of the two-sided 95% confidence interval (CI) on the PnPs antibody GMT ratio \[concomitant/nonconcomitant\] being \>05.|||||<|0.001||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|longitudinal regression model|Week 4 postvac, estimated responses, GMT ratio, 95% CI, p-value based on a longitudinal regression model adjusting for prevac titers and age (years)||The hypothesis was that the GMT of the PnPs antibody responses to serotype 22F at 4 weeks postvaccination in subjects who receive ZOSTAVAX™ concomitantly with PNEUMOVAX™ 23 will be noninferior to those in subjects who receive ZOSTAVAX™ nonconcomitantly.||||<0.001
92455089|NCT00295750|184799124|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit was -10 percentage points.|Difference in cumulative probability|1.9||||||97.5|-1.8|5.7||||||A non-inferiority assessment determined whether degarelix was non-inferior to leuprolide with respect to the cumulative probability of testosterone \<=0.5 ng/mL from Day 28 to Day 364.||5.7|-1.8|
92455090|NCT00295750|184799124|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit was -10 percentage points.|Difference in cumulative probability|0.9||||||97.5|-3.2|5.0||||||A non-inferiority assessment determined whether degarelix was non-inferior to leuprolide with respect to the cumulative probability of testosterone \<=0.5 ng/mL from Day 28 to Day 364.||5.0|-3.2|
92281229|NCT01055223|184465619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.09|12.36|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||12.36|0.09|
92455091|NCT00295750|184799125|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92455092|NCT00295750|184799125|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92455093|NCT00295750|184799126|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92455094|NCT00295750|184799126|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92455095|NCT00295750|184799128|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Percentage change from baseline to Day 14||||<0.0001
92455096|NCT00295750|184799128|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Percentage change from baseline to Day 14||||<0.0001
92455097|NCT00295750|184799128|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Percentage change from baseline to Day 28||||<0.0001
92455098|NCT00295750|184799128|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Percentage change from baseline to Day 28||||<0.0001
92455099|NCT00295750|184799129|SUPERIORITY_OR_OTHER||Cumulative probability|85.8||||||95.0|79.8|90.1|||||95% confidence interval for the cumulative probability of completing the study without prostate specific antigen failure from Day 0 to Day 364.|||90.1|79.8|
92455100|NCT00295750|184799129|SUPERIORITY_OR_OTHER||Cumulative probability|91.1||||||95.0|85.9|94.5|||||95% confidence interval for the cumulative probability of completing the study without prostate specific antigen failure from Day 0 to Day 364.|||94.5|85.9|
92455101|NCT00295750|184799129|SUPERIORITY_OR_OTHER||Cumulative probability|85.9||||||95.0|79.9|90.2|||||95% confidence interval for the cumulative probability of completing the study without prostate specific antigen failure from Day 0 to Day 364.|||90.2|79.9|
92455102|NCT00936858|184799135|OTHER||6 month PFS probability|0.35|||||TWO_SIDED|||||||||We will declare the trial a success after observing 7 or more patients with PFS within 6 months. The study will have alpha = 0.092 and power =0.970, assuming a 6 month PFS probability of 0.12 for the null and a PFS probability of 0.35 as the alternative hypothesis.||||
92455103|NCT00584727|184799173|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||Alternative hypothesis was senofilcon A toric was superior to etafilcon A sphere by having more eyes see 20/20||||<0.0001
92455104|NCT00584727|184799174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7155|STANDARD_ERROR_OF_MEAN|0.1334||||95.0|0.3625|0.7155|||Mixed Models Analysis||Mean difference was senofilcon A toric minus etafilcon A sphere.|Alternative hypothesis was senofilcon A toric was superior to etafilcon A sphere.||0.7155|0.3625|
92455105|NCT00584727|184799175|SUPERIORITY_OR_OTHER|||||||0.2161||95.0|||||Chi-squared|||Aletrnative hypothesis was senofilcon A toric was superior to alphafilcon A toric by having more eyes within 5 degrees.||||0.2161
92455106|NCT00584727|184799176|SUPERIORITY_OR_OTHER|||||||0.1328||95.0|||||Chi-squared|||Alternative hypothesis was senofilcon A toric was superior to alphafilcon A toric by having more eyes within 5 degrees||||0.1328
92455107|NCT00584727|184799177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.489|STANDARD_ERROR_OF_MEAN|0.1393||||95.0|0.1529|0.489|||Mixed Models Analysis||Mean difference was senofilcon A toric minus alphafilcon A toric|Alternative hypothesis was senofilcon A toric was superior to alphafilcon A toric.||0.4890|0.1529|
92455108|NCT00584727|184799178|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||Alternative hypothesis was senofilcon A toric was superior to etafilcon A sphere.||||<0.0001
92455109|NCT02512575|184799262|SUPERIORITY_OR_OTHER||Slope|0.847|STANDARD_ERROR_OF_MEAN|0.0238|||TWO_SIDED|90.0|0.807|0.887||||||||0.887|0.807|
92455110|NCT02512575|184799265|SUPERIORITY_OR_OTHER||Slope|0.93|STANDARD_ERROR_OF_MEAN|0.0364|||TWO_SIDED|90.0|0.869|0.991||||||||0.991|0.869|
92455111|NCT02512575|184799266|SUPERIORITY_OR_OTHER||Slope|0.917|STANDARD_ERROR_OF_MEAN|0.0364|||TWO_SIDED|90.0|0.856|0.978||||||||0.978|0.856|
92455112|NCT02512575|184799267|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.03|||||TWO_SIDED|90.0|0.96|1.11||||||||1.11|0.960|
92455113|NCT02512575|184799267|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.0|||||TWO_SIDED|90.0|0.929|1.08||||||||1.08|0.929|
92455114|NCT02512575|184799267|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.06|||||TWO_SIDED|90.0|0.987|1.14||||||||1.14|0.987|
92455115|NCT02512575|184799267|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.06|||||TWO_SIDED|95.0|0.983|1.13||||||||1.13|0.983|
92455116|NCT02512575|184799267|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.07|||||TWO_SIDED|90.0|0.995|1.15||||||||1.15|0.995|
92455117|NCT02512575|184799267|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.17|||||TWO_SIDED|90.0|1.09|1.25||||||||1.25|1.09|
92455118|NCT02512575|184799267|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.15|||||TWO_SIDED|90.0|1.07|1.24||||||||1.24|1.07|
92173685|NCT05481216|184238610|OTHER|||||||0.009|||||||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19.||||0.009
92281230|NCT01055223|184465620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|0.8|1.88|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||1.88|0.80|
92455119|NCT02512575|184799267|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.2|||||TWO_SIDED|90.0|1.11|1.29||||||||1.29|1.11|
92455120|NCT02512575|184799267|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.19|||||TWO_SIDED|90.0|1.11|1.27||||||||1.27|1.11|
92455121|NCT02512575|184799268|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.05|||||TWO_SIDED|90.0|0.872|1.26||||||||1.26|0.872|
92455122|NCT02512575|184799268|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.05|||||TWO_SIDED|90.0|0.874|1.26||||||||1.26|0.874|
92455123|NCT02512575|184799268|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.907|||||TWO_SIDED|90.0|0.745|1.1||||||||1.10|0.745|
92455124|NCT02512575|184799268|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.914|||||TWO_SIDED|90.0|0.762|1.1||||||||1.10|0.762|
92455125|NCT02512575|184799268|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.876|||||TWO_SIDED|90.0|0.728|1.05||||||||1.05|0.728|
92455126|NCT02512575|184799268|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.86|||||TWO_SIDED|90.0|0.716|1.03||||||||1.03|0.716|
92455127|NCT02512575|184799268|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.01|||||TWO_SIDED|90.0|0.842|1.21||||||||1.21|0.842|
92455128|NCT02512575|184799268|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.02|||||TWO_SIDED|90.0|0.846|1.22||||||||1.22|0.846|
92455129|NCT02512575|184799268|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.687|||||TWO_SIDED|90.0|0.572|0.825||||||||0.825|0.572|
92455130|NCT02512575|184799269|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.982|||||TWO_SIDED|90.0|0.861|1.12||||||||1.12|0.861|
92455131|NCT02512575|184799269|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.961||||||90.0|0.846|1.09||||||||1.09|0.846|
92455132|NCT02512575|184799269|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.942|||||TWO_SIDED|90.0|0.829|1.07||||||||1.07|0.829|
92455133|NCT02512575|184799269|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.861|||||TWO_SIDED|90.0|0.757|0.979||||||||0.979|0.757|
92455134|NCT02512575|184799269|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.848|||||TWO_SIDED|90.0|0.745|0.964||||||||0.964|0.745|
92455135|NCT02512575|184799269|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.927|||||TWO_SIDED|90.0|0.815|1.05||||||||1.05|0.815|
92455136|NCT02512575|184799269|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.907|||||TWO_SIDED|90.0|0.798|1.03||||||||1.03|0.798|
92455137|NCT02512575|184799269|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.893|||||TWO_SIDED|90.0|0.784|1.02||||||||1.02|0.784|
92455138|NCT02512575|184799269|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.691||||||90.0|0.608|0.785||||||||0.785|0.608|
92455139|NCT04773587|184799293|SUPERIORITY||Odds Ratio (OR)|2.96|||<|0.0001|TWO_SIDED|95.0|1.881|4.647|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Difference in vIGA-AD Success at Week 4||4.647|1.881|<0.0001
92455140|NCT04773587|184799294|SUPERIORITY||Odds Ratio (OR)|2.67|||<|0.0001|TWO_SIDED|95.0|1.64|4.359|||Cochran-Mantel-Haenszel|Stratified by pooled study site with multiple imputation of missing observations|Stratified by pooled study site with multiple imputation of missing observations|Difference in vIGA-AD Success at Week 4||4.359|1.640|<0.0001
92455141|NCT04773587|184799295|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0089|TWO_SIDED|95.0|1.186|3.319|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|WI-NRS Success at Week 4||3.319|1.186|0.0089
92455142|NCT04773587|184799296|SUPERIORITY||Odds Ratio (OR)|2.81||||0.0016|TWO_SIDED|95.0|1.45|5.457|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|WI-NRS Success at Week 2||5.457|1.450|0.0016
92455143|NCT04773587|184799297|SUPERIORITY||Odds Ratio (OR)|3.81||||0.0159|TWO_SIDED|95.0|1.161|12.511|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|WI-NRS Success at Week 1||12.511|1.161|0.0159
92455144|NCT04773587|184799298|SUPERIORITY||Odds Ratio (OR)|3.17|||<|0.0001|TWO_SIDED|95.0|2.102|4.795|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|EASI-75 at Week 4||4.795|2.102|<0.0001
92455145|NCT04773587|184799299|SUPERIORITY||Odds Ratio (OR)|2.56|||<|0.0001|TWO_SIDED|95.0|1.707|3.843|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study stie and vIGA-AD randomization strata with multiple imputation of missing observations|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 4||3.843|1.707|<0.0001
92455146|NCT04773587|184799300|SUPERIORITY||Odds Ratio (OR)|4.28|||<|0.0001|TWO_SIDED|95.0|2.31|7.926|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|vIGA-AD Success at Week 2||7.926|2.310|<0.0001
92455147|NCT04773587|184799301|SUPERIORITY||Odds Ratio (OR)|25.41|||<|0.0001|TWO_SIDED|95.0|2.815|229.388|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|vIGA-AD Success at Week 1||229.388|2.815|<0.0001
92455148|NCT04773587|184799302|SUPERIORITY||Odds Ratio (OR)|3.62|||<|0.0001|TWO_SIDED|95.0|2.217|5.911|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 2||5.911|2.217|<0.0001
92173686|NCT05481216|184238631|OTHER||Odds Ratio (OR)|0.85||||0.033|TWO_SIDED|95.0|0.74|0.99|||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19. Odds ratio (OR), and the 95% confidence intervals of the OR will be calculated||0.99|0.74|0.033
92455149|NCT04773587|184799303|SUPERIORITY||Odds Ratio (OR)|3.46||||0.0002|TWO_SIDED|95.0|1.705|7.007|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 1||7.007|1.705|0.0002
92455150|NCT03858803|184799304|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455151|NCT03858803|184799305|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455152|NCT03858803|184799306|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455153|NCT03858803|184799307|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455154|NCT03858803|184799308|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455155|NCT03858803|184799309|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455156|NCT03858803|184799310|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455157|NCT03858803|184799311|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455158|NCT03858803|184799312|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455159|NCT03858803|184799313|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455160|NCT03858803|184799314|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
92455161|NCT00435370|184799326|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||||||<0.05
92455162|NCT00809757|184799383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||||TWO_SIDED|95.0|-1.412|0.342|||||Difference is Placebo MDI minus Levalbuterol UDV|195 subjects were randomized in order to achieve 150 subjects completing the study. The sample size was set based on FDA requirements, and was outside of statistical considerations.||0.342|-1.412|
92455163|NCT00809757|184799383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|||||TWO_SIDED|95.0|-1.714|0.335|||||Difference is Levalbuterol UDV minus Levalbuterol MDI|195 subjects were randomized in order to achieve 150 subjects completing the study. The sample size was set based on FDA requirements, and was outside of statistical considerations||0.335|-1.714|
92455164|NCT00809757|184799383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|||||TWO_SIDED|95.0|-1.08|0.771|||||Difference is Levalbuterol UDV minus Levalbuterol MDI|195 subjects were randomized in order to achieve 150 subjects completing the study. The sample size was set based on FDA requirements, and was outside of statistical considerations.||0.771|-1.080|
92242363|NCT00755846|184387951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|8.56||0.156||95.0||||No multiplicity adjustments|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.156
92455165|NCT02625623|184799424|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.8078|TWO_SIDED|95.0|0.88|1.41|||Log Rank|The treatment arms were compared using a stratified, 1-sided, log rank Test. The stratification factor was region (Asia versus non Asia).||||1.41|0.88|0.8078
92455166|NCT02625623|184799425|SUPERIORITY||Hazard Ratio (HR)|1.73||||1|TWO_SIDED|95.0|1.36|2.21|||Log Rank|The treatment arms were compared using a stratified, 1-sided, log rank Test. The stratification factor was region (Asia versus non Asia).||||2.21|1.36|1.0000
92242364|NCT00755846|184387952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.9|STANDARD_ERROR_OF_MEAN|7.05|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between all doses of alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
92455167|NCT02625623|184799427|SUPERIORITY||Odds Ratio (OR)|0.709||||0.8764|||||||Cochran-Mantel-Haenszel|The treatment arms were compared by 1-sided CMH test. The stratification factor was region (Asia versus non Asia).||||||0.8764
92455168|NCT01316926|184799443|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon manufacturing a site change.|Ratio T formulation/R formulation|0.9204|||||TWO_SIDED|90.0|0.8556|0.99|||||Coefficient Variation (intra-individual). The ratio between the geometric means of the test and reference formulations was calculated.|||0.9900|0.8556|
92455169|NCT01316926|184799444|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon manufacturing a site change.|Ratio T formulation/R formulation|0.941|||||TWO_SIDED|90.0|0.846|1.0467|||||Coefficient Variation (intra-individual). The ratio between the geometric means of the test and reference formulations was calculated.|||1.0467|0.8460|
92455170|NCT01316926|184799445|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon manufacturing a site change.|Ratio T formulation/R formulation|0.9333|||||TWO_SIDED|90.0|0.8502|1.0246|||||Coefficient Variation (intra-individual). The ratios between the geometric means of the test and reference formulations was calculated.|||1.0246|0.8502|
92455171|NCT02298192|184799461|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was tested against the alternative hypothesis of non-inferiority as given by H0: D ≥0.30% against HA: D \<0.30%.|Treatment Contrast|0.12||||0.012|TWO_SIDED|95.0|-0.04|0.28|||Mixed Models Analysis|||The null hypothesis was tested against the alternative hypothesis of non-inferiority as given by H0: D ≥0.30% against HA: D \<0.30%.||0.28|-0.04|0.012
92455172|NCT02352948|184799467|OTHER|Sub-study A was not powered and thus no formal statistical comparisons were performed.|Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.42|0.93|||||Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|For sub-study A: durvalumab monotherapy treatment arm was compared with SoC.||0.93|0.42|
92455173|NCT02352948|184799467|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.109|TWO_SIDED|95.0|0.61|1.05|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with SoC.||1.05|0.61|0.109
92455174|NCT02352948|184799468|OTHER|Sub-study A was not powered and thus no formal statistical comparisons were performed.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.49|1.04|||||Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|For sub-study A: durvalumab monotherapy treatment arm was compared with SoC.||1.04|0.49|
92455175|NCT02352948|184799468|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.056|TWO_SIDED|95.0|0.59|1.01|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with SoC.||1.01|0.59|0.056
92455176|NCT02352948|184799469|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.885|TWO_SIDED|95.0|0.74|1.3|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|As part of the contribution of components analysis for sub-study B, durvalumab plus tremelimumab treatment arm was compared with durvalumab monotherapy.||1.30|0.74|0.885
92455177|NCT02352948|184799469|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.153|TWO_SIDED|95.0|0.56|1.11|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|As part of the contribution of components analysis for sub-study B, durvalumab plus tremelimumab treatment arm was compared with tremelimumab monotherapy.||1.11|0.56|0.153
92455178|NCT02352948|184799470|SUPERIORITY|||||||0.063||||||The z-test statistic is the ratio of log-transformed ratio of the cumulative hazards in the 2 treatment arms divided by square root of the variance.|z-test|The variance is estimated using the delta method and Greenwood's formula.||For sub-study B: durvalumab plus tremelimumab treatment arm was compared with SoC.||||0.063
92455179|NCT02352948|184799471|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.282|TWO_SIDED|95.0|0.68|1.12|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|As part of the contribution of components analysis for sub-study B, durvalumab plus tremelimumab treatment arm was compared with durvalumab monotherapy.||1.12|0.68|0.282
92455180|NCT02352948|184799471|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.011|TWO_SIDED|95.0|0.49|0.92|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|As part of the contribution of components analysis for sub-study B, durvalumab plus tremelimumab treatment arm was compared with tremelimumab monotherapy.||0.92|0.49|0.011
92455181|NCT02352948|184799472|OTHER|Sub-study A was not powered and thus no formal statistical comparisons were performed.|Odds Ratio (OR)|3.87|||||TWO_SIDED|95.0|1.61|10.1|||||The analysis was performed using logistic regression adjusting for SoC therapy (gemcitabine/vinorelbine versus erlotinib) and histology (squamous versus all other histology types), with 95% CI calculated by profile likelihood.|For sub-study A: durvalumab monotherapy treatment arm was compared with SoC.||10.10|1.61|
92455182|NCT02352948|184799472|SUPERIORITY||Odds Ratio (OR)|2.43||||0.037|TWO_SIDED|95.0|1.1|5.94|||Regression, Logistic||The analysis was performed using logistic regression adjusting for SoC therapy (gemcitabine/vinorelbine versus erlotinib) and histology (squamous versus all other histology types), with 95% CI calculated by profile likelihood.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with SoC.||5.94|1.10|0.037
92455183|NCT02352948|184799472|SUPERIORITY||Odds Ratio (OR)|0.97||||0.923|TWO_SIDED|95.0|0.51|1.89|||Regression, Logistic||The analysis was performed using logistic regression adjusting for SoC therapy (gemcitabine/vinorelbine versus erlotinib) and histology (squamous versus all other histology types), with 95% CI calculated by profile likelihood.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with durvalumab monotherapy.||1.89|0.51|0.923
92455184|NCT02352948|184799472|SUPERIORITY||Odds Ratio (OR)|2.46||||0.109|TWO_SIDED|95.0|0.91|8.61|||Regression, Logistic||The analysis was performed using logistic regression adjusting for SoC therapy (gemcitabine/vinorelbine versus erlotinib) and histology (squamous versus all other histology types), with 95% CI calculated by profile likelihood.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with tremelimumab monotherapy.||8.61|0.91|0.109
92455185|NCT02352948|184799476|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.002|TWO_SIDED|95.0|0.49|0.85|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with SoC.||0.85|0.49|0.002
92455186|NCT00234065|184799485|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% CI limit for the HR of cilostazol to aspirin was 1.33 (4/3) or lower , cilostazol would be non-inferior to aspirin.|Hazard Ratio, log|0.743||||0.0357|TWO_SIDED|95.0|0.564|0.981||The log-rank test was used to verify the superiority of CLZ to ASA only if non-inferiority was verified. The adjusted significance level for the superiority test of the endpoint was set at 0.0471 (two-tailed) according to the O'Brien-Fleming method.|Log Rank|||Statistical Analysis 1 for Number of Patients With First Occurrence of Stroke||0.981|0.564|0.0357
92455187|NCT00234065|184799486|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.88||||0.4189|TWO_SIDED|95.0|0.645|1.2|||Log Rank|||Analyses were done using the full analysis set (FAS) of patients, as predetermined in the protocol. The full analysis set excluded patients who failed to satisfy inclusion criteria and those who violated exclusion criteria.||1.200|0.645|0.4189
92455188|NCT00234065|184799487|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.898||||0.4582|TWO_SIDED|95.0|0.675|1.194|||Log Rank|||Analyses were done using the full analysis set (FAS) of patients, as predetermined in the protocol. The full analysis set excluded patients who failed to satisfy inclusion criteria and those who violated exclusion criteria.||1.194|0.675|0.4582
92455189|NCT00234065|184799488|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.072||||0.86|TWO_SIDED|95.0|0.497|2.313|||Log Rank|||Analyses were done using the full analysis set (FAS) of patients, as predetermined in the protocol. The full analysis set excluded patients who failed to satisfy inclusion criteria and those who violated exclusion criteria.||2.313|0.497|0.8600
92455190|NCT00234065|184799489|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.799||||0.0437|TWO_SIDED|95.0|0.643|0.994|||Log Rank|||Analyses were done using the full analysis set (FAS) of patients, as predetermined in the protocol. The full analysis set excluded patients who failed to satisfy inclusion criteria and those who violated exclusion criteria.||0.994|0.643|0.0437
92455191|NCT00234065|184799490|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.458||||0.0004|TWO_SIDED|95.0|0.296|0.711|||Log Rank|||Analyses were done using the full analysis set (FAS) of patients, as predetermined in the protocol. The full analysis set excluded patients who failed to satisfy inclusion criteria and those who violated exclusion criteria.||0.711|0.296|0.0004
92455192|NCT01292603|184799492|NON_INFERIORITY_OR_EQUIVALENCE|A standard non-inferiority margin of 0.8 for the ratio of Ctrough was used. The non-inferiority limit corresponds to a maximal 20 percent (%) loss in Ctrough which is considered acceptable given the high variability and range of Ctrough data, with an 80% power and a one-sided alpha of 0.05.|Adjusted geometric mean ratio|1.533|||||TWO_SIDED|90.0|1.269|1.852|||||Ratio based on geometric scale and adjusted for the covariate tumor load at baseline.|||1.852|1.269|
92455193|NCT01292603|184799493|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.102|||||TWO_SIDED|90.0|0.979|1.242|||||Ratio based on geometric scale and adjusted for the covariate tumor load at baseline.|||1.242|0.979|
92455194|NCT01292603|184799494|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.719|||||TWO_SIDED|90.0|0.653|0.792|||||Ratio based on geometric scale and adjusted for the covariate tumor load at baseline.|||0.792|0.653|
92281231|NCT01055223|184465620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.62|1.57|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||1.57|0.62|
92281232|NCT01055223|184465620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
92281233|NCT01055223|184465620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
92281234|NCT01055223|184465620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
92281235|NCT01055223|184465620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates|||0.00|0.00|
92281236|NCT01055223|184465621|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.46|||||TWO_SIDED|95.0|1.53|19.45|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||19.45|1.53|
92281237|NCT01055223|184465621|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.19|||||TWO_SIDED|95.0|0.64|15.86|||||Unadjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||15.86|0.64|
92281238|NCT01055223|184465621|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
92281239|NCT01055223|184465621|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
92281240|NCT01055223|184465621|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
92281241|NCT01055223|184465621|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
92281242|NCT01055223|184465622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.26|||||TWO_SIDED|95.0|0.66|80.35|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||80.35|0.66|
92455195|NCT01292603|184799495|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|14.884|||||TWO_SIDED|90.0|11.215|19.755|||||Ratio based on geometric scale and adjusted for the covariate tumor load at baseline.|||19.755|11.215|
92455196|NCT01292603|184799496|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.01|||||TWO_SIDED|90.0|0.895|1.139|||||Ratio based on geometric scale and adjusted for the covariate tumor load at baseline.|||1.139|0.895|
92455197|NCT03912259|184799506|SUPERIORITY||Difference in Percentage|22.0|||<|0.0001|TWO_SIDED|95.0|11.37|32.65||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|P-value was derived by the Cochran-Mantel-Haenszel test stratified by baseline disease severity (IGA=3 vs. IGA=4).||||32.65|11.37|<.0001
92455198|NCT01043432|184799575|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Regression, Linear|||Linear regressions were utilized to model the outcomes of interest as a function of SA, TBI group, and the interaction between the two groups.||||>.05
92455199|NCT04307004|184799577|SUPERIORITY|The threshold for statistical significance was p = 0.05|Mean Difference (Final Values)|0.8|||<|0.0001|TWO_SIDED|95.0|0.5|1.1|||Paired T Test, 2-sided||Mean difference in systolic blood pressure = mean systolic blood pressure when attended - mean systolic blood pressure when not attended (i.e., unattended).|||1.1|0.5|< 0.0001
92455200|NCT04307004|184799577|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.0001|TWO_SIDED|95.0|0.3|0.7||The threshold for statistical significance was p = 0.05|Paired T Test, 2-sided||Mean difference in diastolic blood pressure = mean diastolic blood pressure when attended - mean diastolic blood pressure when not attended (i.e., unattended)|||0.7|0.3|< 0.0001
92455201|NCT04307004|184799578|SUPERIORITY||Mean Difference (Final Values)|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.5||The threshold for statistical significance was p = 0.05|Paired T Test, 2-sided||Mean difference in systolic blood pressure = mean systolic blood pressure on ambulatory blood pressure monitoring - mean systolic blood pressure on home blood pressure monitoring.|||-1.5|-3.0|< 0.0001
92455202|NCT04307004|184799578|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.4||The threshold for statistical significance was p = 0.05|Paired T Test, 2-sided||Mean difference in diastolic blood pressure = mean diastolic blood pressure on ambulatory blood pressure monitoring - mean diastolic blood pressure on home blood pressure monitoring.|||-1.4|-2.5|< 0.0001
92455203|NCT04307004|184799580|OTHER|Independent variable - Attended systolic blood pressure. Dependent variable - Left ventricular mass index.|beta coefficient|0.43|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.32|0.55|||Regression, Linear|||We determined the association between attended systolic blood pressure and left ventricular mass index (LVMI). This analysis included 587 participants with attended office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.55|0.32|< 0.001
92455204|NCT04307004|184799580|OTHER|Independent variable - attended diastolic blood pressure. Dependent variable - left ventricular mass index.|beta coefficient|0.42|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|0.24|0.6|||Regression, Linear|||We determined the association between attended diastolic blood pressure measurements and left ventricular mass index (LVMI). This analysis included 587 with attended office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.60|0.24|< 0.001
92455205|NCT04307004|184799580|OTHER|Independent variable - unattended systolic blood pressure. Dependent variable - left ventricular mass index.|beta coefficient|0.44|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.33|0.56|||Regression, Linear|||We determined the association between unattended systolic blood pressure and left ventricular mass index (LVMI). This analysis included 587 participants with unattended office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.56|0.33|< 0.001
92455206|NCT04307004|184799580|OTHER|Independent variable - unattended diastolic blood pressure. Dependent variable - left ventricular mass index.|beta coefficient|0.37|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|0.19|0.55|||Regression, Linear|||We determined the association between unattended diastolic blood pressure and left ventricular mass index (LVMI). This analysis included 587 participants with unattended office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.55|0.19|< 0.001
92455207|NCT04307004|184799580|OTHER|Independent variable - awake systolic blood pressure on ABPM Dependent variable - left ventricular mass index.|beta coefficient|0.61|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|0.47|0.74|||Regression, Linear|||We determined the association between awake systolic blood pressure from ambulatory blood pressure monitoring (ABPM) and left ventricular mass index (LVMI). This analysis included 554 participants with out-of-office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.74|0.47|< 0.001
92455208|NCT04307004|184799580|OTHER|Independent variable - awake diastolic blood pressure on ABPM. Dependent variable - left ventricular mass index.|beta coefficient|0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.25|0.66|||Regression, Linear|||We determined the association between awake diastolic blood pressure on ambulatory blood pressure monitoring (ABPM) and left ventricular mass index (LVMI). This analysis included 554 participants with out-of-office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.66|0.25|< 0.001
92455209|NCT04307004|184799580|OTHER|Independent variable - asleep systolic blood pressure on HBPM. Dependent variable - left ventricular mass index.|beta coefficient|0.31|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.19|0.44|||Regression, Linear|||We determined the association between asleep systolic blood pressure on home blood pressure monitoring (HBPM) and left ventricular mass index (LVMI). This analysis included 533 participants with HBPM data and valid LVMI. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.44|0.19|< 0.001
92455210|NCT04307004|184799580|OTHER|Independent variable - asleep diastolic blood pressure on HBPM Dependent variable - left ventricular mass index|beta coefficient|0.23|STANDARD_ERROR_OF_MEAN|0.09||0.01|TWO_SIDED|95.0|0.05|0.4|||Regression, Linear|||We determined the association between asleep diastolic blood pressure on home blood pressure monitoring (HBPM) and left ventricular mass index (LVMI). This analysis included 533 participants with data on HBPM and valid LVMI. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.40|0.05|0.01
92455211|NCT04307004|184799580|OTHER|Independent variable - asleep systolic blood pressure on ABPM. Dependent variable - left ventricular mass index.|beta coefficient|0.45|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|0.32|0.59|||Regression, Linear|||We determined the association between asleep systolic blood pressure on ambulatory blood pressure monitoring (ABPM) and left ventricular mass index (LVMI). This analysis included 533 participants with data on ABPM and valid LVMI. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.59|0.32|< 0.001
92455212|NCT04307004|184799580|OTHER|Independent variable - asleep diastolic blood pressure on ABPM Dependent variable - left ventricular mass index.|beta coefficient|0.36|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.16|0.55|||Regression, Linear|||We determined the association between asleep diastolic blood pressure on ambulatory blood pressure monitoring (ABPM) and left ventricular mass index (LVMI). This analysis included 533 participants with data on ABPM and valid LVMI. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.55|0.16|< 0.001
92455213|NCT04307004|184799581|OTHER|Independent variable - attended systolic blood pressure. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.17|TWO_SIDED|95.0|-0.47|0.08|||Regression, Linear|||We determined the association between attended systolic blood pressure and urinary albumin-to-creatinine ratio (UACR). This analysis included 555 participants with complete data on attended office blood pressure and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.08|-0.47|0.17
92455214|NCT04307004|184799581|OTHER|Independent variable - attended diastolic blood pressure. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.28|STANDARD_ERROR_OF_MEAN|0.22||0.2|TWO_SIDED|95.0|-0.7|0.15|||Regression, Linear|||We determined the association between attended diastolic blood pressure and urinary albumin-to-creatinine ratio (UACR). This analysis included 555 participants with complete data on attended office blood pressure and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.15|-0.70|0.20
92455215|NCT04307004|184799581|OTHER|Independent variable - unattended systolic blood pressure. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.26|STANDARD_ERROR_OF_MEAN|0.14||0.07|TWO_SIDED|95.0|-0.55|0.02|||Regression, Linear|||We determined the association between unattended systolic blood pressure and urinary albumin-to-creatinine ratio (UACR). This analysis included 555 participants with complete data on unattended blood pressure and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.02|-0.55|0.07
92455216|NCT04307004|184799581|OTHER|Independent variable - unattended diastolic blood pressure. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.37|STANDARD_ERROR_OF_MEAN|0.22||0.09|TWO_SIDED|95.0|-0.8|0.06|||Regression, Linear|||We determined the association between unattended diastolic blood pressure and urinary albumin-to-creatinine ratio (UACR). This analysis included 555 participants with complete data on unattended diastolic blood pressure and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.06|-0.80|0.09
92455217|NCT04307004|184799581|OTHER|"Independent variable - awake systolic blood pressure on ambulatory blood pressure monitoring.~Dependent variable - urinary albumin-to-creatinine ratio."|beta coefficient|0.01|STANDARD_ERROR_OF_MEAN|0.15||0.94|TWO_SIDED|95.0|-0.29|0.31|||Regression, Linear|||We determined the association between awake systolic blood pressure on ambulatory blood pressure monitoring (ABPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 523 participants with complete data on ABPM and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.31|-0.29|0.94
92455218|NCT04307004|184799581|OTHER|"Independent variable - awake diastolic blood pressure on ambulatory blood pressure monitoring.~Dependent variable - urinary albumin-to-creatinine ratio."|beta coefficient|0.22|STANDARD_ERROR_OF_MEAN|0.22||0.31|TWO_SIDED|95.0|-0.21|0.66|||Regression, Linear|||We determined the association between awake diastolic blood pressure on ambulatory blood pressure monitoring (ABPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 523 participants with complete data on ABPM and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.66|-0.21|0.31
92242365|NCT00755846|184387952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.4|STANDARD_ERROR_OF_MEAN|8.91||0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.001
92242366|NCT00755846|184387952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.6|STANDARD_ERROR_OF_MEAN|9.2||0.008||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.008
92455219|NCT04307004|184799581|OTHER|Independent variable - asleep systolic blood pressure on HBPM. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.01|STANDARD_ERROR_OF_MEAN|0.14||0.94|TWO_SIDED|95.0|-0.28|0.26|||Regression, Linear|||We determined the association between asleep systolic blood pressure on home blood pressure monitoring (HBPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 505 participants with complete HBPM and UACR data. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.26|-0.28|0.94
92455220|NCT04307004|184799581|OTHER|Independent variable - asleep diastolic blood pressure on HBPM. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.02|STANDARD_ERROR_OF_MEAN|0.2||0.93|TWO_SIDED|95.0|-0.4|0.36|||Regression, Linear|||We determined the association between asleep diastolic blood pressure on home blood pressure monitoring (HBPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 505 participants with complete HBPM and UACR data. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.36|-0.40|0.93
92455221|NCT04307004|184799581|OTHER|Independent variable - asleep systolic blood pressure on ABPM. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|0.09|STANDARD_ERROR_OF_MEAN|0.15||0.54|TWO_SIDED|95.0|-0.21|0.4|||Regression, Linear|||We determined the association between asleep systolic blood pressure on ambulatory blood pressure monitoring (ABPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 505 participants with complete ABPM and UACR data. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.40|-0.21|0.54
92455222|NCT04307004|184799581|OTHER|Independent variable - asleep diastolic blood pressure on ABPM. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|0.26|STANDARD_ERROR_OF_MEAN|0.21||0.23|TWO_SIDED|95.0|-0.16|0.68|||Regression, Linear|||We determined the association between asleep diastolic blood pressure on ambulatory blood pressure monitoring (ABPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 505 participants with complete ABPM and UACR data. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.68|-0.16|0.23
92281243|NCT01055223|184465622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78|||||TWO_SIDED|95.0|0.03|96.47|||||Adjusted Odds Ratio. Reference group: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosponates.|||96.47|0.03|
92281244|NCT01055223|184465622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference Group: TZD alone.|||0.00|0.00|
92455223|NCT01972841|184799594|SUPERIORITY||Least squares mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.12||0.072|TWO_SIDED|95.0|-0.49|-0.01||Nominal p-value|Stratified rank ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.01|-0.49|0.072
92173687|NCT05481216|184238632|OTHER||Odds Ratio (OR)|1.93||||0.012|TWO_SIDED|95.0|1.16|3.22|||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19. Odds ratio (OR), and the 95% confidence intervals of the OR will be calculated||3.22|1.16|0.012
92173688|NCT05481216|184238633|OTHER||Odds Ratio (OR)|0.99||||0.458|TWO_SIDED|95.0|0.95|1.02|||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19. Odds ratio (OR), and the 95% confidence intervals of the OR will be calculated||1.02|0.95|0.458
92173689|NCT05481216|184238634|OTHER||Odds Ratio (OR)|2.71|||<|0.001|TWO_SIDED|95.0|1.61|4.57|||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19. Odds ratio (OR), and the 95% confidence intervals of the OR will be calculated||4.57|1.61|<0.001
92173690|NCT05481216|184238635|OTHER||Odds Ratio (OR)|1.74|||<|0.001|TWO_SIDED|95.0|1.34|2.25|||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19. Odds ratio (OR), and the 95% confidence intervals of the OR will be calculated||2.25|1.34|<0.001
92173691|NCT02120456|184238650|SUPERIORITY||Rate ratio|0.45|||<|0.001|TWO_SIDED|95.0|0.34|0.58|||Negative binominal regression|||Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||0.58|0.34|<0.001
92173692|NCT02120456|184238650|SUPERIORITY||Rate ratio|0.56|||<|0.001|TWO_SIDED|95.0|0.44|0.73|||Negative binominal regression|||Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||0.73|0.44|<0.001
92173693|NCT02120456|184238650|SUPERIORITY||Rate ratio|1.26||||0.058|TWO_SIDED|95.0|0.99|1.6|||Negative binominal regression|||||1.60|0.99|0.058
92173694|NCT02120456|184238651|SUPERIORITY||Ratio of clearance rates|1.05||||0.94|TWO_SIDED|95.0|0.3|4.73|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||4.73|0.30|0.94
92173695|NCT02120456|184238651|SUPERIORITY||Ratio of clearance rates|1.0||||1|TWO_SIDED|95.0|0.28|4.51|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||4.51|0.28|1.00
92173696|NCT02120456|184238651|SUPERIORITY||Ratio of clearance rates|0.95||||0.93|TWO_SIDED|95.0|0.31|2.89|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||2.89|0.31|0.93
92242367|NCT00755846|184387952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.5|STANDARD_ERROR_OF_MEAN|8.88|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and body mass index, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
92281245|NCT01055223|184465622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
92173697|NCT02120456|184238652|SUPERIORITY||Ratio of clearance rates|2.88||||0.003|TWO_SIDED|95.0|1.36|7.85|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||7.85|1.36|0.003
92173698|NCT02120456|184238652|SUPERIORITY||Ratio of clearance rates|2.84||||0.004|TWO_SIDED|95.0|1.35|7.74|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||7.74|1.35|0.004
92173699|NCT02120456|184238652|SUPERIORITY||Ratio of clearance rates|0.99||||0.95|TWO_SIDED|95.0|0.66|1.47|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||1.47|0.66|0.95
92173700|NCT04229992|184238688|SUPERIORITY||||||<|0.05|||||||Regression, Linear|P value was calculated using general linear mode adjusted for age, sex, BMI and baseline level||"1. GG genotype and magnesium treatment vs GG genotype and placebo;~2. GA/AA genotype and magnesium treatment vs GA/AA genotype and Placebo."||||<0.05
92173701|NCT04229992|184238689|SUPERIORITY||||||<|0.05|||||||Regression, Linear|P value was calculated using general linear mode adjusted for age, sex, BMI and baseline level||"1. GG genotype and magnesium treatment vs GG genotype and placebo;~2. GA/AA genotype and magnesium treatment vs GA/AA genotype and Placebo"||||<0.05
92173702|NCT03770273|184238690|OTHER|||||||0.774|||||||Regression, Linear|||||||0.7740
92173703|NCT03770273|184238692|OTHER|||||||0.1071|||||||Regression, Linear|||||||0.1071
92173704|NCT03770273|184238693|OTHER|||||||0.4904|||||||Regression, Linear|||||||0.4904
92173705|NCT03770273|184238694|OTHER|||||||0.1399|||||||Regression, Linear|||||||0.1399
92455224|NCT01972841|184799594|SUPERIORITY||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.033|TWO_SIDED|95.0|-0.44|0.04||Nominal p-value|Stratified rank ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.04|-0.44|0.033
92455225|NCT01972841|184799594|SUPERIORITY||Least squares mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.12||0.001|TWO_SIDED|95.0|-0.58|-0.1|||Stratified rank ANCOVA||Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.10|-0.58|0.001
92455226|NCT01972841|184799594|SUPERIORITY||Least squares mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.12||0.052|TWO_SIDED|95.0|-0.47|0.01|||Stratified rank ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.01|-0.47|0.052
92455227|NCT01972841|184799595|SUPERIORITY||Least squares mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.14||0.04|TWO_SIDED|95.0|-0.57|-0.01||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.01|-0.57|0.040
92455228|NCT01972841|184799595|SUPERIORITY||Least squares mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.14||0.006|TWO_SIDED|95.0|-0.67|-0.11||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.11|-0.67|0.006
92455229|NCT01972841|184799595|SUPERIORITY||Least squares mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.001|TWO_SIDED|95.0|-0.76|-0.21||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.21|-0.76|0.001
92455230|NCT01972841|184799595|SUPERIORITY||Least squares mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.84|-0.28||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.28|-0.84|<0.001
92242368|NCT00755846|184387952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|9.09||0.136||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.136
92242369|NCT00755846|184387952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.3|STANDARD_ERROR_OF_MEAN|9.07||0.073||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.073
92242370|NCT00755846|184387953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5|STANDARD_ERROR_OF_MEAN|5.85|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
92242371|NCT00755846|184387953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.2|STANDARD_ERROR_OF_MEAN|7.37||0.01||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.010
92242372|NCT00755846|184387953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.8|STANDARD_ERROR_OF_MEAN|7.71||0.002||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.002
92281246|NCT01055223|184465622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
92455231|NCT01972841|184799596|SUPERIORITY||Least squares mean difference|3.85|STANDARD_ERROR_OF_MEAN|3.13||0.219|TWO_SIDED|95.0|-2.29|10.0||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||10.00|-2.29|0.219
92173706|NCT05521308|184238715|SUPERIORITY||Mean Difference (Final Values)|0.38|||<|0.001|TWO_SIDED|95.0|0.2|1.0|||ANOVA|||This is to see if there is a difference in preference count per participant between Variation #1, Variation #2 and Same counts.||1.00|0.20|<0.001
92242373|NCT00755846|184387953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.1|STANDARD_ERROR_OF_MEAN|7.33||0.003||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.003
92242374|NCT00755846|184387953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.7|STANDARD_ERROR_OF_MEAN|7.44||0.006||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.006
92242375|NCT00755846|184387953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.7|STANDARD_ERROR_OF_MEAN|7.45||0.117||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.117
92242376|NCT00755846|184387954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.3|STANDARD_ERROR_OF_MEAN|6.6||0.014||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.014
92242377|NCT00755846|184387954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.5|STANDARD_ERROR_OF_MEAN|8.35||0.136||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.136
92242378|NCT00755846|184387954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.1|STANDARD_ERROR_OF_MEAN|8.73||0.022||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.022
92281247|NCT01055223|184465622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
92281248|NCT03387033|184465624|OTHER||||||<|0.005|||||||Paired t-test|||||||<0.005
92242379|NCT00755846|184387954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.1|STANDARD_ERROR_OF_MEAN|8.26||0.004||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.004
92242380|NCT00755846|184387954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.5|STANDARD_ERROR_OF_MEAN|8.48||0.04||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.040
92281249|NCT03387033|184465625|OTHER||||||<|0.05|||||||Paired t-test|||||||<0.05
92281250|NCT03387033|184465626|OTHER||||||<|0.05|||||||Paired t-test|||||||<0.05
92281251|NCT00414466|184465630|SUPERIORITY_OR_OTHER|||||||0.802||95.0||||The a priori threshold for statistical significance was 0.05, two-sided.|Williams test for minimum effective dose|||Williams' test for Minimum Effective Dose was used to compare each active group to the placebo.||||0.802
92281252|NCT00414466|184465630|SUPERIORITY_OR_OTHER|||||||0.874||95.0||||The a priori threshold for statistical significance was 0.05, two-sided.|Williams test for minimum effective dose|||Williams' test for Minimum Effective Dose was used to compare each active group to the placebo.||||0.874
92455232|NCT01972841|184799596|SUPERIORITY||Least squares mean difference|8.75|STANDARD_ERROR_OF_MEAN|3.13||0.005|TWO_SIDED|95.0|2.61|14.89||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||14.89|2.61|0.005
92455233|NCT01972841|184799596|SUPERIORITY||Least squares mean difference|21.52|STANDARD_ERROR_OF_MEAN|3.14|<|0.001|TWO_SIDED|95.0|15.35|27.68||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||27.68|15.35|<0.001
92455234|NCT01972841|184799596|SUPERIORITY||Least squares mean difference|17.74|STANDARD_ERROR_OF_MEAN|3.14|<|0.001|TWO_SIDED|95.0|11.58|23.9||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||23.90|11.58|<0.001
92455235|NCT01972841|184799597|SUPERIORITY||Least squares mean difference|-4.63|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-6.98|-2.27|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-2.27|-6.98|<0.001
92242381|NCT00755846|184387954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5|STANDARD_ERROR_OF_MEAN|8.47||0.378||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.378
92173707|NCT05521308|184238715|SUPERIORITY||Mean Difference (Final Values)|3.23||||0.02|TWO_SIDED|95.0|0.41|6.05|||t-test, 2 sided|||This is to see if there is a difference between Variation #1 and Variation #2 preference counts per participant.||6.05|0.41|0.02
92173708|NCT05521308|184238715|SUPERIORITY||Mean Difference (Final Values)|0.35|||<|0.001|TWO_SIDED|95.0|0.18|1.0|||ANOVA|||This is to see if there is a difference in preference count per participant between Variation #1, Variation #3 and Same counts.||1.00|0.18|<0.001
92264775|NCT02777554|184431068|OTHER||Ratio (%) of Geometric Means|86.1|||||TWO_SIDED|90.0|75.0|98.8|||||Geometric mean ratio (Apremilast 75 mg XL (Fasted) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞ of apremilast.||98.8|75.0|
92173709|NCT05521308|184238715|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.54|TWO_SIDED|95.0|-1.36|3.55|||t-test, 2 sided|||This is to see if there is a difference between Variation #1 and Variation #3 preference counts per participant.||3.55|-1.36|.54
92455236|NCT01972841|184799597|SUPERIORITY||Least squares mean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|-8.17|-3.44|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-3.44|-8.17|<0.001
92455237|NCT01972841|184799597|SUPERIORITY||Least squares mean difference|-7.13|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|-9.5|-4.76|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-4.76|-9.50|<0.001
92455238|NCT01972841|184799597|SUPERIORITY||Least squares mean difference|-6.1|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-8.46|-3.74|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-3.74|-8.46|<0.001
92242382|NCT00755846|184387955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|5.37||0.718||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.718
92455239|NCT01972841|184799598|SUPERIORITY||Least squares mean difference|0.25|STANDARD_ERROR_OF_MEAN|0.14||0.077|TWO_SIDED|95.0|-0.03|0.52|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.52|-0.03|0.077
92455240|NCT01972841|184799598|SUPERIORITY||Least squares mean difference|0.27|STANDARD_ERROR_OF_MEAN|0.14||0.05|TWO_SIDED|95.0|0.0|0.55|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.55|0.00|0.050
92173710|NCT05521308|184238715|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.231|TWO_SIDED|95.0|0.0|1.0|||ANOVA|||This is to see if there is a difference in preference count per participant between Variation #2, Variation #3, and Same counts.||1.00|0|.231
92455241|NCT01972841|184799598|SUPERIORITY||Least squares mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.14||0.008|TWO_SIDED|95.0|0.1|0.65|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.65|0.10|0.008
92173711|NCT05521308|184238717|SUPERIORITY||Cramer's V|0.14||||0.13|TWO_SIDED||||||Chi-squared|This is to see if there is a difference in preference counts between standard curve, variation #4, and # of times they were rated as the same. -Indoor||||||.13
92173712|NCT05521308|184238717|SUPERIORITY||Cramer's V|0.2||||0.04|TWO_SIDED|||||This is to see if there is a difference in preference counts between standard curve, variation #4, and # of time they were rated as the same. -Outdoor|Chi-squared|||||||0.04
92173713|NCT05521308|184238717|SUPERIORITY||Cramer's V|0.2||||0.04|TWO_SIDED||||||Chi-squared|||The number of participants that showed overall preference toward variation #4 vs. the standard curve vs. no preference. - Outdoors.||||0.04
92173714|NCT05521308|184238718|SUPERIORITY||Effect Size|0.26|||<|0.001|TWO_SIDED|95.0|0.1|1.0|||ANOVA|Initally this is to see if there is a differnce between Unaided, Aided #1 and Aided #2.||Standard Curve vs Variation #4||1.00|0.10|<0.001
92455242|NCT01972841|184799598|SUPERIORITY||Least squares mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.14||0.007|TWO_SIDED|95.0|0.1|0.65|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.65|0.10|0.007
92455243|NCT01972841|184799599|SUPERIORITY||Rate ratio|0.87|STANDARD_ERROR_OF_MEAN|0.09||0.135|TWO_SIDED|95.0|0.72|1.04|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, ≥65 years), geographic region and previous OAB medication (yes, no) as factors, log(number of incontinence episodes used divided by number of valid diary days) at baseline included as a covariate and number of valid diary days at EoT as the offset variable.||1.04|0.72|0.135
92173715|NCT05521308|184238718|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.855|TWO_SIDED|95.0|-2.83|2.35||Post-Hoc Pairwise Comparison|t-test, 2 sided|Standard Curve vs Variation #4||||2.35|-2.83|0.855
92173716|NCT03056040|184238735|NON_INFERIORITY|A difference in percent change in LDH between the ravulizumab and eculizumab treatment groups at Day 183 along with a 2-sided 95% confidence interval (CI) was calculated. Noninferiority margin (NIM) was based on the upper bound of the 95% CI. NIM was 15%.|Treatment Difference|-9.21|||||TWO_SIDED|95.0|-18.84|0.42|||||Treatment difference was estimated for ravulizumab - eculizumab.|Adjusting for a possible 10% dropout rate, a minimum of 192 participants were estimated to provide 90% power to demonstrate noninferiority of ravulizumab to eculizumab.||0.42|-18.84|
92173717|NCT03056040|184238736|NON_INFERIORITY|NIM was based on the upper bound of the 95% CI. NIM was 20%.|Treatment Difference|-5.1|||||TWO_SIDED|95.0|-18.99|8.89|||||Treatment difference was estimated for ravulizumab - eculizumab.|A difference in the percentages of participants with BTH was calculated between the ravulizumab and eculizumab treatment groups, along with a 95% CI for the difference using the stratified Newcombe CI method. The stratification factor observed was transfusion history within 1 year prior to first dose of study drug.||8.89|-18.99|
92281253|NCT00414466|184465630|SUPERIORITY_OR_OTHER|||||||0.899||95.0||||The a priori threshold for statistical significance was 0.05, two-sided.|Williams test for minimum effective dose|||Williams' test for Minimum Effective Dose was used to compare each active group to the placebo.||||0.899
92455244|NCT01972841|184799599|SUPERIORITY||Rate ratio|0.9|STANDARD_ERROR_OF_MEAN|0.09||0.282|TWO_SIDED|95.0|0.75|1.09|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, ≥65 years), geographic region and previous OAB medication (yes, no) as factors, log(number of incontinence episodes used divided by number of valid diary days) at baseline included as a covariate and number of valid diary days at EoT as the offset variable.||1.09|0.75|0.282
92455245|NCT01972841|184799599|SUPERIORITY||Rate ratio|0.71|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|0.59|0.85|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, ≥65 years), geographic region and previous OAB medication (yes, no) as factors, log(number of incontinence episodes used divided by number of valid diary days) at baseline included as a covariate and number of valid diary days at EoT as the offset variable.||0.85|0.59|<0.001
92173718|NCT03056040|184238737|NON_INFERIORITY|NIM was based on the lower bound of the 95% CI. NIM margin was -3.|Treatment Difference|1.47|||||TWO_SIDED|95.0|-0.21|3.15|||||Treatment difference was estimated for ravulizumab - eculizumab.|||3.15|-0.21|
92173719|NCT03056040|184238738|NON_INFERIORITY|NIM was based on the lower bound of the 95% CI. NIM was -20%.|Treatment Difference|5.5|||||TWO_SIDED|95.0|-4.27|15.68|||||Treatment difference was estimated for ravulizumab - eculizumab.|A difference in the percentages of participants achieving transfusion avoidance was calculated between the ravulizumab and eculizumab treatment groups, along with a 95% CI for the difference using the stratified Newcombe CI method. The stratification factor observed was transfusion history within 1 year prior to first dose of study drug||15.68|-4.27|
92173720|NCT03056040|184238739|NON_INFERIORITY|NIM was based on the lower bound of the 95% CI. NIM was -20%.|Treatment Difference|1.4|||||TWO_SIDED|95.0|-10.41|13.31|||||Treatment difference was estimated for ravulizumab - eculizumab.|A difference in the percentages of participants with stabilized hemoglobin was calculated between the ravulizumab and eculizumab treatment groups, along with a 95% CI for the difference using the stratified Newcombe CI method. The stratification factor observed was transfusion history within 1 year prior to first dose of study drug.||13.31|-10.41|
92173721|NCT03850678|184238805|SUPERIORITY|||||||0.774|||||||ANOVA|||This analysis examined Q10 for those participants who completed the compression speed experiment (instant, fast, slow).||||.774
92173722|NCT03850678|184238805|SUPERIORITY||||||<|0.001|||||||ANOVA|||This analysis examined Q10 for those participants who completed the compression channel conditions (4, 8, 16).||||<.001
92173723|NCT03850678|184238805|SUPERIORITY|||||||0.167|||||||ANOVA|||This analysis compared Q10 for those participants who completed the unaided and aided conditions.||||.167
92173724|NCT03850678|184238806|SUPERIORITY|||||||0.741|||||||ANOVA|||Statistical analysis of number of compression channels (unaided, 4 channel, 16 channels)||||.741
92173725|NCT03850678|184238806|SUPERIORITY|||||||0.062||||||Due to Levene's Test for Equality of Variances, equal variances were not assumed.|t-test, 1 sided|||Spatial Release from Masking, unaided.||||.062
92173726|NCT03850678|184238807|SUPERIORITY|||||||0.805|||||||Regression, Linear|||Linear regression of score for the reading span (independent variable) to Q10 (dependent variable, 16 channel compression condition) for the participants who completed the compression channel experiment.||||.805
92173727|NCT05590403|184238854|NON_INFERIORITY|Non-inferiority is demonstrated if the anti-RSV-A GMT ratio (OA-RSV Group over Adults-HA-RSV Group) is less than (\<) 1.5 at 1 month post RSVPreF3 OA vaccine administration.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.83|1.09|||||The comparison is done using the group ratio of adjusted GMT (OA-RSV/Adults-HA-RSV) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to healthy adults aged 50-59 years of age compared with older adults aged 60 years of age or above.||1.09|0.83|
92173728|NCT05590403|184238855|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (OA-RSV Group minus Adults-HA-RSV Group) in terms of SRR is \<10%, at 1 month post RSVPreF3 OA vaccine administration.|Difference in percentage|-2.65|||||TWO_SIDED|95.0|-8.54|3.28|||||The comparison is done using the difference of SRR (OA-RSV -Adults-HA-RSV)|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to healthy adults aged 50-59 years of age compared with older adults aged 60 years of age or above.||3.28|-8.54|
92173729|NCT05590403|184238856|NON_INFERIORITY|Non-inferiority is demonstrated if the anti-RSV-B GMT ratio (OA-RSV Group over Adults-HA-RSV Group) is \<1.5 at 1 month post RSVPreF3 OA vaccine administration.|GMT Ratio|0.89|||||TWO_SIDED|95.0|0.79|1.02|||||The comparison is done using the group ratio of adjusted GMT (OA-RSV/Adults-HA-RSV) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to healthy adults aged 50-59 years of age compared with older adults aged 60 years of age or above.||1.02|0.79|
92173730|NCT05590403|184238857|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (OA-RSV Group minus Adults-HA-RSV Group) in terms of SRR is \<10%, at 1 month post RSVPreF3 OA vaccine administration.|Difference in percentage|-3.95|||||TWO_SIDED|95.0|-10.39|2.53|||||The comparison is done using the difference of SRR (OA-RSV -Adults-HA-RSV)|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to healthy adults aged 50-59 years of age compared with older adults aged 60 years of age or above.||2.53|-10.39|
92173731|NCT05590403|184238858|NON_INFERIORITY|Non-inferiority is demonstrated if the anti-RSV-A GMT ratio (OA-RSV Group over Adults-AIR-RSV Group) is \<1.5 at 1 month post RSVPreF3 OA vaccine administration.|GMT Ratio|0.84|||||TWO_SIDED|95.0|0.73|0.96|||||The comparison is done using the group ratio of adjusted GMT (OA-RSV/Adults-AIR-RSV) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to adults at increased risk of RSV-LRTD aged 50-59 years of age compared with older adults aged 60 years of age or above.||0.96|0.73|
92173732|NCT05590403|184238859|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (OA-RSV Group over Adults-AIR-RSV Group) in terms of SRR is \<10%, at 1 month post RSVPreF3 OA vaccine administration.|Difference in percentage|-6.67|||||TWO_SIDED|95.0|-12.26|-1.12|||||The comparison is done using the difference of SRR (OA-RSV -Adults-AIR-RSV)|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to adults at increased risk of RSV-LRTD aged 50-59 years of age compared with older adults aged 60 years of age or above.||-1.12|-12.26|
92173733|NCT05590403|184238860|NON_INFERIORITY|Non-inferiority is demonstrated if the anti-RSV-B GMT ratio (OA-RSV Group over Adults-AIR-RSV Group) is \<1.5 at 1 month post RSVPreF3 OA vaccine administration.|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.71|0.91|||||The comparison is done using the group ratio of adjusted GMT (OA-RSV/Adults-AIR-RSV) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to adults at increased risk of RSV-LRTD aged 50-59 years of age compared with older adults aged 60 years of age or above.||0.91|0.71|
92173734|NCT05590403|184238861|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (OA-RSV Group over Adults-AIR-RSV Group) in terms of SRR is \<10%, at 1 month post RSVPreF3 OA vaccine administration.|Difference in percentage|-7.31|||||TWO_SIDED|95.0|-13.52|-1.09|||||The comparison is done using the difference of SRR (OA-RSV -Adults-AIR-RSV)|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to adults at increased risk of RSV-LRTD aged 50-59 years of age compared with older adults aged 60 years of age or above.||-1.09|-13.52|
92173735|NCT04717492|184238894|OTHER||Cox Proportional Hazard|1.01||||0.962|TWO_SIDED|95.0|0.66|1.54||No adjustments for multiplicity were performed.|Regression, Cox|Cox proportional hazard model with inverse probability of treatment weighting as described in primary manuscript.||Time to death, or first hospitalization or revascularization event was analyzed using cox proportional hazards models with inverse probability of treatment weighting (IPTW) to reduce confounding. Missing data were imputed using multivariate imputation by chained equations with predictive mean matching.||1.54|0.66|0.962
92173736|NCT04717492|184238896|OTHER||Cox Proportional Hazard|1.11||||0.694|TWO_SIDED|95.0|0.65|1.92||No adjustments for multiplicity were performed.|Regression, Cox|Cox proportional hazard model with inverse probability of treatment weighting as described in primary manuscript.||Time to CVD-related death or hospitalization/revascularization was analyzed using cox proportional hazards models with inverse probability of treatment weighting (IPTW) to reduce confounding. Missing data were imputed using multivariate imputation by chained equations with predictive mean matching.||1.92|0.65|0.694
92455246|NCT01972841|184799599|SUPERIORITY||Rate ratio|0.88|STANDARD_ERROR_OF_MEAN|0.1||0.172|TWO_SIDED|95.0|0.73|1.06|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, ≥65 years), geographic region and previous OAB medication (yes, no) as factors, log(number of incontinence episodes used divided by number of valid diary days) at baseline included as a covariate and number of valid diary days at EoT as the offset variable.||1.06|0.73|0.172
92455247|NCT01972841|184799600|SUPERIORITY||least squares mean difference|-1.64|STANDARD_ERROR_OF_MEAN|0.83||0.074|TWO_SIDED|95.0|-3.27|-0.01|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.offset variable.||-0.01|-3.27|0.074
92455248|NCT01972841|184799600|SUPERIORITY||Least squares mean difference|-1.33|STANDARD_ERROR_OF_MEAN|0.83||0.025|TWO_SIDED|95.0|-2.96|0.3|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.30|-2.96|0.025
92455249|NCT01972841|184799600|SUPERIORITY||least square mean difference|-2.36|STANDARD_ERROR_OF_MEAN|0.83|<|0.001|TWO_SIDED|95.0|-4.0|-0.73|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.73|-4.00|<0.001
92455250|NCT01972841|184799600|SUPERIORITY||Least squares mean difference|-1.59|STANDARD_ERROR_OF_MEAN|0.84||0.024|TWO_SIDED|95.0|-3.23|0.05|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.05|-3.23|0.024
92455251|NCT01972841|184799604|SUPERIORITY||Least squares mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.29||0.52|TWO_SIDED|95.0|-0.39|0.76|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||0.76|-0.39|0.520
92455252|NCT01972841|184799604|SUPERIORITY||Least squares mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.29||0.413|TWO_SIDED|95.0|-0.82|0.34|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||0.34|-0.82|0.413
92455253|NCT01972841|184799604|SUPERIORITY||Least squares mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.29||0.002|TWO_SIDED|95.0|-1.5|-0.34|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||-0.34|-1.50|0.002
92173737|NCT04717492|184238898|OTHER||Cox Proportional Hazard|0.75||||0.476|TWO_SIDED|95.0|0.34|1.66||No adjustments for multiplicity were performed.|Regression, Cox|Cox proportional hazard model with inverse probability of treatment weighting as described in primary manuscript.||Time to respiratory/COPD-related death or hospitalization was analyzed using Cox proportional hazards models with inverse probability of treatment weighting (IPTW) to reduce confounding. Missing data were imputed using multivariate imputation by chained equations with predictive mean matching.||1.66|0.34|0.476
92173738|NCT05071807|184238904|SUPERIORITY||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-1.17|1.33|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and BMI (kg/m2)||To detect a 1.2 percentage point (standard deviation 2.4; effect size 0.5) between-group difference in the change in FMD with 80% power (α=0.05), it was estimated that a sample size of 128 participants was needed (64 per group)||1.33|-1.17|
92173739|NCT05071807|184238905|SUPERIORITY||Mean Difference (Net)|-7.2|||||TWO_SIDED|95.0|-12.3|-2.1|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||-2.1|-12.3|
92173740|NCT05071807|184238906|SUPERIORITY||Mean Difference (Net)|1.1|||||TWO_SIDED|95.0|-0.8|2.9|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||2.9|-0.8|
92173741|NCT05071807|184238907|SUPERIORITY||Mean Difference (Net)|-16.4|||||TWO_SIDED|95.0|-30.0|-2.9|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||-2.9|-30.0|
92173742|NCT05071807|184238908|SUPERIORITY||Mean Difference (Net)|-75.3|||||TWO_SIDED|95.0|-144.0|-6.93|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||Total LDL particle mean difference||-6.93|-144|
92173743|NCT05071807|184238908|SUPERIORITY||Mean Difference (Net)|-27.9|||||TWO_SIDED|95.0|-69.3|13.4|||Regression, Linear|adjustment for the baseline value, age (years), sex (male or female) and body mass index (BMI) (kg/m2)||For Large LDL particle subclass||13.4|-69.3|
92173744|NCT05071807|184238909|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.56|0.75|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2).||Results for total HDL particle count||0.75|-0.56|
92173745|NCT05071807|184238909|SUPERIORITY||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.75|0.8||||Adjusted for baseline value, age, sex, and BMI||Results for Small HDL particles||0.80|-0.75|
92173746|NCT05071807|184238909|SUPERIORITY||Mean Difference (Net)|-0.33|||||TWO_SIDED|95.0|-0.85|0.19|||Regression, Linear|Adjusted for baseline value, age, sex, and BMI||Results for Medium HDL||0.19|-0.85|
92173747|NCT05071807|184238910|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-3.09|3.13|||Regression, Linear|were adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||Results from brachial systolic blood pressure are reported below||3.13|-3.09|
92173748|NCT05071807|184238910|SUPERIORITY||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-1.67|2.07|||Regression, Linear|Adjusted for baseline value, age, sex, BMI||Results for Brachial Diastolic Blood pressure||2.07|-1.67|
92242383|NCT00755846|184387955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4|STANDARD_ERROR_OF_MEAN|6.8||0.346||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.346
92281254|NCT00414466|184465631|SUPERIORITY_OR_OTHER|||||||1||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. Hochberg's adjustment for multiple comparisons was used.|Fisher Exact|||||||1.000
92455254|NCT01972841|184799604|SUPERIORITY||Least squares mean diffrence|-0.56|STANDARD_ERROR_OF_MEAN|0.3||0.06|TWO_SIDED|95.0|-1.13|0.02|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||0.02|-1.13|0.060
92173749|NCT05071807|184238911|SUPERIORITY||Mean Difference (Net)|-0.48|||||TWO_SIDED|95.0|-3.24|2.28|||Regression, Linear|Adjusted for baseline value, age, sex, BMI||Results for central systolic blood pressure||2.28|-3.24|
92173750|NCT05071807|184238911|SUPERIORITY||Median Difference (Net)|0.21|||||TWO_SIDED|95.0|-1.69|2.1|||Regression, Linear|Adjusted for baseline value, age, sex, BMI||Results for central diastolic blood pressure||2.10|-1.69|
92173751|NCT05071807|184238912|SUPERIORITY||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-0.26|0.24|||Regression, Linear|were adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||0.24|-0.26|
92173752|NCT05071807|184238913|SUPERIORITY||Mean Difference (Net)|-1.65|||||TWO_SIDED|95.0|-4.25|0.95|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||0.95|-4.25|
92173753|NCT05071807|184238914|SUPERIORITY||Mean Difference (Net)|1.2|||||TWO_SIDED|95.0|-0.6|3.0|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||3.0|-0.6|
92281255|NCT00414466|184465631|SUPERIORITY_OR_OTHER|||||||1||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. Hochberg's adjustment for multiple comparisons was used.|Fisher Exact|||||||1.000
92173754|NCT05071807|184238915|SUPERIORITY||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-2.3|1.6|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2).||||1.6|-2.3|
92173755|NCT05071807|184238916|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|0.0|0.1|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2).||||0.1|0.0|
92173756|NCT05071807|184238917|SUPERIORITY||Mean Difference (Net)|9.4|||||TWO_SIDED|95.0|5.0|13.7||When a significant group by time point interaction was detected, post hoc testing was conducted and the Tukey-Kramer method was used to adjust for multiple comparisons.|Mixed Models Analysis|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2).||||13.7|5.0|
92173757|NCT05071807|184238918|SUPERIORITY||Median Difference (Net)|-8.1|||||TWO_SIDED|95.0|-14.5|-1.7|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||-1.7|-14.5|
92173758|NCT05071807|184238919|SUPERIORITY||Mean Difference (Net)|-25.5|||||TWO_SIDED|95.0|-98.6|47.5|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||Results for medium subclass; Measure Description: LDL particle size classifications are as follows: 22-25.5 nm is small, 25.6-26.5 nm medium, and 26.6-28.5 nm large. Typically, smaller LDL is associated with increased cardiovascular risk compared to larger.||47.5|-98.6|
92173759|NCT05071807|184238919|SUPERIORITY||Mean Difference (Net)|1.86|||||TWO_SIDED|95.0|-91.8|95.5|||Regression, Linear|adjustment for the baseline value, age (years), sex (male or female) and body mass index (BMI) (kg/m2)||Results for Small LDL particles; Measure Description: LDL particle size classifications are as follows: 22-25.5 nm is small, 25.6-26.5 nm medium, and 26.6-28.5 nm large. Typically, smaller LDL is associated with increased cardiovascular risk compared to larger.||95.5|-91.8|
92173760|NCT05071807|184238920|SUPERIORITY||Mean Difference (Net)|0.35|||||TWO_SIDED|95.0|0.07|0.63|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2).||||0.63|0.07|
92173761|NCT03652688|184238931|SUPERIORITY||F|14.463|||<|0.001|TWO_SIDED||||||ANOVA|||The unit of analyses was the individual, nested within groups.||||<0.001
92173762|NCT03652688|184238932|SUPERIORITY|||||||0.08|||||||Chi-squared, Corrected|||||||.08
92173763|NCT03652688|184238933|SUPERIORITY|||||||0.954|||||||Chi-squared, Corrected|||||||0.954
92173764|NCT03652688|184238934|SUPERIORITY||Chi-Square|4.436||||0.035|TWO_SIDED||||||Chi-squared, Corrected|||||||.035
92173765|NCT03652688|184238935|SUPERIORITY||Chi-Square|2.615||||0.106|TWO_SIDED||||||Chi-squared, Corrected|||||||.106
92173766|NCT03652688|184238936|SUPERIORITY||Chi-Square|11.636|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected|||||||<0.001
92173767|NCT05409183|184238982|OTHER||LS Mean of Treatment Difference|26.473|STANDARD_ERROR_OF_MEAN|9.216||0.0032|TWO_SIDED|95.0|7.847|45.099|||ANCOVA|||||45.099|7.847|0.0032
92242384|NCT00755846|184387955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|7.13||0.901||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.901
92173768|NCT03476460|184239004|NON_INFERIORITY|"We considered a priori a difference of no more than 5% in the incidence of CA-AKI in the oral compared to the intravenous arm (non-inferiority margin) to be acceptable.~The non-inferiority of oral hydration would be shown if the upper limit of the 95% CI of the absolute risk difference between the groups was less than 5% (non-inferiority margin, indicated by the black dashed line)"|Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-4.8|7.0|||||The 95% confidence interval for the difference between the two independent proportions was calculated according to Wilson's method.|Sample size was calculated to assess the non-inferiority of oral compared to intravenous hydration. We expected a primary outcome rate of 7% in the intravenous arm. We considered a priori a difference of no more than 5% in the incidence of CA-AKI in the oral compared to the intravenous arm (non-inferiority margin) to be acceptable. Thus, 266 participants, 133 per arm, were required to ensure at least 80% power at a significance level of α = 2.5% (one-sided).||7.0|-4.8|
92173769|NCT03476460|184239005|SUPERIORITY|||||||0.299||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||Comparison between means of both arms at 24h from baseline||||0.299
92173770|NCT03476460|184239006|SUPERIORITY|||||||0.477||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||Comparison between means of both arms at 48h from baseline||||0.477
92173771|NCT03476460|184239007|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.042||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||||||0.042
92242385|NCT00755846|184387955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|6.79||0.851||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.851
92173772|NCT03476460|184239008|SUPERIORITY|Comparison between means of both arms at 48h from baseline||||||0.121||||||A p-value \<0.05 (two-sided) was considered for statistical significance|t-test, 2 sided|||||||0.121
92173773|NCT03476460|184239009|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.418||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||||||0.418
92173774|NCT03476460|184239010|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.901||||||A p-value \<0.05 (two-sided) was considered for statistical significance|t-test, 2 sided|||||||0.901
92173775|NCT03476460|184239011|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.72||||||A p-value \<0.05 (two-sided) was considered for statistical significance|Wilcoxon (Mann-Whitney)|||||||0.720
92173776|NCT03476460|184239012|SUPERIORITY|Comparison between means of both arms at 48h from baseline||||||0.688||||||A p-value \<0.05 (two-sided) was considered for statistical significance|Wilcoxon (Mann-Whitney)|||||||0.688
92173777|NCT03476460|184239013|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.535||||||A p-value \<0.05 (two-sided) was considered for statistical significance|t-test, 2 sided|||||||0.535
92173778|NCT03476460|184239014|SUPERIORITY|Comparison between means of both arms at 48h from baseline||||||0.338||||||A p-value \<0.05 (two-sided) was considered for statistical significance|t-test, 2 sided|||||||0.338
92173779|NCT03476460|184239015|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.764||||||A p-value \<0.05 (two-sided) was considered for statistical significance|t-test, 2 sided|||||||0.764
92173780|NCT03476460|184239016|SUPERIORITY|Comparison between means of both arms at 48h from baseline||||||0.458||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||||||0.458
92242386|NCT00755846|184387955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|6.86||0.825||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.825
92455255|NCT01972841|184799605|SUPERIORITY||Rate ratio|0.85|STANDARD_ERROR_OF_MEAN|0.1||0.11|TWO_SIDED|95.0|0.7|1.04|||Negative binomial regression|||Rate ratio of number of urgency incontinence episodes during the 7-day diary bet. the given combination group \& the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65,≥ 65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of urgency incontinence episodes used divided by number of valid diary days) included as a covariate \& postbaseline number of valid diary days as offset variable.||1.04|0.70|0.110
92455256|NCT01972841|184799605|SUPERIORITY||Rate ratio|0.9|STANDARD_ERROR_OF_MEAN|0.1||0.288|TWO_SIDED|95.0|0.73|1.1|||Negative binomial regression|||Rate ratio of number of urgency incontinence episodes during the 7-day diary bet. the given combination group \& the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65,≥ 65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of urgency incontinence episodes used divided by number of valid diary days) included as a covariate \& postbaseline number of valid diary days as offset variable.||1.10|0.73|0.288
92455257|NCT01972841|184799605|SUPERIORITY||Rate ratio|0.65|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.53|0.79|||Negative binomial regression|||Rate ratio of number of urgency incontinence episodes during the 7-day diary bet. the given combination group \& the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65,≥ 65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of urgency incontinence episodes used divided by number of valid diary days) included as a covariate \& postbaseline number of valid diary days as offset variable.||0.79|0.53|<0.001
92173781|NCT03476460|184239017|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.893||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||||||0.893
92455258|NCT01972841|184799605|SUPERIORITY||Rate ratio|0.84|STANDARD_ERROR_OF_MEAN|0.1||0.084|TWO_SIDED|95.0|0.68|1.02|||Negative binomial regression|||Rate ratio of number of urgency incontinence episodes during the 7-day diary bet. the given combination group \& the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65,≥ 65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of urgency incontinence episodes used divided by number of valid diary days) included as a covariate \& postbaseline number of valid diary days as offset variable.||1.02|0.68|0.084
92455259|NCT01972841|184799606|SUPERIORITY||Least squares mean difference|-1.61|STANDARD_ERROR_OF_MEAN|0.76||0.114|TWO_SIDED|95.0|-3.09|-0.13|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.13|-3.09|0.114
92455260|NCT01972841|184799606|SUPERIORITY||Least squares mean difference|-1.62|STANDARD_ERROR_OF_MEAN|0.76||0.034|TWO_SIDED|95.0|-3.1|-0.13|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.13|-3.10|0.034
92455261|NCT01972841|184799606|SUPERIORITY||Least squares mean difference|-2.61|STANDARD_ERROR_OF_MEAN|0.76|<|0.001|TWO_SIDED|95.0|-4.09|-1.12|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-1.12|-4.09|<0.001
92242387|NCT00755846|184387955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|6.94||0.843||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.843
92281256|NCT00414466|184465631|SUPERIORITY_OR_OTHER|||||||1||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. Hochberg's adjustment for multiple comparisons was used.|Fisher Exact|||||||1.000
92455262|NCT01972841|184799606|SUPERIORITY||Least squares mean difference|-2.21|STANDARD_ERROR_OF_MEAN|0.76||0.012|TWO_SIDED|95.0|-3.7|-0.71|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.71|-3.70|0.012
92455263|NCT01972841|184799607|SUPERIORITY||Least squares mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.11||0.134|TWO_SIDED|95.0|-0.46|-0.02|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.02|-0.46|0.134
92455264|NCT01972841|184799607|SUPERIORITY||Least squares mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.11||0.043|TWO_SIDED|95.0|-0.45|-0.02|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.02|-0.45|0.043
92455265|NCT01972841|184799607|SUPERIORITY||Least squares mean diffeence|-0.37|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.59|-0.15|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.15|-0.59|<0.001
92173782|NCT03476460|184239018|SUPERIORITY|Comparison between means of both arms at 48h from baseline||||||0.645||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||||||0.645
92242388|NCT00755846|184387956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|4.88||0.069||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.069
92242389|NCT00755846|184387956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.6|STANDARD_ERROR_OF_MEAN|6.14||0.018||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.018
92242390|NCT00755846|184387956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.3|STANDARD_ERROR_OF_MEAN|6.47||0.258||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.258
92173783|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|-0.37||||0.011|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of G. vaginalis at baseline and during Nuvaring Use (M2-M3)||||0.011
92455266|NCT01972841|184799607|SUPERIORITY||Standard Error of the Mean|-0.32|STANDARD_ERROR_OF_MEAN|0.11||0.019|TWO_SIDED|5.0|-0.54|-0.1|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50mg ) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.10|-0.54|0.019
92455267|NCT01972841|184799608|SUPERIORITY||Least squares mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.18||0.074|TWO_SIDED|95.0|-0.69|0.03|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.03|-0.69|0.074
92455268|NCT01972841|184799608|SUPERIORITY||Least squares mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.014|TWO_SIDED|95.0|-0.82|-0.09|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.09|-0.82|0.014
92455269|NCT01972841|184799608|SUPERIORITY||Least squares mean difference|-0.65|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.01|-0.28|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.28|-1.01|<0.001
92455270|NCT01972841|184799608|SUPERIORITY||Least squares mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.24|0.51|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.51|-1.24|<0.001
92455271|NCT01972841|184799609|SUPERIORITY||Rate ratio|0.88|STANDARD_ERROR_OF_MEAN|0.05||0.006|TWO_SIDED|95.0|0.81|0.96|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of nocturia episodes used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||0.96|0.81|0.006
92455272|NCT01972841|184799609|SUPERIORITY||Rate ratio|0.81|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|0.74|0.88|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of nocturia episodes used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||0.88|0.74|<0.001
92242391|NCT00755846|184387956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4|STANDARD_ERROR_OF_MEAN|6.13||0.299||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.299
92242392|NCT00755846|184387956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.3|STANDARD_ERROR_OF_MEAN|6.27||0.103||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.103
92264776|NCT02777554|184431068|OTHER||Ratio (%) of Geometric Means|97.5|||||TWO_SIDED|90.0|85.0|111.8|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞ of apremilast.||111.8|85.0|
92455273|NCT01972841|184799609|SUPERIORITY||Rate ratio|0.91|STANDARD_ERROR_OF_MEAN|0.05||0.049|TWO_SIDED|95.0|0.84|1.0|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of nocturia episodes used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||1.00|0.84|0.049
92455274|NCT01972841|184799609|SUPERIORITY||Rate ratio|0.86|STANDARD_ERROR_OF_MEAN|0.05||0.001|TWO_SIDED|95.0|0.79|0.94|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of nocturia episodes used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||0.94|0.79|0.001
92173784|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|-0.69||||0.008|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of G. vaginalis at baseline and during Nuvaring Use (M3-M6)||||0.008
92455275|NCT01972841|184799610|SUPERIORITY||Least squares mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.34||0.073|TWO_SIDED|95.0|-1.28|0.06|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.06|-1.28|0.073
92455276|NCT01972841|184799610|SUPERIORITY||Least squares mean difference|-1.16|STANDARD_ERROR_OF_MEAN|0.34||0.001|TWO_SIDED|95.0|-1.83|-0.48|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.48|-1.83|0.001
92455277|NCT01972841|184799610|SUPERIORITY||Least squares mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.34||0.14|TWO_SIDED|95.0|-1.18|0.17|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.17|-1.18|0.140
92455278|NCT01972841|184799610|SUPERIORITY||Least squares mean difference|-1.21|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-1.88|-0.54|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.54|-1.88|<0.001
92455279|NCT01972841|184799611|SUPERIORITY||Least squares mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.065|TWO_SIDED|95.0|-0.19|0.01|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.01|-0.19|0.065
92455280|NCT01972841|184799611|SUPERIORITY||Least squares mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.05||0.001|TWO_SIDED|95.0|-0.26|-0.07|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.07|-0.26|0.001
92455281|NCT01972841|184799611|SUPERIORITY||Least squares mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.1|TWO_SIDED|95.0|-0.18|0.02|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.02|-0.18|0.100
92455282|NCT01972841|184799611|SUPERIORITY||Least squares mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.05||0.001|TWO_SIDED|95.0|-0.26|-0.07|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.07|-0.26|0.001
92455283|NCT01972841|184799612|SUPERIORITY||Rate ratio|1.01|STANDARD_ERROR_OF_MEAN|0.12||0.938|TWO_SIDED|95.0|0.8|1.27|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of pads used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||1.27|0.80|0.938
92455284|NCT01972841|184799612|SUPERIORITY||Rate ratio|1.0|STANDARD_ERROR_OF_MEAN|0.12||0.967|TWO_SIDED|95.0|0.79|1.25|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of pads used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||1.25|0.79|0.967
92455285|NCT01972841|184799612|SUPERIORITY||Standard Error of the Mean|0.73|STANDARD_ERROR_OF_MEAN|0.12||0.008|TWO_SIDED|95.0|0.58|0.92|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of pads used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||0.92|0.58|0.008
92173785|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|0.08||||0.662|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of L. iners at baseline and during Nuvaring Use (M2-M3)||||0.662
92455286|NCT01972841|184799612|SUPERIORITY||Rate ratio|0.8|STANDARD_ERROR_OF_MEAN|0.12||0.069|TWO_SIDED|95.0|0.64|1.02|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of pads used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||1.02|0.64|0.069
92242393|NCT00755846|184387956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0|STANDARD_ERROR_OF_MEAN|6.32||0.34||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.340
92173786|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|0.48||||0.41|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of L. iners at baseline and during Nuvaring Use (M3-M6)||||0.41
92455287|NCT01972841|184799613|SUPERIORITY||Least squares mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.86||0.958|TWO_SIDED|95.0|-1.73|1.64|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||1.64|-1.73|0.958
92455288|NCT01972841|184799613|SUPERIORITY||Least squares mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.86||0.5|TWO_SIDED|95.0|-2.27|1.11|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||1.11|-2.27|0.500
92173787|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|0.23||||0.164|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of L. crispatus at baseline and during Nuvaring Use (M2-M3)||||0.164
92242394|NCT00755846|184387957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.83||0.689||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.689
92242395|NCT00755846|184387957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|1.05||0.742||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.742
92455289|NCT01972841|184799613|SUPERIORITY||Least squares mean difference|-1.91|STANDARD_ERROR_OF_MEAN|0.87||0.028|TWO_SIDED|95.0|-3.62|-0.2|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.20|-3.62|0.028
92455290|NCT01972841|184799613|SUPERIORITY||Least squares mean difference|-1.41|STANDARD_ERROR_OF_MEAN|0.88||0.108|TWO_SIDED|95.0|-3.13|0.31|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.31|-3.13|0.108
92455291|NCT01972841|184799614|SUPERIORITY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.993|TWO_SIDED|95.0|-0.25|0.25|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.25|-0.25|0.993
92455292|NCT01972841|184799614|SUPERIORITY||Least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.13||0.65|TWO_SIDED|95.0|-0.3|0.19|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.19|-0.30|0.650
92455293|NCT01972841|184799614|SUPERIORITY||Least squares mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.13||0.035|TWO_SIDED|95.0|-0.52|-0.02|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.02|-0.52|0.035
92455294|NCT01972841|184799614|SUPERIORITY||Least squares mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.13||0.169|TWO_SIDED|95.0|-0.43|0.08|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate||0.08|-0.43|0.169
92455295|NCT01972841|184799615|SUPERIORITY||Odds Ratio (OR)|1.37||||0.003|TWO_SIDED|95.0|1.11|1.68|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline logarithm of mean number of incontinence episodes per 24 hours as a covariate.||1.68|1.11|0.003
92455296|NCT01972841|184799615|SUPERIORITY||Odds Ratio (OR)|1.36||||0.004|TWO_SIDED|95.0|1.11|1.68|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline logarithm of mean number of incontinence episodes per 24 hours as a covariate.||1.68|1.11|0.004
92455297|NCT01972841|184799615|SUPERIORITY||Odds Ratio (OR)|1.59|||<|0.001|TWO_SIDED|95.0|1.29|1.95|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline logarithm of mean number of incontinence episodes per 24 hours as a covariate.||1.95|1.29|<0.001
92455298|NCT01972841|184799615|SUPERIORITY||Odds Ratio (OR)|1.36||||0.004|TWO_SIDED|95.0|1.1|1.68|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline logarithm of mean number of incontinence episodes per 24 hours as a covariate.||1.68|1.10|0.004
92455299|NCT01972841|184799616|SUPERIORITY||Odds Ratio (OR)|1.23||||0.039|TWO_SIDED|95.0|1.01|1.5|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.50|1.01|0.039
92173788|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|0.35||||0.183|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|||Mean quantity of L. crispatus at baseline and during Nuvaring Use (M3-M6)||||0.183
92455300|NCT01972841|184799616|SUPERIORITY||Odds Ratio (OR)|1.3||||0.009|TWO_SIDED|95.0|1.07|1.59|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.59|1.07|0.009
92455301|NCT01972841|184799616|SUPERIORITY||Odds Ratio (OR)|1.45|||<|0.001|TWO_SIDED|95.0|1.19|1.77|||overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.77|1.19|<0.001
92455302|NCT01972841|184799616|SUPERIORITY||Odds Ratio (OR)|1.5|||<|0.001|TWO_SIDED|95.0|1.23|1.84|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate||1.84|1.23|<0.001
92455303|NCT01972841|184799617|SUPERIORITY||Odds Ratio (OR)|1.32||||0.011|TWO_SIDED|95.0|1.07|1.64|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.64|1.07|0.011
92455304|NCT01972841|184799617|SUPERIORITY||Odds Ratio (OR)|1.41||||0.002|TWO_SIDED|95.0|1.14|1.75|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.75|1.14|0.002
92242396|NCT00755846|184387957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.11||0.22||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.220
92242397|NCT00755846|184387957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.05||0.348||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.348
92242398|NCT00755846|184387957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|1.06||0.627||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.627
92281257|NCT00414466|184465632|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. No adjustments for multiple comparisons were used.|Fisher Exact|||||||0.083
92455305|NCT01972841|184799617|SUPERIORITY||Odds Ratio (OR)|1.65|||<|0.001|TWO_SIDED|95.0|1.32|2.06|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||2.06|1.32|<0.001
92455306|NCT01972841|184799617|SUPERIORITY||Odds Ratio (OR)|1.66|||<|0.001|TWO_SIDED|95.0|1.33|2.07|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||2.07|1.33|<0.001
92455307|NCT01972841|184799618|SUPERIORITY||Least squares mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.41|-0.11|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.11|-0.41|<0.001
92455308|NCT01972841|184799618|SUPERIORITY||Least squares mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.54|-0.25|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.25|-0.54|<0.001
92281258|NCT00414466|184465632|SUPERIORITY_OR_OTHER|||||||1||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. No adjustments for multiple comparisons were used.|Fisher Exact|||||||1.000
92281259|NCT00414466|184465632|SUPERIORITY_OR_OTHER|||||||0.352||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. No adjustments for multiple comparisons were used.|Fisher Exact|||||||0.352
92455309|NCT01972841|184799618|SUPERIORITY||Least squares mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.20|-0.50|<0.001
92455310|NCT01972841|184799618|SUPERIORITY||Least squares mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.20|-0.50|<0.001
92242399|NCT00755846|184387957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|1.06||0.418||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.418
92242400|NCT00755846|184387958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.95||0.617||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.617
92242401|NCT00755846|184387958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|1.2||0.052||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.052
92242402|NCT00755846|184387958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|1.28||0.906||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.906
92242403|NCT00755846|184387958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.19||0.628||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.628
92242404|NCT00755846|184387958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.22||0.749||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.749
92264777|NCT02777554|184431068|OTHER||Ratio (%) of Geometric Means|113.2|||||TWO_SIDED|90.0|98.8|129.7|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Fasted)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞ of apremilast.||129.7|98.8|
92455311|NCT01972841|184799620|SUPERIORITY||Least squares mean difference|3.81|STANDARD_ERROR_OF_MEAN|1.08|<|0.001|TWO_SIDED|95.0|1.69|5.94|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||5.94|1.69|<0.001
92455312|NCT01972841|184799620|SUPERIORITY||Least squares mean difference|4.16|STANDARD_ERROR_OF_MEAN|1.09|<|0.001|TWO_SIDED|95.0|2.03|6.29|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.29|2.03|<0.001
92242405|NCT00755846|184387958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.22||0.34||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.340
92242406|NCT00755846|184387959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|4.31||0.269||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.269
92242407|NCT00755846|184387959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7|STANDARD_ERROR_OF_MEAN|5.46||0.076||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.076
92242408|NCT00755846|184387959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|5.66||0.867||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.867
92242409|NCT00755846|184387959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4|STANDARD_ERROR_OF_MEAN|5.4||0.169||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.169
92242410|NCT00755846|184387959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|STANDARD_ERROR_OF_MEAN|5.45||0.645||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.645
92242411|NCT00755846|184387959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|5.51||0.351||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.351
92455313|NCT01972841|184799620|SUPERIORITY||Least squares mean difference|5.02|STANDARD_ERROR_OF_MEAN|1.09|<|0.001|TWO_SIDED|95.0|2.88|7.15|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||7.15|2.88|<0.001
92173789|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|0.12||||0.506|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of L. jensenii at baseline and during Nuvaring Use (M2-M3)||||0.506
92264778|NCT01458535|184431098|SUPERIORITY_OR_OTHER|||||||0.157|||||||Cochran-Mantel-Haenszel|||||||0.157
92264779|NCT01458535|184431098|SUPERIORITY_OR_OTHER|||||||0.999|||||||Cochran-Mantel-Haenszel|||||||0.999
92264780|NCT01458535|184431098|SUPERIORITY_OR_OTHER|||||||0.045|||||||Cochran-Mantel-Haenszel|||||||0.045
92264781|NCT00151775|184431105|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Regression, Linear|||Non-weight adjusted dosage||||0.0008
92455314|NCT01972841|184799620|SUPERIORITY||Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|1.09||0.002|TWO_SIDED|95.0|1.17|5.43|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||5.43|1.17|0.002
92455315|NCT01972841|184799621|SUPERIORITY||Least squares mean difference|4.12|STANDARD_ERROR_OF_MEAN|1.29||0.001|TWO_SIDED|95.0|1.6|6.65|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.65|1.60|0.001
92455316|NCT01972841|184799621|SUPERIORITY||Lest squares mean difference|4.87|STANDARD_ERROR_OF_MEAN|1.29|<|0.001|TWO_SIDED|95.0|2.34|7.4|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||7.40|2.34|<0.001
92455317|NCT01972841|184799621|SUPERIORITY||Least squares mean difference|6.09|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|3.55|8.63|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||8.63|3.55|<0.001
92173790|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|0.38||||0.119|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of L. jensenii at baseline and during Nuvaring Use (M3-M6)||||0.119
92173791|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|0.1||||0.51|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of Megasphaera at baseline and during Nuvaring Use (M2-M3)||||0.510
92264782|NCT00151775|184431105|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Linear|||Weight adjusted dosage||||<0.0001
92264783|NCT00151775|184431105|SUPERIORITY_OR_OTHER|||||||0.0032||95.0|||||Regression, Linear|||Non-weight adjusted dosage||||0.0032
92264784|NCT00151775|184431105|SUPERIORITY_OR_OTHER|||||||0.0265||95.0|||||Regression, Linear|||Weight adjusted dosage||||0.0265
92455318|NCT01972841|184799621|SUPERIORITY||Least squares mean difference|3.8|STANDARD_ERROR_OF_MEAN|1.29||0.003|TWO_SIDED|95.0|1.27|6.33|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.33|1.27|0.003
92455319|NCT01972841|184799622|SUPERIORITY||Least squares mean difference|4.24|STANDARD_ERROR_OF_MEAN|1.22||0.001|TWO_SIDED|95.0|1.84|6.63|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.63|1.84|0.001
92173792|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|-0.3||||0.168|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of Megasphaera at baseline and during Nuvaring Use (M3-M6)||||0.168
92242412|NCT00755846|184387960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.3|STANDARD_ERROR_OF_MEAN|4.03||0.003||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.003
92455320|NCT01972841|184799622|SUPERIORITY||Least squares mean difference|4.82|STANDARD_ERROR_OF_MEAN|1.22|<|0.001|TWO_SIDED|95.0|2.42|7.22|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||7.22|2.42|<0.001
92455321|NCT01972841|184799622|SUPERIORITY||Least squares mean difference|5.34|STANDARD_ERROR_OF_MEAN|1.23|<|0.001|TWO_SIDED|95.0|2.93|7.75|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||7.75|2.93|<0.001
92455322|NCT01972841|184799622|SUPERIORITY||Least squares mean difference|4.41|STANDARD_ERROR_OF_MEAN|1.22|<|0.001|TWO_SIDED|95.0|2.01|6.81|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.81|2.01|<0.001
92173793|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|0.07||||0.454|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of BVAB2 at baseline and during Nuvaring Use (M2-M3)||||0.454
92455323|NCT01972841|184799623|SUPERIORITY||Least squares mean difference|4.42|STANDARD_ERROR_OF_MEAN|1.24|<|0.001|TWO_SIDED|95.0|1.98|6.85|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.85|1.98|<0.001
92455324|NCT01972841|184799623|SUPERIORITY||Least squares mean difference|4.42|STANDARD_ERROR_OF_MEAN|1.24|<|0.001|TWO_SIDED|95.0|1.98|6.86|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.86|1.98|<0.001
92455325|NCT01972841|184799623|SUPERIORITY||Least squares mean difference|4.87|STANDARD_ERROR_OF_MEAN|1.25|<|0.001|TWO_SIDED|95.0|2.42|7.32|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||7.32|2.42|<0.001
92455326|NCT01972841|184799623|SUPERIORITY||Least squares mean difference|3.28|STANDARD_ERROR_OF_MEAN|1.24||0.008|TWO_SIDED|95.0|0.84|5.72|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||5.72|0.84|0.008
92455327|NCT01972841|184799624|SUPERIORITY||Least squares mean difference|2.27|STANDARD_ERROR_OF_MEAN|0.99||0.022|TWO_SIDED|95.0|0.33|4.21|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||4.21|0.33|0.022
92455328|NCT01972841|184799624|SUPERIORITY||Least squares mean difference|2.25|STANDARD_ERROR_OF_MEAN|0.99||0.023|TWO_SIDED|95.0|0.31|4.19|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||4.19|0.31|0.023
92455329|NCT01972841|184799624|SUPERIORITY||Least squares mean difference|2.8|STANDARD_ERROR_OF_MEAN|0.99||0.005|TWO_SIDED|95.0|0.85|4.74|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||4.74|0.85|0.005
92455330|NCT01972841|184799624|SUPERIORITY||Least squares mean difference|0.95|STANDARD_ERROR_OF_MEAN|0.99||0.337|TWO_SIDED|95.0|-0.99|2.89|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||2.89|-0.99|0.337
92455331|NCT01972841|184799637|SUPERIORITY||Odds Ratio (OR)|1.31||||0.035|TWO_SIDED|95.0|1.02|1.69|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.69|1.02|0.035
92455332|NCT01972841|184799637|SUPERIORITY||Odds Ratio (OR)|1.4||||0.009|TWO_SIDED|95.0|1.09|1.81|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.81|1.09|0.009
92455333|NCT01972841|184799637|SUPERIORITY||Odds Ratio (OR)|1.5||||0.002|TWO_SIDED|95.0|1.16|1.93|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.93|1.16|0.002
92455334|NCT01972841|184799637|SUPERIORITY||Odds Ratio (OR)|1.34||||0.023|TWO_SIDED|95.0|1.04|1.73|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.73|1.04|0.023
92455335|NCT01972841|184799638|SUPERIORITY||Odds Ratio (OR)|1.22||||0.224|TWO_SIDED|95.0|0.88|1.69|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||1.69|0.88|0.224
92455336|NCT01972841|184799638|SUPERIORITY||Odds Ratio (OR)|1.42||||0.037|TWO_SIDED|95.0|1.02|1.96|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||1.96|1.02|0.037
92455337|NCT01972841|184799638|SUPERIORITY||Odds Ratio (OR)|1.98|||<|0.001|TWO_SIDED|95.0|1.47|2.67|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||2.67|1.47|<0.001
92455338|NCT01972841|184799638|SUPERIORITY||Odds Ratio (OR)|1.65||||0.002|TWO_SIDED|95.0|1.21|2.26|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||2.26|1.21|0.002
92455339|NCT01972841|184799639|SUPERIORITY||Odds Ratio (OR)|1.29||||0.077|TWO_SIDED|95.0|0.97|1.72|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||1.72|0.97|0.077
92455340|NCT01972841|184799639|SUPERIORITY||Odds Ratio (OR)|1.15||||0.321|TWO_SIDED|95.0|0.87|1.53|||Logistic regression|||Odds ratio from a logistic regression model treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||1.53|0.87|0.321
92455341|NCT01972841|184799639|SUPERIORITY||Odds Ratio (OR)|1.92|||<|0.001|TWO_SIDED|95.0|1.46|2.53|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||2.53|1.46|<0.001
92455342|NCT01972841|184799639|SUPERIORITY||Odds Ratio (OR)|1.16||||0.294|TWO_SIDED|95.0|0.88|1.53|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||1.53|0.88|0.294
92455343|NCT01972841|184799640|SUPERIORITY||Odds Ratio (OR)|1.17||||0.251|TWO_SIDED|95.0|0.89|1.53|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.53|0.89|0.251
92455344|NCT01972841|184799640|SUPERIORITY||Odds Ratio (OR)|1.25||||0.107|TWO_SIDED|95.0|0.95|1.64|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.64|0.95|0.107
92455345|NCT01972841|184799640|SUPERIORITY||Odds Ratio (OR)|1.59|||<|0.001|TWO_SIDED|95.0|1.23|2.07|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||2.07|1.23|<0.001
92455346|NCT01972841|184799640|SUPERIORITY||Odds Ratio (OR)|1.41||||0.012|TWO_SIDED|95.0|1.08|1.85|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.85|1.08|0.012
92455347|NCT01972841|184799641|SUPERIORITY||Odds Ratio (OR)|1.3||||0.044|TWO_SIDED|95.0|1.01|1.67|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.67|1.01|0.044
92455348|NCT01972841|184799641|SUPERIORITY||Odds Ratio (OR)|1.43||||0.006|TWO_SIDED|95.0|1.11|1.84|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.84|1.11|0.006
92455349|NCT01972841|184799641|SUPERIORITY||Odds Ratio (OR)|1.47||||0.004|TWO_SIDED|95.0|1.13|1.9|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.90|1.13|0.004
92455350|NCT01972841|184799641|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.23|2.08|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||2.08|1.23|<0.001
92242413|NCT00755846|184387960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.6|STANDARD_ERROR_OF_MEAN|5.06|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
92242414|NCT00755846|184387960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|5.26||0.103||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.103
92242415|NCT00755846|184387960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.0|STANDARD_ERROR_OF_MEAN|4.98||0.009||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.009
92455351|NCT01972841|184799642|SUPERIORITY||Odds Ratio (OR)|1.47||||0.004|TWO_SIDED|95.0|1.13|1.92|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||1.92|1.13|0.004
92455352|NCT01972841|184799642|SUPERIORITY||Odds Ratio (OR)|1.62|||<|0.001|TWO_SIDED|95.0|1.24|2.11|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||2.11|1.24|<0.001
92455353|NCT01972841|184799642|SUPERIORITY||Odds Ratio (OR)|1.59||||0.001|TWO_SIDED|95.0|1.22|2.07|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||2.07|1.22|0.001
92455354|NCT01972841|184799642|SUPERIORITY||Odds Ratio (OR)|1.57||||0.001|TWO_SIDED|95.0|1.21|2.04|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||2.04|1.21|0.001
92455355|NCT01972841|184799643|SUPERIORITY||Odds Ratio (OR)|1.32||||0.065|TWO_SIDED|95.0|0.98|1.78|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||1.78|0.98|0.065
92455356|NCT01972841|184799643|SUPERIORITY||Odds Ratio (OR)|1.68||||0.001|TWO_SIDED|95.0|1.24|2.27|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.27|1.24|0.001
92455357|NCT01972841|184799643|SUPERIORITY||Odds Ratio (OR)|1.76|||<|0.001|TWO_SIDED|95.0|1.32|2.36|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.36|1.32|<0.001
92455358|NCT01972841|184799643|SUPERIORITY||Odds Ratio (OR)|1.51||||0.007|TWO_SIDED|95.0|1.12|2.04|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.04|1.12|0.007
92455359|NCT01972841|184799644|SUPERIORITY||Odds Ratio (OR)|1.44||||0.007|TWO_SIDED|95.0|1.11|1.87|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||1.87|1.11|0.007
92455360|NCT01972841|184799644|SUPERIORITY||Odds Ratio (OR)|1.67|||<|0.001|TWO_SIDED|95.0|1.28|2.17|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.17|1.28|<0.001
92455361|NCT01972841|184799644|SUPERIORITY||Odds Ratio (OR)|1.76|||<|0.001|TWO_SIDED|95.0|1.34|2.3|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.30|1.34|<0.001
92455362|NCT01972841|184799644|SUPERIORITY||Odds Ratio (OR)|1.68|||<|0.001|TWO_SIDED|95.0|1.29|2.19|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.19|1.29|<0.001
92455363|NCT01972841|184799645|SUPERIORITY||Odds Ratio (OR)|1.12||||0.381|TWO_SIDED|95.0|0.87|1.45|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||1.45|0.87|0.381
92455364|NCT01972841|184799645|SUPERIORITY||Odds Ratio (OR)|1.31||||0.04|TWO_SIDED|95.0|1.01|1.7|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||1.70|1.01|0.040
92455365|NCT01972841|184799645|SUPERIORITY||Odds Ratio (OR)|1.56||||0.001|TWO_SIDED|95.0|1.21|2.0|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||2.00|1.21|0.001
92455366|NCT01972841|184799645|SUPERIORITY||Odds Ratio (OR)|1.57||||0.001|TWO_SIDED|95.0|1.21|2.03|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||2.03|1.21|0.001
92455367|NCT01972841|184799646|SUPERIORITY||Odds Ratio (OR)|1.24||||0.095|TWO_SIDED|95.0|0.96|1.59|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||1.59|0.96|0.095
92455368|NCT01972841|184799646|SUPERIORITY||Odds Ratio (OR)|1.26||||0.073|TWO_SIDED|95.0|0.98|1.62|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||1.62|0.98|0.073
92455369|NCT01972841|184799646|SUPERIORITY||Odds Ratio (OR)|1.66|||<|0.001|TWO_SIDED|95.0|1.29|2.13|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||2.13|1.29|<0.001
92455370|NCT01972841|184799646|SUPERIORITY||Odds Ratio (OR)|1.27||||0.067|TWO_SIDED|95.0|0.98|1.63|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||1.63|0.98|0.067
92455371|NCT01972841|184799647|SUPERIORITY||Odds Ratio (OR)|1.18||||0.21|TWO_SIDED|95.0|0.91|1.52|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of lncontinence episodes per 24 hours and baseline PPBC as covariates.||1.52|0.91|0.210
92455372|NCT01972841|184799647|SUPERIORITY||Odds Ratio (OR)|1.46||||0.004|TWO_SIDED|95.0|1.13|1.89|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of lncontinence episodes per 24 hours and baseline PPBC as covariates.||1.89|1.13|0.004
92455373|NCT01972841|184799647|SUPERIORITY||Odds Ratio (OR)|1.59|||<|0.001|TWO_SIDED|95.0|1.23|2.06|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of lncontinence episodes per 24 hours and baseline PPBC as covariates.||2.06|1.23|<0.001
92455374|NCT01972841|184799647|SUPERIORITY||Odds Ratio (OR)|1.59|||<|0.001|TWO_SIDED|95.0|1.23|2.05|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of lncontinence episodes per 24 hours and baseline PPBC as covariates.||2.05|1.23|<0.001
92242416|NCT00755846|184387960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|5.14||0.034||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.034
92264785|NCT00151775|184431105|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Linear|||Non-weight adjusted dosage||||<0.0001
92455375|NCT01972841|184799648|SUPERIORITY||Odds Ratio (OR)|1.13||||0.335|TWO_SIDED|95.0|0.88|1.46|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||1.46|0.88|0.335
92455376|NCT01972841|184799648|SUPERIORITY||Odds Ratio (OR)|1.4||||0.009|TWO_SIDED|95.0|1.09|1.81|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||1.81|1.09|0.009
92455377|NCT01972841|184799648|SUPERIORITY||Odds Ratio (OR)|1.56||||0.001|TWO_SIDED|95.0|1.21|2.02|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||2.02|1.21|0.001
92264786|NCT00151775|184431105|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Linear|||Weight adjusted dosage||||<0.0001
92264787|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|0.69||||0.0008||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0008
92455378|NCT01972841|184799648|SUPERIORITY||Odds Ratio (OR)|1.71|||<|0.001|TWO_SIDED|95.0|1.33|2.21|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||2.21|1.33|<0.001
92455379|NCT01972841|184799649|SUPERIORITY||Odds Ratio (OR)|1.11||||0.416|TWO_SIDED|95.0|0.86|1.43|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||1.43|0.86|0.416
92455380|NCT01972841|184799649|SUPERIORITY||Odds Ratio (OR)|1.23||||0.105|TWO_SIDED|95.0|0.96|1.59|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||1.59|0.96|0.105
92455381|NCT01972841|184799649|SUPERIORITY||Odds Ratio (OR)|1.66|||<|0.001|TWO_SIDED|95.0|1.28|2.16|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||2.16|1.28|<0.001
92455382|NCT01972841|184799649|SUPERIORITY||Odds Ratio (OR)|1.45||||0.005|TWO_SIDED|95.0|1.12|1.87|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||1.87|1.12|0.005
92455383|NCT01270347|184799689|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the LS mean difference 95% CI for relative change from Baseline to Day 28 in FEV1 percent predicted was \> -4%.|LSMean difference|1.86||||0.1481|TWO_SIDED|95.0|-0.66|4.39|||ANCOVA||Estimates were determined from an analysis of covariance model with terms for treatment, region (US, non-US), and age (12 to 18 years, \> 18 years), and Baseline FEV1 (\< 55%, . 55%).|||4.39|-0.66|0.1481
92455384|NCT01270347|184799690|NON_INFERIORITY|Non-inferiority is demonstrated if the lower limit of the LS mean difference 95% CI for relative change from baseline to Day 28 in FEV1 percent predicted is \> -4%.|LSMean difference|4.968||||0.083|TWO_SIDED|95.0|-0.653|10.59|||ANCOVA||Estimates are determined from an ANCOVA model with terms for treatment, region (US, non-US), age (12-18 years, \>18 years), baseline FEV1 (\<55%, \>=55%), \& baseline as a covariate.|||10.590|-0.653|0.0830
92455385|NCT01270347|184799691|NON_INFERIORITY|Non-inferiority is demonstrated if the lower limit of the LS mean difference 95% CI for relative change from baseline to Day 28 in FEV1 percent predicted is \> -4%.|LSMean difference|1.57||||0.0945|TWO_SIDED|95.0|-0.272|3.411|||ANCOVA||Estimates are determined from a repeated measures model with terms for treatment, visit, the interaction between treatment group and visit, region (US, non-US), age (12-18 years, \>18 years), baseline FEV1 (\<55%, \>=55%), and baseline as a covariate.|||3.411|-0.272|0.0945
92455386|NCT01270347|184799694|NON_INFERIORITY|Non-inferiority is demonstrated if the lower limit of the LS mean difference 95% CI for relative change from baseline to Day 28 in Pseudomonas Aeruginosa Sputum Density is \> -4%|LSMean difference|0.44||||0.053|TWO_SIDED|95.0|-0.01|0.88|||ANCOVA||Estimates are determined from an ANCOVA model with terms for treatment, region (US, non-US), age (12-18 years, \>18 years), baseline FEV1 (\<55%, \>=55%), and baseline organism log density.|||0.88|-0.01|0.0530
92455387|NCT01270347|184799696|NON_INFERIORITY|Non-inferiority is demonstrated if the lower limit of the LS mean difference 95% CI for relative change from baseline to Day 28 in Respiratory Domain of the CFQ-R is \> -4%|LSMean difference|3.19||||0.0463|TWO_SIDED|95.0|0.05|6.32|||ANCOVA||Estimates are determined from an ANCOVA model with terms for treatment, region (US, non-US), age (12-18 years, \>18 years), baseline FEV1 (\<55%, \>=55%), and baseline value.|||6.32|0.05|0.0463
92455388|NCT02085408|184799698|SUPERIORITY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.94|1.3|||Regression, Cox||Hazard ratio : clofarabine/(daunorubicin \& cytarabine)|||1.30|0.94|
92455389|NCT02085408|184799699|SUPERIORITY|||||||0.94|||||||Fisher Exact|||||||0.94
92455390|NCT02486328|184799714|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92455391|NCT02486328|184799715|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92173794|NCT02432404|184239021|OTHER||Mean Difference (Final Values)|-0.1||||0.471|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of BVAB2 at baseline and during Nuvaring Use (M3-M6)||||0.471
92455392|NCT02486328|184799716|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92455393|NCT02486328|184799717|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92455394|NCT02486328|184799718|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92264788|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-0.057||||0.0026||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0026
92264789|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-0.85||||0.0032||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0032
92455395|NCT02486328|184799719|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92455396|NCT03317977|184799720|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||||||0.43
92455397|NCT00688636|184799723|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Fisher Exact|||||||.0005
92455398|NCT01572727|184799728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.82|1.68||||||||1.68|0.82|
92455399|NCT04053764|184799736|SUPERIORITY||Odds Ratio (OR)|1.94|||||TWO_SIDED|95.0|0.53|7.14||||||||7.14|0.53|
92455400|NCT04053764|184799738|SUPERIORITY||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.23|2.31||||||||2.31|0.23|
92455401|NCT04053764|184799739|SUPERIORITY||Odds Ratio (OR)|0.94|||||TWO_SIDED|95.0|0.29|3.02||||||PCR Improvement||3.02|0.29|
92455402|NCT04053764|184799739|SUPERIORITY||Odds Ratio (OR)|0.75|||||TWO_SIDED|95.0|0.18|3.2||||||Stable PCR||3.20|0.18|
92455403|NCT04053764|184799740|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|2.53|||TWO_SIDED|95.0|-5.53|4.65||||||From baseline to 3 months||4.65|-5.53|
92455404|NCT04053764|184799740|SUPERIORITY||Mean Difference (Final Values)|4.69|STANDARD_ERROR_OF_MEAN|3.32|||TWO_SIDED|95.0|-2.02|11.4||||||From baseline to 6 months||11.40|-2.02|
92455405|NCT04053764|184799740|SUPERIORITY||Mean Difference (Final Values)|4.05|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-3.58|11.68||||||From baseline to 9 months||11.68|-3.58|
92455406|NCT04053764|184799740|SUPERIORITY||Mean Difference (Final Values)|5.19|STANDARD_ERROR_OF_MEAN|4.17|||TWO_SIDED|95.0|-3.28|13.67||||||From baseline to 12 months||13.67|-3.28|
92455407|NCT04053764|184799743|SUPERIORITY||Odds Ratio (OR)|0.32|||||TWO_SIDED|95.0|0.09|1.21||||||||1.21|0.09|
92455408|NCT02935062|184799748|SUPERIORITY|||||||0.001|||||||t-test, 1 sided|||||||0.001
92455409|NCT02935062|184799749|SUPERIORITY|||||||0.011|||||||t-test, 1 sided|||||||0.011
92455410|NCT02195986|184799773|EQUIVALENCE|Bioequivalence was established for the primary endpoint if the 90% confidence interval for the difference of responder rates (test - reference) from baseline to Day 8 for the primary endpoint is contained within \[-0.20, 0.20\], using the per-protocol population.|Difference|-0.0062|||||TWO_SIDED|90.0|-0.1209|0.1084||||||The compound hypothesis to test was: H0: PT -PR \< -.20 or PT -PR \> .20 versus HA : -.20 ≤ PT -PR ≤ .20 Where PT = cure rate of test treatment, and PR = cure rate of reference treatment.||0.1084|-0.1209|
92173795|NCT05492318|184239042|OTHER|please note that GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the geometric least square mean|105.67|||||TWO_SIDED|90.0|91.72|121.74||||||"Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV.~Cmax"||121.74|91.72|
92455411|NCT02195986|184799774|SUPERIORITY|Superiority test of test product vs placebo|Difference|0.3766|||<|0.0001|TWO_SIDED|95.0|0.2743|0.479|||Chi-squared|||Both the test and reference products should both be statistically superior to placebo (p\<0.05, two-sided) using the Chi squared test with Yate's correction for the primary endpoint responder rate, using the ITT study population and last observation carried forward. The compound hypothesis to test was: H0: PT - PP ≤ 0 versus HA: PT - PP \> 0; Where PT = cure rate of test treatment, and PP = cure rate of placebo.||0.4790|0.2743|<0.0001
92455412|NCT02195986|184799774|SUPERIORITY|Superiority test of reference product vs placebo|Difference|0.3542|||<|0.0001|TWO_SIDED|95.0|0.257|0.4514|||Chi-squared|||Both the test and reference products should both be statistically superior to placebo (p\<0.05, two-sided) using the Chi squared test with Yate's correction for the primary endpoint responder rate, using the ITT study population and last observation carried forward. The compound hypothesis to test was: H0: PT - PP ≤ 0 versus HA: PT - PP \> 0; Where PT = cure rate of test treatment, and PP = cure rate of placebo.||0.4514|0.2570|<0.0001
92455413|NCT02195986|184799775|EQUIVALENCE|Bioequivalence was established for the secondary endpoint if the 90% confidence interval for the difference of responder rates (test - reference) from baseline to Day 8 for the secondary endpoint is contained within \[-0.20, 0.20\], using the per-protocol population.|Difference|0.05|||||TWO_SIDED|90.0|-0.0687|0.1686||||||||0.1686|-0.0687|
92455414|NCT02195986|184799776|SUPERIORITY|Superiority test of test product vs placebo|Difference|0.1387||||0.1092|TWO_SIDED|95.0|-0.028|0.3054|||Chi-squared|||Both the test and reference products should both be statistically superior to placebo (p\<0.05, two-sided) using the Chi squared test with Yate's correction for the secondary endpoint responder rate, using the ITT study population and last observation carried forward. The compound hypothesis to test was: H0: PT - PP ≤ 0 versus HA: PT - PP \> 0; Where PT = cure rate of test treatment, and PP = cure rate of placebo.||0.3054|-0.0280|0.1092
92455415|NCT02195986|184799776|SUPERIORITY|Superiority test of reference product vs placebo|Difference|0.1196||||0.1805|TWO_SIDED|95.0|-0.0491|0.2883|||Chi-squared|||Both the test and reference products should both be statistically superior to placebo (p\<0.05, two-sided) using the Chi squared test with Yate's correction for the secondary endpoint responder rate, using the ITT study population and last observation carried forward. The compound hypothesis to test was: H0: PT - PP ≤ 0 versus HA: PT - PP \> 0; Where PT = cure rate of test treatment, and PP = cure rate of placebo.||0.2883|-0.0491|0.1805
92281260|NCT03480425|184465633|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_DEVIATION|4.4|<|0.05|TWO_SIDED|95.0|-2.4|2.6|||t-test, 2 sided|||||2.6|-2.4|<0.05
92281261|NCT05920161|184465634|SUPERIORITY|||||||0.023|||||||t-test, 1 sided|||||||0.023
92281262|NCT05920161|184465634|SUPERIORITY|||||||0.068|||||||t-test, 1 sided|||||||0.068
92455416|NCT01201057|184799847|SUPERIORITY|||||||0.006|||||||Cochran-Mantel-Haenszel|||||||0.006
92455417|NCT01201057|184799848|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92455418|NCT01201057|184799849|SUPERIORITY|||||||0.025|||||||Cochran-Mantel-Haenszel|||||||0.025
92455419|NCT03240692|184799859|OTHER|||||||0.036||||||False Discovery Corrected (FDR) p value. A p-value of ≤ 0.05 was considered to be statistically significant.|t-test, 2 sided|||Analysis of subgenual Anterior Cingulate Cortex (sgACC) and frontal Default Mode Network (fDMN) functional connectivity||||0.036
92455420|NCT03240692|184799859|OTHER|||||||0.008||||||False Discovery Corrected (FDR) p value. A p-value of ≤ 0.05 was considered to be statistically significant.|t-test, 2 sided|||Analysis of subgenual Anterior Cingulate Cortex (sgACC) and medial Default Mode Network (mDMN) functional connectivity||||0.008
92455421|NCT03240692|184799859|OTHER|||||||0.06||||||False Discovery Corrected (FDR) p value. A p-value of ≤ 0.05 was considered to be statistically significant.|t-test, 2 sided|||Analysis of subgenual Anterior Cingulate Cortex (sgACC) and left Default Mode Network (lDMN) functional connectivity.||||0.06
92242417|NCT00755846|184387960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.1|STANDARD_ERROR_OF_MEAN|5.16||0.033||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.033
92455422|NCT03240692|184799859|OTHER|||||||0.017||||||False Discovery Corrected (FDR) p value. A p-value of ≤ 0.05 was considered to be statistically significant.|t-test, 2 sided|||Analysis of subgenual Anterior Cingulate Cortex (sgACC) and right Default Mode Network (rDMN) functional connectivity.||||0.017
92455423|NCT00683644|184799861|OTHER|The observed power in THQ for zinc is 0.16, and that for placebo is 0.06.|||||>|0.05||||||Threshold for significance is 0.05|Chi-squared|||||||>0.05
92455424|NCT00683644|184799862|OTHER|||||||0.89||||||Threshold for significance is 0.05|paired t test|||||||0.89
92455425|NCT00683644|184799862|OTHER|||||||0.36||||||Threshold for significance is 0.05|paired t test|||||||0.36
92455426|NCT00683644|184799863|OTHER|||||||0.64||||||Threshold for significance is 0.05|paired t test|||||||0.64
92455427|NCT00683644|184799863|OTHER|||||||0.93||||||Threshold for significance is 0.05|paired t test|||||||0.93
92455428|NCT02522715|184799885|OTHER||||||<|0.01|||||||two-sided exact binomial test|||One-sample binomial test with null hypothesis that the percentage of participants with PSA response 1 is equal to 25%.||||<0.01
92455429|NCT01808313|184799893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.59|||<|0.001|TWO_SIDED|95.0|42.53|64.66|||t-test, 2 sided|||||64.66|42.53|<0.001
92455430|NCT01808313|184799894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.36|||<|0.001|TWO_SIDED|95.0|48.72|80.0|||t-test, 2 sided|||||80.00|48.72|<0.001
92455431|NCT01808313|184799896|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon signed-rank test|||Week 12||||<0.001
92455432|NCT01808313|184799896|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon signed-rank test|||Week 24||||0.003
92455433|NCT01808313|184799897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.44|||<|0.001|TWO_SIDED|95.0|0.366|0.519|||Wilcoxon signed-rank test||Week 12|||0.519|0.366|<0.001
92455434|NCT01808313|184799897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|||<|0.001|TWO_SIDED|95.0|0.303|0.453|||Wilcoxon signed-rank test||Week 24|||0.453|0.303|<0.001
92455435|NCT00622167|184799925|SUPERIORITY_OR_OTHER|||||||0||0.0|||||Not done|||Plaque characteristics including plaque cross-sectional diameter, area measurements, plaque volume, and plaque morphology would be compared between IBIVUS, DSCT and angiography.||||0
92242418|NCT00755846|184387961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|17.17||0.897||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.897
92264790|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-0.58||||0.0125||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0125
92281263|NCT05920161|184465635|SUPERIORITY|||||||0.281|||||||t-test, 1 sided|||Within-group A - B (null \>0)||||0.281
92455436|NCT03086447|184799964|OTHER|It was deemed that a total of 135 subjects in the Test group is sufficient to demonstrate statistical acceptance of monocular VA better than equal to 20/40 with a minimum of 90% statistical power using the reference incidence rate of 95% with a correlation of 0.8 between eyes.|Proportion|100.0|||||TWO_SIDED|95.0|96.5|100.0||All primary hypotheses were simultaneously evaluated using a significance level of 0.05 following the intersection-union principal. All primary hypotheses must be met to claim success of the study objectives.|Binomial proportion with Agresti-Coull||All eyes (100%) in the Test group had acceptable VA throughout the study.|Proportion of eyes with overall acceptable VA assessed throughout the study period (up to 4-week) in the Test group was compared to the historical control acceptable rate of 80%. Lower 95% confidence limit was compared to 0.8.||100|96.5|
92455437|NCT03086447|184799965|OTHER|It was deemed that a total of 135 subjects in the Test group is sufficient to demonstrate statistical acceptance of lens fit with a minimum of 90% statistical power using the reference incidence rate of 95% with a correlation of 0.8 between eyes.|Proportion|100.0|||||TWO_SIDED|95.0|96.5|100.0||All primary hypotheses were simultaneously evaluated using a significance level of 0.05 following the intersection-union principal. All primary hypotheses must be met to claim success of the study objectives.|Binomial proportion with Agrestic-Coull||All eyes (100%) in the Test group had acceptable lens fit at fitting (visit 1).|Proportion of eyes with acceptable lens fit assessed at fitting (visit 1) in the Test group was compared to the historical control rate of 80%. Lower 95% confidence limit was compared to 0.8.||100.0|96.5|
92455438|NCT03086447|184799966|OTHER|It was deemed that a total of 135 subjects in the Test group is sufficient to demonstrate statistical acceptance of lens stability with a minimum of 90% statistical power using the reference incidence rate of 95% with a correlation of 0.8 between eyes.|Proportion|100.0|||||TWO_SIDED|95.0|96.5|100.0||All primary hypotheses were simultaneously evaluated using a significance level of 0.05 following the intersection-union principal. All primary hypotheses must be met to claim success of the study objectives.|Binomial proportion with Agrestic-Coull||All eyes (100%) in the Test group had acceptable stability at fitting.|Proportion of eyes with acceptable stability assessed at fitting (visit 1) in the Test group was compared to the historical control rate of 80%. Lower 95% confidence limit was compared to 0.8.||100.0|96.5|
92173796|NCT05492318|184239042|OTHER|please note that GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the geometric least square mean|91.56|||||TWO_SIDED|90.0|86.16|97.31||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV - Cmax||97.31|86.16|
92264791|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-0.75|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
92281264|NCT05920161|184465635|SUPERIORITY|||||||0.645|||||||t-test, 1 sided|||Within-group A - B (null \>0)||||0.645
92242419|NCT00755846|184387961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|STANDARD_ERROR_OF_MEAN|21.85||0.557||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.557
92242420|NCT00755846|184387961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.5|STANDARD_ERROR_OF_MEAN|22.85||0.616||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.616
92242421|NCT00755846|184387961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|STANDARD_ERROR_OF_MEAN|21.73||0.679||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.679
92242422|NCT00755846|184387961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.5|STANDARD_ERROR_OF_MEAN|21.94||0.697||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.697
92242423|NCT00755846|184387961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.4|STANDARD_ERROR_OF_MEAN|22.03||0.672||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.672
92455439|NCT03086447|184799967|OTHER|It was deemed that a total of 135 subjects in the Test group is sufficient to demonstrate statistical acceptance of absolute rotation with a minimum of 90% statistical power using the reference incidence rate of 95% with a correlation of 0.8 between eyes.|Least square mean proportion|99.6|||||TWO_SIDED|95.0|97.5|99.9||All primary hypotheses were simultaneously evaluated using a significance level of 0.05 following the intersection-union principal. All primary hypotheses must be met to claim success of the study objectives.|Linear mixed model with binomial dist.||Above 80% of eyes in the Test group had acceptable rotation.|Proportion of eyes with acceptable absolute rotation assessed at 15-minute upon insertion (fitting, visit 1) in the Test group was compared to the historical control rate of 80%. Lower 95% confidence limit was compared to 0.8.||99.9|97.5|
92173797|NCT05492318|184239042|OTHER|please note that GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|92.13|||||TWO_SIDED|90.0|75.97|111.73||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV - Cmax||111.73|75.97|
92173798|NCT05492318|184239042|OTHER|please note that GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|93.59|||||TWO_SIDED|90.0|83.72|104.63||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV - Cmax||104.63|83.72|
92173799|NCT05492318|184239042|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 7) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|124.02|||||TWO_SIDED|90.0|114.38|134.47||||||Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - Cmax||134.47|114.38|
92264792|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-0.57|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
92281265|NCT05920161|184465635|SUPERIORITY|||||||0.245|||||||t-test, 2 sided|||Between-group comparison||||0.245
92173800|NCT05492318|184239042|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 7) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|117.47|||||TWO_SIDED|90.0|104.78|131.69||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - Max||131.69|104.78|
92173801|NCT05492318|184239042|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of geometric LS means|139.28|||||TWO_SIDED|90.0|128.71|150.67||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - Cmax||150.67|128.71|
92281266|NCT05920161|184465636|SUPERIORITY|||||||0.143|||||||t-test, 1 sided|||||||0.143
92455440|NCT03086447|184799968|OTHER|It was deemed that a total of 135 subjects per each study group is sufficient to demonstrate no statistical difference in the CS incidence rate between the Test and Control groups with a minimum of 80% statistical power using the reference incidence rate of 0.005% with a correlation of 0.3 between eyes within subject.|Odds Ratio (OR)|0.29|||||TWO_SIDED|95.0|0.004|1.437||All primary hypotheses were simultaneously evaluated using a significance level of 0.05 following the intersection-union principal. All primary hypotheses must be met to claim success of the study objectives.|Bayesian beta-binomial model|A 95% credible interval for the posterior estimate (Test over Control) was used to test no difference between the Test and Control groups.|odds ratio calculated as Test over Control|Proportion of eyes with unacceptable corneal staining (CS) throughout all planned and unplanned visits in the Test group was compared to that in the Control group.||1.437|0.004|
92264793|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-8.97|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
92455441|NCT03086447|184799969|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE score.|Mean Difference (Final Values)|6.8|STANDARD_DEVIATION|2.39|||TWO_SIDED|95.0|2.1|11.5|||Linear mixed model|A 95% confidence interval for the least square mean difference was used to demonstrate non-inferiority of the Test relative to the Control groups.|Mean difference was calculated as Test minus Control|Sample size calculation was performed considering the effect size of 5 (Test minus Control) to achieve a minimum statistical power of 90% at a 5% significance level.||11.5|2.1|
92455442|NCT03086447|184799970|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE score.|Mean Difference (Final Values)|-3.1|STANDARD_DEVIATION|2.04|||TWO_SIDED|95.0|-7.2|0.9|||Linear mixed model|A 95% confidence interval for the least square mean difference was used to demonstrate non-inferiority of the Test relative to the Control groups.|Mean difference was calculated as Test minus Control|Sample size calculation was performed considering the effect size of 5 (Test minus Control) to achieve a minimum statistical power of 90% at a 5% significance level.||0.9|-7.2|
92455443|NCT03086447|184799971|NON_INFERIORITY|A non-inferiority margin of 0.5 was used. This margin is based on a 10% difference in the distribution between the Test and Control groups.|Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|0.98|3.22|||Generalized LMM w/ binomial dist.||Odds ratio of Test over Control was calculated.|Proportion of eyes with optimal VA assessed at fitting in the Test group was compared to the Control group.||3.22|0.98|
92455444|NCT03387852|184799972|SUPERIORITY||Odds ratio|0.423|||=|0.0214|TWO_SIDED|95.0|0.203|0.88|||Regression, Logistic||SAR440340 300 mg vs. Placebo|Odds ratio, 95% confidence interval (CI), and p-value derived from logistic regression with treatment, baseline eosinophil strata, region, background ICS dose level at randomization and number of exacerbation events (defined as required use of systemic \[oral and/or parenteral\] steroid treatment, or required hospitalization or emergency room visit) within 1 year prior to screening.||0.88|0.203|=0.0214
92173802|NCT05492318|184239042|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of geometric LS means|141.61|||||TWO_SIDED|90.0|122.36|163.88||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - Cmax||163.88|122.36|
92455445|NCT03387852|184799972|SUPERIORITY||Odds ratio|0.52|||=|0.0709|TWO_SIDED|95.0|0.256|1.057|||Regression, Logistic||SAR440340 + Dupilumab vs. Placebo|Odds ratio, 95% CI, and p-value derived from logistic regression with treatment, baseline eosinophil strata, region, background ICS dose level at randomization and number of exacerbation events (defined as required use of systemic \[oral and/or parenteral\] steroid treatment, or required hospitalization or emergency room visit) within 1 year prior to screening.||1.057|0.256|=0.0709
92455446|NCT02194621|184799975|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||>0.05
92455447|NCT02194621|184799976|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
92455448|NCT02194621|184799977|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||>0.05
92173803|NCT05492318|184239043|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|73.68|||||TWO_SIDED|90.0|60.77|89.33||||||Total Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - Cmax||89.33|60.77|
92264794|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-8.15|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
92281267|NCT05920161|184465636|SUPERIORITY|||||||0.797||||||above chance 0.5|t-test, 1 sided|||||||0.797
92173804|NCT05492318|184239043|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|70.38|||||TWO_SIDED|90.0|57.94|85.5||||||Free Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - Cmax||85.50|57.94|
92173805|NCT05492318|184239043|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|65.31|||||TWO_SIDED|90.0|53.33|79.98||||||Total Dabigatran: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - Cmax||79.98|53.33|
92242424|NCT00755846|184387962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|16.37||0.809||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.809
92455449|NCT02194621|184799978|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.002
92455450|NCT00126438|184800006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.001|TWO_SIDED|95.0|0.18|0.73||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader A readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.73|0.18|0.001
92173806|NCT05492318|184239043|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric Lsmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|62.18|||||TWO_SIDED|90.0|50.86|75.95||||||Free Dabigatran: Potential Induction Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate. Cmax||75.95|50.86|
92455451|NCT00126438|184800006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.001|TWO_SIDED|95.0|0.18|0.72||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader B readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.72|0.18|0.001
92455452|NCT00126438|184800006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35||||0.001|TWO_SIDED|95.0|0.17|0.72||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader C readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.72|0.17|0.001
92173807|NCT05492318|184239048|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the geometric LS means|107.35|||||TWO_SIDED|90.0|103.35|111.49||||||Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-t||111.49|103.35|
92242425|NCT00755846|184387962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0|STANDARD_ERROR_OF_MEAN|20.74||0.597||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.597
92281268|NCT05920161|184465636|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||0.087
92173808|NCT05492318|184239048|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|106.18|||||TWO_SIDED|90.0|100.84|111.8||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-t||111.80|100.84|
92281269|NCT05920161|184465637|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||A condition||||<0.0001
92281270|NCT05920161|184465637|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||B condition||||<0.0001
92281271|NCT05920161|184465637|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||X condition||||<0.0001
92455453|NCT04414696|184800075|SUPERIORITY||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-3.3|1.5|||||Multivariable linear regression|||1.5|-3.3|
92281272|NCT05920161|184465638|SUPERIORITY||||||<|0|||||||t-test, 1 sided|||||||< 0.000
92281273|NCT05920161|184465638|SUPERIORITY|||||||0.0008|||||||t-test, 1 sided|||||||0.0008
92455454|NCT04414696|184800076|SUPERIORITY||Mean Difference (Final Values)|-4.5|||||TWO_SIDED|95.0|-23.5|14.5|||||Multivariable linear regression|||14.5|-23.5|
92455455|NCT04414696|184800077|SUPERIORITY||Mean Difference (Final Values)|3.8|||||TWO_SIDED|95.0|-1.9|9.5||||||||9.5|-1.9|
92455456|NCT04414696|184800078|SUPERIORITY||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-18.9|21.5|||||Multivariable linear regression|||21.5|-18.9|
92455457|NCT04414696|184800079|SUPERIORITY||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-3.7|1.1|||||Multivariable linear regression|||1.1|-3.7|
92455458|NCT04414696|184800080|SUPERIORITY||Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-7.7|4.2|||||Multivariable linear regression|||4.2|-7.7|
92455459|NCT04414696|184800081|SUPERIORITY||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-1.2|2.1|||||Multivariable linear regression|||2.1|-1.2|
92455460|NCT04414696|184800082|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.0|1.1|||||Multivariable linear regression|||1.1|-1|
92455461|NCT04414696|184800083|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-3.4|1.2|||||Multivariable linear regression|||1.2|-3.4|
92455462|NCT04414696|184800084|SUPERIORITY||Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-4.9|1.3|||||Multivariable linear regression|||1.3|-4.9|
92455463|NCT00785291|184800105|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.2||||0.054|TWO_SIDED|95.0|1.0|1.45||Tests were stratified by prior taxane therapy (yes/no) and hormone receptor status (positive/negative). P-values are for a test of inferiority 2-sided and are unadjusted for multiple comparisons.|Log Rank|||Stratified log-rank tests are used for the two primary comparisons of PFS within an experimental arm relative to PFS within the control arm. The family-wise error rate will be controlled at a one-sided 0.025 level. This is achieved in a 3-arm trial with a common control group by conducting the marginal log-rank tests with a one-sided α = 0.0135. Sample size calculations are based on having high power to detect a hazard ratio of 1.36, in the control arm as compared to the experimental arms.||1.45|1.00|0.054
92455464|NCT00785291|184800105|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.55|||<|0.0001|TWO_SIDED|95.0|1.28|1.87||Tests were stratified by prior taxane therapy (yes/no) and hormone receptor status (positive/negative). P-values are for a test of inferiority 2-sided and are unadjusted for multiple comparisons.|Log Rank|||Stratified log-rank tests are used for the two primary comparisons of PFS within an experimental arm relative to PFS within the control arm. The family-wise error rate will be controlled at a one-sided 0.025 level. This is achieved in a 3-arm trial with a common control group by conducting the marginal log-rank tests with a one-sided α = 0.0135. Sample size calculations are based on having high power to detect a hazard ratio of 1.36, in the control arm as compared to the experimental arms.||1.87|1.28|<0.0001
92173809|NCT05492318|184239048|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|121.77|||||TWO_SIDED|90.0|117.56|126.12||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-t||126.12|117.56|
92455465|NCT00785291|184800109|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17||||0.2|TWO_SIDED|95.0|0.92|1.47||Tests were stratified by prior taxane therapy (yes/no) and hormone receptor status (positive/negative).|Log Rank|||||1.47|0.92|0.20
92455466|NCT00785291|184800109|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.28||||0.038|TWO_SIDED|95.0|1.01|1.61||Tests were stratified by prior taxane therapy (yes/no) and hormone receptor status (positive/negative).|Log Rank|||||1.61|1.01|0.038
92455467|NCT05183022|184800127|SUPERIORITY|||||||0.07|||||||ANOVA|||||||0.07
92455468|NCT02120027|184800166|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.986||||0.949|TWO_SIDED|95.0|0.64|1.53|||Cochran-Mantel-Haenszel|||||1.53|0.64|0.949
92455469|NCT02120027|184800167|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.193|TWO_SIDED|95.0|0.88|1.86|||Cochran-Mantel-Haenszel|||||1.86|0.88|0.193
92455470|NCT02120027|184800168|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.032||||0.872|TWO_SIDED|95.0|0.7|1.53|||Cochran-Mantel-Haenszel|||||1.53|0.70|0.872
92455471|NCT02120027|184800169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.339||||0.272|TWO_SIDED|95.0|0.79|2.26|||Cochran-Mantel-Haenszel|||||2.26|0.79|0.272
92455472|NCT02120027|184800170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.153||||0.567|TWO_SIDED|95.0|0.73|1.81|||Cochran-Mantel-Haenszel|||||1.81|0.73|0.567
92455473|NCT00686166|184800180|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Exact binomal test|||||||0.18
92455474|NCT00985725|184800183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.0||||0.0009|TWO_SIDED|95.0|-12.7|-3.3|||ANCOVA|||||-3.3|-12.7|0.0009
92455475|NCT00985725|184800184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.0465|TWO_SIDED|95.0|-3.7|0.0|||ANCOVA|||||0.0|-3.7|0.0465
92455476|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.1||||0.0181|TWO_SIDED|95.0|-9.4|-0.9|||ANCOVA|||Behavioral recognition index||-0.9|-9.4|0.0181
92455477|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2||||0.0204|TWO_SIDED|95.0|-7.7|-0.7|||ANCOVA|||Inhibit subscale||-0.7|-7.7|0.0204
92455478|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.6||||0.009|TWO_SIDED|95.0|-9.8|-1.4|||ANCOVA|||Shift subscale||-1.4|-9.8|0.0090
92455479|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.7||||0.0793|TWO_SIDED|95.0|-7.9|0.4|||ANCOVA|||Emotional control subscale||0.4|-7.9|0.0793
92455480|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2||||0.1014|TWO_SIDED|95.0|-7.0|0.6|||ANCOVA|||Self-monitor subscale||0.6|-7.0|0.1014
92455481|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.0||||0.0002|TWO_SIDED|95.0|-13.7|-4.3|||ANCOVA|||Metacognition index||-4.3|-13.7|0.0002
92455482|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.6||||0.0002|TWO_SIDED|95.0|-12.9|-4.2|||ANCOVA|||Initiate subscale||-4.2|-12.9|0.0002
92455483|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.1||||0.0001|TWO_SIDED|95.0|-13.7|-4.5|||ANCOVA|||Working memory subscale||-4.5|-13.7|0.0001
92455484|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.5||||0.001|TWO_SIDED|95.0|-11.9|-3.1|||ANCOVA|||Plan/Organize subscale||-3.1|-11.9|0.0010
92455485|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9||||0.0357|TWO_SIDED|95.0|-9.4|-0.3|||ANCOVA|||Task monitor subscale||-0.3|-9.4|0.0357
92455486|NCT00985725|184800185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0||||0.0012|TWO_SIDED|95.0|-11.1|-2.8|||ANCOVA|||Organization of materials subscale||-2.8|-11.1|0.0012
92455487|NCT00985725|184800190|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.4||||0.1731|TWO_SIDED|95.0|-10.9|2.0|||ANCOVA|||||2.0|-10.9|0.1731
92455488|NCT00993655|184800198|SUPERIORITY|||||||0.065|||||||Cochran-Mantel-Haenszel|adjusting for stratification factors at randomization||Assume that the 9-month PD rate in IV arm (Arm 1) will be 40% (based on experience with data from NCIC CTG OV.16 and that of NCRI UK). The target sample size of 200 will enable the detection of a 19% difference between Arms 1 and 3 in 9 month progression disease rate post randomization with 80% power at two-sided 0.05 level.||||0.065
92455489|NCT00993655|184800199|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.27|TWO_SIDED|95.0|0.85|1.75|||Log Rank|Adjusting for stratification factors at randomization||||1.75|0.85|0.27
92455490|NCT00993655|184800200|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.4|TWO_SIDED|95.0|0.74|2.13|||Log Rank|Adjusting for stratification factors at randomization||||2.13|0.74|0.40
92455491|NCT02314624|184800201|SUPERIORITY|||||||0.734||||||Analyses were performed on each subscale individually. This is the p-value for the Depression subscale.|Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.734
92455492|NCT02314624|184800201|SUPERIORITY|||||||0.27||||||Analyses were performed on each subscale individually. This is the p-value for the Anxiety subscale.|Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline||We used a Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.27
92455493|NCT02314624|184800201|SUPERIORITY|||||||0.75||||||Analyses were performed on each subscale individually. This is the p-value for the Stress subscale.|Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline||We used a Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.75
92455494|NCT02314624|184800201|SUPERIORITY|||||||0.812||||||Analyses were performed on each subscale individually. This is the p-value for the Suicide subscale.|Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.812
92455495|NCT02314624|184800202|SUPERIORITY|||||||0.036|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.036
92455496|NCT02314624|184800203|SUPERIORITY|||||||0.664|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.664
92242426|NCT00755846|184387962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|21.77||0.982||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.982
92242427|NCT00755846|184387962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.0|STANDARD_ERROR_OF_MEAN|20.62||0.358||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.358
92242428|NCT00755846|184387962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.1|STANDARD_ERROR_OF_MEAN|21.06||0.274||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.274
92242429|NCT00755846|184387962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.5|STANDARD_ERROR_OF_MEAN|21.06||0.554||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.554
92242430|NCT04047121|184387964|SUPERIORITY|||||||0.2531|||||||Chi-squared|||||||0.2531
92242431|NCT04047121|184387964|SUPERIORITY|||||||0.0295|||||||Chi-squared|||||||0.0295
92242432|NCT04047121|184387964|SUPERIORITY|||||||0.1857|||||||Chi-squared|||||||0.1857
92242433|NCT04047121|184387964|SUPERIORITY||Odds Ratio (OR)|0.8401||||0.3297|TWO_SIDED|95.0|0.5919|1.1925|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.1925|0.5919|0.3297
92242434|NCT04047121|184387964|SUPERIORITY||Odds Ratio (OR)|1.5066||||0.2003|TWO_SIDED|95.0|0.8046|2.8209|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||2.8209|0.8046|0.2003
92242435|NCT04047121|184387964|SUPERIORITY||Odds Ratio (OR)|1.4052||||0.2276|TWO_SIDED|95.0|0.8086|2.442|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||2.4420|0.8086|0.2276
92242436|NCT04047121|184387965|SUPERIORITY|||||||0.8786|||||||Chi-squared|||||||0.8786
92242437|NCT04047121|184387965|SUPERIORITY|||||||0.1178|||||||Chi-squared|||||||0.1178
92242438|NCT04047121|184387965|SUPERIORITY|||||||0.5337|||||||Chi-squared|||||||0.5337
92242439|NCT04047121|184387965|SUPERIORITY||Odds Ratio (OR)|1.0283||||0.9212|TWO_SIDED|95.0|0.5911|1.789|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.7890|0.5911|0.9212
92242440|NCT04047121|184387965|SUPERIORITY||Odds Ratio (OR)|0.7464||||0.4693|TWO_SIDED|95.0|0.338|1.6482|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.6482|0.3380|0.4693
92242441|NCT04047121|184387965|SUPERIORITY||Odds Ratio (OR)|0.8212||||0.5593|TWO_SIDED|95.0|0.4239|1.591|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.5910|0.4239|0.5593
92242442|NCT04047121|184387966|SUPERIORITY|||||||0.6205|||||||Chi-squared|||||||0.6205
92242443|NCT04047121|184387966|SUPERIORITY|||||||0.4924|||||||Chi-squared|||||||0.4924
92242444|NCT04047121|184387966|SUPERIORITY|||||||0.4982|||||||Chi-squared|||||||0.4982
92242445|NCT04047121|184387966|SUPERIORITY||Odds Ratio (OR)|1.3182||||0.5494|TWO_SIDED|95.0|0.5335|3.257|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||3.2570|0.5335|0.5494
92264795|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-7.17||||0.0265||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0265
92455497|NCT02314624|184800204|SUPERIORITY|||||||0.764|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.764
92455498|NCT02314624|184800205|SUPERIORITY|||||||0.44|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.440
92455499|NCT02314624|184800206|SUPERIORITY|||||||0.09|||||||Chi-squared|GEE Type III chi squared distribution with 2 degrees of freedom was used to examine between-condition change over time.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.09
92455500|NCT02314624|184800207|SUPERIORITY|||||||0.19|||||||Chi-squared|GEE Type III chi squared distribution with 2 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.19
92455501|NCT02314624|184800208|SUPERIORITY|||||||0.15|||||||Chi-squared|GEE Type III chi squared distribution with 1 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.15
92455502|NCT02314624|184800209|SUPERIORITY||||||<|0.001|||||||Chi-squared|GEE Type III chi squared distribution with 1 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||<.001
92455503|NCT02314624|184800210|SUPERIORITY|||||||0.14|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.14
92455504|NCT02314624|184800211|SUPERIORITY|||||||0.22|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.22
92455505|NCT02314624|184800212|SUPERIORITY||||||<|0.001|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||<.001
92455506|NCT02314624|184800213|SUPERIORITY|||||||0.001|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.001
92455507|NCT02314624|184800214|SUPERIORITY|||||||0.99|||||||Chi-squared|GEE Type III chi squared distribution with 2 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.99
92281274|NCT05920161|184465639|SUPERIORITY|||||||0.083|||||||t-test, 1 sided|||||||0.083
92455508|NCT02131272|184800230|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered fulfilled if the upper bound of the two-sided 95% confidence interval for the difference between detemir and NPH was below or equal to 0.4%. The sample size was set to ensure 80% power for the full analysis set (FAS). However, efficacy conclusions cannot be drawn from the analysis due to low number of subjects included in the trial.|Least squares mean difference|0.17||||0.3075|TWO_SIDED|95.0|-0.74|1.09||p value is reported for 1 sided test|Mixed Models Analysis|||HbA1c measurements were analysed with a mixed model for repeated measurements with an unstructured covariance matrix. The model included treatment, visit, age group, prior antidiabetic therapy and interaction between prior antidiabetic therapy and age group as fixed factors and the HbA1c baseline value as covariate. Interactions between visit and all factors and covariates were also included in the model.||1.09|-0.74|0.3075
92455509|NCT04162769|184800237|SUPERIORITY||Least square mean difference|-10.28|STANDARD_ERROR_OF_MEAN|6.605|=|0.1198|TWO_SIDED|95.0|-23.228|2.674|||ANCOVA|||Week 12||2.674|-23.228|=0.1198
92455510|NCT04162769|184800237|SUPERIORITY||Least square mean difference|-8.77|STANDARD_ERROR_OF_MEAN|6.515|=|0.1783|TWO_SIDED|95.0|-21.544|4.002|||ANCOVA|||Week 12||4.002|-21.544|=0.1783
92455511|NCT04162769|184800238|SUPERIORITY||Response Rate Difference|-0.2|STANDARD_ERROR_OF_MEAN|9.34|=|0.9826|TWO_SIDED|95.0|-18.52|18.11|||Cochran-Mantel-Haenszel|||Week 12||18.11|-18.52|=0.9826
92455512|NCT04162769|184800238|SUPERIORITY||Response Rate Difference|13.0|STANDARD_ERROR_OF_MEAN|9.78|=|0.1891|TWO_SIDED|95.0|-6.12|32.21|||Cochran-Mantel-Haenszel|||Week 12||32.21|-6.12|=0.1891
92455513|NCT04162769|184800239|SUPERIORITY||Response Rate Difference|2.2|STANDARD_ERROR_OF_MEAN|7.38|=|0.7694|TWO_SIDED|95.0|-12.29|16.64|||Cochran-Mantel-Haenszel|||Week 12||16.64|-12.29|=0.7694
92455514|NCT04162769|184800239|SUPERIORITY||Response Rate Difference|17.4|STANDARD_ERROR_OF_MEAN|8.47|=|0.045|TWO_SIDED|95.0|0.79|34.0|||Cochran-Mantel-Haenszel|||Week 12||34.00|0.79|=0.0450
92455515|NCT04162769|184800240|SUPERIORITY||Least square mean difference|-14.03|STANDARD_ERROR_OF_MEAN|7.295|=|0.0558|TWO_SIDED|95.0|-28.406|0.352|||Mixed Models Analysis|||Week 12||0.352|-28.406|=0.0558
92455516|NCT04162769|184800240|SUPERIORITY||Least square mean difference|-10.67|STANDARD_ERROR_OF_MEAN|7.134|=|0.1363|TWO_SIDED|95.0|-24.737|3.397|||Mixed Models Analysis|||Week 12||3.397|-24.737|=0.1363
92455517|NCT04162769|184800241|SUPERIORITY||Response Rate Difference|4.2|STANDARD_ERROR_OF_MEAN|11.33|=|0.7143|TWO_SIDED|95.0|-18.0|26.41|||Cochran-Mantel-Haenszel|||Week 12||26.41|-18.00|=0.7143
92455518|NCT04162769|184800241|SUPERIORITY||Response Rate Difference|5.1|STANDARD_ERROR_OF_MEAN|11.09|=|0.6488|TWO_SIDED|95.0|-16.62|26.87|||Cochran-Mantel-Haenszel|||Week 12||26.87|-16.62|=0.6488
92455519|NCT04162769|184800242|SUPERIORITY||Response Rate Difference|8.8|STANDARD_ERROR_OF_MEAN|10.22|=|0.3981|TWO_SIDED|95.0|-11.27|28.8|||Cochran-Mantel-Haenszel|||Week 12||28.80|-11.27|=0.3981
92455520|NCT04162769|184800242|SUPERIORITY||Response Rate Difference|15.2|STANDARD_ERROR_OF_MEAN|10.17|=|0.141|TWO_SIDED|95.0|-4.72|35.15|||Cochran-Mantel-Haenszel|||Week 12||35.15|-4.72|=0.1410
92281275|NCT05920161|184465639|SUPERIORITY|||||||0.088|||||||t-test, 1 sided|||||||0.088
92455521|NCT04162769|184800243|SUPERIORITY||Response Rate Difference|8.4|STANDARD_ERROR_OF_MEAN|7.65|=|0.269|TWO_SIDED|95.0|-6.61|23.38|||Cochran-Mantel-Haenszel|||Week 12||23.38|-6.61|=0.2690
92455522|NCT04162769|184800243|SUPERIORITY||Response Rate Difference|4.3|STANDARD_ERROR_OF_MEAN|7.09|=|0.5428|TWO_SIDED|95.0|-9.56|18.25|||Cochran-Mantel-Haenszel|||Week 12||18.25|-9.56|=0.5428
92455523|NCT04162769|184800244|SUPERIORITY||Least square mean difference|-2.81|STANDARD_ERROR_OF_MEAN|7.721|=|0.7163|TWO_SIDED|95.0|-18.089|12.466|||Mixed Models Analysis|||Week 12||12.466|-18.089|=0.7163
92455524|NCT04162769|184800244|SUPERIORITY||Least square mean difference|-13.24|STANDARD_ERROR_OF_MEAN|7.602|=|0.084|TWO_SIDED|95.0|-28.284|1.805|||Mixed Models Analysis|||Week 12||1.805|-28.284|=0.0840
92455525|NCT00464815|184800266|NON_INFERIORITY|Criterion for non-inferiority: the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference (Nimenrix Group minus Mencevax ACWY Group) in the percentage of subjects with bactericidal vaccine response was greater than or equal to (≥) the pre-defined clinical limit of -10%.|Rate difference|7.87|||||TWO_SIDED|95.0|1.63|14.87||||||To demonstrate the non-inferiority of Nimenrix vaccine versus Mencevax ACWY vaccine in term of rSBA-MenA vaccine response, the standardized asymptotic 95% CI for the difference in rSBA vaccine response rate for the meningococcal serogroup A (Nimenrix Group rate minus Mencevax ACWY Group rate) one month after vaccination was computed.||14.87|1.63|
92455526|NCT00464815|184800266|NON_INFERIORITY|Criterion for non-inferiority: the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval for the group difference \[Nimenrix Group minus Mencevax ACWY Group\] in the percentage of subjects with bactericidal vaccine response was greater than or equal to (≥) the pre-defined clinical limit of -10%.|Rate Difference|0.67|||||TWO_SIDED|95.0|-1.65|4.18||||||To demonstrate the non-inferiority of Nimenrix vaccine versus Mencevax ACWY vaccine in term of rSBA-MenC vaccine response, the standardized asymptotic 95% CI for the difference in rSBA vaccine response rate for the meningococcal serogroup C (Nimenrix Group rate minus Mencevax ACWY Group rate) one month after vaccination was computed.||4.18|-1.65|
92455527|NCT00464815|184800266|NON_INFERIORITY|Criterion for non-inferiority: the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval for the group difference \[Nimenrix Group minus Mencevax ACWY Group\] in the percentage of subjects with bactericidal vaccine response was greater than or equal to (≥) the pre-defined clinical limit of -10%.|Rate difference|8.9|||||TWO_SIDED|95.0|4.78|14.14||||||To demonstrate the non-inferiority of Nimenrix vaccine versus Mencevax ACWY vaccine in term of rSBA-MenW-135 vaccine response, the standardized asymptotic 95% CI for the difference in rSBA vaccine response rate for the meningococcal serogroup W-135 (Nimenrix Group rate minus Mencevax ACWY Group rate) one month after vaccination was computed.||14.14|4.78|
92455528|NCT00464815|184800266|NON_INFERIORITY|Criterion for non-inferiority: the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference \[Nimenrix Group minus Mencevax ACWY Group\] in the percentage of subjects with bactericidal vaccine response was greater than or equal to (≥) the pre-defined clinical limit of -10%.|Rate difference|15.22|||||TWO_SIDED|95.0|9.89|21.37||||||To demonstrate the non-inferiority of Nimenrix vaccine versus Mencevax ACWY vaccine in term of rSBA-MenY vaccine response, the standardized asymptotic 95% CI for the difference in rSBA vaccine response rate for the meningococcal serogroup Y (Nimenrix Group rate minus Mencevax ACWY Group rate) one month after vaccination was computed.||21.37|9.89|
92242446|NCT04047121|184387966|SUPERIORITY||Odds Ratio (OR)|1.1664||||0.783|TWO_SIDED|95.0|0.39|3.4883|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||3.4883|0.3900|0.7830
92242447|NCT04047121|184387967|SUPERIORITY|||||||0.3817|||||||Chi-squared|||||||0.3817
92242448|NCT04047121|184387967|SUPERIORITY|||||||0.7397|||||||Chi-squared|||||||0.7397
92242449|NCT04047121|184387967|SUPERIORITY|||||||0.7942|||||||Chi-squared|||||||0.7942
92242450|NCT04047121|184387967|SUPERIORITY||Odds Ratio (OR)|1.0682||||0.7924|TWO_SIDED|95.0|0.6537|1.7455|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.7455|0.6537|0.7924
92455529|NCT00464815|184800267|NON_INFERIORITY|Criterion for non-inferiority: the upper limit (UL) of the 2-sided standardized asymptotic 95% CI for the ratio of the percentages of subjects with any Grade 3 general symptom was lower than or equal to (≤) the pre-defined clinical limit of 3.0.|Risk Ratio (RR)|4.02||||0.1456|TWO_SIDED|95.0|0.68|24.6|||Chi-squared|||To demonstrate the non-inferiority of Nimenrix™ vaccine versus Mencevax™ vaccine in terms of incidence of any Grade 3 general (solicited and unsolicited) symptom, the 2-sided standardised asymptotic 95% CI for the ratio between Nimenrix and Mencevax groups (Nimenrix over Mencevax) in the percentage of subjects with any grade 3 general symptom within 4 days after vaccination was computed for the safety analysis in study MenACWY-TT-036.||24.6|0.68|0.1456
92455530|NCT00515502|184800283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|95.0|-3.0|2.2|||Mixed Models Analysis|||||2.2|-3.0|
92455531|NCT00515502|184800283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|95.0|-2.1|2.9|||Mixed Models Analysis|||||2.9|-2.1|
92455532|NCT00515502|184800283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|1.77|||TWO_SIDED|95.0|-1.4|5.7|||Mixed Models Analysis|||||5.7|-1.4|
92455533|NCT00515502|184800283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|1.79|||TWO_SIDED|95.0|-6.2|0.9|||Mixed Models Analysis|||||0.9|-6.2|
92455534|NCT00515502|184800283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|1.78|||TWO_SIDED|95.0|-1.3|5.8|||Mixed Models Analysis|||||5.8|-1.3|
92455535|NCT00515502|184800283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|1.89|||TWO_SIDED|95.0|-0.7|6.9|||Mixed Models Analysis|||||6.9|-0.7|
92455536|NCT00515502|184800283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|2.46|||TWO_SIDED|95.0|-0.1|9.7|||Mixed Models Analysis|||||9.7|-0.1|
92455537|NCT00515502|184800284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.844|||TWO_SIDED|95.0|-2.47|0.92|||Mixed Models Analysis|||||0.92|-2.47|
92242451|NCT04047121|184387967|SUPERIORITY||Odds Ratio (OR)|1.0414||||0.9339|TWO_SIDED|95.0|0.3997|2.7134|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||2.7134|0.3997|0.9339
92242452|NCT04047121|184387967|SUPERIORITY||Odds Ratio (OR)|0.8195||||0.6497|TWO_SIDED|95.0|0.347|1.935|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.9350|0.3470|0.6497
92242453|NCT04047121|184387968|SUPERIORITY|||||||0.7936|||||||Chi-squared|||||||0.7936
92242454|NCT04047121|184387968|SUPERIORITY|||||||0.5621|||||||Chi-squared|||||||0.5621
92242455|NCT04047121|184387968|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||0.6800
92242456|NCT04047121|184387968|SUPERIORITY||Odds Ratio (OR)|1.1438||||0.5051|TWO_SIDED|95.0|0.7705|1.6978|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.6978|0.7705|0.5051
92242457|NCT04047121|184387968|SUPERIORITY||Odds Ratio (OR)|0.8576||||0.7131|TWO_SIDED|95.0|0.3781|1.9452|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.9452|0.3781|0.7131
92455538|NCT00515502|184800284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04|STANDARD_ERROR_OF_MEAN|0.798|||TWO_SIDED|95.0|-0.57|2.64|||Mixed Models Analysis|||||2.64|-0.57|
92455539|NCT00515502|184800284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.95|STANDARD_ERROR_OF_MEAN|1.151|||TWO_SIDED|95.0|-0.35|4.26|||Mixed Models Analysis|||||4.26|-0.35|
92455540|NCT00515502|184800284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|1.193|||TWO_SIDED|95.0|-4.11|0.67|||Mixed Models Analysis|||||0.67|-4.11|
92455541|NCT00515502|184800284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.95|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|95.0|-1.44|3.33|||Mixed Models Analysis|||||3.33|-1.44|
92455542|NCT00515502|184800284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.76|STANDARD_ERROR_OF_MEAN|1.257|||TWO_SIDED|95.0|0.24|5.28|||Mixed Models Analysis|||||5.28|0.24|
92455543|NCT00515502|184800284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.68|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|0.34|7.02|||Mixed Models Analysis|||||7.02|0.34|
92455544|NCT00515502|184800285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|95.0|-5.0|3.4|||Mixed Models Analysis|||||3.4|-5.0|
92455545|NCT00515502|184800285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|2.03|||TWO_SIDED|95.0|-7.6|0.6|||Mixed Models Analysis|||||0.6|-7.6|
92242458|NCT04047121|184387968|SUPERIORITY||Odds Ratio (OR)|0.8415||||0.649|TWO_SIDED|95.0|0.4003|1.769|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.7690|0.4003|0.6490
92242459|NCT04047121|184387969|SUPERIORITY|||||||0.5217|||||||Chi-squared|||||||0.5217
92242460|NCT04047121|184387969|SUPERIORITY|||||||0.0432|||||||Chi-squared|||||||0.0432
92242461|NCT04047121|184387969|SUPERIORITY|||||||0.2573|||||||Chi-squared|||||||0.2573
92281276|NCT02753842|184465646|SUPERIORITY||Mean Difference (Final Values)|1.39|||<|0.05|TWO_SIDED|95.0|0.52|2.26||The a priori threshold was p\<0.05.|Mixed Models Analysis|||Comparing fitted to standard condoms, the null hypothesis was no difference in pleasure.||2.26|0.52|<0.05
92281277|NCT02753842|184465647|SUPERIORITY||Odds Ratio (OR)|1.13|||>|0.05|TWO_SIDED|95.0|0.92|1.38|||Mixed Models Analysis|||A single item assessed whether participants preferred fitted condoms or standard condoms at the end of the study (the item word viewed by participants used the blinded identifiers of each condom type).||1.38|0.92|>0.05
92281278|NCT02753842|184465649|SUPERIORITY||Odds Ratio (OR)|0.93|||>|0.05|TWO_SIDED|95.0|0.27|3.24|||logistic mixed effects model|||We assessed clinical condom failure for anal sex, comparing anal sex acts with fitted condoms to anal sex acts with standard condoms.||3.24|0.27|>0.05
92173810|NCT05492318|184239048|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|122.97|||||TWO_SIDED|90.0|115.08|131.41||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-t||131.41|115.08|
92281279|NCT02753842|184465650|SUPERIORITY||Median Difference (Final Values)|1.06|||<|0.05|TWO_SIDED|95.0|0.18|1.94||The a priori threshold was p\<0.05.|Mixed Models Analysis|||Comparing thin to standard condoms, the null hypothesis was no difference in pleasure.||1.94|0.18|<0.05
92281280|NCT05216081|184465652|OTHER||Percentage of enrolled from eligible|69.4|||||TWO_SIDED|95.0|61.5|76.2||||||||76.2|61.5|
92281281|NCT05216081|184465653|OTHER||Percentage of enrolled from eligible|99.0|||||TWO_SIDED|95.0|94.7|99.8||||||||99.8|94.7|
92281282|NCT05216081|184465655|OTHER||Percentage screened positive for EM|15.8|||||TWO_SIDED|95.0|10.0|24.2||||||||24.2|10|
92281283|NCT05216081|184465658|OTHER||Percentage who self-disclosed|57.1|||||TWO_SIDED|95.0|32.6|78.6||||||||78.6|32.6|
92281284|NCT05216081|184465659|OTHER||Percentage substantiated by socialworker|75.0|||||TWO_SIDED|95.0|50.5|89.8||||||||89.8|50.5|
92455546|NCT00515502|184800285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|2.74|||TWO_SIDED|95.0|-2.2|8.7|||Mixed Models Analysis|||||8.7|-2.2|
92281285|NCT00655642|184465670|NON_INFERIORITY_OR_EQUIVALENCE|Based on the aforementioned values, we calculated a sample size for each treatment arm of 131 patients. We increased this sample estimate to 150 per treatment arm (total of 600 patients) to account for anticipated study attrition. Based on an unplanned interim conditional power futility analysis done at 30% information fraction, the decision was made to end the trial early.The futility analysis found the observed differences were far less than what was deemed clinically important.|Median Difference (Final Values)|12.0|STANDARD_DEVIATION|25.0||0.16||||||Being aware of the multiple comparison issues, we deliberately chose the 0.01 alpha level following a Bonferroni type of correction so that the overall type I error rate is about 0.05.|Kruskal-Wallis|We computed the effect of the 3 treatments relative to ondansetron.|Change in VAS score was calculated as (VAS 30 min - VAS baseline). We calculated the differences in median VAS reductions for each arm relative to ondansetron.|The null hypothesis is that ondanestron is not more effective in reducing nausea than metoclopramide, promethazine or isotonic normal saline. The sample size was chosen to detect a 12-mm difference in VAS improvement between ondanestron and any other treatment arm (assuming a SD of 25mm) at 90% power and 0.01 alpha significance level. We chose the 0.01 alpha level following a Bonferroni type of correction so that the overall type I error rate is about 0.05.||||0.16
92242462|NCT04047121|184387969|SUPERIORITY||Odds Ratio (OR)|1.1637||||0.5368|TWO_SIDED|95.0|0.7193|1.8827|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.8827|0.7193|0.5368
92242463|NCT04047121|184387969|SUPERIORITY||Odds Ratio (OR)|0.7757||||0.4685|TWO_SIDED|95.0|0.3904|1.5413|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.5413|0.3904|0.4685
92242464|NCT04047121|184387969|SUPERIORITY||Odds Ratio (OR)|0.7354||||0.3112|TWO_SIDED|95.0|0.4057|1.333|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.3330|0.4057|0.3112
92242465|NCT04047121|184387970|SUPERIORITY|||||||0.8122|||||||Log Rank|||||||0.8122
92242466|NCT04047121|184387970|SUPERIORITY|||||||0.7766|||||||Log Rank|||||||0.7766
92242467|NCT04047121|184387970|SUPERIORITY|||||||0.8305|||||||Log Rank|||||||0.8305
92242468|NCT04047121|184387970|SUPERIORITY||Hazard Ratio (HR)|0.5814||||0.1845|TWO_SIDED|95.0|0.261|1.2952|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.2952|0.2610|0.1845
92455547|NCT00515502|184800285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|2.98|||TWO_SIDED|95.0|-4.7|7.2|||Mixed Models Analysis|||||7.2|-4.7|
92455548|NCT00515502|184800285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|2.83|||TWO_SIDED|95.0|-7.7|3.6|||Mixed Models Analysis|||||3.6|-7.7|
92455549|NCT00515502|184800285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-11.2|1.6|||Mixed Models Analysis|||||1.6|-11.2|
92455550|NCT00515502|184800285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-5.9|10.0|||Mixed Models Analysis|||||10.0|-5.9|
92455551|NCT00515502|184800286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.42|STANDARD_ERROR_OF_MEAN|1.902|||TWO_SIDED|95.0|-6.23|1.39|||Mixed Models Analysis|||||1.39|-6.23|
92455552|NCT00515502|184800286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88|STANDARD_ERROR_OF_MEAN|1.834|||TWO_SIDED|95.0|-5.56|1.79|||Mixed Models Analysis|||||1.79|-5.56|
92242469|NCT04047121|184387970|SUPERIORITY||Hazard Ratio (HR)|1.5908||||0.2951|TWO_SIDED|95.0|0.6671|3.7936|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||3.7936|0.6671|0.2951
92242470|NCT04047121|184387970|SUPERIORITY||Hazard Ratio (HR)|1.3546||||0.4907|TWO_SIDED|95.0|0.6584|2.787|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||2.7870|0.6584|0.4907
92242471|NCT04047121|184387971|SUPERIORITY|||||||0.6006|||||||Log Rank|||||||0.6006
92455553|NCT00515502|184800286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|2.474|||TWO_SIDED|95.0|-3.82|6.07|||Mixed Models Analysis|||||6.07|-3.82|
92281286|NCT02016300|184465671|OTHER|||||||0.162|||||||Regression, Linear|||Difference between baseline and month 6.||||0.162
92455554|NCT00515502|184800286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|2.697|||TWO_SIDED|95.0|-5.07|5.69|||Mixed Models Analysis|||||5.69|-5.07|
92242472|NCT04047121|184387971|SUPERIORITY|||||||0.2941|||||||Log Rank|||||||0.2941
92242473|NCT04047121|184387971|SUPERIORITY|||||||0.961|||||||Log Rank|||||||0.9610
92242474|NCT04047121|184387971|SUPERIORITY||Hazard Ratio (HR)|0.5571||||0.0455|TWO_SIDED|95.0|0.314|0.9884|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||0.9884|0.3140|0.0455
92242475|NCT04047121|184387971|SUPERIORITY||Hazard Ratio (HR)|2.1781||||0.0274|TWO_SIDED|95.0|1.0904|4.3506|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||4.3506|1.0904|0.0274
92281287|NCT02016300|184465671|OTHER|||||||0.094|||||||Regression, Linear|||Difference between baseline and month 12.||||0.094
92455555|NCT00515502|184800286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.73|STANDARD_ERROR_OF_MEAN|2.562|||TWO_SIDED|95.0|-7.84|2.38|||Mixed Models Analysis|||||2.38|-7.84|
92455556|NCT00515502|184800286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|2.898|||TWO_SIDED|95.0|-7.97|3.59|||Mixed Models Analysis|||||3.59|-7.97|
92455557|NCT00515502|184800286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|STANDARD_ERROR_OF_MEAN|3.618|||TWO_SIDED|95.0|-6.39|8.02|||Mixed Models Analysis|||||8.02|-6.39|
92455558|NCT00515502|184800287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|95.0|-5.1|0.2|||Mixed Models Analysis|||||0.2|-5.1|
92455559|NCT00515502|184800287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|95.0|-4.6|0.4|||Mixed Models Analysis|||||0.4|-4.6|
92455560|NCT00515502|184800287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|0.0|6.6|||Mixed Models Analysis|||||6.6|-0.0|
92455561|NCT00515502|184800287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|1.77|||TWO_SIDED|95.0|-5.9|1.2|||Mixed Models Analysis|||||1.2|-5.9|
92455562|NCT00515502|184800287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|1.71|||TWO_SIDED|95.0|-3.5|3.3|||Mixed Models Analysis|||||3.3|-3.5|
92455563|NCT00515502|184800287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|-3.5|4.1|||Mixed Models Analysis|||||4.1|-3.5|
92455564|NCT00515502|184800287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.7|STANDARD_ERROR_OF_MEAN|2.35|||TWO_SIDED|95.0|1.0|10.4|||Mixed Models Analysis|||||10.4|1.0|
92455565|NCT00515502|184800288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.97|STANDARD_ERROR_OF_MEAN|1.051|||TWO_SIDED|95.0|-5.08|-0.87|||Mixed Models Analysis|||||-0.87|-5.08|
92455566|NCT00515502|184800288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|1.006|||TWO_SIDED|95.0|-3.53|0.5|||Mixed Models Analysis|||||0.50|-3.53|
92455567|NCT00515502|184800288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.21|STANDARD_ERROR_OF_MEAN|1.335|||TWO_SIDED|95.0|-0.46|4.88|||Mixed Models Analysis|||||4.88|-0.46|
92455568|NCT00515502|184800288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.32|STANDARD_ERROR_OF_MEAN|1.409|||TWO_SIDED|95.0|-6.13|-0.5|||Mixed Models Analysis|||||-0.50|-6.13|
92455569|NCT00515502|184800288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|1.366|||TWO_SIDED|95.0|-2.38|3.07|||Mixed Models Analysis|||||3.07|-2.38|
92173811|NCT05492318|184239048|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 7) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|137.42|||||TWO_SIDED|90.0|128.09|147.43||||||Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - AUC0-t||147.43|128.09|
92281288|NCT02016300|184465671|OTHER|||||||0.043|||||||Regression, Linear|||Difference between baseline and month 24.||||0.043
92264796|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-6.85||||0.0084||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0084
92455570|NCT00515502|184800288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|1.514|||TWO_SIDED|95.0|-1.22|4.82|||Mixed Models Analysis|||||4.82|-1.22|
92455571|NCT00515502|184800288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.53|STANDARD_ERROR_OF_MEAN|1.867|||TWO_SIDED|95.0|1.81|9.25|||Mixed Models Analysis|||||9.25|1.81|
92455572|NCT00515502|184800289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.31|STANDARD_ERROR_OF_MEAN|3.256|||TWO_SIDED|95.0|-9.82|3.21|||Mixed Models Analysis|||||3.21|-9.82|
92455573|NCT00515502|184800289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|STANDARD_ERROR_OF_MEAN|3.193|||TWO_SIDED|95.0|-4.7|8.09|||Mixed Models Analysis|||||8.09|-4.70|
92455574|NCT00515502|184800289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|4.268|||TWO_SIDED|95.0|-10.06|6.98|||Mixed Models Analysis|||||6.98|-10.06|
92455575|NCT00515502|184800289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.17|STANDARD_ERROR_OF_MEAN|4.347|||TWO_SIDED|95.0|-13.84|3.5|||Mixed Models Analysis|||||3.50|-13.84|
92455576|NCT00515502|184800289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.86|STANDARD_ERROR_OF_MEAN|4.264|||TWO_SIDED|95.0|-6.65|10.37|||Mixed Models Analysis|||||10.37|-6.65|
92455577|NCT00515502|184800289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.86|STANDARD_ERROR_OF_MEAN|4.622|||TWO_SIDED|95.0|-2.35|16.08|||Mixed Models Analysis|||||16.08|-2.35|
92455578|NCT00515502|184800289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.63|STANDARD_ERROR_OF_MEAN|5.634|||TWO_SIDED|95.0|-7.59|14.85|||Mixed Models Analysis|||||14.85|-7.59|
92455579|NCT00515502|184800290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.298|STANDARD_ERROR_OF_MEAN|2.3297|||TWO_SIDED|95.0|-4.961|4.365|||Mixed Models Analysis|||||4.365|-4.961|
92455580|NCT00515502|184800290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.066|STANDARD_ERROR_OF_MEAN|2.2776|||TWO_SIDED|95.0|-3.495|5.627|||Mixed Models Analysis|||||5.627|-3.495|
92264797|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-8.36|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
92264798|NCT00151775|184431106|SUPERIORITY_OR_OTHER||Slope|-7.71|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
92264799|NCT00151775|184431107|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.58||||0.0093|TWO_SIDED|95.0|-6.27|-0.89|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||Analysis of systolic blood pressure. Null hypothesis of no treatment difference was tested.||-0.89|-6.27|0.0093
92455581|NCT00515502|184800290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.062|STANDARD_ERROR_OF_MEAN|3.0952|||TWO_SIDED|95.0|-8.247|4.122|||Mixed Models Analysis|||||4.122|-8.247|
92455582|NCT00515502|184800290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.362|STANDARD_ERROR_OF_MEAN|3.1891|||TWO_SIDED|95.0|-6.003|6.726|||Mixed Models Analysis|||||6.726|-6.003|
92455583|NCT00515502|184800290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|3.1121|||TWO_SIDED|95.0|-6.873|5.554|||Mixed Models Analysis|||||5.554|-6.873|
92455584|NCT00515502|184800290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.704|STANDARD_ERROR_OF_MEAN|3.3916|||TWO_SIDED|95.0|-6.064|7.473|||Mixed Models Analysis|||||7.473|-6.064|
92455585|NCT00515502|184800290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.424|STANDARD_ERROR_OF_MEAN|4.2233|||TWO_SIDED|95.0|-10.84|5.993|||Mixed Models Analysis|||||5.993|-10.84|
92455586|NCT00515502|184800291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|2.542|||TWO_SIDED|95.0|-4.98|5.15|||Mixed Models Analysis|||||5.15|-4.98|
92242476|NCT04047121|184387971|SUPERIORITY||Hazard Ratio (HR)|0.8896||||0.6787|TWO_SIDED|95.0|0.5114|1.5475|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.5475|0.5114|0.6787
92455587|NCT00515502|184800291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|2.507|||TWO_SIDED|95.0|-3.65|6.34|||Mixed Models Analysis|||||6.34|-3.65|
92455588|NCT00515502|184800291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|3.182|||TWO_SIDED|95.0|-7.49|5.19|||Mixed Models Analysis|||||5.19|-7.49|
92455589|NCT00515502|184800291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|3.296|||TWO_SIDED|95.0|-6.89|6.24|||Mixed Models Analysis|||||6.24|-6.89|
92242477|NCT04047121|184387972|SUPERIORITY|||||||0.9084|||||||Log Rank|||||||0.9084
92242478|NCT04047121|184387972|SUPERIORITY|||||||0.8325|||||||Log Rank|||||||0.8325
92242479|NCT04047121|184387972|SUPERIORITY|||||||0.963|||||||Log Rank|||||||0.9630
92242480|NCT04047121|184387972|SUPERIORITY||Hazard Ratio (HR)|1.0508||||0.7909|TWO_SIDED|95.0|0.7284|1.516|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.5160|0.7284|0.7909
92242481|NCT04047121|184387972|SUPERIORITY||Hazard Ratio (HR)|0.8117||||0.6027|TWO_SIDED|95.0|0.37|1.7808|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.7808|0.3700|0.6027
92242482|NCT04047121|184387972|SUPERIORITY||Hazard Ratio (HR)|1.1742||||0.6978|TWO_SIDED|95.0|0.5222|2.6404|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||2.6404|0.5222|0.6978
92242483|NCT04047121|184387973|SUPERIORITY|||||||0.1736|||||||Log Rank|||||||0.1736
92455590|NCT00515502|184800291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|3.279|||TWO_SIDED|95.0|-6.13|6.94|||Mixed Models Analysis|||||6.94|-6.13|
92455591|NCT00515502|184800291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67|STANDARD_ERROR_OF_MEAN|3.516|||TWO_SIDED|95.0|-5.34|8.67|||Mixed Models Analysis|||||8.67|-5.34|
92455592|NCT00515502|184800291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|4.087|||TWO_SIDED|95.0|-8.97|7.32|||Mixed Models Analysis|||||7.32|-8.97|
92455593|NCT00515502|184800292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.464|STANDARD_ERROR_OF_MEAN|1.9766|||TWO_SIDED|95.0|-2.492|5.419|||Mixed Models Analysis|||||5.419|-2.492|
92455594|NCT00515502|184800292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.248|STANDARD_ERROR_OF_MEAN|1.9457|||TWO_SIDED|95.0|-3.647|4.144|||Mixed Models Analysis|||||4.144|-3.647|
92455595|NCT00515502|184800292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.645|STANDARD_ERROR_OF_MEAN|2.5254|||TWO_SIDED|95.0|-7.687|2.396|||Mixed Models Analysis|||||2.396|-7.687|
92242484|NCT04047121|184387973|SUPERIORITY|||||||0.0195|||||||Log Rank|||||||0.0195
92242485|NCT04047121|184387973|SUPERIORITY|||||||0.2104|||||||Log Rank|||||||0.2104
92242486|NCT04047121|184387973|SUPERIORITY||Hazard Ratio (HR)|1.1723||||0.167|TWO_SIDED|95.0|0.9357|1.4687|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.4687|0.9357|0.1670
92455596|NCT00515502|184800292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.585|STANDARD_ERROR_OF_MEAN|2.6352|||TWO_SIDED|95.0|-2.671|7.84|||Mixed Models Analysis|||||7.840|-2.671|
92455597|NCT00515502|184800292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.121|STANDARD_ERROR_OF_MEAN|2.5993|||TWO_SIDED|95.0|-6.308|4.067|||Mixed Models Analysis|||||4.067|-6.308|
92455598|NCT00515502|184800292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.336|STANDARD_ERROR_OF_MEAN|2.8164|||TWO_SIDED|95.0|-7.952|3.28|||Mixed Models Analysis|||||3.280|-7.952|
92455599|NCT00515502|184800292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.23|STANDARD_ERROR_OF_MEAN|3.3802|||TWO_SIDED|95.0|-11.96|1.504|||Mixed Models Analysis|||||1.504|-11.96|
92455600|NCT00515502|184800293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.2|STANDARD_ERROR_OF_MEAN|2.24|||TWO_SIDED|95.0|-9.7|-0.7|||Mixed Models Analysis|||||-0.7|-9.7|
92455601|NCT00515502|184800293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|2.15|||TWO_SIDED|95.0|-8.9|-0.3|||Mixed Models Analysis|||||-0.3|-8.9|
92455602|NCT00515502|184800293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7|STANDARD_ERROR_OF_MEAN|2.91|||TWO_SIDED|95.0|-13.5|-1.8|||Mixed Models Analysis|||||-1.8|-13.5|
92242487|NCT04047121|184387973|SUPERIORITY||Hazard Ratio (HR)|0.7228||||0.1087|TWO_SIDED|95.0|0.4861|1.0747|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.0747|0.4861|0.1087
92242488|NCT04047121|184387973|SUPERIORITY||Hazard Ratio (HR)|0.8402||||0.3212|TWO_SIDED|95.0|0.5957|1.1852|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.1852|0.5957|0.3212
92242489|NCT04047121|184387974|SUPERIORITY|||||||0.9361|||||||Chi-squared|||||||0.9361
92242490|NCT04047121|184387974|SUPERIORITY|||||||0.3851|||||||Chi-squared|||||||0.3851
92242491|NCT04047121|184387974|SUPERIORITY|||||||0.599|||||||Chi-squared|||||||0.5990
92242492|NCT04047121|184387974|SUPERIORITY||Odds Ratio (OR)|0.9954||||0.986|TWO_SIDED|95.0|0.5962|1.662|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.6620|0.5962|0.9860
92455603|NCT00515502|184800293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|3.21|||TWO_SIDED|95.0|-11.8|1.1|||Mixed Models Analysis|||||1.1|-11.8|
92455604|NCT00515502|184800293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|3.12|||TWO_SIDED|95.0|-6.1|6.4|||Mixed Models Analysis|||||6.4|-6.1|
92455605|NCT00515502|184800293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|3.38|||TWO_SIDED|95.0|-6.1|7.5|||Mixed Models Analysis|||||7.5|-6.1|
92173812|NCT05492318|184239048|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 7) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|131.21|||||TWO_SIDED|90.0|122.47|140.59||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - AUC0-t||140.59|122.47|
92242493|NCT04047121|184387974|SUPERIORITY||Odds Ratio (OR)|1.2959||||0.5813|TWO_SIDED|95.0|0.5158|3.2558|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||3.2558|0.5158|0.5813
92242494|NCT04047121|184387974|SUPERIORITY||Odds Ratio (OR)|1.8182||||0.1789|TWO_SIDED|95.0|0.7604|4.3473|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||4.3473|0.7604|0.1789
92242495|NCT04047121|184387975|SUPERIORITY|||||||0.4009|||||||Chi-squared|||||||0.4009
92242496|NCT04047121|184387975|SUPERIORITY|||||||0.9765|||||||Chi-squared|||||||0.9765
92242497|NCT04047121|184387975|SUPERIORITY|||||||0.2849|||||||Chi-squared|||||||0.2849
92281289|NCT02016300|184465672|OTHER|||||||0.387|||||||Regression, Linear|||Difference between baseline and month 6.||||0.387
92281290|NCT02016300|184465672|OTHER|||||||0.34|||||||Regression, Linear|||Difference between baseline and month 12.||||0.340
92281291|NCT02016300|184465672|OTHER|||||||0.179|||||||Regression, Linear|||Difference between baseline and month 24.||||0.179
92242498|NCT04047121|184387975|SUPERIORITY||Odds Ratio (OR)|0.8252||||0.5289|TWO_SIDED|95.0|0.4538|1.5007|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.5007|0.4538|0.5289
92242499|NCT04047121|184387975|SUPERIORITY||Odds Ratio (OR)|0.9408||||0.927|TWO_SIDED|95.0|0.2553|3.4678|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.4678|0.2553|0.9270
92242500|NCT04047121|184387975|SUPERIORITY||Odds Ratio (OR)|0.3968||||0.0707|TWO_SIDED|95.0|0.1456|1.0812|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.0812|0.1456|0.0707
92242501|NCT04047121|184387976|SUPERIORITY|||||||0.2061|||||||Chi-squared|||||||0.2061
92281292|NCT02016300|184465673|OTHER|||||||0.729|||||||Regression, Linear|||Difference between baseline and month 6.||||0.729
92455606|NCT00515502|184800293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|4.29|||TWO_SIDED|95.0|-10.9|6.2|||Mixed Models Analysis|||||6.2|-10.9|
92455607|NCT00515502|184800294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-3.6|0.0|||Mixed Models Analysis|||||0.0|-3.6|
92455608|NCT00515502|184800294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|95.0|-2.0|1.4|||Mixed Models Analysis|||||1.4|-2.0|
92455609|NCT00515502|184800294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.17|||TWO_SIDED|95.0|-3.9|0.8|||Mixed Models Analysis|||||0.8|-3.9|
92455610|NCT00515502|184800294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.3|||TWO_SIDED|95.0|-3.6|1.6|||Mixed Models Analysis|||||1.6|-3.6|
92455611|NCT00515502|184800294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.26|||TWO_SIDED|95.0|-3.3|1.7|||Mixed Models Analysis|||||1.7|-3.3|
92455612|NCT00515502|184800294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|95.0|-2.0|3.4|||Mixed Models Analysis|||||3.4|-2.0|
92455613|NCT00515502|184800294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.74|||TWO_SIDED|95.0|-4.1|2.9|||Mixed Models Analysis|||||2.9|-4.1|
92455614|NCT03252587|184800316|SUPERIORITY||Odds Ratio (OR)|2.8||||0.0006|TWO_SIDED|95.0|1.5|5.1|||Regression, Logistic|1-sided||BMS-986165 3 mg vs Placebo||5.1|1.5|0.0006
92455615|NCT03252587|184800316|SUPERIORITY||Odds Ratio (OR)|1.9||||0.021|TWO_SIDED|95.0|1.0|3.4|||Regression, Logistic|1-sided||BMS-986165 6 mg vs Placebo||3.4|1.0|0.0210
92455616|NCT03252587|184800316|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0781|TWO_SIDED|95.0|0.8|2.9|||Regression, Logistic|1-sided||BMS-986165 12 mg vs Placebo||2.9|0.8|0.0781
92455617|NCT03252587|184800317|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0011|TWO_SIDED|95.0|1.4|4.8|||Regression, Logistic|1-sided||BMS-986165 3 mg vs Placebo||4.8|1.4|0.0011
92242502|NCT04047121|184387976|SUPERIORITY|||||||0.1908|||||||Chi-squared|||||||0.1908
92242503|NCT04047121|184387977|SUPERIORITY|||||||0.8033|||||||Chi-squared|||||||0.8033
92242504|NCT04047121|184387977|SUPERIORITY|||||||0.6669|||||||Chi-squared|||||||0.6669
92242505|NCT04047121|184387977|SUPERIORITY|||||||0.6477|||||||Chi-squared|||||||0.6477
92281293|NCT02016300|184465673|OTHER|||||||0.958|||||||Regression, Linear|||Difference between baseline and month 12.||||0.958
92281294|NCT02016300|184465673|OTHER|||||||0.634|||||||Regression, Linear|||Difference between baseline and month 24.||||0.634
92281295|NCT02016300|184465674|OTHER|||||||0.733|||||||Regression, Linear|||Difference between baseline and month 6.||||0.733
92281296|NCT02016300|184465674|OTHER|||||||0.666|||||||Regression, Linear|||Difference between baseline and month 12.||||0.666
92281297|NCT02016300|184465674|OTHER|||||||0.854|||||||Regression, Linear|||Difference between baseline and month 24.||||0.854
92281298|NCT02016300|184465675|OTHER|||||||0.774|||||||Regression, Linear|||Difference between baseline and month 12.||||0.774
92281299|NCT02016300|184465675|OTHER|||||||0.414|||||||Regression, Linear|||Difference between baseline and month 24.||||0.414
92281300|NCT02016300|184465676|OTHER|||||||0.064|||||||Regression, Linear|||Difference between baseline and month 12.||||0.064
92281301|NCT02016300|184465676|OTHER|||||||0.276|||||||Regression, Linear|||Difference between baseline and month 24.||||0.276
92281302|NCT02016300|184465677|OTHER|||||||0.02|||||||Regression, Linear|||Difference between baseline and month 12.||||0.020
92455618|NCT03252587|184800317|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0434|TWO_SIDED|95.0|0.9|3.1|||Regression, Logistic|1-sided||BMS-986165 6 mg vs Placebo||3.1|0.9|0.0434
92455619|NCT03252587|184800317|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0439|TWO_SIDED|95.0|0.9|3.1|||Regression, Logistic|1-sided||BMS-986165 12 mg vs Placebo||3.1|0.9|0.0439
92455620|NCT03252587|184800318|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0012|TWO_SIDED|95.0|1.4|5.1|||Regression, Logistic|1-sided||BMS-986165 3 mg vs Placebo||5.1|1.4|0.0012
92455621|NCT03252587|184800318|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0795|TWO_SIDED|95.0|0.8|3.0|||Regression, Logistic|1-sided||BMS-986165 6 mg vs Placebo||3.0|0.8|0.0795
92455622|NCT03252587|184800318|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0673|TWO_SIDED|95.0|0.9|3.2|||Regression, Logistic|1-sided||BMS-986165 12 mg vs Placebo||3.2|0.9|0.0673
92455623|NCT03252587|184800319|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0002|TWO_SIDED|95.0|1.9|8.5|||Regression, Logistic|1-sided||BMS-986165 3 mg vs Placebo||8.5|1.9|0.0002
92455624|NCT03252587|184800319|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0371|TWO_SIDED|95.0|0.9|4.5|||Regression, Logistic|1-sided||BMS-986165 6 mg vs Placebo||4.5|0.9|0.0371
92455625|NCT03252587|184800319|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0168|TWO_SIDED|95.0|1.1|5.1|||Regression, Logistic|1-sided||BMS-986165 12 mg vs Placebo||5.1|1.1|0.0168
92455626|NCT03252587|184800320|SUPERIORITY||Odds Ratio (OR)|10.5||||0.0006|TWO_SIDED|95.0|2.5|43.0|||Regression, Logistic|1-sided||BMS-986165 3 mg vs Placebo||43.0|2.5|0.0006
92455627|NCT03252587|184800320|SUPERIORITY||Odds Ratio (OR)|5.7||||0.0058|TWO_SIDED|95.0|1.5|22.0|||Regression, Logistic|1-sided||BMS-986165 6 mg vs Placebo||22.0|1.5|0.0058
92455628|NCT03252587|184800320|SUPERIORITY||Odds Ratio (OR)|8.2||||0.0009|TWO_SIDED|95.0|2.2|31.0|||Regression, Logistic|1-sided||BMS-986165 12 mg vs Placebo||31.0|2.2|0.0009
92455629|NCT03252587|184800321|SUPERIORITY||Adjusted Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.04||0.0131|TWO_SIDED|95.0|-4.4|-0.3|||Longitudinal Repeated Measures|||Tender BMS-986165 3 mg vs Placebo||-0.3|-4.4|0.0131
92455630|NCT03252587|184800321|SUPERIORITY||Adjusted Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.04||0.4156|TWO_SIDED|95.0|-2.3|1.8|||Longitudinal Repeated Measures|||Tender BMS-986165 6 mg vs Placebo||1.8|-2.3|0.4156
92455631|NCT03252587|184800321|SUPERIORITY||Adjusted Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.09||0.0151|TWO_SIDED|95.0|-4.5|-0.2|||Longitudinal Repeated Measures|||Tender BMS-986165 12 mg vs Placebo||-0.2|-4.5|0.0151
92455632|NCT03252587|184800321|SUPERIORITY||Adjusted Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.45||0.0029|TWO_SIDED|95.0|-2.2|-0.4|||Longitudinal Repeated Measures|||Swollen BMS-986165 3 mg vs Placebo||-0.4|-2.2|0.0029
92455633|NCT03252587|184800321|SUPERIORITY||Adjusted Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.46||0.0516|TWO_SIDED|95.0|-1.6|0.2|||Longitudinal Repeated Measures|||Swollen BMS-986165 6 mg vs Placebo||0.2|-1.6|0.0516
92455634|NCT03252587|184800321|SUPERIORITY||Adjusted Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.48||0.0298|TWO_SIDED|95.0|-1.8|0.0|||Longitudinal Repeated Measures|||Swollen BMS-986165 12 mg vs Placebo||0.0|-1.8|0.0298
92455635|NCT03252587|184800321|SUPERIORITY||Adjusted Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.0|-0.5|||Longitudinal Repeated Measures|||Tender + Swollen BMS-986165 3 mg vs Placebo||-0.5|-2.0|0.0010
92455636|NCT03252587|184800321|SUPERIORITY||Adjusted Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.4||0.0343|TWO_SIDED|95.0|-1.5|0.1|||Longitudinal Repeated Measures|||Tender + Swollen BMS-986165 6 mg vs Placebo||0.1|-1.5|0.0343
92455637|NCT03252587|184800321|SUPERIORITY||Adjusted Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.42||0.005|TWO_SIDED|95.0|-1.9|-0.3|||Longitudinal Repeated Measures|||Tender + Swollen BMS-986165 12 mg vs Placebo||-0.3|-1.9|0.0050
92455638|NCT03945188|184800349|SUPERIORITY||Risk Difference (RD)|19.75|||<|0.001|TWO_SIDED|95.0|12.88|26.63|||Cochran-Mantel-Haenszel|||||26.63|12.88|<0.001
92455639|NCT03945188|184800350|SUPERIORITY||Risk Difference (RD)|25.39|||<|0.001|TWO_SIDED|95.0|18.42|32.36|||Cochran-Mantel-Haenszel|||||32.36|18.42|<0.001
92455640|NCT03945188|184800351|SUPERIORITY||Risk Difference (RD)|21.18|||<|0.001|TWO_SIDED|95.0|13.03|29.32|||Cochran-Mantel-Haenszel|||||29.32|13.03|<0.001
92455641|NCT03945188|184800352|SUPERIORITY||Risk Difference (RD)|26.69|||<|0.001|TWO_SIDED|95.0|18.99|34.39|||Cochran-Mantel-Haenszel|||||34.39|18.99|<0.001
92455642|NCT03945188|184800353|SUPERIORITY||Risk Difference (RD)|24.55|||<|0.001|TWO_SIDED|95.0|15.46|33.63|||Cochran-Mantel-Haenszel|||||33.63|15.46|<0.001
92455643|NCT03945188|184800354|SUPERIORITY||Risk Difference (RD)|24.89|||<|0.001|TWO_SIDED|95.0|16.17|33.6|||Cochran-Mantel-Haenszel|||||33.60|16.17|<0.001
92455644|NCT03945188|184800355|SUPERIORITY||Risk Difference (RD)|16.88|||<|0.001|TWO_SIDED|95.0|10.78|22.98|||Cochran-Mantel-Haenszel|||||22.98|10.78|<0.001
92455645|NCT03945188|184800356|SUPERIORITY||Risk Difference (RD)|18.39|||<|0.001|TWO_SIDED|95.0|11.39|25.39|||Cochran-Mantel-Haenszel|||||25.39|11.39|<0.001
92455646|NCT03945188|184800357|SUPERIORITY||Risk Difference (RD)|25.39|||<|0.001|TWO_SIDED|95.0|18.42|32.36|||Cochran-Mantel-Haenszel|||||32.36|18.42|<0.001
92455647|NCT03945188|184800358|SUPERIORITY||Risk Difference (RD)|15.84|||<|0.001|TWO_SIDED|95.0|10.66|21.03|||Cochran-Mantel-Haenszel|||||21.03|10.66|<0.001
92455648|NCT03945188|184800359|SUPERIORITY||Risk Difference (RD)|28.27|||<|0.001|TWO_SIDED|95.0|18.51|38.02|||Cochran-Mantel-Haenszel|||||38.02|18.51|<0.001
92455649|NCT03945188|184800360|SUPERIORITY||Risk Difference (RD)|24.93|||<|0.001|TWO_SIDED|95.0|15.79|34.07|||Cochran-Mantel-Haenszel|||||34.07|15.79|<0.001
92455650|NCT03945188|184800361|SUPERIORITY||Risk Difference (RD)|26.16|||<|0.001|TWO_SIDED|95.0|17.48|34.84|||Cochran-Mantel-Haenszel|||||34.84|17.48|<0.001
92455651|NCT03945188|184800362|SUPERIORITY||Risk Difference (RD)|11.32|||<|0.001|TWO_SIDED|95.0|6.49|16.14|||Cochran-Mantel-Haenszel|||||16.14|6.49|<0.001
92242506|NCT04047121|184387977|SUPERIORITY||Odds Ratio (OR)|0.7948||||0.5509|TWO_SIDED|95.0|0.3736|1.6907|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.6907|0.3736|0.5509
92242507|NCT04047121|184387977|SUPERIORITY||Odds Ratio (OR)|0.6814||||0.6216|TWO_SIDED|95.0|0.1486|3.125|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.1250|0.1486|0.6216
92242508|NCT04047121|184387977|SUPERIORITY||Odds Ratio (OR)|0.6974||||0.5506|TWO_SIDED|95.0|0.2135|2.2781|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.2781|0.2135|0.5506
92281303|NCT02016300|184465677|OTHER|||||||0.091|||||||Regression, Linear|||Difference between baseline and month 24.||||0.091
92173813|NCT05492318|184239048|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|157.77|||||TWO_SIDED|90.0|147.49|168.76||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam. - AUC0-t||168.76|147.49|
92242509|NCT04047121|184387978|SUPERIORITY|||||||0.103|||||||Chi-squared|||||||0.1030
92242510|NCT04047121|184387978|SUPERIORITY|||||||0.9317|||||||Chi-squared|||||||0.9317
92455652|NCT03945188|184800363|SUPERIORITY||Risk Difference (RD)|10.23|||<|0.001|TWO_SIDED|95.0|4.73|15.73|||Cochran-Mantel-Haenszel|||||15.73|4.73|<0.001
92455653|NCT03945188|184800364|SUPERIORITY||Risk Difference (RD)|20.39|||<|0.001|TWO_SIDED|95.0|13.79|26.98|||Cochran-Mantel-Haenszel|||||26.98|13.79|<0.001
92242511|NCT04047121|184387978|SUPERIORITY|||||||0.242|||||||Chi-squared|||||||0.2420
92242512|NCT04047121|184387978|SUPERIORITY||Odds Ratio (OR)|1.7474||||0.0869|TWO_SIDED|95.0|0.9222|3.3107|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.3107|0.9222|0.0869
92281304|NCT01546987|184465687|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.55|TWO_SIDED|95.0|0.47|1.48||One-sided significance level = 0.05|Log Rank||Reference level = ADT + RT|Revised protocol due to early accrual closure (September 2014) computes that seventy events with five years of additional follow-up after early accrual closure provides 70% power (at one-sided alpha = 0.05) to detect a 40% reduction in the assumed rate control arm rate of is 0.08/year.||1.48|0.47|0.55
92455654|NCT03945188|184800365|SUPERIORITY||Risk Difference (RD)|9.16|||<|0.001|TWO_SIDED|95.0|4.93|13.38|||Cochran-Mantel-Haenszel|||||13.38|4.93|<0.001
92455655|NCT03945188|184800366|SUPERIORITY||Risk Difference (RD)|6.49|||=|0.049|TWO_SIDED|95.0|0.02|12.95|||Cochran-Mantel-Haenszel|||Week 2||12.95|0.02|=0.049
92455656|NCT03945188|184800366|SUPERIORITY||Risk Difference (RD)|15.03|||<|0.001|TWO_SIDED|95.0|7.32|22.74|||Cochran-Mantel-Haenszel|||Week 4||22.74|7.32|<0.001
92455657|NCT03945188|184800366|SUPERIORITY||Risk Difference (RD)|16.85|||<|0.001|TWO_SIDED|95.0|8.06|25.63|||Cochran-Mantel-Haenszel|||Week 8||25.63|8.06|<0.001
92455658|NCT03945188|184800366|SUPERIORITY||Risk Difference (RD)|21.66|||<|0.001|TWO_SIDED|95.0|12.71|30.61|||Cochran-Mantel-Haenszel|||Week 16||30.61|12.71|<0.001
92455659|NCT03945188|184800366|SUPERIORITY||Risk Difference (RD)|23.74|||<|0.001|TWO_SIDED|95.0|14.98|32.51|||Cochran-Mantel-Haenszel|||Week 20||32.51|14.98|<0.001
92455660|NCT03945188|184800366|SUPERIORITY||Risk Difference (RD)|21.04|||<|0.001|TWO_SIDED|95.0|11.83|30.24|||Cochran-Mantel-Haenszel|||Week 24||30.24|11.83|<0.001
92455661|NCT03945188|184800366|SUPERIORITY||Risk Difference (RD)|25.82|||<|0.001|TWO_SIDED|95.0|17.08|34.56|||Cochran-Mantel-Haenszel|||Week 32||34.56|17.08|<0.001
92455662|NCT03945188|184800366|SUPERIORITY||Risk Difference (RD)|23.47|||<|0.001|TWO_SIDED|95.0|14.8|32.14|||Cochran-Mantel-Haenszel|||Week 40||32.14|14.80|<0.001
92455663|NCT03945188|184800366|SUPERIORITY||Risk Difference (RD)|26.37|||<|0.001|TWO_SIDED|95.0|17.92|34.82|||Cochran-Mantel-Haenszel|||Week 48||34.82|17.92|<0.001
92455664|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|3.59|||=|0.057|TWO_SIDED|95.0|-0.11|7.3|||Cochran-Mantel-Haenszel|||Week 2||7.30|-0.11|=0.057
92455665|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|6.88|||=|0.007|TWO_SIDED|95.0|1.86|11.9|||Cochran-Mantel-Haenszel|||Week 4||11.90|1.86|=0.007
92455666|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|10.14|||=|0.001|TWO_SIDED|95.0|4.09|16.2|||Cochran-Mantel-Haenszel|||Week 8||16.20|4.09|=0.001
92455667|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|16.36|||<|0.001|TWO_SIDED|95.0|9.89|22.83|||Cochran-Mantel-Haenszel|||Week 12||22.83|9.89|<0.001
92242513|NCT04047121|184387978|SUPERIORITY||Odds Ratio (OR)|1.1346||||0.8228|TWO_SIDED|95.0|0.3757|3.4266|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.4266|0.3757|0.8228
92242514|NCT04047121|184387978|SUPERIORITY||Odds Ratio (OR)|1.565||||0.4855|TWO_SIDED|95.0|0.4446|5.5086|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||5.5086|0.4446|0.4855
92242515|NCT04047121|184387980|SUPERIORITY|||||||0.5092|||||||Chi-squared|||||||0.5092
92242516|NCT04047121|184387980|SUPERIORITY|||||||0.0201|||||||Chi-squared|||||||0.0201
92242517|NCT04047121|184387980|SUPERIORITY|||||||0.2799|||||||Chi-squared|||||||0.2799
92281305|NCT01546987|184465688|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.27|TWO_SIDED|95.0|0.38|1.31||Two-sided significance level = 0.05|Log Rank||Reference level = ADT + RT|Revised protocol due to early accrual closure (September 2014) computes that 5-year survival of 78% and annual hazard rate of 0.055 for ADT + RT arm, with five years of additional follow-up after early accrual closure provides 28% power (at two-sided alpha = 0.05) to detect a 33% reduction in failure rate.||1.31|0.38|0.27
92455668|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|15.37|||<|0.001|TWO_SIDED|95.0|9.23|21.52|||Cochran-Mantel-Haenszel|||Week 16||21.52|9.23|<0.001
92455669|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|17.8|||<|0.001|TWO_SIDED|95.0|11.85|23.75|||Cochran-Mantel-Haenszel|||Week 20||23.75|11.85|<0.001
92242518|NCT04047121|184387980|SUPERIORITY||Odds Ratio (OR)|0.9021||||0.5772|TWO_SIDED|95.0|0.6281|1.2958|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.2958|0.6281|0.5772
92455670|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|14.24|||<|0.001|TWO_SIDED|95.0|7.45|21.04|||Cochran-Mantel-Haenszel|||Week 24||21.04|7.45|<0.001
92455671|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|20.03|||<|0.001|TWO_SIDED|95.0|14.25|25.81|||Cochran-Mantel-Haenszel|||Week 32||25.81|14.25|<0.001
92455672|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|15.13|||<|0.001|TWO_SIDED|95.0|8.91|21.35|||Cochran-Mantel-Haenszel|||Week 40||21.35|8.91|<0.001
92455673|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|17.52|||<|0.001|TWO_SIDED|95.0|12.16|22.87|||Cochran-Mantel-Haenszel|||Week 48||22.87|12.16|<0.001
92455674|NCT03945188|184800367|SUPERIORITY||Risk Difference (RD)|19.86|||<|0.001|TWO_SIDED|95.0|13.75|25.98|||Cochran-Mantel-Haenszel|||Week 52||25.98|13.75|<0.001
92455675|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|4.83|||=|0.336|TWO_SIDED|95.0|-5.01|14.68|||Cochran-Mantel-Haenszel|||Week 2||14.68|-5.01|=0.336
92455676|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|17.11|||<|0.001|TWO_SIDED|95.0|7.06|27.15|||Cochran-Mantel-Haenszel|||Week 4||27.15|7.06|<0.001
92455677|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|20.17|||<|0.001|TWO_SIDED|95.0|10.15|30.19|||Cochran-Mantel-Haenszel|||Week 8||30.19|10.15|<0.001
92455678|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|23.44|||<|0.001|TWO_SIDED|95.0|13.45|33.43|||Cochran-Mantel-Haenszel|||Week 12||33.43|13.45|<0.001
92455679|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|25.25|||<|0.001|TWO_SIDED|95.0|15.67|34.83|||Cochran-Mantel-Haenszel|||Week 16||34.83|15.67|<0.001
92455680|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|29.2|||<|0.001|TWO_SIDED|95.0|19.77|38.64|||Cochran-Mantel-Haenszel|||Week 20||38.64|19.77|<0.001
92455681|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|26.08|||<|0.001|TWO_SIDED|95.0|16.47|35.69|||Cochran-Mantel-Haenszel|||Week 24||35.69|16.47|<0.001
92455682|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|28.68|||<|0.001|TWO_SIDED|95.0|19.35|38.02|||Cochran-Mantel-Haenszel|||Week 32||38.02|19.35|<0.001
92455683|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|28.43|||<|0.001|TWO_SIDED|95.0|19.3|37.55|||Cochran-Mantel-Haenszel|||Week 40||37.55|19.30|<0.001
92455684|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|29.59|||<|0.001|TWO_SIDED|95.0|20.55|38.64|||Cochran-Mantel-Haenszel|||Week 48||38.64|20.55|<0.001
92455685|NCT03945188|184800368|SUPERIORITY||Risk Difference (RD)|26.43|||<|0.001|TWO_SIDED|95.0|17.18|35.68|||Cochran-Mantel-Haenszel|||Week 52||35.68|17.18|<0.001
92455686|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|5.93|||=|0.24|TWO_SIDED|95.0|-3.96|15.81|||Cochran-Mantel-Haenszel|||Week 2||15.81|-3.96|=0.240
92242519|NCT04047121|184387980|SUPERIORITY||Odds Ratio (OR)|1.3953||||0.3272|TWO_SIDED|95.0|0.7166|2.7169|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.7169|0.7166|0.3272
92242520|NCT04047121|184387980|SUPERIORITY||Odds Ratio (OR)|1.3527||||0.3011|TWO_SIDED|95.0|0.763|2.3983|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.3983|0.7630|0.3011
92242521|NCT04047121|184387981|SUPERIORITY|||||||0.2931|||||||Chi-squared|||||||0.2931
92455687|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|17.5|||<|0.001|TWO_SIDED|95.0|7.48|27.53|||Cochran-Mantel-Haenszel|||Week 4||27.53|7.48|<0.001
92242522|NCT04047121|184387981|SUPERIORITY|||||||0.3135|||||||Chi-squared|||||||0.3135
92242523|NCT04047121|184387981|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92242524|NCT04047121|184387981|SUPERIORITY||Odds Ratio (OR)|0.8369||||0.6772|TWO_SIDED|95.0|0.3618|1.9356|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.9356|0.3618|0.6772
92242525|NCT04047121|184387981|SUPERIORITY||Odds Ratio (OR)|5.253||||0.0013|TWO_SIDED|95.0|1.9061|14.477|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||14.4770|1.9061|0.0013
92281306|NCT01546987|184465689|SUPERIORITY||Hazard Ratio (HR)|2.29|||<|0.001|TWO_SIDED|95.0|1.54|3.4|||Log Rank||Reference level = ADT + RT arm|||3.40|1.54|<0.001
92455688|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|20.93|||<|0.001|TWO_SIDED|95.0|10.92|30.94|||Cochran-Mantel-Haenszel|||Week 8||30.94|10.92|<0.001
92455689|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|24.13|||<|0.001|TWO_SIDED|95.0|14.15|34.1|||Cochran-Mantel-Haenszel|||Week 12||34.10|14.15|<0.001
92455690|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|24.51|||<|0.001|TWO_SIDED|95.0|14.89|34.13|||Cochran-Mantel-Haenszel|||Week 16||34.13|14.89|<0.001
92242526|NCT04047121|184387982|SUPERIORITY|||||||0.5217|||||||Chi-squared|||||||0.5217
92242527|NCT04047121|184387982|SUPERIORITY|||||||0.0432|||||||Chi-squared|||||||0.0432
92242528|NCT04047121|184387982|SUPERIORITY|||||||0.2573|||||||Chi-squared|||||||0.2573
92242529|NCT04047121|184387982|SUPERIORITY||Odds Ratio (OR)|0.8593||||0.5368|TWO_SIDED|95.0|0.5311|1.3902|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.3902|0.5311|0.5368
92242530|NCT04047121|184387982|SUPERIORITY||Odds Ratio (OR)|1.2892||||0.4685|TWO_SIDED|95.0|0.6488|2.5616|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.5616|0.6488|0.4685
92242531|NCT04047121|184387982|SUPERIORITY||Odds Ratio (OR)|1.3598||||0.3112|TWO_SIDED|95.0|0.7502|2.4648|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.4648|0.7502|0.3112
92242532|NCT04047121|184387983|SUPERIORITY|||||||0.409|||||||Chi-squared|||||||0.4090
92455691|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|29.57|||<|0.001|TWO_SIDED|95.0|20.13|39.01|||Cochran-Mantel-Haenszel|||Week 20||39.01|20.13|<0.001
92455692|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|26.45|||<|0.001|TWO_SIDED|95.0|16.88|36.02|||Cochran-Mantel-Haenszel|||Week 24||36.02|16.88|<0.001
92455693|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|29.35|||<|0.001|TWO_SIDED|95.0|20.01|38.68|||Cochran-Mantel-Haenszel|||Week 32||38.68|20.01|<0.001
92455694|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|28.83|||<|0.001|TWO_SIDED|95.0|19.71|37.95|||Cochran-Mantel-Haenszel|||Week 40||37.95|19.71|<0.001
92455695|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|30.0|||<|0.001|TWO_SIDED|95.0|20.97|39.03|||Cochran-Mantel-Haenszel|||Week 48||39.03|20.97|<0.001
92455696|NCT03945188|184800369|SUPERIORITY||Risk Difference (RD)|26.84|||<|0.001|TWO_SIDED|95.0|17.6|36.07|||Cochran-Mantel-Haenszel|||Week 52||36.07|17.60|<0.001
92455697|NCT03945188|184800370|SUPERIORITY||Risk Difference (RD)|23.05|||<|0.001|TWO_SIDED|95.0|10.2|35.9|||Cochran-Mantel-Haenszel|||||35.90|10.20|<0.001
92455698|NCT03945188|184800371|SUPERIORITY||Risk Difference (RD)|31.86|||<|0.001|TWO_SIDED|95.0|18.45|45.28|||Cochran-Mantel-Haenszel|||||45.28|18.45|<0.001
92455699|NCT05098054|184800389|OTHER||Geometric Least-squares mean(GLSM) Ratio|214.93|||||TWO_SIDED|90.0|103.47|446.45|||||"Geometric least-squares means (LSMs) were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Moderate HI/Normal Hepatic Function (Matched to Moderate HI)"|||446.45|103.47|
92455700|NCT05098054|184800389|OTHER||GLSM Ratio|145.42|||||TWO_SIDED|90.0|77.18|273.98|||||"Geometric LSMs were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Mild HI/Normal Hepatic Function (Matched to Mild HI)"|||273.98|77.18|
92455701|NCT05098054|184800390|OTHER||GLSM Ratio|299.21|||||TWO_SIDED|90.0|111.75|801.17|||||"Geometric LSMs were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Moderate HI/Normal Hepatic Function (Matched to Moderate HI)"|||801.17|111.75|
92242533|NCT04047121|184387983|SUPERIORITY|||||||0.0249|||||||Chi-squared|||||||0.0249
92242534|NCT04047121|184387983|SUPERIORITY|||||||0.0103|||||||Chi-squared|||||||0.0103
92242535|NCT04047121|184387983|SUPERIORITY||Odds Ratio (OR)|1.1302||||0.5415|TWO_SIDED|95.0|0.763|1.6741|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.6741|0.7630|0.5415
92242536|NCT04047121|184387983|SUPERIORITY||Odds Ratio (OR)|2.0118||||0.0596|TWO_SIDED|95.0|0.9722|4.1632|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||4.1632|0.9722|0.0596
92242537|NCT04047121|184387983|SUPERIORITY||Odds Ratio (OR)|3.4823||||0.0002|TWO_SIDED|95.0|1.793|6.7633|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||6.7633|1.7930|0.0002
92242538|NCT04047121|184387984|SUPERIORITY|||||||0.2361|||||||Chi-squared|||||||0.2361
92242539|NCT04047121|184387984|SUPERIORITY|||||||0.7474|||||||Chi-squared|||||||0.7474
92455702|NCT05098054|184800390|OTHER||GLSM Ratio|130.25|||||TWO_SIDED|90.0|77.02|220.26|||||"Geometric LSMs were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Mild HI/Normal Hepatic Function (Matched to Mild HI)"|||220.26|77.02|
92242540|NCT04047121|184387984|SUPERIORITY|||||||0.2118|||||||Chi-squared|||||||0.2118
92242541|NCT04047121|184387984|SUPERIORITY||Odds Ratio (OR)|1.3811||||0.1978|TWO_SIDED|95.0|0.8449|2.2576|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.2576|0.8449|0.1978
92242542|NCT04047121|184387984|SUPERIORITY||Odds Ratio (OR)|1.0614||||0.8893|TWO_SIDED|95.0|0.4587|2.4559|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.4559|0.4587|0.8893
92455703|NCT05098054|184800391|OTHER||GLSM Ratio|316.27|||||TWO_SIDED|90.0|117.68|849.97|||||"Geometric LSMs were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Moderate HI/Normal Hepatic Function (Matched to Moderate HI)"|||849.97|117.68|
92455704|NCT05098054|184800391|OTHER||GLSM Ratio|135.26|||||TWO_SIDED|90.0|91.22|200.57|||||"Geometric LSMs were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Mild HI/Normal Hepatic Function (Matched to Mild HI)"|||200.57|91.22|
92455705|NCT04794803|184800398|SUPERIORITY||||||=|0.02164|||||||Log Rank|||||||= 0.02164
92455706|NCT04794803|184800398|SUPERIORITY||||||=|0.20043|||||||Log Rank|||Sensitivity analysis of time to event for each single component of the primary endpoint: Supplemental oxygen requirement based on PaO2/FiO2||||= 0.20043
92242543|NCT04047121|184387984|SUPERIORITY||Odds Ratio (OR)|0.5811||||0.1553|TWO_SIDED|95.0|0.2748|1.2286|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.2286|0.2748|0.1553
92242544|NCT04047121|184387985|SUPERIORITY|||||||0.6767|||||||Chi-squared|||||||0.6767
92242545|NCT04047121|184387985|SUPERIORITY|||||||0.1141|||||||Chi-squared|||||||0.1141
92242546|NCT04047121|184387985|SUPERIORITY|||||||0.1497|||||||Chi-squared|||||||0.1497
92242547|NCT04047121|184387985|SUPERIORITY||Odds Ratio (OR)|0.8556||||0.5228|TWO_SIDED|95.0|0.5303|1.3804|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.3804|0.5303|0.5228
92242548|NCT04047121|184387985|SUPERIORITY||Odds Ratio (OR)|2.5125||||0.0277|TWO_SIDED|95.0|1.1062|5.7063|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||5.7063|1.1062|0.0277
92242549|NCT04047121|184387985|SUPERIORITY||Odds Ratio (OR)|0.6993||||0.324|TWO_SIDED|95.0|0.3435|1.4236|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.4236|0.3435|0.3240
92242550|NCT04047121|184387986|SUPERIORITY|||||||0.6318|||||||t-test, 2 sided|||||||0.6318
92242551|NCT04047121|184387986|SUPERIORITY|||||||0.3802|||||||t-test, 2 sided|||||||0.3802
92242552|NCT04047121|184387986|SUPERIORITY|||||||0.2424|||||||t-test, 2 sided|||||||0.2424
92242553|NCT04047121|184387986|SUPERIORITY||Odds Ratio (OR)|0.0347||||0.1753|TWO_SIDED|95.0|-0.0155|0.0848|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0848|-0.0155|0.1753
92455707|NCT04794803|184800398|SUPERIORITY||||||=|0.30215|||||||Log Rank|||Sensitivity analysis of time to event for each single component of the primary endpoint: time to first invasive mechanical ventilation||||= 0.30215
92455708|NCT04794803|184800398|SUPERIORITY|||||||0.5637|||||||Log Rank|||Sensitivity analysis of time to event for each single component of the primary endpoint: time to first admission to ICU||||0.56370
92455709|NCT04794803|184800398|SUPERIORITY||||||=|0.00132|||||||Log Rank|||Sensitivity analysis of time to event for each single component of the primary endpoint: time to first use of a rescue medication for any reason||||= 0.00132
92455710|NCT04794803|184800399|SUPERIORITY|||||||0.731|||||||Fisher Exact|||comparison at week 1||||0.731
92455711|NCT04794803|184800399|SUPERIORITY|||||||1|||||||Fisher Exact|||at EOT||||1.000
92455712|NCT04794803|184800399|SUPERIORITY|||||||1|||||||Fisher Exact|||at EOS||||1.000
92455713|NCT04794803|184800400|SUPERIORITY|||||||0.353|||||||Fisher Exact|||at baseline||||0.353
92242554|NCT04047121|184387986|SUPERIORITY||Odds Ratio (OR)|0.0194||||0.6114|TWO_SIDED|95.0|-0.0553|0.0941|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0941|-0.0553|0.6114
92242555|NCT04047121|184387986|SUPERIORITY||Odds Ratio (OR)|0.0345||||0.2977|TWO_SIDED|95.0|-0.0304|0.0993|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0993|-0.0304|0.2977
92242556|NCT04047121|184387987|SUPERIORITY|||||||0.1473|||||||t-test, 2 sided|||||||0.1473
92455714|NCT04794803|184800400|SUPERIORITY|||||||0.401|||||||Fisher Exact|||At Day 1||||0.401
92455715|NCT04794803|184800400|SUPERIORITY|||||||0.066|||||||Fisher Exact|||At Day 2||||0.066
92455716|NCT04794803|184800400|SUPERIORITY|||||||0.102|||||||Fisher Exact|||At week 1||||0.102
92455717|NCT04794803|184800400|SUPERIORITY|||||||0.314|||||||Fisher Exact|||at EOT||||0.314
92455718|NCT04794803|184800400|SUPERIORITY|||||||1|||||||Fisher Exact|||at EOS||||1.000
92455719|NCT04794803|184800401|SUPERIORITY||||||>|0.999||||||p-values are referred to a two-sided Wilcoxon test for differences in the change of VAS scale.|Wilcoxon (Mann-Whitney)|||Day 1 vs baseline||||>0.999
92455720|NCT04794803|184800401|SUPERIORITY||||||>|0.999||||||p-values are referred to a two-sided Wilcoxon test for differences in the change of VAS scale.|Wilcoxon (Mann-Whitney)|||Day 2 vs baseline||||>0.999
92455721|NCT04794803|184800401|SUPERIORITY|||||||0.05||||||p-values are referred to a two-sided Wilcoxon test for differences in the change of VAS scale.|Wilcoxon (Mann-Whitney)|||week 1 vs baseline||||0.050
92455722|NCT04794803|184800401|SUPERIORITY|||||||0.0227||||||p-values are referred to a two-sided Wilcoxon test for differences in the change of VAS scale.|Wilcoxon (Mann-Whitney)|||EOT vs baseline||||0.0227
92455723|NCT04794803|184800402|SUPERIORITY|||||||0.122|||||||Wilcoxon (Mann-Whitney)|||At Day 1||||0.122
92173814|NCT05492318|184239048|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|158.3|||||TWO_SIDED|90.0|145.23|172.54||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam: - AUC0-t||172.54|145.23|
92455724|NCT04794803|184800402|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||At Day 2||||0.985
92455725|NCT04794803|184800402|SUPERIORITY|||||||0.857|||||||Wilcoxon (Mann-Whitney)|||at week 1||||0.857
92455726|NCT04794803|184800402|SUPERIORITY|||||||0.436|||||||Wilcoxon (Mann-Whitney)|||at EOT||||0.436
92455727|NCT04794803|184800402|SUPERIORITY|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||At EOS||||0.350
92455728|NCT04794803|184800403|SUPERIORITY|p-values are referred to a two-sided Fisher's Exact test for worsening||||||0.596|||||||Fisher Exact|||Day 1||||0.596
92455729|NCT04794803|184800403|SUPERIORITY|p-values are referred to a two-sided Fisher's Exact test for worsening||||||0.667|||||||Fisher Exact|||Day 2||||0.667
92455730|NCT04794803|184800403|SUPERIORITY|p-values are referred to a two-sided Fisher's Exact test for worsening||||||0.037|||||||Fisher Exact|||Week 1||||0.037
92455731|NCT04794803|184800403|SUPERIORITY|p-values are referred to a two-sided Fisher's Exact test for worsening||||||0.293||||||p-values are referred to a two-sided Fisher's Exact test for worsening|Fisher Exact|||EOT||||0.293
92455732|NCT04794803|184800404|SUPERIORITY|||||||0.539||||||p-values are referred to a two-sided Fisher's Exact test for worsening and|Fisher Exact|||Day 1||||0.539
92455733|NCT04794803|184800404|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for worsening|Fisher Exact|||Day 2||||1.000
92455734|NCT04794803|184800404|SUPERIORITY|||||||0.102||||||p-values are referred to a two-sided Fisher's Exact test for worsening|Fisher Exact|||Week 1||||0.102
92242557|NCT04047121|184387987|SUPERIORITY|||||||0.8747|||||||t-test, 2 sided|||||||0.8747
92242558|NCT04047121|184387987|SUPERIORITY|||||||0.5265|||||||t-test, 2 sided|||||||0.5265
92242559|NCT04047121|184387987|SUPERIORITY||Odds Ratio (OR)|-0.0457||||0.2522|TWO_SIDED|95.0|-0.1239|0.0325|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0325|-0.1239|0.2522
92281307|NCT01546987|184465690|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.99|TWO_SIDED|95.0|0.33|3.13|||Log Rank|||||3.13|0.33|0.99
92455735|NCT04794803|184800404|SUPERIORITY|||||||0.119||||||p-values are referred to a two-sided Fisher's Exact test for worsening|Fisher Exact|||EOT||||0.119
92455736|NCT04794803|184800404|SUPERIORITY|||||||0.515||||||p-values are referred to a two-sided Fisher's Exact test for worsening|Fisher Exact|||EOS||||0.515
92455737|NCT04794803|184800405|SUPERIORITY|||||||0.366||||||p-values are referred to a two-sided Wilcoxon test for cumulative duration.|Wilcoxon (Mann-Whitney)|||Week 1||||0.366
92455738|NCT04794803|184800405|SUPERIORITY|||||||0.489||||||p-values are referred to a two-sided Wilcoxon test for cumulative duration.|Wilcoxon (Mann-Whitney)|||EOT||||0.489
92455739|NCT04794803|184800405|SUPERIORITY|||||||0.486||||||p-values are referred to a two-sided Wilcoxon test for cumulative duration.|Wilcoxon (Mann-Whitney)|||EOS||||0.486
92455740|NCT04794803|184800406|SUPERIORITY|||||||0.79||||||p-values are referred to a two-sided Wilcoxon test for cumulative quantity|Wilcoxon (Mann-Whitney)|||Week 1||||0.790
92455741|NCT04794803|184800406|SUPERIORITY|||||||0.961||||||p-values are referred to a two-sided Wilcoxon test for cumulative quantity|Wilcoxon (Mann-Whitney)|||EOT||||0.961
92242560|NCT04047121|184387987|SUPERIORITY||Odds Ratio (OR)|0.0278||||0.6701|TWO_SIDED|95.0|-0.1003|0.1559|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1559|-0.1003|0.6701
92242561|NCT04047121|184387987|SUPERIORITY||Odds Ratio (OR)|0.1693||||0.1017|TWO_SIDED|95.0|-0.0334|0.372|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.3720|-0.0334|0.1017
92455742|NCT04794803|184800406|SUPERIORITY|||||||0.619||||||p-values are referred to a two-sided Wilcoxon test for cumulative quantity|Wilcoxon (Mann-Whitney)|||EOS||||0.619
92455743|NCT04794803|184800407|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||Baseline||||1.000
92242562|NCT04047121|184387988|SUPERIORITY|||||||0.2246|||||||t-test, 2 sided|||||||0.2246
92455744|NCT04794803|184800407|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||Day 1||||1.000
92455745|NCT04794803|184800407|SUPERIORITY|||||||0.678||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||Day 2||||0.678
92455746|NCT04794803|184800407|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||Week 1||||1.000
92455747|NCT04794803|184800407|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||EOT||||1.000
92455748|NCT04794803|184800407|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||EOS||||1.000
92455749|NCT04794803|184800408|SUPERIORITY|||||||0.696||||||p-values are referred to a two-sided Wilcoxon test for cumulative duration|Wilcoxon (Mann-Whitney)|||Week 1||||0.696
92455750|NCT04794803|184800408|SUPERIORITY||||||>|0.999||||||p-values are referred to a-sided Wilcoxon test for cumulative duration|Wilcoxon (Mann-Whitney)|||EOT||||>0.999
92455751|NCT04794803|184800408|SUPERIORITY|||||||0.596||||||p-values are referred to a-sided Wilcoxon test for cumulative duration|Wilcoxon (Mann-Whitney)|||EOS||||0.596
92455752|NCT04794803|184800409|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||Baseline||||1.000
92455753|NCT04794803|184800409|SUPERIORITY|||||||1|||||||Fisher Exact|p-values are referred to a two-sided Fisher's Exact test for proportion||Day 1||||1.000
92455754|NCT04794803|184800409|SUPERIORITY|||||||1|||||||Fisher Exact|p-values are referred to a two-sided Fisher's Exact test for proportion||Day 2||||1.000
92455755|NCT04794803|184800409|SUPERIORITY|||||||1|||||||Fisher Exact|p-values are referred to a two-sided Fisher's Exact test for proportion||week 1||||1.000
92455756|NCT04794803|184800409|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||EOT||||1.000
92455757|NCT04794803|184800411|SUPERIORITY|||||||0.76||||||p-values are referred to a two-sided Wilcoxon test|Wilcoxon (Mann-Whitney)|||baseline||||0.760
92455758|NCT04794803|184800411|SUPERIORITY|||||||0.394||||||p-values are referred to a two-sided Wilcoxon test|Wilcoxon (Mann-Whitney)|||Week 1||||0.394
92173815|NCT05492318|184239049|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|69.9|||||TWO_SIDED|90.0|58.43|83.64||||||Total Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics - AUC0-t||83.64|58.43|
92242563|NCT04047121|184387988|SUPERIORITY|||||||0.2101|||||||t-test, 2 sided|||||||0.2101
92242564|NCT04047121|184387988|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.0030
92455759|NCT04794803|184800411|SUPERIORITY|||||||0.141||||||p-values are referred to a two-sided Wilcoxon test|Wilcoxon (Mann-Whitney)|||EOT||||0.141
92455760|NCT04794803|184800411|SUPERIORITY||||||>|0.999||||||p-values are referred to a two-sided Wilcoxon test|Wilcoxon (Mann-Whitney)|||EOS||||>0.999
92455761|NCT04794803|184800412|SUPERIORITY|||||||0.5||||||p-values are referred to a two-sided Wilcoxon test.|Wilcoxon (Mann-Whitney)|||baseline||||0.500
92455762|NCT04794803|184800412|SUPERIORITY|||||||0.112||||||p-values are referred to a two-sided Wilcoxon test.|Wilcoxon (Mann-Whitney)|||week 1||||0.112
92455763|NCT04794803|184800412|SUPERIORITY|||||||0.277||||||p-values are referred to a two-sided Wilcoxon test.|Wilcoxon (Mann-Whitney)|||EOT||||0.277
92455764|NCT04794803|184800412|SUPERIORITY||||||>|0.999||||||p-values are referred to a two-sided Wilcoxon test.|Wilcoxon (Mann-Whitney)|||EOS||||>0.999
92455765|NCT04794803|184800413|SUPERIORITY|||||||0.2027||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||Day 1 vs baseline||||0.2027
92455766|NCT04794803|184800413|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||Day 2 vs baseline||||1.0000
92455767|NCT04794803|184800413|SUPERIORITY|||||||0.4469||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||Week 1 vs baseline||||0.4469
92455768|NCT04794803|184800413|SUPERIORITY|||||||0.2466||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||EOT vs baseline||||0.2466
92455769|NCT04794803|184800413|SUPERIORITY|||||||0.1752||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||EOS vs baseline||||0.1752
92455770|NCT04794803|184800414|SUPERIORITY|||||||0.6441||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||Day 1 vs baseline||||0.6441
92242565|NCT04047121|184387988|SUPERIORITY||Odds Ratio (OR)|0.414||||0.3324|TWO_SIDED|95.0|-0.4231|1.2511|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.2511|-0.4231|0.3324
92242566|NCT04047121|184387988|SUPERIORITY||Odds Ratio (OR)|1.1712||||0.1367|TWO_SIDED|95.0|-0.3713|2.7138|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.7138|-0.3713|0.1367
92242567|NCT04047121|184387988|SUPERIORITY||Odds Ratio (OR)|1.8099||||0.0028|TWO_SIDED|95.0|0.6219|2.9978|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.9978|0.6219|0.0028
92455771|NCT04794803|184800414|SUPERIORITY|||||||0.3529||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||Day 2 vs baseline||||0.3529
92455772|NCT04794803|184800414|SUPERIORITY|||||||0.3581||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||week 1 vs baseline||||0.3581
92455773|NCT04794803|184800414|SUPERIORITY|||||||0.1666||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||EOT vs baseline||||0.1666
92455774|NCT04794803|184800414|SUPERIORITY|||||||0.0851||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||EOS vs baseline||||0.0851
92455775|NCT04794803|184800415|SUPERIORITY|||||||0.3359||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||Day 1 vs baseline||||0.3359
92455776|NCT04794803|184800415|SUPERIORITY|||||||0.3136||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||Day 2 vs baseline||||0.3136
92455777|NCT04794803|184800415|SUPERIORITY|||||||0.0441||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||week 1 vs baseline||||0.0441
92455778|NCT04794803|184800415|SUPERIORITY|||||||0.0965||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||EOT vs baseline||||0.0965
92455779|NCT04794803|184800415|SUPERIORITY|||||||0.0519||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||EOS vs baseline||||0.0519
92455780|NCT04794803|184800416|SUPERIORITY|||||||0.47||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||Day 1 vs baseline||||0.470
92242568|NCT04047121|184387989|SUPERIORITY|||||||0.2667|||||||t-test, 2 sided|||||||0.2667
92242569|NCT04047121|184387989|SUPERIORITY|||||||0.657|||||||t-test, 2 sided|||||||0.6570
92242570|NCT04047121|184387989|SUPERIORITY|||||||0.5403|||||||t-test, 2 sided|||||||0.5403
92455781|NCT04794803|184800416|SUPERIORITY|||||||0.425||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||Day 2 vs baseline||||0.425
92455782|NCT04794803|184800416|SUPERIORITY|||||||0.086||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||week 1 vs baseline||||0.086
92455783|NCT04794803|184800416|SUPERIORITY|||||||0.6||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||EOT vs baseline||||0.600
92455784|NCT04794803|184800416|SUPERIORITY|||||||0.717||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||EOS vs baseline||||0.717
92455785|NCT04149405|184800417|OTHER||Mean Difference (Final Values)|0.01|||<|0.01|TWO_SIDED||||||Kruskal-Wallis|||||||<0.01
92455786|NCT04149405|184800418|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92455787|NCT04149405|184800419|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92455788|NCT04149405|184800420|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92455789|NCT04124926|184800421|NON_INFERIORITY|The noninferiority of vonoprazan to lansoprazole was evaluated with a Farrington and Manning test with a noninferiority margin of 10 percentage points for the difference in EE rates between treatments (vonoprazan minus lansoprazole).|difference in percentage|8.3|||<|0.0001|TWO_SIDED|95.0|4.49|12.23||2-sided p-value.|Farrington and Manning test||The 2-sided 95% confidence interval (CI) of the difference in EE healing rates between vonoprazan 20 mg and lansoprazole 30 mg was calculated via the Miettinen and Nurminen method.|||12.23|4.49|<0.0001
92455790|NCT04124926|184800422|NON_INFERIORITY|The noninferiority of each dose group of vonoprazan to lansoprazole was evaluated with a Farrington and Manning test with a noninferiority margin of 10 percentage points for the difference in maintenance of healing rates between treatments (vonoprazan minus lansoprazole).|difference in percentage|8.7|||<|0.0001|TWO_SIDED|95.0|1.8|15.53||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in EE maintenance rates between each vonoprazan group and lansoprazole group was calculated via the Miettinen and Nurminen method.|||15.53|1.80|<0.0001
92242571|NCT04047121|184387989|SUPERIORITY||Odds Ratio (OR)|0.9159||||0.1167|TWO_SIDED|95.0|-0.2283|2.06|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.0600|-0.2283|0.1167
92242572|NCT04047121|184387989|SUPERIORITY||Odds Ratio (OR)|-0.0336||||0.9722|TWO_SIDED|95.0|-1.9238|1.8567|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.8567|-1.9238|0.9722
92242573|NCT04047121|184387989|SUPERIORITY||Odds Ratio (OR)|0.2064||||0.8455|TWO_SIDED|95.0|-1.8689|2.2817|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.2817|-1.8689|0.8455
92242574|NCT04047121|184387990|SUPERIORITY|||||||0.3142|||||||t-test, 2 sided|||||||0.3142
92242575|NCT04047121|184387990|SUPERIORITY|||||||0.2465|||||||t-test, 2 sided|||||||0.2465
92242576|NCT04047121|184387990|SUPERIORITY|||||||0.5933|||||||t-test, 2 sided|||||||0.5933
92242577|NCT04047121|184387990|SUPERIORITY||Odds Ratio (OR)|-0.0089||||0.7815|TWO_SIDED|95.0|-0.0716|0.0538|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0538|-0.0716|0.7815
92242578|NCT04047121|184387990|SUPERIORITY||Odds Ratio (OR)|0.0337||||0.4446|TWO_SIDED|95.0|-0.0528|0.1202|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1202|-0.0528|0.4446
92242579|NCT04047121|184387990|SUPERIORITY||Odds Ratio (OR)|-0.0333||||0.4733|TWO_SIDED|95.0|-0.1243|0.0577|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0577|-0.1243|0.4733
92242580|NCT04047121|184387991|SUPERIORITY|||||||0.0658|||||||t-test, 2 sided|||||||0.0658
92242581|NCT04047121|184387991|SUPERIORITY|||||||0.3785|||||||t-test, 2 sided|||||||0.3785
92242582|NCT04047121|184387991|SUPERIORITY|||||||0.6202|||||||t-test, 2 sided|||||||0.6202
92242583|NCT04047121|184387991|SUPERIORITY||Odds Ratio (OR)|-0.0425||||0.2523|TWO_SIDED|95.0|-0.1154|0.0303|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0303|-0.1154|0.2523
92242584|NCT04047121|184387991|SUPERIORITY||Odds Ratio (OR)|-0.0388||||0.4068|TWO_SIDED|95.0|-0.1305|0.0529|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0529|-0.1305|0.4068
92242585|NCT04047121|184387991|SUPERIORITY||Odds Ratio (OR)|0.0706||||0.5858|TWO_SIDED|95.0|-0.1833|0.3244|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.3244|-0.1833|0.5858
92242586|NCT04047121|184387992|SUPERIORITY|||||||0.3832|||||||t-test, 2 sided|||||||0.3832
92242587|NCT04047121|184387992|SUPERIORITY|||||||0.4631|||||||t-test, 2 sided|||||||0.4631
92173816|NCT05492318|184239049|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|71.43|||||TWO_SIDED|90.0|58.67|86.98||||||Free Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-t||86.98|58.67|
92242588|NCT04047121|184387992|SUPERIORITY|||||||0.6202|||||||t-test, 2 sided|||||||0.6202
92242589|NCT04047121|184387992|SUPERIORITY||Odds Ratio (OR)|-0.5353||||0.3158|TWO_SIDED|95.0|-1.5812|0.5107|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.5107|-1.5812|0.3158
92242590|NCT04047121|184387992|SUPERIORITY||Odds Ratio (OR)|1.3543||||0.1016|TWO_SIDED|95.0|-0.2669|2.9755|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.9755|-0.2669|0.1016
92242591|NCT04047121|184387992|SUPERIORITY||Odds Ratio (OR)|0.8677||||0.2576|TWO_SIDED|95.0|-0.6347|2.37|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.3700|-0.6347|0.2576
92242592|NCT04047121|184387993|SUPERIORITY|||||||0.3107|||||||t-test, 2 sided|||||||0.3107
92242593|NCT04047121|184387993|SUPERIORITY|||||||0.3735|||||||t-test, 2 sided|||||||0.3735
92242594|NCT04047121|184387993|SUPERIORITY|||||||0.3863|||||||t-test, 2 sided|||||||0.3863
92242595|NCT04047121|184387993|SUPERIORITY||Odds Ratio (OR)|-1.0337||||0.1918|TWO_SIDED|95.0|-2.5858|0.5184|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.5184|-2.5858|0.1918
92455791|NCT04124926|184800422|NON_INFERIORITY|The noninferiority of each dose group of vonoprazan to lansoprazole was evaluated with a Farrington and Manning test with a noninferiority margin of 10 percentage points for the difference in maintenance of healing rates between treatments (vonoprazan minus lansoprazole).|difference in percentage|7.2|||<|0.0001|TWO_SIDED|95.0|0.21|14.09||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in EE maintenance rates between each vonoprazan group and lansoprazole group was calculated via the Miettinen and Nurminen method.|||14.09|0.21|<0.0001
92455792|NCT04124926|184800422|SUPERIORITY|The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.||||||0.0136||||||2-sided p-value.|Farrington and Manning test|||||||0.0136
92242596|NCT04047121|184387993|SUPERIORITY||Odds Ratio (OR)|-0.9749||||0.4281|TWO_SIDED|95.0|-3.3864|1.4366|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.4366|-3.3864|0.4281
92242597|NCT04047121|184387993|SUPERIORITY||Odds Ratio (OR)|-1.8599||||0.1014|TWO_SIDED|95.0|-4.0854|0.3657|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.3657|-4.0854|0.1014
92242598|NCT04047121|184387994|SUPERIORITY|||||||0.4555|||||||t-test, 2 sided|||||||0.4555
92242599|NCT04047121|184387994|SUPERIORITY|||||||0.7164|||||||t-test, 2 sided|||||||0.7164
92242600|NCT04047121|184387994|SUPERIORITY|||||||0.2456|||||||t-test, 2 sided|||||||0.2456
92242601|NCT04047121|184387994|SUPERIORITY||Odds Ratio (OR)|0.0568||||0.0962|TWO_SIDED|95.0|-0.0101|0.1238|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1238|-0.0101|0.0962
92242602|NCT04047121|184387994|SUPERIORITY||Odds Ratio (OR)|-0.0432||||0.3844|TWO_SIDED|95.0|-0.1405|0.0541|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0541|-0.1405|0.3844
92242603|NCT04047121|184387994|SUPERIORITY||Odds Ratio (OR)|0.0233||||0.5899|TWO_SIDED|95.0|-0.0615|0.1082|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1082|-0.0615|0.5899
92455793|NCT04124926|184800422|SUPERIORITY|The superiority of the vonoprazan 10 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.||||||0.0436||||||2-sided p-value.|Farrington and Manning test|||||||0.0436
92455794|NCT04124926|184800423|NON_INFERIORITY|If the lower bound of the CI was greater than -15%, noninferiority would be concluded.|difference in mean percentage|2.7|||||TWO_SIDED|95.0|-1.6|7.03|||||The 2-sided 95% CI of the difference in mean percentage of 24-hour heartburn-free days between vonoprazan 20 mg and lansoprazole 30 mg was calculated from Welch's t-test.|||7.03|-1.60|
92242604|NCT04047121|184387995|SUPERIORITY|||||||0.4133|||||||t-test, 2 sided|||||||0.4133
92242605|NCT04047121|184387995|SUPERIORITY|||||||0.7171|||||||t-test, 2 sided|||||||0.7171
92455795|NCT04124926|184800424|SUPERIORITY|The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|17.6||||0.0008|TWO_SIDED|95.0|7.44|27.43||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in EE healing rates between vonoprazan 20 mg and lansoprazole 30 mg was calculated via the Miettinen and Nurminen method.|||27.43|7.44|0.0008
92242606|NCT04047121|184387995|SUPERIORITY|||||||0.8609|||||||t-test, 2 sided|||||||0.8609
92242607|NCT04047121|184387995|SUPERIORITY||Odds Ratio (OR)|-0.0445||||0.6224|TWO_SIDED|95.0|-0.2218|0.1327|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1327|-0.2218|0.6224
92242608|NCT04047121|184387995|SUPERIORITY||Odds Ratio (OR)|-0.0884||||0.5655|TWO_SIDED|95.0|-0.39|0.2132|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.2132|-0.3900|0.5655
92242609|NCT04047121|184387995|SUPERIORITY||Odds Ratio (OR)|0.1809||||0.4044|TWO_SIDED|95.0|-0.2444|0.6062|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.6062|-0.2444|0.4044
92242610|NCT04047121|184387996|SUPERIORITY|||||||0.0104|||||||t-test, 2 sided|||||||0.0104
92242611|NCT04047121|184387996|SUPERIORITY|||||||0.5949|||||||t-test, 2 sided|||||||0.5949
92242612|NCT04047121|184387996|SUPERIORITY|||||||0.0801|||||||t-test, 2 sided|||||||0.0801
92242613|NCT04047121|184387996|SUPERIORITY||Odds Ratio (OR)|-3.7075||||0.0072|TWO_SIDED|95.0|-6.411|-1.004|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||-1.0040|-6.4110|0.0072
92281308|NCT01546987|184465691|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.48|TWO_SIDED|95.0|0.29|1.75||Two-sided significance level = 0.05|Log Rank||Reference level = ADT + RT arm|Revised protocol due to early accrual closure (September 2014) computes that 5-year survival of 78% and annual hazard rate of 0.02 for ADT + RT arm, with five years of additional follow-up after early accrual closure provides 32% power (at two-sided alpha = 0.05) to detect a 50% reduction in failure rate.||1.75|0.29|0.48
92281309|NCT01546987|184465692|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.65|TWO_SIDED|95.0|0.45|1.63||Two-sided significance level = 0.05|Log Rank||Reference level = ADT + RT|||1.63|0.45|0.65
92455796|NCT04124926|184800425|SUPERIORITY|The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|2.3||||0.4392|TWO_SIDED|95.0|-3.5|8.04||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in sustained resolution rates between vonoprazan 20 mg and lansoprazole 30 mg was calculated via the Miettinen and Nurminen method.|||8.04|-3.50|0.4392
92242614|NCT04047121|184387996|SUPERIORITY||Odds Ratio (OR)|-1.4296||||0.5406|TWO_SIDED|95.0|-6.008|3.1489|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.1489|-6.0080|0.5406
92242615|NCT04047121|184387996|SUPERIORITY||Odds Ratio (OR)|-0.3527||||0.8603|TWO_SIDED|95.0|-4.279|3.5737|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.5737|-4.2790|0.8603
92242616|NCT04047121|184387997|SUPERIORITY|||||||0.6344|||||||t-test, 2 sided|||||||0.6344
92242617|NCT04047121|184387997|SUPERIORITY|||||||0.3037|||||||t-test, 2 sided|||||||0.3037
92242618|NCT04047121|184387997|SUPERIORITY|||||||0.1344|||||||t-test, 2 sided|||||||0.1344
92242619|NCT04047121|184387997|SUPERIORITY||Odds Ratio (OR)|1.2586||||0.5092|TWO_SIDED|95.0|-2.4787|4.9958|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||4.9958|-2.4787|0.5092
92281310|NCT01546987|184465694|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||One hundred thirty evaluable participants (arms combined), provides 81% power to detect a moderate effect size of 0.5 using a two-sample test of the difference in means with a two-sided type I error of 0.05.||||0.76
92281311|NCT01546987|184465695|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||\[Bowel domain\] One hundred thirty evaluable participants (arms combined), provides 81% power to detect a moderate effect size of 0.5 using a two-sample test of the difference in means with a two-sided type I error of 0.05.||||0.44
92242620|NCT04047121|184387997|SUPERIORITY||Odds Ratio (OR)|-0.7696||||0.8047|TWO_SIDED|95.0|-6.8683|5.3292|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||5.3292|-6.8683|0.8047
92242621|NCT04047121|184387997|SUPERIORITY||Odds Ratio (OR)|0.094||||0.9757|TWO_SIDED|95.0|-5.9628|6.1507|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||6.1507|-5.9628|0.9757
92281312|NCT01546987|184465695|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||\[Urinary domain\] One hundred thirty evaluable participants (arms combined), provides 81% power to detect a moderate effect size of 0.5 using a two-sample test of the difference in means with a two-sided type I error of 0.05.||||0.13
92281313|NCT01546987|184465695|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||\[Sexual domain\] One hundred thirty evaluable participants (arms combined), provides 81% power to detect a moderate effect size of 0.5 using a two-sample test of the difference in means with a two-sided type I error of 0.05.||||0.50
92281314|NCT01546987|184465695|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||\[Hormonal domain\] One hundred thirty evaluable participants (arms combined), provides 81% power to detect a moderate effect size of 0.5 using a two-sample test of the difference in means with a two-sided type I error of 0.05.||||0.96
92455797|NCT04124926|184800426|SUPERIORITY|Observed p-value and not a formal test per the preplanned fixed-sequence testing procedure. The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|19.6|||<|0.0001|TWO_SIDED|95.0|11.84|27.58||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in EE healing rates between vonoprazan 20 mg and lansoprazole 30 mg was calculated via the Miettinen and Nurminen method.|||27.58|11.84|<0.0001
92242622|NCT04047121|184387998|SUPERIORITY|||||||0.0839|||||||t-test, 2 sided|||||||0.0839
92242623|NCT04047121|184387998|SUPERIORITY|||||||0.9577|||||||t-test, 2 sided|||||||0.9577
92242624|NCT04047121|184387998|SUPERIORITY|||||||0.9497|||||||t-test, 2 sided|||||||0.9497
92242625|NCT04047121|184387998|SUPERIORITY||Odds Ratio (OR)|-0.031||||0.4873|TWO_SIDED|95.0|-0.1185|0.0565|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0565|-0.1185|0.4873
92242626|NCT04047121|184387998|SUPERIORITY||Odds Ratio (OR)|-0.0312||||0.678|TWO_SIDED|95.0|-0.1783|0.1159|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1159|-0.1783|0.6780
92281315|NCT01546987|184465706|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0104|TWO_SIDED|95.0|0.29|0.89|||Log Rank||Reference arm = ADT + RT arm|||0.89|0.29|0.0104
92287229|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.261|TWO_SIDED|95.0|-0.03|0.11|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.110|-0.030|0.261
92242627|NCT04047121|184387998|SUPERIORITY||Odds Ratio (OR)|0.0099||||0.9327|TWO_SIDED|95.0|-0.2207|0.2406|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.2406|-0.2207|0.9327
92242628|NCT04047121|184387999|SUPERIORITY|||||||0.0021|||||||t-test, 2 sided|||||||0.0021
92242629|NCT04047121|184387999|SUPERIORITY|||||||0.5396|||||||t-test, 2 sided|||||||0.5396
92242630|NCT04047121|184387999|SUPERIORITY|||||||0.6121|||||||t-test, 2 sided|||||||0.6121
92455798|NCT04124926|184800427|SUPERIORITY|Observed p-value and not a formal test per the preplanned fixed-sequence testing procedure. The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|6.1||||0.0348|TWO_SIDED|95.0|0.53|11.6||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in EE healing rates between vonoprazan 20 mg and lansoprazole 30 mg was calculated via the Miettinen and Nurminen method.|||11.60|0.53|0.0348
92455799|NCT04124926|184800428|SUPERIORITY|The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|15.7||||0.0196|TWO_SIDED|95.0|2.5|28.44||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in maintenance rates between each vonoprazan group and lansoprazole 15 mg group was calculated via the Miettinen and Nurminen method.|||28.44|2.50|0.0196
92455800|NCT04124926|184800428|SUPERIORITY|The superiority of the vonoprazan 10 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|13.3||||0.049|TWO_SIDED|95.0|0.02|26.14||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in maintenance rates between each vonoprazan group and lansoprazole 15 mg group was calculated via the Miettinen and Nurminen method.|||26.14|0.02|0.0490
92455801|NCT04124926|184800429|NON_INFERIORITY|If the lower bound of the CI was greater than -15%, noninferiority would be concluded.|difference in mean percentage|2.0|||||TWO_SIDED|95.0|-2.63|6.72|||||The 2-sided 95% CI of the difference in mean percentage of 24-hour heartburn-free days between each vonoprazan group and the lansoprazole group was calculated from Welch's t-test.|||6.72|-2.63|
92455802|NCT04124926|184800429|NON_INFERIORITY|If the lower bound of the CI was greater than -15%, noninferiority would be concluded.|difference in mean percentage|2.3|||||TWO_SIDED|95.0|-2.27|6.84|||||The 2-sided 95% CI of the difference in mean percentage of 24-hour heartburn-free days between each vonoprazan group and the lansoprazole group was calculated from Welch's t-test.|||6.84|-2.27|
92455803|NCT02167074|184800436|OTHER|The chi-square test (with Yates' correction when appropriate) or the Fisher exact test was used to compare the two needle types|||||<|0.05|||||||Chi-squared|||||||<0.05
92173817|NCT05492318|184239049|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|69.94|||||TWO_SIDED|90.0|58.82|83.15||||||Total Dabigatran: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-t||83.15|58.82|
92173818|NCT05492318|184239049|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric Lsmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|72.3|||||TWO_SIDED|90.0|59.92|87.25||||||Free Dabigatran: Potential Induction Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-t||87.25|59.92|
92242631|NCT04047121|184387999|SUPERIORITY||Odds Ratio (OR)|-0.1895||||0.0303|TWO_SIDED|95.0|-0.361|-0.0181|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||-0.0181|-0.3610|0.0303
92455804|NCT00845663|184800455|NON_INFERIORITY_OR_EQUIVALENCE|Use of the 80-125 % bioequivalence range. If 90% confidence interval for ratio of geometric LS Means (percent) is included within these limits, the devices are considered bioequivalent.|ratio of geometric LS Means (percent)|101.33||||||90.0|92.84|110.58|||ANOVA|ANOVA for log-transformed values with treatment as factor has been used as the basis for calculation of estimated value and confidence interval.|Ratio is Auto-injection device/Pre-filled syringe|Bioequivalence testing by using the 90% Confidence Interval||110.58|92.84|
92242632|NCT04047121|184387999|SUPERIORITY||Odds Ratio (OR)|-0.1901||||0.1807|TWO_SIDED|95.0|-0.4685|0.0883|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0883|-0.4685|0.1807
92173819|NCT05492318|184239050|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|107.55|||||TWO_SIDED|90.0|103.35|111.49||||||Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV: AUC0-inf||111.49|103.35|
92242633|NCT04047121|184387999|SUPERIORITY||Odds Ratio (OR)|0.1594||||0.7445|TWO_SIDED|95.0|-0.7991|1.1178|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.1178|-0.7991|0.7445
92242634|NCT04047121|184388000|SUPERIORITY|||||||0.0035|||||||t-test, 2 sided|||||||0.0035
92242635|NCT04047121|184388000|SUPERIORITY|||||||0.504|||||||t-test, 2 sided|||||||0.5040
92455805|NCT00845663|184800456|NON_INFERIORITY_OR_EQUIVALENCE|Use of the 80-125% bioequivalence range. If 90% confidence interval for ratio of geometric LS Means (percent) is included within these limits, the devices are considered bioequivalent.|ratio of geometric LS Means (percent)|97.7||||||90.0|89.06|107.19|||ANOVA|ANOVA for log-transformed values with treatment as factor was taken as the basis for calculation of estimated value and confidence interval.|Ratio is Auto-injection device/Pre-filled syringe|Bioequivalence testing by using the 90% Confidence Interval||107.19|89.06|
92455806|NCT00845663|184800457|NON_INFERIORITY_OR_EQUIVALENCE|Use of the 80-125 % bioequivalence range. If 90% confidence interval for ratio of geometric LS Means (percent) is included within these limits, the devices are considered bioequivalent.|ratio of geometric LS Means (percent)|97.54||||||90.0|87.33|108.94|||ANOVA|ANOVA for log-transformed values with treatment as factor was taken as a basis for calculation of estimated value and the confidence interval.|Ratio is Auto-injection device/Pre-filled syringe|Bioequivalence testing by using the 90% Confidence Interval||108.94|87.33|
92455807|NCT05585307|184800519|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455808|NCT05585307|184800519|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455809|NCT05585307|184800519|SUPERIORITY|||||||0.0013||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||0.0013
92242636|NCT04047121|184388000|SUPERIORITY|||||||0.1366|||||||t-test, 2 sided|||||||0.1366
92242637|NCT04047121|184388000|SUPERIORITY||Odds Ratio (OR)|-3.4084||||0.082|TWO_SIDED|95.0|-7.2497|0.433|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.4330|-7.2497|0.0820
92281316|NCT02270736|184465708|SUPERIORITY||Least square mean (LS-mean) difference|-0.06|STANDARD_ERROR_OF_MEAN|0.019|=|0.0012|TWO_SIDED|95.0|-0.1|-0.03|||MMRM|||Least square mean (LS-Mean) is from a mixed model repeated measurement (MMRM) analysis with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline uSFR score as covariate.||-0.03|-0.1|= 0.0012
92455810|NCT05585307|184800519|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455811|NCT05585307|184800519|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455812|NCT05585307|184800519|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455813|NCT05585307|184800519|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455814|NCT05585307|184800519|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92242638|NCT04047121|184388000|SUPERIORITY||Odds Ratio (OR)|-1.5342||||0.5845|TWO_SIDED|95.0|-7.0336|3.9652|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.9652|-7.0336|0.5845
92455815|NCT05585307|184800520|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455816|NCT05585307|184800520|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92173820|NCT05492318|184239050|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|112.17|||||TWO_SIDED|90.0|106.21|118.46||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-inf||118.46|106.21|
92455817|NCT05585307|184800520|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455818|NCT05585307|184800520|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455819|NCT05585307|184800520|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455820|NCT05585307|184800520|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455821|NCT05585307|184800520|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455822|NCT05585307|184800520|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
92455823|NCT04009291|184800540|SUPERIORITY||||||=|0.2635|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||= 0.2635
92455824|NCT04009291|184800540|SUPERIORITY||||||=|0.6999|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||= 0.6999
92455825|NCT04009291|184800540|SUPERIORITY||||||=|0.1394|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||= 0.1394
92455826|NCT04009291|184800541|SUPERIORITY||||||=|0.1281|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||= 0.1281
92455827|NCT04009291|184800541|SUPERIORITY||||||>|0.9999|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||> 0.9999
92455828|NCT04009291|184800541|SUPERIORITY||||||=|0.0604|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||= 0.0604
92455829|NCT02491671|184800638|SUPERIORITY||Risk Ratio (RR)|1.219||||0.171|TWO_SIDED|95.0|0.891|1.583|||Chi-squared|||||1.583|0.891|0.171
92173821|NCT05492318|184239050|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|124.01|||||TWO_SIDED|90.0|119.44|128.76||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-inf||128.76|119.44|
92242639|NCT04047121|184388000|SUPERIORITY||Odds Ratio (OR)|0.987||||0.7284|TWO_SIDED|95.0|-4.583|6.557|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||6.5570|-4.5830|0.7284
92242640|NCT04047121|184388001|SUPERIORITY|||||||0.1125|||||||t-test, 2 sided|||||||0.1125
92242641|NCT04047121|184388001|SUPERIORITY|||||||0.7156|||||||t-test, 2 sided|||||||0.7156
92242642|NCT04047121|184388001|SUPERIORITY|||||||0.2056|||||||t-test, 2 sided|||||||0.2056
92455830|NCT02491671|184800639|SUPERIORITY||z|0.288|||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Wilcoxon rank-sum (Mann-Whitney) test Unadjusted variance 274999.00 Adjustment for ties --21069.78 Adjusted variance 253929.22 z = 0.288; Prob \> \|z\| = 0.7735"|||||>0.05
92455831|NCT02491671|184800640|SUPERIORITY||Risk Ratio (RR)|1.351||||0.307|TWO_SIDED|95.0|0.657|1.879|||Chi-squared|||||1.879|0.657|0 .307
92455832|NCT02251990|184800643|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p-value was based on a one-sided asymptotic test for a binomial proportion. A one-sided p-value \<0.0125 was considered supportive of a conclusion that the true SVR12 is \>73%.|one-sided asymptotic test|||A one-sided Wald test was used to test the null hypothesis, which was that the SVR12 rate for the ITG was ≤ the historical reference rate of 73%. The historical reference SVR rate for treatment-naive genotype 1 predominantly Asian participants treated with pegylated interferon/ribavirin was derived from 2 studies (PMCID: PMC417, PMCID: PMC3644280) after adjusting for an expected improved safety profile related to an interferon-free regimen.||||<0.001
92455833|NCT02251990|184800644|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.5|||||TWO_SIDED|95.0|-10.6|9.6||||||Estimates and 95% CIs were calculated for between-treatment differences (ITG minus DTG) in the percentage of participants with events using the Miettinen and Nurminen method.||9.6|-10.6|
92455834|NCT02251990|184800645|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.5|||||TWO_SIDED|95.0|-4.2|0.9||||||Estimates and 95% CIs were calculated for between-treatment differences (ITG minus DTG) in the percentage of participants with events using the Miettinen and Nurminen method.||0.9|-4.2|
92455835|NCT02621931|184800923|SUPERIORITY||LSM difference from placebo|-1.8|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.46|-1.15||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the statistical analysis plan (SAP).||-1.15|-2.46|<0.0001
92455836|NCT02621931|184800923|SUPERIORITY||LSM difference from placebo|-2.1|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.76|-1.45||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||-1.45|-2.76|<0.0001
92455837|NCT02621931|184800925|SUPERIORITY||LSM difference from placebo|-1.7|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-2.48|-0.97||0.05 level of significance|ANCOVA|||||-0.97|-2.48|<0.0001
92455838|NCT02621931|184800925|SUPERIORITY||LSM difference from placebo|-1.8|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-2.61|-1.09||0.05 level of significance|ANCOVA|||||-1.09|-2.61|<0.0001
92455839|NCT02621931|184800926|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 1: Active 675/placebo/placebo to Placebo||||<0.0001
92455840|NCT02621931|184800926|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 1: Active 675/225/225 to Placebo||||<0.0001
92455841|NCT02621931|184800926|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 2||||<0.0001
92455842|NCT02621931|184800926|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 2||||<0.0001
92455843|NCT02621931|184800926|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 3||||<0.0001
92455844|NCT02621931|184800926|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 3||||<0.0001
92455845|NCT02621931|184800926|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Overall||||<0.0001
92455846|NCT02621931|184800926|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Overall||||<0.0001
92455847|NCT02621931|184800927|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
92455848|NCT02621931|184800927|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
92455849|NCT02621931|184800928|SUPERIORITY||LSM difference from placebo|-2.3|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-2.95|-1.73||0.05 level of significance|ANCOVA|||||-1.73|-2.95|<0.0001
92455850|NCT02621931|184800929|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
92455851|NCT02621931|184800929|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
92173822|NCT05492318|184239050|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|134.29|||||TWO_SIDED|90.0|126.15|142.96||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV. AUC0-inf||142.96|126.15|
92173823|NCT05492318|184239050|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 7) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|138.75|||||TWO_SIDED|90.0|129.05|149.18||||||Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - AUC0-inf||149.18|129.05|
92173824|NCT05492318|184239050|OTHER||GMR corresponds to the ratio of the Geom|134.18|||||TWO_SIDED|90.0|124.19|144.97||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam: AUC0-inf||144.97|124.19|
92173825|NCT05492318|184239050|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|162.76|||||TWO_SIDED|90.0|151.13|175.28||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam: AUC0-inf||175.28|151.13|
92173826|NCT05492318|184239050|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|161.2|||||TWO_SIDED|90.0|147.8|175.82||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - AUC0-inf||175.82|147.80|
92173827|NCT05492318|184239051|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|69.96|||||TWO_SIDED|90.0|58.83|83.2||||||Total Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-inf||83.20|58.83|
92173828|NCT05492318|184239051|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|71.65|||||TWO_SIDED|90.0|59.08|86.88||||||Free Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-inf||86.88|59.08|
92173829|NCT05492318|184239051|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|70.37|||||TWO_SIDED|90.0|59.64|83.03||||||Total Dabigatran: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-inf||83.03|59.64|
92242643|NCT04047121|184388001|SUPERIORITY||Odds Ratio (OR)|-1.8061||||0.4288|TWO_SIDED|95.0|-6.2797|2.6675|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.6675|-6.2797|0.4288
92242644|NCT04047121|184388001|SUPERIORITY||Odds Ratio (OR)|-1.6946||||0.6303|TWO_SIDED|95.0|-8.5962|5.2069|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||5.2069|-8.5962|0.6303
92173830|NCT05492318|184239051|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric Lsmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|73.45|||||TWO_SIDED|90.0|60.79|88.75||||||Free Dabigatran: Potential Induction Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate. AUC0-inf||88.75|60.79|
92173831|NCT01212029|184239076|OTHER|One sample t-tests of standardized regression coefficients of RMSSD predicting O2Hb during baseline||||||0.008||||||t-test was performed 16 times for 16 fNIRS channels. The reported p-value is an uncorrected value for channel 10.|t-test, 2 sided|||Null hypothesis: there is no significant correlation between RMSSD and O2Hb levels during baseline||||0.008
92173832|NCT01212029|184239077|OTHER|||||||0.0105|||||||Tukey method|||||||0.0105
92242645|NCT04047121|184388001|SUPERIORITY||Odds Ratio (OR)|-0.9873||||0.7477|TWO_SIDED|95.0|-7.0028|5.0281|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||5.0281|-7.0028|0.7477
92242646|NCT04047121|184388002|SUPERIORITY|||||||0.3919|||||||t-test, 2 sided|||||||0.3919
92173833|NCT02671903|184239080|SUPERIORITY||Fixed Effect for Treatment|0.25||||0.3|TWO_SIDED|95.0|-0.23|0.73|||Mixed Models Analysis|||Change in treatment effect taken from mixed-model output||0.73|-0.23|0.3
92173834|NCT03457142|184239114|OTHER|No formal test, a confidence interval estimate for the grade 3+ treatment related AE rate.|grade 3+ treatment related AE rate|0.33|||||TWO_SIDED|90.0|0.17|0.54||||||||0.54|0.17|
92173835|NCT01999075|184239136|SUPERIORITY||Mean Difference (Net)|1.9||||0.68|TWO_SIDED|95.0|-6.9|10.7||The a priori threshold for statistical significance was a two-sided p-value of 0.05.|ANCOVA||"The mean difference between the intervention and the control group in the change from baseline to 2 years was estimated.~Estimates presented here are based on multiple imputation of missing values."|||10.7|-6.9|0.68
92173836|NCT01999075|184239140|SUPERIORITY||Mean Difference (Net)|0.27|||||TWO_SIDED|95.0|-1.92|2.18||||||Difference in change in peak cough flow (L/min) from baseline to 2 years, between conventional treatment and intervention group.||2.18|-1.92|
92173837|NCT01999075|184239141|SUPERIORITY|||||||0.79|||||||Mixed Models Analysis|||||||0.79
92173838|NCT01999075|184239142|SUPERIORITY|||||||1|||||||Mixed Models Analysis|||||||1.00
92173839|NCT01999075|184239143|SUPERIORITY|||||||0.98|||||||Mixed Models Analysis|||||||0.98
92173840|NCT05260684|184239184|OTHER||Hazard Ratio (HR)|1.32||||0.02|TWO_SIDED|95.0|1.05|1.65|||Wald Chi- Square Statistic||HR was estimated using multivariable Cox proportional hazard models.|Statistical analysis data is presented for Dabrafenib+Trametinib relative to Encorafenib+Binimetinib (reference).||1.65|1.05|0.02
92173841|NCT05260684|184239184|OTHER||Hazard Ratio (HR)|1.17||||0.47|TWO_SIDED|95.0|0.76|1.79|||Wald Chi- Square Statistic||HR was estimated using multivariable Cox proportional hazard models.|Statistical analysis data is presented for Vemurafenib + Cobimetinib relative to Encorafenib+Binimetinib (reference).||1.79|0.76|0.47
92455852|NCT02621931|184800930|SUPERIORITY|||||||0.0004||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||0.0004
92455853|NCT02621931|184800930|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
92455854|NCT00920426|184800938|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.09|||<|0.001|TWO_SIDED|95.0|-2.547|-1.632||Analysis of covariance (ANCOVA) with treatment as fixed effect, and Baseline HIV-1 RNA as covariate.|ANCOVA|||||-1.632|-2.547|<0.001
92455855|NCT00920426|184800964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.804|||<|0.001|TWO_SIDED|95.0|-2.173|-1.436||ANCOVA with treatment as fixed effect, and baseline HIV-1 RNA as covariate.|ANCOVA|||||-1.436|-2.173|<0.001
92455856|NCT00920426|184800965|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92173842|NCT05260684|184239185|OTHER||Hazard Ratio (HR)|1.49|||<|0.001|TWO_SIDED|95.0|1.2|1.87|||Wald Chi- Square Statistic||HR was estimated using multivariable Cox proportional hazard models.|Statistical analysis data is presented for Dabrafenib+Trametinib relative to Encorafenib+Binimetinib (reference).||1.87|1.20|<0.001
92242647|NCT04047121|184388002|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92242648|NCT04047121|184388002|SUPERIORITY|||||||0.0193|||||||t-test, 2 sided|||||||0.0193
92242649|NCT04047121|184388002|SUPERIORITY||Cost Ratio|1.2232||||0.057|TWO_SIDED|95.0|0.994|1.5053|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a generalized linear model (GLM). Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.5053|0.9940|0.0570
92242650|NCT04047121|184388002|SUPERIORITY||Cost Ratio|1.8479|||<|0.0001|TWO_SIDED|95.0|1.4378|2.3749|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.3749|1.4378|<0.0001
92455857|NCT01466985|184800975|SUPERIORITY|Doravirine was declared superior to placebo when the upper bound of the 90% CI was \<-1.|Least squares (LS) mean difference|-1.37|||<|0.001||90.0|-1.6|-1.02|||ANCOVA|||||-1.02|-1.60|<0.001
92455858|NCT01466985|184800975|SUPERIORITY|Doravirine was declared superior to placebo when the upper bound of the 90% CI was \<-1.|LS mean difference|-1.26|||<|0.001|TWO_SIDED|90.0|-1.51|-1.02|||ANCOVA|||||-1.02|-1.51|<0.001
92455859|NCT02943408|184800982|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||.90
92455860|NCT02943408|184800983|SUPERIORITY|||||||0.99|||||||Mixed Models Analysis|||||||.99
92455861|NCT02943408|184800984|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||||||.56
92455862|NCT02943408|184800985|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||||||.85
92455863|NCT02943408|184800986|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||||||.43
92455864|NCT02943408|184800987|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||||||.82
92455865|NCT02943408|184800988|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||.50
92455866|NCT02943408|184800989|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||||||.56
92455867|NCT02943408|184800990|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|||||||.92
92455868|NCT02943408|184800991|SUPERIORITY|||||||0.65|||||||Mixed Models Analysis|||||||.65
92455869|NCT02943408|184800992|SUPERIORITY|||||||0.35|||||||Mixed Models Analysis|||||||.35
92455870|NCT01106833|184800994|SUPERIORITY|||||||0.63||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportion of participants with treatment success at 6 months is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.63
92455871|NCT01106833|184800994|SUPERIORITY|||||||0.44||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportion of participants with treatment success at 24 months is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.44
92455872|NCT01106833|184800995|SUPERIORITY|||||||0.205||||||Two-sided testing was performed using a significance level of 0.05|Log Rank|||The null hypothesis is that the rate of overall survival during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.205
92455873|NCT01106833|184800996|SUPERIORITY|||||||0.141||||||Two-sided testing was performed using a significance level of 0.05|Log Rank|||The null hypothesis is that the rate of progression-free survival during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.141
92242651|NCT04047121|184388002|SUPERIORITY||Cost Ratio|1.1868||||0.0924|TWO_SIDED|95.0|0.9722|1.4487|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.4487|0.9722|0.0924
92242652|NCT04047121|184388003|SUPERIORITY|||||||0.6184|||||||t-test, 2 sided|||||||0.6184
92242653|NCT04047121|184388003|SUPERIORITY|||||||0.1952|||||||t-test, 2 sided|||||||0.1952
92242654|NCT04047121|184388003|SUPERIORITY|||||||0.1638|||||||t-test, 2 sided|||||||0.1638
92242655|NCT04047121|184388003|SUPERIORITY||Cost Ratio|0.9773||||0.6732|TWO_SIDED|95.0|0.8782|1.0875|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.0875|0.8782|0.6732
92242656|NCT04047121|184388003|SUPERIORITY||Cost Ratio|0.9629||||0.6345|TWO_SIDED|95.0|0.824|1.1253|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.1253|0.8240|0.6345
92242657|NCT04047121|184388003|SUPERIORITY||Cost Ratio|0.8327||||0.0029|TWO_SIDED|95.0|0.738|0.9395|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.9395|0.7380|0.0029
92242658|NCT04047121|184388004|SUPERIORITY|||||||0.3087|||||||t-test, 2 sided|||||||0.3087
92281317|NCT02270736|184465709|SUPERIORITY||Least square mean (LS-mean) difference|0.28|STANDARD_ERROR_OF_MEAN|0.127|=|0.032|TWO_SIDED|95.0|0.02|0.53|||MMRM|||LS-Mean is from a MMRM analysis model with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline Modified Teacher Drooling Scale (mTDS) score as covariate.||0.53|0.02|= 0.032
92281318|NCT02270736|184465711|SUPERIORITY||Least square mean (LS-mean) difference|-0.09|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|-0.12|-0.05|||MMRM|||Statistical analysis at Week 8: LS-Mean is from a MMRM analysis with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline uSFR score as covariate.||-0.05|-0.12|<0.0001
92281319|NCT02270736|184465711|SUPERIORITY||Least square mean (LS-mean) difference|-0.1|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|-0.14|-0.06|||MMRM|||Statistical analysis at Week 12: LS-Mean is from a MMRM analysis with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline uSFR score as covariate.||-0.06|-0.14|<0.0001
92281320|NCT02270736|184465712|SUPERIORITY||Least square mean (LS-mean) difference|0.4|STANDARD_ERROR_OF_MEAN|0.116|=|0.0008|TWO_SIDED|95.0|0.17|0.63|||MMRM|||Statistical analysis at Week 8: LS-Mean is from a MMRM analysis model with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline mTDS score as covariate.||0.63|0.17|=0.0008
92242659|NCT04047121|184388004|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
92281321|NCT02270736|184465712|SUPERIORITY||Least square mean (LS-mean) difference|0.4|STANDARD_ERROR_OF_MEAN|0.132|=|0.0026|TWO_SIDED|95.0|0.14|0.66|||MMRM|||Statistical analysis at Week 12: LS-Mean is from a MMRM analysis model with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline mTDS score as covariate.||0.66|0.14|=0.0026
92281322|NCT00262600|184465717|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.|Cox Proportional Hazard|0.9|||<|0.0001||95.0|0.74|1.1||p-value for protocol specified margin of 1.46|Regression, Cox|||Non-inferiority comparison of dabigatran 110 mg to warfarin||1.10|0.74|<.0001
92242660|NCT04047121|184388004|SUPERIORITY|||||||0.0647|||||||t-test, 2 sided|||||||0.0647
92242661|NCT04047121|184388004|SUPERIORITY||Cost Ratio|0.9762||||0.7684|TWO_SIDED|95.0|0.8316|1.146|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.1460|0.8316|0.7684
92242662|NCT04047121|184388004|SUPERIORITY||Cost Ratio|1.3862||||0.0012|TWO_SIDED|95.0|1.1379|1.6886|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.6886|1.1379|0.0012
92455874|NCT01106833|184800997|SUPERIORITY|||||||0.775||||||Two-sided testing was performed using a significance level of 0.05|Log Rank|||The null hypothesis is that the rate of failure-free survival during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.775
92455875|NCT01106833|184800998|SUPERIORITY|||||||0.396||||||Two-sided testing was performed using a significance level of 0.05|Gray's test|Death without relapse was treated as a competing risk||The null hypothesis is that the rate of relapse during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.396
92455876|NCT01106833|184800999|SUPERIORITY|||||||0.219||||||Two-sided testing was performed using a significance level of 0.05|Gray's test|Death without initiation of secondary therapy is considered a competing risk for this endpoint||The null hypothesis is that the rate of initiation of secondary immunosuppressive therapy for chronic GVHD during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.219
92242663|NCT04047121|184388004|SUPERIORITY||Cost Ratio|1.0065||||0.9422|TWO_SIDED|95.0|0.8452|1.1985|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.1985|0.8452|0.9422
92242664|NCT04047121|184388005|SUPERIORITY|||||||0.0421|||||||t-test, 2 sided|||||||0.0421
92455877|NCT01106833|184801000|SUPERIORITY|||||||0.706||||||Two-sided testing was performed using a significance level of 0.05|Gray's test|Death without discontinuation of systemic immunosuppressive therapy is considered a competing risk for this endpoint||The null hypothesis is that the rate of discontinuation of systemic immunosuppressive therapy during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.706
92455878|NCT01106833|184801001|SUPERIORITY|||||||0.127||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median prednisone dose at baseline is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.127
92455879|NCT01106833|184801001|SUPERIORITY|||||||0.562||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median prednisone dose at 6 months post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.562
92455880|NCT01106833|184801001|SUPERIORITY|||||||0.129||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median prednisone dose at 1 year post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.129
92455881|NCT01106833|184801002|SUPERIORITY|||||||0.586||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median change in prednisone dose from baseline to 6 months post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.586
92242665|NCT04047121|184388005|SUPERIORITY|||||||0.8137|||||||t-test, 2 sided|||||||0.8137
92242666|NCT04047121|184388005|SUPERIORITY|||||||0.9416|||||||t-test, 2 sided|||||||0.9416
92242667|NCT04047121|184388005|SUPERIORITY||Cost Ratio|0.9515||||0.319|TWO_SIDED|95.0|0.8628|1.0493|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.0493|0.8628|0.3190
92281323|NCT00262600|184465717|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.|Cox Proportional Hazard|0.65|||<|0.0001||95.0|0.52|0.81||p-value for protocol specified margin of 1.46|Regression, Cox|||Non-inferiority comparison of dabigatran 150 mg to warfarin||0.81|0.52|<.0001
92242668|NCT04047121|184388005|SUPERIORITY||Cost Ratio|0.8991||||0.1368|TWO_SIDED|95.0|0.7815|1.0343|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.0343|0.7815|0.1368
92242669|NCT04047121|184388005|SUPERIORITY||Cost Ratio|0.8514||||0.0231|TWO_SIDED|95.0|0.7411|0.9782|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.9782|0.7411|0.0231
92242670|NCT02604810|184388011|NON_INFERIORITY|Method of estimation = least-squares means based on analysis of variance (ANOVA) with a mixed-effect model. The lower bound of the 90% confidence interval (CI) for the geometric LSM ratio (SC/IV) of the primary PK endpoint of steady state AUC0-7 days for the PK population should be above 0.80.|Geometric least-squares mean ratio|1.04|||||TWO_SIDED|90.0|1.0|1.07||||||||1.07|1.00|
92242671|NCT00115349|184388053|SUPERIORITY_OR_OTHER|||||||0.89||0.0|||||Mixed Models Analysis|Linear mixed models with treatment, time, and treatment x time interaction were used, allowing for random participant-specific intercepts and slopes.||The intended sample size of 86 patients (N=43 per arm) had 80% power to detect a 5% difference in LVEF between the two arms after 1 year of treatment, assuming a standard deviation of change in LVEF of 7.46%, and 20% loss to follow-up. The study was stopped early by NHLBI when analysis of the interim data confirmed a required sample size of 86 that was not achievable within the required time frame within the participating or planned centres.||||0.89
92242672|NCT01728584|184388083|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|1.09||||0.026|TWO_SIDED|95.0|0.13|2.04|||ANCOVA|Analysis of covariance (ANCOVA) model included factors depth of NMB, level of pressure, surgeon and body mass index (BMI)|Difference is deep versus standard NMB|Primary hypothesis - deep NMB improves surgeon's overall satisfaction with the surgical conditions compared to standard NMB||2.04|0.13|0.026
92242673|NCT01728584|184388083|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.02|||<|0.001|TWO_SIDED|95.0|-3.99|-2.05|||ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is low versus standard pressure|||-2.05|-3.99|<0.001
92242674|NCT01728584|184388084|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|3.66|||||TWO_SIDED|95.0|2.3|5.02|||||Difference is standard NMB/standard pressure versus standard NMB/low pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||5.02|2.30|
92242675|NCT01728584|184388084|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.44|||||TWO_SIDED|95.0|-1.8|0.91|||||Difference is standard NMB/standard pressure versus deep NMB/standard pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||0.91|-1.80|
92242676|NCT01728584|184388084|SUPERIORITY_OR_OTHER||Difference in LS Means|1.96|||||TWO_SIDED|95.0|0.57|3.36|||||Difference is standard NMB/standard pressure versus deep NMB/low pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||3.36|0.57|
92242677|NCT01728584|184388084|SUPERIORITY_OR_OTHER||Difference in LS Means|-4.1|||||TWO_SIDED|95.0|-5.42|-2.78|||||Difference is standard NMB/low pressure versus deep NMB/standard pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||-2.78|-5.42|
92242678|NCT01728584|184388084|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.7|||||TWO_SIDED|95.0|-3.01|-0.38|||||Difference is standard NMB/low pressure versus deep NMB/low pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||-0.38|-3.01|
92281324|NCT00262600|184465718|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.93||||0.2206||95.0|0.83|1.04||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.||||1.04|0.83|0.2206
92281325|NCT00262600|184465718|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83||||0.0015||95.0|0.74|0.93||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.||||0.93|0.74|0.0015
92281326|NCT00262600|184465719|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.98||||0.7508||95.0|0.87|1.11||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.||||1.11|0.87|0.7508
92281327|NCT00262600|184465719|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.84||||0.0093||95.0|0.74|0.96||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.||||0.96|0.74|0.0093
92242679|NCT01728584|184388084|SUPERIORITY_OR_OTHER||Difference in LS Means|2.41|||||TWO_SIDED|95.0|1.08|3.74|||||Difference is deep NMB/standard pressure versus deep NMB/low pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||3.74|1.08|
92242680|NCT01728584|184388085|SUPERIORITY_OR_OTHER||Difference in LS Means|0.35||||0.148|TWO_SIDED|95.0|-0.13|0.84|||ANOVA|Analysis of variance (ANOVA) model included factors depth of NMB, level of pressure, gender and surgeon|Difference is deep versus standard NMB|||0.84|-0.13|0.148
92242681|NCT01728584|184388085|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.17||||0.494|TWO_SIDED|95.0|-0.67|0.33||To control for multiple testing, this difference was formally tested only if comparison of surgeon's overall satisfaction with surgical conditions for deep versus standard NMB was significant at the 5% level, with greater satisfaction for deep NMB.|ANOVA|ANOVA model included factors depth of NMB, level of pressure, gender and surgeon|Difference is low versus standard pressure|Key secondary hypothesis - low insufflation pressure improves overall average pain score in first 24 hours compared to standard insufflation pressure||0.33|-0.67|0.494
92242682|NCT01728584|184388086|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2|||||TWO_SIDED|95.0|-0.92|0.52|||||Difference is standard NMB/standard pressure versus standard NMB/low pressure|ANOVA model included factors treatment group, gender and surgeon||0.52|-0.92|
92242683|NCT01728584|184388086|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.65|||||TWO_SIDED|95.0|-1.27|-0.02|||||Difference is standard NMB/standard pressure versus deep NMB/standard pressure|ANOVA model included factors treatment group, gender and surgeon||-0.02|-1.27|
92281328|NCT00262600|184465720|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8||||0.0026||95.0|0.7|0.93||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using Cox regression analysis with treatment in the model.||Analysis is for adjudicated major bleeds||0.93|0.70|0.0026
92281329|NCT00262600|184465720|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.93||||0.3146||95.0|0.81|1.07||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using Cox regression analysis with treatment in the model.||Analysis is for adjudicated major bleeds||1.07|0.81|0.3146
92242684|NCT01728584|184388086|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.15|||||TWO_SIDED|95.0|-0.84|0.53|||||Difference is standard NMB/standard pressure versus deep NMB/low pressure|ANOVA model included factors treatment group, gender and surgeon||0.53|-0.84|
92242685|NCT01728584|184388086|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.45|||||TWO_SIDED|95.0|-1.15|0.26|||||Difference is standard NMB/low pressure versus deep NMB/standard pressure|ANOVA model included factors treatment group, gender and surgeon||0.26|-1.15|
92242686|NCT01728584|184388086|SUPERIORITY_OR_OTHER||Difference in LS Means|0.05|||||TWO_SIDED|95.0|-0.69|0.78|||||Difference is standard NMB/low pressure versus deep NMB/low pressure|ANOVA model included factors treatment group, gender and surgeon||0.78|-0.69|
92242687|NCT01728584|184388086|SUPERIORITY_OR_OTHER||Difference in LS Means|0.49|||||TWO_SIDED|95.0|-0.17|1.16|||||Difference is deep NMB/standard pressure versus deep NMB/low pressure|ANOVA model included factors treatment group, gender and surgeon||1.16|-0.17|
92242688|NCT01728584|184388087|SUPERIORITY_OR_OTHER||Difference in LS Means|0.91||||0.063|TWO_SIDED|95.0|-0.05|1.87||Not controlled for multiple testing|ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is deep versus standard NMB|||1.87|-0.05|0.063
92242689|NCT01728584|184388088|SUPERIORITY_OR_OTHER||Difference in LS Means|0.82||||0.004|TWO_SIDED|95.0|0.27|1.37||Not controlled for multiple testing|ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is deep versus standard NMB|||1.37|0.27|0.004
92281330|NCT00262600|184465721|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.3|||<|0.0001||95.0|0.19|0.45||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using Cox regression analysis with treatment in the model.||Analysis of ICH||0.45|0.19|<0.0001
92281331|NCT00262600|184465721|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.41|||<|0.0001||95.0|0.28|0.6||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using Cox regression analysis with treatment in the model.||Analysis of ICH||0.60|0.28|<0.0001
92281332|NCT04908748|184465735|SUPERIORITY||Least squares mean difference|-29.1|||<|0.0001|TWO_SIDED|95.0|-32.2|-26.0|||ANCOVA|||||-26.0|-32.2|< 0.0001
92455882|NCT01106833|184801002|SUPERIORITY|||||||0.14||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median change in prednisone dose from baseline to 1 year post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.140
92281333|NCT00721409|184465801|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.488||||0.0004|TWO_SIDED|95.0|0.319|0.748||1-sided p-value from the log-rank test stratified by stratification factors per randomization and Part.|Log Rank|||The primary hypothesis to be tested was H0: λ=1 versus. HA: λ\<1, where λ was the palbociclib plus letrozole:letrozole alone hazard ratio (HR). A HR less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Letrozole. Stratified analysis was presented above.||0.748|0.319|0.0004
92281334|NCT00721409|184465801|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.299|||<|0.0001|TWO_SIDED|95.0|0.156|0.572||1-sided p-value from the log-rank test.|Log Rank|||The primary hypothesis to be tested was H0: λ=1 versus. HA: λ\<1, where λ was the palbociclib plus letrozole:letrozole alone hazard ratio (HR). A HR less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Letrozole. Unstratified analysis was presented above.||0.572|0.156|<0.0001
92281335|NCT00721409|184465801|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.508||||0.0046|TWO_SIDED|95.0|0.303|0.853||1-sided p-value from the log-rank test.|Log Rank|||The primary hypothesis to be tested was H0: λ=1 versus. HA: λ\<1, where λ was the palbociclib plus letrozole:letrozole alone hazard ratio (HR). A HR less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Letrozole. Unstratified analysis was presented above.||0.853|0.303|0.0046
92281336|NCT00721409|184465814|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.897||||0.2812|TWO_SIDED|95.0|0.623|1.294||1-sided p-value from the log-rank test stratified by Part (α = 0.10).|Log Rank|||Stratified analysis was presented above. Hazard ratio was assuming proportional hazards, a hazard ratio less than 1 indicated a reduction in hazard rate in favor of palbociclib + letrozole.||1.294|0.623|0.2812
92455883|NCT01106833|184801003|SUPERIORITY|||||||0.582||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median serum creatinine level at baseline is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.582
92455884|NCT01106833|184801003|SUPERIORITY|||||||0.208||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median serum creatinine level at 6 months post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.208
92242690|NCT01728584|184388089|SUPERIORITY_OR_OTHER||Difference in LS Means|1.12||||0.006|TWO_SIDED|95.0|0.32|1.92||Not controlled for multiple testing|ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is deep versus standard NMB|||1.92|0.32|0.006
92281337|NCT00721409|184465814|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.837||||0.2803|TWO_SIDED|95.0|0.458|1.527||1-sided p-value from the unstratified log-rank test (α=0.10).|Log Rank|||Unstratified analysis was presented above.||1.527|0.458|0.2803
92242691|NCT01728584|184388090|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.61||||0.073|TWO_SIDED|95.0|-1.27|0.06||Not controlled for multiple testing|ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is deep versus standard NMB|||0.06|-1.27|0.073
92242692|NCT01728584|184388091|SUPERIORITY_OR_OTHER||Difference in LS Means|0.74||||0.009|TWO_SIDED|95.0|0.19|1.28||Not controlled for multiple testing|ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is deep versus standard NMB|||1.28|0.19|0.009
92242693|NCT04322994|184388154|OTHER|||||||0.18||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|Chi-squared test of independence||Analysis of between-group difference for participants with any desaturation event.||||0.18
92455885|NCT01106833|184801003|SUPERIORITY|||||||0.431||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median serum creatinine level at 1 year post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.431
92455886|NCT01106833|184801004|SUPERIORITY|||||||0.147||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median change in serum creatinine level from baseline to 6 months post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.147
92455887|NCT01106833|184801004|SUPERIORITY|||||||0.863||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median change in serum creatinine level from baseline to 1 year post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.863
92455888|NCT01106833|184801005|SUPERIORITY|||||||0.62||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the patient-reported severity and vital status categories considered at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.620
92455889|NCT01106833|184801005|SUPERIORITY|||||||0.258||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the patient-reported severity and vital status categories considered at 6 months post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.258
92455890|NCT01106833|184801005|SUPERIORITY|||||||0.036||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the patient-reported severity and vital status categories considered at 1 year post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.036
92455891|NCT01106833|184801005|SUPERIORITY|||||||0.369||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the patient-reported severity and vital status categories considered at 2 years post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.369
92455892|NCT01106833|184801006|SUPERIORITY|||||||0.45||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the provider-reported severity and vital status categories considered at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.450
92455893|NCT01106833|184801006|SUPERIORITY|||||||0.301||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the provider-reported severity and vital status categories considered at 6 months post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.301
92455894|NCT01106833|184801006|SUPERIORITY|||||||0.75||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the provider-reported severity and vital status categories considered at 1 year post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.750
92455895|NCT01106833|184801006|SUPERIORITY|||||||0.444||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the provider-reported severity and vital status categories considered at 2 years post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.444
92455896|NCT01106833|184801007|SUPERIORITY|||||||0.238||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the NIH Consensus Criteria severity and vital status categories considered at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.238
92455897|NCT01106833|184801007|SUPERIORITY|||||||0.546||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the NIH Consensus Criteria severity and vital status categories considered at 6 months post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.546
92455898|NCT01106833|184801007|SUPERIORITY|||||||0.756||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the NIH Consensus Criteria severity and vital status categories considered at 1 year post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.756
92455899|NCT01106833|184801007|SUPERIORITY|||||||0.554||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the NIH Consensus Criteria severity and vital status categories considered at 2 years post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.554
92455900|NCT01106833|184801008|SUPERIORITY|||||||0.685||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean PCS scores at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.685
92455901|NCT01106833|184801008|SUPERIORITY|||||||0.105||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean PCS scores at 2 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.105
92281338|NCT00721409|184465814|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.935||||0.3875|TWO_SIDED|95.0|0.59|1.48||1-sided p-value from the unstratified log-rank test (α=0.10).|Log Rank|||Unstratified analysis was presented above.||1.480|0.590|0.3875
92242694|NCT04322994|184388154|OTHER|||||||0.26||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|Chi-squared test of independence||Analysis of between-group difference for participants with 1 desaturation event versus 2 or more events.||||0.26
92455902|NCT01106833|184801008|SUPERIORITY|||||||0.039||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean PCS scores at 6 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.039
92242695|NCT04322994|184388155|OTHER|||||||0.26||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|Chi-squared test of independence||Analysis of between-group difference for participants with at any qualifying desaturation event.||||0.26
92455903|NCT01106833|184801008|SUPERIORITY|||||||0.278||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean PCS scores at 1 year are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.278
92455904|NCT01106833|184801008|SUPERIORITY|||||||0.804||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean PCS scores at 2 years are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.804
92455905|NCT01106833|184801009|SUPERIORITY|||||||0.631||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean MCS scores at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.631
92455906|NCT01106833|184801009|SUPERIORITY|||||||0.759||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean MCS scores at 2 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.759
92455907|NCT01106833|184801009|SUPERIORITY|||||||0.391||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean MCS scores at 6 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.391
92455908|NCT01106833|184801009|SUPERIORITY|||||||0.222||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean MCS scores at 1 year are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.222
92242696|NCT04322994|184388155|OTHER|||||||0.08||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|Chi-squared test of independence||Analysis of between-group difference for participants with 1 qualifying desaturation event versus 2 or more qualifying events.||||0.08
92242697|NCT04322994|184388156|OTHER|||||||0.28|||||||Chi-squared|||Analysis of between-group difference for participants with any qualifying event.||||0.28
92287230|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|-0.027||||0.493|TWO_SIDED|95.0|-0.104|0.051|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.051|-0.104|0.493
92455909|NCT01106833|184801009|SUPERIORITY|||||||0.527||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean MCS scores at 2 years are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.527
92242698|NCT04322994|184388156|OTHER|||||||0.38||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|||Analysis of between-group difference for participants with 1 qualifying event versus 2 or more events.||||0.38
92242699|NCT04322994|184388157|OTHER|||||||0.88||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Analysis of between-group difference for participants with at any qualifying desaturation event.||||0.88
92242700|NCT04322994|184388158|OTHER|||||||0.14||||||The a priori threshold for statistical significance was 0.05.|Chi-squared, Corrected|Chi-squared test of independence||Analysis of between-group difference for participants with any surgical interruption.||||0.14
92242701|NCT04322994|184388158|OTHER|||||||0.21||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|Chi-squared test of independence||Analysis of between-group difference for participants with 1 surgical interruption versus 2 or more interruptions.||||0.21
92242702|NCT02336594|184388167|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the Pharmacokinetics (PK), Pharmacodynamics (PD), and safety profile of RDEA3170.|Geometric Least Squares Mean Ratio (%)|107.0|||||TWO_SIDED|90.0|95.2|120.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||120|95.2|
92242703|NCT02336594|184388169|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|97.3|||||TWO_SIDED|90.0|85.6|111.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||111|85.6|
92242704|NCT02336594|184388170|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|100.0|||||TWO_SIDED|90.0|87.3|115.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||115|87.3|
92242705|NCT02336594|184388172|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|182.0|||||TWO_SIDED|90.0|144.0|230.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||230|144|
92242706|NCT02336594|184388173|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|140.0|||||TWO_SIDED|90.0|121.0|163.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||163|121|
92242707|NCT02336594|184388174|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|134.0|||||TWO_SIDED|90.0|114.0|156.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||156|114|
92242708|NCT02336594|184388175|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|79.1|||||TWO_SIDED|90.0|66.4|94.2|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||94.2|66.4|
92455910|NCT01106833|184801010|SUPERIORITY|||||||0.763||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean FACT-BMT scores at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.763
92455911|NCT01106833|184801010|SUPERIORITY|||||||0.133||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean FACT-BMT scores at 2 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.133
92455912|NCT01106833|184801010|SUPERIORITY|||||||0.953||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean FACT-BMT scores at 6 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.953
92455913|NCT01106833|184801010|SUPERIORITY|||||||0.398||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean FACT-BMT scores at 1 year are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.398
92242709|NCT02336594|184388176|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|85.5|||||TWO_SIDED|90.0|73.9|98.8|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||98.8|73.9|
92455914|NCT01106833|184801010|SUPERIORITY|||||||0.309||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean FACT-BMT scores at 2 years are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.309
92242710|NCT02336594|184388177|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|83.4|||||TWO_SIDED|90.0|73.5|94.7|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||94.7|73.5|
92242711|NCT02403830|184388186|SUPERIORITY||Mean Difference (Final Values)|-32.0||||0.261|TWO_SIDED|95.0|-90.0|25.0|||Mixed Models Analysis|||||25|-90|0.261
92455915|NCT00886340|184801012|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||controlled for site, income, race/ethnicity|Mixed Models Analysis|||pilot test, used 20% of sample required for a full test of the hypothesis||||0.08
92455916|NCT02985866|184801016|SUPERIORITY|The first co-primary end point was superiority of CLC over SAP in terms of CGM-measured time below 70 mg/dL. The treatment groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect. Missing baseline data were handled by direct likelihood method. Model residuals were confirmed to be approximately normally distributed.|||||<|0.0001||||||To address the issue of multiple comparisons with 2 primary outcomes, the intervention was considered effective only if both co-primary outcomes were statistically significant at 5% level. P value for noninferiority NI (prespecified NI limit = 5%).|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Statistical analyses were performed on an intention-to-treat basis, and all participants with any amount of post randomization data were included in all analyses.||||<0.0001
92455917|NCT02985866|184801017|NON_INFERIORITY|The second co-primary end point was noninferiority in CGM-measured time above 180 mg/dL, with a noninferiority limit of 5%. The treatment groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect. Missing baseline data were handled by direct likelihood method. Model residuals were confirmed to be approximately normally distributed.|||||<|0.0001||||||To address the issue of multiple comparisons with 2 primary outcomes, the intervention was considered effective only if both co-primary outcomes were statistically significant at 5% level. P value for noninferiority NI (prespecified NI limit = 5%).|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Statistical analyses were performed on an intention-to-treat basis, and all participants with any amount of post randomization data were included in all analyses.||||<0.0001
92455918|NCT02985866|184801018|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
92455919|NCT02985866|184801019|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
92455920|NCT02985866|184801020|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
92455921|NCT02985866|184801021|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
92455922|NCT02985866|184801022|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
92455923|NCT02985866|184801023|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
92455924|NCT02985866|184801024|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
92455925|NCT04953390|184801036|OTHER|||||||0.004|||||||ANOVA|||||||0.004
92455926|NCT04953390|184801037|OTHER|||||||0.029|||||||ANOVA|||||||.029
92455927|NCT04953390|184801038|OTHER|||||||0.0002|||||||ANOVA|||||||0.0002
92242712|NCT01954251|184388212|NON_INFERIORITY_OR_EQUIVALENCE|Comparison at one month after the last dose of HZ/su was performed between the Control group and GSK1437173A + GSK2321138A group. The GSK1437173A + GSK2321138A group was considered as statistically significant non-inferior compared to the Control group in terms of immunogenicity if the UL of the 2-sided 95% CI of the ratio of GMs between the Control and the Co-Ad group (Control over GSK1437173A + GSK2321138A) was below 1.5.|Adjusted Geometric mean concentration ra|1.08|||||TWO_SIDED|95.0|0.97|1.2||||||Adjusted ratios of Control group over GSK1437173A + GSK2321138A group in anti-gE antibody ELISA concentrations GMCs at one month after last vaccine dose. An Analysis of Covariance (ANCOVA) model was used to analyse post-vaccination log-transformed concentrations of anti-gE. The fixed-effect model included the minimisation variable (age cohorts) and the treatment as fixed effect. The pre-vaccination log-transformed concentrations were included as continuous covariate.||1.20|0.97|
92242713|NCT01954251|184388213|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons at Day 21 after the FLU-D-QIV dose were performed between the Control group and GSK1437173A + GSK2321138A group. The GSK1437173A + GSK2321138A group was considered as statistically significant non inferior compared to the Control group in terms of immunogenicity (for each strain) if the UL of 2-sided 95% CI of the ratio of GMTs between the Control and the GSK1437173A + GSK2321138A (Control/ GSK1437173A + GSK2321138A) group is below 1.5.|Adjusted geometric mean Titer ratio|1.04|||||TWO_SIDED|95.0|0.88|1.22||||||For the Flu A/California/7/2009 H1N1 strain ,an ANOVA model was used to analyze post-vaccination log-transformed titers. The fixed-effect model included the minimization variable (age cohorts) and the treatment as fixed effect. The pre-vaccination log-transformed concentrations were included as continuous covariate. GMs of post-vaccination titers (Day 21) were calculated conditionally to the means of the pre-vaccination log-transformed titers (Month 0) for this strain.||1.22|0.88|
92242714|NCT01954251|184388213|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons at Day 21 after the FLU-D-QIV dose were performed between the Control group and GSK1437173A + GSK2321138A group. The GSK1437173A + GSK2321138A group was considered as statistically significant non inferior compared to the Control group in terms of immunogenicity (for each strain) if the UL of 2-sided 95% CI of the ratio of GMTs between the Control and the GSK1437173A + GSK2321138A (Control/ GSK1437173A + GSK2321138A) group is below 1.5.|Adjusted geometric mean Titer ratio|1.03|||||TWO_SIDED|95.0|0.91|1.17||||||For the Flu A/Texas/50/2012 H3N2 strain ,an ANOVA model was used to analyze post-vaccination log-transformed titers. The fixed-effect model included the minimization variable (age cohorts) and the treatment as fixed effect. The pre-vaccination log-transformed concentrations were included as continuous covariate. GMs of post-vaccination titers (Day 21) were calculated conditionally to the means of the pre-vaccination log-transformed titers (Month 0) for this strain.||1.17|0.91|
92242715|NCT01954251|184388213|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons at Day 21 after the FLU-D-QIV dose were performed between the Control group and GSK1437173A + GSK2321138A group. The GSK1437173A + GSK2321138A group was considered as statistically significant non inferior compared to the Control group in terms of immunogenicity (for each strain) if the UL of 2-sided 95% CI of the ratio of GMTs between the Control and the GSK1437173A + GSK2321138A (Control/ GSK1437173A + GSK2321138A) group is below 1.5.|Adjusted geometric mean Titer ratio|1.07|||||TWO_SIDED|95.0|0.95|1.2||||||For the Flu B/Brisbane/60/2008 Victoria strain ,an ANOVA model was used to analyze post-vaccination log-transformed titers. The fixed-effect model included the minimization variable (age cohorts) and the treatment as fixed effect. The pre-vaccination log-transformed concentrations were included as continuous covariate. GMs of post-vaccination titers (Day 21) were calculated conditionally to the means of the pre-vaccination log-transformed titers (Month 0) for this strain.||1.20|0.95|
92242716|NCT01954251|184388213|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons at Day 21 after the FLU-D-QIV dose were performed between the Control group and GSK1437173A + GSK2321138A group. The GSK1437173A + GSK2321138A group was considered as statistically significant non inferior compared to the Control group in terms of immunogenicity (for each strain) if the UL of 2-sided 95% CI of the ratio of GMTs between the Control and the GSK1437173A + GSK2321138A (Control/ GSK1437173A + GSK2321138A) group is below 1.5.|Adjusted geometric mean Titer ratio|0.98|||||TWO_SIDED|95.0|0.88|1.09||||||For the Flu B/Massachusetts/2/2012 Yamagata strain ,an ANOVA model was used to analyze post-vaccination log-transformed titers. The fixed-effect model included the minimization variable (age cohorts) and the treatment as fixed effect. The pre-vaccination log-transformed concentrations were included as continuous covariate. GMs of post-vaccination titers (Day 21) were calculated conditionally to the means of the pre-vaccination log-transformed titers (Month 0) for this strain.||1.09|0.88|
92242717|NCT04804033|184388227|OTHER||Difference in least square mean (LSM)|-1.4|||||TWO_SIDED|97.5|-2.72|-0.12|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||-0.12|-2.72|
92281339|NCT00721409|184465815|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.5||||0.1347|TWO_SIDED|95.0|0.76|2.97||1-sided p-value is from the stratified exact test (1-sided, α =0.10)|Cochran-Mantel-Haenszel|||Objective Response CI was calculated using the exact Clopper-Pearson method. The stratified analysis presented above was based on CMH test stratified by Part. An Odds Ratio \>1 means better response in favor of palbociclib + letrozole arm.||2.97|0.76|0.1347
92281340|NCT00721409|184465815|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.37||||0.0849|TWO_SIDED|95.0|0.74|7.84||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||7.84|0.74|0.0849
92455928|NCT04953390|184801039|OTHER|||||||0.14|||||||t-test, 2 sided|T-test done on DIR2 and DIR3 results only, as the conditions were equal for these two settings. DIR1 was tested in a different condition.||All three DIR settings were tested, but only the DIR2 and DIR3 were compared in t-test. This is because DIR1 mic setting was tested in a different condition (i.e. softer noise).||||.14
92455929|NCT04953390|184801042|OTHER|||||||0.0003|||||||ANOVA|||||||.0003
92455930|NCT03035292|184801046|SUPERIORITY||||||<|0.05||||||This value of \<0.05 is the calculated p value where the a priori threshold for statistical significance is considered to be p=0.05.|McNemar|||Sample size was based on a cataract prevalence of 20% in the enriched population and a predicted difference of 15% sensitivity and specificity between tests.||||<0.05
92455931|NCT03035292|184801048|SUPERIORITY||||||<|0.05||||||The calculated p value was \<0.05. A priori threshold for statistical significance is p=0.05|Fisher Exact|||Evidence of superiority of intervention 2 over intervention 1 requires a significant difference in specificity of the intervention 1 and 2 between ethnicity groups.||||<0.05
92455932|NCT02184611|184801049|OTHER||Least square mean difference|0.154|||<|0.001|TWO_SIDED|95.0|0.113|0.194||Analysis was performed using a MMRM model with covariates of treatment, Baseline, smoking status, country, Day, Day by Baseline and Day by treatment interactions.|Mixed Models Repeated Measures (MMRM)|||UMEC versus Placebo.||0.194|0.113|<0.001
92455933|NCT02184611|184801050|OTHER||Least square Mean difference|0.9||||0.004|TWO_SIDED|95.0|0.3|1.5||Analysis performed using a MMRM model with covariates of treatment, BDI focal score, smoking status, country, Day, Day by BDI focal score and Day by treatment interactions.|MMRM|||UMEC versus Placebo.||1.5|0.3|0.004
92455934|NCT02184611|184801051|OTHER||Least square Mean difference|0.125|||<|0.001|TWO_SIDED|95.0|0.103|0.147||Analysis performed using an analysis of covariance (ANCOVA) model with covariates of treatment, baseline (mean of the two assessments made 30 min and 5 min pre-dose on Day 1), smoking status and country.|ANCOVA|||UMEC versus Placebo.||0.147|0.103|<0.001
92455935|NCT02184611|184801060|OTHER||Least sqaure mean difference|-4.39||||0.002|TWO_SIDED|95.0|-7.21|-1.58||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 28, UMEC Vs Placebo.||-1.58|-7.21|0.002
92455936|NCT02184611|184801060|OTHER||Least square mean difference|-4.59||||0.003|TWO_SIDED|95.0|-7.61|-1.57||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 84, UMEC Vs Placebo.||-1.57|-7.61|0.003
92455937|NCT02184611|184801060|OTHER||Least sqaure mean difference|-3.03||||0.058|TWO_SIDED|95.0|-6.15|0.1||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 168, UMEC Vs Placebo.||0.10|-6.15|0.058
92242718|NCT04804033|184388227|OTHER||Difference in LSM|-0.7|||||TWO_SIDED|97.5|-2.07|0.69|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||0.69|-2.07|
92455938|NCT02184611|184801061|OTHER||Least sqaure mean difference|-1.49||||0.027|TWO_SIDED|95.0|-2.81|-0.17||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 28, UMEC Vs Placebo.||-0.17|-2.81|0.027
92455939|NCT02184611|184801061|OTHER||Least square mean difference|-2.1||||0.004|TWO_SIDED|95.0|-3.51|-0.68||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 84, UMEC Vs Placebo.||-0.68|-3.51|0.004
92455940|NCT02184611|184801061|OTHER||Least square mean difference|-0.68||||0.386|TWO_SIDED|95.0|-2.22|0.86||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 128, UMEC Vs Placebo.||0.86|-2.22|0.386
92455941|NCT05159622|184801079|EQUIVALENCE|A net effect of 6 fluid oz/day (SD=1) was hypothesized among adult parents, assuming two sided alpha=0.05, power = 80%, and a minimum sample size of 60 adults.|Median Difference (Final Values)|3.2||||0.15|TWO_SIDED|||||The a priori threshold for statistical significance is \<0.05. P-value of the interaction between treatment group and change in beverage consumption (fl oz/day).|t-test, 2 sided|||||||0.15
92242719|NCT04804033|184388228|OTHER||Difference in percentage|16.6|||||TWO_SIDED|97.5|4.4|28.8|||||Stratified by randomization stratum using Mantel-Haenszel risk estimation.|||28.8|4.4|
92242720|NCT04804033|184388228|OTHER||Difference in percentage|6.6|||||TWO_SIDED|97.5|-5.6|18.9|||||Stratified by randomization stratum using Mantel-Haenszel risk estimation.|||18.9|-5.6|
92455942|NCT05159622|184801080|EQUIVALENCE|This was an exploratory outcome.|Median Difference (Final Values)|0.07||||0.98|TWO_SIDED||||||t-test, 2 sided|||||||0.98
92455943|NCT05159622|184801081|EQUIVALENCE|This was an exploratory outcome and therefore statistical power was not based on a hypothesis of this outcome.|Median Difference (Final Values)|0.64||||0.36|TWO_SIDED||||||t-test, 2 sided|||||||0.36
92455944|NCT05159622|184801082|EQUIVALENCE|Exploratory outcome as for infants/toddlers based on parent-report|Median Difference (Final Values)|0.14||||0.92|TWO_SIDED||||||t-test, 2 sided|||||||0.92
92455945|NCT05159622|184801083|EQUIVALENCE|Exploratory outcome|Median Difference (Final Values)|0.95||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
92455946|NCT03232983|184801092|SUPERIORITY||Ratio of Geometric Least Squares Means|1.03|||||TWO_SIDED|90.0|0.992|1.07|||Mixed Models Analysis|||Geometric Least Squares Means (LSMeans) were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.07|0.992|
92455947|NCT03232983|184801092|SUPERIORITY||Ratio of Geometric Least Squares Means|1.0|||||TWO_SIDED|90.0|0.962|1.04|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.04|0.962|
92455948|NCT03232983|184801093|SUPERIORITY||Ratio of Geometric LSMeans|1.09|||||TWO_SIDED|90.0|1.0|1.2|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.20|1.00|
92455949|NCT03232983|184801093|SUPERIORITY||Ratio of Geometric LSMeans|1.14|||||TWO_SIDED|90.0|1.04|1.25|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.25|1.04|
92455950|NCT00483184|184801131|SUPERIORITY_OR_OTHER|||||||0.404||95.0|||||ANOVA|||Results were expressed as mean or number. Normal distributed data among the treatment groups were compared by One-way ANOVA test, non-normal distributed data were compared by Kruskal Wallis test, and then Bonferroni post-hoc test was used for multiple comparisons. Differences from baseline within treatment groups were evaluated by repeated measures ANOVA test for normal distributed data, Freidman test for non-normal distributed data.||||0.404
92455951|NCT01992380|184801133|OTHER||ICC|0.971|||||TWO_SIDED|95.0|0.935|0.988|||||Assessed the agreement between the test and retest imaging of the combination VOI SUVr|Intraclass correlation coefficient \[ICC(2,1)\] analysis from Shrout and Fleiss||0.988|0.935|
92455952|NCT01992380|184801134|OTHER||ICC|0.968|||||TWO_SIDED|95.0|0.926|0.986|||||Assessed the agreement between the test and retest imaging of the combination VOI SUVr|Intraclass correlation coefficient \[ICC(2,1)\] analysis from Shrout and Fleiss||0.986|0.926|
92455953|NCT02071173|184801142|SUPERIORITY|Single group test comparison to a performance goal of 87%. Lower one-sided 97.5% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|98.5|||||ONE_SIDED|97.5|97.0|||||||Ho: The Implant through 6-month lead-related complication-free rate ≤ 87%, Ha: The Implant through 6-month lead-related complication-free rate \> 87%|||97.0|
92173843|NCT05260684|184239185|OTHER||Hazard Ratio (HR)|1.2||||0.4|TWO_SIDED|95.0|0.79|1.82|||Wald Chi- Square Statistic||HR was estimated using multivariable Cox proportional hazard models.|Statistical analysis data is presented for Vemurafenib + Cobimetinib relative to Encorafenib+Binimetinib (reference).||1.82|0.79|0.40
92455954|NCT02071173|184801143|SUPERIORITY|Single group test comparison to a performance goal of 85%. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|96.5|||||ONE_SIDED|95.0|93.8|||||||Ho: The Implant through 6-month lead-related complication-free rate ≤ 85%, Ha: The Implant through 6-month lead-related complication-free rate \> 85%|||93.8|
92455955|NCT02071173|184801144|SUPERIORITY|Single group test comparison to a performance goal of 75%. Lower one-sided 97.5% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|94.0|||||ONE_SIDED|97.5|92.0|||||||Ho: Percentage of PCT less than or equal to 2.5V ≤ 75%, Ha: Percentage of PCT less than or equal to 2.5V \> 75%|||92.0|
92455956|NCT02071173|184801145|SUPERIORITY|Single group test comparison to a performance goal of 75%. Lower one-sided 97.5% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|91.1|||||ONE_SIDED|97.5|88.2|||||||Ho: Percentage of PCT less than or equal to 2.5V ≤ 75%, Ha: Percentage of PCT less than or equal to 2.5V \> 75%|||88.2|
92455957|NCT02071173|184801146|SUPERIORITY|Single group test comparison to a performance goal of 93%. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|98.2|||||ONE_SIDED|95.0|97.5|||||||Ho: The Implant through 3-month lead-related complication-free rate ≤ 93%, Ha: The Implant through 3-month lead-related complication-free rate \> 93%|||97.5|
92455958|NCT02071173|184801147|SUPERIORITY|Single group test comparison to a performance goal of 94%. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|99.3|||||ONE_SIDED|95.0|98.8|||||||Ho: The 3- through 24-month lead-related complication-free rate ≤ 94%, Ha: The 3- through 24-month lead-related complication-free rate \> 94%|||98.8|
92182973|NCT02434328|184264731|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-3.6|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.5|-3.6|
92455959|NCT02071173|184801148|SUPERIORITY|Single group test comparison to a performance goal of 1.5 Volts. Upper one-sided 95% confidence limit was compared to the performance goal. If upper confidence limit was lower than the performance goal, null hypothesis was rejected.|Mean|0.56|||||ONE_SIDED|95.0||0.58||||||Ho: The 3-month mean PCT ≥ 1.5 Volts, Ha: The 3-month mean PCT \< 1.5 Volts||0.58||
92455960|NCT02071173|184801149|SUPERIORITY|Single group test comparison to a performance goal of 3 mV. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Mean|17.4|||||ONE_SIDED|95.0|16.7|||||||Ho: The 3-month mean sensed amplitude ≤ 3 mV, Ha: The 3-month mean sensed amplitude \> 3 mV|||16.7|
92173844|NCT00999804|184239203|SUPERIORITY_OR_OTHER_LEGACY||proportion of pCR|0.25|||||TWO_SIDED||||||||No comparison is required between the 24 weeks arm and 12 weeks arm. The study is designed as the 24 weeks arm ran as a single arm, using an admissible Simon-like two-stage design and required 20 or more responses in the first 55 evaluable patients.|"The study was planned to enroll 136 patients if the original cohort (n=90) was deemed successful. The 24 weeks arm ran as a single arm, using an admissible Simon-like two-stage design. The 12 weeks arm accrued as long as the 24 weeks arm is open.~The analysis of the first cohort indicated that 15 pCR were observed , which did not meet the required 20 or more responses. The accrual was closed early and the study has a total of 128 participants."||||
92242721|NCT04804033|184388229|OTHER||Difference in LSM|-1.0|||||TWO_SIDED|97.5|-2.68|0.58|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||0.58|-2.68|
92242722|NCT04804033|184388229|OTHER||Difference in LSM|-0.4|||||TWO_SIDED|97.5|-2.1|1.31|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||1.31|-2.10|
92281341|NCT00721409|184465815|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.14||||0.4515|TWO_SIDED|95.0|0.48|2.76||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||2.76|0.48|0.4515
92242723|NCT04804033|184388230|OTHER||Difference in LSM|-1.8|||||TWO_SIDED|97.5|-3.16|-0.42|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||-0.42|-3.16|
92242724|NCT04804033|184388230|OTHER||Difference in LSM|-1.2|||||TWO_SIDED|97.5|-2.53|0.22|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||0.22|-2.53|
92242725|NCT04804033|184388231|OTHER||Difference in LSM|-0.8|||||TWO_SIDED|97.5|-1.59|0.05|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||0.05|-1.59|
92242726|NCT04804033|184388231|OTHER||Difference in LSM|-0.2|||||TWO_SIDED|97.5|-1.06|0.74|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||0.74|-1.06|
92242727|NCT04804033|184388232|OTHER||Difference in LSM|3.9|||||TWO_SIDED|97.5|-1.5|9.39|||||Linear regression model had the following variables: Week 12 change from baseline in domain score as the dependent variable; baseline domain score as a covariate; treatment group and randomization stratum as fixed effects.|||9.39|-1.50|
92242728|NCT04804033|184388232|OTHER||Difference in LSM|0.1|||||TWO_SIDED|97.5|-5.66|5.86|||||Linear regression model had the following variables: Week 12 change from baseline in domain score as the dependent variable; baseline domain score as a covariate; treatment group and randomization stratum as fixed effects.|||5.86|-5.66|
92455961|NCT02071173|184801150|SUPERIORITY|Single group test comparison to a performance goal of 3 mV. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Mean|16.1|||||ONE_SIDED|97.5|15.1|||||||Ho: The 3-month mean sensed amplitude ≤ 3 mV, Ha: The 3-month mean sensed amplitude \> 3 mV|||15.1|
92242729|NCT04804033|184388233|OTHER||Difference in LSM|-9.0|||||TWO_SIDED|97.5|-18.1|0.19|||||Linear regression model had the following variables: Week 12 change from baseline in domain score as the dependent variable; baseline domain score as a covariate; treatment group and randomization stratum as fixed effects.|||0.19|-18.10|
92242730|NCT04804033|184388233|OTHER||Difference in LSM|-9.3|||||TWO_SIDED|97.5|-18.95|0.41|||||Linear regression model had the following variables: Week 12 change from baseline in domain score as the dependent variable; baseline domain score as a covariate; treatment group and randomization stratum as fixed effects.|||0.41|-18.95|
92242731|NCT02702193|184388257|SUPERIORITY||Slope|-0.24|STANDARD_ERROR_OF_MEAN|0.11|<|0.05|TWO_SIDED|95.0|||||Generalized Estimating Equations (GEE)|GEE allowed the examination of trajectories from baseline through the 12 month follow-up.||To determine sample size for the grant proposal we conducted simulation studies in Mplus (Muthén \& Muthén, 2010) following the procedure described by Muthén and Muthén (2002). Each simulation created 10,000 datasets, assuming a medium-size (d = .5) intervention effect, and attrition of 10% at each assessment. For α= .05, the power estimate was at or above 80% with a sample of 172 mothers.||||<.05
92242732|NCT02439281|184388278|OTHER|||||||0.451|||||||Wilcoxon (Mann-Whitney)|||||||0.4510
92242733|NCT02439281|184388279|OTHER|||||||0.8914|||||||Wilcoxon (Mann-Whitney)|||||||0.8914
92455962|NCT02071173|184801151|SUPERIORITY|Single group test comparison to a performance goal of 300 ohms. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Mean|776.0|||||ONE_SIDED|97.5|753.0|||||||Ho: The 3-month mean pacing impedance ≤ 300 ohms, Ha: The 3-month mean pacing impedance \> 300 ohms|||753|
92455963|NCT02071173|184801152|SUPERIORITY|Single group test comparison to a performance goal of 300 ohms. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Mean|805.0|||||ONE_SIDED|97.5|763.0|||||||Ho: The 3-month mean pacing impedance ≤ 300 ohms, Ha: The 3-month mean pacing impedance \> 300 ohms|||763|
92455964|NCT02071173|184801153|SUPERIORITY|Single group test comparison to a performance goal of 4.5 seconds. Upper one-sided 95% confidence limit was compared to the performance goal. If upper confidence limit was lower than the performance goal, null hypothesis was rejected.|Mean|3.14|||||ONE_SIDED|95.0||3.2||||||Ho: The mean detection time ≥ 4.5 seconds, Ha: The mean detection time \< 4.5 seconds||3.20||
92242734|NCT02439281|184388282|OTHER|||||||0.9531|||||||Wilcoxon (Mann-Whitney)|||||||0.9531
92242735|NCT02439281|184388283|OTHER|||||||0.778|||||||Wilcoxon (Mann-Whitney)|||||||0.7780
92242736|NCT02439281|184388284|OTHER|||||||0.5692|||||||Wilcoxon (Mann-Whitney)|||||||0.5692
92242737|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|1.8|||||TWO_SIDED|90.0|-0.4|4.1||||||1 hour postdose||4.1|-0.4|
92242738|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|2.7|||||TWO_SIDED|90.0|0.4|4.9||||||1.5 hours postdose||4.9|0.4|
92242739|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|2.1|||||TWO_SIDED|90.0|-0.1|4.4||||||2 hours postdose||4.4|-0.1|
92242740|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|-0.5|||||TWO_SIDED|90.0|-2.8|1.7||||||3 hours postdose||1.7|-2.8|
92242741|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|-4.1|||||TWO_SIDED|90.0|-6.3|-1.8||||||4 hours postdose||-1.8|-6.3|
92242742|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|-3.5|||||TWO_SIDED|90.0|-5.7|-1.2||||||6 hours postdose||-1.2|-5.7|
92242743|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|-4.9|||||TWO_SIDED|90.0|-7.1|-2.6||||||12 hours postdose||-2.6|-7.1|
92242744|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|-0.9|||||TWO_SIDED|90.0|-3.1|1.4||||||24 hours postdose||1.4|-3.1|
92242745|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|0.9|||||TWO_SIDED|90.0|-1.4|3.1||||||1 hour postdose||3.1|-1.4|
92242746|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|2.0|||||TWO_SIDED|90.0|-0.2|4.2||||||1.5 hours postdose||4.2|-0.2|
92242747|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|0.9|||||TWO_SIDED|90.0|-1.4|3.1||||||2 hours postdose||3.1|-1.4|
92242748|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|-1.6|||||TWO_SIDED|90.0|-3.8|0.7||||||3 hours postdose||0.7|-3.8|
92242749|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|-3.7|||||TWO_SIDED|90.0|-5.9|-1.5||||||4 hours postdose||-1.5|-5.9|
92242750|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|-2.3|||||TWO_SIDED|90.0|-4.6|-0.1||||||6 hours postdose||-0.1|-4.6|
92242751|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|-5.1|||||TWO_SIDED|90.0|-7.3|-2.8||||||12 hours postdose||-2.8|-7.3|
92242752|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|-0.2|||||TWO_SIDED|90.0|-2.4|2.1||||||24 hours postdose||2.1|-2.4|
92242753|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|10.8|||||TWO_SIDED|98.0|7.6|14.0||||||1 hour postdose||14.0|7.6|
92242754|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|10.2|||||TWO_SIDED|98.0|7.0|13.4||||||1.5 hours postdose||13.4|7.0|
92242755|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|11.2|||||TWO_SIDED|98.0|8.0|14.4||||||2 hours postdose||14.4|8.0|
92242756|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|11.5|||||TWO_SIDED|98.0|8.3|14.7||||||3 hours postdose||14.7|8.3|
92242757|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|9.7|||||TWO_SIDED|98.0|6.5|12.8||||||4 hours postdose||12.8|6.5|
92242758|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|10.4|||||TWO_SIDED|98.0|7.2|13.5||||||6 hours postdose||13.5|7.2|
92287231|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.019||||0.616|TWO_SIDED|95.0|-0.055|0.092|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.092|-0.055|0.616
92242759|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|7.3|||||TWO_SIDED|98.0|4.1|10.4||||||12 hours postdose||10.4|4.1|
92242760|NCT03510663|184388285|SUPERIORITY||Least Squares Mean Difference|7.0|||||TWO_SIDED|98.0|3.8|10.2||||||24 hours postdose||10.2|3.8|
92242761|NCT01798706|184388303|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.81|-0.464||Threshold for significance at 0.05 level.|ANCOVA||Lixisenatide vs Placebo|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of basal insulin use at screening, randomization strata of Week -1 glomerular filtration rate (eGFR) (≥30 to \<60, ≥60 ml/min/1.73 m\^2), and country as fixed effects and baseline HbA1c value as a covariate.||-0.464|-0.81|< 0.0001
92242762|NCT01798706|184388304|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.05|STANDARD_ERROR_OF_MEAN|0.464|<|0.0001|TWO_SIDED|95.0|-5.96|-4.132||Threshold for significance at 0.05 level. Testing sequence continued only when previous endpoint was statistically significant at 0.05.|ANCOVA||Lixisenatide vs Placebo|Analysis was performed using ANCOVA model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of basal insulin use at screening, randomization strata of Week -1 eGFR (≥30 to \<60, ≥60 ml/min/1.73 m\^2), and country as fixed effects and baseline 2-hour PPG value as a covariate. Hierarchical testing procedure was used to control type I error at 0.05. Testing was then performed sequentially in the order the endpoints were reported.||-4.132|-5.96|< 0.0001
92242763|NCT01798706|184388305|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.219|<|0.0001|TWO_SIDED|95.0|-1.39|-0.527||Threshold for significance at 0.05 level.|ANCOVA||Lixisenatide vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of basal insulin use at screening, randomization strata of Week -1 eGFR (≥30 to \<60, ≥60 ml/min/1.73 m\^2), and country as fixed effects and baseline 7-point SMPG value as a covariate.||-0.527|-1.39|< 0.0001
92242764|NCT01798706|184388306|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.278|<|0.0001|TWO_SIDED|95.0|-1.862|-0.769||Threshold for significance at 0.05 level.|ANCOVA||Lixisenatide vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of basal insulin use at screening, randomization strata of Week -1 eGFR (≥30 to \<60, ≥60 ml/min/1.73 m\^2), and country as fixed effects and baseline body weight value as a covariate.||-0.769|-1.862|< 0.0001
92242765|NCT01798706|184388307|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.262||0.2347|TWO_SIDED|95.0|-0.828|0.204||Threshold for significance at 0.05 level.|ANCOVA||Lixisenatide vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of basal insulin use at screening, randomization strata of Week -1 eGFR (≥30 to \<60, ≥60 ml/min/1.73 m\^2), and country as fixed effects and baseline FPG value as a covariate.||0.204|-0.828|0.2347
92242766|NCT00256867|184388317|SUPERIORITY_OR_OTHER||Ratio Expressed as percent difference|-37.186|||<|0.0001|TWO_SIDED|95.0|-41.219|-32.879|||ANCOVA||Estimation parameter was Ratio to RSG Group expressed as percent difference from RSG group. Based on ANCOVA : Log(value) - log(baseline)= log(baseline) + sex + country + Treatment + Prior Sulfonylurea use|||-32.879|-41.219|<0.0001
92242767|NCT00256867|184388318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|||<|0.0001|TWO_SIDED|95.0|-1.09|-0.55|||ANCOVA||Change = Baseline + sex + country + Treatment + Prior Sulfonylurea use|||-0.55|-1.09|<0.0001
92455965|NCT02071173|184801154|SUPERIORITY|Single group test comparison to a performance goal of 5 mV. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Mean|18.3|||||ONE_SIDED|95.0|6.2|||||||Ho: The 3-month mean sensed amplitude ≤ 5 mV, Ha: The 3-month mean sensed amplitude \> 5 mV|||6.2|
92455966|NCT02071173|184801155|OTHER|Two one-sided tests (TOST) were performed.|Mean|468.0|||||TWO_SIDED|90.0|463.0|472.0||||||Ho: Pacing impedance ≤ 300 Ω or pacing impedance ≥ 1200 Ω, Ha: 300 Ω \< Pacing impedance \< 1200 Ω||472|463|
92242768|NCT00256867|184388322|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|36.32|||<|0.0001||95.0|16.52|79.85|||ANCOVA||Odds (logistic regression:log odds=Baseline + sex + Treatment + Prior Sulfonylurea use) of having an LDL-c \< 100 mg/dL at Week 6 on All FDC RSG/SIMV groups compared to All RSG monotherapy groups|||79.85|16.52|<.0001
92242769|NCT00256867|184388323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.05|||<|0.0001|TWO_SIDED|95.0|2.32|7.07|||ANCOVA||Odds (logistic regression: log odds=Baseline + sex + Treatment + Prior SU use) of having an HbA1c \< 7% or reduction of HbA1c \>= 0.7% at Week 16 on All FDC group compared to Simv group.|||7.07|2.32|<0.0001
92242770|NCT00256867|184388324|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.93|||<|0.0001|TWO_SIDED|95.0|2.21|7.0|||ANCOVA||Odds (logistic regression:log odds=Baseline + sex + Treatment + Prior SU use) of having an FPG \< 7.0 mmol/L or reduction of FPG \>= 1.67 mmol/L at Week 16 on All FDC group compared to Simv group.|||7|2.21|<0.0001
92242771|NCT02915367|184388337|OTHER|Pearson chi-square||||||0.93|||||||Chi-squared|||||||0.93
92242772|NCT02915367|184388339|OTHER|Pearson chi-square||||||0.96|||||||Chi-squared|||||||0.96
92455967|NCT02071173|184801156|OTHER|Two one-sided tests (TOST) were performed.|Mean|702.0|||||TWO_SIDED|90.0|659.0|744.0||||||Ho: Pacing impedance ≤ 300 Ω or pacing impedance ≥ 1200 Ω, Ha: 300 Ω \< Pacing impedance \< 1200 Ω||744|659|
92173845|NCT00999804|184239204|SUPERIORITY_OR_OTHER_LEGACY||proportion of patients with AE|0.72|||||TWO_SIDED||||||||61 out of 85 patients (72%) in the 24-week arm had at least 1 adverse events.|This outcome is to establish the safety and tolerability of an extended regimen of lapatinib + trastuzumab, with or without endocrine therapy. No comparison between the 2 arms is required.||||
92242773|NCT00875017|184388344|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-65.75|||<|0.001||95.0|-96.01|-35.49|||Mixed Models Analysis|||Net phosphorus absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||-35.49|-96.01|<0.001
92173846|NCT00999804|184239205|SUPERIORITY_OR_OTHER_LEGACY||proportion of tpCR in 24 weeks arm|0.1|||||TWO_SIDED|||||||||No comparison between the two arms is required.||||
92173847|NCT00999804|184239206|SUPERIORITY_OR_OTHER_LEGACY||proportion of CR+PR in 24 weeks arm|0.69|||||TWO_SIDED|||||||||No comparison between the 2 arm is required for this study.||||
92242774|NCT00875017|184388344|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-125.65|||<|0.001||95.0|-155.91|-95.39|||Mixed Models Analysis|||Net phosphorus absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||-95.39|-155.91|<0.001
92173848|NCT05229146|184239207|SUPERIORITY|||||||0.191||||||No adjustment for multiple comparisons.|t-test, 1 sided|t-statistic = .913, df = 10||One-sided paired-samples t-test comparing baseline to responses immediately following the intervention (approximately one week after baseline).||||.191
92242775|NCT00875017|184388344|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-59.9|||<|0.001||95.0|-89.87|-29.93|||Mixed Models Analysis|||Net phosphorus absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||-29.93|-89.87|<0.001
92242776|NCT00875017|184388345|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|71.9|||<|0.001||95.0|40.03|103.77|||Mixed Models Analysis|||Phosphorus binding was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||103.77|40.03|<0.001
92242777|NCT00875017|184388346|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.67||||0.049||95.0|-41.22|-0.13|||Mixed Models Analysis|||Net calcium absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||-0.13|-41.22|0.049
92242778|NCT00875017|184388346|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-15.56||||0.133||95.0|-36.11|4.99|||Mixed Models Analysis|||Net calcium absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||4.99|-36.11|0.133
92242779|NCT00875017|184388346|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.11||||0.612||95.0|-15.24|25.47|||Mixed Models Analysis|||Net calcium absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||25.47|-15.24|0.612
92264800|NCT00151775|184431107|SUPERIORITY_OR_OTHER||LS Mean difference|-3.49||||0.0052|TWO_SIDED|95.0|-5.92|-1.05|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||Analysis for diastolic blood pressure. The null hypothesis of no treatment difference was tested.||-1.05|-5.92|0.0052
92242780|NCT02932475|184388349|SUPERIORITY||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.63|1.19|||||The odds ratio was calculated and adjusted for study site, timing of diabetes diagnosis, gestational age at randomization stratified at 18 weeks, and baseline maternal BMI.|The sample size gave adequate power over a range of expected primary outcome event rates, with type I error set at 0.044 (reduced from 0.05 for interim analysis), with reasonable power under a conservative scenario assuming that 20% of subjects immediately stopped taking study agent.||1.19|0.63|
92242781|NCT02932475|184388350|SUPERIORITY||Difference in proportions|0.2||||0.4|TWO_SIDED|||||The a priori threshold for statistical significance was \<0.05.|Chi-squared|||||||0.4
92242782|NCT02932475|184388351|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.4|TWO_SIDED|||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided||comparison of mean (sd) between groups|||||0.4
92242783|NCT02932475|184388352|SUPERIORITY||Difference in proportions|0.0||||0.6|TWO_SIDED|||||The a priori threshold for statistical significance is \<0.05.|Chi-squared|||||||0.6
92242784|NCT02932475|184388353|SUPERIORITY||Difference in proportions|0.0||||0.08|TWO_SIDED|||||The a priori threshold for statistical significance is \<0.05.|Chi-squared|||||||0.08
92455968|NCT02071173|184801157|SUPERIORITY|Single group test comparison to a performance goal of 93%. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Percent|99.5|||||ONE_SIDED|95.0|98.4|||||||Ho: Percent of successful conversion ≤ 93%, Ha: Percent of successful conversion \> 93%|||98.4|
92455969|NCT01618162|184801166|SUPERIORITY_OR_OTHER||Estimated treatment difference|-1.02|||<|0.001|TWO_SIDED|95.0|-1.18|-0.87|||ANCOVA|||Superiority of IDegLira versus placebo therapy would be concluded if the 95% CI for the treatment differences for change in HbA1c lied entirely below 0%; implying that the two-sided p-value calculated by the ANCOVA model for testing the hypothesis of no difference between treatments was less than 5%.||-0.87|-1.18|< 0.001
92242785|NCT00364845|184388355|SUPERIORITY_OR_OTHER||Proportion achieving target|0.389||||||95.0|0.173|0.643||||||||0.643|0.173|
92242786|NCT00364845|184388355|SUPERIORITY_OR_OTHER||Proportion achieving target|0.95||||||95.0|0.751|0.999||||||||0.999|0.751|
92242787|NCT03255291|184388383|SUPERIORITY|A Dunnett adjustment was used to adjust for multiple comparisons||||||0.0288|||||||ANCOVA|Covariates: sex, race, age, education, health literacy, season, risk display problem, acceptability, self-reported health, and baseline exercise.||The investigators tested whether weekly minutes of exercise at 90 day follow-up was higher in the exercise mental imagery condition than in the sleep mental imagery condition||||0.0288
92242788|NCT03255291|184388383|SUPERIORITY|-A Dunnett adjustment was used to adjust for multiple comparisons||||||0.3329|||||||ANCOVA|Covariates: sex, race, age, education, health literacy, season, risk display problem, acceptability, self-reported health, and baseline exercise.||-The investigators tested whether weekly minutes of exercise differed among the three risk display formats: risk ladder, table, and alphanumeric text.||||0.3329
92242789|NCT03255291|184388383|SUPERIORITY|-A Dunnett adjustment was used to adjust for multiple comparisons||||||0.0215|||||||ANCOVA|Covariates: sex, race, age, education, health literacy, season, risk display problem, acceptability, self-reported health, and baseline exercise.||-The investigators tested whether weekly minutes of exercise was influenced by an interaction between risk display format and mental imagery behavior||||0.0215
92242790|NCT03255291|184388384|SUPERIORITY|||||||0.0333||||||-A Dunnett adjustment was used to adjust for multiple comparisons|ANCOVA|Covariates were sex, race, age, education, numeracy, and graph literacy.||-This study was designed as a 3X2 factorial design and only the risk display format intervention (risk ladder, table, or text) was looked at for this outcome, as participants had not yet received the mental imagery intervention, thus it could not affect this outcome. A Dunnett adjustment was used to adjust for multiple comparisons.||||0.0333
92242791|NCT03255291|184388385|SUPERIORITY|||||||0.4946||||||-A Dunnett adjustment was used to adjust for multiple comparisons|ANCOVA|Covariates were sex, race, age, education, numeracy, and graph literacy.||This study was designed as a 3X2 factorial design \& only the risk display format intervention (risk ladder, table, or text) was looked at for this outcome, as participants had not yet received the mental imagery intervention, thus it could not affect this outcome.||||0.4946
92242792|NCT03255291|184388386|SUPERIORITY|||||||0.1397|||||||ANCOVA|Covariates were sex, race, age, education, numeracy, and graph literacy.||This study was designed as a 3X2 factorial design \& only the risk display format intervention (risk ladder, table, or text) was looked at for this outcome, as participants had not yet received the mental imagery intervention, thus it could not affect this outcome.||||0.1397
92242793|NCT03255291|184388387|SUPERIORITY|||||||0.007||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise maintenance self-efficacy). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichtomous mental imagery variable in this analysis.||||0.0070
92242794|NCT03255291|184388388|SUPERIORITY|||||||0.8793||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise recovery self-efficacy). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichtomous mental imagery variable in this analysis.||||0.8793
92264801|NCT00151775|184431107|SUPERIORITY_OR_OTHER||LS Mean difference|-2.57||||0.133|TWO_SIDED|95.0|-5.93|0.79|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||Analysis of systolic blood pressure. Null hypothesis of no treatment difference was tested.||0.79|-5.93|0.1330
92264802|NCT00151775|184431107|SUPERIORITY_OR_OTHER||LS Mean difference|-1.38||||0.3442|TWO_SIDED|95.0|-4.27|1.5|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||Analysis for diastolic blood pressure. The null hypothesis of no treatment difference was tested.||1.50|-4.27|0.3442
92281342|NCT00721409|184465816|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.93||||0.0471|TWO_SIDED|95.0|0.91|4.08||1-sided p-value is from the stratified exact test (1-sided, α =0.10)|Cochran-Mantel-Haenszel|||Objective Response CI was calculated using the exact Clopper-Pearson method. The stratified analysis presented above was based on CMH test stratified by Part. An Odds Ratio \>1 means better response in favor of palbociclib + letrozole arm.||4.08|0.91|0.0471
92455970|NCT05554237|184801193|OTHER||Ratio of adjusted geometric means|83.46|||||TWO_SIDED|90.0|74.67|93.29|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (for CTB 800 mg + AVP 1350 mg versus CTB 800mg only)|||93.29|74.67|
92455971|NCT05554237|184801195|OTHER||Ratio of adjusted geometric means|89.7|||||TWO_SIDED|90.0|87.24|92.23|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (for CTB 800 mg + AVP 1350 mg versus CTB 800mg only|||92.23|87.24|
92455972|NCT05554237|184801198|OTHER||Ratio of adjusted geometric means|89.91|||||TWO_SIDED|90.0|87.47|92.41|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (for CTB 800 mg + AVP 1350 mg versus CTB 800mg only|||92.41|87.47|
92455973|NCT05554237|184801218|OTHER||Ratio of adjusted geometric mean|104.47|||||TWO_SIDED|90.0|84.94|128.5|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||128.50|84.94|
92455974|NCT05554237|184801218|OTHER||Ratio of adjusted geometric mean|129.54|||||TWO_SIDED|90.0|119.37|140.58|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||140.58|119.37|
92455975|NCT05554237|184801218|OTHER||Ratio of adjusted geometric mean|101.46|||||TWO_SIDED|90.0|88.68|116.08|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||116.08|88.68|
92455976|NCT05554237|184801218|OTHER||Ratio of adjusted geometric means|86.99|||||TWO_SIDED|90.0|74.48|101.59|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted) for CTB 400 mg + AVP 1350 mg only|Trans-CTB Day 6 versus Day 7||101.59|74.48|
92455977|NCT05554237|184801220|OTHER||Ratio of adjusted geometric mean|102.21|||||TWO_SIDED|90.0|88.67|117.8|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||117.80|88.67|
92455978|NCT05554237|184801220|OTHER||Ratio of adjusted geometric mean|133.79|||||TWO_SIDED|90.0|119.84|149.36|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||149.36|119.84|
92455979|NCT05554237|184801220|OTHER||Ratio of adjusted geometric mean|99.93|||||TWO_SIDED|90.0|90.7|110.1|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||110.10|90.70|
92455980|NCT05554237|184801220|OTHER||Ratio of adjusted geometric mean|89.17|||||TWO_SIDED|90.0|75.27|105.63|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted) for CTB 400 mg + AVP 1350 mg only|Trans-CTB Day 6 versus Day 7||105.63|75.27|
92455981|NCT05554237|184801226|OTHER||Ratio of adjusted geometric mean|93.69|||||TWO_SIDED|90.0|78.37|112.02|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI- Day 6 versus Day 7||112.02|78.37|
92455982|NCT05554237|184801226|OTHER||Ratio of adjusted geometric mean|113.07|||||TWO_SIDED|90.0|88.31|144.76|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI-CTB Day 6 versus Day 7||144.76|88.31|
92455983|NCT05554237|184801226|OTHER||Ratio of adjusted geometric mean|107.06||||||90.0|92.77|123.54|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI- Day 6 versus Day 7||123.54|92.77|
92455984|NCT05554237|184801226|OTHER||Ratio of adjusted geometric mean|80.68|||||TWO_SIDED|90.0|68.32|95.27|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||95.27|68.32|
92455985|NCT05554237|184801226|OTHER||Ratio of adjusted geometric mean|89.92|||||TWO_SIDED|90.0|69.7|116.02|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||116.02|69.70|
92455986|NCT05554237|184801226|OTHER||Ratio of adjusted geometric mean|97.65|||||TWO_SIDED|90.0|84.08|113.41|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||113.41|84.08|
92455987|NCT05554237|184801227|OTHER||Ratio of adjusted geometric mean|102.33|||||TWO_SIDED|90.0|90.37|115.87|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI- Day 6 versus Day 7||115.87|90.37|
92455988|NCT05554237|184801227|OTHER||Ratio of adjusted geometric mean|117.83|||||TWO_SIDED|90.0|100.61|138.0|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI- Day 6 versus Day 7||138.00|100.61|
92455989|NCT05554237|184801227|OTHER||Ratio of adjusted geometric mean|115.88|||||TWO_SIDED|90.0|104.12|128.98|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI- Day 6 versus Day 7||128.98|104.12|
92455990|NCT05554237|184801227|OTHER||Ratio of adjusted geometric mean|85.27|||||TWO_SIDED|90.0|70.37|103.32|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||103.32|70.37|
92455991|NCT05554237|184801227|OTHER||Ratio of adjusted geometric mean|97.69|||||TWO_SIDED|90.0|78.83|121.06|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||121.06|78.83|
92455992|NCT05554237|184801227|OTHER||Ratio of adjusted geometric mean|102.85|||||TWO_SIDED|90.0|94.8|111.58|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||111.58|94.80|
92455993|NCT05554237|184801242|OTHER||Ratio of adjusted geometric mean|105.47|||||TWO_SIDED|90.0|86.64|128.39|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|AVI- Day 6 versus Day 7||128.39|86.64|
92242795|NCT03255291|184388389|SUPERIORITY|||||||0.4673||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise affective attitudes). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.4673
92242796|NCT03255291|184388390|SUPERIORITY|||||||0.1916||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise unpleasant feelings). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.1916
92264803|NCT00151775|184431107|SUPERIORITY_OR_OTHER||LS Mean difference|-3.16||||0.0029|TWO_SIDED|95.0|-5.24|-1.09|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||For seated systolic blood pressure the null hypothesis of no treatment difference was tested||-1.09|-5.24|0.0029
92455994|NCT05554237|184801242|OTHER||Ratio of adjusted geometric mean|134.24||||||90.0|51.81|347.81|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|AVI- Day 6 versus Day 7||347.81|51.81|
92455995|NCT05554237|184801242|OTHER||Ratio of adjusted geometric mean|91.17||||||90.0|79.54|104.51|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|HPA- Day 6 versus Day 7||104.51|79.54|
92455996|NCT05554237|184801242|OTHER||Ratio of adjusted geometric mean|115.26|||||TWO_SIDED|90.0|71.46|185.9|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|HPA- Day 6 versus Day 7||185.90|71.46|
92455997|NCT05554237|184801244|OTHER||Ratio of adjusted geometric mean|114.83|||||TWO_SIDED|90.0|101.1|130.43|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|AVI- Day 6 versus Day 7||130.43|101.10|
92455998|NCT05554237|184801244|OTHER||Ratio of adjusted geometric mean|140.44|||||TWO_SIDED|90.0|104.17|189.34|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|AVI- Day 6 versus Day 7||189.34|104.17|
92242797|NCT03255291|184388391|SUPERIORITY|||||||0.8661||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise imagery vividness). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.8661
92264804|NCT00151775|184431107|SUPERIORITY_OR_OTHER||LS Mean difference|-2.8||||0.0032|TWO_SIDED|95.0|-4.65|-0.95|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||For seated diastolic blood pressure the null hypothesis of no treatment difference was tested.||-0.95|-4.65|0.0032
92264805|NCT00151775|184431108|SUPERIORITY_OR_OTHER||LS Mean difference|-2.82||||0.2113|TWO_SIDED|95.0|-7.29|1.65|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||For seated systolic blood pressure the null hypothesis of no treatment difference was tested.||1.65|-7.29|0.2113
92264806|NCT00151775|184431108|SUPERIORITY_OR_OTHER||LS Mean difference|-2.92||||0.1496|TWO_SIDED|95.0|-6.92|1.09|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||For seated diastolic blood pressure the null hypothesis of no treatment difference was tested.||1.09|-6.92|0.1496
92455999|NCT05554237|184801244|OTHER||Ratio of adjusted geometric mean|101.46||||||90.0|90.79|113.39|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|HPA- Day 6 versus Day 7||113.39|90.79|
92456000|NCT05554237|184801244|OTHER||Ratio of adjusted geometric means|123.2|||||TWO_SIDED|90.0|110.25|137.67|||||Model is a mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|HPA- Day 6 versus Day 7||137.67|110.25|
92456001|NCT02192502|184801262|NON_INFERIORITY|The non-inferiority delta of a ratio of geometric means is 1.15.|Geometric mean ratio|0.91||||0.15|TWO_SIDED|95.0|0.57|1.44|||generalized linear model|This analysis used linear mixed model with repeated measurements with an unstructured correlation structure.||Assuming that NGAL values follow a log normal distribution as in previous studies with a coefficient of variation of 25%, we need 52 patients per group to have 90% power at the 0.025 significance level to be able to claim non-inferiority of HES to albumin using a non-inferiority delta of a ratio of geometric means of 1.15. After Adjusting for the interim monitoring and five potential dropouts and five pilot patients (which were not included in the analyses), we planned to enroll 140 patients||1.44|0.57|0.15
92456002|NCT02192502|184801263|NON_INFERIORITY|the delta for non-inferiority is 1.15|Risk Ratio (RR)|2.78||||0.92|TWO_SIDED|95.0|0.64|12.1|||Chi-squared|||||12.1|0.64|0.92
92456003|NCT02192502|184801264|NON_INFERIORITY|the non-inferiority delta was 1.15|geometric mean ratio|0.45||||0.002|TWO_SIDED|5.0|0.21|0.95|||Regression, Linear|IL-18 was log-transformed||||0.95|0.21|0.002
92456004|NCT02192502|184801265|NON_INFERIORITY|the delta for non-inferiority is 1.15|geometric mean ratio|0.98||||0.31|TWO_SIDED|95.0|0.45|2.1|||Regression, Linear|IL-18 was log-transformed||||2.10|0.45|0.31
92456005|NCT02192502|184801266|NON_INFERIORITY|The non-inferiority delta was 1.15|Risk Ratio (RR)|0.8|||<|0.001|TWO_SIDED|95.0|0.61|1.03|||Chi-squared|||||1.03|0.61|<0.001
92456006|NCT04818346|184801282|SUPERIORITY||Least squares mean difference|-21.41|STANDARD_ERROR_OF_MEAN|6.62||0.0015|TWO_SIDED|95.0|-34.49|-8.32|||Mixed Model Repeated Measures (MMRM)|||||-8.32|-34.49|0.0015
92456007|NCT04818346|184801282|SUPERIORITY||Least squares mean difference|-20.07|STANDARD_ERROR_OF_MEAN|6.86||0.004|TWO_SIDED|95.0|-33.63|-6.51|||MMRM|||||-6.51|-33.63|0.0040
92456008|NCT04818346|184801282|SUPERIORITY||Least squares mean difference|-18.02|STANDARD_ERROR_OF_MEAN|6.77||0.0086|TWO_SIDED|95.0|-31.4|-4.64|||MMRM|||||-4.64|-31.40|0.0086
92456009|NCT04818346|184801283|SUPERIORITY||Odds Ratio (OR)|4.3||||0.3574|TWO_SIDED|95.0|0.398|220.998|||Wald test||Logistic regression: (response at Week 24 = treatment + stratification factor \[T-BSA involvement 8%-20%/\>20%\]).|||220.998|0.398|0.3574
92456010|NCT04818346|184801283|SUPERIORITY||Odds Ratio (OR)|5.5||||0.1992|TWO_SIDED|95.0|0.573|273.479|||Wald test||Logistic regression: (response at Week 24 = treatment + stratification factor \[T-BSA involvement 8%-20%/\>20%\]).|||273.479|0.573|0.1992
92456011|NCT04818346|184801283|SUPERIORITY||Odds Ratio (OR)|2.1||||0.9913|TWO_SIDED|95.0|0.103|126.386|||Wald test||Logistic regression: (response at Week 24 = treatment + stratification factor \[T-BSA involvement 8%-20%/\>20%\]).|||126.386|0.103|0.9913
92456012|NCT02273141|184801308|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits were adjusted for multiple comparisons (two alternative primary endpoints): To be declared non-inferior, the primary endpoint must show a difference in success rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in success rate|8.22||||0.038|ONE_SIDED|97.5|-0.5|||The p-value was adjusted for multiple comparisons (2 alternative primary endpoints): To be declared superior, the primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||The hypothesis was to demonstrate non-inferiority (NI) of NER1006 regimen to SP+MS (10% margin). Success rate was no. of patients with successful overall bowel cleansing as proportion of no. of patients in each group. Treatment effect was NER1006 success rate - SP+MS success rate. A Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-0.50|0.038
92456013|NCT02273141|184801309|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits were adjusted for multiple comparisons (two alternative primary endpoints): To be declared non-inferior the primary endpoint must show a difference in success rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in excellent plus good rate|3.2||||0.027|ONE_SIDED|97.5|-5.56|||The p-value was adjusted for multiple comparisons (2 alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||Hypothesis was to demonstrate NI of NER1006 regimen to SP+MS (10% margin). Success rate was no. of patients with highly effective cleansing of the colon ascendens as proportion of no. of patients in each group. Treatment effect was NER1006 success rate - SP+MS success rate. A Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-5.56|0.027
92456014|NCT02273141|184801310|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|2.42||||0.154|TWO_SIDED|95.0|-6.35|11.12||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to SP+MS with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 rate - SP+MS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||11.12|-6.35|0.154
92456015|NCT02273141|184801311|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|3.27||||0.212|TWO_SIDED|95.0|-5.56|11.91||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to SP+MS with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 rate - SP+MS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||11.91|-5.56|0.212
92456016|NCT02273141|184801312|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in PDR|4.43||||0.064|TWO_SIDED|95.0|-4.36|13.1||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to SP+MS with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in PDR was calculated as NER1006 rate - SP+MS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||13.10|-4.36|0.064
92456017|NCT02273141|184801313|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in PDR|2.95||||0.278|TWO_SIDED|95.0|-5.96|11.51||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to SP+MS with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in PDR was calculated as NER1006 rate - SP+MS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||11.51|-5.96|0.278
92242798|NCT03255291|184388392|SUPERIORITY|||||||0.0711||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise action planning). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.0711
92456018|NCT02046980|184801314|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.39||||0.02839|TWO_SIDED|95.0|1.58|7.31|||Regression, Logistic|||||7.31|1.58|0.02839
92456019|NCT02046980|184801314|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.67||||0.0366|TWO_SIDED|95.0|1.25|5.67|||Regression, Logistic|||||5.67|1.25|0.0366
92456020|NCT04575467|184801321|SUPERIORITY||Mean absolute fat thickness difference|-4.77|STANDARD_DEVIATION|2.29|<|0.01|TWO_SIDED|95.0|-7.17|-2.37|||Paired t-test|||||-2.37|-7.17|<0.01
92456021|NCT04575467|184801321|SUPERIORITY||Mean absolute fat thickness difference|-4.85|STANDARD_DEVIATION|2.02|<|0.01|TWO_SIDED|95.0|-6.97|-2.73|||Paired t-test|||||-2.73|-6.97|<0.01
92456022|NCT04575467|184801321|SUPERIORITY||Mean absolute fat thickness difference|-2.98|STANDARD_DEVIATION|2.83|<|0.05|TWO_SIDED|95.0|-5.95|-0.01|||Paired t-test|||||-0.01|-5.95|<0.05
92456023|NCT04575467|184801322|SUPERIORITY||Mean absolute fat volume difference|-114.4|STANDARD_DEVIATION|54.88|<|0.01|TWO_SIDED|95.0|-171.99|-56.81|||Paired t-test|||||-56.81|-171.99|<0.01
92456024|NCT04575467|184801322|SUPERIORITY||Mean absolute fat volume difference|-155.2|STANDARD_DEVIATION|64.7|<|0.01|TWO_SIDED|95.0|-223.1|-87.3|||Paired t-test|||||-87.30|-223.10|<0.01
92456025|NCT04575467|184801322|SUPERIORITY||Mean absolute fat volume difference|-119.17|STANDARD_DEVIATION|113.11|<|0.05|TWO_SIDED|95.0|-237.86|-0.47|||Paired t-test|||||-0.47|-237.86|<0.05
92456026|NCT00567242|184801362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2801|STANDARD_ERROR_OF_MEAN|0.1077|<|0.05|ONE_SIDED|95.0||-0.0709|||t-test, 1 sided|||"H1: The Intention Group will show a significant rightward shift in lateral frontal laterality from pre-treatment to post-treatment.~H0: The Intention Group will show no shift in lateral frontal laterality from pre-treatment to post-treatment.~Since this is a repeated measures t test, the data are presented as the mean and standard deviation for for the post-treatment laterality index minus the pre-treatment laterality index."||-0.0709||<.05
92456027|NCT00567242|184801362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1832|STANDARD_ERROR_OF_MEAN|0.2768|<|0.05|ONE_SIDED|95.0||0.3546|||t-test, 1 sided|||"H1: The Control Group will show a significant rightward shift in lateral frontal lateral indices from pre-treatment to post-treatment.~H0: The Control group will show no shift in lateral frontal laterality indices from pre-treatment to post-treatment.~Since the analysis to test these hypotheses is a repeated-measures t-test, the mean and standard deviation are given for post-treatment laterality index minus pre-treatment laterality index."||0.3546||<.05
92456028|NCT00567242|184801363|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.88|<|0.05|ONE_SIDED|95.0|-1.81||||t-test, 1 sided|||"H1: The Intention Group would show more improvement across treatment than the Control Group.~H0: The Intention Group and the Control Group would not show any difference in improvement across treatment."|||-1.81|<.05
92456029|NCT00567242|184801364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.56|STANDARD_ERROR_OF_MEAN|0.73|<|0.05|ONE_SIDED|95.0|0.26||||t-test, 1 sided|||"H1: The Intention Group would show more improvement across treatment than the Control Group.~H0: The Intention Group and the Control Group would not show any difference in improvement across treatment."|||0.26|<.05
92456030|NCT01181050|184801365|SUPERIORITY_OR_OTHER||Treatment difference|-0.02||||0.9334||95.0|-0.54|0.5|||Mixed effect model repeated measures|||||0.50|-0.54|0.9334
92456031|NCT01181050|184801366|SUPERIORITY_OR_OTHER||Treatment difference|0.06||||0.8293||95.0|-0.46|0.58|||Mixed effect model repeated measures|||||0.58|-0.46|0.8293
92242799|NCT03255291|184388393|SUPERIORITY|||||||0.0365||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise coping planning). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.0365
92242800|NCT03255291|184388394|SUPERIORITY|||||||0.1511||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise action self-efficacy). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.1511
92242801|NCT03453151|184388424|OTHER|||||||0.053|||||||Paired t-test|||||||0.053
92242802|NCT03453151|184388425|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
92281343|NCT00721409|184465816|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.34||||0.118|TWO_SIDED|95.0|0.65|8.66||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||8.66|0.65|0.1180
92456032|NCT01181050|184801367|SUPERIORITY_OR_OTHER||Treatment difference|-0.04||||0.8867||95.0|-0.65|0.56|||Mixed effect model repeated measures|||||0.56|-0.65|0.8867
92456033|NCT03762135|184801370|SUPERIORITY|||||||0.044||||||This relates to the entirety of the 6-week period.|GEE Linear Regression|Generalized Estimation Equation Linear Regression||||||0.044
92456034|NCT00866840|184801437|OTHER|||||||||||||||||No objective responses were seen in the first phase and accrual was stopped.|No objective responses were seen in the first phase and accrual was stopped.|||
92242803|NCT03453151|184388426|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
92242804|NCT03453151|184388427|OTHER|||||||0.077|||||||Paired t-test|This analysis refers to the resting cardiac index.||||||0.077
92242805|NCT03453151|184388427|OTHER|||||||0.069|||||||Paired t-test|This analysis refers to the peak exercise cardiac index.||||||0.069
92281344|NCT00721409|184465816|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.72||||0.1631|TWO_SIDED|95.0|0.65|4.54||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||4.54|0.65|0.1631
92456035|NCT02474927|184801446|OTHER|Descriptive (Pre-Post)||||||0.36|||||||Wilcoxon Signed Rank|||||||0.36
92456036|NCT02474927|184801447|OTHER|Descriptive (pre-post)||||||0.16|||||||Wilcoxon Signed Rank|||||||0.16
92456037|NCT01712009|184801480|SUPERIORITY_OR_OTHER||Difference|-6.3|||||TWO_SIDED|95.0|-16.7|4.1|||||Naproxen minus No Prophylaxis|||4.1|-16.7|
92456038|NCT01712009|184801480|SUPERIORITY_OR_OTHER||Difference|-4.1|||||TWO_SIDED|95.0|-14.5|6.3|||||Loratadine minus No Prophylaxis|||6.3|-14.5|
92456039|NCT01712009|184801480|SUPERIORITY_OR_OTHER||Difference|2.2|||||TWO_SIDED|95.0|-8.0|12.4|||||Loratadine minus Naproxen|||12.4|-8.0|
92456040|NCT01712009|184801481|SUPERIORITY_OR_OTHER||Difference|-4.2|||||TWO_SIDED|95.0|-14.4|6.0|||||Naproxen minus No Prophylaxis|Difference across all treatment cycles||6.0|-14.4|
92456041|NCT01712009|184801481|SUPERIORITY_OR_OTHER||Difference|-2.4|||||TWO_SIDED|95.0|-12.5|7.8|||||Loratadine minus No Prophylaxis|Difference across all treatment cyces||7.8|-12.5|
92456042|NCT01712009|184801481|SUPERIORITY_OR_OTHER||Difference|1.8|||||TWO_SIDED|95.0|-8.3|12.0|||||Loratadine minus Naproxen|Dfference across all treatment cycles||12.0|-8.3|
92456043|NCT01712009|184801482|SUPERIORITY_OR_OTHER||Difference|-1.7|||||TWO_SIDED|95.0|-6.5|3.2|||||Naproxen minus No Prophylaxis|Difference across all treatment cycles||3.2|-6.5|
92456044|NCT01712009|184801482|SUPERIORITY_OR_OTHER||Difference|-1.3|||||TWO_SIDED|95.0|-6.1|3.6|||||Loratadine minus No Prophylaxis|Difference across all cycles||3.6|-6.1|
92456045|NCT01712009|184801482|SUPERIORITY_OR_OTHER||Difference|0.4|||||TWO_SIDED|95.0|-4.1|4.9|||||Loratadine minus Naproxen|Difference across all cycles||4.9|-4.1|
92456046|NCT01712009|184801483|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.0881|TWO_SIDED|95.0|-0.7|0.0|||ANOVA||Naproxen minus No Prophylaxis|Difference across all treatment cycles||0.0|-0.7|0.0881
92456047|NCT01712009|184801483|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_DEVIATION|0.2||0.0443|TWO_SIDED|95.0|-0.7|0.0|||ANOVA||Loratadine minus No Prophylaxis|Difference across all treatment cycles||-0.0|-0.7|0.0443
92456048|NCT01712009|184801483|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.8007|TWO_SIDED|95.0|-0.4|0.3|||ANOVA||Loratadine minus Naproxen|Difference across all treatment cycles||0.3|-0.4|0.8007
92456049|NCT01712009|184801484|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.1466|TWO_SIDED|95.0|-1.1|0.2|||ANOVA||Naproxen minus No Prophylaxis|Difference across all treatment cycles||0.2|-1.1|0.1466
92242806|NCT03453151|184388429|OTHER|||||||0.25|||||||Paired t-test|This analysis refers to creatinine level.||||||0.250
92242807|NCT03453151|184388429|OTHER|||||||0.014|||||||Paired t-test|This analysis refers to BUN level.||||||0.014
92242808|NCT01204658|184388437|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-LD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.57||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-LD vaccine vs Synflorix™ vaccine post dose 1 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 1 vaccination in the 10PP-LD Group minus Synflorix Group.||2.57|-2.61|0.003
92242809|NCT01204658|184388437|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-LD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.57||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-LD vaccine vs Synflorix™ vaccine post dose 2 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 2 vaccination in the 10PP-LD Group minus Synflorix Group.||2.57|-2.61|0.003
92242810|NCT01204658|184388437|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-LD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.62|2.57||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-LD vaccine vs Synflorix™ vaccine post dose 3 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 3 vaccination in the 10PP-LD Group minus Synflorix Group.||2.57|-2.62|0.003
92456050|NCT01712009|184801484|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0411|TWO_SIDED|95.0|-1.3|0.0|||ANOVA||Loratadine minus No Prophylaxis|Difference across all treatment cycles||-0.0|-1.3|0.0411
92456051|NCT01712009|184801484|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.5689|TWO_SIDED|95.0|-0.8|0.5|||ANOVA||Loratadine minus Naproxen|Difference across all treatment cycles||0.5|-0.8|0.5689
92456052|NCT01712009|184801485|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.8||0.0775||95.0|-3.0|0.2|||ANOVA||Naproxen minus No Prophylaxis|Difference across all treatment cycles||0.2|-3.0|0.0775
92456053|NCT01712009|184801485|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.8||0.0329|TWO_SIDED|95.0|-3.1|-0.1|||ANCOVA||Loratadine minus No Prophylaxis|Difference across all treatment cycles||-0.1|-3.1|0.0329
92456054|NCT01712009|184801485|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.7572|TWO_SIDED|95.0|-1.7|1.2|||ANOVA||Loratadine minus Naproxen|Difference across all treatment groups||1.2|-1.7|0.7572
92456055|NCT01111123|184801511|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||CI of 95%|Log Rank|||Probabilities of PGA not worsening were estimated using the Kaplan-Meier product limit method with a comparison between treatment group survival curves evaluated by the log-rank test statistic. The Cox proportional hazards model was used to estimate the hazard ratio for worsening of PGA (equivalent to a relative risk adjusted for follow-up time) and a corresponding 95-percent confidence interval.||||<0.05
92456056|NCT01111123|184801512|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||Secondary outcomes, including subject self-assessment and signs of psoriasis ratings, were analyzed as continuous dependent variables in these statistical models. Mixed modeling analysis of covariance (ANCOVA) was used to compare the relationships between psoriasis symptoms over time in the placebo and steroid treatment groups||||<0.05
92456057|NCT01986881|184801513|NON_INFERIORITY|1-sided p-value and the non-inferiority margin is a hazard ratio of 1.3.|Hazard Ratio (HR)|0.97|||<|0.001|TWO_SIDED|95.6|0.848|1.114||Model included treatment as an explanatory factor and cohort category as a stratification factor.|Cox Proportional Hazards Model|||||1.114|0.848|<0.001
92242811|NCT01204658|184388437|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-LD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.57||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-LD vaccine vs Synflorix™ vaccine across doses was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to vaccination, across doses, in the 10PP-LD Group minus Synflorix Group.||2.57|-2.61|0.003
92242812|NCT01204658|184388438|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-HD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.64||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-HD vaccine vs Synflorix™ vaccine post dose 1 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 1 vaccination in the 10PP-HD Group minus Synflorix Group.||2.64|-2.61|0.003
92242813|NCT01204658|184388438|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-HD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.64||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-HD vaccine vs Synflorix™ vaccine post dose 2 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 2 vaccination in the 10PP-HD Group minus Synflorix Group.||2.64|-2.61|0.003
92242814|NCT01204658|184388438|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-HD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.63|2.66||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-HD vaccine vs Synflorix™ vaccine post dose 3 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 3 vaccination in the 10PP-HD Group minus Synflorix Group.||2.66|-2.63|0.003
92242815|NCT01204658|184388438|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-HD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.64||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-HD vaccine vs Synflorix™ vaccine across doses was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to vaccination, across doses, in the 10PP-HD Group minus Synflorix Group.||2.64|-2.61|0.003
92242816|NCT04594239|184388467|SUPERIORITY||Difference in response rates|78.7|||||TWO_SIDED|95.0|66.3|85.6||||||||85.6|66.3|
92242817|NCT04594239|184388467|SUPERIORITY||Difference in response rates|85.4|||||TWO_SIDED|95.0|70.5|92.3||||||||92.3|70.5|
92242818|NCT04594239|184388467|SUPERIORITY||Difference in response rates|71.8|||||TWO_SIDED|95.0|55.2|82.5||||||||82.5|55.2|
92242819|NCT03229759|184388473|SUPERIORITY||Mean Difference (Final Values)|1.48|||||TWO_SIDED|95.0|0.88|2.08||||||Test on abdomen Average treatment effect was calculated using a linear regression model for each body site was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.08|0.88|
92242820|NCT03229759|184388473|SUPERIORITY||Mean Difference (Final Values)|1.34|||||TWO_SIDED|95.0|0.72|1.96||||||Tested on the abdomen Analysis was performed based on deferral letters from the FDA. Average treatment effect was calculated using a linear regression model for each body site was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||1.96|0.72|
92242821|NCT03229759|184388473|SUPERIORITY||Mean Difference (Final Values)|1.93|||||TWO_SIDED|95.0|1.38|2.47||||||Groin||2.47|1.38|
92242822|NCT03229759|184388473|SUPERIORITY||Mean Difference (Final Values)|1.26|||||TWO_SIDED|95.0|0.73|1.79||||||Groin||1.79|0.73|
92242823|NCT02891798|184388492|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||Comparison of SF-MPQ2 Total Score Difference From Baseline between the 4-drug nerve block group and the bupivacaine only group||||0.003
92242824|NCT02891798|184388493|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Comparison of SF-MPQ2 Continuous Pain Subscore Difference From Baseline between the 4-drug nerve block group and the bupivacaine only group||||0.001
92242825|NCT02891798|184388494|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||Comparison of SF-MPQ2 Intermittent Pain Subscore Difference From Baseline between the 4-drug nerve block group and the bupivacaine only group||||0.038
92242826|NCT02891798|184388495|SUPERIORITY|||||||0.009|||||||t-test, 2 sided|||Comparison of QoR-15 Total Score at post-operative day 1 between the 4-drug nerve block group and the bupivacaine only group||||0.009
92242827|NCT02891798|184388496|NON_INFERIORITY|Testing the null hypothesis that Bupivacaine + BCD (buprenorphine, clonidine, dexamethasone) does not adversely affect recovery by producing a significantly lower score for the QoR-15 Total Score.||||||0.861|||||||t-test, 2 sided|||Comparison of QoR-15 Total Score at 6 week post-procedure between the 4-drug nerve block group and the bupivacaine only group||||0.861
92242828|NCT02891798|184388497|NON_INFERIORITY|Testing the null hypothesis that Bupivacaine + BCD (buprenorphine, clonidine, dexamethasone) does not adversely affect recovery by producing a significantly lower score for the Standing Balance test.||||||0.512|||||||t-test, 2 sided|||Comparison of Standing Balance Test score at 6 week post-procedure between the 4-drug nerve block group and the bupivacaine only group||||0.512
92242829|NCT02891798|184388498|NON_INFERIORITY|Testing the null hypothesis that Bupivacaine + BCD (buprenorphine, clonidine, dexamethasone) does not adversely affect recovery by producing a significantly slower rate for the Self-Selected Gait Speed test.||||||0.339|||||||t-test, 2 sided|||Comparison of Self-Selected Gait Speed rate at 6 week post-procedure between the 4-drug nerve block group and the bupivacaine only group.||||0.339
92242830|NCT02891798|184388499|NON_INFERIORITY|Testing the null hypothesis that Bupivacaine + BCD (buprenorphine, clonidine, dexamethasone) does not adversely affect recovery by producing a significantly slower time for the Repeated Chair Stand test.||||||0.711|||||||t-test, 2 sided|||Comparison of Repeated Chair Stand time at 6 week post-procedure between the 4-drug nerve block group and the bupivacaine only group.||||0.711
92242831|NCT00818207|184388500|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.0007|TWO_SIDED|95.0|1.23|2.18|||Regression, Logistic|||Odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||2.18|1.23|0.0007
92242832|NCT00818207|184388501|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0018|TWO_SIDED|95.0|1.21|2.33|||Regression, Logistic|||Odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||2.33|1.21|0.0018
92281345|NCT00721409|184465818|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.18||||0.0009|TWO_SIDED|95.0|1.48|6.98||1-sided p-value is from the stratified exact test (1-sided, α =0.10).|Cochran-Mantel-Haenszel|||CBR CI was calculated using the exact Clopper-Pearson method. The stratified analysis presented above was based on CMH test stratified by Part. An Odds Ratio \>1 means better response in favor of palbociclib + letrozole arm.||6.98|1.48|0.0009
92281346|NCT00721409|184465818|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.18||||0.0065|TWO_SIDED|95.0|1.3|13.9||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||13.90|1.30|0.0065
92456058|NCT01986881|184801513|NON_INFERIORITY|1-sided p-value and the non-inferiority margin is a hazard ratio of 1.3.|Hazard Ratio (HR)|1.04||||0.002|TWO_SIDED|95.6|0.887|1.211|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.211|0.887|0.002
92242833|NCT00818207|184388502|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.2979|TWO_SIDED|95.0|0.82|1.9||p-value was not adjusted for multiple comparisons.|Regression, Logistic|||Week 39 odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||1.90|0.82|0.2979
92242834|NCT00818207|184388502|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.4388|TWO_SIDED|95.0|0.76|1.87||p-value was not adjusted for multiple comparisons.|Regression, Logistic|||Week 52 odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||1.87|0.76|0.4388
92242835|NCT00818207|184388503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72|||<|0.0001|TWO_SIDED|95.0|1.35|2.2||p-value was not adjusted for multiple comparisons.|Regression, Logistic|||Odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||2.20|1.35|<0.0001
92242836|NCT00818207|184388504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.4551|TWO_SIDED|95.0|0.81|1.62||p-value was not adjusted for multiple comparisons.|Regression, Logistic|||Week 52 odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||1.62|0.81|0.4551
92242837|NCT00967226|184388569|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|STANDARD_DEVIATION|0.05||0.77|||||||t-test, 2 sided|||intention to treat analysis||||0.77
92242838|NCT01670656|184388582|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.6|||<|0.001|TWO_SIDED|95.0|-1.0|-0.2|||cLDA|||||-0.2|-1.0|< 0.001
92242839|NCT01670656|184388582|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.2|||cLDA|||||-0.2|-0.9|< 0.001
92281347|NCT00721409|184465818|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.55||||0.0442|TWO_SIDED|95.0|0.89|7.7||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||7.70|0.89|0.0442
92242840|NCT01670656|184388582|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.8|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4|||cLDA|||||-0.4|-1.1|< 0.001
92242841|NCT01670656|184388582|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.5|||<|0.001|TWO_SIDED|95.0|-0.9|-0.2|||cLDA|||||-0.2|-0.9|< 0.001
92242842|NCT01670656|184388583|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.7|||=|0.002|TWO_SIDED|95.0|-3.0|-0.4|||cLDA|||||-0.4|-3.0|= 0.002
92242843|NCT01670656|184388583|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.9|||<|0.001|TWO_SIDED|95.0|-3.1|-0.6|||cLDA|||||-0.6|-3.1|< 0.001
92281348|NCT00721409|184465819|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.399|||<|0.0001|TWO_SIDED|95.0|0.265|0.601||1-sided p-value is from the stratified log-rank test (α =0.10).|Log Rank|||Kaplan-Meier method was applied for median and 95% CI. Hazard ratio was based on assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of palbociclib + letrozole.||0.601|0.265|<0.0001
92456059|NCT01986881|184801513|NON_INFERIORITY|1-sided p-value and the non-inferiority margin is a hazard ratio of 1.3.|Hazard Ratio (HR)|0.91|||<|0.001|TWO_SIDED|95.6|0.773|1.065|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.065|0.773|<0.001
92456060|NCT01986881|184801515|SUPERIORITY||Difference in the Least Squares Means|-0.65|||<|0.001|TWO_SIDED|95.0|-0.78|-0.51||"Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, stratum, and the interaction of time by treatment. The stratum was (insulin alone or insulin+metformin) and Time was a categorical variable."|cLDA Model|||||-0.51|-0.78|<0.001
92456061|NCT01986881|184801515|SUPERIORITY||Difference in the Least Squares Means|-0.58|||<|0.001|TWO_SIDED|95.0|-0.71|-0.44||"Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, stratum, and the interaction of time by treatment. The stratum was (insulin alone or insulin+metformin) and Time was a categorical variable."|Constrained longitudinal data analysis|||||-0.44|-0.71|<0.001
92242844|NCT01670656|184388583|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.6|||=|0.003|TWO_SIDED|95.0|-2.9|-0.3|||cLDA|||||-0.3|-2.9|= 0.003
92242845|NCT01670656|184388583|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.2|||=|0.024|TWO_SIDED|95.0|-2.5|0.1|||cLDA|||||0.1|-2.5|= 0.024
92242846|NCT01670656|184388584|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.6|||=|0.026|TWO_SIDED|95.0|-3.4|0.2|||cLDA|||||0.2|-3.4|= 0.026
92242847|NCT01670656|184388584|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.5|||=|0.036|TWO_SIDED|95.0|-3.3|0.2|||cLDA|||||0.2|-3.3|= 0.036
92242848|NCT01670656|184388584|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-2.3|||=|0.002|TWO_SIDED|95.0|-4.1|-0.5|||cLDA|||||-0.5|-4.1|= 0.002
92242849|NCT01670656|184388584|SUPERIORITY_OR_OTHER_LEGACY||Diffference in Least Squares Means|-1.2|||=|0.1|TWO_SIDED|95.0|-3.0|0.6|||cLDA|||||0.6|-3.0|= 0.1
92242850|NCT01670656|184388585|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.1|||=|0.447|TWO_SIDED|95.0|-0.6|0.3|||cLDA|||||0.3|-0.6|= 0.447
92242851|NCT01670656|184388585|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.6|||=|0.003|TWO_SIDED|95.0|-1.0|-0.1|||cLDA|||||-0.1|-1.0|= 0.003
92242852|NCT01670656|184388585|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.6|||=|0.003|TWO_SIDED|95.0|-1.0|-0.1|||cLDA|||||-0.1|-1.0|= 0.003
92242853|NCT01670656|184388585|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.3|||=|0.156|TWO_SIDED|95.0|-0.7|0.2|||cLDA|||||0.2|-0.7|= 0.156
92281349|NCT00721409|184465819|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.299|||<|0.0001|TWO_SIDED|95.0|0.156|0.572||1-sided p-value is from unstratified log-rank test (α=0.10).|Log Rank|||Unstratified analysis was presented above. Kaplan-Meier method was applied for median and 95% CI.||0.572|0.156|<0.0001
92281350|NCT00721409|184465819|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.486||||0.003|TWO_SIDED|95.0|0.288|0.822||1-sided p-value is from unstratified log-rank test (α=0.10).|Log Rank|||Unstratified analysis was presented above. Kaplan-Meier method was applied for median and 95% CI.||0.822|0.288|0.0030
92242854|NCT00487084|184388593|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Log Rank|||A sample of 56 was estimated to have an 80% power to detect a 30% difference in the proportion of subjects with continuing analgesia in the MCS versus the SCM groups when 50% of the subjects in the SCM had requested supplemental analgesia. 28 subjects was added to compare the influence of time of morphine and 2-chloroprocaine administration to lidocaine-morphine analgesia. The primary outcome was compared using Kaplan-Meier survival analysis and the log-rank test.||||0.006
92242855|NCT00487084|184388593|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||Log Rank|||||||0.83
92242856|NCT00487084|184388593|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Log Rank|||||||0.009
92242857|NCT00487084|184388594|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Kruskal-Wallis|||||||<0.05
92242858|NCT00487084|184388594|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Kruskal-Wallis|||||||<0.05
92242859|NCT00487084|184388595|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Chi-squared, Corrected|||||||0.01
92242860|NCT00487084|184388595|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Chi-squared, Corrected|||||||0.01
92242861|NCT00487084|184388596|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Chi-squared, Corrected|||||||0.20
92242862|NCT00833248|184388643|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be established if the treatment difference in adjusted (for baseline volume, and baseline total IPSS) mean percentage reduction was significantly greater (two-sided at α=0.05 level) than Δ = 10 points (non-inferiority margin) in both the FAS and PP analyses sets.|Mean Difference (Final Values)|-0.3||||0.8942|TWO_SIDED|95.0|-4.74|4.14|||ANCOVA|The baseline IPSS and baseline Prostate volume were used as covariates and treatment was used as a factor in the analysis.||FAS. Estimates from analysis of variance with treatment as factors and baseline IPSS and baseline Prostate volume as covariates.||4.14|-4.74|0.8942
92242863|NCT00833248|184388644|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be established if the treatment difference in adjusted (for baseline volume, and baseline total IPSS) mean percentage reduction was significantly greater (two-sided at α=0.05 level) than Δ = 10 points (non-inferiority margin) in both the FAS and PP analyses sets.|Mean Difference (Final Values)|-0.268||||0.9123|TWO_SIDED|95.0|-5.05|4.52|||ANCOVA|The baseline IPSS and baseline Prostate volume were used as covariates and treatment was used as a factor in the analysis.||PP analysis set. Estimates from analysis of variance with treatment as factors and baseline IPSS and baseline Prostate volume as covariates.||4.52|-5.05|0.9123
92242864|NCT01830543|184388652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59|||<|0.001|TWO_SIDED|95.0|0.47|0.76|||Log Rank|||||0.76|0.47|<0.001
92242865|NCT01830543|184388652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.5|0.8|||Log Rank|||||0.8|0.5|<0.001
92242866|NCT01830543|184388653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.234|TWO_SIDED|95.0|0.33|1.31|||Log Rank|||||1.31|0.33|0.234
92242867|NCT01830543|184388653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.114|TWO_SIDED|95.0|0.28|1.16|||Log Rank|||||1.16|0.28|0.114
92242868|NCT01830543|184388654|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51||||0.144|TWO_SIDED|95.0|0.2|1.28|||Log Rank|||||1.28|0.2|0.144
92242869|NCT01830543|184388654|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5||||0.134|TWO_SIDED|95.0|0.2|1.26|||Log Rank|||||1.26|0.2|0.134
92242870|NCT01830543|184388655|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61|||<|0.001|TWO_SIDED|95.0|0.47|0.8|||Log Rank|||||0.8|0.47|<0.001
92242871|NCT01830543|184388655|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.002|TWO_SIDED|95.0|0.52|0.86|||Log Rank|||||0.86|0.52|0.002
92242872|NCT01830543|184388656|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.75|TWO_SIDED|95.0|0.69|1.68|||Log Rank|||||1.68|0.69|0.75
92242873|NCT01830543|184388656|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.765|TWO_SIDED|95.0|0.59|1.48|||Log Rank|||||1.48|0.59|0.765
92242874|NCT01830543|184388657|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.523|TWO_SIDED|95.0|0.59|2.8|||Log Rank|||||2.8|0.59|0.523
92456062|NCT01986881|184801517|SUPERIORITY||Difference in the Least Squares Means|-0.22||||0.247|TWO_SIDED|95.0|-0.6|0.16||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, and the interaction of time by treatment.|cLDA Model|||||0.16|-0.60|0.247
92242875|NCT01830543|184388657|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.664|TWO_SIDED|95.0|0.54|2.62|||Log Rank|||||2.62|0.54|0.664
92242876|NCT01830543|184388658|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.625|TWO_SIDED|95.0|0.46|1.59|||Log Rank|||||1.59|0.46|0.625
92242877|NCT01830543|184388658|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.374|TWO_SIDED|95.0|0.4|1.42|||Log Rank|||||1.42|0.4|0.374
92456063|NCT01986881|184801517|SUPERIORITY||Difference in the Least Squares Means|-0.35||||0.063|TWO_SIDED|95.0|-0.72|0.02||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, and the interaction of time by treatment.|cLDA model|||||0.02|-0.72|0.063
92456064|NCT01986881|184801519|SUPERIORITY||Difference in the Least Squares Means|-0.75|||<|0.001|TWO_SIDED|95.0|-0.98|-0.53||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, and the interaction of time by treatment.|cLDA Model|||||-0.53|-0.98|<0.001
92456065|NCT01986881|184801519|SUPERIORITY||Difference in the Least Squares Means|-0.66|||<|0.001|TWO_SIDED|95.0|-0.89|-0.43||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, and the interaction of time by treatment.|cLDA model|||||-0.43|-0.89|<0.001
92456066|NCT01986881|184801520|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.108|TWO_SIDED|95.8|0.75|1.034|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.034|0.750|0.108
92456067|NCT01986881|184801520|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.15|TWO_SIDED|95.8|0.725|1.057|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.057|0.725|0.150
92456068|NCT01986881|184801520|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.188|TWO_SIDED|95.8|0.735|1.068|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.068|0.735|0.188
92456069|NCT01986881|184801521|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.385|TWO_SIDED|95.8|0.767|1.113|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.113|0.767|0.385
92242878|NCT01830543|184388659|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.891|TWO_SIDED|95.0|0.39|2.96|||Log Rank|||||2.96|0.39|0.891
92242879|NCT01830543|184388659|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.36||||0.53|TWO_SIDED|95.0|0.52|3.58|||Log Rank|||||3.58|0.52|0.53
92242880|NCT01830543|184388660|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.79|TWO_SIDED|95.0|0.32|4.45|||Log Rank|||||4.45|0.32|0.79
92242881|NCT01830543|184388660|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.574|TWO_SIDED|95.0|0.4|5.09|||Log Rank|||||5.09|0.4|0.574
92264807|NCT04579666|184431128|SUPERIORITY||Difference in LS Mean|-3.0||||0.7205|TWO_SIDED|95.0|-19.5|13.5|||ANCOVA|||Analysis of covariance (ANCOVA) was used to analyze the ranks of the CAFS score with treatment as a fixed effect, adjusted for baseline ALSFRS-R total score, time from symptom onset, baseline Log neurofilament light chain (NfL), and the randomization stratification factors (location of first muscle weakness and use of riluzole and edaravone).||13.5|-19.5|0.7205
92456070|NCT01986881|184801521|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.417|TWO_SIDED|95.8|0.739|1.139|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.139|0.739|0.417
92456071|NCT01986881|184801521|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.494|TWO_SIDED|95.8|0.75|1.154|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.154|0.750|0.494
92456072|NCT01986881|184801522|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.081|TWO_SIDED|95.8|0.63|1.036|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.036|0.630|0.081
92456073|NCT01986881|184801522|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.258|TWO_SIDED|95.8|0.638|1.137|||Cox Proportional Hazard Model|"Model included treatment as an explanatory factor and cohort category as a stratification factor.~Renal"||||1.137|0.638|0.258
92456074|NCT01986881|184801522|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.065|TWO_SIDED|95.8|0.568|1.028|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.028|0.568|0.065
92456075|NCT01986881|184801523|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.183|TWO_SIDED|95.0|0.823|1.038||Hazard ratio, CI, and 2-sided p-value comparing All Ertugliflozin versus Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model|||||1.038|0.823|0.183
92456076|NCT01986881|184801523|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.45|TWO_SIDED|95.0|0.831|1.086|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.086|0.831|0.450
92456077|NCT01986881|184801523|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.123|TWO_SIDED|95.0|0.785|1.029|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.029|0.785|0.123
92456078|NCT01986881|184801524|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.676|TWO_SIDED|95.0|0.861|1.259|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.259|0.861|0.676
92456079|NCT01986881|184801524|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.139|TWO_SIDED|95.0|0.949|1.451|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.451|0.949|0.139
92456080|NCT01986881|184801524|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.416|TWO_SIDED|95.0|0.727|1.141|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.141|0.727|0.416
92456081|NCT01986881|184801525|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.663|TWO_SIDED|95.0|0.82|1.365||Hazard ratio, CI, and 2-sided p-value comparing All Ertugliflozin versus Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model||Hazard ratio, CI, and 2-sided p-value comparing All Ertugliflozin versus Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|||1.365|0.820|0.663
92456082|NCT01986881|184801525|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.415|TWO_SIDED|95.0|0.845|1.505||A two-sided p-value compared Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model|||Hazard ratio, confidence interval, and two-sided p-value comparing Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that includes treatment as an explanatory factor and cohort category as a stratification factor.||1.505|0.845|0.415
92456083|NCT01986881|184801525|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.953|TWO_SIDED|95.0|0.736|1.334||A two-sided p-value compared Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model|||Hazard ratio, confidence interval, and two-sided p-value comparing Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that includes treatment as an explanatory factor and cohort category as a stratification factor.||1.334|0.736|0.953
92456084|NCT01986881|184801526|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.006|TWO_SIDED|95.0|0.539|0.902||Hazard ratio, CI, and 2-sided p-value comparing All Ertugliflozin versus Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model|||||0.902|0.539|0.006
92456085|NCT01986881|184801526|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.016|TWO_SIDED|95.0|0.502|0.932|||Cox Proportional Hazards Model|Hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.||||0.932|0.502|0.016
92456086|NCT01986881|184801526|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.028|TWO_SIDED|95.0|0.524|0.964|||Cox Proportional Hazards Model|Hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.||||0.964|0.524|0.028
92242882|NCT00839423|184388701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|1.42|<|0.0001|TWO_SIDED|95.0|-8.49|-2.91||"A hierarchical hypothesis testing procedure was used. The comparison of 10 mg to placebo was primary.~Since p-value was \<0.05, hierarchically testing continued."|ANCOVA|||"The statistical model was an analysis of covariance (ANCOVA) of the change from baseline in MADRS total score (FAS, LOCF) with treatment and centre as fixed factors and the baseline MADRS score as a covariate.~Null hypothesis: No difference between 10 mg Vortioxetine and placebo at Week 6.~With 96 patients in each treatment arm and a standard deviation of 9 points, the power to detect a true effect of 3.7 points on the MADRS total score at Week 6 will be 80%."||-2.91|-8.49|<0.0001
92281351|NCT00721409|184465820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.69|TWO_SIDED|95.0|-0.7|1.0||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Severity Scale.||1.0|-0.7|0.6900
92456087|NCT01986881|184801527|SUPERIORITY|Hazard ratio, CI, and 2-sided p-value comparing Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor. The on-study approach included confirmed events that occurred between the randomization date and the on-study censor date.|Hazard Ratio (HR)|0.93||||0.34|TWO_SIDED|95.0|0.797|1.081||Hazard ratio, CI, and 2-sided p-value comparing Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model|||||1.081|0.797|0.340
92281352|NCT00721409|184465820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.7125|TWO_SIDED|95.0|-1.8|1.2||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Severity Scale.||1.2|-1.8|0.7125
92456088|NCT01986881|184801527|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.463|TWO_SIDED|95.0|0.784|1.117|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.117|0.784|0.463
92456089|NCT01986881|184801527|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.363|TWO_SIDED|95.0|0.771|1.1|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.100|0.771|0.363
92456090|NCT01986881|184801528|SUPERIORITY|Ertugliflozin vs Placebo, based on the Andersen-Gill model for the recurrent events at the end of study. The on-study approach includes confirmed events that occurred between the randomization date and the on-study censor date.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.898|1.131||||||||1.131|0.898|
92456091|NCT01986881|184801528|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.937|1.219||||||||1.219|0.937|
92456092|NCT01986881|184801528|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.828|1.085||||||||1.085|0.828|
92456093|NCT01986881|184801529|SUPERIORITY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.716|0.945||||||Ertugliflozin vs Placebo, based on the Andersen-Gill model for the recurrent events at the end of study. The on-study approach included confirmed events that occurred between randomization date and the on-study censor date.||0.945|0.716|
92456094|NCT01986881|184801529|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.673|0.935|||||Ertugliflozin vs Placebo, based on the Andersen-Gill model for the recurrent events at the end of study.|||0.935|0.673|
92456095|NCT01986881|184801529|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.725|1.001|||||Ertugliflozin vs Placebo, based on the Andersen-Gill model for the recurrent events at the end of study.|||1.001|0.725|
92456096|NCT01986881|184801530|SUPERIORITY||Difference in the Least Squares Means|-0.5|||<|0.001|TWO_SIDED|95.0|-0.55|-0.46|||cLDA Model|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.46|-0.55|<0.001
92456097|NCT01986881|184801530|SUPERIORITY||Difference in the Least Squares Means|-0.48|||<|0.001|TWO_SIDED|95.0|-0.53|-0.44|||cLDA model|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.44|-0.53|<0.001
92456098|NCT01986881|184801531|SUPERIORITY||Difference in the Least Squares Means|-0.48|||<|0.001|TWO_SIDED|95.0|-0.54|-0.43|||Constrained Longitudinal Data Analysis|Model included fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.43|-0.54|<0.001
92456099|NCT01986881|184801531|SUPERIORITY||Difference in the Least Squares Means|-0.5|||<|0.001|TWO_SIDED|95.0|-0.55|-0.45|||Constrained Longitudinal Data Analysis|Model included fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.45|-0.55|<0.001
92456100|NCT01986881|184801532|SUPERIORITY||Difference in the least squares means|-0.37|||<|0.001|TWO_SIDED|95.0|-0.45|-0.3||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis||Ertugliflozin vs. Placebo|||-0.30|-0.45|<0.001
92242883|NCT00839423|184388701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|1.39|<|0.0001|TWO_SIDED|95.0|-8.64|-3.17||"The hierarchical hypothesis testing meant that comparison of 5 mg to placebo was performed at a 5% significance level since significance was achieved for the primary comparison of 10 mg to placebo.~Since p-value \<0.05, hierarchically testing contd."|ANCOVA|||"The statistical model was ANCOVA of the change from baseline in MADRS total score (FAS, LOCF) with treatment and centre as fixed factors and the baseline MADRS score as a covariate.~Null hypothesis: No difference between 5 mg Vortioxetine and placebo at Week 6."||-3.17|-8.64|<0.0001
92242884|NCT00839423|184388701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.42|STANDARD_ERROR_OF_MEAN|1.38|<|0.0001|TWO_SIDED|95.0|-9.13|-3.72||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||-3.72|-9.13|<0.0001
92456101|NCT01986881|184801532|SUPERIORITY||Difference in Least Squares Means|-0.39|||<|0.001|TWO_SIDED|95.0|-0.46|-0.32||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|Ertugliflozin vs. Placebo.||||-0.32|-0.46|<0.001
92456102|NCT01986881|184801534|SUPERIORITY||Difference in the least squares means|-0.31||||0.001|TWO_SIDED|95.0|-0.41|-0.21||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|||||-0.21|-0.41|0.001
92456103|NCT01986881|184801534|SUPERIORITY||Difference in the least squares means|-0.36|||<|0.001|TWO_SIDED|95.0|-0.46|-0.26||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA model|||||-0.26|-0.46|<0.001
92456104|NCT01986881|184801549|SUPERIORITY||Difference in the Least Squares Means|-17.56|||<|0.001|TWO_SIDED|95.0|-19.49|-15.63|||CLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-15.63|-19.49|<0.001
92456105|NCT01986881|184801549|SUPERIORITY||Difference in the Least Squares Means|-15.1|||<|0.001|TWO_SIDED|95.0|-17.03|-13.17|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-13.17|-17.03|<0.001
92456106|NCT01986881|184801556|SUPERIORITY||||||<|0.001|||||||Log Rank|Log-Rank Test for the comparison to Placebo was based on all data (including for those participants who never had the event).||||||<0.001
92456107|NCT01986881|184801556|SUPERIORITY||||||<|0.001|||||||Log Rank|Log-Rank Test for the comparison to Placebo was based on all data (including for those participants who never had the event).||||||<0.001
92242885|NCT00839423|184388702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.69||0.2377|TWO_SIDED|95.0|-2.17|0.54||"The hierarchical procedure meant that the above hypothesis was tested at a 5% significance level since significance was achieved for both 10 and 5 mg at Week 6.~Since p-value was \>0.05, hierarchically testing stopped here."|ANCOVA|||"The statistical model was ANCOVA of the change from baseline in MADRS total score (FAS, LOCF) with treatment and centre as fixed factors and the baseline MADRS score as a covariate.~Null hypothesis: No difference between 10 mg Vortioxetine and placebo at Week 1."||0.54|-2.17|0.2377
92242886|NCT00839423|184388702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.67||0.7489|TWO_SIDED|95.0|-1.54|1.11||The hierarchical procedure meant that the above hypothesis was not tested since significance was not achieved for 10 mg at Week 1. A nominal p-value is provided.|ANCOVA|||"The statistical model was ANCOVA of the change from baseline in MADRS total score (FAS, LOCF) with treatment and centre as fixed factors and the baseline MADRS score as a covariate.~Null hypothesis: No difference between 5 mg Vortioxetine and placebo at Week 1."||1.11|-1.54|0.7489
92242887|NCT00839423|184388702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.67||0.4142|TWO_SIDED|95.0|-0.77|1.85||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||1.85|-0.77|0.4142
92242888|NCT00839423|184388703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.28|STANDARD_ERROR_OF_MEAN|1.22|<|0.0001|TWO_SIDED|95.0|-7.69|-2.88||A nominal p-value is provided.|ANCOVA|||||-2.88|-7.69|<0.0001
92242889|NCT00839423|184388703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.33|STANDARD_ERROR_OF_MEAN|1.25|<|0.0001|TWO_SIDED|95.0|-7.79|-2.88||A nominal p-value is provided.|ANCOVA|||||-2.88|-7.79|<0.0001
92242890|NCT00839423|184388704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|1.0||0.0011|TWO_SIDED|95.0|-5.27|-1.33||A nominal p-value is provided.|ANCOVA|||||-1.33|-5.27|0.0011
92242891|NCT00839423|184388704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|1.02||0.0034|TWO_SIDED|95.0|-5.01|-1.0||A nominal p-value is provided.|ANCOVA|||||-1.00|-5.01|0.0034
92242892|NCT00839423|184388705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.28|-0.52||A nominal p-value is provided.|ANCOVA|||||-0.52|-1.28|<0.0001
92242893|NCT00839423|184388705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.34|-0.56||A nominal p-value is provided.|ANCOVA|||||-0.56|-1.34|<0.0001
92242894|NCT00839423|184388706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.9|-0.27||A nominal p-value is provided.|ANCOVA|||||-0.27|-0.90|0.0003
92281353|NCT00721409|184465820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.4012|TWO_SIDED|95.0|-0.6|1.5||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Severity Scale.||1.5|-0.6|0.4012
92242895|NCT00839423|184388706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.92|-0.27||A nominal p-value is provided.|ANCOVA|||||-0.27|-0.92|0.0003
92242896|NCT00839423|184388707|SUPERIORITY_OR_OTHER||Difference %|21.9||||0.002|TWO_SIDED|95.0|8.89|34.92||A nominal p-value is provided.|Fisher Exact|||||34.92|8.89|0.002
92242897|NCT00839423|184388707|SUPERIORITY_OR_OTHER||Difference %|23.34||||0.001|TWO_SIDED|95.0|10.05|36.43||A nominal p-value is provided.|Fisher Exact|||||36.43|10.05|0.001
92242898|NCT00839423|184388708|SUPERIORITY_OR_OTHER||Difference %|22.41||||0.001|TWO_SIDED|95.0|9.74|35.07||A nominal p-value is provided.|Fisher Exact|||||35.07|9.74|0.001
92242899|NCT00839423|184388708|SUPERIORITY_OR_OTHER||Difference %|22.33||||0.001|TWO_SIDED|95.0|9.39|35.28||A nominal p-value is provided.|Fisher Exact|||||35.28|9.39|0.001
92242900|NCT03377244|184388717|SUPERIORITY|||||||0.1013||||||The p-value above reflects results of between-arms analysis of percent change in weight from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.1013
92242901|NCT03377244|184388718|SUPERIORITY|||||||0.495||||||The p-value above reflects results of between-arms analysis of change in mean HbA1c from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment.||||||0.4950
92242902|NCT03377244|184388719|SUPERIORITY|||||||0.7416||||||The p-value above reflects results of between-arms analysis of change in systolic blood pressure from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.7416
92242903|NCT03377244|184388720|SUPERIORITY|||||||0.0702||||||The p-value above reflects results of between-arms analysis of change in diastolic blood pressure from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.0702
92242904|NCT03377244|184388721|SUPERIORITY|||||||0.007||||||The p-value above reflects results of between-arms analysis of change in eating habits self-efficacy scores from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.0070
92242905|NCT03377244|184388722|SUPERIORITY|||||||0.0009||||||The p-value above reflects results of between-arms analysis of change in physical activity self-efficacy scale scores from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.0009
92242906|NCT03377244|184388723|SUPERIORITY|||||||0.374||||||The p-value above reflects results of between-arms analysis for the probability of participants to engage in sufficient physical activity at 6 months post-intervention.|Regression, Logistic|Model adjusted for age, sex, education, marital status, employment status, and baseline physical activity.||||||0.3740
92242907|NCT03377244|184388724|SUPERIORITY|||||||0.9556||||||The p-value above reflects results of between-arms analysis of change in participants' sugar-sweetened beverage consumption per day from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.9556
92456108|NCT01986881|184801557|SUPERIORITY||||||<|0.001|||||||Log Rank|Log-Rank Test for the comparison to Placebo was based on all data (including for those participants who never had the event).||||||<0.001
92456109|NCT01986881|184801557|SUPERIORITY||||||<|0.001|||||||Log Rank|Log-Rank Test for the comparison to Placebo was based on all data (including for those participants who never had the event).||||||<0.001
92456110|NCT01986881|184801565|SUPERIORITY||Difference in the Least Squares Means|-2.78|||<|0.001|TWO_SIDED|95.0|-3.45|-2.1|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-2.10|-3.45|<0.001
92456111|NCT01986881|184801565|SUPERIORITY||Difference in the Least Squares Means|-2.53|||<|0.001|TWO_SIDED|95.0|-3.21|-1.86|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.86|-3.21|<0.001
92456112|NCT01986881|184801566|SUPERIORITY||Difference in the Least Squares Mean|-3.15|||<|0.001|TWO_SIDED|95.0|-3.85|-2.45|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-2.45|-3.85|<0.001
92242908|NCT03377244|184388725|SUPERIORITY|||||||0.1726||||||The p-value above reflects results of between-arms analysis of change in participants' fruit and vegetable consumption scale scores from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.1726
92281354|NCT00721409|184465821|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.3346|TWO_SIDED|95.0|-0.5|1.3||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Interference Scale.||1.3|-0.5|0.3346
92456113|NCT01986881|184801566|SUPERIORITY||Difference in the Least Squares Means|-2.58|||<|0.001|TWO_SIDED|95.0|-3.28|-1.89|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.89|-3.28|<0.001
92456114|NCT01986881|184801567|SUPERIORITY||Difference in the Least Squares Means|-2.72|||<|0.001|TWO_SIDED|95.0|-3.57|-1.86|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.86|-3.57|<0.001
92242909|NCT03377244|184388726|SUPERIORITY|||||||0.0478||||||The p-value above reflects results of between-arms analysis of change in participants' family support scale scores from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.0478
92242910|NCT04348656|184388734|SUPERIORITY||Risk Ratio (RR)|1.16||||0.18|TWO_SIDED|95.0|0.94|1.43|||wald test|||||1.43|0.94|0.18
92242911|NCT04348656|184388735|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.3|TWO_SIDED|95.0|0.89|1.47|||Regression, Cox|||||1.47|0.89|0.30
92242912|NCT04348656|184388736|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.41|TWO_SIDED|95.0|-2.1|0.7|||t-test, 2 sided|bootstrap estimates based on resampling process|bootstrap estimates based on resampling process|||0.7|-2.1|0.41
92242913|NCT04348656|184388737|SUPERIORITY||Risk Ratio (RR)|1.12||||0.4|TWO_SIDED|95.0|0.86|1.46|||wald test|||||1.46|0.86|0.40
92242914|NCT04348656|184388738|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.22|TWO_SIDED|95.0|-0.3|1.7|||t-test, 2 sided|||||1.7|-0.3|0.22
92242915|NCT04348656|184388739|SUPERIORITY||Risk Ratio (RR)|0.83||||0.72|TWO_SIDED|95.0|0.31|2.27|||t-test, 2 sided|bootstrap estimates based on resampling process|bootstrap estimates based on resampling process|||2.27|0.31|0.72
92242916|NCT04348656|184388742|SUPERIORITY||Risk Ratio (RR)|1.13||||0.33|TWO_SIDED|95.0|0.88|1.45|||wald test|||||1.45|0.88|0.33
92242917|NCT04348656|184388743|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.91|TWO_SIDED|95.0|0.76|1.35|||Regression, Cox|competing risk analysis|competing risk analysis|||1.35|0.76|0.91
92242918|NCT04348656|184388744|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.18|TWO_SIDED|95.0|0.8|1.04|||Regression, Cox|||||1.04|0.80|0.18
92242919|NCT04348656|184388745|SUPERIORITY||Risk Ratio (RR)|1.53||||0.03|TWO_SIDED|95.0|1.04|2.26|||wald test|||||2.26|1.04|0.03
92242920|NCT04348656|184388745|SUPERIORITY||Hazard Ratio (HR)|1.7||||0.02|TWO_SIDED|95.0|1.08|2.69|||Regression, Cox|competing risk analysis|competing risk analysis|The cumulative incidence of Grade 3 and 4 serious AEs is described as a hazard ratio.||2.69|1.08|0.02
92242921|NCT04348656|184388747|SUPERIORITY||Risk Ratio (RR)|1.27||||0.03|TWO_SIDED|95.0|1.02|1.57|||wald test|||||1.57|1.02|0.03
92242922|NCT04348656|184388750|OTHER|Incremental cost per quality-adjusted life day gained (ICER)- this is a summary measure of the cost-effectiveness of the intervention, compared to the control group. This is calculated using the cost (derived from cost of the intervention and cost of hospital stay based on the payer's perspective) per patient and the quality-adjusted life days calculated using the EQ-5D-5L results.|ICER (CAD)|-44623.01|||||TWO_SIDED|95.0|-525369.24|436123.22|||||ICER is reported in Canadian dollars. 95% CI is calculated by 1000 bootstrap sampling using bias-corrected accelerated method.|||436123.22|-525369.24|
92281355|NCT00721409|184465821|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.563|TWO_SIDED|95.0|-1.0|1.9||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Interference Scale.||1.9|-1.0|0.5630
92173849|NCT05229146|184239207|SUPERIORITY|||||||0.043||||||Not adjusted for multiple comparisons.|t-test, 1 sided|t-statistic = 1.92, df = 9||One-sided paired-samples t-test comparing baseline to responses at two week follow-up (approximately four weeks after baseline).||||.043
92242923|NCT00922194|184388758|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-8.36|STANDARD_DEVIATION|3.3|<|0.05||95.0|-9.03|-7.72|||Paired t test|||Analysis of difference between 12 months or more and baseline values||-7.72|-9.03|<0.05
92242924|NCT00922194|184388759|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.27|||<|0.05||95.0|-3.5|-3.0|||Wilcoxon paired signed rank-sum test|||Analysis of difference between 12 months or more and baseline values||-3.0|-3.5|<0.05
92242925|NCT00922194|184388760|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-7.41|||<|0.05||95.0|-8.37|-6.47|||Wilcoxon paired signed rank-sum test|||Analysis of difference between 12 months and baseline values||-6.47|-8.37|<0.05
92242926|NCT00922194|184388761|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.014|||<|0.05||95.0|-0.02|0.001|||Wilcoxon paired sign rank-sum test|||Analysis of difference between 12 months or more and baseline values||0.001|-0.02|<0.05
92242927|NCT00922194|184388762|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.61|||<|0.05||95.0|-5.2|-3.8|||Wilcoxon paired signed rank-sum test|||Analysis of difference between 12 months and baseline values||-3.8|-5.2|<0.05
92242928|NCT00922194|184388763|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.97|||<|0.05||95.0|-3.57|-2.38|||Wilcoxon paired signed rank-sum test|||Analysis of difference between 12 months and baseline values||-2.38|-3.57|<0.05
92242929|NCT00922194|184388764|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.37|||<|0.05||95.0|-2.65|-2.08|||Wilcoxon paired signed rank-sum test|||Analysis of difference between 12 months and baseline values||-2.08|-2.65|<0.05
92456115|NCT01986881|184801567|SUPERIORITY||Difference in the Least Squares Means|-2.7|||<|0.001|TWO_SIDED|95.0|-3.56|-1.85|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.85|-3.56|<0.001
92456116|NCT01986881|184801569|SUPERIORITY||Difference in the Least Squares Means|-2.6|||<|0.001|TWO_SIDED|95.0|-3.68|-1.52|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.52|-3.68|<0.001
92456117|NCT01986881|184801569|SUPERIORITY||Difference in the Least Squares Means|-2.79|||<|0.001|TWO_SIDED|95.0|-3.87|-1.71|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.71|-3.87|<0.001
92456118|NCT01986881|184801572|SUPERIORITY||Difference in the Least Squares Means|-0.96|||<|0.001|TWO_SIDED|95.0|-1.37|-0.56|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.56|-1.37|<0.001
92242930|NCT04131517|184388765|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL + OC and OC Alone of the least squares (LS) means for the log-transformed Cmax was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|1.0404|||||TWO_SIDED|90.0|0.94156|1.1497||||||The analysis of variance model (ANOVA) included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.1497|0.94156|
92242931|NCT04131517|184388766|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL + OC and OC Alone of the LS means for the log-transformed Cmax was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|0.89272|||||TWO_SIDED|90.0|0.76892|1.0364||||||The ANOVA model included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.0364|0.76892|
92242932|NCT04131517|184388769|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL + OC and OC Alone of the LS means for the log-transformed AUC0-inf was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|1.0276|||||TWO_SIDED|90.0|0.95544|1.1052||||||The ANOVA model included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.1052|0.95544|
92242933|NCT04131517|184388770|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL+ OC and OC Alone of the LS means for the log-transformed AUC0-inf was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|0.88808|||||TWO_SIDED|90.0|0.52185|1.5113||||||The ANOVA model included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.5113|0.52185|
92281356|NCT00721409|184465821|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.4427|TWO_SIDED|95.0|-0.7|1.6||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Severity Scale.||1.6|-0.7|0.4427
92456119|NCT01986881|184801572|SUPERIORITY||Difference in the Least Means Squares|-0.87|||<|0.001|TWO_SIDED|95.0|-1.28|-0.47|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.47|-1.28|<0.001
92456120|NCT01986881|184801573|SUPERIORITY||Difference in the Least Squares Means|-0.81|||<|0.001|TWO_SIDED|95.0|-1.22|-0.39|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.39|-1.22|<0.001
92456121|NCT01986881|184801573|SUPERIORITY||Difference in the Least Squares Means|-0.83|||<|0.001|TWO_SIDED|95.0|-1.24|-0.41|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.41|-1.24|<0.001
92456122|NCT01986881|184801574|SUPERIORITY||Difference in the Least Squares Means|-0.67||||0.01|TWO_SIDED|95.0|-1.19|-0.16|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.16|-1.19|0.010
92173850|NCT05229146|184239208|SUPERIORITY||Mean Difference (Final Values)|-1.03||||0.319|TWO_SIDED|||||No adjustments were made. DF = 15.|t-test, 2 sided|||Comparison is between future orientation subscale pre- and post-subscale scores.||||.319
92173851|NCT05229146|184239208|SUPERIORITY||Mean Difference (Final Values)|-0.711||||0.488|TWO_SIDED||||||t-test, 2 sided|No adjustments were made. DF = 15.||Comparison between immediate-orientation subscales.||||.488
92242934|NCT04131517|184388777|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL + OC and OC Alone of the LS means for the log-transformed Cmax was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|0.96378|||||TWO_SIDED|90.0|0.85043|1.0922||||||The ANOVA model included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.0922|0.85043|
92242935|NCT04131517|184388779|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL + OC and OC Alone of the LS means for the log-transformed AUC was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|0.96842|||||TWO_SIDED|90.0|0.91888|1.0206||||||The ANOVA model included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.0206|0.91888|
92242936|NCT05142332|184388785|SUPERIORITY||Adjusted absolute difference|11.9|||<|0.001|TWO_SIDED|95.0|4.5|19.3|||Regression, Logistic|||||19.3|4.5|<0.001
92242937|NCT05142332|184388786|SUPERIORITY||Adjusted absolute difference|7.9|||<|0.001|TWO_SIDED|95.0|1.7|14.1|||Regression, Logistic|||||14.1|1.7|<0.001
92242938|NCT02190747|184388839|OTHER|||||||0.1664|||||||Cochran-Armitage test of trend|||Cochran-Armitage test of trend (one-sided). The Cochran-Armitage test of trend assessed the overall trend of response across the dose groups (from the lowest dose \[or placebo\], to the highest dose).||||0.1664
92281357|NCT03879239|184465830|SUPERIORITY|||||||0.0011||||||Responder Rate on Weekly CSBM1 in the ITT (Intention to Treat) analysis set. (For details, refer to the primary outcome description).|Chi-squared|||||||0.0011
92281358|NCT03879239|184465830|SUPERIORITY|||||||0.0085||||||Responder Rate on Weekly CSBM2 in the ITT (Intention to Treat) analysis set. (For details, refer to the primary outcome description).|Chi-squared|||||||0.0085
92281359|NCT03179345|184465846|SUPERIORITY||Mean Difference (Net)|-0.141|STANDARD_ERROR_OF_MEAN|0.06||0.0275|TWO_SIDED|95.0|-0.266|-0.016|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within Sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||-0.016|-0.266|0.0275
92242939|NCT02190747|184388840|OTHER|||||||0.2335|||||||Cochran-Armitage test of trend|||Week 6: Cochran-Armitage test of trend (one-sided). The Cochran-Armitage test of trend assessed the overall trend of response across the dose groups (from the lowest dose \[or placebo\], to the highest dose).||||0.2335
92242940|NCT02190747|184388840|OTHER|||||||0.0837|||||||Cochran-Armitage test of trend|||Week 12: Cochran-Armitage test of trend (one-sided). The Cochran-Armitage test of trend assessed the overall trend of response across the dose groups (from the lowest dose \[or placebo\], to the highest dose).||||0.0837
92242941|NCT02190747|184388841|OTHER||Least square (LS) mean|-86.35|STANDARD_ERROR_OF_MEAN|220.57||0.6984|TWO_SIDED||||||Pairwise test|||Week 6: Analysis of area of new HO||||0.6984
92242942|NCT02190747|184388841|OTHER||LS mean|-38.07|STANDARD_ERROR_OF_MEAN|252.192||0.8811|TWO_SIDED||||||Pairwise test|||Week 6: Analysis of area of new HO||||0.8811
92242943|NCT02190747|184388841|OTHER||LS mean|-764.38|STANDARD_ERROR_OF_MEAN|220.57||0.0017|TWO_SIDED||||||Pairwise test|||Week 12: Analysis of area of new HO||||0.0017
92242944|NCT02190747|184388841|OTHER||LS mean|-703.43|STANDARD_ERROR_OF_MEAN|252.192||0.0094|TWO_SIDED||||||Pairwise test|||Week 12: Analysis of area of new HO||||0.0094
92242945|NCT02190747|184388842|OTHER|||||||0.1503|||||||Cochran-Armitage test of trend|||Cochran-Armitage test of trend (one-sided). The Cochran-Armitage test of trend assessed the overall trend of response across the dose groups (from the lowest dose \[or placebo\], to the highest dose).||||0.1503
92242946|NCT02345252|184388866|NON_INFERIORITY|A sample size of 275 HIV-1 infected participants per treatment group would provide 85% power to detect a noninferiority margin of 8% in the Week 48 response rate difference between the FTC/RPV/TAF group and FTC/RPV/TDF group. For sample size and power computation, it is assumed that both treatment groups will have a response rate of 89% (based on Gilead Study GS-US-292-0109), that a noninferiority margin is 8%, and that the significance level of the test is at a one-sided alpha level of 0.025.|Difference in Percentages|-0.3|||||TWO_SIDED|95.001|-4.2|3.7|||||The difference in percentages and its 95.001% confidence interval (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The null hypothesis was that the percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48 in the FTC/RPV/TAF group was at least 8% lower than the rate in the FTC/RPV/TDF group; the alternative hypothesis was that the percentage of participants with HIV-1 RNA \< 50 copies/mL in the FTC/RPV/TAF group was less than 8% lower than that in the FTC/RPV/TDF group.||3.7|-4.2|
92242947|NCT02345252|184388866|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92242948|NCT04360187|184388886|SUPERIORITY||LS mean of difference|-17.13||||0.0002|TWO_SIDED|95.0|-25.98|-8.27|||Mixed effect Model for Repeated Measures||Crisaborole = Test Vehicle = Reference|||-8.27|-25.98|0.0002
92242949|NCT04360187|184388890|SUPERIORITY||Risk Difference (RD)|12.9||||0.0124|TWO_SIDED|95.0|2.8|23.1|||normal approximation to response rates||Crisaborole = Test Vehicle = Reference|||23.1|2.8|0.0124
92242950|NCT04360187|184388891|SUPERIORITY||Risk Difference (RD)|11.7||||0.0078|TWO_SIDED|95.0|3.1|20.3|||normal approximation to response rates||Crisaborole = Test Vehicle = Reference|||20.3|3.1|0.0078
92242951|NCT04360187|184388892|SUPERIORITY||LS Mean of Difference|-0.79||||0.0009|TWO_SIDED|95.0|-1.26|-0.33|||Mixed effect Model for Repeated Measures||Crisaborole = Test Vehicle = Reference|||-0.33|-1.26|0.0009
92242952|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% confidential interval (CI) on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|Geometric Mean Ratio (GMR)|13.16|||||TWO_SIDED|95.0|8.99|19.28|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|Geometric mean ratio (GMR) of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 1||19.28|8.99|
92242953|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|5.88|||||TWO_SIDED|95.0|4.32|8.01|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 3||8.01|4.32|
92242954|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|17.98|||||TWO_SIDED|95.0|12.07|26.78|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 4||26.78|12.07|
92242955|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|2.42|||||TWO_SIDED|95.0|1.9|3.08|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 5||3.08|1.90|
92242956|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|6.35|||||TWO_SIDED|95.0|4.68|8.61|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 6A||8.61|4.68|
92242957|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|6.64|||||TWO_SIDED|95.0|4.92|8.97|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 6B||8.97|4.92|
92173852|NCT05229146|184239209|SUPERIORITY||Mean Difference (Final Values)|0.438||||0.34|ONE_SIDED||||||t-test, 1 sided|No adjustments were made. DF = 10.||Performed a paired-samples one-sided t-test comparing positive parenting before the intervention to after the intervention.||||.34
92173853|NCT05229146|184239209|SUPERIORITY||Mean Difference (Final Values)|-0.363||||0.362|ONE_SIDED||||||t-test, 1 sided|No adjustments were made. DF = 10.||Performed a one-sided paired-samples t-test to compare negative parenting before and after the intervention.||||.362
92173854|NCT05229146|184239210|SUPERIORITY||Mean Difference (Final Values)|-3.77|||<|0.001|ONE_SIDED||||||t-test, 1 sided|No adjustments, DF = 15||Used a one-sided paired samples t-test to examine changes in the parental involvement subscale from pre-intervention to post-intervention (approximately 4 weeks later).||||<.001
92173855|NCT05229146|184239210|SUPERIORITY||Median Difference (Final Values)|-1.14||||0.137|ONE_SIDED||||||t-test, 1 sided|||Used a one-sided paired samples t-test to examine changes in the positive parenting subscale from pre-intervention to post-intervention (approximately 4 weeks later).||||.137
92173856|NCT05229146|184239210|SUPERIORITY||Mean Difference (Final Values)|2.31||||0.018|ONE_SIDED||||||t-test, 1 sided|No adjustments; DF = 15.||Used a one-sided paired samples t-test to examine changes in the inconsistent discipline subscale from pre-intervention to post-intervention (approximately 4 weeks later).||||.018
92242958|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|9.42|||||TWO_SIDED|95.0|6.91|12.83|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 7F||12.83|6.91|
92242959|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|3.89|||||TWO_SIDED|95.0|2.96|5.1|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 9V||5.10|2.96|
92456123|NCT01986881|184801574|SUPERIORITY||Difference in the Least Squares Means|-0.71||||0.006|TWO_SIDED|95.0|-1.22|-0.2|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.20|-1.22|0.006
92456124|NCT01986881|184801576|SUPERIORITY||Difference in the least squares means|-0.78||||0.024|TWO_SIDED|95.0|-1.46|-0.1||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.10|-1.46|0.024
92456125|NCT01986881|184801576|SUPERIORITY||Difference in the least squares means|-0.81||||0.02|TWO_SIDED|95.0|-1.48|-0.13||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.13|-1.48|0.020
92173857|NCT05229146|184239210|SUPERIORITY||Mean Difference (Final Values)|2.39||||0.015|ONE_SIDED||||||t-test, 1 sided|No adjustments; DF = 15.||Used a one-sided paired samples t-test to examine changes in the use of corporal punishment subscale from pre-intervention to post-intervention (approximately 4 weeks later).||||.015
92173858|NCT05229146|184239210|SUPERIORITY||Mean Difference (Final Values)|2.23||||0.021|ONE_SIDED||||||t-test, 1 sided|||Used a one-sided paired samples t-test to examine changes in the poor parental monitoring/supervision subscale from pre-intervention to post-intervention (approximately 4 weeks later).||||.021
92173859|NCT05229146|184239211|SUPERIORITY||Mean Difference (Final Values)|0.878||||0.197|ONE_SIDED||||||t-test, 1 sided|No adjustments; DF = 15||Used a one-sided paired-samples t-test to examine changes in emotion regulation subscale from pre-intervention to post-intervention.||||.197
92173860|NCT05229146|184239211|SUPERIORITY||Mean Difference (Final Values)|0.857||||0.203|ONE_SIDED||||||t-test, 1 sided|No adjustments, DF = 15.||Used a one-sided paired-samples t-test to examine changes in lability/negativity subscale from pre-intervention to post-intervention.||||.203
92173861|NCT04640298|184239226|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
92173862|NCT04640298|184239227|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
92173863|NCT04640298|184239228|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
92173864|NCT03891667|184239260|SUPERIORITY||Odds Ratio (OR)|4.0|||||TWO_SIDED|95.0|0.21|75.66||||||||75.66|.21|
92173865|NCT03891667|184239261|SUPERIORITY||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.05|9.47||||||||9.47|0.05|
92173866|NCT02100813|184239279|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.31|||<|0.001|TWO_SIDED|95.0|0.23|0.42|||Negative binomial regression|||Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||0.42|0.23|<0.001
92456126|NCT01986881|184801579|SUPERIORITY||Difference in the Least Squares Means|-1.92|||<|0.001|TWO_SIDED|95.0|-2.07|-1.77|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.77|-2.07|<0.001
92456127|NCT01986881|184801579|SUPERIORITY||Difference in the Least Squares Means|-1.63|||<|0.001|TWO_SIDED|95.0|-1.78|-1.47|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.47|-1.78|<0.001
92456128|NCT01986881|184801580|SUPERIORITY||Difference in the Least Squares Means|-2.45|||<|0.001|TWO_SIDED|95.0|-2.67|-2.24|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-2.24|-2.67|<0.001
92456129|NCT01986881|184801580|SUPERIORITY||Difference in the Least Squares Means|-2.07|||<|0.001|TWO_SIDED|95.0|-2.28|-1.86|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.86|-2.28|<0.001
92456130|NCT01986881|184801581|SUPERIORITY||Difference in the Least Squares Means|-2.53|||<|0.001|TWO_SIDED|95.0|-2.83|-2.22|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-2.22|-2.83|<0.001
92456131|NCT01986881|184801581|SUPERIORITY||Difference in the Least Squares Means|-2.11|||<|0.001|TWO_SIDED|95.0|-2.39|-1.83|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.83|-2.39|<0.001
92242960|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|62.13|||||TWO_SIDED|95.0|40.16|96.12|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 14||96.12|40.16|
92242961|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|16.37|||||TWO_SIDED|95.0|11.22|23.89|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 18C||23.89|11.22|
92242962|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|4.25|||||TWO_SIDED|95.0|3.22|5.62|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 19A||5.62|3.22|
92281360|NCT03179345|184465846|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.06||0.0611|TWO_SIDED|95.0|-0.006|0.245|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.245|-0.006|0.0611
92242963|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|8.73|||||TWO_SIDED|95.0|6.24|12.21|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 19F||12.21|6.24|
92242964|NCT05372575|184388915|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|8.33|||||TWO_SIDED|95.0|6.15|11.29|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 23F||11.29|6.15|
92242965|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMR (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|Geometric Mean Ratio (GMR)|4.78|||||TWO_SIDED|95.0|2.32|9.86|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 1||9.86|2.32|
92242966|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|9.06|||||TWO_SIDED|95.0|4.72|17.39|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 3||17.39|4.72|
92281361|NCT03179345|184465847|SUPERIORITY||Mean Difference (Net)|-0.102|STANDARD_ERROR_OF_MEAN|0.06||0.1103|TWO_SIDED|95.0|-0.227|0.024|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.024|-0.227|0.1103
92281362|NCT03179345|184465847|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.06||0.0611|TWO_SIDED|95.0|-0.006|0.245|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.245|-0.006|0.0611
92281363|NCT03179345|184465848|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9946|TWO_SIDED|95.0|-0.02|0.02|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.02|-0.02|0.9946
92281364|NCT03179345|184465848|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.0125||0.1673|TWO_SIDED|95.0|-0.01|0.04|||ANCOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.04|-0.01|0.1673
92456132|NCT01986881|184801583|SUPERIORITY||Difference in the Least Squares Means|-2.53|||<|0.001|TWO_SIDED|95.0|-2.97|-2.1|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-2.10|-2.97|<0.001
92456133|NCT01986881|184801583|SUPERIORITY||Difference in the Least Squares Means|-2.1|||<|0.001|TWO_SIDED|95.0|-2.52|-1.68|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.68|-2.52|<0.001
92456134|NCT01986881|184801586|SUPERIORITY||Difference in the Lease Squares Means|-1.78|||||TWO_SIDED|95.0|-2.41|-1.15|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|-1.15|-2.41|
92456135|NCT01986881|184801586|SUPERIORITY||Difference in the Least Squares Means|-1.19|||||TWO_SIDED|95.0|-1.82|-0.56|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|-0.56|-1.82|
92456136|NCT01986881|184801587|SUPERIORITY||Difference in the Lease Squares Means|-0.88|||||TWO_SIDED|95.0|-1.58|-0.18|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|-0.18|-1.58|
92456137|NCT01986881|184801587|SUPERIORITY||Difference in the Least Squares Means|-0.21|||||TWO_SIDED|95.0|-0.91|0.49|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|0.49|-0.91|
92456138|NCT01986881|184801588|SUPERIORITY||Difference in the least squares means|0.25|||||TWO_SIDED|95.0|-0.59|1.08|||||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|||1.08|-0.59|
92456139|NCT01986881|184801588|SUPERIORITY||Difference in the least squares means|1.12|||||TWO_SIDED|95.0|0.28|1.95|||||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|||1.95|0.28|
92456140|NCT01986881|184801590|SUPERIORITY||Difference in the Lease Squares Means|1.48|||||TWO_SIDED|95.0|0.31|2.66|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|2.66|0.31|
92456141|NCT01986881|184801590|SUPERIORITY||Difference in the Least Squares Means|1.66|||||TWO_SIDED|95.0|0.49|2.84|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|2.84|0.49|
92456142|NCT01986881|184801614|SUPERIORITY||Difference in % vs Placebo|-0.9|||||TWO_SIDED|95.0|-2.8|0.9|||||||Miettinen \& Nurminen method|0.9|-2.8|
92456143|NCT01986881|184801614|SUPERIORITY||Difference in % vs Placebo|0.3|||||TWO_SIDED|95.0|-1.6|2.1|||||||Miettinen \& Nurminen method|2.1|-1.6|
92456144|NCT01986881|184801615|SUPERIORITY||Difference in % vs Placebo|1.3|||||TWO_SIDED|95.0|-5.8|8.4|||||||Miettinen \& Nurminen method|8.4|-5.8|
92456145|NCT01986881|184801615|SUPERIORITY||Difference in % vs Placebo|-1.9|||||TWO_SIDED|95.0|-9.2|5.4|||||||Miettinen \& Nurminen method|5.4|-9.2|
92456146|NCT01986881|184801616|SUPERIORITY||Difference in % vs Placebo|1.4|||||TWO_SIDED|95.0|-17.7|20.4|||||||Miettinen and Nurminen method|20.4|-17.7|
92456147|NCT01986881|184801616|SUPERIORITY||Difference in % vs Placebo|-19.9|||||TWO_SIDED|95.0|-37.5|-1.2|||||||Miettinen and Nurminen method|-1.2|-37.5|
92456148|NCT01986881|184801617|SUPERIORITY||Difference in % vs Placebo|7.9|||||TWO_SIDED|95.0|-5.1|20.5|||||||Based on Miettinen and Nurminen method|20.5|-5.1|
92456149|NCT01986881|184801617|SUPERIORITY||Difference in % vs Placebo|1.0|||||TWO_SIDED|95.0|-12.3|14.2|||||||Miettinen and Nurminen method|14.2|-12.3|
92456150|NCT01986881|184801619|SUPERIORITY||Difference in % vs Placebo|0.0|||||TWO_SIDED|95.0|-2.9|3.0|||||||Miettinen \& Nurminen method|3.0|-2.9|
92456151|NCT01986881|184801619|SUPERIORITY||Difference in % vs Placebo|-1.2|||||TWO_SIDED|95.0|-4.0|1.6|||||||Miettinen \& Nurminen method|1.6|-4.0|
92173867|NCT02100813|184239279|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.25|||<|0.001|TWO_SIDED|95.0|0.18|0.33|||Negative binomial regression|||Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||0.33|0.18|<0.001
92242967|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|14.37|||||TWO_SIDED|95.0|6.25|33.05|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 4||33.05|6.25|
92242968|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|18.03|||||TWO_SIDED|95.0|8.84|36.8|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 5||36.80|8.84|
92456152|NCT01986881|184801622|SUPERIORITY||Difference in the Least Squares Means|-25.4|||<|0.001|TWO_SIDED|95.0|-32.84|-17.96|||CLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin) and the interaction of time by treatment.||||-17.96|-32.84|<0.001
92173868|NCT02100813|184239279|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.79|||=|0.096|TWO_SIDED|95.0|0.59|1.04|||Negative binomial regression|||Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||1.04|0.59|=0.096
92173869|NCT02100813|184239280|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|7.02|||=|0.007|TWO_SIDED|95.0|1.53|124.0|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||124|1.53|=0.007
92456153|NCT01986881|184801622|SUPERIORITY||Difference in the Least Squares Means|-19.24|||<|0.001|TWO_SIDED|95.0|-26.8|-11.68|||cLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin) and the interaction of time by treatment.||||-11.68|-26.80|<0.001
92456154|NCT01986881|184801623|SUPERIORITY||Difference in the Least Squares Means|-1.88|||<|0.001|TWO_SIDED|95.0|-2.37|-1.13|||cLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin) and the interaction of time by treatment.||||-1.13|-2.37|<0.001
92456155|NCT01986881|184801623|SUPERIORITY||Difference in the Least Squares Means|-1.62|||<|0.001|TWO_SIDED|95.0|-2.12|-1.13|||cLDA model|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin) and the interaction of time by treatment.||||-1.13|-2.12|<0.001
92242969|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|33.88|||||TWO_SIDED|95.0|14.33|80.13|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 6A||80.13|14.33|
92242970|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|14.05|||||TWO_SIDED|95.0|6.07|32.52|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 6B||32.52|6.07|
92242971|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|16.99|||||TWO_SIDED|95.0|7.85|36.76|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 7F||36.76|7.85|
92242972|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|19.31|||||TWO_SIDED|95.0|9.13|40.84|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 9V||40.84|9.13|
92242973|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|10.46|||||TWO_SIDED|95.0|4.74|23.1|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 14||23.10|4.74|
92242974|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|12.13|||||TWO_SIDED|95.0|6.0|24.51|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 18C||24.51|6.00|
92456156|NCT01986881|184801624|SUPERIORITY||Adjusted Odds Ratio Relative to Placebo|2.49|||<|0.001|TWO_SIDED|95.0|1.61|3.83|||Regression, Logistic|Model fitted with fixed effects for treatment, stratum for insulin sub-study, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the Constrained Longitudinal Data Analysis (cLDA) model fitted with fixed effects as in the primary analysis.||3.83|1.61|<0.001
92456157|NCT01986881|184801624|SUPERIORITY||Adjusted Odds Ratio Relative to Placebo|2.6|||<|0.001|TWO_SIDED|95.0|1.64|4.12|||Regression, Logistic|Model fitted with fixed effects for treatment, stratum for insulin sub-study, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the Constrained Longitudinal Data Analysis (cLDA) model fitted with fixed effects as in the primary analysis.||4.12|1.64|<0.001
92456158|NCT01986881|184801625|SUPERIORITY||Difference in the Least Squares Means|-2.32||||0.025|TWO_SIDED|95.0|-4.35|-0.3|||cLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||-0.30|-4.35|0.025
92456159|NCT01986881|184801625|SUPERIORITY||Difference in the Least Squares Means|-2.88||||0.006|TWO_SIDED|95.0|-4.94|-0.82|||cLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||-0.82|-4.94|0.006
92456160|NCT01986881|184801626|SUPERIORITY||Difference in the Least Squares Means|-0.38||||0.533|TWO_SIDED|95.0|-1.56|0.81|||cLDA model|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||0.81|-1.56|0.533
92456161|NCT01986881|184801626|SUPERIORITY||Difference in the Least Squares Means|-0.6||||0.326|TWO_SIDED|95.0|-1.81|0.6|||cLDA model|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||0.60|-1.81|0.326
92456162|NCT01986881|184801629|SUPERIORITY||Difference in the Least Squares Means|-12.22||||0.105|TWO_SIDED|95.0|-27.03|2.06|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||2.06|-27.03|0.105
92242975|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|23.65|||||TWO_SIDED|95.0|10.94|51.1|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 19A||51.10|10.94|
92242976|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|17.62|||||TWO_SIDED|95.0|8.65|35.93|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 19F||35.93|8.65|
92242977|NCT05372575|184388916|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|44.46|||||TWO_SIDED|95.0|19.11|103.43|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 23F||103.43|19.11|
92242978|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|Geometric Mean Ratio (GMR)|0.48|||||TWO_SIDED|95.0|0.16|1.42|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 1||1.42|0.16|
92242979|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.74|||||TWO_SIDED|95.0|0.27|1.98|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 3||1.98|0.27|
92242980|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.68|||||TWO_SIDED|95.0|0.21|2.19|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 4||2.19|0.21|
92242981|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.82|||||TWO_SIDED|95.0|0.36|1.86|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 5||1.86|0.36|
92242982|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.68|||||TWO_SIDED|95.0|0.25|1.89|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 6A||1.89|0.25|
92242983|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.74|||||TWO_SIDED|95.0|0.27|2.07|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 6B||2.07|0.27|
92281365|NCT03179345|184465848|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.0125||0.6208|TWO_SIDED|95.0|-0.02|0.03|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.03|-0.02|0.6208
92242984|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.42|||||TWO_SIDED|95.0|0.16|1.09|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 7F||1.09|0.16|
92456163|NCT01986881|184801629|SUPERIORITY||Difference in the Least Squares Means|-13.53||||0.068|TWO_SIDED|95.0|-28.06|1.0|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||1.00|-28.06|0.068
92456164|NCT01986881|184801630|SUPERIORITY||Difference in the Least Squares Means|-0.52||||0.418|TWO_SIDED|95.0|-1.79|0.75|||cLDA|Model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||0.75|-1.79|0.418
92456165|NCT01986881|184801630|SUPERIORITY||Difference in the Least Squares Means|-1.07||||0.092|TWO_SIDED|95.0|-2.32|0.18|||cLDA model|Model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||0.18|-2.32|0.092
92456166|NCT01986881|184801631|SUPERIORITY||Odds ratio relative to placebo|1.48||||0.46|TWO_SIDED|95.0|0.52|4.17|||Regression, Logistic|Model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the Constrained Longitudinal Data Analysis (cLDA) model fitted with fixed effects as in the primary analysis.||4.17|0.52|0.460
92456167|NCT01986881|184801631|SUPERIORITY||Odds ratio relative to placebo|1.62||||0.335|TWO_SIDED|95.0|0.61|4.35|||Regression, Logistic|Model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the Constrained Longitudinal Data Analysis (cLDA) model fitted with fixed effects as in the primary analysis.||4.35|0.61|0.335
92456168|NCT01986881|184801632|SUPERIORITY||Difference in the Least Squares Means|2.73||||0.255|TWO_SIDED|95.0|-2.0|7.45|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||7.45|-2.00|0.255
92456169|NCT01986881|184801632|SUPERIORITY||Difference in the Least Squares Means|2.81||||0.235|TWO_SIDED|95.0|-1.85|7.48|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||7.48|-1.85|0.235
92456170|NCT01986881|184801633|SUPERIORITY||Difference in the Least Squares Means|1.98||||0.178|TWO_SIDED|95.0|-0.91|4.86|||cLDA model|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||4.86|-0.91|0.178
92456171|NCT01986881|184801633|SUPERIORITY||Difference in the Least Squares Means|1.73||||0.23|TWO_SIDED|95.0|-1.11|4.58|||cLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||4.58|-1.11|0.230
92456172|NCT01986881|184801634|SUPERIORITY||Difference in the Least Squares Means|-31.37|||<|0.001|TWO_SIDED|95.0|-40.68|-22.07|||CLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-22.07|-40.68|<0.001
92456173|NCT01986881|184801634|SUPERIORITY||Difference in the Least Squares Means|-30.47|||<|0.001|TWO_SIDED|95.0|-40.23|-20.72|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-20.72|-40.23|<0.001
92456174|NCT01986881|184801635|SUPERIORITY||Difference in the Least Squares Means|-1.94|||<|0.001|TWO_SIDED|95.0|-2.65|-1.24|||cLDA|Model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-1.24|-2.65|<0.001
92456175|NCT01986881|184801635|SUPERIORITY||Difference in the Least Squares Means|-1.57|||<|0.001|TWO_SIDED|95.0|-2.3|-0.84|||cLDA|Model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-0.84|-2.30|<0.001
92456176|NCT01986881|184801636|SUPERIORITY||Adjusted odds ratio relative to placebo|4.1|||<|0.001|TWO_SIDED|95.0|2.0|8.42|||Regression, Logistic|Model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.||8.42|2.00|<0.001
92456177|NCT01986881|184801636|SUPERIORITY||Adjusted odds ratio relative to placebo|5.97|||<|0.001|TWO_SIDED|95.0|2.86|12.49|||Regression, Logistic|Model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.||12.49|2.86|<0.001
92456178|NCT01986881|184801637|SUPERIORITY||Difference in the Least Squares Means|-0.85||||0.597|TWO_SIDED|95.0|-4.0|2.3|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||2.30|-4.00|0.597
92456179|NCT01986881|184801637|SUPERIORITY||Difference in the Least Squares Means|-1.57||||0.351|TWO_SIDED|95.0|-4.87|1.73|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||1.73|-4.87|0.351
92456180|NCT01986881|184801638|SUPERIORITY||Difference in the Least Squares Means|-0.68||||0.49|TWO_SIDED|95.0|-2.6|1.25|||cLDA|Model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||1.25|-2.60|0.490
92456181|NCT01986881|184801638|SUPERIORITY||Difference in the Least Squares Means|-0.05||||0.958|TWO_SIDED|95.0|-2.07|1.96|||cLDA|Model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||1.96|-2.07|0.958
92456182|NCT04333420|184801639|SUPERIORITY||LS means difference|-16.4||||0.3677|TWO_SIDED|95.0|-53.2|20.3|||Linear repeated measures model|||||20.3|-53.2|0.3677
92456183|NCT04333420|184801640|SUPERIORITY||Hazard Ratio (HR)|0.728||||0.0941|TWO_SIDED|95.0|0.502|1.056|||Regression, Cox|including stratification by site||Cox proportional hazards regression model with outcome 28-day all-cause mortality (censored time to event variable with event = Death) including stratification by site; 61 patients from sites with no events (no death) or from single patient sites with death factually make no contribution to the analysis outcome.||1.056|0.502|0.0941
92242985|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.8|||||TWO_SIDED|95.0|0.35|1.81|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 9V||1.81|0.35|
92242986|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.66|||||TWO_SIDED|95.0|0.2|2.24|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 14||2.24|0.20|
92242987|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.6|||||TWO_SIDED|95.0|0.22|1.65|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 18C||1.65|0.22|
92242988|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|1.55|||||TWO_SIDED|95.0|0.61|3.93|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 19A||3.93|0.61|
92242989|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|1.8|||||TWO_SIDED|95.0|0.65|4.99|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 19F||4.99|0.65|
92242990|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.47|||||TWO_SIDED|95.0|0.17|1.31|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 23F||1.31|0.17|
92242991|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.65|||||TWO_SIDED|95.0|0.31|1.38|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 1||1.38|0.31|
92242992|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.7|||||TWO_SIDED|95.0|0.4|1.24|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 3||1.24|0.40|
92242993|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.73|||||TWO_SIDED|95.0|0.33|1.59|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 4||1.59|0.33|
92242994|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.8|||||TWO_SIDED|95.0|0.52|1.25|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 5||1.25|0.52|
92242995|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.93|||||TWO_SIDED|95.0|0.57|1.52|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 6A||1.52|0.57|
92242996|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|1.53|||||TWO_SIDED|95.0|0.95|2.47|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 6B||2.47|0.95|
92281366|NCT03179345|184465849|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|2.6||0.8799|TWO_SIDED|95.0|-5.59|4.8|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||4.80|-5.59|0.8799
92281367|NCT03179345|184465849|SUPERIORITY||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|2.61||0.9277|TWO_SIDED|95.0|-4.97|5.45|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||5.45|-4.97|0.9277
92456184|NCT04333420|184801640|SUPERIORITY||Hazard Ratio (HR)|0.674||||0.0266|TWO_SIDED|95.0|0.476|0.955|||Regression, Cox|Without stratification by site||Cox proportional hazards regression model with outcome 28-day all-cause mortality (censored time to event variable with event = Death) without stratification by site; Post-hoc analysis||0.955|0.476|0.0266
92242997|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.74|||||TWO_SIDED|95.0|0.41|1.34|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 7F||1.34|0.41|
92242998|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.73|||||TWO_SIDED|95.0|0.34|1.57|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 9V||1.57|0.34|
92242999|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.44|||||TWO_SIDED|95.0|0.16|1.18|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 14||1.18|0.16|
92243000|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.59|||||TWO_SIDED|95.0|0.25|1.4|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 18C||1.40|0.25|
92243001|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.79|||||TWO_SIDED|95.0|0.5|1.23|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 19A||1.23|0.50|
92456185|NCT04333420|184801640|SUPERIORITY||Hazard Ratio (HR)|0.648||||0.0181|TWO_SIDED|95.0|0.453|0.929|||Regression, Cox|Including random effect for site (frailty model)||Cox proportional hazards regression model with outcome 28-day all-cause mortality (censored time to event variable with event = Death) including random effect for site (frailty model); Post-hoc analysis||0.929|0.453|0.0181
92456186|NCT04333420|184801640|SUPERIORITY||Hazard Ratio (HR)|0.613||||0.0067|TWO_SIDED|95.0|0.43|0.873|||Regression, Cox|Including stratification by country||Cox proportional hazards regression model with outcome 28-day all-cause mortality (censored time to event variable with event = Death) including stratification by country; Post-hoc analysis||0.873|0.430|0.0067
92456187|NCT04333420|184801640|SUPERIORITY||Risk Difference (RD)|-11.0||||0.0293|TWO_SIDED|95.0|-20.8|-1.2|||Regression, Logistic|Multiple imputation of missing values|Risk difference and lower/upper limit of the Confidence Interval are given in percent|Sensitivity analysis; 369 patients were included in this analysis including the patient that was randomized in error and not treated. Missing values were imputed by multiple imputation.||-1.2|-20.8|0.0293
92456188|NCT04333420|184801640|SUPERIORITY|||||||0.0407|||||||Log Rank|||Post-hoc analysis||||0.0407
92456189|NCT04333420|184801641|SUPERIORITY||Hazard Ratio (HR)|0.651||||0.6494|TWO_SIDED|95.0|0.103|4.135|||Regression, Cox|Covariate: Treatment (IFX-1 + BSC)||Cox proportional hazards regression model with outcome 28-day all-cause mortality (censored time to event variable with event = Death)||4.135|0.103|0.6494
92456190|NCT04333420|184801645|SUPERIORITY||Hazard Ratio (HR)|0.735||||0.0815|TWO_SIDED|95.0|0.519|1.039|||Regression, Cox|||Cox proportional hazards regression model with outcome 60-day all-cause mortality (censored time to event variable with event = Death); Covariate: Treatment (IFX-1 + SOC)||1.039|0.519|0.0815
92456191|NCT04333420|184801646|SUPERIORITY||Risk Difference (RD)|7.352||||0.1553|TWO_SIDED|95.0|-2.762|17.465|||Regression, Logistic||Risk difference (IFX-1 - Placebo) of percentage of patients with an improvement in the 8-point ordinal scale; Risk difference and lower/upper limit of the CI are given in percent|At Day 15||17.465|-2.762|0.1553
92456192|NCT04333420|184801646|SUPERIORITY||Risk Difference (RD)|8.078||||0.1181|TWO_SIDED|95.0|-1.968|18.125|||Regression, Logistic||Risk difference (IFX-1 - Placebo) of percentage of patients with an improvement in the 8-point ordinal scale; Risk difference and lower/upper limit of the CI are given in percent|At Day 28||18.125|-1.968|0.1181
92243002|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|1.14|||||TWO_SIDED|95.0|0.6|2.18|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 19F||2.18|0.60|
92456193|NCT04333420|184801647|SUPERIORITY||Risk Difference (RD)|-2.081||||0.4105|TWO_SIDED|95.0|-6.949|2.787|||Regression, Logistic||Risk difference (IFX-1 - Placebo) of percentage of patients developing acute kidney failure; Risk difference and lower/upper limit of the CI are given in percent|||2.787|-6.949|0.4105
92456194|NCT04333420|184801648|SUPERIORITY||Hazard Ratio (HR)|0.539||||0.0422|TWO_SIDED|95.0|0.297|0.978||p-value refers to hazard ratio from cause-specific Cox proportional hazards model for first renal replacement therapy.|Regression, Cox|Covariate: Treatment (IFX-1 + SOC)||||0.978|0.297|0.0422
92456195|NCT00677833|184801649|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95 percent (%) confidence interval (CI) for the difference in ACPR (PCR corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR (PCR-corrected) proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. The drug (AZ-CQ) was considered non-inferior with respect to this primary endpoint if the lower bound of this 95% CI was \>= -10% points.|ACPR percent difference|-9.1|||||TWO_SIDED|95.0|-16.02|-2.18|||Kaplan-Meier curves|||Null hypothesis: proportion of participants with ACPR (PCR-corrected) of Azithromycin/Chloroquine (AZ-CQ) at Day 28 is less than that of Artemether/Lumefantrine (AL); Alternative hypothesis: proportion of participants with ACPR (PCR-corrected) of AZ-CQ at Day 28 is greater than or equal (non-inferior) to that of AL by a non-inferiority margin of -0.1.||-2.18|-16.02|
92243003|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|1.08|||||TWO_SIDED|95.0|0.68|1.72|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 23F||1.72|0.68|
92243004|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|10.3|||||TWO_SIDED|95.0|2.44|43.49|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 1||43.49|2.44|
92243005|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|6.17|||||TWO_SIDED|95.0|2.07|18.42|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 3||18.42|2.07|
92243006|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|18.7|||||TWO_SIDED|95.0|4.35|80.37|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 4||80.37|4.35|
92243007|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|2.5|||||TWO_SIDED|95.0|1.14|5.52|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 5||5.52|1.14|
92243008|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|5.24|||||TWO_SIDED|95.0|2.33|11.8|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 6A||11.80|2.33|
92243009|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|3.77|||||TWO_SIDED|95.0|1.47|9.65|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 6B||9.65|1.47|
92243010|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|5.94|||||TWO_SIDED|95.0|1.65|21.36|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 7F||21.36|1.65|
92281368|NCT03179345|184465849|SUPERIORITY||Mean Difference (Net)|-3.73||||0.1587|TWO_SIDED|95.0|-8.94|1.49|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.49|-8.94|0.1587
92456196|NCT00677833|184801650|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR (PCR-corrected) proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. The drug (AZ-CQ) was considered non-inferior with respect to this primary endpoint if the lower bound of this 95% CI was \>= -10% points.|ACPR percent difference|-6.08|||||TWO_SIDED|95.0|-12.1|-0.05|||Kaplan-Meier curves|||Null hypothesis: proportion of participants with ACPR (PCR-corrected) of AZ-CQ at Day 28 is less than that of AL; Alternative hypothesis: proportion of participants with ACPR (PCR-corrected) of AZ-CQ at Day 28 is greater than or equal (non-inferior) to that of AL by a non-inferiority margin of -0.1.||-0.05|-12.10|
92456197|NCT00677833|184801651|SUPERIORITY_OR_OTHER||ACPR percent difference|-5.04|||||TWO_SIDED|95.0|-9.93|-0.15|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 7.||-0.15|-9.93|
92456198|NCT00677833|184801651|SUPERIORITY_OR_OTHER||ACPR percent difference|-6.74|||||TWO_SIDED|95.0|-12.15|-1.32|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 14.||-1.32|-12.15|
92281369|NCT03179345|184465850|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.0125||0.7111|TWO_SIDED|95.0|-0.03|0.02|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.02|-0.03|0.7111
92281370|NCT03179345|184465850|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9048|TWO_SIDED|95.0|-0.02|0.02|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.02|-0.02|0.9048
92243011|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|4.44|||||TWO_SIDED|95.0|1.17|16.87|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 9V||16.87|1.17|
92243012|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|90.8|||||TWO_SIDED|95.0|16.67|494.56|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 14||494.56|16.67|
92456199|NCT00677833|184801651|SUPERIORITY_OR_OTHER||ACPR percent difference|-6.78|||||TWO_SIDED|95.0|-12.82|-0.75|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 21.||-0.75|-12.82|
92456200|NCT00677833|184801651|SUPERIORITY_OR_OTHER||ACPR percent difference|-6.92|||||TWO_SIDED|95.0|-14.59|0.76|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 35.||0.76|-14.59|
92456201|NCT00677833|184801651|SUPERIORITY_OR_OTHER||ACPR percent difference|-8.63|||||TWO_SIDED|95.0|-17.08|-0.18|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 42.||-0.18|-17.08|
92456202|NCT00677833|184801652|SUPERIORITY_OR_OTHER||ACPR percent difference|-3.63|||||TWO_SIDED|95.0|-8.4|1.14|||Kaplan-Meier, curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 21.||1.14|-8.40|
92456203|NCT00677833|184801652|SUPERIORITY_OR_OTHER||ACPR percent difference|-3.87|||||TWO_SIDED|95.0|-10.79|3.04|||Kaplan-Meier, curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 35.||3.04|-10.79|
92456204|NCT00677833|184801652|SUPERIORITY_OR_OTHER||ACPR percent difference|-5.66|||||TWO_SIDED|95.0|-13.55|2.22|||Kaplan-Meier, curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 42.||2.22|-13.55|
92456205|NCT00677833|184801653|SUPERIORITY_OR_OTHER||ACPR percent difference|-5.04|||||TWO_SIDED|95.0|-9.93|-0.15|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 7.||-0.15|-9.93|
92456206|NCT00677833|184801653|SUPERIORITY_OR_OTHER||ACPR percent difference|-7.71|||||TWO_SIDED|95.0|-14.54|-0.88|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 14.||-0.88|-14.54|
92456207|NCT00677833|184801653|SUPERIORITY_OR_OTHER||ACPR percent difference|-15.09|||||TWO_SIDED|95.0|-26.24|-3.94|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 21.||-3.94|-26.24|
92456208|NCT00677833|184801653|SUPERIORITY_OR_OTHER||ACPR percent difference|-21.76|||||TWO_SIDED|95.0|-34.14|-9.39|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 28.||-9.39|-34.14|
92456209|NCT00677833|184801653|SUPERIORITY_OR_OTHER||ACPR percent difference|-18.24|||||TWO_SIDED|95.0|-31.05|-5.43|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 35.||-5.43|-31.05|
92456210|NCT00677833|184801653|SUPERIORITY_OR_OTHER||ACPR Percent difference|-18.49|||||TWO_SIDED|95.0|-31.33|-5.65|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 42.||-5.65|-31.33|
92456211|NCT00677833|184801654|SUPERIORITY_OR_OTHER||ACPR percent difference|-4.67|||||TWO_SIDED|95.0|-10.6|1.25|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 14.||1.25|-10.60|
92456212|NCT00677833|184801654|SUPERIORITY_OR_OTHER||ACPR percent difference|-13.07|||||TWO_SIDED|95.0|-24.21|-1.92|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 21.||-1.92|-24.21|
92456213|NCT00677833|184801654|SUPERIORITY_OR_OTHER||ACPR percent difference|-19.62|||||TWO_SIDED|95.0|-32.16|-7.08|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 28.||-7.08|-32.16|
92243013|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|17.83|||||TWO_SIDED|95.0|3.79|83.78|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 18C||83.78|3.79|
92456214|NCT00677833|184801654|SUPERIORITY_OR_OTHER||ACPR percent difference|-16.38|||||TWO_SIDED|95.0|-29.42|-3.33|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 35.||-3.33|-29.42|
92243014|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|8.11|||||TWO_SIDED|95.0|3.6|18.3|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 19A||18.30|3.60|
92243015|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|15.29|||||TWO_SIDED|95.0|4.64|50.35|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 19F||50.35|4.64|
92456215|NCT00677833|184801654|SUPERIORITY_OR_OTHER||ACPR Percent difference|-16.94|||||TWO_SIDED|95.0|-30.04|-3.83|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)- (AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the Greenwood formula. Estimates for Day 42.||-3.83|-30.04|
92243016|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|4.19|||||TWO_SIDED|95.0|1.72|10.25|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 23F||10.25|1.72|
92243017|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|13.93|||||TWO_SIDED|95.0|9.14|21.23|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 1||21.23|9.14|
92243018|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|5.86|||||TWO_SIDED|95.0|4.17|8.24|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 3||8.24|4.17|
92243019|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|19.97|||||TWO_SIDED|95.0|12.8|31.15|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 4||31.15|12.80|
92243020|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|2.46|||||TWO_SIDED|95.0|1.87|3.24|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 5||3.24|1.87|
92243021|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|7.12|||||TWO_SIDED|95.0|5.05|10.03|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 6A||10.03|5.05|
92243022|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|7.78|||||TWO_SIDED|95.0|5.54|10.92|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 6B||10.92|5.54|
92243023|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|10.4|||||TWO_SIDED|95.0|7.4|14.61|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 7F||14.61|7.40|
92243024|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|4.07|||||TWO_SIDED|95.0|3.04|5.47|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 9V||5.47|3.04|
92243025|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|60.32|||||TWO_SIDED|95.0|37.25|97.67|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 14||97.67|37.25|
92456216|NCT00677833|184801661|SUPERIORITY_OR_OTHER||percent difference|-5.89|||||TWO_SIDED|95.0|-11.02|-0.75|||large sample approximation to binomial|||Day 7||-0.75|-11.02|
92243026|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|17.35|||||TWO_SIDED|95.0|11.37|26.47|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 18C||26.47|11.37|
92456217|NCT00677833|184801661|SUPERIORITY_OR_OTHER||percent difference|-7.55|||||TWO_SIDED|95.0|-13.14|-1.95|||large sample approximation to binomial|||Day 14||-1.95|-13.14|
92456218|NCT00677833|184801661|SUPERIORITY_OR_OTHER||percent difference|-7.6|||||TWO_SIDED|95.0|-13.61|-1.6|||large sample approximation to binomial|||Day 21||-1.60|-13.61|
92456219|NCT00677833|184801661|SUPERIORITY_OR_OTHER||percent difference|-9.26|||||TWO_SIDED|95.0|-15.64|-2.87|||Large sample approximation to binomial|||Day 28||-2.87|-15.64|
92456220|NCT00677833|184801661|SUPERIORITY_OR_OTHER||percent difference|-7.71|||||TWO_SIDED|95.0|-14.45|-0.97|||Large sample approximation to binomial|||Day 35||-0.97|-14.45|
92456221|NCT00677833|184801661|SUPERIORITY_OR_OTHER||percent difference|-8.52|||||TWO_SIDED|95.0|-15.43|-1.6|||Large sample approximation to binomial|||Day 42||-1.60|-15.43|
92173870|NCT02100813|184239280|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|8.82|||=|0.001|TWO_SIDED|95.0|1.99|154.5|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||154.5|1.99|=0.001
92173871|NCT02100813|184239280|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|1.26|||=|0.43|TWO_SIDED|95.0|0.72|2.31|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||2.31|0.72|=0.43
92243027|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|4.11|||||TWO_SIDED|95.0|3.0|5.62|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 19A||5.62|3.00|
92243028|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|9.68|||||TWO_SIDED|95.0|6.65|14.08|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 19F||14.08|6.65|
92243029|NCT05372575|184388917|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|9.7|||||TWO_SIDED|95.0|6.9|13.64|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 23F||13.64|6.90|
92243030|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.49|||||TWO_SIDED|95.0|0.06|3.91|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 1||3.91|0.06|
92243031|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.54|||||TWO_SIDED|95.0|0.1|2.92|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 3||2.92|0.10|
92243032|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.45|||||TWO_SIDED|95.0|0.1|2.07|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 4||2.07|0.10|
92243033|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.78|||||TWO_SIDED|95.0|0.27|11.75|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 5||11.75|0.27|
92243034|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.23|||||TWO_SIDED|95.0|0.03|1.65|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 6A||1.65|0.03|
92243035|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.06|||||TWO_SIDED|95.0|0.01|0.44|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 6B||0.44|0.01|
92243036|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.21|||||TWO_SIDED|95.0|0.56|2.65|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 7F||2.65|0.56|
92243037|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.2|||||TWO_SIDED|95.0|0.03|1.26|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 9V||1.26|0.03|
92173872|NCT02100813|184239281|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|8.73|||<|0.001|TWO_SIDED|95.0|2.93|51.66|||Log binomial regression|||||51.66|2.93|<0.001
92243038|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.36|||||TWO_SIDED|95.0|0.08|1.55|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 14||1.55|0.08|
92243039|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.82|||||TWO_SIDED|95.0|0.15|4.47|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 18C||4.47|0.15|
92243040|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.35|||||TWO_SIDED|95.0|0.19|9.44|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 19A||9.44|0.19|
92243041|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|3.87|||||TWO_SIDED|95.0|0.67|22.42|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 19F||22.42|0.67|
92281371|NCT03179345|184465850|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.3262|TWO_SIDED|95.0|-0.03|0.01|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.01|-0.03|0.3262
92456222|NCT00677833|184801662|SUPERIORITY_OR_OTHER||percent difference|-9.51|||||TWO_SIDED|95.0|-18.27|-0.74|||Large sample approximation to binomial|||Day 7||-0.74|-18.27|
92456223|NCT00677833|184801662|SUPERIORITY_OR_OTHER||percent difference|-10.39|||||TWO_SIDED|95.0|-19.23|-1.55|||Large sample approximation to binomial|||Day 14||-1.55|-19.23|
92456224|NCT00677833|184801662|SUPERIORITY_OR_OTHER||percent difference|-12.75|||||TWO_SIDED|95.0|-21.45|-4.04|||Large sample approximation to binomial|||Day 21||-4.04|-21.45|
92456225|NCT00677833|184801662|SUPERIORITY_OR_OTHER||percent difference|-11.11|||||TWO_SIDED|95.0|-19.62|-2.6|||Large sample approximation to binomial|||Day 28||-2.60|-19.62|
92456226|NCT00677833|184801662|SUPERIORITY_OR_OTHER||percent difference|-10.34|||||TWO_SIDED|95.0|-18.97|-1.71|||Large sample approximation to binomial|||Day 35||-1.71|-18.97|
92456227|NCT00677833|184801662|SUPERIORITY_OR_OTHER||percent difference|-11.21|||||TWO_SIDED|95.0|-20.14|-2.28|||Large sample approximation to binomial|||Day 42||-2.28|-20.14|
92456228|NCT00677833|184801663|SUPERIORITY_OR_OTHER|||||||0.2564|TWO_SIDED||||||Kaplan-Meier, log rank|||Time to event data was analyzed using the Kaplan-Meier curve.||||0.2564
92456229|NCT00677833|184801664|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Kaplan-Meier, log rank|||Time to event data was analyzed using the Kaplan-Meier curve.||||<0.0001
92456230|NCT00677833|184801667|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||Kaplan-Meier, log rank|||Time to event data was analyzed using the Kaplan-Meier curve.||||0.0006
92456231|NCT02633800|184801680|OTHER|Both Log-rank test and Cox regression analysis did not adjust stratification factors.|Hazard Ratio (HR)|0.9291||||0.8342|TWO_SIDED|95.0|0.4856|1.7778||Unstratified Log-rank p-value|Log Rank|||Heregulin-high population - Patritumab vs Placebo||1.7778|0.4856|0.8342
92456232|NCT02013622|184801683|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures (MMRM) method with model terms: baseline, visit, and baseline by visit interaction.||The null hypothesis of zero in mean change from Baseline in PANSS Total Score at Week 16 was tested at significance level of 0.05. Since this is an exploratory trial, no methods to control type I error rate were performed.||||<0.0001
92456233|NCT02013622|184801684|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16||||<0.0001
92456234|NCT02013622|184801685|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16||||<0.0001
92456235|NCT02013622|184801688|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16||||0.0003
92456236|NCT02013622|184801689|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16||||0.0002
92456237|NCT02013622|184801690|SUPERIORITY_OR_OTHER|||||||0.0177|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16||||0.0177
92456238|NCT02013622|184801691|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16 in TSQM-14 effectiveness||||<0.0001
92456239|NCT02013622|184801691|SUPERIORITY_OR_OTHER|||||||0.0031|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16 in TSQM-14 side effects||||0.0031
92456240|NCT02013622|184801691|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16 in TSQM-14 convenience||||0.0005
92456241|NCT02013622|184801691|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16 in TSQM-14 global satisfaction||||<0.0001
92456242|NCT02013622|184801692|SUPERIORITY_OR_OTHER|||||||0.5133|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in Go/No-go task p-inhibition failures (go cues)||||0.5133
92243042|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.27|||||TWO_SIDED|95.0|0.05|1.52|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 23F||1.52|0.05|
92243043|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.76|||||TWO_SIDED|95.0|0.19|3.07|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 1||3.07|0.19|
92243044|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.02|||||TWO_SIDED|95.0|0.42|2.46|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 3||2.46|0.42|
92243045|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.44|||||TWO_SIDED|95.0|0.05|3.73|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 4||3.73|0.05|
92243046|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.63|||||TWO_SIDED|95.0|0.15|2.73|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 5||2.73|0.15|
92456243|NCT02013622|184801692|SUPERIORITY_OR_OTHER|||||||0.3774|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in Go/No-go task p-inhibition failures (no-go cues)||||0.3774
92243047|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.88|||||TWO_SIDED|95.0|0.11|6.99|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 6A||6.99|0.11|
92243048|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.9|||||TWO_SIDED|95.0|0.29|12.51|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 6B||12.51|0.29|
92243049|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|2.45|||||TWO_SIDED|95.0|0.34|17.43|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 7F||17.43|0.34|
92243050|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.43|||||TWO_SIDED|95.0|0.27|7.7|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 9V||7.70|0.27|
92243051|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|2.3|||||TWO_SIDED|95.0|0.3|17.41|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 14||17.41|0.30|
92243052|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.65|||||TWO_SIDED|95.0|0.14|2.97|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 18C||2.97|0.14|
92243053|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.51|||||TWO_SIDED|95.0|0.28|8.21|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 19A||8.21|0.28|
92281372|NCT03179345|184465851|SUPERIORITY||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|0.86||0.595|TWO_SIDED|95.0|-2.18|1.26|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.26|-2.18|0.5950
92456244|NCT02013622|184801693|SUPERIORITY_OR_OTHER|||||||0.8897|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in Go/No-go task mean reaction time (go cues)||||0.8897
92456245|NCT02013622|184801693|SUPERIORITY_OR_OTHER|||||||0.3401|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in Go/No-go task mean reaction time (no-go cues)||||0.3401
92456246|NCT02013622|184801694|SUPERIORITY_OR_OTHER|||||||0.4265|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in DDT||||0.4265
92243054|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.63|||||TWO_SIDED|95.0|0.13|2.97|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 19F||2.97|0.13|
92243055|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.23|||||TWO_SIDED|95.0|0.15|10.24|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 23F||10.24|0.15|
92243056|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|3.15|||||TWO_SIDED|95.0|0.41|23.91|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 1||23.91|0.41|
92243057|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|5.02|||||TWO_SIDED|95.0|1.45|17.39|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 3||17.39|1.45|
92243058|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|13.7|||||TWO_SIDED|95.0|1.32|141.81|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 4||141.81|1.32|
92243059|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|48.41|||||TWO_SIDED|95.0|6.16|380.54|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 5||380.54|6.16|
92173873|NCT02100813|184239281|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|9.55|||<|0.001|TWO_SIDED|95.0|3.22|56.4|||Log binomial regression|||||56.4|3.22|<0.001
92243060|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|10.47|||||TWO_SIDED|95.0|0.48|229.1|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 6A||229.10|0.48|
92243061|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.68|||||TWO_SIDED|95.0|0.02|19.83|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 6B||19.83|0.02|
92243062|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|10.53|||||TWO_SIDED|95.0|1.98|55.96|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 7F||55.96|1.98|
92281373|NCT03179345|184465851|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.865||0.7057|TWO_SIDED|95.0|-1.4|2.06|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||2.06|-1.40|0.7057
92173874|NCT02100813|184239281|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|1.09|||=|0.55|TWO_SIDED|95.0|0.81|1.49|||Log binomial regression|||||1.49|0.81|=0.55
92173875|NCT01963793|184239282|SUPERIORITY||Mean Difference (Final Values)|-1.51||||0.58|TWO_SIDED|95.0|-7.12|4.11|||t-test, 2 sided|||||4.11|-7.12|0.58
92243063|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|3.32|||||TWO_SIDED|95.0|0.19|56.82|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 9V||56.82|0.19|
92243064|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|2.0|||||TWO_SIDED|95.0|0.06|63.12|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 14||63.12|0.06|
92456247|NCT02013622|184801695|SUPERIORITY_OR_OTHER|||||||0.2923|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in DPDT for Delay Discounting Task k value||||0.2923
92456248|NCT02013622|184801695|SUPERIORITY_OR_OTHER|||||||0.9416|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in DPDT for Probability Discounting Task h value||||0.9416
92456249|NCT02013622|184801696|SUPERIORITY_OR_OTHER|||||||0.1815|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in DRT||||0.1815
92456250|NCT02013622|184801697|SUPERIORITY_OR_OTHER|||||||0.6648|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in AUC for food||||0.6648
92456251|NCT02013622|184801697|SUPERIORITY_OR_OTHER|||||||0.9812|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in AUC for money||||0.9812
92456252|NCT02013622|184801699|SUPERIORITY_OR_OTHER|||||||0.0306|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16||||0.0306
92456253|NCT01640808|184801713|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.351|TWO_SIDED|95.0|0.72|1.124||A two-sided significance level was set at 0.05. Adjustment of multiplicity considering interim analysis is conducted by the Lan DeMets' method of α consumption function.|Log Rank|||||1.124|0.720|0.351
92456254|NCT01640808|184801714|SUPERIORITY||Hazard Ratio (HR)|0.875||||0.222|TWO_SIDED|95.0|0.706|1.085||A two-sided significance level was set at 0.05.|Log Rank|||||1.085|0.706|0.222
92456255|NCT01640808|184801715|SUPERIORITY||Hazard Ratio (HR)|0.882||||0.279|TWO_SIDED|95.0|0.703|1.108||A two-sided significance level was set at 0.05.|Log Rank|||||1.108|0.703|0.279
92456256|NCT00529399|184801741|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98|||||||ANCOVA|||"The calculation for the concentration of c-peptide is a weighted average of the 6 timed measurements of c-peptide in nano-moles/Liter. We try to distinguish this calculation from the AUC by referring to it as the AUC mean and may be expressed algebraically as the AUC/(120 min.); thus, the units are the same as the y-axis."||||0.98
92456257|NCT00529399|184801741|SUPERIORITY_OR_OTHER_LEGACY|||||||0.51|||||||ANCOVA|||"The calculation for the concentration of c-peptide is a weighted average of the 6 timed measurements of c-peptide in nano-moles/Liter. We try to distinguish this calculation from the AUC by referring to it as the AUC mean and may be expressed algebraically as the AUC/(120 min.); thus, the units are the same as the y-axis."||||0.51
92456258|NCT01506193|184801759|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with respect to seroconversion rates for measles was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|-0.04|||||TWO_SIDED|95.0|-1.82|2.78||||||"Immune response for anti-measles antibodies~Non-inferiority of Priorix-Tetra™ vaccine co-administered with Meningitec® conjugate vaccine compared to the first dose of Priorix-Tetra™ vaccine alone with respect to anti-measles seroconversion rates (SCRs) at Day 42 after dose 1."||2.78|-1.82|
92456259|NCT01506193|184801759|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with respect to seroconversion rates for mumps was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|1.29|||||TWO_SIDED|95.0|-3.04|6.67||||||"Immune response for anti-mumps antibodies~Non-inferiority of Priorix-Tetra™ vaccine co-administered with Meningitec® conjugate vaccine compared to the first dose of Priorix-Tetra™ vaccine alone with respect to anti-mumps seroconversion rates (SCRs) at Day 42 after dose 1."||6.67|-3.04|
92456260|NCT01506193|184801759|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with respect to seroconversion rates for rubella was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.23|2.29||||||"Immune response for anti-rubella antibodies~Non-inferiority of Priorix-Tetra™ vaccine co-administered with Meningitec® conjugate vaccine compared to the first dose of Priorix-Tetra™ vaccine alone with respect to anti-rubella seroconversion rates (SCRs) at Day 42 after dose 1."||2.29|-1.23|
92456261|NCT01506193|184801759|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with respect to seroconversion rates for varicella was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|-0.33|||||TWO_SIDED|95.0|-1.87|2.03||||||"Immune response for anti-varicella antibodies~Non-inferiority of Priorix-Tetra™ vaccine co-administered with Meningitec® conjugate vaccine compared to the first dose of Priorix-Tetra™ vaccine alone with respect to anti-varicella seroconversion rates (SCRs) at Day 42 after dose 1."||2.03|-1.87|
92456262|NCT01506193|184801760|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with respect to seroresponse for rSBA-MenC was concluded if the lower limit of the 95% CI around the difference in seroprotection rates between groups would be \[-10%\] or higher.|Difference in percentage|-1.02|||||TWO_SIDED|95.0|-3.39|2.24||||||"Immune response for rSBA-MenC antibodies~Non-inferiority of Meningitec® conjugate vaccine co-administered with Priorix-Tetra™ compared to Meningitec® conjugate vaccine alone with respect to rabbit complement serum bactericidal assay (rSBA-MenC) antibody seroprotection rates (SPRs) at Day 42 after vaccination."||2.24|-3.39|
92456263|NCT06242444|184801779|SUPERIORITY||Adjusted Mean Difference|8.35|STANDARD_ERROR_OF_MEAN|2.465||0.0012|TWO_SIDED|95.0|3.42|13.28|||Mixed Models Analysis||Adjusted mean difference was calculated as Test Dentifrice minus Placebo Control Dentifrice.|||13.28|3.42|0.0012
92456264|NCT06242444|184801780|SUPERIORITY||Adjusted Mean Difference|37.33|STANDARD_ERROR_OF_MEAN|3.217|<|0.0001|TWO_SIDED|95.0|30.9|43.76|||Mixed Models Analysis||Adjusted mean difference was calculated as Test Dentifrice minus Placebo Control Dentifrice.|||43.76|30.90|<.0001
92456265|NCT06242444|184801781|SUPERIORITY||Adjusted Mean Difference|3.95|STANDARD_ERROR_OF_MEAN|2.462||0.1138|TWO_SIDED|95.0|-0.97|8.87|||Mixed Models Analysis||Adjusted mean difference was calculated as Test Dentifrice minus Reference Dentifrice.|||8.87|-0.97|0.1138
92456266|NCT06242444|184801783|SUPERIORITY||Adjusted Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|3.213||0.493|TWO_SIDED|95.0|-4.21|8.64|||Mixed Models Analysis||Adjusted mean difference was calculated as Test Dentifrice minus Reference Dentifrice.|||8.64|-4.21|0.4930
92243065|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|16.31|||||TWO_SIDED|95.0|2.15|123.48|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 18C||123.48|2.15|
92243066|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|24.16|||||TWO_SIDED|95.0|1.59|367.81|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 19A||367.81|1.59|
92243067|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|95.06|||||TWO_SIDED|95.0|13.08|691.01|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 19F||691.01|13.08|
92243068|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|10.49|||||TWO_SIDED|95.0|0.64|171.84|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 23F||171.84|0.64|
92456267|NCT06242444|184801787|SUPERIORITY||Adjusted Mean Difference|4.4|STANDARD_ERROR_OF_MEAN|2.462||0.0789|TWO_SIDED|95.0|-0.52|9.32|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 4 hours of intra-oral exposure||9.32|-0.52|0.0789
92456268|NCT06242444|184801787|SUPERIORITY||Adjusted Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|2.408||0.2178|TWO_SIDED|95.0|-1.82|7.81|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 12 hours of intra-oral exposure||7.81|-1.82|0.2178
92456269|NCT06242444|184801788|SUPERIORITY||Adjusted Mean Difference|35.12|STANDARD_ERROR_OF_MEAN|3.213|<|0.0001|TWO_SIDED|95.0|28.69|41.54|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 4 hours of intra-oral exposure||41.54|28.69|<.0001
92456270|NCT06242444|184801788|SUPERIORITY||Adjusted Mean Difference|27.18|STANDARD_ERROR_OF_MEAN|3.018|<|0.0001|TWO_SIDED|95.0|21.14|33.21|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 12 hours of intra-oral exposure||33.21|21.14|<.0001
92456271|NCT06242444|184801789|SUPERIORITY||Geometric Mean Ratio|1.73|||<|0.0001|TWO_SIDED|95.0|1.53|1.97|||Mixed Models Analysis|||At 4 hours of intra-oral exposure||1.97|1.53|<.0001
92456272|NCT06242444|184801789|SUPERIORITY||Geometric Mean Ratio|1.59|||<|0.0001|TWO_SIDED|95.0|1.42|1.78|||Mixed Models Analysis|||At 12 hours of intra-oral exposure||1.78|1.42|<.0001
92456273|NCT06242444|184801790|SUPERIORITY||Adjusted Mean Difference|0.307|STANDARD_ERROR_OF_MEAN|0.0277|<|0.0001|TWO_SIDED|95.0|0.252|0.362|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 4 hours of intra-oral exposure||0.362|0.252|<.0001
92456274|NCT06242444|184801790|SUPERIORITY||Adjusted Mean Difference|0.242|STANDARD_ERROR_OF_MEAN|0.0257|<|0.0001|TWO_SIDED|95.0|0.19|0.293|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 12 hours of intra-oral exposure||0.293|0.190|<.0001
92456275|NCT01988779|184801864|NON_INFERIORITY|Assuming that the non-inferiority limit of topical therapy is 20% of that for oral therapy.||||||0.505|||||||ANOVA|||||||0.505
92456276|NCT01988779|184801866|NON_INFERIORITY|Assuming that the non-inferiority limit of topical therapy is 20% of that for oral therapy.||||||0.39|||||||ANOVA|||||||0.390
92456277|NCT01988779|184801867|NON_INFERIORITY|Assuming that the non-inferiority limit of topical therapy is 20% of that for oral therapy.||||||0.036|||||||ANOVA|||||||0.036
92456278|NCT00377403|184801873|SUPERIORITY_OR_OTHER|||||||0.83||95.0||||The a priori threshold for statistical significnace was p less than or equal to 0.05|ANOVA|Adjusted for disease severity at baseline||We used analysis of variance, controlling for disease severity at baseline to test the null hypothesis that there was no difference between study groups at this point in time.||||0.83
92456279|NCT02275065|184801874|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456280|NCT02275065|184801874|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456281|NCT02275065|184801874|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456282|NCT02275065|184801874|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456283|NCT02275065|184801877|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456284|NCT02275065|184801877|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456285|NCT02275065|184801877|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456286|NCT02275065|184801877|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456287|NCT02275065|184801878|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456288|NCT02275065|184801878|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456289|NCT02275065|184801878|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92243069|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|4.86|||||TWO_SIDED|95.0|2.15|10.96|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 1||10.96|2.15|
92243070|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|9.57|||||TWO_SIDED|95.0|4.5|20.36|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 3||20.36|4.50|
92243071|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|13.4|||||TWO_SIDED|95.0|5.2|34.51|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 4||34.51|5.20|
92243072|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|17.15|||||TWO_SIDED|95.0|7.76|37.91|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 5||37.91|7.76|
92456290|NCT02275065|184801878|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
92456291|NCT00417079|184801892|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A 2-sided significance level of 0.0452 was used for the final analysis based on an interim analysis performed after 307 events with an adjusted significance level of 0.016 based on the O'Brien-Fleming type 1 error spending function.|Log Rank|Analysis was performed by using a log-rank comparisons stratified according to disease measurability and ECOG performance status (0-1 versus 2)||The study required an estimated sample size of 720 patients (360 per arm) in order to detect a 25% reduction in the hazard ratio for death in the cabazitaxel group relative to the mitoxantrone group with 90% power. The final analysis was planned for when 511 deaths had occurred.||||<0.0001
92243073|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|40.2|||||TWO_SIDED|95.0|15.16|106.65|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 6A||106.65|15.16|
92281374|NCT03179345|184465851|SUPERIORITY||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.865||0.6741|TWO_SIDED|95.0|-1.36|2.1|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||2.10|-1.36|0.6741
92243074|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|20.38|||||TWO_SIDED|95.0|8.39|49.51|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 6B||49.51|8.39|
92243075|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|21.22|||||TWO_SIDED|95.0|8.65|52.07|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 7F||52.07|8.65|
92281375|NCT03179345|184465852|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.0175||0.007|TWO_SIDED|95.0|-0.08|-0.01|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||-0.01|-0.08|0.0070
92281376|NCT03179345|184465852|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.0175||0.5183|TWO_SIDED|95.0|-0.02|0.05|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.05|-0.02|0.5183
92456292|NCT00417079|184801893|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<0.0001
92456293|NCT00417079|184801894|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Chi-squared|||||||0.0005
92281377|NCT03179345|184465852|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.0175||0.5084|TWO_SIDED|95.0|-0.05|0.02|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.02|-0.05|0.5084
92456294|NCT00417079|184801895|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.61|||<|0.0001|TWO_SIDED|95.0|0.49|0.76|||Log Rank|Log-rank comparisons stratified according to disease measurability and ECOG performance status.|Hazard ratio (HR) \< 1 favours the cabazitaxel group and \> 1 favours the mitoxantrone group.|||0.76|0.49|<0.0001
92456295|NCT00417079|184801896|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.75||||0.001|TWO_SIDED|95.0|0.63|0.9|||Log Rank|Log-rank comparisons stratified according to disease measurability and ECOG performance status.|Hazard ratio (HR) \< 1 favours the cabazitaxel group and \> 1 favours the mitoxantrone group.|||0.90|0.63|0.0010
92456296|NCT00417079|184801897|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Chi-squared|||||||0.0002
92456297|NCT00417079|184801898|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.91||||0.5192|TWO_SIDED|95.0|0.69|1.19|||Log Rank|Log-rank comparisons stratified according to disease measurability and ECOG performance status.|Hazard ratio (HR) \< 1 favours the cabazitaxel group and \> 1 favours the mitoxantrone group.|||1.19|0.69|0.5192
92456298|NCT00417079|184801899|SUPERIORITY_OR_OTHER|||||||0.6286||95.0|||||Chi-squared|||||||0.6286
92456299|NCT03336619|184801919|SUPERIORITY|||||||0.3765|||||||Gehan-Wilcoxon|Analysis used a Gehan-Wilcoxon test stratified by time from symptom onset at enrollment and influenza vaccination status.||||||0.3765
92456300|NCT03336619|184801920|SUPERIORITY|||||||0.6331|||||||Gehan-Wilcoxon|Gehan-Wilcoxon test stratified by time from symptom onset at enrollment and influenza vaccination status.||||||0.6331
92456301|NCT03336619|184801921|SUPERIORITY|||||||0.7382|||||||Fisher Exact|||||||0.7382
92456302|NCT03336619|184801922|SUPERIORITY|||||||0.3236|||||||Gehan-Wilcoxon|Gehan-Wilcoxon test stratified by time from symptom onset to enrollment and influenza vaccination status.||||||0.3236
92456303|NCT03336619|184801923|SUPERIORITY|||||||0.0483|||||||Gehan-Wilcoxon|Gehan-Wilcoxon test stratified by time from symptom onset at enrollment and influenza vaccination status.||||||0.0483
92456304|NCT01680328|184801976|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.1||||||95.0|-2.9|2.8||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||2.8|-2.9|
92456305|NCT01680328|184801976|SUPERIORITY_OR_OTHER||Least Squares Mean|3.5||||||95.0|0.4|6.6||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||6.6|0.4|
92456306|NCT01680328|184801976|SUPERIORITY_OR_OTHER||Least Squares Mean|7.2||||||95.0|4.6|9.7||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||9.7|4.6|
92456307|NCT01680328|184801976|SUPERIORITY_OR_OTHER||Least Squares Mean|3.6||||||95.0|0.4|6.7||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||6.7|0.4|
92456308|NCT01680328|184801976|SUPERIORITY_OR_OTHER||Least Squares Mean|7.2||||||95.0|4.4|10.0||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||10.0|4.4|
92456309|NCT01680328|184801976|SUPERIORITY_OR_OTHER||Least Squares Mean|3.7||||||95.0|0.6|6.7||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||6.7|0.6|
92456310|NCT01680328|184801976|SUPERIORITY_OR_OTHER||Least Squares Mean|0.4||||||95.0|-2.1|2.9||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean difference in injection pain on VAS after injection at different speeds was calculated as least square mean estimate of the mean difference in injection pain on a VAS after injection at different speeds.||2.9|-2.1|
92243076|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|23.73|||||TWO_SIDED|95.0|10.39|54.19|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 9V||54.19|10.39|
92456311|NCT01680328|184801976|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.4||||||95.0|-2.7|1.9||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean difference in injection pain on VAS after injection at different speeds was calculated as least square mean estimate of the mean difference in injection pain on a VAS after injection at different speeds.||1.9|-2.7|
92243077|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|12.84|||||TWO_SIDED|95.0|5.46|30.22|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 14||30.22|5.46|
92456312|NCT01680328|184801976|SUPERIORITY_OR_OTHER||Least Squares Mean|9.0||||||95.0|6.7|11.3||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. The mean difference in injection pain on a VAS (mm) between the thighs and abdomen was calculated as the least square mean estimate of the mean difference in injection pain on a VAS (mm) between the thighs and abdomen.||11.3|6.7|
92456313|NCT01680328|184801977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||||95.0|0.5|1.4|||Odds ratio (OR)|||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||1.4|0.5|
92456314|NCT01680328|184801977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||||95.0|1.2|3.5||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||3.5|1.2|
92456315|NCT01680328|184801977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||||95.0|1.4|3.0||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||3.0|1.4|
92456316|NCT01680328|184801977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6||||||95.0|1.4|4.8||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||4.8|1.4|
92456317|NCT01680328|184801977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6||||||95.0|1.4|4.6||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||4.6|1.4|
92456318|NCT01680328|184801977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||||95.0|0.7|1.5||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||1.5|0.7|
92243078|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|12.88|||||TWO_SIDED|95.0|5.95|27.88|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 18C||27.88|5.95|
92243079|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|26.99|||||TWO_SIDED|95.0|11.46|63.58|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 19A||63.58|11.46|
92243080|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|15.53|||||TWO_SIDED|95.0|7.02|34.38|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 19F||34.38|7.02|
92281378|NCT03179345|184465853|SUPERIORITY||Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|0.307||0.1026|TWO_SIDED|95.0|-0.104|1.124|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.124|-0.104|0.1026
92281379|NCT03179345|184465853|SUPERIORITY||Mean Difference (Net)|-0.094|STANDARD_ERROR_OF_MEAN|0.309||0.7634|TWO_SIDED|95.0|-0.711|0.523|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.523|-0.711|0.7634
92281380|NCT03179345|184465853|SUPERIORITY||Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|0.309||0.1041|TWO_SIDED|95.0|-0.107|1.127|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.127|-0.107|0.1041
92456319|NCT01680328|184801978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||||95.0|0.7|1.8||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'higher speed versus lower', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the higher speed - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||1.8|0.7|
92456320|NCT01680328|184801978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||||95.0|0.6|1.2||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'higher speed versus lower', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the higher speed - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||1.2|0.6|
92456321|NCT01680328|184801979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.7||||||95.0|2.4|5.5|||Odds ratio (OR)|||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain in the thighs - i.e. a worse condition.||5.5|2.4|
92456322|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.6||||||95.0|-0.6|1.8||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.8|-0.6|
92456323|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.4||||||95.0|-0.8|1.6||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.6|-0.8|
92456324|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.9||||||95.0|-0.4|2.1||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||2.1|-0.4|
92456325|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.5||||||95.0|-0.8|1.7||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.7|-0.8|
92456326|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.5||||||95.0|-0.8|1.7||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.7|-0.8|
92281381|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.286|STANDARD_ERROR_OF_MEAN|0.12||0.0177|TWO_SIDED|95.0|-0.521|-0.051|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Vision||-0.051|-0.521|0.0177
92281382|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.157|STANDARD_ERROR_OF_MEAN|0.19||0.412|TWO_SIDED|95.0|-0.536|0.222|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Energy Level||0.222|-0.536|0.4120
92456327|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.5||||||95.0|-0.7|1.8||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.8|-0.7|
92243081|NCT05372575|184388918|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|48.73|||||TWO_SIDED|95.0|18.67|127.16|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 23F||127.16|18.67|
92243082|NCT03345836|184388940|SUPERIORITY||Adjusted Risk Difference|17.9|||<|0.0001|TWO_SIDED|95.0|10.0|25.8||P-value was calculated using Cochran-Mantel Haenszel (CMH) test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% confidence interval (CI) were calculated using CMH risk difference estimate.|||25.8|10.0|<0.0001
92243083|NCT03345836|184388941|SUPERIORITY||Adjusted Risk Difference|31.2|||<|0.0001|TWO_SIDED|95.0|25.5|37.0||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH risk difference estimate.|||37.0|25.5|<0.0001
92456328|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.9||||||95.0|-0.3|2.1||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||2.1|-0.3|
92456329|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.8||||||95.0|-0.4|2.0||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||2.0|-0.4|
92456330|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.1||||||95.0|-0.1|2.3||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||2.3|-0.1|
92456331|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|2.3||||||95.0|1.0|3.5||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||3.5|1.0|
92456332|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.4||||||95.0|0.2|2.6||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||2.6|0.2|
92456333|NCT01680328|184801980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.6||||||95.0|-0.6|1.8||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.8|-0.6|
92456334|NCT01680328|184801981|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.3||||||95.0|-0.9|1.5||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the thigh at different volume and speed combinations.||1.5|-0.9|
92456335|NCT01680328|184801981|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.8||||||95.0|-0.4|2.1||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the thigh at different volume and speed combinations.||2.1|-0.4|
92456336|NCT01680328|184801981|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.6||||||95.0|0.3|2.8||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the thigh at different volume and speed combinations.||2.8|0.3|
92456337|NCT01680328|184801981|SUPERIORITY_OR_OTHER||Least Square Mean Difference|4.9||||||95.0|3.7|6.1||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the thigh at different volume and speed combinations.||6.1|3.7|
92456338|NCT01680328|184801981|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.7||||||95.0|0.5|2.9||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the thigh at different volume and speed combinations.||2.9|0.5|
92456339|NCT01669122|184801998|NON_INFERIORITY_OR_EQUIVALENCE|Testing Bioequivalence|Treatment Ratio|0.96|||||TWO_SIDED|90.0|0.93|0.99||||||Null hypothesis considered no difference in the treatments being compared.||0.99|0.93|
92456340|NCT01669122|184801998|NON_INFERIORITY_OR_EQUIVALENCE|Testing Bioequivalence|Treatment Ratio|0.96|||||TWO_SIDED|90.0|0.93|0.99||||||Null hypothesis considered no difference in the treatments being compared.||0.99|0.93|
92456341|NCT01669122|184801998|NON_INFERIORITY_OR_EQUIVALENCE|Testing Bioequivalence|Treatment Ratio|0.94|||||TWO_SIDED|90.0|0.91|0.97||||||Null hypothesis considered no difference in the treatments being compared.||0.97|0.91|
92456342|NCT01669122|184801999|NON_INFERIORITY_OR_EQUIVALENCE|Testing bioequivalence|Treatment Ratio|0.97|||||TWO_SIDED|90.0|0.93|1.02||||||Null hypothesis considered no difference in the treatments being compared.||1.02|0.93|
92456343|NCT01669122|184801999|NON_INFERIORITY_OR_EQUIVALENCE|Testing Bioequivalence|Treatment Ratio|0.99|||||TWO_SIDED|90.0|0.94|1.03||||||Null hypothesis considered no difference in the treatments being compared.||1.03|0.94|
92456344|NCT01669122|184801999|NON_INFERIORITY_OR_EQUIVALENCE|Testing Bioequivalence|Treatment Ratio|0.92|||||TWO_SIDED|90.0|0.88|0.96||||||Null hypothesis considered no difference in the treatments being compared.||0.96|0.88|
92456345|NCT01669122|184802000|NON_INFERIORITY_OR_EQUIVALENCE|Testing bioequivalence|Treatment Ratio|0.96|||||TWO_SIDED|90.0|0.93|0.99||||||Null hypothesis considered no difference in the treatments being compared.||0.99|0.93|
92456346|NCT01669122|184802000|NON_INFERIORITY_OR_EQUIVALENCE|Testing bioequivalence|Treatment Ratio|0.96|||||TWO_SIDED|90.0|0.93|0.99||||||Null hypothesis considered no difference in the treatments being compared.||0.99|0.93|
92456347|NCT01669122|184802000|NON_INFERIORITY_OR_EQUIVALENCE|Testing bioequivalence|Treatment Ratio|0.93|||||TWO_SIDED|90.0|0.9|0.96||||||Null hypothesis considered no difference in the treatments being compared.||0.96|0.90|
92456348|NCT01669122|184802001|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.2208|TWO_SIDED|95.0|0.0|0.5|||Wilcoxon (Mann-Whitney)||Based on Hodges Lehmann estimate|Null hypothesis considered no difference in the treatments being compared.||0.50|0.00|0.2208
92243084|NCT03345836|184388943|SUPERIORITY||Adjusted Treatment Difference|25.9|||<|0.0001|TWO_SIDED|95.0|18.7|33.1||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||33.1|18.7|<0.0001
92243085|NCT03345836|184388944|SUPERIORITY||Adjusted Treatment Difference|16.8|||<|0.0001|TWO_SIDED|95.0|12.0|21.6||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||21.6|12.0|<0.0001
92243086|NCT03345836|184388945|SUPERIORITY||Adjusted Treatment Difference|22.5||||0.0001|TWO_SIDED|95.0|11.1|34.0||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||34.0|11.1|0.0001
92281383|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.046|STANDARD_ERROR_OF_MEAN|0.16||0.7724|TWO_SIDED|95.0|-0.362|0.27|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Memory||0.270|-0.362|0.7724
92281384|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.121|STANDARD_ERROR_OF_MEAN|0.15||0.4255|TWO_SIDED|95.0|-0.423|0.18|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Walking Balance||0.180|-0.423|0.4255
92456349|NCT01669122|184802001|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.5695|TWO_SIDED|95.0|-0.25|0.25|||Wilcoxon (Mann-Whitney)||Based on Hodges Lehmann estimate|Null hypothesis considered no difference in the treatments being compared.||0.25|-0.25|0.5695
92456350|NCT01669122|184802001|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0063|TWO_SIDED|95.0|0.0|0.5|||Wilcoxon (Mann-Whitney)||Based on Hodges Lehmann estimate|Null hypothesis considered no difference in the treatments being compared.||0.50|0.00|0.0063
92456351|NCT00765193|184802004|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36|||<|0.01||95.0|2.12|2.62|||Regression, Logistic|||The primary outcomes were the calculation of the absolute and relative risks of missing a skin cancer when TBSE is not performed, as well as the number of patients needed to examine by TBSE to find a skin cancer. The secondary outcome was to assess the magnitude of false-positive results obtained by TBSE||2.62|2.12|<0.01
92456352|NCT04370054|184802009|NON_INFERIORITY|A repeated measures negative binomial regression model was used to test non-inferiority with non-inferiority margin = 3 bleeds/year at the one-sided alpha level = 0.025.|Mean Difference (Final Values)|-3.49|||=|0.004|TWO_SIDED|95.0|-6.06|-0.91||One-sided p-value is reported.|Generalized linear model (GLM)||Difference in mean = Mean PF-07055480 Total ABR - Mean FVIII Prophylaxis Total ABR.|A repeated measures GLM was used with bleeds as dependent variable in negative binomial distribution, an interaction of duration by treatment, and 'participant' as random and treatment \& duration of follow-up as fixed effect.||-0.91|-6.06|=0.0040
92456353|NCT04370054|184802010|SUPERIORITY||||||=|0.0086||||||One-sided p-value is reported.|One-sided exact binomial proportion test|||||||=0.0086
92456354|NCT04370054|184802011|NON_INFERIORITY|A repeated measures negative binomial regression model was used to test non-inferiority with non-inferiority margin = 3 bleeds/year at the one-sided alpha level = 0.025.|Mean Difference (Final Values)|-4.01|||<|0.0001|TWO_SIDED|95.0|-5.57|-2.45||One-sided p-value is reported.|Repeated measures GLM||Difference in mean = Mean PF-07055480 Total ABR - Mean FVIII Prophylaxis Total ABR.|A repeated measures GLM was used with bleeds as dependent variable in negative binomial distribution, an interaction of duration by treatment, and 'participant' as random and treatment \& duration of follow-up as fixed effect.||-2.45|-5.57|<0.0001
92243087|NCT03345836|184388946|SUPERIORITY||Adjusted Treatment Difference|7.5|||<|0.0001|TWO_SIDED|95.0|5.2|9.8||P-value was calculated using mixed effect model repeat measurement (MMRM) with Baseline, treatment, visit, treatment by visit interaction and stratification factors in the model.|MMRM||Point estimate and 95% CI was calculated using MMRM.|||9.8|5.2|< 0.0001
92243088|NCT03345836|184388947|SUPERIORITY||Adjusted Treatment Difference|24.3|||<|0.0001|TWO_SIDED|95.0|17.2|31.5||P-value was calculated using MMRM with Baseline, treatment, visit, treatment by visit interaction and stratification factors in the model.|MMRM||Point estimate and 95% CI was calculated using MMRM.|||31.5|17.2|< 0.0001
92243089|NCT03345836|184388948|SUPERIORITY||Adjusted Treatment Difference|20.7|||<|0.0001|TWO_SIDED|95.0|13.7|27.8||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||27.8|13.7|<0.0001
92243090|NCT03345836|184388949|SUPERIORITY||Adjusted Treatment Difference|22.8|||<|0.0001|TWO_SIDED|95.0|14.4|31.2||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||31.2|14.4|<0.0001
92243091|NCT03345836|184388950|SUPERIORITY||Adjusted Treatment Difference|12.1||||0.0013|TWO_SIDED|95.0|4.7|19.5||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||19.5|4.7|0.0013
92456355|NCT04370054|184802012|SUPERIORITY||Mean Difference (Final Values)|-124.18|||<|0.0001|TWO_SIDED|95.0|-139.47|108.89||One-sided p-value is reported.|Paired t-test||Treatment Difference = (PF-07055480 AIR - FVIII Prophylaxis AIR).|||108.89|-139.47|<0.0001
92456356|NCT04370054|184802014|SUPERIORITY||Mean Difference (Final Values)|-4076.06|||<|0.0001|TWO_SIDED|95.0|-4728.3|-3423.8||One-sided p-value is reported.|Paired t-test||Treatment Difference (FVIII Consumption post-IP Infusion - FVIII Consumption during FVIII Prophylaxis).|||-3423.8|-4728.3|<0.0001
92243092|NCT03345836|184388951|SUPERIORITY||Treatment Difference|-2.6||||0.2834|TWO_SIDED|95.0|-7.6|2.4||P-value was calculated using Chi-squared test.|Chi-squared||Point estimate and 95% CI was calculated using Chi-squared test.|||2.4|-7.6|0.2834
92456357|NCT00710424|184802060|SUPERIORITY_OR_OTHER_LEGACY||estimated treatment effect|-0.12||||0.634|TWO_SIDED|95.0|-0.6|0.36|||ANCOVA||A negative difference in treatment effect indicates an improvement in pain in favour of Sativex.|The model used for the analysis of the end of study value was an analysis of covariance (ANCOVA) with baseline value as a covariate and treatment group and centre group as main effect. The test was performed at the 10% significance level as a possible indicator of an interactive effect. The null hypothesis was one of no difference between treatments.||0.36|-0.60|0.634
92456358|NCT00710424|184802061|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.37|STANDARD_ERROR_OF_MEAN|2.153||0.865|TWO_SIDED|95.0|-3.87|4.61|||ANCOVA|||The change from baseline in mean neuropathic pain scale scale score at the end of treatment was to be compared between treatment groups using ANCOVA. The model was to include treatment and centre group as factors and baseline mean usage as a covariate.||4.61|-3.87|0.865
92243093|NCT03345836|184388952|SUPERIORITY||Adjusted Treatment Difference|11.5||||0.0833|TWO_SIDED|95.0|-1.5|24.4||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||24.4|-1.5|0.0833
92243094|NCT00952289|184388969|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||The primary endpoint analyzed with a 2-sided alpha of 0.05.||||<0.0001
92243095|NCT03259334|184388980|SUPERIORITY|||||||0.617|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.617
92243096|NCT03259334|184388980|SUPERIORITY|||||||0.018|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.018
92243097|NCT03259334|184388981|SUPERIORITY|||||||0.253|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.253
92456359|NCT00710424|184802062|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.45||||0.139|TWO_SIDED|95.0|-1.04|0.15|||ANCOVA|||The change from baseline in mean sleep quality numerical rating scale score at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment and centre group as factors and baseline mean usage as a covariate.||0.15|-1.04|0.139
92456360|NCT00710424|184802063|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.301||||0.219|TWO_SIDED|95.0|0.855|1.981|||Regression, Logistic|||In the analysis of Subject Global Impression of Change, the two treatment groups were compared using ordinal logistic regression and the proportional odds model. The model incorporated centre group as a factor.||1.981|0.855|0.219
92243098|NCT03259334|184388981|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.002
92456361|NCT00710424|184802064|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-0.05||||0.841|TWO_SIDED|95.0|-0.51|0.42|||ANCOVA|||The change from baseline in mean brief pain inventory (short form) composite score at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment and centre group as factors and baseline mean usage as a covariate.||0.42|-0.51|0.841
92456362|NCT00710424|184802065|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.021||0.523|TWO_SIDED|95.0|-0.06|0.03|||ANCOVA|||The change from baseline in weighted health state index score at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment and centre group as factors and baseline symptom score as a covariate.||0.03|-0.06|0.523
92456363|NCT00710424|184802066|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-0.17||||0.41|TWO_SIDED|95.0|-0.59|0.24|||ANCOVA|||The model used for the analysis of the end of study value was ANCOVA with baseline value as a covariate and treatment group and centre group as main effect. The test was performed at the 10% significance level as a possible indicator of an interactive effect. The null hypothesis was one of no difference between treatments. A negative difference in adjusted means indicates an improvement in favour of Sativex.||0.24|-0.59|0.410
92456364|NCT00710424|184802069|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.857||||0.521|TWO_SIDED|95.0|0.537|1.37|||Regression, Logistic|||The numbers of responders were to be analysed using the difference in proportions and the odds ratio comparing the treatment groups with the provision of 95% CIs for the difference and odds ratio.||1.370|0.537|0.521
92456365|NCT00127608|184802081|NON_INFERIORITY|The mean viral load between samples stored in liquid and samples stored dry was compared.|Geometric Mean Ratio|0.33|||<|0.0001|||||||ANOVA|Tukey adjustments were made for all 2 by 2 comparisons.|The Geometric Mean Ratio of the viral load was calculated for dry over liquid storage condition.|||||<0.0001
92456366|NCT00127608|184802082|NON_INFERIORITY_OR_EQUIVALENCE|Difference in mean viral load (in log10) (Papule swab minus Vesicle fluid)|Mean Difference (Final Values)|-0.4451||||0.0038||95.0|-0.769|-0.1213|||ANOVA|Tukey adjustments were made for the comparison.||||-0.1213|-0.7690|0.0038
92456367|NCT00127608|184802082|NON_INFERIORITY_OR_EQUIVALENCE|Difference in mean viral load (in log10) (Papule swab minus Vesicle swab)|Median Difference (Final Values)|-0.432||||0.006|TWO_SIDED|95.0|-0.7605|-0.1035|||ANOVA|Tukey adjustments were made for the comparison.||||-0.1035|-0.7605|0.0060
92456368|NCT00127608|184802082|NON_INFERIORITY_OR_EQUIVALENCE|Difference in mean viral load (in log10) (Vesicle fluid minus Vesicle swab)|Mean Difference (Final Values)|0.00132||||0.9952|TWO_SIDED|95.0|-0.3171|0.3435|||ANOVA|Tukey adjustments were made for the comparison.||||0.3435|-0.3171|0.9952
92456369|NCT00127608|184802082|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of viral load (Papule swab over Vesicle fluid)|Geometric mean ratio|0.36|||||TWO_SIDED|95.0|0.17|0.76|||ANOVA|||Geometric mean ratio of viral load (Papule swab over Vesicle fluid)||0.76|0.17|
92456370|NCT00127608|184802082|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of viral load (Papule swab over Vesicle swab)|Geometric mean Ratio|0.37|||||TWO_SIDED|95.0|0.17|0.79|||ANOVA|||Geometric mean ratio of viral load (Papule swab over Vesicle swab)||0.79|0.17|
92243099|NCT03259334|184388982|SUPERIORITY|||||||0.764|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline||||||0.764
92243100|NCT03259334|184388982|SUPERIORITY|||||||0.08|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.080
92243101|NCT03259334|184388983|SUPERIORITY|||||||0.44|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.440
92456371|NCT00127608|184802082|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of viral load (Vesicle fluid over Vesicle swab)|Geometric mean Ratio|1.0|||||TWO_SIDED|95.0|0.48|2.21|||ANOVA|||Geometric mean ratio of viral load (Vesicle fluid over Vesicle swab)||2.21|0.48|
92456372|NCT01258608|184802109|OTHER||Hazard Ratio (HR)|1.192||||0.7382|ONE_SIDED|90.0||1.737||P-value for comparison of treatment groups obtained from stratified log-rank test-stratified by Barcelona Clinic Liver Cancer and Eastern Cooperative Oncology Group (ECOG) performance status.|Stratified log-rank test||Hazard ratio comparing mapatumumab to placebo obtained from Cox proportional hazards model with covariate adjustment for Barcelona Clinic Liver Cancer and ECOG performance status.|||1.737||0.7382
92456373|NCT01258608|184802110|OTHER||Hazard Ratio (HR)|0.922||||0.3156|ONE_SIDED|90.0||1.288||P-value for comparison of treatment groups obtained from stratified log-rank test-stratified by Barcelona Clinic Liver Cancer and Eastern Cooperative Oncology Group (ECOG) performance status.|Stratified log-rank test||Hazard ratio comparing mapatumumab to placebo obtained from Cox proportional hazards model with covariate adjustment for Barcelona Clinic Liver Cancer and ECOG performance status.|||1.288||0.3156
92243102|NCT03259334|184388983|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline||||||0.002
92456374|NCT01258608|184802111|OTHER||Hazard Ratio (HR)|1.007||||0.6121|ONE_SIDED|90.0||1.346||P-value for comparison of treatment groups obtained from stratified log-rank test-stratified by Barcelona Clinic Liver Cancer and ECOG performance status.|Stratified log-rank test||Hazard ratio comparing mapatumumab to placebo obtained from Cox proportional hazards model with covariate adjustment for Barcelona Clinic Liver Cancer and ECOG performance status.|||1.346||0.6121
92243103|NCT03259334|184388984|SUPERIORITY|||||||0.286|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline||||||0.286
92243104|NCT03259334|184388984|SUPERIORITY|||||||0.005|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.005
92456375|NCT01258608|184802112|OTHER||Hazard Ratio (HR)|1.066||||0.6925|ONE_SIDED|90.0||1.43||P-value for comparison of treatment groups obtained from stratified log-rank test - stratified by Barcelona Clinic Liver Cancer and ECOG performance status.|Stratified log-rank test||Hazard ratio comparing Mapatumumab to placebo obtained from Cox proportional hazards model with covariate adjustment for Barcelona Clinic Liver Cancer and ECOG performance status.|||1.430||0.6925
92456376|NCT01258608|184802113|OTHER||Hazard Ratio (HR)|0.909||||0.3088|ONE_SIDED|90.0||1.191||P-value for comparison of treatment groups obtained from stratified log-rank test - stratified by Barcelona Clinic Liver Cancer and ECOG performance status.|Stratified log-rank test||Hazard ratio comparing Mapatumumab to placebo obtained from Cox proportional hazards model with covariate adjustment for Barcelona Clinic Liver Cancer and ECOG performance status.|||1.191||0.3088
92456377|NCT01258608|184802114|OTHER||Response rate difference|5.4||||0.5458|TWO_SIDED|95.0|-16.8|26.6||Nominal P-value for comparison of treatment groups obtained from Fisher's exact test.|Fisher Exact|||||26.6|-16.8|0.5458
92456378|NCT01258608|184802115|OTHER||Response rate difference|6.7||||0.3479|TWO_SIDED|95.0|-13.4|26.2||Nominal P-value for comparison of treatment groups obtained from Fisher's exact test.|Fisher Exact|||||26.2|-13.4|0.3479
92456379|NCT01258608|184802116|OTHER||Disease control rate difference|-20.7||||0.0198|TWO_SIDED|95.0|-40.8|1.8||Nominal P-value for comparison of treatment groups obtained from Fisher's exact test.|Fisher Exact|||||1.8|-40.8|0.0198
92456380|NCT01258608|184802117|OTHER||Disease control rate difference|-5.8||||0.6558|TWO_SIDED|95.0|-25.4|13.8||Nominal P-value for comparison of treatment groups obtained from Fisher's exact test.|Fisher Exact|||||13.8|-25.4|0.6558
92456381|NCT04250727|184802145|SUPERIORITY|||||||0.601|||||||Wilcoxon (Mann-Whitney)|||||||0.601
92456382|NCT00440531|184802152|SUPERIORITY_OR_OTHER||single-group percentage|75.7||||||95.0|68.0|82.2||||||No hypothesis is being tested. The purpose of the primary analysis is to estimate the seroprotection rate (percentage of subjects with anti-HBs \>=10mIU/mL) in each group at 1 month post vaccination 3, among subjects who were seronegative at baseline.||82.20|68|
92456383|NCT00440531|184802152|SUPERIORITY_OR_OTHER||single-group percentage|68.0||||||95.0|59.8|75.5||||||No hypothesis is being tested. The purpose of the primary analysis is to estimate the seroprotection rate (percentage of subjects with anti-HBs \>=10mIU/mL) in each group at 1 month post vaccination 3, among subjects who were seronegative at baseline.||75.50|59.80|
92456384|NCT00440531|184802153|SUPERIORITY_OR_OTHER||Single-Group Percentage|84.0||||||95.0|77.0|89.6||||||No hypothesis is being tested. The purpose of the secondary analysis is to estimate the seroprotection rate (percentage of subjects with anti-HBs \>=10mIU/mL) for ENGERIX-B™ at 1 month post vaccination 3, among subjects who were seronegative at baseline.||89.60|77|
92456385|NCT00447057|184802157|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63||||0.0047|TWO_SIDED|95.0|0.438|0.897|||Log Rank|Log-rank test with 1-sided alpha of 0.20||||0.897|0.438|0.0047
92456386|NCT00447057|184802158|SUPERIORITY_OR_OTHER|||||||0.3909|||||||Fisher Exact|||||||0.3909
92281385|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|0.017|STANDARD_ERROR_OF_MEAN|0.12||0.8925|TWO_SIDED|95.0|-0.229|0.262|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Interest in activities||0.262|-0.229|0.8925
92456387|NCT00447057|184802159|SUPERIORITY_OR_OTHER|||||||0.1808|||||||Fisher Exact|||||||0.1808
92456388|NCT00447057|184802160|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.0034|TWO_SIDED|95.0|0.457|0.887||1-sided significance level of 0.20|Log Rank|||||0.887|0.457|0.0034
92456389|NCT00447057|184802161|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.019|TWO_SIDED|95.0|0.465|0.981||1-sided significance level of 0.20|Log Rank|||||0.981|0.465|0.0190
92456390|NCT00184548|184802167|SUPERIORITY_OR_OTHER|||||||0.934||||||Two-sided significance level 5%|Regression, Logistic|||Test for Odds ratio=1, corresponding to a null hypothesis of no difference in mortality for patients who died between groups for Blunt Trauma. Odds-ratio is adjusted for baseline covariates: Age, Injury Severity Score (ISS), Glasgow Coma -Scale Score (GCS), International Normalized Ratio (INR) and acute lung injury (P/F \> 200). Missing covariates are imputed by the mean value.||||0.934
92456391|NCT00184548|184802167|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.589||95.0|0.64|2.17||Two-sided significance level 5%|Cox Proportional Hazards Model|||Treatment groups are compared using a Cox Proportional Hazards model with treatment as factor and adjusting for age, Injury Severity Score (ISS), Glasgow Coma -Scale Score(GCS), International Normalized Ratio (INR) and acute lung injury.||2.17|0.64|0.589
92456392|NCT00184548|184802169|SUPERIORITY_OR_OTHER||LS means|0.9||||0.308||95.0|-0.83|2.63|||ANCOVA|||Baseline covariates: Age, Injury Severity Score (ISS), Glasgow Coma -Scale Score (GCS), International Normalized Ratio (INR) and acute lung injury.||2.63|-0.83|0.308
92456393|NCT00184548|184802171|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift estimate|1.0||||0.038||95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|0|0.038
92456394|NCT00184548|184802172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.175||||0.384||95.0|0.817|1.69|||Regression, Logistic|||||1.690|0.817|0.384
92456395|NCT00184548|184802173|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift estimate|2.0||||0.03||95.0|0.0|4.0|||Wilcoxon (Mann-Whitney)|||||4|0|0.030
92456396|NCT00160680|184802177|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27|||=|0.667|TWO_SIDED|95.0|-0.96|1.5|||ANCOVA|||||1.50|-0.96|=0.667
92456397|NCT04493216|184802191|OTHER||Differences in percentage of participant|-9.2|||||TWO_SIDED|95.0|-24.0|5.7|||||Differences in percentage of participant = Percentage of participant in GSK3640254 100 mg+ Placebo+ ABC/3TC or FTC/TAF - Percentage of participant in DTG+ABC/3TC or FTC/TAF|||5.7|-24.0|
92456398|NCT04493216|184802191|OTHER||Differences in percentage of participant|-1.0|||||TWO_SIDED|95.0|-13.5|11.6|||||Differences in percentage of participant = Percentage of participant in GSK3640254 150 mg+ ABC/3TC or FTC/TAF - Percentage of participant in DTG+ ABC/3TC or FTC/TAF|||11.6|-13.5|
92456399|NCT04493216|184802191|OTHER||Differences in percentage of participant|-15.5|||||TWO_SIDED|95.0|-31.2|0.3|||||Differences in percentage of participant = Percentage of participant in GSK3640254 200 mg+ Placebo+ ABC/3TC or FTC/TAF - Percentage of participant in DTG+ ABC/3TC or FTC/TAF|||0.3|-31.2|
92456400|NCT03595579|184802217|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92456401|NCT03595579|184802218|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.013
92456402|NCT05090709|184802223|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Stiffness values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
92456403|NCT05090709|184802223|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Stiffness values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
92456404|NCT05090709|184802228|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
92456405|NCT05090709|184802228|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
92456406|NCT05090709|184802233|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Sit-to-stand velocity values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
92456407|NCT05090709|184802233|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Sit-to-stand velocity values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
92456408|NCT05090709|184802238|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
92456409|NCT05090709|184802238|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
92456410|NCT05090709|184802240|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including both time points in the analysis.||||||< 0.05
92456411|NCT05090709|184802240|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including both time points in the analysis.||||||> 0.05
92456412|NCT05090709|184802245|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Muscle tone values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
92456413|NCT05090709|184802245|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Muscle tone values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
92456414|NCT05090709|184802250|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
92456415|NCT05090709|184802250|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
92456416|NCT05090709|184802255|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
92456417|NCT05090709|184802255|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
92456418|NCT05090709|184802260|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
92456419|NCT05090709|184802260|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
92456420|NCT05090709|184802265|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
92456421|NCT05090709|184802265|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
92456422|NCT05090709|184802270|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
92456423|NCT05090709|184802270|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
92456424|NCT05090709|184802275|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
92456425|NCT05090709|184802275|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
92243105|NCT00777491|184389015|OTHER|There was no formal comparison of the two treatment arms.||||||||||||||||The confidence interval of the rate was calculated by Clopper-Pearson's exact binomial confidence intervals methods with one-sided type I error of 0.1. The study required 32 analyzable patients in each arm, which would warrant a 10% chance of observing a percentage of patients without distant metastasis by 3 years of less than 75% if the true rate was 86%. With the actual number of evaluable patients, the study instead warrants a 13-14% chance.|If the percentage of patients without distant metastasis by 3 years for either arm was greater than or equal to 75%, then it would be strongly considered as a potential arm in a subsequent phase III study, assuming treatment delivery and adverse events (AEs) were acceptable. If both arms met the criteria, then the treatment arm with less toxicity would be chosen.|||
92173876|NCT03158714|184239348|SUPERIORITY||Mean Difference (Net)|0.033||||0.005|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Utilized multi-level modeling to account for nested data (individuals within couples), and accounted for time within individual.||||||.005
92243106|NCT00777491|184389018|SUPERIORITY||Odds Ratio (OR)|0.493||||0.3|TWO_SIDED|95.0|0.129|1.881||Two-sided significance level of 0.05|Regression, Logistic|Univariate analysis|Reference arm = 5-FU and Cisplatin + BID Irradiation|||1.881|0.129|0.30
92243107|NCT00777491|184389019|SUPERIORITY||Odds Ratio (OR)|1.5||||0.75|TWO_SIDED|95.0|0.426|5.277||Two-sided significance level of 0.05|Regression, Logistic|Univariable analysis|Reference arm = 5-FU and Cisplatin + BID irradiation|||5.277|0.426|0.75
92243108|NCT00962039|184389036|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.01||||0.92|TWO_SIDED|95.0|-0.12|0.1||Analyses were conducted over 8 week follow-up.|Chi-squared|||||0.10|-0.12|0.92
92456426|NCT03775200|184802276|OTHER|For this primary analysis, a sample size of 216 randomised participants (72:72:72) will provide 90% power at the alpha = 0.05 level to detect a 6-point difference in average MADRS total score between the optimal therapeutic dose of COMP360 and COMP360 1 mg, assuming the common standard deviation (SD) is 11.0.|Least Mean Square Difference|-6.6|STANDARD_ERROR_OF_MEAN|1.86|<|0.05|TWO_SIDED|95.0|-10.2|-2.9|||Mixed Models Analysis|Hypothetical strategy estimand - missing not at random (MNAR) and missing at random (MAR) imputation for missing data.|LSM difference of COMP360 25 mg compared to COMP360 1 mg.|The primary analysis was the comparison between COMP360 (25 mg or 10 mg) versus COMP360 1 mg. The null hypothesis was that there was no difference in mean change from Baseline in MADRS total score at Week 3 for COMP360 25 mg or COMP360 10 mg versus COMP360 1 mg. The alternative hypothesis was that were was a difference in mean change from Baseline in MADRS total score at Week 3 for COMP360 25 mg or COMP360 10 mg versus COMP360 1 mg.||-2.9|-10.2|<0.05
92456427|NCT03775200|184802277|OTHER||Least Mean Square Difference|-5.6|STANDARD_ERROR_OF_MEAN|1.93|<|0.05|TWO_SIDED|95.0|-9.4|-1.8|||Mixed Models Analysis|Hypothetical strategy estimand - MNAR and MAR imputation for missing data.||Sensitivity analysis of the primary endpoint using the per-protocol analysis set.||-1.8|-9.4|<0.05
92456428|NCT04605978|184802278|SUPERIORITY||Mean Difference (Net)|2.44|||||TWO_SIDED|95.0|-0.61|5.49|||||Missing data and data post intercurrent event were imputed for the statistical analysis as specified in the statistical analysis plan.|||5.49|-0.61|
92456429|NCT01644734|184802289|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Null hypothesis: no change in the total CAT score between baseline and after 3 months.||||<0.001
92456430|NCT02216123|184802290|OTHER||Mean Difference (Final Values)|1.23|||||TWO_SIDED|95.0|-4.161|4.982|||||Confidence interval for the treatment difference was based on the Newcombe method. Percent treatment difference (TQ+CQ-PQ+CQ) has been presented.|||4.982|-4.161|
92456431|NCT02216123|184802292|OTHER||Hazard Ratio (HR)|0.984||||||95.0|0.577|1.678|||||Hazards ratio was estimated from Cox Proportional Hazards Model with treatment and region as covariates. A hazard ratio \<1 indicates a lower chance of relapse with TQ+CQ compared to PQ+CQ.|||1.678|0.577|
92456432|NCT02216123|184802293|OTHER||Hazard Ratio (HR)|0.815|||||TWO_SIDED|95.0|0.442|1.503|||||Hazard ratio was estimated from Cox Proportional Hazards Model with treatment and region as covariates. A hazard ratio\<1 indicates a lower chance of relapse with TQ+CQ compared to PQ+CQ.|||1.503|0.442|
92456433|NCT03318523|184802328|SUPERIORITY|Adjusted mean, difference with placebo, 95% confidence interval (CI), and p-value were based on a mixed model for repeated measures (MMRM) model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.3||||0.8976|TWO_SIDED|95.0|-4.888|4.287|||Mixed Model for Repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 52||4.287|-4.888|0.8976
92173877|NCT03158714|184239348|SUPERIORITY||Mean Difference (Net)|0.02||||0.101|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Utilized multi-level modeling to account for nested data (individuals within couples), and accounted for time within individual.||||||.101
92243109|NCT00962039|184389037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.08||||0.034|TWO_SIDED|95.0|-0.15|-0.01|||Chi-squared|||||-0.01|-0.15|0.034
92243110|NCT00962039|184389038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.03||||0.261|TWO_SIDED|95.0|-0.07|0.02|||t-test, 2 sided|||||0.02|-0.07|0.261
92173878|NCT03158714|184239349|SUPERIORITY||Mean Difference (Net)|3.96|||<|0.001|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Regression, Linear|Utilized multi-level modeling to account for nested data (individuals within couples), and controlled for baseline levels of outcome in regression.||||||< .001
92173879|NCT03158714|184239349|SUPERIORITY||Mean Difference (Net)|4.09|||<|0.001|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Regression, Linear|Utilized multi-level modeling to account for nested data (individuals within couples), and controlled for baseline levels of outcome in regression.||||||< .001
92243111|NCT00962039|184389039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.09||||0.519|TWO_SIDED|95.0|-0.36|0.18|||t-test, 2 sided|||||0.18|-0.36|0.519
92243112|NCT00962039|184389040|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.12||||0.704|TWO_SIDED|95.0|-0.77|0.52|||t-test, 2 sided|||||0.52|-0.77|0.704
92243113|NCT00962039|184389041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.59||||0.046|TWO_SIDED|95.0|0.01|1.17|||t-test, 2 sided|||||1.17|0.01|0.046
92243114|NCT02592629|184389044|EQUIVALENCE|ANOVA|||||<|0.05|||||||ANOVA|||||||<0.05
92243115|NCT02227329|184389045|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92243116|NCT00762372|184389089|NON_INFERIORITY|Time to extubation = treatment group + surgical site +surgery time|Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-6.6|-2.7||||||||-2.7|-6.6|
92243117|NCT00762372|184389090|NON_INFERIORITY|"Adjusted means of time from the end of study drug inhalation to extubation in the BLM-240 N2O group and sevoflurane group, which were obtained by analysis of covariance with surgical site and surgery time as covariates, were used to verify the non-inferiority of BLM-240 to the comparator sevoflurane, with a delta = 1.0 (minute) and significance level alpha = 2.5% (one-sided)."||||||0.15|||||||t-test, 2 sided|||||||0.1500
92243118|NCT00762372|184389091|NON_INFERIORITY|Two-sample t-test||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92243119|NCT00762372|184389095|NON_INFERIORITY|Fisher's exact test||||||0.3113|||||||Fisher Exact|||||||0.3113
92243120|NCT00762372|184389097|NON_INFERIORITY|Fisher's exact test||||||1|||||||Fisher Exact|||||||1.0000
92243121|NCT01194804|184389101|OTHER||||||<|0.001|||||||Sign test|||||||<0.001
92173880|NCT03158714|184239350|SUPERIORITY||Mean Difference (Net)|0.343||||0.003|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Utilized multi-level modeling to account for nested data (individuals within couples), and accounted for time within individual.||||||.003
92173881|NCT03158714|184239350|SUPERIORITY||Mean Difference (Net)|0.172||||0.152|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Utilized multi-level modeling to account for nested data (individuals within couples), and accounted for time within individual.||||||.152
92243122|NCT02670915|184389106|NON_INFERIORITY|Stepwise hierarchical testing procedure was applied: Step 1-Primary analysis: HbA1c non-inferiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog® both in combination with insulin degludec. Non-inferiority of mealtime faster aspart was considered confirmed if the upper boundary of the two-sided 95% confidence interval (CI) was below or equal to 0.4%.|Treatment difference|-0.17|||<|0.001|TWO_SIDED|95.0|-0.3|-0.03||p-values are from the 1-sided test for non-inferiority evaluated at the 2.5% level.|Multiple imputation|Analyses were adjusted for region, strata (age), as factors, and baseline HbA1c as a covariate.||The primary analysis was implemented as a statistical model using multiple imputation where the participants without any available HbA1c measurements at scheduled visits had their change from baseline HbA1c value (s) imputed from the available information from the treatment the participant had been randomised to.||-0.03|-0.30|<0.001
92243123|NCT02670915|184389106|NON_INFERIORITY|Stepwise hierarchical testing procedure was applied: Step 2-Confirmatory secondary analysis: HbA1c non-inferiority of postmeal faster aspart versus mealtime NovoRapid®/NovoLog® both in combination with insulin degludec. Non-inferiority of mealtime faster aspart was considered confirmed if the upper boundary of the two-sided 95% CI was below or equal to 0.4%.|Treatment difference|0.13|||<|0.001|TWO_SIDED|95.0|-0.01|0.26||p-values are from the 1-sided test for non-inferiority evaluated at the 2.5% level.|Multiple imputation|Analyses were adjusted for region, strata (age), as factors, and baseline HbA1c as a covariate.||The analysis was implemented as a statistical model using multiple imputation where the participants without any available HbA1c measurements at scheduled visits had their change from baseline HbA1c value(s) imputed from the available information from the treatment the participant had been randomised to.||0.26|-0.01|<0.001
92243124|NCT02670915|184389106|SUPERIORITY|Stepwise hierarchical testing procedure was applied: Step 3-Confirmatory secondary analysis: HbA1c superiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog® both in combination with insulin degludec. Superiority of mealtime faster aspart was considered confirmed if the upper boundary of the two-sided 95% CI was below 0.|Treatment difference|-0.17|||=|0.007|TWO_SIDED|95.0|-0.3|-0.03||p-values are from the 1-sided test for superiority evaluated at the 2.5% level.|multiple imputation|Analyses were adjusted for region, strata (age), as factors, and baseline HbA1c as a covariate.||The analysis was implemented as a statistical model using multiple imputation where the participants without any available HbA1c measurements at scheduled visits had their change from baseline HbA1c value(s) imputed from the available information from the treatment the participant had been randomised to.||-0.03|-0.30|=0.007
92281386|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.212|STANDARD_ERROR_OF_MEAN|0.14||0.1293|TWO_SIDED|95.0|-0.487|0.063|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Coordination||0.063|-0.487|0.1293
92243125|NCT00165841|184389186|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value was adjusted for multiple comparisons.|t-test, 2 sided|The primary analysis was on the ITT population using all observed data collected from Day 1 of the maintenance phase until the endpoint.||Efficacy analyses were based on the intent-to-treat (ITT) population, which was comprised of all patients in the safety-evaluable population who had a baseline and ≥1 post-randomization primary efficacy endpoint evaluation and who had received ≥1 dose of study medication during the maintenance phase.||||<0.0001
92243126|NCT01000727|184389189|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.929|TWO_SIDED|95.02|0.91|1.09||Statistical significance of this p-value is based on the alpha-spending function of this study.|Cox Proportional Hazard Regression Model|||||1.09|0.91|0.929
92243127|NCT01000727|184389190|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.777|TWO_SIDED|95.02|0.9|1.09||Statistical significance of this p-value is based on the alpha-spending function of this study.|Cox Proportional Hazard Regression Model|||||1.09|0.90|0.777
92243128|NCT01000727|184389191|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.274|TWO_SIDED|95.0|0.76|1.08||Statistical significance of this p-value is based on the alpha-spending function of this study.|Cox Proportional Hazard Regression Model|||||1.08|0.76|0.274
92243129|NCT01000727|184389192|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.631|TWO_SIDED|95.0|0.86|1.09|||Cox Proportional Hazard Regression Model||A hazard ratio \<1 indicates a lower risk with this treatment compared to Placebo|||1.09|0.86|0.631
92281387|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.06||0.0304|TWO_SIDED|95.0|-0.266|-0.014|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Tremor||-0.014|-0.266|0.0304
92281388|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.084|STANDARD_ERROR_OF_MEAN|0.15||0.5811|TWO_SIDED|95.0|-0.384|0.217|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Concentration||0.217|-0.384|0.5811
92281389|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.098|STANDARD_ERROR_OF_MEAN|0.06||0.1144|TWO_SIDED|95.0|-0.22|0.024|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Speech||0.024|-0.220|0.1144
92456434|NCT03318523|184802328|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.5||||0.796|TWO_SIDED|95.0|-3.31|4.312|||Mixed Model for Repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 52||4.312|-3.310|0.7960
92456435|NCT03318523|184802328|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.08||||0.9695|TWO_SIDED|95.0|-3.805|3.956|||Mixed Model for Repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 52||3.956|-3.805|0.9695
92456436|NCT03318523|184802329|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.28||||0.9093|TWO_SIDED|95.0|-5.035|4.483|||Mixed Model for Repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 72||4.483|-5.035|0.9093
92243130|NCT01000727|184389193|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.354|TWO_SIDED|95.0|0.88|1.42|||Cox Proportional Hazard Regression Model||A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo|||1.42|0.88|0.354
92243131|NCT01000727|184389194|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.161|TWO_SIDED|95.0|0.73|1.05|||Cox Proportional Hazard Regression Model|||||1.05|0.73|0.161
92243132|NCT01000727|184389195|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.36|TWO_SIDED|95.0|0.91|1.31|||Cox Proportional Hazard Regression Model|||||1.31|0.91|0.360
92243133|NCT01000727|184389196|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.202|TWO_SIDED|95.0|0.88|1.03|||Cox Proportional Hazard Regression Model||A hazard ratio \<1 indicates a lower risk with this treatment compared to Placebo|||1.03|0.88|0.202
92243134|NCT01000727|184389197|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.329|TWO_SIDED|95.0|0.87|1.05|||Cox Proportional Hazard Regression Model|||||1.05|0.87|0.329
92243135|NCT01000727|184389198|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.797|TWO_SIDED|95.0|0.9|1.08|||Cox Proportional Hazard Regression Model|||||1.08|0.90|0.797
92281390|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.109|STANDARD_ERROR_OF_MEAN|0.12||0.3774|TWO_SIDED|95.0|-0.352|0.135|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Forgetfulness||0.135|-0.352|0.3774
92281391|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|0.057|STANDARD_ERROR_OF_MEAN|0.34||0.8658|TWO_SIDED|95.0|-0.613|0.727|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Sleepiness||0.727|-0.613|0.8658
92281392|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|0.018|STANDARD_ERROR_OF_MEAN|0.1||0.8543|TWO_SIDED|95.0|-0.179|0.216|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Moodiness||0.216|-0.179|0.8543
92243136|NCT01000727|184389199|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.546|TWO_SIDED|95.0|0.87|1.07|||Cox Proportional Hazard Regression Model||A hazard ratio \<1 indicates a lower risk with this treatment compared to Placebo|||1.07|0.87|0.546
92243137|NCT01000727|184389200|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.362|TWO_SIDED|95.0|0.81|1.08|||Cox Proportional Hazard Regression Model|||||1.08|0.81|0.362
92243138|NCT02059213|184389219|SUPERIORITY|||||||0.87|||||||Fisher Exact|Mid P-value||With 20 patients treated with ADT and 40 treated with ADT + palbociclib there is a 64.2% power to detect a 20% difference in proportions with a one-sided type I error of 0.10 using the mid p-value method of the Fisher's exact test.||||0.87
92243139|NCT02059213|184389221|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||||||0.92
92243140|NCT02059213|184389222|SUPERIORITY|||||||0.5|||||||Fisher Exact|Mid p-value||||||0.50
92243141|NCT02059213|184389223|SUPERIORITY|||||||0.72|||||||Log Rank|||||||0.72
92243142|NCT02059213|184389224|SUPERIORITY|||||||0.76|||||||Log Rank|||||||0.76
92243143|NCT01151046|184389228|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26||||0.003|TWO_SIDED|95.0|0.11|0.63|||Log Rank|||||0.63|0.11|0.003
92243144|NCT01151046|184389228|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.41||||0.349|TWO_SIDED|95.0|0.69|2.88|||Log Rank|||||2.88|0.69|0.349
92243145|NCT02338492|184389230|SUPERIORITY|||||||0.615||||||P-value not adjusted for multiple comparisons as the second co-primary endpoint will only be tested if the p-value for VAS improvement is \<0.05.|Mixed Models Analysis|Mixed model repeated measures (MMRM) model employed, including the baseline VAS score. Missing values will be imputed.||Null hypothesis: Mean improvement in VAS over 90 days \<= 53.8 (i.e. 80% of reference based on historical control data). The study was powered to 80% with 68 evaluable subjects, a standard deviation of 13.3 at each visit, a true mean improvement from baseline VAS across post-baseline visits of 57 and a within-patient correlation of VAS of 0.4. The historical control data comes from 4 selected articles (Gregory et al. 2011, Kim et al. 2011, Deschamps et al. 2012, and Pretell et al. 2010).||||0.615
92243146|NCT02338492|184389232|OTHER||Percentage of Subjects|100.0|||||TWO_SIDED|95.0|96.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 7-14: Subjects who had no serious device related complications||100|96|
92243147|NCT02338492|184389232|OTHER||Percentage of Subjects|100.0|||||TWO_SIDED|95.0|96.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 7-14: No additional surgical interventions of revisions, supplements, fixations or removals||100|96|
92243148|NCT02338492|184389232|OTHER||Percentage of Subjects|98.8|||||TWO_SIDED|95.0|93.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 7-14: Subjects who had no device fracture, migration, mal-alignment or loss of reduction or fixation||100|93|
92243149|NCT02338492|184389232|OTHER||Percentage of Subjects|98.8|||||TWO_SIDED|95.0|93.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 7-14: Safety Success||100|93|
92243150|NCT02338492|184389232|OTHER||Percentage of Subjects|98.8|||||TWO_SIDED|95.0|93.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 7-14: Subjects who had no serious device related complications||100|93|
92243151|NCT02338492|184389232|OTHER||Percentage of Subjects|98.8|||||TWO_SIDED|95.0|93.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 30: No additional surgical interventions of revisions, supplements, fixations or removals||100|93|
92243152|NCT02338492|184389232|OTHER||Percentage of Subjects|96.3|||||TWO_SIDED|95.0|90.0|99.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 30: Subjects who had no device fracture, migration, mal-alignment or loss of reduction or fixation||99|90|
92243153|NCT02338492|184389232|OTHER||Percentage of Subjects|96.3|||||TWO_SIDED|95.0|90.0|99.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 30: Safety Success||99|90|
92243154|NCT02338492|184389232|OTHER||Percentage of Subjects|96.3|||||TWO_SIDED|95.0|90.0|99.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 90: Subjects who had no serious device related complications||99|90|
92173882|NCT01160211|184239354|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.0063|TWO_SIDED|95.0|0.45|0.88||Pike estimate of the treatment hazard ratio, \<1 indicates a lower risk compared with trastuzumab + AI.|Log Rank|using a two-sided stratified log-rank test (based on stratification factors)||Null hypothesis H0: λ ≥ 1 or to reject it in favor of the alternative hypothesis HA: λ \<1, where λ is the hazard ratio (HR) between Treatment Group A and Treatment Group B for progression-free survival.||0.88|0.45|0.0063
92243155|NCT02338492|184389232|OTHER||Percentage of Subjects|98.8|||||TWO_SIDED|95.0|93.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 90: No additional surgical interventions of revisions, supplements, fixations or removals||100|93|
92173883|NCT01160211|184239356|SUPERIORITY||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.44|0.79||||||||0.79|0.44|
92173884|NCT01160211|184239356|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.66|1.15||||||||1.15|0.66|
92243156|NCT02338492|184389232|OTHER||Percentage of Subjects|93.8|||||TWO_SIDED|95.0|86.0|98.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 90: Subjects who had no device fracture, migration, mal-alignment or loss of reduction or fixation||98|86|
92243157|NCT02338492|184389232|OTHER||Percentage of Subjects|92.6|||||TWO_SIDED|95.0|85.0|97.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 90: Safety Success||97|85|
92243158|NCT02338492|184389232|OTHER||Percentage of Subjects|93.8|||||TWO_SIDED|95.0|86.0|98.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 180: Subjects who had no serious device related complications||98|86|
92243159|NCT02338492|184389232|OTHER||Percentage of Subjects|95.1|||||TWO_SIDED|95.0|88.0|99.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 180: No additional surgical interventions of revisions, supplements, fixations or removals||99|88|
92243160|NCT02338492|184389232|OTHER||Percentage of Subjects|86.4|||||TWO_SIDED|95.0|77.0|93.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 180: Subjects who had no device fracture, migration, mal-alignment or loss of reduction or fixation||93|77|
92243161|NCT02338492|184389232|OTHER||Percentage of Subjects|86.4|||||TWO_SIDED|95.0|77.0|93.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 180: Safety Success||93|77|
92243162|NCT02338492|184389232|OTHER||Percentage of Subjects|91.4|||||TWO_SIDED|95.0|83.0|96.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 360: Subjects who had no serious device related complications||96|83|
92243163|NCT02338492|184389232|OTHER||Percentage of Subjects|91.4|||||TWO_SIDED|95.0|83.0|96.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 360: No additional surgical interventions of revisions, supplements, fixations or removals||96|83|
92243164|NCT02338492|184389232|OTHER||Percentage of Subjects|82.7|||||TWO_SIDED|95.0|73.0|90.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 360: Subjects who had no device fracture, migration, mal-alignment or loss of reduction or fixation||90|73|
92243165|NCT02338492|184389232|OTHER||Percentage of Subjects|82.7|||||TWO_SIDED|95.0|73.0|90.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 360: Safety Success||90|73|
92243166|NCT00980785|184389241|OTHER|Mann-Whitney test|Mean Difference (Final Values)|-22.5|STANDARD_DEVIATION|78.7||0.836|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.836
92243167|NCT00980785|184389241|OTHER|Mann-Whitney Test|Mean Difference (Final Values)|-31.71|STANDARD_DEVIATION|90.6||0.836|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.836
92243168|NCT00980785|184389242|OTHER|Mann-Whitney Test|Mean Difference (Final Values)|-0.1|STANDARD_DEVIATION|0.21||0.009|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.009
92243169|NCT00980785|184389242|OTHER|Mann-Whitney Test|Mean Difference (Final Values)|-0.63|STANDARD_DEVIATION|0.32||0.009|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.009
92173885|NCT01160211|184239356|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.51|0.92||||||||0.92|0.51|
92243170|NCT00980785|184389243|OTHER|Mann-Whitney Test|Mean Difference (Final Values)|-0.7|STANDARD_DEVIATION|1.56||0.755|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.755
92243171|NCT00980785|184389243|OTHER|Mann-Whitney test|Mean Difference (Final Values)|-0.29|STANDARD_DEVIATION|1.23||0.755|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.755
92243172|NCT00980785|184389244|OTHER|Mann-Whitney test|Mean Difference (Final Values)|1.7|STANDARD_DEVIATION|8.9||0.491|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.491
92243173|NCT00980785|184389244|OTHER|Mann-Whitney test|Mean Difference (Final Values)|-1.8|STANDARD_DEVIATION|2.2||0.491|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.491
92243174|NCT05209932|184389294|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.02|TWO_SIDED||||||ANCOVA|||||||0.02
92243175|NCT05209932|184389295|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.05|TWO_SIDED||||||ANCOVA|||||||0.05
92243176|NCT05209932|184389296|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.07||0.07|TWO_SIDED||||||ANCOVA|||||||0.07
92243177|NCT05209932|184389297|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.12||0.17|TWO_SIDED||||||ANCOVA|||||||0.17
92243178|NCT05209932|184389298|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED||||||ANCOVA|||||||0.002
92243179|NCT05209932|184389299|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.1||0.03|TWO_SIDED||||||ANCOVA|||||||0.03
92243180|NCT05209932|184389300|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.09||0.01|TWO_SIDED||||||ANCOVA|||||||0.01
92243181|NCT05209932|184389301|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.38|STANDARD_ERROR_OF_MEAN|0.19||0.04|TWO_SIDED||||||ANCOVA|||||||0.04
92243182|NCT05209932|184389302|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.1||0.02|TWO_SIDED||||||ANCOVA|||||||0.02
92456437|NCT03318523|184802329|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|1.55||||0.4327|TWO_SIDED|95.0|-2.336|5.44|||Mixed Model for Repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 72||5.440|-2.336|0.4327
92456438|NCT03318523|184802329|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.17||||0.933|TWO_SIDED|95.0|-4.051|3.719|||Mixed Model with repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 72||3.719|-4.051|0.9330
92456439|NCT03318523|184802331|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.41||||0.8828|TWO_SIDED|95.0|-5.013|5.825|||Mixed Model for Repeated Measures|||||5.825|-5.013|0.8828
92456440|NCT03318523|184802331|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.84||||0.7019|TWO_SIDED|95.0|-3.458|5.128|||Mixed Model for Repeated Measure|||||5.128|-3.458|0.7019
92243183|NCT05209932|184389303|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.13||0.002|TWO_SIDED||||||ANCOVA|||||||0.002
92243184|NCT05209932|184389304|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.1||0.43|TWO_SIDED||||||ANCOVA|||||||0.43
92243185|NCT05209932|184389305|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.14||0.12|TWO_SIDED||||||ANCOVA|||||||0.12
92456441|NCT03318523|184802331|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.99||||0.6519|TWO_SIDED|95.0|-3.323|5.301|||Mixed Model for Repeated Measures|||||5.301|-3.323|0.6519
92456442|NCT03318523|184802333|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.53||||0.4327|TWO_SIDED|95.0|-1.851|0.794|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 52||0.794|-1.851|0.4327
92456443|NCT03318523|184802333|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.13||||0.8155|TWO_SIDED|95.0|-0.965|1.225|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 52||1.225|-0.965|0.8155
92456444|NCT03318523|184802333|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.22||||0.7015|TWO_SIDED|95.0|-0.899|1.334|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 52||1.334|-0.899|0.7015
92243186|NCT05209932|184389306|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.08||0.03|TWO_SIDED||||||ANCOVA|||||||0.03
92243187|NCT05209932|184389307|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.13||0.63|TWO_SIDED||||||ANCOVA|||||||0.63
92243188|NCT05209932|184389308|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-0.85|STANDARD_ERROR_OF_MEAN|0.8||0.29|TWO_SIDED||||||ANCOVA|||||||0.29
92243189|NCT05209932|184389309|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-1.08|STANDARD_ERROR_OF_MEAN|1.12||0.33|TWO_SIDED||||||ANCOVA|||||||0.33
92243190|NCT05209932|184389310|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-2.92|STANDARD_ERROR_OF_MEAN|1.03||0.005|TWO_SIDED||||||ANCOVA|||||||0.005
92243191|NCT05209932|184389311|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.42|TWO_SIDED||||||ANCOVA|||||||0.42
92243192|NCT05209932|184389312|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.3||0.97|TWO_SIDED||||||ANCOVA|||||||0.97
92243193|NCT01757405|184389331|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence of treatment success proportions in all bleeding episodes for the two treatment groups was determined by comparing the 90% two-sided CI of the ratio of success proportions to the equivalence region defined as \[0.83, 1.20\].|Ratio of success proportion|1.21|||||TWO_SIDED|90.0|1.15|1.28|||Ratio of success proportion|||Equivalence test of successfully treated bleeding episodes (BEs) between or within treatment arms. Denoting the success rates in the two treatment groups by p1 and p2 , the null hypotheses of H01 : p1/p2 \< 0.83 and H02 : p1/p2 \> 1.20 was implicitly tested against the one-sided alternatives Ha1: 0.83 ≤ p1/p2 and Ha2 : p1/p2 ≤ 1.20, by comparing the 90% two-sided confidence interval (CI) of the ratio of success proportions to the equivalence region defined as \[0.83, 1.20\].||1.28|1.15|
92173886|NCT01160211|184239362|SUPERIORITY||Least square difference|-1.79|STANDARD_ERROR_OF_MEAN|2.111|||TWO_SIDED|95.0|-5.95|2.36||||||FACT-B total score||2.36|-5.95|
92243194|NCT01219959|184389343|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.001|TWO_SIDED|95.0|0.2|0.9|||ANOVA|||Month 3||0.9|0.2|<0.001
92243195|NCT01219959|184389343|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.006|TWO_SIDED|95.0|0.1|0.8|||ANOVA|||Month 6||0.8|0.1|0.006
92243196|NCT01219959|184389344|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.312|TWO_SIDED|95.0|-4.7|14.7|||ANOVA|||Insulin-Month 3||14.7|-4.7|0.312
92243197|NCT01219959|184389344|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.342|TWO_SIDED|95.0|-5.0|14.4|||ANOVA|||Insulin-Month 6||14.4|-5.0|0.342
92243198|NCT01219959|184389346|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.01|TWO_SIDED|95.0|0.1|0.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 3||0.9|0.1|0.010
92243199|NCT01219959|184389346|SUPERIORITY||Median Difference (Final Values)|0.3||||0.073|TWO_SIDED|95.0|0.0|0.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 6||0.7|0|0.073
92243200|NCT01219959|184389346|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.181|TWO_SIDED|95.0|-0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 3||0.5|-0.1|0.181
92243201|NCT01219959|184389346|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.593|TWO_SIDED|95.0|-0.2|0.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 6||0.4|-0.2|0.593
92243202|NCT01219959|184389346|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.198|TWO_SIDED|95.0|-0.2|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 3||0|-0.2|0.198
92243203|NCT01219959|184389346|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.298|TWO_SIDED|95.0|-0.1|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 6||0|-0.1|0.298
92243204|NCT01219959|184389346|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.001|TWO_SIDED|95.0|0.2|0.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 3||0.6|0.2|<0.001
92243205|NCT01219959|184389346|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.003|TWO_SIDED|95.0|0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 6||0.5|0.1|0.003
92243206|NCT01219959|184389346|SUPERIORITY||Mean Difference (Final Values)|0.8|||<|0.001|TWO_SIDED|95.0|0.4|1.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 3||1.3|0.4|<0.001
92243207|NCT01219959|184389346|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.002|TWO_SIDED|95.0|0.3|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 6||1.1|0.3|0.002
92243208|NCT01219959|184389347|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.485|TWO_SIDED|95.0|-8.6|4.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 3||4.1|-8.6|0.485
92243209|NCT01219959|184389347|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.556|TWO_SIDED|95.0|-8.2|4.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 6||4.4|-8.2|0.556
92243210|NCT01219959|184389347|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.101|TWO_SIDED|95.0|-1.1|12.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 3||12.2|-1.1|0.101
92243211|NCT01219959|184389347|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.134|TWO_SIDED|95.0|-1.5|11.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 6||11.5|-1.5|0.134
92243212|NCT01219959|184389347|SUPERIORITY||Mean Difference (Final Values)|11.4||||0.004|TWO_SIDED|95.0|3.6|19.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 3||19.2|3.6|0.004
92243213|NCT01219959|184389347|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.03|TWO_SIDED|95.0|0.8|15.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 6||15.9|0.8|0.030
92243214|NCT01219959|184389348|SUPERIORITY||Mean Difference (Final Values)|-56.5||||0.655|TWO_SIDED|95.0|-304.6|191.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 3||191.7|-304.6|0.655
92243215|NCT01219959|184389348|SUPERIORITY||Mean Difference (Final Values)|-29.2||||0.811|TWO_SIDED|95.0|-268.9|210.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 6||210.5|-268.9|0.811
92243216|NCT01219959|184389348|SUPERIORITY||Mean Difference (Final Values)|441.3||||0.419|TWO_SIDED|95.0|-630.4|1513.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 3||1513.1|-630.4|0.419
92243217|NCT01219959|184389348|SUPERIORITY||Mean Difference (Final Values)|121.8||||0.82|TWO_SIDED|95.0|-927.9|1171.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 6||1171.5|-927.9|0.820
92243218|NCT01219959|184389349|SUPERIORITY||Mean Difference (Final Values)|-4.2||||0.721|TWO_SIDED|95.0|-27.5|19.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 3||19|-27.5|0.721
92243219|NCT01219959|184389349|SUPERIORITY||Mean Difference (Final Values)|13.5||||0.247|TWO_SIDED|95.0|-9.4|36.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 6||36.4|-9.4|0.247
92243220|NCT01219959|184389350|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.624|TWO_SIDED|95.0|0.55|1.43|||ANOVA|||Estimates of Ratio-Month 6||1.43|0.55|0.624
92173887|NCT01160211|184239362|SUPERIORITY||Least square difference|-3.9|STANDARD_ERROR_OF_MEAN|2.13|||TWO_SIDED|95.0|-8.09|0.29||||||FACT-B total score||0.29|-8.09|
92173888|NCT01160211|184239362|SUPERIORITY||Least square difference|-1.5|STANDARD_ERROR_OF_MEAN|1.739|||TWO_SIDED|95.0|-4.92|1.92||||||FACT-G total score||1.92|-4.92|
92173889|NCT01160211|184239362|SUPERIORITY||Least square difference|-3.1|STANDARD_ERROR_OF_MEAN|1.751|||TWO_SIDED|95.0|-6.55|0.34||||||FACT-G total score||0.34|-6.55|
92243221|NCT01219959|184389351|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.338|TWO_SIDED|95.0|-0.6|1.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 3||1.8|-0.6|0.338
92243222|NCT01219959|184389351|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.029|TWO_SIDED|95.0|0.1|2.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 6||2.5|0.1|0.029
92243223|NCT01219959|184389351|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.817|TWO_SIDED|95.0|-1.9|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 3||1.5|-1.9|0.817
92243224|NCT01219959|184389351|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.091|TWO_SIDED|95.0|-0.2|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 6||2.9|-0.2|0.091
92243225|NCT01219959|184389352|SUPERIORITY||Mean Difference (Final Values)|-10.2||||0.127|TWO_SIDED|95.0|-23.3|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 3||2.9|-23.3|0.127
92243226|NCT01219959|184389352|SUPERIORITY||Mean Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-16.4|-4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 6||-4.3|-16.4|<0.001
92173890|NCT01160211|184239362|SUPERIORITY||Least square difference|-2.7|STANDARD_ERROR_OF_MEAN|1.502|||TWO_SIDED|95.0|-5.66|0.25||||||FACT-B trial outcome index (TOI)||0.25|-5.66|
92173891|NCT01160211|184239362|SUPERIORITY||Least square difference|-3.61|STANDARD_ERROR_OF_MEAN|1.512|||TWO_SIDED|95.0|-6.59|-0.64||||||FACT-B trial outcome index (TOI)||-0.64|-6.59|
92173892|NCT01160211|184239362|SUPERIORITY||Least square difference|-1.46|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.82|-0.11||||||Physical well-being (PWB)||-0.11|-2.82|
92173893|NCT01160211|184239362|SUPERIORITY||Least square difference|-1.54|STANDARD_ERROR_OF_MEAN|0.693|||TWO_SIDED|95.0|-2.9|-0.18||||||Physical well-being (PWB)||-0.18|-2.90|
92173894|NCT01160211|184239362|SUPERIORITY||Least square difference|0.39|STANDARD_ERROR_OF_MEAN|0.711|||TWO_SIDED|95.0|-1.01|1.79||||||Social family wellbeing (SWB)||1.79|-1.01|
92173895|NCT01160211|184239362|SUPERIORITY||Least square difference|-0.55|STANDARD_ERROR_OF_MEAN|0.715|||TWO_SIDED|95.0|-1.96|0.86||||||Social family wellbeing (SWB)||0.86|-1.96|
92173896|NCT01160211|184239362|SUPERIORITY||Least square difference|0.54|STANDARD_ERROR_OF_MEAN|0.568|||TWO_SIDED|95.0|-0.57|1.66||||||Emotional wellbeing (EWB)||1.66|-0.57|
92173897|NCT01160211|184239362|SUPERIORITY||Least square difference|0.4|STANDARD_ERROR_OF_MEAN|0.571|||TWO_SIDED|95.0|-0.72|1.53||||||Emotional wellbeing (EWB)||1.53|-0.72|
92173898|NCT01160211|184239362|SUPERIORITY||Least square difference|-0.99|STANDARD_ERROR_OF_MEAN|0.646|||TWO_SIDED|95.0|-2.26|0.28||||||Functional wellbeing (FWB)||0.28|-2.26|
92243227|NCT01219959|184389352|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.012|TWO_SIDED|95.0|-0.4|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 3||-0.1|-0.4|0.012
92243228|NCT01219959|184389352|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.001|TWO_SIDED|95.0|-0.3|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 6||-0.1|-0.3|<0.001
92243229|NCT01219959|184389353|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.019|TWO_SIDED|95.0|0.5|5.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 3||5.8|0.5|0.019
92243230|NCT01219959|184389353|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.019|TWO_SIDED|95.0|0.5|5.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 6||5.6|0.5|0.019
92243231|NCT01219959|184389354|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.884|TWO_SIDED|95.0|-3.9|3.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 3||3.4|-3.9|0.884
92456445|NCT03318523|184802334|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-1.03||||0.1038|TWO_SIDED|95.0|-2.276|0.213|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 72||0.213|-2.276|0.1038
92456446|NCT03318523|184802334|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.09||||0.8689|TWO_SIDED|95.0|-0.933|1.103|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 72||1.103|-0.933|0.8689
92173899|NCT01160211|184239362|SUPERIORITY||Least square difference|-1.32|STANDARD_ERROR_OF_MEAN|0.649|||TWO_SIDED|95.0|-2.6|-0.04||||||Functional wellbeing (FWB)||-0.04|-2.60|
92173900|NCT01160211|184239362|SUPERIORITY||Least square difference|-0.35|STANDARD_ERROR_OF_MEAN|0.665|||TWO_SIDED|95.0|-1.66|0.95||||||Breast cancer subscale (BCS)||0.95|-1.66|
92173901|NCT01160211|184239362|SUPERIORITY||Least square difference|-0.83|STANDARD_ERROR_OF_MEAN|0.668|||TWO_SIDED|95.0|-2.14|0.48||||||Breast cancer subscale (BCS)||0.48|-2.14|
92243232|NCT01219959|184389354|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.716|TWO_SIDED|95.0|-3.0|4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 6||4.3|-3|0.716
92173902|NCT05894577|184239440|SUPERIORITY|Posterior probability of efficacy (P(HR\>1))|Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.92|1.12|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.12|0.92|
92173903|NCT05894577|184239441|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.14|7.07|||||Low event rate precluded covariate adjustment.|No hypothesis test or decision rule was evaluated.||7.07|0.14|
92173904|NCT05894577|184239444|SUPERIORITY|Posterior probability of efficacy (P(HR\<1))|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.45|1.84|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.84|0.45|
92173905|NCT05894577|184239445|SUPERIORITY|Posterior probability of efficacy (P(OR\<1))|Odds Ratio (OR)|1.31|||||TWO_SIDED|95.0|0.5|2.29|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||2.29|0.50|
92173906|NCT05894577|184239446|SUPERIORITY|Posterior probability of efficacy (P(OR\<1))|Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.16|1.49|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.49|0.16|
92243233|NCT01219959|184389355|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.961|TWO_SIDED|95.0|-1.2|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 3||1.1|-1.2|0.961
92243234|NCT01219959|184389355|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.581|TWO_SIDED|95.0|-0.8|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 6||1.5|-0.8|0.581
92243235|NCT01219959|184389356|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.871|TWO_SIDED|95.0|-3.7|3.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Waist Circumference-Month 6||3.1|-3.7|0.871
92243236|NCT01219959|184389357|SUPERIORITY||Mean Difference (Final Values)|5.2||||0.608|TWO_SIDED|95.0|-14.7|25.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 3||25|-14.7|0.608
92173907|NCT05894577|184239447|SUPERIORITY|Posterior probability of efficacy (P(OR\<1))|Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|0.33|2.96|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||2.96|0.33|
92173908|NCT05894577|184239448|OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.71|1.31|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.31|0.71|
92173909|NCT05894577|184239448|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.75|1.51|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.51|0.75|
92173910|NCT05894577|184239448|OTHER||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|0.84|1.88|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.88|0.84|
92243237|NCT01219959|184389357|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.731|TWO_SIDED|95.0|-11.5|8.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 6||8.1|-11.5|0.731
92243238|NCT01219959|184389357|SUPERIORITY||Mean Difference (Final Values)|185.3||||0.377|TWO_SIDED|95.0|-227.5|598.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 3||598.1|-227.5|0.377
92243239|NCT01219959|184389357|SUPERIORITY||Mean Difference (Final Values)|-18.3||||0.854|TWO_SIDED|95.0|-214.4|177.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 6||177.8|-214.4|0.854
92243240|NCT01219959|184389358|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.412|TWO_SIDED|95.0|-0.03|0.07|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 3||0.07|-0.03|0.412
92243241|NCT01219959|184389358|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.485|TWO_SIDED|95.0|-0.07|0.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 6||0.03|-0.07|0.485
92243242|NCT01219959|184389359|SUPERIORITY||Mean Difference (Final Values)|2.18||||0.525|TWO_SIDED|95.0|-4.56|8.93|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 3||8.93|-4.56|0.525
92243243|NCT01219959|184389359|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.995|TWO_SIDED|95.0|-6.79|6.83|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 6||6.83|-6.79|0.995
92243244|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|-1.87||||0.526|TWO_SIDED|95.0|-7.64|3.91|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 3||3.91|-7.64|0.526
92456447|NCT03318523|184802334|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.01||||0.982|TWO_SIDED|95.0|-1.026|1.003|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 72||1.003|-1.026|0.9820
92456448|NCT03318523|184802334|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.26||||0.693|TWO_SIDED|95.0|-1.563|1.04|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 96||1.040|-1.563|0.6930
92243245|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.779|TWO_SIDED|95.0|-5.01|6.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 6||6.68|-5.01|0.779
92243246|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|-2.95||||0.246|TWO_SIDED|95.0|-7.95|2.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 3||2.04|-7.95|0.246
92243247|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.78|TWO_SIDED|95.0|-5.78|4.34|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 6||4.34|-5.78|0.780
92243248|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.885|TWO_SIDED|95.0|-5.22|6.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 3||6.04|-5.22|0.885
92243249|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|4.41||||0.128|TWO_SIDED|95.0|-1.28|10.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 6||10.10|-1.28|0.128
92243250|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|1.07||||0.701|TWO_SIDED|95.0|-4.4|6.54|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 3||6.54|-4.40|0.701
92243251|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|7.21||||0.01|TWO_SIDED|95.0|1.7|12.73|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 6||12.73|1.70|0.010
92243252|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.934|TWO_SIDED|95.0|-4.63|5.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 3||5.03|-4.63|0.934
92243253|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|3.13||||0.209|TWO_SIDED|95.0|-1.75|8.01|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 6||8.01|-1.75|0.209
92173911|NCT05894577|184239448|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.65|1.6|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.60|0.65|
92243254|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.585|TWO_SIDED|95.0|-4.9|8.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 3||8.68|-4.90|0.585
92243255|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|1.62||||0.641|TWO_SIDED|95.0|-5.22|8.47|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 6||8.47|-5.22|0.641
92243256|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.586|TWO_SIDED|95.0|-6.89|3.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 3||3.90|-6.89|0.586
92243257|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.906|TWO_SIDED|95.0|-5.79|5.14|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 6||5.14|-5.79|0.906
92243258|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.97|TWO_SIDED|95.0|-4.93|4.75|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 3||4.75|-4.93|0.970
92243259|NCT01219959|184389360|SUPERIORITY||Mean Difference (Final Values)|2.38||||0.34|TWO_SIDED|95.0|-2.52|7.28|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 6||7.28|-2.52|0.340
92173912|NCT05894577|184239448|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.57|1.36|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.36|0.57|
92243260|NCT01219959|184389361|SUPERIORITY||Mean Difference (Final Values)|24.6||||0.495|TWO_SIDED|95.0|-46.9|96.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Subcutaneous Fat Volume-Month 6||96|-46.9|0.495
92243261|NCT01219959|184389361|SUPERIORITY||Mean Difference (Final Values)|55.4||||0.081|TWO_SIDED|95.0|-7.0|117.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Visceral Fat Volume-Month 6||117.8|-7|0.081
92243262|NCT01219959|184389362|SUPERIORITY||Mean Difference (Final Values)|6.3||||0.626|TWO_SIDED|95.0|-19.3|31.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Diastolic Volume-Month 6||31.9|-19.3|0.626
92243263|NCT01219959|184389362|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.486|TWO_SIDED|95.0|-14.5|30.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Systolic Volume-Month 6||30.1|-14.5|0.486
92243264|NCT01219959|184389363|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.832|TWO_SIDED|95.0|-18.9|23.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass with Pap Muscles-Month 6||23.4|-18.9|0.832
92243265|NCT01219959|184389363|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.82|TWO_SIDED|95.0|-18.3|23.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass without Pap Muscles-Month 6||23.1|-18.3|0.820
92243266|NCT01219959|184389364|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.955|TWO_SIDED|95.0|-6.9|6.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Ejection Fraction-Month 6||6.5|-6.9|0.955
92243267|NCT05906732|184389365|SUPERIORITY||LS Mean|-9.6||||0.003|TWO_SIDED||||||Mixed Models Analysis|||||||0.0030
92243268|NCT05906732|184389366|SUPERIORITY||LS Mean|-6.5||||0.0266|TWO_SIDED||||||Mixed Models Analysis|||||||0.0266
92243269|NCT05906732|184389367|SUPERIORITY||LS Mean|-7.8||||0.0067|TWO_SIDED||||||Mixed Models Analysis|||||||0.0067
92243270|NCT05906732|184389368|SUPERIORITY||LS Mean|-3.9||||0.1106|TWO_SIDED||||||Mixed Models Analysis|||||||0.1106
92243271|NCT05906732|184389369|SUPERIORITY||LS Mean|-4.2||||0.0908|TWO_SIDED||||||Mixed Models Analysis|||||||0.0908
92243272|NCT05906732|184389370|SUPERIORITY||LS Mean|-1.2||||0.4038|TWO_SIDED||||||Mixed Models Analysis|||||||0.4038
92243273|NCT05906732|184389371|SUPERIORITY||LS Mean|1.5||||0.6255|TWO_SIDED||||||Mixed Models Analysis|||||||0.6255
92243274|NCT05906732|184389372|SUPERIORITY||LS Mean|0.2||||0.514|TWO_SIDED||||||Mixed Models Analysis|||||||0.5140
92243275|NCT05906732|184389373|SUPERIORITY||LS Mean|0.8||||0.5675|TWO_SIDED||||||Mixed Models Analysis|||||||0.5675
92243276|NCT05906732|184389374|SUPERIORITY||LS Mean|3.4||||0.764|TWO_SIDED||||||Mixed Models Analysis|||||||0.7640
92243277|NCT05906732|184389375|SUPERIORITY||LS Mean|-2.8||||0.2437|TWO_SIDED||||||Mixed Models Analysis|||||||.2437
92243278|NCT05906732|184389376|SUPERIORITY||LS Mean|-0.8||||0.4229|TWO_SIDED||||||Mixed Models Analysis|||||||0.4229
92243279|NCT05906732|184389377|SUPERIORITY||LS Mean|-0.1||||0.4887|TWO_SIDED||||||Mixed Models Analysis|||||||0.4887
92243280|NCT05906732|184389378|SUPERIORITY||LS Mean|-3.1||||0.2042|TWO_SIDED||||||Mixed Models Analysis|||||||0.2042
92243281|NCT05906732|184389379|SUPERIORITY||Mean Difference (Net)|-2.2||||0.2644|TWO_SIDED||||||Mixed Models Analysis|||||||0.2644
92243282|NCT05906732|184389397|SUPERIORITY||Mean Difference (Net)|4.28||||0.3169|TWO_SIDED||||||t-test, 2 sided|||||||0.3169
92243283|NCT05906732|184389398|SUPERIORITY||Mean Difference (Net)|6.78||||0.1066|TWO_SIDED||||||t-test, 2 sided|||||||0.1066
92243284|NCT05906732|184389399|SUPERIORITY||Mean Difference (Net)|-16.06||||0.0443|TWO_SIDED||||||t-test, 2 sided|||||||0.0443
92243285|NCT05906732|184389400|SUPERIORITY||Mean Difference (Net)|-9.06||||0.0815|TWO_SIDED||||||t-test, 2 sided|||||||0.0815
92243286|NCT05906732|184389401|SUPERIORITY||Mean Difference (Net)|-10.67||||0.0137|TWO_SIDED||||||t-test, 2 sided|||||||0.0137
92243287|NCT05906732|184389402|SUPERIORITY||Mean Difference (Net)|-4.0||||0.3539|TWO_SIDED||||||t-test, 2 sided|||||||0.3539
92243288|NCT05906732|184389403|SUPERIORITY||Mean Difference (Net)|9.78||||0.1377|TWO_SIDED||||||t-test, 2 sided|||||||0.1377
92243289|NCT05906732|184389404|SUPERIORITY||Mean Difference (Net)|-2.69||||0.6184|TWO_SIDED||||||t-test, 2 sided|||||||0.6184
92243290|NCT05906732|184389405|SUPERIORITY||Mean Difference (Net)|3.17||||0.6627|TWO_SIDED||||||t-test, 2 sided|||||||0.6627
92243291|NCT05906732|184389406|SUPERIORITY||Mean Difference (Net)|5.78||||0.5276|TWO_SIDED||||||t-test, 2 sided|||||||0.5276
92243292|NCT05906732|184389407|SUPERIORITY||Mean Difference (Net)|15.17||||0.0399|TWO_SIDED||||||t-test, 2 sided|||||||0.0399
92243293|NCT05906732|184389408|SUPERIORITY||Mean Difference (Net)|13.56||||0.0747|TWO_SIDED||||||t-test, 2 sided|||||||0.0747
92243294|NCT05906732|184389409|SUPERIORITY|||||||0.9584|||||||t-test, 2 sided|||||||0.9584
92243295|NCT05906732|184389410|SUPERIORITY||Mean Difference (Net)|5.72||||0.6531|TWO_SIDED||||||t-test, 2 sided|||||||0.6531
92243296|NCT05906732|184389411|SUPERIORITY||Mean Difference (Net)|15.61||||0.0482|TWO_SIDED||||||t-test, 2 sided|||||||0.0482
92243297|NCT05906732|184389412|SUPERIORITY||Mean Difference (Net)|17.22||||0.0667|TWO_SIDED||||||t-test, 2 sided|||||||0.0667
92243298|NCT05906732|184389413|SUPERIORITY||Mean Difference (Net)|-37.0||||0.0131|TWO_SIDED||||||t-test, 2 sided|||||||0.0131
92243299|NCT05906732|184389414|SUPERIORITY||Mean Difference (Net)|-32.36||||0.0141|TWO_SIDED||||||t-test, 2 sided|||||||0.0141
92243300|NCT05906732|184389415|SUPERIORITY||Mean Difference (Net)|-44.55||||0.0019|TWO_SIDED||||||t-test, 2 sided|||||||0.0019
92243301|NCT05906732|184389416|SUPERIORITY||Mean Difference (Net)|-31.69||||0.1108|TWO_SIDED||||||t-test, 2 sided|||||||0.1108
92243302|NCT05906732|184389417|SUPERIORITY||Mean Difference (Net)|37.81||||0.184|TWO_SIDED||||||t-test, 2 sided|||||||0.1840
92243303|NCT05906732|184389418|SUPERIORITY||Mean Difference (Net)|27.33||||0.2019|TWO_SIDED||||||t-test, 2 sided|||||||0.2019
92243304|NCT05906732|184389419|SUPERIORITY|||||||0.2808|||||||t-test, 2 sided|||||||0.2808
92243305|NCT05906732|184389420|SUPERIORITY||Mean Difference (Net)|110.39||||0.1644|TWO_SIDED||||||t-test, 2 sided|||||||0.1644
92243306|NCT05906732|184389421|SUPERIORITY||Mean Difference (Net)|-44.29||||0.0282|TWO_SIDED||||||t-test, 2 sided|||||||0.0282
92243307|NCT05906732|184389422|SUPERIORITY||Mean Difference (Net)|-37.87||||0.0306|TWO_SIDED||||||t-test, 2 sided|||||||0.0306
92243308|NCT05906732|184389423|SUPERIORITY||Mean Difference (Net)|-53.42||||0.0016|TWO_SIDED||||||t-test, 2 sided|||||||0.0016
92243309|NCT05906732|184389424|SUPERIORITY||Mean Difference (Net)|-44.25||||0.1378|TWO_SIDED||||||t-test, 2 sided|||||||0.1378
92243310|NCT01980706|184389437|SUPERIORITY||Mean Difference (Net)|4.16||||0.018|TWO_SIDED|||||Threshold for significance is \<.05|Mixed Models Analysis||Overall, treatment effect F value testing under the null hypothesis the equality of the average outcome over the three groups.|||||0.018
92173913|NCT05894577|184239448|OTHER||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.69|2.0|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||2.00|0.69|
92173914|NCT05894577|184239449|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.66|1.15|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.15|0.66|
92173915|NCT05894577|184239449|OTHER||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.63|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.14|0.63|
92173916|NCT05894577|184239449|OTHER||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.56|1.08|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.08|0.56|
92173917|NCT05894577|184239449|OTHER||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.73|1.45|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.45|0.73|
92173918|NCT05894577|184239449|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.71|1.4|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.40|0.71|
92173919|NCT05894577|184239449|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.6|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.35|0.60|
92243311|NCT01980706|184389438|SUPERIORITY||Mean Difference (Net)|3.68||||0.028|TWO_SIDED|||||Threshold for significance is \<.05|Mixed Models Analysis||Overall, treatment effect F value testing under the null hypothesis the equality of the average outcome over the three groups.|||||0.028
92173920|NCT05894577|184239450|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.7|1.31|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.31|0.70|
92173921|NCT05894577|184239450|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.72|1.4|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.40|0.72|
92173922|NCT05894577|184239450|OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.55|1.2|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.20|0.55|
92173923|NCT05894577|184239450|OTHER||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.62|1.39|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.39|0.62|
92173924|NCT05894577|184239450|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.65|1.46|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.46|0.65|
92173925|NCT05894577|184239450|OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.48|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.35|0.48|
92243312|NCT01980706|184389439|SUPERIORITY||Mean Difference (Net)|0.65||||0.52|TWO_SIDED|||||Threshold for significance is \<.05|Mixed Models Analysis||Overall, treatment effect F value testing under the null hypothesis the equality of the average outcome over the three groups.|||||0.52
92243313|NCT01980706|184389440|SUPERIORITY||Mean Difference (Net)|0.84||||0.43|TWO_SIDED|||||Threshold for significance is \<.05|Mixed Models Analysis||Overall, treatment effect F value testing under the null hypothesis the equality of the average outcome over the three groups.|||||0.43
92243314|NCT01980706|184389441|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.6|TWO_SIDED|||||Threshold for significance is \<.05|ANCOVA|Adjusted for baseline|Estimated parameter is the overall treatment main effect F statistic from the fitted ANCOVA model assessing the null hypothesis of equal values across the three groups|||||0.60
92243315|NCT01980706|184389442|SUPERIORITY||Table probability for Fisher's Exact|0.002||||0.07|TWO_SIDED|||||Threshold for significance is \<.05|Fisher Exact|||||||0.07
92243316|NCT02232087|184389461|EQUIVALENCE|The potency of the test and reference product was considered equivalent if the 90% CI for the estimate of relative potency was completely contained within the limits of 0.67 to 1.50|Odds Ratio, log|1.0|||>|0.1|TWO_SIDED|90.0|0.67|1.5||test for parallelism of dose response lines|ANOVA||Test is the numerator|The measurement of relative potency was conducted for the pair of doses which met the above criteria and lay on the steepest linear portion of the dose response curve. The log estimate of relative potency was obtained as the ratio of the estimated treatment effect as measured by the difference in the intercepts of the parallel lines divided by the estimate of the common slope for log dose.||1.50|0.67|>0.10
92243317|NCT02232087|184389462|EQUIVALENCE|The potency of the test and reference product was considered equivalent if the 90% CI for the estimate of relative potency was completely contained within the limits of 0.67 to 1.50|Odds Ratio, log|1.0|||>|0.1|TWO_SIDED|90.0|0.67|1.5||test for parallelism of dose response lines|ANOVA||Test is the numerator|The measurement of relative potency was conducted for the pair of doses which met the above criteria and lay on the steepest linear portion of the dose response curve. The log estimate of relative potency was obtained as the ratio of the estimated treatment effect as measured by the difference in the intercepts of the parallel lines divided by the estimate of the common slope for log dose.||1.50|0.67|>0.10
92243318|NCT02232087|184389463|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.55|TWO_SIDED|95.0|-2.5|1.4||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||1.4|-2.5|0.55
92243319|NCT02232087|184389463|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|1.0||||0.53|TWO_SIDED|95.0|-2.5|1.3||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||1.3|-2.5|0.53
92243320|NCT02232087|184389463|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|1.0||||0.011|TWO_SIDED|95.0|-2.5|1.3||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||1.3|-2.5|0.011
92173926|NCT05894577|184239451|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.62|1.24|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.24|0.62|
92243321|NCT02232087|184389464|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.26|TWO_SIDED|95.0|-0.03|0.1||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||0.10|-0.03|0.26
92243322|NCT02232087|184389464|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.93|TWO_SIDED|95.0|-0.06|0.06||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||0.06|-0.06|0.93
92243323|NCT02232087|184389464|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.48|TWO_SIDED|95.0|-0.04|0.08||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||0.08|-0.04|0.48
92243324|NCT02232087|184389465|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.93|TWO_SIDED|95.0||||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||||0.93
92243325|NCT02232087|184389465|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.42|TWO_SIDED|95.0|-0.224|0.093||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||0.093|-0.224|0.42
92243326|NCT02232087|184389465|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.078|TWO_SIDED|95.0|-0.302|0.016||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||0.016|-0.302|0.078
92456449|NCT03318523|184802334|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.03||||0.9606|TWO_SIDED|95.0|-1.053|1.001|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 96||1.001|-1.053|0.9606
92173927|NCT05894577|184239451|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.65|1.38|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.38|0.65|
92456450|NCT03318523|184802334|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.24||||0.6512|TWO_SIDED|95.0|-1.269|0.794|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 96||0.794|-1.269|0.6512
92456451|NCT03318523|184802335|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.44||||0.5497|TWO_SIDED|95.0|-1.889|1.007|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 52||1.007|-1.889|0.5497
92456452|NCT03318523|184802335|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.0||||0.998|TWO_SIDED|95.0|-1.2|1.197|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 52||1.197|-1.200|0.9980
92456453|NCT03318523|184802335|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.15||||0.8069|TWO_SIDED|95.0|-1.374|1.07|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 52||1.070|-1.374|0.8069
92456454|NCT03318523|184802336|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.21||||0.7968|TWO_SIDED|95.0|-1.786|1.372|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 72||1.372|-1.786|0.7968
92456455|NCT03318523|184802336|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.53||||0.4211|TWO_SIDED|95.0|-0.766|1.827|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 72||1.827|-0.766|0.4211
92456456|NCT03318523|184802336|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.15||||0.8166|TWO_SIDED|95.0|-1.448|1.143|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 72||1.143|-1.448|0.8166
92456457|NCT03318523|184802336|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.53||||0.5535|TWO_SIDED|95.0|-2.31|1.24|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 96||1.240|-2.310|0.5535
92456458|NCT03318523|184802336|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.52||||0.4654|TWO_SIDED|95.0|-0.881|1.922|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 96||1.922|-0.881|0.4654
92456459|NCT03318523|184802336|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.36||||0.6184|TWO_SIDED|95.0|-1.051|1.763|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 96||1.763|-1.051|0.6184
92243327|NCT02232087|184389466|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.71|TWO_SIDED|95.0|-3.9|5.7||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||5.7|-3.9|0.71
92243328|NCT02232087|184389466|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-4.7|4.7||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||4.7|-4.7|1.00
92243329|NCT02232087|184389466|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|-2.0||||0.016|TWO_SIDED|95.0|-10.6|-1.1||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||-1.1|-10.6|0.016
92456460|NCT03318523|184802337|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.59||||0.7274|TWO_SIDED|95.0|-2.742|3.925|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 52||3.925|-2.742|0.7274
92456461|NCT03318523|184802337|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.66||||0.6385|TWO_SIDED|95.0|-2.094|3.411|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 52||3.411|-2.094|0.6385
92456462|NCT03318523|184802337|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.1||||0.9467|TWO_SIDED|95.0|-2.718|2.91|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 52||2.910|-2.718|0.9467
92456463|NCT03318523|184802338|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.85||||0.6112|TWO_SIDED|95.0|-2.423|4.114|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 72||4.114|-2.423|0.6112
92456464|NCT03318523|184802338|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.86||||0.527|TWO_SIDED|95.0|-1.806|3.52|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 72||3.520|-1.806|0.5270
92456465|NCT03318523|184802338|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.06||||0.9673|TWO_SIDED|95.0|-2.608|2.719|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 72||2.719|-2.608|0.9673
92456466|NCT03318523|184802338|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.65||||0.7455|TWO_SIDED|95.0|-3.274|4.569|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 96||4.569|-3.274|0.7455
92456467|NCT03318523|184802338|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.1||||0.9506|TWO_SIDED|95.0|-3.192|2.997|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 96||2.997|-3.192|0.9506
92243330|NCT01106625|184389492|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.097|<|0.001|TWO_SIDED|95.0|-0.904|-0.524|||ANCOVA|||||-0.524|-0.904|<0.001
92243331|NCT01106625|184389492|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.097|<|0.001|TWO_SIDED|95.0|-1.114|-0.732|||ANCOVA|||||-0.732|-1.114|<0.001
92243332|NCT01106625|184389493|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.42|||<|0.001|TWO_SIDED|95.0|2.48|7.87|||Regression, Logistic|||||7.87|2.48|<0.001
92243333|NCT01106625|184389493|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.8|||<|0.001|TWO_SIDED|95.0|4.86|15.95|||Regression, Logistic|||||15.95|4.86|<0.001
92243334|NCT01106625|184389494|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-22.3|STANDARD_ERROR_OF_MEAN|4.627|<|0.001|TWO_SIDED|95.0|-31.53|-13.16|||ANCOVA|||||-13.16|-31.53|<0.001
92243335|NCT01106625|184389494|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-34.6|STANDARD_ERROR_OF_MEAN|4.692|<|0.001|TWO_SIDED|95.0|-43.86|-25.42|||ANCOVA|||||-25.42|-43.86|<0.001
92243336|NCT01106625|184389495|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.1|-0.7|||ANCOVA|||||-0.7|-2.1|<0.001
92243337|NCT01106625|184389495|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.7|-1.3|||ANCOVA|||||-1.3|-2.7|<0.001
92243338|NCT01106625|184389496|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.24|STANDARD_ERROR_OF_MEAN|1.262||0.077|TWO_SIDED|95.0|-4.719|0.241|||ANCOVA|||||0.241|-4.719|0.077
92173928|NCT05894577|184239451|OTHER||Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.49|1.13|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.13|0.49|
92243339|NCT01106625|184389496|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.62|STANDARD_ERROR_OF_MEAN|1.266||0.201|TWO_SIDED|95.0|-4.111|0.866|||ANCOVA|||||0.866|-4.111|0.201
92243340|NCT01106625|184389497|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-6.2|STANDARD_ERROR_OF_MEAN|5.4||0.256|TWO_SIDED|95.0|-16.9|4.5|||ANCOVA|||||4.5|-16.9|0.256
92243341|NCT01106625|184389497|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|5.5||0.571|TWO_SIDED|95.0|-13.8|7.6|||ANCOVA|||||7.6|-13.8|0.571
92243342|NCT01106625|184389498|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|1.7||0.153|TWO_SIDED|95.0|-0.9|5.9|||ANCOVA|||||5.9|-0.9|0.153
92456468|NCT03318523|184802338|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.69||||0.6643|TWO_SIDED|95.0|-2.422|3.794|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 96||3.794|-2.422|0.6643
92456469|NCT03318523|184802339|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.005||||0.8274|TWO_SIDED|95.0|-0.0548|0.0438|||Mixed Model for Repeated Measures|||||0.0438|-0.0548|0.8274
92243343|NCT01106625|184389498|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|1.8||0.056|TWO_SIDED|95.0|-0.1|6.8|||ANCOVA|||||6.8|-0.1|0.056
92243344|NCT02512068|184389531|SUPERIORITY||Least square (LS) mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.124|<|0.0001|TWO_SIDED|95.0|-0.966|-0.473|||ANCOVA|||||-0.473|-0.966|<0.0001
92173929|NCT05894577|184239451|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.67|1.55|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.55|0.67|
92243345|NCT02512068|184389534|OTHER||Point estimate|-0.28|||||TWO_SIDED|95.0|-0.385|-0.18||||||Change from baseline in HbA1c at Week 2 was compared between the treatment groups.||-0.180|-0.385|
92243346|NCT02512068|184389534|OTHER||Point estimate|-0.48|||||TWO_SIDED|95.0|-0.621|-0.338||||||Change from baseline in HbA1c at Week 4 was compared between the treatment groups.||-0.338|-0.621|
92243347|NCT02512068|184389534|OTHER||Point estimate|-0.58|||||TWO_SIDED|95.0|-0.797|-0.367||||||Change from baseline in HbA1c at Week 8 was compared between the treatment groups.||-0.367|-0.797|
92243348|NCT02512068|184389534|OTHER||Point estimate|-0.71|||||TWO_SIDED|95.0|-0.975|-0.441||||||Change from baseline in HbA1c at Week 12 was compared between the treatment groups.||-0.441|-0.975|
92243349|NCT02512068|184389534|OTHER||Point estimate|-0.7|||||TWO_SIDED|95.0|-0.948|-0.452||||||Change from baseline in HbA1c at End of Treatment Period I was compared between the treatment groups.||-0.452|-0.948|
92243350|NCT02512068|184389535|OTHER||Point estimate|1.7|||||TWO_SIDED|95.0|-6.598|9.919||||||The data of participants achieving \<6.0% at the end of Treatment Period I were compared between the treatment groups.||9.919|-6.598|
92243351|NCT02512068|184389535|OTHER||Point estimate|32.9|||||TWO_SIDED|95.0|14.194|51.66||||||The data of participants achieving \<7.0% at the end of Treatment Period I were compared between the treatment groups.||51.660|14.194|
92243352|NCT02512068|184389535|OTHER||Point estimate|45.6|||||TWO_SIDED|95.0|15.528|75.7||||||The data of participants achieving \<8.0% at the end of Treatment Period I were compared between the treatment groups.||75.700|15.528|
92243353|NCT02512068|184389536|OTHER||Point estimate|-15.2|||||TWO_SIDED|95.0|-23.59|-6.88||||||Change from baseline in fasting plasma glucose at Week 2 was compared between the treatment groups.||-6.88|-23.59|
92243354|NCT02512068|184389536|OTHER||Point estimate|-8.7|||||TWO_SIDED|95.0|-20.98|3.58||||||Change from baseline in fasting plasma glucose at Week 4 was compared between the treatment groups.||3.58|-20.98|
92243355|NCT02512068|184389536|OTHER||Point estimate|-8.3|||||TWO_SIDED|95.0|-18.76|2.11||||||Change from baseline in fasting plasma glucose at Week 8 was compared between the treatment groups.||2.11|-18.76|
92243356|NCT02512068|184389536|OTHER||Point estimate|-15.6|||||TWO_SIDED|95.0|-27.14|-4.03||||||Change from baseline in fasting plasma glucose at Week 12 was compared between the treatment groups.||-4.03|-27.14|
92243357|NCT02512068|184389536|OTHER||Point estimate|-15.6|||||TWO_SIDED|95.0|-26.67|-4.62||||||Change from baseline in fasting plasma glucose at End of Treatment Period I was compared between the treatment groups.||-4.62|-26.67|
92243358|NCT02512068|184389537|OTHER||Point estimate|-1.76|||||TWO_SIDED|95.0|-2.184|-1.34||||||Change from baseline in glycoalbumin at Week 2 was compared between the treatment groups.||-1.340|-2.184|
92243359|NCT02512068|184389537|OTHER||Point estimate|-2.45||||||95.0|-3.03|-1.87||||||Change from baseline in glycoalbumin at Week 4 was compared between the treatment groups.||-1.870|-3.030|
92243360|NCT02512068|184389537|OTHER||Point estimate|-2.48|||||TWO_SIDED|95.0|-3.289|-1.679||||||Change from baseline in glycoalbumin at Week 8 was compared between the treatment groups.||-1.679|-3.289|
92281393|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.153|STANDARD_ERROR_OF_MEAN|0.19||0.4294|TWO_SIDED|95.0|-0.537|0.231|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Alertness||0.231|-0.537|0.4294
92456470|NCT03318523|184802339|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.009||||0.6671|TWO_SIDED|95.0|-0.0504|0.0323|||Mixed Model for Repeated Measures|||||0.0323|-0.0504|0.6671
92456471|NCT03318523|184802339|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.033||||0.1313|TWO_SIDED|95.0|-0.0751|0.0098|||Mixed Model for Repeated Measures|||||0.0098|-0.0751|0.1313
92243361|NCT02512068|184389537|OTHER||Point estimate|-2.66|||||TWO_SIDED|95.0|-3.608|-1.715||||||Change from baseline in glycoalbumin at Week 12 was compared between the treatment groups.||-1.715|-3.608|
92243362|NCT02512068|184389537|OTHER||Point estimate|-2.66|||||TWO_SIDED|95.0|-3.608|-1.715||||||Change from baseline in glycoalbumin at End of Treatment Period I was compared between the treatment groups.||-1.715|-3.608|
92243363|NCT02458690|184389544|SUPERIORITY|||||||0.6|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.60
92243364|NCT02458690|184389545|SUPERIORITY||||||<|0.01|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||<0.01
92243365|NCT02458690|184389546|SUPERIORITY|||||||0.81|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.81
92243366|NCT02458690|184389547|SUPERIORITY|||||||0.2|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.20
92243367|NCT02458690|184389548|SUPERIORITY|||||||0.09|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.09
92243368|NCT02458690|184389549|SUPERIORITY|||||||0.23|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.23
92243369|NCT02458690|184389550|SUPERIORITY|||||||0.09|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.09
92243370|NCT04026412|184389551|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.646|TWO_SIDED|96.0|0.77|1.19|||Cox proportional hazards model|||||1.19|0.77|0.6460
92243371|NCT04026412|184389552|SUPERIORITY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.87|1.41||||||||1.41|0.87|
92243372|NCT04026412|184389552|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.75|1.22||||||||1.22|0.75|
92243373|NCT04026412|184389552|SUPERIORITY||Hazard Ratio, log|1.16|||||TWO_SIDED|95.0|0.91|1.48||||||||1.48|0.91|
92243374|NCT04026412|184389553|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.69|1.05||||||||1.05|0.69|
92456472|NCT03318523|184802340|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.009||||0.7079|TWO_SIDED|95.0|-0.0562|0.0382|||Mixed Model for Repeated Measures|||||0.0382|-0.0562|0.7079
92456473|NCT03318523|184802340|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|0.0||||0.9835|TWO_SIDED|95.0|-0.04|0.0392|||Mixed Model for Repeated Measures|||||0.0392|-0.0400|0.9835
92173930|NCT05894577|184239451|OTHER||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.51|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.19|0.51|
92173931|NCT05894577|184239451|OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.49|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.35|0.49|
92456474|NCT03318523|184802340|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.027||||0.1869|TWO_SIDED|95.0|-0.0682|0.0134|||Mixed Model for Repeated Measures|||||0.0134|-0.0682|0.1869
92456475|NCT03318523|184802341|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.008||||0.7585|TWO_SIDED|95.0|-0.0625|0.0456|||Mixed Model for Repeated Measures|||||0.0456|-0.0625|0.7585
92173932|NCT05894577|184239452|OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.77|1.41|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.41|0.77|
92173933|NCT05894577|184239452|OTHER||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.82|1.69|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.69|0.82|
92173934|NCT05894577|184239452|OTHER||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.52|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.14|0.52|
92243375|NCT04026412|184389553|SUPERIORITY||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.93|1.42||||||||1.42|0.93|
92243376|NCT04026412|184389554|SUPERIORITY||Difference in ORR|3.2|||||TWO_SIDED|95.0|-4.1|10.6||||||||10.6|-4.1|
92243377|NCT04026412|184389554|SUPERIORITY||Difference in ORR|7.8|||||TWO_SIDED|95.0|0.7|14.8||||||||14.8|0.7|
92173935|NCT05894577|184239452|OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.65|1.43|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.43|0.65|
92243378|NCT04026412|184389554|SUPERIORITY||Difference in ORR|-4.7|||||TWO_SIDED|95.0|-11.8|2.5||||||||2.5|-11.8|
92243379|NCT04026412|184389557|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.82|1.23||||||||1.23|0.82|
92456476|NCT03318523|184802341|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|0.006||||0.7808|TWO_SIDED|95.0|-0.0391|0.052|||Mixed Model for Repeated Measures|||||0.0520|-0.0391|0.7808
92456477|NCT03318523|184802341|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.022||||0.3532|TWO_SIDED|95.0|-0.0691|0.0248|||Mixed Model for Repeated Measures|||||0.0248|-0.0691|0.3532
92456478|NCT02858050|184802344|OTHER|||||||0.548306|||||||Chi-squared|||||||0.548306
92456479|NCT02163733|184802345|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CIs being within 70% to 143%.|Geometric mean ratio|106.05|||||TWO_SIDED|90.0|94.82|118.6|||||Fed / Fasted ratio. Linear mixed-effects model with sequence, period, and treatment as fixed effects and subject nested within sequence as a random effect. Least squares geometric mean ratio (LSGMR) Fed = 7847, Fasted = 7399.|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being within 70-143% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 6% change in exposure was also assumed.||118.60|94.82|
92456480|NCT02163733|184802346|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CIs being within 70% to 143%|Geometric mean ratio|92.75|||||TWO_SIDED|90.0|81.4|105.68|||||Fed / Fasted ratio. Linear mixed-effects model with sequence, period, and treatment as fixed effects and subject nested within sequence as a random effect. LSGMR Fed = 208.0, Fasted = 224.3.|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being within 70-143% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 6% change in exposure was also assumed.||105.68|81.40|
92456481|NCT02163733|184802354|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|81.15|||||TWO_SIDED|90.0|57.86|113.83|||||Fed / Fasted ratio. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis. Linear mixed-effects model with treatment as fixed effect. LSGMR Fed = 497.6, Fasted = 613.2.|AZ5104||113.83|57.86|
92456482|NCT02163733|184802354|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|88.21|||||TWO_SIDED|90.0|65.21|119.32|||||Fed / Fasted ratio. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis. Linear mixed-effects model with treatment as fixed effect. LSGMR Fed = 235.0, Fasted = 266.4.|AZ7550||119.32|65.21|
92456483|NCT02163733|184802355|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|76.68|||||TWO_SIDED|90.0|55.31|106.32|||||Fed / Fasted ratio. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis. Linear mixed-effects model with treatment as fixed effect. LSGMR Fed = 9.163, Fasted = 11.95.|AZ5104||106.32|55.31|
92243380|NCT04026412|184389557|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.7|1.05||||||||1.05|0.70|
92243381|NCT04026412|184389557|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.95|1.44||||||||1.44|0.95|
92243382|NCT04026412|184389558|SUPERIORITY||Difference in ORR|3.5|||||TWO_SIDED|95.0|-4.1|11.1||||||||11.1|-4.1|
92243383|NCT04026412|184389558|SUPERIORITY||Difference in ORR|5.4|||||TWO_SIDED|95.0|-2.0|12.9||||||||12.9|-2.0|
92243384|NCT04026412|184389558|SUPERIORITY||Difference in ORR|-1.9|||||TWO_SIDED|95.0|-9.5|5.6||||||||5.6|-9.5|
92456484|NCT02163733|184802355|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|82.92|||||TWO_SIDED|90.0|60.99|112.74|||||Fed / Fasted ratio. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis. Linear mixed-effects model with treatment as fixed effect. LSGMR Fed = 4.236, Fasted = 5.109.|AZ7550||112.74|60.99|
92456485|NCT02157779|184802371|SUPERIORITY||Least Squares Mean Difference|-5.68||||0.017|TWO_SIDED|95.0|-10.32|-1.01||Threshold for statistical significance was 0.025.|ANCOVA|Method used: Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (4wk, 8wk, end of treatment, 3 mo f/u, and/or 6 mo f/u) were used in the HLM analyses.||-1.01|-10.32|.017
92456486|NCT02157779|184802372|SUPERIORITY||Least Squares Mean Difference|-0.14||||0.19|TWO_SIDED|95.0|-0.33|0.06||The threshold for statistical significance was p=0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.||Population Description: All randomized participants with at least one post-baseline assessment (4wk, 8wk, end of treatment, 3 mo f/u, and/or 6 mo f/u) were used in the statistical analysis. Data were winsorized and log10 transformed to counter high levels of skewness. Full Information Maximum Likelihood was used to account for missing data.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|0.06|-0.33|0.19
92243385|NCT04026412|184389561|SUPERIORITY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.76|1.23||||||||1.23|0.76|
92243386|NCT04026412|184389561|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.65|1.06||||||||1.06|0.65|
92243387|NCT04026412|184389561|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.91|1.49||||||||1.49|0.91|
92456487|NCT02157779|184802373|SUPERIORITY||Least Squares Mean Difference|-0.42||||0.011|TWO_SIDED|95.0|-0.75|-0.09||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score||Population Description: All randomized participants with at least one post-baseline assessment were used in the statistical analysis process.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|-0.09|-0.75|.011
92456488|NCT02157779|184802374|SUPERIORITY||Least Squares Mean Difference|-0.26||||0.16|TWO_SIDED|95.0|-0.63|0.11||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (12 weeks (end of treatment, 3 month and/or 6 month follow-up) were included in the analyses.||0.11|-0.63|0.16
92456489|NCT02157779|184802375|SUPERIORITY||Least Squares Mean Difference|-11.65||||0.031|TWO_SIDED|95.0|-22.2|-1.09||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (12 weeks (end of treatment), 3 month and/or 6 month follow-up) were included in the statistical analyses.||-1.09|-22.20|.031
92456490|NCT02157779|184802376|SUPERIORITY||Least Squares Mean Difference|1.56||||0.004|TWO_SIDED|95.0|0.51|2.6||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.||All randomized participants with at least one post-baseline assessment (week 12 (end of treatment), 3 month, and/or 6 month follow-up) were used in the statistical analysis.|A positive difference means that the adjusted mean for CBI is numerically higher than that for SI.|2.60|0.51|0.004
92456491|NCT02157779|184802377|SUPERIORITY||Least Squares Mean Difference|-2.15||||0.416|TWO_SIDED|95.0|-7.37|3.07||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI|All randomized participants with at least one post-baseline assessment were used in the statistical analysis process.||3.07|-7.37|0.416
92456492|NCT02157779|184802378|SUPERIORITY||Least Squares Mean Difference|-13.72||||0.028|TWO_SIDED|95.0|-25.94|-1.5||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment were used in the analyses.||-1.50|-25.94|0.028
92456493|NCT02157779|184802379|SUPERIORITY|||||||0.13|||||||ANOVA|GLM Repeated Measures Analysis of Variance of means grouped by sessions 1-4, 5-8, and 9-12||All randomized participants with at least one DAR completed in each time frame (sessions 1-4, 5-8, and 9-12) were included in the analyses. The mean DAR scores for sessions 1-4, 5-8, and 9-12 were calculated and used as outcome variables in the GLM repeated measures ANOVA.||||0.13
92456494|NCT02157779|184802380|SUPERIORITY||Least Squares Mean Difference|-0.82||||0.03|TWO_SIDED|95.0|-1.578|-0.063||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (week 4, week 8, week 12 (end of treatment), 3 mo and/or 6 month follow-up) were included in the HLM analyses.||-0.063|-1.578|0.030
92456495|NCT02157779|184802381|SUPERIORITY||Least Squares Mean Difference|-0.085||||0.021|TWO_SIDED|95.0|-0.158|-0.011||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|"All randomized participants with at least one post-baseline assessment (4 week, 8 week, 12 week, 3 month and/or 6 month follow-up) were included in the HLM analysis.~Data were winsorized and log10 transformed to counter high levels of skewness. Full Information Maximum Likelihood was used to account for missing data."||-0.011|-0.158|0.021
92281394|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.113|STANDARD_ERROR_OF_MEAN|0.12||0.3613|TWO_SIDED|95.0|-0.357|0.132|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Attention Span||0.132|-0.357|0.3613
92456496|NCT02157779|184802382|SUPERIORITY||Least Squares Mean Difference|-0.1||||0.246|TWO_SIDED|95.0|-0.283|0.073||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (4 week, 8 week, 12 week, 3 month and/or 6 month follow-up) were used in the HLM analysis. Data were winsorized and log10 transformed to counter high levels of skewness. Full Information Maximum Likelihood was used to account for missing data.||0.073|-0.283|0.246
92456497|NCT02157779|184802383|SUPERIORITY||Least Squares Mean Difference|-0.14||||0.036|TWO_SIDED|95.0|-0.27|-0.01||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment were used in the statistical analysis. Data were winsorized and log 10 transformed to counter high levels of skewness.||-0.01|-0.27|0.036
92173936|NCT05894577|184239452|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.63|1.41|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.41|0.63|
92173937|NCT05894577|184239452|OTHER||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.44|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.19|0.44|
92173938|NCT05894577|184239453|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.75|1.39|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.39|0.75|
92173939|NCT05894577|184239453|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.76|1.44|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.44|0.76|
92173940|NCT05894577|184239453|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.84|1.71|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.71|0.84|
92281395|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.047|STANDARD_ERROR_OF_MEAN|0.13||0.7201|TWO_SIDED|95.0|-0.305|0.212|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Motivation||0.212|-0.305|0.7201
92173941|NCT05894577|184239453|OTHER||Odds Ratio (OR)|1.14|||||TWO_SIDED|95.0|0.76|1.71|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.71|0.76|
92173942|NCT05894577|184239453|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.67|1.46|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.46|0.67|
92173943|NCT05894577|184239453|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.62|1.59|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.59|0.62|
92281396|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.213|STANDARD_ERROR_OF_MEAN|0.12||0.0767|TWO_SIDED|95.0|-0.448|0.023|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Vision||0.023|-0.448|0.0767
92456498|NCT02157779|184802384|SUPERIORITY||Least Squares Mean Difference|-0.026||||0.786|TWO_SIDED|95.0|-0.213|0.1614||Threshold for statistical significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|"All randomized participants with at least one post-baseline assessment (4 week, 8 week, 12 week, 3 month and/or 6 month follow-up) were included in the HLM analysis.~Data were winsorized and log10 transformed to counter high levels of skewness. Full Information Maximum Likelihood was used to account for missing data."||0.1614|-0.213|0.786
92456499|NCT02157779|184802385|SUPERIORITY||Least Squares Mean Difference|-0.02||||0.744|TWO_SIDED|95.0|-0.18|0.13||Threshold for significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|"All randomized participants with at least one post-baseline assessment (4 week, 8 week, 12 week, 3 month and/or 6 month follow-up) were included in the HLM analysis.~Data were winsorized and log10 transformed to counter high levels of skewness. Full Information Maximum Likelihood was used to account for missing data."||0.13|-0.18|0.744
92456500|NCT02157779|184802386|SUPERIORITY||Least Squares Mean Difference|-1.85||||0.002|TWO_SIDED|95.0|-3.038|-0.663||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (4 week, 8 week, 12 week, 3 month and/or 6 month follow-up) were included in the HLM analysis. Full Information Maximum Likelihood was used to account for missing data.||-0.663|-3.038|0.002
92456501|NCT02157779|184802387|SUPERIORITY||Least Squares Mean Difference|-1.0||||0.186|TWO_SIDED|95.0|-2.518|0.524||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (4wk, 8wk, 12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis. Full Information Maximum Likelihood was used to account for missing data.||0.524|-2.518|0.186
92456502|NCT02157779|184802388|SUPERIORITY||Least Squares Mean Difference|1.26||||0.164|TWO_SIDED|95.0|-0.56|3.09||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A positive difference means that the adjusted mean for CBI is numerically higher than that for SI.|"All randomized participants with at least one post-baseline assessment (4wk, 8wk, 12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis.~Full Information Maximum Likelihood was used to account for missing data."||3.09|-0.560|0.164
92456503|NCT02157779|184802389|SUPERIORITY||Least Squares Mean Difference|1.33||||0.1|TWO_SIDED|95.0|-0.26|2.92||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score|A positive difference means that the adjusted mean for CBI is numerically higher than that for SI.|"All randomized participants with at least one post-baseline assessment (4wk, 8wk, 12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis.~Full Information Maximum Likelihood was used to account for missing data."||2.92|-0.26|0.100
92456504|NCT02157779|184802390|SUPERIORITY||Least Squares Mean Difference|-6.29||||0.06|TWO_SIDED|95.0|-12.85|0.27||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.||"All randomized participants with at least one post-baseline assessment (12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis.~Full Information Maximum Likelihood was used to account for missing data."|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI, indicating less symptomatic distress.|0.27|-12.85|0.060
92456505|NCT02157779|184802391|SUPERIORITY||Least Squares Mean Difference|-3.271||||0.023|TWO_SIDED|95.0|-6.083|-0.458||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|"All randomized participants with at least one post-baseline assessment (12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis.~Full Information Maximum Likelihood was used to account for missing data."||-0.458|-6.083|0.023
92456506|NCT02157779|184802392|SUPERIORITY||Least Squares Mean Difference|-1.28||||0.23|TWO_SIDED|95.0|-3.39|0.82||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|"All randomized participants with at least one post-baseline assessment (12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis.~Full Information Maximum Likelihood was used to account for missing data."||0.82|-3.39|0.23
92456507|NCT01654549|184802437|SUPERIORITY_OR_OTHER|||||||0.94|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.94
92456508|NCT01654549|184802437|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||t-test, 2 sided|||||||0.78
92456509|NCT01654549|184802437|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Paired t-test|||||||<0.01
92456510|NCT01654549|184802437|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Paired t-test|||||||<0.01
92456511|NCT01654549|184802437|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||t-test, 2 sided|||||||0.10
92456512|NCT02701985|184802463|OTHER||Difference in Response Rates|4.27||||0.7955|TWO_SIDED|95.0|-20.55|29.08|||Chi-square with Schouten Correction|||The proportion of patients who have ≥ 3 point reduction from baseline in ESSDAI score after 12 weeks of treatment was compared between the two treatment arms using a Pearson Chi-square test (two sided p-values, alpha 0.05). The difference in proportions and corresponding 95% confidence interval (CI) are provided. Patients with missing data at Week 12 will be treated as non-responders in the analysis.||29.08|-20.55|0.7955
92456513|NCT02701985|184802464|OTHER||Difference in Response Rates|1.14||||0.9877|TWO_SIDED|95.0|-23.92|26.19|||Chi-square with Schouten Correction|||The proportion of patients who have ≥ 1 point reduction from baseline in ESSPRI score after 12 weeks of treatment was compared between the two treatment arms using a Pearson Chi-square test (two sided p-values, alpha 0.05). The difference in proportions and corresponding 95% CI are provided. Patients with missing data at Week 12 will be treated as non-responders in the analysis.||26.19|-23.92|0.9877
92456514|NCT02701985|184802465|SUPERIORITY||Difference in Adjusted Means|-0.13||||0.8905|TWO_SIDED|95.0|-2.04|1.78|||Mixed Model for Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable.||1.78|-2.04|0.8905
92456515|NCT02701985|184802466|SUPERIORITY||Difference in Adjusted Means|-0.22||||0.6077|TWO_SIDED|95.0|-1.08|0.64|||Mixed Model of Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable.||0.64|-1.08|0.6077
92456516|NCT02701985|184802467|SUPERIORITY||Difference in Adjusted Means|-2.06||||0.2846||95.0|-5.87|1.75|||Mixed Model of Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable||1.75|-5.87|0.2846
92456517|NCT02701985|184802468|SUPERIORITY||Difference in Adjusted Means|-0.33||||0.8134||95.0|-2.43|3.08|||Mixed Model of Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable||3.08|-2.43|0.8134
92456518|NCT02701985|184802472|SUPERIORITY||Median Difference (Final Values)|0.87||||0.4266||95.0|-1.3|3.03|||Mixed Model of Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable.||3.03|-1.30|0.4266
92456519|NCT02701985|184802473|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.6429||95.0|-0.21|0.34|||Mixed Model of Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable.||0.34|-0.21|0.6429
92456520|NCT00989768|184802483|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_DEVIATION|0.36|<|0.0001||95.0|||||t-test, 2 sided|||In this study the null hypothesis was that BoNT-A1 had the same effect (halus)than the BoNT-A2.||||<0.0001
92456521|NCT00989768|184802484|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
92456522|NCT00989768|184802485|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||t-test, 2 sided|||||||0.61
92456523|NCT00989768|184802486|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||t-test, 2 sided|||||||0.36
92456524|NCT01362140|184802487|SUPERIORITY_OR_OTHER|||||||0.008|||||||Chi-squared|||"The primary hypothesis to be tested was that the percentage of participants with at least~1 RBC transfusion from week 5 to the EOTP was lower in the darbepoetin alfa group than in the placebo group. This hypothesis was confirmed if the incidence of RBC transfusion in the darbepoetin alfa group was lower and had a p-value \< 0.05 from a 2-sided Chi-square test."||||0.008
92456525|NCT01362140|184802488|SUPERIORITY_OR_OTHER|||||||0.017|||||||Cochran-Mantel-Haenszel|The overall 2-sided CMH test with IPSS score as stratification factor.||If the primary hypothesis was confirmed, the secondary hypothesis to be tested was that the percentage of participants achieving an IWG erythroid response during the 24-week double-blind treatment period was greater in the darbepoetin alfa group than in the placebo group. This hypothesis was confirmed if erythroid response was higher in the darbepoetin alfa group and the p-value was \< 0.05 from a 2-sided Cochran-Mantel-Haenszel test using the IPSS as a stratification factor.||||0.017
92456526|NCT03998618|184802512|SUPERIORITY||partial correlation|0.12||||0.018|TWO_SIDED|95.0|-0.01|0.25||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 234. multiply imputed data were used in analyses.||||0.25|-0.01|.018
92456527|NCT03998618|184802513|SUPERIORITY||partial correlation|0.11||||0.037|TWO_SIDED|95.0|-0.02|0.24||P-value for study group x time interaction. Probabilities for the secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance = 0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.24|-0.02|.037
92456528|NCT03998618|184802514|SUPERIORITY||partial correlation|0.07||||0.355|TWO_SIDED|95.0|-0.06|0.2||P-value for study group x time interaction. Probabilities for the secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance = 0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.20|-0.06|.355
92456529|NCT03998618|184802515|SUPERIORITY||partial correlation|0.08||||0.167|TWO_SIDED|95.0|-0.04|0.21||P-value for study group x time interaction for physical quality of life. Probabilities for the secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance=0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.21|-0.04|.167
92456530|NCT03998618|184802515|SUPERIORITY||partial correlation|0.09||||0.105|TWO_SIDED|95.0|-0.03|0.22||P-value for study group x time interaction for social/family quality of life. Probabilities for the six secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance=0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.22|-0.03|.105
92456531|NCT03998618|184802515|SUPERIORITY||partial correlation|0.09||||0.142|TWO_SIDED|95.0|-0.04|0.22||P-value for study group x time interaction for emotional quality of life. Probabilities for the six secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance=0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.22|-0.04|.142
92456532|NCT03998618|184802515|SUPERIORITY||partial correlation|0.13||||0.006|TWO_SIDED|95.0|0.01|0.26||P-value for study group x time interaction for functional quality of life. Probabilities for the six secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance=0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.26|0.01|.006
92243388|NCT00830037|184389564|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35||||0.79|TWO_SIDED|95.0|-2.9|2.3||a = 0.05|Mixed Models Analysis|Wald test||The analysis of the primary outcome was intention to treat, if the patient received at least one dose of the randomized drug (which was the case for each subject). A linear mixed model was used with GFR as the outcome variable. Fixed effects were indicator variables for time (treated as a continuous variable), treatment, and their interaction. Random effects were subject and time with unstructured covariance; statistical inference was made using the maximum likelihood estimator.||2.3|-2.9|0.79
92243389|NCT00830037|184389565|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.035||||0.83|TWO_SIDED|95.0|-0.294|0.365||a = 0.05|Mixed Models Analysis|Wald test||The secondary analysis examined the mean change from baseline proteinuria (log protein to creatinine ratio) at 2 years. The between-groups difference in mean change from baseline is reported with a 95% confidence interval and the p-value from the Wald test.||0.365|-0.294|0.83
92243390|NCT02841787|184389573|SUPERIORITY||||||<|0.001||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||< .001
92243391|NCT02841787|184389573|SUPERIORITY||||||<|0.001||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||<.001
92243392|NCT02841787|184389573|SUPERIORITY|||||||0.44||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||0.44
92243393|NCT02841787|184389573|SUPERIORITY|||||||0.03||||||The threshold for significance was alpha=0.05.|ANOVA|||||||0.03
92243394|NCT02841787|184389573|SUPERIORITY|||||||0.68||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||0.68
92243395|NCT02841787|184389573|SUPERIORITY|||||||0.02||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||0.02
92243396|NCT02841787|184389573|SUPERIORITY|||||||0.03||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||0.03
92243397|NCT02841787|184389576|SUPERIORITY|||||||0.003||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||0.003
92243398|NCT00091390|184389652|SUPERIORITY_OR_OTHER_LEGACY||hazard rate|0.0014|||<|0.0001|TWO_SIDED|95.0|0.0|0.003|||Z-test|One-sided.||The study is designed to test whether the 18-month late GU/GI toxicity following the protocol treatment is above 10% (hazard rate of 0.012/month). The sample size is determined so that the probability of rejecting the treatment because of excessive late toxicity is 90% if the true late toxicity rate is 20% (hazard rate of 0.025/month). Ninety-eight patients are required to with an additional 18 months of follow-up to have a statistical power of 90% with one-sided significance level of 0.05.||0.003|0|<0.0001
92456533|NCT02308748|184802516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.8||||0.025|TWO_SIDED|95.0|-25.2|-14.3||Adjustment for multiple comparisons was performed according to the Bonferroni method.|Mixed Models Analysis|||Change in QTc interval on the ECG measured in milliseconds when dofetilide is administered with mexiletine compared to when dofetilide is administered alone at evening dose on treatment day.||-14.3|-25.2|0.025
92456534|NCT02308748|184802516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.7||||0.025|TWO_SIDED|95.0|-25.2|-14.1||Adjustment for multiple comparisons was performed according to the Bonferroni method.|Mixed Models Analysis|||Change in QTc interval on the ECG measured in milliseconds when dofetilide is administered with lidocaine compared to when dofetilide is administered alone at evening dose on treatment day.||-14.1|-25.2|0.025
92456535|NCT02308748|184802516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.2||||0.025|TWO_SIDED|95.0|-28.0|-18.3||Adjustment for multiple comparisons was performed according to the Bonferroni method.|Mixed Models Analysis|||Change in J-Tpeakc interval on the ECG measured in milliseconds when dofetilide is administered with mexiletine compared to when dofetilide is administered alone at evening dose on treatment day.||-18.3|-28.0|0.025
92173944|NCT05894577|184239454|OTHER||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.74|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.14|0.74|
92173945|NCT05894577|184239454|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.79|1.22|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.22|0.79|
92243399|NCT02669862|184389669|OTHER|||||||0.555|||||||ANCOVA|Baseline values were the covariate||"In this table Study Day 01 / Visit 2 has been considered as Baseline visit for calculating mean and mean change.~PVal\*- ANCOVA used for calculating P-value by comparing Vehicle against each Active treatment group using baseline values as the covariate."||||0.555
92243400|NCT02669862|184389669|OTHER|||||||0.009||||||PVal\*- ANCOVA used for calculating P-value by comparing Vehicle against each Active treatment group using baseline values as the covariate. No adjustments for multiple comparisons.|ANCOVA|||"In this table Study Day 01 / Visit 2 has been considered as Baseline visit for calculating mean and mean change.~PVal\*- ANCOVA used for calculating P-value by comparing Vehicle against each Active treatment group using baseline values as the covariate."||||0.009
92243401|NCT02669862|184389671|OTHER|||||||0.9313||||||Not adjusted for multiple comparisons|Chi-squared|||PVal\*- Chi-Square test used for calculating P-value by comparing Vehicle against each Active treatment group||||0.9313
92243402|NCT02669862|184389671|OTHER|||||||0.0236||||||Not adjusted for multiple comparisons|Chi-squared|||||||0.0236
92243403|NCT00078559|184389708|SUPERIORITY_OR_OTHER||Proportion with acute rejection|0.1|||||TWO_SIDED|95.0|0.01|0.34|||95% Confidence Interval|Exact Binomial||||0.34|0.01|
92243404|NCT00078559|184389709|SUPERIORITY_OR_OTHER||Proportion with acute rejection|0.0|||||TWO_SIDED|95.0|0.0|0.3|||95% Confidence Interval|Exact Binomial||||0.3|0.0|
92243405|NCT00078559|184389710|SUPERIORITY_OR_OTHER||Proportion with acute rejection|0.0|||||TWO_SIDED|95.0|0.0|0.7|||95% Confidence Interval|Exact Binomial||||0.7|0.0|
92243406|NCT00078559|184389713|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.3|||95% Confidence Interval|Exact Binomial||||0.3|0.0|
92243407|NCT00078559|184389714|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.3|||95% Confidence Interval|Exact Binomial for all participants (n=10)||||0.3|0.0|
92243408|NCT00078559|184389715|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.4|||95% Confidence Interval|Exact Binomial for Not Withdrawn Group||||0.4|0.0|
92243409|NCT00078559|184389715|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.8|||95% Confidence Interval|Exact Binomial for Withdrawn Group||||0.8|0.0|
92243410|NCT00078559|184389716|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.4|||95% Confidence Interval|Exact Binomial for Not Withdrawn Group||||0.4|0.0|
92243411|NCT00078559|184389716|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.8|||95% Confidence Interval|Exact Binomial for Withdrawn Group||||0.8|0.0|
92243412|NCT01694420|184389729|SUPERIORITY_OR_OTHER||||||<|0.001||||||Study data compared to data as cited in PubMed ID: 21487250|Wilcoxon (Mann-Whitney)|||||||<0.001
92243413|NCT03621943|184389751|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.87|TWO_SIDED|95.0|-6.36|5.37|||hierarchical generalized linear mixed mo|hierarchical generalized linear mixed models||Total score on the Ages and Stages Questionnaire, 3rd ed.||5.37|-6.36|0.87
92243414|NCT01716533|184389779|SUPERIORITY||GMC ratio|1.53||||0.5746|TWO_SIDED|95.0|0.33|7.14||P-value = two-sided p-value for HO: GMC ratio = 1 (ANOVA model, T-test), groups considered as statistically significant different if the two-sided p-value is below 0.05.|ANOVA|ANOVA model -pooled variance.|GMC ratio = GMC Sustained response Group /GMC Recurrence Group.|ELISA anti-toxin B antibody concentrations at Day 14 were compared between the Sustained response Group and Recurrence Group by using a one-way analysis of variance (ANOVA) model on the log-transformed concentration.||7.14|0.33|0.5746
92243415|NCT01716533|184389780|SUPERIORITY|ANOVA model -pooled variance.|GMC ratio|1.65||||0.7124|TWO_SIDED|95.0|0.1|26.41||P-value = two-sided p-value for HO: GMC ratio = 1, groups considered as statistically significant different if the two-sided p-value is below 0.05.|ANOVA||GMC ratio = GMC Sustained response Group /GMC Recurrence Group.|Serum F2 C-terminal anti-toxin B antibody concentrations at Day 14 were compared between the Sustained response Group and Recurrence Group by using a one-way analysis of variance (ANOVA) model on the log-transformed concentration.||26.41|0.10|0.7124
92243416|NCT02320695|184389800|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.12||0.187|TWO_SIDED|95.0|-0.33|0.05|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||0.05|-0.33|0.187
92243417|NCT02320695|184389800|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.101|TWO_SIDED|95.0|-0.42|0.04|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||0.04|-0.42|0.101
92243418|NCT02320695|184389800|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|0.12||0.002|TWO_SIDED|95.0|-0.49|-0.1|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||-0.10|-0.49|0.002
92243419|NCT02320695|184389800|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.53|-0.12|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||-0.12|-0.53|<0.001
92456536|NCT02308748|184802516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.5||||0.025|TWO_SIDED|95.0|-25.5|-15.5||Adjustment for multiple comparisons was performed according to the Bonferroni method.|Mixed Models Analysis|||Change in J-Tpeakc interval on the ECG measured in milliseconds when dofetilide is administered with lidocaine compared to when dofetilide is administered alone at evening dose on treatment day.||-15.5|-25.5|0.025
92456537|NCT02308748|184802517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9||||0.025|TWO_SIDED|95.0|-1.0|6.7||Adjustment for multiple comparisons was performed according to the Bonferroni method.|Mixed Models Analysis|||||6.7|-1|0.025
92456538|NCT01994954|184802527|SUPERIORITY||||||<|0.03||||||A two-sided P-value of 0.05 or less was interpreted as a statistically significant result.|t-test, 2 sided|||The trial was designed to have 97% power at a type I error rate of 5% to detect a 25% intervention effect with respect to the primary outcome. this was done using an independent sample t-test. P-value was calculated, and a p-value of 0.05 or less was interpreted as statistically significant result.||||<0.03
92456539|NCT01994954|184802528|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Power calculations were based on the primary analysis (t-test comparing changes). A sample size of 130 would have given 80% power, with 0.05 two sided type 1 error rate, to detect a 20% absolute difference in emotional role limitation on the PedsQL v2.0, which we considered to be statistically significant.||||0.38
92456540|NCT00449176|184802532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.001||95.0|-1.22|-0.47|||ANCOVA|||The primary null hypothesis to be tested for the study was that the tapentadol ER group was not different from the placebo group for the primary endpoint. Assuming the mean treatment group difference of 0.7 with an SD of 2.7, 314 subjects per treatment group were estimated to provide 90% power to show that the tapentadol ER group was statistically different from placebo at an alpha level of 0.05. The total number of subjects to be randomly assigned to a treatment group for the study was 942.||-0.47|-1.22|<0.001
92173946|NCT05894577|184239454|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.71|1.08|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.08|0.71|
92243420|NCT02320695|184389801|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.12||0.023|TWO_SIDED|95.0|-0.54|-0.05|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||-0.05|-0.54|0.023
92243421|NCT02320695|184389801|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.12||0.522|TWO_SIDED|95.0|-0.32|0.2|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||0.20|-0.32|0.522
92243422|NCT02320695|184389801|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.67|-0.16|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||-0.16|-0.67|<0.001
92456541|NCT01967732|184802542|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|77.43|||||TWO_SIDED|95.0|62.69|95.63|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (THS 2.2 - Group 1:CC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of THS 2.2:CC) for Cmax, therefore, there was no statistical hypothesis to be tested for this objective.||95.63|62.69|
92243423|NCT02320695|184389801|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|0.12||0.013|TWO_SIDED|95.0|-0.63|-0.07|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||-0.07|-0.63|0.013
92456542|NCT01967732|184802543|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|74.47|||||TWO_SIDED|95.0|61.52|90.14|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (THS 2.2 - Group 1:CC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of THS 2.2:CC) for AUC(0-last), therefore, there was no statistical hypothesis to be tested for this objective.||90.14|61.52|
92456543|NCT05525494|184802544|SUPERIORITY||Adjusted Risk Ratio|0.99|||||TWO_SIDED|95.0|0.98|1.01|||||Adjusted risk ratio. These results compare arms which received portal (any type) reminder/recall messages to the arm receiving no reminder/recall messages (control).|Comparing the risk of receiving an influenza vaccination||1.01|0.98|
92456544|NCT05525494|184802544|SUPERIORITY||Adjusted Risk Ratio|1.0|||||TWO_SIDED|95.0|0.98|1.01|||||Adjusted risk ratio. These results compare arms which received text (any type) reminder/recall messages to the arm receiving no reminder/recall messages (control).|Comparing the risk of receiving an influenza vaccination||1.01|0.98|
92456545|NCT05525494|184802544|SUPERIORITY||Adjusted Risk Ratio|1.01|||||TWO_SIDED|95.0|1.0|1.02|||||Adjusted risk ratio. These results compare arms which received pre-appointment reminder/recall messages (portal and text) to the arm receiving no reminder/recall messages (control).|Comparing the risk of receiving an influenza vaccination||1.02|1.00|
92456546|NCT05525494|184802544|SUPERIORITY||Adjusted Risk Ratio|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||Adjusted risk ratio. These results compare arms which received a tailored reminder/recall messages based on their responses to a pre-commitment questionnaire (any type) to the arm receiving no reminder/recall messages (control).|Comparing the risk of receiving an influenza vaccination||1.01|0.99|
92456547|NCT00833638|184802546|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||P-value for day \<=4. A fixed-sequence test was used within each dose group at each time point (days 4, 3, 2, 1) and adjusted for multiple dose-placebo comparisons using the Bonferroni method. Testing started on day 4 and stopped when p\>.025.|Regression, Logistic|Model response = treatment + pooled site + severity of erectile dysfunction at baseline.||The null-hypothesis was tested that there is no statistically significant difference in the onset of efficacy between tadalafil 2.5 mg and placebo as determined by the earliest day on which the cumulative percentage of subjects achieving at least 1 successful intercourse (within 4 days of starting treatment) is statistically significantly different between active drug and placebo.||||0.086
92456548|NCT00833638|184802546|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value for day \<=4. A fixed-sequence test was used within each dose group at each time point (days 4, 3, 2, 1) and adjusted for multiple dose-placebo comparisons using the Bonferroni method. Testing started on day 4 and stopped when p\>.025.|Regression, Logistic|Model response = treatment + pooled site + severity of erectile dysfunction at baseline.||The null-hypothesis was tested that there is no statistically significant difference in the onset of efficacy between tadalafil 5 mg and placebo as determined by the earliest day on which the cumulative percentage of participants achieving at least 1 successful intercourse (within 4 days of starting treatment) is statistically significantly different between active drug and placebo.||||0.006
92173947|NCT05894577|184239454|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.8|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.21|0.80|
92243424|NCT02622724|184389821|SUPERIORITY|||||||0.8219|||||||Van Elteren hypothesis test|||A non-parametric analysis has been used as the data distribution was skewed. This involved a generalised Wilcoxon rank sum-based stratification test which assigns ranks within strata and compares two treatments within strata (Van Elteren hypothesis test).||||0.8219
92243425|NCT02622724|184389828|SUPERIORITY|||||||0.4678|||||||Van Elteren p-values|||Van Elteren hypothesis test was used as the distribution was non-normal and negatively skewed by patients who are assigned scores of zero in the event of death.||||0.4678
92243426|NCT02622724|184389833|SUPERIORITY||||||<|0.05|||||||ANCOVA|Analysis of covariance (ANCOVA) model using Type III sums of squares with Treatment, Severity, and Country fixed effect factors, Baseline as covariate||||||<0.05
92243427|NCT02622724|184389836|OTHER||Least Squares Mean|31.1|||>|0.05|TWO_SIDED|95.0|-37.7|99.9|||ANOVA|||Treatment effect was analysed using ANOVA parameter estimates (Least Squares Means and 95% Confidence Intervals) for the overall treatment difference for maximum distance walked on Day 180.||99.9|-37.7|>0.05
92456549|NCT00833638|184802546|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value for day \<=3. A fixed-sequence test was used within each dose group at each time point (days 4, 3, 2, 1) and adjusted for multiple dose-placebo comparisons using the Bonferroni method. Testing started on day 4 and stopped when p\>.025.|Regression, Logistic|Model response = treatment + pooled site + severity of erectile dysfunction at baseline.||The null-hypothesis was tested that there is no statistically significant difference in the onset of efficacy between tadalafil 5 mg and placebo as determined by the earliest day on which the cumulative percentage of participants achieving at least 1 successful intercourse (within 4 days of starting treatment) is statistically significantly different between active drug and placebo.||||0.019
92243428|NCT02622724|184389850|OTHER||LS Means difference|0.0|||>|0.05|ONE_SIDED||||||ANCOVA|ANCOVA estimates (LS means and a 95 % CI for the treatment difference) were presented for all numeric biomarker variables.||IL -1ra - changes in levels from baseline to Day 14||||>0.05
92243429|NCT02622724|184389850|OTHER||LS Means difference|0.0|||>|0.05|ONE_SIDED||||||ANCOVA|ANCOVA estimates (LS means and a 95 % CI for the treatment difference) were presented for all numeric biomarker variables.||IL- 6 - changes in levels from baseline to Day 14||||>0.05
92456550|NCT00833638|184802546|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for day \<=2. A fixed-sequence test was used within each dose group at each time point (days 4, 3, 2, 1) and adjusted for multiple dose-placebo comparisons using the Bonferroni method. Testing started on day 4 and stopped when p\>.025.|Regression, Logistic|Model response = treatment + pooled site + severity of erectile dysfunction at baseline.||The null-hypothesis was tested that there is no statistically significant difference in the onset of efficacy between tadalafil 5 mg and placebo as determined by the earliest day on which the cumulative percentage of participants achieving at least 1 successful intercourse (within 4 days of starting treatment) is statistically significantly different between active drug and placebo.||||0.022
92456551|NCT00833638|184802546|SUPERIORITY_OR_OTHER|||||||0.573||95.0||||P-value for day \<=1. A fixed-sequence test was used within each dose group at each time point (days 4, 3, 2, 1) and adjusted for multiple dose-placebo comparisons using the Bonferroni method. Testing started on day 4 and stopped when p\>.025.|Regression, Logistic|||The null-hypothesis was tested that there is no statistically significant difference in the onset of efficacy between tadalafil 5 mg and placebo as determined by the earliest day on which the cumulative percentage of participants achieving at least 1 successful intercourse (within 4 days of starting treatment) is statistically significantly different between active drug and placebo.||||0.573
92456552|NCT00833638|184802547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.03|||<|0.001|TWO_SIDED|95.0|5.72|18.34||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction were included.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 1 exist between participants who received placebo and participants who received tadalafil 2.5 mg."||18.34|5.72|<0.001
92456553|NCT00833638|184802547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.8|||<|0.001|TWO_SIDED|95.0|6.48|19.12||No adjustment for multiplicity.|ANCOVA|Terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction were included.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 1 exist between participants who received placebo and participants who received tadalafil 5 mg."||19.12|6.48|<0.001
92173948|NCT05894577|184239454|OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.84|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.29|0.84|
92243430|NCT02622724|184389850|OTHER||LS Means difference|0.0|||<|0.05|ONE_SIDED|95.0|||||ANCOVA|ANCOVA estimates (LS means and a 95% CI for the treatment difference) were presented for all numeric biomarker variables.||FGF basic - changes in levels from baseline to Day 14||||<0.05
92243431|NCT02622724|184389850|OTHER||LS Means difference|0.0|||<|0.05|ONE_SIDED||||||ANCOVA|ANCOVA estimates (LS means and a 95 % CI for the treatment difference) were presented for all numeric biomarker variables.||IP-10 - changes in levels from baseline to Day 14.||||<0.05
92243432|NCT02622724|184389850|OTHER||LS Means difference|0.0|||>|0.05|ONE_SIDED||||||ANCOVA|ANCOVA estimates (LS means and a 95 % CI for the treatment difference) were presented for all numeric biomarker variables.||TNF-α - changes in levels from baseline to Day 14||||>0.05
92243433|NCT02622724|184389851|OTHER||||||<|0.007||||||The p-value is not adjusted for multiple comparisons.|Chi-squared|||||||<0.007
92281397|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.216|STANDARD_ERROR_OF_MEAN|0.19||0.2618|TWO_SIDED|95.0|-0.597|0.165|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Energy Level||0.165|-0.597|0.2618
92173949|NCT05894577|184239454|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.68|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.14|0.68|
92173950|NCT05894577|184239455|SUPERIORITY|Posterior probability of efficacy (P(Difference in MTU (Active - Placebo)\<0))|Difference in model estimate time unwell|-0.24|||||TWO_SIDED|95.0|-0.6|0.1|||||The mean time unwell is estimated from receipt of study drug to study day 14. The interval is a highest density credible interval.|No hypothesis test or decision rule was evaluated.||0.1|-0.6|
92456554|NCT00833638|184802548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.4|||<|0.001|TWO_SIDED|95.0|8.51|22.29||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 2 exist between participants who received placebo and participants who received tadalafil 2.5 mg."||22.29|8.51|<0.001
92456555|NCT00833638|184802548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.41|||<|0.001|TWO_SIDED|95.0|13.5|27.31||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 2 exist between participants who received placebo and participants who received tadalafil 5 mg."||27.31|13.50|<0.001
92456556|NCT00833638|184802549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.27|||<|0.001|TWO_SIDED|95.0|6.83|21.71||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 3 exist between participants who received placebo and participants who received tadalafil 2.5 mg."||21.71|6.83|<0.001
92456557|NCT00833638|184802549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.54|||<|0.001|TWO_SIDED|95.0|13.07|28.01||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 3 exist between participants who received placebo and participants who received tadalafil 5 mg."||28.01|13.07|<0.001
92456558|NCT00833638|184802550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.24|||<|0.001|TWO_SIDED|95.0|6.42|22.06||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 4 exist between participants who received placebo and participants who received tadalafil 2.5 mg."||22.06|6.42|<0.001
92456559|NCT00833638|184802550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.81|||<|0.001|TWO_SIDED|95.0|13.94|29.67||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 4 exist between participants who received placebo and participants who received tadalafil 5 mg."||29.67|13.94|<0.001
92456560|NCT00833638|184802551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.92|||<|0.001|TWO_SIDED|95.0|6.3|21.55||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 5 exist between participants who received placebo and participants who received tadalafil 2.5 mg."||21.55|6.30|<0.001
92456561|NCT00833638|184802551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.07|||<|0.001|TWO_SIDED|95.0|11.4|26.75||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 5 exist between participants who received placebo and participants who received tadalafil 5 mg."||26.75|11.40|<0.001
92456562|NCT00833638|184802552|SUPERIORITY_OR_OTHER|||||||0.301||95.0||||No adjustment for multiplicity.|Log Rank|||"Tested was the null-hypothesis that no differences in the time to onset of efficacy exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.301
92456563|NCT00833638|184802552|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||No adjustment for multiplicity.|Log Rank|||"Tested was the null-hypothesis that no differences in the time to onset of efficacy exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.046
92173951|NCT05894577|184239456|SUPERIORITY|Posterior probability of efficacy (P(Difference days benefit (Active - Placebo)\>0))|Difference in model estimated means|0.31|||||TWO_SIDED|95.0|-0.13|0.75|||||The interval is a highest density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.75|-0.13|
92182481|NCT03617835|184263832|OTHER|Relative bioavailability|Ratio of the geometric means (T3/R) [%]|138.34|||||TWO_SIDED|90.0|116.87|163.77|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 24.8.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||163.77|116.87|
92243434|NCT02622724|184389854|OTHER||Least Squares Mean|28.0|||>|0.05|TWO_SIDED|95.0|-54.0|110.1|||ANOVA|||Treatment effect was analysed using ANOVA parameter estimates (Least Squares Means and 95 % Confidence Intervals) for the overall treatment difference for maximun distance walked on Day 360.||110.1|-54|>0.05
92456564|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=14. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92243435|NCT01575197|184389873|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||Fisher Exact|||||||0.014
92456565|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=13. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456566|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=12. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456567|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=11. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456568|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=10. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456569|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=9. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456570|NCT00833638|184802553|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for day \<=8. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.002
92456571|NCT00833638|184802553|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for day \<=7. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.001
92243436|NCT01575197|184389874|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Fisher Exact|||||||0.16
92243437|NCT01575197|184389875|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||t-test, 2 sided|||||||0.038
92243438|NCT01575197|184389876|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||||||0.30
92243439|NCT01290445|184389884|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.46|1.47||||||Crude prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.47|0.46|
92243440|NCT01290445|184389884|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.45|1.42||||||Adjusted prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.42|0.45|
92243441|NCT01290445|184389885|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.61|||||TWO_SIDED|95.0|0.09|4.34||||||Crude prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||4.34|0.09|
92243442|NCT01290445|184389885|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.09|4.67||||||Adjusted prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||4.67|0.09|
92243443|NCT01290445|184389886|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.5|0.96||||||Crude prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||0.96|0.50|
92243444|NCT01290445|184389886|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.51|0.97||||||Adjusted prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||0.97|0.51|
92243445|NCT01290445|184389887|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.63|1.42||||||Crude prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.42|0.63|
92243446|NCT01290445|184389887|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.61|1.37||||||Adjusted prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.37|0.61|
92456572|NCT00833638|184802553|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for day \<=6. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.002
92456573|NCT00833638|184802553|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for day \<=5. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.002
92456574|NCT00833638|184802553|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for day \<=4. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.002
92456575|NCT00833638|184802553|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for day \<=3. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.009
92456576|NCT00833638|184802553|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||P-value for day \<=2. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.038
92456577|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=14. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the proportion of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456578|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=13. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456579|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=12. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456580|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=11. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456581|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=10. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92243447|NCT01290445|184389888|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.37|1.16||||||Crude prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.16|0.37|
92243448|NCT01290445|184389888|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.37|1.16||||||Adjusted prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.16|0.37|
92243449|NCT03583372|184389904|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-2.4|||||TWO_SIDED|95.0|-2.9|-2.0||||||||-2.0|-2.9|
92243450|NCT03583372|184389904|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-2.0|||||TWO_SIDED|95.0|-2.5|-1.5||||||||-1.5|-2.5|
92243451|NCT03583372|184389905|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-2.2|||||TWO_SIDED|95.0|-2.5|-1.9||||||||-1.9|-2.5|
92243452|NCT03583372|184389905|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-1.7|||||TWO_SIDED|95.0|-2.0|-1.3||||||||-1.3|-2.0|
92243453|NCT03583372|184389906|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-3.4|||||TWO_SIDED|95.0|-4.0|-2.7||||||||-2.7|-4.0|
92243454|NCT03583372|184389906|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-3.2|||||TWO_SIDED|95.0|-4.0|-2.5||||||||-2.5|-4.0|
92243455|NCT03583372|184389907|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-2.5|||||TWO_SIDED|95.0|-2.8|-2.2||||||||-2.2|-2.8|
92243456|NCT03583372|184389907|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-1.9|||||TWO_SIDED|95.0|-2.3|-1.6||||||||-1.6|-2.3|
92243457|NCT05439460|184389928|OTHER|||||||0.9|||||||t-test, 2 sided|||Change in phenylephrine group||||0.9
92173952|NCT03241459|184239457|NON_INFERIORITY|15.0% is the absolute noninferiority margin (50% of the difference in primary patency rate between IN.PACT Admiral DCB and PTA).|Difference in percentage|-3.7||||0.0029|ONE_SIDED|97.5|-11.7|||P-value is derived from one-sided Farrington-Manning test with noninferiority margin of 15% and a one-sided significance level of 0.025.|Farrington-Manning test||For subjects missing primary effectiveness endpoint status, a logistic regression model was used for multiple imputation with pre-specified baseline variables as model predictors.|The SurVeil DCB will be declared noninferior to IN.PACT Admiral DCB with respect to efficacy endpoint if the null hypothesis of inferiority is rejected at a one-sided significance level of 0.025.|||-11.7|0.0029
92173953|NCT03241459|184239458|NON_INFERIORITY|10.0% is the absolute noninferiority margin (50% of the difference in primary safety endpoint rate between IN.PACT Admiral DCB and PTA).|Difference in percentage|2.0|||<|0.0001|ONE_SIDED|97.5|-4.1|||P-value is derived from one-sided Farrington-Manning test with noninferiority margin of 10% and a one-sided significance level of 0.025.|Farrington-Manning test||For subjects missing primary safety endpoint status, a logistic regression model was used for multiple imputation with pre-specified baseline variables as model predictors.|The SurVeil DCB will be declared noninferior to IN.PACT Admiral DCB with respect to safety endpoint if the null hypothesis of inferiority is rejected at a one-sided significance level of 0.025.|||-4.1|<.0001
92243458|NCT05439460|184389928|OTHER|||||||0.3||||||A p-value of \<0.05 would be considered statistically significant.|t-test, 2 sided|||Change in arginine vasopressin group||||0.3
92243459|NCT05439460|184389928|OTHER|||||||1||||||A p-value of \<0.05 would be considered statistically significant.|t-test, 2 sided|||Change in epinephrine group||||1
92243460|NCT03446651|184389929|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||||||0.56
92243461|NCT03446651|184389931|SUPERIORITY|||||||0.039|||||||t-test, 2 sided|||||||0.039
92243462|NCT03446651|184389933|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92243463|NCT03446651|184389934|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92243464|NCT00960934|184389957|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.56||||0.749|TWO_SIDED|95.0|-1.04|2.16||The Type-I error rate over the multiple treatment dose comparisons for the areal BMD at lumbar spine endpoint were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.16|-1.04|0.749
92456582|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=9. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456583|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=8. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456584|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=7. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456585|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=6. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92243465|NCT00960934|184389957|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|1.12||||0.333|TWO_SIDED|95.0|-0.6|2.83||The Type-I error rate over the multiple treatment dose comparisons for the areal BMD at lumbar spine endpoint were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.83|-0.60|0.333
92243466|NCT00960934|184389957|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.35||||0.823|TWO_SIDED|95.0|-1.14|1.84||The Type-I error rate over the multiple treatment dose comparisons for the areal BMD at lumbar spine endpoint were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.84|-1.14|0.823
92243467|NCT00960934|184389957|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.93||||0.457|TWO_SIDED|95.0|-0.75|2.61||The Type-I error rate over the multiple treatment dose comparisons for the areal BMD at lumbar spine endpoint were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.61|-0.75|0.457
92243468|NCT00960934|184389957|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.16||||0.823|TWO_SIDED|95.0|-1.17|1.5||The Type-I error rate over the multiple treatment dose comparisons for the areal BMD at lumbar spine endpoint were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.50|-1.17|0.823
92281398|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.048|STANDARD_ERROR_OF_MEAN|0.16||0.7633|TWO_SIDED|95.0|-0.366|0.269|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Memory||0.269|-0.366|0.7633
92243469|NCT00960934|184389958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.8|||<|0.001||95.0|56.5|80.0|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||80.0|56.5|<0.001
92243470|NCT00960934|184389958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.1|||<|0.001|TWO_SIDED|95.0|39.6|65.2|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||65.2|39.6|<0.001
92243471|NCT00960934|184389958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.6|||<|0.001|TWO_SIDED|95.0|17.6|42.4|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||42.4|17.6|<0.001
92243472|NCT00960934|184389958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.1|||<|0.001|TWO_SIDED|95.0|17.0|42.0|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||42.0|17.0|<0.001
92243473|NCT00960934|184389958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6||||0.254|TWO_SIDED|95.0|-4.1|14.4|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||14.4|-4.1|0.254
92243474|NCT00960934|184389959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.6|||<|0.001|TWO_SIDED|95.0|34.9|60.0|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||60.0|34.9|<0.001
92243475|NCT00960934|184389959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.9|||<|0.001|TWO_SIDED|95.0|24.1|48.5|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||48.5|24.1|<0.001
92243476|NCT00960934|184389959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.2||||0.001|TWO_SIDED|95.0|7.7|28.7|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||28.7|7.7|0.001
92243477|NCT00960934|184389959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1||||0.05|TWO_SIDED|95.0|0.0|18.2|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||18.2|-0.0|0.050
92243478|NCT00960934|184389959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.313|TWO_SIDED|95.0|-8.5|4.2|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||4.2|-8.5|0.313
92281399|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.198|STANDARD_ERROR_OF_MEAN|0.15||0.1968|TWO_SIDED|95.0|-0.502|0.105|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Walking Balance||0.105|-0.502|0.1968
92243479|NCT00960934|184389960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||>|0.999|TWO_SIDED|95.0|-5.8|5.8|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||5.8|-5.8|>0.999
92243480|NCT00960934|184389960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||>|0.999|TWO_SIDED|95.0|-5.8|5.7|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||5.7|-5.8|>0.999
92243481|NCT00960934|184389960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||>|0.999|TWO_SIDED|95.0|-5.8|5.7|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||5.7|-5.8|>0.999
92243482|NCT00960934|184389960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.313|TWO_SIDED|95.0|-4.2|8.6|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||8.6|-4.2|0.313
92243483|NCT00960934|184389960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.321|TWO_SIDED|95.0|-4.3|8.4|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||8.4|-4.3|0.321
92243484|NCT00960934|184389962|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.24||||0.959|TWO_SIDED|95.0|-1.03|1.51||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.51|-1.03|0.959
92243485|NCT00960934|184389962|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.02||||0.971|TWO_SIDED|95.0|-1.08|1.04||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.04|-1.08|0.971
92243486|NCT00960934|184389962|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.24||||0.959|TWO_SIDED|95.0|-0.95|1.42||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.42|-0.95|0.959
92243487|NCT00960934|184389962|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.41||||0.915|TWO_SIDED|95.0|-1.78|0.97||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.97|-1.78|0.915
92173954|NCT03241459|184239459|SUPERIORITY|||||||0.579|TWO_SIDED|95.0||||P-value is derived from two-sided Fisher's exact test.|Fisher Exact|||The incidence estimates will be reported along with a p-value from a two-sided Fisher's exact test comparing the SurVeil and the IN.PACT Admiral groups.||||0.579
92243488|NCT00960934|184389962|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.28||||0.959|TWO_SIDED|95.0|-1.6|1.04||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.04|-1.60|0.959
92243489|NCT00960934|184389963|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.58||||0.849|TWO_SIDED|95.0|-1.22|2.37||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.37|-1.22|0.849
92243490|NCT00960934|184389963|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.16||||0.964|TWO_SIDED|95.0|-1.79|1.47||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.47|-1.79|0.964
92243491|NCT00960934|184389963|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.16||||0.964|TWO_SIDED|95.0|-1.27|1.59||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.59|-1.27|0.964
92243492|NCT00960934|184389963|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.48||||0.855|TWO_SIDED|95.0|-2.23|1.27||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.27|-2.23|0.855
92243493|NCT00960934|184389963|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|1.27||||0.287|TWO_SIDED|95.0|-0.58|3.12||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||3.12|-0.58|0.287
92456586|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=5. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456587|NCT00833638|184802553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=4. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456588|NCT00833638|184802553|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for day \<=3. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.003
92456589|NCT00833638|184802553|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value for day \<=2. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.008
92456590|NCT00833638|184802553|SUPERIORITY_OR_OTHER|||||||0.246||95.0||||P-value for day \<=1. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.246
92456591|NCT00833638|184802554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.05|||<|0.001||95.0|||||t-test, 2 sided||the estimated mean difference shows changes in the double-blind treatment phase minus changes in the open label treatment phase|"Tested was the null-hypothesis that no differences in the proportion of successful intercourse attempts exist in patients who received placebo in the double-blind treatment period when comparing their proportion of succesful intercourse attempts between the double-blind treatment period (while receiving placebo) and the open-label treatment period (while receiving tadalafil 5 mg), measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456592|NCT00833638|184802555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.22|||<|0.001||95.0|||||t-test, 2 sided||the estimated mean difference shows changes in the double-blind treatment phase minus changes in the open label treatment phase|"Tested was the null-hypothesis that no differences in the proportion of successful intercourse attempts exist in patients who received tadalafil 2.5 mg in the double-blind treatment period when comparing their proportion of succesful intercourse attempts between the double-blind treatment period (while receiving tadalafil 2.5 mg) and the open-label treatment period (while receiving tadalafil 5 mg), measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92456593|NCT00833638|184802556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.16|||<|0.001||95.0|||||t-test, 2 sided||the estimated mean difference shows changes in the double-blind treatment phase minus changes in the open label treatment phase|"Tested was the null-hypothesis that no differences in the proportion of successful intercourse attempts exist in patients who received tadalfil 5 mg in the double-blind treatment period when comparing their proportion of succesful intercourse attempts between the double-blind treatment period (while receiving tadalafil 5 mg) and the open-label treatment period (while receiving tadalafil 5 mg), measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92281400|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.12||0.6891|TWO_SIDED|95.0|-0.296|0.197|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Interest in Activities||0.197|-0.296|0.6891
92281401|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.171|STANDARD_ERROR_OF_MEAN|0.14||0.2229|TWO_SIDED|95.0|-0.447|0.106|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Coordination||0.106|-0.447|0.2229
92456594|NCT00833638|184802557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.11|||<|0.001||95.0|||||t-test, 2 sided||the estimated mean difference shows changes in the double-blind treatment phase minus changes in the open label treatment phase|"Tested was the null-hypothesis that no differences in the percentages of successful intercourse attempts exist in participants who received tadalafil 2.5 mg in the double-blind treatment period and did not respond to treatment when comparing their percentage of succesful intercourse attempts between the double-blind treatment period and the open-label treatment period (while receiving tadalafil 5 mg), measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
92281402|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.072|STANDARD_ERROR_OF_MEAN|0.06||0.2591|TWO_SIDED|95.0|-0.197|0.054|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Tremor||0.054|-0.197|0.2591
92456595|NCT01420848|184802576|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||It was used the Post Hoc and the statistical significance was p\<0.05.|ANOVA|||It was carried out the analysis of variance (ANOVA) among the groups at the 3rd (12 sessions) Hypothesis: there is at least one difference among the groups.||||0.006
92456596|NCT01420848|184802576|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||The statistical significance was p\<0.05.|ANOVA|||"It was verified the normality of data distribution and the homogeneity of variance.~It was carried out the analysis of variance (ANOVA) among the groups at the follow-up (after 15 days)."||||0.023
92456597|NCT01420848|184802577|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||After ANOVA it was performed Post Hoc Test and the statistical significance was p\<0.05.|ANOVA|||It was carried out the analysis of variance (ANOVA)of the medium difference among the groups in the 3rd (12 sessions) Hypothesis: there is at least one difference among the groups (State Anxiety)||||0.012
92173955|NCT03241459|184239460|SUPERIORITY|||||||1||||||Both arms demonstrated 100% success, therefore, Fisher's exact test does not provide a p-value, but we populated it with a p-value of 1.00 to indicate no difference between arms.|Fisher Exact|||The incidence estimates will be reported along with a two-sided Fisher's exact test comparing the SurVeil and the IN.PACT Admiral groups.||||1.00
92173956|NCT03241459|184239461|SUPERIORITY|||||||1||||||P-value is derived from two-sided Fisher's exact test.|Fisher Exact|||The incidence estimates will be reported along with a two-sided Fisher's exact test comparing the SurVeil and the IN.PACT Admiral groups.||||1.000
92173957|NCT03241459|184239462|SUPERIORITY|||||||0.494||||||P-value is derived from two-sided Fisher's exact test.|Fisher Exact|||||||0.494
92456598|NCT01420848|184802577|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||After ANOVA, the Post Hoc Test was done and the statistical significance was p\<0.05.|ANOVA|||"It was carried out the analysis of variance (ANOVA) of the medium difference among the groups at the follow-up (after 15 days).~Hypothesis: there is at least one difference among the groups (State Anxiety)."||||0.005
92456599|NCT03246347|184802628|SUPERIORITY||Proportion|0.6111|||<|0.001|TWO_SIDED|95.0|0.4346|0.7686|||One-sided test for binomial proportions|||The 12-month PSA CR rate with ADT + docetaxel is 27.7% (Sweeney 2015); we estimated that the lower limit of the 95% CI was 23.4%. We sought to test the null hypothesis that the 52-week PSA CR rate for subjects treated with study therapy was \<=25%. We anticipated enrolling 39 subjects and this design would provide 90% power with a 1-sided alpha =0.10 significance level, assuming the true 52-week PSA CR rate was 45%. An improvement from 25% to 45% in 52-week PSA CR rate was considered important.||.7686|.4346|<0.001
92456600|NCT02255435|184802641|SUPERIORITY||LS Mean difference (Net)|0.1||||0.1524|TWO_SIDED|95.0|-0.04|0.23|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.23|-0.04|0.1524
92456601|NCT02255435|184802641|SUPERIORITY||LS Mean difference (Net)|0.03||||0.7086|TWO_SIDED|95.0|-0.11|0.16|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.16|-0.11|0.7086
92456602|NCT02255435|184802641|SUPERIORITY||LS Mean difference (Net)|-0.13||||0.0651|TWO_SIDED|95.0|-0.26|0.01|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.01|-0.26|0.0651
92456603|NCT02255435|184802641|SUPERIORITY||LS Mean difference (Net)|0.02||||0.7937|TWO_SIDED|95.0|-0.12|0.15|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.15|-0.12|0.7937
92456604|NCT02255435|184802641|SUPERIORITY||LS Mean difference (Net)|-0.04||||0.5587|TWO_SIDED|95.0|-0.18|0.1|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.10|-0.18|0.5587
92456605|NCT02255435|184802641|SUPERIORITY||LS Mean difference (Net)|-0.02||||0.7285|TWO_SIDED|95.0|-0.13|0.09|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.09|-0.13|0.7285
92456606|NCT02255435|184802641|SUPERIORITY||LS Mean difference (Net)|0.03||||0.5802|TWO_SIDED|95.0|-0.09|0.15|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.15|-0.09|0.5802
92456607|NCT02255435|184802641|SUPERIORITY||LS Mean difference (Net)|0.0||||0.9698|TWO_SIDED|95.0|-0.08|0.08|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|Comparison of Omaveloxolone capsules pooled with Placebo capsules||0.08|-0.08|0.9698
92456608|NCT02255435|184802642|SUPERIORITY||LS Mean difference (Net)|-2.4|STANDARD_ERROR_OF_MEAN|0.956||0.0141|TWO_SIDED|95.0|-4.31|-0.5|||Mixed Models Analysis|Fixed factors: treatment group, time, interaction between treatment and time, interaction between baseline and time; covariates: site, baseline mFARS|Difference is omaveloxolone - placebo.|||-0.50|-4.31|0.0141
92456609|NCT02255435|184802643|SUPERIORITY||LS Mean difference (Net)|-1.81||||0.231|TWO_SIDED|95.0|-4.8|1.18|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||1.18|-4.80|0.2310
92456610|NCT02255435|184802643|SUPERIORITY||LS Mean difference (Net)|-0.52||||0.7298|TWO_SIDED|95.0|-3.51|2.47|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||2.47|-3.51|0.7298
92456611|NCT02255435|184802643|SUPERIORITY||LS Mean difference (Net)|-0.99||||0.5102|TWO_SIDED|95.0|-3.99|2.0|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||2.00|-3.99|0.5102
92456612|NCT02255435|184802643|SUPERIORITY||LS Mean difference (Net)|-0.95||||0.5281|TWO_SIDED|95.0|-3.94|2.04|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||2.04|-3.94|0.5281
92456613|NCT02255435|184802643|SUPERIORITY||LS Mean difference (Net)|-1.42||||0.3458|TWO_SIDED|95.0|-4.42|1.57|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||1.57|-4.42|0.3458
92456614|NCT02255435|184802643|SUPERIORITY||LS Mean difference (Net)|-2.3||||0.0587|TWO_SIDED|95.0|-4.68|0.09|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||0.09|-4.68|0.0587
92456615|NCT02255435|184802643|SUPERIORITY||LS Mean difference (Net)|0.58||||0.648|TWO_SIDED|95.0|-1.94|3.1|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||3.10|-1.94|0.6480
92456616|NCT02255435|184802643|SUPERIORITY||LS Mean difference (Net)|-1.1||||0.2174|TWO_SIDED|95.0|-2.87|0.66|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|Comparison of Omaveloxolone capsules pooled with Placebo capsules||0.66|-2.87|0.2174
92456617|NCT04165317|184802657|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0095|TWO_SIDED|95.0|0.489|0.941|||Log Rank|1- sided p-value|Hazard ratio was based on Cox proportional hazards model.|||0.941|0.489|0.0095
92456618|NCT04165317|184802658|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.8439|TWO_SIDED|95.0|0.87|1.552|||Log Rank|1 - sided p-value|Hazard ratio was based on Cox proportional hazards model.|||1.552|0.870|0.8439
92456619|NCT03377491|184802687|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.039|TWO_SIDED|95.0|0.68|0.99|||Log Rank|||||0.99|0.68|0.039
92456620|NCT03377491|184802688|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.137|TWO_SIDED|95.0|0.68|1.05|||Log Rank|||||1.05|0.68|0.137
92456621|NCT03377491|184802689|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.151|TWO_SIDED|95.0|0.67|1.06|||Log Rank|||||1.06|0.67|0.151
92456622|NCT03377491|184802690|SUPERIORITY|||||||0.094|||||||t-test, 1 sided|||||||0.094
92456623|NCT03377491|184802691|SUPERIORITY|||||||0.029|||||||t-test, 1 sided|||||||0.029
92456624|NCT03377491|184802694|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.128|TWO_SIDED|95.0|0.57|1.08|||Log Rank|||||1.08|0.57|0.128
92456625|NCT03377491|184802695|SUPERIORITY|||||||0.9311|||||||t-test, 1 sided|||||||0.9311
92456626|NCT02878850|184802696|SUPERIORITY||Mean Difference (Final Values)|2.95||||0.55|TWO_SIDED|95.0|-6.85|12.75|||t-test, 2 sided|||||12.75|-6.85|0.55
92456627|NCT02878850|184802697|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.92|TWO_SIDED|95.0|-12.48|11.21|||ANCOVA|||||11.21|-12.48|0.92
92456628|NCT02878850|184802698|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.75|TWO_SIDED|95.0|-1.83|2.53|||ANCOVA|||||2.53|-1.83|0.75
92456629|NCT02878850|184802699|SUPERIORITY||Mean Difference (Final Values)|1.94||||0.4|TWO_SIDED|95.0|-2.64|6.53|||ANCOVA|||||6.53|-2.64|0.40
92456630|NCT02878850|184802700|SUPERIORITY||Risk Ratio (RR)|2.0|||<|0.001||95.0|1.36|2.94|||Chi-squared|||||2.94|1.36|<0.001
92456631|NCT02878850|184802701|SUPERIORITY||Risk Ratio (RR)|1.08||||0.87|TWO_SIDED|95.0|0.44|3.65|||Chi-squared|||||3.65|0.44|0.87
92456632|NCT02878850|184802702|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.08|TWO_SIDED|95.0|-0.08|1.32|||ANCOVA|||||1.32|-0.08|0.08
92456633|NCT02878850|184802703|SUPERIORITY||Mean Difference (Final Values)|-5.73||||0.35|TWO_SIDED|95.0|-16.84|6.1|||t-test, 2 sided|||||6.10|-16.84|0.35
92456634|NCT02878850|184802704|SUPERIORITY||Mean Difference (Final Values)|-35.37||||0.04|TWO_SIDED|95.0|-68.87|-1.87|||t-test, 2 sided|||||-1.87|-68.87|0.04
92456635|NCT04231669|184802714|SUPERIORITY|||||||0.05|||||||Linear Mixed-effects regression|||||||0.05
92456636|NCT03289039|184802761|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.98|TWO_SIDED|95.0|0.27|4.12|||Log Rank|||||4.12|0.27|0.98
92456637|NCT03289039|184802762|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.89|TWO_SIDED|95.0|0.24|2.81|||Log Rank|||||2.81|0.24|0.89
92456638|NCT03563716|184802774|SUPERIORITY||Odds Ratio (OR)|2.57|||||TWO_SIDED|95.0|1.07|6.14|||||95% CI for odds ratio was constructed using the Wald method.|Stratified analysis based on PD-L1 immunohistochemistry (IHC) 22C3 pharmDx, tumor histology status, and tobacco history.||6.14|1.07|
92456639|NCT03563716|184802775|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.37|0.9|||||Hazard ratios were estimated by Cox regression.|Stratified analysis based on PD-L1 IHC 22C3 pharmDx, tumor histology status, and tobacco history.||0.90|0.37|
92456640|NCT06492226|184802799|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the primary PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|101.024|||||TWO_SIDED|95.0|98.754|103.346||||||||103.346|98.754|
92456641|NCT06492226|184802799|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the primary PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|100.682|||||TWO_SIDED|90.0|98.567|102.843||||||||102.843|98.567|
92456642|NCT06492226|184802800|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the primary PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|104.931|||||TWO_SIDED|95.0|99.63|110.514||||||||110.514|99.630|
92456643|NCT06492226|184802800|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the primary PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|105.0|||||TWO_SIDED|90.0|100.827|109.345||||||||109.345|100.827|
92456644|NCT06492226|184802801|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the primary PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|102.851|||||TWO_SIDED|95.0|96.749|109.339||||||||109.339|96.749|
92456645|NCT06492226|184802801|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the primary PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|102.006|||||TWO_SIDED|90.0|97.308|106.93||||||||106.930|97.308|
92456646|NCT06492226|184802802|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the primary PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|100.685|||||TWO_SIDED|95.0|94.956|106.76||||||||106.760|94.956|
92456647|NCT06492226|184802802|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the primary PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|97.98|||||TWO_SIDED|90.0|92.554|103.723||||||||103.723|92.554|
92456648|NCT06492226|184802803|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|102.014|||||TWO_SIDED|95.0|99.09|105.025||||||PK parameters for serum insulin aspart concentrations: Area Under the Insulin Aspart Concentration-Time Curve (AUC0)-4h||105.025|99.090|
92456649|NCT06492226|184802803|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|101.419|||||TWO_SIDED|90.0|99.062|103.833||||||PK parameters for serum insulin aspart concentrations: Area Under the Insulin Aspart Concentration-Time Curve (AUC0)-4h||103.833|99.062|
92456650|NCT06492226|184802803|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|100.929|||||TWO_SIDED|95.0|98.393|103.529||||||PK parameters for serum insulin aspart concentrations: Area Under the Insulin Aspart Concentration-Time Curve AUC0-6h||103.529|98.393|
92456651|NCT06492226|184802803|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|100.127|||||TWO_SIDED|90.0|98.08|102.217||||||PK parameters for serum insulin aspart concentrations: Area Under the Insulin Aspart Concentration-Time Curve AUC0-6h||102.217|98.080|
92456652|NCT06492226|184802803|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|101.024|||||TWO_SIDED|95.0|98.754|103.346||||||PK parameters for serum insulin aspart concentrations: Area Under the Insulin Aspart Concentration-Time Curve AUC0-12h||103.346|98.754|
92456653|NCT06492226|184802803|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|100.682|||||TWO_SIDED|90.0|98.567|102.843||||||PK parameters for serum insulin aspart concentrations: Area Under the Insulin Aspart Concentration-Time Curve AUC0-12h||102.843|98.567|
92456654|NCT06492226|184802803|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|98.881|||||TWO_SIDED|95.0|96.4|101.426||||||PK parameters for serum insulin aspart concentrations: Area Under the Insulin Aspart Concentration-Time Curve AUC0-∞||101.426|96.400|
92456655|NCT06492226|184802803|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|97.023|||||TWO_SIDED|90.0|94.863|99.232||||||PK parameters for serum insulin aspart concentrations: Area Under the Insulin Aspart Concentration-Time Curve AUC0-∞||99.232|94.863|
92456656|NCT06492226|184802804|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|89.656|||||TWO_SIDED|95.0|84.557|95.064||||||||95.064|84.557|
92243494|NCT00960934|184389964|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.6||||0.933|TWO_SIDED|95.0|-1.56|2.77||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.77|-1.56|0.933
92456657|NCT06492226|184802804|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|82.086|||||TWO_SIDED|90.0|76.699|87.851||||||||87.851|76.699|
92456658|NCT06492226|184802805|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|94.9|||||TWO_SIDED|95.0|89.997|100.07||||||||100.070|89.997|
92456659|NCT06492226|184802805|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|90.601|||||TWO_SIDED|90.0|86.356|95.054||||||||95.054|86.356|
92243495|NCT00960934|184389964|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.01||||0.999|TWO_SIDED|95.0|-1.69|1.68||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.68|-1.69|0.999
92243496|NCT00960934|184389964|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.05||||0.999|TWO_SIDED|95.0|-1.84|1.93||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.93|-1.84|0.999
92243497|NCT00960934|184389964|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.45||||0.959|TWO_SIDED|95.0|-1.67|2.57||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.57|-1.67|0.959
92182974|NCT02434328|184264731|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-4.5|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.6|-4.5|
92456660|NCT06492226|184802806|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|95.232|||||TWO_SIDED|95.0|88.411|102.58||||||||102.580|88.411|
92456661|NCT06492226|184802806|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products in relation to the conventional bioequivalence range of 80% to 125%.|Geometric Mean Ratio|91.3|||||TWO_SIDED|90.0|83.291|100.079||||||||100.079|83.291|
92456662|NCT06492226|184802807|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 95% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products.|Geometric Mean Ratio|83.687|||||TWO_SIDED|95.0|76.783|91.213||||||||91.213|76.783|
92456663|NCT06492226|184802807|EQUIVALENCE|Biosimilarity of the test and reference products was assessed on the basis of the 90% CIs for estimates of the geometric mean ratios between the PK parameters of the test and reference products.|Geometric Mean Ratio|76.497|||||TWO_SIDED|90.0|69.75|83.897||||||||83.897|69.750|
92456664|NCT05016960|184802817|OTHER|one group paired samples t test to compare scores at pre vs. post treatment||||||0.503|||||||t-test, 2 sided|||||||.503
92456665|NCT05016960|184802818|NON_INFERIORITY|one group paired samples t test||||||0.23|||||||t-test, 2 sided|||||||.230
92456666|NCT05016960|184802819|OTHER|one group paired samples t test||||||0.061|||||||t-test, 2 sided|||||||.061
92456667|NCT05016960|184802820|OTHER|one group paired samples t test|||||<|0.001|||||||t-test, 2 sided|||||||<.001
92456668|NCT05016960|184802821|OTHER|one group paired samples t test||||||0.01|||||||t-test, 2 sided|||||||.01
92456669|NCT05016960|184802822|OTHER|one group paired samples t test||||||0.625|||||||t-test, 2 sided|||||||.625
92456670|NCT05016960|184802823|OTHER|one group paired samples t test||||||0.134|||||||t-test, 2 sided|||||||.134
92456671|NCT05016960|184802824|OTHER|one group paired samples t test||||||0.515|||||||t-test, 2 sided|||||||.515
92456672|NCT05016960|184802825|OTHER|one group paired samples t test||||||0.41|||||||t-test, 2 sided|||||||.410
92456673|NCT05016960|184802826|OTHER|one group paired samples t test||||||0.706|||||||t-test, 2 sided|||||||.706
92456674|NCT05016960|184802827|OTHER|one group paired samples t test||||||0.062|||||||t-test, 2 sided|||||||.062
92173958|NCT03241459|184239463|NON_INFERIORITY|The Farrington and Manning test for noninferiority of proportions at a one-sided significance level of 0.025.|Difference in percentage|-1.9||||0.0059|ONE_SIDED|97.5|-12.1|||P-value is derived from one-sided Farrington-Manning test with noninferiority margin of 15% and a one-sided significance level of 0.025.|Farrington-Manning test|||The objective is to assess whether the primary patency rate of subjects in the SurVeil DCB group is noninferior to that of the IN.PACT Admiral DCB group:|||-12.1|0.0059
92456675|NCT05016960|184802828|OTHER|one group paired samples t test||||||0.39|||||||t-test, 2 sided|||||||.390
92456676|NCT05016960|184802829|OTHER|one group paired samples t test||||||0.38|||||||t-test, 2 sided|||||||.38
92456677|NCT05016960|184802830|OTHER|One group paired samples t test||||||0.064|||||||t-test, 2 sided|||||||.064
92456678|NCT06525727|184802880|OTHER||Sensitivity|97.96|||||TWO_SIDED|95.0|89.15|99.95|||Diagnostic accuracy|Diagnostic performance was analyzed in terms of sensitivity, specificity, NPV, PPV and likelihood ratios, all reported with 95% confidence interval||The primary objective of the study was to assess the external validation of the Falls Decision Rule. In this evaluation, patients were categorized into two groups based on the rule: those for whom a CT scan was recommended and those for whom it was not.||99.95|89.15|
92456679|NCT06525727|184802880|OTHER||Specificity|31.96|||||TWO_SIDED|95.0|28.63|35.42|||Diagnostic accuracy|||||35.42|28.63|
92456680|NCT06525727|184802880|OTHER||Negative predictive value|99.59|||||TWO_SIDED|95.0|97.17|99.94|||Diagnostic accuracy|||||99.94|97.17|
92456681|NCT06525727|184802880|OTHER||Positive predictive value|8.59|||||TWO_SIDED|95.0|8.1|9.1|||Diagnostic accuracy|||||9.1|8.1|
92456682|NCT06525727|184802880|OTHER||Negative likelihood ratio|0.06|||||TWO_SIDED|95.0|0.01|0.42|||Diagnostic accuracy|||||0.42|0.01|
92456683|NCT06525727|184802880|OTHER||Positive likelihood ratio|1.44|||||TWO_SIDED|95.0|1.35|1.53|||Diagnostic accuracy|||||1.53|1.35|
92456684|NCT06547814|184802925|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.79|1.35|||||The Standard implementation arm was the reference group.|||1.35|0.79|
92456685|NCT04673175|184802942|SUPERIORITY|||||||0.4|||||||Chi-squared|Two-sided Pearson chi-squared test comparing the prevalence of clinical success between arms.||Comparison of the proportion of participants with clinical success at Day 30 between the prospective ceftolozane-tazobactam arm and matched historical controls.||||0.40
92456686|NCT03361306|184802981|SUPERIORITY|Assuming the true VGPR+ rate is 40% under the null hypothesis, then this design will provide 90% power to detect a difference of 20% under the alternative hypothesis, assuming a one-sided alpha=0.10 significance level. For the originally planned enrollment of 40 subjects, if at least 21 subjects achieved VGPR or better to induction, the null hypothesis would be rejected.|Response Rate|0.467||||0.39|TWO_SIDED|95.0|0.213|0.734||This p-value is only based on partial enrollment on the study. As enrollment was halted early, this p-value is descriptive in nature and cannot determine the success/failure of the trial.|Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|||0.734|0.213|0.390
92456687|NCT05451017|184802988|EQUIVALENCE|Bioequivalence was declared if the 90% CI is included in between 0.8 and 1.25 range|Ratio of the geometric means|1.824||||0.0079|TWO_SIDED|90.0|1.321|2.518|||t-test, 2 sided|||||2.518|1.321|0.0079
92456688|NCT05451017|184802990|EQUIVALENCE|Bioequivalence was declared if the 90% CI is included in between 0.8 and 1.25 range|ratio of geometric means|1.786|||<|0.0001|TWO_SIDED|90.0|1.47|2.17|||t-test, 2 sided|||||2.170|1.470|<0.0001
92456689|NCT05451017|184802993|EQUIVALENCE|Bioequivalence was declared if the 90% CI is included in between 0.8 and 1.25 range|ratio of geometric means|1.681||||0.0002|TWO_SIDED|90.0|1.382|2.046|||t-test, 2 sided|||||2.046|1.382|0.0002
92456690|NCT04530552|184802996|OTHER||See above|0.895|||||TWO_SIDED|||||||||Posterior probability of observing a response rate ≥ 50%||||
92456691|NCT04530552|184802996|OTHER||See above|0.943|||||TWO_SIDED|||||||||Posterior probability of observing a response rate ≥ 25%||||
92456692|NCT04530552|184802997|OTHER|Two-sided paired t-test at 2.5% significance level (Bonferroni correction)||||||0.034||||||Two-sided paired t-test at 2.5% significance level (Bonferroni correction)|paired t-test|||||||0.034
92456693|NCT04530552|184802997|OTHER|||||||0.252||||||Two-sided paired t-test at 2.5% significance level (Bonferroni correction)|paired t-test|||||||0.252
92456694|NCT04530552|184802998|OTHER|||||||1||||||Significance level of 2.5% (Bonferroni correction)|Pearson correlation|||Correlation with % change PSA at end-of-intervention||||1.0
92456695|NCT04530552|184802998|OTHER|||||||1||||||Significance level of 2.5% (Bonferroni correction)|Pearson correlation|||Correlation with % change PSA at end-of-intervention||||1.0
92456696|NCT04530552|184802999|OTHER|||||||0.658||||||two-sided paired t-test (no Bonferroni adjustment)|paired t-test|||||||0.658
92456697|NCT04530552|184802999|OTHER|||||||0.167||||||Two-sided paired t-test (no Bonferroni adjustment)|paired t-test|||||||0.167
92456698|NCT04933474|184803046|OTHER|||||||0.088|||||||Chi-squared|||The primary outcome will be the baseline vs. week 8 difference-in-difference in 7-day average NRS pain intensity scores, dichotomized into if the MCID of 2 is achieved. The between arm difference of achieving the MCID of 2 will be tested using Chi-squared test.||||0.088
92456699|NCT04933474|184803047|OTHER|||||||0.103|||||||t-test, 2 sided|||A two-sample t-test will be used to compare differences-in-differences between the arms.||||0.103
92456700|NCT04933474|184803048|OTHER|||||||0.774|||||||t-test, 2 sided|||A two-sample t-test will be used to compare differences-in-differences between the arms.||||0.774
92456701|NCT04933474|184803049|OTHER|||||||0.005|||||||t-test, 2 sided|||A two-sample t-test will be used to compare differences-in-differences between the arms.||||0.005
92456702|NCT04933474|184803050|OTHER|||||||0.831|||||||t-test, 2 sided|||A two-sample t-test will be used to compare differences-in-differences between the arms.||||0.831
92456703|NCT04933474|184803051|OTHER||Common Odds Ratio|1.44||||0.031|TWO_SIDED|95.0|1.03|2.02||A two-sided test performed at the 0.05 level of significance without the continuity correction.|Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) test was used to compare the association between time (baseline and week 8) and opioid use (yes or no) while stratifying for the treatment groups. The null hypothesis is that the common odds ratio of the association between time and response across the treatment groups is equal to 1, versus the alternative hypothesis that the common odds ratio is not equal to 1.||2.02|1.03|0.031
92456704|NCT06269484|184803085|OTHER|No test was performed.|Risk Difference (RD)|0.0|||||TWO_SIDED|90.0|-0.24|0.24|||Proportions used for comparison|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.|Risk difference for proportions presented. The associated CI is the exact unconditional 90% (two-sided) computed based on score statistic.|||0.24|-0.24|
92456705|NCT06269484|184803085|OTHER|No test was performed.|Risk Difference (RD)|0.33|||||TWO_SIDED|90.0|0.09|0.55|||Proportions used for comparison|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.|Risk difference for proportions presented. The associated CI is the exact unconditional 90% (two-sided) computed based on score statistic.|||0.55|0.09|
92456706|NCT06269484|184803085|OTHER|No test was performed.|Risk Difference (RD)|0.33|||||TWO_SIDED|90.0|0.09|0.55|||Proportions used for comparison|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.|Risk difference for proportions presented. The associated CI is the exact unconditional 90% (two-sided) computed based on score statistic.|||0.55|0.09|
92456707|NCT06269484|184803086|OTHER|No test was performed.|Mean Difference (Net)|-1.72|||||TWO_SIDED|90.0|-2.82|-0.62|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||-0.62|-2.82|
92456708|NCT06269484|184803086|OTHER|No test was performed.|Mean Difference (Net)|-0.55|||||TWO_SIDED|90.0|-1.66|0.56|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||0.56|-1.66|
92456709|NCT06269484|184803086|OTHER|No test was performed.|Mean Difference (Net)|1.17|||||TWO_SIDED|90.0|0.09|2.25|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||2.25|0.09|
92456710|NCT06269484|184803087|OTHER|No test was performed.|Mean Difference (Net)|-1.45|||||TWO_SIDED|90.0|-2.48|-0.43|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||-0.43|-2.48|
92456711|NCT06269484|184803087|OTHER|No test was performed.|Mean Difference (Net)|-1.38|||||TWO_SIDED|90.0|-2.42|-0.34|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||-0.34|-2.42|
92456712|NCT06269484|184803087|OTHER|No test was performed.|Mean Difference (Net)|0.07|||||TWO_SIDED|90.0|-0.94|1.09|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||1.09|-0.94|
92456713|NCT06269484|184803088|OTHER|No test was performed.|Mean Difference (Net)|-0.3|||||TWO_SIDED|90.0|-1.1|0.49|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||0.49|-1.10|
92456714|NCT06269484|184803088|OTHER|No test was performed.|Mean Difference (Net)|0.72|||||TWO_SIDED|90.0|-0.09|1.52|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||1.52|-0.09|
92173959|NCT03241459|184239464|SUPERIORITY|Target Vessel Patency for SurVeil DCB vs. Target Vessel Patency for IN.PACT DCB at 12 months.||||||0.699||||||12-Month P-Value|Fisher Exact|||The main analysis of the secondary endpoints will be carried out using the ITT analysis set.||||0.699
92456715|NCT06269484|184803088|OTHER|No test was performed.|Mean Difference (Net)|1.02|||||TWO_SIDED|90.0|0.23|1.81|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||1.81|0.23|
92456716|NCT06269484|184803089|OTHER|No test was performed.|Mean Difference (Net)|0.0|||||TWO_SIDED|90.0|-0.4|0.39|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||0.39|-0.40|
92456717|NCT06269484|184803089|OTHER|No test was performed.|Mean Difference (Net)|0.53|||||TWO_SIDED|90.0|0.12|0.93|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||0.93|0.12|
92456718|NCT06269484|184803089|OTHER|No test was performed.|Mean Difference (Net)|0.53|||||TWO_SIDED|90.0|0.14|0.92|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||0.92|0.14|
92173960|NCT03241459|184239464|SUPERIORITY|Target Vessel Patency for SurVeil DCB vs. Target Vessel Patency for IN.PACT DCB at 24 months.||||||1||||||24-Month P-Value|Fisher Exact|||The main analysis of the secondary endpoints will be carried out using the ITT analysis set.||||1.0
92173961|NCT03241459|184239465|SUPERIORITY|||||||0.699|TWO_SIDED|95.0||||6-Month P-Value|Fisher Exact|||||||0.699
92173962|NCT03241459|184239465|SUPERIORITY|||||||0.447||||||12-Month P-Value|Fisher Exact|||||||0.447
92173963|NCT03241459|184239465|SUPERIORITY|||||||0.589||||||24-Month P-Value|Fisher Exact|||||||0.589
92173964|NCT03241459|184239466|SUPERIORITY|||||||1||||||P-Value at 6-Months|Fisher Exact|||||||1.0
92456719|NCT06269484|184803090|OTHER|No test was performed.|Mean Difference (Net)|-0.22|||||TWO_SIDED|90.0|-0.66|0.22|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||0.22|-0.66|
92456720|NCT06269484|184803090|OTHER|No test was performed.|Mean Difference (Net)|0.27|||||TWO_SIDED|90.0|-0.18|0.71|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||0.71|-0.18|
92456721|NCT06269484|184803090|OTHER|No test was performed.|Mean Difference (Net)|0.49|||||TWO_SIDED|90.0|0.05|0.92|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||0.92|0.05|
92456722|NCT06269484|184803091|OTHER|No test was performed.|Mean Difference (Net)|-1.775|||||TWO_SIDED|90.0|-2.836|-0.714|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||-0.714|-2.836|
92456723|NCT06269484|184803091|OTHER|No test was performed.|Mean Difference (Net)|-0.499|||||TWO_SIDED|90.0|-1.637|0.639|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||0.639|-1.637|
92456724|NCT06269484|184803091|OTHER|No test was performed.|Mean Difference (Net)|1.277|||||TWO_SIDED|90.0|0.183|2.371|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||2.371|0.183|
92456725|NCT06269484|184803092|OTHER|No test was performed.|Mean Difference (Net)|-5.058|||||TWO_SIDED|90.0|-9.7|-0.417|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.|Note: Model assumption was violated due to skewed data distribution and the results should not be interpreted.|||-0.417|-9.700|
92456726|NCT06269484|184803092|OTHER|No test was performed.|Mean Difference (Net)|-0.056|||||TWO_SIDED|90.0|-4.736|4.624|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.|Note: Model assumption was violated due to skewed data distribution and the results should not be interpreted.|||4.624|-4.736|
92456727|NCT06269484|184803092|OTHER|No test was performed.|Mean Difference (Net)|5.002|||||TWO_SIDED|90.0|0.388|9.617|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.|Note: Model assumption was violated due to skewed data distribution and the results should not be interpreted.|||9.617|0.388|
92243498|NCT00960934|184389964|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.08||||0.999|TWO_SIDED|95.0|-2.1|1.94||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.94|-2.10|0.999
92243499|NCT00960934|184389965|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.17||||0.976|TWO_SIDED|95.0|-1.12|0.77||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.77|-1.12|0.976
92456728|NCT06269484|184803093|OTHER|No test was performed.|Risk Difference (RD)|-0.08|||||TWO_SIDED|90.0|-0.31|0.15|||Proportions used for comparison|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.|Risk difference for proportions presented. The associated CI is the exact unconditional 90% (two-sided) computed based on score statistic.|||0.15|-0.31|
92456729|NCT06269484|184803093|OTHER|No test was performed.|Risk Difference (RD)|0.21|||||TWO_SIDED|90.0|0.02|0.41|||Proportions used for comparison|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.|Risk difference for proportions presented. The associated CI is the exact unconditional 90% (two-sided) computed based on score statistic.|||0.41|0.02|
92456730|NCT06269484|184803093|OTHER|No test was performed..|Risk Difference (RD)|0.29|||||TWO_SIDED|90.0|0.09|0.49|||Proportions used for comparison|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.|Risk difference for proportions presented. The associated CI is the exact unconditional 90% (two-sided) computed based on score statistic.|||0.49|0.09|
92456731|NCT06269484|184803094|OTHER|No test was performed.|Mean Difference (Net)|-9.4|||||TWO_SIDED|90.0|-15.0|-3.8|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||-3.8|-15.0|
92456732|NCT06269484|184803094|OTHER|No test was performed.|Mean Difference (Net)|-11.9|||||TWO_SIDED|90.0|-17.7|-6.1|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||-6.1|-17.7|
92456733|NCT06269484|184803094|OTHER|No test was performed.|Mean Difference (Net)|-2.5|||||TWO_SIDED|90.0|-8.1|3.0|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||3.0|-8.1|
92456734|NCT06269484|184803095|OTHER|No test was performed.|Mean Difference (Net)|-6.5|||||TWO_SIDED|90.0|-9.7|-3.4|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||-3.4|-9.7|
92173965|NCT03241459|184239466|SUPERIORITY|||||||0.823||||||P-Value at 12-Months|Fisher Exact|||||||0.823
92243500|NCT00960934|184389965|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.06||||0.982|TWO_SIDED|95.0|-0.93|0.8||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.80|-0.93|0.982
92456735|NCT06269484|184803095|OTHER|No test was performed.|Mean Difference (Net)|-10.8|||||TWO_SIDED|90.0|-14.1|-7.6|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||-7.6|-14.1|
92456736|NCT06269484|184803095|OTHER|No test was performed.|Mean Difference (Net)|-4.3|||||TWO_SIDED|90.0|-7.4|-1.1|||Mixed Models Analysis|Comparisons are done as Zibo adjusted Zibo/Dapa, Placebo adjusted Zibo/Dapa or Placebo adjusted Zibo.||||-1.1|-7.4|
92456737|NCT04706624|184803125|SUPERIORITY|||||||0.447||||||The threshold for statistical significance for all analyses was set to p = 0.05|Fisher Exact|||Baseline comparison||||0.447
92173966|NCT03241459|184239466|SUPERIORITY|||||||0.454||||||P-Value at 24-Months|Fisher Exact|||||||0.454
92173967|NCT03241459|184239467|SUPERIORITY|||||||0.535||||||P-Value at 6-Months|Fisher Exact|||||||0.535
92243501|NCT00960934|184389965|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.53||||0.489|TWO_SIDED|95.0|-0.43|1.49||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.49|-0.43|0.489
92243502|NCT00960934|184389965|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.02||||0.982|TWO_SIDED|95.0|-0.75|0.78||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.78|-0.75|0.982
92456738|NCT04706624|184803125|SUPERIORITY|||||||0.491||||||The threshold for statistical significance for all analyses was set to p = 0.05|Fisher Exact|||Week 24 comparison||||0.491
92456739|NCT04706624|184803126|SUPERIORITY|||||||0.6||||||The threshold for statistical significance for all analyses was set to p = 0.05|Fisher Exact|||Baseline comparison||||0.600
92456740|NCT04706624|184803126|SUPERIORITY|||||||0.495||||||The threshold for statistical significance for all analyses was set to p = 0.05|Fisher Exact|||Week 24 comparison||||0.495
92456741|NCT04706624|184803127|SUPERIORITY|||||||0.096||||||The threshold for statistical significance for all analyses was set to p = 0.05|Chi-squared|||Baseline comparison regarding sexual risk behaviors||||0.096
92456742|NCT04706624|184803127|SUPERIORITY|||||||0.098||||||The threshold for statistical significance for all analyses was set to p = 0.05|Fisher Exact|||Baseline comparison regarding HIV needle/syringe risk behaviors||||0.098
92456743|NCT04706624|184803127|SUPERIORITY|||||||0.974||||||The threshold for statistical significance for all analyses was set to p = 0.05|Chi-squared|||Week 24 comparison regarding sexual risk behaviors||||0.974
92456744|NCT04706624|184803127|SUPERIORITY|||||||0.464||||||The threshold for statistical significance for all analyses was set to p = 0.05|Fisher Exact|||Week 24 comparison regarding HIV needle/syringe risk behaviors||||0.464
92456745|NCT04706624|184803128|SUPERIORITY|||||||0.835||||||The threshold for statistical significance for all analyses was set to p = 0.05|Chi-squared|||Baseline comparison regarding sexual risk behaviors||||0.835
92456746|NCT04706624|184803128|SUPERIORITY|||||||0.61||||||The threshold for statistical significance for all analyses was set to p = 0.05|Fisher Exact|||Week 24 comparison regarding sexual risk behaviors||||0.610
92456747|NCT04706624|184803128|SUPERIORITY|||||||1||||||The threshold for statistical significance for all analyses was set to p = 0.05|Fisher Exact|||Baseline comparison regarding HIV needle/syringe risk behaviors||||1.000
92173968|NCT03241459|184239467|SUPERIORITY|||||||0.86||||||P-Value at 12-Months|Fisher Exact|||||||0.860
92173969|NCT03241459|184239467|SUPERIORITY|||||||0.39||||||P-Value at 24-Months|Fisher Exact|||||||0.390
92173970|NCT03241459|184239468|SUPERIORITY|||||||1||||||Both arms demonstrated 0 amputations at 6 months. Fisher's Exact test does not provide a p-value, but we populated it with a p-value of 1.00 to indicate no difference between arms.|Fisher Exact|||||||1.00
92173971|NCT03241459|184239468|SUPERIORITY|||||||1||||||Both arms demonstrated 0 amputations at 12 months. Fisher's Exact test does not provide a p-value, but we populated it with a p-value of 1.00 to indicate no difference between arms.|Fisher Exact|||||||1.00
92173972|NCT03241459|184239468|SUPERIORITY|||||||1||||||P-Value at 24-Months|Fisher Exact|||||||1.0
92173973|NCT03241459|184239469|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92173974|NCT03241459|184239469|SUPERIORITY|||||||0.472||||||P-Value at 24-Months|Fisher Exact|||||||0.472
92173975|NCT03241459|184239470|SUPERIORITY|||||||0.193||||||P-Value for change in Rutherford Classification from BL to 1-Month|Wilcoxon (Mann-Whitney)|||||||0.193
92173976|NCT03241459|184239470|SUPERIORITY|||||||0.14||||||P-Value for change in Rutherford Classification from BL to 6-Months|Wilcoxon (Mann-Whitney)|||||||0.140
92173977|NCT03241459|184239470|SUPERIORITY|||||||0.372||||||P-Value for change in Rutherford Classification from BL to 12-Months|Wilcoxon (Mann-Whitney)|||||||0.372
92173978|NCT03241459|184239470|SUPERIORITY|||||||0.104||||||P-Value for change in Rutherford Classification from BL to 24-Months|Wilcoxon (Mann-Whitney)|||||||0.104
92456748|NCT04706624|184803128|SUPERIORITY|||||||0.071||||||The threshold for statistical significance for all analyses was set to p = 0.05|Fisher Exact|||Week 24 comparison regarding HIV needle/syringe risk behaviors||||0.071
92456749|NCT04706624|184803129|SUPERIORITY||Odds Ratio (OR)|1.68||||0.021|TWO_SIDED|95.0|1.08|2.61|||Regression, Logistic|||Week 12 comparison||2.61|1.08|0.021
92456750|NCT04706624|184803129|SUPERIORITY||Odds Ratio (OR)|1.23||||0.404|TWO_SIDED|95.0|0.76|2.01|||Regression, Logistic|||Week 25 comparison||2.01|0.76|0.404
92456751|NCT04706624|184803130|SUPERIORITY||Odds Ratio (OR)|0.91||||0.737|TWO_SIDED|95.0|0.53|1.56|||Regression, Logistic|||||1.56|0.53|0.737
92456752|NCT04706624|184803131|SUPERIORITY|||||||0.361||||||The threshold for statistical significance for all analyses was set to p = 0.05|Fisher Exact|||Week 25 comparison; No test for baseline due to all adhering to ART||||0.361
92456753|NCT04706624|184803132|SUPERIORITY|||||||0.371|||||||Fisher Exact|||Baseline comparison||||0.371
92456754|NCT04706624|184803133|SUPERIORITY|||||||0.451|||||||Fisher Exact|||Week 12 comparison of groups on HIV testing||||0.451
92456755|NCT04706624|184803133|SUPERIORITY|||||||0.503|||||||Fisher Exact|||Week 24 comparison of groups on HIV testing||||0.503
92456756|NCT04706624|184803134|SUPERIORITY|||||||0.32|||||||Fisher Exact|||Week 12 comparison of groups on HIV testing||||0.320
92456757|NCT04706624|184803134|SUPERIORITY|||||||1|||||||Fisher Exact|All HIV-negative participants received HIV testing; therefore, no variability exists between groups for statistical comparison.||Week 24 comparison of groups on HIV testing.||||1.000
92456758|NCT04706624|184803135|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Week 12 comparison of groups on opioid overdose.||||>0.99
92456759|NCT04706624|184803135|SUPERIORITY|||||||1|||||||Fisher Exact|No test due to zero cell counts||Week 24 comparison of groups on opioid overdose.||||1.000
92456760|NCT04706624|184803136|SUPERIORITY|||||||0.166|||||||Fisher Exact|||Week 12 comparison of groups on opioid overdose.||||0.166
92456761|NCT04706624|184803136|SUPERIORITY|||||||1|||||||Fisher Exact|No test due to zero cell counts.||Week 24 comparison of groups on opioid overdose.||||1.000
92456762|NCT04706624|184803137|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Baseline comparison of groups on quality of life value.||||0.280
92456763|NCT04706624|184803137|SUPERIORITY|||||||0.812|||||||Wilcoxon (Mann-Whitney)|||Baseline comparison of groups on VAS score||||0.812
92456764|NCT04706624|184803137|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||Week 24 comparison of groups on quality of life value.||||0.021
92456765|NCT04706624|184803137|SUPERIORITY|||||||0.184|||||||Wilcoxon (Mann-Whitney)|||Week 24 comparison of groups on VAS score.||||0.184
92456766|NCT04706624|184803138|SUPERIORITY|"Predicted probabilities were estimated using the Stata command margins following melogit, and these probabilities were then expressed as expected percentages."|Odds Ratio (OR)|1.84||||0.001|TWO_SIDED|95.0|1.28|2.64|||Regression, Logistic|||Week 12 comparison||2.64|1.28|0.001
92456767|NCT04706624|184803138|SUPERIORITY||Odds Ratio (OR)|1.2||||0.001|TWO_SIDED|95.0|0.84|1.71|||Regression, Logistic|||Week 25 comparison||1.71|0.84|0.001
92456768|NCT04706624|184803139|SUPERIORITY||Odds Ratio (OR)|2.98||||0.006|TWO_SIDED|95.0|1.37|6.47|||Regression, Logistic|||||6.47|1.37|0.006
92456769|NCT04706624|184803140|SUPERIORITY|||||||0.284|||||||Kruskal-Wallis|||Baseline comparison of groups on quality of life value.||||0.284
92456770|NCT04706624|184803140|SUPERIORITY|||||||0.957|||||||Kruskal-Wallis|||Baseline comparison of groups on VAS score||||0.957
92456771|NCT04706624|184803140|SUPERIORITY|||||||0.842|||||||Kruskal-Wallis|||Week 24 comparison of groups on quality of life value||||0.842
92456772|NCT04706624|184803140|SUPERIORITY|||||||0.611|||||||Kruskal-Wallis|||Week 24 comparison of groups on VAS score||||0.611
92456773|NCT06507566|184803150|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology.|Correlation contingency coefficient|0.7|||||TWO_SIDED|||||||||||||
92456774|NCT06507566|184803151|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology.|Correlation Contingency Coefficient|0.68|||||TWO_SIDED|||||||||||||
92173979|NCT03241459|184239471|SUPERIORITY|||||||0.32||||||P-Value for change in PARC from BL to 1-Month|Wilcoxon (Mann-Whitney)|||||||0.320
92173980|NCT03241459|184239471|SUPERIORITY|||||||0.132||||||P-Value for change in PARC from BL to 6-Months|Wilcoxon (Mann-Whitney)|||||||0.132
92243503|NCT00960934|184389965|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.16||||0.976|TWO_SIDED|95.0|-0.76|1.08||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.08|-0.76|0.976
92243504|NCT00960934|184389966|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.35||||0.961|TWO_SIDED|95.0|-2.0|1.31||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.31|-2.00|0.961
92456775|NCT06507566|184803152|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.05|||||TWO_SIDED|||||||||||||
92456776|NCT06507566|184803152|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.59|||||TWO_SIDED|||||||||||||
92456777|NCT06507566|184803156|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|-0.05|||||TWO_SIDED|||||||||||||
92456778|NCT06507566|184803156|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.22|||||TWO_SIDED|||||||||||||
92456779|NCT06507566|184803157|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.54|||||TWO_SIDED|||||||||||||
92456780|NCT06507566|184803157|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.82|||||TWO_SIDED|||||||||||||
92173981|NCT03241459|184239471|SUPERIORITY|||||||0.248||||||P-Value for change in PARC from BL to 12-Months|Wilcoxon (Mann-Whitney)|||||||0.248
92173982|NCT03241459|184239471|SUPERIORITY|||||||0.194||||||P-Value for change in PARC from BL to 24-Months|Wilcoxon (Mann-Whitney)|||||||0.194
92243505|NCT00960934|184389966|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.28||||0.961|TWO_SIDED|95.0|-1.9|1.34||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.34|-1.90|0.961
92173983|NCT03241459|184239472|SUPERIORITY|||||||0.789||||||P-Value for Decrease in Resting Target Limb ABI ≥0.15: BL to 6-Months|Fisher Exact|||||||0.789
92173984|NCT03241459|184239472|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92243506|NCT00960934|184389966|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.66||||0.778|TWO_SIDED|95.0|-1.01|2.33||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.33|-1.01|0.778
92243507|NCT00960934|184389966|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.11||||0.961|TWO_SIDED|95.0|-1.45|1.24||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.24|-1.45|0.961
92173985|NCT03241459|184239472|SUPERIORITY|||||||0.041||||||P-Value for Decrease in Resting Target Limb ABI ≥0.15: BL to 12-Months.|Fisher Exact|||||||0.041
92173986|NCT03241459|184239472|SUPERIORITY|||||||1||||||P-Value for Decrease in Resting Target Limb TBI ≥0.15: BL to 12-Months.|Fisher Exact|||||||1.0
92173987|NCT03241459|184239472|SUPERIORITY|||||||0.401||||||P-Value for Decrease in Resting Target Limb ABI ≥0.15: BL to 24-Months.|Fisher Exact|||||||0.401
92173988|NCT03241459|184239472|SUPERIORITY|||||||1||||||P-Value for Decrease in Resting Target Limb TBI ≥0.15: BL to 24-Months.|Fisher Exact|||||||1.0
92173989|NCT03241459|184239473|OTHER|||||||0.995||||||P-value for change in WIQ from BL to 1-Month: Walking Impairment Score|Wilcoxon (Mann-Whitney)|||||||0.995
92173990|NCT03241459|184239473|SUPERIORITY|||||||0.158||||||P-value for change in WIQ from BL to 1-month: Walking distance score|Wilcoxon (Mann-Whitney)|||||||0.158
92173991|NCT03241459|184239473|SUPERIORITY|||||||0.695||||||P-value for change in WIQ from BL to 1-month: Walking speed score|Wilcoxon (Mann-Whitney)|||||||0.695
92173992|NCT03241459|184239473|SUPERIORITY|||||||0.086||||||P-value for change in WIQ from BL to 1-Month: Stair Climbing Score|Wilcoxon (Mann-Whitney)|||||||0.086
92173993|NCT03241459|184239473|SUPERIORITY|||||||0.331||||||P-value for change in WIQ from BL to 12-Months: Walking Impairment Score|Wilcoxon (Mann-Whitney)|||||||0.331
92173994|NCT03241459|184239473|SUPERIORITY|||||||0.58||||||P-value for change in WIQ from BL to 12-Months: Walking Distance Score|Wilcoxon (Mann-Whitney)|||||||0.580
92456781|NCT06507566|184803158|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.96|||||TWO_SIDED|||||||||||||
92456782|NCT06507566|184803158|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.99|||||TWO_SIDED|||||||||||||
92456783|NCT06507566|184803159|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.63|||||TWO_SIDED|||||||||||||
92456784|NCT06507566|184803159|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.95|||||TWO_SIDED|||||||||||||
92456785|NCT06507566|184803160|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.03|||||TWO_SIDED|||||||||||||
92456786|NCT06507566|184803160|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.95|||||TWO_SIDED|||||||||||||
92456787|NCT06507566|184803161|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.85|||||TWO_SIDED|||||||||||||
92456788|NCT06507566|184803161|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.97|||||TWO_SIDED|||||||||||||
92456789|NCT06507566|184803162|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|0.99|||||TWO_SIDED|||||||||||||
92456790|NCT06507566|184803162|OTHER|Pearson's correlation coefficient were computed to quantify the strength of the direction of the linear relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for SARS-CoV-2 serology. Contingency correlation coefficient was computed to estimate the extent of the relationship between the venipuncture collection and the Tasso+™ collection at Day 1 for each cohort for each chemistry analytes.|Correlation Contingency Coefficient|1.0|||||TWO_SIDED|||||||||||||
92456791|NCT06426927|184803226|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Post-video vs. Baseline||||<0.0001
92456792|NCT06426927|184803226|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Study Day 2: 30 +/- 7 days vs. Baseline||||<0.0001
92173995|NCT03241459|184239473|SUPERIORITY|||||||0.563||||||P-value for change in WIQ from BL to 12-Months: Walking Speed Score|Wilcoxon (Mann-Whitney)|||||||0.563
92173996|NCT03241459|184239473|SUPERIORITY|||||||0.27||||||P-value for change in WIQ from BL to 12-Months: Stair Climbing Score|Wilcoxon (Mann-Whitney)|||||||0.270
92173997|NCT03241459|184239473|SUPERIORITY|||||||0.869||||||P-value for change in WIQ from BL to 24-Months: Walking Impairment Score|Wilcoxon (Mann-Whitney)|||||||0.869
92173998|NCT03241459|184239473|SUPERIORITY|||||||0.837||||||P-value for change in WIQ from BL to 24-Months: Walking Distance Score|Wilcoxon (Mann-Whitney)|||||||0.837
92173999|NCT03241459|184239473|SUPERIORITY|||||||0.674||||||P-value for change in WIQ for BL to 24-Months: Walking Speed Score|Wilcoxon (Mann-Whitney)|||||||0.674
92174000|NCT03241459|184239473|SUPERIORITY|||||||0.563||||||P-value for change in WIQ for BL to 24-Months: Stair Climbing Score|Wilcoxon (Mann-Whitney)|||||||0.563
92174001|NCT03241459|184239474|SUPERIORITY|||||||0.237||||||P-value for change in 6MWT from BL to 12-Months|t-test, 2 sided|||||||0.237
92174002|NCT03241459|184239474|SUPERIORITY|||||||0.04||||||P-value for change in 6MWT from BL to 24-Months|t-test, 2 sided|||||||0.040
92174003|NCT03241459|184239475|SUPERIORITY|||||||0.772||||||P-value for change in PAQ from BL to 1-Month: Physical Function Score|Wilcoxon (Mann-Whitney)|||||||0.772
92456793|NCT06426927|184803227|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Post-video vs. Baseline||||<0.0001
92174004|NCT03241459|184239475|SUPERIORITY|||||||0.93||||||P-value for change in PAQ from BL to 1-Month: Stability Score|Wilcoxon (Mann-Whitney)|||||||0.930
92281403|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.057|STANDARD_ERROR_OF_MEAN|0.15||0.7099|TWO_SIDED|95.0|-0.359|0.246|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Concentration||0.246|-0.359|0.7099
92281404|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.031|STANDARD_ERROR_OF_MEAN|0.06||0.6215|TWO_SIDED|95.0|-0.154|0.092|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Speech||0.092|-0.154|0.6215
92174005|NCT03241459|184239475|SUPERIORITY|||||||0.546||||||P-value for change in PAQ from BL to 1-Month: Symptom Score|Wilcoxon (Mann-Whitney)|||||||0.546
92174006|NCT03241459|184239475|SUPERIORITY|||||||0.621||||||P-value for change in PAQ from BL to 1-Month: Treatment Satisfaction Score|Wilcoxon (Mann-Whitney)|||||||0.621
92174007|NCT03241459|184239475|SUPERIORITY|||||||0.133||||||P-value for change in PAQ from BL to 1-Month: Quality of Life Score|Wilcoxon (Mann-Whitney)|||||||0.133
92174008|NCT03241459|184239475|SUPERIORITY|||||||0.592||||||P-value for change in PAQ from BL to 1-Month: Social Limitation Score|Wilcoxon (Mann-Whitney)|||||||0.592
92456794|NCT06426927|184803227|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Study Day 2: 30 +/- 7 days vs. Baseline||||<0.0001
92456795|NCT06426927|184803228|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Post-video vs. Baseline||||<0.0001
92456796|NCT06426927|184803228|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Study Day 2: 30 +/- 7 days vs. Baseline||||<0.0001
92456797|NCT06426927|184803229|SUPERIORITY||Average Causal Mediated Effect (ACME)|0.01||||0.56|TWO_SIDED||||||Mixed Models Analysis|||Pre-video to post video, without covariates||||0.56
92456798|NCT05126082|184803280|SUPERIORITY||Adjusted OR|8.7|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom for fixed effects in the model take into account the cluster-randomized design.||Generalized linear mixed models (logit link and binomial error distribution) were used to test the effect of the intervention on blood pressure re-measurement. A planned contrast of the Low + High study arms vs. UC study arm was tested in a model that included pre-specified covariates and a random intercept for clinic. The test of the contrast was 2-sided with p\<0.05 considered statistically significant.||||<0.001
92456799|NCT05126082|184803280|SUPERIORITY||Adjusted OR|3.45|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom for fixed effects in the model take into account the cluster-randomized design.||Generalized linear mixed models (logit link and binomial error distribution) were used to test the effect of the intervention on blood pressure re-measurement. A planned contrast of the Low vs High study arms was tested in a model that included pre-specified covariates and a random intercept for clinic. The test of the contrast was 2-sided with p\<0.05 considered statistically significant.||||<0.001
92456800|NCT05126082|184803281|SUPERIORITY||Adjusted OR|2.94||||0.049|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom for fixed effects in the model take into account the cluster-randomized design.||Generalized linear mixed models (logit link and binomial error distribution) were used to test the effect of the intervention on hypertension recognition. A planned contrast of the Low + High study arms vs. UC study arm was tested in a model that included pre-specified covariates and a random intercept for clinic. The test of the contrast was 2-sided with p\<0.05 considered statistically significant.||||0.049
92456801|NCT05126082|184803281|SUPERIORITY||Adjusted OR|2.31||||0.03|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom for fixed effects in the model take into account the cluster-randomized design.||Generalized linear mixed models (logit link and binomial error distribution) were used to test the effect of the intervention on hypertension recogntion. A planned contrast of the Low vs High study arms was tested in a model that included pre-specified covariates and a random intercept for clinic. The test of the contrast was 2-sided with p\<0.05 considered statistically significant.||||0.03
92456802|NCT04566666|184803282|SUPERIORITY|||||||0.1011|||||||Cochran-Mantel-Haenszel|||||||0.1011
92456803|NCT04566666|184803282|SUPERIORITY|||||||0.2666|||||||Cochran-Mantel-Haenszel|||||||0.2666
92456804|NCT04566666|184803282|SUPERIORITY|||||||0.7394|||||||Cochran-Mantel-Haenszel|||||||0.7394
92456805|NCT04566666|184803283|SUPERIORITY|||||||0.1376|||||||Cochran-Mantel-Haenszel|||||||0.1376
92456806|NCT04566666|184803283|SUPERIORITY|||||||0.1254|||||||Cochran-Mantel-Haenszel|||||||0.1254
92456807|NCT04566666|184803283|SUPERIORITY|||||||0.2349|||||||Cochran-Mantel-Haenszel|||||||0.2349
92456808|NCT04566666|184803285|SUPERIORITY||Binomial proportion|0.0|||||TWO_SIDED|95.0|0.0|7.3||||||The data represents the Statistical Analysis for PASI 100||7.3|0.0|
92456809|NCT04566666|184803285|SUPERIORITY||binomial proportion|3.4|||||TWO_SIDED|95.0|0.4|11.7||||||The data represents the Statistical Analysis for PASI 100||11.7|0.4|
92456810|NCT04566666|184803285|SUPERIORITY||binomial proportion|1.8|||||TWO_SIDED|1.8|0.0|9.4||||||The data represents the Statistical Analysis for PASI 100||9.4|0.0|
92456811|NCT04566666|184803285|SUPERIORITY||binomial proportion|2.2|||||TWO_SIDED|95.0|0.1|11.5||||||The data represents the Statistical Analysis for PASI 100||11.5|0.1|
92456812|NCT04566666|184803285|SUPERIORITY||binomial proportion|46.9|||||TWO_SIDED|95.0|32.5|61.7||||||The data represents the Statistical Analysis for PASI 50||61.7|32.5|
92456813|NCT04566666|184803285|SUPERIORITY||binomial proportion|47.5|||||TWO_SIDED|95.0|34.3|60.9||||||The data represents the Statistical Analysis for PASI 50||60.9|34.3|
92456814|NCT04566666|184803285|SUPERIORITY||binomial proportion|56.1|||||TWO_SIDED|95.0|42.4|69.3||||||The data represents the Statistical Analysis for PASI 50||69.3|42.4|
92456815|NCT04566666|184803285|SUPERIORITY||binomial proportion|50.0|||||TWO_SIDED|95.0|34.9|65.1||||||The data represents the Statistical Analysis for PASI 50||65.1|34.9|
92456816|NCT04566666|184803285|SUPERIORITY||binomial proportion|14.3|||||TWO_SIDED|95.0|5.9|27.2||||||The data represents the Statistical Analysis for PASI 75||27.2|5.9|
92456817|NCT04566666|184803285|SUPERIORITY||binomial proportion|28.8|||||TWO_SIDED|95.0|17.8|42.1||||||The data represents the Statistical Analysis for PASI 75||42.1|17.8|
92456818|NCT04566666|184803285|SUPERIORITY||binomial proportion|26.3|||||TWO_SIDED|95.0|15.5|39.7||||||The data represents the Statistical Analysis for PASI 75||39.7|15.5|
92456819|NCT04566666|184803285|SUPERIORITY||binomial proportion|17.4|||||TWO_SIDED|95.0|7.8|31.4||||||The data represents the Statistical Analysis for PASI 75||31.4|7.8|
92456820|NCT04566666|184803285|SUPERIORITY||binomial proportion|0.0|||||TWO_SIDED|95.0|0.0|7.3||||||The data represents the Statistical Analysis for PASI 90||7.3|0.0|
92456821|NCT04566666|184803285|SUPERIORITY||binomial proportion|6.8|||||TWO_SIDED|95.0|1.9|16.5||||||The data represents the Statistical Analysis for PASI 90||16.5|1.9|
92456822|NCT04566666|184803285|SUPERIORITY||binomial proportion|7.0|||||TWO_SIDED|95.0|1.9|17.0||||||The data represents the Statistical Analysis for PASI 90||17.0|1.9|
92456823|NCT04566666|184803285|SUPERIORITY||binomial proportion|2.2|||||TWO_SIDED|95.0|0.1|11.5||||||The data represents the Statistical Analysis for PASI 90||11.5|0.1|
92456824|NCT03841357|184803300|SUPERIORITY||Relative Risk|0.929|STANDARD_ERROR_OF_MEAN|0.22||0.7357|TWO_SIDED|95.0|0.603|1.429|||Cochran-Mantel-Haenszel|||The null hypothesis was the proportions of the patients with composite of primary endpoints were the same between two groups.||1.429|0.603|0.7357
92456825|NCT03841357|184803300|SUPERIORITY||Relative Risk|1.16|||||TWO_SIDED|95.0|0.9|1.48||||||The null hypothesis was the proportions of the patients with composite of primary endpoints were the same between two groups.||1.48|0.90|
92456826|NCT03841357|184803300|SUPERIORITY||Relative Risk|1.19|||||TWO_SIDED|95.0|0.93|1.51||||||The null hypothesis was the proportions of the patients with composite of primary endpoints were the same between two groups.||1.51|0.93|
92456827|NCT03841357|184803301|SUPERIORITY||Relative Risk|1.333|STANDARD_ERROR_OF_MEAN|0.438||0.507|TWO_SIDED|95.0|0.565|3.145|||Cochran-Mantel-Haenszel|||The null hypothesis was the proportions of the patients with this primary endpoint were the same between two groups.||3.145|0.565|0.507
92456828|NCT03841357|184803301|SUPERIORITY||Relative Risk|1.0|||||TWO_SIDED|95.0|0.38|2.59||||||The null hypothesis was the proportions of the patients with this primary endpoint were the same between two groups.||2.59|0.38|
92456829|NCT03841357|184803301|SUPERIORITY||Relative Risk|1.35|||||TWO_SIDED|95.0|0.77|2.37||||||The null hypothesis was the proportions of the patients with this primary endpoint were the same between two groups.||2.37|0.77|
92456830|NCT03841357|184803302|SUPERIORITY||Relative Risk|0.97|||||TWO_SIDED|95.0|0.32|2.92||||||The null hypothesis was the proportions of the patients with this primary endpoint were the same between two groups.||2.92|0.32|
92456831|NCT03841357|184803302|SUPERIORITY||Relative Risk|1.0|||||TWO_SIDED|95.0|0.29|3.38||||||The null hypothesis was the proportions of the patients with this primary endpoint were the same between two groups.||3.38|0.29|
92456832|NCT03841357|184803303|SUPERIORITY||Relative Risk|0.786|STANDARD_ERROR_OF_MEAN|0.25||0.327|TWO_SIDED|95.0|0.482|1.282|||Cochran-Mantel-Haenszel|||The null hypothesis was the proportions of the patients with this primary endpoint were the same between two groups.||1.282|0.482|0.327
92456833|NCT03841357|184803303|SUPERIORITY||Relative Risk|1.06|||||TWO_SIDED|95.0|0.53|2.09||||||The null hypothesis was the proportions of the patients with this primary endpoint were the same between two groups.||2.09|0.53|
92456834|NCT03841357|184803303|SUPERIORITY||Relative Risk|1.19|||||TWO_SIDED|95.0|0.9|1.59||||||The null hypothesis was the proportions of the patients with this primary endpoint were the same between two groups.||1.59|0.90|
92456835|NCT03841357|184803304|SUPERIORITY||Odds Ratio (OR)|1.49|||||TWO_SIDED|95.0|1.05|2.13||||||The null hypothesis was the proportions of the patients with this primary endpoint were the same between two groups.||2.13|1.05|
92456836|NCT03841357|184803304|SUPERIORITY||Odds Ratio (OR)|1.49|||||TWO_SIDED|95.0|1.08|2.04||||||The null hypothesis was the proportions of the patients with this primary endpoint were the same between two groups.||2.04|1.08|
92456837|NCT03841357|184803305|SUPERIORITY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.53|2.35||||||||2.35|0.53|
92456838|NCT03841357|184803305|SUPERIORITY||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.76|2.24||||||||2.24|0.76|
92456839|NCT03841357|184803306|SUPERIORITY||Risk Ratio (RR)|1.02|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|0.48|2.19||||||||2.19|0.48|
92456840|NCT03841357|184803306|SUPERIORITY||Risk Ratio (RR)|1.29|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|0.74|2.24||||||||2.24|0.74|
92456841|NCT03841357|184803307|SUPERIORITY||Risk Ratio (RR)|1.03|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|0.49|2.17||||||||2.17|0.49|
92456842|NCT03841357|184803307|SUPERIORITY||Risk Ratio (RR)|1.1|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|0.64|1.89||||||||1.89|0.64|
92456843|NCT03841357|184803308|SUPERIORITY||Difference in Least Square Means|-1.23|STANDARD_ERROR_OF_MEAN|0.44||0.005|TWO_SIDED|95.0|-2.09|-0.38|||Mixed Models Analysis|||||-0.38|-2.09|0.005
92456844|NCT03841357|184803309|SUPERIORITY||Difference in Least Square Means|-4.85|STANDARD_ERROR_OF_MEAN|3.58||0.174|TWO_SIDED|95.0|-11.86|2.16|||Mixed Models Analysis|||||2.16|-11.86|0.174
92456845|NCT03841357|184803310|SUPERIORITY||Difference in Least Square Means|1.57|STANDARD_ERROR_OF_MEAN|0.63||0.012|TWO_SIDED|95.0|0.35|2.8|||Mixed Models Analysis|||||2.80|0.35|0.012
92456846|NCT03841357|184803311|SUPERIORITY||Difference in Least Square Means|1.53|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|0.69|2.37|||Mixed Models Analysis|||||2.37|0.69|<0.001
92456847|NCT03841357|184803314|SUPERIORITY||Difference in Least Square Means|0.74|STANDARD_ERROR_OF_MEAN|0.24||0.002|TWO_SIDED|95.0|0.28|1.2|||Mixed Models Analysis|||||1.20|0.28|0.002
92456848|NCT03841357|184803315|SUPERIORITY||Difference in Least Square Means|-0.55|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.84|-0.26|||Mixed Models Analysis|||||-0.26|-0.84|<0.001
92456849|NCT06379893|184803329|SUPERIORITY||Least Square Means|15.6|||<|0.001|TWO_SIDED|95.0|8.3|22.8|||MMRM|||Change From Baseline at Week 1||22.8|8.3|<0.001
92174009|NCT03241459|184239475|SUPERIORITY|||||||0.601||||||P-value for change in PAQ from BL to 1-Month: Summary Score|Wilcoxon (Mann-Whitney)|||||||0.601
92456850|NCT06379893|184803330|SUPERIORITY||Least Square Means|13.0||||0.001|TWO_SIDED|95.0|5.2|20.9|||MMRM|||Change From Baseline at Week 2||20.9|5.2|0.001
92456851|NCT06379893|184803331|SUPERIORITY||Least Square Means|2.1||||0.653|TWO_SIDED|95.0|-7.1|11.3|||MMRM|||Change From Baseline at Week 3||11.3|-7.1|0.653
92456852|NCT06379893|184803332|SUPERIORITY||Least Square Means|707.0||||0.001|TWO_SIDED|95.0|278.9|1135.0|||MMRM|||Change from Baseline at Week 1||1135|278.9|0.001
92456853|NCT06379893|184803332|SUPERIORITY||Least Square Means|487.3||||0.04|TWO_SIDED|95.0|22.0|952.6|||MMRM|||Change from Baseline at Week 2||952.6|22|0.040
92456854|NCT06379893|184803332|SUPERIORITY||Least Square Means|130.8||||0.603|TWO_SIDED|95.0|-365.6|627.2|||MMRM|||Change from Baseline at Week 3||627.2|-365.6|0.603
92456855|NCT06379893|184803333|SUPERIORITY||Least Square Means|-0.028||||0.473|TWO_SIDED|95.0|-0.105|0.049|||MMRM|||Change from Baseline at Week 1||0.049|-0.105|0.473
92456856|NCT06379893|184803333|SUPERIORITY||Least Square Means|0.009||||0.835|TWO_SIDED|95.0|-0.074|0.091|||MMRM|||Change from Baseline at Week 2||0.091|-0.074|0.835
92456857|NCT06379893|184803333|SUPERIORITY||Least Square Means|0.11||||0.014|TWO_SIDED|95.0|0.023|0.198|||MMRM|||Change from Baseline at Week 3||0.198|0.023|0.014
92456858|NCT06379893|184803334|SUPERIORITY||Least Square Means|0.261||||0.261|TWO_SIDED|95.0|-0.196|0.717|||MMRM|||Change from Baseline at Week 1||0.717|-0.196|0.261
92456859|NCT06379893|184803334|SUPERIORITY||Least Square Means|0.249||||0.263|TWO_SIDED|95.0|-0.188|0.685|||MMRM|||Change from Baseline at Week 2||0.685|-0.188|0.263
92456860|NCT06379893|184803334|SUPERIORITY||Least Square Means|0.053||||0.854|TWO_SIDED|95.0|-0.512|0.617|||MMRM|||Change from Baseline at Week 3||0.617|-0.512|0.854
92456861|NCT06379893|184803336|SUPERIORITY||Least Square Means|2415.2||||0.221|TWO_SIDED|95.0|-1466.3|6296.8|||MMRM|||Change from Baseline at Week 1||6296.8|-1466.3|0.221
92456862|NCT06379893|184803336|SUPERIORITY||Least Square Means|3041.7||||0.127|TWO_SIDED|95.0|-868.5|6951.9|||MMRM|||Change from Baseline at Week 2||6951.9|-868.5|0.127
92174010|NCT03241459|184239475|SUPERIORITY|||||||0.185||||||P-value for change in PAQ from BL to 12-Months: Physical Function Score|Wilcoxon (Mann-Whitney)|||||||0.185
92456863|NCT06379893|184803336|SUPERIORITY||Least Square Means|-2428.7||||0.314|TWO_SIDED|95.0|-7177.5|2320.1|||MMRM|||Change from Baseline at Week 3||2320.1|-7177.5|0.314
92174011|NCT03241459|184239475|SUPERIORITY|||||||0.856||||||P-value for change in PAQ from BL to 12-Months: Stability Score|Wilcoxon (Mann-Whitney)|||||||0.856
92174012|NCT03241459|184239475|SUPERIORITY|||||||0.541||||||P-value for change in PAQ from BL to 12-Months: Symptom Score|Wilcoxon (Mann-Whitney)|||||||0.541
92174013|NCT03241459|184239475|SUPERIORITY|||||||0.731||||||P-value for change in PAQ from BL to 12-Months: Treatment Satisfaction Score|Wilcoxon (Mann-Whitney)|||||||0.731
92456864|NCT06379893|184803337|SUPERIORITY||Least Square Means|3409.9||||0.289|TWO_SIDED|95.0|-2911.4|9731.2|||MMRM|||Change from Baseline at Week 1||9731.2|-2911.4|0.289
92456865|NCT06379893|184803337|SUPERIORITY||Least Square Means|3552.3||||0.303|TWO_SIDED|95.0|-3240.4|10345.1|||MMRM|||Change from Baseline at Week 2||10345.1|-3240.4|0.303
92456866|NCT06379893|184803337|SUPERIORITY||Least Square Means|-7820.7||||0.046|TWO_SIDED|95.0|-15512.8|-128.5|||MMRM|||Change from Baseline at Week 3||-128.5|-15512.8|0.046
92456867|NCT06379893|184803338|SUPERIORITY||Least Square Means|-8.392|||<|0.001|TWO_SIDED|95.0|-10.196|-6.588|||MMRM|||Change from Baseline at Week 1||-6.588|-10.196|<0.001
92456868|NCT06379893|184803338|SUPERIORITY||Least Square Means|-11.882|||<|0.001|TWO_SIDED|95.0|-13.946|-9.818|||MMRM|||Change from Baseline at Week 2||-9.818|-13.946|<0.001
92456869|NCT06379893|184803338|SUPERIORITY||Least Square Means|-15.929|||<|0.001|TWO_SIDED|95.0|-18.32|-13.537|||MMRM|||Change from Baseline at Week 3||-13.537|-18.320|<0.001
92456870|NCT06379893|184803341|SUPERIORITY||Least Square Means|-1.4|||<|0.001|TWO_SIDED|95.0|-1.7|-1.2|||MMRM|||Change from Baseline at Week 1||-1.2|-1.7|<0.001
92456871|NCT06379893|184803341|SUPERIORITY||Least Square Means|-2.0|||<|0.001|TWO_SIDED|95.0|-2.2|-1.7|||MMRM|||Change from Baseline at Week 2||-1.7|-2.2|<0.001
92456872|NCT06379893|184803341|SUPERIORITY||Least Square Means|-2.6|||<|0.001|TWO_SIDED|95.0|-2.9|-2.3|||MMRM|||Change from Baseline at Week 3||-2.3|-2.9|<0.001
92456873|NCT06379893|184803342|SUPERIORITY||Least Square Means|-26.529|||<|0.001|TWO_SIDED|95.0|-31.929|-21.129|||MMRM|||Change From Baseline at Week 1||-21.129|-31.929|<0.001
92456874|NCT06379893|184803342|SUPERIORITY||Least Square Means|-36.179|||<|0.001|TWO_SIDED|95.0|-42.09|-30.269|||MMRM|||Change From Baseline at Week 2||-30.269|-42.090|<0.001
92456875|NCT06379893|184803342|SUPERIORITY||Least Square Means|-48.834|||<|0.001|TWO_SIDED|95.0|-55.692|-41.976|||MMRM|||Change From Baseline at Week 3||-41.976|-55.692|<0.001
92456876|NCT06379893|184803343|SUPERIORITY||Least Square Means|-9.213|||<|0.001|TWO_SIDED|95.0|-11.011|-7.415|||MMRM|||Change from Baseline at Week 1||-7.415|-11.011|<0.001
92456877|NCT06379893|184803343|SUPERIORITY||Least Square Means|-12.57|||<|0.001|TWO_SIDED|95.0|-14.519|-10.621|||MMRM|||Change from Baseline at Week 2||-10.621|-14.519|<0.001
92456878|NCT06379893|184803343|SUPERIORITY||Least Square Means|-16.408|||<|0.001|TWO_SIDED|95.0|-18.669|-14.146|||MMRM|||Change from Baseline at Week 3||-14.146|-18.669|<0.001
92456879|NCT06379893|184803344|SUPERIORITY||Least Square Means|-8.912|||<|0.001|TWO_SIDED|95.0|-11.401|-6.423|||MMRM|||Change from Baseline at Week 1||-6.423|-11.401|<0.001
92456880|NCT06379893|184803344|SUPERIORITY||Least Square Means|-11.699|||<|0.001|TWO_SIDED|95.0|-14.177|-9.221|||MMRM|||Change from Baseline at Week 2||-9.221|-14.177|<0.001
92456881|NCT06379893|184803344|SUPERIORITY||Least Square Means|-16.166|||<|0.001|TWO_SIDED|95.0|-18.858|-13.473|||MMRM|||Change from Baseline at Week 3||-13.473|-18.858|<0.001
92456882|NCT06379893|184803345|SUPERIORITY||Least Square Means|-0.1||||0.237|TWO_SIDED|95.0|-0.3|0.1|||MMRM|||Change from Baseline at Day 7||0.1|-0.3|0.237
92456883|NCT06379893|184803345|SUPERIORITY||Least Square Means|-0.2||||0.071|TWO_SIDED|95.0|-0.4|0.0|||MMRM|||Change from Baseline at Day 14||0.0|-0.4|0.071
92456884|NCT06379893|184803345|SUPERIORITY||Least Square Means|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.2|||MMRM|||Change from Baseline at Day 21||-0.2|-0.6|<0.001
92243508|NCT00960934|184389966|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.25||||0.961|TWO_SIDED|95.0|-1.77|1.26||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.26|-1.77|0.961
92243509|NCT00960934|184389967|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.43||||0.901|TWO_SIDED|95.0|-2.03|1.17||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.17|-2.03|0.901
92243510|NCT00960934|184389967|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.51||||0.901|TWO_SIDED|95.0|-2.18|1.17||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.17|-2.18|0.901
92456885|NCT06379893|184803346|SUPERIORITY||Least Square Means|0.04|||<|0.001|TWO_SIDED|95.0|0.02|0.05|||MMRM|||Change from Baseline at Day 7||0.05|0.02|<0.001
92456886|NCT06379893|184803346|SUPERIORITY||Least Square Means|0.05|||<|0.001|TWO_SIDED|95.0|0.04|0.07|||MMRM|||Change from Baseline at Day 14||0.07|0.04|<0.001
92456887|NCT06379893|184803346|SUPERIORITY||Least Square Means|0.07|||<|0.001|TWO_SIDED|95.0|0.05|0.09|||MMRM|||Change from Baseline at Day 21||0.09|0.05|<0.001
92456888|NCT04523714|184803385|SUPERIORITY||Relative Risk|1.28|||<|0.001|TWO_SIDED|95.0|1.06|1.55||A priori threshold for statistical significance \<0.05|Modified Poisson Regression|Imputation, weighting and adjustment (see SAP)||||1.55|1.06|<0.001
92456889|NCT04523714|184803385|SUPERIORITY||Relative Risk|1.54|||<|0.001|TWO_SIDED|95.0|1.3|1.82||A priori threshold for statistical significance \<0.05|Modified Poisson Regression|Imputation, weighting and adjustment||||1.82|1.30|<0.001
92456890|NCT04523714|184803385|SUPERIORITY||Relative Risk|1.2|||<|0.001|TWO_SIDED|95.0|1.03|1.4||A priori threshold for statistical significance \<0.05|Modified Poisson Regression|Imputation, weighting and adjustment (See SAP)||||1.40|1.03|<0.001
92456891|NCT04523714|184803386|SUPERIORITY||Relative Risk|1.44|||<|0.001|TWO_SIDED|95.0|1.21|1.7||A priori threshold for statistical significance \<0.05|Modified Poisson Regression|Imputation, weighting and adjustment (see SAP)||||1.70|1.21|<0.001
92456892|NCT04523714|184803386|SUPERIORITY||Relative Risk|1.62|||<|0.001|TWO_SIDED|95.0|1.39|1.9||A priori threshold for statistical significance \<0.05|Modified Poisson Regression|Imputation, weighting and adjustment (see SAP)||||1.90|1.39|<0.001
92456893|NCT04523714|184803386|SUPERIORITY||Relative Risk|1.13|||<|0.001|TWO_SIDED|95.0|0.98|1.3||A priori threshold for statistical significance \<0.05|Modified Poisson Regression|Imputation, weighting and adjustment (see SAP)||||1.30|0.98|<0.001
92456894|NCT04523714|184803387|SUPERIORITY||Relative Risk|1.32|||<|0.001|TWO_SIDED|95.0|1.13|1.54||A priori threshold for statistical significance \<0.05|Modified Poisson Regression|Imputation, weighting and adjustment (see SAP)||||1.54|1.13|<0.001
92456895|NCT04523714|184803387|SUPERIORITY||Relative Risk|1.41|||<|0.001|TWO_SIDED|95.0|1.25|1.59||A priori threshold for statistical significance \<0.05|Modified Poisson Regression|Imputation, weighting and adjustment (see SAP)||||1.59|1.25|<0.001
92456896|NCT04523714|184803387|SUPERIORITY||Relative Risk|1.07|||<|0.001|TWO_SIDED|95.0|0.96|1.19||A priori threshold for statistical significance \<0.05|Modified Poisson Regression|Imputation, weighting and adjustment||||1.19|0.96|<0.001
92243511|NCT00960934|184389967|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.52||||0.901|TWO_SIDED|95.0|-2.17|1.13||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.13|-2.17|0.901
92456897|NCT04523714|184803388|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.05|TWO_SIDED|95.0|-0.6|-0.2|||GEE, linear|Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)||Baseline to 3 months||-0.2|-0.6|<0.05
92456898|NCT04523714|184803388|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.05|TWO_SIDED|95.0|-0.6|-0.3|||GEE, linear|Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)||Baseline to 3 months||-0.3|-0.6|<0.05
92456899|NCT04523714|184803388|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.2|0.1|||GEE, linear|Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)||Baseline to 3 months||0.1|-0.2|<0.05
92456900|NCT04523714|184803388|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.05|TWO_SIDED|95.0|-0.6|-0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||-0.2|-0.6|<0.05
92456901|NCT04523714|184803388|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.05|TWO_SIDED|95.0|-0.7|-0.4||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||-0.4|-0.7|<0.05
92456902|NCT04523714|184803388|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-0.3|0.1||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||0.1|-0.3|<0.05
92456903|NCT04523714|184803388|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.05|TWO_SIDED|95.0|-0.6|-0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||-0.2|-0.6|<0.05
92456904|NCT04523714|184803388|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.05|TWO_SIDED|95.0|-0.6|-0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||-0.2|-0.6|<0.05
92456905|NCT04523714|184803388|SUPERIORITY||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.2|0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||0.2|-0.2|<0.05
92456906|NCT04523714|184803389|SUPERIORITY||Mean Difference (Final Values)|-0.3|||<|0.05|TWO_SIDED|95.0|-0.5|-0.1|||GEE, linear|Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)||Baseline to 3 months||-0.1|-0.5|<0.05
92456907|NCT04523714|184803389|SUPERIORITY||Mean Difference (Final Values)|-0.3|||<|0.05|TWO_SIDED|95.0|-0.5|-0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||-0.2|-0.5|<0.05
92456908|NCT04523714|184803389|SUPERIORITY||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.2|0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||0.2|-0.2|<0.05
92456909|NCT04523714|184803389|SUPERIORITY|Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|Mean Difference (Final Values)|-0.2|||<|0.05|TWO_SIDED|95.0|-0.4|-0.1|||GEE, linear|||Baseline to 6 months||-0.1|-0.4|<0.05
92456910|NCT04523714|184803389|SUPERIORITY||Mean Difference (Final Values)|-0.3|||<|0.05|TWO_SIDED|95.0|-0.5|-0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||-0.2|-0.5|<0.05
92456911|NCT04523714|184803389|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-0.3|0.1||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||0.1|-0.3|<0.05
92456912|NCT04523714|184803389|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.05|TWO_SIDED|95.0|-0.4|-0.1||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||-0.1|-0.4|<0.05
92456913|NCT04523714|184803389|SUPERIORITY|Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|Mean Difference (Final Values)|-0.2|||<|0.05|TWO_SIDED|95.0|-0.4|-0.1|||GEE, linear|||Baseline to 12 months||-0.1|-0.4|<0.05
92456914|NCT04523714|184803389|SUPERIORITY||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.2|0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||0.2|-0.2|<0.05
92456915|NCT04523714|184803390|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.05|TWO_SIDED|95.0|-0.7|-0.3||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||-0.3|-0.7|<0.05
92456916|NCT04523714|184803390|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.05|TWO_SIDED|95.0|-0.7|-0.3||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||-0.3|-0.7|<0.05
92456917|NCT04523714|184803390|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-0.3|0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||0.2|-0.3|<0.05
92456918|NCT04523714|184803390|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.05|TWO_SIDED|95.0|-0.7|-0.3||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||-0.3|-0.7|<0.05
92456919|NCT04523714|184803390|SUPERIORITY||Mean Difference (Final Values)|-0.6|||<|0.05|TWO_SIDED|95.0|-0.8|-0.4||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||-0.4|-0.8|<0.05
92456920|NCT04523714|184803390|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-0.4|0.1||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||0.1|-0.4|<0.05
92174014|NCT03241459|184239475|SUPERIORITY|||||||0.696||||||P-value for change in PAQ from BL to 12-Months: Quality of Life Score|Wilcoxon (Mann-Whitney)|||||||0.696
92456921|NCT04523714|184803390|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.05|TWO_SIDED|95.0|-0.7|-0.3||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||-0.3|-0.7|<0.05
92456922|NCT04523714|184803390|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.05|TWO_SIDED|95.0|-0.7|-0.3||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||-0.3|-0.7|<0.05
92456923|NCT04523714|184803390|SUPERIORITY||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.2|0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||0.2|-0.2|<0.05
92456924|NCT04523714|184803391|SUPERIORITY||Mean Difference (Final Values)|0.8|||<|0.05|TWO_SIDED|95.0|0.0|1.5||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||1.5|0.0|<0.05
92456925|NCT04523714|184803391|SUPERIORITY||Mean Difference (Final Values)|1.5|||<|0.05|TWO_SIDED|95.0|0.8|2.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||2.2|0.8|<0.05
92456926|NCT04523714|184803391|SUPERIORITY||Mean Difference (Final Values)|0.7|||<|0.05|TWO_SIDED|95.0|0.0|1.4||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||1.4|0.0|<0.05
92456927|NCT04523714|184803391|SUPERIORITY||Mean Difference (Final Values)|1.2|||<|0.05|TWO_SIDED|95.0|0.4|1.9||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||1.9|0.4|<0.05
92456928|NCT04523714|184803391|SUPERIORITY||Mean Difference (Final Values)|1.5|||<|0.05|TWO_SIDED|95.0|0.8|2.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||2.2|0.8|<0.05
92456929|NCT04523714|184803391|SUPERIORITY||Mean Difference (Final Values)|0.3|||<|0.05|TWO_SIDED|95.0|-0.4|1.1||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||1.1|-0.4|<0.05
92456930|NCT04523714|184803391|SUPERIORITY||Mean Difference (Final Values)|1.3|||<|0.05|TWO_SIDED|95.0|0.5|2.1||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||2.1|0.5|<0.05
92456931|NCT04523714|184803391|SUPERIORITY||Mean Difference (Final Values)|1.4|||<|0.05|TWO_SIDED|95.0|0.6|2.1||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||2.1|0.6|<0.05
92456932|NCT04523714|184803391|SUPERIORITY||Mean Difference (Final Values)|0.1|||<|0.05|TWO_SIDED|95.0|-0.7|0.9||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||0.9|-0.7|<0.05
92243512|NCT00960934|184389967|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.03||||0.997|TWO_SIDED|95.0|-1.29|1.35||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.35|-1.29|0.997
92243513|NCT00960934|184389967|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.04||||0.997|TWO_SIDED|95.0|-1.51|1.43||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.43|-1.51|0.997
92456933|NCT04523714|184803392|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.05|TWO_SIDED|95.0|-0.1|0.9||Imputation, weighting and adjustment (see SAP). Generalized estimating equation (GEE)|GEE, linear|||Baseline to 3 months||0.9|-0.1|<0.05
92456934|NCT04523714|184803392|SUPERIORITY||Mean Difference (Final Values)|0.7|||<|0.05|TWO_SIDED|95.0|0.2|1.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||1.2|0.2|<0.05
92174015|NCT03241459|184239475|SUPERIORITY|||||||0.716||||||P-value for change in PAQ from BL to 12-Months: Social Limitation Score|Wilcoxon (Mann-Whitney)|||||||0.716
92243514|NCT00960934|184389968|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.37||||0.979|TWO_SIDED|95.0|-2.73|1.99||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.99|-2.73|0.979
92174016|NCT03241459|184239475|SUPERIORITY|||||||0.797||||||P-value for change in PAQ from BL to 12-Months: Summary Score|Wilcoxon (Mann-Whitney)|||||||0.797
92174017|NCT03241459|184239475|SUPERIORITY|||||||0.29||||||P-value for change in PAQ from BL to 24-Months: Physical Function Score|Wilcoxon (Mann-Whitney)|||||||0.290
92174018|NCT03241459|184239475|SUPERIORITY|||||||0.473||||||P-value for change in PAQ from BL to 24-Months: Stability Score|Wilcoxon (Mann-Whitney)|||||||0.473
92174019|NCT03241459|184239475|SUPERIORITY|||||||0.278||||||P-value for change in PAQ from BL to 24-Months: Symptom Score|Wilcoxon (Mann-Whitney)|||||||0.278
92243515|NCT00960934|184389968|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|1.92||||0.363|TWO_SIDED|95.0|-1.1|4.95||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||4.95|-1.10|0.363
92243516|NCT00960934|184389968|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.4||||0.979|TWO_SIDED|95.0|-2.18|2.98||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.98|-2.18|0.979
92243517|NCT00960934|184389968|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.49||||0.979|TWO_SIDED|95.0|-3.27|2.3||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.30|-3.27|0.979
92243518|NCT00960934|184389968|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.51||||0.979|TWO_SIDED|95.0|-2.34|3.37||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||3.37|-2.34|0.979
92243519|NCT00960934|184389969|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|19.77||||0.02|TWO_SIDED|95.0|2.26|37.46||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||37.46|2.26|0.020
92456935|NCT04523714|184803392|SUPERIORITY||Mean Difference (Final Values)|0.3|||<|0.05|TWO_SIDED|95.0|-0.2|0.8||Imputation, weighting and adjustment (see SAP). Generalized estimating equation (GEE)|GEE, linear|||Baseline to 3 months||0.8|-0.2|<0.05
92456936|NCT04523714|184803392|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.05|TWO_SIDED|95.0|0.1|1.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equation (GEE)|GEE, linear|||Baseline to 6 months||1.2|0.1|<0.05
92174020|NCT03241459|184239475|SUPERIORITY|||||||0.974||||||P-value for change in PAQ from BL to 24-Months: Treatment Satisfaction Score|Wilcoxon (Mann-Whitney)|||||||0.974
92456937|NCT04523714|184803392|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.05|TWO_SIDED|95.0|-0.1|0.9||Imputation, weighting and adjustment (see SAP). Generalized estimating equation (GEE)|GEE, linear|||Baseline to 6 months||0.9|-0.1|<0.05
92243520|NCT00960934|184389969|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|10.08||||0.357|TWO_SIDED|95.0|-6.16|26.41||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||26.41|-6.16|0.357
92243521|NCT00960934|184389969|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-2.83||||0.642|TWO_SIDED|95.0|-14.81|9.14||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||9.14|-14.81|0.642
92243522|NCT00960934|184389969|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|8.44||||0.434|TWO_SIDED|95.0|-7.09|24.04||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||24.04|-7.09|0.434
92243523|NCT00960934|184389969|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|5.72||||0.579||95.0|-8.62|20.1||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||20.10|-8.62|0.579
92281405|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.057|STANDARD_ERROR_OF_MEAN|0.12||0.6422|TWO_SIDED|95.0|-0.302|0.187|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Forgetfulness||0.187|-0.302|0.6422
92174021|NCT03241459|184239475|SUPERIORITY|||||||0.266||||||P-value for change in PAQ from BL to 24-Months: Quality of Life Score|Wilcoxon (Mann-Whitney)|||||||0.266
92174022|NCT03241459|184239475|SUPERIORITY|||||||0.656||||||P-value for change in PAQ from BL to 24-Months: Social Limitation Score|Wilcoxon (Mann-Whitney)|||||||0.656
92174023|NCT03241459|184239475|SUPERIORITY|||||||0.959||||||P-value for change in PAQ from BL to 12-Months:Summary Score|Wilcoxon (Mann-Whitney)|||||||0.959
92174024|NCT03241459|184239476|SUPERIORITY|||||||1||||||P-Value at 36-Months|Fisher Exact|||||||1.0
92174025|NCT03241459|184239476|SUPERIORITY|||||||0.903||||||P-Value at 48-Months|Fisher Exact|||||||0.903
92281406|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.483|STANDARD_ERROR_OF_MEAN|0.34||0.1574|TWO_SIDED|95.0|-1.157|0.19|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Sleepiness||0.190|-1.157|0.1574
92456938|NCT04523714|184803392|SUPERIORITY||Mean Difference (Final Values)|-0.3|||<|0.05|TWO_SIDED|95.0|-0.8|0.3||Imputation, weighting and adjustment (see SAP). Generalized estimating equation (GEE)|GEE, linear|||Baseline to 6 months||0.3|-0.8|<0.05
92456939|NCT04523714|184803392|SUPERIORITY||Mean Difference (Final Values)|0.9|||<|0.05|TWO_SIDED|95.0|0.3|1.5||Imputation, weighting and adjustment (see SAP). Generalized estimating equation (GEE)|GEE, linear|||Baseline to 12 months||1.5|0.3|<0.05
92456940|NCT04523714|184803392|SUPERIORITY||Mean Difference (Final Values)|0.8|||<|0.05|TWO_SIDED|95.0|0.2|1.4||Imputation, weighting and adjustment (see SAP). Generalized estimating equation (GEE)|GEE, linear|||Baseline to 12 months||1.4|0.2|<0.05
92174026|NCT03241459|184239476|SUPERIORITY|||||||1||||||P-Value at 60-Months|Fisher Exact|||||||1.0
92456941|NCT04523714|184803392|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-0.7|0.5||Imputation, weighting and adjustment (see SAP). Generalized estimating equation (GEE)|GEE, linear|||Baseline to 12 months||0.5|-0.7|<0.05
92456942|NCT04523714|184803393|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.05|TWO_SIDED|95.0|-0.8|-0.6||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||-0.6|-0.8|<0.05
92456943|NCT04523714|184803393|SUPERIORITY||Mean Difference (Final Values)|-0.9|||<|0.05|TWO_SIDED|95.0|-1.0|-0.8||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||-0.8|-1.0|<0.05
92456944|NCT04523714|184803393|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.05|TWO_SIDED|95.0|-0.3|-0.1||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||-0.1|-0.3|<0.05
92174027|NCT03241459|184239477|SUPERIORITY|||||||0.913|||||||Fisher Exact|P-Value at 36-Months||||||0.913
92174028|NCT03241459|184239477|SUPERIORITY|||||||1|||||||Fisher Exact|P-Value at 48-Months||||||1.0
92174029|NCT03241459|184239477|SUPERIORITY|||||||0.839||||||P-Value at 60-Months|Fisher Exact|||||||0.839
92174030|NCT03241459|184239478|SUPERIORITY|||||||1||||||P-Value at 36-Months|Fisher Exact|||||||1.0
92174031|NCT03241459|184239478|SUPERIORITY|||||||0.5|||||||Fisher Exact|P-Value at 48-Months||||||0.5
92174032|NCT03241459|184239478|SUPERIORITY|||||||0.251|||||||Fisher Exact|P-Value at 60-Months||||||0.251
92174033|NCT03241459|184239479|SUPERIORITY|||||||0.478||||||P-Value at 36-Months|Fisher Exact|||||||0.478
92174034|NCT03241459|184239479|SUPERIORITY|||||||0.605||||||P-Value at 48-Months|Fisher Exact|||||||0.605
92456945|NCT04523714|184803393|SUPERIORITY||Mean Difference (Final Values)|-0.6|||<|0.05|TWO_SIDED|95.0|-0.8|-0.5||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||-0.5|-0.8|<0.05
92456946|NCT04523714|184803393|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.05|TWO_SIDED|95.0|-0.8|-0.5||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||-0.5|-0.8|<0.05
92456947|NCT04523714|184803393|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-0.2|0.1||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||0.1|-0.2|<0.05
92243524|NCT00960934|184389970|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|34.26|||<|0.001|TWO_SIDED|95.0|15.27|53.56||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||53.56|15.27|<0.001
92456948|NCT04523714|184803393|SUPERIORITY||Mean Difference (Final Values)|-0.6|||<|0.05|TWO_SIDED|95.0|-0.8|-0.5||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||-0.5|-0.8|<0.05
92456949|NCT04523714|184803393|SUPERIORITY||Mean Difference (Final Values)|-0.6|||<|0.05|TWO_SIDED|95.0|-0.7|-0.4||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||-0.4|-0.7|<0.05
92456950|NCT04523714|184803393|SUPERIORITY||Mean Difference (Final Values)|0.1|||<|0.05|TWO_SIDED|95.0|-0.1|0.2||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||0.2|-0.1|<0.05
92456951|NCT04523714|184803394|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.05|TWO_SIDED|95.0|-0.8|-0.6||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||-0.6|-0.8|<0.05
92456952|NCT04523714|184803394|SUPERIORITY||Mean Difference (Final Values)|-1.1|||<|0.05|TWO_SIDED|95.0|-1.2|-1.0||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||-1.0|-1.2|<0.05
92456953|NCT04523714|184803394|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.05|TWO_SIDED|95.0|-0.5|-0.3||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 3 months||-0.3|-0.5|<0.05
92456954|NCT04523714|184803394|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.05|TWO_SIDED|95.0|-0.6|-0.3||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||-0.3|-0.6|<0.05
92456955|NCT04523714|184803394|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.05|TWO_SIDED|95.0|-0.9|-0.6||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||-0.6|-0.9|<0.05
92456956|NCT04523714|184803394|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.05|TWO_SIDED|95.0|-0.4|-0.1||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 6 months||-0.1|-0.4|<0.05
92456957|NCT04523714|184803394|SUPERIORITY||Mean Difference (Final Values)|-0.6|||<|0.05|TWO_SIDED|95.0|-0.7|-0.4||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||-0.4|-0.7|<0.05
92456958|NCT04523714|184803394|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.05|TWO_SIDED|95.0|-0.8|-0.5||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||-0.5|-0.8|<0.05
92456959|NCT04523714|184803394|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-0.3|0.0||Imputation, weighting and adjustment (see SAP). Generalized estimating equations (GEE)|GEE, linear|||Baseline to 12 months||0.0|-0.3|<0.05
92174035|NCT03241459|184239479|SUPERIORITY|||||||0.345||||||P-Value at 60-Months|Fisher Exact|||||||0.345
92174036|NCT04064164|184239520|EQUIVALENCE|Pearson's Chi-square test was completed between the total instances of diminutives either identified by human or the Elderspeak App.||||||0.004||||||Dear (root word)|Chi-squared|X-squared = 8.4 df=1||||||.004
92243525|NCT00960934|184389970|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|20.57||||0.014|TWO_SIDED|95.0|3.28|38.02||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||38.02|3.28|0.014
92456960|NCT04233424|184803395|SUPERIORITY||Risk Ratio (RR)|-2.8||||0.152|TWO_SIDED|95.0|-6.7|1.0|||Cochran-Mantel-Haenszel|||||1.0|-6.7|0.152
92456961|NCT04233424|184803396|SUPERIORITY||Risk Ratio (RR)|-0.8||||0.6219|TWO_SIDED|95.0|-3.9|2.3|||Cochran-Mantel-Haenszel|||||2.3|-3.9|0.6219
92456962|NCT04233424|184803397|SUPERIORITY||Risk Ratio (RR)|-0.8||||0.4373|TWO_SIDED|95.0|-2.8|1.2|||Kaplan-Meier Analysis|||||1.2|-2.8|0.4373
92456963|NCT04803214|184803401|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.001
92456964|NCT04803214|184803402|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92456965|NCT04803214|184803403|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92456966|NCT01208662|184803417|SUPERIORITY||Hazard Ratio (HR)|1.53|||<|0.001|TWO_SIDED|95.0|1.23|1.91|||Log Rank|Observed Stratified Log Rank Test (1-sided p-value)||||1.91|1.23|<0.001
92456967|NCT01208662|184803418|SUPERIORITY|||||||0.55|||||||Fisher Exact|||Exact (Clopper-Pearson) confidence limits of 98.2857% represents Bonferroni adjustment for 7 tests (1-0.05/7) per statistical analysis plan for key secondary outcomes.||||0.55
92456968|NCT01208662|184803419|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Exact (Clopper-Pearson) confidence limits of 98.2857% represents Bonferroni adjustment for 7 tests (1-0.05/7) per statistical analysis plan for key secondary outcomes.||||0.99
92456969|NCT01208662|184803420|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Exact (Clopper-Pearson) confidence limits of 98.2857% represents Bonferroni adjustment for 7 tests (1-0.05/7) per statistical analysis plan for key secondary outcomes.||||0.99
92456970|NCT01208662|184803422|SUPERIORITY||Hazard Ratio (HR)|1.66|||<|0.001|TWO_SIDED|99.29|1.21|2.27|||Log Rank|Stratified||Exact (Clopper-Pearson) confidence limits of 98.2857% represents Bonferroni adjustment for 7 tests (1-0.05/7) per statistical analysis plan for key secondary outcomes.||2.27|1.21|<0.001
92456971|NCT01208662|184803423|SUPERIORITY||Hazard Ratio (HR)|1.1|||>|0.99|TWO_SIDED|95.0|0.73|1.65|||Log Rank|||||1.65|0.73|>0.99
92456972|NCT01208662|184803425|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.99|TWO_SIDED|99.29|0.73|1.65|||Log Rank|Stratified||Exact (Clopper-Pearson) confidence limits of 98.2857% represents Bonferroni adjustment for 7 tests (1-0.05/7) per statistical analysis plan for key secondary outcomes.||1.65|0.73|0.99
92243526|NCT00960934|184389970|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|9.97||||0.307|TWO_SIDED|95.0|-5.69|25.7||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||25.70|-5.69|0.307
92243527|NCT00960934|184389970|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|9.02||||0.307|TWO_SIDED|95.0|-5.85|23.95||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||23.95|-5.85|0.307
92243528|NCT00960934|184389970|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.5||||0.937|TWO_SIDED|95.0|-12.92|11.92||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||11.92|-12.92|0.937
92243529|NCT00960934|184389971|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|19.19|||<|0.001|TWO_SIDED|95.0|7.42|31.02||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||31.02|7.42|<0.001
92243530|NCT00960934|184389971|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|23.38|||<|0.001|TWO_SIDED|95.0|11.02|35.82||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||35.82|11.02|<0.001
92243531|NCT00960934|184389971|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|10.45||||0.061|TWO_SIDED|95.0|-0.37|21.3||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||21.30|-0.37|0.061
92243532|NCT00960934|184389971|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|6.31||||0.283|TWO_SIDED|95.0|-3.81|16.45||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||16.45|-3.81|0.283
92243533|NCT00960934|184389971|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|5.46||||0.283|TWO_SIDED|95.0|-3.39|14.31||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||14.31|-3.39|0.283
92243534|NCT00960934|184389972|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|56.77|||<|0.001|TWO_SIDED|95.0|37.62|76.35||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||76.35|37.62|<.001
92456973|NCT01208662|184803432|SUPERIORITY||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.3|1.01||||||||1.01|0.30|
92456974|NCT06127147|184803434|SUPERIORITY||||||||||||||||||\<0.001|||
92243535|NCT00960934|184389972|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|39.66|||<|0.001|TWO_SIDED|95.0|22.44|57.17||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||57.17|22.44|<.001
92243536|NCT00960934|184389972|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|20.68||||0.003|TWO_SIDED|95.0|5.72|35.78||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||35.78|5.72|0.003
92243537|NCT00960934|184389972|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|8.59||||0.265|TWO_SIDED|95.0|-4.81|22.05||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||22.05|-4.81|0.265
92243538|NCT00960934|184389972|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|8.39||||0.265|TWO_SIDED|95.0|-3.4|20.21||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||20.21|-3.40|0.265
92243539|NCT00960934|184389973|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|53.05|||<|0.001|TWO_SIDED|95.0|37.83|68.53||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||68.53|37.83|<0.001
92456975|NCT06127147|184803435|SUPERIORITY|||||||0.001|||||||ANOVA|||||||.001
92456976|NCT06127147|184803436|SUPERIORITY|||||||0.001|||||||ANOVA|||||||.001
92456977|NCT06127147|184803437|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92456978|NCT06127147|184803438|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92456979|NCT06232018|184803439|SUPERIORITY||Median Difference (Final Values)|1.0|STANDARD_DEVIATION|6.0||0.481|TWO_SIDED|95.0|-2.0|4.0||Two-tailed Mann-Whitney U test; significance set at p \< 0.05.|Wilcoxon (Mann-Whitney)|||The Mann-Whitney U test was used to compare POSAS scores between the two groups at 6 weeks . A two-sided p value \< 0.05 was considered statistically significant. The study was powered to detect a mean difference of 5 points in POSAS score with 80% power and a 5% alpha error.||4|-2|0.481
92456980|NCT06232018|184803440|SUPERIORITY||Median Difference (Final Values)|2.0|STANDARD_DEVIATION|5.0||0.228|TWO_SIDED|95.0|-1.5|5.0|||Wilcoxon (Mann-Whitney)|||||5|-1.5|0.228
92456981|NCT06232018|184803441|SUPERIORITY||Median Difference (Final Values)|0.0|STANDARD_DEVIATION|0.5||0.446|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-1|0.446
92456982|NCT06232018|184803442|SUPERIORITY||Median Difference (Final Values)|56.0|STANDARD_DEVIATION|25.0|<|0.001|TWO_SIDED|95.0|40.0|70.0|||Wilcoxon (Mann-Whitney)|||||70|40|<0.001
92243540|NCT00960934|184389973|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|41.41|||<|0.001|TWO_SIDED|95.0|27.36|55.65||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||55.65|27.36|<0.001
92243541|NCT00960934|184389973|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|24.81|||<|0.001|TWO_SIDED|95.0|12.39|37.33||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||37.33|12.39|<0.001
92243542|NCT00960934|184389973|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|12.87||||0.02|TWO_SIDED|95.0|1.73|24.06||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||24.06|1.73|0.020
92456983|NCT06232018|184803443|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.5||0.421|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-1|0.421
92456984|NCT04657523|184803444|OTHER|Pearson correlation coefficient was calculated based on all measurements assuming independency.|Pearson correlation coefficient|0.5749|||||TWO_SIDED|||||||||"To assess the correlation between quantitative ultrasound biomarker Hepatorenal Index (HRI) derived from the investigational LFQ feature and the clinical MRI-PDFF fat fraction obtained from the subject's medical record. A higher HRI value indicates greater liver fat accumulation, which reflects a worse outcome, while a lower HRI suggests less hepatic fat and a better outcome."||||
92456985|NCT04657523|184803444|OTHER|Pearson correlation coefficient was calculated based on the subject level averages of multiple measurements.|Pearson correlation coefficient|0.6143|||||TWO_SIDED|||||||||"To assess the correlation between quantitative ultrasound biomarker Hepatorenal Index (HRI) derived from the investigational LFQ feature and the clinical MRI-PDFF fat fraction obtained from the subject's medical record. A higher HRI value indicates greater liver fat accumulation, which reflects a worse outcome, while a lower HRI suggests less hepatic fat and a better outcome."||||
92456986|NCT04657523|184803444|OTHER|To account for within subject variance in repeated measures by two different operators, a method with MIXED model for repeated measurements was used to estimate the correlation between two techniques with repeated measures. An unstructured covariance matrix was used.|Mixed Model|0.5944|||||TWO_SIDED|||||||||"To assess the correlation between quantitative ultrasound biomarker Hepatorenal Index (HRI) derived from the investigational LFQ feature and the clinical MRI-PDFF fat fraction obtained from the subject's medical record. A higher HRI value indicates greater liver fat accumulation, which reflects a worse outcome, while a lower HRI suggests less hepatic fat and a better outcome."||||
92456987|NCT04657523|184803445|OTHER|Pearson correlation coefficient was calculated based on all measurements assuming independency.|Pearson correlation coefficient|0.6824|||||TWO_SIDED|||||||||"To assess the correlation between quantitative ultrasound biomarker Acoustic attenuation  derived from the investigational LFQ feature and the clinical MRI-PDFF fat fraction obtained from the subject's medical record."||||
92456988|NCT04657523|184803445|OTHER|Pearson correlation coefficient was calculated based on the subject averages of multiple measurements.|Pearson correlation coefficient|0.7331|||||TWO_SIDED|||||||||"To assess the correlation between quantitative ultrasound biomarker Acoustic attenuation  derived from the investigational LFQ feature and the clinical MRI-PDFF fat fraction obtained from the subject's medical record."||||
92456989|NCT04657523|184803445|OTHER|To account for within subject variance in repeated measures by two different operators, a method with MIXED model for repeated measurements was used to estimate the correlation between two techniques with repeated measures. An unstructured covariance matrix was used.|Correlation estimated from a mixed model|0.7066|||||TWO_SIDED|||||||||"To assess the correlation between quantitative ultrasound biomarker Acoustic attenuation  derived from the investigational LFQ feature and the clinical MRI-PDFF fat fraction obtained from the subject's medical record."||||
92456990|NCT04657523|184803446|OTHER|Pearson correlation coefficient was calculated based on all observations assuming independency.|Pearson correlation coefficient|-0.0539|||||TWO_SIDED|||||||||"To assess the correlation between quantitative ultrasound biomarker Tissue stiffness derived from the investigational LFQ feature and the clinical MRI-PDFF fat fraction obtained from the subject's medical record."||||
92243543|NCT00960934|184389973|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|4.02||||0.397|TWO_SIDED|95.0|-5.31|13.36||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||13.36|-5.31|0.397
92456991|NCT04657523|184803446|OTHER|Pearson correlation coefficient was calculated based on the subject averages of multiple measurements.|Pearson correlation coefficient|-0.0622|||||TWO_SIDED|||||||||"To assess the correlation between quantitative ultrasound biomarker Tissue stiffness derived from the investigational LFQ feature and the clinical MRI-PDFF fat fraction obtained from the subject's medical record."||||
92456992|NCT04657523|184803446|OTHER|To account for within subject variance in repeated measures by two different operators, a method with MIXED model for repeated measurements was used to estimate the correlation between two techniques with repeated measures. An unstructured covariance matrix was used.|Correlation estimated from a mixed model|-0.0574|||||TWO_SIDED|||||||||"To assess the correlation between quantitative ultrasound biomarker Tissue stiffness derived from the investigational LFQ feature and the clinical MRI-PDFF fat fraction obtained from the subject's medical record."||||
92456993|NCT04657523|184803447|OTHER|The Intra-class Correlation Coefficient (ICC) was calculated to test the same day inter-operator reliability. The estimated inter-operator correlation coefficient and the corresponding 95% confidence interval were reported.|Intra-class Correlation Coefficient|0.77|||||TWO_SIDED|95.0|0.64|0.86||||||To assess the difference in quantitative ultrasound biomarker measurements which acquired from the same subject on the same day by two different operators who have undergone standardized training for LFQ data acquisition.||0.86|0.64|
92174037|NCT04064164|184239520|EQUIVALENCE|Pearson's Chi-square test was completed between the total instances of diminutives either identified by human or the Elderspeak App. Significant associations indicated the human and app were accurately identifying true positives (1:1) or true negatives (0:0).|||||<|0.001||||||Sweet (root word)|Chi-squared|X-squared = 20.20 df=1||||||<.001
92456994|NCT04657523|184803448|OTHER|The proportion of subjects who have at least one unacceptable image quality due to inadequate acoustic scanning windows, motion artifacts, or other technical limitations and the associated 2-sided 95% binomial confidence intervals were calculated and summarized by each operator and overall.|Proportion|1.7|||||TWO_SIDED|95.0|0.0|4.9||||||"To evaluate the LFQ data acquisition failure rate for the biomarker Hepatorenal Index (HRI)"||4.9|0|
92456995|NCT04657523|184803449|OTHER|The proportion of subjects who have at least one unacceptable image quality due to inadequate acoustic scanning windows, motion artifacts, or other technical limitations and the associated 2-sided 95% binomial confidence intervals were calculated and summarized by each operator and overall.|Proportion|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||"To evaluate the LFQ data acquisition failure rate for the biomarker Acoustic attenuation (dB/cm/MHZ)"||0|0|
92456996|NCT04657523|184803450|OTHER|The proportion of subjects who have at least one unacceptable image quality due to inadequate acoustic scanning windows, motion artifacts, or other technical limitations and the associated 2-sided 95% binomial confidence intervals were calculated and summarized by each operator and overall.|Proportion|1.7|||||TWO_SIDED|95.0|0.0|4.9||||||"To evaluate the LFQ data acquisition failure rate for the biomarker Tissue stiffness (kPa)"||4.9|0.0|
92456997|NCT04657523|184803451|OTHER|The Intra-class Correlation Coefficient (ICC) was calculated to assess the same day inter-operator reliability. The estimated inter-operator correlation coefficient and the corresponding 95% confidence interval were reported.|Intra-class Correlation Coefficient|0.74|||||TWO_SIDED|95.0|0.6|0.84||||||To assess the difference in quantitative ultrasound biomarker Acoustic attenuation measurements which acquired from the same subject on the same day by two different operators who have undergone standardized training for LFQ data acquisition.||0.84|0.60|
92456998|NCT04657523|184803452|OTHER|The Intra-class Correlation Coefficient (ICC) was calculated to test the inter-operator reliability. The estimated inter-operator correlation coefficient and the corresponding 95% confidence interval were reported|Intra-class Correlation Coefficient|0.51|||||TWO_SIDED|95.0|0.3|0.67||||||To assess the difference in quantitative ultrasound biomarker measurements which acquired from the same subject on the same day by two different operators who have undergone standardized training for LFQ data acquisition.||0.67|0.30|
92456999|NCT05339087|184803508|SUPERIORITY|||||||0.043|||||||ANCOVA|baseline value as covariate||||||0.043
92457000|NCT05339087|184803508|OTHER|Sensitivity analysis||||||0.045|||||||Multiple imputation|||||||0.045
92457001|NCT05339087|184803509|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.116|TWO_SIDED|95.0|-0.64|0.08|||t-test, 2 sided|||Secondary endpoints statistically analyzed by a hierarchical testing strategy.||0.08|-0.64|0.116
92457002|NCT04216329|184803623|OTHER|||||||0.02|||||||Students t-test|||||||0.02
92457003|NCT04216329|184803623|OTHER|||||||0.07||||||P-value 0.07 represents the difference between baseline depression scores and completion of treatment scores.|Students t-test|||||||0.07
92457004|NCT04216329|184803623|OTHER|||||||0.02|||||||Students t-test|||||||0.02
92457005|NCT04216329|184803623|OTHER|||||||0.07||||||P-value 0.07 represents the difference between baseline depression scores and completion of treatment scores.|Students t-test|||||||0.07
92457006|NCT04216329|184803623|OTHER|||||||0.02|||||||Students t-test|||||||0.02
92457007|NCT04216329|184803623|OTHER|||||||0.07||||||P-value 0.07 represents the difference between baseline depression scores and completion of treatment scores.|Students t-test|||||||0.07
92174038|NCT04064164|184239520|EQUIVALENCE|Pearson's Chi-square test was completed between the total instances of diminutives either identified by human or the Elderspeak App.||||||0.02||||||Girl (root word)|Chi-squared|X-squared = 5.08, df=1||||||.02
92174039|NCT04064164|184239520|EQUIVALENCE|Pearson's Chi-square test was completed between the total instances of diminutives either identified by human or the Elderspeak App.||||||0.1||||||Honey (root word)|Chi-squared|X-squared = 2.7, df= 1||||||.10
92457008|NCT04216329|184803625|OTHER|||||||0.09|||||||Students t-test|||||||0.09
92457009|NCT04216329|184803625|OTHER|||||||0.09|||||||Students t-test|||||||0.09
92457010|NCT04216329|184803625|OTHER|||||||0.09|||||||Students t-test|||||||0.09
92457011|NCT04322097|184803723|EQUIVALENCE|Alpha = 0.05||||||0.8|||||||t-test, 2 sided|||||||.80
92457012|NCT04322097|184803724|EQUIVALENCE|Alpha = 0.05||||||0.94|||||||t-test, 2 sided|||||||0.94
92457013|NCT02617563|184803761|EQUIVALENCE|ANCOVA was performed with baseline ODI as covariate, and two-sided 95% confidence interval (CI) for the least square mean difference of ODI improvement between two groups was calculated to test the hypothesis for the primary objective|Difference of Least Square Means|-1.76||||0.426|TWO_SIDED|95.0|-6.11|2.59|||ANCOVA|||||2.59|-6.11|0.426
92457014|NCT03879577|184803791|SUPERIORITY||Percentage|53.2|||<|0.001|TWO_SIDED|95.0|38.1|67.9|||Exact binomial|||||67.9|38.1|<0.001
92457015|NCT03879577|184803795|OTHER||Mean Difference (Net)|-0.57||||0.0014|TWO_SIDED|95.0|-0.91|-0.24|||t-test, 2 sided|Paired t-test||||-0.24|-0.91|0.0014
92457016|NCT03879577|184803796|OTHER||Mean Difference (Net)|-0.49||||0.023|TWO_SIDED|95.0|-0.91|-0.07|||t-test, 2 sided|Paired t-test||||-0.07|-0.91|0.023
92457017|NCT03879577|184803797|OTHER||Mean Difference (Net)|0.14||||0.44|TWO_SIDED|95.0|-0.22|0.49|||t-test, 2 sided|Paired t-test.||||0.49|-0.22|0.44
92457018|NCT03879577|184803798|OTHER||Mean Difference (Net)|0.22||||0.46|TWO_SIDED|95.0|-0.37|0.8|||t-test, 2 sided|Paired t-test||||0.80|-0.37|0.46
92457019|NCT04564339|184803814|SUPERIORITY||Percentage Difference|-30.1||||0.0053|TWO_SIDED|90.0|-43.5|-13.7|||ANCOVA|||||-13.7|-43.5|0.0053
92457020|NCT04564339|184803815|SUPERIORITY||Percentage Difference|-8.4||||0.8036|TWO_SIDED|90.0|-48.6|63.2|||ANCOVA|||||63.2|-48.6|0.8036
92457021|NCT03972488|184803875|SUPERIORITY||Hazard Ratio (HR)|0.276|||<|0.0001|TWO_SIDED|95.0|0.182|0.418|||Log Rank|Stratified one-sided P-value||||0.418|0.182|<0.0001
92457022|NCT03972488|184803876|SUPERIORITY||Stratified Odds Ratio|7.81|||<|0.0001|TWO_SIDED|95.0|3.32|18.4|||Stratified One-sided p-value|||||18.40|3.32|<0.0001
92457023|NCT03972488|184803877|SUPERIORITY||Hazard Ratio (HR)|0.856||||0.2222|TWO_SIDED|95.0|0.57|1.283|||Log Rank|Stratified one-sided P-value||Global Health Status||1.283|0.570|0.2222
92174040|NCT04064164|184239520|EQUIVALENCE|Pearson's Chi-square test was completed between the total instances of diminutives either identified by human or the Elderspeak App.||||||0.85||||||Baby (root word)|Chi-squared|X-squared = 12.2, df = 1||||||0.85
92182975|NCT02434328|184264731|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-5.7|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||2.6|-5.7|
92182976|NCT02434328|184264731|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-4.9|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||3.2|-4.9|
92182977|NCT02434328|184264732|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-3.5|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.5|-3.5|
92182978|NCT02434328|184264732|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-4.4|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||3.4|-4.4|
92243544|NCT01332019|184389986|SUPERIORITY_OR_OTHER||rate ratio|0.755||||0.0203|TWO_SIDED|95.0|0.595|0.957||q2w/q4w|negative binomial regression|||Based on negative binomial regression for each treatment group, with adjustment for EDSS (\<4 vs. \>=4), relapse rate (based on 1 year before 105MS301 and 105MS301), and age (\<40 vs. \>=40) at 105MS302 baseline.||0.957|0.595|0.0203
92243545|NCT01332019|184389987|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.0201|TWO_SIDED|95.0|0.59|0.96||Based on Cox proportion hazards model, adjusted for EDSS (\<4 vs \>= 4), age (\<40 vs \>=40), relapse rate (based on one year before 105MS301 and 105MS301), and gadolinium (Gd) enhancing lesions (presence vs. absence) at 105MS302 baseline.|Cox proportion hazards model|||q2w/q4w||0.96|0.59|0.0201
92243546|NCT01332019|184389988|SUPERIORITY_OR_OTHER||lesion mean ratio|0.51|||<|0.0001|TWO_SIDED|95.0|0.41|0.63||Lesion mean ratio (95% CI) and p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on negative binomial regression, adjusted for 105MS302 baseline number of T2 lesions.|negative binomial regression|||Week 48||0.63|0.41|<0.0001
92243547|NCT01332019|184389988|SUPERIORITY_OR_OTHER||lesion mean ratio|0.49|||<|0.0001|TWO_SIDED|95.0|0.39|0.62||Lesion mean ratio (95% CI) and p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on negative binomial regression, adjusted for 302 baseline number of T2 lesions.|negative binomial regression|||Week 96||0.62|0.39|<0.0001
92243548|NCT01332019|184389989|SUPERIORITY_OR_OTHER||lesion mean ratio|0.54|||<|0.0001|TWO_SIDED|95.0|0.43|0.68||Lesion mean ratio (95% CI) and p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on negative binomial regression, adjusted for 105MS302 baseline number of Gd lesions.|negative binomial regression|||Week 48||0.68|0.43|<0.0001
92457024|NCT04526665|184803896|OTHER||Odds Ratio (OR)|37.562|||<|0.0001|TWO_SIDED|95.0|7.641|302.247|||Exact Cochran-Mantel-Haenszel test|Exact Cochran-Mantel-Haenszel test stratified by the randomization factors (ALP \>3xULN or TB\>ULN:Yes/No, and Baseline PBC Worst Itch NRS ≥ 4: Yes/No)||||302.247|7.641|<0.0001
92457025|NCT04526665|184803898|OTHER||Least square mean difference|-0.784||||0.197|TWO_SIDED|95.0|-1.986|0.418|||mixed model for repeated measures (MMRM)|||||0.418|-1.986|0.1970
92457026|NCT04526665|184803899|OTHER||Least square mean difference|-0.343||||0.5522|TWO_SIDED|95.0|-1.489|0.803|||MMRM|MMRM with treatment, 4-week period and treatment by 4-week period interaction as fixed factors and adjusting for baseline and stratification factors.||||0.803|-1.489|0.5522
92457027|NCT07004010|184803972|OTHER||||||<|0.001|||||||Friedman|||This statistical analysis pertains to the right dermis and evaluates the trend across baseline, Week 6, and Week 12.||||<0.001
92457028|NCT07004010|184803972|OTHER||||||<|0.001|||||||Friedman|||This statistical analysis pertains to the left dermis and evaluates the trend across baseline, Week 6, and Week 12.||||<0.001
92457029|NCT07004010|184803972|OTHER||||||<|0.001|||||||Repeated measure|||This statistical analysis pertains to the right hypodermis and evaluates the trend across baseline, Week 6, and Week 12.||||<0.001
92457030|NCT07004010|184803973|OTHER|||||||0.264|||||||Repeated measure|||||||0.264
92457031|NCT07004010|184803974|OTHER|||||||0.278|||||||Repeated measure|||Right thigh||||0.278
92457032|NCT07004010|184803974|OTHER|||||||0.061|||||||Repeated measure|||Left thigh||||0.061
92457033|NCT07004010|184803975|OTHER||||||<|0.001|||||||Repeated measure|||Right caliper||||<0.001
92243549|NCT01332019|184389989|SUPERIORITY_OR_OTHER||lesion mean ratio|0.55|||<|0.0001|TWO_SIDED|95.0|0.43|0.71||Lesion mean ratio (95% CI) and p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on negative binomial regression, adjusted for 105MS302 baseline number of Gd lesions.|negative binomial regression|||Week 96||0.71|0.43|<0.0001
92457034|NCT07004010|184803975|OTHER||||||<|0.001|||||||Repeated measure|||Left caliper||||<0.001
92457035|NCT07004010|184803976|OTHER||||||<|0.001|||||||Repeated measure|||||||<0.001
92457036|NCT07004010|184803977|OTHER|||||||0.894|||||||Wilcoxon (Mann-Whitney)|||||||0.894
92457037|NCT03299166|184804035|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.81||0.2202|TWO_SIDED|95.0|-2.59|0.6|||Mixed Models Analysis|||Model-based summary statistics are from a mixed model with repeated measures, including fixed effects for treatment, visit, treatment-by-visit interaction, baseline score, baseline score-by-visit interaction as covariates, and participant as random effect.||0.60|-2.59|0.2202
92457038|NCT03299166|184804042|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.61||0.4508|TWO_SIDED|95.0|-1.67|0.75|||Mixed Models Analysis|||"Week 4 Analysis.~Model-based summary statistics are from a mixed model with repeated measures, including fixed effects for treatment, visit, treatment-by-visit interaction, baseline score, baseline score-by-visit interaction as covariates, and participant as random effect."||0.75|-1.67|0.4508
92457039|NCT03299166|184804042|SUPERIORITY||LS Mean Difference|-1.54|STANDARD_ERROR_OF_MEAN|0.75||0.041|TWO_SIDED|95.0|-3.02|-0.06|||Mixed Models Analysis|||"Week 8 Analysis.~Model-based summary statistics are from a mixed model with repeated measures, including fixed effects for treatment, visit, treatment-by-visit interaction, baseline score, baseline score-by-visit interaction as covariates, and participant as random effect."||-0.06|-3.02|0.0410
92457040|NCT02408861|184804047|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||1.000
92457041|NCT02408861|184804047|SUPERIORITY|||||||0.6719|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline toend of 46 cycles of treatment+ 6 weeks||||0.6719
92457042|NCT02408861|184804047|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||0.5000
92457043|NCT02408861|184804047|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||1.000
92457044|NCT02408861|184804047|SUPERIORITY|||||||0.1475|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||0.1475
92457045|NCT02408861|184804047|SUPERIORITY|||||||0.042|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||0.0420
92457046|NCT02408861|184804047|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||1.000
92174041|NCT01000961|184239521|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority endpoint of the clinical trial would be achieved if the upper limit of the 95.8% CI of the difference between RP103 and Cystagon® was less than the a-priori 0.3 non-inferiority margin, which would correspond to an observed p-value less than or equal to 0.02104|Mean Difference (Final Values)|0.0785||||0.0001|TWO_SIDED|95.8|0.0107|0.1464|||t-test, 1 sided||95.8% confidence interval was used instead of 95% to take into account a sample size re-estimation calculation that was performed after 20 patients were enrolled.|16-subject study will have 90% power to reject the null hypothesis of non-inferiority at the 0.025 level of significance with a non-inferiority margin of 0.3. Final analysis was performed at a nominal significance level of 0.02104.||0.1464|0.0107|0.0001
92174042|NCT01000961|184239522|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.4|||||TWO_SIDED|95.0|1.17|1.67||||||||1.67|1.17|
92174043|NCT01000961|184239523|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|105.0|||||TWO_SIDED|95.0|90.0|150.0||||||||150|90|
92174044|NCT01000961|184239524|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.03|||||TWO_SIDED|95.0|1.75|2.39||||||||2.39|1.75|
92174045|NCT02023866|184239543|OTHER|||||||0.1875|||||||Wilcoxon Signed Rank|||Section I - Current Function Null hypothesis = change from baseline is 0.||||0.1875
92174046|NCT02023866|184239543|OTHER|||||||1|||||||Wilcoxin Signed Rank|||Section II - System Specific Involvement Null hypothesis = change from baseline is 0.||||1.0000
92243550|NCT01332019|184389990|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on multiple logit regression, adjusted for 302 baseline number of T1 lesions.|Regression, Logistic|||Week 48||||<0.0001
92174047|NCT02023866|184239543|OTHER|||||||0.0781|||||||Wilcoxin Signed Rank|||Section III - Current Clinical Assessment Null hypothesis = change from baseline is 0.||||0.0781
92174048|NCT02023866|184239543|OTHER|||||||0.2941|||||||t-test, 2 sided|One-sample t-test||Section IV - Quality of Life Null hypothesis = change from baseline is 0.||||0.2941
92174049|NCT04114877|184239620|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|Linear mixed models||||||>0.05
92174050|NCT04114877|184239621|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|Linear mixed models||||||>0.05
92174051|NCT04114877|184239622|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|Linear mixed models||||||>0.05
92174052|NCT04114877|184239623|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|Linear mixed models||||||>0.05
92174053|NCT04114877|184239624|SUPERIORITY|||||||0.455|||||||Fisher Exact|||||||0.455
92174054|NCT04709783|184239633|OTHER|One group pre-post test.|Median Difference (Final Values)|-2.67||||0.01|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.01
92174055|NCT04709783|184239634|OTHER||Median Difference (Final Values)|-2.49||||0.01|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.01
92174056|NCT04709783|184239635|OTHER||Median Difference (Final Values)|-1.84||||0.07|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.07
92174057|NCT04709783|184239636|OTHER||Median Difference (Final Values)|-2.37||||0.02|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.02
92174058|NCT05089734|184239642|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0534|TWO_SIDED|95.0|0.68|1.04||Stratified log-rank test adjusted for stratification factors: histology and best response to last prior immune therapy received.|Log Rank|||||1.04|0.68|0.0534
92174059|NCT05089734|184239643|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.1938|TWO_SIDED|95.0|0.77|1.11||Stratified log-rank test adjusted for stratification factors: histology and best response to last prior immune therapy received.|Log Rank|||||1.11|0.77|0.1938
92174060|NCT05089734|184239644|SUPERIORITY||Difference in Proportions|-4.3||||0.9255|TWO_SIDED|95.0|-10.1|1.5||The 1-sided p-value is calculated using Cochran Mantel-Haenszel test adjusted for randomization stratification factors of histology, and best response to last prior immune therapy received.|Cochran-Mantel-Haenszel|||||1.5|-10.1|0.9255
92174061|NCT05089734|184239649|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.002|TWO_SIDED|95.0|0.61|0.91||Stratified log-rank test adjusted for stratification factors: histology and best response to last prior immune therapy received.|Log Rank|||||0.91|0.61|0.0020
92174062|NCT05089734|184239650|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0125|TWO_SIDED|95.0|0.66|0.97||Stratified log-rank test adjusted for stratification factors: histology and best response to last prior immune therapy received.|Log Rank|||||0.97|0.66|0.0125
92174063|NCT06132867|184239657|OTHER|A linear mixed-effects analysis of variance model was used for the analysis. The model included sequence, treatment, and period as fixed effects and participants nested within sequence as a random effect. Geometric mean ratios and 90 percent (%) confidence intervals (CIs) were calculated using the exponentiation of the difference between treatment least square means (LSM) from the analyses on the natural log-transformed of Cmax.|Geometric Mean Ratio (GMR) (%)|92.2|||||TWO_SIDED|90.0|86.98|97.74|||||GMR (%) was calculated as 100\*(Treatment A/Treatment B).|||97.74|86.98|
92182979|NCT02434328|184264732|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-5.0|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||3.1|-5.0|
92182980|NCT02434328|184264732|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-1.9|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||6.2|-1.9|
92182981|NCT02434328|184264732|OTHER||Difference in proportions|3.7|||||TWO_SIDED|95.0|-0.4|7.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||7.8|-0.4|
92174064|NCT06132867|184239658|OTHER|A linear mixed-effects analysis of variance model was used for the analysis. The model included sequence, treatment, and period as fixed effects and participants nested within sequence as a random effect. Geometric mean ratios and 90% CIs were calculated using the exponentiation of the difference between treatment LSM from the analyses on the natural log-transformed of AUClast.|GMR (%)|96.0|||||TWO_SIDED|90.0|88.48|104.16|||||GMR (%) was calculated as 100\*(Treatment A/Treatment B).|||104.16|88.48|
92243551|NCT01332019|184389990|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on multiple logit regression, adjusted for 302 baseline number of T1 lesions.|Regression, Logistic|||Week 96||||<0.0001
92243552|NCT01332019|184389991|SUPERIORITY_OR_OTHER|||||||0.0012||||||p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on multiple logit regression, adjusted for 302 baseline number of Gd-enhancing lesion.|Regression, Logistic|||Week 48||||0.0012
92457047|NCT02408861|184804047|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||0.5000
92457048|NCT02408861|184804047|SUPERIORITY|||||||0.1563|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||0.1563
92457049|NCT02408861|184804047|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||1.000
92457050|NCT02408861|184804047|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||1.000
92457051|NCT02408861|184804047|SUPERIORITY|||||||0.2324|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to post-treatment last visit||||0.2324
92457052|NCT02408861|184804047|SUPERIORITY|||||||0.1016|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||0.1016
92457053|NCT02408861|184804047|SUPERIORITY|||||||0.8125|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 6 weeks||||0.8125
92457054|NCT02408861|184804048|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.5000
92243553|NCT01332019|184389991|SUPERIORITY_OR_OTHER|||||||0.0026||||||p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on multiple logit regression, adjusted for 302 baseline number of Gd-enhancing lesion.|Regression, Logistic|||Week 96||||0.0026
92457055|NCT02408861|184804048|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.5000
92457056|NCT02408861|184804048|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.2500
92457057|NCT02408861|184804048|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||1.000
92457058|NCT02408861|184804048|SUPERIORITY|||||||0.2061|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.2061
92457059|NCT02408861|184804048|SUPERIORITY|||||||0.0547|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.0547
92457060|NCT02408861|184804048|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in CD4+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||1.000
92457061|NCT02408861|184804048|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.5000
92457062|NCT02408861|184804048|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.500
92457063|NCT02408861|184804048|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.500
92457064|NCT02408861|184804048|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||1.000
92457065|NCT02408861|184804048|SUPERIORITY|||||||0.0195|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.0195
92457066|NCT02408861|184804048|SUPERIORITY|||||||0.0234|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.0234
92457067|NCT02408861|184804048|SUPERIORITY|||||||0.4375|||||||Wilcoxon (Mann-Whitney)|||Changes in CD8+ T-cell counts from baseline to end of 46 cycles of treatment+ 16 weeks||||0.4375
92457068|NCT02408861|184804049|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in HIV viral load from baseline to end of 46 cycles of treatment+ 6 weeks||||1.000
92457069|NCT02408861|184804049|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in HIV viral load from baseline to end of 46 cycles of treatment+ 6 weeks||||1.000
92457070|NCT02408861|184804049|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5000
92457071|NCT02408861|184804049|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Changes in HIV viral load from baseline to end of 46 cycles of treatment+ 6 weeks||||0.5000
92457072|NCT02408861|184804049|SUPERIORITY|||||||0.625|||||||Wilcoxon (Mann-Whitney)|||Changes in HIV viral load from baseline to end of 46 cycles of treatment+ 6 weeks||||0.6250
92457073|NCT02408861|184804049|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in HIV viral load from baseline to end of 46 cycles of treatment+ 6 weeks||||1.000
92457074|NCT02408861|184804050|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in HIV viral load from baseline to end of 46 cycles of treatment+ 16 weeks||||1.000
92174065|NCT06132867|184239659|OTHER|A linear mixed-effects analysis of variance model was used for the analysis. The model included sequence, treatment, and period as fixed effects and participants nested within sequence as a random effect. Geometric mean ratios and 90% CIs were calculated using the exponentiation of the difference between treatment LSM from the analyses on the natural log-transformed of AUCinf.|GMR (%)|95.84|||||TWO_SIDED|90.0|88.81|103.42|||||GMR (%) was calculated as 100\*(Treatment A/Treatment B).|||103.42|88.81|
92174066|NCT04222660|184239661|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92174067|NCT04222660|184239662|OTHER||||||<|0.0025|||||||t-test, 2 sided|||||||<0.0025
92174068|NCT04222660|184239663|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92174069|NCT04222660|184239664|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92174070|NCT04222660|184239665|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92174071|NCT04222660|184239666|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92174072|NCT04222660|184239667|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92174073|NCT04222660|184239668|OTHER||||||<|0.0017|||||||t-test, 2 sided|||||||<0.0017
92174074|NCT04222660|184239669|OTHER||||||<|0.0195|||||||t-test, 2 sided|||||||<0.0195
92243554|NCT01332019|184389997|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.57||||0.006|TWO_SIDED|95.0|0.38|0.85||Based on Cox Proportional Hazards model, adjusted for 105MS302 baseline EDSS and age (\<40 vs \>=40).|Cox Proportional Hazards model||q2w/q4w|||0.85|0.38|0.0060
92457075|NCT02408861|184804050|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Changes in HIV viral load from baseline to end of 46 cycles of treatment+ 16 weeks||||0.7500
92457076|NCT02408861|184804050|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Changes in HIV viral load from baseline to end of 46 cycles of treatment+ 16 weeks||||1.000
92457077|NCT04814654|184804060|SUPERIORITY|||||||0.989|||||||Chi-squared|||||||0.989
92457078|NCT04814654|184804060|SUPERIORITY||Odds Ratio (OR)|1.02||||0.949|TWO_SIDED|95.0|0.6|1.74|||Regression, Logistic|||||1.74|0.60|0.949
92457079|NCT04814654|184804060|SUPERIORITY||Odds Ratio (OR)|1.04||||0.882|TWO_SIDED|95.0|0.61|1.78|||Regression, Logistic|||||1.78|0.61|0.882
92457080|NCT04814654|184804061|SUPERIORITY|||||||0.0726|||||||Chi-squared|||||||.0726
92457081|NCT04814654|184804062|SUPERIORITY|||||||0.918|||||||Kruskal-Wallis|||12 month timepoint||||0.918
92457082|NCT04814654|184804062|SUPERIORITY|||||||0.948|||||||Kruskal-Wallis|||||||0.948
92457083|NCT04814654|184804062|SUPERIORITY|||||||0.0766|||||||Kruskal-Wallis|||||||.0766
92457084|NCT04814654|184804063|SUPERIORITY|||||||0.1839|||||||Chi-squared|||12 months||||0.1839
92457085|NCT04814654|184804063|SUPERIORITY|||||||0.127|||||||Chi-squared|||18 months||||.127
92457086|NCT04814654|184804064|SUPERIORITY|||||||0.7313|||||||Chi-squared|||||||0.7313
92457087|NCT04814654|184804065|SUPERIORITY|||||||0.1839|||||||Chi-squared|||||||0.1839
92457088|NCT04814654|184804066|SUPERIORITY|||||||0.2667|||||||Fisher Exact|||||||0.2667
92457089|NCT04814654|184804067|SUPERIORITY|||||||0.999|||||||Fisher Exact|||||||0.999
92457090|NCT04814654|184804068|SUPERIORITY|||||||0.1414|||||||Chi-squared|||||||0.1414
92457091|NCT04814654|184804069|SUPERIORITY|||||||0.425|||||||Chi-squared|||||||0.425
92457092|NCT04814654|184804081|SUPERIORITY|||||||0.9183|||||||Kruskal-Wallis|||||||0.9183
92457093|NCT03091192|184804110|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.313|TWO_SIDED|95.0|0.37|1.36|||Log Rank|||||1.36|0.37|0.313
92457094|NCT03091192|184804111|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.11|TWO_SIDED|95.0|0.21|1.17|||Log Rank||A hazard ratio \< 1 favours Savolitinib|||1.17|0.21|0.110
92457095|NCT06680206|184804116|OTHER||||||=|0.928|||||||Fisher Exact|||||||=0.928
92457096|NCT06680206|184804117|OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92457097|NCT06680206|184804118|OTHER||||||=|0.895|||||||t-test, 2 sided|||||||=0.895
92457098|NCT06680206|184804119|OTHER||||||=|0.463|||||||Chi-squared|||1 drug class||||=0.463
92457099|NCT06680206|184804119|OTHER||||||=|0.463|||||||Chi-squared|||2 or more drug classes||||=0.463
92457100|NCT06680206|184804119|OTHER||||||=|0.644|||||||Chi-squared|||3 or more drug classes||||=0.644
92457101|NCT06680206|184804120|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92457102|NCT06680206|184804121|OTHER||||||<|0.001|||||||Chi-squared|||1 drug class||||<0.001
92457103|NCT06680206|184804121|OTHER||||||<|0.001|||||||Chi-squared|||2 or more drug classes||||<0.001
92457104|NCT06680206|184804121|OTHER||||||<|0.001|||||||Chi-squared|||3 or more drug classes||||<0.001
92457105|NCT06680206|184804122|OTHER||||||<|0.001|||||||Fisher Exact|||Nurtec (rimegepant) only||||<0.001
92457106|NCT06680206|184804122|OTHER||||||<|0.001|||||||Fisher Exact|||Triptans||||<0.001
92457107|NCT06680206|184804122|OTHER||||||=|0.746|||||||Chi-squared|||NSAIDs||||=0.746
92457108|NCT06680206|184804122|OTHER||||||=|0.319|||||||Chi-squared|||Opioids||||=0.319
92457109|NCT06680206|184804122|OTHER||||||=|0.223|||||||Fisher Exact|||Barbiturates||||=0.223
92457110|NCT06680206|184804122|OTHER||||||=|0.791|||||||Fisher Exact|||Ergots||||=0.791
92457111|NCT06680206|184804122|OTHER||||||<|0.001|||||||Chi-squared|||Gepants (acute; including Nurtec)||||<0.001
92457112|NCT06680206|184804122|OTHER||||||=|1|||||||Fisher Exact|||Ditan||||=1.000
92457113|NCT06680206|184804122|OTHER||||||=|0.447|||||||Chi-squared|||Combination analgesics||||=0.447
92457114|NCT06680206|184804122|OTHER||||||=|1|||||||Fisher Exact|||Other (acute treatment)||||=1.000
92457115|NCT06680206|184804122|OTHER||||||<|0.001|||||||Chi-squared|||Prevention agents||||<0.001
92457116|NCT06680206|184804122|OTHER||||||=|0.661|||||||Chi-squared|||Anticonvulsants||||=0.661
92457117|NCT06680206|184804122|OTHER||||||=|0.315|||||||Fisher Exact|||Beta blocker||||=0.315
92457118|NCT06680206|184804122|OTHER||||||=|0.377|||||||Chi-squared|||Antidepressant||||=0.377
92457119|NCT06680206|184804122|OTHER||||||=|0.093|||||||Chi-squared|||CGRP mAb||||=0.093
92457120|NCT06680206|184804122|OTHER||||||=|0.041|||||||Chi-squared|||Botox||||=0.041
92457121|NCT06680206|184804122|OTHER||||||<|0.001|||||||Chi-squared|||Gepant (prevention treatment including Nurtec)||||<0.001
92457122|NCT06680206|184804123|OTHER||||||=|0.03|||||||Fisher Exact|||Current migraine satisfactions - Acute agents||||=0.030
92457123|NCT06680206|184804123|OTHER||||||=|0.518|||||||Fisher Exact|||Current migraine satisfactions - NSAIDs||||=0.518
92174075|NCT04318548|184239702|NON_INFERIORITY|NI was to be demonstrated if the lower limit (LL) of the 2-sided 95% CI of the GMT ratio between the MenB+MenACWY group and MenB group for hSBA titers against M14459 (fHbp) strain was above (\>) 0.5|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.77|1.06|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority (NI) of the antibody response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis serogroup B indicator strains at one month after the second vaccination with rMenB+OMV NZ (at Day 91).||1.06|0.77|
92174076|NCT04318548|184239702|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the GMT ratio between the MenB+MenACWY group and MenB group for hSBA titers against 96217 (NadA) strain was \>0.5|GMT Ratio|0.88|||||TWO_SIDED|95.0|0.75|1.04|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis serogroup B indicator strains at one month after the second vaccination with rMenB+OMV NZ (at Day 91).||1.04|0.75|
92457124|NCT06680206|184804123|OTHER||||||=|0.184|||||||Fisher Exact|||Current migraine satisfactions - Opioids||||=0.184
92457125|NCT06680206|184804123|OTHER||||||=|0.333|||||||Fisher Exact|||Current migraine satisfactions - Barbiturates||||=0.333
92457126|NCT06680206|184804123|OTHER||||||<|0.001|||||||Fisher Exact|||Current migraine satisfactions - Ergots||||<0.001
92457127|NCT06680206|184804123|OTHER||||||<|0.001|||||||Fisher Exact|||Current migraine satisfactions - Gepants (acute; including Nurtec)||||<0.001
92457128|NCT06680206|184804123|OTHER||||||=|0.68|||||||Fisher Exact|||Current migraine satisfactions - Combination Analgesics||||=0.680
92457129|NCT06680206|184804123|OTHER||||||=|0.011|||||||Fisher Exact|||Current migraine satisfactions - Other (Acute treatment)||||=0.011
92457130|NCT06680206|184804123|OTHER||||||<|0.001|||||||Fisher Exact|||Current migraine satisfactions - Prevention agents||||<0.001
92457131|NCT06680206|184804123|OTHER||||||=|0.314|||||||Fisher Exact|||Current migraine satisfactions - Anticonvulsants||||=0.314
92457132|NCT06680206|184804123|OTHER||||||=|0.89|||||||Fisher Exact|||Current migraine satisfactions - Beta-blockers||||=0.890
92183118|NCT02434328|184264741|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-4.4|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.4|-4.4|
92183119|NCT02434328|184264741|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-6.2|2.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||2.1|-6.2|
92183120|NCT02434328|184264741|OTHER||Difference in proportions|2.6|||||TWO_SIDED|95.0|-1.2|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||6.5|-1.2|
92457133|NCT06680206|184804123|OTHER||||||=|0.055|||||||Fisher Exact|||Current migraine satisfactions - Antidepressants||||=0.055
92457134|NCT06680206|184804123|OTHER||||||=|0.016|||||||Fisher Exact|||Current migraine satisfactions - CGRPs mAb||||=0.016
92457135|NCT06680206|184804123|OTHER||||||=|0.079|||||||Fisher Exact|||Current migraine satisfactions - Botox||||=0.079
92457136|NCT06680206|184804123|OTHER||||||=|0.079|||||||Fisher Exact|||Current migraine satisfactions - Gepant (prevention treatment including Nurtec)||||=0.079
92457137|NCT06680206|184804124|OTHER||||||=|0.011|||||||Chi-squared|||Analgesics (acetaminophen only)||||=0.011
92457138|NCT06680206|184804124|OTHER||||||=|0.421|||||||Chi-squared|||Analgesics (Combination)||||=0.421
92457139|NCT06680206|184804124|OTHER||||||=|0.636|||||||Chi-squared|||NSAIDs||||=0.636
92457140|NCT06680206|184804124|OTHER||||||=|1|||||||Fisher Exact|||Other||||=1.000
92457141|NCT06680206|184804125|OTHER||||||=|0.05|||||||Fisher Exact|||||||=0.050
92457142|NCT06680206|184804126|OTHER||||||=|0.002|||||||Fisher Exact|||||||=0.002
92457143|NCT06680206|184804127|OTHER||||||=|0.308|||||||t-test, 2 sided|||Mental summary composite T score||||=0.308
92457144|NCT06680206|184804127|OTHER||||||=|0.781|||||||t-test, 2 sided|||Physical summary composite T score||||=0.781
92457145|NCT06680206|184804127|OTHER||||||=|0.637|||||||t-test, 2 sided|||Global health composite T score||||=0.637
92457146|NCT06680206|184804128|OTHER||||||=|0.372|||||||t-test, 2 sided|||||||=0.372
92457147|NCT06680206|184804129|OTHER||||||=|0.878|||||||t-test, 2 sided|||||||=0.878
92457148|NCT06680206|184804130|OTHER||||||=|0.25|||||||t-test, 2 sided|||||||=0.25
92457149|NCT06680206|184804131|OTHER||||||=|0.582|||||||t-test, 2 sided|||||||=0.582
92457150|NCT06680206|184804132|OTHER||||||=|0.898|||||||t-test, 2 sided|||||||=0.898
92457151|NCT06680206|184804133|OTHER||||||=|0.157|||||||t-test, 2 sided|||Total Activity impairment||||=0.157
92457152|NCT06680206|184804133|OTHER||||||=|0.825|||||||t-test, 2 sided|||Activity impairment among employed||||=0.825
92457153|NCT06680206|184804133|OTHER|||||||0.117|||||||t-test, 2 sided|||Activity impairment among unemployed||||0.117
92457154|NCT06680206|184804133|OTHER||||||=|0.921|||||||t-test, 2 sided|||Activity impairment among disabled||||=0.921
92457155|NCT06680206|184804134|OTHER||||||=|0.146|||||||t-test, 2 sided|||MIDAS (Total score)||||=0.146
92457156|NCT06680206|184804134|OTHER||||||=|0.741|||||||t-test, 2 sided|||MIDAS Item 1 (MGMIDAS1)||||=0.741
92457157|NCT06680206|184804134|OTHER||||||=|0.08|||||||t-test, 2 sided|||MIDAS Item 2 (MGMIDAS2)||||=0.080
92457158|NCT06680206|184804134|OTHER||||||=|0.026|||||||t-test, 2 sided|||MIDAS Item 3 (MGMIDAS3)||||=0.026
92457159|NCT06680206|184804134|OTHER||||||=|0.254|||||||t-test, 2 sided|||MIDAS Item 4 (MGMIDAS4)||||=0.254
92281407|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|0.084|STANDARD_ERROR_OF_MEAN|0.1||0.4039|TWO_SIDED|95.0|-0.115|0.282|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Moodiness||0.282|-0.115|0.4039
92457160|NCT06680206|184804134|OTHER||||||=|0.723|||||||t-test, 2 sided|||MIDAS Item 5 (MGMIDAS5)||||=0.723
92457161|NCT06680206|184804134|OTHER||||||=|0.012|||||||t-test, 2 sided|||MIDAS Item 6 (MGMIDAS6)||||=0.012
92457162|NCT06680206|184804134|OTHER||||||=|0.807|||||||t-test, 2 sided|||MIDAS Item 7 (MGMIDAS7)||||=0.807
92457163|NCT06680206|184804135|OTHER||||||=|0.601|||||||Chi-squared|||MIDAS Grade I to Grade IV||||=0.601
92174077|NCT04318548|184239702|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the GMT ratio between the MenB+MenACWY group and MenB group for hSBA titers against NZ98/254 (PorA) strain was \>0.5.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.76|1.12|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis serogroup B indicator strains at one month after the second vaccination with rMenB+OMV NZ (at Day 91).||1.12|0.76|
92457164|NCT06680206|184804136|OTHER||||||=|1|||||||Chi-squared|||||||=1
92281408|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.309|STANDARD_ERROR_OF_MEAN|0.19||0.1145|TWO_SIDED|95.0|-0.695|0.076|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Alertness||0.076|-0.695|0.1145
92281409|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.127|STANDARD_ERROR_OF_MEAN|0.12||0.3083|TWO_SIDED|95.0|-0.372|0.119|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Attention Span||0.119|-0.372|0.3083
92457165|NCT06680206|184804137|OTHER|||||||0.688|||||||t-test, 2 sided|||||||0.688
92457166|NCT06680206|184804138|OTHER||||||=|0.96|||||||Chi-squared|||||||=0.96
92457167|NCT06680206|184804139|OTHER||||||=|0.115|||||||t-test, 2 sided|||||||=0.115
92457168|NCT06680206|184804140|OTHER||||||=|0.758|||||||Chi-squared|||||||=0.758
92457169|NCT06680206|184804141|OTHER||||||=|0.616|||||||t-test, 2 sided|||||||=0.616
92457170|NCT06680206|184804142|OTHER||||||=|0.086|||||||Chi-squared|||||||=0.086
92457171|NCT06680206|184804143|OTHER|||||||0.528|||||||t-test, 2 sided|||||||0.528
92457172|NCT06680206|184804144|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92457173|NCT06680206|184804145|OTHER|||||||0.395|||||||t-test, 2 sided|||||||0.395
92457174|NCT06680206|184804146|OTHER||||||=|1|||||||Chi-squared|||||||=1
92457175|NCT06680206|184804147|OTHER||||||=|0.08|||||||t-test, 2 sided|||||||=0.08
92457176|NCT06680206|184804148|OTHER||||||=|0.426|||||||t-test, 2 sided|||Mental summary composite T score||||=0.426
92457177|NCT06680206|184804148|OTHER||||||=|0.602|||||||t-test, 2 sided|||Physical summary composite T score||||=0.602
92457178|NCT06680206|184804148|OTHER||||||=|0.815|||||||t-test, 2 sided|||Global health composite T score||||=0.815
92457179|NCT06680206|184804149|OTHER||||||=|0.189|||||||t-test, 2 sided|||||||=0.189
92457180|NCT06680206|184804150|OTHER||||||=|0.727|||||||t-test, 2 sided|||||||=0.727
92457181|NCT06680206|184804151|OTHER||||||=|0.237|||||||t-test, 2 sided|||||||=0.237
92457182|NCT06680206|184804152|OTHER||||||=|0.401|||||||t-test, 2 sided|||||||=0.401
92457183|NCT06680206|184804153|OTHER||||||=|0.609|||||||t-test, 2 sided|||||||=0.609
92457184|NCT06680206|184804154|OTHER||||||=|0.265|||||||t-test, 2 sided|||Total activity impairment||||=0.265
92457185|NCT06680206|184804154|OTHER||||||=|0.496|||||||t-test, 2 sided|||Activity impairment among employed||||=0.496
92457186|NCT06680206|184804154|OTHER||||||=|0.268|||||||t-test, 2 sided|||Activity impairment among unemployed||||=0.268
92174078|NCT04318548|184239702|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the GMT ratio between the MenB+MenACWY group and MenB group for hSBA titers against M13520 (NHBA) strain was \>0.5|GMT Ratio|0.88|||||TWO_SIDED|95.0|0.73|1.06|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis serogroup B indicator strains at one month after the second vaccination with rMenB+OMV NZ (at Day 91).||1.06|0.73|
92182982|NCT02434328|184264732|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|-1.3|7.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Number of subjects with \>=5 letter loss from baseline in BCVA (letters read) at each post-baseline visit - Week 24||7.8|-1.3|
92457187|NCT06680206|184804154|OTHER||||||=|0.57|||||||t-test, 2 sided|||Activity impairment among disabled||||=0.57
92457188|NCT06680206|184804155|OTHER||||||=|0.266|||||||t-test, 2 sided|||MIDAS (Total score)||||=0.266
92457189|NCT06680206|184804155|OTHER||||||=|0.884|||||||t-test, 2 sided|||MIDAS Item 1 (MGMIDAS1)||||=0.884
92182983|NCT02434328|184264732|OTHER||Difference in proportions|2.6|||||TWO_SIDED|95.0|-1.7|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||7.3|-1.7|
92182984|NCT02434328|184264732|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-3.2|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||5.9|-3.2|
92457190|NCT06680206|184804155|OTHER||||||=|0.373|||||||t-test, 2 sided|||MIDAS Item 2 (MGMIDAS2)||||=0.373
92457191|NCT06680206|184804155|OTHER||||||=|0.109|||||||t-test, 2 sided|||MIDAS Item 3 (MGMIDAS3)||||=0.109
92457192|NCT06680206|184804155|OTHER||||||=|0.368|||||||t-test, 2 sided|||MIDAS Item 4 (MGMIDAS4)||||=0.368
92457193|NCT06680206|184804155|OTHER||||||=|0.714|||||||t-test, 2 sided|||MIDAS Item 5 (MGMIDAS5)||||=0.714
92457194|NCT06680206|184804155|OTHER||||||=|0.02|||||||t-test, 2 sided|||MIDAS Item 6 (MGMIDAS6)||||=0.020
92457195|NCT06680206|184804155|OTHER||||||=|0.889|||||||t-test, 2 sided|||MIDAS Item 7 (MGMIDAS7)||||=0.889
92457196|NCT06680206|184804156|OTHER||||||=|0.675|||||||Chi-squared|||MIDAS Grade I to Grade IV||||=0.675
92457197|NCT06680206|184804157|OTHER||||||=|0.651|||||||Chi-squared|||||||=0.651
92457198|NCT06680206|184804158|OTHER||||||=|0.004|||||||t-test, 2 sided|||||||=0.004
92457199|NCT06680206|184804159|OTHER||||||=|0.477|||||||Chi-squared|||||||=0.477
92243555|NCT00174785|184390020|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||<|0.0001||95.0|0.69|0.84||Cumulative incidence functions in each treatment group were calculated using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. The primary comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of first hospitalization for cardiovascular reason or death for the dronedarone group compared with the placebo group.|||0.84|0.69|<0.0001
92243556|NCT00174785|184390021|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.18||95.0|0.66|1.08||Cumulative incidences calculated in each group using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. Hierarchical procedure applied to secondary efficacy endpoints testing to protect the global type I error.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of death from any cause for the dronedarone group compared with the placebo group.|||1.08|0.66|0.18
92457200|NCT06680206|184804160|OTHER||||||=|0.002|||||||t-test, 2 sided|||||||=0.002
92457201|NCT06680206|184804161|OTHER||||||=|0.555|||||||Chi-squared|||||||=0.555
92457202|NCT06680206|184804162|OTHER||||||=|0.371|||||||t-test, 2 sided|||||||=0.371
92457203|NCT06680206|184804163|OTHER||||||=|0.501|||||||Chi-squared|||||||=0.501
92457204|NCT06680206|184804164|OTHER||||||=|0.014|||||||t-test, 2 sided|||||||=0.014
92457205|NCT06680206|184804165|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92457206|NCT06680206|184804166|OTHER||||||=|0.392|||||||t-test, 2 sided|||||||=0.392
92457207|NCT06680206|184804167|OTHER||||||=|1|||||||Chi-squared|||||||=1
92457208|NCT06680206|184804168|OTHER||||||=|0.143|||||||t-test, 2 sided|||||||=0.143
92457209|NCT06602466|184804182|SUPERIORITY||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.018||0.2992|TWO_SIDED|95.0|-0.05|0.02|||ANCOVA|||||0.02|-0.05|0.2992
92457210|NCT06602466|184804183|SUPERIORITY||Adjusted Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|2.75||0.3612|TWO_SIDED|95.0|-7.9|2.9|||ANCOVA|||||2.9|-7.9|0.3612
92457211|NCT06602466|184804184|SUPERIORITY||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.015||0.0117|TWO_SIDED|95.0|-0.07|-0.01|||ANCOVA|||||-0.01|-0.07|0.0117
92457212|NCT06602466|184804185|SUPERIORITY||Adjusted Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.052||0.7616|TWO_SIDED|95.0|-0.09|0.12|||ANCOVA|||||0.12|-0.09|0.7616
92457213|NCT06602466|184804186|SUPERIORITY||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.055||0.9321|TWO_SIDED|95.0|-0.11|0.1|||ANCOVA|||||0.10|-0.11|0.9321
92457214|NCT03818035|184804187|NON_INFERIORITY|One-sided two-group normal approximation Wald Z-test with Mantel-Haenszel stratum weights for 'disease duration' to test for non-inferiority of 100 mg q16w to 100 mg q8w with non-inferiority margin of 10%. Stratified analysis results were reported.|Risk Difference (RD)|-0.6||||0.0013|TWO_SIDED|90.0|-5.7|4.5|||Wald Z-test|||||4.5|-5.7|0.0013
92457215|NCT00336024|184804222|SUPERIORITY|||||||0.35|||||||Chi-squared|||The CR rates between these two groups will be compared at a significance level of 0.1 using one-sided Chi-square test.||||0.35
92457216|NCT00336024|184804224|SUPERIORITY|||||||0.28|||||||Log Rank|||The difference in incidence for the two treatment regimens will be compared using a one-sided log-rank test with a significance level 0.1.||||0.28
92457217|NCT00336024|184804225|SUPERIORITY|||||||1|||||||Fisher Exact|||The two groups will be compared for patterns of failure to detect a statistically significant difference using Fisher exact test.||||1.00
92457218|NCT00336024|184804226|SUPERIORITY|||||||0.74|||||||Log Rank|||Difference in incidence for the two treatment regimens will be compared using log-rank test.||||0.74
92457219|NCT00336024|184804227|SUPERIORITY|||||||1|||||||Fisher Exact|||The rate of acute hearing loss between two treatment regimens will be be compared using Fisher exact test.||||1.00
92457220|NCT00336024|184804233|SUPERIORITY|||||||0.8|||||||Fisher Exact|||The rate of chronic hearing loss between two treatment regimens will be be compared using Fisher exact test.||||0.8
92457221|NCT00336024|184804234|SUPERIORITY|||||||0.27|||||||Chi-squared|||Rates of gastrointestinal toxicities in Induction Phase I. The difference in number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.27
92457222|NCT00336024|184804234|SUPERIORITY|||||||0.07|||||||Chi-squared|||Rates of gastrointestinal toxicities in Induction Phase II. The difference in number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.07
92457223|NCT00336024|184804234|SUPERIORITY|||||||0.2|||||||Chi-squared|||Rates of gastrointestinal toxicities in Induction Phase III. The difference in number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.2
92457224|NCT00336024|184804234|SUPERIORITY|||||||0.4|||||||Chi-squared|||Rates of gastrointestinal toxicities in Consolidation Phase 1. The difference in number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.4
92457225|NCT00336024|184804234|SUPERIORITY|||||||0.38|||||||Chi-squared|||Rates of gastrointestinal toxicities in Consolidation Phase 2. The difference in the number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.38
92457226|NCT00336024|184804234|SUPERIORITY|||||||0.7|||||||Chi-squared|||Rates of gastrointestinal toxicities in Consolidation Phase III. The difference in number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.7
92457227|NCT00336024|184804235|SUPERIORITY|||||||0.08|||||||Chi-squared|||Rates of nutritional toxicities in Induction Phase I. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.08
92457228|NCT00336024|184804235|SUPERIORITY|||||||0.9|||||||Chi-squared|||Rates of nutritional toxicities in Induction Phase II. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.9
92174079|NCT04318548|184239703|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the between-group ratio of hSBA GMTs between MenB+MenACWY group and MenACWY group for Men A serogroup was \>0.5.|GMT Ratio|0.94|||||TWO_SIDED|95.0|0.78|1.14|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenACWY) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to MenACWY given concomitantly with rMenB+OMV NZ compared to MenACWY administered alone, as measured by hSBA GMTs against the N. meningitidis serogroup Men A, at one month after the vaccination with MenACWY (at Day 31).||1.14|0.78|
92182985|NCT02434328|184264732|OTHER||Difference in proportions|3.4|||||TWO_SIDED|95.0|-0.7|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||8.3|-0.7|
92457229|NCT00336024|184804235|SUPERIORITY|||||||0.17|||||||Chi-squared|||Rates of nutritional toxicities in Induction Phase III. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.17
92457230|NCT00336024|184804235|SUPERIORITY|||||||0.3|||||||Chi-squared|||Rates of nutritional toxicities in Consolidation Phase I. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.3
92457231|NCT00336024|184804235|SUPERIORITY|||||||0.26|||||||Chi-squared|||Rates of nutritional toxicities in Consolidation Phase II. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.26
92457232|NCT00336024|184804235|SUPERIORITY|||||||0.17|||||||Chi-squared|||Rates of nutritional toxicities in Consolidation Phase III. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.17
92457233|NCT03505905|184804237|SUPERIORITY||Mean Difference (Final Values)|-2.4587||||0.29||||||No adjustment for multiple comparisons, as there was only one primary outcome variable.|Linear mixed effects model|Phase 1 and 2 data are analyzed separately, and then combined for the overall treatment effect.|Combined Phase 1 and 2 effect, based on the differences of the least squares means|Phase 1 analysis includes all randomized participants (n=73). Per SPCD, Phase 2 analysis only includes participants who were randomized to Placebo in Phase 1, and were non-responders in Phase 1 (n=16).||||0.29
92457234|NCT05008484|184804255|SUPERIORITY||||||||TWO_SIDED|95.0||||||||||||
92457235|NCT05008484|184804265|SUPERIORITY||Mean Difference (Final Values)|-8.0|STANDARD_ERROR_OF_MEAN|11.0|||TWO_SIDED|95.0|-36.6|24.6||||||||24.6|-36.6|
92457236|NCT05008484|184804266|SUPERIORITY||Mean Difference (Final Values)|-13.75|STANDARD_ERROR_OF_MEAN|12.1|||TWO_SIDED|95.0|-52.1|24.6||||||||24.6|-52.1|
92457237|NCT05008484|184804267|SUPERIORITY||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|9.8|||TWO_SIDED|95.0|-31.8|22.8||||||||22.8|-31.8|
92457238|NCT05985304|184804301|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92457239|NCT04497844|184804311|SUPERIORITY||Hazard Ratio (HR)|0.515|||<|0.0001|TWO_SIDED|95.0|0.37|0.717||The priori threshold for statistical significance was 0.05.|Log Rank|||||0.717|0.370|<0.0001
92457240|NCT04497844|184804312|SUPERIORITY||Hazard Ratio (HR)|0.571|||=|0.0003|TWO_SIDED|95.0|0.421|0.774||The priori threshold for statistical significance was 0.025.|Log Rank|||||0.774|0.421|=0.0003
92457241|NCT04497844|184804313|SUPERIORITY||Hazard Ratio (HR)|0.625|||=|0.0001|TWO_SIDED|95.0|0.49|0.799||The priori threshold for statistical significance was 0.02475.|Log Rank|||||0.799|0.490|=0.0001
92457242|NCT04497844|184804314|SUPERIORITY||Hazard Ratio (HR)|0.444|||=|0.0001|TWO_SIDED|95.0|0.29|0.681||The priori threshold for statistical significance was 0.03426.|Log Rank|||||0.681|0.290|=0.0001
92457243|NCT04497844|184804315|SUPERIORITY||Hazard Ratio (HR)|0.495|||=|0.0004|TWO_SIDED|95.0|0.332|0.738||The priori threshold for statistical significance was 0.02977.|Log Rank|||||0.738|0.332|=0.0004
92457244|NCT04497844|184804316|SUPERIORITY||Hazard Ratio (HR)|0.503|||<|0.0001|TWO_SIDED|95.0|0.364|0.695||The priori threshold for statistical significance was 0.03207.|Log Rank|||||0.695|0.364|<0.0001
92457245|NCT07165366|184804330|SUPERIORITY||F-statistic|1.48||||0.231|TWO_SIDED|||||a priori threshold for significance was alpha=0.05|ANOVA|degrees of freedom for ANOVA F-statistic were 2 for numerator d.f. and 118 denominator d.f.||Null Hypothesis is that there will be no difference in enamel hardness when different concentrations are used on enamel surfaces.||||0.231
92174080|NCT04318548|184239703|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the between-group ratio of hSBA GMTs between MenB+MenACWY group and MenACWY group for Men C serogroup was \>0.5.|GMT Ratio|1.11|||||TWO_SIDED|95.0|0.86|1.44|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenACWY) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to MenACWY given concomitantly with rMenB+OMV NZ compared to MenACWY administered alone, as measured by hSBA GMTs against the N. meningitidis serogroup Men C, at one month after the vaccination with MenACWY (at Day 31).||1.44|0.86|
92182482|NCT03617835|184263833|OTHER|Relative bioavailability|Ratio of the geometric means (T1/R) [%]|93.58|||||TWO_SIDED|90.0|78.11|112.11|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.6.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||112.11|78.11|
92174081|NCT04318548|184239703|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the between-group ratio of hSBA GMTs between MenB+MenACWY group and MenACWY group for Men W serogroup was \>0.5.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.82|1.21|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenACWY) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to MenACWY given concomitantly with rMenB+OMV NZ compared to MenACWY administered alone, as measured by hSBA GMTs against the N. meningitidis serogroup Men W, at one month after the vaccination with MenACWY (at Day 31).||1.21|0.82|
92174082|NCT04318548|184239703|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the between-group ratio of hSBA GMTs between MenB+MenACWY group and MenACWY group for Men Y serogroup was \>0.5.|GMT Ratio|1.03|||||TWO_SIDED|95.0|0.84|1.27|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenACWY) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to MenACWY given concomitantly with rMenB+OMV NZ compared to MenACWY administered alone, as measured by hSBA GMTs against the N. meningitidis serogroup Men Y, at one month after the vaccination with MenACWY (at Day 31).||1.27|0.84|
92174083|NCT04318548|184239705|OTHER||GMT Ratio|0.76|||||TWO_SIDED|95.0|0.64|0.91|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To assess the immune response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis M14459 (fHbp) strain at one month after the fisrt vaccination with rMenB+OMV NZ (at Day 31).||0.91|0.64|
92281410|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.183|STANDARD_ERROR_OF_MEAN|0.13||0.1638|TWO_SIDED|95.0|-0.443|0.0776|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Motivation||0.0776|-0.443|0.1638
92243557|NCT00174785|184390022|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||<|0.0001||95.0|0.67|0.82||Cumulative incidences calculated in each group using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. Hierarchical procedure applied to secondary efficacy endpoints testing to protect the global type I error.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of first hospitalization for cardiovascular reason for the dronedarone group compared with the placebo group.|||0.82|0.67|<0.0001
92174084|NCT04318548|184239705|OTHER||GMT Ratio|0.62|||||TWO_SIDED|95.0|0.49|0.77|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To assess the immune response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis 96217 (NadA) strain at one month after the first vaccination with rMenB+OMV NZ (at Day 31).||0.77|0.49|
92243558|NCT00174785|184390023|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.025||95.0|0.51|0.96||Cumulative incidences calculated in each group using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. Hierarchical procedure applied to secondary efficacy endpoints testing to protect the global type I error.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of cardiovascular death for the dronedarone group compared with the placebo group.|||0.96|0.51|0.025
92243559|NCT00174785|184390024|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.03||95.0|0.51|0.98||Cumulative incidences calculated in each group using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. The comparison was performed at the 5% level using a 2-sided Log rank|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of adjudicated cardiovascular death for the dronedarone group compared with the placebo group.|||0.98|0.51|0.03
92243560|NCT00120289|184390025|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.8|TWO_SIDED|95.0|0.87|1.21|||Regression, Cox|Adjusting for gender and history of diabetes (randomization stratification factors).||||1.21|0.87|0.80
92243561|NCT00120289|184390026|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.49|TWO_SIDED|95.0|0.87|1.34|||Regression, Cox|||||1.34|0.87|.49
92243562|NCT00120289|184390027|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.3|TWO_SIDED|95.0|0.9|1.42|||Regression, Cox|||||1.42|0.90|.30
92243563|NCT00120289|184390028|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.47|TWO_SIDED|95.0|0.76|1.8|||Regression, Cox|||||1.80|0.76|0.47
92243564|NCT00401622|184390030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.56|STANDARD_ERROR_OF_MEAN|7.51||0.31|TWO_SIDED|95.0|-7.24|22.36|||t-test, 2 sided|||||22.36|-7.24|0.31
92243565|NCT00401622|184390031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.11||0.45|TWO_SIDED|95.0|-0.38|0.04|||ANCOVA|Visit 1 A1c measurement used as the covariate||Change in A1C from baseline to week 52 between the OneTouch® Ultra®2 and control BGMS||0.04|-0.38|0.45
92243566|NCT00782418|184390032|SUPERIORITY_OR_OTHER||Least Squares Mean|1.6|||<|0.001||90.0|1.29|1.92||1-sided, alpha=0.05|ANOVA|||||1.92|1.29|<0.001
92243567|NCT00782418|184390032|SUPERIORITY_OR_OTHER||Least Squares Mean|0.95|||<|0.001||90.0|0.66|1.24|||ANOVA|1-sided, alpha=0.05||||1.24|0.66|<0.001
92243568|NCT00782418|184390032|SUPERIORITY_OR_OTHER||Least Squares Mean|2.32|||<|0.001||90.0|1.57|3.06|||ANOVA|1-sided, alpha=0.05||||3.06|1.57|<0.001
92243569|NCT00782418|184390032|SUPERIORITY_OR_OTHER||Least Squares Mean|1.38|||<|0.001||90.0|0.64|2.12|||ANOVA|1-sided, alpha = 0.05||||2.12|0.64|<0.001
92243570|NCT00782418|184390033|SUPERIORITY_OR_OTHER||Least Squares Mean|23.1|||<|0.001||90.0|19.2|27.0|||ANOVA|1-side, alpha = 0.05||||27.0|19.2|<0.001
92243571|NCT00782418|184390033|SUPERIORITY_OR_OTHER||Least Squares Mean|16.4|||<|0.001||90.0|12.6|20.1|||ANOVA|1-side, alpha = 0.05||||20.1|12.6|<0.001
92243572|NCT00782418|184390034|SUPERIORITY_OR_OTHER||Least Squares Mean|545.0|||<|0.001||90.0|451.4|638.7|||ANOVA|1-side, alpha = 0.05||||638.7|451.4|<0.001
92174085|NCT04318548|184239705|OTHER||GMT Ratio|0.73|||||TWO_SIDED|95.0|0.58|0.91|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To assess the immune response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis NZ98/254 (PorA) strain at one month after the first vaccination with rMenB+OMV NZ (at Day 31).||0.91|0.58|
92174086|NCT04318548|184239705|OTHER||GMT Ratio|0.76|||||TWO_SIDED|95.0|0.64|0.9|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To assess the immune response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis M13520 (NHBA) at one month after the first vaccination with rMenB+OMV NZ (at Day 31).||0.90|0.64|
92174087|NCT02651428|184239717|SUPERIORITY||Hazard Ratio (HR)|0.29||||0.0006|TWO_SIDED|95.0|0.14|0.62||The threshold significance level at the interim and final statistical analyses for the primary efficacy endpoint was 0.0294.|Log Rank||The numerator for the hazard ratio was the estimated hazard for the Neutrolin treatment arm, and the denominator was the estimated hazard for the Heparin treatment arm.|The null hypothesis was that there was no difference in the survival functions for CRBSI between the two treatments. Based on 80% power to detect a 55% reduction in the risk of CRBSI relative to the control treatment, a 1:1 randomization, a 2-sided log-rank test, one interim analysis using the method of Pocock, and an overall alpha of 0.05, it was determined that 56 CRBSIs would be needed. These are the results of the final analysis.||0.62|0.14|0.0006
92174088|NCT02651428|184239718|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.4161|TWO_SIDED|95.0|0.9|1.29||The threshold for statistical significance was p \< 0.05.|Log Rank||The numerator for the hazard ratio was the estimated hazard for the Neutrolin treatment arm, and the denominator was the estimated hazard for the Heparin treatment arm.|The null hypothesis was that there was no difference in the time until catheter removal for any reason between the two treatments.||1.29|0.90|0.4161
92174089|NCT04873401|184239730|SUPERIORITY||Odds Ratio (OR)|1.05|STANDARD_ERROR_OF_MEAN|0.49||0.928|TWO_SIDED|95.0|0.39|2.79|||Regression, Logistic|||||2.79|0.39|0.928
92174090|NCT04873401|184239731|SUPERIORITY||Median Difference (Final Values)|-0.173|STANDARD_ERROR_OF_MEAN|0.147||0.24|TWO_SIDED|95.0|-0.24|0.115|||Regression, Linear|||||0.115|-0.24|0.240
92174091|NCT04873401|184239732|SUPERIORITY||Slope|0.1171|STANDARD_ERROR_OF_MEAN|0.062||0.367|TWO_SIDED|95.0|0.05|0.29|||Regression, Linear|||||0.29|0.05|0.367
92174092|NCT04873401|184239733|SUPERIORITY||Slope|0.171|STANDARD_ERROR_OF_MEAN|0.062||0.005|TWO_SIDED|95.0|0.05|0.29|||Regression, Linear|||||0.29|0.05|0.005
92174093|NCT04533347|184239742|SUPERIORITY|||||||0.1879|TWO_SIDED|95.0|||||Fisher Exact|||Assuming an 85% clinical recovery rate in the TQ group and a 70% clinical recovery rate in the placebo group, sample sizes of 125 per treatment group were expected to achieve 80% power with a two-sided alpha of 0.05.||||0.1879
92174094|NCT05520190|184239748|SUPERIORITY||Standardized Response Mean|-0.47|||||TWO_SIDED||||||||Baseline Attitude score - 1-month Attitude score / SD of average change|||||
92174095|NCT05520190|184239749|SUPERIORITY||Standardized Response Mean|-0.23|||||TWO_SIDED||||||||Baseline Norm score - 1-month Norm score / SD of average change|||||
92174096|NCT05520190|184239750|SUPERIORITY||Standardized Response Mean|-0.03|||||TWO_SIDED||||||||Baseline Perceived Behavioral Control score - 1-month Perceived Behavioral Control score / SD of average change|||||
92174097|NCT05520190|184239751|SUPERIORITY||Standardized Response Mean|-0.16|||||TWO_SIDED||||||||Baseline Intention score - 1-month Intention score / SD of average change|||||
92174098|NCT05520190|184239752|SUPERIORITY||Standardized Response Mean|0.35|||||TWO_SIDED||||||||Baseline drinks per day - 1-month drinks per day / avg change in drinks per day|||||
92174099|NCT05520190|184239753|SUPERIORITY||Standardized Response Mean|0.35|||||TWO_SIDED||||||||Baseline drinking days - 1-month drinking days / SD of avg change in drinking days|||||
92174100|NCT05520190|184239754|SUPERIORITY||Standardized Response Mean|0.3|||||TWO_SIDED||||||||Baseline binge drinking days - 1-month binge drinking days / avg change in binge drinking days|||||
92174101|NCT05520190|184239755|SUPERIORITY||Standardized Response Mean|1.23|||||TWO_SIDED||||||||Baseline depression - 1-month depression / SD of avg change in depression|||||
92174102|NCT05520190|184239756|SUPERIORITY||Standardized Response Mean|1.06|||||TWO_SIDED||||||||Baseline anxiety - 1-month anxiety / SD avg change in anxiety|||||
92174103|NCT05520190|184239757|SUPERIORITY||Standardized Response Mean|0.9|||||TWO_SIDED||||||||Baseline PTSD - 1-month PTSd / SD avg change in PTSD|||||
92174104|NCT05520190|184239758|SUPERIORITY||Standardized Response Mean|0.6|||||TWO_SIDED||||||||Baseline insomnia - 1-month insomnia / SD avg change in insomnia|||||
92174105|NCT05520190|184239759|SUPERIORITY||Standardized Response Mean|0.58|||||TWO_SIDED||||||||Baseline Alcohol Screen - 1-month Alcohol Screen / SD avg change|||||
92174106|NCT05520190|184239760|SUPERIORITY||Standardized Response Mean|-0.39|||||TWO_SIDED||||||||Baseline behavioral beliefs - 1-month behavioral beliefs / avg change in behavioral beliefs|||||
92174107|NCT05520190|184239761|SUPERIORITY||Standardized Response Mean|-0.62|||||TWO_SIDED||||||||Baseline normative beliefs - 1-month normative beliefs / SD avg change in normative beliefs|||||
92174108|NCT05520190|184239762|SUPERIORITY||Standardized Response Mean|-0.83|||||TWO_SIDED||||||||Baseline control beliefs - 1-month control beliefs / SD avg change in control beliefs|||||
92174109|NCT02921230|184239778|SUPERIORITY|||||||0.0077|||||||Chi-squared|||||||0.0077
92174110|NCT05875142|184239799|NON_INFERIORITY|test of non-inferiority is H0: control\>=treatment vs HA: control\<treatment||||||0.0008|||||||t-test, 1 sided|||T compared with TM||||0.0008
92174111|NCT05875142|184239799|NON_INFERIORITY|test of non-inferiority is H0: control\>=treatment vs HA: control\<treatment||||||5.03e-06|||||||t-test, 1 sided|||T compared with TMC.||||0.00000503
92174112|NCT05875142|184239800|NON_INFERIORITY|test of non-inferiority is H0: control\>=treatment vs HA: control\<treatment||||||0.0176|||||||t-test, 1 sided|||T compared with T||||0.0176
92174113|NCT05875142|184239800|NON_INFERIORITY|test of non-inferiority is H0: control\>=treatment vs HA: control\<treatment||||||0.0056|||||||t-test, 1 sided|||Comparing T with TMC.||||0.0056
92174114|NCT05875142|184239801|NON_INFERIORITY|test of non-inferiority is H0: control\<=treatment vs HA: control\>treatment||||||0.4066|||||||t-test, 1 sided|||T compared with TM||||0.4066
92174115|NCT05875142|184239801|NON_INFERIORITY|test of non-inferiority is H0: control\<=treatment vs HA: control\>treatment||||||0.4045|||||||t-test, 1 sided|||T compared with TMC||||0.4045
92174116|NCT04274764|184239831|OTHER|||||||0.7399|||||||Chi-squared|||||||0.7399
92174117|NCT00450658|184239849|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.5||||0.0018|TWO_SIDED|95.0|3.0|15.9|||Cochran-Mantel-Haenszel|CMH test stratified by use of low-dose aspirin (Yes/No) and prior upper gastrointestinal ulcer history (Yes/No) at randomization.||The primary efficacy endpoint was the proportion of subjects developing UGI (gastric and/or duodenal) ulcers throughout 24 weeks of treatment. A summary including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of UGI ulcers at 24 weeks. The cumulative proportion of subjects developing UGI ulcers at 24 weeks was analyzed using the CMH test stratified by use of low-dose aspirin and prior UGI ulcer history at randomization.||15.9|3.0|0.0018
92174118|NCT00450658|184239850|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|8.2||||0.0051|TWO_SIDED|95.0|1.9|14.4|||Cochran-Mantel-Haenszel|CMH test stratified by use of low-dose aspirin (Yes/No) and prior upper gastrointestinal ulcer history (Yes/No) at randomization.||||14.4|1.9|0.0051
92174119|NCT00450658|184239851|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|3.9||||0.0017|TWO_SIDED|95.0|0.8|7.1|||Cochran-Mantel-Haenszel|CMH test stratified by use of low-dose aspirin and prior UGI ulcer history at randomization.||The secondary efficacy endpoint was the proportion of subjects developing duodenal ulcers throughout 24 weeks of treatment. A summary including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of duodenal ulcers at 24 weeks. The cumulative proportion of subjects developing duodenal ulcers at 24 weeks was analyzed using the CMH test stratified by use of low-dose aspirin and prior UGI ulcer history at randomization.||7.1|0.8|0.0017
92174120|NCT05746494|184240056|OTHER|Omnibus analysis||||||0.023|||||||ANOVA|||||||0.023
92174121|NCT05746494|184240057|OTHER|Omnibus analysis||||||0.042|||||||Multilevel Modeling|||||||0.042
92174122|NCT05746494|184240058|OTHER|Omnibus analysis||||||0.98|||||||t-test, 2 sided|||||||0.980
92174123|NCT05746494|184240059|OTHER|Omnibus analysis||||||0.01|||||||Multilevel Modeling|||||||0.010
92174124|NCT05746494|184240060|OTHER|Omnibus analysis||||||0.064|||||||t-test, 2 sided|||||||0.064
92174125|NCT05746494|184240061|OTHER|Omnibus analysis||||||0.306|||||||t-test, 2 sided|||||||0.306
92174126|NCT05746494|184240062|OTHER|Omnibus analysis||||||0.041|||||||t-test, 2 sided|||||||0.041
92174127|NCT05746494|184240063|OTHER|Omnibus analysis||||||0.019|||||||t-test, 2 sided|||||||0.019
92174128|NCT04806451|184240076|SUPERIORITY||LS Mean Difference|-267.775|STANDARD_ERROR_OF_MEAN|68.313||0.0002|TWO_SIDED|95.0|-403.427|-132.124|||ANCOVA|||||-132.124|-403.427|0.0002
92174129|NCT03134196|184240087|SUPERIORITY||Hazard Ratio (HR)|0.78|STANDARD_DEVIATION|0.11|||TWO_SIDED|95.0|0.5|1.06||||||||1.06|0.5|
92174130|NCT03134196|184240088|SUPERIORITY||Hazard Ratio (HR)|0.74|STANDARD_DEVIATION|0.04|||TWO_SIDED|95.0|0.56|0.99||||||||0.99|0.56|
92174131|NCT00875277|184240093|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92174132|NCT00875277|184240093|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92174133|NCT00875277|184240093|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92174134|NCT00875277|184240093|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92174135|NCT00875277|184240093|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92174136|NCT00875277|184240093|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92281411|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.078|STANDARD_ERROR_OF_MEAN|0.12||0.5101|TWO_SIDED|95.0|-0.314|0.157|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Vision||0.157|-0.314|0.5101
92281412|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.233|STANDARD_ERROR_OF_MEAN|0.19||0.2285|TWO_SIDED|95.0|-0.614|0.149|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Energy Level||0.149|-0.614|0.2285
92243573|NCT00782418|184390034|SUPERIORITY_OR_OTHER||Least Squares Mean|246.6|||<|0.001||90.0|160.9|323.3|||ANOVA|1-side, alpha = 0.05||||323.3|160.9|<0.001
92243574|NCT01718509|184390035|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.66|||<|0.001|TWO_SIDED|95.0|-2.04|-1.28|||Mixed Models Repeated Measures Analysis|||||-1.28|-2.04|<0.001
92243575|NCT01718509|184390036|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||||||<0.001
92243576|NCT01718509|184390037|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||||||<0.001
92243577|NCT01718509|184390038|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-5.41|||<|0.001|TWO_SIDED|95.0|-6.39|-4.44|||Mixed Models Repeated Measures Analysis|||||-4.44|-6.39|<0.001
92174137|NCT00875277|184240093|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
92243578|NCT01718509|184390039|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-7.94|||<|0.001|TWO_SIDED|95.0|-9.51|-6.36|||Mixed Models Repeated Measures Analysis|||||-6.36|-9.51|<0.001
92243579|NCT01718509|184390040|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.196||||0.002|TWO_SIDED|95.0|-0.321|-0.07|||ANCOVA|||||-0.070|-0.321|0.002
92243580|NCT01718509|184390041|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.077||||0.234|TWO_SIDED|95.0|-0.205|0.05|||ANCOVA|||||0.050|-0.205|0.234
92243581|NCT01718509|184390042|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.03||||0.185|TWO_SIDED|95.0|-0.02|0.08|||ANCOVA|||||0.08|-0.02|0.185
92243582|NCT01718509|184390043|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Cochran-Mantel-Haenszel|||||||<0.001
92243583|NCT01718509|184390044|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.23|||<|0.001|TWO_SIDED|95.0|-2.77|-1.69||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||||-1.69|-2.77|<0.001
92243584|NCT01718509|184390045|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.27||||0.011|TWO_SIDED|95.0|0.29|2.24||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Cognitive Restraint of Eating||2.24|0.29|0.011
92243585|NCT01718509|184390045|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-3.6|||<|0.001|TWO_SIDED|95.0|-4.44|-2.76||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Disinhibition of Eating||-2.76|-4.44|<0.001
92243586|NCT01718509|184390045|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-4.21|||<|0.001|TWO_SIDED|95.0|-5.09|-3.33||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Perceived Hunger||-3.33|-5.09|<0.001
92243587|NCT01718509|184390046|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-9.28|||<|0.001|TWO_SIDED|95.0|-11.44|-7.12||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||||-7.12|-11.44|<0.001
92243588|NCT01718509|184390047|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.96||||0.298|TWO_SIDED|95.0|-2.77|0.85||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|ANCOVA|||||0.85|-2.77|0.298
92174138|NCT00875277|184240093|SUPERIORITY|||||||0.082|||||||t-test, 2 sided|||||||0.082
92174139|NCT00875277|184240093|SUPERIORITY|||||||0.009|||||||t-test, 2 sided|||||||0.009
92174140|NCT00875277|184240093|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
92174141|NCT00875277|184240093|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92174142|NCT00875277|184240093|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92174143|NCT00875277|184240093|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92174144|NCT00875277|184240093|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92174145|NCT00875277|184240093|SUPERIORITY|||||||0.089|||||||t-test, 2 sided|||||||0.089
92174146|NCT04541147|184240109|EQUIVALENCE|Test if the number of doses in Dexamethasone Plus Analgesics group differs from that in Analgesics Alone group at a significance level of 0.05.|Mean Difference (Final Values)|6.9|STANDARD_DEVIATION|10.1||0.16|TWO_SIDED|95.0|-2.9|16.7|||t-test, 2 sided|||||16.7|-2.9|0.16
92174147|NCT04541147|184240110|EQUIVALENCE|Test if the average pain score in Dexamethasone Plus Analgesics group differs from that in Analgesics Alone group at a significance level of 0.05.|Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|1.4||0.56|TWO_SIDED|95.0|-1.8|1.0|||t-test, 2 sided|||||1.0|-1.8|0.56
92174148|NCT04541147|184240111|EQUIVALENCE|Test if the Number of participants with post-operative complications in Dexamethasone Plus Analgesics group differs from that in Analgesics Alone group at a significance level of 0.05.|Risk Difference (RD)|0.07|STANDARD_ERROR_OF_MEAN|0.15||1|TWO_SIDED|95.0|-0.22|0.36|||Fisher Exact|||||0.36|-0.22|1.00
92174149|NCT04026555|184240161|SUPERIORITY||Risk Ratio (RR)|1.43|||<|0.001|TWO_SIDED|95.0|1.16|1.78|||Regression, Poisson|||IPTW Poisson regression was used to model the number of escalations per visit with an offset of the log transformed length of stay normalized per 1000 bed days. Treatment effect is expressed in terms of adjusted incidence rate ratio (IRR) per 1000 patient bed days.||1.78|1.16|< 0.001
92174150|NCT04026555|184240162|SUPERIORITY||Risk Ratio (RR)|1.74|||<|0.001|TWO_SIDED|95.0|1.39|2.18||Correction for multiple comparisons was performed on all key outcomes within the primary and secondary hypotheses, respectively, using the false discovery rate method (FDR).|Regression, Logistic|||IPTW log-binomial regres- sion models were used to model the secondary and ad hoc outcomes. Treatment effect is expressed as adjusted relative risk (RR).||2.18|1.39|<0.001
92243589|NCT00779324|184390139|OTHER||Difference in percents|-0.4||||0.9554|TWO_SIDED|95.0|-14.7|13.9|||Chi-squared|||||13.9|-14.7|0.9554
92243590|NCT00779324|184390140|OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
92243591|NCT00779324|184390141|OTHER||Difference in percents|10.8||||0.1662|TWO_SIDED|95.0|-4.2|25.8|||Chi-squared|||||25.8|-4.2|0.1662
92243592|NCT00779324|184390142|OTHER|||||||0.3488|||||||Wilcoxon (Mann-Whitney)|||||||0.3488
92243593|NCT00779324|184390144|OTHER||Difference in percents|6.4||||0.38|TWO_SIDED|95.0|-7.2|20.0|||Chi-squared|||||20|-7.2|0.38
92174151|NCT04026555|184240165|SUPERIORITY||Risk Ratio (RR)|0.76||||0.045|TWO_SIDED|95.0|0.58|0.99||Correction for multiple comparisons was performed on all key outcomes within the primary and secondary hypotheses, respectively, using the false discovery rate method (FDR).|Regression, Logistic|||IPTW log-binomial regression models were used to model the secondary and ad hoc outcomes. Treatment effect is expressed as adjusted relative risk (RR).||0.99|0.58|0.045
92174152|NCT04026555|184240170|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.14|TWO_SIDED|95.0|0.98|1.18|||Regression, Cox|||||1.18|0.98|0.14
92174153|NCT06429319|184240190|SUPERIORITY||F value|5.919||||0.004|TWO_SIDED|||||The threshold for statistical significance was p \<0.05.|ANCOVA|"To compare the efficacy of one and two NOLTREX™ courses was used ANCOVA adjusted for the baseline value with fixed factor of treatment group."||No sample size calculation was performed. Maximum expected number of participants for OLE was 72 patients randomized to the NOLTREX™ group in the parent study (IA/PAAG-SI/OA/2019). A total of 65 patients entered the OLE. The study did not have a formal hypothesis. The between-group comparison of changes from baseline (OLE visit 0) in the WOMAC-T at visit 5 was conducted using analysis of covariance (ANCOVA) and, as a post hoc test, the Tukey test.||||0.004
92174154|NCT06429319|184240190|SUPERIORITY||LS-means difference|-37.64|STANDARD_ERROR_OF_MEAN|56.34||0.783|TWO_SIDED|95.0|-172.98|97.7||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||97.70|-172.98|0.783
92243594|NCT00779324|184390145|OTHER||Difference in percents|11.7||||0.1373|TWO_SIDED|95.0|-3.3|26.7|||Chi-squared|||||26.7|-3.3|0.1373
92243595|NCT00779324|184390146|OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92243596|NCT00779324|184390147|OTHER|||||||0.0353|||||||Wilcoxon (Mann-Whitney)|||||||0.0353
92174155|NCT06429319|184240190|SUPERIORITY||LS-means difference|81.94|STANDARD_ERROR_OF_MEAN|60.45||0.37|TWO_SIDED|95.0|-63.28|227.16|||Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||227.16|-63.28|0.370
92174156|NCT06429319|184240190|SUPERIORITY||LS-means difference|119.58|STANDARD_ERROR_OF_MEAN|34.76||0.003|TWO_SIDED|95.0|36.09|203.07||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||203.07|36.09|0.003
92174157|NCT06429319|184240190|SUPERIORITY||F value|2.78||||0.07|TWO_SIDED|||||The threshold for statistical significance was p \<0.05.|ANCOVA|"To compare the efficacy of one and two NOLTREX™ courses was used ANCOVA adjusted for the baseline value with fixed factor of treatment group."||The between-group comparison of changes from baseline (visit 1 study 1) in the WOMAC-T at visit 5 was conducted using analysis of covariance (ANCOVA) and, as a post hoc test, the Tukey test.||||0.070
92174158|NCT06429319|184240194|SUPERIORITY|||||||0.03||||||The threshold for statistical significance was p \<0.05.|Kruskal-Wallis|||"BASELINE (study 1 visit 1)~To determine a statistically significant difference between 3 groups the one-way ANOVA (for normally distributed data; aov) or the Kruskal-Wallis test (for non-normally distributed data; kw) was used. The Shapiro-Wilk test was employed to assess the normality of the data distribution."||||0.030
92174159|NCT06429319|184240194|SUPERIORITY|||||||0.002||||||The threshold for statistical significance was p \<0.05.|Kruskal-Wallis|||"BASELINE (OLE visit 0)~To determine a statistically significant difference between 3 groups the one-way ANOVA (for normally distributed data; aov) or the Kruskal-Wallis test (for non-normally distributed data; kw) was used. The Shapiro-Wilk test was employed to assess the normality of the data distribution."||||0.002
92174160|NCT06429319|184240194|SUPERIORITY|||||||0.007||||||The threshold for statistical significance was p \<0.05.|ANOVA|||"visit 3~To determine a statistically significant difference between 3 groups the one-way ANOVA (for normally distributed data; aov) or the Kruskal-Wallis test (for non-normally distributed data; kw) was used. The Shapiro-Wilk test was employed to assess the normality of the data distribution."||||0.007
92174161|NCT06429319|184240194|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p \<0.05.|Kruskal-Wallis|||"visit 5~To determine a statistically significant difference between 3 groups the one-way ANOVA (for normally distributed data; aov) or the Kruskal-Wallis test (for non-normally distributed data; kw) was used. The Shapiro-Wilk test was employed to assess the normality of the data distribution."||||<0.001
92174162|NCT06429319|184240195|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p \<0.05.|Fisher Exact|||"Fisher's exact test was used to determine whether there is a significant difference between 3 groups.~visit 3"||||<0.001
92243597|NCT00194025|184390160|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||<0.001
92243598|NCT00194025|184390161|SUPERIORITY_OR_OTHER|||||||0.585||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.585
92243599|NCT00194025|184390162|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||<0.001
92243600|NCT00194025|184390163|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.017
92243601|NCT00194025|184390164|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.027
92243602|NCT00194025|184390165|SUPERIORITY_OR_OTHER|||||||0.569||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.569
92243603|NCT00194025|184390166|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.038
92243604|NCT00194025|184390167|SUPERIORITY_OR_OTHER|||||||0.199||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.199
92243605|NCT00194025|184390168|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||t-test, 2 sided|||The t-test was applied to the values at baseline vs. the values at 12 weeks.||||0.21
92243606|NCT00511342|184390189|SUPERIORITY_OR_OTHER_LEGACY||Difference of adjusted means|-0.078||||0.19|TWO_SIDED|95.0|-0.198|0.041||No corrections for multiple comparisons were made for these safety parameters. The a-priori threshold for statistical significance was 0.05.|ANCOVA|The ANCOVA included the Z-score values at baseline as adjusted factor.|NOMAC-E2 minus LNG-EE for lumbar spine (L2-L4)|||0.041|-0.198|0.19
92243607|NCT00511342|184390189|SUPERIORITY_OR_OTHER_LEGACY||Difference of adjusted means|-0.03||||0.57|TWO_SIDED|95.0|-0.136|0.075||No corrections for multiple comparisons were made for these safety parameters. The a-priori threshold for statistical significance was 0.05.|ANCOVA|The ANCOVA included the Z-score values at baseline as adjusted factor.|NOMAC-E2 minus LNG-EE for femoral neck|||0.075|-0.136|0.57
92174163|NCT06429319|184240195|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||"visit 5~Fisher's exact test was used to determine whether there is a significant difference between 3 groups."||||<0.001
92174164|NCT06429319|184240196|SUPERIORITY|||||||0.018||||||The threshold for statistical significance was p \<0.05.|Fisher Exact|||"visit 3~Fisher's exact test was used to determine whether there was a significant difference between 3 groups."||||0.018
92174165|NCT06429319|184240196|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p \<0.05.|Fisher Exact|||"visit 5~Fisher's exact test was used to determine whether there was a significant difference between 3 groups."||||<0.001
92174166|NCT06429319|184240199|SUPERIORITY|||||||0.01||||||The threshold for statistical significance was p \<0.05.|Kruskal-Wallis|||To determine a statistically significant difference between 3 groups the one-way ANOVA (for normally distributed data; aov) or the Kruskal-Wallis test (for non-normally distributed data; kw) was used. The Shapiro-Wilk test was employed to assess the normality of the data distribution.||||0.010
92174167|NCT05364671|184240239|SUPERIORITY|||||||0.0088||||||A priori threshold for statistical significance is set to 0.04|Chi-squared|||||||0.0088
92174168|NCT05364671|184240240|SUPERIORITY|||||||0.0025||||||A priori threshold for statistical significance is set to 0.005|Wilcoxon (Mann-Whitney)|||Mean differences (Raphamin vs. Placebo) were compared||||0.0025
92174169|NCT05364671|184240242|SUPERIORITY|||||||0.2607|||||||Wilcoxon (Mann-Whitney)|||Mean differences (Raphamin vs. Placebo) were compared||||0.2607
92174170|NCT05364671|184240243|SUPERIORITY|||||||0.7601|||||||Fisher Exact|||"This analysis applies to Day 6 row."||||0.7601
92174171|NCT05364671|184240243|SUPERIORITY|||||||0.7685|||||||Fisher Exact|||"This analysis applies to Day 10 row."||||0.7685
92174172|NCT05364671|184240244|SUPERIORITY|||||||0.052|||||||Fisher Exact|||||||0.052
92174173|NCT05364671|184240245|SUPERIORITY|||||||0.19|||||||Fisher Exact|||||||0.19
92174174|NCT05364671|184240246|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||0.54
92174175|NCT05364671|184240247|SUPERIORITY|||||||0.1|||||||Fisher Exact|||||||0.10
92243608|NCT00369668|184390205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.0|STANDARD_ERROR_OF_MEAN|3.65|<|0.05|TWO_SIDED|95.0|22.5|37.4|||Mixed Models Analysis|Greenhouse-Geisser degrees of freedom adjustment was not necessary.||Group by Test Session ANOVA with repeated measures on second factor.||37.4|22.5|<0.05
92243609|NCT03855137|184390216|SUPERIORITY||Least Squares Mean Difference|-2.41|STANDARD_ERROR_OF_MEAN|0.547||0.0001|TWO_SIDED|95.0|-3.48|-1.33||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|Mixed Model Repeated Measures (MMRM)||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.33|-3.48|0.0001
92243610|NCT03855137|184390216|SUPERIORITY||Least Squares Mean Difference|-1.82|STANDARD_ERROR_OF_MEAN|0.545||0.0009|TWO_SIDED|95.0|-2.89|-0.75||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-0.75|-2.89|0.0009
92243611|NCT03855137|184390217|SUPERIORITY||Least Squares Mean Difference|-2.24|STANDARD_ERROR_OF_MEAN|0.547||0.0001|TWO_SIDED|95.0|-3.31|-1.16||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.16|-3.31|0.0001
92243612|NCT03855137|184390217|SUPERIORITY||Least Squares Mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.544||0.0024|TWO_SIDED|95.0|-2.72|-0.59|||MMRM|Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-0.59|-2.72|0.0024
92243613|NCT03855137|184390218|SUPERIORITY||Least Squares Mean Difference|-2.32|STANDARD_ERROR_OF_MEAN|0.541||0.0001|TWO_SIDED|95.0|-3.38|-1.26||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.26|-3.38|0.0001
92243614|NCT03855137|184390218|SUPERIORITY||Least Squares Mean Difference|-1.87|STANDARD_ERROR_OF_MEAN|0.538||0.0009|TWO_SIDED|95.0|-2.93|-0.81||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-0.81|-2.93|0.0009
92281413|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|0.118|STANDARD_ERROR_OF_MEAN|0.16||0.4612|TWO_SIDED|95.0|-0.2|0.436|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Memory||0.436|-0.200|0.4612
92174176|NCT05364671|184240248|SUPERIORITY|||||||0.92||||||"The p-value associated with treatment\*visit interaction of pulse rate (heart rate) from Visit 1 to 4 between Raphamin and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.92
92174177|NCT05364671|184240249|SUPERIORITY|||||||0.44||||||"The p-value associated with treatment\*visit interaction of respiration rate (breathing rate) from Visit 1 to 4 between Raphamin and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.44
92174178|NCT05364671|184240250|SUPERIORITY|||||||0.9||||||"The p-value associated with treatment\*visit interaction of SpO2 from Visit 1 to 4 between Raphamin and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.90
92174179|NCT05364671|184240251|SUPERIORITY|||||||0.3||||||"The p-value associated with treatment\*visit interaction of SBP from Visit 1 to 4 between Raphamin and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.30
92174180|NCT05364671|184240251|SUPERIORITY|||||||0.94||||||"The p-value associated with treatment\*visit interaction of DBP from Visit 1 to 4 between Raphamin and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.94
92182986|NCT02434328|184264732|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-3.8|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||5.6|-3.8|
92182987|NCT02434328|184264732|OTHER||Difference in proportions|2.9|||||TWO_SIDED|95.0|-1.4|7.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||7.0|-1.4|
92182988|NCT02434328|184264732|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-5.1|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||3.7|-5.1|
92182989|NCT02434328|184264732|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-2.5|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||6.7|-2.5|
92182990|NCT02434328|184264732|OTHER||Difference in proportions|1.8|||||TWO_SIDED|95.0|-2.8|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.4|-2.8|
92182991|NCT02434328|184264732|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-3.6|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||5.8|-3.6|
92182992|NCT02434328|184264732|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-4.0|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.4|-4.0|
92182993|NCT02434328|184264732|OTHER||Difference in proportions|1.8|||||TWO_SIDED|95.0|-2.8|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||6.4|-2.8|
92182994|NCT02434328|184264732|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-4.3|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||5.7|-4.3|
92182995|NCT02434328|184264732|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-4.4|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||5.8|-4.4|
92182996|NCT02434328|184264732|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-6.0|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.6|-6.0|
92182997|NCT02434328|184264732|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-5.2|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.5|-5.2|
92182998|NCT02434328|184264732|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-5.7|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.6|-5.7|
92182999|NCT02434328|184264732|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-6.5|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||3.4|-6.5|
92183000|NCT02434328|184264732|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-5.1|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.8|-5.1|
92183001|NCT02434328|184264733|OTHER||Difference in proportions|-4.0|||||TWO_SIDED|95.0|-9.2|1.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||1.6|-9.2|
92183002|NCT02434328|184264733|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-8.1|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||3.7|-8.1|
92281414|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|0.099|STANDARD_ERROR_OF_MEAN|0.15||0.519|TWO_SIDED|95.0|-0.205|0.402|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Walking Balance||0.402|-0.205|0.5190
92174181|NCT05794243|184240253|OTHER||Ratio of Geometric Least Squares Means|0.13|||||TWO_SIDED|90.0|0.0741|0.228|||Mixed Models Analysis|||AUC (0-∞) was log-transformed and analyzed via mixed model for repeated measures with fixed effects for treatment, profile day and the treatment-by-day interaction, and a random effect for participant. The least square means (LSMs) and differences in LSMs were back transformed to produce the ratio between geometric least square means (GLSMs).||0.228|0.0741|
92281415|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.024|STANDARD_ERROR_OF_MEAN|0.12||0.8479|TWO_SIDED|95.0|-0.271|0.223|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Interest in Activities||0.223|-0.271|0.8479
92281416|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.039|STANDARD_ERROR_OF_MEAN|0.14||0.7808|TWO_SIDED|95.0|-0.316|0.238|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Coordination||0.238|-0.316|0.7808
92174182|NCT05794243|184240253|OTHER||Ratio of Geometric Least Squares Means|0.399|||||TWO_SIDED|90.0|0.237|0.669|||Mixed Models Analysis|||AUC (0-∞) was log-transformed and analyzed via mixed model for repeated measures with fixed effects for treatment, profile day and the treatment-by-day interaction, and a random effect for participant. The LSMs and differences in LSMs were back transformed to produce the ratio between GLSMs.||0.669|0.237|
92174183|NCT05794243|184240255|OTHER||Ratio of Geometric Least Squares Means|0.106|||||TWO_SIDED|90.0|0.062|0.182|||Mixed Models Analysis|||Cmax was log-transformed and analyzed via mixed model for repeated measures with fixed effects for treatment, profile day and the treatment-by-day interaction, and a random effect for participant. The LSMs and differences in LSMs were back transformed to produce the ratio between GLSMs.||0.182|0.0620|
92174184|NCT05794243|184240255|OTHER||Ratio of Geometric Least Squares Means|0.343|||||TWO_SIDED|90.0|0.206|0.569|||Mixed Models Analysis|||Cmax was log-transformed and analyzed via mixed model for repeated measures with fixed effects for treatment, profile day and the treatment-by-day interaction, and a random effect for participant. The LSMs and differences in LSMs were back transformed to produce the ratio between GLSMs.||0.569|0.206|
92183003|NCT02434328|184264733|OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-8.4|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||3.5|-8.4|
92183004|NCT02434328|184264733|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-5.4|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||6.7|-5.4|
92183005|NCT02434328|184264733|OTHER||Difference in proportions|-2.2|||||TWO_SIDED|95.0|-8.2|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||4.0|-8.2|
92243615|NCT03855137|184390219|SUPERIORITY||Least Squares Mean Difference|-2.14|STANDARD_ERROR_OF_MEAN|0.539||0.0002|TWO_SIDED|95.0|-3.2|-1.09||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.09|-3.20|0.0002
92243616|NCT03855137|184390219|SUPERIORITY||Least Squares Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|0.536||0.0024|TWO_SIDED|95.0|-2.78|-0.67||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-0.67|-2.78|0.0024
92243617|NCT03855137|184390220|SUPERIORITY||Least Squares Mean Difference|-2.63|STANDARD_ERROR_OF_MEAN|0.51||0.0001|TWO_SIDED|95.0|-3.63|-1.63||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.63|-3.63|0.0001
92243618|NCT03855137|184390220|SUPERIORITY||Least Squares Mean Difference|-2.13|STANDARD_ERROR_OF_MEAN|0.508||0.0009|TWO_SIDED|95.0|-3.13|-1.13||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.13|-3.13|0.0009
92243619|NCT03855137|184390221|SUPERIORITY||Least Squares Mean Difference|-2.52|STANDARD_ERROR_OF_MEAN|0.507||0.0002|TWO_SIDED|95.0|-3.52|-1.53||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.53|-3.52|0.0002
92243620|NCT03855137|184390221|SUPERIORITY||Least Squares Mean Difference|-2.09|STANDARD_ERROR_OF_MEAN|0.505||0.0024|TWO_SIDED|95.0|-3.09|-1.1|||MMRM|||||-1.10|-3.09|0.0024
92243621|NCT03855137|184390222|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0003|TWO_SIDED|95.0|1.45|3.14||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|Logistic regression||Logistic regression for each atogepant group versus placebo with baseline monthly migraine days as covariate,stratification of region,acute medication overuse,migraine prevention medication and number of failures,treatment group as fixed factors.|||3.14|1.45|0.0003
92243622|NCT03855137|184390222|SUPERIORITY||Odds Ratio (OR)|2.04||||0.0009|TWO_SIDED|95.0|1.38|3.0||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|Logistic regression||Logistic regression for each atogepant group versus placebo with baseline monthly migraine days as covariate,stratification of region,acute medication overuse,migraine prevention medication and number of failures,treatment group as fixed factors.|||3.00|1.38|0.0009
92243623|NCT03855137|184390223|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0006|TWO_SIDED|95.0|1.38|2.98||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|Logistic regression||Logistic regression for each atogepant group versus placebo with baseline monthly migraine days as covariate,stratification of region,acute medication overuse,migraine prevention medication and number of failures,treatment group as fixed factors.|||2.98|1.38|0.0006
92243624|NCT03855137|184390223|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0009|TWO_SIDED|95.0|1.29|2.79||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|Logistic regression||Logistic regression for each atogepant group versus placebo with baseline monthly migraine days as covariate,stratification of region,acute medication overuse,migraine prevention medication and number of failures,treatment group as fixed factors.|||2.79|1.29|0.0009
92243625|NCT03855137|184390224|SUPERIORITY||Least Squares Mean Difference|7.43|STANDARD_ERROR_OF_MEAN|1.864||0.0006|TWO_SIDED|95.0|3.77|11.09||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||11.09|3.77|0.0006
92243626|NCT03855137|184390224|SUPERIORITY||Least Squares Mean Difference|5.78|STANDARD_ERROR_OF_MEAN|1.848||0.0024|TWO_SIDED|95.0|2.15|9.41||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||9.41|2.15|0.0024
92174185|NCT03637660|184240261|NON_INFERIORITY|The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.06||||0.002|TWO_SIDED|90.0|-0.15|0.03||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) by Farrington-Manning method with a 10% margin.|Farrington-Manning||The 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) by Farrington-Manning method with a 10% margin.|To assess the primary efficacy endpoint, the number and proportion of participants with a serological response by Month 6 and the 95% confidence interval were summarized overall and by treatment. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis for the primary objective was that the difference in proportion of participants with serological responses between the three-dose and one-dose groups was at least 10%||0.03|-0.15|0.002
92281417|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.171|STANDARD_ERROR_OF_MEAN|0.06||0.0083|TWO_SIDED|95.0|-0.296|-0.045|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Tremor||-0.045|-0.296|0.0083
92243627|NCT03855137|184390225|SUPERIORITY||Least Squares Mean Difference|-4.85|STANDARD_ERROR_OF_MEAN|0.968||0.0003|TWO_SIDED|95.0|-6.75|-2.95||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-2.95|-6.75|0.0003
92243628|NCT03855137|184390225|SUPERIORITY||Least Squares Mean Difference|-3.38|STANDARD_ERROR_OF_MEAN|0.963||0.0009|TWO_SIDED|95.0|-5.27|-1.49||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.49|-5.27|0.0009
92243629|NCT03855137|184390226|SUPERIORITY||Least Squares Mean Difference|-4.19|STANDARD_ERROR_OF_MEAN|0.897||0.0003|TWO_SIDED|95.0|-5.95|-2.43||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-2.43|-5.95|0.0003
92243630|NCT03855137|184390226|SUPERIORITY||Least Squares Mean Difference|-2.71|STANDARD_ERROR_OF_MEAN|0.893||0.0025|TWO_SIDED|95.0|-4.47|-0.96||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-0.96|-4.47|0.0025
92243631|NCT03855137|184390227|SUPERIORITY||Least Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.697||0.0006|TWO_SIDED|95.0|-4.67|-1.93|||MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.93|-4.67|0.0006
92243632|NCT03855137|184390227|SUPERIORITY||Least Squares Mean Difference|-2.66|STANDARD_ERROR_OF_MEAN|0.69||0.0024|TWO_SIDED|95.0|-4.02|-1.3|||MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.30|-4.02|0.0024
92243633|NCT02435277|184390230|OTHER|||||||0.0475||||||Total daily dose is twice the respective dose, Pairwise Comparison using Control as the Reference Group|ANCOVA|||Mixed Model Inferential Statistical Analysis of HbA1c change from day 1-day 84 Evaluable Population (n=43)||||0.0475
92243634|NCT02435277|184390230|OTHER|||||||0.0912|||||||ANCOVA|||||||0.0912
92243635|NCT02435277|184390230|OTHER|||||||0.0458|||||||ANCOVA|||||||0.0458
92243636|NCT02435277|184390231|OTHER|||||||0.26||||||Total daily dose is twice the respective dose Pairwise Comparison using Treatment D as the Reference Group|ANCOVA|||Mixed Model Inferential Statistical Analysis of Fssting Plasma Glucose change from day 1-day 84 in Evaluable Population (n=43)||||0.26
92243637|NCT02435277|184390231|OTHER|||||||0.0083|||||||ANCOVA|||||||0.0083
92243638|NCT02435277|184390231|OTHER|||||||0.0317|||||||ANCOVA|||||||0.0317
92243639|NCT02198651|184390261|OTHER|||||||0.943|||||||Wald Chi|||||||0.943
92243640|NCT02198651|184390262|OTHER|||||||0.592|||||||Wald Chi|||||||0.592
92243641|NCT02198651|184390263|OTHER|||||||0.688|||||||Wald Chi|||||||0.688
92243642|NCT02922634|184390313|SUPERIORITY|||||||0.508|||||||Wilcoxon (Mann-Whitney)|||||||0.508
92243643|NCT02922634|184390314|SUPERIORITY|||||||0.72||||||The chi-squared test for both males and females with and without delirium.|Chi-squared|||||||0.720
92243644|NCT02922634|184390315|SUPERIORITY|||||||0.025|||||||Wilcoxon (Mann-Whitney)|||||||0.025
92243645|NCT02922634|184390316|SUPERIORITY|||||||0.48|||||||Chi-squared|||||||0.480
92243646|NCT02922634|184390317|SUPERIORITY|||||||0.028|||||||Chi-squared|||||||0.028
92243647|NCT02922634|184390318|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||0.007
92243648|NCT02922634|184390319|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92243649|NCT02922634|184390320|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
92243650|NCT02922634|184390321|SUPERIORITY|||||||0.101|||||||Chi-squared|||||||0.101
92243651|NCT02922634|184390322|SUPERIORITY|||||||0.192|||||||Chi-squared|||||||0.192
92243652|NCT02922634|184390323|SUPERIORITY|||||||0.2|||||||Chi-squared|||||||0.200
92243653|NCT02922634|184390324|SUPERIORITY|||||||0.333|||||||Wilcoxon (Mann-Whitney)|||||||0.333
92243654|NCT02922634|184390325|SUPERIORITY|||||||0.001||||||This is a chi-squared test between the FRAIL categories for participants with or without delirium.|Chi-squared|||||||0.001
92243655|NCT02922634|184390326|SUPERIORITY|||||||0.002||||||This is a chi-squared test of the categories for levels of invasiveness for participants with or without delirium.|Chi-squared|||||||0.002
92243656|NCT02625324|184390329|SUPERIORITY||Event Rate|0.023|||<|0.0001|ONE_SIDED|97.5||0.081|||Exact binomial test|||"The primary study endpoint, major device effect at 30 days, is a dichotomous study outcome; hence, an exact method based on the binomial distribution was used for the hypothesis testing. The primary study endpoint was tested against a performance goal of 16%:~H0: p ≥ 16% vs. Ha: p \<16%, where p denotes the true event rate of primary study endpoint in the target population."||0.081||<0.0001
92243657|NCT03534063|184390352|SUPERIORITY|||||||0.047|||||||Wilcoxon (Mann-Whitney)|Comparisons for opioid consumption and composite pain intensity were performed by analysis of covariance, adjusting for baseline differences in groups||||||.047
92243658|NCT03534063|184390353|SUPERIORITY|||||||0.638|||||||t-test, 2 sided|||||||.638
92243659|NCT02397694|184390354|NON_INFERIORITY|Noninferiority of treatment with BIC + F/TAF relative to treatment with DTG + F/TAF. Noninferiority assessed using a conventional 95% confidence interval (CI) approach, with a noninferiority margin of 12%|Difference in percentages|2.9||||0.5|TWO_SIDED|95.0|-8.5|14.2|||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline HIV-1 RNA stratum (≤ 100,000 copies/mL vs \> 100,000 copies/mL).||||14.2|-8.5|0.5
92281418|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.101|STANDARD_ERROR_OF_MEAN|0.15||0.5068|TWO_SIDED|95.0|-0.404|0.201|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Concentration||0.201|-0.404|0.5068
92243660|NCT00424528|184390370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Study baseline FEV1 as covariate and treatment group as fixed effect.||||||<0.001
92243661|NCT00424528|184390370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Study Baseline FEV1 as a covariate and treatment group as a fixed effect.||||||<0.001
92243662|NCT00424528|184390370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Primary analysis:Group 2 vs 3. Key secondary analysis: Group 1 vs 3. Multiple comparisons for the analysis of the primary endpoint were controlled at the 5% level.|ANCOVA|Study baseline FEV1 as a covariate and treatment group as fixed effect.||||||<0.001
92243663|NCT00424528|184390371|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||<0.001
92243664|NCT00424528|184390371|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||0.001
92243665|NCT00424528|184390372|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||0.001
92243666|NCT00424528|184390372|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||<0.001
92243667|NCT00424528|184390373|SUPERIORITY_OR_OTHER|||||||0.073||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||0.073
92243668|NCT00424528|184390373|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||0.050
92243669|NCT00424528|184390376|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANCOVA|Week 0 comparisons: Study baseline FEV1 as a covariate and treatment group as a fixed effect.||Week 0 comparisons||||0.060
92243670|NCT00424528|184390376|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||Week 0||||<0.001
92174186|NCT03637660|184240269|EQUIVALENCE|The alternative hypothesis was that the two treatment groups were unequal.|||||<|0.001||||||P-value was calculated based on 2-sided Pearson Chi-Square test. Difference in proportion was reported with the Wilson 95% CI|Chi-squared|||The number and proportion of participants who were compliant to the treatment, receiving all assigned doses within the assigned visit windows. The null hypothesis was no difference between two treatment groups.||||< 0.001
92243671|NCT00424528|184390376|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|Week 2 comparisons: Study baseline FEV1 as a covariate and treatment group as a fixed effect.||Week 2 comparisons||||0.004
92243672|NCT00424528|184390376|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|Week 2 comparisons: Study baseline FEV1 as a covariate and treatment group as a fixed effect.||Week 2 comparisons||||0.002
92243673|NCT00424528|184390379|SUPERIORITY_OR_OTHER|||||||0.206||95.0|||||ANCOVA|Study baseline Inspiratory Capacity as a covariate and treatment group as a fixed effect.||||||0.206
92243674|NCT00424528|184390379|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||ANCOVA|Study baseline Inspiratory Capacity as a covariate and treatment group as a fixed effect.||||||0.025
92243675|NCT02115113|184390386|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.24|STANDARD_ERROR_OF_MEAN|5.01||0.3013|TWO_SIDED|95.0|-4.86|15.34|||ANOVA|||||15.34|-4.86|0.3013
92243676|NCT01313520|184390389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||<|0.001|TWO_SIDED|95.0|-0.4|-0.1|||Constrained Longitudinal Data Analysis|||||-0.1|-0.4|<0.001
92243677|NCT01313520|184390390|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||Fisher Exact|||||||0.048
92243678|NCT01313520|184390391|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||Fisher Exact|||||||0.011
92243679|NCT01313520|184390392|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Constrained longitudinal data analysis|||||||<0.0001
92243680|NCT01313520|184390393|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||van Elteren test|||||||0.001
92243681|NCT01313520|184390394|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||van Elteren test|||||||0.0005
92243682|NCT01313520|184390395|SUPERIORITY_OR_OTHER||Effect Size|1.4|||||TWO_SIDED|90.0|0.92|1.87||||||||1.87|0.92|
92243683|NCT01313520|184390396|SUPERIORITY_OR_OTHER||Effect Size|1.1|||||TWO_SIDED|90.0|0.64|1.55||||||||1.55|0.64|
92174187|NCT03637660|184240271|NON_INFERIORITY|The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.05||||0.022|TWO_SIDED|90.0|-0.17|0.07||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) in HIV-infected participants by Farrington-Manning method with a 10% margin.|Farrington-Manning|||The number and proportion of participants with serological response by month 6 among participants with HIV infection and the 95% confidence interval (CI) were summarized overall and by treatment status. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis was that the difference in serological response rate between the three-dose and one-dose groups was at least 10%.||0.07|-0.17|0.022
92174188|NCT03637660|184240271|NON_INFERIORITY|The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.06||||0.037|TWO_SIDED|90.0|-0.22|0.09||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) among HIV-uninfected participants by Farrington-Manning method with a 10% margin.|Farrington-Manning|||The number and proportion of participants with serological response by month 6 among participants without HIV infection and the 95% confidence interval (CI) were summarized overall and by treatment status. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis was that the difference in serological response rate between the three-dose and one-dose groups was at least 10%.||0.09|-0.22|0.037
92182483|NCT03617835|184263833|OTHER|Relative bioavailability|Ratio of the geometric means (T2/R) [%]|139.73|||||TWO_SIDED|90.0|116.64|167.4|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.6.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||167.40|116.64|
92243684|NCT01774344|184390471|SUPERIORITY||Hazard Ratio (HR)|0.624|||=|1.7e-05|TWO_SIDED|95.0|0.498|0.782|||Log Rank|||Hazard ratio for OS and 95% confidence interval was calculated for stratified IVRS by using Cox model, stratified by the geographic region: Asia or Rest of the World (ROW), ECOG-PS: 0 versus 1, AFP level, presence versus absence of extrahepatic disease and presence versus absence of macrovascular invasion. Kaplan-Meier (KM) estimated for OS and KM survival curves were presented for each treatment arm.||0.782|0.498|= 0.000017
92243685|NCT01774344|184390471|SUPERIORITY||Hazard Ratio (HR)|0.66|||=|0.000149|TWO_SIDED|95.0|0.527|0.828|||Log Rank|||Hazard ratio for OS and 95% confidence interval was calculated for stratified RAVE (Sensitivity) by using Cox model, stratified by the geographic region: Asia or Rest of the World (ROW), ECOG-PS: 0 versus 1, AFP level, presence versus absence of extrahepatic disease and presence versus absence of macrovascular invasion. Kaplan-Meier (KM) estimated for OS and KM survival curves were presented for each treatment arm.||0.828|0.527|= 0.000149
92183006|NCT02434328|184264733|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-9.0|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.3|-9.0|
92183007|NCT02434328|184264733|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-9.3|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.5|-9.3|
92183008|NCT02434328|184264733|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-9.6|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||2.8|-9.6|
92183009|NCT02434328|184264733|OTHER||Difference in proportions|-3.7|||||TWO_SIDED|95.0|-9.6|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||2.2|-9.6|
92183010|NCT02434328|184264733|OTHER||Difference in proportions|-1.7|||||TWO_SIDED|95.0|-7.6|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||4.2|-7.6|
92183011|NCT02434328|184264733|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-7.5|5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||5.0|-7.5|
92183012|NCT02434328|184264733|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-5.4|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.1|-5.4|
92183013|NCT02434328|184264733|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-7.7|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.5|-7.7|
92281419|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.068|STANDARD_ERROR_OF_MEAN|0.06||0.2725|TWO_SIDED|95.0|-0.191|0.055|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Speech||0.055|-0.191|0.2725
92183014|NCT02434328|184264733|OTHER||Difference in proportions|-1.9|||||TWO_SIDED|95.0|-7.7|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||4.0|-7.7|
92243686|NCT01774344|184390471|SUPERIORITY||Hazard Ratio (HR)|0.674|||=|0.000107|TWO_SIDED|95.0|0.546|0.831|||Log Rank|||Hazard ratio for OS and 95% confidence interval was calculated for unstratified (sensitivity) by using Cox model, stratified by the geographic region: Asia or Rest of the World (ROW), ECOG-PS: 0 versus 1, AFP level, presence versus absence of extrahepatic disease and presence versus absence of macrovascular invasion. Kaplan-Meier (KM) estimated for OS and KM survival curves were presented for each treatment arm.||0.831|0.546|= 0.000107
92243687|NCT01774344|184390472|SUPERIORITY||Hazard Ratio (HR)|0.439|||<|1e-06|TWO_SIDED|95.0|0.355|0.542|||Log Rank|||Hazard ratio and its 95% CI was based on stratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Kaplan-Meier estimates.||0.542|0.355|< 0.000001
92243688|NCT01774344|184390472|SUPERIORITY||Hazard Ratio (HR)|0.471|||<|1e-06|TWO_SIDED|95.0|0.388|0.572|||Log Rank|||Hazard ratio and its 95% CI was based on unstratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Kaplan-Meier estimates.||0.572|0.388|< 0.000001
92243689|NCT01774344|184390472|SUPERIORITY||Hazard Ratio (HR)|0.412|||<|1e-06|TWO_SIDED|95.0|0.334|0.509|||Log Rank|||Hazard ratio and its 95% CI was based on stratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Kaplan-Meier estimates.||0.509|0.334|< 0.000001
92243690|NCT01774344|184390472|SUPERIORITY||Hazard Ratio (HR)|0.444|||<|1e-06|TWO_SIDED|95.0|0.365|0.539|||Log Rank|||Hazard ratio and its 95% CI was based on unstratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Kaplan-Meier estimates.||0.539|0.365|< 0.000001
92243691|NCT01774344|184390473|SUPERIORITY||Hazard Ratio (HR)|0.453|||<|1e-06|TWO_SIDED|95.0|0.369|0.555|||Log Rank|||Hazard ratio and its 95% CI was based on stratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Cox Regression Model.||0.555|0.369|< 0.000001
92243692|NCT01774344|184390473|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|1e-06|TWO_SIDED|95.0|0.397|0.58|||Log Rank|||Hazard ratio and its 95% CI was based on unstratified Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Cox Regression Model.||0.580|0.397|< 0.000001
92243693|NCT01774344|184390473|SUPERIORITY||Hazard Ratio (HR)|0.425|||<|1e-06|TWO_SIDED|95.0|0.347|0.522|||Log Rank|||Hazard ratio and its 95% CI was based on stratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Cox Regression Model.||0.522|0.347|< 0.000001
92174189|NCT03637660|184240272|NON_INFERIORITY|The alternative hypothesis was that the difference in response rates was less than 10%. The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.05||||0.002|TWO_SIDED|90.0|-0.14|0.04||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) by Farrington-Manning method with a 10% margin.|Farrington-Manning||The 2-sided 90% CI are calculated based on the noninferiority analysis for the -sproportion difference (one-dose group is non-inferior to three-dose group) by Farrington-Manning method with a 10% margin.|The number and proportion of participants with a serological response by Month 12 and the 95% confidence interval (CI) were summarized overall and by treatment. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis was that the difference in serological response rate between the three-dose and one-dose groups was at least 10%.||0.04|-0.14|0.002
92243694|NCT01774344|184390473|SUPERIORITY||Hazard Ratio (HR)|0.454|||<|1e-06|TWO_SIDED|95.0|0.376|0.548|||Log Rank|||Hazard ratio and its 95% CI was based on unstratified Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Cox Regression Model.||0.548|0.376|< 0.000001
92243695|NCT01774344|184390474|SUPERIORITY||Difference|-6.88|||=|0.00365|TWO_SIDED|95.0|-11.13|-2.63|||Cochran-Mantel-Haenszel|||Comparison of treatments were calculated.||-2.63|-11.13|= 0.003650
92243696|NCT01774344|184390474|SUPERIORITY||Difference|-4.15|||=|0.019991|TWO_SIDED|95.0|-7.55|-0.75|||Cochran-Mantel-Haenszel|||Comparison of treatments were calculated.||-0.75|-7.55|= 0.019991
92243697|NCT01774344|184390475|SUPERIORITY||Difference|-29.31|||<|1e-06|TWO_SIDED|95.0|-37.52|-21.11|||Cochran-Mantel-Haenszel|||Comparison of treatments were calculated.||-21.11|-37.52|< 0.000001
92243698|NCT01774344|184390475|SUPERIORITY||Difference|-31.39|||<|1e-06|TWO_SIDED|95.0|-39.57|-23.22|||Cochran-Mantel-Haenszel|||Comparison of treatments were calculated.||-23.22|-39.57|< 0.000001
92243699|NCT03664193|184390477|OTHER|Simple descriptive feasibility proportion and exact 95% confidence interval for radiation dose of 37.5 Gy.|Proportion (percent)|30.0|||||TWO_SIDED|95.0|14.7|49.3||||||||49.3|14.7|
92243700|NCT03664193|184390477|OTHER|Simple descriptive feasibility proportion and exact 95% confidence interval for radiation dose of 40.0 Gy.|Proportion (percent)|46.7|||||TWO_SIDED|95.0|28.3|65.7||||||||65.7|28.3|
92243701|NCT03664193|184390477|OTHER|Simple descriptive feasibility proportion and exact 95% confidence interval for radiation dose of 42.5 Gy.|Proportion (percent)|6.7|||||TWO_SIDED|95.0|0.8|22.1||||||||22.1|0.8|
92243702|NCT03664193|184390477|OTHER|Simple descriptive feasibility proportion and exact 95% confidence interval for radiation dose of 45.0 Gy.|Proportion (percent)|16.7|||||TWO_SIDED|95.0|5.6|34.7||||||||34.7|5.6|
92243703|NCT03664193|184390478|OTHER|Simple proportion and exact 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|88.4|100.0||||||||100.0|88.4|
92182484|NCT03617835|184263834|OTHER|Relative bioavailability|Ratio of the geometric means (T3/R) [%]|121.34|||||TWO_SIDED|90.0|101.28|145.37|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.6.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||145.37|101.28|
92182485|NCT02060487|184263883|NON_INFERIORITY|Non-inferiority of sildenafil 20 mg TID versus sildenafil 5 mg TID was to be concluded if the upper limit of the 99.7% confidence interval (CI) for hazard ratio (HR) was less than 2.|Hazard Ratio (HR)|0.68|||||TWO_SIDED|99.7|0.31|1.49|||||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||1.49|0.31|
92182486|NCT02060487|184263883|NON_INFERIORITY|Non-inferiority of sildenafil 80 mg TID vs. sildenafil 5 mg TID was to be concluded if the upper limit of the 99.7% CI for HR was less than 2.|Hazard Ratio (HR)|0.51|||||TWO_SIDED|99.7|0.22|1.21|||||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||1.21|0.22|
92243704|NCT00543569|184390486|NON_INFERIORITY_OR_EQUIVALENCE|The aim of this study was to assess the non-inferiority of each experimental arm (Arms 2-4) to a comparator regimen (Arm 1) over a non-inferiority margin of 10%. If the upper bound of the 90% confidence interval was less than the margin, i.e., 10%, then the test treatment was considered to be non-inferior to the comparator regimen.|Difference|13.6|||||TWO_SIDED|90.0|3.2|23.9|||||A positive difference indicates a higher failure rate in the experimental arm as compared to the comparator arm (Arm 1).|||23.9|3.2|
92182487|NCT02060487|184263883|NON_INFERIORITY|Non-inferiority of sildenafil 80 mg TID vs. sildenafil 20 mg TID was to be concluded if the upper limit of the 99.7% CI for HR is less than 2.|Hazard Ratio (HR)|0.74|||||TWO_SIDED|99.7|0.3|1.84|||||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||1.84|0.30|
92174190|NCT03637660|184240273|NON_INFERIORITY|The alternative hypothesis was that the difference in response rates was less than 10%. The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.06||||0.011|TWO_SIDED|90.0|-0.18|0.05||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) in HIV-infected participants by Farrington-Manning method with a 10% margin.|Farrington-Manning||The 2-sided 90% CI are calculated based on the noninferiority analysis for the -sproportion difference (one-dose group is non-inferior to three-dose group) among HIV-infected participants by Farrington-Manning method with a 10% margin.|The number and proportion of participants with a serological response by month 12 among participants with HIV infection and the 95% confidence interval (CI) were summarized overall and by treatment status. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis was that the difference in serological response rate between the three-dose and one-dose groups was at least 10%.||0.05|-0.18|0.011
92174191|NCT03637660|184240273|NON_INFERIORITY|The alternative hypothesis was that the difference in response rates was less than 10%. The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.03||||0.064|TWO_SIDED|90.0|-0.18|0.11||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) among HIV-uninfected participants by Farrington-Manning method with a 10% margin.|Farrington-Manning||The 2-sided 90% CI are calculated based on the noninferiority analysis for the -sproportion difference (one-dose group is non-inferior to three-dose group) among HIV-uninfected participants by Farrington-Manning method with a 10% margin.|The number and proportion of participants with a serological response by month 12 amont participants without HIV infection and the 95% confidence interval (CI) were summarized overall and by treatment status. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis was that the difference in serological response rate between the three-dose and one-dose groups was at least 10%.||0.11|-0.18|0.064
92174192|NCT05093829|184240288|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup A if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.0|2.0||||||For serogroup A, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||2.0|-1.0|
92174193|NCT05093829|184240288|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup A if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|0.8|||||TWO_SIDED|95.0|-0.6|3.7||||||For serogroup A, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||3.7|-0.6|
92174194|NCT05093829|184240288|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup C if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|-0.5|||||TWO_SIDED|95.0|-2.3|1.9||||||For serogroup C, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||1.9|-2.3|
92182488|NCT02060487|184263884|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.035|TWO_SIDED|99.7|0.33|1.21|||Wald test||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||1.21|0.33|0.035
92182489|NCT02060487|184263884|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.001|TWO_SIDED|99.7|0.22|0.89|||Wald test||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||0.89|0.22|<0.001
92182490|NCT02060487|184263884|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.195|TWO_SIDED|99.7|0.34|1.52|||Wald test||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||1.52|0.34|0.195
92182491|NCT02060487|184263885|SUPERIORITY||Least-squares means difference|15.0||||0.0627|TWO_SIDED|95.0|-0.8|30.81|||MMRM|||||30.81|-0.80|0.0627
92182492|NCT02060487|184263885|SUPERIORITY||Least-squares means difference|18.9||||0.0201|TWO_SIDED|95.0|2.99|34.86|||MMRM|||||34.86|2.99|0.0201
92182493|NCT02060487|184263885|SUPERIORITY||Least-squares means difference|3.9||||0.6254|TWO_SIDED|95.0|-11.85|19.68|||MMRM|||||19.68|-11.85|0.6254
92182494|NCT02060487|184263886|SUPERIORITY||Least-squares means difference|21.3||||0.0286|TWO_SIDED|95.0|2.25|40.45|||MMRM|||||40.45|2.25|0.0286
92182495|NCT02060487|184263886|SUPERIORITY||Least-squares means difference|20.5||||0.0364|TWO_SIDED|95.0|1.3|39.65|||MMRM|||||39.65|1.30|0.0364
92182496|NCT02060487|184263886|SUPERIORITY||Least-squares means difference|-0.9||||0.9283|TWO_SIDED|95.0|-19.94|18.19|||MMRM|||||18.19|-19.94|0.9283
92243705|NCT00543569|184390486|NON_INFERIORITY_OR_EQUIVALENCE|The aim of this study was to assess the non-inferiority of each experimental arm (Arms 2-4) to a comparator regimen (Arm 1) over a non-inferiority margin of 10%. If the upper bound of the 90% confidence interval was less than the margin, i.e., 10%, then the test treatment was considered to be non-inferior to the comparator regimen.|Difference|6.1|||||TWO_SIDED|90.0|-3.6|15.8|||||A positive difference indicates a higher failure rate in the experimental arm as compared to the comparator arm (Arm 1).|||15.8|-3.6|
92243706|NCT00543569|184390486|NON_INFERIORITY_OR_EQUIVALENCE|The aim of this study was to assess the non-inferiority of each experimental arm (Arms 2-4) to a comparator regimen (Arm 1) over a non-inferiority margin of 10%. If the upper bound of the 90% confidence interval was less than the margin, i.e., 10%, then the test treatment was considered to be non-inferior to the comparator regimen.|Difference|4.0|||||TWO_SIDED|90.0|-5.3|13.3|||||A positive difference indicated a higher failure rate in the experimental arm as compared to the comparator arm (Arm 1).|||13.3|-5.3|
92243707|NCT00543569|184390487|SUPERIORITY_OR_OTHER||Difference|-1.4|||||TWO_SIDED|90.0|-6.9|4.1||||||Patient survival at 6 months||4.1|-6.9|
92243708|NCT00543569|184390487|SUPERIORITY_OR_OTHER||Difference|1.1|||||TWO_SIDED|90.0|-3.5|5.8||||||Patient survival at 6 months||5.8|-3.5|
92243709|NCT00543569|184390487|SUPERIORITY_OR_OTHER||Difference|-2.6|||||TWO_SIDED|90.0|-8.4|3.2||||||Patient survival at 6 months||3.2|-8.4|
92243710|NCT00543569|184390487|SUPERIORITY_OR_OTHER||Difference|4.9|||||TWO_SIDED|90.0|-3.1|12.8||||||Patient survival at 12 months||12.8|-3.1|
92243711|NCT00543569|184390487|SUPERIORITY_OR_OTHER||Difference|0.5|||||TWO_SIDED|90.0|-8.3|9.2||||||Patient survival at 12 months||9.2|-8.3|
92243712|NCT00543569|184390487|SUPERIORITY_OR_OTHER||Difference|2.4|||||TWO_SIDED|90.0|-6.0|10.8||||||Patient survival at 12 months||10.8|-6.0|
92243713|NCT00543569|184390488|SUPERIORITY_OR_OTHER||Difference|-2.7|||||TWO_SIDED|90.0|-8.5|3.1||||||Graft survival at 6 months||3.1|-8.5|
92243714|NCT00543569|184390488|SUPERIORITY_OR_OTHER||Difference|-0.2|||||TWO_SIDED|90.0|-5.3|4.9||||||Graft survival at 6 months||4.9|-5.3|
92243715|NCT00543569|184390488|SUPERIORITY_OR_OTHER||Difference|-3.9|||||TWO_SIDED|90.0|-10.0|2.2||||||Graft survival at 6 months||2.2|-10.0|
92243716|NCT00543569|184390488|SUPERIORITY_OR_OTHER||Difference|3.6|||||TWO_SIDED|90.0|-4.6|11.7||||||Graft survival at 12 months||11.7|-4.6|
92243717|NCT00543569|184390488|SUPERIORITY_OR_OTHER||Difference|-0.9|||||TWO_SIDED|90.0|-9.9|8.1||||||Graft survival at 12 months||8.1|-9.9|
92243718|NCT00543569|184390488|SUPERIORITY_OR_OTHER||Difference|-1.6|||||TWO_SIDED|90.0|-10.6|7.4||||||Graft survival at 12 months||7.4|-10.6|
92243719|NCT00543569|184390489|SUPERIORITY_OR_OTHER||Difference|13.7|||||TWO_SIDED|90.0|2.8|24.6||||||||24.6|2.8|
92243720|NCT00543569|184390489|SUPERIORITY_OR_OTHER||Difference|4.8|||||TWO_SIDED|90.0|-5.4|15.0||||||||15.0|-5.4|
92243721|NCT00543569|184390489|SUPERIORITY_OR_OTHER||Difference|2.8|||||TWO_SIDED|90.0|-7.1|12.6||||||||12.6|-7.1|
92243722|NCT00543569|184390490|SUPERIORITY_OR_OTHER||Difference|10.6|||||TWO_SIDED|90.0|1.8|19.5||||||BCAR at Month 6||19.5|1.8|
92243723|NCT00543569|184390490|SUPERIORITY_OR_OTHER||Difference|4.3|||||TWO_SIDED|90.0|-3.6|12.3||||||BCAR at Month 6||12.3|-3.6|
92243724|NCT00543569|184390490|SUPERIORITY_OR_OTHER||Difference|6.4|||||TWO_SIDED|90.0|-1.7|14.6||||||BCAR at Month 6||14.6|-1.7|
92243725|NCT00543569|184390490|SUPERIORITY_OR_OTHER||Difference|12.0|||||TWO_SIDED|90.0|3.0|21.0||||||BCAR at Month 12||21.0|3.0|
92243726|NCT00543569|184390490|SUPERIORITY_OR_OTHER||Difference|4.3|||||TWO_SIDED|90.0|-3.6|12.3||||||BCAR at Month 12||12.3|-3.6|
92243727|NCT00543569|184390490|SUPERIORITY_OR_OTHER||Difference|7.8|||||TWO_SIDED|90.0|-0.6|16.2||||||BCAR at Month 12||16.2|-0.6|
92243728|NCT00543569|184390491|SUPERIORITY_OR_OTHER||Difference|12.2|||||TWO_SIDED|90.0|2.0|22.5||||||T-cell Mediated BCAR at Month 6||22.5|2.0|
92243729|NCT00543569|184390491|SUPERIORITY_OR_OTHER||Difference|6.1|||||TWO_SIDED|90.0|-3.6|15.8||||||T-cell Mediated BCAR at Month 6||15.8|-3.6|
92243730|NCT00543569|184390491|SUPERIORITY_OR_OTHER||Difference|4.0|||||TWO_SIDED|90.0|-5.3|13.3||||||T-cell Mediated BCAR at Month 6||13.3|-5.3|
92243731|NCT00543569|184390491|SUPERIORITY_OR_OTHER||Difference|13.6|||||TWO_SIDED|90.0|3.0|24.3||||||T-cell Mediated BCAR at Month 12||24.3|3.0|
92243732|NCT00543569|184390491|SUPERIORITY_OR_OTHER||Difference|4.8|||||TWO_SIDED|90.0|-5.1|14.6||||||T-cell Mediated BCAR at Month 12||14.6|-5.1|
92243733|NCT00543569|184390491|SUPERIORITY_OR_OTHER||Difference|4.1|||||TWO_SIDED|90.0|-5.6|13.8||||||T-cell Mediated BCAR at Month 12||13.8|-5.6|
92243734|NCT00543569|184390492|SUPERIORITY_OR_OTHER||Difference|9.3|||||TWO_SIDED|90.0|0.7|18.0||||||T-cell Mediated BCAR at Month 6||18.0|0.7|
92243735|NCT00543569|184390492|SUPERIORITY_OR_OTHER||Difference|4.3|||||TWO_SIDED|90.0|-3.6|12.3||||||T-cell Mediated BCAR at Month 6||12.3|-3.6|
92243736|NCT00543569|184390492|SUPERIORITY_OR_OTHER||Difference|6.4|||||TWO_SIDED|90.0|-1.7|14.6||||||T-cell Mediated BCAR at Month 6||14.6|-1.7|
92174195|NCT05093829|184240288|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup C if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|-0.8|||||TWO_SIDED|95.0|-3.3|2.5||||||For serogroup C, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||2.5|-3.3|
92281420|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|0.039|STANDARD_ERROR_OF_MEAN|0.12||0.7498|TWO_SIDED|95.0|-0.206|0.284|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Forgetfulness||0.284|-0.206|0.7498
92281421|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|0.152|STANDARD_ERROR_OF_MEAN|0.34||0.6554|TWO_SIDED|95.0|-0.522|0.826|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Sleepiness||0.826|-0.522|0.6554
92281422|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|0.082|STANDARD_ERROR_OF_MEAN|0.1||0.4143|TWO_SIDED|95.0|-0.116|0.28|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Moodiness||0.280|-0.116|0.4143
92243737|NCT00543569|184390492|SUPERIORITY_OR_OTHER||Difference|10.7|||||TWO_SIDED|90.0|1.8|19.5||||||T-cell Mediated BCAR at Month 12||19.5|1.8|
92281423|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.055|STANDARD_ERROR_OF_MEAN|0.19||0.7761|TWO_SIDED|95.0|-0.441|0.33|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Alertness||0.330|-0.441|0.7761
92243738|NCT00543569|184390492|SUPERIORITY_OR_OTHER||Difference|4.3|||||TWO_SIDED|90.0|-3.6|12.3||||||T-cell Mediated BCAR at Month 12||12.3|-3.6|
92243739|NCT00543569|184390492|SUPERIORITY_OR_OTHER||Difference|7.8|||||TWO_SIDED|90.0|-0.6|16.2||||||T-cell Mediated BCAR at Month 12||16.2|-0.6|
92243740|NCT00543569|184390496|SUPERIORITY_OR_OTHER||Difference|14.7|||||TWO_SIDED|90.0|3.8|25.5||||||Efficacy Failure at Month 6||25.5|3.8|
92243741|NCT00543569|184390496|SUPERIORITY_OR_OTHER||Difference|7.5|||||TWO_SIDED|90.0|-2.9|17.8||||||Efficacy Failure at Month 6||17.8|-2.9|
92243742|NCT00543569|184390496|SUPERIORITY_OR_OTHER||Difference|7.9|||||TWO_SIDED|90.0|-2.4|18.2||||||Efficacy Failure at Month 6||18.2|-2.4|
92243743|NCT00543569|184390496|SUPERIORITY_OR_OTHER||Difference|8.4|||||TWO_SIDED|90.0|-3.5|20.4||||||Efficacy Failure at Month12||20.4|-3.5|
92243744|NCT00543569|184390496|SUPERIORITY_OR_OTHER||Difference|4.0|||||TWO_SIDED|90.0|-7.8|15.8||||||Efficacy Failure at Month 12||15.8|-7.8|
92243745|NCT00543569|184390496|SUPERIORITY_OR_OTHER||Difference|4.2|||||TWO_SIDED|90.0|-7.5|15.9||||||Efficacy Failure at Month12||15.9|-7.5|
92243746|NCT00543569|184390497|SUPERIORITY_OR_OTHER||Difference|10.7|||||TWO_SIDED|90.0|0.9|20.4||||||Efficacy Failure at Month 6||20.4|0.9|
92243747|NCT00543569|184390497|SUPERIORITY_OR_OTHER||Difference|4.6|||||TWO_SIDED|90.0|-4.5|13.7||||||Efficacy Failure at Month 6||13.7|-4.5|
92243748|NCT00543569|184390497|SUPERIORITY_OR_OTHER||Difference|9.1|||||TWO_SIDED|90.0|-0.4|18.7||||||Efficacy Failure at Month 6||18.7|-0.4|
92243749|NCT00543569|184390497|SUPERIORITY_OR_OTHER||Difference|7.0|||||TWO_SIDED|90.0|-4.0|18.0||||||Efficacy Failure at Month 12||18.0|-4.0|
92243750|NCT00543569|184390497|SUPERIORITY_OR_OTHER||Difference|2.3|||||TWO_SIDED|90.0|-8.3|13.0||||||Efficacy Failure at Month 12||13.0|-8.3|
92243751|NCT00543569|184390497|SUPERIORITY_OR_OTHER||Difference|6.7|||||TWO_SIDED|90.0|-4.2|17.6||||||Efficacy Failure at Month 12||17.6|-4.2|
92243752|NCT00543569|184390507|SUPERIORITY_OR_OTHER||Difference|11.1|||||TWO_SIDED|90.0|-1.1|23.3||||||Treatment Failure at Month 6||23.3|-1.1|
92243753|NCT00543569|184390507|SUPERIORITY_OR_OTHER||Difference|11.8|||||TWO_SIDED|90.0|-0.7|24.2||||||Treatment Failure at Month 6||24.2|-0.7|
92243754|NCT00543569|184390507|SUPERIORITY_OR_OTHER||Difference|2.9|||||TWO_SIDED|90.0|-8.9|14.7||||||Treatment Failure at Month 6||14.7|-8.9|
92243755|NCT00543569|184390507|SUPERIORITY_OR_OTHER||Difference|10.0|||||TWO_SIDED|90.0|-2.9|22.8||||||Treatment Failure at Month 12||22.8|-2.9|
92243756|NCT00543569|184390507|SUPERIORITY_OR_OTHER||Difference|9.7|||||TWO_SIDED|90.0|-3.3|22.8||||||Treatment Failure at Month 12||22.8|-3.3|
92243757|NCT00543569|184390507|SUPERIORITY_OR_OTHER||Difference|-0.8|||||TWO_SIDED|90.0|-13.3|11.7||||||Treatment Failure at Month 12||11.7|-13.3|
92243758|NCT00862849|184390514|SUPERIORITY_OR_OTHER||LS Mean Difference|26.47|||<|0.0001|TWO_SIDED|90.0|18.22|34.71||Treatment comparison for %AUC(0-30). Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|Mixed Models Analysis|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||34.71|18.22|<0.0001
92243759|NCT00862849|184390514|SUPERIORITY_OR_OTHER||LS Mean Difference|16.7||||0.0015|TWO_SIDED|90.0|8.45|24.94||Treatment comparison for %AUC(0-30). Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|Mixed Models Analysis|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed||||24.94|8.45|0.0015
92243760|NCT02344407|184390522|SUPERIORITY|||||||0.68|||||||Chi-squared|Bernards Exact Test Chi-square||Each active vaccine is compared to the placebo group||||0.68
92243761|NCT02344407|184390522|SUPERIORITY|||||||0.68|||||||Chi-squared|Barnard Exact Test Chi-square||||||0.68
92243762|NCT02344407|184390523|SUPERIORITY||||||<|0.001|||||||ANCOVA|Linear regression (analysis of covariance) adjusted for baseline antibody level||||||<0.001
92243763|NCT02344407|184390523|SUPERIORITY||||||<|0.001|||||||ANCOVA|Analysis of covariance adjusting for baseline antibody level||||||<0.001
92243764|NCT04124536|184390524|SUPERIORITY||Risk Difference (RD)|-21.9|||||TWO_SIDED|95.0|-35.9|-7.9|||||The risk difference was calculated by subtracting the proportion of women meeting the outcome in the intervention arm minus the proportion of women meeting the outcome in the control arm|||-7.9|-35.9|
92243765|NCT04124536|184390524|SUPERIORITY||Risk Difference (RD)|-30.7|||||TWO_SIDED|95.0|-40.6|-20.8|||||The risk difference was calculated by subtracting the proportion of women meeting the outcome in the intervention arm minus the proportion of women meeting the outcome in the control arm|||-20.8|-40.6|
92243766|NCT04124536|184390525|SUPERIORITY||Risk Difference (RD)|-5.4|||||TWO_SIDED|95.0|-13.6|2.8|||||The risk difference was calculated by subtracting the proportion of women meeting the outcome in the intervention arm minus the proportion of women meeting the outcome in the control arm|||2.8|-13.6|
92243767|NCT04124536|184390525|SUPERIORITY||||||||||||||||||The calculation of risk differences between study arms was originally planned. However, the linear-binomial model did not converge because of zero events in the intervention arm.|||
92243768|NCT04124536|184390529|SUPERIORITY||Risk Difference (RD)|40.7|||||TWO_SIDED|95.0|23.0|58.4|||||The risk difference was calculated by subtracting the proportion of women meeting the outcome in the intervention arm minus the proportion of women meeting the outcome in the control arm|||58.4|23.0|
92243769|NCT04124536|184390529|SUPERIORITY||Risk Difference (RD)|23.3|||||TWO_SIDED|95.0|10.7|36.0|||||The risk difference was calculated by subtracting the proportion of women meeting the outcome in the intervention arm minus the proportion of women meeting the outcome in the control arm|||36.0|10.7|
92243770|NCT00677690|184390535|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||"All data were expressed as the mean ± SD. The level of significance for all tests was set at p \< 0.05.~Inter- and intra-group comparisons were performed using both paired and unpaired t tests for continuous variables and Chi squared for categorical variables."||||< 0.05
92243771|NCT00677690|184390536|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<0.05
92243772|NCT00677690|184390537|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<0.05
92243773|NCT00677690|184390538|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<0.05
92243774|NCT00677690|184390539|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<0.05
92243775|NCT02196038|184390579|SUPERIORITY||Mean Difference (Final Values)|1.5|||<|0.0001|TWO_SIDED|95.0|0.9|2.0|||joint model|Joint model of ANCOVA plus survival||||2.0|0.9|<0.0001
92243776|NCT02196038|184390580|SUPERIORITY||Rate Ratio|0.93||||0.59|TWO_SIDED|95.0|0.66|1.19|||Joint Model|Joint model of Poisson regression and survival||||1.19|0.66|0.59
92243777|NCT01580592|184390605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.6|STANDARD_DEVIATION|7.6||0.001|TWO_SIDED||||||ANOVA||for omalizumab 150mg|||||0.001
92243778|NCT01580592|184390605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.4|STANDARD_DEVIATION|9.4||0.01|TWO_SIDED||||||ANOVA|||||||0.01
92243779|NCT01580592|184390605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|3.9|||TWO_SIDED|||||||||||||
92243780|NCT01580592|184390606|SUPERIORITY_OR_OTHER|||||||0.988|||||||Chi-squared|||||||0.988
92243781|NCT01842620|184390639|EQUIVALENCE|Geometric means ratio for AUC (0-t) of test drug (Oxemet) to be entirely fallen within range of 0.80 to 1.25 of that of reference drug (Glafornil).|(Ratio of AUC0-36)*100|100.0|||||TWO_SIDED|90.0|92.62|107.98|||||Ratio of AUC0-36= (AUC0-36 of Test)/ AUC 0-36 Reference)|Overall period||107.98|92.62|
92243782|NCT01842620|184390640|EQUIVALENCE|Geometric means ratio for AUC(0-inf) of test drug (Oxemet) to be entirely fallen within range of 0.80 to 1.25 of that of reference drug (Glafornil).|(Ratio of AUC0-inf)*100|99.02|||||TWO_SIDED|90.0|92.26|106.27|||||Ratio of AUC0-inf= (AUC0-inf of Test) / (AUC 0-inf of Reference)|For overall period||106.27|92.26|
92243783|NCT01842620|184390641|EQUIVALENCE|Geometric means ratio for Cmax of test drug (Oxemet) to be entirely fallen within range of 0.80 to 1.25 of that of reference drug (Glafornil).|(Ratio of Cmax)*100|98.34|||||TWO_SIDED|90.0|88.54|109.22|||||Ratio of Cmax= (Cmax of Test) / (Cmax of Reference)|Overall period||109.22|88.54|
92281424|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|0.005|STANDARD_ERROR_OF_MEAN|0.12||0.9697|TWO_SIDED|95.0|-0.241|0.251|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Attention Span||0.251|-0.241|0.9697
92243784|NCT02402218|184390681|SUPERIORITY|||||||0.11||||||For the primary and secondary outcomes, the proportion of participants with the outcome in each group was compared using a chi-square test.|Chi-squared|||Sample size was based on an estimated HCV treatment initiation rate of 50% in the UC group (based on a 33% rate observed during the interferon era) and 80% in the intervention groups, a significance level of 0.05, a desired ratio of participants in the intervention group compared to UC group of 3 to 2, and power of 80% to detect this difference between groups. The study was not powered to detect differences between the peer and cash groups.||||.11
92243785|NCT02402218|184390682|SUPERIORITY|||||||0.22|||||||Chi-squared|||||||.22
92243786|NCT02402218|184390684|SUPERIORITY|||||||0.33|||||||Chi-squared|||changes in the frequency of drug and alcohol use before and during treatment were compared using chi-square tests to evaluate the safety of cash incentives.||||0.33
92281425|NCT03179345|184465854|SUPERIORITY||Mean Difference (Net)|-0.086|STANDARD_ERROR_OF_MEAN|0.13||0.5118|TWO_SIDED|95.0|-0.346|0.174|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.||Motivation|SE of difference estimated by dividing width of 95% CI by 4.|0.174|-0.346|0.5118
92281426|NCT03179345|184465855|SUPERIORITY||Mean Difference (Net)|-0.116|STANDARD_ERROR_OF_MEAN|0.53||0.8293|TWO_SIDED|95.0|-1.178|0.947|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.947|-1.178|0.8293
92281427|NCT03179345|184465855|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.53||0.9705|TWO_SIDED|95.0|-1.089|1.049|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.049|-1.089|0.9705
92281428|NCT03179345|184465856|SUPERIORITY||Mean Difference (Net)|-0.488|STANDARD_ERROR_OF_MEAN|0.53||0.3666|TWO_SIDED|95.0|-1.556|0.581|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.581|-1.556|0.3666
92281429|NCT03179345|184465856|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.53||0.9705|TWO_SIDED|95.0|-1.089|1.049|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.049|-1.089|0.9705
92281430|NCT00290745|184465895|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Change in Tumor volume between baseline and Month 6||||0.07
92281431|NCT00290745|184465896|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change in Tumor volume between baseline and Month 6||||<0.001
92281432|NCT00290745|184465899|OTHER|||||||0.538|||||||Kruskal-Wallis|||||||0.538
92281433|NCT00290745|184465900|OTHER|||||||0.02|||||||Kruskal-Wallis|||||||0.02
92281434|NCT00290745|184465901|OTHER|||||||0.714|||||||Kruskal-Wallis|||||||0.714
92243787|NCT02402218|184390685|SUPERIORITY|||||||0.3||||||changes in the frequency of drug and alcohol use before and during treatment were compared using chi-square tests to evaluate the safety of cash incentives.|Chi-squared|||||||0.30
92281435|NCT00290745|184465902|OTHER|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92281436|NCT00290745|184465903|OTHER|||||||0.906|||||||Kruskal-Wallis|||||||0.906
92281437|NCT00626925|184465904|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92281438|NCT00626925|184465905|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92243788|NCT04436822|184390692|SUPERIORITY||Intercept from ANCOVA as agreement rate|88.9|||<|0.05|TWO_SIDED|90.0|87.1|90.7|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).||||90.7|87.1|<0.05
92281439|NCT00626925|184465907|SUPERIORITY_OR_OTHER|||||||0.004|||||||Mixed Models Analysis|||||||0.004
92281440|NCT00626925|184465908|SUPERIORITY_OR_OTHER|||||||0.04|||||||Mixed Models Analysis|||||||0.04
92281441|NCT00626925|184465909|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92281442|NCT00626925|184465910|SUPERIORITY_OR_OTHER|||||||0.06|||||||Mixed Models Analysis|||||||0.06
92281443|NCT00626925|184465911|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92281444|NCT03267264|184465915|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|17.5|||||TWO_SIDED|95.0|10.3|24.7||||||||24.7|10.3|
92243789|NCT04436822|184390692|SUPERIORITY||Intercept from ANCOVA as agreement rate|87.5|||<|0.05|TWO_SIDED|90.0|85.4|89.7|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).||||89.7|85.4|<0.05
92243790|NCT04436822|184390692|SUPERIORITY||Intercept from ANCOVA as agreement rate|87.9|||<|0.05|TWO_SIDED|90.0|85.8|89.9|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).||||89.9|85.8|<0.05
92243791|NCT03807739|184390693|EQUIVALENCE|Equivalence margin 80% - 125%|Geometric LS Mean Ratio|1.2471|||||TWO_SIDED|90.0|1.1149|1.3951||||||||1.3951|1.1149|
92243792|NCT03807739|184390693|EQUIVALENCE|Equivalence margin 80% - 125%|Geometric LS Mean Ratio|0.9864|||||TWO_SIDED|90.0|0.8531|1.1405||||||||1.1405|0.8531|
92281445|NCT03267264|184465916|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|30.5|||||TWO_SIDED|95.0|16.8|44.3||||||||44.3|16.8|
92281446|NCT03267264|184465916|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall|20.6|||||TWO_SIDED|95.0|4.1|37.1||||||||37.1|4.1|
92281447|NCT03267264|184465916|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|overal mean|6.2|||||TWO_SIDED|95.0|-7.2|19.5||||||||19.5|-7.2|
92243793|NCT03807739|184390695|EQUIVALENCE|Equivalence margin 80% - 125%|Geometric LS Mean Ratio|1.2203|||||TWO_SIDED|90.0|1.1175|1.3327||||||||1.3327|1.1175|
92243794|NCT03807739|184390695|EQUIVALENCE|Equivalence margin 80% - 125%|Geometric LS Mean Ratio|0.9947|||||TWO_SIDED|90.0|0.8266|1.1968||||||||1.1968|0.8266|
92174196|NCT05093829|184240288|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup W if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|-3.0|||||TWO_SIDED|95.0|-6.3|0.8||||||For serogroup W, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||0.8|-6.3|
92174197|NCT05093829|184240288|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup W if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|0.3|||||TWO_SIDED|95.0|-1.8|3.5||||||For serogroup W, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||3.5|-1.8|
92281448|NCT03267264|184465916|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|12.8|||||TWO_SIDED|95.0|-1.1|26.7||||||||26.7|-1.1|
92281449|NCT03267264|184465917|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall mean|18.0|||||TWO_SIDED|95.0|11.3|24.7||||||Overall Comfort||24.7|11.3|
92281450|NCT03267264|184465917|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|15.9|||||TWO_SIDED|95.0|9.9|21.8||||||Anxiety Associated with a Needle Stick Injury||21.8|9.9|
92281451|NCT03267264|184465917|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|15.5|||||TWO_SIDED|95.0|8.9|22.1||||||Injection Pain||22.1|8.9|
92287232|NCT03086460|184479326|SUPERIORITY||Mean Difference (Final Values)|0.046||||0.212|TWO_SIDED|95.0|-0.026|0.118|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.118|-0.026|0.212
92243795|NCT02371759|184390696|NON_INFERIORITY_OR_EQUIVALENCE|In order to detect 20% difference in intraoral anesthesia duration between healthy and diabetic participants, with 80 % statistical power at a two-tailed significance level of 0.05 using Mann Whitney U test, it was calculated that at least 24 participants must be included in each group|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||In order to detect 20% difference in intraoral anesthesia duration between healthy and diabetic participants, with 80 % statistical power at a two-tailed significance level of 0.05 using Mann Whitney U test, it was calculated that at least 24 participants must be included in each group||||<0.05
92243796|NCT02371759|184390697|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92243797|NCT02371759|184390713|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92243798|NCT02371759|184390714|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92243799|NCT02371759|184390715|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92243800|NCT02371759|184390716|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92243801|NCT02371759|184390717|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92243802|NCT02371759|184390718|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92243803|NCT02371759|184390719|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92243804|NCT02371759|184390720|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92243805|NCT00430625|184390721|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.429|STANDARD_ERROR_OF_MEAN|0.324|<|0.0001|TWO_SIDED|95.0|1.717|3.141|||paired t-test|||Primary endpoint was based solely on the 60 U/kg treatment arm||3.141|1.717|<0.0001
92243806|NCT00125658|184390742|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Primary Comparison (i.e., FTP vs. POWER) Data are reported as change scores, between the end of treatment block 1(10 weeks) and baseline; thus, this analysis directly compares FTP vs. Power. A negative value represents improvement (i.e., reduced trunk displacement) while a positive value represents an increase in compensatory trunk movement.||||<.001
92243807|NCT00125658|184390742|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Order effect, testing OrderA (FTP before POWER) vs. OrderB (POWER before FTP). Change scores for trunk displacement at the end of both treatment blocks (20 weeks) relative to baseline (e.g., 20 weeks - baseline) were compared between OrderA and OrderB.||||.002
92243808|NCT00125658|184390743|SUPERIORITY_OR_OTHER|||||||0.13|||||||t-test, 2 sided|||Tests effect of FTP vs. Power. The change in shoulder flexion range of motion was compared between baseline and the end of treatment Block 1 (i.e., 10 weeks).||||0.13
92243809|NCT00125658|184390743|SUPERIORITY_OR_OTHER|||||||0.048|||||||t-test, 2 sided|||Test the effect of treatment order OrderA (FTP before POWER) vs. OrderB (POWER before FTP). The change in shoulder flexion range of motion was compared between the end of treatment (20 weeks) and baseline.||||0.048
92243810|NCT00125658|184390744|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Compares FTP vs POWER by comparing the change in elbow extension range of motion between the end of treatment block 1 (10 weeks) and baseline.||||.004
92243811|NCT00125658|184390744|SUPERIORITY_OR_OTHER|||||||0.034|||||||t-test, 2 sided|||Tests for the effect of treatment order OrderA (FTP before POWER) vs. OrderB (POWER before FTP) by comparing the change in elbow extension range of motion between the end of overall treatment (20 weeks) and baseline.||||0.034
92243812|NCT00125658|184390745|SUPERIORITY_OR_OTHER|||||||0.056|||||||t-test, 2 sided|||Tests for differences between FTP vs. POWER by comparing the change in movement speed between the end of treatment block 1 (10 weeks) and baseline.||||0.056
92243813|NCT00125658|184390745|SUPERIORITY_OR_OTHER|||||||0.168|||||||t-test, 2 sided|||Tests for effect of treatment order (OrderA (FTP before POWER) vs. OrderB (POWER before FTP))by comparing the change in movement speed between the end of overall treatment (20 weeks) and baseline.||||.168
92243814|NCT00125658|184390746|SUPERIORITY_OR_OTHER|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||Tests the effects of FTP vs. POWER on motor impairment (UE FMA) by comparing the change in FMA between the end of treatment block 1 (10 weeks) and baseline.||||0.564
92243815|NCT00125658|184390746|SUPERIORITY_OR_OTHER|||||||0.948|||||||Wilcoxon (Mann-Whitney)|||Tests for an effect of treatment order (OrderA (FTP before POWER) vs. OrderB (POWER before FTP)) by comparing the change in UE FMA between the end of treatment (20 weeks) and baseline.||||0.948
92243816|NCT00125658|184390747|SUPERIORITY_OR_OTHER|||||||0.078|||||||t-test, 2 sided|||Tests for differences in FTP vs. POWER by comparing the change in RPR between the end of treatment block 1 (10 weeks) and baseline.||||0.078
92243817|NCT00125658|184390747|SUPERIORITY_OR_OTHER|||||||0.4|||||||t-test, 2 sided|||Tests the effect of treatment order (Order A (FTP \> POWER) vs. Order B (POWER \> FTP)) by comparing the change in RPR between the end of overall treatment (20 weeks) and baseline.||||0.4
92243818|NCT00125658|184390748|SUPERIORITY_OR_OTHER|||||||0.085|||||||t-test, 2 sided|||Tests for the effect of treatment (FTP vs. POWER) by comparing the change in movement smoothness between the end of treatment block 1 (10 weeks) and baseline.||||0.085
92243819|NCT00125658|184390748|SUPERIORITY_OR_OTHER|||||||0.635|||||||t-test, 2 sided|||Tests for the effect of treatment order (OrderA (FTP before POWER) vs. OrderB (POWER before FTP)) by comparing the change in movement smoothness between the end of overall treatment (20 weeks) and baseline.||||0.635
92243820|NCT02876055|184390749|SUPERIORITY|||||||0.542|||||||Wilcoxon (Mann-Whitney)|||||||0.542
92243821|NCT02876055|184390749|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92243822|NCT02876055|184390749|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92243823|NCT04019093|184390793|SUPERIORITY|||||||0.99|||||||ANOVA|F(1,46) = .001||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) mixed general linear model on pressure threshold. Here we report the results of the analysis of the beverage condition X group interaction.||||.99
92182497|NCT03387189|184263887|SUPERIORITY|Alpha - 0.05|Odds Ratio (OR)|0.39||||0.031|TWO_SIDED|95.0|0.17|0.91|||Regression, Logistic|Adjusted for length of second stage cesarean section, fetal station, delivery method, use of instrumentation , parity, and gestational age|Y = Intervention + Time + Intervention\*Time + Covariates. Provided estimation parameter is the OR from the interaction term and can be interpreted as the differential change in odds of outcome from pre to post period associated with the intervention.|||0.91|0.17|0.031
92182498|NCT03387189|184263888|SUPERIORITY|Alpha - 0.05|Odds Ratio (OR)|1.46||||0.465|TWO_SIDED|95.0|0.53|4.03|||Regression, Logistic|Adjusted for length of second stage cesarean section, fetal station, delivery method, use of instrumentation , parity, and gestational age|Y = Intervention + Time + Intervention\*Time + Covariates. Provided estimation parameter is the OR from the interaction term and can be interpreted as the differential change in odds of outcome from pre to post period associated with the intervention.|||4.03|0.53|0.465
92182499|NCT03387189|184263889|SUPERIORITY|alpha - 0.05|Mean Difference (Final Values)|-11.4||||0.01|TWO_SIDED|95.0|-20.4|-2.5|||t-test, 2 sided|||||-2.5|-20.4|0.01
92182500|NCT03387189|184263890|SUPERIORITY|Alpha - 0.05|Mean Difference (Final Values)|-1.0||||0.75|TWO_SIDED|95.0|-76.0|5.5|||t-test, 2 sided|||||5.5|-76.0|0.75
92182501|NCT03387189|184263891|SUPERIORITY|Alpha - 0.05|Mean Difference (Final Values)|-0.5||||0.02|TWO_SIDED|95.0|-1.0|-0.1|||t-test, 2 sided|||||-0.1|-1.0|0.02
92182502|NCT03387189|184263894|SUPERIORITY|Alpha - 0.05|Risk Difference (RD)|0.116||||0.1|TWO_SIDED|95.0|-0.01|0.24|||Fisher Exact|||||0.24|-0.01|0.10
92182503|NCT03387189|184263896|SUPERIORITY|Alpha - 0.05|Risk Difference (RD)|0.028||||0.81|TWO_SIDED|95.0|-0.12|17.8|||Fisher Exact|||||17.8|-0.12|0.81
92182504|NCT03387189|184263897|SUPERIORITY|Alpha - 0.05|Risk Ratio (RR)|0.01||||1|TWO_SIDED|95.0|-0.11|0.13|||Fisher Exact|||||0.13|-0.11|1.0
92182505|NCT03697603|184263899|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0.0312|TWO_SIDED|95.0|-2.7|-0.1|||MMRM|||Statistical analysis to compare brexpiprazole 2 mg/day and placebo was performed at Week 6.||-0.1|-2.7|0.0312
92182506|NCT03697603|184263899|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.0089|TWO_SIDED|95.0|-3.0|-0.4|||MMRM|||Statistical analysis to compare brexpiprazole 1 mg/day and placebo was performed at Week 6.||-0.4|-3.0|0.0089
92182507|NCT03697603|184263900|OTHER||Diff|5.5||||0.1964|TWO_SIDED|95.0|-2.8|13.8|||Chi-squared|||Statistical analysis to compare brexpiprazole 2 mg/day and placebo was performed at Week 6.||13.8|-2.8|0.1964
92182508|NCT03697603|184263900|OTHER||Diff|5.5||||0.1969|TWO_SIDED|95.0|-2.8|13.7|||Chi-squared|||Statistical analysis to compare brexpiprazole 1 mg/day and placebo was performed at Week 6.||13.7|-2.8|0.1969
92182509|NCT04218864|184263901|SUPERIORITY||||||>|0.05||||||Threshold for statistical significance = 0.05|Regression, Linear|Results presented are unadjusted for any covariates.||Linear Mixed regression models (LMM) have been used to identify any difference between the intervention and the control groups over time with regards to the continuous outcomes. Group (intervention vs. control), a 5-category time (baseline, 6 week, 3 month, 6 month, 12 month) and group-by-time interaction are covariates in the model. A random subject intercept is used to account for clustering within subject.||||>0.05
92182510|NCT04218864|184263902|SUPERIORITY||||||>|0.05||||||Threshold for statistical significance = 0.05|Regression, Linear|Results presented are unadjusted for any covariates.||Statistical analysis strategy is identical to that for the primary outcome.||||>0.05
92182511|NCT04218864|184263903|SUPERIORITY||||||>|0.05||||||Threshold for statistical significance = 0.05|Regression, Linear|Results presented are unadjusted for any covariates.||Statistical analysis strategy is identical to that for the primary outcome.||||>0.05
92182512|NCT04218864|184263904|SUPERIORITY||||||>|0.05||||||Threshold for statistical significance = 0.05|Regression, Linear|Results presented are unadjusted for any covariates.||Statistical analysis strategy is identical to that for primary outcome.||||>0.05
92182513|NCT04218864|184263905|SUPERIORITY||||||>|0.05||||||Threshold for statistical significance = 0.05|Regression, Linear|Results presented are unadjusted for any covariates.||Statistical Analysis strategy is identical to that for primary outcome measure.||||>0.05
92182514|NCT02222493|184263920|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence test|Proportion Difference|-2.39|||||TWO_SIDED|95.0|-9.92|5.11||||||Score statistic method||5.11|-9.92|
92182515|NCT02222493|184263920|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence test|Proportion Difference|-2.39|||||TWO_SIDED|90.0|-8.75|4.02||||||Score statistic method||4.02|-8.75|
92182516|NCT02542943|184264059|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-0.13||||0.435|TWO_SIDED|95.0|-0.4|0.134||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. For the Week 8 comparisons of the two test groups against the control group, Dunnett's multiplicity adjustment is applied.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment. For Week 8 comparisons of the two test groups against the control group, Dunnett's multiplicity adjustment is applied.|||0.134|-0.400|0.4350
92182517|NCT02542943|184264059|SUPERIORITY_OR_OTHER||LS mean difference|0.07||||0.7605|TWO_SIDED|95.0|-0.192|0.34||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. For the Week 8 comparisons of the two test groups against the control group, Dunnett's multiplicity adjustment is applied.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment. For Week 8 comparisons of the two test groups against the control group, Dunnett's multiplicity adjustment is applied.|||0.340|-0.192|0.7605
92182518|NCT02542943|184264060|SUPERIORITY_OR_OTHER||LS mean difference|-0.21||||0.0873|TWO_SIDED|95.0|-0.445|0.031||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.031|-0.445|0.0873
92182519|NCT02542943|184264061|SUPERIORITY_OR_OTHER||LS mean difference|-0.07||||0.4921|TWO_SIDED|95.0|-0.27|0.13||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.130|-0.270|0.4921
92182520|NCT02542943|184264061|SUPERIORITY_OR_OTHER||LS mean difference|0.02||||0.8728|TWO_SIDED|95.0|-0.183|0.216||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.216|-0.183|0.8728
92243824|NCT04019093|184390793|SUPERIORITY||||||<|0.0001|||||||ANOVA|F(1,46)=12.55||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) mixed general linear model on pressure threshold. Here we report the results of the analysis of the main effect of beverage condition.||||<.0001
92281452|NCT03267264|184465917|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|19.7|||||TWO_SIDED|95.0|13.8|25.7||||||Ease of Use||25.7|13.8|
92281453|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|27.8|||||TWO_SIDED|95.0|14.9|40.7||||||Overall Comfort||40.7|14.9|
92281454|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|20.2|||||TWO_SIDED|95.0|8.9|31.6||||||Anxiety Associated with a needle stick injury||31.6|8.9|
92281455|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|16.1|||||TWO_SIDED|95.0|3.4|28.8||||||Injection Pain||28.8|3.4|
92281456|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|30.7|||||TWO_SIDED|95.0|19.3|42.1||||||Ease of Use||42.1|19.3|
92182521|NCT02542943|184264061|SUPERIORITY_OR_OTHER||LS mean difference|-0.09||||0.4003|TWO_SIDED|95.0|-0.287|0.115||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.115|-0.287|0.4003
92281457|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|20.7|||||TWO_SIDED|95.0|5.3|36.1||||||Overall Comfort||36.1|5.3|
92174198|NCT05093829|184240288|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup Y if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|-3.0|||||TWO_SIDED|95.0|-5.4|-0.4||||||For serogroup Y, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||-0.4|-5.4|
92174199|NCT05093829|184240288|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup Y if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|1.4|||||TWO_SIDED|95.0|-0.6|4.8||||||For serogroup Y, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||4.8|-0.6|
92243825|NCT04019093|184390793|SUPERIORITY|||||||0.015|||||||ANOVA|F(1,46)=6.32||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) mixed general linear model on pressure threshold. Here we report the results of the analysis of the main effect of group.||||.015
92243826|NCT04019093|184390794|SUPERIORITY|||||||0.76|||||||ANOVA|F(2,82)=.20||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain intensity. Here we report the results of the analysis of the pressure level X group interaction.||||.76
92243827|NCT04019093|184390794|SUPERIORITY|||||||0.52|||||||ANCOVA|F(2,82)=.66||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain intensity. Here we report the results of the analysis of the pressure level X beverage condition interaction.||||.52
92281458|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|19.4|||||TWO_SIDED|95.0|6.0|32.8||||||Anxiety Associated with a needle stick||32.8|6|
92281459|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|18.6|||||TWO_SIDED|95.0|3.6|33.7||||||Injection Pain||33.7|3.6|
92243828|NCT04019093|184390794|SUPERIORITY|||||||0.04|||||||ANOVA|F(1,41)=4.53, p=.04||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of beverage condition.||||.04
92243829|NCT04019093|184390794|SUPERIORITY|||||||0.017|||||||ANOVA|F(1,41)=6.24||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of group.||||.017
92243830|NCT04019093|184390794|SUPERIORITY||||||<|0.0001|||||||ANOVA|F(2,82)=48.41||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of pressure level.||||<.0001
92243831|NCT04019093|184390795|SUPERIORITY|||||||0.5|||||||ANOVA|F (2, 82) = 0.69||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the beverage condition X pressure level X group interaction.||||.50
92243832|NCT04019093|184390795|SUPERIORITY|||||||0.21|||||||ANOVA|F(2,82)=1.58||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the beverage condition X pressure level interaction.||||.21
92243833|NCT04019093|184390795|SUPERIORITY|||||||0.053|||||||ANOVA|F(2,82)=3.06||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the pressure level X group interaction.||||.053
92281460|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|18.4|||||TWO_SIDED|95.0|4.9|31.9||||||Ease of Use||31.9|4.9|
92281461|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|8.4|||||TWO_SIDED|95.0|-4.0|20.9||||||Overall Comfort||20.9|-4.0|
92281462|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|12.9|||||TWO_SIDED|95.0|1.9|23.8||||||Anxiety Associated with a Needle stick injury||23.8|1.9|
92281463|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|7.0|||||TWO_SIDED|95.0|-5.3|19.4||||||Injection Pain||19.4|-5.3|
92243834|NCT04019093|184390795|SUPERIORITY|||||||0.98|||||||ANOVA|F(1,41)=.001||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the beverage condition X group interaction.||||.98
92243835|NCT04019093|184390795|SUPERIORITY|||||||0.71|||||||ANOVA|F(2,82)=.34||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of pressure level.||||.71
92243836|NCT04019093|184390795|SUPERIORITY|||||||0.71|||||||ANOVA|F(1,41)=.14||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of group.||||.71
92243837|NCT04019093|184390795|SUPERIORITY||||||<|0.0001|||||||ANOVA|F(1,41)=55.02||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of beverage condition.||||<.0001
92243838|NCT01552928|184390805|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||ANCOVA|||||||0.004
92243839|NCT01552928|184390805|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243840|NCT01552928|184390805|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243841|NCT01552928|184390806|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243842|NCT01552928|184390806|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243843|NCT01552928|184390806|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
92243844|NCT01552928|184390807|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||ANCOVA|||||||0.012
92243845|NCT01552928|184390807|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044|||||||ANCOVA|||||||0.044
92243846|NCT01552928|184390807|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243847|NCT01552928|184390808|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243848|NCT01552928|184390808|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243849|NCT01552928|184390808|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243850|NCT01552928|184390809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||ANCOVA|||||||0.003
92243851|NCT01552928|184390809|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243852|NCT01552928|184390809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|||||||ANCOVA|||||||0.043
92243853|NCT01552928|184390814|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243854|NCT01552928|184390814|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243855|NCT01552928|184390814|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243856|NCT01552928|184390815|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243857|NCT01552928|184390815|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243858|NCT01552928|184390815|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||ANCOVA|||||||0.004
92243859|NCT01552928|184390816|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||ANCOVA|||||||0.005
92243860|NCT01552928|184390816|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243861|NCT01552928|184390816|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243862|NCT01552928|184390817|SUPERIORITY_OR_OTHER_LEGACY|||||||0.078|||||||ANCOVA|||||||0.078
92243863|NCT01552928|184390817|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243864|NCT01552928|184390817|SUPERIORITY_OR_OTHER_LEGACY|||||||0.156|||||||ANCOVA|||||||0.156
92243865|NCT01552928|184390818|SUPERIORITY_OR_OTHER_LEGACY|||||||0.439|||||||ANCOVA|||||||0.439
92243866|NCT01552928|184390818|SUPERIORITY_OR_OTHER_LEGACY|||||||0.274|||||||ANCOVA|||||||0.274
92243867|NCT01552928|184390818|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92243868|NCT03492463|184390823|SUPERIORITY|||||||0.01|||||||Regression, Linear|||Due to time and budget constraints a blinded decision was made and approved by the funding agency to limit further enrollment to the two conditions that provided nicotine patches. The primary (one-tailed) test compared Nicotine e-cigs + Nicotine patches to Non-nicotine e-cigs + Nicotine patches.||||0.01
92243869|NCT03492463|184390824|SUPERIORITY|||||||0.8|||||||ANOVA|||||||0.8
92243870|NCT03492463|184390825|SUPERIORITY|||||||0.5|||||||ANOVA|||||||0.5
92243871|NCT00406640|184390827|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.67||||0.243||95.0|-0.46|1.81|||Mixed Models Analysis|Mixed Models Repeated Measures (MMRM) with baseline score as a covariant and factors for center, week and treatment.|DVS SR adjusted mean change minus ESC adjusted mean change.|DVS SR compared with ESC||1.81|-0.46|0.243
92243872|NCT00406640|184390828|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.608||||0.077||95.0|0.4|0.92|||Chi-squared|Logistic regression model with treatment and site as factors and baseline score as a covariant.|Estimated odds ratio of DVS SR to ESC. Odd ratio adjusted for baseline, treatment and site.|DVS SR compared with ESC.||0.92|0.40|0.077
92243873|NCT00406640|184390829|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.571||||0.0054||95.0|0.39|0.85|||Chi-squared|Logistic regression model with treatment and site as factors and baseline score as a covariant.|Estimated odds ratio of DVS SR to ESC. Odds ratio adjusted for baseline, treatment and site.|DVS SR compared with ESC.||0.85|0.39|0.0054
92243874|NCT00406640|184390830|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12||||0.26||95.0|-0.09|0.33|||Mixed Models Analysis|Mixed Models Repeated Measures (MMRM) with baseline score as a covariant and factors for center, week and treatment.|DVS SR minus ESC adjusted mean|DVS SR compared with ESC||0.33|-0.09|0.260
92243875|NCT00406640|184390831|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14||||0.239||95.0|-0.09|0.37|||Mixed Models Analysis|Mixed Models Repeated Measures (MMRM) with baseline score as a covariant and factors for center, week and treatment.|DVS SR minus ESC adjusted mean|||0.37|-0.09|0.239
92243876|NCT00406640|184390832|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.37||||0.516||95.0|-0.75|1.49|||Mixed Models Analysis|Mixed model Repeated Measures (MMRM) analysis adjusted mean score for baseline score, time and center.|DVS SR adjusted mean change minus ESC adjusted mean change.|DVS SR compared to ESC||1.49|-0.75|0.516
92243877|NCT00406640|184390833|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.01||||0.635||95.0|-0.03|0.06|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) with treatment, time and site as factors and baseline as covariant.|DVS SR adjusted mean change minus ESC adjusted mean change|DVS SR compared to ESC||0.06|-0.03|0.635
92182522|NCT02542943|184264062|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.8106|TWO_SIDED|95.0|0.0|0.0||From Van Elteren test.|Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||0.000|0.000|0.8106
92182523|NCT02542943|184264062|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.1656|TWO_SIDED|95.0|-5.0|0.0||From Van Elteren test.|Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||0.000|-5.000|0.1656
92182524|NCT02542943|184264062|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.1419|TWO_SIDED|95.0|0.0|5.0|||Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||5.000|0.000|0.1419
92182525|NCT02542943|184264063|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.5631|TWO_SIDED|95.0|0.0|5.0||From Van Elteren test.|Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||5.000|0.000|0.5631
92182526|NCT02542943|184264063|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.8423|TWO_SIDED|95.0|0.0|0.0||From Van Elteren test.|Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||0.000|0.000|0.8423
92243878|NCT00406640|184390834|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.702||95.0|0.63|2.0|||Chi-squared||Estimated odds ratio of DVS SR to ESC. Odd ratio adjusted for baseline, treatment and site.|DVS SR compared with ESC.||2.00|0.63|0.702
92243879|NCT00406640|184390835|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.34||||0.234||95.0|0.83|2.16|||Chi-squared||Estimated odds ratio of DVS SR to ESC. Odd ratio adjusted for baseline, treatment and site.|DVS SR compared with ESC.||2.16|0.83|0.234
92243880|NCT00406640|184390839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.927||95.0|||||t-test, 2 sided|||DVS SR vs. ESC: end of therapy||||0.927
92243881|NCT00406640|184390839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.055||95.0|||||t-test, 2 sided|||DVS SR vs. ESC: after 1 week of taper||||0.055
92243882|NCT00406640|184390839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||95.0|||||t-test, 2 sided|||DVS SR vs. ESC: after 2 weeks of taper||||0.025
92243883|NCT00406640|184390839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.653||95.0|||||t-test, 2 sided|||DVS SR vs. ESC: after \> 2 weeks of taper||||0.653
92243884|NCT00488618|184390840|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.1|||<|0.0001|TWO_SIDED|95.0|-8.9|-3.3|||ANCOVA||cariprazine - placebo|||-3.3|-8.9|<0.0001
92174200|NCT05093829|184240289|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup X if the lower limit of the 95% confidence interval (CI) for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). The CI is estimated using bootstrap resampling stratified by vaccine arm, and the 95% CI is estimated as the interval between the 2.5th and 97.5th percentiles of the bootstrap empirical distribution. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|2.3|||||TWO_SIDED|95.0|0.3|4.7||||||For the 9-months study age group, the proportion of infants with a seroprotective response to MenACWY-TT in serogroup W is subtracted from the proportion of infants with a seroprotective response to NmCV-5 in serogroup X to determine the difference in proportions.||4.7|0.3|
92243885|NCT00488618|184390841|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.64||||0.0001|TWO_SIDED|95.0|-0.97|-0.32|||ANCOVA||cariprazine - placebo|||-0.32|-0.97|0.0001
92243886|NCT00789191|184390846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.001||95.0|-0.77|-0.33||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|ANCOVA|Analysis of covariance (ANCOVA) was used; baseline HbA1c was included as covariate and treatment, stratification and country was included as factors||Null hypothesis: Difference between mean HbA1c in the two treatment arms is equal to zero. Power calculation: Assuming a standard deviation of 1.0 for HbA1c, 100 subjects in each treatment arm would be required to obtain a power of 80% for detecting a HbA1c difference of 0.4%||-0.33|-0.77|0.0010
92174201|NCT05093829|184240289|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup X if the lower limit of the 95% confidence interval (CI) for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). The CI is estimated using bootstrap resampling stratified by vaccine arm, and the 95% CI is estimated as the interval between the 2.5th and 97.5th percentiles of the bootstrap empirical distribution. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|1.9|||||TWO_SIDED|95.0|0.004|4.4||||||For the 15-months study age group, the proportion of infants with a seroprotective response to MenACWY-TT in serogroup Y is subtracted from the proportion of infants with a seroprotective response to NmCV-5 in serogroup X to determine the difference in proportions.||4.4|0.004|
92174202|NCT05093829|184240293|SUPERIORITY|NmCV-5 will be deemed superior to MenACWY-TT for serogroup X if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes 0.30 (30%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|82.5|||||TWO_SIDED|95.0|76.4|87.2||||||For serogroup X, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||87.2|76.4|
92243887|NCT00789191|184390847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.2||||0.001||95.0|1.65|6.19||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|Regression, Logistic|Treatment group comparison using logistic regression model incl.treatment,stratification factor, country as fixed effects, baseline HbA1c as covariate||Null hypothesis: Odds ratio is equal to one.||6.19|1.65|0.0010
92243888|NCT00789191|184390848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.47||||0.008||95.0|1.26|4.81||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|Regression, Logistic|Treatment group comparison using logistic regression model incl.treatment,stratification factor, country as fixed effects, baseline HbA1c as covariate||Null hypothesis: Odds ratio is equal to one.||4.81|1.26|0.0080
92243889|NCT00789191|184390849|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.23||||0.063||95.0|0.96|5.2||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|Regression, Logistic|Treatment group comparison using logistic regression model incl.treatment,stratification factor, country as fixed effects, baseline HbA1c as covariate||Null hypothesis: Odds ratio is equal to one.||5.20|0.96|0.063
92174203|NCT05093829|184240293|SUPERIORITY|NmCV-5 will be deemed superior to MenACWY-TT for serogroup X if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes 0.30 (30%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|68.4|||||TWO_SIDED|95.0|61.3|74.7||||||For serogroup X, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||74.7|61.3|
92182527|NCT02542943|184264063|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.439|TWO_SIDED|95.0|0.0|5.0||From Van Elteren test.|Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||5.000|0.000|0.4390
92182528|NCT02542943|184264064|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.517|TWO_SIDED|95.0|-0.611|0.308||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.308|-0.611|0.5170
92182529|NCT02542943|184264064|SUPERIORITY_OR_OTHER||LS mean difference|0.17||||0.4538|TWO_SIDED|95.0|-0.284|0.633||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.633|-0.284|0.4538
92182530|NCT02542943|184264064|SUPERIORITY_OR_OTHER||LS mean difference|-0.33||||0.1663|TWO_SIDED|95.0|-0.788|0.136||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.136|-0.788|0.1663
92243890|NCT00789191|184390850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.07||||0.135||95.0|0.8|5.37||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|Regression, Logistic||Treatment group comparison using logistic regression model incl.treatment,stratification factor, country as fixed effects, baseline HbA1c as covariate|Null hypothesis: Odds ratio is equal to one.||5.37|0.8|0.135
92174204|NCT05093829|184240294|NON_INFERIORITY|The NmCV-5 co-administered MR vaccine will be deemed non-inferior to the MenACWY-TT co-administered MR vaccine in eliciting seropositive response to measles if the lower limit of the 95% confidence interval for the difference in proportions excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.0|2.0||||||For this comparison, the proportion of infants with a seropositive response to measles vaccine in the MenACWY-TT arm is subtracted from the proportion of infants with a seropositive response to measles vaccine in the NmCV-5 arm to determine the difference in proportions.||2.0|-1.0|
92174205|NCT05093829|184240294|NON_INFERIORITY|The NmCV-5 co-administered MR vaccine will be deemed non-inferior to the MenACWY-TT co-administered MR vaccine in eliciting seropositive response to measles if the lower limit of the 95% confidence interval for the difference in proportions excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.0|2.1||||||For this comparison, the proportion of infants with a seropositive response to measles vaccine in the MenACWY-TT arm is subtracted from the proportion of infants with a seropositive response to measles vaccine in the NmCV-5 arm to determine the difference in proportions.||2.1|-1.0|
92243891|NCT00789191|184390851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.121||95.0|-0.07|0.63||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|ANCOVA|An analysis of covariance (ANCOVA) was used; baseline was included as covariate and treatment, stratification and country was included as factors.||||0.63|-0.07|0.121
92243892|NCT00789191|184390852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.84||||0.109||95.0|-0.19|1.88||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|ANCOVA|An analysis of covariance (ANCOVA) was used; baseline was included as covariate and treatment, stratification and country was included as factors.||||1.88|-0.19|0.109
92243893|NCT00789191|184390853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.45||||0.001||95.0|-3.01|-1.88||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|ANCOVA|An analysis of covariance (ANCOVA) was used; baseline was included as covariate and treatment, stratification and country was included as factors.||||-1.88|-3.01|0.0010
92243894|NCT00789191|184390857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.01||||||95.0|-2.5|-1.51|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. Before breakfast|||-1.51|-2.50|
92243895|NCT00789191|184390857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.64||||||95.0|-2.4|-0.89|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. 120 minutes after start of breakfast|||-0.89|-2.40|
92243896|NCT00789191|184390857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||||95.0|-1.69|-0.35|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. Before lunch|||-0.35|-1.69|
92182531|NCT02542943|184264065|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.7137|TWO_SIDED|95.0|-0.661|0.453||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.453|-0.661|0.7137
92243897|NCT00789191|184390857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||||95.0|-2.05|-0.56|||Linear mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. 120 minutes after start of lunch|||-0.56|-2.05|
92182532|NCT02542943|184264065|SUPERIORITY_OR_OTHER||LS mean difference|0.1||||0.7353|TWO_SIDED|95.0|-0.46|0.651||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.651|-0.460|0.7353
92182533|NCT02542943|184264065|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.4843|TWO_SIDED|95.0|-0.76|0.361||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.361|-0.760|0.4843
92281464|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|17.7|||||TWO_SIDED|95.0|6.7|28.8||||||Ease of Use||28.8|6.7|
92183015|NCT02434328|184264733|OTHER||Difference in proportions|-4.7|||||TWO_SIDED|95.0|-10.8|1.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||1.4|-10.8|
92287233|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.361|TWO_SIDED|95.0|-0.039|0.106|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.106|-0.039|0.361
92182534|NCT04701203|184264088|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||For the primary efficacy endpoint, the Cochran-Mantel Haenszel test stratified by etiology of hypoparathyroidism (postsurgical or other) was used to compare the proportion of participants meeting the composite primary endpoint in the TransCon PTH versus placebo groups. Participants without week 26 albumin-adjusted serum calcium or with \>25% (ie, \>7 days) missing diary data of active vitamin D or elemental calcium during the 4 weeks before week 26 were considered non-responders.||||<0.0001
92243898|NCT00789191|184390857|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.77||||||95.0|-1.58|0.05|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. Before dinner|||0.05|-1.58|
92182535|NCT04701203|184264089|SUPERIORITY||||||=|0.0038|||||||t-test, 2 sided|||ANCOVA model with unequal variance was used to analyze the key secondary Endpoints. The change from baseline is variable of interest at week 26 and was included in the model as response variables. Treatment assignment and etiology of hypoparathyroidism were entered as fixed effects and baseline value of the variable of interest was entered as a covariate.||||= 0.0038
92182536|NCT04701203|184264090|SUPERIORITY||||||=|0.0055|||||||t-test, 2 sided|||ANCOVA model with unequal variance was used to analyze the key secondary Endpoints. The change from baseline is variable of interest at week 26 and was included in the model as response variables. Treatment assignment and etiology of hypoparathyroidism were entered as fixed effects and baseline value of the variable of interest was entered as a covariate.||||= 0.0055
92182537|NCT04701203|184264091|SUPERIORITY||||||=|0.0046|||||||t-test, 2 sided|||ANCOVA model with unequal variance was used to analyze the key secondary Endpoints. The change from baseline is variable of interest at week 26 and was included in the model as response variables. Treatment assignment and etiology of hypoparathyroidism were entered as fixed effects and baseline value of the variable of interest was entered as a covariate.||||= 0.0046
92243899|NCT00789191|184390857|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.88||||||95.0|-1.75|-0.02|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. 120 minutes after start of dinner|||-0.02|-1.75|
92243900|NCT00789191|184390857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04||||||95.0|-1.88|-0.2|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. Bedtime|||-0.20|-1.88|
92243901|NCT00789191|184390857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17||||||95.0|-1.84|-0.49|||Linear Mixed Model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. At 03:00 a.m.|||-0.49|-1.84|
92243902|NCT00789191|184390857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||||95.0|-2.26|-1.34|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. Before breakfast the following day|||-1.34|-2.26|
92281465|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|15.1|||||TWO_SIDED|95.0|2.1|28.1||||||Overall Comfort||28.1|2.1|
92287234|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|0.065||||0.085|TWO_SIDED|95.0|-0.009|0.138|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.138|-0.009|0.085
92243903|NCT03736629|184390858|SUPERIORITY||Mean Difference (Net)|-0.67|STANDARD_ERROR_OF_MEAN|1.72||0.72|TWO_SIDED|95.0|-6.14|4.81|||t-test, 2 sided|||Study did not reach its accrual goal. Sample size is too small to draw any conclusions.||4.81|-6.14|0.72
92243904|NCT03736629|184390859|SUPERIORITY||Mean Difference (Net)|-5.67||||0.59|TWO_SIDED|95.0|-35.98|24.65|||t-test, 2 sided||Study did not reach its accrual goal. Sample size is too small to draw any conclusions.|||24.65|-35.98|0.59
92243905|NCT03736629|184390862|SUPERIORITY|||||||1|||||||Fisher Exact|||Study did not reach its accrual goal. Sample size is too small to draw any conclusions.||||1.0
92243906|NCT03546413|184390895|SUPERIORITY||||||<|0.001||||||This is the calculated p-value|Regression, Logistic|||Test for equivalence between the groups||||<0.001
92243907|NCT03546413|184390896|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.055|||||||Regression, Logistic|||Test for equivalence between the groups||||0.055
92243908|NCT03546413|184390897|SUPERIORITY||||||<|0.001||||||This is the calculated p-value|Wilcoxon (Mann-Whitney)|||||||<0.001
92243909|NCT03546413|184390897|SUPERIORITY|A linear regression model was used on the log of the peanut consumption with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.|||||<|0.001||||||This is the calculated p-value|Regression, Linear|||||||<0.001
92243910|NCT03546413|184390897|SUPERIORITY|A linear regression model was used on the log of the peanut consumption with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.939|||||||Regression, Linear|||||||0.939
92281466|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|11.0|||||TWO_SIDED|95.0|-0.5|22.4||||||Anxiety Associated with a Needle Stick Injury||22.4|-0.5|
92281467|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|20.2|||||TWO_SIDED|95.0|7.4|33.1||||||Injection Pain||33.1|7.4|
92281468|NCT03267264|184465918|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|12.0|||||TWO_SIDED|95.0|0.5|23.5||||||Eae of Use||23.5|0.5|
92281469|NCT03522948|184465947|SUPERIORITY||Mean Difference (Net)|-3.16|STANDARD_DEVIATION|-0.71||0.03|TWO_SIDED||||||t-test, 2 sided|||within-subject t-test||||.03
92281470|NCT03522948|184465948|SUPERIORITY||t-test|-1.34|STANDARD_DEVIATION|3.2||0.23|TWO_SIDED||||||t-test, 2 sided||||d = -0.51|||0.23
92243911|NCT03546413|184390897|SUPERIORITY|A linear regression model was used on the log of the peanut consumption with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.002|||||||Regression, Linear|||||||0.002
92243912|NCT03546413|184390898|SUPERIORITY|||||||0.131|||||||Wilcoxon (Mann-Whitney)|||||||0.131
92243913|NCT03546413|184390898|SUPERIORITY|A linear regression model was used on the log of peanut skin prick test with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.208|||||||Regression, Linear|||||||0.208
92243914|NCT03546413|184390898|SUPERIORITY|A linear regression model was used on the log of peanut skin prick with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.587|||||||Regression, Linear|||||||0.587
92243915|NCT03546413|184390898|SUPERIORITY|A linear regression model was used on the log of peanut skin prick with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.268|||||||Regression, Linear|||||||0.268
92243916|NCT03546413|184390899|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||||||0.985
92281471|NCT03522948|184465949|SUPERIORITY||t-test|1.35|||<|0.05|TWO_SIDED|95.0|-0.69|2.41|||t-test, 2 sided|||GSAB self-efficacy||2.41|-0.69|<.05
92281472|NCT03522948|184465950|SUPERIORITY||t-test|2.93|||<|0.05|TWO_SIDED|95.0|0.31|3.41|||t-test, 2 sided|||Test of GSAB self-efficacy subscale for condom use||3.41|0.31|<.05
92281473|NCT01984242|184465960|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9819|TWO_SIDED|95.0|0.69|1.45|||Log Rank|||||1.45|0.69|0.9819
92281474|NCT01984242|184465960|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.358|TWO_SIDED|95.0|0.82|1.71|||Log Rank|||||1.71|0.82|0.3580
92281475|NCT01984242|184465962|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.0952||95.0|0.38|1.08|||Log Rank|||||1.08|0.38|0.0952
92174206|NCT05093829|184240295|NON_INFERIORITY|The NmCV-5 co-administered MR vaccine will be deemed non-inferior to the MenACWY-TT co-administered MR vaccine in eliciting seropositive response to rubella if the lower limit of the 95% confidence interval for the difference in proportions excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|-4.3|||||TWO_SIDED|95.0|-10.5|2.6||||||For this comparison, the proportion of infants with a seropositive response to rubella vaccine in the MenACWY-TT arm is subtracted from the proportion of infants with a seropositive response to rubella vaccine in the NmCV-5 arm to determine the difference in proportions.||2.6|-10.5|
92243917|NCT03546413|184390899|SUPERIORITY|A linear regression model was used on the log of peanut specific IgE with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.371|||||||Regression, Linear|||||||0.371
92243918|NCT03546413|184390899|SUPERIORITY|A linear regression model was used on the log of peanut specific IgE with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.483|||||||Regression, Linear|||||||0.483
92243919|NCT03546413|184390899|SUPERIORITY|A linear regression model was used on the log of peanut specific IgE with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.643|||||||Regression, Linear|||||||0.643
92243920|NCT03546413|184390900|SUPERIORITY|||||||0.225|||||||Wilcoxon (Mann-Whitney)|||||||0.225
92243921|NCT03546413|184390900|SUPERIORITY|A linear regression model was used on the log of SCORAD with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.857|||||||Regression, Linear|||||||0.857
92243922|NCT03546413|184390900|SUPERIORITY|A linear regression model was used on the log of SCORAD with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.87|||||||Regression, Linear|||||||0.870
92243923|NCT03546413|184390901|SUPERIORITY|||||||0.658|||||||Regression, Logistic|||||||0.658
92243924|NCT03546413|184390901|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.1|||||||Regression, Logistic|||||||0.100
92243925|NCT03546413|184390901|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.502|||||||Regression, Linear|||||||0.502
92243926|NCT03546413|184390901|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.397|||||||Regression, Linear|||||||0.397
92243927|NCT03546413|184390902|SUPERIORITY|||||||0.659|||||||Regression, Logistic|||||||0.659
92243928|NCT03546413|184390902|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.26|||||||Regression, Logistic|||||||0.260
92243929|NCT03546413|184390902|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.075|||||||Regression, Linear|||||||0.075
92243930|NCT03546413|184390902|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.192|||||||Regression, Logistic|||||||0.192
92243931|NCT03546413|184390903|SUPERIORITY|||||||0.729|||||||Regression, Logistic|||||||0.729
92243932|NCT03546413|184390903|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.75|||||||Regression, Logistic|||||||0.750
92243933|NCT03546413|184390903|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.155|||||||Regression, Logistic|||||||0.155
92243934|NCT03546413|184390903|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.458|||||||Regression, Logistic|||||||0.458
92243935|NCT03546413|184390904|SUPERIORITY|||||||0.33|||||||Regression, Logistic|||||||0.330
92243936|NCT03546413|184390904|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.351|||||||Regression, Logistic|||||||0.351
92243937|NCT03546413|184390904|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.502|||||||Regression, Logistic|||||||0.502
92243938|NCT03546413|184390904|SUPERIORITY|||||||0.732||||||A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.|Regression, Logistic|||||||0.732
92243939|NCT03546413|184390905|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.202|||||||Regression, Logistic|||||||0.202
92243940|NCT03546413|184390905|OTHER||||||||||||||Regression, Logistic||||A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit. However, the logistic regression model was unable to converge due to the low percentage of allergic participants in older siblings.|||
92243941|NCT03546413|184390905|OTHER||||||||||||||Regression, Logistic||||A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit. However, the logistic regression model was unable to converge due to the low percentage of allergic participants in parents.|||
92243942|NCT03546413|184390906|SUPERIORITY|||||||0.029|||||||Regression, Logistic|||||||0.029
92281476|NCT01984242|184465962|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.9172|TWO_SIDED|95.0|0.63|1.67|||Log Rank|||||1.67|0.63|0.9172
92174207|NCT05093829|184240295|NON_INFERIORITY|The NmCV-5 co-administered MR vaccine will be deemed non-inferior to the MenACWY-TT co-administered MR vaccine in eliciting seropositive response to rubella if the lower limit of the 95% confidence interval for the difference in proportions excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.0|2.1||||||For this comparison, the proportion of infants with a seropositive response to rubella vaccine in the MenACWY-TT arm is subtracted from the proportion of infants with a seropositive response to rubella vaccine in the NmCV-5 arm to determine the difference in proportions.||2.1|-1.0|
92243943|NCT03546413|184390906|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.489|||||||Regression, Logistic|||||||0.489
92243944|NCT03546413|184390906|OTHER||||||||||||||Regression, Logistic||||A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit. However, the model was unable to converge due to the low percentage of peanut-related adverse events in older siblings.|||
92243945|NCT04866303|184390907|OTHER|unadjusted logistic regression model|Odds Ratio (OR)|1.79||||0.04|TWO_SIDED|95.0|1.03|2.8|||Regression, Logistic|||Minimum testing kit completion rate of 70% in the passive study arm, and calculated that 400 total subjects would provide us with 90% power to detect an effect size associated with a rate ratio of 1.20, or an absolute difference of 14% (70% in passive, 84% in active). A futility boundary of 60% was identified by Community Advisory Board members as justification to prematurely halt trial enrollment if, after completing 25% of expected enrollment, successful test completion fell below that rate.||2.80|1.03|0.04
92243946|NCT04866303|184390908|OTHER||Odds Ratio (OR)|1.39||||0.18|TWO_SIDED|95.0|0.86|2.26|||Regression, Logistic|||Minimum testing kit completion rate of 70% in the passive study arm, and calculated that 400 total subjects would provide us with 90% power to detect an effect size associated with a rate ratio of 1.20, or an absolute difference of 14% (70% in passive, 84% in active). A futility boundary of 60% was identified by Community Advisory Board members as justification to prematurely halt trial enrollment if, after completing 25% of expected enrollment, successful test completion fell below that rate||2.26|0.86|0.18
92243947|NCT04507867|184390910|OTHER|Kaplan-Meier method for overall survival.||||||0.027|||||||Log Rank|||The total number of patients who did or did not survive to day 40 of follow-up.||||0.027
92243948|NCT04507867|184390912|OTHER|Kaplan-Meier method||||||0.495|||||||Log Rank|||the total number of patients who were intubated and survived at the end of day 40 follow-up.||||0.495
92243949|NCT04507867|184390914|OTHER|Kaplan-Meier method||||||0.186|||||||Log Rank|||total number of patients included in the study who progressed to mechanical ventilation during the first 10 days of hospital stay.||||0.186
92243950|NCT04507867|184390915|SUPERIORITY|Fisher exact test||||||0.35|||||||Fisher Exact|||Intergroup analysis between the control group and the intervention group, measured at day 3 of hospital stay. It was categorized as follows: 1. normal bristol scale at day 3; 2. abnormal bristol scale at day 3.||||0.35
92243951|NCT04507867|184390916|SUPERIORITY|||||||0.043|||||||t-test, 1 sided|||Intergroup analysis between the control group and the intervention group, measured at day 3 of hospital stay . Deceased patients were excluded.||||0.043
92243952|NCT04507867|184390917|SUPERIORITY|||||||0.241|||||||Fisher Exact|||Intergroup analysis between the control group and the intervention group for different parameters, measured at day 3 of hospital stay . Deceased patients were excluded.||||0.241
92243953|NCT04507867|184390918|SUPERIORITY|||||||0.187|||||||t-test, 2 sided|||Intragroup analysis at the control group, the measurement was performed at baseline and at hospital discharge.||||0.187
92243954|NCT04507867|184390918|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||Intragroup analysis at the intervention group, the measurement was performed at baseline and at hospital discharge.||||0.003
92243955|NCT04507867|184390919|SUPERIORITY|||||||0.919|||||||t-test, 2 sided|||Intragroup analysis of the control group in oxygen delivery, the difference between the baseline period and day 3 of hospital stay.||||0.919
92243956|NCT04507867|184390919|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||Intragroup analysis of the control group in oxygen delivery, the difference between the baseline period and day 3 of hospital stay.||||0.014
92243957|NCT04507867|184390920|SUPERIORITY|||||||0.608|||||||Wilcoxon (Mann-Whitney)|||Intragroup analysis of the control group, the difference in the qSOFA measurement at baseline and at day 3 will be analyzed.||||0.608
92281477|NCT01984242|184465964|SUPERIORITY||Hazard Ratio (HR)|0.48||||0.0153|TWO_SIDED|95.0|0.26|0.87|||Log Rank|||||0.87|0.26|0.0153
92243958|NCT04507867|184390920|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Intragroup analysis of the intervention group, the difference in the qSOFA measurement at baseline and at day 3 will be analyzed.||||0.04
92243959|NCT04507867|184390921|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||Intergroup analysis between both groups to evaluate the number of defecations measured at day 3.||||0.014
92243960|NCT04507867|184390922|SUPERIORITY|||||||0.008|||||||Fisher Exact|the shapiro wilk test was used to analyze the distribution of the data.||Intergroup analysis between the control group and the intervention group for different parameters, measured at day 3 of hospital stay. Deceased patients were excluded.||||0.008
92243961|NCT04507867|184390924|SUPERIORITY|Intergroup analysis between the control group and the intervention group for different parameters, measured at a complete follow-up of 40 days. Deceased patients were excluded.||||||0.078|||||||Fisher Exact|||||||0.078
92243962|NCT04507867|184390925|SUPERIORITY|||||||0.098|||||||t-test, 1 sided|||Intergroup analysis between the control group and the intervention group for different parameters, measured at a complete follow-up of 40 days. Deceased patients were excluded||||0.098
92243963|NCT04507867|184390926|OTHER|||||||0.195|||||||Fisher Exact|||Intergroup analysis between the control group and the intervention group to analyze the presentation of post covid syndrome at the end of follow-up at day 40.||||0.195
92243964|NCT04507867|184390927|SUPERIORITY|||||||0.135|||||||Fisher Exact|||Intergroup analysis between the control group and the intervention group for different parameters, measured at a complete follow-up of 40 days. Deceased patients were excluded.||||0.135
92243965|NCT04507867|184390928|SUPERIORITY|||||||0.266|||||||Fisher Exact|||Intergroup analysis between the control group and the intervention group for different parameters, measured at a complete follow-up of 40 days. Deceased patients were excluded.||||0.266
92243966|NCT04507867|184390929|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.002|||||||Fisher Exact|||||||0.002
92243967|NCT04507867|184390930|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.003|||||||Fisher Exact|||||||0.003
92243968|NCT04507867|184390931|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.004|||||||Fisher Exact|||||||0.004
92243969|NCT04507867|184390932|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.011|||||||Fisher Exact|||||||0.011
92243970|NCT04507867|184390933|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.031|||||||Fisher Exact|||||||0.031
92243971|NCT04507867|184390934|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.04|||||||Fisher Exact|||||||0.040
92243972|NCT04507867|184390935|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.047|||||||Fisher Exact|||||||0.047
92243973|NCT02175771|184390940|SUPERIORITY||geometric mean ratio|1.32|||||TWO_SIDED|90.0|1.02|1.72|||||Fp MDPI / FLOVENT HFA|Mid-strength comparison||1.72|1.02|
92243974|NCT02175771|184390940|SUPERIORITY||geometric mean ratio|0.81|||||TWO_SIDED|90.0|0.63|1.04|||||Fp MDPI / FLOVENT HFA|High-strength comparison||1.04|0.63|
92243975|NCT02175771|184390940|SUPERIORITY||geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.75|1.24|||||FS MDPI / ADVAIR DISKUS|Mid-strength comparison||1.24|0.75|
92243976|NCT02175771|184390940|SUPERIORITY||geometric mean ratio|0.84|||||TWO_SIDED|90.0|0.67|1.06|||||FS MDPI / ADVAIR DISKUS|High-strength comparison||1.06|0.67|
92243977|NCT02175771|184390941|NON_INFERIORITY|The study had reasonable power for demonstrating non-inferiority of the study drug to the comparator drug within each cohort. The statistical analysis plan specified that non-inferiority would be demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) for the treatment difference was greater than -125 mL.|LSM difference|0.009|STANDARD_ERROR_OF_MEAN|0.0476||0.8451|TWO_SIDED|95.0|-0.084|0.103|||mixed model for repeated measures||Fp MDPI / FLOVENT HFA|Mid-strength comparison||0.103|-0.084|0.8451
92243978|NCT02175771|184390941|NON_INFERIORITY|The study had reasonable power for demonstrating non-inferiority of the study drug to the comparator drug within each cohort. The statistical analysis plan specified that non-inferiority would be demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) for the treatment difference was greater than -125 mL.|LSM difference|-0.013|STANDARD_ERROR_OF_MEAN|0.0479||0.7877|TWO_SIDED|95.0|-0.107|0.081|||mixed model for repeated measures||Fp MDPI / FLOVENT HFA|High-strength comparison||0.081|-0.107|0.7877
92243979|NCT02175771|184390941|NON_INFERIORITY|The study had reasonable power for demonstrating non-inferiority of the study drug to the comparator drug within each cohort. The statistical analysis plan specified that non-inferiority would be demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) for the treatment difference was greater than -125 mL.|LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.0485||0.9966|TWO_SIDED|95.0|-0.095|0.095|||mixed model for repeated measures||FS MDPI / ADVAIR DISKUS|Mid-strength comparison||0.095|-0.095|0.9966
92243980|NCT02175771|184390941|NON_INFERIORITY|The study had reasonable power for demonstrating non-inferiority of the study drug to the comparator drug within each cohort. The statistical analysis plan specified that non-inferiority would be demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) for the treatment difference was greater than -125 mL.|LSM difference|0.059|STANDARD_ERROR_OF_MEAN|0.0464||0.2056|TWO_SIDED|95.0|-0.032|0.15|||mixed model for repeated measures||FS MDPI / ADVAIR DISKUS|High-strength comparison||0.150|-0.032|0.2056
92243981|NCT02504268|184390942|SUPERIORITY|||||||0.2359|||||||Regression, Logistic|||||||0.2359
92243982|NCT02504268|184390943|SUPERIORITY|||||||0.0112|||||||Regression, Logistic|||||||0.0112
92243983|NCT02504268|184390944|SUPERIORITY|||||||0.0021|||||||Regression, Logistic|||||||0.0021
92243984|NCT02504268|184390945|SUPERIORITY||||||<|0.0001|||||||rank-based ANCOVA|||||||< 0.0001
92281478|NCT01984242|184465964|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.5545|TWO_SIDED|95.0|0.48|1.46|||Log Rank|||||1.46|0.48|0.5545
92281479|NCT01984242|184465966|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0086|TWO_SIDED|95.0|0.28|0.84|||Log Rank|||||0.84|0.28|0.0086
92243985|NCT02504268|184390946|SUPERIORITY|||||||0.0006|||||||Regression, Logistic|||||||0.0006
92243986|NCT00424294|184391001|SUPERIORITY_OR_OTHER|||||||0.733|TWO_SIDED||||||Chi-squared|||||||0.733
92243987|NCT00424294|184391002|SUPERIORITY_OR_OTHER|||||||0.463|TWO_SIDED||||||Chi-squared|||Week 1: p-value was calculated by Chi-square test.||||0.463
92243988|NCT00424294|184391002|SUPERIORITY_OR_OTHER|||||||0.549|TWO_SIDED||||||Chi-squared|||Week 2: p-value was calculated by Chi-square test.||||0.549
92243989|NCT00424294|184391002|SUPERIORITY_OR_OTHER|||||||0.272|TWO_SIDED||||||Chi-squared|||Week 4: p-value was calculated by Chi-square test.||||0.272
92243990|NCT00424294|184391002|SUPERIORITY_OR_OTHER|||||||0.265|TWO_SIDED||||||Chi-squared|||Week 8: p-value was calculated by Chi-square test.||||0.265
92243991|NCT00424294|184391003|SUPERIORITY_OR_OTHER|||||||0.939|TWO_SIDED||||||Fisher Exact|||Week 4: p-value was calculated by Fisher exact test.||||0.939
92243992|NCT00424294|184391003|SUPERIORITY_OR_OTHER|||||||0.323|TWO_SIDED||||||Fisher Exact|||Week 8: p-value was calculated by Fisher exact test.||||0.323
92243993|NCT00424294|184391003|SUPERIORITY_OR_OTHER|||||||0.338|TWO_SIDED||||||Fisher Exact|||Week 12: p-value was calculated by Fisher exact test.||||0.338
92243994|NCT00424294|184391004|SUPERIORITY_OR_OTHER|||||||0.746|TWO_SIDED||||||Fisher Exact|||Week 12: p-value was calculated by Fisher exact test.||||0.746
92243995|NCT00424294|184391005|SUPERIORITY_OR_OTHER|||||||0.635|TWO_SIDED||||||ANCOVA|||Week 1: Analysis of covariance (ANCOVA) with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.635
92243996|NCT00424294|184391005|SUPERIORITY_OR_OTHER|||||||0.044|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.044
92243997|NCT00424294|184391005|SUPERIORITY_OR_OTHER|||||||0.957|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.957
92243998|NCT00424294|184391005|SUPERIORITY_OR_OTHER|||||||0.597|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.597
92243999|NCT00424294|184391005|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.960
92244000|NCT00424294|184391006|SUPERIORITY_OR_OTHER|||||||0.252|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.252
92244001|NCT00424294|184391006|SUPERIORITY_OR_OTHER|||||||0.032|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.032
92281480|NCT01984242|184465966|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.7675||95.0|0.56|1.53|||Log Rank|||||1.53|0.56|0.7675
92281481|NCT01984242|184465968|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.1973||95.0|0.44|1.18|||Log Rank|||||1.18|0.44|0.1973
92281482|NCT01984242|184465968|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.7738|TWO_SIDED|95.0|0.65|1.76|||Log Rank|||||1.76|0.65|0.7738
92281483|NCT01984242|184465970|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.083||95.0|0.43|1.06|||Log Rank|||||1.06|0.43|0.0830
92281484|NCT01984242|184465970|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7141|TWO_SIDED|95.0|0.7|1.69|||Log Rank|||||1.69|0.70|0.7141
92281485|NCT01984242|184465972|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.2541||95.0|0.59|1.15|||Log Rank|||||1.15|0.59|0.2541
92281486|NCT01984242|184465972|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.3103|TWO_SIDED|95.0|0.86|1.63|||Log Rank|||||1.63|0.86|0.3103
92281487|NCT01984242|184465974|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0351|TWO_SIDED|95.0|0.37|0.97|||Log Rank|||||0.97|0.37|0.0351
92281488|NCT01984242|184465974|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9769||95.0|0.64|1.54|||Log Rank|||||1.54|0.64|0.9769
92244002|NCT00424294|184391006|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.031
92244003|NCT00424294|184391006|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.018
92244004|NCT00424294|184391006|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.170
92244005|NCT00424294|184391007|SUPERIORITY_OR_OTHER|||||||0.507|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.507
92244006|NCT00424294|184391007|SUPERIORITY_OR_OTHER|||||||0.743|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.743
92244007|NCT00424294|184391007|SUPERIORITY_OR_OTHER|||||||0.914|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.914
92244008|NCT00424294|184391007|SUPERIORITY_OR_OTHER|||||||0.715|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.715
92244009|NCT00424294|184391007|SUPERIORITY_OR_OTHER|||||||0.558|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.558
92244010|NCT00424294|184391008|SUPERIORITY_OR_OTHER|||||||0.172|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.172
92244011|NCT00424294|184391008|SUPERIORITY_OR_OTHER|||||||0.738|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.738
92244012|NCT00424294|184391008|SUPERIORITY_OR_OTHER|||||||0.948|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.948
92244013|NCT00424294|184391008|SUPERIORITY_OR_OTHER|||||||0.428|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.428
92244014|NCT00424294|184391008|SUPERIORITY_OR_OTHER|||||||0.861|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.861
92244015|NCT00424294|184391009|SUPERIORITY_OR_OTHER|||||||0.325|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.325
92244016|NCT00424294|184391009|SUPERIORITY_OR_OTHER|||||||0.386|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.386
92244017|NCT00424294|184391009|SUPERIORITY_OR_OTHER|||||||0.532|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.532
92244018|NCT00424294|184391009|SUPERIORITY_OR_OTHER|||||||0.909|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.909
92244019|NCT00424294|184391009|SUPERIORITY_OR_OTHER|||||||0.994|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.994
92244020|NCT00424294|184391010|SUPERIORITY_OR_OTHER|||||||0.369|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.369
92244021|NCT00424294|184391010|SUPERIORITY_OR_OTHER|||||||0.666|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.666
92244022|NCT00424294|184391010|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.530
92244023|NCT00424294|184391010|SUPERIORITY_OR_OTHER|||||||0.632|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.632
92244024|NCT00424294|184391010|SUPERIORITY_OR_OTHER|||||||0.801|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.801
92244025|NCT00424294|184391011|SUPERIORITY_OR_OTHER|||||||0.052|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.052
92244026|NCT00424294|184391011|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.108
92244027|NCT00424294|184391011|SUPERIORITY_OR_OTHER|||||||0.573|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.573
92244028|NCT00424294|184391011|SUPERIORITY_OR_OTHER|||||||0.342|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.342
92244029|NCT00424294|184391011|SUPERIORITY_OR_OTHER|||||||0.501|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.501
92244030|NCT00424294|184391012|SUPERIORITY_OR_OTHER|||||||0.701|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.701
92244031|NCT00424294|184391012|SUPERIORITY_OR_OTHER|||||||0.167|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.167
92244032|NCT00424294|184391012|SUPERIORITY_OR_OTHER|||||||0.948|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.948
92244033|NCT00424294|184391012|SUPERIORITY_OR_OTHER|||||||0.834|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.834
92244034|NCT00424294|184391012|SUPERIORITY_OR_OTHER|||||||0.977|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.977
92244035|NCT00424294|184391013|SUPERIORITY_OR_OTHER|||||||0.291|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.291
92244036|NCT00424294|184391013|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.080
92244037|NCT00424294|184391013|SUPERIORITY_OR_OTHER|||||||0.466|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.466
92244038|NCT00424294|184391013|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.267
92244039|NCT00424294|184391013|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.100
92244040|NCT01496430|184391023|SUPERIORITY_OR_OTHER|||||||0.007||||||Sequential testing was used to control for multiple comparisons. Azilsartan medoxomil 80 mg was first compared to placebo and if p-value ≤0.05 then azilsartaon medoxomil 40 mg was compared to placebo.|ANCOVA|||||||0.007
92244041|NCT01496430|184391023|SUPERIORITY_OR_OTHER|||||||0.067||||||Sequential testing was used to control for multiple comparisons. Azilsartan medoxomil 80 mg was first compared to placebo and if p-value ≤0.05 then azilsartaon medoxomil 40 mg was compared to placebo.|ANCOVA|||||||0.067
92244042|NCT01496430|184391024|SUPERIORITY_OR_OTHER|||||||0.86||||||Sequential testing was used to control for multiple comparisons. Azilsartan medoxomil 80 mg was first compared to placebo and if p-value ≤0.05 then azilsartaon medoxomil 40 mg was compared to placebo.|ANCOVA|||||||0.860
92244043|NCT01496430|184391024|SUPERIORITY_OR_OTHER|||||||0.21||||||Sequential testing was used to control for multiple comparisons. Azilsartan medoxomil 80 mg was first compared to placebo and if p-value ≤0.05 then azilsartaon medoxomil 40 mg was compared to placebo.|ANCOVA|||||||0.210
92281489|NCT01984242|184465975|SUPERIORITY||Difference in response rates|2.97||||0.6492|TWO_SIDED|95.0|-10.68|16.62|||Cochran-Mantel-Haenszel|||||16.62|-10.68|0.6492
92281490|NCT01984242|184465975|SUPERIORITY||Difference in response rates|-3.47||||0.5433||95.0|-16.63|9.69|||Cochran-Mantel-Haenszel|||||9.69|-16.63|0.5433
92244044|NCT01100307|184391046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.85||||0.0003|TWO_SIDED|95.0|1.92|12.28||Significance level of test in the comparison between pegaptanib sodium 0.3 mg and sham was set to 0.05.|Cochran-Mantel-Haenszel|Stratification factors (HbA1c and baseline visual acuity categories)||The null hypothesis was to assume that there was no difference between the pegaptanib sodium and sham injection groups. The alternative was to assume that there was difference between the pegaptanib sodium and sham injection groups.||12.28|1.92|0.0003
92244045|NCT01100307|184391047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.52||||0.0006|TWO_SIDED|95.0|1.1|3.94||Significance level of test in the comparison between pegaptanib sodium 0.3 mg and sham was set to 0.05.|ANCOVA|Based on an analysis of covariance with treatment as a factor and stratification factors (HbA1c and baseline visual acuity categories) as covariates.||Comparison at Week 6: The null hypothesis was to assume that there was no difference between the pegaptanib sodium and sham injection groups. The alternative was to assume that there was difference between the pegaptanib sodium and sham injection groups.||3.94|1.10|0.0006
92244046|NCT01100307|184391047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.69||||0.0001|TWO_SIDED|95.0|1.81|5.58||Significance level of test in the comparison between pegaptanib sodium 0.3 mg and sham was set to 0.05.|ANCOVA|Based on an analysis of covariance with treatment as a factor and stratification factors (HbA1c and baseline visual acuity categories) as covariates.||Comparison at Week 12: The null hypothesis was to assume that there was no difference between the pegaptanib sodium and sham injection groups. The alternative was to assume that there was difference between the pegaptanib sodium and sham injection groups.||5.58|1.81|0.0001
92244047|NCT01100307|184391047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.65||||0.0096|TWO_SIDED|95.0|0.65|4.65||Significance level of test in the comparison between pegaptanib sodium 0.3 mg and sham was set to 0.05.|ANCOVA|Based on an analysis of covariance with treatment as a factor and stratification factors (HbA1c and baseline visual acuity categories) as covariates.||Comparison at Week 18: The null hypothesis was to assume that there was no difference between the pegaptanib sodium and sham injection groups. The alternative was to assume that there was difference between the pegaptanib sodium and sham injection groups.||4.65|0.65|0.0096
92281491|NCT01984242|184465976|SUPERIORITY||Difference in response rates|19.33||||0.0141|TWO_SIDED|95.0|-0.28|38.94|||Cochran-Mantel-Haenszel|||||38.94|-0.28|0.0141
92281492|NCT01984242|184465976|SUPERIORITY||Difference in response rates|1.11||||0.8719|TWO_SIDED|95.0|-17.02|19.24|||Cochran-Mantel-Haenszel|||||19.24|-17.02|0.8719
92244048|NCT01100307|184391047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26|||<|0.0001|TWO_SIDED|95.0|2.19|6.32||Significance level of test in the comparison between pegaptanib sodium 0.3 mg and sham was set to 0.05.|ANCOVA|Based on an analysis of covariance with treatment as a factor and stratification factors (HbA1c and baseline visual acuity categories) as covariates.||Comparison at Week 24: The null hypothesis was to assume that there was no difference between the pegaptanib sodium and sham injection groups. The alternative was to assume that there was difference between the pegaptanib sodium and sham injection groups.||6.32|2.19|<0.0001
92244049|NCT01962714|184391092|NON_INFERIORITY|The primary outcome of non-inferiority of LKM relative to CPT-C was assessed using a non-inferiority margin of 5 points on the CAPS-5, which represents 0.5 SD of baseline PTSD symptoms based on data indicating the SD of baseline CAPS-5 scores is approximately 10 in a large sample (N=198) of treatment-seeking veterans.|Mean Difference (Final Values)|2.09|||||TWO_SIDED|95.0|-2.59|6.78|||||Non-inferiority of LKM to CPT-C was analyzed as the change rate from baseline to 6-month follow-up between groups (CPT-C minus LKM), with a positive value indicating a greater reduction in scores for LKM compared to CPT-C.|The non-inferiority of LKM with respect to CPT-C was analyzed using the 95% confidence interval for the group x time interaction term, with non-inferiority of LKM to CPT-C claimed if the lower limit of the 95% confidence interval was greater than (i.e., did not extend beyond) negative delta.||6.78|-2.59|
92244050|NCT01962714|184391093|NON_INFERIORITY|For depression, the non-inferiority margin was 4 points on the PROMIS depression measure, which has been defined as the minimally important difference and corresponds to a Cohen's d effect size of approximately 0.50.|Mean Difference (Final Values)|2.34|||||TWO_SIDED|95.0|-0.52|5.2|||||Non-inferiority of LKM with respect to CPT-C was analyzed as the change rate from baseline to 6-month follow-up between groups (CPT-C minus LKM), with a positive value indicating a greater reduction in scores from baseline for LKM compared to CPT-C.|The non-inferiority of LKM with respect to CPT-C was analyzed using the 95% confidence interval for the group x time interaction term, with non-inferiority of LKM to CPT-C claimed if the lower limit of the 95% confidence interval was greater than (i.e., did not extend beyond) negative delta.||5.20|-0.52|
92244051|NCT01151579|184391094|NON_INFERIORITY_OR_EQUIVALENCE|A total of at least 400 treatemnts or 65 patients was required to achieve 94% power to determine a 1% change by treatment or a 5% change between groups to be significant at p-value of 0.01 and o.05, respectively.|Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.5||0.01|TWO_SIDED|95.0|||||Mixed Models Analysis|||Null Hypothesis: No difference between groups in heart rate changes from baseline following treatment. Sample size calculation determined a need for at least 400 breathing treatments among 65 patients.||||0.01
92244052|NCT01151579|184391095|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.05|TWO_SIDED|95.0||||Analysis adjusted with Fischer exact chi-square for rare occurrences.|Chi-squared|||Null hypothesis: no difference in incidence of arrhythmias between groups within the total number of breathing treatments.||||0.05
92244053|NCT01151579|184391096|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||descriptive|Descriptive statistics (frequency) used to report the number of participants experiencing an event.||To report on the number of events.||||0
92244054|NCT00608530|184391097|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||Repeated measures analysis of variance compared differences between and within groups (CBT and Supportive Care) from baseline to end of treatment. Statistical testing was performed using 2-tailed tests and alpha level of .05 for declaring statistical significance. The trial was powered at the \>.80 level to detect differences between condition based on projected sample N = 130; given the N = 66 actually achieved our a priori power for detecting differences between groups was .63.||||.05
92244055|NCT00608530|184391098|SUPERIORITY|||||||0.05|||||||ANOVA|||Primary analyses consisted of modified intent-to-treat analysis of all randomized participants who attended at least 1 treatment session, with multiple imputation to address missing data. The study was powered at 80% to detect large effect sizes (\>.50SD) and alpha of .05 with a recruitment goal N = 140; with the N = 61 actually obtained, our a priori power was .55 to detect between group differences.||||.05
92281493|NCT01984242|184465977|SUPERIORITY||Difference in response rates|1.98||||0.8068|TWO_SIDED|95.0|-12.04|16.0|||Cochran-Mantel-Haenszel|||||16.00|-12.04|0.8068
92281494|NCT01984242|184465977|SUPERIORITY||Difference in response rates|-9.37||||0.1321||95.0|-22.61|3.87|||Cochran-Mantel-Haenszel|||||3.87|-22.61|0.1321
92244056|NCT00608530|184391099|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||Repeated measures analysis of variance comparing groups at baseline and end of treatment.||||>0.05
92244057|NCT00608530|184391101|SUPERIORITY_OR_OTHER|||||||0.05|||||||Fisher Exact|||||||.05
92264808|NCT04579666|184431133|SUPERIORITY||Difference in LS Mean|-0.7||||0.6447|TWO_SIDED|95.0|-3.5|2.2|||MMRM|||The mixed-effect model for repeated measures (MMRM) included fixed categorical effects for treatment, week, and the week-by-treatment interaction, as well as the continuous, fixed covariate of the baseline value of the endpoint, and the week-by-baseline interaction, baseline log NfL, time from symptoms onset to the first dose of study drug, and randomization stratification factors location of first muscle weakness and use of riluzole and/or edaravone).||2.2|-3.5|0.6447
92281495|NCT01984242|184465978|SUPERIORITY||Difference in response rates|19.67||||0.0199|TWO_SIDED|95.0|-0.1|39.44|||Cochran-Mantel-Haenszel|||||39.44|-0.10|0.0199
92281496|NCT01984242|184465978|SUPERIORITY||Difference in response rates|-2.41||||0.7836|TWO_SIDED|95.0|-20.5|15.68|||Cochran-Mantel-Haenszel|||||15.68|-20.50|0.7836
92281497|NCT01984242|184465979|SUPERIORITY||Difference in response rates|3.96||||0.6231|TWO_SIDED|95.0|-10.23|18.15|||Cochran-Mantel-Haenszel|||||18.15|-10.23|0.6231
92281498|NCT01984242|184465979|SUPERIORITY||Difference in response rates|-8.42||||0.1816|TWO_SIDED|95.0|-21.86|5.02|||Cochran-Mantel-Haenszel|||||5.02|-21.86|0.1816
92281499|NCT01984242|184465980|SUPERIORITY||Difference in response rates|22.0||||0.0111|TWO_SIDED|95.0|2.11|41.89|||Cochran-Mantel-Haenszel|||||41.89|2.11|0.0111
92244058|NCT00077610|184391103|NON_INFERIORITY_OR_EQUIVALENCE|The two RO0503821 dosing schedules were compared separately to epoetin reference using ANCOVA, with Hb at BL and region as the covariates. The test for non-inferiority was based on the lower limit of the two-sided 97.5% confidence interval for the difference between the two groups. When the lower limit was greater than or equal to -0.75 g/dL, the RO0503821 groups were regarded as non-inferior to the epoetin reference group. The confidence level of 97.5% was chosen to adjust for multiplicity.|Mean Difference between groups|0.004|STANDARD_ERROR_OF_MEAN|0.0973|<|0.0001|TWO_SIDED|97.5|-0.215|0.223|||ANCOVA, CI for difference between groups||Difference between groups based on the adjusted means derived from the ANCOVA model|The non-inferiority test for treatment differences in Hb change from baseline, based on analysis of co-variance (ANCOVA) analysis with a non-inferiority limit of -0.75 g/dL.||0.223|-0.215|<0.0001
92244059|NCT00077610|184391103|NON_INFERIORITY_OR_EQUIVALENCE|The two RO0503821 dosing schedules were compared separately to epoetin reference using ANCOVA, with Hb at BL and region as the covariates. The test for non-inferiority was based on the lower limit of the two-sided 97.5% confidence interval for the difference between the two groups. When the lower limit was greater than or equal to -0.3 g/dL, the RO0503821 groups were regarded as non-inferior to the epoetin reference group. The confidence level of 97.5% was chosen to adjust for multiplicity.|Mean Difference between groups|0.051|STANDARD_ERROR_OF_MEAN|0.0997|<|0.0001|TWO_SIDED|97.5|-0.173|0.275|||ANCOVA, CI for difference between groups||Difference between groups based on the adjusted means derived from the ANCOVA model|The non-inferiority test for treatment differences in Hb change from baseline, based on ANCOVA analysis with a non-inferiority limit of -0.75 g/dL.||0.275|-0.173|<0.0001
92281500|NCT01984242|184465980|SUPERIORITY||Difference in response rates|-2.22||||0.8209|TWO_SIDED|95.0|-20.63|16.19|||Cochran-Mantel-Haenszel|||||16.19|-20.63|0.8209
92281501|NCT01984242|184465982|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0863||95.0|0.5|1.05|||Log Rank|||||1.05|0.50|0.0863
92281502|NCT01984242|184465982|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.5922|TWO_SIDED|95.0|0.77|1.57|||Log Rank|||||1.57|0.77|0.5922
92281503|NCT01984242|184465984|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.0021||95.0|0.25|0.75|||Log Rank|||||0.75|0.25|0.0021
92281504|NCT01984242|184465984|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6566|TWO_SIDED|95.0|0.56|1.44|||Log Rank|||||1.44|0.56|0.6566
92182538|NCT04701203|184264092|SUPERIORITY||||||=|0.0061|||||||t-test, 2 sided|||ANCOVA model with unequal variance was used to analyze the key secondary Endpoints. The change from baseline is variable of interest at week 26 and was included in the model as response variables. Treatment assignment and etiology of hypoparathyroidism were entered as fixed effects and baseline value of the variable of interest was entered as a covariate.||||= 0.0061
92244060|NCT00305253|184391126|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38||||0.019|TWO_SIDED|95.0|0.17|0.85|||Regression, Logistic|Independent variables were selected on the basis of their significant association with EAO in bivariate analyses (t-tests and logistic regression).|Pre-Intervention group was compared to the Post-Intervention group. Each group contained different study participants.|"Relative risks and confidence intervals were computed for the primary outcome, Extreme Adverse Outcomes (EAO) - a combined measure of maternal mortality or severe mobidity.~To estimate the independent effect of the intervention net of the effects of other baseline characteristics, a multiple logistic regression model was used."||0.85|0.17|0.019
92244061|NCT00305253|184391127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.79|||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided||Pre-Intervention group was compared to the Post-Intervention group. Each group contained different study participants.|Mean measured volume of blood loss in the drape was compared across phases with t-tests.||||<0.0001
92244062|NCT00305253|184391128|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.41|||<|0.05|TWO_SIDED|95.0|0.21|0.8|||t-test, 2 sided||Pre-Intervention group was compared to the Post-Intervention group. Each group contained different study participants.|Relative risks and confidence intervals were computed for emergency hysterectomy.||0.80|0.21|<0.05
92244063|NCT01098461|184391129|NON_INFERIORITY_OR_EQUIVALENCE|The p-value is from a two-sided t-test for the difference in means. Dunnett's method is used to adjust for multiple comparisons.|Mean Difference (Final Values)|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.22|-0.57|||t-test, 2 sided|||||-0.57|-1.22|<0.0001
92244064|NCT01098461|184391129|NON_INFERIORITY_OR_EQUIVALENCE|The p-value is from a two-sided t-test for the difference in means. Dunnett's method is used to adjust for multiple comparisons.|Mean Difference (Final Values)|-1.55|||<|0.0001|TWO_SIDED|95.0|-1.88|-1.23|||t-test, 2 sided|||||-1.23|-1.88|<0.0001
92244065|NCT01098461|184391129|NON_INFERIORITY_OR_EQUIVALENCE|The p-value is from a two-sided t-test for the difference in means. Dunnett's method is used to adjust for multiple comparisons.|Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.43|-0.78|||t-test, 2 sided|||||-0.78|-1.43|<0.0001
92244066|NCT02662985|184391138|SUPERIORITY||Median Difference (Net)|-3.18|STANDARD_ERROR_OF_MEAN|1.18||0.004|TWO_SIDED|95.0|-5.52|-0.85|||Mixed Models Analysis|mixed model repeated measures (MMRM)||GLOESS scores||-0.85|-5.52|0.0040
92281505|NCT01984242|184465992|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.2867|TWO_SIDED|95.0|0.8|2.13|||Log Rank|||||2.13|0.80|0.2867
92281506|NCT01984242|184465992|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.8039||95.0|0.65|1.73|||Log Rank|||||1.73|0.65|0.8039
92281507|NCT01984242|184465994|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.7879|TWO_SIDED|95.0|0.47|1.78|||Log Rank|||||1.78|0.47|0.7879
92244067|NCT02662985|184391139|SUPERIORITY||Odds Ratio (OR)|4.6|||<|0.0001|TWO_SIDED|95.0|2.38|8.89|||Regression, Logistic|Logistic regression using non-responder imputation||Proportion of patients with ACR 20 response at Week 12 (FAS)||8.89|2.38|<0.0001
92244068|NCT02662985|184391140|SUPERIORITY||Odds Ratio (OR)|9.65|||<|0.0001|TWO_SIDED|95.0|3.92|23.75|||Regression, Logistic|||Proportion of patients with ACR 50 response at Week 12 (FAS)||23.75|3.92|<0.0001
92281508|NCT01984242|184465994|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.9065|TWO_SIDED|95.0|0.52|1.8|||Log Rank|||||1.80|0.52|0.9065
92244069|NCT02662985|184391141|SUPERIORITY||Adjusted mean of treatment difference|-0.67|STANDARD_ERROR_OF_MEAN|0.36||0.0327|TWO_SIDED|95.0|-1.374|0.043|||Regression, Logistic|||SPARCC||0.043|-1.374|0.0327
92281509|NCT00449150|184466009|SUPERIORITY_OR_OTHER||LS means estimate|-0.198||||0.7424|TWO_SIDED|95.0|-1.38|0.98|||ANOVA|||||0.98|-1.38|0.7424
92281510|NCT00449150|184466009|SUPERIORITY_OR_OTHER||LS means estimate|0.055||||0.926||95.0|-1.1|1.21|||ANOVA|||||1.21|-1.10|0.926
92281511|NCT00449150|184466009|SUPERIORITY_OR_OTHER||LS means estimate|-0.252||||0.6699||95.0|-1.41|0.91|||ANOVA|||||0.91|-1.41|0.6699
92281512|NCT01089647|184466029|OTHER||||||=|0.946|||||||ANOVA|||Between-group comparisons at follow-up were made using a stepwise multivariable logistic model.||||=0.946
92281513|NCT02364557|184466123|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.36|TWO_SIDED|70.0|0.71|1.17||One-side significance level = 0.15|Log Rank||Reference level = SOC arm|Assuming an increase in median PFS from 10.5 to 19 months (HR: 0.55), 69 events provide \>90% power to conclude superiority with 1-sided α = 0.15.||1.17|0.71|0.36
92244070|NCT02322320|184391328|SUPERIORITY|||||||0.6||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and RVD consolidation therapy.||||0.60
92244071|NCT02322320|184391328|SUPERIORITY|||||||0.35||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and Lenalidomide maintenance therapy.||||0.35
92244072|NCT02322320|184391328|SUPERIORITY|||||||0.68||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to RVD consolidation and Lenalidomide maintenance therapy.||||0.68
92244073|NCT02322320|184391329|SUPERIORITY|||||||0.57||||||The analysis involved pairwise comparisons of OS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with OS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and RVD consolidation therapy.||||0.57
92244074|NCT02322320|184391329|SUPERIORITY|||||||0.38||||||The analysis involved pairwise comparisons of OS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with OS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and Lenalidomide maintenance therapy.||||0.38
92281514|NCT02364557|184466126|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.91|TWO_SIDED|95.0|0.59|1.61||Two-sided significance level = 0.05|Gray's test||Reference level = SOC arm|||1.61|0.59|0.91
92244075|NCT02322320|184391329|SUPERIORITY|||||||0.77||||||The analysis involved pairwise comparisons of OS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with OS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to RVD consolidation and Lenalidomide maintenance therapy.||||0.77
92244076|NCT02322320|184391330|SUPERIORITY|||||||0.67||||||The analysis involved pairwise comparisons of EFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with EFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and RVD consolidation therapy.||||0.67
92244077|NCT02322320|184391330|SUPERIORITY|||||||0.2||||||The analysis involved pairwise comparisons of EFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with EFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and Lenalidomide maintenance therapy.||||0.20
92244078|NCT02322320|184391330|SUPERIORITY|||||||0.4||||||The analysis involved pairwise comparisons of EFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with EFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to RVD consolidation and Lenalidomide maintenance therapy.||||0.40
92244079|NCT02322320|184391331|SUPERIORITY|||||||0.43||||||The analysis involved pairwise comparisons of SPM between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Gray's test|Gray's test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with SPM at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and RVD consolidation therapy.||||0.43
92281515|NCT02364557|184466128|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9|TWO_SIDED|95.0|0.54|2.02||Two-sided significance level = 0.05.|Log Rank||Reference level = CTCs Absent|||2.02|0.54|0.90
92281516|NCT00662129|184466190|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
92281517|NCT00966953|184466197|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92281518|NCT02841709|184466211|OTHER||||||<|0.001|||||||Multiple Comparison Procedure-Model|||"Multiple Comparison Procedure-Modeling (MCP-Mod) was used to assess a dose response across placebo and all ACT-541468 doses. The null hypothesis of no dose response was rejected if at least one of the six Multiple Contrasts Tests (MCTs) had a multiplicity adjusted p-value \<0.05. The analysis was performed using the R-package DoseFinding (Bornkamp B, Pinheiro J, Bretz F. Planning and analyzing dose finding experiments. 2016. Available from: cranrprojects.org/web/packages/DoseFinding.)"||||<0.001
92182539|NCT04701203|184264093|SUPERIORITY||||||=|0.0347|||||||t-test, 2 sided|||ANCOVA model with unequal variance was used to analyze the key secondary Endpoints. The change from baseline is variable of interest at week 26 and was included in the model as response variables. Treatment assignment and etiology of hypoparathyroidism were entered as fixed effects and baseline value of the variable of interest was entered as a covariate.||||= 0.0347
92281519|NCT02841709|184466211|OTHER||LS mean difference|-5.4|STANDARD_ERROR_OF_MEAN|4.73||0.258|TWO_SIDED|95.0|-14.7|4.0|||Linear mixed effects model||Parameter Dispersion Type: Standard Error of the LS Mean|||4.0|-14.7|0.258
92281520|NCT02841709|184466211|OTHER||LS mean difference|-18.4|STANDARD_ERROR_OF_MEAN|4.76|<|0.001|TWO_SIDED|95.0|-27.8|-9.0|||Linear mixed effects model||Parameter Dispersion Type: Standard Error of the LS Mean|||-9.0|-27.8|<0.001
92281521|NCT02841709|184466211|OTHER||LS mean difference|-31.5|STANDARD_ERROR_OF_MEAN|4.74|<|0.001|TWO_SIDED|95.0|-40.9|-22.2|||Linear mixed effects model|||||-22.2|-40.9|<0.001
92281522|NCT02841709|184466211|OTHER||LS mean difference|-47.8|STANDARD_ERROR_OF_MEAN|4.74|<|0.001|TWO_SIDED|95.0|-57.2|-38.5|||Linear mixed effects model|||||-38.5|-57.2|<0.001
92281523|NCT01210001|184466213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|97.5|-0.69|-0.27||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in HbA1c was the first step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline and baseline HbA1c.|Difference calculated as empa 10mg minus placebo|||-0.27|-0.69|<0.0001
92287235|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|0.036||||0.328|TWO_SIDED|95.0|-0.037|0.109|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.109|-0.037|0.328
92281524|NCT01210001|184466213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|97.5|-0.82|-0.4||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in HbA1c was the first step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline and baseline HbA1c.|Difference calculated as empa 25mg minus placebo|||-0.40|-0.82|<0.0001
92174208|NCT05093829|184240296|NON_INFERIORITY|The NmCV-5 co-administered yellow fever vaccine will be deemed non-inferior to the MenACWY-TT co-administered yellow fever vaccine in eliciting seroprotective response to yellow fever if the lower limit of the 95% confidence interval for the difference in proportions excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|-1.9|||||TWO_SIDED|95.0|-4.2|0.6||||||For this comparison, the proportion of infants with a seroprotective response to yellow fever vaccine in the MenACWY-TT arm is subtracted from the proportion of infants with a seroprotective response to yellow fever vaccine in the NmCV-5 arm to determine the difference in proportions.||0.6|-4.2|
92174209|NCT05093829|184240297|OTHER||Ratio of geometric mean titers|1.0|||||TWO_SIDED|95.0|0.8|1.3|||||NmCV-5 divided by MenACWY-TT|For serogroup A, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1.3|0.8|
92174210|NCT05093829|184240297|OTHER||Ratio of geometric mean titers|1.2|||||TWO_SIDED|95.0|1.0|1.6|||||NmCV-5 divided by MenACWY-TT|For serogroup A, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1.6|1.0|
92281525|NCT01210001|184466214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.48|STANDARD_ERROR_OF_MEAN|3.71|<|0.0001|TWO_SIDED|97.5|-31.81|-15.15||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in FPG was the second step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline, baseline HbA1c and baseline FPG|Difference calculated as empa 10mg minus placebo|||-15.15|-31.81|<0.0001
92287236|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|0.112||||0.002|TWO_SIDED|95.0|0.042|0.182|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.182|0.042|0.002
92244080|NCT02322320|184391331|SUPERIORITY|||||||0.7||||||The analysis involved pairwise comparisons of SPM between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Gray's test|Gray's test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with SPM at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and Lenalidomide maintenance therapy.||||0.70
92244081|NCT02322320|184391331|SUPERIORITY|||||||0.7||||||The analysis involved pairwise comparisons of SPM between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Gray's test|Gray's test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with SPM at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to RVD consolidation and Lenalidomide maintenance therapy.||||0.70
92244082|NCT01067508|184391333|OTHER|||||||0.003||||||p\<0.05 was defined as significant|t-test, 2 sided|||Comparison was made to 12 weeks minus baseline change in Fiji water group||||0.003
92244083|NCT01067508|184391333|OTHER|||||||0.68||||||p\<0.05 was defined as significant|t-test, 2 sided|||Comparison was made to the 12 week minus baseline change in Aquafina (control) group||||0.68
92244084|NCT00958308|184391334|SUPERIORITY_OR_OTHER||||||=|0.02|||||||Fisher Exact|||The sample size calculation was based on the incidence of AAD. A total of 255 patients was enrolled in order to obtain at least the required 225 evaluable patients.With expected AAD rates of at most 15% - 25% in the treatment groups; and 25% - 35% in the placebo group, these numbers were sufficient to detect the difference in the incidence of AAD between either of the treatment groups vs. placebo with a minimum of 86% statistical power.||||=0.02
92244085|NCT04030104|184391339|SUPERIORITY|||||||0.0268||||||Threshold for statistical significance \<0.05|Random Reader, Random Mass|Curve Fitting Method: Empirical||||||0.0268
92244086|NCT02065622|184391346|SUPERIORITY||Adjusted risk difference|2.5||||0.269|TWO_SIDED|95.0|-2.0|7.0|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||7.0|-2.0|0.269
92244087|NCT02065622|184391346|SUPERIORITY|||||||0.447|||||||Breslow-Day test|Breslow-Day test of homogeneity across strata.||||||0.447
92244088|NCT02065622|184391346|SUPERIORITY||Adjusted risk difference|2.3||||0.301|TWO_SIDED|95.0|-2.0|6.6|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||6.6|-2.0|0.301
92244089|NCT02065622|184391346|SUPERIORITY|||||||0.502|||||||Breslow-Day test|Breslow-Day test of homogeneity across strata.||||||0.502
92244090|NCT02065622|184391347|SUPERIORITY||Adjusted risk difference|9.9||||0.069|TWO_SIDED|95.0|-0.8|20.6|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||20.6|-0.8|0.069
92281526|NCT01210001|184466214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.46|STANDARD_ERROR_OF_MEAN|3.68|<|0.0001|TWO_SIDED|97.5|-36.73|-20.19||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in FPG was the second step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline, baseline HbA1c and baseline FPG|Difference calculated as empa 25mg minus placebo|||-20.19|-36.73|<0.0001
92287237|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|0.089||||0.011|TWO_SIDED|95.0|0.02|0.158|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.158|0.020|0.011
92244091|NCT02065622|184391347|SUPERIORITY|||||||0.085|||||||Breslow-Day test|Breslow-Day test of homogeneity across strata.||||||0.085
92244092|NCT02065622|184391347|SUPERIORITY||Adjusted risk difference|10.3||||0.045|TWO_SIDED|95.0|0.2|20.4|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||20.4|0.2|0.045
92244093|NCT02065622|184391347|SUPERIORITY|||||||0.106|||||||Breslow-Day test|Breslow-Day test of homogeneity across strata.||||||0.106
92244094|NCT02065622|184391348|SUPERIORITY||Adjusted risk difference|4.2||||0.181|TWO_SIDED|95.0|-2.0|10.5|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||10.5|-2.0|0.181
92244095|NCT02065622|184391348|SUPERIORITY||Adjusted risk difference|3.8||||0.2|TWO_SIDED|95.0|-2.0|9.7|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||9.7|-2.0|0.200
92244096|NCT02065622|184391349|SUPERIORITY||Adjusted risk difference|3.0||||0.3|TWO_SIDED|95.0|-2.6|8.6|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||8.6|-2.6|0.300
92174211|NCT05093829|184240297|OTHER||Ratio of geometric mean titers|0.5|||||TWO_SIDED|95.0|0.4|0.6|||||NmCV-5 divided by MenACWY-TT|For serogroup C, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||0.6|0.4|
92174212|NCT05093829|184240297|OTHER||Ratio of geometric mean titers|0.4|||||TWO_SIDED|95.0|0.3|0.5|||||NmCV-5 divided by MenACWY-TT|For serogroup C, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||0.5|0.3|
92174213|NCT05093829|184240297|OTHER||Ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.6|1.3|||||NmCV-5 divided by MenACWY-TT|For serogroup W, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1.3|0.6|
92244097|NCT02065622|184391349|SUPERIORITY||Adjusted risk difference|3.1||||0.254|TWO_SIDED|95.0|-2.2|8.4|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||8.4|-2.2|0.254
92287238|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|0.031||||0.404|TWO_SIDED|95.0|-0.042|0.104|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.104|-0.042|0.404
92174214|NCT05093829|184240297|OTHER||Ratio of geometric mean titers|1.6|||||TWO_SIDED|95.0|1.1|2.1|||||NmCV-5 divided by MenACWY-TT|For serogroup W, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||2.1|1.1|
92244098|NCT02065622|184391350|SUPERIORITY||Adjusted risk difference|6.5||||0.05|TWO_SIDED|95.0|0.0|13.1|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||13.1|-0.0|0.050
92244099|NCT02065622|184391350|SUPERIORITY||Adjusted risk difference|4.8||||0.131|TWO_SIDED|95.0|-1.4|11.0|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||11.0|-1.4|0.131
92244100|NCT02065622|184391351|SUPERIORITY||Adjusted risk difference|7.3||||0.035|TWO_SIDED|95.0|0.5|14.1|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||14.1|0.5|0.035
92244101|NCT02065622|184391351|SUPERIORITY||Adjusted risk difference|8.7||||0.008|TWO_SIDED|95.0|2.3|15.1|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||15.1|2.3|0.008
92287239|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|0.003||||0.942|TWO_SIDED|95.0|-0.069|0.074|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.074|-0.069|0.942
92244102|NCT02065622|184391352|SUPERIORITY||Adjusted risk difference|3.2||||0.16|TWO_SIDED|95.0|-1.3|7.6|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||7.6|-1.3|0.160
92244103|NCT02065622|184391352|SUPERIORITY||Adjusted risk difference|2.9||||0.166|TWO_SIDED|95.0|-1.2|7.1|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||7.1|-1.2|0.166
92281527|NCT01210001|184466215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.95|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|97.5|-2.64|-1.27||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in body weight was the third step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline, baseline HbA1c and baseline weight|Difference calculated as empa 10mg minus placebo|||-1.27|-2.64|<0.0001
92281528|NCT01210001|184466215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|97.5|-2.49|-1.13||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in body weight was the third step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline, baseline HbA1c and baseline weight|Difference calculated as empa 25mg minus placebo|||-1.13|-2.49|<0.0001
92244104|NCT02065622|184391353|SUPERIORITY||Adjusted risk difference|8.3||||0.011|TWO_SIDED|95.0|1.9|14.7|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||14.7|1.9|0.011
92244105|NCT02065622|184391353|SUPERIORITY||Adjusted risk difference|7.0||||0.025|TWO_SIDED|95.0|0.9|13.0|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||13.0|0.9|0.025
92244106|NCT02065622|184391354|SUPERIORITY||Adjusted risk difference|4.2||||0.218|TWO_SIDED|95.0|-2.5|10.9|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||10.9|-2.5|0.218
92244107|NCT02065622|184391354|SUPERIORITY||Adjusted risk difference|2.4||||0.456|TWO_SIDED|95.0|-4.0|8.8|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||8.8|-4.0|0.456
92244108|NCT02065622|184391355|SUPERIORITY||Adjusted risk difference|9.5||||0.098|TWO_SIDED|95.0|-1.7|20.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||20.8|-1.7|0.098
92244109|NCT02065622|184391355|SUPERIORITY||Adjusted risk difference|9.9||||0.066|TWO_SIDED|95.0|-0.7|20.5|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||20.5|-0.7|0.066
92244110|NCT02065622|184391356|SUPERIORITY||Adjusted risk difference|21.5||||0.002|TWO_SIDED|95.0|7.6|35.4|||Cochran-Mantel-Haenszel|Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.||Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||35.4|7.6|0.002
92287240|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|0.078||||0.027|TWO_SIDED|95.0|0.009|0.147|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.147|0.009|0.027
92244111|NCT02065622|184391356|SUPERIORITY||Adjusted risk difference|19.7||||0.003|TWO_SIDED|95.0|6.6|32.7|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||32.7|6.6|0.003
92244112|NCT02065622|184391357|SUPERIORITY||Adjusted risk difference|11.5||||0.093|TWO_SIDED|95.0|-1.9|25.0|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||25.0|-1.9|0.093
92244113|NCT02065622|184391357|SUPERIORITY||Adjusted risk difference|11.1||||0.088|TWO_SIDED|95.0|-1.7|23.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||23.8|-1.7|0.088
92244114|NCT02065622|184391358|SUPERIORITY||Adjusted risk difference|15.9||||0.161|TWO_SIDED|95.0|-6.3|38.2|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||38.2|-6.3|0.161
92281529|NCT01210001|184466216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|97.5|-0.69|-0.21||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa vs placebo change from baseline in HbA1c for pio+met background only was the fourth step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline and baseline HbA1c.|Difference calculated as empa 10mg minus placebo|||-0.21|-0.69|<0.0001
92281530|NCT01210001|184466216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|97.5|-0.83|-0.36||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa vs placebo change from baseline in HbA1c for pio+met background only was the fourth step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline and baseline HbA1c.|Difference calculated as empa 25mg minus placebo|||-0.36|-0.83|<0.0001
92281531|NCT03900624|184466229|SUPERIORITY|||||||0.632|||||||Wilcoxon (Mann-Whitney)|||||||0.632
92174215|NCT05093829|184240297|OTHER||Ratio of geometric mean titers|0.7|||||TWO_SIDED|95.0|0.6|1.0|||||NmCV-5 divided by MenACWY-TT|For serogroup Y, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1.0|0.6|
92281532|NCT03900624|184466230|SUPERIORITY|||||||0.725|||||||Wilcoxon (Mann-Whitney)|||||||0.725
92244115|NCT02065622|184391358|SUPERIORITY||Adjusted risk difference|10.4||||0.312|TWO_SIDED|95.0|-9.8|30.6|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||30.6|-9.8|0.312
92244116|NCT02065622|184391359|SUPERIORITY||Adjusted risk difference|12.3||||0.272|TWO_SIDED|95.0|-9.7|34.4|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||34.4|-9.7|0.272
92244117|NCT02065622|184391359|SUPERIORITY||Adjusted risk difference|5.3||||0.6|TWO_SIDED|95.0|-14.6|25.2|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||25.2|-14.6|0.600
92244118|NCT02065622|184391360|SUPERIORITY||Adjusted risk difference|23.8||||0.074|TWO_SIDED|95.0|-2.3|49.9|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||49.9|-2.3|0.074
92244119|NCT02065622|184391360|SUPERIORITY||Adjusted risk difference|15.0||||0.21|TWO_SIDED|95.0|-8.5|38.4|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||38.4|-8.5|0.210
92244120|NCT02065622|184391361|SUPERIORITY||Adjusted risk difference|20.0||||0.151|TWO_SIDED|95.0|-7.3|47.3|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||47.3|-7.3|0.151
92244121|NCT02065622|184391361|SUPERIORITY||Adjusted risk difference|12.8||||0.299|TWO_SIDED|95.0|-11.3|36.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||36.8|-11.3|0.299
92244122|NCT02065622|184391362|SUPERIORITY||Adjusted risk difference|4.5||||0.422|TWO_SIDED|95.0|-6.4|15.3|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||15.3|-6.4|0.422
92244123|NCT02065622|184391362|SUPERIORITY||Adjusted risk difference|3.4||||0.513|TWO_SIDED|95.0|-6.8|13.6|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||13.6|-6.8|0.513
92244124|NCT02065622|184391363|SUPERIORITY||Adjusted risk difference|3.7||||0.351|TWO_SIDED|95.0|-4.1|11.4|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||11.4|-4.1|0.351
92244125|NCT02065622|184391363|SUPERIORITY||Adjusted risk difference|3.9||||0.292|TWO_SIDED|95.0|-3.3|11.1|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||11.1|-3.3|0.292
92244126|NCT02065622|184391364|SUPERIORITY||Adjusted risk difference|5.4||||0.121|TWO_SIDED|95.0|-1.4|12.1|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||12.1|-1.4|0.121
92244127|NCT02065622|184391364|SUPERIORITY||Adjusted risk difference|6.5||||0.046|TWO_SIDED|95.0|0.1|12.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||12.8|0.1|0.046
92281533|NCT03900624|184466231|SUPERIORITY|||||||0.725|||||||Wilcoxon (Mann-Whitney)|||||||0.725
92281534|NCT04526210|184466245|OTHER||Geometric least square (LS) mean ratio|0.98|||||TWO_SIDED|90.0|0.9415|1.0205||||||||1.0205|0.9415|
92281535|NCT04526210|184466246|OTHER||Geometric LS mean ratio|0.978|||||TWO_SIDED|90.0|0.9344|1.0244||||||||1.0244|0.9344|
92281536|NCT04526210|184466247|OTHER||Geometric LS mean ratio|0.981|||||TWO_SIDED|90.0|0.9368|1.0269||||||||1.0269|0.9368|
92244128|NCT02065622|184391365|SUPERIORITY||Adjusted risk difference|7.5||||0.159|TWO_SIDED|95.0|-2.9|17.9|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||17.9|-2.9|0.159
92244129|NCT02065622|184391365|SUPERIORITY||Adjusted risk difference|8.0||||0.109|TWO_SIDED|95.0|-1.8|17.9|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||17.9|-1.8|0.109
92174216|NCT05093829|184240297|OTHER||Ratio of geometric mean titers|1.0|||||TWO_SIDED|95.0|0.8|1.3|||||NmCV-5 divided by MenACWY-TT|For serogroup Y, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1.3|0.8|
92287241|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|-0.028||||0.463|TWO_SIDED|95.0|-0.104|0.048|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.048|-0.104|0.463
92174217|NCT05093829|184240297|OTHER||Ratio of geometric mean titers|1511.1|||||TWO_SIDED|95.0|1169.5|1952.4|||||NmCV-5 divided by MenACWY-TT|For serogroup X, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1952.4|1169.5|
92244130|NCT02065622|184391366|SUPERIORITY||Adjusted risk difference|1.4||||0.903|TWO_SIDED|95.0|-21.0|23.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||23.8|-21.0|0.903
92244131|NCT02065622|184391366|SUPERIORITY||Adjusted risk difference|1.3||||0.901|TWO_SIDED|95.0|-18.8|21.3|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||21.3|-18.8|0.901
92244132|NCT02065622|184391367|SUPERIORITY||Adjusted risk difference|7.7||||0.16|TWO_SIDED|95.0|-3.0|18.4|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||18.4|-3.0|0.160
92244133|NCT02065622|184391367|SUPERIORITY||Adjusted risk difference|9.1||||0.076|TWO_SIDED|95.0|-0.9|19.1|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||19.1|-0.9|0.076
92244134|NCT02065622|184391368|SUPERIORITY||Adjusted risk difference|7.3||||0.207|TWO_SIDED|95.0|-4.0|18.6|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||18.6|-4.0|0.207
92174218|NCT05093829|184240297|OTHER||Ratio of geometric mean titers|767.3|||||TWO_SIDED|95.0|553.2|1064.4|||||NmCV-5 divided by MenACWY-TT|For serogroup X, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1064.4|553.2|
92174219|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|2756.4|||||TWO_SIDED|95.0|1976.3|3844.5|||||Day 29 divided by Day 1|For serogroup A, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||3844.5|1976.3|
92174220|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|2506.9|||||TWO_SIDED|95.0|1404.0|4476.1|||||Day 29 divided by Day 1|For serogroup A, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||4476.1|1404.0|
92174221|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|1179.0|||||TWO_SIDED|95.0|709.8|1958.6|||||Day 29 divided by Day 1|For serogroup A, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1958.6|709.8|
92174222|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|1096.2|||||TWO_SIDED|95.0|513.4|2340.6|||||Day 29 divided by Day 1|For serogroup A, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||2340.6|513.4|
92174223|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|288.7|||||TWO_SIDED|95.0|212.6|392.0|||||Day 29 divided by Day 1|For serogroup C, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||392.0|212.6|
92174224|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|654.5|||||TWO_SIDED|95.0|385.5|1111.0|||||Day 29 divided by Day 1|For serogroup C, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1111.0|385.5|
92174225|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|287.9|||||TWO_SIDED|95.0|213.9|387.5|||||Day 29 divided by Day 1|For serogroup C, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||387.5|213.9|
92174226|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|834.6|||||TWO_SIDED|95.0|496.7|1402.3|||||Day 29 divided by Day 1|For serogroup C, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1402.3|496.7|
92287242|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.2|TWO_SIDED|95.0|-0.025|0.119|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.119|-0.025|0.200
92174227|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|1068.4|||||TWO_SIDED|95.0|683.3|1670.6|||||Day 29 divided by Day 1|For serogroup W, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1670.6|683.3|
92174228|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|1933.1|||||TWO_SIDED|95.0|1224.7|3051.1|||||Day 29 divided by Day 1|For serogroup W, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||3051.1|1224.7|
92287243|NCT03086460|184479327|SUPERIORITY||Mean Difference (Final Values)|0.076||||0.037|TWO_SIDED|95.0|0.005|0.146|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.146|0.005|0.037
92244135|NCT02065622|184391368|SUPERIORITY||Adjusted risk difference|4.2||||0.44|TWO_SIDED|95.0|-6.4|14.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||14.8|-6.4|0.440
92244136|NCT04973228|184391386|SUPERIORITY||Odds Ratio (OR)|2.79|||<|0.0001|TWO_SIDED|95.0|1.75|4.45|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|IGA Success at Week 8||4.45|1.75|<0.0001
92244137|NCT04973228|184391387|SUPERIORITY||Odds Ratio (OR)|2.95||||0.0001|TWO_SIDED|95.0|1.68|5.19|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|WI-NRS Success at Week 8||5.19|1.68|0.0001
92244138|NCT04973228|184391388|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0007|TWO_SIDED|95.0|1.47|4.67|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|WI-NRS Success at Week 4||4.67|1.47|0.0007
92244139|NCT04973228|184391389|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0016|TWO_SIDED|95.0|1.41|5.34|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|WI-NRS Success at Week 2||5.34|1.41|0.0016
92244140|NCT04973228|184391390|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0002|TWO_SIDED|95.0|1.54|3.84|||Cochran-Mantel-Haenszel|Pooled by site and IGA strata with multiple imputation to handle missing data|Pooled by site and IGA strata with multiple imputation to handle missing data|IGA Success at Week 2||3.84|1.54|0.0002
92244141|NCT04973228|184391391|SUPERIORITY||Odds Ratio (OR)|3.22|||<|0.0001|TWO_SIDED|95.0|2.06|5.03|||Cochran-Mantel-Haenszel|Pooled by site and IGA strata with multiple imputation to handle missing data|Pooled by site and IGA strata with multiple imputation to handle missing data|IGA Success at Week 4||5.03|2.06|<0.0001
92244142|NCT04973228|184391392|SUPERIORITY||Odds Ratio (OR)|2.41|||<|0.0001|TWO_SIDED|95.0|1.56|3.73|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Scaling Score of 0 at Week 8||3.73|1.56|<0.0001
92244143|NCT04973228|184391393|SUPERIORITY||Odds Ratio (OR)|3.22|||<|0.0001|TWO_SIDED|95.0|2.05|5.06|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Erythema Score of 0 at Week 8||5.06|2.05|<0.0001
92244144|NCT04237207|184391394|NON_INFERIORITY|The primary efficacy objective is to demonstrate non-inferiority of AutoSense on the M90 processor compared to AutoSound on the Q90 processor for the AzBio sentence test in quiet mode based on a paired t-test. The primary efficacy analyses will test the null hypothesis (inferiority) that the mean of the paired differences in AzBio sentence scores in quiet mode (AutoSense on M90 - AutoSound on Q90) are less than or equal to -10 percentage points.||||||0.001|||||||t-test, 2 sided|||||||0.0010
92244145|NCT04237207|184391395|NON_INFERIORITY|The 1st secondary endpoint was to demonstrate that speech recognition in noise with AutoSense on a 301-M062 processor was no worse than speech recognition in noise with currently approved software on a Q90 processor.||||||0.001|||||||t-test, 2 sided|||||||0.0010
92244146|NCT04237207|184391396|NON_INFERIORITY|"The 2nd secondary endpoint was to demonstrate increased speech recognition in noise with the 301-M062 sound processor when comparing Omnidirectional program to AutoSense."|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92244147|NCT00961662|184391406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|||||ANCOVA|||The HbA1c percent change at each study visit was calculated and then categorized as a binary response (i.e., responders and non-responders) for each subject based on the breakpoint to be used in the endpoint. Inferential statistics were prepared to compare the differences across the three treatments a using logistic regression model with the dose group and the HbA1c stratum included in the mode||||<0.05
92244148|NCT01042613|184391415|SUPERIORITY_OR_OTHER||Difference of the Binomial Proportions|0.02||||0.851||95.0|||||Fisher Exact|||||||.851
92244149|NCT01042613|184391416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.105||95.0|||||Wilcoxon (Mann-Whitney)|||||||.105
92244150|NCT01042613|184391417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.8||95.0|||||Wilcoxon (Mann-Whitney)|||||||.8
92244151|NCT00797797|184391454|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||The responder rates between 'No Treatment Added' and 'Milnacipran Added' groups were compared using a logistic regression model.||||<0.001
92244152|NCT00797797|184391455|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-14.35|||||TWO_SIDED|95.0|-18.99|-9.71|||ANCOVA|||This parameter was analyzed using an ANCOVA model with treatment group and study center as factors and baseline value as a covariate.||-9.71|-18.99|
92244153|NCT02207478|184391456|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.019
92174229|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|3163.1|||||TWO_SIDED|95.0|2247.5|4451.7|||||Day 29 divided by Day 1|For serogroup W, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||4451.7|2247.5|
92244154|NCT02207478|184391457|SUPERIORITY_OR_OTHER|||||||0.843|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Total procedure time||||0.843
92244155|NCT02207478|184391457|SUPERIORITY_OR_OTHER|||||||0.233|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Total X-ray time||||0.233
92174230|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|1524.1|||||TWO_SIDED|95.0|913.5|2543.0|||||Day 29 divided by Day 1|For serogroup W, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||2543.0|913.5|
92174231|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|799.4|||||TWO_SIDED|95.0|532.9|1199.4|||||Day 29 divided by Day 1|For serogroup Y, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1199.4|532.9|
92174232|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|1469.2|||||TWO_SIDED|95.0|995.3|2168.8|||||Day 29 divided by Day 1|For serogroup Y, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||2168.8|995.3|
92174233|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|549.4|||||TWO_SIDED|95.0|371.8|811.8|||||Day 29 divided by Day 1|For serogroup Y, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||811.8|371.8|
92174234|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|642.6|||||TWO_SIDED|95.0|309.2|1335.9|||||Day 29 divided by Day 1|For serogroup Y, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1335.9|309.2|
92174235|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|2630.0|||||TWO_SIDED|95.0|2037.6|3394.6|||||Day 29 divided by Day 1|For serogroup X, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||3394.6|2037.6|
92174236|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|2.0|||||TWO_SIDED|95.0|1.2|3.4|||||Day 29 divided by Day 1|For serogroup X, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||3.4|1.2|
92174237|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|1431.2|||||TWO_SIDED|95.0|905.2|2262.9|||||Day 29 divided by Day 1|For serogroup X, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||2262.9|905.2|
92174238|NCT05093829|184240299|OTHER||Ratio of geometric mean titers|1.7|||||TWO_SIDED|95.0|0.9|3.3|||||Day 29 divided by Day 1|For serogroup X, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||3.3|0.9|
92174239|NCT04648033|184240310|OTHER||Probability of DLT at dose level 4|0.116|||||TWO_SIDED|95.0|0.032|0.26||||||The primary analysis is performed using the Time-To-Event Continual Reassessment Method (TiTE-CRM). Giving posterior estimates for the probability of toxicity (DLT) at each dose level.||0.26|0.032|
92174240|NCT01333969|184240329|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.043|TWO_SIDED|95.0|-1.4|-0.02|||GEE|Regression analysis using the generalized estimating equations (GEE) method to compare the changes over time in VAS scores at rest and with exercise||||-0.02|-1.40|.043
92174241|NCT01333969|184240330|OTHER||Mean Difference (Final Values)|0.043||||0.043|TWO_SIDED||||||t-test, 2 sided|||||||.043
92174242|NCT01333969|184240331|SUPERIORITY||Mean Difference (Final Values)|0.584||||0.584|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.584
92174243|NCT01333969|184240332|SUPERIORITY||Mean Difference (Final Values)|0.763||||0.763|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.763
92174244|NCT01333969|184240333|SUPERIORITY||Mean Difference (Final Values)|0.602||||0.602|TWO_SIDED||||||GEE|Regression analyses based on the generalized estimating equations (GEE) method||||||.602
92244156|NCT02207478|184391457|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Duration time for finding lesions||||<0.001
92174245|NCT01333969|184240334|SUPERIORITY||Mean Difference (Final Values)|0.8656||||0.8656|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.8656
92174246|NCT01333969|184240335|SUPERIORITY||Mean Difference (Final Values)|0.8422||||0.8422|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.8422
92174247|NCT01333969|184240336|SUPERIORITY||Mean Difference (Final Values)|0.526||||0.526|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.526
92174248|NCT01333969|184240337|SUPERIORITY||Mean Difference (Final Values)|0.526||||0.526|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.526
92244157|NCT02207478|184391457|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||X-ray time for finding lesions||||<0.001
92174249|NCT01926496|184240376|SUPERIORITY||Risk Ratio (RR)|0.89||||0.03|TWO_SIDED|95.0|0.8|0.99|||Cochran-Mantel-Haenszel|Stratified by country, anatomical location and history of squamous cell carcinoma.|Cochran-Mantel-Haenszel relative risk (ingenol mebutate / imiquimod), stratified by country, anatomical location and history of squamous cell carcinoma.|||0.99|0.80|0.03
92174250|NCT01926496|184240377|SUPERIORITY||Risk Ratio (RR)|0.95||||0.18|TWO_SIDED|95.0|0.87|1.03|||Cochran-Mantel-Haenszel|Stratified by country, anatomical location and history of squamous cell carcinoma.|Cochran-Mantel-Haenszel relative risk (ingenol mebutate / imiquimod), stratified by country, anatomical location and history of squamous cell carcinoma.|||1.03|0.87|0.18
92174251|NCT01926496|184240378|SUPERIORITY||Risk Ratio (RR)|0.66|||<|0.001|TWO_SIDED|95.0|0.52|0.84|||Cochran-Mantel-Haenszel|Stratified by country, anatomical location and history of squamous cell carcinoma.|Cochran-Mantel-Haenszel relative risk (ingenol mebutate / imiquimod), stratified by country, anatomical location and history of squamous cell carcinoma.|||0.84|0.52|<0.001
92174252|NCT02143726|184240396|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0918|TWO_SIDED|95.0|0.23|1.33|||Log Rank|Stratified 1-sided log-rank test (stratified by ECOG performance status, prior systemic treatment for hürthle thyroid cancer, and treating site).||||1.33|0.23|0.0918
92174253|NCT02143726|184240398|SUPERIORITY||Hazard Ratio (HR)|1.62||||0.3976|TWO_SIDED|95.0|0.53|4.96|||Log Rank|||||4.96|0.53|0.3976
92174254|NCT04749615|184240422|NON_INFERIORITY|Noninferiority Margin = (-Infinity, 1.28)||||||0.11|||||||t-test, 1 sided|||||||0.11
92174255|NCT04749615|184240423|NON_INFERIORITY|a noninferiority margin of 1.0 and 10% attrition|Mean Difference (Final Values)|0.05||||0.5|TWO_SIDED|95.0||||this is the calculated p-value.|t-test, 2 sided|||||||0.5
92174256|NCT04295798|184240534|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.02|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task cost to gait speed from baseline to immediately post intervention.||||0.02
92174257|NCT04295798|184240535|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.02|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task cost to standing postural sway speed from baseline to immediately post intervention.||||0.02
92174258|NCT04295798|184240536|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.04|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task cost to stride time variability from baseline to immediately post intervention.||||0.04
92174259|NCT04295798|184240537|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.56|||||||ANOVA|||We hypothesized no significant effect of intervention type on absolute change in single task gait speed from baseline to immediately post intervention.||||0.56
92174260|NCT04295798|184240538|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.07|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task gait speed from baseline to immediately post intervention.||||0.07
92174261|NCT04295798|184240539|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.74|||||||ANOVA|||We hypothesized no significant effect of intervention type on absolute change in single task stride time variability from baseline to immediately post intervention.||||0.74
92174262|NCT04295798|184240540|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.33|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task stride time variability from baseline to immediately post intervention.||||0.33
92174263|NCT04295798|184240541|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.16|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task cost to standing postural sway area from baseline to immediately post intervention.||||0.16
92244158|NCT02568345|184391458|SUPERIORITY_OR_OTHER||isotonic regression functions through PA|2.2|||||TWO_SIDED|||||The isotonic regression functions through PAVA algorithm were used (pooled adjacent violators algorithm), to determine the ED90, and bootstrapping to calculate the respective 95% confidence interval with the statistical program R||||||||
92244159|NCT00333619|184391464|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||ANOVA|||||||0.10
92244160|NCT00333619|184391465|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANOVA|||||||0.12
92244161|NCT03209440|184391472|SUPERIORITY||Mean Difference (Net)|1.67|STANDARD_ERROR_OF_MEAN|0.73||0.02|TWO_SIDED||||||Regression, Linear|||||||0.02
92244162|NCT03209440|184391472|SUPERIORITY||Mean Difference (Net)|2.07|STANDARD_ERROR_OF_MEAN|0.74||0.005|TWO_SIDED||||||Regression, Linear|||||||0.005
92244163|NCT03209440|184391473|SUPERIORITY||Mean Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|0.49||0.21|TWO_SIDED||||||Regression, Linear|||||||0.21
92174264|NCT04295798|184240542|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.52|||||||ANOVA|||We hypothesized no significant effect of intervention type on absolute change in single task postural sway speed from baseline to immediately post intervention.||||0.52
92174265|NCT04295798|184240543|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.01|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task postural sway speed from baseline to immediately post intervention.||||0.01
92244164|NCT03209440|184391473|SUPERIORITY||Median Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.5||0.12|TWO_SIDED||||||Regression, Linear|||||||0.12
92244165|NCT03209440|184391474|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.72||0.21|TWO_SIDED||||||Regression, Linear|||||||0.21
92244166|NCT03209440|184391474|SUPERIORITY||Mean Difference (Net)|0.91|STANDARD_ERROR_OF_MEAN|0.73||0.21|TWO_SIDED||||||Regression, Linear|||||||0.21
92244167|NCT03209440|184391475|SUPERIORITY||Odds Ratio, log|1.0|STANDARD_ERROR_OF_MEAN|0.62||0.11|TWO_SIDED||||||Regression, Logistic|||||||0.11
92244168|NCT03209440|184391475|SUPERIORITY||Odds Ratio, log|0.96|STANDARD_ERROR_OF_MEAN|0.64||0.14|TWO_SIDED||||||Regression, Logistic|||||||0.14
92244169|NCT03209440|184391476|SUPERIORITY||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.17||0.05|TWO_SIDED||||||Regression, Linear|"The outcome variable was scored as 1= prolong life; treat everything to 4 = provide comfort care only."||||||0.05
92281537|NCT02999178|184466258|SUPERIORITY||Adjusted mean difference|106.96|STANDARD_ERROR_OF_MEAN|21.15|<|0.0001|TWO_SIDED|95.0|65.42|148.5||Treatment comparison of slopes was assessed through the treatment-by-time interaction coefficient. P-value was not adjusted for multiple comparisons.|Mixed Models Analysis|"Fixed effects: Treatment, HRCT fibrotic pattern, baseline FVC (mL), treatment-by-time, baseline-by-time interactions.~Random effects: time, intercept."|Difference of adjusted annual rates of decline was calculated as Nintedanib - Placebo.|The decrease in FVC was assumed to be linear within each participant over 52 weeks. The intercepts and slopes were assumed to be normally distributed with unstructured covariance matrix. The within participant error was assumed to be independent and normally distributed with mean 0 and a common variance. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors (SEs).||148.50|65.42|<.0001
92281538|NCT02999178|184466259|SUPERIORITY||Adjusted mean difference|128.2|STANDARD_ERROR_OF_MEAN|29.17|<|0.0001|TWO_SIDED|95.0|70.81|185.59||Treatment comparison of slopes was assessed through the treatment-by-time interaction coefficient. P-value was not adjusted for multiple comparisons.|Mixed Models Analysis|Fixed effects: Treatment, baseline FVC (mL), treatment-by-time, baseline-by-time interactions. Random effects: time, intercept.|Difference of adjusted annual rates of decline was calculated as Nintedanib - Placebo.|The decrease in FVC was assumed to be linear within each participant over 52 weeks. The intercepts and slopes were assumed to be normally distributed with unstructured covariance matrix. The within participant error was assumed to be independent and normally distributed with mean 0 and a common variance. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors (SEs).||185.59|70.81|<.0001
92244170|NCT03209440|184391476|SUPERIORITY||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.18||0.46|TWO_SIDED||||||Regression, Linear|"The outcome variable was scored as 1= prolong life; treat everything to 4 = provide comfort care only."||||||0.46
92281539|NCT02999178|184466260|OTHER|No formal hypotheses were tested.|Adjusted mean difference|1.34|STANDARD_ERROR_OF_MEAN|0.84||0.1115|TWO_SIDED|95.0|-0.31|2.98|||Mixed Model Repeated Measures (MMRM)|Fixed effects: baseline K-BILD Total score, visit, treatment-by-visit and baseline-by-visit interactions, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||2.98|-0.31|0.1115
92244171|NCT03006471|184391516|SUPERIORITY|||||||0.755||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.755
92244172|NCT03006471|184391516|SUPERIORITY|||||||0.046||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.046
92244173|NCT03006471|184391517|SUPERIORITY|||||||0.752||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.752
92244174|NCT03006471|184391517|SUPERIORITY|||||||0.582||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.582
92244175|NCT03006471|184391518|SUPERIORITY|||||||0.814||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.814
92244176|NCT03006471|184391518|SUPERIORITY|||||||0.22||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.220
92244177|NCT03006471|184391519|SUPERIORITY|||||||0.624||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.624
92244178|NCT03006471|184391519|SUPERIORITY|||||||1||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||1.000
92244179|NCT03006471|184391520|SUPERIORITY|||||||0.906||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.906
92244180|NCT03006471|184391520|SUPERIORITY|||||||0.017||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.017
92281540|NCT02999178|184466261|OTHER|No formal hypotheses were tested.|Adjusted mean difference|1.53|STANDARD_ERROR_OF_MEAN|1.12||0.1747|TWO_SIDED|95.0|-0.68|3.74|||Mixed Model Repeated Measures (MMRM)|Fixed effects: baseline K-BILD Total score, visit, treatment-by-visit and baseline-by-visit interactions, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||3.74|-0.68|0.1747
92281541|NCT02999178|184466262|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.8||||0.3948|TWO_SIDED|95.0|0.48|1.34|||Log Rank|Stratified by HRCT fibrotic pattern.|A Cox proportional hazards model, stratified by HRCT fibrotic pattern, was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||1.34|0.48|0.3948
92281542|NCT02999178|184466263|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.67||||0.1985|TWO_SIDED|95.0|0.36|1.24|||Log Rank||A Cox proportional hazards model was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||1.24|0.36|0.1985
92281543|NCT02999178|184466264|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.94||||0.8544|TWO_SIDED|95.0|0.47|1.86|||Log Rank|Stratified by HRCT fibrotic pattern.|A Cox proportional hazards model, stratified by HRCT fibrotic pattern, was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||1.86|0.47|0.8544
92244181|NCT03006471|184391521|SUPERIORITY|||||||0.454||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.454
92281544|NCT02999178|184466265|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.68||||0.3291|TWO_SIDED|95.0|0.32|1.47|||Log Rank||A Cox proportional hazards model was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||1.47|0.32|0.3291
92244182|NCT03006471|184391521|SUPERIORITY|||||||0.115||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.115
92244183|NCT03006471|184391522|SUPERIORITY|||||||0.422||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.422
92244184|NCT03006471|184391522|SUPERIORITY|||||||0.917||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.917
92244185|NCT03006471|184391523|SUPERIORITY|||||||0.65||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.650
92244186|NCT03006471|184391523|SUPERIORITY|||||||0.108||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.108
92244187|NCT03006471|184391524|SUPERIORITY|||||||0.875||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.875
92244188|NCT03006471|184391524|SUPERIORITY|||||||0.196||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of waist circumference in dapagliflozin group||||0.196
92281545|NCT02999178|184466268|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.65||||0.0017|TWO_SIDED|95.0|0.49|0.85|||Log Rank|Stratified by HRCT fibrotic pattern.|A Cox proportional hazards model, stratified by HRCT fibrotic pattern, was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||0.85|0.49|0.0017
92244189|NCT03006471|184391525|SUPERIORITY|||||||0.552||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.552
92244190|NCT03006471|184391525|SUPERIORITY|||||||0.087||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.087
92244191|NCT03006471|184391526|SUPERIORITY|||||||0.814||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.814
92244192|NCT03006471|184391526|SUPERIORITY|||||||0.463||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.463
92281546|NCT02999178|184466269|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.64||||0.0081|TWO_SIDED|95.0|0.45|0.89|||Log Rank||A Cox proportional hazards model was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||0.89|0.45|0.0081
92281547|NCT02999178|184466270|OTHER|No formal hypotheses were tested.|Adjusted Odds Ratio|0.7|||||TWO_SIDED|95.0|0.52|0.96|||Regression, Logistic|Logistic regression model with continuous covariate baseline FVC % pred and binary covariate HRCT fibrotic pattern.|Ratio calculated as Nintedanib divided by Placebo.|||0.96|0.52|
92281548|NCT02999178|184466271|OTHER|No formal hypotheses were tested.|Adjusted Odds Ratio|0.63|||||TWO_SIDED|95.0|0.43|0.94|||Regression, Logistic|Logistic regression model with continuous covariate baseline FVC % pred.|Ratio calculated as Nintedanib divided by Placebo.|||0.94|0.43|
92174266|NCT04295798|184240544|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.39|||||||ANOVA|||We hypothesized no significant effect of intervention type on absolute change in single task postural sway area from baseline to immediately post intervention||||0.39
92174267|NCT04295798|184240545|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.18|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task postural sway area from baseline to immediately post intervention.||||0.18
92174268|NCT01715285|184240584|SUPERIORITY||Hazard Ratio (HR)|0.466|||<|0.0001|TWO_SIDED|95.0|0.394|0.55|||Log Rank|||||0.550|0.394|<0.0001
92174269|NCT01715285|184240585|SUPERIORITY||Hazard Ratio (HR)|0.661|||<|0.0001|TWO_SIDED|95.0|0.564|0.775|||Log Rank|||||0.775|0.564|< 0.0001
92174270|NCT05020249|184240591|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
92174271|NCT05020249|184240592|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
92174272|NCT05020249|184240593|SUPERIORITY|||||||0.08||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||0.080
92281549|NCT02999178|184466272|OTHER|No formal hypotheses were tested.|Adjusted Odds Ratio|0.5|||||TWO_SIDED|95.0|0.36|0.68|||Regression, Logistic|Logistic regression model with continuous covariate baseline FVC % pred and binary covariate HRCT fibrotic pattern.|Ratio calculated as Nintedanib divided by Placebo.|||0.68|0.36|
92281550|NCT02999178|184466273|OTHER|No formal hypotheses were tested.|Adjusted Odds Ratio|0.46|||||TWO_SIDED|95.0|0.31|0.69|||Regression, Logistic|Logistic regression model with continuous covariate baseline FVC % pred.|Ratio calculated as Nintedanib divided by Placebo.|||0.69|0.31|
92244193|NCT03006471|184391527|SUPERIORITY|||||||0.53||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.530
92244194|NCT03006471|184391527|SUPERIORITY|||||||0.507||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.507
92244195|NCT03006471|184391528|SUPERIORITY|||||||0.152||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.152
92244196|NCT03006471|184391528|SUPERIORITY|||||||0.972||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.972
92244197|NCT03006471|184391529|SUPERIORITY|||||||0.152||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.152
92244198|NCT03006471|184391529|SUPERIORITY|||||||0.158||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.158
92244199|NCT03006471|184391530|SUPERIORITY|||||||0.944||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.944
92244200|NCT03006471|184391530|SUPERIORITY|||||||0.65||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.650
92174273|NCT05020249|184240594|SUPERIORITY|||||||0.08||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||0.080
92244201|NCT03006471|184391531|SUPERIORITY|||||||0.087||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.087
92174274|NCT05020249|184240595|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
92174275|NCT05020249|184240596|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
92174276|NCT05020249|184240597|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
92244202|NCT03006471|184391531|SUPERIORITY|||||||0.345||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.345
92244203|NCT03006471|184391532|SUPERIORITY|||||||0.115||||||The threshold for statistical significance was p=0.05|Chi-squared|||Results showed in this section are the result of the differences between change of intervention group||||0.115
92244204|NCT03006471|184391533|SUPERIORITY|||||||0.047||||||The threshold for statistical significance was p=0.05|Chi-squared|||Results showed in this section are the result of the differences between change of intervention groups||||0.047
92244205|NCT03006471|184391534|SUPERIORITY|||||||0.539||||||The threshold for statistical significance was p=0.05|Chi-squared|||Results showed in this section are the result of the differences between change of intervention groups||||0.539
92244206|NCT03006471|184391535|SUPERIORITY|||||||0.844||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.844
92244207|NCT03006471|184391535|SUPERIORITY|||||||0.01||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.010
92244208|NCT03006471|184391536|SUPERIORITY|||||||0.814||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.814
92244209|NCT03006471|184391536|SUPERIORITY|||||||0.011||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.011
92174277|NCT05020249|184240598|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
92174278|NCT05020249|184240599|SUPERIORITY||Odds Ratio (OR)|81.25|||<|0.001|TWO_SIDED|95.0|8.216|803.544||P-values for the comparison of treatment groups are based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio of scalp IGA response for bimekizumab group compared with placebo group using CMH.||803.544|8.216|<0.001
92174279|NCT05020249|184240600|SUPERIORITY||Odds Ratio (OR)|12.353||||0.007|TWO_SIDED|95.0|1.447|105.443||P-values for the comparison of treatment groups are based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio of DLQI total score response for bimekizumab group compared with placebo group using CMH.||105.443|1.447|0.007
92174280|NCT05020249|184240601|SUPERIORITY||LS Mean Difference|-80.444|||<|0.001|TWO_SIDED|95.0|-102.509|-58.379|||ANCOVA|||||-58.379|-102.509|<0.001
92174281|NCT03798093|184240610|SUPERIORITY||least squares|-0.112||||0.08|TWO_SIDED|95.0|-29.3|1.7|||Regression, Linear|||||1.7|-29.3|0.08
92174282|NCT05603143|184240650|OTHER|||||||0.3161|||||||Log Rank|||||||0.3161
92244210|NCT03006471|184391537|SUPERIORITY|||||||0.221||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.221
92244211|NCT03006471|184391537|SUPERIORITY|||||||0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.001
92244212|NCT03006471|184391538|SUPERIORITY|||||||0.461||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.461
92174283|NCT05603143|184240654|OTHER|||||||0.3219|||||||Log Rank|||||||0.3219
92174284|NCT05603143|184240655|OTHER||Hazard Ratio (HR)|1.496||||0.6568|TWO_SIDED|95.0|0.25|8.952|||Log Rank||Hazard ratio and two-sided 95% CI for hazard ratio were estimated using the Cox regression.|||8.952|0.250|0.6568
92174285|NCT05603143|184240656|OTHER||Hazard Ratio (HR)|2.99||||0.319|TWO_SIDED|95.0|0.311|28.74|||Log Rank||Hazard ratio and two-sided 95% CI for hazard ratio were estimated using the Cox regression.|||28.740|0.311|0.3190
92174286|NCT05603143|184240657|OTHER|||||||0.3161|||||||Log Rank|||||||0.3161
92174287|NCT05603143|184240658|OTHER||Hazard Ratio (HR)|1.425||||0.0859|TWO_SIDED|95.0|0.961|2.112||P-value was based on stratified Log-rank test with randomization stratification factors as the strata.|Log Rank||Hazard ratio and two-sided 95% CI for hazard ratio were estimated using the Cox regression with randomization stratification factors as covariates.|||2.112|0.961|0.0859
92174288|NCT05603143|184240659|OTHER||Treatment Difference (vs Placebo)|-0.58|||<|0.0001|TWO_SIDED|95.0|-0.83|-0.33|||MMRM||Least-squares mean (SE), 95% CI and P value were from MMRM with baseline viral load and randomization strata as covariates.|||-0.33|-0.83|< 0.0001
92174289|NCT02301910|184240697|NON_INFERIORITY|The calculation was carried out taking into account the power of 80%||||||0.87|||||||ANOVA|||||||0.87
92174290|NCT04282148|184240706|SUPERIORITY||||||<|0.0001|||||||Z test using Kaplan Meier survival estim|||||||<0.0001
92174291|NCT03808818|184240714|EQUIVALENCE|the smallest detectable difference will be 22%|Odds Ratio (OR)|2.3||||0.0046|TWO_SIDED|95.0|1.28|4.13||No correction for multiple comparisons|Chi-squared|||"For self-reported 7-day point prevalence abstinence at 6-months, with a sample size of 140 in each arm then smallest detectable difference will be 22% with 80% power. Subsequent analyses will use a Bonferroni corrected alpha of 0.002 using with an estimated control rate of 31%.~The primary analysis will be performed from an intent-to-treat perspective. Chi-square tests will be used to compare the outcomes between treatment groups."||4.13|1.28|0.0046
92183016|NCT02434328|184264733|OTHER||Difference in proportions|-2.8|||||TWO_SIDED|95.0|-8.9|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||3.2|-8.9|
92244213|NCT03006471|184391538|SUPERIORITY|||||||0.011||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.011
92183017|NCT02434328|184264733|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-9.5|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||2.9|-9.5|
92183018|NCT02434328|184264733|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-7.9|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.5|-7.9|
92183019|NCT02434328|184264733|OTHER||Difference in proportions|-2.0|||||TWO_SIDED|95.0|-8.1|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.1|-8.1|
92244214|NCT03006471|184391539|SUPERIORITY|||||||0.285||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.285
92244215|NCT03006471|184391539|SUPERIORITY|||||||0.002||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.002
92174292|NCT03808818|184240715|EQUIVALENCE|the smallest detectable difference will be 22% with 80% power and a Bonferroni corrected alpha of 0.002 using and an estimated control rate of 28%.|Odds Ratio (OR)|1.86||||0.035|TWO_SIDED|95.0|1.04|3.33|||Chi-squared|||7-day point prevalence abstinence at 3-months, with a sample size of 140 in each arm then smallest detectable difference will be 18% with 80% power and a Bonferroni corrected alpha of 0.002 using and an estimated control rate of 20%||3.33|1.04|0.035
92174293|NCT03808818|184240716|EQUIVALENCE|the smallest detectable difference will be 21% with 80% power and a Bonferroni corrected alpha of 0.002 and an estimated control rate of 20%.||||||0.016|||||||Chi-squared|||power calculations assumed a sample size of 140 in each arm and a Bonferroni corrected alpha of 0.002 and an estimated control rate of 20%||||0.016
92174294|NCT03808818|184240718|EQUIVALENCE|no margin||||||0.069|||||||Chi-squared|||||||0.069
92244216|NCT03006471|184391540|SUPERIORITY|||||||0.701||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.701
92244217|NCT03006471|184391540|SUPERIORITY|||||||0.081||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.081
92244218|NCT03006471|184391541|SUPERIORITY|||||||0.581||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.581
92244219|NCT03006471|184391541|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of HDL-cholesterol on dapagliflozin group||||0.004
92244220|NCT03006471|184391542|SUPERIORITY|||||||0.727||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.727
92281551|NCT02999178|184466274|OTHER|No formal hypotheses were tested.|Adjusted mean difference|-3.53|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|95.0|-6.14|-0.92|||Mixed Model Repeated Measures|Fixed effects: baseline, HRCT fibrotic pattern, visit, treatment-by-visit interaction, baseline-by-visit interaction, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||-0.92|-6.14|
92244221|NCT03006471|184391542|SUPERIORITY|||||||0.451||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.451
92174295|NCT03808818|184240719|EQUIVALENCE|no margin||||||0.86|||||||Chi-squared|||||||0.86
92174296|NCT03808818|184240731|EQUIVALENCE|No equivalence margin|||||<|0.0001||||||Alpha level 0.01|Fisher Exact|||Fisher's exact tests were performed to assess the differences between the VST and EUC arms on the 6-month questionnaire.||||<.0001
92174297|NCT03808818|184240732|EQUIVALENCE|No equivalence margin|||||<|0.0001||||||Alpha level 0.01|Fisher Exact|||Fisher's exact tests were performed to assess the differences between the VST and EUC arms on the 6-month questionnaire.||||<.0001
92244222|NCT03006471|184391543|SUPERIORITY|||||||0.463||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.463
92244223|NCT03006471|184391543|SUPERIORITY|||||||0.043||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.043
92244224|NCT03006471|184391544|SUPERIORITY|||||||0.807||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.807
92244225|NCT03006471|184391544|SUPERIORITY|||||||0.754||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.754
92244226|NCT03006471|184391545|SUPERIORITY|||||||0.507||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.507
92244227|NCT03006471|184391545|SUPERIORITY|||||||0.015||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.015
92244228|NCT03006471|184391546|SUPERIORITY|||||||0.039||||||The threshold for statistical significance was p=0.05|Fisher Exact|||Results showed in this section are the result of the differences between intervention groups||||0.039
92244229|NCT03006471|184391547|SUPERIORITY|||||||0.011|||||||Fisher Exact|||Results showed in this section are the result of the differences between intervention groups||||0.011
92244230|NCT03006471|184391548|SUPERIORITY|||||||0.096||||||The threshold for statistical significance was p=0.05|Fisher Exact|||Results showed in this section are the result of the differences between intervention groups||||0.096
92244231|NCT03162055|184391587|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin -50 mL.|Least Square Mean Difference|-87.2|STANDARD_ERROR_OF_MEAN|13.3||0.9974|TWO_SIDED|97.5|-117.0|-57.4|||Repeated measures analysis|Change from baseline = Treatment + baseline FEV1 + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||-57.4|-117.0|0.9974
92244232|NCT03162055|184391588|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin -50 mL.|Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|13.1||0.0002|TWO_SIDED|97.5|-32.8|25.9|||Repeated measures analysis|Change from baseline = Treatment + baseline FEV1 + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean peak change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||25.9|-32.8|0.0002
92244233|NCT03162055|184391589|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.79|2.95|||Regression, Logistic|ln (1/(1-p))=Treatment+baseline FEV1+BR a/s MDI+stratification factor (prior treatment)+region.p=percentage of participants with increase of \>=100 mL.|Estimate of the log odds of being a responder in the GFF treatment group compared to the UV treatment group using a logistic regression.|||2.95|1.79|<0.0001
92281552|NCT02999178|184466275|OTHER|No formal hypotheses were tested.|Adjusted mean difference|-4.18|STANDARD_ERROR_OF_MEAN|1.68|||TWO_SIDED|95.0|-7.48|-0.88|||Mixed Model Repeated Measures|Fixed effects: baseline, visit, treatment-by-visit interaction, baseline-by-visit interaction, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||-0.88|-7.48|
92174298|NCT03808818|184240733|EQUIVALENCE|No equivalence margin|||||<|0.0001||||||Alpha level 0.01|Fisher Exact|||Fisher's exact tests were performed to assess the differences between the VST and EUC arms on the 6-month questionnaire.||||<.0001
92174299|NCT03808818|184240735|EQUIVALENCE|No equivalence margin|||||<|0.0001||||||Alpha level 0.01|Fisher Exact|||Fisher's exact tests were performed to assess the differences between the VST and EUC arms on the 6-month questionnaire.||||<.0001
92174300|NCT03865498|184240738|SUPERIORITY||Odds Ratio (OR)|7.029|||<|0.0001|TWO_SIDED|95.0|4.919|10.323||McNemar's Chi-squared test (paired) with continuity correction to the test slightly more conservative|McNemar|||Hypothesis: There will be significant pre/post-intervention differences in isolated macro-level network structures for African American dementia caregiver networks.||10.323|4.919|< 0.0001
92174301|NCT03865498|184240738|SUPERIORITY||Odds Ratio (OR)|17.385|||<|0.0001|TWO_SIDED|95.0|9.963|33.157||McNemar's Chi-squared test (paired) with continuity correction to the test slightly more conservative|McNemar|||Hypothesis: There will be significant pre/post-intervention differences in isolated macro-level network structures for Hispanic dementia caregiver networks.||33.157|9.963|<0.0001
92174302|NCT03865498|184240738|SUPERIORITY||Odds Ratio (OR)|1.021||||0.924|TWO_SIDED|95.0|0.787|1.325||Pearson's Chi-squared test with Yates' continuity correction|Chi-squared, Corrected|||There will be no significant differences in isolated macro-level network structure from Tweets between Hispanic and African American dementia caregiver networks.||1.325|0.787|0.924
92244234|NCT03162055|184391590|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin -50 mL.|Least Square Mean Difference|-15.2|STANDARD_ERROR_OF_MEAN|19.4||0.0371|TWO_SIDED|95.0|-53.4|22.9|||Repeated measures analysis|Change from baseline = Treatment + baseline IC + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean peak change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||22.9|-53.4|0.0371
92174303|NCT03865498|184240739|SUPERIORITY|Pre-post mean difference|Mean Difference (Final Values)|0.628|||<|0.0001|TWO_SIDED|95.0|0.513|0.742|||a paired t-test|||Hypothesis: There will be significant pre/post-intervention differences in emotional valence score detected from Tweets for African American dementia caregiver networks.||0.742|0.513|<0.0001
92174304|NCT03865498|184240739|SUPERIORITY|Pre-post mean difference|Mean Difference (Final Values)|1.41|||<|0.0001|TWO_SIDED|95.0|1.189|1.631|||a paired t-test|||Hypothesis: There will be significant pre/post-intervention differences in emotional valence score detected from Tweets for Hispanic dementia caregiver networks.||1.631|1.189|<0.0001
92174305|NCT03865498|184240739|SUPERIORITY||Mean Difference (Final Values)|0.039||||0.6|TWO_SIDED|95.0|-0.186|0.107|||t-test, 2 sided|||There will be no significant differences in emotional valence score detected from Tweets between Hispanic and African American dementia caregiver networks.||0.107|-0.186|0.600
92244235|NCT03162055|184391591|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin -1.0 unit.|Least Square Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.59|-0.14|||Repeated measures analysis|TDI focal score = Treatment + Baseline Dyspnea Index + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean TDI focal score over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||-0.14|-0.59|<0.0001
92244236|NCT03162055|184391592|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin 0.1 unit.|Least Square Mean Difference|0.034|STANDARD_ERROR_OF_MEAN|0.023||0.0017|TWO_SIDED|95.0|-0.011|0.078|||Repeated measures analysis|Change from baseline = Treatment + baseline EMSCI score + BR a/s MDI + stratification factor (prior treatment) + region + TI + treatment by TI.|Estimate of the mean change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||0.078|-0.011|0.0017
92174306|NCT03994653|184240778|SUPERIORITY||Odds Ratio (OR)|2.91|||<|0.001|TWO_SIDED|95.0|2.07|4.12|||Fisher Exact|||"Fishers exact test, conducted at each month prior to diagnosis comparing total purchases of relevant products (pain and indigestion medication) compared with all purchases in both cases and controls.~Power calculation: we used a power calculation assuming the Fisher Exact Test to calculate the minimum group size to detect a difference in purchase proportions that we hypothesised with 80% statistical power."||4.12|2.07|<0.001
92174307|NCT03931174|184240780|SUPERIORITY|Unit of analysis is the provider level. All 186 providers (95 ATTC, 91 E-ATTC) who enrolled in the study are included in the analysis.|Odds Ratio (OR)|2.41|STANDARD_ERROR_OF_MEAN|0.53||0.097|TWO_SIDED|95.0|0.85|6.81||CM Exposure is reported as the estimated proportion of providers delivering 10 or more CM sessions to at least one patient in a mixed model accounting for nesting.|Mixed Models Analysis|||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||6.81|0.85|0.097
92244237|NCT03162055|184391593|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin 0.1 unit.|Least Square Mean Difference|0.042|STANDARD_ERROR_OF_MEAN|0.024||0.0088|TWO_SIDED|95.0|-0.005|0.09|||Repeated measures analysis|Change from baseline = Treatment + baseline NiSCI score + BR a/s MDI + stratification factor (prior treatment) + region + TI + treatment by TI.|Estimate of the mean change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||0.090|-0.005|0.0088
92244238|NCT03162055|184391594|SUPERIORITY||Least Square Mean Difference|0.65|STANDARD_ERROR_OF_MEAN|0.2||0.9995|TWO_SIDED|95.0|0.26|1.04|||Repeated measures analysis|Change from baseline =Treatment + baseline rescue a/s MDI use + BR a/s MDI + stratification factor (prior treatment) + region + TI + treatment by TI.|Estimate of the mean change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||1.04|0.26|0.9995
92244239|NCT03162055|184391595|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin 2.0 unit.|Least Square Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|0.07|1.11|||Repeated measures analysis|Change from baseline = Treatment + baseline CAT score + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||1.11|0.07|<0.0001
92281553|NCT02999178|184466276|OTHER|No formal hypotheses were tested.|Adjusted mean difference|-6.09|STANDARD_ERROR_OF_MEAN|1.81|||TWO_SIDED|95.0|-9.65|-2.53|||Mixed Model Repeated Measures|Fixed effects: baseline, HRCT fibrotic pattern, visit, treatment-by-visit interaction, baseline-by-visit interaction, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||-2.53|-9.65|
92281554|NCT02999178|184466277|OTHER|No formal hypotheses were tested.|Adjusted mean difference|-7.28|STANDARD_ERROR_OF_MEAN|2.33|||TWO_SIDED|95.0|-11.86|-2.71|||Mixed Model Repeated Measures|Fixed effects: baseline, visit, treatment-by-visit interaction, baseline-by-visit interaction, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||-2.71|-11.86|
92244240|NCT03162055|184391596|SUPERIORITY||Least Square Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|12.8||0.5516|TWO_SIDED|97.5|-30.3|27.0|||Repeated measures analysis|Change from baseline = Treatment + baseline FEV1 + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean peak change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||27.0|-30.3|0.5516
92244241|NCT02581865|184391602|SUPERIORITY||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|1.8||0.4326|TWO_SIDED|95.0|-4.9|2.1|||Mixed Models Analysis|||||2.1|-4.9|0.4326
92244242|NCT02581865|184391602|SUPERIORITY||Mean Difference (Net)|-2.5|STANDARD_ERROR_OF_MEAN|1.9||0.1835|TWO_SIDED|95.0|-6.2|1.2|||Mixed Models Analysis|||||1.2|-6.2|0.1835
92244243|NCT02581865|184391603|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3812|TWO_SIDED|95.0|-0.7|0.3|||ANOVA|||||0.3|-0.7|0.3812
92244244|NCT02581865|184391603|SUPERIORITY||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0146|TWO_SIDED|95.0|-1.2|-0.1|||ANOVA|||||-0.1|-1.2|0.0146
92244245|NCT02581865|184391604|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3065|TWO_SIDED|95.0|-0.6|0.2|||Mixed Models Analysis|||||0.2|-0.6|0.3065
92244246|NCT02581865|184391604|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.2052|TWO_SIDED|95.0|-0.7|0.2|||Mixed Models Analysis|||||0.2|-0.7|0.2052
92244247|NCT02581865|184391605|SUPERIORITY||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|0.8||0.2215|TWO_SIDED|95.0|-2.7|0.6|||ANCOVA|||||0.6|-2.7|0.2215
92244248|NCT02581865|184391605|SUPERIORITY||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|0.9||0.0566|TWO_SIDED|95.0|-3.3|0.0|||ANCOVA|||||0.0|-3.3|0.0566
92244249|NCT02581865|184391606|SUPERIORITY||Mean Difference (Net)|-2.2|STANDARD_ERROR_OF_MEAN|3.8||0.5689|TWO_SIDED|95.0|-9.8|5.4|||Mixed Models Analysis|||||5.4|-9.8|0.5689
92244250|NCT02581865|184391606|SUPERIORITY||Mean Difference (Net)|-4.8|STANDARD_ERROR_OF_MEAN|4.0||0.232|TWO_SIDED|95.0|-12.8|3.1|||Mixed Models Analysis|||||3.1|-12.8|0.2320
92244251|NCT02581865|184391607|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.1||0.4515|TWO_SIDED|95.0|-3.0|1.3|||Mixed Models Analysis|||||1.3|-3.0|0.4515
92244252|NCT02581865|184391607|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.1||0.6289|TWO_SIDED|95.0|-2.8|1.7|||Mixed Models Analysis|||||1.7|-2.8|0.6289
92244253|NCT02064205|184391616|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.0|STANDARD_DEVIATION|1000.0||0.2918|ONE_SIDED||||||Mixed Models Analysis|||A mixed model was applied to analyze the Energy Intakes (ad libitum lunch and daily) were done one-sided to evaluate the appetite suppressive effect after the pre-load snack (condition C versus D)||||0.2918
92244254|NCT02064205|184391617|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0109|||||||Mixed Models Analysis|||AUC of hunger scores before preload intake for condition C versus D.||||0.0109
92244255|NCT02064205|184391618|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0216||||||GLP-1|Mixed Models Analysis|||A mixed model was applied to statistically analyze satiety hormones having Conditions and Time as a fixed factor and having Subject, Cohort, and Treatment Day as random factors.||||0.0216
92244256|NCT01640925|184391640|NON_INFERIORITY_OR_EQUIVALENCE|The number of patients needed to achieve 80% power was estimated at 171 using Cox proportional hazards regression (hazard ratio reduction of 0.66; 0.15 probability of infection with control) using a two-sided 5% significance.|Cox Proportional Hazard|0.555||||0.049|TWO_SIDED|95.0|0.309|0.998|||Regression, Cox||Hypothesis: Compared to soap and water daily bathing, 2% chlorhexidine gluconate bathing on ICU admission and every 48 hours during surgical ICU care will decrease the risk of acquiring four hospital-acquired infections in surgical ICU patients.|||0.998|0.309|0.049
92244257|NCT00442013|184391652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.086||0.12|TWO_SIDED|95.0|0.0|0.3|||Regression, Linear|Linear mixed effects model is robust to data that are missing at random that has characteristics similar to multiple imputation techniques.||All participants included in the analysis. The model includes the data (ACQ scores) from all time points including baseline. The treatment effect (delta-delta) comparing the difference from baseline at 6 months is estimated from the model. Longitudinal models estimated the change from baseline to 6 months in a measurement using generalized estimating equations with an unstructured or exchangeable covariance matrix to adjust for repeated measures.||0.3|0.0|0.12
92244258|NCT00442013|184391653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2593||0.65|TWO_SIDED|95.0|-0.3|0.2|||Regression, Linear|||||0.2|-0.3|0.65
92244259|NCT00442013|184391654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.0906||0.99|TWO_SIDED|95.0|-0.1|0.1|||Regression, Linear|||||0.1|-0.1|0.99
92244260|NCT00442013|184391655|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.3|TWO_SIDED|95.0|0.9|1.7|||negative binomial|||||1.7|0.9|0.30
92244261|NCT00442013|184391656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.14|TWO_SIDED|95.0|-0.07|0.01|||Regression, Linear|Model includes the data from all time points. Treatment effect (delta-delta) comparing the difference from baseline at 24 weeks is from the model.||||0.01|-0.07|0.14
92244262|NCT00442013|184391657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.2|TWO_SIDED|95.0|-2.1|0.4|||Regression, Linear|||||0.4|-2.1|0.20
92244263|NCT02370498|184391704|OTHER||Hazard Ratio (HR)|1.27||||0.98358|TWO_SIDED|95.0|1.03|1.57||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\< 6 months vs. \>= 6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (Hazard Ratio \[HR\]) between the treatment arms.||1.57|1.03|0.98358
92287244|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.896|TWO_SIDED|95.0|-0.083|0.073|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.073|-0.083|0.896
92287245|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.81|TWO_SIDED|95.0|-0.089|0.07|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.070|-0.089|0.810
92244264|NCT02370498|184391705|OTHER||Hazard Ratio (HR)|0.82||||0.04205|TWO_SIDED|95.0|0.66|1.03||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\< 6 months vs. \>= 6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in OS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.03|0.66|0.04205
92244265|NCT02370498|184391706|OTHER||Hazard Ratio (HR)|1.49||||0.99999|TWO_SIDED|95.0|1.25|1.77||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\< 6 months vs. \>= 6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (Hazard Ratio \[HR\]) between the treatment arms.||1.77|1.25|0.99999
92244266|NCT02370498|184391707|OTHER||Hazard Ratio (HR)|0.94||||0.24463|TWO_SIDED|95.0|0.79|1.12||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\<6 months vs. ≥6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in OS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (Hazard Ratio \[HR\]) between the treatment arms.||1.12|0.79|0.24463
92244267|NCT02370498|184391708|OTHER||Hazard Ratio (HR)|0.98||||0.41331|TWO_SIDED|95.0|0.79|1.21||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.21|0.79|0.41331
92244268|NCT02370498|184391709|OTHER||Hazard Ratio (HR)|1.19||||0.97481|TWO_SIDED|95.0|1.0|1.42||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\<6 months vs. ≥6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.42|1.00|0.97481
92244269|NCT02370498|184391710|OTHER||Hazard Ratio (HR)|1.11||||0.80696|TWO_SIDED|95.0|0.89|1.38||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.38|0.89|0.80696
92244270|NCT02370498|184391711|OTHER||Hazard Ratio (HR)|1.34||||0.99932|TWO_SIDED|95.0|1.12|1.6||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\< 6 months vs. \>= 6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.60|1.12|0.99932
92244271|NCT02370498|184391712|OTHER||Hazard Ratio (HR)|1.45||||0.99661|TWO_SIDED|95.0|1.11|1.89||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in TTP was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.89|1.11|0.99661
92244272|NCT02370498|184391713|OTHER||Hazard Ratio (HR)|1.77||||1|TWO_SIDED|95.0|1.42|2.2||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\< 6 months vs. \>= 6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in TTP was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||2.20|1.42|1.00000
92264809|NCT04579666|184431134|SUPERIORITY||Difference in LS Mean|-6.6||||0.0949|TWO_SIDED|95.0|-14.3|1.2|||MMRM|||The MMRM included fixed categorical effects for treatment, week, and the week-by-treatment interaction, as well as the continuous, fixed covariate of the baseline value of the endpoint, and the week-by-baseline interaction, baseline log NfL, time from symptoms onset to the first dose of study drug, and randomization stratification factors (location of first muscle weakness and use of riluzole and/or edaravone).||1.2|-14.3|0.0949
92287246|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|-0.006||||0.882|TWO_SIDED|95.0|-0.084|0.073|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.073|-0.084|0.882
92174308|NCT03931174|184240781|SUPERIORITY|Unit of analysis is the provider level. All 186 providers (95 ATTC, 91 E-ATTC) who enrolled in the study are included in the analysis.|Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.31||0.02|TWO_SIDED|95.0|0.11|1.32|||t-test, 2 sided|T-test adjusted for inequality of variances||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||1.32|0.11|0.02
92174309|NCT03931174|184240782|SUPERIORITY|Unit of analysis is the organization-level. Total number of organizations included in the analysis is 28 (14 ATTC, 14 E-ATTC).|Chi-square test statistic value|0.662||||0.43|TWO_SIDED||||||Chi-squared|Pearson Chi-Square||These analyses are unadjusted.||||0.430
92174310|NCT03931174|184240783|SUPERIORITY|Analyses are at the patient-level. All patients who enrolled in the study are included in the analysis.|Mean Difference (Final Values)|-0.695|STANDARD_ERROR_OF_MEAN|0.313||0.034|TWO_SIDED|95.0|-1.3|-0.08|||Mixed Models Analysis|||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||-0.08|-1.30|.034
92174311|NCT03931174|184240784|SUPERIORITY|Analyses are at the patient-level. All patients who enrolled in the study are included in the analysis.|Mean Difference (Final Values)|-0.202|STANDARD_ERROR_OF_MEAN|0.314||0.27|TWO_SIDED|95.0|-0.82|0.41|||Mixed Models Analysis|||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||0.41|-0.82|0.27
92174312|NCT03931174|184240785|SUPERIORITY|Analyses are at the provider-level. Only those providers who completed the post-implementation survey (at the end of the 9-month implementation phase) were included in the analysis.|Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.191||0.011|TWO_SIDED|95.0|-0.88|0.12||Means were compared between conditions in an independent-samples T-test.|t-test, 2 sided|T-test adjusted for inequality of variances||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||0.12|-0.88|.011
92244273|NCT02370498|184391714|OTHER||Hazard Ratio (HR)|0.97||||0.3928|TWO_SIDED|95.0|0.77|1.23||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in TTP was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.23|0.77|0.39280
92244274|NCT02370498|184391715|OTHER||Hazard Ratio (HR)|1.21||||0.97033|TWO_SIDED|95.0|1.0|1.47||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\< 6 months vs. \>= 6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in TTP was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.47|1.00|0.97033
92244275|NCT02370498|184391716|OTHER||Difference in Percentage|2.0||||0.28967|TWO_SIDED|95.0|-5.0|9.1||Stratification factors for MN method included geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months) weighting by sample size.|Miettinen and Nurminen method|P-value rounded to 5 decimal places.||Stratified Miettinen and Nurminen's (MN) method was used for comparison of the ORR between the treatment arms. A 95% CI for the difference in response rates between the pembrolizumab arm and paclitaxel arm was provided.||9.1|-5.0|0.28967
92287247|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.115|TWO_SIDED|95.0|-0.015|0.136|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.136|-0.015|0.115
92244276|NCT02370498|184391717|OTHER||Difference in Percentage|-1.3||||0.6901|TWO_SIDED|95.0|-6.5|4.0||Stratification factors for MN method included geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\<6 months vs. ≥6 months), and PD-L1 status (positive vs. negative) weighting by sample size|Miettinen and Nurminen method|P-value rounded to 5 decimal places.||Stratified MN method was used for comparison of the ORR between the treatment arms. A 95% CI for the difference in response rates between the pembrolizumab arm and paclitaxel arm was provided.||4.0|-6.5|0.69010
92244277|NCT02370498|184391718|OTHER||Difference in Percentage|1.6||||0.3322|TWO_SIDED|95.0|-5.8|9.1||Stratification factors for MN method included geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months), weighting by sample size.|Miettinen and Nurminen method|P-value rounded to 5 decimal places.||Stratified MN method was used for comparison of the ORR between the treatment arms. A 95% CI for the difference in response rates between the pembrolizumab arm and paclitaxel arm was provided.||9.1|-5.8|0.33220
92244278|NCT02370498|184391719|OTHER||Difference in Percentage|-3.0||||0.85922|TWO_SIDED|95.0|-8.5|2.6||Stratification factors included geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\<6 months vs. ≥6 months), and PD-L1 status (positive vs. negative) weighting by sample size.|Miettinen and Nurminen method|P-value rounded to 5 decimal places.||Stratified Miettinen and Nurminen's method was used for comparison of the ORR between the treatment arms. A 95% CI for the difference in response rates between the pembrolizumab arm and paclitaxel arm is provided.||2.6|-8.5|0.85922
92244279|NCT02370498|184391725|OTHER||Difference in Percentage|-3.2|||||TWO_SIDED|95.0|-6.9|0.2||||||Between-treatment differences (Pembrolizumab vs. Paclitaxel) in the percentage of participants with events and accompanying 95% confidence intervals were based on the Miettinen and Nurminen method. Negative values correspond to a greater percentage of events for Paclitaxel.||0.2|-6.9|
92244280|NCT02387372|184391732|OTHER||Geometric least squares mean ratio (GMR)|1.38|||||TWO_SIDED|90.0|1.21|1.56|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.56|1.21|
92244281|NCT02387372|184391732|OTHER||GMR|1.15|||||TWO_SIDED|90.0|1.03|1.29|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.29|1.03|
92244282|NCT02387372|184391735|OTHER||Geometric least squares mean ratio (GMR)|1.71|||||TWO_SIDED|90.0|1.5|1.96|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.96|1.50|
92244283|NCT02387372|184391735|OTHER||GMR|1.33|||||TWO_SIDED|90.0|1.14|1.55|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.55|1.14|
92244284|NCT02387372|184391737|OTHER||Geometric least squares mean ratio (GMR)|1.61|||||TWO_SIDED|90.0|1.44|1.81|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.81|1.44|
92244285|NCT02387372|184391737|OTHER||GMR|1.24|||||TWO_SIDED|90.0|1.11|1.39|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.39|1.11|
92244286|NCT02387372|184391738|OTHER||Geometric least squares mean ratio (GMR)|1.71|||||TWO_SIDED|90.0|1.51|1.95|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.95|1.51|
92244287|NCT02387372|184391738|OTHER||GMR|1.2|||||TWO_SIDED|90.0|1.09|1.33|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.33|1.09|
92244288|NCT00848250|184391756|SUPERIORITY|||||||0.03|||||||ANOVA|||||||0.03
92244289|NCT00848250|184391757|SUPERIORITY|||||||0.13|||||||ANOVA|Repeated measures||||||0.13
92244290|NCT00848250|184391758|SUPERIORITY|||||||0.02|||||||ANOVA|Repeated measures||||||0.02
92244291|NCT00848250|184391759|SUPERIORITY|||||||0.67|||||||ANOVA|Repeated measures||||||0.67
92244292|NCT00848250|184391761|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||P-value is for comparison of chest tube output at 24 hours||||0.47
92244293|NCT00848250|184391762|SUPERIORITY|||||||0.41|||||||Fisher Exact|||||||0.41
92244294|NCT02883049|184391763|SUPERIORITY||Hazard Ratio (HR)|1.022||||0.893|TWO_SIDED|95.0|0.74|1.413|||Log Rank||Hazard ratio = hazard rate for Arm B/hazard rate for Arm A|To compare the DFS of the randomized patients on HR B-ALL Arm A vs Arm B. With a total of 1800 patients accrued over 5 years with minimum follow up of 2 years, randomized 1:1 to the 2 arms, we will be able to detect an improvement in 5-year DFS from 90% to 94 (HR=0.5873) between IT MTX and ITT based regimens (2-sided log rank test, alpha=5%), with 84.2% power.||1.413|0.74|0.893
92244295|NCT02883049|184391764|SUPERIORITY||Hazard Ratio (HR)|1.019||||0.556|ONE_SIDED|97.5||1.335|||Log Rank||Hazard ratio = hazard rate for Experimental Arm 1 /hazard rate for Control Arm|To compare the DFS of the randomized patients on Control Arm vs. Experimental Arm 1. This study design will have 86.8% power (1-sided log rank test, adjusted alpha=0.025 for multiple comparisons) to detect an improvement in 4-year DFS from 70% to 79% (HR=0.661) between the control arm and the experimental arm.||1.335||0.556
92244296|NCT01153763|184391804|OTHER||percentage of participants|59.0|||||TWO_SIDED|95.0|48.2|70.3|||||The estimated value represents the percentage of participants with a confirmed CR or a confirmed PR.|||70.3|48.2|
92244297|NCT01153763|184391805|OTHER||percentage of participants|13.0|||||TWO_SIDED|95.0|0.0|28.7|||||The estimated value represents the percentage of participants with a investigator assessed CR or PR.|||28.7|0.0|
92244298|NCT01153763|184391810|OTHER||percentage of participants|20.0|||||TWO_SIDED|95.0|11.6|29.8|||||The estimated value represents the percentage of participants with overall survival.|||29.8|11.6|
92174313|NCT03931174|184240786|SUPERIORITY|Analyses are at the provider-level. Only those providers who completed the post-implementation survey (at the end of the 9-month implementation phase) were included in the analysis.|Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.232||0.218|TWO_SIDED|95.0|-0.75|0.17||Means of leadership engagement scores were compared between conditions in an independent-samples T-test.|t-test, 2 sided|||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||0.17|-0.75|.218
92244299|NCT01153763|184391811|OTHER||percentage of participants|13.0|||||TWO_SIDED|95.0|2.2|34.6|||||The estimated value represents the percentage of participants with overall survival.|||34.6|2.2|
92244300|NCT05373706|184391818|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.95||||0.68|TWO_SIDED|95.0|0.76|1.2|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.20|0.76|0.68
92287248|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.111|TWO_SIDED|95.0|-0.014|0.134|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.134|-0.014|0.111
92174314|NCT05386030|184240787|NON_INFERIORITY|The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB\> d0 where, pA is the response rate for saypha® VOLUME Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested based on Farrington-Manning-statistics with a one-sided type I error rate level of 0.025.|||||<|0.0001||||||Confirmatory testing will be performed in a hierarchical ordering: First analysis will be performed on the per protocol dataset, and if the corresponding p-value is below 0.025, the analysis will be performed on the full analysis dataset.|Farrington-Manning test|||||||<0.0001
92287249|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|-0.004||||0.911|TWO_SIDED|95.0|-0.083|0.074|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.074|-0.083|0.911
92281555|NCT00090857|184466278|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Sample size for a detectable difference in the within participant change in bone density between arms was calculated using standard deviations of one year change in bone density. Control estimates were 2.8% for spine and 3.85% for femoral neck. With 100 patients and 2:1 randomization (67 letrozole: 33 placebo), using a 1-sided Wilcoxon rank sum test with size 0.05, there is 80% power to detect as significant a true difference in change in the spine of 1.6% and in the femoral neck of 2.27%.||||0.15
92281556|NCT00090857|184466279|SUPERIORITY_OR_OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Sample size for a detectable difference in the within participant change in bone density between arms was calculated using standard deviations of one year change in bone density. Control estimates were 2.8% for spine and 3.85% for femoral neck. With 100 patients and 2:1 randomization (67 letrozole: 33 placebo), using a 1-sided Wilcoxon rank sum test with size 0.05, there is 80% power to detect as significant a true difference in change in the spine of 1.6% and in the femoral neck of 2.27%.||||0.70
92174315|NCT05386030|184240788|NON_INFERIORITY|The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB\> d0 where, pA is the response rate for saypha® VOLUME Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested based on Farrington-Manning-statistics with a one-sided type I error rate level of 0.025.|||||<|0.0001||||||Confirmatory testing will be performed in a hierarchical ordering: First analysis will be performed on the per protocol dataset, and if the corresponding p-value is below 0.025, the analysis will be performed on the full analysis dataset.|Farrington-Manning test|||||||<0.0001
92174316|NCT05228457|184240800|SUPERIORITY|13 participants were randomized to receive active TMS, and 13 were randomized to receive sham TMS. 1 participant from each group withdrew, resulting in their exclusion from the analysis. Therefore, 24 participants were randomized to active (n = 12) or sham (n = 12) aiTBS groups. The analysis examined MADRS scores measured at baseline and post-treatment. A priori hypotheses were that active aiTBS would demonstrate measurable differences in MADRS scores compared to the sham group.|Mean Difference (Final Values)|-14.8|||<|0.001|TWO_SIDED|95.0|-19.94|-9.56|||t-test, 2 sided||The primary outcome was the between-group (Active vs Sham) difference in MADRS scores at the end of the treatment period. Results, including mean scores, standard deviations, confidence intervals, and p-value for the between-group comparisons.|||-9.56|-19.94|<0.001
92174317|NCT05228457|184240801|SUPERIORITY||Z-transformed Pearson's r values|-0.014||||0.04|TWO_SIDED||||||t-test, 2 sided|||Z-transformed Pearson's r values of average voxel-wise connectivity within the DMN||||0.04
92174318|NCT04382664|184240802|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.845|TWO_SIDED|80.0|0.694|1.309|||Regression, Cox|||||1.309|0.694|0.845
92174319|NCT03161028|184240827|SUPERIORITY|||||||0.51||||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||For the model evaluating the primary outcome (change in T25FW), T25FW was transformed to walking speed by dividing 25 feet by the completion time in seconds (ft/sec). Any participants who were unable to complete the T25FW at any timepoint after baseline were assigned a value of 199 seconds, a statistical technique known as Winsorizing.||||0.51
92174320|NCT03161028|184240828|SUPERIORITY|||||||0.902|||||||Mixed Models Analysis|||||||0.902
92174321|NCT03161028|184240829|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||0.90
92174322|NCT03161028|184240830|SUPERIORITY|||||||0.084|||||||Mixed Models Analysis|||||||0.084
92174323|NCT03161028|184240831|SUPERIORITY|||||||0.134|||||||Chi-squared|||||||0.134
92174324|NCT03492216|184240832|SUPERIORITY||Risk Difference (RD)|7.6||||0.0025|TWO_SIDED|95.0|2.7|12.5|||Regression, Logistic||adjusted risk difference for non-hazardous alcohol use, alcohol incentive groups compared to no alcohol incentive groups. logistic regression model adjusted for INH incentive arm, participant sex, and study site.|||12.5|2.7|0.0025
92174325|NCT03492216|184240833|SUPERIORITY||Risk Difference (RD)|-0.2||||0.9435|TWO_SIDED|95.0|-7.0|6.5|||Regression, Logistic||adjusted risk difference for \>90% INH adherence, INH incentive group compared to no INH incentives. logistic regression model adjusted for alcohol incentive arm, participant sex and study site.|||6.5|-7.0|0.9435
92244301|NCT05373706|184391818|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.1||||0.56|TWO_SIDED|95.0|0.81|1.49|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.49|0.81|0.56
92244302|NCT05373706|184391819|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.93||||0.68|TWO_SIDED|95.0|0.64|1.33|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.33|0.64|0.68
92244303|NCT05373706|184391819|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.24||||0.3|TWO_SIDED|95.0|0.82|1.88|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.88|0.82|0.30
92244304|NCT05373706|184391820|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.89||||0.36|TWO_SIDED|95.0|0.69|1.15|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.15|0.69|0.36
92244305|NCT05373706|184391820|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.05||||0.73|TWO_SIDED|95.0|0.8|1.38|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.38|0.80|0.73
92244306|NCT05373706|184391821|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.83||||0.11|TWO_SIDED|95.0|0.66|1.04|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.04|0.66|0.11
92287250|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|-0.001||||0.985|TWO_SIDED|95.0|-0.078|0.077|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.077|-0.078|0.985
92281557|NCT00090857|184466280|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Sample size for a detectable difference in the within participant change in bone density between arms was calculated using standard deviations of one year change in bone density. Control estimates were 2.8% for spine and 3.85% for femoral neck. With 100 patients and 2:1 randomization (67 letrozole: 33 placebo), using a 1-sided Wilcoxon rank sum test with size 0.05, there is 80% power to detect as significant a true difference in change in the spine of 1.6% and in the femoral neck of 2.27%.||||0.03
92281558|NCT00090857|184466281|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Sample size for a detectable difference in the within participant change in bone density was calculated using standard deviations of one year change in bone density. Control estimates were 2.8% for spine and 3.85% for femoral neck. With 100 patients and 2:1 randomization (67 letrozole: 33 placebo), using a 1-sided Wilcoxon rank sum test with size 0.05, there is 80% power to detect as significant a true difference in change in the spine of 1.6% and in the femoral neck of 2.27%.||||0.06
92281559|NCT00090857|184466282|SUPERIORITY_OR_OTHER|||||||0.38|||||||Fisher Exact|||||||0.38
92281560|NCT00090857|184466283|SUPERIORITY_OR_OTHER|||||||0.02|||||||Fisher Exact|||||||0.02
92281561|NCT00090857|184466284|SUPERIORITY_OR_OTHER|||||||0.2|||||||Fisher Exact|||||||0.20
92281562|NCT00090857|184466285|SUPERIORITY_OR_OTHER|||||||0.88|||||||Fisher Exact|||||||.88
92281563|NCT00090857|184466286|SUPERIORITY_OR_OTHER|||||||0.27|||||||Fisher Exact|||||||0.27
92281564|NCT00090857|184466287|SUPERIORITY_OR_OTHER|||||||0.6|||||||Fisher Exact|||||||.60
92281565|NCT00090857|184466288|SUPERIORITY_OR_OTHER|||||||0.58|||||||Fisher Exact|||||||.58
92281566|NCT00090857|184466289|SUPERIORITY_OR_OTHER|||||||0.49|||||||Fisher Exact|||||||.49
92281567|NCT05097326|184466293|OTHER|||||||0.44||||||a p-value \<0.05 would be considered statistically significant|Fisher Exact|||Analysis of total contractions||||0.44
92244307|NCT05373706|184391821|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|0.88||||0.38|TWO_SIDED|95.0|0.66|1.17|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.17|0.66|0.38
92244308|NCT01486784|184391823|OTHER||||||||||||||||||Based on the dose limiting toxicities occurring in each dosing cohort, a maximum tolerated dose (MTD) may be determined by assessing the highest dosing level presenting no dose limiting toxicities. An MTD of 17mg/m2 twice weekly was established.|||
92244309|NCT03491553|184391824|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244310|NCT03491553|184391824|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244311|NCT03491553|184391824|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244312|NCT03491553|184391824|OTHER||Percentage Difference|10.0|||||TWO_SIDED|95.0|-47.2|47.1|||||The 2-sided 95% CI for the percentage difference by HBeAg status was constructed based on the standardized statistic and inverting two 1-sided tests.|||47.1|-47.2|
92244313|NCT03491553|184391825|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244314|NCT03491553|184391825|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244315|NCT03491553|184391825|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244316|NCT03491553|184391825|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244317|NCT03491553|184391826|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244318|NCT03491553|184391826|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244319|NCT03491553|184391826|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244320|NCT03491553|184391826|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244321|NCT03491553|184391827|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244322|NCT03491553|184391827|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244323|NCT03491553|184391827|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244324|NCT03491553|184391827|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244325|NCT03491553|184391828|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244326|NCT03491553|184391828|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244327|NCT03491553|184391828|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
92244328|NCT03491553|184391828|OTHER||Percentage Difference|10.0|||||TWO_SIDED|95.0|-47.2|47.1|||||The 2-sided 95% CI for the percentage difference by HBeAg status was constructed based on the standardized statistic and inverting two 1-sided tests.|||47.1|-47.2|
92244329|NCT01606761|184391850|SUPERIORITY_OR_OTHER||Percentage Difference|15.9|||<|0.001|TWO_SIDED|95.0|8.5|23.2|||Cochran-Mantel-Haenszel|||||23.2|8.5|< 0.001
92244330|NCT01606761|184391850|SUPERIORITY_OR_OTHER||Percentage Difference|21.0|||<|0.001|TWO_SIDED|95.0|13.6|28.5|||Cochran-Mantel-Haenszel|||||28.5|13.6|< 0.001
92244331|NCT01606761|184391851|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.17|||<|0.001|TWO_SIDED|95.0|-0.251|-0.088|||ANCOVA|||||-0.088|-0.251|< 0.001
92244332|NCT01606761|184391851|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.194|||<|0.001|TWO_SIDED|95.0|-0.275|-0.112|||ANCOVA|||||-0.112|-0.275|< 0.001
92244333|NCT01606761|184391852|SUPERIORITY_OR_OTHER||Percentage Difference|12.0|||<|0.001|TWO_SIDED|95.0|6.4|17.7|||Cochran-Mantel-Haenszel|||||17.7|6.4|< 0.001
92244334|NCT01606761|184391852|SUPERIORITY_OR_OTHER||Percentage Difference|12.7|||<|0.001|TWO_SIDED|95.0|7.0|18.4|||Cochran-Mantel-Haenszel|||||18.4|7.0|< 0.001
92244335|NCT01606761|184391853|SUPERIORITY_OR_OTHER||Percentage Difference|11.0|||<|0.001|TWO_SIDED|95.0|5.5|16.5|||Cochran-Mantel-Haenszel|||||16.5|5.5|< 0.001
92244336|NCT01606761|184391853|SUPERIORITY_OR_OTHER||Percentage Difference|13.4|||<|0.001|TWO_SIDED|95.0|7.8|19.1|||Cochran-Mantel-Haenszel|||||19.1|7.8|< 0.001
92244337|NCT05086289|184391854|SUPERIORITY||Posterior Mean Difference|-0.38|||||TWO_SIDED|95.0|-0.89|0.13|||||Posterior mean difference with 95% credible interval is reported.|||0.13|-0.89|
92244338|NCT05086289|184391855|SUPERIORITY||Posterior Mean Difference|-0.28|||||TWO_SIDED|95.0|-0.85|0.3|||||Posterior mean difference with 95% credible interval is reported.|||0.30|-0.85|
92244339|NCT05086289|184391856|SUPERIORITY||Posterior Mean Difference|-0.62|||||TWO_SIDED|95.0|-1.91|0.68|||||Posterior mean difference with 95% credible interval is reported.|||0.68|-1.91|
92244340|NCT05086289|184391857|SUPERIORITY||Posterior Mean Difference|-1.17|||||TWO_SIDED|95.0|-2.54|0.18|||||Posterior mean difference with 95% credible interval is reported.|||0.18|-2.54|
92244341|NCT05086289|184391858|SUPERIORITY||Posterior Mean Difference|-0.12|||||TWO_SIDED|95.0|-0.44|0.19|||||Posterior mean difference with 95% credible interval is reported.|||0.19|-0.44|
92244342|NCT05086289|184391859|SUPERIORITY||Posterior Mean Difference|-0.26|||||TWO_SIDED|95.0|-0.67|0.14|||||Posterior mean difference with 95% credible interval is reported.|||0.14|-0.67|
92244343|NCT05086289|184391860|SUPERIORITY||Posterior Mean Difference|-0.48|||||TWO_SIDED|95.0|-1.05|0.09|||||Posterior mean difference with 95% credible interval is reported.|||0.09|-1.05|
92244344|NCT05086289|184391861|SUPERIORITY||Posterior Mean Difference|-0.51|||||TWO_SIDED|95.0|-1.17|0.16|||||Posterior mean difference with 95% credible interval is reported.|||0.16|-1.17|
92244345|NCT05086289|184391862|SUPERIORITY||Posterior Mean Difference|-4.95|||||TWO_SIDED|95.0|-11.07|1.27|||||Posterior mean difference with 95% credible interval is reported.|||1.27|-11.07|
92244346|NCT05086289|184391863|SUPERIORITY||Posterior Mean Difference|-4.78|||||TWO_SIDED|95.0|-11.73|2.15|||||Posterior mean difference with 95% credible interval is reported.|||2.15|-11.73|
92244347|NCT05086289|184391864|SUPERIORITY||Posterior Mean Difference|-0.13|||||TWO_SIDED|95.0|-0.46|0.21|||||Posterior mean difference with 95% credible interval is reported.|||0.21|-0.46|
92244348|NCT05086289|184391865|SUPERIORITY||Posterior Mean Difference|1.52|||||TWO_SIDED|95.0|-6.2|9.2|||||Posterior mean difference with 95% credible interval is reported.|||9.20|-6.20|
92244349|NCT05086289|184391866|SUPERIORITY||Posterior Mean Difference|0.0|||||TWO_SIDED|95.0|-0.06|0.07|||||Posterior mean difference with 95% credible interval is reported.|||0.07|-0.06|
92244350|NCT05086289|184391867|SUPERIORITY||Posterior Mean Difference|0.02|||||TWO_SIDED|95.0|-0.05|0.1|||||Posterior mean difference with 95% credible interval is reported.|||0.10|-0.05|
92244351|NCT05086289|184391868|SUPERIORITY||Posterior Mean Difference|41.72|||||TWO_SIDED|95.0|-95.92|179.76|||||Posterior mean difference with 95% credible interval is reported.|||179.76|-95.92|
92244352|NCT05086289|184391869|SUPERIORITY||Posterior Mean Difference|9.73|||||TWO_SIDED|95.0|-151.11|170.52|||||Posterior mean difference with 95% credible interval is reported.|||170.52|-151.11|
92281568|NCT05097326|184466293|OTHER|||||||0.02||||||a p-value of \<0.05 would be considered statistically significant|Fisher Exact|||Analysis of contractions per hour||||0.02
92244353|NCT03150108|184391870|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed Cmax values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% confidence interval (CI).|Geometric mean ratio|1.119|||||TWO_SIDED|90.0|0.875|1.43||||||||1.430|0.875|
92244354|NCT03150108|184391870|OTHER|Dose proportionality|Increase in Cmax per Dose Doubling|1.76|||||TWO_SIDED|90.0|1.52|2.03|||||Linear model of log transformed PK parameters at all doses in Japanese descent, including log transformed dose, period, sequence as fixed effects, and intercept as a random effect accounting for each participant within sequence as their own control.|Dose proportionality was assessed for baseline-adjusted Cmax using the power model. The power model assumes a linear relationship between the natural log transformed parameter and the natural log transformed dose. The fold increase in PK parameters with doubling the dose and the 90% CIs were calculated.||2.03|1.52|
92244355|NCT03150108|184391872|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed AUClast values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% CI.|Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.8|1.23||||||||1.23|0.80|
92281569|NCT05097326|184466294|OTHER|||||||0.04||||||a p-value of \<0.05 would be considered statistically significant|Fisher Exact|||Comparison at 12 hours after labor induction||||0.04
92244356|NCT03150108|184391872|OTHER|Dose proportionality|Increase in AUClast per Dose Doubling|2.35||||||90.0|2.06|2.7|||||Linear model of log transformed PK parameters at all doses in Japanese descent, including log transformed dose, period, sequence as fixed effects, and intercept as a random effect accounting for each participant within sequence as their own control.|Dose proportionality was assessed for baseline-adjusted AUClast using the power model. The power model assumes a linear relationship between the natural log transformed parameter and the natural log transformed dose. The fold increase in PK parameters with doubling the dose and the 90% CIs were calculated.||2.70|2.06|
92244357|NCT03150108|184391873|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed AUC0-8 values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% CI.|Geometric mean ratio|1.08|||||TWO_SIDED|90.0|0.87|1.35||||||||1.35|0.87|
92244358|NCT03150108|184391873|OTHER|Dose proportionality|Increase in AUC0-8 per Dose Doubling|2.23|||||TWO_SIDED|90.0|1.98|2.51|||||Linear model of log transformed PK parameters at all doses in Japanese descent, including log transformed dose, period, sequence as fixed effects, and intercept as a random effect accounting for each participant within sequence as their own control.|Dose proportionality was assessed for baseline-adjusted AUC0-8 using the power model. The power model assumes a linear relationship between the natural log transformed parameter and the natural log transformed dose. The fold increase in PK parameters with doubling the dose and the 90% CIs were calculated.||2.51|1.98|
92244359|NCT03150108|184391874|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed AUC0-inf values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% CI.|Geometric mean ratio|1.01|||||TWO_SIDED|90.0|0.77|1.33||||||||1.33|0.77|
92281570|NCT05097326|184466294|OTHER|||||||0.17||||||a p-value of \<0.05 would be considered statistically significant|Fisher Exact|||Comparison of uterine tachysystole of total labor duration||||0.17
92281571|NCT05097326|184466295|OTHER|||||||0.63||||||a p-value \<0.05 would be considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.63
92244360|NCT03150108|184391874|OTHER|Dose proportionality|Increase in AUC0-inf per Dose Doubling|2.31|||||TWO_SIDED|90.0|1.96|2.71|||||Linear model of log transformed PK parameters at all doses in Japanese descent, including log transformed dose, period, sequence as fixed effects, and intercept as a random effect accounting for each participant within sequence as their own control.|Dose proportionality was assessed for baseline-adjusted AUC0-inf using the power model. The power model assumes a linear relationship between the natural log transformed parameter and the natural log transformed dose. The fold increase in PK parameters with doubling the dose and the 90% CIs were calculated.||2.71|1.96|
92244361|NCT03150108|184391880|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed Cmax values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% CI.|Geometric Mean Ratio|1.13|||||TWO_SIDED|90.0|0.9|1.4||||||||1.40|0.90|
92244362|NCT03150108|184391882|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed Cmax values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% CI.|Geometric Mean Ratio|1.08|||||TWO_SIDED|90.0|0.93|1.25||||||||1.25|0.93|
92244363|NCT03238235|184391911|SUPERIORITY||Log Difference of the least square means|0.04||||0.8282|TWO_SIDED|95.0|-0.3|0.38||ANCOVA model was performed considering the difference between log of total fibrosis and log baseline values as dependent variable; log baseline value was included as covariate, treatment and concomitant steroid use as independent class variables.|ANCOVA|||total fibrosis at visit 11||0.38|-0.30|0.8282
92244364|NCT03238235|184391911|SUPERIORITY|Mixed model was performed considering the difference between log Visit 11 and log baseline values as dependent variable; log baseline as covariate, treatment was included as independent class variable and treatment by sequence interaction. The sequence of biopsy site (R-L, L-R) was included as a fixed effect and subject as a random effect. If the treatment by sequence interaction was p\>0.10, then the model without the interaction term is presented.|Log Difference of Least Square Means|-0.11||||0.6465|TWO_SIDED|95.0|-0.59|0.37|||Mixed Models Analysis|||A Mixed Model was fitted to the data in order to evaluate the difference in total fibrosis between biopsy sites||0.37|-0.59|0.6465
92244365|NCT03238235|184391912|SUPERIORITY||Log Difference of Least Square Means|-0.05||||0.1991|TWO_SIDED|95.0|-0.12|0.03||ANCOVA model was performed considering baseline fat fraction of vastus lateralis or fat fraction in the soleus value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Vastus lateralis||0.03|-0.12|0.1991
92244366|NCT03238235|184391912|SUPERIORITY||difference of the least square means|-0.27||||0.7849|TWO_SIDED|95.0|-2.22|1.69||ANCOVA model was performed considering baseline fat fraction of vastus lateralis or fat fraction in the soleus value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Soleus||1.69|-2.22|0.7849
92244367|NCT03238235|184391913|SUPERIORITY||Difference of Least Square Means|-1.35||||0.0149|TWO_SIDED|95.0|-2.43|-0.28||ANCOVA model was performed considering baseline Fat Fraction of lower limb muscles value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Whole thigh at visit 11||-0.28|-2.43|0.0149
92244368|NCT03238235|184391913|SUPERIORITY||Difference of Least Square Means|-1.96||||0.0022|TWO_SIDED|95.0|-3.18|-0.75||ANCOVA model was performed considering baseline Fat Fraction of lower limb muscles value as covariate and treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Quadriceps at visit 11||-0.75|-3.18|0.0022
92244369|NCT03238235|184391913|SUPERIORITY||Difference of least square means|-0.58||||0.4869|TWO_SIDED|95.0|-2.24|1.08||ANCOVA model was performed considering baseline Fat Fraction of lower limb muscles value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Hamstrings at visit 11||1.08|-2.24|0.4869
92244370|NCT03238235|184391913|SUPERIORITY||Difference of Least Square Means|-1.59||||0.0939|TWO_SIDED|95.0|-3.47|0.29||ANCOVA model was performed considering baseline Fat Fraction of lower limb muscles value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Triceps Surae at Visit 11||0.29|-3.47|0.0939
92281572|NCT05097326|184466296|OTHER|||||||0.01||||||a p-value of \<0.05 would be considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.01
92281573|NCT05097326|184466297|OTHER|||||||0.04||||||a p-value of \<0.05 would be considered statistically significant|Wilcoxon (Mann-Whitney)|||Comparison at complete cervical dilation||||0.04
92281574|NCT05097326|184466298|OTHER|||||||0.04||||||a p-value of \<0.05 would be considered statistically significant|Wilcoxon (Mann-Whitney)|||Comparison at postpartum transfer||||0.04
92244371|NCT03238235|184391913|SUPERIORITY||Difference of Least Square Means|-0.89||||0.1579|TWO_SIDED|95.0|-2.13|0.36||ANCOVA model was performed considering baseline Fat Fraction of lower limb muscles value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Pelvis girdle at visit 11||0.36|-2.13|0.1579
92244372|NCT03238235|184391914|SUPERIORITY||Difference of Least Square Means|0.4||||0.777|TWO_SIDED|95.0|-2.45|3.26||ANCOVA model was performed considering baseline CSA as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Whole Thigh at visit 11||3.26|-2.45|0.7770
92244373|NCT03238235|184391914|SUPERIORITY||Difference of Least Square Means|-0.09||||0.8926|TWO_SIDED|95.0|-1.35|1.18||ANCOVA model was performed considering baseline CSA as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Quadriceps at Visit 11||1.18|-1.35|0.8926
92244374|NCT03238235|184391914|SUPERIORITY||Difference of Least Square Means|0.35||||0.572|TWO_SIDED|95.0|-0.88|1.58||ANCOVA model was performed considering baseline CSA as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Medial Thigh at Visit 11||1.58|-0.88|0.5720
92244375|NCT03238235|184391914|SUPERIORITY||Difference of Least Square Means|0.11||||0.8386|TWO_SIDED|95.0|-0.97|1.18||ANCOVA model was performed considering baseline CSA as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Hamstrings at Visit 11||1.18|-0.97|0.8386
92281575|NCT05097326|184466299|OTHER|||||||0.68||||||a p-value of \<0.05 would be considered statistically significant|Fisher Exact|||||||0.68
92244376|NCT03238235|184391914|SUPERIORITY||Difference of Least Square Means|-0.22||||0.8591|TWO_SIDED|95.0|-2.68|2.25||ANCOVA model was performed considering baseline CSA as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Triceps Surae at Visit 11||2.25|-2.68|0.8591
92244377|NCT03238235|184391914|SUPERIORITY||Difference of Least Square Means|0.32||||0.7392|TWO_SIDED|95.0|-1.6|2.24|||ANCOVA|||Pelvis Girdle at Visit 11||2.24|-1.60|0.7392
92244378|NCT03238235|184391915|SUPERIORITY||Difference of Least Square Means|1.37||||0.0375|TWO_SIDED|95.0|0.08|2.65||ANCOVA model was performed considering baseline Contractile Area value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Whole Thigh at Visit 11||2.65|0.08|0.0375
92244379|NCT03238235|184391915|SUPERIORITY||difference of least square means|0.63||||0.0528|TWO_SIDED|95.0|-0.01|1.27||ANCOVA model was performed considering baseline Contractile Area value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Quadriceps at Visit 11||1.27|-0.01|0.0528
92244380|NCT03238235|184391915|SUPERIORITY||Difference of Least Square Means|0.36||||0.2012|TWO_SIDED|95.0|-0.2|0.91||ANCOVA model was performed considering baseline Contractile Area value as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Medial Thigh at Visit 11||0.91|-0.20|0.2012
92244381|NCT03238235|184391915|SUPERIORITY||Difference of Least Square Means|0.75||||0.4676|TWO_SIDED|95.0|-1.33|2.83||ANCOVA model was performed considering baseline Contractile Area value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Triceps Surae at Visit 11||2.83|-1.33|0.4676
92281576|NCT05097326|184466300|OTHER|||||||1||||||A p-value of \<0.05 would be considered significant.|Fisher Exact|||||||1
92244382|NCT03238235|184391915|SUPERIORITY||Difference of Least Square Means|0.54||||0.1549|TWO_SIDED|95.0|-0.21|1.3||ANCOVA model was performed considering baseline Contractile Area value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Pelvis Girdle at Visit 11||1.30|-0.21|0.1549
92281577|NCT05097326|184466301|OTHER|||||||1||||||a p-value of \<0.05 would be considered statistically significant|Fisher Exact|||||||1
92281578|NCT05097326|184466302|OTHER|||||||0.9||||||A p-value \<0.05 would be considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.90
92244383|NCT03238235|184391916|SUPERIORITY||Difference of Least Square Means|-619.2||||0.324|TWO_SIDED|95.0|-1872.37|633.98||ANCOVA model was performed considering baseline biopsy histological parameters (Slide III) value as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||CSA Type II at Visit 11||633.98|-1872.37|0.3240
92281579|NCT05097326|184466303|OTHER|||||||0.17||||||a p-value \<0.05 would be considered statistically significant|Fisher Exact|||1 minute APGAR score||||0.17
92281580|NCT05097326|184466303|OTHER|||||||1||||||A p-value of \<0.05 would be statistically significant.|Fisher Exact|||APGAR score at 5 minutes||||1
92281581|NCT05097326|184466304|OTHER|||||||0.22||||||A p-value of \<0.05 would be considered statistically significant|Fisher Exact|||||||0.22
92244384|NCT03238235|184391916|SUPERIORITY||Difference of Least Square Means|-572.54||||0.307|TWO_SIDED|95.0|-1690.73|545.64||ANCOVA model was performed considering baseline biopsy histological parameters (Slide III) value as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Total CSA at Visit 11||545.64|-1690.73|0.3070
92244385|NCT03238235|184391917|SUPERIORITY||Log Difference of Least Square Means|-0.27||||0.1055|TWO_SIDED|95.0|-0.59|0.06||ANCOVA model was performed considering baseline Biopsy histological parameters (Slide I) value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Fibers with nuclear centralizations (%) at Visit 11||0.06|-0.59|0.1055
92281582|NCT01244126|184466321|SUPERIORITY_OR_OTHER||Kruskall Wallis ANOVA by ranks|0.21|STANDARD_DEVIATION|3.0||0.21|TWO_SIDED|95.0|||||Kruskal-Wallis|||The primary outcome of the study was the maximum postoperative FLACC pain score.||||0.21
92281583|NCT01244126|184466322|SUPERIORITY_OR_OTHER||Kruskall Wallis ANOVA|0.34||||0.34||95.0|||||Kruskal-Wallis|||Kruskall Wallis test||||0.34
92281584|NCT00863746|184466340|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9934||||0.4687|TWO_SIDED|95.0|0.8409|1.1735||p-value of one-sided test (significance level 2.5%)|Log Rank|stratified by region, number of prior treatments, presence brain mets at baseline, prior EGFR inhibitor treatment||Test for superiority of Sorafenib over Placebo||1.1735|0.8409|0.4687
92244386|NCT03238235|184391917|SUPERIORITY||Difference of Least Square Means|-2.23||||0.8846|TWO_SIDED|95.0|-33.05|28.59||ANCOVA model was performed considering baseline biopsy histological parameters (Slide II) value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Total number of fibers at Visit 11 (slide II)||28.59|-33.05|0.8846
92281585|NCT00863746|184466341|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6068|||<|0.0001|TWO_SIDED|95.0|0.5139|0.7165||p-value of one-sided test (significance level 2.5%)|Log Rank|stratified by region, number of prior treatments, presence brain mets at baseline, prior EGFR inhibitor treatment||Test for superiority of Sorafenib over Placebo||0.7165|0.5139|<0.0001
92281586|NCT00863746|184466342|SUPERIORITY_OR_OTHER||CMH-adjusted difference in proportions|0.2263|||<|1e-06|TWO_SIDED|95.0|0.1575|0.2952|||Cochran-Mantel-Haenszel|stratified by region, number of prior treatments, presence brain mets at baseline, prior EGFR inhibitor treatment||||0.2952|0.1575|<0.000001
92281587|NCT00863746|184466343|SUPERIORITY_OR_OTHER||CMH-adjusted difference in proportions|0.039||||0.000876|TWO_SIDED|95.0|0.0137|0.0642|||Cochran-Mantel-Haenszel|stratified by region, number of prior treatments, presence brain mets at baseline, prior EGFR inhibitor treatment||||0.0642|0.0137|0.000876
92281588|NCT00863746|184466344|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.542|||<|0.0001|TWO_SIDED|95.0|0.4526|0.6492||p-value of one-sided test (significance level 2.5%)|Log Rank|stratified by region, number of prior treatments, presence brain mets at baseline, prior EGFR inhibitor treatment||Test for superiority of Sorafenib over Placebo||0.6492|0.4526|<0.0001
92281589|NCT00863746|184466345|SUPERIORITY_OR_OTHER|||||||0.3121||||||p-value for test of treatment effect equal to 0.|Mixed Models Analysis|||||||0.3121
92281590|NCT00863746|184466346|SUPERIORITY_OR_OTHER|||||||0.2948||||||p-value for test of treatment effect equal to 0|Mixed Models Analysis|||||||0.2948
92281591|NCT00863746|184466347|SUPERIORITY_OR_OTHER|||||||0.8344||||||p-value for test of treatment effect equal to 0|Mixed Models Analysis|||||||0.8344
92281592|NCT00863746|184466348|SUPERIORITY_OR_OTHER|||||||0.1438||||||p-value for test of treatment effect equal to 0.|Mixed Models Analysis|||||||0.1438
92281593|NCT00863746|184466349|SUPERIORITY_OR_OTHER|||||||0.9228||||||p-value for treatment effect equal to 0.|Mixed Models Analysis|||||||0.9228
92281594|NCT03292653|184466359|SUPERIORITY||Difference in Least Squares (LS) Means|1.26|STANDARD_ERROR_OF_MEAN|3.64||0.736|TWO_SIDED|90.0|-5.4|7.93|||ANCOVA|||Analysis of Covariance (ANCOVA) model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic, ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||7.93|-5.4|0.736
92244387|NCT03238235|184391917|SUPERIORITY||Difference of Least Square Means|4.72||||0.4054|TWO_SIDED|95.0|-6.62|16.06||ANCOVA model was performed considering baseline biopsy histological parameters (Slide III) value as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Total number of fibers (Slide III)||16.06|-6.62|0.4054
92244388|NCT03238235|184391918|SUPERIORITY||Difference of Least Square Means|2.45||||0.634|TWO_SIDED|95.0|-7.87|12.77||ANCOVA model was performed considering baseline Biopsy histological parameters (Slide I) value as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||||12.77|-7.87|0.6340
92244389|NCT03238235|184391919|SUPERIORITY||Log Difference of Least Square Means|-0.14||||0.4893|TWO_SIDED|95.0|-0.54|0.26|||ANCOVA|||||0.26|-0.54|0.4893
92244390|NCT03238235|184391920|SUPERIORITY||Log Difference of Least Square Means|-0.34||||0.1498|TWO_SIDED|95.0|-0.81|0.13||This model was performed considering baseline biopsy histological parameters (Slide I) value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||||0.13|-0.81|0.1498
92244391|NCT03238235|184391921|SUPERIORITY||Log Difference of Least Square Means|0.06||||0.0602|TWO_SIDED|95.0|0.0|0.13||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|Mixed Models Analysis|||Standing and transfers (D1) at Visit 11||0.13|-0.00|0.0602
92244392|NCT03238235|184391921|SUPERIORITY||Log Difference of Least Square Means|0.0||||0.5906|TWO_SIDED|95.0|-0.01|0.01||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|Mixed Models Analysis|||Axial and proximal motor function (D2) at Visit 11||0.01|-0.01|0.5906
92244393|NCT03238235|184391921|SUPERIORITY||Log Difference of Least Square Means|0.0||||0.7799|TWO_SIDED|95.0|-0.01|0.01||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|Mixed Models Analysis|||Distal motor function (D3) at Visit 11||0.01|-0.01|0.7799
92244394|NCT03238235|184391921|SUPERIORITY||Log Difference of Least Square Means|0.01||||0.1116|TWO_SIDED|95.0|0.0|0.03||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|Mixed Models Analysis|||Total Score at Visit 11||0.03|-0.00|0.1116
92244395|NCT03238235|184391922|SUPERIORITY||Log Difference of Least Square Means|-0.07||||0.4346|TWO_SIDED|95.0|-0.23|0.1||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate|Mixed Models Analysis|||Time to Walk/Run 10 meters at Visit 11||0.10|-0.23|0.4346
92244396|NCT03238235|184391923|SUPERIORITY||Log Difference of Least Square Means|-0.02||||0.8914|TWO_SIDED|95.0|-0.32|0.28|||Mixed Models Analysis|||Time to climb 4 standard steps (sec) at visit 11||0.28|-0.32|0.8914
92244397|NCT03238235|184391924|SUPERIORITY||Difference of Least Square Means|0.62||||0.7629|TWO_SIDED|95.0|-3.51|4.75||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|Mixed Models Analysis|||Time to rise from floor at Visit 11||4.75|-3.51|0.7629
92244398|NCT03238235|184391925|SUPERIORITY||Log Difference of Least Square Means|-0.01||||0.8106|TWO_SIDED|95.0|-0.11|0.08||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate|Mixed Models Analysis|||Maximum distance walked after 6 minutes at Visit 11||0.08|-0.11|0.8106
92244399|NCT03238235|184391926|SUPERIORITY|||||||0.1626||||||P-value is obtained from the two-sided Cochran-Mantel-Haenszel chi-squared test, stratified for concomitant steroid use at baseline|Cochran-Mantel-Haenszel|||\<10% worsening at visit 11||||0.1626
92244400|NCT03238235|184391929|SUPERIORITY||Difference of Least Square Means|3.57||||0.5099|TWO_SIDED|95.0|-7.27|14.41||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|ANCOVA|||Left Knee Extension (N) at Visit 11||14.41|-7.27|0.5099
92244401|NCT03238235|184391929|SUPERIORITY||Difference of Least Square Means|1.16||||0.7355|TWO_SIDED|95.0|-5.73|8.06||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|ANCOVA|||Right Knee Extension (N) at Visit 11||8.06|-5.73|0.7355
92281595|NCT03292653|184466359|SUPERIORITY||Difference in LS Means|-1.02|STANDARD_ERROR_OF_MEAN|3.38||0.7694|TWO_SIDED|90.0|-7.22|5.18|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic, ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||5.18|-7.22|0.7694
92244402|NCT03238235|184391929|SUPERIORITY||Difference of Least Square Means|3.92||||0.6037|TWO_SIDED|95.0|-11.22|19.06||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|ANCOVA|||Left Elbow Flexion (N) at Visit 11||19.06|-11.22|0.6037
92281596|NCT03292653|184466360|SUPERIORITY||Difference in LS Means|-0.04|STANDARD_ERROR_OF_MEAN|0.03||0.184|TWO_SIDED|90.0|-0.09|0.01|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||0.01|-0.09|0.184
92244403|NCT03238235|184391929|SUPERIORITY||Difference of Least Square Means|4.1||||0.6178|TWO_SIDED|95.0|-12.35|20.55||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|ANCOVA|||Right Elbow Flexion (N) at Visit 11||20.55|-12.35|0.6178
92174326|NCT03492216|184240836|SUPERIORITY||Risk Difference (RD)|-2.5||||0.26|TWO_SIDED|95.0|-6.8|1.9|||Regression, Logistic||adjusted risk different for HIV viral suppression at 12 months, Arm 2 (escalating incentives; EtG tests) compared to Arm 1 (control); logistic regression model adjusted for randomization arm, participant sex, and study site.|||1.9|-6.8|0.26
92174327|NCT03492216|184240836|SUPERIORITY||Risk Difference (RD)|0.7||||0.7|TWO_SIDED|95.0|-2.8|4.1|||Regression, Logistic||adjusted risk different for HIV viral suppression at 12 months, Arm 3 (escalating incentives; IsoScreen tests) compared to Arm 1 (control); logistic regression model adjusted for randomization arm, participant sex, and study site.|||4.1|-2.8|0.70
92174328|NCT03492216|184240836|SUPERIORITY||Risk Difference (RD)|1.3||||0.42|TWO_SIDED|95.0|-1.9|4.5|||Regression, Logistic||adjusted risk different for HIV viral suppression at 12 months, Arm 4 (escalating incentives; EtG and IsoScreen tests) compared to Arm 1 (control); logistic regression model adjusted for randomization arm, participant sex, and study site.|||4.5|-1.9|0.42
92174329|NCT01799265|184240844|NON_INFERIORITY|The 95% upper limit of the prediction interval was calculated using the formula (μ ) ̂+t\_(k-2)\^α √((τ\^2 ) ̂+〖(SE) ̂(μ ̂ )〗\^2 ),where (μ ) ̂is the estimate average AHI across all studies, (τ\^2 ) ̂ is the between-study variation, t\_(k-2)\^α is the critical value for a t-distribution, k is the number of studies in the meta-analysis, and k-2 are the degrees of freedom for the t distribution. Meta-analyzed statistics to compute the prediction interval were (μ ) ̂=5.0, SE(μ ̂ )=0.9, and (τ\^2 ) ̂=8.0||||||0.05|||||||t-test, 1 sided|A p-value of .05 was used.||"Hypothesis testing for the primary endpoint was conducted using a one-sided test of non-inferiority with the following null and alternative hypotheses at the 0.05 significance level using the MIXED procedure in SAS, version 9.3:~H\_0:(ϕ\_m ) ̂≥6.9 H\_A:(ϕ\_m ) ̂\<6.9 where (ϕ\_m ) ̂ is the estimated AHI difference between Transcend Auto and REMstar Auto from the model described in 3.5.1."||||.05
92244404|NCT03238235|184391932|SUPERIORITY||log difference of Least Square Means|-0.03||||0.1165|TWO_SIDED|95.0|-0.06|0.01||ANCOVA model was performed considering baseline fat fraction of lower limb muscles value as covariate and treatment and concomitant steroids use at baseline as independent class variables|ANCOVA|||Medial Thigh at visit 11||0.01|-0.06|0.1165
92174330|NCT02677298|184240925|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92174331|NCT02677298|184240926|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary Outcome Measure shows a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||||<0.001
92174332|NCT02677298|184240927|SUPERIORITY|||||||0.003||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||||0.003
92174333|NCT02677298|184240928|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for Investigator's In-clinic Assessment||||<0.001
92244405|NCT03238235|184391933|SUPERIORITY||Log difference of Least Square Means|0.05||||0.1939|TWO_SIDED|95.0|-0.02|0.12||ANCOVA model was performed considering baseline CSA as covariate and treatment and concomitant steroids use at baseline as independent class variables|ANCOVA|||Hamstrings at Visit 11||0.12|-0.02|0.1939
92244406|NCT03238235|184391934|SUPERIORITY||Log difference of Least Square Means|0.01||||0.9493|TWO_SIDED|95.0|-0.29|0.3||ANCOVA model was performed considering baseline biopsy histological parameters (slide III) value as covariate, treatment and concomitant steroids use at baseline as independent class variables|ANCOVA|||CSA Type I||0.30|-0.29|0.9493
92244407|NCT03238235|184391935|SUPERIORITY||Log difference of Least Square Means|0.05||||0.6265|TWO_SIDED|95.0|-0.16|0.26||ANCOVA model was performed considering baseline biopsy histological parameters (slide I) value as covariate, treatment and concomitant steroids use at baseline as independent class variables|ANCOVA|||Total number of Fibers at Visit 11 (slide I)||0.26|-0.16|0.6265
92244408|NCT03238235|184391935|SUPERIORITY||Log difference of Least Square Means|-0.44||||0.1562|TWO_SIDED|95.0|-1.05|0.17||ANCOVA model was performed considering baseline biopsy histological parameters (slide II) value as covariate, treatment and concomitant steroids use at baseline as independent class variables|ANCOVA|||Regenerative Fibers (%) at Visit 11||0.17|-1.05|0.1562
92244409|NCT01975935|184391939|SUPERIORITY|||||||0.05||||||This is the calculated p value and not the threshold for statistical significance.|t-test, 2 sided|||||||0.05
92244410|NCT01975935|184391940|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
92281597|NCT03292653|184466360|SUPERIORITY||Difference in LS Means|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3397|TWO_SIDED|90.0|-0.07|0.02|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||0.02|-0.07|0.3397
92244411|NCT01975935|184391941|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.51
92244412|NCT00243230|184391946|SUPERIORITY||VCV 30 mg vs. Placebo|-0.98||||0.0017|TWO_SIDED|95.0|-1.58|-0.37|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||-0.37|-1.58|0.0017
92244413|NCT00243230|184391946|SUPERIORITY||VCV 20 mg vs. Placebo|-0.93||||0.0026||95.0|-1.54|-0.33|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||-0.33|-1.54|0.0026
92244414|NCT00243230|184391947|SUPERIORITY|||||||0.0052|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0052
92244415|NCT00243230|184391947|SUPERIORITY|||||||0.019|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0190
92244416|NCT00243230|184391948|SUPERIORITY|||||||0.0007|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0007
92244417|NCT00243230|184391948|SUPERIORITY|||||||0.0028|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0028
92244418|NCT00243230|184391950|SUPERIORITY||Vicriviroc 30mg - Placebo|-1.0||||0.0002|TWO_SIDED|95.0|-1.53|-0.48|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||-0.48|-1.53|0.0002
92244419|NCT00243230|184391950|SUPERIORITY||Vicriviroc 20 mg - Placebo|-0.84||||0.002|TWO_SIDED|95.0|-1.36|-0.31|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||-0.31|-1.36|0.0020
92281598|NCT03292653|184466361|SUPERIORITY||Difference in LS Means|-17.07|STANDARD_ERROR_OF_MEAN|9.12||0.094|TWO_SIDED|90.0|-33.79|-0.35|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||-0.35|-33.79|0.094
92174334|NCT02677298|184240928|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for Subject's In-clinic Assessment||||<0.001
92174335|NCT02677298|184240929|SUPERIORITY|||||||0.084||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for responders rates at week 20||||0.084
92174336|NCT02677298|184240930|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for the Modified Skindex-16 (GL-QoL) Emotional domain change from baseline at week 4||||<0.001
92174337|NCT02677298|184240930|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||This test was performed for the Modified Skindex-16 (GL-QoL) Functioning domain - Change from baseline at Week 4||||<0.001
92174338|NCT02677298|184240930|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||This test was performed for the Modified Skindex-16 (GL-QoL) Overall score||||<0.001
92174339|NCT02677298|184240930|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test was performed for the FACE-Q Appraisal of Lines Between Eyebrows Scale - Change from Baseline at Week 4||||<0.001
92174340|NCT02677298|184240930|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test was performed for the FACE-Q Age Appraisal VAS score||||<0.001
92174341|NCT03210272|184240951|OTHER||Geometric Mean Ratio T/R (%)|155.6|||||TWO_SIDED|90.0|130.66|185.3|||||intra-individual gCV (%) = 18.1|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||185.30|130.66|
92174342|NCT03210272|184240951|OTHER||Ratio T/R (%)|240.12|||||TWO_SIDED|90.0|196.25|293.81|||||intra-individual gCV (%) = 27.8|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||293.81|196.25|
92244420|NCT00243230|184391951|SUPERIORITY||Vicriviroc 30 mg - Placebo|-1.1||||0.0003|TWO_SIDED|95.0|-1.69|-0.51|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA \<=100,000 copies/mL.||||-0.51|-1.69|0.0003
92244421|NCT00243230|184391951|SUPERIORITY||Vicriviroc 20 mg - Placebo|-1.07||||0.0004|TWO_SIDED|95.0|-1.66|-0.49|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA \<=100,000 copies/mL.||||-0.49|-1.66|0.0004
92244422|NCT00243230|184391952|SUPERIORITY||VCV 30 mg - Placebo|57.76||||0.0264|TWO_SIDED|95.0|6.9|108.61|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||108.61|6.90|0.0264
92244423|NCT00243230|184391952|SUPERIORITY||VCV 20 mg - Placebo|42.36||||0.102|TWO_SIDED|95.0|-8.55|93.28|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||93.28|-8.55|0.1020
92174343|NCT03210272|184240952|OTHER||Geometric Mean Ratio T/R (%)|156.37|||||TWO_SIDED|90.0|132.73|184.22|||||intra-individual gCV (%) = 17.0|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||184.22|132.73|
92174344|NCT03210272|184240952|OTHER||Ratio T/R (%)|245.56|||||TWO_SIDED|90.0|200.7|300.44|||||intra-individual gCV (%) = 27.8|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||300.44|200.70|
92174345|NCT03210272|184240953|OTHER||Geometric Mean Ratio T/R (%)|158.74|||||TWO_SIDED|90.0|114.25|220.56|||||intra-individual gCV (%) = 34.8|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||220.56|114.25|
92174346|NCT03210272|184240953|OTHER||Ratio T/R (%)|246.13|||||TWO_SIDED|90.0|203.37|297.89|||||intra-individual gCV (%) = 26.2|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||297.89|203.37|
92174347|NCT03064217|184240972|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92244424|NCT00243230|184391953|SUPERIORITY||VCV 30 mg - Placebo|38.12||||0.1525|TWO_SIDED|95.0|-14.32|90.56|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||90.56|-14.32|0.1525
92244425|NCT00243230|184391953|SUPERIORITY||VCV 20 mg - Placebo|44.12||||0.0987|TWO_SIDED|95.0|-8.38|96.61|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||96.61|-8.38|0.0987
92244426|NCT00243230|184391954|SUPERIORITY||VCV 30 mg - Placebo|37.32||||0.2603|TWO_SIDED|95.0|-28.05|102.68|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||102.68|-28.05|0.2603
92174348|NCT05505292|184241049|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
92244427|NCT00243230|184391954|SUPERIORITY||VCV 20 mg - Placebo|69.08||||0.0387|TWO_SIDED|95.0|3.64|134.52|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||134.52|3.64|0.0387
92244428|NCT00243230|184391956|SUPERIORITY|||||||0.0031|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0031
92244429|NCT00243230|184391956|SUPERIORITY|||||||0.048|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0480
92174349|NCT05505292|184241050|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
92174350|NCT05505292|184241051|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
92174351|NCT05505292|184241052|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.84
92174352|NCT05505292|184241053|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92174353|NCT05505292|184241054|SUPERIORITY|||||||0.14|||||||Chi-squared|||||||0.14
92174354|NCT05505292|184241055|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Question 1a Change from baseline to week 8 in lifitegrast vs vehicle||||0.62
92174355|NCT05505292|184241055|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||Question 1b change from baseline to week 8 in lifitegrast vs vehicle groups||||0.53
92174356|NCT05505292|184241055|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Question 2a change from baseline to week 8 in lifitegrast vs vehicle groups||||0.66
92174357|NCT05505292|184241055|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Question 2b change from baseline to week 8 in lifitegrast vs vehicle groups||||0.81
92174358|NCT05505292|184241055|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||Question 3a change from baseline to week 8 in lifitegrast vs vehicle groups||||>0.999
92174359|NCT05505292|184241055|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Question 3b change from baseline to week 8 in lifitegrast vs vehicle groups||||0.47
92174360|NCT05505292|184241055|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Question 4 change from baseline to week 8 in lifitegrast vs vehicle groups||||0.52
92174361|NCT05505292|184241055|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Question 5 change from baseline to week 8 in lifitegrast vs vehicle groups||||0.69
92174362|NCT01389856|184241061|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Fisher Exact|||||||1
92174363|NCT01389856|184241062|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3407|TWO_SIDED||||||Log Rank|||||||0.3407
92244430|NCT00243230|184391957|SUPERIORITY|||||||0.0009|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0009
92244431|NCT00243230|184391957|SUPERIORITY|||||||0.0009|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0009
92244432|NCT00243230|184391959|SUPERIORITY|||||||0.0225|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0225
92244433|NCT00243230|184391959|SUPERIORITY|||||||0.0582|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0582
92174364|NCT01389856|184241063|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2399|TWO_SIDED||||||Log Rank|||||||0.2399
92174365|NCT01389856|184241065|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
92244434|NCT00243230|184391960|SUPERIORITY|||||||0.0009|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0009
92244435|NCT00243230|184391960|SUPERIORITY|||||||0.0038|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0038
92244436|NCT00243230|184391961|SUPERIORITY|||||||0.0002|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0002
92174366|NCT01389856|184241066|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2235|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.2235
92174367|NCT01389856|184241067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1468|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.1468
92174368|NCT01389856|184241068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0789|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.0789
92174369|NCT01389856|184241069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3723|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.3723
92174370|NCT01389856|184241070|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0569|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.0569
92174371|NCT01389856|184241071|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1015|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.1015
92174372|NCT01389856|184241072|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0824|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.0824
92244437|NCT00243230|184391961|SUPERIORITY|||||||0.0004|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0004
92244438|NCT00471445|184391984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174|STANDARD_ERROR_OF_MEAN|0.19||0.363|TWO_SIDED|95.0|-0.548|0.201|||ANCOVA|||Tested at the two-sided 0.05 significance level.||0.201|-0.548|0.363
92244439|NCT00485589|184392038|NON_INFERIORITY|Pre-specified analysis||||||0.001|||||||Van Elteren's test|||||||0.001
92244440|NCT00485589|184392038|NON_INFERIORITY|Pre-specified analysis||||||0.0033|||||||Van Elteren's test|||||||0.0033
92174373|NCT01389856|184241073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3863|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.3863
92244441|NCT01122030|184392059|SUPERIORITY_OR_OTHER|||||||0.0767||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.0767
92244442|NCT01122030|184392059|SUPERIORITY_OR_OTHER|||||||0.8727||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.8727
92244443|NCT01122030|184392059|SUPERIORITY_OR_OTHER|||||||0.6373||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.6373
92174374|NCT01389856|184241074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3936|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.3936
92244444|NCT01122030|184392059|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||<0.0001
92244445|NCT01122030|184392059|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||<0.0001
92244446|NCT01122030|184392059|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||<0.0001
92244447|NCT01122030|184392060|SUPERIORITY_OR_OTHER|||||||0.8982||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.8982
92244448|NCT01122030|184392060|SUPERIORITY_OR_OTHER|||||||0.4946||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.4946
92244449|NCT01122030|184392060|SUPERIORITY_OR_OTHER|||||||0.9301||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.9301
92174375|NCT01389856|184241075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2436|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.2436
92174376|NCT01389856|184241076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1756|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.1756
92244450|NCT01122030|184392060|SUPERIORITY_OR_OTHER|||||||0.0047||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.0047
92174377|NCT01389856|184241077|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1155|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.1155
92174378|NCT01389856|184241078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.1400
92174379|NCT03959696|184241094|SUPERIORITY||Mean Difference (Net)|0.36||||0.011|TWO_SIDED|95.0|0.08|0.64||A priori threshold for statistical significance is .05|Regression, Linear|We used a linear regression model with Generalized Estimating Equations (GEE) techniques to account for the patients-within-physicians data structure|Mean difference is the Training + Notification arm minus the Notification only arm|The null hypothesis SDMP is equal in the two arms||.64|.08|.011
92174380|NCT03959696|184241095|SUPERIORITY||Mean Difference (Net)|1.77||||0.36|TWO_SIDED|95.0|-2.01|5.55||A priori threshold for statistical significance is .05|Regression, Linear|We used a linear regression model with Generalized Estimating Equations (GEE) techniques to account for the patients-within-physicians data structure||The null hypothesis is that the two arms have the same knowledge score||5.55|-2.01|0.36
92244451|NCT01122030|184392060|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||<0.0001
92244452|NCT01122030|184392060|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||<0.0001
92244453|NCT01122030|184392061|SUPERIORITY_OR_OTHER|||||||0.1334||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.1334
92174381|NCT03959696|184241096|SUPERIORITY|We will have 81% power to detect a difference of 14% in rates (e.g. decrease from 61% to 47%).||||||0.47|||||||Regression, Logistic|||We will compare the percentages of patients who received their preferred screening in the 12 months after the visit across the two groups using logistic regression model with the GEE approach to adjust for clustering of patients within clinicians.||||0.47
92174382|NCT03959696|184241097|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.19|TWO_SIDED||||||t-test, 2 sided|||||||0.19
92174383|NCT03959696|184241098|SUPERIORITY||Risk Difference (RD)|9.4||||0.032|TWO_SIDED|95.0|0.9|18.0|||Chi-squared|||Null hypothesis was equal screening rate in both arms||18.0|0.9|0.032
92244454|NCT01122030|184392061|SUPERIORITY_OR_OTHER|||||||0.332||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.3320
92244455|NCT01122030|184392061|SUPERIORITY_OR_OTHER|||||||0.9371||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.9371
92174384|NCT03959696|184241099|SUPERIORITY||Risk Difference (RD)|1.5||||0.64|TWO_SIDED||||||Chi-squared|||||||0.64
92174385|NCT05604508|184241133|OTHER||Odds Ratio (OR)|0.735|||||TWO_SIDED|95.0|0.347|1.553|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, and baseline cigarette use intentions|||1.553|0.347|
92174386|NCT05604508|184241133|OTHER||Odds Ratio (OR)|0.471|||||TWO_SIDED|95.0|0.234|0.947|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, and baseline cigarette use intentions.|||0.947|0.234|
92244456|NCT01122030|184392061|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.0002
92244457|NCT01122030|184392061|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||<0.0001
92244458|NCT01122030|184392061|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||<0.0001
92244459|NCT01122030|184392062|SUPERIORITY_OR_OTHER|||||||0.7978||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.7978
92244460|NCT01122030|184392062|SUPERIORITY_OR_OTHER|||||||0.7143||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.7143
92244461|NCT01122030|184392062|SUPERIORITY_OR_OTHER|||||||0.7531||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.7531
92244462|NCT01122030|184392062|SUPERIORITY_OR_OTHER|||||||0.0283||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.0283
92244463|NCT01122030|184392062|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||<0.0001
92174387|NCT05604508|184241134|OTHER||Odds Ratio (OR)|1.503|||||TWO_SIDED|95.0|0.727|3.107|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, baseline vaping intentions|||3.107|0.727|
92174388|NCT05604508|184241134|OTHER||Odds Ratio (OR)|0.878|||||TWO_SIDED|95.0|0.398|1.938|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, baseline vaping intentions|||1.938|0.398|
92174389|NCT05604508|184241135|OTHER||Odds Ratio (OR)|0.619|||||TWO_SIDED|95.0|0.295|1.301|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, and baseline smokeless use intentions|||1.301|0.295|
92174390|NCT05604508|184241135|OTHER||Odds Ratio (OR)|0.489|||||TWO_SIDED|95.0|0.237|1.006|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco, baseline smokeless use intentions|||1.006|0.237|
92174391|NCT05604508|184241136|OTHER||Odds Ratio (OR)|1.428|||||TWO_SIDED|95.0|0.72|2.832|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, baseline LCC use intentions|||2.832|0.720|
92244464|NCT01122030|184392062|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||<0.0001
92244465|NCT01122030|184392063|SUPERIORITY_OR_OTHER|||||||0.6269||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.6269
92244466|NCT01122030|184392063|SUPERIORITY_OR_OTHER|||||||0.7456||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.7456
92244467|NCT01122030|184392063|SUPERIORITY_OR_OTHER|||||||0.1968||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.1968
92244468|NCT01122030|184392063|SUPERIORITY_OR_OTHER|||||||0.8708||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.8708
92244469|NCT01122030|184392063|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||<0.0001
92244470|NCT01122030|184392063|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.0002
92244471|NCT01122030|184392064|SUPERIORITY_OR_OTHER|||||||0.6131||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.6131
92244472|NCT01122030|184392064|SUPERIORITY_OR_OTHER|||||||0.9293||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.9293
92244473|NCT01122030|184392064|SUPERIORITY_OR_OTHER|||||||0.799||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.7990
92244474|NCT01122030|184392064|SUPERIORITY_OR_OTHER|||||||0.7674||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.7674
92244475|NCT01122030|184392064|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||<0.0001
92244476|NCT01122030|184392064|SUPERIORITY_OR_OTHER|||||||0.0018||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.0018
92244477|NCT01122030|184392065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.7434|TWO_SIDED|95.0|0.42|3.92|||Log Rank|P-values were obtained from the log-rank test stratified by Gender.||||3.92|0.42|0.7434
92244478|NCT01122030|184392065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.54||||0.4449|TWO_SIDED|95.0|0.54|4.42|||Log Rank|P-values were obtained from the log-rank test stratified by Gender.||||4.42|0.54|0.4449
92244479|NCT01122030|184392065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.8129|TWO_SIDED|95.0|0.27|2.72|||Log Rank|P-values were obtained from the log-rank test stratified by Gender.||||2.72|0.27|0.8129
92244480|NCT01122030|184392065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.52||||0.0005|TWO_SIDED|95.0|2.29|24.72|||Log Rank|P-values were obtained from the log-rank test stratified by Gender.||||24.72|2.29|0.0005
92244481|NCT01122030|184392065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|9.93|||<|0.0001|TWO_SIDED|95.0|3.09|31.89|||Log Rank|P-values were obtained from the log-rank test stratified by Gender.||||31.89|3.09|<0.0001
92244482|NCT01122030|184392065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|202272814.0|||<|0.0001||95.0|||||Log Rank|P-values were obtained from the log-rank test stratified by Gender.|Hazard Ratio is infinite due to small range of observed times in 3 mg group that has no overlap with the Placebo group.|||||<0.0001
92244483|NCT01122030|184392066|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51||||0.4923|TWO_SIDED|95.0|0.53|4.28|||Log Rank|P-values are from the log rank test stratified by gender.||||4.28|0.53|0.4923
92244484|NCT01122030|184392066|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.5479|TWO_SIDED|95.0|0.52|4.06|||Log Rank|P-values are from the log rank test stratified by gender.||||4.06|0.52|0.5479
92244485|NCT01122030|184392066|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.506|TWO_SIDED|95.0|0.56|3.67|||Log Rank|P-values are from the log rank test stratified by gender.||||3.67|0.56|0.5060
92244486|NCT01122030|184392066|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.36||||0.0005|TWO_SIDED|95.0|2.27|23.9|||Log Rank|P-values are from the log rank test stratified by gender.||||23.90|2.27|0.0005
92244487|NCT01122030|184392066|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|9.54|||<|0.0001|TWO_SIDED|95.0|3.0|30.35|||Log Rank|P-values are from the log rank test stratified by gender.||||30.35|3.00|<0.0001
92244488|NCT01122030|184392066|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|192233779.0|||<|0.0001||95.0|||||Log Rank|P-values are from the log rank test stratified by gender.|Hazard Ratio is infinite due to small range of observed times in 3 mg group that has no overlap with the Placebo group.|||||<0.0001
92244489|NCT01122030|184392067|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.45||||0.1523|TWO_SIDED|95.0|0.62|19.35|||Log Rank|P-values are from the log rank test stratified by gender.||||19.35|0.62|0.1523
92244490|NCT01122030|184392067|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.55||||0.0856|TWO_SIDED|95.0|0.76|27.07|||Log Rank|P-values are from the log rank test stratified by gender.||||27.07|0.76|0.0856
92244491|NCT01122030|184392067|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.81||||0.5284|TWO_SIDED|95.0|0.3|10.98|||Log Rank|P-values are from the log rank test stratified by gender.||||10.98|0.30|0.5284
92244492|NCT01122030|184392067|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.8594|TWO_SIDED|95.0|0.09|8.66|||Log Rank|P-values are from the log rank test stratified by gender.||||8.66|0.09|0.8594
92244493|NCT01122030|184392067|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|59.34|||<|0.0001|TWO_SIDED|95.0|6.55|537.38|||Log Rank|P-values are from the log rank test stratified by gender.||||537.38|6.55|<0.0001
92281599|NCT03292653|184466361|SUPERIORITY||Difference in LS Means|-12.09|STANDARD_ERROR_OF_MEAN|8.49||0.1878|TWO_SIDED|90.0|-27.65|3.46|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||3.46|-27.65|0.1878
92281600|NCT03292653|184466362|SUPERIORITY||Difference in LS Means|-4.82|STANDARD_ERROR_OF_MEAN|5.8||0.4269|TWO_SIDED|90.0|-15.45|5.8|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||5.8|-15.45|0.4269
92244494|NCT01122030|184392067|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|10.99||||0.0007|TWO_SIDED|95.0|2.3|52.57|||Log Rank|P-values are from the log rank test stratified by gender.||||52.57|2.30|0.0007
92244495|NCT01122030|184392069|SUPERIORITY_OR_OTHER|||||||0.5054||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.5054
92244496|NCT01122030|184392069|SUPERIORITY_OR_OTHER|||||||0.9688||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.9688
92244497|NCT01122030|184392069|SUPERIORITY_OR_OTHER|||||||0.6963||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.6963
92244498|NCT01122030|184392069|SUPERIORITY_OR_OTHER|||||||0.9599||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.9599
92244499|NCT01122030|184392069|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.0001
92244500|NCT01122030|184392069|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.0006
92244501|NCT01122030|184392070|SUPERIORITY_OR_OTHER|||||||0.3441||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.3441
92244502|NCT01122030|184392070|SUPERIORITY_OR_OTHER|||||||0.7159||95.0||||P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.|ANCOVA|||||||0.7159
92244503|NCT01122030|184392070|SUPERIORITY_OR_OTHER|||||||0.7342||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.7342
92244504|NCT01122030|184392070|SUPERIORITY_OR_OTHER|||||||0.8714||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.8714
92244505|NCT01122030|184392070|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||<0.0001
92244506|NCT01122030|184392070|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.0006
92244507|NCT01205451|184392084|SUPERIORITY_OR_OTHER||t-distribution|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.38|-1.04||The P-value for change from Baseline indicates the comparision of the Week 6 value against the Baseline value.|Wilcoxon signed-rank test||Confidence intervals for means were based on the t-distribution.|||-1.04|-1.38|<0.0001
92244508|NCT01205451|184392084|SUPERIORITY_OR_OTHER||t-distribution|-1.33|||<|0.0001|TWO_SIDED|95.0|-1.54|-1.12||The P-value for change from Baseline indicates the comparision of the Week 6 value against the Baseline value.|Wilcoxon signed-rank test||Confidence intervals for means were based on the t-distribution.|||-1.12|-1.54|<0.0001
92244509|NCT01205451|184392084|SUPERIORITY_OR_OTHER||t-distribution|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.04|-0.72||The P-value for change from Baseline indicates the comparision of the Week 12 value against the Baseline value.|Wilcoxon signed-rank test||Confidence intervals for means were based on the t-distribution.|||-0.72|-1.04|<0.0001
92281601|NCT03292653|184466362|SUPERIORITY||Difference in LS Means|-6.36|STANDARD_ERROR_OF_MEAN|5.39||0.2684|TWO_SIDED|90.0|-16.24|3.52|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||3.52|-16.24|0.2684
92244510|NCT01205451|184392084|SUPERIORITY_OR_OTHER||t-distribution|-1.12|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.91||The P-value for change from Baseline indicates the comparision of the Week 12 value against the Baseline value.|Wilcoxon signed-rank test||Confidence intervals for means were based on the t-distribution.|||-0.91|-1.33|<0.0001
92244511|NCT03575884|184392118|SUPERIORITY||Study_arm timepoint interactions|-27.32|||<|0.05|TWO_SIDED|95.0|-52.49|-2.14|||Mixed Models Analysis|||||-2.14|-52.49|<0.05
92244512|NCT03607838|184392189|SUPERIORITY||Mean Difference (Final Values)|-7.5|STANDARD_ERROR_OF_MEAN|3.35||0.0263|TWO_SIDED|95.0|-14.1|-0.9|||Mixed Models Analysis|||||-0.9|-14.1|0.0263
92281602|NCT03292653|184466363|SUPERIORITY||Difference in LS Means|847.2|STANDARD_ERROR_OF_MEAN|576.98||0.1761|TWO_SIDED|90.0|-210.46|1904.86|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||1904.86|-210.46|0.1761
92281603|NCT03292653|184466363|SUPERIORITY||Difference in LS Means|489.33|STANDARD_ERROR_OF_MEAN|579.35||0.4202|TWO_SIDED|90.0|-572.68|1551.34|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||1551.34|-572.68|0.4202
92281604|NCT03292653|184466364|SUPERIORITY||Difference in LS Means|13.75|STANDARD_ERROR_OF_MEAN|8.53||0.1242|TWO_SIDED|90.0|-1.03|28.53|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline erythropoietin as the covariate.||28.53|-1.03|0.1242
92281605|NCT03292653|184466364|SUPERIORITY||Difference in LS Means|0.1|STANDARD_ERROR_OF_MEAN|7.73||0.9903|TWO_SIDED|90.0|-13.49|13.3|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline erythropoietin as the covariate.||13.30|-13.49|0.9903
92281606|NCT03292653|184466365|SUPERIORITY||Difference in LS Means|-150.89|STANDARD_ERROR_OF_MEAN|116.09||0.2121|TWO_SIDED|90.0|-353.57|51.78|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline NT-proBNP as the covariate.||51.78|-353.57|0.2121
92281607|NCT03292653|184466365|SUPERIORITY||Difference in LS Means|-5.26|STANDARD_ERROR_OF_MEAN|96.88||0.9574|TWO_SIDED|90.0|-174.4|163.87|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline NT-proBNP as the covariate.||163.87|-174.4|0.9574
92281608|NCT02606500|184466387|NON_INFERIORITY|We hypothesized that Elonva 150 mcg is non-inferior for COH in obese women.||||||0.9|||||||Regression, Logistic|||||||0.9
92174392|NCT05604508|184241136|OTHER||Odds Ratio (OR)|1.42|||||TWO_SIDED|95.0|0.681|2.96|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, baseline LCC use intentions|||2.960|0.681|
92244513|NCT03607838|184392190|SUPERIORITY||Mean Difference (Final Values)|-6.5|STANDARD_ERROR_OF_MEAN|3.4||0.0558|TWO_SIDED|95.0|-13.2|0.2||To control family-wise error rate for multiple tests of the primary and key secondary endpoints, serial gatekeeping testing algorithm was used.|Mixed Models Analysis|||||0.2|-13.2|0.0558
92244514|NCT03607838|184392191|SUPERIORITY||Mean Difference (Final Values)|-25.8|STANDARD_ERROR_OF_MEAN|15.24||0.092|TWO_SIDED|95.0|-55.7|4.2||To control family-wise error rate for multiple tests of the primary and key secondary endpoints, serial gatekeeping testing algorithm was used.|Mixed Models Analysis|||||4.2|-55.7|0.0920
92244515|NCT03607838|184392192|SUPERIORITY||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|1.95||0.0336|TWO_SIDED|95.0|-8.0|-0.3||To control family-wise error rate for multiple tests of the primary and key secondary endpoints, serial gatekeeping testing algorithm was used.|Mixed Models Analysis|||||-0.3|-8.0|0.0336
92244516|NCT03615469|184392211|OTHER|t-test||||||0.22|||||||t-test, 2 sided|||||||0.22
92281609|NCT02606500|184466388|NON_INFERIORITY|We hypothesized that Elonva 150 mcg is non-inferior for COH in obese women.||||||0.5|||||||Regression, Logistic|||||||0.5
92281610|NCT02606500|184466389|NON_INFERIORITY|We hypothesized that Elonva 150 mcg is non-inferior for COH in obese women.||||||0.3|||||||Regression, Logistic|||||||0.3
92281611|NCT02606500|184466390|NON_INFERIORITY|We hypothesized that Elonva 150 mcg is non-inferior for COH in obese women.||||||0.9|||||||Regression, Logistic|||||||0.9
92281612|NCT02606500|184466391|NON_INFERIORITY|We presumed Elonva 150 mcg in obese and normal weighing women yields comparable biochemical pregnancy rates.||||||0.4|||||||Regression, Logistic|||||||0.4
92281613|NCT02465567|184466467|SUPERIORITY||Rate Ratio|0.76|||<|0.0001|TWO_SIDED|95.0|0.69|0.83|||Negative Binomial Regression|||||0.83|0.69|<0.0001
92281614|NCT02465567|184466467|SUPERIORITY||Rate Ratio|0.87||||0.0027|TWO_SIDED|95.0|0.79|0.95|||Negative Binomial Regression|||||0.95|0.79|0.0027
92281615|NCT02465567|184466467|SUPERIORITY||Rate Ratio|0.75|||<|0.0001|TWO_SIDED|95.0|0.69|0.83|||Negative Binomial Regression|||||0.83|0.69|<0.0001
92281616|NCT02465567|184466467|SUPERIORITY||Rate Ratio|0.86||||0.002|TWO_SIDED|95.0|0.79|0.95|||Negative Binomial Regression|||||0.95|0.79|0.0020
92281617|NCT02465567|184466468|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.0035|TWO_SIDED|95.0|0.807|0.959|||Regression, Cox|||||0.959|0.807|0.0035
92281618|NCT02465567|184466468|SUPERIORITY||Hazard Ratio (HR)|0.887||||0.057|TWO_SIDED|95.0|0.814|0.966|||Regression, Cox|||||0.966|0.814|0.057
92281619|NCT02465567|184466468|SUPERIORITY||Hazard Ratio (HR)|0.866||||0.0011|TWO_SIDED|95.0|0.794|0.944|||Regression, Cox|||||0.944|0.794|0.0011
92281620|NCT02465567|184466468|SUPERIORITY||Hazard Ratio (HR)|0.873||||0.0019|TWO_SIDED|95.0|0.801|0.951|||Regression, Cox|||||0.951|0.801|0.0019
92281621|NCT02465567|184466469|SUPERIORITY||Mean Difference (Final Values)|-0.51|||<|0.0001|TWO_SIDED|95.0|-0.68|-0.34|||Linear Repeated Measures|||||-0.34|-0.68|<0.0001
92281622|NCT02465567|184466469|SUPERIORITY||Mean Difference (Final Values)|-0.37|||<|0.0001|TWO_SIDED|95.0|-0.54|-0.2|||Linear Repeated Measures|||||-0.20|-0.54|<0.0001
92281623|NCT02465567|184466469|SUPERIORITY||Mean Difference (Final Values)|-0.35|||<|0.0001|TWO_SIDED|95.0|-0.53|-0.18|||Linear Repeated Measures|||||-0.18|-0.53|<0.0001
92281624|NCT02465567|184466469|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.0127|TWO_SIDED|95.0|-0.39|-0.05|||Linear Repeated Measures|||||-0.05|-0.39|0.0127
92281625|NCT02465567|184466470|SUPERIORITY||Odds Ratio (OR)|1.358|||<|0.0001|TWO_SIDED|95.0|1.199|1.539|||Regression, Logistic|||||1.539|1.199|<0.0001
92281626|NCT02465567|184466470|SUPERIORITY||Odds Ratio (OR)|1.246||||0.0005|TWO_SIDED|95.0|1.1|1.41|||Regression, Logistic|||||1.410|1.100|0.0005
92281627|NCT02465567|184466470|SUPERIORITY||Odds Ratio (OR)|1.283|||<|0.0004|TWO_SIDED|95.0|1.133|1.454|||Regression, Logistic|||||1.454|1.133|<0.0004
92281628|NCT02465567|184466470|SUPERIORITY||Odds Ratio (OR)|1.177||||0.0103|TWO_SIDED|95.0|1.039|1.333|||Regression, Logistic|||||1.333|1.039|0.0103
92281629|NCT02465567|184466471|SUPERIORITY||Hazard Ratio (HR)|0.544||||0.0111|TWO_SIDED|95.0|0.34|0.87|||Regression, Cox|||||0.870|0.340|0.0111
92281630|NCT02465567|184466471|SUPERIORITY||Hazard Ratio (HR)|0.782||||0.3401|TWO_SIDED|95.0|0.472|1.296|||Regression, Cox|||||1.296|0.472|0.3401
92281631|NCT02465567|184466471|SUPERIORITY||Hazard Ratio (HR)|0.789||||0.269|TWO_SIDED|95.0|0.518|1.201|||Regression, Cox|||||1.201|0.518|0.2690
92281632|NCT02465567|184466471|SUPERIORITY||Hazard Ratio (HR)|1.134||||0.5918|TWO_SIDED|95.0|0.716|1.796|||Regression, Cox|||||1.796|0.716|0.5918
92281633|NCT02465567|184466472|SUPERIORITY||Rate Ratio|0.84||||0.6552|TWO_SIDED|95.0|0.69|1.03|||Negative Binomial Regression|||||1.03|0.69|0.6552
92281634|NCT02465567|184466472|SUPERIORITY||Rate Ratio|0.8||||0.0221|TWO_SIDED|95.0|0.66|0.97|||Negative Binomial Regression|||||0.97|0.66|0.0221
92281635|NCT02465567|184466472|SUPERIORITY||Rate Ratio|0.88||||0.2157|TWO_SIDED|95.0|0.72|1.08|||Negative Binomial Regression|||||1.08|0.72|0.2157
92281636|NCT02465567|184466472|SUPERIORITY||Rate Ratio|0.83||||0.0647|TWO_SIDED|95.0|0.69|1.01|||Negative Binomial Regression|||||1.01|0.69|0.0647
92281637|NCT01807637|184466480|SUPERIORITY||Mean Difference (Final Values)|9.1|STANDARD_ERROR_OF_MEAN|5.37||0.05|TWO_SIDED||||||Mixed Models Analysis|||||||.05
92281638|NCT01807637|184466481|SUPERIORITY||Mean Difference (Final Values)|-2.05|STANDARD_DEVIATION|1.12||0.05|TWO_SIDED||||||ANOVA|||||||.05
92281639|NCT01807637|184466482|SUPERIORITY||Mean Difference (Final Values)|15.67|STANDARD_DEVIATION|3.41||0.05|TWO_SIDED||||||ANOVA|||||||.05
92281640|NCT06052566|184466516|OTHER||Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.61|1.54||||||||1.54|0.61|
92281641|NCT06052566|184466516|OTHER||Geometric Mean Ratio|1.04|||||TWO_SIDED|90.0|0.63|1.71||||||||1.71|0.63|
92281642|NCT06052566|184466517|OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.6|1.65||||||||1.65|0.60|
92281643|NCT06052566|184466517|OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|90.0|0.53|1.65||||||||1.65|0.53|
92281644|NCT06052566|184466518|OTHER||Geometric Mean Ratio|0.73|||||TWO_SIDED|90.0|0.44|1.21||||||||1.21|0.44|
92281645|NCT06052566|184466518|OTHER||Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.47|1.53||||||||1.53|0.47|
92281646|NCT00329602|184466546|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||P-value is for Week 12.|Repeated Measures Mixed Model|Adjusted for baseline IRLS Rating Scale total score, treatment group, visit, visit by treatment group interaction, and center group.||||||0.039
92281647|NCT00329602|184466546|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value is for Week 26.|Repeated Measures Mixed Model|Adjusted for baseline IRLS Rating Scale total score, treatment group, visit, visit by treatment group interaction, and center group.||||||0.023
92281648|NCT02579096|184466561|NON_INFERIORITY|A non-inferiority bound of 8% was established during the trial design; a one-sided alpha level was set at 0.05.|Risk Difference (RD)|-7.0|||<|0.001|ONE_SIDED|95.0||-1.2|||t-test, 1 sided|||One-sided null hypothesis posited that allopurinol was inferior to febuxostat. The proportions of participants with ≥ 1 gout flare during phase 3 were compared between the two treatments.||-1.2||<0.001
92281649|NCT02097121|184466602|SUPERIORITY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|1.107|=|0.3802|TWO_SIDED|95.0|-3.203|1.243|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group as factor. A hierarchical analysis strategy to adjust for multiplicity was used."||1.243|-3.203|= 0.3802
92281650|NCT02097121|184466602|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.154|=|0.733|TWO_SIDED|95.0|-1.921|2.712|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group as factor. A hierarchical analysis strategy to adjust for multiplicity was used."||2.712|-1.921|= 0.733
92174393|NCT05337306|184241137|SUPERIORITY|ANCOVA controlling for study arm and baseline||||||0.049||||||a priori threshold .05; no adjustment for multiple comparisons|ANCOVA|covariates include arm and baseline level of outcome||Last Observation Carried Forward (LOCF) for those lost to follow up; null hypothesis group 1 follow-up outcome = group 2 follow-up outcome.||||.049
92281651|NCT02097121|184466603|SUPERIORITY||LS Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|1.442|=|0.5743|TWO_SIDED|95.0|-2.082|3.713|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||3.713|-2.082|= 0.5743
92281652|NCT02097121|184466603|SUPERIORITY||LS Mean Difference|2.15|STANDARD_ERROR_OF_MEAN|1.455|=|0.1451|TWO_SIDED|95.0|-0.769|5.078|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||5.078|-0.769|= 0.1451
92281653|NCT02097121|184466604|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|1.434|=|0.8206|TWO_SIDED|95.0|-3.205|2.551|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||2.551|-3.205|= 0.8206
92281654|NCT02097121|184466604|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|1.434|=|0.9604|TWO_SIDED|95.0|-2.807|2.95|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||2.95|-2.807|= 0.9604
92281655|NCT02097121|184466606|SUPERIORITY||LS Mean Difference|35.33|STANDARD_ERROR_OF_MEAN|22.175|=|0.1174|TWO_SIDED|95.0|-9.207|79.873|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||79.873|-9.207|= 0.1174
92281656|NCT02097121|184466606|SUPERIORITY||LS Mean Difference|34.11|STANDARD_ERROR_OF_MEAN|23.722|=|0.1567|TWO_SIDED|95.0|-13.536|81.76|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||81.76|-13.536|= 0.1567
92281657|NCT02097121|184466607|SUPERIORITY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|4.091|=|0.7481|TWO_SIDED|95.0|-9.553|6.909|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||6.909|-9.553|= 0.7481
92281658|NCT02097121|184466607|SUPERIORITY||LS Mean Difference|1.85|STANDARD_ERROR_OF_MEAN|4.299|=|0.6691|TWO_SIDED|95.0|-6.799|10.498|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||10.498|-6.799|= 0.6691
92281659|NCT02097121|184466608|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.343|=|0.9297|TWO_SIDED|95.0|-0.721|0.661|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||0.661|-0.721|= 0.9297
92281660|NCT02097121|184466608|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.357|=|0.3976|TWO_SIDED|95.0|-1.022|0.413|||ANCOVA|||Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented.||0.413|-1.022|= 0.3976
92281661|NCT02097121|184466609|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.302|=|0.3309|TWO_SIDED|95.0|-0.311|0.904|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||0.904|-0.311|= 0.3309
92281662|NCT02097121|184466609|SUPERIORITY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.315|=|0.2235|TWO_SIDED|95.0|-0.245|1.024|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||1.024|-0.245|= 0.2235
92281663|NCT02097121|184466610|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.274|=|0.6689|TWO_SIDED|95.0|-0.434|0.67|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||0.67|-0.434|= 0.6689
92244517|NCT02724774|184392217|SUPERIORITY|||||||0.026||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||All analyses were conducted as intention-to-treat, analyzing all 252 cases as randomly assigned to the PFR and control group (CG). Multiple linear regression was used to examine the treatment effect of PFR (0 = CG, 1 = PFR). Covariates included preferred language (0 = English, 1 = Spanish) and the baseline measure.||||.026
92244518|NCT02724774|184392218|SUPERIORITY|||||||0.154||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||.154
92244519|NCT02724774|184392219|SUPERIORITY|||||||0.516||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||.516
92174394|NCT05337306|184241138|SUPERIORITY|||||||0.04||||||a priori threshold .05; no adjustment for multiple comparisons|ANCOVA|Covariates include trial arm and baseline level of outcome.||LOCF for lost to follow-up||||.040
92244520|NCT02724774|184392220|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||<0.001
92244521|NCT02724774|184392221|SUPERIORITY|||||||0.094||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||0.094
92244522|NCT02724774|184392222|SUPERIORITY|||||||0.029|||||||Regression, Linear|||||||0.029
92244523|NCT02724774|184392223|SUPERIORITY|||||||0.389||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||.389
92244524|NCT02724774|184392224|SUPERIORITY|||||||0.747||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||.747
92244525|NCT00441103|184392239|SUPERIORITY_OR_OTHER||||||<|0.001||||||Non-parametric analysis of variance (ANOVA) with effects for treatment and the absence/presence of Gd-enhancing lesions at baseline as factors|ANOVA|||||||<0.001
92244526|NCT00441103|184392240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.67|STANDARD_DEVIATION|2.33|<|0.001|||||||Wilcoxon signed-rank test|||Mean difference was calculated by subtracting 'Day 1 up to Week 16' from 'Week 17 up to Week 40' and analyzed using Wilcoxon signed-rank test.||||<0.001
92244527|NCT05836818|184392243|SUPERIORITY||Adjusted difference|25.1|||<|0.0001|TWO_SIDED|95.0|17.0|33.2|||Regression, Logistic|Mixed effects logistic regression with a random center effect for within-center characteristics, and terms for calendar time and intervention||Adjusted difference 25.1 percentage points||33.2|17|<0.0001
92244528|NCT01627067|184392270|NON_INFERIORITY|The study terminated early due to lack of efficacy and funds only 22 patients were enrolled in the study. With 40 patients accrued at a rate of 2 patients per month, a one-sided alpha of 5%, and a post- accrual follow up of 3 months, we would have 80% power to detect a median PFS of 12 months as being statistically significantly higher than a historical control median PFS of 7 months.|Cox Proportional Hazard|0.25||||0.015|TWO_SIDED|95.0|0.08|0.76|||Regression, Cox|||Data for PFS were censored at the time of a patient's removal from study. With 40 patients accrued at a rate of 2 patients per month, a one-sided alpha of 5%, and a post- accrual follow up of 3 months, we would have 80% power to detect a median PFS of 12 months as being statistically significantly higher than a historical control median PFS of 7 months. The study terminated early due to lack of efficacy and funds only 22 patients were enrolled in the study.||0.76|0.08|0.015
92244529|NCT01627067|184392273|OTHER||Hazard Ratio (HR)|0.6||||0.31|TWO_SIDED|95.0|0.22|1.62|||Regression, Cox|||||1.62|0.22|0.31
92244530|NCT00926796|184392274|SUPERIORITY_OR_OTHER||Proportion of cured participants|100.0|||<|0.05|ONE_SIDED|95.0|98.53||||Exact binomial confidence limit|If the one-sided lower 95% confidence limit is greater than 95%, the null hypothesis of the microbiological efficacy estimate is \<95% is rejected.|When the lower 95% confidence limit is \>=95%, the alternative hypothesis is accepted (i.e., the microbiological cure estimate is significantly \>=95%).|The null hypothesis is that the microbiological efficacy estimate (proportion of participants who are cured) is \<95%.|||98.53|<0.05
92244531|NCT00926796|184392281|SUPERIORITY_OR_OTHER||Proportion of cured participants|99.5|||<|0.05|ONE_SIDED|95.0|97.64||||Exact bionomial confidence limit|If the one-sided lower 95% confidence limit is greater than 95%, the null hypothesis of the microbiological efficacy estimate is \<95% is rejected.|When the lower 95% confidence interval is above 95%, the alternative hypothesis is accepted (i.e., the microbiological cure estimate is significantly \>=95%).|The null hypothesis is that the microbiological efficacy estimate (proportion of participants who are cured) is \<95%.|||97.64|<0.05
92244532|NCT06704178|184392376|SUPERIORITY|||||||0.488445|||||||Multiple t-tests|||||||0.488445
92244533|NCT06704178|184392377|SUPERIORITY|Between-group comparison.||||||0.98317||||||Between-group comparison.|t-test, 2 sided|||||||0.98317
92244534|NCT06704178|184392378|SUPERIORITY|||||||0.98317|||||||t-test, 2 sided|||||||0.98317
92244535|NCT06704178|184392379|SUPERIORITY|||||||0.919209|||||||t-test, 2 sided|||||||0.919209
92244536|NCT06704178|184392380|SUPERIORITY|||||||0.919209|||||||t-test, 2 sided|||||||0.919209
92244537|NCT06704178|184392381|SUPERIORITY|||||||0.954882||||||Comparison at Month 2|t-test, 2 sided|||||||0.954882
92244538|NCT06704178|184392381|SUPERIORITY|||||||0.246176||||||Comparison at Month 4|t-test, 2 sided|||||||0.246176
92244539|NCT06704178|184392381|SUPERIORITY|||||||0.954882||||||Comparison at Month 6|t-test, 2 sided|||||||0.954882
92244540|NCT06704178|184392382|SUPERIORITY|||||||0.483382||||||Comparison at Month 2|t-test, 2 sided|||||||0.483382
92244541|NCT06704178|184392382|SUPERIORITY|||||||0.483382||||||Comparison at Month 4|t-test, 2 sided|||||||0.483382
92287251|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|0.066||||0.084|TWO_SIDED|95.0|-0.009|0.14|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.140|-0.009|0.084
92244542|NCT06704178|184392382|SUPERIORITY|||||||0.726742||||||Comparison at Month 6|t-test, 2 sided|||||||0.726742
92244543|NCT06704178|184392383|SUPERIORITY|||||||0.999216||||||Comparison at Month 1|t-test, 2 sided|||||||0.999216
92244544|NCT06704178|184392383|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
92244545|NCT06704178|184392383|SUPERIORITY|||||||0.559556||||||Comparison at Month 3|t-test, 2 sided|||||||0.559556
92244546|NCT06704178|184392383|SUPERIORITY|||||||0.999984||||||Comparison at Month 4|t-test, 2 sided|||||||0.999984
92244547|NCT06704178|184392383|SUPERIORITY|||||||0.952545||||||Comparison at Month 5|t-test, 2 sided|||||||0.952545
92244548|NCT06704178|184392383|SUPERIORITY|||||||0.998367||||||Comparison at Month 6|t-test, 2 sided|||||||0.998367
92244549|NCT06704178|184392384|SUPERIORITY|||||||0.999851||||||Comparison at Month 1|t-test, 2 sided|||||||0.999851
92244550|NCT06704178|184392384|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
92244551|NCT06704178|184392384|SUPERIORITY|||||||0.999801|||||||t-test, 2 sided|||||||0.999801
92244552|NCT06704178|184392384|SUPERIORITY|||||||0.999984||||||Comparison at Month 4|t-test, 2 sided|||||||0.999984
92244553|NCT06704178|184392384|SUPERIORITY|||||||0.993223||||||Comparison at Month 5|t-test, 2 sided|||||||0.993223
92244554|NCT06704178|184392384|SUPERIORITY|||||||0.999567||||||Comparison at Month 6|t-test, 2 sided|||||||0.999567
92244555|NCT06704178|184392385|SUPERIORITY|||||||0.999851||||||Comparison at Month 1|t-test, 2 sided|||||||0.999851
92244556|NCT06704178|184392385|SUPERIORITY|||||||0.999838||||||Comparison at Month 2|t-test, 2 sided|||||||0.999838
92244557|NCT06704178|184392385|SUPERIORITY|||||||0.991697||||||Comparison at Month 3|t-test, 2 sided|||||||0.991697
92244558|NCT06704178|184392385|SUPERIORITY|||||||0.999984||||||Comparison at Month 4|t-test, 2 sided|||||||0.999984
92244559|NCT06704178|184392385|SUPERIORITY|||||||0.581904||||||Comparison at Month 5|t-test, 2 sided|||||||0.581904
92244560|NCT06704178|184392385|SUPERIORITY|||||||0.999866||||||Comparison at Month 6|t-test, 2 sided|||||||0.999866
92244561|NCT06704178|184392386|SUPERIORITY|||||||0.999835||||||Comparison at Month 1|t-test, 2 sided|||||||0.999835
92244562|NCT06704178|184392386|SUPERIORITY|||||||0.962016||||||Comparison at Month 2|t-test, 2 sided|||||||0.962016
92244563|NCT06704178|184392386|SUPERIORITY|||||||0.995044||||||Comparison at Month 3|t-test, 2 sided|||||||0.995044
92244564|NCT06704178|184392386|SUPERIORITY|||||||0.998665||||||Comparison at Month 4|t-test, 2 sided|||||||0.998665
92244565|NCT06704178|184392386|SUPERIORITY|||||||0.999816||||||Comparison at Month 5|t-test, 2 sided|||||||0.999816
92244566|NCT06704178|184392386|SUPERIORITY|||||||0.999567||||||Comparison at Month 6|t-test, 2 sided|||||||0.999567
92244567|NCT06704178|184392387|SUPERIORITY|||||||0.999851||||||Comparison at Month 1|t-test, 2 sided|||||||0.999851
92244568|NCT06704178|184392387|SUPERIORITY|||||||0.999524||||||Comparison at Month 2|t-test, 2 sided|||||||0.999524
92244569|NCT06704178|184392387|SUPERIORITY|||||||0.576782||||||Comparison at Month 3|t-test, 2 sided|||||||0.576782
92244570|NCT06704178|184392387|SUPERIORITY|||||||0.772865||||||Comparison at Month 4|t-test, 2 sided|||||||0.772865
92244571|NCT06704178|184392387|SUPERIORITY|||||||0.91384||||||Comparison at Month 5|t-test, 2 sided|||||||0.91384
92244572|NCT06704178|184392387|SUPERIORITY|||||||0.992841||||||Comparison at Month 6|t-test, 2 sided|||||||0.992841
92281664|NCT02097121|184466610|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.288|=|0.6076|TWO_SIDED|95.0|-0.431|0.729|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||0.729|-0.431|= 0.6076
92244573|NCT06704178|184392388|SUPERIORITY|||||||0.999732||||||Comparison at Month 1|t-test, 2 sided|||||||0.999732
92244574|NCT06704178|184392388|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
92244575|NCT06704178|184392388|SUPERIORITY|||||||0.999801||||||Comparison at Month 3|t-test, 2 sided|||||||0.999801
92244576|NCT06704178|184392388|SUPERIORITY||||||>|0.999999||||||Comparison at Month 4|t-test, 2 sided|||||||>0.999999
92244577|NCT06704178|184392388|SUPERIORITY|||||||0.999816||||||Comparison at Month 5|t-test, 2 sided|||||||0.999816
92244578|NCT06704178|184392388|SUPERIORITY||||||>|0.999999||||||Comparison at Month 6|t-test, 2 sided|||||||>0.999999
92244579|NCT06704178|184392389|SUPERIORITY|||||||0.999851||||||Comparison at Month 1|t-test, 2 sided|||||||0.999851
92244580|NCT06704178|184392389|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
92244581|NCT06704178|184392389|SUPERIORITY|||||||0.998326||||||Comparison at Month 3|t-test, 2 sided|||||||0.998326
92244582|NCT06704178|184392389|SUPERIORITY|||||||0.998665||||||Comparison at Month 4|t-test, 2 sided|||||||0.998665
92244583|NCT06704178|184392389|SUPERIORITY|||||||0.999816||||||Comparison at Month 5|t-test, 2 sided|||||||0.999816
92244584|NCT06704178|184392389|SUPERIORITY|||||||0.998846||||||Comparison at Month 6|t-test, 2 sided|||||||0.998846
92244585|NCT06704178|184392390|SUPERIORITY|||||||0.999387||||||Comparison at Month 1|t-test, 2 sided|||||||0.999387
92244586|NCT06704178|184392390|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
92244587|NCT06704178|184392390|SUPERIORITY||||||>|0.999999||||||Comparison at Month 3|t-test, 2 sided|||||||>0.999999
92244588|NCT06704178|184392390|SUPERIORITY|||||||0.999984||||||Comparison at Month 4|t-test, 2 sided|||||||0.999984
92244589|NCT06704178|184392390|SUPERIORITY|||||||0.999816||||||Comparison at Month 5|t-test, 2 sided|||||||0.999816
92244590|NCT06704178|184392390|SUPERIORITY|||||||0.998367||||||Comparison at Month 6|t-test, 2 sided|||||||0.998367
92244591|NCT06704178|184392391|SUPERIORITY|||||||0.999975||||||Comparison at Month 1|t-test, 2 sided|||||||0.999975
92244592|NCT06704178|184392391|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
92244593|NCT06704178|184392391|SUPERIORITY|||||||0.999801||||||Comparison at Month 3|t-test, 2 sided|||||||0.999801
92244594|NCT06704178|184392391|SUPERIORITY|||||||0.999984||||||Comparison at Month 4|t-test, 2 sided|||||||0.999984
92244595|NCT06704178|184392391|SUPERIORITY|||||||0.960874||||||Comparison at Month 5|t-test, 2 sided|||||||0.960874
92244596|NCT06704178|184392391|SUPERIORITY|||||||0.999567||||||Comparison at Month 6|t-test, 2 sided|||||||0.999567
92244597|NCT06704178|184392392|SUPERIORITY|||||||0.981906||||||Comparison at Month 1|t-test, 2 sided|||||||0.981906
92244598|NCT06704178|184392392|SUPERIORITY|||||||0.945027||||||Comparison at Month 2|t-test, 2 sided|||||||0.945027
92244599|NCT06704178|184392392|SUPERIORITY|||||||0.767795||||||Comparison at Month 3|t-test, 2 sided|||||||0.767795
92244600|NCT06704178|184392392|SUPERIORITY|||||||0.996139||||||Comparison at Month 4|t-test, 2 sided|||||||0.996139
92244601|NCT06704178|184392392|SUPERIORITY|||||||0.952378||||||Comparison at Month 5|t-test, 2 sided|||||||0.952378
92244602|NCT06704178|184392392|SUPERIORITY|||||||0.998846||||||Comparison at Month 6|t-test, 2 sided|||||||0.998846
92244603|NCT06704178|184392393|SUPERIORITY|||||||0.55783||||||Comparison at Month 1|t-test, 2 sided|||||||0.55783
92244604|NCT06704178|184392393|SUPERIORITY|||||||0.987949||||||Comparison at Month 2|t-test, 2 sided|||||||0.987949
92244605|NCT06704178|184392393|SUPERIORITY|||||||0.576782||||||Comparison at Month 3|t-test, 2 sided|||||||0.576782
92244606|NCT06704178|184392393|SUPERIORITY|||||||0.998665||||||Comparison at Month 4|t-test, 2 sided|||||||0.998665
92244607|NCT06704178|184392393|SUPERIORITY|||||||0.989226||||||Comparison at Month 5|t-test, 2 sided|||||||0.989226
92244608|NCT06704178|184392393|SUPERIORITY|||||||0.999567||||||Comparison at Month 6|t-test, 2 sided|||||||0.999567
92244609|NCT06704178|184392394|SUPERIORITY|||||||0.795476||||||Comparison at Month 1|t-test, 2 sided|||||||0.795476
92244610|NCT06704178|184392394|SUPERIORITY|||||||0.977286||||||Comparison at Month 2|t-test, 2 sided|||||||0.977286
92244611|NCT06704178|184392394|SUPERIORITY|||||||0.559556||||||Comparison at Month 3|t-test, 2 sided|||||||0.559556
92244612|NCT06704178|184392394|SUPERIORITY|||||||0.997753||||||Comparison at Month 4|t-test, 2 sided|||||||0.997753
92244613|NCT06704178|184392394|SUPERIORITY|||||||0.952378||||||Comparison at Month 5|t-test, 2 sided|||||||0.952378
92244614|NCT06704178|184392394|SUPERIORITY|||||||0.988108||||||Comparison at Month 6|t-test, 2 sided|||||||0.988108
92244615|NCT06704178|184392395|SUPERIORITY|||||||0.995367||||||Comparison at Month 1|t-test, 2 sided|||||||0.995367
92244616|NCT06704178|184392395|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
92244617|NCT06704178|184392395|SUPERIORITY|||||||0.974102||||||Comparison at Month 3|t-test, 2 sided|||||||0.974102
92244618|NCT06704178|184392395|SUPERIORITY|||||||0.998665||||||Comparison at Month 4|t-test, 2 sided|||||||0.998665
92244619|NCT06704178|184392395|SUPERIORITY|||||||0.999816||||||Comparison at Month 5|t-test, 2 sided|||||||0.999816
92244620|NCT06704178|184392395|SUPERIORITY|||||||0.999567||||||Comparison at Month 6|t-test, 2 sided|||||||0.999567
92244621|NCT06704178|184392396|SUPERIORITY|||||||0.882016||||||Comparison at Month 1|t-test, 2 sided|||||||0.882016
92244622|NCT06704178|184392396|SUPERIORITY|||||||0.860406||||||Comparison at Month 2|t-test, 2 sided|||||||0.860406
92244623|NCT06704178|184392396|SUPERIORITY|||||||0.958944||||||Comparison at Month 3|t-test, 2 sided|||||||0.958944
92244624|NCT06704178|184392396|SUPERIORITY|||||||0.998816||||||Comparison at Month 4|t-test, 2 sided|||||||0.998816
92244625|NCT06704178|184392396|SUPERIORITY|||||||0.989226||||||Comparison at Month 5|t-test, 2 sided|||||||0.989226
92244626|NCT06704178|184392396|SUPERIORITY|||||||0.999296||||||Comparison at Month 6|t-test, 2 sided|||||||0.999296
92244627|NCT06704178|184392397|SUPERIORITY|||||||0.999975||||||Comparison at Month 1.|t-test, 2 sided|||||||0.999975
92244628|NCT06704178|184392397|SUPERIORITY|||||||0.977286||||||Comparison at Month 2|t-test, 2 sided|||||||0.977286
92174395|NCT05337306|184241139|SUPERIORITY|||||||0.22|||||||ANCOVA|covariates include trial arm and baseline level of outcome.||LOCF for dropout/lost to follow up||||.220
92244629|NCT06704178|184392397|SUPERIORITY|||||||0.999||||||Comparison at Month 3.|t-test, 2 sided|||||||0.999
92174396|NCT02761057|184241205|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.019|TWO_SIDED|95.0|0.37|0.97|||Regression, Cox|||A proportional hazards model was used to compare the Hazard Ratio (HR) for PFS.||0.97|0.37|0.019
92174397|NCT02761057|184241206|SUPERIORITY|||||||0.1|||||||Chi-squared|||The Chi-Square test will be used to compare RR between sunitinib and cabozantinib.||||0.10
92244630|NCT06704178|184392397|SUPERIORITY|||||||0.999984||||||Comparison at Month 4.|t-test, 2 sided|||||||0.999984
92244631|NCT06704178|184392397|SUPERIORITY|||||||0.986557||||||Comparison at Month 5.|t-test, 2 sided|||||||0.986557
92244632|NCT06704178|184392397|SUPERIORITY|||||||0.998367||||||Comparison at Month 6.|t-test, 2 sided|||||||0.998367
92244633|NCT06704178|184392398|SUPERIORITY|||||||0.999851||||||Comparison at Month 1.|t-test, 2 sided|||||||0.999851
92244634|NCT06704178|184392398|SUPERIORITY|||||||0.999779||||||Comparison at Month 2.|t-test, 2 sided|||||||0.999779
92244635|NCT06704178|184392398|SUPERIORITY|||||||0.999801||||||Comparison at Month 3.|t-test, 2 sided|||||||0.999801
92244636|NCT06704178|184392398|SUPERIORITY|||||||0.998467||||||Comparison at Month 4.|t-test, 2 sided|||||||0.998467
92244637|NCT06704178|184392398|SUPERIORITY|||||||0.999816||||||Comparison at Month 5.|t-test, 2 sided|||||||0.999816
92244638|NCT06704178|184392398|SUPERIORITY|||||||0.998846||||||Comparison at Month 6.|t-test, 2 sided|||||||0.998846
92244639|NCT06704178|184392399|SUPERIORITY||||||>|0.999999||||||Comparison at Month 1.|t-test, 2 sided|||||||>0.999999
92244640|NCT06704178|184392399|SUPERIORITY|||||||0.999779||||||Comparison at Month 2.|t-test, 2 sided|||||||0.999779
92244641|NCT06704178|184392399|SUPERIORITY|||||||0.999801||||||Comparison at Month 3.|t-test, 2 sided|||||||0.999801
92244642|NCT06704178|184392399|SUPERIORITY|||||||0.963236||||||Comparison at Month 4.|t-test, 2 sided|||||||0.963236
92281665|NCT02097121|184466611|SUPERIORITY||Risk difference %|15.5|||=|0.6092|TWO_SIDED|95.0|-18.94|46.19|||Cochran-Mantel-Haenszel|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using the Cochran-Mantel-Haenszel (CMH) method stratified by baseline daytime urinary urgency incontinence episodes (a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period)."||46.19|-18.94|= 0.6092
92281666|NCT02097121|184466611|SUPERIORITY||Risk difference %|17.6|||=|0.4824|TWO_SIDED|95.0|-16.2|48.9|||Cochran-Mantel-Haenszel|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using the Cochran-Mantel-Haenszel (CMH) method stratified by baseline daytime urinary urgency incontinence episodes (a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period)."||48.9|-16.2|= 0.4824
92244643|NCT06704178|184392399|SUPERIORITY|||||||0.999816||||||Comparison at Month 5.|t-test, 2 sided|||||||0.999816
92244644|NCT06704178|184392399|SUPERIORITY|||||||0.737995||||||Comparison at Month 6.|t-test, 2 sided|||||||0.737995
92244645|NCT06704178|184392400|SUPERIORITY|||||||0.0003||||||Within-group analysis only.|t-test, 2 sided|||||||0.0003
92244646|NCT06704178|184392401|SUPERIORITY|||||||0.2698||||||Within-group analysis only.|t-test, 2 sided|||||||0.2698
92244647|NCT06704178|184392402|SUPERIORITY|||||||0.2698||||||Within-group analysis only.|t-test, 2 sided|||||||0.2698
92244648|NCT06704178|184392403|SUPERIORITY|||||||0.2137||||||Within-group analysis only.|t-test, 2 sided|||||||0.2137
92244649|NCT06704178|184392404|SUPERIORITY|||||||0.8639||||||Within-group analysis only.|t-test, 2 sided|||||||0.8639
92244650|NCT06704178|184392405|SUPERIORITY|||||||0.239||||||Within-group analysis only.|t-test, 2 sided|||||||0.239
92244651|NCT06704178|184392406|SUPERIORITY|||||||0.6088||||||Within-group analysis only.|t-test, 2 sided|||||||0.6088
92244652|NCT06704178|184392407|SUPERIORITY|||||||0.5738||||||Within-group analysis only.|t-test, 2 sided|||||||0.5738
92244653|NCT06704178|184392408|SUPERIORITY|||||||0.6088||||||Within-group analysis only.|t-test, 2 sided|||||||0.6088
92244654|NCT06704178|184392409|SUPERIORITY|||||||0.4942||||||Within-group analysis only.|t-test, 2 sided|||||||0.4942
92244655|NCT06704178|184392410|SUPERIORITY|||||||0.7419||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.7419
92244656|NCT06704178|184392410|SUPERIORITY|||||||0.0033||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0033
92244657|NCT06704178|184392410|SUPERIORITY|||||||0.0219||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0219
92244658|NCT06704178|184392411|SUPERIORITY|||||||0.7708||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.7708
92244659|NCT06704178|184392411|SUPERIORITY|||||||0.239||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.239
92281667|NCT01200394|184466642|SUPERIORITY||Geometric Mean Ratio|0.843||||0.9889|TWO_SIDED|95.0|0.728|0.975||Posterior distribution was used to calculate a probability (presented as P-value) that PF-00489791 has a greater than 0% reduction in UACR compared to placebo.|ANCOVA||Geometric mean ratio and corresponding 95% credible intervals were calculated.|Analysis of covariance (ANCOVA) model within an outlier robust Bayesian framework on normal logarithmic scale with treatment as fixed effect, baseline UACR and baseline supine systolic blood pressure (BP) as covariate. Values were back-transformed from log scale. Model used informative prior distribution for placebo.||0.975|0.728|0.9889
92244660|NCT06704178|184392411|SUPERIORITY|||||||0.006||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.006
92244661|NCT06704178|184392412|SUPERIORITY|||||||0.0219||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0219
92244662|NCT06704178|184392412|SUPERIORITY|||||||0.0001||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0001
92244663|NCT06704178|184392412|SUPERIORITY||||||<|0.0001||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||<0.0001
92244664|NCT06704178|184392413|SUPERIORITY|||||||0.0695||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0695
92244665|NCT06704178|184392413|SUPERIORITY|||||||0.0124||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0124
92244666|NCT06704178|184392413|SUPERIORITY|||||||0.0016||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0016
92244667|NCT06704178|184392414|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244668|NCT06704178|184392414|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244669|NCT06704178|184392414|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244670|NCT06704178|184392414|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244671|NCT06704178|184392414|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244672|NCT06704178|184392414|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244673|NCT06704178|184392415|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244674|NCT06704178|184392415|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244675|NCT06704178|184392415|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244676|NCT06704178|184392415|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244677|NCT06704178|184392415|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244678|NCT06704178|184392415|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244679|NCT06704178|184392416|SUPERIORITY|||||||0.4598||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4598
92244680|NCT06704178|184392416|SUPERIORITY|||||||0.23||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.23
92244681|NCT06704178|184392416|SUPERIORITY|||||||0.0806||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0806
92244682|NCT06704178|184392416|SUPERIORITY|||||||0.0969||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0969
92244683|NCT06704178|184392416|SUPERIORITY|||||||0.6098||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.6098
92244684|NCT06704178|184392416|SUPERIORITY|||||||0.0369||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0369
92244685|NCT06704178|184392417|SUPERIORITY|||||||0.0384||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0384
92244686|NCT06704178|184392417|SUPERIORITY|||||||0.6328||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.6328
92244687|NCT06704178|184392417|SUPERIORITY|||||||0.0026||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0026
92244688|NCT06704178|184392417|SUPERIORITY|||||||0.0012||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0012
92244689|NCT06704178|184392417|SUPERIORITY|||||||0.0118||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0118
92244690|NCT06704178|184392417|SUPERIORITY|||||||0.0221||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0221
92244691|NCT06704178|184392418|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244692|NCT06704178|184392418|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244693|NCT06704178|184392418|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244694|NCT06704178|184392418|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244695|NCT06704178|184392418|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244696|NCT06704178|184392418|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244697|NCT06704178|184392419|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244698|NCT06704178|184392419|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244699|NCT06704178|184392419|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244700|NCT06704178|184392419|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244701|NCT06704178|184392419|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244702|NCT06704178|184392419|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244703|NCT06704178|184392420|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244704|NCT06704178|184392420|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92281668|NCT01200394|184466642|SUPERIORITY|||||||0.2402|TWO_SIDED|||||Posterior distribution was used to calculate a probability (presented as P-value) that PF-00489791 has a greater than or equal to 20% reduction in UACR compared to placebo.|ANCOVA|||ANCOVA model within an outlier robust Bayesian framework on normal logarithmic scale with treatment as fixed effect, baseline UACR and baseline supine systolic BP as covariate. Values were back-transformed from log scale. Model used informative prior distribution for placebo.||||0.2402
92287252|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|0.004||||0.928|TWO_SIDED|95.0|-0.078|0.086|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.086|-0.078|0.928
92244705|NCT06704178|184392420|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244706|NCT06704178|184392420|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92174398|NCT02761057|184241207|SUPERIORITY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.47|1.51|||Log Rank|||The log-rank test will be used to compare OS.||1.51|0.47|
92174399|NCT04971681|184241210|SUPERIORITY||||||<|0.27|||||||t-test, 2 sided|||||||<0.27
92174400|NCT04971681|184241211|SUPERIORITY||||||<|0.1|||||||t-test, 2 sided|||||||<0.10
92174401|NCT00686335|184241212|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.9|STANDARD_DEVIATION|6.07|||TWO_SIDED|95.0|-13.5|-2.2||As this was an explorative study to collect data for a subsequent controlled study, no hypothesis testing was performed. All analyses were descriptive.|Other|As this was an explorative study, no hypothesis testing was performed. All analyses were descriptive.||As this was an explorative study to collect data for a subsequent controlled study, no hypothesis testing was performed. All analyses were descriptive.||-2.2|-13.5|
92174402|NCT02677805|184241291|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92174403|NCT02677805|184241292|SUPERIORITY|||||||0.087||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary Outcome Measure shows a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||||0.087
92244707|NCT06704178|184392420|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244708|NCT06704178|184392420|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244709|NCT06704178|184392421|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92174404|NCT02677805|184241293|SUPERIORITY|||||||0.121||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||||0.121
92244710|NCT06704178|184392421|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244711|NCT06704178|184392421|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244712|NCT06704178|184392421|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244713|NCT06704178|184392421|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244714|NCT06704178|184392421|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244715|NCT06704178|184392422|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244716|NCT06704178|184392422|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244717|NCT06704178|184392422|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244718|NCT06704178|184392422|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244719|NCT06704178|184392422|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244720|NCT06704178|184392422|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244721|NCT06704178|184392423|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244722|NCT06704178|184392423|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244723|NCT06704178|184392423|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244724|NCT06704178|184392423|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244725|NCT06704178|184392423|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244726|NCT06704178|184392423|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244727|NCT06704178|184392424|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244728|NCT06704178|184392424|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244729|NCT06704178|184392424|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244730|NCT06704178|184392424|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244731|NCT06704178|184392424|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244732|NCT06704178|184392424|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244733|NCT06704178|184392425|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244734|NCT06704178|184392425|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244735|NCT06704178|184392425|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244736|NCT06704178|184392425|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244737|NCT06704178|184392425|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244738|NCT06704178|184392425|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244739|NCT06704178|184392426|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244740|NCT06704178|184392426|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244741|NCT06704178|184392426|SUPERIORITY|||||||0.3682||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.3682
92244742|NCT06704178|184392426|SUPERIORITY|||||||0.6098||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.6098
92244743|NCT06704178|184392426|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244744|NCT06704178|184392426|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244745|NCT06704178|184392427|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244746|NCT06704178|184392427|SUPERIORITY|||||||0.5691||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.5691
92244747|NCT06704178|184392427|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244748|NCT06704178|184392427|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244749|NCT06704178|184392427|SUPERIORITY|||||||0.6983||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.6983
92244750|NCT06704178|184392427|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244751|NCT06704178|184392428|SUPERIORITY|||||||0.819||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.819
92244752|NCT06704178|184392428|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244753|NCT06704178|184392428|SUPERIORITY|||||||0.5749||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.5749
92244754|NCT06704178|184392428|SUPERIORITY|||||||0.4873||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4873
92244755|NCT06704178|184392428|SUPERIORITY|||||||0.9998||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9998
92174405|NCT02677805|184241294|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for Investigator's In-clinic Assessment||||<0.001
92174406|NCT02677805|184241294|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for Subject's In-clinic Assessment||||<0.001
92244756|NCT06704178|184392428|SUPERIORITY|||||||0.819||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.819
92244757|NCT06704178|184392429|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244758|NCT06704178|184392429|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244759|NCT06704178|184392429|SUPERIORITY|||||||0.8495||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.8495
92244760|NCT06704178|184392429|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis.||||||>0.9999
92244761|NCT06704178|184392429|SUPERIORITY|||||||0.1951||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.1951
92244762|NCT06704178|184392429|SUPERIORITY|||||||0.0806||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis.||||||0.0806
92244763|NCT06704178|184392430|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244764|NCT06704178|184392430|SUPERIORITY|||||||0.6983||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.6983
92244765|NCT06704178|184392430|SUPERIORITY|||||||0.1062||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.1062
92244766|NCT06704178|184392430|SUPERIORITY|||||||0.0333||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0333
92281669|NCT01200394|184466643|SUPERIORITY||Geometric Mean Ratio|0.8759||||0.0382|TWO_SIDED|95.0|0.7727|0.9927|||Mixed Models Analysis|||Week 3: Mixed model repeated measures (MMRM) on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9927|0.7727|0.0382
92281670|NCT01200394|184466643|SUPERIORITY||Geometric Mean Ratio|0.8311||||0.0112|TWO_SIDED|95.0|0.7208|0.9584|||Mixed Models Analysis|||Week 6: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9584|0.7208|0.0112
92244767|NCT06704178|184392430|SUPERIORITY|||||||0.0734||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0734
92244768|NCT06704178|184392430|SUPERIORITY|||||||0.0219||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0219
92244769|NCT06704178|184392431|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244770|NCT06704178|184392431|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244771|NCT06704178|184392431|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244772|NCT06704178|184392431|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244773|NCT06704178|184392431|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244774|NCT06704178|184392431|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244775|NCT06704178|184392432|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244776|NCT06704178|184392432|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244777|NCT06704178|184392432|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244778|NCT06704178|184392432|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244779|NCT06704178|184392432|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244780|NCT06704178|184392432|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244781|NCT06704178|184392433|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244782|NCT06704178|184392433|SUPERIORITY|||||||0.982||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.982
92244783|NCT06704178|184392433|SUPERIORITY|||||||0.091||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.091
92244784|NCT06704178|184392433|SUPERIORITY|||||||0.4449||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4449
92244785|NCT06704178|184392433|SUPERIORITY|||||||0.0204||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0204
92244786|NCT06704178|184392433|SUPERIORITY|||||||0.0256||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0256
92244787|NCT06704178|184392434|SUPERIORITY|||||||0.9821||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9821
92244788|NCT06704178|184392434|SUPERIORITY|||||||0.0403||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0403
92244789|NCT06704178|184392434|SUPERIORITY|||||||0.0638||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0638
92244790|NCT06704178|184392434|SUPERIORITY|||||||0.7195||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.7195
92244791|NCT06704178|184392434|SUPERIORITY|||||||0.1856||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.1856
92244792|NCT06704178|184392434|SUPERIORITY|||||||0.1222||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.1222
92244793|NCT06704178|184392435|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244794|NCT06704178|184392435|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244795|NCT06704178|184392435|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within group analysis only.||||||>0.9999
92244796|NCT06704178|184392435|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244797|NCT06704178|184392435|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244798|NCT06704178|184392435|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244799|NCT06704178|184392436|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244800|NCT06704178|184392436|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244801|NCT06704178|184392436|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92281671|NCT01200394|184466643|SUPERIORITY||Geometric Mean Ratio|0.8816||||0.149|TWO_SIDED|95.0|0.7427|1.0465|||Mixed Models Analysis|||Week 16: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0465|0.7427|0.1490
92281672|NCT01200394|184466644|SUPERIORITY||Geometric Mean Ratio|0.8565||||0.0297|TWO_SIDED|95.0|0.745|0.9847|||Mixed Models Analysis|||Week 3: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9847|0.7450|0.0297
92281673|NCT01200394|184466644|SUPERIORITY||Geometric Mean Ratio|0.8524||||0.0305|TWO_SIDED|95.0|0.7376|0.985|||Mixed Models Analysis|||Week 6: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9850|0.7376|0.0305
92281674|NCT01200394|184466644|SUPERIORITY||Geometric Mean Ratio|0.7937||||0.0068|TWO_SIDED|95.0|0.6717|0.9378|||Mixed Models Analysis|||Week 12: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9378|0.6717|0.0068
92281675|NCT01200394|184466644|SUPERIORITY||Geometric Mean Ratio|0.8634||||0.1151|TWO_SIDED|95.0|0.719|1.0368|||Mixed Models Analysis|||Week 16: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0368|0.7190|0.1151
92281676|NCT01200394|184466645|SUPERIORITY||Geometric Mean Ratio|0.9816||||0.3585|TWO_SIDED|95.0|0.9434|1.0214|||Mixed Models Analysis|||Week 3: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0214|0.9434|0.3585
92281677|NCT01200394|184466645|SUPERIORITY||Geometric Mean Ratio|0.9939||||0.7475|TWO_SIDED|95.0|0.9577|1.0315|||Mixed Models Analysis|||Week 6: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0315|0.9577|0.7475
92281678|NCT01200394|184466645|SUPERIORITY||Geometric Mean Ratio|0.9866||||0.4972|TWO_SIDED|95.0|0.9488|1.0259|||Mixed Models Analysis|||Week 12: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0259|0.9488|0.4972
92281679|NCT01200394|184466645|SUPERIORITY||Geometric Mean Ratio|1.0024||||0.9146|TWO_SIDED|95.0|0.9588|1.0481|||Mixed Models Analysis|||Week 16: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0481|0.9588|0.9146
92244802|NCT06704178|184392436|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244803|NCT06704178|184392436|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92281680|NCT01200394|184466646|SUPERIORITY||Least Squares (LS) Mean Difference|-5.39|STANDARD_ERROR_OF_MEAN|1.2942|<|0.0001|TWO_SIDED|95.0|-7.94|-2.84|||Mixed Models Analysis|||Supine Systolic BP, Week 0: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||-2.84|-7.94|<0.0001
92244804|NCT06704178|184392436|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244805|NCT06704178|184392437|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244806|NCT06704178|184392437|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244807|NCT06704178|184392437|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244808|NCT06704178|184392437|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92281681|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|-3.71|STANDARD_ERROR_OF_MEAN|0.849|<|0.0001|TWO_SIDED|95.0|-5.38|-2.04|||Mixed Models Analysis|||Supine Diastolic BP, Week 0: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||-2.04|-5.38|<0.0001
92281682|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|-4.59|STANDARD_ERROR_OF_MEAN|0.9489|<|0.0001|TWO_SIDED|95.0|-6.46|-2.72|||Mixed Models Analysis|||Supine Mean BP, Week 0: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||-2.72|-6.46|<0.0001
92281683|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|1.4056||0.7093|TWO_SIDED|95.0|-3.29|2.24|||Mixed Models Analysis|||Supine Systolic BP, Week 3: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.24|-3.29|0.7093
92281684|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.9089||0.6564|TWO_SIDED|95.0|-1.39|2.2|||Mixed Models Analysis|||Supine Diastolic BP, Week 3: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.20|-1.39|0.6564
92244809|NCT06704178|184392437|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92281685|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|1.0334||0.8763|TWO_SIDED|95.0|-2.2|1.87|||Mixed Models Analysis|||Supine Mean BP, Week 3: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||1.87|-2.20|0.8763
92281686|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|1.4926||0.7491|TWO_SIDED|95.0|-3.42|2.46|||Mixed Models Analysis|||Supine Systolic BP, Week 6: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.46|-3.42|0.7491
92281687|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.9235||0.6141|TWO_SIDED|95.0|-2.29|1.35|||Mixed Models Analysis|||Supine Diastolic BP, Week 6: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||1.35|-2.29|0.6141
92244810|NCT06704178|184392437|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244811|NCT06704178|184392438|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244812|NCT06704178|184392438|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92281688|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|1.0582||0.5281|TWO_SIDED|95.0|-2.75|1.42|||Mixed Models Analysis|||Supine Mean BP, Week 6: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||1.42|-2.75|0.5281
92281689|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|1.8764||0.6695|TWO_SIDED|95.0|-2.9|4.5|||Mixed Models Analysis|||Supine Systolic BP, Week 12: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||4.50|-2.90|0.6695
92281690|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|1.073||0.5607|TWO_SIDED|95.0|-2.74|1.49|||Mixed Models Analysis|||Supine Diastolic BP, Week 12: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||1.49|-2.74|0.5607
92281691|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|1.2722||0.8297|TWO_SIDED|95.0|-2.78|2.23|||Mixed Models Analysis|||Supine Mean BP, Week 12: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.23|-2.78|0.8297
92281692|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|1.7065||0.7644|TWO_SIDED|95.0|-2.85|3.87|||Mixed Models Analysis|||Supine Systolic BP, Week 16: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||3.87|-2.85|0.7644
92244813|NCT06704178|184392438|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244814|NCT06704178|184392438|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244815|NCT06704178|184392438|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244816|NCT06704178|184392438|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244817|NCT06704178|184392439|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244818|NCT06704178|184392439|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244819|NCT06704178|184392439|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244820|NCT06704178|184392439|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244821|NCT06704178|184392439|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244822|NCT06704178|184392439|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244823|NCT06704178|184392440|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244824|NCT06704178|184392440|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244825|NCT06704178|184392440|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244826|NCT06704178|184392440|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244827|NCT06704178|184392440|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244828|NCT06704178|184392440|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244829|NCT06704178|184392441|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244830|NCT06704178|184392441|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244831|NCT06704178|184392441|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244832|NCT06704178|184392441|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244833|NCT06704178|184392441|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244834|NCT06704178|184392441|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244835|NCT06704178|184392442|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244836|NCT06704178|184392442|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244837|NCT06704178|184392442|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244838|NCT06704178|184392442|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244839|NCT06704178|184392442|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92281693|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|0.65|STANDARD_ERROR_OF_MEAN|0.9917||0.5123|TWO_SIDED|95.0|-1.3|2.61|||Mixed Models Analysis|||Supine Diastolic BP, Week 16: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.61|-1.30|0.5123
92244840|NCT06704178|184392442|SUPERIORITY|||||||0.982||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.982
92244841|NCT06704178|184392443|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244842|NCT06704178|184392443|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244843|NCT06704178|184392443|SUPERIORITY||||||>|0.9999||||||Month 3 vs Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244844|NCT06704178|184392443|SUPERIORITY||||||>|0.9999||||||Month 4 vs Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244845|NCT06704178|184392443|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244846|NCT06704178|184392443|SUPERIORITY||||||>|0.9999||||||Month 6 vs Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244847|NCT06704178|184392444|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244848|NCT06704178|184392444|SUPERIORITY|||||||0.9951||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9951
92244849|NCT06704178|184392444|SUPERIORITY|||||||0.999||||||Month 3 versus Baseline|t-test, 2 sided|Within-group analysis only.||||||0.999
92244850|NCT06704178|184392444|SUPERIORITY|||||||0.9913||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9913
92244851|NCT06704178|184392444|SUPERIORITY|||||||0.4517||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4517
92244852|NCT06704178|184392444|SUPERIORITY|||||||0.8187||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.8187
92244853|NCT06704178|184392445|SUPERIORITY|||||||0.998||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.998
92244854|NCT06704178|184392445|SUPERIORITY|||||||0.9591||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9591
92244855|NCT06704178|184392445|SUPERIORITY|||||||0.9994||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9994
92244856|NCT06704178|184392445|SUPERIORITY|||||||0.9936||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9936
92244857|NCT06704178|184392445|SUPERIORITY|||||||0.8526||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.8526
92244858|NCT06704178|184392445|SUPERIORITY|||||||0.4375||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4375
92244859|NCT06704178|184392446|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244860|NCT06704178|184392446|SUPERIORITY|||||||0.7477||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis.||||||0.7477
92244861|NCT06704178|184392446|SUPERIORITY|||||||0.297||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.297
92244862|NCT06704178|184392446|SUPERIORITY|||||||0.3503||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.3503
92244863|NCT06704178|184392446|SUPERIORITY|||||||0.297||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.297
92244864|NCT06704178|184392446|SUPERIORITY|||||||0.4449||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4449
92244865|NCT06704178|184392447|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244866|NCT06704178|184392447|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244867|NCT06704178|184392447|SUPERIORITY|||||||0.9188||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9188
92244868|NCT06704178|184392447|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244869|NCT06704178|184392447|SUPERIORITY|||||||0.3503||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.3503
92244870|NCT06704178|184392447|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
92244871|NCT01274338|184392458|SUPERIORITY|||||||0.065||||||This design provides at least 80% power at a one sided type I error rate of 0.003.|Log Rank|Stratified logrank test||This study has a two-step hierarchical approach. In the first step, the low-dose Ipi (LIP) will be compared with HDI. If the low-dose Ipi is significantly better than HDI, then the high-dose Ipi will be compared with HDI as a second step. When comparing the two investigational treatment groups, the primary comparison will be an intent to treat analysis of recurrence free survival (RFS; First Co-primary Endpoint) and overall survival (OS; Second Co-primary Endpoint).||||0.065
92244872|NCT01274338|184392459|SUPERIORITY|This design will provide 80% power to detect the difference between the two arms at a one-sided type I error rate of 0.022.||||||0.044|||||||Log Rank|Stratified logrank test||This study has a two-step hierarchical approach. In the first step, the low-dose Ipi (LIP) will be compared with HDI. If the low-dose Ipi is significantly better than HDI, then the high-dose Ipi will be compared with HDI as a second step. When comparing the two investigational treatment groups, the primary comparison will be an intent to treat analysis of recurrence free survival (RFS; First Co-primary Endpoint) and overall survival (OS; Second Co-primary Endpoint).||||0.044
92244873|NCT01274338|184392461|SUPERIORITY|||||||0.289||||||If low dose Ipi (LIP) vs. HDI is significant for OS at the 2.2% level, then we will compare high dose Ipi (HIP) vs. HDI at the 2.2% level.|Log Rank|Stratified logrank test||This study has a two-step hierarchical approach. In the first step, the low-dose Ipi (LIP) will be compared with HDI. If the low-dose Ipi is significantly better than HDI, then the high-dose Ipi will be compared with HDI as a second step. When comparing the two investigational treatment groups, the primary comparison will be an intent to treat analysis of recurrence free survival (RFS; First Co-primary Endpoint) and overall survival (OS; Second Co-primary Endpoint).||||0.289
92244874|NCT00798694|184392475|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||"Null Hypothesis: There is no significant difference in tear break-up time between the group New to Meds and the group Currently on Xalatan at two months."||||0.005
92281694|NCT01200394|184466646|SUPERIORITY||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|1.1355||0.6838|TWO_SIDED|95.0|-1.77|2.7|||Mixed Models Analysis|||Supine Mean BP, Week 16: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.70|-1.77|0.6838
92281695|NCT01200394|184466648|SUPERIORITY||Geometric Mean Ratio|0.9282||||0.5422|TWO_SIDED|95.0|0.7297|1.1807|||Mixed Models Analysis|||Week 3: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.1807|0.7297|0.5422
92281696|NCT01200394|184466648|SUPERIORITY||Geometric Mean Ratio|0.7998||||0.049|TWO_SIDED|95.0|0.6402|0.999|||Mixed Models Analysis|||Week 6: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9990|0.6402|0.0490
92281697|NCT01200394|184466648|SUPERIORITY||Geometric Mean Ratio|1.0435||||0.7264|TWO_SIDED|95.0|0.8211|1.3262|||Mixed Models Analysis|||Week 12: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.3262|0.8211|0.7264
92281698|NCT01200394|184466648|SUPERIORITY||Geometric Mean Ratio|1.1154||||0.3733|TWO_SIDED|95.0|0.8761|1.4201|||Mixed Models Analysis|||Week 16: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.4201|0.8761|0.3733
92281699|NCT02708277|184466690|SUPERIORITY_OR_OTHER|||||||0.009|||||||Chi-squared|||||||0.009
92281700|NCT02708277|184466691|SUPERIORITY_OR_OTHER|||||||0.303|||||||Chi-squared|||||||0.303
92281701|NCT02708277|184466692|SUPERIORITY_OR_OTHER|||||||0.606|||||||t-test, 2 sided|||||||0.606
92281702|NCT02708277|184466693|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||||||0.05
92281703|NCT02739984|184466699|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-64.14|STANDARD_ERROR_OF_MEAN|2.05|<|0.0001|TWO_SIDED|95.0|-68.16|-60.12|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-60.12|-68.16|<0.0001
92281704|NCT02739984|184466700|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-53.14|STANDARD_ERROR_OF_MEAN|2.25|<|0.0001|TWO_SIDED|95.0|-57.56|-48.71|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-48.71|-57.56|<0.0001
92281705|NCT02739984|184466701|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-67.2|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-72.1|-62.2|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-62.2|-72.1|<0.0001
92281706|NCT02739984|184466702|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-55.8|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|-61.0|-50.5|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-50.5|-61.0|<0.0001
92281707|NCT02739984|184466703|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-56.56|STANDARD_ERROR_OF_MEAN|1.89|<|0.0001|TWO_SIDED|95.0|-60.28|-52.85|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-52.85|-60.28|<0.0001
92281708|NCT02739984|184466704|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-46.28|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED|95.0|-50.42|-42.15|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-42.15|-50.42|<0.0001
92281709|NCT02739984|184466705|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-52.48|STANDARD_ERROR_OF_MEAN|1.85|<|0.0001|TWO_SIDED|95.0|-56.1|-48.85|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-48.85|-56.10|<0.0001
92281710|NCT02739984|184466706|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-42.12|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-46.13|-38.11|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-38.11|-46.13|<0.0001
92281711|NCT02739984|184466707|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-41.06|STANDARD_ERROR_OF_MEAN|1.44|<|0.0001|TWO_SIDED|95.0|-43.9|-38.22|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-38.22|-43.90|<0.0001
92174407|NCT02677805|184241295|SUPERIORITY|||||||0.218||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for responders rates at week 20||||0.218
92281712|NCT02739984|184466708|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-33.74|STANDARD_ERROR_OF_MEAN|1.59|<|0.0001|TWO_SIDED|95.0|-36.87|-30.6|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-30.60|-36.87|<0.0001
92281713|NCT02739984|184466709|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment Difference|77.9|||<|0.0001|TWO_SIDED|95.0|70.0|83.5|||Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Placebo|||83.5|70.0|<0.0001
92281714|NCT02739984|184466710|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment Difference|69.1|||<|0.0001|TWO_SIDED|95.0|60.4|75.7|||Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Placebo|||75.7|60.4|<0.0001
92281715|NCT02739984|184466711|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment Difference|83.5|||<|0.0001|TWO_SIDED|95.0|77.7|87.4|||Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Placebo|||87.4|77.7|<0.0001
92281716|NCT02739984|184466712|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment Difference|64.7|||<|0.0001|TWO_SIDED|95.0|57.7|70.3|||Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Placebo|||70.3|57.7|<0.0001
92281717|NCT02739984|184466713|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-40.5|STANDARD_ERROR_OF_MEAN|3.87|<|0.0001|TWO_SIDED|95.0|-48.11|-32.9|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-32.90|-48.11|<0.0001
92281718|NCT02739984|184466714|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-32.56|STANDARD_ERROR_OF_MEAN|3.57|<|0.0001|TWO_SIDED|95.0|-39.58|-25.53|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-25.53|-39.58|<0.0001
92281719|NCT02739984|184466715|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-19.25|STANDARD_ERROR_OF_MEAN|3.41|<|0.0001|TWO_SIDED|95.0|-25.95|-12.54|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-12.54|-25.95|<0.0001
92281720|NCT02739984|184466716|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-13.7|STANDARD_ERROR_OF_MEAN|4.02|<|0.0001|TWO_SIDED|95.0|-21.6|-5.8|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-5.80|-21.60|<0.0001
92281721|NCT02739984|184466717|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|9.8|STANDARD_ERROR_OF_MEAN|1.45|<|0.0001|TWO_SIDED|95.0|6.95|12.64|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||12.64|6.95|<0.0001
92281722|NCT02739984|184466718|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|7.37|STANDARD_ERROR_OF_MEAN|1.62|<|0.0001|TWO_SIDED|95.0|4.19|10.56|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||10.56|4.19|<0.0001
92281723|NCT02739984|184466719|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-17.06|STANDARD_ERROR_OF_MEAN|2.98|<|0.0001|TWO_SIDED|95.0|-22.91|-11.21|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-11.21|-22.91|<0.0001
92281724|NCT02739984|184466720|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-13.33|STANDARD_ERROR_OF_MEAN|3.44|<|0.0001|TWO_SIDED|95.0|-20.09|-6.56|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-6.56|-20.09|<0.0001
92281725|NCT01048333|184466725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.09||||0.002|TWO_SIDED|95.0|1.31|3.35|||Regression, Cox|||||3.35|1.31|0.002
92281726|NCT01048333|184466725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.534||||0.001|TWO_SIDED|95.0|3.55|12.02|||Regression, Cox|||||12.02|3.55|0.001
92281727|NCT01048333|184466725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.127||||0.001|TWO_SIDED|95.0|1.77|5.52|||Regression, Cox|||||5.52|1.77|0.001
92281728|NCT04947579|184466736|SUPERIORITY||Stratified difference|2.4||||0.829|TWO_SIDED|95.0|-18.2|22.7|||Cochran-Mantel-Haenszel||CC99677 60 mg - Placebo|||22.7|-18.2|0.829
92281729|NCT04947579|184466736|SUPERIORITY||Stratified difference|7.3||||0.512|TWO_SIDED|95.0|-13.8|27.5|||Cochran-Mantel-Haenszel||CC99677 150 mg - Placebo|||27.5|-13.8|0.512
92174408|NCT02677805|184241296|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Emotional domain - Change from Baseline at Week 4||||<0.001
92281730|NCT04947579|184466737|SUPERIORITY||Stratified difference|3.3||||0.725|TWO_SIDED|95.0|-14.9|21.0|||Cochran-Mantel-Haenszel||CC99677 60 mg - Placebo|||21.0|-14.9|0.725
92281731|NCT04947579|184466737|SUPERIORITY||Stratfied difference|12.2||||0.219|TWO_SIDED|95.0|-7.2|30.5|||Cochran-Mantel-Haenszel||CC99677 150 mg - Placebo|||30.5|-7.2|0.219
92281732|NCT04947579|184466738|SUPERIORITY||Difference in Adjusted Means|-0.17|STANDARD_ERROR_OF_MEAN|0.167||0.299|TWO_SIDED|95.0|-0.5|0.16|||Longitudinal data analysis model||CC99677 60 mg - Placebo|||0.16|-0.50|0.299
92281733|NCT04947579|184466738|SUPERIORITY||Difference in Adjusted Means|-0.12|STANDARD_ERROR_OF_MEAN|0.168||0.488|TWO_SIDED|95.0|-0.45|0.22|||Longitudinal data analysis model||CC99677 150 mg - Placebo|||0.22|-0.45|0.488
92281734|NCT04947579|184466739|SUPERIORITY||Difference in Adjusted Means|0.01|STANDARD_ERROR_OF_MEAN|0.391||0.97|TWO_SIDED|95.0|-0.76|0.79|||Longitudinal data analysis model||CC99677 60 mg - Placebo|||0.79|-0.76|0.970
92281735|NCT04947579|184466739|SUPERIORITY||Difference in Adjusted Means|-0.17|STANDARD_ERROR_OF_MEAN|0.393||0.668|TWO_SIDED|95.0|-0.95|0.61|||Longitudinal data analysis model||CC99677 150 mg - Placebo|||0.61|-0.95|0.668
92281736|NCT04947579|184466740|SUPERIORITY||Difference in Adjusted Means|0.06|STANDARD_ERROR_OF_MEAN|0.416||0.89|TWO_SIDED|95.0|-0.77|0.88|||Longitudinal data analysis model||CC99677 60 mg - Placebo|||0.88|-0.77|0.890
92281737|NCT04947579|184466740|SUPERIORITY||Difference in Adjusted Means|0.25|STANDARD_ERROR_OF_MEAN|0.417||0.545|TWO_SIDED|95.0|-0.57|1.08|||Longitudinal data analysis model||CC99677 150 mg - Placebo|||1.08|-0.57|0.545
92281738|NCT04947579|184466741|SUPERIORITY||Difference in Adjusted Means|-0.28|STANDARD_ERROR_OF_MEAN|0.999||0.778|TWO_SIDED|95.0|-2.26|1.7|||Longitudinal data analysis model||CC99677 60 mg - Placebo|||1.70|-2.26|0.778
92281739|NCT04947579|184466741|SUPERIORITY||Difference in Adjusted Means|-1.0|STANDARD_ERROR_OF_MEAN|1.022||0.33|TWO_SIDED|95.0|-3.02|1.03|||Longitudinal data analysis model||CC99677 150 mg - Placebo|||1.03|-3.02|0.330
92281740|NCT04947579|184466742|SUPERIORITY||Difference in Adjusted Means|-0.82|STANDARD_ERROR_OF_MEAN|1.567||0.6|TWO_SIDED|95.0|-3.93|2.28|||Longitudinal data analysis model||CC99677 60 mg - Placebo|||2.28|-3.93|0.600
92281741|NCT04947579|184466742|SUPERIORITY||Difference in Adjusted Means|-1.31|STANDARD_ERROR_OF_MEAN|1.605||0.416|TWO_SIDED|95.0|-4.49|1.87|||Longitudinal data analysis model||CC99677 150 mg - Placebo|||1.87|-4.49|0.416
92281742|NCT04947579|184466743|SUPERIORITY||Adjusted Mean|-6.26|STANDARD_ERROR_OF_MEAN|10.741||||95.0|-27.31|14.79||||||||14.79|-27.31|
92281743|NCT04947579|184466743|SUPERIORITY||Adjusted Mean|-18.58|STANDARD_ERROR_OF_MEAN|9.181|||TWO_SIDED|95.0|-36.57|-0.58||||||||-0.58|-36.57|
92281744|NCT04947579|184466743|SUPERIORITY||Adjusted Mean|-12.16|STANDARD_ERROR_OF_MEAN|10.105|||TWO_SIDED|95.0|-31.96|7.65||||||||7.65|-31.96|
92281745|NCT00767325|184466746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.282|||TWO_SIDED|95.0|-1.2|-0.1|||||Day 7|||-0.1|-1.2|
92281746|NCT00767325|184466746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.308|||TWO_SIDED|95.0|-2.0|-0.7|||||Day 15|||-0.7|-2.0|
92281747|NCT00767325|184466746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|0.383|||TWO_SIDED|95.0|-3.2|-1.7|||||Day 29|||-1.7|-3.2|
92281748|NCT00767325|184466746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|0.384|||TWO_SIDED|95.0|-3.7|-2.1|||||Day 43|||-2.1|-3.7|
92281749|NCT00767325|184466746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.393|||TWO_SIDED|95.0|-4.0|-2.4|||||Day 57|||-2.4|-4.0|
92281750|NCT00767325|184466746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|0.454|||TWO_SIDED|95.0|-4.7|-2.9|||||Day 85|||-2.9|-4.7|
92281751|NCT00767325|184466746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|0.472|||TWO_SIDED|95.0|-5.4|-3.5|||||Day 113|||-3.5|-5.4|
92281752|NCT00767325|184466746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|0.492|||TWO_SIDED|95.0|-5.8|-3.8|||||Day 141|||-3.8|-5.8|
92281753|NCT00767325|184466746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|0.473|||TWO_SIDED|95.0|-5.8|-3.9|||||Day 169|||-3.9|-5.8|
92281754|NCT00996736|184466764|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin is less than 1.5 lines logMAR acuity. (Adjusted three-month visual acuity confidence bounds for the difference between the voriconazole and natamycin groups which meet or exceed 0.15 logMAR units would not permit noninferiority to be declared.) Note that this design also allows declaration of superiority (2-sided alpha of 0.05, corrected for an interim analysis).|Mean Difference (Net)|-0.18||||0.006|TWO_SIDED|95.0|-0.3|-0.05|||Regression, Linear|||||-0.05|-0.30|0.006
92281755|NCT00770315|184466841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76||||0.2192|TWO_SIDED|95.0|-1.98|0.45|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.45|-1.98|0.2192
92281756|NCT00770315|184466841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58||||0.0113|TWO_SIDED|95.0|-2.8|-0.36|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.36|-2.80|0.0113
92281757|NCT00770315|184466841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04||||0.0015|TWO_SIDED|95.0|-3.3|-0.79|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.79|-3.30|0.0015
92281758|NCT00770315|184466842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88||||0.0878|TWO_SIDED|95.0|-1.88|0.13|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.13|-1.88|0.0878
92281759|NCT00770315|184466842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.0125|TWO_SIDED|95.0|-2.29|-0.28|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.28|-2.29|0.0125
92281760|NCT00770315|184466842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.92||||0.0003|TWO_SIDED|95.0|-2.95|-0.88|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.88|-2.95|0.0003
92281761|NCT00770315|184466843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.4781|TWO_SIDED|95.0|-0.96|0.45|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.45|-0.96|0.4781
92281762|NCT00770315|184466843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.1695|TWO_SIDED|95.0|-1.21|0.21|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.21|-1.21|0.1695
92281763|NCT00770315|184466843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.0118|TWO_SIDED|95.0|-1.67|-0.21|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.21|-1.67|0.0118
92281764|NCT00770315|184466844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.2622|TWO_SIDED|95.0|-0.93|0.25|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.25|-0.93|0.2622
92281765|NCT00770315|184466844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.1914|TWO_SIDED|95.0|-0.99|0.2|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.20|-0.99|0.1914
92281766|NCT00770315|184466844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.0021|TWO_SIDED|95.0|-1.57|-0.35|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.35|-1.57|0.0021
92244875|NCT03709810|184392484|SUPERIORITY||Geometric Mean Ratio|0.19|||<|0.0001|TWO_SIDED|95.0|0.12|0.3|||ANOVA|Log10 peanuts mass as response variable, study product and period as fixed explanatory effects, and participant as a random effect.|GMR=(Experimental denture adhesive/ No Adhesive)|||0.30|0.12|<0.0001
92244876|NCT02665364|184392576|SUPERIORITY||arithmetic mean|-30.2802|STANDARD_ERROR_OF_MEAN|5.2588|<|0.0001|TWO_SIDED|95.0|-40.6653|-19.8951|||ANCOVA|||The percent of change from baseline to last available value between W24 and W36 of treatment in the expression of IFN-induced genes was analyzed using an analysis of covariance (ANCOVA) model.||-19.8951|-40.6653|< 0.0001
92244877|NCT02665364|184392577|SUPERIORITY||Odds Ratio (OR)|1.38||||0.34|TWO_SIDED|95.0|0.716|2.657|||Regression, Logistic|||Descriptive statistics for the response to treatment according to BICLA at week 36 were presented by treatment group. The response to treatment according to BICLA was analyzed using a logistic regression with the response rate as dependent variable and treatment as independent variable, while adjusting for the minimization factors used for randomization.||2.657|0.716|0.34
92244878|NCT02665364|184392578|SUPERIORITY||Odds Ratio (OR)|1.18||||0.6243|TWO_SIDED|95.0|0.602|2.329|||Regression, Logistic|||The SRI-4 response was analyzed using a logistic regression using the response rate as dependent variable and treatment as independent variable, while adjusting for the minimization factors used for randomization.||2.329|0.602|0.6243
92244879|NCT02665364|184392579|SUPERIORITY|||||||0.0022|||||||Pearson's Chi-squared|||||||0.0022
92244880|NCT02665364|184392580|SUPERIORITY|||||||0.7946|||||||Wilcoxon (Mann-Whitney)|||Baseline to last available value between W24 and W36||||0.7946
92244881|NCT02665364|184392581|SUPERIORITY|||||||0.9224|||||||student - pooled|||||||0.9224
92244882|NCT02665364|184392582|SUPERIORITY|||||||0.3258|||||||student - pooled|||||||0.3258
92244883|NCT02665364|184392583|SUPERIORITY|||||||0.6169|||||||Student - Satterthwaite|||||||0.6169
92244884|NCT02665364|184392584|SUPERIORITY||Odds Ratio (OR)|1.81||||0.0796|TWO_SIDED|95.0|0.932|3.524|||Regression, Logistic|||||3.524|0.932|0.0796
92244885|NCT02665364|184392585|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0762|TWO_SIDED|95.0|0.938|3.574|||Regression, Logistic|||||3.574|0.938|0.0762
92244886|NCT02665364|184392588|SUPERIORITY|||||||0.0097|||||||Student - Satterthwaite|||||||0.0097
92244887|NCT02665364|184392589|SUPERIORITY|||||||0.0425|||||||Pearson's Chi-squared|||||||0.0425
92244888|NCT02665364|184392590|SUPERIORITY|||||||0.0396|||||||Pearson's Chi-squared|||||||0.0396
92244889|NCT03888391|184392591|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|Time: F = 1.72, df = 1/34||Outcomes fitted via a mixed model with time as a predictor.||||.20
92244890|NCT03888391|184392593|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Time: F = 44.47, df = 1/33||Outcomes fitted via a mixed model with time as a predictor.||||<.0001
92244891|NCT03888391|184392594|SUPERIORITY|||||||0.0004|||||||Mixed Models Analysis|Time: F = 15.74, df = 1/34||Outcomes fitted via a mixed model with time as a predictor.||||.0004
92244892|NCT03888391|184392595|SUPERIORITY|||||||0.6|||||||Mixed Models Analysis|Time: F = .28, df = 1/34||Outcomes fitted via a mixed model with time as a predictor.||||.60
92244893|NCT03888391|184392596|SUPERIORITY|||||||0.32|||||||Mixed Models Analysis|Time: F = 1.04, df = 1/34||Outcomes fitted via a mixed model with time as a predictor.||||.32
92244894|NCT03888391|184392597|SUPERIORITY|||||||0.27|||||||Mixed Models Analysis|Time: F = 1.27, df = 1/34||Outcomes fitted via a mixed model with time as a predictor.||||.27
92244895|NCT01722487|184392613|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.16|||<|0.0001|TWO_SIDED|95.0|0.09|0.28|||Log Rank|||||0.28|0.09|<0.0001
92244896|NCT01722487|184392614|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.16||||0.001|TWO_SIDED|95.0|0.05|0.56|||Log Rank|||||0.56|0.05|0.0010
92244897|NCT01722487|184392615|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92244898|NCT01722487|184392616|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92244899|NCT01722487|184392617|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92244900|NCT01722487|184392618|SUPERIORITY_OR_OTHER|||||||0.0009|||||||Chi-squared|||||||.0009
92244901|NCT01722487|184392619|SUPERIORITY_OR_OTHER|||||||0.0054|||||||Chi-squared|||||||.0054
92244902|NCT03025217|184392620|OTHER||Cohen's d|0.33||||0.095|TWO_SIDED||||||t-test, 2 sided|||||||.095
92244903|NCT03025217|184392621|OTHER||Cohen's d|0.75||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||.001
92244904|NCT01735617|184392628|SUPERIORITY_OR_OTHER||Geometric means|563.38|STANDARD_DEVIATION|162.51|||TWO_SIDED|||||||||The pharmacokinetic profile was characterised by an overnight rise in cortisol levels reaching a maximal concentration approximately 8 hours post dosing.||||
92244905|NCT01088438|184392687|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|1 degree of freedom||Null hypothesis: proportion of encounters with contextual red flag in which appropriate treatment is planned is the same in the two groups.||||<0.001
92244906|NCT01088438|184392688|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|1 degree of freedom||Null hypothesis is equal proportion of contextual red flags probed in control and intervention groups.||||<.001
92244907|NCT01088438|184392689|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Chi-squared|1 df||Null hypothesis is equal proportion of encounters probed in control and intervention groups.||||0.85
92244908|NCT00678587|184392711|SUPERIORITY_OR_OTHER||Absolute difference in proportions|52.8|||<|0.0001|TWO_SIDED|95.0|43.2|62.4|||Cochran-Mantel-Haenszel|||||62.4|43.2|<0.0001
92244909|NCT00678587|184392712|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-5.9|||||TWO_SIDED|95.0|-15.1|3.3||||||||3.3|-15.1|
92244910|NCT00678587|184392713|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92244911|NCT01019486|184392730|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Independent Student t test between arms with two tailed analysis||||<0.05
92174409|NCT02677805|184241296|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Social Functioning domain - Change from Baseline at Week 4||||<0.001
92174410|NCT02677805|184241296|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Overall score - Change from Baseline at Week 4.||||<0.001
92174411|NCT02677805|184241296|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for FACE-Q Appraisal of Lines Between Eyebrows - Change from Baseline at Week 4||||<0.001
92174412|NCT02677805|184241296|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for FACE-Q Age Appraisal VAS score||||<0.001
92244912|NCT01019486|184392730|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Independent Student t test between arms with two tailed analysis.||||<0.05
92244913|NCT01019486|184392730|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Independent Student t test between groups with two-tailed analysis||||<0.05
92281767|NCT00770315|184466845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.19|TWO_SIDED|95.0|-1.26|0.25|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.25|-1.26|0.1900
92244914|NCT01019486|184392731|NON_INFERIORITY_OR_EQUIVALENCE|If sufficient subjects were enrolled then it would be expected that the MRI measurement of myocardial blood flow MBF would similar or equivalent to the invasively measured CFR in response to intravenous regadenoson administration.|None insufficient data|2.0||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||No analysis was performed due to limited data.||||0.05
92244915|NCT01019486|184392732|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Comparison between groups using a two-tailed Student t test||||<.05
92244916|NCT02951988|184392761|SUPERIORITY|||||||0.5305|||||||Log Rank|||||||0.5305
92244917|NCT02951988|184392761|SUPERIORITY|||||||0.4628|||||||Log Rank|||||||0.4628
92244918|NCT02951988|184392762|SUPERIORITY|||||||0.6153|||||||Log Rank|||||||0.6153
92244919|NCT02951988|184392762|SUPERIORITY|||||||0.4123|||||||Log Rank|||||||0.4123
92244920|NCT00516269|184392764|SUPERIORITY_OR_OTHER||mean difference in treat versus control|0.42|STANDARD_DEVIATION|3.3||0.54||95.0|||||Wilcoxon signed rank test|||As a crossover study, the potential carryover effect was examined first. The pooled data (the 2-week treatment for each intervention i.e. period 1 \& period 2) was used to assess the treatment effect (A versus B).||||0.54
92244921|NCT04570657|184392769|SUPERIORITY||LS mean difference|0.036||||0.267|TWO_SIDED|80.0|-0.038|0.111||One-sided p-value|MMRM||Tozorakimab Dose A - Placebo|||0.111|-0.038|0.267
92244922|NCT04570657|184392769|SUPERIORITY||LS mean difference|0.004||||0.473|TWO_SIDED|80.0|-0.071|0.079||One-sided p-value|MMRM||Tozorakimab Dose B - Placebo|||0.079|-0.071|0.473
92244923|NCT04570657|184392770|SUPERIORITY||LS mean difference|-0.012||||0.437|TWO_SIDED|80.0|-0.11|0.086||One-sided p-value|MMRM||Week 8: Tozorakimab Dose A - Placebo|||0.086|-0.110|0.437
92244924|NCT04570657|184392770|SUPERIORITY||LS mean difference|0.059||||0.221|TWO_SIDED|80.0|-0.039|0.157||One-sided p-value|MMRM||Week 8: Tozorakimab Dose B - Placebo|||0.157|-0.039|0.221
92244925|NCT04570657|184392770|SUPERIORITY||LS mean difference|-0.038||||0.308|TWO_SIDED|80.0|-0.136|0.06||One-sided p-value|MMRM||Week 16: Tozorakimab Dose A - Placebo|||0.060|-0.136|0.308
92244926|NCT04570657|184392770|SUPERIORITY||LS mean difference|-0.025||||0.372|TWO_SIDED|80.0|-0.122|0.072||One-sided p-value|MMRM||Week 16: Tozorakimab Dose B - Placebo|||0.072|-0.122|0.372
92244927|NCT04570657|184392773|SUPERIORITY||LS mean difference|-0.03||||0.416|TWO_SIDED|80.0|-0.215|0.154||One-sided p-value|MMRM||Tozorakimab Dose A - Placebo|||0.154|-0.215|0.416
92244928|NCT04570657|184392773|SUPERIORITY||LS mean difference|-0.047||||0.371|TWO_SIDED|80.0|-0.231|0.137||One-sided p-value|MMRM||Tozorakimab Dose B - Placebo|||0.137|-0.231|0.371
92244929|NCT04570657|184392774|SUPERIORITY||Odds Ratio (OR)|1.2||||0.612|TWO_SIDED|80.0|0.76|1.9|||Chi-squared|||||1.90|0.76|0.612
92244930|NCT04570657|184392774|SUPERIORITY||Odds Ratio (OR)|1.41||||0.348|TWO_SIDED|80.0|0.88|2.25|||Chi-squared|||||2.25|0.88|0.348
92244931|NCT04570657|184392775|SUPERIORITY||Odds Ratio (OR)|0.81||||0.575|TWO_SIDED|80.0|0.5|1.31|||Chi-squared|||||1.31|0.50|0.575
92244932|NCT04570657|184392775|SUPERIORITY||Odds Ratio (OR)|0.86||||0.679|TWO_SIDED|80.0|0.53|1.38|||Chi-squared|||||1.38|0.53|0.679
92244933|NCT04570657|184392776|SUPERIORITY||LS mean difference|0.002||||0.5|TWO_SIDED|80.0|-3.825|3.828||One-sided p-value|MMRM||SGRQ Activity Total Score: Tozorakimab Dose A - Placebo|||3.828|-3.825|0.500
92244934|NCT04570657|184392776|SUPERIORITY||LS mean difference|-1.364||||0.324|TWO_SIDED|80.0|-5.198|2.47||One-sided p-value|MMRM||SGRQ Activity Total Score: Tozorakimab Dose B - Placebo|||2.470|-5.198|0.324
92244935|NCT04570657|184392776|SUPERIORITY||LS mean difference|-1.421||||0.248|TWO_SIDED|80.0|-4.103|1.26||One-sided p-value|MMRM||SGRQ Impacts Total Score: Tozorakimab Dose A - Placebo|||1.260|-4.103|0.248
92244936|NCT04570657|184392776|SUPERIORITY||LS mean difference|-1.694||||0.21|TWO_SIDED|80.0|-4.383|0.996||One-sided p-value|MMRM||SGRQ Impacts Total Score: Tozorakimab Dose B - Placebo|||0.996|-4.383|0.210
92244937|NCT04570657|184392776|SUPERIORITY||LS mean difference|0.691||||0.42|TWO_SIDED|80.0|-3.715|5.096||One-sided p-value|MMRM||SGRQ Symptoms Total Score: Tozorakimab Dose A - Placebo|||5.096|-3.715|0.420
92244938|NCT04570657|184392776|SUPERIORITY||LS mean difference|-3.15||||0.181|TWO_SIDED|80.0|-7.579|1.28||One-sided p-value|MMRM||SGRQ Symptoms Total Score: Tozorakimab Dose B - Placebo|||1.280|-7.579|0.181
92244939|NCT04570657|184392776|SUPERIORITY||LS mean difference|-0.663||||0.38|TWO_SIDED|80.0|-3.454|2.129||One-sided p-value|MMRM||SGRQ Total Score: Tozorakimab Dose A - Placebo|||2.129|-3.454|0.380
92244940|NCT04570657|184392776|SUPERIORITY||LS mean difference|-1.896||||0.192|TWO_SIDED|80.0|-4.694|0.903||One-sided p-value|MMRM||SGRQ Total Score: Tozorakimab Dose B - Placebo|||0.903|-4.694|0.192
92244941|NCT04570657|184392777|SUPERIORITY||Odds Ratio (OR)|0.93||||0.828|TWO_SIDED|80.0|0.59|1.46|||Chi-squared|||||1.46|0.59|0.828
92244942|NCT04570657|184392777|SUPERIORITY||Odds Ratio (OR)|1.07||||0.84|TWO_SIDED|80.0|0.68|1.7|||Chi-squared|||||1.70|0.68|0.840
92244943|NCT04570657|184392778|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.239|TWO_SIDED|80.0|0.8|2.0||One-sided p-value|Regression, Cox|Cox regression model with treatment group, background medication, geographic region, and ICS total daily dose as covariates.||||2.0|0.8|0.239
92244944|NCT04570657|184392778|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.461|TWO_SIDED|80.0|0.6|1.7||One-sided p-value|Regression, Cox|Cox regression model with treatment group, background medication, geographic region, and ICS total daily dose as covariates.||||1.7|0.6|0.461
92244945|NCT04570657|184392779|SUPERIORITY||Rate ratio|0.87||||0.346|TWO_SIDED|80.0|0.56|1.36||One-sided p-value|Negative binomial regression|||||1.36|0.56|0.346
92244946|NCT04570657|184392779|SUPERIORITY||Rate ratio|0.7||||0.166|TWO_SIDED|80.0|0.43|1.12||One-sided p-value|Negative binomial regression|||||1.12|0.43|0.166
92244947|NCT04570657|184392780|SUPERIORITY||Geometric LS mean ratio|0.869||||0.029|TWO_SIDED|80.0|0.791|0.956||One-sided p-value|MMRM|||||0.956|0.791|0.029
92244948|NCT04570657|184392780|SUPERIORITY||Geometric LS mean ratio|0.879||||0.04|TWO_SIDED|80.0|0.8|0.966||One-sided p-value|MMRM|||||0.966|0.800|0.040
92244949|NCT04570657|184392781|SUPERIORITY||LS mean difference|0.023||||0.385|TWO_SIDED|80.0|-0.078|0.124||One-sided p-value; alpha = 0.1|MMRM||Tozorakimab Dose A - Placebo|1 Exacerbation in Last 12 Months||0.124|-0.078|0.385
92244950|NCT04570657|184392781|SUPERIORITY||LS mean difference|-0.123||||0.06|TWO_SIDED|80.0|-0.224|-0.022||One-sided p-value; alpha = 0.1|MMRM||Tozorakimab Dose B - Placebo|1 Exacerbation in Last 12 Months||-0.022|-0.224|0.060
92244951|NCT04570657|184392781|SUPERIORITY||LS mean Difference|0.077||||0.186|TWO_SIDED|80.0|-0.034|0.187||One-sided p-value; alpha = 0.1|MMRM||Tozorakimab Dose A - Placebo|≥ 2 Exacerbation in Last 12 Months||0.187|-0.034|0.186
92244952|NCT04570657|184392781|SUPERIORITY||LS mean difference|0.212||||0.007|TWO_SIDED|80.0|0.102|0.322||One-sided p-value; alpha = 0.1|MMRM||Tozorakimab Dose B - Placebo|≥ 2 Exacerbation in Last 12 Months||0.322|0.102|0.007
92244953|NCT04570657|184392782|SUPERIORITY||Geometric LS Mean Ratio|0.63|||<|0.001|TWO_SIDED|80.0|0.559|0.71||One-sided p-value|MMRM|||Analysis at Week 16 based on MMRM which included fixed effects for baseline, background medication, geographic region, baseline ICS total daily dose, visit, treatment and the baseline by visit and treatment by visit interactions.||0.710|0.559|< 0.001
92244954|NCT04570657|184392782|SUPERIORITY||Geometric LS Mean Ratio|0.675|||<|0.001|TWO_SIDED|80.0|0.599|0.76||One-sided p-value|MMRM|||Analysis at Week 16 based on MMRM which included fixed effects for baseline, background medication, geographic region, baseline ICS total daily dose, visit, treatment and the baseline by visit and treatment by visit interactions.||0.760|0.599|< 0.001
92244955|NCT01079962|184392783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.701||||0.5943|TWO_SIDED|95.0|-1.89|3.29||No adjustment of p-value was done and priori threshold was 0.05.|t-test, 2 sided|||Change in APP at Week 12: p-value was calculated by 2 sided t-test.||3.29|-1.89|0.5943
92244956|NCT01079962|184392784|SUPERIORITY_OR_OTHER|||||||0.8589||95.0|||||t-test, 2 sided|||Change in SBP at Week 4: p-value was calculated by 2 sided t-test.||||0.8589
92244957|NCT01079962|184392784|SUPERIORITY_OR_OTHER|||||||0.2223||95.0|||||t-test, 2 sided|||Change in SBP at Week 12: p-value was calculated by 2 sided t-test.||||0.2223
92244958|NCT01079962|184392784|SUPERIORITY_OR_OTHER|||||||0.2443||95.0|||||t-test, 2 sided|||Change in DBP at Week 4: p-value was calculated by 2 sided t-test.||||0.2443
92244959|NCT01079962|184392784|SUPERIORITY_OR_OTHER|||||||0.1481||95.0|||||t-test, 2 sided|||Change in DBP at Week 12: p-value was calculated by 2 sided t-test.||||0.1481
92244960|NCT01079962|184392784|SUPERIORITY_OR_OTHER|||||||0.4188||95.0|||||t-test, 2 sided|||Change in mean BP at Week 4: p-value was calculated by 2 sided t-test.||||0.4188
92244961|NCT01079962|184392784|SUPERIORITY_OR_OTHER|||||||0.1586||95.0|||||t-test, 2 sided|||Change in mean BP at Week 12: p-value was calculated by 2 sided t-test.||||0.1586
92244962|NCT01079962|184392785|SUPERIORITY_OR_OTHER|||||||0.2987||95.0|||||t-test, 2 sided|||Change in AIx at Week 4: p-value was calculated by 2 sided t-test.||||0.2987
92244963|NCT01079962|184392785|SUPERIORITY_OR_OTHER|||||||0.6584||95.0|||||t-test, 2 sided|||Change in AIx at Week 12: p-value was calculated by 2 sided t-test.||||0.6584
92244964|NCT01079962|184392786|SUPERIORITY_OR_OTHER|||||||0.2511||95.0|||||t-test, 2 sided|||Change in cfPWV at Week 4: p-value was calculated by 2 sided t-test.||||0.2511
92244965|NCT01079962|184392786|SUPERIORITY_OR_OTHER|||||||0.5007||95.0|||||t-test, 2 sided|||Change in cfPWV at Week 12: p-value was calculated by 2 sided t-test.||||0.5007
92244966|NCT01079962|184392787|SUPERIORITY_OR_OTHER|||||||0.9943||95.0|||||t-test, 2 sided|||Change in heart rate at Week 4: p-value was calculated by 2 sided t-test.||||0.9943
92244967|NCT01079962|184392787|SUPERIORITY_OR_OTHER|||||||0.523||95.0|||||t-test, 2 sided|||Change in heart rate at Week 12: p-value was calculated by 2 sided t-test.||||0.5230
92281768|NCT00770315|184466845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.0053|TWO_SIDED|95.0|-1.84|-0.32|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.32|-1.84|0.0053
92281769|NCT00770315|184466845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.0058|TWO_SIDED|95.0|-1.89|-0.32|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.32|-1.89|0.0058
92244968|NCT01079962|184392788|SUPERIORITY_OR_OTHER|||||||0.4447||95.0|||||t-test, 2 sided|||||||0.4447
92281770|NCT05771428|184466846|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.939||0.9819|TWO_SIDED|95.0|-1.87|1.83|||Mixed-effect Model Repeated Measurement|||||1.83|-1.87|0.9819
92244969|NCT01079962|184392789|SUPERIORITY_OR_OTHER|||||||0.396||95.0|||||t-test, 2 sided|||Change in Total cholesterol at Week 12: p-value was calculated by 2 sided t-test.||||0.3960
92244970|NCT01079962|184392789|SUPERIORITY_OR_OTHER|||||||0.1919||95.0|||||t-test, 2 sided|||Change in LDL-cholesterol at Week 12: p-value was calculated by 2 sided t-test.||||0.1919
92244971|NCT01079962|184392789|SUPERIORITY_OR_OTHER|||||||0.1896||95.0|||||t-test, 2 sided|||Change in HDL-cholesterol at Week 12: p-value was calculated by 2 sided t-test.||||0.1896
92244972|NCT01079962|184392790|SUPERIORITY_OR_OTHER|||||||0.9244||95.0|||||t-test, 2 sided|||||||0.9244
92281771|NCT05771428|184466846|SUPERIORITY||LS Mean of Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.931||0.6545|TWO_SIDED|95.0|-2.25|1.42|||Mixed-effect Model Repeated Measurement|||||1.42|-2.25|0.6545
92281772|NCT05771428|184466846|SUPERIORITY||LS Mean of Difference|0.25|STANDARD_ERROR_OF_MEAN|0.928||0.786|TWO_SIDED|95.0|-1.58|2.08|||Mixed-effect Model Repeated Measurement|||||2.08|-1.58|0.7860
92244973|NCT01079962|184392791|SUPERIORITY_OR_OTHER|||||||0.9692||95.0|||||t-test, 2 sided|||Change in SBP at Week 4: p-value was calculated by 2 sided t-test.||||0.9692
92244974|NCT01079962|184392791|SUPERIORITY_OR_OTHER|||||||0.4731||95.0|||||t-test, 2 sided|||Change in SBP at Week 12: p-value was calculated by 2 sided t-test.||||0.4731
92244975|NCT01079962|184392791|SUPERIORITY_OR_OTHER|||||||0.2876||95.0|||||t-test, 2 sided|||Change in DBP at Week 4: p-value was calculated by 2 sided t-test.||||0.2876
92244976|NCT01079962|184392791|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||t-test, 2 sided|||Change in DBP at Week 12: p-value was calculated by 2 sided t-test.||||0.0420
92244977|NCT01079962|184392791|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||t-test, 2 sided|||Change in mean BP at Week 4: p-value was calculated by 2 sided t-test.||||0.5100
92281773|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.4||||||95.0|-2.2|1.0||||||For Pertussis PT the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated.||1.0|-2.2|
92281774|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-4.0|3.8||||||For Pertussis PT the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥16 EU/mL threshold was calculated.||3.8|-4.0|
92281775|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.4||||||For Pertussis FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated||1.4|-1.6|
92244978|NCT01079962|184392791|SUPERIORITY_OR_OTHER|||||||0.1207||95.0|||||t-test, 2 sided|||Change in mean BP at Week 12: p-value was calculated by 2 sided t-test.||||0.1207
92244979|NCT01079962|184392793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.442||||0.7561||95.0|-2.36|3.24||No adjustment of p-value was done and priori threshold was 0.05.|t-test, 2 sided|||||3.24|-2.36|0.7561
92244980|NCT01072539|184392796|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level: 0.05|Fisher Exact|||Comparison among subgroups of Infection Sites: cSSSI, cIAI, CAP, cIAI + cSSSI, and cIAI + CAP.||||<0.0001
92244981|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0067||||||Statistical significant level: 0.05|Chi-squared|||Geriatrc: \<65 Years Versus (VS) Geriatrc: \>=65 Years||||0.0067
92244982|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0412||||||Statistical significant level: 0.05|Chi-squared|||Comparison among Age categories: \<30 Years, 30 to 39 Years, 40 to 49 Years, 50 to 64 Years, and \>=65 Years.||||0.0412
92244983|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4792||||||Statistical significant level: 0.05|Chi-squared|||Sex: Male VS Sex: Female||||0.4792
92244984|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9669||||||Statistical significant level: 0.05|Chi-squared|||Comparson among Duration of Disease categories: \<3 Months, \>=3 Months and \<6 Months, and \>=6 Months||||0.9669
92244985|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0064||||||Statistical significant level: 0.05|Fisher Exact|||Comparison among subgroups of infection site: cSSSI, cIAI, CAP, cIAI + cSSSI, and cIAI + CAP.||||0.0064
92244986|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Satistical significant level: 0.05|Chi-squared|||Comparison among severity of infection subgroups: Mild, Moderate, and Severe.||||<0.0001
92244987|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level: 0.05|Chi-squared|||General Medical History: Yes VS General Medical History: No||||<0.0001
92244988|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level: 0.05|Chi-squared|||General Medical History (Present): Yes VS General Medical History (Present): No||||<0.0001
92244989|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006||||||Statistical significant level: 0.05|Chi-squared|||General Medical History (Past): Yes VS General Medical History (Past): No||||0.0006
92281776|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.4||||||For Pertussis FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥7.82 EU/mL threshold was calculated.||1.4|-1.6|
92281777|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.9||||||95.0|-5.0|2.9||||||For Pertussis FHA the difference in percentages between the two groups ( 13vPnC - 7vPnC) at ≥31 EU/mL threshold was calculated.||2.9|-5.0|
92244990|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Chi-squared|||Kidney Disorder: Yes VS Kidney Disorder: No||||<0.0001
92244991|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level: 0.05|Chi-squared|||Liver Disorder: Yes VS Liver Disorder: No||||<0.0001
92244992|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0153||||||Statistical significant level: 0.05|Chi-squared|||Comparison among subgroups of Total Treatment Period of Tygacil: \<7 Days, 7 to 14 Days, and \>14 Days||||0.0153
92244993|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level 0.05|Fisher Exact|||Comparison among subgroups of Mean Daily Dose of Tygacil: \<50 mg, 50 to \<100 mg, 100 to \<200 mg, and \>=200 mg.||||<0.0001
92244994|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0376||||||Statistical significant level: 0.05|Chi-squared|||Past Medication and Therapy: Yes VS Past Medication and Therapy: No||||0.0376
92244995|NCT01072539|184392797|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level: 0.05|Chi-squared|||Concomitant Medications: Yes VS Concomitant Medications: No||||<0.0001
92244996|NCT00621855|184392813|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Armitage test for linear trend|||"The proportion of patients who reach this endpoint were analysed by a logistic model for linear trend (dose response).~The null hypothesis is that the relationship between dose level (0mg, 50mg, 75mg, 110mg and 150mg) and the proportions of patients with major and clinically relevant minor bleeding is not linear (slope parameter = 0)"||||<0.001
92244997|NCT00621855|184392816|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Armitage test for linear trend|||"The proportion of patients who reach this endpoint were analysed by a logistic model for linear trend (dose response).~The null hypothesis is that the relationship between dose level (0mg, 50mg, 75mg, 110mg and 150mg) and the proportions of patients with major and clinically relevant minor bleeding is not linear (slope parameter = 0)"||||<0.001
92244998|NCT03731364|184392820|SUPERIORITY|||||||0.276|||||||ANOVA|||||||0.276
92244999|NCT03731364|184392820|SUPERIORITY|||||||0.651|||||||ANOVA|||||||0.651
92245000|NCT03731364|184392820|SUPERIORITY|||||||0.556|||||||ANOVA|||||||0.556
92281778|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.5|1.4||||||For Pertactin the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated.||1.4|-1.5|
92245001|NCT03731364|184392821|SUPERIORITY|||||||0.136|||||||Wilcoxon (Mann-Whitney)|||||||0.136
92245002|NCT03731364|184392821|SUPERIORITY|||||||0.649|||||||Wilcoxon (Mann-Whitney)|||||||0.649
92245003|NCT03731364|184392821|SUPERIORITY|||||||0.608|||||||Wilcoxon (Mann-Whitney)|||||||0.608
92245004|NCT03731364|184392822|SUPERIORITY||Odds Ratio (OR)|0.0||||0|TWO_SIDED|||||Not estimable|Regression, Logistic|Not estimable|Not estimable|Not estimable||||0
92245005|NCT03731364|184392822|SUPERIORITY||Odds Ratio (OR)|0.0||||0|TWO_SIDED|||||Not estimable|Regression, Logistic|Not estimable|Not estimable|Not estimable||||0
92245006|NCT03731364|184392822|SUPERIORITY||Odds Ratio (OR)|0.0||||0|TWO_SIDED|||||Not estimable|Regression, Logistic||Not estimable|Not estimable||||0
92245007|NCT03731364|184392823|SUPERIORITY|||||||0.306|||||||ANOVA|||||||0.306
92245008|NCT03731364|184392823|SUPERIORITY|||||||0.595|||||||ANOVA|||||||0.595
92245009|NCT03731364|184392823|SUPERIORITY|||||||0.242|||||||ANOVA|||||||0.242
92245010|NCT03655717|184392847|SUPERIORITY||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.113||0.94|TWO_SIDED|95.0|-0.259|0.184||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for dronabinol conditions (positive values denote higher HbO levels for post-dronabinol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with dronabinol (i.e., a main effect for dronabinol dose), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.184|-0.259|0.94
92281779|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-3.2||||||95.0|-7.8|1.0||||||For Pertactin the difference in percentages between the two groups ( 13vPnC - 7vPnC) at ≥40 EU/mL threshold was calculated.||1.0|-7.8|
92174413|NCT03097549|184241363|SUPERIORITY||Estimated difference|-3.1||||0.001|TWO_SIDED|95.0|-4.8|-1.3|||Mixed Models Analysis|||Comparison of mean scores using a linear mixed model, incorporating baseline data and accounting for all available data. Sample size calculation: We anticipated ICIQ-UI SF improvements of 2.5 points in the treatment group and 0.9 points in the information group. Detecting this difference with 80% power, a two-sided test, and a significance level of P\<.05 would require a sample size of 49 in each group. With an expected drop-out rate of 20%, we needed approximately 60 participants in each group.||-1.3|-4.8|0.001
92245011|NCT03655717|184392847|SUPERIORITY||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.206||0.94|TWO_SIDED|95.0|-0.421|0.386||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for ethanol conditions (positive values denote higher HbO levels for post-ethanol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with ethanol (i.e., a main effect for ethanol dose), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.386|-0.421|0.94
92264810|NCT04579666|184431135|SUPERIORITY||Difference in LS Mean|-0.19||||0.0935|TWO_SIDED|95.0|-0.42|0.03|||MMRM|||The MMRM included fixed categorical effects for treatment, week, and the week-by-treatment interaction, as well as the continuous, fixed covariate of the baseline value of the endpoint, and the week-by-baseline interaction, baseline log NfL, time from symptoms onset to the first dose of study drug, and randomization stratification factors (location of first muscle weakness and use of riluzole and/or edaravone).||0.03|-0.42|0.0935
92264811|NCT04579666|184431137|SUPERIORITY||Difference in LS Mean|6.5||||0.0069|TWO_SIDED|95.0|1.8|11.1|||MMRM|||The MMRM included fixed categorical effects for treatment, week, and the week-by-treatment interaction, as well as the continuous, fixed covariate of the baseline value of the endpoint, and the week-by-baseline interaction, baseline log NfL, time from symptoms onset to the first dose of study drug, and randomization stratification factors (location of first muscle weakness and use of riluzole and/or edaravone).||11.1|1.8|0.0069
92264812|NCT00808665|184431160|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
92264813|NCT01694849|184431177|SUPERIORITY||Odds Ratio (OR)|1.092||||0.8539|TWO_SIDED|95.0|0.427|2.795||To deal with multiplicity of comparisons, a step-down approach was adopted to control the type I error to 0.05. The contrast GFT120 mg versus placebo was examined first. If not significant the GFT 80mg versus placebo contrast was not examined.|Regression, Logistic|Baseline NAS, Log transformed baseline aspartate aminotransferase and baseline plasminogen activator inhibitor 1 values|Standard error of the estimate|H\_01: OR\_80 less than or equal to 1 versus H\_11 : OR\_80 greater than 1 H\_02: OR\_120 less than or equal to 1 versus H\_12 : OR\_120 greater than 1||2.795|0.427|0.8539
92264814|NCT01694849|184431177|SUPERIORITY||Odds Ratio (OR)|0.897||||0.816|TWO_SIDED|95.0|0.361|2.232||To deal with multiplicity of comparisons, a step-down approach was adopted to control the type I error to 0.05. The contrast GFT120 mg versus placebo was examined first. If not significant the GFT 80mg versus placebo contrast was not examined.|Regression, Logistic|Baseline NAS, Log transformed baseline aspartate aminotransferase and baseline plasminogen activator inhibitor 1 values|Standard error of the estimate|H\_01: OR\_80 less than or equal to 1 versus H\_11 : OR\_80 greater than 1 H\_02: OR\_120 less than or equal to 1 versus H\_12 : OR\_120 greater than 1||2.232|0.361|0.8160
92264815|NCT01694849|184431178|SUPERIORITY||difference in least square mean change|-0.27||||0.225|TWO_SIDED|95.0|-0.75|0.2|||Mixed Models Analysis|Baseline Non-Alcoholic Fatty Liver Disease Activity Score|Standard error of the least squares mean|"H0: difference in least squares (LS) mean change from baseline equal to 0 H1: difference in LS mean change from baseline not equal to 0~Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4"||0.2|-0.75|0.225
92174414|NCT03097549|184241364|SUPERIORITY||Estimated difference|-6.3||||0.004|TWO_SIDED|95.0|-10.5|-2.1|||Mixed Models Analysis|||Null hypothesis: There is no difference in score between the treatment group and the information group at follow-up.||-2.1|-10.5|0.004
92174415|NCT03097549|184241365|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||"Null hypothesis: There is no difference in the number of urinary leakage episodes between the treatment app users and the information app users at follow-up.~ITT analysis. Missing data: 5 participants in the treatment group and 2 participants in the information group had a missing value at follow-up, and for those, the difference was set to 0 (ie, no change)."||||<0.001
92174416|NCT03097549|184241366|SUPERIORITY||Estimated difference|-1.8|||<|0.001|TWO_SIDED|95.0|-2.8|-0.9|||Mixed Models Analysis|||Null hypothesis: There is no difference in score between the treatment group and the information group at follow-up.||-0.9|-2.8|<0.001
92174417|NCT03097549|184241367|SUPERIORITY||Estimated difference|-1.6||||0.016|TWO_SIDED|95.0|-2.8|-0.3|||Mixed Models Analysis|||Null hypothesis: There is no difference in score between the treatment group and the information group at follow-up.||-0.3|-2.8|0.016
92264816|NCT01694849|184431178|SUPERIORITY||Difference in least square mean change|-0.28||||0.254|TWO_SIDED|95.0|-0.76|0.2|||Mixed Models Analysis|Baseline Non-Alcoholic Fatty Liver Disease Activity Score|Standard error of the least squares mean|"H0: difference in least squares (LS) mean change from baseline equal to 0 H1: difference in LS mean change from baseline not equal to 0~Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4"||0.2|-0.76|0.254
92264817|NCT01694849|184431179|SUPERIORITY||Odds Ratio (OR)|1.073||||0.8586|TWO_SIDED|95.0|0.493|2.339|||Regression, Logistic|Baseline Non-Alcoholic Fatty Liver Disease Activity Score.|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||2.339|0.493|0.8586
92174418|NCT03097549|184241368|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: no difference in usage between treatment group and information group at follow-up.||||0.01
92264818|NCT01694849|184431179|SUPERIORITY||Odds Ratio (OR)|1.601||||0.2265|TWO_SIDED|95.0|0.747|3.432|||Regression, Logistic|Baseline Non-Alcoholic Fatty Liver Disease Activity Score|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||3.432|0.747|0.2265
92281780|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.7||||||95.0|-3.6|5.0||||||For hepatitis B the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥10.0 mIU/mL threshold was calculated.||5.0|-3.6|
92281781|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-3.2||||||95.0|-9.1|2.4||||||For Haemophilus influenzae type b the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.15 μg/mL threshold was calculated.||2.4|-9.1|
92281782|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.7||||||95.0|-8.2|9.5||||||For Haemophilus influenzae type b the difference in percentages between the two groups (13vPnC - 7vPnC) at 1.0 μg/mL threshold was calculated.||9.5|-8.2|
92281783|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.8|1.6||||||For Diptheria the difference in percentages between the two groups ( 13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated.||1.6|-1.8|
92281784|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-3.5||||||95.0|-8.3|0.8||||||For Diptheria the difference in percentage between the two groups ( 13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated.||0.8|-8.3|
92281785|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|1.7||||||95.0|-3.9|7.1||||||For Tetanus the difference in percentage between the two groups ( 13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated.||7.1|-3.9|
92281786|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.1||||||95.0|-2.3|1.7||||||For Polio Type 1 the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||1.7|-2.3|
92281787|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-1.0||||||95.0|-5.0|2.8||||||For Polio Type 2 the difference in percentage between the two groups ( 13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||2.8|-5.0|
92281788|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.7||||||95.0|-1.6|2.9||||||For Polio Type 3 the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||2.9|-1.6|
92281789|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.7||||||For Pertussis PT the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated||1.7|-1.6|
92281790|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-2.7||||||95.0|-7.3|1.8||||||For Pertussis PT the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥21 EU/mL threshold was calculated.||1.8|-7.3|
92281791|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.7||||||For Pertussis FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated||1.7|-1.6|
92264819|NCT01694849|184431180|SUPERIORITY||Odds Ratio (OR)|0.723||||0.5231|TWO_SIDED|95.0|0.267|1.958|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||1.958|0.267|0.5231
92264820|NCT01694849|184431180|SUPERIORITY||Odds Ratio (OR)|1.102||||0.8459|TWO_SIDED|95.0|0.415|2.924|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||2.924|0.415|0.8459
92281792|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.7||||||For Pertussis FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥7.82 EU/mL threshold was calculated||1.7|-1.6|
92281793|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.1||||||95.0|-4.3|4.1||||||For Pertussis FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥162 EU/mL threshold was calculated||4.1|-4.3|
92281794|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.7||||||For Pertactin the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated.||1.7|-1.6|
92245012|NCT03655717|184392847|SUPERIORITY||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.281||0.94|TWO_SIDED|95.0|-0.535|0.568||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for the dronabinol + ethanol condition (positive values denote higher HbO levels for post-dronabinol+ethanol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with both dronabinol and ethanol (i.e., the interaction between dronabinol and ethanol doses), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.568|-0.535|0.94
92245013|NCT03655717|184392848|SUPERIORITY||Mean Difference (Final Values)|-0.163|STANDARD_ERROR_OF_MEAN|0.113||0.94|TWO_SIDED|95.0|-0.384|0.057||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for dronabinol conditions (positive values denote higher HbO levels for post-dronabinol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with dronabinol (i.e., a main effect for dronabinol dose), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.057|-0.384|0.94
92245014|NCT03655717|184392848|SUPERIORITY||Mean Difference (Final Values)|-0.176|STANDARD_ERROR_OF_MEAN|0.21||0.94|TWO_SIDED|95.0|-0.588|0.237||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for ethanol conditions (positive values denote higher HbO levels for post-ethanol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with ethanol (i.e., a main effect for ethanol dose), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.237|-0.588|0.94
92245015|NCT03655717|184392848|SUPERIORITY||Mean Difference (Final Values)|0.187|STANDARD_ERROR_OF_MEAN|0.276||0.94|TWO_SIDED|95.0|-0.354|0.728||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for the dronabinol + ethanol condition (positive values denote higher HbO levels for post-dronabinol+ethanol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with both dronabinol and ethanol (i.e., the interaction between dronabinol and ethanol doses), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.728|-0.354|0.94
92245016|NCT01185249|184392849|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis-no difference in morning and evening weights on three consecutive days.|Mean Difference (Final Values)|0.62|STANDARD_DEVIATION|3.09|<|0.001|TWO_SIDED|95.0|-0.51306|1.73806|||t-test, 1 sided|||Analysis of within subjects design morning and evening weights. Null hypothesis is that there is no difference between morning and evening weights.||1.73806|-0.51306|<.001
92245017|NCT01185249|184392849|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 1 sided|||||||0.01
92245018|NCT02193815|184392853|SUPERIORITY_OR_OTHER||Adjusted Mean Ratio|93.2|STANDARD_ERROR_OF_MEAN|0.075||0.3465|TWO_SIDED|95.0|80.43|107.99|||Mixed Models Analysis|||||107.99|80.43|0.3465
92245019|NCT02193815|184392854|SUPERIORITY_OR_OTHER||Adjusted Mean|165.88|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|143.12|192.25|||Mixed Models Analysis|||||192.25|143.12|<0.0001
92245020|NCT02193815|184392855|SUPERIORITY_OR_OTHER||Adjusted Mean|65.42|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|56.46|75.81|||Mixed Models Analysis|||||75.81|56.46|<0.0001
92245021|NCT02193815|184392856|SUPERIORITY_OR_OTHER||Adjusted Mean|93.04|STANDARD_ERROR_OF_MEAN|0.075||0.3349|TWO_SIDED|95.0|80.3|107.81|||Mixed Models Analysis|||||107.81|80.30|0.3349
92245022|NCT02193815|184392856|SUPERIORITY_OR_OTHER||Adjusted Mean|149.56|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|129.04|173.34|||Mixed Models Analysis|||||173.34|129.04|<0.0001
92245023|NCT02193815|184392856|SUPERIORITY_OR_OTHER||Adjusted Mean|106.51|STANDARD_ERROR_OF_MEAN|0.075||0.3991|TWO_SIDED|95.0|91.92|123.41|||Mixed Models Analysis|||||123.41|91.92|0.3991
92245024|NCT02193815|184392856|SUPERIORITY_OR_OTHER||Adjusted Mean|71.94|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|62.08|83.36|||Mixed Models Analysis|||||83.36|62.08|<0.0001
92245025|NCT02193815|184392857|SUPERIORITY_OR_OTHER||Adjusted Mean|96.04|STANDARD_ERROR_OF_MEAN|0.127||0.7529|TWO_SIDED|95.0|74.0|124.64|||Mixed Models Analysis|||||124.64|74.00|0.7529
92245026|NCT02193815|184392857|SUPERIORITY_OR_OTHER||Adjusted Mean|125.62|STANDARD_ERROR_OF_MEAN|0.147||0.1318|TWO_SIDED|95.0|92.96|169.75|||Mixed Models Analysis|||||169.75|92.96|0.1318
92245027|NCT02193815|184392857|SUPERIORITY_OR_OTHER||Adjusted Mean|103.35|STANDARD_ERROR_OF_MEAN|0.129||0.8009|TWO_SIDED|95.0|79.3|134.68|||Mixed Models Analysis|||||134.68|79.30|0.8009
92245028|NCT02193815|184392857|SUPERIORITY_OR_OTHER||Adjusted Mean|81.09|STANDARD_ERROR_OF_MEAN|0.124||0.1012|TWO_SIDED|95.0|62.94|104.47|||Mixed Models Analysis|||||104.47|62.94|0.1012
92245029|NCT00064350|184392862|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||Fisher Exact|||Compare the proportion of patients maintaining stable disease or objective response at 2 months after randomization between the two arms.||||0.005
92245030|NCT00064350|184392863|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||95.0|||||Log Rank|||Compare PFS between the Sorafenib arm and the placebo arm||||0.014
92281795|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.5||||||95.0|-4.7|3.7||||||For Pertactin the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥106 EU/mL threshold was calculated.||3.7|-4.7|
92281796|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.4||||||95.0|-3.0|2.0||||||For hepatitis B the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥10.0 mIU/mL threshold was calculated.||2.0|-3.0|
92281797|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|1.4||||||95.0|-0.8|4.2||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15 μg/mL threshold was calculated||4.2|-0.8|
92281798|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|4.0||||||95.0|-0.4|8.7||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0 μg/mL threshold was calculated.||8.7|-0.4|
92281799|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-2.3|2.0||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated.||2.0|-2.3|
92281800|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-2.3|2.0||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated||2.0|-2.3|
92281801|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|3.8||||||95.0|-1.7|10.9||||||For Tetanus the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated.||10.9|-1.7|
92281802|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-2.4|2.1||||||For Polio Type 1 the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||2.1|-2.4|
92281803|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-2.4|2.1||||||For Polio Type 2 the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||2.1|-2.4|
92281804|NCT00366899|184466858|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-2.4|2.1||||||For Polio Type 3 the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||2.1|-2.4|
92281805|NCT00366899|184466859|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.98||||||95.0|0.87|1.1||||||For Pertussis FHA the GMC ratio (13vPnC/7vPnC) was calculated||1.10|0.87|
92281806|NCT00366899|184466859|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.03||||||95.0|0.92|1.16||||||For Pertussis PT the GMC ratio (13vPnC/7vPnC) was calculated||1.16|0.92|
92281807|NCT00366899|184466859|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.01||||||95.0|0.87|1.17||||||For Pertussis PRN the GMC ratio (13vPnC/7vPnC) was calculated||1.17|0.87|
92281808|NCT00366899|184466859|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.01||||||95.0|0.89|1.15||||||For Pertussis FHA the GMC ratio (13vPnC/7vPnC) was calculated||1.15|0.89|
92281809|NCT00366899|184466859|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.94||||||95.0|0.83|1.07||||||For Pertussis PT the GMC ratio (13vPnC/7vPnC) was calculated||1.07|0.83|
92281810|NCT00366899|184466859|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.94||||||95.0|0.82|1.07||||||For Pertussis PRN the GMC ratio (13vPnC/7vPnC) was calculated||1.07|0.82|
92174419|NCT03097549|184241369|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference in improvement between the treatment group and the information group att follow-up.||||<0.001
92174420|NCT01743807|184241380|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92174421|NCT01814813|184241442|SUPERIORITY|||||||0.16|||||||Log Rank|||||||0.16
92174422|NCT01814813|184241443|SUPERIORITY||||||<|0.01|||||||Log Rank|||||||<0.01
92281811|NCT00366899|184466862|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the geometric mean concentration (GMC)/geometric mean titer (GMT) ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.96||||||95.0|0.72|1.27||||||For Hepatitis b the geometric mean concentration (GMC) ratio (13vPnC/7vPnC) was calculated||1.27|0.72|
92281812|NCT00366899|184466862|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.72||||||95.0|0.54|0.96||||||For Hepatitis b the GMC ratio (13vPnC/7vPnC) was calculated||0.96|0.54|
92281813|NCT00366899|184466863|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.99||||||95.0|0.75|1.3||||||or Haemophilus influenzae type b the GMC ratio (13vPnC/7vPnC) was calculated||1.30|0.75|
92245031|NCT00064350|184392864|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||95.0|||||Log Rank|||Compare OS between the Sorafenib arm and the placebo arm||||0.12
92281814|NCT00366899|184466863|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.03||||||95.0|0.81|1.3||||||For Haemophilus influenzae type b the GMC ratio (13vPnC/7vPnC) was calculated||1.30|0.81|
92281815|NCT00366899|184466864|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.78||||||95.0|0.65|0.94||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||0.94|0.65|
92245032|NCT00115765|184392866|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.27||||0.011||95.0|1.06|1.52|||Regression, Cox|Model covariates were ECOG status, prior chemotherapy, metastatic organs, disease site, oxaliplatin dose \< 85 mg/m2, and oxaliplatin dose \> 100 mg/m2||||1.52|1.06|0.011
92245033|NCT00115765|184392867|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.43||||0.005||95.0|1.11|1.83|||Regression, Cox|Model covariates were ECOG status, prior chemotherapy, metastatic organs, disease site, oxaliplatin dose \< 85 mg/m2, and oxaliplatin dose \> 100 mg/m2||||1.83|1.11|0.005
92281816|NCT00366899|184466864|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.85||||||95.0|0.67|1.08||||||For Tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.08|0.67|
92281817|NCT00366899|184466864|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.75||||||95.0|0.63|0.89||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||0.89|0.63|
92281818|NCT00366899|184466864|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.25||||||95.0|0.88|1.79||||||For Tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.79|0.88|
92281819|NCT00366899|184466865|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.87||||||95.0|0.7|1.08||||||For Polio Type 1 the GMC ratio (13vPnC/7vPnC) was calculated||1.08|0.70|
92245034|NCT00115765|184392871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.738||95.0|0.6|2.05|||Regression, Logistic|Model covariates were ECOG status, prior adjuvant chemotherapy, number of metastatic organs, and primary disease site||||2.05|0.60|0.738
92245035|NCT00115765|184392872|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.42||||0.257||95.0|0.77|2.62|||Regression, Cox|Model covariates were ECOG status, prior adjuvant chemotherapy, number of metastatic organs, and primary disease site||||2.62|0.77|0.257
92281820|NCT00366899|184466865|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.95||||||95.0|0.74|1.22||||||For Polio Type 2 the GMC ratio (13vPnC/7vPnC) was calculated||1.22|0.74|
92281821|NCT00366899|184466865|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.88||||||95.0|0.68|1.13||||||For Polio Type 3 the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.68|
92281822|NCT00366899|184466865|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.69||||||95.0|0.55|0.86||||||For Polio Type 1 the GMC ratio (13vPnC/7vPnC) was calculated||0.86|0.55|
92281823|NCT00366899|184466865|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.85||||||95.0|0.68|1.07||||||For Polio Type 2 the GMC ratio (13vPnC/7vPnC) was calculated||1.07|0.68|
92281824|NCT00366899|184466865|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.65||||||95.0|0.51|0.83||||||For Polio Type 3 the GMC ratio (13vPnC/7vPnC) was calculated||0.83|0.51|
92281825|NCT00153803|184466870|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.165|TWO_SIDED|95.0|0.65|1.33|||Log Rank|||||1.33|0.65|0.165
92281826|NCT00153803|184466871|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.32|TWO_SIDED|95.0|0.85|1.63|||Log Rank|||||1.63|0.85|0.32
92281827|NCT03311646|184466905|OTHER|A linear mixed-model was used. The model included terms for cigarette nicotine content (VLNC/NNC), time, cohort, a random effect for subject, and a nicotine content x time interaction. Interaction was dropped when nonsignificant. Reported below is the effect of nicotine content as well as the interaction p-value.|Mean Difference (Final Values)|0.07||||0.92|TWO_SIDED|95.0|-1.27|1.4||alpha=0.05.|Mixed Models Analysis||Mean Difference = VLNC-NNC|Comparison of carbon monoxide during VLNC condition to carbon monoxide during the NNC (baseline) condition.|Interaction p-value: p=0.27|1.4|-1.27|0.92
92281828|NCT03311646|184466906|OTHER|A linear mixed-model was used. The model included terms for cigarette nicotine content (VLNC/NNC), time, cohort, a random effect for subject, and a nicotine content x time interaction. Interaction was dropped when nonsignificant. Reported below is the effect of nicotine content as well as the interaction p-value.|Mean Difference (Final Values)|1.13||||0.15|TWO_SIDED|95.0|-0.41|2.66||alpha=0.05|Mixed Models Analysis||Mean Difference = VLNC-NNC|Comparison of cigarette per day during VLNC condition to cigarette per day during the NNC (baseline) condition.|Interaction p=0.23|2.66|-0.41|0.15
92281829|NCT03311646|184466907|OTHER|A linear mixed-model was used. The model included terms for cigarette nicotine content (VLNC/NNC), time, cohort, a random effect for subject, and a nicotine content x time interaction. Interaction was dropped when nonsignificant. Reported below is the effect of nicotine content as well as the interaction p-value.|Mean Difference (Final Values)|3.19|||<|0.001|TWO_SIDED|95.0|1.77|4.6|||Mixed Models Analysis||Mean Difference=VLNC-NNC|Comparison of Minnesota Nicotine Withdrawal Scale during VLNC condition to Minnesota Nicotine Withdrawal Scale during the NNC (baseline) condition.|Interaction p=0.95|4.60|1.77|<0.001
92281830|NCT03311646|184466908|OTHER|A linear mixed-model was used. The model included terms for cigarette nicotine content (VLNC/NNC), time, cohort, a random effect for subject, and a nicotine content x time interaction. Interaction was dropped when nonsignificant. Reported below is the effect of nicotine content as well as the interaction p-value.|Mean Difference (Final Values)|0.2||||0.84|TWO_SIDED|95.0|-2.0|2.5||alpha=0.05|Mixed Models Analysis||Mean Difference = VLNC-NNC|Comparison of carbon monoxide during VLNC condition to carbon monoxide during the NNC (baseline) condition.|Interaction p=0.94|2.5|-2.0|0.84
92281831|NCT00067236|184466909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.4239|TWO_SIDED|95.0|||||ANOVA|||Changes from baseline in efficacy parameters at Day 90.||||0.4239
92281832|NCT01439165|184466946|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% Confidence Interval (CI) of the difference of seroprotection rates between groups is \> -10%|Difference (%) in Adacel-Td Adsorbed|0.0|||||TWO_SIDED|95.0|-0.4|1.2||||||Comparison of anti-tetanus seroprotection rate between the two groups||1.2|-0.4|
92281833|NCT01439165|184466946|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of seroprotection rates between groups is \> -10%|Difference (%) in Adacel-Td Adsorbed|0.42|||||TWO_SIDED|95.0|-0.3|2.1||||||Comparison of anti-diphtheria seroprotection rates between the two groups||2.1|-0.3|
92281834|NCT01439165|184466947|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10%|Difference (%) in Adacel-Td Adsorbed|-7.12|||||TWO_SIDED|95.0|-12.0|-1.7||||||Comparison of the anti-tetanus booster response rates between the two groups||-1.7|-12.0|
92245036|NCT00115765|184392874|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.36||||||95.0|1.04|1.77||||||||1.77|1.04|
92245037|NCT00115765|184392875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||||95.0|0.91|1.71||||||||1.71|0.91|
92245038|NCT00115765|184392876|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.89||||||95.0|1.3|2.75||||||||2.75|1.30|
92245039|NCT00115765|184392877|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||||95.0|0.67|1.54||||||||1.54|0.67|
92245040|NCT00115765|184392878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||||95.0|0.61|2.66||||||||2.66|0.61|
92245041|NCT00115765|184392879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||||95.0|0.28|1.67||||||||1.67|0.28|
92245042|NCT01683071|184392888|SUPERIORITY||LSMD|2.9||||0.9494|TWO_SIDED|95.0|-88.0|94.0|||ANCOVA|||||94|-88|0.9494
92245043|NCT01683071|184392888|SUPERIORITY||LSMD|-103.3||||0.0237|TWO_SIDED|95.0|-192.0|-14.0|||ANCOVA|||||-14|-192|0.0237
92245044|NCT01683071|184392888|SUPERIORITY||LSMD|-94.3||||0.0386|TWO_SIDED|95.0|-184.0|-5.0|||ANCOVA|||||-5|-184|0.0386
92281835|NCT01439165|184466947|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10%|Difference (%) in Adacel-Td Adsorbed|-0.95|||||TWO_SIDED|95.0|-5.4|4.0||||||Comparison of the anti-diphteria booster response rates between the two groups||4.0|-5.4|
92281836|NCT01439165|184466948|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the ratio of GMCs between groups is \> 0.66|GMC ratio (Adacel/Historical Control)|1.04|||||TWO_SIDED|95.0|0.92|1.18||||||Comparison of anti-pertussis toxoid GMCs between Adacel and historical control groups||1.18|0.92|
92281837|NCT01439165|184466948|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the ratio of GMCs between groups is \> 0.66|GMC Ratio (Adacel/Historical Control)|5.22|||||TWO_SIDED|95.0|4.51|6.05||||||Comparison of the anti-FHA GMCs between Adacel and historical Control groups||6.05|4.51|
92281838|NCT01439165|184466948|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the ratio of GMCs between groups is \> 0.66|GMC Ratio (Adacel/Historical Control)|2.94|||||TWO_SIDED|95.0|2.46|3.51||||||Comparison of the anti-Pertactin GMCs between Adacel and historical Control groups||3.51|2.46|
92281839|NCT01439165|184466948|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the ratio of GMCs between groups is \> 0.66|GMC Ratio (Adacel/Historical Control)|2.18|||||TWO_SIDED|95.0|1.84|2.6||||||Comparison of the post-vaccination anti-Fimbriae (types 2 and 3) GMCs between Adacel and historical Control groups||2.60|1.84|
92281840|NCT01439165|184466949|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10% .|Difference (%) Adacel-Expected Booster|16.12|||||TWO_SIDED|95.0|13.27|18.73||||||comparison of anti-pertussis toxoid booster response rates was performed between the Adacel and historical groups||18.73|13.27|
92281841|NCT01439165|184466949|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10%|Difference (%) Adacel-Expected Booster|-4.21|||||TWO_SIDED|95.0|-7.23|-1.34||||||Comparison of the anti-FHA booster response rates between the Adacel and historical groups||-1.34|-7.23|
92281842|NCT01439165|184466949|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10% .|Difference (%) Adacel-Expected Booster|-18.61|||||TWO_SIDED|95.0|-21.7|-15.6||||||Comparison of the anti-Pertactin booster response rates between Adacel and historical groups||-15.6|-21.7|
92281843|NCT01439165|184466949|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10% .|Difference (%) Adacel-Expected Booster|-19.07|||||TWO_SIDED|95.0|-22.3|-16.0||||||Comparison of the anti-Fimbriae (types 2 and 3) booster response rates between Adacel and historical groups||-16.0|-22.3|
92281844|NCT01880073|184466962|OTHER||Proportion|0.875|||||TWO_SIDED|95.0|0.74|1.0||||||||1.00|0.74|
92281845|NCT01880073|184466963|OTHER||Proportion|0.125|||||TWO_SIDED|95.0|0.0|0.26||||||||0.26|0.00|
92281846|NCT00755196|184466966|SUPERIORITY_OR_OTHER|||||||0.23|||||||2-sided sign test|||||||0.23
92281847|NCT01604850|184466970|SUPERIORITY_OR_OTHER||Proportion difference|-22.4|||<|0.001|TWO_SIDED|95.0|-34.4|-10.3||P-value is from the Cochran-Mantel-Haenszel (CMH) test stratified by the randomization stratification factor (ie, presence/absence of cirrhosis, genotype 2 or 3).|Cochran-Mantel-Haenszel||The difference in proportions between treatment groups and associated 95% confidence interval (CI) are calculated based on stratum-adjusted Mantel-Haenszel proportions.|A sample size of 100 subjects in each group would provide over 97% power to detect at least 20% improvement in SVR12 rate from the assumed null rate of 25% using 2-sided exact 1-sample binomial test at significance level of 0.025.||-10.3|-34.4|< 0.001
92281848|NCT01703832|184466976|SUPERIORITY_OR_OTHER|||||||0.1233||||||Threshold less than or equal to 0.05. The final analysis demonstrated reasonable doubt of the implicit normality assumption of the two sets of AUC data, thus medians presented for efficacy analysis. Need for further investigation (ex-post analyses).|ANCOVA|||The null-hypotheses of no treatment differences were tested by the two-sided t-tests from the respective ANCOVAs.||||0.1233
92281849|NCT01703832|184466977|SUPERIORITY_OR_OTHER|||||||0.5153||||||Threshold less than or equal to 0.05. The final analysis demonstrated reasonable doubt of the implicit normality assumption of the two sets of AUC data, thus medians presented for efficacy analysis. Need for further investigation (ex-post analyses).|ANCOVA|||The null-hypotheses of no treatment differences were tested by the two-sided t-tests from the respective ANCOVAs.||||0.5153
92281850|NCT00243932|184466989|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14||95.0|||||futility (non-superiority)|||Null hypothesis: 2,700mg CoQ10 is at least 20% superior to placebo.||||0.14
92281851|NCT01458405|184467005|SUPERIORITY|||||||0.6453||||||Repeated measures multivariable linear regression with Baseline as a covariate and unstructured covariance.|Regression, Linear|||||||0.6453
92281852|NCT03499964|184467028|SUPERIORITY||||||<|0.0001|||||||Chi-squared, Corrected|||||||<0.0001
92281853|NCT03499964|184467030|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
92281854|NCT01193608|184467093|SUPERIORITY_OR_OTHER||Mean change|113.53||||0.599|TWO_SIDED|80.0|-170.3|397.35|||t-test, 2 sided||One sample paired t-test|Change from baseline, within group||397.35|-170.30|0.599
92281855|NCT01193608|184467095|SUPERIORITY_OR_OTHER||Mean change|48.85||||0.297|TWO_SIDED|80.0|-11.79|109.48|||t-test, 2 sided||One sample paired t-test|Change from baseline, within group||109.48|-11.79|0.297
92281856|NCT01193608|184467097|SUPERIORITY_OR_OTHER||Mean change|-15.26||||0.6|TWO_SIDED|80.0|-53.54|23.02|||t-test, 2 sided||One sample paired t-test|Change from baseline, within group||23.02|-53.54|0.600
92281857|NCT01193608|184467099|SUPERIORITY_OR_OTHER||Mean change|1.23||||0.603|TWO_SIDED|80.0|-1.89|4.35|||t-test, 2 sided||One sample paired t-test|Change from baseline, within group||4.35|-1.89|0.603
92281858|NCT01047345|184467108|SUPERIORITY_OR_OTHER||Difference in Percentages|3.5||||0.026|TWO_SIDED|95.0|0.5|6.2|||Miettinen & Nurminen|||||6.2|0.5|0.026
92281859|NCT01047345|184467109|SUPERIORITY_OR_OTHER||Difference in Percentages|4.0|||||TWO_SIDED|95.0|-2.8|10.8|||Miettinen & Nurminen|||||10.8|-2.8|
92281860|NCT01047345|184467110|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-1.5|0.9|||Miettinen & Nurminen|||||0.9|-1.5|
92281861|NCT01047345|184467111|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.2|||||TWO_SIDED|95.0|-1.7|0.6|||Miettinen & Nurminen|||||0.6|-1.7|
92281862|NCT01047345|184467112|SUPERIORITY_OR_OTHER||Difference in Percentages|10.2|||||TWO_SIDED|95.0|7.5|13.1|||Miettinen & Nurminen|||||13.1|7.5|
92245045|NCT01683071|184392888|SUPERIORITY||LSMD|-96.5|||<|0.0001|TWO_SIDED|95.0|-144.0|-49.0|||ANCOVA|||||-49|-144|<0.0001
92281863|NCT01047345|184467113|SUPERIORITY_OR_OTHER||Seroconversion rate|99.8|||<|0.001|TWO_SIDED|95.0|98.9|100.0||statistical criterion of acceptability required that the lower bound of the 95% confidence interval (CI) for the proportion of participants seroconverting be greater than 90%|Clopper-Pearson|||Anti-HPV 31||100.0|98.9|<0.001
92174423|NCT01814813|184241444|SUPERIORITY|||||||0.56|||||||Chi-squared|||||||0.56
92245046|NCT01683071|184392889|SUPERIORITY||Geometric LSM ratio|0.9||||0.6182|TWO_SIDED|95.0|0.6|1.3|||ANOVA|||||1.3|0.6|0.6182
92245047|NCT01683071|184392889|SUPERIORITY||Geometric LSM ratio|0.73||||0.1097|TWO_SIDED|95.0|0.5|1.1|||ANOVA|||||1.1|0.5|0.1097
92245048|NCT01683071|184392889|SUPERIORITY||Geometric LSM ratio|0.85||||0.4046|TWO_SIDED|95.0|0.6|1.3|||ANOVA|||||1.3|0.6|0.4046
92245049|NCT01683071|184392889|SUPERIORITY||Geometric LSM ratio|0.74||||0.0016|TWO_SIDED|95.0|0.6|0.9|||ANOVA|||||0.9|0.6|0.0016
92245050|NCT01968187|184392941|OTHER||LS Mean Difference|-6.7||||0.029|ONE_SIDED|90.0||-2.2|||ANCOVA|Treatment groups were compared using ANCOVA model with treatment and site as fixed effect and HPWSQ-R total score at baseline as covariate.||||-2.2||0.0290
92245051|NCT01968187|184392942|OTHER||LS Mean Difference|-0.8||||0.0233|ONE_SIDED|90.0||-0.3|||ANCOVA|Treatment groups were compared using ANCOVA model with treatment and site as fixed effects and CGI-S score as a covariate.||||-0.3||0.0233
92245052|NCT01968187|184392943|OTHER||LS Mean Difference|-2.0||||0.1172|ONE_SIDED|90.0||0.2|||ANCOVA|Treatment groups were compared using ANCOVA model with treatment and site as fixed effects and HPWSQ-R domain score at baseline as a covariate.||HPWSQ-R Domain score: Behavior||0.2||0.1172
92174424|NCT05089019|184241445|EQUIVALENCE|Equivalence margin 80% to 125%|Ratio of Geometric LS Mean|0.889|||||TWO_SIDED|94.12|0.81|0.976|||Mixed Models Analysis|Ratio of Geometric Least Square (LS) Mean||||0.976|0.810|
92174425|NCT05089019|184241446|EQUIVALENCE|Equivalence margin 80% to 125%.|Ratio of Geometric LS Mean|0.927|||||TWO_SIDED|94.12|0.882|0.975|||Mixed Models Analysis|||||0.975|0.882|
92174426|NCT05089019|184241447|EQUIVALENCE|Equivalence margin 80% to 125%|Ratio of Geometric LS Mean|0.891|||||TWO_SIDED|94.12|0.834|0.951|||Mixed Models Analysis|||||0.951|0.834|
92174427|NCT03858634|184241454|SUPERIORITY||Least squares (LS) mean difference|-3.3|STANDARD_ERROR_OF_MEAN|3.31||0.398|TWO_SIDED|80.0|-8.68|2.17||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||2.17|-8.68|0.3980
92174428|NCT03858634|184241454|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|1.23||0.6653|TWO_SIDED|80.0|-2.17|1.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||1.09|-2.17|0.6653
92174429|NCT03858634|184241454|SUPERIORITY||LS mean difference|-7.6|STANDARD_ERROR_OF_MEAN|2.14||0.0711|TWO_SIDED|80.0|-11.63|-3.56||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||-3.56|-11.63|0.0711
92245053|NCT01968187|184392943|OTHER||LS Mean Difference|-1.6||||0.1436|ONE_SIDED|90.0||0.3|||ANCOVA|Treatment groups were compared using ANCOVA model with treatment and site as fixed effects and HPWSQ-R domain score -at baseline as a covariate.||HPWSQ-R Domain score: Drive||0.3||0.1436
92245054|NCT01968187|184392943|OTHER||LS Mean Difference|-1.5||||0.0248|ONE_SIDED|90.0||-0.5|||ANCOVA|Treatment groups were compared using ANCOVA model with treatment and site as fixed effects and HPWSQ-R domain score -at baseline as a covariate.||HPWSQ-R Domain score: Severity||-0.5||0.0248
92245055|NCT01968187|184392944|OTHER||LS mean difference|-6.2||||0.0047|ONE_SIDED|90.0||-3.3|||ANCOVA|From ANCOVA model with treatment and site as fixed effects and CY-BOCS total score at baseline as a covariate.||||-3.3||0.0047
92174430|NCT03858634|184241454|SUPERIORITY||LS mean difference|-3.1|STANDARD_ERROR_OF_MEAN|1.2||0.0186|TWO_SIDED|80.0|-4.7|-1.51||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||-1.51|-4.70|0.0186
92174431|NCT03858634|184241456|SUPERIORITY||LS mean difference|-7.3|STANDARD_ERROR_OF_MEAN|14.76||0.6533|TWO_SIDED|80.0|-31.52|16.84||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||16.84|-31.52|0.6533
92174432|NCT03858634|184241456|SUPERIORITY||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|10.51||0.9077|TWO_SIDED|80.0|-15.16|12.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||12.69|-15.16|0.9077
92174433|NCT03858634|184241456|SUPERIORITY||LS mean difference|-61.2|STANDARD_ERROR_OF_MEAN|33.18||0.2065|TWO_SIDED|80.0|-123.73|1.39||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||1.39|-123.73|0.2065
92174434|NCT03858634|184241456|SUPERIORITY||LS mean difference|-5.3|STANDARD_ERROR_OF_MEAN|3.19||0.1133|TWO_SIDED|80.0|-9.56|-1.07||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||-1.07|-9.56|0.1133
92174435|NCT03858634|184241456|SUPERIORITY||LS mean difference|-16.7|STANDARD_ERROR_OF_MEAN|21.76||0.4997|TWO_SIDED|80.0|-52.29|18.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||18.98|-52.29|0.4997
92174436|NCT03858634|184241456|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|11.85||0.9919|TWO_SIDED|80.0|-15.83|15.59||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||15.59|-15.83|0.9919
92174437|NCT03858634|184241456|SUPERIORITY||LS mean difference|-89.2|STANDARD_ERROR_OF_MEAN|28.56||0.0891|TWO_SIDED|80.0|-143.03|-35.31||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||-35.31|-143.03|0.0891
92245056|NCT01968187|184392945|OTHER||LS mean difference|-4.4||||0.0132|ONE_SIDED|90.0||-1.9|||ANCOVA|Compared using ANCOVA model with treatment and site as fixed effects and Food Domain Score of Reiss Profile at baseline as a covariate.||||-1.9||0.0132
92245057|NCT00831441|184392946|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.5094|TWO_SIDED|95.0|0.8|1.11|||Cox proportional hazard models|||A test of superiority at the one-sided α = 0.025 significance level for the primary efficacy outcome was performed.||1.11|0.80|0.5094
92245058|NCT00831441|184392947|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.6702|TWO_SIDED|95.0|0.7|1.26|||Cox proportional hazard models|||||1.26|0.70|0.6702
92174438|NCT03858634|184241456|SUPERIORITY||LS mean difference|-9.4|STANDARD_ERROR_OF_MEAN|5.47||0.1029|TWO_SIDED|80.0|-16.67|-2.12||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||-2.12|-16.67|0.1029
92174439|NCT03858634|184241456|SUPERIORITY||LS mean difference|-21.9|STANDARD_ERROR_OF_MEAN|32.93||0.5538|TWO_SIDED|80.0|-75.82|32.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||32.05|-75.82|0.5538
92174440|NCT03858634|184241456|SUPERIORITY||LS mean difference|-11.9|STANDARD_ERROR_OF_MEAN|11.78||0.3252|TWO_SIDED|80.0|-27.51|3.73||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||3.73|-27.51|0.3252
92174441|NCT03858634|184241456|SUPERIORITY||LS mean difference|-93.8|STANDARD_ERROR_OF_MEAN|34.1||0.1106|TWO_SIDED|80.0|-158.11|-29.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-29.52|-158.11|0.1106
92174442|NCT03858634|184241456|SUPERIORITY||LS mean difference|-19.9|STANDARD_ERROR_OF_MEAN|7.17||0.0123|TWO_SIDED|80.0|-29.48|-10.4||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-10.40|-29.48|0.0123
92245059|NCT00831441|184392948|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.6311|TWO_SIDED|95.0|0.57|1.4|||Cox proportional hazard models|||||1.40|0.57|0.6311
92245060|NCT00831441|184392949|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.5086|TWO_SIDED|95.0|0.76|1.14|||Cox proportional hazard models|||||1.14|0.76|0.5086
92245061|NCT00831441|184392950|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.1502|TWO_SIDED|95.0|0.47|1.12|||Cox proportional hazard models|||||1.12|0.47|0.1502
92245062|NCT00831441|184392951|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.4317|TWO_SIDED|95.0|0.82|1.09|||Cox proportional hazard models|||||1.09|0.82|0.4317
92281864|NCT01047345|184467113|SUPERIORITY_OR_OTHER||Seroconversion Rate|99.8|||<|0.001|TWO_SIDED|95.0|98.9|100.0||statistical criterion of acceptability required that the lower bound of the 95% CI for the proportion of subjects seroconverting be greater than 90%|Clopper-Pearson|||Anti-HPV 33||100.0|98.9|<0.001
92174443|NCT03858634|184241456|SUPERIORITY||LS mean difference|-28.9|STANDARD_ERROR_OF_MEAN|35.86||0.4791|TWO_SIDED|80.0|-87.63|29.81||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||29.81|-87.63|0.4791
92281865|NCT01047345|184467113|SUPERIORITY_OR_OTHER||Seroconversion Rate|98.3|||<|0.001|TWO_SIDED|95.0|96.7|99.2||statistical criterion of acceptability required that the lower bound of the 95% CI for the proportion of subjects seroconverting be greater than 90%|Clopper-Pearson|||Anti-HPV 45||99.2|96.7|<0.001
92281866|NCT01047345|184467113|SUPERIORITY_OR_OTHER||Seroconversion Rate|99.6|||<|0.001|TWO_SIDED|95.0|98.6|100.0||statistical criterion of acceptability required that the lower bound of the 95% CI for the proportion of subjects seroconverting be greater than 90%|Clopper-Pearson|||Anti-HPV 52||100.0|98.6|<0.001
92281867|NCT01047345|184467113|SUPERIORITY_OR_OTHER||Seroconversion Rate|99.8|||<|0.001|TWO_SIDED|95.0|98.9|100.0||statistical criterion of acceptability required that the lower bound of the 95% CI for the proportion of subjects seroconverting be greater than 90%|Clopper-Pearson|||Anti-HPV 58||100.0|98.9|<0.001
92281868|NCT00995553|184467118|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||ANOVA|||MATRICS Working Memory Index||||.06
92281869|NCT00995553|184467118|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||ANOVA|||MATRICS Attention Index||||.09
92281870|NCT00995553|184467119|SUPERIORITY_OR_OTHER|||||||0.73|||||||ANOVA|||||||.73
92281871|NCT00950807|184467120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|||<|0.001|TWO_SIDED|95.0|0.06|0.196|||Mixed Models Analysis|||||0.196|0.060|<0.001
92281872|NCT00950807|184467120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|||<|0.001|TWO_SIDED|95.0|0.077|0.216|||Mixed Models Analysis|||||0.216|0.077|<0.001
92281873|NCT00950807|184467120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095||||0.006|TWO_SIDED|95.0|0.027|0.162|||Mixed Models Analysis|||||0.162|0.027|0.006
92281874|NCT00950807|184467120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001|TWO_SIDED|95.0|0.074|0.205|||Mixed Models Analysis|||||0.205|0.074|<0.001
92281875|NCT00950807|184467120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|||<|0.001|TWO_SIDED|95.0|0.113|0.259|||Mixed Models Analysis|||||0.259|0.113|<0.001
92281876|NCT00950807|184467120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079||||0.03|TWO_SIDED|95.0|0.008|0.151|||Mixed Models Analysis|||||0.151|0.008|0.030
92281877|NCT00950807|184467120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|||<|0.001|TWO_SIDED|95.0|0.064|0.204|||Mixed Models Analysis|||||0.204|0.064|<0.001
92281878|NCT00950807|184467120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|||<|0.001|TWO_SIDED|95.0|0.101|0.242|||Mixed Models Analysis|||||0.242|0.101|<0.001
92281879|NCT00950807|184467120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105||||0.003|TWO_SIDED|95.0|0.037|0.173|||Mixed Models Analysis|||||0.173|0.037|0.003
92281880|NCT00659607|184467135|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test for paired observations|||||||<0.0001
92281881|NCT00659607|184467136|SUPERIORITY_OR_OTHER|||||||0.2669|||||||Chi-squared|||||||0.2669
92281882|NCT00659607|184467137|SUPERIORITY_OR_OTHER|||||||0.9674|||||||Chi-squared|||||||0.9674
92281883|NCT00659607|184467138|SUPERIORITY_OR_OTHER|||||||0.9207|||||||Chi-squared|||||||0.9207
92281884|NCT00659607|184467139|SUPERIORITY_OR_OTHER|||||||0.8249|||||||Fisher Exact|||||||0.8249
92281885|NCT00659607|184467140|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test for paired observations|||||||<0.0001
92281886|NCT00659607|184467142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.0003|TWO_SIDED|95.0|1.121|4.151|||Chi-squared||The estimation of Odds Ratio and 95% Confidence Interval based on the logistic regression analysis|||4.151|1.121|0.0003
92281887|NCT00659607|184467143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.3|||<|0.0001|TWO_SIDED|95.0|1.642|6.776|||Chi-squared||The Estimation of Odds Ratio and 95% Confidence Interval based the logistic regression analysis|||6.776|1.642|<0.0001
92281888|NCT00659607|184467144|SUPERIORITY_OR_OTHER|||||||0.0075|||||||Chi-squared|||||||0.0075
92281889|NCT00659607|184467145|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Chi-squared|||||||0.0007
92281890|NCT00659607|184467146|SUPERIORITY_OR_OTHER|||||||0.0393|||||||Chi-squared|||||||0.0393
92281891|NCT00659607|184467147|SUPERIORITY_OR_OTHER|||||||0.0245|||||||Chi-squared|||||||0.0245
92281892|NCT01822548|184467156|OTHER||||||<|0.05|||||||Regression, Linear|Generalized linear model (GLM)||||||<0.05
92281893|NCT01822548|184467156|SUPERIORITY||Slope|0.362|||<|0.05|TWO_SIDED|95.0|0.028|0.695|||ANOVA|adjustment for baseline value of EPC||||0.695|0.028|<0.05
92281894|NCT01822548|184467157|SUPERIORITY||Slope|-0.067|||<|0.05|TWO_SIDED|95.0|-0.358|0.224|||ANOVA|||||0.224|-0.358|<0.05
92281895|NCT01734772|184467171|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|geometric Mean Ratio|149.38|STANDARD_DEVIATION|37.6||0.9456||90.0|124.388|179.383||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||179.383|124.388|0.9456
92281896|NCT01734772|184467171|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|geometric Mean Ratio|126.47|STANDARD_DEVIATION|33.3||0.5481||90.0|107.363|148.967||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||148.967|107.363|0.5481
92245063|NCT00831441|184392952|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.8015|TWO_SIDED|95.0|0.83|1.15|||Cox proportional hazard models|||||1.15|0.83|0.8015
92245064|NCT00831441|184392953|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.8948|TWO_SIDED|95.0|0.85|1.15|||Cox proportional hazard models|||||1.15|0.85|0.8948
92245065|NCT00831441|184392954|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.59||||0.0006|TWO_SIDED|95.0|1.5|4.46|||Cox Proportional Hazard model|||A point estimate and two-sided 95% confidence interval (CI) for relative risk, as measured by the hazard ratio and a p-value for the test of equality of rates (HR = 1) was calculated.||4.46|1.50|0.0006
92281897|NCT01734772|184467171|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|geometric Mean Ratio|127.01|STANDARD_DEVIATION|31.6||0.5665||90.0|108.047|149.295||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||149.295|108.047|0.5665
92281898|NCT01734772|184467172|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|geometric Mean Ratio|164.74|STANDARD_DEVIATION|42.9||0.9841||90.0|133.945|202.619||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||202.619|133.945|0.9841
92245066|NCT00831441|184392955|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.48|||<|0.0001|TWO_SIDED|95.0|1.72|3.58|||Cox Proportional Hazard model|||||3.58|1.72|<0.0001
92245067|NCT00831441|184392956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.64|||<|0.0001|TWO_SIDED|95.0|1.87|3.72|||Cox Proportional Hazard model|||||3.72|1.87|<0.0001
92245068|NCT00831441|184392957|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.36|||<|0.0001|TWO_SIDED|95.0|2.06|2.7|||Cox Proportional Hazard model|||||2.70|2.06|<0.0001
92245069|NCT02924688|184392971|SUPERIORITY||Least Squares Mean Difference|0.096|STANDARD_ERROR_OF_MEAN|0.0222|<|0.001|TWO_SIDED|95.0|0.052|0.139||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study inhaled corticosteroids (ICS) dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.139|0.052|<0.001
92281899|NCT01734772|184467172|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|geometric Mean Ratio|128.61|STANDARD_DEVIATION|39.0||0.6003||90.0|106.37|155.495||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||155.495|106.370|0.6003
92281900|NCT01734772|184467172|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|gMean Ratio|123.82|STANDARD_DEVIATION|36.9||0.4656||90.0|102.695|149.288||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||149.288|102.695|0.4656
92174444|NCT03858634|184241456|SUPERIORITY||LS mean difference|-5.5|STANDARD_ERROR_OF_MEAN|12.66||0.6684|TWO_SIDED|80.0|-22.28|11.27||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||11.27|-22.28|0.6684
92245070|NCT02924688|184392971|SUPERIORITY||Least Squares Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.0221|<|0.001|TWO_SIDED|95.0|0.066|0.153||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.153|0.066|<0.001
92174445|NCT03858634|184241456|SUPERIORITY||LS mean difference|-79.7|STANDARD_ERROR_OF_MEAN|26.28||0.0937|TWO_SIDED|80.0|-129.22|-30.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-30.13|-129.22|0.0937
92245071|NCT02924688|184392971|SUPERIORITY||Least Squares Mean Difference|0.082|STANDARD_ERROR_OF_MEAN|0.0221|<|0.001|TWO_SIDED|95.0|0.039|0.125||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.125|0.039|<0.001
92245072|NCT02924688|184392971|SUPERIORITY||Least Squares Mean Difference|0.092|STANDARD_ERROR_OF_MEAN|0.022|<|0.001|TWO_SIDED|95.0|0.049|0.135||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.135|0.049|<0.001
92245073|NCT02924688|184392972|SUPERIORITY||Rate Ratio|0.97||||0.778|TWO_SIDED|95.0|0.81|1.17||p-value was calculated using Generalized linear model with covariates for age, sex, region, treatment group, stratification by pre-study ICS dosage at screening, and severe asthma exacerbations in the previous year (0, 1, \>=2).|Negative Binomial Model||Treatment policy estimand was assessed, including all on- and post-treatment data.|||1.17|0.81|0.778
92174446|NCT03858634|184241456|SUPERIORITY||LS mean difference|-27.2|STANDARD_ERROR_OF_MEAN|9.75||0.012|TWO_SIDED|80.0|-40.21|-14.27||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-14.27|-40.21|0.0120
92245074|NCT02924688|184392972|SUPERIORITY||Rate Ratio|0.87||||0.151|TWO_SIDED|95.0|0.72|1.05||p-value was calculated using Generalized linear model with covariates for age, sex, region, treatment group, stratification by pre-study ICS dosage at screening, and severe asthma exacerbations in the previous year (0, 1, \>=2).|Negative Binomial Model||Treatment policy estimand was assessed, including all on- and post-treatment data.|||1.05|0.72|0.151
92245075|NCT02924688|184392973|SUPERIORITY||Least Squares Mean Difference|0.088|STANDARD_ERROR_OF_MEAN|0.0226|<|0.001|TWO_SIDED|95.0|0.044|0.132||p-value was calculated using Analysis of Covariance (ANCOVA) with covariates of treatment, age, sex, region, Baseline value, and pre-study ICS dosage at screening.|ANCOVA|||||0.132|0.044|<0.001
92245076|NCT02924688|184392973|SUPERIORITY||Least Squares Mean Difference|0.111|STANDARD_ERROR_OF_MEAN|0.0225|<|0.001|TWO_SIDED|95.0|0.067|0.155||p-value was calculated using ANCOVA with covariates of treatment, age, sex, region, Baseline value, and pre-study ICS dosage at screening.|ANCOVA|||||0.155|0.067|<0.001
92245077|NCT02924688|184392973|SUPERIORITY||Least Squares Mean Difference|0.088|STANDARD_ERROR_OF_MEAN|0.0225|<|0.001|TWO_SIDED|95.0|0.044|0.132||p-value was calculated using ANCOVA with covariates of treatment, age, sex, region, Baseline value, and pre-study ICS dosage at screening.|ANCOVA|||||0.132|0.044|<0.001
92245078|NCT02924688|184392973|SUPERIORITY||Least Squares Mean Difference|0.118|STANDARD_ERROR_OF_MEAN|0.0224|<|0.001|TWO_SIDED|95.0|0.074|0.162||p-value was calculated using ANCOVA with covariates of treatment, age, sex, region, Baseline value, and pre-study ICS dosage at screening.|ANCOVA|||||0.162|0.074|<0.001
92245079|NCT02924688|184392974|SUPERIORITY||Least Squares Mean Difference|-0.057|STANDARD_ERROR_OF_MEAN|0.034||0.094|TWO_SIDED|95.0|-0.124|0.01||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.010|-0.124|0.094
92245080|NCT02924688|184392974|SUPERIORITY||Least Squares Mean Difference|-0.089|STANDARD_ERROR_OF_MEAN|0.0338||0.008|TWO_SIDED|95.0|-0.156|-0.023||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||-0.023|-0.156|0.008
92245081|NCT02924688|184392975|OTHER||Least Squares Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.697||0.115|TWO_SIDED|95.0|-0.27|2.47||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||2.47|-0.27|0.115
92245082|NCT02924688|184392975|OTHER||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.692||0.662|TWO_SIDED|95.0|-1.66|1.05||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||1.05|-1.66|0.662
92245083|NCT02924688|184392976|OTHER||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.185||0.479|TWO_SIDED|95.0|-0.49|0.23||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and 4-weekly period, interaction terms for Baseline value by 4-weekly period and treatment by 4-weekly period.|Mixed Model Repeated Measures|||||0.23|-0.49|0.479
92245084|NCT02924688|184392976|OTHER||Least Squares Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.184||0.023|TWO_SIDED|95.0|-0.78|-0.06||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and 4-weekly period, interaction terms for Baseline value by 4-weekly period and treatment by 4-weekly period.|Mixed Model Repeated Measures|||||-0.06|-0.78|0.023
92245085|NCT02924688|184392979|OTHER||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.75||0.172|TWO_SIDED|95.0|-2.5|0.4||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for SBP|||0.4|-2.5|0.172
92245086|NCT02924688|184392979|OTHER||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.74||0.436|TWO_SIDED|95.0|-2.0|0.9||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for SBP|||0.9|-2.0|0.436
92245087|NCT02924688|184392979|OTHER||Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.75||0.426|TWO_SIDED|95.0|-0.9|2.1||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for SBP|||2.1|-0.9|0.426
92245088|NCT02924688|184392979|OTHER||Least Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.74||0.349|TWO_SIDED|95.0|-0.8|2.2||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for SBP|||2.2|-0.8|0.349
92245089|NCT02924688|184392979|OTHER||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.56||0.482|TWO_SIDED|95.0|-1.5|0.7||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for DBP|||0.7|-1.5|0.482
92245090|NCT02924688|184392979|OTHER||Least Squares Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.56||0.142|TWO_SIDED|95.0|-0.3|1.9||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for DBP|||1.9|-0.3|0.142
92245091|NCT02924688|184392979|OTHER||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.56||0.806|TWO_SIDED|95.0|-1.2|1.0||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for DBP|||1.0|-1.2|0.806
92245092|NCT02924688|184392979|OTHER||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.55||0.447|TWO_SIDED|95.0|-0.7|1.5||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for DBP|||1.5|-0.7|0.447
92245093|NCT02924688|184392980|OTHER||Least Squares Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.61||0.034|TWO_SIDED|95.0|0.1|2.5||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||2.5|0.1|0.034
92245094|NCT02924688|184392980|OTHER||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.61||0.839|TWO_SIDED|95.0|-1.1|1.3||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||1.3|-1.1|0.839
92245095|NCT02924688|184392980|OTHER||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.61||0.349|TWO_SIDED|95.0|-1.8|0.6||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.6|-1.8|0.349
92281901|NCT00720122|184467174|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.00558|STANDARD_ERROR_OF_MEAN|0.00653||0.4|TWO_SIDED|95.0|-0.0081|0.0193|||Paired t-test|||A paired t-test was performed. The null hypothesis was that bone density would decrease over 6 months in females with anorexia nervosa, as observed in life course studies.||0.0193|-0.0081|0.40
92245096|NCT02924688|184392980|OTHER||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.61||0.768|TWO_SIDED|95.0|-1.0|1.4||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||1.4|-1.0|0.768
92281902|NCT00661999|184467175|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||Fisher Exact|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 15% in the primary hematopoietic response endpoint through Fisher's exact test, if the true percentage of patients that experience a hematopoietic response was at least 30% in the superior group, with a 2.5% type I error rate.||||0.39
92281903|NCT00661999|184467175|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Fisher Exact|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 15% in the primary hematopoietic response endpoint through Fisher's exact test, if the true percentage of patients that experience a hematopoietic response was at least 30% in the superior group, with a 2.5% type I error rate.||||0.73
92281904|NCT00661999|184467177|SUPERIORITY_OR_OTHER|||||||0.725||95.0|||||Fisher Exact|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 15% in the true percentage of patients that need transfusion was at least 30% in the superior group, with a 2.5% type I error rate.||||0.7250
92281905|NCT00661999|184467177|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Fisher Exact|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 15% in the true percentage of patients that need transfusion was at least 30% in the superior group, with a 2.5% type I error rate.||||0.8700
92281906|NCT00661999|184467178|SUPERIORITY_OR_OTHER|||||||0.6639||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in average hemoglobin levels through two-sided alternative, with a 2.5% type I error rate.||||0.6639
92281907|NCT00661999|184467178|SUPERIORITY_OR_OTHER|||||||0.566||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in average hemoglobin levels through two-sided alternative, with a 2.5% type I error rate.||||0.5660
92281908|NCT00661999|184467179|SUPERIORITY_OR_OTHER|||||||0.1124||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in average hemoglobin levels through two-sided alternative, with a 2.5% type I error rate.||||0.1124
92281909|NCT00661999|184467179|SUPERIORITY_OR_OTHER|||||||0.2051||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in average hemoglobin levels through two-sided alternative, with a 2.5% type I error rate.||||0.2051
92281910|NCT00661999|184467180|SUPERIORITY_OR_OTHER|||||||0.0648||95.0|||||Log Rank|||||||0.0648
92174447|NCT03858634|184241456|SUPERIORITY||LS mean difference|-32.7|STANDARD_ERROR_OF_MEAN|41.95||0.4927|TWO_SIDED|80.0|-101.39|36.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||36.02|-101.39|0.4927
92245097|NCT03072719|184392983|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-0.19||||0.1774|TWO_SIDED|95.0|-0.46|0.09||From ANCOVA model: Treatment as fixed factor, baseline Schiff Sensitivity score as covariate.|ANCOVA||Difference is 0.454% stannous fluoride minus 0.76% sodium monofluorophosphate such that a negative difference favours first named treatment.|"H0 : The difference in Schiff Sensitivity Score at Day 14 between the experimental dentifrice and reference dentifrice is zero.~H1 : The difference in Schiff Sensitivity Score at Day 14 between the experimental dentifrice and reference dentifrice is not zero."||0.09|-0.46|0.1774
92245098|NCT01708941|184392996|SUPERIORITY|||||||0.49|||||||Log Rank|||The primary comparison was ipilimumab + HDI versus ipilimumab alone, across ipilimumab dose (Arms A \& C versus Arms B \& D)||||0.490
92245099|NCT01708941|184392997|SUPERIORITY|||||||0.144|||||||Log Rank|||PFS comparison of higher dose ipilimumab versus lower dose ipilimumab (Arms A \& B versus Arms C \& D)||||0.144
92245100|NCT01708941|184392998|SUPERIORITY|||||||0.691|||||||Log Rank|||||||0.691
92245101|NCT01708941|184392999|SUPERIORITY|||||||0.868|||||||Log Rank|||Comparison of higher dose ipilimumab versus lower dose ipilimumab across HDI status (Arms A \& B versus Arms C \& D)||||0.868
92245102|NCT03004469|184393013|OTHER||LS Mean Difference|13.6|STANDARD_ERROR_OF_MEAN|3.94|<|0.001|TWO_SIDED|95.0|5.8|21.3|||Mixed linear model|||||21.3|5.8|<.001
92245103|NCT03004469|184393014|OTHER||LS Mean Difference|12.8|STANDARD_ERROR_OF_MEAN|3.19|<|0.001|TWO_SIDED|95.0|6.5|19.1|||Mixed linear model|||||19.1|6.5|<.001
92245104|NCT03004469|184393015|OTHER||LS Mean Difference|-0.4024|STANDARD_ERROR_OF_MEAN|0.4057||0.322|TWO_SIDED|95.0|-1.202|0.3971|||Mixed linear model|||Statistical Analysis details presented here is for Week 12||0.3971|-1.2020|0.322
92245105|NCT03004469|184393015|OTHER||LS Mean Difference|0.7237|STANDARD_ERROR_OF_MEAN|0.47799||0.131|TWO_SIDED|95.0|-0.2184|1.6657|||Mixed linear model|||Statistical Analysis details presented here is for Week 24||1.6657|-0.2184|0.131
92245106|NCT03004469|184393016|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.569|TWO_SIDED|95.0|-0.3|0.2|||Mixed linear model|||Statistical Analysis details presented here is for Week 12||0.2|-0.3|0.569
92245107|NCT03004469|184393016|OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.129|TWO_SIDED|95.0|-0.4|0.1|||Mixed linear model|||Statistical Analysis details presented here is for Week 24||0.1|-0.4|0.129
92245108|NCT03004469|184393017|OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.708|TWO_SIDED|95.0|-0.2|0.3|||Mixed linear model|||Statistical Analysis details presented here is for Week 12||0.3|-0.2|0.708
92245109|NCT03004469|184393017|OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|0.2|0.7|||Mixed linear model|||Statistical Analysis details presented here is for Week 24||0.7|0.2|<.001
92245110|NCT03004469|184393018|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.179|TWO_SIDED|95.0|-0.3|0.1|||Mixed linear model|||Statistical Analysis details presented here is for Week 12||0.1|-0.3|0.179
92245111|NCT03004469|184393018|OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.262|TWO_SIDED|95.0|-0.1|0.4|||Mixed linear model|||Statistical Analysis details presented here is for Week 24||0.4|-0.1|0.262
92245112|NCT03004469|184393019|OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|1.03||0.103|TWO_SIDED|95.0|-3.7|0.3|||Mixed linear model|||Statistical Analysis details presented here is for Erectile Function Score, Week 4||0.3|-3.7|0.103
92245113|NCT03004469|184393019|OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.1||0.545|TWO_SIDED|95.0|-2.8|1.5|||Mixed linear model|||Statistical Analysis details presented here is for Erectile Function Score, Week 8||1.5|-2.8|0.545
92245114|NCT03004469|184393019|OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.0||0.842|TWO_SIDED|95.0|-2.2|1.8|||Mixed linear model|||Statistical Analysis details presented here is for Erectile Function Score, Week 12||1.8|-2.2|0.842
92245115|NCT03004469|184393019|OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.02||0.449|TWO_SIDED|95.0|-2.8|1.2|||Mixed linear model|||Statistical Analysis details presented here is for Erectile Function Score, Week 24||1.2|-2.8|0.449
92245116|NCT03004469|184393019|OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.28||0.272|TWO_SIDED|95.0|-0.2|0.9|||Mixed linear model|||Statistical Analysis details presented here is for Orgasmic Function Score, Week 4||0.9|-0.2|0.272
92245117|NCT03004469|184393019|OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.36||0.918|TWO_SIDED|95.0|-0.7|0.8|||Mixed linear model|||Statistical Analysis details presented here is for Orgasmic Function Score, Week 8||0.8|-0.7|0.918
92245118|NCT03004469|184393019|OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.078||0.078|TWO_SIDED|95.0|-0.1|1.1|||Mixed linear model|||Statistical Analysis details presented here is for Orgasmic Function Score, Week 12||1.1|-0.1|0.078
92245119|NCT03004469|184393019|OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.34||0.593|TWO_SIDED|95.0|-0.9|0.5|||Mixed linear model|||Statistical Analysis details presented here is for Orgasmic Function Score, Week 24||0.5|-0.9|0.593
92245120|NCT03004469|184393019|OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.23||0.295|TWO_SIDED|95.0|-0.7|0.2|||Mixed linear model|||Statistical Analysis details presented here is for Sexual Desire Score, Week 4||0.2|-0.7|0.295
92245121|NCT03004469|184393019|OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.926|TWO_SIDED|95.0|-0.5|0.4|||Mixed linear model|||Statistical Analysis details presented here is for Sexual Desire Score, Week 8||0.4|-0.5|0.926
92245122|NCT03004469|184393019|OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.183|TWO_SIDED|95.0|-0.7|0.1|||Mixed linear model|||Statistical Analysis details presented here is for Sexual Desire Score, Week 12||0.1|-0.7|0.183
92245123|NCT03004469|184393019|OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.981|TWO_SIDED|95.0|-0.4|0.5|||Mixed linear model|||Statistical Analysis details presented here is for Sexual Desire Score, Week 24||0.5|-0.4|0.981
92245124|NCT03004469|184393019|OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.66||0.041|TWO_SIDED|95.0|-2.7|-0.1|||Mixed linear model|||Statistical Analysis details presented here is for Intercourse Satisfaction Score, Week 4||-0.1|-2.7|0.041
92245125|NCT03004469|184393019|OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.67||0.562|TWO_SIDED|95.0|-1.7|0.9|||Mixed linear model|||Statistical Analysis details presented here is for Intercourse Satisfaction Score, Week 8||0.9|-1.7|0.562
92245126|NCT03004469|184393019|OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.66||0.642|TWO_SIDED|95.0|-1.6|1.0|||Mixed linear model|||Statistical Analysis details presented here is for Intercourse Satisfaction Score, Week 12||1.0|-1.6|0.642
92245127|NCT03004469|184393019|OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.65||0.156|TWO_SIDED|95.0|-2.2|0.4|||Mixed linear model|||Statistical Analysis details presented here is for Intercourse Satisfaction Score, Week 24||0.4|-2.2|0.156
92245128|NCT03004469|184393019|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.29||0.824|TWO_SIDED|95.0|-0.6|0.5|||Mixed linear model|||Statistical Analysis details presented here is for Overall Satisfaction Score, Week 4||0.5|-0.6|0.824
92174448|NCT03858634|184241456|SUPERIORITY||LS mean difference|-10.9|STANDARD_ERROR_OF_MEAN|13.9||0.4409|TWO_SIDED|80.0|-29.35|7.49||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||7.49|-29.35|0.4409
92174449|NCT03858634|184241456|SUPERIORITY||LS mean difference|-90.7|STANDARD_ERROR_OF_MEAN|34.58||0.1197|TWO_SIDED|80.0|-155.96|-25.54||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-25.54|-155.96|0.1197
92174450|NCT03858634|184241456|SUPERIORITY||LS mean difference|-35.3|STANDARD_ERROR_OF_MEAN|12.31||0.0102|TWO_SIDED|80.0|-51.68|-18.92||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANOVA|||Change at Week 5||-18.92|-51.68|0.0102
92174451|NCT03858634|184241456|SUPERIORITY||LS mean difference|-33.5|STANDARD_ERROR_OF_MEAN|38.77||0.4515|TWO_SIDED|80.0|-96.97|30.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||30.02|-96.97|0.4515
92174452|NCT03858634|184241456|SUPERIORITY||LS mean difference|-4.5|STANDARD_ERROR_OF_MEAN|14.56||0.7623|TWO_SIDED|80.0|-23.76|14.83||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||14.83|-23.76|0.7623
92174453|NCT03858634|184241456|SUPERIORITY||LS mean difference|-88.5|STANDARD_ERROR_OF_MEAN|34.57||0.1247|TWO_SIDED|80.0|-153.65|-23.29||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-23.29|-153.65|0.1247
92174454|NCT03858634|184241456|SUPERIORITY||LS mean difference|-37.7|STANDARD_ERROR_OF_MEAN|11.91||0.0053|TWO_SIDED|80.0|-53.59|-21.9||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-21.90|-53.59|0.0053
92174455|NCT03858634|184241456|SUPERIORITY||LS mean difference|-17.2|STANDARD_ERROR_OF_MEAN|43.23||0.7177|TWO_SIDED|80.0|-87.97|53.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||53.62|-87.97|0.7177
92174456|NCT03858634|184241456|SUPERIORITY||LS mean difference|-6.2|STANDARD_ERROR_OF_MEAN|14.35||0.6682|TWO_SIDED|80.0|-25.26|12.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||12.78|-25.26|0.6682
92174457|NCT03858634|184241456|SUPERIORITY||LS mean difference|-95.2|STANDARD_ERROR_OF_MEAN|29.16||0.0823|TWO_SIDED|80.0|-150.21|-40.24||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-40.24|-150.21|0.0823
92174458|NCT03858634|184241456|SUPERIORITY||LS mean difference|-38.1|STANDARD_ERROR_OF_MEAN|12.95||0.0087|TWO_SIDED|80.0|-55.38|-20.92||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-20.92|-55.38|0.0087
92174459|NCT03858634|184241456|SUPERIORITY||LS mean difference|-31.7|STANDARD_ERROR_OF_MEAN|38.73||0.4734|TWO_SIDED|80.0|-95.11|31.76||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||31.76|-95.11|0.4734
92174460|NCT03858634|184241456|SUPERIORITY||LS mean difference|-3.6|STANDARD_ERROR_OF_MEAN|14.91||0.813|TWO_SIDED|80.0|-23.33|16.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||16.18|-23.33|0.8130
92174461|NCT03858634|184241456|SUPERIORITY||LS mean difference|-92.0|STANDARD_ERROR_OF_MEAN|31.1||0.0979|TWO_SIDED|80.0|-150.6|-33.32||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-33.32|-150.60|0.0979
92174462|NCT03858634|184241456|SUPERIORITY||LS mean difference|-37.5|STANDARD_ERROR_OF_MEAN|13.48||0.0122|TWO_SIDED|80.0|-55.48|-19.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-19.61|-55.48|0.0122
92174463|NCT03858634|184241456|SUPERIORITY||LS mean difference|-32.1|STANDARD_ERROR_OF_MEAN|35.35||0.431|TWO_SIDED|80.0|-89.98|25.81||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||25.81|-89.98|0.4310
92245129|NCT03004469|184393019|OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.29||0.713|TWO_SIDED|95.0|-0.5|0.7|||Mixed linear model|||Statistical Analysis details presented here is for Overall Satisfaction Score, Week 8||0.7|-0.5|0.713
92245130|NCT03004469|184393019|OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.993|TWO_SIDED|95.0|-0.6|0.6|||Mixed linear model|||Statistical Analysis details presented here is for Overall Satisfaction Score, Week 12||0.6|-0.6|0.993
92174464|NCT03858634|184241456|SUPERIORITY||LS mean difference|-7.1|STANDARD_ERROR_OF_MEAN|15.22||0.6452|TWO_SIDED|80.0|-27.38|13.12||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||13.12|-27.38|0.6452
92245131|NCT03004469|184393019|OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.55|TWO_SIDED|95.0|-0.8|0.4|||Mixed linear model|||Statistical Analysis details presented here is for Overall Satisfaction Score, Week 24||0.4|-0.8|0.550
92245132|NCT00423735|184393029|SUPERIORITY|||||||0.99|||||||Fisher Exact|2-sided test||||||0.99
92245133|NCT02108600|184393062|OTHER|||||||0.033|TWO_SIDED|95.0|||||Fisher Exact|||||||0.033
92245134|NCT01295580|184393068|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"This is a non-inferiority test. The non-inferiority margin of +1.6 units corresponds to an 8% margin on the pain subscale (range 0-20)~Alpha inflation was controlled using pre-planned stepwise hypotheses testing (1) WOMAC Pain over 18 weeks then (2) over 26 weeks, (3) WOMAC Physical Function over 18 weeks then (4) over 26 weeks, (5) Subject Global Assessment over 18 weeks then (6) over 26 weeks, (7) WOMAC Knee Stiffness over 18 weeks then (8) over 26 weeks."|Mean Difference (Final Values)|-0.09|||||TWO_SIDED|95.0|-0.58|0.39||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the first step WOMAC pain over 18 week pain subscale primary analyses.||The second step is to test Durolane WOMAC pain non-inferior to Artz WOMAC pain over 26 weeks.||"Primary Hypothesis:~Ho: μDUR\[18\] - μArtz\[18\] ≥ +1.6 units Ha: μDUR\[18\] - μArtz\[18\] \< +1.6 units~Power Calculations:~Assume the over 18 weeks difference is 0mm, SD 20mm (5 on the Likert scale), 90% power, 2-sided test alpha 5%, and a 8mm non-inferiority margin (1.6 on the Likert scale), the sample size required is 132 subjects per group adjusted to 175 to hold power constant due to loss to follow-up and dropout."||0.39|-0.58|
92245135|NCT01295580|184393069|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of +1.6 units corresponds to an 8% margin on the pain subscale (range 0-20)|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.56|0.37||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first pain over 18 weeks then pain over 26 weeks. This section reports the over 26 week pain subscale results.||The third ordered test is Durolane WOMAC physical function subscale non-inferior to Artz WOMAC physical function subscale over 18 weeks.||Ho: μDUR\[26\] - μArtz\[26\] ≥ +1.6 units Ha: μDUR\[26\] - μArtz\[26\] \< +1.6 units||0.37|-0.56|
92245136|NCT01295580|184393070|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of +5.44 units corresponds to an 8% margin on the physical function subscale (range 0-68).|Mean Difference (Final Values)|-0.65|||||TWO_SIDED|95.0|-1.81|0.51||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 18 week physical function results.||The fourth step is to test Durolane WOMAC physical function non-inferior to Artz physical function over 26 weeks.||Ho: μDUR\[18\] - μArtz\[18\] ≥ +5.44 units Ha: μDUR\[18\] - μArtz\[18\] \< +5.44 units||0.51|-1.81|
92245137|NCT01295580|184393071|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of +5.44 units corresponds to an 8% margin on the physical function subscale (range 0-68).|Mean Difference (Final Values)|-0.58|||||TWO_SIDED|95.0|-1.69|0.53||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 26 week physical function subscale results.||The fifth step is to test Durolane subject global assessment non-inferior to Artz global assessment over 18 weeks.||Ho: μDUR\[26\] - μArtz\[26\] ≥ +5.44 units Ha: μDUR\[26\] - μArtz\[26\] \< +5.44 units||0.53|-1.69|
92245138|NCT01295580|184393072|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of -0.8 units corresponds to an 8% margin on the subject global assessment (range 0-10). Note that because the assessment interpretation is reversed as compared to the WOMAC assessments the lower bound of the 95%CI is compared to the -0.8 non-inferiority margin.|Mean Difference (Final Values)|0.15|||||TWO_SIDED|95.0|-0.15|0.45||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 18 week subject global assessment results.||The sixth step is to test Durolane subject global assessment non-inferior to Artz subject global assessment over 26 weeks.||Ho: μDUR\[18\] - μArtz\[18\] ≤ -0.8 units Ha: μDUR\[18\] - μArtz\[18\] \> -0.8 units||0.45|-0.15|
92245139|NCT01295580|184393073|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of -0.8 units corresponds to an 8% margin on the subject global assessment (range 0-10). Note that because the assessment interpretation is reversed as compared to the WOMAC assessments the lower bound of the 95%CI is compared to the -0.8 non-inferiority margin.|Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-0.16|0.43||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 26 week subject global assessment results.||The seventh step is to test Durolane WOMAC knee stiffness non-inferior to Artz WOMAC knee stiffness over 18 weeks.||Ho: μDUR\[18\] - μArtz\[18\] ≤ -0.8 units Ha: μDUR\[18\] - μArtz\[18\] \> -0.8 units||0.43|-0.16|
92245140|NCT01295580|184393074|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of +0.64 units corresponds to an 8% margin on the knee stiffness subscale (range 0-8).|Mean Difference (Final Values)|-0.14|||||TWO_SIDED|95.0|-0.33|0.05||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 18 week knee stiffness subscale results.||The eight and last step is to test Durolane WOMAC knee stiffness non-inferior to Artz WOMAC knee stiffness over 26 weeks.||Ho: μDUR\[18\] - μArtz\[18\] ≥ +0.64 units Ha: μDUR\[18\] - μArtz\[18\] \< +0.64 units||0.05|-0.33|
92245141|NCT01295580|184393075|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of 0.64 units corresponds to an 8% margin on the knee stiffness subscale (range 0-8).|Mean Difference (Final Values)|-0.15|||||TWO_SIDED|95.0|-0.33|0.03||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 26 week knee stiffness subscale results.||This is the eighth and last pre-planned hypothesis test.||Ho: μDUR\[26\] - μArtz\[26\] ≥ +0.64 units Ha: μDUR\[26\] - μArtz\[26\] \< +0.64 units||0.03|-0.33|
92245142|NCT04570332|184393076|SUPERIORITY||rate %|25.0|||<|0.01|TWO_SIDED|95.0|12.69|41.2|||one-sided test for binomial endpoint|||The null hypothesis was H0: ORR=10% (p0) and was tested against H1: ORR\>10% at one-sided 5% significance level. Assuming an effect size of ORR=25% (pA), 40 participants provided a power of at least 80%. The minimal statistically significant ORR was 20%.||41.20|12.69|<0.01
92245143|NCT03943953|184393088|SUPERIORITY||Mean Difference (Final Values)|2.86||||0.018|TWO_SIDED||||||t-test, 1 sided|||This is a comparison between Time 1 and Time 2||||.018
92245144|NCT03943953|184393090|SUPERIORITY||Mean Difference (Final Values)|3.88||||0.001|TWO_SIDED||||||t-test, 1 sided|||This is a comparison between Time 1 and Time 2||||.001
92281911|NCT00661999|184467182|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.61
92245145|NCT03943953|184393092|SUPERIORITY||Mean Difference (Final Values)|3.88||||0.006|TWO_SIDED||||||t-test, 1 sided|||This is a comparison between Time 1 and Time 2||||.006
92245146|NCT03943953|184393094|SUPERIORITY||Mean Difference (Final Values)|-2.28||||0.035|TWO_SIDED||||||t-test, 1 sided|||This is a comparison between Time 1 and Time 2||||.035
92245147|NCT03943953|184393096|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.39|TWO_SIDED||||||t-test, 1 sided|||This is a comparison between Time 1 and Time 2||||.39
92245148|NCT01102218|184393099|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92245149|NCT05025787|184393130|SUPERIORITY||model treatment coefficient|-1.774|STANDARD_DEVIATION|0.639||0.006|TWO_SIDED|95.0|-3.033|-0.514||A 95% confidence interval for the treatment coefficient in the linear mixed-effect model was (-3.033, -0.514), where the reference level was the active treatment.|Mixed Models Analysis|||"Null hypothesis is that there was no difference in mean WOMAC-A pain between CNTX-6970 and Placebo. Linear mixed-effect models were used with block, period, sex, age, and KL-grade as covariates and treatment group as factor, with random effects for sites and subjects nested within sites. The test was performed with significance level of 0.05 (two-sided).~Power was computed for effect sizes ranging from 0.25 to 0.50 using Monte Carlo simulation, and exceeded 80%."||-0.514|-3.033|.006
92245150|NCT03471767|184393141|SUPERIORITY|Multilevel modeling (MLM) was used to model daily reports of cigarettes smoked as a function of week, treatment (AXS-05 vs. bupropion), and the interaction between week and treatment. The contrast between the two treatment groups in change in smoking intensity from baseline to week 3 was estimated within the context of the model.|Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.54||0.05|TWO_SIDED|95.0|-2.75|-0.65||This was not adjusted for multiple comparisons, because the primary hypothesis was established a-priori.|t-test, 2 sided|||||-0.65|-2.75|0.05
92245151|NCT03471767|184393147|OTHER|||||||0.15|||||||t-test, 2 sided|||||||0.15
92281912|NCT00661999|184467182|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.44
92281913|NCT00661999|184467183|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.62
92281914|NCT00661999|184467183|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.30
92281915|NCT00661999|184467184|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.19
92281916|NCT00661999|184467184|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.17
92281917|NCT00661999|184467185|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.73
92245152|NCT02491073|184393165|OTHER||geometric mean ratio|1.05||||1.05|TWO_SIDED|90.0|0.98|1.09|||geometric mean ration||The parameter dispersion type:Geometric coefficient of variation Dispersion Value: FT4: 0.220|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator.|1.09|0.98|1.05
92281918|NCT00661999|184467185|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.83
92281919|NCT00661999|184467186|SUPERIORITY_OR_OTHER|||||||0.3852||95.0||||Test Comparison for Week 1 Level|Kruskal-Wallis|||||||0.3852
92281920|NCT00661999|184467186|SUPERIORITY_OR_OTHER|||||||0.0663||95.0||||Test Comparison for Week 7 Level.|Kruskal-Wallis|||||||0.0663
92281921|NCT00661999|184467186|SUPERIORITY_OR_OTHER|||||||0.322||95.0||||Test Comparison for Week 16 Level|Kruskal-Wallis|||||||0.3220
92281922|NCT00661999|184467187|SUPERIORITY_OR_OTHER|||||||0.1826||95.0||||Test Comparison for Week 1 Level.|Kruskal-Wallis|||||||0.1826
92281923|NCT00661999|184467187|SUPERIORITY_OR_OTHER|||||||0.0113||95.0||||Test comparison for week 7 level|Kruskal-Wallis|||||||0.0113
92281924|NCT00661999|184467187|SUPERIORITY_OR_OTHER|||||||0.3358||95.0||||Test Comparison for week 16 level|Kruskal-Wallis|||||||0.3358
92281925|NCT00661999|184467188|SUPERIORITY_OR_OTHER|||||||0.9022||95.0||||Test comparison for Baseline level.|Kruskal-Wallis|||||||0.9022
92281926|NCT00661999|184467188|SUPERIORITY_OR_OTHER|||||||0.0002||95.0||||Test Comparison for Week 7 Level.|Kruskal-Wallis|||||||0.0002
92281927|NCT00661999|184467188|SUPERIORITY_OR_OTHER|||||||0.0022||95.0||||Test Comparison for Week 16 Level.|Kruskal-Wallis|||||||0.0022
92281928|NCT00661999|184467189|SUPERIORITY_OR_OTHER|||||||0.1137||95.0||||Test comparison for baseline level.|Kruskal-Wallis|||||||0.1137
92174465|NCT03858634|184241456|SUPERIORITY||LS mean difference|-89.2|STANDARD_ERROR_OF_MEAN|37.02||0.1375|TWO_SIDED|80.0|-159.04|-19.44||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-19.44|-159.04|0.1375
92245153|NCT02491073|184393165|OTHER||Geometric Mean Ratio|1.15|||||TWO_SIDED|90.0|1.09|1.22|||Geometric Mean Ratio||parameter dispersion type: Geometric Coefficient of Variation Dispersion Value : FT3: 0.178|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator.|1.22|1.09|
92174466|NCT03858634|184241456|SUPERIORITY||LS mean difference|-39.6|STANDARD_ERROR_OF_MEAN|14.59||0.0143|TWO_SIDED|80.0|-58.97|-20.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-20.15|-58.97|0.0143
92174467|NCT03858634|184241456|SUPERIORITY||LS mean difference|-22.1|STANDARD_ERROR_OF_MEAN|36.4||0.5867|TWO_SIDED|80.0|-81.7|37.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||37.52|-81.70|0.5867
92245154|NCT02491073|184393166|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|Geometric Mean Ratio|1.01|||||TWO_SIDED|90.0|1.01|1.03|||||Parameter dispersion type: geometric coefficient of variation dispersion value 0.024|FT4|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.03|1.01|
92245155|NCT02491073|184393166|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|1.03|1.04|||||parameter dispersion value - geometric coefficient of variation dispersion value - 0.020|FT4|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.04|1.03|
92245156|NCT02491073|184393166|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.05|||||TWO_SIDED|90.0|1.05|1.06|||||parameter dispersion type - geometric coefficient variation dispersion value - 0.021|FT4|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.06|1.05|
92281929|NCT00661999|184467189|SUPERIORITY_OR_OTHER|||||||0.8042||95.0||||Test comparison for week 7 level.|Kruskal-Wallis|||||||0.8042
92245157|NCT02491073|184393166|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.99|1.02|||||parameter dispersion type -geometric coefficient of variation dispersion value - 0.040|FT3|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.02|0.99|
92281930|NCT00661999|184467189|SUPERIORITY_OR_OTHER|||||||0.2016||95.0||||Test comparison for week 16 level.|Kruskal-Wallis|||||||0.2016
92281931|NCT00661999|184467190|SUPERIORITY_OR_OTHER|||||||0.1139||95.0||||Test comparison for baseline level.|Kruskal-Wallis|||||||0.1139
92281932|NCT00661999|184467190|SUPERIORITY_OR_OTHER|||||||0.0424||95.0||||Test comparison for week 7 level.|Kruskal-Wallis|||||||0.0424
92281933|NCT00661999|184467190|SUPERIORITY_OR_OTHER|||||||0.2025||95.0||||Test comparison for week 16 level.|Kruskal-Wallis|||||||0.2025
92281934|NCT01835145|184467235|SUPERIORITY|||||||0.7|||||||Chi-squared|||A one-sided chi-squared test for a difference in PFS4 rates will be used to test for a difference between arms.||||0.70
92281935|NCT01658943|184467248|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Log Rank|||||||0.15
92281936|NCT05905783|184467294|SUPERIORITY||Risk Difference (RD)|13.0|STANDARD_ERROR_OF_MEAN|5.5||0.0183|TWO_SIDED|95.0|2.2|23.7|||Cochran-Mantel-Haenszel|||||23.7|2.2|0.0183
92281937|NCT05905783|184467295|SUPERIORITY||Risk Difference (RD)|15.8|STANDARD_ERROR_OF_MEAN|4.67||0.0007|TWO_SIDED|95.0|6.7|25.0|||Cochran-Mantel-Haenszel|||||25.0|6.7|0.0007
92281938|NCT05905783|184467296|SUPERIORITY||Risk Difference (RD)|14.7|STANDARD_ERROR_OF_MEAN|4.4||0.0008|TWO_SIDED|95.0|6.1|23.4|||Cochran-Mantel-Haenszel|||||23.4|6.1|0.0008
92281939|NCT05905783|184467297|SUPERIORITY||Risk Difference (RD)|12.3|STANDARD_ERROR_OF_MEAN|6.16||0.0462|TWO_SIDED|95.0|0.2|24.3|||Cochran-Mantel-Haenszel|||||24.3|0.2|0.0462
92281940|NCT05905783|184467298|SUPERIORITY||Risk Difference (RD)|-2.8|STANDARD_ERROR_OF_MEAN|5.84||0.6285|TWO_SIDED|95.0|-14.3|8.6|||Cochran-Mantel-Haenszel|||||8.6|-14.3|0.6285
92174468|NCT03858634|184241456|SUPERIORITY||LS mean difference|6.1|STANDARD_ERROR_OF_MEAN|14.38||0.6745|TWO_SIDED|80.0|-12.99|25.27||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||25.27|-12.99|0.6745
92174469|NCT03858634|184241456|SUPERIORITY||LS mean difference|-85.6|STANDARD_ERROR_OF_MEAN|29.99||0.1039|TWO_SIDED|80.0|-142.18|-29.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-29.09|-142.18|0.1039
92174470|NCT03858634|184241456|SUPERIORITY||LS mean difference|-42.5|STANDARD_ERROR_OF_MEAN|15.12||0.0116|TWO_SIDED|80.0|-62.6|-22.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-22.36|-62.60|0.0116
92174471|NCT03858634|184241456|SUPERIORITY||LS mean difference|-23.1|STANDARD_ERROR_OF_MEAN|37.49||0.5807|TWO_SIDED|80.0|-84.55|38.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||38.26|-84.55|0.5807
92174472|NCT03858634|184241456|SUPERIORITY||LS mean difference|8.6|STANDARD_ERROR_OF_MEAN|15.16||0.5765|TWO_SIDED|80.0|-11.55|28.8||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||28.80|-11.55|0.5765
92174473|NCT03858634|184241456|SUPERIORITY||LS mean difference|-86.2|STANDARD_ERROR_OF_MEAN|28.36||0.0933|TWO_SIDED|80.0|-139.7|-32.75||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||-32.75|-139.70|0.0933
92174474|NCT03858634|184241456|SUPERIORITY||LS mean difference|-39.3||||0.0173|TWO_SIDED|80.0|-59.29|-19.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||-19.37|-59.29|0.0173
92174475|NCT03858634|184241456|SUPERIORITY||LS mean difference|-27.2|STANDARD_ERROR_OF_MEAN|38.36||0.5293|TWO_SIDED|80.0|-90.04|35.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||35.62|-90.04|0.5293
92174476|NCT03858634|184241456|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|15.12||0.9676|TWO_SIDED|80.0|-20.73|19.49||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||19.49|-20.73|0.9676
92174477|NCT03858634|184241456|SUPERIORITY||LS mean difference|-86.2|STANDARD_ERROR_OF_MEAN|23.38||0.0663|TWO_SIDED|80.0|-130.27|-42.11||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-42.11|-130.27|0.0663
92174478|NCT03858634|184241456|SUPERIORITY||LS mean difference|-37.4|STANDARD_ERROR_OF_MEAN|15.33||0.0252|TWO_SIDED|80.0|-57.81|-17.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-17.02|-57.81|0.0252
92174479|NCT03858634|184241456|SUPERIORITY||LS mean difference|-19.6|STANDARD_ERROR_OF_MEAN|40.81||0.6637|TWO_SIDED|80.0|-86.45|47.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||47.22|-86.45|0.6637
92174480|NCT03858634|184241456|SUPERIORITY||LS mean difference|-1.6|STANDARD_DEVIATION|15.35||0.9173|TWO_SIDED|80.0|-22.04|18.81||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||18.81|-22.04|0.9173
92174481|NCT03858634|184241456|SUPERIORITY||LS mean difference|-96.2|STANDARD_ERROR_OF_MEAN|26.55||0.0685|TWO_SIDED|80.0|-146.23|-46.1||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||-46.10|-146.23|0.0685
92174482|NCT03858634|184241456|SUPERIORITY||LS mean difference|-39.7|STANDARD_ERROR_OF_MEAN|15.96||0.023|TWO_SIDED|80.0|-60.91|-18.44||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||-18.44|-60.91|0.0230
92174483|NCT03858634|184241456|SUPERIORITY||LS mean difference|-19.1|STANDARD_ERROR_OF_MEAN|37.62||0.6471|TWO_SIDED|80.0|-80.69|42.54||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||42.54|-80.69|0.6471
92174484|NCT03858634|184241456|SUPERIORITY||LS mean difference|-3.9|STANDARD_ERROR_OF_MEAN|15.52||0.8044|TWO_SIDED|80.0|-24.56|16.75||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||16.75|-24.56|0.8044
92245158|NCT02491073|184393166|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geotmetric mean ratio|1.02|||||TWO_SIDED|90.0|1.0|1.03|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.041|FT3|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.03|1.00|
92281941|NCT05905783|184467299|SUPERIORITY||LS Mean Difference|-2.16||||0.0011|TWO_SIDED|95.0|-3.44|-0.88|||Mixed model repeated measures (MMRM)|||||-0.88|-3.44|0.0011
92174485|NCT03858634|184241456|SUPERIORITY||LS mean difference|-99.5|STANDARD_ERROR_OF_MEAN|28.71||0.0741|TWO_SIDED|80.0|-153.63|-45.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-45.37|-153.63|0.0741
92174486|NCT03858634|184241456|SUPERIORITY||LS mean difference|-39.9|STANDARD_ERROR_OF_MEAN|15.89||0.0219|TWO_SIDED|80.0|-61.0|-18.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-18.72|-61.00|0.0219
92174487|NCT03858634|184241456|SUPERIORITY||LS mean difference|-25.4|STANDARD_ERROR_OF_MEAN|37.15||0.5436|TWO_SIDED|80.0|-86.21|35.46||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||35.46|-86.21|0.5436
92174488|NCT03858634|184241456|SUPERIORITY||LS mean difference|-1.7|STANDARD_ERROR_OF_MEAN|16.13||0.9149|TWO_SIDED|80.0|-23.2|19.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||19.71|-23.20|0.9149
92174489|NCT03858634|184241456|SUPERIORITY||LS mean difference|-94.8|STANDARD_ERROR_OF_MEAN|25.34||0.0646|TWO_SIDED|80.0|-142.63|-47.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||-47.05|-142.63|0.0646
92174490|NCT03858634|184241456|SUPERIORITY||LS mean difference|-34.2|STANDARD_ERROR_OF_MEAN|17.09||0.0611|TWO_SIDED|80.0|-56.89|-11.41||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||-11.41|-56.89|0.0611
92245159|NCT02491073|184393166|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.03|||||TWO_SIDED|90.0|1.02|1.04|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.041|FT3|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.04|1.02|
92245160|NCT02491073|184393167|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value -0.018|TSH|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|1.00|
92245161|NCT02491073|184393167|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.018|TSH|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|1.00|
92245162|NCT02491073|184393167|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.018|TSH||1.01|1.00|
92264821|NCT01694849|184431181|SUPERIORITY||Odds Ratio (OR)|0.638||||0.5229|TWO_SIDED|95.0|0.161|2.529|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||2.529|0.161|0.5229
92281942|NCT05905783|184467300|SUPERIORITY||Risk Difference (RD)|24.6|STANDARD_ERROR_OF_MEAN|7.67||0.0013|TWO_SIDED|95.0|9.6|39.7|||Cochran-Mantel-Haenszel|||||39.7|9.6|0.0013
92245163|NCT02491073|184393167|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|Geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.99|1.02|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.041|TT4|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator.|1.02|0.99|
92245164|NCT02491073|184393167|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|Slope|1.01|||||TWO_SIDED|90.0|1.0|1.02|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.033|TT4|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.02|1.00|
92245165|NCT02491073|184393167|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.99|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.036|TT4|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|0.99|
92245166|NCT02491073|184393167|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.98|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.047|TT3|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|0.98|
92245167|NCT02491073|184393167|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.98|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.043|TT3|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|0.98|
92245168|NCT02491073|184393167|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.97|1.0|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.048|TT3|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.00|0.97|
92264822|NCT01694849|184431181|SUPERIORITY||Odds Ratio (OR)|1.433||||0.5646|TWO_SIDED|95.0|0.421|4.875|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||4.875|.421|0.5646
92245169|NCT02491073|184393168|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.11|||||TWO_SIDED|90.0|1.06|1.16|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.148|FT4|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.16|1.06|
92245170|NCT02491073|184393168|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.13|||||TWO_SIDED|90.0|1.07|1.2|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.202|FT4|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.20|1.07|
92174491|NCT03858634|184241456|SUPERIORITY||LS mean difference|-22.0|STANDARD_ERROR_OF_MEAN|38.28||0.606|TWO_SIDED|80.0|-84.68|40.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||40.71|-84.68|0.6060
92174492|NCT03858634|184241456|SUPERIORITY||LS mean difference|-6.9|STANDARD_ERROR_OF_MEAN|16.61||0.6823|TWO_SIDED|80.0|-29.0|15.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||15.18|-29.00|0.6823
92174493|NCT03858634|184241456|SUPERIORITY||LS mean difference|-99.7|STANDARD_ERROR_OF_MEAN|24.56||0.0556|TWO_SIDED|80.0|-146.02|-53.41||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-53.41|-146.02|0.0556
92245171|NCT02491073|184393168|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.11|||||TWO_SIDED|90.0|1.04|1.18|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.203|FT4|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator.|1.18|1.04|
92245172|NCT02491073|184393168|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.04|||||TWO_SIDED|90.0|0.99|1.1|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.179|FT4|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator.|1.10|0.99|
92245173|NCT02491073|184393168|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.21|||||TWO_SIDED|90.0|1.15|1.52|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.178|FT3|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.52|1.15|
92245174|NCT02491073|184393168|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.42|||||TWO_SIDED|90.0|1.33|1.52|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.224|FT3|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.52|1.33|
92245175|NCT02491073|184393168|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.19|||||TWO_SIDED|90.0|1.12|1.27|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.203|FT3|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.27|1.12|
92245176|NCT02491073|184393168|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.19|||||TWO_SIDED|90.0|1.11|1.27|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.215|FT3|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.27|1.11|
92245177|NCT02491073|184393169|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value -0.018|TSH|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|1.00|
92264823|NCT01694849|184431182|SUPERIORITY||Odds Ratio (OR)|0.382||||0.1983|TWO_SIDED|95.0|0.088|1.656|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||1.656|0.088|0.1983
92245178|NCT02491073|184393169|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.018|TSH|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|1.00|
92281943|NCT05905783|184467301|SUPERIORITY||Risk Difference (RD)|16.3|STANDARD_ERROR_OF_MEAN|7.26||0.0245|TWO_SIDED|95.0|2.1|30.6|||Cochran-Mantel-Haenszel|||||30.6|2.1|0.0245
92174494|NCT03858634|184241456|SUPERIORITY||LS mean difference|-33.4|STANDARD_ERROR_OF_MEAN|16.99||0.0652|TWO_SIDED|80.0|-55.98|-10.76||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-10.76|-55.98|0.0652
92281944|NCT01396044|184467313|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.27
92281945|NCT01396044|184467314|SUPERIORITY_OR_OTHER|||||||0.093|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.093
92281946|NCT01396044|184467315|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|95.0|||||Chi-squared|||||||0.17
92281947|NCT01396044|184467316|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.27
92281948|NCT01396044|184467317|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.36
92281949|NCT01396044|184467319|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0|||||Chi-squared|||||||0.002
92281950|NCT03008460|184467328|NON_INFERIORITY|Non-inferiority would be demonstrated if the lower limit of the 95% confidence interval of the adjusted treatment difference was higher than -15%.|Adjusted treatment difference|-7.61||||0.0907|TWO_SIDED|95.0|-18.45|3.24||P-value for non-inferiority was estimated from the adjusted treatment difference.|Regression, Logistic|||Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a logistic regression model, including treatment and country as covariates.||3.24|-18.45|0.0907
92245179|NCT02491073|184393169|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.018|TSH||1.01|1.00|
92245180|NCT00711269|184393170|SUPERIORITY|One-way Analysis of Variance (ANOVA)|LS Mean difference|-3.5||||0.149|TWO_SIDED|95.0|-8.4|1.3|||ANOVA||\[Not specified\]|||1.3|-8.4|0.149
92245181|NCT00711269|184393170|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-1.8||||0.462|TWO_SIDED|95.0|-6.6|3.0|||ANOVA|||||3.0|-6.6|0.462
92245182|NCT00711269|184393170|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-4.6||||0.122|TWO_SIDED|95.0|-10.5|1.2|||ANOVA|||||1.2|-10.5|0.122
92245183|NCT00711269|184393170|SUPERIORITY|Maximum Contrast Method||||||0.235||||||Contrast Factors (Placebo, SM-13496 40-mg, SM-13496 80-mg): (-1, 0, 1) Adjusted P Value: 0.298|Maximum Contrast Method|Contrast (Placebo, SM-13496 40-mg, SM-13496 80-mg):(-2, 1, 1) Raw P Value: 0.108 Adjusted P Value: 0.145||||||0.235
92245184|NCT00711269|184393171|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-1.4||||0.069|TWO_SIDED|95.0|-2.9|0.1|||ANOVA|||||0.1|-2.9|0.069
92174495|NCT03858634|184241456|SUPERIORITY||LS mean difference|-26.3|STANDARD_ERROR_OF_MEAN|41.45||0.5714|TWO_SIDED|80.0|-94.14|41.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||41.62|-94.14|0.5714
92245185|NCT00711269|184393171|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-0.8||||0.287|TWO_SIDED|95.0|-2.3|0.7|||ANOVA|||||0.7|-2.3|0.287
92245186|NCT00711269|184393171|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-2.3||||0.016|TWO_SIDED|95.0|-4.1|-0.4|||ANOVA|||||-0.4|-4.1|0.016
92245187|NCT00711269|184393172|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-0.7||||0.289|TWO_SIDED|95.0|-2.0|0.6|||ANOVA|||||0.6|-2.0|0.289
92245188|NCT00711269|184393172|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-0.7||||0.256|TWO_SIDED|95.0|-2.0|0.5|||ANOVA|||||0.5|-2.0|0.256
92281951|NCT03008460|184467329|OTHER||Adjusted treatment difference|-0.18||||0.0428|TWO_SIDED|95.0|-0.36|-0.01|||ANOVA|||Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates.||-0.01|-0.36|0.0428
92245189|NCT00711269|184393172|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-0.7||||0.352|TWO_SIDED|95.0|-2.3|0.8|||ANOVA|||||0.8|-2.3|0.352
92245190|NCT00711269|184393173|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-1.4||||0.251|TWO_SIDED|95.0|-3.9|1.0|||ANOVA|||||1.0|-3.9|0.251
92245191|NCT00711269|184393173|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-0.2||||0.847|TWO_SIDED|95.0|-2.7|2.2|||ANOVA|||||2.2|-2.7|0.847
92245192|NCT00711269|184393173|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-1.6||||0.292|TWO_SIDED|95.0|-4.6|1.4|||ANOVA|||||1.4|-4.6|0.292
92245193|NCT01628016|184393177|OTHER||Mean Difference (Final Values)|3.98||||0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||.05
92245194|NCT00403559|184393187|NON_INFERIORITY|Non-inferiority determined as the F-IGA, IGA, erythema, scaling, and pruritis scores when compared between groups. The Wilcoxon rank sum test stratified baseline seborrheic dermatitis (SD) severity.||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||.009
92245195|NCT02768194|184393189|SUPERIORITY||Mean Difference (Net)|-0.11||||0.5512|TWO_SIDED|95.0|-0.46|0.25||From the MMRM model with change from pre-dose as response, participant as a random effect; and treatment, period, day, location of sample in mouth (left or right) and treatment×day interaction as fixed effects; pre-dose mean SEM score as covariate.|Mixed Models Analysis||Difference is the first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.25|-0.46|0.5512
92245196|NCT02768194|184393189|SUPERIORITY||Mean Difference (Net)|-0.01||||0.9671|TWO_SIDED|95.0|-0.36|0.35||From the MMRM model with change from pre-dose as response, subject as a random effect; and treatment, period, day, location of sample in mouth (left or right) and treatment×day interaction as fixed effects; pre-dose mean SEM score as covariate.|Mixed Models Analysis||Difference is the first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.35|-0.36|0.9671
92245197|NCT02768194|184393189|SUPERIORITY||Mean Difference (Net)|-0.1||||0.583|TWO_SIDED|95.0|-0.46|0.26||From the MMRM model with change from pre-dose as response, subject as a random effect; and treatment, period, day, location of sample in mouth (left or right) and treatment×day interaction as fixed effects; pre-dose mean SEM score as covariate.|Mixed Models Analysis||Difference is the first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.26|-0.46|0.5830
92245198|NCT05291949|184393191|OTHER|Bland-Altman|Bias|0.3|||||TWO_SIDED||||||Bland-Altman||||Lower 95% Limit of agreement (LoA) value = -0.34 Upper 95% LoA = 0.94|||
92245199|NCT01029886|184393207|NON_INFERIORITY_OR_EQUIVALENCE|Superiority of exenatide once weekly with respect to change in HbA1c was concluded if the upper limit of the 2-sided 95% confidence interval (CI) for the treatment difference (exenatide once weekly minus liraglutide) was less than zero. Non-inferiority was concluded if the upper limit of the CI was \<0.25%.|Least Squares Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|0.08|0.33|||Mixed Models Analysis|||A sample of 408 subjects in each treatment arm would provide approximately 90% power to detect a true difference between treatments of 0.25% in change in HbA1c from baseline with a 2 sided t-test at a significance level of 0.05, assuming a common standard deviation of 1.1%. MMRM model includes treatment, baseline HbA1c, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||0.33|0.08|0.002
92245200|NCT01029886|184393208|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Percentage of patients achieving HbA1c \<7.0% at Week 26 were compared between treatments using a Cochran-Mantel-Haenszel test, in which HbA1c stratum, country, and background OAD served as stratification factors.||||0.011
92281952|NCT03008460|184467330|OTHER||Adjusted treatment difference|-0.07||||0.4676|TWO_SIDED|95.0|-0.25|0.12|||ANOVA|||"Left colon:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||0.12|-0.25|0.4676
92245201|NCT01029886|184393209|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.15||0.021|TWO_SIDED|95.0|0.05|0.66|||Mixed Models Analysis|||MMRM model includes treatment, baseline fasting serum glucose, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||0.66|0.05|0.021
92245202|NCT01029886|184393210|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|0.39|1.4|||Mixed Models Analysis|||MMRM model includes treatment, baseline body weight, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||1.40|0.39|<.001
92245203|NCT01029886|184393211|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.05||0.079|TWO_SIDED|95.0|-0.01|0.19|||Mixed Models Analysis|||MMRM model includes treatment, baseline total cholesterol, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||0.19|-0.01|0.079
92245204|NCT01029886|184393212|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.832|TWO_SIDED|95.0|-0.02|0.02|||Mixed Models Analysis|||MMRM model includes treatment, baseline HDL-C, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||0.02|-0.02|0.832
92245205|NCT01029886|184393213|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.09|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|1.04|1.15|||Mixed Models Analysis|||Fasting triglycerides were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed using a MMRM model with treatment, baseline fasting triglycerides, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||1.15|1.04|<.001
92245206|NCT01029886|184393214|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.97|STANDARD_ERROR_OF_MEAN|0.76||0.205|TWO_SIDED|95.0|-0.53|2.47|||Mixed Models Analysis|||MMRM model includes treatment, baseline SBP, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||2.47|-0.53|0.205
92245207|NCT01029886|184393215|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.5||0.981|TWO_SIDED|95.0|-0.96|0.98|||Mixed Models Analysis|||MMRM model includes treatment, baseline DBP, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||0.98|-0.96|0.981
92281953|NCT03008460|184467330|OTHER||Adjusted treatment difference|-0.09||||0.3076|TWO_SIDED|95.0|-0.25|0.08|||ANOVA|||"Transverse colon:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||0.08|-0.25|0.3076
92245208|NCT00242385|184393234|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To establish bioequivalence in AUC 0-35d divided by the dose administered with a type I error of 5% the calculated two-sided 90% confidence interval were to be contained completely in the margins of equivalence defined as 80% to 125%.|Ratio of Geometric Means|0.928|||||TWO_SIDED|90.0|0.858|1.002||||||||1.002|0.858|
92245209|NCT00242385|184393235|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To establish bioequivalence in AUC 0-infinity divided by the dose administered with a type I error of 5% the calculated two-sided 90% confidence interval were to be contained completely in the margins of equivalence defined as 80% to 125%.|Ratio of Geometric Means|0.934|||||TWO_SIDED|90.0|0.855|1.021||||||||1.021|0.855|
92245210|NCT02720016|184393245|SUPERIORITY||Slope|-3.216|STANDARD_ERROR_OF_MEAN|1.3||0.016|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.016
92245211|NCT02720016|184393245|SUPERIORITY||Slope|-4.11|STANDARD_ERROR_OF_MEAN|1.308||0.002|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.002
92245212|NCT02720016|184393245|SUPERIORITY||Slope|-0.894|STANDARD_ERROR_OF_MEAN|1.296||0.492|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.492
92281954|NCT03008460|184467330|OTHER||Adjusted treatment difference|-0.24||||0.0155|TWO_SIDED|95.0|-0.44|-0.05|||ANOVA|||"Right colon:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||-0.05|-0.44|0.0155
92281955|NCT03008460|184467330|OTHER||Adjusted treatment difference|-0.36||||0.0975|TWO_SIDED|95.0|-0.79|0.07|||ANOVA|||"Global score:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||0.07|-0.79|0.0975
92245213|NCT02720016|184393250|SUPERIORITY||Slope|-0.352|STANDARD_ERROR_OF_MEAN|2.172||0.872|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts and included partners nested within couples||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.872
92245214|NCT02720016|184393250|SUPERIORITY||Slope|-0.931|STANDARD_ERROR_OF_MEAN|2.296||0.686|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts and included partners nested within couples||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.686
92245215|NCT02720016|184393250|SUPERIORITY||Slope|-0.579|STANDARD_ERROR_OF_MEAN|2.256||0.798|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts and included partners nested within couples||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.798
92245216|NCT02720016|184393255|SUPERIORITY||Slope|-1.213|STANDARD_ERROR_OF_MEAN|2.518||0.631|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.631
92281956|NCT03008460|184467331|OTHER||Adjusted treatment difference rate|1.3847||||0.2428|TWO_SIDED|95.0|0.8|2.4|||CMH chi-square|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) chi-square method (using the general association statistic), stratified on country.||2.4|0.8|0.2428
92281957|NCT03008460|184467332|OTHER||Adjusted treatment difference rate|24.0219|||<|0.0001|TWO_SIDED|95.0|12.6|45.9|||CMH chi-square|||Analysis was performed using CMH chi-square method (using the general association statistic), stratified on country.||45.9|12.6|<0.0001
92281958|NCT03008460|184467333|OTHER||Adjusted treatment difference rate|1.0022||||0.9257|TWO_SIDED|95.0|1.0|1.1|||CMH chi-square|||Analysis was performed using CMH chi-square method (using the general association statistic), stratified on country.||1.1|1.0|0.9257
92245217|NCT02720016|184393255|SUPERIORITY||Slope|-1.461|STANDARD_ERROR_OF_MEAN|2.495||0.56|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.560
92245218|NCT02720016|184393255|SUPERIORITY||Slope|-0.248|STANDARD_ERROR_OF_MEAN|2.536||0.922|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.922
92281959|NCT03008460|184467335|OTHER||Adjusted treatment difference|-0.93||||0.4459|TWO_SIDED|95.0|-3.32|1.47|||ANOVA|||Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates.||1.47|-3.32|0.4459
92281960|NCT03008460|184467336|OTHER||Adjusted treatment difference|0.71|||<|0.0001|TWO_SIDED|95.0|0.4|1.03|||ANOVA|||Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates.||1.03|0.40|<0.0001
92245219|NCT04501679|184393281|SUPERIORITY||Strata-adjusted percentage difference|37.4|||<|0.0001|TWO_SIDED|95.0|26.3|48.5||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\<90 kg,\>=90 kg\]).|Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||48.5|26.3|<0.0001
92245220|NCT04501679|184393282|SUPERIORITY||Strata-adjusted percentage difference|28.5|||<|0.0001|TWO_SIDED|95.0|18.8|38.2||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||38.2|18.8|<0.0001
92245221|NCT04501679|184393283|SUPERIORITY||Strata-adjusted percentage difference|33.4|||<|0.0001|TWO_SIDED|95.0|24.3|42.4||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||42.4|24.3|<0.0001
92245222|NCT04501679|184393284|SUPERIORITY||Strata-adjusted percentage difference|30.0|||<|0.0001|TWO_SIDED|95.0|21.3|38.6||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\<90 kg,\>=90 kg\]).|Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||38.6|21.3|<0.0001
92174496|NCT03858634|184241456|OTHER||LS mean difference|-10.5|STANDARD_ERROR_OF_MEAN|16.82||0.5386|TWO_SIDED|80.0|-32.93|11.83||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||11.83|-32.93|0.5386
92245223|NCT04501679|184393285|SUPERIORITY||Strata-adjusted percentage difference|31.9|||<|0.0001|TWO_SIDED|95.0|20.7|43.2||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\<90 kg,\>=90 kg\]).|Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||43.2|20.7|<0.0001
92245224|NCT04501679|184393286|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.|Strata-adjusted percentage difference|27.9|||<|0.0001|TWO_SIDED|95.0|18.4|37.5||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|||37.5|18.4|<0.0001
92245225|NCT04501679|184393287|SUPERIORITY||Strata-adjusted percentage difference|18.8|||<|0.0001|TWO_SIDED|95.0|12.0|25.7||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||25.7|12.0|<0.0001
92245226|NCT02121756|184393296|OTHER|The sCD14 is measured in pg/ml and the median change is shown in pg/ml. the linear regression for the between arm comparison of baseline to week 12 change was performed using log10 transformed plasma sCD14||||||0.822|||||||Regression, Linear|||||||0.8220
92245227|NCT02121756|184393297|OTHER|The sCD163 is measured in ng/ml and the median change is shown in ng/ml. the linear regression for the between arm comparison of baseline to week 12 change was performed using log10 transformed plasma sCD163.||||||0.0869|||||||Regression, Linear|||||||0.0869
92245228|NCT02121756|184393298|OTHER|The IL-6 is measured in pg/ml and the median change is shown in pg/ml. the linear regression for the between arm comparison of baseline to week 12 change was performed using log10 transformed plasma IL-6.||||||0.5027|||||||Regression, Linear|||||||0.5027
92245229|NCT02121756|184393299|OTHER|||||||0.4548|||||||Mixed Models Analysis|||||||0.4548
92245230|NCT02121756|184393301|OTHER|||||||0.7556|||||||Mixed Models Analysis|||||||0.7556
92245231|NCT02121756|184393302|OTHER|||||||0.2075|||||||Mixed Models Analysis|||||||0.2075
92245232|NCT02121756|184393303|OTHER|||||||0.0315|||||||Mixed Models Analysis|||||||0.0315
92245233|NCT02121756|184393304|OTHER|||||||0.7376|||||||Mixed Models Analysis|||||||0.7376
92245234|NCT02121756|184393305|OTHER|||||||0.2343|||||||Mixed Models Analysis|||||||0.2343
92245235|NCT02121756|184393306|OTHER|||||||0.7598|||||||Mixed Models Analysis|||||||0.7598
92245236|NCT02121756|184393307|OTHER|||||||0.983|||||||Mixed Models Analysis|||||||0.9830
92245237|NCT02121756|184393308|OTHER|||||||0.3317|||||||Mixed Models Analysis|||||||0.3317
92245238|NCT02121756|184393309|OTHER|||||||0.6121|||||||Mixed Models Analysis|||||||0.6121
92245239|NCT02121756|184393310|OTHER|||||||0.562|||||||Mixed Models Analysis|||||||0.5620
92245240|NCT05027516|184393324|SUPERIORITY||Ratio|1.05||||0.1026|TWO_SIDED|95.0|0.55|1.83|||Permutation testing|||||1.83|0.55|0.1026
92245241|NCT05027516|184393325|SUPERIORITY||Ratio|1.12||||1|TWO_SIDED|95.0|0.47|2.19|||Permutation testing|||For aminoglycosides||2.19|0.47|1
92245242|NCT05027516|184393325|SUPERIORITY||Ratio|1.01||||1|TWO_SIDED|95.0|0.69|1.44|||Permutation testing|||For betalactams||1.44|0.69|1
92245243|NCT05027516|184393325|SUPERIORITY||Ratio|3.79||||1|TWO_SIDED|95.0|0.05|20.15|||Permutation testing|||For bacitracin||20.15|0.05|1
92245244|NCT05027516|184393325|SUPERIORITY||Ratio|0.83||||1|TWO_SIDED|95.0|0.0|1.91|||Permutation testing|||For glycopeptides||1.91|0|1
92245245|NCT05027516|184393325|SUPERIORITY||Ratio|1.19||||1|TWO_SIDED|95.0|0.32|3.15|||Permutation testing|||For trimethoprim||3.15|0.32|1
92245246|NCT05027516|184393325|SUPERIORITY||Ratio|2.82||||1|TWO_SIDED|95.0|0.07|14.64|||Permutation testing|||For cationic antimicrobial peptides||14.64|0.07|1
92245247|NCT05027516|184393325|SUPERIORITY||Ratio|1.49||||1|TWO_SIDED|95.0|0.0|5.34|||Permutation testing|||For mupirocin||5.34|0|1
92174497|NCT03858634|184241456|SUPERIORITY||LS mean difference|-99.0|STANDARD_ERROR_OF_MEAN|21.41||0.0438|TWO_SIDED|80.0|-139.35|-58.6||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||-58.60|-139.35|0.0438
92174498|NCT03858634|184241456|OTHER||LS mean difference|-27.2|STANDARD_ERROR_OF_MEAN|19.66||0.1829|TWO_SIDED|80.0|-53.38|-1.08||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||-1.08|-53.38|0.1829
92174499|NCT03858634|184241456|SUPERIORITY||LS mean difference|-25.6|STANDARD_ERROR_OF_MEAN|37.59||0.5443|TWO_SIDED|80.0|-87.2|35.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||35.94|-87.20|0.5443
92174500|NCT03858634|184241456|SUPERIORITY||LS mean difference|-7.9|STANDARD_ERROR_OF_MEAN|18.43||0.6748|TWO_SIDED|80.0|-32.39|16.66||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||16.66|-32.39|0.6748
92174501|NCT03858634|184241456|SUPERIORITY||LS mean difference|-96.2|STANDARD_ERROR_OF_MEAN|16.97||0.0297|TWO_SIDED|80.0|-128.19|-64.19||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-64.19|-128.19|0.0297
92174502|NCT03858634|184241456|SUPERIORITY||LS mean difference|-27.0|STANDARD_ERROR_OF_MEAN|19.8||0.1899|TWO_SIDED|80.0|-53.33|-0.63||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-0.63|-53.33|0.1899
92245248|NCT05027516|184393325|SUPERIORITY||Ratio|1.2||||1|TWO_SIDED|95.0|0.0|3.22|||Permutation testing|||For metronidazole||3.22|0|1
92245249|NCT05027516|184393325|SUPERIORITY||Ratio|6.44||||1|TWO_SIDED|95.0|0.02|46.02|||Permutation testing|||For fluoroquinolones||46.02|0.02|1
92245250|NCT05027516|184393325|SUPERIORITY||Ratio|10.6||||1|TWO_SIDED|95.0|0.01|148.86|||Permutation testing|||For sulfonamides||148.86|0.01|1
92245251|NCT05027516|184393325|SUPERIORITY||Ratio|1.01||||0.5621|TWO_SIDED|95.0|0.79|1.27|||Permutation testing|||For tetracyclines||1.27|0.79|0.5621
92245252|NCT05027516|184393326|SUPERIORITY|||||||0.196|||||||Wilcoxon (Mann-Whitney)|||For streptococci||||0.196
92245253|NCT05027516|184393326|SUPERIORITY|||||||0.568|||||||Wilcoxon (Mann-Whitney)|||For streptococci||||0.568
92245254|NCT05027516|184393326|SUPERIORITY|||||||0.978|||||||Wilcoxon (Mann-Whitney)|||For Neisseria||||0.978
92245255|NCT05027516|184393326|SUPERIORITY|||||||0.184|||||||Wilcoxon (Mann-Whitney)|||For Neisseria||||0.184
92245256|NCT00838916|184393351|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|||||TWO_SIDED|95.0|-0.04|0.27|||ANCOVA|||||0.27|-0.04|
92245257|NCT00838916|184393351|NON_INFERIORITY_OR_EQUIVALENCE|To test whether the difference of least square means (albiglutide - insulin glargine) is equal to the pre-specified non-inferiority margin of 0.3%||||||0.0086||||||p-value is for non-inferiority testing of albiglutide versus insulin glargine|t-test, 1 sided|||||||0.0086
92245258|NCT00838916|184393351|SUPERIORITY_OR_OTHER|||||||0.1463||||||p-value is for superiority testing of albiglutide versus insulin glargine|t-test, 2 sided|The p-value is from a two-sided t-test to test whether the difference of least square means (albiglutide - insulin glargine) is equal to zero.||||||0.1463
92245259|NCT03675737|184393451|SUPERIORITY||Hazard Ratio (HR)|0.78|||<|0.0001|TWO_SIDED|95.0|0.7|0.87||One-sided p-value based on log-rank test stratified by geographic region, Programmed Cell Death Ligand 1 (PD-L1) status (Combined Positive Score \[CPS\] \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status (CPS \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|||0.87|0.70|<0.0001
92245260|NCT03675737|184393452|SUPERIORITY||Hazard Ratio (HR)|0.74|||<|0.0001|TWO_SIDED|95.0|0.65|0.84||One-sided p-value based on log-rank test stratified by geographic region and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region and chemotherapy regimen with small strata collapsed.|||0.84|0.65|<0.0001
92245261|NCT03675737|184393453|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.53|0.79||One-sided p-value based on log-rank test stratified by geographic region and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region and chemotherapy regimen with small strata collapsed.|||0.79|0.53|<0.0001
92245262|NCT03675737|184393454|SUPERIORITY||Hazard Ratio (HR)|0.76|||<|0.0001|TWO_SIDED|95.0|0.67|0.85||One-sided p-value based on log-rank test stratified by geographic region, Programmed Cell Death Ligand 1 (PD-L1) status (Combined Positive Score \[CPS\] \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status (CPS \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|||0.85|0.67|<0.0001
92245263|NCT03675737|184393455|SUPERIORITY||Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|95.0|0.63|0.82||One-sided p-value based on log-rank test stratified by geographic region and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region and chemotherapy regimen with small strata collapsed.|||0.82|0.63|<0.0001
92245264|NCT03675737|184393456|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.76||One-sided p-value based on log-rank test stratified by geographic region and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region and chemotherapy regimen with small strata collapsed.|||0.76|0.51|<0.0001
92245265|NCT03675737|184393457|SUPERIORITY||Difference in Percentage|9.3||||9e-05|TWO_SIDED|95.0|4.4|14.1||One-sided p-value based on Miettinen \& Nurminen method stratified by geographic region, Programmed Cell Death Ligand 1 (PD-L1) status (Combined Positive Score \[CPS\] \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|Miettinen & Nurminen method||Based on Miettinen \& Nurminen method stratified by geographic region, PD-L1 status (CPS \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|||14.1|4.4|0.00009
92264824|NCT01694849|184431182|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.288|3.466|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||3.466|0.288|1.0000
92245266|NCT03675737|184393458|SUPERIORITY||Difference in Percentage|9.5||||0.00041|TWO_SIDED|95.0|3.9|15.0||One-sided p-value based on Miettinen \& Nurminen method stratified by geographic region and chemotherapy regimen with small strata collapsed.|Miettinen & Nurminen method||Based on Miettinen \& Nurminen method stratified by geographic region and chemotherapy regimen with small strata collapsed.|||15.0|3.9|0.00041
92245267|NCT03675737|184393459|SUPERIORITY||Difference in Percentage|17.5||||2e-05|TWO_SIDED|95.0|9.3|25.5||One-sided p-value based on Miettinen \& Nurminen method stratified by geographic region and chemotherapy regimen with small strata collapsed.|Miettinen & Nurminen method||Based on Miettinen \& Nurminen method stratified by geographic region and chemotherapy regimen with small strata collapsed.|||25.5|9.3|0.00002
92245268|NCT01146951|184393481|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-26.65||||0.003|TWO_SIDED|90.0|-40.3|-11.8|||Wilcoxon (Mann-Whitney)|||||-11.80|-40.30|0.003
92245269|NCT01146951|184393482|SUPERIORITY_OR_OTHER|||||||0.074|||||||Fisher's exact test|||||||0.074
92245270|NCT01146951|184393483|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-33.3|||<|0.001|TWO_SIDED|90.0|-47.1|-17.0|||Wilcoxon (Mann-Whitney)|||||-17.00|-47.10|<0.001
92245271|NCT01146951|184393484|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-57.15||||0.025|TWO_SIDED|90.0|-104.5|-17.3|||Wilcoxon (Mann-Whitney)|||Analysis for Partial Seizure Frequency||-17.30|-104.50|0.025
92245272|NCT01146951|184393484|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-28.65||||0.128|TWO_SIDED|90.0|-72.0|0.9|||Wilcoxon (Mann-Whitney)|||Analysis of atypical absence seizure frequency||0.90|-72.00|0.128
92245273|NCT01146951|184393484|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-54.35||||0.021|TWO_SIDED|90.0|-126.6|-15.4|||Wilcoxon (Mann-Whitney)|||Analysis for myoclonic seizure frequency||-15.40|-126.60|0.021
92245274|NCT01146951|184393484|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-23.2||||0.031|TWO_SIDED|90.0|-40.7|-5.6|||Wilcoxon (Mann-Whitney)|||Analysis of tonic seizure frequency||-5.60|-40.70|0.031
92245275|NCT01146951|184393484|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-71.4||||0.107|TWO_SIDED|90.0|-464.7|30.5|||Wilcoxon (Mann-Whitney)|||Analysis for Tonic-clonic seizure frequency||30.50|-464.70|0.107
92245276|NCT01146951|184393484|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-52.1||||0.221|TWO_SIDED|90.0|-89.1|10.8|||Wilcoxon (Mann-Whitney)|||Analysis of Atonic seizure frequency||10.80|-89.10|0.221
92245277|NCT01146951|184393485|SUPERIORITY_OR_OTHER|||||||0.041|||||||Wilcoxon (Mann-Whitney)|||Analysis of Week 12 of the Treatment Period||||0.041
92245278|NCT01146951|184393485|SUPERIORITY_OR_OTHER|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||Analysis of final assessment (LOCF)||||0.007
92245279|NCT01517412|184393487|NON_INFERIORITY_OR_EQUIVALENCE|A step-down procedure was used to control the type I error: non-inferiority of lixisenatide prior to the main meal of the day versus lixisenatide prior to breakfast was tested first. If non-inferiority was established, then a test of superiority of lixisenatide prior to the main meal of the day over lixisenatide prior to breakfast was to be performed. The non-inferiority was assessed using upper bound of 2-sided 95% CI at a level of ≤0.4%.|Least square (LS) mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.079|||TWO_SIDED|95.0|-0.067|0.242|||||Lixisenatide Main Meal vs Lixisenatide Breakfast|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of screening HbA1c (\<8.0%, ≥8.0%), randomization strata of main meal of the day and country as fixed effects and baseline HbA1c value as a covariate.||0.242|-0.067|
92245280|NCT01517412|184393487|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.079||0.2664|TWO_SIDED|||||Threshold for significance at 0.05 level.|ANCOVA||Lixisenatide Main Meal vs Lixisenatide Breakfast|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of screening HbA1c (\<8.0%, ≥8.0%), randomization strata of main meal of the day and country as fixed effects and baseline HbA1c value as a covariate. A step-down procedure was used to control the type I error. The superiority was assessed by comparing the p-value at significance level = 0.05.||||0.2664
92245281|NCT01253187|184393497|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|106.03||||||90.0|98.86|113.72||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / YAZ\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|38 volunteers qualified for statistical analysis of BE whereas all 39 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||113.72|98.86|
92245282|NCT01253187|184393498|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|103.47||||||90.0|99.16|107.98||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / YAZ\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|38 volunteers qualified for statistical analysis of BE whereas all 39 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||107.98|99.16|
92264825|NCT01694849|184431183|SUPERIORITY||Odds Ratio (OR)|0.653||||0.3543|TWO_SIDED|95.0|0.265|1.609|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||1.609|0.265|0.3543
92264826|NCT01694849|184431183|SUPERIORITY||Odds Ratio (OR)|1.27||||0.578|TWO_SIDED|95.0|0.547|2.953|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||2.953|0.547|0.5780
92264827|NCT01694849|184431184|SUPERIORITY||Difference in least square mean change|1.24||||0.711|TWO_SIDED|95.0|-5.33|7.81|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in aspartate transaminase (U/L)||7.81|-5.33|0.711
92264828|NCT01694849|184431184|SUPERIORITY||Difference in least square mean change|-0.94||||0.78|TWO_SIDED|95.0|-7.58|5.7|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in aspartate transaminase (U/L)||5.7|-7.58|0.78
92245283|NCT01253187|184393499|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|105.24||||||90.0|97.3|113.83||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / YAZ\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|33 volunteers qualified for statistical analysis of BE whereas all 35 (YAZ) and 36 (EE20/DRSP/L-5-MTHF Ca) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||113.83|97.30|
92245284|NCT01253187|184393500|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|100.48||||||90.0|97.28|103.79||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / YAZ\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|33 volunteers qualified for statistical analysis of BE whereas all 35 (YAZ) and 36 (EE20/DRSP/L-5-MTHF Ca) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||103.79|97.28|
92245285|NCT01253187|184393501|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|99.88||||||90.0|91.24|109.34||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|39 volunteers qualified for statistical analysis of BE whereas all 39 (EE20/DRSP/L-5-MTHF Ca) and 40 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||109.34|91.24|
92245286|NCT01253187|184393502|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|98.16||||||90.0|93.95|102.57||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|39 volunteers qualified for statistical analysis of BE whereas all 39 (EE20/DRSP/L-5-MTHF Ca) and 40 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||102.57|93.95|
92264829|NCT01694849|184431184|SUPERIORITY||Difference in least square mean change|-6.13||||0.221|TWO_SIDED|95.0|-15.97|3.71|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in alanine aminotransferase (U/L)||3.71|-15.97|0.221
92264830|NCT01694849|184431184|SUPERIORITY||Difference in least square mean change|-9.45||||0.062|TWO_SIDED|95.0|-19.4|0.49|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in alanine aminotransferase (U/L)||0.49|-19.4|0.062
92174503|NCT03858634|184241458|SUPERIORITY||LS mean difference|-15.3|STANDARD_ERROR_OF_MEAN|24.47||0.5763|TWO_SIDED|80.0|-55.37|24.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||24.78|-55.37|0.5763
92245287|NCT01253187|184393503|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|100.28||||||90.0|93.15|107.95||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|40 volunteers qualified for statistical analysis of BE and all 40 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||107.95|93.15|
92281961|NCT03008460|184467337|OTHER||Adjusted treatment difference rate|1.22||||0.3945|TWO_SIDED|95.0|-1.6|4.05|||ANOVA|||"Dose 1:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||4.05|-1.60|0.3945
92281962|NCT03008460|184467337|OTHER||Adjusted treatment difference rate|6.38||||0.0085|TWO_SIDED|95.0|1.65|11.12|||ANOVA|||"Dose 2:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||11.12|1.65|0.0085
92281963|NCT03008460|184467337|OTHER||Adjusted treatment difference rate|7.48||||0.0036|TWO_SIDED|95.0|2.46|12.5|||ANOVA|||"Global:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||12.50|2.46|0.0036
92281964|NCT03008460|184467340|OTHER||Adjusted treatment difference|1.05||||0.0015|TWO_SIDED|95.0|0.41|1.69|||ANOVA|||Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using 2-way ANOVA, including treatment and country as covariates.||1.69|0.41|0.0015
92281965|NCT00539539|184467342|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.001||||0.96|TWO_SIDED|95.0|-0.04|0.05|||t-test, 2 sided|||Average change in cluster-specific rates of ROSC.||0.05|-0.04|0.96
92281966|NCT00539539|184467343|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.8||||0.71|TWO_SIDED|95.0|-4.9|3.4|||t-test, 2 sided|||Average difference in cluster-specific rates.||3.4|-4.9|0.71
92281967|NCT00539539|184467344|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.015||||0.21|TWO_SIDED|95.0|-0.039|0.009|||t-test, 2 sided|By-cluster difference in outcome rates.||Average change in cluster-specific risk difference.||0.009|-0.039|0.21
92281968|NCT00539539|184467345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9||||0.016|TWO_SIDED|95.0|0.4|3.4|||Regression, Linear|Difference in means, adjusted for cluster.||Cluster adjusted difference in average CPR fraction.||3.4|0.4|0.016
92281969|NCT00539539|184467346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6||||0.005|TWO_SIDED|95.0|0.5|2.7|||Regression, Linear|Adjusted for randomization by cluster.||Cluster adjusted difference in means.||2.7|0.5|0.005
92281970|NCT00539539|184467347|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7|||<|0.001|TWO_SIDED|95.0|-6.4|-3.0|||Regression, Linear|||Cluster adjusted difference in average compression rate.||-3.0|-6.4|<0.001
92281971|NCT00539539|184467348|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4|||<|0.001|TWO_SIDED|95.0|-5.2|-1.5|||Regression, Linear|||Cluster adjusted difference in the average rate.||-1.5|-5.2|<0.001
92281972|NCT00539539|184467349|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.73|TWO_SIDED|95.0|-0.5|0.7|||Regression, Linear|||Cluster adjusted difference in average rate.||0.7|-0.5|0.73
92281973|NCT02130466|184467375|OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.29|0.74|||||Cox regression model|||0.74|0.29|
92281974|NCT02130466|184467382|OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.38|0.95|||||Cox regression model|||0.95|0.38|
92281975|NCT04529109|184467447|SUPERIORITY|The superiority of the Test lens was concluded if the lower limit of the 95% credible interval was above 0.90.|Mean Proportion|0.9998|STANDARD_DEVIATION|0.0005|||TWO_SIDED|95.0|0.999|1.0|||Bayesian Binary model||Interval presented is a 95% Credible interval.|||1.000|0.999|
92281976|NCT01508936|184467466|SUPERIORITY_OR_OTHER||slope difference|0.3007|STANDARD_ERROR_OF_MEAN|0.2559||0.2407|TWO_SIDED|||||The interaction was tested at the significance level 0.10 using the FAS|Regression, Linear||Active - Placebo|The primary analysis was the linear regression model with model effects including treatment (reslizumab or placebo), blood eosinophil count at baseline, and the interaction of treatment and eosinophil count. A significant treatment by baseline eosinophil interaction would indicate that treatment difference varies by the baseline eosinophil count.||||0.2407
92281977|NCT01508936|184467467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.076|STANDARD_ERROR_OF_MEAN|0.0417||0.0697|TWO_SIDED|95.0|-0.006|0.158||Statistical significance level is 0.05.|Regression, Linear|treatment, blood eosinophil count at baseline, and the interaction of treatment and eosinophil count as fixed effects.|Active - Placebo|"The change from baseline over the 16 week treatment period was measured for the key secondary variables of:~* Lung function as measured by FEV1~* ACQ~Testing of the key secondary variables was performed using the sequential testing procedure in the order as specified above at the alpha level of 0.05."||0.158|-0.006|0.0697
92281978|NCT01508936|184467468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.123|STANDARD_ERROR_OF_MEAN|0.0762||0.1072|TWO_SIDED|95.0|-0.273|0.027||significance level of 0.05|t-test, 2 sided|Fixed effects for treatment, hx of asthma exacerbation, sex, visit, and interaction of treatment and visit; covariates for height and baseline value|Active - Placebo|"The change from baseline over the 16 week treatment period was measured for the key secondary variables of:~* Lung function as measured by FEV1~* ACQ~Testing of the key secondary variables was performed using the sequential testing procedure in the order as specified above at the alpha level of 0.05."||0.027|-0.273|0.1072
92281979|NCT01611090|184467485|SUPERIORITY||Hazard Ratio (HR)|0.229|||<|0.0001|TWO_SIDED|95.0|0.183|0.286|||Log Rank|||||0.286|0.183|< 0.0001
92281980|NCT03968224|184467503|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92281981|NCT03968224|184467504|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92281982|NCT03968224|184467505|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92281983|NCT03968224|184467506|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92281984|NCT00442936|184467596|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.26|||<|0.001|TWO_SIDED|95.0|1.4|3.66|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.66|1.40|<0.001
92245288|NCT01253187|184393504|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|99.88||||||90.0|95.38|104.58||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|40 volunteers qualified for statistical analysis of BE and all 40 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||104.58|95.38|
92245289|NCT01253187|184393506|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|100.3||||||90.0|97.65|103.02||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / YAZ\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|32 volunteers qualified for statistical analysis of BE whereas all 34 (YAZ) and 36 (EE20/DRSP/L-5-MTHF Ca) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||103.02|97.65|
92245290|NCT04124692|184393509|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92245291|NCT04124692|184393510|SUPERIORITY||||||=|0.0043|||||||Fisher Exact|||||||= 0.0043
92245292|NCT04124692|184393510|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92245293|NCT05168813|184393531|OTHER||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.44|0.77|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||0.77|0.44|< .001
92245294|NCT05168813|184393532|OTHER||Hazard Ratio (HR)|0.48||||0.003|TWO_SIDED|95.0|0.29|0.78|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||0.78|0.29|0.003
92245295|NCT05168813|184393533|OTHER||Hazard Ratio (HR)|0.27||||0.056|TWO_SIDED|95.0|0.07|1.04|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||1.04|0.07|0.056
92245296|NCT05168813|184393534|OTHER||Hazard Ratio (HR)|0.92||||0.449|TWO_SIDED|95.0|0.73|1.15|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||1.15|0.73|0.449
92245297|NCT05168813|184393535|OTHER||Hazard Ratio (HR)|2.29||||0.23|TWO_SIDED|95.0|0.59|8.87|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||8.87|0.59|0.23
92245298|NCT05168813|184393545|OTHER||Hazard Ratio (HR)|0.56|||<|0.001|TWO_SIDED|95.0|0.43|0.73|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||0.73|0.43|< .001
92245299|NCT05168813|184393546|OTHER||Hazard Ratio (HR)|0.43|||<|0.001|TWO_SIDED|95.0|0.27|0.68|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||0.68|0.27|< .001
92245300|NCT05168813|184393547|OTHER||Hazard Ratio (HR)|0.27||||0.02|TWO_SIDED|95.0|0.09|0.82|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||0.82|0.09|0.02
92245301|NCT05168813|184393548|OTHER||Hazard Ratio (HR)|0.86||||0.218|TWO_SIDED|95.0|0.67|1.09|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||1.09|0.67|0.218
92245302|NCT05168813|184393549|OTHER||Hazard Ratio (HR)|1.78||||0.135|TWO_SIDED|95.0|0.84|3.77|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||3.77|0.84|0.135
92245303|NCT01089582|184393560|SUPERIORITY_OR_OTHER|||||||0.0023|TWO_SIDED||||||Regression, Logistic|||The effect of possible prognostic factors response on response rate: primary diagnosis severity. Participants were classified as responders if they were very much improved or much improved from baseline.||||0.0023
92245304|NCT01089582|184393561|SUPERIORITY_OR_OTHER|||||||0.0382|TWO_SIDED||||||Regression, Logistic|||The effect of possible prognostic factors on response: significant medical history. Participants were classified as responders if they were much improved or improved from baseline.||||0.0382
92245305|NCT01089582|184393562|SUPERIORITY_OR_OTHER|||||||0.1805|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: primary diagnosis severity.||||0.1805
92245306|NCT01089582|184393562|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: baseline QoL-AD score as assessed by participant.||||<0.0001
92245307|NCT01089582|184393562|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: center number.||||<0.0001
92245308|NCT01089582|184393563|SUPERIORITY_OR_OTHER|||||||0.0137|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: primary diagnosis severity.||||0.0137
92245309|NCT01089582|184393563|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: baseline QoL-AD score as assessed by caregiver.||||<0.0001
92245310|NCT01089582|184393563|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: center number.||||<0.0001
92245311|NCT01940510|184393575|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|26.8|||||TWO_SIDED|90.0|23.8|30.1|||||The reported values are percentages of geometric least square mean ratio.|Analysis of variance (ANOVA) was applied to the log-transformed PK parameters, and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and confidence intervals.||30.1|23.8|
92245312|NCT01940510|184393576|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|48.6|||||TWO_SIDED|90.0|43.5|54.3|||||ANOVA was applied to the log-transformed PK parameters, and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and confidence intervals. The reported values are percentages of geometric least square mean ratio.|||54.3|43.5|
92245313|NCT01940510|184393577|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|179.0|||||TWO_SIDED|90.0|158.0|202.0|||||ANOVA was applied to the log-transformed PK parameters, and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and confidence intervals. The reported values are percentages of geometric least square mean ratio.|||202|158|
92245314|NCT01940510|184393578|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|220.0|||||TWO_SIDED|90.0|190.0|255.0|||||ANOVA was applied to the log-transformed PK parameters, and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and confidence intervals. The reported values are percentages of geometric least square mean ratio.|||255|190|
92174504|NCT03858634|184241458|SUPERIORITY||LS mean difference|9.6|STANDARD_ERROR_OF_MEAN|14.66||0.5214|TWO_SIDED|80.0|-9.86|29.01||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||29.01|-9.86|0.5214
92245315|NCT05600309|184393596|OTHER||Hazard Ratio (HR)|0.94||||0.3914|TWO_SIDED|95.0|0.59|1.5||One-sided nominal p-value based on log-rank test.|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.50|0.59|0.3914
92245316|NCT05600309|184393597|OTHER||Hazard Ratio (HR)|1.23||||0.8091|TWO_SIDED|95.0|0.78|1.92||One-sided nominal p-value based on log-rank test.|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.92|0.78|0.8091
92245317|NCT05600309|184393598|OTHER||Difference in percentage|6.0||||0.0502|TWO_SIDED|95.0|-2.3|16.3||One-sided nominal p-value for testing.|Miettinen & Nurminen Method||Difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|||16.3|-2.3|0.0502
92245318|NCT02130258|184393602|OTHER|||||||0.04|||||||Kruskal-Wallis|||||||.04
92281985|NCT00442936|184467596|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.81|||<|0.001|TWO_SIDED|95.0|2.42|6.0|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||6.00|2.42|<0.001
92281986|NCT00442936|184467597|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.82|||<|0.001|TWO_SIDED|95.0|2.02|3.95|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.95|2.02|<0.001
92281987|NCT00442936|184467597|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.44|||<|0.001|TWO_SIDED|95.0|2.47|4.79|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.79|2.47|<0.001
92174505|NCT03858634|184241458|SUPERIORITY||LS mean difference|-167.0|STANDARD_ERROR_OF_MEAN|105.28||0.2536|TWO_SIDED|80.0|-365.51|31.54||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||31.54|-365.51|0.2536
92245319|NCT02130258|184393603|OTHER|||||||0.04|||||||Kruskal-Wallis|||||||.04
92245320|NCT02130258|184393604|OTHER|||||||0.04|||||||Kruskal-Wallis|||||||0.04
92245321|NCT00807846|184393605|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.274|TWO_SIDED|90.0|-0.56|2.76|||ANCOVA|||The primary analysis was based on 90% confidence interval (CI) for the difference across treatment groups (celecoxib - naproxen) in mean change from baseline in SBP. Change from Baseline in BP was analyzed using analysis of covariance (ANCOVA) with model terms for treatment with baseline height, baseline weight, baseline age, and baseline SBP as covariates. No formal hypothesis testing was applied to the primary analysis.||2.76|-0.56|0.274
92174506|NCT03858634|184241458|SUPERIORITY||LS mean difference|-10.8|STANDARD_ERROR_OF_MEAN|5.55||0.067|TWO_SIDED|80.0|-18.2|-3.44||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||-3.44|-18.20|0.0670
92245322|NCT00807846|184393606|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.088||||0.148|TWO_SIDED|95.0|-0.39|2.57|||ANCOVA|||For secondary analyses, 95% CIs for the differences across treatment groups (celecoxib - naproxen) in the mean change from baseline were generated. The change from baseline in BP was analyzed using an ANCOVA model with terms for treatment, baseline height, weight, age and baseline BP as covariates. Secondary analyses were conducted using a two-sided test with α=0.05.||2.57|-0.39|0.148
92245323|NCT00807846|184393607|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.837||||0.027|TWO_SIDED|95.0|0.21|3.46|||ANCOVA|||"For secondary analyses, 95% CIs for the differences across treatment groups (celecoxib - naproxen) in the mean change from baseline were generated. The change from baseline in blood pressure was analyzed using an ANCOVA model with terms for treatment, baseline height, weight, age and baseline BP as covariates.~Secondary analyses were conducted using a two-sided test with α=0.05."||3.46|0.21|0.027
92245324|NCT00807846|184393608|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.207||||0.106|TWO_SIDED|95.0|-2.67|0.26|||ANCOVA|||For secondary analyses, 95% CIs for the differences across treatment groups (celecoxib - naproxen) in the mean change from baseline were generated. The change from baseline in BP was analyzed using an ANCOVA model with terms for treatment, baseline height, weight, age and baseline BP as covariates. Secondary analyses were conducted using a two-sided test with α=0.05.||0.26|-2.67|0.106
92281988|NCT00442936|184467598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.14|||<|0.001|TWO_SIDED|95.0|1.54|2.97|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.97|1.54|<0.001
92281989|NCT00442936|184467598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.61|||<|0.001|TWO_SIDED|95.0|1.89|3.61|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.61|1.89|<0.001
92245325|NCT00807846|184393609|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22||||0.776|TWO_SIDED|95.0|-1.3|1.74|||ANCOVA|||For secondary analyses, 95% CIs for the differences across treatment groups (celecoxib - naproxen) in the mean change from baseline were generated. The change from baseline in BP was analyzed using an ANCOVA model with terms for treatment, baseline height, weight, age and baseline BP as covariates. Secondary analyses were conducted using a two-sided test with α=0.05.||1.74|-1.30|0.776
92264831|NCT01694849|184431184|SUPERIORITY||Difference in least square mean change|-23.02|||<|0.001|TWO_SIDED|95.0|-27.16|-18.88|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in Alkaline phosphatases (U/L)||-18.88|-27.16|<0.001
92264832|NCT01694849|184431184|SUPERIORITY||Difference in least square mean change|-23.85|||<|0.001|TWO_SIDED|95.0|-28.04|2.12|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in Alkaline phosphatases (U/L)||2.12|-28.04|<0.001
92264833|NCT01694849|184431184|SUPERIORITY||Difference in least square mean change|-31.41|||<|0.001|TWO_SIDED|95.0|-43.78|-19.05|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in Gamma-glutamyl transferase (U/L)||-19.05|-43.78|<0.001
92264834|NCT01694849|184431184|SUPERIORITY||Difference in least square mean change|-29.31|||<|0.001|TWO_SIDED|95.0|-41.84|-16.77|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in Gamma-glutamyl transferase (U/L)||-16.77|-41.84|<0.001
92264835|NCT01694849|184431185|SUPERIORITY||Difference in least square mean change|0.14|||<|0.001|TWO_SIDED|95.0|0.06|0.21|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.21|0.06|<0.001
92264836|NCT01694849|184431185|SUPERIORITY||Difference in least square mean change|0.19|||<|0.001|TWO_SIDED|95.0|0.11|0.26|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.26|0.11|<0.001
92264837|NCT01694849|184431186|SUPERIORITY||Difference in least square mean change|141.78||||0.095|TWO_SIDED|95.0|-24.99|308.55|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||308.55|-24.99|0.095
92264838|NCT01694849|184431186|SUPERIORITY||Difference in least square mean change|-70.57||||0.412|TWO_SIDED|95.0|-239.85|98.71||Baseline parameter value and presence of diabetes as random factors|Mixed Models Analysis||Standard error of the least square mean|||98.71|-239.85|0.412
92281990|NCT00442936|184467599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05|||<|0.001|TWO_SIDED|95.0|1.49|2.82|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.82|1.49|<0.001
92281991|NCT00442936|184467599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.37|||<|0.001|TWO_SIDED|95.0|1.73|3.25|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.25|1.73|<0.001
92281992|NCT00442936|184467600|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73|||<|0.001|TWO_SIDED|95.0|1.25|2.39|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.39|1.25|<0.001
92281993|NCT00442936|184467600|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.006|TWO_SIDED|95.0|1.13|2.13|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.13|1.13|0.006
92281994|NCT00442936|184467601|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8||||0.002|TWO_SIDED|95.0|1.47|5.35|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||5.35|1.47|0.002
92281995|NCT00442936|184467601|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.75|||<|0.001|TWO_SIDED|95.0|3.15|10.51|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||10.51|3.15|<0.001
92281996|NCT00442936|184467602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78||||0.026|TWO_SIDED|95.0|1.07|2.97|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.97|1.07|0.026
92281997|NCT00442936|184467602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.34|||<|0.001|TWO_SIDED|95.0|2.08|5.35|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||5.35|2.08|<0.001
92281998|NCT00442936|184467603|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.25||||0.021|TWO_SIDED|95.0|1.13|4.47|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.47|1.13|0.021
92281999|NCT00442936|184467603|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.21|||<|0.001|TWO_SIDED|95.0|2.78|9.76|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||9.76|2.78|<0.001
92282000|NCT02428699|184467606|SUPERIORITY||Mean Difference (Net)|5.16|||<|0.0001|TWO_SIDED|95.0|2.79|7.53|||ANCOVA|Subject as random effect,treatment and period as fixed effects,subject and period level baseline values for plasma total and free acids as covariates|Difference is test minus reference such that a positive difference favors the test treatment.|||7.53|2.79|<.0001
92282001|NCT03127137|184467618|SUPERIORITY|||||||0.05||||||The reported p-value was calculated.|Fisher Exact|||||||.05
92282002|NCT03127137|184467619|SUPERIORITY||Risk Ratio (RR)|1.53|||||TWO_SIDED|95.0|0.82|2.86||||||||2.86|.82|
92282003|NCT04424407|184467620|OTHER|||||||0.008||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (3) in the Conscious Faces task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Conscious Fear \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.008
92282004|NCT04424407|184467620|OTHER|||||||0.08||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (3) in the Conscious Faces task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Conscious Threat \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.08
92245326|NCT00807846|184393610|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.179||||0.815|TWO_SIDED|95.0|-1.69|1.33|||ANCOVA|||For secondary analyses, 95% CIs for the differences across treatment groups (celecoxib - naproxen) in the mean change from baseline were generated. The change from baseline in BP was analyzed using an ANCOVA model with terms for treatment, baseline height, weight, age and baseline blood pressure as covariates. Secondary analyses were conducted using a two-sided test with α=0.05.||1.33|-1.69|0.815
92245327|NCT00807846|184393611|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.033||||0.303|TWO_SIDED|95.0|-2.76|8.82|||ANCOVA|||Change from Baseline to Week 6 was analyzed using ANCOVA model as well with treatment and Baseline value as a covariate. The LS mean change from Baseline was compared between treatment groups and an appropriate p-value and 95% CI for the difference between the two treatment groups was generated. This analysis was conducted using a two-sided test with α=0.05.||8.82|-2.76|0.303
92264839|NCT01694849|184431187|SUPERIORITY||Difference in least square mean change|32.39||||0.592|TWO_SIDED|95.0|-86.63|151.42|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||151.42|-86.63|0.592
92264840|NCT01694849|184431187|SUPERIORITY||Difference in least square mean change|31.35||||0.61|TWO_SIDED|95.0|-89.42|152.12|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||152.12|-89.42|0.61
92264841|NCT01694849|184431188|SUPERIORITY||Difference in least square mean change|1.67||||0.459|TWO_SIDED|95.0|-2.77|6.11|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||6.11|-2.77|0.459
92264842|NCT01694849|184431188|SUPERIORITY||Difference in least square mean change|-0.67||||0.764|TWO_SIDED|95.0|-5.06|3.72|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||3.72|-5.06|0.764
92264843|NCT01694849|184431189|SUPERIORITY||Difference in least square mean change|-12.92||||0.466|TWO_SIDED|95.0|-47.79|21.95|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||21.95|-47.79|0.466
92264844|NCT01694849|184431189|SUPERIORITY||Difference in least square mean change|-5.82||||0.745|TWO_SIDED|95.0|-41.07|29.42|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||29.42|-41.07|0.745
92264845|NCT01694849|184431190|SUPERIORITY||Difference in least square mean change|-26.57||||0.018|TWO_SIDED|95.0|-48.59|-4.54|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|FG19||-4.54|-48.59|0.018
92264846|NCT01694849|184431190|SUPERIORITY||Difference in least square mean change|-40.39|||<|0.001|TWO_SIDED|95.0|-62.61|-18.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|FG19||-18.17|-62.61|<0.001
92264847|NCT01694849|184431190|SUPERIORITY||Difference in least square mean change|190.07||||0.101|TWO_SIDED|95.0|-37.38|417.52|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|FG21||417.52|-37.38|0.101
92264848|NCT01694849|184431190|SUPERIORITY||Difference in least square mean change|228.33||||0.052|TWO_SIDED|95.0|-2.16|458.82|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|FG21||458.82|-2.16|0.052
92264849|NCT01694849|184431191|SUPERIORITY||Difference in least square mean change|-0.14||||0.002|TWO_SIDED|95.0|-0.29|-0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.01|-0.29|0.002
92264850|NCT01694849|184431191|SUPERIORITY||Difference in least square mean change|-0.24|||<|0.001|TWO_SIDED|95.0|-0.34|-0.15|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.15|-0.34|<0.001
92264851|NCT01694849|184431192|SUPERIORITY||Difference in least square mean change|-16.54||||0.203|TWO_SIDED|95.0|-42.07|8.98|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Hyaluronic acid||8.98|-42.07|0.203
92264852|NCT01694849|184431192|SUPERIORITY||Difference in least square mean change|-6.79||||0.603|TWO_SIDED|95.0|-32.49|18.9|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||18.9|-32.49|0.603
92264853|NCT01694849|184431192|SUPERIORITY||Difference in least square mean change|-0.73||||0.235|TWO_SIDED|95.0|-1.95|0.48|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|PIIINP||0.48|-1.95|0.235
92264854|NCT01694849|184431192|SUPERIORITY||Difference in least square mean change|-0.81||||0.193|TWO_SIDED|95.0|-2.04|0.41|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|PIIINP||0.41|-2.04|0.193
92264855|NCT01694849|184431192|SUPERIORITY||Difference in least square mean change|6.21||||0.348|TWO_SIDED|95.0|-6.81|19.22|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|TIMP-1||19.22|-6.81|0.348
92245328|NCT00807846|184393612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.061||||0.392|TWO_SIDED|95.0|-0.202|0.079|||Chi-squared||Mean Difference (Final Values) indicates difference in incidence (proportion) between treatments.|The number of subjects with at least a 30% improvement in Parent/Guardian's Global Assessment of Overall Well-Being was compared between the two treatment groups using a chi-square test. A 95% CI for the difference in incidence between groups was also computed.||0.079|-0.202|0.392
92245329|NCT00807846|184393613|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.402||||0.897|TWO_SIDED|95.0|-6.5|5.69|||ANCOVA|||Change from Baseline to Week 6 was analyzed using ANCOVA model as well with treatment and Baseline value as a covariate. The LS mean change from Baseline was compared between treatment groups and an appropriate p-value and 95% CI for the difference between the two treatment groups was generated. This analysis was conducted using a two-sided test with α=0.05.||5.69|-6.50|0.897
92245330|NCT00807846|184393614|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.102||||0.2|TWO_SIDED|95.0|-0.257|0.053|||Chi-squared||Mean Difference (Final Values) indicates difference in incidence (proportion) between treatments.|The number of participants with at least a 30% improvement in participant's Global Assessment of Overall Well-Being was compared between the two treatment groups using a chi-square test. A 95% CI for the difference in incidence between groups was also computed.||0.053|-0.257|0.200
92287253|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.078|TWO_SIDED|95.0|-0.008|0.148|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.148|-0.008|0.078
92245331|NCT03977727|184393619|SUPERIORITY||Mean Difference (Final Values)|27.35||||0.008|TWO_SIDED|95.0|7.88|48.4|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||48.4|7.88|.008
92245332|NCT03977727|184393620|SUPERIORITY||Mean Difference (Final Values)|15.22||||0.136|TWO_SIDED|95.0|-5.42|39.46|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||39.46|-5.42|.136
92245333|NCT03977727|184393621|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.029|TWO_SIDED|95.0|0.05|0.73|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||.73|.05|.029
92245334|NCT03977727|184393622|SUPERIORITY||Mean Difference (Final Values)|-1.81||||0.016|TWO_SIDED|95.0|-2.84|-0.31|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||-0.31|-2.84|.016
92245335|NCT03977727|184393623|SUPERIORITY||Mean Difference (Final Values)|1.38||||0.045|TWO_SIDED|95.0|0.04|2.32|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||2.32|.04|.045
92245336|NCT03977727|184393626|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.303|TWO_SIDED|95.0|-0.59|0.16|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||.16|-.59|.303
92245337|NCT03977727|184393627|SUPERIORITY||Mean Difference (Final Values)|-1.18||||0.968|TWO_SIDED|95.0|-10.32|9.99|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||9.99|-10.32|.968
92245338|NCT03977727|184393628|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.059|TWO_SIDED|95.0|-0.13|0.0|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||0|-.13|.059
92245339|NCT01419665|184393639|EQUIVALENCE|The equivalence margin of + or - 12% was determined considering the variability of the point estimate of the add-on effect by taking a value lower than the lower boundary of the 95% CI for Rituximab+chemotherapy versus chemotherapy obtained from historical data.|difference in overall response rate|-0.4|||||TWO_SIDED|95.0|-5.94|5.14|||Binomial approximation|||||5.14|-5.94|
92245340|NCT01419665|184393642|OTHER|descriptive purposes, not powered for hypothesis testing|Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.97|1.76|||Regression, Cox|||||1.76|0.97|
92245341|NCT01419665|184393643|OTHER|descriptive purposes, not powered for hypothesis testing|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.55|1.52|||Regression, Cox|||||1.52|0.55|
92245342|NCT03483506|184393707|OTHER||Geometric mean ratio|8.34|STANDARD_DEVIATION|50.5|||TWO_SIDED|90.0|5.88|11.82|||ANOVA||"Standard deviation is actually intra individual geometric coefficient of variation. BI 1467335 tab arm is the numerator, while BI 1467335 (C-14) iv arm is the denominator."|The statistical model used for the analysis of the primary PK endpoints was an ANOVA (analysis of variance) model on the logarithmic scale. The model included effects accounting for 'subject' and 'formulation' as sources of variation; 'subject' was considered as a random effect, whereas 'formulation' was considered as a fixed effect.||11.82|5.88|
92245343|NCT03483506|184393709|OTHER||Geometric mean ratio|62.14|STANDARD_DEVIATION|24.4|||TWO_SIDED|90.0|52.08|74.14|||ANOVA||"Standard deviation is actually intra individual geometric coefficient of variation. BI 1467335 tab arm is the numerator, while BI 1467335 (C-14) iv arm is the denominator."|The statistical model used for the analysis of the primary PK endpoints was an ANOVA (analysis of variance) model on the logarithmic scale. The model included effects accounting for 'subject' and 'formulation' as sources of variation; 'subject' was considered as a random effect, whereas 'formulation' was considered as a fixed effect.||74.14|52.08|
92245344|NCT00547378|184393729|SUPERIORITY|||||||0.016|||||||Cochran-Mantel-Haenszel|The two-sided Cochran-Mantel-Haenszel (CMH) test, stratified for center, was used to test the difference in responder rates between the 2 groups||||||0.016
92245345|NCT04633473|184393745|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.922|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.922
92245346|NCT04633473|184393746|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.521|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.521
92245347|NCT04633473|184393747|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.678|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.678
92245348|NCT04633473|184393748|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.326|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.326
92245349|NCT04633473|184393749|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.09|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.09
92245350|NCT04633473|184393750|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.154|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.154
92245351|NCT04633473|184393751|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.309|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.309
92245352|NCT04633473|184393753|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.181|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.181
92245353|NCT04633473|184393754|SUPERIORITY||Mean Difference (Final Values)|0.91||||0.008|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.008
92264856|NCT01694849|184431192|SUPERIORITY||Difference in least square mean change|-14.66||||0.029|TWO_SIDED|95.0|-27.81|1.51|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|TIMP-1||1.51|-27.81|0.029
92264857|NCT01694849|184431193|SUPERIORITY||Difference in least square mean change|-0.05|||<|0.001|TWO_SIDED|95.0|-0.07|-0.02|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.02|-0.07|<0.001
92282005|NCT04424407|184467620|OTHER|||||||0.49||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (3) in the Conscious Faces task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Conscious Anger \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.49
92282006|NCT04424407|184467621|OTHER|||||||0.99||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (3) in the Nonconscious Faces task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Nonconscious Fear \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.99
92282007|NCT04424407|184467621|OTHER|||||||0.99||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (3) in the Nonconscious Faces task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Nonconscious Threat \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.99
92282008|NCT04424407|184467622|OTHER|||||||0.65||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (2) in the Emotion Regulation Scenes task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Emotion Regulation Scenes task Negative \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.65
92282009|NCT04424407|184467622|OTHER|||||||0.65||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (2) in the Emotion Regulation Scenes task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Emotion Regulation Scenes task Look Negative \> Decrease Negative amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.65
92282010|NCT04424407|184467623|OTHER|||||||0.86||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of mPFC regions (5). The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of amygdala-dACC connectivity from the Conscious Fear \> Neutral task/contrast was done by applying linear mixed effects models testing the effect of treatment-time on connectivity. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.86
92282011|NCT04424407|184467623|OTHER|||||||0.86||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of mPFC regions (5). The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of amygdala-dmPFC connectivity from the Conscious Fear \> Neutral task/contrast was done by applying linear mixed effects models testing the effect of treatment-time on connectivity. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.86
92282012|NCT04424407|184467623|OTHER|||||||0.83||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of mPFC regions (5). The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of amygdala-pACC connectivity from the Conscious Fear \> Neutral task/contrast was done by applying linear mixed effects models testing the effect of treatment-time on connectivity. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.83
92282013|NCT04424407|184467623|OTHER|||||||0.23||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of mPFC regions (5). The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of amygdala-sgACC connectivity from the Conscious Fear \> Neutral task/contrast was done by applying linear mixed effects models testing the effect of treatment-time on connectivity. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.23
92287254|NCT03086460|184479328|SUPERIORITY||Mean Difference (Final Values)|0.066||||0.089|TWO_SIDED|95.0|-0.01|0.143|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.143|-0.010|0.089
92245354|NCT00751114|184393762|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.77|-0.42||An analysis of covariance (ANCOVA) was performed, with the HbA1c change from baseline to last on-treatment measurement as dependent variable, treatment as fixed effect and the corresponding baseline HbA1c value as covariate|ANCOVA||Difference (Insulin glargine - Sitagliptin)|"H0: no difference between insulin glargine mean HbA1c change and sitagliptin mean HbA1c change~H1: difference between insulin glargine mean HbA1c change and sitagliptin mean HbA1c change~Assuming:~* Estimated standard deviation of the change in HbA1c of 1.3%~* Expected mean difference to be detected of 0.4%~* Alpha risk of 5% (two-sided)~* Power of 90%~* Equal sample size in each treatment group (1:1 randomization)~A total number of 446 evaluable patients (223 in each group) was required"||-0.42|-0.77|<0.0001
92245355|NCT03095521|184393772|NON_INFERIORITY|two-sided 95% CIs estimation used to confirm non-inferior efficacy in primary endpoint. A non-inferiority conclusion was made relating to the primary parameter only.||||||0.028|TWO_SIDED|95.0|||||Fisher Exact|||Arm Angal, Arm Antiangin||||0.028
92245356|NCT03095521|184393775|SUPERIORITY|||||||0.482|||||||Wilcoxon (Mann-Whitney)|||||||0.482
92245357|NCT03095521|184393777|SUPERIORITY|||||||0.072|||||||t-test, 2 sided|||change from baseline, 2 groups||||0.072
92245358|NCT03259490|184393778|OTHER||Adjusted gmean ratio T/R (%)|103.06|STANDARD_DEVIATION|5.8|||TWO_SIDED|95.0|100.36|105.83|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||105.83|100.36|
92245359|NCT03259490|184393779|OTHER||Adjusted gmean ratio T/R (%)|100.35|STANDARD_DEVIATION|9.5|||TWO_SIDED|95.0|96.11|104.77|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||104.77|96.11|
92245360|NCT03259490|184393780|OTHER||Adjusted gmean ratio T/R (%)|100.31|STANDARD_DEVIATION|8.2|||TWO_SIDED|95.0|96.65|104.1|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||104.10|96.65|
92245361|NCT03259490|184393781|OTHER||Adjusted gmean ratio T/R (%)|99.95|STANDARD_DEVIATION|12.4|||TWO_SIDED|95.0|94.52|105.7|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||105.70|94.52|
92245362|NCT03259490|184393782|OTHER||Adjusted gmean ratio T/R (%)|107.78|STANDARD_DEVIATION|11.0|||TWO_SIDED|95.0|102.52|113.31|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||113.31|102.52|
92245363|NCT03259490|184393783|OTHER||Adjusted gmean ratio T/R (%)|97.17|STANDARD_DEVIATION|10.6|||TWO_SIDED|95.0|92.63|101.93|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||101.93|92.63|
92245364|NCT03259490|184393784|OTHER||Adjusted gmean ratio T/R (%)|103.11|STANDARD_DEVIATION|5.9|||TWO_SIDED|95.0|100.38|105.92|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||105.92|100.38|
92245365|NCT03259490|184393785|OTHER||Adjusted gmean ratio T/R (%)|100.17|STANDARD_DEVIATION|10.1|||TWO_SIDED|95.0|95.68|104.86|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||104.86|95.68|
92264858|NCT01694849|184431193|SUPERIORITY||Difference in least square mean change|-0.05|||<|0.001|TWO_SIDED|95.0|-0.08|-0.02|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.02|-0.08|<0.001
92245366|NCT03259490|184393786|OTHER||Adjusted gmean ratio T/R (%)|97.3|STANDARD_DEVIATION|13.2|||TWO_SIDED|95.0|91.65|103.29|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||103.29|91.65|
92245367|NCT00723073|184393787|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|STANDARD_DEVIATION|1.0||0.96|TWO_SIDED|95.0|0.89|1.1|||Fisher Exact|||||1.10|0.89|0.96
92245368|NCT00723073|184393788|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|STANDARD_DEVIATION|1.0|>|0.99|TWO_SIDED|95.0|0.38|2.7|||Fisher Exact|||||2.70|0.38|>0.99
92245369|NCT00723073|184393789|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93|STANDARD_DEVIATION|1.0|>|0.99|TWO_SIDED|95.0|0.44|1.97|||Fisher Exact|||||1.97|0.44|>0.99
92245370|NCT00723073|184393790|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.12|STANDARD_DEVIATION|1.0||0.48|TWO_SIDED|95.0|0.61|2.07|||Fisher Exact|||||2.07|0.61|0.48
92245371|NCT00723073|184393791|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.57|STANDARD_DEVIATION|1.0||0.57|TWO_SIDED|95.0|0.1|3.37|||Fisher Exact|||||3.37|0.10|0.57
92245372|NCT00723073|184393792|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||Chi-squared|||||||0.66
92245373|NCT00723073|184393795|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Fisher Exact|||||||0.22
92245374|NCT00723073|184393796|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Fisher Exact|||||||0.11
92245375|NCT01536119|184393797|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.12||||0.27|TWO_SIDED|95.0|0.91|1.38|||Chi-squared|||"Power analysis was conducted to a 15 % increase in exclusive breastfeeding rates (from 52% to 67%) with 80% power and an alpha of 0.05. A 25% attrition rate waas added. 107 couples were needed per group. Intention to treat analysis conducted.~Exclusive breastfeeding at 12 weeks"||1.38|0.91|0.27
92245376|NCT01536119|184393798|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.19||||0.09||95.0|0.98|1.44|||Chi-squared|||||1.44|0.98|0.09
92245377|NCT01536119|184393799|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06||||0.06||95.0|1.0|1.13|||Fisher Exact|||||1.13|1.00|0.06
92282014|NCT04424407|184467623|OTHER|||||||0.83||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of mPFC regions (5). The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of amygdala-vmPFC connectivity from the Conscious Fear \> Neutral task/contrast was done by applying linear mixed effects models testing the effect of treatment-time on connectivity. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.83
92282015|NCT04424407|184467624|OTHER||||||<|0.0001||||||P-values are from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in depression symptom severity score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||<0.0001
92245378|NCT01536119|184393800|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.02||95.0|1.01|1.19|||Chi-squared|||||1.19|1.01|0.02
92245379|NCT01536119|184393801|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Wilcoxon (Mann-Whitney)|||Brief scale used||||0.25
92245380|NCT01536119|184393802|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.29
92245381|NCT01536119|184393803|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||t-test, 2 sided|||||||0.12
92245382|NCT01536119|184393804|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.21
92245383|NCT01536119|184393805|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||t-test, 2 sided|||||||0.06
92245384|NCT01536119|184393806|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||t-test, 2 sided|||||||0.43
92282016|NCT04424407|184467625|OTHER|||||||0.002||||||P-values are from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in sleep efficiency was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.002
92282017|NCT04424407|184467626|OTHER||||||<|0.0001||||||P-values are from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in suicidal ideation score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||<0.0001
92282018|NCT04424407|184467627|OTHER|||||||0.03||||||P-values are uncorrected from ordinal logistic regression model. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|A significant p-value here means that treatment was associated with reduced odds of being in a higher risk category.||Analysis of change in suicidal risk was done by applying ordinal logistic regression (proportional odds model) testing the effect of treatment-time on the probability of being in a higher risk category. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.03
92282019|NCT04424407|184467633|OTHER|||||||0.28|||||||Mixed Models Analysis|||Analysis of change in sleep onset latency (PSG) was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.28
92282020|NCT04424407|184467634|OTHER|||||||0.33||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in number of awakenings derived from PSG was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.33
92282021|NCT04424407|184467635|OTHER|||||||0.013||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in wake after sleep onset (WASO) was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.013
92282022|NCT04424407|184467636|OTHER|||||||0.66||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG TST was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.66
92282023|NCT04424407|184467637|OTHER|||||||0.96||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Delta absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.96
92282024|NCT04424407|184467637|OTHER|||||||0.23||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Theta absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.23
92282025|NCT04424407|184467637|OTHER|||||||0.11||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Alpha absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.11
92282026|NCT04424407|184467637|OTHER|||||||0.44||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Sigma absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.44
92282027|NCT04424407|184467637|OTHER|||||||0.68||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Beta-1 absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.68
92245385|NCT02365584|184393807|SUPERIORITY|"The assumptions required for the analysis of covariance (ANCOVA) were to be tested as follows:~* The equality of variances was to verified using the Levene's test. If it was significant AUC values were to be properly transformed.~* The linear relationship of AUC with the basal total score within treatment group was to be tested by a regression analysis.~* The parallelism of the regression lines between groups and the slope non zero value with the appropriate F tests."|Adjusted LS Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|17.7|=|0.5396|TWO_SIDED|95.0|-47.0|25.0|||ANCOVA|||Analysis of covariance (ANCOVA), where the AUC was the dependent and the independent was the baseline ESAS total score.||25|-47|=0.5396
92245386|NCT01927419|184393829|SUPERIORITY||Mean Difference (Final Values)|49.5|||||TWO_SIDED|95.0|31.4|61.8|||Fisher Exact||Difference of ORR||Exact 95% CI for difference in ORR uses Newcombe's method|61.8|31.4|
92245387|NCT01927419|184393829|SUPERIORITY||Odds Ratio (OR)|12.52|||||TWO_SIDED|95.0|3.79|52.55|||Fisher Exact|||||52.55|3.79|
92245388|NCT01927419|184393830|SUPERIORITY||Hazard Ratio (HR)|0.36|||||TWO_SIDED|95.0|0.21|0.59|||Unstratified Cox proportional hazard||Nivolumab + Ipilimumab over Ipilimumab|||0.59|0.21|
92245389|NCT01927419|184393831|SUPERIORITY||Mean Difference (Final Values)|44.5|||||TWO_SIDED|95.0|8.2|64.8|||Fisher Exact||Difference of ORR||Exact 95% CI for difference in ORR uses Newcombe's method|64.8|8.2|
92245390|NCT01927419|184393831|SUPERIORITY||Odds Ratio (OR)|10.8|||||TWO_SIDED|95.0|1.07|511.89|||Fisher Exact|||||511.89|1.07|
92245391|NCT01927419|184393832|SUPERIORITY||Hazard Ratio (HR)|0.36|||||TWO_SIDED|95.0|0.14|0.97|||Unstratified Cox proportional hazard||Nivolumab + Ipilimumab over Ipilimumab|||0.97|0.14|
92245392|NCT03260205|184393855|SUPERIORITY||Difference in Least Square Mean|-5.9||||0.0242|TWO_SIDED|95.0|-11.01|-0.78|||MMRM|||This outcome measure was analyzed using the linear mixed-effects model for repeated measures (MMRM). From a MMRM analysis over all post-baseline visits, with the change from baseline in ADHD-RS-IV preschool version total score as the outcome, treatment, visit, and treatment-by-visit interaction as fixed effect, baseline ADHD-RS-IV and baseline ADHD-RS-IV score-by-visit interaction as covariates.||-0.78|-11.01|0.0242
92245393|NCT03260205|184393856|SUPERIORITY||Difference in Least Mean Square|-0.6||||0.0074|TWO_SIDED|95.0|-1.03|-0.16|||MMRM|||This outcome measure was analyzed using the linear mixed-effects model for repeated measures (MMRM). From a MMRM analysis over all post-baseline Visits, with the CGI-I score as the outcome, treatment, visit, and treatment-by-visit interaction as fixed effect, baseline CGI-S as covariate.||-0.16|-1.03|0.0074
92245394|NCT04095286|184393901|OTHER||Ratio of adjusted geometric mean|1.03|||||TWO_SIDED|90.0|0.96|1.11|||||Treatment comparison between AMB dispersed in water and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||1.11|0.96|
92245395|NCT04095286|184393901|OTHER||Ratio of adjusted geometric mean|0.91|||||TWO_SIDED|90.0|0.85|0.98|||||Treatment comparison between AMB oral tablet and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||0.98|0.85|
92245396|NCT04095286|184393904|OTHER||Ratio of adjusted geometric mean|1.05|||||TWO_SIDED|90.0|1.02|1.09|||||Treatment comparison between AMB dispersed in water and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||1.09|1.02|
92245397|NCT04095286|184393904|OTHER||Ratio of adjusted geometric mean|1.04|||||TWO_SIDED|90.0|1.0|1.08|||||Treatment comparison between AMB oral tablet and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||1.08|1.00|
92245398|NCT04095286|184393905|OTHER||Ratio of adjusted geometric mean|1.05|||||TWO_SIDED|90.0|1.02|1.08|||||Treatment comparison between AMB dispersed in water and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||1.08|1.02|
92245399|NCT04095286|184393905|OTHER||Ratio of adjusted geometric mean|1.04|||||TWO_SIDED|90.0|1.01|1.07|||||Treatment comparison between AMB oral tablet and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||1.07|1.01|
92282028|NCT04424407|184467637|OTHER|||||||0.74||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Beta-2 absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.74
92245400|NCT01511107|184393942|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 10% was used. Non-inferiority can be established by placing a confidence interval on the difference in the proportion of TFs in subjects randomized to the 10 day regimen and the proportion of TFs in subjects randomized to the 5 day regimen, and determining whether the lower 95% confidence bound is greater than -10%.|Difference between proportions|-0.172|STANDARD_DEVIATION|0.039|||TWO_SIDED|95.0|-0.253|-0.091||||||The null hypothesis that amoxicillin-clavulanate 5 days, placebo 5 days (reduced duration) is inferior to amoxicillin-clavulanate 10 days (standard duration) is tested against the alternative that reduced duration treatment is noninferior. Assuming failure rates of 15% and 25% in the standard and reduced duration groups, respectively, a 2-sided significance level of .05 and 10% attrition, it was calculated that 300 participants per group, would provide power of 95% for finding inferiority.||-.091|-.253|
92245401|NCT01511107|184393943|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 10% was used. Non-inferiority can be established by placing a confidence interval on the difference in the proportion of TFs in subjects randomized to the 10 day regimen and the proportion of TFs in subjects randomized to the 5 day regimen, and determining whether the lower 95% confidence bound is greater than -10%.|Difference between proportions|-0.096|STANDARD_DEVIATION|0.053|||TWO_SIDED|95.0|-0.209|0.016||||||||.016|-.209|
92245402|NCT01511107|184393944|SUPERIORITY_OR_OTHER|||||||0.45|||||||Regression, Logistic|||Null hypothesis: There is no difference between the two groups in the proportion of children whose NP isolates at enrollment are negative for AOM pathogens for whom the NP culture at day 12-14 yields a nonsusceptible pathogen.||||0.45
92245403|NCT01511107|184393945|SUPERIORITY_OR_OTHER|||||||0.95|||||||Generalized estimating equations|||Null hypothesis: For AOM recurrences with a NP culture at onset that is negative for AOM pathogens, there is no difference between the two groups regarding the proportion of NP cultures at Day 12-14 that yield a nonsusceptible pathogen.||||0.95
92245404|NCT01511107|184393946|SUPERIORITY_OR_OTHER|||||||0.59|||||||Regression, Logistic|||Null hypothesis: There is no difference between the two groups in the proportion of children whose NP isolates at enrollment are positive only for one or more susceptible pathogens for whom the NP culture at day 12-14 yields a nonsusceptible pathogen.||||0.59
92245405|NCT01511107|184393947|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Generalized estimating equations|||Null hypothesis: For AOM recurrences with a NP culture at onset that is positive only for one or more susceptible pathogens, there is no difference between the two groups regarding the proportion of NP cultures at Day 12-14 that yield a nonsusceptible pathogen.||||>0.99
92245406|NCT01511107|184393948|SUPERIORITY_OR_OTHER|||||||0.47|||||||Regression, Logistic|||Null hypothesis: There is no difference between the two groups in the proportion of children whose NP isolates at enrollment are positive for one or more nonsusceptible pathogens for whom the NP culture at day 12-14 yields a nonsusceptible pathogen.||||0.47
92245407|NCT01511107|184393949|SUPERIORITY_OR_OTHER|||||||0.05|||||||Generalized estimating equations|||Null hypothesis: For AOM recurrences with a NP culture at onset that is positive for one or more nonsusceptible pathogens, there is no difference between the two groups regarding the proportion of NP cultures at Day 12-14 that yield a nonsusceptible pathogen.||||0.05
92245408|NCT01511107|184393950|SUPERIORITY_OR_OTHER|||||||0.58|||||||Regression, Logistic|The p-value is adjusted for the culture result at enrollment.||Null hypothesis: There is no difference in the proportion of subjects whose NP isolates at enrollment are pathogen-negative or positive only for at least one susceptible pathogen who become colonized with penicillin non-susceptible pathogens at any time over the course of follow-up||||0.58
92245409|NCT01511107|184393951|SUPERIORITY_OR_OTHER|||||||0.74|||||||Generalized estimating equations|||Null hypothesis: There is no difference in the proportion of 6 week follow-up, non-illness visits at which a penicillin-nonsusceptible pathogen is recovered.||||0.74
92245410|NCT01511107|184393952|SUPERIORITY_OR_OTHER|||||||0.72|||||||Regression, Logistic|The p-value is adjusted for S pn susceptibility at the index episode.||Null hypothesis: There is no difference between the two groups regarding the proportion of NP cultures at Day 12-14 that yield a nonsusceptible S pn isolate.||||0.72
92245411|NCT01511107|184393953|SUPERIORITY_OR_OTHER|||||||0.05|||||||Generalized estimating equations|The p-value is adjusted for S pn susceptibility at onset of the AOM recurrence.||||||0.05
92245412|NCT01511107|184393954|SUPERIORITY_OR_OTHER|||||||0.47|||||||Regression, Logistic|The p-value is adjusted for H flu susceptibility at onset of the index episode.||Null hypothesis: There is no difference between the two groups regarding the proportion of NP cultures at Day 12-14 that yield a nonsusceptible H flu isolate.||||0.47
92245413|NCT01511107|184393955|SUPERIORITY_OR_OTHER|||||||0.69|||||||Generalized estimating equations|The p-value is adjusted for H flu susceptibility at onset of the AOM recurrence.||||||0.69
92245414|NCT01511107|184393956|SUPERIORITY_OR_OTHER|||||||0.16|||||||Regression, Logistic|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the proportion of children followed greater than 60 days having at least one AOM relapse or recurrence within 60 days of enrollment.||||0.16
92245415|NCT01511107|184393957|SUPERIORITY_OR_OTHER|||||||0.32|||||||Regression, Logistic|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the proportion of children completing the study having at least one AOM relapse or recurrence within the entire respiratory season.||||0.32
92245416|NCT01511107|184393958|SUPERIORITY_OR_OTHER|||||||0.23|||||||Regression, Poisson|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the rate of recurrences/relapses within 60 days of enrollment.||||0.23
92245417|NCT01511107|184393959|SUPERIORITY_OR_OTHER|||||||0.22|||||||Regression, Poisson|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the rate of recurrences/relapses within the entire respiratory season.||||0.22
92282029|NCT04424407|184467637|OTHER|||||||0.84||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Gamma absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.84
92282030|NCT04424407|184467638|OTHER||||||<|0.0001||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in insomnia symptom severity score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||<0.0001
92174507|NCT03858634|184241458|SUPERIORITY||LS mean difference|-33.1|STANDARD_ERROR_OF_MEAN|34.98||0.4133|TWO_SIDED|80.0|-90.43|24.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||24.15|-90.43|0.4133
92174508|NCT03858634|184241458|SUPERIORITY||LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|15.44||0.9305|TWO_SIDED|80.0|-21.83|19.11|||ANCOVA|||Change at Week 2||19.11|-21.83|0.9305
92174509|NCT03858634|184241458|SUPERIORITY||LS mean difference|-160.9|STANDARD_ERROR_OF_MEAN|132.98||0.3499|TWO_SIDED|80.0|-411.65|89.86||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||89.86|-411.65|0.3499
92174510|NCT03858634|184241458|SUPERIORITY||LS mean difference|-14.0|STANDARD_ERROR_OF_MEAN|9.55||0.1588|TWO_SIDED|80.0|-26.74|-1.33||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||-1.33|-26.74|0.1588
92174511|NCT03858634|184241458|SUPERIORITY||LS mean difference|-40.6|STANDARD_ERROR_OF_MEAN|35.19||0.3319|TWO_SIDED|80.0|-98.26|17.0||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||17.00|-98.26|0.3319
92174512|NCT03858634|184241458|SUPERIORITY||LS mean difference|7.1|STANDARD_ERROR_OF_MEAN|19.39||0.7179|TWO_SIDED|80.0|-18.59|32.8||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||32.80|-18.59|0.7179
92174513|NCT03858634|184241458|SUPERIORITY||LS mean difference|-193.8|STANDARD_ERROR_OF_MEAN|112.17||0.2261|TWO_SIDED|80.0|-405.34|17.67||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||17.67|-405.34|0.2261
92174514|NCT03858634|184241458|SUPERIORITY||LS mean difference|-30.3|STANDARD_ERROR_OF_MEAN|10.88||0.0123|TWO_SIDED|80.0|-44.75|-15.8||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-15.80|-44.75|0.0123
92174515|NCT03858634|184241458|SUPERIORITY||LS mean difference|-54.0|STANDARD_ERROR_OF_MEAN|35.45||0.2253|TWO_SIDED|80.0|-112.02|4.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||4.09|-112.02|0.2253
92174516|NCT03858634|184241458|SUPERIORITY||LS mean difference|6.3|STANDARD_ERROR_OF_MEAN|16.9||0.7149|TWO_SIDED|80.0|-16.14|28.66||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||28.66|-16.14|0.7149
92174517|NCT03858634|184241458|SUPERIORITY||LS mean difference|-168.4|STANDARD_ERROR_OF_MEAN|109.12||0.2627|TWO_SIDED|80.0|-374.16|37.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||37.36|-374.16|0.2627
92282031|NCT04424407|184467639|OTHER||||||<|0.0001||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in SF-36 Mental Component Score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||<0.0001
92245418|NCT01511107|184393960|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Linear|The p-value is adjusted for site \& the stratification variables and for length of follow-up.||Null hypothesis: There is no difference between the two groups in the mean number of days a systemic antibiotic was received during the respiratory season.||||<.001
92245419|NCT01511107|184393961|SUPERIORITY_OR_OTHER|||||||0.07|||||||Generalized estimating equations|The p-value is adjusted for site \& the stratification variables, episode, day of the diary and AOM-SOS score at the episode.||Null hypothesis: There is no difference between the two groups regarding the symptom burden as measured by the respective mean scores over time.||||0.07
92245420|NCT01511107|184393962|SUPERIORITY_OR_OTHER|||||||0.7|||||||Regression, Logistic|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the proportion of children for whom PDD was reported.||||0.70
92245421|NCT01511107|184393963|SUPERIORITY_OR_OTHER|||||||0.86|||||||Regression, Logistic|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the proportion of children for whom diaper dermatitis was reported.||||0.86
92174518|NCT03858634|184241458|SUPERIORITY||LS mean difference|-36.7|STANDARD_ERROR_OF_MEAN|11.38||0.0047|TWO_SIDED|80.0|-51.87|-21.6||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-21.60|-51.87|0.0047
92245422|NCT00975195|184393973|NON_INFERIORITY_OR_EQUIVALENCE|Upper limit of 95% confidence interval (CI) \<1.2 indicates non-inferiority of Fluticasone withdrawal compared with Fluticasone maintenance|Hazard Ratio (HR)|1.058||||0.3497|TWO_SIDED|95.0|0.941|1.189||Two-sided p-value to test superiority of fluticasone maintenance over fluticasone withdrawal if non-inferiority shown.|Chi-squared|Wald's chi-square test|Ratio calculated as fluticasone withdrawal divided by fluticasone maintenance|||1.189|0.941|0.3497
92245423|NCT00975195|184393974|SUPERIORITY_OR_OTHER||Rate ratio|1.05|STANDARD_ERROR_OF_MEAN|0.06||0.4441|TWO_SIDED|95.0|0.93|1.18|||Regression, Negative Binomial|Adjusted for log time at risk using log link function|Ratio calculated as fluticasone withdrawal divided by fluticasone maintenance|||1.18|0.93|0.4441
92282032|NCT04424407|184467639|OTHER|||||||0.94||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in SF-36 Physical Component Score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.94
92282033|NCT04424407|184467640|OTHER||||||<|0.0001||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in anxiety symptom severity score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||<0.0001
92174519|NCT03858634|184241458|SUPERIORITY||LS mean difference|-66.1|STANDARD_ERROR_OF_MEAN|38.01||0.1803|TWO_SIDED|80.0|-128.37|-3.88||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-3.88|-128.37|0.1803
92174520|NCT03858634|184241458|SUPERIORITY||LS mean difference|6.4|STANDARD_ERROR_OF_MEAN|17.34||0.7174|TWO_SIDED|80.0|-16.62|29.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||29.35|-16.62|0.7174
92245424|NCT00975195|184393975|SUPERIORITY_OR_OTHER|||||||0.2269|TWO_SIDED||||||Fisher Exact|||||||0.2269
92174521|NCT03858634|184241458|SUPERIORITY||LS mean difference|-163.4|STANDARD_ERROR_OF_MEAN|103.47||0.2551|TWO_SIDED|80.0|-358.51|31.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||31.72|-358.51|0.2551
92245425|NCT00975195|184393976|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.202||||0.0849|TWO_SIDED|95.0|0.975|1.481|||Chi-squared|Wald's chi-square test|Ratio calculated as fluticasone withdrawal divided by fluticasone maintenance|||1.481|0.975|0.0849
92245426|NCT00975195|184393977|SUPERIORITY_OR_OTHER||Rate ratio|1.15|STANDARD_ERROR_OF_MEAN|0.13||0.2291|TWO_SIDED|95.0|0.92|1.45|||Regression, Negative Binomial|Adjusted for log time at risk using log link function|Ratio calculated as fluticasone withdrawal divided by fluticasone maintenance|||1.45|0.92|0.2291
92245427|NCT00975195|184393978|SUPERIORITY_OR_OTHER|||||||0.2083|TWO_SIDED||||||Fisher Exact|||||||0.2083
92245428|NCT00975195|184393979|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.035||||0.5562|TWO_SIDED|95.0|0.923|1.16|||Chi-squared|||||1.160|0.923|0.5562
92282034|NCT01249664|184467652|SUPERIORITY_OR_OTHER||Difference in least square means|14.1|||<|0.0001|TWO_SIDED|95.0|10.8|17.4||No adjustment on P value, this is for the primary efficacy analysis.|ANCOVA|ANCOVA model, including treatment groups and country (country designations) as fixed effects and baseline BCVA as a covariate.|The difference is calculated as Eylea minus Sham. A positive value indicates Eylea showed a higher change in BCVA total score until week 24 compared to Sham.|Null hypothesis was equality in change from baseline to Week 24 in BCVA total letter score between Eylea and Sham.||17.4|10.8|<0.0001
92245429|NCT00975195|184393980|SUPERIORITY_OR_OTHER||Rate ratio|1.05|STANDARD_ERROR_OF_MEAN|0.06||0.4342|TWO_SIDED|95.0|0.93|1.18|||Regression, Negative binomial|Adjusted for log time at risk using log link function|Ratio calculated as fluticasone withdrawal divided by fluticasone maintenance|||1.18|0.93|0.4342
92245430|NCT00975195|184393981|SUPERIORITY_OR_OTHER|||||||0.3155|TWO_SIDED||||||Fisher Exact|||||||0.3155
92245431|NCT00975195|184393983|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.0134||0.0014|TWO_SIDED|95.0|-0.069|-0.017|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||-0.017|-0.069|0.0014
92264859|NCT01694849|184431194|SUPERIORITY||Difference in least square mean change|-0.11|||<|0.001|TWO_SIDED|95.0|-0.15|-0.07|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.07|-0.15|<0.001
92264860|NCT01694849|184431194|SUPERIORITY||Difference in least square mean change|-0.11|||<|0.001|TWO_SIDED|95.0|-0.15|-0.07|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.07|-0.15|<0.001
92264861|NCT01694849|184431195|SUPERIORITY||Difference in least square mean change|0.06||||0.471|TWO_SIDED|95.0|-0.11|0.23|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.23|-0.11|0.471
92264862|NCT01694849|184431195|SUPERIORITY||Difference in least square mean change|-0.25||||0.005|TWO_SIDED|95.0|-0.42|-0.08|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.08|-0.42|0.005
92264863|NCT01694849|184431196|SUPERIORITY||Difference in least square mean change|-0.07||||0.457|TWO_SIDED|95.0|-0.27|0.12|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.12|-0.27|0.457
92264864|NCT01694849|184431196|SUPERIORITY||Difference in least square mean|-0.08||||0.428|TWO_SIDED|95.0|-0.28|0.12|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.12|-0.28|0.428
92264865|NCT01694849|184431197|SUPERIORITY||Difference in least square mean change|-9.22|||<|0.001|TWO_SIDED|95.0|-13.19|-5.24|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-5.24|-13.19|<0.001
92264866|NCT01694849|184431197|SUPERIORITY||Difference in least square mean change|-9.08|||<|0.001|TWO_SIDED|95.0|-13.12|-5.04|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-5.04|-13.12|<0.001
92264867|NCT01694849|184431198|SUPERIORITY||Difference in least square mean change|0.02||||0.531|TWO_SIDED|95.0|-0.05|0.09|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.09|-0.05|0.531
92264868|NCT01694849|184431198|SUPERIORITY||Difference in least square mean change|-0.02||||0.638|TWO_SIDED|95.0|-0.08|0.05|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.05|-0.08|0.638
92264869|NCT01694849|184431199|SUPERIORITY||Difference in least square mean change|-0.14||||0.831|TWO_SIDED|95.0|-1.39|1.12|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Total bilirubin||1.12|-1.39|0.831
92264870|NCT01694849|184431199|SUPERIORITY||Difference in least square mean change|0.2||||0.754|TWO_SIDED|95.0|-1.07|1.47|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Total bilirubin||1.47|-1.07|0.754
92264871|NCT01694849|184431199|SUPERIORITY||Difference in least square mean change|-0.03||||0.848|TWO_SIDED|95.0|-0.36|0.3|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Conjugated Bilirubin||0.3|-0.36|0.848
92264872|NCT01694849|184431199|SUPERIORITY||Difference in least square mean change|0.11||||0.511|TWO_SIDED|95.0|-0.22|0.45|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Conjugated Bilirubin||0.45|-0.22|0.511
92264873|NCT01694849|184431200|SUPERIORITY||Difference in least square mean change|-2.83||||0.075|TWO_SIDED|95.0|-5.95|0.29|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.29|-5.95|0.075
92264874|NCT01694849|184431200|SUPERIORITY||Difference in least square mean change|-1.11||||0.491|TWO_SIDED|95.0|-4.29|2.07|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||2.07|-4.29|0.491
92264875|NCT01694849|184431201|SUPERIORITY||Difference in least square mean change|-0.03||||0.393|TWO_SIDED|95.0|-0.1|0.04|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.04|-0.1|0.393
92264876|NCT01694849|184431201|SUPERIORITY||Difference in least square mean change|-0.04||||0.289|TWO_SIDED|95.0|-0.11|0.03|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.03|-0.11|0.289
92264877|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|-0.47|||<|0.001|TWO_SIDED|95.0|-0.73|-0.21|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Triglycerides||-0.21|-0.73|<0.001
92174522|NCT03858634|184241458|SUPERIORITY||LS mean difference|-33.5|STANDARD_ERROR_OF_MEAN|11.36||0.0086|TWO_SIDED|80.0|-48.58|-18.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-18.36|-48.58|0.0086
92174523|NCT03858634|184241458|SUPERIORITY||LS mean difference|-56.0|STANDARD_ERROR_OF_MEAN|40.16||0.2576|TWO_SIDED|80.0|-121.78|9.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||9.78|-121.78|0.2576
92245432|NCT00975195|184393984|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.064|STANDARD_ERROR_OF_MEAN|0.034||0.0632|TWO_SIDED|95.0|-0.004|0.131|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||0.131|-0.004|0.0632
92245433|NCT00975195|184393985|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.013|STANDARD_ERROR_OF_MEAN|0.055||0.8137|TWO_SIDED|95.0|-0.122|0.096|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||0.096|-0.122|0.8137
92245434|NCT00975195|184393986|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.53|STANDARD_ERROR_OF_MEAN|3.17||0.2663|TWO_SIDED|95.0|-9.74|2.69|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||2.69|-9.74|0.2663
92245435|NCT00975195|184393987|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.06||0.0033|TWO_SIDED|95.0|0.05|0.27|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||0.27|0.05|0.0033
92245436|NCT00975195|184393988|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.03|STANDARD_ERROR_OF_MEAN|1.499||0.4914|TWO_SIDED|95.0|-3.98|1.91|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||1.91|-3.98|0.4914
92174524|NCT03858634|184241458|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|18.09||0.9722|TWO_SIDED|80.0|-24.62|23.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||23.34|-24.62|0.9722
92174525|NCT03858634|184241458|SUPERIORITY||LS mean difference|-177.4|STANDARD_ERROR_OF_MEAN|95.72||0.2051|TWO_SIDED|80.0|-357.85|3.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||3.13|-357.85|0.2051
92174526|NCT03858634|184241458|SUPERIORITY||LS mean difference|-42.0|STANDARD_ERROR_OF_MEAN|11.99||0.0025|TWO_SIDED|80.0|-57.98|-26.08||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-26.08|-57.98|0.0025
92174527|NCT03858634|184241458|SUPERIORITY||LS mean difference|-65.8|STANDARD_ERROR_OF_MEAN|33.78||0.1465|TWO_SIDED|80.0|-121.14|-10.5||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-10.50|-121.14|0.1465
92174528|NCT03858634|184241458|SUPERIORITY||LS mean difference|5.1|STANDARD_ERROR_OF_MEAN|17.54||0.7734|TWO_SIDED|80.0|-18.13|28.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||28.37|-18.13|0.7734
92174529|NCT03858634|184241458|SUPERIORITY||LS mean difference|-175.5|STANDARD_ERROR_OF_MEAN|87.45||0.1826|TWO_SIDED|80.0|-340.37|-10.56||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-10.56|-340.37|0.1826
92174530|NCT03858634|184241458|SUPERIORITY||LS mean difference|-39.2|STANDARD_ERROR_OF_MEAN|13.71||0.0105|TWO_SIDED|80.0|-57.4|-20.93||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-20.93|-57.40|0.0105
92174531|NCT03858634|184241458|SUPERIORITY||LS mean difference|-53.7|STANDARD_ERROR_OF_MEAN|40.17||0.2737|TWO_SIDED|80.0|-119.49|12.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||12.09|-119.49|0.2737
92174532|NCT03858634|184241458|SUPERIORITY||LS mean difference|3.0|STANDARD_ERROR_OF_MEAN|17.77||0.8692|TWO_SIDED|80.0|-20.59|26.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||26.52|-20.59|0.8692
92174533|NCT03858634|184241458|SUPERIORITY||LS mean difference|-163.0|STANDARD_ERROR_OF_MEAN|89.64||0.2106|TWO_SIDED|80.0|-332.06|5.99||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||5.99|-332.06|0.2106
92174534|NCT03858634|184241458|SUPERIORITY||LS mean difference|-45.7|STANDARD_ERROR_OF_MEAN|14.67||0.006|TWO_SIDED|80.0|-65.19|-26.14||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-26.14|-65.19|0.0060
92174535|NCT03858634|184241458|SUPERIORITY||LS mean difference|-62.3|STANDARD_ERROR_OF_MEAN|36.12||0.1831|TWO_SIDED|80.0|-121.44|-3.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-3.13|-121.44|0.1831
92245437|NCT00975195|184393989|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.56|STANDARD_ERROR_OF_MEAN|1.669||0.349|TWO_SIDED|95.0|-4.84|1.71|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||1.71|-4.84|0.3490
92245438|NCT00975195|184393990|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|1.48||0.9262|TWO_SIDED|95.0|-2.77|3.04|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||3.04|-2.77|0.9262
92174536|NCT03858634|184241458|SUPERIORITY||LS mean difference|21.5|STANDARD_ERROR_OF_MEAN|16.39||0.2061|TWO_SIDED|80.0|-0.31|43.3||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||43.30|-0.31|0.2061
92174537|NCT03858634|184241458|SUPERIORITY||LS mean difference|-161.4|STANDARD_ERROR_OF_MEAN|87.75||0.2073|TWO_SIDED|80.0|-326.83|4.12||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||4.12|-326.83|0.2073
92174538|NCT03858634|184241458|SUPERIORITY||LS mean difference|-34.4|STANDARD_ERROR_OF_MEAN|15.19||0.0371|TWO_SIDED|80.0|-54.62|-14.1||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-14.10|-54.62|0.0371
92174539|NCT03858634|184241458|SUPERIORITY||LS mean difference|-55.2|STANDARD_ERROR_OF_MEAN|37.72||0.2393|TWO_SIDED|80.0|-117.01|6.54||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||6.54|-117.01|0.2393
92174540|NCT03858634|184241458|SUPERIORITY||LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|19.01||0.9019|TWO_SIDED|80.0|-22.91|27.67||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||27.67|-22.91|0.9019
92245439|NCT00975195|184393991|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.64|STANDARD_ERROR_OF_MEAN|1.716||0.1241|TWO_SIDED|95.0|-0.73|6.01|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||6.01|-0.73|0.1241
92245440|NCT00975195|184393992|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.048|STANDARD_ERROR_OF_MEAN|0.0123|<|0.0001|TWO_SIDED|95.0|-0.073|-0.024|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||-0.024|-0.073|<0.0001
92245441|NCT00975195|184393993|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.044|STANDARD_ERROR_OF_MEAN|0.0255||0.0855|TWO_SIDED|95.0|-0.094|0.006|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||0.006|-0.094|0.0855
92245442|NCT00975195|184393994|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.161|STANDARD_ERROR_OF_MEAN|0.045||0.0004|TWO_SIDED|95.0|-0.249|-0.073|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||-0.073|-0.249|0.0004
92245443|NCT00975195|184393995|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.97|STANDARD_ERROR_OF_MEAN|0.728||0.1838|TWO_SIDED|95.0|-0.46|2.4|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||2.40|-0.46|0.1838
92245444|NCT00975195|184393996|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.35|STANDARD_ERROR_OF_MEAN|0.702||0.0551|TWO_SIDED|95.0|-0.03|2.72|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||2.72|-0.03|0.0551
92245445|NCT00975195|184393997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.845||0.4804|TWO_SIDED|95.0|-1.06|2.25|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||2.25|-1.06|0.4804
92245446|NCT00975195|184393998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.22|STANDARD_ERROR_OF_MEAN|0.614||0.0467|TWO_SIDED|95.0|0.02|2.43|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||2.43|0.02|0.0467
92245447|NCT00975195|184393999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.0223|TWO_SIDED|95.0|-0.21|-0.02|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||-0.02|-0.21|0.0223
92245448|NCT03003403|184394000|SUPERIORITY||Risk Ratio (RR)|1.0||||0.97|TWO_SIDED|95.0|0.82|1.2|||bootstrap resampling|||||1.20|0.82|0.97
92245449|NCT03003403|184394001|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.83|TWO_SIDED|95.0|-1.24|1.0|||Mixed Models Analysis|||||1.00|-1.24|0.83
92245450|NCT03003403|184394002|SUPERIORITY|Difference in systolic blood pressure change post-baseline comparing intervention to usual care arm at 24 months.|Mean Difference (Final Values)|-1.2||||0.34|TWO_SIDED|95.0|-3.6|1.3|||Mixed Models Analysis|||||1.3|-3.6|0.34
92245451|NCT03003403|184394002|SUPERIORITY|Difference in diastolic blood pressure change post-baseline comparing intervention to usual care arm at 24 months.|Mean Difference (Final Values)|-0.8||||0.323|TWO_SIDED|95.0|-2.4|0.8|||Mixed Models Analysis|||||0.8|-2.4|0.323
92245452|NCT03003403|184394003|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.991|TWO_SIDED|95.0|-0.8|0.8|||Mixed Models Analysis|||||0.8|-0.8|0.991
92245453|NCT05195359|184394006|SUPERIORITY||||||<|0.0001|||||||ANOVA|Repeated measures ANOVA (Group × Time; app vs control; baseline vs week 12)||||||<0.0001
92245454|NCT05195359|184394007|SUPERIORITY|||||||0.0003|||||||ANOVA|Repeated measures ANOVA (Group × Time; app vs control; baseline vs week 12)||||||0.0003
92245455|NCT05195359|184394008|SUPERIORITY|||||||0.0002|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app users vs control; baseline vs week 6)||||||0.0002
92245456|NCT05195359|184394009|SUPERIORITY|||||||0.0606|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app users vs control; baseline vs week 6)||||||0.0606
92245457|NCT05195359|184394010|SUPERIORITY|||||||0.2056|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app users vs control; baseline vs week 6)||SF-12 Physical Wellbeing||||0.2056
92245458|NCT05195359|184394010|SUPERIORITY|||||||0.4186|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app users vs control; baseline vs week 6||SF-12 Mental Wellbeing||||0.4186
92245459|NCT05195359|184394011|SUPERIORITY|||||||0.0754|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app users vs control; baseline vs week 6)||||||0.0754
92245460|NCT05195359|184394012|SUPERIORITY|||||||0.0137|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app vs control; baseline vs week 12)||||||0.0137
92245461|NCT05195359|184394013|SUPERIORITY|||||||0.0152|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app vs control; baseline vs week 12)||||||0.0152
92245462|NCT05195359|184394014|SUPERIORITY|||||||0.8148|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app vs control; baseline vs week 12)||SF-12 Physical Wellbeing||||0.8148
92245463|NCT05195359|184394014|SUPERIORITY|||||||0.0523|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app vs control; baseline vs week 12)||SF-12 Mental Wellbeing||||0.0523
92245464|NCT05195359|184394015|SUPERIORITY|||||||0.0729|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app vs control; baseline vs week 12)||||||0.0729
92245465|NCT03342937|184394017|SUPERIORITY|1-sided test of single exponential mean with historical null hypothesis of 5.5 months median PFS||||||0.02||||||Sample size of 35 patients was chosen based on detecting the difference between a historical median PFS of 5.5 months and experimental median of 7.3 months, a hazard ratio of 0.75, with 80% power (1-sided test of single exponential mean, α=0.2).|1-sided exponential test|||||||0.02
92245466|NCT01299610|184394028|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.38|STANDARD_ERROR_OF_MEAN|0.538||0.48|TWO_SIDED|95.0|-1.46|0.7|||Mixed model for repeated measures|||||0.70|-1.46|0.480
92245467|NCT01299610|184394028|SUPERIORITY_OR_OTHER||mixed model for repeated measures|-0.89|STANDARD_ERROR_OF_MEAN|0.557||0.118|TWO_SIDED|95.0|-2.0|0.23|||Mixed model for repeated measures|||||0.23|-2.00|0.118
92245468|NCT01299610|184394028|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-1.51|STANDARD_ERROR_OF_MEAN|0.572||0.011|TWO_SIDED|95.0|-2.65|-0.36|||Mixed model for repeated measures|||||-0.36|-2.65|0.011
92245469|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.09|STANDARD_ERROR_OF_MEAN|0.16||0.581|TWO_SIDED|95.0|-0.24|0.42|||Mixed model repeated measures|||GW870086, 0.2% cream Vs Placebo: Day 2||0.42|-0.24|0.581
92245470|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.08|STANDARD_ERROR_OF_MEAN|0.169||0.655|TWO_SIDED|95.0|-0.42|0.27|||Mixed model repeated measures|||GW870086, 2.0% cream Vs Placebo: Day 2||0.27|-0.42|0.655
92245471|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.17|STANDARD_ERROR_OF_MEAN|0.174||0.336||95.0|-0.52|0.18|||Mixed model repeated measures|||FP, 0.05% cream Vs Placebo: Day 2||0.18|-0.52|0.336
92245472|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.03|STANDARD_ERROR_OF_MEAN|0.302||0.923|TWO_SIDED|95.0|-0.58|0.63|||Mixed model repeated measures|||GW870086 0.2% cream Vs Placebo: Day 3||0.63|-0.58|0.923
92245473|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.14|STANDARD_ERROR_OF_MEAN|0.314||0.657|TWO_SIDED|95.0|-0.49|0.77|||Mixed model repeated measures|||GW870086, 2.0% cream, Placebo: Day 3||0.77|-0.49|0.657
92245474|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.28|STANDARD_ERROR_OF_MEAN|0.323||0.386|TWO_SIDED|95.0|-0.93|0.36|||Mixed model repeated measures|||Placebo, FP, 0.05% cream: Day 3||0.36|-0.93|0.386
92245475|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.24|STANDARD_ERROR_OF_MEAN|0.456||0.601|TWO_SIDED|95.0|-1.15|0.67|||Mixed model repeated measures|||GW870086, 0.2% cream, Placebo: Day 7||0.67|-1.15|0.601
92245476|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.6|STANDARD_ERROR_OF_MEAN|0.472||0.212|TWO_SIDED|95.0|-1.54|0.35|||Mixed model repeated measures|||GW870086, 2.0% cream, Placebo: Day 7||0.35|-1.54|0.212
92245477|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-1.29|STANDARD_ERROR_OF_MEAN|0.485||0.01|TWO_SIDED|95.0|-2.26|-0.32|||Mixed model repeated measures|||Placebo, FP, 0.05% cream: Day 7||-0.32|-2.26|0.010
92245478|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.24|STANDARD_ERROR_OF_MEAN|0.462||0.602|TWO_SIDED|95.0|-1.17|0.68|||Mixed model repeated measures|||GW870086, 0.2% cream, Placebo: Day 14||0.68|-1.17|0.602
92245479|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.65|STANDARD_ERROR_OF_MEAN|0.479||0.18|TWO_SIDED|95.0|-1.61|0.31|||Mixed model repeated measures|||GW870086, 2.0% cream, Placebo: Day 14||0.31|-1.61|0.180
92245480|NCT01299610|184394029|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-1.39|STANDARD_ERROR_OF_MEAN|0.492||0.006|TWO_SIDED|95.0|-2.37|-0.4|||Mixed model repeated measures|||Placebo, FP, 0.05% cream: Day 14||-0.40|-2.37|0.006
92245481|NCT01617655|184394039|SUPERIORITY_OR_OTHER||LS mean difference|-39.1|||<|0.0001|TWO_SIDED|95.0|-51.1|-27.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-27.1|-51.1|<0.0001
92245482|NCT01617655|184394040|SUPERIORITY_OR_OTHER||LS mean difference|-38.9|||<|0.0001|TWO_SIDED|95.0|-51.0|-26.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-26.9|-51|<0.0001
92264878|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|-0.55|||<|0.001|TWO_SIDED|95.0|-0.81|-0.29|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Triglycerides||-0.29|-0.81|<0.001
92174541|NCT03858634|184241458|SUPERIORITY||LS mean difference|-149.2|STANDARD_ERROR_OF_MEAN|81.97||0.2103|TWO_SIDED|80.0|-303.77|5.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||5.35|-303.77|0.2103
92264879|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|-0.35||||0.001|TWO_SIDED|95.0|-0.56|-0.14|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Cholesterol||-0.14|-0.56|0.001
92264880|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|-0.43|||<|0.001|TWO_SIDED|95.0|-0.64|-0.23|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Cholesterol||-0.23|-0.64|<0.001
92264881|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|-0.46|||<|0.001|TWO_SIDED|95.0|-0.67|-0.24|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Non-high Density Lipoproteins Cholesterol||-0.24|-0.67|<0.001
92245483|NCT01617655|184394041|SUPERIORITY_OR_OTHER||LS mean difference|-40.3|||<|0.0001|TWO_SIDED|95.0|-51.4|-29.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-29.3|-51.4|<0.0001
92174542|NCT03858634|184241458|SUPERIORITY||LS mean difference|-22.1|STANDARD_ERROR_OF_MEAN|15.2||0.1634|TWO_SIDED|80.0|-42.4|-1.88||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-1.88|-42.40|0.1634
92174543|NCT03858634|184241458|SUPERIORITY||LS mean difference|-48.6|STANDARD_ERROR_OF_MEAN|36.28||0.2727|TWO_SIDED|80.0|-108.04|10.8||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||10.80|-108.04|0.2727
92245484|NCT01617655|184394042|SUPERIORITY_OR_OTHER||LS mean difference|-40.3|||<|0.0001|TWO_SIDED|95.0|-51.4|-29.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-29.2|-51.4|<0.0001
92245485|NCT01617655|184394043|SUPERIORITY_OR_OTHER||LS mean difference|-30.3|||<|0.0001|TWO_SIDED|95.0|-39.7|-20.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-20.9|-39.7|<0.0001
92282035|NCT01249664|184467653|SUPERIORITY_OR_OTHER||CMH adjusted difference|29.2||||0.0001|TWO_SIDED|95.0|14.4|44.0||No adjustment on P value, since this test was only conducted formally under the primary efficacy evaluation was significant.|Cochran-Mantel-Haenszel||A two-sided Cochran-Mantel-Haenszel method at level 5% weight-adjusted by country (country designations) was used to conduct the superiority test.|Null hypothesis of difference of Eylea minus Sham of 0 was tested.||44.0|14.4|0.0001
92282036|NCT01249664|184467654|SUPERIORITY_OR_OTHER||Difference in least square means|13.1|||<|0.0001|TWO_SIDED|95.0|9.4|16.7|||ANCOVA|||||16.7|9.4|<0.0001
92282037|NCT01249664|184467655|SUPERIORITY_OR_OTHER||CMH adjusted difference|50.5|||<|0.001|TWO_SIDED|95.0|35.0|66.0|||Cochran-Mantel-Haenszel|||||66.0|35.0|<0.001
92282038|NCT01249664|184467656|SUPERIORITY_OR_OTHER||CMH adjusted difference|64.0|||<|0.001|TWO_SIDED|95.0|47.8|80.3|||Cochran-Mantel-Haenszel|||||80.3|47.8|<0.001
92245486|NCT01617655|184394044|SUPERIORITY_OR_OTHER||LS mean difference|-30.2|||<|0.0001|TWO_SIDED|95.0|-39.7|-20.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-20.7|-39.7|<0.0001
92245487|NCT01617655|184394045|SUPERIORITY_OR_OTHER||LS mean difference|-35.8|||<|0.0001|TWO_SIDED|95.0|-46.3|-25.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.3|-46.3|<0.0001
92245488|NCT01617655|184394046|SUPERIORITY_OR_OTHER||LS mean difference|-35.5|||<|0.0001|TWO_SIDED|95.0|-46.2|-24.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-24.9|-46.2|<0.0001
92245489|NCT01617655|184394047|SUPERIORITY_OR_OTHER||LS mean difference|-28.4|||<|0.0001|TWO_SIDED|95.0|-37.3|-19.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.6|-37.3|<0.0001
92245490|NCT01617655|184394048|SUPERIORITY_OR_OTHER||LS mean difference|-30.2|||<|0.0001|TWO_SIDED|95.0|-39.2|-21.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-21.1|-39.2|<0.0001
92245491|NCT01617655|184394049|SUPERIORITY_OR_OTHER||LS mean difference|-34.5|||<|0.0001|TWO_SIDED|95.0|-44.8|-24.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-24.1|-44.8|<0.0001
92245492|NCT01617655|184394050|SUPERIORITY_OR_OTHER||LS mean difference|-27.8|||<|0.0001|TWO_SIDED|95.0|-36.2|-19.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.4|-36.2|<0.0001
92245493|NCT01617655|184394051|SUPERIORITY_OR_OTHER||LS mean difference|-39.1|||<|0.0001|TWO_SIDED|95.0|-53.6|-24.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-24.6|-53.6|<0.0001
92245494|NCT01617655|184394052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.7||||0.0016|TWO_SIDED|95.0|2.5|53.5||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||53.5|2.5|0.0016
92174544|NCT03858634|184241458|SUPERIORITY||LS mean difference|-9.6|STANDARD_ERROR_OF_MEAN|17.29||0.5839|TWO_SIDED|80.0|-32.65|13.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||13.36|-32.65|0.5839
92282039|NCT01249664|184467657|SUPERIORITY_OR_OTHER||CMH adjusted difference|21.0||||0.0308|TWO_SIDED|95.0|1.9|40.1|||Cochran-Mantel-Haenszel|||||40.1|1.9|0.0308
92245495|NCT01617655|184394053|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.9||||0.0014|TWO_SIDED|95.0|2.6|54.9||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||54.9|2.6|0.0014
92245496|NCT01617655|184394054|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.8||||0.0164|TWO_SIDED|95.0|-26.9|-2.7||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-2.7|-26.9|0.0164
92245497|NCT01617655|184394055|SUPERIORITY_OR_OTHER||LS mean difference|3.7||||0.2745|TWO_SIDED|95.0|-2.9|10.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||10.2|-2.9|0.2745
92245498|NCT01175213|184394067|SUPERIORITY_OR_OTHER_LEGACY||Poisson|0.02|||<|0.0001|ONE_SIDED|99.0||0.045||Testing the null hypothesis of 1 VASBI/year against a one-sided alternative at the 0.01 level of statistical significance.|Poisson|||||0.045||<0.0001
92245499|NCT03224585|184394091|SUPERIORITY|||||||0.0121|||||||Paired samples Wilcoxon test|||This analysis compared the change in pain scores between baseline and 6 hours||||0.0121
92245500|NCT03224585|184394092|SUPERIORITY|||||||0.0025|||||||Paired samples Wilcoxon test|||||||0.0025
92245501|NCT01921634|184394093|SUPERIORITY||Odds Ratio (OR)|1.3||||0.01|TWO_SIDED|95.0|1.1|1.7|||McNemar||The odds ratio was generated from a logistic regression model using generalized estimating equations with a logit link and represents a comparison of modified (numerator) vs standard (denominator).|||1.7|1.1|0.01
92245502|NCT00751179|184394094|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Significance level was set at 0.05.|ANOVA|||Treatment comparison was between the change from baseline in potassium level post-rocuronium dose versus post-succinylcholine dose, using a one way ANOVA model, with treatment as the term in the model.||||<0.0001
92245503|NCT00751179|184394095|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Significance level was set at 0.05.|ANOVA|||Treatment comparison was between the change from baseline in potassium level post-rocuronium dose versus post-succinylcholine dose, using a one way ANOVA model, with treatment as the term in the model.||||<0.0001
92245504|NCT00751179|184394097|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Significance level was set at 0.05.|ANOVA|||Treatment comparison was between the change from baseline in potassium level post-rocuronium dose versus post-succinylcholine dose, using a one way ANOVA model, with treatment as the term in the model.||||<0.0001
92245505|NCT00751179|184394099|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Significance level was set at 0.05.|ANOVA|||Treatment comparison was between the change from baseline in potassium level post-rocuronium dose versus post-succinylcholine dose, using a one way ANOVA model, with treatment as the term in the model.||||<0.0001
92245506|NCT05136170|184394149|SUPERIORITY|The following null hypothesis was defined on this endpoint: the proportion of patients reaching a value of Schirmer I test (without anaesthesia) \>10mm/5min at week 4 in cenegermin (rhNGF) was lower or equal than control. The null hypothesis was rejected if the associated primary analysis p-value was lower than 0.025.|Odds Ratio (OR)|8.498||||0.002|TWO_SIDED|95.0|2.165|33.356||P-value of treatment variable from logistic regression model on proportion of patients reaching a value of Schirmer I test (without anesthesia) \>10mm/5min|Regression, Logistic|||Analysis was based on logistic regression model with multiple imputation (MI) under a missing not at random (MNAR) mechanism using retrieve dropouts with proportion of patients reaching a value of Schirmer I test \> 10 mm/5 min at Week 4 as dependent variable, treatment, gender, age class and baseline Schirmer I test value as qualitative independent variables. Site was considered as random effects that vary randomly among patients.||33.356|2.165|0.002
92245507|NCT05136170|184394150|SUPERIORITY|The following null hypothesis is defined on this endpoint: the change from baseline (reduction) in the global SANDE score at week 12 in cenegermin is lower or equal than control. The null hypothesis is rejected if the associated primary analysis p-value is lower than 0.025.|Adjusted means difference|0.59||||0.89|TWO_SIDED|95.0|-7.801|8.981||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in the global SANDE score.|ANCOVA|||Analysis was based on ANCOVA model with multiple imputation (MI) under a missing not at random (MNAR) mechanism using retrieve dropouts with change from baseline in the global SANDE score at Week 12 as dependent variable, treatment, gender, age class and baseline global SANDE score as qualitative independent variables. Site was considered as random effects that vary randomly among patients.||8.981|-7.801|0.890
92245508|NCT05136170|184394151|SUPERIORITY|Analysis was based on logistic regression model with multiple imputation (MI) under missing not at random (MNAR) using retrieve dropouts with proportion of patients reaching a value of Schirmer I test \>10 mm/5 min at Week 8 as dependent variable, treatment, gender, age class and baseline Schirmer I test value as qualitative independent variables. Site was considered as random effects that vary randomly among patients.|Odds Ratio (OR)|6.648||||0.022|TWO_SIDED|95.0|1.307|33.808|||Regression, Logistic|||This key secondary endpoint was analyzed by means of a logistic regression model with proportion of patients reaching a value of Schirmer I test \>10mm/5min at Week 8 as dependent variable, treatment, gender, age class and baseline Schirmer I test value as fixed effects and site as random effect.||33.808|1.307|0.022
92245509|NCT05136170|184394152|SUPERIORITY||Adjusted means difference|0.221||||0.962|TWO_SIDED|95.0|-8.934|9.377||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in SANDE score for severity at Week 12.|ANCOVA|||Analysis was based on ANCOVA model with multiple imputation (MI) under missing not at random (MNAR) using retrieve dropouts with change from baseline in the severity SANDE score at Week 12 as dependent variable, treatment, gender, age class and baseline severity SANDE score as qualitative independent variables.Site was considered as random effects that vary randomly among patients.||9.377|-8.934|0.962
92245510|NCT05136170|184394153|SUPERIORITY||Adjusted means difference|0.164||||0.973|TWO_SIDED|95.0|-9.221|9.549||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in SANDE score for frequency at Week 12.|ANCOVA|||Analysis was based on ANCOVA model with multiple imputation (MI) under missing not at random (MNAR) using retrieve dropouts with change from baseline in the frequency SANDE score at Week 12 as dependent variable, treatment, gender, age class and baseline frequency SANDE score as qualitative independent variables. Site was considered as random effects that vary randomly among patients.||9.549|-9.221|0.973
92245511|NCT05136170|184394154|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|2.378||||0.52|TWO_SIDED|95.0|-4.869|9.625||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Daily Activities) at Week 4|Mixed Model for Repeated Measures|||QoL (Daily Activities) - Week 4||9.625|-4.869|0.52
92264882|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|-0.54|||<|0.001|TWO_SIDED|95.0|-0.75|-0.32|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Non-high Density Lipoproteins Cholesterol||-0.32|-0.75|<0.001
92174545|NCT03858634|184241458|SUPERIORITY||LS mean difference|-167.8|STANDARD_ERROR_OF_MEAN|76.58||0.1597|TWO_SIDED|80.0|-312.25|-23.45||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-23.45|-312.25|0.1597
92282040|NCT01249664|184467658|SUPERIORITY_OR_OTHER||CMH adjusted difference|27.0||||0.0075|TWO_SIDED|95.0|7.2|46.8|||Cochran-Mantel-Haenszel|||||46.8|7.2|0.0075
92245512|NCT05136170|184394154|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|7.11||||0.073|TWO_SIDED|95.0|-0.653|14.873||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Daily Activities) at Week 12.|Mixed Model for Repeated Measures|||QoL (Daily Activities) - Week 12||14.873|-0.653|0.073
92282041|NCT01249664|184467659|SUPERIORITY_OR_OTHER||CMH adjusted difference|42.7|||<|0.0001|TWO_SIDED|95.0|23.7|61.6|||Cochran-Mantel-Haenszel|||||61.6|23.7|<.0001
92282042|NCT01249664|184467660|SUPERIORITY_OR_OTHER||CMH adjusted difference|-6.5||||0.1478|TWO_SIDED|95.0|-15.2|2.3|||Cochran-Mantel-Haenszel|||||2.3|-15.2|0.1478
92282043|NCT01249664|184467661|SUPERIORITY_OR_OTHER||CMH adjusted difference|-25.8||||0.0006|TWO_SIDED|95.0|-40.6|-11.0|||Cochran-Mantel-Haenszel|||||-11.0|-40.6|0.0006
92282044|NCT01249664|184467662|SUPERIORITY_OR_OTHER||CMH adjusted difference|-32.2|||<|0.0001|TWO_SIDED|95.0|-48.1|-16.3|||Cochran-Mantel-Haenszel|||||-16.3|-48.1|<0.0001
92282045|NCT01249664|184467663|SUPERIORITY_OR_OTHER||CMH adjusted difference|-5.3||||0.2446|TWO_SIDED|95.0|-14.4|3.7|||Cochran-Mantel-Haenszel|||||3.7|-14.4|0.2446
92282046|NCT01249664|184467664|SUPERIORITY_OR_OTHER||CMH adjusted difference|-21.5||||0.0035|TWO_SIDED|95.0|-35.9|-7.0|||Cochran-Mantel-Haenszel|||||-7.0|-35.9|0.0035
92282047|NCT01249664|184467665|SUPERIORITY_OR_OTHER||CMH adjusted difference|-25.7||||0.0012|TWO_SIDED|95.0|-41.3|-10.1|||Cochran-Mantel-Haenszel|||||-10.1|-41.3|0.0012
92282048|NCT01249664|184467666|SUPERIORITY_OR_OTHER||Difference in least square means|-77.9|||<|0.0001|TWO_SIDED|95.0|-108.9|-46.9|||ANCOVA|||||-46.9|-108.9|<0.0001
92282049|NCT01249664|184467667|SUPERIORITY_OR_OTHER||Difference in least square means|-29.3||||0.065|TWO_SIDED|95.0|-60.4|1.8|||ANCOVA|||||1.8|-60.4|0.0650
92282050|NCT01249664|184467668|SUPERIORITY_OR_OTHER||Difference in least square means|-0.4808|||<|0.0001|TWO_SIDED|95.0|-0.599|-0.3626|||ANCOVA|||||-0.3626|-0.5990|<0.0001
92282051|NCT01249664|184467669|SUPERIORITY_OR_OTHER||Difference in least square means|-0.1346||||0.0256|TWO_SIDED|95.0|-0.2525|-0.0167|||ANCOVA|||||-0.0167|-0.2525|0.0256
92282052|NCT01249664|184467670|SUPERIORITY_OR_OTHER||Difference in least square means|-0.0045||||0.869|TWO_SIDED|95.0|-0.0579|0.049|||ANCOVA|||||0.0490|-0.0579|0.8690
92282053|NCT01249664|184467671|SUPERIORITY_OR_OTHER||Difference of least square means|5.21||||0.0104|TWO_SIDED|95.0|1.25|9.18|||ANCOVA|||||9.18|1.25|0.0104
92282054|NCT01249664|184467673|SUPERIORITY_OR_OTHER||Difference in least square means|-0.6648|||<|0.0001|TWO_SIDED|95.0|-0.8056|-0.5239|||ANCOVA|||||-0.5239|-0.8056|<0.0001
92282055|NCT02674334|184467719|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.16|STANDARD_ERROR_OF_MEAN|0.83||0.165|TWO_SIDED|95.0|-0.49|2.82||P-values were not adjusted for multiple inferences|ANOVA|Continuous responses were tested using RCB ANOVA.||||2.82|-.49|0.165
92282056|NCT00235456|184467730|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.61||||0.04|TWO_SIDED|95.0|0.38|0.98|||Chi-squared|||||0.98|0.38|0.04
92282057|NCT00235456|184467731|SUPERIORITY_OR_OTHER|||||||0.54|||||||t-test, 2 sided|||||||0.54
92282058|NCT00235456|184467732|SUPERIORITY_OR_OTHER|||||||0.28|||||||t-test, 2 sided|||||||0.28
92282059|NCT00235456|184467733|SUPERIORITY_OR_OTHER|||||||0.57|||||||t-test, 2 sided|||||||0.57
92282060|NCT00235456|184467734|SUPERIORITY_OR_OTHER|||||||0.71|||||||t-test, 2 sided|||||||0.71
92282061|NCT00235456|184467735|SUPERIORITY_OR_OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.09
92282062|NCT00860405|184467738|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a coefficient of variation of 0.363 and a desired power of 90 % with a type I level of 2.5 %, N=11 patients per treatment group were needed. The power was calculated by means of the software SAS, version 9.1.3, PROC POWER. Nevertheless, more patients were required for the assessment of safety, therefore 2 × 30 patients were planned to be included in this study.|Ratio of LS-means|0.98|||||TWO_SIDED|95.0|0.84|1.16||Null hypothesis tested by calculating a 2-sided 95% CI for ratio of LS-means μVoluven/μHSA based on ANOVA incl.treatment+centre as effects. If 95% CI was within equivalence range(0.55, 1.82), significant equivalence was concluded (Type I error: 2.5%)|ANOVA|Primary endpoint specified + analysed for PP and ITT population. Confirmatory analysis based on PP population only, no adjustment for multiplicity.|Considered ratio: μVoluven/μHSA = LS-mean of Voluven®/LS-mean of HSA 5%|The aim of the study was to prove equivalence, i.e. H0: μVoluven/μHSA ≤ 0.55 or μVoluven/μHSA ≥ 1.82 H1: 0.55 \< μVoluven/μHSA \< 1.82 where μVoluven was the mean infused volume of Voluven® and μHSA was the mean infused volume of HSA 5%.||1.16|0.84|
92282063|NCT00864097|184467747|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.2||0.039|TWO_SIDED|95.0|-0.81|-0.02|||ANCOVA|||LS means were estimated from the corresponding analysis of covariance (ANCOVA) model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.02|-0.81|0.039
92282064|NCT00864097|184467747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.2||0.011|TWO_SIDED|95.0|-0.91|-0.12|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.12|-0.91|0.011
92245513|NCT05136170|184394154|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|-4.166||||0.317|TWO_SIDED|95.0|-12.322|3.989||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Feelings) at Week 4.|Mixed Model for Repeated Measures|||QoL (Feelings) - Week 4||3.989|-12.322|0.317
92245514|NCT05136170|184394154|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixedmodel for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall"|LS means difference|1.058||||0.792|TWO_SIDED|95.0|-6.786|8.901||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Feelings) at Week 12.|Mixed Model for Repeated Measures|||QoL (Feelings) - Week 12||8.901|-6.786|0.792
92245515|NCT05136170|184394154|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM). Analyses included the fixed, categorical effects of treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall. Missing data will be imputed according to the questionnaire manuals"|LS means difference|-3.907||||0.488|TWO_SIDED|95.0|-14.948|7.135||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Work) at Week 4.|Mixed Model for Repeated Measures|||QoL (Work) - Week 4||7.135|-14.948|0.488
92264883|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|0.09||||0.005|TWO_SIDED|95.0|0.03|0.15|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|High Density Lipoproteins Cholesterol||0.15|0.03|0.005
92264884|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|0.11|||<|0.001|TWO_SIDED|95.0|0.05|0.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|High Density Lipoproteins Cholesterol||0.17|0.05|<0.001
92174546|NCT03858634|184241458|SUPERIORITY||LS mean difference|-27.1|STANDARD_ERROR_OF_MEAN|16.27||0.1138|TWO_SIDED|80.0|-48.81|-5.43||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-5.43|-48.81|0.1138
92174547|NCT03858634|184241458|SUPERIORITY||LS mean difference|-62.0|STANDARD_ERROR_OF_MEAN|24.93||0.0888|TWO_SIDED|80.0|-102.78|-21.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-21.13|-102.78|0.0888
92174548|NCT03858634|184241458|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|18.19||0.9741|TWO_SIDED|80.0|-24.79|23.6||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||23.60|-24.79|0.9741
92174549|NCT03858634|184241458|SUPERIORITY||LS mean difference|-159.2|STANDARD_ERROR_OF_MEAN|65.42||0.1354|TWO_SIDED|80.0|-282.59|-35.87||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-35.87|-282.59|0.1354
92174550|NCT03858634|184241458|SUPERIORITY||LS mean difference|-26.5|STANDARD_ERROR_OF_MEAN|17.21||0.1425|TWO_SIDED|80.0|-49.41|-3.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-3.52|-49.41|0.1425
92174551|NCT03858634|184241458|SUPERIORITY||LS mean difference|-54.6|STANDARD_ERROR_OF_MEAN|26.61||0.1326|TWO_SIDED|80.0|-98.18|-11.01||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-11.01|-98.18|0.1326
92174552|NCT03858634|184241458|OTHER||LS mean difference|-4.2|STANDARD_ERROR_OF_MEAN|20.87||0.8433|TWO_SIDED|80.0|-31.95|23.58||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||23.58|-31.95|0.8433
92245516|NCT05136170|184394154|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|-0.284||||0.954|TWO_SIDED|95.0|-9.998|9.431||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Work) at Week 12.|Mixed Model for Repeated Measures|||QoL (Work) - Week 12||9.431|-9.998|0.954
92264885|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|-0.18|||<|0.001|TWO_SIDED|95.0|-0.26|-0.11|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Very Low Density Lipoproteins Cholesterol||-0.11|-0.26|<0.001
92264886|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|-0.17|||<|0.001|TWO_SIDED|95.0|-0.25|-0.09|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Very Low Density Lipoproteins Cholesterol||-0.09|-0.25|<0.001
92174553|NCT03858634|184241458|SUPERIORITY||LS mean difference|-130.8|STANDARD_ERROR_OF_MEAN|38.5||0.0768|TWO_SIDED|80.0|-203.39|-58.19||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-58.19|-203.39|0.0768
92174554|NCT03858634|184241458|SUPERIORITY||LS mean difference|-18.6|STANDARD_ERROR_OF_MEAN|18.69||0.3341|TWO_SIDED|80.0|-43.49|6.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||6.34|-43.49|0.3341
92174555|NCT03858634|184241460|SUPERIORITY||LS mean difference|-40.9|STANDARD_ERROR_OF_MEAN|40.82||0.4995|TWO_SIDED|80.0|-166.52|84.74||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||84.74|-166.52|0.4995
92174556|NCT03858634|184241460|SUPERIORITY||LS mean difference|-3.7|STANDARD_ERROR_OF_MEAN|9.59||0.7071|TWO_SIDED|80.0|-16.37|9.06||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||9.06|-16.37|0.7071
92174557|NCT03858634|184241460|SUPERIORITY||LS mean difference|-52.5|STANDARD_ERROR_OF_MEAN|9.39||0.0305|TWO_SIDED|80.0|-70.18|-34.77||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||-34.77|-70.18|0.0305
92174558|NCT03858634|184241460|SUPERIORITY||LS mean difference|-6.6|STANDARD_ERROR_OF_MEAN|9.33||0.4884|TWO_SIDED|80.0|-19.01|5.81||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||5.81|-19.01|0.4884
92174559|NCT03858634|184241460|SUPERIORITY||LS mean difference|-45.3|STANDARD_ERROR_OF_MEAN|31.63||0.2885|TWO_SIDED|80.0|-104.93|14.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||14.35|-104.93|0.2885
92174560|NCT03858634|184241460|SUPERIORITY||LS mean difference|5.2|STANDARD_ERROR_OF_MEAN|11.24||0.6505|TWO_SIDED|80.0|-9.73|20.06||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||20.06|-9.73|0.6505
92174561|NCT03858634|184241460|SUPERIORITY||LS mean difference|-72.1|STANDARD_ERROR_OF_MEAN|5.72||0.0062|TWO_SIDED|80.0|-82.91|-61.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-61.34|-82.91|0.0062
92174562|NCT03858634|184241460|SUPERIORITY||LS mean difference|-19.6|STANDARD_ERROR_OF_MEAN|9.62||0.0571|TWO_SIDED|80.0|-32.34|-6.76||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-6.76|-32.34|0.0571
92174563|NCT03858634|184241460|SUPERIORITY||LS mean difference|-50.1|STANDARD_ERROR_OF_MEAN|0.0|||TWO_SIDED|||||||||Change at Week 6||||
92264887|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|-0.2||||0.031|TWO_SIDED|95.0|-0.38|-0.02|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Low Density Lipoproteins Cholesterol||-0.02|-0.38|0.031
92264888|NCT01694849|184431202|SUPERIORITY||Difference in least square mean change|-0.24||||0.009|TWO_SIDED|95.0|-0.42|-0.06|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Low Density Lipoproteins Cholesterol||-0.06|-0.42|0.009
92264889|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|5.73||||0.038|TWO_SIDED|95.0|0.31|11.14|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo A1||11.14|0.31|0.038
92174564|NCT03858634|184241460|SUPERIORITY||LS mean difference|-4.3|STANDARD_ERROR_OF_MEAN|10.65||0.6927|TWO_SIDED|80.0|-18.38|9.84||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||9.84|-18.38|0.6927
92174565|NCT03858634|184241460|SUPERIORITY||LS mean difference|-65.6|STANDARD_ERROR_OF_MEAN|4.08||0.0038|TWO_SIDED|80.0|-73.33|-57.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-57.94|-73.33|0.0038
92282065|NCT00864097|184467747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.2||0.005|TWO_SIDED|95.0|-0.97|-0.17|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.17|-0.97|0.005
92174566|NCT03858634|184241460|SUPERIORITY||LS mean difference|-17.4|STANDARD_ERROR_OF_MEAN|9.82||0.094|TWO_SIDED|80.0|-30.43|-4.3||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-4.30|-30.43|0.0940
92174567|NCT03858634|184241460|SUPERIORITY||LS mean difference|-72.4|STANDARD_ERROR_OF_MEAN|19.73||0.1694|TWO_SIDED|80.0|-133.1|-11.65||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-11.65|-133.10|0.1694
92174568|NCT03858634|184241460|SUPERIORITY||LS mean difference|2.8|STANDARD_ERROR_OF_MEAN|10.07||0.7811|TWO_SIDED|80.0|-10.5|16.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||16.18|-10.50|0.7811
92282066|NCT00864097|184467748|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.2||0.01|TWO_SIDED|95.0|-0.91|-0.12|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.12|-0.91|0.010
92245517|NCT05136170|184394154|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEl module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|-0.049||||0.99|TWO_SIDED|95.0|-7.658|7.559||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL DE Treatment Satisfaction \& Bother module (Satisfaction with Treatment Effectiveness) at Week 4.|Mixed Model for Repeated Measures|||TS (Treatment - in general) - Week 4||7.559|-7.658|0.99
92264890|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|7.07||||0.012|TWO_SIDED|95.0|1.59|12.55|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo A1||12.55|1.59|0.012
92264891|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-12.41|||<|0.001|TWO_SIDED|95.0|-17.56|-7.25|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo B||-7.25|-17.56|<0.001
92264892|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-9.61|||<|0.001|TWO_SIDED|95.0|-14.81|-4.41|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo B||-4.41|-14.81|<0.001
92264893|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|3.55|||<|0.001|TWO_SIDED|95.0|2.14|4.96|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo AII||4.96|2.14|<0.001
92264894|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|6.1|||<|0.001|TWO_SIDED|95.0|4.67|7.53|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo AII||7.53|4.67|<0.001
92264895|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-2.27|||<|0.001|TWO_SIDED|95.0|-3.29|-1.25|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII||-1.25|-3.29|<0.001
92264896|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-1.5||||0.004|TWO_SIDED|95.0|-2.52|-0.49|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII||-0.49|-2.52|0.004
92245518|NCT05136170|184394154|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM)adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|1.976||||0.582|TWO_SIDED|95.0|-5.065|9.017||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL DE Treatment Satisfaction \& Bother module (Satisfaction with Treatment Effectiveness) at Week 12.|Mixed Model for Repeated Measures|||TS (Treatment - in general) - Week 12||9.017|-5.065|0.582
92245519|NCT05136170|184394154|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|5.232||||0.125|TWO_SIDED|95.0|-1.457|11.922||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL DE Symptom Bother Module at Week 4.|Mixed Model for Repeated Measures|||Symptom - Bother - Week 4||11.922|-1.457|0.125
92264897|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-1.78|||<|0.001|TWO_SIDED|95.0|-2.63|-0.92|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII/B||-0.92|-2.63|<0.001
92245520|NCT05136170|184394154|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|-0.156||||0.964|TWO_SIDED|95.0|-6.912|6.6||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL DE Symptom Bother Module at Week 12.|Mixed Model for Repeated Measures|||Symptom - Bother - Week 12||6.6|-6.912|0.964
92245521|NCT05136170|184394155|SUPERIORITY||LS means difference|0.795||||0.102|TWO_SIDED|95.0|-0.157|1.748||P-value of LS means difference between treatments from the MMRM on change from baseline at Week 4.|Mixed Model for Repeated Measures|||"Analysis was based on MMRM with Multiple Imputation under missing not at random using retrieve dropouts with change from baseline in TFBUT at each timepoint adjusting by gender, age class, TFBUT scale baseline value, treatment, visit, and treatment by visit interaction. Patient was considered as a random effect and the covariance matrix used was unstructured.~Herein analysis for Week 4 was reported."||1.748|-0.157|0.102
92245522|NCT05136170|184394155|SUPERIORITY||LS means difference|-0.051||||0.923|TWO_SIDED|95.0|-1.094|0.991||P-value of LS means difference between treatments from the MMRM on change from baseline at Week 8.|Mixed Model for Repeated Measures|||"Analysis was based on MMRM with Multiple Imputation under missing not at random using retrieve dropouts with change from baseline in TFBUT at each timepoint adjusting by gender, age class, TFBUT scale baseline value, treatment, visit, and treatment by visit interaction. Patient was considered as a random effect and the covariance matrix used was unstructured.~Herein analysis for Week 8 was reported."||0.991|-1.094|0.923
92282067|NCT00864097|184467748|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.2||0.002|TWO_SIDED|95.0|-1.03|-0.23|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.23|-1.03|0.002
92245523|NCT05136170|184394155|SUPERIORITY||LS means difference|0.136||||0.787|TWO_SIDED|95.0|-0.849|1.12||P-value of LS means difference between treatments from the MMRM on change from baseline at Week 12|Mixed Model for Repeated Measures|||"Analysis was based on MMRM with Multiple Imputation under missing not at random using retrieve dropouts with change from baseline in TFBUT at each timepoint adjusting by gender, age class, TFBUT scale baseline value, treatment, visit, and treatment by visit interaction. Patient was considered as a random effect and the covariance matrix used was unstructured.~Herein analysis for Week 12 was reported."||1.12|-0.849|0.787
92245524|NCT05136170|184394156|SUPERIORITY||||||<|0.001||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 4 (Visit 3) was reported.||||<0.001
92174569|NCT03858634|184241460|SUPERIORITY||LS mean difference|-68.2|STANDARD_ERROR_OF_MEAN|2.28||0.0011|TWO_SIDED|80.0|-72.51|-63.91||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-63.91|-72.51|0.0011
92245525|NCT05136170|184394156|SUPERIORITY||||||<|0.001||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 8 (Visit 4) was reported.||||<0.001
92245526|NCT05136170|184394156|SUPERIORITY|||||||0.014||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 12 (Visit 5) was reported.||||0.014
92245527|NCT05136170|184394156|SUPERIORITY|||||||0.095||||||Not statistically significant result. p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 16 (Visit 6) was reported.||||0.095
92245528|NCT05136170|184394157|SUPERIORITY|||||||0.02||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 4 (Visit 3) was reported.||||0.02
92245529|NCT05136170|184394157|SUPERIORITY|||||||0.328||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 8 (Visit 4) was reported.||||0.328
92245530|NCT05136170|184394157|SUPERIORITY|||||||0.287||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 12 (Visit 5) was reported.||||0.287
92245531|NCT05136170|184394157|SUPERIORITY|||||||0.777||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 16 (Visit 6) was reported.||||0.777
92245532|NCT05136170|184394158|SUPERIORITY|||||||0.126||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 4 (Visit 3) was reported.||||0.126
92245533|NCT05136170|184394158|SUPERIORITY|||||||0.968||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Week 8 (Visit 4) was reported.||||0.968
92245534|NCT05136170|184394158|SUPERIORITY|||||||0.613||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Week 12 (Visit 5) was reported.||||0.613
92245535|NCT05136170|184394158|SUPERIORITY|||||||0.805||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Week 16 (Visit 6) was reported.||||0.805
92245536|NCT05136170|184394159|SUPERIORITY|||||||0.543||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Global score - Week 8 (Visit 4) was reported.||||0.543
92245537|NCT05136170|184394159|SUPERIORITY|||||||0.677||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Global score - Week 12 (Visit 5) was reported.||||0.677
92245538|NCT05136170|184394159|SUPERIORITY|||||||0.914||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Global score - Week 16 (Visit 6) was reported.||||0.914
92245539|NCT05136170|184394159|SUPERIORITY|||||||0.874||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Severity - Week 8 (Visit 4) was reported.||||0.874
92245540|NCT05136170|184394159|SUPERIORITY|||||||0.945||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Severity - Week 12 (Visit 5) was reported.||||0.945
92245541|NCT05136170|184394159|SUPERIORITY|||||||0.727||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Severity - Week 16 (Visit 6) was reported.||||0.727
92245542|NCT05136170|184394159|SUPERIORITY|||||||0.342||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Frequency - Week 8 (Visit 4) was reported.||||0.342
92245543|NCT05136170|184394159|SUPERIORITY|||||||0.821||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Frequency - Week 12 (Visit 5) was reported.||||0.821
92245544|NCT05136170|184394159|SUPERIORITY|||||||0.926||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Frequency - Week 16 (Visit 6) was reported.||||0.926
92245545|NCT05136170|184394160|SUPERIORITY|||||||0.0344||||||p-value corresponds to Chi-square test of the comparisons between Cenegermin and Vehicle in all patients.|Chi-squared|||Herein analysis for Worsening in symptom scores (SANDE global score) - Week 4 (Visit 3) was reported.||||0.0344
92245546|NCT05136170|184394160|SUPERIORITY|||||||1||||||p-value corresponds to a Fisher's exact test of the comparisons between Cenegermin and Vehicle in all patients.|Fisher Exact|||Herein analysis for NEI score \>= 50% - Week 4 (Visit 3) was reported.||||1
92282068|NCT00864097|184467748|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.1|-0.3|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.30|-1.10|<0.001
92174570|NCT03858634|184241460|SUPERIORITY||LS mean difference|-23.4|STANDARD_ERROR_OF_MEAN|9.52||0.0245|TWO_SIDED|80.0|-36.02|-10.7||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-10.70|-36.02|0.0245
92245547|NCT05136170|184394160|SUPERIORITY|||||||0.0235||||||p-value corresponds to Chi-square test of the comparisons between Cenegermin and Vehicle in all patients.|Chi-squared|||Herein analysis for Worsening in symptom scores and/or NEI score \>= 50 - Week 4 (Visit 3) was reported.||||0.0235
92245548|NCT05136170|184394161|SUPERIORITY|||||||0.888||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for QoL (Impact on Daily Activities) - Week 4 (Visit 3) was reported.||||0.888
92282069|NCT00864097|184467749|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.08||0.022|TWO_SIDED|95.0|-0.32|-0.03|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.03|-0.32|0.022
92282070|NCT00864097|184467749|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.02|TWO_SIDED|95.0|-0.33|-0.03|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.03|-0.33|0.020
92282071|NCT00864097|184467749|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.002|TWO_SIDED|95.0|-0.4|-0.09|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.09|-0.40|0.002
92282072|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.957|TWO_SIDED|95.0|-0.32|0.34|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.34|-0.32|0.957
92245549|NCT05136170|184394161|SUPERIORITY|||||||0.651||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for QoL (Impact on Daily Activities) - Week 8 (Visit 4) was reported.||||0.651
92245550|NCT05136170|184394161|SUPERIORITY|||||||0.267||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Daily Activities) - Week 12 (Visit 5) was reported.||||0.267
92245551|NCT05136170|184394161|SUPERIORITY|||||||0.459||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Daily Activities) - Week 16 (Visit 6) was reported.||||0.459
92245552|NCT05136170|184394161|SUPERIORITY|||||||0.192||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for QoL (Emotional Impact due to Dry Eye) - Week 4 was reported.||||0.192
92245553|NCT05136170|184394161|SUPERIORITY|||||||0.568||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for QoL (Emotional Impact due to Dry Eye) - Week 8 was reported.||||0.568
92245554|NCT05136170|184394161|SUPERIORITY|||||||0.871||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Emotional Impact due to Dry Eye) - Week 12 was reported.||||0.871
92245555|NCT05136170|184394161|SUPERIORITY|||||||0.85||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for QoL (Emotional Impact due to Dry Eye) - Week 16 was reported.||||0.85
92282073|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.17||0.899|TWO_SIDED|95.0|-0.31|0.35|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.35|-0.31|0.899
92282074|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.17||0.022|TWO_SIDED|95.0|0.06|0.72|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.72|0.06|0.022
92245556|NCT05136170|184394161|SUPERIORITY|||||||0.364||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Work due to Dry Eye) - Week 4 was reported.||||0.364
92174571|NCT03858634|184241460|SUPERIORITY||LS mean difference|-61.8|STANDARD_ERROR_OF_MEAN|5.87||0.0603|TWO_SIDED|80.0|-79.88|-43.74||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-43.74|-79.88|0.0603
92245557|NCT05136170|184394161|SUPERIORITY|||||||0.646||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Work due to Dry Eye) - Week 8 was reported.||||0.646
92245558|NCT05136170|184394161|SUPERIORITY|||||||0.739||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Work due to Dry Eye) - Week 12 was reported.||||0.739
92245559|NCT05136170|184394161|SUPERIORITY|||||||0.664||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Work due to Dry Eye) - Week 16 was reported.||||0.664
92245560|NCT05136170|184394161|SUPERIORITY|||||||0.846||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for TS (Satisfaction with Effectiveness) - Week 4 was reported.||||0.846
92245561|NCT05136170|184394161|SUPERIORITY|||||||0.248||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for TS (Satisfaction with Effectiveness) - Week 8 was reported.||||0.248
92174572|NCT03858634|184241460|SUPERIORITY||LS mean difference|7.9|STANDARD_ERROR_OF_MEAN|9.89||0.4365|TWO_SIDED|80.0|-5.29|21.04||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||21.04|-5.29|0.4365
92174573|NCT03858634|184241460|SUPERIORITY||LS mean difference|-68.7|STANDARD_ERROR_OF_MEAN|10.3||0.0218|TWO_SIDED|80.0|-88.11|-49.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-49.26|-88.11|0.0218
92174574|NCT03858634|184241460|SUPERIORITY||LS mean difference|-19.5|STANDARD_ERROR_OF_MEAN|12.07||0.1238|TWO_SIDED|80.0|-35.65|-3.45||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-3.45|-35.65|0.1238
92174575|NCT03858634|184241460|SUPERIORITY||LS mean difference|-54.8|STANDARD_ERROR_OF_MEAN|23.38||0.1437|TWO_SIDED|80.0|-98.88|-10.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-10.72|-98.88|0.1437
92174576|NCT03858634|184241460|SUPERIORITY||LS mean difference|0.9|STANDARD_ERROR_OF_MEAN|10.14||0.9279|TWO_SIDED|80.0|-12.56|14.43||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||14.43|-12.56|0.9279
92174577|NCT03858634|184241460|SUPERIORITY||LS mean difference|-59.5|STANDARD_ERROR_OF_MEAN|9.67||0.0254|TWO_SIDED|80.0|-77.69|-41.24||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-41.24|-77.69|0.0254
92245562|NCT05136170|184394161|SUPERIORITY|||||||0.341||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for TS (Satisfaction with Effectiveness) - Week 12 was reported.||||0.341
92174578|NCT03858634|184241460|SUPERIORITY||LS mean difference|-18.8|STANDARD_ERROR_OF_MEAN|10.8||0.0994|TWO_SIDED|80.0|-33.23|-4.43||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-4.43|-33.23|0.0994
92174579|NCT03858634|184241460|SUPERIORITY||LS mean difference|-45.7|STANDARD_ERROR_OF_MEAN|39.36||0.3656|TWO_SIDED|80.0|-119.9|28.54||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||28.54|-119.90|0.3656
92174580|NCT03858634|184241460|SUPERIORITY||LS mean difference|-2.9|STANDARD_ERROR_OF_MEAN|8.92||0.7465|TWO_SIDED|80.0|-14.79|8.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||8.94|-14.79|0.7465
92174581|NCT03858634|184241460|SUPERIORITY||LS mean difference|-82.3|STANDARD_ERROR_OF_MEAN|10.3||0.0153|TWO_SIDED|80.0|-101.75|-62.9||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-62.90|-101.75|0.0153
92245563|NCT05136170|184394161|SUPERIORITY|||||||0.413||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients|t-test, 2 sided|||Herein analysis for TS (Satisfaction with Effectiveness) - Week 16 was reported.||||0.413
92245564|NCT05136170|184394161|SUPERIORITY|||||||0.927||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for TS (Treatment Bother/Inconvenience) - Week 4 was reported.||||0.927
92245565|NCT05136170|184394161|SUPERIORITY|||||||0.914||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for TS (Treatment Bother/Inconvenience) - Week 8 was reported.||||0.914
92245566|NCT05136170|184394161|SUPERIORITY|||||||0.564||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for TS (Treatment Bother/Inconvenience) - Week 12 was reported.||||0.564
92245567|NCT05136170|184394161|SUPERIORITY|||||||0.489||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for TS (Treatment Bother/Inconvenience) - Week 16 was reported.||||0.489
92245568|NCT05136170|184394161|SUPERIORITY|||||||0.082||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Symptom-Bother - Week 4||||0.082
92245569|NCT05136170|184394161|SUPERIORITY|||||||0.848||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Symptom-Bother - Week 8 was reported.||||0.848
92245570|NCT05136170|184394161|SUPERIORITY|||||||0.805||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Symptom-Bother - Week 12 was reported.||||0.805
92245571|NCT05136170|184394161|SUPERIORITY|||||||0.833||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Symptom-Bother - Week 16 was reported.||||0.833
92245572|NCT05136170|184394164|SUPERIORITY||||||<|0.001||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||||||<0.001
92245573|NCT05136170|184394165|SUPERIORITY|||||||0.046||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||||||0.046
92245574|NCT05136170|184394166|SUPERIORITY|||||||0.34||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||||||0.34
92245575|NCT05136170|184394167|SUPERIORITY|||||||0.017||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Global Score - Week 2 was reported||||0.017
92245576|NCT05136170|184394167|SUPERIORITY|||||||0.339||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Global Score - Week 4 was reported||||0.339
92245577|NCT05136170|184394167|SUPERIORITY|||||||0.004||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Severity - Week 2 was reported.||||0.004
92245578|NCT05136170|184394167|SUPERIORITY|||||||0.292||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Severity - Week 4 was reported.||||0.292
92245579|NCT05136170|184394167|SUPERIORITY|||||||0.09||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Frequency - Week 2 was reported.||||0.09
92245580|NCT05136170|184394167|SUPERIORITY|||||||0.54||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Frequency - Week 4 was reported.||||0.54
92245581|NCT05136170|184394168|SUPERIORITY|||||||0.0064||||||p-value corresponds to Chi-square test of the comparisons between Cenegermin and Vehicle in all patients.|Chi-squared|||Herein analysis for Worsening in symptom scores (SANDE global score) was reported.||||0.0064
92245582|NCT05136170|184394168|SUPERIORITY|||||||1||||||p-value corresponds to a Fisher's exact test of the comparisons between Cenegermin and Vehicle in all patients.|Fisher Exact|||Herein analysis for NEI score \>= 50% was reported.||||1
92245583|NCT05136170|184394168|SUPERIORITY|||||||0.0034||||||p-value corresponds to Chi-square test of the comparisons between Cenegermin and Vehicle in all patients.|Chi-squared|||Herein analysis for Worsening in symptom scores and/or NEI score \>= 50 was reported.||||0.0034
92245584|NCT05136170|184394169|SUPERIORITY||||||<|0.001||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||||||<0.001
92282075|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.18||0.052|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.00|-0.70|0.052
92174582|NCT03858634|184241460|SUPERIORITY||LS mean difference|-16.6|STANDARD_ERROR_OF_MEAN|12.97||0.2184|TWO_SIDED|80.0|-33.88|0.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||0.72|-33.88|0.2184
92174583|NCT03858634|184241460|SUPERIORITY||LS mean difference|-8.1|STANDARD_ERROR_OF_MEAN|25.78||0.7726|TWO_SIDED|80.0|-50.37|34.07||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||34.07|-50.37|0.7726
92282076|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.05|-0.34|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.34|-1.05|<0.001
92282077|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.18||0.008|TWO_SIDED|95.0|-0.84|-0.13|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.13|-0.84|0.008
92282078|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.19||0.058|TWO_SIDED|95.0|-0.72|0.01|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.01|-0.72|0.058
92282079|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.05|-0.32|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.32|-1.05|<0.001
92245585|NCT04069156|184394182|NON_INFERIORITY|The primary end point assessing non-inferiority of placebo was considered met if the lower boundary of the one-sided 97.5% confidence limit of the difference in the composite success rate between treatment arms (placebo minus aspirin) was greater than the non-inferiority margin (-10%) by the Farrington-Manning test at 12-months in the principal analysis population.|Risk Difference (RD)|6.0|||<|0.0001|ONE_SIDED|97.5|-1.6||||Farrington-Manning risk difference||||||-1.6|<0.0001
92245586|NCT05822830|184394205|SUPERIORITY||LS Mean Difference|-6.5|||||TWO_SIDED|95.0|-8.1|-4.9||||||||-4.9|-8.1|
92245587|NCT05822830|184394210|SUPERIORITY||LS Mean Difference|-5.4|||||TWO_SIDED|95.0|-7.1|-3.6||||||||-3.6|-7.1|
92245588|NCT05822830|184394212|SUPERIORITY||LS Mean Difference|-2.6|||||TWO_SIDED|95.0|-3.2|-1.9||||||||-1.9|-3.2|
92245589|NCT05822830|184394213|SUPERIORITY||LS Mean Difference|-6.4|||||TWO_SIDED|95.0|-8.0|-4.7||||||||-4.7|-8.0|
92245590|NCT04124042|184394214|SUPERIORITY||Odds Ratio (OR)|0.655|||||TWO_SIDED|95.0|0.347|1.237||||||||1.237|0.347|
92245591|NCT04124042|184394214|SUPERIORITY||Odds Ratio (OR)|0.714|||||TWO_SIDED|95.0|0.381|1.336||||||||1.336|0.381|
92245592|NCT04124042|184394215|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.539||0.413|TWO_SIDED|95.0|-0.62|1.5|||Mixed Models Analysis|||||1.50|-0.62|0.413
92245593|NCT04124042|184394215|SUPERIORITY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.535||0.629|TWO_SIDED|95.0|-0.79|1.31|||Mixed Models Analysis|||||1.31|-0.79|0.629
92282080|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.12|-0.38|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.38|-1.12|<0.001
92282081|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.19||0.007|TWO_SIDED|95.0|-0.91|-0.15|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.15|-0.91|0.007
92282082|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.18|-0.41|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.41|-1.18|<0.001
92174584|NCT03858634|184241460|SUPERIORITY||LS mean difference|-9.2|STANDARD_ERROR_OF_MEAN|12.66||0.476|TWO_SIDED|80.0|-26.07|7.63||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||7.63|-26.07|0.4760
92174585|NCT03858634|184241460|SUPERIORITY||LS mean difference|-82.1|STANDARD_ERROR_OF_MEAN|9.12||0.0121|TWO_SIDED|80.0|-99.26|-64.87||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-64.87|-99.26|0.0121
92174586|NCT03858634|184241460|SUPERIORITY||LS mean difference|-13.0|STANDARD_ERROR_OF_MEAN|13.06||0.3329|TWO_SIDED|80.0|-30.43|4.4||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||4.40|-30.43|0.3329
92174587|NCT03858634|184241460|SUPERIORITY||LS mean difference|-1.7|STANDARD_ERROR_OF_MEAN|28.46||0.9564|TWO_SIDED|80.0|-48.31|44.92||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||44.92|-48.31|0.9564
92245594|NCT04124042|184394220|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.1374|TWO_SIDED|95.0|-0.16|1.16|||Mixed Models Analysis|||||1.16|-0.16|0.1374
92245595|NCT04124042|184394220|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.2807|TWO_SIDED|95.0|-0.29|1.0|||Mixed Models Analysis|||||1.00|-0.29|0.2807
92245596|NCT04124042|184394221|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.142||0.346|TWO_SIDED|95.0|-0.14|0.41|||Mixed Models Analysis|||||0.41|-0.14|0.346
92174588|NCT03858634|184241460|SUPERIORITY||LS mean difference|-7.9|STANDARD_ERROR_OF_MEAN|13.49||0.5661|TWO_SIDED|80.0|-25.84|10.06||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||10.06|-25.84|0.5661
92174589|NCT03858634|184241460|SUPERIORITY||LS mean difference|-82.1|STANDARD_ERROR_OF_MEAN|9.12||0.0121|TWO_SIDED|80.0|-99.26|-64.87||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-64.87|-99.26|0.0121
92174590|NCT03858634|184241460|SUPERIORITY||LS mean difference|-11.1|STANDARD_ERROR_OF_MEAN|13.7||0.4275|TWO_SIDED|80.0|-29.4|7.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||7.13|-29.40|0.4275
92245597|NCT04124042|184394221|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.14||0.968|TWO_SIDED|95.0|-0.27|0.28|||Mixed Models Analysis|||||0.28|-0.27|0.968
92245598|NCT04124042|184394223|SUPERIORITY||Mean Difference (Final Values)|-2.83||||0.0081|TWO_SIDED|95.0|-4.91|-0.75|||Mixed Models Analysis|||Outcome measure #10 is an analysis of 2 tx groups (two doses of 0.45 mg/ml vs. a single dose of 0.45 mg/ml), whereas outcome measure #12 is all 6 tx groups. A MMRM model was used. LS Means in an MMRM model are influenced by the overall mean structure and covariance estimation. When fewer treatment groups are included, the model adjusts based on a different subset of data, leading to potential shifts in estimated LS Means due to changes in the reference population/covariance structure.||-0.75|-4.91|0.0081
92264898|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-1.15||||0.009|TWO_SIDED|95.0|-2.0|-0.29|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII/B||-0.29|-2|0.009
92245599|NCT04124042|184394224|SUPERIORITY||Mean Difference (Final Values)|-9.6||||0.0101|TWO_SIDED|95.0|-16.85|-2.34|||Mixed Models Analysis|||Outcome measure #11 is an analysis of 2 tx groups (two doses of 0.45 mg/ml vs. a single dose of 0.45 mg/ml), whereas outcome measure #13 is all 6 tx groups. A MMRM model was used. LS Means in an MMRM model are influenced by the overall mean structure and covariance estimation. When fewer treatment groups are included, the model adjusts based on a different subset of data, leading to potential shifts in estimated LS Means due to changes in the reference population/covariance structure.||-2.34|-16.85|0.0101
92245600|NCT05388656|184394227|OTHER|||||||0.09|||||||Mixed Models Analysis|||||||0.09
92245601|NCT05388656|184394228|OTHER|||||||0.0018|||||||Mixed Models Analysis|||||||0.0018
92245602|NCT05388656|184394229|OTHER|||||||0.0108|||||||Mixed Models Analysis|||||||0.0108
92245603|NCT03201965|184394230|SUPERIORITY||Odds Ratio (OR)|5.13|||<|0.0001|TWO_SIDED|95.0|3.22|8.16|||Cochran-Mantel-Haenszel|||||8.16|3.22|<0.0001
92245604|NCT05441592|184394264|SUPERIORITY|||||||0.486|||||||Fisher Exact|||||||0.486
92245605|NCT05441592|184394266|SUPERIORITY|||||||0.234|||||||Fisher Exact|||||||0.234
92245606|NCT01021852|184394267|SUPERIORITY_OR_OTHER||Difference in LS Means|8.4|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|5.3|11.5|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||11.5|5.3|<0.001
92245607|NCT01021852|184394267|SUPERIORITY_OR_OTHER||Difference in LS Means|9.9|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|6.8|13.1|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||13.1|6.8|<0.001
92264899|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-0.46||||0.002|TWO_SIDED|95.0|-0.75|-0.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII/nonB||-0.17|-0.75|0.002
92245608|NCT01021852|184394267|SUPERIORITY_OR_OTHER||Difference in LS Means|10.7|STANDARD_ERROR_OF_MEAN|1.57|<|0.001|TWO_SIDED|95.0|7.7|13.8|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||13.8|7.7|<0.001
92245609|NCT01021852|184394267|SUPERIORITY_OR_OTHER||Difference in LS Means|13.4|STANDARD_ERROR_OF_MEAN|1.57|<|0.001|TWO_SIDED|95.0|10.3|16.5|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||16.5|10.3|<0.001
92264900|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-0.39||||0.008|TWO_SIDED|95.0|-0.68|-0.1|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII/nonB||-0.1|-0.68|0.008
92174591|NCT03858634|184241465|SUPERIORITY||LS mean difference|-27.9|STANDARD_ERROR_OF_MEAN|40.54||0.5403|TWO_SIDED|80.0|-94.32|38.46||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||38.46|-94.32|0.5403
92174592|NCT03858634|184241465|SUPERIORITY||LS mean difference|376.1|STANDARD_ERROR_OF_MEAN|631.83||0.5587|TWO_SIDED|80.0|-462.83|1214.97||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||1214.97|-462.83|0.5587
92174593|NCT03858634|184241465|SUPERIORITY||LS mean difference|-67.7|STANDARD_ERROR_OF_MEAN|72.99||0.4516|TWO_SIDED|80.0|-205.33|69.93||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||69.93|-205.33|0.4516
92174594|NCT03858634|184241465|SUPERIORITY||LS mean difference|-12.5|STANDARD_ERROR_OF_MEAN|9.5||0.2052|TWO_SIDED|80.0|-25.13|0.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||0.15|-25.13|0.2052
92174595|NCT03858634|184241465|SUPERIORITY||LS mean difference|-59.4|STANDARD_ERROR_OF_MEAN|38.89||0.224|TWO_SIDED|80.0|-123.09|4.28||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||4.28|-123.09|0.2240
92174596|NCT03858634|184241465|SUPERIORITY||LS mean difference|39.5|STANDARD_ERROR_OF_MEAN|48.33||0.4242|TWO_SIDED|80.0|-24.7|103.65||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||103.65|-24.70|0.4242
92174597|NCT03858634|184241465|SUPERIORITY||LS mean difference|-77.2|STANDARD_ERROR_OF_MEAN|78.61||0.4295|TWO_SIDED|80.0|-225.44|71.01||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||71.01|-225.44|0.4295
92174598|NCT03858634|184241465|SUPERIORITY||LS mean difference|-18.7|STANDARD_ERROR_OF_MEAN|14.97||0.2272|TWO_SIDED|80.0|-38.64|1.2||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||1.20|-38.64|0.2272
92174599|NCT03858634|184241465|SUPERIORITY||LS mean difference|-55.1|STANDARD_ERROR_OF_MEAN|48.9||0.3416|TWO_SIDED|80.0|-135.23|24.95||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||24.95|-135.23|0.3416
92174600|NCT03858634|184241465|SUPERIORITY||LS mean difference|57.6|STANDARD_ERROR_OF_MEAN|69.75||0.4192|TWO_SIDED|80.0|-35.02|150.19||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||150.19|-35.02|0.4192
92174601|NCT03858634|184241465|SUPERIORITY||LS mean difference|-66.8|STANDARD_ERROR_OF_MEAN|87.42||0.5245|TWO_SIDED|80.0|-231.66|98.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||98.02|-231.66|0.5245
92174602|NCT03858634|184241465|SUPERIORITY||LS mean difference|-17.8|STANDARD_ERROR_OF_MEAN|13.31||0.1988|TWO_SIDED|80.0|-35.47|-0.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-0.05|-35.47|0.1988
92174603|NCT03858634|184241465|SUPERIORITY||LS mean difference|-69.2|STANDARD_ERROR_OF_MEAN|56.11||0.3054|TWO_SIDED|80.0|-161.08|22.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||22.72|-161.08|0.3054
92174604|NCT03858634|184241465|SUPERIORITY||LS mean difference|229.4|STANDARD_ERROR_OF_MEAN|377.23||0.5504|TWO_SIDED|80.0|-271.51|730.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||730.22|-271.51|0.5504
92174605|NCT03858634|184241465|SUPERIORITY||LS mean difference|-71.2|STANDARD_ERROR_OF_MEAN|76.27||0.4493|TWO_SIDED|80.0|-214.96|72.65||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||72.65|-214.96|0.4493
92264901|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-2.35||||0.069|TWO_SIDED|95.0|-4.89|0.19|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Small dense Low Density Lipoproteins||0.19|-4.89|0.069
92174606|NCT03858634|184241465|SUPERIORITY||LS mean difference|-40.3|STANDARD_ERROR_OF_MEAN|20.63||0.0665|TWO_SIDED|80.0|-67.74|-12.85||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-12.85|-67.74|0.0665
92174607|NCT03858634|184241465|SUPERIORITY||LS mean difference|-78.7|STANDARD_ERROR_OF_MEAN|54.04||0.2411|TWO_SIDED|80.0|-167.25|9.75||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||9.75|-167.25|0.2411
92174608|NCT03858634|184241465|SUPERIORITY||LS mean difference|60.8|STANDARD_ERROR_OF_MEAN|79.3||0.4528|TWO_SIDED|80.0|-44.51|166.08||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||166.08|-44.51|0.4528
92174609|NCT03858634|184241465|SUPERIORITY||LS mean difference|-41.4|STANDARD_ERROR_OF_MEAN|75.46||0.6381|TWO_SIDED|80.0|-183.72|100.85||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||100.85|-183.72|0.6381
92174610|NCT03858634|184241465|SUPERIORITY||LS mean difference|-31.5|STANDARD_ERROR_OF_MEAN|17.22||0.0837|TWO_SIDED|80.0|-54.44|-8.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-8.62|-54.44|0.0837
92174611|NCT03858634|184241465|SUPERIORITY||LS mean difference|-74.7|STANDARD_ERROR_OF_MEAN|66.45||0.3428|TWO_SIDED|80.0|-183.53|34.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||34.13|-183.53|0.3428
92174612|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|21.8|STANDARD_ERROR_OF_MEAN|22.93||0.3533|TWO_SIDED|80.0|-8.63|52.27||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||52.27|-8.63|0.3533
92174613|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-63.9|STANDARD_ERROR_OF_MEAN|56.53||0.3755|TWO_SIDED|80.0|-170.51|42.66||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||42.66|-170.51|0.3755
92174614|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-37.6|STANDARD_ERROR_OF_MEAN|15.6||0.0268|TWO_SIDED|80.0|-58.39|-16.87||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-16.87|-58.39|0.0268
92245610|NCT01021852|184394267|SUPERIORITY_OR_OTHER||Difference in LS Means|4.6|STANDARD_ERROR_OF_MEAN|1.42||0.001|TWO_SIDED|95.0|1.8|7.4|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||7.4|1.8|0.001
92245611|NCT01021852|184394267|SUPERIORITY_OR_OTHER||Difference in LS Means|4.1|STANDARD_ERROR_OF_MEAN|1.42||0.004|TWO_SIDED|95.0|1.3|6.9|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||6.9|1.3|0.004
92264902|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-3.39||||0.01|TWO_SIDED|95.0|-5.95|-0.84|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Small dense Low Density Lipoproteins||-0.84|-5.95|0.01
92245612|NCT01021852|184394267|SUPERIORITY_OR_OTHER||Difference in LS Means|9.7|STANDARD_ERROR_OF_MEAN|1.43|<|0.001|TWO_SIDED|95.0|6.9|12.5|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||12.5|6.9|<0.001
92264903|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|0.84||||0.549|TWO_SIDED|95.0|-1.93|3.61|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Lp(a)||3.61|-1.93|0.549
92174615|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-79.5|STANDARD_ERROR_OF_MEAN|43.79||0.1672|TWO_SIDED|80.0|-151.2|-7.75||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-7.75|-151.20|0.1672
92264904|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|0.49||||0.728|TWO_SIDED|95.0|-2.28|3.26|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Lp(a)||3.26|-2.28|0.728
92264905|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-1.38|||<|0.001|TWO_SIDED|95.0|-2.14|-0.61|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo E||-0.61|-2.14|<0.001
92245613|NCT01021852|184394267|SUPERIORITY_OR_OTHER||Difference in LS Means|8.7|STANDARD_ERROR_OF_MEAN|1.43|<|0.001|TWO_SIDED|95.0|5.9|11.5|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||11.5|5.9|<0.001
92245614|NCT01021852|184394268|SUPERIORITY_OR_OTHER||Difference in LS Means|-30.8|STANDARD_ERROR_OF_MEAN|6.29|<|0.001|TWO_SIDED|95.0|-43.2|-18.4|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-18.4|-43.2|<0.001
92264906|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-1.12||||0.004|TWO_SIDED|95.0|-1.89|-0.36|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo E||-0.36|-1.89|0.004
92264907|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-1.18|||<|0.001|TWO_SIDED|95.0|-1.82|-0.53|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo E/B||-0.53|-1.82|<0.001
92264908|NCT01694849|184431203|SUPERIORITY||Difference in least square mean change|-1.08||||0.001|TWO_SIDED|95.0|-1.72|-0.43|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo E/B||-0.43|-1.72|0.001
92264909|NCT01694849|184431204|SUPERIORITY||Difference in least square mean change|-2.8||||0.066|TWO_SIDED|95.0|-5.79|0.18|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Least square mean changes from baseline|||0.18|-5.79|0.066
92264910|NCT01694849|184431204|SUPERIORITY||Difference in least square mean change|0.77||||0.615|TWO_SIDED|95.0|-2.24|3.77|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||3.77|-2.24|0.615
92264911|NCT01694849|184431205|SUPERIORITY||Difference in least square mean change|-17.4||||0.307|TWO_SIDED|95.0|-50.88|16.08|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||16.08|-50.88|0.307
92264912|NCT01694849|184431205|SUPERIORITY||Difference in least square mean change|-21.41||||0.213|TWO_SIDED|95.0|-55.17|12.34|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||12.34|-55.17|0.213
92264913|NCT01694849|184431206|SUPERIORITY||Difference in least square mean change|-0.23||||0.003|TWO_SIDED|95.0|-0.37|-0.08|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.08|-0.37|0.003
92264914|NCT01694849|184431206|SUPERIORITY||Difference in least square mean change|-0.14||||0.068|TWO_SIDED|95.0|-0.29|0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.01|-0.29|0.068
92264915|NCT01694849|184431207|SUPERIORITY||Difference in least square mean change|-0.8||||0.448|TWO_SIDED|95.0|-2.86|1.27|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||1.27|-2.86|0.448
92264916|NCT01694849|184431207|SUPERIORITY||Difference in least square mean change|-1.17||||0.267|TWO_SIDED|95.0|-3.25|0.9|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.9|-3.25|0.267
92264917|NCT01694849|184431208|SUPERIORITY||Difference in least square mean change|-0.05||||0.095|TWO_SIDED|95.0|-0.11|0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.01|-0.11|0.095
92264918|NCT01694849|184431208|SUPERIORITY||Difference in least square mean change|-0.07||||0.022|TWO_SIDED|95.0|-0.13|-0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.01|-0.13|0.022
92264919|NCT01694849|184431209|SUPERIORITY||Difference in least square mean change|-0.46||||0.077|TWO_SIDED|95.0|-0.96|0.05|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.05|-0.96|0.077
92264920|NCT01694849|184431209|SUPERIORITY||Difference in least square mean change|-0.36||||0.172|TWO_SIDED|95.0|-0.87|0.16|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.16|-0.87|0.172
92245615|NCT01021852|184394268|SUPERIORITY_OR_OTHER||Difference in LS Means|-32.5|STANDARD_ERROR_OF_MEAN|6.31|<|0.001|TWO_SIDED|95.0|-44.9|-20.1|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-20.1|-44.9|<0.001
92245616|NCT01021852|184394268|SUPERIORITY_OR_OTHER||Difference in LS Means|-30.9|STANDARD_ERROR_OF_MEAN|6.21|<|0.001|TWO_SIDED|95.0|-43.2|-18.7|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-18.7|-43.2|<0.001
92245617|NCT01021852|184394268|SUPERIORITY_OR_OTHER||Difference in LS Means|-45.8|STANDARD_ERROR_OF_MEAN|6.22|<|0.001|TWO_SIDED|95.0|-58.0|-33.5|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-33.5|-58.0|<0.001
92245618|NCT01021852|184394268|SUPERIORITY_OR_OTHER||Difference in LS Means|-15.5|STANDARD_ERROR_OF_MEAN|5.65||0.006|TWO_SIDED|95.0|-26.7|-4.4|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-4.4|-26.7|0.006
92245619|NCT01021852|184394268|SUPERIORITY_OR_OTHER||Difference in LS Means|-13.2|STANDARD_ERROR_OF_MEAN|5.66||0.02|TWO_SIDED|95.0|-24.4|-2.1|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-2.1|-24.4|0.020
92245620|NCT01021852|184394268|SUPERIORITY_OR_OTHER||Difference in LS Means|-25.7|STANDARD_ERROR_OF_MEAN|5.67|<|0.001|TWO_SIDED|95.0|-36.8|-14.5|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-14.5|-36.8|<0.001
92245621|NCT01021852|184394268|SUPERIORITY_OR_OTHER||Difference in LS Means|-30.0|STANDARD_ERROR_OF_MEAN|5.69|<|0.001|TWO_SIDED|95.0|-41.2|-18.8|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-18.8|-41.2|<0.001
92245622|NCT01021852|184394269|SUPERIORITY_OR_OTHER||Difference in LS Means|-10.2|STANDARD_ERROR_OF_MEAN|4.43||0.022|TWO_SIDED|95.0|-18.9|-1.5|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-1.5|-18.9|0.022
92245623|NCT01021852|184394269|SUPERIORITY_OR_OTHER||Difference in LS Means|-15.7|STANDARD_ERROR_OF_MEAN|4.44|<|0.001|TWO_SIDED|95.0|-24.5|-7.0|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-7.0|-24.5|<0.001
92245624|NCT01021852|184394269|SUPERIORITY_OR_OTHER||Difference in LS Means|-23.5|STANDARD_ERROR_OF_MEAN|4.38|<|0.001|TWO_SIDED|95.0|-32.1|-14.9|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-14.9|-32.1|<0.001
92174616|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|43.7|STANDARD_ERROR_OF_MEAN|45.81||0.3518|TWO_SIDED|80.0|-17.09|104.55||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||104.55|-17.09|0.3518
92245625|NCT01021852|184394269|SUPERIORITY_OR_OTHER||Difference in LS Means|-20.3|STANDARD_ERROR_OF_MEAN|4.38|<|0.001|TWO_SIDED|95.0|-29.0|-11.7|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-11.7|-29.0|<0.001
92245626|NCT01021852|184394269|SUPERIORITY_OR_OTHER||Difference in LS Means|-8.9|STANDARD_ERROR_OF_MEAN|4.61||0.055|TWO_SIDED|95.0|-18.0|0.2|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||0.2|-18.0|0.055
92264921|NCT01694849|184431210|SUPERIORITY||Difference in least square mean change|-0.04||||0.732|TWO_SIDED|95.0|-0.24|0.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.17|-0.24|0.732
92264922|NCT01694849|184431210|SUPERIORITY||Difference in least square mean change|-0.2||||0.062|TWO_SIDED|95.0|-0.4|0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.01|-0.4|0.062
92245627|NCT01021852|184394269|SUPERIORITY_OR_OTHER||Difference in LS Means|-8.7|STANDARD_ERROR_OF_MEAN|4.61||0.06|TWO_SIDED|95.0|-17.8|0.4|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||0.4|-17.8|0.060
92245628|NCT01021852|184394269|SUPERIORITY_OR_OTHER||Difference in LS Means|-19.5|STANDARD_ERROR_OF_MEAN|4.62|<|0.001|TWO_SIDED|95.0|-28.6|-10.4|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-10.4|-28.6|<0.001
92245629|NCT01021852|184394269|SUPERIORITY_OR_OTHER||Difference in LS Means|-11.3|STANDARD_ERROR_OF_MEAN|4.63||0.015|TWO_SIDED|95.0|-20.5|-2.2|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-2.2|-20.5|0.015
92245630|NCT01021852|184394270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-9.5|12.2||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||12.2|-9.5|
92245631|NCT01021852|184394270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-10.3|11.2||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||11.2|-10.3|
92245632|NCT01021852|184394270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.5|||||TWO_SIDED|95.0|-4.2|18.3||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||18.3|-4.2|
92245633|NCT01021852|184394270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.5|||||TWO_SIDED|95.0|-2.3|20.4||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||20.4|-2.3|
92245634|NCT01021852|184394271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|||||TWO_SIDED|95.0|-1.0|10.2||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||10.2|-1.0|
92245635|NCT01021852|184394271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-3.6|4.8||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||4.8|-3.6|
92245636|NCT01021852|184394271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-2.7|6.6||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||6.6|-2.7|
92245637|NCT01021852|184394271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|||||TWO_SIDED|95.0|-4.5|2.3||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||2.3|-4.5|
92245638|NCT01341652|184394331|OTHER|||||||0.97|||||||Mantel Haenszel|||||||0.97
92245639|NCT01341652|184394332|SUPERIORITY|||||||0.08|||||||Wilcoxon Rank Sum test|||||||.08
92245640|NCT01341652|184394334|OTHER||Hazard Ratio (HR)|1.6||||0.14|TWO_SIDED|95.0|0.9|2.8|||Regression, Cox|||||2.8|0.9|0.14
92245641|NCT04593940|184394361|SUPERIORITY||Recovery Rate Ratio|1.122||||0.0793|TWO_SIDED|95.0|0.987|1.275|||Fine-Gray Proportional Hazards Model|||||1.275|0.987|0.0793
92245642|NCT04593940|184394361|SUPERIORITY||Recovery Rate Ratio|1.12||||0.0864|TWO_SIDED|95.0|0.984|1.275|||Fine-Gray Proportional Hazards Model|||||1.275|.984|0.0864
92245643|NCT04593940|184394361|SUPERIORITY||Recovery Rate Ratio|1.006||||0.9354|TWO_SIDED|95.0|0.862|1.176|||Fine-Gray Proportional Hazards Model|||||1.176|0.862|0.9354
92245644|NCT04593940|184394362|SUPERIORITY||Odds Ratio (OR)|1.309||||0.0213|TWO_SIDED|95.0|1.041|1.647|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.647|1.041|0.0213
92245645|NCT04593940|184394362|SUPERIORITY||Odds Ratio (OR)|1.174||||0.1732|TWO_SIDED|95.0|0.932|1.48|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.480|0.932|0.1732
92245646|NCT04593940|184394362|SUPERIORITY||Odds Ratio (OR)|0.944||||0.6823|TWO_SIDED|95.0|0.717|1.243|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.243|0.717|0.6823
92245647|NCT04593940|184394363|SUPERIORITY||Odds Ratio (OR)|0.614||||0.0229|TWO_SIDED|95.0|0.403|0.935|||Regression, Logistic|||||0.935|0.403|0.0229
92245648|NCT04593940|184394363|SUPERIORITY||Odds Ratio (OR)|0.629||||0.0281|TWO_SIDED|95.0|0.416|0.951|||Regression, Logistic|||||0.951|0.416|0.0281
92245649|NCT04593940|184394363|SUPERIORITY||Odds Ratio (OR)|1.167||||0.541|TWO_SIDED|95.0|0.711|1.917|||Regression, Logistic|||||1.917|0.711|0.541
92245650|NCT04593940|184394364|SUPERIORITY||Odds Ratio (OR)|1.435||||0.0032|TWO_SIDED|95.0|1.129|1.825|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.825|1.129|0.0032
92245651|NCT04593940|184394364|SUPERIORITY||Odds Ratio (OR)|1.338||||0.0228|TWO_SIDED|95.0|1.041|1.718|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.718|1.041|0.0228
92245652|NCT04593940|184394364|SUPERIORITY||Odds Ratio (OR)|0.904||||0.4994|TWO_SIDED|95.0|0.675|1.211|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.211|0.675|0.4994
92174617|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-68.7|STANDARD_ERROR_OF_MEAN|49.22||0.2974|TWO_SIDED|80.0|-161.52|24.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||24.09|-161.52|0.2974
92174618|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-38.1|STANDARD_ERROR_OF_MEAN|18.6||0.0555|TWO_SIDED|80.0|-62.83|-13.33||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-13.33|-62.83|0.0555
92174619|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-78.3|STANDARD_ERROR_OF_MEAN|56.72||0.2614|TWO_SIDED|80.0|-171.17|14.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||14.62|-171.17|0.2614
92174620|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|31.7|STANDARD_ERROR_OF_MEAN|37.89||0.4134|TWO_SIDED|80.0|-18.62|81.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||81.98|-18.62|0.4134
92174621|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-69.6|STANDARD_ERROR_OF_MEAN|44.99||0.262|TWO_SIDED|80.0|-154.44|15.24||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||15.24|-154.44|0.2620
92174622|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-40.2|STANDARD_ERROR_OF_MEAN|16.7||0.0269|TWO_SIDED|80.0|-62.46|-18.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-18.02|-62.46|0.0269
92174623|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-81.2|STANDARD_ERROR_OF_MEAN|45.32||0.1709|TWO_SIDED|80.0|-155.46|-7.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-7.02|-155.46|0.1709
92174624|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|42.9|STANDARD_ERROR_OF_MEAN|12.98||0.0042|TWO_SIDED|80.0|25.61|60.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||60.22|25.61|0.0042
92174625|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-53.2|STANDARD_ERROR_OF_MEAN|47.22||0.3772|TWO_SIDED|80.0|-142.19|35.88||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||35.88|-142.19|0.3772
92245653|NCT04593940|184394365|SUPERIORITY||Odds Ratio (OR)|0.632||||0.0988|TWO_SIDED|95.0|0.367|1.09|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.090|0.367|0.0988
92245654|NCT04593940|184394365|SUPERIORITY||Odds Ratio (OR)|0.552||||0.0354|TWO_SIDED|95.0|0.317|0.96|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||0.960|0.317|0.0354
92245655|NCT04593940|184394365|SUPERIORITY||Odds Ratio (OR)|1.287||||0.4132|TWO_SIDED|95.0|0.703|2.355|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||2.355|0.703|0.4132
92245656|NCT04593940|184394366|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.1601|TWO_SIDED|95.0|1.0|1.28|||Fine-Gray Proportional Hazards Model|||||1.28|1.00|0.1601
92245657|NCT04593940|184394366|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.355|TWO_SIDED|95.0|0.97|1.24|||Fine-Gray Proportional Hazards Model|||||1.24|0.97|0.3550
92174626|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-28.3|STANDARD_ERROR_OF_MEAN|15.54||0.0857|TWO_SIDED|80.0|-49.06|-7.63||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-7.63|-49.06|0.0857
92174627|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-77.3|STANDARD_ERROR_OF_MEAN|26.34||0.0607|TWO_SIDED|80.0|-120.48|-34.2||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-34.20|-120.48|0.0607
92174628|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|88.8|STANDARD_ERROR_OF_MEAN|124.79||0.4862|TWO_SIDED|80.0|-77.57|255.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||255.22|-77.57|0.4862
92174629|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-53.2|STANDARD_ERROR_OF_MEAN|49.73||0.3968|TWO_SIDED|80.0|-146.96|40.58||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||40.58|-146.96|0.3968
92174630|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-24.2|STANDARD_ERROR_OF_MEAN|16.57||0.1624|TWO_SIDED|80.0|-46.31|-2.11||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-2.11|-46.31|0.1624
92174631|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-76.8|STANDARD_ERROR_OF_MEAN|37.75||0.1349|TWO_SIDED|80.0|-138.58|-14.93||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-14.93|-138.58|0.1349
92174632|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|45.5|STANDARD_ERROR_OF_MEAN|21.81||0.0525|TWO_SIDED|80.0|16.38|74.56||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||74.56|16.38|0.0525
92174633|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-76.6|STANDARD_ERROR_OF_MEAN|50.98||0.2719|TWO_SIDED|80.0|-172.71|19.55||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||19.55|-172.71|0.2719
92245658|NCT04593940|184394366|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.2386|TWO_SIDED|95.0|0.8|1.07|||Fine-Gray Proportional Hazards Model|||||1.07|0.80|0.2386
92245659|NCT04593940|184394367|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.1519|TWO_SIDED|95.0|0.98|1.26|||Fine-Gray Proportional Hazards Model|||||1.26|0.98|0.1519
92245660|NCT04593940|184394367|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.2605|TWO_SIDED|95.0|0.98|1.26|||Fine-Gray Proportional Hazards Model|||||1.26|0.98|0.2605
92245661|NCT04593940|184394367|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.4359|TWO_SIDED|95.0|0.83|1.13|||Fine-Gray Proportional Hazards Model|||||1.13|0.83|0.4359
92245662|NCT04593940|184394368|SUPERIORITY||Mean Difference (Net)|-0.06||||0.321|TWO_SIDED|95.0|-0.18|0.06|||t-test, 2 sided|||||0.06|-0.18|0.3210
92245663|NCT04593940|184394368|SUPERIORITY||Mean Difference (Net)|0.04||||0.5275|TWO_SIDED|95.0|-0.09|0.17|||t-test, 2 sided|||||0.17|-0.09|0.5275
92245664|NCT04593940|184394368|SUPERIORITY||Mean Difference (Net)|0.0||||0.9993|TWO_SIDED|95.0|-0.15|0.15|||t-test, 2 sided|||||0.15|-0.15|0.9993
92282083|NCT00864097|184467750|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.05|-0.28|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.28|-1.05|<0.001
92282084|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.15||0.754|TWO_SIDED|95.0|-0.25|0.35|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.35|-0.25|0.754
92282085|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.16||0.706|TWO_SIDED|95.0|-0.36|0.25|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.25|-0.36|0.706
92282086|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.16||0.266|TWO_SIDED|95.0|-0.13|0.48|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.48|-0.13|0.266
92282087|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.18||0.195|TWO_SIDED|95.0|-0.58|0.12|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.12|-0.58|0.195
92282088|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.07|-0.36|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.36|-1.07|<0.001
92282089|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.019|TWO_SIDED|95.0|-0.78|-0.07|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.07|-0.78|0.019
92282090|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.126|TWO_SIDED|95.0|-0.64|0.08|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.08|-0.64|0.126
92282091|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.1|-0.37|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.37|-1.10|<0.001
92282092|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|95.0|-0.98|-0.25|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.25|-0.98|0.001
92282093|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.19||0.007|TWO_SIDED|95.0|-0.9|-0.15|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.15|-0.90|0.007
92282094|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.21|-0.44|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.44|-1.21|<0.001
92282095|NCT00864097|184467751|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED|95.0|-1.02|-0.25|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.25|-1.02|0.001
92282096|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.2|TWO_SIDED|95.0|-0.22|0.05|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.05|-0.22|0.200
92282097|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.754|TWO_SIDED|95.0|-0.15|0.11|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.11|-0.15|0.754
92282098|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.07||0.449|TWO_SIDED|95.0|-0.08|0.18|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.18|-0.08|0.449
92282099|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.062|TWO_SIDED|95.0|-0.27|0.01|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.01|-0.27|0.062
92282100|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|-0.36|-0.08|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.08|-0.36|0.002
92282101|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.026|TWO_SIDED|95.0|-0.3|-0.02|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.02|-0.30|0.026
92245665|NCT04593940|184394369|SUPERIORITY||Mean Difference (Net)|0.07||||0.4982|TWO_SIDED|95.0|-0.13|0.26|||t-test, 2 sided|||||0.26|-0.13|0.4982
92245666|NCT04593940|184394369|SUPERIORITY||Mean Difference (Net)|0.09||||0.3491|TWO_SIDED|95.0|-0.1|0.29|||t-test, 2 sided|||||0.29|-0.10|0.3491
92245667|NCT04593940|184394369|SUPERIORITY||Mean Difference (Net)|-0.01||||0.902|TWO_SIDED|95.0|-0.25|0.22|||t-test, 2 sided|||||0.22|-0.25|0.9020
92245668|NCT04593940|184394370|SUPERIORITY||Mean Difference (Net)|0.24||||0.0842|TWO_SIDED|95.0|-0.03|0.52|||t-test, 2 sided|||||0.52|-0.03|0.0842
92245669|NCT04593940|184394370|SUPERIORITY||Mean Difference (Net)|0.09||||0.5328|TWO_SIDED|95.0|-0.19|0.37|||t-test, 2 sided|||||0.37|-0.19|0.5328
92245670|NCT04593940|184394370|SUPERIORITY||Mean Difference (Net)|-0.12||||0.4727|TWO_SIDED|95.0|-0.46|0.21|||t-test, 2 sided|||||0.21|-0.46|0.4727
92245671|NCT04593940|184394371|SUPERIORITY||Mean Difference (Net)|0.31||||0.0399|TWO_SIDED|95.0|0.01|0.61|||t-test, 2 sided|||||0.61|0.01|0.0399
92245672|NCT04593940|184394371|SUPERIORITY||Mean Difference (Net)|0.11||||0.4515|TWO_SIDED|95.0|-0.18|0.41|||t-test, 2 sided|||||0.41|-0.18|0.4515
92245673|NCT04593940|184394371|SUPERIORITY||Mean Difference (Net)|-0.07||||0.696|TWO_SIDED|95.0|-0.43|0.29|||t-test, 2 sided|||||0.29|-0.43|0.6960
92245674|NCT04593940|184394372|SUPERIORITY||Mean Difference (Net)|0.26||||0.0903|TWO_SIDED|95.0|-0.04|0.57|||t-test, 2 sided|||||0.57|-0.04|0.0903
92245675|NCT04593940|184394372|SUPERIORITY||Mean Difference (Net)|0.15||||0.348|TWO_SIDED|95.0|-0.16|0.45|||t-test, 2 sided|||||0.45|-0.16|0.3480
92245676|NCT04593940|184394372|SUPERIORITY||Mean Difference (Net)|-0.07||||0.6984|TWO_SIDED|95.0|-0.44|0.29|||t-test, 2 sided|||||0.29|-0.44|0.6984
92245677|NCT04593940|184394373|SUPERIORITY||Mean Difference (Net)|0.32||||0.045|TWO_SIDED|95.0|0.01|0.62|||t-test, 2 sided|||||0.62|0.01|0.0450
92245678|NCT04593940|184394373|SUPERIORITY||Mean Difference (Net)|0.19||||0.2462|TWO_SIDED|95.0|-0.13|0.5|||t-test, 2 sided|||||0.50|-0.13|0.2462
92245679|NCT04593940|184394373|SUPERIORITY||Mean Difference (Net)|-0.23||||0.2304|TWO_SIDED|95.0|-0.61|0.15|||t-test, 2 sided|||||0.15|-0.61|0.2304
92245680|NCT04593940|184394374|SUPERIORITY||Mean Difference (Net)|0.35||||0.0313|TWO_SIDED|95.0|0.03|0.66|||t-test, 2 sided|||||0.66|0.03|0.0313
92245681|NCT04593940|184394374|SUPERIORITY||Mean Difference (Net)|0.31||||0.0555|TWO_SIDED|95.0|-0.01|0.63|||t-test, 2 sided|||||0.63|-0.01|0.0555
92245682|NCT04593940|184394374|SUPERIORITY||Mean Difference (Net)|-0.22||||0.271|TWO_SIDED|95.0|-0.6|0.17|||t-test, 2 sided|||||0.17|-0.60|0.2710
92245683|NCT04593940|184394375|SUPERIORITY||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.0|2.0||||||||2.0|-0.0|
92245684|NCT04593940|184394375|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|-0.5|1.6||||||||1.6|-0.5|
92245685|NCT04593940|184394375|SUPERIORITY||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.8|0.7||||||||0.7|-1.8|
92245686|NCT04593940|184394376|SUPERIORITY||Difference in percentages|29.2|||||TWO_SIDED|95.0|-0.4|53.7||||||||53.7|-0.4|
92245687|NCT04593940|184394376|SUPERIORITY||Difference in percentages|14.0|||||TWO_SIDED|95.0|-14.8|40.0||||||||40.0|-14.8|
92245688|NCT04593940|184394376|SUPERIORITY||Difference in percentages|-5.8|||||TWO_SIDED|95.0|-38.7|26.6||||||||26.6|-38.7|
92245689|NCT04593940|184394377|SUPERIORITY||Mean Difference (Net)|1.2|||||TWO_SIDED|95.0|0.2|2.3||||||||2.3|0.2|
92245690|NCT04593940|184394377|SUPERIORITY||Mean Difference (Net)|0.9|||||TWO_SIDED|95.0|-0.1|2.0||||||||2.0|-0.1|
92245691|NCT04593940|184394377|SUPERIORITY||Mean Difference (Net)|-0.7|||||TWO_SIDED|95.0|-2.0|0.6||||||||0.6|-2.0|
92245692|NCT04593940|184394378|SUPERIORITY||Difference in percentages|-7.0|||||TWO_SIDED|95.0|-14.0|0.0||||||||0.0|-14.0|
92245693|NCT04593940|184394378|SUPERIORITY||Difference in percentages|-3.9|||||TWO_SIDED|95.0|-11.1|3.4||||||||3.4|-11.1|
92245694|NCT04593940|184394378|SUPERIORITY||Difference in percentages|-1.0|||||TWO_SIDED|95.0|-10.1|8.1||||||||8.1|-10.1|
92245695|NCT04593940|184394379|SUPERIORITY||Mean Difference (Net)|0.9|||||TWO_SIDED|95.0|-0.1|1.8||||||||1.8|-0.1|
92245696|NCT04593940|184394379|SUPERIORITY||Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|-0.3|1.7||||||||1.7|-0.3|
92245697|NCT04593940|184394379|SUPERIORITY||Mean Difference (Net)|-0.8|||||TWO_SIDED|95.0|-2.0|0.4||||||||0.4|-2.0|
92245698|NCT04593940|184394380|SUPERIORITY||Difference in percentages|-1.1|||||TWO_SIDED|95.0|-5.7|3.5||||||||3.5|-5.7|
92245699|NCT04593940|184394380|SUPERIORITY||Difference in percentages|-1.3|||||TWO_SIDED|95.0|-6.0|3.3||||||||3.3|-6.0|
92245700|NCT04593940|184394380|SUPERIORITY||Difference in percentages|2.2|||||TWO_SIDED|95.0|-3.7|8.0||||||||8.0|-3.7|
92245701|NCT04593940|184394381|SUPERIORITY||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.0|2.0||||||||2.0|-0.0|
92245702|NCT04593940|184394381|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-0.7|1.4||||||||1.4|-0.7|
92245703|NCT04593940|184394381|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-1.3|1.1||||||||1.1|-1.3|
92245704|NCT04593940|184394382|SUPERIORITY||Hazard Ratio (HR)|0.878||||0.3169|TWO_SIDED|95.0|0.68|1.133|||Log Rank|||||1.133|0.680|0.3169
92245705|NCT04593940|184394382|SUPERIORITY||Hazard Ratio (HR)|0.863||||0.248|TWO_SIDED|95.0|0.672|1.108|||Log Rank|||||1.108|0.672|0.2480
92245706|NCT04593940|184394382|SUPERIORITY||Hazard Ratio (HR)|1.191||||0.249|TWO_SIDED|95.0|0.885|1.604|||Log Rank|||||1.604|0.885|0.2490
92245707|NCT04593940|184394383|SUPERIORITY||Hazard Ratio (HR)|1.083||||0.5175|TWO_SIDED|95.0|0.85|1.38|||Log Rank|||||1.380|0.850|0.5175
92245708|NCT04593940|184394383|SUPERIORITY||Hazard Ratio (HR)|0.923||||0.5216|TWO_SIDED|95.0|0.722|1.179|||Log Rank|||||1.179|0.722|0.5216
92245709|NCT04593940|184394383|SUPERIORITY||Hazard Ratio (HR)|1.075||||0.6135|TWO_SIDED|95.0|0.812|1.424|||Log Rank|||||1.424|0.812|0.6135
92245710|NCT04593940|184394384|SUPERIORITY||Hazard Ratio (HR)|0.565||||0.3628|TWO_SIDED|95.0|0.165|1.931|||Log Rank|||||1.931|0.165|0.3628
92245711|NCT04593940|184394384|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.3701|TWO_SIDED|95.0|0.167|1.948|||Log Rank|||||1.948|0.167|0.3701
92245712|NCT04593940|184394384|SUPERIORITY||Hazard Ratio (HR)|4.988||||0.0001|TWO_SIDED|95.0|2.211|11.251|||Log Rank|||||11.251|2.211|0.0001
92282102|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.032|TWO_SIDED|95.0|-0.31|-0.01|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.01|-0.31|0.032
92282103|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.48|-0.19|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.19|-0.48|<0.001
92282104|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.45|-0.16|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.16|-0.45|<0.001
92282105|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.038|TWO_SIDED|95.0|-0.3|-0.01|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.01|-0.30|0.038
92282106|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|95.0|-0.37|-0.07|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.07|-0.37|0.003
92282107|NCT00864097|184467752|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.016|TWO_SIDED|95.0|-0.33|-0.03|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.03|-0.33|0.016
92282108|NCT00320112|184467788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.004|TWO_SIDED|||||no differences between arms in baseline characteristics at \<0.1 level, further analyses adjusted for variables that could influence the outcome like insulin use, age, commodities. because no differences in results, unadjusted analyses are reported.|Regression, Linear|we used STATA 11's xtmixed command, which fits multi-level mixed-effects linear regression models, with clustering by assigned pairs.||||||0.004
92282109|NCT00320112|184467789|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED|||||this is a priori design|Regression, Linear|||||||.91
92282110|NCT00320112|184467790|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Regression, Linear|||||||0.10
92282111|NCT00320112|184467791|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Regression, Linear|||||||0.02
92282112|NCT02899338|184467792|EQUIVALENCE|The relative bioavailability of BI 695501 using AI (A) compared with BI 695501 using PFS (B) was estimated, in an exploratory manner, by the ratios of the geometric means (A/B) using the analysis of variance (ANOVA)|Adjusted geometric mean ratio|101.71|STANDARD_ERROR_OF_MEAN|42.28|||TWO_SIDED|90.0|91.31|113.29|||ANOVA|The results are based on ANOVA model on the logarithmic scale with fixed effects for treatment and baseline body weight.|Standard error of the mean is actually the Inter-individual geometric coefficient of variation (gCV)|Comparison AI versus PFS||113.29|91.31|
92282113|NCT02899338|184467793|EQUIVALENCE|The relative bioavailability of BI 695501 using AI (A) compared with BI 695501 using PFS (B) was estimated, in an exploratory manner, by the ratios of the geometric means (A/B) using ANOVA|Adjusted geometric mean ratio|100.11|STANDARD_ERROR_OF_MEAN|23.72|||TWO_SIDED|90.0|94.17|106.43|||ANOVA|The results are based on ANOVA model on the logarithmic scale with fixed effects for treatment and baseline body weight.|Standard error of the mean is actually the Inter-individual gCV|Comparison AI versus PFS||106.43|94.17|
92282114|NCT02899338|184467794|EQUIVALENCE|The relative bioavailability of BI 695501 using AI (A) compared with BI 695501 using PFS (B) was estimated, in an exploratory manner, by the ratios of the geometric means (A/B) using ANOVA|Adjusted geometric mean ratio|103.19|STANDARD_ERROR_OF_MEAN|48.21|||TWO_SIDED|90.0|91.38|116.53|||ANOVA|The results are based on ANOVA model on the logarithmic scale with fixed effects for treatment and baseline body weight.|Standard error of the mean is actually the Inter-individual gCV|Comparison AI versus PFS||116.53|91.38|
92282115|NCT06179108|184467796|SUPERIORITY|||||||0.0009||||||Hochberg's step-down procedure was adopted to control type I error across the 50 and 75 mg arms.|Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline total PANSS score.||||||0.0009
92282116|NCT06179108|184467796|SUPERIORITY|||||||0.0022||||||Hochberg's step-down procedure was adopted to control type I error across the 50 and 75 mg arms.|Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline total PANSS score.||||||0.0022
92282117|NCT06179108|184467796|SUPERIORITY|||||||0.0017|||||||Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline total PANSS score.||||||.0017
92282118|NCT06179108|184467797|SUPERIORITY|||||||0.0008|||||||Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline CGI-S score.||||||0.0008
92282119|NCT06179108|184467797|SUPERIORITY|||||||0.0048|||||||Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline CGI-S score.||||||0.0048
92282120|NCT06179108|184467797|SUPERIORITY|||||||0.0026|||||||Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline CGI-S score.||||||0.0026
92282121|NCT04817891|184467884|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92282122|NCT04817891|184467885|SUPERIORITY|||||||0.018||||||p value for the Ventral Attention Network (network segregation)|t-test, 2 sided|||||||0.018
92282123|NCT04817891|184467885|SUPERIORITY|||||||0.944||||||p value for the Cingulo Opercular Network (network segregation)|t-test, 2 sided|||||||0.944
92282124|NCT04817891|184467886|SUPERIORITY|||||||0.239|||||||t-test, 1 sided|||||||0.239
92282125|NCT04817891|184467887|SUPERIORITY|||||||0.168|||||||t-test, 1 sided|||||||0.168
92282126|NCT03309956|184467925|SUPERIORITY|||||||0.23|||||||McNemar|||||||0.23
92245713|NCT01008995|184394405|SUPERIORITY_OR_OTHER||||||<|0.001||||||The study was designed to maintain a Type I error of 0.05 or less for the primary analysis.|Cochran-Mantel-Haenszel|Stratified by baseline weight \[≤ 65kg vs \> 65 kg)\].||Null Hypothesis: No difference between ustekinumab 45 mg and placebo for the primary endpoint at a significance level of 0.05. Power calculations were based on two sample size assumptions: 220 (1:1 ratio) and 320 participants (1:1 ratio). Simulation studies evaluated the power to detect a treatment difference between ustekinumab 45 mg group and placebo using a CMH test stratified by baseline weight \[\<=65 kg vs \> 65 kg). The power was \>99% for both sample size assumptions.||||<0.001
92245714|NCT01008995|184394406|SUPERIORITY_OR_OTHER||||||<|0.001||||||No multiplicity adjustment was made and nominal p-value was reported.|Cochran-Mantel-Haenszel|Stratified by baseline weight \[≤ 65kg vs \> 65 kg)\].||Null Hypothesis: No difference between ustekinumab 45 mg and placebo at a significance level of 0.05.||||<0.001
92245715|NCT01008995|184394407|SUPERIORITY_OR_OTHER||||||<|0.001||||||No multiplicity adjustment was made and nominal p-value was reported.|ANOVA|Analysis of variance on van der Waerden normal scores (Conover, 1980) with treatment and baseline weight (≤ 65kg vs \> 65 kg) as factors in the model.||Null Hypothesis: No difference between ustekinumab 45 mg and placebo at a significance level of 0.05.||||<0.001
92245716|NCT00127062|184394408|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92245717|NCT00127062|184394408|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92245718|NCT02856269|184394409|OTHER|Wilcoxon rank sum tests, X2 tests, Fisher exact tests, Kolmogorov-Smirnov|Cohen's D value|0.8|||||TWO_SIDED||||||||The Cohen's d is calculated after Box-Cox transformation. Small effect \<= 0.2, Medium effect \[0.3, 0.8\]; Large effect \>0.8|||||
92245719|NCT04146467|184394411|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92245720|NCT04146467|184394413|SUPERIORITY||||||<|0.0004|||||||Fisher Exact|||||||<0.0004
92245721|NCT04146467|184394421|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92174634|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-30.7|STANDARD_ERROR_OF_MEAN|17.39||0.0957|TWO_SIDED|80.0|-53.86|-7.49||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-7.49|-53.86|0.0957
92174635|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-79.8|STANDARD_ERROR_OF_MEAN|32.98||0.0942|TWO_SIDED|80.0|-133.83|-25.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-25.78|-133.83|0.0942
92174636|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|34.6|STANDARD_ERROR_OF_MEAN|23.6||0.1606|TWO_SIDED|80.0|3.16|66.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||66.09|3.16|0.1606
92174637|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-77.0|STANDARD_ERROR_OF_MEAN|42.2||0.2096|TWO_SIDED|80.0|-156.58|2.58||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||2.58|-156.58|0.2096
92174638|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-29.3|STANDARD_ERROR_OF_MEAN|18.32||0.1279|TWO_SIDED|80.0|-53.74|-4.89||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-4.89|-53.74|0.1279
92174639|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-75.0|STANDARD_ERROR_OF_MEAN|23.17||0.0479|TWO_SIDED|80.0|-112.96|-37.08||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-37.08|-112.96|0.0479
92174640|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|32.8|STANDARD_ERROR_OF_MEAN|22.91||0.17|TWO_SIDED|80.0|2.28|63.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||63.37|2.28|0.1700
92174641|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-80.1|STANDARD_ERROR_OF_MEAN|29.67||0.1142|TWO_SIDED|80.0|-136.03|-24.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-24.15|-136.03|0.1142
92174642|NCT03858634|184241465|SUPERIORITY||LS Mean Difference|-18.0|STANDARD_ERROR_OF_MEAN|20.82||0.398|TWO_SIDED|80.0|-45.8|9.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||9.71|-45.80|0.3980
92174643|NCT03858634|184241467|SUPERIORITY||LS mean difference|-13.2|STANDARD_ERROR_OF_MEAN|17.11||0.4979|TWO_SIDED|80.0|-41.17|14.86||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||14.86|-41.17|0.4979
92174644|NCT03858634|184241467|SUPERIORITY||LS mean difference|21.7|STANDARD_ERROR_OF_MEAN|12.88||0.1079|TWO_SIDED|80.0|4.63|38.83||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||38.83|4.63|0.1079
92245722|NCT02128763|184394430|SUPERIORITY|||||||0.4|TWO_SIDED|95.0||||P value refers to difference between group on change in overall OSDI score (Row 1).|Regression, Linear|||||||0.40
92245723|NCT02128763|184394431|SUPERIORITY|||||||0.09|TWO_SIDED|95.0|||||Regression, Linear|||||||0.09
92174645|NCT03858634|184241467|SUPERIORITY||LS mean difference|-35.6|STANDARD_ERROR_OF_MEAN|41.7||0.4837|TWO_SIDED|80.0|-114.19|43.07||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||43.07|-114.19|0.4837
92282127|NCT01566409|184467928|NON_INFERIORITY_OR_EQUIVALENCE|The required sample size was based on a projected treatment success in the PEG group of 60%. With a power in excess of 80% and a critical level of significance of 0.05, 45 children were needed in each group to detect a 50% reduction in treatment effect in the placebo group, corresponding to 30% recovers without active maintenance treatment. Because of an expected drop-out rate of 25%, we aimed at including 115 children.||||||0.024|||||||Regression, Logistic|||||||0.024
92245724|NCT02128763|184394432|SUPERIORITY|||||||0.77|TWO_SIDED|95.0|||||Regression, Linear|Pos hoc application of the Benjamini-Hochberg adjustment||||||0.77
92245725|NCT02128763|184394433|SUPERIORITY|||||||0.95|TWO_SIDED|95.0|||||Regression, Linear|||||||0.95
92245726|NCT02128763|184394434|SUPERIORITY|||||||0.051|TWO_SIDED|95.0|||||Regression, Linear|||||||0.051
92245727|NCT02128763|184394435|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0|||||Regression, Linear|||||||<0.001
92282128|NCT02768298|184467930|SUPERIORITY||Least Squares (LS) Mean|0.32|STANDARD_ERROR_OF_MEAN|0.268||0.2327|TWO_SIDED|95.0|-0.21|0.85|||ANCOVA|||||0.85|-0.21|0.2327
92282129|NCT02768298|184467931|SUPERIORITY||LS Mean|-0.14|STANDARD_ERROR_OF_MEAN|0.277||0.6247|TWO_SIDED|95.0|-0.68|0.41|||ANCOVA|||||0.41|-0.68|0.6247
92282130|NCT02768298|184467932|SUPERIORITY||LS Mean|-1.23|STANDARD_ERROR_OF_MEAN|0.888||0.1678|TWO_SIDED|95.0|-2.98|0.52|||ANCOVA|||6 weeks||0.52|-2.98|0.1678
92282131|NCT02768298|184467932|SUPERIORITY||LS Mean|0.83|STANDARD_ERROR_OF_MEAN|0.809||0.3052|TWO_SIDED|95.0|-0.77|2.43|||ANCOVA|||3 months||2.43|-0.77|0.3052
92282132|NCT02768298|184467933|SUPERIORITY||LS Mean|0.87|STANDARD_ERROR_OF_MEAN|1.744||0.6181|TWO_SIDED|95.0|-2.58|4.32|||ANCOVA|||6 weeks||4.32|-2.58|0.6181
92282133|NCT02768298|184467933|SUPERIORITY||LS Mean|3.28|STANDARD_ERROR_OF_MEAN|2.124||0.1254|TWO_SIDED|95.0|-0.93|7.48|||ANCOVA|||3 months||7.48|-0.93|0.1254
92282134|NCT02768298|184467934|SUPERIORITY||LS Mean|-0.3|STANDARD_ERROR_OF_MEAN|0.317||0.3432|TWO_SIDED|95.0|-0.93|0.33|||ANCOVA|||Borg value dyspnea||0.33|-0.93|0.3432
92282135|NCT02768298|184467934|SUPERIORITY||LS Mean|0.16|STANDARD_ERROR_OF_MEAN|0.251||0.5319|TWO_SIDED|95.0|-0.34|0.65|||ANCOVA|||Borg value fatigue||0.65|-0.34|0.5319
92245728|NCT02128763|184394436|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0|||||Regression, Linear|||||||<0.001
92282136|NCT04533646|184467935|OTHER||Mean Difference (Net)|1.1|||<|0.01|TWO_SIDED||||||Means testing||||comparison of means test was performed|||<0.01
92245729|NCT02128763|184394437|SUPERIORITY|||||||0.4|TWO_SIDED|95.0|||||Regression, Linear|||||||0.40
92245730|NCT02128763|184394438|SUPERIORITY|||||||0.77|TWO_SIDED|95.0|||||Regression, Linear|||||||0.77
92245731|NCT02128763|184394439|SUPERIORITY|||||||0.95|TWO_SIDED|95.0|||||Regression, Linear|||||||0.95
92245732|NCT02128763|184394440|SUPERIORITY|||||||0.25|TWO_SIDED|95.0|||||Regression, Linear|||||||0.25
92245733|NCT02128763|184394441|SUPERIORITY|||||||0.61|TWO_SIDED|95.0|||||Regression, Linear|||||||0.61
92245734|NCT02128763|184394442|SUPERIORITY|||||||0.42|TWO_SIDED|95.0|||||Regression, Linear|||||||0.42
92245735|NCT02128763|184394443|SUPERIORITY|||||||0.6|TWO_SIDED|95.0|||||Chi-squared, Corrected|||||||0.60
92245736|NCT02128763|184394444|SUPERIORITY|||||||0.17|TWO_SIDED|95.0|||||Regression, Linear|||||||0.17
92282137|NCT04256421|184467937|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.3504|TWO_SIDED|95.0|0.89|1.38|||Log Rank|||Stratification factors were LDH (\> upper limit of normal \[ULN\] vs. \</= ULN) and Eastern Cooperative Oncology Group (ECOG; 0 vs. 1).||1.38|0.89|0.3504
92282138|NCT04256421|184467938|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.2859|TWO_SIDED|95.0|0.9|1.44|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.44|0.90|0.2859
92282139|NCT04256421|184467939|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.444|TWO_SIDED|95.0|0.89|1.31|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.31|0.89|0.4440
92282140|NCT04256421|184467940|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.4205|TWO_SIDED|95.0|0.88|1.35|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.35|0.88|0.4205
92282141|NCT04256421|184467941|SUPERIORITY||Difference in Overall Response Rates|6.8||||0.1418|TWO_SIDED|95.0|-2.57|15.99|||Cochran-Mantel-Haenszel|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||15.99|-2.57|0.1418
92282142|NCT04256421|184467942|SUPERIORITY||Difference in Overall Response Rates|5.19||||0.2191|TWO_SIDED|95.0|-3.33|13.61|||Cochran-Mantel-Haenszel|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||13.61|-3.33|0.2191
92282143|NCT04256421|184467947|SUPERIORITY||Difference in Event Free Rate|-3.74||||0.458|TWO_SIDED|95.0|-13.6|6.13|||Z-test|||Month 12||6.13|-13.60|0.4580
92282144|NCT04256421|184467947|SUPERIORITY||Difference in Event Free Rate|-8.12||||0.0999|TWO_SIDED|95.0|-17.8|1.55|||Z-test|||Month 24||1.55|-17.80|0.0999
92282145|NCT04256421|184467948|SUPERIORITY||Difference in Event Free Rate|-3.02||||0.5059|TWO_SIDED|95.0|-11.92|5.88|||Z-test|||Month 12||5.88|-11.92|0.5059
92282146|NCT04256421|184467948|SUPERIORITY||Difference in Event Free Rate|-5.29||||0.2458|TWO_SIDED|95.0|-14.23|3.65|||Z-test|||Month 24||3.65|-14.23|0.2458
92282147|NCT04256421|184467949|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9819|TWO_SIDED|95.0|0.68|1.48|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.48|0.68|0.9819
92282148|NCT04256421|184467950|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.5122|TWO_SIDED|95.0|0.81|1.55|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.55|0.81|0.5122
92282149|NCT04256421|184467951|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.3614|TWO_SIDED|95.0|0.81|1.79|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.79|0.81|0.3614
92282150|NCT04256421|184467952|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.1681|TWO_SIDED|95.0|0.9|1.84|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.84|0.90|0.1681
92282151|NCT02424188|184467976|SUPERIORITY||Odds Ratio (OR)|5.9|||||TWO_SIDED|95.0|2.3|15.4||||||||15.4|2.3|
92282152|NCT02424188|184467977|SUPERIORITY||Odds Ratio (OR)|3.9|||||TWO_SIDED|95.0|1.2|12.3||||||||12.3|1.2|
92282153|NCT02424188|184467978|SUPERIORITY||Odds Ratio (OR)|4.8|||||TWO_SIDED|95.0|1.3|17.5||||||6 month comparison||17.5|1.3|
92282154|NCT02424188|184467978|SUPERIORITY||Odds Ratio (OR)|10.8|||||TWO_SIDED|95.0|2.4|48.6||||||12 month||48.6|2.4|
92282155|NCT02424188|184467980|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-1.7|2.3||||||6 months||2.3|-1.7|
92174646|NCT03858634|184241467|SUPERIORITY||LS mean difference|-10.5|STANDARD_ERROR_OF_MEAN|4.14||0.0208|TWO_SIDED|80.0|-15.99|-4.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||-4.98|-15.99|0.0208
92245737|NCT02128763|184394445|SUPERIORITY|||||||0.02|TWO_SIDED|95.0|||||Regression, Linear|||||||0.02
92174647|NCT03858634|184241467|SUPERIORITY||LS mean difference|-16.2|STANDARD_ERROR_OF_MEAN|23.54||0.5413|TWO_SIDED|80.0|-54.74|22.38||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||22.38|-54.74|0.5413
92174648|NCT03858634|184241467|SUPERIORITY||LS mean difference|17.5|STANDARD_ERROR_OF_MEAN|12.22||0.1683|TWO_SIDED|80.0|1.28|33.74||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||33.74|1.28|0.1683
92245738|NCT02128763|184394446|SUPERIORITY|||||||0.71|TWO_SIDED|95.0|||||Regression, Linear|||||||0.71
92245739|NCT02128763|184394447|SUPERIORITY|||||||0.66|TWO_SIDED|95.0|||||Regression, Linear|||||||0.66
92245740|NCT02128763|184394448|SUPERIORITY|||||||0.02|TWO_SIDED|95.0|||||Regression, Linear|||||||0.02
92245741|NCT01934192|184394462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|7.02|||TWO_SIDED|95.0|-5.1|22.9||||||||22.9|-5.1|
92245742|NCT01934192|184394463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|4.35|||TWO_SIDED|95.0|-6.5|10.9||||||||10.9|-6.5|
92174649|NCT03858634|184241467|SUPERIORITY||LS mean difference|-58.8|STANDARD_ERROR_OF_MEAN|54.45||0.3933|TWO_SIDED|80.0|-161.43|43.89||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||43.89|-161.43|0.3933
92245743|NCT01934192|184394464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|7.03|||TWO_SIDED|95.0|-5.1|22.9||||||||22.9|-5.1|
92245744|NCT01934192|184394465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.5|STANDARD_ERROR_OF_MEAN|6.74|||TWO_SIDED|95.0|-6.9|19.9||||||||19.9|-6.9|
92245745|NCT04105244|184394542|SUPERIORITY||Wald tests|0.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Intent-to-treat principle using linear mixed-effects models with random intercepts to examine longitudinal change scores for the outcome.||||||<0.05
92282156|NCT02424188|184467980|SUPERIORITY||Mean Difference (Net)|1.6|||||TWO_SIDED|95.0|-1.5|4.7||||||18 months||4.7|-1.5|
92282157|NCT02424188|184467981|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-0.6|1.5||||||||1.5|-0.6|
92282158|NCT02424188|184467983|SUPERIORITY||Mean Difference (Net)|-16.2|||||TWO_SIDED|95.0|-30.2|-2.3||||||||-2.3|-30.2|
92245746|NCT04105244|184394543|SUPERIORITY||Wald tests|0.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Intent-to-treat principle using linear mixed-effects models with random intercepts to examine longitudinal change scores for the outcome.||||||<0.05
92245747|NCT04105244|184394544|SUPERIORITY||Wald test|0.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Intent-to-treat principle using linear mixed-effects models with random intercepts to examine longitudinal change scores for the outcome.||||||<0.05
92174650|NCT03858634|184241467|SUPERIORITY||LS mean difference|-5.7|STANDARD_ERROR_OF_MEAN|6.25||0.3705|TWO_SIDED|80.0|-14.06|2.58||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||2.58|-14.06|0.3705
92174651|NCT03858634|184241467|SUPERIORITY||LS mean difference|-23.0|STANDARD_ERROR_OF_MEAN|35.63||0.5644|TWO_SIDED|80.0|-81.36|35.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||35.34|-81.36|0.5644
92174652|NCT03858634|184241467|SUPERIORITY||LS mean difference|6.6|STANDARD_ERROR_OF_MEAN|13.82||0.6384|TWO_SIDED|80.0|-11.75|24.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||24.94|-11.75|0.6384
92245748|NCT04105244|184394547|SUPERIORITY||Wald test|0.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Intent-to-treat principle using linear mixed-effects models with random intercepts to examine longitudinal change scores for the outcome.||||||<0.05
92245749|NCT04105244|184394548|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92282159|NCT00453362|184468003|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.017|TWO_SIDED|95.0|0.11|0.87||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FDG Non-Responders.|The null hypothesis is that there is no difference in PFS between FDG Responders and FDG Non-Responders. The alternative hypothesis is that FDG Responders would have prolonged PFS compared with FDG Non-Responders.||0.87|0.11|0.017
92282160|NCT00453362|184468005|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.076|TWO_SIDED|95.0|0.06|1.42||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FDG Progressive Disease.|The null hypothesis is that there is no difference in PFS between FDG Responders and FDG Progressive Disease. The alternative hypothesis is that FDG Responders would have a prolonged PFS compared to FDG Progressive Disease.||1.42|0.06|0.076
92282161|NCT00453362|184468007|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.17||||0.008|TWO_SIDED|95.0|0.04|0.73||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FLT Non-Responders.|The null hypothesis is that there is no difference in PFS between FLT Responders and FLT Non-Responders. The alternative hypothesis is that FLT Responders would have prolonged PFS compared with FLT Non-Responders.||0.73|0.04|0.008
92282162|NCT00453362|184468008|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank|||The null hypothesis is that there is no difference between FLT Responders and FLT Progressive Disease. Alternative hypothesis is that FLT responders would have prolonged PFS compared to FLT Progressive Disease.||||0.049
92282163|NCT00453362|184468009|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.073|TWO_SIDED|95.0|0.11|1.16||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FDG Non-Responders.|The null hypothesis is that there is no difference in OS between FDG Responders and FDG Non-Responders. The alternative hypothesis is that FDG responders would have prolonged OS compared with FDG Non-Responders.||1.16|0.11|0.073
92245750|NCT00099359|184394572|SUPERIORITY_OR_OTHER|||||||0.046||||||Overall comparison of 3 KM curves using an extension of the M-H test was performed. Results indicated a significant difference therefore a 2nd stage analysis was done to compare each pair of transmission rates, using 2-sample Mantel-Haenzel tests.|multiple comparison|Hochberg's modified Bonferroni method was used to adjust the significance level for comparisons between arms.||||||.046
92245751|NCT00099359|184394573|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Chi-squared|||||||.0001
92245752|NCT00099359|184394574|SUPERIORITY_OR_OTHER|||||||0.2432|||||||multiple comparison|||||||.2432
92245753|NCT00099359|184394575|SUPERIORITY_OR_OTHER|||||||0.49|||||||Chi-squared|||||||0.49
92245754|NCT00099359|184394578|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.05|TWO_SIDED|95.0|0.24|1.01|||Regression, Logistic|Adjusted Odds ratio for treatment arm C (ZDV+3TC/NFV) association with Intrapartum Infection Status with Treatment Arm A (ZDV only) as reference group||||1.01|0.24|0.05
92245755|NCT00099359|184394578|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.39||||0.01|TWO_SIDED|95.0|0.19|0.82||Adjusted odds ratio for association of treatment arm B (ZDV+NVP) with intrapartum infection status with Treatment Arm A (ZDV only) as reference.|Regression, Logistic|||||0.82|0.19|0.01
92245756|NCT00099359|184394578|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51||||0.03|TWO_SIDED|95.0|1.08|5.86|||Regression, Logistic|"Adjusted odds ratio for association of illegal substance use during pregnancy and intrapartum HIV infection status with NO being reference group."||||5.86|1.08|0.03
92245757|NCT00099359|184394578|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.28|||<|0.0001|TWO_SIDED|95.0|1.56|3.35||Adjusted odds ratio for the association of continuous log10 viral load with intrapartum infection status|Regression, Logistic|||||3.35|1.56|<0.0001
92245758|NCT02104804|184394593|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.58|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.72|-0.45|||ANCOVA|||||-0.45|-0.72|<0.001
92245759|NCT02104804|184394594|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-6133.2|STANDARD_ERROR_OF_MEAN|781.06|<|0.001|TWO_SIDED|95.0|-7668.5|-4597.9|||ANCOVA|||||-4597.9|-7668.5|<0.001
92245760|NCT02104804|184394595|SUPERIORITY_OR_OTHER||Difference in Least squares mean|-39.11|STANDARD_ERROR_OF_MEAN|5.24|<|0.001|TWO_SIDED|95.0|-49.41|-28.82|||ANCOVA|||||-28.82|-49.41|<0.001
92245761|NCT02104804|184394596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8||||0.002|TWO_SIDED|95.0|3.1|12.6|||Difference in proportions|||||12.6|3.1|0.002
92245762|NCT02104804|184394597|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-15.88|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-21.53|-10.22|||ANCOVA|||||-10.22|-21.53|<0.001
92245763|NCT02104804|184394598|SUPERIORITY_OR_OTHER||Difference in Least squares mean|-0.13|STANDARD_ERROR_OF_MEAN|0.16||0.43|TWO_SIDED|95.0|-0.44|0.19|||ANCOVA|||||0.19|-0.44|0.430
92245764|NCT01179347|184394638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.64|STANDARD_ERROR_OF_MEAN|0.97||0.092||95.0|-0.27|3.55||Two-sided p-value.|Mixed Models Analysis|Restricted maximum likelihood (REML)-based MMRM. Adjusted for treatment, visit, treatment-by-visit, age group, baseline and baseline-by-visit.|Tio R5 qd minus Placebo.|Hierarchical testing procedure was applied for both co-primary endpoints to maintain the overall alpha level. If and only if statistical superiority of the Tio R5 qd compared to Placebo in FEV1 AUC0-4h was demonstrated at the 1 sided alpha level of 0.025, confirmatory comparison in the second co-primary endpoint, at the same alpha level of 0.025 could be done .||3.55|-0.27|0.092
92245765|NCT01179347|184394639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.97||0.15||95.0|-0.5|3.3||Two-sided p-value.|Mixed Models Analysis|REML-based MMRM. Adjusted for treatment, visit, treatment-by-visit, age group, baseline and baseline-by-visit.|Tio R5 qd minus Placebo.|Hierarchical testing for co-primary endpoints, confirmatory only if previous hypotheses had been successful,||3.30|-0.50|0.15
92245766|NCT01179347|184394640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09|STANDARD_ERROR_OF_MEAN|0.9||0.23||95.0|-0.68|2.86||Two-sided p-value.|Mixed Models Analysis|REML-based MMRM. Adjusted for treatment, visit, treatment-by-visit, age group, baseline and baseline-by-visit.|Tio R5 qd minus Placebo.|||2.86|-0.68|0.23
92245767|NCT01179347|184394641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.93||0.19||95.0|-0.62|3.02||Two-sided p-value.|Mixed Models Analysis|REML-based MMRM. Adjusted for treatment, visit, treatment-by-visit, age group, baseline and baseline-by-visit.|Tio R5 qd minus Placebo.|||3.02|-0.62|0.19
92245768|NCT01179347|184394642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|1.76||0.62||95.0|-2.59|4.32||Two-sided p-value.|Mixed Models Analysis|REML-based MMRM. Adjusted for treatment, visit, treatment-by-visit, age group, baseline and baseline-by-visit.|Tio R5 qd minus Placebo.|||4.32|-2.59|0.62
92245769|NCT01179347|184394643|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.092||||0.84||95.0|0.453|2.633||Two-sided p-value.|Regression, Logistic|Adjusted for treatment, age group, baseline weight and baseline FEV1 percent predicted.|Tio R5 qd versus Placebo.|||2.633|0.453|0.84
92245770|NCT04172701|184394668|OTHER||||||<|0.0001|||||||Individual log-linked Poisson model|||||||<0.0001
92245771|NCT04172701|184394669|OTHER||||||<|0.001|||||||Individual t-test or Wilcoxon test|||||||<0.001
92245772|NCT04172701|184394670|OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92245773|NCT04172701|184394671|OTHER||Hazard Ratio (HR)|1.475|||<|0.0001|TWO_SIDED|95.0|1.308|1.663|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model.The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.663|1.308|<0.0001
92245774|NCT04172701|184394672|OTHER|||||||0.0003|||||||Individual log-linked Poisson model|||||||0.0003
92245775|NCT04172701|184394673|OTHER|||||||0.001|||||||Individual t-test or Wilcoxon test|||||||0.001
92245776|NCT04172701|184394674|OTHER||Hazard Ratio (HR)|1.145||||0.0006|TWO_SIDED|95.0|1.059|1.237|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.237|1.059|0.0006
92245777|NCT04172701|184394675|OTHER|||||||0.00074|||||||Log Rank|||||||0.00074
92245778|NCT04172701|184394676|OTHER||||||<|0.0001|||||||Individual log-linked Poisson model|||||||<0.0001
92245779|NCT04172701|184394677|OTHER||Hazard Ratio (HR)|1.601|||<|0.0001|TWO_SIDED|95.0|1.404|1.826|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.826|1.404|<0.0001
92245780|NCT04172701|184394678|OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92245781|NCT04172701|184394679|OTHER|||||||0.2875|||||||Wilcoxon (Mann-Whitney)|||||||0.2875
92245782|NCT04172701|184394680|OTHER|||||||0.4602|||||||Individual t-test or Wilcoxon test|||||||0.4602
92245783|NCT04172701|184394681|OTHER|||||||0.0062|||||||Wilcoxon (Mann-Whitney)|||||||0.0062
92245784|NCT04172701|184394682|OTHER|||||||0.0002|||||||Individual t-test or Wilcoxon test|||||||0.0002
92245785|NCT04172701|184394683|OTHER|||||||0.4907|||||||Individual t-test or Wilcoxon test|||||||0.4907
92245786|NCT04172701|184394684|OTHER||||||<|0.001|||||||Individual t-test or Wilcoxon test|||||||<0.001
92245787|NCT04172701|184394685|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92245788|NCT04172701|184394686|OTHER|||||||0.543|||||||Individual t-test or Wilcoxon test|||||||0.543
92245789|NCT04172701|184394687|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.080
92245790|NCT04172701|184394688|OTHER|||||||0.363|||||||Individual t-test or Wilcoxon test|||||||0.363
92245791|NCT04172701|184394689|OTHER||||||<|0.0001|||||||Individual t-test or Wilcoxon test|||||||<0.0001
92282164|NCT00453362|184468012|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.618|TWO_SIDED|95.0|0.14|3.21||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FDG Progressive Disease.|The null hypothesis is that there is no difference in Overall Survival between FDG Responders and FDG Progressive Disease. The alternative hypothesis is that FDG Responders would have prolonged OS compared with FDG Progressive Disease.||3.21|0.14|0.618
92282165|NCT00453362|184468013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.38||||0.163|TWO_SIDED|95.0|0.09|1.57||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FLT Non-Responders.|The null hypothesis is that there is no difference in OS between FLT Responders and FLT Non-Responders. The alternative hypothesis is that FLT Responders would have prolonged OS compared with FLT Non-Responders.||1.57|0.09|0.163
92282166|NCT00453362|184468014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35||||0.327|TWO_SIDED|95.0|0.04|3.16||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FLT Progressive Disease.|The null hypothesis is that there is no difference in OS between FLT Responders and FLT Progressive Disease. The alternative hypothesis is that FLT Responders would have prolonged OS compared with FLT Progressive Disease.||3.16|0.04|0.327
92282167|NCT04885296|184468016|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference (Test - Control) was greater than -5. A 5-point increase in an average CLUE score translates into 10% shift in the distribution of scores for population of soft disposable contact lens wearers.|LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|95.0|-2.2|3.0|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test - Control|||3.0|-2.2|
92282168|NCT04885296|184468017|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference (Test - Control) was greater than -5. A 5-point increase in an average CLUE score translates into 10% shift in the distribution of scores for population of soft disposable contact lens wearers.|LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.62|||TWO_SIDED|95.0|-4.0|2.3|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test - Control|||2.3|-4.0|
92282169|NCT04885296|184468018|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference (Test - Control) was greater than -5. A 5-point increase in an average CLUE score translates into 10% shift in the distribution of scores for population of soft disposable contact lens wearers.|LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|1.61|||TWO_SIDED|95.0|-4.7|1.7|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test - Control|||1.7|-4.7|
92282170|NCT01124149|184468033|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.61|||<|0.001|TWO_SIDED|95.0|1.76|3.87|||Regression, Logistic|||||3.87|1.76|<0.001
92282171|NCT01124149|184468034|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.1|||<|0.001|TWO_SIDED|95.0|1.44|3.07|||Regression, Logistic|||||3.07|1.44|<0.001
92282172|NCT01644500|184468041|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.58|||<|0.001|TWO_SIDED|95.0|-0.76|-0.39|||Mixed Models Analysis|||||-0.39|-0.76|<0.001
92245792|NCT04172701|184394690|OTHER|||||||0.0494|||||||Individual t-test or Wilcoxon test|||||||0.0494
92245793|NCT04172701|184394691|OTHER|||||||0.0091|||||||Individual t-test or Wilcoxon test|||||||0.0091
92245794|NCT04172701|184394692|OTHER||||||<|0.0001|||||||Individual t-test or Wilcoxon test|||||||<0.0001
92245795|NCT04172701|184394693|OTHER||||||<|0.0001|||||||Individual t-test or Wilcoxon test|||||||<0.0001
92245796|NCT04172701|184394694|OTHER|||||||0.7298|||||||Individual t-test or Wilcoxon test|||||||0.7298
92245797|NCT04172701|184394695|OTHER|||||||0.0093|||||||Individual t-test or Wilcoxon test|||||||0.0093
92282173|NCT01644500|184468041|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.32|||<|0.001|TWO_SIDED|95.0|-0.5|-0.13|||Mixed Models Analysis|||||-0.13|-0.50|<0.001
92282174|NCT01644500|184468042|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.7|||<|0.001|TWO_SIDED|5.0|1.8|4.1||Treatment comparison for HbA1c ≤6.5%.|Fisher Exact|||||4.1|1.8|<0.001
92282175|NCT01644500|184468042|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.0|2.3||Treatment comparison for HbA1c ≤6.5%.|Fisher Exact|||||2.3|1.0|<0.001
92245798|NCT04172701|184394696|OTHER||||||<|0.0001|||||||Individual t-test or Wilcoxon test|||||||<0.0001
92174653|NCT03858634|184241467|SUPERIORITY||LS mean difference|-58.6|STANDARD_ERROR_OF_MEAN|58.62||0.4229|TWO_SIDED|80.0|-169.13|51.95||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||51.95|-169.13|0.4229
92245799|NCT04172701|184394697|OTHER||Cost ratio|1.177|||<|0.0001|TWO_SIDED|95.0|1.104|1.255|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.255|1.104|<0.0001
92282176|NCT01644500|184468042|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.9|||<|0.001|TWO_SIDED|95.0|1.8|4.5||Treatment comparison for HbA1c \<7.0%.|Fisher Exact|||||4.5|1.8|<0.001
92174654|NCT03858634|184241467|SUPERIORITY||LS mean difference|-16.3|STANDARD_ERROR_OF_MEAN|11.38||0.1688|TWO_SIDED|80.0|-31.47|-1.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-1.18|-31.47|0.1688
92245800|NCT04172701|184394698|OTHER||Cost ratio|1.194||||0.0103|TWO_SIDED|95.0|1.043|1.367|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.367|1.043|0.0103
92245801|NCT04172701|184394699|OTHER||Cost ratio|1.104||||0.003|TWO_SIDED|95.0|1.034|1.178|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.178|1.034|0.0030
92245802|NCT04172701|184394700|OTHER||Cost ratio|1.175|||<|0.0001|TWO_SIDED|95.0|1.13|1.221|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.221|1.130|<0.0001
92245803|NCT04172701|184394701|OTHER||Cost ratio|1.236|||<|0.0001|TWO_SIDED|95.0|1.134|1.346|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.346|1.134|<0.0001
92245804|NCT04172701|184394702|OTHER||Cost ratio|1.214||||0.0212|TWO_SIDED|95.0|1.029|1.431|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.431|1.029|0.0212
92245805|NCT04172701|184394703|OTHER||Cost ratio|1.026||||0.5024|TWO_SIDED|95.0|0.952|1.105|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.105|0.952|0.5024
92245806|NCT04172701|184394704|OTHER||Cost ratio|1.304|||<|0.0001|TWO_SIDED|95.0|1.243|1.369|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.369|1.243|<0.0001
92245807|NCT04172701|184394705|OTHER|||||||0.7198|||||||Individual log-linked Poisson model|||||||0.7198
92245808|NCT04172701|184394706|OTHER||Hazard Ratio (HR)|1.072||||0.7341|TWO_SIDED|95.0|0.719|1.598|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.598|0.719|0.7341
92245809|NCT04172701|184394707|OTHER|||||||0.74|||||||Log Rank|||||||0.74
92245810|NCT04172701|184394708|OTHER|||||||0.9985|||||||Individual log-linked Poisson model|||||||0.9985
92245811|NCT04172701|184394709|OTHER||Hazard Ratio (HR)|0.879||||0.5097|TWO_SIDED|95.0|0.6|1.289|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.289|0.600|0.5097
92245812|NCT04172701|184394710|OTHER|||||||0.51|||||||Log Rank|||||||0.51
92245813|NCT04172701|184394711|OTHER|||||||0.6069|||||||Individual log-linked Poisson model|||||||0.6069
92245814|NCT04172701|184394712|OTHER||Hazard Ratio (HR)|1.025||||0.896|TWO_SIDED|95.0|0.705|1.49|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.490|0.705|0.8960
92245815|NCT04172701|184394713|OTHER|||||||0.9|||||||Log Rank|||||||0.9
92174655|NCT03858634|184241467|SUPERIORITY||LS mean difference|-59.6|STANDARD_ERROR_OF_MEAN|28.11||0.1243|TWO_SIDED|80.0|-105.59|-13.53||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-13.53|-105.59|0.1243
92245816|NCT04172701|184394714|OTHER|||||||0.1354|||||||Individual log-linked Poisson model|||||||0.1354
92245817|NCT04172701|184394715|OTHER||Hazard Ratio (HR)|0.59||||0.1158|TWO_SIDED|95.0|0.305|1.139|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.139|0.305|0.1158
92245818|NCT04172701|184394716|OTHER|||||||0.11|||||||Log Rank|||||||0.11
92245819|NCT02757092|184394717|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245820|NCT02757092|184394718|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
92245821|NCT02757092|184394719|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245822|NCT02757092|184394720|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245823|NCT02757092|184394721|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245824|NCT02757092|184394722|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
92245825|NCT02757092|184394723|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
92245826|NCT02757092|184394724|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245827|NCT02757092|184394725|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245828|NCT02757092|184394726|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245829|NCT02757092|184394727|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245830|NCT02757092|184394728|SUPERIORITY|||||||0.05|||||||Chi-squared|||Descriptive statistics were expressed as mean ± standard deviation or median and interquartile range depending on the nature and distribution of the variables||||0.05
92245831|NCT02757092|184394729|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
92245832|NCT02757092|184394730|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245833|NCT02757092|184394731|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245834|NCT02757092|184394732|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
92245835|NCT02757092|184394734|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245836|NCT02757092|184394735|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245837|NCT02757092|184394736|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245838|NCT02757092|184394737|SUPERIORITY||||||<|0.05|||||||Chi-squared|||null hypothesis||||<0.05
92245839|NCT02757092|184394738|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
92245840|NCT02757092|184394739|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
92245841|NCT02757092|184394740|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245842|NCT02757092|184394741|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
92245843|NCT02757092|184394743|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245844|NCT02757092|184394744|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245845|NCT02757092|184394745|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92245846|NCT01975246|184394749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|95.0|-5.3|-2.4|||ANCOVA|Model includes baseline DBP as a linear covariate, and treatment and center as fixed effects.||The last observation carried forward (LOCF) method was applied for missing data, where the value from the measurements at the closest preceding visit replaced the missing value.||-2.4|-5.3|<0.0001
92245847|NCT01975246|184394750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-7.6|-3.1|||ANCOVA|Model includes baseline SBP as a linear covariate, and treatment and center as fixed effects.||The last observation carried forward (LOCF) method was applied for missing data, where the value from the measurements at the closest preceding visit replaced the missing value.||-3.1|-7.6|<0.0001
92264923|NCT01694849|184431211|SUPERIORITY||Difference in least square mean change|3.66||||0.4|TWO_SIDED|95.0|-4.89|12.2|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||12.2|-4.89|0.4
92174656|NCT03858634|184241467|SUPERIORITY||LS mean difference|6.9|STANDARD_ERROR_OF_MEAN|16.79||0.6841|TWO_SIDED|80.0|-15.35|29.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||29.22|-15.35|0.6841
92174657|NCT03858634|184241467|SUPERIORITY||LS mean difference|-53.4|STANDARD_ERROR_OF_MEAN|49.83||0.3963|TWO_SIDED|80.0|-147.31|40.59||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||40.59|-147.31|0.3963
92174658|NCT03858634|184241467|SUPERIORITY||LS mean difference|-24.1|STANDARD_ERROR_OF_MEAN|11.85||0.0571|TWO_SIDED|80.0|-39.85|-8.32||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-8.32|-39.85|0.0571
92174659|NCT03858634|184241467|SUPERIORITY||LS mean difference|-35.3|STANDARD_ERROR_OF_MEAN|40.32||0.4457|TWO_SIDED|80.0|-101.32|30.73||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||30.73|-101.32|0.4457
92174660|NCT03858634|184241467|SUPERIORITY||LS mean difference|4.4|STANDARD_ERROR_OF_MEAN|17.99||0.8075|TWO_SIDED|80.0|-19.44|28.32||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||28.32|-19.44|0.8075
92245848|NCT01975246|184394751|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||<|0.0051|TWO_SIDED|95.0|1.2|3.4|||Regression, Logistic|Logistic regression model includes treatment and center as fixed effects.||"The Non-completers considered failure (NCF) method was applied for missing data, where missing data due to early discontinuation will be replaced as failure up to the planned final visit to be reached by all patients."||3.4|1.2|<0.0051
92245849|NCT00880763|184394811|SUPERIORITY_OR_OTHER||Adjusted difference in percent|65.1|||<|0.001|TWO_SIDED|95.0|37.0|82.8|||Miettinen and Nurminen||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not).|||82.8|37.0|<0.001
92245850|NCT00880763|184394811|SUPERIORITY_OR_OTHER||Adjusted difference in percent|74.5|||<|0.001|TWO_SIDED|95.0|47.6|89.0|||Miettinen and Nurminen||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not).|||89.0|47.6|<0.001
92245851|NCT00880763|184394811|SUPERIORITY_OR_OTHER||Adjusted difference in percent|55.4|||<|0.001|TWO_SIDED|95.0|24.9|76.0|||Miettinen and Nurminen||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not).|||76.0|24.9|<0.001
92245852|NCT00880763|184394812|SUPERIORITY_OR_OTHER||Adjusted difference in percent|4.8|||||TWO_SIDED|95.0|-11.3|24.2|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||24.2|-11.3|
92245853|NCT00880763|184394812|SUPERIORITY_OR_OTHER||Adjusted difference in percent|4.9|||||TWO_SIDED|95.0|-12.4|24.2|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||24.2|-12.4|
92245854|NCT00880763|184394812|SUPERIORITY_OR_OTHER||Adjusted difference in percent|4.8|||||TWO_SIDED|95.0|-12.0|24.2|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||24.2|-12.0|
92245855|NCT00880763|184394813|SUPERIORITY_OR_OTHER||Adjusted difference in percent|14.5|||||TWO_SIDED|95.0|-2.5|36.2|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||36.2|-2.5|
92245856|NCT00880763|184394813|SUPERIORITY_OR_OTHER||Adjusted difference in percent|14.6|||||TWO_SIDED|95.0|-3.4|36.3|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||36.3|-3.4|
92245857|NCT00880763|184394813|SUPERIORITY_OR_OTHER||Adjusted difference in percent|14.4|||||TWO_SIDED|95.0|-3.3|36.1|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||36.1|-3.3|
92245858|NCT00880763|184394814|SUPERIORITY_OR_OTHER||Difference in least squares mean|-1.8|||||TWO_SIDED|95.0|-2.3|-1.2|||||Computed using a longitudinal data analysis model including treatment, time and the interaction of time by treatment, with a restriction of the same baseline mean across treatment groups.|||-1.2|-2.3|
92245859|NCT00880763|184394814|SUPERIORITY_OR_OTHER||Difference in least squares mean|-1.9|||||TWO_SIDED|95.0|-2.4|-1.3|||||Computed using a longitudinal data analysis model including treatment, time and the interaction of time by treatment, with a restriction of the same baseline mean across treatment groups.|||-1.3|-2.4|
92245860|NCT00880763|184394814|SUPERIORITY_OR_OTHER||Difference in least squares mean|-1.6|||||TWO_SIDED|95.0|-2.2|-1.1|||||Computed using a longitudinal data analysis model including treatment, time and the interaction of time by treatment, with a restriction of the same baseline mean across treatment groups.|||-1.1|-2.2|
92245861|NCT03353753|184394839|SUPERIORITY||Hazard Ratio, log|0.15|||<|0.0001|TWO_SIDED|95.0|0.09|0.25||Two-sided P-value|Log Rank|Strata: prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)|Ripretinib: Placebo; based on stratified Cox Proportional Hazards Regression Model using randomization stratification factors \[prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)\]|||0.25|0.09|<0.0001
92245862|NCT03353753|184394840|SUPERIORITY|||||||0.0504||||||Two-sided P-value|Fisher Exact|||||||0.0504
92245863|NCT03353753|184394842|SUPERIORITY||Hazard Ratio (HR)|0.36||||0.0004|TWO_SIDED|95.0|0.21|0.62||Not evaluated for statistical significance as a result of the sequential testing procedure for the secondary endpoints of ORR and OS.|Log Rank|Strata: prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)|Ripretinib: Placebo; based on stratified Cox Proportional Hazards Regression Model using randomization stratification factors \[prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)\]|||0.62|0.21|0.0004
92245864|NCT03353753|184394843|SUPERIORITY|||||||0.001||||||Not evaluated for statistical significance as a result of the sequential testing procedure for the secondary endpoints of ORR, OS, and QOL.|ANCOVA|Factors: prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)||||||0.001
92245865|NCT03353753|184394844|SUPERIORITY|||||||0.004||||||Not evaluated for statistical significance as a result of the sequential testing procedure for the secondary endpoints of ORR, OS, and QOL.|ANCOVA|Factors: prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)||||||0.004
92245866|NCT03353753|184394845|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92245867|NCT00600028|184394846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.001|TWO_SIDED|95.0|||||Mixed Models Analysis||The values represents three months on each intervention|||||0.001
92245868|NCT00600028|184394847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis||The values represents three months on each intervention|||||.0001
92245869|NCT04397718|184395025|SUPERIORITY||Odds Ratio (OR)|1.19||||0.667|TWO_SIDED|95.0|0.46|3.06|||Chi-squared||Logistic regression adjusted for age, hypertension, and COPD|||3.06|0.46|0.667
92245870|NCT04397718|184395026|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.876|TWO_SIDED|95.0|0.58|1.49|||Log Rank||Cox regression model adjusted for age, hypertension, and COPD.|||1.49|0.58|0.876
92245871|NCT04397718|184395027|SUPERIORITY||Odds Ratio (OR)|0.95||||0.991|TWO_SIDED|95.0|0.31|2.92|||Chi-squared||Logistic regression adjusted for age, hypertension, and COPD.|||2.92|0.31|0.991
92245872|NCT04397718|184395028|SUPERIORITY||Quantile Regression|0.0||||0.841|TWO_SIDED|95.0|-2.03|4.11|||Wilcoxon (Mann-Whitney)||Adjusted for age, hypertension, and COPD|||4.11|-2.03|0.841
92245873|NCT04397718|184395029|SUPERIORITY||Quantile Regression|0.0||||0.746|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)||Adjusted for age, hypertension, and COPD|||0|0|0.746
92245874|NCT04397718|184395030|SUPERIORITY||Hazard Ratio (HR)|2.3||||0.1|TWO_SIDED|95.0|0.72|7.39|||Log Rank||Cox regression model adjusted for age, hypertension, and COPD|||7.39|0.72|0.1
92245875|NCT04397718|184395031|SUPERIORITY||Odds Ratio (OR)|0.82||||0.425|TWO_SIDED|95.0|0.33|2.0|||Fisher Exact||||Logistical regression adjusted for age, hypertension, COPD, and baseline severity score.|2|0.33|0.425
92174661|NCT03858634|184241467|SUPERIORITY||LS mean difference|-57.7|STANDARD_ERROR_OF_MEAN|55.75||0.4093|TWO_SIDED|80.0|-162.84|47.4||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||47.40|-162.84|0.4093
92174662|NCT03858634|184241467|SUPERIORITY||LS mean difference|-27.6|STANDARD_ERROR_OF_MEAN|13.4||0.0543|TWO_SIDED|80.0|-45.42|-9.76||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-9.76|-45.42|0.0543
92174663|NCT03858634|184241467|SUPERIORITY||LS mean difference|-31.0|STANDARD_ERROR_OF_MEAN|37.75||0.4711|TWO_SIDED|80.0|-92.88|30.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||30.78|-92.88|0.4711
92174664|NCT03858634|184241467|SUPERIORITY||LS mean difference|13.0|STANDARD_ERROR_OF_MEAN|14.89||0.3925|TWO_SIDED|80.0|-6.74|32.79||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||32.79|-6.74|0.3925
92174665|NCT03858634|184241467|SUPERIORITY||LS mean difference|-48.7|STANDARD_ERROR_OF_MEAN|61.24||0.5095|TWO_SIDED|80.0|-164.22|66.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||66.72|-164.22|0.5095
92174666|NCT03858634|184241467|SUPERIORITY||LS mean difference|-33.8|STANDARD_ERROR_OF_MEAN|13.22||0.0199|TWO_SIDED|80.0|-51.35|-16.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-16.18|-51.35|0.0199
92245876|NCT04397718|184395032|SUPERIORITY||Odds Ratio (OR)|1.22||||0.688|TWO_SIDED|95.0|0.44|3.42|||Chi-squared||Logistic regression adjusted for age, hypertension, and COPD.|||3.42|0.44|0.688
92245877|NCT00906074|184395071|SUPERIORITY_OR_OTHER|||||||0.881|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Neoplasm||||0.881
92282177|NCT01644500|184468042|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6||||0.192|TWO_SIDED|95.0|1.1|2.5||Treatment comparison for HbA1c \<7.0%.|Fisher Exact|||||2.5|1.1|0.192
92174667|NCT03858634|184241467|SUPERIORITY||LS mean difference|-42.8|STANDARD_ERROR_OF_MEAN|34.48||0.3029|TWO_SIDED|80.0|-99.26|13.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||13.69|-99.26|0.3029
92174668|NCT03858634|184241467|SUPERIORITY||LS mean difference|10.9|STANDARD_ERROR_OF_MEAN|12.97||0.4094|TWO_SIDED|80.0|-6.28|28.16||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||28.16|-6.28|0.4094
92282178|NCT01644500|184468043|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.83|||<|0.001|TWO_SIDED|95.0|-1.15|-0.51|||Mixed Models Analysis|||||-0.51|-1.15|<0.001
92174669|NCT03858634|184241467|SUPERIORITY||LS mean difference|-49.8|STANDARD_ERROR_OF_MEAN|58.25||0.4828|TWO_SIDED|80.0|-159.63|60.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||60.05|-159.63|0.4828
92174670|NCT03858634|184241467|SUPERIORITY||LS mean difference|-32.8|STANDARD_ERROR_OF_MEAN|14.66||0.0383|TWO_SIDED|80.0|-52.26|-13.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-13.26|-52.26|0.0383
92245878|NCT00906074|184395071|SUPERIORITY_OR_OTHER|||||||0.517|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Tobacco use||||0.517
92174671|NCT03858634|184241467|SUPERIORITY||LS mean difference|-26.1|STANDARD_ERROR_OF_MEAN|37.1||0.5322|TWO_SIDED|80.0|-86.66|34.65||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||34.65|-86.66|0.5322
92174672|NCT03858634|184241467|SUPERIORITY||LS mean difference|-6.2|STANDARD_ERROR_OF_MEAN|13.71||0.6577|TWO_SIDED|80.0|-24.38|12.03||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||12.03|-24.38|0.6577
92174673|NCT03858634|184241467|SUPERIORITY||LS mean difference|-38.3|STANDARD_ERROR_OF_MEAN|67.21||0.6259|TWO_SIDED|80.0|-165.08|88.4||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||88.40|-165.08|0.6259
92174674|NCT03858634|184241467|SUPERIORITY||LS mean difference|-35.7|STANDARD_ERROR_OF_MEAN|15.27||0.0312|TWO_SIDED|80.0|-56.01|-15.38||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-15.38|-56.01|0.0312
92174675|NCT03858634|184241467|SUPERIORITY||LS mean difference|-108.3|STANDARD_ERROR_OF_MEAN|18.73||0.0103|TWO_SIDED|80.0|-138.97|-77.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-77.61|-138.97|0.0103
92174676|NCT03858634|184241467|SUPERIORITY||LS mean difference|10.0|STANDARD_ERROR_OF_MEAN|12.43||0.433|TWO_SIDED|80.0|-6.59|26.56||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||26.56|-6.59|0.4330
92174677|NCT03858634|184241467|SUPERIORITY||LS mean difference|-37.7|STANDARD_ERROR_OF_MEAN|64.23||0.6165|TWO_SIDED|80.0|-158.82|83.39||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||83.39|-158.82|0.6165
92245879|NCT00906074|184395071|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||BMI(kg/mˆ2)\>30||||0.053
92245880|NCT00906074|184395071|SUPERIORITY_OR_OTHER|||||||0.289|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Diabetes mellitus||||0.289
92245881|NCT00906074|184395071|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Immunosuppression/Corticosteroids||||1.000
92245882|NCT00906074|184395071|SUPERIORITY_OR_OTHER|||||||0.169|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Anemia (Hb\<9gr/dL)||||0.169
92245883|NCT00906074|184395071|SUPERIORITY_OR_OTHER|||||||0.637|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Malnutrition (hypoalbuminemia)||||0.637
92282179|NCT01644500|184468043|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.38||||0.022|TWO_SIDED|95.0|-0.7|-0.05|||Mixed Models Analysis|||||-0.05|-0.70|0.022
92282180|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.67|||<|0.001|TWO_SIDED|95.0|-0.89|-0.45||Treatment comparison for morning (fasting).|Mixed Models Analysis|||||-0.45|-0.89|<0.001
92282181|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.12||||0.304|TWO_SIDED|95.0|-0.34|0.11||Treatment comparison for morning (fasting).|Mixed Models Analysis|||||0.11|-0.34|0.304
92245884|NCT00906074|184395072|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||||||1.000
92245885|NCT00906074|184395073|SUPERIORITY_OR_OTHER|||||||0.873|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||||||0.873
92174678|NCT03858634|184241467|SUPERIORITY||LS mean difference|-32.0|STANDARD_ERROR_OF_MEAN|15.13||0.0488|TWO_SIDED|80.0|-52.11|-11.84||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-11.84|-52.11|0.0488
92245886|NCT00906074|184395078|SUPERIORITY_OR_OTHER|||||||0.156|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||||||0.156
92245887|NCT00906074|184395079|SUPERIORITY_OR_OTHER|||||||0.444|TWO_SIDED||||||Fisher Exact|||||||0.444
92245888|NCT01778127|184395096|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||||||0.90
92245889|NCT01778127|184395096|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||t-test, 2 sided|||||||0.18
92245890|NCT01778127|184395096|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||t-test, 2 sided|||||||0.14
92174679|NCT03858634|184241467|SUPERIORITY||LS mean difference|-19.2|STANDARD_ERROR_OF_MEAN|39.9||0.6636|TWO_SIDED|80.0|-84.53|46.16||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||46.16|-84.53|0.6636
92174680|NCT03858634|184241467|SUPERIORITY||LS mean difference|23.9|STANDARD_ERROR_OF_MEAN|11.75||0.0583|TWO_SIDED|80.0|8.18|39.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||39.52|8.18|0.0583
92174681|NCT03858634|184241467|SUPERIORITY||LS mean difference|-45.1|STANDARD_ERROR_OF_MEAN|54.87||0.4975|TWO_SIDED|80.0|-148.55|58.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||58.36|-148.55|0.4975
92174682|NCT03858634|184241467|SUPERIORITY||LS mean difference|-30.5|STANDARD_ERROR_OF_MEAN|15.54||0.0653|TWO_SIDED|80.0|-51.17|-9.82||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-9.82|-51.17|0.0653
92174683|NCT03858634|184241467|SUPERIORITY||LS mean difference|-23.4|STANDARD_ERROR_OF_MEAN|43.98||0.6316|TWO_SIDED|80.0|-95.42|48.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||48.62|-95.42|0.6316
92174684|NCT03858634|184241467|SUPERIORITY||LS mean difference|26.6|STANDARD_ERROR_OF_MEAN|14.68||0.0874|TWO_SIDED|80.0|7.05|46.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||46.18|7.05|0.0874
92174685|NCT03858634|184241467|SUPERIORITY||LS mean difference|-45.0|STANDARD_ERROR_OF_MEAN|50.39||0.4662|TWO_SIDED|80.0|-139.99|50.03||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||50.03|-139.99|0.4662
92174686|NCT03858634|184241467|SUPERIORITY||LS mean difference|-25.6|STANDARD_ERROR_OF_MEAN|15.12||0.1073|TWO_SIDED|80.0|-45.76|-5.51||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||-5.51|-45.76|0.1073
92174687|NCT03858634|184241467|SUPERIORITY||LS mean difference|-23.3|STANDARD_ERROR_OF_MEAN|42.31||0.6197|TWO_SIDED|80.0|-92.62|45.96||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||45.96|-92.62|0.6197
92174688|NCT03858634|184241467|SUPERIORITY||LS mean difference|20.6|STANDARD_ERROR_OF_MEAN|14.97||0.1868|TWO_SIDED|80.0|0.63|40.55||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||40.55|0.63|0.1868
92174689|NCT03858634|184241467|SUPERIORITY||LS mean difference|-55.0|STANDARD_ERROR_OF_MEAN|43.32||0.3321|TWO_SIDED|80.0|-136.65|26.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||26.71|-136.65|0.3321
92245891|NCT01778127|184395097|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||t-test, 2 sided|||||||0.49
92245892|NCT01778127|184395097|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||t-test, 2 sided|||||||0.84
92174690|NCT03858634|184241467|SUPERIORITY||LS mean difference|-24.8|STANDARD_ERROR_OF_MEAN|15.67||0.131|TWO_SIDED|80.0|-45.64|-3.95||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-3.95|-45.64|0.1310
92245893|NCT01778127|184395097|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||t-test, 2 sided|||||||0.37
92245894|NCT01778127|184395098|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
92174691|NCT03858634|184241467|SUPERIORITY||LS mean difference|-12.0|STANDARD_ERROR_OF_MEAN|46.49||0.8128|TWO_SIDED|80.0|-88.15|64.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||64.13|-88.15|0.8128
92174692|NCT03858634|184241467|SUPERIORITY||LS mean difference|24.7|STANDARD_ERROR_OF_MEAN|14.23||0.1004|TWO_SIDED|80.0|5.75|43.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||43.69|5.75|0.1004
92174693|NCT03858634|184241467|SUPERIORITY||LS mean difference|-62.8|STANDARD_ERROR_OF_MEAN|44.81||0.2962|TWO_SIDED|80.0|-147.28|21.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||21.71|-147.28|0.2962
92174694|NCT03858634|184241467|SUPERIORITY||LS mean difference|-26.5|STANDARD_ERROR_OF_MEAN|16.4||0.1236|TWO_SIDED|80.0|-48.31|-4.67||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||-4.67|-48.31|0.1236
92174695|NCT03858634|184241467|SUPERIORITY||LS mean difference|-4.5|STANDARD_ERROR_OF_MEAN|45.55||0.9276|TWO_SIDED|80.0|-79.1|70.11||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||70.11|-79.10|0.9276
92174696|NCT03858634|184241467|SUPERIORITY||LS mean difference|19.5|STANDARD_ERROR_OF_MEAN|13.46||0.1657|TWO_SIDED|80.0|1.55|37.45||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||37.45|1.55|0.1657
92174697|NCT03858634|184241467|SUPERIORITY||LS mean difference|-58.4|STANDARD_ERROR_OF_MEAN|47.8||0.3461|TWO_SIDED|80.0|-148.54|31.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||31.71|-148.54|0.3461
92245895|NCT01778127|184395098|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||t-test, 2 sided|||||||0.63
92245896|NCT01778127|184395098|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||t-test, 2 sided|||||||0.09
92245897|NCT01778127|184395099|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||t-test, 2 sided|||||||0.49
92245898|NCT01778127|184395099|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||t-test, 2 sided|||||||0.43
92245899|NCT01778127|184395099|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||t-test, 2 sided|||||||0.89
92245900|NCT01778127|184395100|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||t-test, 2 sided|||||||0.61
92245901|NCT01778127|184395100|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||t-test, 2 sided|||||||0.64
92245902|NCT01778127|184395100|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||t-test, 2 sided|||||||0.99
92245903|NCT01778127|184395101|SUPERIORITY_OR_OTHER|||||||0.69|TWO_SIDED||||||t-test, 2 sided|||||||0.69
92245904|NCT01778127|184395101|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||t-test, 2 sided|||||||0.89
92245905|NCT01778127|184395101|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||t-test, 2 sided|||||||0.59
92245906|NCT01778127|184395102|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||t-test, 2 sided|||||||0.78
92245907|NCT01778127|184395102|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||t-test, 2 sided|||||||0.95
92245908|NCT01778127|184395102|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
92245909|NCT01778127|184395103|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
92245910|NCT01778127|184395103|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
92245911|NCT01778127|184395103|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||t-test, 2 sided|||||||0.99
92245912|NCT01778127|184395104|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||t-test, 2 sided|||||||0.44
92245913|NCT01778127|184395104|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||t-test, 2 sided|||||||0.19
92245914|NCT01778127|184395104|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||t-test, 2 sided|||||||0.54
92282182|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.36|||<|0.001|TWO_SIDED|95.0|-1.8|-0.92||Treatment comparison for morning (2 hours post-prandial) meal.|Mixed Models Analysis|||||-0.92|-1.80|<0.001
92245915|NCT01778127|184395105|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||t-test, 2 sided|||||||0.17
92282183|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.55||||0.015|TWO_SIDED|95.0|-0.99|-0.11||Treatment comparison for morning (2 hours post-prandial) meal.|Mixed Models Analysis|||||-0.11|-0.99|0.015
92282184|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.73|||<|0.001|TWO_SIDED|95.0|-1.1|-0.36||Treatment comparison for midday (pre-prandial) meal.|Mixed Models Analysis|||||-0.36|-1.10|<0.001
92282185|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.06||||0.74|TWO_SIDED|95.0|-0.43|0.31||Treatment comparison for midday (pre-prandial) meal.|Mixed Models Analysis|||||0.31|-0.43|0.740
92282186|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.56|||<|0.001|TWO_SIDED|95.0|-1.99|-1.13||Treatment comparison of midday (2 hours post-prandial) meal.|Mixed Models Analysis|||||-1.13|-1.99|<0.001
92282187|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.81|||<|0.001|TWO_SIDED|95.0|-1.24|-0.39||Treatment comparison of midday (2 hours post-prandial) meal.|Mixed Models Analysis|||||-0.39|-1.24|<0.001
92282188|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.67|||<|0.001|TWO_SIDED|95.0|-1.0|-0.34||Treatment comparison for evening (pre-prandial) meal.|Mixed Models Analysis|||||-0.34|-1.00|<0.001
92282189|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.08||||0.638|TWO_SIDED|95.0|-0.41|0.25||Treatment comparison for evening (pre-prandial) meal.|Mixed Models Analysis|||||0.25|-0.41|0.638
92282190|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.27|||<|0.001|TWO_SIDED|95.0|-1.68|-0.87||Treatment comparison for evening (2 hours post-prandial) meal.|Mixed Models Analysis|||||-0.87|-1.68|<0.001
92282191|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.45||||0.03|TWO_SIDED|95.0|-0.85|-0.04||Treatment comparison for evening (2 hours post-prandial) meal.|Mixed Models Analysis|||||-0.04|-0.85|0.030
92282192|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.19|||<|0.001|TWO_SIDED|95.0|-1.56|-0.82||Treatment comparison for bedtime.|Mixed Models Analysis|||||-0.82|-1.56|<0.001
92245916|NCT01778127|184395105|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||t-test, 2 sided|||||||0.13
92245917|NCT01778127|184395105|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||t-test, 2 sided|||||||0.81
92245918|NCT01778127|184395106|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||t-test, 2 sided|||||||0.08
92245919|NCT01778127|184395106|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||t-test, 2 sided|||||||0.15
92245920|NCT01778127|184395106|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
92245921|NCT01778127|184395107|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92245922|NCT01778127|184395107|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||t-test, 2 sided|||||||0.11
92282193|NCT01644500|184468044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.66|||<|0.001|TWO_SIDED|95.0|-1.03|-0.29||Treatment comparison for bedtime.|Mixed Models Analysis|||||-0.29|-1.03|<0.001
92282194|NCT01644500|184468045|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Treatment comparison for all hypoglycemic episodes.|Negative binomial regression model|||||||<0.001
92282195|NCT01644500|184468045|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Treatment comparison for all hypoglycemic episodes.|Negative binomial regression model|||||||<0.001
92282196|NCT01644500|184468045|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||||||Treatment comparison for nocturnal hypoglycemic episodes. Nocturnal hypoglycemic episodes are rounded off to 2 decimal places.|Negative binomial regression model|||||||0.008
92282197|NCT01644500|184468045|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||||||Treatment comparison for nocturnal hypoglycemic episodes. Nocturnal hypoglycemic episodes are rounded off to 2 decimal places.|Negative binomial regression model|||||||0.006
92282198|NCT01644500|184468046|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92282199|NCT01644500|184468046|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92282200|NCT01644500|184468047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.41|||<|0.001|TWO_SIDED|95.0|11.27|23.55|||ANCOVA|||Insulin HOMA2-%B||23.55|11.27|<0.001
92282201|NCT01644500|184468047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.92||||0.012|TWO_SIDED|95.0|1.78|14.06|||ANCOVA|||Insulin HOMA2%B||14.06|1.78|0.012
92282202|NCT01644500|184468047|SUPERIORITY||Mean Difference (Net)|16.44|||<|0.001|TWO_SIDED|95.0|11.81|21.06|||ANCOVA|||C-Peptide-Based HOMA2-%B||21.06|11.81|<0.001
92282203|NCT01644500|184468047|SUPERIORITY||Mean Difference (Net)|9.99|||<|0.001|TWO_SIDED|95.0|5.36|14.62|||ANCOVA|||C-Peptide-Based HOMA2-%B||14.62|5.36|<0.001
92282204|NCT01644500|184468048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.34||||0.913|TWO_SIDED|95.0|-5.83|6.51|||ANCOVA|||Insulin-Based HOMA2%S||6.51|-5.83|0.913
92282205|NCT01644500|184468048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-3.14||||0.318|TWO_SIDED|95.0|-9.3|3.03|||ANCOVA|||Insulin-Based HOMA2%S||3.03|-9.30|0.318
92282206|NCT01644500|184468048|SUPERIORITY||Mean Difference (Net)|-1.39||||0.576|TWO_SIDED|95.0|-6.27|3.49|||ANCOVA|||C-Peptide-Based HOMA2-%S||3.49|-6.27|0.576
92282207|NCT01644500|184468048|SUPERIORITY||Mean Difference (Net)|-6.79||||0.007|TWO_SIDED|95.0|-11.68|-1.89|||ANCOVA|||C-Peptide-Based HOMA2-%S||-1.89|-11.68|0.007
92282208|NCT01644500|184468051|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18||||||Treatment comparison for SBP.|Mixed Models Analysis|||||||0.180
92282209|NCT01644500|184468051|SUPERIORITY_OR_OTHER_LEGACY|||||||0.245||||||Treatment comparison for SBP.|Mixed Models Analysis|||||||0.245
92282210|NCT01644500|184468051|SUPERIORITY_OR_OTHER_LEGACY|||||||0.717||||||Treatment comparison for DBP.|Mixed Models Analysis|||||||0.717
92282211|NCT01644500|184468051|SUPERIORITY_OR_OTHER_LEGACY|||||||0.619||||||Treatment comparison for DBP.|Mixed Models Analysis|||||||0.619
92282212|NCT01644500|184468052|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92282213|NCT01644500|184468052|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|||||||Mixed Models Analysis|||||||0.035
92174698|NCT03858634|184241467|SUPERIORITY||LS mean difference|-27.6|STANDARD_ERROR_OF_MEAN|16.51||0.1118|TWO_SIDED|80.0|-49.58|-5.64||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-5.64|-49.58|0.1118
92174699|NCT03858634|184241467|SUPERIORITY||LS mean difference|-18.9|STANDARD_ERROR_OF_MEAN|43.24||0.6912|TWO_SIDED|80.0|-89.75|51.89||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||51.89|-89.75|0.6912
92174700|NCT03858634|184241467|SUPERIORITY||LS mean difference|22.9|STANDARD_ERROR_OF_MEAN|13.07||0.0973|TWO_SIDED|80.0|5.5|40.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||40.35|5.50|0.0973
92174701|NCT03858634|184241467|SUPERIORITY||LS mean difference|-57.7|STANDARD_ERROR_OF_MEAN|40.33||0.289|TWO_SIDED|80.0|-133.72|18.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||18.37|-133.72|0.2890
92174702|NCT03858634|184241467|SUPERIORITY||LS mean difference|-21.9|STANDARD_ERROR_OF_MEAN|17.68||0.231|TWO_SIDED|80.0|-45.43|1.6||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||1.60|-45.43|0.2310
92174703|NCT03858634|184241467|SUPERIORITY||LS mean difference|-12.7|STANDARD_ERROR_OF_MEAN|45.17||0.7967|TWO_SIDED|80.0|-86.69|61.28||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||61.28|-86.69|0.7967
92174704|NCT03858634|184241467|SUPERIORITY||LS mean difference|16.5|STANDARD_ERROR_OF_MEAN|14.98||0.2868|TWO_SIDED|80.0|-3.5|36.44||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||36.44|-3.50|0.2868
92245923|NCT01778127|184395107|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||t-test, 2 sided|||||||0.81
92245924|NCT01348425|184395111|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin is +/- 10%, type I error is assumed to be 0.05, with a power of 0.8.|Mean Difference (Final Values)|0.7|STANDARD_DEVIATION|4.1|<|0.01|TWO_SIDED|95.0|-2.0|3.5||Schuirman's TOST equivalence test on change in stent length upon deployment between longer and shorter stents.|t-test, 2 sided|To test the hypothesis whether the percent change in stent length is contained within \[-10%, 10%\].||The alternative hypothesis is equivalence in mean change in stent length upon deployment between longer and shorter stents, i.e., the difference in mean change between the longer and shorter stents is close to 0. Thus, a small p-value indicates a 95% confidence interval covers 0.||3.5|-2.0|<0.01
92245925|NCT01968954|184395127|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-57.0|STANDARD_ERROR_OF_MEAN|2.0|<|0.001|TWO_SIDED|95.0|-61.0|-53.1|||Mixed Model Repeated Measures (MMRM)|||LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-53.1|-61.0|<0.001
92245926|NCT01968954|184395128|SUPERIORITY_OR_OTHER||LS mean difference|-36.2|STANDARD_ERROR_OF_MEAN|1.33|<|0.001|TWO_SIDED|95.0|-38.8|-33.6|||MMRM|||Week 12: LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-33.6|-38.8|<0.001
92245927|NCT01968954|184395128|SUPERIORITY_OR_OTHER||LS mean difference|-34.7|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|95.0|-37.7|-31.7||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-31.7|-37.7|
92174705|NCT03858634|184241467|SUPERIORITY||LS mean difference|-64.9|STANDARD_ERROR_OF_MEAN|38.83||0.2369|TWO_SIDED|80.0|-138.08|8.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||8.37|-138.08|0.2369
92174706|NCT03858634|184241467|SUPERIORITY||LS mean difference|-21.9|STANDARD_ERROR_OF_MEAN|17.34||0.2228|TWO_SIDED|80.0|-44.97|1.17||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||1.17|-44.97|0.2228
92174707|NCT03858634|184241467|SUPERIORITY||LS mean difference|-14.9|STANDARD_ERROR_OF_MEAN|47.51||0.774|TWO_SIDED|80.0|-92.74|62.89||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||62.89|-92.74|0.7740
92174708|NCT03858634|184241467|SUPERIORITY||LS mean difference|15.1|STANDARD_ERROR_OF_MEAN|14.14||0.3|TWO_SIDED|80.0|-3.74|33.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||33.98|-3.74|0.3000
92245928|NCT01968954|184395128|SUPERIORITY_OR_OTHER||LS mean difference|-29.0|STANDARD_ERROR_OF_MEAN|1.69|||TWO_SIDED|95.0|-32.3|-25.7||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-25.7|-32.3|
92282214|NCT01644500|184468055|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92282215|NCT01644500|184468055|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92282216|NCT01644500|184468056|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92282217|NCT01644500|184468056|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92282218|NCT04084483|184468099|SUPERIORITY|||||||0.2175|||||||ANCOVA|||||||0.2175
92245929|NCT01968954|184395129|SUPERIORITY_OR_OTHER||LS mean difference|-51.6|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-55.2|-48.1|||MMRM|||Week 12: LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-48.1|-55.2|<0.001
92245930|NCT01968954|184395129|SUPERIORITY_OR_OTHER||LS mean Difference|-50.6|STANDARD_ERROR_OF_MEAN|2.15|||TWO_SIDED|95.0|-54.9|-46.4||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-46.4|-54.9|
92245931|NCT01968954|184395129|SUPERIORITY_OR_OTHER||LS mean difference|-41.2|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|-45.8|-36.5||||||Week 52:LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-36.5|-45.8|
92245932|NCT01968954|184395130|SUPERIORITY_OR_OTHER||LS mean difference|-51.5|STANDARD_ERROR_OF_MEAN|1.84|<|0.001|TWO_SIDED|95.0|-55.1|-47.9|||MMRM|||Week 12: LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-47.9|-55.1|<0.001
92245933|NCT01968954|184395130|SUPERIORITY_OR_OTHER||LS mean difference|-50.6|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|-54.6|-46.6||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-46.6|-54.6|
92245934|NCT01968954|184395130|SUPERIORITY_OR_OTHER||LS mean difference|-40.8|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-45.2|-36.3||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-36.3|-45.2|
92245935|NCT01968954|184395131|SUPERIORITY_OR_OTHER||LS mean difference|-2.9|STANDARD_ERROR_OF_MEAN|16.55||0.86|TWO_SIDED|95.0|-35.4|29.5|||MMRM|||Week 12: LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||29.5|-35.4|0.860
92245936|NCT01968954|184395131|SUPERIORITY_OR_OTHER||LS mean difference|2.1|STANDARD_ERROR_OF_MEAN|25.11|||TWO_SIDED|95.0|-47.2|51.4||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||51.4|-47.2|
92245937|NCT01968954|184395131|SUPERIORITY_OR_OTHER||LS mean difference|12.9|STANDARD_ERROR_OF_MEAN|29.25|||TWO_SIDED|95.0|-44.5|70.4||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||70.4|-44.5|
92245938|NCT01968954|184395132|SUPERIORITY_OR_OTHER||LS mean difference|4.7|STANDARD_ERROR_OF_MEAN|1.19|<|0.001|TWO_SIDED|95.0|2.4|7.0|||MMRM|||Week 12: LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||7.0|2.4|<0.001
92245939|NCT01968954|184395132|SUPERIORITY_OR_OTHER||LS mean difference|6.8|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|95.0|4.5|9.1||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||9.1|4.5|
92282219|NCT04084483|184468100|SUPERIORITY|||||||0.3852|||||||ANCOVA|||||||0.3852
92282220|NCT04084483|184468101|SUPERIORITY|||||||0.298|||||||ANCOVA|||||||0.2980
92174709|NCT03858634|184241467|SUPERIORITY||LS mean difference|-72.4|STANDARD_ERROR_OF_MEAN|31.37||0.1472|TWO_SIDED|80.0|-131.59|-13.3||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||-13.30|-131.59|0.1472
92282221|NCT04084483|184468102|SUPERIORITY|||||||0.0634|||||||ANCOVA|||||||0.0634
92174710|NCT03858634|184241467|SUPERIORITY||LS mean difference|-12.4|STANDARD_ERROR_OF_MEAN|20.56||0.5536|TWO_SIDED|80.0|-39.77|14.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||14.94|-39.77|0.5536
92174711|NCT03858634|184241467|SUPERIORITY||LS mean difference|-17.6|STANDARD_ERROR_OF_MEAN|43.65||0.7131|TWO_SIDED|80.0|-89.13|53.84||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||53.84|-89.13|0.7131
92174712|NCT03858634|184241467|SUPERIORITY||LS mean difference|13.9|STANDARD_ERROR_OF_MEAN|15.27||0.3762|TWO_SIDED|80.0|-6.49|34.24||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||34.24|-6.49|0.3762
92174713|NCT03858634|184241467|SUPERIORITY||LS mean difference|-74.1|STANDARD_ERROR_OF_MEAN|31.37||0.1419|TWO_SIDED|80.0|-133.26|-14.97||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-14.97|-133.26|0.1419
92282222|NCT04084483|184468103|SUPERIORITY|||||||0.7388|||||||ANCOVA|||Corneal Sum||||0.7388
92282223|NCT04084483|184468103|SUPERIORITY|||||||0.3717|||||||ANCOVA|||Corneal Sum||||0.3717
92282224|NCT04084483|184468103|SUPERIORITY|||||||0.3164|||||||ANCOVA|||Conjunctival Sum||||0.3164
92282225|NCT04084483|184468103|SUPERIORITY|||||||0.1953|||||||ANCOVA|||Conjunctival Sum||||0.1953
92282226|NCT04084483|184468103|SUPERIORITY|||||||0.4645|||||||ANCOVA|||Total Eye Sum||||0.4645
92245940|NCT01968954|184395132|SUPERIORITY_OR_OTHER||LS mean difference|3.3|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|95.0|0.9|5.8||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||5.8|0.9|
92282227|NCT04084483|184468103|SUPERIORITY|||||||0.2135|||||||ANCOVA|||Total Eye Sum||||0.2135
92174714|NCT03858634|184241467|SUPERIORITY||LS mean difference|-11.6|STANDARD_ERROR_OF_MEAN|20.74||0.5817|TWO_SIDED|80.0|-39.22|15.95||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||15.95|-39.22|0.5817
92174715|NCT03858634|184241469|SUPERIORITY||LS mean difference|27.7|STANDARD_ERROR_OF_MEAN|55.77||0.6532|TWO_SIDED|80.0|-63.6|119.06||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||119.06|-63.60|0.6532
92282228|NCT04084483|184468104|SUPERIORITY|||||||0.599|||||||ANCOVA|||||||0.5990
92174716|NCT03858634|184241469|SUPERIORITY||LS mean difference|23.6|STANDARD_ERROR_OF_MEAN|9.23||0.0187|TWO_SIDED|80.0|11.38|35.85||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||35.85|11.38|0.0187
92174717|NCT03858634|184241469|SUPERIORITY||LS mean difference|-39.3|STANDARD_ERROR_OF_MEAN|44.53||0.4707|TWO_SIDED|80.0|-123.27|44.68||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||44.68|-123.27|0.4707
92282229|NCT04084483|184468104|SUPERIORITY|||||||0.2122|||||||ANCOVA|||||||0.2122
92282230|NCT04084483|184468105|SUPERIORITY|||||||0.9146|||||||ANCOVA|||||||0.9146
92282231|NCT04084483|184468105|SUPERIORITY|||||||0.8494|||||||ANCOVA|||||||0.8494
92282232|NCT04084483|184468106|SUPERIORITY|||||||0.4747|||||||ANCOVA|||||||0.4747
92282233|NCT04084483|184468106|SUPERIORITY|||||||0.5619|||||||ANCOVA|||||||0.5619
92245941|NCT01968954|184395133|SUPERIORITY_OR_OTHER||LS mean difference|-59.1|STANDARD_ERROR_OF_MEAN|2.19|<|0.001|TWO_SIDED|95.0|-63.4|-54.8|||MMRM|||LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-54.8|-63.4|<0.001
92245942|NCT01968954|184395134|SUPERIORITY_OR_OTHER||LS mean difference|-48.7|STANDARD_ERROR_OF_MEAN|4.72|<|0.001|TWO_SIDED|95.0|-58.0|-39.3|||MMRM|||LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-39.3|-58.0|<0.001
92245943|NCT01968954|184395135|SUPERIORITY_OR_OTHER||LS mean difference|-56.0|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|95.0|-60.8|-51.2||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-51.2|-60.8|
92282234|NCT04084483|184468107|SUPERIORITY|||||||0.5985|||||||ANCOVA|||||||0.5985
92282235|NCT04084483|184468107|SUPERIORITY|||||||0.7626|||||||ANCOVA|||||||0.7626
92282236|NCT04084483|184468108|SUPERIORITY|||||||0.833|||||||ANCOVA|||||||0.8330
92245944|NCT01968954|184395135|SUPERIORITY_OR_OTHER||LS mean difference|-46.4|STANDARD_ERROR_OF_MEAN|2.77|||TWO_SIDED|95.0|-51.8|-41.0||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-41.0|-51.8|
92245945|NCT01968954|184395136|SUPERIORITY_OR_OTHER||LS mean difference|-57.6|STANDARD_ERROR_OF_MEAN|2.82|||TWO_SIDED|95.0|-63.1|-52.0||||||TG \<200 mg/dL (Week 24): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-52.0|-63.1|
92245946|NCT01968954|184395136|SUPERIORITY_OR_OTHER||LS mean difference|-47.7|STANDARD_ERROR_OF_MEAN|3.16|||TWO_SIDED|95.0|-53.9|-41.5||||||TG \<200 mg/dL (Week 52): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-41.5|-53.9|
92245947|NCT01968954|184395136|SUPERIORITY_OR_OTHER||LS mean difference|-49.3|STANDARD_ERROR_OF_MEAN|4.83|||TWO_SIDED|95.0|-58.9|-39.8||||||TG \>=200 mg/dL (Week 24): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-39.8|-58.9|
92245948|NCT01968954|184395136|SUPERIORITY_OR_OTHER||LS mean difference|-41.2|STANDARD_ERROR_OF_MEAN|5.6|||TWO_SIDED|95.0|-52.2|-30.1||||||TG \>=200 mg/dL (Week 52): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-30.1|-52.2|
92245949|NCT01968954|184395137|SUPERIORITY_OR_OTHER||LS mean difference|-14.2|STANDARD_ERROR_OF_MEAN|2.88|||TWO_SIDED|95.0|-19.9|-8.5||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-8.5|-19.9|
92245950|NCT01968954|184395137|SUPERIORITY_OR_OTHER||LS mean difference|-19.9|STANDARD_ERROR_OF_MEAN|2.65|||TWO_SIDED|95.0|-25.1|-14.7||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-14.7|-25.1|
92264924|NCT01694849|184431211|SUPERIORITY||Difference in least square mean change|-16.22|||<|0.001|TWO_SIDED|95.0|-24.99|-7.44|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-7.44|-24.99|<0.001
92245951|NCT01968954|184395137|SUPERIORITY_OR_OTHER||LS mean difference|-9.2|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|-15.7|-2.8||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-2.8|-15.7|
92282237|NCT04084483|184468108|SUPERIORITY|||||||0.2777|||||||ANCOVA|||||||0.2777
92174718|NCT03858634|184241469|SUPERIORITY||LS mean difference|-1.8|STANDARD_ERROR_OF_MEAN|4.81||0.7108|TWO_SIDED|80.0|-8.22|4.59||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||4.59|-8.22|0.7108
92245952|NCT01968954|184395138|SUPERIORITY_OR_OTHER||LS mean difference|3.7|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|1.8|5.7||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||5.7|1.8|
92245953|NCT01968954|184395138|SUPERIORITY_OR_OTHER||LS mean difference|4.9|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|3.1|6.7||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||6.7|3.1|
92245954|NCT01968954|184395138|SUPERIORITY_OR_OTHER||LS mean difference|2.6|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|0.7|4.6||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||4.6|0.7|
92245955|NCT01968954|184395139|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.93|||TWO_SIDED|95.0|-1.9|1.7||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||1.7|-1.9|
92245956|NCT01968954|184395139|SUPERIORITY_OR_OTHER||LS mean difference|1.9|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|95.0|-0.1|3.9||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||3.9|-0.1|
92245957|NCT01968954|184395139|SUPERIORITY_OR_OTHER||LS mean difference|1.0|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-1.0|3.1||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||3.1|-1.0|
92245958|NCT01968954|184395140|SUPERIORITY_OR_OTHER||LS-Mean Difference|-14.2|STANDARD_ERROR_OF_MEAN|2.88|||TWO_SIDED|95.0|-19.9|-8.5||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-8.5|-19.9|
92245959|NCT01968954|184395140|SUPERIORITY_OR_OTHER||LS mean difference|-19.9|STANDARD_ERROR_OF_MEAN|2.65|||TWO_SIDED|95.0|-25.1|-14.7||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-14.7|-25.1|
92245960|NCT01968954|184395140|SUPERIORITY_OR_OTHER||LS mean difference|-9.2|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|-15.7|-2.8||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-2.8|-15.7|
92245961|NCT01968954|184395141|SUPERIORITY_OR_OTHER||LS mean difference|-64.2|STANDARD_ERROR_OF_MEAN|2.51|||TWO_SIDED|95.0|-69.1|-59.2||||||TG \<200 mg/dL (Week 12): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-59.2|-69.1|
92282238|NCT04084483|184468109|SUPERIORITY|||||||0.9829|||||||ANCOVA|||||||0.9829
92282239|NCT04084483|184468109|SUPERIORITY|||||||0.8675|||||||ANCOVA|||||||0.8675
92282240|NCT04084483|184468110|SUPERIORITY|||||||0.5836|||||||ANCOVA|||||||0.5836
92282241|NCT04084483|184468110|SUPERIORITY|||||||0.2352|||||||ANCOVA|||||||0.2352
92282242|NCT04084483|184468111|SUPERIORITY|||||||0.7367|||||||ANCOVA|||Ocular Discomfort||||0.7367
92282243|NCT04084483|184468111|SUPERIORITY|||||||0.3865|||||||ANCOVA|||Ocular Discomfort||||0.3865
92282244|NCT04084483|184468111|SUPERIORITY|||||||0.8796|||||||ANCOVA|||Burning||||0.8796
92245962|NCT01968954|184395141|SUPERIORITY_OR_OTHER||LS mean difference|-59.6|STANDARD_ERROR_OF_MEAN|5.99|||TWO_SIDED|95.0|-71.4|-47.7||||||TG \>=200 mg/dL (Week 12): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-47.7|-71.4|
92282245|NCT04084483|184468111|SUPERIORITY|||||||0.3515|||||||ANCOVA|||Burning||||0.3515
92174719|NCT03858634|184241469|SUPERIORITY||LS mean difference|22.4|STANDARD_ERROR_OF_MEAN|60.36||0.7355|TWO_SIDED|80.0|-76.47|121.23||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||121.23|-76.47|0.7355
92282246|NCT04084483|184468111|SUPERIORITY|||||||0.6338|||||||ANCOVA|||Dryness||||0.6338
92282247|NCT04084483|184468111|SUPERIORITY|||||||0.4685|||||||ANCOVA|||Dryness||||0.4685
92174720|NCT03858634|184241469|SUPERIORITY||LS mean difference|16.9|STANDARD_ERROR_OF_MEAN|13.27||0.2167|TWO_SIDED|80.0|-0.66|34.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||34.52|-0.66|0.2167
92174721|NCT03858634|184241469|SUPERIORITY||LS mean difference|-63.5|STANDARD_ERROR_OF_MEAN|60.8||0.4058|TWO_SIDED|80.0|-178.16|51.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||51.13|-178.16|0.4058
92282248|NCT04084483|184468111|SUPERIORITY|||||||0.4757|||||||ANCOVA|||Grittiness||||0.4757
92282249|NCT04084483|184468111|SUPERIORITY|||||||0.8803|||||||ANCOVA|||Grittiness||||0.8803
92282250|NCT04084483|184468111|SUPERIORITY|||||||0.8529|||||||ANCOVA|||Stinging||||0.8529
92282251|NCT04084483|184468111|SUPERIORITY|||||||0.7713|||||||ANCOVA|||Stinging||||0.7713
92282252|NCT04084483|184468112|SUPERIORITY|||||||0.138|||||||ANCOVA|||Burning/Stinging||||0.1380
92282253|NCT04084483|184468112|SUPERIORITY|||||||0.3334|||||||ANCOVA|||Burning/Stinging||||0.3334
92282254|NCT04084483|184468112|SUPERIORITY|||||||0.1008|||||||ANCOVA|||Itching||||0.1008
92282255|NCT04084483|184468112|SUPERIORITY|||||||0.4582|||||||ANCOVA|||Itching||||0.4582
92282256|NCT04084483|184468112|SUPERIORITY|||||||0.1511|||||||ANCOVA|||Foreign Body Sensation||||0.1511
92282257|NCT04084483|184468112|SUPERIORITY|||||||0.2555|||||||ANCOVA|||Foreign Body Sensation||||0.2555
92282258|NCT04084483|184468112|SUPERIORITY|||||||0.1546|||||||ANCOVA|||Blurry Vision||||0.1546
92282259|NCT04084483|184468112|SUPERIORITY|||||||0.0495|||||||ANCOVA|||Blurry Vision||||0.0495
92282260|NCT04084483|184468112|SUPERIORITY|||||||0.5791|||||||ANCOVA|||Eye Dryness||||0.5791
92282261|NCT04084483|184468112|SUPERIORITY|||||||0.0736|||||||ANCOVA|||Eye Dryness||||0.0736
92282262|NCT04084483|184468112|SUPERIORITY|||||||0.3666|||||||ANCOVA|||Photophobia||||0.3666
92282263|NCT04084483|184468112|SUPERIORITY|||||||0.039|||||||ANCOVA|||Photophobia||||0.0390
92282264|NCT04084483|184468112|SUPERIORITY|||||||0.0655|||||||ANCOVA|||Pain||||0.0655
92282265|NCT04084483|184468112|SUPERIORITY|||||||0.1947|||||||ANCOVA|||Pain||||0.1947
92282266|NCT04084483|184468113|SUPERIORITY|||||||0.9274|||||||ANCOVA|||||||0.9274
92282267|NCT04084483|184468113|SUPERIORITY|||||||0.0888|||||||ANCOVA|||||||0.0888
92245963|NCT01968954|184395142|SUPERIORITY_OR_OTHER||LS mean difference|-63.4|STANDARD_ERROR_OF_MEAN|2.35|||TWO_SIDED|95.0|-68.0|-58.8||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-58.8|-68.0|
92245964|NCT01968954|184395143|SUPERIORITY_OR_OTHER||LS mean difference|-67.1|STANDARD_ERROR_OF_MEAN|2.59|||TWO_SIDED|95.0|-72.2|-62.1||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-62.1|-72.2|
92174722|NCT03858634|184241469|SUPERIORITY||LS mean difference|-6.4|STANDARD_ERROR_OF_MEAN|6.43||0.3323|TWO_SIDED|80.0|-14.95|2.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||2.15|-14.95|0.3323
92245965|NCT01968954|184395144|SUPERIORITY_OR_OTHER||LS mean difference|-69.7|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|95.0|-74.7|-64.6||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-64.6|-74.7|
92245966|NCT01968954|184395145|SUPERIORITY_OR_OTHER||LS mean difference|-47.3|STANDARD_ERROR_OF_MEAN|1.74|||TWO_SIDED|95.0|-50.7|-43.8||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-43.8|-50.7|
92245967|NCT01968954|184395146|SUPERIORITY_OR_OTHER||LS mean difference|-10.6|STANDARD_ERROR_OF_MEAN|1.17|||TWO_SIDED|95.0|-12.9|-8.3||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-8.3|-12.9|
92245968|NCT01968954|184395147|SUPERIORITY_OR_OTHER||LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|1.4|3.5||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||3.5|1.4|
92174723|NCT03858634|184241469|SUPERIORITY||LS mean difference|34.3|STANDARD_ERROR_OF_MEAN|68.11||0.6496|TWO_SIDED|80.0|-77.29|145.8||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||145.80|-77.29|0.6496
92174724|NCT03858634|184241469|SUPERIORITY||LS mean difference|13.8|STANDARD_ERROR_OF_MEAN|12.76||0.2925|TWO_SIDED|80.0|-3.12|30.7||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||30.70|-3.12|0.2925
92174725|NCT03858634|184241469|SUPERIORITY||LS mean difference|-70.7|STANDARD_ERROR_OF_MEAN|67.98||0.4074|TWO_SIDED|80.0|-198.92|57.46||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||57.46|-198.92|0.4074
92245969|NCT01968954|184395148|SUPERIORITY_OR_OTHER||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|95.0|-1.7|-1.4||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-1.4|-1.7|
92245970|NCT01968954|184395148|SUPERIORITY_OR_OTHER||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-1.7|-1.4||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-1.4|-1.7|
92245971|NCT01968954|184395148|SUPERIORITY_OR_OTHER||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-1.4|-1.0||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-1.0|-1.4|
92174726|NCT03858634|184241469|OTHER||LS mean difference|-15.5|STANDARD_ERROR_OF_MEAN|10.56||0.1584|TWO_SIDED|80.0|-29.6|-1.49||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-1.49|-29.60|0.1584
92174727|NCT03858634|184241469|SUPERIORITY||LS mean difference|-22.8|STANDARD_ERROR_OF_MEAN|54.04||0.7013|TWO_SIDED|80.0|-111.31|65.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||65.69|-111.31|0.7013
92174728|NCT03858634|184241469|SUPERIORITY||LS mean difference|13.4|STANDARD_ERROR_OF_MEAN|16.35||0.423|TWO_SIDED|80.0|-8.3|35.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||35.05|-8.30|0.4230
92174729|NCT03858634|184241469|SUPERIORITY||LS mean difference|-60.6|STANDARD_ERROR_OF_MEAN|57.96||0.4055|TWO_SIDED|80.0|-169.9|48.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||48.69|-169.90|0.4055
92174730|NCT03858634|184241469|SUPERIORITY||LS mean difference|-22.7|STANDARD_ERROR_OF_MEAN|11.82||0.0709|TWO_SIDED|80.0|-38.41|-6.96||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-6.96|-38.41|0.0709
92174731|NCT03858634|184241469|SUPERIORITY||LS mean difference|17.7|STANDARD_ERROR_OF_MEAN|74.17||0.8268|TWO_SIDED|80.0|-103.77|139.17||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||139.17|-103.77|0.8268
92174732|NCT03858634|184241469|SUPERIORITY||LS mean difference|12.4|STANDARD_ERROR_OF_MEAN|14.63||0.4082|TWO_SIDED|80.0|-7.03|31.75||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||31.75|-7.03|0.4082
92174733|NCT03858634|184241469|SUPERIORITY||LS mean difference|-50.4|STANDARD_ERROR_OF_MEAN|58.86||0.4818|TWO_SIDED|80.0|-161.43|60.56||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||60.56|-161.43|0.4818
92174734|NCT03858634|184241469|SUPERIORITY||LS mean difference|-27.1|STANDARD_ERROR_OF_MEAN|13.93||0.0673|TWO_SIDED|80.0|-45.64|-8.58||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-8.58|-45.64|0.0673
92245972|NCT01968954|184395149|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.4|-0.3||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-0.3|-0.4|
92174735|NCT03858634|184241469|SUPERIORITY||LS mean difference|29.6|STANDARD_ERROR_OF_MEAN|82.15||0.7429|TWO_SIDED|80.0|-105.0|164.1||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||164.10|-105.00|0.7429
92174736|NCT03858634|184241469|SUPERIORITY||LS mean difference|21.8|STANDARD_ERROR_OF_MEAN|13.55||0.1227|TWO_SIDED|80.0|3.88|39.79||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||39.79|3.88|0.1227
92174737|NCT03858634|184241469|SUPERIORITY||LS mean difference|-47.5|STANDARD_ERROR_OF_MEAN|58.06||0.4996|TWO_SIDED|80.0|-156.95|62.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||62.02|-156.95|0.4996
92174738|NCT03858634|184241469|SUPERIORITY||LS mean difference|-33.6|STANDARD_ERROR_OF_MEAN|13.69||0.0244|TWO_SIDED|80.0|-51.87|-15.43||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-15.43|-51.87|0.0244
92174739|NCT03858634|184241469|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|64.24||0.9967|TWO_SIDED|80.0|-105.5|104.92||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||104.92|-105.50|0.9967
92174740|NCT03858634|184241469|SUPERIORITY||LS mean difference|19.1|STANDARD_ERROR_OF_MEAN|13.57||0.1739|TWO_SIDED|80.0|1.15|37.12||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||37.12|1.15|0.1739
92174741|NCT03858634|184241469|SUPERIORITY||LS mean difference|-55.1|STANDARD_ERROR_OF_MEAN|51.61||0.3978|TWO_SIDED|80.0|-152.39|42.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||42.26|-152.39|0.3978
92282268|NCT02194998|184468114|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.|||||<|0.01||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort A's SVR12 rate \<= 70%.||||<0.01
92282269|NCT02194998|184468114|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.||||||0.47||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort B's SVR12 rate \<= 70%.||||0.47
92282270|NCT02194998|184468114|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.|||||<|0.01||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort C's SVR12 rate \<= 70%.||||<0.01
92282271|NCT02194998|184468114|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.||||||0.24||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort D's SVR12 rate \<= 70%.||||0.24
92282272|NCT02194998|184468127|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.|||||<|0.01||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort A's SVR24 rate \<= 70%.||||<0.01
92282273|NCT02194998|184468127|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.||||||0.47||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort B's SVR24 rate \<= 70%.||||0.47
92282274|NCT02194998|184468127|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.|||||<|0.01||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort C's SVR24 rate \<= 70%.||||<0.01
92282275|NCT02194998|184468127|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.||||||0.24||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort D's SVR24 rate \<= 70%.||||0.24
92282276|NCT00282256|184468130|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for AUC0-24 was found to lie entirely within the 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|100.9|||||TWO_SIDED|90.0|90.8|112.1|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance was used for the comparisons of AUC0-24. Exposure at steady state was used for tacrolimus (defined as Day 7) and for tacrolimus MR (defined as Day 14). The natural log (ln) was used to transform AUC0-24 prior to analysis and the results were transformed back to the original scale for the presentation of results.||112.1|90.8|
92282277|NCT00282256|184468132|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for Cmin was found to lie entirely within the 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|91.8|||||TWO_SIDED|90.0|82.6|102.2|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance was used for the comparisons of Cmin. Exposure at steady state was used for tacrolimus (defined as Day 7) and for tacrolimus MR (defined as Day 14). The natural log (ln) was used to transform Cmin prior to analysis and the results were transformed back to the original scale for the presentation of results.||102.2|82.6|
92282278|NCT00497796|184468175|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on the ICH guidance, the hypothesis of non-inferiority can be tested using a one-sided 97.5% confidence interval's (CI) upper bound comparing with the non-inferiority margin of 5% (0.05).|Rate difference|0.041|||||TWO_SIDED|95.0|-0.038|0.119|||||Rate difference is the rate of maribavir minus the rate of ganciclovir|||0.119|-0.038|
92282279|NCT00497796|184468175|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.586||||0.2754|TWO_SIDED|95.0|0.682|3.69||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel|||||3.690|0.682|0.2754
92282280|NCT00497796|184468176|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.793||||0.0283|TWO_SIDED|95.0|1.065|3.02||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of the pp65 antigenemia assay||3.020|1.065|0.0283
92282281|NCT00497796|184468176|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.284||||0.0024|TWO_SIDED|95.0|1.338|3.9|||Cochran-Mantel-Haenszel|The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of CMV DNA PCR assay||3.900|1.338|0.0024
92174742|NCT03858634|184241469|SUPERIORITY||LS mean difference|-32.7|STANDARD_ERROR_OF_MEAN|14.73||0.0397|TWO_SIDED|80.0|-52.26|-13.07||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-13.07|-52.26|0.0397
92174743|NCT03858634|184241469|SUPERIORITY||LS mean difference|10.4|STANDARD_ERROR_OF_MEAN|70.66||0.8922|TWO_SIDED|80.0|-105.32|126.14||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||126.14|-105.32|0.8922
92174744|NCT03858634|184241469|SUPERIORITY||LS mean difference|17.3|STANDARD_ERROR_OF_MEAN|14.43||0.2439|TWO_SIDED|80.0|-1.8|36.45||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||36.45|-1.80|0.2439
92174745|NCT03858634|184241469|SUPERIORITY||LS mean difference|-50.3|STANDARD_ERROR_OF_MEAN|37.1||0.3076|TWO_SIDED|80.0|-120.29|19.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||19.61|-120.29|0.3076
92174746|NCT03858634|184241469|SUPERIORITY||LS mean difference|-36.4|STANDARD_ERROR_OF_MEAN|15.7||0.0322|TWO_SIDED|80.0|-57.32|-15.55||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-15.55|-57.32|0.0322
92174747|NCT03858634|184241469|SUPERIORITY||LS mean difference|-94.7|STANDARD_ERROR_OF_MEAN|27.67||0.0418|TWO_SIDED|80.0|-139.98|-49.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-49.36|-139.98|0.0418
92174748|NCT03858634|184241469|SUPERIORITY||LS mean difference|24.4|STANDARD_ERROR_OF_MEAN|13.44||0.0865|TWO_SIDED|80.0|6.49|42.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||42.26|6.49|0.0865
92174749|NCT03858634|184241469|SUPERIORITY||LS mean difference|-48.9|STANDARD_ERROR_OF_MEAN|40.32||0.3489|TWO_SIDED|80.0|-124.96|27.11||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||27.11|-124.96|0.3489
92174750|NCT03858634|184241469|SUPERIORITY||LS mean difference|-38.1|STANDARD_ERROR_OF_MEAN|15.99||0.0286|TWO_SIDED|80.0|-59.34|-16.79||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-16.79|-59.34|0.0286
92174751|NCT03858634|184241469|SUPERIORITY||LS mean difference|28.6|STANDARD_ERROR_OF_MEAN|72.63||0.7198|TWO_SIDED|80.0|-90.32|147.59||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||147.59|-90.32|0.7198
92174752|NCT03858634|184241469|SUPERIORITY||LS mean difference|39.0|STANDARD_ERROR_OF_MEAN|13.27||0.0088|TWO_SIDED|80.0|21.32|56.63||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||56.63|21.32|0.0088
92282282|NCT00497796|184468176|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.177||||0.0053|TWO_SIDED|95.0|1.259|3.767||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of pp65 antigenemia or CMV DNA PCR assay||3.767|1.259|0.0053
92174753|NCT03858634|184241469|SUPERIORITY||LS mean difference|-56.5|STANDARD_ERROR_OF_MEAN|33.87||0.2371|TWO_SIDED|80.0|-120.39|7.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||7.34|-120.39|0.2371
92174754|NCT03858634|184241469|SUPERIORITY||LS mean difference|-40.8|STANDARD_ERROR_OF_MEAN|16.14||0.021|TWO_SIDED|80.0|-62.3|-19.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-19.35|-62.30|0.0210
92174755|NCT03858634|184241469|SUPERIORITY||LS mean difference|20.4|STANDARD_ERROR_OF_MEAN|54.07||0.7312|TWO_SIDED|80.0|-68.17|108.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||108.94|-68.17|0.7312
92174756|NCT03858634|184241469|SUPERIORITY||LS mean difference|39.4|STANDARD_ERROR_OF_MEAN|14.64||0.015|TWO_SIDED|80.0|19.88|58.83||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||58.83|19.88|0.0150
92174757|NCT03858634|184241469|SUPERIORITY||LS mean difference|-53.3|STANDARD_ERROR_OF_MEAN|33.87||0.2559|TWO_SIDED|80.0|-117.22|10.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||10.52|-117.22|0.2559
92174758|NCT03858634|184241469|SUPERIORITY||LS mean difference|-35.0|STANDARD_ERROR_OF_MEAN|15.97||0.0419|TWO_SIDED|80.0|-56.21|-13.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||-13.72|-56.21|0.0419
92174759|NCT03858634|184241469|SUPERIORITY||LS mean difference|20.4|STANDARD_ERROR_OF_MEAN|60.66||0.7589|TWO_SIDED|80.0|-78.95|119.74||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||119.74|-78.95|0.7589
92174760|NCT03858634|184241469|SUPERIORITY||LS mean difference|39.1|STANDARD_ERROR_OF_MEAN|17.42||0.0374|TWO_SIDED|80.0|15.97|62.31||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||62.31|15.97|0.0374
92174761|NCT03858634|184241469|SUPERIORITY||LS mean difference|-54.9|STANDARD_ERROR_OF_MEAN|33.87||0.2463|TWO_SIDED|80.0|-118.8|8.93||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||8.93|-118.80|0.2463
92174762|NCT03858634|184241469|SUPERIORITY||LS mean difference|-33.2|STANDARD_ERROR_OF_MEAN|16.78||0.0632|TWO_SIDED|80.0|-55.56|-10.9||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-10.90|-55.56|0.0632
92174763|NCT03858634|184241469|SUPERIORITY||LS mean difference|25.7|STANDARD_ERROR_OF_MEAN|61.73||0.7053|TWO_SIDED|80.0|-75.41|126.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||126.78|-75.41|0.7053
92174764|NCT03858634|184241469|SUPERIORITY||LS mean difference|38.7|STANDARD_ERROR_OF_MEAN|16.25||0.0285|TWO_SIDED|80.0|17.09|60.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||60.34|17.09|0.0285
92174765|NCT03858634|184241469|SUPERIORITY||LS mean difference|-64.6|STANDARD_ERROR_OF_MEAN|37.1||0.2236|TWO_SIDED|80.0|-134.58|5.32||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||5.32|-134.58|0.2236
92174766|NCT03858634|184241469|OTHER||LS mean difference|-35.5|STANDARD_ERROR_OF_MEAN|17.38||0.0558|TWO_SIDED|80.0|-58.65|-12.41||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||-12.41|-58.65|0.0558
92174767|NCT03858634|184241469|SUPERIORITY||LS mean difference|29.9|STANDARD_ERROR_OF_MEAN|72.86||0.7089|TWO_SIDED|80.0|-89.41|149.24||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||149.24|-89.41|0.7089
92174768|NCT03858634|184241469|SUPERIORITY||LS mean difference|33.7|STANDARD_ERROR_OF_MEAN|14.76||0.0347|TWO_SIDED|80.0|14.08|53.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||53.35|14.08|0.0347
92174769|NCT03858634|184241469|SUPERIORITY||LS mean difference|-60.9|STANDARD_ERROR_OF_MEAN|41.94||0.2835|TWO_SIDED|80.0|-139.99|18.16||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||18.16|-139.99|0.2835
92174770|NCT03858634|184241469|SUPERIORITY||LS mean difference|-35.5|STANDARD_ERROR_OF_MEAN|17.11||0.0525|TWO_SIDED|80.0|-58.31|-12.77||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-12.77|-58.31|0.0525
92174771|NCT03858634|184241469|SUPERIORITY||LS mean difference|24.0|STANDARD_ERROR_OF_MEAN|64.52||0.7347|TWO_SIDED|80.0|-81.68|129.66||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||129.66|-81.68|0.7347
92174772|NCT03858634|184241469|SUPERIORITY||LS mean difference|31.0|STANDARD_ERROR_OF_MEAN|13.94||0.039|TWO_SIDED|80.0|12.5|49.6||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||49.60|12.50|0.0390
92174773|NCT03858634|184241469|SUPERIORITY||LS mean difference|-60.6|STANDARD_ERROR_OF_MEAN|35.48||0.2299|TWO_SIDED|80.0|-127.49|6.33||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||6.33|-127.49|0.2299
92174774|NCT03858634|184241469|SUPERIORITY||LS mean difference|-32.6|STANDARD_ERROR_OF_MEAN|18.11||0.0884|TWO_SIDED|80.0|-56.7|-8.53||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||-8.53|-56.70|0.0884
92174775|NCT03858634|184241469|SUPERIORITY||LS mean difference|16.3|STANDARD_ERROR_OF_MEAN|61.44||0.8085|TWO_SIDED|80.0|-84.37|116.87||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||116.87|-84.37|0.8085
92174776|NCT03858634|184241469|SUPERIORITY||LS mean difference|19.9|STANDARD_ERROR_OF_MEAN|15.96||0.2283|TWO_SIDED|80.0|-1.33|41.14||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||41.14|-1.33|0.2283
92174777|NCT03858634|184241469|SUPERIORITY||LS mean difference|-69.9|STANDARD_ERROR_OF_MEAN|32.26||0.1625|TWO_SIDED|80.0|-130.76|-9.11||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-9.11|-130.76|0.1625
92282283|NCT00497796|184468176|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.388||||0.2339|TWO_SIDED|95.0|0.811|2.377||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of initiation of anti-CMV therapy||2.377|0.811|0.2339
92174778|NCT03858634|184241469|SUPERIORITY||LS mean difference|-34.2|STANDARD_ERROR_OF_MEAN|17.8||0.0707|TWO_SIDED|80.0|-57.87|-10.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-10.52|-57.87|0.0707
92174779|NCT03858634|184241469|SUPERIORITY||LS mean difference|0.4|STANDARD_ERROR_OF_MEAN|50.17||0.9944|TWO_SIDED|80.0|-81.79|82.55||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||82.55|-81.79|0.9944
92174780|NCT03858634|184241469|SUPERIORITY||LS mean difference|23.9|STANDARD_ERROR_OF_MEAN|15.16||0.1327|TWO_SIDED|80.0|3.71|44.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||44.05|3.71|0.1327
92174781|NCT03858634|184241469|SUPERIORITY||LS mean difference|-69.2|STANDARD_ERROR_OF_MEAN|33.87||0.1777|TWO_SIDED|80.0|-133.09|-5.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||-5.35|-133.09|0.1777
92174782|NCT03858634|184241469|SUPERIORITY||LS mean difference|-23.9|STANDARD_ERROR_OF_MEAN|21.4||0.2796|TWO_SIDED|80.0|-52.34|4.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||4.61|-52.34|0.2796
92174783|NCT03858634|184241469|SUPERIORITY||LS mean difference|7.6|STANDARD_ERROR_OF_MEAN|55.4||0.8999|TWO_SIDED|80.0|-83.15|98.3||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||98.30|-83.15|0.8999
92174784|NCT03858634|184241469|SUPERIORITY||LS mean difference|22.0|STANDARD_ERROR_OF_MEAN|15.99||0.1867|TWO_SIDED|80.0|0.68|43.23||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||43.23|0.68|0.1867
92174785|NCT03858634|184241469|SUPERIORITY||LS mean difference|-70.8|STANDARD_ERROR_OF_MEAN|33.87||0.1717|TWO_SIDED|80.0|-134.68|-6.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-6.94|-134.68|0.1717
92174786|NCT03858634|184241469|SUPERIORITY||LS mean difference|-23.9|STANDARD_ERROR_OF_MEAN|21.46||0.2792|TWO_SIDED|80.0|-52.5|4.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||4.61|-52.50|0.2792
92174787|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-47.3|STANDARD_ERROR_OF_MEAN|31.41||0.2289|TWO_SIDED|80.0|-98.77|4.1||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||4.10|-98.77|0.2289
92174788|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|19.6|STANDARD_ERROR_OF_MEAN|14.08||0.1788|TWO_SIDED|80.0|0.96|38.27||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||38.27|0.96|0.1788
92174789|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-59.6|STANDARD_ERROR_OF_MEAN|114.35||0.6544|TWO_SIDED|80.0|-275.19|156.06||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||156.06|-275.19|0.6544
92174790|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-72.2|STANDARD_ERROR_OF_MEAN|20.4||0.0023|TWO_SIDED|80.0|-99.39|-45.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-45.09|-99.39|0.0023
92174791|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-52.1|STANDARD_ERROR_OF_MEAN|22.96||0.1081|TWO_SIDED|80.0|-89.68|-14.47||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-14.47|-89.68|0.1081
92174792|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|14.9|STANDARD_ERROR_OF_MEAN|21.37||0.4926|TWO_SIDED|80.0|-13.39|43.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||43.26|-13.39|0.4926
92174793|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|53.2|STANDARD_ERROR_OF_MEAN|219.98||0.8315|TWO_SIDED|80.0|-361.63|467.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||467.98|-361.63|0.8315
92174794|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-69.9|STANDARD_ERROR_OF_MEAN|18.56||0.0014|TWO_SIDED|80.0|-94.61|-45.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-45.22|-94.61|0.0014
92174795|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-52.1|STANDARD_ERROR_OF_MEAN|22.96||0.1081|TWO_SIDED|80.0|-89.68|-14.47||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-14.47|-89.68|0.1081
92174796|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|21.97||0.7339|TWO_SIDED|80.0|-21.65|36.82||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||36.82|-21.65|0.7339
92174797|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|53.2|STANDARD_ERROR_OF_MEAN|219.98||0.8315|TWO_SIDED|80.0|-361.63|467.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||467.98|-361.63|0.8315
92174798|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-67.6|STANDARD_ERROR_OF_MEAN|21.26||0.0055|TWO_SIDED|80.0|-95.92|-39.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-39.22|-95.92|0.0055
92174799|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-57.9|STANDARD_ERROR_OF_MEAN|26.73||0.1188|TWO_SIDED|80.0|-101.7|-14.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-14.15|-101.70|0.1188
92174800|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|18.27||0.8697|TWO_SIDED|80.0|-21.26|27.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||27.35|-21.26|0.8697
92174801|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-30.3|STANDARD_ERROR_OF_MEAN|78.64||0.7368|TWO_SIDED|80.0|-178.62|117.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||117.94|-178.62|0.7368
92174802|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|15.02||0.5571|TWO_SIDED|80.0|-29.03|11.03||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||11.03|-29.03|0.5571
92174803|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-49.1|STANDARD_ERROR_OF_MEAN|32.21||0.2251|TWO_SIDED|80.0|-101.8|3.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||3.69|-101.80|0.2251
92174804|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|17.3|STANDARD_ERROR_OF_MEAN|18.93||0.3733|TWO_SIDED|80.0|-7.9|42.48||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||42.48|-7.90|0.3733
92174805|NCT03858634|184241471|SUPERIORITY||LS Mean Difference|-22.6|STANDARD_ERROR_OF_MEAN|66.57||0.7662|TWO_SIDED|80.0|-148.16|102.89||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||102.89|-148.16|0.7662
92174806|NCT03858634|184241471|OTHER||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|16.87||0.7241|TWO_SIDED|80.0|-28.54|16.44||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||16.44|-28.54|0.7241
92245973|NCT01968954|184395149|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.4|-0.3||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-0.3|-0.4|
92174807|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-21.1|STANDARD_ERROR_OF_MEAN|29.04||0.5195|TWO_SIDED|80.0|-68.69|26.43||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||26.43|-68.69|0.5195
92174808|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|11.3|STANDARD_ERROR_OF_MEAN|8.27||0.1869|TWO_SIDED|80.0|0.34|22.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||22.26|0.34|0.1869
92174809|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-87.5|STANDARD_ERROR_OF_MEAN|55.3||0.2545|TWO_SIDED|80.0|-191.75|16.79||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||16.79|-191.75|0.2545
92174810|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-20.2|STANDARD_ERROR_OF_MEAN|10.26||0.0643|TWO_SIDED|80.0|-33.88|-6.57||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-6.57|-33.88|0.0643
92174811|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-28.6|STANDARD_ERROR_OF_MEAN|20.11||0.2503|TWO_SIDED|80.0|-61.52|4.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||4.35|-61.52|0.2503
92174812|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|11.58||0.8468|TWO_SIDED|80.0|-13.08|17.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||17.62|-13.08|0.8468
92174813|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-83.6|STANDARD_ERROR_OF_MEAN|73.93||0.3755|TWO_SIDED|80.0|-222.98|55.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||55.18|-222.98|0.3755
92245974|NCT01968954|184395149|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.3|-0.2||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-0.2|-0.3|
92245975|NCT01968954|184395150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.0|||||TWO_SIDED|95.0|13.86|41.64||||||Week 12||41.64|13.86|
92245976|NCT01968954|184395150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.8|||||TWO_SIDED|95.0|9.32|23.56||||||Week 24||23.56|9.32|
92174814|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-20.9|STANDARD_ERROR_OF_MEAN|11.06||0.0755|TWO_SIDED|80.0|-35.58|-6.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-6.15|-35.58|0.0755
92174815|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-28.6|STANDARD_ERROR_OF_MEAN|25.77||0.3486|TWO_SIDED|80.0|-70.76|13.65||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||13.65|-70.76|0.3486
92174816|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|9.69||0.6559|TWO_SIDED|80.0|-17.28|8.5||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||8.50|-17.28|0.6559
92174817|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-70.2|STANDARD_ERROR_OF_MEAN|50.46||0.2987|TWO_SIDED|80.0|-165.35|24.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||24.94|-165.35|0.2987
92174818|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|12.43||0.1966|TWO_SIDED|80.0|-33.29|-0.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-0.13|-33.29|0.1966
92174819|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-41.5|STANDARD_ERROR_OF_MEAN|25.7||0.2051|TWO_SIDED|80.0|-83.56|0.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||0.62|-83.56|0.2051
92174820|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|10.16||0.7511|TWO_SIDED|80.0|-16.79|10.25||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||10.25|-16.79|0.7511
92174821|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-79.6|STANDARD_DEVIATION|39.27||0.1797|TWO_SIDED|80.0|-153.68|-5.59||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-5.59|-153.68|0.1797
92245977|NCT01968954|184395150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.8|||||TWO_SIDED|95.0|6.36|15.24||||||Week 52||15.24|6.36|
92174822|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-16.3|STANDARD_ERROR_OF_MEAN|11.45||0.1715|TWO_SIDED|80.0|-31.61|-1.08||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-1.08|-31.61|0.1715
92174823|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-36.5|STANDARD_ERROR_OF_MEAN|21.32||0.185|TWO_SIDED|80.0|-71.47|-1.63||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-1.63|-71.47|0.1850
92174824|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|12.19||0.6907|TWO_SIDED|80.0|-21.15|11.29||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||11.29|-21.15|0.6907
92174825|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-74.0|STANDARD_ERROR_OF_MEAN|23.85||0.0901|TWO_SIDED|80.0|-118.97|-29.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-29.02|-118.97|0.0901
92174826|NCT03858634|184241473|SUPERIORITY||LS Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|13.34||0.564|TWO_SIDED|80.0|-25.64|9.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||9.94|-25.64|0.5640
92174827|NCT03858634|184241474|SUPERIORITY||LS mean difference|-31.7|STANDARD_ERROR_OF_MEAN|38.73||0.4734|TWO_SIDED|80.0|-95.11|31.76||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||31.76|-95.11|0.4734
92174828|NCT03858634|184241474|SUPERIORITY||LS mean difference|-3.6|STANDARD_ERROR_OF_MEAN|14.91||0.813|TWO_SIDED|80.0|-23.33|16.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||16.18|-23.33|0.8130
92174829|NCT03858634|184241474|SUPERIORITY||LS mean difference|-92.0|STANDARD_ERROR_OF_MEAN|31.1||0.0979|TWO_SIDED|80.0|-150.6|-33.32||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||-33.32|-150.60|0.0979
92245978|NCT01968954|184395151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|95.2|||||TWO_SIDED|95.0|52.09|173.91||||||Week 12||173.91|52.09|
92245979|NCT01968954|184395151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|112.2|||||TWO_SIDED|95.0|55.81|225.52||||||Week 24||225.52|55.81|
92245980|NCT01968954|184395151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|29.1|||||TWO_SIDED|95.0|17.13|49.49||||||Week 52||49.49|17.13|
92245981|NCT00547638|184395159|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence is demonstrated if the upper limit of the 95% confidence interval (when subtracting the percentage of DERMABOND PROTAPE successful subjects from the percentage of DERMABOND HVD successful subjects) does not exceed 8%.|Difference in Proportion of Successes|-7.9|||||TWO_SIDED|95.0|-17.7|1.0|||Gart-Nam||The value for the Estimated Parameter is expressed as a percentage and is defined as the difference in the proportion of sucesses between study groups.|||1.0|-17.7|
92245982|NCT00547638|184395160|SUPERIORITY_OR_OTHER|||||||0.457||||||The total mHCS scores are summarized as proportion of subjects with good outcome (total scores of zero) and a comparison of treatment groups by Fisher Exact Test was performed to confirm differences in groups.|Fisher Exact|||||||0.457
92245983|NCT00547638|184395161|SUPERIORITY_OR_OTHER|||||||1||95.0||||Differences between treatment groups in the incidence rate of infection at Day 14 and Day 30 were compared using the Fisher's Exact Test.|Fisher Exact|||||||1.0000
92174830|NCT03858634|184241474|SUPERIORITY||LS mean difference|-37.5|STANDARD_ERROR_OF_MEAN|13.48||0.0122|TWO_SIDED|80.0|-55.48|-19.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||-19.61|-55.48|0.0122
92174831|NCT05415722|184241489|SUPERIORITY||Mean Difference (Final Values)|-11.39|STANDARD_ERROR_OF_MEAN|7.48||0.1303|TWO_SIDED|95.0|-26.178|3.406|||ANCOVA|||Arm 1 compared to Placebo||3.406|-26.178|0.1303
92174832|NCT05415722|184241489|SUPERIORITY||Mean Difference (Final Values)|-23.47|STANDARD_ERROR_OF_MEAN|7.924||0.0036|TWO_SIDED|95.0|-39.14|-7.799|||ANCOVA|||Arm 2 compared to Placebo||-7.799|-39.140|0.0036
92174833|NCT05415722|184241489|SUPERIORITY||Mean Difference (Final Values)|-40.8|STANDARD_ERROR_OF_MEAN|7.96|<|0.0001|TWO_SIDED|95.0|-56.545|-25.064|||ANCOVA|||Arm 3 compared to Placebo||-25.064|-56.545|<0.0001
92174834|NCT05415722|184241490|SUPERIORITY||Mean Difference (Final Values)|-31.9|STANDARD_ERROR_OF_MEAN|20.87||0.1289|TWO_SIDED|95.0|-73.17|9.39|||ANCOVA|||Arm 1 compared to Placebo||9.39|-73.17|0.1289
92174835|NCT05415722|184241490|SUPERIORITY||Mean Difference (Final Values)|-29.3|STANDARD_ERROR_OF_MEAN|21.65||0.179|TWO_SIDED|95.0|-72.08|13.58|||ANCOVA|||Arm 2 compared to Placebo||13.58|-72.08|0.1790
92174836|NCT05415722|184241490|SUPERIORITY||Mean Difference (Final Values)|-75.7|STANDARD_ERROR_OF_MEAN|21.96||0.0008|TWO_SIDED|95.0|-119.08|-32.23|||ANCOVA|||Arm 3 compared to Placebo||-32.23|-119.08|0.0008
92174837|NCT05415722|184241491|SUPERIORITY||Mean Difference (Final Values)|-16.74|STANDARD_ERROR_OF_MEAN|7.895||0.0358|TWO_SIDED|95.0|-32.352|-1.128|||ANCOVA|||Arm 4 compared to Placebo||-1.128|-32.352|0.0358
92174838|NCT05415722|184241491|SUPERIORITY||Mean Difference (Final Values)|-43.73|STANDARD_ERROR_OF_MEAN|7.647|<|0.0001|TWO_SIDED|95.0|-58.858|-28.612|||ANCOVA|||Arm 5 compared to Placebo||-28.612|-58.858|<0.0001
92174839|NCT05415722|184241492|SUPERIORITY||Mean Difference (Final Values)|-62.6|STANDARD_ERROR_OF_MEAN|22.09||0.0053|TWO_SIDED|95.0|-106.33|-18.96|||ANCOVA|||Arm 4 compared to Placebo||-18.96|-106.33|0.0053
92174840|NCT05415722|184241492|SUPERIORITY||Mean Difference (Final Values)|-69.2|STANDARD_ERROR_OF_MEAN|21.13||0.0014|TWO_SIDED|95.0|-110.97|-27.39|||ANCOVA|||Arm 5 compared to Placebo||-27.39|-110.97|0.0014
92174841|NCT03524612|184241494|OTHER||||||<|0.0001|||||||Clopper Pearson test|||||||<0.0001
92174842|NCT05457647|184241549|OTHER|The accuracy and precision of the theranostic imaging biomarkers, including both the riboflavin score and theranostic score, to predict CXL treatment outcome were determined by calculating the proportion of correctly classified eyes and the positive predictive value respectively.|Proportion|91.0|||||TWO_SIDED|95.0|||||||The study set a minimum threshold of 85 for the the combined use of the theranostic imaging biomarkers' accuracy and precision in predicting the propensity of CXL to halt disease progression at 1 year in the study population.|Accuracy and precision of the combined use of theranostic imaging biomarkers generated by the UV-A device to predict the propensity of CXL in flattening the Kmax value at 12-months.||||
92174843|NCT05457647|184241550|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of Kmax value at 12-months follow-up visit.||||<0.05
92174844|NCT05457647|184241551|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of ECD value at 12-months follow-up visit.||||<0.05
92174845|NCT05457647|184241552|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of MSER value at 12-months follow-up visit.||||<0.05
92174846|NCT05457647|184241553|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of CDVA value at 12-months follow-up visit.||||<0.05
92174847|NCT05457647|184241554|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of UDVA value at 12-months follow-up visit.||||<0.05
92174848|NCT05457647|184241555|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of CCT value at 12-months follow-up visit.||||<0.05
92174849|NCT05457647|184241556|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively. Bonferroni correction was applied to analysis of exploratory outcome measures of stratification groups.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92174850|NCT04938492|184241557|SUPERIORITY||Slope|2.08|||>|0.05|TWO_SIDED||||||Latent growth modeling|||||||>.05
92174851|NCT04938492|184241558|SUPERIORITY||Slope|0.19|||<|0.001|TWO_SIDED||||||Latent growth modeling|||||||<.001
92174852|NCT04938492|184241559|SUPERIORITY||Slope|0.22|||<|0.01|TWO_SIDED||||||Latent growth modeling|||||||<.01
92174853|NCT04938492|184241560|SUPERIORITY||Slope|0.23|||>|0.05|TWO_SIDED||||||Latent growth modeling|||||||>.05
92174854|NCT00764751|184241641|SUPERIORITY||Mean Difference (Final Values)|15.4|||=|0.003|TWO_SIDED|95.0|5.6|25.0|||Paired t-test|||||25|5.6|=0.003
92174855|NCT00764751|184241641|SUPERIORITY||Mean Difference (Final Values)|-17.1||||0.07|TWO_SIDED|95.0|-36.0|1.9|||Paired t-test|||||1.9|-36.0|0.07
92174856|NCT04285515|184241665|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|0.96|<|0.0001|TWO_SIDED|95.0|-7.6|-3.84|||Mixed Effects Model for Repeated Measure|||||-3.84|-7.60|<0.0001
92174857|NCT04285515|184241666|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|1.33|<|0.0001|TWO_SIDED|95.0|-8.29|-3.05|||Mixed Effects Model for Repeated Measure|||||-3.05|-8.29|<0.0001
92174858|NCT04285515|184241667|SUPERIORITY||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|1.35|<|0.0001|TWO_SIDED|95.0|-8.61|-3.29|||Mixed Effects Model for Repeated Measure|||||-3.29|-8.61|<0.0001
92174859|NCT04285515|184241668|SUPERIORITY||Least Squares Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|-7.25|-3.88|||Mixed Effects Model for Repeated Measure|||||-3.88|-7.25|<0.0001
92174860|NCT04285515|184241669|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.81|-0.39|||Mixed Effects Model of Repeated Measure|||||-0.39|-0.81|<0.0001
92174861|NCT04285515|184241670|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.91|-0.31|||Mixed Effects Model for Repeated Measure|||||-0.31|-0.91|<0.0001
92282284|NCT00497796|184468177|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Hazard Ratio|2.25|||<|0.0001|TWO_SIDED|95.0|1.62|3.14|||Log Rank||Maribavir versus ganciclovir; Cox's proportional hazards regression model: time = receipt of induction ALA and geographic region (US or Europe) + treatment.|Analysis of time to onset||3.14|1.62|<0.0001
92282285|NCT00497796|184468178|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel|||Analysis of 100 days post-transplant||||0.0008
92282286|NCT00497796|184468178|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3742|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel|||Analysis of 6 months post-transplant||||0.3742
92282287|NCT00497796|184468179|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel|||||||0.0007
92282288|NCT00497796|184468180|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.041|||<|0.0001|TWO_SIDED|95.0|2.179|7.494||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of pp65 antigenemia assay||7.494|2.179|<0.0001
92282289|NCT00497796|184468180|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.448|||<|0.0001|TWO_SIDED|95.0|3.404|12.213||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of CMV DNA PCR assay||12.213|3.404|<0.0001
92282290|NCT00497796|184468180|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.02|||<|0.0001|TWO_SIDED|95.0|3.342|10.843||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of pp65 antigenemia or CMV DNA PCR assay||10.843|3.342|<0.0001
92282291|NCT00497796|184468180|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|11.165|||<|0.0001|TWO_SIDED|95.0|4.146|30.069||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of initiation of anti-CMV therapy||30.069|4.146|<0.0001
92282292|NCT00832377|184468327|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Week 12 peak IOP vs. baseline|paired t-test|||||||<0.0001
92174862|NCT04285515|184241671|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.89|-0.27|||Mixed Effects Model for Repeated Measure|||||-0.27|-0.89|0.0003
92282293|NCT00832377|184468328|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Week 12 trough IOP vs. baseline|paired t-test|||||||<0.0001
92282294|NCT00832377|184468329|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Week 12 8-HR IOP vs. baseline|paired t-test|||||||<0.0001
92282295|NCT03661528|184468332|OTHER||Percentage proportion difference|13.4||||0.0032|TWO_SIDED|95.0|4.6|22.2|||Cochran-Mantel-Haenszel|||||22.2|4.6|0.0032
92282296|NCT03661528|184468333|OTHER||Difference in least squares mean|-185.99|||<|0.0001|TWO_SIDED|95.0|-199.93|-172.05|||ANCOVA|Analysis presented for ANCOVA based on ranks.||||-172.05|-199.93|<0.0001
92282297|NCT00765648|184468334|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-9.3||||0.04|TWO_SIDED|95.0|-18.0|-0.6|||Chi-squared|||||-0.6|-18.0|0.04
92282298|NCT00765648|184468335|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.001
92282299|NCT00765648|184468336|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.76
92282300|NCT00765648|184468337|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED|95.0|||||Chi-squared|||||||0.38
92282301|NCT00765648|184468338|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED|95.0|||||Chi-squared|||||||0.18
92282302|NCT00765648|184468339|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.11
92282303|NCT00486837|184468343|SUPERIORITY_OR_OTHER|||||||0.197||95.0|||||ANCOVA|||||||0.197
92282304|NCT01199861|184468358|SUPERIORITY_OR_OTHER||Percent Inhibition|41.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the A/California/7/09 (H1N1) strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo three weeks after a single dose of seasonal influenza vaccine.||||
92174863|NCT04285515|184241672|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.82|-0.44|||Mixed Effects Model for Repeated Measure|||||-0.44|-0.82|<0.0001
92174864|NCT00812461|184241682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|0.68||0.012|TWO_SIDED|95.0|-3.07|-0.38|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 229 participants in the placebo group and 212 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. The null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-6); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||-0.38|-3.07|0.012
92174865|NCT00812461|184241683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.95|STANDARD_ERROR_OF_MEAN|2.89||0.088|TWO_SIDED|95.0|-10.63|0.73|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 229 participants in the placebo group and 212 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. The null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-6); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||0.73|-10.63|0.088
92174866|NCT00812461|184241684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.63|TWO_SIDED|95.0|0.67|1.27|||Adjusted Odds Ratio (OR) response|||The analysis of RSDRL used a logistic regression (LREG) model, with country, sex, Baseline DRL, and treatment as fixed effects, and missing values were imputed using individual-patient predicted values of TAC derived from the MMRM model.||1.27|0.67|0.630
92174867|NCT00812461|184241685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.11||0.029|TWO_SIDED|95.0|-0.44|-0.02|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 225 participants in the placebo group and 203 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model; an unstructured covariance matrix was used.||-0.02|-0.44|0.029
92174868|NCT00812461|184241686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.11||0.111|TWO_SIDED|95.0|-0.38|0.04|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 225 participants in the placebo group and 203 participants in the nalmefene group.|MMRM model with the Baseline CGI-S score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline CGI-S score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used.||0.04|-0.38|0.111
92174869|NCT00812461|184241687|SUPERIORITY_OR_OTHER||Ratio to placebo|0.96||||0.529|TWO_SIDED|95.0|0.86|1.08|||[Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 224 participants in the placebo group and 207 participants in the nalmefene group.|Log-transformed GGT values were analysed using an MMRM model with the log-transformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Logtransformed Baseline value-by-time interaction and treatment-by-time interaction were included in the model. An unstructured covariance matrix was used.||1.08|0.86|0.529
92174870|NCT00812461|184241688|SUPERIORITY_OR_OTHER||Ratio to placebo|0.92||||0.049|TWO_SIDED|95.0|0.84|1.0|||[Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 222 participants in the placebo group and 205 participants in the nalmefene group.|Log-transformed ALAT values were analysed using an MMRM model with the log-transformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Logtransformed Baseline value-by-time and treatment-by-time interactions were included in the model. An unstructured covariance matrix was used.||1.00|0.84|0.049
92174871|NCT01084876|184241736|EQUIVALENCE|The therapeutic equivalence between CT-P6 and Herceptin is concluded if the 95% confidence interval (CI) for the risk difference (CT-P6 - Herceptin) estimate in ORR ITRC review during the Main Study Treatment Period is entirely within the predefined equivalence margin of -0.15 to 0.15.|Risk Difference (RD)|-0.0535|||||TWO_SIDED|95.0|-0.143|0.036||||||||0.036|-0.143|
92174872|NCT05717907|184241763|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.000
92174873|NCT03953508|184241825|OTHER|Analysis of covariance test|||||>|0.05||||||Threshold for significance is p\<.05|ANCOVA|||||||>.05
92174874|NCT03953508|184241826|OTHER|T-test comparing differences, the null hypothesis is that the groups are equal|||||>|0.05||||||Threshold for significance is p\<.05|t-test, 2 sided|||||||>.05
92174875|NCT03953508|184241827|OTHER|Analysis of variance test comparing average breakpoint for menthol and non-menthol smokers|||||<|0.05||||||Threshold for significance is p\<.05|ANOVA|||||||<.05
92245984|NCT00547638|184395161|SUPERIORITY_OR_OTHER|||||||1||95.0||||Differences between treatment groups in the incidence rate of infection at Day 30 were compared using the Fisher's Exact Test.|Fisher Exact|||||||1.0000
92174876|NCT03953508|184241828|OTHER|T-test|||||<|0.05||||||Threshold for significance is p\<.05|t-test, 2 sided|||||||<.05
92174877|NCT03953508|184241829|OTHER|Analysis of variance|||||>|0.05||||||Threshold for significance is p\<.05|ANOVA|||||||>.05
92174878|NCT03953508|184241830|OTHER|Analysis of variance|||||<|0.05||||||Threshold for significance is p\<.05|ANOVA|||||||<.05
92174879|NCT03953508|184241831|OTHER|T-test|||||<|0.05||||||Threshold for significance is p\<.05|t-test, 2 sided|||||||<.05
92174880|NCT03953508|184241832|OTHER|Fisher's exact test|||||>|0.05||||||Threshold for significance is p\<.05|Fisher Exact|||||||>.05
92174881|NCT03953508|184241833|OTHER|T-test|||||>|0.05||||||Threshold for significance is p\<.05|t-test, 2 sided|||||||>.05
92174882|NCT03953508|184241834|OTHER|T-test|||||>|0.05||||||Threshold for significance is p\<.05|t-test, 2 sided|||||||>.05
92174883|NCT05546749|184241838|SUPERIORITY||Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|0.93||0.17|TWO_SIDED|95.0|-3.1|0.54|||Mixed Models Analysis|||A mixed effects model was performed to predict pain intensity by arm at weeks 3 and 6, controlling for baseline pain intensity score.||0.54|-3.1|0.17
92245985|NCT00547638|184395162|SUPERIORITY_OR_OTHER|||||||0.188||95.0||||Intent to treat population was analyzed.|Fisher Exact|||||||0.188
92174884|NCT05546749|184241839|SUPERIORITY||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|13.6||0.32|TWO_SIDED|95.0|-40.3|13.1|||Mixed Models Analysis|||A mixed effects model was used to predict opioid craving score by arm at weeks 3 and 6, controlling for baseline opioid craving score.||13.1|-40.3|0.32
92174885|NCT05546749|184241848|SUPERIORITY||Mean Difference (Final Values)|-9.7|STANDARD_ERROR_OF_MEAN|6.1||0.137|TWO_SIDED|95.0|-23.1|3.6|||Regression, Linear||RelieVRx was associated with lower stress score.|We performed a mixed effects model to predict stress score at week 6 by arm, controlling for baseline stress score.||3.6|-23.1|0.137
92174886|NCT04342494|184241879|EQUIVALENCE|Symptom-level change estimates were adjusted for baseline PHQ-9 score via analysis of covariance.||||||0.31|||||||ANCOVA|||||||0.31
92174887|NCT04342494|184241880|EQUIVALENCE|Average mood score obtained from daily measurements analyzed via analysis of variance||||||0.0073|||||||ANOVA|||||||0.0073
92174888|NCT04342494|184241881|EQUIVALENCE|Symptom-level change estimates were adjusted for baseline PANSI-PI score via analysis of covariance||||||0.03|||||||ANCOVA|||||||0.03
92174889|NCT04342494|184241882|EQUIVALENCE|Symptom-level change estimates were adjusted for baseline PANSI-NSI score via analysis of covariance||||||0.71|||||||ANCOVA|||||||0.71
92174890|NCT04342494|184241883|EQUIVALENCE|Symptom-level change estimates were adjusted for baseline GAD-7 score via analysis of covariance||||||0.31|||||||ANCOVA|||||||0.31
92174891|NCT03736720|184241885|OTHER|No statistical test.|Proportion|0.091|||||TWO_SIDED|80.0|0.033|0.301|||||Estimated using Jeffrey's prior method.|||0.301|0.033|
92174892|NCT03736720|184241891|SUPERIORITY|||||||0.289|||||||Sign test|two-sided test.||Comparing the pre-treatment and end of treatment QoL scores.||||0.289
92174893|NCT05119023|184241896|OTHER|||||||0.39||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Language Severity and Characterization of learning: SRT Observational Learning Scores||||0.39
92174894|NCT05119023|184241896|OTHER||||||<|0.01||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Language severity and Characterization of learning: AGL Observational Learning Scores||||<0.01
92174895|NCT05119023|184241896|OTHER|||||||0.95||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Language severity and Characterization of learning: AGL Rule-based Learning Scores||||0.95
92174896|NCT05119023|184241897|OTHER|Sample underpowered for regression so correlation examined||||||0.36||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Attention and Characterization of learning: SRT Observational Learning Scores||||0.36
92174897|NCT05119023|184241897|OTHER|||||||0.09|||||||Pearson's correlation|The threshold for statistical significance was p = 0.05||Examination of Attention and Characterization of learning: AGL Observational Learning Scores||||0.09
92174898|NCT05119023|184241897|OTHER|||||||0.32||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Attention and Characterization of learning: AGL Rule Based Learning||||0.32
92174899|NCT05119023|184241898|OTHER|Sample underpowered for regression so correlation examined||||||0.64||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Working Memory and Characterization of learning: SRT Observational Learning Scores||||0.64
92174900|NCT05119023|184241898|OTHER|||||||0.01||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Working Memory and Characterization of learning: AGL Observational Learning Scores||||0.01
92174901|NCT05119023|184241898|OTHER|||||||0.79|||||||Pearson's correlation|||Examination of Working Memory and Characterization of learning: AGL Rule-based Learning Scores||||0.79
92174902|NCT05119023|184241899|OTHER|Sample underpowered for regression so correlation examined||||||0.9||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Executive Function and Characterization of learning: SRT Observational Learning Scores||||0.90
92174903|NCT05119023|184241899|OTHER|||||||0.09||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Executive Function and Characterization of learning: AGL Observational Learning Scores||||0.09
92174904|NCT05119023|184241899|OTHER|||||||0.24|||||||Pearson's correlation|||Examination of Executive Function and Characterization of learning: AGL Rule-based Learning Scores||||0.24
92174905|NCT03194217|184241901|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.7||0.668|TWO_SIDED|95.0|-1.68|1.08|||ANCOVA|||||1.08|-1.68|0.668
92174906|NCT03194217|184241901|SUPERIORITY||Mean Difference (Final Values)|0.88|STANDARD_ERROR_OF_MEAN|0.7||0.213|TWO_SIDED|95.0|-0.5|2.26|||ANCOVA|||||2.26|-0.50|0.213
92245986|NCT00547638|184395162|SUPERIORITY_OR_OTHER|||||||0.883||95.0||||Intent to treat population was analyzed.|Fisher Exact|||||||0.883
92245987|NCT00547638|184395163|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0000
92174907|NCT03194217|184241901|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.7||0.575|TWO_SIDED|95.0|-1.76|0.98|||ANCOVA|||||0.98|-1.76|0.575
92174908|NCT02962895|184241902|SUPERIORITY||Least Squares Mean Difference|0.75||||0.5161|TWO_SIDED|95.0|-1.52|3.02|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo||3.02|-1.52|0.5161
92174909|NCT02962895|184241902|SUPERIORITY||Least Squares Mean Difference|-0.55||||0.6332|TWO_SIDED|95.0|-2.8|1.71|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo||1.71|-2.80|0.6332
92174910|NCT02962895|184241902|SUPERIORITY||Least Squares Mean Difference|-1.92||||0.0921|TWO_SIDED|95.0|-4.15|0.32|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo||0.32|-4.15|0.0921
92174911|NCT02962895|184241904|SUPERIORITY||Least Squares Mean Difference|0.32||||0.4457|TWO_SIDED|95.0|-0.5|1.13|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo||1.13|-0.50|0.4457
92245988|NCT01963208|184395169|OTHER||Median Difference (Final Values)|-7.06||||0.1788|TWO_SIDED|95.0|-17.44|3.52||The null hypothesis is that there is no difference between the distributions of the two treatment groups with respect to percent change in seizure frequency.|Rank ANCOVA|||||3.52|-17.44|0.1788
92245989|NCT00438399|184395185|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||Wilcoxon (Mann-Whitney)|||The purpose of the study was to demonstrate the superiority of Clobetasol propionate shampoo over one of three other comparators, in terms of Subject's overall preference. It was to be analyzed using a non parametric two-sided Wilcoxon rank Signed test on ITT population.||||0.0003
92174912|NCT02962895|184241904|SUPERIORITY||Least Square Mean Difference|0.01||||0.301|TWO_SIDED|95.0|-0.79|0.82|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo||0.82|-0.79|0.301
92282305|NCT01199861|184468358|SUPERIORITY_OR_OTHER||Percent Inhibition|-35.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the A/Perth/16/2009 (H3N2) strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo three weeks after a single dose of seasonal influenza vaccine.||||
92282306|NCT01199861|184468358|SUPERIORITY_OR_OTHER||Percent Inhibition|44.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the B/Brisbane/60/2008 strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo three weeks after a single dose of seasonal influenza vaccine.||||
92282307|NCT01199861|184468359|SUPERIORITY_OR_OTHER||Percent Inhibition|38.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the A/California/7/09 (H1N1) strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo six weeks after a single dose of seasonal influenza vaccine.||||
92282308|NCT01199861|184468359|SUPERIORITY_OR_OTHER||Percent Inhibition|-28.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the A/Perth/16/2009 (H3N2) strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo six weeks after a single dose of seasonal influenza vaccine.||||
92282309|NCT01199861|184468359|SUPERIORITY_OR_OTHER||Percent Inhibition|48.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the B/Brisbane/60/2008 strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo six weeks after a single dose of seasonal influenza vaccine.||||
92282310|NCT05630547|184468399|SUPERIORITY||LS Geometric Mean Ratio to Baseline|0.986||||0.8042|TWO_SIDED|95.0|0.881|1.103|||MMRM|||Analysis was performed using mixed-effect model with repeated measures (MMRM) including the fixed categorical effects of the treatment group, multiple sclerosis (MS) clinical subtype (relapsing remitting multiple sclerosis \[RRMS\], secondary progressive multiple sclerosis \[SPMS\], or primary progressive multiple sclerosis \[PPMS\]), visit, treatment-by-visit interaction, log-transformed baseline sNfL levels and log-transformed baseline sNfL levels-by-visit interaction.||1.103|0.881|0.8042
92282311|NCT00117949|184468427|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Log Rank|||||||<0.001
92282312|NCT00117949|184468427|SUPERIORITY_OR_OTHER||Median days to insufficient T response|84.0||||||95.0|35.0|112.0||||||Kaplan-Meier estimates of the time to meet insufficient testosterone (T) response.||112|35|
92282313|NCT00117949|184468427|SUPERIORITY_OR_OTHER||Median days to insufficient T response|98.0||||||95.0|70.0|126.0||||||Kaplan-Meier estimates of the time to meet insufficient testosterone (T) response||126|70|
92282314|NCT00117949|184468427|SUPERIORITY_OR_OTHER||Median days to insufficient T response|35.0||||||95.0|14.0|98.0||||||Kaplan-Meier estimates of the time to meet insufficient testosterone (T) response||98|14|
92282315|NCT00117949|184468428|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Log Rank|Participants not castrated were censored as of the days from dosing for the last available observation.||||||0.003
92282316|NCT00117949|184468428|SUPERIORITY_OR_OTHER||Median time to castration (days)|3.0||||||95.0|3.0|7.0||||||Kaplan-Meier estimates of the median time to testosterone castration.||7|3|
92282317|NCT00117949|184468428|SUPERIORITY_OR_OTHER||Median time to castration (days)|3.0||||||95.0|1.0|3.0||||||Kaplan-Meier estimates of the time to testosterone castration.||3|1|
92282318|NCT00117949|184468429|SUPERIORITY_OR_OTHER||Percentage of participants|0.0||||||95.0|0.0|0.0||||||Kaplan-Meier estimates of the percentage of participants with sufficient testosterone suppression.||0|0|
92282319|NCT00117949|184468429|SUPERIORITY_OR_OTHER||Percentage of participants|42.7||||||95.0|22.0|63.4||||||Kaplan-Meier estimates of the percentage of participants with sufficient testosterone suppression.||63.4|22|
92282320|NCT00117949|184468429|SUPERIORITY_OR_OTHER||Percentage of participants|61.6||||||95.0|41.8|81.3||||||Kaplan-Meier estimates of the percentage of participants with sufficient testosterone suppression.||81.3|41.8|
92282321|NCT00117949|184468429|SUPERIORITY_OR_OTHER||Percentage of participants|35.6||||||95.0|15.8|55.5||||||Kaplan-Meier estimates of the percentage of participants with sufficient testosterone suppression.||55.5|15.8|
92282322|NCT00117949|184468430|SUPERIORITY_OR_OTHER|||||||0.181||95.0|||||Cochran-Armitage Trend Test.|||||||0.181
92282323|NCT00117949|184468430|SUPERIORITY_OR_OTHER||Percentage of participants|10.0||||||95.0|0.3|44.5||||||Kaplan Meier-estimates of the percentage of participants with testostestone serum levels below 0.5 ng/mL for at least 28 days.||44.5|0.3|
92282324|NCT00117949|184468430|SUPERIORITY_OR_OTHER||Percentage of participants|70.8||||||95.0|48.9|87.4||||||Kaplan Meier-estimates of the percentage of participants with testostestone serum levels below 0.5 ng/mL for at least 28 days.||87.4|48.9|
92282325|NCT00117949|184468430|SUPERIORITY_OR_OTHER||Percentage of participants|79.2||||||95.0|57.8|92.9||||||Kaplan Meier-estimates of the percentage of participants with testostestone serum levels below 0.5 ng/mL for at least 28 days.||92.9|57.8|
92282326|NCT00117949|184468430|SUPERIORITY_OR_OTHER||Percentage of participants|54.2||||||95.0|32.8|74.4||||||Kaplan Meier-estimates of the percentage of participants with testostestone serum levels below 0.5 ng/mL for at least 28 days.||74.4|32.8|
92174913|NCT02962895|184241904|SUPERIORITY||Least Square Mean Difference|-0.06||||0.8858|TWO_SIDED|95.0|-0.86|0.74|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo||0.74|-0.86|0.8858
92174914|NCT02962895|184241906|SUPERIORITY||Least Squares Mean Difference|-1.93||||0.3424|TWO_SIDED|95.0|-5.93|2.07|||Mixed Models Analysis|Confidence intervals and p-values are derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo||2.07|-5.93|0.3424
92174915|NCT02962895|184241906|SUPERIORITY||Least Squares Mean Difference|-2.56||||0.2092|TWO_SIDED|95.0|-6.58|1.45|||Mixed Models Analysis|Confidence intervals and p-values are derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo||1.45|-6.58|0.2092
92174916|NCT02962895|184241906|SUPERIORITY||Least Squares Mean Difference|0.31||||0.874|TWO_SIDED|95.0|-3.58|4.2|||Mixed Models Analysis|Confidence intervals and p-values are derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo||4.20|-3.58|0.8740
92174917|NCT02962895|184241908|SUPERIORITY||Least Squares Mean Difference|-1.02||||0.5768|TWO_SIDED|95.0|-4.61|2.57|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo / Mental Component Score||2.57|-4.61|0.5768
92174918|NCT02962895|184241908|SUPERIORITY||Least Squares Mean Difference|0.68||||0.7113|TWO_SIDED|95.0|-2.93|4.28|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo / Mental Component Score||4.28|-2.93|0.7113
92174919|NCT02962895|184241908|SUPERIORITY||Least Squares Mean Difference|1.0||||0.5722|TWO_SIDED|95.0|-2.49|4.48|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo / Mental Component Score||4.48|-2.49|0.5722
92282327|NCT00117949|184468431|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||Log Rank|||||||0.046
92174920|NCT02962895|184241908|SUPERIORITY||Least Squares Mean Difference|1.84||||0.4138|TWO_SIDED|95.0|-1.59|3.83|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo / Physical Component Score||3.83|-1.59|0.4138
92174921|NCT02962895|184241908|SUPERIORITY||Least Squares Mean Difference|-1.0||||0.4663|TWO_SIDED|95.0|-3.72|1.71|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo / Physical Component Score||1.71|-3.72|0.4663
92174922|NCT02962895|184241908|SUPERIORITY||Least Squares Mean Difference|1.84||||0.1694|TWO_SIDED|95.0|-0.79|4.47|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo / Physical Component Score||4.47|-0.79|0.1694
92174923|NCT02962895|184241910|SUPERIORITY||Least Squares Mean Difference|-4.17||||0.2671|TWO_SIDED|95.0|-11.56|3.22|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo||3.22|-11.56|0.2671
92174924|NCT02962895|184241910|SUPERIORITY||Least Squares Mean Difference|-4.49||||0.2248|TWO_SIDED|95.0|-11.78|2.79|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo||2.79|-11.78|0.2248
92174925|NCT02962895|184241910|SUPERIORITY||Least Squares Mean Difference|-8.36||||0.0224|TWO_SIDED|95.0|-15.51|-1.2|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo||-1.20|-15.51|0.0224
92174926|NCT02962895|184241912|SUPERIORITY||Least Squares Mean Difference|2.27||||0.6457|TWO_SIDED|95.0|-7.46|12.0|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo||12.00|-7.46|0.6457
92174927|NCT02962895|184241912|SUPERIORITY||Least Squares Mean Difference|3.26||||0.5132|TWO_SIDED|95.0|-6.55|13.06|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo||13.06|-6.55|0.5132
92174928|NCT02962895|184241912|SUPERIORITY||Least Squares Mean Difference|-4.77||||95|TWO_SIDED|95.0|-14.21|4.68|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo||4.68|-14.21|95
92174929|NCT02962895|184241913|SUPERIORITY||Least Squares Mean Difference|0.11||||0.271|TWO_SIDED|95.0|-0.08|0.3|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo (Stimulated salivary flow rate)||0.30|-0.08|0.2710
92174930|NCT02962895|184241913|SUPERIORITY||Least Squares Mean Difference|0.13||||0.1618|TWO_SIDED|95.0|-0.05|0.32|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo (Stimulated salivary flow rate)||0.32|-0.05|0.1618
92174931|NCT02962895|184241913|SUPERIORITY||Least Squares Mean Difference|0.2||||0.0374|TWO_SIDED|95.0|0.01|0.38|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo (Stimulated salivary flow rate)||0.38|0.01|0.0374
92174932|NCT02962895|184241913|SUPERIORITY||Least Squares Mean Difference|0.0||||0.9559|TWO_SIDED|95.0|-0.09|0.09|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo (Unstimulated salivary flow rate)||0.09|-0.09|0.9559
92174933|NCT02962895|184241913|SUPERIORITY||Least Squares Mean Difference|0.0||||0.929|TWO_SIDED|95.0|-0.09|0.08|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo (Unstimulated salivary flow rate)||0.08|-0.09|0.9290
92174934|NCT02962895|184241913|SUPERIORITY||Least Squares Mean Difference|-0.01||||0.7276|TWO_SIDED|95.0|-0.1|0.07|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo (Unstimulated salivary flow rate)||0.07|-0.10|0.7276
92174935|NCT01606215|184241960|OTHER|||||||0.84|||||||t-test, 2 sided|||Week 4 data||||0.84
92174936|NCT01606215|184241960|OTHER|||||||0.62|||||||t-test, 2 sided|||Week 12 data||||0.62
92282328|NCT00117949|184468431|SUPERIORITY_OR_OTHER||days|14.0||||||95.0|14.0|28.0||||||Kaplan-Meier estimates of the time (days) to 50% reduction in PSA||28|14|
92282329|NCT00117949|184468431|SUPERIORITY_OR_OTHER||days|14.0||||||95.0|14.0|28.0||||||Kaplan-Meier estimates of the time (days) to 50% reduction in PSA||28|14|
92282330|NCT00117949|184468431|SUPERIORITY_OR_OTHER||days|28.0||||||95.0|14.0|41.0||||||Kaplan-Meier estimates of the time (days) to 50% reduction in PSA||41|14|
92282331|NCT00117949|184468432|SUPERIORITY_OR_OTHER|||||||0.926||95.0|||||Log Rank|||||||0.926
92174937|NCT01606215|184241960|OTHER|||||||0.61|||||||t-test, 2 sided|||Week 24 data||||0.61
92174938|NCT01606215|184241963|OTHER|||||||0.77|||||||t-test, 2 sided|||Week 4||||0.77
92174939|NCT01606215|184241963|OTHER|||||||0.68|||||||t-test, 2 sided|||Week 12||||0.68
92174940|NCT01606215|184241963|OTHER|Week 24||||||0.48|||||||t-test, 2 sided|||Week 24||||0.48
92174941|NCT05851573|184241966|OTHER||||||<|0.05|||||||t-test, 2 sided|df = 9||||||< .05
92174942|NCT05851573|184241967|OTHER||||||=|0.775|||||||t-test, 2 sided|df = 9||||||= .775
92174943|NCT05851573|184241968|OTHER||||||=|0.444|||||||t-test, 2 sided|df = 10||||||= .444
92174944|NCT05851573|184241969|OTHER|||||||0.959|||||||t-test, 2 sided|df = 9||||||.959
92282332|NCT00117949|184468432|SUPERIORITY_OR_OTHER||days|56.0||||||95.0|35.0|56.0||||||Kaplan-Meier estimates of the time (days) to 90% reduction in PSA.||56|35|
92282333|NCT00117949|184468432|SUPERIORITY_OR_OTHER||days|56.0||||||95.0|35.0|84.0||||||Kaplan-Meier estimates of the time (days) to 90% reduction in PSA.||84|35|
92245990|NCT00438399|184395185|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0|||||Wilcoxon (Mann-Whitney)|||The purpose of the study was to demonstrate the superiority of Clobetasol propionate shampoo over one of three other comparators, in terms of Subject's overall preference. It was to be analyzed using a non parametric two-sided Wilcoxon rank Signed test on ITT population.||||0.007
92174945|NCT05851573|184241970|OTHER|||||||0.068|||||||t-test, 2 sided|df = 9||||||.068
92174946|NCT05851573|184241971|OTHER||||||=|0.119|||||||t-test, 2 sided|df = 10||||||= .119
92174947|NCT05851573|184241972|OTHER||||||=|0.258|||||||t-test, 2 sided|df = 10||||||= .258
92245991|NCT00438399|184395185|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||The purpose of the study was to demonstrate the superiority of Clobetasol propionate shampoo over one of three other comparators, in terms of Subject's overall preference. It was to be analyzed using a non parametric two-sided Wilcoxon rank Signed test on ITT population.||||<0.0001
92174948|NCT05851573|184241973|OTHER||||||=|0.593|||||||t-test, 2 sided|df = 10||||||= .593
92245992|NCT00406783|184395190|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92245993|NCT00406783|184395191|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92174949|NCT03115476|184242012|OTHER||Hazard Ratio (HR)|1.43||||0.43|TWO_SIDED|95.0|0.61|3.9|||likelihood ratio test|||Relative difference between groups (ingenol disoxate vs vehicle) expressed as hazard ratio||3.9|0.61|0.43
92174950|NCT03115476|184242013|OTHER||Hazard Ratio (HR)|1.99|||<|0.01|TWO_SIDED|95.0|1.17|3.62|||likelihood ratio test|||relative difference between treatment groups (ingenol disoxate gel vs vehicle) expressed as hazard ratio||3.62|1.17|<0.01
92174951|NCT03848065|184242045|OTHER||Difference in Percentages|17.8||||0.004|TWO_SIDED|95.0|9.0|31.4|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Injection Site Erythema (Redness)||31.4|9.0|0.004
92174952|NCT03848065|184242045|OTHER||Difference in Percentages|4.7||||0.15|TWO_SIDED|95.0|-3.7|15.5|||Miettinen & Nurminen method||Difference = % V114-SC minus % PCV13-SC|Injection Site Erythema (Redness)||15.5|-3.7|0.150
92174953|NCT03848065|184242045|OTHER||Difference in Percentages|-13.1||||0.054|TWO_SIDED|95.0|-27.6|0.2|||Miettinen & Nurminen method||Difference = % V114-IM minus % PCV13-SC|Injection Site Erythema (Redness)||0.2|-27.6|0.054
92174954|NCT03848065|184242045|OTHER||Difference in Percentages|13.1||||0.091|TWO_SIDED|95.0|-2.3|28.8|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Injection Site Induration (Hard Lump)||28.8|-2.3|0.091
92245994|NCT01337167|184395240|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|9.68|||<|0.001|TWO_SIDED|95.0|4.83|14.83|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||Non-inferiority for titer \>=1.0 μg/mL||14.83|4.83|<0.001
92245995|NCT01337167|184395240|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (V419 - Ctrl)|4.87|||<|0.001|TWO_SIDED|95.0|2.23|8.14|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||Non-inferiority for titer \>=0.15 μg/mL||8.14|2.23|<0.001
92245996|NCT01337167|184395240|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419-Ctrl)|4.87|||<|0.001|TWO_SIDED|95.0|2.23|8.14|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||Secondary Analysis: Non-inferiority for titer \>=0.15 μg/mL||8.14|2.23|<0.001
92245997|NCT01337167|184395241|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|0.84|||<|0.001|TWO_SIDED|95.0|-0.35|2.74|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.74|-0.35|<0.001
92245998|NCT01337167|184395242|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|-3.84||||0.002|TWO_SIDED|95.0|-8.02|0.66|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||0.66|-8.02|0.002
92245999|NCT01337167|184395243|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (V419 - Ctrl)|0.39|||<|0.001|TWO_SIDED|95.0|-0.28|1.74|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.74|-0.28|<0.001
92174955|NCT03848065|184242045|OTHER||Difference in Percentages|-9.1||||0.044|TWO_SIDED|95.0|-21.2|-0.4|||Miettinen & Nurminen method||Difference = % V114-SC minus % PCV13-SC|Injection Site Induration (Hard Lump)||-0.4|-21.2|0.044
92246000|NCT01337167|184395244|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|-0.33|||<|0.001|TWO_SIDED|95.0|-1.8|1.6|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.60|-1.80|<0.001
92246001|NCT01337167|184395245|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|-4.7||||0.001|TWO_SIDED|95.0|-8.14|-0.97|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||-0.97|-8.14|0.001
92282334|NCT00117949|184468432|SUPERIORITY_OR_OTHER||days|56.0||||||95.0|35.0|100.0|||||The upper confidence interval limit could not be calculated. For technical reasons it has been entered as 100.|Kaplan-Meier estimates of the time (days) to 90% reduction in PSA.||100|35|
92174956|NCT03848065|184242045|OTHER||Difference in Percentages|-22.2||||0.001|TWO_SIDED|95.0|-36.4|-12.5|||Miettinen & Nurminen method||Difference = % V114-IM minus % PCV13-SC|Injection Site Induration (Hard Lump)||-12.5|-36.4|0.001
92174957|NCT03848065|184242045|OTHER||Difference in Percentages|9.7||||0.333|TWO_SIDED|95.0|-10.0|28.9|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Injection Site Pain||28.9|-10.0|0.333
92282335|NCT02099461|184468444|SUPERIORITY_OR_OTHER||LS Mean|0.15||||0.2966|TWO_SIDED|95.0|-0.136|0.441|||ANCOVA|||An ANCOVA analysis was performed on the log ratio of post-baseline to baseline Ki-67 index. Independent variables included treatment, stratification factor, and log transformed baseline Ki-67 index.||0.441|-0.136|0.2966
92174958|NCT03848065|184242045|OTHER||Difference in Percentages|-3.2||||0.76|TWO_SIDED|95.0|-23.4|17.2|||Miettinen & Nurminen method||Difference = % V114-SC minus % PCV13-SC|Injection Site Pain||17.2|-23.4|0.760
92174959|NCT03848065|184242045|OTHER||Difference in Percentages|-13.0||||0.205|TWO_SIDED|95.0|-32.2|7.1|||Miettinen & Nurminen method||Difference = % V114-IM minus % PCV13-SC|Injection Site Pain||7.1|-32.2|0.205
92174960|NCT03848065|184242045|OTHER||Difference in Percentages|13.0||||0.128|TWO_SIDED|95.0|-3.9|29.7|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Injection Site Swelling||29.7|-3.9|0.128
92174961|NCT03848065|184242045|OTHER||Difference in Percentages|-2.0||||0.779|TWO_SIDED|95.0|-17.0|13.0|||Miettinen & Nurminen method||Difference = % V114-SC minus % PCV13-SC|Injection Site Swelling||13.0|-17.0|0.779
92174962|NCT03848065|184242045|OTHER||Difference in Parentages|-15.0||||0.076|TWO_SIDED|95.0|-31.5|1.7|||Miettinen & Nurminen method||Difference = % V114-IM minus % PCV13-SC|Injection Site Swelling||1.7|-31.5|0.076
92174963|NCT03848065|184242046|OTHER||Difference in Percentages|-10.6||||0.282|TWO_SIDED|95.0|-29.1|8.7|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Decreased Appetite (Appetite Loss)||8.7|-29.1|0.282
92174964|NCT03848065|184242046|OTHER||Difference in Percentages|-9.9||||0.317|TWO_SIDED|95.0|-28.7|9.5|||Miettinen & Nurminen method||Difference= % V114-SC minus % PCV13-SC|Decreased Appetite (Appetite Loss)||9.5|-28.7|0.317
92174965|NCT03848065|184242046|OTHER||Difference in Percentages|0.7||||0.948|TWO_SIDED|95.0|-19.2|20.4|||Miettinen & Nurminen method||Difference= % V114-IM minus % PCV13-SC|Decreased Appetite (Appetite Loss)||20.4|-19.2|0.948
92174966|NCT03848065|184242046|OTHER||Difference in Percentages|10.5||||0.303|TWO_SIDED|95.0|-9.4|29.6|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Somnolence (Drowsiness)||29.6|-9.4|0.303
92174967|NCT03848065|184242046|OTHER||Difference in Percentages|-4.0||||0.681|TWO_SIDED|95.0|-22.6|15.0|||Miettinen & Nurminen method||Difference= % V114-SC minus % PCV13-SC|Somnolence (Drowsiness)||15.0|-22.6|0.681
92174968|NCT03848065|184242046|OTHER||Difference in Percentages|-14.4||||0.153|TWO_SIDED|95.0|-33.2|5.4|||Miettinen & Nurminen method||Difference= % V114-IM minus % PCV13-SC|Somnolence (Drowsiness)||5.4|-33.2|0.153
92246002|NCT01337167|184395246|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|-2.67|||<|0.001|TWO_SIDED|95.0|-7.27|2.23|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.23|-7.27|<0.001
92246003|NCT01337167|184395247|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|4.05|||<|0.001|TWO_SIDED|95.0|0.23|8.28|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||8.28|0.23|<0.001
92246004|NCT01337167|184395248|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (V419 - Ctrl)|1.76|||<|0.001|TWO_SIDED|95.0|0.85|3.59|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||3.59|0.85|<0.001
92282336|NCT02099461|184468444|SUPERIORITY_OR_OTHER||LS Mean|-0.16||||0.2769|TWO_SIDED|95.0|-0.447|0.13|||ANCOVA|||An ANCOVA analysis was performed on the log ratio of post-baseline to baseline Ki-67 index. Independent variables included treatment, stratification factor, and log transformed baseline Ki-67 index.||0.130|-0.447|0.2769
92282337|NCT02099461|184468444|SUPERIORITY_OR_OTHER||LS Mean|-0.09||||0.5238|TWO_SIDED|95.0|-0.373|0.191|||ANCOVA|||An ANCOVA analysis was performed on the log ratio of post-baseline to baseline Ki-67 index. Independent variables included treatment, stratification factor, and log transformed baseline Ki-67 index.||0.191|-0.373|0.5238
92282338|NCT02099461|184468444|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31||||0.1343|TWO_SIDED|95.0|-0.72|0.098|||ANCOVA||Denosumab 60 mg - Placebo|An ANCOVA analysis was performed on the log ratio of post-baseline to Baseline Ki-67 index. Independent variables included treatment, stratification factor, and log transformed baseline Ki-67 index.||0.098|-0.720|0.1343
92282339|NCT02099461|184468444|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24||||0.2345|TWO_SIDED|95.0|-0.646|0.161|||ANCOVA||Denosumab 120 mg - Placebo|An ANCOVA analysis was performed on the log ratio of post-baseline to Baseline Ki-67 index. Independent variables included treatment, stratification factor, and log transformed baseline Ki-67 index.||0.161|-0.646|0.2345
92282340|NCT00406848|184468449|SUPERIORITY_OR_OTHER|||||||0.397||95.0||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||Tested was the null hypothesis that there would be no difference in changes from baseline (Week 1) to Week 13 on the HAMD-17 Maier subscale between duloxetine and placebo treatment groups.||||0.397
92282341|NCT00406848|184468450|SUPERIORITY_OR_OTHER|||||||0.115||95.0||||p-value is for difference between duloxetine and placebo on change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.115
92282342|NCT00406848|184468450|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||p-value is for difference between duloxetine and placebo on change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.004
92282343|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.773||95.0||||p-value is for HAMD-17 total score change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.773
92282344|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.084||95.0||||p-value is for HAMD-17 total score change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.084
92246005|NCT01337167|184395248|SUPERIORITY_OR_OTHER||Response Rate|100.0|||<|0.001|TWO_SIDED|95.0|99.54|100.0|||Clopper and Pearson|Acceptability requires that the lower bound of the 2-sided 95% CI of the response rate is \>=90||||100.00|99.54|<0.001
92282345|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.059||95.0||||p-value is for Maier subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.059
92246006|NCT01337167|184395249|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (V419 - Ctrl)|0.26|||<|0.001|TWO_SIDED|95.0|-0.22|1.42|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.42|-0.22|<0.001
92282346|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.488||95.0||||p-value is for Bech subscale change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.488
92282347|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||p-value is for HAMD-17 Bech subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.048
92282348|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.529||95.0||||p-value is for Core Mood subscale change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.529
92282349|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||p-value is for Core Mood subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.027
92282350|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.749||95.0||||p-value is for Anxiety/Somatization subscale change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.749
92282351|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.296||95.0||||p-value is for Anxiety/Somatization subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.296
92282352|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.984||95.0||||p-value is for Sleep subscale change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.984
92282353|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.93||95.0||||p-value is for Sleep subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.930
92282354|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.934||95.0||||p-value is for Retardation subscale change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.934
92282355|NCT00406848|184468451|SUPERIORITY_OR_OTHER|||||||0.123||95.0||||p-value is for Retardation subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.123
92174969|NCT03848065|184242046|OTHER||Difference in Percentages|10.7||||0.237|TWO_SIDED|95.0|-7.2|28.2|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Irritability||28.2|-7.2|0.237
92174970|NCT03848065|184242046|OTHER||Difference in Percentages|7.4||||0.406|TWO_SIDED|95.0|-10.3|25.0|||Miettinen & Nurminen method||Difference= % V114-SC minus % PCV13-SC|Irritability||25.0|-10.3|0.406
92282356|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||p-value is for Severity of Worst Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.034
92282357|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||p-value is for Severity of Worst Pain - Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.100
92282358|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||p-value is for Severity of Least Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.009
92282359|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.126||95.0||||p-value is for Severity of Least Pain Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.126
92282360|NCT00406848|184468452|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Severity of Average Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||<0.001
92282361|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||p-value is for Severity of Average Pain Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.013
92282362|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||p-value is for Severity of Pain Right Now Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.016
92282363|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.058||95.0||||p-value is for Severity of Pain Right Now Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.058
92246007|NCT01337167|184395249|SUPERIORITY_OR_OTHER||Response Rate|100.0|||<|0.001|TWO_SIDED|95.0|99.54|100.0|||Clopper and Pearson|Acceptability requires that the lower bound of the 2-sided 95% CI of the response rate is \>=90||||100.00|99.54|<0.001
92246008|NCT01337167|184395250|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (V419 - Ctrl)|0.25|||<|0.001|TWO_SIDED|95.0|-0.24|1.41|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.41|-0.24|<0.001
92174971|NCT03848065|184242046|OTHER||Difference in Percentages|-3.3||||0.729|TWO_SIDED|95.0|-21.8|15.5|||Miettinen & Nurminen method||Difference= % V114-IM minus % PCV13-SC|Irritability||15.5|-21.8|0.729
92174972|NCT03848065|184242046|OTHER||Difference in Percentages|4.6||||0.385|TWO_SIDED|95.0|-7.1|17.5|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Urticaria (Hives/Welts)||17.5|-7.1|0.385
92246009|NCT01337167|184395250|SUPERIORITY_OR_OTHER||Response Rate|100.0|||<|0.001|TWO_SIDED|95.0|99.53|100.0|||Clopper and Pearson|Acceptability requires that the lower bound of the 2-sided 95% CI of the response rate is \>=90||||100.00|99.53|<0.001
92246010|NCT01337167|184395251|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the Geometric Mean Concentration (GMC) ratio is \>=0.67|GMC Ratio (V419/Control)|1.28|||<|0.001|TWO_SIDED|95.0|1.2|1.38|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.38|1.20|<0.001
92282364|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||p-value is for Interference with General Activity Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.011
92174973|NCT03848065|184242046|OTHER||Difference in Percentages|2.1||||0.719|TWO_SIDED|95.0|-11.0|15.4|||Miettinen & Nurminen method||Difference= % V114-SC minus % PCV13-SC|Urticaria (Hives/Welts)||15.4|-11.0|0.719
92246011|NCT01337167|184395252|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|0.64||||0.786|TWO_SIDED|95.0|0.59|0.7|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||0.70|0.59|0.786
92246012|NCT01337167|184395253|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|0.83|||<|0.001|TWO_SIDED|95.0|0.73|0.95|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||0.95|0.73|<0.001
92246013|NCT01337167|184395254|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.28|||<|0.001|TWO_SIDED|95.0|1.15|1.42|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.42|1.15|<0.001
92246014|NCT01337167|184395255|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|1.88|||<|0.001|TWO_SIDED|95.0|0.39|4.18|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||4.18|0.39|<0.001
92246015|NCT01337167|184395256|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|1.3|||<|0.001|TWO_SIDED|95.0|-1.67|4.78|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||4.78|-1.67|<0.001
92246016|NCT01337167|184395257|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|-0.41|||<|0.001|TWO_SIDED|95.0|-3.46|3.1|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||3.10|-3.46|<0.001
92246017|NCT01337167|184395258|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|6.18|||<|0.001|TWO_SIDED|95.0|3.26|9.78|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||9.78|3.26|<0.001
92246018|NCT01337167|184395259|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.4|||<|0.001|TWO_SIDED|95.0|1.28|1.52|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.52|1.28|<0.001
92246019|NCT01337167|184395260|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.0|||<|0.001|TWO_SIDED|95.0|0.91|1.1|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.10|0.91|<0.001
92246020|NCT01337167|184395261|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|0.78||||0.014|TWO_SIDED|95.0|0.68|0.89|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||0.89|0.68|0.014
92282365|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||p-value is for Interference with General Activity Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.060
92246021|NCT01337167|184395262|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.58|||<|0.001|TWO_SIDED|95.0|1.41|1.78|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.78|1.41|<0.001
92246022|NCT01337167|184395263|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.62|||<|0.001|TWO_SIDED|95.0|1.32|1.98|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.98|1.32|<0.001
92246023|NCT01337167|184395264|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.02|||<|0.001|TWO_SIDED|95.0|0.83|1.24|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.24|0.83|<0.001
92282366|NCT00406848|184468452|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Interference with Mood Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||<0.001
92174974|NCT03848065|184242046|OTHER||Difference in Percentages|-2.5||||0.61|TWO_SIDED|95.0|-14.9|8.9|||Miettinen & Nurminen method||Difference= % V114-IM minus % PCV13-SC|Urticaria (Hives/Welts)||8.9|-14.9|0.610
92174975|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 1||8.5|-8.1|
92174976|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 1||8.5|-7.9|
92174977|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 1||7.9|-8.1|
92174978|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114- SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 3||8.5|-8.1|
92174979|NCT03848065|184242048|OTHER||Difference in Percentages|-2.2|||||TWO_SIDED|95.0|-11.7|6.3|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 3||6.3|-11.7|
92282367|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value is for Interference with Mood Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.002
92246024|NCT01337167|184395268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.1|||||TWO_SIDED|95.0|-18.4|-7.7|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, all routes \<38°C||-7.7|-18.4|
92246025|NCT01337167|184395268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|||||TWO_SIDED|95.0|0.5|9.5|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, all routes \>=38°C and \<38.5°C||9.5|0.5|
92246026|NCT01337167|184395268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||||TWO_SIDED|95.0|2.8|11.2|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, all routes \>=38.5°C and \<39.5°C||11.2|2.8|
92246027|NCT01337167|184395268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-0.6|2.2|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, all routes \>=39.5°C||2.2|-0.6|
92246028|NCT01337167|184395268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.2|||||TWO_SIDED|95.0|-18.6|-7.7|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, rectal \<38°C||-7.7|-18.6|
92246029|NCT01337167|184395268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.5|||||TWO_SIDED|95.0|1.9|10.8|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, rectal \>=38°C and \<38.5°C||10.8|1.9|
92246030|NCT01337167|184395268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|||||TWO_SIDED|95.0|2.4|10.7|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, rectal \>=38.5°C and \<39.5°C||10.7|2.4|
92174980|NCT03848065|184242048|OTHER||Difference in Percentages|2.2|||||TWO_SIDED|95.0|-6.0|11.6|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 3||11.6|-6.0|
92174981|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference=% V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 4||8.5|-8.1|
92246031|NCT01337167|184395268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|-0.3|2.4|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, rectal \>=39.5°C||2.4|-0.3|
92246032|NCT02126670|184395271|SUPERIORITY_OR_OTHER|||||||0.799|TWO_SIDED||||||Chi-squared|||||||0.799
92264925|NCT01694849|184431212|SUPERIORITY||Difference in least square mean change|-0.36|||<|0.001|TWO_SIDED|95.0|-0.54|-0.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Fibrinogen||-0.17|-0.54|<0.001
92246033|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.3|||||TWO_SIDED|95.0|0.99|1.75||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.75|0.99|
92246034|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.59|0.89||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||0.89|0.59|
92246035|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.6|||||TWO_SIDED|95.0|1.96|3.44||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.44|1.96|
92246036|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.9|||||TWO_SIDED|95.0|2.22|3.86||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.86|2.22|
92246037|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.1|1.75||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.75|1.10|
92246038|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.12|1.74||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.74|1.12|
92246039|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.3|||||TWO_SIDED|95.0|1.59|3.24||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.24|1.59|
92174982|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 4||8.5|-7.9|
92174983|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 4||7.9|-8.1|
92246040|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.77|1.23||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.23|0.77|
92246041|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.1|||||TWO_SIDED|95.0|1.61|2.86||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.86|1.61|
92246042|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.3|||||TWO_SIDED|95.0|1.81|2.92||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.92|1.81|
92246043|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.0|||||TWO_SIDED|95.0|1.42|2.79||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.79|1.42|
92282368|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||p-value is for Interference with Walking Ability Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.019
92282369|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||p-value is for Interference with Walking Ability Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.040
92282370|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||p-value is for Interference with Normal Work Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.003
92282371|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||p-value is for Interference with Normal Work Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.014
92282372|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||p-value is for Interference with Relations with Other People Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.010
92282373|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||p-value is for Interference with Relations with Other People Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.010
92282374|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||p-value is for Interference with Sleep Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.015
92282375|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||p-value is for Interference with Sleep Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.005
92282376|NCT00406848|184468452|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Interference with Enjoyment of Life Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||<0.001
92174984|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 5||8.5|-8.1|
92246044|NCT01646398|184395273|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.5|||||TWO_SIDED|95.0|1.84|3.49||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.49|1.84|
92282377|NCT00406848|184468452|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Interference with Enjoyment of Life Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||<0.001
92282378|NCT00406848|184468452|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Average Interference Score Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||<0.001
92282379|NCT00406848|184468452|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value is for Average Interference Score Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.001
92282380|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||p-value is for Overall Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||.005
92282381|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||p-value is for Overall Pain Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.204
92282382|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.078||95.0||||p-value is for Headaches Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.078
92246045|NCT01646398|184395274|SUPERIORITY_OR_OTHER||Difference in percentage|26.8|||||TWO_SIDED|95.0|19.3|34.0||||||Difference in proportions (13vPnC - 23vPS) expressed as a percentage presented along with exact, 2-sided 95%CI. Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.||34.0|19.3|
92246046|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|0.99|1.75||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||1.75|0.99|
92246047|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.59|0.89||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||0.89|0.59|
92246048|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|2.6|||||TWO_SIDED|95.0|1.96|3.44||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||3.44|1.96|
92282383|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.147||95.0||||p-value is for Headaches Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.147
92282384|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||p-value is for Back Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.007
92282385|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||p-value is for Back Pain Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.013
92246049|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|2.9|||||TWO_SIDED|95.0|2.22|3.86||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||3.86|2.22|
92246050|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|1.4|||||TWO_SIDED|95.0|1.1|1.75||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||1.75|1.10|
92282386|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||p-value is for Shoulder Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.124
92282387|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.231||95.0||||p-value is for Shoulder Pain Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.231
92282388|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||p-value is for Interference with Daily Activities Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.006
92282389|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||p-value is for Interference with Daily Activities Week 25 main effect of treatment.|Mixed Models Analysis|Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit||||||0.019
92282390|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value is for Time in Pain While Awake Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.002
92174985|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 5||8.5|-7.9|
92174986|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 5||7.9|-8.1|
92282391|NCT00406848|184468453|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||p-value is for Time in Pain While Awake Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.036
92282392|NCT00406848|184468454|SUPERIORITY_OR_OTHER|||||||0.214||95.0||||p-value is for PGI-I at Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: PGI-I = Treatment + Pooled Investigator + Visit + Treatment\* Visit||||||0.214
92282393|NCT00406848|184468454|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||p-value is for PGI-I at Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: PGI-I = Treatment + Pooled Investigator + Visit + Treatment\* Visit||||||.063
92282394|NCT00406848|184468455|SUPERIORITY_OR_OTHER|||||||0.162||95.0||||p-value is for change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||.162
92282395|NCT00406848|184468455|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||p-value is for change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||.009
92282396|NCT00406848|184468456|SUPERIORITY_OR_OTHER|||||||0.555||95.0||||p-value is for change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||||0.555
92282397|NCT00406848|184468456|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||p-value is for change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||||.785
92282398|NCT00406848|184468457|SUPERIORITY_OR_OTHER|||||||0.255||95.0||||p-value is for change from baseline (Week 1) to Week 13.|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||||0.255
92246051|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|1.4|||||TWO_SIDED|95.0|1.12|1.74||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||1.74|1.12|
92246052|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|2.3|||||TWO_SIDED|95.0|1.59|3.24||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||3.24|1.59|
92246053|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.77|1.23||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||1.23|0.77|
92246054|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|2.1|||||TWO_SIDED|95.0|1.61|2.86||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||2.86|1.61|
92174987|NCT03848065|184242048|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-11.9|6.3|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 6A||6.3|-11.9|
92174988|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 6A||8.5|-7.9|
92174989|NCT03848065|184242048|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-11.9|5.8|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 6A||5.8|-11.9|
92174990|NCT03848065|184242048|OTHER||Difference in Percentages|-9.1|||||TWO_SIDED|95.0|-21.2|-0.2|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 6B||-0.2|-21.2|
92174991|NCT03848065|184242048|OTHER||Difference in Percentages|-6.7|||||TWO_SIDED|95.0|-17.9|2.1|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 6B||2.1|-17.9|
92174992|NCT03848065|184242048|OTHER||Difference in Percentages|-2.4|||||TWO_SIDED|95.0|-15.6|10.2|||||Difference=% V114 SC minus % V114 IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 6B||10.2|-15.6|
92174993|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114 SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 7F||8.5|-8.1|
92174994|NCT03848065|184242048|OTHER||Difference in Percentages|-2.2|||||TWO_SIDED|95.0|-11.7|6.3|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 7F||6.3|-11.7|
92246055|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|2.3|||||TWO_SIDED|95.0|1.81|2.92||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||2.92|1.81|
92246056|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|2.0|||||TWO_SIDED|95.0|1.42|2.79||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||2.79|1.42|
92174995|NCT03848065|184242048|OTHER||Difference in Percentages|2.2|||||TWO_SIDED|95.0|-6.0|11.6|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 7F||11.6|-6.0|
92174996|NCT03848065|184242048|OTHER||Differences in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 9V||8.5|-8.1|
92174997|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 9V||8.5|-7.9|
92174998|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 9V||7.9|-8.1|
92174999|NCT03848065|184242048|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-11.9|6.3|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 14||6.3|-11.9|
92175000|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 14||8.5|-7.9|
92175001|NCT03848065|184242048|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-11.9|5.8|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 14||5.8|-11.9|
92175002|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 18C||8.5|-8.1|
92175003|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 18C||8.5|-7.9|
92175004|NCT03848065|184242048|OTHER||Differences in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 18C||7.9|-8.1|
92246057|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|2.5|||||TWO_SIDED|95.0|1.84|3.49||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||3.49|1.84|
92175005|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference=% V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 19A||8.5|-8.1|
92175006|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 19A||8.5|-7.9|
92175007|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 19A||7.9|-8.1|
92175008|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference=% V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 19F||8.5|-8.1|
92175009|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 19F||8.5|-7.9|
92175010|NCT03848065|184242048|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 19F||7.9|-8.1|
92175011|NCT03848065|184242048|OTHER||Difference in Percentages|0.1|||||TWO_SIDED|95.0|-9.8|10.4|||||Difference=% V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 23F||10.4|-9.8|
92175012|NCT03848065|184242048|OTHER||Difference in Percentages|2.4|||||TWO_SIDED|95.0|-5.7|12.4|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 23F||12.4|-5.7|
92175013|NCT03848065|184242048|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-11.9|5.8|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 23F||5.8|-11.9|
92175014|NCT03848065|184242048|OTHER||Difference in Percentages|90.7|||||TWO_SIDED|95.0|77.2|96.4|||||Difference=% V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 22F||96.4|77.2|
92282399|NCT00406848|184468457|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||p-value is for change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||||0.038
92246058|NCT01646398|184395275|SUPERIORITY_OR_OTHER||GMT Ratio|3.1|||||TWO_SIDED|95.0|2.38|4.14||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 2.0.||4.14|2.38|
92246059|NCT01746940|184395354|SUPERIORITY_OR_OTHER|||||||0.1088||||||One-sided p-value|Fisher Exact|||The null hypothesis is that the proportions of treatment group successes are equal.||||0.1088
92246060|NCT01746940|184395354|SUPERIORITY_OR_OTHER|||||||0.0005||||||One-sided p-value|Fisher Exact|||The null hypothesis is that the proportions of treatment group successes are equal.||||0.0005
92246061|NCT03057951|184395355|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.79||||0.0003|TWO_SIDED|95.03|0.69|0.9|||Regression, Cox||Comparison vs. Placebo \[T/P\]|"Cox regression, with terms for treatment, region, baseline status of diabetes, age, sex, left ventricular ejection fraction (LVEF) and glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr) at baseline.~alpha=0.0497 (resulting from interim analysis)."||0.90|0.69|0.0003
92264926|NCT01694849|184431212|SUPERIORITY||Difference in least square mean change|-0.27||||0.005|TWO_SIDED|95.0|-0.46|-0.08|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors||Fibrinogen|Standard error of the least square mean|-0.08|-0.46|0.005
92264927|NCT01694849|184431212|SUPERIORITY||Difference in least square mean change|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.15|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Haptoglobin||-0.15|-0.35|<0.001
92264928|NCT01694849|184431212|SUPERIORITY||Difference in least square mean change|-0.27|||<|0.001|TWO_SIDED|95.0|-0.37|-0.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Haptoglobin||-0.17|-0.37|<0.001
92264929|NCT01694849|184431213|SUPERIORITY||Difference in least square mean change|0.57||||0.742|TWO_SIDED|95.0|-2.9|4.06|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Tumour Necrosis Factor alpha||4.06|-2.9|0.742
92264930|NCT01694849|184431213|SUPERIORITY||Difference in least square mean change|2.9||||0.107|TWO_SIDED|95.0|-0.63|6.43|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Tumour Necrosis Factor alpha||6.43|-0.63|0.107
92264931|NCT01694849|184431213|SUPERIORITY||Difference in least square mean change|0.5||||0.362|TWO_SIDED|95.0|-0.58|1.59|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Interleukine 6||1.59|-0.58|0.362
92264932|NCT01694849|184431213|SUPERIORITY||Difference in least square mean change|0.07||||0.894|TWO_SIDED|95.0|-1.03|1.18|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Interleukine 6||1.18|-1.03|0.894
92264933|NCT01694849|184431214|SUPERIORITY||Difference in least square mean change|-0.76||||0.229|TWO_SIDED|95.0|-2.0|0.48|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.48|-2|0.229
92246062|NCT03057951|184395356|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.73||||0.0009|TWO_SIDED|95.03|0.61|0.88|||Joint frailty model||Comparison vs. Placebo \[T/P\]|Joint frailty model that accounts for dependence between recurrent HHF and cardiovascular death, with terms for age, baseline eGFR (CKD-EPK)cr, baseline LVEF, region, baseline diabetes status, sex, and treatment. eGFR (CKP-EPI)cr: Glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement LVEF: Left ventricular ejection fraction. alpha=0.0497 (resulting from interim analysis).||0.88|0.61|0.0009
92246063|NCT03057951|184395357|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Treatment by time interaction|1.363|||<|0.0001|TWO_SIDED|99.9|0.861|1.865|||Random intercept random coeff. model||Empa 10 mg vs. Placebo slope \[/year\]|"Random coefficient model allowing for random intercept and random slope per patient, with factors age, baseline eGFR (CKD-EPI), baseline LVEF as linear covariate(s) and region, baseline diabetes status, sex, baseline-by-time interaction, treatment-by-time interaction and treatment as fixed effects.~Only 'on-treatment' data from treated patients were used. alpha=0.001. covariance structure: Unstructured."||1.865|0.861|<0.0001
92264934|NCT01694849|184431214|SUPERIORITY||Difference in least square mean change|-0.45||||0.463|TWO_SIDED|95.0|-1.67|0.76|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.76|-1.67|0.463
92246064|NCT03057951|184395358|OTHER||Hazard Ratio (HR)|0.95||||0.7243|TWO_SIDED|95.0|0.73|1.24|||Regression, Cox||Comparison vs Placebo \[T/P\]|Cox regression model included terms age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr), region, baseline diabetes status, sex, baseline Left ventricular ejection fraction (LVEF) and treatment.||1.24|0.73|0.7243
92246065|NCT03057951|184395359|OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.6|0.83|||Regression, Cox||Comparison vs. Placebo \[T/P\]|Cox regression model included terms age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr), region, baseline diabetes status, sex, baseline Left ventricular ejection fraction (LVEF) and treatment.||0.83|0.60|<0.0001
92246066|NCT03057951|184395360|OTHER||Hazard Ratio (HR)|0.91||||0.2951|TWO_SIDED|95.0|0.76|1.09|||Regression, Cox||Comparison vs. Placebo \[T/P\]|Cox regression model included terms age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr), region, baseline diabetes status, sex, baseline Left ventricular ejection fraction (LVEF) and treatment.||1.09|0.76|0.2951
92246067|NCT03057951|184395361|OTHER||Hazard Ratio (HR)|1.0||||0.9893|TWO_SIDED|95.0|0.87|1.15|||Regression, Cox||Comparison vs. Placebo \[T/P\]|Cox regression model included terms age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr), region, baseline diabetes status, sex, baseline Left ventricular ejection fraction (LVEF) and treatment.||1.15|0.87|0.9893
92246068|NCT03057951|184395362|OTHER||Hazard Ratio (HR)|0.84||||0.1539|TWO_SIDED|95.0|0.65|1.07|||Regression, Cox||Comparison vs. Placebo \[T/P\]|Cox regression model included terms age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr), region, baseline diabetes status, sex, baseline Left ventricular ejection fraction (LVEF) and treatment.||1.07|0.65|0.1539
92246069|NCT03057951|184395363|OTHER||Adjusted mean difference|1.32|STANDARD_ERROR_OF_MEAN|0.44||0.0028|TWO_SIDED|95.0|0.45|2.19|||Mixed Model Repeated Measures (MMRM)||Comparison vs Placebo \[T-P\]|"Model includes age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula (eGFR (CKD-EPI)), baseline Left ventricular ejection fraction (LVEF) as linear covariate(s) and region, baseline diabetes status, sex, week reachable, treatment-by-visit interaction, baseline KCCQ-Clinical-Summary-Score-by-visit interaction as fixed effect(s).~Unstructured covariance structure."||2.19|0.45|0.0028
92282400|NCT00406848|184468458|SUPERIORITY_OR_OTHER|||||||0.706||95.0||||p-values for Week 13 remission (HAMD17 ≤ 7).|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Remission = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.706
92246070|NCT03057951|184395364|OTHER||Hazard Ratio (HR)|0.93||||0.1012|TWO_SIDED|95.0|0.85|1.01|||Joint frailty model||Comparison vs. Placebo \[T/P\]|Joint frailty model that accounts for the dependence between recurrent all-cause hospitalisation and all-cause mortality was used. Joint frailty model with terms for age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula (eGFR (CKD-EPI)), baseline Left ventricular ejection fraction (LVEF), treatment, region, baseline diabetes status and sex.||1.01|0.85|0.1012
92282401|NCT00406848|184468458|SUPERIORITY_OR_OTHER|||||||0.694||95.0||||p-values for Week 25 Remission HAMD17 ≤ 7|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model:Remission = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.694
92282402|NCT00406848|184468458|SUPERIORITY_OR_OTHER|||||||0.864||95.0||||p-values for Week 13 Remission - HAMD17 ≤ 10|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model:Remission = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.864
92282403|NCT00406848|184468458|SUPERIORITY_OR_OTHER|||||||0.817||95.0||||p-values for Week 25 Remission - HAMD17 ≤ 10|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model:Remission = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.817
92282404|NCT00406848|184468459|SUPERIORITY_OR_OTHER|||||||0.664||95.0||||p-value is for probability of response at Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model:Response = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.664
92246071|NCT00696436|184395373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.27|||<|0.001|TWO_SIDED|95.0|-16.54|-12.01||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-12.01|-16.54|<0.001
92246072|NCT00696436|184395373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.16|||<|0.001|TWO_SIDED|95.0|-15.41|-10.91||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-10.91|-15.41|<0.001
92282405|NCT00406848|184468459|SUPERIORITY_OR_OTHER|||||||0.31||95.0||||p-value is for probability of response at Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model:Response = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.310
92282406|NCT00406848|184468461|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model: Onset = Treatment + Visit + Baseline + Treatment\*Visit.||||||0.036
92282407|NCT00406848|184468462|SUPERIORITY_OR_OTHER|||||||0.637||95.0||||p-value is for Systolic BP change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.637
92282408|NCT00406848|184468462|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value is for Diastolic BP change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.001
92282409|NCT00406848|184468462|SUPERIORITY_OR_OTHER|||||||0.452||95.0||||p-value is for Systolic BP change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.452
92246073|NCT00696436|184395373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.54||||0.009|TWO_SIDED|95.0|-4.44|-0.64||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-0.64|-4.44|0.009
92246074|NCT00696436|184395373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.31|||<|0.001|TWO_SIDED|95.0|-6.25|-2.37||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-2.37|-6.25|<0.001
92246075|NCT00696436|184395373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.43||||0.136|TWO_SIDED|95.0|-3.31|0.45||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||0.45|-3.31|0.136
92246076|NCT00696436|184395373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2||||0.001|TWO_SIDED|95.0|-5.12|-1.27||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-1.27|-5.12|0.001
92282410|NCT00406848|184468462|SUPERIORITY_OR_OTHER|||||||0.193||95.0||||p-value is for Diastolic BP change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.193
92246077|NCT00696436|184395374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.92|||<|0.001|TWO_SIDED|95.0|-18.07|-11.76||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-11.76|-18.07|<0.001
92246078|NCT00696436|184395374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.55|||<|0.001|TWO_SIDED|95.0|-17.71|-11.4||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-11.40|-17.71|<0.001
92246079|NCT00696436|184395374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.54||||0.008|TWO_SIDED|95.0|-6.17|-0.92||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-0.92|-6.17|0.008
92246080|NCT00696436|184395374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.43|||<|0.001|TWO_SIDED|95.0|-8.09|-2.78||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-2.78|-8.09|<0.001
92282411|NCT00406848|184468463|SUPERIORITY_OR_OTHER|||||||0.121||95.0||||p-value is for change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.121
92246081|NCT00696436|184395374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.18||||0.018|TWO_SIDED|95.0|-5.81|-0.55||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-0.55|-5.81|0.018
92246082|NCT00696436|184395374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.07|||<|0.001|TWO_SIDED|95.0|-7.73|-2.42||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-2.42|-7.73|<0.001
92246083|NCT00696436|184395375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.36|||<|0.001|TWO_SIDED|95.0|-10.91|-7.81||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-7.81|-10.91|<0.001
92246084|NCT00696436|184395375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.58|||<|0.001|TWO_SIDED|95.0|-10.12|-7.04||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-7.04|-10.12|<0.001
92282412|NCT00406848|184468463|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||p-value is for change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.038
92282413|NCT00406848|184468464|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||p-value is for Weight change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.003
92282414|NCT00406848|184468464|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||p-value is for Weight change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.127
92282415|NCT00406848|184468465|SUPERIORITY_OR_OTHER|||||||0.135||95.0||||p-value is for Diastolic Blood Pressure.|Fisher Exact|||||||0.135
92282416|NCT00406848|184468465|SUPERIORITY_OR_OTHER|||||||1||95.0||||p-value is for Pulse.|Fisher Exact|||Pulse||||1.00
92282417|NCT00406848|184468465|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||p-value is for Systolic Blood Pressure|Fisher Exact|||||||0.107
92282418|NCT00406848|184468465|SUPERIORITY_OR_OTHER|||||||0.235||95.0||||p-value is for Weight Change (gain)|Fisher Exact|||||||0.235
92282419|NCT00406848|184468465|SUPERIORITY_OR_OTHER|||||||0.813||95.0||||p-value is for Weight Change (loss)|Fisher Exact|||||||0.813
92246085|NCT00696436|184395375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.011|TWO_SIDED|95.0|-2.99|-0.4||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.40|-2.99|0.011
92246086|NCT00696436|184395375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35|||<|0.001|TWO_SIDED|95.0|-3.67|-1.02||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.02|-3.67|<0.001
92246087|NCT00696436|184395375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91||||0.166|TWO_SIDED|95.0|-2.19|0.38||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.38|-2.19|0.166
92246088|NCT00696436|184395375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.56||||0.02|TWO_SIDED|95.0|-2.88|-0.24||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.24|-2.88|0.020
92246089|NCT00696436|184395376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.51|||<|0.001|TWO_SIDED|95.0|-9.33|-5.69||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-5.69|-9.33|<0.001
92246090|NCT00696436|184395376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.21|||<|0.001|TWO_SIDED|95.0|-8.03|-4.39||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-4.39|-8.03|<0.001
92246091|NCT00696436|184395376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.18||||0.005|TWO_SIDED|95.0|-3.69|-0.67||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.67|-3.69|0.005
92175015|NCT03848065|184242048|OTHER||Difference in Percentages|95.2|||||TWO_SIDED|95.0|84.1|98.7|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 22F||98.7|84.1|
92175016|NCT03848065|184242048|OTHER||Difference in Percentages|-4.5|||||TWO_SIDED|95.0|-15.2|3.6|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 22F||3.6|-15.2|
92246092|NCT00696436|184395376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.17|||<|0.001|TWO_SIDED|95.0|-4.69|-1.64||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.64|-4.69|<0.001
92246093|NCT00696436|184395376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.257|TWO_SIDED|95.0|-2.39|0.64||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.64|-2.39|0.257
92246094|NCT00696436|184395376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.86||||0.017|TWO_SIDED|95.0|-3.39|-0.33||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.33|-3.39|0.017
92282420|NCT00406848|184468466|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||p-value is for Sustained Hypertension|Fisher Exact|||||||0.668
92246095|NCT00696436|184395377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.92|||<|0.001|TWO_SIDED|95.0|-17.3|-12.54||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-12.54|-17.30|<0.001
92246096|NCT00696436|184395377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.63|||<|0.001|TWO_SIDED|95.0|-15.99|-11.27||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-11.27|-15.99|<0.001
92246097|NCT00696436|184395377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.86||||0.005|TWO_SIDED|95.0|-4.85|-0.87||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.87|-4.85|0.005
92246098|NCT00696436|184395377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.76|||<|0.001|TWO_SIDED|95.0|-6.8|-2.73||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-2.73|-6.80|<0.001
92282421|NCT00406848|184468466|SUPERIORITY_OR_OTHER|||||||0.201||95.0||||p-value is for Orthostatic Hypotension|Fisher Exact|||||||0.201
92175017|NCT03848065|184242048|OTHER||Difference in Percentages|81.8|||||TWO_SIDED|95.0|67.9|90.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 33F||90.5|67.9|
92175018|NCT03848065|184242048|OTHER||Difference in Percentages|88.9|||||TWO_SIDED|95.0|76.4|95.2|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 33F||95.2|76.4|
92282422|NCT00406848|184468468|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||p-value is for Platelet Count change from baseline (Week 1) to Week 13.|ANOVA|Model: Change=Treatment+Pooled Investigator||||||0.003
92282423|NCT00406848|184468468|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Platelet Count change from baseline (Week 1) to Week 25.|ANOVA|Model: Change=Treatment+Pooled Investigator||||||<0.001
92282424|NCT00406848|184468469|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Uric Acid change from baseline (Week 1) to Week 13.|ANOVA|Model: Change = Treatment + Pooled Investigator||||||<0.001
92282425|NCT00406848|184468469|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Uric Acid change from baseline (Week 1) to Week 25.|ANOVA|Model: Change = Treatment + Pooled Investigator||||||<0.001
92246099|NCT00696436|184395377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.57||||0.119|TWO_SIDED|95.0|-3.55|0.4||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.40|-3.55|0.119
92246100|NCT00696436|184395377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47|||<|0.001|TWO_SIDED|95.0|-5.49|-1.45||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.45|-5.49|<0.001
92246101|NCT00696436|184395378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.81|||<|0.001|TWO_SIDED|95.0|-11.48|-8.13||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-8.13|-11.48|<0.001
92246102|NCT00696436|184395378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.96|||<|0.001|TWO_SIDED|95.0|-10.63|-7.3||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-7.30|-10.63|<0.001
92246103|NCT00696436|184395378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99||||0.006|TWO_SIDED|95.0|-3.39|-0.58||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.58|-3.39|0.006
92246104|NCT00696436|184395378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.57|||<|0.001|TWO_SIDED|95.0|-4.0|-1.14||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.14|-4.00|<0.001
92246105|NCT00696436|184395378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.107|TWO_SIDED|95.0|-2.53|0.25||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.25|-2.53|0.107
92246106|NCT00696436|184395378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73||||0.017|TWO_SIDED|95.0|-3.15|-0.3||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.30|-3.15|0.017
92246107|NCT00696436|184395379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.0|||<|0.001|TWO_SIDED|95.0|-15.56|-10.45||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-10.45|-15.56|<0.001
92246108|NCT00696436|184395379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.97|||<|0.001|TWO_SIDED|95.0|-14.51|-9.43||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-9.43|-14.51|<0.001
92282426|NCT00406848|184468470|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||p-value is for Erythrocyte Count change from baseline (Week 1) to Week 25.|ANOVA|Model: Change=Treatment+Pooled Investigator||||||0.014
92246109|NCT00696436|184395379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.42||||0.194|TWO_SIDED|95.0|-3.56|0.72||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.72|-3.56|0.194
92282427|NCT00406848|184468471|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||p-value is for Hemoglobin change from baseline (Week 1) to Week 25.|ANOVA|Model: Change = Treatment + Pooled Investigator||||||0.019
92246110|NCT00696436|184395379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.65||||0.001|TWO_SIDED|95.0|-5.84|-1.46||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.46|-5.84|0.001
92246111|NCT00696436|184395379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.72|TWO_SIDED|95.0|-2.51|1.73||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||1.73|-2.51|0.720
92246112|NCT00696436|184395379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.62||||0.018|TWO_SIDED|95.0|-4.79|-0.45||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.45|-4.79|0.018
92246113|NCT00696436|184395380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.64|||<|0.001|TWO_SIDED|95.0|-10.42|-6.87||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-6.87|-10.42|<0.001
92246114|NCT00696436|184395380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.75|||<|0.001|TWO_SIDED|95.0|-9.52|-5.99||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-5.99|-9.52|<0.001
92246115|NCT00696436|184395380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72||||0.341|TWO_SIDED|95.0|-2.21|0.77||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.77|-2.21|0.341
92246116|NCT00696436|184395380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.28||||0.003|TWO_SIDED|95.0|-3.8|-0.76||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.76|-3.80|0.003
92246117|NCT00696436|184395380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.821|TWO_SIDED|95.0|-1.3|1.64||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||1.64|-1.30|0.821
92282428|NCT00406848|184468471|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||p-value is for Mean Cell Hemoglobin Concentration change from baseline (Week 1) to Week 25.|ANOVA|Model: Change=Treatment+Pooled Investigator||||||0.048
92282429|NCT00406848|184468472|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||p-value is for Chloride change from baseline (Week 1) to Week 25.|ANOVA|Model: Change = Treatment + Pooled Investigator||||||0.040
92282430|NCT00406848|184468472|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||p-value is for Fasting Glucose change from baseline (Week 1) to Week 25.|ANOVA|Model: Change=Treatment+Pooled Investigator||||||0.036
92282431|NCT00406848|184468473|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||Fisher Exact|||||||0.019
92246118|NCT00696436|184395380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39||||0.071|TWO_SIDED|95.0|-2.89|0.12||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.12|-2.89|0.071
92246119|NCT00696436|184395381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.45|||<|0.001|TWO_SIDED|95.0|-17.96|-12.94||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-12.94|-17.96|<0.001
92246120|NCT00696436|184395381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.93|||<|0.001|TWO_SIDED|95.0|-16.42|-11.43||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-11.43|-16.42|<0.001
92246121|NCT00696436|184395381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.32||||0.002|TWO_SIDED|95.0|-5.42|-1.22||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.22|-5.42|0.002
92246122|NCT00696436|184395381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.11|||<|0.001|TWO_SIDED|95.0|-7.26|-2.97||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-2.97|-7.26|<0.001
92246123|NCT00696436|184395381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.091|TWO_SIDED|95.0|-3.88|0.29||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.29|-3.88|0.091
92246124|NCT00696436|184395381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.59|||<|0.001|TWO_SIDED|95.0|-5.72|-1.46||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.46|-5.72|<0.001
92246125|NCT00696436|184395382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.14|||<|0.001|TWO_SIDED|95.0|-11.92|-8.36||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-8.36|-11.92|<0.001
92246126|NCT00696436|184395382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.17|||<|0.001|TWO_SIDED|95.0|-10.94|-7.4||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-7.40|-10.94|<0.001
92246127|NCT00696436|184395382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.31||||0.002|TWO_SIDED|95.0|-3.81|-0.82||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.82|-3.81|0.002
92246128|NCT00696436|184395382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.71|||<|0.001|TWO_SIDED|95.0|-4.24|-1.19||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.19|-4.24|<0.001
92282432|NCT00406848|184468474|SUPERIORITY_OR_OTHER|||||||0.815||95.0||||p-value is for QT Interval change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.815
92282433|NCT00406848|184468474|SUPERIORITY_OR_OTHER|||||||0.721||95.0||||p-value is for QTcF Interval change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.721
92282434|NCT00406848|184468474|SUPERIORITY_OR_OTHER|||||||0.376||95.0||||p-value is for QTcB Interval change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.376
92246129|NCT00696436|184395382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.076|TWO_SIDED|95.0|-2.82|0.14||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.14|-2.82|0.076
92246130|NCT00696436|184395382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.74||||0.024|TWO_SIDED|95.0|-3.25|-0.22||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.22|-3.25|0.024
92246131|NCT00696436|184395383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.84|||<|0.001|TWO_SIDED|95.0|-15.66|-10.02||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-10.02|-15.66|<0.001
92246132|NCT00696436|184395383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.91|||<|0.001|TWO_SIDED|95.0|-14.72|-9.11||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-9.11|-14.72|<0.001
92246133|NCT00696436|184395383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.74||||0.149|TWO_SIDED|95.0|-4.1|0.62||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.62|-4.10|0.149
92246134|NCT00696436|184395383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.24|||<|0.001|TWO_SIDED|95.0|-6.65|-1.83||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.83|-6.65|<0.001
92246135|NCT00696436|184395383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.494|TWO_SIDED|95.0|-3.16|1.53||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||1.53|-3.16|0.494
92246136|NCT00696436|184395383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.32||||0.007|TWO_SIDED|95.0|-5.72|-0.93||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.93|-5.72|0.007
92282435|NCT00406848|184468474|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||p-value is for PR Interval change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.065
92282436|NCT00406848|184468474|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||p-value is for QRS Interval change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.110
92282437|NCT00406848|184468475|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||p-value is for Successful Treatment Outcome defined with HAMD-17 ≤7 criteria.|Fisher Exact|||||||0.110
92282438|NCT00406848|184468475|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||p-value is for Successful Treatment Outcome defined with HAMD-17 ≤10 criteria.|Fisher Exact|||||||0.016
92282439|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.511||95.0||||p-value is for Composite Cognitive Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.511
92175019|NCT03848065|184242048|OTHER||Difference in Percentages|-7.1|||||TWO_SIDED|95.0|-22.7|8.2|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 33F||8.2|-22.7|
92246137|NCT00696436|184395384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.91|||<|0.001|TWO_SIDED|95.0|-10.03|-5.79||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-5.79|-10.03|<0.001
92175020|NCT03848065|184242049|OTHER||Geometric Mean Concentration (GMC) Ratio|0.76|||||TWO_SIDED|95.0|0.58|1.0|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an analysis of variance (ANOVA) model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 1||1.00|0.58|
92175021|NCT03848065|184242049|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.65|1.13|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|||1.13|0.65|
92246138|NCT00696436|184395384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.99|||<|0.001|TWO_SIDED|95.0|-10.1|-5.88||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-5.88|-10.10|<0.001
92246139|NCT00696436|184395384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.691|TWO_SIDED|95.0|-2.14|1.42||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||1.42|-2.14|0.691
92246140|NCT00696436|184395384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.39||||0.01|TWO_SIDED|95.0|-4.2|-0.57||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.57|-4.20|0.010
92175022|NCT03848065|184242049|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.68|1.16|||||GMC Ratio=GMC V114-SC/GMC V114-IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|||1.16|0.68|
92175023|NCT03848065|184242049|OTHER||GMC Ratio|1.3|||||TWO_SIDED|95.0|0.96|1.76|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 3||1.76|0.96|
92175024|NCT03848065|184242049|OTHER||GMC Ratio|1.49|||||TWO_SIDED|95.0|1.1|2.01|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 3||2.01|1.10|
92175025|NCT03848065|184242049|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.65|1.18|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 3||1.18|0.65|
92246141|NCT00696436|184395384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.625|TWO_SIDED|95.0|-2.2|1.32||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||1.32|-2.20|0.625
92175026|NCT03848065|184242049|OTHER||GMC Ratio|0.72|||||TWO_SIDED|95.0|0.58|0.9|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 4||0.90|0.58|
92175027|NCT03848065|184242049|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.65|1.0|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 4||1.00|0.65|
92175028|NCT03848065|184242049|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.72|1.11|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 4||1.11|0.72|
92175029|NCT03848065|184242049|OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.6|1.16|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 5||1.16|0.60|
92175030|NCT03848065|184242049|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.69|1.31|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 5||1.31|0.69|
92175031|NCT03848065|184242049|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.64|1.21|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 5||1.21|0.64|
92175032|NCT03848065|184242049|OTHER||GMC Ratio|0.63|||||TWO_SIDED|95.0|0.47|0.84|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6A||0.84|0.47|
92175033|NCT03848065|184242049|OTHER||GMC Ratio|0.69|||||TWO_SIDED|95.0|0.52|0.93|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6A||0.93|0.52|
92246142|NCT00696436|184395384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.46||||0.008|TWO_SIDED|95.0|-4.27|-0.66||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.66|-4.27|0.008
92246143|NCT00696436|184395385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.98|||<|0.001|TWO_SIDED|95.0|3.15|7.88||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||7.88|3.15|<0.001
92246144|NCT00696436|184395385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.66|||<|0.001|TWO_SIDED|95.0|2.94|7.37||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||7.37|2.94|<0.001
92246145|NCT00696436|184395385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.032|TWO_SIDED|95.0|1.03|2.03||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||2.03|1.03|0.032
92246146|NCT00696436|184395385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.029|TWO_SIDED|95.0|1.04|2.06||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||2.06|1.04|0.029
92282440|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||p-value is for Composite Cognitive Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.300
92175034|NCT03848065|184242049|OTHER||GMC Ratio|0.91|||||TWO_SIDED|95.0|0.68|1.21|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6A||1.21|0.68|
92282441|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.922||95.0||||p-value is for Learning Trials Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.922
92282442|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||p-value is for Learning Trials Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.190
92175035|NCT03848065|184242049|OTHER||GMC Ratio|0.53|||||TWO_SIDED|95.0|0.36|0.79|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6B||0.79|0.36|
92175036|NCT03848065|184242049|OTHER||GMC Ratio|0.6|||||TWO_SIDED|95.0|0.41|0.9|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6B||0.90|0.41|
92175037|NCT03848065|184242049|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.59|1.3|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6B||1.30|0.59|
92175038|NCT03848065|184242049|OTHER||GMC Ratio|0.61|||||TWO_SIDED|95.0|0.46|0.81|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 7F||0.81|0.46|
92175039|NCT03848065|184242049|OTHER||GMC Ratio|0.68|||||TWO_SIDED|95.0|0.52|0.9|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 7F||0.90|0.52|
92175040|NCT03848065|184242049|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.67|1.17|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 7F||1.17|0.67|
92175041|NCT03848065|184242049|OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.57|0.99|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 9V||0.99|0.57|
92175042|NCT03848065|184242049|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.65|1.13|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 9V||1.13|0.65|
92175043|NCT03848065|184242049|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.67|1.15|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 9V||1.15|0.67|
92175044|NCT03848065|184242049|OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.6|1.19|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 14||1.19|0.60|
92175045|NCT03848065|184242049|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.72|1.43|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 14||1.43|0.72|
92175046|NCT03848065|184242049|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.59|1.16|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 14||1.16|0.59|
92246147|NCT00696436|184395385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.08|TWO_SIDED|95.0|0.96|1.89||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.89|0.96|0.080
92246148|NCT00696436|184395385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.071|TWO_SIDED|95.0|0.97|1.92||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.92|0.97|0.071
92246149|NCT00696436|184395386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.29|||<|0.001|TWO_SIDED|95.0|2.1|5.15||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||5.15|2.10|<0.001
92246150|NCT00696436|184395386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.91|||<|0.001|TWO_SIDED|95.0|1.86|4.54||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||4.54|1.86|<0.001
92246151|NCT00696436|184395386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.306|TWO_SIDED|95.0|0.83|1.8||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.80|0.83|0.306
92246152|NCT00696436|184395386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.132|TWO_SIDED|95.0|0.92|1.97||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.97|0.92|0.132
92246153|NCT00696436|184395386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.695|TWO_SIDED|95.0|0.74|1.58||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.58|0.74|0.695
92246154|NCT00696436|184395386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.381|TWO_SIDED|95.0|0.81|1.74||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.74|0.81|0.381
92246155|NCT00696436|184395387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.18|||<|0.001|TWO_SIDED|95.0|3.2|8.41||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||8.41|3.20|<0.001
92246156|NCT00696436|184395387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.43|||<|0.001|TWO_SIDED|95.0|2.73|7.19||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||7.19|2.73|<0.001
92246157|NCT00696436|184395387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.056|TWO_SIDED|95.0|0.99|1.94||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.94|0.99|0.056
92246158|NCT00696436|184395387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.036|TWO_SIDED|95.0|1.02|2.02||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||2.02|1.02|0.036
92246159|NCT00696436|184395387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.317|TWO_SIDED|95.0|0.85|1.66||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.66|0.85|0.317
92246160|NCT00696436|184395387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.234|TWO_SIDED|95.0|0.87|1.73||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.73|0.87|0.234
92246161|NCT01293006|184395402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39|||||TWO_SIDED|90.0|-0.12|0.91|||Difference of Least Squares Means|||Difference (Suvorexant - Placebo) of Least Squares Means||0.91|-0.12|
92175047|NCT03848065|184242049|OTHER||GMC Ratio|0.69|||||TWO_SIDED|95.0|0.53|0.9|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 18C||0.90|0.53|
92175048|NCT03848065|184242049|OTHER||GMC Ratio|0.71|||||TWO_SIDED|95.0|0.54|0.92|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 18C||0.92|0.54|
92175049|NCT03848065|184242049|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.76|1.27|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 18C||1.27|0.76|
92175050|NCT03848065|184242049|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.66|1.15|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19A||1.15|0.66|
92246162|NCT01293006|184395405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03|||||TWO_SIDED|90.0|-1.3|3.36|||Difference of the Least Means Squares|||Day 1, SaO2 \<90%, Difference (Suvorexant - Placebo) of Least Squares Means||3.36|-1.30|
92246163|NCT01293006|184395405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||||TWO_SIDED|90.0|-0.08|0.5|||Difference of the Least Squares Means|||Day 1, SaO2 \<85%, Difference (Suvorexant - Placebo) of Least Squares Means||0.50|-0.08|
92246164|NCT01293006|184395405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|||||TWO_SIDED|90.0|-5.77|7.41|||Difference of the Least Squares Means|||Day 4, SaO2 \<90%, Difference (Suvorexant - Placebo) of Least Squares Means||7.41|-5.77|
92246165|NCT01293006|184395405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32|||||TWO_SIDED|90.0|0.0|0.63|||Difference of the Least Squares Means|||Day 4, SaO2 \<85%, Difference (Suvorexant - Placebo) of Least Squares Means||0.63|0.00|
92246166|NCT01293006|184395406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72|||||TWO_SIDED|90.0|-0.6|2.04|||Difference of the Least Squares Means|||Day 1, Difference (Suvorexant - Placebo) of Least Squares Means||2.04|-0.60|
92246167|NCT01293006|184395406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.05|||||TWO_SIDED|90.0|0.33|3.77|||Difference of the Least Squares Means|||Day 4, Difference (Suvorexant - Placebo) of Least Squares Means||3.77|0.33|
92246168|NCT01293006|184395407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|||||TWO_SIDED|90.0|-0.41|0.47|||Difference in the Least Squares Means|||Day 1, REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.47|-0.41|
92246169|NCT01293006|184395407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|||||TWO_SIDED|90.0|-0.53|0.27|||Difference of the Least Squares Means|||Day 1, Non-REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.27|-0.53|
92175051|NCT03848065|184242049|OTHER||GMC Ratio|0.73|||||TWO_SIDED|95.0|0.55|0.96|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19A||0.96|0.55|
92246170|NCT01293006|184395407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|||||TWO_SIDED|90.0|-0.61|0.18|||Difference of the Least Squares Means|||Day 1, Wake, Difference (Suvorexant - Placebo) of Least Squares Means||0.18|-0.61|
92246171|NCT01293006|184395407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||||TWO_SIDED|90.0|-0.32|0.98|||Difference of the Least Squares Means|||Day 4, REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.98|-0.32|
92246172|NCT01293006|184395407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|||||TWO_SIDED|90.0|-0.26|0.78|||Difference of the Least Squares Means|||Day 4, Non-REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.78|-0.26|
92246173|NCT01293006|184395407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|||||TWO_SIDED|90.0|0.1|0.8|||Difference of the Least Squares Means|||Day 4, Wake, Difference (Suvorexant - Placebo) of Least Squares Means||0.80|0.10|
92246174|NCT01293006|184395408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|90.0|-0.5|0.31|||Difference in the Least Squares Means|||Difference (Suvorexant - Placebo) of Least Squares Means||0.31|-0.50|
92246175|NCT01494987|184395409|SUPERIORITY_OR_OTHER||difference in least squares mean (LSM)|-0.51|||<|0.001|TWO_SIDED|95.0|-0.71|-0.32||P-value is from a mixed-effect model including terms for baseline HbA1c value, prior antihyperglycemia therapy, treatment group, visit week, and treatment by visit week interaction. Unstructured covariance matrix was used.|Mixed Effects Model Analysis||The estimation (LSM) is of the placebo-corrected change from baseline.|Assuming a common standard deviation of 1.2%, an effective sample size of 400 would provide at least 90% power to detect a statistically significant treatment difference of -0.5% (ranolazine vs. placebo) for the reduction of HbA1c from baseline at Week 24 based on a 2-sided alpha of 0.05 and 1:1 randomization.||-0.32|-0.71|<0.001
92246176|NCT00205699|184395469|SUPERIORITY||||||<|0.0001||||||The p value refers to the time by treatment condition interaction. The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Mixed Models Analysis|||Primary analysis for change in DEXA % fat used a likelihood-based mixed-effects model using time (0, 6 and 12 weeks) and medication group as independent variables, with Toeplitz covariance structure specified, based on Bayesian information criteria (BIC). The null hypotheses were that there was no difference in the outcome over time (main effect of time) and that there were no differences between groups in the change over time (time by treatment condition).||||<0.0001
92246177|NCT00205699|184395470|SUPERIORITY|||||||0.07|||||||ANCOVA|||||||0.07
92246178|NCT00205699|184395471|SUPERIORITY|||||||0.27|||||||ANCOVA|||||||0.27
92246179|NCT00205699|184395472|SUPERIORITY|||||||0.17|||||||ANCOVA|||||||0.17
92246180|NCT00205699|184395473|SUPERIORITY|||||||0.29|||||||ANCOVA|||||||0.29
92246181|NCT00205699|184395474|SUPERIORITY||||||<|0.003|||||||ANCOVA|||Repeated measures ANCOVA was used to test for the main effect of time on the outcome, and to test for a time by treatment condition interaction that would indicate differences between groups in change over time in the primary outcome. The null hypotheses were that there was no difference in the outcome over time (main effect of time) and that there were no differences between groups in the change over time (time by treatment condition).||||<0.003
92246182|NCT00205699|184395474|SUPERIORITY|||||||0.003||||||Bonferroni correction for multiple comparisons was applied (p\<0.05/4 = 0.0125).|Contrast|Contrasts based on the ANCOVA-derived time by treatment condition interaction.||||||0.003
92246183|NCT00205699|184395474|SUPERIORITY|||||||0.002||||||Bonferroni correction for multiple comparisons was applied (p\<0.05/4 = 0.0125).|ANCOVA|Contrasts based on the ANCOVA-derived time by treatment condition interaction.||||||0.002
92246184|NCT02928380|184395476|OTHER||Least square (LS) mean difference|-0.02||||0.0987|TWO_SIDED|95.0|-0.05|0.0|||ANOVA|ANOVA Model with weight of the peanut particle (food occlusion) as response variable, treatment and period as fixed effect.|Difference is first named treatment minus second named treatment is such that a negative difference favors the first named treatment.|H0: The mean mass of food particles retrieved from using a marketed denture adhesive with a flat ribbon nozzle is no different from using no adhesive H01: The mean mass of food particles retrieved from using a marketed denture adhesive with a flat ribbon nozzle is different from using no adhesive.||0.00|-0.05|0.0987
92246185|NCT01677507|184395494|OTHER||Mean Difference (Final Values)|2.8||||0.0001|TWO_SIDED|95.0|2.4|3.3|||t-test, 2 sided|Actually these are 2 sided paired t-tests.||Right Eye treated vs. untreated||3.3|2.4|0.0001
92246186|NCT01677507|184395494|OTHER||Mean Difference (Final Values)|2.8||||0.0001|TWO_SIDED|95.0|2.5|3.2|||t-test, 2 sided|paired t-test, 2 sided||Left Eye treated vs. untreated||3.2|2.5|0.0001
92246187|NCT01677507|184395494|OTHER||Mean Difference (Final Values)|3.0||||0.0001|TWO_SIDED|95.0|2.5|3.4|||t-test, 2 sided|paired t-test, 2 sided||Right Eye treated vs. untreated||3.4|2.5|0.0001
92246188|NCT01677507|184395494|OTHER||Mean Difference (Final Values)|2.9||||0.0001|TWO_SIDED|95.0|2.5|3.3|||t-test, 2 sided|paired t-test, 2 sided||Left Eye, treated vs. untreated||3.3|2.5|0.0001
92246189|NCT01677507|184395495|OTHER||Median Difference (Final Values)|1.1||||0.0001|TWO_SIDED|95.0|0.9|1.3|||t-test, 2 sided|paired t test, 2 sided||Right Eye treated to untreated||1.3|0.9|0.0001
92246190|NCT01677507|184395495|OTHER||Median Difference (Final Values)|0.9||||0.0001|TWO_SIDED|95.0|0.7|1.1|||t-test, 2 sided|paired t test, 2 sided||Left Eye, treated vs. untreated||1.1|0.7|0.0001
92246191|NCT01677507|184395495|OTHER||Mean Difference (Final Values)|0.01||||0.94|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|paired t-test||Right Eye, treated vs. untreated||0.2|-0.2|0.94
92246192|NCT01677507|184395495|OTHER||Mean Difference (Final Values)|0.05||||0.54|TWO_SIDED|95.0|-0.1|0.2|||t-test, 2 sided|paired t-test, 2 sided||Left Eye, treated vs. untreated||0.2|-0.1|0.54
92246193|NCT01677507|184395496|OTHER||Mean Difference (Final Values)|0.4||||0.04|TWO_SIDED|95.0|0.01|0.7|||t-test, 2 sided|paired t-test, 2 sided||Right Eye, treated vs. untreated||0.7|0.01|0.04
92246194|NCT01677507|184395496|OTHER||Mean Difference (Final Values)|0.2||||0.15|TWO_SIDED|95.0|-0.1|0.6|||t-test, 2 sided|paired t-test, 2 sided||Left eye, treated vs. untreated||0.6|-0.1|0.15
92246195|NCT01677507|184395496|OTHER||Mean Difference (Final Values)|0.1||||0.52|TWO_SIDED|95.0|-0.3|0.6|||t-test, 2 sided|paired t-test, 2 sided||Right Eye, treated vs. untreated||0.6|-0.3|0.52
92246196|NCT01677507|184395496|OTHER||Mean Difference (Final Values)|0.03||||0.88|TWO_SIDED|95.0|-0.4|0.4|||t-test, 2 sided|paired t-test, 2 sided||Left Eye, treated vs. untreated||0.4|-0.4|0.88
92246197|NCT00961441|184395499|SUPERIORITY_OR_OTHER||Point estimate for ratio|1.0271|||||TWO_SIDED|90.0|0.8817|1.1964|||ANOVA|Point estimates for the geometric means ratios children/adults for Cmax normalized by dose and body weight and 90% CIs have been calculated.||An ANOVA for log-transformed values has been used as the basis for calculation of point estimates and Confidence Intervals (CIs).||1.1964|0.8817|
92246198|NCT00961441|184395500|SUPERIORITY_OR_OTHER||Point estimate for ratio|0.9914|||||TWO_SIDED|90.0|0.811|1.2118|||ANOVA|Point estimates for the geometric means ratios children/adults for AUCtau normalized by dose and body weight and 90% CIs have been calculated.||An ANOVA for log-transformed values has been used as the basis for calculation of point estimates and Confidence Intervals (CIs).||1.2118|0.8110|
92246199|NCT03589326|184395515|SUPERIORITY||Risk Difference (RD)|0.18|||=|0.0021|TWO_SIDED|95.0|0.06|0.29||P-value is based on CMH chi-square test, with stratification according to randomization strata (age): 18 through \<45 years, ≥45 through \<60 years, and ≥60 years.|Chi-squared||Risk difference and 95% CI: adjusted percent ponatinib - adjusted percent imatinib and its 95% CI.|||0.29|0.06|=0.0021
92246200|NCT04465396|184395534|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% confidence interval (CI) of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|109.22|||||TWO_SIDED|90.0|104.83|113.8|||||The analysis was performed using Proc Mixed in statistical software suite (SAS), with treatment, sequence, period, and participant within sequence as fixed effects.|||113.80|104.83|
92246201|NCT04465396|184395534|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% CI of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|113.99|||||TWO_SIDED|90.0|108.32|119.95|||||The analysis was performed using Proc Mixed in SAS, with treatment, sequence, period, and participant within sequence as fixed effects.|||119.95|108.32|
92246202|NCT04465396|184395535|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% CI of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|98.27|||||TWO_SIDED|90.0|88.5|109.11|||||The analysis was performed using Proc Mixed in SAS, with treatment, sequence, period, and participant within sequence as fixed effects.|||109.11|88.50|
92246203|NCT04465396|184395535|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% CI of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|92.48|||||TWO_SIDED|90.0|83.8|102.05|||||The analysis was performed using Proc Mixed in SAS, with treatment, sequence, period, and participant within sequence as fixed effects.|||102.05|83.80|
92246204|NCT04465396|184395536|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% CI of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|109.44|||||TWO_SIDED|90.0|105.51|113.51|||||The analysis was performed using Proc Mixed in SAS, with treatment, sequence, period, and participant within sequence as fixed effects.|||113.51|105.51|
92246205|NCT04465396|184395536|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% CI of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|118.4|||||TWO_SIDED|90.0|112.31|124.83|||||The analysis was performed using Proc Mixed in SAS, with treatment, sequence, period, and participant within sequence as fixed effects.|||124.83|112.31|
92246206|NCT03334396|184395568|SUPERIORITY||Odds Ratio (OR)|2.61||||0.02|TWO_SIDED|95.0|1.17|5.84|||Regression, Logistic|||||5.84|1.17|0.020
92246207|NCT03334396|184395568|SUPERIORITY||Odds Ratio (OR)|4.1|||<|0.001|TWO_SIDED|95.0|1.93|8.7|||Regression, Logistic|||||8.70|1.93|<0.001
92246208|NCT03334396|184395569|SUPERIORITY||Odds Ratio (OR)|2.72||||0.014|TWO_SIDED|95.0|1.23|6.01|||Regression, Logistic|||||6.01|1.23|0.014
92246209|NCT03334396|184395570|SUPERIORITY||Odds Ratio (OR)|2.03||||0.032|TWO_SIDED|95.0|1.06|3.88|||Regression, Logistic|||||3.88|1.06|0.032
92246210|NCT03334396|184395570|SUPERIORITY||Odds Ratio (OR)|2.46||||0.006|TWO_SIDED|95.0|1.29|4.67|||Regression, Logistic|||||4.67|1.29|0.006
92246211|NCT03334396|184395570|SUPERIORITY||Odds Ratio (OR)|3.72|||<|0.001|TWO_SIDED|95.0|2.01|6.89|||Regression, Logistic|||||6.89|2.01|<0.001
92246212|NCT03334396|184395571|SUPERIORITY||Odds Ratio (OR)|1.73||||0.21|TWO_SIDED|95.0|0.74|4.05|||Regression, Logistic|||||4.05|0.74|0.210
92246213|NCT03334396|184395571|SUPERIORITY||Odds Ratio (OR)|2.5||||0.029|TWO_SIDED|95.0|1.1|5.7|||Regression, Logistic|||||5.70|1.10|0.029
92246214|NCT03334396|184395571|SUPERIORITY||Odds Ratio (OR)|4.13|||<|0.001|TWO_SIDED|95.0|1.91|8.91|||Regression, Logistic|||||8.91|1.91|<0.001
92246215|NCT03334396|184395572|SUPERIORITY||Mean Difference (Final Values)|-13.4|STANDARD_ERROR_OF_MEAN|5.78||0.021|TWO_SIDED|95.0|-24.77|-2.03|||Mixed Models Analysis|||||-2.03|-24.77|0.021
92246216|NCT03334396|184395572|SUPERIORITY||Mean Difference (Final Values)|-17.07|STANDARD_ERROR_OF_MEAN|5.57||0.002|TWO_SIDED|95.0|-28.05|-6.1|||Mixed Models Analysis|||||-6.10|-28.05|0.002
92246217|NCT03334396|184395572|SUPERIORITY||Mean Difference (Final Values)|-24.54|STANDARD_ERROR_OF_MEAN|5.23|<|0.001|TWO_SIDED|95.0|-34.84|-14.24|||Mixed Models Analysis|||||-14.24|-34.84|<0.001
92246218|NCT03334396|184395573|SUPERIORITY||Odds Ratio (OR)|4.28||||0.025|TWO_SIDED|95.0|1.2|15.24|||Regression, Logistic|||||15.24|1.20|0.025
92246219|NCT03334396|184395573|SUPERIORITY||Odds Ratio (OR)|6.14||||0.004|TWO_SIDED|95.0|1.79|20.99|||Regression, Logistic|||||20.99|1.79|0.004
92246220|NCT03334396|184395573|SUPERIORITY||Odds Ratio (OR)|8.76|||<|0.001|TWO_SIDED|95.0|2.68|28.58|||Regression, Logistic|||||28.58|2.68|<0.001
92246221|NCT03334396|184395574|SUPERIORITY||Odds Ratio (OR)|1.6||||0.246|TWO_SIDED|95.0|0.72|3.56|||Regression, Logistic|||||3.56|0.72|0.246
92282443|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.85||95.0||||p-value is for Delayed Recall Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.850
92246222|NCT03334396|184395574|SUPERIORITY||Odds Ratio (OR)|1.73||||0.169|TWO_SIDED|95.0|0.79|3.77|||Regression, Logistic|||||3.77|0.79|0.169
92246223|NCT03334396|184395574|SUPERIORITY||Odds Ratio (OR)|3.62|||<|0.001|TWO_SIDED|95.0|1.82|7.18|||Regression, Logistic|||||7.18|1.82|<0.001
92246224|NCT03334396|184395575|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.103|TWO_SIDED|95.0|-0.82|0.08|||Mixed Models Analysis|||||0.08|-0.82|0.103
92246225|NCT03334396|184395575|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.352|TWO_SIDED|95.0|-0.65|0.23|||Mixed Models Analysis|||||0.23|-0.65|0.352
92246226|NCT03334396|184395575|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.006|TWO_SIDED|95.0|-1.0|-0.17|||Mixed Models Analysis|||||-0.17|-1.00|0.006
92246227|NCT03334396|184395576|SUPERIORITY||Mean Difference (Final Values)|-1.08||||0.005|TWO_SIDED|95.0|-1.84|-0.32|||Mixed Models Analysis|||||-0.32|-1.84|0.005
92246228|NCT03334396|184395576|SUPERIORITY||Mean Difference (Final Values)|-0.74||||0.051|TWO_SIDED|95.0|-1.48|0.0|||Mixed Models Analysis|||||0.00|-1.48|0.051
92246229|NCT03334396|184395576|SUPERIORITY||Mean Difference (Final Values)|-1.09||||0.002|TWO_SIDED|95.0|-1.79|-0.39|||Mixed Models Analysis|||||-0.39|-1.79|0.002
92246230|NCT03334396|184395577|SUPERIORITY||Odds Ratio (OR)|1.9||||0.019|TWO_SIDED|95.0|1.11|3.25|||Regression, Logistic|||||3.25|1.11|0.019
92246231|NCT03334396|184395577|SUPERIORITY||Mean Difference (Final Values)|2.44|||<|0.001|TWO_SIDED|95.0|1.44|4.14|||Regression, Logistic|||||4.14|1.44|<0.001
92246232|NCT03334396|184395577|SUPERIORITY||Mean Difference (Final Values)|4.18|||<|0.001|TWO_SIDED|95.0|2.51|6.96|||Regression, Logistic|||||6.96|2.51|<0.001
92246233|NCT03334396|184395578|SUPERIORITY||Odds Ratio (OR)|1.98||||0.424|TWO_SIDED|95.0|0.37|10.63|||Regression, Logistic|||||10.63|0.37|0.424
92246234|NCT03334396|184395578|SUPERIORITY||Odds Ratio (OR)|2.89||||0.182|TWO_SIDED|95.0|0.61|13.75|||Regression, Logistic|||||13.75|0.61|0.182
92246235|NCT03334396|184395578|SUPERIORITY||Odds Ratio (OR)|1.94||||0.441|TWO_SIDED|95.0|0.36|10.41|||Regression, Logistic|||||10.41|0.36|0.441
92246236|NCT03334396|184395579|SUPERIORITY||Mean Difference (Final Values)|-5.34|STANDARD_ERROR_OF_MEAN|3.17||0.093|TWO_SIDED|95.0|-11.57|0.9|||Mixed Models Analysis|||||0.90|-11.57|0.093
92246237|NCT03334396|184395579|SUPERIORITY||Mean Difference (Final Values)|-7.97|STANDARD_ERROR_OF_MEAN|3.07||0.01|TWO_SIDED|95.0|-14.01|-1.92|||Mixed Models Analysis|||||-1.92|-14.01|0.010
92246238|NCT03334396|184395579|SUPERIORITY||Mean Difference (Final Values)|-14.79|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-20.46|-9.13|||Mixed Models Analysis|||||-9.13|-20.46|<0.001
92246239|NCT03334396|184395580|SUPERIORITY||Odds Ratio (OR)|1.17||||0.874|TWO_SIDED|95.0|0.17|7.77|||Regression, Logistic|||||7.77|0.17|0.874
92246240|NCT03334396|184395580|SUPERIORITY||Odds Ratio (OR)|2.88||||0.176|TWO_SIDED|95.0|0.62|13.36|||Regression, Logistic|||||13.36|0.62|0.176
92246241|NCT03334396|184395580|SUPERIORITY||Odds Ratio (OR)|2.72||||0.201|TWO_SIDED|95.0|0.59|12.65|||Regression, Logistic|||||12.65|0.59|0.201
92246242|NCT03334396|184395581|SUPERIORITY||Mean Difference (Final Values)|-5.99|STANDARD_ERROR_OF_MEAN|2.88||0.039|TWO_SIDED|95.0|-11.67|-0.31|||Mixed Models Analysis|||||-0.31|-11.67|0.039
92246243|NCT03334396|184395581|SUPERIORITY||Mean Difference (Final Values)|-5.34|STANDARD_ERROR_OF_MEAN|2.8||0.058|TWO_SIDED|95.0|-10.86|0.18|||Mixed Models Analysis|||||0.18|-10.86|0.058
92246244|NCT03334396|184395581|SUPERIORITY||Mean Difference (Final Values)|-11.16|STANDARD_DEVIATION|2.63|<|0.001|TWO_SIDED|95.0|-16.33|-5.98|||Mixed Models Analysis|||||-5.98|-16.33|<0.001
92246245|NCT03334396|184395582|SUPERIORITY|||||||0.067|||||||Fisher Exact|||||||0.067
92246246|NCT03334396|184395582|SUPERIORITY|||||||0.799|||||||Fisher Exact|||||||0.799
92246247|NCT03334396|184395582|SUPERIORITY|||||||0.782|||||||Fisher Exact|||||||0.782
92246248|NCT03334396|184395583|SUPERIORITY||Mean Difference (Final Values)|-19.25|STANDARD_ERROR_OF_MEAN|7.33||0.009|TWO_SIDED|95.0|-33.69|-4.81|||Mixed Models Analysis|||||-4.81|-33.69|0.009
92246249|NCT03334396|184395583|SUPERIORITY||Mean Difference (Final Values)|-17.39|STANDARD_ERROR_OF_MEAN|7.13||0.015|TWO_SIDED|95.0|-31.43|-3.35|||Mixed Models Analysis|||||-3.35|-31.43|0.015
92282444|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.158||95.0||||p-value is for Delayed Recall Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.158
92246250|NCT03334396|184395583|SUPERIORITY||Mean Difference (Final Values)|-24.5|STANDARD_ERROR_OF_MEAN|6.71|<|0.001|TWO_SIDED|95.0|-37.71|-11.3|||Mixed Models Analysis|||||-11.30|-37.71|<0.001
92246251|NCT03334396|184395584|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|1.19||0.028|TWO_SIDED|95.0|-4.98|-0.29|||Mixed Models Analysis|||||-0.29|-4.98|0.028
92246252|NCT03334396|184395584|SUPERIORITY||Mean Difference (Final Values)|-3.58|STANDARD_ERROR_OF_MEAN|1.17||0.003|TWO_SIDED|95.0|-5.89|-1.27|||Mixed Models Analysis|||||-1.27|-5.89|0.003
92282445|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.099||95.0||||p-value is for SDST Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.099
92246253|NCT03334396|184395584|SUPERIORITY||Mean Difference (Final Values)|-5.16|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-7.33|-2.99|||Mixed Models Analysis|||||-2.99|-7.33|<0.001
92246254|NCT03334396|184395585|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.15||0.069|TWO_SIDED|95.0|-0.56|0.02|||Mixed Models Analysis|||||0.02|-0.56|0.069
92246255|NCT03334396|184395585|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.15||0.066|TWO_SIDED|95.0|-0.56|0.02|||Mixed Models Analysis|||||0.02|-0.56|0.066
92246256|NCT03334396|184395585|SUPERIORITY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.73|-0.19|||Mixed Models Analysis|||||-0.19|-0.73|<0.001
92246257|NCT03334396|184395586|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.43||0.305|TWO_SIDED|95.0|-1.3|0.41|||Mixed Models Analysis|||HADS Anxiety||0.41|-1.30|0.305
92246258|NCT03334396|184395586|SUPERIORITY||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.42||0.029|TWO_SIDED|95.0|-1.77|-0.1|||Mixed Models Analysis|||HADS Anxiety||-0.10|-1.77|0.029
92246259|NCT03334396|184395586|SUPERIORITY||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.4||0.004|TWO_SIDED|95.0|-1.93|-0.36|||Mixed Models Analysis|||HADS Anxiety||-0.36|-1.93|0.004
92246260|NCT03334396|184395586|SUPERIORITY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.43||0.113|TWO_SIDED|95.0|-1.51|0.16|||Mixed Models Analysis|||HADS Depression||0.16|-1.51|0.113
92282446|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.141||95.0||||p-value is for SDST Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.141
92282447|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.379||95.0||||p-value is for 2DCT Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.379
92282448|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.858||95.0||||p-value is for 2DCT Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.858
92282449|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.591||95.0||||p-value is for Trail Making Test Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.591
92246261|NCT03334396|184395586|SUPERIORITY||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.42||0.014|TWO_SIDED|95.0|-1.85|-0.22|||Mixed Models Analysis|||HADS Depression||-0.22|-1.85|0.014
92246262|NCT03334396|184395586|SUPERIORITY||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|0.39||0.004|TWO_SIDED|95.0|-1.91|-0.37|||Mixed Models Analysis|||HADS Depression||-0.37|-1.91|0.004
92175052|NCT03848065|184242049|OTHER||GMC Ratio|1.19|||||TWO_SIDED|95.0|0.9|1.57|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19A||1.57|0.90|
92175053|NCT03848065|184242049|OTHER||GMC Ratio|0.71|||||TWO_SIDED|95.0|0.57|0.89|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19F||0.89|0.57|
92175054|NCT03848065|184242049|OTHER||GMC Ratio|0.77|||||TWO_SIDED|95.0|0.62|0.95|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19F||0.95|0.62|
92175055|NCT03848065|184242049|OTHER||GMC Ratio|0.93|||||TWO_SIDED|95.0|0.75|1.15|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19F||1.15|0.75|
92175056|NCT03848065|184242049|OTHER||GMC Ratio|0.79|||||TWO_SIDED|95.0|0.57|1.09|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 23F||1.09|0.57|
92175057|NCT03848065|184242049|OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.58|1.09|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 23F||1.09|0.58|
92175058|NCT03848065|184242049|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.73|1.36|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 23F||1.36|0.73|
92175059|NCT03848065|184242049|OTHER||GMC Ratio|134.88|||||TWO_SIDED|95.0|88.91|204.62|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 22F||204.62|88.91|
92175060|NCT03848065|184242049|OTHER||GMC Ratio|204.6|||||TWO_SIDED|95.0|135.18|309.69|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 22F||309.69|135.18|
92175061|NCT03848065|184242049|OTHER||GMC Ratio|0.66|||||TWO_SIDED|95.0|0.44|0.99|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 22F||0.99|0.44|
92246263|NCT03334396|184395587|SUPERIORITY||Mean Difference (Final Values)|-2.17|STANDARD_ERROR_OF_MEAN|0.89||0.015|TWO_SIDED|95.0|-3.92|-0.42|||Mixed Models Analysis|||||-0.42|-3.92|0.015
92246264|NCT03334396|184395587|SUPERIORITY||Mean Difference (Final Values)|-1.84|STANDARD_ERROR_OF_MEAN|0.87||0.036|TWO_SIDED|95.0|-3.56|-0.12|||Mixed Models Analysis|||||-0.12|-3.56|0.036
92246265|NCT03334396|184395587|SUPERIORITY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|0.82|<|0.001|TWO_SIDED|95.0|-5.91|-2.69|||Mixed Models Analysis|||||-2.69|-5.91|<0.001
92246266|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-4.05|STANDARD_ERROR_OF_MEAN|2.7||0.136|TWO_SIDED|95.0|-9.39|1.29|||Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||1.29|-9.39|0.136
92246267|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|2.76||0.898|TWO_SIDED|95.0|-5.81|5.1|||Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||5.10|-5.81|0.898
92246268|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|2.49||0.174|TWO_SIDED|95.0|-8.32|1.52|||Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||1.52|-8.32|0.174
92246269|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-6.86|STANDARD_ERROR_OF_MEAN|4.19||0.104|TWO_SIDED|95.0|-15.13|1.41|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||1.41|-15.13|0.104
92282450|NCT00406848|184468476|SUPERIORITY_OR_OTHER|||||||0.242||95.0||||p-value is for Trail Making Test Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.242
92175062|NCT03848065|184242049|OTHER||GMC Ratio|25.11|||||TWO_SIDED|95.0|15.34|41.13|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 33F||41.13|15.34|
92175063|NCT03848065|184242049|OTHER||GMC Ratio|34.18|||||TWO_SIDED|95.0|20.93|55.83|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 33F||55.83|20.93|
92175064|NCT03848065|184242049|OTHER||GMC Ratio|0.73|||||TWO_SIDED|95.0|0.45|1.19|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 33F||1.19|0.45|
92175065|NCT03848065|184242050|OTHER||Difference in Percentages|2.5|||||TWO_SIDED|95.0|-7.7|13.9|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Diphtheria Toxin||13.9|-7.7|
92175066|NCT03848065|184242050|OTHER||Difference in Percentages|0.3|||||TWO_SIDED|95.0|-10.8|12.0|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Diphtheria Toxin||12.0|-10.8|
92175067|NCT03848065|184242050|OTHER||Difference in Percentages|2.2|||||TWO_SIDED|95.0|-8.0|13.0|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Diphtheria Toxin||13.0|-8.0|
92175068|NCT03848065|184242050|OTHER||Difference in Percentages|2.4|||||TWO_SIDED|95.0|-5.8|12.4|||||Difference = % V114 SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Tetanus Toxin||12.4|-5.8|
92175069|NCT03848065|184242050|OTHER||Difference in Percentages|2.4|||||TWO_SIDED|95.0|-5.7|12.4|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Tetanus Toxin||12.4|-5.7|
92175070|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Tetanus Toxin||7.9|-8.1|
92175071|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis Toxin||8.5|-8.1|
92175072|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis Toxin||8.5|-7.9|
92175073|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114 SC minus % V114 IM. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis Toxin||7.9|-8.1|
92175074|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis FHA||8.5|-8.1|
92175075|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis FHA||8.5|-7.9|
92175076|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis FHA||7.9|-8.1|
92175077|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 1||8.5|-8.1|
92175078|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 1||8.5|-7.9|
92175079|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 1||7.9|-8.1|
92246270|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-8.64|STANDARD_ERROR_OF_MEAN|4.28||0.045|TWO_SIDED|95.0|-17.09|-0.19|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||-0.19|-17.09|0.045
92175080|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 2||8.5|-8.1|
92175081|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 2||8.5|-7.9|
92246271|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-12.28|STANDARD_ERROR_OF_MEAN|3.9||0.002|TWO_SIDED|95.0|-19.97|-4.59|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||-4.59|-19.97|0.002
92246272|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-8.66|STANDARD_ERROR_OF_MEAN|4.67||0.066|TWO_SIDED|95.0|-17.89|0.57|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||0.57|-17.89|0.066
92246273|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-6.49|STANDARD_ERROR_OF_MEAN|4.76||0.175|TWO_SIDED|95.0|-15.89|2.91|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||2.91|-15.89|0.175
92246274|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-11.28|STANDARD_ERROR_OF_MEAN|4.34||0.01|TWO_SIDED|95.0|-19.84|-2.72|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||-2.72|-19.84|0.010
92287255|NCT03086460|184479329|SUPERIORITY||Hazard Ratio (HR)|18.01|||<|0.001|TWO_SIDED|95.0|4.25|76.37|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Time to onset of action was analyzed using a Cox proportional hazard model stratified by patient, including treatment and period as a factor, and baseline FEV1 as covariate.~For patients receiving the same treatment twice, the analysis includes only data from the first instance of each treatment."||76.37|4.25|<0.001
92175082|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 2||7.9|-8.1|
92175083|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 3||8.5|-8.1|
92175084|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||"Difference = % V114-IM minus % PCV13~-SC. The 95% CI is based on the Miettinen and Nurminen method."|Poliovirus Type 3||8.5|-7.9|
92175085|NCT03848065|184242050|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 3||7.9|-8.1|
92175086|NCT04564742|184242060|SUPERIORITY||Win Ratio (WR)|1.34|||<|0.001|TWO_SIDED|95.0|1.2|1.5||A closed testing procedure including a pre-specified hierarchical ordering of the primary and secondary endpoints was utilised. No multiplicity control was placed on the exploratory endpoints.|Win Ratio Analysis|||The primary objective of the study was to determine if the clinical benefit of dapagliflozin was superior as compared with placebo, utilizing a hierarchical composite endpoint and win-ratio (WR) method. With a presumed WR of 1.20, 4000 patients were provide an 80% statistical power for the primary endpoint, maintaining a 1:1 allocation between treatments. The primary analysis was based on the intention-to-treat principle using the Full Analysis Set.||1.50|1.20|<0.001
92175087|NCT03313076|184242064|SUPERIORITY||Slope|-0.84||||0.276|TWO_SIDED|95.0|-2.32|0.63||"The final, adjusted p-value threshold of 0.0492, using the O'Brien-Fleming approach, allows for a statistical penalty to be assessed because of the interim analysis."|Mixed Models Analysis|The model was adjusted for age, sex, race, treatment interaction, initial pain severity, and total body surface area burned.||||0.63|-2.32|0.276
92175088|NCT03313076|184242064|SUPERIORITY||Slope|0.72||||0.336|TWO_SIDED|95.0|-0.71|2.14||"The final, adjusted p-value threshold of 0.0492, using the O'Brien-Fleming approach, allows for a statistical penalty to be assessed because of the interim analysis."|Mixed Models Analysis|The model was adjusted for age, sex, race, treatment interaction, initial pain severity, and total body surface area burned.||||2.14|-0.71|0.336
92175089|NCT03313076|184242064|SUPERIORITY||Slope|-2.33||||0.004|TWO_SIDED|95.0|-3.76|-0.9||"The final, adjusted p-value threshold of 0.0492, using the O'Brien-Fleming approach, allows for a statistical penalty to be assessed because of the interim analysis."|Mixed Models Analysis|The model was adjusted for age, sex, race, treatment interaction, initial pain severity, and total body surface area burned.||Sensitivity analysis adjusting for an influential observation (using the dfbeta approach) that could produce spurious results from a small trial dataset||-0.9|-3.76|0.004
92246275|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-7.31|STANDARD_ERROR_OF_MEAN|3.36||0.03|TWO_SIDED|95.0|-13.93|-0.7|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||-0.70|-13.93|0.030
92246276|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-5.13|STANDARD_ERROR_OF_MEAN|3.31||0.122|TWO_SIDED|95.0|-11.65|1.39|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||1.39|-11.65|0.122
92246277|NCT03334396|184395588|SUPERIORITY||Mean Difference (Final Values)|-16.52|STANDARD_ERROR_OF_MEAN|3.11|<|0.001|TWO_SIDED|95.0|-22.64|-10.41|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||-10.41|-22.64|<0.001
92246278|NCT03334396|184395589|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.061|TWO_SIDED|95.0|0.0|0.08|||Mixed Models Analysis|||Health State Index Score (US algorithm)||0.08|-0.00|0.061
92246279|NCT03334396|184395589|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.06|TWO_SIDED|95.0|0.0|0.08|||Mixed Models Analysis|||Health State Index Score (US algorithm)||0.08|-0.00|0.060
92246280|NCT03334396|184395589|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|0.04|0.12|||Mixed Models Analysis|||Health State Index Score (US algorithm)||0.12|0.04|<0.001
92246281|NCT03334396|184395589|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.046|TWO_SIDED|95.0|0.0|0.11|||Mixed Models Analysis|||Health State Index Score (UK Algorithm)||0.11|0.00|0.046
92246282|NCT03334396|184395589|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.059|TWO_SIDED|95.0|0.0|0.11|||Mixed Models Analysis|||Health State Index Score (UK Algorithm)||0.11|-0.00|0.059
92282451|NCT01046253|184468526|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.0|||||TWO_SIDED|90.0|97.4|114.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||114|97.4|
92282452|NCT01046253|184468527|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.5|||||TWO_SIDED|90.0|93.3|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104|93.3|
92246283|NCT03334396|184395589|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|0.06|0.16|||Mixed Models Analysis|||Health State Index Score (UK algorithm)||0.16|0.06|<0.001
92246284|NCT03334396|184395590|SUPERIORITY||Mean Difference (Final Values)|2.97|STANDARD_ERROR_OF_MEAN|3.21||0.356|TWO_SIDED|95.0|-3.36|9.3|||Mixed Models Analysis|||EQ-5D-5L VAS Score||9.30|-3.36|0.356
92246285|NCT03334396|184395590|SUPERIORITY||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|3.13||0.668|TWO_SIDED|95.0|-4.81|7.5|||Mixed Models Analysis|||EQ-5D-5L VAS Score||7.50|-4.81|0.668
92246286|NCT03334396|184395590|SUPERIORITY||Mean Difference (Final Values)|7.05|STANDARD_ERROR_OF_MEAN|2.95||0.017|TWO_SIDED|95.0|1.25|12.86|||Mixed Models Analysis|||EQ-5D-5L VAS Score||12.86|1.25|0.017
92246287|NCT03334396|184395591|SUPERIORITY||Odds Ratio (OR)|1.38||||0.603|TWO_SIDED|95.0|0.41|4.71|||Regression, Logistic|||||4.71|0.41|0.603
92246288|NCT03334396|184395591|SUPERIORITY||Odds Ratio (OR)|4.08||||0.006|TWO_SIDED|95.0|1.5|11.12|||Regression, Logistic|||||11.12|1.50|0.006
92246289|NCT03334396|184395591|SUPERIORITY||Odds Ratio (OR)|4.72||||0.002|TWO_SIDED|95.0|1.78|12.55|||Regression, Logistic|||||12.55|1.78|0.002
92246290|NCT03011450|184395701|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246291|NCT03011450|184395702|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246292|NCT03011450|184395703|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246293|NCT03011450|184395704|SUPERIORITY|||||||0.0156|||||||Hodges-Lehmann method|||||||0.0156
92246294|NCT03011450|184395705|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246295|NCT03011450|184395706|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246296|NCT03011450|184395707|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246297|NCT03011450|184395708|SUPERIORITY|||||||0.0001|||||||Hodges-Lehmann method|||||||0.0001
92246298|NCT03011450|184395709|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246299|NCT03011450|184395710|SUPERIORITY|||||||0.538|||||||Hodges-Lehmann method|||||||0.5380
92246300|NCT03011450|184395711|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246301|NCT03011450|184395712|SUPERIORITY|||||||0.1165|||||||Hodges-Lehmann method|||||||0.1165
92246302|NCT03011450|184395713|SUPERIORITY|||||||0.0142|||||||Hodges-Lehmann method|||||||0.0142
92246303|NCT03011450|184395714|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246304|NCT03011450|184395715|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246305|NCT03011450|184395716|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246306|NCT03011450|184395717|SUPERIORITY|||||||0.4589|||||||Hodges-Lehmann method|||||||0.4589
92246307|NCT03011450|184395718|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246308|NCT03011450|184395719|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246309|NCT03011450|184395720|OTHER||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92282453|NCT01046253|184468528|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Slope|98.0|||||TWO_SIDED|90.0|92.8|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104|92.8|
92282454|NCT00860028|184468531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.36||95.0|||||Chi-squared|||||||0.36
92282455|NCT00860028|184468532|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06||95.0|||||General Linear Model|||||||0.06
92282456|NCT00860028|184468533|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||Fisher Exact|||||||0.03
92282457|NCT00936390|184468545|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.22|TWO_SIDED|95.0|0.65|1.11||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|This study was designed to detect an improvement in the 5-year overall survival rate from 90% (radiation alone arm) to 93.3% (radiation and androgen deprivation arm). Assuming an exponential survival distribution for each arm, this translates to a 34% relative reduction (hazard ratio 0.66) in the yearly death rate. At least 218 deaths provide 85% power with a 1-sided significance level of 0.025 and 85% power.||1.11|0.65|0.22
92282458|NCT00936390|184468546|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.39|0.7||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.70|0.39|<0.001
92246310|NCT03011450|184395721|SUPERIORITY|||||||0.2486|||||||Hodges-Lehmann method|||||||0.2486
92246311|NCT03011450|184395722|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246312|NCT03011450|184395723|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246313|NCT03011450|184395724|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246314|NCT03011450|184395725|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246315|NCT03011450|184395726|SUPERIORITY|||||||0.0001|||||||Hodges-Lehmann method|||||||0.0001
92246316|NCT03011450|184395727|SUPERIORITY|||||||0.2763|||||||Hodges-Lehmann method|||||||0.2763
92246317|NCT03011450|184395728|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246318|NCT03011450|184395729|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246319|NCT03011450|184395730|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246320|NCT03011450|184395731|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246321|NCT03011450|184395732|SUPERIORITY|||||||0.1651|||||||Hodges-Lehmann method|||||||0.1651
92246322|NCT03011450|184395733|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246323|NCT03011450|184395734|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246324|NCT03011450|184395735|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246325|NCT03011450|184395736|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246326|NCT03011450|184395737|SUPERIORITY|||||||0.5107|||||||Hodges-Lehmann method|||||||0.5107
92246327|NCT03011450|184395738|SUPERIORITY||Hodges-Lehmann method|||||0.0018|||||||Hodges-Lehmann method|||||||0.0018
92246328|NCT03011450|184395739|SUPERIORITY|||||||0.0742|||||||Hodges-Lehmann method|||||||0.0742
92246329|NCT03011450|184395740|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246330|NCT03011450|184395741|SUPERIORITY|||||||0.2707|||||||Hodges-Lehmann method|||||||0.2707
92246331|NCT03011450|184395742|SUPERIORITY|||||||0.0009|||||||Hodges-Lehmann method|||||||0.0009
92246332|NCT03011450|184395743|SUPERIORITY|||||||0.2879|||||||Hodges-Lehmann method|||||||0.2879
92246333|NCT03011450|184395744|SUPERIORITY|||||||0.9786|||||||Hodges-Lehmann method|||||||0.9786
92246334|NCT03011450|184395745|SUPERIORITY|||||||0.0075|||||||Hodges-Lehmann method|||||||0.0075
92246335|NCT03011450|184395746|SUPERIORITY|||||||0.0241|||||||Hodges-Lehmann method|||||||0.0241
92246336|NCT03011450|184395747|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246337|NCT03011450|184395748|SUPERIORITY|||||||0.0502|||||||Hodges-Lehmann method|||||||0.0502
92246338|NCT03011450|184395749|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246339|NCT03011450|184395750|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
92246340|NCT03011450|184395751|SUPERIORITY|||||||0.0209|||||||Hodges-Lehmann method|||||||0.0209
92246341|NCT03011450|184395752|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92282459|NCT00936390|184468546|SUPERIORITY||||||<|0.001||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||<0.001
92282460|NCT00936390|184468547|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.02|TWO_SIDED|95.0|0.22|0.9||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.90|0.22|0.020
92282461|NCT00936390|184468547|SUPERIORITY|Cumulative incidence model||||||0.021||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||||||0.021
92282462|NCT00936390|184468549|SUPERIORITY||Hazard Ratio (HR)|0.25|||<|0.001|TWO_SIDED|95.0|0.11|0.57||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.57|0.11|<0.001
92282463|NCT00936390|184468549|SUPERIORITY||||||<|0.001||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||<0.001
92282464|NCT00936390|184468550|SUPERIORITY||Hazard Ratio (HR)|0.1||||0.0073|TWO_SIDED|95.0|0.01|0.8||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.80|0.01|0.0073
92246342|NCT03011450|184395753|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246343|NCT03011450|184395754|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246344|NCT03011450|184395755|SUPERIORITY||||||<|0.0001|||||||non-parametric Hodges-Lehmann method|||||||<0.0001
92282465|NCT00936390|184468550|SUPERIORITY|||||||0.007||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||0.007
92282466|NCT00936390|184468551|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.52|TWO_SIDED|95.0|0.7|1.2||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||1.20|0.70|0.52
92282467|NCT00936390|184468551|SUPERIORITY|||||||0.56||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||0.56
92282468|NCT00936390|184468552|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.025|TWO_SIDED|95.0|0.41|0.95||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.95|0.41|0.025
92282469|NCT00936390|184468552|SUPERIORITY|||||||0.025||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||0.025
92282470|NCT00936390|184468554|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92282471|NCT00936390|184468555|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.13|TWO_SIDED|95.0|0.89|1.53||One-sided significance level 0.025 (reported p-value is one-sided)|Gray's test||Reference level = radiation therapy alone arm|||1.53|0.89|0.13
92282472|NCT00936390|184468556|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.39|0.7||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.70|0.39|<0.001
92282473|NCT00936390|184468556|SUPERIORITY||||||<|0.001||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||<0.001
92282474|NCT00936390|184468557|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||End of RT||||0.38
92282475|NCT00936390|184468557|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||6 months post-RT||||0.032
92246345|NCT03011450|184395756|SUPERIORITY|||||||0.0001|||||||Hodges-Lehmann method|||||||0.0001
92246346|NCT03011450|184395757|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
92246347|NCT00592553|184395822|OTHER||Least Square (LS) Mean Difference|-30.52|STANDARD_ERROR_OF_MEAN|42.68||0.4756|TWO_SIDED|95.0|-114.8|53.75|||Mixed Models Analysis|||Analysis was performed using mixed model for repeated measures (MMRM) method including rank transformed 6MWD as the dependent variable; and rank transformed baseline 6MWD, treatment, visit, age (less than \[\<\] 9 years versus \[vs.\] greater than or equal to \[\>=\] 9 years) and corticosteroid use (yes vs. no) stratification factors, and interaction between treatment and visit as independent variables.||53.75|-114.8|0.4756
92282476|NCT00936390|184468557|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||One year post-RT||||0.87
92282477|NCT00936390|184468557|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Five years post-RT||||0.67
92282478|NCT00936390|184468558|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||End of RT||||0.58
92282479|NCT00936390|184468558|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||Six months post-RT||||0.31
92282480|NCT00936390|184468558|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||One year post-RT||||0.36
92282481|NCT00936390|184468558|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||Five years post-RT||||0.88
92282482|NCT00936390|184468559|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||End of RT||||<0.001
92282483|NCT00936390|184468559|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Six months post-RT||||<0.001
92282484|NCT00936390|184468559|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||One year post-RT||||<0.001
92282485|NCT00936390|184468559|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Five years post-RT||||0.18
92282486|NCT00936390|184468560|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||End of RT||||<0.001
92282487|NCT00936390|184468560|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Six months post-RT||||<0.001
92282488|NCT00936390|184468560|SUPERIORITY|||||||0.0014|||||||t-test, 2 sided|||One year post-RT||||0.0014
92282489|NCT00936390|184468560|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||Five years post-RT||||0.90
92282490|NCT00936390|184468561|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||End of RT||||0.046
92282491|NCT00936390|184468561|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||6 months post-RT||||0.82
92282492|NCT00936390|184468561|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||One year post-RT||||0.82
92282493|NCT00936390|184468561|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||Five years post-RT||||0.79
92282494|NCT02518685|184468576|SUPERIORITY||Least-Square Mean Difference|6.7|||<|0.0001|TWO_SIDED|95.0|4.54|8.81|||multiple imputations|||||8.81|4.54|<0.0001
92282495|NCT02518685|184468577|SUPERIORITY|Statistical success criterion for achieving the performance standard of (≥ 50%) of proportion of TPS subjects who have 5% or more TBL at the 12-Month Follow-up|Proportion of Subjects|66.8|||<|0.0001|TWO_SIDED|95.0|59.3|74.3|||Wilson's Midpoint Estimate|||||74.3|59.3|<0.0001
92282496|NCT02086188|184468630|SUPERIORITY|||||||0.1911|||||||ANCOVA|||||||0.1911
92282497|NCT02086188|184468631|SUPERIORITY|||||||0.4271|||||||ANCOVA|||||||0.4271
92282498|NCT02086188|184468632|SUPERIORITY|||||||0.1723|||||||ANCOVA|||||||0.1723
92282499|NCT02086188|184468633|SUPERIORITY|||||||0.634|||||||ANCOVA|||||||0.6340
92282500|NCT02086188|184468634|SUPERIORITY|||||||0.0091|||||||ANCOVA|||||||0.0091
92282501|NCT01494506|184468636|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.9416|TWO_SIDED|95.0|0.77|1.28|||Log Rank|Unstratified logrank test.||||1.28|0.77|0.9416
92282502|NCT01494506|184468636|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.012|TWO_SIDED|95.0|0.49|0.92|||Log Rank|Unstratified logrank test.||||0.92|0.49|0.012
92282503|NCT01494506|184468637|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.1|TWO_SIDED|95.0|0.63|1.04|||Log Rank|||||1.04|0.63|0.100
92282504|NCT01494506|184468637|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56|||<|0.001|TWO_SIDED|95.0|0.41|0.75|||Log Rank|||||0.75|0.41|<0.001
92282505|NCT01494506|184468638|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0264||||0.214|TWO_SIDED|95.0|-0.005|0.058|||Fisher Exact|||||0.058|-0.005|0.214
92282506|NCT01494506|184468638|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.069||||0.01|TWO_SIDED|95.0|0.018|0.12|||Fisher Exact|||||0.120|0.018|0.010
92282507|NCT01494506|184468639|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.1008|TWO_SIDED|95.0|0.65|1.03|||Log Rank|Unstratified log rank test.||||1.03|0.65|0.1008
92175090|NCT03313076|184242064|SUPERIORITY||Slope|0.92||||0.139|TWO_SIDED|95.0|-0.25|2.09||"The final, adjusted p-value threshold of 0.0492, using the O'Brien-Fleming approach, allows for a statistical penalty to be assessed because of the interim analysis."|Mixed Models Analysis|The model was adjusted for age, sex, race, treatment interaction, initial pain severity, and total body surface area burned.||Sensitivity analysis adjusting for an influential observation (using the dfbeta approach) that could produce spurious results from a small trial dataset||2.09|-0.25|0.139
92246348|NCT00592553|184395822|OTHER||LS Mean Difference|62.65|STANDARD_ERROR_OF_MEAN|43.21||0.149|TWO_SIDED|95.0|-22.66|147.96|||Mixed Models Analysis|||Analysis was performed using MMRM method including rank transformed 6MWD as the dependent variable; and rank transformed baseline 6MWD, treatment, visit, age (\< 9 years vs. \>= 9 years) and corticosteroid use (yes vs. no) stratification factors, and interaction between treatment and visit as independent variables.||147.96|-22.66|0.1490
92246349|NCT01244191|184395851|SUPERIORITY||Hazard Ratio (HR)|0.981||||0.8086|TWO_SIDED|95.0|0.841|1.149|||Log Rank||Hazard ratio and the 95% confidence interval from stratified Cox-regression model (adjusting for number of prior therapies, gender, and smoking history).|||1.149|0.841|0.8086
92264935|NCT01694849|184431215|SUPERIORITY||Difference in least square mean change|-0.21||||0.065|TWO_SIDED|95.0|-0.42|0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.01|-0.42|0.065
92282508|NCT01494506|184468639|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.0002|TWO_SIDED|95.0|0.45|0.78|||Log Rank|Unstratified log rank test||||0.78|0.45|0.0002
92175091|NCT05270408|184242110|SUPERIORITY||Cohen's d|0.93||||0.25|TWO_SIDED||||||ANCOVA|||RAVLT Total Learning||||0.25
92264936|NCT01694849|184431215|SUPERIORITY||Difference in least square mean change|-0.19||||0.098|TWO_SIDED|95.0|-0.41|0.03|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.03|-0.41|0.098
92264937|NCT01694849|184431216|SUPERIORITY||Difference in least square mean change|0.7||||0.553|TWO_SIDED|95.0|-1.61|3.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||3.01|-1.61|0.553
92264938|NCT01694849|184431216|SUPERIORITY||Difference in least square mean change|4.31|||<|0.001|TWO_SIDED|95.0|1.97|6.64|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||6.64|1.97|<0.001
92175092|NCT05270408|184242110|SUPERIORITY||Cohen's d|0.69||||0.18|TWO_SIDED||||||ANCOVA|||RAVLT Total Learning||||0.18
92264939|NCT01694849|184431217|SUPERIORITY||Difference in least square mean change|0.04||||0.861|TWO_SIDED|95.0|-0.37|0.44|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.44|-0.37|0.861
92264940|NCT01694849|184431217|SUPERIORITY||Difference in least square mean change|-0.4||||0.052|TWO_SIDED|95.0|-0.81|0.0|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0|-0.81|0.052
92246350|NCT01752842|184395859|SUPERIORITY|Power calculation is based on assumption that treatment with Fenofibrate will lead to 11% decrease in plasma TG and ceramide biomarkers. We also assume that there will be no significant change in ceramides without intervention. Based on these assumptions, 86 subjects are required to have 90% chance of detecting a decrease in the primary outcome measure from 1.29 in the placebo group to 1.15 in the Fenofibrate group.|Mean Difference (Final Values)|-0.75||||0.07|TWO_SIDED|95.0|-1.56|0.04||This P-value is based on ANCOVA.|ANCOVA||ANCOVA was used to compare mean change of cardiac diastolic function adjusting for body fat percent, baseline values of BMI, diastolic/systolic blood pressure, HbA1c, fasting glucose, triglycerides, ethnicity, gender and race.|Null hypothesis is no difference of mean change of cardiac diastolic function as measured by E' (cm/s) between placebo and Fenofibrate.|Two-sample t-test was used to compare baseline mean values of biomarkers. All statistical tests are two-sided at significance level 0.05.|0.04|-1.56|0.07
92282509|NCT01494506|184468640|SUPERIORITY_OR_OTHER|||||||0.82|||||||Fisher Exact|||||||0.82
92282510|NCT01494506|184468640|SUPERIORITY_OR_OTHER|||||||0.8|||||||Fisher Exact|||||||0.80
92282511|NCT01494506|184468641|SUPERIORITY_OR_OTHER|||||||0.024|||||||Fisher Exact|||||||0.024
92282512|NCT01494506|184468641|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92282513|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6388||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Global Health Status||||0.6388
92282514|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.8445||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Global Health Status||||0.8445
92282515|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6388||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Physical Functioning||||0.6388
92282516|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.9435||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Physical Functioning||||0.9435
92282517|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.2654||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Role functioning||||0.2654
92175093|NCT05270408|184242110|SUPERIORITY||Cohen's d|0.74||||0.48|TWO_SIDED||||||ANCOVA|||RAVLT Delayed||||0.48
92246351|NCT01752842|184395860|SUPERIORITY|Power calculation is based on assumption that treatment with Fenofibrate will lead to 11% decrease in plasma TG and ceramide biomarkers. We also assume that there will be no significant change in ceramides without intervention. Based on these assumptions, 86 subjects are required to have 90% chance of detecting a decrease in the primary outcome measure from 1.29 in the placebo group to 1.15 in the Fenofibrate group.|Mean Difference (Final Values)|0.0058||||0.8128|TWO_SIDED|95.0|-0.0418|0.0543||This P-value is based on ANCOVA.|ANCOVA||ANCOVA was used to compare mean change of outcome adjusting for body fat percent, demographic variables and baseline biomarkers.|Null hypothesis is no difference of mean change of fractional shortening percent between placebo and Fenofibrate.|Two-sample t-test was used to compare baseline mean values of biomarkers. All statistical tests are two-sided at significance level 0.05.|0.0543|-0.0418|0.8128
92246352|NCT01752842|184395861|SUPERIORITY|Power calculation is based on assumption that treatment with Fenofibrate will lead to 11% decrease in plasma TG and ceramide biomarkers. We also assume that there will be no significant change in ceramides without intervention. Based on these assumptions, 86 subjects are required to have 90% chance of detecting a decrease in the primary outcome measure from 1.29 in the placebo group to 1.15 in the Fenofibrate group.|Mean Difference (Final Values)|-1.79||||0.0034|TWO_SIDED|95.0|-2.93|-0.65||This P-value is based on ANCOVA.|ANCOVA|ANCOVA was used to compare mean change of outcome adjusting for body fat percent, demographic variables and baseline biomarkers.||Null hypothesis is no difference of mean change of C24:0/C16:0 ceramide ratio between placebo and Fenofibrate.|Two-sample t-test was used to compare baseline mean values of biomarkers. All statistical tests are two-sided at significance level 0.05.|-0.65|-2.93|0.0034
92246353|NCT02164513|184395862|SUPERIORITY||Rate ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.7|0.81||The adjusted p-values should be compared against a reference level of 0.05 in order to infer statistical significance for either of the comparisons.|Negative binomial model||Covariates of treatment group, sex, exacerbation history (\<=1, \>=2 moderate/severe), smoking status (Screening), geographical region and post-bronchodilator percent predicted Forced expiratory volume in 1 second (FEV1) (Screening) were used.|||0.81|0.70|<0.001
92282518|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.7674||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Role functioning||||0.7674
92282519|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.1628||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Emotional Functioning||||0.1628
92282520|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Emotional Functioning||||0.6712
92282521|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.7738||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Cognitive Functioning||||0.7738
92282522|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Cognitive Functioning||||0.6712
92282523|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.3408||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Social Functioning||||0.3408
92175094|NCT05270408|184242110|SUPERIORITY||Cohen's d|0.19||||0.64|TWO_SIDED||||||ANCOVA|||RAVLT Delayed||||0.64
92175095|NCT05270408|184242111|SUPERIORITY||Cohen's d|0.03||||0.98|TWO_SIDED||||||ANCOVA|||BVMT total learning||||0.98
92175096|NCT05270408|184242111|SUPERIORITY||Cohen's d|0.86||||0.22|TWO_SIDED||||||ANCOVA|||BVMT total learning||||0.22
92175097|NCT05270408|184242111|SUPERIORITY||Cohen's d|0.04||||0.97|TWO_SIDED||||||ANCOVA|||BVMT delayed||||0.97
92246354|NCT02164513|184395862|SUPERIORITY||Rate ratio|0.85|||<|0.001|TWO_SIDED|95.0|0.8|0.9||The adjusted p-values should be compared against a reference level of 0.05 in order to infer statistical significance for either of the comparisons|Negative binomial model||Covariates of treatment group, sex, exacerbation history (\<=1, \>=2 moderate/severe), smoking status (Screening), geographical region and post-bronchodilator percent predicted Forced expiratory volume in 1 second (FEV1) (Screening) were used.|||0.90|0.80|<0.001
92246355|NCT02164513|184395863|SUPERIORITY||Mean Difference (Net)|0.097|STANDARD_ERROR_OF_MEAN|0.0061|<|0.001|TWO_SIDED|95.0|0.085|0.109||The adjusted p-value at Week 52 should be compared against a reference level of 0.05 in order to infer statistical significance for the comparison of FF/UMEC/VI versus (vs) FF/VI at Week 52.|Mixed Models Repeated Measures|||||0.109|0.085|<0.001
92264941|NCT01694849|184431218|SUPERIORITY||Difference in least square mean change|0.01||||0.473|TWO_SIDED|95.0|-0.01|0.02|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.02|-0.01|0.473
92264942|NCT01694849|184431218|SUPERIORITY||Difference in least square mean change|0.01||||0.124|TWO_SIDED|95.0|0.0|0.03|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.03|0|0.124
92264943|NCT01694849|184431219|SUPERIORITY||Difference in least square mean change|0.81|||<|0.001|TWO_SIDED|95.0|0.47|1.15|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||1.15|0.47|<0.001
92264944|NCT01694849|184431219|SUPERIORITY||Difference in least square mean change|0.85|||<|0.001|TWO_SIDED|95.0|0.5|1.19|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||1.19|0.5|<0.001
92264945|NCT01694849|184431220|SUPERIORITY||Difference in least square mean change|0.0||||0.842|TWO_SIDED|95.0|-0.04|0.04|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.04|-0.04|0.842
92264946|NCT01694849|184431220|SUPERIORITY||Difference in least square mean change|0.01||||0.589|TWO_SIDED|95.0|-0.03|0.05|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.05|-0.03|0.589
92264947|NCT01694849|184431221|SUPERIORITY||Difference in least square mean change|48.93||||0.325|TWO_SIDED|95.0|-8.73|146.6|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||146.6|-8.73|0.325
92264948|NCT01694849|184431221|SUPERIORITY||Difference in least square mean change|93.21||||0.066|TWO_SIDED|95.0|-6.06|192.49|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||192.49|-6.06|0.066
92264949|NCT01694849|184431222|SUPERIORITY||Difference in least square mean change|2.41|||<|0.001|TWO_SIDED|95.0|1.1|3.72|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||3.72|1.1|<0.001
92264950|NCT01694849|184431222|SUPERIORITY||Difference in least square mean change|1.59||||0.019|TWO_SIDED|95.0|0.26|2.91|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||2.91|0.26|0.019
92264951|NCT01694849|184431223|SUPERIORITY||Difference in least square mean change|0.0||||0.447|TWO_SIDED|95.0|0.0|0.0|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0|0|0.447
92264952|NCT01694849|184431223|SUPERIORITY||Difference in least square mean change|0.0||||0.758|TWO_SIDED|95.0|0.0|0.0|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0|0|0.758
92264953|NCT01694849|184431224|SUPERIORITY||Difference in least square mean change|-0.04||||0.942|TWO_SIDED|95.0|-1.12|1.04|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||1.04|-1.12|0.942
92246356|NCT02164513|184395864|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-2.4|-1.1||The adjusted p-value at Week 52 should be compared against a reference level of 0.05 in order to infer statistical significance for the comparison of FF/UMEC/VI vs FF/VI at Week 52.|Mixed Models Repeated Measures|||||-1.1|-2.4|<0.001
92246357|NCT02164513|184395865|SUPERIORITY||Hazard Ratio (HR)|0.85|||<|0.001|TWO_SIDED|95.0|0.8|0.91||The adjusted p-values should be compared against a reference level of 0.05 in order to infer statistical significance for either of the comparisons.|Cox proportional hazard model|||||0.91|0.80|<0.001
92282524|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Social Functioning||||0.6712
92282525|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6766||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Fatigue||||0.6766
92246358|NCT02164513|184395865|SUPERIORITY||Hazard Ratio (HR)|0.84|||<|0.001|TWO_SIDED|95.0|0.78|0.91|||Cox proportional hazard model|||||0.91|0.78|<0.001
92282526|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Fatigue||||0.6712
92175098|NCT05270408|184242111|SUPERIORITY||Cohen's d|0.69||||0.23|TWO_SIDED||||||ANCOVA|||BVMT delayed||||0.23
92246359|NCT02164513|184395866|SUPERIORITY||Rate ratio|0.68|||<|0.001|TWO_SIDED|95.0|0.62|0.75|||Negative binomial Model|||||0.75|0.62|<0.001
92246360|NCT02164513|184395867|SUPERIORITY||Hazard Ratio (HR)|0.77|||<|0.001|TWO_SIDED|95.0|0.7|0.85|||Cox proportional hazard model|||||0.85|0.70|<0.001
92282527|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6388||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Nausea and Vomiting||||0.6388
92246361|NCT02164513|184395868|SUPERIORITY||Rate Ratio|0.87||||0.064|TWO_SIDED|95.0|0.76|1.01|||Negative binomial model|||||1.01|0.76|0.064
92246362|NCT02164513|184395868|SUPERIORITY||Rate ratio|0.66|||<|0.001|TWO_SIDED|95.0|0.56|0.78|||Negative binomial model|||||0.78|0.56|<0.001
92282528|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.7674||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Nausea and Vomiting||||0.7674
92282529|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.4993||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Pain||||0.4993
92246363|NCT05301322|184395875|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for both RSV A and RSV B NTs.|GMR|0.86|||||TWO_SIDED|95.0|0.785|0.951|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|RSV A||0.951|0.785|
92282530|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Pain||||0.6712
92246364|NCT05301322|184395875|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for both RSV A and RSV B NTs.|GMR|0.85|||||TWO_SIDED|95.0|0.766|0.943|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|RSV B||0.943|0.766|
92175099|NCT05270408|184242112|SUPERIORITY||Cohen's d|0.04||||0.94|TWO_SIDED||||||ANCOVA|||||||0.94
92175100|NCT05270408|184242112|SUPERIORITY||Cohen's d|0.42||||0.47|TWO_SIDED||||||ANCOVA|||||||0.47
92175101|NCT05270408|184242113|SUPERIORITY||Cohen's d|1.49||||0.06|TWO_SIDED||||||ANCOVA|||||||0.06
92175102|NCT05270408|184242113|SUPERIORITY||Cohen's d|1.08||||0.07|TWO_SIDED||||||ANCOVA|||||||0.07
92175103|NCT05270408|184242114|SUPERIORITY||Cohen's d|0.19||||0.61|TWO_SIDED||||||ANCOVA|||||||0.61
92175104|NCT05270408|184242114|SUPERIORITY||Cohen's d|0.68||||0.38|TWO_SIDED||||||ANCOVA|||||||0.38
92175105|NCT05270408|184242116|SUPERIORITY||Cohen's d|0.96||||0.11|TWO_SIDED||||||ANCOVA|||||||0.11
92175106|NCT05270408|184242116|SUPERIORITY|||||||0.68|||||||ANCOVA||||Eta2 effect sizes produced from the pairwise comparisons were transformed to Cohen's d for examination of effect sizes. A small/weak effect size was demonstrated (Cohen's d = 0.10), when adjusting for baseline performance.|||0.68
92246365|NCT05301322|184395876|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for each of the 4 influenza strains.|GMR|0.86|||||TWO_SIDED|95.0|0.769|0.963|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|HAI: H1N1 A/Victoria||0.963|0.769|
92246366|NCT05301322|184395876|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for each of the 4 influenza strains.|GMR|0.77|||||TWO_SIDED|95.0|0.68|0.866|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|HAI: H3N2 A/Darwin||0.866|0.680|
92282531|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.2654||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Dyspnoea||||0.2654
92282532|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Dyspnoea||||0.6712
92282533|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.7617||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Insomnia||||0.7617
92175107|NCT04204265|184242156|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
92175108|NCT04204265|184242157|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
92175109|NCT04204265|184242158|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
92175110|NCT02465268|184242161|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.196|TWO_SIDED|95.0|0.77|2.16|||Log Rank|||||2.16|0.77|0.196
92175111|NCT02465268|184242161|SUPERIORITY||Hazard Ratio (HR)|1.63||||0.196|TWO_SIDED|95.0|0.99|2.7|||Log Rank|||||2.70|0.99|0.196
92175112|NCT02465268|184242162|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.354|TWO_SIDED|95.0|0.6|1.61|||Log Rank|||||1.61|0.60|0.354
92175113|NCT02465268|184242162|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.354|TWO_SIDED|95.0|0.87|2.33|||Log Rank|||||2.33|0.87|0.354
92175114|NCT02465268|184242163|SUPERIORITY|||||||0.038|||||||Kruskal-Wallis|||||||0.038
92175115|NCT02465268|184242163|SUPERIORITY|||||||0.038|||||||Kruskal-Wallis|||||||0.038
92175116|NCT02465268|184242163|SUPERIORITY|||||||0.038|||||||Kruskal-Wallis|||||||0.038
92175117|NCT02465268|184242165|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||||||0.2
92175118|NCT02465268|184242165|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||||||0.2
92175119|NCT02465268|184242165|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||||||0.2
92175120|NCT02465268|184242166|SUPERIORITY|||||||0.6|||||||Kruskal-Wallis|||||||0.6
92175121|NCT02465268|184242166|SUPERIORITY|||||||0.6|||||||Kruskal-Wallis|||||||0.6
92175122|NCT02465268|184242166|OTHER|||||||0.6|||||||Kruskal-Wallis|||||||0.6
92175123|NCT02465268|184242168|SUPERIORITY|||||||0.13|||||||Kruskal-Wallis|||||||0.13
92175124|NCT02465268|184242168|SUPERIORITY|||||||0.13|||||||Kruskal-Wallis|||||||0.13
92175125|NCT02465268|184242168|SUPERIORITY|||||||0.13|||||||Kruskal-Wallis|||||||0.13
92175126|NCT02876588|184242172|SUPERIORITY||Odds Ratio (OR)|1.03||||0.6|TWO_SIDED|95.0|0.9|1.2||Random-effects logistic regression models were constructed, using RAR order sessions as the outcome, randomization group as the independent variable, and the clinician as the random intercept to account for nesting of order sessions within clinicians|Regression, Logistic|||||1.20|.90|.60
92175127|NCT02876588|184242173|SUPERIORITY||Odds Ratio (OR)|1.03||||0.68|TWO_SIDED|95.0|0.89|1.19||Random-effects logistic regression models were constructed, using RAR order sessions as the outcome, randomization group as the independent variable, the clinician as the random intercept to account for nesting of order sessions within clinicians|Regression, Logistic|||||1.19|.89|.68
92175128|NCT02876588|184242174|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92175129|NCT02547363|184242175|SUPERIORITY||||||<|0.001|||||||Fisher exact test|||||||<0.001
92175130|NCT02547363|184242176|SUPERIORITY||Ratio of clearance rates|62.59|||<|0.001|TWO_SIDED|95.0|8.68|451.08|||Mantel Haenszel||Mantel-Haenszel estimate (0.037% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||451.08|8.68|<0.001
92175131|NCT02547363|184242177|SUPERIORITY||Ratio of clearance rates|59.21|||<|0.001|TWO_SIDED|95.0|8.44|415.35|||Mantel Haenszel||Mantel-Haenszel estimate (0.037% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||415.35|8.44|<0.001
92175132|NCT02547363|184242178|SUPERIORITY||Week 8 AK count ratio|0.27|||<|0.001|TWO_SIDED|95.0|0.23|0.32|||Mantel Haenszel||0.037% relative to vehicle.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||0.32|0.23|<0.001
92175133|NCT03084536|184242198|SUPERIORITY|||||||0.68|||||||Kruskal-Wallis|||||||0.68
92246367|NCT05301322|184395876|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for each of the 4 influenza strains.|GMR|0.9|||||TWO_SIDED|95.0|0.789|1.019|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|HAI: B/Austria||1.019|0.789|
92282534|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6712|||||||Cochran-Mantel-Haenszel|||Comparison of Insomnia||||0.6712
92175134|NCT03084536|184242199|SUPERIORITY|||||||0.67|||||||Kruskal-Wallis|||||||0.67
92175135|NCT03084536|184242200|SUPERIORITY|||||||0.53|||||||Kruskal-Wallis|||||||0.53
92175136|NCT03084536|184242201|SUPERIORITY|||||||0.44|||||||Kruskal-Wallis|||||||0.44
92264954|NCT01694849|184431224|SUPERIORITY||Difference in least square mean change|0.57||||0.304|TWO_SIDED|95.0|-0.52|1.66|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||1.66|-0.52|0.304
92175137|NCT03084536|184242202|SUPERIORITY|||||||0.88|||||||Kruskal-Wallis|||||||0.88
92175138|NCT04986501|184242207|SUPERIORITY||||||<|0.01|||||||t-test, 1 sided|||||||<0.01
92175139|NCT04986501|184242209|SUPERIORITY||||||<|0.01|||||||t-test, 1 sided|||||||<0.01
92264955|NCT05146999|184431240|SUPERIORITY||Treatment difference|83.8|||<|0.001|TWO_SIDED|95.0|72.81|94.87|||Cochran-Mantel-Haenszel|||||94.87|72.81|<0.001
92264956|NCT03301272|184431280|OTHER||Difference in differences|0.0||||0.5|TWO_SIDED|||||The threshold for statistical significance is 0.05|Regression, Linear|||||||0.5
92264957|NCT03457701|184431285|SUPERIORITY||Adjusted mean difference.|0.02||||0.9971|TWO_SIDED|95.0|-10.13|10.16|||Mixed Models Analysis||Analysis was based on a mixed effects model fitted with fixed effect terms for treatment, period, and iron isotope type and a random participant effect.|The null hypotheses is defined as the difference in fractional iron absorption between treatment arms (Daprodustat - rhEPO \[i.e., epoetin alfa or darbepoetin alfa\]) is equal to zero.||10.16|-10.13|0.9971
92282535|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.9123||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Appetite loss||||0.9123
92282536|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Appetite loss||||0.6712
92282537|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.7617||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Constipation||||0.7617
92282538|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Constipation||||0.6712
92282539|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.1628||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Diarrhoea||||0.1628
92282540|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Diarrhoea||||0.6712
92282541|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.6388||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Financial difficulties||||0.6388
92282542|NCT01494506|184468642|SUPERIORITY_OR_OTHER|||||||0.7308||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Financial difficulties||||0.7308
92282543|NCT02777528|184468649|OTHER|Performance goal tested using Exact method calculation to estimate the 95% one-sided lower confidence level (95% LCL) on the proportion of participants with primary endpoint success. If the 95% LCL exceeded 0.60, then the null hypothesis was to be rejected and the PG was met.|95% Exact Lower Confidence Limit|0.745|||||TWO_SIDED|||||||||"Primary endpoint success was defined as the proportion of analysis-eligible participants without a primary endpoint event and with 1-Month imaging performed.~Results were tested against a performance goal (PG) of 0.60 (i.e. 60%), derived from outcomes from a systematic review of hybrid TEVAR repair literature.~Additionally, using a one-sided alpha of 0.05 and Exact Test, minimum power of 80%, the sample needed was 50 patients."||||
92282544|NCT01882647|184468668|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||"Treatment groups were compared with respect to the proportions of subjects with treatment success at Day 15 using the Cochran-Mantel-Haenszel (CMH) test stratified by analysis center."|Cochran-Mantel-Haenszel|Multiple imputation was used to impute missing data from the ITT population.||||||<0.001
92282545|NCT01882647|184468669|SUPERIORITY_OR_OTHER||||||<|0.001||||||The pre-specified threshold for statistical significance was ≤0.05.|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema and plaque elevation).||||<0.001
92282546|NCT01882647|184468670|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.01
92282547|NCT01882647|184468671|SUPERIORITY_OR_OTHER||||||<|0.01||||||The pre-specified threshold for statistical significance was ≤0.05.|Cochran-Mantel-Haenszel|||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema and plaque elevation).||||<0.01
92282548|NCT01108094|184468674|OTHER|||||||0.04|||||||t-test, 2 sided|||"Percent change in Ki67 tumor proliferation biomarker from baseline to 1 month, for Cohort A1 (vismodegib-naive patients, n = 8).~Paired analysis of tumors shows percent change between baseline (prior to treatment) and post-itraconazole treatment in individual patients.~% change was calculated from the difference between the mean of baseline Ki67 levels and the mean Ki67 levels after 1 month of treatment."||||0.04
92282549|NCT01108094|184468674|OTHER|||||||0.079|||||||t-test, 1 sided|||"Percent change in Ki67 tumor proliferation biomarker - baseline vs 1 month - Cohort A, vismodegib-naive (n = 8) vs control patients Unpaired analysis shows percent change between individual tumors from control patients and itraconazole treated patients.~% change was calculated from the difference between the mean of baseline Ki67 levels and the mean Ki67 levels after 1 month of treatment."||||0.079
92282550|NCT01108094|184468674|OTHER|||||||0.652|||||||t-test, 2 sided|||"Percent change in Ki67 tumor proliferation biomarker - baseline vs 1 month - control patients Paired analysis of tumors shows percent change between baseline and after 1 month in individual patients.~% change was calculated from the difference between the mean of baseline Ki67 levels and the mean Ki67 levels after 1 month."||||0.652
92282551|NCT01108094|184468675|OTHER|||||||0.028|||||||t-test, 2 sided|||"Percentage change in GLI1 messenger RNA (mRNA) expression Paired analysis of tumors shows percent change between baseline (prior to treatment) and post itraconazole treatment in individual patients.~% change was calculated from the difference between the mean of baseline Gli levels and the mean Gli level after 1 month of treatment."|Wilcoxon signed rank test|||0.028
92282552|NCT01108094|184468676|OTHER||Mean Difference (Final Values)|24.0|||||TWO_SIDED|95.0|18.2|30.0||||||Only tumors from 4 patients from cohort A (n = 42 BCCs) and all tumors from the 4 patients (n = 14 BCCs) in cohort B were observed for tumor size change. Percent change in tumor area from both cohorts (eight patients total with 57 tumors) was calculated only.||30|18.2|
92282553|NCT01108094|184468676|OTHER|||||||0.435|||||||t-test, 1 sided|||Average tumor size reductions were compared between Cohort A1 and Cohort B.||||0.435
92282554|NCT02564263|184468724|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.00894|TWO_SIDED|95.0|0.63|0.96||One-sided p-value based on stratified log-rank test|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW)|||0.96|0.63|0.00894
92282555|NCT02564263|184468725|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.00855|TWO_SIDED|95.0|0.52|0.94||One-sided p-value based on stratified log-rank test|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type 1 adenocarcinoma of the esophagogastric junction \[EGJ\])|||0.94|0.52|0.00855
92282556|NCT02564263|184468726|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.0531|TWO_SIDED|95.0|0.75|1.05||One-sided p-value based on stratified maximum weighted log rank test: the maximum of the log-rank test statistic \& a weighted log-rank Fleming-Harrington (0,1) test statistic|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type 1 adenocarcinoma of the esophagogastric junction \[EGJ\])|||1.05|0.75|0.0531
92282557|NCT02564263|184468727|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.287|TWO_SIDED|95.0|0.94|1.31||One-sided p-value based on stratified maximum weighted log rank test: the maximum of the log-rank test statistic \& a weighted log-rank Fleming-Harrington (0,1) test statistic|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type 1 adenocarcinoma of the EGJ)|||1.31|0.94|0.287
92282558|NCT02564263|184468728|SUPERIORITY||Difference in Percentages|6.4||||0.0037|TWO_SIDED|95.0|1.7|11.2||One-sided p-value for testing. H0: difference in %=0 versus; H1: difference in %\>0.|Miettinen & Nurminen method||Miettinen \& Nurminen method stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type I adenocarcinoma of the EGJ)|||11.2|1.7|0.0037
92282559|NCT02564263|184468729|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.216|TWO_SIDED|95.0|0.75|1.13||One-sided p-value based on stratified log-rank test|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW)|||1.13|0.75|0.216
92282560|NCT02564263|184468730|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.015|TWO_SIDED|95.0|0.54|0.97||One-sided p-value based on stratified log-rank test|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type 1 adenocarcinoma of the EGJ)|||0.97|0.54|0.015
92282561|NCT02564263|184468731|SUPERIORITY||Difference in Percentages|9.2||||0.0022|TWO_SIDED|95.0|3.0|15.8||One-sided p-value for testing. H0: difference in %=0; H1: difference in %\>0.|Miettinen & Nurminen method||Miettinen \& Nurminen method stratified by geographic region (Asia vs RoW)|||15.8|3.0|0.0022
92282562|NCT02564263|184468732|SUPERIORITY||Difference in Percentages|15.1||||0.0006|TWO_SIDED|95.0|6.2|24.7||One-sided p-value for testing. H0: difference in %=0; H1: difference in %\>0.|Miettinen & Nurminen method||Miettinen \& Nurminen method stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type I adenocarcinoma of the EGJ)|||24.7|6.2|0.0006
92282563|NCT02906709|184468735|SUPERIORITY||Difference in the Least Squares Means|-0.9|||<|0.001|TWO_SIDED|95.0|-1.15|-0.66|||Constrained Longitudinal Data Analysis||||Based on a Constrained Longitudinal Data Analysis model with terms for treatment, prior AHA therapy status (yes/no), time and the interaction of time by treatment, time by prior anti-hyperglycemic agent (AHA) therapy status and time by treatment by prior AHA status with the restriction of a common baseline mean between two treatment groups.|-0.66|-1.15|<0.001
92246368|NCT05301322|184395876|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for each of the 4 influenza strains.|GMR|0.87|||||TWO_SIDED|95.0|0.779|0.964|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|HAI: B/Phuket||0.964|0.779|
92246369|NCT04971785|184395881|SUPERIORITY||Difference in percentages|5.7||||0.2289|TWO_SIDED|95.0|-3.6|14.9|||Stratified Mantel-Haenszel test||Percentage difference and 95% confidence interval (CI) between each pair of treatment groups were from stratified Mantel-Haenszel test with baseline diabetes status and baseline enhanced liver fibrosis (ELF) category as stratification factors.|||14.9|-3.6|0.2289
92282564|NCT02906709|184468736|SUPERIORITY||Difference in % vs. Placebo|7.0|||||TWO_SIDED|95.0|-8.4|21.8|||||||Based on Miettinen \& Nurminen method.|21.8|-8.4|
92246370|NCT04971785|184395882|SUPERIORITY||Difference in percentages|-1.8||||0.6959|TWO_SIDED|95.0|-11.1|7.4|||Stratified Mantel-Haenszel test||Percentage difference and 95% CI between each pair of treatment groups presented were from stratified Mantel-Haenszel test with baseline diabetes status and baseline ELF category as stratification factors.|||7.4|-11.1|0.6959
92282565|NCT02906709|184468738|SUPERIORITY||Difference in % vs. Placebo|-4.1|||||TWO_SIDED|95.0|-12.8|0.4|||||||Based on Miettinen \& Nurminen method.|0.4|-12.8|
92175140|NCT05835336|184242289|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|7.45|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92175141|NCT05835336|184242290|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|3.9|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92175142|NCT05835336|184242291|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|3.55||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
92175143|NCT05835336|184242292|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|5.16||||0.032|TWO_SIDED||||||t-test, 2 sided|||||||0.032
92175144|NCT05835336|184242294|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|7.58||||0.035|TWO_SIDED||||||t-test, 2 sided|||||||0.035
92246371|NCT04971785|184395883|SUPERIORITY||Difference in percentages|35.7|||<|0.0001|TWO_SIDED|95.0|18.8|52.6|||Stratified Mantel-Haenszel test||Percentage difference and 95% CI between each pair of treatment groups presented are from stratified Mantel-Haenszel test with baseline diabetes status and baseline ELF category as stratification factors.|||52.6|18.8|<0.0001
92246372|NCT04971785|184395884|SUPERIORITY||Difference in percentages|26.1||||0.0006|TWO_SIDED|95.0|11.3|40.9|||Stratified Mantel-Haenszel test||Percentage difference and 95% CI between each pair of treatment groups presented were from stratified Mantel-Haenszel test with baseline diabetes status and baseline ELF category as stratification factors.|||40.9|11.3|0.0006
92175145|NCT05835336|184242295|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|-1.13||||0.521|TWO_SIDED||||||t-test, 2 sided|||||||.521
92175146|NCT04509674|184242296|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.2061|TWO_SIDED|95.0|0.76|1.06||"Null hypothesis: there is no difference regarding the risk of the endpoint in question between empagliflozin and placebo.~p\<=0.05 required for testing of subsequent key secondary endpoint hypotheses"|Regression, Cox||Empagliflozin vs. Placebo|The primary endpoint was analysed using a Cox proportional hazards model with treatment, type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates.||1.06|0.76|0.2061
92175147|NCT04509674|184242297|OTHER|The statistical model used was a negative binomial model, including factors for treatment and type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates. The log(observation time) was used as an offset variable.|Adjusted event rate ratio|0.87||||0.2423|TWO_SIDED|95.0|0.68|1.1|||Negative binomial regression||Empagliflozin vs. Placebo|||1.10|0.68|0.2423
92183020|NCT02434328|184264733|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-5.6|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.6|-5.6|
92246373|NCT03829332|184395885|OTHER||Hazard Ratio (HR)|0.78||||0.00624|TWO_SIDED|95.0|0.64|0.95|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||Hazards ratio (HR) and 95% confidence interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).||0.95|0.64|0.00624
92246374|NCT03829332|184395886|OTHER||Hazard Ratio (HR)|1.1||||0.79744|TWO_SIDED|95.0|0.87|1.39|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by ECOG, region, and baseline PD-L1 status.||HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).||1.39|0.87|0.79744
92246375|NCT03829332|184395887|OTHER||Percent Difference|12.8||||0.00037|TWO_SIDED|95.0|5.4|20.1|||Stratified Miettinen & Nurminen|One-sided p-value for testing. H0: difference in percent = 0 versus H1: difference in percent \> 0.||Percent difference and 95% CI were calculated using Miettinen \& Nurminen method stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).||20.1|5.4|0.00037
92246376|NCT03829332|184395890|OTHER|Difference in LS means and 95% CI were calculated using the Constrained longitudinal data analysis (cLDA) model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in Least Square (LS) Means|-3.9||||0.0262|TWO_SIDED|95.0|-7.34|-0.47|||Constrained longitudinal data analysis|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG, region \& baseline PDL-1.||||-0.47|-7.34|0.0262
92246377|NCT03829332|184395891|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS means|-4.5||||0.0461|TWO_SIDED|95.0|-8.91|-0.08||Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG, region \& baseline PDL-1.|cLDA model|||||-0.08|-8.91|0.0461
92246378|NCT03829332|184395892|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS means|-1.1||||0.5596|TWO_SIDED|95.0|-4.78|2.59|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG, region \& baseline PDL-1.||||2.59|-4.78|0.5596
92246379|NCT03829332|184395893|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS means|-0.88||||0.7088|TWO_SIDED|95.0|-5.49|3.74|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG, region \& baseline PDL-1.||||3.74|-5.49|0.7088
92246380|NCT03829332|184395894|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS means|-3.01||||0.1116|TWO_SIDED|95.0|-6.71|0.7|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG, region \& baseline PDL-1.||||0.70|-6.71|0.1116
92246381|NCT03829332|184395895|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|1.0||||0.9601|TWO_SIDED|95.0|0.75|1.33|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||1.33|0.75|0.9601
92246382|NCT03829332|184395896|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|0.61||||0.0079|TWO_SIDED|95.0|0.42|0.88|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||0.88|0.42|0.0079
92246383|NCT03829332|184395897|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|1.06||||0.7457|TWO_SIDED|95.0|0.73|1.56|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||1.56|0.73|0.7457
92246384|NCT03829332|184395898|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|1.04||||0.8122|TWO_SIDED|95.0|0.75|1.44|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||1.44|0.75|0.8122
92246385|NCT03829332|184395899|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|1.24||||0.148|TWO_SIDED|95.0|0.92|1.67|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||1.67|0.92|0.1480
92287256|NCT03086460|184479329|SUPERIORITY||Hazard Ratio (HR)|31.67|||<|0.001|TWO_SIDED|95.0|7.52|133.47|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||133.47|7.52|<0.001
92246386|NCT03829332|184395900|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|1.31||||0.4068|TWO_SIDED|95.0|0.7|2.46|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||2.46|0.70|0.4068
92282566|NCT02906709|184468740|SUPERIORITY||Difference in the Least Squares Means|-15.0||||0.002|TWO_SIDED|95.0|-24.5|-5.4|||Constrained Longitudinal Data Analysis||||Based on a Constrained Longitudinal Data Analysis model with terms for treatment, prior AHA therapy status (yes/no), time and the interaction of time by treatment, time by prior AHA therapy status and time by treatment by prior AHA status with the restriction of a common baseline mean between two treatment groups.|-5.4|-24.5|0.002
92246387|NCT01283997|184395901|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.54|TWO_SIDED|95.0|-0.13|0.24|||Wilcoxon (Mann-Whitney)|||Difference in the measurements for touch by the fingertip||0.24|-0.13|0.54
92246388|NCT01283997|184395901|OTHER||Mean Difference (Final Values)|0.05||||0.6|TWO_SIDED|95.0|-0.13|0.23|||Wilcoxon (Mann-Whitney)|||Difference in the measurements for touch by the palm||0.23|-0.13|0.60
92246389|NCT01283997|184395901|OTHER||Mean Difference (Final Values)|-0.12||||0.37|TWO_SIDED|95.0|-0.4|0.15|||Wilcoxon (Mann-Whitney)|||Difference in the measurements for touch by the forearm||0.15|-0.40|0.37
92246390|NCT01283997|184395902|OTHER||Mean Difference (Final Values)|-0.73||||0.56|TWO_SIDED|95.0|-2.06|0.59|||Wilcoxon (Mann-Whitney)|||Difference in Numbness severity at baseline and week 10.||0.59|-2.06|0.56
92246391|NCT00884221|184395929|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis (H0) was tested against the alternative by constructing a two-sided 95% confidence interval for the difference in ongoing pregnancy rates. If the lower-limit of the 95% confidence interval was greater than the non-inferiority limit (-10.0%), the null hypothesis was rejected and it would be claimed that highly purified menotrophin was non-inferior to recombinant FSH with respect to ongoing pregnancy rate in a single fresh treatment cycle following a GnRH antagonist protocol.|Difference in pregnancy rates, ITT|2.2||||0.499|TWO_SIDED|95.0|-4.2|8.6||Since there was only one primary endpoint, no adjustment for multiplicity was needed for the primary analysis.|Sign test|A two-sided 95% confidence interval for the difference in ongoing pregnancy rates was made. The CI was based on a normal approximation.|Difference tested: highly purified menotrophin-recombinant FSH, ITT analysis set|"The non-inferiority hypothesis to be tested for the primary endpoint was:~H0: π MENOPUR - π recombinant FSH ≤ -10.0% against the alternative H1: π MENOPUR - π recombinant FSH \> -10.0%,~where π MENOPUR and π recombinant FSH denote the ongoing pregnancy rate after treatment with MENOPUR and recombinant FSH, respectively, in a single fresh treatment cycle following a GnRH antagonist protocol."||8.6|-4.2|0.499
92282567|NCT02906709|184468741|SUPERIORITY||Percent Between-group Rate Difference|5.8||||0.065|TWO_SIDED|95.0|-0.7|11.5|||Miettinen & Nurminen method||||The estimated response rates and effective sample sizes were used to obtain the confidence intervals (CIs) for within-group response rates via the Wilson score method. The CI were calculated via the stratified (non-combination prior AHA therapy status) Miettinen \& Nurminen method.|11.5|-0.7|0.065
92282568|NCT02906709|184468742|SUPERIORITY||Percent Between-group Rate Difference|1.6||||0.334|TWO_SIDED|95.0|-4.7|5.8|||Miettinen & Nurminen method||||The estimated response rates and effective sample sizes were used to obtain the confidence intervals (CIs) for within-group response rates via the Wilson score method. The CI were calculated via the stratified (non-combination prior AHA therapy status) Miettinen \& Nurminen method.|5.8|-4.7|0.334
92246392|NCT00884221|184395930|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Estradiol||||<0.001
92246393|NCT00884221|184395931|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||FSH||||<0.001
92246394|NCT00884221|184395932|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Free Androgen Index||||<0.001
92246395|NCT00884221|184395933|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Luteinizing hormone||||<0.001
92246396|NCT00884221|184395934|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Progesterone||||0.630
92287257|NCT03086460|184479329|SUPERIORITY||Hazard Ratio (HR)|44.24|||<|0.001|TWO_SIDED|95.0|10.23|191.34|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||191.34|10.23|<0.001
92246397|NCT00884221|184395935|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis (H0) was tested against the alternative by constructing a two-sided 95% confidence interval for the difference in ongoing pregnancy rates. If the lower-limit of the 95% confidence interval was greater than the non-inferiority limit (-10.0%), the null hypothesis was rejected and it would be claimed that highly purified menotrophin was non-inferior to recombinant FSH with respect to ongoing pregnancy rate in a single fresh treatment cycle following a GnRH antagonist protocol.|Difference in pregnancy rates, PP|3.0||||0.387|TWO_SIDED|95.0|-3.8|9.8||Since there was only one primary endpoint, no adjustment for multiplicity was needed for the primary analysis.|Sign test|A two-sided 95% confidence interval for the difference in ongoing pregnancy rates was made. The CI was based on a normal approximation.|Difference tested: highly purified menotrophin - recombinant FSH, PP|"The non-inferiority hypothesis to be tested for the primary endpoint was:~H0: π MENOPUR - π recombinant FSH ≤ -10.0% against the alternative H1: π MENOPUR - π recombinant FSH \> -10.0%,~where π MENOPUR and π recombinant FSH denote the ongoing pregnancy rate after treatment with MENOPUR and recombinant FSH, respectively, in a single fresh treatment cycle following a GnRH antagonist protocol."||9.8|-3.8|0.387
92246398|NCT00884221|184395936|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Prolactin||||0.047
92246399|NCT00884221|184395937|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Sex hormone binding globulin||||0.009
92246400|NCT00884221|184395938|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Testosterone||||<0.001
92246401|NCT00884221|184395939|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatment groups of the average number of follicles \>= 12 mm on the last stimulation day||||0.025
92246402|NCT00884221|184395939|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatment groups of the average number of follicles 12-14 mm on the last stimulation day||||0.024
92246403|NCT00884221|184395939|SUPERIORITY_OR_OTHER|||||||0.728||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatment groups of the average number of follicles 15-16 mm on the last stimulation day||||0.728
92246404|NCT00884221|184395939|SUPERIORITY_OR_OTHER|||||||0.285||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatment groups of the average number of follicles \>=17 mm on the last stimulation day||||0.285
92246405|NCT00884221|184395940|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|Only participants who underwent the oocyte retrieval procedure were included in the analysis||Treatments were compared using the Wilcoxon test for the average number of oocytes retrieved.||||<0.001
92246406|NCT00884221|184395941|SUPERIORITY_OR_OTHER|||||||0.969||95.0|||||Wilcoxon (Mann-Whitney)|Only participants who had oocytes retrieved were included in the analysis.||||||0.969
92246407|NCT00884221|184395942|SUPERIORITY_OR_OTHER|||||||0.406||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status 1 / 2pn||||0.406
92246408|NCT00884221|184395942|SUPERIORITY_OR_OTHER|||||||0.232||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status 2 / 2pn||||0.232
92246409|NCT00884221|184395942|SUPERIORITY_OR_OTHER|||||||0.412||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status 3 / 2pn||||0.412
92246410|NCT00884221|184395942|SUPERIORITY_OR_OTHER|||||||0.438||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status 4 / 2pn||||0.438
92246411|NCT00884221|184395942|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status 5 / 2pn||||0.390
92246412|NCT00884221|184395942|SUPERIORITY_OR_OTHER|||||||0.958||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status, inner cell mass grading and trophectoderm grading 4AA / 2pn||||0.958
92246413|NCT00884221|184395942|SUPERIORITY_OR_OTHER|||||||0.954||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status, inner cell mass grading and trophectoderm grading 5AA / 2pn||||0.954
92246414|NCT00884221|184395943|SUPERIORITY_OR_OTHER||Comparison of distributions|0.398||||0.398|TWO_SIDED|95.0|-3.6|9.1|||Wilcoxon (Mann-Whitney)|A two-sided 95% confidence interval for the difference in live birth rates was made. The CI was based on a normal approximation.|Estimated value is difference between highly purified menotrophin and recombinant FSH, ITT analysis set|||9.1|-3.6|0.398
92246415|NCT00884221|184395944|SUPERIORITY_OR_OTHER||Comparison of distributions|1.8||||0.686|TWO_SIDED|95.0|-5.6|9.2|||Wilcoxon (Mann-Whitney)|A two-sided 95% confidence interval for the difference in cumulative live birth rates was made. The CI was based on a normal approximation.|Estimated value is difference between highly purified menotrophin and recombinant FSH, ITT analysis set|||9.2|-5.6|0.686
92246416|NCT01263093|184395947|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.77|||||TWO_SIDED|90.0|0.72|0.83|||Mixed Models Analysis||Statistical inference was made using the test treatment of LY2216684 + clopidogrel and the reference treatment of clopidogrel alone.|||0.83|0.72|
92246417|NCT01263093|184395948|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.59|||||TWO_SIDED|90.0|0.53|0.67|||Mixed Models Analysis||Statistical inference was made using the test treatment of LY2216684 + clopidogrel and the reference treatment of clopidogrel alone.|||0.67|0.53|
92246418|NCT01263093|184395950|SUPERIORITY_OR_OTHER||Median of Paired Differences|0.0||||0.3303|TWO_SIDED|90.0|0.0|0.25|||Wilcoxon (Mann-Whitney)|||||0.25|0.00|0.3303
92246419|NCT04857593|184395970|OTHER||Mean change in EPDS score|5.4||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||.001
92246420|NCT04656418|184395991|OTHER|Test for differences|||||<|0.001||||||Compared the time-normalized number of HAE attacks in the active and placebo arms by using a two-sided Wilcoxon test (Hierarchical Testing H01) at alpha = 5%.|Two-sided Wilcoxon test|||||||<0.001
92246421|NCT04656418|184395992|OTHER|Test for differences|||||<|0.001||||||Compared the time-normalized number of HAE attacks in the active and placebo arms by using a two-sided Wilcoxon test.|Two-sided Wilcoxon test|||6 Months of treatment||||<0.001
92246422|NCT04656418|184395993|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||6 Months of treatment||||<0.001
92246423|NCT04656418|184395993|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||First 3-months of treatment||||<0.001
92246424|NCT04656418|184395993|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||Second 3-months of treatment||||<0.001
92246425|NCT04656418|184395994|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||6 Months of treatment||||<0.001
92246426|NCT04656418|184395994|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||First 3-months of treatment||||<0.001
92246427|NCT04656418|184395994|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||Second 3-months of treatment||||<0.001
92246428|NCT04656418|184395995|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||First 3-months of treatment||||<0.001
92246429|NCT04656418|184395995|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||Second 3-months of treatment||||<0.001
92246430|NCT04656418|184395996|OTHER|Test for differences|||||<|0.001||||||Compared the time-normalized number of HAE attacks in the active and placebo arms by using a two-sided Wilcoxon test (Hierarchical testing H02) at alpha = 5%.|Two-sided Wilcoxon test|||||||<0.001
92246431|NCT02667457|184396044|OTHER|||||||0.0095||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 60 minutes||||0.0095
92246432|NCT02667457|184396044|OTHER|||||||0.0029||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 120 minutes||||0.0029
92246433|NCT02667457|184396045|OTHER|||||||0.0066||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 60 minutes||||0.0066
92246434|NCT02667457|184396045|OTHER|||||||0.0334||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 120 minutes||||0.0334
92246435|NCT02667457|184396046|OTHER|||||||0.0066||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 60 minutes||||0.0066
92246436|NCT02667457|184396046|OTHER|||||||0.0301||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 120 minutes||||0.0301
92246437|NCT02667457|184396047|OTHER|||||||0.0066||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 60 minutes||||0.0066
92246438|NCT02667457|184396047|OTHER|||||||0.0387||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 120 minutes||||0.0387
92246439|NCT02667457|184396048|OTHER|||||||0.0359||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 60 minutes||||0.0359
92246440|NCT02667457|184396048|OTHER|||||||0.0022||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 120 minutes||||0.0022
92282569|NCT02906709|184468743|SUPERIORITY||Difference in the Least Squares Means|3.1|||<|0.001|TWO_SIDED|95.0|2.3|4.0|||Constrained Longitudinal Data Analysis||||Based on a Constrained Longitudinal Data Analysis model with terms for treatment, prior AHA therapy status (yes/no), time and the interaction of time by treatment, time by prior AHA therapy status and time by treatment by prior AHA status with the restriction of a common baseline mean between two treatment groups.|4.0|2.3|<0.001
92282570|NCT00977106|184468748|SUPERIORITY_OR_OTHER|||||||0.472|||||||Chi-squared|||||||0.472
92282571|NCT00977106|184468749|SUPERIORITY_OR_OTHER|||||||0.377||||||Between-group test (equal variances)|Student t-test|||Change at Week 1||||0.377
92246441|NCT02475850|184396053|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.245|TWO_SIDED|95.0|0.8|1.06||p\<0.05 threshold (primary outcome)|Regression, Cox|multistate model accounting for death as a semi-competing risk||||1.06|0.80|0.245
92246442|NCT02475850|184396054|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.004|TWO_SIDED|99.0|0.83|0.99||p\< 0.01 threshold (secondary outcome)|Regression, Cox|||||0.99|0.83|0.004
92246443|NCT02475850|184396056|SUPERIORITY||Difference in least-squared means across|0.72|STANDARD_ERROR_OF_MEAN|0.71||0.309|TWO_SIDED|99.0|-1.1|2.54||p \< 0.01 threshold (secondary outcome)|Mixed Models Analysis|random: patients nested within practices; fixed: baseline score, randomization constraint vars, predictors of missingness||||2.54|-1.10|0.309
92282572|NCT00977106|184468749|SUPERIORITY_OR_OTHER|||||||0.276|||||||Student t-test|Between-group test (unequal variances)||Change at Week 4||||0.276
92282573|NCT00977106|184468751|SUPERIORITY_OR_OTHER|||||||0.502|||||||Student t-test|Between-group test (equal variances)||Change at Week 4||||0.502
92246444|NCT02475850|184396057|SUPERIORITY||Least squares means|0.59||||0.528|TWO_SIDED|99.0|-1.8|0.93||p \< 0.01 threshold (secondary outcome)|Mixed Models Analysis|random: patients nested within practices; fixed: baseline score, randomization constraint vars, predictors of missingness||||0.93|-1.80|0.528
92282574|NCT00977106|184468753|SUPERIORITY_OR_OTHER|||||||0.434||||||Between placebo and TCZ groups test (Equal Variances) at week 4|t-test, 1 sided|||||||0.434
92282575|NCT00977106|184468755|SUPERIORITY_OR_OTHER|||||||0.692|||||||Wilcoxon (Mann-Whitney)|||Change at Week 1||||0.692
92282576|NCT00977106|184468755|SUPERIORITY_OR_OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||Change at Week 4||||0.019
92282577|NCT00977106|184468756|SUPERIORITY_OR_OTHER|||||||0.137|||||||Wilcoxon (Mann-Whitney)|||Change at Week 1||||0.137
92282578|NCT00977106|184468756|SUPERIORITY_OR_OTHER|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||Change at Week 4||||0.043
92282579|NCT02419313|184468800|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Fisher Exact|||||||0.0007
92282580|NCT02419313|184468801|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Fisher Exact|||||||0.0008
92282581|NCT02419313|184468802|SUPERIORITY_OR_OTHER|||||||0.0105|TWO_SIDED||||||Fisher Exact|||||||0.0105
92282582|NCT00683020|184468804|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|2.0|STANDARD_ERROR_OF_MEAN|0.9||0.03|TWO_SIDED|95.0|0.1|3.9|||Regression, Linear|Adjusted for baseline values.||||3.9|0.1|0.03
92282583|NCT00683020|184468805|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|1.2||0.23|TWO_SIDED|95.0|-0.9|3.6|||Regression, Linear|Adjusted for baseline values.||||3.6|-0.9|0.23
92282584|NCT00683020|184468806|NON_INFERIORITY_OR_EQUIVALENCE|Days in comparison groups are not equal.|Rate Ratio|0.6||||0.25|TWO_SIDED|95.0|0.3|1.4|||Negative Binomial Models|Adjusted for baseline values.||||1.4|0.3|0.25
92282585|NCT00683020|184468807|NON_INFERIORITY_OR_EQUIVALENCE|Proportions in comparison groups are not equal.|Odds Ratio (OR)|0.5||||0.18|TWO_SIDED|95.0|0.2|1.4|||Regression, Logistic|Adjusted for baseline values.||||1.4|0.2|0.18
92246445|NCT02475850|184396058|SUPERIORITY||Least squares means|-0.9|STANDARD_ERROR_OF_MEAN|0.43||0.037|TWO_SIDED|99.0|-2.0|0.2||p \< 0.01 threshold (secondary outcome)|Mixed Models Analysis|random: patients nested within practices; fixed: baseline score, randomization constraint vars, predictors of missingness|Difference in least-squared means across all follow-up (repeated measures: 12 months/24 months)|||0.20|-2.00|0.037
92246446|NCT02475850|184396059|SUPERIORITY||Least squares means|-1.19|STANDARD_ERROR_OF_MEAN|0.45||0.009|TWO_SIDED|99.0|-2.36|-0.02||p\<0.01 threshold (secondary outcome)|Mixed Models Analysis|random: patients nested within practices; fixed: baseline score, randomization constraint vars, predictors of missingness||||-0.02|-2.36|0.009
92246447|NCT02475850|184396060|SUPERIORITY||Least squares means|-0.07|STANDARD_ERROR_OF_MEAN|0.51||0.897|TWO_SIDED|99.0|-1.38|1.25||p \<0.01 threshold (secondary outcome)|Mixed Models Analysis|random: patients nested within practices; fixed: baseline score, randomization constraint vars, predictors of missingness|Difference in least-squared means across all follow-up (repeated measures: 12 months, 24 months)|||1.25|-1.38|0.897
92246448|NCT00915538|184396063|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The expected results for non-inferiority would be +/- 5% of difference between the two groups in the primary efficacy parameter.|AUC|0.0||||0.76|TWO_SIDED||||||t-test, 2 sided|||The cross-over means there were 16 determinants for each time for each treatment. The AUC of FEV-1 was measured in each subject for each treatment arm and the mean of this data was compared.||||0.76
92246449|NCT00915538|184396063|OTHER|Two sample T test|Mean Difference (Net)|0.0|STANDARD_DEVIATION|12.0|>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
92246450|NCT00915538|184396064|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power calculation was not done for secondary parameter. The comparison was for the FEV-1/FVC expressed as fraction at each time point||||||0.76|TWO_SIDED|95.0|||||t-test, 2 sided|||The cross over means there were 16 determinants for each time for each treatment||||0.76
92246451|NCT03864536|184396075|SUPERIORITY||||||<|0.05||||||The statistical significance level was set using alpha of 0.05 without multiplicity correction. This pilot study was not powered for all the outcomes so the magnitude and estimates of intervention efficacy was of primary interest.|Mixed Models Analysis|||||||<0.05
92246452|NCT03864536|184396076|SUPERIORITY||||||<|0.05||||||The statistical significance level was set using alpha of 0.05 without multiplicity correction. This pilot study was not powered for all the outcomes so the magnitude and estimates of intervention efficacy was of primary interest.|Mixed Models Analysis|||||||<0.05
92246453|NCT04058158|184396080|EQUIVALENCE|Pre-defined equivalence margin was \[-337.2 to 337.2\].|Least squares mean difference|34.48|||||TWO_SIDED|95.0|-47.66|116.62||||||||116.62|-47.66|
92246454|NCT04058158|184396081|EQUIVALENCE|Pre-defined equivalence margin was \[0.77 to 1.29\].|Ratio of geometric least squares mean|1.08|||||TWO_SIDED|90.0|0.95|1.23||||||||1.23|0.95|
92246455|NCT02215616|184396082|OTHER||Least square (LS) mean difference|0.78||||0.4853|TWO_SIDED|95.0|-1.42|2.98||Threshold for significance at 0.045 level.|Mixed Models Analysis|||Analysis was performed using Mixed Model Repeated Measures model (MMRM) with treatment group (3 levels: placebo, laquinimod 0.5 mg and laquinimod 1 mg), categorical week (4 levels: Weeks 4, 13, 26, and 52), treatment by week interaction, country, TMS baseline value and TMS baseline by week interaction as fixed effects. Unstructured variance-covariance structure was used in the initial model.||2.98|-1.42|0.4853
92282586|NCT00683020|184468808|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.1||0.008|TWO_SIDED|95.0|0.1|0.5|||Regression, Linear|Adjusted for baseline values.||||0.5|0.1|0.008
92282587|NCT00683020|184468809|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.87|TWO_SIDED|95.0|-0.2|0.2|||Regression, Linear|Adjusted for baseline values.||||0.2|-0.2|0.87
92282588|NCT00683020|184468810|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|1.6||0.49|TWO_SIDED|95.0|-2.1|4.2|||Regression, Linear|Adjusted for baseline values.||||4.2|-2.1|0.49
92246456|NCT01634113|184396084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.117||0.4963|TWO_SIDED|95.0|-0.312|0.152||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R2.5 minus placebo|||0.152|-0.312|0.4963
92246457|NCT01634113|184396084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.048|STANDARD_ERROR_OF_MEAN|0.123||0.6936|TWO_SIDED|95.0|-0.292|0.195||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R5 minus placebo|||0.195|-0.292|0.6936
92246458|NCT01634113|184396086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.083|STANDARD_ERROR_OF_MEAN|0.157||0.5995|TWO_SIDED|95.0|-0.229|0.394||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R2.5 minus placebo|||0.394|-0.229|0.5995
92246459|NCT01634113|184396086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.015|STANDARD_ERROR_OF_MEAN|0.16||0.9251|TWO_SIDED|95.0|-0.303|0.333||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R5 minus placebo|||0.333|-0.303|0.9251
92246460|NCT01634113|184396087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.25|STANDARD_ERROR_OF_MEAN|10.324||0.8279|TWO_SIDED|95.0|-18.243|22.743||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R2.5 minus placebo|||22.743|-18.243|0.8279
92246461|NCT01634113|184396087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.497|STANDARD_ERROR_OF_MEAN|10.826||0.8181|TWO_SIDED|95.0|-23.987|18.994||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R5 minus placebo|||18.994|-23.987|0.8181
92282589|NCT00683020|184468811|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|2.2||0.54|TWO_SIDED|95.0|-3.0|5.6|||Regression, Linear|Adjusted for baseline values.||||5.6|-3.0|0.54
92282590|NCT00683020|184468812|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|2.0|STANDARD_ERROR_OF_MEAN|1.2||0.11|TWO_SIDED|95.0|-0.4|4.4|||Regression, Linear|Adjusted for baseline values.||||4.4|-0.4|0.11
92282591|NCT00683020|184468813|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.13|TWO_SIDED|95.0|-0.6|0.1|||Regression, Linear|Adjusted for baseline values.||||0.1|-0.6|0.13
92282592|NCT00683020|184468814|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|2.3||0.78|TWO_SIDED|95.0|-3.8|5.1|||Regression, Linear|Adjusted for baseline values.||||5.1|-3.8|0.78
92246462|NCT01634113|184396089|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.061|STANDARD_ERROR_OF_MEAN|0.112||0.5869|TWO_SIDED|95.0|-0.161|0.283||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R2.5 minus placebo|||0.283|-0.161|0.5869
92246463|NCT01634113|184396089|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.075|STANDARD_ERROR_OF_MEAN|0.116||0.523|TWO_SIDED|95.0|-0.305|0.156||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R5 minus placebo|||0.156|-0.305|0.5230
92246464|NCT02062463|184396159|OTHER||Odds Ratio (OR)|3.77|||<|0.001|TWO_SIDED|95.0|2.05|6.95||Threshold for significance at 0.05 level.|Chi-squared|||Analysis was performed using a conditional logistic regression model.||6.95|2.05|<0.001
92246465|NCT02062463|184396160|OTHER||Odds Ratio (OR)|1.26||||0.316|TWO_SIDED|95.0|0.8|1.98||Threshold for significance at 0.05 level.|Chi-squared|||Analysis was performed using a conditional logistic regression model.||1.98|0.80|0.316
92246466|NCT01956240|184396190|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.51|STANDARD_DEVIATION|1.9|<|0.05|TWO_SIDED|95.0|||||ANOVA|A 1-way repeated measures ANOVA was used to assess for possible differences among evaluations in each group separately for pectoralis minor length.||||||<0.05
92246467|NCT01956240|184396191|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.0|||>|0.05|TWO_SIDED|95.0|||||ANOVA|Separate 2-way repeated measures ANOVAs were used to test for interactions of angle x evaluation (1,2,3) and for main effects of evaluation.||||||>0.05
92246468|NCT03172481|184396203|OTHER|The primary efficacy analysis used a mixed-model repeated measures (MMRM) analysis on the full day laboratory classroom SKAMP-C scores from each time point as the dependent variable. The repeated measures model adjusted means (LS-means) for PRC-063 and placebo were compared statistically using a t-test with an overall 5% significance level to evaluate efficacy. The LS-means estimate an overall treatment effect across the entire 13-hour classroom evaluation.|||||<|0.0001|||||||ANOVA|||||||<0.0001
92246469|NCT01061736|184396232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.99||||0.1155|TWO_SIDED|95.0|0.85|4.64||Threshold for significance = 0.05.|Cochran-Mantel-Haenszel|||Analysis was performed using two-sided Cochran-Mantel-Haenszel test. Pairwise comparisons of the response rates between each dose of sarilumab and placebo were derived. The multiplicity issues were addressed by using the Hommel-procedure.||4.64|0.85|0.1155
92246470|NCT01061736|184396232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.84||||0.0041|TWO_SIDED|95.0|1.53|9.63||Threshold for significance = 0.05.|Cochran-Mantel-Haenszel|||||9.63|1.53|0.0041
92246471|NCT01061736|184396232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.7119|TWO_SIDED|95.0|0.52|2.61||Threshold for significance = 0.05.|Cochran-Mantel-Haenszel|||||2.61|0.52|0.7119
92282593|NCT00683020|184468815|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|2.1|STANDARD_ERROR_OF_MEAN|1.4||0.13|TWO_SIDED|95.0|-0.6|4.9|||Regression, Linear|Adjusted for baseline values.||||4.9|-0.6|0.13
92246472|NCT01061736|184396232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.0363|TWO_SIDED|95.0|1.06|5.35||Threshold for significance = 0.05.|Cochran-Mantel-Haenszel|||||5.35|1.06|0.0363
92246473|NCT01061736|184396232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.34||||0.0426|TWO_SIDED|95.0|1.03|5.29||Threshold for significance = 0.05.|Cochran-Mantel-Haenszel|||||5.29|1.03|0.0426
92246474|NCT01061736|184396233|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.773|||<|0.0001|TWO_SIDED|95.0|2.077|3.703||Threshold for significance = 0.025.|Cochran-Mantel-Haenszel|||Analysis was performed using two-sided Cochran-Mantel-Haenszel test. Pairwise comparisons of the response rates between each dose of sarilumab and placebo was derived. The multiplicity issues for part B were addressed by using a Bonferroni correction for each dose together with a hierarchical testing procedure across the 3 co-primary and the main secondary endpoints. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level.||3.703|2.077|<0.0001
92246475|NCT01061736|184396233|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.975|||<|0.0001|TWO_SIDED|95.0|2.957|5.344||Threshold for significance = 0.025.|Cochran-Mantel-Haenszel|||||5.344|2.957|<0.0001
92246476|NCT01061736|184396234|SUPERIORITY_OR_OTHER||LS mean difference|-0.235|||<|0.0001|TWO_SIDED|95.0|-0.312|-0.157||Threshold for significance = 0.025.|Mixed Models Analysis|||Analysis was performed using a mixed model for repeated measures (MMRM). Differences in least square (LS) mean between each dose of sarilumab and placebo were derived. Testing was performed according to the hierarchical testing procedure (performed only when the previous endpoint was statistically significant).||-0.157|-0.312|<0.0001
92246477|NCT01061736|184396234|SUPERIORITY_OR_OTHER||LS mean difference|-0.258|||<|0.0001|TWO_SIDED|95.0|-0.336|-0.181||Threshold for significance = 0.025.|Mixed Models Analysis|||||-0.181|-0.336|<0.0001
92282594|NCT02319148|184468853|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|105.28|||||TWO_SIDED|90.0|92.11|120.34|||Mixed Models Analysis|||||120.34|92.11|
92282595|NCT02319148|184468853|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|92.54|||||TWO_SIDED|90.0|80.96|105.77|||Mixed Models Analysis|||||105.77|80.96|
92282596|NCT02319148|184468853|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|116.36|||||TWO_SIDED|90.0|101.86|132.92|||Mixed Models Analysis|||||132.92|101.86|
92282597|NCT02319148|184468854|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|90.16|||||TWO_SIDED|90.0|78.57|103.46|||Mixed Models Analysis|||||103.46|78.57|
92282598|NCT02319148|184468854|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|106.38|||||TWO_SIDED|90.0|92.7|122.07|||Mixed Models Analysis|||||122.07|92.70|
92282599|NCT02319148|184468854|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|101.71|||||TWO_SIDED|90.0|88.68|116.66|||Mixed Models Analysis|||||116.66|88.68|
92282600|NCT02319148|184468855|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|91.33|||||TWO_SIDED|90.0|79.49|104.94|||Mixed Models Analysis|||||104.94|79.49|
92282601|NCT02319148|184468855|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|106.97|||||TWO_SIDED|90.0|93.1|122.91|||Mixed Models Analysis|||||122.91|93.10|
92282602|NCT02319148|184468855|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|102.69|||||TWO_SIDED|90.0|89.42|117.93|||Mixed Models Analysis|||||117.93|89.42|
92246478|NCT01061736|184396235|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Threshold for significance = 0.025.|Rank ANCOVA|||Analysis was performed using two-sided rank-based ANCOVA model. Testing was performed according to the hierarchical testing procedure (performed only when the previous endpoints were statistically significant).||||<0.0001
92246479|NCT01061736|184396235|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Threshold for significance = 0.025.|Rank ANCOVA|||||||<0.0001
92246480|NCT01061736|184396236|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.661|||<|0.0001|TWO_SIDED|95.0|2.451|8.863||Threshold for significance = 0.025.|Cochran-Mantel-Haenszel|||Analysis was performed using two-sided Cochran-Mantel-Haenszel test. Pairwise comparisons of the response rates between each dose of sarilumab and placebo were derived. Testing was performed according to the hierarchical testing procedure (performed only when the previous endpoints were statistically significant).||8.863|2.451|<0.0001
92246481|NCT01061736|184396236|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.565|||<|0.0001|TWO_SIDED|95.0|2.946|10.515||Threshold for significance = 0.025.|Cochran-Mantel-Haenszel|||||10.515|2.946|<0.0001
92246482|NCT01170702|184396287|NON_INFERIORITY|The non inferiority margin is clinically important reduction in 24 hour hydromorphone consumption of 25%, 37.5% and 50% absolute reduction, compared with control.|Median Difference (Final Values)|1.25|STANDARD_DEVIATION|0.05||0.05|TWO_SIDED|0.975|1.25|1.25|||Kruskal-Wallis|||||1.25|1.25|.05
92246483|NCT06964165|184396319|OTHER||Difference in pre-IDS ORR|-39.0|||||TWO_SIDED|80.0|-56.8|-17.7||||||||-17.7|-56.8|
92246484|NCT01551758|184396330|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|0.92|||=|0.025|TWO_SIDED|95.0|0.85|0.99|||Generalized Linear Model|||||0.99|0.85|=0.025
92246485|NCT01551758|184396331|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the upper limit of the two-sided 95% confidence interval for the incidence ratio is less than 2.|Incidence ratio|1.1|||||TWO_SIDED|95.0|0.9|1.5|||||Calculated as % of participants who had at least one SAE of pneumonia in the FF/VI group divided by the % of participants who had at least one SAE of pneumonia in the Usual Care group|||1.5|0.9|
92246486|NCT01551758|184396332|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|1.08||||0.632|TWO_SIDED|95.0|0.79|1.47|||Generalized linear model|||||1.47|0.79|0.632
92246487|NCT01551758|184396333|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13|||=|0.439|TWO_SIDED|95.0|0.83|1.52|||Cox proportional hazards model|||||1.52|0.83|=0.439
92246488|NCT01551758|184396334|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|1.06||||0.488|TWO_SIDED|95.0|0.89|1.27|||Generalized linear model|||||1.27|0.89|0.488
92246489|NCT01551758|184396335|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|0.98||||0.622|TWO_SIDED|95.0|0.92|1.05|||Generalized linear model|||||1.05|0.92|0.622
92246490|NCT01551758|184396336|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|1.05||||0.336|TWO_SIDED|95.0|0.95|1.15|||Generalized Linear Model|||||1.15|0.95|0.336
92246491|NCT01551758|184396337|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|1.12|||<|0.001|TWO_SIDED|95.0|1.05|1.2|||Generalized Linear Model|||||1.20|1.05|<0.001
92246492|NCT01551758|184396338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.89|||<|0.001|TWO_SIDED|95.0|1.6|2.23|||Cox proportional hazards model||A hazard ratio \<1 indicates a lower risk with FF/VI compared with Usual Care.|||2.23|1.60|<0.001
92246493|NCT01551758|184396339|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.37|0.66|||Cox proprotional hazards model||A hazard ratio \<1 indicates a lower risk with FF/VI compared with Usual Care|||0.66|0.37|<0.001
92246494|NCT01551758|184396340|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.111|TWO_SIDED|95.0|0.85|1.02|||Cox porportional hazards model||A hazard ratio \<1 indicates a lower risk with FF/VI compared with Usual Care|||1.02|0.85|0.111
92246495|NCT01551758|184396341|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.081|TWO_SIDED|95.0|0.84|1.01|||Cox porportional hazards model|||||1.01|0.84|0.081
92246496|NCT01551758|184396342|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.27||||0.075|TWO_SIDED|95.0|0.98|1.66|||Cox proportional hazards model|||||1.66|0.98|0.075
92246497|NCT01586156|184396349|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
92246498|NCT01586156|184396350|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
92246499|NCT01586156|184396351|OTHER|Pearson's correlation test of association of alprenolol binding changes to dose carvedilol.||||||0.02||||||Correlation of the change in alprenolol binding relative to dose carvedilol.|Pearson|||||||0.02
92282603|NCT00048048|184468874|SUPERIORITY_OR_OTHER||Least square mean|0.979|STANDARD_ERROR_OF_MEAN|0.223|||TWO_SIDED|95.0|0.534|1.425|||||To analyze the appropriateness of the chosen conversion factors, a second regression analysis was carried out. This regression was on the three conversion factor dose groups, using the regression slope estimates of Hb. This was not pre-specified.|All cohorts with dosing frequency 1X/ Week||1.425|0.534|
92282604|NCT00048048|184468874|SUPERIORITY_OR_OTHER||Least square mean|0.851|STANDARD_ERROR_OF_MEAN|0.228|||TWO_SIDED|95.0|0.395|1.307|||||To analyze the appropriateness of the chosen conversion factors, a second regression analysis was carried out. This regression was on the three conversion factor dose groups, using the regression slope estimates of Hb. This was not pre-specified.|All cohorts with dosing frequency 1X/ 2Week||1.307|0.395|
92246500|NCT01586156|184396352|SUPERIORITY|||||||0.05|||||||ANOVA|||||||0.05
92246501|NCT01586156|184396354|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92246502|NCT01586156|184396355|NON_INFERIORITY|Carvedilol did not lead to worse cardiac output as compared to placebo.||||||0.8|||||||ANOVA|||||||0.8
92246503|NCT03519516|184396359|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.749|||||||Wilcoxon (Mann-Whitney)|||||||0.749
92246504|NCT03519516|184396360|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.041|||||||Chi-squared|||||||0.041
92246505|NCT03519516|184396361|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.694|||||||Wilcoxon (Mann-Whitney)|||||||0.694
92246506|NCT03519516|184396362|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.495|||||||Wilcoxon (Mann-Whitney)|||||||0.495
92246507|NCT03519516|184396363|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.492||||||statistical analysis between groups for final visit with green lissamine|Chi-squared|||||||0.492
92246508|NCT03519516|184396363|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.238||||||statistical analysis between groups for final visit with fluorescein|Chi-squared, Corrected|||||||0.238
92246509|NCT03519516|184396364|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.213|||||||Chi-squared|||||||0.213
92246510|NCT03519516|184396366|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.741|||||||Chi-squared, Corrected|||||||0.741
92246511|NCT03519516|184396368|NON_INFERIORITY|The study drug is considered non-inferior with respect to the comparator if there are no differences above twenty percent||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.110
92246512|NCT05458011|184396382|OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-2.66|-0.95|||ANCOVA|||||-0.95|-2.66|<0.0001
92246513|NCT03292952|184396412|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92246514|NCT03097614|184396417|SUPERIORITY|||||||0.0001|TWO_SIDED||||||ANCOVA|||||||0.0001
92246515|NCT00680953|184396432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.343||||0.0001|TWO_SIDED|95.0|0.194|0.606|||Log Rank|||||0.606|0.194|0.0001
92246516|NCT00680953|184396433|SUPERIORITY_OR_OTHER|||||||0.9951|||||||Log Rank|||||||0.9951
92246517|NCT00680953|184396434|SUPERIORITY_OR_OTHER|||||||0.1568|||||||Log Rank|||||||0.1568
92246518|NCT01093755|184396449|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the two treatment groups at 3 months||||0.30
92246519|NCT01093755|184396449|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the two treatment groups at 6 months||||0.52
92246520|NCT01093755|184396450|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the two treatment groups at 3 months||||0.70
92287258|NCT03086460|184479329|SUPERIORITY||Hazard Ratio (HR)|40.32|||<|0.001|TWO_SIDED|95.0|9.54|170.45|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||170.45|9.54|<0.001
92282605|NCT00048048|184468874|SUPERIORITY_OR_OTHER||Least square mean|0.932|STANDARD_ERROR_OF_MEAN|0.222|||TWO_SIDED|95.0|0.488|1.377|||||To analyze the appropriateness of the chosen conversion factors, a second regression analysis was carried out. This regression was on the three conversion factor dose groups, using the regression slope estimates of Hb. This was not pre-specified.|All cohorts with dosing frequency 1X /3 Week||1.377|0.488|
92282606|NCT00771537|184468920|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|STANDARD_ERROR_OF_MEAN|0.17||0.05|TWO_SIDED|95.0|0.5|0.96|||Regression, Logistic||Women in the 1-sided message group accepted testing at a lower rate (79.4%) than those in the control group (87.4%).|||.96|.50|0.05
92282607|NCT00771537|184468920|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75|STANDARD_ERROR_OF_MEAN|0.17||0.1|TWO_SIDED|95.0|0.54|1.04|||Regression, Logistic||Women in the 2-sided trivial group were no different in their acceptance rate of HIV testing (81.3%) than women in the control group (87.4%).|||1.04|.54|.10
92282608|NCT00771537|184468920|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92|STANDARD_ERROR_OF_MEAN|0.176||0.63|TWO_SIDED|95.0|0.65|1.3|||Regression, Logistic||Women in the 2-sided major group were no different in rates of accepting HIV testing (83.9%) than women in the control group (87.4%)|||1.30|.65|.63
92282609|NCT00771537|184468921|SUPERIORITY_OR_OTHER||Marginal Means|2.49|STANDARD_ERROR_OF_MEAN|0.037|<|0.6|TWO_SIDED|95.0|2.42|2.56|||ANOVA|Degrees of freedom = (1,978)|There was no significant effect for the 1-sided message compared to the control group on Willingness to Participate in an HIV vaccine clinical trial.|One-way Analysis of Variance||2.56|2.42|<.60
92282610|NCT00771537|184468921|SUPERIORITY_OR_OTHER||Marginal Means|2.51|STANDARD_ERROR_OF_MEAN|0.036|<|0.25|TWO_SIDED|95.0|2.44|2.58|||ANOVA|degrees of freedom = (1,1028)|There was no significant effect for the 2-sided trivial message compared to the control group on Willingness to Participate in an HIV vaccine clinical trial.|One-Way Analysis of Variance||2.58|2.44|<.25
92282611|NCT00771537|184468921|SUPERIORITY_OR_OTHER||Marginal Means|2.47|STANDARD_ERROR_OF_MEAN|0.036|<|0.91|TWO_SIDED|95.0|2.4|2.54|||ANOVA||There was no significant effect for the 2-sided major message compared to the control group on Willingness to Participate in an HIV vaccine clinical trial.|One-Way Analysis of Variance||2.54|2.40|<.91
92282612|NCT01345019|184468922|NON_INFERIORITY|A two-stage approach was used for the non-inferiority test. First, the fixed margin approach was used to ensure denosumab has an effect greater than placebo (ie, the non-inferiority margin M1, ie, the lower bound of the two-sided 95% confidence interval 1.28, is ruled out). Next, a synthesis method was used for the non-inferiority test of the hypothesis that denosumab preserved at least 50% of the effect of zoledronic acid (HR \[95% CI\] of 1.48 \[1.28, 1.71\] for placebo vs zoledronic acid.|Hazard Ratio (HR)|0.98||||0.01|TWO_SIDED|95.0|0.85|1.14|||Cox proportional hazards model|Based on a Cox proportional hazards model stratified by the randomization stratification factors.|A hazard ratio (denosumab:zoledronic acid) \< 1 favors denosumab|||1.14|0.85|0.010
92282613|NCT01345019|184468925|SUPERIORITY|The statistical inferences of the treatment effect on secondary efficacy endpoints (time to the first on study SRE \[superiority\] and time to first and subsequent on study SRE \[superiority, multiple event analysis\]) were to be conducted if denosumab was determined to be non-inferior to zoledronic acid. To control the overall type I error for multiple comparisons at a significant level of 0.05, these secondary efficacy endpoints were tested simultaneously using the Hochberg procedure.||||||0.82|||||||Log Rank|Based on a log rank test stratified by randomization stratification factors.||||||0.82
92282614|NCT01345019|184468926|SUPERIORITY|The statistical inferences of the treatment effect on secondary efficacy endpoints (time to the first on study SRE \[superiority\] and time to first and subsequent on study SRE \[superiority, multiple event analysis\]) were to be conducted if denosumab was determined to be non-inferior to zoledronic acid. To control the overall type I error for multiple comparisons at a significant level of 0.05, these secondary efficacy endpoints were tested simultaneously using the Hochberg procedure.|Rate ratio|1.01||||0.84|TWO_SIDED|95.0|0.89|1.15|||Andersen-Gill model|Based on an Andersen-Gill model stratified by the randomization stratification factors.|A rate ratio (denosumab:zoledronic acid) \< 1 favors denosumab.|||1.15|0.89|0.84
92282615|NCT01345019|184468928|SUPERIORITY|If superiority of denosumab over zoledronic acid was established for both time to first SRE and time to first and subsequent SRE, the additional secondary endpoint (overall survival) was to be tested at a significance level of 0.05.|Hazard Ratio (HR)|0.9||||0.41|TWO_SIDED|95.0|0.7|1.16|||Cox proportional hazards model||A hazard ratio (denosumab:zoledronic acid) \< 1 favors denosumab.|The survival function of time to death for each treatment group was estimated using Kaplan-Meier method and the hazard ratio of denosumab compared with zoledronic acid and its 2-sided 95% CI were estimated using a Cox proportional hazards model stratified by the randomization stratification factors and including treatment groups, age, race group, geographic region, baseline creatinine clearance, baseline risk per cytogenetic based prognosis, and baseline ECOG as independent variables.||1.16|0.70|0.41
92175148|NCT04509674|184242298|OTHER|The statistical model used was a negative binomial model, including factors for treatment and type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates. The log(observation time) was used as an offset variable.|Adjusted event rate ratio|0.92||||0.2867|TWO_SIDED|95.0|0.78|1.07|||Negative binomial regression||Empagliflozin vs. Placebo|||1.07|0.78|0.2867
92175149|NCT04509674|184242299|OTHER|The statistical model used was a negative binomial model, including factors for treatment and type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates. The log(observation time) was used as an offset variable.|Adjusted event rate ratio|0.87||||0.0463|TWO_SIDED|95.0|0.7654|0.9978|||Negative binomial regression||Empagliflozin vs. Placebo|||0.9978|0.7654|0.0463
92175150|NCT04509674|184242300|OTHER|The statistical model used was a negative binomial model, including factors for treatment and type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates. The log(observation time) was used as an offset variable.|Adjusted event rate ratio|1.06||||0.6311|TWO_SIDED|95.0|0.83|1.35|||Negative binomial regression||Empagliflozin vs. Placebo|||1.35|0.83|0.6311
92175151|NCT04509674|184242301|OTHER|The statistical analysis was performed using a Cox proportional hazards model with treatment, type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates.|Hazard Ratio (HR)|1.03||||0.8124||95.0|0.81|1.31|||Regression, Cox||Empagliflozin vs. Placebo|||1.31|0.81|0.8124
92246521|NCT01093755|184396450|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the two treatment groups at 6 months||||0.64
92246522|NCT03115112|184396451|NON_INFERIORITY|The non-inferiority margin of 0.35% was determined based on a reference clinical trial that demonstrated the effectiveness of sitagliptin, 100 mg, compared to placebo on HbA1c reduction in subjects with type 2 DM. A margin of 0.35% was selected to be approximately half of sitagliptin effect and remained clinically meaningful.|Difference of LS Means|0.08|||||TWO_SIDED|95.0|-0.07|0.22|||||Mixed-effects repeated measures analysis includes region, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as fixed effect covariates.|||0.22|-0.07|
92282616|NCT03249584|184468934|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||An improvement from baseline to 3 months post radiofrequency ablation in worst pain score will be demonstrated with an outcome which is statistically lower than zero.||||<0.0001
92282617|NCT03130699|184468959|SUPERIORITY|||||||0.95|||||||Regression, Logistic|||Analyses controlled for age, gender, employment and language.||||0.95
92282618|NCT03130699|184468960|SUPERIORITY|||||||0.37|||||||Regression, Logistic|||Analyses controlled for age, gender, employment, and language.||||0.37
92282619|NCT03130699|184468961|SUPERIORITY|||||||0.26|||||||Regression, Logistic|||Analyses controlled for age, gender, employment, and language.||||0.26
92282620|NCT03130699|184468962|SUPERIORITY|||||||0.9|||||||Regression, Logistic|||Analyses controlled for age, gender, employment, and language.||||0.90
92282621|NCT03130699|184468963|SUPERIORITY|||||||0.21|||||||Regression, Logistic|||Analyses controlled for age, gender, employment, and language.||||0.21
92246523|NCT03115112|184396452|SUPERIORITY||Difference of LS Means|-0.37||||0.0123|TWO_SIDED|95.0|-0.7|-0.05|||Mixed-effects repeated measures|Covariate includes region, treatment, visit, treatment-by-visit interaction and the baseline FPG value as a fixed effect covariate.||||-0.05|-0.70|0.0123
92246524|NCT03115112|184396453|SUPERIORITY||Difference of LS Means|-2.54|||<|0.0001|TWO_SIDED|95.0|-3.15|-1.92|||Mixed-effects repeated measures|Included region, treatment, visit, treatment-by-visit interaction and the baseline body weight value as fixed effect covariate.||||-1.92|-3.15|<0.0001
92282622|NCT03130699|184468964|SUPERIORITY|||||||0.3|||||||Regression, Logistic|||Analyses controlled for age, gender, employment, and language.||||0.30
92282623|NCT03130699|184468965|SUPERIORITY|||||||0.9|||||||Regression, Logistic|||Analyses controlled for income.||||0.90
92282624|NCT03130699|184468966|SUPERIORITY|||||||0.72|||||||Regression, Logistic|||Analyses controlled for income.||||0.72
92282625|NCT03130699|184468967|SUPERIORITY|||||||0.61|||||||Regression, Logistic|||Analyses controlled for income.||||0.61
92282626|NCT03130699|184468968|SUPERIORITY|||||||0.49|||||||Regression, Logistic|||Analyses controlled for income.||||0.49
92282627|NCT03130699|184468969|SUPERIORITY|||||||0.96|||||||Regression, Logistic|||Analyses controlled for income.||||0.96
92282628|NCT03130699|184468970|SUPERIORITY|||||||0.64|||||||Regression, Logistic|||Analyses controlled for income.||||0.64
92282629|NCT03130699|184468971|SUPERIORITY|||||||0.87|||||||Regression, Logistic|||Binary logistic analyses were conducted for this outcome. Unstandardized regression coefficients represent logit coefficients.||||0.87
92282630|NCT03130699|184468972|SUPERIORITY|||||||0.58|||||||Regression, Logistic|||Binary logistic regression analyses were conducted for this outcome. Unstandardized regression coefficients represent logit coefficients.||||0.58
92282631|NCT03130699|184468973|SUPERIORITY|||||||0.25|||||||Regression, Logistic|||Binary logistic regression analyses were conducted for this outcome. Unstandardized regression coefficients represent logit coefficients.||||0.25
92282632|NCT03130699|184468974|SUPERIORITY|||||||0.11|||||||Regression, Logistic|||Binary logistic regression analyses were conducted for this outcome. Unstandardized regression coefficients represent logit coefficients.||||0.11
92282633|NCT03130699|184468975|SUPERIORITY|||||||0.76|||||||Regression, Logistic|||Analyses controlled for income.||||0.76
92282634|NCT03130699|184468976|SUPERIORITY|||||||0.05|||||||Regression, Logistic|||Analyses controlled for income.||||0.05
92282635|NCT03130699|184468977|SUPERIORITY|||||||0.63|||||||Regression, Logistic|||Analyses controlled for income.||||0.63
92282636|NCT03130699|184468978|SUPERIORITY|||||||0.63|||||||Regression, Logistic|||Analyses is controlled for income.||||0.63
92246525|NCT03115112|184396454|SUPERIORITY||mixed-effects repeated measures|-2.33||||0.0276|TWO_SIDED|95.0|-4.7|0.05|||t-test, 1 sided|p value was presented based on one sided statistical tests using a 0.025 level of significance|Included region, treatment, visit, treatment-by-visit interaction and the baseline body weight value as fixed effect covariate.|||0.05|-4.70|0.0276
92246526|NCT02093234|184396459|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92246527|NCT02093234|184396460|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92246528|NCT02093234|184396461|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92246529|NCT02093234|184396462|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon signed rank|||||||0.02
92282637|NCT03130699|184468979|SUPERIORITY|||||||0.002|||||||Regression, Logistic|||Analyses controlled for income.||||0.002
92282638|NCT03130699|184468980|SUPERIORITY|||||||0.008|||||||Regression, Logistic|||Analyses controlled for income.||||0.008
92282639|NCT00977470|184469014|EQUIVALENCE|All enrolled patients will be included in the intent-to-treat efficacy analyses. Based on historical patients with EGFR mutations treated with gefitinib, we expect median progression-free survival on the erlotinib-alone arm to be approximately 9 months. This trial can detect a difference in proportions alive without progression at 9 months from 50% in the erlotinib arm to 77% in the erlotinib plus HCQ arm, using an alpha of 0.15 and power of 85%, using the two-sided Likelihood Ratio test.||||||0.28|||||||Log Rank|||||||0.28
92246530|NCT00421603|184396475|NON_INFERIORITY_OR_EQUIVALENCE|All analyses were conducted on the intent-to-treat sample of all randomized patients. All statistical tests were 2-tailed and employed at a significance level of 5%, unless otherwise stated. The original sample size of 120 patients was chosen to ensure sufficient power (at least 80%) of a two-sided test with level of significance α=0.05 for detecting difference between the two experimental treatments with respect to the percentage of subjects who achieve continuous 3-weeks abstinence.|||||=|0.05|||||||Chi-squared, Corrected|||The dichotomous primary outcome was analyzed using logistic regression with independent predictors: treatment (MAS-ER and topiramate vs. placebo) and adjusted for baseline severity of cocaine use (total number of cocaine use days in the 28 days prior to randomization).||||=.05
92175152|NCT02561247|184242364|OTHER|||||||0.0008||||||P Value is from a one sample t-test compared against the null hypothesis value|t-test, 1 sided|Null Hypothesis Value = -38; Degrees of Freedom=16; t-value=-4.13||P Value is from a one sample t-test compared against the null hypothesis value. No adjustments were made for multiple comparisons/multiplicity in this study, since there was only one primary endpoint, one arm, and one pre-specified primary null hypothesis.||||0.0008
92246531|NCT01231607|184396529|SUPERIORITY_OR_OTHER||Least-squares (LS) mean difference|22.0||||0.046|TWO_SIDED|98.33|-4.4|48.4|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the dutasteride 0.02 mg LS mean minus the placebo LS mean.|||48.4|-4.4|0.046
92246532|NCT01231607|184396529|SUPERIORITY_OR_OTHER||LS mean difference|67.9|||<|0.001|TWO_SIDED|98.33|41.6|94.2|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the dutasteride 0.1 mg LS mean minus the placebo LS mean.|||94.2|41.6|<0.001
92246533|NCT01231607|184396529|SUPERIORITY_OR_OTHER||LS mean difference|94.4|||<|0.001|TWO_SIDED|98.33|67.8|121.0|||General linear model|Each dose of dutasteride independently analyzed for comparison against placebo using a general linear model.|Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the dutasteride 0.5 mg LS mean minus the placebo LS mean.|||121.0|67.8|<0.001
92246534|NCT01231607|184396529|SUPERIORITY_OR_OTHER||Least squares mean difference|61.4|||<|0.001|TWO_SIDED|98.33|34.4|88.4|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the placebo LS mean.|||88.4|34.4|<0.001
92282640|NCT05065502|184469021|SUPERIORITY||Mean Difference (Net)|-0.261|STANDARD_ERROR_OF_MEAN|0.238||0.273|TWO_SIDED|95.0|-0.728|0.206||Significance level is set at 0.05.|Regression, Linear||Between-arm difference at 13-18 months post-baseline, controlling for rates 1-6 months pre-baseline|Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of PIMs of post-intervention period (months 13 to 18), controlling for use in pre-baseline period (months 0 to 6), averaged across three studies.||0.206|-0.728|0.273
92246535|NCT01231607|184396529|NON_INFERIORITY_OR_EQUIVALENCE|Differences between dutasteride (DUT) and finasteride (FIN) were assessed using a general linear model (GLM) adjusted for treatment, cluster, and BL hair count (HC). The one-sided 99.165% confidence interval (CI) for DUT minus FIN was derived, and noninferiority (NI) demonstrated if the lower end of the CI was greater than -35 hairs. If NI was achieved with a dose of DUT, the primary endpoint was to be analyzed for superiority against FIN using a GLM adjusted for treatment, cluster, and BL HC.|Least squares mean difference|-39.4|||<|0.001||99.165|-66.1|-12.7|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.02 mg LS mean.|||-12.7|-66.1|<0.001
92282641|NCT05065502|184469022|SUPERIORITY||Mean Difference (Net)|0.00138|||||TWO_SIDED|95.0|-0.0245|0.0272||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of PIMs for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6).||0.0272|-0.0245|
92282642|NCT05065502|184469023|SUPERIORITY||Mean Difference (Net)|23.0|||||TWO_SIDED|95.0|-23.3|69.3|||||Statistical Assumptions for Valid Inference of a typical Difference-in-Difference model were not met, Estimate computed from modelling Post-period, and adjusting for Pre-period.|Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in medication costs from 6-months pre-baseline period to 6-month post-intervention period (months 13 to 18).||69.3|-23.3|
92246536|NCT01231607|184396529|NON_INFERIORITY_OR_EQUIVALENCE|Differences between dutasteride (DUT) and finasteride (FIN) were assessed using a general linear model (GLM) adjusted for treatment, cluster, and BL hair count (HC). The one-sided 99.165% confidence interval (CI) for DUT minus FIN was derived, and noninferiority (NI) demonstrated if the lower end of the CI was greater than -35 hairs. If NI was achieved with a dose of DUT, the primary endpoint was to be analyzed for superiority against FIN using a GLM adjusted for treatment, cluster, and BL HC.|Least squares mean difference|6.5||||0.28||99.165|-20.1|33.1|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.1 mg LS mean.|||33.1|-20.1|0.28
92246537|NCT01231607|184396529|NON_INFERIORITY_OR_EQUIVALENCE|Differences between dutasteride (DUT) and finasteride (FIN) were assessed using a general linear model (GLM) adjusted for treatment, cluster, and BL hair count (HC). The one-sided 99.165% confidence interval (CI) for DUT minus FIN was derived, and noninferiority (NI) demonstrated if the lower end of the CI was greater than -35 hairs. If NI was achieved with a dose of DUT, the primary endpoint was to be analyzed for superiority against FIN using a GLM adjusted for treatment, cluster, and BL HC.|Least squares mean difference|33.0||||0.002||99.165|6.1|60.0|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.5 mg LS mean.|||60|6.1|0.002
92246538|NCT01231607|184396529|SUPERIORITY_OR_OTHER||Least squares mean difference|-39.4|||<|0.001|TWO_SIDED|98.33|-66.1|-12.7|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.02 mg LS mean.|||-12.7|-66.1|<0.001
92282643|NCT05065502|184469024|SUPERIORITY||Median Difference (Net)|-0.599|||||TWO_SIDED|95.0|-1.08|-0.122||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in count of medication note reviews from 6-months pre-baseline period to 6-month post-intervention period (months 13 to 18).|"Medication reviews per 1,000 patients (outcome multiplied by 1,000).~Statistical Assumptions for Valid Inference of a typical Difference-in-Difference model were not met, Estimate computed from modelling Post-period, and adjusting for Pre-period."|-0.122|-1.080|
92282644|NCT05065502|184469025|SUPERIORITY||Mean Difference (Net)|-0.05317|||||TWO_SIDED|95.0|-0.09073|0.01561||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in count of inappropriate use from 6-months pre-baseline period to 6-month post-intervention period (months 13 to 18)||0.01561|-0.09073|
92246539|NCT01231607|184396529|SUPERIORITY_OR_OTHER||Least squares mean difference|6.5||||0.56|TWO_SIDED|98.33|-20.1|33.1|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.1 mg LS mean.|||33.1|-20.1|0.56
92246540|NCT01231607|184396529|SUPERIORITY_OR_OTHER||Least squares mean difference|33.0||||0.003|TWO_SIDED|98.33|6.1|60.0|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.5 mg LS mean.|||60|6.1|0.003
92246541|NCT01709786|184396549|SUPERIORITY_OR_OTHER||Bland-Altman Analysis|1.49|||||TWO_SIDED|||||p-value is not reported since Bland-Altman is not a hypothesis testing framework.|Limits of agreement||Limits of agreement are -2.02 to 5.00. This is not a confidence interval because Bland-Altman is not a hypothesis testing framework.|||||
92246542|NCT01709786|184396550|SUPERIORITY_OR_OTHER||Limits of agreement|-0.63|||||TWO_SIDED|||||p-value not reported since Bland-Altman is not a hypothesis testing framework.|Bland-Altman Analysis||Limits of agreement are -3.44 to 2.18. This is not a confidence interval because Bland-Altman is not a hypothesis testing framework.|||||
92246543|NCT01082367|184396585|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.55|||<|0.001|TWO_SIDED|95.0|4.67|99.52|||Regression, Logistic|||||99.52|4.67|<0.001
92246544|NCT00664755|184396588|SUPERIORITY||Odds Ratio (OR)|2.77||||0.011|TWO_SIDED|95.0|1.17|6.59|||Regression, Logistic|||||6.59|1.17|0.011
92246545|NCT02307838|184396596|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.59||||0.0155|TWO_SIDED|95.0|-1.07|-0.11|||ANCOVA|||||-0.11|-1.07|0.0155
92246546|NCT00865189|184396641|SUPERIORITY_OR_OTHER|||||||0.015|||||||Binomial test|||This proportion was described for each treatment arm with a 95% confidence interval (CI) and compared with the standard proportion of 10% (CI) for each treatment arm.||||0.015
92246547|NCT00865189|184396641|SUPERIORITY_OR_OTHER|||||||0.906|||||||Binomial test|||This proportion was described for each treatment arm with a 95% CI and compared with the standard proportion of 10% (CI) using for each treatment arm.||||0.906
92246548|NCT01658579|184396653|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.75|STANDARD_ERROR_OF_MEAN|2.179||0.7304|TWO_SIDED|95.0|-3.614|5.124|||Linear Mixed Model|||Analysis was performed using a linear mixed model with treatment and period as fixed effects, and participant as random effect.||5.124|-3.614|0.7304
92246549|NCT00418379|184396667|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||< 0.0001
92282645|NCT05065502|184469026|SUPERIORITY||Mean Difference (Net)|-0.12|||||TWO_SIDED|95.0|-1.44|1.2||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of high-risk DOAC use from 6-months pre-baseline period to 6-month post-intervention period (months 13 to 18).||1.20|-1.44|
92246550|NCT00418379|184396667|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||< 0.0001
92246551|NCT05127044|184396672|OTHER|An a priori power analysis was conducted to determine the number of subjects needed to detect a similar strong correlation between the DRS and BiliChek data (α = 0.05, power = 0.8, r0 = 0.7, r1 = 0,85; G\*Power3.1). For this study n = 44 subjects (from Study Protocol).|Multiple R|0.81438645|||||TWO_SIDED|||||||||Power calculation located in Study Protocol-Correlation Coefficient-R Value||||
92246552|NCT05127044|184396672|OTHER|An a priori power analysis was conducted to determine the number of subjects needed to detect a similar strong correlation between the DRS and BiliChek data (α = 0.05, power = 0.8, r0 = 0.7, r1 = 0,85; G\*Power3.1). For this study n = 44 subjects (from Study Protocol).|Multiple R|0.85442277|||||TWO_SIDED|||||||||Power calculation located in Study Protocol||||
92246553|NCT05127044|184396672|OTHER|An a priori power analysis was conducted to determine the number of subjects needed to detect a similar strong correlation between the DRS and BiliChek data (α = 0.05, power = 0.8, r0 = 0.7, r1 = 0,85; G\*Power3.1). For this study n = 44 subjects (from Study Protocol).|Multiple R|0.0758872|||||TWO_SIDED|||||||||Power calculation located in Study Protocol||||
92246554|NCT05127044|184396672|OTHER|An a priori power analysis was conducted to determine the number of subjects needed to detect a similar strong correlation between the DRS and BiliChek data (α = 0.05, power = 0.8, r0 = 0.7, r1 = 0,85; G\*Power3.1). For this study n = 44 subjects (from Study Protocol).|Multiple R|0.7929338|||||TWO_SIDED|||||||||Power calculation located in Study Protocol||||
92246555|NCT05127044|184396672|OTHER|An a priori power analysis was conducted to determine the number of subjects needed to detect a similar strong correlation between the DRS and BiliChek data (α = 0.05, power = 0.8, r0 = 0.7, r1 = 0,85; G\*Power3.1). For this study n = 44 subjects (from Study Protocol).|Multiple R|0.86294585|||||TWO_SIDED|||||||||Power calculation located in Study Protocol||||
92246556|NCT05127044|184396673|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between hemoglobin concentration and weight.|Pearson Correlation Coefficient|-0.2184||||0.1544|TWO_SIDED||||||Linear correlation|||||||0.1544
92246557|NCT05127044|184396673|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between hemoglobin concentration and gestational age.|Pearson Correlation Coefficient|0.3909||||0.0087|||||||Linear correlation|||||||0.0087
92246558|NCT05127044|184396673|OTHER|A simple linear regression model was fitted with hemoglobin concentration as the dependent variable and sex as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0252||||0.3038|TWO_SIDED||||||Regression, Linear|||||||0.3038
92246559|NCT05127044|184396673|OTHER|A simple linear regression model was fitted with hemoglobin concentration as the dependent variable and ethnicity as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0213||||0.6434|TWO_SIDED||||||Regression, Linear|||||||0.6434
92246560|NCT05127044|184396673|OTHER|A simple linear regression model was fitted with hemoglobin concentration as the dependent variable and weight as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0477||||0.1544|TWO_SIDED||||||Regression, Linear|||||||0.1544
92246561|NCT05127044|184396673|OTHER|A simple linear regression model was fitted with hemoglobin concentration as the dependent variable and gestational age as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.1528||||0.0087|TWO_SIDED||||||Regression, Linear|||||||0.0087
92282646|NCT05065502|184469027|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.83|0.42||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of of high-risk DOAC use attributable to chronic kidney disease for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6), ), controlling for the pre-baseline period (months 0 to 6).||0.42|-0.83|
92282647|NCT05065502|184469028|SUPERIORITY||Mean Difference (Net)|0.32|||||TWO_SIDED|95.0|-0.08|0.72||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of high-risk DOAC use attributable to weight for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6).||0.72|-0.08|
92282648|NCT05065502|184469029|SUPERIORITY||Mean Difference (Net)|-0.18|||||TWO_SIDED|95.0|-0.7|0.33||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of high-risk DOAC use attributable to mis-dosing for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6).||0.33|-0.70|
92282649|NCT05065502|184469030|SUPERIORITY||Mean Difference (Net)|0.01007|||||TWO_SIDED|95.0|-0.02415|0.04429||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of CBTI receipt for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6)||0.04429|-0.02415|
92282650|NCT05065502|184469033|SUPERIORITY||Mean Difference (Net)|-0.0837|||||TWO_SIDED|95.0|-0.21014|0.04275||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of PIMs for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6).||0.04275|-0.21014|
92282651|NCT05065502|184469034|SUPERIORITY||Mean Difference (Net)|0.102|||||TWO_SIDED|95.0|-0.216|0.42||||||||0.420|-0.216|
92282652|NCT05065502|184469035|SUPERIORITY||Mean Difference (Net)|-0.0389|||||TWO_SIDED|95.0|-0.555|0.477||||||||0.477|-0.555|
92282653|NCT05065502|184469036|SUPERIORITY||Mean Difference (Net)|0.101|||||TWO_SIDED|95.0|-0.25|0.452||||||||0.452|-0.250|
92282654|NCT05065502|184469037|SUPERIORITY||Mean Difference (Net)|-0.0428|||||TWO_SIDED|95.0|-0.339|0.254||||||||0.254|-0.339|
92282655|NCT00796822|184469043|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87|STANDARD_DEVIATION|1.09||0.44|TWO_SIDED|95.0|-1.53|3.28|||t-test, 2 sided|||The sample size was determined based on a two-sample, independent, two-tailed t-test with 5% type I error. Using the results from our pilot trial, we conservatively estimated a predicted absolute change in FMD of 3.5% with PTX (assuming no change with placebo) and we assumed a common standard deviation of 2.6%. A sample size of 10 per group was estimated to provide at least 80% power to detect this effect size. Allowing for a 20% dropout rate, we planned to recruit 13 subjects per group.||3.28|-1.53|0.44
92282656|NCT00796822|184469044|SUPERIORITY|There was no formal power calculation for this outcome measure as the study was powered on the primary outcome measure.|Median Difference (Net)|149.1|STANDARD_DEVIATION|151.8||0.03|TWO_SIDED|95.0|16.4|281.9|||t-test, 2 sided|||||281.9|16.4|0.03
92282657|NCT02096718|184469045|SUPERIORITY_OR_OTHER||Ratio of gmeans|122.23|STANDARD_DEVIATION|28.3|||TWO_SIDED|90.0|95.743|156.045|||ANOVA||Relative bioavailability comparison of afatinib for moderate vs. normal matched with moderate patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||156.045|95.743|
92282658|NCT02096718|184469045|SUPERIORITY_OR_OTHER||Ratio of gmeans|149.97|STANDARD_DEVIATION|41.9|||TWO_SIDED|90.0|105.266|213.671|||ANOVA||Relative bioavailability comparison of afatinib for severe vs. normal matched with severe patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||213.671|105.266|
92282659|NCT02096718|184469046|SUPERIORITY_OR_OTHER||Ratio of gmeans|101.16|STANDARD_DEVIATION|38.5|||TWO_SIDED|90.0|72.931|140.309|||ANOVA||Relative bioavailability comparison of afatinib for moderate vs. normal matched with moderate patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||140.309|72.931|
92246562|NCT05127044|184396674|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between melanin concentration and weight.|Pearson Correlation Coefficient|-0.1552||||0.3143|TWO_SIDED||||||Linear correlation|||||||0.3143
92246563|NCT05127044|184396674|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between melanin concentration and gestational age.|Pearson Correlation Coefficient|-0.0832||||0.5914|TWO_SIDED||||||Linear correlation|||||||0.5914
92246564|NCT05127044|184396674|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and sex as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.000665||||0.868|TWO_SIDED||||||Regression, Linear|||||||0.868
92246565|NCT05127044|184396674|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and ethnicity as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.574||||0.0001|TWO_SIDED||||||Regression, Linear|||||||0.0001
92282660|NCT02096718|184469046|SUPERIORITY_OR_OTHER||Ratio of gmeans|121.71|STANDARD_DEVIATION|34.2|||TWO_SIDED|90.0|90.79|163.162|||ANOVA||Relative bioavailability comparison of afatinib for severe vs. normal matched with severe patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||163.162|90.790|
92282661|NCT02096718|184469047|SUPERIORITY_OR_OTHER||Ratio of gmeans|122.44|STANDARD_DEVIATION|28.0|||TWO_SIDED|90.0|96.141|155.928|||ANOVA||Relative bioavailability comparison of afatinib for moderate vs. normal matched with moderate patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||155.928|96.141|
92287259|NCT03086460|184479329|SUPERIORITY||Hazard Ratio (HR)|22.91|||<|0.001|TWO_SIDED|95.0|5.7|92.06|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||92.06|5.70|<0.001
92246566|NCT05127044|184396674|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and weight as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0241||||0.3143|TWO_SIDED||||||Regression, Linear|||||||0.3143
92246567|NCT05127044|184396674|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and gestational age as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0069||||0.5914|TWO_SIDED||||||Regression, Linear|||||||0.5914
92282662|NCT02096718|184469047|SUPERIORITY_OR_OTHER||Ratio of gmeans|150.08|STANDARD_DEVIATION|41.5|||TWO_SIDED|90.0|105.626|213.25|||ANOVA||Relative bioavailability comparison of afatinib for severe vs. normal matched with severe patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||213.250|105.626|
92246568|NCT05127044|184396675|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between bilirubin concentration and weight.|Pearson Correlation Coefficient|-0.0353||||0.8203|TWO_SIDED||||||Linear correlation|||||||0.8203
92282663|NCT03682900|184469048|SUPERIORITY||||||=|0||||||A one tailed test was used, as the intervention is expected to be superior than the control group. The criterion for significance was p \<. 05.|Mixed Models Analysis|There were no adjustments made for multiple comparisons.||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||= .000
92246569|NCT05127044|184396675|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between bilirubin concentration and gestational age.|Pearson Correlation Coefficient|0.595||||0.0001|TWO_SIDED||||||Linear correlation|||||||0.0001
92246570|NCT05127044|184396675|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and sex as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0363||||0.2156|TWO_SIDED||||||Regression, Linear|||||||0.2156
92246571|NCT05127044|184396675|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and ethnicity as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.2172||||0.0066|TWO_SIDED||||||Regression, Linear|||||||0.0066
92246572|NCT05127044|184396675|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and weight as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.00124||||0.8203|TWO_SIDED||||||Regression, Linear|||||||0.8203
92175153|NCT03896789|184242369|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.95|TWO_SIDED|95.0|-3.3|3.5||The primary outcome was analyzed using a multi-level mixed-effects model, which included a random effect for site (to account for potential provider clustering) and fixed effects for covariates.|Mixed Models Analysis|Included covariates were age, gender, head maximum AIS, non-head maximum AIS, nurse: patient ratio and baseline TBI guideline adherence scores.||"Null hypothesis: Assuming no difference between usual care (control) and PEGASUS (intervention).~We used 2011-2012 results from prior pilot work in Argentina (58.6% TBI guideline adherence) to determine a sample size of 432 eligible patients (216 per arm) for the planned parallel cluster RCT, which would have 80% power to detect a 18.7% higher ICU TBI guideline adherence rate with programme implementation, with a two-sided alpha of 5%, and an intraclass coefficient of 0.05."||3.5|-3.3|.95
92175154|NCT03896789|184242375|SUPERIORITY||Mean Difference (Final Values)|7.9||||0.01|TWO_SIDED|95.0|1.9|13.8||The outcome was analyzed using a multi-level mixed-effects model, which included a random effect for site (to account for potential provider clustering) and fixed effects for covariates.|Mixed Models Analysis|Included covariates were age, gender, head maximum AIS, non-head maximum AIS, nurse: patient ratio and baseline TBI guideline adherence scores.||||13.8|1.9|.01
92175155|NCT04473222|184242387|SUPERIORITY||Odds Ratio, log|-0.15||||0.026|TWO_SIDED||||||t-test, 2 sided||The logit represents the difference in log odds per 1-week change in time for the intervention group relative to enhanced usual care.|||||.026
92175156|NCT04473222|184242388|SUPERIORITY||Odds Ratio, log|-0.2||||0.032|TWO_SIDED||||||t-test, 2 sided||The logit represents the difference in log odds per 1-week change in time for the intervention group relative to enhanced usual care.|||||0.032
92175157|NCT04473222|184242389|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.009||0.01|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||.010
92175158|NCT04473222|184242390|SUPERIORITY||Slope|0.009|STANDARD_ERROR_OF_MEAN|0.009||0.161|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.161
92175159|NCT04473222|184242391|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.01||0.006|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.006
92175160|NCT04473222|184242392|SUPERIORITY||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.04||0.045|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.045
92175161|NCT04473222|184242393|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.685|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.685
92175162|NCT04473222|184242394|SUPERIORITY||Slope|0.42|STANDARD_ERROR_OF_MEAN|1.22||0.734|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.734
92175163|NCT04473222|184242395|SUPERIORITY||Slope|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.019|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.019
92175164|NCT04473222|184242396|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.776|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.776
92175165|NCT01098812|184242397|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|43.0|STANDARD_DEVIATION|75.0|<|0.0001|ONE_SIDED|90.0|25.0|||Primary study endpoint; therefore, no adjustment for multiple comparisons. The planned alpha level for testing was 0.025.|t-test, 1 sided|||Toric IOL results for mean percent reduction in cyl compared to control results at 6 months. Null hypothesis = mean reduction for toric eyes is \<= to that of control eyes; alternate hypothesis = mean reduction for toric eyes is \> the control. There is 80% power to detect \>=31% difference in mean percent reduction in cylinder (postoperative refractive cylinder minus preoperative keratometric cylinder)/(target refractive cylinder minus preoperative keratometric cylinder) between IOL groups.|||25|<0.0001
92175166|NCT01098812|184242398|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_DEVIATION|0.15||0.0009|ONE_SIDED|90.0||-0.03||P-value compared to alpha level adjusted for multiplicity of 0.0125.|t-test, 1 sided|||Used LogMAR values for visual acuity; The null hypothesis is that the mean UCDVA for toric eyes is worse than or equal to that for control eyes; the alternate hypothesis is that the mean UCDVA for toric eyes is better than that for control eyes. There is 80% power to detect \>=0.06 LogMAR difference in mean UCDVA between IOL groups.||-0.03||0.0009
92175167|NCT04908722|184242399|NON_INFERIORITY|Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.15|||||TWO_SIDED|97.5|0.926|1.44||||||Group 1 (1 dose) vs Group 3 (1 dose)||1.440|0.926|
92175168|NCT04908722|184242399|NON_INFERIORITY|Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|0.8||||||97.5|0.641|1.0||||||Group 5 (1 dose) vs Group 3 (1 dose)||1.00|0.641|
92175169|NCT04908722|184242399|NON_INFERIORITY|Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.07|||||TWO_SIDED|97.5|0.844|1.356||||||Group 2 (1 dose) vs Group 3 (1 dose)||1.356|0.844|
92175170|NCT04908722|184242399|NON_INFERIORITY|Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|0.94|||||TWO_SIDED|97.5|0.742|1.193||||||Group 4 (1 dose) vs Group 3 (1 dose)||1.193|0.742|
92246573|NCT05127044|184396675|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and gestational age as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.354||||0.0001|TWO_SIDED||||||Regression, Linear|||||||0.0001
92246574|NCT00400712|184396705|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||ANCOVA|Examined whether there were differences between groups at 1 year with baseline measures serving as the covariate with a two-sided alpha of 0.05||||||0.44
92246575|NCT00400712|184396706|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|||||Examined whether there were differences between groups at 1 year with baseline measures serving as the covariate with a two-sided alpha of 0.05|ANCOVA|||||||0.83
92282664|NCT03682900|184469049|SUPERIORITY||||||=|0||||||"The a prior threshold for statistical significance is set at p\<.05; one tailed test, as the intervention is expected to be superior than the control group.~The p-value is not adjusted for multiple comparisons."|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition||||= .000
92282665|NCT03682900|184469050|SUPERIORITY||||||=|0.044||||||"The a prior threshold for statistical significance is set at p\<.05; one tailed test, as the intervention is expected to be superior than the control group.~The p-value is not adjusted for multiple comparisons."|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||=.044
92282666|NCT03682900|184469051|SUPERIORITY||||||=|0.033||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for significance is p\<.05.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||=.033
92282667|NCT03682900|184469052|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282668|NCT03682900|184469053|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282669|NCT03682900|184469054|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282670|NCT03682900|184469055|SUPERIORITY||||||<|0.001||||||"The a prior threshold for statistical significance is set at p\<.05; one tailed test, as the intervention is expected to be superior than the control group.~The p-value is not adjusted for multiple comparisons."|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282671|NCT03682900|184469056|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282672|NCT03682900|184469057|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were anlyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282673|NCT03682900|184469058|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282674|NCT03682900|184469059|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were anlyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282675|NCT03682900|184469060|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a gneral linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282676|NCT03682900|184469061|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were anlayzed using a general linear mixed model with students nested within schools and schools within condition.||||<.001
92246576|NCT00400712|184396707|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||ANCOVA|||ANCOVA - comparing absolute measures and including baseline as co-variate||||0.45
92246577|NCT00400712|184396708|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||ANCOVA|adjusted for baseline values||||||0.72
92246578|NCT00400712|184396709|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||ANCOVA|controlled for baseline values||||||0.60
92246579|NCT00400712|184396710|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED|||||Examined whether there were differences between groups at 1 year with baseline measures serving as the covariate with a two-sided alpha of 0.05|ANCOVA|||||||0.66
92246580|NCT00400712|184396711|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED|||||Examined whether there were differences between groups at 1 year with baseline measures serving as the covariate with a two-sided alpha of 0.05|ANCOVA|||||||0.78
92246581|NCT00383721|184396846|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92246582|NCT00383721|184396846|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92175171|NCT04908722|184242399|NON_INFERIORITY|Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|0.81|||||TWO_SIDED|97.5|0.648|1.007||||||Group 6 (1 dose) vs Group 3 (1 dose)||1.007|0.648|
92175172|NCT04908722|184242400|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|2.53|||||TWO_SIDED|97.5|1.992|3.207||||||Group 1 (2 doses) vs Group 3 (1 dose)||3.207|1.992|
92246583|NCT00383721|184396847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||ANCOVA|||||||0.062
92246584|NCT00383721|184396847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.583|||||||ANCOVA|||||||0.583
92246585|NCT00383721|184396848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||ANCOVA|||||||0.020
92246586|NCT00383721|184396848|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
92246587|NCT00781963|184396862|SUPERIORITY||Mean Difference (Final Values)|-15.8|STANDARD_ERROR_OF_MEAN|6.6|<|0.001|TWO_SIDED|95.0|-28.7|-3.0|||Mixed Models Analysis||The parameter estimate is the improvement in sleep onset latency from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||-3.0|-28.7|<.001
92246588|NCT00781963|184396863|SUPERIORITY||Mean Difference (Final Values)|-10.2|STANDARD_ERROR_OF_MEAN|8.2||0.21|TWO_SIDED|95.0|-26.3|5.9|||Mixed Models Analysis||The parameter estimate is the improvement in wake after sleep onset from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||5.9|-26.3|0.21
92282677|NCT03682900|184469062|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. Apriori, a p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed uisng a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282678|NCT03682900|184469063|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is a priori considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear model with students nested within schools and schools nested within condition.||||<.001
92246589|NCT00781963|184396864|SUPERIORITY||Mean Difference (Final Values)|-37.0|STANDARD_ERROR_OF_MEAN|12.9||0.004|TWO_SIDED|95.0|-62.2|-11.7|||Mixed Models Analysis||The parameter estimate is the improvement in total wake time from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||-11.7|-62.2|0.004
92246590|NCT00781963|184396865|SUPERIORITY||Mean Difference (Final Values)|6.7|STANDARD_ERROR_OF_MEAN|2.36||0.005|TWO_SIDED|95.0|2.0|11.3|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||11.3|2.0|.005
92246591|NCT00781963|184396866|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.97||0.15|TWO_SIDED|95.0|-3.3|0.5|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency (from wrist actigraphy) from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||0.5|-3.3|0.15
92246592|NCT00781963|184396867|SUPERIORITY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|-3.5|-1.3|||Mixed Models Analysis||The parameter estimate is the improvement in PSQI score from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||-1.3|-3.5|<.001
92246593|NCT02700919|184396868|SUPERIORITY|||||||0.012|||||||Log Rank|||Change from Baseline on Day 7||||0.012
92246594|NCT02700919|184396868|SUPERIORITY||||||<|0.001|||||||Log Rank|||Change from Baseline on Day 7||||<0.001
92246595|NCT02700919|184396868|SUPERIORITY|||||||0.102|||||||Log Rank|||Change from Baseline on Day 7||||0.102
92246596|NCT02700919|184396868|SUPERIORITY||Mean Difference (Final Values)|0.027||||0.507|TWO_SIDED|95.0|-0.053|0.107|||Mixed Models Analysis|||Day 7||0.107|-0.053|0.507
92246597|NCT02700919|184396868|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.148|TWO_SIDED|95.0|-0.021|0.136|||Mixed Models Analysis|||Day 7||0.136|-0.021|0.148
92246598|NCT02700919|184396868|SUPERIORITY||Mean Difference (Final Values)|-0.031||||0.443|TWO_SIDED|95.0|-0.109|0.048|||Mixed Models Analysis|||Day 7||0.048|-0.109|0.443
92246599|NCT02700919|184396872|SUPERIORITY|||||||0.399|||||||Log Rank|||||||0.399
92246600|NCT02700919|184396872|SUPERIORITY|||||||0.091|||||||Log Rank|||||||0.091
92246601|NCT02700919|184396872|SUPERIORITY|||||||0.437|||||||Log Rank|||||||0.437
92246602|NCT02700919|184396876|SUPERIORITY|||||||0.72|||||||Log Rank|||||||0.720
92246603|NCT02700919|184396876|SUPERIORITY|||||||0.298|||||||Log Rank|||||||0.298
92246604|NCT02700919|184396876|SUPERIORITY|||||||0.47|||||||Log Rank|||||||0.470
92246605|NCT00132314|184396896|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.39|TWO_SIDED|95.0|0.63|1.2|||Log Rank|||Time-to-event analysis; The primary outcome hypothesis is tested using a two-sided log-rank test to compare the hazard rate for the IM treatment group to that for the oral treatment group.||1.20|0.63|0.39
92246606|NCT00132314|184396897|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.63|1.2||95% Confidence Interval: 0.63 to 1.20|Regression, Cox|||||1.20|0.63|
92246607|NCT00698035|184396967|SUPERIORITY_OR_OTHER||||||>|0.05||||||Significant at p\<0.05|t-test, 2 sided|||Comparison of baseline estradiol between LC/MS and RIA||||>0.05
92246608|NCT00698035|184396967|SUPERIORITY_OR_OTHER||||||>|0.05||||||singificant at p\<0.05|t-test, 2 sided|||Comparison of week 4 estradiol between LC/MS and RIA||||>0.05
92246609|NCT00698035|184396970|SUPERIORITY_OR_OTHER|||||||0.021||||||Significant at p\<0.05|t-test, 2 sided|||Change in SI from BL to W12||||0.021
92246610|NCT00698035|184396970|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significant at p\<0.05|t-test, 2 sided|||Change in SD from BL to W12||||<0.001
92246611|NCT00698035|184396970|SUPERIORITY_OR_OTHER|||||||0.0228||||||Significant at p\<0.05|t-test, 2 sided|||Change in SI from BL to W12||||0.0228
92246612|NCT00698035|184396970|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significant at p\<0.05|t-test, 2 sided|||Change in SD from BL to W12||||<0.001
92246613|NCT00698035|184396971|SUPERIORITY_OR_OTHER|||||||0.004||||||Significant at p\<0.05|t-test, 2 sided|||Change in SS from Baseline to Week 12||||0.004
92246614|NCT00698035|184396971|SUPERIORITY_OR_OTHER|||||||0.139||||||Significant at p\<0.05|t-test, 2 sided|||Change in SS from Baseline to Week 12||||0.139
92246615|NCT00698035|184396972|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significant at p\<0.05|t-test, 2 sided|||Differences in rugae, pallor, petechiae, mucosal thinning and dryness between baseline and week 12||||<0.001
92246616|NCT00698035|184396972|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significant at p\<0.05|t-test, 2 sided|||Differences in rugae, pallor, mucosal thinning, and dryness from baseline to 12 weeks||||<0.001
92246617|NCT00698035|184396972|SUPERIORITY_OR_OTHER|||||||0.0061||||||Significant at p\<0.05|t-test, 2 sided|||Difference in petechiae between baseline and week 12||||0.0061
92246618|NCT00654953|184396981|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|degrees of freedom for medication group = 2 (group)||The analysis tested the null hypothesis of no difference among groups in terms of the # of days to relapse (first two conseqcutively positive urines) using ANOVA.||||0.05
92282679|NCT03682900|184469064|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92175173|NCT04908722|184242400|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.41|||||TWO_SIDED|97.5|1.088|1.815||||||Group 1 (2 doses) vs Group 3 (2 doses)||1.815|1.088|
92175174|NCT04908722|184242400|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.79|||||TWO_SIDED|97.5|1.408|2.265||||||Group 5 (2 doses) vs Group 3 (1 dose)||2.265|1.408|
92175175|NCT04908722|184242400|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|0.99|||||TWO_SIDED|97.5|0.769|1.282||||||Group 5 (2 doses) vs Group 3 (2 doses)||1.282|0.769|
92246619|NCT03779334|184397002|SUPERIORITY||||||<|0.0001|||||||Exact Binomial Test|Performance Criterion = 5%||||||<0.0001
92246620|NCT06533475|184397030|OTHER||GLSM Ratio|1.018|||||TWO_SIDED|90.0|0.9624|1.076|||||The GLSM ratio was calculated: Minzasolmin tablet (Fasted)/ Minzasolmin Capsule (Fasted)|||1.076|0.9624|
92246621|NCT06533475|184397030|OTHER||GLSM Ratio|1.075|||||TWO_SIDED|90.0|1.024|1.13|||||"The GLSM ratio was calculated as:~Minzasolmin Tablet (Fed)/Minzasolmin Tablet (Fasted)."|||1.130|1.024|
92246622|NCT06533475|184397031|OTHER||GLSM Ratio|1.02|||||TWO_SIDED|90.0|0.9649|1.078|||||The GLSM ratio was calculated as: Minzasolmin tablet (Fasted)/ Minzasolmin Capsule (Fasted)|||1.078|0.9649|
92246623|NCT06533475|184397031|OTHER||GLSM Ratio|1.073|||||TWO_SIDED|90.0|1.021|1.127|||||"The GLSM ratio was calculated as:~Minzasolmin Tablet (Fed)/Minzasolmin Tablet (Fasted)."|||1.127|1.021|
92287260|NCT03086460|184479329|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.195|TWO_SIDED|95.0|0.75|4.13|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||4.13|0.75|0.195
92175176|NCT04908722|184242400|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|2.37|||||TWO_SIDED|97.5|1.829|3.007||||||Group 2 (2 doses) vs Group 3 (1 dose)||3.007|1.829|
92175177|NCT04908722|184242400|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.32|||||TWO_SIDED|97.5|1.0|1.739||||||Group 2 (2 doses) vs Group 3 (2 doses)||1.739|1.000|
92175178|NCT04908722|184242400|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|2.2|||||TWO_SIDED|97.5|1.697|2.841||||||Group 4 (2 doses) vs Group 3 (1 dose)||2.841|1.697|
92175179|NCT04908722|184242400|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.22|||||TWO_SIDED|97.5|0.928|1.606||||||Group 4 (2 doses) vs Group 3 (2 doses)||1.606|0.928|
92246624|NCT06533475|184397032|OTHER||GLSM Ratio|0.9771||||||90.0|0.7966|1.199|||||The GLSM ratio was calculated as: Minzasolmin tablet (Fasted)/ Minzasolmin Capsule (Fasted)|||1.199|0.7966|
92246625|NCT06533475|184397032|OTHER||GLSM Ratio|1.016|||||TWO_SIDED|90.0|0.794|1.299|||||The GLSM ratio was calculated as: Minzasolmin tablet (Fed)/ Minzasolmin tablet (Fasted)|||1.299|0.7940|
92246626|NCT01840228|184397036|SUPERIORITY||Risk Ratio (RR)|1.1||||0.74|TWO_SIDED|95.0|0.63|1.91|||Chi-squared|||||1.91|0.63|0.74
92246627|NCT01840228|184397037|SUPERIORITY||Risk Ratio (RR)|0.43||||0.13|TWO_SIDED|95.0|0.14|1.36|||Fisher Exact|||||1.36|0.14|0.13
92246628|NCT01840228|184397038|SUPERIORITY||Risk Ratio (RR)|1.5||||0.71|TWO_SIDED|95.0|0.51|4.43|||Fisher Exact|||||4.43|0.51|0.71
92246629|NCT01840228|184397039|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
92264958|NCT01598831|184431345|SUPERIORITY||Risk Difference (RD)|-2.55||||0.318|TWO_SIDED|95.0|-3.68|8.77||The threshold for statistical significance was a two sided 5%|Cochran-Mantel-Haenszel|CMH test controlled for the stratification factor.|Rates by Arm are 26.8% for ART-123 and 29.4% for Placebo||In a post hoc sensitivity analysis for the primary outcome that accounted for pooled site as a random effect, the adjusted 28-day all-cause mortality rate was 24.8%in the rhsTM group vs 27.5%in the placebo group (P = .31).|8.77|-3.68|0.318
92282680|NCT03682900|184469065|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282681|NCT03682900|184469066|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were anlyzed using a general linear model mixed model with students nested within schools and schools nested within condition.||||<.001
92282682|NCT03682900|184469067|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92282683|NCT03682900|184469068|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schols and schools nested within condition.||||<.001
92282684|NCT03682900|184469069|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
92246630|NCT01413542|184397048|SUPERIORITY_OR_OTHER||Estimate of Difference||||<|0.001|TWO_SIDED|||||Effect of ACE inhibition on FBF response to bradykinin (p\<0.001). Other comparisons: Effect of DPP4 inhibition on FBF response to bradykinin (p=0.89); Effect of ACE (p=0.16), DPP4 (p=0.82), or combined inhibition (p=0.35) on FBF response to sub P.|Mixed Models Analysis|"Effect of DPP4 inhibition on vasodilator response to GLP-1 (p=0.14) or BNP (p=0.85).~p\<0.05 threshold for statistical significance."||"Group 1: The effect of treatment (placebo, ACE or DPP4 inhibitor, or the combination) on vasodilator response to peptide, measured as forearm blood flow was determined.~Group 2: The effect of treatment (placebo, DPP4 inhibitor) on vasodilator response to peptide, measured as percent change in forearm blood flow was determined."||||<0.001
92246631|NCT01413542|184397049|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Effect of DPP4 inhibition on tPA release during sub P in women (p=0.02 vs. placebo).Effect of ACE inhibition on tPA release during sub P in women (p\<0.001); effect of DPP4 inhibition on tPA release during sub P and (p=0.001 vs. ACE inhibition alone).|Mixed Models Analysis|p\<0.05 threshold for statistical significance||||||0.02
92246632|NCT01413542|184397050|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||Effect of combined ACE and DPP4 inhibition on change in heart rate in response to max dose substance P (p=0.011 vs placebo; ).|Wilcoxon signed rank|p\<0.05 threshold for statistical significance.||||||0.011
92246633|NCT01413542|184397051|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|||||Effect of combined DPP4 and ACE inhibition on the change in the norepinephrine AV gradient during substance P as compared to treatment with placebo.|Wilcoxon signed rank|||||||0.05
92282685|NCT06354270|184469070|SUPERIORITY||Adjusted Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.111|<|0.0001|TWO_SIDED|95.0|-1.29|-0.85|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|||-0.85|-1.29|<0.0001
92282686|NCT06354270|184469071|SUPERIORITY||Adjusted Mean Difference|36.72|STANDARD_ERROR_OF_MEAN|3.319|<|0.0001|TWO_SIDED|95.0|30.14|43.29|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|||43.29|30.14|<0.0001
92282687|NCT06354270|184469072|SUPERIORITY||Adjusted Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.083|<|0.0001|TWO_SIDED|95.0|-0.79|-0.46|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|||-0.46|-0.79|<0.0001
92282688|NCT06354270|184469073|SUPERIORITY||Adjusted Mean Difference|14.31|STANDARD_ERROR_OF_MEAN|2.128|<|0.0001|TWO_SIDED|95.0|10.09|18.52|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|||18.52|10.09|<0.0001
92282689|NCT06354270|184469074|SUPERIORITY||Adjusted Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.252||0.196|TWO_SIDED|95.0|-0.83|0.17|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q7 (How intense are the sensations?): Change from Baseline at Day 28||0.17|-0.83|0.1960
92246634|NCT01413542|184397051|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|||||Effect of combined DPP4 and ACE inhibition on the change in the norepinephrine AV gradient during substance P as compared to treatment with ACE inhibition alone (p=0.007).|Wilcoxon signed rank|||||||0.007
92246635|NCT01413542|184397052|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||Effect of intra-arterial GLP-1 on venous GLP-1 concentrations during placebo (p=0.01).|wilxocon signed rank test|||||||0.01
92246636|NCT01413542|184397052|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||Effect of intra-arterial GLP-1 on venous GLP-1 concentrations during sitagliptin (p=0.01).|Wilcoxon signed rank|||||||0.01
92282690|NCT06354270|184469074|SUPERIORITY||Adjusted Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.344||0.2287|TWO_SIDED|95.0|-1.08|0.28|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q7 (How intense are the sensations?): Change from Baseline at Day 56||0.28|-1.08|0.2287
92282691|NCT06354270|184469074|SUPERIORITY||Adjusted Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.28||0.235|TWO_SIDED|95.0|-0.89|0.22|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q8 (How bothered are you by any sensations?): Change from Baseline at Day 28||0.22|-0.89|0.2350
92282692|NCT06354270|184469074|SUPERIORITY||Adjusted Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.328||0.1818|TWO_SIDED|95.0|-1.09|0.21|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q8 (How bothered are you by any sensations?): Change from Baseline at Day 56||0.21|-1.09|0.1818
92282693|NCT06354270|184469074|SUPERIORITY||Adjusted Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.357||0.1316|TWO_SIDED|95.0|-1.25|0.17|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q9 (How well can you tolerate sensations?): Change from Baseline at Day 28||0.17|-1.25|0.1316
92282694|NCT06354270|184469074|SUPERIORITY||Adjusted Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.417||0.0658|TWO_SIDED|95.0|-1.6|0.05|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q9 (How well can you tolerate sensations?): Change from Baseline at Day 56||0.05|-1.60|0.0658
92282695|NCT06354270|184469075|SUPERIORITY||Adjusted Mean Difference|1.19|STANDARD_ERROR_OF_MEAN|4.862||0.8072|TWO_SIDED|95.0|-8.45|10.83|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||10.83|-8.45|0.8072
92282696|NCT06354270|184469075|SUPERIORITY||Adjusted Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|6.175||0.9641|TWO_SIDED|95.0|-11.96|12.52|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||12.52|-11.96|0.9641
92246637|NCT01413542|184397052|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||Effect of DPP4 inhibition on venous GLP-1 levels at high dose of intra-arterial GLP-1 (p=0.04 vs. placebo).|Wilcoxon signed rank|||||||0.04
92282697|NCT06354270|184469076|SUPERIORITY||Adjusted Mean Difference|0.86|STANDARD_ERROR_OF_MEAN|0.75||0.2538|TWO_SIDED|95.0|-0.63|2.35|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||2.35|-0.63|0.2538
92282698|NCT06354270|184469076|SUPERIORITY||Adjusted Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.922||0.7311|TWO_SIDED|95.0|-2.15|1.51|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||1.51|-2.15|0.7311
92246638|NCT01148563|184397053|SUPERIORITY||Risk Ratio, log|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.094|TWO_SIDED|95.0|-0.65|0.05|||bootstrapping||The hypothesis test was based on ln(relative risk), with the tele-monitoring group value as the relative risk numerator and the control group value as the denominator. The standard error was generated by bootstrapping the sample.|||0.05|-0.65|0.094
92246639|NCT01148563|184397054|SUPERIORITY||Risk Ratio, log|0.7|STANDARD_ERROR_OF_MEAN|0.22||0.105|TWO_SIDED|95.0|0.45|1.08|||bootstrapping|The standard error was generated by bootstrapping the sample.|The hypothesis test was based on ln(relative risk) with the tele-monitoring group value as the numerator and the control group as the denominator.|||1.08|0.45|0.105
92282699|NCT06354270|184469077|SUPERIORITY||Adjusted Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|2.162||0.7202|TWO_SIDED|95.0|-3.51|5.06|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||5.06|-3.51|0.7202
92282700|NCT06354270|184469077|SUPERIORITY||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|2.532||0.9859|TWO_SIDED|95.0|-5.06|4.98|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||4.98|-5.06|0.9859
92282701|NCT06354270|184469078|SUPERIORITY||Adjusted Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.78||0.5586|TWO_SIDED|95.0|-2.0|1.09|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||1.09|-2.00|0.5586
92282702|NCT06354270|184469078|SUPERIORITY||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.961||0.873|TWO_SIDED|95.0|-2.06|1.75|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||1.75|-2.06|0.8730
92282703|NCT06354270|184469079|SUPERIORITY||Adjusted Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|1.383||0.6191|TWO_SIDED|95.0|-3.43|2.05|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||2.05|-3.43|0.6191
92282704|NCT06354270|184469079|SUPERIORITY||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.669||0.9521|TWO_SIDED|95.0|-3.41|3.21|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||3.21|-3.41|0.9521
92282705|NCT06354270|184469080|SUPERIORITY||Adjusted Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.795||0.3887|TWO_SIDED|95.0|-0.89|2.26|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||2.26|-0.89|0.3887
92282706|NCT06354270|184469080|SUPERIORITY||Adjusted Mean Difference|0.88|STANDARD_ERROR_OF_MEAN|0.989||0.373|TWO_SIDED|95.0|-1.08|2.84|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||2.84|-1.08|0.3730
92246640|NCT03641547|184397059|OTHER||Post prob of tox at dose level 6|0.029|||||TWO_SIDED|95.0|0.0|0.165||||||The primary analysis is performed using the Time-To-Event Continual Reassessment Method (TiTE-CRM). Giving posterior estimates for the probability of toxicity (DLT) at each dose level.||0.165|0|
92282707|NCT06354270|184469081|SUPERIORITY||Adjusted Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.134||0.1591|TWO_SIDED|95.0|-0.08|0.46|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||0.46|-0.08|0.1591
92282708|NCT06354270|184469081|SUPERIORITY||Adjusted Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.144||0.3429|TWO_SIDED|95.0|-0.15|0.42|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||0.42|-0.15|0.3429
92282709|NCT06354270|184469082|SUPERIORITY||Adjusted Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.411||0.136|TWO_SIDED|95.0|-1.43|0.2|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||0.20|-1.43|0.1360
92282710|NCT06354270|184469082|SUPERIORITY||Adjusted Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.431||0.2914|TWO_SIDED|95.0|-1.31|0.4|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||0.40|-1.31|0.2914
92282711|NCT05097989|184469083|OTHER||Percentage Difference|-17.7||||0.2422|TWO_SIDED|90.0|-37.5|8.3|||ANCOVA|||||8.3|-37.5|0.2422
92282712|NCT05097989|184469083|OTHER||Percentage Difference|-6.0||||0.8701|TWO_SIDED|90.0|-49.3|74.4|||ANCOVA|||||74.4|-49.3|0.8701
92282713|NCT02809183|184469098|OTHER|Single-group test|Group LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.5547|TWO_SIDED|95.0|-0.9|0.5||The null hypothesis is that the mean change from baseline within the Pooled Placebo treatment group = 0 mEq/L.|Mixed Models Analysis|||||0.5|-0.9|0.5547
92282714|NCT02809183|184469098|OTHER|Single-group test|Group LS mean|3.2|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.4|4.0||The null hypothesis is that the mean change from baseline within the 1.5g TRC101 BID group = 0 mEq/L|Mixed Models Analysis|||The null hypothesis is that the mean change from baseline within the 1.5g TRC101 BID treatment group = 0 mEq/L.||4.0|2.4|< 0.0001
92282715|NCT02809183|184469098|OTHER|Single-group test|Group LS mean|3.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.2|3.8||The null hypothesis is the 3g TRC101 BID treatment group mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||3.8|2.2|< 0.0001
92282716|NCT02809183|184469098|OTHER|Single-group test|Group LS mean|3.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.9|4.5||The null hypothesis is the 4.5g TRC101 BID treatment group mean change from baseline = 0 mEq/L|Mixed Models Analysis|||||4.5|2.9|< 0.0001
92282717|NCT02809183|184469099|OTHER|Two-group test|Difference between group LS means|3.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|2.3|4.5||The null hypothesis is the difference between treatment groups (1.5g TRC101 BID - Pooled Placebo) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||4.5|2.3|< 0.0001
92282718|NCT02809183|184469099|OTHER|Two-group test|Difference between group LS means|3.2|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|2.2|4.3||The null hypothesis is the difference between treatment groups (3g TRC101 BID - Pooled Placebo) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||4.3|2.2|< 0.0001
92246641|NCT03641547|184397060|OTHER||Post prob of tox at dose level 4|0.185|||||TWO_SIDED|95.0|0.042|0.397||||||The primary analysis is performed using the Time-To-Event Continual Reassessment Method (TiTE CRM). Giving posterior estimates for the probability of toxicity (DLT) at each dose level.||0.397|0.042|
92246642|NCT02767856|184397071|EQUIVALENCE|The study did not enroll enough samples. The stats here are only for reference.|Mean Difference (Net)|0.04||||0.48|TWO_SIDED|95.0|-0.08|0.16|||t-test, 2 sided|||Baseline and primary visit outcome||0.16|-0.08|0.48
92246643|NCT02767856|184397072|EQUIVALENCE|The study did not reach the target sample size. the stats are for reference.|Mean Difference (Final Values)|0.12||||0.26|TWO_SIDED|95.0|-0.75|0.99|||t-test, 2 sided|||||0.99|-0.75|0.26
92246644|NCT02767856|184397073|EQUIVALENCE|The study did not reach the target sample size. The stats are for reference.|Mean Difference (Final Values)|26.3||||0.26|TWO_SIDED|95.0|-21.75|74.2|||t-test, 2 sided|||||74.20|-21.75|0.26
92246645|NCT02767856|184397074|EQUIVALENCE|The study did not reach the target sample size. The stats are for reference.|Mean Difference (Final Values)|11.1||||0.44|TWO_SIDED|95.0|-41.3|19.3|||t-test, 2 sided|||||19.3|-41.3|0.44
92282719|NCT02809183|184469099|OTHER|Two-group test|Difference between group LS means|3.9|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|2.9|5.0||The null hypothesis is the difference between the treatment groups (4.5g TRC101 BID - Pooled Placebo) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||5.0|2.9|< 0.0001
92282720|NCT02809183|184469100|OTHER|Single-group test|Group LS mean|3.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|3.0|3.7||The null hypothesis is that the mean change from baseline within the Combined TRC101 treatment group = 0 mEq/L.|Mixed Models Analysis|||||3.7|3.0|< 0.0001
92282721|NCT02809183|184469101|OTHER|Two-group test|Difference between group LS means|3.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.8|4.4||The null hypothesis is that the difference between treatment groups (Combined TRC101 - Pooled Placebo) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||4.4|2.8|< 0.0001
92282722|NCT02809183|184469102|OTHER|Two-group test|||||<|0.0001||||||The null hypothesis is that the difference between treatment groups (1.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 2 mEq/L = 0.|Fisher Exact|||||||< 0.0001
92282723|NCT02809183|184469102|OTHER|Two-group test|||||<|0.0001||||||The null hypothesis is that the difference between treatment groups (1.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 3 mEq/L = 0.|Fisher Exact|||||||< 0.0001
92282724|NCT02809183|184469102|OTHER|Two-group test||||||0.0074||||||The null hypothesis is that the difference between treatment groups (1.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 4 mEq/L = 0.|Fisher Exact|||||||0.0074
92282725|NCT02809183|184469102|OTHER|Two-group test||||||0.0012||||||The null hypothesis is that the difference between treatment groups (3g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 2 mEq/L = 0.|Fisher Exact|||||||0.0012
92282726|NCT02809183|184469102|OTHER|Two-group test||||||0.0032||||||The null hypothesis is that the difference between treatment groups (3g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 3 mEq/L = 0.|Fisher Exact|||||||0.0032
92282727|NCT02809183|184469102|OTHER|Two-group test||||||0.0013||||||The null hypothesis is that the difference between treatment groups (3g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 4 mEq/L = 0.|Fisher Exact|||||||0.0013
92282728|NCT02809183|184469102|OTHER|Two-group test|||||<|0.0001||||||The null hypothesis is that the difference between treatment groups (4.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 2 mEq/L = 0.|Fisher Exact|||||||< 0.0001
92282729|NCT02809183|184469102|OTHER|Two-group test|||||<|0.0001||||||The null hypothesis is that the difference between treatment groups (4.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 3 mEq/L = 0.|Fisher Exact|||||||< 0.0001
92282730|NCT02809183|184469102|OTHER|Two-group test|||||<|0.0006||||||The null hypothesis is that the difference between treatment groups (4.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 4 mEq/L = 0.|Fisher Exact|||||||< 0.0006
92282731|NCT02809183|184469103|OTHER|Single-group test|Group LS mean|3.5|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.7|4.2||The null hypothesis is that the mean change from baseline within the 6g TRC101 QD group = 0 mEq/L.|Mixed Models Analysis|||||4.2|2.7|<0.0001
92282732|NCT02809183|184469104|OTHER|Two-group test|Difference between group LS means|3.7|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|2.6|4.7||The null hypothesis is the difference between treatment groups (6g TRC101 QD - Pooled Placebo) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||4.7|2.6|<0.0001
92282733|NCT02809183|184469105|OTHER|Two-group test|Difference between group LS means|-0.5|STANDARD_ERROR_OF_MEAN|0.6||0.4214|TWO_SIDED|95.0|-1.6|0.7||The null hypothesis is that the difference between treatment groups (3g TRC101 BID - 6g TRC101 QD) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||0.7|-1.6|0.4214
92246646|NCT00304915|184397082|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.003|TWO_SIDED|95.0|1.37|4.56|||Regression, Logistic|||||4.56|1.37|0.003
92246647|NCT00973921|184397131|SUPERIORITY_OR_OTHER||Proportion|1.0|||<|0.01|TWO_SIDED|95.0|0.86|1.0|||Wilson|||The 95% confidence Interval (CI) of the primary outcome has been calculated using the Wilson method of estimating the CI of a single proportion||1.0|0.86|<0.01
92246648|NCT00973921|184397132|SUPERIORITY_OR_OTHER||Correlation coefficient|0.74|||<|0.0001|||||||Bland Altman|||||||<0.0001
92246649|NCT00973921|184397134|SUPERIORITY_OR_OTHER||Correlation coefficient|0.5||||0.0034|||||||Bland-Altman|||||||0.0034
92246650|NCT00414960|184397144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|4.04||0.556|TWO_SIDED|95.0|-10.64|5.83||P-value is for comparison of change from baseline between enzastaurin and placebo group.|2-sample pooled t-test||Using placebo as a reference group, the mean difference = enzastaurin minus placebo.|||5.83|-10.64|0.556
92246651|NCT00363246|184397159|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||Chi-squared|||Health Status. No Wheelchair-related Fall Injuries vs. Wheelchair-related Fall Injuries.||||0.049
92246652|NCT00363246|184397159|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Chi-squared|||Pain in last 4 weeks (interference with daily activities). No Wheelchair-related Fall Injuries vs. Wheelchair-related Fall Injuries.||||0.013
92246653|NCT00363246|184397159|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Chi-squared|||Pain when transfer. No Wheelchair-related Fall Injuries vs. Wheelchair-related Fall Injuries.||||0.0001
92246654|NCT00363246|184397159|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||t-test, 2 sided|||Energy level. No Wheelchair-related Fall Injuries vs. Wheelchair-related Fall Injuries.||||0.009
92246655|NCT00363246|184397160|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||Chi-squared|We used chi-squared test for categorical variable (most variables) and t-test (2-sided) for continuous variables (few variables).||Health Status. No Wheelchair-related Falls vs. Wheelchair-related Falls.||||0.033
92246656|NCT00363246|184397160|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Chi-squared|||Pain in last 4 weeks (interference with daily activities). No Wheelchair-related Falls vs. Wheelchair-related Falls.||||0.013
92246657|NCT00363246|184397160|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Pain when transfer. No Wheelchair-related Falls vs. Wheelchair-related Falls.||||<0.001
92246658|NCT00363246|184397160|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||t-test, 2 sided|||Energy level. No Wheelchair-related Falls vs. Wheelchair-related Falls.||||0.007
92246659|NCT00230100|184397215|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Mixed Models Analysis|||"Implemented a general mixed model analysis of variance (MMANOVA), which models the means per group over the respective time period and the covariance between the repeated measures over the assessments. The MMANOVA approach estimates a separate mean for each phase of treatment per group. The MMANOVA is called a mixed model because it includes both fixed (e.g., treatment, gender) and random (subject-specific) terms. MMANOVA allows for randomly missing observations (not included in analysis)."||||<0.05
92246660|NCT00230100|184397216|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Mixed Models Analysis|||"Implemented a general mixed model analysis of variance (MMANOVA), which models the means per group over the respective time period and the covariance between the repeated measures over the assessments. The MMANOVA approach estimates a separate mean for each phase of treatment per group. The MMANOVA is called a mixed model because it includes both fixed (e.g., treatment, gender) and random (subject-specific) terms. MMANOVA allows for randomly missing observations (not included in analysis)."||||<0.05
92246661|NCT00230100|184397217|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Mixed Models Analysis|||"Implemented a general mixed model analysis of variance (MMANOVA), which models the means per group over the respective time period and the covariance between the repeated measures over the assessments. The MMANOVA approach estimates a separate mean for each phase of treatment per group. The MMANOVA is called a mixed model because it includes both fixed (e.g., treatment, gender) and random (subject-specific) terms. MMANOVA allows for randomly missing observations (not included in analysis)."||||<0.05
92246662|NCT00230100|184397218|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Mixed Models Analysis|||It was hypothesized that the single-gender group composition and women-focused group content (WRG) would result in better substance abuse treatment outcomes (lower ASI alcohol composite scores) than standard mixed-gender group treatment (GDC).||||<0.05
92246663|NCT00230100|184397219|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.009|||||||Mixed Models Analysis|||||||<0.009
92246664|NCT04348591|184397223|SUPERIORITY||Mean Difference (Final Values)|-0.046|STANDARD_ERROR_OF_MEAN|0.037||0.221|TWO_SIDED|95.0|-0.12|0.029||This p value corresponds to the main effect for experimental group; a-priori threshold was .012|Mixed Models Analysis|||A MMANOVA analysis using an unstructured covariance structure examined main effects of experimental group, instruction provided, headache, racial background, and type of neurostimulation administered. HF-HRV was transformed using an lg function for normality.||.029|-.12|.221
92246665|NCT04348591|184397223|SUPERIORITY|This is a within subject analysis that uses data across groups, controlling for the effect of neurostimulation alone, coil to cortex distance, and racial background|Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.022||0.008|TWO_SIDED|95.0|0.016|0.103|||Mixed Models Analysis|Comparison between sham neurostimulation and high frequency neurostimulation||A MMANOVA analysis using an unstructured covariance examined the main effect of type of neurostimulation provided||.103|.016|.008
92246666|NCT04348591|184397223|SUPERIORITY|The analysis controls for coil to cortex distance, racial background and effect of neurostimulation alone. It compares sham stimulation with low frequency neurostimulation|Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.021||0.001|TWO_SIDED|95.0|0.029|0.111|||Mixed Models Analysis|||A MMANOVA analysis using an unstructured covariance structure examined the main effect of type of neurostimulation provided.||.111|.029|.001
92246667|NCT04348591|184397224|SUPERIORITY||Mean Difference (Final Values)|0.223|STANDARD_ERROR_OF_MEAN|0.232||0.34|TWO_SIDED|95.0|-0.243|0.689|||Mixed Models Analysis||This is the result for the main effect found of group (emotion dysregulation group versus misophonia)|A MMANOVA analysis using an unstructured covariance structure examined changes in SCL between groups, experimental types of neurostimulation, and their interaction, controlling for baseline, racial background, coil to cortex distance, and headache||.689|-.243|.34
92246668|NCT04348591|184397224|SUPERIORITY||Mean Difference (Final Values)|0.493|STANDARD_ERROR_OF_MEAN|0.148||0.001|TWO_SIDED|95.0|0.198|0.787|||Mixed Models Analysis|This is the main effect of neurostimulation condition. Specifically here we show the difference in estimated marginal means between sham and HF-rTMS||A MMANOVA analysis using an unstructured covariance structure examined changes in SCL between groups, experimental types of neurostimulation, and their interaction, controlling for baseline, racial background, coil to cortex distance, and headache||.787|.198|.001
92246669|NCT04348591|184397224|SUPERIORITY||Mean Difference (Final Values)|0.469|STANDARD_ERROR_OF_MEAN|0.144||0.002|TWO_SIDED|95.0|0.182|0.757|||Mixed Models Analysis|This is the main effect of neurostimulation administered, specifically comparing estimated marginal means for sham and LF-rTMS||A MMANOVA analysis using an unstructured covariance structure examined changes in SCL between groups, experimental types of neurostimulation, and their interaction, controlling for baseline, racial background, coil to cortex distance, and headache||.757|.182|.002
92246670|NCT04348591|184397224|SUPERIORITY||Mean Difference (Final Values)|0.73||||0.0005|TWO_SIDED||||||Mixed Models Analysis||mean difference between sham and HF-rTMS for misophonia participants only when downregulating misophonic sounds|The investigators tested the interaction between experimental neurostimulation (sham, active high frequency rTMS, active low frequency rTMS), instruction provided (listen to neutral sound; listen to aversive sound, listen to misophonic sound, downregulate aversive sound, downregulate misophonic sound), and group (misophonic, clinical control) as part of the same MMANOVA analysis described above (i.e., controlling for coil-to-cortex distance, racial background, baseline, \& presence of headache).||||.0005
92246671|NCT04348591|184397226|SUPERIORITY||Mean Difference (Final Values)|0.0563|STANDARD_ERROR_OF_MEAN|0.09853||0.57|TWO_SIDED|95.0|-0.14149|0.25411|||t-test, 2 sided|||An independent samples t-test was conducted to examine differences between groups in BOLD bilateral dlPFC signal during the regulation of misophonic versus aversive sounds. One outlier was removed from the misophonia group to avoid violating the normality assumption.||.25411|-.14149|.57
92246672|NCT04348591|184397227|SUPERIORITY||Mean Difference (Final Values)|0.037293|STANDARD_ERROR_OF_MEAN|0.131419||0.778|TWO_SIDED|95.0|-0.22667|0.301257|||t-test, 2 sided|50 degrees of freedom||An independent samples t-test was conducted to examine differences between groups in vmPFC activation that was greater when downregulating misophonic versus non-misophonic distress. One participant from each group was excluded for being an outlier||0.301257|-0.226670|.778
92246673|NCT04348591|184397228|SUPERIORITY||z score|4.69|||<|0.05|TWO_SIDED||||||mixed effects whole-brain using cluster|||Mixed effects (FSL's FLAME 1; Oxford Univ., UK) whole brain analyses using cluster correction following a voxel-wise Z-score threshold of 2.3.||||<.05
92246674|NCT04348591|184397229|SUPERIORITY||Mean Difference (Final Values)|-0.197|STANDARD_ERROR_OF_MEAN|0.283||0.49|TWO_SIDED|95.0|-0.766|0.372|||Mixed Models Analysis|This is the main effect from the MMANOVA analysis for group difference.||The MMANOVA analysis of SUDS used a Toeplitz covariance structure. The outcome variable was the difference between SUDS after each sound presentation and baseline, controlling for racial background, headache, and coil to cortex difference. Two participants were excluded from this analysis, one in each condition, because they provided outlier data.||.372|-.766|.49
92246675|NCT04348591|184397229|SUPERIORITY||Mean Difference (Final Values)|0.909|STANDARD_ERROR_OF_MEAN|0.147|<|1e-07|TWO_SIDED|95.0|0.62|1.97||This p-value corresponds to the difference between sham and HF-rTMS stimulation|Mixed Models Analysis|||The MMANOVA analysis of SUDS used a Toeplitz covariance structure. This analysis presents the main effect of neurostimulation experimental condition. The outcome variable was the difference between SUDS after each sound presentation and baseline, controlling for racial background, headache, and coil to cortex difference. Two participants were excluded from this analysis, one in each condition, because they provided outlier data.||1.97|.62|<.0000001
92246676|NCT04348591|184397229|SUPERIORITY||Mean Difference (Final Values)|0.331|STANDARD_ERROR_OF_MEAN|0.139||0.018|TWO_SIDED|95.0|0.057|0.605||The test corresponds to the difference between sham and LF-rTMS|Mixed Models Analysis|||The MMANOVA analysis of SUDS used a Toeplitz covariance structure. This analysis presents the main effect of neurostimulation experimental condition. The outcome variable was the difference between SUDS after each sound presentation and baseline, controlling for racial background, headache, and coil to cortex difference. Two participants were excluded from this analysis, one in each condition, because they provided outlier data.||.605|.057|.018
92246677|NCT04348591|184397229|SUPERIORITY||Mean Difference (Final Values)|1.02|||<|1e-06|TWO_SIDED||||||Mixed Models Analysis||For participants with misophonia difference in distress produced by a misophonic sound when downregulating misophonic sounds while receiving sham vs.HF-rTMS|The MMANOVA analysis of SUDS used a Toeplitz covariance structure. This analysis presents the interaction effect of group by neurostimulation experimental condition. The outcome variable was the difference between SUDS after each sound presentation and baseline, controlling for racial background, headache, and coil to cortex difference. Two participants were excluded from this analysis, one in each condition, because they provided outlier data.||||<.000001
92282734|NCT02809183|184469106|OTHER|Two-group test|||||<|0.0001||||||The null hypothesis is that the difference between treatment groups (6g TRC101 QD - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 2 mEq/L = 0.|Fisher Exact|||||||< 0.0001
92282735|NCT02809183|184469106|OTHER|Two-group test||||||0.0003||||||The null hypothesis is that the difference between treatment groups (6g TRC101 QD - Pooled Placebo) in the proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 3 mEq/L = 0.|Fisher Exact|||||||0.0003
92282736|NCT02809183|184469106|OTHER|Two-group test||||||0.0003||||||The null hypothesis is that the difference between treatment groups (6g TRC101 QD - Pooled Placebo) in the proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 4 mEq/L = 0.|Fisher Exact|||||||0.0003
92282737|NCT02933866|184469107|SUPERIORITY|||||||0.2961|||||||Cochran-Mantel-Haenszel|||||||0.2961
92282738|NCT00918567|184469108|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.22|STANDARD_ERROR_OF_MEAN|1.93|<|0.05|TWO_SIDED|||||Also tested marginal effects defined as p \< .10.|Mixed Models Analysis|Tukey-Kramer adjustments for post-hoc differences of least squares comparisons||||||<.05
92282739|NCT00918567|184469109|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.51|<|0.05|TWO_SIDED|||||Also examined marginal effects, defined as p\<.10|Mixed Models Analysis|||||||<.05
92282740|NCT00918567|184469110|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.6|<|0.05|TWO_SIDED|||||Also tested marginal effects defined as p\<.10|Mixed Models Analysis|||||||<.05
92282741|NCT00918567|184469111|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.09|<|0.05|TWO_SIDED|||||Also estimated marginal effects defined as p\<.10|Mixed Models Analysis|||||||<.05
92282742|NCT00918567|184469112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.07|<|0.05|TWO_SIDED|||||also tested marginal effects defined as p\<.10|Mixed Models Analysis|||||||<.05
92282743|NCT00918567|184469113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.18|>|0.05|TWO_SIDED|||||Also tested marginal effects defined as p\<.10|Mixed Models Analysis|||||||>.05
92282744|NCT00918567|184469114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|TWO_SIDED|||||Also tested marginal effects (p\<.10)|Mixed Models Analysis|||||||<.05
92282745|NCT00918567|184469115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.05|STANDARD_ERROR_OF_MEAN|1.7|<|0.05|TWO_SIDED|||||Also tested marginal effects (p\<.10)|Mixed Models Analysis|||||||<0.05
92282746|NCT00918567|184469116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|1.8|<|0.05|TWO_SIDED|||||Also tested marginal effects (p\<.10)|Mixed Models Analysis|||||||<.05
92282747|NCT00918567|184469117|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED|||||Also tested marginal effect (p\<.10)|Mixed Models Analysis|||||||<.05
92282748|NCT00918567|184469118|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.19|<|0.05|TWO_SIDED|||||Also tested marginal effects (p\<.10)|Mixed Models Analysis|||||||<.05
92282749|NCT01988922|184469160|OTHER|Differences between CYP2B6\*1/\*1, CYP2B6\*1/\*6, and CYP2B6\*6/\*6 genotypes for pharmacokinetic parameters were analyzed using one-way ANOVA followed by the Student-Newman-Keuls test for multiple comparisons (Sigmaplot 12.5; Systat Software, Inc, USA). Nonnormal data were log transformed for analysis but reported as the nontransformed results.|||||<|0.05|||||||ANOVA|One-way ANOVA followed by the Student-Newman-Keuls test for multiple comparisons||||||<0.05
92282750|NCT01347710|184469168|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value for sensitivity comparison of flurpiridaz F18 PET MPI vs SPECT MPI for majority rule|McNemar|Two-sided McNemar's (chi-squared) test superiority||||||<0.001
92282751|NCT01347710|184469169|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI vs SPECT MPI for majority rule in patients under going pharmacologic stress|McNemar|Two-sided McNemar's (chi-squared) test superiority||||||<0.001
92282752|NCT01347710|184469169|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI vs. SPECT MPI for majority rule in females|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority||||||<0.001
92246678|NCT04348591|184397230|SUPERIORITY||Mean Difference (Final Values)|9.53|STANDARD_ERROR_OF_MEAN|1.92|<|0.001|TWO_SIDED|||||This is the result corresponding to the main effect of time in the repeated measures ANCOVA|ANCOVA|||Repeated measures ANOVA (controlling for racial background)||||<.001
92246679|NCT04348591|184397230|SUPERIORITY||||||>|0.012|||||||ANCOVA|This analysis corresponds to the main effect of group.||Repeated measures ANOVA (controlling for racial background)||||>.012
92246680|NCT04348591|184397231|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||An independent samples t-test was conducted to examine between group differences at the intake assessment on the PROMIS Anxiety subscale||||.78
92246681|NCT04348591|184397231|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||An independent samples t-test was conducted to examine between group differences at the intake assessment on the PROMIS Depression subscale||||.29
92246682|NCT04348591|184397231|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||An independent samples t-test was conducted to examine between group differences at the intake assessment on the PROMIS Fatigue subscale||||.64
92246683|NCT04348591|184397231|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||An independent samples t-test was conducted to examine between group differences at the intake assessment on the PROMIS Sleep disturbance subscale||||.16
92246684|NCT04348591|184397231|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||An independent samples t-test was conducted to examine between group differences at the intake assessment on the PROMIS Ability to partake in social roles subscale||||.56
92246685|NCT00186056|184397262|SUPERIORITY_OR_OTHER||||||<|0.26|||||||ANOVA|Interaction of HAMD \* medication group F(2,26)=1.38, eta sq = .05||||||<.26
92246686|NCT00302718|184397300|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92246687|NCT00302718|184397302|OTHER|||||||0.2114|||||||Chi-squared|||||||0.2114
92246688|NCT00302718|184397304|OTHER|||||||0.6954|||||||Chi-squared|||||||0.6954
92246689|NCT00302718|184397306|OTHER|||||||0.9895|||||||Chi-squared|||||||0.9895
92246690|NCT00738374|184397307|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Chi-squared|||Analysis compared responders and non-responders.||||0.0008
92246691|NCT00738374|184397308|SUPERIORITY_OR_OTHER|||||||0.0795|TWO_SIDED||||||Chi-squared|||||||0.0795
92246692|NCT00738374|184397324|SUPERIORITY_OR_OTHER|||||||0.2712|TWO_SIDED||||||Log Rank|||||||0.2712
92246693|NCT02300077|184397383|SUPERIORITY|||||||0.0001|||||||Chi-squared|||||||0.0001
92246694|NCT02300077|184397384|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
92246695|NCT02300077|184397385|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92246696|NCT02300077|184397386|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|||||||0.02
92246697|NCT00077376|184397387|SUPERIORITY_OR_OTHER||Objective response rate|41.0|||||TWO_SIDED|95.0|26.0|58.0||||||||58|26|
92246698|NCT00077376|184397388|SUPERIORITY_OR_OTHER||Objective response rate|44.0|||||TWO_SIDED|95.0|31.0|58.0||||||||58|31|
92246699|NCT02034552|184397473|SUPERIORITY|||||||0.0109||||||\[80% CI\]: \[10.1%- 39.6%\]|Clopper and Pearson|Patient bone scan response rate at Week 24 will be estimated with exact binomial 80% CI using the method of Clopper and Pearson.||H0: Patient bone scan response rate at Week 24 ≤5%. The Type I error rate for the test in each treatment group, is one-sided 0.10. A one-sided p-value will be reported for this test.||||0.0109
92246700|NCT02034552|184397473|SUPERIORITY||||||<|0.0001||||||\[80% CI\]: \[40.8% - 73.7%\]|Clopper and Pearson|Patient bone scan response rate at Week 24 will be estimated with exact binomial 80% CI using the method of Clopper and Pearson.||H0: Patient bone scan response rate at Week 24 ≤5%. The Type I error rate for the test in each treatment group, is one-sided 0.10. A one-sided p-value will be reported for this test.||||<0.0001
92246701|NCT02034552|184397473|SUPERIORITY||||||<|0.0001||||||\[80% CI\]: \[31.8% - 68.2%\]|Clopper and Pearson|Patient bone scan response rate at Week 24 will be estimated with exact binomial 80% CI using the method of Clopper and Pearson.||H0: Patient bone scan response rate at Week 24 ≤5%. The Type I error rate for the test in each treatment group, is one-sided 0.10. A one-sided p-value will be reported for this test.||||<0.0001
92246702|NCT00074802|184397481|SUPERIORITY||Mean Difference (Net)|-5.43||||0.267|TWO_SIDED|95.0|-15.05|4.19|||Mixed Models Analysis|||||4.19|-15.05|.267
92246703|NCT00074802|184397482|SUPERIORITY|||||||0.018||||||Fisher's Exact Test used for analyses.|Fisher Exact|||Fisher's Exact Test used for analyses of responder status.||||.018
92246704|NCT00074802|184397482|SUPERIORITY|||||||0.034||||||Fisher's Exact Test used for analyses.|Fisher Exact|||Fisher's Exact Test used for analyses of remitter status.||||.034
92246705|NCT00074802|184397483|SUPERIORITY||Mean Difference (Net)|-3.21||||0.0005|TWO_SIDED|95.0|-5.02|-1.39|||Mixed Models Analysis|||||-1.39|-5.02|.0005
92246706|NCT00074802|184397484|SUPERIORITY||Mean Difference (Net)|-5.61||||0.0775|TWO_SIDED|95.0|-11.84|0.62|||Mixed Models Analysis|||||0.62|-11.84|.0775
92246707|NCT00074802|184397485|SUPERIORITY||Mean Difference (Net)|-5.53||||0.0006|TWO_SIDED|95.0|-8.7|-2.35|||Mixed Models Analysis||Paroxetine+CBT \> Paroxetine alone in BFNE change.|||-2.35|-8.70|.0006
92246708|NCT00074802|184397486|SUPERIORITY||Mean Difference (Net)|0.2||||0.871|TWO_SIDED|95.0|-2.16|2.55|||Mixed Models Analysis|||||2.55|-2.16|.871
92246709|NCT00074802|184397487|SUPERIORITY||Median Difference (Net)|0.41||||0.949|TWO_SIDED|95.0|-11.95|12.76|||Mixed Models Analysis|||||12.76|-11.95|.949
92246710|NCT02513771|184397518|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|Stratified Wilcoxon rank-sum test stratified by screening CD4 count (\<= or \> 350 cells/mm\^3) and statin use.||Null hypothesis: There is no difference between the two arms in the change in sCD14 from baseline to week 15/16.||||1.000
92246711|NCT04295356|184397540|EQUIVALENCE|The 90% confidence interval of the ratio of geometric least squares means of Cmax was estimated to assess the PK similarity between CT-P17 AI and CT-P17 PFS (bioequivalence margin of 80% to 125%).|Ratio of geometric least squares means|102.6|||||TWO_SIDED|90.0|94.08|111.9|||ANCOVA|The stratification factors (gender \[male or female\], study center, and body weight as measured on Day -1) were included in ANCOVA model as covariates.||Equivalence test in Cmax between CT-P17 AI and CT-P17 PFS||111.90|94.08|
92282753|NCT01347710|184469169|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI vs SPECT MPI for majority rule in patients with BMI \>/=30|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority||||||<0.001
92282754|NCT01347710|184469170|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.891|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI vs. SPECT MPI for majority rule in patients undergoing pharmacologic stress|Z test|z test for non inferiority for specificity||||||0.891
92282755|NCT01347710|184469170|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.546|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI vs. SPECT MPI for majority rule in female patients|z test|z test for non-inferiority for specificity||||||.546
92246712|NCT04295356|184397541|EQUIVALENCE|The 90% confidence interval of the ratio of geometric least squares means of AUC0-inf was estimated to assess the PK similarity between CT-P17 AI and CT-P17 PFS (bioequivalence margin of 80% to 125%).|Ratio of geometric least squares means|103.64|||||TWO_SIDED|90.0|93.98|114.29|||ANCOVA|The stratification factors (gender \[male or female\], study center, and body weight as measured on Day -1) were included in ANCOVA model as covariates.||Equivalence test in AUC0-inf between CT-P17 AI and CT-P17 PFS||114.29|93.98|
92246713|NCT04295356|184397542|EQUIVALENCE|The 90% confidence interval of the ratio of geometric least squares means of AUC0-last was estimated to assess the PK similarity between CT-P17 AI and CT-P17 PFS (bioequivalence margin of 80% to 125%).|Ratio of geometric least squares means|105.36|||||TWO_SIDED|90.0|91.09|121.86|||ANCOVA|The stratification factors (gender \[male or female\], study center, and body weight as measured on Day -1) were included in ANCOVA model as covariates.||Equivalence test in AUC0-last between CT-P17 AI and CT-P17 PFS||121.86|91.09|
92246714|NCT01784588|184397559|NON_INFERIORITY|Non-inferiority (NI) was demonstrated if the entire confidence interval was above -15% at 36 months. The sample size was estimated under the assumption that the proportion of subjects with treatment success is 85% for each of Solyx and Obtryx. For a (one-sided) type I error rate of 0.05, 194 subjects (97 per arm) are needed to have 90% power to demonstrate non-inferiority of Solyx with a NI margin of 15%.|Adjusted Difference in Percentages|-0.4|||||TWO_SIDED|90.0|-8.2|7.4||Non-inferiority was evaluated using a two-sided 90% confidence interval (CI) for the treatment difference (SIS minus TMUS). The CI was calculated based on the pooling of treatment differences across propensity score strata for a binary endpoint.||||Available Cases Only - Intent-to-Treat||7.4|-8.2|
92264959|NCT04095039|184431352|SUPERIORITY|||||||0.077||||||p-value is based on a sample that is less than 10% of the planned sample size (planned n=4,000)|Finkelstein-Schoenfeld method|||Primary outcome is for the individually randomized cohort since DSMB had concerns about selection bias for the cluster-randomized population due to differences in baseline characteristics that leaned towards the arm objectives.||||0.077
92246715|NCT01784588|184397559|NON_INFERIORITY|Non-inferiority (NI) was demonstrated if the entire confidence interval was above -15% at 36 months. The sample size was estimated under the assumption that the proportion of subjects with treatment success is 85% for each of Solyx and Obtryx. For a (one-sided) type I error rate of 0.05, 194 subjects (97 per arm) are needed to have 90% power to demonstrate non-inferiority of Solyx with a NI margin of 15%.|Unadjusted Treatment Difference (%)|1.5|||||TWO_SIDED|90.0|-5.4|8.4||Non-inferiority was evaluated using a two-sided 90% confidence interval (CI) for the treatment difference (SIS minus TMUS). The CI was calculated based on the pooling of treatment differences across propensity score strata for a binary endpoint.||||Available Cases Only - Intent-to-Treat||8.4|-5.4|
92246716|NCT04904614|184397562|SUPERIORITY|||||||0.02|||||||Fisher Exact|||||||0.02
92246717|NCT04904614|184397563|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.13
92246718|NCT04904614|184397564|SUPERIORITY|||||||0.6|||||||Fisher Exact|||||||0.6
92246719|NCT04904614|184397566|SUPERIORITY|||||||0.97|||||||Chi-squared|||||||0.97
92246720|NCT04268004|184397568|OTHER|Chi-squared test was used to determine if study arm is associated with FP uptake.|||||=|0.64|||||||Chi-squared|df=(1, 19)||Chi-square test was used to determine if study arm is associated with FP uptake.||||=.64
92246721|NCT05137730|184397625|OTHER||Ratio of geometric least squares means|0.78|||||TWO_SIDED|90.0|0.7109|0.8611|||||Least squares means (LSMs) were calculated by exponentiating the LSMs derived from the linear mixed effects model.|||0.8611|0.7109|
92175180|NCT04908722|184242400|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.7|||||TWO_SIDED|97.5|1.348|2.148||||||Group 6 (2 doses) vs Group 3 (1 dose)||2.148|1.348|
92246722|NCT05137730|184397626|OTHER||Dose effect|1.5395|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|1.2929|1.7862||||||A linear regression model was used, including sequence and period as fixed effects, subject within sequence as a random effect, and ln(dose) as a covariate.||1.7862|1.2929|
92246723|NCT05137730|184397627|OTHER||Ratio of geometric least squares means|0.84|||||TWO_SIDED|90.0|0.7576|0.9375|||||LSMs were calculated by exponentiating the LSMs derived from the linear mixed effects model.|||0.9375|0.7576|
92246724|NCT05137730|184397628|OTHER||Dose effect|1.2823|STANDARD_ERROR_OF_MEAN|0.1072|||TWO_SIDED|95.0|1.0431|1.5215||||||A linear regression model using was used, including sequence and period as fixed effects, subject within sequence as a random effect, and ln(dose) as a covariate.||1.5215|1.0431|
92246725|NCT05137730|184397629|OTHER||Ratio of geometric least squares means|0.81|||||TWO_SIDED|90.0|0.7462|0.8893|||||LSMs were calculated by exponentiating the LSMs derived from the linear mixed effects model.|||0.8893|0.7462|
92282756|NCT01347710|184469170|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.538|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI vs. SPECT MPI for majority rule BMI \>/=30|z test|z test for non-inferiority for specificity||||||.538
92282757|NCT01347710|184469171|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; LAD|McNemar|Two-sided McNemar (chi-squared) test superiority for sensitivity; LAD||||||<0.001
92282758|NCT01347710|184469171|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; LCX|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority for sensitivity; LCX||||||<0.001
92282759|NCT01347710|184469171|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; RCA|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority for sensitivity; RCA||||||<0.001
92282760|NCT01347710|184469171|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; Non-LAD|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority for sensitivity; Non-LAD||||||<0.001
92282761|NCT01347710|184469172|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.379|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; LAD|z Test|z test for non-inferiority for specificity; LAD||||||.379
92282762|NCT01347710|184469172|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.358|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; LCX|Z Test|z test for non-inferiority for specificity; LCX||||||.358
92282763|NCT01347710|184469172|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.442|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; RCA|z Test|z test for non-inferiority for specificity; RCA||||||.442
92282764|NCT01347710|184469172|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.984|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; Non-LAD|z Test|z test for non-inferiority for specificity; non-LAD||||||.984
92246726|NCT05137730|184397630|OTHER||Dose effect|1.0937|STANDARD_ERROR_OF_MEAN|0.0763|||TWO_SIDED|95.0|0.938|1.2493||||||A linear regression model was used, including sequence and period as fixed effects, subject within sequence as a random effect, and ln(dose) as a covariate.||1.2493|0.9380|
92282765|NCT01347710|184469173|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value of sensitivity for flurpiridaz F18 PET MPI vs. SPECT MPI for majority rule; multivessel disease|McNemar|p-Value based on two-sided McNemar's (Chi squared) test superiority||||||<0.001
92246727|NCT01879319|184397669|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-2.4|||||TWO_SIDED|95.0|-11.2|6.1||||||||6.1|-11.2|
92246728|NCT01879319|184397670|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|3.4|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-2.9|9.7||||||||9.7|-2.9|
92287261|NCT03086460|184479329|SUPERIORITY||Risk Ratio (RR)|2.46||||0.037|TWO_SIDED|95.0|1.06|5.72|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||5.72|1.06|0.037
92246729|NCT04724733|184397676|SUPERIORITY||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
92246730|NCT04724733|184397676|SUPERIORITY||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
92246731|NCT04724733|184397676|SUPERIORITY|||||||0.0172|||||||t-test, 1 sided|||||||0.0172
92246732|NCT04724733|184397677|SUPERIORITY|||||||0.032|||||||t-test, 1 sided|||||||.0320
92246733|NCT04724733|184397677|SUPERIORITY||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
92246734|NCT04724733|184397677|SUPERIORITY|||||||0.0008|||||||t-test, 1 sided|||||||0.0008
92246735|NCT03372603|184397694|OTHER||Ratio|1.336|||||TWO_SIDED|90.0|0.965|1.847|||||Treatment comparison ratio of GSK2798745 and placebo using posterior median ratio and 90% credible interval is presented.|||1.847|0.965|
92246736|NCT03341923|184397713|NON_INFERIORITY|"Difference (DT1MF-AMMF) of percentage of subjects rated as Optimal was provided with two-sided 95% confidence interval (CI). If lower limit of CI was above -10% as non-inferiority criteria, non-inferiority was to be demonstrated."|Difference in proportion|6.1||||0.0455|TWO_SIDED|95.0|0.2|11.9|||McNemar|||||11.9|0.2|0.0455
92246737|NCT03341923|184397713|SUPERIORITY|After demonstrating noninferiority, if lower limit of CI was above 0% as superiority criteria, superiority was to be demonstrated.|Difference in proportion|6.1||||0.0455|TWO_SIDED|95.0|0.2|11.9|||McNemar|||||11.9|0.2|0.0455
92246738|NCT02806947|184397722|OTHER|No formal hypothesis test was planned or performed for comparing Day 28 CR/PR proportions between arms. Rather, the risk difference is estimated by a point estimate and 90% confidence interval.|Risk Difference (RD)|-0.082|STANDARD_ERROR_OF_MEAN|0.086|||TWO_SIDED|90.0|-0.223|0.059|||||The risk difference estimate is the observed proportion of Day 28 CR/PR in the sirolimus arm minus the proportion in the prednisone arm. A Wald confidence interval for this difference is given.|The primary objective of this Phase II trial was to describe the proportion of patients with Day 28 CR/PR in each treatment arm and to estimate the risk difference of these rates using a point estimate and 90% confidence interval. These estimates are used to inform about the efficacy of sirolimus in contrast to prednisone for potential future research.||0.059|-0.223|
92246739|NCT02806947|184397722|OTHER|No formal hypothesis test was planned or performed for comparing Day 56 CR/PR proportions between arms. Rather, the risk difference is estimated by a point estimate and 95% confidence interval.|Risk Difference (RD)|-0.152|STANDARD_ERROR_OF_MEAN|0.083|||TWO_SIDED|95.0|-0.315|0.011|||||The risk difference estimate is the observed proportion of Day 56 CR/PR in the sirolimus arm minus the proportion in the prednisone arm. A Wald confidence interval for this difference is given.|A secondary objective of this Phase II trial was to describe the proportion of patients with Day 56 CR/PR in each treatment arm and to estimate the risk difference of these rates using a point estimate and 95% confidence interval. These estimates are used to inform about the efficacy of sirolimus in contrast to prednisone for potential future research.||0.011|-0.315|
92246740|NCT02806947|184397723|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Z test comparing binomial proportions|||The null hypothesis is that there is no difference in the proportions of participants with CR/PR and steroid dose of 0.25mg/kg/day or less at Day 28 post-randomization between the sirolimus and prednisone arms. These proportions were compared between treatment arms using a Z test of the difference of binomial proportions.||||< 0.001
92282766|NCT01347710|184469174|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.827|TWO_SIDED|||||p-Value of specificity for comparison of flurpiridaz F18 PET MPI vs. SPECT MPI in detecting multivessel disease|z test|p-Value based on one-sided z test for non-inferiority||||||0.827
92282767|NCT01347710|184469175|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI vs SPECT MPI for majority rule; image quality of excellent or good|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority for sensitivity||||||<0.001
92282768|NCT01347710|184469176|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study protocol number BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.945|ONE_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI vs. SPECT MPI|Z Test|one-sided z test for non-inferiority for specificity||||||.945
92246741|NCT02806947|184397724|SUPERIORITY|||||||0.32||||||Statistical significance was determined using a pre-specified threshold of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in classification of acute GVHD response at Day 28 post-randomization between participants on the sirolimus and prednisone arms. These classifications were compared between treatment arms using Fisher's exact test, due to the presence of small numbers of participants in some categories.||||0.320
92246742|NCT02806947|184397724|SUPERIORITY|||||||0.014||||||Statistical significance was determined using a pre-specified threshold of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in classification of acute GVHD response at Day 56 post-randomization between participants on the sirolimus and prednisone arms. These classifications were compared between treatment arms using Fisher's exact test, due to the presence of small numbers of participants in some categories.||||0.014
92246743|NCT02806947|184397725|SUPERIORITY|||||||0.078||||||Statistical significance was determine using a pre-specified threshold of 0.05|Z test comparing binomial proportions|||The null hypothesis is that there is no difference in the proportions of participants with treatment failure at Day 28 post-randomization between the sirolimus and prednisone arms. These proportions were compared between treatment arms using a Z test of the difference of binomial proportions.||||0.078
92282769|NCT01347710|184469177|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.954|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI vs SPECT MPI for majority rule; image quality excellent/good|z Test|p-Value based on on-sided z test for non-inferiority for specificity||||||0.954
92282770|NCT01347710|184469178|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Log Rank|||||||<0.001
92282771|NCT01347710|184469179|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||McNemar|p-Values are from 2-sided McNemar's test of comparison in proportion of patients with definitely diagnositic certainty between PET and SPECT||||||<0.001
92282772|NCT01600495|184469180|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Mixed Models Analysis|||||||0.01
92282773|NCT01600495|184469181|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.25
92282774|NCT01600495|184469183|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Fisher Exact|||Fisher's exact test||||<0.01
92282775|NCT03676803|184469188|OTHER||Mean Difference (Final Values)|10.6||||0.033|TWO_SIDED|||||p\<0.05 was defined as significant|ANOVA|||Comparison was made to 2 weeks minus baseline changes in phylum Firmicutes abundance between groups.||||0.033
92282776|NCT03676803|184469188|OTHER||Mean Difference (Final Values)|8.7||||0.097|TWO_SIDED|||||p\<0.05 was defined as significant.|ANOVA|||Comparison was made to 2 weeks minus baseline changes in phylum Bacteroidetes abundance between groups.||||0.097
92282777|NCT03676803|184469189|OTHER||Mean Difference (Final Values)|86.0||||0.49|TWO_SIDED||||||t-test, 2 sided|||Comparison was made to 2 weeks minus baseline in mixed spices intervention group||||0.49
92282778|NCT03676803|184469189|OTHER||Mean Difference (Final Values)|55.7||||0.53|TWO_SIDED||||||t-test, 2 sided|||Comparison was made to 2 weeks minus baseline in placebo group||||0.53
92246744|NCT02806947|184397725|SUPERIORITY|||||||0.068||||||Statistical significance was determined using a pre-specified threshold of 0.05|Z test comparing binomial proportions|||The null hypothesis is that there is no difference in the proportions of participants with treatment failure at Day 56 post-randomization between the sirolimus and prednisone arms. These proportions were compared between treatment arms using a Z test of the difference of binomial proportions.||||0.068
92246745|NCT02806947|184397726|SUPERIORITY|||||||0.785||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference in the proportions of participants with overall survival between the sirolimus and prednisone arms during the 12 month period post-randomization. These proportions were compared between treatment arms using a log rank test.||||0.785
92246746|NCT02806947|184397727|SUPERIORITY|||||||0.34||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference in the proportions of participants with disease-free survival between the sirolimus and prednisone arms during the 12 month period post-randomization. These proportions were compared between treatment arms using a log rank test.||||0.340
92246747|NCT02806947|184397728|SUPERIORITY|||||||0.713||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference in the proportions of participants with event-free survival between the sirolimus and prednisone arms during the 12 month period post-randomization. These proportions were compared between treatment arms using a log rank test.||||0.713
92246748|NCT02806947|184397729|SUPERIORITY|||||||0.726||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test|||The null hypothesis is that there is no difference in the proportions of participants with non-relapse mortality between the sirolimus and prednisone arms during the 12 month period post-randomization, with malignancy relapse treated as a competing risk for non-relapse mortality. These proportions were compared between treatment arms using Gray's test.||||0.726
92246749|NCT02806947|184397730|SUPERIORITY|||||||0.402||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test|||The null hypothesis is that there is no difference in the proportions of participants with malignancy relapse between the sirolimus and prednisone arms during the 12 month period post-randomization, with death treated as a competing risk for malignancy relapse. These proportions were compared between treatment arms using Gray's test.||||0.402
92246750|NCT02806947|184397731|SUPERIORITY|||||||0.296||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test|||The null hypothesis is that there is no difference in the proportions of participants with chronic GVHD between the sirolimus and prednisone arms during the 12 month period post-randomization, with death and malignancy relapse treated as competing risks for chronic GVHD. These proportions were compared between treatment arms using Gray's test.||||0.296
92246751|NCT02806947|184397732|SUPERIORITY|||||||0.936||||||Statistical significance was determined using a pre-specified threshold of 0.05|Z test comparing binomial proportions|||The null hypothesis is that there is no difference in the proportions of participants with GVHD-free survival at 6 months post-randomization between the sirolimus and prednisone arms. These proportions were compared between treatment arms using a Z test of the difference of binomial proportions.||||0.936
92246752|NCT02806947|184397732|SUPERIORITY|||||||0.598||||||Statistical significance was determined using a pre-specified threshold of 0.05|Z test comparing binomial proportions|||The null hypothesis is that there is no difference in the proportions of participants with GVHD-free survival at 6 months post-randomization between the sirolimus and prednisone arms. These proportions were compared between treatment arms using a Z test of the difference of binomial proportions.||||0.598
92246753|NCT02806947|184397733|SUPERIORITY|||||||0.221||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test|||The null hypothesis is that there is no difference in the proportions of participants with serious infections between the sirolimus and prednisone arms during the 12 month period post-randomization, with death treated as a competing risk for serious infection. These proportions were compared between treatment arms using Gray's test.||||0.221
92246754|NCT04511819|184397734|OTHER||Risk Difference (RD)|-0.087||||0.8762|TWO_SIDED|95.0|-0.347|0.174|||Regression, Logistic|||||0.174|-0.347|0.8762
92246755|NCT00084929|184397801|OTHER||Area Under the Curve (AUC)|0.89|||||TWO_SIDED|95.0|0.853|0.933||||||Accuracy: ROC analysis Receiver-operating-characteristic (ROC) curves were estimated with the use of data pooled from the radiologists because of the small number of positive cases reviewed by each radiologist.||0.933|0.853|
92246756|NCT00084929|184397801|OTHER||"Sensitivity: P(T+|D+)"|0.9|||||TWO_SIDED|95.0|0.838|0.96|||||Exact 95% confidence intervals were calculated for each radiologist, and large-sample 95% confidence intervals were calculated for overall estimates, with the use of standard errors that allowed for estimation of variation among radiologists.|"Sensitivity, for each radiologist, was calculated as the percentage of patients with lesions that were larger than or equal to the prespecified threshold and that were detected on both colonoscopy and CT colonography.~The per-patient sensitivity, specificity, positive predictive value, and negative predictive value were first estimated for each radiologist, and then the average values among the radiologists were calculated."||0.96|0.838|
92282779|NCT02003183|184469190|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_DEVIATION|0.1|<|0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This analysis applies to the Amygdala.||||<0.02
92282780|NCT01355081|184469199|SUPERIORITY_OR_OTHER||Least square means difference|-2.03|STANDARD_ERROR_OF_MEAN|1.241||0.1031|TWO_SIDED|95.0|-4.467|0.413|||ANCOVA|Change in MADRS total score as a dependent variable, treatment as a fixed effect and the baseline MADRS total score as a covariate.||||0.413|-4.467|0.1031
92282781|NCT01355081|184469199|SUPERIORITY_OR_OTHER||Least square mean difference|-1.04|STANDARD_ERROR_OF_MEAN|1.233||0.4008|TWO_SIDED|95.0|-3.461|1.387|||ANCOVA|Change in MADRS total score as a dependent variable, treatment as a fixed effect and the baseline MADRS total score as a covariate.||||1.387|-3.461|0.4008
92282782|NCT02719522|184469223|SUPERIORITY|The primary safety objective was to determine if the 2-sided 95% upper confidence interval of the primary safety endpoint was below the threshold of 15%|||||<|0.001|||||||Clopper-Pearson|||The primary safety objective was to determine if the 2-sided 95% upper confidence interval of the primary safety endpoint was below the threshold of 15%. Missing safety data for subjects who were lost to FU without any evidence of a major stroke/death were imputed in the analysis using multiple imputation. Subjects who withdrew from the study prior to completion and had experienced a major stroke or death were counted towards the primary safety endpoint as having experienced the event.||||<0.001
92282783|NCT01868009|184469228|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The response was analyzed and adjusted for study inhaler use sequence and preference question version. The method accounted for participants who indicated no preference.|Cochran-Mantel-Haenszel|||||||<0.001
92282784|NCT04349917|184469248|SUPERIORITY|||||||0.532|||||||t-test, 2 sided|||||||0.532
92282785|NCT04349917|184469249|SUPERIORITY|||||||0.579|||||||t-test, 2 sided|||Analysis for GNG regular task||||0.579
92282786|NCT04349917|184469249|SUPERIORITY|||||||0.034|||||||t-test, 2 sided|||Analysis for GNG reward task||||0.034
92282787|NCT04349917|184469250|SUPERIORITY|||||||0.296|||||||t-test, 2 sided|||Analysis for reconfiguration between rest and GNG regular task||||0.296
92282788|NCT04349917|184469250|SUPERIORITY|||||||0.169|||||||t-test, 2 sided|||Analysis for reconfiguration between rest and GNG reward task||||0.169
92282789|NCT04349917|184469251|SUPERIORITY|||||||0.118|||||||Pearson correlation|||Change in rest modularity vs change in GNG regular commission rate||||0.118
92282790|NCT04349917|184469251|SUPERIORITY|||||||0.022|||||||Pearson correlation|||Change in rest modularity vs change in GNG regular omission rate||||0.022
92282791|NCT04349917|184469251|SUPERIORITY|||||||0.22|||||||Pearson correlation|||Change in rest modularity vs Change in GNG regular RT Variability||||0.220
92282792|NCT04349917|184469251|SUPERIORITY|||||||0.496|||||||Pearson correlation|||Change in rest modularity vs change in GNG reward commission rate||||0.496
92282793|NCT04349917|184469251|SUPERIORITY|||||||0.343|||||||Pearson correlation|||Change in rest modularity vs change in GNG reward omission rate||||0.343
92282794|NCT04349917|184469251|SUPERIORITY|||||||0.988|||||||Pearson correlation|||Change in rest modularity vs change in GNG reward RT variability||||0.988
92282795|NCT04349917|184469251|SUPERIORITY|||||||0.892|||||||Pearson correlation|||Change in GNG regular modularity vs change in GNG regular commission rate||||0.892
92282796|NCT04349917|184469251|SUPERIORITY|||||||0.473|||||||Pearson correlation|||Change in GNG regular modularity vs change in GNG regular omission rate||||0.473
92282797|NCT04349917|184469251|SUPERIORITY|||||||0.409|||||||Pearson correlation|||Change in GNG regular modularity vs Change in GNG regular RT Variability||||0.409
92282798|NCT04349917|184469251|SUPERIORITY|||||||0.351|||||||Pearson correlation|||Change in GNG reward modularity vs change in GNG reward commission rate||||0.351
92282799|NCT04349917|184469251|SUPERIORITY|||||||0.238|||||||Pearson correlation|||Change in GNG reward modularity vs change in GNG reward omission rate||||0.238
92282800|NCT04349917|184469251|SUPERIORITY|||||||0.909|||||||Pearson correlation|||Change in GNG reward modularity vs Change in GNG reward RT Variability||||0.909
92282801|NCT04349917|184469252|SUPERIORITY|||||||0.806|||||||t-test, 2 sided|||Analysis for GNG regular task||||0.806
92282802|NCT04349917|184469252|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||Analysis for GNG reward task||||0.003
92282803|NCT04349917|184469253|SUPERIORITY|||||||0.093|||||||t-test, 2 sided|||Analysis for GNG regular task||||0.093
92282804|NCT04349917|184469253|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||Analysis for GNG reward task||||0.0001
92282805|NCT04349917|184469254|SUPERIORITY|||||||0.075|||||||t-test, 2 sided|||Analysis for GNG regular task||||0.075
92282806|NCT04349917|184469254|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||Analysis for GNG reward task||||0.0001
92282807|NCT03290326|184469264|OTHER||||||<|0.01|||||||ANOVA|||One-way ANOVA was conducted to compare the effect of 40Hz tACS on EEG gamma-band spectral power. Power changes were expressed as percentage relative power variations, accordingly with the event-related synchronization/desynchronization (ERS/ERD) index.||||< 0.01
92282808|NCT02252562|184469294|EQUIVALENCE|We hypothesized a potential 66% reduction from a baseline incidence of 0.16 on the basis of prior interventions, but we assumed for power considerations a more conservative reduction of 40% from a baseline incidence of 0.12 averaged across all patients in each arm. Assuming a 10% loss to follow-up, we required 1,600 patients per group for a power of 0.9 with a type 1 error of .05.|Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.82|1.4|||fixed effects univariable analysis|||||1.40|0.82|
92282809|NCT04099888|184469328|SUPERIORITY||||||||TWO_SIDED|95.0|||||||||The HR was estimated using an unstratified cox-proportional hazards model using the Efron approach for handling ties (Efron 1977), together with the associated 95% confidence intervals (CI) for the HR based on the Wald method. The effect of treatment is summarized by the hazard ratio (HR) together with its corresponding 95% Wald CI for the mITT population. No p-value will be reported.|||
92282810|NCT04099888|184469329|SUPERIORITY||||||||TWO_SIDED|95.0||||||||OS was analyzed using the modified intent-to-treat (mITT) analysis set, which included all randomized participants who received at least 1 dose of study treatment and had a RECIST assessment at baseline. Kaplan Meier Curve (KM) analysis of OS was completed for the mITT population, but the number of events was too small to draw any conclusions.|The HR was estimated using an unstratified cox-proportional hazards model using the Efron approach for handling ties (Efron 1977), together with the associated 95% confidence intervals (CI) for the HR based on the Wald method. The effect of treatment is summarized by the hazard ratio (HR) together with its corresponding 95% Wald CI for the mITT population. No p-value will be reported.|||
92282811|NCT04099888|184469330|SUPERIORITY|||||||||||||||||BOR is summarized by randomized treatment group using the mITT analysis set.|The BOR is the best response recorded from the start of the treatment until disease progression or until the last evaluable assessment in the absence of progression. If a patient received subsequent anti-cancer therapy prior to progression, then BOR was calculated up to the point of starting the anti-cancer therapy.|||
92287262|NCT03086460|184479329|SUPERIORITY||Hazard Ratio (HR)|2.24||||0.042|TWO_SIDED|95.0|1.03|4.86|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||4.86|1.03|0.042
92282812|NCT04099888|184469331|SUPERIORITY||||||||TWO_SIDED|95.0|||||||||The ORR is calculated as the proportion of patients who have at least one visit response with a complete response (CR) or partial response (PR). Objective responses do not require confirmation in a randomized study. Data obtained up until progression, or last evaluable assessment in the absence of progression, will be included in the analysis of ORR. Data obtained up until progression or subsequent therapy, or last evaluable assessment in the absence of progression or subsequent therapy, will be included in the analysis of ORR.|||
92282813|NCT04099888|184469332|SUPERIORITY|||||||||||||||||The DoR was calculated only for those with a documented response of CR or PR and is defined as the time from the date of first documented tumor response until the first date of documented disease progression or death, whichever is earlier.|DoR is listed only. In Arm A, the duration of response was 169 days in 1 participant before radiological progression was seen. In the other 2 participants in Arm A, the events were censored at 260 and 264 days, respectively. In Arm B, the duration of response was 85 days in 1 participant before radiological progression was seen. In the other 2 participants in Arm B, the events were censored at 1 day due to the early termination of the study.|||
92282814|NCT04099888|184469333|SUPERIORITY||||||||TWO_SIDED|95.0||||||||DCR is reported and includes any patient with a best response of stable disease, PR or CR.|The DCR and associated exact 95% CI is summarized for the mITT population. This was repeated for DCR-6, defined as the proportion of patients with CR, PR or SD at 6 months (recorded at least 24 weeks (+/-1 week) after randomization of study treatment and prior to any PD event).|||
92282815|NCT04099888|184469334|SUPERIORITY|||||||||||||||||Change in tumor size in percentage was summarized for the subset of patients in the mITT analysis set who had measurable disease at baseline.|Tumor size is defined as the sum of the longest diameters (SoDs) of the RECIST 1.1 target lesions. Change in tumor size is defined as the best overall percentage change in tumor size from baseline. Percentage change in tumor size was determined for patients with measurable disease at baseline and was derived at each visit by the percentage change in the SoDs of target lesions compared to baseline.|||
92282816|NCT04099888|184469335|SUPERIORITY||||||||||||||||||Safety, including the incidence and characteristics of biliary/loco-regional tumour-related events leading to hospitalisation and/or interventions, will be summarised descriptively.|||
92282817|NCT04099888|184469336|SUPERIORITY||||||||||||||||||Safety events leading to hospitalisation and/or interventions, will be summarised descriptively.|||
92282818|NCT04099888|184469340|SUPERIORITY||||||||||||||||||As this study was terminated early, a reduced statistical analysis was conducted, and the HRQoL analyses were not conducted.|||
92282819|NCT00023309|184469341|SUPERIORITY_OR_OTHER|||||||0.0294||95.0|||||Fisher Exact|||Null hypothesis: there is no difference in the treatment effect between the two groups||||0.0294
92282820|NCT00023309|184469342|SUPERIORITY_OR_OTHER|||||||0.0325||95.0|||||Fisher Exact|||Null hypothesis: there is no difference in treatment effect at week 196||||0.0325
92282821|NCT00023309|184469343|SUPERIORITY_OR_OTHER|||||||0.0049||95.0|||||Fisher Exact|||Null hypothesis: there is no difference in treatment effect at week 196||||0.0049
92282822|NCT00023309|184469344|SUPERIORITY_OR_OTHER|||||||0.0157||95.0|||||Fisher Exact|||Null hypothesis: there is no difference in treatment effect at week 196||||0.0157
92282823|NCT00023309|184469345|SUPERIORITY_OR_OTHER|||||||0.0913||95.0|||||Fisher Exact|||Null hypothesis: there is no difference in treatment effect at week 196||||0.0913
92282824|NCT01050647|184469349|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
92282825|NCT01050647|184469350|SUPERIORITY||||||>|0.99|||||||Chi-squared|||||||>0.99
92282826|NCT01050647|184469351|SUPERIORITY|||||||0.59|||||||Chi-squared|||||||0.59
92282827|NCT01050647|184469352|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
92282828|NCT01050647|184469353|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
92282829|NCT04276883|184469356|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92282830|NCT04276883|184469356|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92282831|NCT04276883|184469357|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 120 minutes post-dose||||<0.0001
92246757|NCT00084929|184397801|OTHER||"P(T-|D-)"|0.86|||||TWO_SIDED|95.0|0.813|0.9|||||Exact 95% confidence intervals were calculated for each radiologist, and large-sample 95% confidence intervals were calculated for overall estimates, with the use of standard errors that allowed for estimation of variation among radiologists.|Specificity, for each radiologist, was calculated as the percentage of patients who did not have lesions larger than the prespecified threshold on colonoscopy as well as CT colonography The per-patient sensitivity, specificity, positive predictive value, and negative predictive value were first estimated for each radiologist, and then the average values among the radiologists were calculated.||0.9|0.813|
92246758|NCT00084929|184397801|OTHER||"P(D+|T+)"|0.23|||||TWO_SIDED|95.0|0.194|0.273|||||Exact 95% confidence intervals were calculated for each radiologist, and large-sample 95% confidence intervals were calculated for overall estimates, with the use of standard errors that allowed for estimation of variation among radiologists.|Positive Predictive Value (PPV) the positive predictive value was calculated as the percentage of patients with CT colonographic findings that were also seen on colonoscopy||0.273|0.194|
92246759|NCT00084929|184397801|OTHER||"P(D-|T-)"|0.99|||||TWO_SIDED|95.0|0.99|0.998|||||Exact 95% confidence intervals were calculated for each radiologist, and large-sample 95% confidence intervals were calculated for overall estimates, with the use of standard errors that allowed for estimation of variation among radiologists.|Negative Predictive Value (NPV) the negative predictive value was calculated as the percentage of patients with no CT colonographic findings larger than the prespecified threshold that were not detected on colonoscopy.||0.998|0.990|
92175181|NCT04908722|184242400|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|0.95|||||TWO_SIDED|97.5|0.736|1.217||||||Group 6 (2 doses) vs Group 3 (2 doses)||1.217|0.736|
92175182|NCT06321809|184242410|SUPERIORITY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|A significance level of p\<0.05 was used for all analyses.||total scale score comparison||||0.24
92175183|NCT06321809|184242410|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|A significance level of p\<0.05 was used for all analyses||total scale score comparison||||0.001
92246760|NCT00084929|184397802|OTHER||Area Under the Curve (AUC)|0.89|||||TWO_SIDED|95.0|0.853|0.93||||||"Accuracy: ROC analysis CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered detected"||0.93|0.853|
92246761|NCT00084929|184397802|OTHER||"Sensitivity: P(T+|D+)"|0.9|||||TWO_SIDED|95.0|0.832|0.96|||||Sensitivity indicates the percent of patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|"Sensitivity CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered detected"||0.96|0.832|
92246762|NCT00084929|184397802|OTHER||"P(T-|D-)"|0.86|||||TWO_SIDED|95.0|0.817|0.902|||||Specificity indicates the percent of patients who had not lesions detected on optical colonoscopy, who had no lesions detected on CTC.|"Specificity CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered detected"||0.902|0.817|
92246763|NCT00084929|184397802|OTHER||"P(D+|T+)"|0.25|||||TWO_SIDED|95.0|0.209|0.292||||||"Positive Predictive Value (PPV) CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered detected"||0.292|0.209|
92246764|NCT00084929|184397802|OTHER||"P(D-|T-)"|0.99|||||TWO_SIDED|95.0|0.99|0.998||||||"Negative Predictive Value (NPV) CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered detected"||0.998|0.990|
92246765|NCT00084929|184397803|OTHER||Area Under the Curve (AUC)|0.88|||||TWO_SIDED|95.0|0.842|0.913||||||Accuracy: ROC analysis||0.913|0.842|
92246766|NCT00084929|184397803|OTHER||"Sensitivity: P(T+|D+)"|0.87|||||TWO_SIDED|95.0|0.803|0.929|||||Sensitivity indicates the percent of patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity||0.929|0.803|
92246767|NCT00084929|184397803|OTHER||"P(T-|D-)"|0.87|||||TWO_SIDED|95.0|0.825|0.909|||||Specificity indicates the percent of patients who had not lesions detected on optical colonoscopy, who had no lesions detected on CTC.|Specificity||0.909|0.825|
92175184|NCT06321809|184242410|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|A significance level of p\<0.05 was used for all analyses||total scale score comparison||||0.03
92175185|NCT06321809|184242410|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|A significance level of p\<0.05 was used for all analyses||total scale score comparison||||0.003
92246768|NCT00084929|184397803|OTHER||"P(D+|T+)"|0.31|||||TWO_SIDED|95.0|0.256|0.355||||||Positive Predictive Value (PPV)||0.355|0.256|
92246769|NCT00084929|184397803|OTHER||"P(D-|T-)"|0.99|||||TWO_SIDED|95.0|0.984|0.994||||||Negative Predictive Value (NPV)||0.994|0.984|
92246770|NCT00084929|184397804|OTHER||Area Under the Curve (AUC)|0.87|||||TWO_SIDED|95.0|0.833|0.902||||||Accuracy: ROC analysis||0.902|0.833|
92246771|NCT00084929|184397804|OTHER||"Sensitivity: P(T+|D+)"|0.84|||||TWO_SIDED|95.0|0.776|0.912|||||Sensitivity indicates the percent of patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity||0.912|0.776|
92246772|NCT00084929|184397804|OTHER||"P(T-|D-)"|0.87|||||TWO_SIDED|95.0|0.831|0.914|||||Specificity indicates the percent of patients who had not lesions detected on optical colonoscopy, who had no lesions detected on CTC.|Specificity||0.914|0.831|
92246773|NCT00084929|184397804|OTHER||"P(D+|T+)"|0.35|||||TWO_SIDED|95.0|0.299|0.397||||||Positive Predictive Value (PPV)||0.397|0.299|
92246774|NCT00084929|184397804|OTHER||"P(D-|T-)"|0.99|||||TWO_SIDED|95.0|0.98|0.992||||||Negative Predictive Value (NPV)||0.992|0.980|
92246775|NCT00084929|184397805|OTHER||Area Under the Curve (AUC)|0.84|||||TWO_SIDED|95.0|0.81|0.878||||||Accuracy: ROC analysis||0.878|0.810|
92282832|NCT04276883|184469357|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 120 minutes post-dose||||<0.0001
92246776|NCT00084929|184397805|OTHER||"Sensitivity: P(T+|D+)"|0.78|||||TWO_SIDED|95.0|0.711|0.849|||||Sensitivity indicates the percent of patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity||0.849|0.711|
92246777|NCT00084929|184397805|OTHER||"P(T-|D-)"|0.88|||||TWO_SIDED|95.0|0.84|0.92|||||Specificity indicates the percent of patients who had not lesions detected on optical colonoscopy, who had no lesions detected on CTC.|Specificity||0.92|0.840|
92246778|NCT00084929|184397805|OTHER||"P(D+|T+)"|0.4|||||TWO_SIDED|95.0|0.335|0.463||||||Positive Predictive Value (PPV)||0.463|0.335|
92246779|NCT00084929|184397805|OTHER||"P(D-|T-)"|0.98|||||TWO_SIDED|95.0|0.971|0.984||||||Negative Predictive Value (NPV)||0.984|0.971|
92246780|NCT00084929|184397806|OTHER||Area Under the Curve (AUC)|0.8|||||TWO_SIDED|95.0|0.763|0.828||||||Accuracy: ROC analysis||0.828|0.763|
92246781|NCT00084929|184397806|OTHER||"Sensitivity: P(T+|D+)"|0.65|||||TWO_SIDED|95.0|0.579|0.727|||||Sensitivity indicates the percent of patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity||0.727|0.579|
92246782|NCT00084929|184397806|OTHER||"P(T-|D-)"|0.89|||||TWO_SIDED|95.0|0.851|0.923|||||Specificity indicates the percent of patients who had not lesions detected on optical colonoscopy, who had no lesions detected on CTC.|Specificity||0.923|0.851|
92246783|NCT00084929|184397806|OTHER||"P(D+|T+)"|0.45|||||TWO_SIDED|95.0|0.389|0.513||||||Positive Predictive Value (PPV)||0.513|0.389|
92246784|NCT00084929|184397806|OTHER||"P(D-|T-)"|0.95|||||TWO_SIDED|95.0|0.941|0.965||||||Negative Predictive Value (NPV)||0.965|0.941|
92175186|NCT06321809|184242411|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|A significance level of p\<0.05 was used for all analyses||Weight comparison||||0.08
92175187|NCT06321809|184242412|SUPERIORITY|||||||0.13|||||||Kruskal-Wallis|A significance level of p\<0.05 was used for all analyses||BMI Comparison||||0.13
92246785|NCT00084929|184397807|OTHER||"Sensitivity: P(T+|D+)"|0.84|STANDARD_ERROR_OF_MEAN|0.043|||||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion (\>=10mm))||||
92246786|NCT00084929|184397808|OTHER||"Sensitivity: P(T+|D+)"|0.82|STANDARD_ERROR_OF_MEAN|0.042|||||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion (\>=9mm))||||
92246787|NCT00084929|184397809|OTHER||"Sensitivity: P(T+|D+)"|0.8|STANDARD_ERROR_OF_MEAN|0.041|||TWO_SIDED||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion \>=8mm)||||
92246788|NCT00084929|184397810|OTHER||"Sensitivity: P(T+|D+)"|0.75|STANDARD_ERROR_OF_MEAN|0.042|||||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion \>=7mm)||||
92246789|NCT00084929|184397811|OTHER||"Sensitivity: P(T+|D+)"|0.7|STANDARD_ERROR_OF_MEAN|0.046|||||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion \>=6mm)||||
92246790|NCT00084929|184397812|OTHER||"Sensitivity: P(T+|D+)"|0.59|STANDARD_ERROR_OF_MEAN|0.045|||||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion \>=5mm)||||
92246791|NCT00844649|184397815|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|95.0|0.617|0.835||P-value was based on a stratified log-rank test stratified by randomization strata of geographic region (North America versus Others), Karnofsky performance score (70 to 80 versus 90 to 100), and presence of liver metastasis|Stratified Log-rank Test||Hazard ratio of Albumin bound paclitaxel + gemcitabine/gemcitabine alone. The associated hazard ratio and two-sided 95% confidence interval were estimated using a stratified Cox proportional hazard model.|||0.835|0.617|<0.0001
92282833|NCT04276883|184469357|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 90 minutes post-dose||||<0.0001
92175188|NCT06321809|184242413|SUPERIORITY|||||||0.63|||||||Kruskal-Wallis|A significance level of p\<0.05 was used for all analyses||Waist Circumference Comparison||||0.63
92175189|NCT06321809|184242414|SUPERIORITY|||||||0.89|||||||Kruskal-Wallis|A significance level of p\<0.05 was used for all analyses||LDL Cholesterol Comparison||||0.89
92175190|NCT01369355|184242425|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.040
92175191|NCT01369355|184242425|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.005
92175192|NCT01369355|184242426|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.033
92282834|NCT04276883|184469357|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 90 minutes post-dose||||<0.0001
92282835|NCT04276883|184469357|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 60 minutes post-dose||||<0.0001
92282836|NCT04276883|184469357|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 60 minutes post-dose||||<0.0001
92246792|NCT00844649|184397816|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.581|0.821||P-value was based on a stratified log-rank test by randomization strata of geographic region (North America versus Others), Karnofsky performance score (70 to 80 versus 90 to 100), and presence of liver metastasis (yes vs no)|Stratified Log-rank Test||Hazard ratio of Albumin bound paclitaxel + gemcitabine / gemcitabine alone. The associated hazard ratio and two-sided 95% confidence interval were estimated using a stratified Cox proportional hazard model.|||0.821|0.581|<0.0001
92246793|NCT00844649|184397817|SUPERIORITY_OR_OTHER_LEGACY||Response Rate Ratio|3.19|||<|0.0001|TWO_SIDED|95.0|2.178|4.662|||Chi-squared||Response rate ratio: albumin-bound paclitaxel + gemcitabine /gemcitabine alone|PA+G/PG = response rate ratio of albumin bound paclitaxel + gemcitabine / gemcitabine.||4.662|2.178|<0.0001
92246794|NCT00091026|184397827|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||0.22|TWO_SIDED|95.0|-13.0|14.0|||Chi-squared|||||14|-13|0.22
92246795|NCT00091026|184397828|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||Log Rank|||||||0.95
92246796|NCT00091026|184397829|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Log Rank|||||||0.86
92246797|NCT00065442|184397830|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.775||||0.032|TWO_SIDED|95.0|0.614|0.979|||Regression, Cox|Cox regression model with treatment, PSA (ln), and LDH (ln) as the independent variables, stratified by randomization strata.|sipuleucel-T/placebo|||0.979|0.614|0.032
92246798|NCT00065442|184397830|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.766||||0.023|TWO_SIDED|95.0|0.608|0.965|||Log Rank|Stratified by randomization strata.|Cox regression model with treatment as the independent variable, stratified by randomization strata (sipuleucel-T/placebo)|||0.965|0.608|0.023
92282837|NCT04276883|184469357|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 45 minutes post-dose||||<0.0001
92282838|NCT04276883|184469357|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 45 minutes post-dose||||<0.0001
92282839|NCT04276883|184469357|SUPERIORITY|||||||0.0006|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 30 minutes post-dose||||0.0006
92246799|NCT00065442|184397831|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.951||||0.628|TWO_SIDED|95.0|0.773|1.169|||Log Rank|Stratified by randomization strata|Cox regression model with treatment as the independent variable, stratified by randomization strata|||1.169|0.773|0.628
92246800|NCT01797965|184397848|SUPERIORITY|||||||0.5937|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 12||||0.5937
92282840|NCT04276883|184469357|SUPERIORITY|||||||0.0028|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 30 minutes post-dose||||0.0028
92282841|NCT04276883|184469357|SUPERIORITY|||||||0.007|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 20 minutes post-dose||||0.0070
92282842|NCT04276883|184469357|SUPERIORITY|||||||0.0092|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 20 minutes post-dose||||0.0092
92282843|NCT02458469|184469366|SUPERIORITY|||||||0.019|||||||ANOVA|||||||0.019
92246801|NCT01797965|184397848|SUPERIORITY|||||||0.6233|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 24||||0.6233
92246802|NCT01797965|184397848|SUPERIORITY|||||||0.1884|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 48||||0.1884
92282844|NCT02458469|184469366|SUPERIORITY|||||||0.015|||||||Student-Newman-Keuls Method|||||||0.015
92282845|NCT02458469|184469366|SUPERIORITY|||||||0.231|||||||Student-Newman-Keuls Method|||||||0.231
92282846|NCT02458469|184469367|SUPERIORITY|||||||0.749|||||||ANOVA|||||||0.749
92246803|NCT01797965|184397849|SUPERIORITY|||||||0.0204|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 12 for 301||||0.0204
92246804|NCT01797965|184397849|SUPERIORITY|||||||0.0805|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 24 for 301||||0.0805
92246805|NCT01797965|184397849|SUPERIORITY|||||||0.2535|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 36 for 301||||0.2535
92246806|NCT01797965|184397849|SUPERIORITY|||||||0.4738|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 48 for 301||||0.4738
92282847|NCT01430741|184469369|SUPERIORITY_OR_OTHER||||||=|0.04|||||||Mixed Models Analysis|||Compared changes in service intensity among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.04
92246807|NCT01797965|184397849|SUPERIORITY|||||||0.2302|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 60 for 301||||0.2302
92246808|NCT01797965|184397849|SUPERIORITY|||||||0.8522|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 72 for 301||||0.8522
92246809|NCT01797965|184397849|SUPERIORITY|||||||0.0431|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 84 for 301||||0.0431
92246810|NCT01797965|184397849|SUPERIORITY|||||||0.0339|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 96 for 301||||0.0339
92246811|NCT01797965|184397849|SUPERIORITY|||||||0.3195|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 108 for 301||||0.3195
92246812|NCT01797965|184397849|SUPERIORITY|||||||0.2119|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 120 for 301||||0.2119
92246813|NCT01797965|184397849|SUPERIORITY|||||||0.3619|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 132 for 301||||0.3619
92246814|NCT01797965|184397849|SUPERIORITY|||||||0.017|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 144 for 301||||0.0170
92246815|NCT01797965|184397849|SUPERIORITY|||||||0.017|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Baseline 303||||0.0170
92246816|NCT01797965|184397849|SUPERIORITY|||||||0.0849|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 12 for 303||||0.0849
92246817|NCT01797965|184397849|SUPERIORITY|||||||0.0057|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 24 for 303||||0.0057
92246818|NCT01797965|184397849|SUPERIORITY|||||||0.396|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 48 for 303||||0.3960
92246819|NCT01797965|184397851|SUPERIORITY||Odds Ratio (OR)|0.902||||0.8417|TWO_SIDED|95.0|0.329|2.473|||Regression, Logistic|Adjusted for the baseline relapse rate, history of prior IFN beta use (yes/no), baseline EDSS (\<=2.5 vs \>2.5) and baseline age (\<=35 vs \>35).||||2.473|0.329|0.8417
92246820|NCT01797965|184397873|SUPERIORITY|||||||0.3813|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 12||||0.3813
92246821|NCT01797965|184397873|SUPERIORITY|||||||0.1679|||||||ANOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 24||||0.1679
92246822|NCT01797965|184397873|SUPERIORITY|||||||0.5634|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 48||||0.5634
92246823|NCT01797965|184397873|SUPERIORITY|||||||0.7003|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 144||||0.7003
92246824|NCT01797965|184397873|SUPERIORITY|||||||0.7812|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 168||||0.7812
92246825|NCT01797965|184397873|SUPERIORITY|||||||0.3246|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 192||||0.3246
92246826|NCT01797965|184397873|SUPERIORITY|||||||0.6423|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 216||||0.6423
92246827|NCT01797965|184397873|SUPERIORITY|||||||0.0288|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 240||||0.0288
92246828|NCT01797965|184397874|SUPERIORITY|||||||0.2567|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 12 for 301||||0.2567
92246829|NCT01797965|184397874|SUPERIORITY|||||||0.6152|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 24 for 301||||0.6152
92246830|NCT01797965|184397874|SUPERIORITY|||||||0.2024|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 36 for 301||||0.2024
92246831|NCT01797965|184397874|SUPERIORITY|||||||0.9988|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 48 for 301||||0.9988
92246832|NCT01797965|184397874|SUPERIORITY|||||||0.7962|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 60 for 301||||0.7962
92246833|NCT01797965|184397874|SUPERIORITY|||||||0.8486|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 72 for 301||||0.8486
92246834|NCT01797965|184397874|SUPERIORITY|||||||0.4478|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 84 for 301||||0.4478
92246835|NCT01797965|184397874|SUPERIORITY|||||||0.325|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 96 for 301||||0.3250
92246836|NCT01797965|184397874|SUPERIORITY|||||||0.129|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 108 for 301||||0.1290
92246837|NCT01797965|184397874|SUPERIORITY|||||||0.7295|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 120 for 301||||0.7295
92246838|NCT01797965|184397874|SUPERIORITY|||||||0.8647|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 132 for 301||||0.8647
92246839|NCT01797965|184397874|SUPERIORITY|||||||0.2183|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 144 for 301||||0.2183
92246840|NCT01797965|184397874|SUPERIORITY|||||||0.3945|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Baseline 303||||0.3945
92246841|NCT01797965|184397874|SUPERIORITY|||||||0.5068|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 12 for 303||||0.5068
92246842|NCT01797965|184397874|SUPERIORITY|||||||0.1669|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 24 for 303||||0.1669
92175193|NCT01369355|184242426|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.018
92175194|NCT01369355|184242427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.189||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by ustekinumab induction dose and the induction study.||||||0.189
92246843|NCT01797965|184397874|SUPERIORITY|||||||0.5038|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 48 for 303||||0.5038
92246844|NCT01797965|184397874|SUPERIORITY|||||||0.6001|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 144 for 303||||0.6001
92246845|NCT01797965|184397874|SUPERIORITY|||||||0.8617|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 168 for 303||||0.8617
92246846|NCT01797965|184397874|SUPERIORITY|||||||0.259|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 192 for 303||||0.2590
92246847|NCT01797965|184397874|SUPERIORITY|||||||0.5159|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 216 for 303||||0.5159
92246848|NCT01797965|184397874|SUPERIORITY|||||||0.6123|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 240 for 303||||0.6123
92246849|NCT01764256|184397875|EQUIVALENCE|Definition of equivalence: p\<0.05||||||0.44|||||||Fisher Exact|||Proportion of subjects with at least one unsolicited adverse event (related or unrelated)||||0.44
92246850|NCT01764256|184397875|EQUIVALENCE|Definition of equivalence: p\<0.05||||||0.7446|||||||Fisher Exact|||Proportion of subjects with at least one unsolicited adverse event: potentially related||||0.7446
92246851|NCT01764256|184397876|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||0.5694|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic or local reaction)||||0.5694
92246852|NCT01764256|184397876|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic reaction)||||1.0000
92246853|NCT01764256|184397876|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (local reaction)||||1.0000
92246854|NCT01764256|184397877|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||0.6004|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic or local reaction)||||0.6004
92246855|NCT01764256|184397877|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic reaction)||||1
92246856|NCT01764256|184397877|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (local reaction)||||1.00
92246857|NCT01764256|184397878|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic or local reaction)||||1.0000
92246858|NCT01764256|184397878|EQUIVALENCE|Equivalence defined as p\<0.05||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic)||||1.0000
92246859|NCT01764256|184397878|EQUIVALENCE|Equivalence was defined as p\<0.05||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (local reaction)||||1.0000
92246860|NCT01764256|184397879|EQUIVALENCE|Equivalence was defined as p\<0.05||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic or local reaction)||||1.0000
92246861|NCT01764256|184397879|EQUIVALENCE|Equivalence was defined as p\<0.05||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic)||||1.0000
92246862|NCT01764256|184397879|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (local reaction)||||1.0000
92246863|NCT03373110|184397889|OTHER|||||||0.973||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models fit via maximum likelihood to examine the effect of the interventions on daily steps. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction. We used separate models to assess the intervention effects across the 8-week intervention period as well as the complete 16-week follow-up period.|The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||0.973
92246864|NCT03373110|184397889|OTHER|||||||0.005||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models to examine the effect of the interventions on average daily steps at 8 weeks into the study. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|We used linear mixed effects models to examine the effect of the interventions on daily steps. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to account for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||.005
92246865|NCT03373110|184397889|OTHER|||||||0.004||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models to examine the effect of the interventions on average daily steps at 8 weeks into the study. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|We used linear mixed effects models to examine the effect of the interventions on daily steps. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to account for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||.004
92246866|NCT03373110|184397889|OTHER|||||||0.627||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models to examine the effect of the interventions on average daily steps at 16 weeks into the study. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|We used linear mixed effects models to examine the effect of the interventions on daily steps. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to account for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||0.627
92282848|NCT01430741|184469370|SUPERIORITY_OR_OTHER||||||=|0.21|||||||Mixed Models Analysis|||Compared changes in alcohol dependence among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.21
92282849|NCT01430741|184469370|SUPERIORITY_OR_OTHER||||||=|0.07|||||||Mixed Models Analysis|||Compared changes in drug dependence among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.07
92282850|NCT01430741|184469371|SUPERIORITY_OR_OTHER||||||=|0.14|||||||Mixed Models Analysis|||Compared mental health inpatient hospitalizations among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.14
92282851|NCT01430741|184469371|SUPERIORITY_OR_OTHER||||||=|0.19|||||||Mixed Models Analysis|||Compared medical inpatient hospitalizations among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.19
92282852|NCT01430741|184469372|SUPERIORITY_OR_OTHER||||||=|0.24|||||||Mixed Models Analysis|||Compared changes in mental health emergency department visits among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.24
92282853|NCT01430741|184469373|SUPERIORITY_OR_OTHER||||||=|0.481|||||||Regression, Cox|||We used Kaplan-Meier survival curves to estimate the extent and timing of negative housing exits over time and Cox proportional hazards regression to assess the relationship between membership in the GTO group and risk of experiencing a negative housing exit, adjusting for a set of relevant covariates.||||=.481
92282854|NCT03587207|184469412|OTHER|rMenBOMV+ACWY\_S is to be declared statistically inferior if the 2-sided 80% CIs of the between group ratio of the GMT with rMenBOMV+ACWY\_D as control is lower than 1 at 1 month after last vaccination. The following ANCOVA model is used: fixed-effect model including age strata, study group, strain and center as fixed effects. The pre vaccination (Baseline) log-transformed titer with centering at zero is included as a continuous covariate.|Geometric mean ratio|0.96|||||TWO_SIDED|80.0|0.83|1.1|||ANCOVA|An interaction between strain and pre-vaccination log transformed titer is included in the model to fit to the serogroup B test strain data only.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the pooled B strains, one month after last vaccination.||1.10|0.83|
92282855|NCT03587207|184469413|OTHER|M14459 strain-Between group ratios for comparison of rMenBOMV+ACWY\_S and rMenBOMV+ACWY\_D groups|Geometric mean ratio|1.0|||||TWO_SIDED|80.0|0.84|1.2|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B M14459 (fHbp) strain, one month after last vaccination.||1.20|0.84|
92282856|NCT03587207|184469413|OTHER|96217 strain-Between group ratios for comparison of rMenBOMV+ACWY\_S and rMenBOMV+ACWY\_D groups|Geometric mean ratio|1.05||||||80.0|0.88|1.26|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B 96217 (NadA) strain, one month after last vaccination.||1.26|0.88|
92282857|NCT03587207|184469413|OTHER|NZ98/254 strain-Between group ratios for comparison of rMenBOMV+ACWY\_S and rMenBOMV+ACWY\_D groups|Geometric mean ratio|0.78|||||TWO_SIDED|80.0|0.64|0.95|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after last vaccination.||0.95|0.64|
92287263|NCT03086460|184479329|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.435|TWO_SIDED|95.0|0.6|3.23|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||3.23|0.60|0.435
92246867|NCT03373110|184397889|OTHER|||||||0.359||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models to examine the effect of the interventions on average daily steps at 16 weeks into the study. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|We used linear mixed effects models to examine the effect of the interventions on daily steps. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to account for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||0.359
92246868|NCT03373110|184397889|OTHER|||||||0.597||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models to examine the effect of the interventions on average daily steps at 16 weeks into the study. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|We used linear mixed effects models to examine the effect of the interventions on daily steps. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to account for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||0.597
92246869|NCT01599754|184397930|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.3211|TWO_SIDED|95.0|0.66|1.147|||Log Rank|||||1.147|0.660|0.3211
92246870|NCT01599754|184397931|SUPERIORITY||Hazard Ratio (HR)|1.026||||0.9246|TWO_SIDED|95.0|0.6|1.756|||Log Rank|||||1.756|0.600|0.9246
92246871|NCT00753935|184397945|SUPERIORITY|||||||0.005|||||||Wilcoxon rank-sum|||||||0.005
92246872|NCT03282357|184397954|NON_INFERIORITY|Non-inferiority margin, delta = 10 percent (%). The two-sided 95% confidence interval (CI) for the differences between percentages was constructed using the Newcombe's recommended method.|Difference in Percentage|-6.8|||||TWO_SIDED|95.0|-13.1|-0.5||||||||-0.5|-13.1|
92246873|NCT03282357|184397955|NON_INFERIORITY|Non-inferiority margin, delta = 15%. The two-sided 95% CI for the differences between percentages was constructed using the Newcombe's recommended method.|Difference in Percentage|-4.9|||||TWO_SIDED|95.0|-9.8|-0.3||||||||-0.3|-9.8|
92246874|NCT00594204|184397997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.78|||<|0.0001||95.0|2.97|7.68||p-values are obtained from a logistic regression model including the main effects of treatment and country|Regression, Logistic||Odds Ratios obtained from a logistic regression model including the main effects of treatment and country|||7.68|2.97|<0.0001
92246875|NCT00594204|184397998|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0|||<|0.0001||95.0|3.3|7.5||p-values obtained from a logistic regression model including the main effects of treatment and country|Regression, Logistic||Odds ratios obtained from a logistic regression model including the main effects of treatment and country|Week 12||7.5|3.3|<0.0001
92246876|NCT00594204|184397998|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.3|||<|0.0001||95.0|2.8|6.5||p-values obtained from a logistic regression model including the main effects of treatment and country|Regression, Logistic||Odds ratios obtained from a logistic regression model including the main effects of treatment and country|Week 24||6.5|2.8|<0.0001
92246877|NCT00594204|184397999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.76|||<|0.0001||95.0|3.74|8.88|||Regression, Logistic|p-value are obtained from a logistic regression model including the main effects of treatment and country|Odds Ratios obtained from a logistic regression model including the main effects of treatment and country|||8.88|3.74|<0.0001
92246878|NCT01369212|184398006|SUPERIORITY|||||||0.72|||||||Wald test|Proportion with HBsAg loss at week 240 in each group is estimated by Kaplan-Meier and then equality of proportion is tested using Wald test.||||||0.72
92246879|NCT01369212|184398007|SUPERIORITY|||||||0.09||||||The cumulative percentages with HBsAg loss at week 192 were estimated using Kaplan-Meier method and then the equality is tested using Wald test.|Wald Test|||||||0.09
92246880|NCT01369212|184398008|SUPERIORITY|||||||0.46|||||||Fisher Exact|||||||0.46
92282858|NCT03587207|184469413|OTHER|M07-0241084 strain- Between group ratios for comparison of rMenBOMV\_ACWY\_S group and rMenBOMV+ACWY\_D group|Geometric mean ratio|0.8|||||TWO_SIDED|80.0|0.66|0.96|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after last vaccination.||0.96|0.66|
92246881|NCT01369212|184398009|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
92246882|NCT01369212|184398010|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
92246883|NCT01369212|184398011|SUPERIORITY|||||||0.039|||||||Fisher Exact|||||||0.039
92246884|NCT01369212|184398012|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.20
92246885|NCT01369212|184398013|SUPERIORITY|||||||0.44|||||||Fisher Exact|||||||0.44
92246886|NCT01369212|184398014|SUPERIORITY|||||||0.06|||||||Fisher Exact|||||||0.06
92246887|NCT01369212|184398015|SUPERIORITY|||||||0.66|||||||Fisher Exact|||||||0.66
92246888|NCT01369212|184398016|SUPERIORITY|||||||0.02|||||||Fisher Exact|||||||0.02
92246889|NCT01369212|184398017|SUPERIORITY|||||||0.55|||||||Fisher Exact|||||||0.55
92246890|NCT01369212|184398018|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92246891|NCT01369212|184398019|SUPERIORITY|||||||0.87|||||||Fisher Exact|||||||0.87
92246892|NCT01369212|184398020|SUPERIORITY|||||||0.02|||||||Fisher Exact|||||||0.02
92246893|NCT01369212|184398021|SUPERIORITY|||||||0.66|||||||Fisher Exact|||||||0.66
92246894|NCT01369212|184398023|SUPERIORITY|||||||0.66|||||||Log Rank|||||||0.66
92246895|NCT01369212|184398024|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.01
92246896|NCT05757427|184398025|OTHER|"The sample size is calculated solely for the first primary endpoint, no minimal number of benign nor malignant lesions was set.~The sample size is calculated for this trial design, assuming a p1 = 75% and p0 = 60% for power (1-beta) of 80%, and an alpha level of 5%.~We will conclude that the Wavelia # 2 Microwave Breast Imaging system is effective in detecting breast lesions if more than 43 of the 62 subjects' lesions are detected."|Proportion of detected lesions|90.32|||||TWO_SIDED|95.0|80.45|95.49||||||||95.49|80.45|
92246897|NCT05757427|184398027|OTHER|The percentage of malignant and benign breast lesions correctly detected by Wavelia MWBI on patients that did not have a biopsy clip marking the lesion position in the breast, will be presented with 95% confidence interval.|Proportion of detected lesions|88.24|||||TWO_SIDED|95.0|65.66|96.71||||||||96.71|65.66|
92246898|NCT05757427|184398028|OTHER||Proportion of patients with AEs|5.48|||||TWO_SIDED|||||||||||||
92246899|NCT06795204|184398038|NON_INFERIORITY|Upper boundary of 90% CI should not exceed the margin of 10ms|Mean Difference (Final Values)|4.1|||<|0.05|TWO_SIDED|90.0|1.29|6.82|||Mixed Models Analysis||Upper boundary is 6.82ms, does not cross margin of the 10ms|1 min post-dose; worse case for the study drug||6.82|1.29|<0.05
92246900|NCT06795204|184398038|NON_INFERIORITY|Upper boundary of 90% CI should not exceed the margin of 10ms|Mean Difference (Final Values)|12.4|||<|0.05|TWO_SIDED|90.0|10.66|14.1|||Mixed Models Analysis||Upper boundary is 14.10ms, cross margin of the 10ms|3 h post-dose; worse case of the positive control||14.10|10.66|<0.05
92246901|NCT06795204|184398038|NON_INFERIORITY|Upper boundary of 90% CI should not exceed the margin of 10ms|Mean Difference (Final Values)|11.8|||<|0.05|TWO_SIDED|90.0|10.07|13.55|||Mixed Models Analysis||Upper boundary is 13.55ms, cross margin of the 10ms|4 h post-dose, second worse case of the positive control||13.55|10.07|<0.05
92246902|NCT02528253|184398070|SUPERIORITY||Least Square (LS) Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.1117|TWO_SIDED|95.0|-0.66|0.07|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. Analysis of covariance (ANCOVA) model for imputed datasets included treatment as a fixed effect, and baseline LBPI as a covariates, and study site as a random effect.||0.07|-0.66|0.1117
92246903|NCT02528253|184398070|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0281|TWO_SIDED|95.0|-0.76|-0.04|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline LBPI as a covariates, and study site as a random effect.||-0.04|-0.76|0.0281
92246904|NCT02528253|184398071|SUPERIORITY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.45||0.0035|TWO_SIDED|95.0|-2.21|-0.43|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.43|-2.21|0.0035
92246905|NCT02528253|184398071|SUPERIORITY||LS Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.46||0.0002|TWO_SIDED|95.0|-2.64|-0.83|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.83|-2.64|0.0002
92246906|NCT02528253|184398072|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.17||0.3118|TWO_SIDED|95.0|-0.5|0.16|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.16|-0.50|0.3118
92246907|NCT02528253|184398072|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.17||0.0958|TWO_SIDED|95.0|-0.6|0.05|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.05|-0.60|0.0958
92246908|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.12||0.0015|TWO_SIDED|95.0|-0.6|-0.14|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.14|-0.60|0.0015
92246909|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.12||0.0004|TWO_SIDED|95.0|-0.65|-0.19|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.19|-0.65|0.0004
92246910|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.11||0.0959|TWO_SIDED|95.0|-0.39|0.03|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.03|-0.39|0.0959
92282859|NCT03587207|184469413|OTHER|Serogroup A- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group|Geometric mean ratio|0.92|||||TWO_SIDED|80.0|0.74|1.14|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup A, one month after last vaccination.||1.14|0.74|
92246911|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.11||0.037|TWO_SIDED|95.0|-0.44|-0.01|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.01|-0.44|0.0370
92175195|NCT01369355|184242427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by ustekinumab induction dose and the induction study.||||||0.007
92175196|NCT01369355|184242428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.035
92246912|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.0008|TWO_SIDED|95.0|-0.76|-0.2|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.20|-0.76|0.0008
92246913|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.96|-0.39|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.39|-0.96|<.0001
92246914|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.13||0.0711|TWO_SIDED|95.0|-0.5|0.02|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.02|-0.50|0.0711
92246915|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.13||0.0661|TWO_SIDED|95.0|-0.5|0.02|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.02|-0.50|0.0661
92246916|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.13||0.0009|TWO_SIDED|95.0|-0.7|-0.18|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.18|-0.70|0.0009
92246917|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.16||0.0008|TWO_SIDED|95.0|-0.84|-0.22|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.22|-0.84|0.0008
92246918|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.0|-0.38|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.38|-1.00|<.0001
92246919|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.15||0.0274|TWO_SIDED|95.0|-0.61|-0.04|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.04|-0.61|0.0274
92246920|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.15||0.1495|TWO_SIDED|95.0|-0.5|0.08|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.08|-0.50|0.1495
92246921|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.15||0.0123|TWO_SIDED|95.0|-0.65|-0.08|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.08|-0.65|0.0123
92246922|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.17||0.0307|TWO_SIDED|95.0|-0.71|-0.03|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.03|-0.71|0.0307
92246923|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.17||0.0009|TWO_SIDED|95.0|-0.91|-0.24|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.24|-0.91|0.0009
92246924|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.2103|TWO_SIDED|95.0|-0.51|0.11|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.11|-0.51|0.2103
92246925|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.16||0.2656|TWO_SIDED|95.0|-0.48|0.13|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.13|-0.48|0.2656
92246926|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.16||0.0152|TWO_SIDED|95.0|-0.68|-0.07|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.07|-0.68|0.0152
92246927|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.19||0.5164|TWO_SIDED|95.0|-0.5|0.25|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.25|-0.50|0.5164
92246928|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.19||0.1488|TWO_SIDED|95.0|-0.66|0.1|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.10|-0.66|0.1488
92282860|NCT03587207|184469413|OTHER|Serogroup C- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group|Geometric mean ratio|1.0|||||TWO_SIDED|80.0|0.78|1.27|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup C, one month after last vaccination.||1.27|0.78|
92175197|NCT01369355|184242428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.004
92175198|NCT01369355|184242429|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2 sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission status at Week 0 and ustekinumab induction dose.||||||0.140
92246929|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.19||0.2431|TWO_SIDED|95.0|-0.6|0.15|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.15|-0.60|0.2431
92246930|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.2||0.2428|TWO_SIDED|95.0|-0.62|0.16|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.16|-0.62|0.2428
92282861|NCT03587207|184469413|OTHER|Serogroup W- Between group ratios for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group|Geometric mean ratio|0.97|||||TWO_SIDED|80.0|0.79|1.18|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup W, one month after last vaccination.||1.18|0.79|
92282862|NCT03587207|184469413|OTHER|Serogroup Y- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group|Geometric mean ratio|0.91|||||TWO_SIDED|80.0|0.69|1.19|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup Y, one month after last vaccination.||1.19|0.69|
92282863|NCT03587207|184469413|OTHER|M14459 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.02|||||TWO_SIDED|80.0|0.86|1.22|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B M14459 (fHbp) strain, one month after last vaccination.||1.22|0.86|
92282864|NCT03587207|184469413|OTHER|96217 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.79|||||TWO_SIDED|80.0|0.66|0.95|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B 96217 (NadA)strain, one month after last vaccination.||0.95|0.66|
92282865|NCT03587207|184469413|OTHER|NZ98/254 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.79|||||TWO_SIDED|80.0|0.65|0.97|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after last vaccination.||0.97|0.65|
92175199|NCT01369355|184242429|SUPERIORITY_OR_OTHER_LEGACY|||||||0.102||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2 sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission status at Week 0 and ustekinumab induction dose.||||||0.102
92246931|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.2||0.4561|TWO_SIDED|95.0|-0.54|0.24|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.24|-0.54|0.4561
92175200|NCT02319759|184242430|SUPERIORITY||Percent difference|39.7|||<|0.001|TWO_SIDED|95.0|25.3|54.1|||Cochran-Mantel-Haenszel|||||54.1|25.3|<0.001
92246932|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.2||0.3523|TWO_SIDED|95.0|-0.56|0.2|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.20|-0.56|0.3523
92246933|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.2||0.4403|TWO_SIDED|95.0|-0.53|0.23|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.23|-0.53|0.4403
92246934|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3205|TWO_SIDED|95.0|-0.58|0.19|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.19|-0.58|0.3205
92246935|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.2||0.5763|TWO_SIDED|95.0|-0.51|0.28|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.28|-0.51|0.5763
92246936|NCT02528253|184398073|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.2||0.2887|TWO_SIDED|95.0|-0.61|0.18|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.18|-0.61|0.2887
92246937|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.34||0.0121|TWO_SIDED|95.0|-1.5|-0.18|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.18|-1.50|0.0121
92246938|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|0.34|<|0.0001|TWO_SIDED|95.0|-2.05|-0.71|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.71|-2.05|<.0001
92246939|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.31||0.3697|TWO_SIDED|95.0|-0.89|0.33|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.33|-0.89|0.3697
92246940|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.3||0.0658|TWO_SIDED|95.0|-1.16|0.04|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-1.16|0.0658
92287264|NCT03086460|184479329|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.564|TWO_SIDED|95.0|0.56|2.89|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||2.89|0.56|0.564
92175201|NCT02319759|184242431|SUPERIORITY||Percentage (%) Difference|66.1|||<|0.001|TWO_SIDED|95.0|53.8|78.4|||Cochran-Mantel-Haenszel|||||78.4|53.8|<0.001
92175202|NCT02319759|184242432|SUPERIORITY||Least Square Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.471|-0.148|||MMRM|MMRM stands for Mixed-effects Model Repeated Measures||||-0.148|-0.471|<0.001
92175203|NCT03131154|184242482|OTHER||Hazard Ratio (HR)|1.129|||||TWO_SIDED|95.0|0.643|1.982|||||Cox proportional hazards model|||1.982|0.643|
92246941|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.31||0.0004|TWO_SIDED|95.0|-1.7|-0.5|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.50|-1.70|0.0004
92246942|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.38||0.0013|TWO_SIDED|95.0|-1.96|-0.48|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.48|-1.96|0.0013
92246943|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.96|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|95.0|-2.7|-1.21|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-1.21|-2.70|<.0001
92175204|NCT03131154|184242483|OTHER||Hazard Ratio (HR)|2.619|||||TWO_SIDED|95.0|0.989|6.939|||||Cox proportional hazards model|||6.939|0.989|
92175205|NCT06424236|184242484|SUPERIORITY||Least square (LS) mean|-0.1166|STANDARD_DEVIATION|0.29505||0.0117|TWO_SIDED|95.0|-0.206|-0.0272|||Mixed Model for Repeated Measures (MMRM)|||Week 52: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline Composite \[11C\] PiB-PET SUVR score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-0.0272|-0.2060|0.0117
92175206|NCT06424236|184242484|OTHER||LS mean|-0.4648|STANDARD_DEVIATION|0.46591|<|0.0001|TWO_SIDED|95.0|-0.5971|-0.3326|||MMRM|||Week 104: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline Composite \[11C\] PiB-PET SUVR score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-0.3326|-0.5971|<0.0001
92175207|NCT06424236|184242484|OTHER||LS mean|-0.7062|STANDARD_DEVIATION|0.43787|<|0.0001|TWO_SIDED|95.0|-0.8821|-0.5303|||MMRM|||Week 156: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline Composite \[11C\] PiB-PET SUVR score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-0.5303|-0.8821|<0.0001
92175208|NCT06424236|184242485|SUPERIORITY|Recurrent progression was defined as any progression which was either the first increase in CDR-SB above baseline or any progression above the highest preceding post-baseline value identified as a progression, where progression above the preceding value must be observed at 2 consecutive measurements unless the progression occurs at the last measurement.|Hazard Ratio (HR)|1.32||||0.4535|TWO_SIDED|95.0|0.64|2.7|||Regression, Cox|||The time to recurrent progression in CDR - sum of boxes. Baseline Asymptomatic Participants: Estimate and confidence interval was based on the Cox proportional hazards regression model including treatment and baseline estimated years to symptom onset as fixed effects. The OLE gantenerumab mITT analysis set included all participants in the OLE who met mITT criteria using OLE baseline as the baseline reference point.||2.70|0.64|0.4535
92175209|NCT06424236|184242485|OTHER|Recurrent progression was defined as any progression which was either the first increase in CDR-SB above baseline or any progression above the highest preceding post-baseline value identified as a progression, where progression above the preceding value must be observed at 2 consecutive measurements unless the progression occurs at the last measurement.|Hazard Ratio (HR)|1.18||||0.4848|TWO_SIDED|95.0|0.74|1.86|||Regression, Cox|||The time to recurrent progression in CDR - sum of boxes. Baseline Symptomatic Participants: Estimate and confidence interval was based on the Cox proportional hazards regression model including treatment and baseline estimated years to symptom onset as fixed effects. The OLE gantenerumab mITT analysis set included all participants in the OLE who met mITT criteria using OLE baseline as the baseline reference point.||1.86|0.74|0.4848
92175210|NCT06424236|184242486|OTHER||Hazard Ratio (HR)|0.93||||0.8855|TWO_SIDED|95.0|0.33|2.58|||Regression, Cox|||Time to first progression in CDR-Global score. Baseline Asymptomatic Participants: Estimate and confidence interval was based on Cox proportional hazards regression model including treatment and baseline estimated years to symptom onset as fixed effects. Time to first progression was defined as time from baseline to first visit where CDR-Global Score was greater than baseline value, where progression must be observed at 2 consecutive measurements unless progression occurs at last measurement.||2.58|0.33|0.8855
92175211|NCT06424236|184242486|OTHER||Hazard Ratio (HR)|0.72||||0.4497|TWO_SIDED|95.0|0.3|1.69|||Regression, Cox|||Time to first progression in CDR-Global score. Baseline Symptomatic Participants: Estimate and confidence interval was based on Cox proportional hazards regression model including treatment and baseline estimated years to symptom onset as fixed effects. Time to first progression was defined as time from baseline to first visit where CDR-Global Score was greater than baseline value, where progression must be observed at 2 consecutive measurements unless progression occurs at last measurement.||1.69|0.30|0.4497
92175212|NCT06424236|184242487|SUPERIORITY||LS mean|-0.06|STANDARD_ERROR_OF_MEAN|0.2||0.76|TWO_SIDED|95.0|-0.46|0.33|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Asymptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with compound symmetry covariance matrix.||0.33|-0.46|0.760
92246944|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.35||0.3906|TWO_SIDED|95.0|-0.99|0.39|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.39|-0.99|0.3906
92246945|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.35||0.0082|TWO_SIDED|95.0|-1.6|-0.24|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.24|-1.60|0.0082
92246946|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.65|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.34|-0.97|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.97|-2.34|<.0001
92282866|NCT03587207|184469413|NON_INFERIORITY|M07-0241084 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.73|||||TWO_SIDED|80.0|0.6|0.88|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after last vaccination.||0.88|0.60|
92175213|NCT06424236|184242487|OTHER||LS mean|-1.21|STANDARD_ERROR_OF_MEAN|0.715||0.093|TWO_SIDED|95.0|-2.63|0.2|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Symptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.20|-2.63|0.093
92246947|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.4||0.0006|TWO_SIDED|95.0|-2.15|-0.58|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.58|-2.15|0.0006
92246948|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.95|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.73|-1.16|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-1.16|-2.73|<.0001
92282867|NCT03587207|184469413|OTHER|Serogroup A- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.56|||||TWO_SIDED|80.0|0.45|0.69|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogrpoup A, one month after last vaccination.||0.69|0.45|
92282868|NCT03587207|184469413|OTHER|Serogroup C- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.19|||||TWO_SIDED|80.0|0.94|1.52|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup C, one month after last vaccination.||1.52|0.94|
92282869|NCT03587207|184469413|OTHER|Serogroup W- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.06|||||TWO_SIDED|80.0|0.87|1.29|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup W, one month after last vaccination.||1.29|0.87|
92282870|NCT03587207|184469413|OTHER|Serogroup Y- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.18|||||TWO_SIDED|80.0|0.9|1.55|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup Y, one month after last vaccination.||1.55|0.90|
92282871|NCT03587207|184469413|OTHER|M14459 strain- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV group.|Geometric mean ratio|1.02|||||TWO_SIDED|80.0|0.85|1.22|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B M14459(fHbp) strain, one month after last vaccination.||1.22|0.85|
92282872|NCT03587207|184469413|OTHER|96217 strain-Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV group.|Geometric mean ratio|0.9|||||TWO_SIDED|80.0|0.75|1.09|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after last vaccination.||1.09|0.75|
92282873|NCT03587207|184469413|OTHER|NZ98/254 strain-Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV group.|Geometric mean ratio|0.78|||||TWO_SIDED|80.0|0.64|0.96|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after last vaccination.||0.96|0.64|
92246949|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.37||0.0385|TWO_SIDED|95.0|-1.47|-0.04|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-1.47|0.0385
92282874|NCT03587207|184469413|OTHER|M07-0241084 strain-Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV group.|Geometric mean ratio|0.71|||||TWO_SIDED|80.0|0.58|0.86|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after last vaccination.||0.86|0.58|
92282875|NCT03587207|184469413|OTHER|Serogroup A- Between group ratio for comparison of rMenBOMV+ACWY\_S group and MenACWY group.|Geometric mean ratio|3.6|||||TWO_SIDED|80.0|2.9|4.47|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus MenACWY study groups, on the Meningitis serogroup A, one month after last vaccination.||4.47|2.90|
92282876|NCT03587207|184469413|OTHER|Serogroup C- Between group ratio for comparison of rMenBOMV+ACWY\_S group and MenACWY group.|Geometric mean ratio|4.18|||||TWO_SIDED|80.0|3.28|5.31|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus MenACWY study groups, on the Meningitis serogroup C, one month after last vaccination.||5.31|3.28|
92282877|NCT03587207|184469413|OTHER|Serogroup W- Between group ratio for comparison of rMenBOMV+ACWY\_S group and MenACWY group.|Geometric mean ratio|3.07|||||TWO_SIDED|80.0|2.52|3.73|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus MenACWY study groups, on the Meningitis serogroup W, one month after last vaccination.||3.73|2.52|
92282878|NCT03587207|184469413|OTHER|Serogroup Y- Between group ratio for comparison of rMenBOMV+ACWY\_S group and MenACWY group.|Geometric mean ratio|2.01|||||TWO_SIDED|80.0|1.53|2.65|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus MenACWY study groups, on the Meningitis serogroup Y, one month after last vaccination.||2.65|1.53|
92282879|NCT03587207|184469413|OTHER|M14459 strain- Between group ratio for comparison of rMenBOMV+ACWY\_D group and rMenBOMV group.|Geometric mean ratio|1.02|||||TWO_SIDED|80.0|0.85|1.22|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B M14459 (fHbp) strain, one month after last vaccination.||1.22|0.85|
92246950|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.37||0.0003|TWO_SIDED|95.0|-2.06|-0.61|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.61|-2.06|0.0003
92246951|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.45||0.0035|TWO_SIDED|95.0|-2.21|-0.43|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.43|-2.21|0.0035
92246952|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.46||0.0002|TWO_SIDED|95.0|-2.64|-0.83|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.83|-2.64|0.0002
92246953|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.42||0.5412|TWO_SIDED|95.0|-1.09|0.57|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.57|-1.09|0.5412
92246954|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.06|STANDARD_ERROR_OF_MEAN|0.42||0.0107|TWO_SIDED|95.0|-1.87|-0.25|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.25|-1.87|0.0107
92282880|NCT03587207|184469413|OTHER|96217 strain- Between group ratios for comparison of rMenBOMV+ACWY\_D group and rMenBOMV group|Geometric mean ratio|0.86|||||TWO_SIDED|80.0|0.71|1.04|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after last vaccination.||1.04|0.71|
92282881|NCT03587207|184469413|OTHER|NZ98/254 strain-Between group ratio for comparison of rMenBOMV+ACWY\_D group and rMenBOMV group.|Geometric mean ratio|1.01|||||TWO_SIDED|80.0|0.82|1.24|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after last vaccination.||1.24|0.82|
92282882|NCT03587207|184469413|OTHER|M07-0241084 strain-Between group ratio for comparison of rMenBOMV+ACWY\_D group and rMenBOMV group.|Geometric mean ratio|0.89|||||TWO_SIDED|80.0|0.73|1.09|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after last vaccination.||1.09|0.73|
92282883|NCT03587207|184469413|OTHER|Serogroup A-Between group ratio for comparison of rMenBOMV+ACWY\_D group and MenACWY group.|Geometric mean ratio|3.92|||||TWO_SIDED|80.0|3.15|4.88|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus MenACWY study groups, on the Meningitis serogroup A, one month after last vaccination.||4.88|3.15|
92282884|NCT03587207|184469413|OTHER|Serogroup C- Between group ratio for comparison of rMenBOMV+ACWY\_D group and MenACWY group.|Geometric mean ratio|4.19|||||TWO_SIDED|80.0|3.3|5.34|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus MenACWY study groups, on the Meningitis serogroup C, one month after last vaccination.||5.34|3.30|
92282885|NCT03587207|184469413|OTHER|Serogroup W- Between group ratio for comparison of rMenBOMV+ACWY\_D group and MenACWY group.|Geometric mean ratio|3.17|||||TWO_SIDED|80.0|2.6|3.87|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus MenACWY study groups, on the Meningitis serogroup W, one month after last vaccination.||3.87|2.60|
92282886|NCT03587207|184469413|OTHER|Serogroup Y- Between group ratio for comparison of rMenBOMV+ACWY\_D group and MenACWY group.|Geometric mean ratio|2.22|||||TWO_SIDED|80.0|1.68|2.92|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus MenACWY study groups, on the Meningitis serogroup Y, one month after last vaccination.||2.92|1.68|
92282887|NCT03587207|184469413|OTHER|M14459- Between group ratios for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|1.05|||||TWO_SIDED|80.0|0.87|1.25|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B M14459 (fHbp) strain, one month after last vaccination.||1.25|0.87|
92282888|NCT03587207|184469413|OTHER|96217 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV group.|Geometric mean ratio|0.71|||||TWO_SIDED|80.0|0.59|0.86|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after last vaccination.||0.86|0.59|
92282889|NCT03587207|184469413|OTHER|NZ98/254 strain-Between group ratios for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.62|||||TWO_SIDED|80.0|0.5|0.76|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after last vaccination.||0.76|0.50|
92246955|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|0.42||0.0004|TWO_SIDED|95.0|-2.29|-0.66|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.66|-2.29|0.0004
92246956|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.49||0.0464|TWO_SIDED|95.0|-1.94|-0.02|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-1.94|0.0464
92175214|NCT06424236|184242488|OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.989|TWO_SIDED|95.0|-0.43|0.44|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Asymptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.44|-0.43|0.989
92282890|NCT03587207|184469413|OTHER|M07-0241084 strain-Between group ratios for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.52|||||TWO_SIDED|80.0|0.42|0.63|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after last vaccination.||0.63|0.42|
92282891|NCT03587207|184469413|OTHER|Serogroup A- Between group ratios for comparison between MenABCWY group and MenACWY group|Geometric mean ratio|2.02|||||TWO_SIDED|80.0|1.62|2.51|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus MenACWY study groups, on the Meningitis serogroup A, one month after last vaccination.||2.51|1.62|
92282892|NCT03587207|184469413|OTHER|Serogroup C- Between group ratios for comparison of MenABCWY group and MenACWY group|Odds Ratio (OR)|4.99|||||TWO_SIDED|80.0|3.92|6.35|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus MenACWY study groups, on the Meningitis serogroup C, one month after last vaccination.||6.35|3.92|
92282893|NCT03587207|184469413|OTHER|Serogroup W- Between group ratios for comparison of MenABCWY group and MenACWY group|Geometric mean ratio|3.25|||||TWO_SIDED|80.0|2.66|3.96|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus MenACWY study groups, on the Meningitis serogroup W, one month after last vaccination.||3.96|2.66|
92282894|NCT03587207|184469413|OTHER|Serogroup Y- Between group ratio for comparison of MenABCWY group and MenACWY group|Geometric mean ratio|2.38|||||TWO_SIDED|80.0|1.81|3.12|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus MenACWY study groups, on the Meningitis serogroup Y, one month after last vaccination.||3.12|1.81|
92282895|NCT03587207|184469417|OTHER|Between group ratio is calculated as GMT for rMenBOMV+ACWY\_S Group over GMT for rMenBOMV+ACWY\_D Group. 80% CI are obtained from Analysis of Covariance model fitted to pooled Serogroup B Strains. The following ANCOVA model is used: fixed-effect model including age strata, study group, strain and center as fixed effects. The pre vaccination (Baseline) log-transformed titer with centering at zero is included as a continuous covariate.|Geometric mean ratio|1.02|||||TWO_SIDED|80.0|0.86|1.22|||ANCOVA|An interaction between strain and pre-vaccination log transformed titer is included in the model to fit to the serogroup B test strain data only.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the pooled B strains, one month after first vaccination.||1.22|0.86|
92282896|NCT03587207|184469418|OTHER|M14459 strain- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|1.29|||||TWO_SIDED|80.0|1.02|1.63|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B M14459 (fHbp) strain, one month after first vaccination.||1.63|1.02|
92282897|NCT03587207|184469418|OTHER|96217 strain- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|0.93|||||TWO_SIDED|80.0|0.75|1.15|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B 96217 (NadA) strain, one month after first vaccination.||1.15|0.75|
92282898|NCT03587207|184469418|OTHER|NZ98/254 strain- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|1.01|||||TWO_SIDED|80.0|0.8|1.29|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B NZ98/254 (PorA)strain, one month after first vaccination.||1.29|0.80|
92282899|NCT03587207|184469418|OTHER|M07-0241084 strain-Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Odds Ratio (OR)|1.08|||||TWO_SIDED|80.0|0.87|1.36|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after first vaccination.||1.36|0.87|
92282900|NCT03587207|184469418|OTHER|Serogroup A- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|0.77|||||TWO_SIDED|80.0|0.58|1.03|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup A, one month after first vaccination.||1.03|0.58|
92282901|NCT03587207|184469418|OTHER|Serogroup C- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D Group.|Geometric mean ratio|0.84|||||TWO_SIDED|80.0|0.62|1.13|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup C, one month after first vaccination.||1.13|0.62|
92282902|NCT03587207|184469418|OTHER|Serogroup W- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|0.88|||||TWO_SIDED|80.0|0.68|1.13|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup W, one month after first vaccination.||1.13|0.68|
92282903|NCT03587207|184469418|OTHER|Serogroup Y- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|0.76|||||TWO_SIDED|80.0|0.54|1.08|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup Y, one month after first vaccination.||1.08|0.54|
92246957|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.49||0.0068|TWO_SIDED|95.0|-2.3|-0.37|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.37|-2.30|0.0068
92246958|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.5||0.1485|TWO_SIDED|95.0|-1.7|0.26|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.26|-1.70|0.1485
92246959|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.5||0.0507|TWO_SIDED|95.0|-1.94|0.0|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.00|-1.94|0.0507
92246960|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.51||0.248|TWO_SIDED|95.0|-1.6|0.41|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.41|-1.60|0.2480
92246961|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.51||0.1605|TWO_SIDED|95.0|-1.71|0.28|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-1.71|0.1605
92246962|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.52||0.3654|TWO_SIDED|95.0|-1.5|0.55|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.55|-1.50|0.3654
92246963|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.52||0.1782|TWO_SIDED|95.0|-1.71|0.32|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.32|-1.71|0.1782
92246964|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.52||0.3981|TWO_SIDED|95.0|-1.47|0.58|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.58|-1.47|0.3981
92246965|NCT02528253|184398075|SUPERIORITY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.52||0.1089|TWO_SIDED|95.0|-1.84|0.18|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.18|-1.84|0.1089
92246966|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.1472|TWO_SIDED|95.0|-0.18|0.03|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.18|0.1472
92246967|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.05||0.0135|TWO_SIDED|95.0|-0.24|-0.03|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.03|-0.24|0.0135
92246968|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.0893|TWO_SIDED|95.0|-0.18|0.01|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.01|-0.18|0.0893
92246969|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.05||0.0044|TWO_SIDED|95.0|-0.23|-0.04|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.23|0.0044
92246970|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.0025|TWO_SIDED|95.0|-0.28|-0.06|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.06|-0.28|0.0025
92246971|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.06||0.0002|TWO_SIDED|95.0|-0.32|-0.1|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.32|0.0002
92282904|NCT03587207|184469418|OTHER|M14459 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.87|||||TWO_SIDED|80.0|0.69|1.09|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B M14459 (fHbp) strain, one month after first vaccination.||1.09|0.69|
92282905|NCT03587207|184469418|OTHER|96217 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.73|||||TWO_SIDED|80.0|0.58|0.9|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B 96217 (NadA) strain, one month after first vaccination.||0.90|0.58|
92282906|NCT03587207|184469418|OTHER|NZ98/254 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.78|||||TWO_SIDED|80.0|0.61|1.0|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after first vaccination.||1.00|0.61|
92246972|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8348|TWO_SIDED|95.0|-0.11|0.09|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.11|0.8348
92246973|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.05||0.002|TWO_SIDED|95.0|-0.26|-0.06|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.06|-0.26|0.0020
92246974|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.05||0.0001|TWO_SIDED|95.0|-0.3|-0.1|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.30|0.0001
92246975|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.0272|TWO_SIDED|95.0|-0.25|-0.01|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.01|-0.25|0.0272
92246976|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06||0.0009|TWO_SIDED|95.0|-0.31|-0.08|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.08|-0.31|0.0009
92246977|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.05||0.168|TWO_SIDED|95.0|-0.18|0.03|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.18|0.1680
92246978|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.05||0.2968|TWO_SIDED|95.0|-0.16|0.05|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.16|0.2968
92246979|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0219|TWO_SIDED|95.0|-0.23|-0.02|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.23|0.0219
92246980|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.0717|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.01|-0.25|0.0717
92246981|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.0207|TWO_SIDED|95.0|-0.29|-0.02|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.29|0.0207
92246982|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.8399|TWO_SIDED|95.0|-0.11|0.13|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.11|0.8399
92246983|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.0299|TWO_SIDED|95.0|-0.25|-0.01|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.01|-0.25|0.0299
92246984|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.006|TWO_SIDED|95.0|-0.29|-0.05|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.05|-0.29|0.0060
92246985|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.1974|TWO_SIDED|95.0|-0.24|0.05|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.24|0.1974
92246986|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.278|TWO_SIDED|95.0|-0.22|0.06|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.06|-0.22|0.2780
92246987|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.433|TWO_SIDED|95.0|-0.21|0.09|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.21|0.4330
92246988|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.4946|TWO_SIDED|95.0|-0.2|0.09|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.20|0.4946
92246989|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.1884|TWO_SIDED|95.0|-0.25|0.05|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.25|0.1884
92246990|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.08||0.521|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.20|0.5210
92175215|NCT06424236|184242488|OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.533||0.714|TWO_SIDED|95.0|-0.86|1.25|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Symptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||1.25|-0.86|0.714
92175216|NCT06424236|184242489|OTHER||LS mean|-0.03|STANDARD_ERROR_OF_MEAN|0.077||0.738|TWO_SIDED|95.0|-0.18|0.13|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Asymptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.13|-0.18|0.738
92246991|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.3329|TWO_SIDED|95.0|-0.23|0.08|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.08|-0.23|0.3329
92246992|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.08||0.5173|TWO_SIDED|95.0|-0.21|0.1|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.21|0.5173
92246993|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.2346|TWO_SIDED|95.0|-0.25|0.06|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.06|-0.25|0.2346
92246994|NCT02528253|184398077|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.08||0.3634|TWO_SIDED|95.0|-0.23|0.09|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.23|0.3634
92175217|NCT06424236|184242489|OTHER||LS mean|0.19|STANDARD_ERROR_OF_MEAN|0.222||0.395|TWO_SIDED|95.0|-0.28|0.66|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Symptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.66|-0.28|0.395
92175218|NCT06424236|184242490|OTHER||LS mean|-2.176|STANDARD_DEVIATION|2.89551|<|0.0001|TWO_SIDED|95.0|-2.9469|-1.4051|||MMRM|||Week 56: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF pTau181 as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-1.4051|-2.9469|<0.0001
92175219|NCT06424236|184242490|OTHER||LS mean|-4.8434|STANDARD_DEVIATION|3.78771|<|0.0001|TWO_SIDED|95.0|-5.8609|-3.826|||MMRM|||Week 104: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF pTau181 as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-3.8260|-5.8609|<0.0001
92175220|NCT06424236|184242490|OTHER||LS mean|-5.762|STANDARD_DEVIATION|3.31129|<|0.0001|TWO_SIDED|95.0|-6.9679|-4.5561|||MMRM|||Week 156: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF pTau181 as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-4.5561|-6.9679|<0.0001
92175221|NCT06424236|184242491|OTHER||LS mean|0.04|STANDARD_ERROR_OF_MEAN|0.022||0.055|TWO_SIDED|95.0|0.0|0.09|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Asymptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with variance components covariance matrix.||0.09|0.00|0.055
92175222|NCT06424236|184242491|OTHER||LS mean|0.04|STANDARD_ERROR_OF_MEAN|0.034||0.188|TWO_SIDED|95.0|-0.02|0.11|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Symptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.11|-0.02|0.188
92175223|NCT06424236|184242492|OTHER||LS mean|0.0067|STANDARD_DEVIATION|0.0124||0.0001|TWO_SIDED|95.0|0.0034|0.01|||MMRM|||Week 52: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF Amyloid Beta1-42/40 score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||0.0100|0.0034|0.0001
92175224|NCT06424236|184242492|OTHER||LS mean|0.0251|STANDARD_DEVIATION|0.02262|<|0.0001|TWO_SIDED|95.0|0.0189|0.0312|||MMRM|||Week 104: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF Amyloid Beta1-42/40 score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||0.0312|0.0189|<0.0001
92282907|NCT03587207|184469418|OTHER|M07-0241084 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.86|||||TWO_SIDED|80.0|0.68|1.07|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after first vaccination.||1.07|0.68|
92282908|NCT03587207|184469418|OTHER|Serogroup A- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.46|||||TWO_SIDED|80.0|0.35|0.62|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup A, one month after first vaccination.||0.62|0.35|
92282909|NCT03587207|184469418|OTHER|Serogroup C- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.22|||||TWO_SIDED|80.0|0.91|1.65|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup C, one month after first vaccination.||1.65|0.91|
92282910|NCT03587207|184469418|OTHER|Serogroup W- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.34|||||TWO_SIDED|80.0|1.04|1.72|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup W, one month after first vaccination.||1.72|1.04|
92282911|NCT03587207|184469418|OTHER|Serogroup Y- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.98|||||TWO_SIDED|80.0|0.7|1.38|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup Y, one month after first vaccination.||1.38|0.70|
92282912|NCT03587207|184469418|OTHER|M14459 strain-Between group ratio for comparison of rMenBOMV\_ACWY\_S group and rMenBOMV group.|Geometric mean ratio|1.05|||||TWO_SIDED|80.0|0.83|1.32|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B M14459 (fHbp) strain, one month after first vaccination.||1.32|0.83|
92282913|NCT03587207|184469418|OTHER|96217 strain-Between group ratio for comparison of rMenBOMV\_ACWY\_S group and rMenBOMV group|Geometric mean ratio|0.8|||||TWO_SIDED|80.0|0.64|1.0|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after first vaccination.||1.00|0.64|
92175225|NCT06424236|184242492|OTHER||LS mean|0.0357|STANDARD_DEVIATION|0.02467|<|0.0001|TWO_SIDED|95.0|0.0266|0.0447|||MMRM|||Week 156: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF Amyloid Beta1-42/40 score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||0.0447|0.0266|<0.0001
92282914|NCT03587207|184469418|OTHER|NZ98/254 strain -Between group ratio for comparison of rMenBOMV\_ACWY\_S group and rMenBOMV group|Geometric mean ratio|0.88|||||TWO_SIDED|80.0|0.69|1.13|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after first vaccination.||1.13|0.69|
92287265|NCT03086460|184479329|SUPERIORITY|"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."|Hazard Ratio (HR)|0.91||||0.818|TWO_SIDED|95.0|0.41|2.01|||Regression, Cox|||||2.01|0.41|0.818
92246995|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0007|TWO_SIDED|95.0|1.26|2.39|||Regression, Logistic|||Week 2, \>=30%: Odds ratio (OR) and 95% Confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.39|1.26|0.0007
92246996|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0004|TWO_SIDED|95.0|1.29|2.44|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.44|1.29|0.0004
92282915|NCT03587207|184469418|OTHER|M07-0241084 strain -Between group ratio for comparison of rMenBOMV\_ACWY\_S group and rMenBOMV group|Geometric mean ratio|0.95|||||TWO_SIDED|80.0|0.76|1.19|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after first vaccination.||1.19|0.76|
92246997|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.14||||0.3456|TWO_SIDED|95.0|0.87|1.5|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.50|0.87|0.3456
92246998|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2771|TWO_SIDED|95.0|0.89|1.53|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.53|0.89|0.2771
92246999|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.54||||0.0594|TWO_SIDED|95.0|0.98|2.41|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.41|0.98|0.0594
92247000|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0105|TWO_SIDED|95.0|1.14|2.75|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.75|1.14|0.0105
92287266|NCT02545283|184479358|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.5752|TWO_SIDED|95.0|0.81|1.45|||Log Rank|||||1.45|0.81|0.5752
92247001|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.29||||0.236|TWO_SIDED|95.0|0.85|1.98|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.98|0.85|0.2360
92247002|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.19||||0.3746|TWO_SIDED|95.0|0.81|1.75|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.75|0.81|0.3746
92282916|NCT03587207|184469418|OTHER|M14459 strain -Between group ratio for comparison of rMenBOMV\_ACWY\_D group and rMenBOMV group|Geometric mean ratio|0.81|||||TWO_SIDED|80.0|0.64|1.03|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B M14459 (fHbp) strain, one month after first vaccination.||1.03|0.64|
92287267|NCT00583453|184479422|SUPERIORITY_OR_OTHER|||||||0.674||||||Treatment x day interaction|Wilcoxon (Mann-Whitney)|||||||.674
92247003|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0974|TWO_SIDED|95.0|0.94|1.99|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.99|0.94|0.0974
92247004|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.94||||0.0806|TWO_SIDED|95.0|0.92|4.08|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||4.08|0.92|0.0806
92247005|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|2.15||||0.0407|TWO_SIDED|95.0|1.03|4.47|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||4.47|1.03|0.0407
92247006|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5966|TWO_SIDED|95.0|0.58|2.58|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.58|0.58|0.5966
92247007|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.59||||0.1492|TWO_SIDED|95.0|0.85|2.96|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.96|0.85|0.1492
92287268|NCT00583453|184479423|SUPERIORITY_OR_OTHER|||||||0.018||||||Treatment x day interaction reported as 0.018.|Wilcoxon (Mann-Whitney)|||||||0.018
92247008|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.76||||0.072|TWO_SIDED|95.0|0.95|3.24|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.24|0.95|0.0720
92247009|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9926|TWO_SIDED|95.0|0.25|4.0|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||4.00|0.25|0.9926
92247010|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.75||||0.3726|TWO_SIDED|95.0|0.51|6.04|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||6.04|0.51|0.3726
92247011|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|0.83||||0.7874|TWO_SIDED|95.0|0.22|3.12|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.12|0.22|0.7874
92287269|NCT00583453|184479424|SUPERIORITY_OR_OTHER|||||||0.214||||||Treatment x day interaction = 0.214|Wilcoxon (Mann-Whitney)|||||||.214
92175226|NCT06424236|184242493|OTHER||LS mean|0.04|STANDARD_ERROR_OF_MEAN|0.081||0.644|TWO_SIDED|95.0|-0.12|0.2|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Asymptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.20|-0.12|0.644
92175227|NCT06424236|184242493|OTHER||LS mean|0.04|STANDARD_ERROR_OF_MEAN|0.111||0.745|TWO_SIDED|95.0|-0.18|0.26|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Symptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.26|-0.18|0.745
92175228|NCT04213872|184242494|OTHER|||||||0.01|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value CogPCI 25.4 (14.2) 17.3 (10.5) \*-8.1 (3.7) .01~\*reduction in scores indicate improvement."||||.01
92175229|NCT04213872|184242495|OTHER|||||||0.03|||||||t-test, 2 sided|||Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value CogPCA 16.0 (5.1) 19.2 (5.3) 3.2 (0.2) .03||||.03
92175230|NCT04213872|184242496|OTHER|||||||0.04|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value CogQOL 3.7 (3.8) 1.8 (2.2) \*-1.9 (1.6) .04~\*lower scores signifying better outcomes."||||.04
92175231|NCT04213872|184242497|OTHER|||||||0.04|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value CogOth 1.5 (2.1) 0.2 (0.4) \*-1.3 (1.7) .04~\*lower scores signifying better outcomes."||||.04
92175232|NCT04213872|184242498|OTHER|||||||0.01|||||||t-test, 2 sided|||Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value WAIS-III Letter/Number 10.7 (3.2) 12.7 (2.8) 2.0 (0.4) .01||||.01
92175233|NCT04213872|184242499|OTHER|||||||0.6|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value~WAIS-III Digit Span Forward and Backward 19.2 (4.8) 19.7 (4.4) 0.5 (0.4) .60"||||.60
92175234|NCT04213872|184242500|OTHER|||||||0.03|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value PSQI 1.5 (0.8) 0.9 (0.7) \*-0.6 (0.1) .03~\*Lower scores mean better outcomes."||||.03
92175235|NCT04213872|184242501|OTHER|||||||0.05|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value POMS Anxiety 9.2 (7.7) 4.2 (3.7) \*-5.0 (4.0) .05~\*Lower scores mean better outcomes."||||.05
92282917|NCT03587207|184469418|OTHER|96217 strain -Between group ratio for comparison of rMenBOMV\_ACWY\_D group and rMenBOMV group|Geometric mean ratio|0.87|||||TWO_SIDED|80.0|0.69|1.09|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after first vaccination.||1.09|0.69|
92287270|NCT00583453|184479426|SUPERIORITY_OR_OTHER|||||||0.036||||||treatment x day interaction P = 0.036 Treatment main effect (average day 1 to 10) P = 0.003|Wilcoxon (Mann-Whitney)|||||||0.036
92175236|NCT04213872|184242502|OTHER|||||||0.08|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value POMS Depression 4.1 (4.9) 2.0 (3.0) \*-2.1 (1.9) .08~\*Lower scores mean better outcomes."||||.08
92175237|NCT04213872|184242503|OTHER|||||||0.3|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value BDNF 0.11 (0.9) 0.30 (0.7) 0.19 (0.2) .30~Higher scores mean better outcomes."||||.30
92175238|NCT04213872|184242504|OTHER|||||||0.8|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value NF-kB1 171.7 (25.4) 173.7 (21.6) 2.0 (3.8) .80~Higher scores mean better outcomes."||||.80
92175239|NCT04213872|184242505|OTHER|||||||0.61|||||||t-test, 2 sided|||Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value TP53 12.3 (2.7) 13.1 (5.5) 0.8 (2.8) .61||||.61
92175240|NCT03339713|184242506|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after the administration of influenza vaccine, using a non-inferiority margin of 2 for the GMT ratio (Group 2 / Group 1).|Geometric Mean Ratio|0.8|||<|0.001|TWO_SIDED|90.0|0.55|1.11|||t-test, 1 sided|||A/Michigan strain: Based on Welch-Satterthwaite t-interval method. The difference (Group 2 minus Group 1) and CI in log-transformed HI antibody titers were calculated for each of the 4 influenza vaccine strains, and were back-transformed (by exponentiation) to a GMT ratio (Group 2 / Group 1) and the corresponding CI.||1.11|0.55|<.001
92183021|NCT02434328|184264733|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.3|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||3.8|-8.3|
92247012|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.19||||0.795|TWO_SIDED|95.0|0.32|4.46|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||4.46|0.32|0.7950
92247013|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|2.1||||0.2065|TWO_SIDED|95.0|0.66|6.68|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||6.68|0.66|0.2065
92247014|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0006|TWO_SIDED|95.0|1.23|2.17|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.17|1.23|0.0006
92247015|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|2.05|||<|0.0001|TWO_SIDED|95.0|1.55|2.72|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.72|1.55|<.0001
92247016|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0387|TWO_SIDED|95.0|1.01|1.71|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.71|1.01|0.0387
92247017|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.24||||0.0903|TWO_SIDED|95.0|0.97|1.6|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.60|0.97|0.0903
92247018|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0006|TWO_SIDED|95.0|1.21|2.01|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.01|1.21|0.0006
92247019|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.5||||0.0166|TWO_SIDED|95.0|1.08|2.09|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.09|1.08|0.0166
92247020|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.89||||0.0001|TWO_SIDED|95.0|1.36|2.62|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.62|1.36|0.0001
92247021|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.27||||0.1389|TWO_SIDED|95.0|0.93|1.73|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.73|0.93|0.1389
92247022|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.19||||0.2504|TWO_SIDED|95.0|0.89|1.59|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.59|0.89|0.2504
92247023|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0057|TWO_SIDED|95.0|1.12|1.98|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.98|1.12|0.0057
92247024|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0126|TWO_SIDED|95.0|1.14|2.93|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.93|1.14|0.0126
92247025|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|2.69|||<|0.0001|TWO_SIDED|95.0|1.71|4.22|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||4.22|1.71|<.0001
92282918|NCT03587207|184469418|OTHER|NZ98/254 strain -Between group ratio for comparison of rMenBOMV\_ACWY\_D group and rMenBOMV group|Geometrical mean ratio|0.87|||||TWO_SIDED|80.0|0.68|1.12|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after first vaccination.||1.12|0.68|
92247026|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.25||||0.3485|TWO_SIDED|95.0|0.79|1.99|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.99|0.79|0.3485
92247027|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.46||||0.0642|TWO_SIDED|95.0|0.98|2.19|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.19|0.98|0.0642
92282919|NCT03587207|184469418|OTHER|M07-0241084 strain-Between group ratio for comparison of rMenBOMV\_ACWY\_D group and rMenBOMV group|Geometrical mean ratio|0.88|||||TWO_SIDED|80.0|0.7|1.1|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after first vaccination.||1.10|0.70|
92282920|NCT03587207|184469418|OTHER|M14459 strain-Between group ratio for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.91|||||TWO_SIDED|80.0|0.71|1.15|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B M14459 (fHbp)strain, one month after first vaccination.||1.15|0.71|
92282921|NCT03587207|184469418|OTHER|96217 strain-Between group ratio for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.58|||||TWO_SIDED|80.0|0.47|0.73|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after first vaccination.||0.73|0.47|
92247028|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|2.16|||<|0.0001|TWO_SIDED|95.0|1.48|3.14|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.14|1.48|<.0001
92247029|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9819|TWO_SIDED|95.0|0.42|2.31|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.31|0.42|0.9819
92287271|NCT00905606|184479427|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA guidelines.|Ratio of the LS Mean (test/ref x 100)|93.91||||||90.0|85.42|103.25|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.25|85.42|
92247030|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.37||||0.4333|TWO_SIDED|95.0|0.62|3.02|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.02|0.62|0.4333
92247031|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|0.91||||0.814|TWO_SIDED|95.0|0.41|2.0|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.00|0.41|0.8140
92247032|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.09||||0.8331|TWO_SIDED|95.0|0.49|2.4|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.40|0.49|0.8331
92247033|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.51||||0.2682|TWO_SIDED|95.0|0.73|3.12|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.12|0.73|0.2682
92247034|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0001|TWO_SIDED|95.0|1.31|2.29|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.29|1.31|0.0001
92247035|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.97|||<|0.0001|TWO_SIDED|95.0|1.49|2.61|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.61|1.49|<.0001
92247036|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0071|TWO_SIDED|95.0|1.1|1.83|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.83|1.10|0.0071
92247037|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1187|TWO_SIDED|95.0|0.95|1.57|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.57|0.95|0.1187
92247038|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.39||||0.011|TWO_SIDED|95.0|1.08|1.79|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.79|1.08|0.0110
92247039|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0003|TWO_SIDED|95.0|1.3|2.39|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.39|1.30|0.0003
92247040|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|2.12|||<|0.0001|TWO_SIDED|95.0|1.57|2.87|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.87|1.57|<.0001
92247041|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0069|TWO_SIDED|95.0|1.11|1.97|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.97|1.11|0.0069
92247042|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.19||||0.2076|TWO_SIDED|95.0|0.91|1.55|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.55|0.91|0.2076
92247043|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0072|TWO_SIDED|95.0|1.1|1.86|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.86|1.10|0.0072
92247044|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0694|TWO_SIDED|95.0|0.97|2.22|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.22|0.97|0.0694
92287272|NCT00905606|184479428|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA guidelines.|Ratio of the LS Mean (test/ref x 100)|98.27||||||90.0|94.63|102.05|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.05|94.63|
92247045|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|2.27|||<|0.0001|TWO_SIDED|95.0|1.53|3.36|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.36|1.53|<.0001
92247046|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.36||||0.121|TWO_SIDED|95.0|0.92|2.0|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.00|0.92|0.1210
92247047|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.08||||0.6706|TWO_SIDED|95.0|0.76|1.54|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.54|0.76|0.6706
92247048|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.67||||0.0022|TWO_SIDED|95.0|1.2|2.32|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.32|1.20|0.0022
92247049|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.12||||0.7546|TWO_SIDED|95.0|0.56|2.22|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.22|0.56|0.7546
92247050|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.13||||0.7347|TWO_SIDED|95.0|0.57|2.24|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.24|0.57|0.7347
92247051|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9029|TWO_SIDED|95.0|0.5|1.84|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.84|0.50|0.9029
92247052|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.16||||0.6402|TWO_SIDED|95.0|0.62|2.18|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.18|0.62|0.6402
92247053|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.17||||0.6199|TWO_SIDED|95.0|0.62|2.2|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.20|0.62|0.6199
92247054|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0229|TWO_SIDED|95.0|1.05|1.83|||Regression, Logistic|||Week 12, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.83|1.05|0.0229
92247055|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0002|TWO_SIDED|95.0|1.3|2.3|||Regression, Logistic|||Week 12, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.30|1.30|0.0002
92247056|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.14||||0.315|TWO_SIDED|95.0|0.88|1.47|||Regression, Logistic|||Week 12, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.47|0.88|0.3150
92247057|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.21||||0.137|TWO_SIDED|95.0|0.94|1.57|||Regression, Logistic|||Week 12, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.57|0.94|0.1370
92247058|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0018|TWO_SIDED|95.0|1.17|1.97|||Regression, Logistic|||Week 12, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.97|1.17|0.0018
92247059|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.36||||0.0342|TWO_SIDED|95.0|1.02|1.81|||Regression, Logistic|||Week 12, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.81|1.02|0.0342
92247060|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.69||||0.0003|TWO_SIDED|95.0|1.27|2.24|||Regression, Logistic|||Week 12, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.24|1.27|0.0003
92247061|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2561|TWO_SIDED|95.0|0.9|1.51|||Regression, Logistic|||Week 12, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.51|0.90|0.2561
92247062|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.17||||0.2358|TWO_SIDED|95.0|0.9|1.51|||Regression, Logistic|||Week 12, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.51|0.90|0.2358
92247063|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.45||||0.004|TWO_SIDED|95.0|1.13|1.87|||Regression, Logistic|||Week 12, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.87|1.13|0.0040
92247064|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.4||||0.0723|TWO_SIDED|95.0|0.97|2.02|||Regression, Logistic|||Week 12, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.02|0.97|0.0723
92247065|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|2.06|||<|0.0001|TWO_SIDED|95.0|1.45|2.92|||Regression, Logistic|||Week 12, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.92|1.45|<.0001
92247066|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0653|TWO_SIDED|95.0|0.98|1.94|||Regression, Logistic|||Week 12, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.94|0.98|0.0653
92247067|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9177|TWO_SIDED|95.0|0.74|1.4|||Regression, Logistic|||Week 12, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.40|0.74|0.9177
92247068|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0088|TWO_SIDED|95.0|1.11|2.01|||Regression, Logistic|||Week 12, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.01|1.11|0.0088
92247069|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.58||||0.1197|TWO_SIDED|95.0|0.89|2.83|||Regression, Logistic|||Week 12, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.83|0.89|0.1197
92247070|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0913|TWO_SIDED|95.0|0.92|2.92|||Regression, Logistic|||Week 12, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.92|0.92|0.0913
92247071|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.25||||0.4317|TWO_SIDED|95.0|0.72|2.19|||Regression, Logistic|||Week 12, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.19|0.72|0.4317
92247072|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.27||||0.3498|TWO_SIDED|95.0|0.77|2.08|||Regression, Logistic|||Week 12, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.08|0.77|0.3498
92247073|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.31||||0.2768|TWO_SIDED|95.0|0.8|2.15|||Regression, Logistic|||Week 12, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.15|0.80|0.2768
92247074|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0101|TWO_SIDED|95.0|1.09|1.92|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.92|1.09|0.0101
92282922|NCT03587207|184469418|OTHER|NZ98/254 strain-Between group ratio for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.69|||||TWO_SIDED|80.0|0.54|0.89|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after first vaccination.||0.89|0.54|
92183022|NCT02434328|184264733|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-7.4|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.5|-7.4|
92247075|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.5||||0.0054|TWO_SIDED|95.0|1.13|1.99|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.99|1.13|0.0054
92247076|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.08||||0.5493|TWO_SIDED|95.0|0.84|1.39|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.39|0.84|0.5493
92287273|NCT00905606|184479429|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA guidelines.|Ratio of the LS Mean (test/ref x 100)|98.19||||||90.0|94.64|101.87|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.87|94.64|
92247077|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0269|TWO_SIDED|95.0|1.03|1.74|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.74|1.03|0.0269
92247078|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0144|TWO_SIDED|95.0|1.07|1.8|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.80|1.07|0.0144
92247079|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0846|TWO_SIDED|95.0|0.97|1.7|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.70|0.97|0.0846
92247080|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0101|TWO_SIDED|95.0|1.09|1.91|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.91|1.09|0.0101
92247081|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0848|TWO_SIDED|95.0|0.97|1.62|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.62|0.97|0.0848
92247082|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8732|TWO_SIDED|95.0|0.79|1.32|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.32|0.79|0.8732
92247083|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.15||||0.2734|TWO_SIDED|95.0|0.89|1.48|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.48|0.89|0.2734
92247084|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.21||||0.2839|TWO_SIDED|95.0|0.86|1.7|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.70|0.86|0.2839
92247085|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0238|TWO_SIDED|95.0|1.05|2.07|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.07|1.05|0.0238
92247086|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.11||||0.5212|TWO_SIDED|95.0|0.81|1.53|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.53|0.81|0.5212
92247087|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.09||||0.5954|TWO_SIDED|95.0|0.8|1.48|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.48|0.80|0.5954
92247088|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0638|TWO_SIDED|95.0|0.98|1.79|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.79|0.98|0.0638
92247089|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.38||||0.2661|TWO_SIDED|95.0|0.78|2.44|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.44|0.78|0.2661
92175241|NCT03339713|184242506|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after the administration of influenza vaccine, using a non-inferiority margin of 2 for the GMT ratio (Group 2 / Group 1).|Geometric Mean Ratio|0.8|||<|0.001|TWO_SIDED|90.0|0.59|1.12|||t-test, 1 sided|||A/Hong Kong strain: Based on Welch-Satterthwaite t-interval method. The difference (Group 2 minus Group 1) and CI in log-transformed HI antibody titers were calculated for each of the 4 influenza vaccine strains, and were back-transformed (by exponentiation) to a GMT ratio (Group 2 / Group 1) and the corresponding CI.||1.12|0.59|<.001
92175242|NCT03339713|184242506|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after the administration of influenza vaccine, using a non-inferiority margin of 2 for the GMT ratio (Group 2 / Group 1).|Geometric Mean Ratio|1.0|||<|0.001|TWO_SIDED|90.0|0.77|1.34|||t-test, 1 sided|||B/Brisbane strain: Based on Welch-Satterthwaite t-interval method. The difference (Group 2 minus Group 1) and CI in log-transformed HI antibody titers were calculated for each of the 4 influenza vaccine strains, and were back-transformed (by exponentiation) to a GMT ratio (Group 2 / Group 1) and the corresponding CI.||1.34|0.77|<.001
92175243|NCT03339713|184242506|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after the administration of influenza vaccine, using a non-inferiority margin of 2 for the GMT ratio (Group 2 / Group 1).|Geometric Mean Ratio|1.0|||<|0.001|TWO_SIDED|90.0|0.76|1.36|||t-test, 1 sided|||B/Phuket strain: Based on Welch-Satterthwaite t-interval method. The difference (Group 2 minus Group 1) and CI in log-transformed HI antibody titers were calculated for each of the 4 influenza vaccine strains, and were back-transformed (by exponentiation) to a GMT ratio (Group 2 / Group 1) and the corresponding CI.||1.36|0.76|<.001
92175244|NCT05403827|184242524|SUPERIORITY|||||||0.5019|||||||Control-Based Mean Imputation|||||||0.5019
92175245|NCT05403827|184242525|SUPERIORITY|||||||0.2028|||||||Control-Based Mean Imputation|||||||0.2028
92175246|NCT05403827|184242526|SUPERIORITY|||||||0.1914|||||||Control-Based Mean Imputation|||||||0.1914
92175247|NCT05403827|184242527|SUPERIORITY|||||||0.2512|||||||Control-Based Mean Imputation|||||||0.2512
92175248|NCT05403827|184242528|SUPERIORITY|||||||0.7906|||||||Control-Based Mean Imputation|||||||0.7906
92175249|NCT05403827|184242529|SUPERIORITY|||||||0.5343|||||||Control-Based Mean Imputation|||||||0.5343
92175250|NCT05403827|184242530|SUPERIORITY|||||||0.3757|||||||Control-Based Mean Imputation|||||||0.3757
92175251|NCT01987895|184242559|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%.|Difference between 2 proportions|-1.4|||||TWO_SIDED|95.0|-7.2|4.3|||||CI for the difference between two proportions are estimated using the Wilson's score method|||4.3|-7.2|
92175252|NCT01987895|184242559|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%.|Difference between 2 proportions|-2.4|||||TWO_SIDED|95.0|-8.1|3.2|||||CI for the difference between two proportions are estimated using the Wilson's score method|Sensitivity analysis with imputation for a single day with missing UBM data between one day before end-of-treatment (EOT) and 2 days after EOT||3.2|-8.1|
92175253|NCT01987895|184242560|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%.|Difference between 2 proportions|-4.1|||||TWO_SIDED|95.0|-9.2|1.0|||||CI for the difference between two proportions are estimated using the Wilson' score method|||1.0|-9.2|
92175254|NCT01987895|184242561|SUPERIORITY|Superiority of cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above zero|Difference between 2 proportions|3.3|||||TWO_SIDED|95.0|-4.3|10.8|||||CI for the difference between two proportions are estimated using the Wilson's score method|||10.8|-4.3|
92175255|NCT01987895|184242562|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.6016|TWO_SIDED|95.0|0.8|1.14||two-sided p-value (alpha 5%) based on log-rank test stratified by first occurrence / first recurrence and geographical region.|Log Rank|||||1.14|0.80|0.6016
92175256|NCT01987895|184242563|SUPERIORITY||Least Square Mean difference|0.002||||0.9814|TWO_SIDED|95.0|-0.2|0.2||Two-sided 5% alpha level was used|ANOVA|ANOVA for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12.|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the diarrhea domain scores||0.20|-0.20|0.9814
92175257|NCT01987895|184242563|SUPERIORITY||Least Square Mean difference|0.087||||0.2879|TWO_SIDED|95.0|-0.07|0.25||Two-sided 5% alpha level was used|ANOVA|ANOVA for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the abdominal symptoms domain scores||0.25|-0.07|0.2879
92175258|NCT01987895|184242563|SUPERIORITY||Least Square Mean difference|0.05||||0.488|TWO_SIDED|95.0|-0.09|0.19||Two-sided 5% alpha level was used|ANOVA|ANOVA for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the systemic / other symptoms domain scores||0.19|-0.09|0.4880
92175259|NCT01987895|184242564|OTHER||Difference between 2 proportions|-1.8|||||TWO_SIDED|95.0|-6.5|2.9|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||2.9|-6.5|
92175260|NCT01987895|184242565|OTHER||Difference between 2 proportions|-1.9|||||TWO_SIDED|95.0|-6.2|2.3|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||2.3|-6.2|
92175261|NCT01987895|184242566|OTHER||Difference between 2 proportions|3.7|||||TWO_SIDED|95.0|-3.4|10.7|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||10.7|-3.4|
92175262|NCT01987895|184242567|OTHER|Sensitivity analysis|Difference between 2 proportions|1.1|||||TWO_SIDED|95.0|-6.5|8.7|||||CI for the difference between two proportions are estimated using the Wilson's score method|||8.7|-6.5|
92175263|NCT03628924|184242579|SUPERIORITY||Treatment difference|12.6|||=|0.166|TWO_SIDED|95.0|-4.6|29.8|||Cochran-Mantel-Haenszel|||||29.8|-4.6|= 0.166
92175264|NCT03628924|184242579|SUPERIORITY||Treatment difference|6.6|||=|0.459|TWO_SIDED|95.0|-10.3|23.6|||Cochran-Mantel-Haenszel|||||23.6|-10.3|= 0.459
92247090|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.24||||0.4717|TWO_SIDED|95.0|0.69|2.21|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.21|0.69|0.4717
92247091|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.17||||0.5798|TWO_SIDED|95.0|0.68|2.0|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.00|0.68|0.5798
92247092|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5027|TWO_SIDED|95.0|0.72|1.95|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.95|0.72|0.5027
92247093|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8165|TWO_SIDED|95.0|0.64|1.77|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.77|0.64|0.8165
92247094|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.18||||0.1996|TWO_SIDED|95.0|0.92|1.52|||Regression, Logistic|||Week 24, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.52|0.92|0.1996
92282923|NCT03587207|184469418|OTHER|M07-0241084 strain-Between group ratio for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.82|||||TWO_SIDED|80.0|0.65|1.03|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after first vaccination.||1.03|0.65|
92247095|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0074|TWO_SIDED|95.0|1.1|1.83|||Regression, Logistic|||Week 24, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.83|1.10|0.0074
92247096|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.13||||0.3557|TWO_SIDED|95.0|0.87|1.45|||Regression, Logistic|||Week 24, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.45|0.87|0.3557
92247097|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.36||||0.017|TWO_SIDED|95.0|1.06|1.75|||Regression, Logistic|||Week 24, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.75|1.06|0.0170
92247098|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8641|TWO_SIDED|95.0|0.76|1.38|||Regression, Logistic|||Week 24, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.38|0.76|0.8641
92175265|NCT06019559|184242639|SUPERIORITY|||||||0.0756||||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|MMRM model with gender, treatment, visit and treatment-by-visit interaction as fixed effect, and baseline body weight as a covariate.||||||0.0756
92175266|NCT06019559|184242639|SUPERIORITY|||||||0.0008||||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|(MMRM) model with gender, treatment, visit and treatment-by-visit interaction as fixed effect, and baseline body weight as a covariate.||For the primary endpoint of percentage change from baseline in body weight, a sample size of 150 participants (stratified by gender and randomized 1:1:1 into three treatment arms) provided \>95% power to detect a treatment difference of 4% weight reduction after 13 weeks of treatment with a 2-sided alpha of 0.05, assuming a standard deviation of 4% and 20% drop out.||||0.0008
92175267|NCT06019559|184242640|SUPERIORITY|||||||0.8366||||||The threshold for significance was p = 0.05.|Regression, Logistic|||||||0.8366
92175268|NCT06019559|184242640|SUPERIORITY|||||||0.1848||||||The threshold for significance was p = 0.05.|Regression, Logistic|||||||0.1848
92175269|NCT06019559|184242641|SUPERIORITY|||||||0.0616||||||The threshold for significance was p = 0.05.|Mixed Models Analysis|||||||0.0616
92175270|NCT06019559|184242641|SUPERIORITY|||||||0.0004||||||The threshold for significance was p = 0.05.|Mixed Models Analysis|||||||0.0004
92247099|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1768|TWO_SIDED|95.0|0.91|1.62|||Regression, Logistic|||Week 24, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.62|0.91|0.1768
92247100|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|0.93||||0.7696|TWO_SIDED|95.0|0.55|1.55|||Regression, Logistic|||Week 24, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.55|0.55|0.7696
92247101|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.09||||0.7433|TWO_SIDED|95.0|0.66|1.78|||Regression, Logistic|||Week 24, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.78|0.66|0.7433
92247102|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0562|TWO_SIDED|95.0|0.99|1.65|||Regression, Logistic|||Week 32, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.65|0.99|0.0562
92175271|NCT00613106|184242696|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4228||95.0|||||Cochran-Mantel-Haenszel|||||||0.4228
92175272|NCT04568603|184242731|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to the methadone alone will be supported if the 90% CI for the geometric mean ratio (GMR) of methadone+ ISL to methadone alone is contained within the interval (0.70, 1.43).|GMR|1.03|||||TWO_SIDED|90.0|1.0|1.07||||||||1.07|1.00|
92175273|NCT04568603|184242732|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to the methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.03|||||TWO_SIDED|90.0|0.99|1.07||||||||1.07|0.99|
92247103|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0274|TWO_SIDED|95.0|1.03|1.71|||Regression, Logistic|||Week 32, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.71|1.03|0.0274
92282924|NCT04591626|184469428|SUPERIORITY||LS Mean Difference|-0.95|||<|0.001|TWO_SIDED|95.0|-1.14|-0.77|||Mixed Models Analysis|||||-0.77|-1.14|<0.001
92175274|NCT04568603|184242733|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to the methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 1.43.|GMR|1.02|||||TWO_SIDED|90.0|0.96|1.09||||||||1.09|0.96|
92175275|NCT04568603|184242734|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.06|||||TWO_SIDED|90.0|1.03|1.1||||||||1.10|1.03|
92175276|NCT04568603|184242736|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.01|||||TWO_SIDED|90.0|0.94|1.09||||||||1.09|0.94|
92175277|NCT04568603|184242737|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.08|||||TWO_SIDED|90.0|1.04|1.13||||||||1.13|1.04|
92175278|NCT04568603|184242739|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.03|||||TWO_SIDED|90.0|0.99|1.07||||||||1.07|0.99|
92175279|NCT04568603|184242740|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.01|||||TWO_SIDED|90.0|0.95|1.08||||||||1.08|0.95|
92282925|NCT04591626|184469429|SUPERIORITY||Odds Ratio (OR)|10.91|||<|0.001|TWO_SIDED|95.0|5.35|22.28|||Regression, Logistic|||||22.28|5.35|<0.001
92175280|NCT04568603|184242741|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.07|||||TWO_SIDED|90.0|1.03|1.11||||||||1.11|1.03|
92247104|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1206|TWO_SIDED|95.0|0.95|1.58|||Regression, Logistic|||Week 32, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.58|0.95|0.1206
92247105|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.31||||0.0365|TWO_SIDED|95.0|1.02|1.69|||Regression, Logistic|||Week 32, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.69|1.02|0.0365
92247106|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0964|TWO_SIDED|95.0|0.96|1.71|||Regression, Logistic|||Week 32, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.71|0.96|0.0964
92247107|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.19||||0.2515|TWO_SIDED|95.0|0.89|1.59|||Regression, Logistic|||Week 32, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.59|0.89|0.2515
92282926|NCT04591626|184469430|SUPERIORITY||LS Mean Difference|-1.18|||<|0.001|TWO_SIDED|95.0|-1.77|-0.6|||Mixed Models Analysis|||||-0.60|-1.77|<0.001
92247108|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8122|TWO_SIDED|95.0|0.66|1.71|||Regression, Logistic|||Week 32, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.71|0.66|0.8122
92247109|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.36||||0.1848|TWO_SIDED|95.0|0.86|2.13|||Regression, Logistic|||Week 32, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.13|0.86|0.1848
92282927|NCT04591626|184469431|SUPERIORITY||LS Mean Difference|-14.82|||<|0.001|TWO_SIDED|95.0|-20.57|-9.08|||Mixed Models Analysis|||||-9.08|-20.57|<0.001
92247110|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2622|TWO_SIDED|95.0|0.9|1.49|||Regression, Logistic|||Week 40, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.49|0.90|0.2622
92247111|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.2||||0.1579|TWO_SIDED|95.0|0.93|1.54|||Regression, Logistic|||Week 40, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.54|0.93|0.1579
92282928|NCT04591626|184469432|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.001|TWO_SIDED|95.0|2.64|7.95|||Regression, Logistic||OR was determined using Logistic Regression model with Baseline HbA1c value + OAM use + Treatment as variables.|||7.95|2.64|<0.001
92175281|NCT04137367|184242756|OTHER|||||||0.05|||||||Mixed Models Analysis|||We estimated a priori that a total of 100 participants would be needed to detect a difference between ABM and sham condition, with a two-tailed α of 0.05 and (1-β) of .80. Power calculation was based on the assumption that 50 % of the participants allocated to ABM would report a minimum of 3 points reduction on BDI-II at six months, compared to 20 % in the sham condition. Assuming 15 % lost to follow up, power calculation indicated the need for 50 participants in each condition||||.05
92175282|NCT05329220|184242876|NON_INFERIORITY|The success criterion for the null hypothesis that ABNCoV2 is inferior to Comirnaty will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.|Geometric Mean Ratio|0.89||||0.635|TWO_SIDED|97.5|0.5|1.57||P-value corresponds to Cohort 1 ABNCoV2 comparison to Cohort 1 Comirnaty|Mixed Models Analysis|A generalized linear model with age and baseline results included as covariates was used to compare between the vaccination groups.||Formal hypothesis testing was performed due to having at least 400 evaluable subjects with primary endpoint data available at baseline and at 2 weeks after trial vaccination. The null hypothesis is that ABNCoV2 is inferior to Comirnaty and will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.||1.57|0.50|0.6350
92175283|NCT05329220|184242876|NON_INFERIORITY|The success criterion for the null hypothesis that ABNCoV2 is inferior to Comirnaty will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.|Geometric Mean Ratio|0.8||||0.0002|TWO_SIDED|97.5|0.7|0.92||P-value corresponds to Cohort 2 ABNCoV2 comparison to Cohort 2 Comirnaty|Mixed Models Analysis|A generalized linear model with age and baseline results included as covariates was used to compare between the vaccination groups.||Formal hypothesis testing was performed due to having at least 400 evaluable subjects with primary endpoint data available at baseline and at 2 weeks after trial vaccination. The null hypothesis is that ABNCoV2 is inferior to Comirnaty and will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.||0.92|0.70|0.0002
92175284|NCT05329220|184242877|NON_INFERIORITY|The success criterion for the null hypothesis that ABNCoV2 is inferior to Comirnaty will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.|Geometric Mean Ratio|0.76||||0.0008|TWO_SIDED|97.5|0.64|0.91||P-value corresponds to Cohort 2 ABNCoV2 comparison to Cohort 2 Comirnaty for Omicron variant BA.4/BA.5|Mixed Models Analysis|A generalized linear model with age and baseline results included as covariates was used to compare between the vaccination groups.||Formal hypothesis testing was performed due to meeting the primary endpoint success criterion in Cohort 2. The null hypothesis is that ABNCoV2 is inferior to Comirnaty and will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.||0.91|0.64|0.0008
92247112|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.15||||0.2773|TWO_SIDED|95.0|0.89|1.49|||Regression, Logistic|||Week 40, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.49|0.89|0.2773
92247113|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.24||||0.1032|TWO_SIDED|95.0|0.96|1.59|||Regression, Logistic|||Week 40, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.59|0.96|0.1032
92247114|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.12||||0.4418|TWO_SIDED|95.0|0.84|1.5|||Regression, Logistic|||Week 40, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.50|0.84|0.4418
92247115|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.23||||0.1608|TWO_SIDED|95.0|0.92|1.63|||Regression, Logistic|||Week 40, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.63|0.92|0.1608
92247116|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.29||||0.2628|TWO_SIDED|95.0|0.83|2.02|||Regression, Logistic|||Week 40, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.02|0.83|0.2628
92247117|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.55||||0.0447|TWO_SIDED|95.0|1.01|2.39|||Regression, Logistic|||Week 40, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.39|1.01|0.0447
92247118|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.16||||0.256|TWO_SIDED|95.0|0.9|1.49|||Regression, Logistic|||Week 48, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.49|0.90|0.2560
92247119|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.19||||0.1741|TWO_SIDED|95.0|0.93|1.53|||Regression, Logistic|||Week 48, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.53|0.93|0.1741
92247120|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.2||||0.1647|TWO_SIDED|95.0|0.93|1.55|||Regression, Logistic|||Week 48, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.55|0.93|0.1647
92247121|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0619|TWO_SIDED|95.0|0.99|1.65|||Regression, Logistic|||Week 48, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.65|0.99|0.0619
92247122|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.21||||0.2025|TWO_SIDED|95.0|0.9|1.61|||Regression, Logistic|||Week 48, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.61|0.90|0.2025
92247123|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.18||||0.2601|TWO_SIDED|95.0|0.88|1.58|||Regression, Logistic|||Week 48, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.58|0.88|0.2601
92282929|NCT04591626|184469433|SUPERIORITY||Odds Ratio (OR)|7.59|||<|0.001|TWO_SIDED|95.0|4.27|13.48|||Regression, Logistic||OR was determined using logistic regression model: Variable = Baseline HbA1c value + OAM use + Treatment as variables.|||13.48|4.27|<0.001
92247124|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.14||||0.5635|TWO_SIDED|95.0|0.73|1.77|||Regression, Logistic|||Week 48, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.77|0.73|0.5635
92247125|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.38||||0.1338|TWO_SIDED|95.0|0.91|2.11|||Regression, Logistic|||Week 48, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.11|0.91|0.1338
92175285|NCT05329220|184242877|NON_INFERIORITY|The success criterion for the null hypothesis that ABNCoV2 is inferior to Comirnaty will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.|Geometric Mean Ratio|0.69|||<|0.0001|TWO_SIDED|97.5|0.59|0.81||P-value corresponds to Cohort 2 ABNCoV2 comparison to Cohort 2 Comirnaty for Omicron Variant XBB.1.5.|Mixed Models Analysis|A generalized linear model with age and baseline results included as covariates was used to compare between the vaccination groups.||Formal hypothesis testing was performed due to meeting the primary endpoint success criterion in Cohort 2. The null hypothesis is that ABNCoV2 is inferior to Comirnaty and will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.||0.81|0.59|<0.0001
92247126|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.17||||0.2137|TWO_SIDED|95.0|0.91|1.51|||Regression, Logistic|||Week 56, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.51|0.91|0.2137
92247127|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0256|TWO_SIDED|95.0|1.04|1.72|||Regression, Logistic|||Week 56, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.72|1.04|0.0256
92247128|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.13||||0.3531|TWO_SIDED|95.0|0.87|1.46|||Regression, Logistic|||Week 56, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.46|0.87|0.3531
92247129|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.31||||0.0358|TWO_SIDED|95.0|1.02|1.7|||Regression, Logistic|||Week 56, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.70|1.02|0.0358
92247130|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.22||||0.184|TWO_SIDED|95.0|0.91|1.62|||Regression, Logistic|||Week 56, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.62|0.91|0.1840
92247131|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.25||||0.125|TWO_SIDED|95.0|0.94|1.67|||Regression, Logistic|||Week 56, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.67|0.94|0.1250
92247132|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|0.95||||0.8266|TWO_SIDED|95.0|0.61|1.48|||Regression, Logistic|||Week 56, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.48|0.61|0.8266
92247133|NCT02528253|184398080|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5673|TWO_SIDED|95.0|0.74|1.72|||Regression, Logistic|||Week 56, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.72|0.74|0.5673
92175286|NCT05651308|184242881|SUPERIORITY||Risk Difference (RD)|0.026||||0.37|TWO_SIDED|95.0|-0.03|0.08|||Chi-squared||Risk difference = Intervention proportion minus control proportion.|||0.08|-0.03|0.37
92247134|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.53||||0.0076|TWO_SIDED|95.0|1.12|2.08|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.08|1.12|0.0076
92247135|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.98|||<|0.0001|TWO_SIDED|95.0|1.46|2.69|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.69|1.46|<.0001
92282930|NCT04591626|184469434|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.001|TWO_SIDED|95.0|2.64|7.95|||Regression, Logistic||OR was determined using logistic regression model with Baseline HbA1c value + OAM use + Treatment as variables.|||7.95|2.64|<0.001
92175287|NCT00986856|184242885|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|13.2|||<|0.01||95.0|1.4|120.4||Test for the hypothesis of odds ratio equal to 1.|Cochran-Mantel-Haenszel|||||120.4|1.4|<0.01
92175288|NCT00986856|184242886|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.7||||0.023||95.0|1.1|28.6|||Cochran-Mantel-Haenszel|||||28.6|1.1|0.023
92175289|NCT00986856|184242887|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.7||||0.54|TWO_SIDED|95.0|0.3|8.1|||Cochran-Mantel-Haenszel|||||8.1|0.3|0.54
92175290|NCT00986856|184242888|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.7||||0.1|TWO_SIDED|95.0|0.8|8.8|||Cochran-Mantel-Haenszel|||||8.8|0.8|0.1
92247136|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.31||||0.07|TWO_SIDED|95.0|0.98|1.74|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.74|0.98|0.0700
92282931|NCT04591626|184469435|SUPERIORITY||LS Mean Difference|-26.3|||<|0.001|TWO_SIDED|95.0|-33.0|-19.6|||Mixed Models Analysis|||||-19.6|-33.0|<0.001
92175291|NCT00986856|184242889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Cochran-Mantel-Haenszel|||||||0.1
92175292|NCT00986856|184242890|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.5||||0.043||95.0|0.9|83.5|||Cochran-Mantel-Haenszel|||||83.5|0.9|0.043
92175293|NCT00986856|184242891|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|12.8||||0.007||95.0|1.5|109.6|||Cochran-Mantel-Haenszel|||||109.6|1.5|0.007
92247137|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.17||||0.2655|TWO_SIDED|95.0|0.89|1.54|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.54|0.89|0.2655
92247138|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0022|TWO_SIDED|95.0|1.16|1.98|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.98|1.16|0.0022
92247139|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0125|TWO_SIDED|95.0|1.11|2.35|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.35|1.11|0.0125
92247140|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.75||||0.0032|TWO_SIDED|95.0|1.21|2.54|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.54|1.21|0.0032
92247141|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1528|TWO_SIDED|95.0|0.91|1.85|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.85|0.91|0.1528
92247142|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.24||||0.1863|TWO_SIDED|95.0|0.9|1.72|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.72|0.90|0.1863
92282932|NCT04591626|184469436|SUPERIORITY||LS Mean Difference|-4.0||||0.006|TWO_SIDED|95.0|-6.86|-1.14|||Mixed Models Analysis|||||-1.14|-6.86|0.006
92247143|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.35||||0.0667|TWO_SIDED|95.0|0.98|1.86|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.86|0.98|0.0667
92247144|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0101|TWO_SIDED|95.0|1.18|3.39|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.39|1.18|0.0101
92247145|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.91||||0.0162|TWO_SIDED|95.0|1.13|3.25|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.25|1.13|0.0162
92247146|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.17||||0.5599|TWO_SIDED|95.0|0.69|1.99|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.99|0.69|0.5599
92247147|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.71||||0.0202|TWO_SIDED|95.0|1.09|2.68|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.68|1.09|0.0202
92282933|NCT02672553|184469451|SUPERIORITY||Median Difference (Final Values)|-12.5|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92282934|NCT02672553|184469452|SUPERIORITY||Median Difference (Final Values)|-10.5||||0.2077|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.2077
92247148|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0335|TWO_SIDED|95.0|1.04|2.57|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.57|1.04|0.0335
92247149|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.53||||0.0416|TWO_SIDED|95.0|1.04|6.17|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||6.17|1.04|0.0416
92247150|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|3.24||||0.0075|TWO_SIDED|95.0|1.37|7.69|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||7.69|1.37|0.0075
92247151|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5374|TWO_SIDED|95.0|0.53|3.34|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.34|0.53|0.5374
92247152|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.89||||0.082|TWO_SIDED|95.0|0.92|3.89|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.89|0.92|0.0820
92247153|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0108|TWO_SIDED|95.0|1.23|4.81|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||4.81|1.23|0.0108
92247154|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0006|TWO_SIDED|95.0|1.24|2.2|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.20|1.24|0.0006
92247155|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.95|||<|0.0001|TWO_SIDED|95.0|1.47|2.59|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.59|1.47|<.0001
92247156|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0963|TWO_SIDED|95.0|0.96|1.63|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.63|0.96|0.0963
92247157|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0332|TWO_SIDED|95.0|1.02|1.71|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.71|1.02|0.0332
92247158|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0007|TWO_SIDED|95.0|1.21|2.01|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.01|1.21|0.0007
92247159|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0001|TWO_SIDED|95.0|1.37|2.64|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.64|1.37|0.0001
92247160|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.6|3.05|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.05|1.60|<.0001
92247161|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0235|TWO_SIDED|95.0|1.05|1.95|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.95|1.05|0.0235
92247162|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0459|TWO_SIDED|95.0|1.01|1.76|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.76|1.01|0.0459
92247163|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.54||||0.002|TWO_SIDED|95.0|1.17|2.04|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.04|1.17|0.0020
92247164|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.93||||0.0019|TWO_SIDED|95.0|1.27|2.91|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.91|1.27|0.0019
92247165|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.42|||<|0.0001|TWO_SIDED|95.0|1.62|3.62|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.62|1.62|<.0001
92247166|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.09||||0.6765|TWO_SIDED|95.0|0.72|1.65|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.65|0.72|0.6765
92247167|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0022|TWO_SIDED|95.0|1.23|2.54|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.54|1.23|0.0022
92247168|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.56|3.15|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.15|1.56|<.0001
92247169|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.98||||0.027|TWO_SIDED|95.0|1.08|3.63|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.63|1.08|0.0270
92247170|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.43||||0.003|TWO_SIDED|95.0|1.35|4.38|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||4.38|1.35|0.0030
92247171|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|0.74||||0.377|TWO_SIDED|95.0|0.38|1.44|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.44|0.38|0.3770
92247172|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0009|TWO_SIDED|95.0|1.49|4.79|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||4.79|1.49|0.0009
92247173|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|3.29|||<|0.0001|TWO_SIDED|95.0|1.87|5.78|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||5.78|1.87|<.0001
92247174|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.59||||0.0011|TWO_SIDED|95.0|1.2|2.1|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.10|1.20|0.0011
92247175|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.87|||<|0.0001|TWO_SIDED|95.0|1.41|2.47|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.47|1.41|<.0001
92247176|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0273|TWO_SIDED|95.0|1.03|1.72|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.72|1.03|0.0273
92247177|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.19||||0.1736|TWO_SIDED|95.0|0.93|1.54|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.54|0.93|0.1736
92247178|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.4||||0.0092|TWO_SIDED|95.0|1.09|1.81|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.81|1.09|0.0092
92247179|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0015|TWO_SIDED|95.0|1.2|2.2|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.20|1.20|0.0015
92175294|NCT00986856|184242892|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8|STANDARD_DEVIATION|2.0||0.008||95.0|-4.8|-0.8|||Regression, Linear|||||-0.8|-4.8|0.008
92247180|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.95|||<|0.0001|TWO_SIDED|95.0|1.45|2.63|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.63|1.45|<.0001
92247181|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.41||||0.0164|TWO_SIDED|95.0|1.06|1.86|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.86|1.06|0.0164
92247182|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2857|TWO_SIDED|95.0|0.89|1.51|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.51|0.89|0.2857
92247183|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0149|TWO_SIDED|95.0|1.07|1.8|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.80|1.07|0.0149
92247184|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.08||||0.0001|TWO_SIDED|95.0|1.43|3.02|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.02|1.43|0.0001
92282935|NCT00970281|184469488|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was based on an analysis of variance (ANOVA) model that included treatment and site as a factor.|ANOVA|||Sample size of at least 45 participants per group was necessary to verify decreases in PANSS-EC total score were significantly greater in olanzapine group than placebo group using a t-test with a power of 90% and a 2-sided significance level of 5%.||||<0.001
92175295|NCT05445427|184242893|SUPERIORITY|Groups were compared using Wilcoxon rank sum test.||||||0.544|||||||Wilcoxon (Mann-Whitney)|||||||0.544
92247185|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.27|||<|0.0001|TWO_SIDED|95.0|1.57|3.28|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.28|1.57|<.0001
92247186|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.34||||0.118|TWO_SIDED|95.0|0.93|1.92|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.92|0.93|0.1180
92247187|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0062|TWO_SIDED|95.0|1.13|2.14|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.14|1.13|0.0062
92247188|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0009|TWO_SIDED|95.0|1.24|2.32|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.32|1.24|0.0009
92247189|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0003|TWO_SIDED|95.0|1.56|4.61|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||4.61|1.56|0.0003
92247190|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|3.1|||<|0.0001|TWO_SIDED|95.0|1.82|5.28|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||5.28|1.82|<.0001
92175296|NCT05445427|184242894|SUPERIORITY|||||||0.292|||||||ANCOVA|ANCOVA was used with the baseline value used as the covariate.||||||0.292
92282936|NCT00970281|184469489|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||This is the p-value for 0.25 hour after first IM injection.|ANOVA|||||||0.009
92282937|NCT00970281|184469489|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 0.50 hour after first IM injection.|ANOVA|||||||<0.001
92282938|NCT00970281|184469489|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 1 hour after first IM injection.|ANOVA|||||||<0.001
92247191|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.33||||0.312|TWO_SIDED|95.0|0.76|2.32|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.32|0.76|0.3120
92247192|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.02||||0.0019|TWO_SIDED|95.0|1.3|3.14|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.14|1.30|0.0019
92282939|NCT00970281|184469489|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 1.5 hour after first IM injection.|ANOVA|||||||<0.001
92175297|NCT04447469|184242910|SUPERIORITY||Odds Ratio (OR)|2.069||||0.2598|TWO_SIDED|95.0|0.555|8.615||P-value and odds ratio were calculated using Fisher's Exact test.|Fisher Exact|||||8.615|0.555|0.2598
92247193|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0001|TWO_SIDED|95.0|1.52|3.59|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.59|1.52|0.0001
92282940|NCT00970281|184469490|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||ANOVA|||||||0.008
92282941|NCT00970281|184469491|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Fisher Exact|||||||0.008
92282942|NCT00970281|184469492|SUPERIORITY_OR_OTHER|||||||0.167||95.0||||This is the p-value for the 0.5 hour after the first IM injection.|Fisher Exact|||||||0.167
92247194|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0064|TWO_SIDED|95.0|1.12|1.95|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.95|1.12|0.0064
92247195|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0001|TWO_SIDED|95.0|1.32|2.31|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.31|1.32|0.0001
92247196|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.15||||0.2757|TWO_SIDED|95.0|0.89|1.48|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.48|0.89|0.2757
92247197|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0575|TWO_SIDED|95.0|0.99|1.65|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.65|0.99|0.0575
92247198|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0015|TWO_SIDED|95.0|1.17|1.96|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.96|1.17|0.0015
92247199|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0007|TWO_SIDED|95.0|1.23|2.16|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.16|1.23|0.0007
92247200|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0001|TWO_SIDED|95.0|1.31|2.31|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.31|1.31|0.0001
92247201|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0124|TWO_SIDED|95.0|1.07|1.79|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.79|1.07|0.0124
92247202|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0025|TWO_SIDED|95.0|1.15|1.91|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.91|1.15|0.0025
92247203|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.82||||0.0002|TWO_SIDED|95.0|1.33|2.51|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.51|1.33|0.0002
92247204|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.03|||<|0.0001|TWO_SIDED|95.0|1.48|2.79|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.79|1.48|<.0001
92247205|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.09||||0.5701|TWO_SIDED|95.0|0.8|1.49|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.49|0.80|0.5701
92247206|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.67||||0.0004|TWO_SIDED|95.0|1.26|2.22|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.22|1.26|0.0004
92247207|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.86|||<|0.0001|TWO_SIDED|95.0|1.4|2.46|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.46|1.40|<.0001
92247208|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.07||||0.0008|TWO_SIDED|95.0|1.35|3.17|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.17|1.35|0.0008
92247209|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0059|TWO_SIDED|95.0|1.19|2.83|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.83|1.19|0.0059
92247210|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|0.94||||0.7741|TWO_SIDED|95.0|0.6|1.46|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.46|0.60|0.7741
92247211|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.5|3.25|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.25|1.50|<.0001
92247212|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.96||||0.0008|TWO_SIDED|95.0|1.32|2.9|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.90|1.32|0.0008
92247213|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.25||||0.089|TWO_SIDED|95.0|0.97|1.6|||Regression, Logistic|||Week 24, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.60|0.97|0.0890
92247214|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0067|TWO_SIDED|95.0|1.1|1.83|||Regression, Logistic|||Week 24, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.83|1.10|0.0067
92175298|NCT04447469|184242910|SUPERIORITY||Odds Ratio (OR)|2.414||||0.161|TWO_SIDED|95.0|0.653|9.957||P-value and odds ratio were calculated using Fisher's Exact test.|Fisher Exact|||||9.957|0.653|0.1610
92247215|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0072|TWO_SIDED|95.0|1.1|1.85|||Regression, Logistic|||Week 24, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.85|1.10|0.0072
92247216|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.59||||0.0004|TWO_SIDED|95.0|1.23|2.06|||Regression, Logistic|||Week 24, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.06|1.23|0.0004
92282943|NCT00970281|184469492|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||This is the p-value for the 1 hour after the first IM injection.|Fisher Exact|||||||0.134
92247217|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0013|TWO_SIDED|95.0|1.2|2.15|||Regression, Logistic|||Week 24, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.15|1.20|0.0013
92247218|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.79|||<|0.0001|TWO_SIDED|95.0|1.34|2.39|||Regression, Logistic|||Week 24, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.39|1.34|<.0001
92247219|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.23|||<|0.0001|TWO_SIDED|95.0|1.51|3.3|||Regression, Logistic|||Week 24, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.30|1.51|<.0001
92247220|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|2.53|||<|0.0001|TWO_SIDED|95.0|1.72|3.71|||Regression, Logistic|||Week 24, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.71|1.72|<.0001
92247221|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.26||||0.0732|TWO_SIDED|95.0|0.98|1.62|||Regression, Logistic|||Week 32, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.62|0.98|0.0732
92247222|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.3||||0.0399|TWO_SIDED|95.0|1.01|1.68|||Regression, Logistic|||Week 32, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.68|1.01|0.0399
92247223|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.29||||0.0536|TWO_SIDED|95.0|1.0|1.67|||Regression, Logistic|||Week 32, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.67|1.00|0.0536
92247224|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0043|TWO_SIDED|95.0|1.12|1.88|||Regression, Logistic|||Week 32, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.88|1.12|0.0043
92247225|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0143|TWO_SIDED|95.0|1.07|1.91|||Regression, Logistic|||Week 32, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.91|1.07|0.0143
92247226|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0007|TWO_SIDED|95.0|1.23|2.16|||Regression, Logistic|||Week 32, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.16|1.23|0.0007
92247227|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.67||||0.005|TWO_SIDED|95.0|1.17|2.38|||Regression, Logistic|||Week 32, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.38|1.17|0.0050
92247228|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0043|TWO_SIDED|95.0|1.18|2.4|||Regression, Logistic|||Week 32, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.40|1.18|0.0043
92247229|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.15||||0.2777|TWO_SIDED|95.0|0.89|1.48|||Regression, Logistic|||Week 40, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.48|0.89|0.2777
92247230|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0326|TWO_SIDED|95.0|1.02|1.7|||Regression, Logistic|||Week 40, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.70|1.02|0.0326
92247231|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.19||||0.1823|TWO_SIDED|95.0|0.92|1.55|||Regression, Logistic|||Week 40, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.55|0.92|0.1823
92247232|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.32||||0.035|TWO_SIDED|95.0|1.02|1.71|||Regression, Logistic|||Week 40, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.71|1.02|0.0350
92247233|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0164|TWO_SIDED|95.0|1.07|1.88|||Regression, Logistic|||Week 40, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.88|1.07|0.0164
92247234|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0257|TWO_SIDED|95.0|1.04|1.84|||Regression, Logistic|||Week 40, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.84|1.04|0.0257
92282944|NCT00970281|184469492|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||This is the p-value for the 1.5 hour after the first IM injection.|Fisher Exact|||||||0.008
92282945|NCT00970281|184469492|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||This is the p-value for the 2 hours after the first IM injection.|Fisher Exact|||||||0.008
92282946|NCT00970281|184469492|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||This is the p-value for the 24 hours after the first IM injection.|Fisher Exact|||||||0.204
92282947|NCT00970281|184469493|SUPERIORITY_OR_OTHER|||||||1||95.0||||This is the p-value for Parkinsonism.|Fisher Exact|||||||1.000
92282948|NCT04603937|184469533|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept participants to be considered non-inferior is 4.5 ETDRS letters, i.e. the non-inferiority margin|Adjusted mean difference|-4.7|STANDARD_ERROR_OF_MEAN|0.97|>|0.9999|TWO_SIDED|95.04|-6.65|-2.81|||Mixed Models Analysis|MMRM model with treatment, visit, treatment by visit interaction, randomization stratification factors, and continuous baseline BCVA and OCT CST.||||-2.81|-6.65|> 0.9999
92247235|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.64||||0.007|TWO_SIDED|95.0|1.14|2.35|||Regression, Logistic|||Week 40, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.35|1.14|0.0070
92247236|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0085|TWO_SIDED|95.0|1.13|2.32|||Regression, Logistic|||Week 40, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.32|1.13|0.0085
92247237|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.09||||0.4925|TWO_SIDED|95.0|0.85|1.41|||Regression, Logistic|||Week 48, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.41|0.85|0.4925
92247238|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.2||||0.1534|TWO_SIDED|95.0|0.93|1.55|||Regression, Logistic|||Week 48, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.55|0.93|0.1534
92247239|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.23||||0.1202|TWO_SIDED|95.0|0.95|1.6|||Regression, Logistic|||Week 48, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.60|0.95|0.1202
92175299|NCT04447469|184242910|SUPERIORITY||Stratified Odds Ratio|2.091||||0.2448|TWO_SIDED|95.0|0.612|7.144||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (standard of care antiretroviral therapy, age, and ARDS status).|Cochran-Mantel-Haenszel|||||7.144|0.612|0.2448
92247240|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.23||||0.1222|TWO_SIDED|95.0|0.95|1.6|||Regression, Logistic|||Week 48, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.60|0.95|0.1222
92247241|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0179|TWO_SIDED|95.0|1.06|1.9|||Regression, Logistic|||Week 48, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.90|1.06|0.0179
92247242|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0065|TWO_SIDED|95.0|1.12|1.99|||Regression, Logistic|||Week 48, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.99|1.12|0.0065
92247243|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.53||||0.0223|TWO_SIDED|95.0|1.06|2.2|||Regression, Logistic|||Week 48, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.20|1.06|0.0223
92282949|NCT04603937|184469534|NON_INFERIORITY|The maximum clinically acceptable non-inferiority margin between KSI-301 and aflibercept subjects is 10% to be considered non-inferior, i.e. the non-inferiority margin is 10%|Difference of weighted percentages|0.6|||<|0.0001|TWO_SIDED|95.04|-0.7|2.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by study identifier and randomization stratification variables.|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||2|-0.7|<0.0001
92247244|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0045|TWO_SIDED|95.0|1.17|2.4|||Regression, Logistic|||Week 48, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.40|1.17|0.0045
92175300|NCT04447469|184242910|SUPERIORITY||Stratified Odds Ratio|2.749||||0.1378|TWO_SIDED|95.0|0.756|9.993||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (standard of care antiretroviral therapy, age, and ARDS status).|Cochran-Mantel-Haenszel|||||9.993|0.756|0.1378
92247245|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9385|TWO_SIDED|95.0|0.77|1.28|||Regression, Logistic|||Week 56, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.28|0.77|0.9385
92247246|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.23||||0.1093|TWO_SIDED|95.0|0.95|1.59|||Regression, Logistic|||Week 56, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.59|0.95|0.1093
92175301|NCT04447469|184242911|SUPERIORITY||Stratified Odds Ratio|1.231||||0.4534|TWO_SIDED|95.0|0.715|2.12||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (age and ARDS status).|Cochran-Mantel-Haenszel|||||2.120|0.715|0.4534
92175302|NCT04447469|184242911|SUPERIORITY||Stratified Odds Ratio|1.097||||0.7414|TWO_SIDED|95.0|0.636|1.891||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (age and ARDS status).|Cochran-Mantel-Haenszel|||||1.891|0.636|0.7414
92247247|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.21||||0.1631|TWO_SIDED|95.0|0.93|1.57|||Regression, Logistic|||Week 56, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.57|0.93|0.1631
92247248|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0285|TWO_SIDED|95.0|1.03|1.74|||Regression, Logistic|||Week 56, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.74|1.03|0.0285
92247249|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.36||||0.0389|TWO_SIDED|95.0|1.02|1.81|||Regression, Logistic|||Week 56, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.81|1.02|0.0389
92247250|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.39||||0.024|TWO_SIDED|95.0|1.04|1.86|||Regression, Logistic|||Week 56, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.86|1.04|0.0240
92247251|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0063|TWO_SIDED|95.0|1.15|2.34|||Regression, Logistic|||Week 56, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.34|1.15|0.0063
92247252|NCT02528253|184398081|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0021|TWO_SIDED|95.0|1.22|2.47|||Regression, Logistic|||Week 56, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.47|1.22|0.0021
92175303|NCT04447469|184242912|SUPERIORITY||Odds Ratio (OR)|0.984||||1|TWO_SIDED|95.0|0.198|4.884|||Fisher Exact|||||4.884|0.198|1.0000
92247253|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.13||0.0003|TWO_SIDED|95.0|-0.75|-0.22|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.22|-0.75|0.0003
92247254|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.85|-0.33|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.33|-0.85|<.0001
92175304|NCT04447469|184242912|SUPERIORITY||Odds Ratio (OR)|1.286||||1|TWO_SIDED|95.0|0.26|6.417|||Fisher Exact|||||6.417|0.260|1.0000
92247255|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.12||0.0615|TWO_SIDED|95.0|-0.47|0.01|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.01|-0.47|0.0615
92247256|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.12||0.0356|TWO_SIDED|95.0|-0.5|-0.02|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.50|0.0356
92247257|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.12||0.0032|TWO_SIDED|95.0|-0.6|-0.12|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.12|-0.60|0.0032
92247258|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.88|-0.27|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.27|-0.88|0.0003
92247259|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.08|-0.46|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.46|-1.08|<.0001
92247260|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.15||0.0844|TWO_SIDED|95.0|-0.54|0.03|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.54|0.0844
92247261|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.14||0.0258|TWO_SIDED|95.0|-0.6|-0.04|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.60|0.0258
92247262|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.15||0.0004|TWO_SIDED|95.0|-0.8|-0.23|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.23|-0.80|0.0004
92247263|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.17||0.0079|TWO_SIDED|95.0|-0.78|-0.12|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.12|-0.78|0.0079
92247264|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.08|-0.41|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.41|-1.08|<.0001
92175305|NCT04447469|184242913|SUPERIORITY||Difference in Proportion|-15.0|||||TWO_SIDED|95.0|-45.6|15.6|||||95% CI were calculated using asymptotic normal approximation. Difference = KPL-301 - placebo.|||15.6|-45.6|
92175306|NCT04447469|184242913|SUPERIORITY||Difference in Proportions|-27.7|||||TWO_SIDED|95.0|-56.4|0.9|||||95% CI were calculated using asymptotic normal approximation. Difference = KPL-301 - Placebo .|||0.9|-56.4|
92175307|NCT04447469|184242914|SUPERIORITY|||||||0.6229||||||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|Log Rank|||||||0.6229
92175308|NCT04447469|184242914|SUPERIORITY|||||||0.5526||||||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|Log Rank|||||||0.5526
92247265|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.16||0.0977|TWO_SIDED|95.0|-0.57|0.05|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.57|0.0977
92183023|NCT02434328|184264733|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-6.5|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||5.8|-6.5|
92247266|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.15||0.215|TWO_SIDED|95.0|-0.5|0.11|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.11|-0.50|0.2150
92247267|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.15||0.0016|TWO_SIDED|95.0|-0.79|-0.18|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.18|-0.79|0.0016
92247268|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.19||0.0058|TWO_SIDED|95.0|-0.88|-0.15|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.15|-0.88|0.0058
92247269|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.19||0.0038|TWO_SIDED|95.0|-0.91|-0.18|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.18|-0.91|0.0038
92282950|NCT04603937|184469535|NON_INFERIORITY|The maximum clinically acceptable non-inferiority margin between KSI-301 and aflibercept subjects is 10% to be considered non-inferior, i.e the non-inferiority margin is 10%|Difference of weighted percentages|1.2|||<|0.0001|TWO_SIDED|95.04|-1.4|3.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by randomization stratification variables.|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||3.9|-1.4|<0.0001
92247270|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.17||0.1707|TWO_SIDED|95.0|-0.58|0.1|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.58|0.1707
92247271|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.17||0.1083|TWO_SIDED|95.0|-0.62|0.06|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.06|-0.62|0.1083
92247272|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.17||0.0734|TWO_SIDED|95.0|-0.64|0.03|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.64|0.0734
92247273|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.21||0.4603|TWO_SIDED|95.0|-0.56|0.25|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.25|-0.56|0.4603
92282951|NCT02585258|184469543|SUPERIORITY||mean difference over 2-years|-0.37|||<|0.0001|ONE_SIDED|95.0||-0.23||one-sided.|Mixed Models Analysis||placebo is reference. Negative difference is beneficial, means lower disease activity in prednisolone group.|mixed model reports the effect of treatment, adjusted for stratification factors||-0.23||<0.0001
92282952|NCT02585258|184469544|SUPERIORITY||Risk Ratio (RR)|1.24||||0.02|ONE_SIDED|95.0|1.04|||one-sided|GEE||prednisolone/placebo|mixed model reports the effect of treatment, adjusted for stratification factors|||1.04|0.02
92175309|NCT04447469|184242915|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.9426|TWO_SIDED|80.0|0.71|1.46||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|||1.46|0.71|0.9426
92247274|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.2||0.0799|TWO_SIDED|95.0|-0.74|0.04|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.74|0.0799
92247275|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.21||0.2339|TWO_SIDED|95.0|-0.66|0.16|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.16|-0.66|0.2339
92247276|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.21||0.1199|TWO_SIDED|95.0|-0.73|0.08|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.08|-0.73|0.1199
92247277|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.21||0.384|TWO_SIDED|95.0|-0.6|0.23|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.60|0.3840
92247278|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.21||0.2|TWO_SIDED|95.0|-0.68|0.14|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.14|-0.68|0.2000
92247279|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.22||0.2997|TWO_SIDED|95.0|-0.65|0.2|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.20|-0.65|0.2997
92247280|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.21||0.1778|TWO_SIDED|95.0|-0.71|0.13|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.71|0.1778
92247281|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.22||0.3438|TWO_SIDED|95.0|-0.65|0.23|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.65|0.3438
92247282|NCT02528253|184398083|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.22||0.1876|TWO_SIDED|95.0|-0.71|0.14|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.14|-0.71|0.1876
92247283|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.13||0.0002|TWO_SIDED|95.0|-0.72|-0.22|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.22|-0.72|0.0002
92247284|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.79|-0.29|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.29|-0.79|<.0001
92247285|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.12||0.0193|TWO_SIDED|95.0|-0.5|-0.04|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.50|0.0193
92247286|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0845|TWO_SIDED|95.0|-0.42|0.03|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.42|0.0845
92247287|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.12||0.0212|TWO_SIDED|95.0|-0.49|-0.04|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.49|0.0212
92247288|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.15||0.0003|TWO_SIDED|95.0|-0.81|-0.24|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.24|-0.81|0.0003
92175310|NCT04447469|184242915|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.6838|TWO_SIDED|80.0|0.78|1.57||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|||1.57|0.78|0.6838
92175311|NCT04447469|184242916|SUPERIORITY||Odds Ratio (OR)|0.235||||0.0905|TWO_SIDED|95.0|0.023|1.328|||Fisher Exact|||||1.328|0.023|0.0905
92175312|NCT04447469|184242916|SUPERIORITY||Odds Ratio (OR)|0.431||||0.2247|TWO_SIDED|95.0|0.087|1.815|||Fisher Exact|||||1.815|0.087|0.2247
92175313|NCT04447469|184242916|SUPERIORITY||Stratified Odds Ratio|0.191||||0.0623|TWO_SIDED|95.0|0.033|1.114||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (standard of care antiretroviral therapy, age, and ARDS status).|Cochran-Mantel-Haenszel|||||1.114|0.033|0.0623
92175314|NCT04447469|184242916|SUPERIORITY||Stratified Odds Ratio|0.368||||0.1957|TWO_SIDED|95.0|0.085|1.583||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (standard of care antiretroviral therapy, age, and ARDS status).|Cochran-Mantel-Haenszel|||||1.583|0.085|0.1957
92175315|NCT04447469|184242917|SUPERIORITY||Hazard Ratio (HR)|1.57||||0.3766|TWO_SIDED|80.0|0.8|3.09||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, and age).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (Standard of Care antiretroviral therapy and age).|||3.09|0.80|0.3766
92175316|NCT04447469|184242917|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.9209|TWO_SIDED|80.0|0.51|2.16||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, and age).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (Standard of Care antiretroviral therapy and age).|||2.16|0.51|0.9209
92175317|NCT04447469|184242918|SUPERIORITY||Stratified Odds Ratio|0.645||||0.1772|TWO_SIDED|95.0|0.34|1.222||Calculated using Cochran Mantel-Haenszel test, stratified by randomization strata (age and ARDS status).|Cochran-Mantel-Haenszel|||||1.222|0.340|0.1772
92247289|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.99|-0.41|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.41|-0.99|<.0001
92247290|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.14||0.079|TWO_SIDED|95.0|-0.5|0.03|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.50|0.0790
92247291|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.14||0.0336|TWO_SIDED|95.0|-0.55|-0.02|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.55|0.0336
92247292|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.14||0.0008|TWO_SIDED|95.0|-0.73|-0.19|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.19|-0.73|0.0008
92175318|NCT04447469|184242918|SUPERIORITY||Stratified Odds Ratio|1.029||||0.9269|TWO_SIDED|95.0|0.563|1.881||Calculated using Cochran Mantel-Haenszel test, stratified by randomization strata (age and ARDS status).|Cochran-Mantel-Haenszel|||||1.881|0.563|0.9269
92175319|NCT04447469|184242919|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9578|TWO_SIDED|95.0|0.66|1.49||Log-rank test is stratified by randomization strata (age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (age and ARDS status).|||1.49|0.66|0.9578
92175320|NCT04447469|184242919|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.5274|TWO_SIDED|95.0|0.76|1.7||Log-rank test is stratified by randomization strata (age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (age and ARDS status).|||1.70|0.76|0.5274
92175321|NCT04447469|184242920|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.1336|TWO_SIDED|95.0|0.36|1.15||Log-rank test is stratified by randomization strata (age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (age, and ARDS status).|||1.15|0.36|0.1336
92175322|NCT04447469|184242920|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9767|TWO_SIDED|95.0|0.59|1.72||Log-rank test is stratified by randomization strata (age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata ( age, and ARDS status).|||1.72|0.59|0.9767
92175323|NCT04447469|184242921|SUPERIORITY||Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|0.55|3.71|||||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (age).|||3.71|0.55|
92175324|NCT04447469|184242921|SUPERIORITY||Hazard Ratio (HR)|1.88|||||TWO_SIDED|95.0|0.78|4.54|||||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (age).|||4.54|0.78|
92175325|NCT05201079|184242922|SUPERIORITY||Odds Ratio (OR)|2.395||||0.228|TWO_SIDED|97.79|0.54|10.624||Alpha: 0.0221|Regression, Logistic||Numerator: fidaxomicin; denominator: MBK-01|||10.624|0.540|0.228
92175326|NCT05201079|184242928|SUPERIORITY|||||||||||||||||Alpha value used: 0.0221|Statistical analysis using Odds Ratio cannot be performed because there are zero patients with bad progress in MBK-01 group.|||
92175327|NCT05201079|184242929|SUPERIORITY||Score (logrank) test|1.25||||0.3|TWO_SIDED|||||Alpha: 0.0221|Regression, Cox|Degrees of freedom: 1||||||0.300
92175328|NCT05201079|184242931|SUPERIORITY||Score (logrank) test|0.02||||0.9|TWO_SIDED|||||Alpha: 0.0221|Regression, Cox|Degrees of freedom: 1||||||0.900
92175329|NCT05201079|184242942|SUPERIORITY|||||||0.749||||||Main effect of the Group for the Physical Function area of the SF-36 questionnaire. F statistic (1,56) = 0.104.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.749
92175330|NCT05201079|184242942|SUPERIORITY|||||||0.62||||||Main effect of the Visit for the Physical Function area of the SF-36 questionnaire. F statistic (1,56) = 0.249.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.620
92175331|NCT05201079|184242942|SUPERIORITY|||||||0.16||||||Main effect of the Group x Visit interaction for the Physical Function area of the SF-36 questionnaire. F statistic (1,56) = 2.024.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.160
92175332|NCT05201079|184242942|SUPERIORITY|||||||0.614||||||Main effect of the Group for the Bodily pain area of the SF-36 questionnaire. F statistic (1,56) = 0.257.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.614
92175333|NCT05201079|184242942|SUPERIORITY|||||||0.007||||||Main effect of the Visit for the Bodily pain area of the SF-36 questionnaire. F statistic (1,56) = 7.705. Effect size = 0.046.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.007
92175334|NCT05201079|184242942|SUPERIORITY|||||||0.718||||||Main effect of the Group x Visit interaction for the Bodily pain area of the SF-36 questionnaire. F statistic (1,56) = 0.132.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.718
92175335|NCT05201079|184242942|SUPERIORITY|||||||0.494||||||Main effect of the Group for the General Health area of the SF-36 questionnaire. F statistic (1,56) = 0.474.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.494
92175336|NCT05201079|184242942|SUPERIORITY|||||||0.339||||||Main effect of the Visit for the General Health area of the SF-36 questionnaire. F statistic (1,56) = 0.932.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.339
92175337|NCT05201079|184242942|SUPERIORITY|||||||0.38||||||Main effect of the Group x Visit interaction for the General health area of the SF-36 questionnaire. F statistic (1,56) = 0.783.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.380
92175338|NCT05201079|184242942|SUPERIORITY|||||||0.79||||||Main effect of the Group for the Vitality area of the SF-36 questionnaire. F statistic (1,56) = 0.072|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.790
92247293|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.16||0.0034|TWO_SIDED|95.0|-0.77|-0.15|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.15|-0.77|0.0034
92247294|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.01|-0.39|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.39|-1.01|<.0001
92175339|NCT05201079|184242942|SUPERIORITY|||||||0.498||||||Main effect of the Visit for the Vitality area of the SF-36 questionnaire. F statistic (1,56) = 0.465.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.498
92175340|NCT05201079|184242942|SUPERIORITY|||||||0.023||||||Main effect of the Group x Visit interaction for the Vitality area of the SF-36 questionnaire. F statistic (1,56) = 5.490.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.023
92175341|NCT05201079|184242942|SUPERIORITY|||||||0.553||||||Main effect of the Group for the Social role area of the SF-36 questionnaire. F statistic (1,56) = 0.356.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.553
92175342|NCT05201079|184242942|SUPERIORITY|||||||0.718||||||Main effect of the Visit for the Social role area of the SF-36 questionnaire. F statistic (1,56) = 0.132.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.718
92175343|NCT05201079|184242942|SUPERIORITY|||||||0.574||||||Main effect of the Group x Visit interaction for the Social role area of the SF-36 questionnaire. F statistic (1,56) = 0.319.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.574
92175344|NCT05201079|184242942|SUPERIORITY|||||||0.49||||||Main effect of the Group for the Emotional role area of the SF-36 questionnaire. F statistic (1,56) = 0.482.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.490
92175345|NCT05201079|184242942|SUPERIORITY|||||||0.032||||||Main effect of the Visit for the Emotional role area of the SF-36 questionnaire. F statistic (1,56) = 4.850|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.032
92175346|NCT05201079|184242942|SUPERIORITY|||||||0.145||||||Main effect of the Group x Visit interaction for the Emotional role area of the SF-36 questionnaire. F statistic (1,56) = 2.181.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.145
92175347|NCT05201079|184242942|SUPERIORITY|||||||0.467||||||Main effect of the Group for the Mental health area of the SF-36 questionnaire. F statistic (1,56) = 0.535.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.467
92175348|NCT05201079|184242942|SUPERIORITY|||||||0.1||||||Main effect of the Visit for the Mental health area of the SF-36 questionnaire. F statistic (1,56) = 2.795|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.100
92247295|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.15||0.0361|TWO_SIDED|95.0|-0.59|-0.02|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.59|0.0361
92175349|NCT05201079|184242942|SUPERIORITY|||||||0.89||||||Main effect of the Group x Visit interaction for the Mental health area of the SF-36 questionnaire. F statistic (1,56) = 0.019.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.890
92175350|NCT05201079|184242942|SUPERIORITY|||||||0.742||||||Main effect of the Group for the Physical Role area of the SF-36 questionnaire. F statistic (1,56) = 0.109.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.742
92247296|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.15||0.2786|TWO_SIDED|95.0|-0.44|0.13|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.44|0.2786
92247297|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.0058|TWO_SIDED|95.0|-0.68|-0.11|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.68|0.0058
92247298|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.18||0.0365|TWO_SIDED|95.0|-0.71|-0.02|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.71|0.0365
92247299|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.18||0.0092|TWO_SIDED|95.0|-0.8|-0.11|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.80|0.0092
92247300|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.16||0.2923|TWO_SIDED|95.0|-0.49|0.15|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.49|0.2923
92175351|NCT05201079|184242942|SUPERIORITY||||||<|0.001||||||Main effect of the Visit for the Physical Role area of the SF-36 questionnaire. F statistic (1,56) = 21.912. Effect size = 0.109.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||<0.001
92282953|NCT02585258|184469545|SUPERIORITY||mean differences over 2 years|-1.67||||0.003|ONE_SIDED|95.0||-0.68||one-sided|Regression, Linear||placebo is reference. Negative difference means less damage progression in prednisolone group.|mixed model reports the effect of treatment, adjusted for stratification factors||-0.68||0.003
92247301|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.2231|TWO_SIDED|95.0|-0.51|0.12|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.12|-0.51|0.2231
92247302|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.16||0.0724|TWO_SIDED|95.0|-0.6|0.03|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.60|0.0724
92247303|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.19||0.4776|TWO_SIDED|95.0|-0.5|0.23|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.50|0.4776
92247304|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.19||0.1482|TWO_SIDED|95.0|-0.64|0.1|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.64|0.1482
92282954|NCT02848326|184469583|SUPERIORITY||Least squares mean difference|-1.15|STANDARD_ERROR_OF_MEAN|0.4||0.0039|TWO_SIDED|95.0|-1.93|-0.37||Mixed-effects model for repeated measures (MMRM) model included baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.37|-1.93|0.0039
92282955|NCT02848326|184469583|SUPERIORITY||Least squares mean difference|-0.91|STANDARD_ERROR_OF_MEAN|0.33||0.0056|TWO_SIDED|95.0|-1.55|-0.27||MMRM model included baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.27|-1.55|0.0056
92282956|NCT02848326|184469583|SUPERIORITY||Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.33||0.0325|TWO_SIDED|95.0|-1.35|-0.06||MMRM model included baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.06|-1.35|0.0325
92247305|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.19||0.3249|TWO_SIDED|95.0|-0.56|0.18|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.18|-0.56|0.3249
92247306|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.19||0.1997|TWO_SIDED|95.0|-0.62|0.13|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.62|0.1997
92247307|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.2||0.4823|TWO_SIDED|95.0|-0.53|0.25|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.25|-0.53|0.4823
92282957|NCT02848326|184469583|SUPERIORITY||Least squares mean difference|-1.39|STANDARD_ERROR_OF_MEAN|0.42||0.001|TWO_SIDED|95.0|-2.21|-0.56||MMRM model included baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.56|-2.21|0.0010
92282958|NCT02848326|184469583|SUPERIORITY||Least squares mean difference|-1.29|STANDARD_ERROR_OF_MEAN|0.41||0.0016|TWO_SIDED|95.0|-2.09|-0.49||MMRM model included baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.49|-2.09|0.0016
92247308|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.2||0.2754|TWO_SIDED|95.0|-0.6|0.17|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.17|-0.60|0.2754
92282959|NCT02848326|184469584|SUPERIORITY||Least squares mean difference|-1.38|STANDARD_ERROR_OF_MEAN|0.43||0.0014|TWO_SIDED|95.0|-2.23|-0.54||MMRM model included baseline monthly headache days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.54|-2.23|0.0014
92247309|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.2||0.5861|TWO_SIDED|95.0|-0.5|0.29|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.29|-0.50|0.5861
92247310|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.2||0.4346|TWO_SIDED|95.0|-0.54|0.23|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.54|0.4346
92247311|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.2||0.8752|TWO_SIDED|95.0|-0.42|0.36|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.36|-0.42|0.8752
92247312|NCT02528253|184398085|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.2||0.2663|TWO_SIDED|95.0|-0.6|0.17|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.17|-0.60|0.2663
92247313|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.15||0.0013|TWO_SIDED|95.0|-0.77|-0.19|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.19|-0.77|0.0013
92247314|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.15||0.0001|TWO_SIDED|95.0|-0.87|-0.28|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.28|-0.87|0.0001
92247315|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.2272|TWO_SIDED|95.0|-0.43|-0.1|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.43|0.2272
92247316|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.14||0.0209|TWO_SIDED|95.0|-0.58|-0.05|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.05|-0.58|0.0209
92247317|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.14||0.0029|TWO_SIDED|95.0|-0.67|-0.14|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.14|-0.67|0.0029
92247318|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0002|TWO_SIDED|95.0|-0.92|-0.28|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.28|-0.92|0.0002
92247319|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.1|-0.46|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.46|-1.10|<.0001
92247320|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.15||0.1198|TWO_SIDED|95.0|-0.53|0.06|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.06|-0.53|0.1198
92247321|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.15||0.016|TWO_SIDED|95.0|-0.66|-0.07|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.07|-0.66|0.0160
92282960|NCT02848326|184469584|SUPERIORITY||Least squares mean difference|-1.24|STANDARD_ERROR_OF_MEAN|0.36||0.0005|TWO_SIDED|95.0|-1.94|-0.55||MMRM model included baseline monthly headache days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.55|-1.94|0.0005
92282961|NCT02848326|184469584|SUPERIORITY||Least squares mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.36||0.0087|TWO_SIDED|95.0|-1.64|-0.24||MMRM model included baseline monthly headache days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.24|-1.64|0.0087
92247322|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.15||0.0003|TWO_SIDED|95.0|-0.85|-0.25|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.25|-0.85|0.0003
92247323|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.17||0.0091|TWO_SIDED|95.0|-0.77|-0.11|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.77|0.0091
92247324|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.17||0.0007|TWO_SIDED|95.0|-0.9|-0.24|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.24|-0.90|0.0007
92247325|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.15||0.2264|TWO_SIDED|95.0|-0.48|0.11|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.11|-0.48|0.2264
92247326|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.15||0.0961|TWO_SIDED|95.0|-0.56|0.05|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.56|0.0961
92247327|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.15||0.0121|TWO_SIDED|95.0|-0.69|-0.08|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.08|-0.69|0.0121
92247328|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.18||0.027|TWO_SIDED|95.0|-0.77|-0.05|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.05|-0.77|0.0270
92247329|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.18||0.0019|TWO_SIDED|95.0|-0.94|-0.21|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.21|-0.94|0.0019
92247330|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.17||0.3906|TWO_SIDED|95.0|-0.48|0.19|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.48|0.3906
92247331|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.17||0.1209|TWO_SIDED|95.0|-0.59|0.07|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.07|-0.59|0.1209
92247332|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.17||0.0107|TWO_SIDED|95.0|-0.76|-0.1|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.76|0.0107
92247333|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.19||0.2396|TWO_SIDED|95.0|-0.61|0.15|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.61|0.2396
92247334|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.19||0.1088|TWO_SIDED|95.0|-0.69|0.07|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.07|-0.69|0.1088
92247335|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.2||0.1673|TWO_SIDED|95.0|-0.65|0.11|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.11|-0.65|0.1673
92247336|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.2||0.1751|TWO_SIDED|95.0|-0.66|0.12|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.12|-0.66|0.1751
92247337|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3164|TWO_SIDED|95.0|-0.59|0.19|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.59|0.3164
92247338|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.2||0.2253|TWO_SIDED|95.0|-0.62|0.15|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.62|0.2253
92247339|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.3408|TWO_SIDED|95.0|-0.58|0.2|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.20|-0.58|0.3408
92247340|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.3391|TWO_SIDED|95.0|-0.58|0.2|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.20|-0.58|0.3391
92247341|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.2||0.5818|TWO_SIDED|95.0|-0.5|0.28|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-0.50|0.5818
92175352|NCT05201079|184242942|SUPERIORITY|||||||0.089||||||Main effect of the Group x Visit interaction for the Physical Role area of the SF-36 questionnaire. F statistic (1,56) = 2.986.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.089
92175353|NCT04719832|184242948|SUPERIORITY|Analysis performed using a negative binomial model with covariates of treatment, exacerbation history (2, 3, 4+), baseline inhaled CS dose (medium, high), geographical region, baseline percent predicted Forced Expiratory Volume in one second (FEV1), and offset of log (total time in the study in years).|Rate Ratio|0.42|||<|0.001|TWO_SIDED|95.0|0.3|0.59|||Negative binomial distribution|||To demonstrate the superiority of GSK3511294 100 mg SC + SoC following two doses (at Week 0 and at Week 26) compared with placebo + SoC, assessed by the annualized rate of clinically significant exacerbations measured over the study intervention period of 52 weeks.||0.59|0.30|< 0.001
92247342|NCT02528253|184398087|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.2||0.2562|TWO_SIDED|95.0|-0.62|0.16|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.16|-0.62|0.2562
92247343|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.16||0.0137|TWO_SIDED|95.0|-0.69|-0.08|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.08|-0.69|0.0137
92247344|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.16||0.0044|TWO_SIDED|95.0|-0.76|-0.14|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.14|-0.76|0.0044
92247345|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.6194|TWO_SIDED|95.0|-0.35|0.21|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.21|-0.35|0.6194
92247346|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.14||0.0271|TWO_SIDED|95.0|-0.59|-0.04|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.59|0.0271
92247347|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.14||0.0085|TWO_SIDED|95.0|-0.66|-0.1|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.66|0.0085
92282962|NCT02848326|184469584|SUPERIORITY||Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.46||0.0044|TWO_SIDED|95.0|-2.2|-0.41||MMRM model included baseline monthly headache days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.41|-2.20|0.0044
92282963|NCT02848326|184469584|SUPERIORITY||Least squares mean difference|-1.39|STANDARD_ERROR_OF_MEAN|0.44||0.0017|TWO_SIDED|95.0|-2.26|-0.53||MMRM model included baseline monthly headache days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.53|-2.26|0.0017
92282964|NCT02848326|184469585|SUPERIORITY||Odds Ratio (OR)|1.5||||0.0617|TWO_SIDED|95.0|0.98|2.31||Generalized linear mixed model (GLMM) for repeated measures with fixed factors(treatment group,visit), covariates(baseline migraine days), interactions(treatment group;baseline migraine days by visit) with an unstructured covariance matrix.|GLMM for repeated measures|||||2.31|0.98|0.0617
92175354|NCT04719832|184242949|SUPERIORITY||Difference in Least Square Means|-3.36|||=|0.08|TWO_SIDED|95.0|-7.11|0.39|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline SGRQ total score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline SGRQ total score and visit by treatment group||0.39|-7.11|= 0.080
92175355|NCT04719832|184242950|SUPERIORITY||Difference in Least Square Means|-0.04|||=|0.69|TWO_SIDED|95.0|-0.27|0.18|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ACQ-5 score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ACQ-5 score and visit by treatment group.||0.18|-0.27|= 0.690
92175356|NCT04719832|184242951|SUPERIORITY||Difference in Least Square Means|-0.001|||=|0.991|TWO_SIDED|95.0|-0.089|0.088|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline pre-bronchodilator FEV1, visit, visit by baseline pre-bronchodilator FEV1 and visit by treatment group.||0.088|-0.089|= 0.991
92282965|NCT02848326|184469585|SUPERIORITY||Odds Ratio (OR)|1.46||||0.0369|TWO_SIDED|95.0|1.02|2.08||GLMM for repeated measures with fixed factors (treatment group, visit), covariates (baseline migraine days), interactions (treatment group by visit; baseline migraine days by visit) with an unstructured covariance matrix.|GLMM for repeated measures|||||2.08|1.02|0.0369
92282966|NCT02848326|184469585|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0512|TWO_SIDED|95.0|1.0|2.03||GLMM for repeated measures with fixed factors (treatment group, visit), covariates (baseline migraine days), interactions (treatment group by visit; baseline migraine days by visit) with an unstructured covariance matrix.|GLMM for repeated measures|||||2.03|1.00|0.0512
92282967|NCT02848326|184469585|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0113|TWO_SIDED|95.0|1.15|2.91||GLMM for repeated measures with fixed factors (treatment group, visit), covariates (baseline migraine days), interactions (treatment group by visit; baseline migraine days by visit) with an unstructured covariance matrix.|GLMM for repeated measures|||||2.91|1.15|0.0113
92247348|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.18||0.0027|TWO_SIDED|95.0|-0.87|-0.18|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.18|-0.87|0.0027
92247349|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.13|-0.44|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.44|-1.13|<.0001
92247350|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.1859|TWO_SIDED|95.0|-0.54|0.1|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.54|0.1859
92247351|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.16||0.0573|TWO_SIDED|95.0|-0.63|0.01|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.01|-0.63|0.0573
92247352|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.16||0.0005|TWO_SIDED|95.0|-0.88|-0.25|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.25|-0.88|0.0005
92247353|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.18||0.0841|TWO_SIDED|95.0|-0.66|0.04|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.66|0.0841
92175357|NCT04719832|184242952|SUPERIORITY||Difference in Least Square Means|-0.09|||=|0.65|TWO_SIDED|95.0|-0.5|0.31|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ANSD weekly mean score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ANSD weekly mean score and visit by treatment group.||0.31|-0.50|= 0.650
92247354|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.18||0.0074|TWO_SIDED|95.0|-0.85|-0.13|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.13|-0.85|0.0074
92282968|NCT02848326|184469585|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0019|TWO_SIDED|95.0|1.3|3.18||GLMM for repeated measures with fixed factors (treatment group, visit), covariates (baseline migraine days), interactions (treatment group by visit; baseline migraine days by visit) with an unstructured covariance matrix.|GLMM for repeated measure|||||3.18|1.30|0.0019
92247355|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.16||0.316|TWO_SIDED|95.0|-0.49|0.16|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.16|-0.49|0.3160
92247356|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.17||0.3763|TWO_SIDED|95.0|-0.47|0.18|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.18|-0.47|0.3763
92247357|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.17||0.0505|TWO_SIDED|95.0|-0.65|0.0|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.00|-0.65|0.0505
92247358|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.2||0.0118|TWO_SIDED|95.0|-0.88|-0.11|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.88|0.0118
92247359|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.2||0.0012|TWO_SIDED|95.0|-1.03|-0.25|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.25|-1.03|0.0012
92282969|NCT02848326|184469586|SUPERIORITY||Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.35||0.0002|TWO_SIDED|95.0|-1.99|-0.6||MMRM model included baseline monthly acute medication use days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.60|-1.99|0.0002
92247360|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.18||0.2966|TWO_SIDED|95.0|-0.54|0.17|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.17|-0.54|0.2966
92247361|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0956|TWO_SIDED|95.0|-0.66|0.05|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.66|0.0956
92247362|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.0117|TWO_SIDED|95.0|-0.81|-0.1|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.81|0.0117
92247363|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.2||0.3732|TWO_SIDED|95.0|-0.57|0.21|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.21|-0.57|0.3732
92247364|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.2||0.1922|TWO_SIDED|95.0|-0.66|0.13|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.66|0.1922
92247365|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.21||0.2986|TWO_SIDED|95.0|-0.63|0.19|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.63|0.2986
92247366|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.21||0.2584|TWO_SIDED|95.0|-0.65|0.17|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.17|-0.65|0.2584
92247367|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.22||0.5195|TWO_SIDED|95.0|-0.57|0.29|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.29|-0.57|0.5195
92247368|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.21||0.3752|TWO_SIDED|95.0|-0.6|0.22|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.22|-0.60|0.3752
92247369|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.22||0.5157|TWO_SIDED|95.0|-0.56|0.28|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-0.56|0.5157
92247370|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.21||0.5065|TWO_SIDED|95.0|-0.56|0.28|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-0.56|0.5065
92247371|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.21||0.8373|TWO_SIDED|95.0|-0.47|0.38|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.38|-0.47|0.8373
92247372|NCT02528253|184398089|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.22||0.5146|TWO_SIDED|95.0|-0.56|0.28|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-0.56|0.5146
92247373|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.16||0.0059|TWO_SIDED|95.0|-0.76|-0.13|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.13|-0.76|0.0059
92175358|NCT04719832|184242953|SUPERIORITY||Difference in Least Square Means|-0.08|||=|0.647|TWO_SIDED|95.0|-0.42|0.26|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ADSD weekly mean score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ADSD weekly mean score and visit by treatment group.||0.26|-0.42|= 0.647
92247374|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.16||0.0002|TWO_SIDED|95.0|-0.93|-0.29|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.29|-0.93|0.0002
92183024|NCT02434328|184264733|OTHER||Difference in proportions|-2.0|||||TWO_SIDED|95.0|-8.1|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.1|-8.1|
92247375|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.15||0.0756|TWO_SIDED|95.0|-0.56|0.03|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.56|0.0756
92247376|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.15||0.2197|TWO_SIDED|95.0|-0.47|0.11|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.11|-0.47|0.2197
92247377|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.15||0.0208|TWO_SIDED|95.0|-0.63|-0.05|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.05|-0.63|0.0208
92247378|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.17||0.0013|TWO_SIDED|95.0|-0.91|-0.22|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.22|-0.91|0.0013
92247379|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.08|-0.39|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.39|-1.08|<.0001
92247380|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.16||0.1873|TWO_SIDED|95.0|-0.53|0.1|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.53|0.1873
92247381|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.16||0.0305|TWO_SIDED|95.0|-0.66|-0.03|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.03|-0.66|0.0305
92247382|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.16||0.0013|TWO_SIDED|95.0|-0.84|-0.2|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.20|-0.84|0.0013
92247383|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.0158|TWO_SIDED|95.0|-0.78|-0.08|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.08|-0.78|0.0158
92247384|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.18||0.0015|TWO_SIDED|95.0|-0.91|-0.21|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.21|-0.91|0.0015
92247385|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.16||0.4173|TWO_SIDED|95.0|-0.45|0.19|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.45|0.4173
92247386|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.0659|TWO_SIDED|95.0|-0.62|0.02|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.02|-0.62|0.0659
92247387|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.16||0.0078|TWO_SIDED|95.0|-0.74|-0.11|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.74|0.0078
92247388|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.19||0.0737|TWO_SIDED|95.0|-0.72|0.03|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.72|0.0737
92247389|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.19||0.0021|TWO_SIDED|95.0|-0.97|-0.22|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.22|-0.97|0.0021
92247390|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.18||0.4535|TWO_SIDED|95.0|-0.48|0.21|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.21|-0.48|0.4535
92247391|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.18||0.2271|TWO_SIDED|95.0|-0.56|0.13|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.56|0.2271
92247392|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.18||0.0086|TWO_SIDED|95.0|-0.81|-0.12|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.12|-0.81|0.0086
92183025|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-17.7|STANDARD_ERROR_OF_MEAN|7.57|||TWO_SIDED|95.0|-32.6|-2.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4||-2.9|-32.6|
92247393|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.2||0.2243|TWO_SIDED|95.0|-0.63|0.15|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.63|0.2243
92247394|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.2||0.0331|TWO_SIDED|95.0|-0.81|-0.03|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.03|-0.81|0.0331
92183026|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-29.5|STANDARD_ERROR_OF_MEAN|8.18|||TWO_SIDED|95.0|-45.6|-13.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||-13.4|-45.6|
92247395|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.2||0.1838|TWO_SIDED|95.0|-0.66|0.13|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.66|0.1838
92247396|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.2||0.0795|TWO_SIDED|95.0|-0.75|0.04|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.75|0.0795
92247397|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.21||0.2847|TWO_SIDED|95.0|-0.63|0.18|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.18|-0.63|0.2847
92247398|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.2||0.0745|TWO_SIDED|95.0|-0.76|0.04|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.76|0.0745
92247399|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.311|TWO_SIDED|95.0|-0.59|0.19|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.59|0.3110
92247400|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1375|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.70|0.1375
92247401|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.21||0.4036|TWO_SIDED|95.0|-0.58|0.23|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.58|0.4036
92247402|NCT02528253|184398091|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.21||0.0641|TWO_SIDED|95.0|-0.79|0.02|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.02|-0.79|0.0641
92247403|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.18||0.0037|TWO_SIDED|95.0|-0.85|-0.17|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.17|-0.85|0.0037
92247404|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.18||0.0013|TWO_SIDED|95.0|-0.91|-0.22|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.22|-0.91|0.0013
92247405|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.1712|TWO_SIDED|95.0|-0.53|0.09|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.53|0.1712
92247406|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.16||0.0686|TWO_SIDED|95.0|-0.6|0.02|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.02|-0.60|0.0686
92247407|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.16||0.0289|TWO_SIDED|95.0|-0.66|-0.04|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.66|0.0289
92247408|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.18||0.0003|TWO_SIDED|95.0|-1.02|-0.3|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.30|-1.02|0.0003
92247409|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.22|-0.49|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.49|-1.22|<.0001
92247410|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.17||0.2056|TWO_SIDED|95.0|-0.55|0.12|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.12|-0.55|0.2056
92247411|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.17||0.0084|TWO_SIDED|95.0|-0.78|-0.11|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.78|0.0084
92247412|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.17||0.0002|TWO_SIDED|95.0|-0.98|-0.31|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.31|-0.98|0.0002
92247413|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.19||0.0063|TWO_SIDED|95.0|-0.9|-0.15|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.15|-0.90|0.0063
92247414|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.19||0.0002|TWO_SIDED|95.0|-1.09|-0.34|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.34|-1.09|0.0002
92247415|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.1155|TWO_SIDED|95.0|-0.63|0.07|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.07|-0.63|0.1155
92247416|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.18||0.1652|TWO_SIDED|95.0|-0.59|0.1|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.59|0.1652
92247417|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.18||0.0129|TWO_SIDED|95.0|-0.78|-0.09|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.09|-0.78|0.0129
92247418|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.21||0.0236|TWO_SIDED|95.0|-0.87|-0.06|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.06|-0.87|0.0236
92247419|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.21||0.0136|TWO_SIDED|95.0|-0.93|-0.11|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.93|0.0136
92247420|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.2||0.6624|TWO_SIDED|95.0|-0.47|0.3|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.30|-0.47|0.6624
92247421|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.19||0.0468|TWO_SIDED|95.0|-0.75|-0.01|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.01|-0.75|0.0468
92247422|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.19||0.025|TWO_SIDED|95.0|-0.81|-0.05|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.05|-0.81|0.0250
92247423|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1539|TWO_SIDED|95.0|-0.72|0.11|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.11|-0.72|0.1539
92247424|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0169|TWO_SIDED|95.0|-0.91|-0.09|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.09|-0.91|0.0169
92247425|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.21||0.1049|TWO_SIDED|95.0|-0.77|0.07|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.07|-0.77|0.1049
92183027|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-30.3|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-46.9|-13.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||-13.7|-46.9|
92247426|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0599|TWO_SIDED|95.0|-0.82|0.02|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.02|-0.82|0.0599
92247427|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.22||0.3041|TWO_SIDED|95.0|-0.65|0.2|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.20|-0.65|0.3041
92247428|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0737|TWO_SIDED|95.0|-0.83|0.04|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.83|0.0737
92247429|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.23||0.2293|TWO_SIDED|95.0|-0.71|0.17|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.17|-0.71|0.2293
92247430|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.22||0.0806|TWO_SIDED|95.0|-0.82|0.05|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.82|0.0806
92247431|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.368|TWO_SIDED|95.0|-0.62|0.23|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.62|0.3680
92282970|NCT02848326|184469586|SUPERIORITY||Least squares mean difference|-1.44|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-2.01|-0.87||MMRM model included baseline monthly acute medication use days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.87|-2.01|<0.0001
92282971|NCT02848326|184469586|SUPERIORITY||Least squares mean difference|-1.11|STANDARD_ERROR_OF_MEAN|0.29||0.0001|TWO_SIDED|95.0|-1.68|-0.54||MMRM model included baseline monthly acute medication use days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.54|-1.68|0.0001
92247432|NCT02528253|184398093|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.21||0.0893|TWO_SIDED|95.0|-0.79|0.06|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.06|-0.79|0.0893
92247433|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.16||0.0007|TWO_SIDED|95.0|-0.88|-0.24|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.24|-0.88|0.0007
92247434|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.03|-0.38|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.38|-1.03|<.0001
92247435|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.15||0.1291|TWO_SIDED|95.0|-0.53|0.07|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.07|-0.53|0.1291
92247436|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.15||0.029|TWO_SIDED|95.0|-0.63|-0.03|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.03|-0.63|0.0290
92247437|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.15||0.0015|TWO_SIDED|95.0|-0.77|-0.18|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.18|-0.77|0.0015
92247438|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.18||0.0041|TWO_SIDED|95.0|-0.87|-0.17|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.17|-0.87|0.0041
92247439|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.25|-0.54|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.54|-1.25|<.0001
92247440|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.17||0.1799|TWO_SIDED|95.0|-0.55|0.1|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.55|0.1799
92247441|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.0696|TWO_SIDED|95.0|-0.62|0.02|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.02|-0.62|0.0696
92247442|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-0.99|-0.35|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.35|-0.99|<.0001
92247443|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.18||0.0387|TWO_SIDED|95.0|-0.74|-0.02|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.74|0.0387
92247444|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.18||0.0005|TWO_SIDED|95.0|-1.0|-0.28|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.28|-1.00|0.0005
92282972|NCT02848326|184469586|SUPERIORITY||Least squares mean difference|-1.35|STANDARD_ERROR_OF_MEAN|0.37||0.0003|TWO_SIDED|95.0|-2.08|-0.62||MMRM model included baseline monthly acute medication use days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.62|-2.08|0.0003
92247445|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.17||0.2768|TWO_SIDED|95.0|-0.51|0.15|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.51|0.2768
92247446|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.2408|TWO_SIDED|95.0|-0.53|0.13|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.53|0.2408
92247447|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.17||0.0064|TWO_SIDED|95.0|-0.78|-0.13|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.13|-0.78|0.0064
92247448|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.2||0.0115|TWO_SIDED|95.0|-0.9|-0.11|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.90|0.0115
92247449|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.2||0.0006|TWO_SIDED|95.0|-1.08|-0.29|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.29|-1.08|0.0006
92247450|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.18||0.2028|TWO_SIDED|95.0|-0.59|0.13|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.59|0.2028
92247451|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.1351|TWO_SIDED|95.0|-0.64|0.09|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.64|0.1351
92247452|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.18||0.0133|TWO_SIDED|95.0|-0.82|-0.09|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.09|-0.82|0.0133
92247453|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.2||0.2157|TWO_SIDED|95.0|-0.65|0.15|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.65|0.2157
92247454|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.2||0.0781|TWO_SIDED|95.0|-0.76|0.04|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.76|0.0781
92247455|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.3527|TWO_SIDED|95.0|-0.62|0.22|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.22|-0.62|0.3527
92247456|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.22||0.2994|TWO_SIDED|95.0|-0.65|0.2|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.20|-0.65|0.2994
92247457|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.22||0.3326|TWO_SIDED|95.0|-0.63|0.21|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.21|-0.63|0.3326
92247458|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.21||0.2822|TWO_SIDED|95.0|-0.65|0.19|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.65|0.2822
92247459|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.22||0.4932|TWO_SIDED|95.0|-0.57|0.28|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-0.57|0.4932
92282973|NCT02848326|184469586|SUPERIORITY||Least squares mean difference|-1.22|STANDARD_ERROR_OF_MEAN|0.36||0.0007|TWO_SIDED|95.0|-1.93|-0.52||MMRM model included baseline monthly acute medication use days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.52|-1.93|0.0007
92247460|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.22||0.4571|TWO_SIDED|95.0|-0.58|0.26|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.26|-0.58|0.4571
92247461|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.22||0.5586|TWO_SIDED|95.0|-0.56|0.3|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.30|-0.56|0.5586
92247462|NCT02528253|184398095|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.22||0.2664|TWO_SIDED|95.0|-0.67|0.19|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.67|0.2664
92247463|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|2.14||||0.001|TWO_SIDED|95.0|1.36|3.36|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||3.36|1.36|0.0010
92247464|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|2.68|||<|0.0001|TWO_SIDED|95.0|1.73|4.16|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||4.16|1.73|<.0001
92247465|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.62||||0.03|TWO_SIDED|95.0|1.05|2.51|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||2.51|1.05|0.0300
92183028|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-40.2|STANDARD_ERROR_OF_MEAN|9.51|||TWO_SIDED|95.0|-58.9|-21.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||-21.6|-58.9|
92247466|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|2.03|||<|0.0001|TWO_SIDED|95.0|1.44|2.86|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||2.86|1.44|<.0001
92247467|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|2.37|||<|0.0001|TWO_SIDED|95.0|1.69|3.32|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||3.32|1.69|<.0001
92247468|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.44||||0.029|TWO_SIDED|95.0|1.04|1.99|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.99|1.04|0.0290
92247469|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0003|TWO_SIDED|95.0|1.31|2.47|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||2.47|1.31|0.0003
92247470|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.62|3.03|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||3.03|1.62|<.0001
92247471|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0033|TWO_SIDED|95.0|1.16|2.1|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||2.10|1.16|0.0033
92247472|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.41||||0.0179|TWO_SIDED|95.0|1.06|1.88|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.88|1.06|0.0179
92247473|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0021|TWO_SIDED|95.0|1.18|2.08|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||2.08|1.18|0.0021
92247474|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.06||||0.6629|TWO_SIDED|95.0|0.81|1.38|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.38|0.81|0.6629
92247475|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.35||||0.0251|TWO_SIDED|95.0|1.04|1.75|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.75|1.04|0.0251
92247476|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1278|TWO_SIDED|95.0|0.94|1.59|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.59|0.94|0.1278
92247477|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.27||||0.0749|TWO_SIDED|95.0|0.98|1.65|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.65|0.98|0.0749
92247478|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0633|TWO_SIDED|95.0|0.99|1.66|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.66|0.99|0.0633
92247479|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0626|TWO_SIDED|95.0|0.99|1.67|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.67|0.99|0.0626
92247480|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2727|TWO_SIDED|95.0|0.89|1.51|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.51|0.89|0.2727
92247481|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.2||||0.1749|TWO_SIDED|95.0|0.92|1.57|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.57|0.92|0.1749
92247482|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.09||||0.5239|TWO_SIDED|95.0|0.84|1.42|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.42|0.84|0.5239
92247483|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.14||||0.3336|TWO_SIDED|95.0|0.87|1.49|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.49|0.87|0.3336
92175359|NCT05239455|184242955|OTHER|The FDA requires one-sided 95% lower confidence limit for the population proportion of success is greater than 70% where success of a unit is defined as the RBC in vivo 24-hour percentage recovery ≥ 75%. Allows for low recoveries (\<75%) in 2/20 or 3/24 volunteers.|95% Confidence Interval|88.5|||||ONE_SIDED|95.0|72.81||||||A one-sided confidence interval for the proportion of successes was determined using the Clopper-Pearson exact method for a 95% confidence interval.|The comparison is to the FDA requirements for in vivo 24-hour recovery of LR-RBC.|Proportion of successes greater than 70% where success of a unit is defined as the RBC in vivo 24-hour percentage recovery ≥ 75% was calculated.||72.81|
92247484|NCT02528253|184398097|SUPERIORITY||Odds Ratio (OR)|1.18||||0.2163|TWO_SIDED|95.0|0.91|1.54|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.54|0.91|0.2163
92247485|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.28||||0.326|TWO_SIDED|95.0|0.78|2.08|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.08|0.78|0.3260
92247486|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0445|TWO_SIDED|95.0|1.01|2.56|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.56|1.01|0.0445
92247487|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9263|TWO_SIDED|95.0|0.65|1.61|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.61|0.65|0.9263
92247488|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.25||||0.3194|TWO_SIDED|95.0|0.81|1.94|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.94|0.81|0.3194
92247489|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.58||||0.0308|TWO_SIDED|95.0|1.04|2.38|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.38|1.04|0.0308
92247490|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0048|TWO_SIDED|95.0|1.2|2.69|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.69|1.20|0.0048
92247491|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0114|TWO_SIDED|95.0|1.12|2.51|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.51|1.12|0.0114
92247492|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7857|TWO_SIDED|95.0|0.71|1.56|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.56|0.71|0.7857
92247493|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0041|TWO_SIDED|95.0|1.18|2.44|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.44|1.18|0.0041
92247494|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.59||||0.0109|TWO_SIDED|95.0|1.11|2.28|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.28|1.11|0.0109
92247495|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.53||||0.0363|TWO_SIDED|95.0|1.03|2.27|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.27|1.03|0.0363
92247496|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.76||||0.004|TWO_SIDED|95.0|1.2|2.59|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.59|1.20|0.0040
92247497|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.27||||0.1992|TWO_SIDED|95.0|0.88|1.84|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.84|0.88|0.1992
92247498|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.2||||0.3084|TWO_SIDED|95.0|0.85|1.7|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.70|0.85|0.3084
92247499|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0586|TWO_SIDED|95.0|0.99|1.94|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.94|0.99|0.0586
92247500|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.39||||0.063|TWO_SIDED|95.0|0.98|1.97|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.97|0.98|0.0630
92247501|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0347|TWO_SIDED|95.0|1.03|2.04|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.04|1.03|0.0347
92247502|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|0.96||||0.79|TWO_SIDED|95.0|0.69|1.33|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.33|0.69|0.7900
92247503|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0207|TWO_SIDED|95.0|1.06|2.0|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.00|1.06|0.0207
92247504|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.51||||0.0093|TWO_SIDED|95.0|1.11|2.07|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.07|1.11|0.0093
92247505|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.39||||0.04|TWO_SIDED|95.0|1.02|1.91|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.91|1.02|0.0400
92247506|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.21||||0.2478|TWO_SIDED|95.0|0.88|1.65|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.65|0.88|0.2478
92247507|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0304|TWO_SIDED|95.0|1.03|1.96|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.96|1.03|0.0304
92247508|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.12||||0.4763|TWO_SIDED|95.0|0.81|1.56|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.56|0.81|0.4763
92247509|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0178|TWO_SIDED|95.0|1.07|2.01|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.01|1.07|0.0178
92247510|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.11||||0.5223|TWO_SIDED|95.0|0.8|1.53|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.53|0.80|0.5223
92247511|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.25||||0.1708|TWO_SIDED|95.0|0.91|1.72|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.72|0.91|0.1708
92247512|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.09||||0.6022|TWO_SIDED|95.0|0.79|1.5|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.50|0.79|0.6022
92247513|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0846|TWO_SIDED|95.0|0.96|1.81|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.81|0.96|0.0846
92247514|NCT02528253|184398098|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9626|TWO_SIDED|95.0|0.73|1.39|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.39|0.73|0.9626
92247515|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|0.74|STANDARD_ERROR_OF_MEAN|1.64||0.6508|TWO_SIDED|95.0|-2.49|3.98|||ANCOVA|||Change at Week 16: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.98|-2.49|0.6508
92175360|NCT05239455|184242956|OTHER|The FDA criteria requires LR-RBC mean 24-hour recovery ≥ 75% with standard deviation (SD) ≤ 9%||||||||||||||||The comparison is to the FDA requirements for in vivo 24-hour recovery of LR-RBC.|Mean and standard deviation were calculated.|||
92175361|NCT03701763|184242957|SUPERIORITY||Percentage Adjusted Difference|21.7|||<|0.0001|TWO_SIDED|95.0|11.2|32.1|||Cochran-Mantel-Haenszel|||||32.1|11.2|<0.0001
92247516|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|1.66||0.9629|TWO_SIDED|95.0|-3.33|3.18|||ANCOVA|||Change at Week 16: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.18|-3.33|0.9629
92247517|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.57||0.7007|TWO_SIDED|95.0|-2.48|3.69|||ANCOVA|||Change at Week 16: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.69|-2.48|0.7007
92247518|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|1.58||0.8902|TWO_SIDED|95.0|-3.32|2.88|||ANCOVA|||Change at Week 16: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.88|-3.32|0.8902
92247519|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|1.53||0.5698|TWO_SIDED|95.0|-3.89|2.15|||ANCOVA|||Change at Week 56: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.15|-3.89|0.5698
92247520|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.53||0.8464|TWO_SIDED|95.0|-3.32|2.72|||ANCOVA|||Change at Week 56: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.72|-3.32|0.8464
92247521|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-4.03|STANDARD_ERROR_OF_MEAN|2.39||0.0919|TWO_SIDED|95.0|-8.72|0.66|||ANCOVA|||Change at Week 16: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.66|-8.72|0.0919
92247522|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-4.76|STANDARD_ERROR_OF_MEAN|2.4||0.0477|TWO_SIDED|95.0|-9.47|-0.05|||ANCOVA|||Change at Week 16: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-9.47|0.0477
92247523|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-1.65|STANDARD_ERROR_OF_MEAN|2.3||0.4735|TWO_SIDED|95.0|-6.17|2.87|||ANCOVA|||Change at Week 16: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.87|-6.17|0.4735
92247524|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-2.38|STANDARD_ERROR_OF_MEAN|2.26||0.2935|TWO_SIDED|95.0|-6.82|2.06|||ANCOVA|||Change at Week 16: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.06|-6.82|0.2935
92247525|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-3.11|STANDARD_ERROR_OF_MEAN|2.27||0.1714|TWO_SIDED|95.0|-7.56|1.35|||ANCOVA|||Change at Week 16: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.35|-7.56|0.1714
92247526|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|2.75||0.7521|TWO_SIDED|95.0|-6.3|4.56|||ANCOVA|||Change at Week 56: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||4.56|-6.30|0.7521
92247527|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-2.81|STANDARD_ERROR_OF_MEAN|2.75||0.3078|TWO_SIDED|95.0|-8.24|2.61|||ANCOVA|||Change at Week 56: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.61|-8.24|0.3078
92247528|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-3.95|STANDARD_ERROR_OF_MEAN|2.46||0.109|TWO_SIDED|95.0|-8.78|0.88|||ANCOVA|||Change at Week 16: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.88|-8.78|0.1090
92247529|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-5.41|STANDARD_ERROR_OF_MEAN|2.47||0.0289|TWO_SIDED|95.0|-10.27|-0.56|||ANCOVA|||Change at Week 16: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||-0.56|-10.27|0.0289
92247530|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-1.75|STANDARD_ERROR_OF_MEAN|2.37||0.4613|TWO_SIDED|95.0|-6.41|2.91|||ANCOVA|||Change at Week 16: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.91|-6.41|0.4613
92247531|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|2.33||0.346|TWO_SIDED|95.0|-6.78|2.38|||ANCOVA|||Change at Week 16: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.38|-6.78|0.3460
92247532|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-3.66|STANDARD_ERROR_OF_MEAN|2.34||0.1179|TWO_SIDED|95.0|-8.26|0.93|||ANCOVA|||Change at Week 16: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.93|-8.26|0.1179
92247533|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-1.93|STANDARD_ERROR_OF_MEAN|2.97||0.5151|TWO_SIDED|95.0|-7.78|3.92|||ANCOVA|||Change at Week 56: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.92|-7.78|0.5151
92247534|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-3.38|STANDARD_ERROR_OF_MEAN|2.96||0.255|TWO_SIDED|95.0|-9.22|2.46|||ANCOVA|||Change at Week 56: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.46|-9.22|0.2550
92247535|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-4.18|STANDARD_ERROR_OF_MEAN|1.73||0.0157|TWO_SIDED|95.0|-7.57|-0.79|||ANCOVA|||Change at Week 16: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||-0.79|-7.57|0.0157
92247536|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-4.18|STANDARD_ERROR_OF_MEAN|1.73||0.0159|TWO_SIDED|95.0|-7.57|-0.78|||ANCOVA|||Change at Week 16: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||-0.78|-7.57|0.0159
92247537|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-2.75|STANDARD_ERROR_OF_MEAN|1.62||0.0896|TWO_SIDED|95.0|-5.94|0.43|||ANCOVA|||Change at Week 16: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.43|-5.94|0.0896
92247538|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|1.6||0.3749|TWO_SIDED|95.0|-4.57|1.72|||ANCOVA|||Change at Week 16: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.72|-4.57|0.3749
92247539|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|1.59||0.3733|TWO_SIDED|95.0|-4.55|1.71|||ANCOVA|||Change at Week 16: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.71|-4.55|0.3733
92247540|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|2.17||0.8056|TWO_SIDED|95.0|-4.8|3.73|||ANCOVA|||Change at Week 56: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.73|-4.80|0.8056
92247541|NCT02528253|184398102|SUPERIORITY||LS Mean Difference|-1.16|STANDARD_ERROR_OF_MEAN|2.08||0.5764|TWO_SIDED|95.0|-5.25|2.93|||ANCOVA|||Change at Week 56: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.93|-5.25|0.5764
92247542|NCT02528253|184398103|SUPERIORITY||Odds Ratio (OR)|0.93||||0.7366|TWO_SIDED|95.0|0.62|1.41|||Regression, Logistic|||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.41|0.62|0.7366
92247543|NCT02528253|184398103|SUPERIORITY||Odds Ratio (OR)|1.06||||0.771|TWO_SIDED|95.0|0.71|1.58|||Regression, Logistic|||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.58|0.71|0.7710
92247544|NCT02528253|184398104|SUPERIORITY|||||||0.4724|||||||Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.4724
92247545|NCT02528253|184398104|SUPERIORITY|||||||0.7142|||||||Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.7142
92247546|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.12||||0.396|TWO_SIDED|95.0|0.87|1.44|||Regression, Logistic|||Week 2: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.44|0.87|0.3960
92247547|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|0.93||||0.5932|TWO_SIDED|95.0|0.73|1.2|||Regression, Logistic|||Week 2: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.20|0.73|0.5932
92247548|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.13||||0.3326|TWO_SIDED|95.0|0.88|1.46|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.46|0.88|0.3326
92247549|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|0.84||||0.1765|TWO_SIDED|95.0|0.65|1.08|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.08|0.65|0.1765
92247550|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.08||||0.5619|TWO_SIDED|95.0|0.84|1.39|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.39|0.84|0.5619
92247551|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|0.89||||0.3909|TWO_SIDED|95.0|0.69|1.16|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.16|0.69|0.3909
92247552|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.04||||0.7562|TWO_SIDED|95.0|0.8|1.35|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.35|0.80|0.7562
92247553|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9476|TWO_SIDED|95.0|0.78|1.31|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.31|0.78|0.9476
92247554|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.04||||0.7746|TWO_SIDED|95.0|0.79|1.36|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.36|0.79|0.7746
92247555|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|0.94||||0.6377|TWO_SIDED|95.0|0.71|1.23|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.23|0.71|0.6377
92247556|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8532|TWO_SIDED|95.0|0.79|1.33|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.33|0.79|0.8532
92247557|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.08||||0.5644|TWO_SIDED|95.0|0.83|1.4|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.40|0.83|0.5644
92247558|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.04||||0.769|TWO_SIDED|0.769|0.8|1.35|||Regression, Logistic|||Week 32: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.35|0.80|0.7690
92247559|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.11||||0.4321|TWO_SIDED|95.0|0.85|1.44|||Regression, Logistic|||Week 32: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.44|0.85|0.4321
92247560|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.04||||0.7714|TWO_SIDED|95.0|0.8|1.35|||Regression, Logistic|||Week 40: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.35|0.80|0.7714
92247561|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8389|TWO_SIDED|95.0|0.79|1.34|||Regression, Logistic|||Week 40: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.34|0.79|0.8389
92247562|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9383|TWO_SIDED|95.0|0.76|1.29|||Regression, Logistic|||Week 48: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.29|0.76|0.9383
92247563|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|1.02||||0.88|TWO_SIDED|95.0|0.78|1.33|||Regression, Logistic|||Week 48: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.33|0.78|0.8800
92247564|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|0.97||||0.7946|TWO_SIDED|95.0|0.74|1.26|||Regression, Logistic|||Week 56: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.26|0.74|0.7946
92247565|NCT02528253|184398105|SUPERIORITY||Odds Ratio (OR)|0.96||||0.7803|TWO_SIDED|95.0|0.74|1.25|||Regression, Logistic|||Week 56: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.25|0.74|0.7803
92247566|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|1.16|STANDARD_ERROR_OF_MEAN|0.11||0.1272|TWO_SIDED|95.0|0.96|1.41|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.41|0.96|0.1272
92247567|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|1.05|STANDARD_ERROR_OF_MEAN|0.1||0.6322|TWO_SIDED|95.0|0.86|1.27|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.27|0.86|0.6322
92247568|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|1.1|STANDARD_ERROR_OF_MEAN|0.12||0.3559|TWO_SIDED|95.0|0.89|1.36|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.36|0.89|0.3559
92247569|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.96||||0.6798|TWO_SIDED|95.0|0.77|1.18|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.18|0.77|0.6798
92247570|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|1.14||||0.267|TWO_SIDED|95.0|0.9|1.44|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.44|0.90|0.2670
92247571|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.94||||0.5865|TWO_SIDED|95.0|0.74|1.19|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.19|0.74|0.5865
92247572|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|1.13||||0.3378|TWO_SIDED|95.0|0.88|1.47|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.47|0.88|0.3378
92247573|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.92||||0.551|TWO_SIDED|95.0|0.71|1.2|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.20|0.71|0.5510
92247574|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|1.2|STANDARD_ERROR_OF_MEAN|0.18||0.2088|TWO_SIDED|95.0|0.9|1.6|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.60|0.90|0.2088
92247575|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.98|STANDARD_ERROR_OF_MEAN|0.14||0.8692|TWO_SIDED|95.0|0.73|1.3|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.30|0.73|0.8692
92247576|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|1.03|STANDARD_ERROR_OF_MEAN|0.14||0.8444|TWO_SIDED|95.0|0.78|1.35|||Negative binomial model|||Week 24: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.35|0.78|0.8444
92247577|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.14||0.8936|TWO_SIDED|95.0|0.78|1.34|||Negative binomial model|||Week 24: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.34|0.78|0.8936
92247578|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.98|STANDARD_ERROR_OF_MEAN|0.14||0.8716|TWO_SIDED|95.0|0.75|1.28|||Negative binomial model|||Week 32: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.28|0.75|0.8716
92247579|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.98|STANDARD_ERROR_OF_MEAN|0.14||0.8827|TWO_SIDED|95.0|0.75|1.29|||Negative binomial model|||Week 32: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.29|0.75|0.8827
92247580|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.14||0.8996|TWO_SIDED|95.0|0.77|1.34|||Negative binomial model|||Week 40: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.34|0.77|0.8996
92282974|NCT00890981|184469588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.0766||95.0|-0.4|7.8|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear, quadratic and cubic time terms with treatment-by-time interaction||7.8|-0.4|0.0766
92282975|NCT00890981|184469589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.1648||95.0|-0.6|3.5|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||3.5|-0.6|0.1648
92247581|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.91|STANDARD_ERROR_OF_MEAN|0.13||0.488|TWO_SIDED|95.0|0.69|1.2|||Negative binomial model|||Week 40: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.20|0.69|0.4880
92247582|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.96|STANDARD_ERROR_OF_MEAN|0.14||0.7938|TWO_SIDED|95.0|0.73|1.27|||Negative binomial model|||Week 48: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.27|0.73|0.7938
92247583|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.91|STANDARD_ERROR_OF_MEAN|0.13||0.5092|TWO_SIDED|95.0|0.69|1.2|||Negative binomial model|||Week 48: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.20|0.69|0.5092
92247584|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.13||0.6148|TWO_SIDED|95.0|0.71|1.22|||Negative binomial model|||Week 56: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.22|0.71|0.6148
92247585|NCT02528253|184398107|SUPERIORITY||LS Mean Ratio|0.86|STANDARD_ERROR_OF_MEAN|0.12||0.2844|TWO_SIDED|95.0|0.66|1.13|||Negative binomial model|||Week 56: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.13|0.66|0.2844
92247586|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.1|STANDARD_ERROR_OF_MEAN|0.25||0.6764|TWO_SIDED|95.0|0.7|1.73|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.73|0.70|0.6764
92247587|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.23||0.9351|TWO_SIDED|95.0|0.65|1.6|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.60|0.65|0.9351
92247588|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.2||0.8731|TWO_SIDED|95.0|0.64|1.46|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.46|0.64|0.8731
92247589|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.14|STANDARD_ERROR_OF_MEAN|0.24||0.537|TWO_SIDED|95.0|0.75|1.72|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.72|0.75|0.5370
92247590|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.05|STANDARD_ERROR_OF_MEAN|0.22||0.8031|TWO_SIDED|95.0|0.7|1.59|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.59|0.70|0.8031
92247591|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.24||0.8192|TWO_SIDED|95.0|0.57|1.55|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.55|0.57|0.8192
92282976|NCT00890981|184469590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.0228||95.0|0.1|1.7|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear, quadratic and cubic time terms but without treatment-by-time interaction.||1.7|0.1|0.0228
92175362|NCT03701763|184242958|SUPERIORITY||Percentage Adjusted Difference|29.4|||<|0.0001|TWO_SIDED|95.0|17.8|40.9|||Cochran-Mantel-Haenszel|||||40.9|17.8|<0.0001
92175363|NCT03701763|184242959|SUPERIORITY||Percentage Adjusted Difference|38.4|||<|0.0001|TWO_SIDED|95.0|25.6|51.2|||Cochran-Mantel-Haenszel|||||51.2|25.6|<0.0001
92175364|NCT03701763|184242960|SUPERIORITY||Difference in Least Squares Mean|-26.97|STANDARD_ERROR_OF_MEAN|4.572|<|0.0001|TWO_SIDED|95.0|-35.93|-18.0|||ANCOVA|||||-18.00|-35.93|<0.0001
92175365|NCT03701763|184242961|SUPERIORITY||Difference in Least Squares Mean|-34.77|STANDARD_ERROR_OF_MEAN|6.229|<|0.0001|TWO_SIDED|95.0|-46.99|-22.55|||ANCOVA|||||-22.55|-46.99|< 0.0001
92175366|NCT03701763|184242962|SUPERIORITY||Percentage Adjusted Difference|4.1||||0.5616|TWO_SIDED|95.0|-9.8|18.0|||Cochran-Mantel-Haenszel|||||18.0|-9.8|0.5616
92247592|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.89|STANDARD_ERROR_OF_MEAN|0.22||0.6345|TWO_SIDED|95.0|0.54|1.46|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.46|0.54|0.6345
92247593|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.89|STANDARD_ERROR_OF_MEAN|0.21||0.6103|TWO_SIDED|95.0|0.56|1.4|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.40|0.56|0.6103
92247594|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.25||0.7949|TWO_SIDED|95.0|0.67|1.67|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.67|0.67|0.7949
92247595|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.23||0.992|TWO_SIDED|95.0|0.63|1.57|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.57|0.63|0.9920
92175367|NCT03701763|184242963|SUPERIORITY||Difference in Least Squares Mean|-1.8||||0.0009|TWO_SIDED|95.0|-2.9|-0.8|||ANCOVA|||||-0.8|-2.9|0.0009
92175368|NCT04489771|184242987|SUPERIORITY|P-value, difference in percentage and associated 95% CI were calculated using Miettinen \& Nurminen method stratified by IMDC risk categories (favorable vs. intermediate or poor).|Difference in Percentage|-0.5||||0.5312|TWO_SIDED|95.0|-14.0|12.9||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Miettinen & Nurminen||Belzutifan 200 mg minus Belzutifan 120 mg|||12.9|-14.0|0.5312
92175369|NCT04489771|184242988|OTHER||Hazard Ratio (HR)|0.94||||0.3861|TWO_SIDED|95.0|0.63|1.4||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Log Rank|One-sided nominal p-value based on log-rank test stratified by IMDC risk group (favorable vs. intermediate or poor).|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC risk group (favorable vs. intermediate or poor).|||1.40|0.63|0.3861
92175370|NCT04489771|184242990|OTHER|One-sided nominal p-value, difference in percentage and associated 95% CIs were based on Miettinen \& Nurminen method stratified by IMDC risk group (favorable vs. intermediate or poor).|Miettinen & Nurminen method|-6.3||||0.7832|TWO_SIDED|95.0|-21.7|9.4|||Miettinen & Nurminen method|||||9.4|-21.7|0.7832
92247596|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.96|STANDARD_ERROR_OF_MEAN|0.27||0.8772|TWO_SIDED|95.0|0.55|1.67|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.67|0.55|0.8772
92247597|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.26||0.7614|TWO_SIDED|95.0|0.53|1.6|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.60|0.53|0.7614
92282977|NCT00890981|184469591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.656||95.0|-2.5|4.0|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model includes linear, quadratic and cubic time terms but without treatment-by-time interaction.||4.0|-2.5|0.6560
92282978|NCT00890981|184469592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.0594||95.0|-0.1|3.7|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||3.7|-0.1|0.0594
92282979|NCT00890981|184469593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.0032||95.0|0.9|4.3|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||4.3|0.9|0.0032
92282980|NCT00890981|184469594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.2897||95.0|-0.4|1.2|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear, quadratic and cubic time terms but without treatment-by-time interaction.||1.2|-0.4|0.2897
92247598|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.86|STANDARD_ERROR_OF_MEAN|0.22||0.5629|TWO_SIDED|95.0|0.52|1.43|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.43|0.52|0.5629
92247599|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.11|STANDARD_ERROR_OF_MEAN|0.29||0.6821|TWO_SIDED|95.0|0.67|1.85|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.85|0.67|0.6821
92247600|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.07|STANDARD_ERROR_OF_MEAN|0.28||0.8049|TWO_SIDED|95.0|0.64|1.77|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.77|0.64|0.8049
92282981|NCT00890981|184469595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9||||0.0067||95.0|1.1|6.7|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||6.7|1.1|0.0067
92175371|NCT04489771|184242991|OTHER||Hazard Ratio (HR)|1.11||||0.6448|TWO_SIDED|95.0|0.65|1.9||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Log Rank|One-sided nominal p-value based on log-rank test stratified by IMDC risk group (favorable vs. intermediate or poor).|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC risk group (favorable vs. intermediate or poor).|||1.90|0.65|0.6448
92247601|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.87|STANDARD_ERROR_OF_MEAN|0.27||0.6673|TWO_SIDED|95.0|0.47|1.62|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.62|0.47|0.6673
92247602|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.79|STANDARD_ERROR_OF_MEAN|0.25||0.4475|TWO_SIDED|95.0|0.43|1.46|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.46|0.43|0.4475
92247603|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.86|STANDARD_ERROR_OF_MEAN|0.25||0.5925|TWO_SIDED|95.0|0.49|1.5|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.50|0.49|0.5925
92247604|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.29||0.9486|TWO_SIDED|95.0|0.58|1.79|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.79|0.58|0.9486
92175372|NCT05292872|184242998|SUPERIORITY||Hazard Ratio (HR)|0.37|||<|0.001|TWO_SIDED|95.0|0.143|0.752||1-sided p-values are proportion of bootstrap replicates exceeding null (defined as a HR of 1) in each direction), and the two-tailed p-value is twice the smaller of one-tailed p-values. A two-tailed p-value was calculated for HR using this method.|Nonparametric bootstrap approach|||||0.752|0.143|<.001
92247605|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.26||0.7673|TWO_SIDED|95.0|0.52|1.61|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.61|0.52|0.7673
92247606|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.11|STANDARD_ERROR_OF_MEAN|0.39||0.7635|TWO_SIDED|95.0|0.56|2.2|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||2.20|0.56|0.7635
92247607|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.98|STANDARD_ERROR_OF_MEAN|0.34||0.9564|TWO_SIDED|95.0|0.5|1.94|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.94|0.50|0.9564
92247608|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.3||0.8359|TWO_SIDED|95.0|0.5|1.75|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.75|0.50|0.8359
92247609|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.19|STANDARD_ERROR_OF_MEAN|0.38||0.5914|TWO_SIDED|95.0|0.64|2.21|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||2.21|0.64|0.5914
92247610|NCT02528253|184398109|SUPERIORITY||LS Mean Ratio|1.05|STANDARD_ERROR_OF_MEAN|0.33||0.8826|TWO_SIDED|95.0|0.56|1.95|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.95|0.56|0.8826
92247611|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|7.02|STANDARD_ERROR_OF_MEAN|2.01||0.0005|TWO_SIDED|95.0|3.07|10.97|||ANCOVA|||TSQM Effectiveness; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||10.97|3.07|0.0005
92247612|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|6.21|STANDARD_ERROR_OF_MEAN|2.01||0.0021|TWO_SIDED|95.0|2.26|10.15|||ANCOVA|||TSQM Effectiveness; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||10.15|2.26|0.0021
92247613|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|4.72|STANDARD_ERROR_OF_MEAN|1.89||0.0125|TWO_SIDED|95.0|1.02|8.42|||ANCOVA|||TSQM Effectiveness; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||8.42|1.02|0.0125
92282982|NCT00890981|184469596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.0184||95.0|0.4|3.8|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||3.8|0.4|0.0184
92175373|NCT02561585|184243002|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.97|TWO_SIDED|95.0|-12.05|11.65||t-test in a baseline adjusted linear model|t-test, 2 sided|t-test, 2 sided on a 5% level||||11.65|-12.05|0.97
92175374|NCT04059484|184243050|SUPERIORITY||Hazard Ratio (HR)|1.051||||0.6437|TWO_SIDED|95.0|0.789|1.4||One-sided p-value based on Stratified log-rank test. Threshold for statistical significance at 0.025 level.|Stratified Log-Rank test|Stratified on presence of visceral metastasis, prior treatment with CDK4/6 inhibitors and ECOG according to IRT.|Amcenestrant versus PCEM|A hierarchical testing procedure was used to ensure a strong control of the overall Type I error. Testing was then performed sequentially in order the outcome measures was reported and continued when previous outcome measure was statistically significant at one-sided 2.5% for the primary and the first secondary outcome.||1.4|0.789|0.6437
92175375|NCT04292223|184243063|OTHER|Comparison of the 16-week value with the baseline value|Mean Difference (Final Values)|14.0|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|8.8|19.3|||Mixed Models Analysis|||||19.3|8.8|<0.0001
92175376|NCT00753545|184243069|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.35|||<|1e-05|TWO_SIDED|95.0|0.25|0.49|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||0.49|0.25|<0.00001
92282983|NCT00890981|184469597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.0911||95.0|-0.3|3.5|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||3.5|-0.3|0.0911
92175377|NCT00753545|184243070|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.02|TWO_SIDED|95.0|0.55|0.95|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||0.95|0.55|0.02
92175378|NCT00753545|184243074|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-27.1||||0.03185|TWO_SIDED|95.0|-51.9|-2.4|||ANCOVA|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||LS mean \< 0 favours olaparib||-2.4|-51.9|0.03185
92175379|NCT00753545|184243078|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.35|||<|1e-05|TWO_SIDED|95.0|0.25|0.47|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||0.47|0.25|<0.00001
92175380|NCT00753545|184243082|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.23||||0.22|TWO_SIDED|95.0|0.88|1.71|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||1.71|0.88|0.22
92175381|NCT00753545|184243083|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.67|TWO_SIDED|95.0|0.75|1.56|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||1.56|0.75|0.67
92175382|NCT00753545|184243084|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.16||||0.38|TWO_SIDED|95.0|0.83|1.64|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||1.64|0.83|0.38
92175383|NCT03839940|184243156|SUPERIORITY||||||<|0.9999|||||||Fisher Exact|||||||< 0.9999
92175384|NCT03839940|184243157|SUPERIORITY|||||||0.3346|||||||Wilcoxon (Mann-Whitney)|||||||0.3346
92175385|NCT03839940|184243173|SUPERIORITY||||||<|0.70361|||||||Fisher Exact|||Female Population.||||< 0.70361
92247614|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|2.31|STANDARD_ERROR_OF_MEAN|1.87||0.2176|TWO_SIDED|95.0|-1.36|5.97|||ANCOVA|||TSQM Effectiveness; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.97|-1.36|0.2176
92247615|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|1.49|STANDARD_ERROR_OF_MEAN|1.86||0.4235|TWO_SIDED|95.0|-2.16|5.14|||ANCOVA|||TSQM Effectiveness; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.14|-2.16|0.4235
92247616|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|12.3|STANDARD_ERROR_OF_MEAN|4.96||0.0143|TWO_SIDED|95.0|2.5|22.11|||ANCOVA|||TSQM Side Effects; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||22.11|2.50|0.0143
92247617|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|12.55|STANDARD_ERROR_OF_MEAN|4.96||0.0124|TWO_SIDED|95.0|2.76|22.35|||ANCOVA|||TSQM Side Effects; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||22.35|2.76|0.0124
92247618|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|3.88|STANDARD_ERROR_OF_MEAN|4.29||0.3675|TWO_SIDED|95.0|-4.6|12.36|||ANCOVA|||TSQM Side Effects; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||12.36|-4.60|0.3675
92247619|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|8.42|STANDARD_ERROR_OF_MEAN|3.89||0.0319|TWO_SIDED|95.0|0.74|16.11|||ANCOVA|||TSQM Side Effects; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||16.11|0.74|0.0319
92247620|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|8.67|STANDARD_ERROR_OF_MEAN|3.9||0.0276|TWO_SIDED|95.0|0.97|16.38|||ANCOVA|||TSQM Side Effects; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||16.38|0.97|0.0276
92247621|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|2.57|STANDARD_ERROR_OF_MEAN|1.38||0.0627|TWO_SIDED|95.0|-0.14|5.27|||ANCOVA|||TSQM Convenience; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.27|-0.14|0.0627
92247622|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|3.26|STANDARD_ERROR_OF_MEAN|1.38||0.0187|TWO_SIDED|95.0|0.54|5.97|||ANCOVA|||TSQM Convenience; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.97|0.54|0.0187
92247623|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|1.52|STANDARD_ERROR_OF_MEAN|1.3||0.2419|TWO_SIDED|95.0|-1.03|4.06|||ANCOVA|||TSQM Convenience; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||4.06|-1.03|0.2419
92247624|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|1.05|STANDARD_ERROR_OF_MEAN|1.28||0.4124|TWO_SIDED|95.0|-1.46|3.56|||ANCOVA|||TSQM Convenience; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||3.56|-1.46|0.4124
92247625|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|1.74|STANDARD_ERROR_OF_MEAN|1.27||0.173|TWO_SIDED|95.0|-0.76|4.24|||ANCOVA|||TSQM Convenience; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||4.24|-0.76|0.1730
92247626|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|5.42|STANDARD_ERROR_OF_MEAN|1.86||0.0037|TWO_SIDED|95.0|1.77|9.08|||ANCOVA|||TSQM Global Satisfaction; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||9.08|1.77|0.0037
92175386|NCT03839940|184243173|SUPERIORITY||||||<|0.4667|||||||Fisher Exact|||Male population.||||<0.4667
92175387|NCT03839940|184243174|SUPERIORITY||||||<|1|||||||Fisher Exact|||Black or African American population||||<1.0
92247627|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|3.74|STANDARD_ERROR_OF_MEAN|1.86||0.0449|TWO_SIDED|95.0|0.09|7.39|||ANCOVA|||TSQM Global Satisfaction; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||7.39|0.09|0.0449
92247628|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|1.75||0.2038|TWO_SIDED|95.0|-1.21|5.65|||ANCOVA|||TSQM Global Satisfaction; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.65|-1.21|0.2038
92247629|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|1.73||0.0644|TWO_SIDED|95.0|-0.19|6.59|||ANCOVA|||TSQM Global Satisfaction; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||6.59|-0.19|0.0644
92247630|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|1.52|STANDARD_ERROR_OF_MEAN|1.72||0.3775|TWO_SIDED|95.0|-1.86|4.9|||ANCOVA|||TSQM Global Satisfaction; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||4.90|-1.86|0.3775
92247631|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|1.45|STANDARD_ERROR_OF_MEAN|2.62||0.5806|TWO_SIDED|95.0|-3.7|6.6|||ANCOVA|||TSQM Effectiveness; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||6.60|-3.70|0.5806
92247632|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|2.53||0.6084|TWO_SIDED|95.0|-3.68|6.27|||ANCOVA|||TSQM Effectiveness; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||6.27|-3.68|0.6084
92247633|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|2.71|STANDARD_ERROR_OF_MEAN|6.95||0.6991|TWO_SIDED|95.0|-11.56|16.99|||ANCOVA|||TSQM Side Effects; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||16.99|-11.56|0.6991
92247634|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|13.17|STANDARD_ERROR_OF_MEAN|5.6||0.0265|TWO_SIDED|95.0|1.66|24.68|||ANCOVA|||TSQM Side Effects; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||24.68|1.66|0.0265
92247635|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.99||0.8795|TWO_SIDED|95.0|-3.61|4.21|||ANCOVA|||TSQM Convenience; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||4.21|-3.61|0.8795
92247636|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.92||0.2758|TWO_SIDED|95.0|-1.68|5.87|||ANCOVA|||TSQM Convenience; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.87|-1.68|0.2758
92247637|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|3.54|STANDARD_ERROR_OF_MEAN|2.27||0.1197|TWO_SIDED|95.0|-0.92|8.0|||ANCOVA|||TSQM Global Satisfaction; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||8.00|-0.92|0.1197
92247638|NCT02528253|184398118|SUPERIORITY||LS Mean Difference|3.93|STANDARD_ERROR_OF_MEAN|2.19||0.0743|TWO_SIDED|95.0|-0.39|8.24|||ANCOVA|||TSQM Global Satisfaction; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||8.24|-0.39|0.0743
92247639|NCT01016678|184398159|SUPERIORITY_OR_OTHER||Difference in percentages|18.0||||0.0038|TWO_SIDED||||||Chi-squared|||Comparison of percentage of participants pain free at 2 hours post-dose (active) to percentage of participants pain free at 2 hours post-dose (placebo)||||0.0038
92247640|NCT01016678|184398160|SUPERIORITY_OR_OTHER||difference in percentages|8.0||||0.1294|TWO_SIDED||||||Chi-squared|||||||0.1294
92247641|NCT01546285|184398184|NON_INFERIORITY_OR_EQUIVALENCE|This study is to show a mean difference of less than 5mmHg and a standard deviation less than 8mmHg for the difference in systolic, diastolic, and mean BP readings taken by B40 and PRO1000 patient monitors.|Mean Difference (Final Values)|-1.4|STANDARD_DEVIATION|4.8|||TWO_SIDED|95.0|-2.58|-0.22|||Compare the mean difference with 5mmHg|||A total of no less than 65 subjects are needed for this study. Assuming a mean of no more than 4 mmHg and a standard deviation of no more than 5 mmHg for the difference, this sample size ensures that the percent of subjects with equivalent NIBP is at least 80% with 90% confidence. The difference between the B40 and PRO1000 patient monitors in systolic, diastolic, and mean BP determinations will be compared. A difference of within 10 mmHg is considered equivalent in NIBP.||-0.22|-2.58|
92247642|NCT01546285|184398184|NON_INFERIORITY_OR_EQUIVALENCE|This study is to show a mean difference of less than 5mmHg and a standard deviation less than 8mmHg for the difference in systolic, diastolic, and mean BP readings taken by B40 and PRO1000 patient monitors.|Mean Difference (Final Values)|-3.3|STANDARD_DEVIATION|2.6|||TWO_SIDED|95.0|-3.95|-2.66||||||A total of no less than 65 subjects are needed for this study. Assuming a mean of no more than 4mmHg and a standard deviation of no more than 5mmHg for the difference, this sample size ensures that the percent of subjects with equivalent NIBP is a least 80% with 90% confidence. The difference between the B40 and PRO1000 patient monitors in the systolic, diastolic, and mean BP determinations will be compared. A difference of within 10mmHg is considered equivalent in NIBP.||-2.66|-3.95|
92247643|NCT01546285|184398184|NON_INFERIORITY_OR_EQUIVALENCE|This study is to show a mean difference of less than 5mmHg and a standard deviation less than 8mmHg for the difference in systolic, diastolic, and mean BP readings taken by B40 and PRO1000 patient monitors.|Mean Difference (Final Values)|-3.7|STANDARD_DEVIATION|4.2|||TWO_SIDED|95.0|-4.73|-2.67||||||A total of no less than 65 subjects are needed for this study. Assuming a mean of no more than 4mmHg and a standard deviation of no more than 5mmHg for the difference, this sample size ensures that the percent of subjects with equivalent NIBP is a least 80% with 90% confidence. The difference between the B40 and PRO1000 patient monitors in the systolic, diastolic, and mean BP determinations will be compared. A difference of within 10mmHg is considered equivalent in NIBP.||-2.67|-4.73|
92247644|NCT00225147|184398185|SUPERIORITY_OR_OTHER|||||||0.001|||||||Log Rank|||||||0.001
92247645|NCT00225147|184398185|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Log Rank|||||||<0.001
92247646|NCT00225147|184398186|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Log Rank|||||||0.040
92247647|NCT00225147|184398186|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Log Rank|||||||<0.001
92247648|NCT01114373|184398210|SUPERIORITY_OR_OTHER|||||||0.0269|TWO_SIDED||||||ANOVA|||The null hypothesis was that there is no interaction between the order of randomization and the primary outcome measures.||||0.0269
92175388|NCT03839940|184243174|SUPERIORITY||||||<|1|||||||Fisher Exact|||White population||||<1.0
92247649|NCT01114373|184398210|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||ANOVA|||||||0.84
92247650|NCT01114373|184398211|SUPERIORITY_OR_OTHER|||||||0.0492|TWO_SIDED||||||ANOVA|||The null hypothesis was that there is no interaction between the order of randomization and the primary outcome measures.||||0.0492
92247651|NCT01114373|184398211|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||ANOVA|||||||0.95
92247652|NCT01114373|184398212|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED||||||ANOVA|||||||0.91
92247653|NCT01114373|184398213|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||ANOVA|||||||0.88
92247654|NCT01114373|184398214|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||ANOVA|||||||0.16
92175389|NCT03839940|184243175|SUPERIORITY||||||<|1|||||||Fisher Exact|||Not Hispanic or Latino population.||||<1.0
92247655|NCT01114373|184398215|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANOVA|||||||0.12
92247656|NCT01114373|184398216|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANOVA|||||||0.12
92247657|NCT01114373|184398217|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANOVA|||||||0.21
92247658|NCT01114373|184398218|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Friedman|||||||0.06
92247659|NCT01114373|184398219|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Friedman|||||||0.21
92247660|NCT01114373|184398220|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Friedman|||||||0.41
92247661|NCT01114373|184398221|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||ANOVA|||||||0.13
92282984|NCT00890981|184469598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.0035||95.0|0.7|3.5|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||3.5|0.7|0.0035
92282985|NCT00890981|184469599|SUPERIORITY_OR_OTHER||Ratio of Denosumab to Placebo|1.1||||0.0591||95.0|1.0|1.3|||ANCOVA|||ANCOVA based on the log transformed actual values with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||1.3|1.0|0.0591
92175390|NCT03839940|184243176|SUPERIORITY||||||<|0.1701|||||||Wilcoxon (Mann-Whitney)|||Female population.||||<0.1701
92247662|NCT01114373|184398222|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||ANOVA|||||||0.58
92247663|NCT01114373|184398223|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||ANOVA|||||||0.39
92247664|NCT03444870|184398224|SUPERIORITY||Difference in adjusted mean|-0.31|STANDARD_ERROR_OF_MEAN|0.18||0.0954|TWO_SIDED|95.0|-0.66|0.05|||ANCOVA|||Change from Baseline was calculated based on ANCOVA analysis model which included the following covariates and stratification factors =Treatment + Baseline (BL) + Geographic Region + Disease Stage + AD Medication at BL + Apolipoprotein E, Allele e4 (APOE e4) + Baseline Alzheimer Disease Assessment Scale-Cognition Subscale 13 (ADAS-Cog13) Score + Baseline Alzheimer Disease Cooperative Study Group-Activities of Daily Living (ADCS-ADL).||0.05|-0.66|0.0954
92247665|NCT03444870|184398226|SUPERIORITY||Difference in adjusted mean|-1.25|STANDARD_ERROR_OF_MEAN|0.65||0.0544|TWO_SIDED|95.0|-2.52|0.02|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||0.02|-2.52|0.0544
92282986|NCT00890981|184469600|SUPERIORITY_OR_OTHER||Ratio of Denosumab to Placebo|1.2||||0.0079||95.0|1.0|1.3|||ANCOVA|||ANCOVA based on the log transformed actual values with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||1.3|1.0|0.0079
92175391|NCT03839940|184243176|SUPERIORITY||||||<|0.4811|||||||Wilcoxon (Mann-Whitney)|||Male population.||||<0.4811
92175392|NCT03839940|184243177|SUPERIORITY||||||<|1|||||||Wilcoxon (Mann-Whitney)|||Black or African American Population||||<1.0
92175393|NCT03839940|184243177|SUPERIORITY||||||<|0.5029|||||||Wilcoxon (Mann-Whitney)|||White Population||||<0.5029
92175394|NCT03839940|184243178|SUPERIORITY||||||<|0.295|||||||Wilcoxon (Mann-Whitney)|||Not Hispanic or Latino Population||||<0.2950
92247666|NCT03444870|184398227|SUPERIORITY||Difference in adjusted mean|1.11|STANDARD_ERROR_OF_MEAN|0.81||0.1729|TWO_SIDED|95.0|-0.48|2.7|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Region + Disease Stage + AD Medication at BL + APOE e4.||2.70|-0.48|0.1729
92247667|NCT03444870|184398228|SUPERIORITY||Difference in adjusted mean|-0.86|STANDARD_ERROR_OF_MEAN|0.42||0.0425|TWO_SIDED|95.0|-1.68|-0.03|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||-0.03|-1.68|0.0425
92247668|NCT03444870|184398229|SUPERIORITY||Difference in adjusted mean|0.32|STANDARD_ERROR_OF_MEAN|0.31||0.2904|TWO_SIDED|95.0|-0.28|0.93|||ANCOVA|||Change from Baseline was calculated based on ANCOVA analysis model which included the following covariates and stratification factors =Treatment + Baseline + Geographic Region + Disease Stage + AD Medication at BL + APOE e4.||0.93|-0.28|0.2904
92175395|NCT04963270|184243185|SUPERIORITY||Difference in Adjusted Mean|-1.02|STANDARD_DEVIATION|0.44||0.0196|TWO_SIDED|95.0|-1.88|-0.16|||ANCOVA and Conditional Mean Imputation|||||-0.16|-1.88|0.0196
92175396|NCT04963270|184243186|SUPERIORITY||Difference in Adjusted Mean|-1.02|STANDARD_ERROR_OF_MEAN|0.41||0.0123|TWO_SIDED|95.0|-1.82|-0.22|||ANCOVA and Conditional Mean Imputation|||||-0.22|-1.82|0.0123
92175397|NCT04963270|184243187|SUPERIORITY||Difference in Response Rate|-12.7||||0.088|TWO_SIDED|95.0|-27.3|1.9|||Cochran-Mantel-Haenszel|||Stratified Analysis||1.9|-27.3|0.088
92247669|NCT03444870|184398230|SUPERIORITY||Difference in adjusted mean|-0.97|STANDARD_ERROR_OF_MEAN|0.6||0.1036|TWO_SIDED|95.0|-2.14|0.2|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||0.20|-2.14|0.1036
92247670|NCT03444870|184398231|SUPERIORITY||Difference in adjusted mean|-0.07|STANDARD_ERROR_OF_MEAN|0.37||0.8468|TWO_SIDED|95.0|-0.79|0.65|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||0.65|-0.79|0.8468
92175398|NCT04963270|184243188|SUPERIORITY||Difference in Response Rate|-10.5||||0.137|TWO_SIDED|95.0|-24.2|3.3|||Cochran-Mantel-Haenszel|||Stratified Analysis||3.3|-24.2|0.137
92175399|NCT04963270|184243189|SUPERIORITY||Difference in Adjusted Mean|-1.63|STANDARD_ERROR_OF_MEAN|0.6||0.0062|TWO_SIDED|95.0|-2.8|-0.46|||ANCOVA and Conditional Mean Imputation|||||-0.46|-2.80|0.0062
92175400|NCT04963270|184243190|SUPERIORITY||Difference in adjusted Mean|-1.68|STANDARD_ERROR_OF_MEAN|0.57||0.0034|TWO_SIDED|95.0|-2.8|-0.56|||ANCOVA and Conditional Mean Imputation|||||-0.56|-2.80|0.0034
92175401|NCT04963270|184243191|SUPERIORITY||Difference in Adjusted Mean|-1.51|STANDARD_ERROR_OF_MEAN|0.94||0.1094|TWO_SIDED|95.0|-3.36|0.34|||ANCOVA and Conditional Mean Imputation|||||0.34|-3.36|0.1094
92175402|NCT04963270|184243192|SUPERIORITY||Difference in Adjusted Mean|-1.39|STANDARD_ERROR_OF_MEAN|0.85||0.0999|TWO_SIDED|95.0|-3.05|0.27|||ANCOVA and Conditional Mean Imputation|||||0.27|-3.05|0.0999
92175403|NCT04963270|184243193|SUPERIORITY||Difference in Adjusted Mean|-2.2|STANDARD_ERROR_OF_MEAN|1.1||0.0456|TWO_SIDED|95.0|-4.36|-0.04|||ANCOVA and Conditional Mean Imputation|||||-0.04|-4.36|0.0456
92282987|NCT02532764|184469667|SUPERIORITY||Difference vs placebo|12.91|STANDARD_ERROR_OF_MEAN|6.53||0.0592|TWO_SIDED|95.0|-0.54|26.35||p-values are presented for Day 33.|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||26.35|-0.54|0.0592
92175404|NCT04963270|184243194|SUPERIORITY||Difference in Adjusted Mean|-2.11|STANDARD_ERROR_OF_MEAN|1.02||0.0382|TWO_SIDED|95.0|-4.1|-0.11|||ANCOVA and Conditional Mean Imputation|||||-0.11|-4.10|0.0382
92175405|NCT04963270|184243195|SUPERIORITY|Stratified Analysis|Difference in Response Rate|-18.7||||0.013|TWO_SIDED|95.0|-33.5|-3.9|||Cochran-Mantel-Haenszel|||||-3.9|-33.5|0.013
92175406|NCT04963270|184243196|SUPERIORITY|Stratified Analysis|Difference in Response Rate|-22.0||||0.002|TWO_SIDED|95.0|-36.2|-7.9|||Cochran-Mantel-Haenszel|||||-7.9|-36.2|0.002
92175407|NCT04963270|184243197|SUPERIORITY||Difference in Adjusted Mean|-2.99|STANDARD_ERROR_OF_MEAN|0.81||0.0002|TWO_SIDED|95.0|-4.57|-1.41|||ANCOVA and Conditional Mean Imputation|||||-1.41|-4.57|0.0002
92175408|NCT04963270|184243198|SUPERIORITY||Difference in Adjusted Mean|-3.0|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED|95.0|-4.47|-1.53|||ANCOVA and Conditional Mean Imputation|||||-1.53|-4.47|<0.0001
92175409|NCT04963270|184243199|SUPERIORITY||Difference in Response Rate|-21.0||||0.004|TWO_SIDED|95.0|-35.4|-6.6|||Cochran-Mantel-Haenszel|||||-6.6|-35.4|0.004
92175410|NCT04963270|184243200|SUPERIORITY|Stratified Analysis|Difference in Response Rate|-19.4||||0.005|TWO_SIDED|95.0|-32.8|-5.9|||Cochran-Mantel-Haenszel|||||-5.9|-32.8|0.005
92175411|NCT04963270|184243201|SUPERIORITY||Difference in Response Rate|-1.7||||0.847|TWO_SIDED|95.0|-19.4|15.9|||Cochran-Mantel-Haenszel|||||15.9|-19.4|0.847
92175412|NCT04963270|184243202|SUPERIORITY|Stratified Analysis|Difference in Response Rate|-4.3||||0.441|TWO_SIDED|95.0|-15.4|6.7|||Cochran-Mantel-Haenszel|||||6.7|-15.4|0.441
92175413|NCT04963270|184243203|SUPERIORITY||Difference in Response Rate|8.5||||0.115|TWO_SIDED|95.0|-2.1|19.0|||Cochran-Mantel-Haenszel|||||19|-2.1|0.115
92175414|NCT04963270|184243204|SUPERIORITY|Stratified Analysis|Difference in Response Rate|8.8||||0.077|TWO_SIDED|95.0|-1.0|18.6|||Cochran-Mantel-Haenszel|||||18.6|-1|0.077
92175415|NCT04963270|184243205|SUPERIORITY||Risk Difference|-6.77||||0.1314|TWO_SIDED|95.0|-17.25|3.7|||Cochran-Mantel-Haenszel|||||3.70|-17.25|0.1314
92175416|NCT04963270|184243206|SUPERIORITY|Stratified Analysis|Risk Difference|-5.07||||0.2264|TWO_SIDED|95.0|-14.74|4.61|||Cochran-Mantel-Haenszel|||||4.61|-14.74|0.2264
92247671|NCT03444870|184398232|SUPERIORITY||Difference in adjusted mean|0.2|STANDARD_ERROR_OF_MEAN|0.79||0.803|TWO_SIDED|95.0|-1.35|1.74|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||1.74|-1.35|0.8030
92175417|NCT04963270|184243207|SUPERIORITY||Difference in Adjusted Mean|3.44|STANDARD_ERROR_OF_MEAN|1.45||0.0179|TWO_SIDED|95.0|0.59|6.29|||ANCOVA and Conditional Mean Imputation|||||6.29|0.59|0.0179
92175418|NCT04963270|184243208|SUPERIORITY|Stratified Analysis|Difference in Adjusted Mean|3.73|STANDARD_ERROR_OF_MEAN|1.37||0.0066|TWO_SIDED|95.0|1.04|6.42|||ANCOVA and Conditional Mean Imputation|||||6.42|1.04|0.0066
92247672|NCT03444870|184398233|SUPERIORITY||Difference in adjusted mean|1.0|STANDARD_ERROR_OF_MEAN|0.68||0.1439|TWO_SIDED|95.0|-0.34|2.34|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||2.34|-0.34|0.1439
92247673|NCT03444870|184398240|SUPERIORITY||Difference in adjusted means|-66.44|STANDARD_ERROR_OF_MEAN|4.171|<|0.0001|TWO_SIDED|95.0|-74.71|-58.16|||Mixed Model for Repeated Measures|||Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Type of Tracer + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||-58.16|-74.71|<.0001
92175419|NCT03381196|184243229|SUPERIORITY|||||||0.0216|||||||Gehan-Wilcoxon test|||||||0.0216
92183029|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|9.12|||TWO_SIDED|95.0|-20.9|15.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||15.0|-20.9|
92247674|NCT03444870|184398241|SUPERIORITY||Difference in adjusted mean|0.01|STANDARD_ERROR_OF_MEAN|0.023||0.7816|TWO_SIDED|95.0|-0.04|0.05|||Mixed Model for Repeated Measures|||Temporal Composite Region: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.04|0.7816
92183030|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-47.8|STANDARD_ERROR_OF_MEAN|9.42|||TWO_SIDED|95.0|-66.3|-29.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||-29.3|-66.3|
92247675|NCT03444870|184398241|SUPERIORITY||Difference in adjusted means|0.01|STANDARD_ERROR_OF_MEAN|0.018||0.6203|TWO_SIDED|95.0|-0.03|0.05|||Mixed Model for Repeated Measures|||Medial Temporal Composite Region: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.03|0.6203
92247676|NCT03444870|184398241|SUPERIORITY||Difference in adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.015||0.7754|TWO_SIDED|95.0|-0.03|0.03|||Mixed Model for Repeated Measures|||Frontal Lobe: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.03|-0.03|0.7754
92247677|NCT03444870|184398241|SUPERIORITY||Difference in adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.026||0.9022|TWO_SIDED|95.0|-0.05|0.05|||Mixed Model for Repeated Measures|||Parietal Lobe: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.05|0.9022
92247678|NCT03444870|184398242|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Parietal Lobe: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||||<.001
92247679|NCT03444870|184398243|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<.001
92247680|NCT03444870|184398244|SUPERIORITY|||||||0.396|||||||ANCOVA|||||||0.396
92247681|NCT03444870|184398245|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<.001
92282988|NCT02532764|184469667|SUPERIORITY||difference vs placebo|19.13|STANDARD_ERROR_OF_MEAN|6.56||0.0074|TWO_SIDED|95.0|5.62|32.64||p-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||32.64|5.62|0.0074
92247682|NCT03807245|184398270|OTHER||||||<|0.0001|||||||ANOVA|||Adjusted geometric mean fold increase from Day 1 to Day 85: adjusted geometric mean ratio GBS-NN/NN2 25mcg/placebo||||<0.0001
92247683|NCT03807245|184398270|OTHER||||||<|0.0001|||||||ANOVA|||Adjusted geometric mean fold increase from Day 1 to Day 85: adjusted geometric mean ratio GBS-NN/NN2 50mcg/placebo||||<0.0001
92247684|NCT01668030|184398276|SUPERIORITY|||||||0.0853|||||||t-test, 2 sided|||||||.0853
92247685|NCT03084718|184398281|SUPERIORITY||Mean Difference (Final Values)|0.044||||0.567|TWO_SIDED|95.0|-0.052|0.14|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.140|-0.052|0.567
92247686|NCT03084718|184398281|SUPERIORITY||Mean Difference (Final Values)|0.113||||0.015|TWO_SIDED|95.0|0.018|0.209|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||0.209|0.018|0.015
92247687|NCT03084718|184398281|SUPERIORITY||Mean Difference (Final Values)|0.093||||0.059|TWO_SIDED|95.0|-0.003|0.188|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||0.188|-0.003|0.059
92282989|NCT02532764|184469667|SUPERIORITY||difference vs placebo|14.24|STANDARD_ERROR_OF_MEAN|6.6||0.0408|TWO_SIDED|95.0|0.64|27.83||p-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||27.83|0.64|0.0408
92247688|NCT03084718|184398281|SUPERIORITY||Mean Difference (Final Values)|0.069||||0.09|TWO_SIDED|95.0|-0.011|0.15|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.150|-0.011|0.090
92247689|NCT03084718|184398281|SUPERIORITY||Mean Difference (Final Values)|0.049||||0.231|TWO_SIDED|95.0|-0.031|0.129|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.129|-0.031|0.231
92247690|NCT03084718|184398281|SUPERIORITY||Mean Difference (Final Values)|-0.021||||0.612|TWO_SIDED|95.0|-0.101|0.059|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.059|-0.101|0.612
92247691|NCT03084718|184398281|SUPERIORITY||Mean Difference (Final Values)|0.102||||0.011|TWO_SIDED|95.0|0.023|0.18|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.180|0.023|0.011
92247692|NCT03084718|184398282|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.647|TWO_SIDED|95.0|-0.06|0.097|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.097|-0.060|0.647
92175420|NCT01073566|184243256|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Pre-study power calculations determined that 28 completed subjects provided 90% power to detect equivalence for the primary endpoint of MDBG of bolus-patch compared to pen/syringe using a 2-sided alpha level of 0.05, when the margin of equivalence for MDBG is 1.11 mmol/L, the true mean difference is 0.0, and the standard deviation of the differences is 1.72 mmol/L.|Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.24||0.098|TWO_SIDED|95.0|-0.97|0.16|||ANOVA||Finesse versus usual injection device.|A two-period, two-treatment crossover ANOVA model was used to compare devices for continuous measures.||0.16|-0.97|0.098
92175421|NCT01073566|184243257|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.15||0.004|TWO_SIDED|95.0|-0.8|-0.17|||ANOVA||Finesse versus usual injection device|This was conducted at a 2-sided alpha level of 0.05 and confidence intervals (CI) were calculated at 95%, 2-sided. A two-period, two-treatment crossover ANOVA model was used to compare devices for continuous measures.||-0.17|-0.80|0.004
92175422|NCT01073566|184243258|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar|||Higher number is better. The answers were scored on a scale of 0-100 to standardize as described in the original papers.||||<0.001
92247693|NCT03084718|184398282|SUPERIORITY||Mean Difference (Final Values)|0.118||||0.004|TWO_SIDED|95.0|0.039|0.196|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||0.196|0.039|0.004
92247694|NCT03084718|184398282|SUPERIORITY||Mean Difference (Final Values)|0.071||||0.076|TWO_SIDED|95.0|-0.008|0.149|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||0.149|-0.008|0.076
92247695|NCT03084718|184398282|SUPERIORITY||Mean Difference (Final Values)|0.099||||0.014|TWO_SIDED|95.0|0.02|0.179|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.179|0.020|0.014
92282990|NCT02532764|184469667|SUPERIORITY||difference vs placebo|3.46|STANDARD_ERROR_OF_MEAN|6.87||0.6193|TWO_SIDED|95.0|-10.69|17.6||p-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||17.60|-10.69|0.6193
92247696|NCT03084718|184398282|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.192|TWO_SIDED|95.0|-0.026|0.131|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.131|-0.026|0.192
92247697|NCT03084718|184398282|SUPERIORITY||Mean Difference (Final Values)|-0.047||||0.244|TWO_SIDED|95.0|-0.126|0.032|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.032|-0.126|0.244
92247698|NCT03084718|184398282|SUPERIORITY||Mean Difference (Final Values)|0.074||||0.06|TWO_SIDED|95.0|-0.003|0.151|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.151|-0.003|0.060
92175423|NCT02547233|184243354|SUPERIORITY||Ratio of clearance rates|30.55|||<|0.001|TWO_SIDED|95.0|4.28|218.0|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|||218.0|4.28|<0.001
92247699|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.012||||0.78|TWO_SIDED|95.0|-0.074|0.098|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.098|-0.074|0.780
92247700|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.076||||0.086|TWO_SIDED|95.0|-0.011|0.162|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||0.162|-0.011|0.086
92247701|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.043||||0.324|TWO_SIDED|95.0|-0.043|0.129|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||0.129|-0.043|0.324
92247702|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.063||||0.153|TWO_SIDED|95.0|-0.024|0.15|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.150|-0.024|0.153
92247703|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.031||||0.482|TWO_SIDED|95.0|-0.055|0.117|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.117|-0.055|0.482
92247704|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|-0.032||||0.463|TWO_SIDED|95.0|-0.119|0.054|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.054|-0.119|0.463
92247705|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.032||||0.453|TWO_SIDED|95.0|-0.052|0.117|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.117|-0.052|0.453
92247706|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.533|TWO_SIDED|95.0|-0.064|0.123|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.123|-0.064|0.533
92247707|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.105||||0.029|TWO_SIDED|95.0|0.011|0.199|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||0.199|0.011|0.029
92247708|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.274|TWO_SIDED|95.0|-0.041|0.146|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||0.146|-0.041|0.274
92282991|NCT02532764|184469669|SUPERIORITY||Difference vs placebo|23.17|STANDARD_ERROR_OF_MEAN|9.73||0.0321|TWO_SIDED|95.0|2.29|44.04||p-values are presented for Day 33.|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||44.04|2.29|0.0321
92247709|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.075||||0.119|TWO_SIDED|95.0|-0.019|0.169|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.169|-0.019|0.119
92183031|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-23.7|STANDARD_ERROR_OF_MEAN|9.34|||TWO_SIDED|95.0|-42.0|-5.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||-5.4|-42.0|
92247710|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.638|TWO_SIDED|95.0|-0.071|0.116|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.116|-0.071|0.638
92247711|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|-0.052||||0.274|TWO_SIDED|95.0|-0.147|0.042|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.042|-0.147|0.274
92247712|NCT03084718|184398283|SUPERIORITY||Mean Difference (Final Values)|0.079||||0.092|TWO_SIDED|95.0|-0.013|0.171|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.171|-0.013|0.092
92247713|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.053|TWO_SIDED|95.0|-0.31|0.0|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.00|-0.31|0.053
92247714|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.001|TWO_SIDED|95.0|-0.42|-0.11|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.11|-0.42|0.001
92247715|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.006|TWO_SIDED|95.0|-0.37|-0.06|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.06|-0.37|0.006
92247716|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.176|TWO_SIDED|95.0|-0.26|0.05|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.05|-0.26|0.176
92247717|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.423|TWO_SIDED|95.0|-0.22|0.09|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.09|-0.22|0.423
92247718|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.574|TWO_SIDED|95.0|-0.11|0.2|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.20|-0.11|0.574
92247719|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.011|TWO_SIDED|95.0|-0.35|-0.05|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.05|-0.35|0.011
92247720|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.215|TWO_SIDED|95.0|-0.27|0.06|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo"||0.06|-0.27|0.215
92247721|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.07|TWO_SIDED|95.0|-0.32|0.01|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||0.01|-0.32|0.070
92247722|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.005|TWO_SIDED|95.0|-0.4|-0.07|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.07|-0.40|0.005
92247723|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.566|TWO_SIDED|95.0|-0.21|0.12|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.12|-0.21|0.566
92282992|NCT02532764|184469669|SUPERIORITY||Difference vs placebo|27.3|STANDARD_ERROR_OF_MEAN|9.17||0.01|TWO_SIDED|95.0|7.64|46.96||p-values are presented for Day 33.|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||46.96|7.64|0.0100
92175424|NCT02547233|184243355|SUPERIORITY||Ratio of clearance rates|12.26|||<|0.001|TWO_SIDED|95.0|4.73|31.78|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||31.78|4.73|<0.001
92175425|NCT02547233|184243356|SUPERIORITY||Ratio of clearance rates|10.31|||<|0.001|TWO_SIDED|95.0|4.43|23.97|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||23.97|4.43|<0.001
92175426|NCT02547233|184243357|SUPERIORITY||Week 8 AK count ratio|0.3|||<|0.001|TWO_SIDED|95.0|0.25|0.37||Negative binominal regression with treatment group and pooled site as factors and log baseline count as offset variable.|Mantel Haenszel||0.018% relative to vehicle.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||0.37|0.25|<0.001
92175427|NCT05235750|184243358|OTHER||Mean Difference (Net)|0.2||||0.83|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for RSES.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for RSES.|We analyzed short- (at 6 weeks post-baseline or T3) and longer-term differences (at 8 weeks post-baseline or T4) for the RSES, expecting a larger size of differences at T3. The short-term difference \[(T3-T2)-(T2-T1)\] represents differences between post-intervention change (T3-T2) and pre-intervention change (T2-T1). Longer-term difference \[(T4-T2)-(T2-T1)\] represents differences between 2 weeks post-intervention change (T4-T2) and pre-intervention change (T2-T1).||||.83
92175428|NCT05235750|184243358|OTHER||Mean Difference (Net)|-0.2||||0.91|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for RSES.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for RSES.|||||.91
92175429|NCT05235750|184243359|OTHER||Mean Difference (Net)|-2.1||||0.45|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACT-G.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACT-G.|We analyzed short- (at 6 weeks post-baseline, T3) and longer-term differences (at 8 weeks post-baseline, T4) for the FACT-G at scale, factor and item levels expecting a larger size of differences at T3. The short-term difference \[(T3-T2)-(T2-T1)\] represents differences between post-intervention change (T3-T2) and pre-intervention change (T2-T1). Longer-term difference \[(T4-T2)-(T2-T1)\] represents differences between 2 weeks post-intervention change (T4-T2) and pre-intervention change (T2-T1).||||.45
92175430|NCT05235750|184243359|OTHER||Mean Difference (Net)|-3.3||||0.29|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACT-G.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACT-G.|||||.29
92175431|NCT05235750|184243359|OTHER||Mean Difference (Net)|0.8||||0.46|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for physical well-being (PWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for physical well-being (PWB) as measured by the FACT-G.|||||.46
92175432|NCT05235750|184243359|OTHER||Mean Difference (Net)|0.2||||0.79|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for physical well-being (PWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for physical well-being (PWB) as measured by the FACT-G.|||||.79
92247724|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.124|TWO_SIDED|95.0|-0.29|0.04|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.04|-0.29|0.124
92247725|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.336|TWO_SIDED|95.0|-0.25|0.08|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.08|-0.25|0.336
92247726|NCT03084718|184398284|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.01|TWO_SIDED|95.0|-0.37|-0.05|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.05|-0.37|0.010
92247727|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.067|TWO_SIDED|95.0|-0.38|0.01|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.01|-0.38|0.067
92282993|NCT02532764|184469669|SUPERIORITY||Difference vs placebo|20.16|STANDARD_ERROR_OF_MEAN|8.62||0.0346|TWO_SIDED|95.0|1.68|38.64||p-values are presented for Day 33.|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||38.64|1.68|0.0346
92282994|NCT02532764|184469669|SUPERIORITY||Difference vs placebo|10.84|STANDARD_ERROR_OF_MEAN|9.01||0.2485|TWO_SIDED|95.0|-8.47|30.16||p-values are presented for Day 33.|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||30.16|-8.47|0.2485
92247728|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.34|||<|0.001|TWO_SIDED|95.0|-0.53|-0.14|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.14|-0.53|< 0.001
92175433|NCT05235750|184243359|OTHER||Mean Difference (Net)|-2.1||||0.05|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for social/family well-being (SWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for social/family well-being (SWB) as measured by the FACT-G.|||||.05
92247729|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.038|TWO_SIDED|95.0|-0.4|-0.01|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.01|-0.40|0.038
92247730|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.13|TWO_SIDED|95.0|-0.35|0.05|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.05|-0.35|0.130
92247731|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.811|TWO_SIDED|95.0|-0.22|0.17|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.17|-0.22|0.811
92247732|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.202|TWO_SIDED|95.0|-0.07|0.33|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.33|-0.07|0.202
92247733|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.044|TWO_SIDED|95.0|-0.39|-0.01|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.01|-0.39|0.044
92247734|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.283|TWO_SIDED|95.0|-0.37|0.11|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.11|-0.37|0.283
92247735|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.003|TWO_SIDED|95.0|-0.6|-0.13|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.13|-0.60|0.003
92247736|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.027|TWO_SIDED|95.0|-0.5|-0.03|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.03|-0.50|0.027
92247737|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.054|TWO_SIDED|95.0|-0.48|0.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.00|-0.48|0.054
92247738|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.258|TWO_SIDED|95.0|-0.38|0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.10|-0.38|0.258
92247739|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.423|TWO_SIDED|95.0|-0.14|0.34|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.34|-0.14|0.423
92247740|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.111|TWO_SIDED|95.0|-0.42|0.04|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.04|-0.42|0.111
92247741|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.135|TWO_SIDED|95.0|-0.36|0.05|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.05|-0.36|0.135
92247742|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.35|||<|0.001|TWO_SIDED|95.0|-0.56|-0.14|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.14|-0.56|< 0.001
92282995|NCT02532764|184469671|SUPERIORITY||difference vs placebo|4.24|STANDARD_ERROR_OF_MEAN|3.18||0.1938|TWO_SIDED|95.0|-2.3|10.79||P-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline ppFEV1 as outcome variable and including treatment, baseline ppFEV1 value, time and interaction between time and treatment as covariate||10.79|-2.30|0.1938
92247743|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.024|TWO_SIDED|95.0|-0.44|-0.03|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.03|-0.44|0.024
92247744|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.067|TWO_SIDED|95.0|-0.4|0.01|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.01|-0.40|0.067
92247745|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.444|TWO_SIDED|95.0|-0.29|0.13|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.13|-0.29|0.444
92247746|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.285|TWO_SIDED|95.0|-0.09|0.32|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.32|-0.09|0.285
92247747|NCT03084718|184398285|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.06|TWO_SIDED|95.0|-0.4|0.01|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.01|-0.40|0.060
92247748|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.115|TWO_SIDED|95.0|-1.1|10.0|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||10.0|-1.1|0.115
92175434|NCT05235750|184243359|OTHER||Mean Difference (Net)|-2.4||||0.03|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for social/family well-being (SWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for social/family well-being (SWB) as measured by the FACT-G.|||||.03
92175435|NCT05235750|184243359|OTHER||Mean Difference (Net)|-0.2||||0.82|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for emotional well-being (EWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for emotional well-being (EWB) as measured by the FACT-G.|||||.82
92175436|NCT05235750|184243359|OTHER||Mean Difference (Net)|-0.5||||0.58|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for emotional well-being (EWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for emotional well-being (EWB) as measured by the FACT-G.|||||.58
92175437|NCT05235750|184243359|OTHER||Mean Difference (Net)|-0.8||||0.56|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for functional well-being (FWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for functional well-being (FWB) as measured by the FACT-G.|||||.56
92175438|NCT05235750|184243359|OTHER||Mean Difference (Net)|-0.7||||0.58|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for functional well-being (FWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for functional well-being (FWB) as measured by the FACT-G.|||||.58
92175439|NCT05235750|184243359|OTHER||Mean Difference (Net)|-0.2||||0.58|TWO_SIDED|||||"The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for Global QoL (item G7 I am content with the quality of my life right now) as measured by the FACT-G."|Mixed Models Analysis||"The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for Global QoL (item G7 I am content with the quality of my life right now) as measured by the FACT-G."|||||.58
92175440|NCT05235750|184243359|OTHER||Mean Difference (Net)|-0.3||||0.34|TWO_SIDED|||||"The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\] for Global QoL (item G7 I am content with the quality of my life right now) as measured by the FACT-G."|Mixed Models Analysis||"The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for Global QoL (item G7 I am content with the quality of my life right now) as measured by the FACT-G."|||||.34
92175441|NCT05235750|184243359|OTHER||Mean Difference (Net)|0.4||||0.27|TWO_SIDED|||||"The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for item Ge6 I worry that my condition will get worse as measured by the FACT-G."|Mixed Models Analysis||"The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for item Ge6 I worry that my condition will get worse as measured by the FACT-G."|||||.27
92175442|NCT05235750|184243359|OTHER||Mean Difference (Net)|0.0||||0.62|TWO_SIDED|||||"The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for item Ge6 I worry that my condition will get worse as measured by the FACT-G."|Mixed Models Analysis||"The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for item Ge6 I worry that my condition will get worse as measured by the FACT-G."|||||.62
92175443|NCT05235750|184243360|OTHER||Mean Difference (Net)|-0.6||||0.76|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACIT-Sp-12.|We analyzed short- (at 6 weeks post-baseline, T3) and longer-term differences (at 8 weeks post-baseline, T4) for the FACIT-Sp-12 at scale and factor levels, expecting a larger size of differences at T3. The short-term difference \[(T3-T2)-(T2-T1)\] represents differences between post-intervention change (T3-T2) and pre-intervention change (T2-T1). Longer-term difference \[(T4-T2)-(T2-T1)\] represents differences between 2 weeks post-intervention change (T4-T2) and pre-intervention change (T2-T1).||||.76
92175444|NCT05235750|184243360|OTHER||Mean Difference (Net)|-2.1||||0.19|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACIT-Sp-12.|||||.19
92175445|NCT05235750|184243360|OTHER||Mean Difference (Net)|-1.0||||0.35|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the Meaning/Peace factor (M/P) as measured by the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the Meaning/Peace factor (M/P) as measured by the FACIT-Sp-12.|||||.35
92175446|NCT05235750|184243360|OTHER||Mean Difference (Net)|-1.9||||0.99|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the Meaning/Peace factor (M/P) as measured by the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the Meaning/Peace factor (M/P) as measured by the FACIT-Sp-12.|||||.99
92175447|NCT05235750|184243360|OTHER||Mean Difference (Net)|0.4||||0.46|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the Faith factor of the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the Faith factor of the FACIT-Sp-12.|||||.46
92247749|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|7.6||||0.008|TWO_SIDED|95.0|2.0|13.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||13.1|2.0|0.008
92247750|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.099|TWO_SIDED|95.0|-0.9|10.2|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||10.2|-0.9|0.099
92282996|NCT02532764|184469671|SUPERIORITY||difference vs placebo|2.75|STANDARD_ERROR_OF_MEAN|3.18||0.3943|TWO_SIDED|95.0|-3.79|9.29||P-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline ppFEV1 as outcome variable and including treatment, baseline ppFEV1 value, time and interaction between time and treatment as covariates.||9.29|-3.79|0.3943
92175448|NCT05235750|184243360|OTHER||Mean Difference (Net)|-0.7||||0.24|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the Faith factor of the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the Faith factor of the FACIT-Sp-12.|||||.24
92175449|NCT05235750|184243360|OTHER||Mean Difference (Net)|-0.4||||0.55|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the revised Faith factor of the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the revised Faith factor of the FACIT-Sp-12.|||||.55
92175450|NCT05235750|184243360|OTHER||Mean Difference (Net)|-0.9||||0.8|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the revised Faith factor of the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the revised Faith factor of the FACIT-Sp-12.|||||.80
92175451|NCT05235750|184243360|OTHER||Mean Difference (Net)|-1.5||||0.34|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACIT-Sp-12 (revised).|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACIT-Sp-12 (revised).|||||.34
92175452|NCT05235750|184243360|OTHER||Mean Difference (Net)|-3.0||||0.91|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACIT-Sp-12 (revised).|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACIT-Sp-12 (revised).|||||.91
92175453|NCT05235750|184243361|OTHER||Mean Difference (Net)|1.1||||0.14|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for HADS-anxiety subscale (HADS-A).|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for HADS-anxiety subscale (HADS-A).|We analyzed short- (at 6 weeks post-baseline, T3) and longer-term differences (at 8 weeks post-baseline, T4) for two subscales HADS-A and HADS-D respectively, expecting a larger size of differences at T3. The short-term difference \[(T3-T2)-(T2-T1)\] represents differences between post-intervention change (T3-T2) and pre-intervention change (T2-T1). Longer-term difference \[(T4-T2)-(T2-T1)\] represents differences between 2 weeks post-intervention change (T4-T2) and pre-intervention change (T2-T1).||||.14
92175454|NCT05235750|184243361|OTHER||Mean Difference (Net)|1.2||||0.14|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for HADS-anxiety subscale (HADS-A).|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for HADS-anxiety subscale (HADS-A).|||||.14
92175455|NCT05235750|184243361|OTHER||Median Difference (Net)|0.6||||0.32|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for HADS-depression subscale (HADS-D).|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for HADS-depression subscale (HADS-D).|||||.32
92247751|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.275|TWO_SIDED|95.0|-2.5|8.8|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.8|-2.5|0.275
92247752|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.943|TWO_SIDED|95.0|-5.4|5.8|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||5.8|-5.4|0.943
92247753|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|-2.9||||0.308|TWO_SIDED|95.0|-8.6|2.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||2.7|-8.6|0.308
92247754|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|6.3||||0.024|TWO_SIDED|95.0|0.8|11.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||11.7|0.8|0.024
92247755|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|4.8||||0.129|TWO_SIDED|95.0|-1.4|11.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||11.0|-1.4|0.129
92247756|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|9.0||||0.004|TWO_SIDED|95.0|2.8|15.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||15.2|2.8|0.004
92247757|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|5.9||||0.061|TWO_SIDED|95.0|-0.3|12.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||12.1|-0.3|0.061
92175456|NCT05235750|184243361|OTHER||Mean Difference (Net)|0.9||||0.2|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for HADS-depression subscale (HADS-D).|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for HADS-depression subscale (HADS-D).|||||.20
92247758|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|4.3||||0.18|TWO_SIDED|95.0|-2.0|10.5|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||10.5|-2.0|0.180
92247759|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.721|TWO_SIDED|95.0|-5.1|7.4|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||7.4|-5.1|0.721
92247760|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|-3.1||||0.328|TWO_SIDED|95.0|-9.4|3.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||3.1|-9.4|0.328
92175457|NCT03344094|184243375|OTHER|changes in subsets paired and unpaired t-tests, ANOVA||||||0.05|||||||ANOVA|||||||0.05
92247761|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|7.1||||0.022|TWO_SIDED|95.0|1.0|13.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||13.2|1.0|0.022
92247762|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|4.6||||0.101|TWO_SIDED|95.0|-0.9|10.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||10.1|-0.9|0.101
92247763|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|8.3||||0.003|TWO_SIDED|95.0|2.8|13.9|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||13.9|2.8|0.003
92247764|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.061|TWO_SIDED|95.0|-0.2|10.8|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||10.8|-0.2|0.061
92247765|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|3.7||||0.196|TWO_SIDED|95.0|-1.9|9.3|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||9.3|-1.9|0.196
92247766|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.814|TWO_SIDED|95.0|-4.9|6.3|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||6.3|-4.9|0.814
92247767|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|-3.0||||0.291|TWO_SIDED|95.0|-8.6|2.6|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||2.6|-8.6|0.291
92247768|NCT03084718|184398286|SUPERIORITY||Mean Difference (Final Values)|6.7||||0.016|TWO_SIDED|95.0|1.3|12.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||12.1|1.3|0.016
92247769|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
92247770|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
92175458|NCT03461276|184243376|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|A 1-sided t-test with a significance level of 0.025 was employed.||"The trial was considered successfully confirmatory regarding efficacy (immunogenicity) of ABvac40 if the average MΔ of anti-Aβ40 antibody signal (OD in ELISA) in the ABvac40 group was significantly greater than the average MΔ of anti-Aβ40 antibody signal in the Placebo group. i.e.~* Null hypothesis: average MΔ anti-Aβ40 (ABvac40) ≤ average MΔ anti-Aβ40 (placebo).~* Alternative hypothesis: average MΔ anti-Aβ40 (ABvac40) \> average MΔ anti-Aβ40 (placebo)."||||<0.0001
92247771|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
92247772|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.913|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.913
92247773|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.871|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.871
92247774|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.958|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.1|-0.1|0.958
92247775|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
92247776|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.01|TWO_SIDED|95.0|-0.2|0.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||-0.0|-0.2|0.010
92247777|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.011|TWO_SIDED|95.0|-0.2|0.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.0|-0.2|0.011
92175459|NCT03461276|184243376|SUPERIORITY|Additional test|||||<|0.0001||||||1-sided|Wilcoxon (Mann-Whitney)|||||||<0.0001
92247778|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.002|TWO_SIDED|95.0|-0.2|0.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.0|-0.2|0.002
92247779|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.996|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.996
92247780|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.632|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.632
92247781|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.63|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.1|-0.1|0.630
92247782|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
92175460|NCT03461276|184243376|SUPERIORITY||Mean Difference (Final Values)|3.15|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|2.96|3.34|||ANCOVA|||The average MΔ of anti-Aβ40 antibody signal between the two treatment groups was compared using an ANCOVA model, using the MΔ anti-Aβ40 antibody signal as the dependent variable, baseline anti-Aβ40 antibody signal (OD in ELISA) as covariate and treatment group and amyloid positivity as fixed effects.||3.34|2.96|<0.0001
92247783|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.002|TWO_SIDED|95.0|-0.2|0.0|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||-0.0|-0.2|0.002
92247784|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.001|TWO_SIDED|95.0|-0.2|0.0|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.0|-0.2|0.001
92282997|NCT02532764|184469671|SUPERIORITY||difference vs placebo|0.53|STANDARD_ERROR_OF_MEAN|3.18||0.8688|TWO_SIDED|95.0|-6.01|7.07||P-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline ppFEV1 as outcome variable and including treatment, baseline ppFEV1 value, time and interaction between time and treatment as covariates.||7.07|-6.01|0.8688
92247785|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
92247786|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.96|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.960
92247787|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.725|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.725
92247788|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.764|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.1|-0.1|0.764
92247789|NCT03084718|184398287|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
92247790|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|2.9||||0.316|TWO_SIDED|95.0|-2.8|8.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||8.7|-2.8|0.316
92282998|NCT02532764|184469671|SUPERIORITY||difference vs placebo|-0.51|STANDARD_ERROR_OF_MEAN|3.35||0.8813|TWO_SIDED|95.0|-7.41|6.39||P-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline ppFEV1 as outcome variable and including treatment, baseline ppFEV1 value, time and interaction between time and treatment as covariates.||6.39|-7.41|0.8813
92247791|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|4.9||||0.097|TWO_SIDED|95.0|-0.9|10.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||10.7|-0.9|0.097
92247792|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.128|TWO_SIDED|95.0|-1.3|10.2|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||10.2|-1.3|0.128
92175461|NCT03461276|184243376|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|t-test (sensitivity hypothesis). A 1-sided t-test with a significance level of 0.025 was employed.||"1-sided t-test to compare the ABvac40 and placebo groups.~The primary analysis (t-test) was repeated, using the mITT Analysis Set to test the hypothesis:~* Null hypothesis: average MΔ anti-Aβ40 (ABvac40) - average MΔ anti-Aβ40 (placebo) ≤ 1.778~* Alternative hypothesis: average MΔ anti-Aβ40 (ABvac40) - average MΔ anti-Aβ40 (placebo) \> 1.778 The alternative hypothesis was confirmed."||||<0.0001
92175462|NCT03461276|184243376|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||"The change in anti-Aβ40 antibody signal from baseline to each post-baseline efficacy visit was analyzed using a Mixed-Model Repeated Measures (MMRM), using the mITT Analysis Set.~Dependent variable: change from baseline in anti-Aβ40 antibody signal. Fixed effects: treatment, protocol-specified visits, treatment-by-visit interaction, and amyloid positivity. Covariates: baseline anti-Aβ40 antibody signal and baseline age; Repeated measure: measures within-patient at each visit."||||<0.05
92175463|NCT03461276|184243383|OTHER||||||<|0.001|||||||Mixed Models Analysis|||MMRM - Week 50A||||<0.001
92175464|NCT03461276|184243383|OTHER||||||=|0.047|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.047
92247793|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.511|TWO_SIDED|95.0|-3.9|7.8|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||7.8|-3.9|0.511
92175465|NCT03461276|184243384|OTHER||||||=|0.9936|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.9936
92175466|NCT03461276|184243384|OTHER||||||=|0.0391||||||MMRM - Week 6A|Mixed Models Analysis|||MMRM - Week 6A||||= 0.0391
92282999|NCT02532764|184469673|SUPERIORITY||Difference vs placebo|10.19|STANDARD_ERROR_OF_MEAN|4.22||0.0301|TWO_SIDED|95.0|1.13|19.25||P-values are presented for Day 33|Mixed Models Analysis|||||19.25|1.13|0.0301
92175467|NCT03461276|184243384|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 10A||||< 0.0001
92175468|NCT03461276|184243384|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 14A||||< 0.0001
92247794|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.61|TWO_SIDED|95.0|-4.3|7.3|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||7.3|-4.3|0.610
92247795|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.882|TWO_SIDED|95.0|-6.3|5.4|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||5.4|-6.3|0.882
92247796|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|7.2||||0.013|TWO_SIDED|95.0|1.5|12.9|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||12.9|1.5|0.013
92247797|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.219|TWO_SIDED|95.0|-2.8|12.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||12.2|-2.8|0.219
92247798|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.166|TWO_SIDED|95.0|-2.2|12.8|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||12.8|-2.2|0.166
92247799|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|5.5||||0.151|TWO_SIDED|95.0|-2.0|12.9|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||12.9|-2.0|0.151
92247800|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.871|TWO_SIDED|95.0|-6.9|8.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.2|-6.9|0.871
92175469|NCT03461276|184243384|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 18A||||< 0.0001
92175470|NCT03461276|184243384|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 24A||||< 0.0001
92175471|NCT03461276|184243384|OTHER||||||=|0.0299|||||||Mixed Models Analysis|||MMRM - Week 40A||||= 0.0299
92247801|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.837|TWO_SIDED|95.0|-6.8|8.3|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.3|-6.8|0.837
92175472|NCT03461276|184243384|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 44A||||< 0.0001
92175473|NCT03461276|184243384|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 50A||||< 0.0001
92175474|NCT03461276|184243384|OTHER||||||=|0.1267|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.1267
92175475|NCT03461276|184243384|OTHER|MMRM - Week 104A|||||=|0.2477|||||||Mixed Models Analysis|||||||= 0.2477
92175476|NCT03461276|184243385|OTHER||||||=|0.2151|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.2151
92247802|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.966|TWO_SIDED|95.0|-7.4|7.7|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||7.7|-7.4|0.966
92247803|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|9.5||||0.012|TWO_SIDED|95.0|2.1|16.9|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||16.9|2.1|0.012
92247804|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.233|TWO_SIDED|95.0|-2.5|10.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||10.1|-2.5|0.233
92247805|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|5.1||||0.113|TWO_SIDED|95.0|-1.2|11.4|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||11.4|-1.2|0.113
92247806|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.12|TWO_SIDED|95.0|-1.3|11.2|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||11.2|-1.3|0.120
92283000|NCT02532764|184469673|SUPERIORITY||Difference vs placebo|7.99|STANDARD_ERROR_OF_MEAN|3.91||0.0601|TWO_SIDED|95.0|-0.39|16.37||P-values are presented for Day 33|Mixed Models Analysis|||||16.37|-0.39|0.0601
92175477|NCT03461276|184243385|OTHER||||||=|0.0169|||||||Mixed Models Analysis|||MMRM - Week 6A||||= 0.0169
92247807|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.691|TWO_SIDED|95.0|-5.1|7.6|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||7.6|-5.1|0.691
92175478|NCT03461276|184243385|OTHER||||||=|0.0008|||||||Mixed Models Analysis|||MMRM - Week 10A||||= 0.0008
92175479|NCT03461276|184243385|OTHER||||||=|0.0002|||||||Mixed Models Analysis|||MMRM - Week 14A||||= 0.0002
92175480|NCT03461276|184243385|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 18A||||< 0.0001
92247808|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.722|TWO_SIDED|95.0|-5.2|7.5|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||7.5|-5.2|0.722
92247809|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.966|TWO_SIDED|95.0|-6.5|6.2|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||6.2|-6.5|0.966
92283001|NCT02532764|184469673|SUPERIORITY||Difference vs placebo|3.5|STANDARD_ERROR_OF_MEAN|3.69||0.358|TWO_SIDED|95.0|-4.4|11.41||P-values are presented for Day 33|Mixed Models Analysis|||||11.41|-4.40|0.3580
92247810|NCT03084718|184398288|SUPERIORITY||Mean Difference (Final Values)|8.3||||0.008|TWO_SIDED|95.0|2.2|14.5|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||14.5|2.2|0.008
92247811|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.426|TWO_SIDED|95.0|-3.4|7.9|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||7.9|-3.4|0.426
92247812|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.055|TWO_SIDED|95.0|-0.1|11.2|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||11.2|-0.1|0.055
92247813|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|5.4||||0.059|TWO_SIDED|95.0|-0.2|11.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||11.1|-0.2|0.059
92247814|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|3.3||||0.263|TWO_SIDED|95.0|-2.5|9.0|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||9.0|-2.5|0.263
92247815|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.28|TWO_SIDED|95.0|-2.6|8.8|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.8|-2.6|0.280
92283002|NCT02532764|184469673|SUPERIORITY||Difference vs placebo|3.21|STANDARD_ERROR_OF_MEAN|3.89||0.4224|TWO_SIDED|95.0|-5.13|11.55||P-values are presented for Day 33|Mixed Models Analysis|||||11.55|-5.13|0.4224
92283003|NCT03765502|184469691|SUPERIORITY||||||<|0.0001|||||||McNemar|Crossover design: paired test||||||<.0001
92175481|NCT03461276|184243385|OTHER||||||=|0.0023|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.0023
92247816|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.965|TWO_SIDED|95.0|-5.9|5.6|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||5.6|-5.9|0.965
92247817|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.007|TWO_SIDED|95.0|2.2|13.3|||Mixed Models Analysis|||"Inter-visit period 1~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||13.3|2.2|0.007
92247818|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.308|TWO_SIDED|95.0|-3.5|11.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||11.2|-3.5|0.308
92247819|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|5.8||||0.124|TWO_SIDED|95.0|-1.6|13.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||13.2|-1.6|0.124
92283004|NCT03765502|184469692|SUPERIORITY||||||<|0.0001|||||||McNemar|Crossover design: paired test||||||<.0001
92283005|NCT00048568|184469698|SUPERIORITY_OR_OTHER||Estimated Difference|28.2|||<|0.001|TWO_SIDED|95.0|19.8|36.7|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving ACR 20 response.|The study had a 99% power to detect a difference of 20% in ACR 20 between the 2 groups at the 5% level.||36.7|19.8|<0.001
92247820|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|7.0||||0.063|TWO_SIDED|95.0|-0.4|14.3|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||14.3|-0.4|0.063
92247821|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.602|TWO_SIDED|95.0|-5.5|9.4|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||9.4|-5.5|0.602
92175482|NCT03461276|184243385|OTHER||||||=|0.0021|||||||Mixed Models Analysis|||MMRM - Week 40A||||= 0.0021
92247822|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.402|TWO_SIDED|95.0|-4.3|10.6|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||10.6|-4.3|0.402
92175483|NCT03461276|184243385|OTHER||||||=|0.0007|||||||Mixed Models Analysis|||MMRM - Week 44A||||= 0.0007
92175484|NCT03461276|184243385|OTHER||||||=|0.0012|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.0012
92175485|NCT03461276|184243385|OTHER||||||=|0.0018|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.0018
92175486|NCT03461276|184243385|OTHER||||||=|0.738|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.738
92175487|NCT03461276|184243386|OTHER||||||=|0.7623|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.7623
92175488|NCT03461276|184243386|OTHER||||||=|0.1506|||||||Mixed Models Analysis|||MMRM - Week 6A||||= 0.1506
92175489|NCT03461276|184243386|OTHER||||||=|0.1071|||||||Mixed Models Analysis|||MMRM - Week 10A||||= 0.1071
92175490|NCT03461276|184243386|OTHER||||||=|0.0212|||||||Mixed Models Analysis|||MMRM - Week 14A||||= 0.0212
92247823|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.753|TWO_SIDED|95.0|-6.3|8.6|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||8.6|-6.3|0.753
92247824|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|10.2||||0.006|TWO_SIDED|95.0|2.9|17.4|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||17.4|2.9|0.006
92247825|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.331|TWO_SIDED|95.0|-3.1|9.2|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||9.2|-3.1|0.331
92247826|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.073|TWO_SIDED|95.0|-0.5|11.9|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||11.9|-0.5|0.073
92175491|NCT03461276|184243386|OTHER||||||=|0.0014|||||||Mixed Models Analysis|||MMRM - Week 18A||||= 0.0014
92247827|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|6.2||||0.048|TWO_SIDED|95.0|0.1|12.4|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||12.4|0.1|0.048
92247828|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|2.6||||0.41|TWO_SIDED|95.0|-3.6|8.9|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.9|-3.6|0.410
92247829|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.32|TWO_SIDED|95.0|-3.1|9.4|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||9.4|-3.1|0.320
92247830|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.867|TWO_SIDED|95.0|-5.7|6.8|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||6.8|-5.7|0.867
92175492|NCT03461276|184243386|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 24A||||< 0.0001
92247831|NCT03084718|184398289|SUPERIORITY||Mean Difference (Final Values)|9.0||||0.004|TWO_SIDED|95.0|2.9|15.0|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||15.0|2.9|0.004
92247832|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.26|TWO_SIDED|95.0|-3.2|11.9|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||11.9|-3.2|0.260
92247833|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.387|TWO_SIDED|95.0|-4.2|10.9|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||10.9|-4.2|0.387
92247834|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.574|TWO_SIDED|95.0|-5.4|9.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||9.7|-5.4|0.574
92247835|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.799|TWO_SIDED|95.0|-8.6|6.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||6.7|-8.6|0.799
92247836|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.577|TWO_SIDED|95.0|-9.8|5.5|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||5.5|-9.8|0.577
92247837|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.764|TWO_SIDED|95.0|-8.8|6.5|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||6.5|-8.8|0.764
92247838|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|6.0||||0.097|TWO_SIDED|95.0|-1.1|13.8|||Mixed Models Analysis|||"Inter-visit period 1~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||13.8|-1.1|0.097
92247839|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.908|TWO_SIDED|95.0|-9.9|8.8|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||8.8|-9.9|0.908
92175493|NCT03461276|184243386|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 40A||||< 0.0001
92175494|NCT03461276|184243386|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 44A||||< 0.0001
92175495|NCT03461276|184243386|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 50A||||< 0.0001
92247840|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|7.0||||0.135|TWO_SIDED|95.0|-2.2|16.5|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||16.5|-2.2|0.135
92247841|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.786|TWO_SIDED|95.0|-10.7|8.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo"||8.1|-10.7|0.786
92247842|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|8.0||||0.109|TWO_SIDED|95.0|-1.7|17.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||17.1|-1.7|0.109
92247843|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.876|TWO_SIDED|95.0|-10.1|8.7|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.7|-10.1|0.876
92247844|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|-8.0||||0.08|TWO_SIDED|95.0|-17.9|1.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||1.0|-17.9|0.080
92247845|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|6.0||||0.202|TWO_SIDED|95.0|-3.2|15.3|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||15.3|-3.2|0.202
92247846|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.635|TWO_SIDED|95.0|-5.9|9.7|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||9.7|-5.9|0.635
92247847|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.191|TWO_SIDED|95.0|-2.6|13.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||13.1|-2.6|0.191
92247848|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.914|TWO_SIDED|95.0|-7.4|8.3|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||8.3|-7.4|0.914
92247849|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.407|TWO_SIDED|95.0|-4.6|11.3|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||11.3|-4.6|0.407
92247850|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.718|TWO_SIDED|95.0|-9.4|6.4|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||6.4|-9.4|0.718
92247851|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|-5.0||||0.235|TWO_SIDED|95.0|-12.7|3.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||3.1|-12.7|0.235
92247852|NCT03084718|184398290|SUPERIORITY||Mean Difference (Final Values)|6.0||||0.118|TWO_SIDED|95.0|-1.6|13.9|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||13.9|-1.6|0.118
92247853|NCT01978509|184398297|SUPERIORITY|||||||0.7|||||||ANOVA|||||||0.70
92247854|NCT01594333|184398304|SUPERIORITY||Cox Proportional Hazard|1.01||||0.91|TWO_SIDED|95.0|0.82|1.25||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status(diabetes or metabolic syndrome alone)|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.25|0.82|0.91
92247855|NCT01594333|184398305|SUPERIORITY||Cox Proportional Hazard|0.96||||0.67|TWO_SIDED|95.0|0.79|1.16||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status(metabolic syndrome alone or diabetes at enrollment).|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.16|0.79|0.67
92247856|NCT01594333|184398306|SUPERIORITY||Cox Proportional Hazard|1.16||||0.32|TWO_SIDED|95.0|0.87|1.56||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status (metabolic syndrome alone or diabetes at enrollment).|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.56|0.87|0.32
92247857|NCT01594333|184398307|SUPERIORITY||Cox Proportional Hazard|0.95||||0.57|TWO_SIDED|95.0|0.81|1.12||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status (metabolic syndrome alone or diabetes) at enrollment.|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.12|0.81|0.57
92247858|NCT01594333|184398308|SUPERIORITY||Cox Proportional Hazard|0.89||||0.54|TWO_SIDED|95.0|0.6|1.31||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, type of qualifying event and risk status (diabetes or metabolic syndrome alone) at enrollment|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.31|0.60|0.54
92247859|NCT01594333|184398309|SUPERIORITY||Cox Proportional Hazard|0.98||||0.8|TWO_SIDED|95.0|0.84|1.14||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time since qualifying event and risk status (diabetes or metabolic syndrome alone) at enrollment.|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.14|0.84|0.80
92247860|NCT01594333|184398311|SUPERIORITY||Cox Proportional Hazard|0.81||||0.31|TWO_SIDED|95.0|0.53|1.22||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status (diabetes or metabolic syndrome alone) at enrollment.|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.22|0.53|0.31
92247861|NCT01594333|184398312|SUPERIORITY||Cox Proportional Hazard|0.92||||0.38|TWO_SIDED|95.0|0.75|1.12||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status (diabetes or metabolic syndrome alone) at enrollment|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.12|0.75|0.38
92247862|NCT00589979|184398317|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.78||||0.1006||95.0|0.89|3.55||All statistical tests were 2-sided with a significance level of alpha=0.05.|Cox frailty model|Model included treatment, sequence, period, and first-order carryover as fixed effects and frailty; patient nested within sequence was frailty.|The Hazard Ratio (HR) provided is the ratio of Placebo to Lidoderm.|The two treatments were compared by time-varying relative hazards, associated P values, and 95% confidence intervals. Appropriate survival or hazard functions were calculated.||3.55|0.89|0.1006
92247863|NCT00589979|184398319|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86||||0.1272||95.0|0.86|4.02||The logistic regression model for repeated measures used for this analysis included treatment, sequence, period, and first-order carry-over as fixed effects and repeated measures taken on patients nested within sequence.|Regression, Logistic|The results presented are reported in terms of odds ratios, corresponding 95% confidence intervals, and P-values for each fixed effect in the model.|The Odds Ratio (OR) provided is the ratio of Lidoderm to Placebo.|The proportion of patients who exited from the current treatment period prior to the 4-week planned duration was analyzed using a logistic regression model for repeated measures.||4.02|0.86|0.1272
92247864|NCT00589979|184398320|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.54||||0.0224||95.0|-1.01|-0.08||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects model||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|The overall treatment difference for the lidocaine patch 5% and placebo patch was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||-0.08|-1.01|0.0224
92247865|NCT00589979|184398321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.2747||95.0|-0.31|1.09||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects regression||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|The overall treatment difference for the lidocaine patch 5% and placebo patch was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||1.09|-0.31|0.2747
92247866|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.4498||95.0|-0.8|0.36||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects model||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Intense: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.36|-0.80|0.4498
92247867|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.1065||95.0|-1.11|0.11||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effect models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Sharp: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.11|-1.11|0.1065
92175496|NCT03461276|184243386|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 77A||||< 0.0001
92247868|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.0484||95.0|-0.94|0.0||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Hot: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||-0.00|-0.94|0.0484
92264960|NCT00736840|184431393|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Provided above|Sensitivity|0.74|STANDARD_ERROR_OF_MEAN|0.0363||0.0924|TWO_SIDED|95.0|0.6607|0.8809|||Exact binomial test|||The null hypothesis was sensitivity lower than 0.8. We assumed a sensitivity of 0.89 and required a power of 90% to test the hypothesis at a 5% level of significance, and calculated that 173 cirrhotic and 241 non-cirrhotic subjects were needed (for a one-sample binomial test of outcome versus constant).||0.8809|0.6607|0.0924
92247869|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24||||0.4973||95.0|-0.93|0.46||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effect models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Dull: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.46|-0.93|0.4973
92247870|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.3966||95.0|-0.16|0.41||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effect models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Cold: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.41|-0.16|0.3966
92247871|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.6941||95.0|-0.53|0.35||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects model||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Sensitive: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.35|-0.53|0.6941
92247872|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18||||0.5664||95.0|-0.45|0.82||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Tender: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.82|-0.45|0.5664
92247873|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.6871||95.0|-0.55|0.37||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Itchy: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.37|-0.55|0.6871
92247874|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41||||0.2318||95.0|-1.08|0.27||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Shocking: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.27|-1.08|0.2318
92283006|NCT00048568|184469699|SUPERIORITY_OR_OTHER||Estimated Difference|24.4|||<|0.001|TWO_SIDED|95.0|15.9|32.9||Based on the hierarchical testing procedure for the co-primary measures, the study had 98% power to detect 18% difference in HAQ response rate between the two arms at the 5% level.|Chi-squared, Corrected|This model includes treatment as the main factor and baseline value as a covariate.|Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving HAQ response at Day 365.|||32.9|15.9|<0.001
92283007|NCT00048568|184469700|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Nonparametric ANCOVA|The rank of the change from baseline=dependent variable, treatment=the main factor, rank of baseline value as covariate.||||||0.029
92283008|NCT00048568|184469704|SUPERIORITY_OR_OTHER||Estimated Difference|33.4|||<|0.001|TWO_SIDED|95.0|25.1|41.7|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving ACR 20 response at Day 365.|||41.7|25.1|<0.001
92175497|NCT03461276|184243386|OTHER||||||=|0.0251|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.0251
92175498|NCT03461276|184243387|OTHER||||||=|0.6515|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.6515
92175499|NCT03461276|184243387|OTHER||||||=|0.7447|||||||Mixed Models Analysis|||MMRM - Week 6A||||= 0.7447
92175500|NCT03461276|184243387|OTHER||||||=|0.4518|||||||Mixed Models Analysis|||MMRM - Week 10A||||= 0.4518
92175501|NCT03461276|184243387|OTHER||||||=|0.5416|||||||Mixed Models Analysis|||MMRM - Week 14A||||= 0.5416
92175502|NCT03461276|184243387|OTHER||||||=|0.3504|||||||Mixed Models Analysis|||MMRM - Week 18A||||= 0.3504
92175503|NCT03461276|184243387|OTHER||||||=|0.2109|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.2109
92175504|NCT03461276|184243387|OTHER||||||=|0.0049|||||||Mixed Models Analysis|||MMRM - Week 40A||||= 0.0049
92175505|NCT03461276|184243387|OTHER||||||=|0.0498|||||||Mixed Models Analysis|||MMRM - Week 44A||||= 0.0498
92175506|NCT03461276|184243387|OTHER||||||=|0.2181|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2181
92175507|NCT03461276|184243387|OTHER||||||=|0.2087|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.2087
92175508|NCT03461276|184243387|OTHER||||||=|0.8599|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.8599
92175509|NCT03461276|184243388|OTHER||||||=|0.9469|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.9469
92175510|NCT03461276|184243388|OTHER||||||=|0.9063|||||||Mixed Models Analysis|||MMRM - Week 6A||||= 0.9063
92175511|NCT03461276|184243388|OTHER||||||=|0.3418|||||||Mixed Models Analysis|||MMRM - Week 10A||||= 0.3418
92175512|NCT03461276|184243388|OTHER||||||=|0.0236|||||||Mixed Models Analysis|||MMRM - Week 14A||||= 0.0236
92175513|NCT03461276|184243388|OTHER||||||=|0.0012|||||||Mixed Models Analysis|||MMRM - Week 18A||||= 0.0012
92175514|NCT03461276|184243388|OTHER||||||=|0.0004|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.0004
92175515|NCT03461276|184243388|OTHER||||||=|0.0008|||||||Mixed Models Analysis|||MMRM - Week 40A||||= 0.0008
92175516|NCT03461276|184243388|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 44A||||< 0.0001
92175517|NCT03461276|184243388|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 50A||||< 0.0001
92175518|NCT03461276|184243388|OTHER||||||=|0.1255|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.1255
92175519|NCT03461276|184243388|OTHER||||||=|0.4232|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.4232
92175520|NCT03461276|184243389|OTHER||||||=|0.9211|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.9211
92175521|NCT03461276|184243389|OTHER||||||=|0.2817|||||||Mixed Models Analysis|||MMRM - Week 6A||||= 0.2817
92175522|NCT03461276|184243389|OTHER||||||=|0.2984|||||||Mixed Models Analysis|||MMRM - Week 10A||||= 0.2984
92175523|NCT03461276|184243389|OTHER||||||=|0.8402|||||||Mixed Models Analysis|||MMRM - Week 14A||||= 0.8402
92175524|NCT03461276|184243389|OTHER||||||=|0.4428|||||||Mixed Models Analysis|||MMRM - Week 18A||||= 0.4428
92175525|NCT03461276|184243389|OTHER||||||=|0.4156|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.4156
92175526|NCT03461276|184243389|OTHER||||||=|0.8706|||||||Mixed Models Analysis|||MMRM - Week 40A||||= 0.8706
92175527|NCT03461276|184243389|OTHER||||||=|0.8691|||||||Mixed Models Analysis|||MMRM - Week 44A||||= 0.8691
92175528|NCT03461276|184243389|OTHER||||||=|0.2188|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2188
92175529|NCT03461276|184243389|OTHER||||||=|0.1448|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.1448
92247875|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21||||0.3383||95.0|-0.64|0.22||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Numb: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.22|-0.64|0.3383
92175530|NCT03461276|184243389|OTHER||||||=|0.5004|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.5004
92175531|NCT03461276|184243390|OTHER||||||=|0.1058|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.1058
92175532|NCT03461276|184243390|OTHER||||||=|0.0922|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.0922
92247876|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.874||95.0|-0.63|0.73||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Electrical: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.73|-0.63|0.8740
92283009|NCT00048568|184469706|SUPERIORITY_OR_OTHER||Estimated Difference|23.0|||<|0.001|TWO_SIDED|95.0|15.0|31.1|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving ACR 50 response at Day 169.|||31.1|15.0|<0.001
92175533|NCT03461276|184243391|OTHER||||||=|0.9313|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.9313
92175534|NCT03461276|184243391|OTHER||||||=|0.2243|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2243
92175535|NCT03461276|184243391|OTHER||||||=|0.0952|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.0952
92175536|NCT03461276|184243392|OTHER||||||=|0.3599|||||||Mixed Models Analysis|||MMRM - Week 24A - left||||= 0.3599
92175537|NCT03461276|184243392|OTHER||||||=|0.8913|||||||Mixed Models Analysis|||MMRM - Week 50A - left||||= 0.8913
92175538|NCT03461276|184243392|OTHER||||||=|0.4736|||||||Mixed Models Analysis|||MMRM - Week 104A - left||||= 0.4736
92175539|NCT03461276|184243392|OTHER||||||=|0.9095|||||||Mixed Models Analysis|||MMRM - Week 24A - right||||= 0.9095
92175540|NCT03461276|184243392|OTHER||||||=|0.8744|||||||Mixed Models Analysis|||MMRM - Week 50A - right||||= 0.8744
92175541|NCT03461276|184243392|OTHER||||||=|0.9307|||||||Mixed Models Analysis|||MMRM - Week 104A - right||||= 0.9307
92175542|NCT03461276|184243393|OTHER||||||=|0.3982|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.3982
92175543|NCT03461276|184243393|OTHER||||||=|0.7035|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.7035
92175544|NCT03461276|184243393|OTHER||||||=|0.6334|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.6334
92175545|NCT03461276|184243394|OTHER||||||=|0.2193|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2193
92175546|NCT03461276|184243394|OTHER||||||=|0.5543|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.5543
92175547|NCT03461276|184243395|OTHER||||||=|0.7324|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.7324
92175548|NCT03461276|184243395|OTHER||||||=|0.1719|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.1719
92175549|NCT03461276|184243396|OTHER||||||=|0.7977|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.7977
92175550|NCT03461276|184243396|OTHER||||||=|0.8828|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.8828
92175551|NCT03461276|184243397|OTHER||||||=|0.7954|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.7954
92175552|NCT03461276|184243397|OTHER||||||=|0.5895|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.5895
92175553|NCT03461276|184243398|OTHER||||||=|0.743|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.743
92175554|NCT03461276|184243398|OTHER||||||=|0.832|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.832
92175555|NCT03461276|184243399|OTHER||||||=|0.2283|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2283
92175556|NCT03461276|184243399|OTHER||||||=|0.886|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.886
92175557|NCT03461276|184243400|OTHER||||||=|0.909|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.909
92175558|NCT03461276|184243400|OTHER||||||=|0.8498|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.8498
92175559|NCT03461276|184243401|OTHER||||||=|0.8711|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.8711
92175560|NCT03461276|184243401|OTHER||||||=|0.1098|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.1098
92175561|NCT03461276|184243401|OTHER||||||=|0.6179|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.6179
92175562|NCT03461276|184243401|OTHER||||||=|0.3715|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.3715
92175563|NCT03461276|184243402|OTHER||||||=|0.8949|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.8949
92175564|NCT03461276|184243402|OTHER||||||=|0.8712|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.8712
92175565|NCT03461276|184243402|OTHER||||||=|0.8748|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.8748
92175566|NCT03461276|184243402|OTHER||||||=|0.6402|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.6402
92175567|NCT03461276|184243403|OTHER||||||=|0.552|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.552
92175568|NCT03461276|184243403|OTHER||||||=|0.9371|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.9371
92247877|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.999||95.0|-0.54|0.54||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Tingling: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.54|-0.54|0.9990
92247878|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.4183||95.0|-0.85|0.36||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Cramping: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.36|-0.85|0.4183
92247879|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.8227||95.0|-0.71|0.57||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Radiating: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.57|-0.71|0.8227
92247880|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18||||0.587||95.0|-0.48|0.85||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Throbbing: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.85|-0.48|0.5870
92247881|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.2181||95.0|-1.15|0.27||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Aching: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.27|-1.15|0.2181
92283010|NCT00048568|184469707|SUPERIORITY_OR_OTHER||Estimated Difference|30.1|||<|0.001|TWO_SIDED|95.0|21.8|38.5|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving ACR 50 response at Day 365.|||38.5|21.8|<0.001
92175569|NCT03461276|184243403|OTHER||||||=|0.2354|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.2354
92175570|NCT03461276|184243403|OTHER||||||=|0.4608|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.4608
92175571|NCT03461276|184243404|OTHER||||||=|0.3246|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.3246
92175572|NCT03461276|184243404|OTHER||||||=|0.8047|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.8047
92175573|NCT03461276|184243404|OTHER||||||=|0.916|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.916
92175574|NCT03461276|184243404|OTHER||||||=|0.9582|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.9582
92175575|NCT03461276|184243405|OTHER||||||=|0.777|||||||Mixed Models Analysis|||MMRM - Week 24A - Trail A||||= 0.777
92175576|NCT03461276|184243405|OTHER||||||=|0.1727|||||||Mixed Models Analysis|||MMRM - Week 50A - Trail A||||= 0.1727
92175577|NCT03461276|184243405|OTHER||||||=|0.0218|||||||Mixed Models Analysis|||MMRM - Week 77A - Trail A||||= 0.0218
92175578|NCT03461276|184243405|OTHER||||||=|0.2789|||||||Mixed Models Analysis|||MMRM - Week 104A - Trail A||||= 0.2789
92175579|NCT03461276|184243405|OTHER||||||=|0.2261|||||||Mixed Models Analysis|||MMRM - Week 24A - Trail B||||= 0.2261
92175580|NCT03461276|184243405|OTHER||||||=|0.9743|||||||Mixed Models Analysis|||MMRM - Week 50A - Trail B||||= 0.9743
92175581|NCT03461276|184243405|OTHER||||||=|0.2556|||||||Mixed Models Analysis|||MMRM - Week 77A - Trail B||||= 0.2556
92247882|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.6276||95.0|-0.68|0.42||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Heavy: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.42|-0.68|0.6276
92283011|NCT00048568|184469709|SUPERIORITY_OR_OTHER||Estimated Difference|13.3|||<|0.001|TWO_SIDED|95.0|7.0|19.5|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA + MTX and MTX + PLA in the proportion of participants achieving ACR 70 response at Day 169.|||19.5|7.0|<0.001
92175582|NCT03461276|184243405|OTHER||||||=|0.1008|||||||Mixed Models Analysis|||MMRM - Week 104A - Trail B||||= 0.1008
92175583|NCT03461276|184243406|OTHER||||||=|0.6189|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.6189
92175584|NCT03461276|184243406|OTHER||||||=|0.6937|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.6937
92175585|NCT03461276|184243406|OTHER||||||=|0.6981|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.6981
92175586|NCT03461276|184243408|OTHER||||||=|0.2863|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2863
92175587|NCT03461276|184243408|OTHER||||||=|0.3703|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.3703
92175588|NCT03461276|184243409|OTHER||||||=|0.9663|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.9663
92175589|NCT03461276|184243409|OTHER||||||=|0.3843|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.3843
92175590|NCT03461276|184243410|SUPERIORITY||||||<|0.0001||||||A 1-sided t-test with a significance level of 0.025 was employed.|t-test, 1 sided|||"The trial was considered successfully confirmatory regarding efficacy (immunogenicity) of ABvac40 if the average MΔ of anti-Aβ40 antibody signal (OD in ELISA) in the ABvac40 group was significantly greater than the average MΔ of anti-Aβ40 antibody signal in the Placebo group. i.e.~* Null hypothesis: average MΔ anti-Aβ40 (ABvac40) ≤ average MΔ anti-Aβ40 (placebo).~* Alternative hypothesis: average MΔ anti-Aβ40 (ABvac40) \> average MΔ anti-Aβ40 (placebo)"||||< 0.0001
92175591|NCT03461276|184243410|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
92175592|NCT03461276|184243410|SUPERIORITY||Mean Difference (Final Values)|3.21|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|3.02|3.4|||ANCOVA|||||3.4|3.02|< 0.0001
92175593|NCT02310646|184243411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||||||Treatment sequence effect: p=0.28; gender effect: p=0.20; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and gender as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: gender (male, female)."||||0.2
92175594|NCT02310646|184243411|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.001||||||Treatment sequence effect: p=0.34; age effect: p=0.001; threshold for statistical significance: p\<0.05.|Regression, Logistic|2-factor logistic regression with age and treatment sequence as factors||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: age (18-39 years, 40-59 years, ≥60 years)."||||=0.001
92175595|NCT02310646|184243411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||Treatment sequence effect: p=0.34; baseline disease severity effect: p=0.29; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and baseline disease severity as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: Baseline disease severity (mild, moderate, severe)."||||0.29
92175596|NCT02310646|184243411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||||||Treatment sequence effect: p=0.33; distribution phenotype (localised, widespread) effect: p=0.55; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and distribution phenotype (localised, widespread) as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: distribution phenotype (localised, widespread)."||||0.55
92175597|NCT02310646|184243411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25||||||Treatment sequence effect: p=0.32; plaque size (≤3 mm diameter, \>3 mm diameter): p=0.25; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and plaque size as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: plaque size (≤3 mm diameter, \>3 mm diameter)."||||0.25
92183032|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-33.7|STANDARD_ERROR_OF_MEAN|9.54|||TWO_SIDED|95.0|-52.4|-15.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||-15.0|-52.4|
92247883|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57||||0.0917||95.0|-1.23|0.09||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Overall unpleasantness: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.09|-1.23|0.0917
92175598|NCT02310646|184243411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41||||||Treatment sequence effect: p=0.34; skin thickness phenotype (≤0.75 mm, \>0.75 mm) effect: p=0.41; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and skin thickness phenotype as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: skin thickness phenotype (≤0.75 mm, \>0.75 mm)."||||0.41
92175599|NCT02310646|184243411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||||||Treatment sequence effect: p=0.30; onset phenotype (≤40 years of age, \>40 years of age) effect: p=0.20; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and onset phenotype (≤40 years of age, \>40 years of age) as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: onset phenotype (≤40 years of age, \>40 years of age)."||||0.20
92175600|NCT02310646|184243412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||"The total TPUQ score for the gel and the foam (mean score 29.9 vs. mean score 26.8; p=0.007).~Threshold for statistical significance: p\<0.05."|Wilcoxon Rank Sum Test|Wilcoxon rank sum test comparing the period difference (within subject difference between study treatments) between both treatment sequences.||Subjects in the analysis are 212 - full analysis set. All subjects received both study treatments. Total TPUQ score (summary score item 1-25) superiority comparison gel versus foam.||||0.007
92283012|NCT00048568|184469710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.7|||<|0.001|TWO_SIDED|95.0|15.6|29.8|||Chi-squared, Corrected|||||29.8|15.6|<0.001
92247884|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.2089||95.0|-1.13|0.25||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Intense deep pain: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.25|-1.13|0.2089
92247885|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.4188||95.0|-0.75|0.31||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Intense surface pain: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.31|-0.75|0.4188
92247886|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.6959||95.0|-0.32|0.21||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Average surface pain: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.21|-0.32|0.6959
92247887|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.4806||95.0|-0.64|0.3||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Average deep pain: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.30|-0.64|0.4806
92283013|NCT00048568|184469712|SUPERIORITY_OR_OTHER||Estimated Difference|12.3|||<|0.001|TWO_SIDED|95.0|7.3|17.2|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving MCR.|||17.2|7.3|<0.001
92283014|NCT00048568|184469713|SUPERIORITY_OR_OTHER||Estimated Difference on Day 169|-1.15|||<|0.001|TWO_SIDED|95.0|-1.38|-0.91|||ANCOVA||Estimated difference between ABA + MTX and MTX + PLA on Day 169.|||-0.91|-1.38|<0.001
92283015|NCT00048568|184469713|SUPERIORITY_OR_OTHER||Estimated Difference on Day 365|-1.39|||<|0.001|TWO_SIDED|95.0|-1.63|-1.16|||ANCOVA||Estimated difference between ABA + MTX and MTX + PLA on Day 365.|||-1.16|-1.63|<0.001
92283016|NCT00048568|184469717|SUPERIORITY_OR_OTHER||Adjusted Mean Difference at Day 169|4.06|||<|0.001|TWO_SIDED|95.0|2.64|5.57|||ANCOVA|||Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.||5.57|2.64|<0.001
92283017|NCT00048568|184469717|SUPERIORITY_OR_OTHER||Adjusted Mean Difference at Day 365|4.15|||<|0.001|TWO_SIDED|95.0|2.69|5.62|||ANCOVA|||Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.||5.62|2.69|<0.001
92283018|NCT00048568|184469718|SUPERIORITY_OR_OTHER||Estimated Difference|5.7||||0.002|TWO_SIDED|95.0|2.4|9.0|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving extended MCR.|||9.0|2.4|0.002
92247888|NCT00589979|184398322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.2291||95.0|-0.74|0.18||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Average paroxysmal pain: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.18|-0.74|0.2291
92247889|NCT00589979|184398323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.3185||95.0|0.77|2.27||All statistical tests were 2-sided with a significance level of alpha=0.05.|Regression, Linear||The Odds Ratio (OR) provided is the ratio of Lidoderm to Placebo.|Global impression of change from baseline with the lidocaine patch 5% and placebo patch were compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. An ordinal multinomial regression model was performed with sequence, period, treatment, carry over effect as fixed effects, with repeated measures taken on patient within sequence.||2.27|0.77|0.3185
92247890|NCT00589979|184398324|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.4748||95.0|0.72|2.06||All statistical tests were 2-sided with a significance level of alpha=0.05.|Regression, Linear||The odds ratio (OR) provided is the ratio of Lidoderm to Placebo.|Global impression of change from baseline with the lidocaine patch 5% and placebo patch were compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. An ordinal multinomial regression model was performed with sequence, period, treatment, carry over effect as fixed effects, with repeated measures taken on patient within sequence.||2.06|0.72|0.4748
92264961|NCT00736840|184431394|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample size was calculated to enable the testing of both study hypotheses (together) with at least 80% power. Our best estimate of sensitivity of the HIS diagnosis in the population, was 0.9 and its specificity 0.79. Requiring a power of 90% for each of the hypotheses and a 5% level of significance, to test the null hypotheses 173 cirrhotic and 241 non-cirrhotic subjects were needed.Therefore a total of at least 414 subjects were required.|AUC ROC|0.785|STANDARD_ERROR_OF_MEAN|0.0485|<|0.0001|TWO_SIDED|95.0|0.737|0.834|||Regression, Logistic|||||0.834|0.737|<0.0001
92264962|NCT01728194|184431397|OTHER||||||<|0.025|||||||Mixed Models Analysis|||||||< 0.025
92264963|NCT01728194|184431398|OTHER||||||<|0.025|||||||Mixed Models Analysis|||||||<0.025
92264964|NCT02309372|184431399|SUPERIORITY||Mean Difference (Net)|-0.76||||0.32|TWO_SIDED|95.0|-2.28|0.77|||t-test, 2 sided|||||0.77|-2.28|0.32
92264965|NCT00643851|184431431|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.86|STANDARD_ERROR_OF_MEAN|0.1243|<|0.0001|TWO_SIDED|95.0|-1.11|-0.62||Primary endpoint was tested at alpha=0.05; significance was claimed only if DAPA 5MG + MET was superior to both controls.|ANCOVA|||||-0.62|-1.11|<0.0001
92175601|NCT02310646|184243413|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon Signed Rank Test|Wilcoxon signed rank test comparing within subject difference to latest topical treatment||Subjects in the analysis are 118. All subjects received both study treatments. Statistical analysis for total TPUQ score (summary score item 1-25): superiority comparison foam versus latest topical treatment.||||<0.001
92175602|NCT02310646|184243413|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon Signed Rank Test|Wilcoxon signed rank test comparing within subject difference to latest topical treatment||Subjects in the analysis are 118. All subjects received both study treatments. Statistical analysis for total TPUQ score (summary score item 1-25): superiority comparison gel versus latest topical treatment.||||<0.001
92175603|NCT05530603|184243417|OTHER|||||||0.009||||||The threshold for statistical significance was p=0.05.|Chi-squared|||||||.009
92247891|NCT00589979|184398325|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.7839||95.0|-0.74|0.98||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|The overall treatment difference for the lidocaine patch 5% and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.98|-0.74|0.7839
92175604|NCT05530603|184243418|OTHER||Mean Difference (Net)|1.12|STANDARD_DEVIATION|0.8||0.73|TWO_SIDED|||||The threshold for statistical significance was p=0.05.|ANOVA|||||||0.730
92175605|NCT05530603|184243419|OTHER|||||||0.033||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||.033
92264966|NCT00643851|184431431|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.1245|<|0.0001|TWO_SIDED|95.0|-0.94|-0.45||Primary endpoint was tested at alpha=0.05; significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-0.45|-0.94|<0.0001
92175606|NCT05530603|184243420|OTHER|||||||0.068|||||||ANOVA|The threshold for statistical significance was p=0.05.||||||.068
92175607|NCT05530603|184243421|OTHER|||||||0.001||||||The threshold for statistical significance was p=0.05.|Fisher Exact|||||||.001
92175608|NCT05530603|184243422|OTHER|||||||0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||||||.001
92175609|NCT05530603|184243423|OTHER|||||||0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||||||.001
92175610|NCT02043678|184243433|SUPERIORITY||Hazard Ratio (HR)|1.122||||0.2636|TWO_SIDED|95.0|0.917|1.374|||Cox Proportional Hazards Model|||||1.374|0.917|0.2636
92175611|NCT02043678|184243434|SUPERIORITY||Hazard Ratio (HR)|1.151||||0.1194|TWO_SIDED|95.0|0.964|1.374|||Cox Proportional Hazards model|||||1.374|0.964|0.1194
92175612|NCT02043678|184243435|SUPERIORITY||Hazard Ratio (HR)|1.152||||0.1283|TWO_SIDED|95.0|0.96|1.383|||Cox Proportional Hazards Model|||||1.383|0.960|0.1283
92175613|NCT02043678|184243436|SUPERIORITY||Hazard Ratio (HR)|1.145||||0.1669|TWO_SIDED|95.0|0.945|1.389|||Cox Proportional Hazards Model|||||1.389|0.945|0.1669
92175614|NCT02043678|184243437|SUPERIORITY||Hazard Ratio (HR)|1.033||||0.7871|TWO_SIDED|95.0|0.816|1.308|||Cox Proportional Hazards Model|||||1.308|0.816|0.7871
92175615|NCT02043678|184243438|SUPERIORITY||Hazard Ratio (HR)|1.126||||0.2467|TWO_SIDED|95.0|0.921|1.378|||Cox Proportional Hazards Model|||||1.378|0.921|0.2467
92175616|NCT05448105|184243544|SUPERIORITY|||||||0.02|||||||Wilcoxon signed rank test|"Wilcoxon signed rank test comparing the participants' SUS scores to the threshold value of 71 indicative of good usability."||||||0.02
92247892|NCT00589979|184398327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.3773||95.0|-0.02|0.04||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects model||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|The overall treatment difference for the lidocaine patch 5% and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.04|-0.02|0.3773
92264967|NCT00643851|184431432|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.1|STANDARD_ERROR_OF_MEAN|3.883|<|0.0001|TWO_SIDED|95.0|-26.7|-11.4||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-11.4|-26.7|<0.0001
92247893|NCT00589979|184398328|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.2605||95.0|0.38|1.3||All statistical tests were 2-sided with a significance level of alpha=0.05.|Regression, Linear||The odds ratio (OR) provided is the ratio of Lidoderm to Placebo.|Treatment satisfaction with the lidocaine patch 5% and placebo patch were compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. An ordinal multinomial regression model was performed with sequence, period, treatment, carry over effect as fixed effects, with repeated measures taken on patient within sequence.||1.30|0.38|0.2605
92247894|NCT00589979|184398329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.3193||95.0|0.44|1.3||All statistical tests were 2-sided with a significance level of alpha=0.05.|Regression, Linear||The odds ratio (OR) provided is the ratio of Lidoderm to Placebo.|Treatment satisfaction with the lidocaine patch 5% and placebo patch were compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. An ordinal multinomial regression model was performed with sequence, period, treatment, carry over effect as fixed effects, with repeated measures taken on patient within sequence.||1.30|0.44|0.3193
92247895|NCT00589979|184398330|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.74||||0.1378||95.0|-0.57|4.04||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects model||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|The overall treatment difference for the lidocaine patch 5% and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates||4.04|-0.57|0.1378
92283019|NCT03831048|184469849|NON_INFERIORITY|The primary analysis of this endpoint will be performed using a linear probability model, with the following terms in the model: (1) treatment; and (2) the known donor and recipient risk factors listed above. Variables that make the model fail to converge will be dropped from the model. The test will be conducted at the one-sided 0.05 level of significance.|Mean Difference (Final Values)|-0.032|||<|0.0001|TWO_SIDED|90.0|-0.098|0.034||No multiple comparison adjustment.|Regression, Linear|||"The null and alternative hypotheses for the primary endpoint are as follows:~H0: pSOC - pDCD ≥ 0.20 vs. H1: pSOC - pDCD \< 0.20 where pDCD and pSOC represent the true survival proportions at the six months follow-up visit for DCD and SOC heart transplant patients, respectively."||0.034|-0.098|<0.0001
92283020|NCT03831048|184469850|OTHER|No hypothesis test.||||||||||||||||No null hypothesis test.|No statistical hypothesis testing. This endpoint will be summarized for the OCS Heart Population using counts and percentages and an exact (Clopper-Pearson) 95% confidence interval for the true percentage based on the binomial distribution. It will also be summarized for the modified OCS Heart Population, defined as the number of DCD hearts that were successfully transplanted after preservation and assessment on the OCS divided by the total number of DCD donor hearts that were instrumented on the OCS.|||
92283021|NCT00324168|184469917|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.009||||0.82|TWO_SIDED|95.0|-0.085|0.068|||Regression, Linear|Adjusted for enrollment BSCVA||||0.068|-0.085|0.82
92283022|NCT00324168|184469918|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06||||0.4|TWO_SIDED|95.0|-0.09|0.15|||Regression, Linear|||||0.15|-0.09|0.40
92283023|NCT00324168|184469919|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.873|TWO_SIDED|95.0|-0.07|0.08|||Regression, Linear|||||0.08|-0.07|0.873
92283024|NCT00324168|184469920|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.44|TWO_SIDED|95.0|0.76|1.12|||Regression, Cox|||||1.12|0.76|0.44
92283025|NCT00324168|184469921|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||||||>0.99
92283026|NCT00324168|184469922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.39|TWO_SIDED|95.0|-0.12|0.05|||Regression, Linear|||||0.05|-0.12|0.39
92175617|NCT05448105|184243547|OTHER|||||||0.04|||||||paired Wilcoxon signed-rank sum test|||||||0.04
92283027|NCT00324168|184469923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.78||95.0|-0.09|0.07|||Regression, Linear|||||0.07|-0.09|0.78
92283028|NCT00324168|184469924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.3|TWO_SIDED|95.0|-0.011|0.35|||Regression, Linear|||Nocardia spp||0.35|-.011|0.30
92283029|NCT00324168|184469924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.86||95.0|-0.12|0.1|||Regression, Linear|||Streptococcus pneumoniae||0.10|-0.12|0.86
92283030|NCT00324168|184469924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.65|TWO_SIDED|95.0|-0.34|0.55|||Regression, Linear|||Moraxella spp||0.55|-0.34|0.65
92283031|NCT00324168|184469924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.67|TWO_SIDED|95.0|-0.2|0.13|||Regression, Linear|||Pseudomonas aeruginosa||0.13|-0.20|0.67
92283032|NCT00324168|184469925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.33|TWO_SIDED|95.0|-0.08|0.25|||Regression, Linear|||\<20/40||0.25|-0.08|0.33
92283033|NCT00324168|184469925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.85|TWO_SIDED|95.0|-0.09|0.11|||Regression, Linear|||20/40 to 20/800||0.11|-0.09|0.85
92283034|NCT00324168|184469925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.03|TWO_SIDED|95.0|-0.31|-0.02|||Regression, Linear|||CF or worse||-0.02|-0.31|0.03
92283035|NCT00324168|184469926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06||||0.31|TWO_SIDED|95.0|-0.05|0.17|||Regression, Linear|||\>0-33%||0.17|-0.05|0.31
92283036|NCT00324168|184469926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.94|TWO_SIDED|95.0|-0.13|0.14|||Regression, Linear|||\>33%-67%||0.14|-0.13|0.94
92283037|NCT00324168|184469926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.07|TWO_SIDED|95.0|-0.31|0.01|||Regression, Linear|||\>67%-100%||0.01|-0.31|0.07
92283038|NCT00324168|184469927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.53|TWO_SIDED|95.0|-0.1|0.2|||Regression, Linear|||0-1.90 mm||0.20|-0.10|0.53
92175618|NCT05448105|184243548|OTHER||||||<|0.01||||||This is calculated p-value. The threshold for significance was less than 0.05.|paired Wilcoxon signed-rank sum test|||||||<0.01
92247896|NCT00589979|184398331|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.6833||95.0|0.47|1.65||All statistical tests were 2-sided with a significance level of alpha=0.05.|Regression, Logistic|An ordinal multinomial regression model was performed with sequence, period, treatment, carry over effect as fixed effects.|The Odds Ratio (OR) provided is the ratio of Lidoderm to Placebo.|||1.65|0.47|0.6833
92247897|NCT00589979|184398332|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.16||||0.1143||95.0|-5.48|49.8||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Disturbance: the overall treatment difference for Lidoderm and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||49.8|-5.48|0.1143
92247898|NCT00589979|184398332|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.18||||0.9108||95.0|-19.8|22.2||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Effectiveness: the overall treatment difference for Lidoderm and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||22.2|-19.8|0.9108
92264968|NCT00643851|184431432|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.5|STANDARD_ERROR_OF_MEAN|3.897|<|0.0001|TWO_SIDED|95.0|-35.1|-19.8||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-19.8|-35.1|<0.0001
92264969|NCT00643851|184431433|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.9|STANDARD_ERROR_OF_MEAN|4.633|<|0.0001|TWO_SIDED|95.0|20.8|39.0||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|modified logistic regression|||||39.0|20.8|<0.0001
92283039|NCT00324168|184469927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.95|TWO_SIDED|95.0|-0.15|0.16|||Regression, Linear|||1.91-2.70 mm||0.16|-0.15|0.95
92283040|NCT00324168|184469927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.7|TWO_SIDED|95.0|-0.12|0.18|||Regression, Linear|||2.71-4.06 mm||0.18|-0.12|0.70
92283041|NCT00324168|184469927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.07|TWO_SIDED|95.0|-0.31|0.01|||Regression, Linear|||4.07-8.90 mm||0.01|-0.31|0.07
92247899|NCT00589979|184398332|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.31||||0.3769||95.0|-10.3|27.0||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Supplementation: the overall treatment difference for Lidoderm and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||27.0|-10.3|0.3769
92247900|NCT03428997|184398336|EQUIVALENCE|Mixed-effects model, where the test material/negative control is a fixed effect and the subject is a random effect|Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.11||0.274|||||||2-sided t-test|||Testing hypothesis is that the mean score is equal between the compared treatments.||||0.274
92175619|NCT05448105|184243549|OTHER|||||||0.16|||||||paired Wilcoxon signed-rank sum test|||||||0.16
92247901|NCT02553317|184398368|SUPERIORITY||||||=|0.0099||||||The resulting p-value was compared with a significance level of 5%.|Log Rank|||Time to platelet count response in the caplacizumab arm and placebo arm was compared by conducting a two-sided stratified log-rank test based on a KM analysis, with severity of neurological involvement (according to the Glasgow coma scale \[GCS\] category, stratification factor used in randomization: ≤12 / 13-15) as stratification factor.||||= 0.0099
92247902|NCT02553317|184398368|SUPERIORITY||Hazard Ratio (HR)|1.55|||||TWO_SIDED|95.0|1.095|2.195|||||The HR was estimated from a Cox proportional Hazards regression model.|Time to platelet count response was analyzed using a Cox proportional hazards regression model with time to platelet count response as dependent variable, and treatment group and GCS category as independent variables. The hazard (or platelet count normalization rate) ratio from the Cox model was reported along with 95% CI.||2.195|1.095|
92247903|NCT02553317|184398369|SUPERIORITY||||||<|0.0001||||||The resulting p-value was compared with a significance level of 5%.|Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel (CMH) test was conducted with adjustment for GCS category (stratification factor used in randomization).||||< 0.0001
92247904|NCT02553317|184398370|SUPERIORITY||||||=|0.0004||||||The resulting p-value was compared with a significance level of 5%.|Cochran-Mantel-Haenszel|||A CMH test was conducted with adjustment for GCS category (stratification factor used in randomization).||||= 0.0004
92247905|NCT02553317|184398371|SUPERIORITY||||||=|0.0572||||||The resulting p-value was compared with a significance level of 5%.|Cochran-Mantel-Haenszel|||A CMH test was conducted with adjustment for GCS category (stratification factor used in randomization).||||= 0.0572
92175620|NCT05448105|184243550|OTHER|||||||0.69|||||||paired Wilcoxon signed-rank sum test|||||||0.69
92175621|NCT05448105|184243551|OTHER|||||||0.9|||||||paired Wilcoxon signed-rank sum test|||||||0.90
92175622|NCT05448105|184243552|OTHER|||||||0.11|||||||paired Wilcoxon signed-rank sum test|||||||0.11
92175623|NCT05448105|184243553|OTHER|||||||0.22|||||||paired Wilcoxon signed-rank sum test|||||||0.22
92175624|NCT05448105|184243554|OTHER|||||||1||||||This is the calculated p-value.|McNemar|||Analysis for pre-post change in knowledge of definition of A1C||||1.00
92175625|NCT05448105|184243554|OTHER|||||||0.55|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for hemoglobin A1c.||||0.55
92175626|NCT05448105|184243554|OTHER|||||||0.11|||||||McNemar|||Analysis for pre-post change in knowledge of definition of systolic blood pressure||||0.11
92175627|NCT05448105|184243554|OTHER|||||||0.63|||||||McNemar|||Analysis of pre-post change in knowledge of goal range for systolic blood pressure||||0.63
92247906|NCT01401465|184398448|SUPERIORITY_OR_OTHER||Slope|88.235|||<|0.0001||||||The significance level was set at 0.025 to adjust for the fact that two co-primary endpoints were being tested.|Two-sided Signed Rank Test||Hodges-Lehman estimate of the CI not available due to ties.|The null hypothesis is that the median of the standardized Total Preference Score = 50. Values \> 50 indicate preference for ciclesonide, while values \< 50 indicate preference for mometasone. For the primary endpoint of the Total Preference Score, assuming an SD of 40, a sample size of 155 will have 80% power to detect a difference of 0.25 SD units (10 raw score units) from the neutrality preference population value of 50, using a single group t-test with a 0.025 two-sided significance level.||||<0.0001
92247907|NCT01401465|184398449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.9|||<|0.0001|TWO_SIDED|95.0|11.22|16.58||The significance level was set at 0.025 to adjust for the fact that two co-primary endpoints were being tested.|Linear Mixed Model|Linear Mixed Model with effects for Period, Treatment, Sex, Race, Study Center, and covariates of Age and Baseline.||The null hypothesis is that the mean change from baseline (CfBL) for CIC is equal to the mean CfBL for MOM. In Study 060-301, a correlation between BL periods 1 and 2 of 0.7 and a change score SD of 15 was seen for the RACS. A sample size of 41 in each sequence group (82 total ) gives a 2 x 2 crossover design 80% power to detect the difference in the CfBL of 0.35 SD units (5.25 raw score units) using a two group t-test with a 0.025 two-sided significance level and a SD of 15 for the difference.||16.58|11.22|<0.0001
92247908|NCT01401465|184398449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.88|||<|0.0001|TWO_SIDED|95.0|2.2|7.56||The significance level was set at 0.025 to adjust for the fact that two co-primary endpoints were being tested.|Linear Mixed Model|Linear Mixed Model with effects for Period, Treatment, Sex, Race, Study Center, and covariates of Age and Baseline||The null hypothesis is that the mean change from baseline (CfBL) for CIC is equal to the mean CfBL for MOM. In Study 060-301, a correlation between BL periods 1 and 2 of 0.7 and a change score SD of 15 was seen for the RACS. A sample size of 41 in each sequence group (82 total ) gives a 2 x 2 crossover design 80% power to detect the difference in the CfBL of 0.35 SD units (5.25 raw score units) using a two group t-test with a 0.025 two-sided significance level and a SD of 15 for the difference.||7.56|2.20|<0.0001
92247909|NCT01401465|184398450|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|88.889|||<|0.0001||||||If both primary endpoints are significant, the evaluation of this key secondary endpoint will be conducted at a significance level of 0.05.|Two-sided signed-rank test||Hodges-Lehman estimate of the CI not available due to ties.|The null hypothesis is that the median of the standardized Treatment Process Composite Preference Score = 50. Values \> 50 indicate preference for ciclesonide, while values \< 50 indicate preference for mometasone. Assuming an SD of 40, as observed in Study 060-301, a sample size of 128 will have 80% power to detect a difference of 0.25 SD units (10 raw score units) from the neutrality preference population value of 50, using a single group t-test with a 0.05 two-sided significant level||||<0.0001
92247910|NCT01401465|184398451|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CI of the LS mean difference of ciclesonide nasal aerosol minus mometasone aqueous nasal spray was calculated from the ANCOVA model, and the upper bound of the CI was compared to the non-inferiority margin of 0.5. Non-inferiority was declared if the upper bound of the 95% CI of this difference was \< 0.5.|Difference in LS Means|-0.1|||||TWO_SIDED|95.0|-0.3|0.1||f both primary endpoints are significant, the evaluation of this key secondary endpoint will be conducted at a significance level of 0.05.|ANCOVA|Site, treatment, period, treatment sequence as fixed effects, subject nested within sequence as a random effect, and baseline rTNSS as a covariate.|Ciclesonide 74 mcg minus Mometasone 200 mcg|The null hypothesis is that the change from baseline in rTNSS for ciclesonide 74 mcg nasal aerosol minus the change from baseline in rTNSS for mometasone AQ 200 mcg is greater than 0.5.||0.1|-0.3|
92247911|NCT01115738|184398479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.24||||0.188|TWO_SIDED|95.0|-10.98|55.47||P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||55.47|-10.98|0.188
92247912|NCT01115738|184398479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.93||||0.809|TWO_SIDED|95.0|-28.2|36.07||P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||36.07|-28.20|0.809
92247913|NCT01115738|184398480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.93||||0.37|TWO_SIDED|95.0|-20.26|54.12||P-value is for Baseline. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||54.12|-20.26|0.370
92247914|NCT01115738|184398480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.89||||0.052|TWO_SIDED|95.0|-0.29|72.06||P-value is for Baseline. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||72.06|-0.29|0.052
92247915|NCT01115738|184398480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.45||||0.703|TWO_SIDED|95.0|-39.55|58.45||P-value is for 2 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||58.45|-39.55|0.703
92247916|NCT01115738|184398480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.45||||0.823|TWO_SIDED|95.0|-42.53|53.44||P-value is for 2 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||53.44|-42.53|0.823
92175628|NCT05448105|184243554|OTHER|||||||0.12|||||||McNemar|||Analysis of pre-post change in knowledge of definition of LDL cholesterol||||0.12
92247917|NCT01115738|184398480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.69||||0.054|TWO_SIDED|95.0|-0.47|57.84||P-value is for 24 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||57.84|-0.47|0.054
92247918|NCT01115738|184398480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.3||||0.436|TWO_SIDED|95.0|-17.29|39.9||P-value is for 24 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||39.90|-17.29|0.436
92247919|NCT01115738|184398480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.87||||0.463|TWO_SIDED|95.0|-14.96|32.71||P-value is for 72 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||32.71|-14.96|0.463
92247920|NCT01115738|184398480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.34||||0.777|TWO_SIDED|95.0|-26.62|19.94||P-value is for 72 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||19.94|-26.62|0.777
92247921|NCT01115738|184398483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.31||||0.505|TWO_SIDED|95.0|-13.1|6.48||P-value is for Baseline. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||6.48|-13.10|0.505
92247922|NCT01115738|184398483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.23||||0.278|TWO_SIDED|95.0|-14.74|4.27||P-value is for Baseline. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||4.27|-14.74|0.278
92247923|NCT01115738|184398483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.71||||0.749|TWO_SIDED|95.0|-19.44|14.02||P-value is for 2 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||14.02|-19.44|0.749
92247924|NCT01115738|184398483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.15||||0.89|TWO_SIDED|95.0|-15.24|17.53||P-value is for 2 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||17.53|-15.24|0.890
92247925|NCT01115738|184398483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.89||||0.223|TWO_SIDED|95.0|-18.02|4.24||P-value is for 6 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||4.24|-18.02|0.223
92247926|NCT01115738|184398483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.33||||0.808|TWO_SIDED|95.0|-9.44|12.1||P-value is for 6 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||12.10|-9.44|0.808
92247927|NCT01115738|184398483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.07||||0.049|TWO_SIDED|95.0|-20.11|-0.04||P-value is for 24 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||-0.04|-20.11|0.049
92247928|NCT01115738|184398483|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.99||||0.842|TWO_SIDED|95.0|-10.85|8.86||P-value is for 24 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||8.86|-10.85|0.842
92247929|NCT01115738|184398483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.03||||0.247|TWO_SIDED|95.0|-13.58|3.52||P-value is for 72 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||3.52|-13.58|0.247
92247930|NCT01115738|184398483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.942|TWO_SIDED|95.0|-8.09|8.71||P-value is for 72 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||8.71|-8.09|0.942
92247931|NCT01115738|184398486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.449||||0.8711|TWO_SIDED|95.0|-38.81|45.71|||ANOVA|||A linear ANOVA model with PRU values at baseline for clopidogrel treated participants as response and CYP2C19 metabolizer status as covariate of main interest.||45.71|-38.81|0.8711
92247932|NCT01115738|184398487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.714||||0.7875|TWO_SIDED|95.0|-72.78|55.36|||ANOVA|||A linear ANOVA model with PRU values of 6 hours post Prasugrel LD as response and treatment, CYP2C19 metabolizer status, interaction of treatment-by-CYP2C19 metabolizer status as fixed effects.||55.36|-72.78|0.7875
92247933|NCT01115738|184398487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.435||||0.8913|TWO_SIDED|95.0|-53.23|46.37|||ANOVA|||A linear ANOVA model with PRU values of 6 hours Post-Prasugrel LD as response and treatment, CYP2C19 metabolizer status, interaction of treatment-by-CYP2C19 metabolizer status as fixed effects.||46.37|-53.23|0.8913
92175629|NCT05448105|184243554|OTHER|||||||0.33|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for LDL cholesterol||||0.33
92247934|NCT01115738|184398487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7||||0.6229|TWO_SIDED|95.0|-35.43|58.83|||ANOVA|||A linear ANOVA model with PRU values of 6 hours Post-Prasugrel LD as response and treatment, CYP2C19 metabolizer status, interaction of treatment-by-CYP2C19 metabolizer status as fixed effects.||58.83|-35.43|0.6229
92247935|NCT04009213|184398488|NON_INFERIORITY|H0: δT - δC ≥ 0.9 Ha: δT - δC \< 0.9|||||<|0.025|ONE_SIDED|95.0|||||ANCOVA|||||||< 0.025
92283042|NCT01682083|184469931|SUPERIORITY|Hazard ratio is obtained from the stratified Pike estimator. A hazard ratio \<1 indicates a lower risk with Dabrafenib + Trametinib compared with Placebo.|Hazard Ratio, log|0.47|||<|0.0001|TWO_SIDED|95.0|0.39|0.58|||Log Rank|||The null hypothesis, H0: λ = 1 or reject it in favor of the alternative hypothesis, HA: λ ≠ 1, where λ is the hazard ratio (HR) of combination therapy relative to placebo.||0.58|0.39|< 0.0001
92247936|NCT04009213|184398489|NON_INFERIORITY|H0: qT - qC ≥ 10% H1: qT - qC \< 10%|||||<|0.025|ONE_SIDED|95.0|||||Farrington-Manning|||||||< 0.025
92283043|NCT01682083|184469932|SUPERIORITY|A hazard ratio \<1 indicates a lower risk with dabrafenib + trametinib compared with Placebo.|Hazard Ratio, log|0.57||||0.006|TWO_SIDED|95.0|0.42|0.79|||Log Rank|the two-sided threshold for significance at this first interim analysis was p=0.000019||Hazard ratio is obtained from the stratified Pike estimator.||0.79|0.42|0.006
92247937|NCT04009213|184398490|NON_INFERIORITY|H0: pC - pT ≥ 10% H1: pC - pT \< 10%,|||||<|0.025|ONE_SIDED|95.0|||||Farrington-Manning|||||||<0.025
92247938|NCT04009213|184398491|NON_INFERIORITY|H0: πC - πT ≥ 15% H1: πC - πT \< 15%,|||||<|0.025|ONE_SIDED|95.0|||||Farrington-Manning|||||||< 0.025
92247939|NCT02921763|184398495|SUPERIORITY||||||=|0.0533|||||||Sign test|||"For the volume calculated from the major and minor axes of ovarian chocolate cyst, the values before treatment initiation and at last observation were compared, frequency of increase and decrease was summarized and the sign test was performed separately in the efficacy analysis set and study completers."||||=0.0533
92247940|NCT02921763|184398497|SUPERIORITY||||||=|0.7328|||||||Wilcoxon (Mann-Whitney)|||"For the volume calculated from the major and minor axes of ovarian chocolate cyst (a total volume if there were two or more cysts), the value, difference from the value before treatment and change rate were calculated using the summary statistics at each measurement point and last observation in each analysis set, namely efficacy analysis set and study completers, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||=0.7328
92247941|NCT02921763|184398497|SUPERIORITY||||||=|0.1193|||||||Wilcoxon (Mann-Whitney)|||"For the volume calculated from the major and minor axes of ovarian chocolate cyst (a total volume if there were two or more cysts), the value, difference from the value before treatment and change rate were calculated using the summary statistics at each measurement point and last observation in each analysis set, namely efficacy analysis set and study completers, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||=0.1193
92247942|NCT02921763|184398498|SUPERIORITY|||||||0.7221|||||||Wilcoxon (Mann-Whitney)|||"For the volume calculated from the major and minor axes of ovarian chocolate cyst (a total volume if there were two or more cysts), the value, difference from the value before treatment and change rate were calculated using the summary statistics at each measurement point and last observation in each analysis set, namely efficacy analysis set and study completers, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||0.7221
92247943|NCT02921763|184398498|SUPERIORITY|||||||0.0861|||||||Wilcoxon (Mann-Whitney)|||"For the volume calculated from the major and minor axes of ovarian chocolate cyst (a total volume if there were two or more cysts), the value, difference from the value before treatment and change rate were calculated using the summary statistics at each measurement point and last observation in each analysis set, namely efficacy analysis set and study completers, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||0.0861
92247944|NCT02921763|184398502|SUPERIORITY||||||=|0.002|||||||Wilcoxon (Mann-Whitney)|||The score value and difference from the value before treatment were calculated at the same points using the summary statistics, and the Wilcoxon signed-rank test was performed.||||=0.0020
92247945|NCT02921763|184398502|SUPERIORITY||||||=|0.0001|||||||Wilcoxon (Mann-Whitney)|||The score value and difference from the value before treatment were calculated at the same points using the summary statistics, and the Wilcoxon signed-rank test was performed.||||=0.0001
92247946|NCT02921763|184398502|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The score value and difference from the value before treatment were calculated at the same points using the summary statistics, and the Wilcoxon signed-rank test was performed.||||<0.0001
92247947|NCT02921763|184398502|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The score value and difference from the value before treatment were calculated at the same points using the summary statistics, and the Wilcoxon signed-rank test was performed.||||<0.0001
92283044|NCT01682083|184469933|SUPERIORITY|A hazard ratio \<1 indicates a lower risk with Dabrafenib + Trametinib compared with Placebo.|Hazard Ratio, log|0.51|||||TWO_SIDED|95.0|0.4|0.65||||||Hazard ratio is estimated using Pike estimator.||0.65|0.40|
92247948|NCT02921763|184398502|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The score value and difference from the value before treatment were calculated at the same points using the summary statistics, and the Wilcoxon signed-rank test was performed.||||<0.0001
92247949|NCT02921763|184398503|SUPERIORITY||||||=|0.0024|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||=0.0024
92283045|NCT01682083|184469934|SUPERIORITY|A hazard ratio \<1 indicates a lower risk with Dabrafenib + Trametinib compared with Placebo.|Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.39|0.57||||||Hazard ratio is estimated using Pike estimator.||0.57|0.39|
92283046|NCT02731157|184469935|OTHER||Mean Difference (Final Values)|0.65||||0.95|TWO_SIDED||||||ANOVA|||||||0.95
92247950|NCT02921763|184398503|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
92247951|NCT02921763|184398503|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
92247952|NCT02921763|184398503|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
92247953|NCT02921763|184398503|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
92247954|NCT02921763|184398504|SUPERIORITY||||||=|0.0037|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||=0.0037
92247955|NCT02921763|184398504|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
92247956|NCT02921763|184398504|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
92283047|NCT01014728|184469941|SUPERIORITY_OR_OTHER|||||||0.937||95.0|||||t-test, 2 sided|||||||0.937
92283048|NCT01014728|184469942|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92247957|NCT02921763|184398504|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
92283049|NCT01014728|184469943|SUPERIORITY_OR_OTHER|||||||0.461||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.461
92247958|NCT02921763|184398504|SUPERIORITY||||||=|0.0003|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||=0.0003
92283050|NCT03657160|184469944|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|0.001|TWO_SIDED|95.0|0.27|0.73|||Log Rank|||||0.73|0.27|<0.001
92247959|NCT02921763|184398505|SUPERIORITY||||||=|0.8035|||||||Wilcoxon (Mann-Whitney)|||"Separately in the efficacy analysis set and study completers, the values before treatment initiation and at last observation were compared, the value, difference from the value before treatment and change rate were calculated using the summary statistics, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||=0.8035
92247960|NCT02921763|184398506|SUPERIORITY||||||=|0.8185|||||||Wilcoxon (Mann-Whitney)|||"Separately in the efficacy analysis set and study completers, the values before treatment initiation and at last observation were compared, the value, difference from the value before treatment and change rate were calculated using the summary statistics, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||=0.8185
92247961|NCT02659605|184398522|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.572|||||||Student's t-test|||||||0.572
92247962|NCT02659605|184398523|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.849|||||||Student's t-test|||||||0.849
92247963|NCT02659605|184398524|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.886|||||||Student's t-test|||||||0.886
92175630|NCT05448105|184243554|OTHER|||||||0.23|||||||McNemar|||Analysis of pre-post change in knowledge of definition of urine microalbumin||||0.23
92247964|NCT02659605|184398525|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.612|||||||Student's t-test|||||||0.612
92264970|NCT00643851|184431433|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|17.8|STANDARD_ERROR_OF_MEAN|4.947||0.0003|TWO_SIDED|95.0|8.1|27.4||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||27.4|8.1|0.0003
92247965|NCT02659605|184398526|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.728|||||||Student's t-test|||||||0.728
92247966|NCT02659605|184398527|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.584|||||||Student's t-test|||||||0.584
92247967|NCT00475540|184398553|SUPERIORITY|Statistical analysis was performed using SAS 9.1 software. One patient did not receive the assigned mesh treatment because the surgeon felt there was inadequate vaginal caliber, so non mesh repair was performed. This subject was analyzed in the non mesh group for the 3-month and 1-year outcomes rather than intent-to-treat approach. This subject was lost to follow-up after 12 months and not included in the 3-year analysis.|||||<|0.05|||||||t-test, 2 sided|t-tests, Wilcoxon signed rank, Wilcoxon rank-sum tests continuous variables; X2 for categorical variables. Combined cure outcomes Fisher's exact test||Sample size primary outcome 1 year: 45 participants per arm, 20% difference success (70% no mesh and 90% mesh), alpha of .05 and 80% power, 15% loss to follow-up.||||<0.05
92247968|NCT03245723|184398570|OTHER|Descriptive statistics||||||0.38|||||||Wilcoxon Rank Sum test|||||||0.38
92247969|NCT03245723|184398571|OTHER|Descriptive statistics||||||0.12|||||||Wilcoxon Rank Sum test|||||||0.12
92247970|NCT03784027|184398574|SUPERIORITY||Mean Difference (Final Values)|8.7|||<|0.001|TWO_SIDED|95.0|7.4|9.9|||Regression, Linear||The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|||9.9|7.4|<0.001
92247971|NCT03784027|184398575|SUPERIORITY||Mean Difference (Final Values)|-8.5|||<|0.001|TWO_SIDED|95.0|-9.9|-7.1||The primary and key secondary end points were tested in hierarchy (Time in range, time \>180mg/dL, HbA1c, mean glucose, time \<70mg/dL) to control the type 1 error with the use of the fixed-sequence method.|Regression, Linear||The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|||-7.1|-9.9|<0.001
92247972|NCT03784027|184398576|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.3||The primary and key secondary end points were tested in hierarchy (Time in range, time \>180mg/dL, HbA1c, mean glucose, time \<70mg/dL) to control the type 1 error with the use of the fixed-sequence method.|Regression, Linear||The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|||-0.3|-0.5|<0.001
92247973|NCT03784027|184398577|SUPERIORITY||Mean Difference (Final Values)|-3.9|||<|0.001|TWO_SIDED|95.0|-4.9|-2.9|||Mixed Models Analysis|||||-2.9|-4.9|<0.001
92264971|NCT00643851|184431434|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.34|STANDARD_ERROR_OF_MEAN|0.1938|<|0.0001|TWO_SIDED|95.0|-1.72|-0.96||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-0.96|-1.72|<0.0001
92264972|NCT00643851|184431434|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.19|STANDARD_ERROR_OF_MEAN|0.1912|<|0.0001|TWO_SIDED|95.0|-1.57|-0.82||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-0.82|-1.57|<0.0001
92175631|NCT05448105|184243554|OTHER|||||||0.58|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for urine microalbumin||||0.58
92175632|NCT05448105|184243554|OTHER|||||||1|||||||McNemar|||Analysis of pre-post change in knowledge of definition of body mass index (BMI)||||1.00
92247974|NCT03784027|184398578|SUPERIORITY||Mean Difference (Final Values)|-12.3|||<|0.001|TWO_SIDED|95.0|-14.8|-9.8||The primary and key secondary end points were tested in hierarchy (Time in range, time \>180mg/dL, HbA1c, mean glucose, time \<70mg/dL) to control the type 1 error with the use of the fixed-sequence method.|Regression, Linear||The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|||-9.8|-14.8|<0.001
92247975|NCT03784027|184398579|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.74|TWO_SIDED|95.0|-0.4|0.5||The primary and key secondary end points were tested in hierarchy (Time in range, time \>180mg/dL, HbA1c, mean glucose, time \<70mg/dL) to control the type 1 error with the use of the fixed-sequence method.|Regression, Linear|||||0.5|-0.4|0.74
92247976|NCT03784027|184398580|SUPERIORITY|The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|Mean Difference (Final Values)|-6.2|||||TWO_SIDED|95.0|-7.6|-4.8|||||Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||-4.8|-7.6|
92247977|NCT03784027|184398581|SUPERIORITY|The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values. Differences in percents are shown in percentage points.|Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.5|0.05|||||Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||0.05|-1.5|
92247978|NCT03784027|184398582|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.1|0.1||The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|||Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||0.1|-0.1|
92247979|NCT03784027|184398583|SUPERIORITY|The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-1.6|-0.6|||||Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||-0.6|-1.6|
92247980|NCT03784027|184398584|NON_INFERIORITY|The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|Mean Difference (Final Values)|0.002|||||TWO_SIDED|95.0|-0.006|0.009|||||Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||0.009|-0.006|
92247981|NCT03784027|184398585|SUPERIORITY||Mean Difference (Final Values)|0.004||||0.75|TWO_SIDED|95.0|-0.02|0.03|||Regression, Linear|Based on a longitudinal model adjusting for baseline value and period as fixed effects. The model accounts for correlated data from the same subject.||||0.03|-0.02|0.75
92247982|NCT03784027|184398586|SUPERIORITY|The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.1|0.8|||||(For total daily insulin use) Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||0.8|-0.1|
92247983|NCT01512108|184398597|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.27||||0.0026||95.0|-0.44|-0.09|||ANOVA|||||-0.09|-0.44|0.0026
92247984|NCT01512108|184398598|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.3||||0.0458||95.0|-0.6|-0.01|||ANOVA|||||-0.01|-0.60|0.0458
92247985|NCT02373371|184398599|SUPERIORITY|||||||0.846|||||||Wilcoxon (Mann-Whitney)|||"Main analysis:~* nbDPKAdispM3 the number of KA disappeared at M3 after treatment with DPDT compared to the inclusion layer,~* nbCPKAdispM3 the number of KA disappeared at M3 after treatment with conventional blue light,~The primary endpoint is:~differenceM3 = nbDPKAdispM3 - nbCPKAdispM3 The main analysis will consist of a signed Wilcoxon rank test for matched data testing whether difference M3 is significantly different from 0"||||0.8460
92247986|NCT02373371|184398601|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||||||0.0005
92247987|NCT02373371|184398602|SUPERIORITY|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
92247988|NCT04847141|184398605|SUPERIORITY||Difference in Percentage|-3.6||||0.5167|TWO_SIDED|95.0|-14.6|7.4||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants meeting the primary efficacy endpoint between C19-IG 20% 1 g and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|||7.4|-14.6|0.5167
92247989|NCT04847141|184398605|SUPERIORITY||Difference in Percentage|1.2||||0.8197|TWO_SIDED|95.0|-9.6|12.0||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants meeting the primary efficacy endpoint between C19-IG 20% 2 g and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|||12.0|-9.6|0.8197
92283051|NCT03657160|184469945|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0043|TWO_SIDED|95.0|0.37|0.86|||Log Rank|||||0.86|0.37|0.0043
92247990|NCT04847141|184398606|SUPERIORITY||Least squares (LS) Mean Difference|0.1||||0.5756|TWO_SIDED|95.0|-0.24|0.44|||ANCOVA||95% CI for the difference in LS Mean between 1 g C19-IG 20% dose group \& placebo was calculated using ANCOVA model, including CFB value as dependent variable; treatment group as fixed effect; \& baseline viral load value, age, \& gender as covariates.|Day 7||0.44|-0.24|0.5756
92247991|NCT04847141|184398606|SUPERIORITY||LS Mean Difference|-0.17||||0.3289|TWO_SIDED|95.0|-0.52|0.17|||ANCOVA||95% CI for the difference in LS Mean between 2 g C19-IG 20% dose group \& placebo was calculated using ANCOVA model, including CFB value as dependent variable; treatment group as fixed effect; \& baseline viral load value, age, \& gender as covariates.|Day 7||0.17|-0.52|0.3289
92247992|NCT04847141|184398606|SUPERIORITY||LS Mean Difference|0.11||||0.3418|TWO_SIDED|95.0|-0.12|0.34|||ANCOVA||95% CI for the difference in LS Mean between 1 g C19-IG 20% dose group \& placebo was calculated using ANCOVA model, including CFB value as dependent variable; treatment group as fixed effect; \& baseline viral load value, age, \& gender as covariates.|Day 14||0.34|-0.12|0.3418
92247993|NCT04847141|184398606|SUPERIORITY||LS Mean Difference|-0.11||||0.3688|TWO_SIDED|95.0|-0.34|0.13|||ANCOVA||95% CI for the difference in LS Mean between 2 g C19-IG 20% dose group \& placebo was calculated using ANCOVA model, including CFB value as dependent variable; treatment group as fixed effect; \& baseline viral load value, age, \& gender as covariates.|Day 14||0.13|-0.34|0.3688
92247994|NCT04847141|184398607|SUPERIORITY||Difference in Percentage|-1.3||||0.1506|TWO_SIDED|95.0|-4.7|1.2||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who remained in an outpatient setting \& maintained SpO2≥94% between C19-IG 20% 2 g \& placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 3||1.2|-4.7|0.1506
92247995|NCT04847141|184398607|SUPERIORITY||Difference in Percentage|1.3||||0.1655|TWO_SIDED|95.0|-1.3|4.6||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who remained in an outpatient setting \& maintained SpO2≥94% between C19-IG 20% 1 g \& placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 7||4.6|-1.3|0.1655
92247996|NCT04847141|184398607|SUPERIORITY||Difference in Percentage|-2.0||||0.2337|TWO_SIDED|95.0|-6.5|1.7||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who remained in an outpatient setting \& maintained SpO2≥94% between C19-IG 20% 2 g \& placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 7||1.7|-6.5|0.2337
92247997|NCT04847141|184398607|SUPERIORITY||Difference in Percentage|-0.8||||0.7212|TWO_SIDED|95.0|-6.1|4.2||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who remained in an outpatient setting \& maintained SpO2≥94% between C19-IG 20% 1 g \& placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 14||4.2|-6.1|0.7212
92247998|NCT04847141|184398607|SUPERIORITY||Difference in Percentage|-2.1||||0.3897|TWO_SIDED|95.0|-7.8|3.1||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who remained in an outpatient setting \& maintained SpO2≥94% between C19-IG 20% 2 g \& placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 14||3.1|-7.8|0.3897
92247999|NCT04847141|184398608|SUPERIORITY||Difference in Percentage|3.1||||0.5489|TWO_SIDED|95.0|-7.1|13.3||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 3||13.3|-7.1|0.5489
92248000|NCT04847141|184398608|SUPERIORITY||Difference in Percentage|4.4||||0.392|TWO_SIDED|95.0|-5.8|14.7||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 3||14.7|-5.8|0.3920
92248001|NCT04847141|184398608|SUPERIORITY||Difference in Percentage|1.7||||0.7632|TWO_SIDED|95.0|-9.5|12.9||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 7||12.9|-9.5|0.7632
92248002|NCT04847141|184398608|SUPERIORITY||Difference in Percentage|7.9||||0.1702|TWO_SIDED|95.0|-3.6|19.2||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 7||19.2|-3.6|0.1702
92248003|NCT04847141|184398608|SUPERIORITY||Difference in Percentage|-2.0||||0.7316|TWO_SIDED|95.0|-13.3|9.4||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 14||9.4|-13.3|0.7316
92283052|NCT03657160|184469946|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0204|TWO_SIDED|95.0|0.39|0.91|||Log Rank|||||0.91|0.39|0.0204
92175633|NCT05448105|184243554|OTHER|||||||0.27|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for body mass index (BMI)||||0.27
92175634|NCT05312008|184243678|SUPERIORITY||||||<|0.6|||||||t-test, 2 sided|paired||||||<0.6
92175635|NCT05312008|184243679|SUPERIORITY||||||<|0.6|||||||t-test, 2 sided|Paired||||||<0.6
92248004|NCT04847141|184398608|SUPERIORITY||Difference in Percentage|6.9||||0.2104|TWO_SIDED|95.0|-4.2|18.0||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 14||18.0|-4.2|0.2104
92248005|NCT04847141|184398608|SUPERIORITY||Difference in Percentage|4.9||||0.2059|TWO_SIDED|95.0|-2.9|13.2||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 29||13.2|-2.9|0.2059
92248006|NCT04847141|184398608|SUPERIORITY||Difference in Percentage|1.9||||0.6463|TWO_SIDED|95.0|-6.5|10.3||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 29||10.3|-6.5|0.6463
92248007|NCT04847141|184398609|SUPERIORITY|||||||0.9033|||||||Log Rank|||||||0.9033
92248008|NCT04847141|184398609|SUPERIORITY|||||||0.5456|||||||Log Rank|||||||0.5456
92175636|NCT05312008|184243680|SUPERIORITY||||||<|1|||||||t-test, 2 sided|Paired||||||<1
92175637|NCT05312008|184243681|SUPERIORITY||||||<|0.04|||||||t-test, 2 sided|Paired||||||<0.04
92175638|NCT05312008|184243682|SUPERIORITY||||||<|0.5|||||||t-test, 2 sided|Paired||||||<0.5
92175639|NCT00324805|184243683|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9|TWO_SIDED|95.0|0.82|1.19|||Regression, Cox||Arm II versus Arm I|||1.19|0.82|0.90
92175640|NCT00324805|184243684|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.95|TWO_SIDED|95.0|0.86|1.15|||Regression, Cox||Arm II vs. Arm I|||1.15|0.86|0.95
92248009|NCT04847141|184398610|SUPERIORITY||Difference in Percentage|0.79||||0.6311|TWO_SIDED|95.0|-2.9|4.6||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required oxygen supplementation between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between each of 1 g C19-IG 20% dose group and placebo was calculated using the exact unconditional method.|||4.6|-2.9|0.6311
92283053|NCT03657160|184469947|SUPERIORITY||Hazard Ratio (HR)|0.48||||0.0668|TWO_SIDED|95.0|0.22|1.04|||Log Rank|||||1.04|0.22|0.0668
92175641|NCT05698875|184243688|OTHER||Fixed effects parameter|1.0||||0.12|TWO_SIDED|95.0|0.1|1.9||P=0.04 however was adjusted using the Bonferroni correction The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL vs control meals||1.9|0.1|0.12
92175642|NCT05698875|184243688|OTHER||Fixed effects parameter|-0.58||||0.23|TWO_SIDED|95.0|-1.5|0.4||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP vs control meal||0.4|-1.5|0.23
92175643|NCT05698875|184243688|OTHER||Fixed effects parameter|0.24||||0.62|TWO_SIDED|95.0|-0.7|1.2||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL vs control meal||1.2|-0.7|0.62
92175644|NCT05698875|184243688|OTHER||Fixed effects parameter|1.6||||0.003|TWO_SIDED|95.0|0.7|2.5||Above is adjusted p value using Bonferroni correction. The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL vs HGLP||2.5|0.7|0.003
92175645|NCT05698875|184243688|OTHER||Fixed effects parameter|0.82||||0.08|TWO_SIDED|95.0|-0.1|1.7||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL vs MGL meals||1.7|-0.1|0.08
92175646|NCT05698875|184243688|OTHER||Fixed effects parameter|-0.8||||0.12|TWO_SIDED|95.0|-1.7|0.2||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP vs MGL meals||0.2|-1.7|0.12
92175647|NCT05698875|184243689|OTHER||Mean Difference (Final Values)|0.835||||0.08|TWO_SIDED|95.0|-0.1|1.8||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL vs control meals||1.8|-0.1|0.08
92175648|NCT05698875|184243689|OTHER||Mean Difference (Final Values)|-0.7||||0.13|TWO_SIDED|95.0|-1.7|0.2||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP meal vs control meal||0.2|-1.7|0.13
92175649|NCT05698875|184243689|OTHER||Mean Difference (Final Values)|-0.2||||0.68|TWO_SIDED|95.0|-1.2|0.8||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs control meals||0.8|-1.2|0.68
92175650|NCT05698875|184243689|OTHER||Mean Difference (Final Values)|1.6|||<|0.01|TWO_SIDED|95.0|0.7|2.5||The a priori threshold for statistical significance p\<0.05 P value adjusted with Bonferroni correction|Linear Mixed Model|||HGL vs HGLP meals||2.5|0.7|<0.01
92175651|NCT05698875|184243689|OTHER||Mean Difference (Final Values)|1.1||||0.06|TWO_SIDED|95.0|0.2|2.0||The a priori threshold for statistical significance p\<0.05 p value adjusted with the Bonferroni correction|Linear Mixed Model|||HGL vs MGL meals||2.0|0.2|0.06
92283054|NCT03657160|184469948|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.1458|TWO_SIDED|95.0|0.34|1.17|||Log Rank|||||1.17|0.34|0.1458
92248010|NCT04847141|184398610|SUPERIORITY||Difference in Percentage|2.6||||0.1441|TWO_SIDED|95.0|-1.2|7.3||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required oxygen supplementation between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between each of 2 g C19-IG 20% dose group and placebo was calculated using the exact unconditional method.|||7.3|-1.2|0.1441
92283055|NCT03657160|184469949|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.0105|TWO_SIDED|95.0|0.46|0.91|||Log Rank|||||0.91|0.46|0.0105
92283056|NCT00686959|184469959|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.831|TWO_SIDED|95.0|0.79|1.2|||Log Rank|||||1.20|0.79|0.831
92248011|NCT04847141|184398611|SUPERIORITY||LS Mean (LSM) Difference|0.02||||0.8555|TWO_SIDED|95.0|-0.23|0.27|||ANCOVA||95% CI for difference in LSM between 1 g C19-IG 20% \& placebo was calculated using an ANCOVA model,with number of days on oxygen as dependent variable \& treatment group as fixed effect,adjusting for baseline characteristics(including age \& gender).|||0.27|-0.23|0.8555
92283057|NCT00686959|184469960|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.13|TWO_SIDED|95.0|0.71|1.04|||Log Rank|||||1.04|0.71|0.130
92283058|NCT00686959|184469961|SUPERIORITY_OR_OTHER|||||||0.458|TWO_SIDED||||||Log Rank|||||||0.458
92283059|NCT00686959|184469964|SUPERIORITY_OR_OTHER|||||||0.132|TWO_SIDED||||||Fisher Exact|||Relapsed within the radiation treatment field||||0.132
92283060|NCT00686959|184469964|SUPERIORITY_OR_OTHER|||||||0.337|TWO_SIDED||||||Fisher Exact|||Relapsed inside thorax, outside of radiation field||||0.337
92283061|NCT00686959|184469964|SUPERIORITY_OR_OTHER|||||||0.457|TWO_SIDED||||||Fisher Exact|||Relapsed distant disease||||0.457
92283062|NCT00686959|184469965|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Fisher Exact|||||||0.150
92283063|NCT02724800|184470002|NON_INFERIORITY|non-inferiority margin = 3.43|Mean Difference (Net)|2.2|||<|0.05|TWO_SIDED|95.0|-0.9|5.6||a priori|Mixed Models Analysis|||||5.6|-0.9|<0.05
92283064|NCT02724800|184470009|SUPERIORITY||Mean Difference (Final Values)|2.3|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92248012|NCT04847141|184398611|SUPERIORITY||LS Mean Difference|0.03||||0.8108|TWO_SIDED|95.0|-0.22|0.28|||ANCOVA||95% CI for difference in LSM between 2 g C19-IG 20% \& placebo was calculated using an ANCOVA model,with number of days on oxygen as dependent variable \& treatment group as fixed effect,adjusting for baseline characteristics(including age \& gender).|||0.28|-0.22|0.8108
92283065|NCT02724800|184470012|SUPERIORITY||Mean Difference (Final Values)|0.3|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92248013|NCT04847141|184398613|SUPERIORITY||LS Mean Difference|0.03||||0.0692|TWO_SIDED|95.0|0.0|0.07||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 7||0.07|-0.00|0.0692
92283066|NCT00262964|184470019|SUPERIORITY_OR_OTHER||||||<|0.019||95.0|||||t-test, 2 sided|||null hypothesis was no difference in hepatic insulin sensitivity between normal and high IHTG subjects||||<0.019
92283067|NCT00262964|184470020|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||a priori threshold for significance was P\<0.05.|t-test, 2 sided|||null hypothesis was that VLDL-TG production would not differ between the two groups.||||<0.001
92283068|NCT00262964|184470021|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||a priori threshold for significance was set at p = 0.05.|t-test, 2 sided|||null hypothesis was no difference in skeletal muscle insulin sensitivity between groups.||||<0.001
92248014|NCT04847141|184398613|SUPERIORITY||LS Mean Difference|0.01||||0.4956|TWO_SIDED|95.0|-0.02|0.05||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 7||0.05|-0.02|0.4956
92248015|NCT04847141|184398613|SUPERIORITY||LS Mean Difference|-0.05||||0.22|TWO_SIDED|95.0|-0.13|0.03||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 14||0.03|-0.13|0.2200
92248016|NCT04847141|184398613|SUPERIORITY||LS Mean Difference|-0.07||||0.0906|TWO_SIDED|95.0|-0.14|0.01||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 14||0.01|-0.14|0.0906
92248017|NCT04847141|184398613|SUPERIORITY||LS Mean Difference|-0.04||||0.0439|TWO_SIDED|95.0|-0.07|0.0||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 29||-0.00|-0.07|0.0439
92248018|NCT04847141|184398613|SUPERIORITY||LS Mean Difference|-0.01||||0.4128|TWO_SIDED|95.0|-0.05|0.02||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 29||0.02|-0.05|0.4128
92248019|NCT04847141|184398615|SUPERIORITY||LS Mean Difference|-0.01||||0.9713|TWO_SIDED|95.0|-0.28|0.27||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 7||0.27|-0.28|0.9713
92248020|NCT04847141|184398615|SUPERIORITY||LS Mean Difference|0.07||||0.5985|TWO_SIDED|95.0|-0.2|0.35||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 7||0.35|-0.20|0.5985
92248021|NCT04847141|184398615|SUPERIORITY||LS Mean Difference|0.01||||0.9209|TWO_SIDED|95.0|-0.25|0.28||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 14||0.28|-0.25|0.9209
92248022|NCT04847141|184398615|SUPERIORITY||LS Mean Difference|-0.01||||0.9181|TWO_SIDED|95.0|-0.28|0.25||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 14||0.25|-0.28|0.9181
92248023|NCT04847141|184398615|SUPERIORITY||LS Mean Difference|0.15||||0.2443|TWO_SIDED|95.0|-0.11|0.41||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 29||0.41|-0.11|0.2443
92248024|NCT04847141|184398615|SUPERIORITY||LS Mean Difference|0.13||||0.3233|TWO_SIDED|95.0|-0.13|0.39||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 29||0.39|-0.13|0.3233
92248025|NCT04847141|184398616|SUPERIORITY||Difference in Percentage|3.0||||0.4676|TWO_SIDED|95.0|-5.3|11.5||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required at least 1 COVID-19 related MAV between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|||11.5|-5.3|0.4676
92248026|NCT04847141|184398616|SUPERIORITY||Difference in Percentage|4.9||||0.2507|TWO_SIDED|95.0|-3.6|13.4||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required at least 1 COVID-19 related MAV between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|||13.4|-3.6|0.2507
92248027|NCT04847141|184398617|SUPERIORITY||Difference in Percentage|0.1||||0.9744|TWO_SIDED|95.0|-3.8|4.0||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required hospital admission between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|||4.0|-3.8|0.9744
92248028|NCT04847141|184398617|SUPERIORITY||Difference in Percentage|2.7||||0.1878|TWO_SIDED|95.0|-1.6|7.5||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required hospital admission between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|||7.5|-1.6|0.1878
92248029|NCT04847141|184398618|SUPERIORITY||LS Mean Difference|0.01||||0.9485|TWO_SIDED|95.0|-0.38|0.4|||ANCOVA||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using ANCOVA model, including length of hospital stay as dependent variable \& treatment group as fixed effect, adjusting for baseline.|||0.40|-0.38|0.9485
92248030|NCT04847141|184398618|SUPERIORITY||LS Mean Difference|0.14||||0.4734|TWO_SIDED|95.0|-0.25|0.54|||ANCOVA||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using ANCOVA model, including length of hospital stay as dependent variable \& treatment group as fixed effect, adjusting for baseline.|||0.54|-0.25|0.4734
92248031|NCT04847141|184398619|SUPERIORITY||Difference in Percentage|0.02||||0.9853|TWO_SIDED|95.0|-3.05|3.12||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required ICU admission between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|||3.12|-3.05|0.9853
92248032|NCT04847141|184398619|SUPERIORITY||Difference in Percentage|0.01||||0.989|TWO_SIDED|95.0|-2.99|3.07||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required ICU admission between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|||3.07|-2.99|0.9890
92248033|NCT04847141|184398620|SUPERIORITY||LS Mean Difference|0.03||||0.578|TWO_SIDED|95.0|-0.07|0.12|||ANCOVA||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using ANCOVA model, including length of hospital stay as dependent variable \& treatment group as fixed effect, adjusting for baseline.|||0.12|-0.07|0.5780
92248034|NCT04847141|184398620|SUPERIORITY||LS Mean Difference|0.01||||0.9065|TWO_SIDED|95.0|-0.09|0.1|||ANCOVA||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using ANCOVA model, including length of hospital stay as dependent variable \& treatment group as fixed effect, adjusting for baseline.|||0.10|-0.09|0.9065
92175652|NCT05698875|184243689|OTHER||Mean Difference (Final Values)|-0.5||||0.29|TWO_SIDED|95.0|-1.4|0.4||a priori threshold for statistical significance - P\<0.05|Linear Mixed Model|||HGLP vs MGL meals||0.4|-1.4|0.29
92248035|NCT04847141|184398624|SUPERIORITY||Difference in Percentage|0.02||||0.9853|TWO_SIDED|95.0|-3.05|3.12||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants with critical COVID-19 illness between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|||3.12|-3.05|0.9853
92248036|NCT04847141|184398624|SUPERIORITY||Difference in Percentage|0.01||||0.989|TWO_SIDED|95.0|-2.99|3.07||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants with critical COVID-19 illness between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|||3.07|-2.99|0.9890
92248037|NCT01357980|184398641|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-1.54||||0.11|TWO_SIDED|95.0|-3.47|0.39||No multiplicity adjustment applied: each test conducted at a 5% significance level.|ANCOVA|||Comparison of the average Daily IEF change from baseline to DAY 84 using ANCOVA with the baseline average daily IEF value as covariate.||0.39|-3.47|0.11
92248038|NCT01357980|184398641|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-0.61||||0.07|TWO_SIDED|95.0|-1.27|0.05||No multiplicity adjustment applied: each test conducted at a 5% significance level.|ANCOVA|||Comparison of the average Daily IEF change from baseline to DAY 84 using ANCOVA with the baseline average daily IEF value as covariate.||0.05|-1.27|0.07
92248039|NCT01357980|184398642|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|219.5|||<|0.01|TWO_SIDED|95.0|69.6|369.5|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 14 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||369.5|69.6|<0.01
92248040|NCT01357980|184398642|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|224.1|||<|0.01|TWO_SIDED|95.0|140.9|307.4|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 14 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||307.4|140.9|<0.01
92283069|NCT00262964|184470022|SUPERIORITY_OR_OTHER||||||<|0.002||95.0|||||t-test, 2 sided|||null hypothesis was that there would be no difference in adipose tissue insulin sensitivity due to IHTG levels.||||<0.002
92175653|NCT05698875|184243690|OTHER||Mean Difference (Final Values)|1.9|||<|0.01|TWO_SIDED|95.0|0.8|3.0||The a priori threshold for statistical significance p\<0.05 Adjusted p value with Bonferroni correction|Linear Mixed Model|||HGL meals vs control meals||3.0|0.8|<0.01
92248041|NCT01357980|184398642|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|117.0||||0.09||95.0|-20.0|254.0|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 42 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||254.0|-20.0|0.09
92248042|NCT01357980|184398642|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|223.7|||<|0.01|TWO_SIDED|95.0|94.3|353.1|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 42 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||353.1|94.3|<0.01
92248043|NCT01357980|184398642|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|138.5||||0.01|TWO_SIDED|95.0|34.7|242.2|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 84 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||242.2|34.7|0.01
92248044|NCT01357980|184398642|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|186.3|||<|0.01|TWO_SIDED|95.0|53.2|319.4|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 84 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||319.4|53.2|<0.01
92283070|NCT00262964|184470023|SUPERIORITY_OR_OTHER|||||||0.301||95.0||||A P-value \< 0.05 was considered statistically significant.|t-test, 2 sided|Treatment effects determined by repeated-measures ANOVA. When significant interactions between time and group were found, a Student's t-test was used.||Student's t-test for paired samples was used to evaluate any difference between the two groups. The null hypothesis was that the IHTG percentage would be the same before and after treatment for subjects receiving fenofibrate.||||.301
92248045|NCT01357980|184398643|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-23.8||||0.25|TWO_SIDED|95.0|-66.6|18.9|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 14 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||18.9|-66.6|0.25
92248046|NCT01357980|184398643|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-67.1|||<|0.01|TWO_SIDED|95.0|-112.9|-21.2|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 14 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||-21.2|-112.9|<0.01
92248047|NCT01357980|184398643|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-35.1||||0.03|TWO_SIDED|95.0|-65.6|-4.6|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 42 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||-4.6|-65.6|0.03
92248048|NCT01357980|184398643|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-51.0||||0.01|TWO_SIDED|95.0|-89.5|-12.4|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 42 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||-12.4|-89.5|0.01
92248049|NCT01357980|184398643|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-32.3|||<|0.01|TWO_SIDED|95.0|-53.7|-11.0|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 84 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||-11.0|-53.7|<0.01
92248050|NCT01357980|184398643|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-45.3|||<|0.01|TWO_SIDED|95.0|-76.6|-14.1|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 84 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||-14.1|-76.6|<0.01
92175654|NCT05698875|184243690|OTHER||Mean Difference (Final Values)|-0.3||||0.59|TWO_SIDED|95.0|-1.4|0.8||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||0.8|-1.4|0.59
92248051|NCT01357980|184398644|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|1.7||||0.05||95.0|||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 14 using a two sided Satterthwaite-Welch's t-test for independent samples.||||0.05
92248052|NCT01357980|184398644|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|2.3|||<|0.01|||||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 14 using a two sided Satterthwaite-Welch's t-test for independent samples.||||<0.01
92248053|NCT01357980|184398645|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|2.3||||0.01|||||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 42 using a two sided Satterthwaite-Welch's t-test for independent samples.||||0.01
92248054|NCT01357980|184398645|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|1.8|||<|0.01|||||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 42 using a two sided Satterthwaite-Welch's t-test for independent samples.||||<0.01
92248055|NCT01357980|184398646|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|1.9||||0.05|||||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 84 using a two sided Satterthwaite-Welch's t-test for independent samples.||||0.05
92248056|NCT01357980|184398646|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|2.1|||<|0.01|||||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 84 using a two sided Satterthwaite-Welch's t-test for independent samples.||||<0.01
92248057|NCT01357980|184398647|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-1.13|||<|0.01|TWO_SIDED|95.0|-1.91|-0.35|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 14 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||-0.35|-1.91|<0.01
92248058|NCT01357980|184398647|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-0.18||||0.7|TWO_SIDED|95.0|-1.26|0.9|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 14 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||0.90|-1.26|0.7
92175655|NCT05698875|184243690|OTHER||Mean Difference (Final Values)|-0.1||||0.86|TWO_SIDED|95.0|-1.2|1.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||MGL meals vs control meals||1.0|-1.2|0.86
92248059|NCT01357980|184398647|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-0.52||||0.3|TWO_SIDED|95.0|-1.56|0.52|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 42 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||0.52|-1.56|0.3
92175656|NCT05698875|184243690|OTHER||Mean Difference (Final Values)|2.3|||<|0.001|TWO_SIDED|95.0|1.2|3.3||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni did not alter p value|Linear Mixed Model|||HGL vs HGLP meals||3.3|1.2|<0.001
92175657|NCT05698875|184243690|OTHER||Mean Difference (Final Values)|2.1|||<|0.001|TWO_SIDED|95.0|1.1|3.1||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni correction did not alter p value|Linear Mixed Model|||HGL vs MGL meals||3.1|1.1|<0.001
92175658|NCT05698875|184243690|OTHER||Mean Difference (Final Values)|-0.1||||0.79|TWO_SIDED|95.0|-1.2|0.9||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP vs MGL meals||0.9|-1.2|0.79
92175659|NCT05698875|184243691|OTHER||Mean Difference (Final Values)|-8.5||||0.31|TWO_SIDED|95.0|-25.0|8.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGL meals vs control meals||8|-25|0.31
92248060|NCT01357980|184398647|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-0.48||||0.3|TWO_SIDED|95.0|-1.47|0.52|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 42 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||0.52|-1.47|0.3
92248061|NCT01357980|184398647|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-1.38|||<|0.01|TWO_SIDED|95.0|-2.02|-0.73|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 84 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||-0.73|-2.02|<0.01
92248062|NCT01357980|184398647|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-0.4||||0.4|TWO_SIDED|95.0|-1.35|0.55|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 84 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||0.55|-1.35|0.4
92175660|NCT05698875|184243691|OTHER||Mean Difference (Final Values)|-24.4||||0.03|TWO_SIDED|95.0|-41.0|-8.0||A priori threshold for statistical significance is p\<0.05 P adjusted using Bonferroni correction|Linear Mixed Model|||HGLP meals vs control meals||-8|-41|0.03
92248063|NCT04507776|184398651|OTHER|||||||0.75|||||||t-test, 2 sided|||Year 1 Adherence: Baseline||||0.75
92248064|NCT04507776|184398651|OTHER||||||<|0.05|||||||t-test, 2 sided|||Year 1 Adherence: Year 1 (Month 12)||||<0.05
92248065|NCT04507776|184398651|OTHER||||||<|0.05|||||||t-test, 2 sided|||Year 7 Adherence: Baseline||||<0.05
92248066|NCT04507776|184398651|OTHER|||||||0.43|||||||t-test, 2 sided|||Year 7 Adherence: Year 7||||0.43
92248067|NCT04507776|184398652|OTHER|||||||0.0001|||||||t-test, 2 sided|||Year 1 Adherence: Change at Year 1 (Month 12)||||0.0001
92248068|NCT04507776|184398652|OTHER|||||||0.247|||||||t-test, 2 sided|||Year 7 Adherence: Change at Year 7||||0.247
92248069|NCT04507776|184398653|OTHER|||||||0.21|||||||t-test, 2 sided|||Year 1 Adherence: Baseline||||0.21
92248070|NCT04507776|184398653|OTHER||||||<|0.05|||||||t-test, 2 sided|||Year 1 Adherence: Year 1 (Month 12)||||<0.05
92248071|NCT04507776|184398653|OTHER|||||||0.62|||||||t-test, 2 sided|||Year 7 Adherence: Baseline||||0.62
92248072|NCT04507776|184398653|OTHER|||||||0.18|||||||t-test, 2 sided|||Year 7 Adherence: Year 7||||0.18
92248073|NCT04507776|184398654|OTHER|||||||0.0001|||||||t-test, 2 sided|||Year 1 Adherence: Change at Year 1 (Month 12)||||0.0001
92248074|NCT04507776|184398654|OTHER|||||||0.003|||||||t-test, 2 sided|||Year 7 Adherence: Change at Year 7||||0.003
92248075|NCT03532776|184398704|EQUIVALENCE|BE limits: -20.0% to 20.0%|Equivalence ratio|0.98|||||TWO_SIDED|90.0|-12.0|7.0||||||||7|-12|
92248076|NCT00868166|184398707|SUPERIORITY|||||||0.71|||||||Stratified Log-Rank Test|||||||0.71
92248077|NCT00868166|184398708|SUPERIORITY|||||||0.83|||||||Stratified Log-Rank Test|||||||0.83
92248078|NCT00868166|184398708|SUPERIORITY|||||||0.73|||||||Non-stratified Log-Rank Test|||||||0.73
92248079|NCT00868166|184398710|SUPERIORITY|||||||0.21|||||||Stratified Log-Rank Test|||||||0.21
92248080|NCT00868166|184398710|SUPERIORITY|||||||0.2|||||||Non-stratified Log-Rank Test|||||||0.20
92248081|NCT00868166|184398712|SUPERIORITY|||||||0.56|||||||Stratified Log-Rank Test|||||||0.56
92264973|NCT00643851|184431435|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.3388||0.8769|TWO_SIDED|95.0|-0.72|0.61||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||0.61|-0.72|0.8769
92264974|NCT00643851|184431435|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|0.3399|<|0.0001|TWO_SIDED|95.0|-2.04|-0.71||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-0.71|-2.04|<0.0001
92264975|NCT00643851|184431436|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.4191|||TWO_SIDED|95.0|-0.98|0.66||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||0.66|-0.98|
92248082|NCT01797445|184398719|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|3.1||||0.13|TWO_SIDED|95.002|-1.0|7.1|||Cochran-Mantel-Haenszel|P-value was from the Cochran-Mantel-Haenszel (CMH) test stratified by baseline HIV-1 RNA (≤ 100,000 or \> 100,000 copies/mL) and region (US vs ex-US).|The difference in percentages and its 95.002% confidence interval (CI) were calculated based on the Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA and region stratum.|Null hypothesis: the E/C/F/TAF group was ≥ 12% worse than the E/C/F/TDF group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL at Week 48; alternative hypothesis: the E/C/F/TAF group was \< 12% worse than the E/C/F/TDF group.||7.1|-1.0|0.13
92248083|NCT00168064|184398736|NON_INFERIORITY_OR_EQUIVALENCE|The PG formulation was determined to be non-inferior to the AP formulation if the lower limit of the 95% confidence interval around the ratio of the response rates (PG/AP) was \> = 0.75.|ratio of proportions|1.226|||||TWO_SIDED|95.0|0.974|1.552|||ANCOVA||ratio is response rate of PG formulation divided by response rate of AP formulation|||1.552|0.974|
92175661|NCT05698875|184243691|OTHER||Mean Difference (Final Values)|12.7||||0.14|TWO_SIDED|95.0|-4.1|29.5||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||MGL meals vs control meals||29.5|-4.1|0.14
92248084|NCT03483116|184398744|NON_INFERIORITY|Non-inferiority of the lower titre vaccine was demonstrated if the upper bound of the CI was below 20%.|Response rate|0.1553|||||TWO_SIDED|95.0|0.039|0.272||||||||0.272|0.039|
92248085|NCT03483116|184398744|NON_INFERIORITY|Non-inferiority of the lower titre vaccine was demonstrated if the upper bound of the CI was below 20%|Response rate|0.001|||||TWO_SIDED|95.0|-0.115|0.117||||||||0.117|-0.115|
92175662|NCT05698875|184243691|OTHER||Mean Difference (Final Values)|17.0||||0.34|TWO_SIDED|95.0|3.1|31.7||A priori threshold P \<0.05 P value adjusted with Bonferroni correction|Linear Mixed Model|||HGL vs HGLP meals||31.7|3.1|0.34
92248086|NCT03483116|184398744|NON_INFERIORITY|Non-inferiority of the lower titre vaccine was demonstrated if the upper bound of the CI was below 20%|Difference Response rate|0.1543|||||TWO_SIDED|95.0|0.038|0.27||||||Non-inferiority of the lower titre vaccine was demonstrated if the upper bound of the CI was below 20%||0.270|0.038|
92248087|NCT01181102|184398754|NON_INFERIORITY_OR_EQUIVALENCE|"(non-inferiority) When analyzed using the Z test at a one-sided 0.025 significance level, with the addition of a non-inferiority margin of 5% to the incidence in the enoxaparin group.~(superiority) The incidence of thromboembolic events for the FAS was compared using the χ2 test (two-sided significance level: 0.05)"|Cox Proportional Hazard|-6.5|||<|0.001|TWO_SIDED|95.0|-11.5|-1.6||non-inferiority:P \< 0.001 superiority:P = 0.010|non-inferiority:Z test. superiority:χ2 t|||The incidence proportion of thromboembolic events in the DU-176b group (P˅DU) = The incidence proportion of thromboembolic events in the enoxaparin group (P˅E) + Δ (5%). Alternative hypothesis H˅11: P˅DU \< P˅E + Δ (level of significance, 0.025; one-sided). If the null hypothesis H˅01 was rejected, the following analysis had to be sequentially performed using the χ2 test statistic. Null hypothesis H˅02: P˅DU = P˅E Alternative hypothesis H˅12: P˅DU ≠ P˅E (level of significance, 0.05; two-sided).||-1.6|-11.5|<0.001
92248088|NCT01181102|184398755|SUPERIORITY_OR_OTHER||χ2 test|2.5|||||TWO_SIDED|95.0|-0.8|5.9||||||||5.9|-0.8|
92248089|NCT01315002|184398756|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||Null hypothesis is that there was no difference in change of error percentage in the antisaccade task between nicotine and placebo. An ANOVA model was used with treatment (nicotine, placebo) as a within-subjects factor. The test was performed with a significance level of 0.05 (two-sided). Results showed significantly better antisaccade performance (i.e. less antisaccade errors) in the nicotine condition.||||<0.05
92248090|NCT00239837|184398766|SUPERIORITY_OR_OTHER_LEGACY||Wald χ2|7.14||||0.008|TWO_SIDED||||||Regression, Logistic|Data analyzed using repeated logistic regression model (generalized estimating equations). Domain X EV Level X Group interaction tested.|We began the analyses with a full-factorial model regressing choice on domain (gain=1, loss=0), the EV of the risky choice relative to the safe option (EV; range = -.38 to +.38), and dummy-coded treatment groups (Control= -1, Intervention =1).|||||.008
92248091|NCT02802878|184398780|SUPERIORITY|||||||0.67||||||Adjusted for two observations per subject.|Regression, Linear|Side treated as a repeated factor||||||.67
92248092|NCT03970395|184398790|SUPERIORITY||Risk Ratio (RR)|7.66||||0.01|TWO_SIDED|95.0|2.46|23.84||The threshold for statistical significance was p\<0.5|Risk Ratio (RR)||Risk Difference 0.41 (IC 95; 0.25-0.53)|||23.84|2.46|0.01
92248093|NCT03970395|184398791|SUPERIORITY||Risk Ratio (RR)|5.6||||0.01|TWO_SIDED|95.0|2.36|13.27|||Relative Risk (RR)||Risk Difference 0.47 (IC 95; 0.31-0.64)|||13.27|2.36|0.01
92248094|NCT03970395|184398792|SUPERIORITY||Risk Ratio (RR)|7.49||||0.01|TWO_SIDED|95.0|2.42|23.18|||Risk Ratio (RR)||Risk Difference 0.44 (IC 95%; 0.27-0.60)|||23.18|2.42|0.01
92248095|NCT03970395|184398793|SUPERIORITY||Risk Ratio (RR)|4.91||||0.01|TWO_SIDED|95.0|2.12|11.38|||Risk Ratio (RR)||Risk Difference 0.54 (IC 95; 0.36-0.72)|||11.38|2.12|0.01
92248096|NCT00929734|184398819|SUPERIORITY_OR_OTHER|||||||0.292|TWO_SIDED||||||ANCOVA|||||||0.292
92175663|NCT05698875|184243691|OTHER||Mean Difference (Final Values)|-19.0||||0.07|TWO_SIDED|95.0|-33.3|-4.7||A priori threshold for statistical significance is p\<0.05 Adjusted P value with Bonferroni correction|Linear Mixed Model|||HGL vs MGL meals||-4.7|-33.3|0.07
92248097|NCT00929734|184398820|SUPERIORITY_OR_OTHER|||||||0.462|TWO_SIDED||||||ANCOVA|||||||0.462
92248098|NCT00929734|184398821|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||ANCOVA with natural logarithm of hs-CRP (ln hs-CRP)|ANCOVA|||||||0.017
92248099|NCT00929734|184398822|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED|||||ANCOVA with natural logarithm of interleukin 6 (ln IL6)|ANCOVA|||||||0.028
92248100|NCT00980980|184398823|SUPERIORITY_OR_OTHER|||||||0.01|||||||Proportional-hazards models|Proportional-hazards models with shared frailties accounted for clustering within hospitals.||||||0.01
92248101|NCT01906866|184398855|SUPERIORITY||Mean Difference (Final Values)|32.32|STANDARD_ERROR_OF_MEAN|15.1|=|0.035|TWO_SIDED|95.0|2.38|62.26|||Mixed Models Analysis|||||62.26|2.38|=0.035
92248102|NCT01906866|184398856|SUPERIORITY||Mean Difference (Final Values)|-25.2|STANDARD_ERROR_OF_MEAN|9.787|=|0.011|TWO_SIDED|95.0|-44.61|-5.8|||Mixed Models Analysis|||||-5.8|-44.61|=0.011
92248103|NCT01906866|184398859|SUPERIORITY|||||||0.053|||||||MMRM|||Mixed Models for Repeated Measures (MMRM) analysis||||0.053
92248104|NCT01906866|184398859|SUPERIORITY|||||||0.039|||||||MI analysis|||||||0.039
92248105|NCT01906866|184398861|SUPERIORITY|||||||0.077|||||||MMRM|||||||0.077
92248106|NCT01906866|184398862|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
92248107|NCT00094887|184398905|OTHER||||||=|0.8085|||||||Wilcoxon (Mann-Whitney)|||||||= 0.8085
92248108|NCT04093258|184398918|NON_INFERIORITY|Non-inferiority will be concluded if the lower limit is above 0.67. Superiority will be concluded if the lower limit is above 1.0.|Odds Ratio (OR)|1.51|||||TWO_SIDED|95.0|0.33|6.85|||Generalized Linear Mixed Model Analysis|Finite-sample corrected Akaike's Information Criterion|Odds ratio was calculated as Test/Control|"The proportion of response (1) was analyzed using a generalized linear mixed model with a binary distribution and logit link function for all questions."||6.85|0.33|
92248109|NCT04093258|184398919|NON_INFERIORITY|Non-inferiority will be concluded if the lower limit is above 0.67. Superiority will be concluded if the lower limit is above 1.0.|Odds Ratio (OR)|0.34|||||TWO_SIDED|95.0|0.1|1.19|||Generalized Linear Mixed Model Analysis|Finite-sample corrected Akaike's Information Criterion|Odds ratio was calculated as Test over Control|"The proportion of response (1) was analyzed using a generalized linear mixed model with a binary distribution and logit link function for all questions."||1.19|0.10|
92248110|NCT04093258|184398920|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least square mean difference|-5.98|STANDARD_ERROR_OF_MEAN|3.202|||TWO_SIDED|95.0|-12.48|0.52|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test minus Control|||0.52|-12.48|
92248111|NCT01529385|184398922|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
92248112|NCT01529385|184398923|SUPERIORITY_OR_OTHER||||||<|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||<0.05
92248113|NCT01529385|184398924|SUPERIORITY_OR_OTHER||||||<|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||<.05
92248114|NCT01529385|184398925|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
92248115|NCT01529385|184398926|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
92248116|NCT01529385|184398927|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
92248117|NCT01529385|184398929|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
92248118|NCT01529385|184398930|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
92248119|NCT01529385|184398931|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
92248120|NCT00643604|184398963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69||0.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.69
92248121|NCT00643604|184398964|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
92283071|NCT00262964|184470023|SUPERIORITY_OR_OTHER|||||||0.315||95.0||||A P-value \< 0.05 was considered statistically significant.|t-test, 2 sided|Treatment effects determined by repeated-measures ANOVA. When significant interactions between time and group were found, a Student's t-test was used.||A Student's t-test for paired samples was used to evaluate the effect of treatment. The null hypothesis was that the IHTG percentage for the NAFLD-niacin group at baseline and post-treatment would not change.||||.315
92248122|NCT00643604|184398965|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.13
92175664|NCT05698875|184243691|OTHER||Mean Difference (Final Values)|-36.4|||<|0.001|TWO_SIDED|95.0|-51.0|-21.8||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni did not alter p value|Linear Mixed Model|||HGLP vs MGL meals||-21.8|-51.0|<0.001
92248123|NCT00643604|184398966|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0||||p value for Symptom Score|Wilcoxon signed rank test|||Changes in mean CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.03
92248124|NCT00643604|184398966|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0||||p value for Activity Score.|Wilcoxon signed rank test|||Activity Score N=5; Baseline component score could not be calculated for one subject. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
92248125|NCT00643604|184398966|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||95.0|||||Wilcoxon signed-rank test|||Quality of Life Score. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.31
92248126|NCT00643604|184398966|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13||95.0|||||Wilcoxon signed-rank test|||"Total Score N=5; Baseline Activity component score could not be calculated for one subject. Total Score could not be calculated for this subject.~Wilcoxon signed rank test was used to compare the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values."||||0.13
92248127|NCT00643604|184398967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||95.0|||||Wilcoxon signed-rank test|||Effectiveness Score Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.19
92248128|NCT00643604|184398967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||95.0|||||Wilcoxon signed-rank test|||Side-Effects Score. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.19
92248129|NCT00643604|184398967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||Wilcoxon signed-rank test|||Convenience Score. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.03
92283072|NCT00262964|184470024|SUPERIORITY_OR_OTHER|||||||0.708||95.0||||A P-value \< 0.05 was considered statistically significant.|t-test, 2 sided|||a Student's t-test for paired samples was used to evaluate the effect of treatment. Null hypothesis was that VLDL-apoB would be the same before and after 16 weeks on niacin in subjects with NAFLD.||||0.708
92248130|NCT00643604|184398967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88||95.0|||||Wilcoxon signed-rank test|||Global Satisfaction Score. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.88
92283073|NCT00262964|184470024|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||A P-value \< 0.05 was considered statistically significant.|t-test, 2 sided|||A Student's t-test for paired samples was used to evaluate the effect of treatment. Null hypothesis was that VLDL-apoB would be the same before and after 8 weeks on fenofibrate in subjects with NAFLD.||||.022
92283074|NCT00262964|184470025|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||the null hypothesis was that fenofibrate would not change the VLDL-Tg clearance rate||||.020
92175665|NCT05698875|184243692|OTHER||Mean Difference (Final Values)|151.0||||0.25|TWO_SIDED|95.0|7.0|294.0||A priori threshold for statistical significance is p\<0.05 Adjusted p value with Bonferroni correction|Linear Mixed Model|||HGL meals vs control meals||294|7|0.25
92248131|NCT00643604|184398968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25||95.0|||||Wilcoxon signed-rank test|||Gather/Set-up. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.25
92283075|NCT00262964|184470025|SUPERIORITY_OR_OTHER|||||||0.358||95.0||||a priori threshold for significance was \<0.05.|t-test, 2 sided|||the null hypothesis was that niacin would not change the VLDL-Tg clearance rate||||.358
92283076|NCT00262964|184470026|SUPERIORITY_OR_OTHER|||||||0.758||95.0||||a priori threshold for statistical significance was set at \<0.05.|t-test, 2 sided|||Null hypothesis is that fenofibrate would not effect VLDL-Tg production rates.||||0.758
92283077|NCT00262964|184470026|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||the a priori threshold for statistical significance was set at \<0.05.|t-test, 2 sided|||Null hypothesis is that niacin would not effect VLDL-Tg production rates.||||.023
92248132|NCT00643604|184398968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06||95.0|||||Wilcoxon signed-rank test|||Prepare Drug. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.06
92248133|NCT00643604|184398968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63||95.0|||||Wilcoxon signed-rank test|||Connect Drug. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.63
92248134|NCT00643604|184398968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88||95.0|||||Wilcoxon signed-rank test|||Change Dressing. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.88
92248135|NCT00643604|184398968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13||95.0|||||Wilcoxon signed-rank test|||Total Time. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.13
92248136|NCT00643604|184398969|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.5
92248137|NCT00643604|184398970|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25||95.0|||||Wilcoxon sign-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.25
92248138|NCT00643604|184398971|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
92248139|NCT00643604|184398972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.50
92248140|NCT00643604|184398973|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
92248141|NCT00643604|184398974|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
92248142|NCT00643604|184398975|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
92248143|NCT02702011|184398981|SUPERIORITY_OR_OTHER||Mean Difference (Net)|65.1|STANDARD_ERROR_OF_MEAN|10.81|<|0.0001|TWO_SIDED|95.0|43.29|86.9|||ANCOVA||Mean Difference was calculated as: (mean change from baseline in 24 hour UGE at Day 7 in Empagliflozin 2.5 mg group) - (mean change from baseline in 24 hour UGE at Day 7 in Placebo group)|An analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline as a linear covariate was fitted to the change from baseline of 24 hour UGE (g/24h) on Day 7, where baseline refers to the last observation prior to the first intake of any randomised trial medication.||86.90|43.29|<0.0001
92248144|NCT02702011|184398981|SUPERIORITY_OR_OTHER||Mean Difference (Net)|81.19|STANDARD_ERROR_OF_MEAN|11.1|<|0.0001|TWO_SIDED|95.0|58.8|103.58|||ANCOVA||Mean Difference was calculated as: (mean change from baseline in 24 hour UGE at Day 7 in Empagliflozin 10 mg group) - (mean change from baseline in 24 hour UGE at Day 7 in Placebo group)|An analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline as a linear covariate was fitted to the change from baseline of 24 hour UGE (g/24h) on Day 7, where baseline refers to the last observation prior to the first intake of any randomised trial medication.||103.58|58.80|<0.0001
92248145|NCT02702011|184398981|SUPERIORITY_OR_OTHER||Mean Difference (Net)|98.11|STANDARD_ERROR_OF_MEAN|11.01|<|0.0001|TWO_SIDED|95.0|75.91|120.31|||ANCOVA||Mean Difference was calculated as: (mean change from baseline in 24 hour UGE at Day 7 in Empagliflozin 25 mg group) - (mean change from baseline in 24 hour UGE at Day 7 in Placebo group)|An analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline as a linear covariate was fitted to the change from baseline of 24 hour UGE (g/24h) on Day 7, where baseline refers to the last observation prior to the first intake of any randomised trial medication.||120.31|75.91|<0.0001
92248146|NCT01709981|184399002|EQUIVALENCE|Mann-Whitney||||||0.31|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.31
92264976|NCT00643851|184431436|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.57|STANDARD_ERROR_OF_MEAN|0.4201|||TWO_SIDED|95.0|-2.4|-0.74||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-0.74|-2.40|
92264977|NCT03289676|184431437|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||0.29
92264978|NCT03289676|184431439|OTHER||Odds Ratio, log|1.12||||0.029|TWO_SIDED|95.0|1.0|1.24|||Regression, Logistic|||||1.24|1.00|0.029
92175666|NCT05698875|184243692|OTHER||Mean Difference (Final Values)|-109.0||||0.15|TWO_SIDED|95.0|-256.0|38.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||38|-256|0.15
92248147|NCT04390568|184399007|OTHER|The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and the area under the concentration-time curve of Spesolimap in plasma over the time interval from 0 extrapolated to infinity (AUC0-∞) of the intravenous dose groups.|Slope|1.123|STANDARD_ERROR_OF_MEAN|0.085|||TWO_SIDED|90.0|0.979|1.268|||||Based on the estimate for slope parameter (β), a 2-sided 90% confidence interval (CI) for the slope was computed. Standard error of the mean is actually standard error of slope.|No statistical hypotheses tests were planned for this trial.||1.268|0.979|
92248148|NCT04390568|184399008|OTHER|The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and the maximum measured concentration of the Spesolimap in plasma (Cmax) of the intravenous dose groups.|Slope|1.072|STANDARD_ERROR_OF_MEAN|0.065|||TWO_SIDED|90.0|0.961|1.183|||||Based on the estimate for slope parameter (β), a 2-sided 90% confidence interval (CI) for the slope was computed. Standard error of the mean is actually standard error of slope.|No statistical hypotheses tests were planned for this trial.||1.183|0.961|
92248149|NCT05263921|184399065|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|107.35|||||TWO_SIDED|90.0|99.66|115.64||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||115.64|99.66|
92248150|NCT05263921|184399065|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|120.73|||||TWO_SIDED|90.0|112.09|130.03||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||130.03|112.09|
92248151|NCT05263921|184399065|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|125.04|||||TWO_SIDED|90.0|116.08|134.69||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||134.69|116.08|
92248152|NCT05263921|184399066|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|108.8|||||TWO_SIDED|90.0|101.06|117.14||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||117.14|101.06|
92248153|NCT05263921|184399066|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|120.95|||||TWO_SIDED|90.0|112.36|130.2||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||130.20|112.36|
92248154|NCT05263921|184399066|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|127.39|||||TWO_SIDED|90.0|118.32|137.15||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||137.15|118.32|
92248155|NCT05263921|184399067|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|115.1|||||TWO_SIDED|90.0|104.03|127.34||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||127.34|104.03|
92248156|NCT05263921|184399067|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|145.6|||||TWO_SIDED|90.0|131.68|160.99||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||160.99|131.68|
92248157|NCT05263921|184399067|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|161.48|||||TWO_SIDED|90.0|145.95|178.66||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||178.66|145.95|
92248158|NCT05263921|184399068|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|110.85|||||TWO_SIDED|90.0|95.38|128.82||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||128.82|95.38|
92248159|NCT05263921|184399068|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|106.55|||||TWO_SIDED|90.0|91.76|123.73||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||123.73|91.76|
92248160|NCT05263921|184399068|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|107.74|||||TWO_SIDED|90.0|92.7|125.21||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||125.21|92.70|
92248161|NCT05263921|184399069|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|110.19|||||TWO_SIDED|90.0|94.51|128.47||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||128.47|94.51|
92248162|NCT05263921|184399069|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|107.17|||||TWO_SIDED|90.0|92.0|124.86||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||124.86|92.00|
92248163|NCT05263921|184399069|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|107.83|||||TWO_SIDED|90.0|92.48|125.72||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||125.72|92.48|
92248164|NCT05263921|184399070|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|108.72|||||TWO_SIDED|90.0|89.32|132.32||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||132.32|89.32|
92248165|NCT05263921|184399070|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|109.44|||||TWO_SIDED|90.0|90.05|133.0||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||133.00|90.05|
92248166|NCT05263921|184399070|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|117.3|||||TWO_SIDED|90.0|96.37|142.77||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||142.77|96.37|
92248167|NCT00640146|184399105|OTHER|||||||0.0213|||||||Fisher Exact|||Analysis was performed using Fisher exact test comparing the percentage of participants with a laxation response within 2 hours of the first dose of study drug, testing MNTX against placebo.||||0.0213
92248168|NCT00640146|184399106|OTHER|||||||0.0463|||||||Fisher Exact|||Analysis was performed using Fisher exact test comparing the percentage of participants with a laxation response within 4 hours of the first dose of study drug, testing MNTX against placebo.||||0.0463
92248169|NCT02119026|184399118|SUPERIORITY|||||||0.967|||||||Mantel Haenszel|||||||0.967
92248170|NCT02119026|184399119|SUPERIORITY|||||||0.474|||||||Mantel Haenszel|||||||0.474
92248171|NCT02119026|184399120|SUPERIORITY|||||||0.464|||||||Mantel Haenszel|||||||0.464
92248172|NCT02119026|184399121|SUPERIORITY|||||||0.854|||||||Fisher Exact|||||||0.854
92248173|NCT02119026|184399122|SUPERIORITY|||||||0.728|||||||Mantel Haenszel|||||||0.728
92248174|NCT02119026|184399123|SUPERIORITY|||||||0.668|||||||Mantel Haenszel|||||||0.668
92248175|NCT02119026|184399124|SUPERIORITY|||||||0.618|||||||Mantel Haenszel|||||||0.618
92248176|NCT02119026|184399125|SUPERIORITY|||||||0.792||||||The rate of overall response was measured as the response rate from randomization until the day of documented complete response (CR) or partial response (PR) (whichever status is recorded first). Analysis corresponds to numbers of CR and PR.|Wilcoxon (Mann-Whitney)|||||||0.792
92248177|NCT02119026|184399126|SUPERIORITY|||||||0.371||||||The rate of overall response was measured as the response rate from randomization until the day of documented complete response (CR) or partial response (PR) (whichever status is recorded first). Analysis corresponds to numbers of CR and PR.|Wilcoxon (Mann-Whitney)|||||||0.371
92248178|NCT03783442|184399168|SUPERIORITY||Stratified Hazard Ratio|0.66|||<|0.0001|TWO_SIDED|95.0|0.54|0.8|||Stratified Log-rank Test|One-sided p-value estimated from log rank test stratified by pooled geographic region, prior definitive therapy and Investigator chemotherapy choice|Stratified Hazard ratio was based on Cox regression model including treatment arm as a covariate and stratified by pooled geographic region (Asia vs. Rest of World), prior definitive therapy and Investigator choice of chemotherapy as strata.|||0.80|0.54|<0.0001
92248179|NCT03783442|184399169|SUPERIORITY||Stratified Hazard Ratio|0.62|||<|0.0001|TWO_SIDED|95.0|0.52|0.75|||Stratified Log-rank test|One-sided p-value estimated from log rank test stratified by pooled geographic region, prior definitive therapy and Investigator chemotherapy choice.|Stratified Hazard ratio was based on Cox regression model including treatment arm as a covariate and stratified by pooled geographic region (Asia vs. Rest of World), prior definitive therapy and Investigator choice of chemotherapy as strata.|||0.75|0.52|<0.0001
92248180|NCT03783442|184399170|SUPERIORITY||Odds Ratio (OR)|2.38|||<|0.0001|TWO_SIDED|95.0|1.73|3.27|||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test was stratified by pooled geographic region, prior definitive therapy, and Investigator choice of chemotherapy.|Odds ratio was calculated using the Cochran-Mantel-Haenszel method, stratified by pooled geographic region, prior definitive therapy, and Investigator choice of chemotherapy.|||3.27|1.73|<0.0001
92248181|NCT03783442|184399171|SUPERIORITY||Stratified Hazard Ratio|0.62||||0.0029|TWO_SIDED|95.0|0.44|0.87|||Stratified Log-rank test|One-sided p-value estimated from log rank test stratified by pooled geographic region, prior definitive therapy and Investigator chemotherapy choice.|Stratified Hazard ratio was based on Cox regression model including treatment arm as a covariate and stratified by pooled geographic region (Asia vs. Rest of World), prior definitive therapy and Investigator choice of chemotherapy as strata.|||0.87|0.44|0.0029
92248182|NCT03783442|184399173|SUPERIORITY||Least Squares (LS) Mean Difference|4.4||||0.1372|TWO_SIDED|95.0|-1.4|10.3|||Mixed Models Analysis|Two-sided p-value estimated from a mixed effect model|Based on a mixed effect model analysis with QLQ-OES18 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in EORTC QLQ-OES18 Dysphagia Score at Cycle 6||10.3|-1.4|0.1372
92248183|NCT03783442|184399173|SUPERIORITY||LS Mean Difference|0.6||||0.713|TWO_SIDED|95.0|-2.5|3.7|||Mixed Models Analysis|Two-sided p-value estimated from a mixed effect model|Based on a mixed effect model analysis with QLQ-OES18 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in EORTC QLQ-OES18 Eating Score at Cycle 6||3.7|-2.5|0.7130
92248184|NCT03783442|184399173|SUPERIORITY||LS Mean Difference|-1.4||||0.3001|TWO_SIDED|95.0|-4.1|1.3|||Mixed Models Analysis|Two-sided p-value estimated from a mixed effect model|Based on a mixed effect model analysis with QLQ-OES18 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in EORTC QLQ-OES18 Reflux Score at Cycle 6||1.3|-4.1|0.3001
92248185|NCT03783442|184399173|OTHER||LS Mean Difference|-1.9|||||TWO_SIDED|95.0|-3.9|0.2|||||Based on a mixed effect model analysis with QLQ-OES18 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in EORTC QLQ-OES18 Pain Score at Cycle 6||0.2|-3.9|
92248186|NCT03783442|184399173|OTHER||LS Mean Difference|-0.4|||||TWO_SIDED|95.0|-2.1|1.4|||||Based on a mixed effect model analysis with QLQ-OES18 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in EORTC QLQ-OES18 Index Score at Cycle 6||1.4|-2.1|
92248187|NCT03783442|184399174|OTHER||LS Mean Difference|3.3|||||TWO_SIDED|95.0|0.4|6.2|||||Based on a mixed effect model analysis, with QLQ-C30 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in Global Health Status/QoL at Cycle 6||6.2|0.4|
92175667|NCT05698875|184243692|OTHER||Mean Difference (Final Values)|-30.0||||0.69|TWO_SIDED|95.0|-177.0|117.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||MGL meals vs control meals||117|-177|0.69
92248188|NCT03783442|184399174|OTHER||LS Mean Difference|2.6|||||TWO_SIDED|95.0|0.0|5.1|||||Based on a mixed effect model analysis, with QLQ-C30 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in Physical Functioning at Cycle 6||5.1|0.0|
92248189|NCT03783442|184399175|OTHER||LS Mean Difference|-1.4|||||TWO_SIDED|95.0|-4.7|1.9|||||Based on a mixed effect model analysis with QLQ-C30 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|||1.9|-4.7|
92283078|NCT00262964|184470027|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||the a priori threshold for statistical significance was p \<0.05|t-test, 2 sided|||Null hypothesis was that fenofibrate would not affect VLDL-Tg concentration. We compare the pre and post-treatment results of subjects receiving an 8 week course of fenofibrate.||||.024
92283079|NCT00262964|184470027|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||the a priori threshold for statistical significance was p\<0.05|t-test, 2 sided|||The null hypothesis was that niacin would not affect VLDL-Tg concentration. We compare the pre and post-treatment results of subjects receiving a 16 week course of niacin.||||<0.001
92248190|NCT04190186|184399178|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.594|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.594
92248191|NCT02505542|184399199|SUPERIORITY||Odds Ratio (OR)|18.822|||<|0.001|TWO_SIDED|95.0|9.605|38.864||A fixed sequence testing procedure was used whereby the second test (CZP 200 mg Q4W vs PBO) was interpreted as statistically significant only if the first test (CZP 200 mg Q2W vs PBO) was significant at the 0.05 level as well.|Regression, Logistic|||Odds ratio (and corresponding p-value) resulted from a logistic regression model with factors for treatment, geographic region, and modified New York (mNY) classification for study participants who did not experience a flare. An odds ratio \> 1 indicates a study participant on CZP was more likely not to experience a flare than a study participant on placebo. Penalized maximum likelihood approach was used for logistic regression.||38.864|9.605|<0.001
92248192|NCT02505542|184399199|SUPERIORITY||Odds Ratio (OR)|14.069|||<|0.001|TWO_SIDED|95.0|7.395|27.955||A fixed sequence testing procedure was used whereby the second test (CZP 200 mg Q4W vs PBO) was interpreted as statistically significant only if the first test (CZP 200 mg Q2W vs PBO) was significant at the 0.05 level as well.|Regression, Logistic|||Odds ratio (and corresponding p-value) resulted from a logistic regression model with factors for treatment, geographic region, and modified New York (mNY) classification for study participants who did not experience a flare. An odds ratio \> 1 indicates a study participant on CZP was more likely not to experience a flare than a study participant on placebo. Penalized maximum likelihood approach was used for logistic regression.||27.955|7.395|<0.001
92248193|NCT02505542|184399203|OTHER||||||<|0.001|||||||Log Rank|||P-values were from stratified log-rank test comparing the Certolizumab pegol 200 mg Q2W Double-Blind (RS) group with the Placebo Double-Blind (RS) group (Geographic region and modified New York (mNY) classification were used as stratification factors).||||<0.001
92248194|NCT02505542|184399203|OTHER||||||<|0.001|||||||Log Rank|||P-values were from stratified log-rank test comparing the Certolizumab pegol 200 mg Q4W Double-Blind (RS) group with the Placebo Double-Blind (RS) group (Geographic region and modified New York (mNY) classification were used as stratification factors).||||<0.001
92248195|NCT02505542|184399205|SUPERIORITY||Odds Ratio (OR)|17.94|||<|0.001|TWO_SIDED|95.0|8.95|35.961|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and modified New York (mNY) classification.||35.961|8.950|<0.001
92283080|NCT00262964|184470028|SUPERIORITY_OR_OTHER|||||||0.768||95.0||||A priori threshold for significance was set for p\<0.05.|t-test, 2 sided|||Null hypothesis was that fenofibrate would not affect adipose tissue insulin sensitivity. We compare the baseline and post-treatment results for adipose tissue insulin sensitivity in the subjects who received fenofibrate.||||.768
92283081|NCT00262964|184470028|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||A priori threshold for significance was set for p\<0.05.|t-test, 2 sided|||Null hypothesis was that niacin would not affect adipose tissue insulin sensitivity. Here we compare the baseline and post-treatment adipose tissue insulin sensitivity results for subjects who received a 16 week course of niacin||||.019
92283082|NCT00262964|184470029|SUPERIORITY_OR_OTHER|||||||0.318||95.0||||The a priori threshold for significance was set at p\<0.05.|t-test, 2 sided|||The null hypothesis was that fenofibrate would not affect skeletal muscle insulin sensitivity. Here we compare the pre and post-treatment results in subjects receiving an 8 week course of fenofibrate.||||.318
92248196|NCT02505542|184399205|SUPERIORITY||Odds Ratio (OR)|11.385|||<|0.001|TWO_SIDED|95.0|5.952|21.778|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and modified New York (mNY) classification.||21.778|5.952|<0.001
92248197|NCT02505542|184399205|SUPERIORITY||Odds Ratio (OR)|17.653|||<|0.001|TWO_SIDED|95.0|8.333|37.399|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and modified New York (mNY) classification.||37.399|8.333|<0.001
92248198|NCT02505542|184399205|SUPERIORITY||Odds Ratio (OR)|11.863|||<|0.001|TWO_SIDED|95.0|5.67|24.822|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and modified New York (mNY) classification.||24.822|5.670|<0.001
92248199|NCT02505542|184399206|SUPERIORITY||Odds Ratio (OR)|20.205|||<|0.001|TWO_SIDED|95.0|9.851|41.439|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||41.439|9.851|<0.001
92283083|NCT00262964|184470029|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||The a priori threshold for significance was set at p\<0.05.|t-test, 2 sided|||The null hypothesis was that niacin would not affect skeletal muscle insulin sensitivity. Here we compare the pre and post-treatment results for subjects receiving a 16 week course of niacin.||||.025
92175668|NCT05698875|184243692|OTHER||Mean Difference (Final Values)|264.0|||<|0.001|TWO_SIDED|95.0|126.0|401.0||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni did not alter p value|Linear Mixed Model|||HGL vs HGLP meals||401|126|<0.001
92248200|NCT02505542|184399206|SUPERIORITY||Odds Ratio (OR)|12.07|||<|0.001|TWO_SIDED|95.0|6.275|23.218|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||23.218|6.275|<0.001
92248201|NCT02505542|184399207|SUPERIORITY||Odds Ratio (OR)|20.891|||<|0.001|TWO_SIDED|95.0|10.21|42.744|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||42.744|10.210|<0.001
92248202|NCT02505542|184399207|SUPERIORITY||Odds Ratio (OR)|10.377|||<|0.001|TWO_SIDED|95.0|5.456|19.738|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||19.738|5.456|<0.001
92248203|NCT02505542|184399208|SUPERIORITY||Odds Ratio (OR)|16.9|||<|0.001|TWO_SIDED|95.0|8.211|34.785|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||34.785|8.211|<0.001
92248204|NCT02505542|184399208|SUPERIORITY||Odds Ratio (OR)|12.072|||<|0.001|TWO_SIDED|95.0|5.954|24.476|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||24.476|5.954|<0.001
92283084|NCT00262964|184470030|SUPERIORITY_OR_OTHER|||||||0.419||95.0||||The a priori threshold for significance was set at p\<0.05.|t-test, 2 sided|||The null hypothesis was that fenofibrate would not affect hepatic insulin sensitivity. Here we compare the pre and post-treatment results of subjects receiving an 8 week course of fenofibrate.||||.419
92175669|NCT05698875|184243692|OTHER||Mean Difference (Final Values)|192.0||||0.02|TWO_SIDED|95.0|56.0|329.0||A priori threshold for statistical significance is p\<0.05 P value adjusted with Bonferroni correction|Linear Mixed Model|||HGL vs MGL meals||329|56|0.02
92175670|NCT05698875|184243692|OTHER||Mean Difference (Final Values)|-71.0||||0.32|TWO_SIDED|95.0|-211.0|69.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP vs MGL meals||69|-211|0.32
92175671|NCT05698875|184243693|OTHER||Mean Difference (Final Values)|6.9|||<|0.01|TWO_SIDED|95.0|3.3|10.4||A priori threshold for statistical significance is p\<0.05 P value adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs control meals||10.4|3.3|<0.01
92175672|NCT05698875|184243693|OTHER||Mean Difference (Final Values)|3.5||||0.06|TWO_SIDED|95.0|-0.2|7.2||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||7.2|-0.2|0.06
92175673|NCT05698875|184243693|OTHER||Mean Difference (Final Values)|0.32||||0.86|TWO_SIDED|95.0|-3.3|3.9||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||MGL meals vs control meals||3.9|-3.3|0.86
92175674|NCT05698875|184243693|OTHER||Mean Difference (Final Values)|3.4||||0.11|TWO_SIDED|95.0|0.24|6.48||A priori threshold for statistical significance is p\<0.05 P value adjusted with the Bonferroni correction|Linear Mixed Model|||HGL vs HGLP meals||6.48|0.24|0.11
92175675|NCT05698875|184243693|OTHER||Mean Difference (Final Values)|6.7|||<|0.001|TWO_SIDED|95.0|3.6|9.8||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni did not alter p value|Linear Mixed Model|||HGL vs MGL meals||9.8|3.6|<0.001
92175676|NCT05698875|184243693|OTHER||Mean Difference (Final Values)|3.3||||0.13|TWO_SIDED|95.0|0.2|6.5||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni correction|Linear Mixed Model|||HGLP vs MGL meals||6.5|0.2|0.13
92175677|NCT05698875|184243694|OTHER||Mean Difference (Final Values)|-34.8||||0.01|TWO_SIDED|95.0|-55.9|-13.6||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni correction|Linear Mixed Model|||HGL meals vs control meal||-13.6|-55.9|0.01
92175678|NCT05698875|184243694|OTHER||Mean Difference (Final Values)|-1.8||||0.87|TWO_SIDED|95.0|-23.6|19.9||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||19.9|-23.6|0.87
92175679|NCT05698875|184243694|OTHER||Mean Difference (Final Values)|-4.7||||0.67|TWO_SIDED|95.0|-26.4|17.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||MGL meals vs control meals||17.0|-26.4|0.67
92175680|NCT05698875|184243694|OTHER||Mean Difference (Final Values)|-33.3||||0.01|TWO_SIDED|95.0|-54.4|-12.2||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni correction|Linear Mixed Model|||HGL vs HGLP meals||-12.2|-54.4|0.01
92248205|NCT02505542|184399209|SUPERIORITY||Odds Ratio (OR)|17.082|||<|0.001|TWO_SIDED|95.0|8.561|34.085|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||34.085|8.561|<0.001
92175681|NCT05698875|184243694|OTHER||Mean Difference (Final Values)|-31.4||||0.01|TWO_SIDED|95.0|-52.4|-10.4||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni correction|Linear Mixed Model|||HGL vs MGL meals||-10.4|-52.4|0.01
92175682|NCT05698875|184243694|OTHER||Mean Difference (Final Values)|1.86||||0.87|TWO_SIDED|95.0|-19.7|23.4||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP vs MGL meals||23.4|-19.7|0.87
92175683|NCT05698875|184243695|OTHER||Mean Difference (Final Values)|34.0||||0.04|TWO_SIDED|95.0|2.0|65.0|||t-test, 2 sided|||Control vs HGL meals||65|2|0.04
92175684|NCT05698875|184243695|OTHER||Mean Difference (Final Values)|6.0||||0.56|TWO_SIDED|95.0|-17.0|30.0|||t-test, 2 sided|||Control vs HGLP meals||30|-17|0.56
92175685|NCT05698875|184243695|OTHER||Mean Difference (Final Values)|12.0||||0.22|TWO_SIDED|95.0|8.0|32.0|||t-test, 2 sided|||Control vs MGL meals||32|8|0.22
92175686|NCT05698875|184243695|OTHER||Mean Difference (Final Values)|38.0||||0.01|TWO_SIDED|95.0|10.0|67.0|||t-test, 2 sided|||HGL vs HGLP meals||67|10|0.01
92175687|NCT05698875|184243695|OTHER||Mean Difference (Final Values)|33.0||||0.03|TWO_SIDED|95.0|4.0|62.0|||t-test, 2 sided|||HGL vs MGL meals||62|4|0.03
92175688|NCT05698875|184243695|OTHER||Mean Difference (Final Values)|-5.0||||0.63|TWO_SIDED|95.0|-29.0|18.0|||t-test, 2 sided|||HGLP vs MGL meals||18|-29|0.63
92175689|NCT05698875|184243696|OTHER||Mean Difference (Final Values)|22.0||||0.16|TWO_SIDED|95.0|10.0|53.0|||t-test, 2 sided|||Control vs HGL meals||53|10|0.16
92175690|NCT05698875|184243696|OTHER||Mean Difference (Final Values)|21.0||||0.11|TWO_SIDED|95.0|5.0|46.0|||t-test, 2 sided|||Control vs HGLP meals||46|5|0.11
92175691|NCT05698875|184243696|OTHER||Mean Difference (Final Values)|19.0||||0.15|TWO_SIDED|95.0|8.0|45.0|||t-test, 2 sided|||Control vs MGL meals||45|8|0.15
92175692|NCT05698875|184243696|OTHER||Mean Difference (Final Values)|44.0|||<|0.01|TWO_SIDED|95.0|16.0|71.0|||t-test, 2 sided|||HGL vs HGLP meals||71|16|<0.01
92175693|NCT05698875|184243696|OTHER||Mean Difference (Final Values)|-7.0||||0.6|TWO_SIDED|95.0|-36.0|21.0|||t-test, 2 sided|||HGL vs MGL meals||21|-36|0.60
92175694|NCT05698875|184243696|OTHER||Mean Difference (Final Values)|29.0||||0.02|TWO_SIDED|95.0|6.0|51.0|||t-test, 2 sided|||HGLP vs MGL meals||51|6|0.02
92175695|NCT05698875|184243697|OTHER||Mean Difference (Final Values)|1.6|||<|0.001|TWO_SIDED|95.0|0.8|2.4||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meal excursion vs Control meal at 30 minutes||2.4|0.8|<0.001
92175696|NCT05698875|184243697|OTHER||Mean Difference (Final Values)|0.4||||0.38|TWO_SIDED|95.0|-0.5|1.2|||Linear Mixed Model|||HGLP meal vs Control meal glucose excursion at 30 minutes||1.2|-0.5|0.38
92175697|NCT05698875|184243697|OTHER||Mean Difference (Final Values)|-0.3||||0.47|TWO_SIDED|95.0|-1.1|0.5||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meal excursion vs Control meal at 30 minutes||0.5|-1.1|0.47
92175698|NCT05698875|184243697|OTHER||Mean Difference (Final Values)|1.2||||0.01|TWO_SIDED|95.0|0.5|2.0||a priori threshold for statistical significance p\<0.05 P value adjusted with Bonferroni correction|Linear Mixed Model|||HGL meal vs HGLP meal||2.0|0.5|0.01
92175699|NCT05698875|184243697|OTHER||Mean Difference (Final Values)|1.9|||<|0.001|TWO_SIDED|95.0|1.1|2.6||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meal vs MGL meals||2.6|1.1|<0.001
92175700|NCT05698875|184243697|OTHER||Mean Difference (Final Values)|0.7||||0.09|TWO_SIDED|95.0|0.1|1.4||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP meals vs MGL meals||1.4|0.1|0.09
92175701|NCT05698875|184243698|OTHER||Mean Difference (Final Values)|1.9|||<|0.001|TWO_SIDED|95.0|0.7|3.0||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs control meals||3.0|0.7|<0.001
92175702|NCT05698875|184243698|OTHER||Mean Difference (Final Values)|-0.1||||0.87|TWO_SIDED|95.0|-1.2|1.0||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||1.0|-1.2|0.87
92175703|NCT05698875|184243698|OTHER||Mean Difference (Final Values)|-0.4||||0.48|TWO_SIDED|95.0|-1.5|0.7||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs control meals||0.7|-1.5|0.48
92175704|NCT05698875|184243698|OTHER||Mean Difference (Final Values)|2.0|||<|0.001|TWO_SIDED|95.0|1.0|3.1||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs HGLP meals||3.1|1.0|<0.001
92175705|NCT05698875|184243698|OTHER||Mean Difference (Final Values)|2.4|||<|0.001|TWO_SIDED|95.0|1.3|3.4||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs MGL meals||3.4|1.3|<0.001
92175706|NCT05698875|184243698|OTHER||Mean Difference (Final Values)|-0.34||||0.53|TWO_SIDED|95.0|-1.4|0.7||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs HGLP meals||0.7|-1.4|0.53
92175707|NCT05698875|184243699|OTHER||Mean Difference (Final Values)|1.3||||0.06|TWO_SIDED|95.0|-0.03|2.7||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs control meals||2.7|-0.03|0.06
92175708|NCT05698875|184243699|OTHER||Mean Difference (Final Values)|-1.1||||0.13|TWO_SIDED|95.0|-2.5|0.3||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||0.3|-2.5|0.13
92175709|NCT05698875|184243699|OTHER||Mean Difference (Final Values)|-0.2||||0.82|TWO_SIDED|95.0|-1.5|1.2||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs control meals||1.2|-1.5|0.82
92175710|NCT05698875|184243699|OTHER||Mean Difference (Final Values)|2.4|||<|0.01|TWO_SIDED|95.0|1.1|3.7||a priori threshold for statistical significance p\<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs MGL meals||3.7|1.1|<0.01
92175711|NCT05698875|184243699|OTHER||Mean Difference (Final Values)|1.5||||0.08|TWO_SIDED|95.0|0.2|2.9||a priori threshold for statistical significance p\<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs MGL meals||2.9|0.2|0.08
92175712|NCT05698875|184243699|OTHER||Mean Difference (Final Values)|0.9||||0.21|TWO_SIDED|95.0|-0.5|2.2||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs HGLP meals||2.2|-0.5|0.21
92175713|NCT05698875|184243700|OTHER||Mean Difference (Final Values)|0.8||||0.31|TWO_SIDED|95.0|-0.7|2.2||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs control meals||2.2|-0.7|0.31
92175714|NCT05698875|184243700|OTHER||Mean Difference (Final Values)|-1.5||||0.05|TWO_SIDED|95.0|-3.0|-0.1||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||-0.1|-3.0|0.05
92175715|NCT05698875|184243700|OTHER||Mean Difference (Final Values)|0.03||||0.97|TWO_SIDED|95.0|-1.5|1.5||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs control meals||1.5|-1.5|0.97
92175716|NCT05698875|184243700|OTHER||Mean Difference (Final Values)|2.3|||<|0.01|TWO_SIDED|95.0|1.0|3.6||a priori threshold for statistical significance p\<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs HGLP meals||3.6|1.0|<0.01
92175717|NCT05698875|184243700|OTHER||Mean Difference (Final Values)|0.8||||0.27|TWO_SIDED|95.0|0.6|2.2||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs MGL meals||2.2|0.6|0.27
92175718|NCT05698875|184243700|OTHER||Mean Difference (Final Values)|1.5||||0.12|TWO_SIDED|95.0|0.1|3.0||a priori threshold for statistical significance \<0.05 Adjusted with p value|Linear Mixed Model|||MGL meals vs HGLP meals||3.0|0.1|0.12
92175719|NCT05698875|184243701|OTHER||Mean Difference (Final Values)|-0.2||||0.83|TWO_SIDED|95.0|-1.5|1.2||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||HGL meals vs control meals||1.2|-1.5|0.83
92175720|NCT05698875|184243701|OTHER||Mean Difference (Final Values)|-1.5||||0.09|TWO_SIDED|95.0|-2.9|-0.2||a priori threshold for statistical significance \<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGLP meals vs control meals||-0.2|-2.9|0.09
92175721|NCT05698875|184243701|OTHER||Mean Difference (Final Values)|-0.2||||0.78|TWO_SIDED|95.0|-1.6|1.2||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||MGL meals vs control meals||1.2|-1.6|0.78
92175722|NCT05698875|184243701|OTHER||Mean Difference (Final Values)|1.4||||0.11|TWO_SIDED|95.0|0.1|2.7||a priori threshold for statistical significance \<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs HGLP meals||2.7|0.1|0.11
92175723|NCT05698875|184243701|OTHER||Mean Difference (Final Values)|-0.2||||0.82|TWO_SIDED|95.0|-1.5|1.1||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||MGL meals vs HGL meals||1.1|-1.5|0.82
92175724|NCT05698875|184243701|OTHER||Mean Difference (Final Values)|1.3||||0.06|TWO_SIDED|95.0|-0.1|2.6||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||MGL meals vs HGLP meals||2.6|-0.1|0.06
92175725|NCT05698875|184243702|OTHER||Mean Difference (Final Values)|0.1||||0.85|TWO_SIDED|95.0|-1.1|1.3||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||HGL meals vs control meals||1.3|-1.1|0.85
92175726|NCT05698875|184243702|OTHER||Mean Difference (Final Values)|-1.2||||0.06|TWO_SIDED|95.0|-2.4|0.04||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||HGLP meals vs control meals||0.04|-2.4|0.06
92175727|NCT05698875|184243702|OTHER||Mean Difference (Final Values)|-0.08||||0.9|TWO_SIDED|95.0|-1.3|1.2||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||MGL meals vs control meals||1.2|-1.3|0.90
92175728|NCT05698875|184243702|OTHER||Mean Difference (Final Values)|1.4||||0.05|TWO_SIDED|95.0|0.3|2.5||a priori threshold for statistical significance \<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs HGLP meals||2.5|0.3|0.05
92175729|NCT05698875|184243702|OTHER||Mean Difference (Final Values)|0.34||||0.55|TWO_SIDED|95.0|-0.8|1.5||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||HGL meals vs MGL meals||1.5|-0.8|0.55
92248206|NCT02505542|184399209|SUPERIORITY||Odds Ratio (OR)|11.503|||<|0.001|TWO_SIDED|95.0|5.939|22.278|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||22.278|5.939|<0.001
92248207|NCT02505542|184399210|OTHER||LS Mean Difference vs Placebo|-1.42|STANDARD_ERROR_OF_MEAN|0.126|<|0.001|TWO_SIDED|95.0|-1.66|-1.17|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-1.17|-1.66|<0.001
92248208|NCT02505542|184399210|OTHER||LS Mean Difference vs Placebo|-1.21|STANDARD_ERROR_OF_MEAN|0.126|<|0.001|TWO_SIDED|95.0|-1.45|-0.96|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-0.96|-1.45|<0.001
92248209|NCT02505542|184399211|OTHER||LS Mean Difference vs Placebo|-2.46|STANDARD_ERROR_OF_MEAN|0.268|<|0.001|TWO_SIDED|95.0|-2.99|-1.94|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-1.94|-2.99|<0.001
92248210|NCT02505542|184399211|OTHER||LS Mean Difference vs Placebo|-2.24|STANDARD_ERROR_OF_MEAN|0.267|<|0.001|TWO_SIDED|95.0|-2.77|-1.72|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-1.72|-2.77|<0.001
92248211|NCT02505542|184399212|OTHER||LS Mean Difference vs Placebo|-1.57|STANDARD_ERROR_OF_MEAN|0.238|<|0.001|TWO_SIDED|95.0|-2.04|-1.11|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-1.11|-2.04|<0.001
92248212|NCT02505542|184399212|OTHER||LS Mean Difference vs Placebo|-1.43|STANDARD_ERROR_OF_MEAN|0.238|<|0.001|TWO_SIDED|95.0|-1.9|-0.96|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-0.96|-1.90|<0.001
92248213|NCT02505542|184399213|OTHER||LS Mean Difference vs Placebo|-0.2|STANDARD_ERROR_OF_MEAN|0.112|=|0.074|TWO_SIDED|95.0|-0.42|0.02|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||0.02|-0.42|=0.074
92248214|NCT02505542|184399213|OTHER||LS Mean Difference vs Placebo|-0.24|STANDARD_ERROR_OF_MEAN|0.113|=|0.036|TWO_SIDED|95.0|-0.46|-0.02|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-0.02|-0.46|=0.036
92283085|NCT00262964|184470030|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||The a priori threshold for significance was set at p\<0.05.|t-test, 2 sided|||The null hypothesis was that niacin would not affect skeletal muscle insulin sensitivity. Here we compare the pre and post-treatment results of subjects receiving a 16 week course of niacin.||||.018
92283086|NCT01041781|184470037|SUPERIORITY||Hazard Ratio (HR)|1.076||||0.5346|TWO_SIDED|95.0|0.853|1.367|||Log Rank|||||1.367|0.853|0.5346
92283087|NCT01041781|184470041|SUPERIORITY|||||||0.0049|||||||Log Rank|||||||0.0049
92283088|NCT01041781|184470042|SUPERIORITY|||||||0.0131|||||||Log Rank|||||||0.0131
92283089|NCT01041781|184470043|SUPERIORITY|||||||0.0322|||||||Log Rank|||||||0.0322
92283090|NCT03561883|184470044|SUPERIORITY||Least squares (LS) mean difference|-0.062||||0.5566|TWO_SIDED|95.0|-0.27|0.146|||MMRM||Treatment difference (IW-3718 - placebo)|Treatment difference calculated as least squares mean (LSM) change from baseline at Week 8; IW-3718 - placebo based on an mixed models repeated measures (MMRM) model with week (categorical), treatment group, week-by-treatment group and week-by-baseline value interactions, baseline esophagitis status (present vs. not present), and baseline WHSS (\< 3 vs. ≥ 3) as fixed effect terms and baseline value as a covariate, with subject as a random effect. An unstructured covariance structure was used.||0.146|-0.270|0.5566
92248215|NCT02505542|184399214|SUPERIORITY||Odds Ratio (OR)|18.308|||<|0.001|TWO_SIDED|95.0|9.084|36.898|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||36.898|9.084|<0.001
92248216|NCT02505542|184399214|SUPERIORITY||Odds Ratio (OR)|12.02|||<|0.001|TWO_SIDED|95.0|6.255|23.098|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||23.098|6.255|<0.001
92248217|NCT02505542|184399215|OTHER||LS Mean Difference vs Placebo|-1.0|STANDARD_ERROR_OF_MEAN|0.76|=|0.195|TWO_SIDED|95.0|-2.5|0.51|||ANCOVA|||"Only MRIs performed ± 2 weeks around the Week 96 or Early Withdrawal Visit were assigned to Week 96 or Early Withdrawal.~Only results of the double-read assessments of the central MRI review were included. The analysis used the average of the scores from the 2 independent reviewers. Whenever an adjudication was present, the average score across all 3 reviewers was used.~ANCOVA model with treatment, geographical region, mNY classification, and Part B Baseline as covariates."||0.51|-2.50|=0.195
92248218|NCT02505542|184399215|OTHER||LS Mean Difference vs Placebo|-0.6|STANDARD_ERROR_OF_MEAN|0.76|=|0.432|TWO_SIDED|95.0|-2.11|0.91|||ANCOVA|||"Only MRIs performed ± 2 weeks around the Week 96 or Early Withdrawal Visit were assigned to Week 96 or Early Withdrawal.~Only results of the double-read assessments of the central MRI review were included. The analysis used the average of the scores from the 2 independent reviewers. Whenever an adjudication was present, the average score across all 3 reviewers was used.~ANCOVA model with treatment, geographical region, mNY classification, and Part B Baseline as covariates."||0.91|-2.11|=0.432
92248219|NCT02505542|184399216|OTHER||LS Mean Difference vs Placebo|-0.4|STANDARD_ERROR_OF_MEAN|0.19|=|0.04|TWO_SIDED|95.0|-0.78|-0.02|||ANCOVA|||"Only MRIs performed ± 2 weeks around the Week 96 or Early Withdrawal Visit were assigned to Week 96 or Early Withdrawal.~Only results of the double-read assessments of the central MRI review were included. The analysis used the average of the scores from the 2 independent reviewers. Whenever an adjudication was present, the average score across all 3 reviewers was used.~ANCOVA model with treatment, geographical region, mNY classification, and Part B Baseline as covariates."||-0.02|-0.78|=0.040
92248220|NCT02505542|184399216|OTHER||LS Mean Difference vs Placebo|-0.3|STANDARD_ERROR_OF_MEAN|0.19|=|0.074|TWO_SIDED|95.0|-0.73|0.03|||ANCOVA|||"Only MRIs performed ± 2 weeks around the Week 96 or Early Withdrawal Visit were assigned to Week 96 or Early Withdrawal.~Only results of the double-read assessments of the central MRI review were included. The analysis used the average of the scores from the 2 independent reviewers. Whenever an adjudication was present, the average score across all 3 reviewers was used.~ANCOVA model with treatment, geographical region, mNY classification, and Part B Baseline as covariates."||0.03|-0.73|=0.074
92283091|NCT03561883|184470045|SUPERIORITY||LS mean difference|-0.008||||0.9226|TWO_SIDED|95.0|-0.176|0.159|||MMRM|||Treatment difference calculated as LSM change from baseline at Week 8; IW-3718 - placebo based on an MMRM model with week (categorical), treatment group, week-by-treatment group and week-by-baseline value interactions, baseline esophagitis status (present vs. not present), and baseline WHSS (\< 3 vs. ≥ 3) as fixed effect terms and baseline value as a covariate, with subject as a random effect. An unstructured covariance structure was used.||0.159|-0.176|0.9226
92248221|NCT02666508|184399257|OTHER|Test conducted was a test of difference between plaque identifying toothpaste and non-plaque identifying toothpaste for change in DPIA from pre to post.|Mean Difference (Net)|-1.02||||0.001|TWO_SIDED|95.0|-1.6|-0.44|||Repeated Measures ANOVA|||||-0.44|-1.60|0.001
92248222|NCT02666508|184399258|OTHER|Test conducted was a test of the difference between plaque identifying toothpaste and non-plaque identifying toothpaste for change in hsCRP|Mean Difference (Net)|-0.18||||0.459|TWO_SIDED|95.0|-0.69|0.32|||Repeated Measures ANOVA|||||0.32|-0.69|0.459
92248223|NCT00318565|184399295|SUPERIORITY_OR_OTHER||Binomial distribution|93.3||||0.05|ONE_SIDED|95.0|90.1||||Exact binomial distribution|||An acute success rate of 88% is anticipated and the one-sided 95% lower confidence bound will be compared to 80%. The statistical hypothesis for the primary efficacy endpoint is evaluated as a one-tailed hypothesis at a = 0.05.|||90.1|.05
92283092|NCT03561883|184470046|SUPERIORITY||Difference in Responder Rate|1.3|||||TWO_SIDED|95.0|-6.9|9.5|||||95% confidence interval (CI) for Difference in Responder Rates is obtained using the Newcombe CI.|||9.5|-6.9|
92248224|NCT00318565|184399296|SUPERIORITY_OR_OTHER||Binomial Distribution|1.5||||0.05|ONE_SIDED|95.0||7.0|||Exact Binomial Distribution|||The anticipated rate of the CSAE is 2.7% and the one-sided 95% upper confidence bound will be compared to 7%||7||.05
92248225|NCT00835003|184399304|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations estimated a sample size of 1272 women with an estimated proportion of 8% in the 39 weeks Group and 14% in the 38 weeks group|Risk Ratio (RR)|0.86||||0.31|TWO_SIDED|95.0|0.65|1.15|||Chi-squared|||||1.15|0.65|0.31
92248226|NCT01397448|184399316|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.11|||<|0.001|TWO_SIDED|95.0|0.04|0.31|||Log Rank|||||0.31|0.04|<0.001
92248227|NCT01397448|184399316|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.05|||<|0.001|TWO_SIDED|95.0|0.01|0.23|||Log Rank|||||0.23|0.01|<0.001
92248228|NCT01804036|184399317|SUPERIORITY_OR_OTHER|||||||0.84|||||||ANCOVA|||||||0.84
92248229|NCT01804036|184399318|SUPERIORITY_OR_OTHER|||||||0.11|||||||ANCOVA|||||||0.11
92248230|NCT01804036|184399319|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANCOVA|||||||0.95
92248231|NCT01804036|184399320|SUPERIORITY_OR_OTHER|||||||0.08|||||||ANCOVA|||||||0.08
92248232|NCT01804036|184399321|SUPERIORITY_OR_OTHER|||||||0.2|||||||ANCOVA|||||||0.20
92248233|NCT01804036|184399322|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANCOVA|||||||0.13
92248234|NCT01804036|184399323|SUPERIORITY_OR_OTHER|||||||0.52|||||||ANCOVA|||||||0.52
92248235|NCT01804036|184399324|SUPERIORITY_OR_OTHER|||||||0.54|||||||ANCOVA|||||||0.54
92248236|NCT01804036|184399325|SUPERIORITY_OR_OTHER|||||||0.94|||||||ANCOVA|||||||0.94
92248237|NCT01804036|184399326|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANCOVA|||||||0.95
92248238|NCT01804036|184399327|SUPERIORITY_OR_OTHER|||||||0.49|||||||ANCOVA|||||||0.49
92248239|NCT01804036|184399328|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
92248240|NCT01804036|184399329|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
92248241|NCT01804036|184399330|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANCOVA|||||||0.13
92248242|NCT02466412|184399342|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|63.9326|||||TWO_SIDED|95.0|49.6045|82.3991|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|"Geometric LS mean ratio (CHTP 1.1 M:mCC).~Expressed as %"|The objective of this study was to determine the point estimate and precision of the CHTP 1.1 M:mCC ratio for Cmax. Therefore, there was no statistical hypothesis to be tested for this objective.||82.3991|49.6045|
92248243|NCT02466412|184399343|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|60.0052|||||TWO_SIDED|95.0|44.9517|80.0997|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|"Geometric LS mean ratio (CHTP 1.1 M:mCC).~Expressed as %"|The objective of this study was to determine the point estimate and precision of the CHTP 1.1 M:mCC ratio for AUC(0-last). Therefore, there was no statistical hypothesis to be tested for this objective.||80.0997|44.9517|
92248244|NCT00830960|184399346|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference in PRU|-183.0|||<|0.0001|TWO_SIDED|95.0|-229.0|-137.0||"Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect was used.~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate denominator degrees of freedom for fixed effects. Invalid measurements excluded.||||-137|-229|<0.0001
92248245|NCT00830960|184399346|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-139.0|||<|0.0001|TWO_SIDED|95.0|-177.0|-102.0||"Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect was used.~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate denominator degrees of freedom for fixed effects. Invalid measurements excluded.||||-102|-177|<0.0001
92248246|NCT00830960|184399347|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-57.0||||0.0058|TWO_SIDED|95.0|-97.0|-17.0||"P-value for 30 minutes post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-17|-97|0.0058
92248247|NCT00830960|184399347|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-35.0||||0.0365|TWO_SIDED|95.0|-68.0|-2.0||"P-value for 30 minutes post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel"|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-2|-68|0.0365
92248248|NCT00830960|184399347|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-68.0||||0.0004|TWO_SIDED|95.0|-104.0|-32.0||"P-value for 30 minutes post-LD Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-32|-104|0.0004
92248249|NCT00830960|184399347|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-160.0|||<|0.0001|TWO_SIDED|95.0|-211.0|-110.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-110|-211|<0.0001
92248250|NCT00830960|184399347|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-115.0|||<|0.0001|TWO_SIDED|95.0|-156.0|-73.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-73|-156|<0.0001
92248251|NCT00830960|184399347|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-171.0|||<|0.0001|TWO_SIDED|95.0|-216.0|-125.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-125|-216|<0.0001
92248252|NCT00830960|184399347|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-212.0|||<|0.0001|TWO_SIDED|95.0|-259.0|-167.0||"P-value for 4 hours post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-167|-259|<0.0001
92283093|NCT03561883|184470046|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7424|TWO_SIDED|95.0|0.76|1.48|||Cochran-Mantel-Haenszel||Odds Ratio for Response (IW-3718 : placebo)|Treatment difference was calculated as the difference in the responder rates at Week 8; IW-3718 - placebo. The 95% CI for the difference in the responder rates was obtained using the Newcombe CI. P value was based on the odds ratio for the response rate (IW-3718:placebo) obtained from the Cochran-Mantel-Haenszel (CMH) tests controlling for baseline esophagitis status and baseline heartburn severity level (\< 3 vs. ≥ 3).||1.48|0.76|0.7424
92248253|NCT00830960|184399348|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-119.0|||<|0.0001|TWO_SIDED|95.0|-166.0|-73.0||"P-value for 30 days. A linear mixed effects model including treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU was prasugrel - clopidogrel."|LS Mean Difference in PRU|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-73|-166|<0.0001
92248254|NCT00830960|184399348|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-113.0|||<|0.0001|TWO_SIDED|95.0|-154.0|-73.0||"P-value for 90 days. A linear mixed effects model including treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU was prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-73|-154|<0.0001
92175730|NCT05698875|184243702|OTHER||Mean Difference (Final Values)|1.1||||0.08|TWO_SIDED|95.0|-0.1|2.2||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||MGL meals vs HGLP meals||2.2|-0.1|0.08
92175731|NCT03819153|184243734|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0001|TWO_SIDED|95.0|0.66|0.88|||Regression, Cox|||Time from randomization to first composite renal event was analyzed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by use of sodium glucose cotransporter-2 (SGLT-2) inhibitor (yes/no) at baseline. Based on the available number of events for analysis, the nominal significance level was updated to 0.01612 using the Lan-DeMets alpha spending function. eGFR was calculated using the CKD-EPI formula.||0.88|0.66|0.0001
92175732|NCT04324359|184243766|SUPERIORITY||||||<|0.001|||||||z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level. P-value: based on the normal approximation test for differences between proportions.||||||<0.001
92175733|NCT04324359|184243767|SUPERIORITY|||||||0.066|||||||Other: z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level. P-value: based on Barnard's exact test for differences between proportions.||||||0.066
92175734|NCT04324359|184243768|SUPERIORITY|||||||0.716|||||||z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level. P-value: based on Barnard's exact test for differences between proportions.||||||0.716
92175735|NCT04324359|184243769|SUPERIORITY|||||||0.528|||||||z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level P-value: based on Barnard's exact test for differences between proportions.||||||0.528
92175736|NCT04324359|184243770|SUPERIORITY|||||||0.766|||||||z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level. P-value: based on Barnard's exact test for differences between proportions.||||||0.766
92248255|NCT00830960|184399348|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-85.0|||<|0.0001|TWO_SIDED|95.0|-121.0|-48.0||"P-value for 90 days. A linear mixed effects model including treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU was prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-48|-121|<0.0001
92248256|NCT00830960|184399348|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-35.0||||0.0647|TWO_SIDED|95.0|-72.0|2.0||"P-value for 90 days. A linear mixed effects model including treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU was prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||2|-72|0.0647
92248257|NCT00830960|184399348|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-100.0|||<|0.0001|TWO_SIDED|95.0|-143.0|-57.0||"P-value for 90 days. A linear mixed effects model including treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU was prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-57|-143|<0.0001
92283094|NCT03561883|184470047|SUPERIORITY||Difference in Proportion Ratio|1.171||||0.4164|TWO_SIDED|95.0|0.8|1.714||Negative binomial model was used to deal with data overdispersion.|Negative binomial model||Difference in Proportion Ratio, (1500 mg IW-3718 BID + PPI) - (Placebo + PPI)|Poisson regression including the fixed categorical effect of treatment, the baseline esophagitis status (present vs. not present) and baseline WHSS (\<3 vs. ≥3), the covariate of baseline proportion of heartburn-free days, and with the diary entry duration (in days) as a weight variable adjusted in the model was applied.||1.714|0.800|0.4164
92248258|NCT00830960|184399349|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|15.0||||0.0072|TWO_SIDED|95.0|4.0|27.0||"P-value for 30 minutes post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||27|4|0.0072
92248259|NCT00830960|184399349|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|9.0||||0.0647|TWO_SIDED|95.0|-1.0|18.0||"P-value for 30 minutes post-LD Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||18|-1|0.0647
92248260|NCT00830960|184399349|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|11.0||||0.0054|TWO_SIDED|95.0|3.0|19.0||"P-value for 30 minutes post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||19|3|0.0054
92175737|NCT04324359|184243771|SUPERIORITY|||||||0.619|||||||z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level. P-value: based on Barnard's exact test for differences between proportions.||||||0.619
92175738|NCT04731818|184243878|SUPERIORITY||Mean Difference (Final Values)|0.0001|||<|0.0001|TWO_SIDED|||||analyzed by 1-way repeated measures analysis of variance (ANOVA) with post hoc Tukey multiple comparison test|ANOVA|1 way repeated measures ANOVA||||||<0.0001
92175739|NCT02618577|184243887|SUPERIORITY||adjusted cause-specific hazard ratio|0.81||||0.15|TWO_SIDED|95.0|0.6|1.08|||Cause-spec. Cox Proport. Hazard model|||||1.08|0.6|0.15
92175740|NCT02618577|184243888|SUPERIORITY||adjusted cause-specific hazard ratio|0.79|||||TWO_SIDED|95.0|0.45|1.39||||||||1.39|0.45|
92175741|NCT02618577|184243889|SUPERIORITY||adjusted cause-specific hazard ratio|0.89|||||TWO_SIDED|95.0|0.67|1.18||||||||1.18|0.67|
92175742|NCT02618577|184243890|SUPERIORITY||adjusted cause-specific hazard ratio|1.16||||0.28|TWO_SIDED|95.0|0.88|1.53|||Cause-spec. Cox Proport. Hazard model|||||1.53|0.88|0.28
92175743|NCT02618577|184243891|SUPERIORITY||adjusted cause-specific hazard ratio|2.1||||0.002|TWO_SIDED|95.0|1.3|3.38|||Cause-spec. Cox Proport. Hazard model|||||3.38|1.3|0.002
92175744|NCT02618577|184243892|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.02|0.01|||||Estimation Parameter: baseline adjusted trial-group specific effect estimates (mean difference)|EQ-5D-5L UK Index||0.01|-0.02|
92248261|NCT00830960|184399349|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|51.0|||<|0.0001|TWO_SIDED|95.0|36.0|66.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||66|36|<0.0001
92248262|NCT00830960|184399349|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|36.0|||<|0.0001|TWO_SIDED|95.0|23.0|48.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||48|23|<0.0001
92248263|NCT00830960|184399349|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|49.0|||<|0.0001|TWO_SIDED|95.0|36.0|61.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||61|36|<0.0001
92248264|NCT00830960|184399349|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|62.0|||<|0.0001|TWO_SIDED|95.0|47.0|76.0||"P-value for 4 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||76|47|<0.0001
92248265|NCT00830960|184399349|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|48.0|||<|0.0001|TWO_SIDED|95.0|36.0|59.0||"P-value for 4 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||59|36|<0.0001
92283095|NCT03561883|184470047|OTHER|Negative binomial model was used to deal with data overdispersion|Difference in Proportion Ratio|0.034|||||TWO_SIDED|95.0|-0.054|0.123|||||Difference in Proportion Ratio, (1500 mg IW-3718 BID + PPI) - (Placebo + PPI)|Poisson regression including the fixed categorical effect of treatment, the baseline esophagitis status (present vs. not present) and baseline WHSS (\<3 vs. ≥3), the covariate of baseline proportion of heartburn-free days, and with the diary entry duration (in days) as a weight variable adjusted in the model was applied.||0.123|-0.054|
92283096|NCT04646109|184470070|SUPERIORITY|||||||0.43||||||A p\<0.05 value was considered statistically significant|Chi-squared|||||||0.43
92283097|NCT04646109|184470071|SUPERIORITY|||||||0.14||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.14
92175745|NCT02618577|184243892|SUPERIORITY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-1.46|1.38|||||Estimation Parameter: baseline adjusted trial-group specific effect estimates (mean difference)|EQ-5D-5L VAS, FU 24months||1.38|-1.46|
92248266|NCT00830960|184399349|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|56.0|||<|0.0001|TWO_SIDED|95.0|44.0|68.0||"P-value for 4 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||68|44|<0.0001
92248267|NCT00830960|184399350|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|38.0|||<|0.0001|TWO_SIDED|95.0|27.0|50.0||"P-value for 30 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||50|27|<0.0001
92283098|NCT04646109|184470072|SUPERIORITY|||||||0.68||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.68
92248268|NCT00830960|184399350|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|32.0|||<|0.0001|TWO_SIDED|95.0|21.0|42.0||"P-value for 30 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||42|21|<0.0001
92283099|NCT04646109|184470073|SUPERIORITY|||||||0.15||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.15
92283100|NCT04646109|184470074|SUPERIORITY|||||||0.37||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.37
92283101|NCT04646109|184470075|SUPERIORITY|||||||0.12||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.12
92283102|NCT04646109|184470076|SUPERIORITY|||||||0.22||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.22
92283103|NCT04646109|184470079|SUPERIORITY|||||||0.1||||||A p\<0.05 value was considered statistically significant|Chi-squared|||||||0.10
92283104|NCT04646109|184470080|SUPERIORITY|||||||0.37||||||A p\<0.05 value was considered statistically significant|Chi-squared|||||||0.37
92248269|NCT00830960|184399350|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|17.0||||0.0026|TWO_SIDED|95.0|6.0|28.0||"P-value for 30 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||28|6|0.0026
92248270|NCT00830960|184399350|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|37.0|||<|0.0001|TWO_SIDED|95.0|24.0|50.0||"P-value for 30 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||50|24|<0.0001
92248271|NCT00830960|184399350|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|35.0||||0.0001|TWO_SIDED|95.0|18.0|52.0||"P-value for 90 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||52|18|0.0001
92248272|NCT00830960|184399350|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|28.0||||0.0005|TWO_SIDED|95.0|13.0|44.0||"P-value for 90 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||44|13|0.0005
92248273|NCT00830960|184399350|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|11.0||||0.1898|TWO_SIDED|95.0|-5.0|27.0||"P-value for 90 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||27|-5|0.1898
92248274|NCT00830960|184399350|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|32.0|||<|0.0001|TWO_SIDED|95.0|18.0|45.0||"P-value for 90 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||45|18|<0.0001
92248275|NCT00830960|184399352|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-110.0|||<|0.0001|TWO_SIDED|95.0|-143.0|-76.0||"Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect was used.~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-76|-143|<0.0001
92283105|NCT04646109|184470081|SUPERIORITY|||||||0.03||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.03
92283106|NCT04646109|184470082|SUPERIORITY|||||||0.39||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.39
92283107|NCT04646109|184470083|SUPERIORITY|||||||0.24||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.24
92248276|NCT00830960|184399352|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-92.0|||<|0.0001|TWO_SIDED|95.0|-123.0|-60.0||"Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect was used.~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-60|-123|<0.0001
92248277|NCT00830960|184399352|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-51.0||||0.002|TWO_SIDED|95.0|-83.0|-19.0||"Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect was used.~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-19|-83|0.0020
92248278|NCT00830960|184399359|SUPERIORITY_OR_OTHER|||||||0.255||95.0|||||Fisher Exact|||||||0.255
92248279|NCT00830960|184399359|SUPERIORITY_OR_OTHER|||||||0.427||95.0|||||Fisher Exact|||||||0.427
92248280|NCT00830960|184399359|SUPERIORITY_OR_OTHER|||||||0.683||95.0|||||Fisher Exact|||||||0.683
92248281|NCT00830960|184399359|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||Fisher Exact|||||||0.034
92248282|NCT02180217|184399365|OTHER||Odds Ratio (OR)|13.71|||<|0.001|TWO_SIDED|95.0|3.73|53.44|||Cochran-Mantel-Haenszel|||||53.44|3.73|<.001
92248283|NCT02703987|184399397|SUPERIORITY||Mean Difference (Net)|0.32|STANDARD_ERROR_OF_MEAN|0.17||0.0801|TWO_SIDED|95.0|-0.04|0.67|||Mixed Models Analysis|||||0.67|-0.04|0.0801
92283108|NCT04646109|184470084|SUPERIORITY|||||||0.56||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.56
92283109|NCT04646109|184470085|SUPERIORITY|||||||0.005||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.005
92283110|NCT04646109|184470086|SUPERIORITY|||||||0.03||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.03
92283111|NCT04646109|184470087|SUPERIORITY|||||||0.01||||||A p\<0.05 value was considered statistically significant|Chi-squared|||||||0.01
92283112|NCT06176768|184470089|SUPERIORITY||Odds Ratio (OR)|3.4||||0.316|TWO_SIDED|95.0|0.3|40.4|||Cochran-Mantel-Haenszel|||||40.4|0.3|0.316
92248284|NCT02703987|184399398|SUPERIORITY||Mean Difference (Net)|0.34|STANDARD_ERROR_OF_MEAN|0.18||0.0714|TWO_SIDED|95.0|-0.03|0.71|||Mixed Models Analysis|||||0.71|-0.03|0.0714
92283113|NCT06176768|184470090|SUPERIORITY||Least square mean difference|-6.77|STANDARD_ERROR_OF_MEAN|4.63||0.175|TWO_SIDED|95.0|-17.15|3.6|||Mixed Model Repeated Measures Analysis|||||3.60|-17.15|0.175
92283114|NCT06176768|184470091|SUPERIORITY||Least square mean difference|-2.36|STANDARD_ERROR_OF_MEAN|2.27||0.311|TWO_SIDED|95.0|-7.06|2.35|||Mixed Model Repeated Measures Analysis|||||2.35|-7.06|0.311
92248285|NCT02703987|184399399|SUPERIORITY||Mean Difference (Net)|9.56|STANDARD_ERROR_OF_MEAN|4.85||0.0609|TWO_SIDED|95.0|-0.48|19.6|||Mixed Models Analysis|||||19.6|-0.48|0.0609
92248286|NCT01309841|184399400|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.38||||0.015|TWO_SIDED|95.0|1.062|1.795|||Cochran-Mantel-Haenszel|||Analysis via Cochran Mantel-Haenszel test stratified by response to laxatives at baseline (LIR, LAR, LUR).||1.795|1.062|0.015
92248287|NCT01309841|184399400|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.509||||0.001|TWO_SIDED|95.0|1.168|1.949|||Cochran-Mantel-Haenszel|||Analysis via Cochran Mantel-Haenszel test stratified by response to laxatives at baseline (LIR, LAR, LUR).||1.949|1.168|0.001
92248288|NCT01309841|184399401|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.479||||0.028|TWO_SIDED|95.0|1.038|2.107||Response rate over Weeks 1 to 12 in the LIR subgroup is a key secondary endpoint included in the multiple testing procedure.|Cochran-Mantel-Haenszel|||||2.107|1.038|0.028
92248289|NCT01309841|184399401|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.691||||0.002|TWO_SIDED|95.0|1.205|2.373||Response rate over Weeks 1 to 12 in the LIR subgroup is a key secondary endpoint included in the multiple testing procedure.|Cochran-Mantel-Haenszel|||||2.373|1.205|0.002
92248290|NCT01309841|184399403|SUPERIORITY_OR_OTHER||LS mean difference|0.55|||<|0.001|TWO_SIDED|95.0|0.24|0.86|||Mixed Models Analysis|||Analysis via Mixed Model Repeated Measures (MMRM) with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.86|0.24|<0.001
92248291|NCT01309841|184399403|SUPERIORITY_OR_OTHER||Ls mean difference|0.82|||<|0.001|TWO_SIDED|95.0|0.51|1.13|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||1.13|0.51|<0.001
92248292|NCT01309841|184399404|SUPERIORITY_OR_OTHER||LS mean difference|-0.09||||0.176|TWO_SIDED|95.0|-0.23|0.04|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.04|-0.23|0.176
92283115|NCT03006978|184470100|SUPERIORITY||||||<|0.0001|||||||Simple mixed effects linear models|||||||<0.0001
92283116|NCT03006978|184470101|SUPERIORITY||||||<|0.0001|||||||Simple mixed effects linear models|||||||<0.0001
92283117|NCT03006978|184470102|SUPERIORITY||||||<|0.0001|||||||Simple mixed effects linear models|||||||<0.0001
92248293|NCT01309841|184399404|SUPERIORITY_OR_OTHER||LS mean difference|-0.18||||0.008|TWO_SIDED|95.0|-0.32|-0.05|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.05|-0.32|0.008
92248294|NCT01309841|184399405|SUPERIORITY_OR_OTHER||LS mean difference|0.05||||0.564|TWO_SIDED|95.0|-0.12|0.23|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.23|-0.12|0.564
92248295|NCT01309841|184399405|SUPERIORITY_OR_OTHER||LS mean difference|0.18||||0.042|TWO_SIDED|95.0|0.01|0.36|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.36|0.01|0.042
92248296|NCT01309841|184399406|SUPERIORITY_OR_OTHER||LS mean difference|3.87||||0.094|TWO_SIDED|95.0|-0.66|8.39|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||8.39|-0.66|0.094
92248297|NCT01309841|184399406|SUPERIORITY_OR_OTHER||LS mean difference|8.59|||<|0.001|TWO_SIDED|95.0|4.04|13.14|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||13.14|4.04|<0.001
92248298|NCT01309841|184399407|SUPERIORITY_OR_OTHER||LS mean difference|0.54||||0.011|TWO_SIDED|95.0|0.12|0.96|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.96|0.12|0.011
92248299|NCT01309841|184399407|SUPERIORITY_OR_OTHER||LS mean difference|0.99|||<|0.001|TWO_SIDED|95.0|0.57|1.41|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||1.41|0.57|<0.001
92248300|NCT01309841|184399409|SUPERIORITY_OR_OTHER||LS mean difference|-0.08||||0.273|TWO_SIDED|95.0|-0.21|0.06||Analysis for change in PAC-SYM total score from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.06|-0.21|0.273
92248301|NCT01309841|184399409|SUPERIORITY_OR_OTHER||LS mean difference|-0.12||||0.089|TWO_SIDED|95.0|-0.26|0.02||Analysis for change in PAC-SYM total score from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.02|-0.26|0.089
92283118|NCT03006978|184470103|SUPERIORITY||||||<|0.0001|||||||Simple mixed effects linear models|||||||<0.0001
92283119|NCT03006978|184470104|SUPERIORITY||||||<|0.0001|||||||Simple mixed effects linear models|||||||<0.0001
92287026|NCT02222818|184479238|NON_INFERIORITY_OR_EQUIVALENCE|In order to demonstrate that CAFRPlus is no less effective than CAFR by a non-inferiority margin of 2%, assuming a true paired difference of 6% and a standard deviation of 15% for the paired differences, a sample size of 39 subjects with paired data is required to achieve 90% statistical power using the one-sample t-test for non-inferiority, while controlling the one-sided type I error rate at 0.025.|Mean Difference (Net)|7.0|STANDARD_DEVIATION|8.7|<|0.0001|TWO_SIDED|95.86|4.5|9.5||The threshold for statistical significance was 0.0207, determined by the pre-specified alpha spending function accounting for one interim analysis.|t-test, 1 sided|||Null Hypothesis (Ho): μd ≤ -2% Alternative Hypothesis (Ha): μd \> -2% where μd is the paired difference in percent effective CRT pacing during AF between when CAFRPlus is applied and when CAFR is applied, based on subjects' paired measurements from the two cross-over follow-up periods, and -2% is the non-inferiority margin selected based upon clinical judgment.||9.5|4.5|<0.0001
92175746|NCT02618577|184243892|SUPERIORITY||Mean Difference (Final Values)|0.27|||||TWO_SIDED|95.0|-0.56|1.09|||||Estimation Parameter: baseline adjusted trial-group specific effect estimates (mean difference)|Karnofsky score||1.09|-0.56|
92248302|NCT01309841|184399409|SUPERIORITY_OR_OTHER||Slope|0.02||||0.849|TWO_SIDED|95.0|-0.14|0.17||Analysis for change in PAC-SYM abdominal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.17|-0.14|0.849
92248303|NCT01309841|184399409|SUPERIORITY_OR_OTHER||LS mean difference|-0.03||||0.749|TWO_SIDED|95.0|-0.18|0.13||Analysis for change in PAC-SYM abdominal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.13|-0.18|0.749
92248304|NCT01309841|184399409|SUPERIORITY_OR_OTHER||LS mean difference|-0.13||||0.062|TWO_SIDED|95.0|-0.26|0.01||Analysis for change in PAC-SYM rectal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.01|-0.26|0.062
92287027|NCT02222818|184479239|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.0|STANDARD_DEVIATION|8.7|<|0.0001|TWO_SIDED|95.86|4.5|9.5||The threshold for statistical significance was 0.0207, determined by the pre-specified alpha spending function accounting for one interim analysis.|t-test, 1 sided|||Null Hypothesis (Ho): μd ≤ 0% Alternative Hypothesis (Ha): μd \> 0% where μd is the paired difference in percent effective CRT pacing during AF between when CAFRPlus is applied and when CAFR is applied, based on subjects' paired measurements from the two cross-over follow-up periods.||9.5|4.5|<0.0001
92287028|NCT00835991|184479249|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|114.05||||||90.0|107.26|121.27|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||121.27|107.26|
92248305|NCT01309841|184399409|SUPERIORITY_OR_OTHER||LS mean difference|-0.21||||0.003|TWO_SIDED|95.0|-0.35|-0.07||Analysis for change in PAC-SYM rectal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.07|-0.35|0.003
92248306|NCT01309841|184399409|SUPERIORITY_OR_OTHER||LS mean difference|-0.11||||0.202|TWO_SIDED|95.0|-0.29|0.06||Analysis for change in PAC-SYM stool symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.06|-0.29|0.202
92248307|NCT01309841|184399409|SUPERIORITY_OR_OTHER||LS mean difference|-0.16||||0.072|TWO_SIDED|95.0|-0.34|0.01||Analysis for change in PAC-SYM stool symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.01|-0.34|0.072
92248308|NCT01309841|184399410|SUPERIORITY_OR_OTHER||LS mean difference|-0.02||||0.831|TWO_SIDED|95.0|-0.25|0.2|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Due to convergence issues, study pooled center is also included as a fixed, rather than random effect.||0.20|-0.25|0.831
92248309|NCT01309841|184399410|SUPERIORITY_OR_OTHER||LS mean difference|-0.18||||0.141|TWO_SIDED|95.0|-0.41|0.06|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Due to convergence issues, study pooled center is also included as a fixed, rather than random effect.||0.06|-0.41|0.141
92248310|NCT02475395|184399411|OTHER||Sensitivity|90.0|||||TWO_SIDED|95.0|79.9|95.3|||||Sensitivity estimates the percent true positive results obtained by Trak. Positive results are less than 15 M/mL sperm concentration and are part of a sub fertile diagnostic assessment.|||95.3|79.9|
92248311|NCT02475395|184399411|OTHER||Specificity|93.3|||||TWO_SIDED|95.0|88.7|96.1|||||Specificity is calculated by the percentage of true negative results obtained using Trak compared to reference method. Negative (for subfertility) results are greater than 15 M/mL.|||96.1|88.7|
92248312|NCT02475395|184399412|OTHER||Sensitivity|95.0|||||TWO_SIDED|95.0|86.3|98.3||||||||98.3|86.3|
92248313|NCT02475395|184399412|OTHER||Specificity|94.9|||||TWO_SIDED|95.0|90.6|97.3||||||||97.3|90.6|
92248314|NCT02475395|184399413|OTHER||Sensitivity|96.7|||||TWO_SIDED|95.0|88.7|99.1||||||||99.1|88.7|
92248315|NCT02475395|184399413|OTHER||Specificity|93.8|||||TWO_SIDED|95.0|89.2|96.5||||||||96.5|89.2|
92248316|NCT03103906|184399425|OTHER||Difference in proportion|2.56||||0.3334|TWO_SIDED|95.0|-19.99|25.07|||Chi-squared|||||25.07|-19.99|0.3334
92248317|NCT00764478|184399433|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-3.5|STANDARD_ERROR_OF_MEAN|1.41||0.0136|TWO_SIDED|95.0|-6.3|-0.7||Adjusted p-value from graphical approach to control Type 1 error rate among primary and secondary hypotheses|MMRM||Asenapine 5 mg BID minus Placebo BID|||-0.7|-6.3|0.0136
92175747|NCT02618577|184243893|SUPERIORITY||Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-1.12|0.87|||||Estimation Parameter: baseline adjusted trial-group specific effect estimates (mean difference)|PACT-Q convenience||0.87|-1.12|
92175748|NCT02618577|184243893|SUPERIORITY||Mean Difference (Final Values)|-1.04|||||TWO_SIDED|95.0|-2.6|0.52|||||Estimation Parameter: baseline adjusted trial-group specific effect estimates (mean difference)|PACT-Q satisfaction||0.52|-2.60|
92175749|NCT02618577|184243896|SUPERIORITY||adjusted cause-specific hazard ratio|0.51|||||TWO_SIDED|95.0|0.27|0.96||||||||0.96|0.27|
92175750|NCT02618577|184243897|SUPERIORITY||adjusted cause-specific hazard ratio|0.9|||||TWO_SIDED|95.0|0.62|1.31||||||||1.31|0.62|
92175751|NCT05192109|184243898|OTHER||||||<|0.01||||||This is the p-value for the simple effect of condition.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||<0.01
92175752|NCT05192109|184243898|OTHER|||||||0.93||||||This is the p-value for the simple effect of diagnostic group.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||0.93
92175753|NCT05192109|184243898|OTHER||||||<|0.01||||||This is the p-value for the interaction between condition and group.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||<0.01
92175754|NCT05192109|184243899|OTHER||||||<|0.01||||||This is the p-value for the simple effect of condition.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||<0.01
92248318|NCT00764478|184399433|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-4.0|STANDARD_ERROR_OF_MEAN|1.43||0.01|TWO_SIDED|95.0|-6.9|-1.2||Adjusted p-value from graphical approach to control Type 1 error rate among primary and secondary hypotheses|MMRM||Asenapine 10 mg BID minus Placebo BID|||-1.2|-6.9|0.0100
92248319|NCT00764478|184399434|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.16||0.01|TWO_SIDED|95.0|-0.8|-0.2||Adjusted p-value from Hochberg's method for testing two secondary efficacy hypotheses|MMRM||Asenapine 5 mg BID minus Placebo BID|||-0.2|-0.8|0.0100
92248320|NCT00764478|184399434|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.16||0.0052|TWO_SIDED|95.0|-0.9|-0.2||Adjusted p-value from Hochberg's method for testing two secondary efficacy hypotheses|MMRM||Asenapine 10 mg BID minus Placebo BID|||-0.2|-0.9|0.0052
92175755|NCT05192109|184243899|OTHER|||||||0.22||||||This is the p-value for the simple effect of group.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||0.22
92175756|NCT05192109|184243899|OTHER||||||<|0.01||||||This is the p-value for the interaction between condition and group.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||<0.01
92175757|NCT05623228|184243905|SUPERIORITY|||||||0||||||"Bonferroni correction p\<.05~F(1.25)=9.17 η=.254 (p\<.05)"|ANOVA|||||||.00
92248321|NCT00764478|184399435|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5352||||||Overall adjusted p-value from Hochberg's method for testing two secondary efficacy hypotheses|Cochran-Mantel-Haenszel|||||||0.5352
92248322|NCT00764478|184399435|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4274||||||Overall adjusted p-value from Hochberg's method for testing two secondary efficacy hypotheses|Cochran-Mantel-Haenszel|||||||0.4274
92248323|NCT00764478|184399436|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-2.7|STANDARD_ERROR_OF_MEAN|0.78||0.0007|TWO_SIDED|95.0|-4.2|-1.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 2||-1.1|-4.2|0.0007
92248324|NCT00764478|184399436|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.9|STANDARD_ERROR_OF_MEAN|0.79||0.0003|TWO_SIDED|95.0|-4.4|-1.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 2||-1.3|-4.4|0.0003
92248325|NCT00764478|184399436|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.6|STANDARD_ERROR_OF_MEAN|0.91|<|0.0001|TWO_SIDED|95.0|-5.4|-1.8|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||-1.8|-5.4|<0.0001
92175758|NCT05623228|184243905|SUPERIORITY|||||||0||||||Bonferroni correction p\<.05 F(2)=7.30 η=.213 (P\<.05)|ANOVA|||||||.00
92175759|NCT05623228|184243906|SUPERIORITY|||||||0.04||||||F(2)=3.20, η=.106 Bonferroni Correction p\<.05|ANOVA|||||||.04
92175760|NCT05623228|184243907|SUPERIORITY|||||||0||||||F(1,06)=8,11, η2=.231 Bonferroni correction p\<.05|ANOVA|||||||.00
92248326|NCT00764478|184399436|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.7|STANDARD_ERROR_OF_MEAN|0.92|<|0.0001|TWO_SIDED|95.0|-5.5|-1.9|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 4||-1.9|-5.5|<0.0001
92175761|NCT05623228|184243908|SUPERIORITY|||||||0.04||||||F(1,19)=4,30, η2=.137 Bonferroni correction p\<0.5|ANOVA|||||||.04
92175762|NCT05623228|184243909|SUPERIORITY|||||||0||||||t (38.70)|t-test, 1 sided|||||||.00
92248327|NCT00764478|184399436|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.5|STANDARD_ERROR_OF_MEAN|1.12||0.0021|TWO_SIDED|95.0|-5.7|-1.3|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-1.3|-5.7|0.0021
92248328|NCT00764478|184399436|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-4.2|STANDARD_ERROR_OF_MEAN|1.13||0.0002|TWO_SIDED|95.0|-6.4|-2.0|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||-2.0|-6.4|0.0002
92248329|NCT00764478|184399436|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.8|STANDARD_ERROR_OF_MEAN|1.35||0.1907|TWO_SIDED|95.0|-4.4|0.9|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.9|-4.4|0.1907
92248330|NCT00764478|184399436|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.1|STANDARD_ERROR_OF_MEAN|1.37||0.0238|TWO_SIDED|95.0|-5.8|-0.4|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.4|-5.8|0.0238
92248331|NCT00764478|184399437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2922|||||||Cochran-Mantel-Haenszel|||Day 2||||0.2922
92248332|NCT00764478|184399437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1001|||||||Cochran-Mantel-Haenszel|||Day 2||||0.1001
92248333|NCT00764478|184399437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0011
92248334|NCT00764478|184399437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0011
92248335|NCT00764478|184399437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0194|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0194
92248336|NCT00764478|184399437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0841|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0841
92248337|NCT00764478|184399437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4858|||||||Cochran-Mantel-Haenszel|||Day 14||||0.4858
92248338|NCT00764478|184399437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2496|||||||Cochran-Mantel-Haenszel|||Day 14||||0.2496
92248339|NCT00764478|184399438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2912|||||||Cochran-Mantel-Haenszel|||||||0.2912
92248340|NCT00764478|184399438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1151|||||||Cochran-Mantel-Haenszel|||||||0.1151
92248341|NCT00764478|184399440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019|||||||ANCOVA|||Day 7||||0.0019
92248342|NCT00764478|184399440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0045|||||||ANCOVA|||Day 7||||0.0045
92248343|NCT00764478|184399440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0112|||||||ANCOVA|||Day 21||||0.0112
92248344|NCT00764478|184399440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0021|||||||ANCOVA|||Day 21||||0.0021
92248345|NCT00764478|184399441|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.4|-0.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 2||-0.1|-0.4|<0.0001
92248346|NCT00764478|184399441|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.0076|TWO_SIDED|95.0|-0.3|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 2||-0.1|-0.3|0.0076
92248347|NCT00764478|184399441|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0004|TWO_SIDED|95.0|-0.6|-0.2|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||-0.2|-0.6|0.0004
92248348|NCT00764478|184399441|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.004|TWO_SIDED|95.0|-0.5|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 4||-0.1|-0.5|0.0040
92248349|NCT00764478|184399441|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0061|TWO_SIDED|95.0|-0.6|-0.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.1|-0.6|0.0061
92248350|NCT00764478|184399441|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0031|TWO_SIDED|95.0|-0.6|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||-0.1|-0.6|0.0031
92248351|NCT00764478|184399441|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1086|TWO_SIDED|95.0|-0.5|0.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.1|-0.5|0.1086
92248352|NCT00764478|184399441|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.0376|TWO_SIDED|95.0|-0.6|0.0|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.0|-0.6|0.0376
92248353|NCT00764478|184399442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005|||||||ANCOVA|||Day 2||||0.0005
92248354|NCT00764478|184399442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0026|||||||ANCOVA|||Day 2||||0.0026
92248355|NCT00764478|184399442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007|||||||ANCOVA|||Day 4||||0.0007
92248356|NCT00764478|184399442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|||||||ANCOVA|||Day 4||||0.0002
92248357|NCT00764478|184399442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0387|||||||ANCOVA|||Day 7||||0.0387
92248358|NCT00764478|184399442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0059|||||||ANCOVA|||Day 7||||0.0059
92248359|NCT00764478|184399442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.311|||||||ANCOVA|||Day 14||||0.3110
92248360|NCT00764478|184399442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0613|||||||ANCOVA|||Day 14||||0.0613
92248361|NCT00764478|184399442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064|||||||ANCOVA|||Day 21||||0.0640
92248362|NCT00764478|184399442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0139|||||||ANCOVA|||Day 21||||0.0139
92248363|NCT00764478|184399443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9708|||||||ANCOVA|||Day 2||||0.9708
92248364|NCT00764478|184399443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7891|||||||ANCOVA|||Day 2||||0.7891
92248365|NCT00764478|184399443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5222|||||||ANCOVA|||Day 4||||0.5222
92248366|NCT00764478|184399443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8686|||||||ANCOVA|||Day 4||||0.8686
92248367|NCT00764478|184399443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0696|||||||ANCOVA|||Day 7||||0.0696
92248368|NCT00764478|184399443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0049|||||||ANCOVA|||Day 7||||0.0049
92248369|NCT00764478|184399443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0196|||||||ANCOVA|||Day 14||||0.0196
92248370|NCT00764478|184399443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0032|||||||ANCOVA|||Day 14||||0.0032
92248371|NCT00764478|184399443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0061|||||||ANCOVA|||Day 21||||0.0061
92248372|NCT00764478|184399443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012|||||||ANCOVA|||Day 21||||0.0012
92248373|NCT00764478|184399444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0147|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0147
92248374|NCT00764478|184399444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.072|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0720
92248375|NCT00764478|184399444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1213|||||||Cochran-Mantel-Haenszel|||Day 4||||0.1213
92248376|NCT00764478|184399444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0588|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0588
92248377|NCT00764478|184399444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0200
92248378|NCT00764478|184399444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0017
92248379|NCT00764478|184399444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2401|||||||Cochran-Mantel-Haenszel|||Day 14||||0.2401
92248380|NCT00764478|184399444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|||||||Cochran-Mantel-Haenszel|||Day 14||||0.0009
92248381|NCT00764478|184399444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0525|||||||Cochran-Mantel-Haenszel|||Day 21||||0.0525
92248382|NCT00764478|184399444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0025|||||||Cochran-Mantel-Haenszel|||Day 21||||0.0025
92248383|NCT00764478|184399445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0377|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0377
92248384|NCT00764478|184399445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0771|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0771
92248385|NCT00764478|184399445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1264|||||||Cochran-Mantel-Haenszel|||Day 4||||0.1264
92248386|NCT00764478|184399445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0280
92248387|NCT00764478|184399445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0583|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0583
92248388|NCT00764478|184399445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0021|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0021
92248389|NCT00764478|184399445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0866|||||||Cochran-Mantel-Haenszel|||Day 14||||0.0866
92248390|NCT00764478|184399445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0048|||||||Cochran-Mantel-Haenszel|||Day 14||||0.0048
92248391|NCT00764478|184399445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0147|||||||Cochran-Mantel-Haenszel|||Day 21||||0.0147
92248392|NCT00764478|184399445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||Cochran-Mantel-Haenszel|||Day 21||||0.0030
92248393|NCT00764478|184399446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0104|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0104
92248394|NCT00764478|184399446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0005
92248395|NCT00764478|184399446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0692|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0692
92248396|NCT00764478|184399446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0128|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0128
92248397|NCT00764478|184399446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0809|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0809
92248398|NCT00764478|184399446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0260
92248399|NCT00764478|184399446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2576|||||||Cochran-Mantel-Haenszel|||Day 14||||0.2576
92248400|NCT00764478|184399446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0077|||||||Cochran-Mantel-Haenszel|||Day 14||||0.0077
92248401|NCT00764478|184399446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.396|||||||Cochran-Mantel-Haenszel|||Day 21||||0.3960
92248402|NCT00764478|184399446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0141|||||||Cochran-Mantel-Haenszel|||Day 21||||0.0141
92248403|NCT00764478|184399447|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-3.0|STANDARD_ERROR_OF_MEAN|1.06||0.0056|TWO_SIDED|95.0|-5.1|-0.9|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.9|-5.1|0.0056
92248404|NCT00764478|184399447|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.9|STANDARD_ERROR_OF_MEAN|1.08||0.0068|TWO_SIDED|95.0|-5.0|-0.8|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||-0.8|-5.0|0.0068
92248405|NCT00764478|184399447|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.4|STANDARD_ERROR_OF_MEAN|1.33||0.0743|TWO_SIDED|95.0|-5.0|0.2|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.2|-5.0|0.0743
92248406|NCT00764478|184399447|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.2|STANDARD_ERROR_OF_MEAN|1.35||0.0177|TWO_SIDED|95.0|-5.9|-0.6|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.6|-5.9|0.0177
92248407|NCT00764478|184399447|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.8|STANDARD_ERROR_OF_MEAN|1.41||0.0081|TWO_SIDED|95.0|-6.6|-1.0|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||-1.0|-6.6|0.0081
92248408|NCT00764478|184399447|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.2|STANDARD_ERROR_OF_MEAN|1.43||0.0247|TWO_SIDED|95.0|-6.1|-0.4|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.4|-6.1|0.0247
92248409|NCT00764478|184399448|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9808|TWO_SIDED|95.0|-0.6|0.6|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.6|-0.6|0.9808
92248410|NCT00764478|184399448|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.283|TWO_SIDED|95.0|-0.9|0.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.3|-0.9|0.2830
92175763|NCT05210608|184243919|SUPERIORITY||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|0.55||0.29|TWO_SIDED|95.0|-0.85|2.18||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||We analyzed whether significant changes occurred between baseline and the post-treatment assessment.||2.18|-.85|.29
92248411|NCT00764478|184399448|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.32||0.9751|TWO_SIDED|95.0|-0.6|0.6|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.6|-0.6|0.9751
92248412|NCT00764478|184399448|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.33||0.7879|TWO_SIDED|95.0|-0.6|0.7|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||0.7|-0.6|0.7879
92248413|NCT00764478|184399448|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.38||0.9654|TWO_SIDED|95.0|-0.8|0.7|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.7|-0.8|0.9654
92248414|NCT00764478|184399448|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.39||0.3917|TWO_SIDED|95.0|-0.4|1.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||1.1|-0.4|0.3917
92283120|NCT01606306|184470105|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||Rank-ordered logistic regression (ROLR) was used to model the probability of best response for each treatment and bootstrapping was used to calculate confidence intervals.|rank-order logistic regression|ROLR is in the class of Discrete Choice models, which seek to estimate the probability that an individual responds best to a specific treatments.||The primary analysis tested the null hypothesis of all three treatments having equal probability to yield the best response as defined by the criteria defining the primary outcome. A sample size of 300 participants was selected to test the primary null hypothesis of all three treatments having equal probability (one-third) to yield the best response with statistical power of at least 0.90 if any one of the three treatments actually has probability of at least one-half to yield the best response.|The probabilistic construct of the Discrete Choice (DC) model does not reflect individual behavior that is intrinsically probabilistic, but rather population heterogeneity. DC models rely on stochastic assumptions to account for unobserved factors related to the treatments themselves and to characteristics of study participants. Specifically, that each treatment has an underlying utility that may differ from one individual to another. Mathematically, these utilities are represented by U\_t, where t denotes the treatment. Utility can be thought of as a latent variable quantifying treatment response where higher values indicate better response. The U\_t can be used to find the probability (P) of best response for each treatment by the following equation: P\_t = exp(U\_t) / \[exp(U\_A) + exp(U\_B) + exp(U\_C)\], where A, B, and C, denote the three study treatments. The primary analysis tested whether the three treatments have equal utility and, thus, equal probability of best response.|||<0.0001
92283121|NCT00159965|184470106|SUPERIORITY_OR_OTHER||Risk Ratio, log|0.673|STANDARD_ERROR_OF_MEAN|0.369||0.29|TWO_SIDED|95.0|-0.051|1.396|||Overdispersed Poisson Regression|||Between-group seizure change. The primary hypothesis of this pilot randomized control trial (RCT) was to assess the magnitude of seizure frequency reduction by treatment, comparing placbo to sertraline. The alternative hypothesis is that patients treated with sertraline will show a significant decrease in seizures from baseline to exit.||1.396|-0.051|0.29
92283122|NCT00159965|184470106|SUPERIORITY_OR_OTHER||Risk Ratio, log|-0.598|STANDARD_ERROR_OF_MEAN|0.276||0.03|TWO_SIDED|95.0|-1.139|-0.073|||Overdispersed Poisson Regression|||Within-group seizure change. The hypothesis is that patients treated with sertraline will show a significant decrease in seizures from baseline to exit.||-0.073|-1.139|0.03
92283123|NCT00159965|184470106|SUPERIORITY_OR_OTHER||Risk Ratio, log|0.077|STANDARD_ERROR_OF_MEAN|0.252||0.78|TWO_SIDED|95.0|-0.431|0.571|||Overdispersed Poisson Regression|||Within-group seizure change. The hypothesis is that patients treated with placebo will not show a significant decrease in seizures from baseline to exit.||0.571|-0.431|0.78
92248415|NCT00764478|184399449|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-1.0|STANDARD_ERROR_OF_MEAN|0.41||0.012|TWO_SIDED|95.0|-1.8|-0.2|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.2|-1.8|0.0120
92248416|NCT00764478|184399449|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.4|STANDARD_ERROR_OF_MEAN|0.42||0.0011|TWO_SIDED|95.0|-2.2|-0.5|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||-0.5|-2.2|0.0011
92248417|NCT00764478|184399449|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.51||0.6885|TWO_SIDED|95.0|-1.2|0.8|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.8|-1.2|0.6885
92248418|NCT00764478|184399449|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.52||0.0398|TWO_SIDED|95.0|-2.1|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.1|-2.1|0.0398
92248419|NCT00764478|184399449|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.51||0.0258|TWO_SIDED|95.0|-2.1|-0.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||-0.1|-2.1|0.0258
92248420|NCT00764478|184399449|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.5|STANDARD_ERROR_OF_MEAN|0.51||0.0031|TWO_SIDED|95.0|-2.5|-0.5|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.5|-2.5|0.0031
92248421|NCT00764478|184399450|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-1.9|STANDARD_ERROR_OF_MEAN|0.64||0.0033|TWO_SIDED|95.0|-3.2|-0.6|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.6|-3.2|0.0033
92248422|NCT00764478|184399450|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.65||0.0622|TWO_SIDED|95.0|-2.5|0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.1|-2.5|0.0622
92248423|NCT00764478|184399450|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.1|STANDARD_ERROR_OF_MEAN|0.79||0.0083|TWO_SIDED|95.0|-3.6|-0.5|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||-0.5|-3.6|0.0083
92248424|NCT00764478|184399450|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.2|STANDARD_ERROR_OF_MEAN|0.8||0.0064|TWO_SIDED|95.0|-3.8|-0.6|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.6|-3.8|0.0064
92248425|NCT00764478|184399450|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.6|STANDARD_ERROR_OF_MEAN|0.84||0.0022|TWO_SIDED|95.0|-4.3|-0.9|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||-0.9|-4.3|0.0022
92248426|NCT00764478|184399450|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.0|STANDARD_ERROR_OF_MEAN|0.85||0.0196|TWO_SIDED|95.0|-3.7|-0.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.3|-3.7|0.0196
92248427|NCT00764478|184399451|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.1883|TWO_SIDED|95.0|-1.3|0.3|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.3|-1.3|0.1883
92248428|NCT00764478|184399451|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.4||0.1684|TWO_SIDED|95.0|-1.3|0.2|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.2|-1.3|0.1684
92248429|NCT00764478|184399451|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.46||0.9522|TWO_SIDED|95.0|-0.9|0.9|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.9|-0.9|0.9522
92248430|NCT00764478|184399451|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.47||0.0514|TWO_SIDED|95.0|-1.8|0.0|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||0.0|-1.8|0.0514
92248431|NCT00764478|184399451|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.47||0.0531|TWO_SIDED|95.0|-1.8|0.0|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.0|-1.8|0.0531
92248432|NCT00764478|184399451|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.3|STANDARD_ERROR_OF_MEAN|0.48||0.0078|TWO_SIDED|95.0|-2.2|-0.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.3|-2.2|0.0078
92248433|NCT00764478|184399452|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.32||0.7746|TWO_SIDED|95.0|-0.7|0.5|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.5|-0.7|0.7746
92283124|NCT00159965|184470107|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92283125|NCT00159965|184470108|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92283126|NCT00159965|184470109|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92248434|NCT00764478|184399452|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.32||0.2754|TWO_SIDED|95.0|-1.0|0.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.3|-1.0|0.2754
92283127|NCT00159965|184470110|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92248435|NCT00764478|184399452|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.34||0.9109|TWO_SIDED|95.0|-0.6|0.7|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.7|-0.6|0.9109
92248436|NCT00764478|184399452|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.34||0.7295|TWO_SIDED|95.0|-0.6|0.8|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||0.8|-0.6|0.7295
92248437|NCT00764478|184399452|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.38||0.98|TWO_SIDED|95.0|-0.7|0.8|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.8|-0.7|0.9800
92248438|NCT00764478|184399452|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.38||0.5122|TWO_SIDED|95.0|-0.5|1.0|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||1.0|-0.5|0.5122
92283128|NCT00159965|184470111|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92248439|NCT00764478|184399453|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.29||0.2191|TWO_SIDED|95.0|-0.9|0.2|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.2|-0.9|0.2191
92283129|NCT00159965|184470112|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92283130|NCT00159965|184470113|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92248440|NCT00764478|184399453|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.29||0.0589|TWO_SIDED|95.0|-1.1|0.0|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.0|-1.1|0.0589
92248441|NCT00764478|184399453|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.36||0.3683|TWO_SIDED|95.0|-1.0|0.4|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.4|-1.0|0.3683
92248442|NCT00764478|184399453|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.37||0.0982|TWO_SIDED|95.0|-1.3|0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||0.1|-1.3|0.0982
92248443|NCT00764478|184399453|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.1969|TWO_SIDED|95.0|-1.3|0.3|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.3|-1.3|0.1969
92248444|NCT00764478|184399453|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.39||0.5615|TWO_SIDED|95.0|-1.0|0.5|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||0.5|-1.0|0.5615
92248445|NCT00764478|184399454|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.33||0.0101|TWO_SIDED|95.0|-1.5|-0.2|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.2|-1.5|0.0101
92248446|NCT00764478|184399454|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.34||0.0146|TWO_SIDED|95.0|-1.5|-0.2|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||-0.2|-1.5|0.0146
92283131|NCT00159965|184470114|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92248447|NCT00764478|184399454|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.39||0.0861|TWO_SIDED|95.0|-1.4|0.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.1|-1.4|0.0861
92248448|NCT00764478|184399454|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.39||0.0342|TWO_SIDED|95.0|-1.6|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.1|-1.6|0.0342
92248449|NCT00764478|184399454|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.4||0.0037|TWO_SIDED|95.0|-2.0|-0.4|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||-0.4|-2.0|0.0037
92248450|NCT00764478|184399454|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.41||0.0096|TWO_SIDED|95.0|-1.9|-0.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.3|-1.9|0.0096
92248451|NCT00764478|184399455|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-1.0|STANDARD_ERROR_OF_MEAN|0.32||0.0019|TWO_SIDED|95.0|-1.7|-0.4|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.4|-1.7|0.0019
92283132|NCT00159965|184470115|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92248452|NCT00764478|184399455|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.33||0.0791|TWO_SIDED|95.0|-1.2|0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.1|-1.2|0.0791
92248453|NCT00764478|184399455|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.36||0.0006|TWO_SIDED|95.0|-2.0|-0.5|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||-0.5|-2.0|0.0006
92248454|NCT00764478|184399455|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.37||0.0123|TWO_SIDED|95.0|-1.6|-0.2|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.2|-1.6|0.0123
92248455|NCT00764478|184399455|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.41||0.0054|TWO_SIDED|95.0|-2.0|-0.3|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||-0.3|-2.0|0.0054
92248456|NCT00764478|184399455|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.41||0.035|TWO_SIDED|95.0|-1.7|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.1|-1.7|0.0350
92248457|NCT00862121|184399462|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.212||||0.231|TWO_SIDED|95.0|0.017|2.683|||Regression, Logistic|||The odds ratio (OR) for Baseline CDAI measures the effect of an increase of one unit on the outcome. The OR \[95% CI\] and p-value (likelihood-based) are for Pentasa versus placebo estimated in a logistic regression analysis including TREATMENT and CDAI at baseline as covariates. Power to demonstrate superiority of PENTASA Sachet 6 g/day over placebo in the primary efficacy analysis was 90% for a planned sample size of 255 participants per treatment arm (assuming 10% nonassessable participants).||2.683|0.017|0.231
92283133|NCT00159965|184470116|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92283134|NCT00159965|184470117|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92283135|NCT00159965|184470118|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92248458|NCT02007954|184399474|OTHER|||||||0.01||||||P-values \< 0.05 considered statistically significant.|t-test, 2 sided|||Shapiro-Wilk test was run for normality. Baseline and follow-up AFP compared using two-tailed Student's t-test.||||.01
92248459|NCT00804843|184399507|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.27||||0.811|TWO_SIDED|90.0|-0.24|0.78|||ANOVA|||||0.78|-0.24|0.811
92248460|NCT00804843|184399508|SUPERIORITY_OR_OTHER||Least Square Mean Difference|3.64||||0.898|TWO_SIDED|90.0|-1.09|8.36|||ANOVA|||||8.36|-1.09|0.898
92248461|NCT02678312|184399538|SUPERIORITY||Cox Proportional Hazard|1.0655||||0.7958|TWO_SIDED|95.0|0.6589|1.7232||The adjusted hazard ratio and the p-values are based on a Cox proportional hazard model, stratified by modified age group with treatment and NYHA/ROSS class group included as factor.|Cox Proportional Hazard|||||1.7232|0.6589|0.7958
92248462|NCT00010803|184399561|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|1.12||||0.21|TWO_SIDED|95.0|0.94|1.33|||Log Rank|Time to dementia in Ginkgo vs placebo groups. The Cox proportional hazards model was used to compute hazard ratios and log-rank tests.||The null hypothesis is that the instantaneous hazard rate for Ginkgo biloba and placebo are the same. Assumptions were based on 4%/yr dementia and 6%/yr mortality and dropout combined. A sample size of 3000 with an average follow up of 5 years resulted in 96% power to detecting a 30% reduction in the rate of dementia at a 2-sided significance level of 0.5.||1.33|0.94|0.21
92248463|NCT00010803|184399562|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|1.04||||0.7|TWO_SIDED|95.0|0.85|1.27|||Log Rank|||Total Mortality||1.27|0.85|0.70
92248464|NCT00010803|184399562|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|1.06||||0.78|TWO_SIDED|95.0|0.7|1.62|||Log Rank|||Atherosclerotic CHD mortality||1.62|0.70|0.78
92248465|NCT00010803|184399562|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|1.12||||0.54|TWO_SIDED|95.0|0.79|1.58|||Log Rank|||Incident Myocardial Infarction||1.58|0.79|0.54
92283136|NCT00159965|184470119|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92283137|NCT01993875|184470183|SUPERIORITY|||||||0.129||||||Treatment p-value is from an analysis of co-variance (ANCOVA) using the SBM rate as the dependent variable, treatment as fixed effect, and baseline rate as random effect.|ANCOVA|||||||0.1290
92283138|NCT01993875|184470184|SUPERIORITY|||||||0.129||||||Treatment p-value is from an ANCOVA using the SBM rate as the dependent variable, treatment as fixed effect, and baseline rate as random effect.|ANCOVA|||||||0.1290
92248466|NCT00010803|184399562|NON_INFERIORITY_OR_EQUIVALENCE|Previously Provided|Hazard Ratio (HR)|0.84||||0.32|TWO_SIDED|95.0|0.61|1.18|||Log Rank|||Incident Angina||1.18|0.61|0.32
92248467|NCT00010803|184399562|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|0.94||||0.66|TWO_SIDED|95.0|0.72|1.23|||Log Rank|||Incident CHD||1.23|0.72|0.66
92248468|NCT00010803|184399562|NON_INFERIORITY_OR_EQUIVALENCE|Previously Provided|Hazard Ratio (HR)|0.91||||0.48|TWO_SIDED|95.0|0.71|1.18|||Log Rank|||Incident CHF||1.18|0.71|0.48
92248469|NCT00010803|184399562|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|0.87||||0.25|TWO_SIDED|95.0|0.52|1.45|||Log Rank|||Incident Stroke||1.45|0.52|0.25
92248470|NCT00010803|184399562|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|0.87||||0.59|TWO_SIDED|95.0|0.52|1.45|||Log Rank|||Incident TIA||1.45|0.52|0.59
92248471|NCT00010803|184399562|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Cox Proportional Hazard|1.12||||0.42|TWO_SIDED|95.0|0.84|1.5|||Log Rank|||Incident CVD||1.50|0.84|0.42
92248472|NCT00010803|184399562|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.8|1.25|||Log Rank|||Total CHD and CVD combined||1.25|0.80|0.98
92248473|NCT00010803|184399563|SUPERIORITY_OR_OTHER||Treatment X Time interaction|-0.002||||0.65|TWO_SIDED|95.0|-0.009|0.005|||Mixed Models Analysis|||Linear mixed models comparing rates of change in global cognition scores (z-scores) by treatment group||0.005|-0.009|.65
92248474|NCT01779648|184399598|SUPERIORITY_OR_OTHER|||||||0.785||95.0|||||Chi-squared|||||||0.785
92283139|NCT01993875|184470185|SUPERIORITY|||||||0.2177||||||Treatment p-value is from an ANCOVA using the mean stool consistency score as the dependent variable, treatment as fixed effect, and the baseline consistency score as random effect.|ANCOVA|||||||0.2177
92283140|NCT01993875|184470186|SUPERIORITY|||||||0.2177||||||Treatment p-value is from an ANCOVA using the mean stool consistency score as the dependent variable, treatment as fixed effect, and the baseline consistency score as random effect.|ANCOVA|||||||0.2177
92175764|NCT05210608|184243919|SUPERIORITY||Mean Difference (Final Values)|1.92|STANDARD_ERROR_OF_MEAN|1.45||0.48|TWO_SIDED|95.0|-3.45|5.79||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||We analyzed whether significant changes occurred between baseline and the 1 month follow up||5.79|-3.45|.48
92248475|NCT01779648|184399599|SUPERIORITY_OR_OTHER|||||||0.195||95.0|||||t-test, 2 sided|||Mean of right and left leg values were compared between the two device groups.||||0.195
92248476|NCT01779648|184399600|SUPERIORITY_OR_OTHER|||||||0.722||95.0|||||t-test, 2 sided|||Mean of right and left leg values were compared between the two device groups.||||0.722
92248477|NCT01779648|184399601|SUPERIORITY_OR_OTHER|||||||0.158||95.0|||||t-test, 2 sided|||Mean of right and left leg values were compared between the two device groups.||||0.158
92248478|NCT01779648|184399602|SUPERIORITY_OR_OTHER|||||||0.301||95.0|||||t-test, 2 sided|||Mean of right and left leg values were compared between the two device groups.||||0.301
92248479|NCT01779648|184399603|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Age, sex, body mass index, and baseline TVF (total volume flow) are controlled as fixed-effects parameters.||||||<0.001
92248480|NCT01779648|184399604|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Age, sex, body mass index, and baseline PVF (peak volume flow) are controlled as fixed-effects parameters.||||||<0.001
92248481|NCT01779648|184399605|SUPERIORITY_OR_OTHER|||||||0.929||95.0|||||Mixed Models Analysis|Age, sex, body mass index, and baseline PV (peak velocity)are controlled as fixed-effects parameters.||||||0.929
92248482|NCT01779648|184399607|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Mixed Models Analysis|Age, sex, body mass index, and baseline peak volume flow are controlled as fixed-effects parameters.||||||0.008
92248483|NCT01779648|184399608|SUPERIORITY_OR_OTHER|||||||0.132||95.0|||||Mixed Models Analysis|Age, sex, body mass index, and baseline total volume flow are controlled as fixed-effects parameters.||||||0.132
92248484|NCT01878097|184399610|SUPERIORITY||F-stat|7.12||||0.0003|TWO_SIDED||||||Mixed Models Analysis|||||||0.0003
92248485|NCT01878097|184399611|SUPERIORITY||F-stat|7.18||||0.0003|TWO_SIDED||||||Mixed Models Analysis|||||||0.0003
92248486|NCT01595438|184399614|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Difference of symp resolution rates|4.0|||||TWO_SIDED|95.0|-2.39|10.42|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of symptomatic resolution rates ≤ non-inferiority margin||10.42|-2.39|
92248487|NCT01595438|184399615|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Diff of favorable combined resp rates|6.7|||||TWO_SIDED|95.0|0.3|13.12|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable combined response rates ≤ non-inferiority margin||13.12|0.30|
92248488|NCT01595438|184399616|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Diff of favorable response rates|6.4|||||TWO_SIDED|95.0|0.33|12.36|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates ≤ non-inferiority margin||12.36|0.33|
92248489|NCT01595438|184399617|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.4|||||TWO_SIDED|95.0|-2.7|3.56|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||3.56|-2.70|
92248490|NCT01595438|184399618|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.3|||||TWO_SIDED|95.0|0.68|13.81|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||13.81|0.68|
92248491|NCT01595438|184399619|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.2|||||TWO_SIDED|95.0|-1.21|1.72|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||1.72|-1.21|
92248492|NCT01595438|184399620|SUPERIORITY_OR_OTHER||Diff of favorable response rates|8.8|||||TWO_SIDED|95.0|2.27|15.24|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||15.24|2.27|
92248493|NCT01595438|184399621|SUPERIORITY_OR_OTHER||Diff of favorable response rates|10.9|||||TWO_SIDED|95.0|2.86|18.85|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||18.85|2.86|
92248494|NCT01595438|184399622|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.2|||||TWO_SIDED|95.0|-1.17|1.68|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||1.68|-1.17|
92248495|NCT01595438|184399623|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.3|||||TWO_SIDED|95.0|0.88|13.74|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||13.74|0.88|
92248496|NCT01595438|184399624|SUPERIORITY_OR_OTHER||Diff of favorable response rates|9.7|||||TWO_SIDED|95.0|1.72|17.55|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||17.55|1.72|
92248497|NCT01595438|184399625|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.4|||||TWO_SIDED|95.0|-4.07|1.02|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||1.02|-4.07|
92248498|NCT01595438|184399626|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-0.1|||||TWO_SIDED|95.0|-4.23|4.03|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.03|-4.23|
92248499|NCT01595438|184399627|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.3|||||TWO_SIDED|95.0|-3.71|6.3|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||6.30|-3.71|
92248500|NCT01595438|184399628|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.3|||||TWO_SIDED|95.0|-3.64|0.55|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||0.55|-3.64|
92248501|NCT01595438|184399629|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.2|||||TWO_SIDED|95.0|-2.03|4.56|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.56|-2.03|
92248502|NCT01595438|184399630|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|2.2|||||TWO_SIDED|95.0|-2.9|7.24|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||7.24|-2.90|
92248503|NCT01595438|184399631|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.9|||||TWO_SIDED|95.0|-4.3|0.04|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||0.04|-4.30|
92283141|NCT01993875|184470187|SUPERIORITY|||||||0.0664||||||Treatment p-value is from an ANCOVA using the mean straining score as the dependent variable, treatment as fixed effect, and the baseline straining score as random effect.|ANCOVA|||||||0.0664
92175765|NCT05210608|184243920|SUPERIORITY||Mean Difference (Final Values)|37.7|STANDARD_ERROR_OF_MEAN|14.8|=|0.015|TWO_SIDED|95.0|19.9|102.1||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||We analyzed whether there were significant differences in number of total cigarettes smoked per week from baseline to Post-treatment.||102.10|19.90|=0.015
92175766|NCT05210608|184243920|SUPERIORITY||Mean Difference (Final Values)|17.03|STANDARD_ERROR_OF_MEAN|24.69||0.08|TWO_SIDED|95.0|-14.57|142.57|||t-test, 2 sided|||We analyzed whether there were significant differences in number of total cigarettes smoked per week from baseline to 1 month follow-up.||142.57|-14.57|.08
92175767|NCT05210608|184243921|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|3.64||0.9|TWO_SIDED|95.0|-9.86|8.86|||t-test, 2 sided|||We analyzed whether there were significant differences in carbon monoxide ppm from baseline to Post-treatment.||8.86|-9.86|.90
92175768|NCT05210608|184243921|SUPERIORITY||Mean Difference (Final Values)|-12.3|STANDARD_ERROR_OF_MEAN|11.29||0.32|TWO_SIDED|95.0|-49.42|22.42|||t-test, 2 sided|||We analyzed whether there were significant difference in carbon monoxide ppm from baseline to the 1 month follow-up.||22.42|-49.42|.32
92175769|NCT05210608|184243922|SUPERIORITY||Mean Difference (Final Values)|-2.72|STANDARD_ERROR_OF_MEAN|4.36||0.18|TWO_SIDED|95.0|-5.1|19.1|||t-test, 2 sided|||We analyzed whether there were significant differences in working memory scores from baseline to post-treatment.||19.10|-5.10|.18
92175770|NCT05210608|184243922|SUPERIORITY||Mean Difference (Final Values)|-12.64|STANDARD_ERROR_OF_MEAN|5.14||0.18|TWO_SIDED|95.0|-25.38|7.38|||t-test, 2 sided|||We analyzed whether there were significant differences in working memory scores from baseline to the 1 month follow up.||7.38|-25.38|.18
92175771|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.998|TWO_SIDED|95.0|-17.81|17.86|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 15 minutes post injection||17.86|-17.81|0.998
92175772|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.445|TWO_SIDED|95.0|-24.73|10.93||The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.|Mixed Model Repeated Measures.|||Outcome Measure at 15 minutes post injection||10.93|-24.73|0.445
92175773|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|2.51||||0.781|TWO_SIDED|95.0|-15.33|20.36||The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.|Mixed Model Repeated Measures.|||Outcome Measure at 15 minutes post injection||20.36|-15.33|0.781
92175774|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|-3.09||||0.732|TWO_SIDED|95.0|-20.93|14.75||The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.|Mixed Model Repeated Measures.|||Outcome Measure at 15 minutes post injection||14.75|-20.93|0.732
92175775|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|11.3||||0.212|TWO_SIDED|95.0|-6.53|29.14||The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.|Mixed Model Repeated Measures.|||Outcome Measure at 15 minutes post injection||29.14|-6.53|0.212
92175776|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|-6.44||||0.476|TWO_SIDED|95.0|-24.27|11.39|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 15 minutes post injection||11.39|-24.27|0.476
92175777|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.962|TWO_SIDED|95.0|-17.4|18.26|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 15 minutes post injection||18.26|-17.40|0.962
92175778|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|12.1||||0.211|TWO_SIDED|95.0|-6.96|31.16|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||31.16|-6.96|0.211
92175779|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|2.67||||0.782|TWO_SIDED|95.0|-16.4|21.73|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||21.73|-16.40|0.782
92175780|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|14.72||||0.129|TWO_SIDED|95.0|-4.34|33.78|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||33.78|-4.34|0.129
92175781|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|13.27||||0.171|TWO_SIDED|95.0|-5.8|32.35|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||32.35|-5.80|0.171
92175782|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|15.56||||0.108|TWO_SIDED|95.0|-3.49|34.62|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||34.62|-3.49|0.108
92175783|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|4.24||||0.661|TWO_SIDED|95.0|-14.83|23.3|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||23.30|-14.83|0.661
92175784|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|14.21||||0.142|TWO_SIDED|95.0|-4.85|33.27|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||33.27|-4.85|0.142
92175785|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|11.98||||0.216|TWO_SIDED|95.0|-7.08|31.04|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||31.04|-7.08|0.216
92248504|NCT01595438|184399632|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.1|||||TWO_SIDED|95.0|-2.07|4.32|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.32|-2.07|
92248505|NCT01595438|184399633|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|2.0|||||TWO_SIDED|95.0|-2.94|6.91|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||6.91|-2.94|
92248506|NCT01595438|184399634|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-0.1|||||TWO_SIDED|95.0|-1.99|1.61|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||1.61|-1.99|
92248507|NCT01595438|184399635|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|3.7|||||TWO_SIDED|95.0|0.41|7.16|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||7.16|0.41|
92248508|NCT01595438|184399636|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|4.0|||||TWO_SIDED|95.0|-1.0|9.05|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||9.05|-1.00|
92248509|NCT01595438|184399637|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|0.0|||||TWO_SIDED|95.0|-10.4|10.1|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||10.1|-10.4|
92248510|NCT01595438|184399638|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|1.4|||||TWO_SIDED|95.0|-7.8|10.2|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||10.2|-7.8|
92248511|NCT01595438|184399639|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|1.2|||||TWO_SIDED|95.0|-7.5|9.2|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||9.2|-7.5|
92248512|NCT01595438|184399640|SUPERIORITY_OR_OTHER||Diff of favorable response rates|2.0|||||TWO_SIDED|95.0|-13.18|16.89|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||16.89|-13.18|
92248513|NCT01595438|184399641|SUPERIORITY_OR_OTHER||Diff of favorable response rates|8.0|||||TWO_SIDED|95.0|-10.03|25.21|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||25.21|-10.03|
92283142|NCT01993875|184470188|SUPERIORITY|||||||0.0664||||||Treatment p-value is from an ANCOVA using the mean straining score as the dependent variable, treatment as fixed effect, and the baseline mean score as random effect.|ANCOVA|||||||0.0664
92175786|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|7.38||||0.445|TWO_SIDED|95.0|-11.71|26.48|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||26.48|-11.71|0.445
92175787|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|16.13||||0.096|TWO_SIDED|95.0|-2.92|35.19|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||35.19|-2.92|0.096
92175788|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|11.89||||0.22|TWO_SIDED|95.0|-7.19|30.96|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||30.96|-7.19|0.220
92175789|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|12.71||||0.189|TWO_SIDED|95.0|-6.35|31.78|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||31.78|-6.35|0.189
92248514|NCT01595438|184399642|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.5|||||TWO_SIDED|95.0|-9.91|24.01|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||24.01|-9.91|
92248515|NCT01595438|184399643|SUPERIORITY_OR_OTHER|||||||0.038|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.038
92248516|NCT01595438|184399644|SUPERIORITY_OR_OTHER|||||||0.129|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.129
92248517|NCT01595438|184399645|SUPERIORITY_OR_OTHER|||||||0.08|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.080
92248518|NCT01595438|184399646|SUPERIORITY_OR_OTHER|||||||0.155|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.155
92248519|NCT04426890|184399705|EQUIVALENCE|Therapeutic equivalence was declared if the two-sided 90% confidence interval (CI) for the treatment difference was entirely within an equivalence margin of \[-2.5, 2.0\].|Mean Difference (Net)|0.7|||||TWO_SIDED|90.0|-0.22|1.63||||||The statistical analysis of mean change from baseline in ISS7 at Week 12 between CT-P39 300 mg treatment arm (Arm 1) and Xolair 300 mg treatment arm (Arm 2), using ANCOVA with multiple imputation based on the MAR assumption was performed for the mITT Set.||1.63|-0.22|
92248520|NCT02016898|184399728|OTHER||Risk Ratio (RR)|0.93||||0.7|TWO_SIDED|95.0|0.67|1.29|||Chi-squared|||||1.29|0.67|0.7
92248521|NCT02016898|184399729|OTHER||Median Difference (Final Values)|0.2|STANDARD_DEVIATION|2.01||0.539|TWO_SIDED||||||t-test, 1 sided|||||||0.539
92248522|NCT03859960|184399730|OTHER|||||||0.006|||||||Pearson correlation test|||||||0.006
92248523|NCT03859960|184399730|OTHER|||||||0.23||||||p\<0.05 was considered statisticaly significant.|Pearson correlation test|||||||0.23
92248524|NCT03859960|184399731|OTHER|||||||0.001||||||p\<0.05 was considered statisticaly significant.|Pearson correlation test|||||||0.001
92248525|NCT03859960|184399731|OTHER|||||||0.731|||||||Pearson correlation test|||||||0.731
92248526|NCT03859960|184399732|OTHER|||||||0.214|||||||Pearson correlation test|||||||0.214
92248527|NCT03859960|184399732|OTHER|||||||0.993||||||p\<0.05 was considered statisticaly significant.|Pearson correlation test|||||||0.993
92248528|NCT03859960|184399733|OTHER|||||||0.41|||||||Pearson correlation test|||||||0.41
92248529|NCT03859960|184399733|OTHER|||||||0.676|||||||Pearson correlation test|||||||0.676
92248530|NCT03859960|184399734|OTHER|||||||0.511||||||p\<0.05 was considered statisticaly significant.|Pearson correlation test|||||||0.511
92248531|NCT03859960|184399734|OTHER|||||||0.248|||||||Pearson correlation test|||||||0.248
92248532|NCT03859960|184399735|OTHER|||||||0.654|||||||Pearson correlation test|||||||0.654
92248533|NCT03859960|184399735|OTHER|||||||0.025|||||||Pearson correlation test|||||||0.025
92248534|NCT02855450|184399747|SUPERIORITY||Least square means difference|4.7||||0.04|TWO_SIDED|95.0|0.2|9.2|||ANCOVA|Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.||These statistics refer to Day 7 and primary eye||9.2|0.2|0.040
92248535|NCT02855450|184399747|SUPERIORITY||least square mean difference|2.4||||0.457|TWO_SIDED|95.0|-4.1|9.0||Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.|ANCOVA|||These statistics refer to Day 28 and primary eye||9.0|-4.1|0.457
92248536|NCT02855450|184399747|SUPERIORITY||least square mean difference|4.0||||0.283|TWO_SIDED|95.0|-3.5|11.5||Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.|ANCOVA|||These statistics refer to Day 56 and primary eye||11.5|-3.5|0.283
92248537|NCT02855450|184399747|SUPERIORITY|Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.|Least square means difference|3.5||||0.147|TWO_SIDED|95.0|-1.3|8.3|||ANCOVA|||These statistics refer to Day 7 and secondary eye||8.3|-1.3|0.147
92248538|NCT02855450|184399747|SUPERIORITY|Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.|least square mean difference|3.0||||0.421|TWO_SIDED|95.0|-4.4|10.4|||ANCOVA|||These statistics refer to Day 28 and secondary eye||10.4|-4.4|0.421
92175790|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|-2.67||||0.782|TWO_SIDED|95.0|-21.75|16.41|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||16.41|-21.75|0.782
92248539|NCT02855450|184399747|SUPERIORITY|Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.|least square mean difference|4.3||||0.327|TWO_SIDED|95.0|-4.4|13.0|||ANCOVA|||These statistics refer to Day 56 and secondary eye||13.0|-4.4|0.327
92248540|NCT01376245|184399764|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.14|||<|0.001|TWO_SIDED|95.0|0.089|0.191|||Mixed Models Analysis|Restricted Maximum Likelihood (REML)-based repeated measures approach (MMRM)||||0.191|0.089|<0.001
92248541|NCT01376245|184399764|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.179|||<|0.001|TWO_SIDED|95.0|0.129|0.23|||Mixed Models Analysis|Restricted Maximum Likelihood (REML)-based repeated measures approach (MMRM)||||0.230|0.129|<0.001
92248542|NCT01376245|184399764|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.194|||<|0.001|TWO_SIDED|95.0|0.143|0.245|||Mixed Models Analysis|Restricted Maximum Likelihood (REML)-based repeated measures approach (MMRM)||||0.245|0.143|<0.001
92248543|NCT01357889|184399786|NON_INFERIORITY_OR_EQUIVALENCE|To establish BE, the 90% CI for the ratio of Process 3 (P3) to Process 2 (P2) geometric least squares means (LSMs) for AUC (0-inf) must have fallen within the BE limit of 0.8 and 1.25.|Ratio of Geometric LSMs (P3:P2)|0.937|||||TWO_SIDED|90.0|0.842|1.042|||ANOVA|||||1.042|0.842|
92248544|NCT01357889|184399787|NON_INFERIORITY_OR_EQUIVALENCE|To establish BE, the 90% CI for the ratio of Process 3:Process 2 geometric least squares means for Cmax must have fallen within the BE limit of 0.8 and 1.25.|Ratio of Geometric LSMs (P3:P2)|0.927|||||TWO_SIDED|90.0|0.813|1.056|||ANOVA|||||1.056|0.813|
92248545|NCT01170221|184399800|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the observed difference in the primary outcome measure (early clinical response at the 48-72 Hour Visit) between the tedizolid group and the linezolid group was calculated using the ITT analysis set. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10%.|Risk Difference (RD)|0.1||||||95.0|-6.1|6.2|||||Risk difference corresponds to tedizolid clinical response rate minus linezolid clinical response rate. The confidence interval was calculated using the Miettinen and Nurminen with stratification for the presence or absence of fever at baseline.|The primary objective is to determine the noninferiority in the early clinical response rate of oral tedizolid phosphate compared with that of oral linezolid treatment at the 48-72 Hour Visit in the ITT Analysis Set in patients with ABSSSI.||6.2|-6.1|
92248546|NCT01170221|184399801|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI will be calculated for the observed differences in the clinical response rate based on the sustained response at EOT using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-2.6|||||TWO_SIDED|95.0|-9.6|4.2||Hierarchical testing procedure of Westfall and Krishen used to control for inflation of the overall type I error rate. If NI is declared for the primary, NI will be tested for the secondary outcomes in this order: Secondary Outcomes Measures 2 to 5.|||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|||4.2|-9.6|
92248547|NCT01170221|184399802|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the sustained response at EOT using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-0.9|||||TWO_SIDED|95.0|-7.7|5.4|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|||5.4|-7.7|
92248548|NCT01170221|184399803|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical success rate based on the Investigator's assessment of clinical response at the PTE visit using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-0.5|||||TWO_SIDED|95.0|-5.8|4.9|||||Risk difference corresponds to the tedizolid clinical success rate minus the linezolid clinical success rate.|||4.9|-5.8|
92248549|NCT01170221|184399804|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical success rate based on the Investigator's assessment of clinical response at the PTE visit using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-0.8|||||TWO_SIDED|95.0|-4.6|3.0|||||Risk difference corresponds to the tedizolid clinical success rate minus the linezolid clinical success rate.|||3.0|-4.6|
92248550|NCT01170221|184399805|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.5|||||TWO_SIDED|95.0|-1.4|8.5|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the Investigator's assessment of clinical response at the 48-72 Hour Visit using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline.||8.5|-1.4|
92248551|NCT01170221|184399806|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.7|||||TWO_SIDED|95.0|-2.8|6.4|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the Investigator's assessment of clinical response at the Day 7 Visit using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline.||6.4|-2.8|
92248552|NCT02940626|184399850|OTHER|||||||0.547|||||||Wald Test on equality of proportions|||Subjects were analyzed for efficacy in the group to which they randomized. Sponsor defined outcomes were based on review of microbiology results from samples tested at the central lab. If sample was not sent to the central lab., determination was based on results from the local microbiology lab. In cases where both local \& central lab results were available, concordance was confirmed for S. aureus. Therefore, the analysis used local microbiology data in order to utilize a more complete dataset.||||.5470
92248553|NCT00138424|184399894|SUPERIORITY_OR_OTHER||Spearman Correlation|0.24||||0.57|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK Cmax parameter||||0.57
92248554|NCT00138424|184399894|SUPERIORITY_OR_OTHER||Spearman Correlation|0.26||||0.53|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK Cmax parameter||||0.53
92248555|NCT00138424|184399894|SUPERIORITY_OR_OTHER||Spearman Correlation|-0.3||||0.62|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK Cmax parameter||||0.62
92248556|NCT00138424|184399894|SUPERIORITY_OR_OTHER||Spearman Correlation|0.8||||0.1|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK Cmax parameter||||0.10
92248557|NCT00138424|184399895|SUPERIORITY_OR_OTHER||Spearman Correlation|0.07||||0.87|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK AUC4 parameter||||0.87
92287029|NCT00835991|184479250|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.63||||||90.0|97.59|103.76|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.76|97.59|
92248558|NCT00138424|184399895|SUPERIORITY_OR_OTHER||Spearman Correlation|0.31||||0.46|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK AUC4 parameter||||0.46
92248559|NCT00138424|184399895|SUPERIORITY_OR_OTHER||Spearman Correlation|-0.41||||0.49|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK AUC4 parameter||||0.49
92248560|NCT00138424|184399895|SUPERIORITY_OR_OTHER||Spearman Correlation|0.87||||0.05|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK AUC4 parameter||||0.05
92175791|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|6.1||||0.528|TWO_SIDED|95.0|-12.98|25.18|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||25.18|-12.98|0.528
92175792|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|2.34||||0.795|TWO_SIDED|95.0|-15.45|20.12|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||20.12|-15.45|0.795
92175793|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|-6.13||||0.497|TWO_SIDED|95.0|-23.96|11.69|||mean difference|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||11.69|-23.96|0.497
92248561|NCT00138424|184399895|SUPERIORITY_OR_OTHER||Spearman Correlation|0.12||||0.78|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK AUC12 parameter||||0.78
92248562|NCT00138424|184399895|SUPERIORITY_OR_OTHER||Spearman Correlation|0.52||||0.18|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK AUC12 parameter||||0.18
92248563|NCT00138424|184399895|SUPERIORITY_OR_OTHER||Spearman Correlation|0.2||||0.75|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK AUC12 parameter||||0.75
92175794|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|7.44||||0.409|TWO_SIDED|95.0|-10.34|25.21|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||25.21|-10.34|0.409
92248564|NCT00138424|184399895|SUPERIORITY_OR_OTHER||Spearman Correlation|0.2||||0.75|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK AUC12 parameter||||0.75
92248565|NCT01802554|184399896|SUPERIORITY_OR_OTHER|||||||0.039|||||||Mixed Models Analysis|||||||.039
92248566|NCT01802554|184399897|SUPERIORITY_OR_OTHER|||||||0.701|||||||Mixed Models Analysis|||||||.701
92175795|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|7.89||||0.382|TWO_SIDED|95.0|-9.92|25.7|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||25.70|-9.92|0.382
92175796|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|7.74||||0.39|TWO_SIDED|95.0|-10.05|25.54|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||25.54|-10.05|0.390
92175797|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|-3.72||||0.68|TWO_SIDED|95.0|-21.54|14.1|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||14.10|-21.54|0.680
92248567|NCT01802554|184399898|SUPERIORITY_OR_OTHER|||||||0.04|||||||Mixed Models Analysis|||||||.04
92248568|NCT01802554|184399899|SUPERIORITY_OR_OTHER|||||||0.268|||||||Mixed Models Analysis|||||||.268
92248569|NCT01802554|184399900|SUPERIORITY_OR_OTHER|||||||0.021|||||||Mixed Models Analysis|||||||.021
92287030|NCT00835991|184479251|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|101.36||||||90.0|98.32|104.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.48|98.32|
92248570|NCT02431468|184399939|SUPERIORITY||Mean Difference (Net)|6.5|||<|0.1|TWO_SIDED|80.0||||LSM and two-sided 80% CI were provided for treatment group differences and estimated endpoint values. A true mean difference in change from baseline in the SIB (one-sided at α=0.10) of at least 6.5 points in favor of bryostatin groups was assumed.|t-test, 1 sided|||The primary statistical objective for efficacy was to estimate the effect of bryostatin on the mean change in the Severe Impairment Battery (SIB) after 12 weeks of treatment. A linear model was used for both estimation and significance testing. Primary analysis populations were defined as the Full Analysis Set (FAS) and the Completer Analysis Set (CAS)||||<0.1
92248571|NCT02431468|184399939|SUPERIORITY||Mean Difference (Net)|6.5|||<|0.1|TWO_SIDED|80.0|||||t-test, 1 sided|||Change from baseline in SIB in the Completer Analysis Set (CAS)||||<0.1
92248572|NCT01056341|184399942|SUPERIORITY_OR_OTHER||||||<|0.0001||||||"P-value not adjusted for multiplicity. An Independent Committee conducted this analysis to determine the most efficacious of all arms with a good safety profile.~P-value linked to the 3 mg/kg/day 6 months selected arm ."|One-sided Z-tests|One-sided Z-tests for proportions (contrasts tests on placebo) with pooled variance||The interim analysis was carried out after the first 188 patients have completed their W24 visit or been withdrawn prematurely from study therapy. For each propranolol arm, individual hypotheses H0,i: θi≤0||||< 0.0001
92248573|NCT01056341|184399943|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The methodology used guaranteed that the familywise type I error rate was below the nominal one-sided significance level of 0.005.|combination tests|Superiority was tested using the closed testing procedure and combination tests for all intersection hypotheses using Simes' adjustment.||"The objective is to test the superiority of the selected arm using the approach of Posch et al.~The primary analysis was performed on the intent-to-treat population: all treated patients in Stage 1 and all treated patients in stage 2 randomized to placebo or the selected arm."||||< 0.0001
92248574|NCT01167582|184399957|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Day 1 Post Randomization||||<0.001
92248575|NCT01167582|184399957|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Day 2 Post Randomization||||<0.001
92248576|NCT01167582|184399957|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Day 3 Post Randomization||||<0.001
92175798|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.927|TWO_SIDED|95.0|-16.99|18.65|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||18.65|-16.99|0.927
92248577|NCT01167582|184399958|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92248578|NCT01167582|184399959|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.38|||||TWO_SIDED|95.0|0.99|5.73|||||Restrictive Arm (numerator) compared to Liberal Arm (denominator)|||5.73|0.99|
92175799|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|6.02||||0.508|TWO_SIDED|95.0|-11.95|23.98||The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.|Mixed Model Repeated Measures.|||Outcome Measure at 120 minutes post injection||23.98|-11.95|0.508
92175800|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|-3.65||||0.688|TWO_SIDED|95.0|-21.66|14.35|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||14.35|-21.66|0.688
92175801|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|16.08||||0.079|TWO_SIDED|95.0|-1.88|34.03|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||34.03|-1.88|0.079
92175802|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|9.0||||0.323|TWO_SIDED|95.0|-8.96|26.96|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||26.96|-8.96|0.323
92175803|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|11.23||||0.183|TWO_SIDED|95.0|-5.39|27.85|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||27.85|-5.39|0.183
92175804|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|-2.61||||0.756|TWO_SIDED|95.0|-19.24|14.02|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||14.02|-19.24|0.756
92248579|NCT01167582|184399960|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.7||||||95.0|-5.3|24.7|||||Restrictive Arm (numerator) compared to Liberal Arm (denominator)|||24.7|-5.3|
92175805|NCT04802967|184243931|SUPERIORITY||Mean Difference (Final Values)|3.96||||0.638|TWO_SIDED|95.0|-12.68|20.59|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||20.59|-12.68|0.638
92175806|NCT04636528|184243959|EQUIVALENCE|A minimal detectable difference of 11.2 points was selected based on the psychometric properties of the scale. Considering a power of 80%, a 2-sided 0.05 significance level, and a 10% dropout rate, 82 patients would be necessary to detect an 11.2-point difference between the 2 groups.|Median Difference (Net)|-1.8||||0.75|TWO_SIDED|95.0|-13.5|9.8||The threshold for statistical significance was set at 0.05.|quantile mixed-effects model|a robust method on the medians||||9.8|-13.5|0.75
92175807|NCT04636528|184243959|EQUIVALENCE||Odds Ratio (OR)|0.84||||0.71|TWO_SIDED|95.0|0.32|2.16||The threshold for statistical significance was set at 0.05.|Regression, Logistic|||||2.16|0.32|0.71
92175808|NCT04636528|184243960|EQUIVALENCE||Median Difference (Net)|-0.6||||0.12|TWO_SIDED|95.0|-1.4|-0.2||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|a robust method on the medians||||-0.2|-1.4|0.12
92175809|NCT04636528|184243961|EQUIVALENCE||Median Difference (Net)|-2.2||||0.89|TWO_SIDED|95.0|-34.6|30.2||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|||||30.2|-34.6|0.89
92175810|NCT04636528|184243962|EQUIVALENCE||Median Difference (Net)|-0.3||||0.51|TWO_SIDED|95.0|-1.0|0.5|||Quantile mixed-effects model|a robust method on the medians||||0.5|-1.0|0.51
92175811|NCT04636528|184243963|EQUIVALENCE||Median Difference (Final Values)|2.0|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|t-test, 2 sided|||||||<0.001
92175812|NCT04636528|184243964|EQUIVALENCE||Median Difference (Net)|-1.1|||<|0.001|TWO_SIDED|95.0|-1.5|0.6||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|a robust method on the medians||||0.6|-1.5|<.001
92175813|NCT04636528|184243965|EQUIVALENCE||Median Difference (Net)|-0.9|||<|0.001|TWO_SIDED|95.0|-1.4|-0.5||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|a robust method on the medians||||-0.5|-1.4|<.001
92175814|NCT04636528|184243966|EQUIVALENCE||Median Difference (Net)|-0.5||||0.27|TWO_SIDED|95.0|-1.3|0.4||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|A robust method on the medians.||||0.4|-1.3|.27
92248580|NCT01167582|184399961|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|7.13|||||TWO_SIDED|95.0|0.91|56.02|||||Restrictive Arm (numerator) compared to Liberal Arm (denominator)|Mortality||56.02|0.91|
92248581|NCT01167582|184399961|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.43|||||TWO_SIDED|95.0|0.48|4.22|||||Restrictive Arm (numerator) compared to Liberal Arm (denominator)|Myocardial Infarction||4.22|0.48|
92175815|NCT04636528|184243967|EQUIVALENCE||Difference in proportions|11.8||||0.14|TWO_SIDED||||||Chi-squared|||||||0.14
92248582|NCT03956225|184399970|NON_INFERIORITY|Noninferiority in change from baseline in MGS was declared if the lower confidence limit (LCL) was greater than -5.|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.07|||ONE_SIDED|95.0|-2.2||||Mixed effects repeated measures||Standard Error of the Least Squares Mean is presented. Least squares mean difference (iLux minus LipiFlow). Lower Confidence Limit is presented.||||-2.2|
92248583|NCT01583452|184399972|SUPERIORITY_OR_OTHER|||||||0.665|TWO_SIDED||||||Kaplan-Meier survival analysis|||With a confidence interval of 95%, an alpha risk of 5% and a desired power of 80%; expecting a 24hrs difference between the intervention and the control group, we estimated 20 patients for each one of them.||||0.665
92175816|NCT04636528|184243968|EQUIVALENCE||Mean Difference (Final Values)|12.7|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92175817|NCT04636528|184243969|EQUIVALENCE||Mean Difference (Final Values)|67.7||||0.36|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.36
92175818|NCT04636528|184243970|EQUIVALENCE||Mean Difference (Final Values)|1.62|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92175819|NCT03216057|184244011|SUPERIORITY|The sample size was calculated that 130 subjects randomized in a 1:1 fashion between the 2 arms have 85% power to detect a difference of at least 20% in triglyceride percentage changes compared with placebo at week 12, assuming a common standard deviation in percentage change of 35%, a 2-sided α = 0.05, and we add 20% for lost follow-up, finally the number of subjects for each arm was 65.|Mean Difference (Net)|-24.5|||<|0.01|TWO_SIDED|95.0|-32.7|-16.2|||t-test, 2 sided|||||-16.2|-32.7|<0.01
92248584|NCT01583452|184399973|SUPERIORITY_OR_OTHER|||||||0.094|TWO_SIDED||||||Kaplan-Meier survival analysis|||||||0.094
92248585|NCT01583452|184399974|SUPERIORITY_OR_OTHER|||||||0.059|TWO_SIDED||||||Kaplan-Meier survival analysis|||||||0.059
92248586|NCT01583452|184399975|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Kaplan-Meier survival analysis|||||||0.830
92248587|NCT02157506|184399977|SUPERIORITY||||||=|0.0059|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||=0.0059
92248588|NCT02157506|184399977|SUPERIORITY||||||=|0.0001|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0001
92248589|NCT02157506|184399977|SUPERIORITY||||||=|0.0062|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0062
92248590|NCT02157506|184399977|SUPERIORITY||||||=|0.0086|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0086
92248591|NCT02157506|184399978|SUPERIORITY||||||=|0.0076|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0076
92248592|NCT02157506|184399978|SUPERIORITY||||||=|0.0052|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0052
92248593|NCT02157506|184399978|SUPERIORITY||||||=|0.1064|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1064
92248594|NCT02157506|184399978|SUPERIORITY||||||=|0.1151|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1151
92248595|NCT02157506|184399979|SUPERIORITY||||||=|0.4241|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.4241
92248596|NCT02157506|184399979|SUPERIORITY||||||=|0.4035|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.4035
92248597|NCT02157506|184399979|SUPERIORITY||||||=|0.8308|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.8308
92248598|NCT02157506|184399979|SUPERIORITY||||||=|0.118|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1180
92248599|NCT02157506|184399980|SUPERIORITY||||||=|0.0048|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0048
92248600|NCT02157506|184399980|SUPERIORITY||||||=|0.0022|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0022
92248601|NCT02157506|184399980|SUPERIORITY||||||=|0.0045|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0045
92248602|NCT02157506|184399980|SUPERIORITY||||||=|0.0294|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0294
92248603|NCT02157506|184399981|SUPERIORITY||||||=|0.2022|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.2022
92248604|NCT02157506|184399981|SUPERIORITY||||||=|0.0658|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0658
92248605|NCT02157506|184399981|SUPERIORITY||||||=|0.0741|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0741
92248606|NCT02157506|184399981|SUPERIORITY||||||=|0.0497|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0497
92248607|NCT02157506|184399982|SUPERIORITY||||||=|0.1842|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1842
92248608|NCT02157506|184399982|SUPERIORITY||||||=|0.3328|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.3328
92248609|NCT02157506|184399982|SUPERIORITY||||||=|0.1465|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1465
92248610|NCT02157506|184399982|SUPERIORITY||||||=|0.2799|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.2799
92248611|NCT02157506|184399983|SUPERIORITY||||||=|0.2499|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.2499
92248612|NCT02157506|184399983|SUPERIORITY||||||=|0.8281|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.8281
92248613|NCT02157506|184399983|SUPERIORITY||||||=|0.4121|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.4121
92175820|NCT03216057|184244012|SUPERIORITY||Mean Difference (Net)|-59.9|||<|0.01|TWO_SIDED|95.0|-83.0|-36.8|||t-test, 2 sided|||||-36.8|-83.0|<0.01
92248614|NCT02157506|184399983|SUPERIORITY||||||=|0.8592|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.8592
92248615|NCT02157506|184399984|SUPERIORITY||||||=|0.1391|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1391
92248616|NCT02157506|184399984|SUPERIORITY||||||=|0.1724|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1724
92248617|NCT02157506|184399984|SUPERIORITY||||||=|0.1245|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1245
92248618|NCT02157506|184399984|SUPERIORITY||||||=|0.169|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1690
92248619|NCT02157506|184399985|SUPERIORITY||||||=|0.4936|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.4936
92248620|NCT02157506|184399985|SUPERIORITY||||||=|0.992|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.9920
92248621|NCT02157506|184399985|SUPERIORITY||||||=|0.2789|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.2789
92248622|NCT02157506|184399985|SUPERIORITY||||||=|0.91|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.9100
92248623|NCT00868452|184399993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|1.25||0.005|||||||Mixed Models Analysis|||||||0.005
92248624|NCT00868452|184399994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.15||0.003|||||||Mixed Models Analysis|||||||0.003
92248625|NCT00868452|184399995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|STANDARD_ERROR_OF_MEAN|1.01||0.012|||||||ANCOVA|||||||0.012
92248626|NCT02455388|184400016|EQUIVALENCE|No equivalence margin set.|||||<|0.001|||||||Intraclass correlation coefficient|||||||<0.001
92248627|NCT02455388|184400017|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92248628|NCT02455388|184400018|OTHER||Odds Ratio (OR)|1.7|||<|0.01|TWO_SIDED||||||Regression, Logistic|||||||<0.01
92248629|NCT00092677|184400053|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96||||0.591||95.0|0.826|1.115|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.115|0.826|0.591
92248630|NCT00092677|184400054|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.973||||0.732||95.0|0.833|1.137|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.137|0.833|0.732
92248631|NCT00092677|184400055|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78||||0.024||95.0|0.628|0.967|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||0.967|0.628|0.024
92248632|NCT00092677|184400056|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.829||||0.344||95.0|0.563|1.222|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.222|0.563|0.344
92248633|NCT00092677|184400057|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.997||||0.968||95.0|0.842|1.179|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.179|0.842|0.968
92248634|NCT00092677|184400058|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.088||||0.771||95.0|0.617|1.917|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.917|0.617|0.771
92248635|NCT00092677|184400059|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.636||||0.147||95.0|0.345|1.173|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.173|0.345|0.147
92248636|NCT00092677|184400060|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.683||||0.015||95.0|0.503|0.929|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||0.929|0.503|0.015
92248637|NCT00092677|184400061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.456||||||95.0|0.197|1.057||The p-value was not provided as there were less than 40 patients who reported the specific endpoint.|Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.057|0.197|
92248638|NCT00092677|184400062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.608||||||95.0|0.199|1.86||The p-value was not provided as there were less than 40 patients who reported the specific endpoint.|Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.860|0.199|
92248639|NCT00092677|184400063|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.124||||0.647||95.0|0.682|1.85|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.850|0.682|0.647
92248640|NCT00092677|184400064|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.036||||0.799||95.0|0.788|1.363|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.363|0.788|0.799
92248641|NCT00092677|184400065|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.667||||0.052||95.0|0.996|2.791|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||2.791|0.996|0.052
92248642|NCT00092677|184400066|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.504||||0.008||95.0|1.111|2.035|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||2.035|1.111|0.008
92248643|NCT00092677|184400067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.029||0.829||95.0|-0.063|0.051|||ANCOVA|Model terms: treatment and baseline peak transaortic jet velocity|Direction of the Comparison: EZ/Simva 10/40 mg minus Placebo|||0.051|-0.063|0.829
92248644|NCT00092677|184400068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-32.1|STANDARD_ERROR_OF_MEAN|0.6|<=|0.001||95.0|-33.3|-31.0|||ANOVA|Model terms: treatment|Direction of the Comparison: EZ/Simva 10/40 mg minus Placebo|||-31.0|-33.3|<=0.001
92248645|NCT00092677|184400069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-50.0|STANDARD_ERROR_OF_MEAN|0.9|<=|0.001||95.0|-51.8|-48.2|||ANOVA|Model terms: treatment|Direction of the Comparison: EZ/Simva 10/40 mg minus Placebo|||-48.2|-51.8|<=0.001
92248646|NCT00092677|184400070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.9|STANDARD_ERROR_OF_MEAN|0.8|<=|0.001||95.0|2.4|5.5|||ANOVA|Model terms: treatment|Direction of the Comparison: EZ/Simva 10/40 mg minus Placebo|||5.5|2.4|<=0.001
92248647|NCT00092677|184400071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.0|STANDARD_ERROR_OF_MEAN|1.3|<=|0.001||95.0|-22.6|-17.3|||ANOVA|Model terms: treatment|Direction of the Comparison: EZ/Simva 10/40 mg minus Placebo|||-17.3|-22.6|<=0.001
92248648|NCT00873288|184400072|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||t-test, 2 sided|||||||> 0.05
92248649|NCT00873288|184400074|SUPERIORITY|||||||0.207|||||||Chi-squared|The Pearson Chi-squared value = 1.590||||||0.207
92248650|NCT00873288|184400075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|||||||t-test, 2 sided|||||||0.66
92248651|NCT00093470|184400099|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||0.026|TWO_SIDED|95.0|0.538|1.072||one-sided p-value; threshold for statistical significance \<0.025|Log Rank|stratified log rank test|Hazard ratio of DFS for Arm A to Arm B|||1.072|0.538|0.026
92248652|NCT00093470|184400100|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.809||||0.056|TWO_SIDED|95.0|0.567|1.155||one-sided p-value; threshold for statistical significance \< 0.025|Log Rank|stratified log rank test|Hazard ratio of OS for Arm A to Arm B|||1.155|0.567|0.056
92248653|NCT01019252|184400101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.24|||<|0.0001|TWO_SIDED|95.0|3.28|7.21|||Mixed Models Analysis|A longitudinal general linear mixed effects model was used.||||7.21|3.28|<.0001
92248654|NCT01019252|184400102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17|||<|0.0001|TWO_SIDED|95.0|0.94|1.39|||Mixed Models Analysis|A longitudinal general linear mixed effects model was used.||||1.39|.94|<.0001
92248655|NCT01019252|184400103|SUPERIORITY||Mean Difference (Net)|10.93|||<|0.0001|TWO_SIDED|95.0|8.93|12.93|||Mixed Models Analysis|A longitudinal general linear mixed effects model was used.||||12.93|8.93|<.0001
92248656|NCT02514772|184400104|OTHER||Difference (%)|-1.9|||||TWO_SIDED|95.0|-20.6|16.9||||||||16.9|-20.6|
92248657|NCT02514772|184400105|OTHER||Difference (%)|-1.7|||||TWO_SIDED|95.0|-20.6|16.9||||||||16.9|-20.6|
92248658|NCT02514772|184400106|OTHER||Difference (%)|-1.9|||||TWO_SIDED|95.0|-21.2|17.6||||||||17.6|-21.2|
92248659|NCT02514772|184400107|OTHER||Mean Difference (Final Values)|-5.4|||||TWO_SIDED|95.0|-24.2|13.3||||||Incidence difference of infusion-related reactions, occurred on day of or on day after first infusion (i.e. on study day 1 or on study day 2).||13.3|-24.2|
92248660|NCT02514772|184400107|OTHER||Mean Difference (Final Values)|-5.3|||||TWO_SIDED|95.0|-24.5|13.6||||||Incidence difference of infusion-related reactions, occurred on day of or on day after second infusion (i.e. on study day 14 or on study day 15).||13.6|-24.5|
92248661|NCT02514772|184400107|OTHER||Mean Difference (Final Values)|-7.2|||||TWO_SIDED|95.0|-26.0|11.4||||||Incidence difference of infusion-related reactions overall on day(s) of or day(s) after either infusion (i.e. on day 1 or 2 and on day 14 or day 15).||11.4|-26.0|
92248662|NCT00877006|184400118|SUPERIORITY_OR_OTHER|||||||0.0005||||||P-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment group, region, preassigned standard treatment, and lymphoma type as factors and baseline value as the covariate.|ANCOVA|||The hypothesis of interest is superiority of BR over standard treatment.||||0.0005
92287031|NCT00835991|184479252|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|99.05||||||90.0|94.31|104.02|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.02|94.31|
92248663|NCT00877006|184400119|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9677|TWO_SIDED|95.0|0.58|1.68|||Log Rank|Stratified log-rank test by preassigned standard treatment and lymphoma type.|BR/RCHOP-RCVP|||1.68|0.58|0.9677
92248664|NCT03657810|184400187|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0||||Type III P-Value are from the likelihood ration test from the logistic regression model with factors of treatment, gender, and investigator.|Regression, Logistic|||||||<0.001
92248665|NCT03657810|184400188|SUPERIORITY|||||||0.052|TWO_SIDED|95.0||||Type III P-Value are from the likelihood ration test from the logistic regression model with factors of treatment, gender, and investigator|Regression, Logistic|||||||0.052
92248666|NCT00291499|184400213|SUPERIORITY||Mean Difference (Final Values)|-8.7||||0.016|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.016
92248667|NCT00291499|184400214|SUPERIORITY||Mean Difference (Final Values)|-2.14||||0.008|TWO_SIDED||||||t-test, 2 sided|||||||0.008
92248668|NCT00291499|184400215|SUPERIORITY|||||||0.043||||||Threshold p \<0.05|Cochran-Mantel-Haenszel|||||||0.043
92248669|NCT00291499|184400216|SUPERIORITY|||||||0.132||||||Threshold p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.132
92248670|NCT00291499|184400217|SUPERIORITY|||||||0.031||||||Threshold p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.031
92248671|NCT00291499|184400218|SUPERIORITY||Mean Difference (Final Values)|0.363|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92287032|NCT00835991|184479253|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05|Test/Ref Ratio of LS Means x 100|96.55||||||90.0|93.85|99.32|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.32|93.85|
92283143|NCT02937701|184470217|EQUIVALENCE|Clinical equivalence for the primary endpoint was to be evaluated sequentially by first comparing the 2-sided 90% CI for RD of ACR20 at week 22 between ABP 710 and infliximab with an equivalence margin of (-15%, 15%). If the first test was successful, RD of ACR20 at week 22 was to be further evaluated by comparing the 2-sided 90% CI between ABP 710 and infliximab with an equivalence margin of (-12%, 15%).|Response Difference|9.37|||||TWO_SIDED|90.0|2.67|15.96||||||For the primary analysis of ACR20, the response difference (RD) was estimated by the Mantel-Haenszel (MH) estimate and the 90% confidence intervals (CIs) of RD were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use for RA).||15.96|2.67|
92283144|NCT02937701|184470217|EQUIVALENCE|Clinical equivalence for the primary endpoint was to be evaluated sequentially by first comparing the 2-sided 90% CI for RD of ACR20 at week 22 between ABP 710 and infliximab with an equivalence margin of (-15%, 15%). If the first test was successful, RD of ACR20 at week 22 was to be further evaluated by comparing the 2-sided 90% CI between ABP 710 and infliximab with an equivalence margin of (-12%, 15%).|Response Difference|9.3|||||TWO_SIDED|90.0|2.67|15.92|||||Response Difference is based on a generalized linear model with actual stratification variables (geographic region and prior biologic use for RA) as covariates in the model.|A sensitivity analysis with the RD estimate and CIs for RD of ACR20 estimated using a generalized linear model with geographic region and prior biologic use for RA as covariates was also conducted.||15.92|2.67|
92287033|NCT00835991|184479254|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.44||||||90.0|93.71|99.25|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.25|93.71|
92175821|NCT03216057|184244013|SUPERIORITY||Mean Difference (Net)|-9.0||||0.01|TWO_SIDED|95.0|-16.1|-1.9|||t-test, 2 sided|||||-1.9|-16.1|0.01
92175822|NCT03216057|184244014|SUPERIORITY||Mean Difference (Net)|-4.9||||0.3|TWO_SIDED|95.0|-15.8|6.05|||t-test, 2 sided|||||6.05|-15.8|0.3
92287034|NCT02149420|184479255|SUPERIORITY||Mean Difference (Final Values)|-0.93|STANDARD_DEVIATION|2.058||0.678|TWO_SIDED|95.0|-5.007|3.18|||repeated measures Bayesian analysis|with baseline as a covariate||Per protocol the primary analysis was between placebo and the combined VAY736 groups at Week 12.||3.180|-5.007|0.678
92175823|NCT03216057|184244015|SUPERIORITY||Mean Difference (Net)|-12.4|||<|0.01|TWO_SIDED|95.0|-21.2|-3.5|||t-test, 2 sided|||||-3.5|-21.2|<0.01
92175824|NCT03216057|184244016|SUPERIORITY||Mean Difference (Net)|-2.2||||0.02|TWO_SIDED|95.0|-4.1|-0.3|||t-test, 2 sided|||||-0.3|-4.1|0.02
92175825|NCT03216057|184244017|SUPERIORITY||Mean Difference (Net)|-1.2||||0.6|TWO_SIDED|95.0|-6.3|3.8|||t-test, 2 sided|||||3.8|-6.3|0.6
92175826|NCT03216057|184244018|SUPERIORITY||Mean Difference (Net)|1.9||||0.1|TWO_SIDED|95.0|-0.9|4.9|||t-test, 2 sided|||||4.9|-0.9|0.1
92175827|NCT03216057|184244019|SUPERIORITY||Mean Difference (Net)|13.4|||<|0.01|TWO_SIDED|95.0|5.8|21.0|||t-test, 2 sided|||||21|5.8|<0.01
92175828|NCT03216057|184244020|SUPERIORITY||Mean Difference (Net)|0.8|||<|0.01|TWO_SIDED|95.0|0.4|1.2|||t-test, 2 sided|||||1.2|0.4|<0.01
92287035|NCT04278560|184479269|SUPERIORITY||Mean Difference (Net)|385.3||||0.009|TWO_SIDED|||||Repeated Measures Two-Way ANOVA: Group, Time, Group x Time, and controlled by Baseline Step Counts|ANOVA|||||||0.009
92183033|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-30.4|STANDARD_ERROR_OF_MEAN|8.94|||TWO_SIDED|95.0|-48.0|-12.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||-12.9|-48.0|
92287036|NCT04278560|184479270|SUPERIORITY||Mean Difference (Net)|1.2||||0.03|TWO_SIDED||||||ANOVA|We used change from baseline for this analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline.||||||0.03
92175829|NCT03133546|184244067|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.84|TWO_SIDED|95.0|0.68|1.37||significance level: 5%|Regression, Cox|Univariate Cox for PFS with treatment effect only|The HR for Osimertinib plus Bevacizumab versus Osimertinib alone is provided.|"Assumption: Median PFS with osimertinib 11 months Target: Detect a 36% improvement in PFS (HR=0.64, corresponding to an increase in median PFS to 17.2 months) under osimertinib and bevacizumab (80% power, at one-sided significant level of 5%)~126 events required"||1.37|0.68|0.84
92175830|NCT05034328|184244073|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92175831|NCT05034328|184244074|SUPERIORITY||Hazard Ratio (HR)|1.063||||0.7026|TWO_SIDED|95.0|0.778|1.451|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treament chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.451|0.778|0.7026
92175832|NCT05034328|184244075|SUPERIORITY||Hazard Ratio (HR)|1.078||||0.6322|TWO_SIDED|95.0|0.792|1.469|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treatment chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.469|0.792|0.6322
92175833|NCT05034328|184244076|SUPERIORITY||Hazard Ratio (HR)|0.992||||0.9598|TWO_SIDED|95.0|0.726|1.356|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treatment chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.356|0.726|0.9598
92175834|NCT05034328|184244077|SUPERIORITY||Hazard Ratio (HR)|1.333||||0.1016|TWO_SIDED|95.0|0.945|1.88|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treatment chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.880|0.945|0.1016
92175835|NCT05034328|184244078|SUPERIORITY||Hazard Ratio (HR)|1.153||||0.3954|TWO_SIDED|95.0|0.83|1.601|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treatment chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.601|0.830|0.3954
92175836|NCT05034328|184244079|SUPERIORITY||Hazard Ratio (HR)|1.218||||1.218|TWO_SIDED|95.0|0.871|1.703|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treatment chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.703|0.871|1.218
92175837|NCT05034328|184244080|SUPERIORITY||||||>|0.05|||||||Regression, Logistic|||The impact of the treatment chosen on the risk to develop respiratory complication requiring antibiotic prescription during a 20-day follow-up was analyzed by a multivariate logistic model||||>0.05
92175838|NCT05034328|184244081|SUPERIORITY||Odds Ratio (OR)|0.335||||0.001|TWO_SIDED|95.0|0.174|0.644|||Regression, Logistic|||||0.644|0.174|0.0010
92248672|NCT01457924|184400219|SUPERIORITY_OR_OTHER||Ratio|0.35|||<|0.001|TWO_SIDED|95.0|0.221|0.548|||Non-Linear Emax Model|||Note: There is a discrepancy in the number of par. in ITT populations at Wk 24 and Wk 48: 228 and 229 respectively. This resulted from a data issue: one par was incorrectly excluded from ITT pop. at Wk 24, but correctly included in Wk 48. This error affects all source tables, analyses relating to ITT and per protocol populations, primary endpoint and secondary MRI endpoints reported at Wk 24. This discrepancy affects all statistical analyses, but not summary statistics.||0.548|0.221|<0.001
92248673|NCT01457924|184400219|SUPERIORITY_OR_OTHER||Ratio|0.35|||<|0.001|TWO_SIDED|95.0|0.221|0.548|||Non-Linear Emax Model|||||0.548|0.221|<0.001
92248674|NCT01457924|184400219|SUPERIORITY_OR_OTHER||Ratio|0.35|||<|0.001|TWO_SIDED|95.0|0.221|0.548|||Non-Linear Emax Model|||||0.548|0.221|<0.001
92248675|NCT01457924|184400219|SUPERIORITY_OR_OTHER||Ratio|0.35|||<|0.001|TWO_SIDED|95.0|0.221|0.548|||Non-Linear Emax Model|||||0.548|0.221|<0.001
92248676|NCT01457924|184400220|SUPERIORITY_OR_OTHER||Ratio|0.38||||0.003|TWO_SIDED|95.0|0.2|0.72|||Generalized Linear Model|||||0.72|0.20|0.003
92248677|NCT01457924|184400220|SUPERIORITY_OR_OTHER||Ratio|0.38||||0.003|TWO_SIDED|95.0|0.2|0.72|||Generalized Linear Model|||||0.72|0.20|0.003
92248678|NCT01457924|184400220|SUPERIORITY_OR_OTHER||Ratio|0.35||||0.001|TWO_SIDED|95.0|0.19|0.65|||Generalized Linear Model|||||0.65|0.19|0.001
92248679|NCT01457924|184400220|SUPERIORITY_OR_OTHER||Ratio|0.23|||<|0.001|TWO_SIDED|95.0|0.13|0.39|||Generalized Linear Model|||||0.39|0.13|<0.001
92248680|NCT01457924|184400223|SUPERIORITY_OR_OTHER||Ratio|0.31|||<|0.001|TWO_SIDED|95.0|0.16|0.6|||Generalized Linear Model|||||0.60|0.16|<0.001
92248681|NCT01457924|184400223|SUPERIORITY_OR_OTHER||Ratio|0.56||||0.075|TWO_SIDED|95.0|0.29|1.06|||Generalized Linear Model|||||1.06|0.29|0.075
92248682|NCT01457924|184400223|SUPERIORITY_OR_OTHER||Ratio|0.51||||0.035|TWO_SIDED|95.0|0.27|0.95|||Generalized Linear Model|||||0.95|0.27|0.035
92248683|NCT01457924|184400223|SUPERIORITY_OR_OTHER||Ratio|0.32|||<|0.001|TWO_SIDED|95.0|0.19|0.55|||Generalized Linear Model|||||0.55|0.19|<0.001
92248684|NCT01457924|184400224|SUPERIORITY_OR_OTHER||Ratio|0.22||||0.026|TWO_SIDED|95.0|0.06|0.84|||Generalized Linear Model|||||0.84|0.06|0.026
92248685|NCT01457924|184400224|SUPERIORITY_OR_OTHER||Ratio|0.49||||0.296|TWO_SIDED|95.0|0.13|1.86|||Generalized Linear Model|||||1.86|0.13|0.296
92248686|NCT01457924|184400224|SUPERIORITY_OR_OTHER||Ratio|0.5||||0.285|TWO_SIDED|95.0|0.14|1.78|||Generalized Linear Model|||||1.78|0.14|0.285
92248687|NCT01457924|184400224|SUPERIORITY_OR_OTHER||Ratio|0.25||||0.009|TWO_SIDED|95.0|0.09|0.71|||Non-Linear Emax Model|||||0.71|0.09|0.009
92248688|NCT01457924|184400225|SUPERIORITY_OR_OTHER||Ratio|0.18||||0.004|TWO_SIDED|95.0|0.05|0.58|||Generalized Linear Model|||||0.58|0.05|0.004
92248689|NCT01457924|184400225|SUPERIORITY_OR_OTHER||Ratio|0.5||||0.248|TWO_SIDED|95.0|0.15|1.63|||Generalized Linear Model|||||1.63|0.15|0.248
92248690|NCT01457924|184400225|SUPERIORITY_OR_OTHER||Ratio|0.46||||0.181|TWO_SIDED|95.0|0.15|1.43|||Generalized Linear Model|||||1.43|0.15|0.181
92248691|NCT01457924|184400225|SUPERIORITY_OR_OTHER||Ratio|0.24||||0.003|TWO_SIDED|95.0|0.1|0.62|||Generalized Linear Model|||||0.62|0.10|0.003
92175839|NCT05399459|184244082|SUPERIORITY||Adjusted percentage difference|19.4|||<|0.0001|TWO_SIDED|95.0|12.0|26.8|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg - placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||26.8|12.0|<0.0001
92175840|NCT05399459|184244083|SUPERIORITY||Adjusted percentage difference|22.7|||<|0.0001|TWO_SIDED|95.0|14.5|30.9|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg - placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||30.9|14.5|<0.0001
92175841|NCT05399459|184244084|SUPERIORITY||Adjusted percentage difference|14.8||||0.0011|TWO_SIDED|95.0|5.9|23.6|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||23.6|5.9|0.0011
92175842|NCT05399459|184244085|SUPERIORITY||Adjusted percentage difference|18.8|||<|0.0001|TWO_SIDED|95.0|10.1|27.4|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||27.4|10.1|<0.0001
92175843|NCT05399459|184244086|SUPERIORITY||Adjusted percentage difference|31.7|||<|0.0001|TWO_SIDED|95.0|23.2|40.3|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||40.3|23.2|<0.0001
92175844|NCT05399459|184244087|SUPERIORITY||Adjusted percentage difference|-19.7|||<|0.0001|TWO_SIDED|95.0|-27.8|-11.6|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||-11.6|-27.8|<0.0001
92175845|NCT05399459|184244088|SUPERIORITY||Adjusted percentage difference|33.1|||<|0.0001|TWO_SIDED|95.0|24.7|41.6|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||41.6|24.7|<0.0001
92175846|NCT05399459|184244089|SUPERIORITY||Adjusted percentage difference|10.1||||0.0707|TWO_SIDED|95.0|-0.9|21.1||P-value \> 0.05; therefore, all secondary outcome measures listed after this outcome measure in the hierarchy were not tested.|Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||21.1|-0.9|0.0707
92175847|NCT05583578|184244117|SUPERIORITY|||||||0.012||||||The Threshold for statistical significance was p=0.05|t-test, 2 sided|||||||0.012
92248692|NCT01457924|184400226|SUPERIORITY_OR_OTHER||Ratio|0.29|||<|0.001|TWO_SIDED|95.0|0.15|0.58|||Generalized Linear Model|||||0.58|0.15|<0.001
92248693|NCT01457924|184400226|SUPERIORITY_OR_OTHER||Ratio|0.34||||0.002|TWO_SIDED|95.0|0.17|0.68|||Generalized Linear Model|||||0.68|0.17|0.002
92248694|NCT01457924|184400226|SUPERIORITY_OR_OTHER||Ratio|0.4||||0.006|TWO_SIDED|95.0|0.21|0.77|||Generalized Linear Model|||||0.77|0.21|0.006
92248695|NCT01457924|184400226|SUPERIORITY_OR_OTHER||Ratio|0.19|||<|0.001|TWO_SIDED|95.0|0.11|0.35|||Generalized Linear Model|||||0.35|0.11|<0.001
92175848|NCT05583578|184244117|OTHER||Cohen's d (effect size)|0.98|||||TWO_SIDED||||||||Effect sizes greater than (d = 0.80) were considered large.|Post-intervention changes in walking speed||||
92175849|NCT05583578|184244118|SUPERIORITY|||||||0.39||||||The threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.39
92175850|NCT05583578|184244118|SUPERIORITY||Cohen's d (effect size)|0.31|||||TWO_SIDED||||||||Effect sizes ranging from 0.21 to 0.79 were considered moderate, anything ≥0.80 were considered large.|||||
92248696|NCT05053126|184400247|SUPERIORITY||Mean Difference (Final Values)|36.83|STANDARD_ERROR_OF_MEAN|3.132|<|0.0001|ONE_SIDED|95.0|31.65||||Mixed Models Analysis|||"The sensitivity and integrity of the study was validated by comparing the mean responses of oxycodone HCl, the positive control (C), to the placebo (P):~H0: μC - μP ≤ δ1 versus Ha: μC - μP \> δ1 where δ1 =15"|||31.65|<0.0001
92248697|NCT05053126|184400247|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|3.49||0.2469|ONE_SIDED|95.0||3.4|||Mixed Models Analysis|||"The primary analysis evaluated whether pregabalin plus oxycodone HCl (T) produced mean responses that showed abuse potential that was no higher than oxycodone HCl (C). The margin for showing no significant difference was defined as 20% of the difference between oxycodone HCl (C) and Placebo (P):~H0: μT - μC ≥ 0.2(μC - μP) versus Ha: μT - μC \<0.2(μC - μP)."||3.4||0.2469
92248698|NCT05053126|184400247|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|3.48||0.1756|ONE_SIDED|95.0||2.5|||Mixed Models Analysis|||"The primary analysis evaluated whether pregabalin plus oxycodone HCl (T) produced mean responses that showed abuse potential that was no higher than oxycodone HCl (C). The margin for showing no significant difference was defined as 20% of the difference between oxycodone HCl (C) and Placebo (P):~H0: μT - μC ≥ 0.2(μC - μP) versus Ha: μT - μC \<0.2(μC - μP)."||2.5||0.1756
92248699|NCT05053126|184400247|NON_INFERIORITY|Non-inferiority margin = 10|Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|2.84||0.0001|ONE_SIDED|95.0||4.3|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether pregabalin (L) produced mean responses that show less abuse potential than oxycodone HCl (C) were:~H0: μC - μL ≤ 0.2 (μC - 50) versus Ha: μC - μL \> 0.2 (μC - 50)"||4.3||0.0001
92248700|NCT05053126|184400247|NON_INFERIORITY|Non-inferiority margin = 10|Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|2.84||0.0099|ONE_SIDED|95.0||8.0|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether pregabalin (L) produced mean responses that show less abuse potential than oxycodone HCl (C) were:~H0: μC - μL ≤ 0.2 (μC - 50) versus Ha: μC - μL \> 0.2 (μC - 50)"||8.0||0.0099
92248701|NCT05053126|184400247|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|18.2|STANDARD_ERROR_OF_MEAN|3.13||0.9888|ONE_SIDED|95.0||23.4|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether pregabalin (L) produced mean responses that show abuse potential similar to placebo(P) were:~H0: μL - μp ≥ δ2 versus Ha: μL - μp \< δ2 where δ2 = 11"||23.4||0.9888
92248702|NCT05053126|184400247|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|22.0|STANDARD_ERROR_OF_MEAN|3.13||0.9997|ONE_SIDED|95.0||27.1|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether pregabalin (L) produced mean responses that show abuse potential similar to placebo(P) were:~H0: μL - μp ≥ δ2 versus Ha: μL - μp \< δ2 where δ2 = 11"||27.1||0.9997
92248703|NCT05053126|184400248|OTHER||Mean Difference (Final Values)|75.6|STANDARD_ERROR_OF_MEAN|5.948|<|0.0001|TWO_SIDED|90.0|65.79|85.42|||Mixed Models Analysis|||||85.42|65.79|<0.0001
92248704|NCT05053126|184400248|OTHER||Mean Difference (Final Values)|44.84|STANDARD_ERROR_OF_MEAN|5.942|<|0.0001|TWO_SIDED|90.0|35.03|54.65|||Mixed Models Analysis|||||54.65|35.03|<0.0001
92248705|NCT05053126|184400248|OTHER||Mean Difference (Final Values)|49.93|STANDARD_ERROR_OF_MEAN|5.945|<|0.0001|TWO_SIDED|90.0|40.12|59.75|||Mixed Models Analysis|||||59.75|40.12|<0.0001
92248706|NCT05053126|184400248|OTHER||Mean Difference (Final Values)|80.8|STANDARD_ERROR_OF_MEAN|5.942|<|0.0001|TWO_SIDED|90.0|70.99|90.61|||Mixed Models Analysis|||||90.61|70.99|<0.0001
92175851|NCT05825755|184244125|SUPERIORITY|||||||0.252|||||||Wilcoxon (Mann-Whitney)|||||||0.252
92248707|NCT05053126|184400248|OTHER||Mean Difference (Final Values)|81.91|STANDARD_ERROR_OF_MEAN|5.948|<|0.0001|TWO_SIDED|90.0|72.09|91.73|||Mixed Models Analysis|||||91.73|72.09|<0.0001
92248708|NCT05053126|184400248|OTHER||Mean Difference (Final Values)|-30.8|STANDARD_ERROR_OF_MEAN|5.948|<|0.0001|TWO_SIDED|90.0|-40.6|-20.9|||Mixed Models Analysis|||||-20.9|-40.6|<0.0001
92248709|NCT05053126|184400248|OTHER||Mean Difference (Final Values)|-25.7|STANDARD_ERROR_OF_MEAN|5.942|<|0.0001|TWO_SIDED|90.0|-35.5|-15.9|||Mixed Models Analysis|||||-15.9|-35.5|<0.0001
92248710|NCT05053126|184400248|OTHER||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|5.945||0.3829|TWO_SIDED|90.0|-4.62|15.01|||Mixed Models Analysis|||||15.01|-4.62|0.3829
92248711|NCT05053126|184400248|OTHER||Mean Difference (Final Values)|6.31|STANDARD_ERROR_OF_MEAN|5.942||0.2896|TWO_SIDED|90.0|-3.5|16.11|||Mixed Models Analysis|||||16.11|-3.50|0.2896
92248712|NCT05053126|184400249|OTHER||Mean Difference (Final Values)|23.47|STANDARD_ERROR_OF_MEAN|2.247|<|0.0001|TWO_SIDED|90.0|19.77|27.17|||Mixed Models Analysis|||||27.17|19.77|<0.0001
92248713|NCT05053126|184400249|OTHER||Mean Difference (Final Values)|10.4|STANDARD_ERROR_OF_MEAN|2.239|<|0.0001|TWO_SIDED|90.0|6.71|14.09|||Mixed Models Analysis|||||14.09|6.71|<0.0001
92248714|NCT05053126|184400249|OTHER||Mean Difference (Final Values)|11.29|STANDARD_ERROR_OF_MEAN|2.248|<|0.0001|TWO_SIDED|90.0|7.59|14.99|||Mixed Models Analysis|||||14.99|7.59|<0.0001
92248715|NCT05053126|184400249|OTHER||Mean Difference (Final Values)|24.33|STANDARD_ERROR_OF_MEAN|2.251|<|0.0001|TWO_SIDED|90.0|20.62|28.03|||Mixed Models Analysis|||||28.03|20.62|<0.0001
92248716|NCT05053126|184400249|OTHER||Mean Difference (Final Values)|22.34|STANDARD_ERROR_OF_MEAN|2.245|<|0.0001|TWO_SIDED|90.0|18.65|26.04|||Mixed Models Analysis|||||26.04|18.65|<0.0001
92248717|NCT05053126|184400249|OTHER||Mean Difference (Final Values)|-13.1|STANDARD_ERROR_OF_MEAN|2.245|<|0.0001|TWO_SIDED|90.0|-16.8|-9.38|||Mixed Models Analysis|||||-9.38|-16.8|<0.0001
92175852|NCT05825755|184244126|SUPERIORITY|||||||1|||||||McNemar|||||||1.0
92248718|NCT05053126|184400249|OTHER||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|2.252|<|0.0001|TWO_SIDED|90.0|-15.9|-8.47|||Mixed Models Analysis|||||-8.47|-15.9|<0.0001
92248719|NCT05053126|184400249|OTHER||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|2.258||0.7051|TWO_SIDED|90.0|-2.86|4.57|||Mixed Models Analysis|||||4.57|-2.86|0.7051
92248720|NCT05053126|184400249|OTHER||Mean Difference (Final Values)|-1.13|STANDARD_ERROR_OF_MEAN|2.246||0.616|TWO_SIDED|90.0|-4.82|2.57|||Mixed Models Analysis|||||2.57|-4.82|0.6160
92248721|NCT05053126|184400250|OTHER||Mean Difference (Final Values)|21.99|STANDARD_ERROR_OF_MEAN|2.235|<|0.0001|TWO_SIDED|90.0|18.31|25.67|||Mixed Models Analysis|||||25.67|18.31|<0.0001
92248722|NCT05053126|184400250|OTHER||Mean Difference (Final Values)|6.4|STANDARD_ERROR_OF_MEAN|2.227||0.0042|TWO_SIDED|90.0|2.73|10.07|||Mixed Models Analysis|||||10.07|2.73|0.0042
92248723|NCT05053126|184400250|OTHER||Mean Difference (Final Values)|9.8|STANDARD_ERROR_OF_MEAN|2.236|<|0.0001|TWO_SIDED|90.0|6.12|13.48|||Mixed Models Analysis|||||13.48|6.12|<0.0001
92248724|NCT05053126|184400250|OTHER||Mean Difference (Final Values)|21.12|STANDARD_ERROR_OF_MEAN|2.239|<|0.0001|TWO_SIDED|90.0|17.44|24.81|||Mixed Models Analysis|||||24.81|17.44|<0.0001
92248725|NCT05053126|184400250|OTHER||Mean Difference (Final Values)|21.27|STANDARD_ERROR_OF_MEAN|2.233|<|0.0001|TWO_SIDED|90.0|17.59|24.95|||Mixed Models Analysis|||||24.95|17.59|<0.0001
92248726|NCT05053126|184400250|OTHER||Mean Difference (Final Values)|-15.6|STANDARD_ERROR_OF_MEAN|2.233|<|0.0001|TWO_SIDED|90.0|-19.3|-11.9|||Mixed Models Analysis|||||-11.9|-19.3|<0.0001
92248727|NCT05053126|184400250|OTHER||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|2.24|<|0.0001|TWO_SIDED|90.0|-15.9|-8.5|||Mixed Models Analysis|||||-8.50|-15.9|<0.0001
92175853|NCT05825755|184244127|SUPERIORITY|||||||0.791|||||||Wilcoxon (Mann-Whitney)|||||||0.791
92175854|NCT04103580|184244132|SUPERIORITY||Slope|0.005|STANDARD_ERROR_OF_MEAN|0.005||0.247|TWO_SIDED||||||Mixed Models Analysis|Due to uneven space between time points (days), we estimated a random effects model with varying intercepts and slopes for each phase independently.|We used an interaction between time and study arm to determine whether there was a significant difference over time in the change in outcome. The estimate is the difference in change over time for the intervention group compared to the control group.|The null hypothesis is that there is no difference between control and intervention over time in Phase 1.||||0.247
92248728|NCT05053126|184400250|OTHER||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|2.246||0.7001|TWO_SIDED|90.0|-4.56|2.83|||Mixed Models Analysis|||||2.83|-4.56|0.7001
92248729|NCT05053126|184400250|OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|2.233||0.7479|TWO_SIDED|90.0|-4.4|2.96|||Mixed Models Analysis|||||2.96|-4.40|0.7479
92248730|NCT05053126|184400251|OTHER||Mean Difference (Final Values)|27.82|STANDARD_ERROR_OF_MEAN|1.439|<|0.0001|TWO_SIDED|90.0|25.45|30.19|||Mixed Models Analysis|||||30.19|25.45|<0.0001
92248731|NCT05053126|184400251|OTHER||Mean Difference (Final Values)|14.53|STANDARD_ERROR_OF_MEAN|1.435|<|0.0001|TWO_SIDED|90.0|12.17|16.89|||Mixed Models Analysis|||||16.89|12.17|<0.0001
92248732|NCT05053126|184400251|OTHER||Mean Difference (Final Values)|17.85|STANDARD_ERROR_OF_MEAN|1.437|<|0.0001|TWO_SIDED|90.0|15.49|20.22|||Mixed Models Analysis|||||20.22|15.49|<0.0001
92248733|NCT05053126|184400251|OTHER||Mean Difference (Final Values)|34.4|STANDARD_ERROR_OF_MEAN|1.438|<|0.0001|TWO_SIDED|90.0|34.4|36.77|||Mixed Models Analysis|||||36.77|34.40|<0.0001
92248734|NCT05053126|184400251|OTHER||Mean Difference (Final Values)|38.84|STANDARD_ERROR_OF_MEAN|1.44|<|0.0001|TWO_SIDED|90.0|36.47|41.21|||Mixed Models Analysis|||||41.21|36.47|<0.0001
92248735|NCT05053126|184400251|OTHER||Mean Difference (Final Values)|-13.3|STANDARD_ERROR_OF_MEAN|1.434|<|0.0001|TWO_SIDED|90.0|-15.6|-10.9|||Mixed Models Analysis|||||-10.9|-15.6|<0.0001
92248736|NCT05053126|184400251|OTHER||Mean Difference (Final Values)|-9.97|STANDARD_ERROR_OF_MEAN|1.435|<|0.0001|TWO_SIDED|90.0|-12.3|-7.61|||Mixed Models Analysis|||||-7.61|-12.3|<0.0001
92248737|NCT05053126|184400251|OTHER||Mean Difference (Final Values)|6.58|STANDARD_ERROR_OF_MEAN|1.436|<|0.0001|TWO_SIDED|90.0|4.22|8.94|||Mixed Models Analysis|||||8.94|4.22|<0.0001
92248738|NCT05053126|184400251|OTHER||Mean Difference (Final Values)|11.02|STANDARD_ERROR_OF_MEAN|1.436|<|0.0001|TWO_SIDED|90.0|8.65|13.38|||Mixed Models Analysis|||||13.38|8.65|<0.0001
92248739|NCT04024072|184400252|EQUIVALENCE|8AM Day 14|Mean Difference (Net)|-0.46|||||TWO_SIDED|95.0|-0.93|0.01||||||||0.01|-0.93|
92248740|NCT04024072|184400252|EQUIVALENCE|10AM Day 14|Mean Difference (Net)|-0.23|||||TWO_SIDED|95.0|-0.7|0.24||||||||0.24|-0.70|
92248741|NCT04024072|184400252|EQUIVALENCE|8AM Day 42|Mean Difference (Net)|-0.24|||||TWO_SIDED|95.0|-0.74|0.27||||||||0.27|-0.74|
92248742|NCT04024072|184400252|EQUIVALENCE|10AM Day 42|Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.51|0.51||||||||0.51|-0.51|
92248743|NCT01632735|184400255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75|||<|0.05|TWO_SIDED|95.0|0.57|0.99|||GEE|Generalized Estimating Equations regression examined primary relapse (measured by urinalysis) over time by condition, controlling for age and gender.||||0.99|0.57|<0.05
92248744|NCT01632735|184400256|SUPERIORITY_OR_OTHER||Beta (timexcondition)|0.239|||<|0.001|TWO_SIDED|95.0|0.219|0.248|||Mixed Models Analysis|Analyses controlled for age and gender.||Mixed modeling using a repeated-measures random-effects model was conducted to test for the effects of treatment (dummy coded with 1 = mobile intervention, 0 = control) and time as well as the treatment x time interaction on the primary outcome measures of recovery behaviors mean days over time (baseline, discharge, 3, 6, and 9-month follow-ups).||0.248|0.219|<0.001
92248745|NCT01632735|184400257|SUPERIORITY_OR_OTHER||Beta (time x condition)|0.115|||<|0.001|TWO_SIDED|95.0|0.106|0.123|||Mixed Models Analysis|A repeated-measures model tested for effects of treatment vs. control on recovery self-confidence over time controlling for age and gender.||Mixed modeling using a repeated-measures random-effects model was conducted to test for the effects of treatment (dummy coded with 1 = mobile intervention, 0 = control) and time as well as the treatment x time interaction on the outcome measure of recovery confidence mean score over time.||0.123|0.106|<0.001
92248746|NCT01632735|184400258|SUPERIORITY_OR_OTHER||Beta effect (timexcondition)|0.217|||<|0.001|TWO_SIDED|95.0|0.2|0.233|||Mixed Models Analysis|Analyses controlled for age and gender.||Mixed modeling using a repeated-measures random-effects model was conducted to test for the effects of treatment (dummy coded with 1 = mobile intervention, 0 = control) and time as well as the treatment x time interaction on the outcome measure of self-help utilization (mean days in past month) over the study period (baseline, discharge, and 3-, 6-, and 9-month follow-ups).||0.233|0.2|<0.001
92248747|NCT03589885|184400264|SUPERIORITY||Odds Ratio (OR)|1014.07|||<|0.0001|TWO_SIDED|95.0|68.83|14940.62|||Regression, Logistic|||PASI 75||14940.62|68.83|<0.0001
92248748|NCT03589885|184400264|SUPERIORITY||Odds Ratio (OR)|96.23|||<|0.0001|TWO_SIDED|95.0|17.22|537.78|||Regression, Logistic|||PASI 75||537.78|17.22|<0.0001
92248749|NCT03589885|184400265|SUPERIORITY||Odds Ratio (OR)|51.46|||<|0.0001|TWO_SIDED|95.0|11.95|221.64|||Regression, Logistic|||||221.64|11.95|<0.0001
92287037|NCT04278560|184479271|SUPERIORITY||Mean Difference (Net)|0.19||||0.4|TWO_SIDED||||||ANOVA|We used change from baseline for the analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline.||||||0.4
92248750|NCT03589885|184400265|SUPERIORITY||Odds Ratio (OR)|29.7|||<|0.0001||95.0|7.38|119.57|||Regression, Logistic|||||119.57|7.38|<0.0001
92248751|NCT03589885|184400266|SUPERIORITY||Odds Ratio (OR)|88.46|||<|0.0001|TWO_SIDED|95.0|16.15|484.52|||Regression, Logistic|||||484.52|16.15|<0.0001
92248752|NCT03589885|184400266|SUPERIORITY||Odds Ratio (OR)|37.9|||<|0.0001|TWO_SIDED|95.0|7.6|189.01|||Regression, Logistic|||||189.01|7.60|<0.0001
92248753|NCT04111107|184400270|OTHER|||||||0.966|||||||Wilcoxon signed rank (2 sided)|||H0: Progression-free ratio = 1||||0.966
92248754|NCT04111107|184400273|OTHER|Single proportion was estimated.|proportion|4.2|||||TWO_SIDED|95.0|0.1|21.1|||||exact binomial confidence interval|The proportion with a complete or partial response was estimated and an exact binomial confidence interval was calculated||21.1|0.1|
92248755|NCT00039741|184400297|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.26|TWO_SIDED|95.0|-0.41|0.11|||Interval regression|Adjusted for baseline HIV-1 RNA, age (\<3 years vs 3 years), origin (PACTG vs PENTA sites), and perinatal ART exposure versus no exposure.||||0.11|-0.41|0.26
92248756|NCT00039741|184400297|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.13||0.56|TWO_SIDED|95.0|-0.2|0.32|||Interval regression|Adjusted for baseline HIV-1 RNA, age (\<3 years vs 3 years), origin (PACTG vs PENTA sites), and perinatal ART exposure versus no exposure.||||0.32|-0.20|0.56
92248757|NCT00321269|184400325|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression analysis- Treatment Arm X Time F (2, 116)=0.09, P\>F=0.90.||||0.90
92248758|NCT00321269|184400326|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Mixed Models Analysis|F(2,110)=2.08; P=0.13||||||0.13
92248759|NCT03571256|184400336|OTHER||LS mean difference|-0.8||||0.6|TWO_SIDED|95.0|-3.9|2.3||Threshold for significance at 0.05 level.|Mixed Models Analysis|||||2.3|-3.9|0.600
92248760|NCT01948141|184400374|SUPERIORITY_OR_OTHER|||||||0.59|||||||Log Rank|||||||0.59
92248761|NCT01948141|184400377|SUPERIORITY_OR_OTHER|||||||0.36|||||||Log Rank|||||||0.36
92248762|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-71.42|STANDARD_ERROR_OF_MEAN|3.11|<|0.001|TWO_SIDED|95.0|-77.55|-65.29||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-65.29|-77.55|<0.001
92175855|NCT04103580|184244132|SUPERIORITY||Slope|-0.008|STANDARD_ERROR_OF_MEAN|0.004||0.049|TWO_SIDED||||||Mixed Models Analysis|Due to uneven space between time points (days), we estimated a random effects model with varying intercepts and slopes for each phase independently.|We used an interaction between time and study arm to determine whether there was a significant difference over time in the change in outcome. The estimate is the difference in change over time for the intervention group compared to the control group.|The null hypothesis is that there is no difference between control and intervention over time in Phase 2.||||0.049
92175856|NCT04103580|184244133|SUPERIORITY||Slope|0.006|STANDARD_ERROR_OF_MEAN|0.004||0.15|TWO_SIDED||||||Mixed Models Analysis|Due to uneven space between time points (days), we estimated a random effects model with varying intercepts and slopes for each phase independently.|We used an interaction between time and study arm to determine whether there was a significant difference over time in the change in outcome. The estimate is the difference in change over time for the intervention group compared to the control group.|The null hypothesis is that there is no difference between control and intervention over time in Phase 1.||||0.150
92175857|NCT04103580|184244133|SUPERIORITY||Slope|-0.002|STANDARD_ERROR_OF_MEAN|0.004||0.635|TWO_SIDED||||||Mixed Models Analysis|Due to uneven space between time points (days), we estimated a random effects model with varying intercepts and slopes for each phase independently.|We used an interaction between time and study arm to determine whether there was a significant difference over time in the change in outcome. The estimate is the difference in change over time for the intervention group compared to the control group.|The null hypothesis is that there is no difference between control and intervention over time in Phase 2.||||0.635
92175858|NCT04752709|184244152|OTHER||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.0001
92175859|NCT04248725|184244158|SUPERIORITY||Mean Difference (Net)|-2.7||||0.004|TWO_SIDED||||||Mixed Models Analysis|Models were adjusted for sex, baseline severity, and disability condition.||||||0.004
92175860|NCT04248725|184244159|SUPERIORITY||Mean Difference (Net)|0.59|||<|0.001|TWO_SIDED|95.0|0.3|0.88|||Mixed Models Analysis|||||0.88|0.30|<0.001
92175861|NCT04248725|184244160|SUPERIORITY||Mean Difference (Net)|-0.32||||0.29|TWO_SIDED|95.0|-0.61|-0.03|||Mixed Models Analysis|||||-0.03|-0.61|0.29
92175862|NCT05977530|184244175|SUPERIORITY||comparison of ranks in Wilcoxon|0.0|||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<.01
92175863|NCT05692960|184244205|SUPERIORITY|For this feasibility study, a sample of approximately 15 participants per arm will allow for estimates that can be used in the development of a larger study.|FSFI Total, HRI Cohen's d|1.37|||||TWO_SIDED|95.0|0.62|2.1||||||Effect sizes, Cohen's d, were calculated for both study arms using paired t-tests for FSFI total, FSFI lubrication, FSFI pain, and FSFI desire subscales. Means and 95% confidence intervals were also calculated.||2.10|.62|
92175864|NCT05692960|184244205|SUPERIORITY||FSFI Total, VVA Cohen's d|1.63|||||TWO_SIDED|95.0|0.86|2.37||||||||2.37|.86|
92175865|NCT05692960|184244205|SUPERIORITY||FSFI Lubrication, HRI Cohen's d|1.2|||||TWO_SIDED|95.0|0.49|1.87||||||||1.87|.49|
92287038|NCT04278560|184479272|SUPERIORITY||Mean Difference (Net)|3.1||||0.016|TWO_SIDED||||||ANOVA|We used change from baseline for this analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline.||||||0.016
92175866|NCT05692960|184244205|SUPERIORITY||FSFI Lubrication, VVA Cohen's d|1.85|||||TWO_SIDED|95.0|1.02|2.66||||||||2.66|1.02|
92175867|NCT05692960|184244205|SUPERIORITY||FSFI Pain, HRI Cohen's d|0.77|||||TWO_SIDED|95.0|0.16|1.36||||||||1.36|.16|
92175868|NCT05692960|184244205|SUPERIORITY||FSFI Pain, VVA Cohen's d|0.82|||||TWO_SIDED|95.0|0.24|1.38||||||||1.38|.24|
92175869|NCT05692960|184244205|SUPERIORITY||FSFI Desire, HRI Cohen's d|1.15|||||TWO_SIDED|95.0|0.46|1.82||||||||1.82|.46|
92175870|NCT05692960|184244205|SUPERIORITY||FSFI Desire, VVA Cohen's d|1.21|||||TWO_SIDED|95.0|0.55|1.86||||||||1.86|.55|
92287039|NCT04278560|184479273|SUPERIORITY||Mean Difference (Net)|9.94||||0.17|TWO_SIDED||||||ANOVA|We used change from baseline for this analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline.||||||0.17
92287040|NCT04278560|184479274|SUPERIORITY||Median Difference (Net)|0.6||||0.1|TWO_SIDED||||||ANOVA|We used change from baseline for this analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline.||||||0.1
92175871|NCT05692960|184244206|SUPERIORITY|For this feasibility study, a sample of approximately 15 participants per arm will allow for estimates that can be used in the development of a larger study.|BITS, HRI Cohen's d|1.0|||||TWO_SIDED|95.0|0.34|1.63||||||Effect sizes, Cohen's d, were calculated for both study arms using paired t-tests for the BITS. Means and 95% confidence intervals were also calculated.||1.63|.34|
92175872|NCT05692960|184244206|SUPERIORITY||BITS, VVA Cohen's d|0.5|||||TWO_SIDED|95.0|0.03|1.01||||||||1.01|.03|
92175873|NCT05692960|184244207|SUPERIORITY|For this feasibility study, a sample of approximately 15 participants per arm will allow for estimates that can be used in the development of a larger study.|PROMIS Interest, HRI Cohen's d|1.1|||||TWO_SIDED|95.0|0.41|1.75||||||Effect sizes, Cohen's d, were calculated for both study arms using paired t-test for PROMIS interest, lubrication and satisfaction subscales. Means and 95% confidence intervals were also calculated.||1.75|.41|
92175874|NCT05692960|184244207|SUPERIORITY||PROMIS Interest, VVA Cohen's d|0.64|||||TWO_SIDED|95.0|0.09|1.18||||||||1.18|.09|
92175875|NCT05692960|184244207|SUPERIORITY||PROMIS Satisfaction, HRI Cohen's d|1.19|||||TWO_SIDED|95.0|0.45|1.89||||||||1.89|.45|
92175876|NCT05692960|184244207|SUPERIORITY||PROMIS Satisfaction, VVA Cohen's d|0.8|||||TWO_SIDED|95.0|0.13|1.44||||||||1.44|.13|
92175877|NCT05692960|184244207|SUPERIORITY||PROMIS Lubrication, HRI Cohen's d|1.79|||||TWO_SIDED|95.0|0.88|2.67||||||||2.67|.88|
92175878|NCT05692960|184244207|SUPERIORITY||PROMIS Lubrication, VVA Cohen's d|1.63|||||TWO_SIDED|95.0|0.74|2.5||||||||2.50|.74|
92175879|NCT02675777|184244208|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92175880|NCT02675777|184244209|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||||||0.30
92248763|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.16|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-65.94|-52.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-52.38|-65.94|<0.001
92248764|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.6|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-45.81|-33.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-33.40|-45.81|<0.001
92248765|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.1|STANDARD_ERROR_OF_MEAN|3.41|<|0.001|TWO_SIDED|95.0|-47.83|-34.37||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-34.37|-47.83|<0.001
92248766|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-76.29|STANDARD_ERROR_OF_MEAN|5.36|<|0.001|TWO_SIDED|95.0|-86.87|-65.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-65.72|-86.87|<0.001
92248767|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-70.51|STANDARD_ERROR_OF_MEAN|4.72|<|0.001|TWO_SIDED|95.0|-79.81|-61.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-61.20|-79.81|<0.001
92248768|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.2|STANDARD_ERROR_OF_MEAN|5.24|<|0.001|TWO_SIDED|95.0|-57.54|-36.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-36.86|-57.54|<0.001
92283145|NCT02937701|184470217|EQUIVALENCE|Clinical equivalence for the primary endpoint was to be evaluated sequentially by first comparing the 2-sided 90% CI for RD of ACR20 at week 22 between ABP 710 and infliximab with an equivalence margin of (-15%, 15%). If the first test was successful, RD of ACR20 at week 22 was to be further evaluated by comparing the 2-sided 90% CI between ABP 710 and infliximab with an equivalence margin of (-12%, 15%).|Response Difference|7.184|||||TWO_SIDED|90.0|0.748|13.62|||||The ACR core set includes tender joint count, swollen joint count, subject's global health assessment, investigator's global health assessment, subject's assessment of disease related pain, HAQ-DI, and CRP.|A post-hoc analysis was conducted to adjust for the impact of random imbalance in baseline demographic and disease characteristics between the 2 treatment groups. The MH estimate of RD and corresponding CIs were estimated using a nonparametric analysis of covariance method with stratification factors geographic region and prior biologic use, and adjustment for baseline covariates (ACR core set, age, use of oral corticosteroid, use of NSAID, body mass index categories, and methotrexate dose).||13.620|0.748|
92248769|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.88|STANDARD_ERROR_OF_MEAN|4.73|<|0.001|TWO_SIDED|95.0|-48.21|-29.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-29.56|-48.21|<0.001
92248770|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-68.21|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-74.72|-61.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-61.70|-74.72|<0.001
92248771|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-64.49|STANDARD_ERROR_OF_MEAN|3.21|<|0.001|TWO_SIDED|95.0|-70.84|-58.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-58.14|-70.84|<0.001
92283146|NCT02937701|184470218|OTHER||Response Difference|8.03|||||TWO_SIDED|90.0|1.15|14.81||||||The response difference at week 2 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||14.81|1.15|
92248772|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-68.31|STANDARD_ERROR_OF_MEAN|4.42|<|0.001|TWO_SIDED|95.0|-77.04|-59.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-59.57|-77.04|<0.001
92248773|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.98|STANDARD_ERROR_OF_MEAN|5.23|<|0.001|TWO_SIDED|95.0|-65.31|-44.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-44.65|-65.31|<0.001
92283147|NCT02937701|184470218|OTHER||Response Difference|4.96|||||TWO_SIDED|90.0|-1.8|11.64||||||The response difference at week 6 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||11.64|-1.80|
92248774|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-70.56|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|95.0|-76.72|-64.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-64.41|-76.72|<0.001
92248775|NCT01763866|184400378|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.41|STANDARD_ERROR_OF_MEAN|4.41|<|0.001|TWO_SIDED|95.0|-69.11|-51.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-51.72|-69.11|<0.001
92248776|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-69.95|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-75.38|-64.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-64.51|-75.38|<0.001
92283148|NCT02937701|184470218|OTHER||Response Difference|9.37|||||TWO_SIDED|90.0|-0.51|12.87||||||The response difference at week 14 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||12.87|-0.51|
92248777|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-62.82|STANDARD_ERROR_OF_MEAN|3.17|<|0.001|TWO_SIDED|95.0|-69.06|-56.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-56.57|-69.06|<0.001
92264979|NCT01314261|184431443|SUPERIORITY_OR_OTHER|||||||0.336|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV subgenotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||Ten participants in an ABT-267 arm and nine participants in the placebo arm would provide 84% power using Fisher's exact test with two-sided significance level of 0.05 to detect a difference of approximately 70% between the two arms.||||0.336
92248778|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.53|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-43.03|-32.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-32.03|-43.03|<0.001
92248779|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.49|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-49.7|-37.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-37.28|-49.70|<0.001
92248780|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-74.92|STANDARD_ERROR_OF_MEAN|4.85|<|0.001|TWO_SIDED|95.0|-84.49|-65.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-65.35|-84.49|<0.001
92248781|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-74.81|STANDARD_ERROR_OF_MEAN|4.15|<|0.001|TWO_SIDED|95.0|-83.0|-66.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-66.62|-83.00|<0.001
92248782|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.95|STANDARD_ERROR_OF_MEAN|4.75|<|0.001|TWO_SIDED|95.0|-54.32|-35.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-35.57|-54.32|<0.001
92248783|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.81|STANDARD_ERROR_OF_MEAN|4.19|<|0.001|TWO_SIDED|95.0|-52.06|-35.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-35.55|-52.06|<0.001
92283149|NCT02937701|184470219|OTHER||Response Difference|3.05|||||TWO_SIDED|90.0|-5.26|11.73||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||11.73|-5.26|
92175881|NCT00691002|184244215|SUPERIORITY||Odds Ratio (OR)|1.28||||0.11|TWO_SIDED|95.0|0.94|1.74|||Cochran-Mantel-Haenszel|||Test for superiority of LEO 80190 ointment versus calcipotriol ointment at Week 8 LOCF (Last Observation Carried Forward).||1.74|0.94|0.11
92175882|NCT00691002|184244215|SUPERIORITY||Odds Ratio (OR)|1.79|||<|0.001|TWO_SIDED|95.0|1.31|2.45|||Cochran-Mantel-Haenszel|||Test for superiority of LEO 80190 ointment versus hydrocortisone ointment at Week 8 LOCF (Last Observation Carried Forward).||2.45|1.31|<0.001
92248784|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-66.88|STANDARD_ERROR_OF_MEAN|2.93|<|0.001|TWO_SIDED|95.0|-72.67|-61.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-61.08|-72.67|<0.001
92248785|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-66.58|STANDARD_ERROR_OF_MEAN|3.05|<|0.001|TWO_SIDED|95.0|-72.6|-60.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-60.56|-72.60|<0.001
92175883|NCT00691002|184244215|SUPERIORITY||Odds Ratio (OR)|2.7|||<|0.001|TWO_SIDED|95.0|1.8|4.04|||Cochran-Mantel-Haenszel|||Test for superiority of LEO 80190 ointment versus ointment vehicle at Week 8 LOCF (Last Observation Carried Forward).||4.04|1.80|<0.001
92248786|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-65.66|STANDARD_ERROR_OF_MEAN|3.81|<|0.001|TWO_SIDED|95.0|-73.19|-58.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-58.12|-73.19|<0.001
92175884|NCT04898673|184244220|SUPERIORITY||Mean Difference (Final Values)|-5.23|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-6.08|-4.37|||ANOVA|||||-4.37|-6.08|<0.001
92175885|NCT04898673|184244221|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|1.39||0.67|TWO_SIDED|95.0|-2.31|3.51|||ANOVA|||||3.51|-2.31|0.670
92175886|NCT04898673|184244222|NON_INFERIORITY|Non-inferiority margin=-10% words correct; CP1110 non-inferior to CP1000 if the lower limit of the confidence interval for the difference \> -10% words correct.|Mean Difference (Final Values)|-3.75|STANDARD_ERROR_OF_MEAN|1.55||0.026|TWO_SIDED|95.0|-7.0|-0.5|||ANOVA|||||-0.50|-7.00|0.026
92175887|NCT04898673|184244223|NON_INFERIORITY|Non-inferiority margin=-10% words correct; CP1110 non-inferior to CP1000 if the lower limit of the confidence interval for the difference \> -10% words correct.|Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|1.37||0.411|TWO_SIDED|95.0|-4.02|1.72|||ANOVA|||||1.72|-4.02|0.411
92175888|NCT05778695|184244262|OTHER|A comparison is not being made between two different treatment groups. Exploratory analysis|Median Difference (Net)|-14.0|STANDARD_DEVIATION|22.02||0.875|TWO_SIDED|||||A priori threshold for statistical significance is p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.875
92248787|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-62.91|STANDARD_ERROR_OF_MEAN|4.27|<|0.001|TWO_SIDED|95.0|-71.37|-54.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-54.46|-71.37|<0.001
92175889|NCT05778695|184244262|OTHER|A comparison is not being made between two different treatment groups. Exploratory analysis|Mean Difference (Net)|-2.0|STANDARD_DEVIATION|15.166||0.739|TWO_SIDED|95.0|-16.026|12.026||A priori threshold for statistical significance is p \< 0.05.|t-test, 2 sided|||||12.026|-16.026|0.739
92175890|NCT05778695|184244263|OTHER|A comparison is not being made between two different treatment groups. Exploratory analysis|Median Difference (Net)|0.0|STANDARD_DEVIATION|0.34||0.37|TWO_SIDED|||||A priori threshold for statistical significance is p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.37
92175891|NCT04642820|184244282|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||.05
92175892|NCT04568434|184244283|SUPERIORITY||LS mean difference|-43.5|||=|0.0009|TWO_SIDED|95.0|-69.085|-17.921||ANCOVA model included effects of treatment (olezarsen 80 mg, olezarsen 50 mg, or placebo): dependent variable, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline TG: covariate.|ANCOVA|||||-17.921|-69.085|=0.0009
92175893|NCT04568434|184244283|SUPERIORITY||Least squares (LS) mean difference|-22.37|||=|0.0775|TWO_SIDED|95.0|-47.2|2.463||Analysis of covariance (ANCOVA) model included effects of treatment (olezarsen 80 mg, olezarsen 50 mg, or placebo): dependent variable, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline TG: covariate.|ANCOVA|||||2.463|-47.200|=0.0775
92175894|NCT04568434|184244284|SUPERIORITY||LS mean difference|-43.81|||=|0.0044|TWO_SIDED|95.0|-73.928|-13.692||ANCOVA model included percent change from baseline in fasting TG at Month 12: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline TG: covariate.|ANCOVA|||||-13.692|-73.928|=0.0044
92175895|NCT04568434|184244284|SUPERIORITY||LS mean difference|-59.39|||=|0.0002|TWO_SIDED|95.0|-90.663|-28.119||ANCOVA model included percent change from baseline in fasting TG at Month 12: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline TG: covariate.|ANCOVA|||||-28.119|-90.663|=0.0002
92175896|NCT04568434|184244285|SUPERIORITY||LS mean difference|-65.48|||<|0.0001|TWO_SIDED|95.0|-82.634|-48.32||ANCOVA model included percent change from baseline in fasting apoC-III at Month 6: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline apoC-III: covariate.|ANCOVA|||Percent Change from Baseline at Month 6||-48.320|-82.634|<0.0001
92175897|NCT04568434|184244285|SUPERIORITY||LS mean difference|-73.69|||<|0.0001|TWO_SIDED|95.0|-94.553|-52.837||ANCOVA model included percent change from baseline in fasting apoC-III at Month 6: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline apoC-III: covariate.|ANCOVA|||Percent Change from Baseline at Month 6||-52.837|-94.553|<0.0001
92248788|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-69.43|STANDARD_ERROR_OF_MEAN|2.74|<|0.001|TWO_SIDED|95.0|-74.86|-64.01||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-64.01|-74.86|<0.001
92248789|NCT01763866|184400379|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-68.45|STANDARD_ERROR_OF_MEAN|4.17|<|0.001|TWO_SIDED|95.0|-76.68|-60.22||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-60.22|-76.68|<0.001
92248790|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-83.6|STANDARD_ERROR_OF_MEAN|4.5|<|0.001|TWO_SIDED|95.0|-92.6|-74.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-74.6|-92.6|<0.001
92283150|NCT02937701|184470219|OTHER||Response Difference|8.5|||||TWO_SIDED|90.0|-1.18|17.97||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||17.97|-1.18|
92248791|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-79.7|STANDARD_ERROR_OF_MEAN|5.3|<|0.001|TWO_SIDED|95.0|-90.2|-69.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-69.2|-90.2|<0.001
92248792|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.4|STANDARD_ERROR_OF_MEAN|4.4|<|0.001|TWO_SIDED|95.0|-53.4|-35.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-35.3|-53.4|<0.001
92175898|NCT04568434|184244285|SUPERIORITY||Ls mean difference|-77.06|||<|0.0001|TWO_SIDED|95.0|-98.938|-55.177||ANCOVA model included percent change from baseline in fasting apoC-III at Month 12: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline apoC-III: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||-55.177|-98.938|<0.0001
92287041|NCT04278560|184479275|SUPERIORITY||Median Difference (Net)|0.07||||0.7|TWO_SIDED||||||ANOVA|We used change from baseline for this analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline||||||0.7
92175899|NCT04568434|184244285|SUPERIORITY||LS mean difference|-81.28|||<|0.0001|TWO_SIDED|95.0|-104.656|-57.894||ANCOVA model included percent change from baseline in fasting apoC-III at Month 12: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline apoC-III: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||-57.894|-104.656|<0.0001
92175900|NCT04568434|184244287|SUPERIORITY||LS mean difference|-33.29|||=|0.186|TWO_SIDED|95.0|-82.612|16.041||ANCOVA model included percent change from baseline in fasting apoB-48 to Month 6: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline apoB-48: covariate.|ANCOVA|||Percent Change From Baseline at Month 6||16.041|-82.612|=0.1860
92175901|NCT04568434|184244287|SUPERIORITY||LS mean difference|-83.97|||=|0.0019|TWO_SIDED|95.0|-136.949|-30.982||ANCOVA model included percent change from baseline in fasting apoB-48 to Month 6: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline apoB-48: covariate.|ANCOVA|||Percent Change From Baseline at Month 6||-30.982|-136.949|=0.0019
92175902|NCT04568434|184244287|SUPERIORITY||LS mean difference|-32.9|||=|0.4219|TWO_SIDED|95.0|-113.254|47.459||ANCOVA model included percent change from baseline in fasting apoB-48 to Month 12: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline apoB-48: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||47.459|-113.254|=0.4219
92287042|NCT04278560|184479276|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
92287043|NCT04278560|184479277|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||||||0.16
92175903|NCT04568434|184244287|SUPERIORITY||LS mean difference|-75.63|||=|0.056|TWO_SIDED|95.0|-153.195|1.927||ANCOVA model included percent change from baseline in fasting apoB-48 to Month 12: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline apoB-48: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||1.927|-153.195|=0.0560
92283151|NCT02937701|184470219|OTHER||Response Difference|3.31|||||TWO_SIDED|90.0|-4.61|11.7||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||11.70|-4.61|
92283152|NCT02937701|184470219|OTHER||Response Difference|4.06|||||TWO_SIDED|90.0|-5.4|13.4||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.40|-5.40|
92283153|NCT02937701|184470219|OTHER||Response Difference|0.82|||||TWO_SIDED|90.0|-7.34|9.4||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.40|-7.34|
92283154|NCT02937701|184470219|OTHER||Response Difference|2.79|||||TWO_SIDED|90.0|-6.86|12.34||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||12.34|-6.86|
92283155|NCT02937701|184470219|OTHER||Response Difference|-3.74|||||TWO_SIDED|90.0|-12.27|5.17||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||5.17|-12.27|
92283156|NCT02937701|184470219|OTHER||Response Difference|1.12|||||TWO_SIDED|90.0|-8.89|11.08||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||11.08|-8.89|
92283157|NCT02937701|184470219|OTHER||Response Difference|-5.25|||||TWO_SIDED|90.0|-13.24|3.29||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||3.29|-13.24|
92283158|NCT02937701|184470219|OTHER||Response Difference|-1.49|||||TWO_SIDED|90.0|-11.01|8.04||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||8.04|-11.01|
92283159|NCT02937701|184470220|OTHER||Response Difference|4.41|||||TWO_SIDED|90.0|-0.56|9.38||||||The response difference at week 2 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.38|-0.56|
92283160|NCT02937701|184470220|OTHER||Response Difference|1.62|||||TWO_SIDED|90.0|-4.71|7.94||||||The response difference at week 6 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||7.94|-4.71|
92283161|NCT02937701|184470220|OTHER||Response Difference|2.3|||||TWO_SIDED|90.0|-4.45|9.03||||||The response difference at week 14 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.03|-4.45|
92283162|NCT02937701|184470220|OTHER||Response Difference|7.09|||||TWO_SIDED|90.0|0.27|13.83||||||The response difference at week 22 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.83|0.27|
92283163|NCT02937701|184470221|OTHER||Response Difference|-1.33|||||TWO_SIDED|90.0|-10.4|7.62||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||7.62|-10.40|
92283164|NCT02937701|184470221|OTHER||Response Difference|3.24|||||TWO_SIDED|90.0|-7.28|13.67||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.67|-7.28|
92175904|NCT04568434|184244288|SUPERIORITY||LS mean difference|-17.69|||=|0.0401|TWO_SIDED|95.0|-34.571|-0.801||ANCOVA model included percent change from baseline in fasting non-HDL-C to Month 6: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline non-HDL-C: covariate.|ANCOVA|||Percent Change from Baseline Month 6||-0.801|-34.571|=0.0401
92248793|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.0|STANDARD_ERROR_OF_MEAN|5.3|<|0.001|TWO_SIDED|95.0|-65.4|-44.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-44.6|-65.4|<0.001
92283165|NCT02937701|184470221|OTHER||Response Difference|6.52|||||TWO_SIDED|90.0|-2.62|15.48||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||15.48|-2.62|
92248794|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-69.9|STANDARD_ERROR_OF_MEAN|6.1|<|0.001|TWO_SIDED|95.0|-81.9|-57.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-57.8|-81.9|<0.001
92248795|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-65.6|STANDARD_ERROR_OF_MEAN|4.5|<|0.001|TWO_SIDED|95.0|-74.5|-56.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-56.7|-74.5|<0.001
92248796|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.8|STANDARD_ERROR_OF_MEAN|6.0|<|0.001|TWO_SIDED|95.0|-57.7|-33.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-33.9|-57.7|<0.001
92248797|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.8|STANDARD_ERROR_OF_MEAN|4.5|<|0.001|TWO_SIDED|95.0|-47.8|-29.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.9|-47.8|<0.001
92248798|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-75.4|STANDARD_ERROR_OF_MEAN|4.3|<|0.001|TWO_SIDED|95.0|-83.9|-67.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-67.0|-83.9|<0.001
92248799|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-77.9|STANDARD_ERROR_OF_MEAN|5.1|<|0.001|TWO_SIDED|95.0|-88.0|-67.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-67.8|-88.0|<0.001
92248800|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.8|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-63.1|-48.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.4|-63.1|<0.001
92248801|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.6|STANDARD_ERROR_OF_MEAN|5.1|<|0.001|TWO_SIDED|95.0|-60.6|-40.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-40.6|-60.6|<0.001
92248802|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-78.1|STANDARD_ERROR_OF_MEAN|4.1|<|0.001|TWO_SIDED|95.0|-86.2|-70.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-70.0|-86.2|<0.001
92248803|NCT01763866|184400380|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-80.1|STANDARD_ERROR_OF_MEAN|5.8|<|0.001|TWO_SIDED|95.0|-91.7|-68.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-68.6|-91.7|<0.001
92248804|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-85.5|STANDARD_ERROR_OF_MEAN|4.9|<|0.001|TWO_SIDED|95.0|-95.2|-75.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-75.9|-95.2|<0.001
92248805|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-75.8|STANDARD_ERROR_OF_MEAN|5.5|<|0.001|TWO_SIDED|95.0|-86.8|-64.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-64.9|-86.8|<0.001
92248806|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.8|STANDARD_ERROR_OF_MEAN|4.9|<|0.001|TWO_SIDED|95.0|-56.6|-37.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-37.1|-56.6|<0.001
92283166|NCT02937701|184470221|OTHER||Response Difference|10.74|||||TWO_SIDED|90.0|0.12|21.03||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||21.03|0.12|
92175905|NCT04568434|184244288|SUPERIORITY||LS mean difference|-24.2|||=|0.0036|TWO_SIDED|95.0|-40.484|-7.911||ANCOVA model included percent change from baseline in fasting non-HDL-C to Month 6: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline non-HDL-C: covariate|ANCOVA|||Percent Change from Baseline Month 6||-7.911|-40.484|=0.0036
92175906|NCT04568434|184244288|SUPERIORITY||LS mean difference|-29.84|||=|0.0134|TWO_SIDED|95.0|-53.49|-6.198||ANCOVA model included percent change from baseline in fasting non-HDL-C to Month 12: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline non-HDL-C: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||-6.198|-53.490|=0.0134
92175907|NCT04568434|184244288|SUPERIORITY||LS mean difference|-39.7|||=|0.0009|TWO_SIDED|95.0|-63.108|-16.292||ANCOVA model included percent change from baseline in fasting non-HDL-C to Month 12: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline non-HDL-C: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||-16.292|-63.108|=0.0009
92175908|NCT04568434|184244289|SUPERIORITY||Mean Rate Ratio|0.1|||=|0.0052|TWO_SIDED|95.0|0.02|0.506||Regression model: treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 1 to 53:offset variable.|Negative Binomial Regression Model|||||0.506|0.020|=0.0052
92175909|NCT04568434|184244290|SUPERIORITY||Mean Rate Ratio|0.12|||=|0.0144|TWO_SIDED|95.0|0.022|0.656||Regression model: treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 1 to 53:offset variable.|Negative Binomial Regression Model|||||0.656|0.022|=0.0144
92175910|NCT04568434|184244291|SUPERIORITY||Mean Rate Ratio|0.14|||=|0.0174|TWO_SIDED|95.0|0.028|0.709||Regression model: treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 13 to 53:offset variable|Negative Binomial Regression Model|||||0.709|0.028|=0.0174
92175911|NCT04568434|184244292|SUPERIORITY||Mean Rate Ratio|0.16|||=|0.0314|TWO_SIDED|95.0|0.031|0.85||Regression model: treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 13 to 53:offset variable|Negative Binomial Regression Model|||||0.850|0.031|=0.0314
92175912|NCT04568434|184244295|SUPERIORITY||Mean Rate Ratio|0.14|||=|0.0137|TWO_SIDED|95.0|0.029|0.669||Regression model: treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 1 to 53:offset variable|Negative Binomial Regression Model|||||0.669|0.029|=0.0137
92175913|NCT04568434|184244296|SUPERIORITY||Mean Rate Ratio|0.2|||=|0.048|TWO_SIDED|95.0|0.04|0.986||Regression model:treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 13 to 53:offset variable|Negative Binomial Regression Model|||||0.986|0.040|=0.0480
92175914|NCT04164888|184244309|SUPERIORITY||Least Square Mean|-84.56|STANDARD_ERROR_OF_MEAN|7.137|<|0.0001|TWO_SIDED|95.0|-98.95|-70.18|||ANCOVA|ANCOVA with LOCF||Applying the LOCF method (Last Observation Carried Forward) did not result in any changes at Day 29 or Day 57 due to the lack of missing values and resulted in similar results at Day 85.||-70.18|-98.95|<0.0001
92175915|NCT04164888|184244309|SUPERIORITY||Least Square Mean|-80.43|STANDARD_ERROR_OF_MEAN|7.018|<|0.0001|TWO_SIDED|95.0|-94.58|-66.29|||ANCOVA|ANCOVA with LOCF||Applying the LOCF method (Last Observation Carried Forward) did not result in any changes at Day 29 or Day 57 due to the lack of missing values and resulted in similar results at Day 85.||-66.29|-94.58|<0.0001
92175916|NCT04164888|184244309|SUPERIORITY||Least Square Mean|-84.87|STANDARD_ERROR_OF_MEAN|7.009|<|0.0001|TWO_SIDED|95.0|-99.0|-70.75|||ANCOVA|ANCOVA with LOCF||Applying the LOCF method (Last Observation Carried Forward) did not result in any changes at Day 29 or Day 57 due to the lack of missing values and resulted in similar results at Day 85.||-70.75|-99.00|<0.0001
92175917|NCT04164888|184244310|SUPERIORITY||Least Square Mean|-48.03|STANDARD_ERROR_OF_MEAN|7.46|<|0.0001|TWO_SIDED|95.0|-63.06|-32.99|||ANCOVA|ANCOVA with LOCF||Similar changes from baseline were observed for Day 29, Day 57, and Day 85 compared to Day 29, Day 57, and Day 85 LOCF.||-32.99|-63.06|<0.0001
92175918|NCT04164888|184244310|SUPERIORITY||Least Square Mean|-49.59|STANDARD_ERROR_OF_MEAN|7.396|<|0.0001|TWO_SIDED|95.0|-64.5|34.69|||ANCOVA|ANCOVA with LOCF||Similar changes from baseline were observed for Day 29, Day 57, and Day 85 compared to Day 29, Day 57, and Day 85 LOCF.||34.69|-64.50|<0.0001
92175919|NCT04164888|184244310|SUPERIORITY||Least Square Mean|-51.99|STANDARD_ERROR_OF_MEAN|7.616|<|0.0001|TWO_SIDED|95.0|-67.34|-36.64|||ANCOVA|ANCOVA with LOCF||Similar changes from baseline were observed for Day 29, Day 57, and Day 85 compared to Day 29, Day 57, and Day 85 LOCF.||-36.64|-67.34|<0.0001
92175920|NCT03365882|184244323|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.44|TWO_SIDED|95.0|0.43|1.45|||Log Rank|||||1.45|0.43|0.44
92175921|NCT03365882|184244325|SUPERIORITY|||||||0.17|||||||Log Rank|||||||0.17
92175922|NCT04828005|184244334|NON_INFERIORITY|Alternative hypothesis: Nalmefene reversal not less than 80% naloxone reversal|||||<|0.0009|||||||Mixed Models Analysis|||||||<0.0009
92175923|NCT05349500|184244437|SUPERIORITY||Mean Difference (Final Values)|-11.0||||0.019|TWO_SIDED|95.0|-20.1|-1.9|||Mixed Models Analysis|||||-1.9|-20.1|0.019
92175924|NCT05349500|184244438|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.286|TWO_SIDED|95.0|-14.1|4.3|||Mixed Models Analysis|||||4.3|-14.1|0.286
92175925|NCT05349500|184244439|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.046|TWO_SIDED|95.0|-4.0|0.0|||Mixed Models Analysis|||||-0.0|-4.0|0.046
92175926|NCT05349500|184244440|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.128|TWO_SIDED|95.0|-3.8|0.5|||Mixed Models Analysis|||||0.5|-3.8|0.128
92175927|NCT05349500|184244441|SUPERIORITY||Mean Difference (Final Values)|-7.5||||0.031|TWO_SIDED|95.0|-14.3|-0.7|||Mixed Models Analysis|||||-0.7|-14.3|0.031
92175928|NCT05349500|184244442|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.564|TWO_SIDED|95.0|-8.8|4.9|||Mixed Models Analysis|||||4.9|-8.8|0.564
92175929|NCT05349500|184244443|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.349|TWO_SIDED|95.0|-0.2|0.6|||Mixed Models Analysis|||||0.6|-0.2|0.349
92175930|NCT05349500|184244444|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.303|TWO_SIDED|95.0|-0.6|0.2|||Mixed Models Analysis|||||0.2|-0.6|0.303
92248807|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-51.7|STANDARD_ERROR_OF_MEAN|5.5|<|0.001|TWO_SIDED|95.0|-62.6|-40.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-40.9|-62.6|<0.001
92175931|NCT05349500|184244445|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.507|TWO_SIDED|95.0|-0.1|0.2|||Mixed Models Analysis|||||0.2|-0.1|0.507
92175932|NCT05349500|184244446|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.729|TWO_SIDED|95.0|-0.2|0.2|||Mixed Models Analysis|||||0.2|-0.2|0.729
92248808|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-71.7|STANDARD_ERROR_OF_MEAN|6.4|<|0.001|TWO_SIDED|95.0|-84.4|-59.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-59.0|-84.4|<0.001
92248809|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.8|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-71.6|-52.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-52.0|-71.6|<0.001
92175933|NCT05349500|184244447|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.421|TWO_SIDED|95.0|-0.2|0.1|||Mixed Models Analysis|||||0.1|-0.2|0.421
92175934|NCT05349500|184244448|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.648|TWO_SIDED|95.0|-0.2|0.1|||Mixed Models Analysis|||||0.1|-0.2|0.648
92248810|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.0|STANDARD_ERROR_OF_MEAN|6.3|<|0.001|TWO_SIDED|95.0|-61.5|-36.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-36.6|-61.5|<0.001
92175935|NCT05349500|184244449|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.034|TWO_SIDED|95.0|0.3|6.5|||Mixed Models Analysis|||||6.5|0.3|0.034
92175936|NCT05349500|184244450|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.315|TWO_SIDED|95.0|-2.1|6.3|||Mixed Models Analysis|||||6.3|-2.1|0.315
92175937|NCT05349500|184244451|SUPERIORITY||Mean Difference (Final Values)|13.4||||0.444|TWO_SIDED|95.0|-21.5|48.2|||Mixed Models Analysis|||||48.2|-21.5|0.444
92175938|NCT05349500|184244452|SUPERIORITY||Mean Difference (Final Values)|9.3||||0.638|TWO_SIDED|95.0|-30.6|49.2|||Mixed Models Analysis|||||49.2|-30.6|0.638
92175939|NCT05349500|184244453|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.688|TWO_SIDED|95.0|-13.4|8.9|||Mixed Models Analysis|||||8.9|-13.4|0.688
92175940|NCT05349500|184244454|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.709|TWO_SIDED|95.0|-2.5|1.7|||Mixed Models Analysis|||||1.7|-2.5|0.709
92175941|NCT05349500|184244455|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.089|TWO_SIDED|95.0|-3.3|0.2|||Mixed Models Analysis|||||0.2|-3.3|0.089
92175942|NCT05349500|184244456|SUPERIORITY||Mean Difference (Final Values)|14.9||||0.066|TWO_SIDED|95.0|-1.0|30.8|||Mixed Models Analysis|||||30.8|-1.0|0.066
92175943|NCT02359890|184244458|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants with events|2.6|||||TWO_SIDED|95.0|0.7|6.5|||||The 2-sided 95% confidence interval is derived using the exact Clopper-Pearson interval.|||6.5|0.7|
92175944|NCT02359890|184244460|SUPERIORITY_OR_OTHER_LEGACY||Percentage of patient with acute success|96.2|||||TWO_SIDED|95.0|92.0|98.6|||||The 2-sided 95% confidence interval is derived using the exact Clopper-Pearson interval|||98.6|92.0|
92175945|NCT05260112|184244462|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92175946|NCT05260112|184244463|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92175947|NCT05260112|184244464|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92175948|NCT05260112|184244465|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92175949|NCT05260112|184244466|OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
92175950|NCT05260112|184244467|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92175951|NCT03031470|184244512|SUPERIORITY|||||||0.688|||||||Fisher Exact|Analysis is based on exact Fisher test to compare treatments.||||||0.688
92175952|NCT03031470|184244513|SUPERIORITY|||||||0.7|||||||Fisher Exact|Analysis is based on exact Fisher test to compare treatments.||||||0.700
92175953|NCT03031470|184244514|SUPERIORITY||||||>|0.999|||||||Fisher Exact|Treatment groups were compared for frequency of allograft nonfunction using Fisher exact test||||||>0.999
92175954|NCT03031470|184244515|SUPERIORITY|||||||0.308|||||||Fisher Exact|||||||0.308
92175955|NCT03031470|184244516|SUPERIORITY|||||||0.601|||||||Fisher Exact|||||||0.601
92175956|NCT03031470|184244518|SUPERIORITY|||||||0.574|||||||Cochran-Mantel-Haenszel|Reparixin and Control groups will be compared for degree of allograft steatosis using Cochran-Mantel-Hensel (CMH) test with control EAD.||||||0.574
92175957|NCT03031470|184244519|SUPERIORITY|||||||0.843|||||||Cochran-Mantel-Haenszel|Reparixin and Control groups will be compared for duration of cold ischemia using Cochran-Mantel-Hensel (CMH) test with control EAD.||||||0.843
92175958|NCT03031470|184244520|SUPERIORITY|||||||0.701|||||||Cochran-Mantel-Haenszel|Reparixin and Control groups will be compared for duration of earm ischemia using Cochran-Mantel-Hensel (CMH) test with control EAD.||||||0.701
92175959|NCT03031470|184244530|SUPERIORITY|"General survival and graft survival (graft loss will be qualified as an event for graft survival) within 1 year were presented with Kaplan-Mayer curves and survival time median with 95% CI. Treatment groups will be compared using logrank test."||||||0.416|||||||Log Rank|||||||0.416
92283167|NCT02937701|184470221|OTHER||Response Difference|0.56|||||TWO_SIDED|90.0|-8.54|9.59||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.59|-8.54|
92248811|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.3|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-45.2|-25.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-25.5|-45.2|<0.001
92248812|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-77.1|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|-86.2|-67.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-67.9|-86.2|<0.001
92248813|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-75.8|STANDARD_ERROR_OF_MEAN|5.3|<|0.001|TWO_SIDED|95.0|-86.3|-65.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-65.3|-86.3|<0.001
92248814|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.2|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-65.1|-49.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.4|-65.1|<0.001
92175960|NCT03435614|184244543|OTHER||||||||||||||||||We selected the individual signs and symptoms associated with the presence of OIWS based on a difference of greater than 15 % in the assessments between the group with OIWS and the group not displaying OIWS. This 15 % difference was judged to be of clinical significance. The signs and symptoms which did not meet this difference were not considered (data not available).|||
92248815|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.6|STANDARD_ERROR_OF_MEAN|5.7|<|0.001|TWO_SIDED|95.0|-55.9|-33.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-33.4|-55.9|<0.001
92175961|NCT02683447|184244546|OTHER|Correlation||||||0.039||||||P \< 0.05 is considered statistically significant.|Pearson correlation|||||||0.039
92248816|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-79.0|STANDARD_ERROR_OF_MEAN|4.3|<|0.001|TWO_SIDED|95.0|-87.5|-70.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-70.4|-87.5|<0.001
92175962|NCT02683447|184244547|OTHER|Correlation|||||<|0.01||||||P \< 0.05 is considered statically significant.|Pearson correlation|||ACLS correct score||||<0.01
92283168|NCT02937701|184470221|OTHER||Response Difference|2.93|||||TWO_SIDED|90.0|-7.62|13.39||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.39|-7.62|
92283169|NCT02937701|184470221|OTHER||Response Difference|-1.04|||||TWO_SIDED|90.0|-10.11|7.93||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||7.93|-10.11|
92175963|NCT02683447|184244547|OTHER|Correlation||||||0.322||||||P \< 0.05 is considered statically significant.|Pearson correlation|||ACLS risk score||||0.322
92175964|NCT03904147|184244578|SUPERIORITY||Win Ratio|1.44||||0.0311|TWO_SIDED||||||Finkelstein-Schoenfeld Method||The Win Ratio provides an estimation of the treatment effect.|||||0.0311
92175965|NCT03904147|184244579|SUPERIORITY|||||||0.0008|||||||exact test|||||||0.0008
92175966|NCT03904147|184244580|SUPERIORITY||||||<|0.0001|||||||Z test|||||||<0.0001
92175967|NCT03904147|184244581|SUPERIORITY||||||<|0.0001|||||||ANCOVA model|||||||<0.0001
92248817|NCT01763866|184400381|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-71.9|STANDARD_ERROR_OF_MEAN|6.0|<|0.001|TWO_SIDED|95.0|-83.8|-60.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-60.0|-83.8|<0.001
92175968|NCT03904147|184244582|SUPERIORITY||||||<|0.0001|||||||Chi-square test|||||||<0.0001
92175969|NCT03904147|184244583|SUPERIORITY|||||||0.2482|||||||ANCOVA model|||||||0.2482
92175970|NCT03904147|184244584|SUPERIORITY||||||<|0.0001|||||||Exact test|||||||<0.0001
92175971|NCT03904147|184244585|SUPERIORITY||||||<|0.0001|||||||Binomial exact method|||||||<0.0001
92175972|NCT03904147|184244586|SUPERIORITY|||||||0.109|||||||normal approximation|||||||0.1090
92175973|NCT04413708|184244592|SUPERIORITY||Risk Ratio (RR)|1.62||||0.41|TWO_SIDED|95.0|0.5|5.17|||Fisher Exact|||||5.17|0.50|0.41
92175974|NCT04413708|184244593|SUPERIORITY||Risk Ratio (RR)|1.07||||1|TWO_SIDED|95.0|0.61|1.9|||Fisher Exact|||||1.90|0.61|1.0
92175975|NCT06044090|184244599|SUPERIORITY|||||||0.856|||||||t-test, 2 sided|||||||0.856
92175976|NCT06044090|184244599|SUPERIORITY|||||||0.613|||||||t-test, 2 sided|||||||0.613
92175977|NCT06044090|184244600|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
92175978|NCT06044090|184244600|SUPERIORITY|||||||0.691|||||||t-test, 2 sided|||||||0.691
92175979|NCT06044090|184244601|SUPERIORITY|||||||0.225|||||||t-test, 2 sided|||||||0.225
92175980|NCT06044090|184244601|SUPERIORITY|||||||0.667|||||||t-test, 2 sided|||||||0.667
92175981|NCT03468868|184244603|NON_INFERIORITY|We chose a non-inferiority margin of 10% (or 0.10 feet per second) for this population.|Mean Difference (Final Values)|0.15|STANDARD_DEVIATION|1.1|<|0.01|TWO_SIDED|95.0|-0.14|0.44|||t-test, 2 sided|||||0.44|-0.14|<0.01
92175982|NCT03468868|184244604|SUPERIORITY||Mean Difference (Final Values)|72.46|STANDARD_DEVIATION|384.1||0.16|TWO_SIDED|95.0|-29.56|174.5|||t-test, 2 sided|||||174.5|-29.56|0.16
92175983|NCT03468868|184244605|SUPERIORITY||Mean Difference (Final Values)|-4.71|STANDARD_DEVIATION|24.96||0.13|TWO_SIDED|95.0|-10.84|1.41|||t-test, 2 sided|||||1.41|-10.84|0.13
92175984|NCT03468868|184244606|SUPERIORITY||Mean Difference (Final Values)|0.88|STANDARD_DEVIATION|18.22||0.7|TWO_SIDED|95.0|-3.55|5.32|||t-test, 2 sided|||||5.32|-3.55|0.70
92175985|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_DEVIATION|6.71||0.43|TWO_SIDED|95.0|-0.97|2.3|||t-test, 2 sided|||NeuroQOL Anxiety Domain||2.30|-0.97|0.43
92175986|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|0.24|STANDARD_DEVIATION|6.16||0.75|TWO_SIDED|95.0|-1.26|1.74|||t-test, 2 sided|||NeuroQOL Depression Domain||1.74|-1.26|0.75
92248818|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.28|STANDARD_ERROR_OF_MEAN|2.54|<|0.001|TWO_SIDED|95.0|-65.29|-55.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-55.27|-65.29|<0.001
92248819|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.37|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|-63.23|-51.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.51|-63.23|<0.001
92248820|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.77|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED|95.0|-37.84|-27.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-27.70|-37.84|<0.001
92175987|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_DEVIATION|7.54||0.35|TWO_SIDED|95.0|-2.71|0.97|||t-test, 2 sided|||NeuroQOL Fatigue Domain||0.97|-2.71|0.35
92175988|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_DEVIATION|3.83||0.91|TWO_SIDED|95.0|-0.88|0.99|||t-test, 2 sided|||NeuroQOL Upper Extremity Function Domain||0.99|-0.88|0.91
92175989|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|1.52|STANDARD_DEVIATION|5.44||0.02|TWO_SIDED|95.0|0.2|2.85|||t-test, 2 sided|||NeuroQOL Lower Extremity Function Domain||2.85|0.20|0.02
92175990|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|-0.89||||0.29|TWO_SIDED|95.0|-2.54|0.76|||t-test, 2 sided|||NeuroQOL Cognitive Function Domain||0.76|-2.54|0.29
92175991|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|1.08||||0.11|TWO_SIDED|95.0|-0.26|2.42|||t-test, 2 sided|||NeuroQOL Emotional and Behavioral Dyscontrol Domain||2.42|-0.26|0.11
92248821|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.53|STANDARD_ERROR_OF_MEAN|2.95|<|0.001|TWO_SIDED|95.0|-45.34|-33.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-33.71|-45.34|<0.001
92248822|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-65.17|STANDARD_ERROR_OF_MEAN|4.37|<|0.001|TWO_SIDED|95.0|-73.78|-56.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-56.56|-73.78|<0.001
92175992|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|0.55|STANDARD_DEVIATION|7.13||0.54|TWO_SIDED|95.0|-1.19|2.28|||t-test, 2 sided|||NeuroQOL Positive Affect and Well-Being Domain||2.28|-1.19|0.54
92175993|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|-0.59|STANDARD_DEVIATION|5.76||0.41|TWO_SIDED|95.0|-2.0|0.81|||t-test, 2 sided|||NeuroQOL Sleep Disturbance Domain||0.81|-2.00|0.41
92175994|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|6.65||0.63|TWO_SIDED|95.0|-1.22|2.02|||t-test, 2 sided|||NeuroQOL Ability to Participate in Social Roles and Activities Domain||2.02|-1.22|0.63
92175995|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|0.65|STANDARD_DEVIATION|7.44||0.48|TWO_SIDED|95.0|-1.16|2.47|||t-test, 2 sided|||NeuroQOL Satisfaction with Social Roles and Activities Domain||2.47|-1.16|0.48
92175996|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_DEVIATION|5.68||0.92|TWO_SIDED|95.0|-1.32|1.45|||t-test, 2 sided|||NeuroQOL Stigma Domain||1.45|-1.32|0.92
92175997|NCT03468868|184244607|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_DEVIATION|3.45||0.28|TWO_SIDED|95.0|-1.31|0.37|||t-test, 2 sided|||NeuroQOL Communication Domain||0.37|-1.31|0.28
92175998|NCT03468868|184244608|SUPERIORITY||Mean Difference (Final Values)|-2.48|STANDARD_DEVIATION|20.63||0.34|TWO_SIDED|95.0|-7.55|2.6|||t-test, 2 sided|||MSIS Physical||2.60|-7.55|0.34
92175999|NCT03468868|184244608|SUPERIORITY||Mean Difference (Final Values)|-1.38|STANDARD_DEVIATION|21.37||0.24|TWO_SIDED|95.0|-6.63|3.88|||t-test, 2 sided|||MSIS Psychological||3.88|-6.63|0.24
92176000|NCT03468868|184244609|SUPERIORITY||Mean Difference (Final Values)|0.37|STANDARD_DEVIATION|8.91||0.74|TWO_SIDED|95.0|-1.83|2.56|||t-test, 2 sided|||MFIS Cognitive||2.56|-1.83|0.74
92176001|NCT03468868|184244609|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|8.03||0.04|TWO_SIDED|95.0|-4.07|-0.12|||t-test, 2 sided|||MFIS Physical||-0.12|-4.07|0.04
92176002|NCT03468868|184244609|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_DEVIATION|2.17||0.59|TWO_SIDED|95.0|-0.68|0.39|||t-test, 2 sided|||MFIS Psychosocial||0.39|-0.68|0.59
92176003|NCT03468868|184244609|SUPERIORITY||Mean Difference (Final Values)|-1.88|STANDARD_DEVIATION|17.0||0.38|TWO_SIDED|95.0|-6.05|2.3|||t-test, 2 sided|||MFIS Total||2.30|-6.05|0.38
92248823|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-64.76|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|-72.32|-57.19||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-57.19|-72.32|<0.001
92248824|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.25|STANDARD_ERROR_OF_MEAN|4.28|<|0.001|TWO_SIDED|95.0|-46.68|-29.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.81|-46.68|<0.001
92248825|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.52|STANDARD_ERROR_OF_MEAN|3.87|<|0.001|TWO_SIDED|95.0|-45.15|-29.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.90|-45.15|<0.001
92176004|NCT03468868|184244610|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|1.18||0.87|TWO_SIDED|95.0|-0.34|0.29|||t-test, 2 sided|||||0.29|-0.34|0.87
92176005|NCT03468868|184244611|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_DEVIATION|2.21||0.05|TWO_SIDED|95.0|-1.08|0.0|||t-test, 2 sided|||||0.00|-1.08|0.05
92176006|NCT06074172|184244638|OTHER|Linear Mixed Models were done with a compound symmetry covariance structure. This infers that the variances (pooled within-group) and covariances (across subjects) of all of the repeated measures are homogenous.||||||0.008||||||In the Bonferroni corrected Linear Mixed Model for PI Ratio, the p-value for the following interaction was reported: Treatment\*Age.|Linear Mixed Model|"Linear Mixed Model analyses:~1. Factor: Treatment group~2. Covariates: Age, Sex, CBD Use history, and Urine THC~3. Interactions"||||||0.008
92176007|NCT03656510|184244757|OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-1.382|0.185||||||Difference versus placebo in mean RSV viral load AUC on Day 3||0.185|-1.382|
92176008|NCT03656510|184244757|OTHER||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-1.19|0.418||||||Difference versus placebo in mean RSV viral load AUC on Day 3||0.418|-1.190|
92176009|NCT03656510|184244757|OTHER||Mean Difference (Final Values)|-2.46|||||TWO_SIDED|95.0|-4.674|-0.25||||||Difference versus placebo in mean RSV viral load AUC on Day 8||-0.250|-4.674|
92176010|NCT03656510|184244757|OTHER||Mean Difference (Final Values)|-2.38|||||TWO_SIDED|95.0|-4.645|-0.114||||||Difference versus placebo in mean RSV viral load AUC on Day 8||-0.114|-4.645|
92176011|NCT03852472|184244843|OTHER||% Difference (Avacopan - Placebo)|-8.4||||0.1321|TWO_SIDED|95.0|-18.7|2.4||P-values are obtained from a CMH test stratified by stratification factors Hurley Stage (Stage II vs III), and anti-TNF drug use (Treatment naive vs Previous treatment).|Cochran-Mantel-Haenszel|||||2.4|-18.7|0.1321
92176012|NCT03852472|184244843|OTHER||% Difference (Avacopan - Placebo)|4.3||||0.4503|TWO_SIDED|95.0|-6.9|15.5||P-values are obtained from a CMH test stratified by stratification factors Hurley Stage (Stage II vs III), and anti-TNF drug use (Treatment naive vs Previous treatment)|Cochran-Mantel-Haenszel|||||15.5|-6.9|0.4503
92176013|NCT03852472|184244844|OTHER||Least Squares Mean|0.6|STANDARD_ERROR_OF_MEAN|1.17||0.5784|TWO_SIDED|95.0|-1.7|2.9|||Mixed model for repeated measures|||||2.9|-1.7|0.5784
92176014|NCT03852472|184244844|OTHER||Least Squares Mean|-1.4|STANDARD_ERROR_OF_MEAN|1.17||0.2253|TWO_SIDED|95.0|-3.7|0.9|||Mixed effects model for repeated measure|||||0.9|-3.7|0.2253
92183034|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-44.7|STANDARD_ERROR_OF_MEAN|9.57|||TWO_SIDED|95.0|-63.5|-25.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||-25.9|-63.5|
92248826|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.61|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-64.73|-54.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-54.48|-64.73|<0.001
92248827|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.2|STANDARD_ERROR_OF_MEAN|2.83|<|0.001|TWO_SIDED|95.0|-64.8|-53.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-53.60|-64.80|<0.001
92248828|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-58.27|STANDARD_ERROR_OF_MEAN|3.2|<|0.001|TWO_SIDED|95.0|-64.6|-51.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.94|-64.60|<0.001
92248829|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.31|STANDARD_ERROR_OF_MEAN|3.53|<|0.001|TWO_SIDED|95.0|-64.29|-50.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-50.32|-64.29|<0.001
92283170|NCT02937701|184470221|OTHER||Response Difference|6.14|||||TWO_SIDED|90.0|-4.44|16.54||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||16.54|-4.44|
92248830|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.06|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-65.18|-54.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-54.94|-65.18|<0.001
92283171|NCT02937701|184470221|OTHER||Response Difference|-5.43|||||TWO_SIDED|90.0|-14.39|3.71||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||3.71|-14.39|
92248831|NCT01763866|184400382|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-62.82|STANDARD_ERROR_OF_MEAN|3.75|<|0.001|TWO_SIDED|95.0|-70.22|-55.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-55.42|-70.22|<0.001
92248832|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.64|STANDARD_ERROR_OF_MEAN|2.84|<|0.001|TWO_SIDED|95.0|-67.25|-56.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-56.03|-67.25|<0.001
92248833|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.93|STANDARD_ERROR_OF_MEAN|3.28|<|0.001|TWO_SIDED|95.0|-61.4|-48.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.46|-61.40|<0.001
92248834|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.11|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-40.79|-29.44||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.44|-40.79|<0.001
92248835|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.72|STANDARD_ERROR_OF_MEAN|3.26|<|0.001|TWO_SIDED|95.0|-44.15|-31.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-31.30|-44.15|<0.001
92248836|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-66.64|STANDARD_ERROR_OF_MEAN|4.69|<|0.001|TWO_SIDED|95.0|-75.88|-57.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-57.39|-75.88|<0.001
92248837|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.01|STANDARD_ERROR_OF_MEAN|4.3|<|0.001|TWO_SIDED|95.0|-68.49|-51.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.52|-68.49|<0.001
92248838|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.51|STANDARD_ERROR_OF_MEAN|4.59|<|0.001|TWO_SIDED|95.0|-49.55|-31.47||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-31.47|-49.55|<0.001
92248839|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.79|STANDARD_ERROR_OF_MEAN|4.32|<|0.001|TWO_SIDED|95.0|-41.3|-24.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-24.28|-41.30|<0.001
92248840|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.96|STANDARD_ERROR_OF_MEAN|2.95|<|0.001|TWO_SIDED|95.0|-65.78|-54.13||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-54.13|-65.78|<0.001
92248841|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.42|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-63.27|-51.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.57|-63.27|<0.001
92248842|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.58|STANDARD_ERROR_OF_MEAN|3.73|<|0.001|TWO_SIDED|95.0|-66.95|-52.21||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-52.21|-66.95|<0.001
92248843|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.76|STANDARD_ERROR_OF_MEAN|4.3|<|0.001|TWO_SIDED|95.0|-58.26|-41.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-41.27|-58.26|<0.001
92248844|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.91|STANDARD_ERROR_OF_MEAN|2.87|<|0.001|TWO_SIDED|95.0|-66.57|-55.24||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-55.24|-66.57|<0.001
92248845|NCT01763866|184400383|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.63|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-64.63|-48.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-48.62|-64.63|<0.001
92248846|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-58.49|STANDARD_ERROR_OF_MEAN|2.34|<|0.001|TWO_SIDED|95.0|-63.1|-53.89||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-53.89|-63.10|<0.001
92248847|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.25|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|-57.49|-47.01||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-47.01|-57.49|<0.001
92248848|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.66|STANDARD_ERROR_OF_MEAN|2.37|<|0.001|TWO_SIDED|95.0|-38.33|-28.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-28.98|-38.33|<0.001
92248849|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.01|STANDARD_ERROR_OF_MEAN|2.67|<|0.001|TWO_SIDED|95.0|-45.27|-34.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-34.74|-45.27|<0.001
92248850|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.34|STANDARD_ERROR_OF_MEAN|3.69|<|0.001|TWO_SIDED|95.0|-66.61|-52.07||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-52.07|-66.61|<0.001
92176015|NCT03974178|184244879|OTHER|"The minimal sample size to get a possible rejection of H0 (pdeath = 8.5% or more) in favour of H1 (pdeath \<8.5%) was 34 evaluable patients with stage 2 r-HAT.~The hypothesis was tested with a one-sided exact test for proportions at the 0.05 significance level."|Fatality rate|0.0||||0.0488|TWO_SIDED|90.0|0.0|8.43||The rate of deaths possibly related to r-HAT or to fexinidazole at the end of hospitalization was compared to the predefined unacceptable rate of 8.5%.|one-sided exact test|Clopper Pearson exact method||"The proportion of deaths (pdeath) is compared to the threshold of 8.5%, with H0 being pdeath = 8.5% or more.~The 90% confidence interval of the fatality rate is calculated with the Clopper-Pearson method."||8.43|0|0.0488
92176016|NCT03974178|184244880|OTHER|The hypothesis H0 (pfailure at the end of hospitalization = 9% or more) was tested with a one-sided exact test for proportions at the 0.05 significance level.|Failure rate|0.0||||0.0405|TWO_SIDED|90.0|0.0|8.43||The rate of failures at the end of hospitalization was compared to the predefined unacceptable rate of 9%.|one-sided exact test|Clopper Pearson exact method||"The proportion of failures at the end of hospitalization (pfailure) is compared to the threshold of 9%, with H0 being pfailure = 9% or more.~The 90% confidence interval of the failure rate is calculated with the Clopper-Pearson method."||8.43|0|0.0405
92176017|NCT03974178|184244881|OTHER|The hypothesis H0 (pfailure at 12 months = 12% or more) was tested with a one-sided exact test for proportions at the 0.05 significance level.|Failure rate|2.94||||0.073|TWO_SIDED|90.0|0.15|13.21||The rate of failures at 12 months was compared to the predefined unacceptable rate of 12%.|one-sided exact test|Clopper Pearson exact method||"The proportion of failures at 12 months (pfailure) is compared to the threshold of 12%, with H0 being pfailure = 12% or more.~The 90% confidence interval of the failure rate is calculated with the Clopper-Pearson method."||13.21|0.15|0.0730
92248851|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-58.74|STANDARD_ERROR_OF_MEAN|3.46|<|0.001|TWO_SIDED|95.0|-65.56|-51.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.93|-65.56|<0.001
92176018|NCT03974178|184244884|OTHER|The hypothesis H0 (pdeath = 8.5% or more) was tested with a one-sided exact test for proportions at the 0.05 significance level.|Fatality rate|0.0||||0.0201|TWO_SIDED|90.0|0.0|6.58||The rate of deaths possibly related to r-HAT or to fexinidazole at the end of hospitalization was compared to the predefined unacceptable rate of 8.5%.|one-sided exact test|Clopper Pearson exact method||"The proportion of deaths (pdeath) is compared to the threshold of 8.5%, with H0 being pdeath = 8.5% or more.~The 90% confidence interval of the fatality rate is calculated with the Clopper-Pearson method."||6.58|0|0.0201
92183035|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-19.2|STANDARD_ERROR_OF_MEAN|9.24|||TWO_SIDED|95.0|-37.3|-1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||-1.1|-37.3|
92248852|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.92|STANDARD_ERROR_OF_MEAN|3.64|<|0.001|TWO_SIDED|95.0|-42.09|-27.75||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-27.75|-42.09|<0.001
92176019|NCT03974178|184244885|OTHER|The hypothesis H0 (pfailure at the end of hospitalization = 9% or more) was tested with a one-sided exact test for proportions at the 0.05 significance level.|Failure rate|0.0||||0.0158|TWO_SIDED|90.0|0.0|6.58||The rate of failures at the end of hospitalization was compared to the predefined unacceptable rate of 9%.|one-sided exact test|Clopper Pearson exact method||"The proportion of failures at the end of hospitalization (pfailure) is compared to the threshold of 9%, with H0 being pfailure = 9% or more.~The 90% confidence interval of the failure rate is calculated with the Clopper-Pearson method."||6.58|0|0.0158
92176020|NCT03974178|184244886|OTHER|The hypothesis H0 (pfailure at 12 months = 12% or more) was tested with a one-sided exact test for proportions at the 0.05 significance level.|Failure rate|2.27||||0.0253|TWO_SIDED|90.0|0.12|10.34||The rate of failures at 12 months was compared to the predefined unacceptable rate of 12%.|one-sided exact test|Clopper Pearson exact method||"The proportion of failures at 12 months (pfailure) is compared to the threshold of 12%, with H0 being pfailure = 12% or more.~The 90% confidence interval of the failure rate is calculated with the Clopper-Pearson method."||10.34|0.12|0.0253
92176021|NCT03899259|184244896|SUPERIORITY||Odds Ratio (OR)|7.86|||<|0.001|TWO_SIDED|95.0|2.79|22.17|||Regression, Logistic|||||22.17|2.79|<0.001
92248853|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.64|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|95.0|-46.57|-32.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-32.71|-46.57|<0.001
92248854|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.86|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-59.66|-50.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-50.05|-59.66|<0.001
92248855|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.14|STANDARD_ERROR_OF_MEAN|2.29|<|0.001|TWO_SIDED|95.0|-60.66|-51.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.61|-60.66|<0.001
92248856|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.78|STANDARD_ERROR_OF_MEAN|3.01|<|0.001|TWO_SIDED|95.0|-56.72|-44.83||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-44.83|-56.72|<0.001
92248857|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.94|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|95.0|-61.11|-48.76||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.76|-61.11|<0.001
92248858|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.34|STANDARD_ERROR_OF_MEAN|2.33|<|0.001|TWO_SIDED|95.0|-59.94|-50.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-50.74|-59.94|<0.001
92176022|NCT03899259|184244896|SUPERIORITY||Odds Ratio (OR)|19.72|||<|0.001|TWO_SIDED|95.0|7.3|53.3|||Regression, Logistic|||||53.30|7.30|<0.001
92248859|NCT01763866|184400384|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.87|STANDARD_ERROR_OF_MEAN|3.24|<|0.001|TWO_SIDED|95.0|-63.27|-50.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-50.46|-63.27|<0.001
92176023|NCT03899259|184244897|SUPERIORITY||Mean Difference (Final Values)|-25.25|STANDARD_ERROR_OF_MEAN|3.834|<|0.001|TWO_SIDED|95.0|-32.78|-17.72|||ANCOVA|||||-17.72|-32.78|<0.001
92248860|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-58.79|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|-64.03|-53.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-53.55|-64.03|<0.001
92248861|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.36|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-53.2|-41.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-41.52|-53.20|<0.001
92248862|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.92|STANDARD_ERROR_OF_MEAN|2.69|<|0.001|TWO_SIDED|95.0|-40.23|-29.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.60|-40.23|<0.001
92248863|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.21|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|-42.06|-30.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-30.35|-42.06|<0.001
92248864|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.4|STANDARD_ERROR_OF_MEAN|3.99|<|0.001|TWO_SIDED|95.0|-69.27|-53.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-53.54|-69.27|<0.001
92176024|NCT03899259|184244897|SUPERIORITY||Mean Difference (Final Values)|-44.49|STANDARD_ERROR_OF_MEAN|3.482|<|0.001|TWO_SIDED|95.0|-51.33|-37.65|||ANCOVA|||||-37.65|-51.33|<0.001
92176025|NCT03899259|184244898|SUPERIORITY||Odds Ratio (OR)|4.63||||0.005|TWO_SIDED|95.0|1.58|13.6|||Regression, Logistic|||||13.60|1.58|0.005
92176026|NCT03899259|184244898|SUPERIORITY||Odds Ratio (OR)|12.94|||<|0.001|TWO_SIDED|95.0|4.72|35.44|||Regression, Logistic|||||35.44|4.72|<0.001
92176027|NCT03899259|184244899|SUPERIORITY||Odds Ratio (OR)|4.36||||0.001|TWO_SIDED|95.0|1.77|10.74|||Regression, Logistic|||||10.74|1.77|0.001
92176028|NCT03899259|184244899|SUPERIORITY||Odds Ratio (OR)|13.37|||<|0.001|TWO_SIDED|95.0|5.75|31.1|||Regression, Logistic|||||31.10|5.75|<0.001
92176029|NCT03899259|184244901|SUPERIORITY||Odds Ratio (OR)|2.56||||0.076|TWO_SIDED|95.0|0.91|7.24|||Regression, Logistic|||||7.24|0.91|0.076
92248865|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-53.01|STANDARD_ERROR_OF_MEAN|3.93|<|0.001|TWO_SIDED|95.0|-60.77|-45.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-45.25|-60.77|<0.001
92176030|NCT03899259|184244901|SUPERIORITY||Odds Ratio (OR)|10.3|||<|0.001|TWO_SIDED|95.0|4.12|25.77|||Regression, Logistic|||||25.77|4.12|<0.001
92176031|NCT03899259|184244902|SUPERIORITY||Odds Ratio (OR)|1.88||||0.26|TWO_SIDED|95.0|0.63|5.62|||Regression, Logistic|||||5.62|0.63|0.260
92176032|NCT03899259|184244902|SUPERIORITY||Odds Ratio (OR)|8.1|||<|0.001|TWO_SIDED|95.0|3.18|20.66|||Regression, Logistic|||||20.66|3.18|<0.001
92248866|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.45|STANDARD_ERROR_OF_MEAN|3.91|<|0.001|TWO_SIDED|95.0|-45.17|-29.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.74|-45.17|<0.001
92176033|NCT03899259|184244903|SUPERIORITY||Odds Ratio (OR)|3.43||||0.017|TWO_SIDED|95.0|1.25|9.4|||Regression, Logistic|||||9.40|1.25|0.017
92176034|NCT03899259|184244903|SUPERIORITY||Odds Ratio (OR)|10.85|||<|0.001|TWO_SIDED|95.0|4.32|27.25|||Regression, Logistic|||||27.25|4.32|<0.001
92176035|NCT03899259|184244904|SUPERIORITY||Odds Ratio (OR)|14.63||||0.002|TWO_SIDED|95.0|2.73|78.42|||Regression, Logistic|||||78.42|2.73|0.002
92176036|NCT03899259|184244904|SUPERIORITY||Odds Ratio (OR)|30.37|||<|0.001|TWO_SIDED|95.0|5.93|99.99|||Regression, Logistic|||||99.99|5.93|<0.001
92176037|NCT03899259|184244905|SUPERIORITY||Mean Difference (Final Values)|-3.02|STANDARD_ERROR_OF_MEAN|1.981||0.129|TWO_SIDED|95.0|-6.91|0.88|||ANCOVA|||||0.88|-6.91|0.129
92248867|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.31|STANDARD_ERROR_OF_MEAN|3.98|<|0.001|TWO_SIDED|95.0|-42.15|-26.47||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-26.47|-42.15|<0.001
92176038|NCT03899259|184244905|SUPERIORITY||Mean Difference (Final Values)|-4.21|STANDARD_ERROR_OF_MEAN|1.799||0.02|TWO_SIDED|95.0|-7.75|-0.68|||ANCOVA|||||-0.68|-7.75|0.020
92248868|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.5|STANDARD_ERROR_OF_MEAN|2.58|<|0.001|TWO_SIDED|95.0|-61.6|-51.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.40|-61.60|<0.001
92176039|NCT03899259|184244906|SUPERIORITY||Mean Difference (Final Values)|-6.75|STANDARD_ERROR_OF_MEAN|3.017||0.026|TWO_SIDED|95.0|-12.68|-0.82|||ANCOVA|||||-0.82|-12.68|0.026
92176040|NCT03899259|184244906|SUPERIORITY||Mean Difference (Final Values)|-13.42|STANDARD_ERROR_OF_MEAN|2.737|<|0.001|TWO_SIDED|95.0|-18.8|-8.04|||ANCOVA|||||-8.04|-18.80|<0.001
92176041|NCT03899259|184244907|SUPERIORITY||Mean Difference (Final Values)|-4.38|STANDARD_ERROR_OF_MEAN|2.68||0.103|TWO_SIDED|95.0|-9.65|0.88|||ANCOVA|||||0.88|-9.65|0.103
92176042|NCT03899259|184244907|SUPERIORITY||Mean Difference (Final Values)|-8.33|STANDARD_ERROR_OF_MEAN|2.429|<|0.001|TWO_SIDED|95.0|-13.1|-3.56|||ANCOVA|||||-3.56|-13.10|<0.001
92176043|NCT03899259|184244908|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.315||0.518|TWO_SIDED|95.0|-0.82|0.42|||ANCOVA|||||0.42|-0.82|0.518
92176044|NCT03899259|184244908|SUPERIORITY||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.286||0.012|TWO_SIDED|95.0|-1.28|-0.16|||ANCOVA|||||-0.16|-1.28|0.012
92176045|NCT03899259|184244909|SUPERIORITY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.291||0.083|TWO_SIDED|95.0|-1.08|0.07|||ANCOVA|||||0.07|-1.08|0.083
92176046|NCT03899259|184244909|SUPERIORITY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.264||0.01|TWO_SIDED|95.0|-1.2|-0.16|||ANCOVA|||||-0.16|-1.20|0.010
92176047|NCT01152450|184244910|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.149|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.102|0.196|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.196|0.102|<0.0001
92176048|NCT01152450|184244910|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.111|0.205|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.205|0.111|<0.0001
92176049|NCT01152450|184244910|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.009|STANDARD_ERROR_OF_MEAN|0.024||||95.0|-0.038|0.056|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.056|-0.038|
92176050|NCT01152450|184244911|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.328|STANDARD_ERROR_OF_MEAN|5.19|<|0.0001||95.0|11.084|31.573|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||31.573|11.084|<0.0001
92176051|NCT01152450|184244911|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.357|STANDARD_ERROR_OF_MEAN|5.225|<|0.0001||95.0|12.044|32.67|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||32.670|12.044|<0.0001
92176052|NCT01152450|184244911|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.029|STANDARD_ERROR_OF_MEAN|5.242||||95.0|-9.318|11.376|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||11.376|-9.318|
92176053|NCT01152450|184244912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.92|STANDARD_ERROR_OF_MEAN|5.026|<|0.0001||95.0|20.001|39.839|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||39.839|20.001|<0.0001
92176054|NCT01152450|184244912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|28.657|STANDARD_ERROR_OF_MEAN|5.042|<|0.0001||95.0|18.707|38.606|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||38.606|18.707|<0.0001
92248869|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-53.21|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED|95.0|-58.29|-48.13||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.13|-58.29|<0.001
92176055|NCT01152450|184244912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.264|STANDARD_ERROR_OF_MEAN|5.056||||95.0|-11.243|8.716|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||8.716|-11.243|
92176056|NCT01152450|184244913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.12|0.218|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.218|0.120|<0.0001
92176057|NCT01152450|184244913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.136|0.234|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.234|0.136|<0.0001
92176058|NCT01152450|184244913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.025||||95.0|-0.033|0.065|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.065|-0.033|
92248870|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.52|STANDARD_ERROR_OF_MEAN|3.31|<|0.001|TWO_SIDED|95.0|-57.06|-43.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-43.99|-57.06|<0.001
92176059|NCT01152450|184244914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.077|0.181|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.181|0.077|<0.0001
92248871|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.95|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-54.43|-39.47||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-39.47|-54.43|<0.001
92248872|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.3|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-61.47|-51.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.14|-61.47|<0.001
92248873|NCT01763866|184400385|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.73|STANDARD_ERROR_OF_MEAN|3.38|<|0.001|TWO_SIDED|95.0|-59.4|-46.06||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-46.06|-59.40|<0.001
92248874|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.41|STANDARD_ERROR_OF_MEAN|2.16|<|0.001|TWO_SIDED|95.0|-50.66|-42.15||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-42.15|-50.66|<0.001
92248875|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.69|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED|95.0|-49.75|-39.63||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-39.63|-49.75|<0.001
92248876|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.06|STANDARD_ERROR_OF_MEAN|2.19|<|0.001|TWO_SIDED|95.0|-30.36|-21.75||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-21.75|-30.36|<0.001
92248877|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.59|STANDARD_ERROR_OF_MEAN|2.55|<|0.001|TWO_SIDED|95.0|-36.61|-26.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-26.57|-36.61|<0.001
92248878|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.48|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-50.69|-38.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-38.27|-50.69|<0.001
92248879|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.85|STANDARD_ERROR_OF_MEAN|2.86|<|0.001|TWO_SIDED|95.0|-52.48|-41.21||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-41.21|-52.48|<0.001
92248880|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.3|STANDARD_ERROR_OF_MEAN|3.09|<|0.001|TWO_SIDED|95.0|-34.39|-22.21||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-22.21|-34.39|<0.001
92248881|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.18|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-33.86|-22.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-22.50|-33.86|<0.001
92248882|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.73|STANDARD_ERROR_OF_MEAN|2.41|<|0.001|TWO_SIDED|95.0|-49.5|-39.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-39.97|-49.50|<0.001
92248883|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.01|STANDARD_ERROR_OF_MEAN|2.75|<|0.001|TWO_SIDED|95.0|-52.46|-41.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-41.57|-52.46|<0.001
92248884|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.59|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-45.38|-35.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-35.79|-45.38|<0.001
92176060|NCT01152450|184244914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.079|0.183|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.183|0.079|<0.0001
92248885|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.33|STANDARD_ERROR_OF_MEAN|2.87|<|0.001|TWO_SIDED|95.0|-46.0|-34.66||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-34.66|-46.00|<0.001
92248886|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.05|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-51.76|-42.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-42.35|-51.76|<0.001
92248887|NCT01763866|184400386|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-48.62|STANDARD_ERROR_OF_MEAN|2.86|<|0.001|TWO_SIDED|95.0|-54.27|-42.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-42.98|-54.27|<0.001
92248888|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.83|STANDARD_ERROR_OF_MEAN|2.48|<|0.001|TWO_SIDED|95.0|-51.73|-41.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-41.94|-51.73|<0.001
92248889|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.86|STANDARD_ERROR_OF_MEAN|2.82|<|0.001|TWO_SIDED|95.0|-48.43|-37.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-37.30|-48.43|<0.001
92248890|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.6|STANDARD_ERROR_OF_MEAN|2.51|<|0.001|TWO_SIDED|95.0|-33.56|-23.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-23.65|-33.56|<0.001
92248891|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-30.22|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-35.74|-24.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-24.70|-35.74|<0.001
92248892|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.1|STANDARD_ERROR_OF_MEAN|3.33|<|0.001|TWO_SIDED|95.0|-51.66|-38.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-38.54|-51.66|<0.001
92248893|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.43|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-49.01|-35.85||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-35.85|-49.01|<0.001
92248894|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-30.26|STANDARD_ERROR_OF_MEAN|3.26|<|0.001|TWO_SIDED|95.0|-36.68|-23.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-23.84|-36.68|<0.001
92248895|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.19|STANDARD_ERROR_OF_MEAN|3.35|<|0.001|TWO_SIDED|95.0|-31.79|-18.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-18.59|-31.79|<0.001
92248896|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.25|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-48.77|-37.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-37.74|-48.77|<0.001
92176061|NCT01152450|184244914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.026||||95.0|-0.05|0.054|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.054|-0.050|
92176062|NCT01152450|184244915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.084|0.179|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.179|0.084|<0.0001
92176063|NCT01152450|184244915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.084|0.179|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.179|0.084|<0.0001
92283172|NCT02937701|184470221|OTHER||Response Difference|2.98|||||TWO_SIDED|90.0|-7.51|13.37||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.37|-7.51|
92176064|NCT01152450|184244915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.024||||95.0|-0.048|0.047|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.047|-0.048|
92176065|NCT01152450|184244916|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.03||0.0002||95.0|0.053|0.17|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.170|0.053|0.0002
92176066|NCT01152450|184244916|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.074|0.191|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.191|0.074|<0.0001
92176067|NCT01152450|184244916|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.03||||95.0|-0.037|0.08|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.080|-0.037|
92176068|NCT01152450|184244917|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.035||0.0515||95.0|0.0|0.136|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.136|0.000|0.0515
92248897|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.33|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-51.04|-39.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-39.61|-51.04|<0.001
92176069|NCT01152450|184244917|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.035||0.1058||95.0|-0.012|0.124|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.124|-0.012|0.1058
92248898|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.13|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-46.65|-35.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-35.61|-46.65|<0.001
92283173|NCT02937701|184470222|OTHER||Response Difference|-2.5|||||TWO_SIDED|90.0|-5.84|0.83||||||The response difference at week 2 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||0.83|-5.84|
92248899|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.99|STANDARD_ERROR_OF_MEAN|3.41|<|0.001|TWO_SIDED|95.0|-41.72|-28.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-28.25|-41.72|<0.001
92248900|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.04|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-51.83|-42.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-42.25|-51.83|<0.001
92248901|NCT01763866|184400387|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.6|STANDARD_ERROR_OF_MEAN|3.07|<|0.001|TWO_SIDED|95.0|-50.67|-38.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-38.54|-50.67|<0.001
92283174|NCT02937701|184470222|OTHER||Response Difference|-2.43|||||TWO_SIDED|90.0|-7.47|2.64||||||The response difference at week 6 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||2.64|-7.47|
92283175|NCT02937701|184470222|OTHER||Response Difference|5.46|||||TWO_SIDED|90.0|-0.01|10.91||||||The response difference at week 14 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||10.91|-0.01|
92283176|NCT02937701|184470222|OTHER||Response Difference|4.58|||||TWO_SIDED|90.0|-1.21|10.34||||||The response difference at week 22 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||10.34|-1.21|
92176070|NCT01152450|184244917|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.012|STANDARD_ERROR_OF_MEAN|0.035||||95.0|-0.08|0.057|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.057|-0.080|
92176071|NCT01152450|184244918|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.073|0.177|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.177|0.073|<0.0001
92248902|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.97|STANDARD_ERROR_OF_MEAN|2.51|<|0.001|TWO_SIDED|95.0|-64.91|-55.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-55.03|-64.91|<0.001
92176072|NCT01152450|184244918|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.026||0.0002||95.0|0.048|0.152|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.152|0.048|0.0002
92176073|NCT01152450|184244918|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.026||||95.0|-0.077|0.027|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.027|-0.077|
92248903|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.11|STANDARD_ERROR_OF_MEAN|2.77|<|0.001|TWO_SIDED|95.0|-59.57|-48.64||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.64|-59.57|<0.001
92176074|NCT01152450|184244919|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.076|STANDARD_ERROR_OF_MEAN|0.027||0.0051||95.0|0.023|0.129|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.129|0.023|0.0051
92176075|NCT01152450|184244919|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.027||0.0123||95.0|0.015|0.12|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.120|0.015|0.0123
92176076|NCT01152450|184244919|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.027||||95.0|-0.061|0.045|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.045|-0.061|
92176077|NCT01152450|184244920|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.027||0.0042||95.0|0.025|0.13|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.130|0.025|0.0042
92176078|NCT01152450|184244920|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.027||0.0747||95.0|-0.005|0.1|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.100|-0.005|0.0747
92176079|NCT01152450|184244920|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.029|STANDARD_ERROR_OF_MEAN|0.027||||95.0|-0.082|0.023|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.023|-0.082|
92248904|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.79|STANDARD_ERROR_OF_MEAN|2.54|<|0.001|TWO_SIDED|95.0|-42.8|-32.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-32.77|-42.80|<0.001
92176080|NCT01152450|184244924|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.055|0.147|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.147|0.055|<0.0001
92248905|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.86|STANDARD_ERROR_OF_MEAN|2.78|<|0.001|TWO_SIDED|95.0|-47.34|-36.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-36.67|-47.34|<0.001
92248906|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.9|STANDARD_ERROR_OF_MEAN|3.71|<|0.001|TWO_SIDED|95.0|-64.22|-49.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.59|-64.22|<0.001
92176081|NCT01152450|184244924|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.023||0.0004||95.0|0.038|0.13|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.130|0.038|0.0004
92248907|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.99|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-68.68|-55.29||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-55.29|-68.68|<0.001
92176082|NCT01152450|184244924|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.016|STANDARD_ERROR_OF_MEAN|0.023||||95.0|-0.063|0.03|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.030|-0.063|
92176083|NCT01152450|184244925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|30.242|STANDARD_ERROR_OF_MEAN|4.091|<|0.0001||95.0|22.167|38.317|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||38.317|22.167|<0.0001
92176084|NCT01152450|184244925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|34.31|STANDARD_ERROR_OF_MEAN|4.089|<|0.0001||95.0|26.24|42.38|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||42.380|26.240|<0.0001
92176085|NCT01152450|184244925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.068|STANDARD_ERROR_OF_MEAN|4.094||||95.0|-4.012|12.148|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||12.148|-4.012|
92176086|NCT01152450|184244926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.323|STANDARD_ERROR_OF_MEAN|0.769||0.6747||95.0|-1.195|1.841|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||1.841|-1.195|0.6747
92176087|NCT01152450|184244926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.389|STANDARD_ERROR_OF_MEAN|0.774||0.6159||95.0|-1.138|1.916|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||1.916|-1.138|0.6159
92176088|NCT01152450|184244926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.777||||95.0|-1.468|1.599|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||1.599|-1.468|
92176089|NCT01152450|184244927|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|0.142||0.5906||95.0|-0.358|0.204|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.204|-0.358|0.5906
92176090|NCT01152450|184244927|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.176|STANDARD_ERROR_OF_MEAN|0.143||0.2208||95.0|-0.458|0.106|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.106|-0.458|0.2208
92248908|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.26|STANDARD_ERROR_OF_MEAN|3.66|<|0.001|TWO_SIDED|95.0|-44.48|-30.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-30.04|-44.48|<0.001
92248909|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.29|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-50.07|-36.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-36.51|-50.07|<0.001
92176091|NCT01152450|184244927|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.099|STANDARD_ERROR_OF_MEAN|0.143||||95.0|-0.382|0.184|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.184|-0.382|
92176092|NCT01152450|184244928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.082||0.9797||95.0|-0.163|0.159|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.159|-0.163|0.9797
92176093|NCT01152450|184244928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.062|STANDARD_ERROR_OF_MEAN|0.082||0.4518||95.0|-0.223|0.1|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.100|-0.223|0.4518
92176094|NCT01152450|184244928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.082||||95.0|-0.222|0.102|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.102|-0.222|
92176095|NCT01152450|184244929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.074||0.4089||95.0|-0.207|0.085|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.085|-0.207|0.4089
92176096|NCT01152450|184244929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.074|STANDARD_ERROR_OF_MEAN|0.074||0.3185||95.0|-0.221|0.072|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.072|-0.221|0.3185
92176097|NCT01152450|184244929|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.074||||95.0|-0.16|0.134|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.134|-0.160|
92176098|NCT01152450|184244930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.031||0.9626||95.0|-0.059|0.062|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.062|-0.059|0.9626
92176099|NCT01152450|184244930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.031||0.9102||95.0|-0.058|0.065|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.065|-0.058|0.9102
92176100|NCT01152450|184244930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.031||||95.0|-0.059|0.063|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.063|-0.059|
92176101|NCT05670587|184244932|OTHER||gMean ratio at Week 4|0.95|||||TWO_SIDED|95.0|0.76|1.18|||||"gMean ratios of CfB in CC/h were calculated from the log transformed values at each visit.~Geometric Coefficient of variation (gCV) = 84.59%"|Geometric mean (gMean) ratio of change from baseline (CfB) in cough count per hour (CC/h) at Week 4.||1.18|0.76|
92176102|NCT05670587|184244932|OTHER||gMean ratio at Week 8|0.84|||||TWO_SIDED|95.0|0.64|1.11|||||"gMean ratios of CfB in CC/h were calculated from the log transformed values at each visit.~Geometric coefficient of variation (gCV) = 115.62%"|Geometric mean (gMean) ratio of change from baseline (CfB) in cough count per hour (CC/h) at Week 8.||1.11|0.64|
92176103|NCT05670587|184244932|OTHER||gMean ratio at Day 82|0.98|||||TWO_SIDED|95.0|0.75|1.29|||||"gMean ratios of CfB in CC/h were calculated from the log transformed values at each visit.~Geometric coefficient of variation (gCV) = 100.02%."|Geometric mean (gMean) ratio of change from baseline (CfB) in cough count per hour (CC/h) at Day 82.||1.29|0.75|
92176104|NCT03738852|184244937|SUPERIORITY|||||||0.907|||||||ANOVA|||||||0.907
92176105|NCT04508309|184244959|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the geometric mean concentration (GMC) ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.09|||||TWO_SIDED|98.3|0.891|1.327|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% confidence intervals (CI) was used.||1.327|0.891|
92176106|NCT04508309|184244959|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the GMC ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.78|||||TWO_SIDED|98.3|1.455|2.176|||||GMC ratio (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% CI was used.||2.176|1.455|
92176107|NCT04508309|184244959|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the geometric mean concentration (GMC) ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|2.37|||||TWO_SIDED|98.3|1.942|2.903|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% confidence intervals (CI) was used.||2.903|1.942|
92248910|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.29|STANDARD_ERROR_OF_MEAN|2.78|<|0.001|TWO_SIDED|95.0|-60.79|-49.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.79|-60.79|<0.001
92176108|NCT04508309|184244960|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the geometric mean concentration (GMC) ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.25|||||TWO_SIDED|98.3|1.022|1.539|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% confidence intervals (CI) was used.||1.539|1.022|
92248911|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.24|STANDARD_ERROR_OF_MEAN|2.49|<|0.001|TWO_SIDED|95.0|-64.16|-54.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-54.32|-64.16|<0.001
92183036|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-49.9|STANDARD_ERROR_OF_MEAN|9.68|||TWO_SIDED|95.0|-68.9|-30.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||-30.9|-68.9|
92248912|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.63|STANDARD_ERROR_OF_MEAN|3.13|<|0.001|TWO_SIDED|95.0|-56.82|-44.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-44.45|-56.82|<0.001
92248913|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.78|STANDARD_ERROR_OF_MEAN|3.61|<|0.001|TWO_SIDED|95.0|-63.91|-49.64||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.64|-63.91|<0.001
92283177|NCT02937701|184470223|OTHER||Response Difference|0.2|||||TWO_SIDED|90.0|-8.12|8.02||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||8.02|-8.12|
92248914|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.75|STANDARD_ERROR_OF_MEAN|2.41|<|0.001|TWO_SIDED|95.0|-62.51|-52.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-52.99|-62.51|<0.001
92248915|NCT01763866|184400388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.06|STANDARD_ERROR_OF_MEAN|2.93|<|0.001|TWO_SIDED|95.0|-61.85|-50.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-50.27|-61.85|<0.001
92283178|NCT02937701|184470223|OTHER||Response Difference|-0.08|||||TWO_SIDED|90.0|-9.39|9.28||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.28|-9.39|
92248916|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.29|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-65.65|-54.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-54.94|-65.65|<0.001
92176109|NCT04508309|184244960|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the geometric mean concentration (GMC) ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.68|||||TWO_SIDED|98.3|1.372|2.069|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% confidence intervals (CI) was used.||2.069|1.372|
92183037|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-28.1|STANDARD_ERROR_OF_MEAN|9.01|||TWO_SIDED|95.0|-45.8|-10.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||-10.4|-45.8|
92248917|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-48.44|STANDARD_ERROR_OF_MEAN|2.94|<|0.001|TWO_SIDED|95.0|-54.23|-42.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-42.65|-54.23|<0.001
92248918|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.66|STANDARD_ERROR_OF_MEAN|2.75|<|0.001|TWO_SIDED|95.0|-45.09|-34.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-34.23|-45.09|<0.001
92176110|NCT04508309|184244960|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the geometric mean concentration (GMC) ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.71|||||TWO_SIDED|98.3|1.389|2.102|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% confidence intervals (CI) was used.||2.102|1.389|
92176111|NCT04508309|184244965|NON_INFERIORITY|Non-inferiority of the Cecolin containing arm (Group 5) compared to Gardasil at months 0 and 6 (Group 4) was to be demonstrated if the lower limit of the 95% CI of the GMC ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.75|||||TWO_SIDED|95.0|1.476|2.071|||||GMC ratio (Cecolin containing arm (Group 5)/Gardasil (Group 4)) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|||2.071|1.476|
92176112|NCT04508309|184244966|NON_INFERIORITY|Non-inferiority of the Cecolin containing arm (Group 5) compared to Gardasil at months 0 and 6 (Group 4) was to be demonstrated if the lower limit of the 95% CI of the GMC ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.21|||||TWO_SIDED|95.0|1.004|1.451|||||GMC ratio (Cecolin containing arm (Group 5)/Gardasil (Group 4)) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|||1.451|1.004|
92248919|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.32|STANDARD_ERROR_OF_MEAN|2.94|<|0.001|TWO_SIDED|95.0|-43.12|-31.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-31.52|-43.12|<0.001
92176113|NCT04508309|184244967|NON_INFERIORITY|Non-inferiority of Cecolin at Months 0 and 6 (Group 1) compared to Gardasil at Months 0 and 6 (Group 4) was to be demonstrated if the lower limit of the 95% CI of the GMC ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.12|||||TWO_SIDED|95.0|0.933|1.344|||||GMC ratio (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|||1.344|0.933|
92248920|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.77|STANDARD_ERROR_OF_MEAN|3.95|<|0.001|TWO_SIDED|95.0|-65.55|-49.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.99|-65.55|<0.001
92248921|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.26|STANDARD_ERROR_OF_MEAN|3.88|<|0.001|TWO_SIDED|95.0|-64.91|-49.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.60|-64.91|<0.001
92248922|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.9|STANDARD_ERROR_OF_MEAN|3.87|<|0.001|TWO_SIDED|95.0|-47.53|-32.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-32.26|-47.53|<0.001
92176114|NCT04508309|184244968|NON_INFERIORITY|Non-inferiority of Cecolin at Months 0 and 6 (Group 1) compared to Gardasil at Months 0 and 6 (Group 4) was to be demonstrated if the lower limit of the 95% CI of the GMC ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.32|||||TWO_SIDED|95.0|1.07|1.635|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|||1.635|1.070|
92176115|NCT01674140|184244975|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.52|TWO_SIDED|95.0|0.77|1.14|||Log Rank|||||1.14|0.77|0.52
92176116|NCT01674140|184244976|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.84|TWO_SIDED|95.0|0.75|1.26|||Log Rank|||||1.26|0.75|0.84
92176117|NCT01674140|184244978|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.32|TWO_SIDED|95.0|0.74|1.1|||Log Rank|||||1.10|0.74|0.32
92176118|NCT05139810|184244983|SUPERIORITY||IC HAE attack rate ratio|0.19|||<|0.001|TWO_SIDED|95.0|0.107|0.351|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 1 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used to account for potential over dispersion.||0.351|0.107|<0.001
92176119|NCT05139810|184244983|SUPERIORITY||IC HAE attack rate ratio|0.45|||=|0.004|TWO_SIDED|95.0|0.261|0.777|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 1 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential overdispersion.||0.777|0.261|=0.004
92248923|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.57|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-46.26|-30.88||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-30.88|-46.26|<0.001
92248924|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.41|STANDARD_ERROR_OF_MEAN|2.83|<|0.001|TWO_SIDED|95.0|-59.99|-48.82||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.82|-59.99|<0.001
92176120|NCT05139810|184244984|SUPERIORITY||IC HAE attack rate ratio|0.13|||<|0.001|TWO_SIDED|95.0|0.062|0.281|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||0.281|0.062|<0.001
92176121|NCT05139810|184244984|SUPERIORITY||IC HAE attack rate ratio|0.4|||=|0.004|TWO_SIDED|95.0|0.212|0.748|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||0.748|0.212|=0.004
92176122|NCT05139810|184244985|SUPERIORITY||Odds Ratio (OR)|11.79|||=|0.003|TWO_SIDED|95.0|2.34|59.36|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.||||59.36|2.34|=0.003
92176123|NCT05139810|184244985|SUPERIORITY||Odds Ratio (OR)|3.23|||=|0.24|TWO_SIDED|95.0|0.46|22.85|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.||||22.85|0.46|=0.240
92176124|NCT05139810|184244986|SUPERIORITY||IC HAE attack rate ratio|0.11|||<|0.001|TWO_SIDED|95.0|0.035|0.339|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||0.339|0.035|<0.001
92176125|NCT05139810|184244986|SUPERIORITY||IC HAE attack rate ratio|0.59|||=|0.173|TWO_SIDED|95.0|0.276|1.26|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||1.260|0.276|=0.173
92176126|NCT05139810|184244987|SUPERIORITY||Odds Ratio (OR)|310.35|||<|0.001|TWO_SIDED|95.0|11.63|8279.94|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 50% Reduction||8279.94|11.63|<0.001
92176127|NCT05139810|184244987|SUPERIORITY||Odds Ratio (OR)|14.8|||<|0.001|TWO_SIDED|95.0|3.15|69.41|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 50% Reduction||69.41|3.15|<0.001
92176128|NCT05139810|184244987|SUPERIORITY||Odds Ratio (OR)|34.74|||<|0.001|TWO_SIDED|95.0|7.32|164.87|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 70% Reduction||164.87|7.32|<0.001
92176129|NCT05139810|184244987|SUPERIORITY||Odds Ratio (OR)|9.17|||=|0.004|TWO_SIDED|95.0|2.05|41.09|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 70% Reduction||41.09|2.05|=0.004
92176130|NCT05139810|184244987|SUPERIORITY||Odds Ratio (OR)|17.04|||<|0.001|TWO_SIDED|95.0|3.36|86.42|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 90% Reduction||86.42|3.36|<0.001
92176131|NCT05139810|184244987|SUPERIORITY||Odds Ratio (OR)|8.7|||=|0.014|TWO_SIDED|95.0|1.56|48.52|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 90% Reduction||48.52|1.56|=0.014
92248925|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.13|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-61.58|-50.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-50.68|-61.58|<0.001
92176132|NCT05139810|184244988|SUPERIORITY||IC HAE attack rate ratio|0.08|||<|0.001|TWO_SIDED|95.0|0.03|0.234|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||0.234|0.030|<0.001
92176133|NCT05139810|184244988|SUPERIORITY||IC HAE attack rate ratio|0.33|||=|0.004|TWO_SIDED|95.0|0.155|0.706|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||0.706|0.155|=0.004
92176134|NCT05139810|184244990|SUPERIORITY||Treatment difference|-18.56|||<|0.001|TWO_SIDED|95.0|-27.673|-9.454|||Mixed model with repeated measures(MMRM)|||||-9.454|-27.673|<0.001
92248926|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.17|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|-55.8|-42.53||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-42.53|-55.80|<0.001
92176135|NCT05139810|184244990|SUPERIORITY||Treatment difference|-13.65|||=|0.01|TWO_SIDED|95.0|-24.024|-3.286|||MMRM|||||-3.286|-24.024|=0.010
92176136|NCT06182033|184245003|OTHER|||||||0.84|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||We conducted a linear regression. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.84
92176137|NCT06182033|184245004|OTHER|||||||0.727|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||We conducted a linear regression. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.727
92176138|NCT06182033|184245005|OTHER|||||||0.205|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||These analyses use the assertiveness subscale as the outcome variable. We conducted a linear regression for each of the measure's subscales. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.205
92248927|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-48.81|STANDARD_ERROR_OF_MEAN|4.25|<|0.001|TWO_SIDED|95.0|-57.21|-40.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-40.40|-57.21|<0.001
92176139|NCT06182033|184245005|OTHER|||||||0.034|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||This analysis focused specifically on the behavior control subscale. We conducted a linear regression for each of the measure's subscales. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.034
92176140|NCT06182033|184245005|OTHER|||||||0.099|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||These analyses use the Task Orientation subscale as the outcome variable. We conducted a linear regression for each of the measure's subscales. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.099
92176141|NCT06182033|184245005|OTHER|||||||0.209|||||||Regression, Linear|||This analysis used peer social skills subscale as the outcome in the model. We conducted a linear regression for each of the measure's subscales. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.209
92176142|NCT06182033|184245006|OTHER|||||||0.82|||||||Multilevel Model|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||We examined the trajectory across timepoints using a multilevel model that controlled for age. The p value is in reference to the difference between the treatment and control children at the final observation.||||.82
92176143|NCT06182033|184245007|OTHER|||||||0.67|||||||Multilevel Model|Kenward-Rogers and Restricted Maximum Likelihood adjustments in light of small sample size to reduce error likelihood.||We examined the trajectory across timepoints using a multilevel model that controlled for age. The p value is in reference to the difference between the treatment and control children at the final observation.||||.67
92176144|NCT06182033|184245008|OTHER|||||||0.024|||||||Regression, Linear|Kenward-Rogers and Restricted Maximum Likelihood to account for the small sample size.||We examined the trajectory across timepoints using a multilevel model that controlled for age. The p value is in reference to the difference between the treatment and control children at the final observation.||||.024
92176145|NCT06182033|184245009|OTHER|||||||0.013|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||We examined the trajectory across timepoints using a multilevel model that controlled for age. The p value is in reference to the difference between the treatment and control children at the final observation.||||.013
92176146|NCT05693935|184245044|OTHER||LS Mean Difference|-9.75|||<|0.0001|TWO_SIDED|95.0|-13.6|-5.89||p-value was adjusted for multiple comparisons (using Truncated Hochberg).|Mixed Models Analysis|||Mixed model for repeated measures fitted to 200 multiply imputed datasets generated in accordance with the estimand. Treatment group LS mean, 95% confidence intervals, and two-sided p values were pooled across imputations using Rubin's rules.||-5.89|-13.60|<0.0001
92176147|NCT05693935|184245044|OTHER||LS Mean Difference|-11.27|||<|0.0001|TWO_SIDED|95.0|-15.01|-7.53||p-value was adjusted for multiple comparisons (using Truncated Hochberg).|Mixed Models Analysis|||Mixed model for repeated measures fitted to 200 multiply imputed datasets generated in accordance with the estimand. Treatment group LS mean, 95% confidence intervals, and two-sided p values were pooled across imputations using Rubin's rules.||-7.53|-15.01|<0.0001
92248928|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.73|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED|95.0|-62.82|-52.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-52.65|-62.82|<0.001
92248929|NCT01763866|184400389|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.04|STANDARD_ERROR_OF_MEAN|3.07|<|0.001|TWO_SIDED|95.0|-58.1|-45.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-45.98|-58.10|<0.001
92248930|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|82.4|||<|0.001|TWO_SIDED|95.0|70.2|88.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||88.5|70.2|<0.001
92248931|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|80.3|||<|0.001|TWO_SIDED|95.0|67.9|86.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||86.8|67.9|<0.001
92248932|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|68.1|||<|0.001|TWO_SIDED|95.0|53.1|78.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||78.1|53.1|<0.001
92176148|NCT05693935|184245044|OTHER||LS Mean Difference|-9.76|||<|0.0001|TWO_SIDED|95.0|-13.5|-6.02||p-value was adjusted for multiple comparisons (using Truncated Hochberg).|Mixed Models Analysis|||Mixed model for repeated measures fitted to 200 multiply imputed datasets generated in accordance with the estimand. Treatment group LS mean, 95% confidence intervals, and two-sided p values were pooled across imputations using Rubin's rules.||-6.02|-13.50|<0.0001
92176149|NCT05693935|184245045|OTHER||LS Mean Difference|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.31||p-value was adjusted for multiple comparisons (using Truncated Hochberg).|Mixed Models Analysis|||Mixed model for repeated measures fitted to 200 multiply imputed datasets generated in accordance with the estimand. Treatment group LS mean, 95% confidence intervals, and two-sided p values were pooled across imputations using Rubin's rules.||-0.31|-0.75|<0.0001
92176150|NCT05693935|184245045|OTHER||LS Mean Difference|-0.61|||<|0.0001|TWO_SIDED|95.0|-0.82|-0.39||p-value was adjusted for multiple comparisons (using Truncated Hochberg).|Mixed Models Analysis|||Mixed model for repeated measures fitted to 200 multiply imputed datasets generated in accordance with the estimand. Treatment group LS mean, 95% confidence intervals, and two-sided p values were pooled across imputations using Rubin's rules.||-0.39|-0.82|<0.0001
92248933|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|69.2|||<|0.001|TWO_SIDED|95.0|54.8|78.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||78.5|54.8|<0.001
92248934|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|80.7|||<|0.001|TWO_SIDED|95.0|67.3|88.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||88.3|67.3|<0.001
92248935|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|83.3|||<|0.001|TWO_SIDED|95.0|70.7|89.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||89.6|70.7|<0.001
92176151|NCT05693935|184245045|OTHER||LS Mean Difference|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.68|-0.25||p-value was adjusted for multiple comparisons (using Truncated Hochberg).|Mixed Models Analysis|||Mixed model for repeated measures fitted to 200 multiply imputed datasets generated in accordance with the estimand. Treatment group LS mean, 95% confidence intervals, and two-sided p values were pooled across imputations using Rubin's rules.||-0.25|-0.68|<0.0001
92248936|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|43.5|||<|0.001|TWO_SIDED|95.0|29.5|56.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||56.7|29.5|<0.001
92248937|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|30.3|||<|0.001|TWO_SIDED|95.0|16.7|44.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||44.2|16.7|<0.001
92248938|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|81.7|||<|0.001|TWO_SIDED|95.0|69.5|88.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||88.0|69.5|<0.001
92176152|NCT05693935|184245046|OTHER||LS Mean Difference|4.72||||0.0011|TWO_SIDED|95.0|2.05|7.4||p-value was adjusted for multiple comparisons (using Truncated Hochberg).|Mixed Models Analysis|||Mixed model for repeated measures fitted to 200 multiply imputed datasets generated in accordance with the estimand. Treatment group LS mean, 95% confidence intervals, and two-sided p values were pooled across imputations using Rubin's rules.||7.40|2.05|0.0011
92283179|NCT02937701|184470223|OTHER||Response Difference|1.5|||||TWO_SIDED|90.0|-7.0|9.51||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.51|-7.00|
92176153|NCT05693935|184245046|OTHER||LS Mean Difference|3.24||||0.0167|TWO_SIDED|95.0|0.59|5.89||p-value was adjusted for multiple comparisons (using Truncated Hochberg).|Mixed Models Analysis|||Mixed model for repeated measures fitted to 200 multiply imputed datasets generated in accordance with the estimand. Treatment group LS mean, 95% confidence intervals, and two-sided p values were pooled across imputations using Rubin's rules.||5.89|0.59|0.0167
92176154|NCT05693935|184245046|OTHER||LS Mean Difference|5.01||||0.0007|TWO_SIDED|95.0|2.35|7.66||p-value was adjusted for multiple comparisons (using Truncated Hochberg).|Mixed Models Analysis|||Mixed model for repeated measures fitted to 200 multiply imputed datasets generated in accordance with the estimand. Treatment group LS mean, 95% confidence intervals, and two-sided p values were pooled across imputations using Rubin's rules.||7.66|2.35|0.0007
92283180|NCT02937701|184470223|OTHER||Response Difference|7.49|||||TWO_SIDED|90.0|-2.39|17.22||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||17.22|-2.39|
92183038|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-43.1|STANDARD_ERROR_OF_MEAN|9.86|||TWO_SIDED|95.0|-62.4|-23.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||-23.7|-62.4|
92176155|NCT00085735|184245081|NON_INFERIORITY|A hazard ratio of 1.6 is used as the non-inferiority margin. For the final analysis of comparing LDCSI vs. SDCSI, a one-sided 80% upper confidence limit of the hazard ratio based on a stratified approach will be estimated (stratified by RT group (IFRT vs. PFRT)). If the upper confidence limit is lower than 1.6, LDCSI would be deemed to be non-inferior. If not, non-inferiority would not be established.|Hazard Ratio (HR)|1.5|||||ONE_SIDED|80.0||1.9||||||The comparison is based on all eligible randomized patients 3-7 years of age without anaplastic histology or excess residual disease or disseminated disease by central review per the protocol document. Using a one-sided log rank test with type I error of 0.20, this study was designed to have power of 0.80 to detect a 10% reduction in cure rate due to the use of LDCSI compared to SDCSI.||1.9||
92248939|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|84.6|||<|0.001|TWO_SIDED|95.0|73.1|90.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||90.2|73.1|<0.001
92176156|NCT00085735|184245081|NON_INFERIORITY|A hazard ratio of 1.6 is used as the non-inferiority margin. For the final analysis comparing IFRT vs. PFRT, a one-sided 94% upper confidence limit of the hazard ratio based on a stratified approach will be estimated (stratified by age group and RT group (LDCSI vs. SDCSI)). If the upper confidence limit is lower than 1.6, IFRT would be deemed to be non-inferior. If not, non-inferiority would not be established.|Hazard Ratio (HR)|1.0|||||ONE_SIDED|94.0||1.3||||||The comparison is based on all eligible randomized patients 3-21 years of age without anaplastic histology or excess residual disease or disseminated disease by central review as per the protocol document. Using a one-sided log rank test with type I error of 0.20, this study was designed with power of 0.94 to detect a 10% reduction in cure rate and power of 0.65 to detect a 5% reduction in cure rate, due to the use of IFRT compared to PFRT.||1.3||
92176157|NCT06504862|184245101|OTHER||Ratio of adjusted geometric means [%]|133.98|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|105.52|170.11|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 39.0|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||170.11|105.52|
92176158|NCT06504862|184245102|OTHER||Ratio of adjusted geometric means [%]|124.19|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|96.13|160.43|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 42.0|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||160.43|96.13|
92176159|NCT06504862|184245103|OTHER||Ratio of adjusted geometric means [%]|230.3|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|90.0|195.68|271.04|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 26.7|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||271.04|195.68|
92176160|NCT06504862|184245104|OTHER||Ratio of adjusted geometric means [%]|301.68|STANDARD_ERROR_OF_MEAN|1.12|||TWO_SIDED|90.0|247.19|368.19|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 33.0|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||368.19|247.19|
92176161|NCT06504862|184245105|OTHER||Ratio of adjusted geometric means [%]|83.02|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|90.0|76.48|90.12|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 13.3|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||90.12|76.48|
92176162|NCT06504862|184245106|OTHER||Ratio of adjusted geometric means [%]|75.57|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|90.0|68.03|83.95|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 17.1|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||83.95|68.03|
92176163|NCT06504862|184245107|OTHER||Ratio of adjusted geometric means [%]|137.95|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|90.0|120.17|158.36|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 22.5|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||158.36|120.17|
92176164|NCT06504862|184245108|OTHER||Ratio of adjusted geometric means [%]|149.8|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|116.12|193.25|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 44.4|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||193.25|116.12|
92176165|NCT06504862|184245109|OTHER||Ratio of adjusted geometric means [%]|134.49|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|105.56|171.34|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 39.5|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||171.34|105.56|
92183039|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-31.1|STANDARD_ERROR_OF_MEAN|9.34|||TWO_SIDED|95.0|-49.5|-12.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||-12.8|-49.5|
92248940|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|54.6|||<|0.001|TWO_SIDED|95.0|39.8|66.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||66.9|39.8|<0.001
92248941|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|65.7|||<|0.001|TWO_SIDED|95.0|51.0|76.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||76.6|51.0|<0.001
92248942|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|91.7|||<|0.001|TWO_SIDED|95.0|81.6|95.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||95.3|81.6|<0.001
92248943|NCT01763866|184400390|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|84.6|||<|0.001|TWO_SIDED|95.0|72.8|90.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||90.0|72.8|<0.001
92248944|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|83.5|||<|0.001|TWO_SIDED|95.0|71.9|89.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||89.2|71.9|<0.001
92248945|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|78.3|||<|0.001|TWO_SIDED|95.0|65.2|85.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||85.3|65.2|<0.001
92248946|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|63.0|||<|0.001|TWO_SIDED|95.0|47.3|73.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||73.9|47.3|<0.001
92248947|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|64.9|||<|0.001|TWO_SIDED|95.0|49.8|75.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||75.2|49.8|<0.001
92248948|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|80.1|||<|0.001|TWO_SIDED|95.0|65.8|87.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||87.9|65.8|<0.001
92176166|NCT06504862|184245110|OTHER||Ratio of adjusted geometric means [%]|248.69|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|90.0|211.03|293.07|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 27.0|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||293.07|211.03|
92176167|NCT06504862|184245111|OTHER||Ratio of adjusted geometric means [%]|82.83|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|90.0|76.27|89.96|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 13.4|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||89.96|76.27|
92248949|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|81.2|||<|0.001|TWO_SIDED|95.0|67.9|88.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||88.1|67.9|<0.001
92283181|NCT02937701|184470223|OTHER||Response Difference|-0.5|||||TWO_SIDED|90.0|-9.03|7.59||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||7.59|-9.03|
92283182|NCT02937701|184470223|OTHER||Response Difference|3.39|||||TWO_SIDED|90.0|-6.41|13.14||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.14|-6.41|
92283183|NCT02937701|184470223|OTHER||Response Difference|-0.43|||||TWO_SIDED|90.0|-8.98|7.66||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||7.66|-8.98|
92176168|NCT06504862|184245112|OTHER||Ratio of adjusted geometric means [%]|143.49|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|123.78|166.33|||||Ratio \[%\] = (adjusted geometric mean T/adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 24.2|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: participant (considered as random) and treatment (considered as fixed). These quantities were then back-transformed to the original scale.||166.33|123.78|
92176169|NCT01574274|184245116|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92176170|NCT01574274|184245117|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||Day 4 NSAA Level||||0.07
92248950|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|41.1|||<|0.001|TWO_SIDED|95.0|26.4|55.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||55.1|26.4|<0.001
92176171|NCT01574274|184245117|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Day 11 NSAA Level||||0.29
92176172|NCT01574274|184245117|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||Day 18 NSAA Level||||0.0002
92176173|NCT01574274|184245117|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Day 25 NSAA Level||||<0.0001
92248951|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|35.2|||<|0.001|TWO_SIDED|95.0|20.7|49.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||49.3|20.7|<0.001
92176174|NCT01574274|184245117|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Week 7 NSAA Level||||<0.0001
92176175|NCT01574274|184245117|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Week 13 NSAA Level||||0.87
92176176|NCT01574274|184245117|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||Week 19 NSAA Level||||0.83
92176177|NCT01574274|184245117|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||Week 25 NSAA Level||||0.94
92248952|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|77.3|||<|0.001|TWO_SIDED|95.0|63.9|84.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||84.7|63.9|<0.001
92176178|NCT02969707|184245168|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|2-sample t-test||Examining the Change in sum of positive z-transformed CC.||||0.035
92176179|NCT02969707|184245168|SUPERIORITY|||||||0.7||||||2-sample t-test|t-test, 2 sided|||Examining the change in sum of all z-transformed CC.||||0.7
92176180|NCT02969707|184245168|SUPERIORITY|2-sample t-test||||||0.11|||||||t-test, 2 sided|||Examining the change in sum of negative z-transformed CC.||||0.11
92248953|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|81.1|||<|0.001|TWO_SIDED|95.0|68.8|87.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||87.5|68.8|<0.001
92248954|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|52.7|||<|0.001|TWO_SIDED|95.0|37.6|65.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||65.3|37.6|<0.001
92248955|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|64.3|||<|0.001|TWO_SIDED|95.0|49.1|75.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||75.5|49.1|<0.001
92176181|NCT02969707|184245168|SUPERIORITY||Mean Difference (Net)|61.98||||0.008|TWO_SIDED||||||t-test, 2 sided|One sample(paired) t-test||Examining the change in positive functional connectivity between the L-DLPFC and the dACC within the active group from pre to post TMS.||||0.008
92283184|NCT02937701|184470223|OTHER||Response Difference|7.87|||||TWO_SIDED|90.0|-2.13|17.68||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||17.68|-2.13|
92283185|NCT02937701|184470223|OTHER||Response Difference|1.95|||||TWO_SIDED|90.0|-6.81|10.29||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||10.29|-6.81|
92283186|NCT02937701|184470223|OTHER||Response Difference|12.06|||||TWO_SIDED|90.0|1.74|22.04||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||22.04|1.74|
92176182|NCT02969707|184245170|OTHER||Mann-Whitney U statistic|601.0||||0.046|TWO_SIDED||||||Mann-Whitney U-test 2-tailed|||Non-parametric analysis, comparison of change (post-treatment minus pre-treatment)||||0.046
92176183|NCT02969707|184245170|OTHER||Cohen's R|0.25|||||TWO_SIDED||||||||Estimate of effect size|Non-parametric analysis, comparison of change (post-treatment minus pre-treatment)||||
92176184|NCT02969707|184245171|SUPERIORITY|We assessed the superiority of active over sham.|Mann-Whitney U statistic|702.5|||=|0.412|TWO_SIDED||||||Mann-Whitney U-test 2-tailed|||Pre- to post-rTMS change in HIS scores were calculated for both Active and Sham conditions. Two-tailed t-tests were used to evaluate the difference between the two conditions' change scores.||||=.412
92176185|NCT02969707|184245174|SUPERIORITY|||||||0.037|||||||t-test, 2 sided|2-sample t-test||||||0.037
92176186|NCT02969707|184245174|SUPERIORITY|||||||0.063|||||||t-test, 2 sided|||||||0.063
92283187|NCT02937701|184470224|OTHER||Mean Difference|-0.07|||||TWO_SIDED|90.0|-0.2|0.007||||||Week 2 difference between means (ABP 710 minus infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.007|-0.20|
92283188|NCT02937701|184470224|OTHER||Mean Difference|0.0|||||TWO_SIDED|90.0|-0.17|0.16||||||Week 6 difference between means (ABP 710 minus infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.16|-0.17|
92283189|NCT02937701|184470224|OTHER||Mean Difference|-0.04|||||TWO_SIDED|90.0|-0.21|0.14||||||Week 14 difference between means (ABP 710 minus infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.14|-0.21|
92283190|NCT02937701|184470224|OTHER||Mean Difference|-0.01|||||TWO_SIDED|90.0|-0.2|0.17||||||Week 22 difference between means (ABP 710 minus infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.17|-0.20|
92283191|NCT02937701|184470225|OTHER||Mean Difference|0.16|||||TWO_SIDED|90.0|-0.08|0.4||||||Week 30 difference between means (ABP 710/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.40|-0.08|
92176187|NCT02969707|184245174|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||||||0.31
92176188|NCT02969707|184245179|SUPERIORITY|We assessed the superiority of active over sham.|Cohen's d|-0.234||||0.49|TWO_SIDED||||||Mixed-effects model|||We used standard mixed-effects modeling to estimate the change (slope) in pain in our 2\*2 pre- and post-assessment design. Pain ratings were calculated by averaging pain ratings across 5 assessments under four conditions (TMS with hypnosis, TMS without hypnosis, Sham with hypnosis, Sham without hypnosis). Based on these change estimates, we derived the two main effects (TMS, Hypnosis) and their interaction effect on the change in pain from the pre- to post-treatment assessment.||||0.49
92176189|NCT02969707|184245180|SUPERIORITY|We assessed the superiority of active over sham.|||||=|0.454|||||||t-test, 2 sided|||Pre- to post-rTMS change in SOARS scores were calculated for both Active and Sham conditions. Two-tailed t-tests were used to evaluate the difference between the two conditions' change scores.||||=.454
92176190|NCT02969707|184245181|OTHER|Linear regression was used to evaluate the scalar relationship between E/I ratio as it relates to water and Thermal Pain Tolerance with E/I as the independent variable and Thermal Pain Tolerance as the dependent variable.||||||0.023|||||||Regression, Linear|(R² = .104, F(2,48) = 2.794, β = .320, p = .023)||In people with FMS, the linear relationship between Thermal Pain Tolerance and E/I ratio as it relates to water was assessed.||||0.023
92176191|NCT02969707|184245181|OTHER|Linear regression was used to evaluate the scalar relationship between E/I ratio as it relates to water and Thermal Pain Threshold with E/I as the independent variable and Thermal Pain Threshold as the dependent variable.||||||0.043|||||||Regression, Linear|(R² = .081, F(1,49) = 4.315, β = .284, p = .043)||In people with FMS, the linear relationship between Thermal Pain Threshold and E/I ratio as it relates to water was assessed.||||0.043
92176192|NCT02969707|184245181|OTHER|Linear regression was used to evaluate the scalar relationship between E/I ratio as it relates to creatine and Thermal Pain Tolerance with E/I as the independent variable and Thermal Pain Tolerance as the dependent variable.||||||0.022|||||||Regression, Linear|(R² = .103, F(1,49) = 5.632, β = .321, p = .022)||In people with FMS, the linear relationship between Thermal Pain Tolerance and E/I ratio as it relates to creatine was assessed.||||0.022
92176193|NCT02969707|184245181|OTHER|Linear regression was used to evaluate the scalar relationship between E/I ratio as it relates to creatine and Thermal Pain Threshold with E/I as the independent variable and Thermal Pain Threshold as the dependent variable.||||||0.041|||||||Regression, Linear|(R² = .083, F(1,49) = 4.425, β = .288, p = .041)||In people with FMS, the linear relationship between Thermal Pain Threshold and E/I ratio as it relates to creatine was assessed.||||0.041
92283192|NCT02937701|184470225|OTHER||Mean Difference|0.0|||||TWO_SIDED|90.0|-0.27|0.28||||||Week 30 difference between means (Infliximab/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.28|-0.27|
92283193|NCT02937701|184470225|OTHER||Mean Difference|0.11|||||TWO_SIDED|90.0|-0.12|0.35||||||Week 34 difference between means (ABP 710/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.35|-0.12|
92176194|NCT02969707|184245187|SUPERIORITY|||||||0.728|||||||ANCOVA|||Standard ANCOVA testing whether the Post-TMS E/I relative to creatine is predicted for each subject by the intervention (Active / Sham) while covarying for the Pre-TMS E/I ratio relative to creatine.||||0.728
92283194|NCT02937701|184470225|OTHER||Mean Difference|-0.03|||||TWO_SIDED|90.0|-0.3|0.24||||||Week 34 difference between means (Infliximab/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.24|-0.30|
92176195|NCT02969707|184245187|SUPERIORITY|||||||0.72|||||||ANCOVA|||Standard ANCOVA testing whether the Post-TMS E/I relative to water is predicted for each subject by the intervention (Active / Sham) while covarying for the Pre-TMS E/I ratio relative to water.||||0.720
92176196|NCT03020199|184245188|SUPERIORITY||Odds Ratio (OR)|16.8|||<|0.0001|TWO_SIDED|95.0|5.9|48.3|||Regression, Logistic||Logistic regression model with treatment as an explanatory variable and subset of significant covariates (including Baseline PASI score, age, BMI and their interaction terms with treatment) selected using forward selection method.|Week 52 PASI 90||48.3|5.9|<0.0001
92176197|NCT03020199|184245189|SUPERIORITY||Odds Ratio (OR)|0.8||||0.653|TWO_SIDED|95.0|0.3|2.1|||Regression, Logistic||Exact logistic regression method for Treatment group comparison, without using any covariates.|Week 104 PASI 90||2.1|0.3|0.6530
92176198|NCT02714257|184245202|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.43|TWO_SIDED|95.0|0.74|1.14|||Regression, Cox||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||1.14|0.74|0.43
92176199|NCT02714257|184245203|SUPERIORITY||Incidence Rate Ratio|1.06||||0.5|TWO_SIDED|95.0|0.89|1.28|||Regression, Negative Binomial||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||1.28|0.89|0.50
92176200|NCT02714257|184245204|SUPERIORITY||Odds Ratio (OR)|0.89||||0.3|TWO_SIDED|95.0|0.72|1.11|||Regression, Logistic|||||1.11|0.72|0.30
92176201|NCT02714257|184245205|SUPERIORITY||Mean Difference (Final Values)|0.54|||<|0.01|TWO_SIDED|95.0|0.16|0.92|||Mixed Models Analysis||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||0.92|0.16|<0.01
92176202|NCT02714257|184245206|SUPERIORITY||Odds Ratio (OR)|1.04||||0.73|TWO_SIDED|95.0|0.85|1.27|||Regression, Logistic||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||1.27|0.85|0.73
92176203|NCT02714257|184245207|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.27|TWO_SIDED|95.0|-0.18|0.62|||Mixed Models Analysis||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||0.62|-0.18|0.27
92176204|NCT02714257|184245208|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.37|TWO_SIDED|95.0|-0.13|0.34|||Mixed Models Analysis||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||0.34|-0.13|0.37
92176205|NCT02714257|184245209|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.26|TWO_SIDED|95.0|-0.1|0.38|||Mixed Models Analysis||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||0.38|-0.10|0.26
92283195|NCT02937701|184470225|OTHER||Mean Difference|0.06|||||TWO_SIDED|90.0|-0.18|0.3||||||Week 38 difference between means (ABP 710/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.30|-0.18|
92176206|NCT02714257|184245210|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.39|TWO_SIDED|95.0|-0.09|0.22|||Mixed Models Analysis||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||0.22|-0.09|0.39
92176207|NCT03785964|184245293|SUPERIORITY||Hazard Ratio (HR)|0.29|||<|0.001|TWO_SIDED|95.0|0.15|0.55|||Log Rank|p-value was from a one-sided stratified log-rank test with placebo as reference.||Hazard ratio was estimated from stratified Cox proportional hazards model using the exact method for ties, stratified by tumor location. Placebo was the reference treatment.||0.55|0.15|< 0.001
92283196|NCT02937701|184470225|OTHER||Mean Difference|-0.08|||||TWO_SIDED|90.0|-0.36|0.2||||||Week 38 difference between means (Infliximab/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.20|-0.36|
92283197|NCT02937701|184470225|OTHER||Mean Difference|0.11|||||TWO_SIDED|90.0|-0.14|0.37||||||Week 46 difference between means (ABP 710/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.37|-0.14|
92283198|NCT02937701|184470225|OTHER||Mean Difference|-0.05|||||TWO_SIDED|90.0|-0.34|0.25||||||Week 46 difference between means (Infliximab/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.25|-0.34|
92176208|NCT03785964|184245294|SUPERIORITY||||||<|0.001||||||Two-sided p-value|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel test for general association stratified by tumor location. Placebo was reference treatment.||||< 0.001
92176209|NCT03785964|184245295|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline Brief Pain Inventory Short Form score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 40 and 31 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||<0.001
92176210|NCT03785964|184245296|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline DEsmoid Tumor Symptom Scale score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 40 and 32 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||<0.001
92283199|NCT02937701|184470225|OTHER||Mean Difference|0.0|||||TWO_SIDED|90.0|-0.24|0.24||||||Week 50 difference between means (ABP 710/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.24|-0.24|
92283200|NCT02937701|184470225|OTHER||Mean Difference|-0.2|||||TWO_SIDED|90.0|-0.47|0.08||||||Week 50 difference between means (Infliximab/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.08|-0.47|
92176211|NCT03785964|184245297|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 39 and 28 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||<0.001
92176212|NCT03785964|184245298|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 38 and 27 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||0.006
92176213|NCT03785964|184245299|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 38 and 28 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||<0.001
92176214|NCT03785964|184245300|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 38 and 28 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||<0.001
92176215|NCT02723591|184245301|SUPERIORITY||Odds Ratio (OR)|1.115||||0.5777|TWO_SIDED|95.0|0.76|1.636|||Regression, Logistic|||Logistic regression with DSA/IA occurrence by Month 12 as response, with treatment group, planned Campath use, KDPI level (as recorded in IVRS), HLA Class II mismatch, recipient age, recipient gender, recipient race, and pre-transplant calculated panel reactivity antibody (cPRA) as fixed effects, and pooled site as a random effect with standard variance components covariance type.||1.636|0.760|0.5777
92176216|NCT02723591|184245304|SUPERIORITY|||||||0.6618|||||||Fisher Exact|||P-values obtained from a 2x3 Exact Test of treatment by strength levels.||||0.6618
92176217|NCT02723591|184245309|SUPERIORITY||Odds Ratio (OR)|1.038||||0.8518|TWO_SIDED|95.0|0.7|1.539|||Regression, Logistic|||Logistic regression with IA occurrence by Month 12 as response, with treatment group, planned Campath use, KDPI level (as recorded in IVRS), HLA Class II mismatch, recipient age, recipient gender, recipient race, and pre-transplant cPRA as fixed effects, and pooled site as a random effect with standard Variance Components covariance type.||1.539|0.700|0.8518
92176218|NCT02723591|184245312|SUPERIORITY|||||||1|||||||Fisher Exact|||P-values obtained from a 2-sided Fisher's Exact Test of treatment arm by response.||||1.0000
92176219|NCT02723591|184245313|SUPERIORITY|||||||0.475|||||||Fisher Exact|||P-values obtained from a 2-sided Fisher's Exact Test of treatment arm by response.||||0.4750
92176220|NCT02723591|184245314|SUPERIORITY|||||||0.0939|||||||Fisher Exact|||P-values obtained from a 2-sided Fisher's Exact Test of treatment arm by response.||||0.0939
92283201|NCT01507051|184470226|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio|2.793|||<|0.0001||90.0|2.633|2.962|||ANOVA|||||2.962|2.633|<0.0001
92283202|NCT01507051|184470227|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio|6.151|||<|0.0001||90.0|5.598|6.759|||ANOVA|||||6.759|5.598|<0.0001
92283203|NCT01507051|184470254|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio (%)|95.17||||0.5008||95.0|82.2|110.2|||ANOVA|||||110.2|82.20|0.5008
92283204|NCT01507051|184470255|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio (%)|99.46||||0.9429||95.0|85.47|115.7|||ANOVA|||||115.7|85.47|0.9429
92283205|NCT01507051|184470256|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio (%)|100.4||||0.9525||95.0|88.0|114.5|||ANOVA|||||114.5|88.00|0.9525
92283206|NCT01507051|184470257|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio (%)|95.87||||0.4397||95.0|85.99|106.9|||ANOVA|||||106.9|85.99|0.4397
92283207|NCT01101022|184470268|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.2|||<|0.0001|TWO_SIDED|95.0|-15.9|-6.4|||ANCOVA|||||-6.4|-15.9|<0.0001
92283208|NCT01101022|184470269|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.6|||<|0.0001|TWO_SIDED|95.0|13.5|29.7|||ANCOVA|||Performance and Daily Functioning||29.7|13.5|<0.0001
92283209|NCT01101022|184470269|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.9|||<|0.0001|TWO_SIDED|95.0|7.8|22.0|||ANCOVA|||Daily Interference||22.0|7.8|<0.0001
92283210|NCT01101022|184470269|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.5||||0.0003|TWO_SIDED|95.0|6.3|20.7|||ANCOVA|||Bother/Concern||20.7|6.3|0.0003
92283211|NCT01101022|184470269|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.8||||0.0302|TWO_SIDED|95.0|0.8|14.9|||ANCOVA|||Relationships/Communication||14.9|0.8|0.0302
92283212|NCT01101022|184470270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9||||0.0016|TWO_SIDED|95.0|-7.8|-1.9|||ANCOVA|||Global Executive Composite||-1.9|-7.8|0.0016
92248956|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|92.5|||<|0.001|TWO_SIDED|95.0|82.3|95.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||95.9|82.3|<0.001
92248957|NCT01763866|184400391|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|78.4|||<|0.001|TWO_SIDED|95.0|64.9|85.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||85.4|64.9|<0.001
92176221|NCT02723591|184245317|SUPERIORITY||Odds Ratio (OR)|1.431||||0.116|TWO_SIDED|95.0|0.915|2.24|||Regression, Logistic|||Logistic regression with occurrence of eGFR \< 50 by Month 12 as response, with treatment group, planned Campath use, KDPI level (as recorded in IVRS), HLA Class II mismatch, recipient age, recipient gender, recipient race, and pre-transplant cPRA as fixed effects, and pooled site as a random effect with standard Variance Components covariance type.||2.240|0.915|0.1160
92176222|NCT02723591|184245318|SUPERIORITY||Odds Ratio (OR)|1.212||||0.4995|TWO_SIDED|95.0|0.693|2.12|||Regression, Logistic|||Logistic regression with occurrence of 5-point eGFR decline by Month 12 as response, with treatment group, planned Campath use, KDPI level (as recorded in IVRS), HLA Class II mismatch, recipient age, recipient gender, recipient race, and pre-transplant cPRA as fixed effects, and pooled site as a random effect with standard Variance Components covariance type.||2.120|0.693|0.4995
92176223|NCT02723591|184245336|SUPERIORITY|||||||0.6327|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.6327
92176224|NCT02723591|184245337|SUPERIORITY|||||||0.9701|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.9701
92248958|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.08|STANDARD_ERROR_OF_MEAN|3.54|<|0.001|TWO_SIDED|95.0|-39.06|-25.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-25.11|-39.06|<0.001
92176225|NCT02723591|184245338|SUPERIORITY|||||||0.3127|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.3127
92248959|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-21.86|STANDARD_ERROR_OF_MEAN|3.98|<|0.001|TWO_SIDED|95.0|-29.7|-14.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-14.03|-29.70|<0.001
92283213|NCT01101022|184470270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1||||0.0355|TWO_SIDED|95.0|-6.0|-0.2|||ANCOVA|||Behavioral Regulation Index||-0.2|-6.0|0.0355
92176226|NCT02723591|184245339|SUPERIORITY|||||||0.083|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.0830
92176227|NCT02723591|184245340|SUPERIORITY|||||||0.6022|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.6022
92176228|NCT02723591|184245341|SUPERIORITY|P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||||0.9249|||||||Fisher Exact|||||||0.9249
92176229|NCT02723591|184245342|SUPERIORITY|||||||0.9136|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.9136
92176230|NCT02723591|184245343|SUPERIORITY|||||||0.8789|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.8789
92176231|NCT02723591|184245344|SUPERIORITY|||||||0.5574|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.5574
92176232|NCT02723591|184245345|SUPERIORITY|||||||0.815|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.8150
92176233|NCT02723591|184245346|SUPERIORITY|||||||0.5673|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.5673
92176234|NCT02151981|184245371|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.3|||<|0.001|TWO_SIDED|95.0|0.23|0.41|||Log Rank||A hazard ratio \<1 favours Osimertinib 80mg|||0.41|0.23|<0.001
92176235|NCT02151981|184245372|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.39|||<|0.001|TWO_SIDED|95.0|3.47|8.48|||Regression, Logistic|adjusted for ethnicity (Asian/non-Asian)|odds ratio \>1.0 favours Osimertinib 80 mg|||8.48|3.47|<0.001
92176236|NCT02151981|184245373|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Expected (DoR)|6.22|||<|0.001|TWO_SIDED|95.0|4.04|9.57|||formulae provided in Ellis S et al 2008|Treatments compared by calculating the ratio of the Expected (DoR) using the Log Normal probability distribution for DOR in responding patients||||9.57|4.04|<0.001
92176237|NCT02151981|184245374|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.76|||<|0.001|TWO_SIDED|95.0|2.64|8.84|||Regression, Logistic||odds ratio \>1.0 favours Osimertinib 80 mg|||8.84|2.64|<0.001
92176238|NCT02151981|184245375|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-21.62|||<|0.001|TWO_SIDED|95.0|-27.71|-15.52|||ANCOVA|Covariates for ethnicity (Asian, non-Asian) and the baseline sum of diameters of target lesions|LS Mean: Osimertinib -46.93, Chemo -25.3 A difference in LS means \<0 favours Osimertinib 80mg|||-15.52|-27.71|<0.001
92176239|NCT02151981|184245376|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.277|TWO_SIDED|95.0|0.67|1.13|||Log Rank||A hazard ratio \<1 favours Osimertinib 80 mg|||1.13|0.67|0.277
92176240|NCT02151981|184245377|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|95.0|0.16|0.28|||Log Rank||A hazard ratio \<1 favors Osimertinib 80mg|||0.28|0.16|<0.001
92176241|NCT02151981|184245378|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87|||<|0.001|TWO_SIDED|95.0|0.69|1.11|||Log Rank||A hazard ratio \<1 favours Osimertinib 80 mg|||1.11|0.69|<0.001
92176242|NCT01922050|184245391|SUPERIORITY||Rate ratio|0.53|||<|0.001|TWO_SIDED|95.0|0.4|0.69|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||0.69|0.40|<0.001
92248960|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.45|STANDARD_ERROR_OF_MEAN|3.59|<|0.001|TWO_SIDED|95.0|-34.53|-20.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-20.38|-34.53|<0.001
92248961|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.49|STANDARD_ERROR_OF_MEAN|3.99|<|0.001|TWO_SIDED|95.0|-37.36|-21.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-21.62|-37.36|<0.001
92176243|NCT01922050|184245391|SUPERIORITY||Rate ratio|0.46|||<|0.001|TWO_SIDED|95.0|0.35|0.61|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||0.61|0.35|<0.001
92176244|NCT01922050|184245391|SUPERIORITY||Rate ratio|0.36|||<|0.001|TWO_SIDED|95.0|0.28|0.48|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||0.48|0.28|<0.001
92176245|NCT01922050|184245391|SUPERIORITY||Rate ratio|0.88||||0.38|TWO_SIDED|95.0|0.66|1.17|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||1.17|0.66|0.38
92176246|NCT01922050|184245391|SUPERIORITY||Rate ratio|0.69||||0.013|TWO_SIDED|95.0|0.52|0.93|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||0.93|0.52|0.013
92176247|NCT01922050|184245391|SUPERIORITY||Rate ratio|0.79||||0.13|TWO_SIDED|95.0|0.58|1.07|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||1.07|0.58|0.13
92176248|NCT01922050|184245392|SUPERIORITY||Ratio of clearance rates|0.74||||0.57|TWO_SIDED|95.0|0.27|2.04|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||2.04|0.27|0.57
92283214|NCT01101022|184470270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.7||||0.0003|TWO_SIDED|95.0|-8.7|-2.7|||ANCOVA|||Metacognition Index||-2.7|-8.7|0.0003
92176249|NCT01922050|184245392|SUPERIORITY||Ratio of clearance rates|1.33||||0.51|TWO_SIDED|95.0|0.56|3.13|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||3.13|0.56|0.51
92176250|NCT01922050|184245392|SUPERIORITY||Ratio of clearance rates|1.9||||0.11|TWO_SIDED|95.0|0.86|4.21|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||4.21|0.86|0.11
92283215|NCT01101022|184470271|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.4||||0.0002|TWO_SIDED|95.0|-12.7|-4.0|||ANCOVA|||Behavioral Regulation Index||-4.0|-12.7|0.0002
92176251|NCT01922050|184245392|SUPERIORITY||Ratio of clearance rates|1.79||||0.21|TWO_SIDED|95.0|0.72|4.43|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||4.43|0.72|0.21
92176252|NCT01922050|184245392|SUPERIORITY||Ratio of clearance rates|2.55||||0.031|TWO_SIDED|95.0|1.09|5.98|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||5.98|1.09|0.031
92283216|NCT01101022|184470271|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.6|||<|0.0001|TWO_SIDED|95.0|-16.3|-7.0|||ANCOVA|||Metacognition Index||-7.0|-16.3|<0.0001
92176253|NCT01922050|184245392|SUPERIORITY||Ratio of clearance rates|1.43||||0.29|TWO_SIDED|95.0|0.74|2.75|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||2.75|0.74|0.29
92176254|NCT01922050|184245393|SUPERIORITY||Ratio of clearance rates|1.69||||0.026|TWO_SIDED|95.0|1.06|2.69|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||2.69|1.06|0.026
92283217|NCT01101022|184470272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.3||||0.0001|TWO_SIDED|95.0|-12.6|-4.1|||ANCOVA|||Inhibit||-4.1|-12.6|0.0001
92283218|NCT01101022|184470272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.7||||0.0018|TWO_SIDED|95.0|-10.8|-2.5|||ANCOVA|||Shift||-2.5|-10.8|0.0018
92176255|NCT01922050|184245393|SUPERIORITY||Ratio of clearance rates|1.79||||0.013|TWO_SIDED|95.0|1.13|2.84|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||2.84|1.13|0.013
92176256|NCT01922050|184245393|SUPERIORITY||Ratio of clearance rates|2.1|||<|0.001|TWO_SIDED|95.0|1.35|3.25|||Log binomial regression|||||3.25|1.35|<0.001
92176257|NCT01922050|184245393|SUPERIORITY||Ratio of clearance rates|1.06||||0.73|TWO_SIDED|95.0|0.76|1.47|||Log binomial regression|||||1.47|0.76|0.73
92176258|NCT01922050|184245393|SUPERIORITY||Ratio of clearance rates|1.24||||0.16|TWO_SIDED|95.0|0.92|1.67|||Log binomial regression|||||1.67|0.92|0.16
92176259|NCT01922050|184245393|SUPERIORITY||Ratio of clearance rates|1.17||||0.3|TWO_SIDED|95.0|0.87|1.57|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||1.57|0.87|0.30
92176260|NCT03334630|184245459|NON_INFERIORITY|Assuming a Control composite SAE freedom rate of 93.5%, 226 subjects per group yields 80% power to detect a non-inferiority margin of -6.5% between treatment groups at a significance level of 0.025.|Risk Difference (RD)|0.0324|||<|0.0001|TWO_SIDED|95.0|-0.0132|0.0779||The a priori threshold for statistical significance is 0.025.|Farrington-Manning non-inferiority test||Estimated risk difference = DiamondTemp composite SAE freedom rate - Control composite SAE freedom rate = 3.24% = 0.0324|Null hypothesis: the DiamondTemp arm is inferior to the Control arm. Alternative hypothesis: the DiamondTemp arm is non-inferior to the Control arm.||0.0779|-0.0132|<0.0001
92183040|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-45.8|STANDARD_ERROR_OF_MEAN|9.7|||TWO_SIDED|95.0|-64.9|-26.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||-26.8|-64.9|
92283219|NCT01101022|184470272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.2||||0.0056|TWO_SIDED|95.0|-8.8|-1.5|||ANCOVA|||Emotional control||-1.5|-8.8|0.0056
92248962|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-20.52|STANDARD_ERROR_OF_MEAN|3.65|<|0.001|TWO_SIDED|95.0|-27.71|-13.33||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-13.33|-27.71|<0.001
92248963|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.96|STANDARD_ERROR_OF_MEAN|4.08|<|0.001|TWO_SIDED|95.0|-37.01|-20.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-20.92|-37.01|<0.001
92283220|NCT01101022|184470272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.2||||0.0001|TWO_SIDED|95.0|-12.3|-4.1|||ANCOVA|||Sef-monitor||-4.1|-12.3|0.0001
92283221|NCT01101022|184470272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.3|||<|0.0001|TWO_SIDED|95.0|-13.2|-5.4|||ANCOVA|||Initiate||-5.4|-13.2|<0.0001
92248964|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.02|STANDARD_ERROR_OF_MEAN|3.6|<|0.001|TWO_SIDED|95.0|-39.11|-24.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-24.93|-39.11|<0.001
92248965|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.42|STANDARD_ERROR_OF_MEAN|4.15|<|0.001|TWO_SIDED|95.0|-45.61|-29.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.23|-45.61|<0.001
92248966|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.66|STANDARD_ERROR_OF_MEAN|3.69|<|0.001|TWO_SIDED|95.0|-42.94|-28.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-28.38|-42.94|<0.001
92248967|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.81|STANDARD_ERROR_OF_MEAN|4.33|<|0.001|TWO_SIDED|95.0|-35.36|-18.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-18.27|-35.36|<0.001
92248968|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.56|STANDARD_ERROR_OF_MEAN|3.64|<|0.001|TWO_SIDED|95.0|-40.74|-26.37||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-26.37|-40.74|<0.001
92283222|NCT01101022|184470272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.0|-6.6|||ANCOVA|||Working memory||-6.6|-16.0|<0.0001
92283223|NCT01101022|184470272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.9|||<|0.0001|TWO_SIDED|95.0|-15.4|-6.4|||ANCOVA|||Plan/Organize||-6.4|-15.4|<0.0001
92248969|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.19|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-40.8|-23.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-23.58|-40.80|<0.001
92248970|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.07|STANDARD_ERROR_OF_MEAN|3.46|<|0.001|TWO_SIDED|95.0|-34.91|-21.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-21.23|-34.91|<0.001
92248971|NCT01763866|184400392|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.16|STANDARD_ERROR_OF_MEAN|3.76|<|0.001|TWO_SIDED|95.0|-34.59|-19.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-19.73|-34.59|<0.001
92248972|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.2|STANDARD_ERROR_OF_MEAN|3.86|<|0.001|TWO_SIDED|95.0|-40.81|-25.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-25.60|-40.81|<0.001
92248973|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-19.82|STANDARD_ERROR_OF_MEAN|4.11|<|0.001|TWO_SIDED|95.0|-27.92|-11.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-11.72|-27.92|<0.001
92248974|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.16|STANDARD_ERROR_OF_MEAN|3.91|<|0.001|TWO_SIDED|95.0|-36.87|-21.44||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-21.44|-36.87|<0.001
92248975|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.44|STANDARD_ERROR_OF_MEAN|4.12|<|0.001|TWO_SIDED|95.0|-35.56|-19.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-19.32|-35.56|<0.001
92248976|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.38|STANDARD_ERROR_OF_MEAN|4.07|<|0.001|TWO_SIDED|95.0|-30.39|-14.36||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-14.36|-30.39|<0.001
92248977|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.1|STANDARD_ERROR_OF_MEAN|4.32|<|0.001|TWO_SIDED|95.0|-36.62|-19.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-19.58|-36.62|<0.001
92248978|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.62|STANDARD_ERROR_OF_MEAN|3.98|<|0.001|TWO_SIDED|95.0|-40.46|-24.78||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-24.78|-40.46|<0.001
92248979|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.88|STANDARD_ERROR_OF_MEAN|4.38|<|0.001|TWO_SIDED|95.0|-43.52|-26.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-26.25|-43.52|<0.001
92248980|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.5|STANDARD_ERROR_OF_MEAN|4.15|<|0.001|TWO_SIDED|95.0|-44.69|-28.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-28.30|-44.69|<0.001
92248981|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.34|STANDARD_ERROR_OF_MEAN|4.48|<|0.001|TWO_SIDED|95.0|-34.19|-16.49||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-16.49|-34.19|<0.001
92283224|NCT01101022|184470272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.3||||0.0001|TWO_SIDED|95.0|-14.0|-4.7|||ANCOVA|||Task monitor||-4.7|-14.0|0.0001
92283225|NCT01101022|184470272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.9|||<|0.0001|TWO_SIDED|95.0|-12.5|-5.3|||ANCOVA|||Organization of materials||-5.3|-12.5|<0.0001
92283226|NCT01101022|184470273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.4||||0.0048|TWO_SIDED|95.0|-7.4|-1.4|||ANCOVA|||Inhibit||-1.4|-7.4|0.0048
92283227|NCT01101022|184470273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.8||||0.0045|TWO_SIDED|95.0|-8.0|-1.5|||ANCOVA|||Shift||-1.5|-8.0|0.0045
92248982|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.48|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-43.95|-29.02||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.02|-43.95|<0.001
92176261|NCT03334630|184245460|NON_INFERIORITY|Assuming a Control primary effectiveness rate of 65%, 229 subjects per group yields 80% power to detect a non-inferiority margin of -12.5% between treatment groups at a significance level of 0.025.|Risk Difference (RD)|0.034|||<|0.0001|TWO_SIDED|95.0|-0.042|0.109||The a priori threshold for statistical significance is 0.025.|Farrington-Manning non-inferiority test||Estimated risk difference = DiamondTemp composite SAE freedom rate - Control composite SAE freedom rate = 3.4% = 0.034|Null hypothesis: the DiamondTemp arm is inferior to the Control arm. Alternative hypothesis: the DiamondTemp arm is non-inferior to the Control arm.||0.109|-0.042|<0.0001
92176262|NCT03334630|184245461|SUPERIORITY|"Four secondary endpoints will be tested for superiority over Control hierarchically with pre-specified order:~1. Mean duration of individual RF ablations (seconds)~2. Mean cumulative RF time per procedure (minutes)~3. Total fluoroscopy time (minutes)~4. Total procedure time (minutes) The first secondary endpoint needs to be significant at the two-sided 0.05 alpha level before the next one can be tested at the same threshold. Testing stops once an endpoint is determined to be non-significant."|Mean Difference (Final Values)|-17.9|||<|0.0001|TWO_SIDED|95.0|-21.2|-14.6||The a priori threshold for statistical significance is 0.05 two-sided. The p-value is adjusted for multiple comparisons via the hierarchical testing approach.|t-test, 2 sided||Difference is DiamondTemp minus Control. A lower value is better.|"Null hypothesis: the population means for the DiamondTemp and Control groups are not different.~Alternative hypothesis: the population means for the DiamondTemp and Control groups are different."||-14.6|-21.2|<0.0001
92248983|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.17|STANDARD_ERROR_OF_MEAN|5.28|<|0.001|TWO_SIDED|95.0|-42.61|-21.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-21.74|-42.61|<0.001
92248984|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.25|STANDARD_ERROR_OF_MEAN|3.62|<|0.001|TWO_SIDED|95.0|-38.4|-24.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-24.10|-38.40|<0.001
92248985|NCT01763866|184400393|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.17|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-36.79|-19.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-19.55|-36.79|<0.001
92183041|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-23.7|STANDARD_ERROR_OF_MEAN|9.31|||TWO_SIDED|95.0|-42.0|-5.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||-5.4|-42.0|
92183042|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-47.3|STANDARD_ERROR_OF_MEAN|9.69|||TWO_SIDED|95.0|-66.4|-28.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||-28.3|-66.4|
92248986|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-12.1|STANDARD_ERROR_OF_MEAN|4.83||0.2|TWO_SIDED|95.0|-21.63|-2.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-2.58|-21.63|0.20
92248987|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.55|STANDARD_ERROR_OF_MEAN|5.36||0.003|TWO_SIDED|95.0|-33.13|-11.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-11.97|-33.13|0.003
92248988|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-2.45|STANDARD_ERROR_OF_MEAN|4.89||1|TWO_SIDED|95.0|-12.09|7.19||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||7.19|-12.09|1.00
92248989|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-14.95|STANDARD_ERROR_OF_MEAN|5.33||0.053|TWO_SIDED|95.0|-25.46|-4.44||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.44|-25.46|0.053
92183043|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-28.0|STANDARD_ERROR_OF_MEAN|9.43|||TWO_SIDED|95.0|-46.5|-9.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||-9.5|-46.5|
92183044|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-40.9|STANDARD_ERROR_OF_MEAN|9.94|||TWO_SIDED|95.0|-60.4|-21.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||-21.4|-60.4|
92248990|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-15.43|STANDARD_ERROR_OF_MEAN|4.89||0.073|TWO_SIDED|95.0|-25.06|-5.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-5.79|-25.06|0.073
92283228|NCT01101022|184470273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||0.3605|TWO_SIDED|95.0|-4.0|1.5|||ANCOVA|||Emotional control||1.5|-4.0|0.3605
92283229|NCT01101022|184470273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.2||||0.1468|TWO_SIDED|95.0|-5.1|0.8|||ANCOVA|||Self-monitor||0.8|-5.1|0.1468
92283230|NCT01101022|184470273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.5||||0.0002|TWO_SIDED|95.0|-8.3|-2.7|||ANCOVA|||Initiate||-2.7|-8.3|0.0002
92248991|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-14.41|STANDARD_ERROR_OF_MEAN|5.32||0.027|TWO_SIDED|95.0|-24.9|-3.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-3.92|-24.90|0.027
92248992|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.17|STANDARD_ERROR_OF_MEAN|4.8||1|TWO_SIDED|95.0|-10.63|8.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||8.30|-10.63|1.00
92283231|NCT01101022|184470273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.3||||0.0004|TWO_SIDED|95.0|-9.8|-2.9|||ANCOVA|||Working memory||-2.9|-9.8|0.0004
92283232|NCT01101022|184470273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9||||0.0015|TWO_SIDED|95.0|-7.9|-1.9|||ANCOVA|||Plan/Organize||-1.9|-7.9|0.0015
92183045|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-31.0|STANDARD_ERROR_OF_MEAN|9.48|||TWO_SIDED|95.0|-49.6|-12.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||-12.4|-49.6|
92248993|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.51|STANDARD_ERROR_OF_MEAN|5.38||0.63|TWO_SIDED|95.0|-12.12|9.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.11|-12.12|0.63
92283233|NCT01101022|184470273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.3||||0.0003|TWO_SIDED|95.0|-9.7|-2.9|||ANCOVA|||Task monitor||-2.9|-9.7|0.0003
92183046|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-42.6|STANDARD_ERROR_OF_MEAN|9.84|||TWO_SIDED|95.0|-61.9|-23.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||-23.3|-61.9|
92248994|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.72|STANDARD_ERROR_OF_MEAN|5.15|<|0.001|TWO_SIDED|95.0|-32.9|-12.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-12.54|-32.90|<0.001
92283234|NCT01101022|184470273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2||||0.0234|TWO_SIDED|95.0|-5.9|-0.4|||ANCOVA|||Organization of materials||-0.4|-5.9|0.0234
92283235|NCT01101022|184470274|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.1|||<|0.0001|TWO_SIDED|95.0|-14.9|-7.3|||ANCOVA|||||-7.3|-14.9|<0.0001
92283236|NCT01101022|184470277|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
92283237|NCT01101022|184470278|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.1|||<|0.0001|TWO_SIDED|95.0|5.4|12.7|||ANCOVA|||Living with ADHD||12.7|5.4|<0.0001
92248995|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-19.52|STANDARD_ERROR_OF_MEAN|5.69||0.007|TWO_SIDED|95.0|-30.76|-8.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-8.28|-30.76|0.007
92248996|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-17.59|STANDARD_ERROR_OF_MEAN|4.62||0.002|TWO_SIDED|95.0|-26.71|-8.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-8.46|-26.71|0.002
92248997|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.18|STANDARD_ERROR_OF_MEAN|4.85|<|0.001|TWO_SIDED|95.0|-35.76|-16.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-16.59|-35.76|<0.001
92248998|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-20.97|STANDARD_ERROR_OF_MEAN|5.78|<|0.001|TWO_SIDED|95.0|-32.38|-9.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-9.55|-32.38|<0.001
92248999|NCT01763866|184400394|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.71|STANDARD_ERROR_OF_MEAN|5.64|<|0.001|TWO_SIDED|95.0|-40.84|-18.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-18.57|-40.84|<0.001
92283238|NCT01101022|184470278|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.8|||<|0.0001|TWO_SIDED|95.0|6.0|15.5|||ANCOVA|||General Well-being||15.5|6.0|<0.0001
92283239|NCT01101022|184470279|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.0184|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|||Question 1||1.0|0.1|0.0184
92183047|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-29.1|STANDARD_ERROR_OF_MEAN|9.56|||TWO_SIDED|95.0|-47.9|-10.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||-10.3|-47.9|
92249000|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-12.06|STANDARD_ERROR_OF_MEAN|6.41||0.2|TWO_SIDED|95.0|-24.69|0.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||0.57|-24.69|0.20
92249001|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.6|STANDARD_ERROR_OF_MEAN|7.23||0.003|TWO_SIDED|95.0|-41.86|-13.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-13.35|-41.86|0.003
92283240|NCT01101022|184470279|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.0004|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|||Question 4||-0.3|-0.9|0.0004
92283241|NCT01101022|184470280|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.5||||0.0019|TWO_SIDED|95.0|-9.0|-2.1|||ANCOVA|||||-2.1|-9.0|0.0019
92283242|NCT01101022|184470281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.1||||0.0017|TWO_SIDED|95.0|-8.2|-1.9|||ANCOVA|||Inattention/Memory Problems||-1.9|-8.2|0.0017
92283243|NCT01101022|184470281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1||||0.0174|TWO_SIDED|95.0|-7.5|-0.7|||ANCOVA|||Hyperactivity/Restlessness||-0.7|-7.5|0.0174
92249002|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-3.37|STANDARD_ERROR_OF_MEAN|6.49||1|TWO_SIDED|95.0|-16.16|9.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.43|-16.16|1.00
92249003|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-18.13|STANDARD_ERROR_OF_MEAN|7.18||0.053|TWO_SIDED|95.0|-32.28|-3.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-3.99|-32.28|0.053
92183048|NCT02434328|184264734|OTHER|Treatment difference|Least Squares Mean Difference|-42.6|STANDARD_ERROR_OF_MEAN|9.87|||TWO_SIDED|95.0|-62.0|-23.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||-23.3|-62.0|
92283244|NCT01101022|184470281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.0||||0.0063|TWO_SIDED|95.0|-6.8|-1.1|||ANCOVA|||Impulsivity/Emotional Liability||-1.1|-6.8|0.0063
92283245|NCT01101022|184470281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.4||||0.0059|TWO_SIDED|95.0|-7.5|-1.3|||ANCOVA|||Problems with Self-concept||-1.3|-7.5|0.0059
92283246|NCT01101022|184470282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.0||||0.0016|TWO_SIDED|95.0|8.4|33.6|||ANCOVA|||Life Productivity||33.6|8.4|0.0016
92183049|NCT02434328|184264735|OTHER|Treatment difference|Least Squares Mean Difference|-36.1|STANDARD_ERROR_OF_MEAN|9.13|||TWO_SIDED|95.0|-54.0|-18.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||-18.1|-54.0|
92283247|NCT01101022|184470282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.1||||0.0242|TWO_SIDED|95.0|1.6|22.5|||ANCOVA|||Psychological Health||22.5|1.6|0.0242
92283248|NCT01101022|184470282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.5||||0.0038|TWO_SIDED|95.0|4.2|20.8|||ANCOVA|||Life Outlook||20.8|4.2|0.0038
92283249|NCT01101022|184470282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.3||||0.1752|TWO_SIDED|95.0|-3.4|18.0|||ANCOVA|||Relationships||18.0|-3.4|0.1752
92283250|NCT01101022|184470282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.7||||0.0015|TWO_SIDED|95.0|5.9|23.6|||ANCOVA|||Total Score||23.6|5.9|0.0015
92283251|NCT00581139|184470300|SUPERIORITY|||||||0.02|||||||ANOVA|||||||.02
92249004|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-16.72|STANDARD_ERROR_OF_MEAN|5.39||0.073|TWO_SIDED|95.0|-27.34|-6.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-6.10|-27.34|0.073
92249005|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-9.31|STANDARD_ERROR_OF_MEAN|6.39||0.027|TWO_SIDED|95.0|-21.92|3.29||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||3.29|-21.92|0.027
92283252|NCT00581139|184470302|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||.01
92283253|NCT00581139|184470303|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||.01
92176263|NCT03334630|184245462|SUPERIORITY|"Four secondary endpoints will be tested for superiority over Control hierarchically with pre-specified order:~1. Mean duration of individual RF ablations (seconds)~2. Mean cumulative RF time per procedure (minutes)~3. Total fluoroscopy time (minutes)~4. Total procedure time (minutes) The first secondary endpoint needs to be significant at the two-sided 0.05 alpha level before the next one can be tested at the same threshold. Testing stops once an endpoint is determined to be non-significant."|Mean Difference (Final Values)|-11.9|||<|0.0001|TWO_SIDED|95.0|-13.9|-9.8||The a priori threshold for statistical significance is 0.05 two-sided. The p-value is adjusted for multiple comparisons via the hierarchical testing approach.|t-test, 2 sided||Difference is DiamondTemp minus Control. A lower value is better.|"Null hypothesis: the population means for the DiamondTemp and Control groups are not different.~Alternative hypothesis: the population means for the DiamondTemp and Control groups are different."||-9.8|-13.9|<0.0001
92176264|NCT03334630|184245471|SUPERIORITY|"Four secondary endpoints will be tested for superiority over Control hierarchically with pre-specified order:~1. Mean duration of individual RF ablations (seconds)~2. Mean cumulative RF time per procedure (minutes)~3. Total fluoroscopy time (minutes)~4. Total procedure time (minutes) The first secondary endpoint needs to be significant at the two-sided 0.05 alpha level before the next one can be tested at the same threshold. Testing stops once an endpoint is determined to be non-significant."|Mean Difference (Final Values)|-5.7|||||TWO_SIDED|95.0|-14.4|3.1||The a priori threshold for statistical significance is 0.05 two-sided. The p-value is adjusted for multiple comparisons via the hierarchical testing approach.||Since the previous secondary endpoint (Total fluoroscopy time) was non-significant, testing stopped and this secondary endpoint was not tested.|Difference is DiamondTemp minus Control. A lower value is better.|"Null hypothesis: the population means for the DiamondTemp and Control groups are not different.~Alternative hypothesis: the population means for the DiamondTemp and Control groups are different."||3.1|-14.4|
92176265|NCT03334630|184245476|SUPERIORITY|"Four secondary endpoints will be tested for superiority over Control hierarchically with pre-specified order:~1. Mean duration of individual RF ablations (seconds)~2. Mean cumulative RF time per procedure (minutes)~3. Total fluoroscopy time (minutes)~4. Total procedure time (minutes) The first secondary endpoint needs to be significant at the two-sided 0.05 alpha level before the next one can be tested at the same threshold. Testing stops once an endpoint is determined to be non-significant."|Mean Difference (Final Values)|-0.2||||0.8528|TWO_SIDED|95.0|-1.9|1.6||The a priori threshold for statistical significance is 0.05 two-sided. The p-value is adjusted for multiple comparisons via the hierarchical testing approach.|t-test, 2 sided||Difference is DiamondTemp minus Control. A lower value is better.|"Null hypothesis: the population means for the DiamondTemp and Control groups are not different.~Alternative hypothesis: the population means for the DiamondTemp and Control groups are different."||1.6|-1.9|0.8528
92176266|NCT01824875|184245635|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.46|1.07|||||Hazard ratio of Arm B/Arm A|||1.07|0.46|
92176267|NCT01824875|184245636|SUPERIORITY|||||||0.59|||||||Fisher Exact|||||||0.59
92176268|NCT05256017|184245662|OTHER||Excess rate (ER)|-1.5|||||TWO_SIDED|95.0|-7.2|3.7||||||||3.7|-7.2|
92249006|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-2.67|STANDARD_ERROR_OF_MEAN|5.27||1|TWO_SIDED|95.0|-13.05|7.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||7.72|-13.05|1.00
92249007|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|2.02|STANDARD_ERROR_OF_MEAN|6.43||0.63|TWO_SIDED|95.0|-10.66|14.69||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||14.69|-10.66|0.63
92249008|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-18.03|STANDARD_ERROR_OF_MEAN|7.08|<|0.001|TWO_SIDED|95.0|-32.03|-4.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.04|-32.03|<0.001
92249009|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-19.83|STANDARD_ERROR_OF_MEAN|6.52||0.007|TWO_SIDED|95.0|-32.71|-6.96||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-6.96|-32.71|0.007
92283254|NCT00581139|184470304|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||.01
92283255|NCT00581139|184470305|SUPERIORITY|||||||0.02|||||||ANOVA|||||||.02
92176269|NCT05256017|184245663|OTHER||Excess rate (ER)|-0.9|||||TWO_SIDED|95.0|-4.1|1.4|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|Occurrence and excess rate (95% CI) of any TEAEs (by PT, for PTs reported in ≥1% of participants in either arm) from the investigational product administration (Day 1) to the Month 4 follow-up visit.||1.4|-4.1|
92283256|NCT00581139|184470306|SUPERIORITY|||||||0.04|||||||ANOVA|||||||.04
92176270|NCT05256017|184245664|OTHER||Excess rate (ER)|0.4|||||TWO_SIDED|95.0|-1.6|1.6|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||1.6|-1.6|
92283257|NCT00581139|184470307|SUPERIORITY|||||||0.04|||||||ANOVA|||||||.04
92176271|NCT05256017|184245665|OTHER||Excess rate (ER)|-0.5|||||TWO_SIDED|95.0|-3.2|1.4|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||1.4|-3.2|
92249010|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-16.55|STANDARD_ERROR_OF_MEAN|5.71||0.002|TWO_SIDED|95.0|-27.84|-5.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-5.26|-27.84|0.002
92283258|NCT00420303|184470308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.47||||0.029||95.0|-32.93|-2.01|||ANCOVA|Treatment groups as fixed factors, baseline value as covariate||Comparison of adjusted means||-2.01|-32.93|0.029
92176272|NCT05256017|184245666|OTHER||Excess rate (ER)|-0.6|||||TWO_SIDED|95.0|-2.6|0.6|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||0.6|-2.6|
92176273|NCT05256017|184245667|OTHER||Excess rate (ER)|-0.2|||||TWO_SIDED|95.0|-2.2|0.8|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||0.8|-2.2|
92249011|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-20.51|STANDARD_ERROR_OF_MEAN|5.33|<|0.001|TWO_SIDED|95.0|-31.04|-9.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-9.98|-31.04|<0.001
92249012|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-21.78|STANDARD_ERROR_OF_MEAN|5.62|<|0.001|TWO_SIDED|95.0|-32.88|-10.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-10.68|-32.88|<0.001
92249013|NCT01763866|184400395|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.36|STANDARD_ERROR_OF_MEAN|6.45|<|0.001|TWO_SIDED|95.0|-44.1|-18.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-18.62|-44.10|<0.001
92249014|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-13.36|STANDARD_ERROR_OF_MEAN|4.38||0.088|TWO_SIDED|95.0|-21.99|-4.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.74|-21.99|0.088
92249015|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-21.31|STANDARD_ERROR_OF_MEAN|5.41||0.005|TWO_SIDED|95.0|-31.98|-10.64||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-10.64|-31.98|0.005
92249016|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.5|STANDARD_ERROR_OF_MEAN|4.45||1|TWO_SIDED|95.0|-10.27|7.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||7.27|-10.27|1.00
92249017|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-13.54|STANDARD_ERROR_OF_MEAN|5.39||0.056|TWO_SIDED|95.0|-24.17|-2.91||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-2.91|-24.17|0.056
92249018|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-15.21|STANDARD_ERROR_OF_MEAN|4.91||0.073|TWO_SIDED|95.0|-24.88|-5.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-5.54|-24.88|0.073
92249019|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-14.69|STANDARD_ERROR_OF_MEAN|5.21||0.027|TWO_SIDED|95.0|-24.97|-4.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.42|-24.97|0.027
92249020|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-0.44|STANDARD_ERROR_OF_MEAN|4.82||1|TWO_SIDED|95.0|-9.94|9.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.05|-9.94|1.00
92249021|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-0.25|STANDARD_ERROR_OF_MEAN|5.28||0.62|TWO_SIDED|95.0|-10.66|10.16||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||10.16|-10.66|0.62
92249022|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.07|STANDARD_ERROR_OF_MEAN|4.85|<|0.001|TWO_SIDED|95.0|-34.64|-15.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-15.50|-34.64|<0.001
92249023|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-19.79|STANDARD_ERROR_OF_MEAN|5.58||0.007|TWO_SIDED|95.0|-30.81|-8.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-8.77|-30.81|0.007
92249024|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-16.15|STANDARD_ERROR_OF_MEAN|4.61||0.005|TWO_SIDED|95.0|-25.27|-7.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-7.03|-25.27|0.005
92249025|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-23.18|STANDARD_ERROR_OF_MEAN|4.52|<|0.001|TWO_SIDED|95.0|-32.11|-14.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-14.25|-32.11|<0.001
92249026|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-23.21|STANDARD_ERROR_OF_MEAN|4.95|<|0.001|TWO_SIDED|95.0|-33.0|-13.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-13.43|-33.00|<0.001
92249027|NCT01763866|184400396|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.87|STANDARD_ERROR_OF_MEAN|5.43|<|0.001|TWO_SIDED|95.0|-43.6|-22.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-22.14|-43.60|<0.001
92283259|NCT00420303|184470309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.0||||0.02||95.0|1.44|69.26|||Generalized estimating equations (GEE)|Logit link, a binomial distribution and an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors.||||69.26|1.44|0.02
92176274|NCT05256017|184245668|OTHER||Excess rate (ER)|-0.3|||||TWO_SIDED|95.0|-2.3|0.7|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||0.7|-2.3|
92176275|NCT05256017|184245669|OTHER||Excess rate (ER)|3.2|||||TWO_SIDED|95.0|0.3|5.3|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||5.3|0.3|
92176276|NCT05256017|184245670|OTHER||Excess rate (ER)|-0.1|||||TWO_SIDED|95.0|-2.4|1.3|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||1.3|-2.4|
92176277|NCT05256017|184245671|OTHER||Excess rate (ER)|-1.1|||||TWO_SIDED|95.0|-3.5|0.3|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||0.3|-3.5|
92249028|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-14.47|STANDARD_ERROR_OF_MEAN|4.92||0.088|TWO_SIDED|95.0|-24.16|-4.78||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.78|-24.16|0.088
92176278|NCT05256017|184245672|OTHER||Excess rate (ER)|1.0|||||TWO_SIDED|95.0|-3.7|5.1||||||Occurrence and excess rate (95% CI) of any TEAEs reported during hospitalization.||5.1|-3.7|
92176279|NCT05256017|184245672|OTHER||Excess rate (ER)|-3.3|||||TWO_SIDED|95.0|-8.2|0.9||||||Occurrence and excess rate (95% CI) of any TEAEs reported after the hospitalization period.||0.9|-8.2|
92176280|NCT05256017|184245673|OTHER||Excess rate (ER)|-1.0|||||TWO_SIDED|95.0|-3.1|0.0||||||||0.0|-3.1|
92176281|NCT05256017|184245674|OTHER||Excess rate (ER)|-1.5|||||TWO_SIDED|95.0|-7.2|3.7||||||Of note, all AEs reported during this study were TEAEs.||3.7|-7.2|
92249029|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.47|STANDARD_ERROR_OF_MEAN|7.22||0.005|TWO_SIDED|95.0|-40.71|-12.24||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-12.24|-40.71|0.005
92249030|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.54|STANDARD_ERROR_OF_MEAN|5.0||1|TWO_SIDED|95.0|-11.41|8.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||8.32|-11.41|1.00
92249031|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-15.19|STANDARD_ERROR_OF_MEAN|7.21||0.056|TWO_SIDED|95.0|-29.4|-0.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-0.97|-29.40|0.056
92249032|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-16.42|STANDARD_ERROR_OF_MEAN|5.39||0.073|TWO_SIDED|95.0|-27.05|-5.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-5.80|-27.05|0.073
92249033|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-9.6|STANDARD_ERROR_OF_MEAN|6.13||0.027|TWO_SIDED|95.0|-21.68|2.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||2.48|-21.68|0.027
92249034|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.78|STANDARD_ERROR_OF_MEAN|5.27||1|TWO_SIDED|95.0|-12.16|8.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||8.61|-12.16|1.00
92249035|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|4.94|STANDARD_ERROR_OF_MEAN|6.18||0.62|TWO_SIDED|95.0|-7.25|17.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||17.14|-7.25|0.62
92249036|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-21.98|STANDARD_ERROR_OF_MEAN|6.2|<|0.001|TWO_SIDED|95.0|-34.24|-9.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-9.73|-34.24|<0.001
92283260|NCT00420303|184470310|SUPERIORITY_OR_OTHER|||||||0.007|||||||ANCOVA|Treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||||||0.007
92249037|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-18.75|STANDARD_ERROR_OF_MEAN|6.5||0.007|TWO_SIDED|95.0|-31.6|-5.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-5.90|-31.60|0.007
92249038|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-16.19|STANDARD_ERROR_OF_MEAN|5.7||0.005|TWO_SIDED|95.0|-27.46|-4.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.92|-27.46|0.005
92249039|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-18.54|STANDARD_ERROR_OF_MEAN|5.31|<|0.001|TWO_SIDED|95.0|-29.04|-8.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-8.05|-29.04|<0.001
92249040|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.45|STANDARD_ERROR_OF_MEAN|5.39|<|0.001|TWO_SIDED|95.0|-33.09|-11.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-11.81|-33.09|<0.001
92249041|NCT01763866|184400397|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.83|STANDARD_ERROR_OF_MEAN|6.14|<|0.001|TWO_SIDED|95.0|-48.96|-24.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-24.70|-48.96|<0.001
92249042|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|6.53|STANDARD_ERROR_OF_MEAN|1.84||0.034|TWO_SIDED|95.0|2.91|10.15||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||10.15|2.91|0.034
92249043|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.11|STANDARD_ERROR_OF_MEAN|2.37||0.017|TWO_SIDED|95.0|3.43|12.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||12.79|3.43|0.017
92249044|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|6.67|STANDARD_ERROR_OF_MEAN|1.86||0.001|TWO_SIDED|95.0|3.0|10.34||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||10.34|3.00|0.001
92249045|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.57|STANDARD_ERROR_OF_MEAN|2.36||0.006|TWO_SIDED|95.0|3.93|13.22||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||13.22|3.93|0.006
92283261|NCT04455633|184470333|SUPERIORITY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.249||0.007|TWO_SIDED|95.0|-1.16|-0.18|||MMRM model|||Mixed model repeated measures (MMRM) model included fixed effects of treatment, visit, treatment-by-week interaction, the randomization stratum of Baseline pain severity (moderate, severe), and the Baseline ADPS score as a covariate.||-0.18|-1.16|0.007
92283262|NCT04455633|184470333|SUPERIORITY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.254||0.03|TWO_SIDED|95.0|-1.06|-0.05|||MMRM model|||MMRM model included fixed effects of treatment, visit, treatment-by-week interaction, the randomization stratum of Baseline pain severity (moderate, severe), and the Baseline ADPS score as a covariate.||-0.05|-1.06|0.030
92249046|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|3.95|STANDARD_ERROR_OF_MEAN|2.1||0.85|TWO_SIDED|95.0|-0.19|8.09||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||8.09|-0.19|0.85
92249047|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|9.13|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|4.68|13.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||13.58|4.68|<0.001
92249048|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|7.57|STANDARD_ERROR_OF_MEAN|2.06||0.003|TWO_SIDED|95.0|3.51|11.64||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||11.64|3.51|0.003
92249049|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.35|STANDARD_ERROR_OF_MEAN|2.28||0.003|TWO_SIDED|95.0|3.86|12.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||12.84|3.86|0.003
92249050|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.36|STANDARD_ERROR_OF_MEAN|1.87|<|0.001|TWO_SIDED|95.0|1.68|9.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.04|1.68|<0.001
92249051|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.66|STANDARD_ERROR_OF_MEAN|3.11||0.01|TWO_SIDED|95.0|2.51|14.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||14.80|2.51|0.010
92249052|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.46|STANDARD_ERROR_OF_MEAN|1.91||0.013|TWO_SIDED|95.0|1.69|9.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.23|1.69|0.013
92249053|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|6.75|STANDARD_ERROR_OF_MEAN|2.2||0.002|TWO_SIDED|95.0|2.4|11.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||11.10|2.40|0.002
92249054|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|10.23|STANDARD_ERROR_OF_MEAN|2.58|<|0.001|TWO_SIDED|95.0|5.13|15.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||15.32|5.13|<0.001
92249055|NCT01763866|184400398|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.85|STANDARD_ERROR_OF_MEAN|2.09|<|0.001|TWO_SIDED|95.0|4.73|12.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||12.97|4.73|<0.001
92249056|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|6.83|STANDARD_ERROR_OF_MEAN|2.11||0.034|TWO_SIDED|95.0|2.66|10.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||10.99|2.66|0.034
92249057|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|7.87|STANDARD_ERROR_OF_MEAN|2.46||0.017|TWO_SIDED|95.0|3.01|12.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||12.73|3.01|0.017
92176282|NCT05256017|184245692|OTHER||Placebo-corrected change from baseline|-0.4|||||TWO_SIDED|90.0|-2.1|1.4||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||1.4|-2.1|
92249058|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.81|STANDARD_ERROR_OF_MEAN|2.14||0.001|TWO_SIDED|95.0|4.58|13.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||13.03|4.58|0.001
92249059|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.28|STANDARD_ERROR_OF_MEAN|2.45||0.006|TWO_SIDED|95.0|3.46|13.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||13.11|3.46|0.006
92249060|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|4.07|STANDARD_ERROR_OF_MEAN|2.28||0.85|TWO_SIDED|95.0|-0.42|8.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||8.57|-0.42|0.85
92176283|NCT05256017|184245693|OTHER||Placebo-corrected change from baseline|-0.5|||||TWO_SIDED|90.0|-22.0|21.1||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||21.1|-22.0|
92176284|NCT05256017|184245694|OTHER||Placebo-corrected change from baseline|-1.1|||||TWO_SIDED|90.0|-3.6|1.3||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||1.3|-3.6|
92176285|NCT05256017|184245695|OTHER||Placebo-corrected change from baseline|-0.7|||||TWO_SIDED|90.0|-1.9|0.4||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||0.4|-1.9|
92249061|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|7.05|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|2.22|11.89||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||11.89|2.22|<0.001
92249062|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.47|STANDARD_ERROR_OF_MEAN|2.23||0.003|TWO_SIDED|95.0|4.07|12.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||12.87|4.07|0.003
92249063|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|7.14|STANDARD_ERROR_OF_MEAN|2.46||0.003|TWO_SIDED|95.0|2.29|11.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||11.99|2.29|0.003
92249064|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|3.2|STANDARD_ERROR_OF_MEAN|2.3|<|0.001|TWO_SIDED|95.0|-1.33|7.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||7.73|-1.33|<0.001
92249065|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|7.35|STANDARD_ERROR_OF_MEAN|3.23||0.01|TWO_SIDED|95.0|0.97|13.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||13.72|0.97|0.010
92249066|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.04|STANDARD_ERROR_OF_MEAN|2.29||0.013|TWO_SIDED|95.0|0.52|9.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.56|0.52|0.013
92249067|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|4.84|STANDARD_ERROR_OF_MEAN|2.41||0.002|TWO_SIDED|95.0|0.07|9.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.60|0.07|0.002
92249068|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|9.78|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|4.05|15.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||15.51|4.05|<0.001
92176286|NCT05256017|184245696|OTHER||Placebo-corrected change from baseline|-10.9|||||TWO_SIDED|90.0|-15.3|-6.6||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||-6.6|-15.3|
92249069|NCT01763866|184400399|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|9.06|STANDARD_ERROR_OF_MEAN|2.36|<|0.001|TWO_SIDED|95.0|4.4|13.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||13.72|4.40|<0.001
92176287|NCT05256017|184245697|OTHER||Placebo-corrected change from baseline|-11.5|||||TWO_SIDED|90.0|-14.4|-8.7||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||-8.7|-14.4|
92176288|NCT05256017|184245698|OTHER||Placebo-corrected change from baseline|-11.7|||||TWO_SIDED|90.0|-14.9|-8.6||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||-8.6|-14.9|
92249070|NCT01861054|184400445|OTHER|||||||0.3149||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups|Wilcoxon (Mann-Whitney)|||Comparison on ALDH+ cells by ALDEFLUOR assay||||0.3149
92249071|NCT01861054|184400445|OTHER|||||||0.8148||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Comparison on CD44+/CD24- by flow citometry||||0.8148
92249072|NCT01861054|184400446|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||Phospho AKT Extent||||>0.9999
92249073|NCT01861054|184400446|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||Phospho-AKT Intensity||||>0.9999
92249074|NCT01861054|184400446|OTHER|||||||0.2245|||||||Wilcoxon (Mann-Whitney)|||AKT Extent||||0.2245
92249075|NCT01861054|184400446|OTHER|||||||0.5785|||||||Wilcoxon (Mann-Whitney)|||AKT Intensity||||0.5785
92249076|NCT01861054|184400446|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||Phospho-FAK Extent||||>0.9999
92249077|NCT01861054|184400446|OTHER|||||||0.3139|||||||Wilcoxon (Mann-Whitney)|||Phospho-FAK Intensity||||0.3139
92249078|NCT01861054|184400446|OTHER|||||||0.212|||||||Wilcoxon (Mann-Whitney)|||FAK Extent||||0.2120
92249079|NCT01861054|184400446|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||FAK Intensity||||>0.9999
92249080|NCT01861054|184400446|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||C-PTEN Extent||||>0.9999
92249081|NCT01861054|184400446|OTHER|||||||0.8728|||||||Wilcoxon (Mann-Whitney)|||C-PTEN Intensity||||0.8728
92249082|NCT01861054|184400446|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||D-PTEN Extent||||>0.9999
92249083|NCT01861054|184400446|OTHER|||||||0.8728|||||||Wilcoxon (Mann-Whitney)|||D-PTEN Intensity||||0.8728
92249084|NCT01861054|184400446|OTHER|||||||0.2265|||||||Wilcoxon (Mann-Whitney)|||CXCR1 Extent||||0.2265
92249085|NCT01861054|184400446|OTHER|||||||0.2403|||||||Wilcoxon (Mann-Whitney)|||CXCR1 Intensity||||0.2403
92249086|NCT01861054|184400447|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups|Wilcoxon (Mann-Whitney)|||Interleukin 1 Beta||||>0.9999
92249087|NCT01861054|184400447|OTHER|||||||0.6945||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups|Wilcoxon (Mann-Whitney)|||Interleukin 6||||0.6945
92249088|NCT01861054|184400447|OTHER|||||||0.9448||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Interleukin 8||||0.9448
92249089|NCT01861054|184400447|OTHER|||||||0.6292||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Tumor Necrosis Factor - alpha||||0.6292
92249090|NCT01861054|184400447|OTHER|||||||0.2354||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Granulocyte Macrophage Colony Stm Factor||||0.2354
92249091|NCT01861054|184400447|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Vascular Endothelial Growth Factor||||>0.9999
92249092|NCT01861054|184400447|OTHER|||||||0.4719||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Basic Fibroblast Growth Factor||||0.4719
92249093|NCT01861054|184400448|OTHER|||||||0.0951|||||||Wilcoxon (Mann-Whitney)|||CD31 Extent||||0.0951
92249094|NCT01861054|184400448|OTHER|||||||0.1643|||||||Wilcoxon (Mann-Whitney)|||CD31 Intensity||||0.1643
92249095|NCT01861054|184400449|OTHER|||||||0.4183|||||||Wilcoxon (Mann-Whitney)|||P62 Extent||||0.4183
92249096|NCT01861054|184400449|OTHER|||||||0.3702|||||||Wilcoxon (Mann-Whitney)|||P62 Intensity||||0.3702
92249097|NCT01861054|184400454|OTHER|||||||0.6168||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Lymphocyte in WBC||||0.6168
92249098|NCT01861054|184400454|OTHER|||||||0.6168||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Total T cell in lymphocytes||||0.6168
92249099|NCT01861054|184400454|OTHER|||||||0.1453||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||B cell in lymphocytes||||0.1453
92249100|NCT01861054|184400454|OTHER|||||||0.1453||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||T-helper cell in lymphocytes||||0.1453
92249101|NCT01861054|184400454|OTHER|||||||0.1453||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CTL in lymphocytes||||0.1453
92249102|NCT01861054|184400454|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||NKT cell in lymphocytes||||>0.9999
92249103|NCT01861054|184400454|OTHER|||||||0.7634||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||ADCC NK subsets in lymphocytes||||0.7634
92249104|NCT01861054|184400454|OTHER|||||||0.5487||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Regulatory NK subsets in lymphocytes||||0.5487
92249105|NCT01861054|184400454|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Exhausted NK subsets in lymphocytes||||>0.9999
92249106|NCT01861054|184400454|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CD56-CD16+ NK subsets in lymphocytes||||>0.9999
92249107|NCT01861054|184400454|OTHER|||||||0.1451||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CD11b in PMNs - IL-8||||0.1451
92249108|NCT01861054|184400454|OTHER|||||||0.2779||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CD18 in PMNs - IL-8||||0.2779
92249109|NCT01861054|184400454|OTHER|||||||0.1444||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD11b - IL-8||||0.1444
92249110|NCT01861054|184400454|OTHER|||||||0.1453||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD66b - IL-8||||0.1453
92249111|NCT01861054|184400454|OTHER|||||||0.92||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD18 - IL-8||||0.9200
92249112|NCT01861054|184400454|OTHER|||||||0.2779||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CD11b in PMNs - US||||0.2779
92249113|NCT01861054|184400454|OTHER|||||||0.6164||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CD18 in PMNs - US||||0.6164
92249114|NCT01861054|184400454|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD11b - US||||>0.9999
92249115|NCT01861054|184400454|OTHER|||||||0.2032||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD66b - US||||0.2032
92249116|NCT01861054|184400454|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD18 - US||||>0.9999
92249117|NCT01861054|184400454|OTHER|||||||0.525||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL6 - IL-8||||0.5250
92249118|NCT01861054|184400454|OTHER|||||||0.6706||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL1b - IL-8||||0.6706
92176289|NCT05256017|184245699|OTHER||Estimate|-10.7|STANDARD_DEVIATION|1.72|||TWO_SIDED|90.0|-13.5|-7.85||||||Estimated ΔΔQTcF (in ms) computed from a concentration-response (C-R) model between dry blood spot concentration of acoziborole and changes from baseline in QTcF parameter||-7.85|-13.5|
92176290|NCT01733316|184245860|SUPERIORITY|||||||0.0048||||||Paired t-test testing the null hypothesis that the population average difference during the Cystagon® phase is equal to the population average difference during the RP103 phase.|Paired t-test, two-sided|||||||0.0048
92176291|NCT03621371|184245890|OTHER||F-test|9.88|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92176292|NCT02606422|184245909|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92176293|NCT04625465|184245930|OTHER||Difference in the log odds ratios|0.042||||0.869|||||||Multilevel logistic regression|||"Multilevel logistic regression of daily IPV perpetration on alcohol use (Level 1) nested within participant (Level 2) with interaction between alcohol use and CBT Intervention.~Testing the difference in odds ratio between groups 1 (No Intervention and Attention Control ) and 2 (CBT Texts Intervention) H0: OR1 = OR2"||||.869
92249119|NCT01861054|184400454|OTHER|||||||0.8312||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL8 - IL-8||||0.8312
92249120|NCT01861054|184400454|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing TNFa - IL-8||||0.3992
92249121|NCT01861054|184400454|OTHER|||||||0.2952||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL6 - IL-8||||0.2952
92249122|NCT01861054|184400454|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL1b - IL-8||||0.3992
92176294|NCT04625465|184245931|OTHER||Difference in the log odds ratios|-0.32||||0.21|||||||Multilevel logistic regression|||"Multilevel logistic regression of daily IPV perpetration on alcohol use (Level 1) nested within participant (Level 2) with interaction between alcohol use and CBT Intervention.~Testing the difference in odds ratio between groups 1 (No Intervention and Attention Control ) and 2 (CBT Texts Intervention) H0: OR1 = OR2"||||.210
92176295|NCT05566639|184245940|NON_INFERIORITY|Noninferiority margin = 10%|Relative vaccine efficacy (rVE)|1.7||||0.1715|TWO_SIDED|95.0|-24.1|22.2|||Stratified Cox proportional hazards||rVE = 100 \* (1 - HR) % was defined as the percent reduction in the hazard (mRNA-1010 vs active comparator), where HR was the hazard ratio between mRNA-1010 vs the active comparator.|||22.2|-24.1|0.1715
92176296|NCT03952338|184245993|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.97|TWO_SIDED|95.0|-4.07|3.93|||Mixed Models Analysis|||||3.93|-4.07|0.97
92176297|NCT03952338|184245994|SUPERIORITY||Mean Difference (Final Values)|1.22||||0.57|TWO_SIDED|95.0|-3.0|5.44|||Mixed Models Analysis|||||5.44|-3.00|0.57
92176298|NCT03952338|184245995|SUPERIORITY||Mean Difference (Final Values)|1.96||||0.09|TWO_SIDED|95.0|-0.32|4.23|||Mixed Models Analysis|||||4.23|-0.32|0.09
92249123|NCT01861054|184400454|OTHER|||||||0.2952||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL8 - IL-8||||0.2952
92176299|NCT03952338|184245996|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.08|TWO_SIDED|95.0|-0.22|4.43|||Mixed Models Analysis|||||4.43|-0.22|0.08
92176300|NCT03952338|184245997|SUPERIORITY||Mean Difference (Final Values)|1.15||||0.09|TWO_SIDED|95.0|-0.17|2.46|||Mixed Models Analysis|||||2.46|-0.17|0.09
92176301|NCT03952338|184245998|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.95|TWO_SIDED|95.0|-1.39|1.3|||Mixed Models Analysis|||||1.30|-1.39|0.95
92176302|NCT03952338|184245999|SUPERIORITY||Odds Ratio (OR)|0.21||||0.01|TWO_SIDED|95.0|0.06|0.7|||Regression, Logistic|||||0.70|0.06|0.01
92176303|NCT03952338|184246000|SUPERIORITY||Odds Ratio (OR)|0.29||||0.04|TWO_SIDED|95.0|0.09|0.96|||Regression, Logistic|||||0.96|0.09|0.04
92176304|NCT03952338|184246001|SUPERIORITY||Odds Ratio (OR)|2.11||||0.236|TWO_SIDED|95.0|0.27|7.23|||Regression, Logistic|||||7.23|0.27|0.236
92176305|NCT03952338|184246002|SUPERIORITY||Odds Ratio (OR)|2.22||||0.22|TWO_SIDED|95.0|0.62|7.97|||Regression, Logistic|||||7.97|0.62|0.220
92176306|NCT03952338|184246003|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.7|TWO_SIDED|95.0|-0.37|0.55|||Mixed Models Analysis|||Total vegetables||0.55|-0.37|0.70
92176307|NCT03952338|184246003|SUPERIORITY||Median Difference (Final Values)|-0.07||||0.85|TWO_SIDED|95.0|-0.84|0.69|||Mixed Models Analysis|||Greens and beans||0.69|-0.84|0.85
92176308|NCT03952338|184246003|SUPERIORITY|Total fruits|Mean Difference (Final Values)|0.34||||0.29|TWO_SIDED|95.0|-0.29|0.98|||Mixed Models Analysis|||||0.98|-0.29|0.29
92249124|NCT01861054|184400454|OTHER|||||||0.525||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing TNFa - IL-8||||0.5250
92176309|NCT03952338|184246003|SUPERIORITY||Median Difference (Final Values)|0.6||||0.07|TWO_SIDED|95.0|-0.06|1.26|||Mixed Models Analysis|||Whole fruits||1.26|-0.06|0.07
92176310|NCT03952338|184246003|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.92|TWO_SIDED|95.0|-1.16|1.05|||Mixed Models Analysis|||Whole grains||1.05|-1.16|0.92
92249125|NCT01861054|184400454|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL6 - US||||0.3992
92249126|NCT01861054|184400454|OTHER|||||||0.2952||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL1b - US||||0.2952
92249127|NCT01861054|184400454|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL8 - US||||>0.9999
92249128|NCT01861054|184400454|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing TNFa - US||||0.3992
92249129|NCT01861054|184400454|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL6 - US||||0.3992
92249130|NCT01861054|184400454|OTHER|||||||0.2952||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL1b - US||||0.2952
92176311|NCT03952338|184246003|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.72|TWO_SIDED|95.0|-1.29|0.89|||Mixed Models Analysis|||Dairy||0.89|-1.29|0.72
92176312|NCT03952338|184246003|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.15|TWO_SIDED|95.0|-0.12|0.74|||Mixed Models Analysis|||Total protein||0.74|-0.12|0.15
92176313|NCT03952338|184246003|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.92|TWO_SIDED|95.0|-0.78|0.71|||Mixed Models Analysis|||Seafood and plant proteins||0.71|-0.78|0.92
92176314|NCT03952338|184246003|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.67|TWO_SIDED|95.0|-1.47|0.94|||Mixed Models Analysis|||Fatty acids||0.94|-1.47|0.67
92176315|NCT03952338|184246003|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.61|TWO_SIDED|95.0|-1.45|0.84|||Mixed Models Analysis|||Sodium||0.84|-1.45|0.61
92176316|NCT03952338|184246003|SUPERIORITY||Mean Difference (Final Values)|-1.15||||0.06|TWO_SIDED|95.0|-2.34|0.04|||Mixed Models Analysis|||Refined grains||0.04|-2.34|0.06
92176317|NCT03952338|184246003|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.32|TWO_SIDED|95.0|-0.51|1.57|||Mixed Models Analysis|||Saturated fats||1.57|-0.51|0.32
92176318|NCT03952338|184246003|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.63|TWO_SIDED|95.0|-0.56|0.92|||Mixed Models Analysis|||Added sugars||0.92|-0.56|0.63
92176319|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.85|TWO_SIDED|95.0|-0.61|0.5|||Mixed Models Analysis|||Total vegetables||0.50|-0.61|0.85
92176320|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.82|TWO_SIDED|95.0|-0.88|0.7|||Mixed Models Analysis|||Greens and beans||0.70|-0.88|0.82
92176321|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.48|TWO_SIDED|95.0|-0.43|0.93|||Mixed Models Analysis|||Total fruits||0.93|-0.43|0.48
92176322|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.06|TWO_SIDED|95.0|-0.04|1.46|||Mixed Models Analysis|||Whole fruits||1.46|-0.04|0.06
92176323|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.34|TWO_SIDED|95.0|-0.63|1.84|||Mixed Models Analysis|||Whole grains||1.84|-0.63|0.34
92176324|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|1.47||||0.01|TWO_SIDED|95.0|0.31|2.62|||Mixed Models Analysis|||Dairy||2.62|0.31|0.01
92176325|NCT03952338|184246004|SUPERIORITY||Median Difference (Final Values)|0.21||||0.39|TWO_SIDED|95.0|-0.27|0.69|||Mixed Models Analysis|||Total protein||0.69|-0.27|0.39
92176326|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.81|TWO_SIDED|95.0|-0.9|0.7|||Mixed Models Analysis|||Seafood and plant proteins||0.70|-0.90|0.81
92176327|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.04|TWO_SIDED|95.0|-2.57|-0.04|||Mixed Models Analysis|||Fatty acids||-0.04|-2.57|0.04
92176328|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|-0.69||||0.25|TWO_SIDED|95.0|-1.86|0.48|||Mixed Models Analysis|||Sodium||0.48|-1.86|0.25
92176329|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.91|TWO_SIDED|95.0|-1.25|1.4|||Mixed Models Analysis|||Refined grains||1.40|-1.25|0.91
92249131|NCT01861054|184400454|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL8 - US||||0.3992
92176330|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.89|TWO_SIDED|95.0|-0.98|1.13|||Mixed Models Analysis|||Saturated fats||1.13|-0.98|0.89
92176331|NCT03952338|184246004|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.59|TWO_SIDED|95.0|-0.55|0.97|||Mixed Models Analysis|||Added sugars||0.97|-0.55|0.59
92176332|NCT03952338|184246005|SUPERIORITY||Risk Ratio (RR)|0.15||||0.01|TWO_SIDED|95.0|0.03|0.67||Marginal food insecurity|Mixed Models Analysis|Mixed effects multinomial logistic regression||||0.67|0.03|0.01
92176333|NCT03952338|184246005|SUPERIORITY||Risk Ratio (RR)|0.56||||0.34|TWO_SIDED|95.0|0.17|1.82|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Moderate food insecurity||1.82|0.17|0.34
92176334|NCT03952338|184246005|SUPERIORITY||Risk Ratio (RR)|0.16||||0.02|TWO_SIDED|95.0|0.03|0.76|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Severe food insecurity||0.76|0.03|0.02
92176335|NCT03952338|184246006|SUPERIORITY||Risk Ratio, log|0.28||||0.1|TWO_SIDED|95.0|0.06|1.29|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Marginal food insecurity||1.29|0.06|0.10
92249132|NCT01861054|184400454|OTHER|||||||0.2952||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing TNFa - US||||0.2952
92249133|NCT01861054|184400454|OTHER|||||||0.2238||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL6 - LPS||||0.2238
92249134|NCT01861054|184400454|OTHER|||||||0.2238||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL1b - LPS||||0.2238
92249135|NCT01861054|184400454|OTHER|||||||0.1543||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL8 - LPS||||0.1543
92283263|NCT04455633|184470334|SUPERIORITY||Difference in Percentage of Responders|9.6||||0.091|TWO_SIDED|95.0|-1.55|20.76|||Cochran-Mantel-Haenszel|||Percentage of responders were analyzed using the Cochran-Mantel-Haenszel (CMH) test stratified by the randomization factor of Baseline severity score (moderate, severe). The 95% confidence interval (CI) are calculated using the asymptotic Wald method. Missing observations at Week 6 are imputed as nonresponses.||20.76|-1.55|0.091
92283264|NCT04455633|184470334|SUPERIORITY||Difference in Percentage of Responders|-0.8||||0.883|TWO_SIDED|95.0|-10.95|9.4|||Cochran-Mantel-Haenszel|||Percentage of responders were analyzed using the CMH test stratified by the randomization factor of Baseline severity score (moderate, severe). The 95% CI are calculated using the asymptotic Wald method. Missing observations at Week 6 are imputed as nonresponses.||9.40|-10.95|0.883
92176336|NCT03952338|184246006|SUPERIORITY||Risk Ratio (RR)|0.68||||0.52|TWO_SIDED|95.0|0.21|2.21|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Moderate food insecurity||2.21|0.21|0.52
92176337|NCT03952338|184246006|SUPERIORITY||Risk Ratio (RR)|0.11||||0.01|TWO_SIDED|95.0|0.02|0.56|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Severe food insecurity||0.56|0.02|0.01
92249136|NCT01861054|184400454|OTHER|||||||0.1547||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing TNFa - LPS||||0.1547
92249137|NCT01861054|184400454|OTHER|||||||0.1547||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL6 - LPS||||0.1547
92249138|NCT01861054|184400454|OTHER|||||||0.1547||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL1b - LPS||||0.1547
92249139|NCT01861054|184400454|OTHER|||||||0.4314||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL8 - LPS||||0.4314
92176338|NCT03952338|184246007|SUPERIORITY||Risk Ratio (RR)|2.94||||0.15|TWO_SIDED|95.0|0.68|12.66|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Medium malnutrition risk||12.66|0.68|0.15
92176339|NCT03952338|184246007|SUPERIORITY||Risk Ratio (RR)|1.18||||0.86|TWO_SIDED|95.0|0.2|7.13|||Mixed Models Analysis|Mixed effects multinomial logistic regression||High malnutrition risk||7.13|0.20|0.86
92176340|NCT03952338|184246008|SUPERIORITY||Risk Ratio (RR)|1.28||||0.74|TWO_SIDED|95.0|0.31|5.38|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Medium malnutrition risk||5.38|0.31|0.74
92249140|NCT01861054|184400454|OTHER|||||||0.3153||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing TNFa - LPS||||0.3153
92249141|NCT01861054|184400454|OTHER|||||||0.47||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL6 - LPS+IL-8||||0.4700
92283265|NCT04455633|184470335|SUPERIORITY||Difference in Percentage of Responders|4.8||||0.289|TWO_SIDED|95.0|-4.11|13.73|||Cochran-Mantel-Haenszel|||Percentage of responders were analyzed using the CMH test stratified by the randomization factor of Baseline severity score (moderate, severe). The 95% CI are calculated using the asymptotic Wald method. Missing observations at Week 6 are imputed as nonresponses.||13.73|-4.11|0.289
92176341|NCT03952338|184246008|SUPERIORITY||Risk Ratio (RR)|5.48||||0.1|TWO_SIDED|95.0|0.73|41.3|||Mixed Models Analysis|Mixed effects multinomial logistic regression||High malnutrition risk||41.3|0.73|0.10
92176342|NCT03952338|184246009|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.64|TWO_SIDED|95.0|-0.65|0.4|||Mixed Models Analysis|||||0.40|-0.65|0.64
92176343|NCT03952338|184246010|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.9|TWO_SIDED|95.0|-0.57|0.5|||Mixed Models Analysis|||||0.50|-0.57|0.90
92176344|NCT03952338|184246011|SUPERIORITY||Mean Difference (Final Values)|-4.07||||0.43|TWO_SIDED|95.0|-14.05|5.92||Males|Mixed Models Analysis|||||5.92|-14.05|0.43
92176345|NCT03952338|184246011|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.83|TWO_SIDED|95.0|-3.75|4.66|||Mixed Models Analysis|||Females||4.66|-3.75|0.83
92176346|NCT03952338|184246012|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.66|TWO_SIDED|95.0|-5.65|3.57||Age 18-59 years|Mixed Models Analysis|||||3.57|-5.65|0.66
92249142|NCT01861054|184400454|OTHER|||||||0.1605||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL1b - LPS+IL-8||||0.1605
92249143|NCT01861054|184400454|OTHER|||||||0.1605||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL8 - LPS+IL-8||||0.1605
92249144|NCT01861054|184400454|OTHER|||||||0.1605||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing TNFa - LPS+IL-8||||0.1605
92249145|NCT01861054|184400454|OTHER|||||||0.1547||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL6 - LPS+IL-8||||0.1547
92249146|NCT01861054|184400454|OTHER|||||||0.1547||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL1b - LPS+IL-8||||0.1547
92176347|NCT03952338|184246012|SUPERIORITY||Mean Difference (Final Values)|3.28||||0.4|TWO_SIDED|95.0|-4.36|10.93|||Mixed Models Analysis|||Age 60+ years||10.93|-4.36|0.40
92176348|NCT03952338|184246013|SUPERIORITY||Mean Difference (Final Values)|6.25||||0.43|TWO_SIDED|95.0|-9.13|21.63|||Mixed Models Analysis|||Males||21.63|-9.13|0.43
92176349|NCT03952338|184246013|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.62|TWO_SIDED|95.0|-3.23|5.41|||Mixed Models Analysis|||Females||5.41|-3.23|0.62
92176350|NCT03952338|184246014|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.99|TWO_SIDED|95.0|-4.76|4.66|||Mixed Models Analysis|||18-59 years||4.66|-4.76|0.99
92176351|NCT03952338|184246014|SUPERIORITY||Mean Difference (Final Values)|3.66||||0.43|TWO_SIDED|95.0|-5.48|12.8|||Mixed Models Analysis|||60+ years||12.80|-5.48|0.43
92176352|NCT05469464|184246031|SUPERIORITY||Mean Difference (Net)|-4.6|STANDARD_ERROR_OF_MEAN|6.93||0.505|TWO_SIDED|95.0|-18.2|9.0|||ANCOVA|||||9.0|-18.2|0.505
92176353|NCT05469464|184246031|SUPERIORITY||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|7.15||0.812|TWO_SIDED|95.0|-15.8|12.3|||ANCOVA|||||12.3|-15.8|0.812
92176354|NCT05469464|184246031|SUPERIORITY||Mean Difference (Net)|-10.9|STANDARD_ERROR_OF_MEAN|6.99||0.118|TWO_SIDED|95.0|-24.6|2.8|||ANCOVA|||||2.8|-24.6|0.118
92176355|NCT04068311|184246218|SUPERIORITY|||||||0.61|||||||Chi-squared|||||||0.61
92176356|NCT04068311|184246219|SUPERIORITY|||||||0.83||||||unadjusted|Chi-squared|||||||0.83
92249147|NCT01861054|184400454|OTHER|||||||0.3153||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL8 - LPS+IL-8||||0.3153
92249148|NCT01861054|184400454|OTHER|||||||0.1543||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing TNFa - LPS+IL-8||||0.1543
92249149|NCT01861054|184400454|OTHER|||||||0.1601||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent FITC eColi Control||||0.1601
92249150|NCT01861054|184400454|OTHER|||||||0.2368||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent FITC eColi Test||||0.2368
92249151|NCT01861054|184400454|OTHER|||||||0.1605||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent PMNs unstimulated||||0.1605
92249152|NCT01861054|184400454|OTHER|||||||0.47||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent PMNs fMLP||||0.4700
92176357|NCT04068311|184246220|SUPERIORITY|||||||0.14|||||||Chi-squared|||||||0.14
92176358|NCT04068311|184246221|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
92176359|NCT03100149|184246222|SUPERIORITY||Difference in Adjusted Means|-2.02|STANDARD_ERROR_OF_MEAN|1.71||0.2385|TWO_SIDED|80.0|-4.21|0.18|||Mixed Models Analysis|||||0.18|-4.21|0.2385
92176360|NCT03100149|184246222|SUPERIORITY||Difference in Adjusted Means|-0.62|STANDARD_ERROR_OF_MEAN|1.71||0.7169|TWO_SIDED|80.0|-2.82|1.58|||Mixed Models Analysis|||||1.58|-2.82|0.7169
92176361|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-0.08|STANDARD_ERROR_OF_MEAN|0.165||0.6116|TWO_SIDED|80.0|-0.3|0.13||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part IA||0.13|-0.30|0.6116
92176362|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|0.08|STANDARD_ERROR_OF_MEAN|0.165||0.6188|TWO_SIDED|80.0|-0.13|0.3||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part IA||0.30|-0.13|0.6188
92176363|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-0.04|STANDARD_ERROR_OF_MEAN|0.345||0.9062|TWO_SIDED|80.0|-0.48|0.4||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part IB||0.40|-0.48|0.9062
92176364|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|0.02|STANDARD_ERROR_OF_MEAN|0.347||0.9621|TWO_SIDED|80.0|-0.43|0.46||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part IB||0.46|-0.43|0.9621
92176365|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-0.19|STANDARD_ERROR_OF_MEAN|0.411||0.651|TWO_SIDED|80.0|-0.71|0.34||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part I Total||0.34|-0.71|0.6510
92176366|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|0.12|STANDARD_ERROR_OF_MEAN|0.413||0.7709|TWO_SIDED|80.0|-0.41|0.65||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part I Total||0.65|-0.41|0.7709
92176367|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|0.34|STANDARD_ERROR_OF_MEAN|0.523||0.5177|TWO_SIDED|80.0|-0.33|1.01||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part II Total||1.01|-0.33|0.5177
92176368|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-0.06|STANDARD_ERROR_OF_MEAN|0.523||0.9095|TWO_SIDED|80.0|-0.73|0.61||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part II Total||0.61|-0.73|0.9095
92176369|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-1.88|STANDARD_ERROR_OF_MEAN|1.255||0.1354|TWO_SIDED|80.0|-3.49|-0.27||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Total||-0.27|-3.49|0.1354
92176370|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-1.02|STANDARD_ERROR_OF_MEAN|1.262||0.4217|TWO_SIDED|80.0|-2.64|0.61||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Total||0.61|-2.64|0.4217
92176371|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|0.09|STANDARD_ERROR_OF_MEAN|0.369||0.8053|TWO_SIDED|80.0|-0.38|0.56||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Rigidity||0.56|-0.38|0.8053
92176372|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|0.25|STANDARD_ERROR_OF_MEAN|0.37||0.497|TWO_SIDED|80.0|-0.22|0.73||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Rigidity||0.73|-0.22|0.4970
92176373|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-1.07|STANDARD_ERROR_OF_MEAN|0.779||0.1703|TWO_SIDED|80.0|-2.07|-0.07||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Bradykinesia||-0.07|-2.07|0.1703
92249153|NCT01861054|184400454|OTHER|||||||0.3392||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent L-selectin unstimulated||||0.3392
92176374|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-0.44|STANDARD_ERROR_OF_MEAN|0.782||0.5729|TWO_SIDED|80.0|-1.45|0.56||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Bradykinesia||0.56|-1.45|0.5729
92176375|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-0.61|STANDARD_ERROR_OF_MEAN|0.324||0.0628|TWO_SIDED|80.0|-1.02|-0.19||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Resting Tremor||-0.19|-1.02|0.0628
92249154|NCT01861054|184400454|OTHER|||||||0.808||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent L-selectin fMLP||||0.8080
92249155|NCT00599027|184400455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Endpoint after 28 days of treatment|ANCOVA|Overall treatment effect tested using F-test(alpha=0.05;two-sided). Diff between least square means of the 2 groups calculated with two-sided 95% C.I||||||0.001
92249156|NCT04962503|184400456|OTHER|||||||0.0313||||||Change from baseline to Day 3|Wilcoxon (Mann-Whitney)|||||||0.0313
92249157|NCT04962503|184400456|OTHER|||||||0.0625||||||Change from baseline to Day 9|Wilcoxon (Mann-Whitney)|||||||0.0625
92249158|NCT00476996|184400459|SUPERIORITY||Weighted Difference|20.4|||<|0.0001|TWO_SIDED|95.0|12.8|27.9|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||27.9|12.8|< 0.0001
92176376|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-0.41|STANDARD_ERROR_OF_MEAN|0.325||0.2125|TWO_SIDED|80.0|-0.82|0.01||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Resting Tremor||0.01|-0.82|0.2125
92176377|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-0.08|STANDARD_ERROR_OF_MEAN|0.108||0.4577|TWO_SIDED|80.0|-0.22|0.06||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Axial Symptoms||0.06|-0.22|0.4577
92249159|NCT00476996|184400459|SUPERIORITY||Weighted Difference|25.2|||<|0.0001|TWO_SIDED|95.0|17.7|32.7|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||32.7|17.7|< 0.0001
92249160|NCT00476996|184400459|SUPERIORITY||Weighted Difference|29.1|||<|0.0001|TWO_SIDED|95.0|21.6|36.6|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||36.6|21.6|< 0.0001
92249161|NCT00476996|184400459|SUPERIORITY||Weighted Difference|30.3|||<|0.0001|TWO_SIDED|95.0|22.8|37.7|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||37.7|22.8|< 0.0001
92249162|NCT00476996|184400460|SUPERIORITY||Weighted Difference|2.1||||0.1885|TWO_SIDED|95.0|-1.0|5.2|||Cochran-Mantel-Haenszel|||Analysis was stratified by region and baseline DMARD therapy||5.2|-1.0|0.1885
92249163|NCT00476996|184400460|SUPERIORITY||Weighted Difference|3.6||||0.033|TWO_SIDED|95.0|0.3|6.8|||Cochran-Mantel-Haenszel|||Analysis was stratified by region and baseline DMARD therapy||6.8|0.3|0.0330
92249164|NCT00476996|184400461|SUPERIORITY||Weighted Difference|4.2||||0.0175|TWO_SIDED|95.0|0.7|7.6|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||7.6|0.7|0.0175
92249165|NCT00476996|184400461|SUPERIORITY||Weighted Difference|4.3||||0.0134|TWO_SIDED|95.0|0.9|7.8|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||7.8|0.9|0.0134
92249166|NCT00476996|184400461|SUPERIORITY||Weighted Difference|10.5|||<|0.0001|TWO_SIDED|95.0|6.2|14.8|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||14.8|6.2|< 0.0001
92249167|NCT00476996|184400461|SUPERIORITY||Weighted Difference|10.5|||<|0.0001|TWO_SIDED|95.0|6.2|14.7|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||14.7|6.2|< 0.0001
92249168|NCT00476996|184400462|SUPERIORITY||Adjusted Mean Difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.3|||Analysis of Variance|||Week 24 analysis using adjusted mean difference. Model contains region, baseline DMARD therapy, baseline DAS28 score and treatment||-0.3|-0.8|< 0.0001
92176378|NCT03100149|184246223|SUPERIORITY||Difference in Adjusted Means|-0.01|STANDARD_ERROR_OF_MEAN|0.109||0.9182|TWO_SIDED|80.0|-0.15|0.13||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Axial Symptoms||0.13|-0.15|0.9182
92249169|NCT00476996|184400462|SUPERIORITY||Adjusted Mean Difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.6|||Analysis of Variance|||Week 24 analysis using adjusted mean difference. Model contains region, baseline DMARD therapy, baseline DAS28 score and treatment||-0.6|-1.1|< 0.0001
92249170|NCT00476996|184400462|SUPERIORITY||Adjusted Mean Difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.7|||Analysis of Variance|||Week 48 analysis using adjusted mean difference. Model contains region, baseline DMARD therapy, baseline DAS28 score and treatment||-0.7|-1.2|< 0.0001
92249171|NCT00476996|184400462|SUPERIORITY||Adjusted Mean Difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.9|||Analysis of Variance|||Week 48 analysis using adjusted mean difference. Model contains region, baseline DMARD therapy, baseline DAS28 score and treatment||-0.9|-1.5|< 0.0001
92249172|NCT00476996|184400463|SUPERIORITY||Odds Ratio (OR)|2.6|||<|0.0001|TWO_SIDED|95.0|1.85|3.66|||Proportional Odds Analysis|||At Week 24, analysis was stratified by region and baseline DMARD therapy||3.66|1.85|< 0.0001
92249173|NCT00476996|184400463|SUPERIORITY||Odds Ratio (OR)|3.49|||<|0.0001|TWO_SIDED|95.0|2.49|4.91|||Proportional Odds Analysis|||At Week 24, analysis was stratified by region and baseline DMARD therapy||4.91|2.49|< 0.0001
92249174|NCT00476996|184400463|SUPERIORITY||Odds Ratio (OR)|4.18|||<|0.0001|TWO_SIDED|95.0|2.93|5.96|||Proportional Odds Analysis|||At Week 48, analysis was stratified by region and baseline DMARD therapy||5.96|2.93|< 0.0001
92249175|NCT00476996|184400463|SUPERIORITY||Odds Ratio (OR)|5.04|||<|0.0001|TWO_SIDED|95.0|3.54|7.18|||Proportional Odds Analysis|||At Week 48, analysis was stratified by region and baseline DMARD therapy||7.18|3.54|< 0.0001
92249176|NCT00476996|184400464|SUPERIORITY||Weighted Difference|13.2|||<|0.0001|TWO_SIDED|95.0|7.4|19.1|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||19.1|7.4|< 0.0001
92249177|NCT00476996|184400464|SUPERIORITY||Weighted Difference|16.2|||<|0.0001|TWO_SIDED|95.0|10.2|22.1|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||22.1|10.2|< 0.0001
92249178|NCT00476996|184400464|SUPERIORITY||Weighted Difference|19.3|||<|0.0001|TWO_SIDED|95.0|12.9|25.6|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||25.6|12.9|< 0.0001
92249179|NCT00476996|184400464|SUPERIORITY||Weighted Difference|20.8|||<|0.0001|TWO_SIDED|95.0|14.5|27.1|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||27.1|14.5|< 0.0001
92249180|NCT00476996|184400465|SUPERIORITY||Weighted Difference|4.6||||0.0203|TWO_SIDED|95.0|0.7|8.5|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||8.5|0.7|0.0203
92249181|NCT00476996|184400465|SUPERIORITY||Weighted Difference|6.7||||0.0014|TWO_SIDED|95.0|2.6|10.8|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||10.8|2.6|0.0014
92176379|NCT03100149|184246224|SUPERIORITY||LS Means Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.3582|TWO_SIDED|80.0|-0.05|0.01||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.01|-0.05|0.3582
92249182|NCT00476996|184400465|SUPERIORITY||Weighted Difference|6.6||||0.0042|TWO_SIDED|95.0|2.1|11.2|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||11.2|2.1|0.0042
92249183|NCT00476996|184400465|SUPERIORITY||Weighted Difference|13.4|||<|0.0001|TWO_SIDED|95.0|8.2|18.6|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||18.6|8.2|< 0.0001
92249184|NCT00476996|184400466|SUPERIORITY||Weighted Difference|19.4|||<|0.0001|TWO_SIDED|95.0|11.3|27.5|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||27.5|11.3|< 0.0001
92176380|NCT03100149|184246224|SUPERIORITY||LS Means Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.1955|TWO_SIDED|80.0|-0.06|0.0||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.00|-0.06|0.1955
92249185|NCT00476996|184400466|SUPERIORITY||Weighted Difference|24.7|||<|0.0001|TWO_SIDED|95.0|16.8|32.7|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||32.7|16.8|< 0.0001
92249186|NCT00476996|184400466|SUPERIORITY||Weighted Difference|27.2|||<|0.0001|TWO_SIDED|95.0|19.5|34.9|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||34.9|19.5|< 0.0001
92249187|NCT00476996|184400466|SUPERIORITY||Weighted Difference|27.6|||<|0.0001|TWO_SIDED|95.0|20.0|35.3|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||35.3|20.0|< 0.0001
92176381|NCT03100149|184246225|SUPERIORITY||Difference in Adjusted Means|0.22|STANDARD_ERROR_OF_MEAN|0.245||0.3611|TWO_SIDED|80.0|-0.09|0.54||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.54|-0.09|0.3611
92249188|NCT01669811|184400480|SUPERIORITY_OR_OTHER||Difference in proportions|23.8|||<|0.0001|TWO_SIDED|95.0|14.9|32.6||p-value is obtained using chi square method.|Chi-squared|95% CI is obtained using Newcombe-Wilson score method without continuity correction.||To evaluate the efficacy of D20 bid on healing of refractory RE in comparison with D20 qd||32.6|14.9|<0.0001
92249189|NCT01669811|184400481|SUPERIORITY_OR_OTHER||Difference in proportions|32.8|||<|0.0001|TWO_SIDED|95.0|21.9|42.6||p-value is obtained using chi square method.|Chi-squared|95% CI is obtained using Newcombe-Wilson score method without continuity correction.||To evaluate the efficacy of D20 bid on healing of refractory RE in comparison with D20 qd||42.6|21.9|<0.0001
92249190|NCT01669811|184400482|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.1452|TWO_SIDED|95.0|0.91|1.83|||Log Rank|95% CI of the hazard ratio is obtained using Cox proportional hazards model including a factor of treatment group.||To evaluate the efficacy of D20 bid on gastroesophageal reflux disease (GERD) symptoms in comparison with D20 qd||1.83|0.91|0.1452
92249191|NCT01669811|184400483|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.46||||0.0837|TWO_SIDED|95.0|0.97|2.18|||Log Rank|95% CI of the hazard ratio is obtained using Cox proportional hazards model including a factor of treatment group.||To evaluate the efficacy of D20 bid on gastroesophageal reflux disease (GERD) symptoms in comparison with D20 qd||2.18|0.97|0.0837
92249192|NCT01669811|184400484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.34||||0.2678|TWO_SIDED|95.0|0.8|2.26|||Log Rank|95% CI of the hazard ratio is obtained using Cox proportional hazards model including a factor of treatment group.||To evaluate the efficacy of D20 bid on gastroesophageal reflux disease (GERD) symptoms in comparison with D20 qd||2.26|0.80|0.2678
92283266|NCT04455633|184470335|SUPERIORITY||Difference in Percentage of Responders|-0.8||||0.837|TWO_SIDED|95.0|-8.85|7.16|||Cochran-Mantel-Haenszel|||Percentage of responders were analyzed using the CMH test stratified by the randomization factor of Baseline severity score (moderate, severe). The 95% CI are calculated using the asymptotic Wald method. Missing observations at Week 6 are imputed as nonresponses.||7.16|-8.85|0.837
92176382|NCT03100149|184246225|SUPERIORITY||Difference in Adjusted Means|0.44|STANDARD_ERROR_OF_MEAN|0.243||0.0727|TWO_SIDED|80.0|0.13|0.75||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.75|0.13|0.0727
92176383|NCT03100149|184246226|SUPERIORITY||Odds Ratio (OR)|0.77||||0.4265|TWO_SIDED|80.0|0.5|1.18||Nominal p-values are displayed for descriptive purposes only.|Regression, Logistic|||||1.18|0.50|0.4265
92176384|NCT03100149|184246226|SUPERIORITY||Odds Ratio (OR)|0.76||||0.4063|TWO_SIDED|80.0|0.49|1.16||Nominal p-values are displayed for descriptive purposes only.|Regression, Logistic|||||1.16|0.49|0.4063
92176385|NCT03100149|184246227|SUPERIORITY||Odds Ratio (OR)|0.75||||0.3847|TWO_SIDED|80.0|0.48|1.15||Nominal p-values are displayed for descriptive purposes only.|Regression, Logistic|||||1.15|0.48|0.3847
92176386|NCT03100149|184246227|SUPERIORITY||Odds Ratio (OR)|0.88||||0.7055|TWO_SIDED|80.0|0.57|1.36||Nominal p-values are displayed for descriptive purposes only.|Regression, Logistic|||||1.36|0.57|0.7055
92249193|NCT01669811|184400485|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.6389|TWO_SIDED|95.0|0.62|2.12|||Log Rank|95% CI of the hazard ratio is obtained using Cox proportional hazards model including a factor of treatment group.||To evaluate the efficacy of D20 bid on gastroesophageal reflux disease (GERD) symptoms in comparison with D20 qd||2.12|0.62|0.6389
92249194|NCT01669811|184400486|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.38||||0.4485|TWO_SIDED|95.0|0.8|2.38|||Log Rank|95% CI of the hazard ratio is obtained using Cox proportional hazards model including a factor of treatment group.||To evaluate the efficacy of D20 bid on gastroesophageal reflux disease (GERD) symptoms in comparison with D20 qd||2.38|0.80|0.4485
92249195|NCT00676793|184400499|SUPERIORITY_OR_OTHER||||||=|0.078||95.0|||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no change, i.e. median change=0.0.||||=0.078
92249196|NCT00676793|184400500|SUPERIORITY_OR_OTHER||||||=|0.094||95.0|||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no change, i.e. median change=0.0.||||=0.094
92249197|NCT01617187|184400562|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) means difference|-1.3|STANDARD_ERROR_OF_MEAN|2.46||0.6043|TWO_SIDED|95.0|-6.1|3.6||Adjusted p-value from graphical approach to control Type 1 error rate among primary and secondary efficacy hypotheses|Mixed Model Repeated Measures (MMRM)||Asenapine 2.5 mg BID minus Placebo BID|||3.6|-6.1|0.6043
92283267|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.298||0.014|TWO_SIDED|95.0|-1.32|-0.15|||MMRM model|||Pain at its Worst: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain at its worst score as a covariate.||-0.15|-1.32|0.014
92176387|NCT03100149|184246228|SUPERIORITY||Difference in Adjusted Means|-0.73|STANDARD_ERROR_OF_MEAN|0.888||0.4142|TWO_SIDED|80.0|-1.87|0.41||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.41|-1.87|0.4142
92176388|NCT03100149|184246228|SUPERIORITY||Difference in Adjusted Means|-0.67|STANDARD_ERROR_OF_MEAN|0.885||0.4486|TWO_SIDED|80.0|-1.81|0.47||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.47|-1.81|0.4486
92176389|NCT03100149|184246229|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.3769|TWO_SIDED|80.0|0.94|1.42||Nominal p-values are displayed for descriptive purposes only.|Regression, Cox|||||1.42|0.94|0.3769
92176390|NCT03100149|184246229|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.1658|TWO_SIDED|80.0|1.02|1.53||Nominal p-values are displayed for descriptive purposes only.|Regression, Cox|||||1.53|1.02|0.1658
92176391|NCT03100149|184246230|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9542|TWO_SIDED|80.0|0.77|1.33||Nominal p-values are displayed for descriptive purposes only.|Regression, Cox|||||1.33|0.77|0.9542
92176392|NCT03100149|184246230|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.4567|TWO_SIDED|80.0|0.63|1.13||Nominal p-values are displayed for descriptive purposes only.|Regression, Cox|||||1.13|0.63|0.4567
92176393|NCT03474107|184246243|SUPERIORITY||Stratified Hazard Ratio|0.702||||0.00142|TWO_SIDED|95.0|0.556|0.886||Stratification factors were ECOG PS, geographic region and liver metastasis. P-value was based on log-rank test. P-value of overall survival is ≤ the predetermined 1-sided significance level of 0.00679 based on the number of observed deaths.|Stratified Log rank||Cox proportional hazards model with treatment, ECOG PS, geographic region and liver metastasis as the explanatory variables.|||0.886|0.556|0.00142
92176394|NCT03474107|184246244|SUPERIORITY||Stratified Hazard Ratio|0.615|||<|1e-05|TWO_SIDED|95.0|0.505|0.748||Stratification factors were ECOG PS, geographic region and liver metastasis. P-value was based on log-rank test. P value of PFS is ≤ the predetermined 1-sided significance level of 0.02189 based on the number of observed PFS events.|Stratified Log Rank||Cox proportional hazards model with treatment, ECOG PS, geographic region and liver metastasis as the explanatory variables.|||0.748|0.505|<0.00001
92176395|NCT03474107|184246245|SUPERIORITY||||||<|0.001||||||"Stratification factors were ECOG PS, Region and Liver Metastasis."|Stratified Cochran-Mantel-Haenszel|||||||<0.001
92176396|NCT03474107|184246246|SUPERIORITY||||||<|0.001||||||Stratification factors were ECOG PS, Region and Liver Metastasis.|Stratified Cochran-Mantel-Haenszel|||||||<0.001
92176397|NCT02296125|184246349|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.37|0.57|||Log Rank|||||0.57|0.37|<0.0001
92176398|NCT02296125|184246349|OTHER|The china cohort was not powered for superiority|Hazard Ratio (HR)|0.56||||0.0065|TWO_SIDED|95.0|0.37|0.85|||Log Rank|||||0.85|0.37|0.0065
92176399|NCT02296125|184246351|SUPERIORITY||Odds Ratio (OR)|1.51||||0.036|TWO_SIDED|95.0|1.03|2.22|||Regression, Logistic|||||2.22|1.03|0.036
92176400|NCT02296125|184246351|OTHER|The china cohort was not powered for superiority|Odds Ratio (OR)|1.31||||0.485|TWO_SIDED|95.0|0.61|2.84|||Regression, Logistic|||||2.84|0.61|0.485
92176401|NCT02296125|184246352|OTHER|The china cohort was not powered for superiority|Mean Difference (Final Values)|2.48||||0.0133|TWO_SIDED|95.0|1.21|5.09|||Regression, Linear|||||5.09|1.21|0.0133
92176402|NCT02296125|184246352|SUPERIORITY||Mean Difference (Final Values)|2.27|||<|0.0001|TWO_SIDED|95.0|1.68|3.08|||Regression, Linear|||||3.08|1.68|<0.0001
92249198|NCT01617187|184400562|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-5.5|STANDARD_ERROR_OF_MEAN|2.32||0.0356|TWO_SIDED|95.0|-10.1|-1.0||Adjusted p-value from graphical approach to control Type 1 error rate among primary and secondary efficacy hypotheses|MMRM||Asenapine 5 mg BID minus Placebo BID|||-1.0|-10.1|0.0356
92249199|NCT01617187|184400562|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-5.4|STANDARD_ERROR_OF_MEAN|2.86||0.0587|TWO_SIDED|95.0|-11.1|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|||0.2|-11.1|0.0587
92249200|NCT01617187|184400563|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.15||0.9083|TWO_SIDED|95.0|-0.3|0.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Confirmative testing of asenapine versus placebo for this measure was to be performed only if both asenapine doses were statistically superior to placebo in reduction from baseline in PANSS Total Score (Primary outcome measure)||0.3|-0.3|0.9083
92176403|NCT02296125|184246353|SUPERIORITY||Odds Ratio (OR)|2.78||||0.011|TWO_SIDED|95.0|1.25|6.78|||Regression, Logistic||An odds ratio \> 1 favours osimertinib|||6.78|1.25|0.0110
92176404|NCT02296125|184246353|OTHER|The china cohort was not powered for superiority|Odds Ratio (OR)|1.67||||0.5772|TWO_SIDED|95.0|0.27|12.98|||Regression, Logistic||An odds ratio \>1 favours osimertinib|||12.98|0.27|0.5772
92176405|NCT02296125|184246354|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.0025|TWO_SIDED|95.0|-11.205|-2.403|||Regression, Linear|||||-2.403|-11.205|0.0025
92176406|NCT02296125|184246354|OTHER|The china cohort was not powered for superiority|Mean Difference (Final Values)|-6.59||||0.1348|TWO_SIDED|95.0|-15.246|2.072|||Regression, Linear|||||2.072|-15.246|0.1348
92176407|NCT02296125|184246355|SUPERIORITY||Hazard Ratio (HR)|0.799||||0.0462|TWO_SIDED|95.0|0.6409|0.9963|||Log Rank|||||0.9963|0.6409|0.0462
92176408|NCT02296125|184246355|OTHER|The china cohort was not powered for superiority|Hazard Ratio (HR)|0.848||||0.4416|TWO_SIDED|95.0|0.5568|1.291|||Log Rank|||||1.2910|0.5568|0.4416
92176409|NCT01456949|184246439|SUPERIORITY||Kaplan-Meier (product-limit) estimator|66.9|||<|0.001|TWO_SIDED|95.0|61.6|71.7|||Exact binomial|Exact binomial p-value is shown, but the confidence intervals reported are calculated from Greenwood's approximation of the standard error.||||71.7|61.6|<0.001
92176410|NCT01456949|184246440|SUPERIORITY||Kaplan-Meier (product-limit) estimator|2.3|||<|0.001|TWO_SIDED|95.0|1.1|4.5|||Exact binomial|Exact binomial p-value is shown, but the confidence intervals reported are calculated from Greenwood's approximation of the standard error.||||4.5|1.1|<0.001
92176411|NCT01456949|184246441|OTHER|Secondary analyses were exploratory. No formal hypotheses or performance criteria were predefined.|||||||||||||||||Freedom from MAFE's was estimated using Kaplan-Meier methods.|||
92176412|NCT01456949|184246442|OTHER|Secondary analyses were exploratory. No formal hypotheses or performance criteria were predefined.|||||||||||||||||Chronic treatment success was estimated at one and two years using Kaplan-Meier methods.|||
92176413|NCT04753697|184246443|SUPERIORITY||Difference in Least Square Mean|-1.91|STANDARD_ERROR_OF_MEAN|0.544||0.0005|TWO_SIDED|95.0|-2.97|-0.84|||ANCOVA|||||-0.84|-2.97|0.0005
92176414|NCT04753697|184246444|SUPERIORITY||Difference in percentage|26.4|||<|0.0001|TWO_SIDED|95.0|20.6|32.2|||Cochran-Mantel-Haenszel|Imputed data is used in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status.||||32.2|20.6|<0.0001
92176415|NCT04753697|184246445|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI(%)|18.4|||<|0.0001|TWO_SIDED|95.0|11.3|25.5|||Cochran-Mantel-Haenszel|Imputed data is used in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status.||||25.5|11.3|<0.0001
92176416|NCT04753697|184246445|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI(%)|17.0|||<|0.0001|TWO_SIDED|95.0|10.1|24.0||Imputed data is used in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status.|Cochran-Mantel-Haenszel|||||24.0|10.1|<0.0001
92176417|NCT04753697|184246446|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI (%)|40.0|||<|0.0001|TWO_SIDED|95.0|33.3|46.7|||Cochran-Mantel-Haenszel|Imputed data is used in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status||||46.7|33.3|<0.0001
92176418|NCT04753697|184246447|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI (%)|25.7|||<|0.0001|TWO_SIDED|95.0|17.8|33.6|||Cochran-Mantel-Haenszel|Imputed data is used for all in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status.||||33.6|17.8|<0.0001
92249201|NCT01617187|184400563|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0601|TWO_SIDED|95.0|-0.6|0.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Confirmative testing of asenapine versus placebo for this measure was to be performed only if both asenapine doses were statistically superior to placebo in reduction from baseline in PANSS Total Score (Primary outcome measure)||0.0|-0.6|0.0601
92283268|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.29||0.017|TWO_SIDED|95.0|-1.27|-0.13|||MMRM model|||Pain at its Worst: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain at its worst score as a covariate.||-0.13|-1.27|0.017
92249202|NCT01617187|184400563|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.3898|TWO_SIDED|95.0|-0.5|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|||0.2|-0.5|0.3898
92176419|NCT04753697|184246447|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI (%)|27.7|||<|0.0001|TWO_SIDED|95.0|19.7|35.7|||Cochran-Mantel-Haenszel|Imputed data is used for all in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status.||||35.7|19.7|<0.0001
92249203|NCT01617187|184400564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37||||||P-value from Cochran Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Confirmative testing of asenapine versus placebo for this measure was to be performed only if both asenapine doses were statistically superior to placebo in reduction from baseline in PANSS Total Score (Primary outcome measure)||||0.3700
92249204|NCT01617187|184400564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1708||||||P-value from Cochran Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Confirmative testing of asenapine versus placebo for this measure was to be performed only if both asenapine doses were statistically superior to placebo in reduction from baseline in PANSS Total Score (Primary outcome measure)||||0.1708
92249205|NCT01617187|184400564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262||||||P-value from Cochran Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||||||0.2620
92283269|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.302||0.015|TWO_SIDED|95.0|-1.33|-0.15|||MMRM model|||Pain at its Least: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain at its least score as a covariate.||-0.15|-1.33|0.015
92283270|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.294||0.02|TWO_SIDED|95.0|-1.27|-0.11|||MMRM model|||Pain at its Least: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain at its least score as a covariate.||-0.11|-1.27|0.020
92249206|NCT01617187|184400565|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.6||0.0491|TWO_SIDED|95.0|-2.4|0.0||p-value adjusted for multiple comparisons using Hochberg's method|MMRM||Asenapine 2.5 mg BID minus Olanzapine 15 mg QD|||-0.0|-2.4|0.0491
92249207|NCT01617187|184400565|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.57||0.0491|TWO_SIDED|95.0|-2.3|0.0||p-value adjusted for multiple comparisons using Hochberg's method|MMRM||Asenapine 5 mg BID minus Olanzapine 15 mg QD|||-0.0|-2.3|0.0491
92176420|NCT04753697|184246448|SUPERIORITY||DIFFERENCE IN LSM|-2.26|STANDARD_ERROR_OF_MEAN|0.655||0.0006|TWO_SIDED|95.0|-3.55|-0.98|||ANCOVA|||||-0.98|-3.55|0.0006
92249208|NCT01617187|184400565|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.0|STANDARD_ERROR_OF_MEAN|0.51||0.0567|TWO_SIDED|95.0|0.0|2.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|||2.0|-0.0|0.0567
92283271|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.309||0.005|TWO_SIDED|95.0|-1.48|-0.27|||MMRM model|||Pain Right Now: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain right now score as a covariate.||-0.27|-1.48|0.005
92249209|NCT01617187|184400565|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.0|STANDARD_ERROR_OF_MEAN|0.48||0.0391|TWO_SIDED|95.0|0.0|1.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|||1.9|0.0|0.0391
92249210|NCT01617187|184400565|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|2.2|STANDARD_ERROR_OF_MEAN|0.58||0.0003|TWO_SIDED|95.0|1.0|3.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|||3.3|1.0|0.0003
92249211|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.8|STANDARD_ERROR_OF_MEAN|1.09||0.4849|TWO_SIDED|95.0|-1.4|2.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||2.9|-1.4|0.4849
92249212|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|1.06||0.8902|TWO_SIDED|95.0|-2.2|1.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||1.9|-2.2|0.8902
92249213|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|1.36||0.5826|TWO_SIDED|95.0|-3.4|1.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||1.9|-3.4|0.5826
92249214|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|1.61||0.9271|TWO_SIDED|95.0|-3.3|3.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||3.0|-3.3|0.9271
92249215|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.0|STANDARD_ERROR_OF_MEAN|1.56||0.1902|TWO_SIDED|95.0|-5.1|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||1.0|-5.1|0.1902
92249216|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.2|STANDARD_ERROR_OF_MEAN|2.0||0.271|TWO_SIDED|95.0|-6.2|1.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||1.7|-6.2|0.2710
92249217|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.7|STANDARD_ERROR_OF_MEAN|1.79||0.6773|TWO_SIDED|95.0|-2.8|4.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||4.3|-2.8|0.6773
92249218|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.8|STANDARD_ERROR_OF_MEAN|1.72||0.2895|TWO_SIDED|95.0|-5.2|1.6||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||1.6|-5.2|0.2895
92249219|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.7|STANDARD_ERROR_OF_MEAN|2.18||0.4261|TWO_SIDED|95.0|-6.0|2.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||2.6|-6.0|0.4261
92249220|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.3|STANDARD_ERROR_OF_MEAN|2.13||0.5505|TWO_SIDED|95.0|-2.9|5.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||5.5|-2.9|0.5505
92249221|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|2.03||0.4286|TWO_SIDED|95.0|-5.6|2.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||2.4|-5.6|0.4286
92249222|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.0|STANDARD_ERROR_OF_MEAN|2.56||0.4423|TWO_SIDED|95.0|-7.0|3.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||3.1|-7.0|0.4423
92249223|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|3.2|STANDARD_ERROR_OF_MEAN|2.3||0.1691|TWO_SIDED|95.0|-1.4|7.7||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||7.7|-1.4|0.1691
92249224|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|2.17||0.4682|TWO_SIDED|95.0|-5.8|2.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||2.7|-5.8|0.4682
92249225|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.8|STANDARD_ERROR_OF_MEAN|2.71||0.4961|TWO_SIDED|95.0|-7.2|3.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||3.5|-7.2|0.4961
92249226|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|2.26||0.4697|TWO_SIDED|95.0|-6.1|2.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||2.8|-6.1|0.4697
92249227|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.6|STANDARD_ERROR_OF_MEAN|2.14||0.0947|TWO_SIDED|95.0|-7.8|0.6||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.6|-7.8|0.0947
92249228|NCT01617187|184400566|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-4.9|STANDARD_ERROR_OF_MEAN|2.68||0.0675|TWO_SIDED|95.0|-10.2|0.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.4|-10.2|0.0675
92176421|NCT04753697|184246448|SUPERIORITY||DIFFERENCE IN LSM|-2.49|STANDARD_ERROR_OF_MEAN|0.657||0.0002||95.0|-3.78|-1.2|||ANCOVA|||||-1.20|-3.78|0.0002
92176422|NCT04753697|184246449|SUPERIORITY||DIFFERENCE IN LSM|-4.0|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-4.8|-3.2|||ANCOVA|||||-3.2|-4.8|<0.0001
92176423|NCT04753697|184246450|SUPERIORITY||DIFFERENCE IN LSM|-3.5|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|95.0|-4.5|-2.4|||ANCOVA|||||-2.4|-4.5|<0.0001
92249229|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1736||||||P-value from Cochran Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.1736
92249230|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1736||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.1736
92249231|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.285||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.2850
92249232|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.3290
92249233|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6938||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.6938
92176424|NCT04753697|184246450|SUPERIORITY||DIFFERENCE IN LSM|-3.1|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|95.0|-4.1|-2.1|||ANCOVA|||||-2.1|-4.1|<0.0001
92249234|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1105||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.1105
92249235|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6804||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.6804
92249236|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9704||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.9704
92249237|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6604||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.6604
92249238|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2447||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.2447
92249239|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4834||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.4834
92249240|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9189||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.9189
92249241|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.437||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.4370
92249242|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2894||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.2894
92249243|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6953||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.6953
92249244|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4892||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.4892
92176425|NCT04753697|184246451|SUPERIORITY||DIFFERENCE IN LSM|-22.51|STANDARD_ERROR_OF_MEAN|1.528|<|0.0001|TWO_SIDED|95.0|-25.5|-19.51|||ANCOVA|||||-19.51|-25.50|<0.0001
92176426|NCT04753697|184246452|SUPERIORITY||DIFFERENCE IN LSM|-18.13|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED|95.0|-21.85|-14.4|||ANCOVA|||||-14.40|-21.85|<0.0001
92249245|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1954||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.1954
92249246|NCT01617187|184400567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.799||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.7990
92249247|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.4255|TWO_SIDED|95.0|-0.1|0.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||0.2|-0.1|0.4255
92176427|NCT04753697|184246452|SUPERIORITY||DIFFERENCE IN LSM|-19.22|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-22.9|-15.53|||ANCOVA|||||-15.53|-22.90|<0.0001
92176428|NCT04753697|184246453|SUPERIORITY||DIFFERENCE IN LSM|-25.4|STANDARD_ERROR_OF_MEAN|1.793|<|0.0001|TWO_SIDED|95.0|-28.92|-21.89|||ANCOVA|||||-21.89|-28.92|<0.0001
92176429|NCT04753697|184246454|SUPERIORITY||DIFFERENCE IN LSM|-20.82|STANDARD_ERROR_OF_MEAN|2.229|<|0.0001|TWO_SIDED|95.0|-25.17|-18.91|||Cochran-Mantel-Haenszel|||||-18.91|-25.17|<0.0001
92176430|NCT04753697|184246454|SUPERIORITY||DIFFERENCE IN LSM|-23.43|STANDARD_ERROR_OF_MEAN|2.222|<|0.0001|TWO_SIDED|95.0|-27.73|-21.56|||ANCOVA|||||-21.56|-27.73|<0.0001
92176431|NCT04753697|184246455|SUPERIORITY||DIFFERENCE IN LSM|-4.1|STANDARD_ERROR_OF_MEAN|1.174||0.0005|TWO_SIDED|95.0|-6.4|-1.8|||ANCOVA|||||-1.80|-6.40|0.0005
92176432|NCT04753697|184246456|SUPERIORITY||DIFFERENCE IN LSM|-4.35|STANDARD_ERROR_OF_MEAN|1.42||0.0022|TWO_SIDED|95.0|-7.14|-1.57|||ANCOVA|||||-1.57|-7.14|0.0022
92176433|NCT04753697|184246456|SUPERIORITY||Difference in LSM|-5.2|STANDARD_ERROR_OF_MEAN|1.425||0.0003|TWO_SIDED|95.0|-8.0|-2.41|||ANCOVA|||||-2.41|-8.00|0.0003
92176434|NCT04753697|184246457|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI (%)|16.9||||0.0016|TWO_SIDED|95.0|6.7|27.2|||ANCOVA|||||27.2|6.7|0.0016
92176435|NCT01658930|184246476|NON_INFERIORITY|Margin of inferiority in the difference of 3 year pelvic recurrence rates between simple and radical hysterectomy group was 4%.|Mean Difference (Final Values)|0.0035|||||TWO_SIDED|90.0|-0.0162|0.0232|||||Difference between simple and radical hysterectomy groups.|||0.0232|-0.0162|
92176436|NCT01658930|184246477|SUPERIORITY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.47|2.67|||||Hazard ratio of simple to radical hysterectomy.|||2.67|0.47|
92176437|NCT01658930|184246478|SUPERIORITY||Hazard Ratio (HR)|3.82|||||TWO_SIDED|95.0|0.79|18.4|||||Hazard ratio is simple hysterectomy group of radical hysterectomy group.|||18.4|0.79|
92176438|NCT01658930|184246479|SUPERIORITY||Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|0.69|3.45|||||Hazard ratio is simple hysterectomy group to radical hysterectomy group.|||3.45|0.69|
92249248|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9564|TWO_SIDED|95.0|-0.1|0.1||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.1|-0.1|0.9564
92249249|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.6363|TWO_SIDED|95.0|-0.2|0.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.1|-0.2|0.6363
92249250|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8759|TWO_SIDED|95.0|-0.2|0.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||0.2|-0.2|0.8759
92249251|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.9598|TWO_SIDED|95.0|-0.2|0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.2|-0.2|0.9598
92249252|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.9789|TWO_SIDED|95.0|-0.2|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.2|-0.2|0.9789
92249253|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.4671|TWO_SIDED|95.0|-0.3|0.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||0.1|-0.3|0.4671
92249254|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.6359|TWO_SIDED|95.0|-0.3|0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.2|-0.3|0.6359
92249255|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.5454|TWO_SIDED|95.0|-0.4|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||0.2|-0.4|0.5454
92249256|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.4188|TWO_SIDED|95.0|-0.2|0.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||0.4|-0.2|0.4188
92283272|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.301||0.111|TWO_SIDED|95.0|-1.07|0.11|||MMRM model|||Pain Right Now: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain right now score as a covariate.||0.11|-1.07|0.111
92249257|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.5318|TWO_SIDED|95.0|-0.3|0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.2|-0.3|0.5318
92249258|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.16||0.5683|TWO_SIDED|95.0|-0.4|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||0.2|-0.4|0.5683
92249259|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.14||0.2972|TWO_SIDED|95.0|-0.1|0.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||0.4|-0.1|0.2972
92176439|NCT01658930|184246480|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.38|3.14|||||Hazard ratio of simple to radical hysterectomy.|||3.14|0.38|
92176440|NCT05446168|184246569|OTHER|A comparison is not being made between two different treatment groups. Exploratory analysis|Mean Difference (Net)|-0.08|STANDARD_DEVIATION|0.05||0.005|TWO_SIDED|95.0|-0.12|-0.03||A priori threshold for statistical significance is p \< 0.05.|t-test, 2 sided|t = -4.05, df = 7||||-0.03|-0.12|0.005
92176441|NCT05446168|184246570|OTHER|A comparison is not being made between two different treatment groups. Exploratory analysis.|Mean Difference (Net)|4.33|STANDARD_DEVIATION|12.81||0.27|TWO_SIDED|95.0|-3.81|12.47||A priori threshold for statistical significance is p \< 0.05.|t-test, 2 sided|t = 1.17, df = 11||||12.47|-3.81|0.27
92176442|NCT01828099|184246588|SUPERIORITY||Hazard Ratio (HR)|0.55|||<|0.001|TWO_SIDED|95.0|0.42|0.73|||Log Rank|||||0.73|0.42|<0.001
92176443|NCT05875467|184246622|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||||||.042
92176444|NCT05875467|184246623|SUPERIORITY|||||||0.928|||||||t-test, 2 sided|||||||.928
92176445|NCT05875467|184246624|SUPERIORITY|||||||0.022|||||||t-test, 2 sided|||||||.022
92176446|NCT05875467|184246625|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||.004
92176447|NCT06473662|184246626|OTHER||Mean Difference (Final Values)|-0.53||||0.0039|TWO_SIDED||||||t-test, 2 sided|||||||0.0039
92176448|NCT06473662|184246627|OTHER||Mean Difference (Final Values)|-18.8||||0.0166|TWO_SIDED||||||t-test, 2 sided|||||||0.0166
92176449|NCT06473662|184246629|OTHER||Mean Difference (Final Values)|-22.13||||0.0474|TWO_SIDED||||||ANCOVA|||||||0.0474
92249260|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.482|TWO_SIDED|95.0|-0.4|0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||0.2|-0.4|0.4820
92249261|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.9901|TWO_SIDED|95.0|-0.3|0.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||0.3|-0.3|0.9901
92249262|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.6682|TWO_SIDED|95.0|-0.4|0.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||0.2|-0.4|0.6682
92176450|NCT02398656|184246630|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.88|1.04||||||||1.04|0.88|
92176451|NCT05602220|184246632|SUPERIORITY||F test|0.054||||0.817|TWO_SIDED||||||ANOVA|||||||0.817
92176452|NCT05602220|184246633|SUPERIORITY||F test|2.162||||0.147|TWO_SIDED||||||ANOVA|||||||0.147
92176453|NCT05602220|184246634|SUPERIORITY||F test|2.88||||0.096|TWO_SIDED||||||ANOVA|||||||0.096
92176454|NCT05602220|184246635|SUPERIORITY||F test|0.449||||0.64|TWO_SIDED||||||ANCOVA|||||||0.640
92176455|NCT05602220|184246636|SUPERIORITY|"Linear mixed-effects model fit to participants' latent performance scores across 10 time bins.~Comparison of performance changes over time between groups."|beta parameter|0.0001419|STANDARD_ERROR_OF_MEAN|0.036816||0.997|TWO_SIDED|95.0|-0.072164|0.072448|||Mixed Models Analysis|||||0.072448|-0.072164|0.997
92176456|NCT05764525|184246656|SUPERIORITY||Difference of least squares mean|6.938||||0.0047|TWO_SIDED|95.0|2.145|11.731|||ANOVA|||||11.731|2.145|0.0047
92176457|NCT03910478|184246690|EQUIVALENCE|A two-sided Wald-test for evidence of a non-zero coefficient for intervention group in the regression was conducted at the 5% significance level.|Odds Ratio (OR)|0.948||||0.892|TWO_SIDED|95.0|0.438|2.053|||Regression, Logistic|The logistic regression was adjusted by covariates (transplant site and participant's perceived ease of access to blood draw facility).||A traditional logistic regression model was fit where the outcome was whether or not participants completed \> 90% of their clinician-recommended CMV monitoring tests in the study period by 1-year after HCT.||2.053|0.438|0.8920
92176458|NCT03910478|184246691|EQUIVALENCE|A two-sided Wald-test for evidence of a non-zero coefficient for intervention group in the regression was conducted at the 5% significance level.|Odds Ratio (OR)|0.66||||0.3008|TWO_SIDED|95.0|0.301|1.45|||Regression, Logistic|The logistic regression was adjusted by covariates (transplant site and participant's perceived ease of access to blood draw facility).||A traditional logistic regression model was fit where the outcome was whether or not participants completed \> 90% of their clinician -recommended CMV monitoring tests in the study period by 1-year after HCT.||1.450|0.301|0.3008
92176459|NCT06201559|184246754|EQUIVALENCE|Point estimate of geometric mean ratio (GMR) of T/R should be between 80.00 -125.00%. If the intra-subject variability for Cmax following replicate administrations of the comparator product was \> 30%, the acceptance criteria for Cmax was widened to a maximum of 69.84-143.19%.|Ratio of Geometric Least Square Means|98.1|||||TWO_SIDED|90.0|86.79|110.91|||||Geometric least square means were combined to perform statistical analysis of T as T1 + T2 and R as R1 + R2.|||110.91|86.79|
92176460|NCT06201559|184246755|EQUIVALENCE|Point estimate of geometric mean ratio (GMR) of T/R should be between 80.00 -125.00%. If the intra-subject variability for AUC(0-t) following replicate administrations of the comparator product was \> 30%, the acceptance criteria for AUC(0-t) was widened to a maximum of 69.84-143.19%.|Ratio of Geometric Least Square Means|97.6|||||TWO_SIDED|90.0|86.86|109.73|||||Geometric least square means were combined to perform statistical analysis of T as T1 + T2 and R as R1 + R2.|||109.73|86.86|
92176461|NCT05218096|184246770|OTHER|Difference|Difference|-7.1||||0.6797|TWO_SIDED|90.0|-28.8|15.0|||Barnard's Unconditional Exact Test||CI calculated using the Chan and Zhang method.|||15.0|-28.8|0.6797
92176462|NCT05218096|184246770|OTHER|Difference|Difference|-7.1||||0.7341|TWO_SIDED|90.0|-34.8|19.3|||Barnard's Unconditional Exact Test||CI calculated using the Chan and Zhang method.|||19.3|-34.8|0.7341
92176463|NCT05321082|184246815|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0507|TWO_SIDED|95.0|0.61|1.0|||Regression, Cox|||The hazard ratio (HR) was estimated using a Cox proportional hazards model with treatment, baseline intake of AF (nintedanib) treatment, baseline HRCT pattern, age (continuous), baseline FVC % predicted, and baseline DLCO % predicted (corrected for hemoglobin) as covariates. Breslow's method was applied for tied event times. A two-sided p-value from the Wald test assessed the treatment effect. P-values were not adjusted for multiplicity.||1.00|0.61|0.0507
92183050|NCT02434328|184264736|OTHER|Treatment difference|Least Squares Mean Difference|-36.3|STANDARD_ERROR_OF_MEAN|9.56|||TWO_SIDED|95.0|-55.1|-17.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||-17.6|-55.1|
92249263|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1111|TWO_SIDED|95.0|-0.5|0.1||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.1|-0.5|0.1111
92249264|NCT01617187|184400568|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.24|TWO_SIDED|95.0|-0.5|0.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.1|-0.5|0.2400
92249265|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6205||||||P-value from Cochran Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.6205
92249266|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4829||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.4829
92249267|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3945||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.3945
92176464|NCT05321082|184246815|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0395|TWO_SIDED|95.0|0.6|0.99|||Regression, Cox|||The hazard ratio (HR) was estimated using a Cox proportional hazards model with treatment, baseline intake of AF (nintedanib) treatment, baseline HRCT pattern, age (continuous), baseline FVC % predicted, and baseline DLCO % predicted (corrected for hemoglobin) as covariates. Breslow's method was applied for tied event times. A two-sided p-value from the Wald test assessed the treatment effect. P-values were not adjusted for multiplicity.||0.99|0.60|0.0395
92249268|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4076||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.4076
92249269|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.969||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.9690
92249270|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.117||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.1170
92249271|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5088||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.5088
92249272|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3426||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.3426
92249273|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0762||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.0762
92249274|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5531||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.5531
92249275|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4875||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.4875
92249276|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0692||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.0692
92249277|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7482||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.7482
92249278|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8037||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.8037
92249279|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0859||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.0859
92249280|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.585||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.5850
92249281|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9698||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.9698
92249282|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0132||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.0132
92249283|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7129||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 42||||0.7129
92249284|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5074||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 42||||0.5074
92249285|NCT01617187|184400569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 42||||0.0040
92249286|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.4||0.8829|TWO_SIDED|95.0|-0.7|0.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||0.8|-0.7|0.8829
92249287|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.39||0.5488|TWO_SIDED|95.0|-0.5|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||1.0|-0.5|0.5488
92249288|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.783|TWO_SIDED|95.0|-1.1|0.8||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.8|-1.1|0.7830
92249289|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.45||0.807|TWO_SIDED|95.0|-1.0|0.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||0.8|-1.0|0.8070
92249290|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.44||0.528|TWO_SIDED|95.0|-1.1|0.6||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.6|-1.1|0.5280
92249291|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.57||0.4025|TWO_SIDED|95.0|-1.6|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.6|-1.6|0.4025
92249292|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.51||0.6471|TWO_SIDED|95.0|-0.8|1.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.2|-0.8|0.6471
92249293|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.49||0.2504|TWO_SIDED|95.0|-1.5|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.4|-1.5|0.2504
92176465|NCT05321082|184246816|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0258|TWO_SIDED|95.0|0.51|0.96|||Regression, Cox|||Analysis performed using a Cox proportional hazards model that included baseline antifibrotic therapy (AF group vs non-AF group), baseline HRCT pattern, age, baseline FVC % predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) % predicted (corrected for Hb) and treatment as covariates.||0.96|0.51|0.0258
92249294|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.62||0.9223|TWO_SIDED|95.0|-1.2|1.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||1.3|-1.2|0.9223
92249295|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.56||0.8839|TWO_SIDED|95.0|-1.0|1.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||1.2|-1.0|0.8839
92249296|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.54||0.8077|TWO_SIDED|95.0|-1.2|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.9|-1.2|0.8077
92249297|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.68||0.6216|TWO_SIDED|95.0|-1.0|1.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||1.7|-1.0|0.6216
92249298|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.5|STANDARD_ERROR_OF_MEAN|0.61||0.4248|TWO_SIDED|95.0|-0.7|1.7||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||1.7|-0.7|0.4248
92249299|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.58||0.7667|TWO_SIDED|95.0|-1.3|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||1.0|-1.3|0.7667
92249300|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.4|STANDARD_ERROR_OF_MEAN|0.72||0.6282|TWO_SIDED|95.0|-1.1|1.8||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||1.8|-1.1|0.6282
92249301|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.65||0.315|TWO_SIDED|95.0|-1.9|0.6||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||0.6|-1.9|0.3150
92249302|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.61||0.1908|TWO_SIDED|95.0|-2.0|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.4|-2.0|0.1908
92249303|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.77||0.3128|TWO_SIDED|95.0|-2.3|0.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.7|-2.3|0.3128
92249304|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.73||0.8812|TWO_SIDED|95.0|-1.5|1.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.3|-1.5|0.8812
92249305|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.69||0.1143|TWO_SIDED|95.0|-2.4|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.3|-2.4|0.1143
92249306|NCT01617187|184400570|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.84||0.4418|TWO_SIDED|95.0|-2.3|1.0||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||1.0|-2.3|0.4418
92249307|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.5|STANDARD_ERROR_OF_MEAN|0.4||0.216|TWO_SIDED|95.0|-0.3|1.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||1.3|-0.3|0.2160
92249308|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.9494|TWO_SIDED|95.0|-0.7|0.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.8|-0.7|0.9494
92249309|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.5||0.1834|TWO_SIDED|95.0|-1.6|0.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.3|-1.6|0.1834
92249310|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.53||0.6347|TWO_SIDED|95.0|-0.8|1.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||1.3|-0.8|0.6347
92249311|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.51||0.6917|TWO_SIDED|95.0|-1.2|0.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.8|-1.2|0.6917
92249312|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.0|STANDARD_ERROR_OF_MEAN|0.66||0.1431|TWO_SIDED|95.0|-2.3|0.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.3|-2.3|0.1431
92249313|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.61||0.6267|TWO_SIDED|95.0|-0.9|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.5|-0.9|0.6267
92249314|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.58||0.726|TWO_SIDED|95.0|-1.3|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.9|-1.3|0.7260
92249315|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.74||0.3326|TWO_SIDED|95.0|-2.2|0.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||0.7|-2.2|0.3326
92249316|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.5|STANDARD_ERROR_OF_MEAN|0.72||0.4575|TWO_SIDED|95.0|-0.9|1.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||1.9|-0.9|0.4575
92176466|NCT05321082|184246816|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0017|TWO_SIDED|95.0|0.43|0.82|||Regression, Cox|||Analysis performed using a Cox proportional hazards model that included baseline antifibrotic therapy (AF group vs non-AF group), baseline HRCT pattern, age, baseline FVC % predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) % predicted (corrected for Hb) and treatment as covariates.||0.82|0.43|0.0017
92176467|NCT05321082|184246817|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0237|TWO_SIDED|95.0|0.57|0.96|||Regression, Cox|||Analysis performed using a Cox proportional hazards model that included baseline antifibrotic therapy (AF group vs non-AF group), baseline HRCT pattern, age, baseline FVC % predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) % predicted (corrected for Hb) and treatment as covariates.||0.96|0.57|0.0237
92176468|NCT05321082|184246817|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0427|TWO_SIDED|95.0|0.59|0.99|||Regression, Cox|||Analysis performed using a Cox proportional hazards model that included baseline antifibrotic therapy (AF group vs non-AF group), baseline HRCT pattern, age, baseline FVC % predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) % predicted (corrected for Hb) and treatment as covariates.||0.99|0.59|0.0427
92176469|NCT05321082|184246818|SUPERIORITY||Mean Difference (Net)|81.14|||<|0.0001|TWO_SIDED|95.0|45.95|116.32|||Mixed Models Analysis|The Kenward-Roger method estimated denominator degrees of freedom and adjusted standard errors; tests used two-sided α per multiple testing strategy.|Adjusted mean difference in FVC change from baseline at Week 52 between the Nerandomilast 9 mg group and the Placebo group.|Based on a Mixed Model for Repeated Measures (MMRM), with fixed, categorical effects of treatment at each visit, baseline antifibrotic therapy at each visit, baseline HRCT pattern at each visit, the fixed continuous effects of baseline FVC \[mL\] at each visit and unstructured covariance for repeated measures. Baseline antifibrotic therapy and HRCT pattern as entered in the CRF pages were used as covariates.||116.32|45.95|<0.0001
92176470|NCT05321082|184246818|SUPERIORITY||Mean Difference (Net)|67.18||||0.0002|TWO_SIDED|95.0|31.91|102.46|||Mixed Models Analysis|The Kenward-Roger method estimated denominator degrees of freedom and adjusted standard errors; tests used two-sided α per multiple testing strategy.|Adjusted mean difference in FVC change from baseline at Week 52 between the Nerandomilast 18 mg group and the Placebo group.|Based on a Mixed Model for Repeated Measures (MMRM), with fixed, categorical effects of treatment at each visit, baseline antifibrotic therapy at each visit, baseline HRCT pattern at each visit, the fixed continuous effects of baseline FVC \[mL\] at each visit and unstructured covariance for repeated measures. Baseline antifibrotic therapy and HRCT pattern as entered in the CRF pages were used as covariates.||102.46|31.91|0.0002
92176471|NCT05321082|184246819|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0017|TWO_SIDED|95.0|0.34|0.78|||Regression, Cox|||Analysis performed using a Cox proportional hazards model that included baseline antifibrotic therapy (AF group vs non-AF group), baseline HRCT pattern, age, baseline FVC % predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) % predicted (corrected for Hb) and treatment as covariates.||0.78|0.34|0.0017
92176472|NCT05321082|184246819|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0018|TWO_SIDED|95.0|0.34|0.78|||Regression, Cox|||Analysis performed using a Cox proportional hazards model that included baseline antifibrotic therapy (AF group vs non-AF group), baseline HRCT pattern, age, baseline FVC % predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) % predicted (corrected for Hb) and treatment as covariates.||0.78|0.34|0.0018
92176473|NCT05321082|184246820|SUPERIORITY||Mean Difference (Net)|2.19|||<|0.0001|TWO_SIDED|95.0|1.15|3.23|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in predicted Forced Vital Capacity % between the Nerandomilast 9 mg group and the Placebo group at Week 52.|Based on MMRM, with fixed, categorical effects of treatment at each visit, baseline antifibrotic therapy at each visit, baseline HRCT pattern at each visit, the fixed continuous effects of baseline FVC \[% pred\] at each visit and unstructured covariance for repeated measures. Baseline antifibrotic therapy and HRCT pattern as entered in the CRF pages were used as covariates.||3.23|1.15|<0.0001
92176474|NCT05321082|184246820|SUPERIORITY||Mean Difference (Net)|1.94||||0.0003|TWO_SIDED|95.0|0.9|2.98|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in predicted Forced Vital Capacity % between the Nerandomilast 18 mg group and the Placebo group at Week 52.|Based on MMRM, with fixed, categorical effects of treatment at each visit, baseline antifibrotic therapy at each visit, baseline HRCT pattern at each visit, the fixed continuous effects of baseline FVC \[% pred\] at each visit and unstructured covariance for repeated measures. Baseline antifibrotic therapy and HRCT pattern as entered in the CRF pages were used as covariates.||2.98|0.90|0.0003
92249317|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.68||0.493|TWO_SIDED|95.0|-1.8|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.9|-1.8|0.4930
92176475|NCT05321082|184246821|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0018|TWO_SIDED|95.0|0.54|0.87|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), baseline HRCT pattern, age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||0.87|0.54|0.0018
92249318|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.86||0.1886|TWO_SIDED|95.0|-2.8|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||0.6|-2.8|0.1886
92249319|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.9|STANDARD_ERROR_OF_MEAN|0.8||0.2643|TWO_SIDED|95.0|-0.7|2.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||2.5|-0.7|0.2643
92283273|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.31||0.399|TWO_SIDED|95.0|-0.87|0.35|||MMRM model|||Interference score averaged Over Questions 9A - G: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain interference score as a covariate.||0.35|-0.87|0.399
92249320|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.76||0.3516|TWO_SIDED|95.0|-2.2|0.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||0.8|-2.2|0.3516
92249321|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.94||0.2068|TWO_SIDED|95.0|-3.1|0.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||0.7|-3.1|0.2068
92176476|NCT05321082|184246821|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0038|TWO_SIDED|95.0|0.56|0.89|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), baseline HRCT pattern, age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||0.89|0.56|0.0038
92249322|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.82||0.7284|TWO_SIDED|95.0|-1.3|1.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||1.9|-1.3|0.7284
92183051|NCT02434328|184264737|OTHER|Treatment difference|Least Squares Mean Difference|-30.8|STANDARD_ERROR_OF_MEAN|8.53|||TWO_SIDED|95.0|-47.6|-14.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 48||-14.1|-47.6|
92249323|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.77||0.2698|TWO_SIDED|95.0|-2.4|0.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.7|-2.4|0.2698
92183052|NCT02434328|184264737|OTHER|Treatment difference|Least Squares Mean Difference|-33.5|STANDARD_ERROR_OF_MEAN|8.84|||TWO_SIDED|95.0|-50.8|-16.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 96||-16.1|-50.8|
92249324|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.4|STANDARD_ERROR_OF_MEAN|0.96||0.151|TWO_SIDED|95.0|-3.3|0.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.5|-3.3|0.1510
92249325|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.88||0.8039|TWO_SIDED|95.0|-2.0|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.5|-2.0|0.8039
92249326|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.8|STANDARD_ERROR_OF_MEAN|0.83||0.0306|TWO_SIDED|95.0|-3.5|-0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||-0.2|-3.5|0.0306
92249327|NCT01617187|184400571|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.1|STANDARD_ERROR_OF_MEAN|1.03||0.0406|TWO_SIDED|95.0|-4.1|-0.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||-0.1|-4.1|0.0406
92176477|NCT05321082|184246822|SUPERIORITY||Mean Difference (Net)|-0.9||||0.3793|TWO_SIDED|95.0|-2.9|1.11|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in DLCO \[% pred\] between the Nerandomilast 9 mg group and the Placebo group at Week 52.|Analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment, baseline use of antifibrotic therapy, and the fixed continuous effects of baseline DLCO \[% pred\] at each visit. An unstructured covariance structure was used to model repeated measures within patients. Baseline use of antifibrotic therapy, as recorded in the concomitant medication case report form page (CRF), was included as a covariate.||1.11|-2.90|0.3793
92176478|NCT05321082|184246822|SUPERIORITY||Mean Difference (Net)|-0.49||||0.6354|TWO_SIDED|95.0|-2.5|1.53|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in DLCO \[% pred\] between the Nerandomilast 18 mg group and the Placebo group at Week 52.|Analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment, baseline use of antifibrotic therapy, and the fixed continuous effects of baseline DLCO \[% pred\] at each visit. An unstructured covariance structure was used to model repeated measures within patients. Baseline use of antifibrotic therapy, as recorded in the concomitant medication case report form page (CRF), was included as a covariate.||1.53|-2.50|0.6354
92176479|NCT05321082|184246823|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.2967|TWO_SIDED|95.0|0.65|1.14|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), baseline HRCT pattern, age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.14|0.65|0.2967
92176480|NCT05321082|184246823|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.4815|TWO_SIDED|95.0|0.68|1.2|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), baseline HRCT pattern, age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.20|0.68|0.4815
92176481|NCT05321082|184246824|SUPERIORITY||Mean Difference (Net)|-0.88||||0.4748|TWO_SIDED|95.0|-3.3|1.54|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Dyspnea score) between the Nerandomilast 9mg group and the Placebo group at Week 52.|Analysis was based on a Based on Mixed Model for Repeated Measures (MMRM), with fixed, categorical effects of treatment at each visit, baseline antifibrotic therapy at each visit, baseline HRCT pattern at each visit, the fixed continuous effects of baseline L-PF Dyspnea score at each visit and unstructured covariance for repeated measures. Baseline antifibrotic therapy and HRCT pattern as entered in the CRF pages were used as covariates.||1.54|-3.30|0.4748
92176482|NCT05321082|184246824|SUPERIORITY||Mean Difference (Net)|-1.27||||0.3042|TWO_SIDED|95.0|-3.69|1.15|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Dyspnea score) between the Nerandomilast 18 mg group and the Placebo group at Week 52.|Analysis was based on a Mixed Model for Repeated Measures (MMRM), with fixed, categorical effects of treatment at each visit, baseline antifibrotic therapy at each visit, baseline HRCT pattern at each visit, the fixed continuous effects of baseline L-PF Dyspnea score at each visit and unstructured covariance for repeated measures. Baseline antifibrotic therapy and HRCT pattern as entered in the CRF pages were used as covariates.||1.15|-3.69|0.3042
92176483|NCT05321082|184246825|SUPERIORITY||Mean Difference (Net)|-1.88|STANDARD_ERROR_OF_MEAN|1.63||0.2506|TWO_SIDED|95.0|-5.08|1.33|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Cough score) between the Nerandomilast 9 mg group and the Placebo group at Week 52.|Analysis was based on a Mixed Model for Repeated Measures (MMRM), with fixed, categorical effects of treatment at each visit, baseline antifibrotic therapy at each visit, baseline HRCT pattern at each visit, the fixed continuous effects of baseline L-PF Cough score at each visit and unstructured covariance for repeated measures. Baseline antifibrotic therapy and HRCT pattern as entered in the CRF pages were used as covariates.||1.33|-5.08|0.2506
92176484|NCT05321082|184246825|SUPERIORITY||Mean Difference (Net)|0.14||||0.9311|TWO_SIDED|95.0|-3.07|3.35|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Cough score) between the Nerandomilast 18 mg group and the Placebo group at Week 52.|Analysis was based on a Mixed Model for Repeated Measures (MMRM), with fixed, categorical effects of treatment at each visit, baseline antifibrotic therapy at each visit, baseline HRCT pattern at each visit, the fixed continuous effects of baseline L-PF Cough score at each visit and unstructured covariance for repeated measures. Baseline antifibrotic therapy and HRCT pattern as entered in the CRF pages were used as covariates.||3.35|-3.07|0.9311
92249328|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.66||0.7819|TWO_SIDED|95.0|-1.1|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||1.5|-1.1|0.7819
92249329|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.65||0.703|TWO_SIDED|95.0|-1.5|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||1.0|-1.5|0.7030
92249330|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.83||0.952|TWO_SIDED|95.0|-1.7|1.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||1.6|-1.7|0.9520
92249331|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.95||0.7907|TWO_SIDED|95.0|-2.1|1.6||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||1.6|-2.1|0.7907
92249332|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.4|STANDARD_ERROR_OF_MEAN|0.91||0.1391|TWO_SIDED|95.0|-3.1|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.4|-3.1|0.1391
92249333|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|1.18||0.4901|TWO_SIDED|95.0|-3.1|1.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||1.5|-3.1|0.4901
92249334|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|1.0||0.8079|TWO_SIDED|95.0|-1.7|2.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||2.2|-1.7|0.8079
92249335|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.95||0.3889|TWO_SIDED|95.0|-2.7|1.1||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||1.1|-2.7|0.3889
92249336|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.0|STANDARD_ERROR_OF_MEAN|1.21||0.3907|TWO_SIDED|95.0|-3.4|1.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||1.3|-3.4|0.3907
92249337|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.7|STANDARD_ERROR_OF_MEAN|1.15||0.5363|TWO_SIDED|95.0|-1.5|3.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||3.0|-1.5|0.5363
92249338|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|1.09||0.5075|TWO_SIDED|95.0|-2.9|1.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||1.4|-2.9|0.5075
92249339|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.0|STANDARD_ERROR_OF_MEAN|1.38||0.4526|TWO_SIDED|95.0|-3.7|1.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||1.7|-3.7|0.4526
92249340|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.8|STANDARD_ERROR_OF_MEAN|1.26||0.1548|TWO_SIDED|95.0|-0.7|4.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||4.3|-0.7|0.1548
92249341|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|1.19||0.6589|TWO_SIDED|95.0|-2.9|1.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||1.8|-2.9|0.6589
92249342|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.0|STANDARD_ERROR_OF_MEAN|1.48||0.5171|TWO_SIDED|95.0|-3.9|2.0||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||2.0|-3.9|0.5171
92249343|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|1.2||0.3133|TWO_SIDED|95.0|-3.6|1.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||1.2|-3.6|0.3133
92249344|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|1.13||0.1723|TWO_SIDED|95.0|-3.8|0.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.7|-3.8|0.1723
92249345|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.6|STANDARD_ERROR_OF_MEAN|1.42||0.0663|TWO_SIDED|95.0|-5.4|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.2|-5.4|0.0663
92249346|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|1.32||0.5128|TWO_SIDED|95.0|-3.5|1.7||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.7|-3.5|0.5128
92249347|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.2|STANDARD_ERROR_OF_MEAN|1.24||0.0842|TWO_SIDED|95.0|-4.6|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.3|-4.6|0.0842
92249348|NCT01617187|184400572|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.4|STANDARD_ERROR_OF_MEAN|1.52||0.1217|TWO_SIDED|95.0|-5.4|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||0.6|-5.4|0.1217
92176485|NCT05321082|184246826|SUPERIORITY||Mean Difference (Net)|0.05||||0.9668|TWO_SIDED|95.0|-2.46|2.57|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Fatigue score) between the Nerandomilast 9mg group and the Placebo group at Week 52.|Analysis was based on a Mixed Model for Repeated Measures (MMRM), with fixed, categorical effects of treatment at each visit, baseline antifibrotic therapy at each visit, baseline HRCT pattern at each visit, the fixed continuous effects of baseline L-PF Fatigue score at each visit and unstructured covariance for repeated measures. Baseline antifibrotic therapy and HRCT pattern as entered in the CRF pages were used as covariates.||2.57|-2.46|0.9668
92176486|NCT05321082|184246826|SUPERIORITY||Mean Difference (Net)|0.94||||0.4644|TWO_SIDED|95.0|-1.58|3.46|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Fatigue score) between the Nerandomilast 18 mg group and the Placebo group at Week 52.|Analysis was based on a Mixed Model for Repeated Measures (MMRM), with fixed, categorical effects of treatment at each visit, baseline antifibrotic therapy at each visit, baseline HRCT pattern at each visit, the fixed continuous effects of baseline L-PF Fatigue score at each visit and unstructured covariance for repeated measures. Baseline antifibrotic therapy and HRCT pattern as entered in the CRF pages were used as covariates.||3.46|-1.58|0.4644
92176487|NCT03532282|184246849|SUPERIORITY||coefficient beta for change trajectory|-0.15||||0.001|TWO_SIDED|||||The a-priori threshold for statistical significance was 0.05|Mixed Models Analysis|Mixed effects model incorporating all assessment time points.||||||0.001
92176488|NCT03532282|184246850|SUPERIORITY||coefficient beta for change trajectory|-0.01||||0.01|TWO_SIDED|||||The a-priori threshold for statistical significance was 0.05|Mixed Models Analysis|Mixed effects model incorporating all assessment time points.||||||0.01
92176489|NCT03532282|184246851|SUPERIORITY||coefficient beta for change trajectory|-0.24||||0.0006|TWO_SIDED|||||The a-priori threshold for statistical significance was 0.05|Mixed Models Analysis|Mixed effects model incorporating all assessment time points.||||||0.0006
92176490|NCT03532282|184246852|SUPERIORITY||coefficient beta for change trajectory|-0.04||||0.05|TWO_SIDED|||||The a-priori threshold for statistical significance was 0.05|Mixed Models Analysis|Mixed effects model incorporating all assessment time points.||||||0.05
92176491|NCT02505984|184246901|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92176492|NCT02505984|184246901|SUPERIORITY|||||||0.093|||||||Wilcoxon (Mann-Whitney)|||||||0.093
92176493|NCT02505984|184246901|SUPERIORITY|||||||0.077|||||||Wilcoxon (Mann-Whitney)|||||||0.077
92176494|NCT02505984|184246901|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
92176495|NCT02505984|184246902|SUPERIORITY||||||>|0.9|||||||Wilcoxon (Mann-Whitney)|||||||>0.9
92176496|NCT02505984|184246902|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
92176497|NCT02505984|184246903|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92176498|NCT02505984|184246903|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
92176499|NCT02505984|184246904|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.7
92176500|NCT02505984|184246904|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
92176501|NCT02505984|184246904|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
92176502|NCT04176601|184246908|SUPERIORITY||Mean Difference (Net)|4.32|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|95.0|1.49|7.15||||||||7.15|1.49|
92176503|NCT04176601|184246909|SUPERIORITY||Mean Difference (Net)|4.7|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|1.26|8.15||||||||8.15|1.26|
92176504|NCT04176601|184246910|SUPERIORITY||Mean Difference (Net)|3.68|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|1.59|6.14||||||||6.14|1.59|
92176505|NCT04299464|184246918|SUPERIORITY||Difference in Adjusted Mean|-0.432||||0.765|TWO_SIDED|80.0|-2.291|1.428|||ANCOVA|||||1.428|-2.291|0.7650
92176506|NCT04299464|184246918|SUPERIORITY||Difference in Adjusted Mean|-0.4444||||0.7517|TWO_SIDED|80.0|-2.25|1.363|||ANCOVA|||||1.363|-2.250|0.7517
92176507|NCT04299464|184246927|SUPERIORITY||Difference in Adjusted Mean|1.741||||0.6082|TWO_SIDED|80.0|-2.631|6.114|||ANCOVA|||||6.114|-2.631|0.6082
92176508|NCT04299464|184246927|SUPERIORITY||Difference in Adjusted Mean|-1.715||||0.6228|TWO_SIDED|80.0|-6.204|2.774|||ANCOVA|||||2.774|-6.204|0.6228
92176509|NCT04299464|184246928|SUPERIORITY||Difference in Adjusted Mean|-2.983||||0.1987|TWO_SIDED|80.0|-5.957|-0.009|||ANCOVA|||||-0.009|-5.957|0.1987
92176510|NCT04299464|184246928|SUPERIORITY||Difference in Adjusted Mean|-4.474||||0.046|TWO_SIDED|80.0|-7.326|-1.622|||ANCOVA|||||-1.622|-7.326|0.0460
92176511|NCT04299464|184246929|SUPERIORITY||Difference in Adjusted Means|1.279||||0.4746|TWO_SIDED|80.0|-1.021|3.578|||ANCOVA|||||3.578|-1.021|0.4746
92176512|NCT04299464|184246929|SUPERIORITY||Difference in Adjusted Means|2.697||||0.1244|TWO_SIDED|80.0|0.453|4.94|||ANCOVA|||||4.940|0.453|0.1244
92176513|NCT05907174|184246975|SUPERIORITY||B|-2.23||||0.023|TWO_SIDED||||||Regression, Linear|||||||0.023
92176514|NCT03916276|184246989|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce a greater proportion of people decreasing their dose relative to those increasing their dose during treatment.|||||>|0.05|||||||Chi-squared|||||||>.05
92176515|NCT03916276|184246990|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92176516|NCT03916276|184246991|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92176517|NCT03916276|184246992|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92176518|NCT03916276|184246993|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92176519|NCT03916276|184246994|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92176520|NCT03916276|184246995|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92249349|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.7|STANDARD_ERROR_OF_MEAN|0.39||0.0584|TWO_SIDED|95.0|0.0|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||1.5|-0.0|0.0584
92249350|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.38||0.5197|TWO_SIDED|95.0|-0.5|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||1.0|-0.5|0.5197
92249351|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.49||0.9693|TWO_SIDED|95.0|-0.9|1.0||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||1.0|-0.9|0.9693
92249352|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.56||0.6161|TWO_SIDED|95.0|-0.8|1.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||1.4|-0.8|0.6161
92249353|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.54||0.788|TWO_SIDED|95.0|-1.2|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.9|-1.2|0.7880
92249354|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.7||0.5526|TWO_SIDED|95.0|-1.8|1.0||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||1.0|-1.8|0.5526
92249355|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.67||0.7647|TWO_SIDED|95.0|-1.1|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.5|-1.1|0.7647
92249356|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.64||0.89|TWO_SIDED|95.0|-1.2|1.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||1.3|-1.2|0.8900
92249357|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.81||0.7097|TWO_SIDED|95.0|-1.9|1.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||1.3|-1.9|0.7097
92249358|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.6|STANDARD_ERROR_OF_MEAN|0.76||0.4601|TWO_SIDED|95.0|-0.9|2.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||2.1|-0.9|0.4601
92249359|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.72||0.6288|TWO_SIDED|95.0|-1.8|1.1||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||1.1|-1.8|0.6288
92283274|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.302||0.441|TWO_SIDED|95.0|-0.83|0.36|||MMRM model|||Interference score averaged Over Questions 9A - G: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain interference score as a covariate.||0.36|-0.83|0.441
92176521|NCT03916276|184246996|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92176522|NCT03916276|184246997|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92176523|NCT03916276|184246998|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||<|0.05|||||||ANOVA|||||||<.05
92176524|NCT03916276|184246999|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements|||||>|0.05|||||||ANOVA|||||||>.05
92176525|NCT03916276|184247000|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements|||||>|0.05|||||||ANOVA|||||||>.05
92176526|NCT03916276|184247001|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92176527|NCT03916276|184247002|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92176528|NCT03916276|184247003|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92176529|NCT03916276|184247004|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92249360|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.91||0.6099|TWO_SIDED|95.0|-2.3|1.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||1.3|-2.3|0.6099
92249361|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.9|STANDARD_ERROR_OF_MEAN|0.82||0.279|TWO_SIDED|95.0|-0.7|2.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||2.5|-0.7|0.2790
92176530|NCT03916276|184247005|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92283275|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.346||0.575|TWO_SIDED|95.0|-0.87|0.49|||MMRM model|||General Activity: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline general activity score as a covariate.||0.49|-0.87|0.575
92176531|NCT03209973|184247008|OTHER||||||<|0.0001||||||1-sided p-value was based on exact test of BGB-A317 versus historical rate of 0.35|Exact Binomial Test|Comparison with historical control values||||||<0.0001
92176532|NCT06415292|184247021|SUPERIORITY||||||<|0.001||||||The P-value reported here is the calculated p-value. The p-value theshold for significance was p =0.05|t-test, 2 sided|||||||<0.001
92176533|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-178.789|||<|0.0001|TWO_SIDED|95.0|-204.899|-152.678|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-152.678|-204.899|<.0001
92176534|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-184.391|||<|0.0001|TWO_SIDED|95.0|-211.184|-157.598|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-157.598|-211.184|<.0001
92176535|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-175.1|||<|0.0001|TWO_SIDED|95.0|-200.964|-149.237|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-149.237|-200.964|<.0001
92249362|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.77||0.4253|TWO_SIDED|95.0|-2.1|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||0.9|-2.1|0.4253
92249363|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.0|STANDARD_ERROR_OF_MEAN|0.96||0.3014|TWO_SIDED|95.0|-2.9|0.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||0.9|-2.9|0.3014
92249364|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.87||0.972|TWO_SIDED|95.0|-1.7|1.7||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||1.7|-1.7|0.9720
92249365|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.82||0.4758|TWO_SIDED|95.0|-2.2|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||1.0|-2.2|0.4758
92176536|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-161.576|||<|0.0001|TWO_SIDED|95.0|-187.543|-135.609|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-135.609|-187.543|<.0001
92176537|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-172.983|||<|0.0001|TWO_SIDED|95.0|-192.08|-153.886|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-153.886|-192.080|<.0001
92176538|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-3.585||||0.7781|TWO_SIDED|95.0|-28.572|21.401|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||21.401|-28.572|0.7781
92176539|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-7.764||||0.5457|TWO_SIDED|95.0|-32.993|17.465|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||17.465|-32.993|0.5457
92176540|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-175.203|||<|0.0001|TWO_SIDED|95.0|-220.445|-129.961|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-129.961|-220.445|<.0001
92183053|NCT02434328|184264738|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|0.0|0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||0.7|0.0|
92249366|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|1.03||0.4419|TWO_SIDED|95.0|-2.8|1.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||1.2|-2.8|0.4419
92249367|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.91||0.4762|TWO_SIDED|95.0|-2.4|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.1|-2.4|0.4762
92249368|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.4|STANDARD_ERROR_OF_MEAN|0.86||0.1046|TWO_SIDED|95.0|-3.1|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.3|-3.1|0.1046
92249369|NCT01617187|184400573|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|1.06||0.1411|TWO_SIDED|95.0|-3.7|0.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||0.5|-3.7|0.1411
92249370|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.2754|TWO_SIDED|95.0|-1.2|0.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||0.4|-1.2|0.2754
92249371|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.39||0.85|TWO_SIDED|95.0|-0.8|0.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.7|-0.8|0.8500
92249372|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.51||0.8439|TWO_SIDED|95.0|-1.1|0.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.9|-1.1|0.8439
92249373|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.51||0.4741|TWO_SIDED|95.0|-1.4|0.6||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||0.6|-1.4|0.4741
92176541|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-176.627|||<|0.0001|TWO_SIDED|95.0|-222.672|-130.582|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-130.582|-222.672|<.0001
92176542|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-171.515|||<|0.0001|TWO_SIDED|95.0|-216.626|-126.404|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-126.404|-216.626|<.0001
92176543|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-153.812|||<|0.0001|TWO_SIDED|95.0|-199.27|-108.354|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-108.354|-199.270|<.0001
92176544|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-165.22|||<|0.0001|TWO_SIDED|95.0|-195.898|-134.541|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-134.541|-195.898|<.0001
92176545|NCT04800211|184247036|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-22.815||||0.2188|TWO_SIDED|95.0|-59.223|13.593|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||13.593|-59.223|0.2188
92176546|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-248.311|||<|0.0001|TWO_SIDED|95.0|-286.423|-210.199|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-210.199|-286.423|<.0001
92183054|NCT02434328|184264738|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-0.1|0.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||0.6|-0.1|
92183055|NCT02434328|184264738|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|0.0|0.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||0.6|0.0|
92249374|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.49||0.2158|TWO_SIDED|95.0|-1.6|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.4|-1.6|0.2158
92249375|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.63||0.506|TWO_SIDED|95.0|-1.7|0.8||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.8|-1.7|0.5060
92283276|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.337||0.88|TWO_SIDED|95.0|-0.71|0.61|||MMRM model|||General Activity: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline general activity score as a covariate.||0.61|-0.71|0.880
92249376|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.56||0.9956|TWO_SIDED|95.0|-1.1|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.1|-1.1|0.9956
92249377|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.53||0.1624|TWO_SIDED|95.0|-1.8|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.3|-1.8|0.1624
92249378|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.68||0.7662|TWO_SIDED|95.0|-1.5|1.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||1.1|-1.5|0.7662
92249379|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.61||0.8363|TWO_SIDED|95.0|-1.3|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||1.1|-1.3|0.8363
92249380|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.58||0.2388|TWO_SIDED|95.0|-1.8|0.5||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.5|-1.8|0.2388
92249381|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.73||0.9435|TWO_SIDED|95.0|-1.5|1.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||1.4|-1.5|0.9435
92249382|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.6|STANDARD_ERROR_OF_MEAN|0.7||0.4267|TWO_SIDED|95.0|-0.8|1.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||1.9|-0.8|0.4267
92249383|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.65||0.681|TWO_SIDED|95.0|-1.6|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||1.0|-1.6|0.6810
92249384|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.82||0.7673|TWO_SIDED|95.0|-1.4|1.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||1.9|-1.4|0.7673
92249385|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.7||0.483|TWO_SIDED|95.0|-1.9|0.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||0.9|-1.9|0.4830
92183056|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|4.8|||TWO_SIDED|95.0|-11.6|7.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4||7.3|-11.6|
92249386|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.66||0.2128|TWO_SIDED|95.0|-2.1|0.5||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.5|-2.1|0.2128
92249387|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.83||0.1756|TWO_SIDED|95.0|-2.8|0.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.5|-2.8|0.1756
92249388|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.6|STANDARD_ERROR_OF_MEAN|0.72||0.4246|TWO_SIDED|95.0|-0.8|2.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||2.0|-0.8|0.4246
92249389|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.68||0.2873|TWO_SIDED|95.0|-2.1|0.6||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.6|-2.1|0.2873
92249390|NCT01617187|184400574|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.83||0.7308|TWO_SIDED|95.0|-1.9|1.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||1.4|-1.9|0.7308
92249391|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.4|STANDARD_ERROR_OF_MEAN|0.32||0.2116|TWO_SIDED|95.0|-0.2|1.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||1.0|-0.2|0.2116
92249392|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.31||0.9039|TWO_SIDED|95.0|-0.6|0.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.7|-0.6|0.9039
92249393|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.2959|TWO_SIDED|95.0|-1.2|0.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.4|-1.2|0.2959
92249394|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.5909|TWO_SIDED|95.0|-1.1|0.6||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||0.6|-1.1|0.5909
92249395|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.42||0.1489|TWO_SIDED|95.0|-1.4|0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.2|-1.4|0.1489
92249396|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.54||0.1|TWO_SIDED|95.0|-2.0|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.2|-2.0|0.1000
92249397|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.49||0.783|TWO_SIDED|95.0|-0.8|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.1|-0.8|0.7830
92249398|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.47||0.2679|TWO_SIDED|95.0|-1.4|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.4|-1.4|0.2679
92249399|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2321|TWO_SIDED|95.0|-1.9|0.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||0.5|-1.9|0.2321
92249400|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.56||0.7368|TWO_SIDED|95.0|-1.3|0.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||0.9|-1.3|0.7368
92249401|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.53||0.4606|TWO_SIDED|95.0|-1.4|0.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.7|-1.4|0.4606
92249402|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.66||0.3241|TWO_SIDED|95.0|-2.0|0.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||0.7|-2.0|0.3241
92249403|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.57||0.986|TWO_SIDED|95.0|-1.1|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||1.1|-1.1|0.9860
92249404|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.53||0.189|TWO_SIDED|95.0|-1.8|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||0.3|-1.8|0.1890
92249405|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.67||0.303|TWO_SIDED|95.0|-2.0|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||0.6|-2.0|0.3030
92249406|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.58||0.055|TWO_SIDED|95.0|-2.3|0.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||0.0|-2.3|0.0550
92249407|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.55||0.0415|TWO_SIDED|95.0|-2.2|0.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||-0.0|-2.2|0.0415
92249408|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.9|STANDARD_ERROR_OF_MEAN|0.69||0.0058|TWO_SIDED|95.0|-3.3|-0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||-0.6|-3.3|0.0058
92249409|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.62||0.0691|TWO_SIDED|95.0|-2.3|0.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||0.1|-2.3|0.0691
92249410|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|0.58||0.0063|TWO_SIDED|95.0|-2.7|-0.5||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||-0.5|-2.7|0.0063
92249411|NCT01617187|184400575|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.0|STANDARD_ERROR_OF_MEAN|0.71||0.0056|TWO_SIDED|95.0|-3.4|-0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||-0.6|-3.4|0.0056
92249412|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.34||0.7847|TWO_SIDED|95.0|-0.6|0.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||0.8|-0.6|0.7847
92183057|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|4.98|||TWO_SIDED|95.0|-13.6|6.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||6.0|-13.6|
92249413|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.33||0.5859|TWO_SIDED|95.0|-0.5|0.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.8|-0.5|0.5859
92183058|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|4.98|||TWO_SIDED|95.0|-14.3|5.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||5.3|-14.3|
92249414|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.43||0.6413|TWO_SIDED|95.0|-1.0|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.6|-1.0|0.6413
92249415|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.38||0.7307|TWO_SIDED|95.0|-0.6|0.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||0.9|-0.6|0.7307
92249416|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.37||0.7176|TWO_SIDED|95.0|-0.6|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.9|-0.6|0.7176
92249417|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.48||0.486|TWO_SIDED|95.0|-1.3|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.6|-1.3|0.4860
92249418|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.41||0.9321|TWO_SIDED|95.0|-0.8|0.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||0.8|-0.8|0.9321
92249419|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.39||0.7691|TWO_SIDED|95.0|-0.7|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.9|-0.7|0.7691
92249420|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.5||0.5694|TWO_SIDED|95.0|-1.3|0.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||0.7|-1.3|0.5694
92249421|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.45||0.5583|TWO_SIDED|95.0|-0.6|1.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||1.2|-0.6|0.5583
92249422|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.43||0.7307|TWO_SIDED|95.0|-0.7|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||1.0|-0.7|0.7307
92249423|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.54||0.1715|TWO_SIDED|95.0|-1.8|0.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||0.3|-1.8|0.1715
92249424|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.4|STANDARD_ERROR_OF_MEAN|0.55||0.4219|TWO_SIDED|95.0|-0.6|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||1.5|-0.6|0.4219
92249425|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.52||0.7437|TWO_SIDED|95.0|-0.9|1.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||1.2|-0.9|0.7437
92249426|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.65||0.311|TWO_SIDED|95.0|-1.9|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||0.6|-1.9|0.3110
92249427|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.9805|TWO_SIDED|95.0|-1.0|1.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||1.0|-1.0|0.9805
92249428|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.47||0.8741|TWO_SIDED|95.0|-1.0|0.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.8|-1.0|0.8741
92249429|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.58||0.3288|TWO_SIDED|95.0|-1.7|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.6|-1.7|0.3288
92249430|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.56||0.9336|TWO_SIDED|95.0|-1.0|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.1|-1.0|0.9336
92249431|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.52||0.1722|TWO_SIDED|95.0|-1.7|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.3|-1.7|0.1722
92249432|NCT01617187|184400576|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.64||0.1909|TWO_SIDED|95.0|-2.1|0.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||0.4|-2.1|0.1909
92249433|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.37||0.9851|TWO_SIDED|95.0|-0.7|0.7||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||0.7|-0.7|0.9851
92249434|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.36||0.4912|TWO_SIDED|95.0|-0.9|0.5||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.5|-0.9|0.4912
92249435|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.46||0.8559|TWO_SIDED|95.0|-1.0|0.8||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.8|-1.0|0.8559
92249436|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.41||0.5635|TWO_SIDED|95.0|-0.6|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||1.1|-0.6|0.5635
92249437|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.2321|TWO_SIDED|95.0|-1.3|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.3|-1.3|0.2321
92249438|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.52||0.8867|TWO_SIDED|95.0|-1.1|0.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.9|-1.1|0.8867
92249439|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.6|STANDARD_ERROR_OF_MEAN|0.42||0.1499|TWO_SIDED|95.0|-0.2|1.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.4|-0.2|0.1499
92249440|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.286|TWO_SIDED|95.0|-1.2|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.4|-1.2|0.2860
92249441|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.51||0.8978|TWO_SIDED|95.0|-1.1|0.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||0.9|-1.1|0.8978
92249442|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.0|STANDARD_ERROR_OF_MEAN|0.44||0.0283|TWO_SIDED|95.0|0.1|1.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||1.8|0.1|0.0283
92249443|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.41||0.8667|TWO_SIDED|95.0|-0.7|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.9|-0.7|0.8667
92249444|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.52||0.5044|TWO_SIDED|95.0|-0.7|1.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||1.4|-0.7|0.5044
92249445|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.4|STANDARD_ERROR_OF_MEAN|0.49||0.004|TWO_SIDED|95.0|0.5|2.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||2.4|0.5|0.0040
92249446|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.46||0.633|TWO_SIDED|95.0|-0.7|1.1||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||1.1|-0.7|0.6330
92249447|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.6|STANDARD_ERROR_OF_MEAN|0.57||0.2981|TWO_SIDED|95.0|-0.5|1.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||1.7|-0.5|0.2981
92249448|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.45||0.6556|TWO_SIDED|95.0|-0.7|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||1.1|-0.7|0.6556
92249449|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.43||0.2889|TWO_SIDED|95.0|-1.3|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.4|-1.3|0.2889
92249450|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.53||0.9399|TWO_SIDED|95.0|-1.1|1.0||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||1.0|-1.1|0.9399
92249451|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.54||0.8955|TWO_SIDED|95.0|-1.0|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.1|-1.0|0.8955
92249452|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.51||0.3681|TWO_SIDED|95.0|-1.5|0.5||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.5|-1.5|0.3681
92249453|NCT01617187|184400577|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.62||0.8215|TWO_SIDED|95.0|-1.4|1.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||1.1|-1.4|0.8215
92249454|NCT03337139|184400581|SUPERIORITY|||||||0.98||||||A priori threshold for statistical significance was p \<.05.|ANCOVA|||Comparing groups on 13 week weight loss, prior to randomization.||||.98
92249455|NCT03337139|184400581|SUPERIORITY|||||||0.75||||||A priori threshold for statistical significance was p \<.05.|ANCOVA|Controlling for Phase I weight loss||Comparing groups on 26 week weight loss||||.75
92249456|NCT03337139|184400581|SUPERIORITY|||||||0.02||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for Phase I weight loss||Comparing groups on 52 week weight loss||||.02
92249457|NCT03337139|184400582|SUPERIORITY|||||||0.12||||||A priori threshold for statistical significance was p \<.05.|ANCOVA|||Comparing groups on 13 week MVPA||||.12
92249458|NCT03337139|184400582|SUPERIORITY|||||||0.16||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for changes in Phase I MVPA||Comparing groups on 52 week MVPA||||.16
92249459|NCT03337139|184400583|SUPERIORITY|||||||0.43||||||A priori threshold for statistical significant was p\<.05.|Fisher Exact|||Comparing groups on 26 week retention rates||||.43
92249460|NCT03337139|184400583|SUPERIORITY|||||||0.48||||||A priori threshold for statistical significance was p\<.05.|Fisher Exact|||Comparing groups on 52 week retention rates.||||.48
92249461|NCT03337139|184400584|SUPERIORITY|||||||0.64||||||A priori threshold of statistical significance was p\<.05.|Permutation test|Permutation test (nonparametric test) was chosen due to the violation of t-test assumptions in the data set.||Comparing groups on phone calls completed in Phase II (52 weeks)||||.64
92249462|NCT03337139|184400584|SUPERIORITY|||||||0.499||||||A priori threshold for statistical significance was p\<.05.|Permutation test|Permutation test (nonparametric test) was chosen due to the violation of t-test assumptions in the data set.||Comparing groups on text messages completed in Phase II (52 weeks)||||.499
92249463|NCT03337139|184400585|SUPERIORITY|||||||0.86||||||A priori threshold for statistical significance was p\<.05.|Permutation test|Permutation test (nonparametric test) was chosen due to the violation of t-test assumptions in the data set.||Comparing groups on TAQ scores at 52 weeks||||.86
92249464|NCT03337139|184400586|SUPERIORITY|||||||0.002||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for Phase I engagement in self-monitoring||Comparing groups on percent days of self-monitoring of weight during Phase II||||.002
92249465|NCT03337139|184400586|SUPERIORITY|||||||0.001||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for Phase I engagement in self-monitoring||Comparing groups on percent days of self-monitoring of eating during Phase II||||.001
92249466|NCT03337139|184400586|SUPERIORITY|||||||0.25||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for Phase I engagement in self-monitoring||Comparing groups on percent days of self-monitoring of physical activity during Phase II||||.25
92249467|NCT03337139|184400587|SUPERIORITY|||||||0.005||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for Phase I perceived supportive accountability||Comparing groups on changes in perceived accountability during Phase II||||.005
92283277|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.368||0.978|TWO_SIDED|95.0|-0.73|0.71|||MMRM model|||Mood: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline mood score as a covariate.||0.71|-0.73|0.978
92249468|NCT02554253|184400597|SUPERIORITY|Pilot study||||||0.23|||||||Fisher Exact|||Raw scores converted to z-scores using published references. Percentage of patients experiencing a decline of \> 1 standard deviation was compared between groups using Fisher's exact test. The outcome of postoperative cognitive dysfunction (POCD) was defined a-priori as a decline of decline of \>1 standard deviation (i.e. z-score decline of \> 1) on at least 2 neurocognitive tests and was compared between groups using Fisher's exact test.||||0.23
92249469|NCT02554253|184400598|SUPERIORITY|||||||0.08|||||||Fisher Exact|||||||0.08
92249470|NCT02554253|184400599|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
92249471|NCT02559206|184400627|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.569||||0.0839|TWO_SIDED|95.0|-1.214|0.076|||mixed model repeated measures (MMRM)|||||0.076|-1.214|0.0839
92249472|NCT02559206|184400627|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.297||||0.3661|TWO_SIDED|95.0|-0.942|0.348|||MMRM|||||0.348|-0.942|0.3661
92249473|NCT02559206|184400627|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.286||||0.3869|TWO_SIDED|95.0|-0.936|0.363|||MMRM|||||0.363|-0.936|0.3869
92249474|NCT02559206|184400627|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.771||||0.0199|TWO_SIDED|95.0|-1.419|-0.123|||MMRM|||||-0.123|-1.419|0.0199
92249475|NCT02559206|184400627|SUPERIORITY|||||||0.0276||||||Trend test performed using linear contrast statement for each DR formulation with placebo.|Trend Test|||||||0.0276
92249476|NCT02559206|184400628|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.569||||0.0839|TWO_SIDED|95.0|-1.214|0.076|||MMRM|||||0.076|-1.214|0.0839
92249477|NCT02559206|184400628|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.455||||0.1669|TWO_SIDED|95.0|-1.102|0.191|||MMRM|||||0.191|-1.102|0.1669
92249478|NCT02559206|184400628|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.299||||0.3637|TWO_SIDED|95.0|-0.947|0.348|||MMRM|||||0.348|-0.947|0.3637
92249479|NCT02559206|184400628|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.258||||0.4333|TWO_SIDED|95.0|-0.905|0.389|||MMRM|||||0.389|-0.905|0.4333
92249480|NCT02559206|184400628|SUPERIORITY|||||||0.5528||||||Trend test performed using linear contrast statement for each DR formulation with placebo.|Trend Test|||||||0.5528
92249481|NCT02559206|184400629|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.992||||0.011|TWO_SIDED|95.0|0.228|1.756|||MMRM|||||1.756|0.228|0.0110
92249482|NCT02559206|184400629|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.048||||0.9013|TWO_SIDED|95.0|-0.716|0.812|||MMRM|||||0.812|-0.716|0.9013
92249483|NCT02559206|184400629|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.299||||0.4447|TWO_SIDED|95.0|-0.469|1.067|||MMRM|||||1.067|-0.469|0.4447
92249484|NCT02559206|184400629|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.662||||0.0904|TWO_SIDED|95.0|-0.104|1.428|||MMRM|||||1.428|-0.104|0.0904
92249485|NCT02559206|184400629|SUPERIORITY|||||||0.07||||||Trend test performed using linear contrast statement for each DR formulation with placebo.|Trend Test|||||||0.0700
92249486|NCT02559206|184400630|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.992||||0.011|TWO_SIDED|95.0|0.228|1.756|||MMRM|||||1.756|0.228|0.0110
92249487|NCT02559206|184400630|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.161||||0.6801|TWO_SIDED|95.0|-0.604|0.925|||MMRM|||||0.925|-0.604|0.6801
92249488|NCT02559206|184400630|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.095||||0.8069|TWO_SIDED|95.0|-0.861|0.67|||MMRM|||||0.670|-0.861|0.8069
92249489|NCT02559206|184400630|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.246||||0.5275|TWO_SIDED|95.0|-1.011|0.519|||MMRM|||||0.519|-1.011|0.5275
92249490|NCT02559206|184400630|SUPERIORITY|||||||0.4201||||||Trend test performed using linear contrast statement for each DR formulation with placebo.|Trend Test|||||||0.4201
92249491|NCT02559206|184400631|SUPERIORITY||Odds Ratio (OR)|1.71||||0.1663|TWO_SIDED|95.0|0.79|3.7|||Cochran-Mantel-Haenszel|||||3.70|0.79|0.1663
92249492|NCT02559206|184400631|SUPERIORITY||Odds Ratio (OR)|1.39||||0.4399|TWO_SIDED|95.0|0.61|3.17|||Cochran-Mantel-Haenszel|||||3.17|0.61|0.4399
92249493|NCT02559206|184400631|SUPERIORITY||Odds Ratio (OR)|1.27||||0.554|TWO_SIDED|95.0|0.57|2.85|||Cochran-Mantel-Haenszel|||||2.85|0.57|0.5540
92249494|NCT02559206|184400631|SUPERIORITY||Odds Ratio (OR)|2.39||||0.0262|TWO_SIDED|95.0|1.1|5.19|||Cochran-Mantel-Haenszel|||||5.19|1.10|0.0262
92249495|NCT02559206|184400631|SUPERIORITY|||||||0.0249||||||For each DR formulation, the Correlation Test p-values are obtained from the correlation statistic controlling for geographic region.|Correlation test|||||||0.0249
92249496|NCT02559206|184400632|SUPERIORITY||Odds Ratio (OR)|1.71||||0.1663|TWO_SIDED|95.0|0.79|3.7|||Cochran-Mantel-Haenszel|||||3.70|0.79|0.1663
92249497|NCT02559206|184400632|SUPERIORITY||Odds Ratio (OR)|1.13||||0.771|TWO_SIDED|95.0|0.49|2.58|||Cochran-Mantel-Haenszel|||||2.58|0.49|0.7710
92249498|NCT02559206|184400632|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8021|TWO_SIDED|95.0|0.48|2.58|||Cochran-Mantel-Haenszel|||||2.58|0.48|0.8021
92249499|NCT02559206|184400632|SUPERIORITY||Odds Ratio (OR)|0.89||||0.8011|TWO_SIDED|95.0|0.37|2.14|||Cochran-Mantel-Haenszel|||||2.14|0.37|0.8011
92249500|NCT02559206|184400632|SUPERIORITY|||||||0.8578||||||For each DR formulation, the Correlation Test p-values are obtained from the correlation statistic controlling for geographic region.|Correlation test|||||||0.8578
92249501|NCT03127852|184400672|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Poststudy between-group comparison of SF-36 physical component summary score.||||.48
92249502|NCT03127852|184400672|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||Poststudy between-group comparison of SF-36 mental component summary score.||||.73
92249503|NCT03127852|184400673|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Poststudy between-group comparison of self-reported number of hospital visits.||||.02
92249504|NCT03127852|184400673|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||Poststudy between-group comparison of self-reported emergency department visits.||||.12
92249505|NCT03127852|184400673|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||Poststudy between-group comparison of self-reported number of clinic visits.||||.39
92249506|NCT03127852|184400673|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Poststudy between-group comparison of self-reported number of family physician visits.||||.28
92249507|NCT03127852|184400674|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||Poststudy between-group comparison of SCHFI maintenance sub-scale.||||.74
92249508|NCT03127852|184400674|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Poststudy between-group comparison of SCHFI management sub-scale.||||.67
92249509|NCT03127852|184400674|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||Poststudy between-group comparison of SCHFI confidence sub-scale.||||.92
92249510|NCT03127852|184400675|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Poststudy between-group comparison of MLHFQ total score.||||.67
92249511|NCT03127852|184400675|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||Poststudy between-group comparison of MLHFQ physical domain score.||||.43
92249512|NCT03127852|184400675|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||Poststudy between-group comparison of MLHFQ emotional domain score.||||.64
92249513|NCT03127852|184400676|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||Poststudy between-group comparison of HADS anxiety sub-scale.||||.06
92249514|NCT03127852|184400676|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||Poststudy between-group comparison of HADS depression sub-scale.||||.77
92183059|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|5.12|||TWO_SIDED|95.0|-13.7|6.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||6.4|-13.7|
92249515|NCT03127852|184400677|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||Poststudy between-group comparison of SEMCD6.||||.13
92249516|NCT03518034|184400681|NON_INFERIORITY|Noninferiority margin in terms of HR is 1.5.|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.78|1.17|||||HR of AndroGel to placebo and 95% CI were estimated from Cox proportional-hazards regression model, with adjustment for pre-existing CVD.|The hazard ratio (HR) and 2-sided 95% confidence interval (CI) were calculated using a Cox proportional-hazards regression model, with adjustment for pre-existing cardiovascular disease (CVD) status. In this analysis, the time to event for a participant is defined as the time from randomization to the first component event of MACE. If a subject does not experience a MACE during the study, the time is right-censored at the time of participant's last available follow-up observation.||1.17|0.78|
92249517|NCT03518034|184400683|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.86|1.21|||||HR of AndroGel to placebo and 2-sided 95% CI were estimated from a Cox proportional-hazards regression model with adjustment of pre-existing CVD status.|The HR and 2-sided 95% CI were calculated using a Cox proportional-hazards regression model, with adjustment for pre-existing CVD status. In this analysis, the time to event for a participant is defined as the time from randomization to the first component event of CV safety endpoint. If a participant does not experience a CV safety endpoint during the study, the time is right-censored at the time of participant's last available follow-up observation.||1.21|0.86|
92249518|NCT03518034|184400684|SUPERIORITY||Hazard Ratio (HR)|1.62|||||TWO_SIDED|95.0|0.39|6.77|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior cardiovascular disease (CVD).|The high grade prostate cancer endpoint was analyzed using a discrete time proportional hazard regression model with event time intervals based on scheduled visits, and adjusting for pre-existing CVD status. The HR of AndroGel to Placebo and its 2-sided 95% CI were provided.||6.77|0.39|
92249519|NCT03518034|184400685|SUPERIORITY|||||||0.011||||||P-value is derived from the omnibus likelihood-ratio chi-square test of the current model versus the null (intercept) model using linear mixed regression model.|linear mixed regression model|Omnibus likelihood-ratio chi-square test from linear mixed regression model||A linear mixed regression model was used to analyze the change in PDQ-Q4 from baseline to months 6, 12, and 24, with the dependent variable being the change in PDQ-Q4 score. The model included fixed effects for treatment, visit, and the interaction between treatment and visit, while adjusting for baseline PDQ-Q4 score and pre-existing CVD status. An unstructured covariance matrix was used to account for correlations among repeated measures within-subject.||||0.011
92249520|NCT03518034|184400685|SUPERIORITY||LS Mean of Difference|0.49|||||TWO_SIDED|95.0|0.19|0.79|||||LS mean difference (AndroGel - Placebo) at month 6 was derived from linear mixed regression model.|Month 6 (results were derived from a linear mixed regression model that had a dependent variable of the change in PDQ-Q4 from baseline to months 6, 12, and 24. The model included fixed effects for treatment, visit, and the interaction between treatment and visit, while adjusting for baseline PDQ-Q4 score and pre-existing CV disease status. Additionally, an unstructured covariance matrix was used to account for correlations among repeated measures within participants).||0.79|0.19|
92249521|NCT03518034|184400685|SUPERIORITY||LS Mean of Difference|0.47|||||TWO_SIDED|95.0|0.11|0.83|||||LS mean difference (AndroGel - Placebo) at month 12 was derived from linear mixed regression model.|Month 12 (results were derived from a linear mixed regression model that had a dependent variable of the change in PDQ-Q4 from baseline to months 6, 12, and 24. The model included fixed effects for treatment, visit, and the interaction between treatment and visit, while adjusting for baseline PDQ-Q4 score and pre-existing CV disease status. Additionally, an unstructured covariance matrix was used to account for correlations among repeated measures within participants).||0.83|0.11|
92283278|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.358||0.877|TWO_SIDED|95.0|-0.65|0.76|||MMRM model|||Mood: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline mood score as a covariate.||0.76|-0.65|0.877
92249522|NCT03518034|184400685|SUPERIORITY||LS Mean of Difference|0.48|||||TWO_SIDED|95.0|-0.01|0.96|||||LS mean difference (AndroGel - Placebo) at month 24 was derived from linear mixed regression model.|Month 24 (results were derived from a linear mixed regression model that had a dependent variable of the change in PDQ-Q4 from baseline to months 6, 12, and 24. The model included fixed effects for treatment, visit, and the interaction between treatment and visit, while adjusting for baseline PDQ-Q4 score and pre-existing CV disease status. Additionally, an unstructured covariance matrix was used to account for correlations among repeated measures within participants).||0.96|-0.01|
92183060|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|5.11|||TWO_SIDED|95.0|-5.5|14.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||14.6|-5.5|
92249523|NCT03518034|184400686|SUPERIORITY||Risk Ratio (RR)|1.92|||||TWO_SIDED|95.0|0.96|3.86||||||Month 6 risk ratio of remission of LG-PDD in the AndroGel versus placebo group was estimated by a repeated measures generalized estimating equations (GEE) Poisson regression model with fixed effects for treatment, visit, treatment-visit interaction, pre- existing CVD, and an unstructured working correlation matrix to account for repeated measures at multiple visits.||3.86|0.96|
92249524|NCT03518034|184400686|SUPERIORITY||Risk Ratio (RR)|1.52|||||TWO_SIDED|95.0|0.64|3.63||||||Month 12 risk ratio of remission of LG-PDD in the AndroGel versus placebo group was estimated by a repeated measures generalized estimating equations (GEE) Poisson regression model with fixed effects for treatment, visit, treatment-visit interaction, pre- existing CVD, and an unstructured working correlation matrix to account for repeated measures at multiple visits.||3.63|0.64|
92249525|NCT03518034|184400686|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.42|1.94||||||Month 24 risk ratio of remission of LG-PDD in the AndroGel versus placebo group was estimated by a repeated measures generalized estimating equations (GEE) Poisson regression model with fixed effects for treatment, visit, treatment-visit interaction, pre- existing CVD, and an unstructured working correlation matrix to account for repeated measures at multiple visits.||1.94|0.42|
92249526|NCT03518034|184400686|SUPERIORITY|||||||0.197||||||The omnibus test p value is a test of the null hypothesis of no difference between AndroGel and placebo groups across all time points.|GEE Poisson regression model|||Risk ratio of remission of LG-PDD in the TRT versus placebo group was estimated by a repeated measures generalized estimating equations (GEE) Poisson regression model with fixed effects for treatment, visit, treatment-visit interaction, pre- existing CVD, and an unstructured working correlation matrix to account for repeated measures at multiple visits.||||0.197
92249527|NCT03518034|184400688|SUPERIORITY||Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|1.04|1.97|||||Cox proportional-hazards model.|The HR and 2-sided 95% CI were calculated using a Cox proportional-hazards regression model, with adjustment for pre-existing CVD status. In this analysis, the time to event for a subject is defined as the time from randomization to the first occurrence of a clinical fracture. If a subject does not experience a clinic fracture during the study, the follow-up time is right-censored at the time of subject's last available follow-up observation.||1.97|1.04|
92183061|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|5.35|||TWO_SIDED|95.0|-16.3|4.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||4.7|-16.3|
92183062|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|5.13|||TWO_SIDED|95.0|-13.1|7.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||7.0|-13.1|
92249528|NCT03518034|184400689|OTHER|||||||0.002||||||p-value is from an omnibus likelihood-ratio chi-square test of the current model versus the null (intercept) model using repeated measure log-binomial regression.|omnibus likelihood-ratio chi-square test|||Repeated measures log-binomial regression with effects for treatment, visit, treatment-by-visit interaction, and adjusted for pre-existing CVD, and an unstructured covariance matrix to account for correlations among repeated measures within-subject.||||0.002
92249529|NCT03518034|184400690|SUPERIORITY|||||||0.494||||||P-value is from an omnibus likelihood-ratio chi-square test of the current model versus the null (intercept) model using repeated measure log-binomial regression.|Repeated measures log-binomial regr.|||The risk ratio of progression to diabetes in the AndroGel versus placebo group was estimated by a repeated measures log-binomial regression with fixed effects for treatment, visit, treatment-visit interaction, and pre-existing CVD, and an unstructured covariance matrix to account for correlations among repeated measures within-subject.||||0.494
92183063|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|5.37|||TWO_SIDED|95.0|-12.6|8.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||8.5|-12.6|
92249530|NCT03518034|184400691|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.78|1.23|||||Cox proportional-hazards model adjusting for prior CVD.|||1.23|0.78|
92249531|NCT03518034|184400692|SUPERIORITY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.76|1.62|||||Cox proportional-hazards model adjusting for prior CVD.|||1.62|0.76|
92249532|NCT03518034|184400693|SUPERIORITY||Hazard Ratio (HR)|1.46|||||TWO_SIDED|95.0|0.92|2.32|||||Cox proportional-hazards model adjusting for prior CVD.|||2.32|0.92|
92249533|NCT03518034|184400694|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.56|1.51|||||Cox proportional-hazards model adjusting for prior CVD.|||1.51|0.56|
92249534|NCT03518034|184400695|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.55|2.31|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior CVD.|||2.31|0.55|
92249535|NCT03518034|184400696|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.47|2.42|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior CVD.|||2.42|0.47|
92249536|NCT03518034|184400697|SUPERIORITY||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|0.65|2.41|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior CVD.|||2.41|0.65|
92249537|NCT03518034|184400698|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.87|1.54|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior CVD.|||1.54|0.87|
92249538|NCT03518034|184400699|SUPERIORITY||Hazard Ratio (HR)|1.91|||||TWO_SIDED|95.0|0.95|3.84|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior CVD.|||3.84|0.95|
92249539|NCT04547998|184400725|SUPERIORITY|The difference in the proportion of responders (RECELL-Control) was tested for superiority of RECELL treatment (with a 10% superiority margin). For the null hypothesis to be rejected and super-superiority of RECELL to Control to be established, the lower limit of the 2-sided 95% CI of the difference in the proportion of responders (RECELL-Control) had to be greater than 10%.||||||0.012|||||||continuity-corrected method|Liu et al 2002||||||0.012
92249540|NCT04547998|184400726|SUPERIORITY||||||<|0.001||||||P-value based on Wilcoxon signed rank test at 2-sided 0.05 significance level. The Wilcoxon signed rank test was based on the following repigmentation categories: 0% to 25%, 26% to 50%, 51% to 79%, and 80% to 100%.|Wilcoxon (Mann-Whitney)|||||||<0.001
92249541|NCT04547998|184400727|SUPERIORITY|||||||1||||||2-sided (0.05 significance level), based on 19 participants with assessable color matching outcomes for both treatments|Wilcoxon (Mann-Whitney)|||||||1.000
92249542|NCT02007252|184400733|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.1037|||||||ANCOVA|||Month 3||||= 0.1037
92249543|NCT02007252|184400733|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.4806|||||||ANCOVA|||Month 12||||= 0.4806
92176547|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-247.572|||<|0.0001|TWO_SIDED|95.0|-280.904|-214.241|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-214.241|-280.904|<.0001
92176548|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-245.868|||<|0.0001|TWO_SIDED|95.0|-284.945|-206.791|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-206.791|-284.945|<.0001
92176549|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-234.942|||<|0.0001|TWO_SIDED|95.0|-271.603|-198.282|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-198.282|-271.603|<.0001
92176550|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-244.049|||<|0.0001|TWO_SIDED|95.0|-275.269|-212.829|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-212.829|-275.269|<.0001
92249544|NCT03325556|184400734|SUPERIORITY||Hazard Ratio (HR)|0.353|STANDARD_ERROR_OF_MEAN|0.3676||0.0023|TWO_SIDED|95.0|0.172|0.727||1-sided p-value reported. The protocol-defined O'Brien Flemming stopping boundary for the planned IA was a 1-sided p-value equal to 0.0033|Regression, Cox||Model included covariates for Treatment group, dementia subtype, and region, and robust sandwich-type variance estimator.|||0.727|0.172|0.0023
92249545|NCT03325556|184400735|SUPERIORITY||Hazard Ratio (HR)|0.452|STANDARD_ERROR_OF_MEAN|0.2812||0.0024|TWO_SIDED|95.0|0.261|0.785||1-sided p-value|Regression, Cox||Model included covariates for Treatment group, dementia subtype, and region, and robust sandwich-type variance estimator.|||0.785|0.261|0.0024
92249546|NCT00762268|184400742|SUPERIORITY_OR_OTHER|||||||1|||||||Regression, Linear|||||||1.0
92249547|NCT00762268|184400743|OTHER|||||||0.05|||||||Chi-squared|||Change from intake scores.||||0.05
92249548|NCT00762268|184400744|OTHER|||||||0.05|TWO_SIDED|95.0|||||Chi-squared|||||||0.05
92249549|NCT05034614|184400750|SUPERIORITY|||||||0.75|||||||Chi-squared|||||||.75
92249550|NCT03892707|184400756|SUPERIORITY|The between-group comparison on primary endpoint - change from baseline in pain intensity as measured on 0-10 points NRS scale at 10 days after the start of treatment was performed using analysis of covariance (ANCOVA). The difference between pain intensity at 10 days after the start of treatment and baseline (V3-V1) as response variable, treatment group as fixed factor and baseline pain intensity as a covariate was included into the model.|||||<|0.001|||||||ANCOVA|||"Since the superiority of one treatment over the other is investigated and taking into consideration that smaller negative values of the primary variable correspond to the greater reduction of pain, the statistical hypotheses are:~Null hypothesis (H0):~H0: μ2 - μ1 ≥ 0~Alternative hypothesis (HA):~HA: μ2 - μ1 \< 0, where μ1 и μ2 are the mean changes from baseline in pain intensity for (1) modern NSAIDs therapy and for (2) modern NSAIDs + Milgamma\\ Milgamma compositum therapy, correspondingly."||||<0.001
92249551|NCT03892707|184400757|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Changes from baseline in pain intensity measured on 0-10 points NRS scale at 5, 24 and 38 days after were compared between groups using ANCOVA models similar to those used for the analysis of the primary variable.||||<0.001
92249552|NCT03892707|184400758|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92249553|NCT03892707|184400759|SUPERIORITY|Between-group comparison was carried out using logistic regression with treatment group as fixed factor and baseline pain intensity as a covariate. Treatment effect was tested using the corresponding p-value.|||||<|0.001|||||||Regression, Logistic|||For Visit 2 (5 days after the start of treatment) relief in pain intensity was defined as 100%\*(pain intensity at baseline - pain intensity at Visit 2)/ pain intensity at baseline. The denominator for the proportion of patients was the number of patients with available pain intensity measurements after imputation using Last observation carried forward (LOCF) method.||||<0.001
92183064|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|5.15|||TWO_SIDED|95.0|-15.2|5.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||5.1|-15.2|
92249554|NCT03892707|184400759|SUPERIORITY|Between-group comparison was carried out using logistic regression with treatment group as fixed factor and baseline pain intensity as a covariate. Treatment effect was tested using the corresponding p-value.|||||<|0.001|||||||Regression, Logistic|||For Visit 3 (10 days after the start of treatment) relief in pain intensity was defined as 100%\*(pain intensity at baseline - pain intensity at Visit 3)/ pain intensity at baseline. The denominator for the proportion of patients was the number of patients with available pain intensity measurements after imputation using Last observation carried forward (LOCF) method.||||<0.001
92249555|NCT03892707|184400759|SUPERIORITY|Between-group comparison was carried out using logistic regression with treatment group as fixed factor and baseline pain intensity as a covariate. Treatment effect was tested using the corresponding p-value.||||||0.061|||||||Regression, Logistic|||For Visit 4 (24 days after the start of treatment) relief in pain intensity was defined as 100%\*(pain intensity at baseline - pain intensity at Visit 4)/ pain intensity at baseline. The denominator for the proportion of patients was the number of patients with available pain intensity measurements after imputation using Last observation carried forward (LOCF) method.||||0.061
92249556|NCT03892707|184400760|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Change from baseline in pain-related disability as measured by Roland Morris disability questionnaire at 10 days after the start of treatment was compared between groups using analysis of covariance (ANCOVA) model with treatment group as fixed factor and baseline value disability score as a covariate.||||<0.001
92249557|NCT03892707|184400761|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Episode of pain flare-up was defined as presence of at least 1 day with pain following a period without pain lasting at least 4 weeks . The denominator for the proportion was the number of FAS patients who had at least one pain-free period with approximately 4 weeks duration registered during the study.||||<0.001
92249558|NCT03892707|184400762|SUPERIORITY||Difference in proportion|28.6|||||TWO_SIDED|95.0|-3.6|60.7||||||Difference in proportion of patients with at least one pain flare-up resulting in consultancy with physician||60.7|-3.6|
92249559|NCT03892707|184400762|SUPERIORITY||Difference in proportion|-17.1|||||TWO_SIDED|95.0|-51.6|17.4||||||Difference in proportion of patients with at least one pain flare-up resulting in disruption of daily activity||17.4|-51.6|
92249560|NCT03892707|184400762|SUPERIORITY||Difference in proportion|25.7|||||TWO_SIDED|95.0|-4.1|55.5||||||Difference in proportion of patients with at least one pain flare-up resulting in NSAIDs intake||55.5|-4.1|
92249561|NCT03892707|184400763|SUPERIORITY|||||||0.986|||||||Wilcoxon (Mann-Whitney)|||NSAIDs intake during the study was analyzed. In order to calculate the total number of treatment days with NSAIDs, first, intersecting or adjacent records were collapsed, irrespective of the specific drug used; the duration of each of the resulting intake periods was determined as (End date - Start date + 1) and, finally, all individual duration values were summed up. In case medication intake was ongoing at the end of study, end date was imputed by the date of study completion.||||0.986
92249562|NCT03892707|184400766|SUPERIORITY|||||||0.921|||||||Wilcoxon (Mann-Whitney)|||Comparison of patient satisfaction with treatment between treatment groups after 5 days since the start of study treatment.||||0.921
92283279|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.354||0.079|TWO_SIDED|95.0|-1.32|0.07|||MMRM model|||Walking Ability: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline walking ability score as a covariate.||0.07|-1.32|0.079
92249563|NCT03892707|184400766|SUPERIORITY|||||||0.051|||||||Wilcoxon (Mann-Whitney)|||Comparison of patient satisfaction with treatment between treatment groups after 10 days since the start of study treatment||||0.051
92283280|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.345||0.163|TWO_SIDED|95.0|-1.16|0.2|||MMRM model|||Walking Ability: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline walking ability score as a covariate.||0.20|-1.16|0.163
92249564|NCT03892707|184400766|SUPERIORITY|||||||0.651|||||||Wilcoxon (Mann-Whitney)|||Comparison of patient satisfaction with treatment between treatment groups after 38 days since the start of study treatment||||0.651
92249565|NCT03892707|184400766|SUPERIORITY|||||||0.106|||||||Wilcoxon (Mann-Whitney)|||Comparison of patient satisfaction with treatment between treatment groups after 3 months since the start of study treatment||||0.106
92283281|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.344||0.875|TWO_SIDED|95.0|-0.73|0.62|||MMRM model|||Normal Work: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline normal work score as a covariate.||0.62|-0.73|0.875
92249566|NCT01807949|184400787|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|2.62||||0.0004|TWO_SIDED|95.0|1.18|4.06|||MMRM|||Analysis was performed using mixed-effects model for repeated measures (MMRM) model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (less than \[\<\] 18 versus greater than equal to \[\>=\]18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||4.06|1.18|0.0004
92249567|NCT01807949|184400787|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|||<|0.0001|TWO_SIDED|95.0|1.56|4.44|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||4.44|1.56|<0.0001
92249568|NCT01807949|184400788|SUPERIORITY_OR_OTHER||LS Mean Difference|4.42||||0.0007|TWO_SIDED|95.0|1.86|6.98|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||6.98|1.86|0.0007
92183065|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-17.0|3.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||3.8|-17.0|
92283282|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.335||0.914|TWO_SIDED|95.0|-0.69|0.62|||MMRM model|||Normal Work: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline normal work score as a covariate.||0.62|-0.69|0.914
92249569|NCT01807949|184400788|SUPERIORITY_OR_OTHER||LS Mean Difference|5.25|||<|0.0001|TWO_SIDED|95.0|2.69|7.81|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||7.81|2.69|<0.0001
92249570|NCT01807949|184400789|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|||<|0.0001|TWO_SIDED|95.0|0.23|0.59|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline BMI.||0.59|0.23|<0.0001
92249571|NCT01807949|184400789|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36||||0.0001|TWO_SIDED|95.0|0.17|0.54|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||0.54|0.17|0.0001
92183066|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|5.42|||TWO_SIDED|95.0|-13.4|7.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||7.9|-13.4|
92249572|NCT01807949|184400790|SUPERIORITY_OR_OTHER||LS Mean Difference|2.21||||0.1651|TWO_SIDED|95.0|-0.91|5.33|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline CFQ-R respiratory domain score.||5.33|-0.91|0.1651
92249573|NCT01807949|184400790|SUPERIORITY_OR_OTHER||LS Mean Difference|2.85||||0.0736|TWO_SIDED|95.0|-0.27|5.98|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||5.98|-0.27|0.0736
92249574|NCT01807949|184400791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9568|||<|0.0001|TWO_SIDED|95.0|1.8829|4.6431||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Cochran-Mantel-Haenszel|||Odds Ratio (OR) and 95% confidence intervals (Cis) are Mantel-Haenszel estimates. P values are from a Cochran-Mantel-Haenszel test stratified by sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||4.6431|1.8829|<0.0001
92249575|NCT01807949|184400791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3834||||0.0001|TWO_SIDED|95.0|1.5234|3.7286||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Cochran-Mantel-Haenszel|||Analysis was performed as described in Statistical Analysis 1.||3.7286|1.5234|0.0001
92249576|NCT01807949|184400792|SUPERIORITY_OR_OTHER||Event Rate Ratio|0.6912||||0.0116|TWO_SIDED|95.0|0.5187|0.9209||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Negative Binomial Regression|||Analysis was performed using regression analysis for a negative binomial distribution with sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70) as covariates with the logarithm of time on study as the offset.||0.9209|0.5187|0.0116
92249577|NCT01807949|184400792|SUPERIORITY_OR_OTHER||Event Rate Ratio|0.5659||||0.0002|TWO_SIDED|95.0|0.4191|0.7641||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Negative Binomial Regression|||Analysis was performed as described in Statistical Analysis 1.||0.7641|0.4191|0.0002
92249578|NCT01807949|184400793|SUPERIORITY_OR_OTHER||LS Mean Difference|1.13|||<|0.0001|TWO_SIDED|95.0|0.62|1.64|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline weight.||1.64|0.62|<0.0001
92249579|NCT01807949|184400793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.95||||0.0003|TWO_SIDED|95.0|0.43|1.46|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||1.46|0.43|0.0003
92249580|NCT01807949|184400794|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2313||||0.0005|TWO_SIDED|95.0|0.1037|0.3589|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline BMI z-score.||0.3589|0.1037|0.0005
92249581|NCT01807949|184400794|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2217||||0.0006|TWO_SIDED|95.0|0.0961|0.3473|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||0.3473|0.0961|0.0006
92249582|NCT01807949|184400795|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.716||||0.0384|TWO_SIDED||||||Cox Proportional Hazard Regression|||Analysis was performed using Cox proportional hazard regression, time is the time-to-first event or censoring, with adjustment for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||||0.0384
92249583|NCT01807949|184400795|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.533||||0.0003|TWO_SIDED||||||Cox Proportional Hazard Regression|||Analysis was performed as described in Statistical Analysis 1.||||0.0003
92249584|NCT01807949|184400796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6373||||0.0393|TWO_SIDED|95.0|0.416|0.9764|||Cochran-Mantel-Haenszel|||OR and 95% confidence intervals (CIs) are Mantel-Haenszel estimates. P values are from a Cochran-Mantel-Haenszel test stratified by sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||0.9764|0.4160|0.0393
92249585|NCT01807949|184400796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4429||||0.0002|TWO_SIDED|95.0|0.2863|0.6851|||Cochran-Mantel-Haenszel|||Analysis was performed as described in Statistical Analysis 1.||0.6851|0.2863|0.0002
92249586|NCT01807949|184400797|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0028||||0.7679|TWO_SIDED|95.0|-0.0211|0.0156|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline EQ-5D-3L index score.||0.0156|-0.0211|0.7679
92249587|NCT01807949|184400797|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0009||||0.9214|TWO_SIDED|95.0|-0.0192|0.0174|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||0.0174|-0.0192|0.9214
92249588|NCT01807949|184400798|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4||||0.1034|TWO_SIDED|95.0|-0.5|5.3|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline EQ-5D-3L VAS score.||5.3|-0.5|0.1034
92249589|NCT01807949|184400798|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3||||0.0262|TWO_SIDED|95.0|0.4|6.2|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||6.2|0.4|0.0262
92249590|NCT01807949|184400799|SUPERIORITY_OR_OTHER||LS Mean Difference|8.64||||0.0005|TWO_SIDED|95.0|3.77|13.51|||MMRM|||Effectiveness: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM effectiveness score.||13.51|3.77|0.0005
92249591|NCT01807949|184400799|SUPERIORITY_OR_OTHER||LS Mean Difference|11.61|||<|0.0001|TWO_SIDED|95.0|6.75|16.48|||MMRM|||Effectiveness: analysis was performed as described in Statistical Analysis 1.||16.48|6.75|<0.0001
92249592|NCT01807949|184400799|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.18||||0.0403|TWO_SIDED|95.0|-6.21|-0.14|||MMRM|||Side Effects: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM side effects score.||-0.14|-6.21|0.0403
92249593|NCT01807949|184400799|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.29||||0.0054|TWO_SIDED|95.0|-7.31|-1.28|||MMRM|||Side Effects: analysis was performed as described in Statistical Analysis 1.||-1.28|-7.31|0.0054
92249594|NCT01807949|184400799|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||1|TWO_SIDED|95.0|-4.07|4.07|||MMRM|||Convenience: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM convenience score.||4.07|-4.07|1.0000
92249595|NCT01807949|184400799|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.8777|TWO_SIDED|95.0|-3.74|4.37|||MMRM|||Convenience: analysis was performed as described in Statistical Analysis 1.||4.37|-3.74|0.8777
92249596|NCT01807949|184400799|SUPERIORITY_OR_OTHER||LS Mean Difference|4.64||||0.0668|TWO_SIDED|95.0|-0.32|9.61|||MMRM|||Global Satisfaction: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM global satisfaction score.||9.61|-0.32|0.0668
92249597|NCT01807949|184400799|SUPERIORITY_OR_OTHER||LS Mean Difference|7.16||||0.0045|TWO_SIDED|95.0|2.23|12.08|||MMRM|||Global Satisfaction: analysis was performed as described in Statistical Analysis 1.||12.08|2.23|0.0045
92249598|NCT00881361|184400873|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
92249599|NCT02141217|184400877|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of non-inferiority was based on Farrington and Manning method. The upper limit of two-sided 95% confidence interval of less than 10 % provide enough evidence to show the non-inferiority between the treatment arms.|Treatment Difference (percentage)|1.5|||||TWO_SIDED|95.0|-4.9|8.0||||||||8.0|-4.9|
92249600|NCT02141217|184400878|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of non-inferiority was based on Farrington and Manning method. The upper limit of two-sided 95% confidence interval of less than 10 % provide enough evidence to show the non-inferiority between the treatment arms.|Treatment Difference (percentage)|0.9|||||TWO_SIDED|95.0|-5.6|7.4||||||||7.4|-5.6|
92249601|NCT02141217|184400879|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of non-inferiority was based on Farrington and Manning method. The upper limit of two-sided 95% confidence interval of less than 10 % provide enough evidence to show the non-inferiority between the treatment arms.|Treatment Difference (percentage)|2.3|||||TWO_SIDED|95.0|-4.4|9.0||||||||9.0|-4.4|
92249602|NCT01628393|184400894|SUPERIORITY||||||<|0.0001||||||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.04944 level of significance to keep the overall level of significance at 0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
92176551|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-221.385|||<|0.0001|TWO_SIDED|95.0|-258.371|-184.398|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-184.398|-258.371|<.0001
92182540|NCT03147287|184264130|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.62|TWO_SIDED|90.0|0.79|1.55||We reported two-sided p-values corresponding to two-sided α level of 0.10. The test statistic and p-value were taken from the Cox proportional hazards model score test.|Log Rank|The SAP intended stratified tests and models, however one stratum was only 9 patients making implementation of stratification questionable.|We checked the proportional hazards assumption by visually assessing the plot of log( log(survival)) vs log of survival times according to treatment assignment for parallelism. This was done overall and according to stratum.|The primary objective was investigated by comparing the PFS distributions between two treatment arms using a logrank test with one-sided α level of 0.05 (H0: PFS1≤PFS2; HA: PFS1\>PFS2). Hazard ratios were estimated from a Cox PH model (F+P / F, so that HR\<1 indicates reduced hazard of PFS event with F+P), with two sided 90% CIs (Wald) to align with the design and testing.||1.55|0.79|0.62
92249603|NCT01628393|184400894|SUPERIORITY||||||<|0.0001||||||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.04944 level of significance to keep the overall level of significance at 0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
92249604|NCT01628393|184400895|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
92249605|NCT01628393|184400895|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
92249606|NCT01628393|184400896|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
92249607|NCT01628393|184400896|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
92249608|NCT01628393|184400897|SUPERIORITY||Rate Ratio|0.47||||0.0531|TWO_SIDED|95.0|0.22|1.01|||Poisson regression model|Adjusted for region, the number of relapses within 24 months prior to the study, and the absence or presence of GdE lesions at Baseline.|Rate ratio = Ozanimod / Placebo|||1.01|0.22|0.0531
92176552|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-233.626|||<|0.0001|TWO_SIDED|95.0|-261.113|-206.14|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-206.140|-261.113|<.0001
92176553|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|26.266||||0.1672|TWO_SIDED|95.0|-11.13|63.661|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||63.661|-11.130|0.1672
92249609|NCT01628393|184400897|SUPERIORITY||Rate Ratio|0.69||||0.2714|TWO_SIDED|95.0|0.36|1.34|||Poisson regression model|Adjusted for region, the number of relapses within 24 months prior to the study, and the absence or presence of GdE lesions at Baseline.|Rate ratio = Ozanimod / Placebo|||1.34|0.36|0.2714
92249610|NCT01226706|184400902|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||"A sample of 16 subjects per group was required to detect a mean difference of 50 mL in maximum capacity at cystoscopy between botulinum toxin and placebo at 90% power with a two-sided type I error of 5%.~Difference scores were computed for the primary outcome, which were then compared using the Wilcoxon- Mann-Whitney U test. This type of analysis was used to identify both between group differences and within group differences (over time) while using non-parametric statistics."||||.016
92249611|NCT01226706|184400903|SUPERIORITY_OR_OTHER|||||||0.152|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.152
92249612|NCT01226706|184400904|SUPERIORITY_OR_OTHER|||||||0.095|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.095
92249613|NCT01226706|184400905|SUPERIORITY_OR_OTHER|||||||0.067|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.067
92249614|NCT01226706|184400909|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.038
92249615|NCT01226706|184400910|SUPERIORITY_OR_OTHER|||||||0.095|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.095
92249616|NCT01226706|184400911|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.038
92249617|NCT01226706|184400915|SUPERIORITY_OR_OTHER|||||||0.904|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.904
92283283|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.351||0.219|TWO_SIDED|95.0|-0.26|1.12|||MMRM model|||Relations with Other People: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline relations with other people score as a covariate.||1.12|-0.26|0.219
92249618|NCT01226706|184400916|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.080
92249619|NCT01226706|184400917|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.230
92249620|NCT01226706|184400921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.021|TWO_SIDED|95.0|-2.1|-0.2|||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||-0.2|-2.1|0.021
92249621|NCT01226706|184400922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.007|TWO_SIDED|95.0|-2.1|-0.5|||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||-0.5|-2.1|0.007
92249622|NCT01226706|184400923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.013|TWO_SIDED|95.0|-2.0|-0.4|||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||-0.4|-2.0|0.013
92249623|NCT01226706|184400924|SUPERIORITY_OR_OTHER|||||||0.173|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.173
92283284|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.341||0.551|TWO_SIDED|95.0|-0.47|0.87|||MMRM model|||Relations with Other People: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline relations with other people score as a covariate.||0.87|-0.47|0.551
92249624|NCT01226706|184400925|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.051
92249625|NCT01226706|184400926|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.051
92249626|NCT01226706|184400927|SUPERIORITY_OR_OTHER|||||||0.557|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.557
92249627|NCT01226706|184400928|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.029
92249628|NCT01226706|184400929|SUPERIORITY_OR_OTHER|||||||0.132|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.132
92249629|NCT01226706|184400930|SUPERIORITY_OR_OTHER|||||||0.085|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.085
92249630|NCT01226706|184400931|SUPERIORITY_OR_OTHER|||||||0.099|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.099
92249631|NCT01226706|184400932|SUPERIORITY_OR_OTHER|||||||0.132|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.132
92249632|NCT01226706|184400933|SUPERIORITY_OR_OTHER|||||||0.072|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.072
92283285|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.339||0.005|TWO_SIDED|95.0|-1.63|-0.3|||MMRM model|||Sleep: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline sleep score as a covariate.||-0.30|-1.63|0.005
92249633|NCT01226706|184400934|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.230
92249634|NCT01226706|184400935|SUPERIORITY_OR_OTHER|||||||0.314|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.314
92249635|NCT01226706|184400936|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.013
92249636|NCT01226706|184400937|SUPERIORITY_OR_OTHER|||||||0.888|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.888
92249637|NCT04015440|184400941|OTHER|Linear Regression|||||<|0.001|||||||Regression, Linear|||||||<.001
92249638|NCT04015440|184400942|OTHER|Regression||||||0.027|||||||Regression, Linear|||||||.027
92249639|NCT04015440|184400943|OTHER|Logistic Regression||||||0.004|||||||Regression, Logistic|||||||.004
92249640|NCT01899677|184400952|SUPERIORITY_OR_OTHER|||||||0.32|||||||Mann whitney U|||Mann Whitney U test was used to compare cytokine levels between groups.||||0.32
92249641|NCT01899677|184400953|SUPERIORITY_OR_OTHER|||||||0.73|||||||Mann whitney U|||||||0.73
92249642|NCT01899677|184400954|SUPERIORITY_OR_OTHER|||||||0.66|||||||Mann whitney U|||||||0.66
92249643|NCT01899677|184400955|SUPERIORITY_OR_OTHER|||||||0.76|||||||Mann whitney U|||||||0.76
92249644|NCT02151682|184400966|NON_INFERIORITY|A logistic regression model was fitted to the response using baseline pain, age group, treatment, and underlying pain condition as explanatory variables, followed by a Farrington-Manning test for non-inferiority, based on Full Analysis Set.|Risk Difference (RD)|-0.06||||0.079|TWO_SIDED|80.0|-0.19|0.06||The p-value is based on Farrington-Manning variance estimator using a pre-specified non-inferiority margin of -0.2. A 1-sided alpha of 0.1 was used. A p-value \<0.1 represents non-inferiority.|Farrington-Manning test|Non-inferiority of tapentadol prolonged-release versus morphine prolonged-release has been demonstrated.|A confidence interval for the risk difference (RD) completely above the pre-specified non-inferiority margin of -0.2 represents non-inferiority of tapentadol prolonged-release versus morphine prolonged-release.|||0.06|-0.19|0.0790
92283286|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.329||0.002|TWO_SIDED|95.0|-1.68|-0.39|||MMRM model|||Sleep: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline sleep score as a covariate.||-0.39|-1.68|0.002
92283287|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.361||0.955|TWO_SIDED|95.0|-0.73|0.69|||MMRM model|||Enjoyment of Life: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline enjoyment of life score as a covariate.||0.69|-0.73|0.955
92182541|NCT03147287|184264131|SUPERIORITY|||||||1||||||P-value is two sided, for hypothesis test with two-sided α=0.10|Fisher Exact|||The objective response was reported with two-sided 90% CI and compared between two treatment arms using a (unstratified) Fisher's exact test;||||1.000
92249645|NCT02988219|184400985|SUPERIORITY_OR_OTHER|||||||0.3861|||||||Chi-squared|||Bradycardia during surgery||||0.3861
92182542|NCT03137459|184264138|SUPERIORITY||Risk Difference (RD)|0.059|||||TWO_SIDED|95.0|0.014|0.105|||||Analysis performed using GEE to account for clustering of participants within practices.|||.105|.014|
92249646|NCT02988219|184400985|SUPERIORITY_OR_OTHER|||||||0.2591|||||||Chi-squared|||No bradycardia observed in the perioperative period||||0.2591
92249647|NCT02988219|184400986|SUPERIORITY_OR_OTHER|||||||0.597|||||||Chi-squared|||Arrhythmia before surgery||||0.597
92249648|NCT02988219|184400986|SUPERIORITY_OR_OTHER|||||||0.4|||||||Chi-squared|||arrhythmia during surgery||||0.4
92249649|NCT02988219|184400986|SUPERIORITY_OR_OTHER|||||||0.6544|||||||Chi-squared|||arrhythmia after surgery||||0.6544
92249650|NCT02988219|184400986|SUPERIORITY_OR_OTHER|||||||0.077|||||||Chi-squared|||long QTc \> 0.45s after surgery||||0.077
92249651|NCT02988219|184400986|SUPERIORITY_OR_OTHER|||||||0.0174|||||||Chi-squared|||long QTc \> 0.24 s in the perioperative time||||0.0174
92176554|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-40.051||||0.014|TWO_SIDED|95.0|-71.881|-8.221|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-8.221|-71.881|0.0140
92182543|NCT03137459|184264138|SUPERIORITY||Odds Ratio (OR)|1.83|||||TWO_SIDED|95.0|1.14|2.93|||||Determined using mixed effects models, accounting for clustering of participants in practices and adjusting for unbalanced covariates: education, employment, stage of change for each ACP behavior|||2.93|1.14|
92249652|NCT01306032|184400988|SUPERIORITY_OR_OTHER|||||||0.034|||||||Log Rank|||||||0.034
92249653|NCT01306032|184400988|SUPERIORITY_OR_OTHER|||||||0.68|||||||Log Rank|||||||0.68
92249654|NCT01522443|184401001|SUPERIORITY_OR_OTHER|||||||0.773|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel (CMH) was stratified by the Eastern Cooperative Oncology Group performance status and prior cabazitaxel use.||||||0.773
92249655|NCT01522443|184401002|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel (CMH) Test was stratified by baslined Eastern Cooperative Oncology Group performance status and prior cabazitaxel use.||||||<0.001
92249656|NCT01522443|184401003|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.121|TWO_SIDED|95.0|0.44|1.1|||Log Rank|The Log-Rank Test was stratified by baseline Eastern Cooperative Oncology Group performance status and prior cabazitaxel use.||||1.10|0.44|0.121
92249657|NCT01700985|184401007|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92249658|NCT01700985|184401008|SUPERIORITY||||||<|0.0001||||||At Day 15.|Fisher Exact|||||||<0.0001
92249659|NCT01700985|184401009|SUPERIORITY||||||<|0.0001||||||At Day 15.|Fisher Exact|||||||<0.0001
92249660|NCT00067470|184401016|SUPERIORITY_OR_OTHER||Mean Difference (Net)|92.0|STANDARD_ERROR_OF_MEAN|40.0||0.025||95.0|11.0|172.0|||Regression, Linear|||||172|11|0.025
92249661|NCT00067470|184401017|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.7|STANDARD_ERROR_OF_MEAN|2.9||0.053||95.0|-0.1|11.5|||Regression, Linear|The raw data were adjusted for the observed differences in baseline between the groups and fitted to a longitudinal repeated measures linear model.||||11.5|-0.1|0.053
92176555|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-42.635||||0.0288|TWO_SIDED|95.0|-80.785|-4.484|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-4.484|-80.785|0.0288
92176556|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-274.577|||<|0.0001|TWO_SIDED|95.0|-345.428|-203.726|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-203.726|-345.428|<.0001
92176557|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-207.521|||<|0.0001|TWO_SIDED|95.0|-269.198|-145.844|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-145.844|-269.198|<.0001
92176558|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-203.233|||<|0.0001|TWO_SIDED|95.0|-275.683|-130.784|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-130.784|-275.683|<.0001
92182544|NCT03137459|184264139|SUPERIORITY||Risk Difference (RD)|0.082|||||TWO_SIDED|95.0|0.014|0.15|||||Adjusted for clustering|||.150|.014|
92182545|NCT03137459|184264139|SUPERIORITY||Odds Ratio (OR)|1.39|||||TWO_SIDED|95.0|0.96|2.0|||||Accounting for clustering and adjusted for covariates as described in primary outcome|||2.0|.96|
92249662|NCT01148693|184401019|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||Null hypothesis: Adding gentamicin to contrast medium during ERCP has no relation with postERCP cholangitis Power calculation: 80%||||<0.05
92283288|NCT04455633|184470336|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.351||0.777|TWO_SIDED|95.0|-0.79|0.59|||MMRM model|||Enjoyment of Life: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline enjoyment of life score as a covariate.||0.59|-0.79|0.777
92182546|NCT03137459|184264140|SUPERIORITY||Risk Difference (RD)|0.133|||||TWO_SIDED|95.0|0.066|0.201|||||Accounting for clustering|||.201|.066|
92182547|NCT03137459|184264140|SUPERIORITY||Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|1.22|2.47|||||Accounting for clustering and adjusted for covariates as presenting for primary outcome|||2.47|1.22|
92182548|NCT03137459|184264141|SUPERIORITY||Risk Difference (RD)|0.07|||||TWO_SIDED|95.0|-0.05|0.188||||||||.188|-.05|
92249663|NCT03970824|184401123|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|105.79|||||TWO_SIDED|90.0|97.19|115.16||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||115.16|97.19|
92249664|NCT03970824|184401123|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|92.63|||||TWO_SIDED|90.0|85.29|100.61||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||100.61|85.29|
92249665|NCT03970824|184401123|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|98.0|||||TWO_SIDED|90.0|90.06|106.63||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||106.63|90.06|
92249666|NCT03970824|184401124|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|107.3|||||TWO_SIDED|90.0|98.29|117.13||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||117.13|98.29|
92249667|NCT03970824|184401124|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|93.93|||||TWO_SIDED|90.0|86.08|102.5||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||102.50|86.08|
92249668|NCT03970824|184401124|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|100.79|||||TWO_SIDED|90.0|92.42|109.92||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||109.92|92.42|
92249669|NCT03970824|184401125|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|101.89|||||TWO_SIDED|90.0|95.33|108.89||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||108.89|95.33|
92283289|NCT04455633|184470338|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.163||0.031|TWO_SIDED|95.0|-0.67|-0.03|||ANOVA|||Analysis of variance (ANOVA) model was used for the analysis with treatment and the randomization stratum of baseline pain severity (moderate, severe) as fixed covariates.||-0.03|-0.67|0.031
92283290|NCT04455633|184470338|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.165||0.351|TWO_SIDED|95.0|-0.48|0.17|||ANOVA|||ANOVA model was used for the analysis with treatment and the randomization stratum of baseline pain severity (moderate, severe) as fixed covariates.||0.17|-0.48|0.351
92249670|NCT03970824|184401125|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|98.2|||||TWO_SIDED|90.0|91.91|104.92||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||104.92|91.91|
92249671|NCT03970824|184401125|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|100.05|||||TWO_SIDED|90.0|93.69|106.85||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||106.85|93.69|
92249672|NCT02146248|184401133|SUPERIORITY_OR_OTHER|||||||0.4795||||||The two-tailed P value equals 0.4795|McNemar|||McNemar paired. Hypothesis is no change in tubal patency status. All subjects know to have bilateral patency in one of the exams during natural cycle||||0.4795
92283291|NCT01027780|184470403|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||Please note that this analysis tested the differences between groups following the intervention.|GEE|Generalized estimating equations (GEE) approach was used to assess robustness of population parameters, such as treatment effects.||||||.007
92283292|NCT01027780|184470404|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||Note that this is the p value for differences between groups immediately following the intervention|GEE|Generalized estimating equations (GEE) approach was used to assess robustness of population parameters, such as treatment effects.||||||.04
92249673|NCT00425100|184401138|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0|STANDARD_DEVIATION|3.1|<|0.0001||95.0|-3.2|-2.7||All paired t-tests were performed with a two-sided test at significance level of 5%. Efficacy was claimed only when all 3 primary diary endpoints demonstrated statistical significance in change from baseline to Week 12.|2-sided paired t-test|paired t-test comparing baseline with post-baseline values||Open-label study with statistical comparison between baseline and Week 12. Null hypothesis: The mean change from baseline in number of micturition episodes per 24 hours at Week 12 is equal to 0. The sample size was based on a statistical power for each of the three individual diary endpoints of .95 which would yield an overall power of 85%.||-2.7|-3.2|<0.0001
92283293|NCT01027780|184470405|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Difference between groups following intervention|ANOVA|||||||.03
92283294|NCT00365300|184470415|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.004||||1|||||||Fisher Exact|||||||1.0
92249674|NCT00425100|184401139|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|2.4|<|0.0001||95.0|-2.0|-1.4||All paired t-tests were performed with a two-sided test at significance level of 5%. Efficacy was claimed only when all 3 primary diary endpoints demonstrated statistical significance in change from baseline to Week 12.|2-sided paired t-test|paired t-test comparing baseline with post-baseline values||Open-label study with statistical comparison between baseline and Week 12. Null hypothesis: The mean change from baseline in number of urgency urinary incontinence per 24 hours is equal to 0. The sample size was based on a statistical power for each of the three individual diary endpoints of .95 which would yield an overall power of 85%.||-1.4|-2.0|<0.0001
92249675|NCT00425100|184401140|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.0|STANDARD_DEVIATION|4.8|<|0.0001||95.0|-5.4|-4.5||All paired t-tests were performed with a two-sided test at significance level of 5%. Efficacy was claimed only when all 3 primary diary endpoints demonstrated statistical significance in change from baseline to Week 12.|2-sided paired t-test|paired t-test comparing baseline with post-baseline values||Open-label study with statistical comparison between baseline and Week 12. Null hypothesis: The mean change from baseline in number of urgency episodes per 24 hours is equal to 0. The sample size was based on a statistical power for each of the three individual diary endpoints of .95 which would yield an overall power of 85%.||-4.5|-5.4|<0.0001
92249676|NCT00425100|184401142|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|1.2|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2 sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92249677|NCT00425100|184401143|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.5|STANDARD_DEVIATION|4.1|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92249678|NCT00425100|184401144|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|0.7|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92249679|NCT00425100|184401145|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_DEVIATION|1.3|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92283295|NCT01029353|184470416|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.87|1.14|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis. Model included treatment, baseline risk of death or NDI, and pre-operative diagnosis (Necrotizing Enterocolitis (NEC) or Isolated Intestinal Perforation (IP)) as covariates.||1.14|0.87|
92249680|NCT00425100|184401147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|0.7|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92249681|NCT00425100|184401149|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.6|STANDARD_DEVIATION|26.4|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92249682|NCT00425100|184401150|SUPERIORITY_OR_OTHER||Mean Difference (Net)|30.6|STANDARD_DEVIATION|26.6|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92182549|NCT03137459|184264141|SUPERIORITY||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.72|1.85|||||Accounting for clustering and adjusting for covariates as described for primary outcome|||1.85|.72|
92182550|NCT04921358|184264160|OTHER||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.75|1.39|||||Hazard ratio and 95% confidence intervals (CIs) were estimated using a Cox regression model stratified by histological subtype (nonsquamous vs squamous), race (Asian vs Non-Asian) and PD-L1 expression (\<1% Tumor Cells (TC) vs \>=1% TC).|||1.39|0.75|
92182551|NCT04921358|184264161|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.62|1.07|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by histological subtype (nonsquamous vs squamous), race (Asian vs Non-Asian) and PD-L1 expression (\<1% TC vs \>=1% TC).|||1.07|0.62|
92182552|NCT04921358|184264162|OTHER||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.5|0.83|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by histological subtype (nonsquamous vs squamous), race (Asian vs Non-Asian) and PD-L1 expression (\<1% TC vs \>=1% TC).|||0.83|0.50|
92249683|NCT00425100|184401151|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.9|STANDARD_DEVIATION|27.3|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92249684|NCT00425100|184401152|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.8|STANDARD_DEVIATION|21.1|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92249685|NCT00425100|184401153|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.1|STANDARD_DEVIATION|22.8|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92249686|NCT00425100|184401154|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.7|STANDARD_DEVIATION|22.7|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92249687|NCT00425100|184401156|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.2|STANDARD_DEVIATION|14.2|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
92249688|NCT01714817|184401210|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.08||||0.7264|TWO_SIDED|95.0|0.7077|1.6421|||Stratified logistic regression||Abatacept IV:Placebo IV 95%CI for Odds Ratio|||1.6421|0.7077|0.7264
92249689|NCT01714817|184401211|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.4148|1.5956|||||Abatacept IV:Placebo IV|||1.5956|0.4148|
92249690|NCT01714817|184401212|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-0.17||||0.571|TWO_SIDED|95.0|-0.76|0.42|||Mixed Models Analysis||Adjusted mean difference from placebo|||0.42|-0.76|0.571
92249691|NCT01714817|184401213|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-0.09||||0.561|TWO_SIDED|95.0|-0.41|0.22|||Mixed Models Analysis||Adjusted mean difference from placebo|||0.22|-0.41|0.561
92249692|NCT01714817|184401216|SUPERIORITY||Estimate of Difference|1.651|||||TWO_SIDED|95.0|-7.595828|10.897784||||||CR - Day 365||10.897784|-7.595828|
92249693|NCT01714817|184401216|SUPERIORITY||Estimate of Difference|-0.8828|||||TWO_SIDED|95.0|-8.848056|7.082461||||||PR - Day 365||7.082461|-8.848056|
92249694|NCT01714817|184401216|SUPERIORITY||Estimate of Difference|-0.7682|||||TWO_SIDED|95.0|-10.446714|8.910353||||||NR - Day 365||8.910353|-10.446714|
92249695|NCT01714817|184401225|SUPERIORITY|Day 365|Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|0.3251|6.2849||||||||6.2849|0.3251|
92249696|NCT01714817|184401225|SUPERIORITY|Day 729|Estimate of Difference vs Drug|3.4|||||TWO_SIDED|95.0|-8.4|15.1||||||||15.1|-8.4|
92249697|NCT01714817|184401245|SUPERIORITY||Estimate of Difference|-0.9682|||||TWO_SIDED|95.0|-4.760178|2.823876||||||Lupus treatment failure - Day 365||2.823876|-4.760178|
92249698|NCT01714817|184401245|SUPERIORITY||Estimate of Difference|-0.4707|||||TWO_SIDED|95.0|-4.588691|3.647365||||||Overall treatment failure - Day 365||3.647365|-4.588691|
92249699|NCT01714817|184401245|SUPERIORITY|Lupus treatment failure - Day 729|Estimate of Difference|0.8|||||TWO_SIDED|95.0|-4.5|6.1||||||||6.1|-4.5|
92249700|NCT01714817|184401245|SUPERIORITY|Overall treatment failure - Day 729|Estimate of Difference|2.7|||||TWO_SIDED|95.0|-3.3|8.8||||||||8.8|-3.3|
92249701|NCT02555657|184401260|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0574|TWO_SIDED|95.0|0.57|1.06|||Regression, Cox|||||1.06|0.57|0.0574
92249702|NCT02555657|184401261|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0728|TWO_SIDED|95.0|0.69|1.06|||Regression, Cox|||||1.06|0.69|0.0728
92249703|NCT02555657|184401262|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.3802|TWO_SIDED|95.0|0.82|1.15|||Regression, Cox|||||1.15|0.82|0.3802
92249704|NCT02555657|184401263|SUPERIORITY||Difference in percentages|8.3||||0.0457|TWO_SIDED|95.0|-1.4|18.4|||Miettinen & Nurminen method|||||18.4|-1.4|0.0457
92249705|NCT02555657|184401264|SUPERIORITY||Difference in percentages|2.9||||0.1752|TWO_SIDED|95.0|-3.3|9.2|||Miettinen & Nurminen method|||||9.2|-3.3|0.1752
92249706|NCT02555657|184401265|SUPERIORITY||Difference in percentages|-1.0||||0.6629|TWO_SIDED|95.0|-5.9|3.8|||Miettinen & Nurminen method|||||3.8|-5.9|0.6629
92249707|NCT02555657|184401266|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.7936|TWO_SIDED|95.0|0.82|1.59|||Regression, Cox|||||1.59|0.82|0.7936
92249708|NCT02555657|184401267|SUPERIORITY||Hazard Ratio (HR)|1.35||||0.9964|TWO_SIDED|95.0|1.08|1.68|||Regression, Cox|||||1.68|1.08|0.9964
92249709|NCT02555657|184401268|SUPERIORITY||Hazard Ratio (HR)|1.6||||1|TWO_SIDED|95.0|1.33|1.92|||Regression, Cox|||||1.92|1.33|1.0000
92249710|NCT02555657|184401272|SUPERIORITY||Difference in percentages|2.3||||0.3388|TWO_SIDED|95.0|-8.7|13.5|||Miettinen & Nurminen method|||||13.5|-8.7|0.3388
92249711|NCT02555657|184401273|SUPERIORITY||Difference in percentages|-1.6||||0.6701|TWO_SIDED|95.0|-8.6|5.5|||Miettinen & Nurminen method|||||5.5|-8.6|0.6701
92249712|NCT02555657|184401274|SUPERIORITY||Difference in percentages|-6.5||||0.9877|TWO_SIDED|95.0|-12.2|-0.8|||Miettinen & Nurminen method|||||-0.8|-12.2|0.9877
92249713|NCT02372097|184401277|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two tablets of SYR-472 25 mg and 1 tablet of SYR-472 50 mg were considered bioequivalent if 90% CI of the mean differences of natural log-transformed AUC(0-168) of SYR-472Z was within the range of ln(0.80) to ln(1.25) or within the range of ln(0.9) to ln(1.11) and the results of dissolution test satisfied the requirement.|Least square (LS) mean difference|-0.017|||||TWO_SIDED|90.0|-0.0344|0.0004||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with the natural logarithms of the AUC(0-168) as a dependent variable, and product, group and period as fixed effects.||0.0004|-0.0344|
92249714|NCT02372097|184401278|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two tablets of SYR-472 25 mg and 1 tablet of SYR-472 50 mg were considered bioequivalent if 90% CI of the mean differences of natural log-transformed Cmax of SYR-472Z was within the range of ln(0.80) to ln(1.25) or within the range of ln(0.9) to ln(1.11) and the results of dissolution test satisfied the requirement.|LS mean difference|-0.1292|||||TWO_SIDED|90.0|-0.2177|-0.0406||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with the natural logarithms of the Cmax as a dependent variable, and product, group and period as fixed effects.||-0.0406|-0.2177|
92182553|NCT01256359|184264218|SUPERIORITY||Hazard Ratio (HR)|0.753||||0.13|TWO_SIDED|90.0|0.498|1.138||p value \< 0.1 one-sided considered to be significant.|Regression, Cox||HR is Adjusted for M status, performance status|||1.138|0.498|0.130
92249715|NCT02372097|184401279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.021||||||90.0|-0.0362|-0.0058||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with the natural logarithms of the AUC(0-inf) as a dependent variable, and product, group and period as fixed effects.||-0.0058|-0.0362|
92249716|NCT02372097|184401280|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.375|||||TWO_SIDED|90.0|-0.1452|0.8952||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with Tmax as a dependent variable, and product, group and period as fixed effects.||0.8952|-0.1452|
92249717|NCT02372097|184401281|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.0168|||||TWO_SIDED|90.0|-0.0504|0.0169||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with the natural logarithms of the MRT as a dependent variable, and product, group and period as fixed effects.||0.0169|-0.0504|
92249718|NCT02372097|184401282|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1099|||||TWO_SIDED|90.0|0.0235|0.1963||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with the natural logarithms of the λz as a dependent variable, and product, group and period as fixed effects.||0.1963|0.0235|
92283296|NCT01029353|184470416|OTHER|||||||0.03||||||Pre-specified threshold = 0.05|Robust Poisson regression|||A frequentist analysis. Using Robust Poisson regression with log link and center as repeated measure, and effect coding, test for an interaction between treatment (Initial Laparotomy/Initial Peritoneal Drain) and pre-operative diagnosis (Necrotizing Enterocolitis (NEC) or Isolated Intestinal Perforation (IP)) as covariates. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-operative diagnosis as covariates.||||0.03
92249719|NCT00713284|184401335|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92176559|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-261.208|||<|0.0001|TWO_SIDED|95.0|-330.647|-191.769|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-191.769|-330.647|<.0001
92182554|NCT01256359|184264218|SUPERIORITY||Hazard Ratio (HR)|0.723||||0.113|TWO_SIDED|90.0|0.465|1.123|||Regression, Cox||This includes all 83 patients but the analysis additionally adjusted for LDH, target lesion sum and time interval between randomisation and baseline CT scan as well as mstatus, performance status|This is a sensitivity analysis of the primary outcome. This includes all 83 patients but the analysis additionally adjusted for LDH, target lesion sum and time interval between randomisation and baseline CT scan as well as mstatus, performance status||1.123|0.465|0.113
92183067|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-17.6|3.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||3.7|-17.6|
92176560|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-203.998|||<|0.0001|TWO_SIDED|95.0|-263.396|-144.599|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-144.599|-263.396|<.0001
92176561|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-178.75|||<|0.0001|TWO_SIDED|95.0|-249.092|-108.408|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-108.408|-249.092|<.0001
92183068|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|5.19|||TWO_SIDED|95.0|-12.9|7.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||7.5|-12.9|
92249720|NCT04134728|184401352|SUPERIORITY||Odds Ratio (OR)|1.38||||0.2868|TWO_SIDED|0.95|0.76|2.48|||Regression, Logistic|OR and corresponding 95%CI are generated from logistic regression model adjusted for Baseline, Treatment Group, Previously Failed Medical Category.||The null hypothesis is that there is no difference between 90 mg dose of GSK3196165 and placebo in the proportion of participants achieving ACR20 response at Week 12 versus the alternative hypothesis that the 90 mg dose of GSK3196165 differs from placebo in the proportion of participants with ACR20 response at Week 12||2.48|0.76|0.2868
92249721|NCT04134728|184401352|SUPERIORITY||Odds Ratio (OR)|1.75||||0.0596|TWO_SIDED|0.95|0.98|3.15|||Regression, Logistic|OR and corresponding 95%CI are generated from logistic regression model adjusted for Baseline, Treatment Group, Previously Failed Medical Category.||The null hypothesis is that there is no difference between 150 mg dose of GSK3196165 and placebo in the percentage of participants achieving ACR20 response at Week 12 versus the alternative hypothesis that the 150 mg dose of GSK3196165 differs from placebo in the percentage of participants with ACR20 response at Week 12||3.15|0.98|0.0596
92249722|NCT04134728|184401352|SUPERIORITY||Odds Ratio (OR)|2.34||||0.0049|TWO_SIDED|0.95|1.29|4.23|||Regression, Logistic|OR and corresponding 95%CI are generated from logistic regression model adjusted for Baseline, Treatment Group, Previously Failed Medical Category.||The null hypothesis is that there is no difference between 200 mg dose of Sarilumab alternating with placebo every week and placebo in the proportion of participants achieving ACR20 response at Week 12 versus the alternative hypothesis that the 200 mg dose of Sarilumab alternating with placebo every week differs from placebo in the proportion of participants with ACR20 response at Week 12||4.23|1.29|0.0049
92249723|NCT04134728|184401352|SUPERIORITY||Odds Ratio (OR)|0.59||||0.0293|TWO_SIDED|0.95|0.36|0.95|||Regression, Logistic|OR and corresponding 95%CI are generated from logistic regression model adjusted for Baseline, Treatment Group, Previously Failed Medical Category.||The null hypothesis is that there is no difference between 90 mg dose of GSK3196165 and 200 mg dose of sarilumab alternating with placebo every week in the proportion of participants achieving ACR20 response at Week 12 versus the alternative hypothesis that the 90 mg dose of GSK3196165 differs from 200 mg dose of sarilumab alternating with placebo every week in the proportion of participants with ACR20 response at Week 12||0.95|0.36|0.0293
92249724|NCT04134728|184401352|SUPERIORITY||Odds Ratio (OR)|0.75||||0.2308|TWO_SIDED|0.95|0.47|1.2|||Regression, Logistic|OR and corresponding 95%CI are generated from logistic regression model adjusted for Baseline, Treatment Group, Previously Failed Medical Category.||The null hypothesis is that there is no difference between 150 mg dose of GSK3196165 and 200 mg dose of sarilumab alternating with placebo every week in the proportion of participants achieving ACR20 response at Week 12 versus the alternative hypothesis that the 150 mg dose of GSK3196165 differs from 200 mg dose of sarilumab alternating with placebo every week in the proportion of participants with ACR20 response at Week 12||1.20|0.47|0.2308
92249725|NCT01090102|184401457|SUPERIORITY_OR_OTHER|||||||0.63||||||Significant at p\<0.05|t-test, 2 sided|||||||0.63
92249726|NCT01090102|184401458|SUPERIORITY_OR_OTHER|||||||0.77||||||significant at p\<0.05|t-test, 2 sided|||||||0.77
92249727|NCT00150345|184401520|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.493||||0.258|TWO_SIDED|95.0|0.129|1.755|||Regression, Logistic||Odds ratio computed from the logistic regression (logit model) including terms for treatment arm, concomitant fluconazole, and positive PCR before randomization. Event IFI=yes is modeled.|Hypothesis: H0: rv - rp = 0 vs H1: rv - rp does not equal 0, where ri is rate of IFI (i=v for voriconazole group, i=p for deferred voriconazole group). Logit model (including important covariates) used. The adjusted odds ratio and 95 percent (%) confidence interval (CI) for adjusted odds ratio calculated. If 95% CI around odds ratio does not contain a value of 1, then the null hypothesis of equal rates of IFI between immediate voriconazole and deferred voriconazole to be rejected.||1.755|0.129|0.258
92176562|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-190.992|||<|0.0001|TWO_SIDED|95.0|-237.134|-144.85|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-144.850|-237.134|<.0001
92176563|NCT04800211|184247037|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-24.483||||0.359|TWO_SIDED|95.0|-77.096|28.13|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||28.130|-77.096|0.3590
92176564|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-2.287|||<|0.0001|TWO_SIDED|95.0|-2.582|-1.992|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-1.992|-2.582|<.0001
92176565|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.415|||<|0.0001|TWO_SIDED|95.0|-2.722|-2.107|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-2.107|-2.722|<.0001
92176566|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-2.382|||<|0.0001|TWO_SIDED|95.0|-2.673|-2.09|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-2.090|-2.673|<.0001
92183069|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|5.31|||TWO_SIDED|95.0|-15.4|5.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||5.4|-15.4|
92249728|NCT00150345|184401521|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.822||||0.596|TWO_SIDED|95.0|0.398|1.696|||Regression, Logistic||Odds ratio computed from the logistic regression (logit model) including terms for treatment arm, concomitant fluconazole, and positive PCR before randomization. Event defervescence=yes is modeled.|||1.696|0.398|0.596
92249729|NCT00150345|184401522|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.936||||0.864|TWO_SIDED|95.0|0.441|1.988|||Regression, Logistic||Odds ratio computed from the logistic regression (logit model) including terms for treatment arm, concomitant fluconazole, and positive PCR before randomization. Event defervescence=yes is modeled.|||1.988|0.441|0.864
92249730|NCT00150345|184401523|SUPERIORITY_OR_OTHER|||||||0.955|TWO_SIDED||||||Log Rank|||||||0.955
92283297|NCT01029353|184470416|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.95, 95% credible interval of (0.82, 1.11).|||
92249731|NCT00150345|184401525|SUPERIORITY_OR_OTHER||Difference in % participants that died|5.85|||||TWO_SIDED|95.0|-5.08|16.78|||||Approximate 2-sided confidence interval (CI).|Difference in proportions expressed as a percent: immediate voriconazole versus (vs) deferred voriconazole treatment||16.78|-5.08|
92249732|NCT00150345|184401526|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Log Rank|||||||0.190
92249733|NCT00150345|184401527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.031|STANDARD_ERROR_OF_MEAN|10.888||0.049|TWO_SIDED|95.0|-44.004|-0.059||SAS PROC REG with SELECTION=STEPWISE option of SLENTRY=0.05 and SLSTAY=0.10 utilized. Stepwise option combined forward stepping (with a 0.05 level to enter) with elimination of variables already in model that do not stay significant at 0.10 level.|Regression, Linear|Variables: association with age, c-reactive protein, and time to continuous defervescence not significant at 0.05 level; not included in final model||Continuous defervescence achieved=Yes||-0.059|-44.004|0.049
92249734|NCT00150345|184401547|SUPERIORITY_OR_OTHER||Difference in percentages|2.51|||||TWO_SIDED|95.0|-14.96|19.97||||||Difference in proportions expressed as a percent: immediate voriconazole vs deferred voriconazole treatment||19.97|-14.96|
92249735|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for RVR at Week 4.||||0.000
92249736|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||Regression, Linear|||Binary logistic regression for gender at Week 4.||||0.018
92249737|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0.062|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for liver fibrosis at Week 4.||||0.062
92249738|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for HCV genotype at Week 4.||||0.050
92249739|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for height at Week 4.||||0.001
92249740|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for treatment duration at Week 4.||||0.001
92249741|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for EVR at Week 12.||||0.037
92249742|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for gender at Week 12.||||0.018
92249743|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0.092|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for liver fibrosis at Week 12.||||0.092
92249744|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for height at Week 12.||||0.001
92249745|NCT01392742|184401556|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for treatment duration at Week 12.||||0.042
92249746|NCT00618995|184401610|NON_INFERIORITY_OR_EQUIVALENCE|Two treatments are comparable if the geometric mean ratio (GMR) is contained within the interval \[0.50-2.00\].|Geometric least-squares mean ratio|0.97||||||90.0|0.8|1.18||||||The endpoint is the urine levels of 11-dTxB2 on Day 7 following a 7 day course of daily dosing in the overall 24 hour collection interval. The point estimate and 90% confidence intervals (CIs) were calculated for the geometric mean ratio (GMR) \[Treatment A/B\] of the urine levels of 11-dTxB2 on Day 7.||1.18|0.8|
92249747|NCT00618995|184401610|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.94||||||90.0|0.77|1.14||||||||1.14|0.77|
92249748|NCT00618995|184401610|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.87||||||90.0|0.71|1.05||||||||1.05|0.71|
92249749|NCT00618995|184401610|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.84||||||90.0|0.69|1.02||||||||1.02|0.69|
92249750|NCT00618995|184401610|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.92||||||90.0|0.76|1.13||||||||1.13|0.76|
92249751|NCT00618995|184401610|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.9||||||90.0|0.74|1.09||||||||1.09|0.74|
92249752|NCT00618995|184401611|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.94||||||90.0|0.84|1.06||||||||1.06|0.84|
92249753|NCT00618995|184401611|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.94||||||90.0|0.84|1.05||||||||1.05|0.84|
92249754|NCT00618995|184401611|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.57||||||90.0|0.51|0.64||||||||0.64|0.51|
92249755|NCT00618995|184401611|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.54||||||90.0|0.48|0.6||||||||0.60|0.48|
92249756|NCT00618995|184401611|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.6||||||90.0|0.54|0.67||||||||0.67|0.54|
92249757|NCT00618995|184401611|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.57||||||90.0|0.51|0.64||||||||0.64|0.51|
92249758|NCT05067452|184401684|SUPERIORITY||Slope|-0.092|STANDARD_ERROR_OF_MEAN|0.721||0.9|TWO_SIDED|95.0|-1.59|1.4|||ANCOVA|||||1.40|-1.59|0.900
92249759|NCT05067452|184401685|SUPERIORITY||Slope|1.37|STANDARD_ERROR_OF_MEAN|0.945||0.146|TWO_SIDED|95.0|-0.478|3.23|||Mixed Models Analysis|||||3.23|-0.478|0.146
92249760|NCT05067452|184401686|SUPERIORITY||Risk Difference (RD)|0.235|STANDARD_ERROR_OF_MEAN|0.212||0.281|TWO_SIDED|95.0|-0.207|0.677|||ANCOVA|Linear regression used with the binary outcome (linear probability model)||||0.677|-0.207|0.281
92249761|NCT05067452|184401687|SUPERIORITY||Risk Difference (RD)|0.354|STANDARD_ERROR_OF_MEAN|0.211||0.094|TWO_SIDED|95.0|-0.06|0.768|||Mixed Models Analysis|Linear regression used with the binary outcome (linear probability model)||||0.768|-0.060|0.094
92249762|NCT05067452|184401688|SUPERIORITY||Slope|2.18|STANDARD_ERROR_OF_MEAN|5.11||0.669|TWO_SIDED|95.0|-7.83|12.2|||Mixed Models Analysis|||||12.2|-7.83|0.669
92249763|NCT05067452|184401689|SUPERIORITY||Slope|-0.024|STANDARD_ERROR_OF_MEAN|0.367||0.949|TWO_SIDED|95.0|-0.695|0.743|||Mixed Models Analysis|||||0.743|-0.695|0.949
92249764|NCT05067452|184401690|SUPERIORITY||Slope|-0.54|STANDARD_ERROR_OF_MEAN|0.53||0.308|TWO_SIDED|95.0|-1.58|0.679|||Mixed Models Analysis|||||0.679|-1.58|0.308
92249765|NCT05067452|184401691|SUPERIORITY||Slope|-1.02|STANDARD_ERROR_OF_MEAN|1.91||0.593|TWO_SIDED|95.0|-4.77|0.499|||Mixed Models Analysis|||||0.499|-4.77|0.593
92249766|NCT05067452|184401692|SUPERIORITY||Slope|-2.63|STANDARD_ERROR_OF_MEAN|1.65||0.112|TWO_SIDED|95.0|-5.86|0.611|||Mixed Models Analysis|||||0.611|-5.86|0.112
92249767|NCT05067452|184401695|SUPERIORITY||Slope|-2.66|STANDARD_ERROR_OF_MEAN|2.85||0.349|TWO_SIDED|95.0|-8.25|2.92|||Mixed Models Analysis|||||2.92|-8.25|0.349
92264980|NCT01314261|184431443|SUPERIORITY_OR_OTHER|||||||0.171|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||Ten participants in an ABT-267 arm and nine participants in the placebo arm would provide 84% power using Fisher's exact test with two-sided significance level of 0.05 to detect a difference of approximately 70% between the two arms.||||0.171
92249768|NCT01135017|184401696|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean difference|-59.13|STANDARD_ERROR_OF_MEAN|0.275||0.0015|TWO_SIDED|95.0|-76.322|-29.457||No adjustment for multiplicity was made. The priori threshold for statistical significance was ≤0.05.|ANCOVA|ANCOVA model on log-transformed AF burden data with treatment arm as a fixed effect term and baseline log-transformed AF burden as a covariate|"Percent change in AF burden with dronedarone relative to placebo~LS Mean difference from the ANCOVA model on log-transformed AF burden data was exponentiated to convert back to percent change."|"The planned sample size of 286 participants was estimated to have 70% power to detect a reduction in mean AF burden of 30% relative to the placebo group.~Due to the smaller-than-planned sample size, the power to detect this difference was estimated to be only 44%, based on the original assumption. However, the power to detect larger treatment effects (\>40% reduction) remained high and the posthoc power to detect a 60% reduction in AF burden was 99%."||-29.457|-76.322|0.0015
92249769|NCT00763243|184401714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_DEVIATION|2.17||0.766|TWO_SIDED|95.0|-1.44|1.89|||t-test, 2 sided|t(8)=0.31||Change during waiting period (no intervention); no change was hypothesized||1.89|-1.44|0.766
92283298|NCT01029353|184470416|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.75|1.26|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariate.|A frequentist analysis. Model included treatment, baseline risk of death or NDI, and pre-operative diagnosis (Necrotizing Enterocolitis (NEC) or Isolated Intestinal Perforation (IP)) covariates.||1.26|0.75|
92283299|NCT01029353|184470417|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.69|1.45|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.45|0.69|
92249770|NCT00763243|184401714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67|STANDARD_DEVIATION|1.0|<|0.001|TWO_SIDED|95.0|0.9|2.44|||t-test, 2 sided|t(8)=5.0||Change during the training period||2.44|0.90|<0.001
92249771|NCT00763243|184401714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.78|STANDARD_DEVIATION|1.86||0.021|TWO_SIDED|95.0|0.35|3.2|||t-test, 2 sided|t(8)=2.87||Change from pre-training through follow-up period||3.20|0.35|0.021
92249772|NCT00763243|184401714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_DEVIATION|1.12||0.4|TWO_SIDED|95.0|-0.53|1.19|||t-test, 2 sided|t(8)=0.89||Change from pretraining to 6 month follow up||1.19|-0.53|0.40
92283300|NCT01029353|184470417|SUPERIORITY|A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|||||||||||||||||Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.95, 95% credible interval of (0.69, 1.30).|||
92249773|NCT00763243|184401715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.33|STANDARD_DEVIATION|2.24||0.11|TWO_SIDED|95.0|-0.39|3.05|||t-test, 2 sided|t(8)=1.79||Change during waiting period of no intervention||3.05|-0.39|0.11
92249774|NCT00763243|184401715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44|STANDARD_DEVIATION|1.81||0.004|TWO_SIDED|95.0|1.05|3.84|||t-test, 2 sided|t(8)=4.05||Change during training period||3.84|1.05|0.004
92249775|NCT00763243|184401715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.11|STANDARD_DEVIATION|3.06||0.072|TWO_SIDED|95.0|-0.24|4.46|||t-test, 2 sided|t(8)=2.07||1 Month Follow Up change from pre-training||4.46|-0.24|0.072
92249776|NCT00763243|184401715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.78|STANDARD_DEVIATION|2.28||0.34|TWO_SIDED|95.0|-0.97|2.53|||t-test, 2 sided|t(8)=1.02||6 month follow up change from pre-training||2.53|-0.97|0.34
92249777|NCT00763243|184401716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_DEVIATION|1.86||0.729|TWO_SIDED|95.0|-1.2|1.65|||t-test, 2 sided|t(8)=0.36||Waiting period - no treatment||1.65|-1.20|0.729
92249778|NCT00763243|184401716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78|STANDARD_DEVIATION|2.17||0.039|TWO_SIDED|95.0|-3.44|-0.11|||t-test, 2 sided|t(8)=2.46||Training Period - Pretraining to Post-Training Visit||-0.11|-3.44|0.039
92283301|NCT01029353|184470418|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|0.78|1.34|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis. Estimate based on model fit using only data from study survivors.||1.34|0.78|
92283302|NCT01029353|184470418|SUPERIORITY|||||||||||||||||A Bayesian analysis among study survivors. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.99, 95% credible interval of (0.78, 1.25).|||
92249779|NCT00763243|184401716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|STANDARD_DEVIATION|2.98||0.4|TWO_SIDED|95.0|-3.17|1.4|||t-test, 2 sided|t(8)=0.90||1 Month Follow Up Period from Pretraining||1.40|-3.17|0.40
92249780|NCT00763243|184401716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_DEVIATION|2.5||0.4|TWO_SIDED|95.0|-2.59|1.26|||t-test, 2 sided|t(8)=0.89||6 Month Follow Up period from pretraining||1.26|-2.59|0.40
92283303|NCT01029353|184470419|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.66|1.06|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.06|0.66|
92249781|NCT01192204|184401723|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|||||Statistical analyses reflect percent change intrapatient pre versus post histologic grade scores|Wilcoxon matched-pairs signed rank test|We used a 2-tailed Mann Whitney U test to evaluate these data.||Wilcoxon matched-pairs signed rank test (intrapatient pre versus post treatment scores)||||0.048
92249782|NCT01192204|184401723|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|||||Statistical analyses reflect percent change pre versus post histologic grade scores|Wilcoxon matched-pairs signed rank test|||Wilcoxon matched-pairs signed rank test (pre versus post treatment scores)||||0.50
92249783|NCT01192204|184401724|SUPERIORITY_OR_OTHER||||||<|0.002|TWO_SIDED||||||Wilcoxon matched-pairs signed rank test|specifically, we used the Wilcoxon matched-pairs signed rank test.||||||<0.002
92176567|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.486|||<|0.0001|TWO_SIDED|95.0|-2.782|-2.19|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-2.190|-2.782|<.0001
92249784|NCT01192204|184401724|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED||||||Wilcoxon matched-pairs signed rank test|||||||0.036
92249785|NCT01192204|184401725|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||2-tailed unpaired t test|||||||0.002
92249786|NCT01192204|184401725|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||two-tailed unpaired t test|||||||0.16
92249787|NCT02219087|184401732|SUPERIORITY_OR_OTHER|||||||0.137|||||||t-test, 2 sided|||||||0.137
92176568|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.45|||<|0.0001|TWO_SIDED|95.0|-2.668|-2.233|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-2.233|-2.668|<.0001
92176569|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|0.466||||0.0012|TWO_SIDED|95.0|0.185|0.747|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||0.747|0.185|0.0012
92176570|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.099||||0.4957|TWO_SIDED|95.0|-0.187|0.386|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||0.386|-0.187|0.4957
92176571|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-2.753|||<|0.0001|TWO_SIDED|95.0|-3.266|-2.239|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-2.239|-3.266|<.0001
92176572|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.514|||<|0.0001|TWO_SIDED|95.0|-3.043|-1.986|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-1.986|-3.043|<.0001
92176573|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-2.848|||<|0.0001|TWO_SIDED|95.0|-3.359|-2.336|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-2.336|-3.359|<.0001
92176574|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.586|||<|0.0001|TWO_SIDED|95.0|-3.105|-2.066|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-2.066|-3.105|<.0001
92249788|NCT02219087|184401733|SUPERIORITY_OR_OTHER|||||||0.343|||||||t-test, 2 sided|||||||0.343
92249789|NCT02219087|184401734|SUPERIORITY_OR_OTHER|||||||0.208|||||||t-test, 2 sided|||||||0.208
92249790|NCT02219087|184401735|SUPERIORITY_OR_OTHER|||||||0.385|||||||t-test, 2 sided|||||||0.385
92249791|NCT02219087|184401736|SUPERIORITY_OR_OTHER|||||||0.843|||||||Chi-squared|||||||0.843
92249792|NCT02219087|184401737|SUPERIORITY_OR_OTHER|||||||0.438|||||||Wilcoxon (Mann-Whitney)|||||||0.438
92249793|NCT05127421|184401739|SUPERIORITY||Odds Ratio (OR)|2.81||||0.091|TWO_SIDED|95.0|0.83|9.47|||Cochran-Mantel-Haenszel|stratified by the stratification factor (face and/or neck Investigator's Global Assessment \[IGA\] score of 2 or 3 at screening).||||9.47|0.83|0.091
92249794|NCT05127421|184401739|SUPERIORITY||response rate difference|19.5|STANDARD_ERROR_OF_MEAN|10.23|||TWO_SIDED|95.0|-0.5|39.6|||||The 95% confidence interval was computed based on a large-sample normal approximation with continuity correction.|||39.6|-0.5|
92249795|NCT03418051|184401775|SUPERIORITY|||||||0.824||||||A priori alpha level was set to 0.05|ANOVA|||||||0.824
92249796|NCT03418051|184401775|SUPERIORITY|||||||0.426||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.426
92249797|NCT03418051|184401776|SUPERIORITY|||||||0.722||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.722
92249798|NCT03418051|184401776|SUPERIORITY|||||||0.843||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.843
92249799|NCT03418051|184401777|SUPERIORITY|||||||0.046||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.046
92249800|NCT03418051|184401777|SUPERIORITY|||||||0.845||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.845
92249801|NCT03418051|184401778|SUPERIORITY|||||||0.138||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.138
92249802|NCT03418051|184401778|SUPERIORITY|||||||0.523||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.523
92183070|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|5.15|||TWO_SIDED|95.0|-14.3|5.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||5.9|-14.3|
92249803|NCT03418051|184401779|SUPERIORITY|||||||0.069||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.069
92249804|NCT03418051|184401779|SUPERIORITY|||||||0.413||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.413
92249805|NCT03418051|184401780|SUPERIORITY|||||||0.604||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.604
92249806|NCT03418051|184401780|SUPERIORITY|||||||0.499||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.499
92249807|NCT03418051|184401781|SUPERIORITY|||||||0.005||||||A priori threshold was set at 0.05.|ANOVA|||||||0.005
92249808|NCT03418051|184401781|SUPERIORITY|||||||0.853||||||A priori threshold set at 0.05.|ANOVA|||||||0.853
92249809|NCT03418051|184401782|SUPERIORITY|||||||0.142||||||A priori threshold set to 0.05|ANOVA|||||||0.142
92249810|NCT03418051|184401782|SUPERIORITY|||||||0.167||||||A priori threshold set at 0.05.|ANOVA|||||||0.167
92249811|NCT03418051|184401783|SUPERIORITY|||||||0.849||||||A priori alpha set at 0.05.|ANOVA|||||||0.849
92249812|NCT03418051|184401783|SUPERIORITY|||||||0.993||||||A priori threshold set at 0.05.|ANOVA|||||||0.993
92249813|NCT03418051|184401784|SUPERIORITY|||||||0.535||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.535
92249814|NCT03418051|184401784|SUPERIORITY|||||||0.569||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.569
92249815|NCT03418051|184401785|SUPERIORITY|||||||0.405||||||A priori threshold was 0.05.|ANOVA|||||||0.405
92249816|NCT03418051|184401785|SUPERIORITY|||||||0.229||||||A priori threshold set to 0.05.|ANOVA|||||||0.229
92249817|NCT03418051|184401786|SUPERIORITY|||||||0.609||||||A priori threshold set at 0.05.|ANOVA|||||||0.609
92249818|NCT03418051|184401786|SUPERIORITY|||||||0.027||||||A priori threshold was set at 0.05.|ANOVA|||||||0.027
92249819|NCT03418051|184401787|SUPERIORITY|||||||0.613||||||A priori alpha set at 0.05.|Independent sample Mann-Whitney U|||||||0.613
92183071|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|5.24|||TWO_SIDED|95.0|-14.2|6.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||6.4|-14.2|
92249820|NCT03418051|184401788|SUPERIORITY|||||||0.925||||||A priori threshold set at 0.05.|Independent sample Mann-Whitney U|||||||0.925
92249821|NCT03418051|184401789|SUPERIORITY|||||||0.641||||||A priori threshold set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.641
92249822|NCT03418051|184401789|SUPERIORITY|||||||0.897||||||A priori threshold set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.897
92249823|NCT03418051|184401790|SUPERIORITY|||||||0.561||||||A priori threshold set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.561
92249824|NCT03418051|184401790|SUPERIORITY|||||||0.925||||||A priori threshold set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.925
92249825|NCT03418051|184401791|SUPERIORITY|||||||0.233||||||A priori threshold set at 0.05|ANOVA|||||||0.233
92249826|NCT03418051|184401791|SUPERIORITY|||||||0.634||||||A priori threshold set at 0.05|ANOVA|||||||0.634
92249827|NCT03418051|184401792|SUPERIORITY|||||||0.233||||||A priori threshold set at 0.05.|ANOVA|||||||0.233
92249828|NCT03418051|184401792|SUPERIORITY|||||||0.634||||||A priori threshold set at 0.05.|ANOVA|||||||0.634
92249829|NCT03418051|184401793|SUPERIORITY|||||||0.03||||||A priori threshold set at 0.05.|ANOVA|||||||0.030
92249830|NCT03418051|184401793|SUPERIORITY|||||||0.618||||||A priori threshold set at 0.05.|ANOVA|||||||0.618
92249831|NCT03418051|184401794|SUPERIORITY|||||||0.456||||||A priori threshold set at 0.05.|ANOVA|||||||0.456
92249832|NCT03418051|184401794|SUPERIORITY|||||||0.568||||||A priori threshold set to 0.05.|ANOVA|||||||0.568
92249833|NCT03418051|184401795|SUPERIORITY|||||||0.919||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.919
92249834|NCT03418051|184401795|SUPERIORITY|||||||0.558||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.558
92249835|NCT03418051|184401796|SUPERIORITY|||||||0.796||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.796
92249836|NCT03418051|184401796|SUPERIORITY|||||||0.558||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.558
92249837|NCT03418051|184401797|SUPERIORITY|||||||0.701||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.701
92249838|NCT03418051|184401797|SUPERIORITY|||||||0.68||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.68
92249839|NCT03418051|184401798|SUPERIORITY|||||||0.883||||||A priori threshold set at 0.05.|ANOVA|||||||0.883
92249840|NCT03418051|184401798|SUPERIORITY|||||||0.401||||||A priori threshold set at 0.05.|ANOVA|||||||0.401
92249841|NCT03418051|184401799|SUPERIORITY|||||||0.393||||||A priori threshold set at 0.05.|ANOVA|||||||0.393
92183072|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|5.17|||TWO_SIDED|95.0|-10.7|9.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||9.6|-10.7|
92249842|NCT03418051|184401799|SUPERIORITY|||||||0.779||||||A priori threshold set at 0.05.|ANOVA|||||||0.779
92249843|NCT03418051|184401800|SUPERIORITY|||||||0.246||||||A priori threshold set at 0.05.|ANOVA|||||||0.246
92249844|NCT03418051|184401800|SUPERIORITY|||||||0.191||||||A priori threshold set at 0.05.|ANOVA|||||||0.191
92249845|NCT03418051|184401801|SUPERIORITY|||||||0.703||||||A priori threshold set at 0.05.|ANOVA|||||||0.703
92249846|NCT03418051|184401801|SUPERIORITY|||||||0.282||||||A priori threshold set at 0.05.|ANOVA|||||||0.282
92249847|NCT03418051|184401802|SUPERIORITY|||||||0.925||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.925
92249848|NCT03418051|184401802|SUPERIORITY|||||||0.551||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.551
92249849|NCT03418051|184401803|SUPERIORITY|||||||0.506||||||A priori threshold set at 0.05.|ANOVA|||||||0.506
92249850|NCT03418051|184401803|SUPERIORITY|||||||0.753||||||A priori threshold at 0.05.|ANOVA|||||||0.753
92249851|NCT03418051|184401804|SUPERIORITY|||||||0.777||||||A priori threshold set at 0.05.|ANOVA|||||||0.777
92249852|NCT03418051|184401804|SUPERIORITY|||||||0.475||||||A priori threshold set at 0.05.|ANOVA|||||||0.475
92249853|NCT03418051|184401805|SUPERIORITY|||||||0.738||||||A priori threshold set at 0.05.|ANOVA|||||||0.738
92249854|NCT03418051|184401805|SUPERIORITY|||||||0.042||||||A priori threshold set at 0.05.|ANOVA|||||||0.042
92249855|NCT03418051|184401806|SUPERIORITY|||||||0.738||||||A priori threshold set at 0.05.|ANOVA|||||||0.738
92249856|NCT03418051|184401806|SUPERIORITY|||||||0.83||||||A priori threshold set at 0.05.|ANOVA|||||||0.830
92249857|NCT03418051|184401807|SUPERIORITY|||||||0.7||||||A priori threshold set at 0.05.|ANOVA|||||||0.700
92249858|NCT03418051|184401807|SUPERIORITY|||||||0.492||||||A priori threshold set at 0.05.|ANOVA|||||||0.492
92249859|NCT03418051|184401808|SUPERIORITY|||||||0.82||||||A priori threshold set at 0.05.|ANOVA|||||||0.820
92249860|NCT03418051|184401808|SUPERIORITY|||||||0.526||||||A priori threshold set at 0.05.|ANOVA|||||||0.526
92249861|NCT00405821|184401863|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||<|0.05|TWO_SIDED|95.0|0.58|0.99||P-value was adjusted to include multiple looks at data including an interim efficacy review at 50% and 75% accrual of person-years on study|Regression, Cox|adjusted for baseline log10 viral load, baseline CD4 count, gender, and age||Intent-to-treat analysis used Cox proportional hazards (CPH) models, adjusting for baseline log10 viral load (VL), CD4 cell count, gender and age to assess the risk of disease progression||0.99|0.58|<0.05
92249862|NCT00405821|184401864|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.31|||<|0.05|TWO_SIDED|95.0|0.19|0.48||we included multiple GUD events per subject in the estimate of GUD incidence|rate ratio with 95% CI|||Null hypothesis is no difference by treatment arm in rate of GUD.||0.48|0.19|<0.05
92249863|NCT00405821|184401865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.463||||0.05|TWO_SIDED|95.0|-0.731|-0.194|||t-test, 2 sided|||Null hypothesis is no difference in annual rate of change in log10 viral load by arm.||-0.194|-0.731|0.05
92249864|NCT01769469|184401870|OTHER|||||||0.2085|||||||Wilcoxon (Mann-Whitney)|||Test of difference at Week 48 from baseline||||0.2085
92249865|NCT01769469|184401874|SUPERIORITY|||||||0.2452|||||||Wilcoxon Signed Rank Test|||||||0.2452
92183073|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|5.24|||TWO_SIDED|95.0|-14.8|5.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||5.7|-14.8|
92249866|NCT01769469|184401882|SUPERIORITY|||||||0.0806|||||||Wilcoxon Signed Rank Test|||||||.0806
92249867|NCT01769469|184401893|OTHER|||||||0.6545|||||||Wilcoxon Signed Rank Test|||||||0.6545
92249868|NCT01769469|184401897|OTHER|||||||0.8739|||||||Wilcoxon Signed Rank Test|||||||0.8739
92249869|NCT01769469|184401905|OTHER|||||||0.5014|||||||Wilcoxon Signed Rank Test|||||||0.5014
92249870|NCT01769469|184401906|OTHER|||||||0.2431|||||||Wilcoxon Signed Rank Test|||||||0.2431
92249871|NCT01769469|184401907|OTHER|||||||0.7209|||||||Wilcoxon Signed Rank Test|||||||0.7209
92249872|NCT01769469|184401908|OTHER|||||||0.5379|||||||Wilcoxon Signed Rank Test|||||||0.5379
92249873|NCT01769469|184401909|OTHER|||||||0.7986|||||||Wilcoxon Signed Rank Test|||||||0.7986
92249874|NCT01769469|184401929|OTHER|||||||0.8507|||||||Wilcoxon Signed Rank Test|||||||0.8507
92249875|NCT01769469|184401930|OTHER|||||||0.3483|||||||Wilcoxon Signed Rank Test|||||||0.3483
92249876|NCT01769469|184401937|OTHER|||||||0.4043|||||||Wilcoxon (Mann-Whitney)|||||||0.4043
92249877|NCT01769469|184401938|OTHER|||||||0.2927|||||||Wilcoxon (Mann-Whitney)|||||||0.2927
92249878|NCT01769469|184401939|OTHER|||||||0.1134|||||||Wilcoxon (Mann-Whitney)|||||||0.1134
92249879|NCT01769469|184401940|OTHER|||||||0.5782|||||||Wilcoxon (Mann-Whitney)|||||||0.5782
92249880|NCT01769469|184401941|OTHER|||||||0.8658|||||||Wilcoxon (Mann-Whitney)|||||||0.8658
92182555|NCT01256359|184264218|SUPERIORITY|||||||0.3016||||||This analysis assesses if allowing for interval censoring is consistent with the primary outcome results.|Generalised log-rank|Generalised log-rank taking into account interval censoring, analysed using SAS package version 9.2. Method by Zhao and Sun, 2004||This is a sensitivity analysis, including all 83 randomised patients. Patients are assessed periodically for the response (progression), the time when the event occurred is not directly observed but is known to take place within some time interval. Progression is known only to have occurred at some time between visits, the exact time is not known. We carried out interval censored analysis to demonstrate if allowing for interval censoring gives a different interpretation of the primary outcome.||||0.3016
92249881|NCT01769469|184401942|OTHER|||||||0.5491|||||||Wilcoxon (Mann-Whitney)|||||||0.5491
92249882|NCT01769469|184401943|OTHER|||||||0.0238|||||||Wilcoxon (Mann-Whitney)|||||||0.0238
92249883|NCT01769469|184401944|OTHER|||||||0.1172|||||||Wilcoxon (Mann-Whitney)|||||||0.1172
92182556|NCT01256359|184264218|SUPERIORITY||Hazard Ratio (HR)|1.348||||0.305|TWO_SIDED|90.0|0.602|3.016|||Regression, Cox||Adjusted for centre|Sensitivity analysis adjusting for centre. All 83 randomised patients were included in analysis. Centres were the three biggest recruiters and all other 13 centres are combined.||3.016|0.602|0.305
92249884|NCT01769469|184401945|OTHER|||||||0.122|||||||Wilcoxon (Mann-Whitney)|||||||0.1220
92249885|NCT01769469|184401946|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92249886|NCT01769469|184401948|OTHER|||||||0.7785|||||||Wilcoxon (Mann-Whitney)|||||||0.7785
92249887|NCT01769469|184401949|OTHER|||||||0.4933|||||||Wilcoxon (Mann-Whitney)|||||||0.4933
92249888|NCT01769469|184401950|OTHER|||||||0.5491|||||||Wilcoxon (Mann-Whitney)|||||||0.5491
92249889|NCT01769469|184401951|OTHER|||||||0.5161|||||||Wilcoxon (Mann-Whitney)|||||||0.5161
92176575|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.55|||<|0.0001|TWO_SIDED|95.0|-2.901|-2.199|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-2.199|-2.901|<.0001
92249890|NCT01769469|184401952|OTHER|||||||0.599|||||||Wilcoxon (Mann-Whitney)|||||||0.5990
92182557|NCT01256359|184264219|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.187|TWO_SIDED|90.0|-3.4|31.4|||Log Rank||This is the estimated difference in PFS rate i.e. % difference between arms|||31.4|-3.4|0.187
92249891|NCT01769469|184401953|OTHER|||||||0.8579|||||||Wilcoxon (Mann-Whitney)|||||||0.8579
92249892|NCT01769469|184401954|OTHER|||||||0.0719|||||||Wilcoxon (Mann-Whitney)|||||||0.0719
92249893|NCT01769469|184401955|OTHER|||||||0.3148|||||||Wilcoxon (Mann-Whitney)|||||||0.3148
92249894|NCT01769469|184401956|OTHER|||||||0.139|||||||Wilcoxon (Mann-Whitney)|||||||0.1390
92249895|NCT01769469|184401957|OTHER|||||||0.2726|||||||Wilcoxon (Mann-Whitney)|||||||0.2726
92249896|NCT01769469|184401958|OTHER|||||||0.537|||||||Wilcoxon (Mann-Whitney)|||||||0.5370
92249897|NCT01769469|184401959|OTHER|||||||0.2926|||||||Wilcoxon (Mann-Whitney)|||||||0.2926
92249898|NCT01769469|184401960|OTHER|||||||0.1906|||||||Wilcoxon (Mann-Whitney)|||||||0.1906
92249899|NCT01769469|184401961|OTHER|||||||0.2255|||||||Wilcoxon (Mann-Whitney)|||||||0.2255
92249900|NCT01769469|184401962|OTHER|||||||0.6285|||||||Wilcoxon (Mann-Whitney)|||||||0.6285
92249901|NCT01769469|184401963|OTHER|||||||0.0148|||||||Wilcoxon (Mann-Whitney)|||||||0.0148
92249902|NCT01769469|184401964|OTHER|||||||0.0166|||||||Wilcoxon (Mann-Whitney)|||||||0.0166
92249903|NCT01769469|184401965|OTHER|||||||0.0277|||||||Wilcoxon (Mann-Whitney)|||||||0.0277
92249904|NCT01769469|184401966|OTHER|||||||0.261|||||||Wilcoxon (Mann-Whitney)|||||||0.2610
92249905|NCT01769469|184401967|OTHER|||||||0.4154|||||||Wilcoxon (Mann-Whitney)|||||||0.4154
92249906|NCT01769469|184401968|OTHER|||||||0.7125|||||||Wilcoxon (Mann-Whitney)|||||||0.7125
92249907|NCT02713789|184402020|SUPERIORITY|||||||0.827|||||||ANCOVA|||SEP2||||0.827
92249908|NCT02713789|184402020|SUPERIORITY|||||||0.594|||||||ANCOVA|||SEP2||||0.594
92249909|NCT02713789|184402020|SUPERIORITY|||||||0.274|||||||ANCOVA|||SEP3||||0.274
92249910|NCT02713789|184402020|SUPERIORITY|||||||0.766|||||||ANCOVA|||SEP3||||0.766
92249911|NCT02713789|184402021|SUPERIORITY|||||||0.384|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.384
92249912|NCT02713789|184402021|SUPERIORITY|||||||0.144|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.144
92249913|NCT02713789|184402021|SUPERIORITY|||||||0.022|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.022
92249914|NCT02713789|184402021|SUPERIORITY|||||||0.137|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.137
92249915|NCT02713789|184402021|SUPERIORITY|||||||0.123|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.123
92249916|NCT02713789|184402022|SUPERIORITY|||||||0.16|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.160
92249917|NCT02713789|184402022|SUPERIORITY|||||||0.208|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.208
92249918|NCT02713789|184402022|SUPERIORITY|||||||0.316|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.316
92249919|NCT02713789|184402022|SUPERIORITY|||||||0.221|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.221
92249920|NCT02713789|184402022|SUPERIORITY|||||||0.172|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.172
92249921|NCT02713789|184402023|SUPERIORITY|||||||0.199|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.199
92249922|NCT02713789|184402023|SUPERIORITY|||||||0.203|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.203
92249923|NCT02713789|184402023|SUPERIORITY|||||||0.5|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.500
92249924|NCT02713789|184402023|SUPERIORITY|||||||0.296|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.296
92249925|NCT02713789|184402023|SUPERIORITY|||||||0.286|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.286
92182558|NCT01256359|184264220|SUPERIORITY||Hazard Ratio (HR)|1.373||||0.169|TWO_SIDED|90.0|0.797|2.369|||Regression, Cox|p value \< 0.1 one-sided considered to be significant.||||2.369|0.797|0.169
92249926|NCT02713789|184402024|SUPERIORITY|||||||0.449|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.449
92249927|NCT02713789|184402024|SUPERIORITY|||||||0.381|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.381
92249928|NCT02713789|184402024|SUPERIORITY|||||||0.011|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.011
92249929|NCT02713789|184402024|SUPERIORITY|||||||0.05|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.05
92249930|NCT02713789|184402024|SUPERIORITY|||||||0.09|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.09
92249931|NCT02713789|184402025|SUPERIORITY|||||||0.074|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.074
92249932|NCT02713789|184402025|SUPERIORITY|||||||0.468|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.468
92249933|NCT02713789|184402025|SUPERIORITY|||||||0.109|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.109
92249934|NCT02713789|184402025|SUPERIORITY|||||||0.493|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.493
92182559|NCT01256359|184264221|SUPERIORITY|||||||0.059|||||||Chi-squared|||Objective response rate calculated as number of patients with CR or PR over all patients randomised.||||0.059
92249935|NCT02713789|184402025|SUPERIORITY|||||||0.235|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.235
92249936|NCT02713789|184402026|SUPERIORITY|||||||0.136|||||||ANCOVA|||SEP1||||0.136
92249937|NCT02713789|184402026|SUPERIORITY|||||||0.498|||||||ANCOVA|||SEP1||||0.498
92249938|NCT02713789|184402026|SUPERIORITY|||||||0.369|||||||ANCOVA|||SEP4||||0.369
92249939|NCT02713789|184402026|SUPERIORITY|||||||0.337|||||||ANCOVA|||SEP4||||0.337
92249940|NCT02713789|184402026|SUPERIORITY|||||||0.16|||||||ANCOVA|||SEP5||||0.160
92249941|NCT00141037|184402043|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Wilcoxon Nonparametric Test|||The endpoint is assessed using a Wilcoxon nonparametric test and missing values are imputed using the last observation carried forward.||||0.79
92249942|NCT00141037|184402044|SUPERIORITY_OR_OTHER|||||||0.85|||||||Fisher Exact|||The difference was analyzed using a Fisher's exact test.||||0.85
92249943|NCT00861380|184402045|SUPERIORITY|VE (defined as 1 minus Relative Risk (RR)) was calculated by comparing numbers of culture-confirmed IPD. The number of subjects with IPD in each cluster was compared between groups (10PN3+1 vs Control). This comparison was done using a negative binomial log-linear model with correction for dispersion group- and cluster- related effect.|VE (1-RR)|100.0|||<|0.0001|TWO_SIDED|95.0|82.8|100.0||P-value was calculated using a classical log linear Poisson regression with strata, without taking into account the multiplicity of the endpoints.|Regression, Linear|||Analysis aimed at providing an estimate of vaccine effectiveness (VE) at preventing culture-confirmed IPD by comparing PYARs between groups taking into account the following parameters: T, n, n+ (number of clusters with at least one event culture-confirmed ID), and n/T. VE of the 10Pn vaccine in preventing culture-confirmed IPD due to the 10 vaccine serotypes was demonstrated if the 2-sided p-value calculated for the null hypothesis H0 =(vaccine-type \[VT\] IPD VE = 0%) was lower than (\<) 5%.||100|82.8|<0.0001
92249944|NCT00861380|184402046|SUPERIORITY|VE (defined as 1 minus Relative Risk (RR)) was calculated by comparing numbers of culture-confirmed IPD. The number of subjects with IPD in each cluster was compared between groups (10PN2+1vsControl). This comparison was done using a negative binomial log-linear model with correction for dispersion group- and cluster- related effect.|VE (1-RR)|91.8|||=|0.0009|TWO_SIDED|95.0|58.3|99.6||p-value was calculated using a classical log linear Poisson regression with strata, without taking into account the multiplicity of the endpoints.|Regression, Linear|||Analysis aimed at providing an estimate of vaccine effectiveness (VE) at preventing culture-confirmed IPD by comparing PYARs between groups taking into account the following parameters: T, n, n+ (number of clusters with at least one event culture-confirmed ID), and n/T. VE of the 10Pn vaccine in preventing culture-confirmed IPD due to the 10 vaccine serotypes was demonstrated if the 2-sided p-value calculated for the null hypothesis H0 = (vaccine-type \[VT\] IPD VE = 0%) was lower than (\<) 5%.||99.6|58.3|= 0.0009
92264981|NCT01314261|184431443|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||Ten participants in an ABT-267 arm and nine participants in the placebo arm would provide 84% power using Fisher's exact test with two-sided significance level of 0.05 to detect a difference of approximately 70% between the two arms.||||0.030
92176576|NCT04800211|184247038|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.071||||0.7372|TWO_SIDED|95.0|-0.346|0.489|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||0.489|-0.346|0.7372
92249945|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 2626735.|PYAR|14.657|||||TWO_SIDED|95.0|13.229|16.197|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||16.197|13.229|
92249946|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 1354702.|PYAR|13.582|||||TWO_SIDED|95.0|11.691|15.693|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||15.693|11.691|
92182560|NCT01256359|184264222|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.318|TWO_SIDED|90.0|0.71|1.84|||Regression, Cox|||Analysis adjusted for with Mstatus and Performance Score||1.84|0.71|0.318
92264982|NCT01314261|184431444|SUPERIORITY_OR_OTHER|||||||0.102|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.102
92182561|NCT01256359|184264260|SUPERIORITY||Hazard Ratio (HR)|1.022||||0.468|TWO_SIDED|90.0|0.649|1.612|||Regression, Cox||Analysis Adjusted for M status, performance status|This is a sensitivity analysis of the primary outcome.||1.612|0.649|0.468
92264983|NCT01314261|184431444|SUPERIORITY_OR_OTHER|||||||0.362|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.362
92249947|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 2626735.|PYAR|8.452|||||TWO_SIDED|95.0|7.376|9.639|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||9.639|7.376|
92264984|NCT01314261|184431444|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.079
92264985|NCT01314261|184431448|SUPERIORITY_OR_OTHER|||||||0.083|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.083
92264986|NCT01314261|184431448|SUPERIORITY_OR_OTHER|||||||0.515|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.515
92264987|NCT01314261|184431448|SUPERIORITY_OR_OTHER|||||||0.221|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.221
92182562|NCT01256359|184264261|SUPERIORITY||Hazard Ratio (HR)|0.721||||0.106|TWO_SIDED|90.0|0.468|1.109|||Regression, Cox||Analysis was adjusted for mstatus, performance status|This is the per-protocol analysis of the primary outcome.||1.109|0.468|0.106
92264988|NCT01314261|184431449|SUPERIORITY_OR_OTHER|||||||0.155|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.155
92249948|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 1354702.|PYAR|7.603|||||TWO_SIDED|95.0|6.206|9.221|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||9.221|6.206|
92249949|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 2626735.|PYAR|1.637|||||TWO_SIDED|95.0|1.185|2.205|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||2.205|1.185|
92249950|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 1354702.|PYAR|1.845|||||TWO_SIDED|95.0|1.194|2.724|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||2.724|1.194|
92264989|NCT01314261|184431449|SUPERIORITY_OR_OTHER|||||||0.214|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.214
92264990|NCT01314261|184431449|SUPERIORITY_OR_OTHER|||||||0.231|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.231
92182563|NCT01256359|184264262|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.824|TWO_SIDED|95.0|0.25|1.53||p-value is for the interaction term|Regression, Cox||HRs (95% CI) between treatment groups are given for Wild type and NRAS mutated separately. The above HR is for WT.|Model with interaction term between NRAS status and treatment group and stratification variables||1.53|0.25|0.824
92264991|NCT01314261|184431450|SUPERIORITY_OR_OTHER|||||||0.127|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.127
92182564|NCT01256359|184264263|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.072|TWO_SIDED|95.0|0.16|1.6||p-value is for interaction term.|Regression, Cox|Model includes interaction term between NRAS status and treatment group and stratification variables|"HRs for treatment effect (AZD6244 vs Placebo ) are estimated for NRAS WT and NRAS mutated patients separately.~Hazard ratios (95%CI) given above are for NRAS WT patients."|||1.60|0.16|0.072
92182565|NCT01256359|184264263|SUPERIORITY||Hazard Ratio (HR)|1.97|||||TWO_SIDED|95.0|0.73|5.33|||||HR for NRAS mutated patients|||5.33|0.73|
92182566|NCT01256359|184264265|SUPERIORITY|Adjusted for with Mstatus and Performance Score|Hazard Ratio (HR)|1.12||||0.348|TWO_SIDED|90.0|0.68|1.87|||Regression, Cox|||||1.87|0.68|0.348
92249951|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as . 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons = 2626735.|PYAR|3.997|||||TWO_SIDED|95.0|3.269|4.839|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||4.839|3.269|
92249952|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons = 1354702.|PYAR|3.322|||||TWO_SIDED|95.0|2.423|4.445|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||4.445|2.423|
92249953|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2636783.|PYAR|14.487|||||TWO_SIDED|95.0|13.071|16.015|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||16.015|13.071|
92249954|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1360966.|PYAR|13.74|||||TWO_SIDED|95.0|11.841|15.857|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||15.857|11.841|
92249955|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2636783.|PYAR|7.813|||||TWO_SIDED|95.0|6.782|8.955|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||8.955|6.782|
92249956|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1360966.|PYAR|7.789|||||TWO_SIDED|95.0|6.377|9.42|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||9.420|6.377|
92287274|NCT03635320|184479430|NON_INFERIORITY|non-inferiority margin of -10%|95%CI|0.0|||||TWO_SIDED|95.0|-4.53|4.42|||Newcombe-Wilson scoring method|Using the Newcombe-Wilson scoring method, the difference of fracture union rate between the TFNA group and the PFNA-II group was 0.|If the lower limit of 95% CI of the difference in the rates of the study group and the control group is greater than the non-inferiority margin of -10%, then the investigational product is considered non-inferior to the control product.|||4.42|-4.53|
92264992|NCT01314261|184431450|SUPERIORITY_OR_OTHER|||||||0.328|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.328
92264993|NCT01314261|184431450|SUPERIORITY_OR_OTHER|||||||0.166|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.166
92264994|NCT01314261|184431451|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Log Rank|||||||0.007
92264995|NCT01314261|184431451|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Log Rank|||||||0.029
92264996|NCT01314261|184431451|SUPERIORITY_OR_OTHER|||||||0.105|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Log Rank|||||||0.105
92287275|NCT02322593|184479439|SUPERIORITY||Hazard Ratio (HR)|0.83|STANDARD_ERROR_OF_MEAN|0.091||0.039|TWO_SIDED|95.0|0.69|0.99|||Log Rank|||||0.99|0.69|0.039
92176577|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.106|||<|0.0001|TWO_SIDED|95.0|-3.502|-2.71|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.710|-3.502|<.0001
92182567|NCT01256359|184264266|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.797|TWO_SIDED|90.0|0.24|1.58||p-value is for interaction term.|Regression, Cox|Model includes interaction term between NRAS status and treatment group and stratification variables|"HRs for treatment effect (AZD6244 vs Placebo ) are estimated for NRAS WT and NRAS mutated patients separately.~Hazard ratios (95%CI) given above are for NRAS WT patients."|||1.58|0.24|0.797
92182568|NCT01256359|184264266|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.35|1.45|||||HR for NRAS mutated patients|||1.45|0.350|
92287276|NCT02322593|184479440|SUPERIORITY||Hazard Ratio (HR)|0.79|STANDARD_ERROR_OF_MEAN|0.086||0.0045|TWO_SIDED|95.0|0.66|0.93|||Log Rank|||||0.93|0.66|0.0045
92182569|NCT01256359|184264267|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.12|TWO_SIDED|95.0|0.18|1.97||Model includes interaction term between NRAS status and treatment group and stratification variables. p-value is for interaction term.|Regression, Cox||"HRs for treatment effect (AZD6244 vs Placebo ) are estimated for NRAS WT and NRAS mutated patients separately.~Hazard ratios (95%CI) given above are for NRAS WT patients."|||1.97|0.18|0.120
92182570|NCT01256359|184264267|SUPERIORITY||Hazard Ratio (HR)|1.99|||||TWO_SIDED|95.0|0.73|5.38|||||HR for NRAS mutated patients|||5.38|0.73|
92287277|NCT02322593|184479441|SUPERIORITY||Hazard Ratio (HR)|0.82|STANDARD_ERROR_OF_MEAN|0.078||0.011|TWO_SIDED|95.0|0.7|0.96|||Log Rank|||||0.96|0.70|0.011
92182571|NCT03737110|184264282|SUPERIORITY||Hazard Ratio (HR)|0.04|||<|0.0001|TWO_SIDED|95.0|0.01|0.18||Two-sided p-value is from the log-rank test stratified by oral corticosteroid use at Run-In Baseline.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by oral corticosteroid use at run-in baseline.|||0.18|0.01|<0.0001
92287278|NCT02322593|184479442|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92287279|NCT02322593|184479443|SUPERIORITY|||||||0.092|||||||Fisher Exact|||||||0.092
92287280|NCT02659150|184479454|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_DEVIATION|0.24||0.26|TWO_SIDED||||||t-test, 2 sided|||Paired T-test comparing values obtained during the follow-up imaging (at 13-18 weeks)minus the baseline values||||0.26
92287281|NCT02659150|184479455|OTHER||Spearman Correlation Coefficient|0.76||||0.036|TWO_SIDED||||||Spearman|||correlation coefficient||||0.036
92182572|NCT03737110|184264283|SUPERIORITY||Odds Ratio (OR)|12.727||||0.0002|TWO_SIDED|95.0|2.438|66.428||95% confidence interval (CI) and p-value were analyzed using a Cochran-Mantel-Haenszel test adjusted by oral corticosteroid use and diagnosis of recurrent idiopathic pericarditis at run-in baseline.|Cochran-Mantel-Haenszel|||||66.428|2.438|0.0002
92182573|NCT03737110|184264283|SUPERIORITY||Difference in percentages|61.0|||||TWO_SIDED|95.0|36.7|85.2|||||Differences between percentages are reported in percentage points. The 95% confidence intervals for the differences in percentages were based on a normal approximation.|||85.2|36.7|
92249957|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2636783.|PYAR|2.313|||||TWO_SIDED|95.0|1.77|2.972|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||2.972|1.770|
92249958|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1360966.|PYAR|1.984|||||TWO_SIDED|95.0|1.307|2.886|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||2.886|1.307|
92182574|NCT03737110|184264284|SUPERIORITY||Least squares (LS) mean difference|51.2|||<|0.0001|TWO_SIDED|95.0|34.5|68.0||Two-sided p-value calculated using analysis of covariance with treatment, randomization strata and run-in baseline NRS weekly average category (NRS ≤ 2 versus NRS \>2) as covariates.|ANCOVA||Least squares mean difference (rilonacept - placebo)|||68.0|34.5|< 0.0001
92264997|NCT01314261|184431454|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.028
92249959|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model without strata). Total number of non-vaccinated persons =2636783.|PYAR|4.172|||||TWO_SIDED|95.0|3.429|5.028|||Negative Binomial model without strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||5.028|3.429|
92249960|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model without strata). Total number of non-vaccinated persons =1360966.|PYAR|3.968|||||TWO_SIDED|95.0|2.981|5.177|||Negative Binomial model without strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||5.177|2.981|
92249961|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2654010.|PYAR|14.017|||||TWO_SIDED|95.0|12.628|15.516|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||15.516|12.628|
92249962|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1367343.|PYAR|15.066|||||TWO_SIDED|95.0|13.079|17.269|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||17.269|13.079|
92249963|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2654010.|PYAR|5.916|||||TWO_SIDED|95.0|5.026|6.917|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||6.917|5.026|
92249964|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1367343.|PYAR|8.557|||||TWO_SIDED|95.0|7.077|10.255|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||10.255|7.077|
92249965|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons =2654010.|PYAR|2.977|||||TWO_SIDED|95.0|2.357|3.71|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||3.710|2.357|
92249966|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons =1367343.|PYAR|2.048|||||TWO_SIDED|95.0|1.361|2.96|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||2.960|1.361|
92249967|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2654010.|PYAR|5.011|||||TWO_SIDED|95.0|4.196|5.939|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||5.939|4.196|
92249968|NCT00861380|184402050|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1367343.|PYAR|4.315|||||TWO_SIDED|95.0|3.285|5.566|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||5.566|3.285|
92249969|NCT00861380|184402058|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2626735.|PYAR|9.218|||||TWO_SIDED|95.0|9.103|9.335|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||9.335|9.103|
92264998|NCT01314261|184431454|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.051
92264999|NCT01314261|184431454|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.021
92265000|NCT01231620|184431455|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.73||||0.25|TWO_SIDED|95.0|-1.79|0.75|||Wilcoxon rank sum||IV Zanamivir 300 mg versus IV Zanamivir 600 mg|||0.75|-1.79|0.25
92249970|NCT00861380|184402058|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1354702.|PYAR|9.212|||||TWO_SIDED|95.0|9.052|9.375|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||9.375|9.052|
92249971|NCT00861380|184402058|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2636783.|PYAR|10.5|||||TWO_SIDED|95.0|10.378|10.624|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||10.624|10.378|
92265001|NCT01231620|184431455|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.48||||0.39|TWO_SIDED|95.0|-2.11|0.97|||Wilcoxon rank sum||Oral oseltamivir 75 mg versus IV Zanamivir 600 mg|||0.97|-2.11|0.39
92265002|NCT01231620|184431456|SUPERIORITY_OR_OTHER|||||||0.506|||||||Wei-Johnson method|||||||0.506
92265003|NCT01231620|184431456|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wei-Johnson method|||||||0.41
92249972|NCT00861380|184402058|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1360966.|PYAR|10.429|||||TWO_SIDED|95.0|10.259|10.601|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||10.601|10.259|
92182575|NCT03737110|184264285|SUPERIORITY||Odds Ratio (OR)|10.0||||0.0006|TWO_SIDED|95.0|2.136|46.826||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel test adjusted by oral corticosteroid use and diagnosis of recurrent idiopathic pericarditis at RI baseline.|Cochran-Mantel-Haenszel|||||46.826|2.136|0.0006
92287282|NCT02659150|184479456|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_DEVIATION|0.32||0.14|TWO_SIDED||||||t-test, 2 sided|||The carotid artery plaque with highest FDG uptake is located using Positron Emission Tomography/ Magnetic Resonance Imaging images. Thereafter Paired T- Test is used to compare baseline vs follow-up values of FDG uptake (before vs after 12 weeks of tocilizumab treatment). FDG uptake is assessed as a Target to background values (TBR) , which is calculated as the mean arterial standardized uptake value (SUV) divided by background blood pool SUV.||||0.14
92287283|NCT02659150|184479457|SUPERIORITY||correlation coefficient|-0.66||||0.076|TWO_SIDED||||||Spearman's Method|||||||0.076
92176578|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-2.824|||<|0.0001|TWO_SIDED|95.0|-3.235|-2.414|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.414|-3.235|<.0001
92176579|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.228|||<|0.0001|TWO_SIDED|95.0|-3.553|-2.904|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.904|-3.553|<.0001
92182576|NCT03737110|184264285|SUPERIORITY||Difference in percentages|56.0|||||TWO_SIDED|95.0|30.6|81.3|||||Differences between percentages are reported in percentage points. The 95% confidence intervals for the differences in percentages were based on a normal approximation.|||81.3|30.6|
92182577|NCT03737110|184264286|SUPERIORITY||Odds Ratio (OR)|8.37||||0.0022|TWO_SIDED|95.0|1.317|53.188||95% CI and p-value were analyzed using a Cochran-Mantel-Haenszel test adjusted by oral corticosteroid use and diagnosis of recurrent idiopathic pericarditis at run-in baseline.|Cochran-Mantel-Haenszel|||||53.188|1.317|0.0022
92249973|NCT00861380|184402058|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2654010.|PYAR|10.118|||||TWO_SIDED|95.0|9.997|10.239|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||10.239|9.997|
92265004|NCT00951912|184431580|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7981|STANDARD_ERROR_OF_MEAN|2.422|<|0.05|TWO_SIDED|95.0|-6.6569|5.0607|||ANOVA|||"Null hypothesis: There are no difference in the difference of changes in plasma glucose.~Power calculation: The sample size of 55 subjects per group provided about 90% power to detect a significant change in the FG concentration of 8 mg/dL (7%) by using a general assumption of a 2-tailed a level of 0.05 and allowing for a 20% withdrawal rate."||5.0607|-6.6569|<0.05
92265005|NCT00951912|184431580|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.0842|STANDARD_ERROR_OF_MEAN|2.411|<|0.05|TWO_SIDED|95.0|-2.7486|8.9171|||ANOVA|||||8.9171|-2.7486|<0.05
92265006|NCT00951912|184431580|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.8823|STANDARD_ERROR_OF_MEAN|2.399|<|0.05|TWO_SIDED|95.0|-1.9234|9.6881|||ANOVA|||||9.6881|-1.9234|<0.05
92287284|NCT02659150|184479458|SUPERIORITY||Correlation coefficient|0.67||||0.07|TWO_SIDED||||||Spearman's Method|||||||0.07
92265007|NCT00951912|184431581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7696|STANDARD_ERROR_OF_MEAN|4.2|<|0.05|TWO_SIDED|95.0|-11.9308|8.3916|||ANOVA|||||8.3916|-11.9308|<0.05
92265008|NCT00951912|184431581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6929|STANDARD_ERROR_OF_MEAN|4.1818|<|0.05|TWO_SIDED|95.0|-9.4232|10.8091|||ANOVA|||||10.8091|-9.4232|<0.05
92249974|NCT00861380|184402058|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1367343.|PYAR|9.921|||||TWO_SIDED|95.0|9.755|10.088|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||10.088|9.755|
92249975|NCT00861380|184402066|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =229978.|PYAR|22.624|||||TWO_SIDED|95.0|22.02|23.24|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||23.240|22.020|
92265009|NCT00951912|184431581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4626|STANDARD_ERROR_OF_MEAN|4.1624|<|0.05|TWO_SIDED|95.0|-7.6067|12.5318|||ANOVA|||||12.5318|-7.6067|<0.05
92182578|NCT03737110|184264287|SUPERIORITY||Odds Ratio (OR)|10.906|||<|0.0001|TWO_SIDED|95.0|3.051|38.981||95% CI and p-value were analyzed using a Cochran-Mantel-Haenszel test adjusted by oral corticosteroid use and diagnosis of recurrent idiopathic pericarditis at run-in baseline.|Cochran-Mantel-Haenszel|||||38.981|3.051|< 0.0001
92265010|NCT00951912|184431582|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01174|STANDARD_ERROR_OF_MEAN|1.45967|<|0.05|TWO_SIDED|95.0|-3.5428|3.5194|||ANOVA|||||3.5194|-3.5428|<0.05
92265011|NCT00951912|184431582|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.68659|STANDARD_ERROR_OF_MEAN|1.4532|<|0.05|TWO_SIDED|95.0|-6.202|0.8288|||ANOVA|||||0.8288|-6.2020|<0.05
92265012|NCT00951912|184431582|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.67485|STANDARD_ERROR_OF_MEAN|1.44646|<|0.05|TWO_SIDED|95.0|-6.174|0.8243|||ANOVA|||||0.8243|-6.174|<0.05
92265013|NCT00951912|184431583|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9661|STANDARD_ERROR_OF_MEAN|3.14977|<|0.05|TWO_SIDED|95.0|-10.5857|4.6535|||ANOVA|||||4.6535|-10.5857|<0.05
92265014|NCT00951912|184431583|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.9972|STANDARD_ERROR_OF_MEAN|3.13581|<|0.05|TWO_SIDED|95.0|-8.583|6.5886|||ANOVA|||||6.5886|-8.5830|<0.05
92265015|NCT00951912|184431583|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.9689|STANDARD_ERROR_OF_MEAN|3.12126|<|0.05|TWO_SIDED|95.0|-5.5817|9.5195|||ANOVA|||||9.5195|-5.5817|<0.05
92265016|NCT00951912|184431584|SUPERIORITY_OR_OTHER||Mean Rank|1.442|||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92265017|NCT00951912|184431585|SUPERIORITY_OR_OTHER||Mean Ranks|1.895|||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92265018|NCT00951912|184431586|SUPERIORITY_OR_OTHER||Mean Ranks|2.169|||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92265019|NCT00951912|184431587|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.437|STANDARD_ERROR_OF_MEAN|4.9113|<|0.05|TWO_SIDED|95.0|-8.444|15.318|||ANOVA|||||15.318|-8.444|<0.05
92265020|NCT00951912|184431587|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.4809|STANDARD_ERROR_OF_MEAN|4.8896|<|0.05|TWO_SIDED|95.0|-8.3475|15.3092|||ANOVA|||||15.3092|-8.3475|<0.05
92265021|NCT00951912|184431587|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0439|STANDARD_ERROR_OF_MEAN|4.8669|<|0.05|TWO_SIDED|95.0|-11.7296|11.8174|||ANOVA|||||11.8174|-11.7296|<0.05
92265022|NCT00951912|184431588|SUPERIORITY_OR_OTHER||Mean ranks|1.031|||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92265023|NCT00951912|184431589|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8185|STANDARD_ERROR_OF_MEAN|3.2343|<|0.05|TWO_SIDED|95.0|-6.0057|9.6426|||ANOVA|||||9.6426|-6.0057|<0.05
92265024|NCT00951912|184431589|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0276|STANDARD_ERROR_OF_MEAN|3.2199|<|0.05|TWO_SIDED|95.0|-6.7619|8.817|||ANOVA|||||8.8170|-6.7619|<0.05
92265025|NCT00951912|184431589|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7909|STANDARD_ERROR_OF_MEAN|3.205|<|0.05|TWO_SIDED|95.0|-8.5442|6.9624|||ANOVA|||||6.9624|-8.5442|<0.05
92265026|NCT00951912|184431590|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0122|STANDARD_ERROR_OF_MEAN|4.1686|<|0.05|TWO_SIDED|95.0|-8.0721|12.0964|||ANOVA|||||12.0964|-8.0721|<0.05
92265027|NCT00951912|184431590|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7716|STANDARD_ERROR_OF_MEAN|4.1501|<|0.05|TWO_SIDED|95.0|-10.8111|9.2679|||ANOVA|||||9.2679|-10.8111|<0.05
92265028|NCT00951912|184431590|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7837|STANDARD_ERROR_OF_MEAN|4.1309|<|0.05|TWO_SIDED|95.0|-12.7767|7.2092|||ANOVA|||||7.2092|-12.7767|<0.05
92265029|NCT00951912|184431591|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4437|STANDARD_ERROR_OF_MEAN|0.1001|<|0.05|TWO_SIDED|95.0|-0.6416|-0.2458|||ANOVA|||||-0.2458|-0.6416|<0.05
92265030|NCT00951912|184431591|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1986|STANDARD_ERROR_OF_MEAN|0.09986|<|0.05|TWO_SIDED|95.0|-0.3956|-0.0016|||ANOVA|||||-0.0016|-0.3956|<0.05
92265031|NCT00951912|184431591|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2451|STANDARD_ERROR_OF_MEAN|0.09648|<|0.05|TWO_SIDED|95.0|0.0544|0.4358|||ANOVA|||||0.4358|0.0544|<0.05
92265032|NCT00951912|184431592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6353|STANDARD_ERROR_OF_MEAN|0.1146|<|0.05|TWO_SIDED|95.0|-0.8617|-0.4089|||ANOVA|||||-0.4089|-0.8617|<0.05
92265033|NCT00951912|184431592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0282|STANDARD_ERROR_OF_MEAN|0.1156||0.05|TWO_SIDED|95.0|-0.2003|0.2568|||ANOVA|||||0.2568|-0.2003|0.05
92182579|NCT03737110|184264288|SUPERIORITY||LS mean difference|51.9|||<|0.0001|TWO_SIDED|95.0|33.8|70.1||Two-sided p-value calculated using analysis of covariance with treatment, randomization strata and run-in baseline NRS weekly average category (NRS ≤ 2 versus NRS \>2) as covariates.|ANCOVA||Least squares mean difference (rilonacept - placebo)|||70.1|33.8|< 0.0001
92182580|NCT03737110|184264289|SUPERIORITY||LS mean difference|40.5|||<|0.0001|TWO_SIDED|95.0|25.3|55.8||Two-sided p-value calculated using analysis of covariance with treatment, randomization strata and run-in baseline NRS weekly average category (NRS ≤ 2 versus NRS \>2) as covariates.|ANCOVA||Least squares mean difference (rilonacept - placebo)|||55.8|25.3|< 0.0001
92182581|NCT03737110|184264290|SUPERIORITY||Odds Ratio (OR)|30.522||||0.0002|TWO_SIDED|95.0|4.262|218.552||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel (CMH) test adjusted by oral corticosteroid use at RI baseline.|Cochran-Mantel-Haenszel|||||218.552|4.262|0.0002
92249976|NCT00861380|184402066|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =120190.|PYAR|22.747|||||TWO_SIDED|95.0|21.912|23.606|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||23.606|21.912|
92249977|NCT00861380|184402066|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =214181.|PYAR|24.503|||||TWO_SIDED|95.0|23.852|25.166|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||25.166|23.852|
92249978|NCT00861380|184402066|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =112060.|PYAR|26.236|||||TWO_SIDED|95.0|25.308|27.189|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||27.189|25.308|
92249979|NCT00861380|184402066|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =211914.|PYAR|27.502|||||TWO_SIDED|95.0|26.81|28.207|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||28.207|26.810|
92265034|NCT00951912|184431592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6635|STANDARD_ERROR_OF_MEAN|0.1121|<|0.05|TWO_SIDED|95.0|0.4419|0.8851|||ANOVA|||||0.8851|0.4419|<0.05
92182582|NCT03737110|184264291|SUPERIORITY||Odds Ratio (OR)|14.432|||<|0.0001|TWO_SIDED|95.0|3.439|60.574||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel test adjusted by oral corticosteroid use and diagnosis of recurrent idiopathic pericarditis at RI baseline.|Cochran-Mantel-Haenszel|||||60.574|3.439|< 0.0001
92265035|NCT00951912|184431593|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1557|STANDARD_ERROR_OF_MEAN|0.119|<|0.05||95.0|-0.3911|0.0796|||ANOVA|||||0.0796|-0.3911|<0.05
92265036|NCT00951912|184431593|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.606|STANDARD_ERROR_OF_MEAN|0.119||0.05|TWO_SIDED|95.0|-0.8414|-0.3707|||ANOVA|||||-0.3707|-0.8414|0.05
92265037|NCT00951912|184431593|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4503|STANDARD_ERROR_OF_MEAN|0.1163|<|0.05|TWO_SIDED|95.0|-0.6804|-0.2202|||ANOVA|||||-0.2202|-0.6804|<0.05
92249980|NCT00861380|184402066|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111071.|PYAR|26.1||||||95.0|25.171|27.055|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||27.055|25.171|
92182583|NCT03737110|184264292|SUPERIORITY||Difference|75.7|||<|0.0001|TWO_SIDED|95.0|56.8|94.6|||normal approximation|||||94.6|56.8|< 0.0001
92265038|NCT00951912|184431594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|102.4|STANDARD_ERROR_OF_MEAN|83.4|<|0.05|TWO_SIDED|95.0|-99.3|304.1|||ANOVA|||||304.1|-99.3|<0.05
92249981|NCT00861380|184402066|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =213913.|PYAR|28.661|||||TWO_SIDED|95.0|27.958|29.377|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||29.377|27.958|
92265039|NCT00951912|184431594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.8|STANDARD_ERROR_OF_MEAN|82.6||0.05|TWO_SIDED|95.0|-203.7|196.1|||ANOVA|||||196.1|-203.7|0.05
92265040|NCT00951912|184431594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-106.2|STANDARD_ERROR_OF_MEAN|82.2|<|0.05|TWO_SIDED|95.0|-305.1|92.8|||ANOVA|||||92.8|-305.1|<0.05
92182584|NCT03737110|184264293|SUPERIORITY||Hazard Ratio (HR)|0.13|||<|0.0001|TWO_SIDED|95.0|0.05|0.32||Two-sided p-value is from the log-rank test stratified by oral corticosteroid use at run-in baseline.|Log Rank||Calculated based on a Cox proportional hazards model with treatment as covariate and stratified by oral corticosteroid use at run-in baseline.|||0.32|0.05|< 0.0001
92265041|NCT01377194|184431595|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.303||||0.0027|TWO_SIDED|95.0|-5.457|-1.148|||mixed-model for repeated measures|||||-1.148|-5.457|0.0027
92249982|NCT00861380|184402066|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111414.|PYAR|29.835|||||TWO_SIDED|95.0|28.843|30.85|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||30.850|28.843|
92265042|NCT01377194|184431595|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.141||||0.0043|TWO_SIDED|95.0|-5.293|-0.988|||mixed-model for repeated measures|||||-0.988|-5.293|0.0043
92265043|NCT01377194|184431596|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.827||||0.0459|TWO_SIDED|95.0|-3.62|-0.033|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.033|-3.620|0.0459
92265044|NCT01377194|184431596|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.72||||0.0028|TWO_SIDED|95.0|-4.494|-0.946|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.946|-4.494|0.0028
92265045|NCT00422227|184431598|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92265046|NCT00422227|184431599|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||ACR 20||||<0.001
92249983|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =229978.|PYAR|816.813|||||TWO_SIDED|95.0|815.226|818.392|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||818.392|815.226|
92265047|NCT00422227|184431599|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||ACR 50||||<0.001
92265048|NCT00422227|184431599|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Fisher Exact|||ACR 70||||0.009
92265049|NCT00422227|184431600|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||Low Disease (DAS28 \<3.2)||||<0.001
92265050|NCT00422227|184431600|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||Fisher Exact|||Remission (DAS28 \<2.6)||||0.069
92265051|NCT00422227|184431601|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92265052|NCT00422227|184431602|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||||||0.003
92265053|NCT00422227|184431603|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||≥0.6||||0.003
92265054|NCT00422227|184431603|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||≥1.2||||0.001
92265055|NCT00422227|184431604|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||ANCOVA|||Painful Joints at Week 16||||0.014
92265056|NCT00422227|184431604|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Swollen Joints at Week 16||||<0.001
92265057|NCT00422227|184431605|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Physician Global Assessment Week 16||||<0.001
92249984|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =120190.|PYAR|841.176|||||TWO_SIDED|95.0|839.098|843.239|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||843.239|839.098|
92249985|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =229978.|PYAR|702.245|||||TWO_SIDED|95.0|700.372|704.114|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for Acute Otitis Media (AOM)/Respiratory Tract Infections (RTI), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||704.114|700.372|
92249986|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =120190.|PYAR|720.9|||||TWO_SIDED|95.0|718.355|723.435|||negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||723.435|718.355|
92249987|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =214181.|PYAR|929.844|||||TWO_SIDED|95.0|928.755|930.923|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||930.923|928.755|
92249988|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =112060.|PYAR|953.025|||||TWO_SIDED|95.0|951.77|954.257|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||954.257|951.770|
92265058|NCT00422227|184431605|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Subject Global Assessment Week 16||||<0.001
92265059|NCT00422227|184431606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Week 16||||<0.001
92265060|NCT00422227|184431607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||General Health Week 16||||<0.001
92265061|NCT00422227|184431607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Pain Week 16||||<0.001
92265062|NCT00422227|184431607|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Fatigue Week 16||||0.001
92265063|NCT03747497|184431608|OTHER||Median Difference (Net)|-0.6|||||TWO_SIDED|95.0|-14.0|2.8||||||||2.8|-14.0|
92265064|NCT02646566|184431642|SUPERIORITY|||||||0.003||||||One-sided p-value. After adjustment for multiplicity using Hommel's method. (Note: unadjusted p value = 0.003) A priori threshold for statistical significance = 0.025.|Chi-squared|||The primary efficacy analysis was a comparison of the incidence of the primary efficacy variable between the two groups that received APD421 and the group that received placebo, using Pearson's χ2 test. The threshold for determining statistical significance in the comparison of incidence of success between the active and placebo groups (the primary efficacy analysis) was a p-value of 2.5% one-sided.||||0.003
92249989|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =214181.|PYAR|804.703|||||TWO_SIDED|95.0|803.017|806.38|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||806.380|803.017|
92249990|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =112060.|PYAR|818.66|||||TWO_SIDED|95.0|816.391|820.912|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||820.912|816.391|
92249991|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =211914.|PYAR|916.079|||||TWO_SIDED|95.0|914.891|917.256|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||917.256|914.891|
92249992|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111071.|PYAR|928.568|||||TWO_SIDED|95.0|927.038|930.076|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||930.076|927.038|
92182585|NCT03737110|184264294|SUPERIORITY||Hazard Ratio (HR)|0.07|||<|0.0001|TWO_SIDED|95.0|0.02|0.22||Two-sided p-value is from the log-rank test stratified by oral corticosteroid use at run-in baseline.|Log Rank||Calculated based on a Cox proportional hazards model with treatment as covariate and stratified by oral corticosteroid use at run-in baseline.|||0.22|0.02|< 0.0001
92265065|NCT02646566|184431642|SUPERIORITY|||||||0.109||||||One-sided p-value. After adjustment for multiplicity using Hommel's method. (Note: unadjusted p value = 0.109) A priori threshold for statistical significance = 0.025.|Chi-squared|||The primary efficacy analysis was a comparison of the incidence of the primary efficacy variable between the two groups that received APD421 and the group that received placebo, using Pearson's χ2 test. The threshold for determining statistical significance in the comparison of incidence of success between the active and placebo groups (the primary efficacy analysis) was a p-value of 2.5% one-sided.||||0.109
92182586|NCT03737110|184264295|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.7447|TWO_SIDED|95.0|0.12|4.46||Two-sided p-value is from the log-rank test without stratification by randomization strata.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and without stratification by randomization strata.|||4.46|0.12|0.7447
92265066|NCT02646566|184431643|SUPERIORITY||||||<|0.001||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||<0.001
92182587|NCT03737110|184264296|SUPERIORITY||Hazard Ratio (HR)|0.36||||0.2066|TWO_SIDED|95.0|0.07|1.87||Two-sided p-value is from the log-rank test without stratification by randomization strata.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and without stratification by randomization strata.|||1.87|0.07|0.2066
92265067|NCT02646566|184431643|SUPERIORITY|||||||0.059||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.059
92265068|NCT02646566|184431644|SUPERIORITY||||||<|0.001||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||<0.001
92265069|NCT02646566|184431644|SUPERIORITY|||||||0.053||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.053
92265070|NCT02646566|184431645|SUPERIORITY||||||<|0.001||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||<0.001
92265071|NCT02646566|184431645|SUPERIORITY|||||||0.021||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.021
92265072|NCT02646566|184431646|SUPERIORITY||||||<|0.001|||||||Regression, Cox|||||||<0.001
92265073|NCT02646566|184431646|SUPERIORITY|||||||0.084|||||||Regression, Cox|||||||0.084
92265074|NCT02646566|184431647|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92265075|NCT02646566|184431647|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
92249993|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =211914.|PYAR|796.894||||||95.0|795.175|798.605|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||798.605|795.175|
92265076|NCT02646566|184431648|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92182588|NCT03737110|184264297|SUPERIORITY||Hazard Ratio (HR)|0.0||||0.0059|TWO_SIDED|95.0|0.0||Not estimable due to low number of participants with an event.|Two-sided p-value is from the log-rank test without stratification by randomization strata.|Log Rank||||||0.00|0.0059
92182589|NCT03737110|184264309|SUPERIORITY||Odds Ratio (OR)|0.015|||<|0.0001|TWO_SIDED|95.0|0.002|0.108||Two-sided p value calculated using a Cochran-Mantel-Haenszel test adjudicated by randomization strata.|Cochran-Mantel-Haenszel|||Participants who used ORT, corticosteroids or bailout rilonacept during the RW Period||0.108|0.002|< 0.0001
92265077|NCT02646566|184431648|SUPERIORITY|||||||0.179|||||||Chi-squared|||||||0.179
92265078|NCT02646566|184431649|SUPERIORITY|||||||0.009|||||||Chi-squared|||||||0.009
92176580|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-2.839|||<|0.0001|TWO_SIDED|95.0|-3.221|-2.457|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.457|-3.221|<.0001
92176581|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-2.449|||<|0.0001|TWO_SIDED|95.0|-2.828|-2.07|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.070|-2.828|<.0001
92265079|NCT02646566|184431649|SUPERIORITY|||||||0.315|||||||Chi-squared|||||||0.315
92265080|NCT02646566|184431650|SUPERIORITY|||||||0.065|||||||Chi-squared|||||||0.065
92265081|NCT02646566|184431650|SUPERIORITY|||||||0.52|||||||Chi-squared|||||||0.520
92265082|NCT02646566|184431651|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92265083|NCT02646566|184431651|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.420
92265084|NCT02646566|184431652|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92265085|NCT02646566|184431652|SUPERIORITY|||||||0.258|||||||Wilcoxon (Mann-Whitney)|||||||0.258
92265086|NCT01683331|184431657|SUPERIORITY||Odds Ratio (OR)|1.03||||0.87|TWO_SIDED|95.0|1.01|1.06|||Chi-squared|||||1.06|1.01|0.87
92265087|NCT01683331|184431658|SUPERIORITY||Odds Ratio (OR)|1.3||||0.92|TWO_SIDED|95.0|1.2|2.8|||Chi-squared|||||2.8|1.2|0.92
92265088|NCT01151085|184431716|SUPERIORITY_OR_OTHER||||||=|0.03|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between Male and Female  in the Frequency of Treatment Related Adverse Events."||||=0.030
92249994|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111071.|PYAR|803.918|||||TWO_SIDED|95.0|801.571|806.25|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||806.250|801.571|
92249995|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =213913.|PYAR|865.679|||||TWO_SIDED|95.0|864.227|867.121|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||867.121|864.227|
92249996|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111414.|PYAR|871.749|||||TWO_SIDED|95.0|869.771|873.707|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||873.707|869.771|
92265089|NCT01151085|184431717|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Severity of infections. The null hypothesis is there is no difference among mild, moderate and severe in the Frequency of Treatment Related Adverse Events."||||<0.001
92265090|NCT01151085|184431718|SUPERIORITY_OR_OTHER||||||=|0.017|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Past History. The null hypothesis is there is no difference between with and without Past History in the Frequency of Treatment Related Adverse Events."||||=0.017
92265091|NCT01151085|184431719|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Statistical Analysis for Risk Factors for the Proportion of Responders to Voriconazole treatment -Severity of infections.||||<0.001
92265092|NCT00401726|184431748|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.25||||0.218|||||||Chi-squared|||||||0.218
92265093|NCT00401726|184431749|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.76||95.0|-0.92|1.25|||ANCOVA|||||1.25|-0.92|0.76
92265094|NCT00401726|184431750|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.148||95.0|-0.41|0.06|||ANCOVA|||||0.06|-0.41|0.148
92265095|NCT00401726|184431751|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.829||95.0|-1.09|0.87|||ANCOVA|||||0.87|-1.09|0.829
92265096|NCT00401726|184431752|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.57||||0.728|||||||Chi-squared|||||||0.728
92265097|NCT00401726|184431753|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.805||95.0|-2.24|1.74|||ANCOVA|||||1.74|-2.24|0.805
92265098|NCT00401726|184431754|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.123||95.0|-2.27|0.27|||ANCOVA|||||0.27|-2.27|0.123
92265099|NCT00401726|184431755|SUPERIORITY_OR_OTHER|||||||0.961|||||||Cochran-Mantel-Haenszel|p-value based on comparison of mean score differences||CGI-I raw scores (range 1-7) analyzed by generalized Cochran-Mantel-Haenszel (CMH) test, stratified by study center using the ridit scoring option.||||0.961
92176582|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.023|||<|0.0001|TWO_SIDED|95.0|-3.328|-2.718|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.718|-3.328|<.0001
92182590|NCT01009645|184264362|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|ONE_SIDED|95.0||||The a priori threshold for statistical significance was p \<0.0167 as the p-value was adjusted for multiple comparisons (three planned contrasts).|Contrast Analysis|Bonferroni correction used (3 planned contrasts)||Contrast analysis was used to assess difference in vaccination status. The first contrast assessed whether or not the three newly created messages (Fact Only (FO), Fact/Myth (FM), and Fact/Myth/Refutation (FMR)) were as a group significantly different than the control message.||||<0.05
92183074|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|5.23|||TWO_SIDED|95.0|-13.1|7.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||7.4|-13.1|
92265100|NCT03948646|184431756|OTHER||Odds Ratio (OR)|2.0||||0.0029|TWO_SIDED|95.0|1.27|3.15|||Regression, Logistic|||||3.15|1.27|0.0029
92265101|NCT03948646|184431757|OTHER||Mean Difference (Net)|-21.77|STANDARD_ERROR_OF_MEAN|9.994||0.0296|TWO_SIDED|95.0|-41.37|-2.16|||ANCOVA|||||-2.16|-41.37|0.0296
92176583|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.126|||<|0.0001|TWO_SIDED|95.0|-3.354|-2.897|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.897|-3.354|<.0001
92182591|NCT01009645|184264362|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|ONE_SIDED|95.0||||The a priori threshold for statistical significance was p \<0.0167 as the p-value was adjusted for multiple comparisons (three planned contrasts).|Contrast Analysis|Bonferroni correction used (3 planned contrasts)||Contrast analysis was used to assess difference in vaccination status. The second contrast assessed whether the FO and FMR conditions were significantly different from the FM message.||||<0.05
92182592|NCT01009645|184264362|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|ONE_SIDED|95.0||||The a priori threshold for statistical significance was p \<0.0167 as the p-value was adjusted for multiple comparisons (three planned contrasts).|Contrast Analysis|Bonferroni correction used (3 planned contrasts)||Contrast analysis was used to assess difference in vaccination status. The third contrast assessed whether the FO and the FMR message conditions were significantly different.||||<0.05
92265102|NCT01050998|184431789|SUPERIORITY_OR_OTHER||Percent difference|4.9||||0.578|TWO_SIDED|95.0|-11.5|22.0|||Fisher Exact||95 percent (%) unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||22.0|-11.5|0.578
92176584|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|0.908|||<|0.0001|TWO_SIDED|95.0|0.518|1.298|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||1.298|0.518|<.0001
92182593|NCT01009645|184264363|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||ANOVA|used Scheffe's post-hoc analysis||||||<0.05
92182594|NCT04237792|184264369|OTHER||Odds Ratio (OR)|0.1|||<|0.001|TWO_SIDED|95.0|0.03|0.29|||Cochran-Mantel-Haenszel|||||0.29|0.03|<0.001
92182595|NCT04237792|184264370|OTHER||Odds Ratio (OR)|0.18||||0.022|TWO_SIDED|95.0|0.04|0.82|||Mantel Haenszel|||||0.82|0.04|0.022
92176585|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|1.291|||<|0.0001|TWO_SIDED|95.0|0.902|1.679|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||1.679|0.902|<.0001
92182596|NCT04237792|184264370|OTHER||Odds Ratio (OR)|0.05|||<|0.001|TWO_SIDED|95.0|0.01|0.26|||Mantel Haenszel|||||0.26|0.01|<0.001
92182597|NCT04237792|184264371|OTHER||Odds Ratio (OR)|0.11||||0.006|TWO_SIDED|95.0|0.02|0.59|||Mantel Haenszel|||||0.59|0.02|0.006
92182598|NCT04237792|184264371|OTHER||Odds Ratio (OR)|1.68||||0.597|TWO_SIDED|95.0|0.25|11.27|||Mantel Haenszel|||||11.27|0.25|0.597
92182599|NCT04237792|184264371|OTHER||Odds Ratio (OR)|0.54||||0.374|TWO_SIDED|95.0|0.14|2.07|||Mantel Haenszel|||||2.07|0.14|0.374
92249997|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =213913.|PYAR|753.423|||||TWO_SIDED|95.0|751.591|755.249|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||755.249|751.591|
92176586|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|0.174||||0.2772|TWO_SIDED|95.0|-0.142|0.49|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||0.490|-0.142|0.2772
92182600|NCT04237792|184264371|OTHER||Odds Ratio (OR)|0.1||||0.001|TWO_SIDED|95.0|0.02|0.44|||Mantel Haenszel|||||0.44|0.02|0.001
92182601|NCT04237792|184264371|OTHER||Odds Ratio (OR)|0.32||||0.015|TWO_SIDED|95.0|0.13|0.81|||Mantel Haenszel|||||0.81|0.13|0.015
92249998|NCT00861380|184402070|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111414.|PYAR|755.542|||||TWO_SIDED|95.0|753.008|758.064|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||758.064|753.008|
92249999|NCT01375647|184402085|SUPERIORITY||Risk Difference (RD)|-2.9||||0.4|TWO_SIDED|95.0|-9.6|3.9|||Chi-squared|2 sided, not adjusted||||3.9|-9.6|0.4
92250000|NCT01375647|184402086|SUPERIORITY||Risk Difference (RD)|13.4||||4e-05|TWO_SIDED|95.0|7.0|19.8||2-sided, no adjustment|Chi-squared|||||19.8|7.0|0.00004
92182602|NCT04237792|184264371|OTHER||Odds Ratio (OR)|0.3||||0.024|TWO_SIDED|95.0|0.1|0.87|||Mantel Haenszel|||||0.87|0.10|0.024
92182603|NCT04237792|184264372|OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
92182604|NCT04237792|184264372|OTHER|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
92250001|NCT01375647|184402087|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.5|TWO_SIDED||||||t-test, 2 sided|||Sabin type 1 shedding||||0.5
92250002|NCT01375647|184402087|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.2|TWO_SIDED||||||t-test, 2 sided|||Sabin type 2 shedding||||0.2
92250003|NCT01375647|184402087|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.1|TWO_SIDED||||||t-test, 2 sided|||Sabin type 3 shedding||||0.1
92182605|NCT04237792|184264372|OTHER|||||||0.225|||||||Wilcoxon (Mann-Whitney)|||||||0.225
92182606|NCT04237792|184264372|OTHER|||||||0.213|||||||Wilcoxon (Mann-Whitney)|||||||0.213
92250004|NCT01375647|184402089|SUPERIORITY||Risk Difference (RD)|-1.4|||||TWO_SIDED|95.0|-7.3|4.5||||||Sabin type 1||4.5|-7.3|
92182607|NCT04237792|184264372|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92182608|NCT04237792|184264372|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
92182609|NCT04237792|184264372|OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
92182610|NCT04237792|184264372|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92182611|NCT04237792|184264372|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92182612|NCT04237792|184264373|OTHER|||||||0.016|||||||Log Rank|||||||0.016
92182613|NCT04237792|184264373|OTHER|||||||0.005|||||||Log Rank|||||||0.005
92182614|NCT04237792|184264373|OTHER|||||||0.368|||||||Log Rank|||||||0.368
92182615|NCT04237792|184264373|OTHER|||||||0.358|||||||Log Rank|||||||0.358
92182616|NCT04237792|184264373|OTHER|||||||0|||||||Log Rank|||||||0.000
92182617|NCT04237792|184264373|OTHER|||||||0.001|||||||Log Rank|||||||0.001
92250005|NCT01375647|184402089|SUPERIORITY||Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-7.2|0.9||||||Sabin type 2||0.9|-7.2|
92250006|NCT01375647|184402089|SUPERIORITY||Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-3.2|6.1||||||||6.1|-3.2|
92176587|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-4.014|||<|0.0001|TWO_SIDED|95.0|-4.75|-3.278|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-3.278|-4.750|<.0001
92182618|NCT04237792|184264373|OTHER|||||||0.02|||||||Log Rank|||||||0.020
92182619|NCT04237792|184264373|OTHER|||||||0|||||||Log Rank|||||||0.000
92182620|NCT04237792|184264373|OTHER|||||||0.005|||||||Log Rank|||||||0.005
92182621|NCT04237792|184264374|OTHER|||||||0.884|||||||Log Rank|||||||0.884
92182622|NCT04237792|184264374|OTHER|||||||0.662|||||||Log Rank|||||||0.662
92182623|NCT04237792|184264374|OTHER|||||||0.236|||||||Log Rank|||||||0.236
92182624|NCT04237792|184264374|OTHER|||||||0.733|||||||Log Rank|||||||0.733
92182625|NCT04237792|184264374|OTHER|||||||0.128|||||||Log Rank|||||||0.128
92182626|NCT04237792|184264374|OTHER|||||||0.165|||||||Log Rank|||||||0.165
92182627|NCT04237792|184264374|OTHER|||||||0.752|||||||Log Rank|||||||0.752
92182628|NCT04237792|184264374|OTHER|||||||0.139|||||||Log Rank|||||||0.139
92182629|NCT04237792|184264374|OTHER|||||||0.051|||||||Log Rank|||||||0.051
92182630|NCT04237792|184264376|OTHER|||||||0.124|||||||ANOVA|||||||0.124
92182631|NCT04237792|184264376|OTHER|||||||0.186|||||||ANOVA|||||||0.186
92182632|NCT04237792|184264376|OTHER|||||||0.47|||||||ANOVA|||||||0.470
92182633|NCT04237792|184264376|OTHER|||||||0.845|||||||ANOVA|||||||0.845
92182634|NCT04237792|184264376|OTHER|||||||0.621|||||||ANOVA|||||||0.621
92182635|NCT04237792|184264376|OTHER|||||||0.747|||||||ANOVA|||||||0.747
92182636|NCT04237792|184264376|OTHER|||||||0.218|||||||ANOVA|||||||0.218
92182637|NCT04237792|184264376|OTHER|||||||0.181|||||||ANOVA|||||||0.181
92182638|NCT04237792|184264376|OTHER|||||||0.984|||||||ANOVA|||||||0.984
92182639|NCT04237792|184264377|OTHER|||||||0.048|||||||ANOVA|||||||0.048
92182640|NCT04237792|184264377|OTHER|||||||0.106|||||||ANOVA|||||||0.106
92182641|NCT04237792|184264377|OTHER|||||||0.196|||||||ANOVA|||||||0.196
92182642|NCT04237792|184264377|OTHER|||||||0.94|||||||ANOVA|||||||0.940
92182643|NCT04237792|184264377|OTHER|||||||0.824|||||||ANOVA|||||||0.824
92182644|NCT04237792|184264377|OTHER|||||||0.678|||||||ANOVA|||||||0.678
92182645|NCT04237792|184264377|OTHER|||||||0.129|||||||ANOVA|||||||0.129
92182646|NCT04237792|184264377|OTHER|||||||0.16|||||||ANOVA|||||||0.160
92250007|NCT01375647|184402090|SUPERIORITY||Risk Difference (RD)|-33.7|||||TWO_SIDED|95.0|-40.7|-26.5||||||||-26.5|-40.7|
92250008|NCT01375647|184402090|SUPERIORITY||Risk Difference (RD)|-24.3|||||TWO_SIDED|95.0|-31.1|-17.5||||||||-17.5|-31.1|
92250009|NCT01375647|184402090|SUPERIORITY||Risk Difference (RD)|-45.6|||||TWO_SIDED|95.0|-52.6|-38.0||||||||-38.0|-52.6|
92250010|NCT01375647|184402091|SUPERIORITY|||||||0.981|||||||Wilcoxon (Mann-Whitney)|||||||0.981
92250011|NCT01375647|184402092|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92250012|NCT03788967|184402097|NON_INFERIORITY|The non-inferiority hypothesis test was a 1-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the 95% CI for the difference in overall response was greater than -12.5%, non-inferiority was declared.|Risk Difference|-3.3|||||TWO_SIDED|95.0|-9.7|3.2||||||||3.2|-9.7|
92250013|NCT03788967|184402099|OTHER||Risk Difference|-4.7|||||TWO_SIDED|95.0|-11.3|1.9||||||||1.9|-11.3|
92250014|NCT03788967|184402100|OTHER||Risk Difference|1.4|||||TWO_SIDED|95.0|-0.1|3.4||||||Statistical Analysis 1 (EOT)||3.4|-0.1|
92250015|NCT03788967|184402100|OTHER||Risk Difference|-0.6|||||TWO_SIDED|95.0|-4.0|2.8||||||Statistical Analysis 2 (TOC)||2.8|-4|
92250016|NCT03788967|184402100|OTHER||Risk Difference|-1.5|||||TWO_SIDED|95.0|-5.7|2.6||||||Statistical Analysis 3 (LFU)||2.6|-5.7|
92250017|NCT03788967|184402101|OTHER||Risk Difference|0.7|||||TWO_SIDED|95.0|-0.3|2.0||||||||2.0|-0.3|
92182647|NCT04237792|184264377|OTHER|||||||0.872|||||||ANOVA|||||||0.872
92182648|NCT05553366|184264391|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
92182649|NCT05553366|184264392|SUPERIORITY|||||||0.0016|||||||ANCOVA|||||||0.0016
92182650|NCT05553366|184264393|SUPERIORITY|||||||0.0016|||||||Log Rank|||||||0.0016
92250018|NCT03788967|184402102|OTHER||Risk Difference|-1.6|||||TWO_SIDED|95.0|-3.8|0.6||||||||0.6|-3.8|
92250019|NCT03788967|184402103|OTHER||Risk Difference|-0.5|||||TWO_SIDED|95.0|-3.3|2.3||||||||2.3|-3.3|
92250020|NCT03788967|184402104|OTHER||Risk Difference|1.3|||||TWO_SIDED|95.0|-0.2|3.2||||||||3.2|-0.2|
92250021|NCT03788967|184402105|OTHER||Risk Difference|-2.2|||||TWO_SIDED|95.0|-5.3|0.8||||||||0.8|-5.3|
92250022|NCT03788967|184402106|OTHER||Risk Difference|-1.2|||||TWO_SIDED|95.0|-5.1|2.6||||||||2.6|-5.1|
92250023|NCT03788967|184402107|OTHER||Risk Difference|1.5|||||TWO_SIDED|95.0|-0.8|4.1||||||Statistical Analysis 1 (EOT)||4.1|-0.8|
92250024|NCT03788967|184402107|OTHER||Risk Difference|-4.5|||||TWO_SIDED|95.0|-10.8|1.9||||||Statistical Analysis 2 (TOC)||1.9|-10.8|
92250025|NCT03788967|184402107|OTHER||Risk Difference|-1.5|||||TWO_SIDED|95.0|-7.9|5.0||||||||5|-7.9|
92250026|NCT03788967|184402111|OTHER||Risk Difference|-0.2|||||TWO_SIDED|95.0|-1.6|1.2||||||||1.2|-1.6|
92250027|NCT03788967|184402112|OTHER||Risk Difference|-5.9|||||TWO_SIDED|95.0|-12.4|0.7||||||||0.7|-12.4|
92250028|NCT03788967|184402113|OTHER||Risk Difference (RD)|-1.6|||||TWO_SIDED|95.0|-8.5|5.3||||||||5.3|-8.5|
92250029|NCT03788967|184402117|OTHER||Risk Difference|-4.7|||||TWO_SIDED|95.0|-13.5|4.1||||||Overall response for participants with AP||4.1|-13.5|
92176588|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-4.115|||<|0.0001|TWO_SIDED|95.0|-4.865|-3.365|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-3.365|-4.865|<.0001
92176589|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.403|||<|0.0001|TWO_SIDED|95.0|-4.005|-2.801|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.801|-4.005|<.0001
92182651|NCT05553366|184264394|SUPERIORITY|||||||0.1315|||||||Log Rank|||||||0.1315
92182652|NCT05553366|184264395|SUPERIORITY|||||||0.0343|||||||Cochran-Mantel-Haenszel|||||||0.0343
92182653|NCT05553366|184264396|SUPERIORITY|||||||0.0014|||||||Pearson's chi-squared test|||||||0.0014
92250030|NCT03788967|184402117|OTHER||Risk Difference|-1.6|||||TWO_SIDED|95.0|-11.0|7.7||||||Overall response in participants with cUTI||7.7|-11.0|
92250031|NCT03788967|184402118|OTHER||Risk Difference|1.4|||||TWO_SIDED|95.0|-7.2|9.9||||||||9.9|-7.2|
92250032|NCT03788967|184402118|OTHER||Risk Difference (RD)|-8.4|||||TWO_SIDED|95.0|-20.6|3.8||||||≥65 to \<75 years||3.8|-20.6|
92250033|NCT03788967|184402118|OTHER||Risk Difference (RD)|-7.5|||||TWO_SIDED|95.0|-23.8|8.7||||||≥75 years||8.7|-23.8|
92182654|NCT05553366|184264397|SUPERIORITY|||||||0.0032|||||||ANCOVA|||||||0.0032
92182655|NCT05553366|184264398|SUPERIORITY|||||||0.8592|||||||Log Rank|||||||0.8592
92182656|NCT05553366|184264399|SUPERIORITY|||||||0.9143|||||||Cochran-Mantel-Haenszel|||||||0.9143
92250034|NCT03788967|184402119|OTHER||Risk Difference|-3.1|||||TWO_SIDED|95.0|-9.6|3.5||||||Central and Eastern Europe||3.5|-9.6|
92250035|NCT03788967|184402120|OTHER|||||||0.044|||||||Log Rank|||||||0.044
92250036|NCT03788967|184402121|OTHER|||||||0.736|||||||Log Rank|||||||0.736
92250037|NCT01316939|184402149|SUPERIORITY_OR_OTHER||Percent difference of participants|-4.0|||||TWO_SIDED|95.0|-12.9|4.8||||||Placebo Vs GSK1605786A 500 mg once daily at Week 28 and 52||4.8|-12.9|
92250038|NCT01316939|184402149|SUPERIORITY_OR_OTHER||Percent difference of participants|-6.6|||||TWO_SIDED|95.0|-14.8|1.6||||||Placebo Vs GSK1605786A 500 mg BID at Week 28 and 52||1.6|-14.8|
92250039|NCT01316939|184402150|SUPERIORITY_OR_OTHER||Percent difference of participants|-4.0|||||TWO_SIDED|95.0|-12.2|4.2||||||Placebo Vs GSK1605786A 500 mg once daily at Week 28 and 52||4.2|-12.2|
92250040|NCT01316939|184402150|SUPERIORITY_OR_OTHER||Percent difference of participants|-5.3|||||TWO_SIDED|95.0|-13.1|2.6||||||||2.6|-13.1|
92250041|NCT01432457|184402174|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.57||||0.006|TWO_SIDED|95.0|0.44|2.69||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|Mixed Models Analysis|||A mixed effects model for repeated measures (MMRM) with treatment, visit, treatment by visit interaction, and site as fixed effects, and the baseline HAM-D17 score as a covariate was used to compare DVS SR dose to placebo. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||2.69|0.44|0.006
92250042|NCT01432457|184402174|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.96|||<|0.001|TWO_SIDED|95.0|0.84|3.08||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|Mixed Models Analysis|||A mixed effects model for repeated measures (MMRM) with treatment, visit, treatment by visit interaction, and site as fixed effects, and the baseline HAM-D17 score as a covariate was used to compare DVS SR dose to placebo. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||3.08|0.84|< 0.001
92250043|NCT01432457|184402175|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.36||||0.014|TWO_SIDED|95.0|0.28|2.45|||ANCOVA|||To assess the sensitivity of the results to the missing data assumptions, an analysis of covariance (ANCOVA) model based on the last observation carried forward (LOCF) was used. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||2.45|0.28|0.014
92250044|NCT01432457|184402175|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.67||||0.002|TWO_SIDED|95.0|0.59|2.74|||ANCOVA|||To assess the sensitivity of the results to the missing data assumptions, an analysis of covariance (ANCOVA) model based on the last observation carried forward (LOCF) was used. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||2.74|0.59|0.002
92182657|NCT05553366|184264400|SUPERIORITY|||||||0.0205|||||||Wilcoxon rank-sum|||||||0.0205
92265103|NCT01050998|184431789|SUPERIORITY_OR_OTHER||Percent difference|30.7|||<|0.001|TWO_SIDED|95.0|13.4|46.3|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||46.3|13.4|<0.001
92250045|NCT01432457|184402176|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|||||"p-value was obtained from the separate pair-wise Cochran-Mantel-Haenszel test versus placebo for the alternative hypothesis of Row Mean Scores Differences controlling for site."|Cochran-Mantel-Haenszel|||CGI-I was analyzed with the Cochran-Mantel-Haenszel row-mean-score-difference test using ridit scores. Each DVS SR arm was separately compared to placebo controlling for site. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||||0.029
92250046|NCT01432457|184402176|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||"p-value was obtained from the separate pair-wise Cochran-Mantel-Haenszel test versus placebo for the alternative hypothesis of Row Mean Scores Differences controlling for site."|Cochran-Mantel-Haenszel|||CGI-I was analyzed with the Cochran-Mantel-Haenszel row-mean-score-difference test using ridit scores. Each DVS SR arm was separately compared to placebo controlling for site. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||||< 0.001
92250047|NCT01432457|184402177|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.2||||0.009|TWO_SIDED|95.0|0.05|0.34|||Mixed Models Analysis|||CGI-S was analyzed using the mixed effects model for repeated measures (MMRM) with treatment, visit, treatment by visit interaction, and site as fixed effects, and the baseline CGI-S score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.34|0.05|0.009
92250048|NCT01432457|184402177|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.28|||<|0.001|TWO_SIDED|95.0|0.13|0.43|||Mixed Models Analysis|||CGI-S was analyzed using the mixed effects model for repeated measures (MMRM) with treatment, visit, treatment by visit interaction, and site as fixed effects, and the baseline CGI-S score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.43|0.13|< 0.001
92250049|NCT01432457|184402178|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.17||||0.062|TWO_SIDED|95.0|-0.01|0.34|||ANCOVA|||To assess the sensitivity of the results to the missing data assumptions, an analysis of covariance (ANCOVA) model based on the last observation carried forward (LOCF) was used. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.34|-0.01|0.062
92250050|NCT01432457|184402178|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.22||||0.014|TWO_SIDED|95.0|0.04|0.39|||ANCOVA|||To assess the sensitivity of the results to the missing data assumptions, an analysis of covariance (ANCOVA) model based on the last observation carried forward (LOCF) was used. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.39|0.04|0.014
92265104|NCT01050998|184431789|SUPERIORITY_OR_OTHER||Percent difference|15.3||||0.099|TWO_SIDED|95.0|-1.6|32.2|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||32.2|-1.6|0.099
92250051|NCT01432457|184402179|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.242||||0.198|TWO_SIDED|95.0|0.893|1.726|||Regression, Logistic|||Response in HAM-D17 was analyzed based on a logistic regression model with treatment and site as fixed factors and the baseline HAM-D17 total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||1.726|0.893|0.198
92250052|NCT01432457|184402179|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.378||||0.054|TWO_SIDED|95.0|0.995|1.91|||Regression, Logistic|||Response in HAM-D17 was analyzed based on a logistic regression model with treatment and site as fixed factors and the baseline HAM-D17 total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||1.910|0.995|0.054
92250053|NCT01432457|184402180|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.105||||0.615|TWO_SIDED|95.0|0.749|1.631|||Regression, Logistic|||Remission in HAM-D17 was analyzed based on a logistic regression model with treatment and site as fixed factors and the baseline HAM-D17 total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||1.631|0.749|0.615
92250054|NCT01432457|184402180|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.412||||0.072|TWO_SIDED|95.0|0.969|2.057|||Regression, Logistic|||Remission in HAM-D17 was analyzed based on a logistic regression model with treatment and site as fixed factors and the baseline HAM-D17 total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||2.057|0.969|0.072
92265105|NCT01050998|184431789|SUPERIORITY_OR_OTHER||Percent difference|35.5|||<|0.001|TWO_SIDED|95.0|17.8|50.6|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||50.6|17.8|<0.001
92265106|NCT01050998|184431790|SUPERIORITY_OR_OTHER||Percent difference|6.4||||0.543|TWO_SIDED|95.0|-11.9|25.4|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||25.4|-11.9|0.543
92250055|NCT01432457|184402181|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09||||0.837|TWO_SIDED|95.0|-0.98|0.8||p-value was obtained from the ANCOVA model as change from baseline = Treatment + Site + Gender + Baseline|ANCOVA|||The treatment by gender interaction was first tested using an analysis of covariance (ANCOVA) model with treatment, site, gender, and treatment by gender as factors and the baseline total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.80|-0.98|0.837
92182658|NCT03274076|184264421|SUPERIORITY||Rate ratio|1.25|||||TWO_SIDED|90.0|0.19|8.33|||||Tofacitinib represents the numerator, and placebo represents the denominator.|H0: Rate of grade 3 (severe) or higher adverse events that occur throughout week 48 in Placebo = Rate of grade 3 (severe) or higher adverse events that occur throughout week 48 in Tofacitinib.||8.33|0.19|
92265107|NCT01050998|184431790|SUPERIORITY_OR_OTHER||Percent difference|26.3||||0.011|TWO_SIDED|95.0|7.2|43.6|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||43.6|7.2|0.011
92250056|NCT01432457|184402181|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.32||||0.471|TWO_SIDED|95.0|-1.19|0.55||p-value was obtained from the ANCOVA model as change from baseline = Treatment + Site + Gender + Baseline|ANCOVA|||The treatment by gender interaction was first tested using an analysis of covariance (ANCOVA) model with treatment, site, gender, and treatment by gender as factors and the baseline total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.55|-1.19|0.471
92250057|NCT01281189|184402222|SUPERIORITY||LS Mean Difference (Final Values)|2.91||||0.8568|TWO_SIDED|95.0|-28.751|34.576|||ANCOVA|Includes treatment as a fixed effect and adjusts for baseline ALSFRS-R total score, duration from sx onset, site of onset, and use of riluzole.||||34.576|-28.751|0.8568
92250058|NCT01281189|184402223|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8375|TWO_SIDED|95.0|0.75|1.427|||Cox Proportional Hazards model|Adjusted for baseline ALSFRS-R total score, duration from symptom onset to the first dose of study treatment, site of onset, and use of riluzole.|||Hazard Ratio (HR) (Dex/PBO)|1.427|0.750|0.8375
92250059|NCT01281189|184402224|SUPERIORITY||LS Mean Difference (Net)|0.076||||0.9019|TWO_SIDED|95.0|-1.128|1.28|||mixed-effects repeated-measures model|Mixed-effects repeated-measures model with treatment, visit, treatment-by visit interaction, baseline ALSFRS-R score, baseline-by-visit interaction|The mixed-effects repeated-measures model also adjusted for the following covariates: duration from symptom onset, site of onset, and use of riluzole.|||1.280|-1.128|0.9019
92250060|NCT01281189|184402225|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7715|TWO_SIDED|95.0|0.801|1.348|||Cox Proportional Hazards model|Adjusted for baseline ALSFRS-R total score, duration from symptom onset to the first dose of study treatment, site of onset, and use of riluzole||||1.348|0.801|0.7715
92250061|NCT01281189|184402226|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9033|TWO_SIDED|95.0|0.745|1.298|||Cox Proportional Hazards model|adjusted for baseline ALSFRS-R total score, duration from symptom onset to the first dose of study treatment, site of onset, and use of riluzole||||1.298|0.745|0.9033
92250062|NCT01281189|184402227|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.772|TWO_SIDED|95.0|0.789|1.192|||Cox Proportional Hazards model||Hazard ratio (Dex/PBO)|||1.192|0.789|0.7720
92250063|NCT03351478|184402235|SUPERIORITY||Difference in Least Square (LS) Means|-0.43|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.62|-0.25|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline HbA1c as a covariate.||-0.25|-0.62|< 0.0001
92250064|NCT03351478|184402235|SUPERIORITY||Difference in LS Means|0.12|STANDARD_ERROR_OF_MEAN|0.08||0.145|TWO_SIDED|95.0|-0.04|0.28|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline HbA1c as a covariate.||0.28|-0.04|0.145
92250065|NCT03351478|184402236|SUPERIORITY||Difference in LS Means|-2.05|STANDARD_ERROR_OF_MEAN|1.43||0.1529|TWO_SIDED|95.0|-4.87|0.76|||ANCOVA|||The change from baseline to Week 12 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No) and the country as fixed effects, and baseline SBP as a covariate.||0.76|-4.87|0.1529
92250066|NCT03351478|184402236|SUPERIORITY||Difference in LS Means|1.17|STANDARD_ERROR_OF_MEAN|1.21||0.3377|TWO_SIDED|95.0|-1.21|3.55|||ANCOVA|||The change from baseline to Week 12 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No) and the country as fixed effects, and baseline SBP as a covariate.||3.55|-1.21|0.3377
92250067|NCT03351478|184402237|SUPERIORITY||Difference in LS Means|-0.91|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.33|-0.5|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline 2-hour postprandial glucose as a covariate.||-0.5|-1.33|<0.0001
92265108|NCT01050998|184431790|SUPERIORITY_OR_OTHER||Percent difference|16.6||||0.108|TWO_SIDED|95.0|-2.5|35.5|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||35.5|-2.5|0.108
92182659|NCT03274076|184264422|SUPERIORITY||Rate ratio|0.65|||||TWO_SIDED|90.0|0.25|1.71|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of grade 2 (moderate) or higher adverse events that occur throughout week 12 in Placebo = Rate of grade 2 (moderate) or higher adverse events that occur throughout week 12 in Tofacitinib||1.71|0.25|
92250068|NCT03351478|184402237|SUPERIORITY||Difference in LS Means|-0.03|STANDARD_ERROR_OF_MEAN|0.17||0.8397|TWO_SIDED|95.0|-0.37|0.3|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥ 130 mmHg) at screening, and the country as fixed effects, and baseline 2-hour postprandial glucose as a covariate.||0.3|-0.37|0.8397
92265109|NCT01050998|184431790|SUPERIORITY_OR_OTHER||Percent difference|32.0||||0.001|TWO_SIDED|95.0|12.5|49.0|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||49.0|12.5|0.001
92265110|NCT01050998|184431790|SUPERIORITY_OR_OTHER||Percent difference|-1.3||||1|TWO_SIDED|95.0|-33.7|35.7|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|Japanese region: p-value was calculated using a two-tailed Fisher's exact test.||35.7|-33.7|1.000
92176590|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.747|||<|0.0001|TWO_SIDED|95.0|-4.473|-3.02|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-3.020|-4.473|<.0001
92176591|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.74|||<|0.0001|TWO_SIDED|95.0|-4.461|-3.018|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-3.018|-4.461|<.0001
92250069|NCT03351478|184402238|SUPERIORITY||Difference in LS Means|-0.8|STANDARD_ERROR_OF_MEAN|0.23||0.0005|TWO_SIDED|95.0|-1.25|-0.35|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline fasting plasma glucose as a covariate.||-0.35|-1.25|0.0005
92250070|NCT03351478|184402238|SUPERIORITY||Difference in LS Means|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1339|TWO_SIDED|95.0|-0.09|0.7|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline fasting plasma glucose as a covariate.||0.7|-0.09|0.1339
92176592|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.197|||<|0.0001|TWO_SIDED|95.0|-3.784|-2.61|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.610|-3.784|<.0001
92176593|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.3|||<|0.0001|TWO_SIDED|95.0|-3.678|-2.921|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.921|-3.678|<.0001
92176594|NCT04800211|184247039|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-0.206||||0.348|TWO_SIDED|95.0|-0.638|0.226|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||0.226|-0.638|0.3480
92176595|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 5. (mITT Population)|Mean Difference (Net)|-0.716|||<|0.0001|TWO_SIDED|95.0|-0.951|-0.481|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 5. (mITT Population)||-0.481|-0.951|<0.0001
92176596|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 7. (mITT Population)|Mean Difference (Net)|-0.686|||<|0.0001|TWO_SIDED|95.0|-0.966|-0.406|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 7. (mITT Population)||-0.406|-0.966|<0.0001
92250071|NCT03351478|184402239|SUPERIORITY||Difference in LS Means|-2.25|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.95|-1.54|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline weight as a covariate.||-1.54|-2.95|<0.0001
92176597|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 5. (mITT Population)|Mean Difference (Net)|-0.521|||<|0.0001|TWO_SIDED|95.0|-0.755|-0.288|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 5. (mITT Population)||-0.288|-0.755|<.0001
92176598|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 7. (mITT Population)|Mean Difference (Net)|-0.342||||0.0131|TWO_SIDED|95.0|-0.612|-0.072|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 7. (mITT Population)||-0.072|-0.612|0.0131
92176599|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to zero on Visit 7. (mITT Population)|Mean Difference (Net)|-0.514|||<|0.0001|TWO_SIDED|95.0|-0.712|-0.316|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to zero on Visit 7. (mITT Population)||-0.316|-0.712|<.0001
92176600|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 5. (mITT Population)|Mean Difference (Net)|-0.231||||0.0435|TWO_SIDED|95.0|-0.455|-0.007|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 5. (mITT Population)||-0.007|-0.455|0.0435
92176601|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 7. (mITT Population)|Mean Difference (Net)|0.111||||0.4012|TWO_SIDED|95.0|-0.149|0.371|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 7. (mITT Population)||0.371|-0.149|0.4012
92176602|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 5. (mITT Population)|Mean Difference (Net)|-0.485||||0.0133|TWO_SIDED|95.0|-0.895|-0.074|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 5. (mITT Population)||-0.074|-0.895|0.0133
92250072|NCT03351478|184402239|SUPERIORITY||Difference in LS Means|0.51|STANDARD_ERROR_OF_MEAN|0.34||0.1407|TWO_SIDED|95.0|-0.17|1.19|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline weight as a covariate.||1.19|-0.17|0.1407
92265111|NCT01050998|184431790|SUPERIORITY_OR_OTHER||Percent difference|51.5||||0.028|TWO_SIDED|95.0|8.2|77.0|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|Japanese region: p-value was calculated using a two-tailed Fisher's exact test.||77.0|8.2|0.028
92250073|NCT03351478|184402240|SUPERIORITY||Difference in LS Means|-2.03|STANDARD_ERROR_OF_MEAN|0.95||0.0325|TWO_SIDED|95.0|-3.89|-0.17|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No) and the country as fixed effects, and baseline SBP as a covariate.||-0.17|-3.89|0.0325
92182660|NCT03274076|184264422|SUPERIORITY||Rate ratio|0.53|||||TWO_SIDED|90.0|0.26|1.07|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of grade 2 (moderate) or higher adverse events that occur throughout week 24 in Placebo = Rate of grade 2 (moderate) or higher adverse events that occur throughout week 24 in Tofacitinib||1.07|0.26|
92250074|NCT03351478|184402240|SUPERIORITY||Difference in LS Means|1.1|STANDARD_ERROR_OF_MEAN|0.78||0.1565|TWO_SIDED|95.0|-0.42|2.63|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No) and the country as fixed effects, and baseline SBP as a covariate.||2.63|-0.42|0.1565
92250075|NCT03351478|184402241|SUPERIORITY||percentage difference|8.1||||0.0048|TWO_SIDED|95.0|3.36|12.89|||Cochran-Mantel-Haenszel|||The percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at the screening.||12.89|3.36|0.0048
92250076|NCT03351478|184402242|SUPERIORITY||Percentage Difference|16.9||||0.0001|TWO_SIDED|95.0|9.26|24.52|||Cochran-Mantel-Haenszel|||The percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at the screening.||24.52|9.26|0.0001
92250077|NCT00527072|184402297|SUPERIORITY_OR_OTHER||Proportion|0.654||||0.05|TWO_SIDED|95.0|0.586|0.718|||exact binomial distribution|||null hypothesis H0: proportion = 0.30||0.718|0.586|0.05
92250078|NCT00527072|184402298|SUPERIORITY_OR_OTHER||proportion|0.791||||0.05|TWO_SIDED|95.0|0.73|0.844|||exact binomial distribution|||||0.844|0.730|0.05
92250079|NCT00527072|184402299|SUPERIORITY_OR_OTHER||proportion|0.646||||0.05|TWO_SIDED|95.0|0.577|0.711|||exact binomial distribution|||||0.711|0.577|0.05
92176603|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 7. (mITT Population)|Mean Difference (Net)|-0.797||||0.0002|TWO_SIDED|95.0|-1.277|-0.317|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 7. (mITT Population)||-0.317|-1.277|0.0002
92176604|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 5. (mITT Population)|Mean Difference (Net)|-0.29||||0.2641|TWO_SIDED|95.0|-0.699|0.119|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 5. (mITT Population)||0.119|-0.699|0.2641
92250080|NCT02657434|184402300|OTHER|Unstratified Analysis|Hazard Ratio, log|0.562|||<|0.0001|TWO_SIDED|95.0|0.471|0.671|||Log Rank|||||0.671|0.471|<0.0001
92250081|NCT02657434|184402301|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.866||||0.1559|TWO_SIDED|95.0|0.709|1.056|||Log Rank|||||1.056|0.709|0.1559
92250082|NCT02657434|184402301|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.864||||0.1546|TWO_SIDED|95.0|0.707|1.056|||Log Rank|||||1.056|0.707|0.1546
92250083|NCT02657434|184402302|SUPERIORITY||Difference in event free rate|4.68||||0.2606|TWO_SIDED|95.0|-3.47|12.83|||z test|||||12.83|-3.47|0.2606
92250084|NCT02657434|184402303|SUPERIORITY||Difference in Event Free Rate|5.12||||0.209|TWO_SIDED|95.0|-2.87|13.11|||Z-test|||||13.11|-2.87|0.2090
92250085|NCT02657434|184402304|SUPERIORITY||Difference in response rate|14.3||||0.0005|TWO_SIDED|95.0|5.9|22.7|||Cochran-Mantel-Haenszel|||||22.7|5.9|0.0005
92250086|NCT02657434|184402305|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.0024|TWO_SIDED|95.0|0.45|0.85|||Log Rank|||||0.85|0.45|0.0024
92250087|NCT00608881|184402315|SUPERIORITY_OR_OTHER||π hat|0.494|||||TWO_SIDED|95.0|0.454|0.534|||||π hat is the estimate of the probability π that a randomly selected subject treated with CoQ has a better outcome than a randomly selected subject treated with placebo. Under the null hypothesis of no effect of CoQ, π = 0.50.|In this joint rank analysis, subjects are ranked from worst to best outcome with subjects who die being assigned the worst ranks (and ranked according to the time of death) and subjects who survive being ranked more favorably in the order of the change from baseline to Month 60 in TFC score.||0.534|0.454|
92250088|NCT00608881|184402316|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|||||TWO_SIDED|95.0|-0.44|0.91||||||||0.91|-0.44|
92250089|NCT00608881|184402317|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09|||||TWO_SIDED|95.0|-1.4|1.58||||||||1.58|-1.40|
92250090|NCT00608881|184402318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.44|||||TWO_SIDED|95.0|-6.68|3.79||||||||3.79|-6.68|
92250091|NCT00608881|184402319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.12|||||TWO_SIDED|95.0|-4.4|2.16||||||||2.16|-4.40|
92250092|NCT00608881|184402320|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04|||||TWO_SIDED|95.0|-1.48|1.39||||||||1.39|-1.48|
92250093|NCT00608881|184402321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.77|||||TWO_SIDED|95.0|-4.78|3.23||||||||3.23|-4.78|
92250094|NCT00608881|184402322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|||||TWO_SIDED|95.0|-1.32|2.14||||||||2.14|-1.32|
92250095|NCT00608881|184402323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-2.71|1.51||||||||1.51|-2.71|
92250096|NCT00608881|184402324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|||||TWO_SIDED|95.0|-2.28|2.87||||||||2.87|-2.28|
92250097|NCT00608881|184402325|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.88|||||TWO_SIDED|95.0|0.31|7.44||||||||7.44|0.31|
92250098|NCT00608881|184402326|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.04|||||TWO_SIDED|95.0|-1.1|3.18||||||||3.18|-1.10|
92250099|NCT00608881|184402327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.81|1.2||||||||1.20|0.81|
92250100|NCT00608881|184402328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.75|1.15||||||||1.15|0.75|
92250101|NCT00510484|184402332|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92250102|NCT00510484|184402333|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92250103|NCT00510484|184402334|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92250104|NCT00510484|184402335|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92176605|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 7. (mITT Population)|Mean Difference (Net)|-0.453||||0.0639|TWO_SIDED|95.0|-0.924|0.018|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 7. (mITT Population)||0.018|-0.924|0.0639
92176606|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to Control on Visit 7. (mITT Population)|Mean Difference (Net)|-0.625||||0.0001|TWO_SIDED|95.0|-0.945|-0.305|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to Control on Visit 7. (mITT Population)||-0.305|-0.945|0.0001
92250105|NCT00510484|184402336|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92176607|NCT04800211|184247040|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Test 2 on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Test 2 on Visit 7. (mITT Population)|Mean Difference (Net)|-0.344||||0.0776|TWO_SIDED|95.0|-0.725|0.038|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Test 2 on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Test 2 on Visit 7. (mITT Population)||0.038|-0.725|0.0776
92250106|NCT00510484|184402337|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92250107|NCT00510484|184402338|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||0.013
92250108|NCT00510484|184402339|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92250109|NCT01106391|184402350|SUPERIORITY_OR_OTHER_LEGACY||Rate of technical success (%)|90.0|||||TWO_SIDED|95.0|79.5|96.2|||||The 95% confidence interval was based on the exact confidence interval (Collett, 1991)|Since this was a feasibility study without comparisons, sample size was not determined based on statistical consideration. No formal hypothesis testing was performed either.||96.2|79.5|
92176608|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.621||||0.0055|TWO_SIDED|95.0|-1.055|-0.186|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.186|-1.055|0.0055
92250110|NCT01106391|184402351|SUPERIORITY_OR_OTHER_LEGACY||Rate of achieved primary safety(%)|97.0|||||TWO_SIDED|95.0|88.1|99.6|||||The 95% confidence interval was based on the exact confidence interval (Collett, 1991)|Since this was a feasibility study without comparisons, sample size was not determined based on statistical consideration. No formal hypothesis testing was performed either.||99.6|88.1|
92176609|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.778||||0.0011|TWO_SIDED|95.0|-1.24|-0.316|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.316|-1.240|0.0011
92182661|NCT03274076|184264422|SUPERIORITY||Rate ratio|0.85|||||TWO_SIDED|90.0|0.49|1.49|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of grade 2 (moderate) or higher adverse events that occur throughout week 36 in Placebo = Rate of grade 2 (moderate) or higher adverse events that occur throughout week 36 in Tofacitinib||1.49|0.49|
92182662|NCT03274076|184264422|SUPERIORITY||Rate ratio|0.89|||||TWO_SIDED|90.0|0.52|1.52|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of grade 2 (moderate) or higher adverse events that occur throughout week 48 in Placebo = Rate of grade 2 (moderate) or higher adverse events that occur throughout week 48 in Tofacitinib||1.52|0.52|
92250111|NCT01181141|184402391|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|-3.5|||||TWO_SIDED|95.0|-18.8|6.0|||Wilcoxon (Mann-Whitney)|||||6.0|-18.8|
92250112|NCT00118911|184402393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.631|STANDARD_DEVIATION|7.337|<|0.03|TWO_SIDED|95.0|-8.3|-0.963|||ANCOVA|We used multiple imputation.||Hypothesis was that CBT would be superior to RES||-0.963|-8.30|<.03
92250113|NCT00118911|184402394|SUPERIORITY_OR_OTHER||Slope|-0.12|STANDARD_DEVIATION|0.59|>|0.05|TWO_SIDED|95.0|-0.41|0.18|||Mixed Models Analysis||Those who were assigned to CBT and made a partial or full response maintained their gains over follow-up|We examined whether those in the CBT condition maintained their gains over time. Analysis was restricted to those assigned to CBT who were responders or partial responders.||.18|-.41|>.05
92265112|NCT01050998|184431790|SUPERIORITY_OR_OTHER||Percent difference|9.8||||0.661|TWO_SIDED|95.0|-24.3|46.9|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|Japanese region: p-value was calculated using a two-tailed Fisher's exact test.||46.9|-24.3|0.661
92265113|NCT01050998|184431791|SUPERIORITY_OR_OTHER||Percent difference|13.0||||0.152|TWO_SIDED|95.0|-4.2|30.3|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||30.3|-4.2|0.152
92176610|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.26|-0.54|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.540|-1.260|<.0001
92176611|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.52||||0.015|TWO_SIDED|95.0|-0.938|-0.103|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.103|-0.938|0.0150
92176612|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.349||||0.1048|TWO_SIDED|95.0|-0.771|0.074|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.074|-0.771|0.1048
92176613|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.846|||<|0.0001|TWO_SIDED|95.0|-1.185|-0.507|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.507|-1.185|<.0001
92182663|NCT03274076|184264423|SUPERIORITY||Rate ratio|3.85|||||TWO_SIDED|90.0|0.68|21.77|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of adverse events of special interest throughout week 36 in Placebo = Rate of adverse events of special interest throughout week 36 in Tofacitinib||21.77|0.68|
92182664|NCT03274076|184264423|SUPERIORITY||Rate ratio|1.87|||||TWO_SIDED|90.0|0.5169|6.7652|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of adverse events of special interest throughout week 48 in Placebo = Rate of adverse events of special interest throughout week 48 in Tofacitinib||6.7652|0.5169|
92265114|NCT01050998|184431791|SUPERIORITY_OR_OTHER||Percent difference|24.3||||0.008|TWO_SIDED|95.0|7.0|40.3|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||40.3|7.0|0.008
92250114|NCT05014542|184402395|SUPERIORITY||Mean Difference (Final Values)|-42.8|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC total of group A in Week 15) - mean (WOMAC total of group C in Week 15)|WOMAC total analysis between groups at Week 15. The Shapiro-Wilk test (S-W) was used for testing the normality of the data distribution. The comparability of groups regarding specified variables to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||<0.001
92250115|NCT05014542|184402396|SUPERIORITY||Mean Difference (Final Values)|-8.9|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC pain of group A at Week 15) - mean (WOMAC pain of group C at Week 15)|WOMAC pain analysis between groups at Week 15. The Shapiro-Wilk test (S-W) was used for testing the normality of the data distribution. The comparability of groups regarding specified variables to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at assessments.||||<.001
92250116|NCT05014542|184402397|SUPERIORITY||Mean Difference (Final Values)|-3.9|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC stiffness of group A at Week 15) - mean (WOMAC stiffness of group C at Week 15)|WOMAC stiffness between groups at Week 15. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups regarding specified variables to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||<0.001
92250117|NCT05014542|184402398|SUPERIORITY||Mean Difference (Final Values)|-30.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC functional disability of group A in Week 15) - mean (WOMAC functional disability of group C in Week 15)|WOMAC functional disability between groups at Week 15. The Shapiro-Wilk test (S-W) tests normality distribution. Furthermore, the comparability of groups regarding specified variables to accept or reject the null hypothesis of equality was tested with the Mann-Whitney U test, with a power of 95 % and a level of significance α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at specified assessment (the mid-spread).||||<0.001
92250118|NCT05014542|184402399|SUPERIORITY||Mean Difference (Final Values)|-48.4|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (VAS of group A in Week 15) - mean (VAS of group C in Week 15)|Visual Analogue Scale (VAS) was compared between groups at Week 15, when the acupuncture of group A ended. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) presented the statistical dispersion of sample data at specified assessments.||||<0.001
92265115|NCT01050998|184431791|SUPERIORITY_OR_OTHER||Percent difference|21.4||||0.02|TWO_SIDED|95.0|3.9|37.8|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||37.8|3.9|0.020
92265116|NCT01050998|184431791|SUPERIORITY_OR_OTHER||Percent difference|29.0||||0.002|TWO_SIDED|95.0|11.3|45.0|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||45.0|11.3|0.002
92250119|NCT05014542|184402400|SUPERIORITY||Mean Difference (Final Values)|-14.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (KDSQ of group A in Week 15) - mean (KDSQ of group C in Week 15)|The Kidney Deficiency Syndrome Questionnaire (KDSQ) was compared between groups in Week 15. The Shapiro-Wilk test (S-W) tests the normality of data distribution. The comparability of groups regarding the null hypothesis of similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were used to analyse the statistical dispersion of specified sample data at specified assessment.||||<0.001
92250120|NCT05014542|184402401|SUPERIORITY||Mean Difference (Final Values)|-774.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (DRUG of A group in Week 15) - mean (DRUG of C group in Week 15)|In Week 15, DRUG was compared between groups. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups regarding specified variables to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||<0.001
92250121|NCT05014542|184402402|SUPERIORITY||Mean Difference (Final Values)|0.009||||0.8493|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (A group L knee in Week 15) - mean (C group L knee in Week 15)|Active extension of left (L) knees in Week 15 in the between-group analysis. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.8493
92250122|NCT05014542|184402402|SUPERIORITY||Mean Difference (Final Values)|-0.107||||0.69654|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (A group R knee in Week 15) - mean (C group R knee in Week 15)|Active extension of the right (R) knees in Week 15 in the between-group analysis. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.69654
92250123|NCT05014542|184402403|SUPERIORITY||Mean Difference (Final Values)|3.9||||0.49|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (active flexion L knee of group A at Week 15) - mean (active flexion L knee of group C at Week 15)|L knee flexion between groups at Week 15. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.490
92250124|NCT05014542|184402403|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.517|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (active flexion R knee of group A at Week 15) - mean (active flexion R knee of group C at Week 15)|Right (R) knee flexion between groups in Week 15. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups regarding specified variables to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.517
92265117|NCT01050998|184431792|SUPERIORITY_OR_OTHER||Percent difference|9.9||||0.328|TWO_SIDED|95.0|-9.3|29.4|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||29.4|-9.3|0.328
92250125|NCT05014542|184402404|SUPERIORITY||Mean Difference (Final Values)|-3.0||||0.083|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of L upper leg of group A at Week 15) - mean (circumference of L upper leg of group C at Week 15)|Circumference of the left (L) upper leg between groups analysis at Week 15. For group normality statistics, the Shapiro-Wilk test (S-W) was used. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of specified sample data at specified assessment.||||0.083
92250126|NCT05014542|184402404|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.084|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of R upper leg of group A at Week 15) - mean (circumference of R upper leg of group C at Week 15)|Circumference of the right (R) upper leg between groups analysis at Week 15. For group normality statistics, the Shapiro-Wilk test (S-W) was used. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at specified assessments.||||0.084
92182665|NCT03274076|184264424|SUPERIORITY|||||||0.1978|||||||Exact Wilcoxon|||H0: The absolute change in mRSS from week 0 to week 12 in placebo = The absolute change in mRSS from week 0 to week 12 in Tofacitinib.||||0.1978
92182666|NCT03274076|184264424|SUPERIORITY|||||||0.4665|||||||Exact Wilcoxon|||H0: The absolute change in mRSS from week 0 to week 24 in placebo = The absolute change in mRSS from week 0 to week 24 in Tofacitinib.||||0.4665
92182667|NCT03274076|184264424|SUPERIORITY|||||||0.3063|||||||Exact Wilcoxon|||H0: The absolute change in mRSS from week 0 to week 36 in placebo = The absolute change in mRSS from week 0 to week 36 in Tofacitinib.||||0.3063
92182668|NCT03274076|184264424|SUPERIORITY|||||||0.6|||||||Exact Wilcoxon|||H0: The absolute change in mRSS from week 0 to week 48 in placebo = The absolute change in mRSS from week 0 to week 48 in Tofacitinib.||||0.6000
92265118|NCT01050998|184431792|SUPERIORITY_OR_OTHER||Percent difference|17.2||||0.084|TWO_SIDED|95.0|-2.0|35.6|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||35.6|-2.0|0.084
92182669|NCT03274076|184264425|SUPERIORITY|||||||0.4535|||||||Exact Wilcoxon|||H0: The CRISS score at week 12 in placebo = The CRISS score at week 12 in Tofacitinib.||||0.4535
92182670|NCT03274076|184264425|SUPERIORITY|||||||0.8392|||||||Exact Wilcoxon|||H0: The CRISS score at week 24 in placebo = The CRISS score at week 24 in Tofacitinib.||||0.8392
92182671|NCT03274076|184264425|SUPERIORITY|||||||0.9212|||||||Exact Wilcoxon|||H0: The CRISS score at week 48 in placebo = The CRISS score at week 48 in Tofacitinib.||||0.9212
92183075|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|5.33|||TWO_SIDED|95.0|-14.1|6.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||6.8|-14.1|
92250127|NCT05014542|184402405|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.341|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of L knee of group A at Week 15) - mean (circumference of L knee of group C at Week 15)|Circumference of the left (L) knee in Week 15 was analysed between groups. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.341
92250128|NCT05014542|184402405|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.317|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of R knee of group A at Week 15) - mean (circumference of R knee of group C at Week 15)|Circumference of the right (R) knee in between groups at Week 15. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.317
92250129|NCT05014542|184402406|SUPERIORITY||Mean Difference (Final Values)|-33.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC total of group A in Week 24) -mean (WOMAC total of group C in Week 24)|WOMAC total was analysed in Week 24 between groups, nine weeks after acupuncture ended. The Shapiro-Wilk test (S-W) tested the normality of the distribution. The comparability of groups regarding specified variables to accept or reject the null hypothesis of equality was tested with the Mann-Whitney U test, with 95 % power and a level of significance α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of specified sample data at specified assessments.||||<0.001
92250130|NCT05014542|184402407|SUPERIORITY||Mean Difference (Final Values)|-6.5|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC pain of group A at Week 24) - mean (WOMAC pain of group C at Week 24)|WOMAC pain was analysed between groups 9 weeks after acupuncture ended in Week 24. The Shapiro-Wilk test (S-W) tested the normality distribution. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of specified sample data (the mid-spread).||||<.001
92250131|NCT05014542|184402408|SUPERIORITY||Mean Difference (Final Values)|-2.3|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC stiffness of group A in Week 24) - mean (WOMAC stiffness of group C in Week 24)|WOMAC stiffness between groups A and C in Week 24, 9 weeks after acupuncture ended. The Shapiro-Wilk test (S-W) tests the normality of distribution. Group comparability was tested with the Mann-Whitney U test with 95 % power and a level of significance α=0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of specified sample data at specified assessments.||||<0.001
92250132|NCT05014542|184402409|SUPERIORITY||Mean Difference (Final Values)|-24.3|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC functional disability of group A in Week 24) - mean (WOMAC functional disability of group C in Week 24)|WOMAC functional disability at Week 24 was analysed between groups. The Shapiro-Wilk test (S-W) tests the normality of data. The comparability of groups regarding specified variables (to accept or reject the null hypothesis of comparability) was tested with the Mann-Whitney U test with 95% power and a level of significance α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of specified sample data at specified assessments.||||<0.001
92250133|NCT05014542|184402410|SUPERIORITY||Mean Difference (Final Values)|-45.7|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (VAS in Week 24 of group A) - mean (VAS in Week 24 of group C)|VAS was compared between groups in Week 24. For group normality statistics, the Shapiro-Wilk test (S-W) was used. The comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data.||||<0.001
92250134|NCT05014542|184402411|SUPERIORITY||Mean Difference (Final Values)|-11.1|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (KDSQ in Week 24 of group A) - mean (KDSQ in Week 24 of group C)|KDSQ between groups in Week 24. For group normality statistics, the Shapiro-Wilk test (S-W) was used. The comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data.||||<0.001
92250135|NCT05014542|184402412|SUPERIORITY||Mean Difference (Final Values)|-581.5|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (DRUG in Week 24 of group A) - mean (DRUG in Week 24 of group C)|The DRUG between groups in Week 24. For group normality statistics, the Shapiro-Wilk test (S-W) was used. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data.||||<0.001
92250136|NCT05014542|184402413|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED||||||||mean (Act ext L of A group in Week 24) - mean (Act ext L of C group in Week 24)|Left (L) knee analysis between groups A and C in Week 24. For group normality statistics, the Shapiro-Wilk test (S-W) was used. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of comparability was tested with the Mann-Whitney U test, with 95% statistical power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at assessment.||||
92250137|NCT05014542|184402413|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED||||||||mean (Act ext R knee of A group in Week 24) - mean (Act ext R knee of C group in Week 24)|Right (R) knee analysis between groups at Week 24. For group normality statistics, the Shapiro-Wilk test (S-W) was used. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of comparability between groups was tested by the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at specified assessment.||||
92250138|NCT05014542|184402414|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.953|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (L knee act flexion of group A in Week 24) - mean (L knee act flexion of group C in Week 24)|Left (L) knee flexion between groups at Week 24. The Shapiro-Wilk test (S-W) tests the normality of the distribution. Furthermore, the comparability of groups regarding specified variables to accept or reject the null hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a level of significance α = 0,05. Standard deviation (SD) was calculated to present the statistical dispersion of specified sample data at a specified assessment (time-point).||||0.953
92250139|NCT05014542|184402414|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.491|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (R knee act flexion of group A in Week 24) - mean (R knee act flexion of group C in Week 24)|Right (R) knee flexion between groups at Week 24. The Shapiro-Wilk test (S-W) tests the normality of the distribution. Furthermore, the comparability of groups regarding specified variables to accept or reject the null hypothesis of comparability was tested with the Mann-Whitney U test, with 95% power and a level of significance α = 0,05. Standard deviation (SD) was calculated to present the statistical dispersion of sample data at an assessment.||||0.491
92265119|NCT01050998|184431792|SUPERIORITY_OR_OTHER||Percent difference|20.2||||0.049|TWO_SIDED|95.0|0.7|38.2|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||38.2|0.7|0.049
92265120|NCT01050998|184431792|SUPERIORITY_OR_OTHER||Percent difference|22.8||||0.03|TWO_SIDED|95.0|3.2|40.7|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||40.7|3.2|0.030
92265121|NCT01050998|184431792|SUPERIORITY_OR_OTHER||Percent difference|26.8||||0.188|TWO_SIDED|95.0|-9.3|60.7|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|Japanese region: p-value was calculated using a two-tailed Fisher's exact test.||60.7|-9.3|0.188
92265122|NCT01050998|184431792|SUPERIORITY_OR_OTHER||Percent difference|57.4||||0.01|TWO_SIDED|95.0|15.2|81.8|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|Japanese region: p-value was calculated using a two-tailed Fisher's exact test.||81.8|15.2|0.010
92250140|NCT05014542|184402415|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.261|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of L upper leg of group A in Week 24) - mean (circumference of L upper leg of group C in Week 24)|Circumference of the left (L) upper leg between groups in Week 24. The Shapiro-Wilk test (S-W) was used to test the normality of a distribution. The comparability of groups regarding specified variables to accept or reject the hypothesis of groups comparability was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at assessments.||||0.261
92250141|NCT05014542|184402415|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.273|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of R upper leg of group A in Week 24) - mean (circumference of R upper leg of group C in Week 24)|Circumference of the R upper leg between groups at Week 24. The Shapiro-Wilk test (S-W) was used to test the normality of distribution. The comparability of groups regarding specified variables (null hypothesis) was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at assessments.||||0.273
92250142|NCT05014542|184402416|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.445|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of L knees in Week 24 of group A) - mean (circumference of L knees in Week 24 of group C)|Circumference of left (L) knees in Week 24, in between-groups. The Shapiro-Wilk test (S-W) tests normality distribution. The comparability of groups regarding specified variables to accept or reject the null hypothesis of similarity was tested with the Mann-Whitney U test with 95% power and a level of significance α = 0,05. Standard deviation was calculated to present the statistical dispersion of sample data at an assessment.||||0.445
92250143|NCT05014542|184402416|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of R knees in Week 24 of group A) - mean (circumference of R knees in Week 24 of group C)|Circumference of right (R) knees at Week 24 was analysed between groups. The Shapiro-Wilk test (S-W) tests normality distribution. The comparability of groups regarding specified variables to accept or reject the null hypothesis of similarity was tested with the Mann-Whitney U test with 95% power and a level of significance α = 0,05. Standard deviation was calculated to present the statistical dispersion of sample data at assessments.||||0.260
92250144|NCT05014542|184402417|SUPERIORITY||Mean Difference (Final Values)|-34.4|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC total of group A in Week 39) - mean (WOMAC total of group A in Week 0)|Western Ontario and McMaster University Osteoarthritis Index (WOMAC) total of group A in Week 39 (24 weeks after acupunctures ended) was compared with the pre-experimental baseline assessment by within-group analysis. The Shapiro-Wilk test (S-W) tests normality distribution. The null hypothesis at weeks 0 and 39 was tested with the Mann-Whitney U test with 95 % power and a level of significance α=0,05. Standard deviation (SD) was calculated to present the statistical dispersion of the sample.||||<0.001
92250145|NCT05014542|184402417|SUPERIORITY||Mean Difference (Final Values)|-39.1|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC total in Week 39 of group C) - mean (WOMAC total in Week 0 of group C).|WOMAC total of group C in Week 39 was tested for the significance level and mean difference by within-group analysis. The Shapiro-Wilk test (S-W) tests normality distribution. WOMAC total at Week 0 (pre-experimental baseline assessment) and Week 39 were compared to test the null hypothesis of group comparability by the Mann-Whitney U test with 95 % power and a level of significance α=0,05. Standard deviation (SD) was calculated to present the statistical dispersion of a sample.||||< 0.001
92250146|NCT05014542|184402418|SUPERIORITY||Mean Difference (Final Values)|-6.2|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC pain in Week 39 of group A) - mean (WOMAC pain in Week 0 of group A)|The pain subscale of the WOMAC index of group A in Week 39 (24 weeks after acupunctures ended) was compared with baseline by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range and standard deviation were calculated to present the statistical dispersion of sample data at assessments.||||<0.001
92250147|NCT05014542|184402418|SUPERIORITY||Mean Difference (Final Values)|-7.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC pain in Week 39 of group C) - mean (WOMAC pain in Week 0 of group C)|The pain subscale of the WOMAC index of group C in Week 39 (end of acupuncture of group C) was compared with the pre-experimental baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range and standard deviation were calculated to present the statistical dispersion of data.||||<0.001
92250148|NCT05014542|184402419|SUPERIORITY||Mean Difference (Final Values)|-2.6|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC stiffness in Week 39 of group A) - mean (WOMAC stiffness in Week 0 of group A)|The stiffness subscale of the WOMAC index of group A in Week 39 (24 weeks after acupuncture of group A ended) was compared with the pre-experimental baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
92250149|NCT05014542|184402419|SUPERIORITY||Mean Difference (Final Values)|-3.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC stiffness in Week 39 of group C) - mean (WOMAC stiffness in Week 0 of group C)|The stiffness subscale of the WOMAC index of group C in Week 39 (end of acupuncture of group C) was compared with the pre-experimental baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range and standard deviation were calculated to present the statistical dispersion of data.||||<0.001
92176614|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.873|||<|0.0001|TWO_SIDED|95.0|-1.127|-0.619|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.619|-1.127|<.0001
92176615|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.247||||0.2525|TWO_SIDED|95.0|-0.178|0.671|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.671|-0.178|0.2525
92183076|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-13.5|7.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||7.3|-13.5|
92250150|NCT05014542|184402420|SUPERIORITY||Mean Difference (Final Values)|-25.3|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC functional disability in Week 39 of group A) - mean(WOMAC functional disability in Week 0 of group A)|The functional disability subscale of the WOMAC index of group A in Week 39 (24 weeks after acupuncture of group A ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
92250151|NCT05014542|184402420|SUPERIORITY||Mean Difference (Final Values)|-29.6|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC functional disability in Week 39 of group C) - mean (WOMAC functional disability in Week 0 of group C)|The functional disability subscale of the WOMAC index of group C in Week 39 (when acupuncture of group A ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
92250152|NCT05014542|184402421|SUPERIORITY||Mean Difference (Final Values)|-41.2|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (VAS in Week 39 of group A) - mean (VAS in Week 0 of group A)|VAS of group A in Week 39 (24 weeks after acupuncture of group A ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
92250153|NCT05014542|184402421|SUPERIORITY||Mean Difference (Final Values)|-31.1|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (VAS in Week 39 of group C) - mean (VAS in Week 0 of group C)|VAS of group C in Week 39 (when acupuncture of group C ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||< 0.001
92250154|NCT05014542|184402422|SUPERIORITY||Mean Difference (Final Values)|-12.6|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (KDSQ in Week 39 of group A) - mean (KDSQ in Week 0 of group A)|KDSQ of group A in Week 39 (24 weeks after acupuncture of group A ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
92250155|NCT05014542|184402422|SUPERIORITY||Mean Difference (Final Values)|-11.4|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (KDSQ in Week 39 of group C) - mean (KDSQ in Week 0 of group C)|KDSQ of group C in Week 39 (when acupuncture of group C ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
92182672|NCT02909959|184264466|EQUIVALENCE|Statistical significance was measured at the 0.05 alpha level for a two-sided test, so the rejection region for a normally distributed T-score was +/-1.96\*SE(Diff), where SE(Diff) is the estimated standard error of the difference between the LS mean of sulforaphane and LS mean of the placebo group.|Mean Difference (Final Values)|2.96|STANDARD_ERROR_OF_MEAN|3.03||0.331|TWO_SIDED|||||The test was considered statistically significant if the p-value \< 0.05.|Mixed Models Analysis|Mixed-effects model with random intercept and unstructured covariance matrix from baseline to week 16.|This analysis compares LS Mean Sulforaphane - LS Mean Placebo.|The null hypothesis is that the least-square mean of sulforaphane's SRS-2 T-score minus the least-square mean of placebo group's T-score is 0.||||0.331
92250156|NCT05014542|184402423|SUPERIORITY||Mean Difference (Final Values)|-361.4||||0.204|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (DRUG in Week 39 of group A) - mean (DRUG in Week 0 of group A)|The DRUG of group A in Week 39 (24 weeks after acupuncture of group A ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||0.204
92265123|NCT01050998|184431813|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.205||0.137|TWO_SIDED|95.0|-0.71|0.1|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.10|-0.71|0.137
92183077|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|5.39|||TWO_SIDED|95.0|-14.6|6.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||6.5|-14.6|
92250157|NCT05014542|184402423|SUPERIORITY||Mean Difference (Final Values)|-305.4||||0.134|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (DRUG in Week 39 of group C) - mean (DRUG in Week 0 of group C)|The DRUG of group C in Week 39 (when acupuncture of group C ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||0.134
92183078|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|5.25|||TWO_SIDED|95.0|-12.6|8.0|||ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||8.0|-12.6|
92250158|NCT05014542|184402424|SUPERIORITY||Mean Difference (Final Values)|-7.53|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (Lequesne index in Week 24 of A group) - mean (Lequesne index in Week 24 of C group)|The Lequesne index in Week 24 compared two confirmed comparable groups (at baseline), 9 weeks after acupuncture treatment in group A ended, while the C group was still a control. The Shapiro-Wilk test (S-W) tests normality distribution. The between-group comparability test at Week 24 was provided to accept or reject the null hypothesis by the Mann-Whitney U test, with 95 % power and a level of significance α = 0,05. Standard deviation (SD) was calculated to present the statistical dispersion.||||< 0.001
92250159|NCT04446299|184402492|NON_INFERIORITY|The predetermined non-inferiority margin was 10%.|Risk Difference (RD)|3.42|||<|0.001|TWO_SIDED|95.0|-1.68|8.52|||Mantel Haenszel|||||8.52|-1.68|<0.001
92183079|NCT02434328|184264739|OTHER|Treatment difference|Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|5.42|||TWO_SIDED|95.0|-13.6|7.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||7.7|-13.6|
92250160|NCT03819478|184402495|SUPERIORITY|||||||0.488|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.4880
92250161|NCT03819478|184402495|SUPERIORITY|||||||0.1683|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.1683
92250162|NCT03819478|184402496|SUPERIORITY|||||||0.7636|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.7636
92250163|NCT03819478|184402497|SUPERIORITY|||||||0.1584|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.1584
92250164|NCT03819478|184402497|SUPERIORITY|||||||0.1623|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.1623
92182673|NCT02909959|184264467|EQUIVALENCE|Statistical significance was measured at the 0.05 alpha level for a two-sided test, so the rejection region for a normally distributed T-score was +/-1.96\*SE(Diff), where SE(Diff) is the estimated standard error of the difference between the LS mean of sulforaphane and LS mean of the placebo group.|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|2.99||0.98|TWO_SIDED|||||The test was considered statistically significant if the p-value \< 0.05.|Mixed Models Analysis|Mixed-effects model with random intercept and unstructured covariance matrix from baseline to week 16.|This analysis compares LS Mean Sulforaphane - LS Mean Placebo.|The null hypothesis is that the least-square mean of sulforaphane's SRS-2 T-score minus the least-square mean of placebo group's T-score is 0.||||0.98
92250165|NCT03819478|184402498|SUPERIORITY|||||||0.035|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.0350
92250166|NCT03819478|184402499|SUPERIORITY|||||||0.2422|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.2422
92250167|NCT03819478|184402499|SUPERIORITY|||||||0.5082|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.5082
92250168|NCT03819478|184402500|SUPERIORITY|||||||0.5119|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.5119
92250169|NCT03819478|184402500|SUPERIORITY|||||||0.4902|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.4902
92250170|NCT03819478|184402501|SUPERIORITY|||||||0.85|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.8500
92250171|NCT03819478|184402502|SUPERIORITY|||||||0.3685|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.3685
92250172|NCT03819478|184402502|SUPERIORITY|||||||0.0894|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.0894
92250173|NCT03819478|184402503|SUPERIORITY|||||||0.5334|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.5334
92250174|NCT03819478|184402504|SUPERIORITY|||||||0.1573|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.1573
92250175|NCT00091962|184402510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001||||0.001|TWO_SIDED|95.0||||repeated measures mixed-effect model with treatment, time (4 time points), and sex; all 2- and 3-factor interaction terms with subject intercepts were treated as a random effect to account for individual differences at randomization.|Mixed Models Analysis|||||||0.001
92250176|NCT01488409|184402513|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||t-test, 2 sided|||||||0.97
92250177|NCT01488409|184402514|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||t-test, 2 sided|||||||0.85
92183080|NCT02434328|184264740|OTHER||Difference in proportions|-6.6|||||TWO_SIDED|95.0|-13.2|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||-0.3|-13.2|
92250178|NCT01488409|184402515|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||t-test, 2 sided|||||||0.52
92250179|NCT01488409|184402516|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||t-test, 2 sided|||||||0.79
92250180|NCT01488409|184402517|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||t-test, 2 sided|||||||0.007
92250181|NCT00507416|184402533|SUPERIORITY_OR_OTHER|||||||0.458||||||The global difference among arms was based on the Wald test.|Wald test|||||||0.458
92250182|NCT03258632|184402574|SUPERIORITY||Odds Ratio (OR)|1.17|||<|0.05|TWO_SIDED|95.0|0.73|1.9|||Mixed Models Analysis|||||1.90|0.73|<.05
92250183|NCT03162458|184402576|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
92250184|NCT03162458|184402577|SUPERIORITY|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||||||0.0004
92250185|NCT03162458|184402578|SUPERIORITY|||||||0.055|||||||Log Rank|||||||0.055
92250186|NCT03162458|184402579|SUPERIORITY|||||||0.051|||||||Wilcoxon (Mann-Whitney)|||||||0.051
92250187|NCT03162458|184402580|SUPERIORITY|||||||0.19|||||||ANOVA|||Mean body temperatures, measured in the morning on Days 2-5 (based on patient diary data)||||0.19
92250188|NCT03162458|184402580|SUPERIORITY|||||||0.44|||||||ANOVA|||Mean body temperatures, measured in the evening on Days 2-5 (based on patient diary data)||||0.44
92250189|NCT03162458|184402581|SUPERIORITY|||||||0.15|||||||Log Rank|||||||0.15
92250190|NCT03162458|184402582|SUPERIORITY|||||||0.004|||||||ANOVA|||||||0.004
92250191|NCT03162458|184402583|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92250192|NCT03162458|184402584|SUPERIORITY|||||||0.63|||||||ANOVA|||||||0.63
92250193|NCT03162458|184402585|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92250194|NCT04491240|184402592|SUPERIORITY||Mean Difference (Net)|73.29|STANDARD_DEVIATION|82.91404||0.020875|TWO_SIDED|95.0|13.97687|132.6031|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||132.6031|13.97687|0.020875
92250195|NCT04491240|184402592|SUPERIORITY||Mean Difference (Net)|69.56|STANDARD_DEVIATION|45.67648||0.000953|TWO_SIDED|95.0|36.88502|102.235|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||102.2350|36.88502|0.000953
92250196|NCT04491240|184402592|SUPERIORITY||Mean Difference (Net)|53.21|STANDARD_DEVIATION|39.85531||0.002233|TWO_SIDED|95.0|24.69923|81.72077|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||81.72077|24.69923|0.002233
92250197|NCT04491240|184402593|SUPERIORITY||Mean Difference (Net)|331.52|STANDARD_DEVIATION|315.823||0.008948|TWO_SIDED|95.0|105.5938|557.4462|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||557.4462|105.5938|0.008948
92183081|NCT02434328|184264740|OTHER||Difference in proportions|-8.5|||||TWO_SIDED|95.0|-13.8|-3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-3.0|-13.8|
92265124|NCT01050998|184431813|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.202||0.001|TWO_SIDED|95.0|-1.07|-0.27|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||-0.27|-1.07|0.001
92250198|NCT04491240|184402593|SUPERIORITY||Mean Difference (Net)|366.63|STANDARD_DEVIATION|414.9726||0.020921|TWO_SIDED|95.0|69.77651|663.4835|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||663.4835|69.77651|0.020921
92250199|NCT04491240|184402593|SUPERIORITY||Mean Difference (Net)|239.2|STANDARD_DEVIATION|204.0934||0.004873|TWO_SIDED|95.0|93.20037|385.1996|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||385.1996|93.20037|0.004873
92250200|NCT03549117|184402596|SUPERIORITY||Least square (LS) mean difference|0.15||||0.8142|TWO_SIDED|95.0|-1.14|1.45||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep problems.||1.45|-1.14|0.8142
92250201|NCT03549117|184402596|SUPERIORITY||LS mean difference|-0.7||||0.369|TWO_SIDED|95.0|-2.23|0.84||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep Time Problems.||0.84|-2.23|0.3690
92176616|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.098||||0.6503|TWO_SIDED|95.0|-0.33|0.527|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.527|-0.330|0.6503
92183082|NCT02434328|184264740|OTHER||Difference in proportions|-6.9|||||TWO_SIDED|95.0|-12.2|-1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-1.7|-12.2|
92250202|NCT03549117|184402596|SUPERIORITY||LS mean difference|-0.18||||0.7995|TWO_SIDED|95.0|-1.61|1.25||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline; between treatment 95% CI.|Treatment comparison of NRQLQ between active and placebo strip group for Symptoms on Waking in the Morning.||1.25|-1.61|0.7995
92250203|NCT03549117|184402596|SUPERIORITY||LS mean difference|0.15||||0.7285|TWO_SIDED|95.0|-0.69|0.98||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Practical Problems.||0.98|-0.69|0.7285
92250204|NCT03549117|184402597|SUPERIORITY||LS mean difference|-0.18||||0.7961|TWO_SIDED|95.0|-1.52|1.17||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep problems.||1.17|-1.52|0.7961
92250205|NCT03549117|184402597|SUPERIORITY||LS mean difference|-0.86||||0.271|TWO_SIDED|95.0|-2.41|0.68||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep time problems.||0.68|-2.41|0.2710
92250206|NCT03549117|184402597|SUPERIORITY||LS mean difference|-0.07||||0.9236|TWO_SIDED|95.0|-1.6|1.45||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for symptoms on waking in the morning.||1.45|-1.60|0.9236
92250207|NCT03549117|184402597|SUPERIORITY||LS mean difference|-0.05||||0.8756|TWO_SIDED|95.0|-0.87|0.75||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for practical problems.||0.75|-0.87|0.8756
92250208|NCT03549117|184402598|SUPERIORITY||LS mean difference|0.02||||0.9314|TWO_SIDED|95.0|-0.38|0.42||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for feel tired and unrefreshed.||0.42|-0.38|0.9314
92250209|NCT03549117|184402598|SUPERIORITY||LS mean difference|-0.05||||0.8005|TWO_SIDED|95.0|-0.45|0.35||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for nasal congestion or stuffy nose.||0.35|-0.45|0.8005
92250210|NCT03549117|184402598|SUPERIORITY||LS mean difference|0.01||||0.9613|TWO_SIDED|95.0|-0.38|0.4||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for congestion in sinuses.||0.40|-0.38|0.9613
92250211|NCT03549117|184402598|SUPERIORITY||LS mean difference|-0.14||||0.4966|TWO_SIDED|95.0|-0.54|0.26||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for time to clear nighttime drainage after waking up.||0.26|-0.54|0.4966
92182674|NCT02909959|184264468|EQUIVALENCE|Statistical significance was measured at the 0.05 alpha level for a two-sided test, so the rejection region for a normally distributed T-score was +/-1.96\*SE(Diff), where SE(Diff) is the estimated standard error of the difference between the LS mean of sulforaphane and LS mean of the placebo group.|Mean Difference (Final Values)|-0.774|STANDARD_ERROR_OF_MEAN|2.99||0.797|TWO_SIDED|||||The test was considered statistically significant if the p-value \< 0.05.|Mixed Models Analysis|Mixed-effects model with random intercept and unstructured covariance matrix from baseline to week 16.|This analysis compares LS Mean Sulforaphane - LS Mean Placebo.|The null hypothesis is that the least-square mean of sulforaphane's SRS-2 T-score minus the least-square mean of placebo group's T-score is 0.||||0.797
92250212|NCT03549117|184402599|SUPERIORITY||LS mean difference|0.03||||0.8775|TWO_SIDED|95.0|-0.39|0.45||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for feel tired and unrefreshed.||0.45|-0.39|0.8775
92250213|NCT03549117|184402599|SUPERIORITY||LS mean difference|-0.06||||0.7747|TWO_SIDED|95.0|-0.47|0.35||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for nasal congestion or stuffy nose.||0.35|-0.47|0.7747
92250214|NCT03549117|184402599|SUPERIORITY||LS mean difference|0.04||||0.8535|TWO_SIDED|95.0|-0.39|0.47||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for congestion in sinuses.||0.47|-0.39|0.8535
92183083|NCT02434328|184264740|OTHER||Difference in proportions|-14.2|||||TWO_SIDED|95.0|-20.8|-8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-8.3|-20.8|
92250215|NCT03549117|184402599|SUPERIORITY||LS mean difference|-0.06||||0.772|TWO_SIDED|95.0|-0.47|0.35||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for time to clear nighttime drainage after waking up.||0.35|-0.47|0.7720
92250216|NCT03549117|184402600|SUPERIORITY|||||||0.9258|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep problems.||||0.9258
92250217|NCT03549117|184402600|SUPERIORITY|||||||0.2368|||||||Chi-squared|P-value are based on chi-square test.||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep problems.||||0.2368
92250218|NCT03549117|184402600|SUPERIORITY|||||||0.4432|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep time problems.||||0.4432
92250219|NCT03549117|184402600|SUPERIORITY|||||||0.9856|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep time problems.||||0.9856
92250220|NCT03549117|184402600|SUPERIORITY|||||||0.7854|||||||Chi-squared|P-value are based on chi-square test.||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in symptoms on waking in AM.||||0.7854
92250221|NCT03549117|184402600|SUPERIORITY|||||||0.4141|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in symptoms on waking in AM.||||0.4141
92250222|NCT03549117|184402600|SUPERIORITY|||||||0.3028|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in practical problems.||||0.3028
92250223|NCT03549117|184402600|SUPERIORITY|||||||0.3955|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in practical problems.||||0.3955
92250224|NCT03549117|184402601|SUPERIORITY|||||||0.3826|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep problems.||||0.3826
92250225|NCT03549117|184402601|SUPERIORITY|||||||0.6251|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep problems.||||0.6251
92250226|NCT03549117|184402601|SUPERIORITY|||||||0.2381|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep time problems.||||0.2381
92250227|NCT03549117|184402601|SUPERIORITY|||||||0.4245|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep time problems.||||0.4245
92250228|NCT03549117|184402601|SUPERIORITY|||||||0.8213|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in symptoms on waking in AM.||||0.8213
92250229|NCT03549117|184402601|SUPERIORITY|||||||0.1823|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in symptoms on waking in AM.||||0.1823
92250230|NCT03549117|184402601|SUPERIORITY|||||||0.7744|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in practical problems.||||0.7744
92250231|NCT03549117|184402601|SUPERIORITY|||||||0.5811|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in practical problems.||||0.5811
92265125|NCT01050998|184431813|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.201||0.08|TWO_SIDED|95.0|-0.75|0.04|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.04|-0.75|0.080
92183084|NCT02434328|184264740|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|-2.9|9.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||9.6|-2.9|
92265126|NCT01050998|184431813|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.204|<|0.001|TWO_SIDED|95.0|-1.14|-0.33|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||-0.33|-1.14|<0.001
92250232|NCT00637377|184402607|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set to 10. The power is 90 % according to the sample size estimation of the study protocol.|Risk Difference (RD)|-1.2|||||TWO_SIDED|95.0|-4.86|2.46|||||The difference is calculated as Ranibizumab minus Aflibercept. A negative value favors the Aflibercept 2mg Q4 group. As adjustment of multiple comparisons a conditional sequence of statistical hypotheses is used with alpha = 0.05.|null hypothesis: pi ≤ pc-delta where pi is the probability that a participant maintained vision at week 52 under Aflibercept 2mg Q4, pc is the probability that a participant maintained vision at week 52 under Ranibizumab 0.5mg Q4 and delta is the non-inferiority margin. The null hypothesis is tested calculating a two-sided 95 % confidence using normal approximation of the difference of percentages of participants maintaining vision at week 52 (Ranibizumab 0.5mg Q4 minus Aflibercept 2mg Q4).||2.46|-4.86|
92250233|NCT00637377|184402607|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set to 10. The power is 90 % according to the sample size estimation of the study protocol.|Risk Difference (RD)|-1.84|||||TWO_SIDED|95.0|-5.4|1.71|||||The difference is calculated as Ranibizumab minus Aflibercept. A negative value favors the Aflibercept 0.5mg Q4 group. As adjustment of multiple comparisons a conditional sequence of statistical hypotheses is used with alpha = 0.05.|null hypothesis: pi ≤ pc-delta where pi is the probability that a participant maintained vision at week 52 under Aflibercept 0.5mg Q4, pc is the probability that a participant maintained vision at week 52 under Ranibizumab 0.5mg Q4 and delta is the non-inferiority margin. The null hypothesis is tested calculating a two-sided 95 % confidence using normal approximation of the difference of percentages of participants maintaining vision at week 52 (Ranibizumab 0.5mg Q4 minus Aflibercept 0.5mg Q4).||1.71|-5.40|
92250234|NCT00637377|184402607|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set to 10. The power is 90 % according to the sample size estimation of the study protocol.|Risk Difference (RD)|-1.13|||||TWO_SIDED|95.0|-4.81|2.55|||||The difference is calculated as Ranibizumab minus Aflibercept. A negative value favors the Aflibercept 2mg Q8 group. As adjustment of multiple comparisons a conditional sequence of statistical hypotheses is used with alpha = 0.05.|null hypothesis: pi ≤ pc-delta where pi is the probability that a participant maintained vision at week 52 under Aflibercept 2mg Q8, pc is the probability that a participant maintained vision at week 52 under Ranibizumab 0.5mg Q4 and delta is the non-inferiority margin. The null hypothesis is tested calculating a two-sided 95 % confidence using normal approximation of the difference of percentages of participants maintaining vision at week 52 (Ranibizumab 0.5mg Q4 minus Aflibercept 2mg Q8).||2.55|-4.81|
92250235|NCT00637377|184402608|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-1.9484||||0.076|TWO_SIDED|95.0|-4.1009|0.204||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors Aflibercept 2mg Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline ETDRS letter score as covariate. The null hypothesis is that both mean changes are equal.||0.2040|-4.1009|0.076
92250236|NCT00637377|184402608|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.062||||0.9555|TWO_SIDED|95.0|-2.2398|2.1158||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors Aflibercept 0.5mg Q4|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline ETDRS letter score as covariate. The null hypothesis is that both mean changes are equal.||2.1158|-2.2398|0.9555
92250237|NCT00637377|184402608|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.9014||||0.4131|TWO_SIDED|95.0|-3.0615|1.2587||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors the Aflibercept 2mg Q8 group|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline ETDRS letter score as covariate. The null hypothesis is that both mean changes are equal.||1.2587|-3.0615|0.4131
92250238|NCT00637377|184402609|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.57||||0.229|TWO_SIDED|95.0|-12.02|2.88||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|Chi-squared||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors the Aflibercept 2mg Q4 group|The null hypothesis is that the two proportions are equal.||2.88|-12.02|0.229
92250239|NCT00637377|184402609|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.78||||0.843|TWO_SIDED|95.0|-6.91|8.46||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|Chi-squared||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors the Aflibercept 0.5mg Q4 group|The null hypothesis is that the two proportions are equal.||8.46|-6.91|0.843
92250240|NCT00637377|184402609|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.65||||0.49|TWO_SIDED|95.0|-10.18|4.88||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|Chi-squared||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors the Aflibercept 2mg Q8 group|The null hypothesis is that the two proportions are equal.||4.88|-10.18|0.490
92265127|NCT01050998|184431813|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.212||0.107|TWO_SIDED|95.0|-0.76|0.08|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||0.08|-0.76|0.107
92250241|NCT00637377|184402610|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-2.7885||||0.0097|TWO_SIDED|95.0|-4.9012|-0.6757||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors Aflibercept 2mg Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline NEI VFQ-25 total score as covariate. The null hypothesis is that both mean changes are equal.||-0.6757|-4.9012|0.0097
92176617|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.239||||0.1759|TWO_SIDED|95.0|-0.109|0.588|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.588|-0.109|0.1759
92250242|NCT00637377|184402610|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.932||||0.3917|TWO_SIDED|95.0|-3.0658|1.2019||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors Aflibercept 0.5mg Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline NEI VFQ-25 total score as covariate. The null hypothesis is that both mean changes are equal.||1.2019|-3.0658|0.3917
92250243|NCT00637377|184402610|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-1.947||||0.0717|TWO_SIDED|95.0|-4.0659|0.1718||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors Aflibercept 2mg Q8.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline NEI VFQ-25 total score as covariate. The null hypothesis is that both mean changes are equal.||0.1718|-4.0659|0.0717
92183085|NCT02434328|184264740|OTHER||Difference in proportions|-19.2|||||TWO_SIDED|95.0|-25.5|-13.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-13.0|-25.5|
92250244|NCT00637377|184402611|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-1.18||||0.0038|TWO_SIDED|95.0|-1.979|-0.382||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A negative value favors Aflibercept 2mg Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline CNV area as covariate. The null hypothesis is that both mean changes are equal.||-0.382|-1.979|0.0038
92250245|NCT00637377|184402611|SUPERIORITY_OR_OTHER||Differences in Least Squares means|0.17||||0.6784|TWO_SIDED|95.0|-0.632|0.972||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A negative value favors Aflibercept 0.5mg Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline CNV area as covariate. The null hypothesis is that both mean changes are equal.||0.972|-0.632|0.6784
92250246|NCT00637377|184402611|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.733||||0.0727|TWO_SIDED|95.0|-1.534|0.068||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A negative value favors Aflibercept 2mg Q8.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline CNV area as covariate. The null hypothesis is that both mean changes are equal.||0.068|-1.534|0.0727
92183086|NCT02434328|184264740|OTHER||Difference in proportions|-5.9|||||TWO_SIDED|95.0|-11.6|-0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||-0.4|-11.6|
92250247|NCT01293084|184402614|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.2||||0.62|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.62
92250248|NCT01293084|184402615|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.3||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.32
92250249|NCT00107172|184402632|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.01||||0.98|TWO_SIDED|95.0|0.51|1.98|||Log Rank|Competing risk P-value = 0.91.||The competing risk analysis accounting for death/regional and distant recurrence as competing events was performed.||1.98|0.51|0.98
92250250|NCT00107172|184402633|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.07||||0.75|TWO_SIDED|95.0|0.71|1.61|||Log Rank|||||1.61|0.71|0.75
92250251|NCT00107172|184402638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED||||||Fisher Exact|||Compare the grade 3+ adverse events incidence reported from day 0 to 30 between arms.||||0.37
92250252|NCT00107172|184402638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|TWO_SIDED||||||Fisher Exact|||Compare the grade 3+ adverse events incidence reported from day 0 to 90 between arms.||||0.25
92250253|NCT00107172|184402639|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35|TWO_SIDED||||||Fisher Exact|||Compare the grade 3+ respiratory adverse events incidence reported from day 0 to 30 between arms.||||0.35
92250254|NCT00107172|184402639|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31|TWO_SIDED||||||Fisher Exact|||Compare the grade 3+ respiratory adverse events incidence reported from day 0 to 90 between arms.||||0.31
92250255|NCT00107172|184402642|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|TWO_SIDED||||||Wilcoxon Signed Rank|||Compare the percentage change from baseline to 3-month value for SR arm.||||0.03
92250256|NCT00107172|184402642|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|TWO_SIDED||||||Wilcoxon Signed Rank|||Compare the percentage change from baseline to 3-month value for SR + BX arm.||||0.18
92250257|NCT00107172|184402643|SUPERIORITY_OR_OTHER_LEGACY|||||||0.38|TWO_SIDED||||||Wilcoxon Signed Rank|||Compare the percentage change from baseline to 3-month value for SR arm.||||0.38
92250258|NCT00107172|184402643|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|TWO_SIDED||||||Wilcoxon Signed Rank|||Compare the percentage change from baseline to 3-month value for SR + BX arm.||||0.16
92176618|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.867||||0.0293|TWO_SIDED|95.0|-1.674|-0.06|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.060|-1.674|0.0293
92250259|NCT04268303|184402644|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92250260|NCT04268303|184402644|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92250261|NCT04268303|184402645|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 90 minutes post-dose||||<0.0001
92250262|NCT04268303|184402645|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 90 minutes post-dose||||<0.0001
92250263|NCT04268303|184402645|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 60 minutes post-dose||||<0.0001
92250264|NCT04268303|184402645|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 60 minutes post-dose||||<0.0001
92250265|NCT04268303|184402645|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 45 minutes post-dose||||<0.0001
92250266|NCT04268303|184402645|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 45 minutes post-dose||||<0.0001
92250267|NCT04268303|184402645|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 30 minutes post-dose||||<0.0001
92250268|NCT04268303|184402645|SUPERIORITY|||||||0.0075|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 30 minutes post-dose||||0.0075
92250269|NCT04268303|184402645|SUPERIORITY|||||||0.0032|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 20 minutes post-dose||||0.0032
92250270|NCT04268303|184402645|SUPERIORITY|||||||0.4097|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 20 minutes post-dose||||0.4097
92250271|NCT04268303|184402645|SUPERIORITY|||||||0.0457|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 10 minutes post-dose||||0.0457
92250272|NCT04268303|184402645|SUPERIORITY|||||||0.972|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 10 minutes post-dose||||0.9720
92250273|NCT03706040|184402660|SUPERIORITY||Adjusted Difference|13.0||||0.084|TWO_SIDED|95.0|-1.7|27.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||27.7|-1.7|0.084
92250274|NCT03706040|184402660|SUPERIORITY||Adjusted Difference|10.0||||0.179|TWO_SIDED|95.0|-4.6|24.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||24.6|-4.6|0.179
92250275|NCT03706040|184402661|SUPERIORITY||Adjusted Difference|8.7||||0.129|TWO_SIDED|95.0|-2.5|20.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||20.0|-2.5|0.129
92250276|NCT03706040|184402661|SUPERIORITY||Adjusted Difference|0.0||||0.994|TWO_SIDED|95.0|-9.4|9.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||9.4|-9.4|0.994
92176619|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.876||||0.0362|TWO_SIDED|95.0|-1.714|-0.038|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.038|-1.714|0.0362
92250277|NCT03706040|184402662|SUPERIORITY||Adjusted Difference|13.7||||0.001|TWO_SIDED|95.0|5.4|22.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||22.1|5.4|0.001
92176620|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-1.139|||<|0.0001|TWO_SIDED|95.0|-1.809|-0.469|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.469|-1.809|<.0001
92250278|NCT03706040|184402662|SUPERIORITY||Adjusted Difference|15.3|||<|0.001|TWO_SIDED|95.0|6.6|24.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||24.0|6.6|<0.001
92250279|NCT03706040|184402663|SUPERIORITY||Least Squares (LS) Mean Difference|-10.32|STANDARD_ERROR_OF_MEAN|11.073||0.353|TWO_SIDED|95.0|-32.25|11.61|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||11.61|-32.25|0.353
92250280|NCT03706040|184402663|SUPERIORITY||LS Mean Difference|-16.86|STANDARD_ERROR_OF_MEAN|11.305||0.139|TWO_SIDED|95.0|-39.24|5.53|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||5.53|-39.24|0.139
92250281|NCT03706040|184402666|SUPERIORITY||Adjusted Difference|12.9||||0.171|TWO_SIDED|95.0|-5.6|31.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||31.4|-5.6|0.171
92250282|NCT03706040|184402666|SUPERIORITY||Adjusted Difference|5.7||||0.552|TWO_SIDED|95.0|-13.1|24.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||24.5|-13.1|0.552
92250283|NCT03706040|184402668|SUPERIORITY||Adjusted Difference|11.6||||0.022|TWO_SIDED|95.0|1.7|21.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||21.6|1.7|0.022
92250284|NCT03706040|184402668|SUPERIORITY||Adjusted Difference|5.8||||0.192|TWO_SIDED|95.0|-2.9|14.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||14.4|-2.9|0.192
92250285|NCT03706040|184402671|SUPERIORITY||LS Mean Difference|-6.24|STANDARD_ERROR_OF_MEAN|4.506||0.169|TWO_SIDED|95.0|-15.15|2.68|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||2.68|-15.15|0.169
92250286|NCT03706040|184402671|SUPERIORITY||LS Mean Difference|-5.86|STANDARD_ERROR_OF_MEAN|4.589||0.204|TWO_SIDED|95.0|-14.94|3.22|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||3.22|-14.94|0.204
92250287|NCT03706040|184402673|SUPERIORITY||Adjusted Difference|6.7||||0.422|TWO_SIDED|95.0|-9.7|23.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||23.1|-9.7|0.422
92250288|NCT03706040|184402673|SUPERIORITY||Adjusted Difference|-5.2||||0.505|TWO_SIDED|95.0|-20.3|10.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||10.0|-20.3|0.505
92250289|NCT03706040|184402675|SUPERIORITY||Adjusted Difference|10.1||||0.005|TWO_SIDED|95.0|3.0|17.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||17.3|3.0|0.005
92250290|NCT03706040|184402675|SUPERIORITY||Adjusted Difference|2.9||||0.151|TWO_SIDED|95.0|-1.1|6.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||6.8|-1.1|0.151
92183087|NCT02434328|184264740|OTHER||Difference in proportions|-9.8|||||TWO_SIDED|95.0|-16.5|-3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-3.5|-16.5|
92250291|NCT03706040|184402677|SUPERIORITY||Adjusted Difference|5.9||||0.035|TWO_SIDED|95.0|0.4|11.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||11.3|0.4|0.035
92250292|NCT03706040|184402677|SUPERIORITY||Adjusted Difference|1.5||||0.311|TWO_SIDED|95.0|-1.4|4.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||4.4|-1.4|0.311
92250293|NCT03706040|184402679|SUPERIORITY||Adjusted Difference|-0.3||||0.965|TWO_SIDED|95.0|-12.0|11.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||11.5|-12.0|0.965
92250294|NCT03706040|184402679|SUPERIORITY||Adjusted Difference|-3.1||||0.583|TWO_SIDED|95.0|-14.3|8.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||8.1|-14.3|0.583
92250295|NCT03706040|184402683|SUPERIORITY||Adjusted Difference|5.9||||0.539|TWO_SIDED|95.0|-13.0|24.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||24.9|-13.0|0.539
92250296|NCT03706040|184402683|SUPERIORITY||Adjusted Difference|12.2||||0.213|TWO_SIDED|95.0|-7.0|31.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||31.5|-7.0|0.213
92250297|NCT03706040|184402685|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.82||0.988|TWO_SIDED|95.0|-3.6|3.6|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||3.6|-3.6|0.988
92250298|NCT03706040|184402685|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.86||0.594|TWO_SIDED|95.0|-4.7|2.7|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||2.7|-4.7|0.594
92183088|NCT02434328|184264740|OTHER||Difference in proportions|-8.0|||||TWO_SIDED|95.0|-13.6|-2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-2.5|-13.6|
92250299|NCT03706040|184402689|SUPERIORITY||LS Mean Difference|-1.318|STANDARD_ERROR_OF_MEAN|0.6137||0.033|TWO_SIDED|95.0|-2.531|-0.105|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||-0.105|-2.531|0.033
92250300|NCT03706040|184402689|SUPERIORITY||LS Mean Difference|-1.648|STANDARD_ERROR_OF_MEAN|0.626||0.009|TWO_SIDED|95.0|-2.885|-0.411|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||-0.411|-2.885|0.009
92250301|NCT00439725|184402693|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.185|STANDARD_ERROR_OF_MEAN|0.3858|<|0.0001||95.0|0.087|0.393||1st test in a hierarchy, a p-value of less than 0.05 would be considered significant.|Regression, Cox|Stratified by intended treatment duration, adjusted for pre-treatment||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (confidence interval) (two-sided testing).||0.393|0.087|< 0.0001
92250302|NCT00439725|184402694|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.18|STANDARD_ERROR_OF_MEAN|0.385|<|0.0001||95.0|0.085|0.383||2nd test in a hierarchy, a p-value of less than 0.05 would be considered significant. If the 1st test in hierarchy was significant.|Regression, Cox|Stratified by intended treatment duration, adjusted for pre-treatment||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (two-sided testing).||0.383|0.085|< 0.0001
92250303|NCT00439725|184402695|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.198|STANDARD_ERROR_OF_MEAN|0.3659|<|0.0001||95.0|0.096|0.405||3rd test in a hierarchy, a p-value of less than 0.05 would be considered significant. If the previous tests in hierarchy were significant|Regression, Cox|Stratified by intended treatment duration, adjusted for pre-treatment||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (two-sided testing).||0.405|0.096|< 0.0001
92250304|NCT00439725|184402696|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.278|STANDARD_ERROR_OF_MEAN|0.3274|<|0.0001||95.0|0.146|0.528||4th test in a hierarchy, a p-value of less than 0.05 would be considered significant. If the previous tests in hierarchy were significant|Regression, Cox|Stratified by intended treatment duration, adjusted for pre-treatment||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (two-sided testing).||0.528|0.146|< 0.0001
92283304|NCT01029353|184470419|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.82, 95% credible interval of (0.65, 1.02).|||
92250305|NCT00439725|184402699|SUPERIORITY_OR_OTHER|||||||0.1121||||||No adjustment for multiple comparison.|Log Rank|||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (two-sided testing), comparison was done for the treatment emergent (within two days after end of treatment) bleeding events.||||0.1121
92183089|NCT02434328|184264740|OTHER||Difference in proportions|-15.4|||||TWO_SIDED|95.0|-21.5|-9.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-9.4|-21.5|
92250306|NCT00439725|184402700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.185|STANDARD_ERROR_OF_MEAN|0.4131|<|0.0001||95.0|2.307|11.652||No adjustment for multiple comparison, a p-value of less than 0.05 would be considered significant.|Regression, Cox|Stratified by intended treatment duration, adjusted for pre-treatment done for treatment-emergent (time window: 2 days)||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (two-sided testing), comparison was done for the treatment emergent (within two days after end of treatment) bleeding events.||11.652|2.307|< 0.0001
92250307|NCT01673490|184402726|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92250308|NCT01673490|184402727|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||for Month 3|t-test, 2 sided|||||||<0.001
92250309|NCT01673490|184402727|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||for Month 6|t-test, 2 sided|||||||<0.001
92250310|NCT00379236|184402729|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||ANCOVA|Screening pain score was the covariate; study center was modeled as a random effect while all other variables were modeled as fixed effects.||||||0.008
92250311|NCT00379236|184402730|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value is purely nominal|ANCOVA|||||||0.001
92250312|NCT00379236|184402731|SUPERIORITY_OR_OTHER|||||||0.202||95.0|||||Chi-squared|||||||0.202
92250313|NCT00379236|184402732|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Chi-squared|||||||0.047
92250314|NCT00379236|184402733|SUPERIORITY_OR_OTHER|||||||0.618||95.0|||||Chi-squared|||||||0.618
92250315|NCT00379236|184402734|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Chi-squared|||||||0.028
92250316|NCT00379236|184402735|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANCOVA|Baseline pain score was the covariate; study center was modeled as a random effect while all other variables were modeled as fixed effects.||||||0.002
92250317|NCT00379236|184402746|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Chi-squared|||||||0.006
92250318|NCT02940860|184402752|NON_INFERIORITY|Non-inferiority could be claimed if the lower bound of the 95% confidence interval (CI) was above -0.5 g/dL.|Mean Difference (Final Values)|0.08|||||TWO_SIDED|95.0|-0.06|0.23|||||The Mixed Model for Repeated Measurement (MMRM) used for testing, included the fixed, categorical effects of treatment, week, treatment-by-week interaction, strata, and the continuous covariates of baseline Hb and baseline Hb-by-week interaction.|"Power:~With N=1000 subjects in the iron isomaltoside/ferric derisomaltose treatment group and with N=500 subjects in the iron sucrose treatment group, assuming no difference between the treatment groups and assuming a common standard deviation (SD) of 1.5 g/dL, the power was 100% for demonstrating non-inferiority of the change in Hb from baseline to week 8, using a non-inferiority margin of -0.5 g/dL.~The significance level was set to 5%."||0.23|-0.06|
92250319|NCT02940860|184402753|OTHER||95% two-sided CI (iron isomaltoside)|0.3|||||TWO_SIDED|95.0|0.06|0.86||||||"Power:~With N=1000 subjects in the iron isomaltoside/ferric derisomaltose, the power was 88% to demonstrate that the upper bound of the 95% CI of the incidence of treatment-emergent serious and/or severe non-serious hypersensitivity AEs was less than 3%.~The significance level was set to 5%."||0.86|0.06|
92250320|NCT02940860|184402753|OTHER||Risk Difference (RD)|0.29|||||TWO_SIDED|95.0|-0.19|0.77||||||Risk difference between iron isomaltoside/ferric derisomaltose and iron sucrose was assessed for the individual trial with 95% Newcombe CI adjusted for stratum using the Cochran-Mantel-Haenszel method.||0.77|-0.19|
92250321|NCT02940860|184402753|NON_INFERIORITY|Non-inferiority can be claimed if the upper bound of the 95% CI is below 1.5 % point.|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.57|0.48||||||Risk difference between iron isomaltoside/ferric derisomaltose and iron sucrose was assessed for the pooled FERWON-IDA and FERWON-NEPHRO trials (2008 subjects treated with iron isomaltoside/ferric derisomaltose and 1000 subjects treated with iron sucrose) with 95% Newcombe CI adjusted for stratum using the Cochran-Mantel-Haenszel method.||0.48|-0.57|
92250322|NCT02940860|184402754|SUPERIORITY|||||||0.0248|||||||Fisher Exact|||Adjudicated and confirmed treatment-emergent composite cardiovascular AEs. Any treatment emergent composite cardiovascular AEs were included in the statistical evaluation. The overall incidence of adjudicated and confirmed composite cardiovascular AEs was tabulated and compared between the treatment groups by a Fisher's exact test.||||0.0248
92250323|NCT02940860|184402755|SUPERIORITY|||||||0.0185|||||||Log Rank|||The time to first adjudicated and confirmed composite cardiovascular AEs was estimated using the Kaplan-Meier method and the hypothesis of no treatment difference was assessed by a log-rank test.||||0.0185
92250324|NCT02940860|184402757|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0478|TWO_SIDED|95.0|1.0|1.87|||Repeated measures logistic regressioin|||"Week 1~Hb increase of ≥1 g/dL from baseline to week 1.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||1.87|1.00|0.0478
92250325|NCT02940860|184402757|SUPERIORITY||Odds Ratio (OR)|1.81|||<|0.0001|TWO_SIDED|95.0|1.39|2.36|||Repeated measures logistic regressioin|||"Week 2~Hb increase of ≥1 g/dL from baseline to week 2.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||2.36|1.39|<0.0001
92250326|NCT02940860|184402757|SUPERIORITY||Odds Ratio (OR)|1.41||||0.0048|TWO_SIDED|95.0|1.11|1.79|||Repeated measures logistic regressioin|||"Week 4~Hb increase of ≥1 g/dL from baseline to week 4.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||1.79|1.11|0.0048
92250327|NCT02940860|184402757|SUPERIORITY||Odds Ratio (OR)|1.01||||0.944|TWO_SIDED|95.0|0.8|1.27|||Repeated measures logistic regressioin|||"Week 8~Hb increase of ≥1 g/dL from baseline to week 8.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||1.27|0.80|0.9440
92250328|NCT02940860|184402758|SUPERIORITY|||||||0.0174|||||||Log Rank|||Time to Hb response was estimated using the Kaplan-Meier method and the hypothesis of no treatment difference was assessed by a 2-sided log-rank test.||||0.0174
92250329|NCT02940860|184402759|SUPERIORITY||Odds Ratio (OR)|1.1||||0.5074|TWO_SIDED|95.0|0.83|1.45|||Regression, Logistic|||The proportion of subjects who achieved a Hb level of \>12 g/dL at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects. The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose is presented with 95% CI and corresponding p-value.||1.45|0.83|0.5074
92283305|NCT01029353|184470420|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.89|1.18|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.18|0.89|
92250330|NCT02940860|184402760|SUPERIORITY||Odds Ratio (OR)|1.24||||0.1035|TWO_SIDED|95.0|0.96|1.6|||Regression, Logistic|||"The proportion of subjects who achieved an increase in Hb concentration ≥2 g/dL at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects.~The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose was presented with 95% CI and corresponding p-value."||1.60|0.96|0.1035
92250331|NCT02940860|184402761|SUPERIORITY||Odds Ratio (OR)|1.82|||<|0.0001|TWO_SIDED|95.0|1.38|2.4|||Regression, Logistic|||"Proportion of subject who achieved a s-ferritin level of ≥100 ng/mL AND a TSAT of 20-50% at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects.~The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose is presented with 95% CI and corresponding p-value."||2.40|1.38|<0.0001
92250332|NCT02940860|184402762|SUPERIORITY||Mean Difference (Final Values)|0.22|||<|0.0001|TWO_SIDED|95.0|0.12|0.31|||Mixed model for repeated measures|||"Week 1~Change in Hb concentration from baseline to week 1 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.31|0.12|<0.0001
92250333|NCT02940860|184402762|SUPERIORITY||Mean Difference (Final Values)|0.25|||<|0.0001|TWO_SIDED|95.0|0.14|0.36|||Mixed model for repeated measures|||"Week 2~Change in Hb concentration from baseline to week 2 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.36|0.14|<0.0001
92250334|NCT02940860|184402762|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.0208|TWO_SIDED|95.0|0.02|0.28|||Mixed model for repeated measures|||"Week 4~Change in Hb concentration from baseline to week 4 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.28|0.02|0.0208
92283306|NCT01029353|184470420|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.98, 95% credible interval of (0.84, 1.15).|||
92250335|NCT02940860|184402763|SUPERIORITY||Mean Difference (Final Values)|309.2|||<|0.0001|TWO_SIDED|95.0|280.7|337.8|||Mixed model for repeated measures|||"Week 1~Change in concentrations of s-ferritin from baseline to week 1 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||337.8|280.7|<0.0001
92250336|NCT02940860|184402763|SUPERIORITY||Mean Difference (Final Values)|95.8|||<|0.0001|TWO_SIDED|95.0|67.9|123.7|||Mixed model for repeated measures|||"Week 2~Change in concentrations of s-ferritin from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||123.7|67.9|<0.0001
92250337|NCT02940860|184402763|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.7834|TWO_SIDED|95.0|-21.2|28.1|||Mixed model for repeated measures|||"Week 4~Change in concentrations of s-ferritin from baseline to week 4 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||28.1|-21.2|0.7834
92250338|NCT02940860|184402763|SUPERIORITY||Mean Difference (Final Values)|3.3||||0.7621|TWO_SIDED|95.0|-18.1|24.7|||Mixed model for repeated measures|||"Week 8~Change in concentrations of s-ferritin from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||24.7|-18.1|0.7621
92250339|NCT02940860|184402764|SUPERIORITY||Mean Difference (Final Values)|8.8|||<|0.0001|TWO_SIDED|95.0|6.9|10.7|||Mixed model for repeated measures|||"Week 1~Change in TSAT from baseline to week 1 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||10.7|6.9|<0.0001
92250340|NCT02940860|184402764|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.0129|TWO_SIDED|95.0|0.3|2.4|||Mixed model for repeated measures|||"Week 2~Change in TSAT from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||2.4|0.3|0.0129
92250341|NCT02940860|184402764|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.2403|TWO_SIDED|95.0|-0.4|1.5|||Mixed model for repeated measures|||"Week 4~Change in TSAT from baseline to week 4 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||1.5|-0.4|0.2403
92250342|NCT02940860|184402764|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.8094|TWO_SIDED|95.0|-0.9|1.2|||Mixed model for repeated measures|||"Week 8~Change in TSAT from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||1.2|-0.9|0.8094
92250343|NCT02940860|184402765|SUPERIORITY||Mean Difference (Final Values)|26.5|||<|0.0001|TWO_SIDED|95.0|20.4|32.7|||Mixed model for repeated measures|||"Week 1~Change in s-iron from baseline to week 1 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by week interaction effects are presented by week, including 95% CIs and corresponding p-value."||32.7|20.4|<0.0001
92250344|NCT02940860|184402765|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.2229|TWO_SIDED|95.0|-1.2|5.1|||Mixed model for repeated measures|||"Week 2~Change in s-iron from baseline to week 2 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by week interaction effects are presented by week, including 95% CIs and corresponding p-value."||5.1|-1.2|0.2229
92250345|NCT02940860|184402765|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.9046|TWO_SIDED|95.0|-2.9|2.6|||Mixed model for repeated measures|||"Week 4~Change in s-iron from baseline to week 4 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by week interaction effects are presented by week, including 95% CIs and corresponding p-value."||2.6|-2.9|0.9046
92250346|NCT02940860|184402765|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.1307|TWO_SIDED|95.0|-5.8|0.8|||Mixed model for repeated measures|||"Week 8~Change in s-iron from baseline to week 8 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by week interaction effects are presented by week, including 95% CIs and corresponding p-value."||0.8|-5.8|0.1307
92283307|NCT01029353|184470421|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.64|1.31|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.31|0.64|
92250347|NCT02940860|184402766|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.8196|TWO_SIDED|95.0|-0.73|0.92|||Mixed model for repeated measures|||"Week 1~Change in fatigue symptoms score from baseline to week 1 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||0.92|-0.73|0.8196
92250348|NCT02940860|184402766|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.7132|TWO_SIDED|95.0|-1.06|0.73|||Mixed model for repeated measures|||"Week 2~Change in fatigue symptoms score from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||0.73|-1.06|0.7132
92250349|NCT02940860|184402766|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.586|TWO_SIDED|95.0|-0.71|1.25|||Mixed model for repeated measures|||"Week 8~Change in fatigue symptoms score from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||1.25|-0.71|0.5860
92250350|NCT04914819|184402772|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.048|TWO_SIDED|95.0|0.04|10.8|||Mixed Models Analysis|||Change in weight among participants who completed final assessment||10.8|0.04|0.048
92250351|NCT04914819|184402773|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||0.3
92250352|NCT04914819|184402774|SUPERIORITY|||||||0.331|||||||Chi-squared|||||||0.331
92250353|NCT04914819|184402775|SUPERIORITY|||||||0.734|||||||Fisher Exact|||||||0.734
92250354|NCT03961295|184402779|OTHER||Ratio of Geometric LSMs|1.2984|||||TWO_SIDED|90.0|1.0786|1.5486||||||Geometric least-squares means (LSMs) were calculated by exponentiating the LSMs derived from analysis of variance (ANCOVA) with weight as a covariate. Confidence intervals (CIs) were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.||1.5486|1.0786|
92250355|NCT03961295|184402780|OTHER||Ratio of Geometric LSMs|1.3274|||||TWO_SIDED|90.0|1.1147|1.5807||||||Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.||1.5807|1.1147|
92250356|NCT03961295|184402781|OTHER||Ratio of Geometric LSMs|1.1978|||||TWO_SIDED|90.0|1.0394|1.3804||||||Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.||1.3804|1.0394|
92250357|NCT00962754|184402828|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority since our hypothesis was that there would be no difference in outcome between the intervention and the control group.|Adjusted ratio of geometric means|1.0|||<|0.05|TWO_SIDED|95.0|0.81|1.19||"log transformation of mean duration of hospitalization,difference between two groups expressed as ratio of geometric means for duration. 95% confidence intervals calculated using bootstrapping method.~correction by linear regression model"|t-test, 2 sided|||We calculated that 85 patients in each group would give a power in excess of 85% to detect a difference of two days or more in the geometric mean length of hospital stay with a two-sided significance level of 0.05.||1.19|0.81|<0.05
92250358|NCT02707601|184402842|SUPERIORITY|||||||0.002||||||The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 88%.|Binomial test|||||||0.002
92250359|NCT02707601|184402842|SUPERIORITY|||||||0.042||||||The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 88%.|Binomial test|||||||0.042
92250360|NCT02707601|184402843|SUPERIORITY|||||||0.002||||||The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 88%.|Binomial test|||||||0.002
92250361|NCT02707601|184402843|SUPERIORITY|||||||0.002||||||The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 88%.|Binomial test|||||||0.002
92250362|NCT02707601|184402844|OTHER||Difference in Percentages|0.0||||1|TWO_SIDED|95.0|-6.1|6.1|||Fisher exact test||The differences in percentages of participants between treatment groups and their 95% confidence intervals (CIs) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||6.1|-6.1|1.00
92250363|NCT00223652|184402846|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||=.001
92250364|NCT00223652|184402846|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Mixed Models Analysis|||||||0.07
92250365|NCT00223652|184402846|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||Mixed Models Analysis|||||||0.95
92250366|NCT00223652|184402847|SUPERIORITY_OR_OTHER||||||>|0.37|TWO_SIDED||||||Mixed Models Analysis|||||||>0.37
92250367|NCT00223652|184402848|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<.0001
92250368|NCT00223652|184402848|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Mixed Models Analysis|||||||0.61
92250369|NCT00223652|184402848|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Mixed Models Analysis|||||||0.20
92183090|NCT02434328|184264740|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-3.2|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||8.4|-3.2|
92250370|NCT00223652|184402849|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Generalized estimating equations models|||||||<0.0001
92250371|NCT00223652|184402849|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Generalized estimating equations models|||||||0.12
92250372|NCT00223652|184402849|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Generalized estimating equations models|||||||0.86
92250373|NCT00223652|184402850|SUPERIORITY_OR_OTHER||||||>|0.37|TWO_SIDED||||||Mixed Models Analysis|||||||>0.37
92250374|NCT00223652|184402851|SUPERIORITY_OR_OTHER||||||>|0.37|TWO_SIDED||||||Generalized estimating equations models|||||||>0.37
92250375|NCT03004976|184402856|OTHER||Wilcoxon Mann-Whitney Odds|0.9|STANDARD_ERROR_OF_MEAN|0.248||0.71|TWO_SIDED|95.0|0.53|1.55||Wilcoxon Two Sample Test|Wilcoxon (Mann-Whitney)|||Primary efficacy analysis (mRS shift from baseline to 90 days)||1.55|0.53|0.71
92250376|NCT03004976|184402856|OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.223||0.87|TWO_SIDED|95.0|0.4|2.3|||Cumulative Logit Proportional Odds Model|||Additional analysis of the primary endpoint (mRS score at 90 days), adjusted for baseline mRS, baseline NIHSS, and institution.||2.3|0.4|0.87
92250377|NCT02781454|184402895|SUPERIORITY||linear contrast active vs placebo|-5.558||||0.039|TWO_SIDED|95.0|-10.8|-0.315|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||-0.315|-10.80|0.039
92250378|NCT02781454|184402896|SUPERIORITY||linear contrast active vs placebo|0.792||||0.332|TWO_SIDED|95.0|0.484|1.296||linear contrast active vs placebo|Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo ratio of week 4 to week 0||1.296|0.484|0.332
92250379|NCT02781454|184402897|SUPERIORITY||linear contrast active vs placebo|0.411||||0.013|TWO_SIDED|95.0|0.208|0.81|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo ratio of week 4 to week 0||0.810|0.208|0.013
92250380|NCT02781454|184402898|SUPERIORITY||linear contrast active vs placebo|0.343||||0.986|TWO_SIDED|95.0|-41.36|42.042|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||42.042|-41.36|0.986
92250381|NCT02781454|184402899|SUPERIORITY||linear contrast active vs placebo|0.994||||0.915|TWO_SIDED|95.0|0.876|1.126|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo ratio of week 4 to week 0||1.126|0.876|0.915
92250382|NCT02781454|184402900|SUPERIORITY||linear contrast active vs placebo|1.089||||0.694|TWO_SIDED|95.0|-4.609|6.786|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||6.786|-4.609|0.694
92250383|NCT02781454|184402901|SUPERIORITY||linear contrast active vs placebo|0.242||||0.969|TWO_SIDED|95.0|-12.64|13.126|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||13.126|-12.64|0.969
92250384|NCT02781454|184402902|SUPERIORITY||linear contrast active vs placebo|2.597||||0.323|TWO_SIDED|95.0|-2.772|7.966|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||7.966|-2.772|0.323
92250385|NCT02781454|184402903|SUPERIORITY||linear contrast active vs placebo|-2.017||||0.273|TWO_SIDED|95.0|-5.767|1.733|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||1.733|-5.767|0.273
92250386|NCT02781454|184402904|SUPERIORITY||linear contrast active vs placebo|0.708||||0.713|TWO_SIDED|95.0|0.111|4.535|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo||4.535|0.111|0.713
92250387|NCT02781454|184402906|SUPERIORITY||linear contrast active vs placebo|-0.399||||0.601|TWO_SIDED|95.0|-1.966|1.169|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||1.169|-1.966|0.601
92250388|NCT02781454|184402907|SUPERIORITY||linear contrast active vs placebo|-2.734||||0.285|TWO_SIDED|95.0|-7.938|2.471|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||2.471|-7.938|0.285
92250389|NCT00493974|184402908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3876||95.0|||||Wilcoxon (Mann-Whitney)|||||||.3876
92250390|NCT00493974|184402909|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6413||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6413
92250391|NCT00493974|184402910|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6433||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6433
92250392|NCT00493974|184402911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63||95.0|||||Chi-squared|||||||0.63
92250393|NCT00493974|184402912|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4957||95.0|||||t-test, 2 sided|||||||0.4957
92250394|NCT00493974|184402913|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92250395|NCT00493974|184402914|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0|||||t-test, 2 sided|||||||0.006
92250396|NCT03796182|184402931|EQUIVALENCE|The corresponding 90% confidence intervals equivalence criteria was (80%, 125%) acceptance range.|Ratio|98.5|||||TWO_SIDED|90.0|82.09|118.2||||||||118.20|82.09|
92250397|NCT03796182|184402932|EQUIVALENCE|The corresponding 90% confidence intervals equivalence criteria was (80%, 125%) acceptance range.|Ratio|93.49|||||TWO_SIDED|90.0|85.15|102.65||||||||102.65|85.15|
92250398|NCT03796182|184402933|EQUIVALENCE|The corresponding 90% confidence intervals equivalence criteria was (80%, 125%) acceptance range.|Ratio|88.07|||||TWO_SIDED|90.0|80.99|95.76||||||||95.76|80.99|
92250399|NCT03796182|184402935|EQUIVALENCE|The corresponding 90% confidence intervals equivalence criteria was (80%, 125%) acceptance range.|Ratio|94.25|||||TWO_SIDED|90.0|88.19|100.73||||||||100.73|88.19|
92250400|NCT04682353|184402945|OTHER||Geometric Mean Ratio|0.976|||||TWO_SIDED|90.0|0.748|1.274||||||||1.274|0.748|
92250401|NCT04682353|184402945|OTHER||Geometric Mean Ratio|1.226|||||TWO_SIDED|90.0|0.94|1.598||||||||1.598|0.940|
92283308|NCT01029353|184470421|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.86, 95% credible interval of (0.64, 1.16).|||
92250402|NCT04682353|184402945|OTHER||Geometric Mean Ratio|1.817|||||TWO_SIDED|90.0|1.38|2.392||||||||2.392|1.380|
92250403|NCT04682353|184402947|OTHER||Geometric Mean Ratio|1.202|||||TWO_SIDED|90.0|0.96|1.506||||||||1.506|0.960|
92250404|NCT04682353|184402947|OTHER||Geometric Mean Ratio|1.393|||||TWO_SIDED|90.0|1.07|1.815||||||||1.815|1.070|
92250405|NCT04682353|184402947|OTHER||Geometric Mean Ratio|2.301|||||TWO_SIDED|90.0|1.806|2.933||||||||2.933|1.806|
92250406|NCT04682353|184402948|OTHER||Geometric Mean Ratio|1.699|||||TWO_SIDED|90.0|0.921|3.135||||||||3.135|0.921|
92250407|NCT04682353|184402948|OTHER||Geometric Mean Ratio|2.364|||||TWO_SIDED|90.0|1.273|4.39||||||||4.390|1.273|
92250408|NCT04682353|184402948|OTHER||Geometric Mean Ratio|3.748|||||TWO_SIDED|90.0|2.033|6.908||||||||6.908|2.033|
92250409|NCT04682353|184402949|OTHER||Geometric Mean Ratio|1.904|||||TWO_SIDED|90.0|0.886|4.093||||||||4.093|0.886|
92250410|NCT04682353|184402949|OTHER||Geometric Mean Ratio|3.317|||||TWO_SIDED|90.0|1.585|6.942||||||||6.942|1.585|
92250411|NCT04682353|184402949|OTHER||Geometric Mean Ratio|5.824|||||TWO_SIDED|90.0|2.796|12.135||||||||12.135|2.796|
92250412|NCT04682353|184402950|OTHER||Geometric Mean Ratio|1.095|||||TWO_SIDED|90.0|0.92|1.302||||||||1.302|0.920|
92250413|NCT04682353|184402950|OTHER||Geometric Mean Ratio|1.415|||||TWO_SIDED|90.0|1.148|1.744||||||||1.744|1.148|
92250414|NCT04682353|184402950|OTHER||Geometric Mean Ratio|2.017|||||TWO_SIDED|90.0|1.692|2.405||||||||2.405|1.692|
92250415|NCT04682353|184402951|OTHER||Geometric Mean Ratio|1.112|||||TWO_SIDED|90.0|0.948|1.303||||||||1.303|0.948|
92250416|NCT04682353|184402951|OTHER||Geometric Mean Ratio|1.439|||||TWO_SIDED|90.0|1.174|1.762||||||||1.762|1.174|
92250417|NCT04682353|184402951|OTHER||Geometric Mean Ratio|2.075|||||TWO_SIDED|90.0|1.751|2.459||||||||2.459|1.751|
92250418|NCT04682353|184402952|OTHER||Geometric Mean Ratio|1.115|||||TWO_SIDED|90.0|0.993|1.252||||||||1.252|0.993|
92250419|NCT04682353|184402952|OTHER||Geometric Mean Ratio|1.53|||||TWO_SIDED|90.0|1.277|1.833||||||||1.833|1.277|
92250420|NCT04682353|184402952|OTHER||Geometric Mean Ratio|2.14|||||TWO_SIDED|90.0|1.888|2.425||||||||2.425|1.888|
92250421|NCT02193828|184402989|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||For surface area||||<.0001
92183091|NCT02434328|184264740|OTHER||Difference in proportions|-15.9|||||TWO_SIDED|95.0|-22.4|-10.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-10.4|-22.4|
92250422|NCT02193828|184402989|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||For surface area||||<.0001
92250423|NCT02193828|184402989|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||For surface area||||<.0001
92250424|NCT02193828|184402989|SUPERIORITY_OR_OTHER|||||||0.0713|TWO_SIDED||||||ANOVA|||For surface area||||.0713
92250425|NCT02193828|184402989|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANOVA|||For volume||||.0002
92250426|NCT02193828|184402989|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANOVA|||For volume||||.0001
92283309|NCT01029353|184470422|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.69|1.36|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.36|0.69|
92283310|NCT01029353|184470422|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.92, 95% credible interval of (0.68, 1.25).|||
92250427|NCT02193828|184402989|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANOVA|||For volume||||.0001
92250428|NCT02193828|184402989|SUPERIORITY_OR_OTHER|||||||0.0446|TWO_SIDED||||||ANOVA|||For volume||||.0446
92250429|NCT02193828|184402990|SUPERIORITY_OR_OTHER|||||||0.2431|TWO_SIDED||||||ANOVA|||For surface area||||.2431
92250430|NCT02193828|184402990|SUPERIORITY_OR_OTHER|||||||0.0625|TWO_SIDED||||||ANOVA|||For surface area||||.0625
92250431|NCT02193828|184402990|SUPERIORITY_OR_OTHER|||||||0.3409|TWO_SIDED||||||ANOVA|||For surface area||||.3409
92250432|NCT02193828|184402990|SUPERIORITY_OR_OTHER|||||||0.704|TWO_SIDED||||||ANOVA|||For surface area||||.7040
92250433|NCT02193828|184402990|SUPERIORITY_OR_OTHER|||||||0.3556|TWO_SIDED||||||ANOVA|||For volume||||0.3556
92250434|NCT02193828|184402990|SUPERIORITY_OR_OTHER|||||||0.1275|TWO_SIDED||||||ANOVA|||For volume||||.1275
92250435|NCT02193828|184402990|SUPERIORITY_OR_OTHER|||||||0.7883|TWO_SIDED||||||ANOVA|||For volume||||.7883
92250436|NCT02193828|184402990|SUPERIORITY_OR_OTHER|||||||0.9123|TWO_SIDED||||||ANOVA|||For volume||||.9123
92250437|NCT02193828|184402991|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Kruskal-Wallis|||||||.0002
92250438|NCT02193828|184402991|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<.0001
92250439|NCT02193828|184402991|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0002
92250440|NCT02193828|184402991|SUPERIORITY_OR_OTHER|||||||0.0139|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0139
92250441|NCT02193828|184402992|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||ANOVA|||||||.0004
92250442|NCT02193828|184402992|SUPERIORITY_OR_OTHER|||||||0.0075|TWO_SIDED||||||ANOVA|||||||.0075
92250443|NCT02193828|184402992|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||||||<.0001
92250444|NCT02193828|184402992|SUPERIORITY_OR_OTHER|||||||0.0031|TWO_SIDED||||||ANOVA|||||||.0031
92183092|NCT02434328|184264740|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-8.5|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||3.1|-8.5|
92250445|NCT02193828|184402993|SUPERIORITY_OR_OTHER|||||||0.3135|TWO_SIDED||||||ANOVA|||||||.3135
92250446|NCT02193828|184402993|SUPERIORITY_OR_OTHER|||||||0.7249|TWO_SIDED||||||ANOVA|||||||.7249
92250447|NCT02193828|184402993|SUPERIORITY_OR_OTHER|||||||0.1573|TWO_SIDED||||||ANOVA|||||||.1573
92250448|NCT02193828|184402993|SUPERIORITY_OR_OTHER|||||||0.1234|TWO_SIDED||||||ANOVA|||||||.1234
92250449|NCT02193828|184402994|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||Kruskal-Wallis|||||||.0006
92250450|NCT02193828|184402994|SUPERIORITY_OR_OTHER|||||||0.0014|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0014
92250451|NCT02193828|184402994|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0012
92250452|NCT02193828|184402994|SUPERIORITY_OR_OTHER|||||||0.1298|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.1298
92250453|NCT02193828|184402995|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED||||||Kruskal-Wallis|||||||.0048
92250454|NCT02193828|184402995|SUPERIORITY_OR_OTHER|||||||0.0034|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0034
92183093|NCT02434328|184264740|OTHER||Difference in proportions|-9.0|||||TWO_SIDED|95.0|-15.7|-2.9|||Regression, Logistic|Hypothesis testing not pre-specified.|Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||-2.9|-15.7|
92250455|NCT02193828|184402995|SUPERIORITY_OR_OTHER|||||||0.0079|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0079
92250456|NCT02193828|184402995|SUPERIORITY_OR_OTHER|||||||0.3216|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.3216
92250457|NCT02193828|184402996|SUPERIORITY_OR_OTHER|||||||0.0065|TWO_SIDED||||||Fisher Exact|||||||.0065
92250458|NCT02193828|184402996|SUPERIORITY_OR_OTHER|||||||0.0349|TWO_SIDED||||||Fisher Exact|||||||.0349
92250459|NCT02193828|184402996|SUPERIORITY_OR_OTHER|||||||0.0033|TWO_SIDED||||||Fisher Exact|||||||.0033
92250460|NCT02193828|184402996|SUPERIORITY_OR_OTHER|||||||0.3423|TWO_SIDED||||||Fisher Exact|||||||.3423
92183094|NCT02434328|184264740|OTHER||Difference in proportions|-3.9|||||TWO_SIDED|95.0|-9.8|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||2.2|-9.8|
92250461|NCT01313208|184402997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.055|TWO_SIDED|95.0|0.99|3.41|||Mantel Haenszel|P-value from Mantel-Haenszel test stratified by participant's baseline methotrexate use (yes or no).|Etanercept/Placebo|||3.41|0.99|0.055
92176621|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.767||||0.0621|TWO_SIDED|95.0|-1.559|0.025|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.025|-1.559|0.0621
92250462|NCT01412060|184403040|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45||||0.001|TWO_SIDED|95.0|0.28|0.73|||Log Rank||Hazard ratio (cariprazine 3-9 mg vs placebo) is based on Cox proportional hazards regression model, with treatment group as an explanatory variable.|||0.73|0.28|0.0010
92250463|NCT01183312|184403041|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||wilcoxon signed rank (paired)|||||||0.77
92250464|NCT01183312|184403042|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.51
92250465|NCT01183312|184403043|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.32
92250466|NCT01183312|184403044|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.56
92182675|NCT02909959|184264469|EQUIVALENCE|Statistical significance was measured at the 0.05 alpha level for a two-sided test, so the rejection region for a normally distributed T-score was +/-1.96\*SE(Diff), where SE(Diff) is the estimated standard error of the difference between the LS mean of sulforaphane and LS mean of the placebo group.|Mean Difference (Final Values)|2.32|STANDARD_ERROR_OF_MEAN|3.01||0.442|TWO_SIDED|||||The test was considered statistically significant if the p-value \< 0.05.|Mixed Models Analysis|Mixed-effects model with random intercept and unstructured covariance matrix from baseline to week 16.|This analysis compares LS Mean Sulforaphane - LS Mean Placebo.|The null hypothesis is that the least-square mean of sulforaphane's SRS-2 T-score minus the least-square mean of placebo group's T-score is 0.||||0.442
92250467|NCT01183312|184403045|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.14
92250468|NCT01183312|184403046|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.89
92250469|NCT01183312|184403047|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.13
92250470|NCT00605072|184403120|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||p-value for between group comparison (group\*visit)|Mixed Models Analysis|Adjusted for baseline AGE and Mini-Mental-State-Examination||||||0.008
92250471|NCT00605072|184403121|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Mixed Models Analysis|adjusted for age||||||0.74
92250472|NCT00605072|184403122|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||Mixed Models Analysis|Adjusted for age at baseline||||||0.81
92250473|NCT00605072|184403123|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Mixed Models Analysis|||||||0.87
92250474|NCT00605072|184403124|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Mixed Models Analysis|||||||0.79
92250475|NCT02259127|184403169|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.08|||=|0.004|TWO_SIDED|95.0|-0.14|-0.03|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (primary endpoint) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Primary: Diff in adj. KM estimates (\>=14kg)~Number of subjects included in analysis: 707~Analysis specification: Pre-specified"||-0.03|-0.14|= 0.004
92250476|NCT02259127|184403169|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.18|||=|0.057|TWO_SIDED|95.0|-0.36|0.02|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (primary endpoint) was estimated using Kaplan-Meier curves adjusted for trial cohort (ODYSSEY A or ODYSSEY B)|"Statistical Analysis Title: Diff in adj. KM estimates (Frequentist \<14kg)~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||0.02|-0.36|=0.057
92250477|NCT02259127|184403169|NON_INFERIORITY|Bayesian estimation was used for the primary analysis of the difference in treatment failure by 96 weeks by arm in \<14kg cohort. An informative prior distribution was used based on the treatment effect observed in \>=14kg cohort, with relative weight defined by clinical opinion, solicited prior to the main trial results.|Risk Difference (RD)|-0.1||||0.02|TWO_SIDED|95.0|-0.19|-0.02|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (primary endpoint) was estimated using Kaplan-Meier curves adjusted for trial cohort (ODYSSEY A or ODYSSEY B)|"Statistical Analysis Title: Primary: diff in adj. KM estimates (Bayesian \<14kg)~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||-0.02|-0.19|0.02
92265128|NCT01050998|184431813|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-1.17|-0.35|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.35|-1.17|<0.001
92265129|NCT01050998|184431813|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.209||0.046|TWO_SIDED|95.0|-0.83|-0.01|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.01|-0.83|0.046
92183095|NCT02434328|184264740|OTHER||Difference in proportions|-15.1|||||TWO_SIDED|95.0|-21.3|-8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-8.4|-21.3|
92250478|NCT02259127|184403169|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.12||||0.003|TWO_SIDED|95.0|-0.21|-0.04|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (primary endpoint) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY A\>=14kg)~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||-0.04|-0.21|0.003
92176622|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.447||||0.5259|TWO_SIDED|95.0|-1.246|0.352|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.352|-1.246|0.5259
92250479|NCT02259127|184403169|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.05||||0.22|TWO_SIDED|95.0|-0.12|0.03|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (primary endpoint) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||0.03|-0.12|0.22
92250480|NCT02259127|184403170|SUPERIORITY||Risk Difference (RD)|5.0|||=|0.1377|TWO_SIDED|95.0|-1.0|11.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Number of subjects included in analysis: 665~Analysis Specification: Pre-specified"||11|-1|= 0.1377
92250481|NCT02259127|184403170|SUPERIORITY||Risk Difference (RD)|-1.0|||=|0.8895|TWO_SIDED|95.0|-10.0|8.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted difference (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 286~Analysis Specification: Pre-specified"||8|-10|= 0.8895
92250482|NCT02259127|184403170|SUPERIORITY||Risk Difference (RD)|9.0|||=|0.0435|TWO_SIDED|95.0|0.4|17.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 381~Analysis Specification: Pre-specified"||17|0.4|=0.0435
92250483|NCT02259127|184403170|SUPERIORITY||Risk Difference (RD)|26.0||||0.021|TWO_SIDED|95.0|6.0|47.0|||Regression, Logistic|||||47|6|0.021
92250484|NCT02259127|184403171|SUPERIORITY||Risk Difference (RD)|3.0|||=|0.2256|TWO_SIDED|95.0|-2.0|8.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Number of subjects included in analysis: 670~Analysis Specification: Pre-specified"||8|-2|= 0.2256
92250485|NCT02259127|184403171|SUPERIORITY||Risk Difference (RD)|0.0|||=|0.9536|TWO_SIDED|95.0|-8.0|7.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 286~Analysis Specification: Pre-specified"||7|-8|= 0.9536
92250486|NCT02259127|184403171|SUPERIORITY||Risk Difference (RD)|6.0|||=|0.1104|TWO_SIDED|95.0|-1.0|12.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 384~Analysis Specification: Pre-specified"||12|-1|= 0.1104
92250487|NCT02259127|184403171|SUPERIORITY||Risk Difference (RD)|19.0||||0.038|TWO_SIDED|95.0|2.0|37.0|||Regression, Logistic|||||37|2|0.038
92283311|NCT01029353|184470423|SUPERIORITY||Risk Ratio (RR)|0.47|||||TWO_SIDED|95.0|0.35|0.63|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||0.63|0.35|
92250488|NCT02259127|184403172|SUPERIORITY||Mean Difference (Final Values)|35.0|||=|0.144|TWO_SIDED|95.0|-12.0|82.0|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Statistical analysis description: Linear regression of CD4 at week 96, adjusted for randomised arm, baseline CD4 and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||82|-12|= 0.144
92250489|NCT02259127|184403172|SUPERIORITY||Mean Difference (Final Values)|44.0||||0.185|TWO_SIDED|95.0|-21.0|109.0|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Statistical analysis description: Linear regression of CD4 at week 96, adjusting for randomised arm, baseline CD4 and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||109|-21|0.185
92250490|NCT02259127|184403172|SUPERIORITY||Mean Difference (Final Values)|27.0|||=|0.427|TWO_SIDED|95.0|-39.0|93.0|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Statistical analysis description: Linear regression of CD4 at week 96, adjusting for randomised arm, baseline CD4 and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||93|-39|= 0.427
92250491|NCT02259127|184403172|SUPERIORITY||Median Difference (Final Values)|30.0||||0.86|TWO_SIDED|95.0|-308.0|368.0|||Regression, Linear|||||368|-308|0.86
92250492|NCT02259127|184403173|SUPERIORITY||Mean Difference (Final Values)|-15.1|||<|0.001|TWO_SIDED|95.0|-19.0|-11.1|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Statistical analysis description: Linear regression of total cholesterol at week 96, adjusting for randomised arm, baseline total cholesterol and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||-11.1|-19|< 0.001
92265130|NCT01050998|184431813|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.212|<|0.001|TWO_SIDED|95.0|-1.22|-0.38|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.38|-1.22|<0.001
92265131|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.23||0.086|TWO_SIDED|95.0|-0.85|0.06|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.06|-0.85|0.086
92265132|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.225||0.016|TWO_SIDED|95.0|-0.99|-0.1|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||-0.10|-0.99|0.016
92265133|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.225||0.059|TWO_SIDED|95.0|-0.87|0.02|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.02|-0.87|0.059
92250493|NCT02259127|184403173|SUPERIORITY||Mean Difference (Final Values)|-24.4|||=|0.0032|TWO_SIDED|95.0|-40.3|-8.5|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (\<14kg)~Statistical analysis description: Linear regression of total cholesterol at week 96, adjusting for randomised arm, baseline total cholesterol and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||-8.5|-40.3|= 0.0032
92250494|NCT02259127|184403173|SUPERIORITY||Mean Difference (Final Values)|-17.5|||<|0.001|TWO_SIDED|95.0|-23.9|-11.1|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Statistical analysis description: Linear regression of total cholesterol at week 96, adjusting for randomised arm, baseline total cholesterol and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||-11.1|-23.9|< 0.001
92250495|NCT02259127|184403173|SUPERIORITY||Mean Difference (Final Values)|-13.4|||<|0.001|TWO_SIDED|95.0|-18.5|-8.4|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Statistical analysis description: Linear regression of total cholesterol at week 96, adjusting for randomised arm, baseline total cholesterol and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||-8.4|-18.5|< 0.001
92250496|NCT02259127|184403174|SUPERIORITY||Hazard Ratio (HR)|0.87|||=|0.53|TWO_SIDED|95.0|0.55|1.36|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\>=14kg)~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||1.36|0.55|= 0.53
92250497|NCT02259127|184403174|SUPERIORITY||Hazard Ratio (HR)|1.08|||=|0.86|TWO_SIDED|95.0|0.47|2.49|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\<14kg)~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||2.49|0.47|= 0.86
92250498|NCT02259127|184403174|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.52|TWO_SIDED|95.0|0.48|1.46|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||1.46|0.48|= 0.52
92250499|NCT02259127|184403174|SUPERIORITY||Hazard Ratio (HR)|0.93|||=|0.86|TWO_SIDED|95.0|0.42|2.04|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||2.04|0.42|= 0.86
92250500|NCT02259127|184403175|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.24|TWO_SIDED|95.0|0.61|1.13|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\>=14kg)~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||1.13|0.61|= 0.24
92250501|NCT02259127|184403175|SUPERIORITY||Hazard Ratio (HR)|0.93|||=|0.83|TWO_SIDED|95.0|0.5|1.74|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\<14kg)~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||1.74|0.5|= 0.83
92250502|NCT02259127|184403175|SUPERIORITY||Hazard Ratio (HR)|1.13|||=|0.57|TWO_SIDED|95.0|0.75|1.7|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||1.7|0.75|= 0.57
92250503|NCT02259127|184403175|SUPERIORITY||Hazard Ratio (HR)|0.54|||=|0.01|TWO_SIDED|95.0|0.33|0.88|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||0.88|0.33|= 0.01
92250504|NCT02259127|184403176|SUPERIORITY||Hazard Ratio (HR)|0.29|||=|0.01|TWO_SIDED|95.0|0.11|0.77|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\>=14kg)~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||0.77|0.11|= 0.01
92250505|NCT02259127|184403176|SUPERIORITY||Hazard Ratio (HR)|0.35|||=|0.13|TWO_SIDED|95.0|0.09|1.33|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||1.33|0.09|= 0.13
92250506|NCT02259127|184403176|SUPERIORITY||Hazard Ratio (HR)|0.22||||0.055|TWO_SIDED|95.0|0.05|1.03|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||1.03|0.05|0.055
92250507|NCT02259127|184403177|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.06|||=|0.003|TWO_SIDED|95.0|-0.1|-0.02|||Bootstrap method||The probability of having virological or clinical treatment failure by 48 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (\>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 48 weeks after randomisation.~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||-0.02|-0.1|= 0.003
92183096|NCT02434328|184264740|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-6.1|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||6.2|-6.1|
92250508|NCT02259127|184403177|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.07|||=|0.035|TWO_SIDED|95.0|-0.13|-0.01|||Bootstrap method||The probability of having virological or clinical treatment failure by 48 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY A \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 48 weeks after randomisation.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||-0.01|-0.13|= 0.035
92176623|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-1.085|||<|0.0001|TWO_SIDED|95.0|-1.736|-0.435|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.435|-1.736|<.0001
92176624|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-1.112|||<|0.0001|TWO_SIDED|95.0|-1.532|-0.693|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.693|-1.532|<.0001
92176625|NCT04800211|184247041|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.054||||0.8248|TWO_SIDED|95.0|-0.535|0.427|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.427|-0.535|0.8248
92176626|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|2.821||||0.0002|TWO_SIDED|95.0|1.369|4.273|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||4.273|1.369|0.0002
92176627|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|3.468|||<|0.0001|TWO_SIDED|95.0|1.85|5.086|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||5.086|1.850|<.0001
92176628|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|2.245||||0.0022|TWO_SIDED|95.0|0.812|3.679|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||3.679|0.812|0.0022
92183097|NCT02434328|184264740|OTHER||Difference in proportions|-16.6|||||TWO_SIDED|95.0|-22.6|-10.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-10.5|-22.6|
92250509|NCT02259127|184403177|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.05|||=|0.039|TWO_SIDED|95.0|-0.11|-0.004|||Bootstrap method||The probability of having virological or clinical treatment failure by 48 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY B \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 48 weeks after randomisation.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||-0.004|-0.11|= 0.039
92250510|NCT02259127|184403177|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.18||||0.057|TWO_SIDED|95.0|-0.36|0.02|||Other [Bootstrap method]|||||0.02|-0.36|0.057
92250511|NCT02259127|184403178|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.09|||=|0.003|TWO_SIDED|95.0|-0.16|-0.04|||Bootstrap method||The probability of having virological or clinical treatment failure by 144 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (\>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 144 weeks after randomisation.~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||-0.04|-0.16|= 0.003
92250512|NCT02259127|184403178|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.12|||=|0.009|TWO_SIDED|95.0|-0.21|-0.03|||Bootstrap method||The probability of having virological or clinical treatment failure by 144 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY A \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 144 weeks after randomisation.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||-0.03|-0.21|= 0.009
92250513|NCT02259127|184403178|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.08|||=|0.079|TWO_SIDED|95.0|-0.16|0.01|||Bootstrap method||The probability of having virological or clinical treatment failure by 144 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY B \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 144 weeks after randomisation.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||0.01|-0.16|= 0.079
92250514|NCT02259127|184403179|SUPERIORITY||Hazard Ratio (HR)|1.0|||=|0.993|TWO_SIDED|95.0|0.38|2.68|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\>=14kg)~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||2.68|0.38|= 0.993
92283312|NCT01029353|184470423|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.51, 95% credible interval of (0.37, 0.69).|||
92250515|NCT02259127|184403179|SUPERIORITY||Hazard Ratio (HR)|0.5|||=|0.33|TWO_SIDED|95.0|0.13|2.0|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\<14kg)~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||2|0.13|= 0.33
92250516|NCT02259127|184403179|SUPERIORITY||Hazard Ratio (HR)|1.01|||=|0.991|TWO_SIDED|95.0|0.32|3.12|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||3.12|0.32|= 0.991
92250517|NCT02259127|184403179|SUPERIORITY||Hazard Ratio (HR)|1.0|||=|0.997|TWO_SIDED|95.0|0.14|7.13|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||7.13|0.14|= 0.997
92250518|NCT02259127|184403180|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.07|||=|0.015|TWO_SIDED|95.0|-0.12|-0.01|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (per protocol analysis) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (\>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 96 weeks after randomisation.~Number of subjects included in analysis: 677~Analysis Specification: Pre-specified"||-0.01|-0.12|= 0.015
92265134|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.227||0.002|TWO_SIDED|95.0|-1.14|-0.25|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||-0.25|-1.14|0.002
92265135|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.241||0.107|TWO_SIDED|95.0|-0.87|0.09|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||0.09|-0.87|0.107
92283313|NCT01029353|184470424|SUPERIORITY||Risk Ratio (RR)|1.57|||||TWO_SIDED|95.0|1.04|2.36|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||2.36|1.04|
92183098|NCT02434328|184264740|OTHER||Difference in proportions|-1.1|||||TWO_SIDED|95.0|-7.0|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||5.1|-7.0|
92250519|NCT02259127|184403180|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.172|||=|0.075|TWO_SIDED|95.0|-0.362|0.029|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (per protocol analysis) was estimated using Kaplan-Meier curves adjusted for trial cohort (ODYSSEY A or ODYSSEY B)|"Statistical Analysis Title: Adjusted difference (frequentist \<14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 96 weeks after randomisation.~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||0.029|-0.362|= 0.075
92250520|NCT02259127|184403180|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.126|||=|0.004|TWO_SIDED|95.0|-0.21|-0.036|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (per protocol analysis) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 96 weeks after randomisation.~Number of subjects included in analysis: 295~Analysis Specification: Pre-specified"||-0.036|-0.21|= 0.004
92283314|NCT01029353|184470424|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.45, 95% credible interval of (0.92, 2.31).|||
92283315|NCT01029353|184470425|SUPERIORITY||Risk Ratio (RR)|1.58|||||TWO_SIDED|95.0|0.71|3.5|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||3.50|0.71|
92183099|NCT02434328|184264740|OTHER||Difference in proportions|-11.0|||||TWO_SIDED|95.0|-17.4|-5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-5.0|-17.4|
92250521|NCT02259127|184403180|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.023|||=|0.547|TWO_SIDED|95.0|-0.096|0.056|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (per protocol analysis) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 96 weeks after randomisation.~Number of subjects included in analysis: 382~Analysis Specification: Pre-specified"||0.056|-0.096|= 0.547
92250522|NCT02259127|184403195|SUPERIORITY||Mean Difference (Final Values)|1.0|||=|0.004|TWO_SIDED|95.0|0.3|1.7|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||1.7|0.3|= 0.004
92250523|NCT02259127|184403195|SUPERIORITY||Mean Difference (Final Values)|1.4|||=|0.024|TWO_SIDED|95.0|0.2|2.5|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Statistical analysis description: Linear regression of weight at week 96, adjusting for randomised arm, baseline weight and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||2.5|0.2|= 0.024
92250524|NCT02259127|184403195|SUPERIORITY||Mean Difference (Final Values)|0.8|||=|0.075|TWO_SIDED|95.0|-0.1|1.6|||Regression, Linear|||"Statistical Analysis Title: Adjusting Difference (ODYSSEY B \>=14kg)~Statistical analysis description: Linear regression of weight at week 96, adjusting for randomised arm, baseline weight and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||1.6|-0.1|= 0.075
92250525|NCT02259127|184403195|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.67|TWO_SIDED|95.0|-0.8|0.5|||Regression, Linear|||||0.5|-0.8|0.67
92250526|NCT02259127|184403196|SUPERIORITY||Mean Difference (Final Values)|0.13|||=|0.036|TWO_SIDED|95.0|0.01|0.25|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Statistical analysis description: Linear regression of BMI-for-age at week 96, adjusting for randomised arm, baseline BMI-for-age and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||0.25|0.01|= 0.036
92250527|NCT02259127|184403196|SUPERIORITY||Mean Difference (Final Values)|0.17|||=|0.092|TWO_SIDED|95.0|-0.03|0.36|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Statistical analysis description: Linear regression of BMI-for-age at week 96, adjusting for randomised arm, baseline BMI-for-age and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||0.36|-0.03|=0.092
92250528|NCT02259127|184403196|SUPERIORITY||Mean Difference (Final Values)|0.1|||=|0.176|TWO_SIDED|95.0|-0.05|0.25|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Statistical analysis description: Linear regression of BMI-for-age at week 96, adjusting for randomised arm, baseline BMI-for-age and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||0.25|-0.05|=0.176
92250529|NCT02259127|184403196|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.5|TWO_SIDED|95.0|-1.1|0.5|||Regression, Linear|||||0.5|-1.1|0.50
92250530|NCT00719862|184403197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|STANDARD_DEVIATION|0.3782||0.005||95.0|-1.8|-0.31|||ANOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.31|-1.80|0.005
92250531|NCT00719862|184403198|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.2987|STANDARD_DEVIATION|0.1881||0.112||95.0|-0.67|0.07|||ANOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||0.07|-0.67|0.112
92176629|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|3.329|||<|0.0001|TWO_SIDED|95.0|1.768|4.891|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||4.891|1.768|<.0001
92250532|NCT00719862|184403199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8617|STANDARD_DEVIATION|0.3803||0.023||95.0|-1.61|-0.12|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.12|-1.61|0.023
92250533|NCT00719862|184403200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7395|STANDARD_DEVIATION|0.3305||0.025||95.0|-1.39|-0.09|||ANOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline||-0.09|-1.39|0.025
92283316|NCT01029353|184470425|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.31, 95% credible interval of (0.66, 2.62).|||
92250534|NCT00719862|184403201|SUPERIORITY_OR_OTHER|||||||0.051|||||||ANOVA|||Change from baseline||||0.051
92250535|NCT01998269|184403217|SUPERIORITY_OR_OTHER||correlation coefficient|0.6|||<|0.001|TWO_SIDED||||||Correlation||r= 0.60, p-value\<0.001. P values below 0.05 are considered statistically significant in this study.|We examined correlations between patient scores on the Measure of Medication Self-Management (MeDS) and the 8-item Morisky Medication Adherence questionnaire.||||<.001
92176630|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|3.399|||<|0.0001|TWO_SIDED|95.0|2.252|4.545|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||4.545|2.252|<.0001
92250536|NCT02293902|184403227|SUPERIORITY||Odds Ratio (OR)|12.185|||<|0.0001|TWO_SIDED|95.0|5.583|26.594||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test stratified by prior biologic use (Yes, No) and weight at screening (\<55 kg, \>=55 kg).|Placebo vs. Sarilumab 150 mg|26.594|5.583|<0.0001
92176631|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|1.25||||0.0761|TWO_SIDED|95.0|-0.132|2.633|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||2.633|-0.132|0.0761
92183100|NCT02434328|184264740|OTHER||Difference in proportions|-5.3|||||TWO_SIDED|95.0|-11.3|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||0.7|-11.3|
92250537|NCT02293902|184403227|SUPERIORITY||Odds Ratio (OR)|7.227|||<|0.0001|TWO_SIDED|95.0|3.446|15.158||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using CMH test stratified by prior biologic use (Yes, No) and weight at screening (\<55 kg, \>=55 kg).|Placebo vs. Sarilumab 200 mg|15.158|3.446|<0.0001
92250538|NCT01135394|184403237|OTHER|The genes with p-values below 10\^-6 were identified|Pearson correlation p-value|0.0000001|||<|1e-07|TWO_SIDED|||||The genes with p-values below 10\^-6 were identified|Genes with p-values below 10^-6|||After the change (end-of-treatment minus baseline) in HOMA-IR index had been calculated for each subject, the change (end-of-treatment minus baseline) in expression of each of approximately 45,000 transcripts contained in a human gene array was calculated. A Pearson correlation p-value was calculated for the correlation between change in gene expression and change in HOMA-IR index, with the purpose of identifying the genes whose expression changed in concert with changes in HOMA-IR index.|The genes with P-values below 10\^-6 were identified|||<0.0000001
92250539|NCT00438464|184403309|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92250540|NCT00438464|184403310|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.003
92250541|NCT00438464|184403311|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92250542|NCT00438464|184403312|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.805
92250543|NCT00438464|184403313|SUPERIORITY_OR_OTHER|||||||0.254|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.254
92250544|NCT00438464|184403314|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VEGF3, Within GG3||||0.70
92250545|NCT00438464|184403314|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Estrogen receptor beta (ERβ), Within GG3||||0.38
92250546|NCT00438464|184403314|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Androgen receptor (AR), Within GG3||||0.41
92176632|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.778||||0.0211|TWO_SIDED|95.0|0.269|3.286|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||3.286|0.269|0.0211
92176633|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|1.57||||0.3841|TWO_SIDED|95.0|-0.951|4.092|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||4.092|-0.951|0.3841
92250547|NCT00438464|184403314|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ki-67 protein, Within GG3||||0.75
92250548|NCT00438464|184403314|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||3-oxo-5α-steroid 4-dehydrogenase 2 (SRD5A2), Within GG3||||0.57
92250549|NCT00438464|184403314|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ubiquitin-conjugating enzyme E2C (UBE2C), Within GG3||||0.12
92250550|NCT00438464|184403314|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Cleaved Caspase 3 (Caspase), Within GG3||||0.03
92183101|NCT02434328|184264740|OTHER||Difference in proportions|-12.0|||||TWO_SIDED|95.0|-18.9|-5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||-5.9|-18.9|
92250551|NCT00438464|184403315|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Vascular Epithelial Growth Factor (VEGF3), Within GG4||||0.45
92250552|NCT00438464|184403315|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Estrogen receptor beta (ERβ), Within GG4||||0.83
92250553|NCT00438464|184403315|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Androgen receptor (AR), Within GG4||||0.04
92250554|NCT00438464|184403315|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ki-67 protein, Within GG4||||0.80
92250555|NCT00438464|184403315|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||3-oxo-5α-steroid 4-dehydrogenase 2 (SRD5A2), Within GG4||||0.61
92250556|NCT00438464|184403315|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||UBE2C, Within GG4||||0.86
92250557|NCT00438464|184403315|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Caspase, Within GG4||||0.02
92250558|NCT00438464|184403320|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VEGF3, Within Finasteride Arm||||0.84
92250559|NCT00438464|184403320|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||ERβ, Within Finasteride Arm||||0.36
92250560|NCT00438464|184403320|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||AR, Within Finasteride||||0.09
92250561|NCT00438464|184403320|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ki-67 protein, Within Finasteride Arm||||0.46
92250562|NCT00438464|184403320|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||SRD5A2, Within Finasteride Arm||||0.88
92250563|NCT00438464|184403320|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||UBE2C, Within Finasteride Arm||||0.18
92250564|NCT00438464|184403320|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Caspase, Within Finasteride Arm||||<0.001
92183102|NCT02434328|184264740|OTHER||Difference in proportions|-5.5|||||TWO_SIDED|95.0|-11.4|0.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||0.0|-11.4|
92250565|NCT00438464|184403321|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VEGF3, Within Placebo Arm||||0.32
92250566|NCT00438464|184403321|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||ERβ, Within Placebo Arm||||0.83
92250567|NCT00438464|184403321|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||AR, Within Placebo Arm||||0.77
92250568|NCT00438464|184403321|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ki-67 protein, Within Placebo Arm||||0.87
92250569|NCT00438464|184403321|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||SRD5A2, Within Placebo Arm||||0.91
92250570|NCT00438464|184403321|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||UBE2C, Within Placebo Arm||||0.90
92250571|NCT00438464|184403321|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Caspase, Within Placebo Arm||||<0.001
92250572|NCT03943446|184403323|SUPERIORITY||Estimated Difference in ER Rate|-0.1|||=|0.59|TWO_SIDED|95.0|-0.44|0.23|||Fisher Exact|||||0.23|-0.44|=0.590
92250573|NCT03943446|184403323|SUPERIORITY||Estimated difference in ERR|-0.01|||=|1|TWO_SIDED|95.0|-0.34|0.31|||Fisher Exact|||||0.31|-0.34|=1.000
92250574|NCT05355818|184403329|SUPERIORITY||Diff. in proportion of responders in %|37.9|||||TWO_SIDED|||||There are no p-values when performing a Bayesian analysis. Instead, the probability that the difference in the posterior distributions is \> 0 is used.|Bayesian|Historical information from LP0133-1401 (NCT04871711)/LP0133-1402 (NCT04872101) as prior information is used.|There is no confidence interval when performing Bayesian analyses - instead a 95% credibility interval is used: 13.5% to 58.2%.|Based on the primary estimand 'composite'. Data considered non-response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data imputed as non-response.||||
92250575|NCT05355818|184403330|SUPERIORITY||Diff. in proportion of responders in %|36.4|||||TWO_SIDED|||||There are no p-values when performing a Bayesian analysis. Instead, the probability that the difference in the posterior distributions is \> 0 is used.|Bayesian||There is no confidence interval when performing Bayesian analyses - instead a 95% credibility interval is used: 12.3% to 59.9%.|Primary estimand: Composite. Data considered non-response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data imputed as non-response.||||
92250576|NCT05355818|184403331|SUPERIORITY||Diff. in proportion of responders in %|31.7|||||TWO_SIDED|||||There are no p-values when performing a Bayesian analysis. Instead, the probability that the difference in the posterior distributions is \> 0 is used.|Bayesian||There is no confidence interval when performing Bayesian analyses - instead a 95% credibility interval is used: 5.6% to 51.1%.|||||
92176634|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.69||||0.3934|TWO_SIDED|95.0|-1.084|4.464|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||4.464|-1.084|0.3934
92176635|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|0.995||||0.7782|TWO_SIDED|95.0|-1.505|3.494|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||3.494|-1.505|0.7782
92176636|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.552||||0.4576|TWO_SIDED|95.0|-1.171|4.274|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||4.274|-1.171|0.4576
92176637|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.621||||0.0849|TWO_SIDED|95.0|-0.224|3.466|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||3.466|-0.224|0.0849
92176638|NCT04800211|184247042|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.139||||0.9016|TWO_SIDED|95.0|-2.064|2.341|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||2.341|-2.064|0.9016
92176639|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|5.587||||0.0004|TWO_SIDED|95.0|2.511|8.662|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||8.662|2.511|0.0004
92182676|NCT02909959|184264470|EQUIVALENCE|Statistical significance was measured at the 0.05 alpha level for a two-sided test, so the rejection region for a normally distributed T-score was +/-1.96\*SE(Diff), where SE(Diff) is the estimated standard error of the difference between the LS mean of sulforaphane and LS mean of the placebo group.|Mean Difference (Final Values)|2.72|STANDARD_ERROR_OF_MEAN|3.05||0.373|TWO_SIDED|||||The test was considered statistically significant if the p-value \< 0.05.|Mixed Models Analysis|Mixed-effects model with random intercept and unstructured covariance matrix from baseline to week 16.|This analysis compares LS Mean Sulforaphane - LS Mean Placebo.|The null hypothesis is that the least-square mean of sulforaphane's SRS-2 T-score minus the least-square mean of placebo group's T-score is 0.||||0.373
92250577|NCT05355818|184403332|SUPERIORITY||Diff. in proportion of responders in %|31.2|||||TWO_SIDED|||||There are no p-values when performing a Bayesian analysis. Instead, the probability that the difference in the posterior distributions is \> 0 is used.|Bayesian||There is no confidence interval when performing Bayesian analyses - instead a 95% credibility interval is used: 8.7% to 49.4%|||||
92250578|NCT05355818|184403333|SUPERIORITY||Diff. in proportion of responders in %|25.1|||||TWO_SIDED|||||There are no p-values when performing a Bayesian analysis. Instead, the probability that the difference in the posterior distributions is \> 0 is used.|Bayesian||There is no confidence interval when performing Bayesian analyses - instead a 95% credibility interval is used: 3.9% to 42.3%.|Primary estimand: Composite. Data considered non-response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data imputed as non-response.||||
92250579|NCT05355818|184403334|SUPERIORITY||Risk Difference (RD)|17.47||||0.0054|TWO_SIDED|95.0|5.16|29.78|||Regression, Logistic||Risk difference estimated using logistic regression stratified by baseline IGA-CHE score.|The primary estimand using the composite strategy is used for the analysis. Data is considered non response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data is imputed as non-response.||29.78|5.16|0.0054
92250580|NCT05355818|184403335|SUPERIORITY||Risk Difference (RD)|21.21||||0.0248|TWO_SIDED|95.0|2.69|39.72|||Regression, Logistic||Risk difference estimated using logistic regression stratified by baseline IGA-CHE score.|The primary estimand using the composite strategy is used for the analysis. Data is considered non response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data is imputed as non-response.||39.72|2.69|0.0248
92250581|NCT05355818|184403336|SUPERIORITY||Risk Difference (RD)|11.08||||0.332|TWO_SIDED|95.0|-11.3|33.46|||Regression, Logistic||Risk difference estimated using logistic regression stratified by baseline IGA-CHE score.|The primary estimand using the composite strategy is used for the analysis. Data is considered non response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data is imputed as non-response.||33.46|-11.30|0.3320
92250582|NCT05355818|184403337|SUPERIORITY||Risk Difference (RD)|33.02||||0.0016|TWO_SIDED|95.0|12.51|53.52|||Regression, Logistic||Risk difference estimated using logistic regression stratified by baseline IGA-CHE score.|The primary estimand using the composite strategy is used for the analysis. Data is considered non response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data is imputed as non-response.||53.52|12.51|0.0016
92250583|NCT05355818|184403338|SUPERIORITY||Mean Difference (Net)|-2.65||||0.0038|TWO_SIDED|95.0|-4.42|-0.88|||ANCOVA|||Primary estimand: Composite. Data considered non-response by using WOCF (including the baseline value) after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data imputed using WOCF (including the baseline value).||-0.88|-4.42|0.0038
92250584|NCT00247273|184403356|NON_INFERIORITY_OR_EQUIVALENCE|In order to establish noninferiority for the primary efficacy variable at one-sided α of 2.5% with 90% power, a total of 1068 patients, 534 per treatment group, is required. This calculation is based on the following assumptions: the noninferiority margin (or delta) = 1.5%, the common SD (standard deviation) of the percent change from baseline in lumbar spine BMD at Month 12 = 4.5%, the 1 year dropout rate = 20%, and the true mean difference μD - μM = 0.5%.|Least Square (LS) Mean Difference|-0.115|||||TWO_SIDED|95.0|-0.505|0.274|||ANOVA|Fixed effects for treatment and pooled center||||0.274|-0.505|
92250585|NCT00247273|184403357|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.076|||||TWO_SIDED|95.0|-0.475|0.323|||ANOVA|Fixed effects for treatment and pooled center.||||0.323|-0.475|
92250586|NCT00247273|184403358|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0005|||||TWO_SIDED|95.0|-0.0035|0.0024|||ANOVA|Fixed effects for treatment and pooled center.||||0.0024|-0.0035|
92250587|NCT00247273|184403359|NON_INFERIORITY_OR_EQUIVALENCE|The estimates of the common SD, dropout rate at month 24 and true difference are also based on previous risedronate Phase III studies (RVN008993, RVE009093, ROE009394, HMR4003E/3001).|LS Mean Difference|-0.239|||||TWO_SIDED|95.0|-0.727|0.249|||ANOVA|Fixed effects for treatment and pooled centers.||The sample size of 1068 patients will provide approximately 90% power to demonstrate the noninferiority of the monthly regimen at month 24, using a 2% noninferiority margin and assuming a common SD of the percent change from baseline in lumbar spine BMD at month 24 of 5%, a 2-year dropout rate of 30%, and a true mean difference (uDaily-uMonthly) of 0.8%.||0.249|-0.727|
92283317|NCT01029353|184470426|SUPERIORITY|||||||||||||||||A frequentist analysis.|This analysis used model identical to other by treatment analyses for binary outcome. RR estimated from robust Poisson regression with log link, reference cell coding, center as repeated measure. RR: Initial Laparotomy over Peritoneal Drain. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates. However, adjusted RR estimates could not be calculated due to the iteration limit being excessed in PROC GENMOD.|||
92283318|NCT01029353|184470426|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.16, 95% credible interval of (0.50, 2.65).|||
92250588|NCT00247273|184403360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.085|||||TWO_SIDED|95.0|-0.609|0.439|||ANOVA|Fixed Effects for treatment \& pooled center||||0.439|-0.609|
92250589|NCT00247273|184403361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0009|||||TWO_SIDED|95.0|-0.0048|0.0029|||ANOVA|Fixed effects for treatment and pooled center.||||0.0029|-0.0048|
92250590|NCT00247273|184403362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||||TWO_SIDED|95.0|-2.83|3.28|||ANOVA|Fixed effects for treatment and pooled center.||||3.28|-2.83|
92250591|NCT00247273|184403363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.57|||||TWO_SIDED|95.0|-4.47|1.33|||ANOVA|Fixed effects for treatment and pooled center||||1.33|-4.47|
92250592|NCT00247273|184403364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.54|4.53|||ANOVA|Fixed effects for treatment and pooled center||||4.53|-2.54|
92283319|NCT01029353|184470427|SUPERIORITY||Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.34|2.2|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||2.20|0.34|
92250593|NCT00247273|184403365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.83|||||TWO_SIDED|95.0|-6.45|0.8|||ANOVA|Fixed effects for treatment and pooled center.||||0.80|-6.45|
92183103|NCT02434328|184264740|OTHER||Difference in proportions|-14.5|||||TWO_SIDED|95.0|-20.3|-8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-8.3|-20.3|
92250594|NCT00247273|184403366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.05|0.0|||ANOVA|Fixed effects for treatment and pooled center||||0.00|-0.05|
92250595|NCT00247273|184403367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.17|||||TWO_SIDED|95.0|-7.98|-0.36|||ANOVA|Fixed effects for treatment and pooled center||||-0.36|-7.98|
92250596|NCT00247273|184403368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.06|0.01|||ANOVA|Fixed effects for treatment and pooled center||||0.01|-0.06|
92250597|NCT00247273|184403369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.69|||||TWO_SIDED|95.0|-12.04|0.66|||ANOVA|Fixed effects for treatment and pooled center||||0.66|-12.04|
92176640|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.556||||0.1141|TWO_SIDED|95.0|-0.62|5.732|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||5.732|-0.620|0.1141
92176641|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|5.536||||0.0007|TWO_SIDED|95.0|2.367|8.705|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||8.705|2.367|0.0007
92176642|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|6.629|||<|0.0001|TWO_SIDED|95.0|3.68|9.577|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||9.577|3.680|<.0001
92182677|NCT00822900|184264535|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.95||||0.35|TWO_SIDED|95.0|0.85|1.06|||Regression, Generalized linear|Adjusting for injury severity, sex, and age. the binomial distribution with the log link is used to estimate treatment effect as relative risk.|A risk ratio (equivalent to the relative risk) of less than 1.00 indicating fewer favorable outcomes in the progesterone group than in the placebo group.|Test of null hypothesis (equal proportions of subjects with favorable outcome in progesterone and placebo arms) versus alternative hypothesis (unequal proportions of subjects with favorable outcome in progesterone and placebo arms). Standard multiple imputation methods are used to account for missing data. The primary outcome measure is based on the stratified dichotomy approach.||1.06|0.85|0.35
92250598|NCT00247273|184403370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-0.29|0.64|||ANOVA|Fixed effects for treatment and pooled center||||0.64|-0.29|
92250599|NCT00247273|184403371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.31|||||TWO_SIDED|95.0|-0.85|3.48|||ANOVA|Fixed effects for treatment and pooled center||||3.48|-0.85|
92250600|NCT00247273|184403372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.45|0.7|||ANOVA|Fixed effects for treatment and pooled center||||0.70|-0.45|
92250601|NCT00247273|184403373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|||||TWO_SIDED|95.0|-3.96|2.43|||ANOVA|Fixed effects for treatment and pooled center||||2.43|-3.96|
92250602|NCT00247273|184403374|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96||||1|TWO_SIDED|95.0|0.36|2.54|||Fisher Exact|||||2.54|0.36|1.0000
92250603|NCT00247273|184403375|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98||||1|TWO_SIDED|95.0|0.47|2.03|||Fisher Exact|||||2.03|0.47|1.0000
92283320|NCT01029353|184470427|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.93, 95% credible interval of (0.45, 1.91).|||
92283321|NCT01029353|184470428|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.37|1.42|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.42|0.37|
92250604|NCT00511108|184403410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.7||||0.002||95.0|-48.7|-10.6|||ANCOVA|Model terms: treatment, prior diabetes pharmacotherapy (yes or no), and baseline value as a covariate||||-10.6|-48.7|0.002
92250605|NCT00511108|184403411|SUPERIORITY_OR_OTHER||Geometric Mean Difference|73.8|||<|0.001||95.0|44.2|104.4|||ANCOVA|Model terms: treatment, prior diabetes pharmacotherapy (yes or no), and log-scaled baseline value as a covariate|The outcome was analyzed by ANCOVA on the log scale. Results have been back-transformed to the original scale.|||104.4|44.2|<0.001
92250606|NCT00511108|184403412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-407.8|||<|0.001||95.0|-513.4|-302.1|||ANCOVA|Model terms: treatment, prior diabetes pharmacotherapy (yes or no), and baseline value as a covariate||||-302.1|-513.4|<0.001
92176643|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.083||||0.0072|TWO_SIDED|95.0|1.118|7.047|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||7.047|1.118|0.0072
92176644|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.688||||0.0023|TWO_SIDED|95.0|1.691|7.686|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||7.686|1.691|0.0023
92176645|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|5.112|||<|0.0001|TWO_SIDED|95.0|2.874|7.35|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||7.350|2.874|<.0001
92182678|NCT00822900|184264536|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.86|1.63|||||A hazard ratio of more than 1.00 indicating higher hazard of death from the progesterone group than in the placebo group.|The Cox proportional hazards model is used to compare these curves after adjustment for age, sex and injury severity.||1.63|0.86|
92182679|NCT00822900|184264538|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.03|||||TWO_SIDED|95.0|1.96|4.66|||||A risk ratio (equivalent to the relative risk) of more than 1.00 indicating more events in the progesterone group than in the placebo group.|||4.66|1.96|
92250607|NCT02911519|184403416|SUPERIORITY||Risk Ratio (RR)|0.95||||0.59|TWO_SIDED|95.0|0.77|1.16|||Mixed Models Analysis||This is intention-to-treat analysis. The Brief Group Psychoeducation is the numerator and the group of Treatment as Usual Only is the denominator for relative risk.|||1.16|0.77|0.59
92250608|NCT02911519|184403417|SUPERIORITY||Risk Ratio (RR)|0.98||||0.73|TWO_SIDED|95.0|0.87|1.1|||Mixed Models Analysis||The Brief Group Psychoeducation is the numerator and the group of Treatment as Usual Only is the denominator for relative risk. This is intention-to-treat analysis.|||1.10|0.87|0.73
92250609|NCT02911519|184403418|SUPERIORITY||Slope|0.01||||0.94|TWO_SIDED|95.0|-0.36|0.39|||Mixed Models Analysis||This is intention-to-treat analysis.|||0.39|-0.36|0.94
92250610|NCT02911519|184403418|SUPERIORITY||Slope|-0.19||||0.3|TWO_SIDED|95.0|-0.57|0.18|||Mixed Models Analysis||This is intention-to-treat analysis.|||0.18|-0.57|0.30
92250611|NCT02911519|184403420|SUPERIORITY||Slope|0.03||||0.61|TWO_SIDED|95.0|-0.1|0.17|||Mixed Models Analysis||This is an intention to treat analysis.|||0.17|-0.10|0.61
92250612|NCT02911519|184403421|SUPERIORITY|This statistical Analysis applies to WHOQOL-BREF 1ST DOMAIN (physical health) in the first row.|Slope|0.04||||0.81|TWO_SIDED|95.0|-0.38|0.3|||Mixed Models Analysis||This is an intention to treat analysis. This statistical Analysis applies to WHOQOL-BREF 1ST DOMAIN (physical health) in the first row.|||0.30|-0.38|0.81
92250613|NCT02911519|184403421|SUPERIORITY|This is an intention to treat analysis. This statistical Analysis applies to WHOQOL-BREF 2ND DOMAIN (psychological) in the second row.|Slope|-0.04||||0.81|TWO_SIDED|95.0|-0.38|0.29|||Mixed Models Analysis||This is an intention to treat analysis.This statistical Analysis applies to WHOQOL-BREF 2ND DOMAIN (psychological) in the second row.|||0.29|-0.38|0.81
92250614|NCT02911519|184403421|SUPERIORITY|This statistical Analysis applies to WHOQOL-BREF 3RD DOMAIN (social relationships) in the third row.|Slope|0.16||||0.52|TWO_SIDED|95.0|-0.33|0.65|||Mixed Models Analysis||This is an intention to treat analysis. This statistical Analysis applies to WHOQOL-BREF 3RD DOMAIN (social relationships) in the third row.|||0.65|-0.33|0.52
92250615|NCT02911519|184403421|SUPERIORITY|This statistical Analysis applies to WHOQOL-BREF 4TH DOMAIN (environment) in the fourth row.|Slope|0.19||||0.27|TWO_SIDED|95.0|-0.15|0.53|||Mixed Models Analysis||This is an intention to treat analysis. This statistical Analysis applies to WHOQOL-BREF 4TH DOMAIN (environment) in the fourth row.|||0.53|-0.15|0.27
92250616|NCT02911519|184403422|SUPERIORITY|This analysis applies to SSFB objective domain in the first row.|Slope|-0.01||||0.33|TWO_SIDED|95.0|-0.01|0.01|||Mixed Models Analysis||This is an intention to treat analysis. This analysis applies to SSFB objective domain in the first row.|||0.01|-0.01|0.33
92250617|NCT02911519|184403422|SUPERIORITY|This is an intention to treat analysis. This analysis applies to SSFB subjective domain in the second row.|Slope|-0.01||||0.19|TWO_SIDED|95.0|-0.02|0.01|||Mixed Models Analysis||This is an intention to treat analysis. This analysis applies to SSFB subjective domain in the second row.|||0.01|-0.02|0.19
92250618|NCT02911519|184403423|SUPERIORITY||Slope|0.01||||0.97|TWO_SIDED|95.0|-0.19|0.19|||Mixed Models Analysis||This is an intention to treat analysis.|||0.19|-0.19|0.97
92250619|NCT00810043|184403424|SUPERIORITY_OR_OTHER|||||||0.43|||||||t-test, 2 sided|||Anterior vertebral body height restoration as a percent (Post-procedure change from baseline)||||0.430
92250620|NCT00810043|184403424|SUPERIORITY_OR_OTHER|||||||0.643|||||||t-test, 2 sided|||Middle vertebral body height restoration as a percent (Post-procedure change from baseline)||||0.643
92250621|NCT00810043|184403424|SUPERIORITY_OR_OTHER|||||||0.165|||||||t-test, 2 sided|||Posterior vertebral body height restoration as a percent (Post-procedure change from baseline)||||0.165
92250622|NCT00810043|184403425|SUPERIORITY_OR_OTHER|||||||0.402|||||||t-test, 2 sided|||Anterior VBH restored||||0.402
92250623|NCT00810043|184403425|SUPERIORITY_OR_OTHER|||||||0.578|||||||t-test, 2 sided|||Middle VBH restored||||0.578
92250624|NCT00810043|184403425|SUPERIORITY_OR_OTHER|||||||0.166|||||||t-test, 2 sided|||Posterior VBH restored||||0.166
92250625|NCT00810043|184403427|SUPERIORITY_OR_OTHER|||||||0.9|||||||t-test, 2 sided|||Anterior VBH gained by postural reduction||||0.900
92250626|NCT00810043|184403427|SUPERIORITY_OR_OTHER|||||||0.62|||||||t-test, 2 sided|||Middle VBH gained by postural reduction||||0.620
92182680|NCT01968967|184264547|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.2|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-58.3|-54.0|||MMRM|||Least square (LS) mean difference and associated 95 percent (%) confidence interval (CI), and p-value were derived from mixed effect model repeat measurement (MMRM) model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-54.0|-58.3|<0.001
92250627|NCT00810043|184403427|SUPERIORITY_OR_OTHER|||||||0.349|||||||t-test, 2 sided|||Posterior VBH gained by postural reduction||||0.349
92250628|NCT00810043|184403428|SUPERIORITY_OR_OTHER|||||||0.889|||||||t-test, 2 sided|||||||0.889
92250629|NCT00810043|184403429|SUPERIORITY_OR_OTHER|||||||0.486|||||||t-test, 2 sided|||||||0.486
92250630|NCT00810043|184403430|SUPERIORITY_OR_OTHER|||||||0.144|||||||t-test, 2 sided|||||||0.144
92250631|NCT00810043|184403431|SUPERIORITY_OR_OTHER|||||||0.36|||||||Chi-squared|||||||0.360
92250632|NCT02001688|184403432|SUPERIORITY|||||||0.0005||||||One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance|Wilcoxon (Mann-Whitney)|||||||0.0005
92250633|NCT02001688|184403432|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance||||||0.020
92250634|NCT02001688|184403432|SUPERIORITY|||||||0.0192|||||||Wilcoxon (Mann-Whitney)|One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance||||||0.0192
92176646|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.777||||0.603|TWO_SIDED|95.0|-2.165|3.72|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.720|-2.165|0.6030
92250635|NCT02001688|184403433|SUPERIORITY|||||||0.0005||||||One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance|Wilcoxon (Mann-Whitney)|p-value of Stratified Wilcoxon test||||||0.0005
92250636|NCT02001688|184403433|SUPERIORITY|||||||0.0193|||||||Wilcoxon (Mann-Whitney)|One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance||||||0.0193
92250637|NCT02001688|184403433|SUPERIORITY|||||||0.2485|||||||Wilcoxon (Mann-Whitney)|One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance||||||0.2485
92250638|NCT02001688|184403434|SUPERIORITY||||||<|0.0001|||||||Kruskal-Wallis|p-value of Kruskal-Wallis test (3 groups: Kamada-AAT for Inhalation, 80mg,Kamada-AAT for Inhalation, 160mg and placebo)||||||<0.0001
92250639|NCT02001688|184403435|SUPERIORITY||||||<|0.0001|||||||Kruskal-Wallis|p-value of Kruskal-Wallis test (3 groups: Kamada-AAT for Inhalation, 80mg, Kamada-AAT for Inhalation, 160mg and placebo)||||||<0.0001
92250640|NCT02864706|184403457|SUPERIORITY|||||||0.0043|||||||ANCOVA|Incidence of CAV at 5-7 yrs was compared between groups using Cochran-Mantel-Haenszel test with stratification according to baseline distribution||||||0.0043
92250641|NCT02864706|184403458|SUPERIORITY|||||||0.037|||||||Cochran-Mantel-Haenszel|||||||0.037
92250642|NCT00047853|184403501|OTHER||||||<|0.001|||||||ANOVA|||||||< 0.001
92250643|NCT00047853|184403502|OTHER|||||||9.3e-05|||||||t-test, 2 sided|||||||0.000093
92250644|NCT02443805|184403504|SUPERIORITY||||||<|0.0001||||||Source Model: Type III effects Covariates: Treatment group, Gender, Age Class, Sensitization Status, Asthma Status, Pooled Center, Baseline Average RTSS.|ANCOVA|||||||<0.0001
92250645|NCT00968708|184403510|NON_INFERIORITY_OR_EQUIVALENCE|If after accrual of 550 participants with MACE events, the upper bound of a 1-sided repeated CI for the hazard ratio (alogliptin to placebo) was \<1.0, superiority of alogliptin to placebo for the primary MACE composite would be concluded. If the upper bound of the 1-sided repeated CI for the hazard ratio of the primary MACE composite was \<1.3 but ≥1.0 then non-inferiority but not superiority of alogliptin to placebo was to be concluded.|Hazard Ratio (HR)|0.962||||0.315|ONE_SIDED|97.5||1.16|||Cox proportional hazards|||Statistical analyses of the primary MACE composite endpoint was based on sequences of 1-sided repeated confidence intervals (CIs) to assess non-inferiority or statistical superiority with respect to the null hypotheses. Each sequence of repeated CIs was constructed using critical values from a 1-sided stopping boundary for a group sequential design (GSD), to preserve an overall false-rejection rate of 2.5%. Each sequence of 1-sided repeated CIs had a simultaneous coverage probability of 97.5%.||1.160||0.315
92250646|NCT00968708|184403510|NON_INFERIORITY_OR_EQUIVALENCE|If after accrual of 550 participants with MACE events, the upper bound of a 1-sided repeated CI for the hazard ratio (alogliptin to placebo) was \<1.0, superiority of alogliptin to placebo for the primary MACE composite would be concluded. If the upper bound of the 1-sided repeated CI for the hazard ratio of the primary MACE composite was \<1.3 but ≥1.0 then non-inferiority but not superiority of alogliptin to placebo was to be concluded.|Hazard Ratio (HR)|0.965||||0.332|ONE_SIDED|97.5||1.169||Stratified by endpoint renal function (defined as the last observed postbaseline renal function (normal renal function/mild renal impairment vs moderate/severe renal impairment including end-stage renal disease)) and geographic region.|Cox proportional hazards|||Stratified by endpoint renal function and geographic region||1.169||0.332
92250647|NCT00968708|184403511|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the confidence interval for the primary MACE composite was \<1.0, then statistical superiority of alogliptin to placebo for the secondary MACE composite would be demonstrated.|Hazard Ratio (HR)|0.952|||||ONE_SIDED|97.5||1.135||||||||1.135||
92250648|NCT00587834|184403547|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Exact Bionomial Test|||Superiority relative to a pre-defined standard (50% success)||||<0.0001
92250649|NCT00587834|184403548|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||McNemar|||Compare participants with (1) Gintuit equally red and Control not equally red to (2) Gintuit not equally red and Control equally red||||<0.0001
92250650|NCT00587834|184403549|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||McNemar|||Compare participants with (1)Gintuit equally firm and Control not equally firm to (2) Gintuit not equally firm and Control equally firm||||<0.0001
92250651|NCT00587834|184403550|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Exact binomial test|||Superiority relative to a pre-defined threshold (80%) success||||<0.0001
92250652|NCT00587834|184403551|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Exact binomial test|||The proportion of Gintuit as the preferred procedure.||||<0.0001
92250653|NCT00587834|184403552|SUPERIORITY_OR_OTHER|||||||0.3173||95.0|||||McNemar|McNemar's paired comparison test||Compare participants with (1) Gintuit not sensitive and Control sensitive to (2) Gintuit sensitive and Control not sensitive.||||0.3173
92250654|NCT00305604|184403575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|0.81|<|0.001||95.0|-0.94|-0.47|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy (yes/no); age (\< 75/\>= 75 yr); baseline creatinine clearance (\< 50/\>= 50 mL/min)||||-0.47|-0.94|<0.001
92250655|NCT00305604|184403576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.8|STANDARD_DEVIATION|45.0|<|0.001||95.0|-40.0|-13.5|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy (yes/no); age (\< 75/\>= 75 yr); baseline creatinine clearance (\< 50/\>= 50 mL/min)||||-13.5|-40.0|<0.001
92250656|NCT00305604|184403577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-61.0|STANDARD_DEVIATION|63.0|<|0.001||95.0|-82.1|-40.0|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy (yes/no); age (\< 75/\>= 75 yr); baseline creatinine clearance (\< 50/\>= 50 mL/min)||||-40.0|-82.1|<0.001
92250657|NCT00305604|184403578|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.5|STANDARD_DEVIATION|25.2|<|0.001||95.0|-32.6|-14.4|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy (yes/no); age (\< 75/\>= 75 yr); baseline creatinine clearance (\< 50/\>= 50 mL/min)||||-14.4|-32.6|<0.001
92250658|NCT03488914|184403582|SUPERIORITY||Slope|-1.09||||0.19|TWO_SIDED|95.0|-2.78|0.56|||negative binomial regression|Model testing whether condition predicted illicit drug use days at 3-months||||.56|-2.78|.19
92250659|NCT03488914|184403582|SUPERIORITY||negative binomial regression|-1.66||||0.12|TWO_SIDED|95.0|-3.78|0.48|||negative binomial regression|Model testing whether condition predicted illicit drug use days at 6-months||||.48|-3.78|.12
92250660|NCT03488914|184403582|SUPERIORITY||Slope|0.01||||0.99|TWO_SIDED|95.0|-2.05|2.07|||negative binomial regression|Model testing whether condition predicted illicit drug use days at 9-months||||2.07|-2.05|.99
92250661|NCT03488914|184403582|SUPERIORITY||Slope|-0.78||||0.42|TWO_SIDED|95.0|-2.67|1.11|||negative binomial regression|Model testing whether condition predicted illicit drug use days at 12-months||||1.11|-2.67|.42
92250662|NCT03488914|184403582|SUPERIORITY||Slope|-1.09||||0.18|TWO_SIDED|95.0|-2.69|0.51|||negative binomial regression|Model testing whether condition predicted illicit drug use days at 15-months||||.51|-2.69|.18
92250663|NCT03488914|184403583|SUPERIORITY||Slope|0.03||||0.96|TWO_SIDED|95.0|-0.86|0.99|||negative binomial regression|Model testing whether condition predicted condomless anal sex acts at 3-months||||.99|-.86|.96
92250664|NCT03488914|184403583|SUPERIORITY||Slope|-1.19||||0.03|TWO_SIDED|95.0|-2.25|-0.14|||negative binomial regression|Model testing whether condition predicted condomless anal sex acts at 6-months||||-.14|-2.25|.03
92250665|NCT03488914|184403583|SUPERIORITY||Slope|0.13||||0.79|TWO_SIDED|95.0|-0.83|1.1|||negative binomial regression|Model testing whether condition predicted condomless anal sex acts at 9-months||||1.10|-.83|.79
92182681|NCT01968967|184264548|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.0|STANDARD_ERROR_OF_MEAN|0.76|<|0.001|TWO_SIDED|95.0|-36.5|-33.5|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-33.5|-36.5|<0.001
92250666|NCT03488914|184403583|SUPERIORITY||Slope|0.06||||0.91|TWO_SIDED|95.0|-0.99|1.11|||negative binomial regression|Model testing whether condition predicted condomless anal sex acts at 12-months||||1.11|-.99|.91
92250667|NCT03488914|184403583|SUPERIORITY||Slope|-0.42||||0.44|TWO_SIDED|95.0|-1.5|0.65|||negative binomial regression|Model testing whether condition predicted condomless anal sex acts at 15-months||||.65|-1.50|.44
92250668|NCT03488914|184403584|SUPERIORITY||Slope|-0.26||||0.54|TWO_SIDED|95.0|-1.09|0.58|||negative binomial regression|Model testing whether condition predicted marijuana use days at 3-months||||.58|-1.09|.54
92250669|NCT03488914|184403584|SUPERIORITY||Slope|0.38||||0.49|TWO_SIDED|95.0|-0.7|1.46|||negative binomial regression|Model testing whether condition predicted marijuana use days at 6-months||||1.46|-.70|.49
92250670|NCT03488914|184403584|SUPERIORITY||Slope|-0.26||||0.59|TWO_SIDED|95.0|-1.18|0.66|||negative binomial regression|Model testing whether condition predicted marijuana use days at 9-months||||.66|-1.18|.59
92250671|NCT03488914|184403584|SUPERIORITY||Slope|0.26||||0.65|TWO_SIDED|95.0|-0.86|1.37|||negative binomial regression|Model testing whether condition predicted marijuana use days at 12-months||||1.37|-.86|.65
92182682|NCT01968967|184264548|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.6|STANDARD_ERROR_OF_MEAN|0.89|||TWO_SIDED|95.0|-33.3|-29.8||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-29.8|-33.3|
92250672|NCT03488914|184403584|SUPERIORITY||Slope|-0.36||||0.49|TWO_SIDED|95.0|-1.4|0.67|||negative binomial regression|Model testing whether condition predicted marijuana use days at 15-months||||.67|-1.40|.49
92176647|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.003||||0.5053|TWO_SIDED|95.0|-1.96|3.967|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.967|-1.960|0.5053
92250673|NCT03488914|184403585|SUPERIORITY||Slope|-0.36||||0.31|TWO_SIDED|995.0|-1.07|0.34|||negative binomial regression|Model testing whether condition predicted alcohol use days at 3-months||||.34|-1.07|.31
92250674|NCT03488914|184403585|SUPERIORITY||Slope|-0.71||||0.1|TWO_SIDED|95.0|-1.57|0.15|||negative binomial regression|Model testing whether condition predicted alcohol use days at 6-months||||.15|-1.57|.10
92250675|NCT03488914|184403585|SUPERIORITY||Slope|-0.53||||0.2|TWO_SIDED|95.0|-1.34|0.28|||negative binomial regression|Model testing whether condition predicted alcohol use days at 9-months||||.28|-1.34|.20
92250676|NCT03488914|184403585|SUPERIORITY||Slope|-0.25||||0.58|TWO_SIDED|95.0|-1.14|0.64|||negative binomial regression|Model testing whether condition predicted alcohol use days at 12-months||||.64|-1.14|.58
92250677|NCT03488914|184403585|SUPERIORITY||Slope|-0.45||||0.34|TWO_SIDED|95.0|-1.37|0.47|||negative binomial regression|Model testing whether condition predicted alcohol use days at 15-months||||.47|-1.37|.34
92250678|NCT01021813|184403599|SUPERIORITY_OR_OTHER||Difference in Percentage|0.4|||||TWO_SIDED|95.0|-1.1|1.4|||Miettinen & Nurminen Method.|||The method of Miettinen and Nurminen was used to construct the confidence interval for the difference in the percentage of participants with any sleep paralysis AEs between the Suvorexant group and Placebo group .||1.4|-1.1|
92250679|NCT01021813|184403600|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2||||0.482|TWO_SIDED|95.0|-1.3|1.1|||Miettinen & Nurminen Method.|||The method of Miettinen and Nurminen was used to construct the confidence interval for the difference in the percentage of participants with any complex sleep-related behaviors AEs between the Suvorexant group and Placebo group.||1.1|-1.3|0.482
92250680|NCT01021813|184403601|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.8||||0.508|TWO_SIDED|95.0|-3.9|1.5|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and construct the confidence interval for the difference in the percentage of participants with any falls AEs between the Suvorexant group and Placebo group.||1.5|-3.9|0.508
92250681|NCT01021813|184403602|SUPERIORITY_OR_OTHER||Difference in Percentage of AEs|0.8||||0.159|TWO_SIDED|95.0|-0.7|2.0|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and construct the confidence interval for the difference in the percentage of participants with any suicidal ideation/behavior AEs considered an ECI between the Suvorexant group and Placebo group.||2.0|-0.7|0.159
92250682|NCT01021813|184403603|SUPERIORITY_OR_OTHER||Difference in Percentage|0.8||||0.159|TWO_SIDED|95.0|-0.7|2.0|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and construct the confidence interval for the difference in the percentage of participants with any Hypnagogic/hypnopompic hallucinations AEs between the Suvorexant group and Placebo group.||2.0|-0.7|0.159
92250683|NCT01021813|184403604|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.4||||0.767|TWO_SIDED|95.0|-3.8|2.2|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and construct the confidence interval for the difference in the percentage of participants with any selected AEs associated with potential abuse between the Suvorexant group and Placebo group.||2.2|-3.8|0.767
92250684|NCT01021813|184403605|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 1|-0.81||||0.567|TWO_SIDED|95.0|-5.1|3.1|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with withdrawal symptoms during Night 1 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Suvorexant (DB Treatment)/Placebo (DB Discontinuation) group.||3.1|-5.1|0.567
92176648|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.674||||0.6607|TWO_SIDED|95.0|-2.347|3.694|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.694|-2.347|0.6607
92176649|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.809||||0.1309|TWO_SIDED|95.0|-0.827|10.446|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||10.446|-0.827|0.1309
92176650|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.553||||0.9776|TWO_SIDED|95.0|-4.212|7.318|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||7.318|-4.212|0.9776
92182683|NCT01968967|184264548|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.7|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-26.6|-22.8||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-22.8|-26.6|
92183104|NCT02434328|184264741|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-2.5|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||5.4|-2.5|
92182684|NCT01968967|184264549|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.8|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-52.9|-48.8|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-48.8|-52.9|<0.001
92250685|NCT01021813|184403605|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 2|-2.4||||0.185|TWO_SIDED|95.0|-7.3|1.6|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with withdrawal symptoms during Night 2 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Suvorexant (DB Treatment)/Placebo (DB Discontinuation) group.||1.6|-7.3|0.185
92182685|NCT01968967|184264549|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.1|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|95.0|-48.5|-43.8||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-43.8|-48.5|
92182686|NCT01968967|184264549|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.1|STANDARD_ERROR_OF_MEAN|1.28|||TWO_SIDED|95.0|-38.6|-33.6||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-33.6|-38.6|
92182687|NCT01968967|184264550|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.1|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-52.1|-48.0|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-48.0|-52.1|<0.001
92182688|NCT01968967|184264550|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.5|STANDARD_ERROR_OF_MEAN|1.22|||TWO_SIDED|95.0|-47.9|-43.1||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-43.1|-47.9|
92176651|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.862||||0.1422|TWO_SIDED|95.0|-0.939|10.663|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||10.663|-0.939|0.1422
92176652|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|5.851||||0.0334|TWO_SIDED|95.0|0.307|11.396|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||11.396|0.307|0.0334
92182689|NCT01968967|184264550|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.9|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|95.0|-38.5|-33.3||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-33.3|-38.5|
92250686|NCT01021813|184403605|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 3|-0.78||||0.68|TWO_SIDED|95.0|-5.6|3.9|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with withdrawal symptoms during Night 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Suvorexant (DB Treatment)/Placebo (DB Discontinuation) group.||3.9|-5.6|0.680
92250687|NCT01021813|184403605|SUPERIORITY_OR_OTHER||Difference in Percentage: Across Nights|0.0||||1|TWO_SIDED|95.0|-6.4|6.4|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with withdrawal symptoms across Nights 1, 2, and 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Suvorexant (DB Treatment)/Placebo (DB Discontinuation) group.||6.4|-6.4|1.000
92250688|NCT01021813|184403606|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 1|5.03||||0.365|TWO_SIDED|95.0|-5.8|15.8|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTST rebound effects during Night 1 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||15.8|-5.8|0.365
92250689|NCT01021813|184403606|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 2|8.72||||0.109|TWO_SIDED|95.0|-2.0|19.2|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTST rebound effects during Night 2 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||19.2|-2.0|0.109
92250690|NCT01021813|184403606|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 3|6.02||||0.287|TWO_SIDED|95.0|-5.1|16.9|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTST rebound effects during Night 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||16.9|-5.1|0.287
92250691|NCT01021813|184403606|SUPERIORITY_OR_OTHER||Difference in Percentage:Night 1, 2 or 3|10.82||||0.057|TWO_SIDED|95.0|-0.3|21.7|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTST rebound effects during Nights 1, 2, or 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||21.7|-0.3|0.057
92250692|NCT01021813|184403607|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 1|4.46||||0.386|TWO_SIDED|95.0|-5.7|14.5|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTSO rebound effects during Night 1 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||14.5|-5.7|0.386
92283322|NCT01029353|184470428|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.75, 95% credible interval of (0.48, 1.16).|||
92176653|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|3.08||||0.5622|TWO_SIDED|95.0|-2.501|8.66|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||8.660|-2.501|0.5622
92176654|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.014||||0.2841|TWO_SIDED|95.0|-1.643|9.672|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||9.672|-1.643|0.2841
92176655|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.438||||0.0178|TWO_SIDED|95.0|0.774|8.103|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||8.103|0.774|0.0178
92176656|NCT04800211|184247043|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.847||||0.6944|TWO_SIDED|95.0|-3.398|5.093|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||5.093|-3.398|0.6944
92250693|NCT01021813|184403607|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 2|5.31||||0.311|TWO_SIDED|95.0|-5.0|15.5|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTSO rebound effects during Night 2 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||15.5|-5.0|0.311
92250694|NCT01021813|184403607|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 3|4.96||||0.351|TWO_SIDED|95.0|-5.5|15.3|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTSO rebound effects during Night 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||15.3|-5.5|0.351
92250695|NCT01021813|184403607|SUPERIORITY_OR_OTHER||Difference in Percentage:Night 1, 2 or 3|4.58||||0.409|TWO_SIDED|95.0|-6.3|15.3|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTSO rebound effects during Nights 1, 2, or 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||15.3|-6.3|0.409
92250696|NCT01021813|184403608|SUPERIORITY_OR_OTHER||Difference in LS Means: Month 1|22.7|||<|0.0001|TWO_SIDED|95.0|16.4|29.0||To account for multiplicity, Hochberg's procedure was used to control the overall Type I error rate at the 5% level.|Longitudinal Data Analysis|||A Longitudinal Data Analysis Model was used to test the difference in LS mean change from baseline in sTSTm for Month 1 (Average of Weeks 1, 2, 3, 4) in the Suvorexant group vs. the Placebo group.||29.0|16.4|<0.0001
92283323|NCT01029353|184470429|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.7|1.15|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.15|0.70|
92250697|NCT01021813|184403609|SUPERIORITY_OR_OTHER||Difference in LS Means: Month 1|-9.5||||0.0002|TWO_SIDED|95.0|-14.6|-4.5||To account for multiplicity, Hochberg's procedure was used to control the overall Type I error rate at the 5% level.|Longitudinal Data Analysis|||A Longitudinal Data Analysis Model was used to test the difference in LS mean change from baseline in sTSOm for Month 1 (Average of Weeks 1, 2, 3, 4) in the Suvorexant group vs. the Placebo group.||-4.5|-14.6|0.0002
92250698|NCT00862654|184403611|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Each test was two-sided, at the 0.050 significance level.||The primary efficacy criterion was analyzed by using the Cochran-Mantel-Haenszel (CMH) statistic, stratified by center (or analysis-center) after ridit transformation with the row mean difference statistics, testing the hypothesis of equality. The p-value had to be inferior to 0.05 at week 4, in the ITT/LOCF population. PP analysis was also performed to assess the robustness of the results obtained in the ITT/LOCF population.||||<0.01
92176657|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-35.556||||0.0031|TWO_SIDED|95.0|-59.038|-12.075|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-12.075|-59.038|0.0031
92176658|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-31.35||||0.0371|TWO_SIDED|95.0|-60.818|-1.882|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-1.882|-60.818|0.0371
92176659|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-34.356||||0.0043|TWO_SIDED|95.0|-57.877|-10.834|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-10.834|-57.877|0.0043
92176660|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-18.096||||0.2091|TWO_SIDED|95.0|-46.375|10.183|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||10.183|-46.375|0.2091
92176661|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-24.723||||0.0197|TWO_SIDED|95.0|-45.473|-3.973|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-3.973|-45.473|0.0197
92250699|NCT00862654|184403611|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0|||||Cochran-Mantel-Haenszel|Each test was two-sided, at the 0.050 significance level.||The primary efficacy criterion was analyzed by using the Cochran-Mantel-Haenszel (CMH) statistic, stratified by center (or analysis-center) after ridit transformation with the row mean difference statistics, testing the hypothesis of equality. The p-value had to be inferior to 0.05 at week 4, in the ITT/LOCF population. PP analysis was also performed to assess the robustness of the results obtained in the ITT/LOCF population.||||0.039
92250700|NCT03219567|184403612|OTHER|||||||0.35|||||||t-test, 2 sided|||OCT compared to MRI||||0.35
92250701|NCT00004732|184403629|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.81|1.51|||||HR (95% CI) adjusted for age, sex and symptomatic status|||1.51|0.81|
92250702|NCT00004732|184403630|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|0.82|2.23|||||HR (95% CI) for WOMEN CAS vs CEA (adjusted for age and symptomatic status)|||2.23|0.82|
92250703|NCT01181778|184403646|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage: Daily Pill|-0.4||||0.705|TWO_SIDED|95.0|-2.6|1.8|||Chi-squared|||Analysis of the difference in the percentage of participants who chose the Daily Pill before physician counseling and after physician counseling.||1.8|-2.6|0.705
92250704|NCT01181778|184403646|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage: Weekly Patch|3.8|||<|0.0001|TWO_SIDED|95.0|2.6|5.0|||Chi-squared|||Analysis of the difference in the percentage of participants who chose the Weekly Patch before physician counseling and after physician counseling.||5.0|2.6|<0.0001
92250705|NCT01181778|184403646|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage: Monthy Ring|16.0|||<|0.0001|TWO_SIDED|95.0|14.3|17.8|||Chi-squared|||Analysis of the difference in the percentage of participants who chose the Monthly Ring before physician counseling and after physician counseling.||17.8|14.3|<0.0001
92176662|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-13.595||||0.2353|TWO_SIDED|95.0|-36.08|8.891|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||8.891|-36.080|0.2353
92176663|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-4.759||||0.7329|TWO_SIDED|95.0|-32.159|22.641|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||22.641|-32.159|0.7329
92176664|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-21.962||||0.542|TWO_SIDED|95.0|-62.989|19.065|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||19.065|-62.989|0.5420
92176665|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-26.591||||0.5234|TWO_SIDED|95.0|-77.049|23.866|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||23.866|-77.049|0.5234
92176666|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-20.761||||0.5975|TWO_SIDED|95.0|-61.867|20.344|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||20.344|-61.867|0.5975
92250706|NCT01181778|184403646|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage: Other Method|-3.6|||<|0.0001|TWO_SIDED|95.0|-5.0|-2.2|||Chi-squared|||Analysis of the difference in the percentage of participants who chose Other Method before physician counseling and after physician counseling.||-2.2|-5.0|<0.0001
92250707|NCT01181778|184403646|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage: Undecided|-15.8|||<|0.0001|TWO_SIDED|95.0|-17.6|-14.1|||Chi-squared|||Analysis of the difference in the percentage of participants who chose Undecided before physician counseling and after physician counseling.||-14.1|-17.6|<0.0001
92250708|NCT01269047|184403659|OTHER||Mean Difference (Final Values)|-2.2|STANDARD_DEVIATION|2.4||0.04|TWO_SIDED|95.0|-4.2|-0.2|||ANOVA|||||-0.2|-4.2|0.04
92250709|NCT01269047|184403659|OTHER||Mean Difference (Final Values)|-3.5|STANDARD_DEVIATION|2.7||0.008|TWO_SIDED|95.0|-5.8|-1.3|||ANOVA|||||-1.3|-5.8|0.008
92250710|NCT01269047|184403659|OTHER||Mean Difference (Final Values)|-4.2|STANDARD_DEVIATION|2.6||0.003|TWO_SIDED|95.0|-6.4|-2.0|||ANOVA|||||-2.0|-6.4|0.003
92250711|NCT01269047|184403659|OTHER||Mean Difference (Final Values)|-0.66|STANDARD_DEVIATION|2.0||0.37|TWO_SIDED|95.0|-2.3|0.98|||ANOVA|||||0.98|-2.3|0.37
92283324|NCT01029353|184470429|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.91, 95% credible interval of (0.65, 1.27).|||
92250712|NCT01269047|184403660|OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|0.8||0.2|TWO_SIDED|95.0|-0.21|0.81|||t-test, 2 sided|||||0.81|-0.21|0.2
92250713|NCT01269047|184403660|OTHER||Mean Difference (Final Values)|0.13|STANDARD_DEVIATION|0.6||0.48|TWO_SIDED|95.0|-0.25|0.5|||t-test, 2 sided|||||0.50|-0.25|0.48
92250714|NCT01269047|184403660|OTHER||Mean Difference (Final Values)|0.23|STANDARD_DEVIATION|0.6||0.18|TWO_SIDED|95.0|-0.12|0.57|||t-test, 2 sided|||||0.57|-0.12|0.18
92250715|NCT01269047|184403660|OTHER||Mean Difference (Final Values)|-0.004|STANDARD_DEVIATION|1.0||1|TWO_SIDED|95.0|-0.62|0.61|||t-test, 2 sided|||||0.61|-0.62|1.0
92250716|NCT01626989|184403661|NON_INFERIORITY_OR_EQUIVALENCE|Friedman Test comparing all 3 nights||||||0.001|||||||nonparametric Wilcoxon Signed Rank test|||||||.001
92250717|NCT03366844|184403688|OTHER||Proportion|0.6|||||TWO_SIDED|95.0|0.465|0.724|||||95% confidence interval for one proportion were estimated using the Exact (Clopper-Pearson) method.|||0.724|0.465|
92250718|NCT00595868|184403717|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.06|TWO_SIDED|95.0|1.0|2.9|||Chi-squared|||||2.9|1.0|0.06
92250719|NCT00595868|184403718|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||0.1|TWO_SIDED|95.0|0.9|5.2|||Chi-squared|||||5.2|0.9|0.10
92250720|NCT02688153|184403719|SUPERIORITY||Median Difference (Final Values)|-4.5||||0.366|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3660
92250721|NCT02688153|184403720|SUPERIORITY||Median Difference (Final Values)|2.0||||0.8377|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.8377
92250722|NCT02061748|184403799|SUPERIORITY_OR_OTHER|||||||0.0111|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0111
92250723|NCT02061748|184403800|SUPERIORITY_OR_OTHER|||||||0.0861|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0861
92176667|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-13.337||||0.9331|TWO_SIDED|95.0|-62.853|36.179|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||36.179|-62.853|0.9331
92176668|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-19.964||||0.2444|TWO_SIDED|95.0|-53.637|13.709|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||13.709|-53.637|0.2444
92176669|NCT04800211|184247044|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-13.254||||0.5169|TWO_SIDED|95.0|-53.427|26.919|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||26.919|-53.427|0.5169
92250724|NCT02061748|184403801|SUPERIORITY_OR_OTHER|||||||0.0011|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0011
92250725|NCT02061748|184403802|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0019
92250726|NCT02061748|184403803|SUPERIORITY_OR_OTHER|||||||0.0808|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0808
92250727|NCT02061748|184403804|SUPERIORITY_OR_OTHER|||||||0.3502|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.3502
92250728|NCT02061748|184403805|SUPERIORITY_OR_OTHER|||||||0.0068|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0068
92283325|NCT01029353|184470430|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.44|1.36|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.36|0.44|
92250729|NCT02061748|184403806|SUPERIORITY_OR_OTHER|||||||0.0271|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0271
92250730|NCT02061748|184403807|SUPERIORITY_OR_OTHER|||||||0.0749|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0749
92250731|NCT02061748|184403808|SUPERIORITY_OR_OTHER|||||||0.0072|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0072
92250732|NCT02061748|184403809|SUPERIORITY_OR_OTHER|||||||0.0055|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0055
92250733|NCT02061748|184403810|SUPERIORITY_OR_OTHER|||||||0.0284|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0284
92250734|NCT02061748|184403811|SUPERIORITY_OR_OTHER|||||||0.907|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.907
92250735|NCT02061748|184403812|SUPERIORITY_OR_OTHER|||||||0.8208|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.8208
92182690|NCT01968967|184264551|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.7|STANDARD_ERROR_OF_MEAN|1.29|<|0.001|TWO_SIDED|95.0|-60.2|-55.2|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-55.2|-60.2|<0.001
92250736|NCT02061748|184403813|SUPERIORITY_OR_OTHER|||||||0.1534|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.1534
92250737|NCT02061748|184403814|SUPERIORITY_OR_OTHER|||||||0.3055|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.3055
92250738|NCT02061748|184403815|SUPERIORITY_OR_OTHER|||||||0.9573|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.9573
92182691|NCT01968967|184264551|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.1|STANDARD_ERROR_OF_MEAN|1.55|||TWO_SIDED|95.0|-56.1|-50.0||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-50.0|-56.1|
92250739|NCT02061748|184403816|SUPERIORITY_OR_OTHER|||||||0.8465|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.8465
92250740|NCT02061748|184403817|SUPERIORITY_OR_OTHER|||||||0.0006|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0006
92250741|NCT02061748|184403818|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||<0.0001
92250742|NCT02061748|184403819|SUPERIORITY_OR_OTHER|||||||0.0185|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0185
92250743|NCT02061748|184403820|SUPERIORITY_OR_OTHER|||||||0.0138|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0138
92250744|NCT02061748|184403821|SUPERIORITY_OR_OTHER|||||||0.261|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.261
92250745|NCT02061748|184403822|SUPERIORITY_OR_OTHER|||||||0.4407|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.4407
92250746|NCT02061748|184403823|SUPERIORITY_OR_OTHER|||||||0.2665|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.2665
92250747|NCT02061748|184403824|SUPERIORITY_OR_OTHER|||||||0.8017|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.8017
92250748|NCT02061748|184403825|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||<0.0001
92182692|NCT01968967|184264551|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.8|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|-46.2|-39.5||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-39.5|-46.2|
92250749|NCT02061748|184403826|SUPERIORITY_OR_OTHER|||||||0.2083|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.2083
92250750|NCT02061748|184403827|SUPERIORITY_OR_OTHER|||||||0.0023|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0023
92250751|NCT02061748|184403828|SUPERIORITY_OR_OTHER|||||||0.5331|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.5331
92250752|NCT02061748|184403829|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0003
92176670|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-40.174||||0.1359|TWO_SIDED|95.0|-93.12|12.772|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||12.772|-93.120|0.1359
92176671|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-71.725||||0.0129|TWO_SIDED|95.0|-127.961|-15.49|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-15.490|-127.961|0.0129
92176672|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-37.308||||0.3262|TWO_SIDED|95.0|-112.293|37.678|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||37.678|-112.293|0.3262
92182693|NCT01968967|184264552|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.8|STANDARD_ERROR_OF_MEAN|2.09|<|0.001|TWO_SIDED|95.0|-55.9|-47.7|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-47.7|-55.9|<0.001
92250753|NCT02061748|184403830|SUPERIORITY_OR_OTHER|||||||0.2646|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.2646
92250754|NCT02061748|184403831|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0004
92250755|NCT02061748|184403832|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0004
92250756|NCT05742841|184403838|SUPERIORITY||Median Difference (Final Values)|-16.5|||||TWO_SIDED|||||||||||||
92250757|NCT02088541|184403839|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.4221|TWO_SIDED|95.0|0.79|1.75|||Log Rank|||||1.75|0.79|0.4221
92250758|NCT02088541|184403840|SUPERIORITY|||||||0.9464|||||||Log Rank|||||||0.9464
92250759|NCT02088541|184403841|SUPERIORITY|||||||0.0986|||||||Cochran-Mantel-Haenszel|||||||0.0986
92250760|NCT02088541|184403843|SUPERIORITY|||||||0.0844|||||||Cochran-Mantel-Haenszel|||||||0.0844
92250761|NCT02971007|184403880|OTHER|Statistical analyses primarily descriptive with no formal statistical hypothesis testing. Summary statistics are presented by treatment group. For continuous variables, the number of observations, mean, standard deviation, median, minimum and maximum are provided as summary statistics.||||||||||||||||No formal sample size calculations were made. The sample size was determined empirically rather than with a specific statistical rationale and is considered sufficient to achieve the study objectives of this proof of concept study. Women with moderate to severe Vulvovaginal candidiasis were randomized in a 1:1:1 ratio to 1 of 3 treatment groups, stratified by signs and symptoms composite score of up to 12 (moderate) and greater than 13 (severe).|Statistical analyses primarily descriptive with no formal statistical hypothesis testing. Summary statistics are presented by treatment group. For continuous variables, the number of observations, mean, standard deviation, median, minimum and maximum are provided as summary statistics.|||
92250762|NCT01601704|184403965|NON_INFERIORITY_OR_EQUIVALENCE|At the pre-planned 50% interim analysis, a non-inferiority analysis was conducted based on the estimated hazard ratio (NB32/Placebo) for the time to the first confirmed occurrence of MACE. The upper-bound of the 99.7% confidence interval for the hazard ratio was compared to 1.4, the non-inferiority margin.|Cox Proportional Hazard|0.88|||||TWO_SIDED|99.7|0.57|1.34|||||Hazard ratio is based on CPH model with treatment as a factor.|||1.34|0.57|
92250763|NCT01601704|184403966|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.93|||||TWO_SIDED|99.7|0.66|1.33|||||Hazard ratio is based on CPH model with treatment as a factor.|||1.33|0.66|
92250764|NCT01601704|184403967|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.5|||||TWO_SIDED|99.7|0.21|1.19|||||Hazard ratio is based on CPH model with treatment as a factor.|||1.19|0.21|
92250765|NCT01601704|184403968|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.96|||||TWO_SIDED|99.7|0.55|1.67|||||Hazard ratio is based on CPH model with treatment as a factor.|||1.67|0.55|
92250766|NCT01601704|184403969|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.04|||||TWO_SIDED|99.7|0.43|2.55|||||Hazard ratio is based on CPH model with treatment as a factor.|||2.55|0.43|
92250767|NCT01783470|184403970|EQUIVALENCE|All p values presented are two tailed. p values \< 0.05 were considered to indicate statistical significance for the primary outcome.||||||0.001|||||||Wilcoxon sign-ranks test|||Since the sample size of twelve subjects limited the ability to demonstrate that measurements were normally distributed, we used the non-parametric Wilcoxon sign-ranks test to assess the primary and secondary endpoints. All p values presented are two tailed. p values \< 0.05 were considered to indicate statistical significance for the primary outcome.||||0.001
92250768|NCT00607919|184403980|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92250769|NCT00813917|184404046|SUPERIORITY_OR_OTHER|||||||0.126||95.0||||For this randomized phase II we used a one sided test with a false positive(type I error)rate of 0.20 to assess whether additional studies of the experimental arm are warranted.|Chi-squared|1 sided||Data were compared between treatment groups using Chi Square test.||||0.126
92250770|NCT05441540|184404047|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92250771|NCT05441540|184404048|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92250772|NCT05441540|184404049|OTHER|||||||0.7613|||||||Kruskal-Wallis|||||||0.7613
92250773|NCT05441540|184404050|OTHER|||||||0.764|||||||Wilcoxon (Mann-Whitney)|||||||0.7640
92250774|NCT01359046|184404051|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.30
92250775|NCT01359046|184404052|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92265136|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.236||0.007|TWO_SIDED|95.0|-1.11|-0.18|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.18|-1.11|0.007
92176673|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-20.012||||0.4343|TWO_SIDED|95.0|-70.468|30.444|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||30.444|-70.468|0.4343
92176674|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-44.657||||0.0967|TWO_SIDED|95.0|-97.481|8.167|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||8.167|-97.481|0.0967
92176675|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-28.974||||0.4198|TWO_SIDED|95.0|-99.915|41.966|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||41.966|-99.915|0.4198
92176676|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-33.141||||0.2121|TWO_SIDED|95.0|-85.475|19.193|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||19.193|-85.475|0.2121
92182694|NCT01968967|184264552|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.0|STANDARD_ERROR_OF_MEAN|2.61|||TWO_SIDED|95.0|-49.1|-38.8||||||Week 24: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-38.8|-49.1|
92250776|NCT00270998|184404078|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492||||||A priori threshold for statistical significance set at p = 0.0492 to account for interim analysis|Regression, Logistic|||A priori, the combination treatment was considered superior (75% success rate) to either single-modality therapy (60% success rate) at 80% power with 150 participants per group.||||<0.0492
92250777|NCT00270998|184404078|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.02||||||A priori threshold for statistical significance set at p = 0.0492 to account for interim analysis|Regression, Logistic|||A priori, the combination treatment was considered superior (75% success rate) to either single-modality therapy (60% success rate) at 80% power with 150 participants per group.||||0.02
92250778|NCT00270998|184404078|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.49||||||A priori threshold for statistical significance set at p = 0.0492 to account for interim analysis|Regression, Logistic|||A priori, the combination treatment was considered superior (75% success rate) to either single-modality therapy (60% success rate) at 80% power with 150 participants per group.||||0.49
92250779|NCT00270998|184404079|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.006|||||||Regression, Logistic|||||||0.006
92250780|NCT00270998|184404079|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.048|||||||Regression, Logistic|||||||0.048
92182695|NCT01968967|184264552|SUPERIORITY_OR_OTHER||LS Mean Difference|-34.6|STANDARD_ERROR_OF_MEAN|2.83|||TWO_SIDED|95.0|-40.2|-29.0||||||Week 52: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-29.0|-40.2|
92182696|NCT01968967|184264553|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.5|STANDARD_ERROR_OF_MEAN|3.04|<|0.001|TWO_SIDED|95.0|-34.4|-22.5|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-22.5|-34.4|<0.001
92250781|NCT00270998|184404079|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.42|||||||Regression, Logistic|||||||0.42
92250782|NCT00270998|184404080|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250783|NCT00270998|184404080|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250784|NCT00270998|184404080|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250785|NCT00270998|184404081|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250786|NCT00270998|184404081|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250787|NCT00270998|184404081|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250788|NCT00270998|184404082|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250789|NCT00270998|184404082|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250790|NCT00270998|184404082|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250791|NCT00270998|184404083|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250792|NCT00270998|184404083|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250793|NCT00270998|184404083|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250794|NCT00270998|184404084|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.03|||||||Regression, Logistic|||||||0.03
92250795|NCT00270998|184404084|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.048|||||||Regression, Logistic|||||||0.048
92250796|NCT00270998|184404084|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250797|NCT00270998|184404085|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250798|NCT00270998|184404085|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92176677|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|15.799||||0.5445|TWO_SIDED|95.0|-35.614|67.212|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||67.212|-35.614|0.5445
92176678|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.583||||0.9534|TWO_SIDED|95.0|-51.951|55.116|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||55.116|-51.951|0.9534
92176679|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|7.584||||0.8366|TWO_SIDED|95.0|-65.126|80.295|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||80.295|-65.126|0.8366
92176680|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-55.973||||0.5437|TWO_SIDED|95.0|-154.862|42.916|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||42.916|-154.862|0.5437
92176681|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-73.308||||0.2974|TWO_SIDED|95.0|-177.224|30.608|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||30.608|-177.224|0.2974
92182697|NCT01968967|184264553|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.1|STANDARD_ERROR_OF_MEAN|4.86|||TWO_SIDED|95.0|-40.6|-21.5||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-21.5|-40.6|
92182698|NCT01968967|184264553|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.3|STANDARD_ERROR_OF_MEAN|5.89|||TWO_SIDED|95.0|-36.8|-13.7||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-13.7|-36.8|
92250799|NCT00270998|184404085|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
92250800|NCT00294684|184404141|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.14||||0.43|TWO_SIDED|95.0|0.83|1.57|||Log binomial|||RR greater than one indicates benefit of steriods and a P value of treatment success from a log-binomial model with these covariates: Treatment group, age a HPE, BASM as fixed effects, and site as a random effect.||1.57|0.83|0.43
92250801|NCT00294684|184404142|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.99|TWO_SIDED|95.0|0.6|1.8|||Regression, Cox|||||1.8|0.6|0.99
92250802|NCT00294684|184404143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.6||||0.0973|TWO_SIDED|95.0|-3.49|0.3|||Mixed Models Analysis|||LS Mean difference reported as steroid minus placebo (negative values mean larger average values of total bilirubin in placebo).||0.3|-3.49|0.0973
92250803|NCT00294684|184404144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.3||||0.0552|TWO_SIDED|95.0|-4.65|0.05|||Mixed Models Analysis|||LS Mean difference of steroid minus placebo (negative values indicate larger average values of bilirubin in placebo)||0.05|-4.65|0.0552
92250804|NCT00294684|184404145|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.39||||0.6607||95.0|-2.16|1.38|||Mixed Models Analysis|||LS Mean difference of steroid minus placebo (negative values indicate larger average bilirubin in placebo)||1.38|-2.16|0.6607
92250805|NCT00294684|184404146|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1603|||||||Mixed Models Analysis|||||||0.1603
92250806|NCT00294684|184404147|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2801|||||||Mixed Models Analysis|||||||0.2801
92250807|NCT00294684|184404148|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.4||||0.41|TWO_SIDED|95.0|0.62|3.14|||Log Binomial|||||3.14|0.62|0.41
92250808|NCT00294684|184404149|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.3||||0.29|TWO_SIDED|95.0|0.03|2.92|||Log Binomial|||||2.92|0.03|0.29
92250809|NCT01515488|184404158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.3|STANDARD_ERROR_OF_MEAN|5.2|<|0.0005|TWO_SIDED|95.0|22.1|42.6|||t-test, 2 sided|DF=331.2||||42.6|22.1|<0.0005
92250810|NCT01248364|184404162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.18||0.279|TWO_SIDED|95.0|-0.16|0.55|||ANCOVA|Based on ANCOVA with terms for baseline FPG, diagnosis group, and baseline FPG by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||0.55|-0.16|0.2790
92250811|NCT01248364|184404163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.2||0.2438|TWO_SIDED|95.0|-0.16|0.62|||ANCOVA|Based on ANCOVA with terms for baseline FPG, diagnosis group and baseline FPG by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||0.62|-0.16|0.2438
92250812|NCT01248364|184404164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.75||0.6931|TWO_SIDED|95.0|-1.19|1.79|||ANCOVA|Based on ANCOVA with terms for baseline EPG fast, diagnosis group and baseline EPG fast by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||1.79|-1.19|0.6931
92183105|NCT02434328|184264741|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-6.1|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.7|-6.1|
92250813|NCT01248364|184404165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.84|STANDARD_ERROR_OF_MEAN|1.12||0.1028|TWO_SIDED|95.0|-0.38|4.07|||ANCOVA|Based on ANCOVA with terms for baseline EPG fast, diagnosis group and baseline EPG fast by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||4.07|-0.38|0.1028
92250814|NCT01248364|184404166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.48|STANDARD_ERROR_OF_MEAN|2.52||0.0326|TWO_SIDED|95.0|0.47|10.5|||ANCOVA|Based on ANCOVA with terms for baseline EPG AUC 5h, diagnosis group and baseline EPG AUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||10.50|0.47|0.0326
92250815|NCT01248364|184404167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|0.81||0.0552|TWO_SIDED|95.0|-3.2|0.04|||ANCOVA|Based on ANCOVA with terms for baseline PPG iAUC 5h, diagnosis group and baseline PPG iAUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||0.04|-3.20|0.0552
92176682|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-44.892||||0.9026|TWO_SIDED|95.0|-181.909|92.126|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||92.126|-181.909|0.9026
92176683|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-35.811||||0.8954|TWO_SIDED|95.0|-132.513|60.891|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||60.891|-132.513|0.8954
92176684|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-46.239||||0.7485|TWO_SIDED|95.0|-146.766|54.288|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||54.288|-146.766|0.7485
92176685|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-36.559||||0.9578|TWO_SIDED|95.0|-169.77|96.653|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||96.653|-169.770|0.9578
92183106|NCT02434328|184264741|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-5.3|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.2|-5.3|
92250816|NCT01248364|184404168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.99||0.7561|TWO_SIDED|95.0|-1.66|2.27|||ANCOVA|Based on ANCOVA with terms for baseline PPG iAUC 5h, diagnosis group and baseline PPG iAUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||2.27|-1.66|0.7561
92182699|NCT01968967|184264554|SUPERIORITY_OR_OTHER||LS Mean Difference|5.8|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|4.5|7.0|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||7.0|4.5|<0.001
92250817|NCT01248364|184404169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.13|STANDARD_ERROR_OF_MEAN|1.89||0.1024|TWO_SIDED|95.0|-0.64|6.9|||ANCOVA|Based on ANCOVA with terms for baseline EPG AUC 5h, diagnosis group and baseline EPG AUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||6.90|-0.64|0.1024
92250818|NCT01248364|184404170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.31|STANDARD_ERROR_OF_MEAN|2.93||0.6576|TWO_SIDED|95.0|-4.53|7.14|||ANCOVA|Based on ANCOVA with terms for baseline EPG iAUC 5h, diagnosis group and baseline EPG iAUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||7.14|-4.53|0.6576
92250819|NCT01248364|184404171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.68|STANDARD_ERROR_OF_MEAN|3.38||0.2795|TWO_SIDED|95.0|-10.41|3.05|||ANCOVA|Based on ANCOVA with terms for baseline EPG iAUC 5h, diagnosis group and baseline EPG iAUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||3.05|-10.41|0.2795
92250820|NCT00996593|184404183|SUPERIORITY_OR_OTHER||Percentage of participants|65.0|||||TWO_SIDED|95.0|50.0|80.0|||||The estimated value represents the percentage of participants with complete response.|||80|50|
92250821|NCT00996593|184404184|SUPERIORITY_OR_OTHER||Percentage of participants|23.0|||||TWO_SIDED|95.0|10.0|35.0|||||The estimated value represents the percentage of participants with complete response.|||35|10|
92250822|NCT00996593|184404185|SUPERIORITY_OR_OTHER||Percentage of participants|38.0|||||TWO_SIDED|95.0|22.0|53.0|||||The estimated value represents the percentage of participants with complete response.|||53|22|
92250823|NCT00996593|184404186|SUPERIORITY_OR_OTHER||Percentage of participants|28.0|||||TWO_SIDED|95.0|14.0|41.0|||||The estimated value represents the percentage of participants with complete response.|||41|14|
92250824|NCT00996593|184404191|SUPERIORITY_OR_OTHER||Percentage of responders|75.0||||1|TWO_SIDED|95.0|54.0|96.0||With prior response|Fisher Exact||The estimated value represents the percentage of participants with response.|||96|54|1.0
92250825|NCT00996593|184404191|SUPERIORITY_OR_OTHER||Percentage of responders|70.0||||1|TWO_SIDED|95.0|51.0|88.0||Without prior response|Fisher Exact||The estimated value represents the percentage of participants with response.|||88|51|1.0
92250826|NCT00996593|184404192|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Fisher Exact|||||||0.8
92250827|NCT00996593|184404193|SUPERIORITY_OR_OTHER||Percentage of responders|31.0||||1|TWO_SIDED|95.0|9.0|54.0||With prior response|Fisher Exact||The estimated value represents the percentage of participants with response.|||54|9|1.0
92250828|NCT00996593|184404193|SUPERIORITY_OR_OTHER||Percentage of responders|17.0||||1|TWO_SIDED|95.0|2.0|33.0||Without prior response|Fisher Exact||The estimated value represents the percentage of participants with response.|||33|2|1.0
92250829|NCT00996593|184404194|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Fisher Exact|||||||0.2
92250830|NCT00996593|184404195|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Log Rank|||||||0.9
92250831|NCT01033487|184404208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0507|STANDARD_ERROR_OF_MEAN|0.0339|||ONE_SIDED|90.0|0.0059||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 90 percent (%) confidence interval (CI) was reported.|||0.0059|
92250832|NCT01033487|184404208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0788|STANDARD_ERROR_OF_MEAN|0.027|||ONE_SIDED|90.0|0.0431||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 90% CI was reported.|||0.0431|
92250833|NCT01033487|184404208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0927|STANDARD_ERROR_OF_MEAN|0.0277|||ONE_SIDED|90.0|0.056||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 90% CI was reported.|||0.0560|
92250834|NCT01033487|184404208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0613|STANDARD_ERROR_OF_MEAN|0.03|||ONE_SIDED|90.0|0.0215||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 90% CI was reported.|||0.0215|
92250835|NCT01033487|184404208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0105|STANDARD_ERROR_OF_MEAN|0.0309|||ONE_SIDED|80.0|-0.0371||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 80% CI was reported.|||-0.0371|
92250836|NCT01033487|184404208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0175|STANDARD_ERROR_OF_MEAN|0.0246|||ONE_SIDED|80.0|-0.0037||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 80% CI was reported.|||-0.0037|
92250837|NCT01033487|184404208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0315|STANDARD_ERROR_OF_MEAN|0.0294|||ONE_SIDED|80.0|0.0062||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 80% CI was reported.|||0.0062|
92250838|NCT01033487|184404217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0989|STANDARD_ERROR_OF_MEAN|0.242|||ONE_SIDED|90.0|0.0676||||ANOVA|||Mixed effects analysis of variance (ANOVA) was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.0676|
92250839|NCT01033487|184404217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1748|STANDARD_ERROR_OF_MEAN|0.0245|||ONE_SIDED|90.0|0.1431||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1431|
92250840|NCT01033487|184404217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1909|STANDARD_ERROR_OF_MEAN|0.0243|||ONE_SIDED|90.0|0.1594||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1594|
92250841|NCT01033487|184404217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1528|STANDARD_ERROR_OF_MEAN|0.0237|||ONE_SIDED|90.0|0.1222||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1222|
92250842|NCT01033487|184404217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0539|STANDARD_ERROR_OF_MEAN|0.0239|||ONE_SIDED|90.0|-0.0849||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||-0.0849|
92250843|NCT01033487|184404217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_DEVIATION|0.0238|||ONE_SIDED|90.0|-0.0088||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||-0.0088|
92283326|NCT01029353|184470430|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.82, 95% credible interval of (0.49, 1.33).|||
92250844|NCT01033487|184404217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0381|STANDARD_ERROR_OF_MEAN|0.0242|||ONE_SIDED|90.0|0.0068||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.0068|
92176686|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-40.725||||0.3635|TWO_SIDED|95.0|-129.208|47.757|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||47.757|-129.208|0.3635
92182700|NCT01968967|184264554|SUPERIORITY_OR_OTHER||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|4.2|6.8||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||6.8|4.2|
92250845|NCT01033487|184404218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0852|STANDARD_ERROR_OF_MEAN|0.0214|||ONE_SIDED|90.0|0.0576||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.0576|
92250846|NCT01033487|184404218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1418|STANDARD_ERROR_OF_MEAN|0.0219|||ONE_SIDED|90.0|0.1136||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1136|
92250847|NCT01033487|184404218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1692|STANDARD_ERROR_OF_MEAN|0.0216|||ONE_SIDED|90.0|0.1413||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1413|
92176687|NCT04800211|184247045|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-8.333||||0.8713|TWO_SIDED|95.0|-110.097|93.431|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||93.431|-110.097|0.8713
92250848|NCT01033487|184404218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1526|STANDARD_ERROR_OF_MEAN|0.0212|||ONE_SIDED|90.0|0.1252||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1252|
92250849|NCT01033487|184404218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0674|STANDARD_ERROR_OF_MEAN|0.0211|||ONE_SIDED|90.0|-0.0946||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||-0.0946|
92250850|NCT01033487|184404218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0108|STANDARD_ERROR_OF_MEAN|0.0213|||ONE_SIDED|90.0|-0.0383||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||-0.0383|
92250851|NCT01033487|184404218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0166|STANDARD_ERROR_OF_MEAN|0.213|||ONE_SIDED|90.0|-0.011||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||-0.0110|
92250852|NCT00735670|184404257|SUPERIORITY_OR_OTHER|||||||0.445|||||||Fisher Exact|||||||0.445
92250853|NCT00735670|184404258|SUPERIORITY_OR_OTHER||REML|-0.31||||0.725|TWO_SIDED|95.0|-0.48|-0.15||Comparison of venlafaxine vs. placebo on change of PHQ-9 over time controlling for baseline PHQ-9 score.|Mixed Models Analysis|||A linear mixed model (LMM) analysis was used and included a random intercept effect based on lowest Akaike's Information Criterion values when we compared three random coefficient models (intercept, slope and intercept and slope). To examine whether allocation group influenced the effect of time and baseline PHQ-9 sore on the trajectory of PHQ-9 scores, we included two interaction terms (time by allocation group and baseline PHQ-9 score by allocation group).||-0.15|-0.48|0.725
92250854|NCT04046341|184404263|OTHER|||||||0.008||||||A priori statistical significance threshold = p\<.05|McNemar|||||||.008
92250855|NCT04046341|184404264|SUPERIORITY|||||||0.014||||||A priori statistical significance threshold = p\<.05|t-test, 2 sided|||||||.014
92250856|NCT04046341|184404265|SUPERIORITY|||||||0.013||||||A priori statistical significance threshold = p\<.05|t-test, 2 sided|||||||.013
92250857|NCT04046341|184404266|SUPERIORITY|||||||0.001||||||A priori statistical significance threshold = p\<.05|t-test, 2 sided|||||||.001
92250858|NCT04046341|184404267|SUPERIORITY|||||||0.209||||||A priori statistical significance threshold = p\<.05|t-test, 2 sided|||||||.209
92176688|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-115.256||||0.0003|TWO_SIDED|95.0|-177.973|-52.539|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-52.539|-177.973|0.0003
92182701|NCT01968967|184264554|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|3.7|6.7||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||6.7|3.7|
92250859|NCT00435994|184404289|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANOVA|||||||0.0020
92250860|NCT00435994|184404290|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANOVA|||||||.0020
92250861|NCT03846219|184404305|SUPERIORITY||rate ratio|0.38||||0.0002|TWO_SIDED|95.0|0.22|0.64||A one-sided alpha level of 0.1 was used.|generalized linear model|Estimates were adjusted for baseline volume of T2 lesions, MRI field strength (1.5 or 3.0 Tesla), and baseline number of Gd+ lesions (0, ≥1).|Rate ratio of 45 mg IMU-838 / placebo|H0: cumulative number of CUA MRI lesions up to Week 24 with 45 mg IMU-838 equal to or higher than that with placebo. A generalized linear model with a negative binomial distribution and logarithmic link function was used. Log transformation of time from 1st IMP dose to date of last MRI assessment was used as offset term. 51 patients per group were necessary to have 80% power to detect a difference of 3.5 in mean event rate with a significance level 0.1, 1-sided.||0.64|0.22|0.0002
92250862|NCT03846219|184404306|SUPERIORITY||Rate ratio|0.3|||<|0.0001|TWO_SIDED|95.0|0.17|0.53||A hierarchical testing procedure with a one-sided alpha level of 0.1 was used.|Generalized linear model|Estimates were adjusted for baseline volume of T2 lesions, MRI field strength (1.5 or 3.0 Tesla), and baseline number of Gd+ lesions (0, ≥1).|Rate ratio of 30 mg IMU-838 / placebo|A generalized linear model with a negative binomial distribution and logarithmic link function was used. Log transformation of time from 1st IMP dose to date of last MRI assessment was used as offset term.||0.53|0.17|<.0001
92250863|NCT05109702|184404362|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.094||0.764|TWO_SIDED|95.0|-0.214|0.157|||MMRM|||The Least Square (LS) means, LS mean difference, Standard Errors (SEs), two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the Mixed model repeated measures (MMRM) model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.157|-0.214|0.764
92250864|NCT05109702|184404363|SUPERIORITY||LS Mean Difference|4.34|STANDARD_ERROR_OF_MEAN|2.969||0.144|TWO_SIDED|95.0|-1.483|10.155|||MMRM|||The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||10.155|-1.483|0.144
92250865|NCT05109702|184404364|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.094||0.056|TWO_SIDED|95.0|-0.005|0.363|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.363|-0.005|0.056
92250866|NCT05109702|184404364|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.094||0.064|TWO_SIDED|95.0|-0.01|0.359|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.359|-0.010|0.064
92250867|NCT05109702|184404364|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.095||0.328|TWO_SIDED|95.0|-0.093|0.279|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.279|-0.093|0.328
92250868|NCT05109702|184404364|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.096||0.837|TWO_SIDED|95.0|-0.208|0.168|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.168|-0.208|0.837
92250869|NCT05109702|184404365|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.079||0.686|TWO_SIDED|95.0|-0.123|0.187|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.187|-0.123|0.686
92250870|NCT05109702|184404365|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.079||0.68|TWO_SIDED|95.0|-0.123|0.188|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.188|-0.123|0.680
92250871|NCT05109702|184404365|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.08||0.529|TWO_SIDED|95.0|-0.107|0.207|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.207|-0.107|0.529
92250872|NCT05109702|184404365|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.081||0.745|TWO_SIDED|95.0|-0.132|0.185|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.185|-0.132|0.745
92250873|NCT05109702|184404366|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.085||0.765|TWO_SIDED|95.0|-0.141|0.192|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.192|-0.141|0.765
92250874|NCT05109702|184404366|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.085||0.053|TWO_SIDED|95.0|-0.002|0.331|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.331|-0.002|0.053
92250875|NCT05109702|184404366|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.086||0.552|TWO_SIDED|95.0|-0.117|0.219|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.219|-0.117|0.552
92250876|NCT05109702|184404366|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.087||0.593|TWO_SIDED|95.0|-0.216|0.124|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.124|-0.216|0.593
92250877|NCT05109702|184404367|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.087||0.884|TWO_SIDED|95.0|-0.183|0.158|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.158|-0.183|0.884
92250878|NCT05109702|184404367|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.087||0.474|TWO_SIDED|95.0|-0.109|0.233|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.233|-0.109|0.474
92250879|NCT05109702|184404367|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.088||0.202|TWO_SIDED|95.0|-0.06|0.285|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.285|-0.060|0.202
92250880|NCT05109702|184404367|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.089||0.013|TWO_SIDED|95.0|0.047|0.396|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.396|0.047|0.013
92182702|NCT01968967|184264555|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.7|STANDARD_ERROR_OF_MEAN|1.34|||TWO_SIDED|95.0|-53.3|-48.0||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-48.0|-53.3|
92176689|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-74.904||||0.0467|TWO_SIDED|95.0|-148.706|-1.102|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-1.102|-148.706|0.0467
92176690|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-144.035|||<|0.0001|TWO_SIDED|95.0|-206.668|-81.402|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-81.402|-206.668|<.0001
92176691|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-62.755||||0.0807|TWO_SIDED|95.0|-133.221|7.71|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||7.710|-133.221|0.0807
92176692|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-68.83||||0.0095|TWO_SIDED|95.0|-120.753|-16.907|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-16.907|-120.753|0.0095
92182703|NCT01968967|184264555|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.7|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-43.5|-37.8||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-37.8|-43.5|
92250881|NCT05109702|184404368|OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.09||0.604|TWO_SIDED|95.0|-0.131|0.224|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.224|-0.131|0.604
92265137|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.236||0.084|TWO_SIDED|95.0|-0.88|0.06|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||0.06|-0.88|0.084
92176693|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-1.593||||0.9586|TWO_SIDED|95.0|-61.873|58.687|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||58.687|-61.873|0.9586
92176694|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.635||||0.9402|TWO_SIDED|95.0|-71.714|66.443|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||66.443|-71.714|0.9402
92176695|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-113.663||||0.039|TWO_SIDED|95.0|-223.33|-3.996|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-3.996|-223.330|0.0390
92176696|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-72.269||||0.4543|TWO_SIDED|95.0|-199.091|54.554|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||54.554|-199.091|0.4543
92250882|NCT05109702|184404368|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.091||0.519|TWO_SIDED|95.0|-0.119|0.236|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.236|-0.119|0.519
92265138|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.238||0.002|TWO_SIDED|95.0|-1.2|-0.26|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.26|-1.20|0.002
92283327|NCT01029353|184470431|SUPERIORITY||Mean Difference (Final Values)|-6.01|||||TWO_SIDED|95.0|-12.77|0.75|||||Mean Difference (MD): Laparotomy minus Drain. MD from mixed model using PROC MIXED in SAS, center as random effect, and reference cell coding. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||0.75|-12.77|
92250883|NCT05109702|184404368|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.092||0.299|TWO_SIDED|95.0|-0.085|0.275|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.275|-0.085|0.299
92182704|NCT01968967|184264556|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|1.73|||TWO_SIDED|95.0|-20.0|-13.2||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-13.2|-20.0|
92250884|NCT05109702|184404368|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.093||0.124|TWO_SIDED|95.0|-0.039|0.324|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.324|-0.039|0.124
92250885|NCT05109702|184404369|SUPERIORITY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.215||0.293|TWO_SIDED|95.0|-0.196|0.647|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.647|-0.196|0.293
92250886|NCT05109702|184404369|SUPERIORITY||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.215||0.094|TWO_SIDED|95.0|-0.062|0.783|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.783|-0.062|0.094
92250887|NCT05109702|184404369|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.217||0.404|TWO_SIDED|95.0|-0.245|0.608|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.608|-0.245|0.404
92283328|NCT01029353|184470431|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using a hierarchical linear regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=1000), treatment, baseline risk, and preop diagnosis parameters = Normal(mean=0, variance=10), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median difference Initial Laparotomy minus Initial Drainage was -2.68, 95% credible interval of (-7.11, 1.83).|||
92250888|NCT05109702|184404369|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.22||0.806|TWO_SIDED|95.0|-0.485|0.377|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.377|-0.485|0.806
92250889|NCT05109702|184404370|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.157||0.824|TWO_SIDED|95.0|-0.273|0.343|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.343|-0.273|0.824
92250890|NCT05109702|184404370|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.157||0.437|TWO_SIDED|95.0|-0.186|0.431|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.431|-0.186|0.437
92250891|NCT05109702|184404370|SUPERIORITY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.159||0.193|TWO_SIDED|95.0|-0.105|0.519|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.519|-0.105|0.193
92283329|NCT01029353|184470432|SUPERIORITY||Mean Difference (Final Values)|-8.75|||||TWO_SIDED|95.0|-17.05|-0.46|||||Mean Difference (MD): Laparotomy minus Drain. MD from mixed model using PROC MIXED in SAS, center as random effect, and reference cell coding. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||-0.46|-17.05|
92283330|NCT01029353|184470432|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using a hierarchical linear regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=1000), treatment, baseline risk, and preop diagnosis parameters = Normal(mean=0, variance=10), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median difference Initial Laparotomy minus Initial Drainage was -3.23, 95% credible interval of (-8.08, 1.68).|||
92250892|NCT05109702|184404370|SUPERIORITY||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.161||0.024|TWO_SIDED|95.0|0.048|0.679|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.679|0.048|0.024
92250893|NCT05109702|184404371|SUPERIORITY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.329||0.43|TWO_SIDED|95.0|-0.386|0.907|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.907|-0.386|0.430
92283331|NCT01029353|184470433|SUPERIORITY||Mean Difference (Final Values)|6.59|||||TWO_SIDED|95.0|-9.09|22.27|||||Mean Difference (MD): Laparotomy minus Drain. MD from mixed model using PROC MIXED in SAS, center as random effect, and reference cell coding. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||22.27|-9.09|
92250894|NCT05109702|184404371|SUPERIORITY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.33||0.143|TWO_SIDED|95.0|-0.164|1.132|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||1.132|-0.164|0.143
92250895|NCT05109702|184404371|SUPERIORITY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.333||0.245|TWO_SIDED|95.0|-0.267|1.042|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||1.042|-0.267|0.245
92250896|NCT05109702|184404371|SUPERIORITY||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.337||0.359|TWO_SIDED|95.0|-0.352|0.97|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.970|-0.352|0.359
92250897|NCT05109702|184404372|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.067||0.016|TWO_SIDED|95.0|0.03|0.292|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.292|0.030|0.016
92250898|NCT05109702|184404372|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.067||0.099|TWO_SIDED|95.0|-0.021|0.242|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.242|-0.021|0.099
92250899|NCT05109702|184404372|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.068||0.493|TWO_SIDED|95.0|-0.086|0.179|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.179|-0.086|0.493
92250900|NCT05109702|184404372|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.068||0.987|TWO_SIDED|95.0|-0.133|0.135|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.135|-0.133|0.987
92250901|NCT05109702|184404373|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.072||0.655|TWO_SIDED|95.0|-0.109|0.173|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.173|-0.109|0.655
92250902|NCT05109702|184404373|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.072||0.826|TWO_SIDED|95.0|-0.157|0.125|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.125|-0.157|0.826
92250903|NCT05109702|184404373|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.073||0.861|TWO_SIDED|95.0|-0.155|0.13|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.130|-0.155|0.861
92250904|NCT05109702|184404373|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.073||0.556|TWO_SIDED|95.0|-0.101|0.187|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.187|-0.101|0.556
92176697|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-142.442||||0.0051|TWO_SIDED|95.0|-252.08|-32.805|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-32.805|-252.080|0.0051
92182705|NCT01968967|184264556|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|-20.7|-12.6||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-12.6|-20.7|
92250905|NCT05109702|184404374|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.087||0.527|TWO_SIDED|95.0|-0.116|0.226|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.226|-0.116|0.527
92250906|NCT05109702|184404374|SUPERIORITY||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.087||0.005|TWO_SIDED|95.0|0.077|0.418|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.418|0.077|0.005
92250907|NCT05109702|184404374|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.088||0.92|TWO_SIDED|95.0|-0.164|0.181|||MMRM|||Wek 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.181|-0.164|0.920
92250908|NCT05109702|184404374|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.089||0.286|TWO_SIDED|95.0|-0.08|0.269|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.269|-0.080|0.286
92283332|NCT01029353|184470433|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using a hierarchical linear regression. The SAS procedure PROC MCMC with reference coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=1000), treatment, baseline risk, and preop diagnosis parameters = Normal(mean=0, variance=10), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median difference Initial Laparotomy minus Initial Drainage was 1.65, 95% credible interval of (-3.97, 7.23).|||
92250909|NCT05109702|184404375|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.098||0.071|TWO_SIDED|95.0|-0.015|0.369|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.369|-0.015|0.071
92250910|NCT05109702|184404375|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.098||0.384|TWO_SIDED|95.0|-0.107|0.278|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.278|-0.107|0.384
92250911|NCT05109702|184404375|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.099||0.391|TWO_SIDED|95.0|-0.109|0.28|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.280|-0.109|0.391
92250912|NCT05109702|184404375|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.1||0.802|TWO_SIDED|95.0|-0.171|0.222|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.222|-0.171|0.802
92250913|NCT05109702|184404376|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.098||0.884|TWO_SIDED|95.0|-0.206|0.178|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.178|-0.206|0.884
92250914|NCT05109702|184404376|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.098||0.303|TWO_SIDED|95.0|-0.091|0.293|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.293|-0.091|0.303
92250915|NCT05109702|184404376|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.099||0.554|TWO_SIDED|95.0|-0.135|0.253|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.253|-0.135|0.554
92283333|NCT01029353|184470434|SUPERIORITY||Mean Difference (Final Values)|-2.56|||||TWO_SIDED|95.0|-13.02|7.91|||||Mean Difference (MD): Laparotomy minus Drain. MD from mixed model using PROC MIXED in SAS, center as random effect, and reference cell coding. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||7.91|-13.02|
92250916|NCT05109702|184404376|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.051|TWO_SIDED|95.0|-0.001|0.391|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.391|-0.001|0.051
92283334|NCT01029353|184470434|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using a hierarchical linear regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=1000), treatment, baseline risk, and preop diagnosis parameters = Normal(mean=0, variance=10), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median difference Initial Laparotomy minus Initial Drainage was -0.71, 95% credible interval of (-5.89, 4.48).|||
92250917|NCT05109702|184404377|SUPERIORITY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.17||0.131|TWO_SIDED|95.0|-0.077|0.591|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.591|-0.077|0.131
92283335|NCT01029353|184470435|SUPERIORITY||Mean Difference (Final Values)|-13.95|||||TWO_SIDED|95.0|-30.54|2.63|||||Mean Difference (MD): Laparotomy minus Drain. MD from mixed model using PROC MIXED in SAS, center as random effect, and reference cell coding. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||2.63|-30.54|
92182706|NCT01968967|184264556|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.8|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|-16.5|-9.0||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-9.0|-16.5|
92250918|NCT05109702|184404377|SUPERIORITY||LS Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.171||0.04|TWO_SIDED|95.0|0.016|0.685|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.685|0.016|0.040
92250919|NCT05109702|184404377|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.172||0.767|TWO_SIDED|95.0|-0.287|0.389|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.389|-0.287|0.767
92250920|NCT05109702|184404377|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.174||0.41|TWO_SIDED|95.0|-0.198|0.485|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.485|-0.198|0.410
92250921|NCT05109702|184404378|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.17||0.324|TWO_SIDED|95.0|-0.166|0.501|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.501|-0.166|0.324
92283336|NCT01029353|184470435|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using a hierarchical linear regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=1000), treatment, baseline risk, and preop diagnosis parameters = Normal(mean=0, variance=10), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median difference Initial Laparotomy minus Initial Drainage was -1.78, 95% credible interval of (-7.44, 3.87).|||
92283337|NCT01029353|184470436|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.64|1.04|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.04|0.64|
92283338|NCT01029353|184470436|SUPERIORITY||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.95|1.31|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.31|0.95|
92250922|NCT05109702|184404378|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.17||0.262|TWO_SIDED|95.0|-0.143|0.525|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.525|-0.143|0.262
92250923|NCT05109702|184404378|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.172||0.391|TWO_SIDED|95.0|-0.19|0.485|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.485|-0.190|0.391
92250924|NCT05109702|184404378|SUPERIORITY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.174||0.192|TWO_SIDED|95.0|-0.114|0.568|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.568|-0.114|0.192
92250925|NCT05109702|184404379|SUPERIORITY||LS Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.29||0.14|TWO_SIDED|95.0|-0.141|0.999|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.999|-0.141|0.140
92250926|NCT05109702|184404379|SUPERIORITY||LS Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.291||0.061|TWO_SIDED|95.0|-0.025|1.117|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||1.117|-0.025|0.061
92250927|NCT05109702|184404379|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.294||0.49|TWO_SIDED|95.0|-0.374|0.78|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.780|-0.374|0.490
92250928|NCT05109702|184404379|SUPERIORITY||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.297||0.212|TWO_SIDED|95.0|-0.212|0.953|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.953|-0.212|0.212
92182707|NCT01968967|184264557|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|2.4|4.3||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||4.3|2.4|
92250929|NCT05109702|184404380|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.06||0.784|TWO_SIDED|95.0|-0.134|0.101|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.101|-0.134|0.784
92250930|NCT05109702|184404380|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.06||0.324|TWO_SIDED|95.0|-0.058|0.176|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.176|-0.058|0.324
92283339|NCT01029353|184470436|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.81, 95% credible interval of (0.63, 1.00). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.09, 95% credible interval of (0.90, 1.33).|||
92176698|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-60.12||||0.6061|TWO_SIDED|95.0|-184.286|64.046|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||64.046|-184.286|0.6061
92176699|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-66.194||||0.1242|TWO_SIDED|95.0|-150.672|18.284|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||18.284|-150.672|0.1242
92182708|NCT01968967|184264557|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|2.5|4.5||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||4.5|2.5|
92250931|NCT05109702|184404380|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.06||0.13|TWO_SIDED|95.0|-0.027|0.21|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.210|-0.027|0.130
92250932|NCT05109702|184404380|SUPERIORITY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.061||0|TWO_SIDED|95.0|0.11|0.35|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.350|0.110|0.000
92250933|NCT05109702|184404381|SUPERIORITY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.623||0.532|TWO_SIDED|95.0|-0.834|1.613|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||1.613|-0.834|0.532
92250934|NCT05109702|184404381|SUPERIORITY||LS Mean Difference|0.72|STANDARD_ERROR_OF_MEAN|0.63||0.252|TWO_SIDED|95.0|-0.515|1.959|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||1.959|-0.515|0.252
92176700|NCT04800211|184247046|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-12.149||||0.8117|TWO_SIDED|95.0|-112.35|88.052|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||88.052|-112.350|0.8117
92182709|NCT01968967|184264557|SUPERIORITY_OR_OTHER||LS Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|2.7|4.9||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||4.9|2.7|
92250935|NCT05109702|184404381|SUPERIORITY||LS Mean Difference|1.98|STANDARD_ERROR_OF_MEAN|0.636||0.002|TWO_SIDED|95.0|0.732|3.231|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||3.231|0.732|0.002
92250936|NCT05109702|184404382|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.167||0.723|TWO_SIDED|95.0|-0.386|0.268|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.268|-0.386|0.723
92182710|NCT01968967|184264558|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-0.9|1.4||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||1.4|-0.9|
92250937|NCT05109702|184404382|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.167||0.254|TWO_SIDED|95.0|-0.519|0.137|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.137|-0.519|0.254
92176701|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-111.957||||0.0567|TWO_SIDED|95.0|-227.151|3.237|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.237|-227.151|0.0567
92176702|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-76.728||||0.2103|TWO_SIDED|95.0|-197.025|43.569|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||43.569|-197.025|0.2103
92250938|NCT05109702|184404382|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.169||0.034|TWO_SIDED|95.0|-0.69|-0.028|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||-0.028|-0.690|0.034
92182711|NCT01968967|184264558|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-0.1|2.3||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||2.3|-0.1|
92250939|NCT05109702|184404382|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.171||0.64|TWO_SIDED|95.0|-0.255|0.414|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.414|-0.255|0.640
92265139|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.447||0.785|TWO_SIDED|95.0|-0.78|1.02|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||1.02|-0.78|0.785
92265140|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.19|STANDARD_ERROR_OF_MEAN|0.465||0.014|TWO_SIDED|95.0|-2.13|-0.26|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||-0.26|-2.13|0.014
92250940|NCT05109702|184404383|SUPERIORITY|Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.|LS Mean Difference|1.45|STANDARD_DEVIATION|2.893||0.615|TWO_SIDED|95.0|-4.223|7.133|||MMRM|||||7.133|-4.223|0.615
92283340|NCT01029353|184470437|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.52|1.13|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.13|0.52|
92182712|NCT01968967|184264558|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|0.3|2.7||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||2.7|0.3|
92176703|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-169.735||||0.0052|TWO_SIDED|95.0|-288.22|-51.251|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-51.251|-288.220|0.0052
92176704|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-52.505||||0.349|TWO_SIDED|95.0|-162.721|57.711|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||57.711|-162.721|0.3490
92176705|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-11.413||||0.841|TWO_SIDED|95.0|-123.333|100.507|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||100.507|-123.333|0.8410
92182713|NCT01968967|184264559|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|1.73|||TWO_SIDED|95.0|-20.0|-13.2||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-13.2|-20.0|
92250941|NCT05109702|184404383|SUPERIORITY||LS Mean Difference|4.81|STANDARD_DEVIATION|2.894||0.097|TWO_SIDED|95.0|-0.866|10.494|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||10.494|-0.866|0.097
92250942|NCT05109702|184404383|SUPERIORITY||LS Mean Difference|1.06|STANDARD_DEVIATION|2.93||0.718|TWO_SIDED|95.0|-4.69|6.81|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||6.810|-4.690|0.718
92250943|NCT05109702|184404383|SUPERIORITY||LS Mean Difference|3.09|STANDARD_ERROR_OF_MEAN|2.963||0.298|TWO_SIDED|95.0|-2.728|8.903|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||8.903|-2.728|0.298
92176706|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-53.565||||0.3465|TWO_SIDED|95.0|-165.4|58.27|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||58.270|-165.400|0.3465
92176707|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-111.65||||0.0087|TWO_SIDED|95.0|-194.865|-28.435|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-28.435|-194.865|0.0087
92176708|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|63.944||||0.2688|TWO_SIDED|95.0|-49.678|177.565|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||177.565|-49.678|0.2688
92176709|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|151.222||||0.0096|TWO_SIDED|95.0|37.114|265.33|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||265.330|37.114|0.0096
92176710|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|182.631||||0.0023|TWO_SIDED|95.0|65.754|299.509|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||299.509|65.754|0.0023
92182714|NCT01968967|184264559|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|-20.7|-12.6||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-12.6|-20.7|
92182715|NCT01968967|184264559|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.8|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|-16.5|-9.0||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-9.0|-16.5|
92182716|NCT01968967|184264560|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.4|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|-63.1|-57.6||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-57.6|-63.1|
92250944|NCT05109702|184404384|SUPERIORITY||LS Mean Difference|2.67|STANDARD_ERROR_OF_MEAN|2.814||0.343|TWO_SIDED|95.0|-2.854|8.191|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||8.191|-2.854|0.343
92250945|NCT05109702|184404384|SUPERIORITY||LS Mean Difference|3.71|STANDARD_ERROR_OF_MEAN|2.814||0.188|TWO_SIDED|95.0|-1.813|9.232|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||9.232|-1.813|0.188
92250946|NCT05109702|184404384|SUPERIORITY||LS Mean Difference|2.55|STANDARD_ERROR_OF_MEAN|2.849||0.371|TWO_SIDED|95.0|-3.04|8.143|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||8.143|-3.040|0.371
92250947|NCT05109702|184404384|SUPERIORITY||LS Mean Difference|6.92|STANDARD_ERROR_OF_MEAN|2.883||0.017|TWO_SIDED|95.0|1.259|12.573|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||12.573|1.259|0.017
92283341|NCT01029353|184470437|SUPERIORITY||Risk Ratio (RR)|1.28|||||TWO_SIDED|95.0|0.79|2.06|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||2.06|0.79|
92182717|NCT01968967|184264561|SUPERIORITY_OR_OTHER||LS Mean Difference|-62.8|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-68.3|-57.3||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-57.3|-68.3|
92250948|NCT05109702|184404385|SUPERIORITY||LS Mean Difference|0.85|STANDARD_ERROR_OF_MEAN|2.7||0.754|TWO_SIDED|95.0|-4.452|6.147|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||6.147|-4.452|0.754
92250949|NCT05109702|184404385|SUPERIORITY||LS Mean Difference|2.43|STANDARD_ERROR_OF_MEAN|2.7||0.368|TWO_SIDED|95.0|-2.865|7.731|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||7.731|-2.865|0.368
92250950|NCT05109702|184404385|SUPERIORITY||LS Mean Difference|1.35|STANDARD_ERROR_OF_MEAN|2.734||0.621|TWO_SIDED|95.0|-4.014|6.715|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||6.715|-4.014|0.621
92250951|NCT05109702|184404385|SUPERIORITY||LS Mean Difference|4.74|STANDARD_ERROR_OF_MEAN|2.766||0.087|TWO_SIDED|95.0|-0.688|10.168|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||10.168|-0.688|0.087
92250952|NCT05109702|184404386|SUPERIORITY||LS Mean Difference|4.23|STANDARD_ERROR_OF_MEAN|2.646||0.11|TWO_SIDED|95.0|-0.958|9.425|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||9.425|-0.958|0.110
92250953|NCT05109702|184404386|SUPERIORITY||LS Mean Difference|2.66|STANDARD_ERROR_OF_MEAN|2.647||0.315|TWO_SIDED|95.0|-2.535|7.855|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||7.855|-2.535|0.315
92250954|NCT05109702|184404386|SUPERIORITY||LS Mean Difference|2.67|STANDARD_DEVIATION|2.678||0.318|TWO_SIDED|95.0|-2.582|7.928|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||7.928|-2.582|0.318
92250955|NCT05109702|184404386|SUPERIORITY||LS Mean Difference|2.79|STANDARD_ERROR_OF_MEAN|2.71||0.303|TWO_SIDED|95.0|-2.525|8.111|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||8.111|-2.525|0.303
92250956|NCT05109702|184404387|SUPERIORITY||LS Mean Difference|4.44|STANDARD_ERROR_OF_MEAN|2.975||0.136|TWO_SIDED|95.0|-1.402|10.273|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||10.273|-1.402|0.136
92250957|NCT05109702|184404387|SUPERIORITY||LS Mean Difference|4.13|STANDARD_ERROR_OF_MEAN|2.972||0.165|TWO_SIDED|95.0|-1.7|9.966|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||9.966|-1.700|0.165
92250958|NCT05109702|184404387|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|3.008||0.665|TWO_SIDED|95.0|-4.6|7.207|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||7.207|-4.600|0.665
92250959|NCT05109702|184404387|SUPERIORITY||LS Mean Difference|5.02|STANDARD_ERROR_OF_MEAN|3.043||0.099|TWO_SIDED|95.0|-0.95|10.995|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||10.995|-0.950|0.099
92250960|NCT05109702|184404388|SUPERIORITY||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|2.926||0.861|TWO_SIDED|95.0|-5.232|6.254|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||6.254|-5.232|0.861
92250961|NCT05109702|184404388|SUPERIORITY||LS Mean Difference|1.76|STANDARD_ERROR_OF_MEAN|2.925||0.548|TWO_SIDED|95.0|-3.983|7.497|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||7.497|-3.983|0.548
92250962|NCT05109702|184404388|SUPERIORITY||LS Mean Difference|3.97|STANDARD_ERROR_OF_MEAN|2.96||0.18|TWO_SIDED|95.0|-1.839|9.777|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||9.777|-1.839|0.180
92250963|NCT05109702|184404388|SUPERIORITY||LS Mean Difference|3.93|STANDARD_ERROR_OF_MEAN|2.993||0.189|TWO_SIDED|95.0|-1.941|9.807|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||9.807|-1.941|0.189
92250964|NCT05109702|184404389|SUPERIORITY||LS Mean Difference|1.32|STANDARD_ERROR_OF_MEAN|2.608||0.613|TWO_SIDED|95.0|-3.799|6.438|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||6.438|-3.799|0.613
92250965|NCT05109702|184404389|SUPERIORITY||LS Mean Difference|4.53|STANDARD_ERROR_OF_MEAN|2.609||0.083|TWO_SIDED|95.0|-0.586|9.653|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||9.653|-0.586|0.083
92250966|NCT05109702|184404389|SUPERIORITY||LS Mean Difference|3.67|STANDARD_ERROR_OF_MEAN|2.639||0.165|TWO_SIDED|95.0|-1.508|8.851|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||8.851|-1.508|0.165
92250967|NCT05109702|184404389|SUPERIORITY||LS Mean Difference|4.28|STANDARD_ERROR_OF_MEAN|2.672||0.11|TWO_SIDED|95.0|-0.964|9.522|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||9.522|-0.964|0.110
92250968|NCT05109702|184404390|SUPERIORITY||LS Mean Difference|3.57|STANDARD_ERROR_OF_MEAN|1.743||0.041|TWO_SIDED|95.0|0.154|6.994|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||6.994|0.154|0.041
92250969|NCT05109702|184404390|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|1.743||0.122|TWO_SIDED|95.0|-0.723|6.118|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||6.118|-0.723|0.122
92250970|NCT05109702|184404390|SUPERIORITY||LS Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|1.76||0.009|TWO_SIDED|95.0|1.146|8.056|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||8.056|1.146|0.009
92250971|NCT05109702|184404390|SUPERIORITY||LS Mean Difference|4.04|STANDARD_ERROR_OF_MEAN|1.781||0.024|TWO_SIDED|95.0|0.544|7.536|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||7.536|0.544|0.024
92182718|NCT01968967|184264562|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.0|STANDARD_ERROR_OF_MEAN|1.27|||TWO_SIDED|95.0|-63.5|-58.5||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-58.5|-63.5|
92283342|NCT01029353|184470437|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.82, 95% credible interval of (0.53, 1.20). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.18, 95% credible interval of (0.74, 1.87).|||
92250972|NCT05109702|184404391|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.13||0.282|TWO_SIDED|95.0|-0.115|0.394|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.394|-0.115|0.282
92250973|NCT05109702|184404391|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.13||0.353|TWO_SIDED|95.0|-0.134|0.375|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.375|-0.134|0.353
92283343|NCT01029353|184470438|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.42|1.27|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.27|0.42|
92250974|NCT05109702|184404391|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.131||0.764|TWO_SIDED|95.0|-0.297|0.218|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.218|-0.297|0.764
92250975|NCT05109702|184404391|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.133||0.104|TWO_SIDED|95.0|-0.044|0.476|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.476|-0.044|0.104
92182719|NCT01968967|184264563|SUPERIORITY_OR_OTHER||LS Mean Difference|-63.7|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-66.6|-60.9||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-60.9|-66.6|
92250976|NCT05109702|184404392|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.15||0.969|TWO_SIDED|95.0|-0.3|0.288|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.288|-0.300|0.969
92250977|NCT05109702|184404392|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.15||0.504|TWO_SIDED|95.0|-0.194|0.394|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.394|-0.194|0.504
92250978|NCT05109702|184404392|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.152||0.915|TWO_SIDED|95.0|-0.281|0.314|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.314|-0.281|0.915
92250979|NCT05109702|184404392|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.153||0.195|TWO_SIDED|95.0|-0.102|0.499|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.499|-0.102|0.195
92250980|NCT05109702|184404393|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.148||0.287|TWO_SIDED|95.0|-0.133|0.449|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.449|-0.133|0.287
92283344|NCT01029353|184470438|SUPERIORITY||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.85|1.45|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.45|0.85|
92287044|NCT01415232|184479278|NON_INFERIORITY_OR_EQUIVALENCE|Balki et al found a Pearson's correlation coefficient between the UD and ND depth of 0.85 (95% CI 0.75-0.91). We believe EDE + US would result in a correlation coefficient of approximately 0.91. To keep the lower bound estimate within 0.04 of a correlation of 0.91, and to maintain a 95% confidence level, 140 patients would need to be sampled. To allow for patients who may not complete the study, 160 patients were enrolled.|correlation coefficient|0.91|||<|0.05|TWO_SIDED|95.0|0.87|0.93|||longitudinal correlation coefficient|||Pearson's correlation coefficient was calculated for epidural distance measurements which included actual clinical epidural needle depth (ND) and the epidural depth equation (EDE), ND and prior EDE + US midline longitudinal plane view, ND and prior EDE + US transverse plane view.||0.93|0.87|< 0.05
92250981|NCT05109702|184404393|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.148||0.26|TWO_SIDED|95.0|-0.124|0.458|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.458|-0.124|0.260
92250982|NCT05109702|184404393|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.15||0.987|TWO_SIDED|95.0|-0.296|0.291|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.291|-0.296|0.987
92250983|NCT05109702|184404393|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.151||0.143|TWO_SIDED|95.0|-0.075|0.519|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.519|-0.075|0.143
92250984|NCT05109702|184404394|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.151||-0.198|TWO_SIDED|95.0|-0.102|0.49|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.490|-0.102|-0.198
92250985|NCT05109702|184404394|SUPERIORITY||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.151||0.076|TWO_SIDED|95.0|-0.028|0.564|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.564|-0.028|0.076
92250986|NCT05109702|184404394|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.152||0.656|TWO_SIDED|95.0|-0.231|0.367|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.367|-0.231|0.656
92287045|NCT01415232|184479278|NON_INFERIORITY_OR_EQUIVALENCE|correlation coefficient|transverse plane correlation coefficient|0.9|||>|0.85|TWO_SIDED|95.0|0.87|0.93|||transverse plane correlation coefficient|||Transverse plane correlation coefficient||0.93|0.87|>0.85
92287046|NCT01415232|184479278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.64|STANDARD_DEVIATION|1.0|>|0.05|TWO_SIDED|95.0|6.5|6.8|||t-test, 2 sided|||Clinical epidural needle depth||6.8|6.5|>0.05
92287047|NCT01415232|184479278|SUPERIORITY_OR_OTHER||Formula calculation|6.54|STANDARD_DEVIATION|0.68|>|0.05|TWO_SIDED|95.0|6.44|6.65|||Formula calculation||Estimated epidural depth equation depth (cm)|Estimated epidural depth equation depth (cm)||6.65|6.44|>0.05
92287048|NCT03570749|184479284|SUPERIORITY||Odds Ratio (OR)|5.75|||<|0.001|TWO_SIDED|95.0|2.75|12.02|||Regression, Logistic|||||12.02|2.75|<0.001
92283345|NCT01029353|184470438|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Pre-operative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.76, 95% credible interval of (0.48, 1.18). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.08, 95% credible interval of (0.83, 1.42).|||
92287049|NCT03570749|184479284|SUPERIORITY||Odds Ratio (OR)|11.8|||<|0.001|TWO_SIDED|95.0|5.89|23.62|||Regression, Logistic|||||23.62|5.89|<0.001
92283346|NCT01029353|184470439|SUPERIORITY||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.47|1.05|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.05|0.47|
92287050|NCT03570749|184479285|SUPERIORITY||Odds Ratio (OR)|3.92|||<|0.001|TWO_SIDED|95.0|1.81|8.51|||Regression, Logistic|||||8.51|1.81|<0.001
92287051|NCT03570749|184479285|SUPERIORITY||Odds Ratio (OR)|10.26|||<|0.001|TWO_SIDED|95.0|5.05|20.87|||Regression, Logistic|||||20.87|5.05|<0.001
92250987|NCT05109702|184404394|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.154||0.324|TWO_SIDED|95.0|-0.15|0.454|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.454|-0.150|0.324
92250988|NCT05109702|184404395|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.146||0.477|TWO_SIDED|95.0|-0.182|0.39|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.390|-0.182|0.477
92250989|NCT05109702|184404395|SUPERIORITY||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.146||0.033|TWO_SIDED|95.0|0.026|0.598|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.598|0.026|0.033
92287052|NCT03570749|184479286|SUPERIORITY||Odds Ratio (OR)|5.58||||0.001|TWO_SIDED|95.0|1.97|15.83|||Regression, Logistic|||||15.83|1.97|0.001
92250990|NCT05109702|184404395|SUPERIORITY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.147||0.374|TWO_SIDED|95.0|-0.158|0.42|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.420|-0.158|0.374
92250991|NCT05109702|184404395|SUPERIORITY||LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.149||0.114|TWO_SIDED|95.0|-0.056|0.529|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.529|-0.056|0.114
92250992|NCT05109702|184404396|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.329||0.598|TWO_SIDED|95.0|-0.822|0.475|||t-test, 2 sided|||Immediately Upon Instillation at Week 1||0.475|-0.822|0.598
92287053|NCT03570749|184479286|SUPERIORITY||Odds Ratio (OR)|14.34|||<|0.001|TWO_SIDED|95.0|5.3|38.83|||Regression, Logistic|||||38.83|5.30|<0.001
92250993|NCT05109702|184404396|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.268||0.343|TWO_SIDED|95.0|-0.783|0.273|||t-test, 2 sided|||1 Minute Post Instillation at Week 1||0.273|-0.783|0.343
92250994|NCT05109702|184404396|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.25||0.359|TWO_SIDED|95.0|-0.721|0.262|||t-test, 2 sided|||2 Minutes Post Instillation at Week 1||0.262|-0.721|0.359
92283347|NCT01029353|184470439|SUPERIORITY||Risk Ratio (RR)|0.95|||||TWO_SIDED|95.0|0.76|1.19|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.19|0.76|
92283348|NCT01029353|184470439|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.73, 95% credible interval of (0.52, 0.96). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.95, 95% credible interval of (0.68, 1.32).|||
92283349|NCT01029353|184470440|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.61|1.06|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.06|0.61|
92250995|NCT00788697|184404397|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|11.3||||0.0754|TWO_SIDED|95.0|-1.0|23.6|||McNemar|||||23.6|-1.0|0.0754
92250996|NCT00788697|184404397|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|19.4||||0.0011|TWO_SIDED|95.0|8.3|30.5|||McNemar|||||30.5|8.3|0.0011
92250997|NCT00788697|184404397|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|-19.4||||0.0016|TWO_SIDED|95.0|-30.9|-7.8|||McNemar|||||-7.8|-30.9|0.0016
92250998|NCT00788697|184404398|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|47.4|||<|0.0001|TWO_SIDED|95.0|37.4|57.4|||McNemar|||||57.4|37.4|<.0001
92250999|NCT00788697|184404398|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|60.3|||<|0.0001|TWO_SIDED|95.0|50.5|70.2|||McNemar|||||70.2|50.5|<.0001
92251000|NCT00788697|184404398|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|29.3|||<|0.0001|TWO_SIDED|95.0|19.7|38.9|||McNemar|||||38.9|19.7|<.0001
92251001|NCT00788697|184404399|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|28.8|||<|0.0001|TWO_SIDED|95.0|20.5|37.0|||McNemar|||||37.0|20.5|<.0001
92251002|NCT00788697|184404399|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|39.2|||<|0.0001|TWO_SIDED|95.0|31.3|47.1|||McNemar|||||47.1|31.3|<.0001
92251003|NCT00788697|184404399|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|4.2||||0.3173|TWO_SIDED|95.0|-4.0|12.3|||McNemar|||||12.3|-4.0|0.3173
92251004|NCT00788697|184404400|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
92251005|NCT00788697|184404400|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
92251006|NCT00788697|184404400|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Wald Test|||||||0.0004
92176711|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-175.901||||0.1612|TWO_SIDED|95.0|-390.865|39.063|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||39.063|-390.865|0.1612
92176712|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-227.95||||0.0396|TWO_SIDED|95.0|-448.725|-7.175|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-7.175|-448.725|0.0396
92176713|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-352.366||||0.0002|TWO_SIDED|95.0|-573.315|-131.418|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-131.418|-573.315|0.0002
92176714|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-116.449||||0.5616|TWO_SIDED|95.0|-327.445|94.547|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||94.547|-327.445|0.5616
92176715|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-162.635||||0.2176|TWO_SIDED|95.0|-375.57|50.299|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||50.299|-375.570|0.2176
92251007|NCT00788697|184404401|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
92251008|NCT00788697|184404401|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
92251009|NCT00788697|184404401|SUPERIORITY_OR_OTHER|||||||0.761|||||||Wald Test|||||||0.7610
92251010|NCT00014911|184404424|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|44.0|||||TWO_SIDED|95.0|30.0|61.0|||Fisher Exact|||||61|30|
92251011|NCT00014911|184404425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|28.0|||||TWO_SIDED|95.0|16.0|44.0|||Fisher Exact|||||44|16|
92251012|NCT00014911|184404426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|58.0|||||TWO_SIDED|95.0|42.0|63.0|||Fisher Exact|||||63|42|
92265141|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.448||0.931|TWO_SIDED|95.0|-0.94|0.86|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.86|-0.94|0.931
92251013|NCT05064332|184404432|OTHER||Ratio of Adjusted Geometric Means|101.43|||||TWO_SIDED|90.0|93.01|110.61||||||OC alone as the Reference and co-administration of PF-06650833 and OC as the Test. Natural log transformed AUClast was analyzed using a mixed effects model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||110.61|93.01|
92251014|NCT05064332|184404433|OTHER||Ratio of Adjusted Geometric Means|108.51|||||TWO_SIDED|90.0|98.85|119.11||||||OC alone as the Reference and co-administration of PF-06650833 and OC as the Test. Natural log transformed AUClast was analyzed using a mixed effects model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||119.11|98.85|
92251015|NCT05064332|184404434|OTHER||Ratio of Adjusted Geometric Means|95.07|||||TWO_SIDED|90.0|84.44|107.04||||||OC alone as the Reference and co-administration of PF-06650833 and OC as the Test. Natural log transformed Cmax was analyzed using a mixed effects model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||107.04|84.44|
92251016|NCT05064332|184404435|OTHER||Ratio of Adjusted Geometric Means|117.99|||||TWO_SIDED|90.0|101.82|136.73||||||OC alone as the Reference and co-administration of PF-06650833 and OC as the Test. Natural log transformed Cmax was analyzed using a mixed effects model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||136.73|101.82|
92251017|NCT01569087|184404444|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||||||<0.05
92283350|NCT01029353|184470440|SUPERIORITY||Risk Ratio (RR)|1.17|||||TWO_SIDED|95.0|1.01|1.37|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.37|1.01|
92287054|NCT03570749|184479287|SUPERIORITY||Odds Ratio (OR)|10.34|||<|0.001|TWO_SIDED|95.0|2.72|39.3|||Regression, Logistic|||||39.30|2.72|<0.001
92251018|NCT04532918|184404450|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|255.3|||||TWO_SIDED|90.0|208.7|312.3|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of Cmax||312.3|208.7|
92251019|NCT04532918|184404450|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|189.5|||||TWO_SIDED|90.0|154.0|233.1|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax||233.1|154.0|
92251020|NCT04532918|184404451|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|238.4|||||TWO_SIDED|90.0|207.6|273.8|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUCinf||273.8|207.6|
92251021|NCT04532918|184404451|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|148.9|||||TWO_SIDED|90.0|129.1|171.7|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUCinf||171.7|129.1|
92251022|NCT04532918|184404452|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|261.8|||||TWO_SIDED|90.0|229.8|298.1|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUClast||298.1|229.8|
92251023|NCT04532918|184404452|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|163.2|||||TWO_SIDED|90.0|142.8|186.6|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUClast||186.6|142.8|
92251024|NCT04532918|184404453|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|273.4|||||TWO_SIDED|90.0|227.9|328.1|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of Cmax for metabolite: M1||328.1|227.9|
92287055|NCT03570749|184479287|SUPERIORITY||Odds Ratio (OR)|18.47|||<|0.001|TWO_SIDED|95.0|5.04|67.68|||Regression, Logistic|||||67.68|5.04|<0.001
92251025|NCT04532918|184404453|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|275.9|||||TWO_SIDED|90.0|228.7|332.7|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax for metabolite: M1||332.7|228.7|
92251026|NCT04532918|184404453|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|24.65|||||TWO_SIDED|90.0|19.15|31.72|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of Cmax for metabolite: M8||31.72|19.15|
92287056|NCT03570749|184479288|SUPERIORITY||Odds Ratio (OR)|6.6|||<|0.001|TWO_SIDED|95.0|2.34|18.62|||Regression, Logistic|||||18.62|2.34|<0.001
92251027|NCT04532918|184404453|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|37.82|||||TWO_SIDED|90.0|29.18|49.03|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax for metabolite: M8||49.03|29.18|
92287057|NCT03570749|184479288|SUPERIORITY||Odds Ratio (OR)|13.58|||<|0.001|TWO_SIDED|95.0|5.01|36.81|||Regression, Logistic|||||36.81|5.01|<0.001
92287058|NCT03570749|184479289|SUPERIORITY||Odds Ratio (OR)|4.63||||0.012|TWO_SIDED|95.0|1.41|15.27|||Regression, Logistic|||||15.27|1.41|0.012
92176716|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-236.196||||0.0242|TWO_SIDED|95.0|-451.334|-21.059|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-21.059|-451.334|0.0242
92182720|NCT01968967|184264564|SUPERIORITY_OR_OTHER||LS Mean Difference|-66.4|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-69.3|-63.6||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-63.6|-69.3|
92182721|NCT01968967|184264565|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.8|STANDARD_ERROR_OF_MEAN|0.97|||TWO_SIDED|95.0|-47.7|-43.9||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-43.9|-47.7|
92251028|NCT04532918|184404454|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|291.8|||||TWO_SIDED|90.0|260.6|326.8|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for metabolite: M1||326.8|260.6|
92251029|NCT04532918|184404454|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|215.8|||||TWO_SIDED|90.0|192.0|242.4|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax for metabolite: M1||242.4|192.0|
92251030|NCT04532918|184404454|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|55.31|||||TWO_SIDED|90.0|47.19|64.83|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for metabolite: M8||64.83|47.19|
92251031|NCT04532918|184404454|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|68.28|||||TWO_SIDED|90.0|57.99|80.39|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for metabolite: M8||80.39|57.99|
92251032|NCT04532918|184404455|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|306.4|||||TWO_SIDED|90.0|273.3|343.6|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUClast for metabolite: M1||343.6|273.3|
92287059|NCT03570749|184479289|SUPERIORITY||Odds Ratio (OR)|14.42|||<|0.001|TWO_SIDED|95.0|4.73|43.93|||Regression, Logistic|||||43.93|4.73|<0.001
92287060|NCT03570749|184479290|SUPERIORITY||Mean Difference (Final Values)|-23.1|STANDARD_ERROR_OF_MEAN|3.806|<|0.001|TWO_SIDED|95.0|-30.57|-15.63|||ANCOVA|||||-15.63|-30.57|<0.001
92287061|NCT03570749|184479290|SUPERIORITY||Mean Difference (Final Values)|-37.65|STANDARD_ERROR_OF_MEAN|3.447|<|0.001|TWO_SIDED|95.0|-44.24|-30.89|||ANCOVA|||||-30.89|-44.24|<0.001
92287062|NCT03570749|184479291|SUPERIORITY||Odds Ratio (OR)|2.31||||0.047|TWO_SIDED|95.0|1.01|5.29|||Regression, Logistic|||||5.29|1.01|0.047
92251033|NCT04532918|184404455|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|227.4|||||TWO_SIDED|90.0|202.1|255.8|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUClast for metabolite: M1||255.8|202.1|
92287063|NCT03570749|184479291|SUPERIORITY||Odds Ratio (OR)|6.03|||<|0.001|TWO_SIDED|95.0|2.91|12.51|||Regression, Logistic|||||12.51|2.91|<0.001
92287064|NCT03570749|184479293|SUPERIORITY||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.288||0.005|TWO_SIDED|95.0|-1.38|-0.25|||ANCOVA|||||-0.25|-1.38|0.005
92251034|NCT04532918|184404455|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|51.03|||||TWO_SIDED|90.0|43.8|59.45|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUClast for metabolite: M8||59.45|43.80|
92251035|NCT04532918|184404455|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|70.45|||||TWO_SIDED|90.0|60.21|82.44|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUClast for metabolite: M8||82.44|60.21|
92287065|NCT03570749|184479293|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.261||0.04|TWO_SIDED|95.0|-1.05|-0.02|||ANCOVA|||||-0.02|-1.05|0.040
92287066|NCT03570749|184479294|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.259||0.107|TWO_SIDED|95.0|-0.93|0.09|||ANCOVA|||||0.09|-0.93|0.107
92251036|NCT04532918|184404456|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|74.84|||||TWO_SIDED|90.0|59.42|94.26|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of Cmax for allopurinol||94.26|59.42|
92251037|NCT04532918|184404456|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|80.99|||||TWO_SIDED|90.0|63.88|102.7|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax for allopurinol||102.7|63.88|
92251038|NCT04532918|184404456|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|96.86|||||TWO_SIDED|90.0|92.11|101.8|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of Cmax for oxypurinol||101.8|92.11|
92251039|NCT04532918|184404456|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|99.07|||||TWO_SIDED|90.0|94.36|104.0|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax for oxypurinol||104.0|94.36|
92251040|NCT04532918|184404457|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|98.29|||||TWO_SIDED|90.0|91.26|105.9|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for allopurinol||105.9|91.26|
92251041|NCT04532918|184404457|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|101.2|||||TWO_SIDED|90.0|93.72|109.2|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for allopurinol||109.2|93.72|
92251042|NCT04532918|184404457|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|99.16|||||TWO_SIDED|90.0|95.02|103.5|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for oxypurinol||103.5|95.02|
92251043|NCT04532918|184404457|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|96.05|||||TWO_SIDED|90.0|92.15|100.1|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for oxypurinol||100.1|92.15|
92287067|NCT03570749|184479294|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.234||0.174|TWO_SIDED|95.0|-0.78|0.14|||ANCOVA|||||0.14|-0.78|0.174
92251044|NCT04532918|184404458|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|98.25|||||TWO_SIDED|90.0|91.1|106.0|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUClast for allopurinol||106.0|91.10|
92251045|NCT04532918|184404458|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|101.6|||||TWO_SIDED|90.0|93.99|109.8|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUClast for allopurinol||109.8|93.99|
92251046|NCT04532918|184404458|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|98.05|||||TWO_SIDED|90.0|94.5|101.7|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUClast for oxypurinol||101.7|94.50|
92251047|NCT04532918|184404458|OTHER||Geometric Mean Ratio (%)|95.98|||||TWO_SIDED|90.0|92.61|99.48|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects||99.48|92.61|
92251048|NCT01094808|184404490|SUPERIORITY_OR_OTHER||mean value for 200 mg Pregabalin|33.391|STANDARD_DEVIATION|22.106||0.14||95.0||||P-value not adjusted for multiple comparisons; alpha level of 0.05 used|ANCOVA||A confidence interval was not calculated|ANCOVA for overall treatment effects||||0.14
92251049|NCT01094808|184404491|SUPERIORITY_OR_OTHER||mean value for 200 mg Pregabalin|35.301|STANDARD_DEVIATION|22.295||0.12||95.0||||P-value not adjusted for multiple comparisons; alpha level of 0.05 used|ANCOVA||A confidence interval was not calculated|ANCOVA for overall treatment effects||||0.12
92251050|NCT00443846|184404544|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower bound of the 95% confidence interval of the difference (Group 1 - Group 2) in seroprotection rate was greater than -10%.|Difference (Group 1 - Group 2)|0.0|||||TWO_SIDED|95.0|-3.7|3.7||||||Analysis of non-inferiority was based on the Miettinen and Nurminen method||3.7|-3.7|
92251051|NCT03051217|184404548|SUPERIORITY||Estimated difference in responder rate|65.1|||||TWO_SIDED|95.0|48.22|81.9|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||81.90|48.22|
92251052|NCT03051217|184404548|SUPERIORITY||Estimated difference in responder rate|79.1|||||TWO_SIDED|95.0|65.1|93.17|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||93.17|65.10|
92287068|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|0.111|||<|0.001|TWO_SIDED|95.0|0.05|0.171|||ANCOVA|||"Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~The primary endpoint was analyzed using an analysis of covariance (ANCOVA) including treatment, period, and patient as fixed effects and baseline as a covariate. The confidence intervals (CIs) and the p-values of the comparisons between each dose of CHF 1531 pMDI and Placebo at Day 14 were adjusted for multiplicity, based on the parametric simulation method of Edwards and Berry."||0.171|0.050|<0.001
92287069|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|0.158|||<|0.001|TWO_SIDED|95.0|0.095|0.22|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.220|0.095|<0.001
92287070|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|0.133|||<|0.001|TWO_SIDED|95.0|0.072|0.194|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.194|0.072|<0.001
92251053|NCT03051217|184404548|SUPERIORITY||Odds Ratio (OR)|31.695|||<|0.0001|TWO_SIDED|97.5|5.129|195.877||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||195.877|5.129|<0.0001
92251054|NCT03051217|184404548|SUPERIORITY||Odds Ratio (OR)|79.112|||<|0.0001|TWO_SIDED|97.5|11.739|533.168||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||533.168|11.739|<0.0001
92251055|NCT03051217|184404549|SUPERIORITY||Estimated difference in responder rate|52.7|||||TWO_SIDED|95.0|29.95|75.39|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||75.39|29.95|
92251056|NCT03051217|184404549|SUPERIORITY||Estimated difference in responder rate|66.7|||||TWO_SIDED|95.0|43.34|90.15|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||90.15|43.34|
92287071|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|0.167|||<|0.001|TWO_SIDED|95.0|0.109|0.225|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.225|0.109|<0.001
92251057|NCT03051217|184404549|SUPERIORITY||Odds Ratio (OR)|38.193|||<|0.0001|TWO_SIDED|97.5|6.113|238.619||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||238.619|6.113|<0.0001
92251058|NCT03051217|184404549|SUPERIORITY||Odds Ratio (OR)|69.58|||<|0.0001|TWO_SIDED|97.5|11.138|434.659||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||434.659|11.138|<0.0001
92251059|NCT03051217|184404550|SUPERIORITY||Estimated difference in responder rate|53.6|||||TWO_SIDED|95.0|30.67|76.47|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||76.47|30.67|
92251060|NCT03051217|184404550|SUPERIORITY||Estimated difference in responder rate|75.5|||||TWO_SIDED|95.0|51.95|99.04|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||99.04|51.95|
92251061|NCT03051217|184404550|SUPERIORITY||Odds Ratio (OR)|38.696|||<|0.0001|TWO_SIDED|97.5|6.047|247.634||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||247.634|6.047|<0.0001
92251062|NCT03051217|184404550|SUPERIORITY||Odds Ratio (OR)|100.459|||<|0.0001|TWO_SIDED|97.5|15.54|649.437||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||649.437|15.540|<0.0001
92251063|NCT03051217|184404551|SUPERIORITY||Adjusted Mean Treatment Difference|-6.5|||<|0.0001|TWO_SIDED|97.5|-9.1|-3.844||p-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group and prior biologic exposure as factors and Baseline DLQI score as a covariate.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||-3.844|-9.100|<0.0001
92251064|NCT03051217|184404551|SUPERIORITY||Adjusted Mean Treatment Difference|-6.5|||<|0.0001|TWO_SIDED|97.5|-9.099|-3.91||p-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group and prior biologic exposure as factors and Baseline DLQI score as a covariate.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||-3.910|-9.099|<0.0001
92251065|NCT03051217|184404552|SUPERIORITY||Adjusted Mean Treatment Difference|-3.1|||<|0.0001|TWO_SIDED|95.0|-4.265|-2.002||p-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline Itch NRS with treatment group and prior biologic exposure as factors and Baseline Itch NRS as a covariate.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||-2.002|-4.265|<0.0001
92251066|NCT03051217|184404552|SUPERIORITY||Adjusted Mean Treatment Difference|-4.2|||<|0.0001|TWO_SIDED|95.0|-5.295|-3.069||p-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline Itch NRS with treatment group and prior biologic exposure as factors and Baseline Itch NRS as a covariate.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||-3.069|-5.295|<0.0001
92251067|NCT00109772|184404555|SUPERIORITY_OR_OTHER|||||||0.894||95.0|||||Cochran-Mantel-Haenszel|controlled for centers||||||.8940
92287072|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|0.144|||<|0.001|TWO_SIDED|95.0|0.098|0.19|||ANCOVA|||"Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~The statistical analysis was performed using an analysis of covariance (ANCOVA) including treatment, period, and patient as fixed effects, and baseline as a covariate."||0.190|0.098|<0.001
92251068|NCT01989754|184404572|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.57|0.73|||Cox proportional hazard method|||||0.73|0.57|<.0001
92251069|NCT01989754|184404573|SUPERIORITY||Hazard Ratio (HR)|0.72|||=|0.0148|TWO_SIDED|95.0|0.55|0.94|||Stratified Cox proportional hazard|||||0.94|0.55|=0.0148
92251070|NCT01989754|184404574|SUPERIORITY||Hazard Ratio (HR)|0.86|||=|0.4067|TWO_SIDED|95.0|0.61|1.22|||Stratified Cox proportional hazard|||||1.22|0.61|=0.4067
92287073|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.059|TWO_SIDED|95.0|-0.002|0.095|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~The statistical analysis was performed using an analysis of covariance (ANCOVA) including treatment, period, and patient as fixed effects, and baseline as a covariate."||0.095|-0.002|0.059
92176717|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-294.281|||<|0.0001|TWO_SIDED|95.0|-434.513|-154.05|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-154.050|-434.513|<.0001
92182722|NCT01968967|184264566|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.6|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-11.8|-9.3||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-9.3|-11.8|
92251071|NCT03437044|184404577|SUPERIORITY|||||||0.001|||||||ANCOVA|the corresponding baseline value of platelet reactivity was used as covariate||||||0.001
92251072|NCT03437044|184404578|SUPERIORITY||||||<|0.001|||||||ANCOVA|the corresponding baseline value of platelet reactivity was used as covariate||||||<0.001
92251073|NCT03364491|184404620|SUPERIORITY|Model included treatment and preoperative hemoglobin level \<8 g/dL (yes/no) as covariates. We estimated that a total sample size of 11,000 participants (5,500 per group) would achieve 85% power to detect a 33% lower incidence of the primary outcome (1.67%) in the TXA group, at a type I error rate (two-sided) of 5%.|Risk Ratio (RR)|0.89||||0.19|TWO_SIDED|95.26|0.74|1.07||Following two interim analyses, a two-tailed P value of less than 0.047 was considered to indicate statistical significance.|Other (Log-binomial regression model)|||||1.07|0.74|0.19
92251074|NCT04539262|184404637|SUPERIORITY||Least Square Mean Difference by Day 7|-0.66|STANDARD_ERROR_OF_MEAN|0.4||0.1117|TWO_SIDED|95.0|-1.49|0.16||Least square (LS) Mean, Standard Error (SE), 95% CI and p-value were from Analysis of covariance (ANCOVA) with baseline viral load as a covariate.|ANCOVA|||||0.16|-1.49|0.1117
92251075|NCT04539262|184404637|SUPERIORITY||LS Mean Difference by Day 7|-0.35|STANDARD_ERROR_OF_MEAN|0.4||0.3793|TWO_SIDED|95.0|-1.16|0.46||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.46|-1.16|0.3793
92251076|NCT04539262|184404637|SUPERIORITY||LS Mean Difference by Day 7|-0.24|STANDARD_ERROR_OF_MEAN|0.37||0.5248|TWO_SIDED|95.0|-1.0|0.52||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate|ANCOVA|||||0.52|-1.00|0.5248
92251077|NCT04539262|184404637|SUPERIORITY||LS Mean Difference by Day 7|-0.25|STANDARD_ERROR_OF_MEAN|0.34||0.461|TWO_SIDED|95.0|-0.94|0.44|||ANCOVA|LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate||||0.44|-0.94|0.4610
92283351|NCT01029353|184470440|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.80, 95% credible interval of (0.61, 1.01). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.15, 95% credible interval of (0.94, 1.42).|||
92283352|NCT01029353|184470441|SUPERIORITY||Risk Ratio (RR)|0.68|||||TWO_SIDED|95.0|0.46|1.01|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.01|0.46|
92283353|NCT01029353|184470441|SUPERIORITY||Risk Ratio (RR)|1.22|||||TWO_SIDED|95.0|0.74|2.01|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||2.01|0.74|
92283354|NCT01029353|184470441|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.72, 95% credible interval of (0.48, 1.05). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.12, 95% credible interval of (0.71, 1.76).|||
92283355|NCT01029353|184470442|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.51|1.04|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.04|0.51|
92251078|NCT04539262|184404637|SUPERIORITY||LS Mean Difference by Day 7|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.5006|TWO_SIDED|95.0|-0.4|0.81||LS Mean (SE), 95% CI and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.81|-0.40|0.5006
92251079|NCT04539262|184404638|SUPERIORITY||LS Mean Difference by Day 7|0.33|STANDARD_ERROR_OF_MEAN|0.34||0.3417|TWO_SIDED|95.0|-0.37|1.02||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||1.02|-0.37|0.3417
92251080|NCT04539262|184404638|SUPERIORITY||LS Mean Difference by Day 7|0.49|STANDARD_ERROR_OF_MEAN|0.35||0.1803|TWO_SIDED|95.0|-0.24|1.21||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||1.21|-0.24|0.1803
92251081|NCT04539262|184404638|SUPERIORITY||LS Mean Difference by Day 7|-0.55|STANDARD_ERROR_OF_MEAN|0.35||0.1233|TWO_SIDED|95.0|-1.27|0.16||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.16|-1.27|0.1233
92251082|NCT04539262|184404638|SUPERIORITY||LS Mean Difference by Day 7|0.08|STANDARD_ERROR_OF_MEAN|0.35||0.8203|TWO_SIDED|95.0|-0.64|0.8||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.80|-0.64|0.8203
92287074|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.361|TWO_SIDED|95.0|-0.026|0.07|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.070|-0.026|0.361
92251083|NCT04539262|184404638|SUPERIORITY||LS Mean Difference by Day 7|-0.12|STANDARD_ERROR_OF_MEAN|0.26||0.6458|TWO_SIDED|95.0|-0.65|0.41||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.41|-0.65|0.6458
92251084|NCT04539262|184404639|SUPERIORITY||LS Mean Difference by Day 7|-0.22|STANDARD_ERROR_OF_MEAN|0.4||0.5951|TWO_SIDED|95.0|-1.05|0.61||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.61|-1.05|0.5951
92251085|NCT04539262|184404639|SUPERIORITY|LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|LS Mean Difference by Day 7|-0.71|STANDARD_ERROR_OF_MEAN|0.4||0.0872|TWO_SIDED|95.0|-1.54|0.11|||ANCOVA|||||0.11|-1.54|0.0872
92287075|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|0.057||||0.016|TWO_SIDED|95.0|0.011|0.102|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.102|0.011|0.016
92251086|NCT04539262|184404639|SUPERIORITY||LS Mean Difference by Day 7|-0.19|STANDARD_ERROR_OF_MEAN|0.36||0.6031|TWO_SIDED|95.0|-0.94|0.56||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.56|-0.94|0.6031
92251087|NCT04539262|184404639|SUPERIORITY||LS Mean Difference by Day 7|0.12|STANDARD_ERROR_OF_MEAN|0.37||0.7578|TWO_SIDED|95.0|-0.64|0.87||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.87|-0.64|0.7578
92251088|NCT04539262|184404639|SUPERIORITY||LS Mean Difference by Day 7|0.04|STANDARD_ERROR_OF_MEAN|0.26||0.8846|TWO_SIDED|95.0|-0.48|0.56||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.56|-0.48|0.8846
92251089|NCT02980692|184404672|SUPERIORITY|||||||0.0001|||||||Cochran-Mantel-Haenszel|||||||0.0001
92251090|NCT02980692|184404672|SUPERIORITY|||||||0.0006|||||||Cochran-Mantel-Haenszel|||||||0.0006
92251091|NCT02980692|184404672|SUPERIORITY|||||||0.0088|||||||Cochran-Mantel-Haenszel|||||||0.0088
92251092|NCT02980692|184404672|SUPERIORITY|||||||0.0041|||||||Cochran-Mantel-Haenszel|||||||0.0041
92283356|NCT01029353|184470442|SUPERIORITY||Risk Ratio (RR)|1.25|||||TWO_SIDED|95.0|0.82|1.93|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates. Reported results in this analysis restricted to infants with IP.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.93|0.82|
92251093|NCT02980692|184404673|SUPERIORITY||% response rate|92.54|STANDARD_ERROR_OF_MEAN|3.21|||TWO_SIDED|95.0|86.24|98.83||||||||98.83|86.24|
92251094|NCT02980692|184404673|SUPERIORITY||% response rate|89.06|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|81.42|96.71||||||||96.71|81.42|
92251095|NCT02980692|184404673|SUPERIORITY||% response rate|86.67|STANDARD_ERROR_OF_MEAN|4.39|||TWO_SIDED|95.0|78.07|95.27||||||||95.27|78.07|
92251096|NCT02980692|184404673|SUPERIORITY||% response rate|81.33|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|72.52|90.15||||||||90.15|72.52|
92251097|NCT02980692|184404673|SUPERIORITY||% response rate|81.33|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|72.52|90.15||||||||90.15|72.52|
92251098|NCT02980692|184404674|SUPERIORITY||% response rate|79.1|STANDARD_ERROR_OF_MEAN|4.97|||TWO_SIDED|95.0|69.37|88.84||||||||88.84|69.37|
92251099|NCT02980692|184404674|SUPERIORITY||% response rate|75.0|STANDARD_ERROR_OF_MEAN|5.41|||TWO_SIDED|95.0|64.39|85.61||||||||85.61|64.39|
92251100|NCT02980692|184404674|SUPERIORITY||% response rate|72.13|STANDARD_ERROR_OF_MEAN|5.74|||TWO_SIDED|95.0|60.88|83.38||||||||83.38|60.88|
92251101|NCT02980692|184404674|SUPERIORITY||% response rate|68.0|STANDARD_ERROR_OF_MEAN|5.39|||TWO_SIDED|95.0|57.44|78.56||||||||78.56|57.44|
92251102|NCT02980692|184404674|SUPERIORITY||% response rate|62.67|STANDARD_ERROR_OF_MEAN|5.59|||TWO_SIDED|95.0|51.72|73.61||||||||73.61|51.72|
92251103|NCT02980692|184404675|SUPERIORITY||% response rate|58.21|STANDARD_ERROR_OF_MEAN|6.03|||TWO_SIDED|95.0|46.4|70.02||||||||70.02|46.40|
92251104|NCT02980692|184404675|SUPERIORITY||% response rate|48.44|STANDARD_ERROR_OF_MEAN|6.25|||TWO_SIDED|95.0|36.19|60.68||||||||60.68|36.19|
92251105|NCT02980692|184404675|SUPERIORITY||% response rate|39.34|STANDARD_ERROR_OF_MEAN|6.25|||TWO_SIDED|95.0|27.09|51.6||||||||51.60|27.09|
92251106|NCT02980692|184404675|SUPERIORITY||% response rate|40.0|STANDARD_ERROR_OF_MEAN|5.66|||TWO_SIDED|95.0|28.91|51.09||||||||51.09|28.91|
92251107|NCT02980692|184404675|SUPERIORITY||% response rate|37.33|STANDARD_ERROR_OF_MEAN|5.59|||TWO_SIDED|95.0|26.39|48.28||||||||48.28|26.39|
92251108|NCT02980692|184404676|SUPERIORITY|||||||0.085|||||||Cochran-Mantel-Haenszel|||||||0.0850
92251109|NCT02980692|184404676|SUPERIORITY|||||||0.0234|||||||Cochran-Mantel-Haenszel|||||||0.0234
92251110|NCT02980692|184404676|SUPERIORITY|||||||0.014|||||||Cochran-Mantel-Haenszel|||||||0.0140
92251111|NCT02980692|184404676|SUPERIORITY|||||||0.0731|||||||Cochran-Mantel-Haenszel|||||||0.0731
92251112|NCT02980692|184404677|SUPERIORITY||Mean Difference (Net)|-12.3|STANDARD_DEVIATION|11.47|||TWO_SIDED|||||||||||||
92251113|NCT02980692|184404677|SUPERIORITY||Mean Difference (Net)|-13.7|STANDARD_DEVIATION|11.92|||TWO_SIDED|||||||||||||
92251114|NCT02980692|184404677|SUPERIORITY||Mean Difference (Net)|-16.0|STANDARD_DEVIATION|12.83|||TWO_SIDED|||||||||||||
92251115|NCT02980692|184404677|SUPERIORITY||Mean Difference (Net)|-14.0|STANDARD_DEVIATION|10.65|||TWO_SIDED|||||||||||||
92251116|NCT02980692|184404677|SUPERIORITY||Mean Difference (Net)|-13.9|STANDARD_DEVIATION|12.02|||TWO_SIDED|||||||||||||
92251117|NCT02980692|184404678|SUPERIORITY|||||||0.0111|||||||Cochran-Mantel-Haenszel|||||||0.0111
92251118|NCT02980692|184404678|SUPERIORITY|||||||0.0774|||||||Cochran-Mantel-Haenszel|||||||0.0774
92251119|NCT02980692|184404678|SUPERIORITY|||||||0.019|||||||Cochran-Mantel-Haenszel|||||||0.0190
92251120|NCT02980692|184404678|SUPERIORITY|||||||0.1282|||||||Cochran-Mantel-Haenszel|||||||0.1282
92182723|NCT01968967|184264567|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|2.1|3.3||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||3.3|2.1|
92251121|NCT02980692|184404679|SUPERIORITY||Mean Difference (Net)|-8.7|STANDARD_DEVIATION|6.88|||TWO_SIDED|||||||||||||
92251122|NCT02980692|184404679|SUPERIORITY||Mean Difference (Net)|-7.5|STANDARD_DEVIATION|7.07|||TWO_SIDED|||||||||||||
92251123|NCT02980692|184404679|SUPERIORITY||Mean Difference (Net)|-9.2|STANDARD_DEVIATION|7.62|||TWO_SIDED|||||||||||||
92251124|NCT02980692|184404679|SUPERIORITY||Mean Difference (Net)|-7.5|STANDARD_DEVIATION|5.78|||TWO_SIDED|||||||||||||
92251125|NCT02980692|184404679|SUPERIORITY||Mean Difference (Net)|-9.0|STANDARD_DEVIATION|8.8|||TWO_SIDED|||||||||||||
92251126|NCT02980692|184404680|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<.0001
92251127|NCT02980692|184404680|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<.0001
92251128|NCT02980692|184404680|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<.0001
92251129|NCT02980692|184404680|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<.0001
92251130|NCT02980692|184404681|SUPERIORITY||Mean Difference (Net)|-40.0|STANDARD_DEVIATION|17.38|||TWO_SIDED|||||||||||||
92251131|NCT02980692|184404681|SUPERIORITY||Mean Difference (Net)|-44.3|STANDARD_DEVIATION|19.73|||TWO_SIDED|||||||||||||
92251132|NCT02980692|184404681|SUPERIORITY||Mean Difference (Net)|-45.3|STANDARD_DEVIATION|19.84|||TWO_SIDED|||||||||||||
92251133|NCT02980692|184404681|SUPERIORITY||Mean Difference (Net)|-42.7|STANDARD_DEVIATION|19.18|||TWO_SIDED|||||||||||||
92251134|NCT02980692|184404681|SUPERIORITY||Mean Difference (Net)|-42.0|STANDARD_DEVIATION|20.41|||TWO_SIDED|||||||||||||
92251135|NCT02980692|184404682|SUPERIORITY|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
92251136|NCT02980692|184404682|SUPERIORITY|||||||0.0012|||||||Cochran-Mantel-Haenszel|||||||0.0012
92251137|NCT02980692|184404682|SUPERIORITY|||||||0.0011|||||||Cochran-Mantel-Haenszel|||||||0.0011
92251138|NCT02980692|184404682|SUPERIORITY|||||||0.0167|||||||Cochran-Mantel-Haenszel|||||||0.0167
92251139|NCT02980692|184404683|SUPERIORITY||Mean Difference (Net)|-42.2|STANDARD_DEVIATION|22.74|||TWO_SIDED|||||||||||||
92251140|NCT02980692|184404683|SUPERIORITY||Mean Difference (Net)|-43.8|STANDARD_DEVIATION|24.01|||TWO_SIDED|||||||||||||
92251141|NCT02980692|184404683|SUPERIORITY||Mean Difference (Net)|-38.4|STANDARD_DEVIATION|27.9|||TWO_SIDED|||||||||||||
92251142|NCT02980692|184404683|SUPERIORITY||Mean Difference (Net)|-37.9|STANDARD_DEVIATION|24.65|||TWO_SIDED|||||||||||||
92251143|NCT02980692|184404683|SUPERIORITY||Mean Difference (Net)|-40.5|STANDARD_DEVIATION|28.13|||TWO_SIDED|||||||||||||
92251144|NCT02980692|184404684|SUPERIORITY|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
92251145|NCT02980692|184404684|SUPERIORITY|||||||0.0055|||||||Cochran-Mantel-Haenszel|||||||0.0055
92251146|NCT02980692|184404684|SUPERIORITY|||||||0.0039|||||||Cochran-Mantel-Haenszel|||||||0.0039
92251147|NCT02980692|184404684|SUPERIORITY|||||||0.0487|||||||Cochran-Mantel-Haenszel|||||||0.0487
92251148|NCT02980692|184404685|SUPERIORITY||Mean Difference (Net)|-40.7|STANDARD_DEVIATION|21.59|||TWO_SIDED|||||||||||||
92251149|NCT02980692|184404685|SUPERIORITY||Mean Difference (Net)|-42.7|STANDARD_DEVIATION|25.67|||TWO_SIDED|||||||||||||
92251150|NCT02980692|184404685|SUPERIORITY||Mean Difference (Net)|-38.0|STANDARD_DEVIATION|29.26|||TWO_SIDED|||||||||||||
92251151|NCT02980692|184404685|SUPERIORITY||Mean Difference (Net)|-37.6|STANDARD_DEVIATION|26.63|||TWO_SIDED|||||||||||||
92251152|NCT02980692|184404685|SUPERIORITY||Mean Difference (Net)|-41.0|STANDARD_DEVIATION|29.83|||TWO_SIDED|||||||||||||
92251153|NCT02980692|184404686|SUPERIORITY|||||||0.0987|||||||Cochran-Mantel-Haenszel|||||||0.0987
92251154|NCT02980692|184404686|SUPERIORITY|||||||0.036|||||||Cochran-Mantel-Haenszel|||||||0.0360
92251155|NCT02980692|184404686|SUPERIORITY|||||||0.0346|||||||Cochran-Mantel-Haenszel|||||||0.0346
92251156|NCT02980692|184404686|SUPERIORITY|||||||0.4442|||||||Cochran-Mantel-Haenszel|||||||0.4442
92251157|NCT02980692|184404687|SUPERIORITY||Mean Difference (Net)|-0.4869|STANDARD_DEVIATION|0.52093|||TWO_SIDED|||||||||||||
92251158|NCT02980692|184404687|SUPERIORITY||Mean Difference (Net)|-0.543|STANDARD_DEVIATION|0.59145|||TWO_SIDED|||||||||||||
92251159|NCT02980692|184404687|SUPERIORITY||Mean Difference (Net)|-0.4857|STANDARD_DEVIATION|0.56968|||TWO_SIDED|||||||||||||
92251160|NCT02980692|184404687|SUPERIORITY||Mean Difference (Net)|-0.4583|STANDARD_DEVIATION|0.52285|||TWO_SIDED|||||||||||||
92251161|NCT02980692|184404687|SUPERIORITY||Mean Difference (Net)|-0.47|STANDARD_DEVIATION|0.54013|||TWO_SIDED|||||||||||||
92251162|NCT02980692|184404688|SUPERIORITY|||||||0.0064|||||||Cochran-Mantel-Haenszel|||||||0.0064
92251163|NCT02980692|184404688|SUPERIORITY|||||||0.0516|||||||Cochran-Mantel-Haenszel|||||||0.0516
92251164|NCT02980692|184404688|SUPERIORITY|||||||0.0114|||||||Cochran-Mantel-Haenszel|||||||0.0114
92251165|NCT02980692|184404688|SUPERIORITY|||||||0.082|||||||Cochran-Mantel-Haenszel|||||||0.0820
92251166|NCT02980692|184404689|SUPERIORITY||Mean Difference (Net)|-3.43|STANDARD_DEVIATION|12.506|||TWO_SIDED|||||||||||||
92251167|NCT02980692|184404689|SUPERIORITY||Mean Difference (Net)|-3.68|STANDARD_DEVIATION|10.77|||TWO_SIDED|||||||||||||
92251168|NCT02980692|184404689|SUPERIORITY||Mean Difference (Net)|-6.05|STANDARD_DEVIATION|19.004|||TWO_SIDED|||||||||||||
92251169|NCT02980692|184404689|SUPERIORITY||Mean Difference (Net)|-4.61|STANDARD_DEVIATION|9.508|||TWO_SIDED|||||||||||||
92251170|NCT02980692|184404689|SUPERIORITY||Mean Difference (Net)|-6.75|STANDARD_DEVIATION|19.649|||TWO_SIDED|||||||||||||
92251171|NCT02980692|184404690|SUPERIORITY|||||||0.0351|||||||Cochran-Mantel-Haenszel|||||||0.0351
92251172|NCT02980692|184404690|SUPERIORITY|||||||0.0876|||||||Cochran-Mantel-Haenszel|||||||0.0876
92251173|NCT02980692|184404690|SUPERIORITY|||||||0.0269|||||||Cochran-Mantel-Haenszel|||||||0.0269
92251174|NCT02980692|184404690|SUPERIORITY|||||||0.0185|||||||Cochran-Mantel-Haenszel|||||||0.0185
92251175|NCT02980692|184404691|SUPERIORITY||Mean Difference (Net)|-7.2|STANDARD_DEVIATION|19.58|||TWO_SIDED|||||||||||||
92251176|NCT02980692|184404691|SUPERIORITY||Mean Difference (Net)|-7.2|STANDARD_DEVIATION|15.26|||TWO_SIDED|||||||||||||
92251177|NCT02980692|184404691|SUPERIORITY||Median Difference (Net)|-8.9|STANDARD_DEVIATION|20.48|||TWO_SIDED|||||||||||||
92251178|NCT02980692|184404691|SUPERIORITY||Mean Difference (Net)|-9.7|STANDARD_DEVIATION|19.02|||TWO_SIDED|||||||||||||
92251179|NCT02980692|184404691|SUPERIORITY||Mean Difference (Net)|-9.2|STANDARD_DEVIATION|20.47|||TWO_SIDED|||||||||||||
92251180|NCT02980692|184404692|SUPERIORITY||Proportion with Adjustment of Background|1.27|STANDARD_ERROR_OF_MEAN|1.26|||TWO_SIDED|95.0|0.0|3.73||||||||3.73|0.00|
92251181|NCT02980692|184404692|SUPERIORITY||Proportion with Adjustment of Background|1.3|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|95.0|0.0|3.83||||||||3.83|0.00|
92251182|NCT02980692|184404692|SUPERIORITY||Proportion with Adjustment of Background|2.56|STANDARD_ERROR_OF_MEAN|1.79|||TWO_SIDED|95.0|0.0|6.07||||||||6.07|0.00|
92251183|NCT02980692|184404692|SUPERIORITY||Proportion with Adjustment of Background|1.27|STANDARD_ERROR_OF_MEAN|1.26|||TWO_SIDED|95.0|0.0|3.73||||||||3.73|0.00|
92251184|NCT02980692|184404693|SUPERIORITY||% response rate|85.07|STANDARD_ERROR_OF_MEAN|4.35|||TWO_SIDED|95.0|76.54|93.61||||||||93.61|76.54|
92251185|NCT02980692|184404693|SUPERIORITY||% response rate|81.25|STANDARD_ERROR_OF_MEAN|4.88|||TWO_SIDED|95.0|71.69|90.81||||||||90.81|71.69|
92251186|NCT02980692|184404693|SUPERIORITY||% response rate|76.27|STANDARD_ERROR_OF_MEAN|5.54|||TWO_SIDED|95.0|65.42|87.13||||||||87.13|65.42|
92251187|NCT02980692|184404693|SUPERIORITY||% response rate|71.05|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|95.0|60.86|81.25||||||||81.25|60.86|
92251188|NCT02980692|184404693|SUPERIORITY||% response rate|65.33|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|54.56|76.1||||||||76.10|54.56|
92251189|NCT02980692|184404694|SUPERIORITY||% response rate|56.92|STANDARD_ERROR_OF_MEAN|6.14|||TWO_SIDED|95.0|44.88|68.96||||||||68.96|44.88|
92251190|NCT02980692|184404694|SUPERIORITY||% response rate|64.41|STANDARD_ERROR_OF_MEAN|6.23|||TWO_SIDED|95.0|52.19|76.62||||||||76.62|52.19|
92251191|NCT02980692|184404694|SUPERIORITY||% response rate|45.0|STANDARD_ERROR_OF_MEAN|6.42|||TWO_SIDED|95.0|32.41|57.59||||||||57.59|32.41|
92251192|NCT02980692|184404694|SUPERIORITY||% response rate|47.06|STANDARD_ERROR_OF_MEAN|6.05|||TWO_SIDED|95.0|35.2|58.92||||||||58.92|35.20|
92251193|NCT02980692|184404694|SUPERIORITY||% response rate|42.03|STANDARD_ERROR_OF_MEAN|5.94|||TWO_SIDED|95.0|30.38|53.68||||||||53.68|30.38|
92251194|NCT02980692|184404695|SUPERIORITY|||||||0.7081|||||||Cochran-Mantel-Haenszel|||||||0.7081
92251195|NCT02980692|184404695|SUPERIORITY|||||||0.9244|||||||Cochran-Mantel-Haenszel|||||||0.9244
92251196|NCT02980692|184404695|SUPERIORITY|||||||0.5365|||||||Cochran-Mantel-Haenszel|||||||0.5365
92251197|NCT02980692|184404695|SUPERIORITY|||||||0.2925|||||||Cochran-Mantel-Haenszel|||||||0.2925
92251198|NCT02980692|184404696|SUPERIORITY||Mean Difference (Net)|-14.453|STANDARD_DEVIATION|31.9358|||TWO_SIDED|||||||||||||
92251199|NCT02980692|184404696|SUPERIORITY||Mean Difference (Net)|-18.883|STANDARD_DEVIATION|57.1147|||TWO_SIDED|||||||||||||
92251200|NCT02980692|184404696|SUPERIORITY||Mean Difference (Net)|-27.084|STANDARD_DEVIATION|76.2272|||TWO_SIDED|||||||||||||
92251201|NCT02980692|184404696|SUPERIORITY||Mean Difference (Net)|-26.173|STANDARD_DEVIATION|87.5367|||TWO_SIDED|||||||||||||
92251202|NCT02980692|184404696|SUPERIORITY||Mean Difference (Net)|-50.399|STANDARD_DEVIATION|141.677|||TWO_SIDED|||||||||||||
92251203|NCT02980692|184404697|SUPERIORITY|||||||0.0203|||||||Cochran-Mantel-Haenszel|||||||0.0203
92251204|NCT02980692|184404697|SUPERIORITY|||||||0.5194|||||||Cochran-Mantel-Haenszel|||||||0.5194
92251205|NCT02980692|184404697|SUPERIORITY|||||||0.0599|||||||Cochran-Mantel-Haenszel|||||||0.0599
92251206|NCT02980692|184404697|SUPERIORITY|||||||0.122|||||||Cochran-Mantel-Haenszel|||||||0.1220
92251207|NCT02980692|184404698|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_DEVIATION|1.86|||TWO_SIDED|||||||||||||
92251208|NCT02980692|184404698|SUPERIORITY||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|1.56|||TWO_SIDED|||||||||||||
92251209|NCT02980692|184404698|SUPERIORITY||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|2.08|||TWO_SIDED|||||||||||||
92251210|NCT02980692|184404698|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_DEVIATION|1.75|||TWO_SIDED|||||||||||||
92251211|NCT02980692|184404698|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_DEVIATION|1.82|||TWO_SIDED|||||||||||||
92251212|NCT00792701|184404702|OTHER|Correlation|Correlation Coefficient|0.39||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
92251213|NCT00792701|184404705|SUPERIORITY_OR_OTHER_LEGACY||Correlation Coefficient|0.39||||0.0003|TWO_SIDED||||||Chi-squared|||Comparing RRM1 levels and ERCC1 levels between all patients.||||.0003
92251214|NCT02665468|184404737|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
92251215|NCT03037307|184404757|OTHER||Least square (LS) mean difference|2.76|||<|0.0001|TWO_SIDED|95.0|1.89|3.63||Treatment Comparison for study validity.|ANCOVA|ANCOVA: factors for participant (random effect); period \& treatment, participant-level \& period-level pre-treatment baseline bite force as covariates.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||3.63|1.89|<.0001
92251216|NCT03037307|184404758|OTHER||Least Square (LS) mean difference|2.12|||<|0.0001|TWO_SIDED|95.0|1.25|3.0|||ANCOVA|ANCOVA: factors for participant (random effect); period \& treatment, participant-level \& period-level pre-treatment baseline bite force as covariates|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||3.00|1.25|<.0001
92251217|NCT03363165|184404765|SUPERIORITY||Mean Difference (Final Values)|-13.54||||0.7586|ONE_SIDED|90.0|-38.52||||ANCOVA|Adjusted for baseline six-minute walk distance, age, race, former smoker.|||||-38.52|0.7586
92251218|NCT03363165|184404766|SUPERIORITY||Mean Difference (Final Values)|2.25||||0.0298|ONE_SIDED|90.0|0.78||||ANCOVA|Adjusted for baseline maximal treadmill walking time, age, race, former smoker|||||0.78|0.0298
92251219|NCT03363165|184404767|SUPERIORITY||Mean Difference (Final Values)|0.69||||0.4019|ONE_SIDED|90.0|-3.1||||ANCOVA|Adjusted for baseline perfusion, age, race, former smoker.|||||-3.10|0.4019
92176718|NCT04800211|184247047|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-116.17||||0.1524|TWO_SIDED|95.0|-275.521|43.18|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||43.180|-275.521|0.1524
92176719|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-32.792|||<|0.0001|TWO_SIDED|95.0|-39.375|-26.208|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-26.208|-39.375|<.0001
92251220|NCT03363165|184404768|SUPERIORITY||Mean Difference (Final Values)|8.28||||0.208|ONE_SIDED|90.0|-5.37||||ANCOVA|Adjusted for baseline muscle measure, age, race, former smoker.|||||-5.37|0.2080
92176720|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-25.921|||<|0.0001|TWO_SIDED|95.0|-33.398|-18.443|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-18.443|-33.398|<.0001
92251221|NCT03363165|184404769|SUPERIORITY||Mean Difference (Final Values)|2.02||||0.398|ONE_SIDED|90.0|-8.11||||ANCOVA|Adjusted for baseline WIQ distance score, age, race, former smoker|||||-8.11|0.3980
92182724|NCT01968967|184264568|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-1.6|-1.5||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.5|-1.6|
92251222|NCT03363165|184404770|SUPERIORITY||Mean Difference (Final Values)|-5.5||||0.7852|ONE_SIDED|90.0|-14.5||||ANCOVA|Adjusted for baseline SF-36 physical functioning score, age, race, former smoker.|||||-14.50|0.7852
92251223|NCT03363165|184404771|SUPERIORITY||Mean Difference (Final Values)|-5.14||||0.8414|ONE_SIDED|90.0|-11.76||||ANCOVA|Adjusted for baseline SF-36 physical functioning score, age, race, former smoker.|||||-11.76|0.8414
92251224|NCT03363165|184404772|SUPERIORITY||Mean Difference (Final Values)|-2.13||||0.5912|ONE_SIDED|90.0|-14.11||||ANCOVA|Adjusted for baseline WIQ distance score, age, race, former smoker.|||||-14.11|0.5912
92283357|NCT01029353|184470442|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.77, 95% credible interval of (0.51, 1.14). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.17, 95% credible interval of (0.76, 1.81).|||
92287076|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|-0.025||||0.34|TWO_SIDED|95.0|-0.075|0.026|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.026|-0.075|0.340
92251225|NCT03363165|184404773|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.5442|ONE_SIDED|90.0|-25.47||||ANCOVA|Adjusted for baseline six-minute walk distance, age, race, former smoker.|||||-25.47|0.5442
92251226|NCT03363165|184404774|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.6603|ONE_SIDED|90.0|-2.11|||Adjusted for baseline pain-free treadmill walking time, age, race, former smoker.|ANCOVA||||||-2.11|0.6603
92251227|NCT03363165|184404775|SUPERIORITY||Mean Difference (Final Values)|-2.78||||0.5647|ONE_SIDED|90.0|-24.99||||ANCOVA|Adjusted for baseline six-minute walk distance, age, race, former smoker.|||||-24.99|0.5647
92251228|NCT02052141|184404781|SUPERIORITY||Mean difference|-0.4|STANDARD_DEVIATION|0.58||0.03|TWO_SIDED|90.0|-0.71|-0.1|||Paired t-test||The difference between treatment B over treatment A was estimated.|||-0.10|-0.71|0.03
92251229|NCT02052141|184404782|SUPERIORITY||Mean difference|-0.7|STANDARD_DEVIATION|1.06||0.05|TWO_SIDED|90.0|-1.2|-0.11|||Paired t-test||The difference between treatment B over treatment A was estimated.|||-0.11|-1.20|0.05
92251230|NCT02052141|184404783|SUPERIORITY||Mean difference|-1.9|STANDARD_DEVIATION|2.82||0.04|TWO_SIDED|90.0|-3.31|-0.38|||Paired t-test||The difference between treatment B over treatment A was estimated.|||-0.38|-3.31|0.04
92251231|NCT02052141|184404784|SUPERIORITY||Mean difference|-0.2|STANDARD_DEVIATION|0.37||0.07|TWO_SIDED|90.0|-0.41|-0.03|||Paired t-test||The difference between treatment B over treatment A was estimated|||-0.03|-0.41|0.07
92251232|NCT03000686|184404795|OTHER||Median Difference (Net)|0.021|STANDARD_DEVIATION|1.1339|||TWO_SIDED|95.0|-2.249|2.295|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 15 minutes post-infusion|||2.295|-2.249|
92251233|NCT03000686|184404795|OTHER||Median Difference (Net)|-4.021|STANDARD_DEVIATION|2.5923|||TWO_SIDED|95.0|-9.168|1.146|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 60 minutes post-chamber entry.|||1.146|-9.168|
92251234|NCT03000686|184404795|OTHER||Median Difference (Net)|-1.668|STANDARD_DEVIATION|4.4927|||TWO_SIDED|95.0|-10.576|7.231|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for immediately post-exercise|||7.231|-10.576|
92251235|NCT03000686|184404795|OTHER||Median Difference (Net)|-0.824|STANDARD_DEVIATION|1.6695|||TWO_SIDED|95.0|-4.142|2.506|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 30 minutes post-chamber exit|||2.506|-4.142|
92251236|NCT03000686|184404796|OTHER||Median Difference (Net)|-0.662|STANDARD_DEVIATION|2.1933|||TWO_SIDED|95.0|-5.037|3.815|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 15 minutes post-infusion|||3.815|-5.037|
92251237|NCT03000686|184404796|OTHER||Median Difference (Net)|-2.796|STANDARD_DEVIATION|3.4297|||TWO_SIDED|95.0|-9.729|4.027|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 60 minutes post-chamber entry.|||4.027|-9.729|
92251238|NCT03000686|184404796|OTHER||Median Difference (Net)|-0.018|STANDARD_DEVIATION|4.145|||TWO_SIDED|95.0|-8.475|8.086|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 2 minutes post-exercise start|||8.086|-8.475|
92251239|NCT03000686|184404796|OTHER||Median Difference (Net)|-0.291|STANDARD_DEVIATION|2.3277|||TWO_SIDED|95.0|-4.96|4.386|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 30 minutes post-chamber exit|||4.386|-4.960|
92251240|NCT03000686|184404803|OTHER||Median Difference (Net)|-0.148|STANDARD_DEVIATION|0.5622|||TWO_SIDED|95.0|-1.264|0.973|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 15 minutes post-infusion is presented.|||0.973|-1.264|
92251241|NCT03000686|184404803|OTHER||Median Difference (Net)|-1.172|STANDARD_DEVIATION|2.072|||TWO_SIDED|95.0|-5.271|2.942|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 60 minutes post-chamber entry is presented.|||2.942|-5.271|
92251242|NCT03000686|184404803|OTHER||Median Difference (Net)|-0.169|STANDARD_DEVIATION|2.2351|||TWO_SIDED|95.0|-4.624|4.258|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation immediately post-exercise is presented.|||4.258|-4.624|
92251243|NCT03000686|184404803|OTHER||Median Difference (Net)|-0.367|STANDARD_DEVIATION|0.5649|||TWO_SIDED|95.0|-1.498|0.753|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 30 minutes post-chamber exit is presented.|||0.753|-1.498|
92251244|NCT03000686|184404804|OTHER||Median Difference (Net)|0.203|STANDARD_DEVIATION|0.8872|||TWO_SIDED|95.0|-1.578|1.968|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 15 minutes post-infusion is presented.|||1.968|-1.578|
92251245|NCT03000686|184404804|OTHER||Median Difference (Net)|3.76|STANDARD_DEVIATION|1.8799|||TWO_SIDED|95.0|-0.001|7.495|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 60 minutes post-chamber entry is presented.|||7.495|-0.001|
92251246|NCT03000686|184404804|OTHER||Median Difference (Net)|-1.029|STANDARD_DEVIATION|2.8146|||TWO_SIDED|95.0|-6.673|4.578|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 2 minutes post-exercise start is presented.|||4.578|-6.673|
92251247|NCT03000686|184404804|OTHER||Median Difference (Net)|-0.873|STANDARD_DEVIATION|0.762|||TWO_SIDED|95.0|-2.38|0.669|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 30 minutes post-chamber exit is presented.|||0.669|-2.380|
92251248|NCT01484561|184404833|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.92|||||TWO_SIDED|90.0|0.86|0.98|||ANCOVA||Analysis of covariance (ANCOVA) with change in logarithmic mGFR from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold Change (CP-690,550-placebo vs. placebo-placebo)||0.98|0.86|
92251249|NCT01484561|184404834|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.04|||||TWO_SIDED|90.0|0.97|1.11|||ANCOVA||ANCOVA with change in logarithmic mGFR from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.11|0.97|
92251250|NCT01484561|184404835|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.09|||||TWO_SIDED|90.0|1.02|1.16|||ANCOVA||ANCOVA with change in logarithmic mGFR from Period 2 baseline/the end of Period 1 as dependent variable, treatment and logarithmic Period 2 baseline/the end of Period 1 as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.16|1.02|
92251251|NCT01484561|184404836|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.94|||||TWO_SIDED|90.0|0.91|0.97|||ANCOVA||ANCOVA with change in logarithmic eGFR (MDRD) from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||0.97|0.91|
92251252|NCT01484561|184404837|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.99|||||TWO_SIDED|90.0|0.96|1.02|||ANCOVA||ANCOVA with change in logarithmic eGFR (MDRD) from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.02|0.96|
92251253|NCT01484561|184404838|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.04|||||TWO_SIDED|90.0|1.0|1.08|||ANCOVA||ANCOVA with change in logarithmic eGFR (MDRD) from Period 2 baseline/end of Period 1 as dependent variable, treatment and logarithmic Period 2 baseline/end of Period 1 as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.08|1.00|
92251254|NCT01484561|184404839|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.95|||||TWO_SIDED|90.0|0.92|0.98|||ANCOVA||ANCOVA with change in logarithmic eGFR (Cockcroft-Gault) from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||0.98|0.92|
92251255|NCT01484561|184404840|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.99|||||TWO_SIDED|90.0|0.97|1.02|||ANCOVA||ANCOVA with change in logarithmic eGFR (Cockcroft-Gault) from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.02|0.97|
92251256|NCT01484561|184404841|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.04|||||TWO_SIDED|90.0|1.01|1.07|||ANCOVA||ANCOVA with change in logarithmic eGFR (Cockcroft-Gault) from Period 2 baseline/end of Period 1 as dependent variable, treatment and logarithmic Period 2 baseline/end of Period 1 as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.07|1.01|
92251257|NCT01484561|184404842|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.05|||||TWO_SIDED|90.0|1.02|1.08|||ANCOVA||ANCOVA with change in logarithmic creatinine from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.08|1.02|
92251258|NCT01484561|184404843|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.01|||||TWO_SIDED|90.0|0.98|1.04|||ANCOVA||ANCOVA with change in logarithmic creatinine from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.04|0.98|
92251259|NCT01484561|184404844|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.97|||||TWO_SIDED|90.0|0.94|1.0|||ANCOVA||ANCOVA with change in logarithmic creatinine from Period 2 baseline/the end of Period 1 as dependent variable, treatment and Period 2 baseline/the end of Period 1 as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.00|0.94|
92251260|NCT01484561|184404845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.16|STANDARD_ERROR_OF_MEAN|7.64|<|0.001|TWO_SIDED|90.0|23.6|48.73||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR20 Response at End of Period 1||48.73|23.60|<0.001
92251261|NCT01484561|184404845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.95|STANDARD_ERROR_OF_MEAN|8.14||0.05|TWO_SIDED|90.0|2.56|29.34||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR20 Response at End of Period 2||29.34|2.56|0.050
92251262|NCT01484561|184404846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.02|STANDARD_ERROR_OF_MEAN|5.94|<|0.001|TWO_SIDED|90.0|11.24|30.8||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR50 Response at End of Period 1||30.80|11.24|<0.001
92251263|NCT01484561|184404846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0|STANDARD_ERROR_OF_MEAN|6.13||0.006|TWO_SIDED|90.0|6.92|27.08||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR50 Response at End of Period 2||27.08|6.92|0.006
92251264|NCT01484561|184404847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.56|STANDARD_ERROR_OF_MEAN|3.95|<|0.001|TWO_SIDED|90.0|12.06|25.05||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR70 Response at End of Period 1||25.05|12.06|<0.001
92283358|NCT01029353|184470443|SUPERIORITY||Risk Ratio (RR)|0.53|||||TWO_SIDED|95.0|0.31|0.89|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||0.89|0.31|
92251265|NCT01484561|184404847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.32|STANDARD_ERROR_OF_MEAN|3.53||0.038|TWO_SIDED|90.0|1.51|13.12||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR70 Response at End of Period 2||13.12|1.51|0.038
92251266|NCT01484561|184404848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|90.0|-1.53|-0.78||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.78|-1.53|<0.001
92251267|NCT01484561|184404849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.21||0.028|TWO_SIDED|90.0|-0.83|-0.12||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.12|-0.83|0.028
92251268|NCT01484561|184404850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.22||0.002|TWO_SIDED|90.0|0.32|1.04||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||1.04|0.32|0.002
92251269|NCT01484561|184404851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|90.0|-1.67|-0.84||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.84|-1.67|<0.001
92251270|NCT01484561|184404852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.23||0.031|TWO_SIDED|90.0|-0.88|-0.12||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.12|-0.88|0.031
92251271|NCT01484561|184404853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.24||0.002|TWO_SIDED|90.0|0.36|1.15||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||1.15|0.36|0.002
92251272|NCT01484561|184404854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.09|STANDARD_ERROR_OF_MEAN|2.02||0.045|TWO_SIDED|90.0|-7.44|-0.74||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.74|-7.44|0.045
92251273|NCT01484561|184404855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|1.76||0.936|TWO_SIDED|90.0|-2.78|3.06||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||3.06|-2.78|0.936
92283359|NCT01029353|184470443|SUPERIORITY||Risk Ratio (RR)|0.44|||||TWO_SIDED|95.0|0.29|0.66|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||0.66|0.29|
92283360|NCT01029353|184470444|SUPERIORITY||Risk Ratio (RR)|1.44|||||TWO_SIDED|95.0|0.58|3.57|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||3.57|0.58|
92283361|NCT01029353|184470444|SUPERIORITY||Risk Ratio (RR)|1.63|||||TWO_SIDED|95.0|1.06|2.5|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||2.50|1.06|
92283362|NCT01029353|184470445|SUPERIORITY||Risk Ratio (RR)|2.52|||||TWO_SIDED|95.0|0.84|7.55|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||7.55|0.84|
92283363|NCT01029353|184470445|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.38|2.88|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||2.88|0.38|
92283364|NCT01029353|184470446|SUPERIORITY||Risk Ratio (RR)|1.78|||||TWO_SIDED|95.0|0.82|3.86|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||3.86|0.82|
92283365|NCT01029353|184470446|SUPERIORITY||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.42|3.2|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||3.20|0.42|
92251274|NCT01484561|184404856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.23|STANDARD_ERROR_OF_MEAN|1.93||0.03|TWO_SIDED|90.0|1.04|7.42||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||7.42|1.04|0.030
92251275|NCT01484561|184404857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.26|STANDARD_ERROR_OF_MEAN|1.03||0.03|TWO_SIDED|90.0|-3.96|-0.55||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.55|-3.96|0.030
92251276|NCT01484561|184404858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.11||0.472|TWO_SIDED|90.0|-2.64|1.04||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||1.04|-2.64|0.472
92251277|NCT01484561|184404859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46|STANDARD_ERROR_OF_MEAN|1.03||0.158|TWO_SIDED|90.0|-0.24|3.15||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||3.15|-0.24|0.158
92251278|NCT01484561|184404860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.73|STANDARD_ERROR_OF_MEAN|3.71|<|0.001|TWO_SIDED|90.0|-19.87|-7.59||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-7.59|-19.87|<0.001
92251279|NCT01484561|184404861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.89|STANDARD_ERROR_OF_MEAN|4.04||0.029|TWO_SIDED|90.0|-15.58|-2.21||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-2.21|-15.58|0.029
92251280|NCT01484561|184404862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.84|STANDARD_ERROR_OF_MEAN|2.98||0.107|TWO_SIDED|90.0|-0.1|9.77||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||9.77|-0.10|0.107
92251281|NCT01484561|184404863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.9|STANDARD_ERROR_OF_MEAN|4.87||0.001|TWO_SIDED|90.0|-23.96|-7.84||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-7.84|-23.96|0.001
92251282|NCT01484561|184404864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|4.95||0.251|TWO_SIDED|90.0|-13.9|2.5||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||2.50|-13.90|0.251
92251283|NCT01484561|184404865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.19|STANDARD_ERROR_OF_MEAN|4.42||0.023|TWO_SIDED|90.0|2.87|17.52||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||17.52|2.87|0.023
92251284|NCT01484561|184404866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.12|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|90.0|-21.58|-8.67||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-8.67|-21.58|<0.001
92251285|NCT01484561|184404867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|4.77||0.616|TWO_SIDED|90.0|-10.3|5.5||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||5.50|-10.30|0.616
92251286|NCT01484561|184404868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.72|STANDARD_ERROR_OF_MEAN|4.17||0.003|TWO_SIDED|90.0|5.82|19.62||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||19.62|5.82|0.003
92251287|NCT01484561|184404869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|STANDARD_ERROR_OF_MEAN|4.52|<|0.001|TWO_SIDED|90.0|-22.78|-7.82||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-7.82|-22.78|<0.001
92251288|NCT01484561|184404870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.62|STANDARD_ERROR_OF_MEAN|4.83||0.247|TWO_SIDED|90.0|-13.62|2.38||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||2.38|-13.62|0.247
92251289|NCT01484561|184404871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.68|STANDARD_ERROR_OF_MEAN|4.67||0.04|TWO_SIDED|90.0|1.95|17.41||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||17.41|1.95|0.040
92251290|NCT01484561|184404872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|90.0|-0.56|-0.23||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.23|-0.56|<0.001
92251291|NCT01484561|184404873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.09||0.053|TWO_SIDED|90.0|-0.31|-0.03||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.03|-0.31|0.053
92251292|NCT01484561|184404874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|90.0|0.1|0.35||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||0.35|0.10|0.003
92251293|NCT01112982|184404875|OTHER|||||||0.34|||||||t-test, 2 sided|||Presence of synovial pannus and the serum urate level.||||0.34
92283366|NCT01029353|184470447|SUPERIORITY||Risk Ratio (RR)|1.68|||||TWO_SIDED|95.0|0.35|8.05|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||8.05|0.35|
92283367|NCT01029353|184470447|SUPERIORITY||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.1|2.44|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||2.44|0.10|
92283368|NCT01029353|184470448|SUPERIORITY||Risk Ratio (RR)|1.29|||||TWO_SIDED|95.0|0.62|2.69|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||2.69|0.62|
92251294|NCT01112982|184404877|OTHER|Spearman Correlation Coefficient||||||0.73|||||||t-test, 1 sided|||The Severity of Synovial Pannus and the Serum Urate level.||||0.73
92251295|NCT01112982|184404878|OTHER|correlation between severity of synovial pannus and the serum urate level.||||||0.73|||||||t-test, 1 sided|||||||0.73
92251296|NCT01112982|184404879|OTHER|||||||0.32||||||"The presence of synovial pannus in the index joint."|t-test, 1 sided|||||||0.32
92251297|NCT01112982|184404880|OTHER|Kappa Coefficient||||||0.09|||||||t-test, 2 sided|||The absence of erosive changes.||||0.09
92251298|NCT01112982|184404880|OTHER|the absence of Intraosseous Tophi.||||||0.33|||||||t-test, 2 sided|||||||0.33
92251299|NCT01112982|184404880|OTHER|The absence of Soft Tissue Tophi||||||0.09|||||||t-test, 2 sided|||||||0.09
92251300|NCT01112982|184404880|OTHER|The absence of Joint Effusion.||||||0.31|||||||t-test, 2 sided|||||||0.31
92251301|NCT01112982|184404880|OTHER|The absence of Bone Marrow Edema.||||||0.25|||||||t-test, 2 sided|||||||0.25
92251302|NCT01112982|184404880|OTHER|The absence of Soft Tissue Edema.||||||0.14|||||||t-test, 2 sided|||||||0.14
92251303|NCT01112982|184404881|OTHER|||||||0.32||||||"The Presence of synovial Pannus in the index joint."|t-test, 1 sided|||||||0.32
92251304|NCT01112982|184404881|OTHER|||||||0.99||||||"The Severity of Synovial Pannus in the index joint."|t-test, 1 sided|||||||0.99
92251305|NCT03371251|184404883|SUPERIORITY||Observed Difference vs. Placebo|2.0||||0.8434|TWO_SIDED|90.0|-14.5|18.5|||Pearson's chi-square test|||Statistical Analysis: SRI-4 Response||18.5|-14.5|0.8434
92251306|NCT03371251|184404883|SUPERIORITY||Observed Difference vs. Placebo|2.0||||0.8434|TWO_SIDED|90.0|-14.5|18.5|||Pearson's chi-square test|||Statistical Analysis: \>= 4-Point Reduction from Baseline in SLEDAI-2K Global Score||18.5|-14.5|0.8434
92251307|NCT03371251|184404883|SUPERIORITY||Observed Difference vs. Placebo|17.7||||0.0141|TWO_SIDED|90.0|4.5|30.9|||Pearson's chi-square test|||Statistical Analysis: No New BILAG A or More than One BILAG B Organ Score Compared with Baseline||30.9|4.5|0.0141
92251308|NCT03371251|184404883|SUPERIORITY||Observed Difference vs. Placebo|17.7||||0.0141|TWO_SIDED|90.0|4.5|30.9|||Pearson's chi-square test|||Statistical Analysis: No Deterioration from Baseline in PGA by \>=30mm||30.9|4.5|0.0141
92251309|NCT03371251|184404899|SUPERIORITY||Observed Difference vs. Placebo|-2.6||||0.7985|TWO_SIDED|90.0|-19.8|14.5|||Pearson's chi-square test|||||14.5|-19.8|0.7985
92251310|NCT03371251|184404900|SUPERIORITY||Observed Difference vs. Placebo|-6.9||||0.3498|TWO_SIDED|90.0|-22.9|9.8|||Pearson's chi-square test|||Statistical Analysis for Overall||9.8|-22.9|0.3498
92251311|NCT03371251|184404901|SUPERIORITY||Observed Difference vs. Placebo|-21.8||||0.0072|TWO_SIDED|90.0|-36.2|-7.4|||Pearson's chi-square test|||Statistical analysis for Overall||-7.4|-36.2|0.0072
92251312|NCT03371251|184404901|SUPERIORITY||Observed Difference vs. Placebo|-17.7||||0.0141|TWO_SIDED|90.0|-30.9|-4.5|||Pearson's chi-square test|||Statistical Analysis for Day 210||-4.5|-30.9|0.0141
92251313|NCT03371251|184404902|SUPERIORITY||Observed Difference vs. Placebo|4.9||||0.6107|TWO_SIDED|90.0|-10.7|20.5|||Pearson's chi-square test|||||20.5|-10.7|0.6107
92251314|NCT03371251|184404903|SUPERIORITY||Observed Difference vs. Placebo|15.4||||0.1237|TWO_SIDED|90.0|-0.9|31.8|||Pearson's chi-square test|||||31.8|-0.9|0.1237
92251315|NCT03371251|184404904|SUPERIORITY||Observed Difference vs. Placebo|-13.7||||0.0581|TWO_SIDED|90.0|-26.7|-0.7|||Pearson's chi-square test|||Statistical Analysis for Overall||-0.7|-26.7|0.0581
92283369|NCT01029353|184470448|SUPERIORITY||Risk Ratio (RR)|0.6|||||TWO_SIDED|95.0|0.27|1.32|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.32|0.27|
92283370|NCT01029353|184470449|SUPERIORITY||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.41|1.36|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.36|0.41|
92251316|NCT03371251|184404904|SUPERIORITY||Observed Difference vs. Placebo|-14.3||||0.0471|TWO_SIDED|90.0|-31.2|3.2|||Pearson's chi-square test|||Statistical Analysis for Day 210||3.2|-31.2|0.0471
92251317|NCT03371251|184404905|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|-0.3|STANDARD_ERROR_OF_MEAN|0.78||0.6596|TWO_SIDED|90.0|-1.63|0.94|||ANCOVA||This is based on LS Means|Statistical Analysis for CLASI-A (Total Activity)||0.94|-1.63|0.6596
92251318|NCT03371251|184404905|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.3|STANDARD_ERROR_OF_MEAN|0.33||0.4105|TWO_SIDED|90.0|-0.27|0.81|||ANCOVA||This is based on LS Means|Statistical Analysis for CLASI-B (Total Damage)||0.81|-0.27|0.4105
92251319|NCT03371251|184404906|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.8|STANDARD_ERROR_OF_MEAN|4.11||0.8546|TWO_SIDED|90.0|-6.07|7.58|||ANCOVA||This is based on LS Means|Statistical Analysis for Day 210||7.58|-6.07|0.8546
92251320|NCT03371251|184404907|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.5|STANDARD_ERROR_OF_MEAN|0.7||0.4455|TWO_SIDED|90.0|-0.63|1.71|||ANCOVA||This is based on LS Means|Statistical Analysis for Sum of Swelling for Day 210||1.71|-0.63|0.4455
92251321|NCT03371251|184404907|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.9|STANDARD_ERROR_OF_MEAN|0.94||0.3367|TWO_SIDED|90.0|-0.65|2.47|||ANCOVA||This is based on LS Means|Statistical Analysis for Sum of Tenderness for Day 210||2.47|-0.65|0.3367
92251322|NCT03371251|184404907|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.8|STANDARD_ERROR_OF_MEAN|0.66||0.255|TWO_SIDED|90.0|-0.34|1.86|||ANCOVA||This is based on LS Means|Statistical Analysis for Sum of Active Joints for Day 210||1.86|-0.34|0.2550
92251323|NCT03371251|184404908|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.8|STANDARD_ERROR_OF_MEAN|0.68||0.2498|TWO_SIDED|90.0|-0.34|1.93|||ANCOVA||This is based on LS Means|||1.93|-0.34|0.2498
92251324|NCT03371251|184404909|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.0|STANDARD_ERROR_OF_MEAN|0.04||0.2558|TWO_SIDED|90.0|-0.02|0.12|||ANCOVA||This is based on LS Means|Statistical Analysis for Day 180||0.12|-0.02|0.2558
92251325|NCT03371251|184404910|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.0479|TWO_SIDED|90.0|0.18|0.88|||Log Rank||Hazard rate of BOS161721 120 mg / Hazard rate of placebo|||0.88|0.18|0.0479
92251326|NCT03371251|184404912|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|4.4|STANDARD_ERROR_OF_MEAN|16.4||0.7898|TWO_SIDED|90.0|-22.92|31.7|||ANOVA||This is based on LS Means|||31.70|-22.92|0.7898
92251327|NCT03371251|184404913|SUPERIORITY||Hazard Ratio (HR)|0.33||||0.0083|TWO_SIDED|90.0|0.16|0.68|||Log-Rank Test (2-Sided)||Hazard rate of BOS161721 120mg / Hazard rate of placebo|||0.68|0.16|0.0083
92251328|NCT00871572|184404941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.0296|TWO_SIDED|90.0|-1.64|-0.23|||Mixed Models Analysis|||||-0.23|-1.64|0.0296
92251329|NCT00871572|184404941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76||||0.0418|TWO_SIDED|90.0|-1.37|-0.15|||Mixed Models Analysis|||||-0.15|-1.37|0.0418
92251330|NCT00871572|184404941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76||||0.0514|TWO_SIDED|90.0|-1.41|-0.12|||Mixed Models Analysis|||||-0.12|-1.41|0.0514
92251331|NCT00871572|184404942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.62||||0.2565|TWO_SIDED|95.0|-4.46|1.21|||Mixed Models Analysis|||||1.21|-4.46|0.2565
92251332|NCT00871572|184404942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.86||||0.1245|TWO_SIDED|95.0|-4.25|0.53|||Mixed Models Analysis|||||0.53|-4.25|0.1245
92251333|NCT00871572|184404942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.41||||0.0594|TWO_SIDED|95.0|-4.92|0.1|||Mixed Models Analysis|||||0.10|-4.92|0.0594
92251334|NCT00871572|184404943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-124.56||||0.4978|TWO_SIDED|95.0|-490.02|240.9|||ANCOVA|||||240.90|-490.02|0.4978
92251335|NCT00871572|184404943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-338.64||||0.0372|TWO_SIDED|95.0|-656.55|-20.72|||ANCOVA|||||-20.72|-656.55|0.0372
92251336|NCT00871572|184404943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-466.83||||0.0068|TWO_SIDED|95.0|-799.48|-134.18|||ANCOVA|||||-134.18|-799.48|0.0068
92251337|NCT00871572|184404944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.814|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||||0.7|-0.5|0.814
92251338|NCT00871572|184404944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.681|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||||0.7|-0.4|0.681
92251339|NCT00871572|184404944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.715|TWO_SIDED|95.0|-0.7|0.5|||ANCOVA|||||0.5|-0.7|0.715
92251340|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.56||||0.0248|TWO_SIDED|95.0|-44.03|-3.09||P-value is for Pre-Morning Meal (fasting).|Mixed Models Analysis|||||-3.09|-44.03|0.0248
92251341|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.28||||0.0002|TWO_SIDED|95.0|-53.08|-17.48||P-value is for Pre-Morning Meal (fasting).|Mixed Models Analysis|||||-17.48|-53.08|0.0002
92287077|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.69|TWO_SIDED|95.0|-0.038|0.058|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.058|-0.038|0.690
92251342|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.32|||<|0.0001|TWO_SIDED|95.0|-58.12|-20.53||P-value is for Pre-Morning Meal (fasting).|Mixed Models Analysis|||||-20.53|-58.12|<0.0001
92251343|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.42||||0.6513|TWO_SIDED|95.0|-34.66|21.82||P-value is for 2 Hours After Morning Meal.|Mixed Models Analysis|||||21.82|-34.66|0.6513
92251344|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2||||0.5045|TWO_SIDED|95.0|-32.61|16.21||P-value is for 2 Hours After Morning Meal.|Mixed Models Analysis|||||16.21|-32.61|0.5045
92251345|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.2||||0.5774|TWO_SIDED|95.0|-32.9|18.49||P-value is for 2 Hours After Morning Meal.|Mixed Models Analysis|||||18.49|-32.90|0.5774
92251346|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.81||||0.0045|TWO_SIDED|95.0|-60.1|-11.53||P-value is for Pre-Mid-Day Meal.|Mixed Models Analysis|||||-11.53|-60.10|0.0045
92251347|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.15||||0.0024|TWO_SIDED|95.0|-54.1|-12.21||P-value is for Pre-Mid-Day Meal.|Mixed Models Analysis|||||-12.21|-54.10|0.0024
92251348|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-37.87||||0.0011|TWO_SIDED|95.0|-59.98|-15.75||P-value is for Pre-Mid-Day Meal.|Mixed Models Analysis|||||-15.75|-59.98|0.0011
92251349|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.48||||0.0389|TWO_SIDED|95.0|-55.47|-1.49||P-value is for 2 Hours After Mid-Day Meal.|Mixed Models Analysis|||||-1.49|-55.47|0.0389
92251350|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.65||||0.1896|TWO_SIDED|95.0|-39.24|7.94||P-value is for 2 Hours After Mid-Day Meal.|Mixed Models Analysis|||||7.94|-39.24|0.1896
92251351|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.56||||0.0729|TWO_SIDED|95.0|-47.28|2.16||P-value is for 2 Hours After Mid-Day Meal.|Mixed Models Analysis|||||2.16|-47.28|0.0729
92251352|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.78||||0.0041|TWO_SIDED|95.0|-74.79|-14.77||P-value is for Pre Evening Meal.|Mixed Models Analysis|||||-14.77|-74.79|0.0041
92251353|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-54.45|||<|0.0001|TWO_SIDED|95.0|-80.42|-28.48||P-value is for Pre Evening Meal.|Mixed Models Analysis|||||-28.48|-80.42|<0.0001
92251354|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.19||||0.0013|TWO_SIDED|95.0|-73.57|-18.81||P-value is for Pre Evening Meal.|Mixed Models Analysis|||||-18.81|-73.57|0.0013
92251355|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.82||||0.0118|TWO_SIDED|95.0|-70.51|-9.13||P-value is for 2 Hours After Evening Meal.|Mixed Models Analysis|||||-9.13|-70.51|0.0118
92251356|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.8||||0.0016|TWO_SIDED|95.0|-70.42|-17.18||P-value is for 2 Hours After Evening Meal.|Mixed Models Analysis|||||-17.18|-70.42|0.0016
92251357|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.56||||0.0065|TWO_SIDED|95.0|-67.63|-11.48||P-value is for 2 Hours After Evening Meal.|Mixed Models Analysis|||||-11.48|-67.63|0.0065
92251358|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.88||||0.0154|TWO_SIDED|95.0|-66.43|-7.33||P-value is for Bedtime.|Mixed Models Analysis|||||-7.33|-66.43|0.0154
92251359|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.5||||0.0006|TWO_SIDED|95.0|-71.93|-21.07||P-value is for Bedtime.|Mixed Models Analysis|||||-21.07|-71.93|0.0006
92251360|NCT00871572|184404947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.07||||0.0029|TWO_SIDED|95.0|-69.13|-15.01||P-value is for Bedtime.|Mixed Models Analysis|||||-15.01|-69.13|0.0029
92251361|NCT00871572|184404948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.62||||0.3815|TWO_SIDED|95.0|-32.44|83.68|||Mixed Models Analysis|||||83.68|-32.44|0.3815
92251362|NCT00871572|184404948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4||||0.8315|TWO_SIDED|95.0|-45.12|55.93|||Mixed Models Analysis|||||55.93|-45.12|0.8315
92251363|NCT00871572|184404948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.25||||0.3658|TWO_SIDED|95.0|-28.93|77.44|||Mixed Models Analysis|||||77.44|-28.93|0.3658
92251364|NCT00871572|184404949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|55.06||||0.2131|TWO_SIDED|95.0|-32.24|142.37|||Mixed Models Analysis|||||142.37|-32.24|0.2131
92251365|NCT00871572|184404949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|89.68||||0.022|TWO_SIDED|95.0|13.27|166.1|||Mixed Models Analysis|||||166.10|13.27|0.0220
92251366|NCT00871572|184404949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|107.26||||0.0101|TWO_SIDED|95.0|26.29|188.22|||Mixed Models Analysis|||||188.22|26.29|0.0101
92251367|NCT00871572|184404950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.87||||0.1596|TWO_SIDED|95.0|-0.75|4.49|||Mixed Models Analysis|||||4.49|-0.75|0.1596
92251368|NCT00871572|184404950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03||||0.0791|TWO_SIDED|95.0|-0.24|4.31|||Mixed Models Analysis|||||4.31|-0.24|0.0791
92251369|NCT00871572|184404950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.71||||0.1564|TWO_SIDED|95.0|-0.67|4.1|||Mixed Models Analysis|||||4.10|-0.67|0.1564
92251370|NCT00871572|184404951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8018.51||||0.45|TWO_SIDED|95.0|-13104.14|29141.16|||ANCOVA|||||29141.16|-13104.14|0.4500
92251371|NCT00871572|184404951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5174.85||||0.5739|TWO_SIDED|95.0|-13158.65|23508.35|||ANCOVA|||||23508.35|-13158.65|0.5739
92251372|NCT00871572|184404951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18153.92||||0.0653|TWO_SIDED|95.0|-1188.23|37496.06|||ANCOVA|||||37496.06|-1188.23|0.0653
92251373|NCT00871572|184404952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18094.32||||0.6209|TWO_SIDED|95.0|-54734.08|90922.71|||ANCOVA|||||90922.71|-54734.08|0.6209
92251374|NCT00871572|184404952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5783.59||||0.8581|TWO_SIDED|95.0|-58650.71|70217.89|||ANCOVA|||||70217.89|-58650.71|0.8581
92251375|NCT00871572|184404952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36218.98||||0.285|TWO_SIDED|95.0|-30955.5|103393.46|||ANCOVA|||||103393.46|-30955.50|0.2850
92283371|NCT01029353|184470449|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.69|1.42|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.42|0.69|
92283372|NCT01029353|184470450|SUPERIORITY||Risk Ratio (RR)|0.43|||||TWO_SIDED|95.0|0.04|4.45|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||4.45|0.04|
92283373|NCT01029353|184470450|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.44|1.49|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.49|0.44|
92283374|NCT01029353|184470451|SUPERIORITY||Mean Difference (Final Values)|-1.27|||||TWO_SIDED|95.0|-14.1|11.6|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to NEC.||11.60|-14.10|
92283375|NCT01029353|184470451|SUPERIORITY||Mean Difference (Final Values)|-7.85|||||TWO_SIDED|95.0|-15.84|0.13|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to IP.||0.13|-15.84|
92283376|NCT01029353|184470452|SUPERIORITY||Mean Difference (Final Values)|-11.57|||||TWO_SIDED|95.0|-27.15|4.01|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to NEC.||4.01|-27.15|
92287078|NCT03086460|184479317|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.155|TWO_SIDED|95.0|-0.013|0.082|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.082|-0.013|0.155
92251376|NCT00871572|184404953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.584|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||||0.4|-0.7|0.584
92251377|NCT00871572|184404953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.426|TWO_SIDED|95.0|-0.7|0.3|||ANCOVA|||||0.3|-0.7|0.426
92251378|NCT00871572|184404953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.657|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||||0.4|-0.6|0.657
92251379|NCT00871572|184404954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.365|TWO_SIDED|95.0|-0.1|0.4|||ANCOVA|||||0.4|-0.1|0.365
92251380|NCT00871572|184404954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.191|TWO_SIDED|95.0|-0.1|0.4|||ANCOVA|||||0.4|-0.1|0.191
92251381|NCT00871572|184404954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.297|TWO_SIDED|95.0|-0.1|0.4|||ANCOVA|||||0.4|-0.1|0.297
92251382|NCT00871572|184404955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.523|TWO_SIDED|95.0|-0.8|0.4|||ANCOVA|||||0.4|-0.8|0.523
92251383|NCT00871572|184404955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.476|TWO_SIDED|95.0|-0.7|0.3|||ANCOVA|||||0.3|-0.7|0.476
92251384|NCT00871572|184404955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.634|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||||0.4|-0.7|0.634
92251385|NCT00871572|184404956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.919|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||||0.6|-0.6|0.919
92251386|NCT00871572|184404956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.864|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||||0.6|-0.5|0.864
92251387|NCT00871572|184404956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.726|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||||0.7|-0.5|0.726
92251388|NCT00187889|184404961|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.6|STANDARD_ERROR_OF_MEAN|6.7||0.15|TWO_SIDED|95.0|-22.8|3.6||The P-value applies to this comparison, without adjustment, to the completers of the trial.|Satterthwaite corrected t-test||An expanded definition of the outcome measure is the difference between the percentage change (week 16) and the percentage change week 0). This is a calculation based on 4 measurements.|The null hypothesis is that the treatments are equivalent with respect to the primary outcome. The Satterthwaite corrected t-tests adjusts for potentially unequal variance in the groups.||3.6|-22.8|0.15
92251389|NCT00187889|184404961|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.39||0.92|TWO_SIDED|95.0|-0.79|0.72|||Satterthwaite corrected t-test||The Satterthwaite corrected t-tests adjusts for potentially unequal variance in the groups. This is a different outcome variable than the primary.|The null hypothesis is that treatments are equivalent on this outcome. The study was powered around the primary outcome. No adjustment for multiple comparisons was planned.||0.72|-0.79|0.92
92251390|NCT03954444|184404963|EQUIVALENCE|90% Confidence Interval, should be within -20% to +20%|Mean Difference (Net)|2.7|||||TWO_SIDED|90.0|-2.6|8.0||||||||8.0|-2.6|
92283377|NCT01029353|184470452|SUPERIORITY||Mean Difference (Final Values)|-7.63|||||TWO_SIDED|95.0|-17.46|2.2|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to IP.||2.20|-17.46|
92251391|NCT03954444|184404963|SUPERIORITY|||||||0.04|||||||Cochran-Mantel-Haenszel|||||||0.04
92251392|NCT03954444|184404963|SUPERIORITY|||||||0.1126|||||||Cochran-Mantel-Haenszel|||||||0.1126
92251393|NCT03812588|184404977|SUPERIORITY||Slope|7.9|STANDARD_ERROR_OF_MEAN|7.261||0.292|TWO_SIDED|||||Linear regression model of condition in predicting change in HRSD-24. P-value and coefficient are Medication:Track. Medication (Escitalopram or Placebo) with Track (RFM or CFM) as co-variates. The threshold for statistical significance was p\>0.05.|Regression, Linear|||||||0.292
92251394|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.81||||0.0856|TWO_SIDED|95.0|0.69|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.69|0.0856
92251395|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.8546|TWO_SIDED|95.0|0.84|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.84|0.8546
92251396|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.73||||0.0012|TWO_SIDED|95.0|0.62|0.86||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.86|0.62|0.0012
92251397|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.02||||0.8414|TWO_SIDED|95.0|0.87|1.2||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.20|0.87|0.8414
92251398|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.83||||0.2412|TWO_SIDED|95.0|0.64|1.08||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.08|0.64|0.2412
92182725|NCT01968967|184264568|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-1.5|-1.3||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.3|-1.5|
92251399|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.13||||0.4548|TWO_SIDED|95.0|0.88|1.44||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.44|0.88|0.4548
92251400|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.69||||0.0093|TWO_SIDED|95.0|0.53|0.88||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.88|0.53|0.0093
92251401|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.1||||0.8414|TWO_SIDED|95.0|0.86|1.42||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.42|0.86|0.8414
92251402|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.87||||0.1749|TWO_SIDED|95.0|0.75|1.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.00|0.75|0.1749
92251403|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.11||||0.3121|TWO_SIDED|95.0|0.96|1.27||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.27|0.96|0.3121
92251404|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.89||||0.1351|TWO_SIDED|95.0|0.78|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.78|0.1351
92251405|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.07||||0.8414|TWO_SIDED|95.0|0.93|1.24||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.24|0.93|0.8414
92182726|NCT01968967|184264568|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-1.2|-1.0||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.0|-1.2|
92251406|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.83||||0.2158|TWO_SIDED|95.0|0.67|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.67|0.2158
92251407|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.88||||0.3279|TWO_SIDED|95.0|0.71|1.08||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.08|0.71|0.3279
92251408|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.88||||0.2472|TWO_SIDED|95.0|0.72|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.72|0.2472
92251409|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.8414|TWO_SIDED|95.0|0.79|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.79|0.8414
92283378|NCT01029353|184470453|SUPERIORITY||Mean Difference (Final Values)|4.0|||||TWO_SIDED|95.0|-18.84|26.83|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to NEC.||26.83|-18.84|
92283379|NCT01029353|184470453|SUPERIORITY||Mean Difference (Final Values)|9.05|||||TWO_SIDED|95.0|-13.29|31.38|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to IP.||31.38|-13.29|
92283380|NCT01029353|184470454|SUPERIORITY||Mean Difference (Final Values)|-3.13|||||TWO_SIDED|95.0|-24.62|18.36|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to NEC.||18.36|-24.62|
92283381|NCT01029353|184470454|SUPERIORITY||Mean Difference (Final Values)|-2.39|||||TWO_SIDED|95.0|-14.42|9.63|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates. Reported results in this analysis restricted to infants with IP.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to IP.||9.63|-14.42|
92283382|NCT01029353|184470455|SUPERIORITY||Mean Difference (Final Values)|-18.43|||||TWO_SIDED|95.0|-48.41|11.55|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to NEC.||11.55|-48.41|
92283383|NCT01029353|184470455|SUPERIORITY||Mean Difference (Final Values)|-11.95|||||TWO_SIDED|95.0|-31.96|8.06|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to IP.||8.06|-31.96|
92251410|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6193|TWO_SIDED|95.0|0.81|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.81|0.6193
92251411|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.13||||0.3121|TWO_SIDED|95.0|0.96|1.32||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.32|0.96|0.3121
92283384|NCT04538170|184470457|SUPERIORITY|||||||0.013||||||threshold for statistical significance|Fisher Exact|||Preliminary work showed that approximately 25% of patients report phantom pain after orchidectomy. A difference of 20% between the GAC and ORC groups was considered relevant. Power was set to 80% and the significance level to 5%, resulting in a minimum of 40 women to be recruited, which was fulfilled.||||0.013
92251412|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.82||||0.0191|TWO_SIDED|95.0|0.7|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.70|0.0191
92251413|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.14||||0.8414|TWO_SIDED|95.0|0.97|1.33||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.33|0.97|0.8414
92283385|NCT00637299|184470460|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 1 sided|||||||<0.01
92283386|NCT00637299|184470461|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<0.05
92283387|NCT00959660|184470476|SUPERIORITY||||||<|0.001||||||Main effects analysis with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||||||<0.001
92283388|NCT00959660|184470476|SUPERIORITY||||||<|0.001||||||Main effects analysis with Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||||||<0.001
92283389|NCT00959660|184470477|SUPERIORITY|||||||0.004||||||Main effects analyses with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||||||0.004
92176721|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-25.484|||<|0.0001|TWO_SIDED|95.0|-31.99|-18.979|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-18.979|-31.990|<.0001
92182727|NCT01968967|184264569|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.3|-0.3||||||Week 12: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.3|-0.3|
92251414|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.2412|TWO_SIDED|95.0|0.76|1.05||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.05|0.76|0.2412
92251415|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.15||||0.3121|TWO_SIDED|95.0|0.99|1.35||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.35|0.99|0.3121
92251416|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.8||||0.0135|TWO_SIDED|95.0|0.68|0.94||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.94|0.68|0.0135
92251417|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.8414|TWO_SIDED|95.0|0.87|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.87|0.8414
92283390|NCT00959660|184470477|SUPERIORITY|||||||0.43||||||Main effects analysis for Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||||||0.43
92251418|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.81||||0.1749|TWO_SIDED|95.0|0.66|1.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.00|0.66|0.1749
92251419|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.15||||0.3121|TWO_SIDED|95.0|0.93|1.41||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.41|0.93|0.3121
92283391|NCT00959660|184470478|SUPERIORITY||||||<|0.001||||||Main effects analyses with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Total Body Fat Mass||||<0.001
92283392|NCT00959660|184470478|SUPERIORITY|||||||0.001||||||Main effects analysis of Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Total Body Fat Mass||||0.001
92283393|NCT00959660|184470478|SUPERIORITY||||||<|0.001||||||Main effects analyses with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Total Non-Bone Lean Mass||||<0.001
92283394|NCT00959660|184470478|SUPERIORITY|||||||0.25||||||Main effects analysis for Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Total Non-Bone Lean Mass||||0.25
92251420|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.7||||0.0038|TWO_SIDED|95.0|0.57|0.86||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.86|0.57|0.0038
92251421|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.8414|TWO_SIDED|95.0|0.84|1.27||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.27|0.84|0.8414
92283395|NCT00959660|184470479|SUPERIORITY||||||<|0.001||||||Main effects analyses with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Thigh Subcutaneous Fat||||<0.001
92251422|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.2412|TWO_SIDED|95.0|0.76|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.76|0.2412
92251423|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.2||||0.2053|TWO_SIDED|95.0|1.02|1.41||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.41|1.02|0.2053
92251424|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.82||||0.0241|TWO_SIDED|95.0|0.7|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.70|0.0241
92251425|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.8414|TWO_SIDED|95.0|0.88|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.88|0.8414
92251426|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.81||||0.0732|TWO_SIDED|95.0|0.69|0.94||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.94|0.69|0.0732
92251427|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.609|TWO_SIDED|95.0|0.82|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.82|0.6090
92251428|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.65|||<|0.0001|TWO_SIDED|95.0|0.56|0.76||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.76|0.56|<0.0001
92251429|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.96||||0.8414|TWO_SIDED|95.0|0.82|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.82|0.8414
92251430|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.7828|TWO_SIDED|95.0|0.82|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.82|0.7828
92251431|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.21||||0.2053|TWO_SIDED|95.0|1.02|1.43||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.43|1.02|0.2053
92251432|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.77||||0.0093|TWO_SIDED|95.0|0.65|0.92||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.92|0.65|0.0093
92251433|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.11||||0.8414|TWO_SIDED|95.0|0.93|1.31||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.31|0.93|0.8414
92283396|NCT00959660|184470479|SUPERIORITY|||||||0.26||||||Main effects analysis for Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Thigh Subcutaneous Fat||||0.26
92251434|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.88||||0.2412|TWO_SIDED|95.0|0.73|1.07||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.07|0.73|0.2412
92251435|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.14||||0.3121|TWO_SIDED|95.0|0.95|1.37||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.37|0.95|0.3121
92251436|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.77||||0.0135|TWO_SIDED|95.0|0.64|0.93||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.93|0.64|0.0135
92283397|NCT00959660|184470479|SUPERIORITY||||||<|0.001||||||Main effects analyses with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Thigh Skeletal Muscle||||<0.001
92251437|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.11||||0.8414|TWO_SIDED|95.0|0.92|1.34||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.34|0.92|0.8414
92251438|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.2412|TWO_SIDED|95.0|0.79|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.79|0.2412
92283398|NCT00959660|184470479|SUPERIORITY|||||||0.26||||||Main effects analysis of Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Thigh Skeletal Muscle||||0.26
92283399|NCT00849901|184470480|SUPERIORITY_OR_OTHER|||||||0.999||95.0|||||Mixed Models Analysis|||||||0.999
92251439|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.6652|TWO_SIDED|95.0|0.91|1.18||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.18|0.91|0.6652
92283400|NCT03828734|184470492|SUPERIORITY|||||||0.263|||||||ANOVA|||||||0.263
92283401|NCT03828734|184470493|SUPERIORITY||||||<|1e-06|||||||ANOVA|||||||<0.000001
92283402|NCT03828734|184470494|SUPERIORITY|||||||0.399|||||||ANOVA|||||||0.399
92283403|NCT00262223|184470495|SUPERIORITY_OR_OTHER_LEGACY||Incidence Rate Ratio|1.6||||0.34|TWO_SIDED|95.0|0.61|4.23|||Generalized Estimating Equations|Negative binomial models with log link were applied to the alcohol consumption measure.||Between group analyses were conducted of time-by-treatment interaction that included the four study time points (baseline, end-of-treatment, 6-mos and 12-mos).||4.23|0.61|0.34
92283404|NCT00262223|184470496|SUPERIORITY_OR_OTHER_LEGACY||Parameter Estimate|-16.15||||0.04|TWO_SIDED|95.0|-31.18|-1.13||A trend-level time-by-treatment interaction (p = .096) was probed for simple effects, which revealed a significantly greater reduction in CAPS scores at end-of-treatment in the SS+Sertraline group relative to the SS+Placebo group.|Generalized Estimating Equations|||Generalized estimating equations (GEE) were utilized to model PTSD outcomes. This method is an extension of the generalized linear model that handles correlated data arising from repeated measurements, requires no parametric distribution assumption, and provides robust inference with respect to misspecification of the within-subject correlation. A temporal within-subjects autoregressive \[AR(1)\] correlation matrix was used to model participants across timepoints.||-1.13|-31.18|0.04
92251440|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.0275|TWO_SIDED|95.0|0.75|0.98||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.98|0.75|0.0275
92251441|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.06||||0.8414|TWO_SIDED|95.0|0.93|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.93|0.8414
92251442|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.2412|TWO_SIDED|95.0|0.76|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.76|0.2412
92251443|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.13||||0.3121|TWO_SIDED|95.0|0.96|1.32||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.32|0.96|0.3121
92251444|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|0.84||||0.0387|TWO_SIDED|95.0|0.72|0.99||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.99|0.72|0.0387
92176722|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-26.899|||<|0.0001|TWO_SIDED|95.0|-34.135|-19.663|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-19.663|-34.135|<.0001
92176723|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-26.41|||<|0.0001|TWO_SIDED|95.0|-31.716|-21.103|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-21.103|-31.716|<.0001
92176724|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-7.021||||0.028|TWO_SIDED|95.0|-13.278|-0.763|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-0.763|-13.278|0.0280
92176725|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-5.902||||0.0972|TWO_SIDED|95.0|-12.881|1.077|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||1.077|-12.881|0.0972
92251445|NCT01392378|184404990|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.8414|TWO_SIDED|95.0|0.89|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.89|0.8414
92251446|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.935|TWO_SIDED|95.0|0.82|1.19||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.19|0.82|0.9350
92251447|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.11||||0.7918|TWO_SIDED|95.0|0.93|1.32||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.32|0.93|0.7918
92251448|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.96||||0.6922|TWO_SIDED|95.0|0.8|1.14||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.14|0.80|0.6922
92251449|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.11||||0.9765|TWO_SIDED|95.0|0.93|1.32||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.32|0.93|0.9765
92251450|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6915|TWO_SIDED|95.0|0.78|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.78|0.6915
92283405|NCT00437658|184470502|NON_INFERIORITY|Statistical non-inferiority was defined when the lower bound of the 95% 2-sided confidence interval for the difference between an elagolix dose and DMPA-SC in the response rate was no less than -20% at week 24 for both dysmenorrhea and non-menstrual pelvic pain.|Difference in response rates|-0.3||||0.963|TWO_SIDED|95.0|-13.4|12.7|||Pearson chi-squared||Difference in response rate = elogolix - DMPA-SC|||12.7|-13.4|0.9630
92283406|NCT00437658|184470502|NON_INFERIORITY|Statistical non-inferiority was defined when the lower bound of the 95% 2-sided confidence interval for the difference between an elagolix dose and DMPA-SC in the response rate was no less than -20% at week 24 for both dysmenorrhea and non-menstrual pelvic pain.|Difference in response rates|-12.4||||0.101|TWO_SIDED|95.0|-26.7|1.8|||Pearson chi-squared||Difference in response rate = elogolix - DMPA-SC|||1.8|-26.7|0.1010
92251451|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.13||||0.7918|TWO_SIDED|95.0|0.94|1.36||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.36|0.94|0.7918
92176726|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-25.771|||<|0.0001|TWO_SIDED|95.0|-37.189|-14.353|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-14.353|-37.189|<.0001
92251452|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.4389|TWO_SIDED|95.0|0.75|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.75|0.4389
92251453|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.9765|TWO_SIDED|95.0|0.85|1.24||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.24|0.85|0.9765
92251454|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.935|TWO_SIDED|95.0|0.87|1.14||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.14|0.87|0.9350
92251455|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.7918|TWO_SIDED|95.0|0.9|1.18||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.18|0.90|0.7918
92251456|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.0||||0.943|TWO_SIDED|95.0|0.88|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.88|0.9430
92251457|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.9765|TWO_SIDED|95.0|0.85|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.85|0.9765
92251458|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.89||||0.5167|TWO_SIDED|95.0|0.74|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.74|0.5167
92251459|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.7918|TWO_SIDED|95.0|0.78|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.78|0.7918
92251460|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.87||||0.2514|TWO_SIDED|95.0|0.73|1.04||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.04|0.73|0.2514
92251461|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.0||||0.9872|TWO_SIDED|95.0|0.84|1.19||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.19|0.84|0.9872
92251462|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.2582|TWO_SIDED|95.0|0.73|1.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.00|0.73|0.2582
92283407|NCT00437658|184470503|NON_INFERIORITY|Statistical non-inferiority was defined when the lower bound of the 95% 2-sided confidence interval for the difference between an elagolix dose and DMPA-SC in the response rate was no less than -20% at week 24 for both dysmenorrhea and non-menstrual pelvic pain.|Difference in response rates|9.5||||0.2048|TWO_SIDED|95.0|-5.2|24.2|||Pearson chi-squared||Difference in response rates = elagolix - DMPA-SC|||24.2|-5.2|0.2048
92283408|NCT00437658|184470503|NON_INFERIORITY|Statistical non-inferiority was defined when the lower bound of the 95% 2-sided confidence interval for the difference between an elagolix dose and DMPA-SC in the response rate was no less than -20% at week 24 for both dysmenorrhea and non-menstrual pelvic pain.|Difference in response rates|0.5||||0.9544|TWO_SIDED|95.0|-15.1|16.0|||Pearson chi-squared||Difference in response rates = elagolix - DMPA-SC|||16.0|-15.1|0.9544
92283409|NCT00437658|184470506|OTHER||Least squares mean|-5.5|||<|0.0001|TWO_SIDED|95.0|-6.2|-4.8||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in total CPSSS at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-4.8|-6.2|< 0.0001
92283410|NCT00437658|184470506|OTHER||Least squares mean|-5.2|||<|0.0001|TWO_SIDED|95.0|-5.8|-4.5||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in total CPSSS at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-4.5|-5.8|< 0.0001
92251463|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.06||||0.7918|TWO_SIDED|95.0|0.91|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.91|0.7918
92251464|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.2514|TWO_SIDED|95.0|0.74|1.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.00|0.74|0.2514
92251465|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.9765|TWO_SIDED|95.0|0.88|1.2||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.20|0.88|0.9765
92283411|NCT00437658|184470506|OTHER||Least squares mean|-5.3|||<|0.0001|TWO_SIDED|95.0|-6.0|-4.6||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in total CPSSS at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-4.6|-6.0|< 0.0001
92283412|NCT00437658|184470507|OTHER||Least squares mean|-4.6|||<|0.0001|TWO_SIDED|95.0|-5.1|-4.0||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in total CPSSS excluding dyspareunia at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-4.0|-5.1|<0.0001
92251466|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.06||||0.6915|TWO_SIDED|95.0|0.86|1.3||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.30|0.86|0.6915
92251467|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.13||||0.7918|TWO_SIDED|95.0|0.93|1.38||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.38|0.93|0.7918
92251468|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6922|TWO_SIDED|95.0|0.78|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.78|0.6922
92251469|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.01||||0.9872|TWO_SIDED|95.0|0.83|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.83|0.9872
92251470|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.3609|TWO_SIDED|95.0|0.7|1.04||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.04|0.70|0.3609
92283413|NCT00437658|184470507|OTHER||Least squares mean|-4.4|||<|0.0001|TWO_SIDED|95.0|-5.0|-3.9||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in total CPSSS excluding dyspareunia at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-3.9|-5.0|<0.0001
92251471|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.08||||0.7918|TWO_SIDED|95.0|0.89|1.3||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.30|0.89|0.7918
92251472|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.2514|TWO_SIDED|95.0|0.71|1.05||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.05|0.71|0.2514
92251473|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.9765|TWO_SIDED|95.0|0.86|1.26||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.26|0.86|0.9765
92251474|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.6304|TWO_SIDED|95.0|0.79|1.08||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.08|0.79|0.6304
92251475|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.06||||0.7918|TWO_SIDED|95.0|0.91|1.24||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.24|0.91|0.7918
92251476|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.88||||0.2514|TWO_SIDED|95.0|0.75|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.75|0.2514
92251477|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.9765|TWO_SIDED|95.0|0.88|1.2||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.20|0.88|0.9765
92251478|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.84||||0.2582|TWO_SIDED|95.0|0.71|1.01||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.01|0.71|0.2582
92251479|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.9279|TWO_SIDED|95.0|0.84|1.18||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.18|0.84|0.9279
92251480|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.2514|TWO_SIDED|95.0|0.72|1.01||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.01|0.72|0.2514
92182728|NCT01968967|184264569|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.3|-0.3||||||Week 24: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.3|-0.3|
92251481|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.9765|TWO_SIDED|95.0|0.76|1.07||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.07|0.76|0.9765
92251482|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.82||||0.1424|TWO_SIDED|95.0|0.71|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.71|0.1424
92251483|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.97||||0.7918|TWO_SIDED|95.0|0.84|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.84|0.7918
92251484|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.2514|TWO_SIDED|95.0|0.73|0.98||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.98|0.73|0.2514
92251485|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.9765|TWO_SIDED|95.0|0.79|1.07||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.07|0.79|0.9765
92251486|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.93||||0.6304|TWO_SIDED|95.0|0.78|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.78|0.6304
92251487|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.7918|TWO_SIDED|95.0|0.88|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.88|0.7918
92182729|NCT01968967|184264569|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.3|-0.2||||||Week 52: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.2|-0.3|
92251488|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6922|TWO_SIDED|95.0|0.81|1.13||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.13|0.81|0.6922
92251489|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.97||||0.9765|TWO_SIDED|95.0|0.82|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.82|0.9765
92251490|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6572|TWO_SIDED|95.0|0.84|1.08||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.08|0.84|0.6572
92251491|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.7918|TWO_SIDED|95.0|0.86|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.86|0.7918
92251492|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.89||||0.2514|TWO_SIDED|95.0|0.79|1.01||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.01|0.79|0.2514
92251493|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.0||||0.9872|TWO_SIDED|95.0|0.88|1.13||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.13|0.88|0.9872
92182730|NCT01968967|184264570|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.0|||||TWO_SIDED|95.0|19.21|38.02||||||Week 12: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||38.02|19.21|
92251494|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.6304|TWO_SIDED|95.0|0.78|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.78|0.6304
92283414|NCT00437658|184470507|OTHER||Least squares mean|-4.5|||<|0.0001|TWO_SIDED|95.0|-5.1|-3.9||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in total CPSSS excluding dyspareunia at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-3.9|-5.1|< 0.0001
92251495|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.7918|TWO_SIDED|95.0|0.88|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.88|0.7918
92251496|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6922|TWO_SIDED|95.0|0.8|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.80|0.6922
92283415|NCT00437658|184470508|OTHER||Least squares mean|-1.5|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.2||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dysmenorrhea at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-1.2|-1.7|< 0.0001
92251497|NCT01392378|184404992|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.9765|TWO_SIDED|95.0|0.81|1.13||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.13|0.81|0.9765
92251498|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.2||||0.7148|TWO_SIDED|95.0|0.82|1.66||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.66|0.82|0.7148
92251499|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.0||||0.7907|TWO_SIDED|95.0|0.75|1.45||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.45|0.75|0.7907
92251500|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.4765|TWO_SIDED|95.0|0.81|1.6||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.60|0.81|0.4765
92251501|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.3||||0.5037|TWO_SIDED|95.0|0.89|1.76||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.76|0.89|0.5037
92251502|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.9414|TWO_SIDED|95.0|0.52|2.17||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||2.17|0.52|0.9414
92251503|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.7907|TWO_SIDED|95.0|0.45|1.71||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.71|0.45|0.7907
92251504|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.6||||0.29|TWO_SIDED|95.0|0.32|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.32|0.2900
92251505|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.8826|TWO_SIDED|95.0|0.44|1.77||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.77|0.44|0.8826
92251506|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.5||||0.5823|TWO_SIDED|95.0|0.18|1.4||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.40|0.18|0.5823
92251507|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.7636|TWO_SIDED|95.0|0.27|1.8||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.80|0.27|0.7636
92283416|NCT00437658|184470508|OTHER||Least squares mean|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.2||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dysmenorrhea at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-1.2|-1.6|< 0.0001
92251508|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.4||||0.2407|TWO_SIDED|95.0|0.14|1.05||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.05|0.14|0.2407
92251509|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.2||||0.8826|TWO_SIDED|95.0|0.43|3.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||3.22|0.43|0.8826
92251510|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.5||||0.0961|TWO_SIDED|95.0|0.26|0.81||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.81|0.26|0.0961
92251511|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.7636|TWO_SIDED|95.0|0.38|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.38|0.7636
92251512|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.29|TWO_SIDED|95.0|0.39|1.19||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.19|0.39|0.2900
92251513|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.0||||0.8826|TWO_SIDED|95.0|0.6|1.82||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.82|0.60|0.8826
92251514|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.0||||0.9925|TWO_SIDED|95.0|0.65|1.54||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.54|0.65|0.9925
92251515|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.7636|TWO_SIDED|95.0|0.52|1.17||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.17|0.52|0.7636
92251516|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.3929|TWO_SIDED|95.0|0.53|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.53|0.3929
92251517|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.8826|TWO_SIDED|95.0|0.62|1.43||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.43|0.62|0.8826
92251518|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.2||||0.7433|TWO_SIDED|95.0|0.7|2.2||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||2.20|0.70|0.7433
92251519|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.7636|TWO_SIDED|95.0|0.46|1.35||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.35|0.46|0.7636
92251520|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.6||||0.2407|TWO_SIDED|95.0|0.34|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.34|0.2407
92251521|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.8826|TWO_SIDED|95.0|0.61|1.83||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.83|0.61|0.8826
92251522|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.9414|TWO_SIDED|95.0|0.51|1.71||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.71|0.51|0.9414
92251523|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.2||||0.7636|TWO_SIDED|95.0|0.68|2.14||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||2.14|0.68|0.7636
92251524|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.738|TWO_SIDED|95.0|0.5|1.63||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.63|0.50|0.7380
92251525|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.8826|TWO_SIDED|95.0|0.49|1.58||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.58|0.49|0.8826
92251526|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.9414|TWO_SIDED|95.0|0.67|1.65||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.65|0.67|0.9414
92251527|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.7907|TWO_SIDED|95.0|0.58|1.43||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.43|0.58|0.7907
92251528|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.2407|TWO_SIDED|95.0|0.43|1.04||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.04|0.43|0.2407
92251529|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.267|TWO_SIDED|95.0|0.42|1.02||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.02|0.42|0.2670
92251530|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.5823|TWO_SIDED|95.0|0.62|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.62|0.5823
92251531|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.7636|TWO_SIDED|95.0|0.65|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.65|0.7636
92251532|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.6||||0.0422|TWO_SIDED|95.0|0.48|0.86||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.86|0.48|0.0422
92251533|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.267|TWO_SIDED|95.0|0.53|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.53|0.2670
92251534|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.8454|TWO_SIDED|95.0|0.72|1.78||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.78|0.72|0.8454
92251535|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.3||||0.7636|TWO_SIDED|95.0|0.81|2.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||2.00|0.81|0.7636
92251536|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.2824|TWO_SIDED|95.0|0.45|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.45|0.2824
92251537|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.3||||0.5155|TWO_SIDED|95.0|0.83|2.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||2.06|0.83|0.5155
92251538|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.5823|TWO_SIDED|95.0|0.5|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.50|0.5823
92251539|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.7636|TWO_SIDED|95.0|0.78|1.7||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.70|0.78|0.7636
92251540|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.4644|TWO_SIDED|95.0|0.56|1.25||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.25|0.56|0.4644
92251541|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.8826|TWO_SIDED|95.0|0.59|1.31||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.31|0.59|0.8826
92251542|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.5823|TWO_SIDED|95.0|0.61|1.13||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.13|0.61|0.5823
92251543|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.7636|TWO_SIDED|95.0|0.65|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.65|0.7636
92251544|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.3299|TWO_SIDED|95.0|0.6|1.13||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.13|0.60|0.3299
92251545|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.267|TWO_SIDED|95.0|0.54|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.54|0.2670
92251546|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.5823|TWO_SIDED|95.0|0.48|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.48|0.5823
92251547|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.7907|TWO_SIDED|95.0|0.68|1.69||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.69|0.68|0.7907
92251548|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.2742|TWO_SIDED|95.0|0.43|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.43|0.2742
92251549|NCT01392378|184404994|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.267|TWO_SIDED|95.0|0.42|1.05||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.05|0.42|0.2670
92251550|NCT01392378|184404995|SUPERIORITY_OR_OTHER||GMC Ratio|0.93||||0.813|TWO_SIDED|95.0|0.71|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.71|0.813
92251551|NCT01392378|184404995|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.845|TWO_SIDED|95.0|0.79|1.34||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.34|0.79|0.845
92251552|NCT01392378|184404995|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.461|TWO_SIDED|95.0|0.65|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.65|0.461
92283417|NCT00437658|184470508|OTHER||Least squares mean|-1.7|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.4||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dysmenorrhea at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-1.4|-1.9|< 0.0001
92251553|NCT01392378|184404995|SUPERIORITY_OR_OTHER||GMC Ratio|0.89||||0.545|TWO_SIDED|95.0|0.68|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.68|0.545
92251554|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.91||||0.712|TWO_SIDED|95.0|0.79|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.79|0.712
92251555|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.97||||0.837|TWO_SIDED|95.0|0.84|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.84|0.837
92251556|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.357|TWO_SIDED|95.0|0.78|1.04||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.04|0.78|0.357
92251557|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.88||||0.19|TWO_SIDED|95.0|0.76|1.01||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.01|0.76|0.190
92251558|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.96||||0.813|TWO_SIDED|95.0|0.83|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.83|0.813
92251559|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.84||||0.136|TWO_SIDED|95.0|0.73|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.73|0.136
92251560|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.104|TWO_SIDED|95.0|0.74|0.98||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.98|0.74|0.104
92251561|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.73|||<|0.001|TWO_SIDED|95.0|0.64|0.85||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.85|0.64|<0.001
92251562|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.712|TWO_SIDED|95.0|0.72|1.04||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.04|0.72|0.712
92251563|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.84||||0.206|TWO_SIDED|95.0|0.7|1.01||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.01|0.70|0.206
92251564|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.78||||0.066|TWO_SIDED|95.0|0.65|0.93||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.93|0.65|0.066
92251565|NCT01392378|184404996|SUPERIORITY_OR_OTHER||GMC Ratio|0.81||||0.085|TWO_SIDED|95.0|0.67|0.97||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.97|0.67|0.085
92251566|NCT01392378|184404997|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.712|TWO_SIDED|95.0|0.77|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.77|0.712
92251567|NCT01392378|184404997|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.206|TWO_SIDED|95.0|0.74|1.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.00|0.74|0.206
92251568|NCT01392378|184404997|SUPERIORITY_OR_OTHER||GMC Ratio|0.84||||0.104|TWO_SIDED|95.0|0.72|0.98||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.98|0.72|0.104
92251569|NCT01392378|184404997|SUPERIORITY_OR_OTHER||GMC Ratio|0.74||||0.001|TWO_SIDED|95.0|0.63|0.87||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.87|0.63|0.001
92251570|NCT01392378|184404997|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.813|TWO_SIDED|95.0|0.82|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.82|0.813
92251571|NCT01392378|184404997|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.837|TWO_SIDED|95.0|0.9|1.19||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.19|0.90|0.837
92251572|NCT01392378|184404997|SUPERIORITY_OR_OTHER||GMC Ratio|0.93||||0.534|TWO_SIDED|95.0|0.81|1.07||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.07|0.81|0.534
92251573|NCT01392378|184404997|SUPERIORITY_OR_OTHER||GMC Ratio|1.0||||0.961|TWO_SIDED|95.0|0.87|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.87|0.961
92251574|NCT01392378|184404998|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.85|TWO_SIDED|95.0|0.75|1.42||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.42|0.75|0.850
92251575|NCT01392378|184404998|SUPERIORITY_OR_OTHER||GMC Ratio|1.05||||0.837|TWO_SIDED|95.0|0.77|1.44||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.44|0.77|0.837
92251576|NCT01392378|184404998|SUPERIORITY_OR_OTHER||GMC Ratio|0.94||||0.695|TWO_SIDED|95.0|0.69|1.28||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.28|0.69|0.695
92251577|NCT01392378|184404998|SUPERIORITY_OR_OTHER||GMC Ratio|0.82||||0.408|TWO_SIDED|95.0|0.6|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.60|0.408
92283418|NCT00437658|184470509|OTHER||Least squares mean|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dyspareunia at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.9|-1.4|< 0.0001
92283419|NCT00437658|184470509|OTHER||Least squares mean|-1.0|||<|0.0001|TWO_SIDED|2.0|-1.2|-0.7||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dyspareunia at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.7|-1.2|< 0.0001
92182731|NCT01968967|184264570|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.9|||||TWO_SIDED|95.0|9.84|16.86||||||Week 24: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||16.86|9.84|
92176727|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-20.019||||0.0005|TWO_SIDED|95.0|-32.833|-7.205|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-7.205|-32.833|0.0005
92176728|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-18.463||||0.0002|TWO_SIDED|95.0|-29.825|-7.101|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-7.101|-29.825|0.0002
92176729|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-20.997||||0.0002|TWO_SIDED|95.0|-33.619|-8.375|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-8.375|-33.619|0.0002
92176730|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-20.508|||<|0.0001|TWO_SIDED|95.0|-29.061|-11.955|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-11.955|-29.061|<.0001
92251578|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|0.95||||0.813|TWO_SIDED|95.0|0.69|1.3||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.30|0.69|0.813
92251579|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|0.92||||0.837|TWO_SIDED|95.0|0.68|1.25||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.25|0.68|0.837
92251580|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|0.94||||0.695|TWO_SIDED|95.0|0.68|1.28||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.28|0.68|0.695
92251581|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|0.98||||0.961|TWO_SIDED|95.0|0.71|1.36||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.36|0.71|0.961
92251582|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|1.18||||0.808|TWO_SIDED|95.0|0.85|1.65||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.65|0.85|0.808
92251583|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|1.09||||0.837|TWO_SIDED|95.0|0.8|1.5||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.50|0.80|0.837
92251584|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|0.92||||0.695|TWO_SIDED|95.0|0.66|1.28||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.28|0.66|0.695
92251585|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|0.82||||0.408|TWO_SIDED|95.0|0.58|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.58|0.408
92182732|NCT01968967|184264570|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.3|||||TWO_SIDED|95.0|4.99|8.06||||||Week 52: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||8.06|4.99|
92182733|NCT01968967|184264571|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|86.5|||||TWO_SIDED|95.0|61.74|121.25||||||Week 12: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||121.25|61.74|
92251586|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|1.07||||0.813|TWO_SIDED|95.0|0.78|1.46||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.46|0.78|0.813
92251587|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.343|TWO_SIDED|95.0|0.59|1.08||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.08|0.59|0.343
92251588|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|1.12||||0.695|TWO_SIDED|95.0|0.82|1.52||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.52|0.82|0.695
92251589|NCT01392378|184404999|SUPERIORITY_OR_OTHER||GMT Ratio|0.95||||0.925|TWO_SIDED|95.0|0.69|1.31||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.31|0.69|0.925
92176731|NCT04800211|184247048|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.978||||0.8504|TWO_SIDED|95.0|-9.216|11.172|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||11.172|-9.216|0.8504
92176732|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-31.257|||<|0.0001|TWO_SIDED|95.0|-41.957|-20.557|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-20.557|-41.957|<.0001
92182734|NCT01968967|184264571|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|35.9|||||TWO_SIDED|95.0|26.83|47.96||||||Week 24: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||47.96|26.83|
92251590|NCT01392378|184405000|SUPERIORITY_OR_OTHER||GMC Ratio|1.08||||0.91|TWO_SIDED|95.0|0.81|1.43||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.43|0.81|0.910
92251591|NCT01392378|184405000|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.85|TWO_SIDED|95.0|0.79|1.37||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.37|0.79|0.850
92251592|NCT01392378|184405000|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.868|TWO_SIDED|95.0|0.7|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.70|0.868
92251593|NCT01392378|184405000|SUPERIORITY_OR_OTHER||GMC Ratio|0.87||||0.914|TWO_SIDED|95.0|0.67|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.67|0.914
92251594|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|1.05||||0.91|TWO_SIDED|95.0|0.89|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.89|0.910
92251595|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.85|TWO_SIDED|95.0|0.89|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.89|0.850
92251596|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|1.0||||0.961|TWO_SIDED|95.0|0.85|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.85|0.961
92251597|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.916|TWO_SIDED|95.0|0.85|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.85|0.916
92283420|NCT00437658|184470509|OTHER||Least squares mean|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dyspareunia at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.5|-1.1|< 0.0001
92251598|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.91|TWO_SIDED|95.0|0.87|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.87|0.910
92251599|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|1.01||||0.909|TWO_SIDED|95.0|0.89|1.14||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.14|0.89|0.909
92251600|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|1.06||||0.868|TWO_SIDED|95.0|0.93|1.2||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.20|0.93|0.868
92251601|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.914|TWO_SIDED|95.0|0.81|1.05||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.05|0.81|0.914
92251602|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.91|TWO_SIDED|95.0|0.76|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.76|0.910
92251603|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|0.91||||0.85|TWO_SIDED|95.0|0.76|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.76|0.850
92251604|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|0.93||||0.868|TWO_SIDED|95.0|0.78|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.78|0.868
92251605|NCT01392378|184405001|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.914|TWO_SIDED|95.0|0.76|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.76|0.914
92251606|NCT01392378|184405002|SUPERIORITY_OR_OTHER||GMC Ratio|0.96||||0.91|TWO_SIDED|95.0|0.83|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.83|0.910
92251607|NCT01392378|184405002|SUPERIORITY_OR_OTHER||GMC Ratio|0.94||||0.85|TWO_SIDED|95.0|0.82|1.07||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.07|0.82|0.850
92251608|NCT01392378|184405002|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.939|TWO_SIDED|95.0|0.86|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.86|0.939
92251609|NCT01392378|184405002|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.279|TWO_SIDED|95.0|0.75|0.98||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.98|0.75|0.279
92251610|NCT01392378|184405002|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.149|TWO_SIDED|95.0|0.76|0.97||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.97|0.76|0.149
92251611|NCT01392378|184405002|SUPERIORITY_OR_OTHER||GMC Ratio|1.02||||0.85|TWO_SIDED|95.0|0.91|1.14||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.14|0.91|0.850
92251612|NCT01392378|184405002|SUPERIORITY_OR_OTHER||GMC Ratio|0.89||||0.394|TWO_SIDED|95.0|0.79|0.99||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.99|0.79|0.394
92251613|NCT01392378|184405002|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.916|TWO_SIDED|95.0|0.87|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.87|0.916
92251614|NCT01392378|184405003|SUPERIORITY_OR_OTHER||GMC Ratio|1.26||||0.869|TWO_SIDED|95.0|0.9|1.76||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.76|0.90|0.869
92251615|NCT01392378|184405003|SUPERIORITY_OR_OTHER||GMC Ratio|1.07||||0.85|TWO_SIDED|95.0|0.78|1.48||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.48|0.78|0.850
92251616|NCT01392378|184405003|SUPERIORITY_OR_OTHER||GMC Ratio|1.1||||0.868|TWO_SIDED|95.0|0.8|1.52||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.52|0.80|0.868
92251617|NCT01392378|184405003|SUPERIORITY_OR_OTHER||GMC Ratio|1.1||||0.916|TWO_SIDED|95.0|0.8|1.52||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.52|0.80|0.916
92251618|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|0.98||||0.91|TWO_SIDED|95.0|0.78|1.24||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.24|0.78|0.910
92251619|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|1.05||||0.85|TWO_SIDED|95.0|0.83|1.32||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.32|0.83|0.850
92176733|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-29.862|||<|0.0001|TWO_SIDED|95.0|-44.234|-15.491|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-15.491|-44.234|<.0001
92176734|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-31.512|||<|0.0001|TWO_SIDED|95.0|-46.971|-16.053|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-16.053|-46.971|<.0001
92176735|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-37.197|||<|0.0001|TWO_SIDED|95.0|-47.522|-26.872|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-26.872|-47.522|<.0001
92182735|NCT01968967|184264571|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|25.5|||||TWO_SIDED|95.0|18.9|34.47||||||Week 52: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||34.47|18.90|
92183107|NCT02434328|184264741|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-4.5|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||4.4|-4.5|
92251620|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|1.09||||0.868|TWO_SIDED|95.0|0.87|1.37||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.37|0.87|0.868
92251621|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|1.02||||0.916|TWO_SIDED|95.0|0.81|1.28||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.28|0.81|0.916
92251622|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|0.99||||0.91|TWO_SIDED|95.0|0.79|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.79|0.910
92251623|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|0.94||||0.85|TWO_SIDED|95.0|0.76|1.17||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.17|0.76|0.850
92251624|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|0.95||||0.868|TWO_SIDED|95.0|0.77|1.17||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.17|0.77|0.868
92283421|NCT00437658|184470510|OTHER||Least squares mean|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.4|-1.0||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in non-menstrual pelvic pain at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-1.0|-1.4|< 0.0001
92251625|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|0.98||||0.916|TWO_SIDED|95.0|0.79|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.79|0.916
92251626|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|0.97||||0.91|TWO_SIDED|95.0|0.77|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.77|0.910
92251627|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|0.84||||0.85|TWO_SIDED|95.0|0.67|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.67|0.850
92251628|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|0.98||||0.939|TWO_SIDED|95.0|0.78|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.78|0.939
92251629|NCT01392378|184405004|SUPERIORITY_OR_OTHER||GMT Ratio|0.96||||0.916|TWO_SIDED|95.0|0.76|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.76|0.916
92251630|NCT00180271|184405014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66|||<|0.001|TWO_SIDED|95.0|0.52|0.84||The trial involved prespecified event monitoring at up to 20 successive periods by an independent DSMB to permit trial termination if the CRT-D was superior to, inferior to, or not different from ICD according to prespecified stopping rules.|Log Rank||A Hazard ratio \< 1.0 would indicate that the result favors CRT-D.|The trial utilized a Wang-Tsiatis (delta=0.1) group-sequential design with 95% power to detect a hazard ratio of 0.75 at a two-sided significance level of 0.05. Primary analysis based on statistical evaluation comparing the life-table event-free survival time graphs for CRT-D and ICD-only arms of the trial. Stratified Cox proportional-hazards regression was used to estimate a hazard ratio and statistical significance was evaluated with the log-rank test. Stratified by center and ischemic status.||0.84|0.52|< 0.001
92251631|NCT00180271|184405015|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.001|TWO_SIDED|95.0|0.53|0.86|||Andersen-Gill|Andersen-Gill model performed, adjusted for a previous HF event in the study, stratified by ischemic status and using robust variance estimation.|Model adjusted for previously experienced heart failure event in the study. Hazard Ratio (95% CI) comparing patients with a previous heart failure event to those patients without a prior heart failure event equaled 8.84 (6084, 11.43), p\<0.001.|||0.86|0.53|0.001
92251632|NCT01998880|184405016|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.36|0.59||Type I error controlled through closed test procedure.|Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.59|0.36|<0.0001
92283422|NCT00437658|184470510|OTHER||Least squares mean|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.4|-1.0||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in non-menstrual pelvic pain at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-1.0|-1.4|< 0.0001
92251633|NCT01998880|184405018|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.0001|TWO_SIDED|95.0|0.31|0.5|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.50|0.31|<0.0001
92251634|NCT01998880|184405019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.2841|TWO_SIDED|95.0|0.61|1.16|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||1.16|0.61|0.2841
92251635|NCT01998880|184405020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.31|||<|0.0001|TWO_SIDED|95.0|23.5|45.1|||Chi-squared|||||45.1|23.5|<0.0001
92251636|NCT01998880|184405022|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.35|0.61|||Log-ranked, Stratified||Stratified by Binet stage at Baseline.|||0.61|0.35|<0.0001
92251637|NCT01998880|184405026|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.4|||<|0.0001|TWO_SIDED|95.0|0.3|0.53|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.53|0.30|<0.0001
92251638|NCT01998880|184405027|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.45|||<|0.0001|TWO_SIDED|95.0|0.31|0.65|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.65|0.31|<0.0001
92251639|NCT01998880|184405028|SUPERIORITY||Difference in Response Rates|33.04|||<|0.0001|TWO_SIDED|95.0|22.1|43.9|||Chi-squared|||Includes subjects with best overall response: CR, CRi, PR or nPR.||43.9|22.1|< 0.0001
92251640|NCT01938001|184405050|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.34|0.62|||Log Rank|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).|Hazard ratio and its confidence interval (CI) were estimated from Cox proportional hazard model adjusting for the stratification factors noted above.|||0.62|0.34|< 0.0001
92251641|NCT01938001|184405051|SUPERIORITY|||||||0.0006|||||||Cochran-Mantel-Haenszel|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).||||||0.0006
92251642|NCT01938001|184405052|SUPERIORITY||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.37|0.95||||||Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).||0.95|0.37|
92251643|NCT01938001|184405053|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).||||||< 0.0001
92251644|NCT01938001|184405054|SUPERIORITY||||||=|0.001|||||||Cochran-Mantel-Haenszel|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).||||||= 0.0010
92251645|NCT01938001|184405055|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0015|TWO_SIDED|95.0|0.36|0.79|||Log Rank|||||0.79|0.36|0.0015
92251646|NCT01938001|184405056|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.2993|TWO_SIDED|95.0|0.32|1.43|||Log Rank|||||1.43|0.32|0.2993
92251647|NCT01938001|184405057|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.38|0.67|||Stratified Log-Rank Test|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).|Hazard ratio and its CI were estimated from Cox proportional hazard model adjusting for the stratification factors noted above.|||0.67|0.38|< 0.0001
92251648|NCT01938001|184405058|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.39|0.71|||Stratified Log Rank Test|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).||||0.71|0.39|<0.0001
92251649|NCT03205982|184405062|EQUIVALENCE|If the difference (between treatment and control arm) is greater than the minimal clinically important difference (MCID), we consider the treatment arm is different from the control arm. MCID is calculated as 0.25-0.5\* standard deviation (SD). Conversely, the equivalence margin is the biggest difference (between 2 arms) to be considered no difference between 2 arms. Therefore, the equivalence margin should be smaller than MCID, i.e., it should be smaller than the smallest possible MCID.|Odds Ratio (OR)|0.9943|STANDARD_ERROR_OF_MEAN|0.0005|<|0.0001|TWO_SIDED|95.0|0.993|0.995|||Mixed Models Analysis|generalized linear mixed model with logit link (logistic model)||Compares difference in adherence changes between Intervention and Control arms||0.995|0.993|<0.0001
92251650|NCT01468701|184405074|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.6|0.9|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||0.90|0.60|
92183108|NCT02434328|184264741|OTHER||Difference in proportions|8.2|||||TWO_SIDED|95.0|3.9|12.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||12.8|3.9|
92251651|NCT01468701|184405076|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.63|0.98|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||0.98|0.63|
92251652|NCT01468701|184405077|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.57|1.11|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.11|0.57|
92251653|NCT01468701|184405079|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.57|1.14|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.14|0.57|
92251654|NCT01468701|184405087|OTHER||Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.38|0.73|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous myocardial infarction, abnormal kidney function, concomitant antiplatelets use and concomitant use of drugs related to bleeding.||0.73|0.38|
92251655|NCT01468701|184405091|OTHER||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.6|1.57|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous myocardial infarction, concomitant antiplatelets use, concomitant use of drugs related to bleeding, hypertension, and diabetes.||1.57|0.60|
92251656|NCT01468701|184405093|OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.54|0.8|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||0.80|0.54|
92251657|NCT03788616|184405105|EQUIVALENCE|assuming 95% power of the study|Median Difference (Final Values)|0.05||||0.478|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.478
92251658|NCT03170258|184405106|OTHER|||||||0.0015|||||||t-test, 2 sided|One-sample 2-sided t-test against a mean of 0 used to evaluate the main effect of VTA activation during neurofeedback.||||||0.0015
92251659|NCT03170258|184405107|OTHER||||||>|0.1|||||||t-test, 1 sided|One-sample t-test against 0 for the ratio of Beta to Theta power.||||||>0.10
92251660|NCT02853123|184405122|SUPERIORITY||Mean Difference (Final Values)|-0.357|STANDARD_ERROR_OF_MEAN|0.153||0.0217|TWO_SIDED|95.0|-0.661|-0.053|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|The adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||-0.053|-0.661|0.0217
92251661|NCT02853123|184405123|SUPERIORITY||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.106|0.265|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|IC measured prior to exercise, the adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.265|0.106|<.0001
92251662|NCT02853123|184405124|SUPERIORITY||Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.038||0.0852|TWO_SIDED|95.0|-0.009|0.141|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|IC measured end of exercise, the adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.141|-0.009|0.0852
92251663|NCT02853123|184405125|SUPERIORITY||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.117|0.194|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|The adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.194|0.117|<.0001
92183109|NCT02434328|184264741|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-7.9|1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||1.2|-7.9|
92251664|NCT02853123|184405126|SUPERIORITY||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.134|0.267|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|The adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.267|0.134|<.0001
92251665|NCT02853123|184405127|SUPERIORITY||Mean Difference (Final Values)|-0.108|STANDARD_ERROR_OF_MEAN|0.096||0.2645|TWO_SIDED|95.0|-0.3|0.083|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|1 min, the adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.083|-0.300|0.2645
92251666|NCT02853123|184405127|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.107||0.0267|TWO_SIDED|95.0|-0.452|-0.028|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|2 min, the adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||-0.028|-0.452|0.0267
92251667|NCT02853123|184405127|SUPERIORITY||Mean Difference (Final Values)|-0.318|STANDARD_ERROR_OF_MEAN|0.14||0.0258|TWO_SIDED|95.0|-0.596|-0.039|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|2.5 min, the adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||-0.039|-0.596|0.0258
92251668|NCT02853123|184405128|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.12||0.8025|TWO_SIDED|95.0|-0.268|0.208|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|The adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.208|-0.268|0.8025
92251669|NCT02853123|184405129|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.099||0.3634|TWO_SIDED|95.0|-0.106|0.286|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|The adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.286|-0.106|0.3634
92251670|NCT01391468|184405130|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92251671|NCT01391468|184405131|SUPERIORITY_OR_OTHER|||||||0.744|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.744
92251672|NCT01391468|184405132|SUPERIORITY_OR_OTHER|||||||0.0042|TWO_SIDED|||||Only the probiotics group arrived at the reported p-value after 6 months|Wilcoxon (Mann-Whitney)|||||||0.0042
92251673|NCT01391468|184405133|SUPERIORITY_OR_OTHER|||||||0.0099|TWO_SIDED|||||Only the probiotics group arrived at the reported p-value after 6 months|Wilcoxon (Mann-Whitney)|||||||0.0099
92251674|NCT01510834|184405147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.824|STANDARD_DEVIATION|14.148||0.001|TWO_SIDED|95.0|-10.578|-3.07|||t-test, 2 sided|||||-3.070|-10.578|.001
92251675|NCT01510834|184405148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0872|STANDARD_DEVIATION|15.731||0.001|TWO_SIDED|95.0|2.91|11.26|||t-test, 2 sided|||||11.26|2.91|.001
92251676|NCT01510834|184405149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.78|STANDARD_DEVIATION|7.78|<|0.001|TWO_SIDED|95.0|-5.84|-1.7|||t-test, 2 sided|||||-1.70|-5.84|<.001
92251677|NCT01510834|184405150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08|STANDARD_DEVIATION|6.269||0.015|TWO_SIDED|95.0|-3.751|-0.4244|||t-test, 2 sided|||||-.4244|-3.751|.015
92251678|NCT04839393|184405158|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio (%)|108.86|||||TWO_SIDED|90.0|87.24|135.84|||Mixed Models Analysis|||||135.84|87.24|
92251679|NCT04839393|184405159|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio|113.14|||||TWO_SIDED|90.0|89.34|143.28|||Mixed Models Analysis|||||143.28|89.34|
92251680|NCT04839393|184405160|OTHER|The ratio and 90% confidence interval were expressed as percentages|Adjusted Geometric Mean Ratio|38.73|||||TWO_SIDED|90.0|32.8|45.74|||Mixed Models Analysis|||The test treatment was PF-06865571 300 mg + PF-06882961 200 mg BID (Period 3 - Day 47), which was reported separately in comparison to the reference treatment of PF-06865571 300 mg (Period 1 - Day 1).||45.74|32.80|
92251681|NCT04839393|184405161|OTHER|The ratio and 90% confidence interval were expressed as percentages|Adjusted Geometric Mean Ratio|73.91|||||TWO_SIDED|90.0|67.95|80.4|||Mixed Models Analysis|||||80.40|67.95|
92251682|NCT04839393|184405162|OTHER|The ratio and 90% confidence interval were expressed as percentages|Adjusted Geometric Mean Ratio|73.2|||||TWO_SIDED|90.0|66.82|80.18|||Mixed Models Analysis|||||80.18|66.82|
92251683|NCT04839393|184405163|OTHER|The ratio and 90% confidence interval were expressed as percentages|Adjusted Geometric Mean Ratio|115.3|||||TWO_SIDED|90.0|85.37|155.73|||Mixed Models Analysis|||||155.73|85.37|
92251684|NCT04839393|184405164|OTHER|The ratio and 90% confidence interval were expressed as percentages|Adjusted Geometric Mean Ratio|118.64|||||TWO_SIDED|90.0|94.05|149.66|||Mixed Models Analysis|||||149.66|94.05|
92251685|NCT00671970|184405180|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92251686|NCT00671970|184405181|SUPERIORITY_OR_OTHER|||||||0.613||95.0|||||Fisher Exact|||||||.613
92251687|NCT00671970|184405182|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92251688|NCT00671970|184405183|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92251689|NCT00671970|184405184|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92251690|NCT00671970|184405185|SUPERIORITY_OR_OTHER|||||||0.179||95.0|||||Wilcoxon (Mann-Whitney)|||||||.179
92251691|NCT00671970|184405186|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Wilcoxon (Mann-Whitney)|||||||.008
92251692|NCT00633893|184405215|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3283|||<|0.0001|TWO_SIDED|95.0|0.2225|0.4844||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/all cause mortality to proportion of placebo participants with VTE/all cause mortality equal to 1.0. Participants with missing data were assumed to have experienced VTE/all cause mortality. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, Intent to treat (ITT) principle.||0.4844|0.2225|<0.0001
92251693|NCT00633893|184405215|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3615|||<|0.0001|TWO_SIDED|95.0|0.2475|0.5281||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/all cause mortality to proportion of placebo participants with VTE/all cause mortality equal to 1.0. Participants with missing data were assumed to have experienced VTE/all cause mortality. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, Intent to treat principle.||0.5281|0.2475|<0.0001
92251694|NCT00633893|184405216|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2891|||<|0.0001|TWO_SIDED|95.0|0.1902|0.4395||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/VTE-related death to proportion of placebo participants with VTE/ VTE-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE/ VTE-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||0.4395|0.1902|<0.0001
92251695|NCT00633893|184405216|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3774|||<|0.0001|TWO_SIDED|95.0|0.2577|0.5525||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/VTE-related death to proportion of placebo participants with VTE/ VTE-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE/ VTE-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||0.5525|0.2577|<0.0001
92251696|NCT00633893|184405217|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2422|||<|0.0001|TWO_SIDED|95.0|0.1476|0.3975||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/all cause mortality to proportion of placebo participants with VTE/all cause mortality equal to 1.0. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, Intent to treat (ITT) principle.||0.3975|0.1476|<0.0001
92251697|NCT00633893|184405217|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.1861|||<|0.0001|TWO_SIDED|95.0|0.1062|0.3261||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/all cause mortality to proportion of placebo participants with VTE/all cause mortality equal to 1.0. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, Intent to treat (ITT) principle.||0.3261|0.1062|<0.0001
92176736|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-31.442|||<|0.0001|TWO_SIDED|95.0|-44.96|-17.923|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-17.923|-44.960|<.0001
92176737|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-28.597||||0.0002|TWO_SIDED|95.0|-43.34|-13.853|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-13.853|-43.340|0.0002
92176738|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-30.054|||<|0.0001|TWO_SIDED|95.0|-40.943|-19.166|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-19.166|-40.943|<.0001
92176739|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-5.904||||0.2667|TWO_SIDED|95.0|-16.37|4.563|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||4.563|-16.370|0.2667
92176740|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|8.767||||0.2085|TWO_SIDED|95.0|-4.95|22.485|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||22.485|-4.950|0.2085
92183110|NCT02434328|184264741|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-1.0|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||6.4|-1.0|
92265142|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.86|STANDARD_ERROR_OF_MEAN|0.465||0.07|TWO_SIDED|95.0|-1.8|0.07|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.07|-1.80|0.070
92265143|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.449||0.854|TWO_SIDED|95.0|-0.99|0.82|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||0.82|-0.99|0.854
92251698|NCT00633893|184405218|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2799|||<|0.0001|TWO_SIDED|95.0|0.1844|0.4247||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/CV-related death to proportion of placebo participants with VTE/CV-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE/CV-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||0.4247|0.1844|<0.0001
92251699|NCT00633893|184405218|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3653|||<|0.0001|TWO_SIDED|95.0|0.25|0.5338||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/CV-related death to proportion of placebo participants with VTE/CV-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE/CV-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||0.5338|0.2500|<0.0001
92251700|NCT00633893|184405219|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2615|||<|0.0001|TWO_SIDED|95.0|0.1593|0.4292||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with nonfatal DVT to proportion of placebo participants with nonfatal DVT equal to 1.0. Participants with missing data were assumed to have experienced nonfatal DVT. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, Intent to treat (ITT) principle.||0.4292|0.1593|<0.0001
92251701|NCT00633893|184405219|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3972|||<|0.0001|TWO_SIDED|95.0|0.2595|0.6079||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with nonfatal DVT to proportion of placebo participants with nonfatal DVT equal to 1.0. Participants with missing data were assumed to have experienced nonfatal DVT. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||0.6079|0.2595|<0.0001
92251702|NCT00633893|184405220|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6087||||0.1084|TWO_SIDED|95.0|0.3653|1.0145||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with nonfatal PE to proportion of placebo participants with nonfatal PE equal to 1.0. Participants with missing data were assumed to have experienced nonfatal PE. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.0145|0.3653|0.1084
92251703|NCT00633893|184405220|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6846||||0.1329|TWO_SIDED|95.0|0.4164|1.1257||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with nonfatal PE to proportion of placebo participants with nonfatal PE equal to 1.0. Participants with missing data were assumed to have experienced nonfatal PE. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.1257|0.4164|0.1329
92251704|NCT00633893|184405221|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.647||||0.3059|TWO_SIDED|95.0|0.3543|1.1813||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE-related death to proportion of placebo participants with VTE-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.1813|0.3543|0.3059
92251705|NCT00633893|184405221|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9416||||0.8288|TWO_SIDED|95.0|0.5458|1.6245||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE-related death to proportion of placebo participants with VTE-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.6245|0.5458|0.8288
92251706|NCT00633893|184405222|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5794||||0.1316|TWO_SIDED|95.0|0.3215|1.0443||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with CV-related death to proportion of placebo participants with CV-related death equal to 1.0. Participants with missing data were assumed to have experienced CV-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.0443|0.3215|0.1316
92265144|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.25|STANDARD_ERROR_OF_MEAN|0.468||0.011|TWO_SIDED|95.0|-2.19|-0.31|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.31|-2.19|0.011
92265145|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.448||0.271|TWO_SIDED|95.0|-1.4|0.4|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||0.40|-1.40|0.271
92265146|NCT01050998|184431814|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.03|STANDARD_ERROR_OF_MEAN|0.465||0.031|TWO_SIDED|95.0|-1.97|-0.1|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.10|-1.97|0.031
92265147|NCT01050998|184431815|SUPERIORITY_OR_OTHER||Percent difference|7.0||||0.238|TWO_SIDED|95.0|-3.3|20.5|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (CRP): p-value was calculated using a two-tailed Fisher's exact test.||20.5|-3.3|0.238
92251707|NCT00633893|184405222|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8433||||0.5288|TWO_SIDED|95.0|0.4959|1.4341||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with CV-related death to proportion of placebo participants with CV-related death equal to 1.0. Participants with missing data were assumed to have experienced CV-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.4341|0.4959|0.5288
92251708|NCT00633893|184405223|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6577||||0.2361|TWO_SIDED|95.0|0.3874|1.1169||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with all cause mortality to proportion of placebo participants with all cause mortality equal to 1.0. Participants with missing data were assumed to have experienced all cause mortality. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.1169|0.3874|0.2361
92265148|NCT01050998|184431815|SUPERIORITY_OR_OTHER||Percent difference|14.8||||0.017|TWO_SIDED|95.0|2.8|29.7|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (CRP): p-value was calculated using a two-tailed Fisher's exact test.||29.7|2.8|0.017
92265149|NCT01050998|184431815|SUPERIORITY_OR_OTHER||Percent difference|11.1||||0.09|TWO_SIDED|95.0|0.0|25.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (CRP): p-value was calculated using a two-tailed Fisher's exact test.||25.4|0.0|0.090
92265150|NCT01050998|184431815|SUPERIORITY_OR_OTHER||Percent difference|15.8||||0.015|TWO_SIDED|95.0|2.9|31.0|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (CRP): p-value was calculated using a two-tailed Fisher's exact test.||31.0|2.9|0.015
92265151|NCT01050998|184431815|SUPERIORITY_OR_OTHER||Percent difference|3.0||||0.412|TWO_SIDED|95.0|-4.2|14.0|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (ESR): p-value was calculated using a two-tailed Fisher's exact test.||14.0|-4.2|0.412
92265152|NCT01050998|184431815|SUPERIORITY_OR_OTHER||Percent difference|4.9||||0.237|TWO_SIDED|95.0|-2.9|16.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (ESR): p-value was calculated using a two-tailed Fisher's exact test.||16.4|-2.9|0.237
92176741|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|12.455||||0.1041|TWO_SIDED|95.0|-2.595|27.505|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||27.505|-2.595|0.1041
92176742|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-25.353||||0.0058|TWO_SIDED|95.0|-45.41|-5.295|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-5.295|-45.410|0.0058
92176743|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-38.63||||0.001|TWO_SIDED|95.0|-65.062|-12.197|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-12.197|-65.062|0.0010
92176744|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-43.967||||0.0005|TWO_SIDED|95.0|-72.443|-15.491|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-15.491|-72.443|0.0005
92176745|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-31.293||||0.0003|TWO_SIDED|95.0|-51.159|-11.428|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-11.428|-51.159|0.0003
92183111|NCT02434328|184264741|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-5.5|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.0|-5.5|
92176746|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-40.209||||0.0004|TWO_SIDED|95.0|-65.941|-14.477|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-14.477|-65.941|0.0004
92176747|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-41.052||||0.0011|TWO_SIDED|95.0|-68.965|-13.138|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-13.138|-68.965|0.0011
92265153|NCT01050998|184431815|SUPERIORITY_OR_OTHER||Percent difference|5.1||||0.231|TWO_SIDED|95.0|-2.8|16.8|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (ESR): p-value was calculated using a two-tailed Fisher's exact test.||16.8|-2.8|0.231
92265154|NCT01050998|184431815|SUPERIORITY_OR_OTHER||Percent difference|3.1||||0.406|TWO_SIDED|95.0|-4.1|14.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (ESR): p-value was calculated using a two-tailed Fisher's exact test.||14.4|-4.1|0.406
92182736|NCT04399837|184264649|OTHER|The generalized MCP-Mod procedure for time to event endpoints is based on the log hazard ratio of the active doses vs. placebo obtained via a Cox regression model on the time to first GPP flare.|Multiple contrast test|3.041||||0.002|||||||MCP-Mod linear model fit|Model assumption: Dose effect is linear with the increase of dose.||A flat vs. non-flat dose-response relationship across the 3 doses of spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 4 different plausible dose-response patterns (linear, Emax 1, Emax 2 and exponential) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.002
92283423|NCT00437658|184470510|OTHER||Least squares mean|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in non-menstrual pelvic pain at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-0.8|-1.3|< 0.0001
92182737|NCT04399837|184264649|OTHER|The generalized MCP-Mod procedure for time to event endpoints is based on the log hazard ratio of the active doses vs. placebo obtained via a Cox regression model on the time to first GPP flare.|Multiple contrast test|3.033||||0.002|||||||MCP-Mod Emax2 model fit|Model assumption: 95% of the maximum effect is achieved at low dose.||A flat vs. non-flat dose-response relationship across the 3 doses of spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 4 different plausible dose-response patterns (linear, Emax 1, Emax 2 and exponential) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.002
92251709|NCT00633893|184405223|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7708||||0.3155|TWO_SIDED|95.0|0.4631|1.2832||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with all cause mortality to proportion of placebo participants with all cause mortality equal to 1.0. Participants with missing data were assumed to have experienced all cause mortality. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.2832|0.4631|0.3155
92251710|NCT00633893|184405225|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.485||||0.3925|TWO_SIDED|95.0|0.0891|2.6391||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with major bleeding to proportion of placebo participants with major bleeding equal to 1.0. Treated participants with at least one dose of study drug were included.||2.6391|0.0891|0.3925
92283424|NCT00437658|184470511|OTHER||Least squares mean|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in pelvic tenderness at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.8|-1.2|< 0.0001
92283425|NCT00437658|184470511|OTHER||Least squares mean|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.8||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in pelvic tenderness at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.8|-1.1|< 0.0001
92251711|NCT00633893|184405225|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2457||||0.3551|TWO_SIDED|95.0|0.0269|2.2437||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with major bleeding to proportion of placebo participants with major bleeding equal to 1.0. Participants treated with at least one dose of study drug were included.||2.2437|0.0269|0.3551
92251712|NCT00633893|184405226|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2027||||0.5148|TWO_SIDED|95.0|0.6897|2.0975||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with major/clinically relevant non-major bleeding to proportion of placebo participants with major/clinically relevant non-major bleeding equal to 1.0.||2.0975|0.6897|0.5148
92283426|NCT00437658|184470511|OTHER||Least squares mean|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in pelvic tenderness at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.7|-1.1|< 0.0001
92183112|NCT02434328|184264741|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-5.6|1.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||1.8|-5.6|
92251713|NCT00633893|184405226|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.616||||0.1412|TWO_SIDED|95.0|0.9554|2.7336||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with major/clinically relevant non-major bleeding to proportion of placebo participants with major/clinically relevant non-major bleeding equal to 1.0.||2.7336|0.9554|0.1412
92251714|NCT00633893|184405227|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2928||||0.3932|TWO_SIDED|95.0|0.7158|2.3348||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with clinically relevant non-major bleeding to proportion of placebo participants with clinically relevant non-major bleeding equal to 1.0.||2.3348|0.7158|0.3932
92251715|NCT00633893|184405227|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.8235||||0.0621||95.0|1.047|3.176||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with clinically relevant non-major bleeding to proportion of placebo participants with clinically relevant non-major bleeding equal to 1.0.||3.1760|1.0470|0.0621
92251716|NCT00633893|184405228|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2579||||0.1691|TWO_SIDED|95.0|0.9064|1.7457||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with minor bleeding to proportion of placebo participants with minor bleeding equal to 1.0.||1.7457|0.9064|0.1691
92251717|NCT00633893|184405228|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.6971||||0.0013|TWO_SIDED|95.0|1.2468|2.3102||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with minor bleeding to proportion of placebo participants with minor bleeding equal to 1.0.||2.3102|1.2468|0.0013
92251718|NCT00633893|184405229|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2374||||0.1466|TWO_SIDED|95.0|0.9276|1.6507||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with total bleeding to proportion of placebo participants with total bleeding equal to 1.0. Total bleeding was defined as any major, clinically relevant non-major, or minor bleeding.||1.6507|0.9276|0.1466
92251719|NCT00633893|184405229|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.6468||||0.0005|TWO_SIDED|95.0|1.2552|2.1606||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with total bleeding to proportion of placebo participants with total bleeding equal to 1.0. Total bleeding is any major, clinically relevant non-major, or minor bleeding.||2.1606|1.2552|0.0005
92251720|NCT02741310|184405237|OTHER|The clinical hypothesis was that there would be no clinically meaningful difference between the blood pressure effects of sumatriptan alone and the effects of a single dose of erenumab IV and sumatriptan concomitant therapy. A clinically meaningful difference was defined as the upper bound of the 90% confidence interval (CI) of treatment difference between erenumab IV and sumatriptan compared to sumatriptan alone being ≥ 5 mmHg on the time-weighted scale resting MAP.|LS Mean Difference|-0.04|||||TWO_SIDED|90.0|-2.16|2.08||||||A linear mixed effects regression analysis was performed to assess if the time-weighted average in MAP for erenumab with sumatriptan is similar to sumatriptan alone. A two-sided 90% confidence interval (equivalent to a one-sided upper 95% CI) for the mean treatment difference was calculated using a linear mixed-effects model with fixed effects for treatment and period and a random effect for subject.||2.08|-2.16|
92251721|NCT02741310|184405239|OTHER||Geometric Least Squares Mean Ratio|0.98|||||TWO_SIDED|90.0|0.93|1.03||||||The mean for each treatment was compared using a linear mixed effects model with group A (sumatriptan alone) as the reference treatment group. The linear mixed effects model included treatment (erenumab with sumatriptan vs sumatriptan alone) and period as a fixed effect and subject as a random effect.||1.03|0.93|
92251722|NCT02741310|184405240|OTHER||Geometric Least Squares Mean Ratio|1.0|||||TWO_SIDED|90.0|0.96|1.05||||||The mean for each treatment was compared using a linear mixed effects model with group A (sumatriptan alone) as the reference treatment group. The linear mixed effects model included treatment (erenumab with sumatriptan vs sumatriptan alone) and period as a fixed effect and subject as a random effect.||1.05|0.96|
92251723|NCT02741310|184405241|OTHER||Geometric Least Squares Mean Ratio|0.95|||||TWO_SIDED|90.0|0.82|1.09||||||The mean for each treatment was compared using a linear mixed effects model with group A (sumatriptan alone) as the reference treatment group. The linear mixed effects model included treatment (erenumab with sumatriptan vs sumatriptan alone) and period as a fixed effect and subject as a random effect.||1.09|0.82|
92183113|NCT02434328|184264741|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-6.0|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||3.1|-6.0|
92265155|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|8.7||||0.182|TWO_SIDED|95.0|-2.7|24.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||24.4|-2.7|0.182
92265156|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|10.4||||0.11|TWO_SIDED|95.0|-1.2|25.5|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||25.5|-1.2|0.110
92265157|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|11.3||||0.104|TWO_SIDED|95.0|-0.6|26.9|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||26.9|-0.6|0.104
92265158|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|16.4||||0.016|TWO_SIDED|95.0|3.5|32.7|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||32.7|3.5|0.016
92251724|NCT01057862|184405323|OTHER|We are including the mean and SD of each arm at the start and end of study only as a comparison and not a meaningful analysis. Since higher scores represent a more severe form of the disorder, a drop in scores is seen as an indicator that the treatment had an effect.|Mean Difference (Final Values)|6.0|STANDARD_DEVIATION|9.35|||TWO_SIDED||||||||The active arm had a mean PG-YBOCS score of 16 (n=5) at study start with a SD of 7.35. At end of study the active arm had a mean PG-YBOCS score of 10 (n=5) with a SD of 9.35. The placebo arm is not included here as there were only two scores.|Enrollment was lower than expected and due to the low numbers of subjects completing the study (7 subjects (5 active and 2 placebo) completed all interventions) the numbers were not powerful enough to conduct a full analysis or provide any meaningful statistical analyses. We are including the mean and SD of each arm at the beginning and end of the study only as a comparison and not as a meaningful analysis.||||
92251725|NCT01057862|184405324|OTHER|We are including the mean and SD of each arm at the start and end of study only as a comparison and not a meaningful analysis. Since higher scores represent a more severe form of the disorder, a drop in scores is seen as an indicator that the treatment had an effect.|Mean Difference (Final Values)|14.2|STANDARD_DEVIATION|9.45|||TWO_SIDED||||||||The active treatment arm had a mean G-SAS score of 26.8 (n=5) at study start with a SD of 11.73. At end the active treatment arm had a mean G-SAS score of 12.6 (n=5) with a SD of 9.45. The placebo arm is not included as there were only 2 scores.|Enrollment was lower than expected and due to the low numbers of subjects completing the study (7 subjects (5 active and 2 placebo) completed all interventions) the numbers were not powerful enough to conduct a full analysis or provide any meaningful statistical analyses. We are including the mean and SD of each arm at the beginning and end of the study only as a comparison and not as a meaningful analysis.||||
92251726|NCT00753623|184405400|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92251727|NCT03332303|184405401|EQUIVALENCE|If the 90% confidence interval (calculated using Yates' continuity correction) on the absolute difference between the proportion of patients identified as Responders in the Test and Reference groups (pT - pR) is contained within the range \[-20%, +20%\] then therapeutic equivalence of the Test product to the Reference product was considered to have been demonstrated.|Mean Difference (Final Values)|-5.1|||||TWO_SIDED|90.0|-13.0|2.8||||||Therapeutic equivalence was evaluated for both primary and secondary endpoints in the per-protocol (PP) population.||2.8|-13.0|
92251728|NCT03332303|184405401|SUPERIORITY||% Difference|23.4|||<|0.0001|TWO_SIDED|||||The a priori threshold for statistical significance is p \< 0.05.|Cochran-Mantel-Haenszel|||Superiority of the Test and Reference products against the Placebo product for the primary endpoint was evaluated in the modified Intent-to-Treat (mITT) population using last observation carried forward (LOCF).||||<0.0001
92251729|NCT03332303|184405401|SUPERIORITY||% Difference|28.7|||<|0.0001|TWO_SIDED|||||The a priori threshold for statistical significance is p \< 0.05.|Cochran-Mantel-Haenszel|||Superiority of the Test and Reference products against the Placebo product for the primary endpoint was evaluated in the modified Intent-to-Treat (mITT) population using last observation carried forward (LOCF).||||<0.0001
92251730|NCT03332303|184405402|EQUIVALENCE|If the 90% confidence interval (calculated using Yates' continuity correction) on the absolute difference between the proportion of patients identified as Treatment Successes in the Test and Reference groups (pT - pR) is contained within the range \[-20%, +20%\] then therapeutic equivalence of the Test product to the Reference product was considered to have been demonstrated.|Mean Difference (Final Values)|-2.0|||||TWO_SIDED|90.0|-10.7|6.7||||||Therapeutic equivalence was evaluated for both primary and secondary endpoints in the per-protocol (PP) population.||6.7|-10.7|
92251731|NCT03332303|184405402|SUPERIORITY|To conclude superiority of the Test product over Placebo, the proportion of Treatment Successes in the Test product group must be numerically and statistically superior to that of the Placebo (p \< 0.05; using a two-sided Cochran-Mantel-Haenszel \[CMH\] test).|% Difference|-0.8||||0.8068|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Superiority of the Test and Reference products against the Placebo product for the secondary endpoint was evaluated in the modified Intent-to-Treat (mITT) population using last observation carried forward (LOCF).||||0.8068
92251732|NCT03332303|184405402|SUPERIORITY|To conclude superiority of the Reference product over Placebo, the proportion of Treatment Successes in the Reference product group must be numerically and statistically superior to that of the Placebo (p \< 0.05; using a two-sided Cochran-Mantel-Haenszel \[CMH\] test).|% Difference|1.8||||0.8003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Superiority of the Test and Reference products against the Placebo product for the secondary endpoint was evaluated in the modified Intent-to-Treat (mITT) population using last observation carried forward (LOCF).||||0.8003
92251733|NCT01957787|184405448|OTHER|||||||0.41||||||Estimates of the log odds and Wald standard error from a random effects logistic regression model were combined across imputed datasets for reference.|Random effects logistic regression model|||The null hypothesis was tested comparing the lower bound of the Wald 97.5% 1-sided confidence interval for the estimated rate of local tumor control to the performance goal of 84.0%. If the lower bound was greater than 84.0%, the null hypothesis was rejected and the endpoint was considered met.||||0.410
92251734|NCT02481596|184405513|SUPERIORITY|||||||0.045||||||Beta=.083. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||3 months. Multiply imputed data (m=20) using chained equations.||||.045
92251735|NCT02481596|184405513|SUPERIORITY|||||||0.006||||||Beta=.126. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||6 months. Multiply imputed data (m=20) using chained equations.||||.006
92251736|NCT02481596|184405514|SUPERIORITY|||||||0.518||||||Beta=.031. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||3 months. Multiply imputed data (m=20) using chained equations.||||.518
92251737|NCT02481596|184405514|SUPERIORITY|||||||0.092||||||Beta=.092. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||6 months. Multiply imputed data (m=20) using chained equations.||||.092
92251738|NCT02481596|184405515|SUPERIORITY|||||||0.53||||||Beta=-.027. Threshold p\<.05|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||3 months. Multiply imputed data (m=20) using chained equations||||.53
92251739|NCT02481596|184405515|SUPERIORITY|||||||0.41||||||Beta=-.037. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||6 months. Multiply imputed data (m=20) using chained equations.||||.41
92251740|NCT02481596|184405516|SUPERIORITY|||||||0.024||||||Beta=.088. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots); also adjusted for harmful involvement subscale of FIAD due to suppression effect.||3 months. Multiply imputed data (m=20) using chained equations.||||.024
92176748|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-42.509|||<|0.0001|TWO_SIDED|95.0|-60.902|-24.116|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-24.116|-60.902|<.0001
92176749|NCT04800211|184247049|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-2.915||||0.7835|TWO_SIDED|95.0|-23.855|18.025|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||18.025|-23.855|0.7835
92176750|NCT04800211|184247050|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)|Mean Difference (Net)|-0.769||||0.0002|TWO_SIDED|95.0|-1.228|-0.309|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)||-0.309|-1.228|0.0002
92176751|NCT04800211|184247050|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)|Mean Difference (Net)|-0.52||||0.0175|TWO_SIDED|95.0|-0.972|-0.068|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)||-0.068|-0.972|0.0175
92251741|NCT02481596|184405516|SUPERIORITY|||||||0.003||||||Beta=.128. Threshold p\<.05|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots); also adjusted for harmful involvement subscale of FIAD due to suppression effect.||6 months. Multiply imputed data (m=20) using chained equations.||||.003
92251742|NCT02481596|184405517|SUPERIORITY|||||||0.001||||||Beta=-.133. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots); also adjusted for helpful involvement subscale of FIAD due to suppression effect.||3 months. Multiply imputed data (m=20) using chained equations.||||.001
92251743|NCT02481596|184405517|SUPERIORITY|||||||0.012||||||Beta=-.115. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots); also adjusted for helpful involvement subscale of FIAD due to suppression effect.||6 months. Multiply imputed data (m=20) using chained equations.||||.012
92251744|NCT02481596|184405518|SUPERIORITY|||||||0.015||||||Beta=.114. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||3 months. Multiply imputed data (m=20) using chained equations.||||.015
92251745|NCT02481596|184405518|SUPERIORITY|||||||0.034||||||Beta=.101. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||6 months. Multiply imputed data (m=20) using chained equations.||||.034
92251746|NCT00631540|184405525|SUPERIORITY_OR_OTHER||Mean Patency Rate|91.7|||<|0.0001|TWO_SIDED|95.0|84.2|95.9|||Z-test, 1-sided||GEE model estimate.|Alternative hypothesis is 9-month primary patency rate greater than 60%.||95.9|84.2|<0.0001
92251747|NCT02437487|184405543|SUPERIORITY||Relative Risk|1.2217|||||TWO_SIDED|95.0|0.7919|1.8849||||||||1.8849|0.7919|
92251748|NCT02437487|184405545|SUPERIORITY||Relative Risk|1.2624|||||TWO_SIDED|95.0|0.7668|2.0785||||||||2.0785|0.7668|
92251749|NCT02437487|184405546|SUPERIORITY||Relative Risk|1.2217|||||TWO_SIDED|95.0|0.7919|1.8849||||||||1.8849|0.7919|
92251750|NCT02437487|184405547|SUPERIORITY||Relative Risk|1.0878|||||TWO_SIDED|95.0|0.7383|1.6029||||||||1.6029|0.7383|
92251751|NCT03906136|184405575|SUPERIORITY||Odds Ratio (OR)|0.69||||0.119|TWO_SIDED|95.0|0.43|1.1|||Regression, Logistic|||Week 24||1.10|0.43|0.119
92251752|NCT03906136|184405576|SUPERIORITY||Odds Ratio (OR)|0.59||||0.029|TWO_SIDED|95.0|0.37|0.95|||Regression, Logistic|||Week 12||0.95|0.37|0.029
92251753|NCT03906136|184405577|SUPERIORITY||Odds Ratio (OR)|0.71||||0.154|TWO_SIDED|95.0|0.45|1.14|||Regression, Logistic|||Week 12||1.14|0.45|0.154
92251754|NCT03906136|184405577|SUPERIORITY||Odds Ratio (OR)|0.87||||0.562|TWO_SIDED|95.0|0.54|1.39|||Regression, Logistic|||Week 24||1.39|0.54|0.562
92251755|NCT03906136|184405578|SUPERIORITY||Odds Ratio (OR)|0.55||||0.029|TWO_SIDED|95.0|0.32|0.94|||Regression, Logistic|||Week 12||0.94|0.32|0.029
92283427|NCT00437658|184470512|OTHER||Least squares mean|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.7||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in pelvic induration at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.7|-1.0|< 0.0001
92283428|NCT00437658|184470512|OTHER||Least squares mean|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in pelvic induration at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.7|-1.1|< 0.0001
92283429|NCT00437658|184470512|OTHER||Least squares mean|-0.8|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.6|||t-test, 2 sided|||Within-group analysis of change from baseline in pelvic induration at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.6|-0.9|<0.0001
92251756|NCT03906136|184405578|SUPERIORITY||Odds Ratio (OR)|0.74||||0.264|TWO_SIDED|95.0|0.44|1.25|||Regression, Logistic|||Week 24||1.25|0.44|0.264
92251757|NCT03906136|184405579|SUPERIORITY||Odds Ratio (OR)|0.49||||0.008|TWO_SIDED|95.0|0.29|0.83|||Regression, Logistic|||Week 12||0.83|0.29|0.008
92251758|NCT03906136|184405579|SUPERIORITY||Odds Ratio (OR)|0.47||||0.005|TWO_SIDED|95.0|0.28|0.8|||Regression, Logistic|||Week 24||0.80|0.28|0.005
92251759|NCT03906136|184405580|SUPERIORITY||Odds Ratio (OR)|0.72||||0.263|TWO_SIDED|95.0|0.4|1.28|||Regression, Logistic|||Week 12||1.28|0.40|0.263
92251760|NCT03906136|184405580|SUPERIORITY||Odds Ratio (OR)|0.61||||0.103|TWO_SIDED|95.0|0.34|1.1|||Regression, Logistic|||Week 24||1.10|0.34|0.103
92251761|NCT03906136|184405581|SUPERIORITY||Odds Ratio (OR)|0.64||||0.055|TWO_SIDED|95.0|0.4|1.01|||Regression, Logistic|||Week 12||1.01|0.40|0.055
92251762|NCT03906136|184405581|SUPERIORITY||Odds Ratio (OR)|0.82||||0.409|TWO_SIDED|95.0|0.52|1.31|||Regression, Logistic|||Week 24||1.31|0.52|0.409
92251763|NCT03906136|184405582|SUPERIORITY||Odds Ratio (OR)|0.85||||0.477|TWO_SIDED|95.0|0.53|1.34|||Regression, Logistic|||Week 12||1.34|0.53|0.477
92251764|NCT03906136|184405582|SUPERIORITY||Odds Ratio (OR)|1.01||||0.968|TWO_SIDED|95.0|0.63|1.61|||Regression, Logistic|||Week 24||1.61|0.63|0.968
92251765|NCT03906136|184405583|SUPERIORITY||Odds Ratio (OR)|0.3||||0.205|TWO_SIDED|95.0|-0.16|0.75|||Regression, Logistic|||Week 12||0.75|-0.16|0.205
92251766|NCT03906136|184405583|SUPERIORITY||Odds Ratio (OR)|0.37||||0.108|TWO_SIDED|95.0|-0.08|0.82|||Regression, Logistic|||Week 24||0.82|-0.08|0.108
92251767|NCT03906136|184405584|SUPERIORITY||Mean Difference (Net)|0.06||||0.525|TWO_SIDED|95.0|-0.12|0.23|||Mixed Models Analysis|||Week 12||0.23|-0.12|0.525
92251768|NCT03906136|184405584|SUPERIORITY||Mean Difference (Net)|-0.06||||0.577|TWO_SIDED|95.0|-0.25|0.14|||Mixed Models Analysis|||Week 24||0.14|-0.25|0.577
92251769|NCT03906136|184405585|SUPERIORITY||Odds Ratio (OR)|-0.89||||0.22|TWO_SIDED|95.0|-2.32|0.54|||Mixed Models Analysis|||Week 12||0.54|-2.32|0.220
92251770|NCT03906136|184405585|SUPERIORITY||Median Difference (Net)|-0.1||||0.745|TWO_SIDED|95.0|-0.7|0.5|||Regression, Logistic|||Week 24||0.50|-0.70|0.745
92251771|NCT03906136|184405586|SUPERIORITY||Mean Difference (Net)|-0.13||||0.768|TWO_SIDED|95.0|-1.01|0.74|||Mixed Models Analysis|||Week 12||0.74|-1.01|0.768
92251772|NCT03906136|184405586|SUPERIORITY||Mean Difference (Net)|-0.37||||0.451|TWO_SIDED|95.0|-1.34|0.6|||Mixed Models Analysis|||Week 24||0.60|-1.34|0.451
92251773|NCT03906136|184405587|SUPERIORITY||Mean Difference (Net)|0.26||||0.477|TWO_SIDED|95.0|-0.46|0.97|||Mixed Models Analysis|||Week 12||0.97|-0.46|0.477
92251774|NCT03906136|184405587|SUPERIORITY||Mean Difference (Net)|-0.17||||0.66|TWO_SIDED|95.0|-0.92|0.58|||Mixed Models Analysis|||Week 24||0.58|-0.92|0.660
92251775|NCT03906136|184405588|SUPERIORITY||Mean Difference (Net)|0.17||||0.586|TWO_SIDED|95.0|-0.45|0.79|||Mixed Models Analysis|||Week 12||0.79|-0.45|0.586
92251776|NCT03906136|184405588|SUPERIORITY||Median Difference (Net)|0.21||||0.491|TWO_SIDED|95.0|-0.39|0.82|||Mixed Models Analysis|||Week 24||0.82|-0.39|0.491
92251777|NCT03906136|184405589|SUPERIORITY|Week 12|Mean Difference (Net)|4.49||||0.082|TWO_SIDED|95.0|-0.58|9.56|||Mixed Models Analysis|||||9.56|-0.58|0.082
92251778|NCT03906136|184405589|SUPERIORITY||Median Difference (Net)|2.73||||0.292|TWO_SIDED|95.0|-2.35|7.81|||Mixed Models Analysis|||Week 24||7.81|-2.35|0.292
92251779|NCT00878644|184405590|SUPERIORITY||Risk Difference (RD)|7.3||||0.14|TWO_SIDED|95.0|-1.5|16.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was used adjusting for age category at time of randomization (\<2 years, 2 to \<12 years, or \>=12 years)||||16.1|-1.5|0.14
92251780|NCT00878644|184405591|SUPERIORITY||Risk Difference (RD)|9.1||||0.13|TWO_SIDED|95.0|-1.8|19.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was used adjusting for age category at time of randomization (\<2 years, 2 to \<12 years, or \>=12 years)||||19.9|-1.8|0.13
92251781|NCT00878644|184405592|SUPERIORITY|||||||0.13|||||||Stratified Mann-Whitney Test|Test stratified by age category (\<2 years, 2 to \<12 years, or \>=12 years), for continuous (NOT categorized as reported above) 1-year change in VABS-II|||As the (nonparametric) comparison treated 1-year deaths as worst possible outcomes and worst possible 1-year VABS-II as next worst possible outcomes, using change in VABS-II for other participants alive at 1 year, no relevant estimation of effect size is possible for this secondary outcome.|||0.13
92251782|NCT00878644|184405593|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|"Test used the continuous (NOT categorized as reported above) neuropsychological scores, with Lowest Possible Score treated as lowest possible value."||||||0.81
92251783|NCT01696396|184405594|SUPERIORITY|The study was powered for formal statistical testing of the abrilumab 70 mg group. The primary and key secondary endpoints were tested under a sequential framework of statistical hypotheses, each with 2-sided significance level of 0.10 for the treatment effect of abrilumab 70 mg compared with placebo.|Odds Ratio (OR)|1.15||||0.76|TWO_SIDED|90.0|0.54|2.44|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||2.44|0.54|0.76
92251784|NCT01696396|184405594|SUPERIORITY||Difference in Adjusted Remission Rates|1.6|||||TWO_SIDED|90.0|-7.9|8.9||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||8.9|-7.9|
92251785|NCT01696396|184405594|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|1.91||||0.22|TWO_SIDED|90.0|0.8|4.57|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.57|0.80|0.22
92251786|NCT01696396|184405594|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|9.1|||||TWO_SIDED|90.0|-4.6|19.4||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||19.4|-4.6|
92251787|NCT01696396|184405594|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|2.05||||0.25|TWO_SIDED|90.0|0.74|5.73|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||5.73|0.74|0.25
92251788|NCT01696396|184405594|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|10.3|||||TWO_SIDED|90.0|-6.8|22.6||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||22.6|-6.8|
92265159|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|6.4||||0.115|TWO_SIDED|95.0|-1.0|19.3|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[ESR\]): p-value was calculated using a two-tailed Fisher's exact test.||19.3|-1.0|0.115
92265160|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|8.4||||0.052|TWO_SIDED|95.0|0.6|21.6|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[ESR\]): p-value was calculated using a two-tailed Fisher's exact test.||21.6|0.6|0.052
92265161|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|-0.7||||1|TWO_SIDED|95.0|-27.0|34.8|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||34.8|-27.0|1.000
92251789|NCT01696396|184405595|SUPERIORITY||Odds Ratio (OR)|1.78||||0.16|TWO_SIDED|90.0|0.9|3.53|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.53|0.90|0.16
92251790|NCT01696396|184405595|SUPERIORITY||Difference in Adjusted Remission Rates|10.9|||||TWO_SIDED|90.0|-1.8|21.0||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||21.0|-1.8|
92251791|NCT01696396|184405595|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|2.12||||0.13|TWO_SIDED|90.0|0.93|4.84|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.84|0.93|0.13
92251792|NCT01696396|184405595|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|14.7|||||TWO_SIDED|90.0|-2.1|27.5||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||27.5|-2.1|
92251793|NCT01696396|184405595|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|3.1||||0.056|TWO_SIDED|90.0|1.17|8.2|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||8.20|1.17|0.056
92251794|NCT01696396|184405595|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|23.7|||||TWO_SIDED|90.0|2.8|39.2||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||39.2|2.8|
92251795|NCT01696396|184405596|SUPERIORITY||Odds Ratio (OR)|2.25||||0.021|TWO_SIDED|90.0|1.27|4.01|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.01|1.27|0.021
92251796|NCT01696396|184405596|SUPERIORITY||Difference in Adjusted Response Rates|19.8|||||TWO_SIDED|90.0|5.8|31.3||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||31.3|5.8|
92251797|NCT01696396|184405596|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|1.9||||0.14|TWO_SIDED|90.0|0.94|3.87|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.87|0.94|0.14
92251798|NCT01696396|184405596|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Response Rates|15.7|||||TWO_SIDED|90.0|-2.3|29.7||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||29.7|-2.3|
92251799|NCT01696396|184405596|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|1.87||||0.23|TWO_SIDED|90.0|0.79|4.39|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.39|0.79|0.23
92251800|NCT01696396|184405596|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Response Rates|15.1|||||TWO_SIDED|90.0|-6.4|31.3||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||31.3|-6.4|
92251801|NCT01696396|184405597|SUPERIORITY||Odds Ratio (OR)|1.98||||0.047|TWO_SIDED|90.0|1.13|3.47|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.47|1.13|0.047
92251802|NCT01696396|184405597|SUPERIORITY||Difference in Adjusted Response Rates|16.0|||||TWO_SIDED|90.0|2.4|27.1||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||27.1|2.4|
92251803|NCT01696396|184405597|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|1.09||||0.84|TWO_SIDED|90.0|0.52|2.29|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||2.29|0.52|0.84
92251804|NCT01696396|184405597|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Response Rates|1.9|||||TWO_SIDED|90.0|-15.2|15.2||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||15.2|-15.2|
92251805|NCT01696396|184405597|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|1.15||||0.78|TWO_SIDED|90.0|0.49|2.72|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||2.72|0.49|0.78
92251806|NCT01696396|184405597|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Response Rates|3.1|||||TWO_SIDED|90.0|-17.4|18.3||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||18.3|-17.4|
92251807|NCT01696396|184405598|SUPERIORITY||Odds Ratio (OR)|1.65||||0.34|TWO_SIDED|90.0|0.69|3.91|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.91|0.69|0.34
92251808|NCT01696396|184405598|SUPERIORITY||Difference in Adjusted Remission Rates|5.0|||||TWO_SIDED|90.0|-3.9|11.7||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||11.7|-3.9|
92251809|NCT01696396|184405598|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|2.82||||0.078|TWO_SIDED|90.0|1.07|7.41|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||7.41|1.07|0.078
92251810|NCT01696396|184405598|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|12.8|||||TWO_SIDED|90.0|-0.6|22.6||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||22.6|-0.6|
92182738|NCT04399837|184264649|OTHER|The generalized MCP-Mod procedure for time to event endpoints is based on the log hazard ratio of the active doses vs. placebo obtained via a Cox regression model on the time to first GPP flare.|Multiple contrast test|3.088||||0.002|||||||MCP-Mod Emax1 model fit|Model assumption: 70% of the maximum effect is achieved at low dose.||A flat vs. non-flat dose-response relationship across the 3 doses of spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 4 different plausible dose-response patterns (linear, Emax 1, Emax 2 and exponential) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.002
92251811|NCT01696396|184405598|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|3.37||||0.083|TWO_SIDED|90.0|1.07|10.66|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||10.66|1.07|0.083
92251812|NCT01696396|184405598|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|16.0|||||TWO_SIDED|90.0|-1.2|28.3||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||28.3|-1.2|
92251813|NCT01696396|184405599|SUPERIORITY||Odds Ratio (OR)|1.52||||0.47|TWO_SIDED|90.0|0.59|3.93|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.93|0.59|0.47
92251814|NCT01696396|184405599|SUPERIORITY||Difference in Adjusted Remission Rates|2.8|||||TWO_SIDED|90.0|-4.7|8.1||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||8.1|-4.7|
92251815|NCT01696396|184405599|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|2.32||||0.21|TWO_SIDED|90.0|0.77|6.98|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||6.98|0.77|0.21
92251816|NCT01696396|184405599|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|6.8|||||TWO_SIDED|90.0|-4.3|14.5||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||14.5|-4.3|
92265162|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|38.2||||0.059|TWO_SIDED|95.0|1.6|71.2|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||71.2|1.6|0.059
92251817|NCT01696396|184405599|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|2.66||||0.21|TWO_SIDED|90.0|0.75|9.45|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||9.45|0.75|0.21
92251818|NCT01696396|184405599|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|8.4|||||TWO_SIDED|90.0|-6.0|17.9||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||17.9|-6.0|
92251819|NCT01696396|184405600|SUPERIORITY||LS Mean Treatment Difference|-42.09||||0.006|TWO_SIDED|90.0|-67.3|-16.9|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||-16.9|-67.3|0.006
92251820|NCT01696396|184405600|SUPERIORITY|Analysis was not part of the formal testing|LS Mean Treatment Difference|-40.79||||0.095|TWO_SIDED|90.0|-81.5|-0.5|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||-0.5|-81.5|0.095
92251821|NCT01696396|184405600|SUPERIORITY|Analysis was not part of the formal testing|LS Mean Treatment Difference|-36.84||||0.11|TWO_SIDED|90.0|-74.3|0.7|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||0.7|-74.3|0.11
92251822|NCT01696396|184405601|SUPERIORITY||LS Mean Treatment Difference|-27.47||||0.045|TWO_SIDED|90.0|-50.0|-4.9|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||-4.9|-50.0|0.045
92251823|NCT01696396|184405601|SUPERIORITY|Analysis was not part of the formal testing|LS Mean Treatment Difference|-23.59||||0.27|TWO_SIDED|90.0|-58.7|11.5|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||11.5|-58.7|0.27
92251824|NCT01696396|184405601|SUPERIORITY|Analysis was not part of the formal testing|LS Mean Treatment Difference|-16.37||||0.45|TWO_SIDED|90.0|-51.8|19.1|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||19.1|-51.8|0.45
92251825|NCT00394277|184405607|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.075||||0.584||95.0|0.831|1.391||All secondary comparisons were tested at a two-sided significance level of 0.05.|Cochran-Mantel-Haenszel|P-value obtained from CMH test, stratified by country and ribavirin dose strata.||This reflects the primary protocol-specified comparison (standard Pegasys induction dosing arms versus pooled Pegasys induction dosing arms). The study was designed to have at least 86% power for testing the null hypothesis of no difference between these two pooled groups, with assumed response rates of 28%, 32%, 36%, and 43% in the four treatment arms.||1.391|0.831|0.584
92251826|NCT00394277|184405608|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.039||||0.775||95.0|0.803|1.344||All secondary comparisons are tested at a two-sided significance level of 0.05.|Cochran-Mantel-Haenszel|P-value obtained from CMH test, stratified by country and ribavirin dose strata.||(PEG-IFN 180 µg + Ribavirin 1200 mg and PEG-IFN 180 µg + Ribavirin 1400/1600 mg) vs. (PEG-IFN 360/180 µg + Ribavirin 1200 mg and PEG-IFN 360/180 µg + Ribavirin 1400/1600 mg)||1.344|0.803|0.775
92251827|NCT00394277|184405609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.004||||0.973||95.0|0.777|1.299||All secondary comparisons are tested at a two-sided significance level of 0.05.|Cochran-Mantel-Haenszel|P-value obtained from CMH test, stratified by country and ribavirin dose strata.||(PEG-IFN 180 µg + Ribavirin 1200 mg and PEG-IFN 180 µg + Ribavirin 1400/1600 mg) vs. (PEG-IFN 360/180 µg + Ribavirin 1200 mg and PEG-IFN 360/180 µg + Ribavirin 1400/1600 mg)||1.299|0.777|0.973
92251828|NCT00394277|184405610|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.008||||0.951||95.0|0.78|1.304||All secondary comparisons are tested at a two-sided significance level of 0.05.|Cochran-Mantel-Haenszel|P-value obtained from CMH test, stratified by country and ribavirin dose strata.||(PEG-IFN 180 µg + Ribavirin 1200 mg and PEG-IFN 180 µg + Ribavirin 1400/1600 mg) vs. (PEG-IFN 360/180 µg + Ribavirin 1200 mg and PEG-IFN 360/180 µg + Ribavirin 1400/1600 mg)||1.304|0.780|0.951
92251829|NCT02371980|184405611|SUPERIORITY||Hazard Ratio (HR)|0.517||||0.006|TWO_SIDED|95.0|0.323|0.828||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 5mg Vs Double-blind Placebo||0.828|0.323|0.006
92251830|NCT02371980|184405611|SUPERIORITY||Hazard Ratio (HR)|0.476||||0.002|TWO_SIDED|95.0|0.296|0.767||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 10 mg Vs Double-blind Placebo||0.767|0.296|0.002
92251831|NCT02371980|184405611|SUPERIORITY||Hazard Ratio (HR)|0.483||||0.003|TWO_SIDED|95.0|0.298|0.782||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 20 mg Vs Double-blind Placebo||0.782|0.298|0.003
92251832|NCT02371980|184405612|SUPERIORITY||Least Squares Mean (LSM) Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.59||0.421|TWO_SIDED|95.0|-1.63|0.68|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||0.68|-1.63|0.421
92251833|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.589||0.037|TWO_SIDED|95.0|-2.39|-0.08|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||-0.08|-2.39|0.037
92251834|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.592||0.488|TWO_SIDED|95.0|-1.57|0.75|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||0.75|-1.57|0.488
92251835|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-2.43|STANDARD_ERROR_OF_MEAN|0.765||0.002|TWO_SIDED|95.0|-3.93|-0.93|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-0.93|-3.93|0.002
92251836|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.761|<|0.001|TWO_SIDED|95.0|-4.49|-1.51|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-1.51|-4.49|<0.001
92251837|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.775||0.001|TWO_SIDED|95.0|-4.02|-0.98|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-0.98|-4.02|0.001
92251838|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-2.95|STANDARD_ERROR_OF_MEAN|0.924||0.001|TWO_SIDED|95.0|-4.76|-1.13|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-1.13|-4.76|0.001
92251839|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-3.84|STANDARD_ERROR_OF_MEAN|0.919|<|0.001|TWO_SIDED|95.0|-5.64|-2.03|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-2.03|-5.64|<0.001
92251840|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.939||0.001|TWO_SIDED|95.0|-4.84|-1.16|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-1.16|-4.84|0.001
92251841|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-2.92|STANDARD_ERROR_OF_MEAN|0.938||0.002|TWO_SIDED|95.0|-4.76|-1.08|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-1.08|-4.76|0.002
92251842|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-4.51|STANDARD_ERROR_OF_MEAN|0.934|<|0.001|TWO_SIDED|95.0|-6.34|-2.68|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-2.68|-6.34|<0.001
92251843|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-3.64|STANDARD_ERROR_OF_MEAN|0.949|<|0.001|TWO_SIDED|95.0|-5.5|-1.78|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-1.78|-5.50|<0.001
92251844|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-2.04|STANDARD_ERROR_OF_MEAN|0.957||0.033|TWO_SIDED|95.0|-3.92|-0.16|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||-0.16|-3.92|0.033
92251845|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-3.69|STANDARD_ERROR_OF_MEAN|0.952|<|0.001|TWO_SIDED|95.0|-5.55|-1.82|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||-1.82|-5.55|<0.001
92251846|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-2.63|STANDARD_ERROR_OF_MEAN|0.967||0.007|TWO_SIDED|95.0|-4.52|-0.73|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||-0.73|-4.52|0.007
92251847|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-2.61|STANDARD_ERROR_OF_MEAN|0.912||0.004|TWO_SIDED|95.0|-4.4|-0.82|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||-0.82|-4.40|0.004
92251848|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-4.09|STANDARD_ERROR_OF_MEAN|0.906|<|0.001|TWO_SIDED|95.0|-5.86|-2.31|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||-2.31|-5.86|<0.001
92251849|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-2.76|STANDARD_ERROR_OF_MEAN|0.921||0.003|TWO_SIDED|95.0|-4.57|-0.96|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||-0.96|-4.57|0.003
92283430|NCT00437658|184470513|OTHER||Least squares mean|-32.3|||<|0.0001|TWO_SIDED|95.0|-39.2|-25.4||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in peak VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-25.4|-39.2|< 0.0001
92283431|NCT00437658|184470513|OTHER||Least squares mean|-32.9|||<|0.0001|TWO_SIDED|95.0|-39.4|-26.4||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in peak VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-26.4|-39.4|< 0.0001
92251850|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-1.92|STANDARD_ERROR_OF_MEAN|1.008||0.057|TWO_SIDED|95.0|-3.89|0.06|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||0.06|-3.89|0.057
92251851|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.997|<|0.001|TWO_SIDED|95.0|-5.46|-1.55|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||-1.55|-5.46|<0.001
92283432|NCT00437658|184470513|OTHER||Least squares mean|-35.8|||<|0.0001|TWO_SIDED|95.0|-43.0|-28.6||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in peak VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-28.6|-43.0|< 0.0001
92251852|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-2.53|STANDARD_ERROR_OF_MEAN|1.011||0.012|TWO_SIDED|95.0|-4.51|-0.55|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||-0.55|-4.51|0.012
92251853|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.012||0.061|TWO_SIDED|95.0|-3.88|0.09|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||0.09|-3.88|0.061
92251854|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-2.36|STANDARD_ERROR_OF_MEAN|0.997||0.018|TWO_SIDED|95.0|-4.31|-0.4|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||-0.40|-4.31|0.018
92251855|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-1.88|STANDARD_ERROR_OF_MEAN|1.015||0.065|TWO_SIDED|95.0|-3.87|0.12|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||0.12|-3.87|0.065
92251856|NCT02371980|184405612|SUPERIORITY||MMRM Model|-3.09|STANDARD_ERROR_OF_MEAN|1.136||0.007|TWO_SIDED|95.0|-5.31|-0.86|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||-0.86|-5.31|0.007
92251857|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-3.97|STANDARD_ERROR_OF_MEAN|1.122|<|0.001|TWO_SIDED|95.0|-6.16|-1.77|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||-1.77|-6.16|<0.001
92251858|NCT02371980|184405612|SUPERIORITY||Least Squares Mean Difference|-3.58|STANDARD_ERROR_OF_MEAN|1.143||0.002|TWO_SIDED|95.0|-5.82|-1.34|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||-1.34|-5.82|0.002
92251859|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.085||0.732|TWO_SIDED|95.0|-0.2|0.14|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||0.14|-0.20|0.732
92251860|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.085||0.273|TWO_SIDED|95.0|-0.26|0.07|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||0.07|-0.26|0.273
92251861|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.085||0.361|TWO_SIDED|95.0|-0.24|0.09|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||0.09|-0.24|0.361
92251862|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.099||0.004|TWO_SIDED|95.0|-0.48|-0.09|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-0.09|-0.48|0.004
92251863|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.099||0.002|TWO_SIDED|95.0|-0.5|-0.12|||Least Squares Mean Difference|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-0.12|-0.50|0.002
92251864|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.16|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-0.16|-0.55|<0.001
92283433|NCT00437658|184470514|OTHER||Least squares mean|-18.2|||<|0.0001|TWO_SIDED|95.0|-23.3|-13.1||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in monthly mean VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-13.1|-23.3|< 0.0001
92283434|NCT00437658|184470514|OTHER||Least squares mean|-23.4|||<|0.0001|TWO_SIDED|95.0|-28.3|-18.5||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in monthly mean VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-18.5|-28.3|< 0.0001
92251865|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.121||0.014|TWO_SIDED|95.0|-0.54|-0.06|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-0.06|-0.54|0.014
92251866|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.121||0.001|TWO_SIDED|95.0|-0.63|-0.16|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-0.16|-0.63|0.001
92251867|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.123||0.002|TWO_SIDED|95.0|-0.62|-0.14|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-0.14|-0.62|0.002
92251868|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.122||0.025|TWO_SIDED|95.0|-0.51|-0.03|||Least Squares Mean Difference|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-0.03|-0.51|0.025
92251869|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.122|<|0.001|TWO_SIDED|95.0|-0.74|-0.26|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-0.26|-0.74|<0.001
92251870|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.124||0.002|TWO_SIDED|95.0|-0.63|-0.15|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-0.15|-0.63|0.002
92251871|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.123||0.333|TWO_SIDED|95.0|-0.36|0.12|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||0.12|-0.36|0.333
92251872|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.122||0.002|TWO_SIDED|95.0|-0.61|-0.13|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||-0.13|-0.61|0.002
92251873|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.124||0.023|TWO_SIDED|95.0|-0.53|-0.04|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||-0.04|-0.53|0.023
92251874|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.121||0.092|TWO_SIDED|95.0|-0.44|0.03|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||0.03|-0.44|0.092
92251875|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.121|<|0.001|TWO_SIDED|95.0|-0.67|-0.2|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||-0.20|-0.67|<0.001
92251876|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.122||0.008|TWO_SIDED|95.0|-0.57|-0.09|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||-0.09|-0.57|0.008
92251877|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.135||0.248|TWO_SIDED|95.0|-0.42|0.11|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||0.11|-0.42|0.248
92251878|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.133||0.006|TWO_SIDED|95.0|-0.63|-0.1|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||-0.10|-0.63|0.006
92251879|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.135||0.087|TWO_SIDED|95.0|-0.5|0.03|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||0.03|-0.50|0.087
92251880|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.131||0.362|TWO_SIDED|95.0|-0.38|0.14|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||0.14|-0.38|0.362
92251881|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.129||0.251|TWO_SIDED|95.0|-0.4|0.1|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||0.10|-0.40|0.251
92251882|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.131||0.391|TWO_SIDED|95.0|-0.37|0.14|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||0.14|-0.37|0.391
92251883|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.141||0.209|TWO_SIDED|95.0|-0.45|0.1|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||0.10|-0.45|0.209
92251884|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.139||0.018|TWO_SIDED|95.0|-0.6|-0.06|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||-0.06|-0.60|0.018
92251885|NCT02371980|184405613|SUPERIORITY||Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.141||0.009|TWO_SIDED|95.0|-0.65|-0.09|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||-0.09|-0.65|0.009
92251886|NCT02371980|184405615|SUPERIORITY||Hazard Ratio (HR)|0.481||||0.002|TWO_SIDED|95.0|0.302|0.766||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 5mg Vs Double-blind Placebo||0.766|0.302|0.002
92251887|NCT02371980|184405615|SUPERIORITY||Hazard Ratio (HR)|0.455|||<|0.001|TWO_SIDED|95.0|0.286|0.725||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 10 mg Vs Double-blind Placebo||0.725|0.286|<0.001
92251888|NCT02371980|184405615|SUPERIORITY||Hazard Ratio (HR)|0.484||||0.002|TWO_SIDED|95.0|0.304|0.771||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 20 mg Vs Double-blind Placebo||0.771|0.304|0.002
92283435|NCT00437658|184470514|OTHER||Least squares mean|-17.9|||<|0.0001|TWO_SIDED|95.0|-23.1|-12.7||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in peak VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-12.7|-23.1|< 0.0001
92283436|NCT03952143|184470526|NON_INFERIORITY|Noninferiority margin = 0.4% for HbA1c|LS Mean Difference|0.07||||0.321|TWO_SIDED|95.0|-0.07|0.21|||Mixed Models Analysis|||||0.21|-0.07|0.321
92251889|NCT01280812|184405617|SUPERIORITY||Median Difference (Net)|1100.0|STANDARD_DEVIATION|3000.0|||TWO_SIDED|95.0|||||Mixed Models Analysis|Two-sided P values less than .05 were considered statistically significant.||Intent to treat analysis||||
92251890|NCT01060098|184405623|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||week 0 compared to week 12||||0.003
92251891|NCT01060098|184405623|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||week 0 compared to week 12||||0.04
92251892|NCT01060098|184405623|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||week 0 compared to week 12||||0.48
92251893|NCT00789724|184405624|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||ANOVA|||||||0.033
92283437|NCT03952143|184470527|SUPERIORITY||LS Mean Difference|-14.6|||<|0.001|TWO_SIDED|95.0|-21.9|-7.4|||ANCOVA|||||-7.4|-21.9|<0.001
92283438|NCT03952143|184470528|SUPERIORITY||LS Mean Difference|-21.8|||<|0.001|TWO_SIDED|95.0|-30.9|-12.6|||ANCOVA|||||-12.6|-30.9|<0.001
92283439|NCT03952143|184470529|SUPERIORITY||Relative rate|0.26|||||TWO_SIDED|95.0|0.02|2.86||||||||2.86|0.02|
92283440|NCT03952143|184470530|SUPERIORITY||Relative rate|0.9|||||TWO_SIDED|95.0|0.49|1.66||||||For ≤30 minutes post meal||1.66|0.49|
92283441|NCT03952143|184470530|SUPERIORITY||Relative rate|1.35|||||TWO_SIDED|95.0|0.79|2.31||||||For ≤ 1 hour post meal||2.31|0.79|
92251894|NCT01594749|184405633|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value based on Cochran-Mantel-Haenszel (CMH) method with stratification of gender|Cochran-Mantel-Haenszel|||Percentage difference in Fosaprepitant Regimen vs. Control Regimen||||<0.001
92251895|NCT01594749|184405634|SUPERIORITY_OR_OTHER||Difference in percentage vs. Control|0.6||||0.085|TWO_SIDED|95.0|-0.2|1.7||P-value based on Miettinen \& Nurminen method|Miettinen & Nurminen method|||||1.7|-0.2|0.085
92251896|NCT01594749|184405636|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value based on CMH method with stratification of gender|Cochran-Mantel-Haenszel|||Percentage difference in Fosaprepitant Regimen vs. Control Regimen||||<0.001
92251897|NCT01594749|184405637|SUPERIORITY_OR_OTHER|||||||0.184||||||P-value based on CMH method with stratification of gender|Cochran-Mantel-Haenszel|||Percentage difference in Fosaprepitant Regimen vs. Control Regimen||||0.184
92251898|NCT01594749|184405638|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value based on CMH method with stratification of gender|Cochran-Mantel-Haenszel|||Percentage difference in Fosaprepitant Regimen vs. Control Regimen||||<0.001
92251899|NCT00922974|184405665|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Based on the one-sided exact binomial test with α=0.025 and a 2:1 randomization, 228 patients would be required to detect a 40% improvement in the response rate from 51% (external beam radiation therapy) to 70% (Radiosurgery/SBRT) with a statistical power of 0.80.||||0.99
92251900|NCT00922974|184405666|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.38|TWO_SIDED|95.0|0.72|1.27|||Stratified log rank|One-sided significance level = 0.025.|Reference level = Radiosurgery/SBRT|||1.27|0.72|0.38
92251901|NCT00922974|184405667|SUPERIORITY||Hazard Ratio (HR)|1.73||||0.29|TWO_SIDED|95.0|0.24|12.8|||Stratified log rank|One-sided significance level = 0.025|Significance level = Radiosurgery/SBRT|||12.8|0.24|0.29
92251902|NCT00922974|184405668|SUPERIORITY|||||||0.93||||||Two-sided significance level = 0.05|Chi-squared|||Percentage of patients with treatment-related adverse events.||||0.93
92251903|NCT00922974|184405668|SUPERIORITY|||||||0.09||||||Two-sided significance level = 0.05|Chi-squared|||Percentage of patients with any adverse events.||||0.09
92251904|NCT00922974|184405669|SUPERIORITY|||||||0.59||||||Two-sided significance level = 0.05|Gray's test|||||||0.59
92251905|NCT00922974|184405670|SUPERIORITY|||||||0.38||||||Two-sided significance level = 0.05|Gray's test|||||||0.38
92265163|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|10.5||||0.591|TWO_SIDED|95.0|-18.2|46.2|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||46.2|-18.2|0.591
92265164|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|13.2||||0.57|TWO_SIDED|95.0|-16.6|51.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||51.4|-16.6|0.570
92265165|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|-11.8||||0.529|TWO_SIDED|95.0|-35.0|22.7|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[ESR\]): p-value was calculated using a two-tailed Fisher's exact test.||22.7|-35.0|0.529
92251906|NCT00922974|184405671|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Assuming that the data are normally distributed, the two sample t-test assuming equal variances will be used to test the hypothesis at the one-sided 0.025 significance level. A mean difference of 7 points represents a clinically meaningful change (CMC). A difference of less than 7 points between the treatment arms will not be considered meaningful, even if it has statistical significance.||||0.28
92251907|NCT00922974|184405672|SUPERIORITY|||||||0.4313|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Treatment Arm (External Beam Radiation Therapy vs. Radiosurgery/SBRT) is reported here.||||0.4313
92251908|NCT00922974|184405672|SUPERIORITY|||||||0.8707|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Age (\< 63 years vs. ≥ 63 years) is reported here.||||0.8707
92265166|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|-11.8||||1|TWO_SIDED|95.0|-37.5|22.6|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[ESR\]): p-value was calculated using a two-tailed Fisher's exact test.||22.6|-37.5|1.000
92251909|NCT00922974|184405672|SUPERIORITY|||||||0.1549|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Gender (female vs. male) is reported here.||||0.1549
92251910|NCT00922974|184405672|SUPERIORITY|||||||0.0193|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Race (Other vs. while) is reported here.||||0.0193
92251911|NCT00922974|184405672|SUPERIORITY|||||||0.0016|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Zubrod performance status (0 vs. 1,2) is reported here.||||0.0016
92182739|NCT04399837|184264649|OTHER|The generalized MCP-Mod procedure for time to event endpoints is based on the log hazard ratio of the active doses vs. placebo obtained via a Cox regression model on the time to first GPP flare.|Multiple contrast test|2.977||||0.003|||||||MCP-Mod exponential model fit|Model assumption: 35% of the maximum effect is achieved at medium dose.||A flat vs. non-flat dose-response relationship across the 3 doses of spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 4 different plausible dose-response patterns (linear, Emax 1, Emax 2 and exponential) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.003
92283442|NCT03952143|184470530|SUPERIORITY||Relative rate|1.6|||||TWO_SIDED|95.0|1.06|2.42||||||For \>1 to ≤2 hours post meal||2.42|1.06|
92251912|NCT00922974|184405672|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Taking pain medication (No vs. Yes) is reported here.||||0.0003
92251913|NCT00922974|184405672|SUPERIORITY|||||||0.6371|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Tumor type (radioresistant vs. other) is reported here.||||0.6371
92251914|NCT00922974|184405673|SUPERIORITY|||||||0.0218|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Treatment Arm (External Beam Radiation Therapy vs. Radiosurgery/SBRT) is reported here.||||0.0218
92251915|NCT00922974|184405673|SUPERIORITY|||||||0.9437|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Age (\< 63 years vs. ≥ 63 years) is reported here.||||0.9437
92251916|NCT00922974|184405673|SUPERIORITY|||||||0.0696|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Gender (female vs. male) is reported here.||||0.0696
92251917|NCT00922974|184405673|SUPERIORITY|||||||0.114|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Race (Other vs. while) is reported here.||||0.1140
92251918|NCT00922974|184405673|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Zubrod performance status (0 vs. 1,2) is reported here.||||0.0003
92283443|NCT03952143|184470530|SUPERIORITY||Relative rate|1.53|||||TWO_SIDED|95.0|1.05|2.23||||||For ≤2 hours post meal||2.23|1.05|
92283444|NCT03952143|184470530|SUPERIORITY||Relative rate|0.97|||||TWO_SIDED|95.0|0.69|1.39||||||For \>2 to ≤4 hours post meal||1.39|0.69|
92251919|NCT00922974|184405673|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Taking pain medication (No vs. Yes) is reported here.||||<0.0001
92283445|NCT03952143|184470530|SUPERIORITY||Relative rate|1.15|||||TWO_SIDED|95.0|0.84|1.57||||||For ≤4 hours post meal||1.57|0.84|
92283446|NCT03952143|184470531|SUPERIORITY||LS Mean Difference|-0.29|||||TWO_SIDED|95.0|-1.1|0.53||||||||0.53|-1.10|
92283447|NCT03952143|184470532|SUPERIORITY||LS Mean Difference|2.2|||||TWO_SIDED|95.0|-2.8|7.2||||||For Morning Premeal||7.2|-2.8|
92283448|NCT03952143|184470532|SUPERIORITY||LS Mean Difference|-5.3|||||TWO_SIDED|95.0|-12.6|2.0||||||For Morning 1-hour Postmeal||2.0|-12.6|
92283449|NCT03952143|184470532|SUPERIORITY||LS Mean Difference|-5.4|||||TWO_SIDED|95.0|-12.5|1.7||||||For Morning 2-hour Postmeal||1.7|-12.5|
92283450|NCT03952143|184470532|SUPERIORITY||LS Mean Difference|4.2|||||TWO_SIDED|95.0|-1.8|10.1||||||For Midday Premeal||10.1|-1.8|
92283451|NCT03952143|184470532|SUPERIORITY||LS Mean Difference|1.2|||||TWO_SIDED|95.0|-5.7|8.1||||||For Midday 1-hour Postmeal||8.1|-5.7|
92283452|NCT03952143|184470532|SUPERIORITY||LS Mean Difference|1.9|||||TWO_SIDED|95.0|-5.1|8.9||||||For Midday 2-hour Postmeal||8.9|-5.1|
92283453|NCT03952143|184470532|SUPERIORITY||LS Mean Difference|14.1|||||TWO_SIDED|95.0|7.6|20.6||||||For Evening Premeal||20.6|7.6|
92251920|NCT00922974|184405673|SUPERIORITY|||||||0.7732|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Tumor type (radioresistant vs. other) is reported here.||||0.7732
92251921|NCT00922974|184405674|SUPERIORITY|||||||0.5198|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Treatment Arm (External Beam Radiation Therapy vs. Radiosurgery/SBRT) is reported here.||||0.5198
92251922|NCT00922974|184405674|SUPERIORITY|||||||0.1197|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Age (\< 63 years vs. ≥ 63 years) is reported here.||||0.1197
92265167|NCT01050998|184431816|SUPERIORITY_OR_OTHER||Percent difference|-0.7||||1|TWO_SIDED|95.0|-27.0|34.8|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[ESR\]): p-value was calculated using a two-tailed Fisher's exact test.||34.8|-27.0|1.000
92265168|NCT01050998|184431817|SUPERIORITY_OR_OTHER||Percent difference|||||0.604|||||||Log Rank|||Analysis reported for DAS28 (CRP) response.||||0.604
92265169|NCT01050998|184431817|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||Analysis reported for DAS28 (CRP) response.||||<0.001
92265170|NCT01050998|184431817|SUPERIORITY_OR_OTHER|||||||0.145|||||||Log Rank|||Analysis reported for DAS28 (CRP) response.||||0.145
92265171|NCT01050998|184431817|SUPERIORITY_OR_OTHER|||||||0.282|||||||Log Rank|||Analysis reported for DAS28 (ESR) response.||||0.282
92265172|NCT01050998|184431817|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||Analysis reported for DAS28 (ESR) response.||||<0.001
92265173|NCT01050998|184431817|SUPERIORITY_OR_OTHER|||||||0.047|||||||Log Rank|||Analysis reported for DAS28 (ESR) response.||||0.047
92265174|NCT01050998|184431818|SUPERIORITY_OR_OTHER||Percent difference|||||0.237|||||||Log Rank|||European region: Analysis reported for DAS28 (CRP) response.||||0.237
92265175|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.005|||||||Log Rank|||European region: Analysis reported for DAS28 (CRP) response.||||0.005
92265176|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.134|||||||Log Rank|||European region: Analysis reported for DAS28 (CRP) response.||||0.134
92265177|NCT01050998|184431818|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||European region: Analysis reported for DAS28 (CRP) response.||||<0.001
92265178|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.265|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (CRP) response.||||0.265
92265179|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.013|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (CRP) response.||||0.013
92265180|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.952|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (CRP) response.||||0.952
92265181|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.004|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (CRP) response.||||0.004
92265182|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.246|||||||Log Rank|||European region: Analysis reported for DAS28 (ESR) response.||||0.246
92265183|NCT01050998|184431818|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||European region: Analysis reported for DAS28 (ESR) response.||||<0.001
92265184|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.126|||||||Log Rank|||European region: Analysis reported for DAS28 (ESR) response.||||0.126
92265185|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.831|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (ESR) response.||||0.831
92265186|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.005|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (ESR) response.||||0.005
92265187|NCT01050998|184431818|SUPERIORITY_OR_OTHER|||||||0.125|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (ESR) response.||||0.125
92265188|NCT01050998|184431818|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (ESR) response.||||<0.001
92265189|NCT01050998|184431819|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.15||||0.486|TWO_SIDED|95.0|0.78|1.69|||Exponential,Weibull and Log normal model||Ratio greater than (\>) 1 favored mavrilimumab.|Analysis reported for DAS28 (ESR) response.||1.69|0.78|0.486
92265190|NCT01050998|184431819|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.54||||0.015|TWO_SIDED|95.0|1.09|2.18|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (ESR) response.||2.18|1.09|0.015
92265191|NCT01050998|184431819|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.65||||0.006|TWO_SIDED|95.0|1.15|2.36|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (ESR) response.||2.36|1.15|0.006
92265192|NCT01050998|184431819|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|2.09|||<|0.001|TWO_SIDED|95.0|1.49|2.93|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (ESR) response.||2.93|1.49|<0.001
92265193|NCT01050998|184431819|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|0.97||||0.906|TWO_SIDED|95.0|0.61|1.55|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (CRP) response.||1.55|0.61|0.906
92265194|NCT01050998|184431819|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.89|||<|0.001|TWO_SIDED|95.0|1.31|2.71|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (CRP) response.||2.71|1.31|<0.001
92265195|NCT01050998|184431819|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.26||||0.272|TWO_SIDED|95.0|0.83|1.91|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (CRP) response.||1.91|0.83|0.272
92265196|NCT01050998|184431819|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.91|||<|0.001|TWO_SIDED|95.0|1.34|2.72|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (CRP) response.||2.72|1.34|<0.001
92251923|NCT00922974|184405674|SUPERIORITY|||||||0.0306|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Gender (female vs. male) is reported here.||||0.0306
92251924|NCT00922974|184405674|SUPERIORITY|||||||0.7903|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Race (Other vs. while) is reported here.||||0.7903
92283454|NCT03952143|184470532|SUPERIORITY||LS Mean Difference|2.0|||||TWO_SIDED|95.0|-5.1|9.1||||||For Evening 1-hour Postmeal||9.1|-5.1|
92283455|NCT03952143|184470532|SUPERIORITY||LS Mean Difference|-0.2|||||TWO_SIDED|95.0|-7.3|6.8||||||For Evening 2-hour Postmeal||6.8|-7.3|
92251925|NCT00922974|184405674|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Zubrod performance status (0 vs. 1,2) is reported here.||||<0.0001
92251926|NCT00922974|184405674|SUPERIORITY|||||||0.0026|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Taking pain medication (No vs. Yes) is reported here.||||0.0026
92251927|NCT00922974|184405674|SUPERIORITY|||||||0.3282|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Tumor type (radioresistant vs. other) is reported here.||||0.3282
92251928|NCT03404219|184405683|OTHER|Single group pre-post, follow-up|Mean Difference (Final Values)|2.56||||0.09|TWO_SIDED||||||General Linear Model (repeated measures)|||Single arm||||0.09
92251929|NCT05302804|184405694|SUPERIORITY|||||||0.742||||||p-value reflects main effect of treatment.|ANOVA|||"Null hypothesis was there was no difference between menthol gel and control gel~time x trial ANOVA statistical analysis"||||0.742
92251930|NCT05302804|184405695|SUPERIORITY|||||||0.742||||||p-value is main effect of menthol|ANOVA|||The null hypothesis is that there is no difference between menthol and control trials||||0.742
92251931|NCT05302804|184405696|SUPERIORITY|||||||0.048||||||p-value reflects main effect of menthol|ANOVA|||The null hypothesis is that there is no difference between menthol and control trials||||0.048
92251932|NCT05302804|184405697|SUPERIORITY|||||||0.104|||||||t-test, 2 sided|||The null hypothesis is that there is no difference between menthol and control trials||||.104
92251933|NCT05302804|184405698|SUPERIORITY|||||||0.051|||||||t-test, 2 sided|||The null hypothesis is that there is no difference between menthol and control trials||||.051
92251934|NCT05302804|184405699|SUPERIORITY||||||<|0.001||||||Main effect of treatment|ANOVA|||The null hypothesis is that there is no difference between menthol and control trials||||< 0.001
92251935|NCT05302804|184405700|SUPERIORITY|||||||0.026|||||||ANOVA|||The null hypothesis is that there is no difference between menthol and control trials||||.026
92251936|NCT05302804|184405701|SUPERIORITY|||||||0.001||||||p-value at time 30 min of exercise|ANOVA|||The null hypothesis is that there is no difference between menthol and control trials||||.001
92251937|NCT05302804|184405702|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92251938|NCT02038790|184405705|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED|||||Two-tailed level of significance of 0.05 and no adjustments made for the number of tests conducted.|Chi-squared|||||||>0.5000
92251939|NCT02038790|184405706|SUPERIORITY_OR_OTHER|||||||0.0196|TWO_SIDED|||||Two-tailed level of significance of 0.05 and no adjustments made for the number of tests conducted.|Chi-squared|||||||0.0196
92283456|NCT03952143|184470532|SUPERIORITY||LS Mean Difference|1.7|||||TWO_SIDED|95.0|-4.7|8.1||||||For Bedtime||8.1|-4.7|
92283457|NCT03952143|184470533|SUPERIORITY||LS Mean Difference|2.8|||||TWO_SIDED|95.0|0.1|5.4||||||For Total Daily Insulin Dose||5.4|0.1|
92251940|NCT02038790|184405707|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||Two-tailed level of significance of 0.05 and no adjustments made for the number of tests conducted.|Chi-squared|||||||0.0006
92251941|NCT02038790|184405708|SUPERIORITY_OR_OTHER|||||||0.4422|TWO_SIDED|||||Two-tailed level of significance of 0.05 and no adjustments made for the number of tests conducted.|Chi-squared|||||||0.4422
92283458|NCT03952143|184470533|SUPERIORITY||LS Mean Difference|0.8|||||TWO_SIDED|95.0|0.0|1.5||||||For Daily Basal Insulin Dose||1.5|0.0|
92251942|NCT02038790|184405709|SUPERIORITY_OR_OTHER|||||||0.2377|TWO_SIDED||||||Chi-squared|||||||0.2377
92283459|NCT03952143|184470533|SUPERIORITY||LS Mean Difference|2.0|||||TWO_SIDED|95.0|-0.5|4.5||||||For Daily Prandial Insulin Dose||4.5|-0.5|
92283460|NCT03952143|184470534|SUPERIORITY||Odds Ratio (OR)|1.02||||0.924|TWO_SIDED|95.0|0.69|1.52|||Regression, Logistic|||For HbA1c \< 7%||1.52|0.69|0.924
92251943|NCT02038790|184405710|SUPERIORITY_OR_OTHER|||||||0.0603|TWO_SIDED||||||Chi-squared|||||||0.0603
92251944|NCT02038790|184405711|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.0010
92251945|NCT02009930|184405835|OTHER||Wilson Method used|16.0|||||TWO_SIDED|95.0|9.4|22.9||||||||22.9|9.4|
92251946|NCT02009930|184405836|OTHER||||||||||||||||||Only descriptive statistics were calculated (frequency, percent). Inferential statistics were not necessary, nor appropriate|||
92251947|NCT02009930|184405837|OTHER|||||||0.79||||||Correlation between FRS and CAC risk categories in participants with at least 1 additional risk factor expressed as a p-value|Spearman's Rank Correlation Coefficient|Correlation between FRS and CAC risk categories in participants with at least 1 additional risk factor. Spearman's rho = 0.04||Compare risk categories (FRS and CAC)||||0.79
92251948|NCT02009930|184405838|OTHER|||||||0.063||||||Relationship between FRS and metabolic syndrome. FRS risk category (low, mod, mod-high, high, very high risk) and metabolic syndrome (presence/absence of metabolic syndrome)|Fisher Exact|Relationship between 2 variables (FRS - each risk category, metabolic syndrome - presence/absence) expressed as a p-value||FRS risk category (low, mod, mod-high, high, very high risk)||||0.063
92283461|NCT03952143|184470534|SUPERIORITY||Odds Ratio (OR)|0.98||||0.908|TWO_SIDED|95.0|0.64|1.49|||Regression, Logistic|||For HbA1c ≤6.5%||1.49|0.64|0.908
92283462|NCT01866319|184470536|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58|||<|1e-05|TWO_SIDED|95.0|0.46|0.72|||Log Rank|||Statistical testing was stratified by line of therapy (1st vs. 2nd), programmed cell death ligand 1 (PD-L1) status (positive vs. negative) and Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1)||0.72|0.46|<0.00001
92283463|NCT01866319|184470536|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58|||<|1e-05|TWO_SIDED|95.0|0.47|0.72|||Log Rank|||Statistical testing was stratified by line of therapy (1st vs. 2nd), programmed cell death ligand 1 (PD-L1) status (positive vs. negative) and Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1)||0.72|0.47|<0.00001
92283464|NCT01866319|184470536|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.75869|TWO_SIDED|95.0|0.77|1.21|||Log Rank|||Statistical testing was stratified by line of therapy (1st vs. 2nd), programmed cell death ligand 1 (PD-L1) status (positive vs. negative) and Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1)||1.21|0.77|0.75869
92283465|NCT01866319|184470537|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.00052|TWO_SIDED|95.0|0.47|0.83|||Regression, Cox|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1).||0.83|0.47|0.00052
92283466|NCT01866319|184470537|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69||||0.00358|TWO_SIDED|95.0|0.52|0.9|||Regression, Cox|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1).||0.90|0.52|0.00358
92251949|NCT02009930|184405838|OTHER|||||||0.21||||||Relationship between CAC and metabolic syndrome. CAC risk category (low, low-mod, mod-high, high, very high risk) and metabolic syndrome (presence/absence of metabolic syndrome)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, metabolic syndrome - presence/absence) expressed as a p-value||CAC risk category (low, low-mod, mod-high, high, very high)||||0.21
92251950|NCT02009930|184405839|OTHER|||||||0.56||||||Relationship between FRS and living in the dorms. FRS risk category (low, mod, mod-high, high, very high risk) and living in the dorms (\< 5 years, \> 5 years)|Fisher Exact|Relationship between 2 variables (FRS - each risk category, living in the dorms - \<5 years/\> 5 years) expressed as a p-value||FRS risk categories (low, moderate, mod -high, high, and very high)||||0.56
92251951|NCT02009930|184405839|OTHER|||||||0.13||||||Relationship between CAC and living in the dorms. CAC risk category (low, low-mod, mod-high, high, very high risk) and living in the dorms (\< 5 years, \> 5 years)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, living in the dorms - \<5 years/\> 5 years) expressed as a p-value||CAC risk category (low, low-mod, moderate - high, high, and very high)||||0.13
92283467|NCT01866319|184470537|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.51319||95.0|0.67|1.22|||Regression, Cox|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1).||1.22|0.67|0.51319
92283468|NCT01866319|184470538|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|16.1||||0.00013|TWO_SIDED|95.0|7.8|24.5|||Miettinen & Nurmimen|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1)||24.5|7.8|0.00013
92283469|NCT01866319|184470538|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|17.2||||2e-05|TWO_SIDED|95.0|9.5|25.6|||Miettinen & Nurmimen|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1)||25.6|9.5|0.00002
92251952|NCT02009930|184405840|OTHER|||||||0.44||||||Relationship between FRS and PT failures. FRS risk category (low, mod, mod-high, high, very high risk) and PT failures (with, without PT failure)|Fisher Exact|Relationship between 2 variables (FRS - each risk category, PT failure - with/without PT failure) expressed as a p-value||FRS risk categories (low, moderate, moderate-high, high, and very high)||||0.44
92283470|NCT01866319|184470538|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-1.1||||0.82636||95.0|-10.6|8.6|||Miettinen & Nurmimen|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1)||8.6|-10.6|0.82636
92283471|NCT01328093|184470553|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-3.2|STANDARD_ERROR_OF_MEAN|0.7|<|0.001||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||<0.001
92251953|NCT02009930|184405840|OTHER|||||||0.49||||||Relationship between CAC and PT failures. CAC risk category (low, low-mod, mod-high, high, very high risk) and PT failures (with, without PT failure)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, PT failure - with/without PT failure) expressed as a p-value||CAC risk categories (low, low-moderate, mod -high, high, and very high)||||0.49
92251954|NCT02009930|184405841|OTHER|||||||0.11||||||Relationship between FRS and overall years of service. FRS risk category (low, mod, mod-high, high, very high risk) and overall years of service (15-19, 20-24, 25+)|Fisher Exact|Relationship between 2 variables (FRS - each risk category, overall years of service) expressed as a p-value||FRS risk categories (low, moderate, moderate -high, high, and very high)||||0.11
92251955|NCT02009930|184405841|OTHER|||||||0.003||||||Relationship between CAC and overall years of service. CAC risk category (low, low-mod, mod-high, high, very high risk) and overall years of service (15-19, 20-24, 25+)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, overall years of service) expressed as a p-value||CAC risk category (low, low-mod, mod-high, high, very high risk)||||0.003
92251956|NCT02009930|184405843|OTHER|||||||0.21||||||Relationship between CAC and metabolic syndrome. CAC risk category (low, low-mod, mod-high, high, very high risk) and metabolic syndrome (presence/absence of metabolic syndrome)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, metabolic syndrome - presence/absence) expressed as a p-value||CAC risk category (low, low-mod, mod-high, high, very high)||||0.21
92283472|NCT01328093|184470554|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||95.0||||P-value is for ≥7% increase.|Cochran-Mantel-Haenszel|||||||0.110
92251957|NCT02009930|184405844|OTHER|||||||0.13||||||Relationship between CAC and living in the dorms. CAC risk category (low, low-mod, mod-high, high, very high risk) and living in the dorms (\< 5 years, \> 5 years)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, living in the dorms - \<5 years/\> 5 years) expressed as a p-value||CAC risk category (low, low-mod, moderate - high, high, and very high)||||0.13
92251958|NCT02009930|184405845|OTHER|||||||0.49||||||Relationship between CAC and PT failures. CAC risk category (low, low-mod, mod-high, high, very high risk) and PT failures (with, without PT failure)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, PT failure - with/without PT failure) expressed as a p-value||CAC risk categories (low, low-moderate, mod -high, high, and very high)||||0.49
92251959|NCT02009930|184405846|OTHER|||||||0.003||||||Relationship between CAC and overall years of service. CAC risk category (low, low-mod, mod-high, high, very high risk) and overall years of service (15-19, 20-24, 25+)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, overall years of service) expressed as a p-value||CAC risk category (low, low-mod, mod-high, high, very high risk)||||0.003
92251960|NCT01525667|184405879|SUPERIORITY_OR_OTHER||Least Square Means (LSM) Difference|25.74|STANDARD_ERROR_OF_MEAN|8.94||0.0067|TWO_SIDED|95.0|7.61|43.86|||Mixed Models Analysis||LSM difference =LSM Low dose - LSM Placebo|||43.86|7.61|0.0067
92251961|NCT01525667|184405879|SUPERIORITY_OR_OTHER||Least Square Means (LSM) difference|14.93|STANDARD_ERROR_OF_MEAN|10.8||0.18|TWO_SIDED|95.0|-7.12|36.99|||Mixed Models Analysis||LSM difference= LSM High Dose - LSM Placebo|||36.99|-7.12|0.18
92251962|NCT01525667|184405880|SUPERIORITY_OR_OTHER||LSM Difference|18.03|STANDARD_ERROR_OF_MEAN|5.97||0.004|TWO_SIDED|95.0|6.03|30.02|||Mixed Models Analysis|||||30.02|6.03|0.004
92283473|NCT01328093|184470554|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value is for ≥7% decrease.|Cochran-Mantel-Haenszel|||||||<0.001
92283474|NCT01328093|184470555|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.04|STANDARD_ERROR_OF_MEAN|0.04||0.353||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.353
92283475|NCT01328093|184470556|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.698||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.698
92283476|NCT01328093|184470557|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.924||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.924
92283477|NCT01328093|184470558|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|3.55|STANDARD_ERROR_OF_MEAN|1.77||0.045||95.0||||P-value is for PANSS Total Score. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.045
92251963|NCT01525667|184405880|SUPERIORITY_OR_OTHER||LSM difference|9.23|STANDARD_ERROR_OF_MEAN|6.91||0.19|TWO_SIDED|95.0|-4.72|23.17|||Mixed Models Analysis|||||23.17|-4.72|0.19
92251964|NCT01525667|184405881|SUPERIORITY_OR_OTHER||LSM Difference|6.45|STANDARD_ERROR_OF_MEAN|4.64||0.19|TWO_SIDED|95.0|-3.5|16.41|||ANCOVA|||||16.41|-3.50|0.19
92251965|NCT01525667|184405881|SUPERIORITY_OR_OTHER||LSM difference|5.49|STANDARD_ERROR_OF_MEAN|4.56||0.25|TWO_SIDED|95.0|-4.29|15.26|||ANCOVA|||||15.26|-4.29|0.25
92251966|NCT01525667|184405882|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.19||0.4|TWO_SIDED|95.0|-0.21|0.53|||Mixed Models Analysis|||||0.53|-0.21|0.4
92251967|NCT01525667|184405882|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.011|STANDARD_ERROR_OF_MEAN|0.2||0.96|TWO_SIDED||||||Mixed Models Analysis|||||||0.96
92251968|NCT01525667|184405883|SUPERIORITY_OR_OTHER||LSM difference|16.81|STANDARD_ERROR_OF_MEAN|8.37||0.05|TWO_SIDED|95.0|0.16|33.47|||Mixed Models Analysis|||||33.47|0.16|0.05
92251969|NCT01525667|184405883|SUPERIORITY_OR_OTHER||LSM difference|10.7|STANDARD_ERROR_OF_MEAN|9.01||0.24|TWO_SIDED|95.0|-7.26|28.65|||Mixed Models Analysis|||||28.65|-7.26|0.24
92251970|NCT00291187|184405884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.5|||<|0.001|TWO_SIDED|95.0|-33.1|-9.9|||ANCOVA|||||-9.9|-33.1|<0.001
92251971|NCT00291187|184405884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.3|||<|0.001|TWO_SIDED|95.0|-37.8|-14.7|||ANCOVA|||||-14.7|-37.8|<0.001
92251972|NCT00291187|184405884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.8|||<|0.001|TWO_SIDED|95.0|-34.2|-11.3|||ANCOVA|||||-11.3|-34.2|<0.001
92283478|NCT01328093|184470558|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.21|STANDARD_ERROR_OF_MEAN|0.56||0.032||95.0||||P-value is for PANSS Positive Score. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.032
92283479|NCT01328093|184470558|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.36|STANDARD_ERROR_OF_MEAN|0.54||0.509||95.0||||P-value is for PANSS Negative Score. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.509
92283480|NCT01328093|184470558|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|2.05|STANDARD_ERROR_OF_MEAN|1.0||0.04||95.0||||P-value is for PANSS General Psychopathology Score. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.040
92283481|NCT01328093|184470559|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.1|STANDARD_ERROR_OF_MEAN|2.1||0.601||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.601
92251973|NCT00291187|184405885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.2||||0.017|TWO_SIDED|95.0|-44.1|-4.3|||ANCOVA|||||-4.3|-44.1|0.017
92251974|NCT00291187|184405885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.7||||0.001|TWO_SIDED|95.0|-53.6|-13.9|||ANCOVA|||||-13.9|-53.6|0.001
92251975|NCT00291187|184405885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4||||0.081|TWO_SIDED|95.0|-37.0|2.1|||ANCOVA|||||2.1|-37.0|0.081
92251976|NCT00291187|184405886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.7||||0.002|TWO_SIDED|95.0|13.0|54.5|||ANCOVA|||||54.5|13.0|0.002
92251977|NCT00291187|184405886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.9|||<|0.001|TWO_SIDED|95.0|27.2|68.6|||ANCOVA|||||68.6|27.2|<0.001
92251978|NCT00291187|184405886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.6||||0.005|TWO_SIDED|95.0|9.1|50.0|||ANCOVA|||||50.0|9.1|0.005
92251979|NCT00291187|184405887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1||||0.006|TWO_SIDED|95.0|-18.9|-3.3|||ANCOVA|||||-3.3|-18.9|0.006
92251980|NCT00291187|184405887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.3|||<|0.001|TWO_SIDED|95.0|-22.1|-6.5|||ANCOVA|||||-6.5|-22.1|<0.001
92251981|NCT00291187|184405887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.3||||0.002|TWO_SIDED|95.0|-20.0|-4.6|||ANCOVA|||||-4.6|-20.0|0.002
92251982|NCT01001234|184405895|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.025|TWO_SIDED|95.0|1.06|2.26||The statistical significance level for the primary endpoint was α=0.0477, and had been adjusted to account for the interim sample size adjustment.|Regression, Logistic|Testing of primary endpoint and secondary endpoints was conducted sequentially in a pre-specified order, thus strongly controlling Type I error.||The comparison of rizatriptan versus placebo with respect to the primary outcome was conducted using a logistic regression model with factors for treatment, Stage 2 baseline pain severity (moderate or severe) and region (United States \[US\] or ex-US). Model-derived odds ratio and a two-sided p-value were provided. An odds ratio \>1 is in favor of the rizatriptan group.||2.26|1.06|0.025
92251983|NCT01001234|184405896|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.35||||0.08|TWO_SIDED|95.0|0.96|1.9||Secondary endpoints were to be formally tested only if the test of the primary endpoint was statistically significant at the α=0.0477 level. The secondary endpoints were then tested sequentially in a pre-specified order, each at the α=0.05 level.|Regression, Logistic|This first secondary hypothesis was not statistically significant, therefore the other two were not formally tested for statistical significance.||The comparison of rizatriptan versus placebo with respect to pain relief at 2 hours post Stage 2 dose for participants between 12 and 17 years of age was conducted using a logistic regression model with factors for treatment, Stage 2 baseline pain severity (moderate or severe) and region (US or ex-US). Model-derived odds ratio and a two-sided p-value were provided. An odds ratio \>1 is in favor of the rizatriptan group.||1.90|0.96|0.080
92265197|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|4.7||||0.589|TWO_SIDED|95.0|-12.1|22.0|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR20: p-value was calculated using a two-tailed Fisher's exact test.||22.0|-12.1|0.589
92265198|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|20.2||||0.032||95.0|2.8|36.7|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR20: p-value was calculated using a two-tailed Fisher's exact test.||36.7|2.8|0.032
92265199|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|0.5||||1|TWO_SIDED|95.0|-16.0|18.0|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR20: p-value was calculated using a two-tailed Fisher's exact test.||18.0|-16.0|1.000
92265200|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|33.3|||<|0.001|TWO_SIDED|95.0|15.6|48.6|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR20: p-value was calculated using a two-tailed Fisher's exact test.||48.6|15.6|<0.001
92265201|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|8.9||||0.212|TWO_SIDED|95.0|-3.5|23.6|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR50: p-value was calculated using a two-tailed Fisher's exact test.||23.6|-3.5|0.212
92265202|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|18.7||||0.011|TWO_SIDED|95.0|4.8|34.0|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR50: p-value was calculated using a two-tailed Fisher's exact test.||34.0|4.8|0.011
92265203|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|4.7||||0.446|TWO_SIDED|95.0|-7.0|19.1|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR50: p-value was calculated using a two-tailed Fisher's exact test.||19.1|-7.0|0.446
92251984|NCT01001234|184405897|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.52||||0.01|TWO_SIDED|95.0|1.1|2.1||This second secondary hypothesis was not formally tested since the first secondary was not statistically significant.|Regression, Logistic|||The comparison of rizatriptan versus placebo with respect to pain freedom at 2 hours post Stage 2 dose for participants between 6 and 17 years of age was conducted using a logistic regression model with factors for treatment, Stage 2 baseline pain severity (moderate or severe), age (6 to 11 years old or 12 to 17 years old), and region (US or ex-US). Model-derived odds ratio and a two-sided p-value were provided. An odds ratio \>1 is in favor of the rizatriptan group.||2.10|1.10|0.010
92251985|NCT01001234|184405898|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.22||||0.178|TWO_SIDED|95.0|0.91|1.63||This third secondary hypothesis was not formally tested since the first secondary was not statistically significant.|Regression, Logistic|||The comparison of rizatriptan versus placebo with respect to pain relief at 2 hours post Stage 2 dose for participants between 6 and 17 years of age was conducted using a logistic regression model with factors for treatment, Stage 2 baseline pain severity (moderate or severe), age (6 to 11 years old or 12 to 17 years old), and region (US or ex-US). Model-derived odds ratio and a two-sided p-value were provided. An odds ratio \>1 is in favor of the rizatriptan group.||1.63|0.91|0.178
92251986|NCT03238352|184405910|OTHER||Difference of Least Square mean|-1.22|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.657|-0.782|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Test Product versus Negative Control at Week 8 is a primary endpoint comparison.||-0.782|-1.657|<0.0001
92251987|NCT03238352|184405910|OTHER||Difference of Least Square mean|-1.28|STANDARD_ERROR_OF_MEAN|0.213|<|0.0001|TWO_SIDED|95.0|-1.705|-0.858|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||-0.858|-1.705|<.0001
92265204|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|22.1||||0.003|TWO_SIDED|95.0|7.6|37.8|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR50: p-value was calculated using a two-tailed Fisher's exact test.||37.8|7.6|0.003
92251988|NCT03238352|184405910|OTHER||Difference of Least Square mean|-1.25|STANDARD_ERROR_OF_MEAN|0.176|<|0.0001|TWO_SIDED|95.0|-1.6|-0.901|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Test Product versus Combined Control (Placebo and Negative Control) group was obtained by using estimates statement in the ANCOVA model.||-0.901|-1.600|<0.0001
92251989|NCT03238352|184405911|OTHER||Diference of Least Square mean|37.46|STANDARD_ERROR_OF_MEAN|7.306|<|0.0004|TWO_SIDED|95.0|22.916|51.995||P-value from Van Elteren test|ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is the first named treatment minus second named treatment such that a positive difference favors the first named treatment.|||51.995|22.916|<0.0004
92251990|NCT03238352|184405911|OTHER||Diference of Least Square mean|49.88|STANDARD_ERROR_OF_MEAN|7.079|<|0.0001|TWO_SIDED|95.0|35.791|63.966||P-value from Van Elteren test|ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is the first named treatment minus second named treatment such that a positive difference favors the first named treatment.|||63.966|35.791|<.0001
92251991|NCT03238352|184405911|OTHER||Diference of Least Square mean|43.67|STANDARD_ERROR_OF_MEAN|5.862|<|0.0001|TWO_SIDED|95.0|32.001|55.334||P-value from Van Elteren test.|ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is the first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Test Product versus Combined Control (Placebo and Negative Control) group is obtained by using estimates statement in the ANCOVA model||55.334|32.001|<.0001
92251992|NCT04153929|184405930|OTHER|Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.|||||<|0.0001|||||||MCP-Mod linear model fit|Model assumption: The maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
92251993|NCT04153929|184405930|OTHER|Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.|||||<|0.0001|||||||MCP-Mod Exponential model fit|Model assumption: 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
92251994|NCT04153929|184405930|OTHER|Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.|||||<|0.0001|||||||MCP-Mod Emax 1 model fit|Model assumption: 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
92251995|NCT04153929|184405930|OTHER|Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.|||||<|0.0001|||||||MCP-Mod Emax 2 model fit|Model assumption: 70% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
92251996|NCT04153929|184405930|OTHER|Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.|||||<|0.0001|||||||MCP-Mod Sigmoid Emax model fit|Model assumption: 50% of the maximum effect is achieved at 1.8 mg and 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
92251997|NCT04153929|184405930|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-0.76|||<|0.0001|TWO_SIDED|95.0|-1.06|-0.46||P-value is considered nominal.|Mixed Model for Repeated Measures|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 456906 0.3 mg - Placebo at Week 17.|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-0.46|-1.06|<0.0001
92251998|NCT04153929|184405930|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.31|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.01||P-value is considered nominal.|Mixed Model for Repeated Measures|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 456906 0.9 mg - Placebo at Week 17.|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.01|-1.60|<0.0001
92265205|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|-1.3||||1|TWO_SIDED|95.0|-8.9|9.7|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR70: p-value was calculated using a two-tailed Fisher's exact test.||9.7|-8.9|1.000
92251999|NCT04153929|184405930|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.56|||<|0.0001|TWO_SIDED|95.0|-1.87|-1.26||P-value is considered nominal.|Mixed Model for Repeated Measures|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 456906 1.8 mg - Placebo at Week 17.|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.26|-1.87|<0.0001
92252000|NCT04153929|184405930|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.41|||<|0.0001|TWO_SIDED|95.0|-1.72|-1.1||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 456906 2.7 mg - Placebo at Week 17.|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.10|-1.72|<0.0001
92252001|NCT04153929|184405930|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.49|||<|0.0001|TWO_SIDED|95.0|-1.78|-1.19||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.2 twice weekly (2.4) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.19|-1.78|<0.0001
92252002|NCT04153929|184405930|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.53|||<|0.0001|TWO_SIDED|95.0|-1.84|-1.22||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 twice weekly (3.6) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.22|-1.84|<0.0001
92252003|NCT04153929|184405931|OTHER|"Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod.~MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements."|||||<|0.0001|||||||MCP-Mod linear model fit|Model assumption: The maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
92252004|NCT04153929|184405931|OTHER|"Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod.~MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements."|||||<|0.0001|||||||MCP-Mod exponential model fit|Model assumption: 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
92252005|NCT04153929|184405931|OTHER|"Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod.~MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements."|||||<|0.0001|||||||MCP-Mod Emax 1 model fit|Model assumption: 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
92283482|NCT01328093|184470560|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.322||95.0||||P-value is for ER/Facility (Psych) visits. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.322
92283483|NCT01328093|184470560|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.04|STANDARD_ERROR_OF_MEAN|0.02||0.099||95.0||||P-value is for ER/Facility (Non-Psych) visits. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.099
92283484|NCT01328093|184470560|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.787||95.0||||P-value is for Outpatient (Non-Psych or Dentist) visits. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.787
92252006|NCT04153929|184405931|OTHER|"Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod.~MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements."|||||<|0.0001|||||||MCP-Mod Emax 2 model fit|Model assumption: 70% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
92265206|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|4.8||||0.317|TWO_SIDED|95.0|-4.1|17.5|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR70: p-value was calculated using a two-tailed Fisher's exact test.||17.5|-4.1|0.317
92265207|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|0.8||||1|TWO_SIDED|95.0|-7.2|12.1|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR70: p-value was calculated using a two-tailed Fisher's exact test.||12.1|-7.2|1.000
92252007|NCT04153929|184405931|OTHER|"Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod.~MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements."|||||<|0.0001|||||||MCP-Mod Sigmoid Emax model fit|Model assumption: 50% of the maximum effect is achieved at 1.8 mg and 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
92252008|NCT04153929|184405931|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.11||||0.2228|TWO_SIDED|95.0|-2.9|0.68||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.3 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||0.68|-2.90|0.2228
92252009|NCT04153929|184405931|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-3.79|||<|0.0001|TWO_SIDED|95.0|-5.56|-2.01||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.9 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-2.01|-5.56|<0.0001
92252010|NCT04153929|184405931|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-5.61|||<|0.0001|TWO_SIDED|95.0|-7.41|-3.81||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-3.81|-7.41|<0.0001
92265208|NCT01050998|184431820|SUPERIORITY_OR_OTHER||Percent difference|9.5||||0.106|TWO_SIDED|95.0|-0.5|23.5|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR70: p-value was calculated using a two-tailed Fisher's exact test.||23.5|-0.5|0.106
92265209|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|1.0||||1|TWO_SIDED|95.0|-17.7|20.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||20.4|-17.7|1.000
92265210|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|16.1||||0.12|TWO_SIDED|95.0|-3.1|34.4|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||34.4|-3.1|0.120
92252011|NCT04153929|184405931|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-6.25|||<|0.0001|TWO_SIDED|95.0|-8.12|-4.38||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 2.7 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-4.38|-8.12|<0.0001
92265211|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|1.0||||1|TWO_SIDED|95.0|-17.7|20.4|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||20.4|-17.7|1.000
92265212|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|29.2||||0.005|TWO_SIDED|95.0|9.7|46.1|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||46.1|9.7|0.005
92176752|NCT04800211|184247051|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)|Mean Difference (Net)|2.408||||0.0362|TWO_SIDED|95.0|0.11|4.705|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)||4.705|0.110|0.0362
92176753|NCT04800211|184247051|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.692||||0.2142|TWO_SIDED|95.0|-0.569|3.953|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||3.953|-0.569|0.2142
92182740|NCT04399837|184264649|SUPERIORITY|Null hypothesis: Effect of spesolimab 300 mg every 12 weeks on prolonging the time to the first GPP flare up to week 48 ≤ Placebo.|Hazard Ratio (HR)|0.468||||0.0269|TWO_SIDED|95.0|0.206|1.064||"One-sided p-value was computed from the log-rank test stratified by use of systemic GPP medication at randomisation.~Threshold for statistical significance: one-sided p-value ≤ 0.01875."|Log Rank||Hazard ratio and its 95% Confidence Interval are from Cox regression model stratified by use of systemic GPP medication at randomisation.|||1.064|0.206|0.0269
92252012|NCT04153929|184405931|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-6.25|||<|0.0001|TWO_SIDED|95.0|-8.02|-4.47||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.2 twice weekly (2.4) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-4.47|-8.02|<0.0001
92252013|NCT04153929|184405931|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-7.68|||<|0.0001|TWO_SIDED|95.0|-9.52|-5.83||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 twice weekly (3.6) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-5.83|-9.52|<0.0001
92252014|NCT04153929|184405932|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-0.66||||0.4439|TWO_SIDED|95.0|-2.34|1.03||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.3 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||1.03|-2.34|0.4439
92252015|NCT04153929|184405932|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-3.28||||0.0001|TWO_SIDED|95.0|-4.95|-1.61||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.9 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.61|-4.95|0.0001
92252016|NCT04153929|184405932|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-4.93|||<|0.0001|TWO_SIDED|95.0|-6.62|-3.23||P-value is considered nominal|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-3.23|-6.62|<0.0001
92265213|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|20.9||||0.382|TWO_SIDED|95.0|-16.4|55.9|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||55.9|-16.4|0.382
92252017|NCT04153929|184405932|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-5.76|||<|0.0001|TWO_SIDED|95.0|-7.53|-4.0||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 2.7 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-4.00|-7.53|<0.0001
92176754|NCT04800211|184247052|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-39.501||||0.025|TWO_SIDED|95.0|-75.396|-3.605|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-3.605|-75.396|0.0250
92176755|NCT04800211|184247052|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.94||||0.9997|TWO_SIDED|95.0|-37.896|32.016|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||32.016|-37.896|0.9997
92252018|NCT04153929|184405932|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-5.44|||<|0.0001|TWO_SIDED|95.0|-7.11|-3.77||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.2 twice weekly (2.4) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-3.77|-7.11|<0.0001
92252019|NCT04153929|184405932|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-7.05|||<|0.0001|TWO_SIDED|95.0|-8.79|-5.31||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 twice weekly (3.6) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-5.31|-8.79|<0.0001
92176756|NCT04800211|184247053|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-54.398||||0.6778|TWO_SIDED|95.0|-177.281|68.485|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||68.485|-177.281|0.6778
92182741|NCT04399837|184264649|SUPERIORITY|Null hypothesis: Effect of spesolimab 300 mg every 4 weeks on prolonging the time to the first GPP flare up to week 48 ≤ Placebo.|Hazard Ratio (HR)|0.157||||0.0005|TWO_SIDED|95.0|0.046|0.541||"One-sided p-value is computed from the log-rank test stratified by use of systemic GPP medication at randomisation.~Threshold for statistical significance: One-sided p-value ≤0.0125."|Log Rank||Hazard ratio and its 95% CI (confidence interval) are from Cox regression model stratified by use of systemic GPP medication at randomisation.|||0.541|0.046|0.0005
92252020|NCT04153929|184405932|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-3.85|||<|0.0001|TWO_SIDED|95.0|-5.52|-2.18||P-value is considered nominal.|Mixed Model Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as Semaglutide - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-2.18|-5.52|<0.0001
92252021|NCT04153929|184405933|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-0.62||||0.7708|TWO_SIDED|95.0|-4.82|3.57||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.3 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||3.57|-4.82|0.7708
92252022|NCT04153929|184405933|OTHER|No formal hypotheses were tested.|Difference of adjusted means|0.68||||0.7462|TWO_SIDED|95.0|-3.44|4.79||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.9 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||4.79|-3.44|0.7462
92252023|NCT04153929|184405933|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-3.32||||0.1302|TWO_SIDED|95.0|-7.62|0.98||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||0.98|-7.62|0.1302
92252024|NCT04153929|184405933|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-4.61||||0.0414|TWO_SIDED|95.0|-9.03|-0.18||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 2.7 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-0.18|-9.03|0.0414
92265214|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|39.0||||0.087|TWO_SIDED|95.0|-2.7|69.6|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||69.6|-2.7|0.087
92252025|NCT04153929|184405933|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-2.55||||0.2273|TWO_SIDED|95.0|-6.71|1.6||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.2 twice weekly (2.4) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||1.60|-6.71|0.2273
92252026|NCT04153929|184405933|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-8.4||||0.0002|TWO_SIDED|95.0|-12.81|-3.98||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 twice weekly (3.6) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-3.98|-12.81|0.0002
92176757|NCT04800211|184247053|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-48.395||||0.7497|TWO_SIDED|95.0|-168.697|71.908|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||71.908|-168.697|0.7497
92182742|NCT04399837|184264650|SUPERIORITY|Null hypothesis: The proportion of patients who do not experience a GPP flare up to week 48 on BI 655130 300 mg every 4 weeks ≤ Placebo.|Risk Difference (RD)|-0.39||||0.0013|TWO_SIDED|95.0|-0.621|-0.159||"One-sided p-value was computed from the Cochran-Mantel-Haenszel test stratified by use of systemic GPP medication at randomisation.~one-sided alpha= 0.00625"|Cochran-Mantel-Haenszel||Risk difference=Spesolimab high dose-Placebo.|||-0.159|-0.621|0.0013
92265215|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|-1.3||||1|TWO_SIDED|95.0|-33.7|35.7|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||35.7|-33.7|1.000
92252027|NCT04153929|184405933|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-2.72||||0.1967|TWO_SIDED|95.0|-6.86|1.42||P-value is considered nominal.|Mixed Model Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as Semaglutide - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||1.42|-6.86|0.1967
92283485|NCT01328093|184470561|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.02|STANDARD_ERROR_OF_MEAN|0.12||0.892||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.892
92283486|NCT01328093|184470562|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.8|STANDARD_ERROR_OF_MEAN|1.6||0.63||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.630
92176758|NCT04800211|184247054|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-20.01||||0.0003|TWO_SIDED|95.0|-32.447|-7.573|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-7.573|-32.447|0.0003
92252028|NCT04153929|184405934|OTHER||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.28|5.2|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||5.20|0.28|
92252029|NCT04153929|184405934|OTHER||Odds Ratio (OR)|7.92|||||TWO_SIDED|95.0|2.43|25.74|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||25.74|2.43|
92252030|NCT04153929|184405934|OTHER||Odds Ratio (OR)|17.68|||||TWO_SIDED|95.0|5.21|60.03|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||60.03|5.21|
92283487|NCT01328093|184470563|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.5|STANDARD_ERROR_OF_MEAN|1.2||0.679||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.679
92283488|NCT01328093|184470564|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.17|STANDARD_ERROR_OF_MEAN|0.09||0.055||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.055
92176759|NCT04800211|184247054|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-22.566|||<|0.0001|TWO_SIDED|95.0|-34.837|-10.295|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-10.295|-34.837|<.0001
92182743|NCT04399837|184264651|SUPERIORITY|Null hypothesis: Effect of BI 655130 300 mg every 4 weeks on prolonging the time to first worsening of PSS up to week 48 ≤ Placebo.|Hazard Ratio (HR)|0.424||||0.0134|TWO_SIDED|95.0|0.197|0.914||"One-sided p-value was computed from the log-rank test stratified by use of systemic GPP medication at randomisation.~one-sided alpha= 0.00625"|Log Rank||spesolimab high dose vs. Placebo|Hazard ratio and its 95% CI (confidence interval) are from Cox regression model stratified by use of systemic GPP medication at randomisation.||0.914|0.197|0.0134
92252031|NCT04153929|184405934|OTHER||Odds Ratio (OR)|25.87|||||TWO_SIDED|95.0|7.31|91.55|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||91.55|7.31|
92252032|NCT04153929|184405934|OTHER||Odds Ratio (OR)|21.75|||||TWO_SIDED|95.0|6.57|72.04|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||72.04|6.57|
92252033|NCT04153929|184405934|OTHER||Odds Ratio (OR)|35.0|||||TWO_SIDED|95.0|9.84|124.47|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||124.47|9.84|
92252034|NCT04153929|184405934|OTHER||Odds Ratio (OR)|8.22|||||TWO_SIDED|95.0|2.52|26.79|||||Odds Ratio was calculated as Semaglutide / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||26.79|2.52|
92252035|NCT04153929|184405935|OTHER||Odds Ratio (OR)|3.67|||||TWO_SIDED|95.0|0.14|95.73|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||95.73|0.14|
92252036|NCT04153929|184405935|OTHER||Odds Ratio (OR)|7.97|||||TWO_SIDED|95.0|0.39|163.56|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||163.56|0.39|
92252037|NCT04153929|184405935|OTHER||Odds Ratio (OR)|25.17|||||TWO_SIDED|95.0|1.35|471.09|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||471.09|1.35|
92252038|NCT04153929|184405935|OTHER||Odds Ratio (OR)|33.01|||||TWO_SIDED|95.0|1.78|613.51||||||Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||613.51|1.78|
92252039|NCT04153929|184405935|OTHER||Odds Ratio (OR)|42.44|||||TWO_SIDED|95.0|2.37|761.44|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||761.44|2.37|
92252040|NCT04153929|184405935|OTHER||Odds Ratio (OR)|84.53|||||TWO_SIDED|95.0|4.71|999.0|||||Odds Ratio was calculated as BI 456906 / Placebo. The upper limit is bigger than 999.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||999|4.71|
92252041|NCT04153929|184405935|OTHER||Odds Ratio (OR)|22.44|||||TWO_SIDED|95.0|1.22|413.33|||||Odds Ratio was calculated as Semaglutide / Placebo.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||413.33|1.22|
92283489|NCT01328093|184470565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.15|STANDARD_ERROR_OF_MEAN|1.11||0.891||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.891
92252042|NCT01686958|184405991|OTHER|This is a primarily descriptive study, no statistical analysis is planned; however, analyses were performed at the alpha=0.05 level of significance and exact analyses will be used wherever possible.|||||||ONE_SIDED|95.0||||Confidence intervals \[CI\] will be constructed for outcomes of interest at the alpha=0.05 level of significance, i.e. 95% CI.||||A total of 30 subjects will be accrued to this study and treated with the PAD-105. The sample size is based primarily on feasibility and logistical concerns, however, is sufficiently large to allow the safety objectives to be met. Specifically, with 30 total patients, if no treatment-related grade 4 or 5 adverse events are observed, then a one-sided, 95% confidence interval would have an upper bound of 0.095.|For continuous outcomes, standard summary statistics will include n, mean, standard deviation, median, minimum and maximum. For categorical data, tables will show n and % of patients.|||
92283490|NCT01328093|184470567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064||95.0||||P-value is for Treatment-Emergent Suicidal Ideation.|Fisher Exact|||||||0.064
92283491|NCT01328093|184470567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.205||95.0||||P-value is for Treatment-Emergent Suicidal Behavior.|Fisher Exact|||||||0.205
92283492|NCT04421508|184470569|SUPERIORITY||Odds Ratio (OR)|0.36||||0.6316|TWO_SIDED|95.0|||||Regression, Logistic|||||||0.6316
92283493|NCT04421508|184470569|SUPERIORITY||Odds Ratio (OR)|1.502||||0.4127|TWO_SIDED|95.0|0.567|3.977||Odds ratio, 95% CI and p-value are from a logistic regression model modelling the response using the covariates treatment, age, number of co-morbidities and baseline oxygem level|Regression, Logistic|||||3.977|0.567|0.4127
92283494|NCT04421508|184470577|SUPERIORITY|||||||0.6635|||||||Chi-squared|||||||0.6635
92283495|NCT03980483|184470579|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0023|TWO_SIDED|0.95|1.19|2.21|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 90mg dose of GSK3196165 and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 90mg dose of GSK3196165 differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||2.21|1.19|0.0023
92283496|NCT03980483|184470579|SUPERIORITY||Odds Ratio (OR)|1.39||||0.0362|TWO_SIDED|0.95|1.02|1.89|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 150mg dose of GSK3196165 and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 150mg dose of GSK3196165 differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||1.89|1.02|0.0362
92283497|NCT03980483|184470579|SUPERIORITY||Odds Ratio (OR)|2.34|||<|0.0001|TWO_SIDED|0.95|1.62|3.37|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 05mg dose of Tofacitinib and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 05mg dose of Tofacitinib differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||3.37|1.62|<0.0001
92283498|NCT03980483|184470579|SUPERIORITY||Odds Ratio (OR)|0.69||||0.023|TWO_SIDED|0.95|0.5|0.95|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 90mg dose of GSK3196165 and 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 90mg dose of GSK3196165 differs from 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12.||0.95|0.50|0.0230
92283499|NCT03980483|184470579|SUPERIORITY||Odds Ratio (OR)|0.59||||0.0013|TWO_SIDED|0.95|0.43|0.82|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 150mg dose of GSK3196165 and 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 150mg dose of GSK3196165 differs from 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12.||0.82|0.43|0.0013
92283500|NCT03980483|184470582|NON_INFERIORITY|Non-inferiority over tofacitinib on ACR20 was concluded if the lower limit of the multiplicity corrected 97.5 % Confidence Interval (CI) in the difference in proportions (GSK3196165 minus tofacitinib) was greater than -12%|Mean Difference (Final Values)|-10.4|||||TWO_SIDED|0.975|-18.6|-2.3|||Regression, Logistic|Difference in proportion and 97.5% CI are generated from logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||||-2.3|-18.6|
92252043|NCT00108953|184406063|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.6||||0.016||95.0|0.33|0.95|||Log Rank||Hazard ratio: nexavar+doxorubicin over placebo+doxorubicin|The comparison between the 2 groups is done using the log rank test stratified by tumor burden. The null hypothesis is: TTP is the same in both treatment groups.||0.95|0.33|0.016
92252044|NCT00108953|184406064|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52||||0.007||95.0|0.37|0.74|||Log Rank||Hazard ratio: nexavar+doxorubicin over placebo+doxorubicin|The comparison between the 2 groups is done using the log rank test stratified by tumor burden. The null hypothesis is: TTP is the same in both treatment groups||0.74|0.37|0.007
92252045|NCT00108953|184406065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.018||95.0|0.45|0.83|||Log Rank||Hazard ratio: nexavar+doxorubicin over placebo+doxorubicin|The comparison between the 2 groups is done using the log rank test stratified by tumor burden. The null hypothesis is: TTP is the same in both treatment groups||0.83|0.45|0.018
92252046|NCT00108953|184406067|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.038||95.0|0.4|1.05|||Log Rank||Hazard ratio: nexavar+doxorubicin over placebo+doxorubicin|The comparison between the 2 groups is done using the log rank test stratified by tumor burden. The null hypothesis is: TTP is the same in both treatment groups||1.05|0.40|0.038
92252047|NCT03803202|184406095|OTHER||Ratio of GMT|1.14|||||TWO_SIDED|95.0|0.7|1.85|||t-test, 2 sided|||Serotype 1, Day 1||1.85|0.70|
92252048|NCT03803202|184406095|OTHER||Ratio of GMT|1.17|||||TWO_SIDED|95.0|0.72|1.9|||t-test, 2 sided|||Serotype 1, Day 1||1.90|0.72|
92252049|NCT03803202|184406095|OTHER||Ratio of GMT|1.17|||||TWO_SIDED|95.0|0.74|1.87|||t-test, 2 sided|||Serotype 1, Day 1||1.87|0.74|
92252050|NCT03803202|184406095|OTHER||Ratio of GMT|1.57|||||TWO_SIDED|95.0|0.68|3.63|||t-test, 2 sided|||Serotype 3, Day 1||3.63|0.68|
92252051|NCT03803202|184406095|OTHER||Ratio of GMT|2.04|||||TWO_SIDED|95.0|0.86|4.82|||t-test, 2 sided|||Serotype 3, Day 1||4.82|0.86|
92252052|NCT03803202|184406095|OTHER||Ratio of GMT|0.67|||||TWO_SIDED|95.0|0.31|1.46|||t-test, 2 sided|||Serotype 3, Day 1||1.46|0.31|
92252053|NCT03803202|184406095|OTHER||Ratio of GMT|1.11|||||TWO_SIDED|95.0|0.27|4.55|||t-test, 2 sided|||Serotype 4, Day 1||4.55|0.27|
92252054|NCT03803202|184406095|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.19|2.61|||t-test, 2 sided|||Serotype 4, Day 1||2.61|0.19|
92252055|NCT03803202|184406095|OTHER||Ratio of GMT|1.83|||||TWO_SIDED|95.0|0.49|6.85|||t-test, 2 sided|||Serotype 4, Day 1||6.85|0.49|
92252056|NCT03803202|184406095|OTHER||Ratio of GMT|1.9|||||TWO_SIDED|95.0|0.76|4.73|||t-test, 2 sided|||Serotype 5, Day 1||4.73|0.76|
92252057|NCT03803202|184406095|OTHER||Ratio of GMT|1.22|||||TWO_SIDED|95.0|0.62|2.4|||t-test, 2 sided|||Serotype 5, Day 1||2.40|0.62|
92252058|NCT03803202|184406095|OTHER||Ratio of GMT|0.93|||||TWO_SIDED|95.0|0.52|1.65|||t-test, 2 sided|||Serotype 5, Day 1||1.65|0.52|
92252059|NCT03803202|184406095|OTHER||Ratio of GMT|0.84|||||TWO_SIDED|95.0|0.25|2.82|||t-test, 2 sided|||Serotype 6A, Day 1||2.82|0.25|
92176760|NCT04800211|184247055|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-179.365|||<|0.0001|TWO_SIDED|95.0|-225.708|-133.022|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-133.022|-225.708|<.0001
92182744|NCT04399837|184264652|SUPERIORITY|Null hypothesis: Effect of BI 655130 300 mg every 4 weeks on prolonging the time to the first worsening of DLQI up to week 48 ≤ Placebo.|Hazard Ratio (HR)|0.259||||0.001|TWO_SIDED|95.0|0.109|0.62||One sided p-value was computed from the log-rank test stratified by use of systemic GPP medication at randomisation.|Log Rank||spesolimab high dose vs. Placebo|"Hazard ratio and its 95% CI (confidence interval) are from Cox regression model stratified by use of systemic GPP medication at randomisation.~one-sided alpha= 0.00625"||0.620|0.109|0.0010
92252060|NCT03803202|184406095|OTHER||Ratio of GMT|0.73|||||TWO_SIDED|95.0|0.24|2.23|||t-test, 2 sided|||Serotype 6A, Day 1||2.23|0.24|
92252061|NCT03803202|184406095|OTHER||Ratio of GMT|1.03|||||TWO_SIDED|95.0|0.31|3.41|||t-test, 2 sided|||Serotype 6A, Day 1||3.41|0.31|
92252062|NCT03803202|184406095|OTHER||Ratio of GMT|1.19|||||TWO_SIDED|95.0|0.32|4.46|||t-test, 2 sided|||Serotype 6B,Day 1||4.46|0.32|
92252063|NCT03803202|184406095|OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.42|4.05|||t-test, 2 sided|||Serotype 6B, Day 1||4.05|0.42|
92252064|NCT03803202|184406095|OTHER||Ratio of GMT|0.71|||||TWO_SIDED|95.0|0.24|2.14|||t-test, 2 sided|||Serotype 6B, Day 1||2.14|0.24|
92182745|NCT02831816|184264656|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 cfu/cm2 less than the active control.|Median Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.221|0.18||||||Groin 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.180|-0.221|
92252065|NCT03803202|184406095|OTHER||Ratio of GMT|0.76|||||TWO_SIDED|95.0|0.26|2.17|||t-test, 2 sided|||Serotype 7F, Day 1||2.17|0.26|
92252066|NCT03803202|184406095|OTHER||Ratio of GMT|0.32|||||TWO_SIDED|95.0|0.11|0.89|||t-test, 2 sided|||Serotype 7F, Day 1||0.89|0.11|
92252067|NCT03803202|184406095|OTHER||Ratio of GMT|0.31|||||TWO_SIDED|95.0|0.1|0.93|||t-test, 2 sided|||Serotype 7F, Day 1||0.93|0.10|
92252068|NCT03803202|184406095|OTHER||Ratio of GMT|1.92|||||TWO_SIDED|95.0|0.74|4.99|||t-test, 2 sided|||Serotype 9V, Day 1||4.99|0.74|
92252069|NCT03803202|184406095|OTHER||Ratio of GMT|0.48|||||TWO_SIDED|95.0|0.15|1.61|||t-test, 2 sided|||Serotype 9V, Day 1||1.61|0.15|
92252070|NCT03803202|184406095|OTHER||Ratio of GMT|0.62|||||TWO_SIDED|95.0|0.21|1.9|||t-test, 2 sided|||Serotype 9V, Day 1||1.90|0.21|
92252071|NCT03803202|184406095|OTHER||Ratio of GMT|4.2|||||TWO_SIDED|95.0|1.17|15.09|||t-test, 2 sided|||Serotype 14, Day 1||15.09|1.17|
92252072|NCT03803202|184406095|OTHER||Ratio of GMT|1.91|||||TWO_SIDED|95.0|0.52|7.07|||t-test, 2 sided|||Serotype 14, Day 1||7.07|0.52|
92252073|NCT03803202|184406095|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.23|4.25|||t-test, 2 sided|||Serotype 14, Day 1||4.25|0.23|
92252074|NCT03803202|184406095|OTHER||Ratio of GMT|0.74|||||TWO_SIDED|95.0|0.21|2.62|||t-test, 2 sided|||Serotype 18C, Day 1||2.62|0.21|
92252075|NCT03803202|184406095|OTHER||Ratio of GMT|1.19|||||TWO_SIDED|95.0|0.37|3.77|||t-test, 2 sided|||Serotype 18C, Day 1||3.77|0.37|
92252076|NCT03803202|184406095|OTHER||Ratio of GMT|1.22|||||TWO_SIDED|95.0|0.38|3.94|||t-test, 2 sided|||Serotype 18C, Day 1||3.94|0.38|
92252077|NCT03803202|184406095|OTHER||Ratio of GMT|1.11|||||TWO_SIDED|95.0|0.51|2.45|||t-test, 2 sided|||Serotype 19A, Day 1||2.45|0.51|
92252078|NCT03803202|184406095|OTHER||Ratio of GMT|0.71|||||TWO_SIDED|95.0|0.31|1.63|||t-test, 2 sided|||Serotype 19A, Day 1||1.63|0.31|
92252079|NCT03803202|184406095|OTHER||Ratio of GMT|0.74|||||TWO_SIDED|95.0|0.36|1.53|||t-test, 2 sided|||Serotype 19A, Day 1||1.53|0.36|
92252080|NCT03803202|184406095|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.24|2.08|||t-test, 2 sided|||Serotype 19F, Day 1||2.08|0.24|
92252081|NCT03803202|184406095|OTHER||Ratio of GMT|1.24|||||TWO_SIDED|95.0|0.44|3.5|||t-test, 2 sided|||Serotype 19F, Day 1||3.50|0.44|
92252082|NCT03803202|184406095|OTHER||Ratio of GMT|1.45|||||TWO_SIDED|95.0|0.58|3.61|||t-test, 2 sided|||Serotype 19F, Day 1||3.61|0.58|
92252083|NCT03803202|184406095|OTHER||Ratio of GMT|2.22|||||TWO_SIDED|95.0|0.46|10.69|||t-test, 2 sided|||Serotype 23F, Day 1||10.69|0.46|
92252084|NCT03803202|184406095|OTHER||Ratio of GMT|1.36|||||TWO_SIDED|95.0|0.31|5.99|||t-test, 2 sided|||Serotype 23F, Day 1||5.99|0.31|
92252085|NCT03803202|184406095|OTHER||Ratio of GMT|0.67|||||TWO_SIDED|95.0|0.15|3.01|||t-test, 2 sided|||Serotype 23F, Day 1||3.01|0.15|
92283501|NCT03980483|184470582|NON_INFERIORITY|Non-inferiority over tofacitinib on ACR20 was concluded if the lower limit of the multiplicity corrected 97.5% CI in the difference in proportions (GSK3196165 minus tofacitinib) was greater than -12%|Mean Difference (Final Values)|-13.0|||||TWO_SIDED|0.975|-21.2|-4.8|||Regression, Logistic|Difference in proportion and 97.5% CI are generated from logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||||-4.8|-21.2|
92283502|NCT05150964|184470677|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05, Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (NAL/National Acoustic Laboratory or DSL/Desired Sensation Level) and ASG (Adaptive Situational Gain) setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor.~Null hypothesis: The hearing aid fitting prescription will have no effect on the speech reception thresholds."||||<0.05
92283503|NCT05150964|184470677|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05, Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (NAL/National Acoustic Laboratory or DSL/Desired Sensation Level) and ASG (Adaptive Situational Gain) setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor.~Null hypothesis: The ASG setting will have no effect on the speech reception threshold."||||>0.05
92176761|NCT04800211|184247055|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-153.22|||<|0.0001|TWO_SIDED|95.0|-198.93|-107.509|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-107.509|-198.930|<.0001
92252086|NCT03803202|184406095|OTHER||Ratio of GMT|0.93|||||TWO_SIDED|95.0|0.5|1.74|||t-test, 2 sided|||Serotype 1, Day 30||1.74|0.50|
92252087|NCT03803202|184406095|OTHER||Ratio of GMT|0.72|||||TWO_SIDED|95.0|0.39|1.32|||t-test, 2 sided|||Serotype 1, Day 30||1.32|0.39|
92252088|NCT03803202|184406095|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.35|1.39|||t-test, 2 sided|||Serotype 1, Day 30||1.39|0.35|
92252089|NCT03803202|184406095|OTHER||Ratio of GMT|1.09|||||TWO_SIDED|95.0|0.66|1.8|||t-test, 2 sided|||Serotype 3, Day 30||1.80|0.66|
92252090|NCT03803202|184406095|OTHER||Ratio of GMT|1.44|||||TWO_SIDED|95.0|0.9|2.29|||t-test, 2 sided|||Serotype 3, Day 30||2.29|0.90|
92252091|NCT03803202|184406095|OTHER||Ratio of GMT|1.28|||||TWO_SIDED|95.0|0.76|2.17|||t-test, 2 sided|||Serotype 3, Day 30||2.17|0.76|
92252092|NCT03803202|184406095|OTHER||Ratio of GMT|0.82|||||TWO_SIDED|95.0|0.5|1.35|||t-test, 2 sided|||Serotype 4, Day 30||1.35|0.50|
92252093|NCT03803202|184406095|OTHER||Ratio of GMT|0.5|||||TWO_SIDED|95.0|0.24|1.02|||t-test, 2 sided|||Serotype 4, Day 30||1.02|0.24|
92252094|NCT03803202|184406095|OTHER||Ratio of GMT|1.06|||||TWO_SIDED|95.0|0.6|1.89|||t-test, 2 sided|||Serotype 4, Day 30||1.89|0.60|
92252095|NCT03803202|184406095|OTHER||Ratio of GMT|0.69|||||TWO_SIDED|95.0|0.41|1.15|||t-test, 2 sided|||Serotype 5, Day 30||1.15|0.41|
92252096|NCT03803202|184406095|OTHER||Ratio of GMT|0.61|||||TWO_SIDED|95.0|0.31|1.2|||t-test, 2 sided|||Serotype 5, Day 30||1.20|0.31|
92252097|NCT03803202|184406095|OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.48|1.32|||t-test, 2 sided|||Serotype 5, Day 30||1.32|0.48|
92252098|NCT03803202|184406095|OTHER||Ratio of GMT|0.52|||||TWO_SIDED|95.0|0.28|0.98|||t-test, 2 sided|||Serotype 6A, Day 30||0.98|0.28|
92252099|NCT03803202|184406095|OTHER||Ratio of GMT|0.32|||||TWO_SIDED|95.0|0.15|0.68|||t-test, 2 sided|||Serotype 6A, Day 30||0.68|0.15|
92252100|NCT03803202|184406095|OTHER||Ratio of GMT|0.37|||||TWO_SIDED|95.0|0.21|0.66|||t-test, 2 sided|||Serotype 6A, Day 30||0.66|0.21|
92252101|NCT03803202|184406095|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.42|1.18|||t-test, 2 sided|||Serotype 6B, Day 30||1.18|0.42|
92252102|NCT03803202|184406095|OTHER||Ratio of GMT|0.45|||||TWO_SIDED|95.0|0.25|0.83|||t-test, 2 sided|||Serotype 6B, Day 30||0.83|0.25|
92252103|NCT03803202|184406095|OTHER||Ratio of GMT|0.43|||||TWO_SIDED|95.0|0.24|0.76|||t-test, 2 sided|||Serotype 6B, Day 30||0.76|0.24|
92252104|NCT03803202|184406095|OTHER||Ratio of GMT|0.81|||||TWO_SIDED|95.0|0.51|1.29|||t-test, 2 sided|||Serotype 7F, Day 30||1.29|0.51|
92252105|NCT03803202|184406095|OTHER||Ratio of GMT|0.68|||||TWO_SIDED|95.0|0.47|0.99|||t-test, 2 sided|||Serotype 7F, Day 30||0.99|0.47|
92252106|NCT03803202|184406095|OTHER||Ratio of GMT|0.82|||||TWO_SIDED|95.0|0.53|1.25|||t-test, 2 sided|||Serotype 7F, Day 30||1.25|0.53|
92252107|NCT03803202|184406095|OTHER||Ratio of GMT|0.61|||||TWO_SIDED|95.0|0.35|1.08|||t-test, 2 sided|||Serotype 9V, Day 30||1.08|0.35|
92252108|NCT03803202|184406095|OTHER||Ratio of GMT|0.57|||||TWO_SIDED|95.0|0.31|1.03|||t-test, 2 sided|||Serotype 9V, Day 30||1.03|0.31|
92252109|NCT03803202|184406095|OTHER||Ratio of GMT|0.77|||||TWO_SIDED|95.0|0.46|1.28|||t-test, 2 sided|||Serotype 9V, Day 30||1.28|0.46|
92252110|NCT03803202|184406095|OTHER||Ratio of GMT|0.54|||||TWO_SIDED|95.0|0.27|1.08|||t-test, 2 sided|||Serotype 14, Day 30||1.08|0.27|
92252111|NCT03803202|184406095|OTHER||Ratio of GMT|0.28|||||TWO_SIDED|95.0|0.1|0.77|||t-test, 2 sided|||Serotype 14, Day 30||0.77|0.10|
92252112|NCT03803202|184406095|OTHER||Ratio of GMT|1.13|||||TWO_SIDED|95.0|0.56|2.3|||t-test, 2 sided|||Serotype 14, Day 30||2.30|0.56|
92252113|NCT03803202|184406095|OTHER||Ratio of GMT|0.89|||||TWO_SIDED|95.0|0.53|1.5|||t-test, 2 sided|||Serotype 18C, Day 30||1.50|0.53|
92252114|NCT03803202|184406095|OTHER||Ratio of GMT|0.69|||||TWO_SIDED|95.0|0.39|1.23|||t-test, 2 sided|||Serotype 18C, Day 30||1.23|0.39|
92252115|NCT03803202|184406095|OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.5|1.28|||t-test, 2 sided|||Serotype 18C, Day 30||1.28|0.50|
92252116|NCT03803202|184406095|OTHER||Ratio of GMT|0.5|||||TWO_SIDED|95.0|0.32|0.79|||t-test, 2 sided|||Serotype 19A, Day 30||0.79|0.32|
92252117|NCT03803202|184406095|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.45|1.09|||t-test, 2 sided|||Serotype 19A, Day 30||1.09|0.45|
92252118|NCT03803202|184406095|OTHER||Ratio of GMT|0.63|||||TWO_SIDED|95.0|0.42|0.96|||t-test, 2 sided|||Serotype 19A, Day 30||0.96|0.42|
92252119|NCT03803202|184406095|OTHER||Ratio of GMT|0.56|||||TWO_SIDED|95.0|0.34|0.92|||t-test, 2 sided|||Serotype 19F, Day 30||0.92|0.34|
92252120|NCT03803202|184406095|OTHER||Ratio of GMT|0.64|||||TWO_SIDED|95.0|0.37|1.1|||t-test, 2 sided|||Serotype 19F, Day 30||1.10|0.37|
92252121|NCT03803202|184406095|OTHER||Ratio of GMT|0.93|||||TWO_SIDED|95.0|0.56|1.55|||t-test, 2 sided|||Serotype 19F, Day 30||1.55|0.56|
92252122|NCT03803202|184406095|OTHER||Ratio of GMT|0.2|||||TWO_SIDED|95.0|0.08|0.46|||t-test, 2 sided|||Serotype 23F, Day 30||0.46|0.08|
92252123|NCT03803202|184406095|OTHER||Ratio of GMT|0.2|||||TWO_SIDED|95.0|0.08|0.47|||t-test, 2 sided|||Serotype 23F, Day 30||0.47|0.08|
92252124|NCT03803202|184406095|OTHER||Ratio of GMT|0.23|||||TWO_SIDED|95.0|0.09|0.57|||t-test, 2 sided|||Serotype 23F, Day 30||0.57|0.09|
92252125|NCT03803202|184406096|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.52|2.23|||t-test, 2 sided|||Serotype 1, Day 1||2.23|0.52|
92252126|NCT03803202|184406096|OTHER||Ratio of GMC|1.0|||||TWO_SIDED|95.0|0.51|1.98|||t-test, 2 sided|||Serotype 1, Day 1||1.98|0.51|
92252127|NCT03803202|184406096|OTHER||Ratio of GMC|1.43|||||TWO_SIDED|95.0|0.72|2.83|||t-test, 2 sided|||Serotype 1, Day 1||2.83|0.72|
92252128|NCT03803202|184406096|OTHER||Ratio of GMC|1.26|||||TWO_SIDED|95.0|0.59|2.68|||t-test, 2 sided|||Serotype 3, Day 1||2.68|0.59|
92252129|NCT03803202|184406096|OTHER||Ratio of GMC|1.65|||||TWO_SIDED|95.0|0.9|3.05|||t-test, 2 sided|||Serotype 3, Day 1||3.05|0.90|
92252130|NCT03803202|184406096|OTHER||Ratio of GMC|1.24|||||TWO_SIDED|95.0|0.68|2.25|||t-test, 2 sided|||Serotype 3, Day 1||2.25|0.68|
92252131|NCT03803202|184406096|OTHER||Ratio of GMC|1.03|||||TWO_SIDED|95.0|0.49|2.15|||t-test, 2 sided|||Serotype 4, Day 1||2.15|0.49|
92252132|NCT03803202|184406096|OTHER||Ratio of GMC|0.82|||||TWO_SIDED|95.0|0.39|1.74|||t-test, 2 sided|||Serotype 4, Day 1||1.74|0.39|
92252133|NCT03803202|184406096|OTHER||Ratio of GMC|1.24|||||TWO_SIDED|95.0|0.59|2.59|||t-test, 2 sided|||Serotype 4, Day 1||2.59|0.59|
92252134|NCT03803202|184406096|OTHER||Ratio of GMC|1.71|||||TWO_SIDED|95.0|0.75|3.91|||t-test, 2 sided|||Serotype 5, Day 1||3.91|0.75|
92252135|NCT03803202|184406096|OTHER||Ratio of GMC|0.72|||||TWO_SIDED|95.0|0.36|1.46|||t-test, 2 sided|||Serotype 5, Day 1||1.46|0.36|
92252136|NCT03803202|184406096|OTHER||Ratio of GMC|0.93|||||TWO_SIDED|95.0|0.47|1.84|||t-test, 2 sided|||Serotype 5, Day 1||1.84|0.47|
92252137|NCT03803202|184406096|OTHER||Ratio of GMC|1.19|||||TWO_SIDED|95.0|0.57|2.52|||t-test, 2 sided|||Serotype 6A, Day 1||2.52|0.57|
92252138|NCT03803202|184406096|OTHER||Ratio of GMC|1.28|||||TWO_SIDED|95.0|0.64|2.56|||t-test, 2 sided|||Serotype 6A, Day 1||2.56|0.64|
92252139|NCT03803202|184406096|OTHER||Ratio of GMC|1.09|||||TWO_SIDED|95.0|0.52|2.28|||t-test, 2 sided|||Serotype 6A, Day 1||2.28|0.52|
92252140|NCT03803202|184406096|OTHER||Ratio of GMC|1.23|||||TWO_SIDED|95.0|0.49|3.09|||t-test, 2 sided|||Serotype 6B, Day 1||3.09|0.49|
92252141|NCT03803202|184406096|OTHER||Ratio of GMC|0.96|||||TWO_SIDED|95.0|0.43|2.14|||t-test, 2 sided|||Serotype 6B, Day 1||2.14|0.43|
92252142|NCT03803202|184406096|OTHER||Ratio of GMC|0.81|||||TWO_SIDED|95.0|0.37|1.73|||t-test, 2 sided|||Serotype 6B, Day 1||1.73|0.37|
92252143|NCT03803202|184406096|OTHER||Ratio of GMC|1.51|||||TWO_SIDED|95.0|0.76|3.01|||t-test, 2 sided|||Serotype 7F, Day 1||3.01|0.76|
92252144|NCT03803202|184406096|OTHER||Ratio of GMC|1.16|||||TWO_SIDED|95.0|0.69|1.94|||t-test, 2 sided|||Serotype 7F, Day 1||1.94|0.69|
92252145|NCT03803202|184406096|OTHER||Ratio of GMC|1.69|||||TWO_SIDED|95.0|0.98|2.91|||t-test, 2 sided|||Serotype 7F, Day 1||2.91|0.98|
92252146|NCT03803202|184406096|OTHER||Ratio of GMC|1.09|||||TWO_SIDED|95.0|0.54|2.22|||t-test, 2 sided|||Serotype 9V, Day 1||2.22|0.54|
92252147|NCT03803202|184406096|OTHER||Ratio of GMC|0.74|||||TWO_SIDED|95.0|0.41|1.36|||t-test, 2 sided|||Serotype 9V, Day 1||1.36|0.41|
92252148|NCT03803202|184406096|OTHER||Ratio of GMC|0.85|||||TWO_SIDED|95.0|0.47|1.55|||t-test, 2 sided|||Serotype 9V, Day 1||1.55|0.47|
92252149|NCT03803202|184406096|OTHER||Ratio of GMC|2.05|||||TWO_SIDED|95.0|0.84|4.99|||t-test, 2 sided|||Serotype 14, Day 1||4.99|0.84|
92252150|NCT03803202|184406096|OTHER||Ratio of GMC|2.6|||||TWO_SIDED|95.0|1.13|5.98|||t-test, 2 sided|||Serotype 14, Day 1||5.98|1.13|
92252151|NCT03803202|184406096|OTHER||Ratio of GMC|0.89|||||TWO_SIDED|95.0|0.37|2.15|||t-test, 2 sided|||Serotype 14, Day 1||2.15|0.37|
92252152|NCT03803202|184406096|OTHER||Ratio of GMC|1.37|||||TWO_SIDED|95.0|0.61|3.06|||t-test, 2 sided|||Serotype 18C, Day 1||3.06|0.61|
92252153|NCT03803202|184406096|OTHER||Ratio of GMC|1.07|||||TWO_SIDED|95.0|0.55|2.09|||t-test, 2 sided|||Serotype 18C, Day 1||2.09|0.55|
92252154|NCT03803202|184406096|OTHER||Ratio of GMC|1.25|||||TWO_SIDED|95.0|0.59|2.65|||t-test, 2 sided|||Serotype 18C, Day 1||2.65|0.59|
92252155|NCT03803202|184406096|OTHER||Ratio of GMC|1.61|||||TWO_SIDED|95.0|0.74|3.49|||t-test, 2 sided|||Serotype 19A, Day 1||3.49|0.74|
92252156|NCT03803202|184406096|OTHER||Ratio of GMC|0.83|||||TWO_SIDED|95.0|0.42|1.65|||t-test, 2 sided|||Serotype 19A, Day 1||1.65|0.42|
92252157|NCT03803202|184406096|OTHER||Ratio of GMC|1.0|||||TWO_SIDED|95.0|0.49|2.05|||t-test, 2 sided|||Serotype 19A, Day 1||2.05|0.49|
92252158|NCT03803202|184406096|OTHER||Ratio of GMC|1.47|||||TWO_SIDED|95.0|0.63|3.39|||t-test, 2 sided|||Serotype 19F, Day 1||3.39|0.63|
92252159|NCT03803202|184406096|OTHER||Ratio of GMC|1.4|||||TWO_SIDED|95.0|0.64|3.07|||t-test, 2 sided|||Serotype 19F, Day 1||3.07|0.64|
92252160|NCT03803202|184406096|OTHER||Ratio of GMC|1.12|||||TWO_SIDED|95.0|0.53|2.34|||t-test, 2 sided|||Serotype 19F, Day 1||2.34|0.53|
92252161|NCT03803202|184406096|OTHER||Ratio of GMC|1.01|||||TWO_SIDED|95.0|0.49|2.09|||t-test, 2 sided|||Serotype 23F, Day 1||2.09|0.49|
92252162|NCT03803202|184406096|OTHER||Ratio of GMC|0.94|||||TWO_SIDED|95.0|0.5|1.75|||t-test, 2 sided|||Serotype 23F, Day 1||1.75|0.50|
92252163|NCT03803202|184406096|OTHER||Ratio of GMC|0.91|||||TWO_SIDED|95.0|0.42|2.0|||t-test, 2 sided|||Serotype 23F, Day 1||2.00|0.42|
92252164|NCT03803202|184406096|OTHER||Ratio of GMC|0.7|||||TWO_SIDED|95.0|0.38|1.29|||t-test, 2 sided|||Serotype 1, Day 30||1.29|0.38|
92252165|NCT03803202|184406096|OTHER||Ratio of GMC|0.95|||||TWO_SIDED|95.0|0.52|1.73|||t-test, 2 sided|||Serotype 1, Day 30||1.73|0.52|
92252166|NCT03803202|184406096|OTHER||Ratio of GMC|1.5|||||TWO_SIDED|95.0|0.84|2.66|||t-test, 2 sided|||Serotype 1, Day 30||2.66|0.84|
92252167|NCT03803202|184406096|OTHER||Ratio of GMC|1.38|||||TWO_SIDED|95.0|0.84|2.28|||t-test, 2 sided|||Serotype 3, Day 30||2.28|0.84|
92252168|NCT03803202|184406096|OTHER||Ratio of GMC|2.68|||||TWO_SIDED|95.0|1.71|4.19|||t-test, 2 sided|||Serotype 3, Day 30||4.19|1.71|
92252169|NCT03803202|184406096|OTHER||Ratio of GMC|3.87|||||TWO_SIDED|95.0|2.47|6.06|||t-test, 2 sided|||Serotype 3, Day 30||6.06|2.47|
92252170|NCT03803202|184406096|OTHER||Ratio of GMC|1.27|||||TWO_SIDED|95.0|0.7|2.3|||t-test, 2 sided|||Serotype 4, Day 30||2.30|0.70|
92252171|NCT03803202|184406096|OTHER||Ratio of GMC|1.02|||||TWO_SIDED|95.0|0.57|1.81|||t-test, 2 sided|||Serotype 4, Day 30||1.81|0.57|
92252172|NCT03803202|184406096|OTHER||Ratio of GMC|2.24|||||TWO_SIDED|95.0|1.21|4.15|||t-test, 2 sided|||Serotype 4, Day 30||4.15|1.21|
92252173|NCT03803202|184406096|OTHER||Ratio of GMC|1.58|||||TWO_SIDED|95.0|0.7|3.57|||t-test, 2 sided|||Serotype 5, Day 30||3.57|0.70|
92176762|NCT04800211|184247056|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.569|||<|0.0001|TWO_SIDED|95.0|-3.084|-2.054|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-2.054|-3.084|<.0001
92252174|NCT03803202|184406096|OTHER||Ratio of GMC|0.84|||||TWO_SIDED|95.0|0.35|2.05|||t-test, 2 sided|||Serotype 5, Day 30||2.05|0.35|
92252175|NCT03803202|184406096|OTHER||Ratio of GMC|1.49|||||TWO_SIDED|95.0|0.65|3.39|||t-test, 2 sided|||Serotype 5, Day 30||3.39|0.65|
92252176|NCT03803202|184406096|OTHER||Ratio of GMC|0.89|||||TWO_SIDED|95.0|0.41|1.93|||t-test, 2 sided|||Serotype 6A, Day 30||1.93|0.41|
92252177|NCT03803202|184406096|OTHER||Ratio of GMC|0.77|||||TWO_SIDED|95.0|0.33|1.79|||t-test, 2 sided|||Serotype 6A, Day 30||1.79|0.33|
92252178|NCT03803202|184406096|OTHER||Ratio of GMC|0.69|||||TWO_SIDED|95.0|0.32|1.48|||t-test, 2 sided|||Serotype 6A, Day 30||1.48|0.32|
92252179|NCT03803202|184406096|OTHER||Ratio of GMC|1.26|||||TWO_SIDED|95.0|0.57|2.83|||t-test, 2 sided|||Serotype 6B, Day 30||2.83|0.57|
92252180|NCT03803202|184406096|OTHER||Ratio of GMC|0.75|||||TWO_SIDED|95.0|0.31|1.81|||t-test, 2 sided|||Serotype 6B, Day 30||1.81|0.31|
92252181|NCT03803202|184406096|OTHER||Ratio of GMC|0.88|||||TWO_SIDED|95.0|0.39|1.97|||t-test, 2 sided|||Serotype 6B, Day 30||1.97|0.39|
92252182|NCT03803202|184406096|OTHER||Ratio of GMC|1.86|||||TWO_SIDED|95.0|1.05|3.3|||t-test, 2 sided|||Serotype 7F, Day 30||3.30|1.05|
92176763|NCT04800211|184247056|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.586|||<|0.0001|TWO_SIDED|95.0|-3.092|-2.081|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-2.081|-3.092|<.0001
92176764|NCT04800211|184247058|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.42||||0.0839|TWO_SIDED|95.0|-0.19|3.04|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||3.04|-0.19|0.0839
92176765|NCT04800211|184247058|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|2.1||||0.0089|TWO_SIDED|95.0|0.53|3.66|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||3.66|0.53|0.0089
92176766|NCT04800211|184247059|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.26||||0.7101|TWO_SIDED|95.0|-1.13|1.66|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||1.66|-1.13|0.7101
92176767|NCT04800211|184247059|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.24||||0.7325|TWO_SIDED|95.0|-1.12|1.59|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||1.59|-1.12|0.7325
92176768|NCT04800211|184247060|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.48||||0.0136|TWO_SIDED|95.0|0.31|2.66|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||2.66|0.31|0.0136
92176769|NCT04800211|184247060|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.94||||0.0009|TWO_SIDED|95.0|0.8|3.08|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||3.08|0.80|0.0009
92182746|NCT02831816|184264656|SUPERIORITY||Median Difference (Final Values)|2.45|||||TWO_SIDED|95.0|2.15|2.76||||||Groin 10 minutes Average Treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.76|2.15|
92252183|NCT03803202|184406096|OTHER||Ratio of GMC|1.98|||||TWO_SIDED|95.0|1.1|3.55|||t-test, 2 sided|||Serotype 7F, Day 30||3.55|1.10|
92252184|NCT03803202|184406096|OTHER||Ratio of GMC|2.88|||||TWO_SIDED|95.0|1.62|5.12|||t-test, 2 sided|||Serotype 7F, Day 30||5.12|1.62|
92252185|NCT03803202|184406096|OTHER||Ratio of GMC|0.96|||||TWO_SIDED|95.0|0.49|1.87|||t-test, 2 sided|||Serotype 9V, Day 30||1.87|0.49|
92252186|NCT03803202|184406096|OTHER||Ratio of GMC|1.39|||||TWO_SIDED|95.0|0.74|2.62|||t-test, 2 sided|||Serotype 9V, Day 30||2.62|0.74|
92252187|NCT03803202|184406096|OTHER||Ratio of GMC|1.68|||||TWO_SIDED|95.0|0.87|3.27|||t-test, 2 sided|||Serotype 9V, Day 30||3.27|0.87|
92252188|NCT03803202|184406096|OTHER||Ratio of GMC|1.01|||||TWO_SIDED|95.0|0.41|2.53|||t-test, 2 sided|||Serotype 14, Day 30||2.53|0.41|
92252189|NCT03803202|184406096|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.45|2.6|||t-test, 2 sided|||Serotype 14, Day 30||2.60|0.45|
92252190|NCT03803202|184406096|OTHER||Ratio of GMC|2.09|||||TWO_SIDED|95.0|0.86|5.04|||t-test, 2 sided|||Serotype 14, Day 30||5.04|0.86|
92252191|NCT03803202|184406096|OTHER||Ratio of GMC|1.09|||||TWO_SIDED|95.0|0.57|2.07|||t-test, 2 sided|||Serotype 18C, Day 30||2.07|0.57|
92252192|NCT03803202|184406096|OTHER||Ratio of GMC|1.0|||||TWO_SIDED|95.0|0.53|1.89|||t-test, 2 sided|||Serotype 18C, Day 30||1.89|0.53|
92252193|NCT03803202|184406096|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.56|2.07|||t-test, 2 sided|||Serotype 18C, Day 30||2.07|0.56|
92252194|NCT03803202|184406096|OTHER||Ratio of GMC|0.68|||||TWO_SIDED|95.0|0.4|1.14|||t-test, 2 sided|||Serotype 19A, Day 30||1.14|0.40|
92252195|NCT03803202|184406096|OTHER||Ratio of GMC|0.86|||||TWO_SIDED|95.0|0.46|1.61|||t-test, 2 sided|||Serotype 19A, Day 30||1.61|0.46|
92252196|NCT03803202|184406096|OTHER||Ratio of GMC|0.87|||||TWO_SIDED|95.0|0.47|1.6|||t-test, 2 sided|||Serotype 19A, Day 30||1.60|0.47|
92252197|NCT03803202|184406096|OTHER||Ratio of GMC|1.0|||||TWO_SIDED|95.0|0.49|2.01|||t-test, 2 sided|||Serotype 19F, Day 30||2.01|0.49|
92252198|NCT03803202|184406096|OTHER||Ratio of GMC|1.38|||||TWO_SIDED|95.0|0.75|2.53|||t-test, 2 sided|||Serotype 19F, Day 30||2.53|0.75|
92252199|NCT03803202|184406096|OTHER||Ratio of GMC|1.41|||||TWO_SIDED|95.0|0.68|2.96|||t-test, 2 sided|||Serotype 19F, Day 30||2.96|0.68|
92252200|NCT03803202|184406096|OTHER||Ratio of GMC|0.46|||||TWO_SIDED|95.0|0.2|1.07|||t-test, 2 sided|||Serotype 23F, Day 30||1.07|0.20|
92252201|NCT03803202|184406096|OTHER||Ratio of GMC|0.5|||||TWO_SIDED|95.0|0.22|1.11|||t-test, 2 sided|||Serotype 23F, Day 30||1.11|0.22|
92252202|NCT03803202|184406096|OTHER||Ratio of GMC|0.64|||||TWO_SIDED|95.0|0.29|1.44|||t-test, 2 sided|||Serotype 23F, Day 30||1.44|0.29|
92252203|NCT03803202|184406100|OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.56|1.14|||t-test, 2 sided|||Serotype 1, Day 1||1.14|0.56|
92252204|NCT03803202|184406100|OTHER||Ratio of GMT|1.39|||||TWO_SIDED|95.0|0.89|2.16|||t-test, 2 sided|||Serotype 1, Day 1||2.16|0.89|
92252205|NCT03803202|184406100|OTHER||Ratio of GMT|0.73|||||TWO_SIDED|95.0|0.51|1.06|||t-test, 2 sided|||Serotype 1, Day 1||1.06|0.51|
92252206|NCT03803202|184406100|OTHER||Ratio of GMT|1.33|||||TWO_SIDED|95.0|0.85|2.09|||t-test, 2 sided|||Serotype 3, Day 1||2.09|0.85|
92252207|NCT03803202|184406100|OTHER||Ratio of GMT|1.45|||||TWO_SIDED|95.0|0.91|2.3|||t-test, 2 sided|||Serotype 3, Day 1||2.30|0.91|
92252208|NCT03803202|184406100|OTHER||Ratio of GMT|0.95|||||TWO_SIDED|95.0|0.6|1.49|||t-test, 2 sided|||Serotype 3, Day 1||1.49|0.60|
92252209|NCT03803202|184406100|OTHER||Ratio of GMT|0.81|||||TWO_SIDED|95.0|0.46|1.4|||t-test, 2 sided|||Serotype 4, Day 1||1.40|0.46|
92252210|NCT03803202|184406100|OTHER||Ratio of GMT|1.09|||||TWO_SIDED|95.0|0.62|1.91|||t-test, 2 sided|||Serotype 4, Day 1||1.91|0.62|
92252211|NCT03803202|184406100|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.4|1.23|||t-test, 2 sided|||Serotype 4, Day 1||1.23|0.40|
92252212|NCT03803202|184406100|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.58|1.68|||t-test, 2 sided|||Serotype 5, Day 1||1.68|0.58|
92252213|NCT03803202|184406100|OTHER||Ratio of GMT|1.32|||||TWO_SIDED|95.0|0.76|2.29|||t-test, 2 sided|||Serotype 5, Day 1||2.29|0.76|
92252214|NCT03803202|184406100|OTHER||Ratio of GMT|0.88|||||TWO_SIDED|95.0|0.51|1.53|||t-test, 2 sided|||Serotype 5, Day 1||1.53|0.51|
92252215|NCT03803202|184406100|OTHER||Ratio of GMT|0.96|||||TWO_SIDED|95.0|0.54|1.72|||t-test, 2 sided|||Serotype 6A, Day 1||1.72|0.54|
92252216|NCT03803202|184406100|OTHER||Ratio of GMT|1.1|||||TWO_SIDED|95.0|0.57|2.14|||t-test, 2 sided|||Serotype 6B, Day 1||2.14|0.57|
92252217|NCT03803202|184406100|OTHER||Ratio of GMT|1.63|||||TWO_SIDED|95.0|0.86|3.1|||t-test, 2 sided|||Serotype 6A, Day 1||3.10|0.86|
92252218|NCT03803202|184406100|OTHER||Ratio of GMT|1.61|||||TWO_SIDED|95.0|0.83|3.14|||t-test, 2 sided|||Serotype 6A, Day 1||3.14|0.83|
92252219|NCT03803202|184406100|OTHER||Ratio of GMT|1.15|||||TWO_SIDED|95.0|0.59|2.24|||t-test, 2 sided|||Serotype 6B, Day 1||2.24|0.59|
92252220|NCT03803202|184406100|OTHER||Ratio of GMT|1.18|||||TWO_SIDED|95.0|0.58|2.39|||t-test, 2 sided|||Serotype 6B, Day 1||2.39|0.58|
92252221|NCT03803202|184406100|OTHER||Ratio of GMT|0.84|||||TWO_SIDED|95.0|0.4|1.8|||t-test, 2 sided|||Serotype 7F, Day 1||1.80|0.40|
92252222|NCT03803202|184406100|OTHER||Ratio of GMT|1.35|||||TWO_SIDED|95.0|0.63|2.87|||t-test, 2 sided|||Serotype 7F, Day 1||2.87|0.63|
92252223|NCT03803202|184406100|OTHER||Ratio of GMT|1.03|||||TWO_SIDED|95.0|0.45|2.37|||t-test, 2 sided|||Serotype 7F, Day 1||2.37|0.45|
92252224|NCT03803202|184406100|OTHER||Ratio of GMT|0.65||||||95.0|0.32|1.32|||t-test, 2 sided|||Serotype 9V, Day 1||1.32|0.32|
92252225|NCT03803202|184406100|OTHER||Ratio of GMT|0.78|||||TWO_SIDED|95.0|0.37|1.64|||t-test, 2 sided|||Serotype 9V, Day 1||1.64|0.37|
92252226|NCT03803202|184406100|OTHER||Ratio of GMT|0.66|||||TWO_SIDED|95.0|0.3|1.49|||t-test, 2 sided|||Serotype 9V, Day 1||1.49|0.30|
92252227|NCT03803202|184406100|OTHER||Ratio of GMT|0.61|||||TWO_SIDED|95.0|0.31|1.18|||t-test, 1 sided|||Serotype 14, Day 1||1.18|0.31|
92252228|NCT03803202|184406100|OTHER||Ratio of GMT|1.09|||||TWO_SIDED|95.0|0.54|2.18|||t-test, 2 sided|||Serotype 14, Day 1||2.18|0.54|
92252229|NCT03803202|184406100|OTHER||Ratio of GMT|1.32|||||TWO_SIDED|95.0|0.66|2.65|||t-test, 2 sided|||Serotype 14, Day 1||2.65|0.66|
92252230|NCT03803202|184406100|OTHER||Ratio of GMT|0.54|||||TWO_SIDED|95.0|0.3|0.95|||t-test, 2 sided|||Serotype 18C, Day 1||0.95|0.30|
92252231|NCT03803202|184406100|OTHER||Ratio of GMT|1.37|||||TWO_SIDED|95.0|0.73|2.57|||t-test, 2 sided|||Serotype 18C, Day 1||2.57|0.73|
92252232|NCT03803202|184406100|OTHER||Ratio of GMT|0.58|||||TWO_SIDED|95.0|0.32|1.04|||t-test, 2 sided|||Serotype 18C, Day 1||1.04|0.32|
92252233|NCT03803202|184406100|OTHER||Ratio of GMT|0.76|||||TWO_SIDED|95.0|0.44|1.32|||t-test, 2 sided|||Serotype 19A, Day 1||1.32|0.44|
92252234|NCT03803202|184406100|OTHER||Ratio of GMT|1.15|||||TWO_SIDED|95.0|0.66|2.01|||t-test, 2 sided|||Serotype 19A, Day 1||2.01|0.66|
92252235|NCT03803202|184406100|OTHER||Ratio of GMT|0.84|||||TWO_SIDED|95.0|0.48|1.5|||t-test, 2 sided|||Serotype 19A, Day 1||1.50|0.48|
92252236|NCT03803202|184406100|OTHER||Ratio of GMT|0.79|||||TWO_SIDED|95.0|0.45|1.38|||t-test, 2 sided|||Serotype 19F, Day 1||1.38|0.45|
92252237|NCT03803202|184406100|OTHER||Ratio of GMT|0.84|||||TWO_SIDED|95.0|0.47|1.52|||t-test, 2 sided|||Serotype 19F, Day 1||1.52|0.47|
92252238|NCT03803202|184406100|OTHER||Ratio of GMT|0.62|||||TWO_SIDED|95.0|0.34|1.12|||t-test, 2 sided|||Serotype 19F, Day 1||1.12|0.34|
92252239|NCT03803202|184406100|OTHER||Ratio of GMT|1.11|||||TWO_SIDED|95.0|0.64|1.94|||t-test, 2 sided|||Serotype 23F, Day 1||1.94|0.64|
92183114|NCT02434328|184264741|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-0.5|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||8.0|-0.5|
92252240|NCT03803202|184406100|OTHER||Ratio of GMT|1.37|||||TWO_SIDED|95.0|0.77|2.42|||t-test, 2 sided|||Serotype 23F, Day 1||2.42|0.77|
92252241|NCT03803202|184406100|OTHER||Ratio of GMT|1.19|||||TWO_SIDED|95.0|0.66|2.14|||t-test, 2 sided|||Serotype 23F, Day 1||2.14|0.66|
92252242|NCT03803202|184406100|OTHER||Ratio of GMT|0.83|||||TWO_SIDED|95.0|0.47|1.47|||t-test, 2 sided|||Serotype 1, Day 30||1.47|0.47|
92252243|NCT03803202|184406100|OTHER||Ratio of GMT|0.87|||||TWO_SIDED|95.0|0.5|1.53|||t-test, 2 sided|||Serotype 1, Day 30||1.53|0.50|
92252244|NCT03803202|184406100|OTHER||Ratio of GMT|1.28|||||TWO_SIDED|95.0|0.74|2.2|||t-test, 2 sided|||Serotype 1, Day 30||2.20|0.74|
92252245|NCT03803202|184406100|OTHER||Ratio of GMT|25.03|||||TWO_SIDED|95.0|16.33|38.34|||t-test, 2 sided|||Serotype 2, Day 30||38.34|16.33|
92252246|NCT03803202|184406100|OTHER||Ratio of GMT|21.99|||||TWO_SIDED|95.0|14.31|33.77|||t-test, 2 sided|||Serotype 2, Day 30||33.77|14.31|
92252247|NCT03803202|184406100|OTHER||Ratio of GMT|35.38|||||TWO_SIDED|95.0|23.09|54.22|||t-test, 2 sided|||Serotype 2, Day 30||54.22|23.09|
92252248|NCT03803202|184406100|OTHER||Ratio of GMT|1.81|||||TWO_SIDED|95.0|1.25|2.62|||t-test, 2 sided|||Serotype 3, Day 30||2.62|1.25|
92252249|NCT03803202|184406100|OTHER||Ratio of GMT|2.55|||||TWO_SIDED|95.0|1.83|3.56|||t-test, 2 sided|||Serotype 3, Day 30||3.56|1.83|
92252250|NCT03803202|184406100|OTHER||Ratio of GMT|3.14|||||TWO_SIDED|95.0|2.2|4.48|||t-test, 2 sided|||Serotype 3, Day 30||4.48|2.20|
92252251|NCT03803202|184406100|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.59|1.62|||t-test, 2 sided|||Serotype 4, Day 30||1.62|0.59|
92252252|NCT03803202|184406100|OTHER||Ratio of GMT|0.94|||||TWO_SIDED|95.0|0.59|1.51|||t-test, 2 sided|||Serotype 4, Day 30||1.51|0.59|
92252253|NCT03803202|184406100|OTHER||Ratio of GMT|1.23|||||TWO_SIDED|95.0|0.76|1.99|||t-test, 2 sided|||Serotype 4, Day 30||1.99|0.76|
92252254|NCT03803202|184406100|OTHER||Ratio of GMT|1.25|||||TWO_SIDED|95.0|0.71|2.21|||t-test, 2 sided|||Serotype 5, Day 30||2.21|0.71|
92252255|NCT03803202|184406100|OTHER||Ratio of GMT|1.45|||||TWO_SIDED|95.0|0.85|2.46|||t-test, 2 sided|||Serotype 5, Day 30||2.46|0.85|
92252256|NCT03803202|184406100|OTHER||Ratio of GMT|2.15|||||TWO_SIDED|95.0|1.25|3.72|||t-test, 2 sided|||Serotype 5, Day 30||3.72|1.25|
92252257|NCT03803202|184406100|OTHER||Ratio of GMT|0.94|||||TWO_SIDED|95.0|0.59|1.51|||t-test, 2 sided|||Serotype 6B, Day 30||1.51|0.59|
92252258|NCT03803202|184406100|OTHER||Ratio of GMT|0.85|||||TWO_SIDED|95.0|0.56|1.29|||t-test, 2 sided|||Serotype 6B, Day 30||1.29|0.56|
92252259|NCT03803202|184406100|OTHER||Ratio of GMT|0.84|||||TWO_SIDED|95.0|0.54|1.3|||t-test, 2 sided|||Serotype 6B, Day 30||1.30|0.54|
92252260|NCT03803202|184406100|OTHER||Ratio of GMT|0.85|||||TWO_SIDED|95.0|0.61|1.18|||t-test, 2 sided|||Serotype 7F, Day 30||1.18|0.61|
92252261|NCT03803202|184406100|OTHER||Ratio of GMT|0.89|||||TWO_SIDED|95.0|0.65|1.21|||t-test, 2 sided|||Serotype 7F, Day 30||1.21|0.65|
92252262|NCT03803202|184406100|OTHER||Ratio of GMT|1.05|||||TWO_SIDED|95.0|0.73|1.5|||t-test, 2 sided|||Serotype 7F, Day 30||1.50|0.73|
92252263|NCT03803202|184406100|OTHER||Ratio of GMT|19.46|||||TWO_SIDED|95.0|12.26|30.87|||t-test, 2 sided|||Serotype 8, Day 30||30.87|12.26|
92252264|NCT03803202|184406100|OTHER||Ratio of GMT|19.65|||||TWO_SIDED|95.0|12.07|32.0|||t-test, 2 sided|||Serotype 8, Day 30||32.00|12.07|
92252265|NCT03803202|184406100|OTHER||Ratio of GMT|41.87|||||TWO_SIDED|95.0|26.2|66.9|||t-test, 2 sided|||Serotype 8, Day 30||66.90|26.20|
92252266|NCT03803202|184406100|OTHER||Ratio of GMT|4.75|||||TWO_SIDED|95.0|3.06|7.36|||t-test, 2 sided|||Serotype 9N, Day 30||7.36|3.06|
92252267|NCT03803202|184406100|OTHER||Ratio of GMT|5.66|||||TWO_SIDED|95.0|3.83|8.37|||t-test, 2 sided|||Serotype 9N, Day 30||8.37|3.83|
92252268|NCT03803202|184406100|OTHER||Ratio of GMT|7.84|||||TWO_SIDED|95.0|5.19|11.82|||t-test, 2 sided|||Serotype 9N, Day 30||11.82|5.19|
92252269|NCT03803202|184406100|OTHER||Ratio of GMT|0.83|||||TWO_SIDED|95.0|0.49|1.42|||t-test, 2 sided|||Serotype 9V, Day 30||1.42|0.49|
92252270|NCT03803202|184406100|OTHER||Ratio of GMT|0.71|||||TWO_SIDED|95.0|0.44|1.14|||t-test, 2 sided|||Serotype 9V, Day 30||1.14|0.44|
92252271|NCT03803202|184406100|OTHER||Ratio of GMT|1.21|||||TWO_SIDED|95.0|0.76|1.95|||t-test, 2 sided|||Serotype 9V, Day 30||1.95|0.76|
92252272|NCT03803202|184406100|OTHER||Ratio of GMT|0.69|||||TWO_SIDED|95.0|0.39|1.21|||t-test, 2 sided|||Serotype 6A, Day 30||1.21|0.39|
92252273|NCT03803202|184406100|OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.54|1.5|||t-test, 2 sided|||Serotype 6A, Day 30||1.50|0.54|
92182747|NCT02831816|184264657|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 cfu/cm2 less than the active control.|Mean Difference (Final Values)|-0.0435|||||TWO_SIDED|95.0|-0.2085|0.1215||||||Abdomen 10 minutes average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.1215|-0.2085|
92252274|NCT03803202|184406100|OTHER||Ratio of GMT|0.93|||||TWO_SIDED|95.0|0.53|1.64|||t-test, 2 sided|||Serotype 6A, Day 30||1.64|0.53|
92252275|NCT03803202|184406100|OTHER||Ratio of GMT|1.33|||||TWO_SIDED|95.0|0.84|2.11|||t-test, 2 sided|||Serotype 14, Day 30||2.11|0.84|
92252276|NCT03803202|184406100|OTHER||Ratio of GMT|0.89|||||TWO_SIDED|95.0|0.55|1.43|||t-test, 2 sided|||Serotype 14, Day 30||1.43|0.55|
92252277|NCT03803202|184406100|OTHER||Ratio of GMT|1.54|||||TWO_SIDED|95.0|0.95|2.5|||t-test, 2 sided|||Serotype 14, Day 30||2.50|0.95|
92252278|NCT03803202|184406100|OTHER||Ratio of GMT|0.89|||||TWO_SIDED|95.0|0.55|1.44|||t-test, 2 sided|||Serotype 18C, Day 30||1.44|0.55|
92252279|NCT03803202|184406100|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.63|1.54|||t-test, 2 sided|||Serotype 18C, Day 30||1.54|0.63|
92252280|NCT03803202|184406100|OTHER||Ratio of GMT|1.32|||||TWO_SIDED|95.0|0.82|2.12|||t-test, 2 sided|||Serotype 18C, Day 30||2.12|0.82|
92252281|NCT03803202|184406100|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.7|1.37|||t-test, 2 sided|||Serotype 19A, Day 30||1.37|0.70|
92252282|NCT03803202|184406100|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.71|1.37|||t-test, 2 sided|||Serotype 19A, Day 30||1.37|0.71|
92252283|NCT03803202|184406100|OTHER||Ratio of GMT|1.14|||||TWO_SIDED|95.0|0.78|1.67|||t-test, 2 sided|||Serotype 19A, Day 30||1.67|0.78|
92252284|NCT03803202|184406100|OTHER||Ratio of GMT|1.52||||||95.0|0.99|2.32|||t-test, 2 sided|||Serotype 19F, Day 30||2.32|0.99|
92252285|NCT03803202|184406100|OTHER||Ratio of GMT|1.48|||||TWO_SIDED|95.0|1.0|2.18|||t-test, 2 sided|||Serotype 19F, Day 30||2.18|1.00|
92252286|NCT03803202|184406100|OTHER||Ratio of GMT|2.08|||||TWO_SIDED|95.0|1.35|3.22|||t-test, 2 sided|||Serotype 19F, Day 30||3.22|1.35|
92252287|NCT03803202|184406100|OTHER||Ratio of GMT|0.67|||||TWO_SIDED|95.0|0.36|1.26|||t-test, 2 sided|||Serotype 23F, Day 30||1.26|0.36|
92252288|NCT03803202|184406100|OTHER||Ratio of GMT|0.71|||||TWO_SIDED|95.0|0.4|1.26|||t-test, 2 sided|||Serotype 23F, Day 30||1.26|0.40|
92252289|NCT03803202|184406100|OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.47|1.73|||t-test, 2 sided|||Serotype 23F, Day 30||1.73|0.47|
92252290|NCT03803202|184406101|OTHER||Ratio of GMC|0.9|||||TWO_SIDED|95.0|0.57|1.42|||t-test, 2 sided|||Serotype 1, Day 1||1.42|0.57|
92252291|NCT03803202|184406101|OTHER||Ratio of GMC|1.85|||||TWO_SIDED|95.0|1.12|3.08|||t-test, 2 sided|||Serotype 1, Day 1||3.08|1.12|
92252292|NCT03803202|184406101|OTHER||Ratio of GMC|0.88|||||TWO_SIDED|95.0|0.53|1.49|||t-test, 2 sided|||Serotype 1, Day 1||1.49|0.53|
92252293|NCT03803202|184406101|OTHER||Ratio of GMC|1.25|||||TWO_SIDED|95.0|0.84|1.87|||t-test, 2 sided|||Serotype 3, Day 1||1.87|0.84|
92252294|NCT03803202|184406101|OTHER||Ratio of GMC|1.79|||||TWO_SIDED|95.0|1.18|2.73|||t-test, 2 sided|||Serotype 3, Day 1||2.73|1.18|
92252295|NCT03803202|184406101|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.69|1.69|||t-test, 2 sided|||Serotype 3, Day 1||1.69|0.69|
92252296|NCT03803202|184406101|OTHER||Ratio of GMC|0.81|||||TWO_SIDED|95.0|0.54|1.21|||t-test, 2 sided|||Serotype 4, Day 1||1.21|0.54|
92252297|NCT03803202|184406101|OTHER||Ratio of GMC|1.16|||||TWO_SIDED|95.0|0.74|1.81|||t-test, 2 sided|||Serotype 4, Day 1||1.81|0.74|
92252298|NCT03803202|184406101|OTHER||Ratio of GMC|0.67|||||TWO_SIDED|95.0|0.44|1.0|||t-test, 2 sided|||Serotype 4, Day 1||1.00|0.44|
92252299|NCT03803202|184406101|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.65|1.78|||t-test, 2 sided|||Serotype 5, Day 1||1.78|0.65|
92252300|NCT03803202|184406101|OTHER||Ratio of GMC|1.59|||||TWO_SIDED|95.0|0.96|2.63|||t-test, 2 sided|||Serotype 5, Day 1||2.63|0.96|
92252301|NCT03803202|184406101|OTHER||Ratio of GMC|1.0|||||TWO_SIDED|95.0|0.58|1.72|||t-test, 2 sided|||Serotype 5, Day 1||1.72|0.58|
92252302|NCT03803202|184406101|OTHER||Ratio of GMC|0.88|||||TWO_SIDED|95.0|0.53|1.47|||t-test, 2 sided|||Serotype 6A, Day 1||1.47|0.53|
92252303|NCT03803202|184406101|OTHER||Ratio of GMC|1.39|||||TWO_SIDED|95.0|0.83|2.3|||t-test, 2 sided|||Serotype 6A, Day 1||2.30|0.83|
92252304|NCT03803202|184406101|OTHER||Ratio of GMC|1.4|||||TWO_SIDED|95.0|0.8|2.44|||t-test, 2 sided|||Serotype 6A, Day 1||2.44|0.80|
92252305|NCT03803202|184406101|OTHER||Ratio of GMC|1.17|||||TWO_SIDED|95.0|0.69|1.99|||t-test, 2 sided|||Serotype 6B, Day 1||1.99|0.69|
92283504|NCT05150964|184470678|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null Hypothesis: The ASG setting will have no effect on the Word Recognition Scores."||||<0.05
92283505|NCT05150964|184470678|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null Hypothesis: The presentation level will have no effect on the Word Recognition Scores."||||<0.05
92252306|NCT03803202|184406101|OTHER||Ratio of GMC|2.09|||||TWO_SIDED|95.0|1.19|3.67|||t-test, 2 sided|||Serotype 6B, Day 1||3.67|1.19|
92252307|NCT03803202|184406101|OTHER||Ratio of GMC|1.59|||||TWO_SIDED|95.0|0.88|2.88|||t-test, 2 sided|||Serotype 6B, Day 1||2.88|0.88|
92252308|NCT03803202|184406101|OTHER||Ratio of GMC|1.01|||||TWO_SIDED|95.0|0.62|1.65|||t-test, 2 sided|||Serotype 7F, Day 1||1.65|0.62|
92252309|NCT03803202|184406101|OTHER||Ratio of GMC|1.58|||||TWO_SIDED|95.0|0.94|2.67|||t-test, 2 sided|||Serotype 7F, Day 1||2.67|0.94|
92252310|NCT03803202|184406101|OTHER||Ratio of GMC|0.9|||||TWO_SIDED|95.0|0.5|1.64|||t-test, 2 sided|||Serotype 7F, Day 1||1.64|0.50|
92252311|NCT03803202|184406101|OTHER||Ratio of GMC|0.79|||||TWO_SIDED|95.0|0.52|1.21|||t-test, 2 sided|||Serotype 9V, Day 1||1.21|0.52|
92252312|NCT03803202|184406101|OTHER||Ratio of GMC|1.57|||||TWO_SIDED|95.0|0.97|2.54|||t-test, 2 sided|||Serotype 9V, Day 1||2.54|0.97|
92252313|NCT03803202|184406101|OTHER||Ratio of GMC|0.99|||||TWO_SIDED|95.0|0.6|1.6|||t-test, 2 sided|||Serotype 9V, Day 1||1.60|0.60|
92252314|NCT03803202|184406101|OTHER||Ratio of GMC|0.73|||||TWO_SIDED|95.0|0.4|1.33|||t-test, 2 sided|||Serotype 14, Day 1||1.33|0.40|
92252315|NCT03803202|184406101|OTHER||Ratio of GMC|1.33|||||TWO_SIDED|95.0|0.73|2.44|||t-test, 2 sided|||Serotype 14, Day 1||2.44|0.73|
92252316|NCT03803202|184406101|OTHER||Ratio of GMC|0.87|||||TWO_SIDED|95.0|0.46|1.63|||t-test, 2 sided|||Serotype 14, Day 1||1.63|0.46|
92252317|NCT03803202|184406101|OTHER||Ratio of GMC|0.69|||||TWO_SIDED|95.0|0.42|1.12|||t-test, 2 sided|||Serotype 18C, Day 1||1.12|0.42|
92252318|NCT03803202|184406101|OTHER||Ratio of GMC|1.53|||||TWO_SIDED|95.0|0.92|2.55|||t-test, 2 sided|||Serotype 18C, Day 1||2.55|0.92|
92252319|NCT03803202|184406101|OTHER||Ratio of GMC|0.78|||||TWO_SIDED|95.0|0.44|1.37|||t-test, 2 sided|||Serotype 18C, Day 1||1.37|0.44|
92252320|NCT03803202|184406101|OTHER||Ratio of GMC|0.82|||||TWO_SIDED|95.0|0.54|1.25|||t-test, 2 sided|||Serotype 19A, Day 1||1.25|0.54|
92252321|NCT03803202|184406101|OTHER||Ratio of GMC|1.34|||||TWO_SIDED|95.0|0.84|2.12|||t-test, 2 sided|||Serotype 19A, Day 1||2.12|0.84|
92252322|NCT03803202|184406101|OTHER||Ratio of GMC|1.05|||||TWO_SIDED|95.0|0.66|1.66|||t-test, 2 sided|||Serotype 19A, Day 1||1.66|0.66|
92252323|NCT03803202|184406101|OTHER||Ratio of GMC|0.83|||||TWO_SIDED|95.0|0.51|1.37|||t-test, 2 sided|||Serotype 19F, Day 1||1.37|0.51|
92252324|NCT03803202|184406101|OTHER||Ratio of GMC|1.26|||||TWO_SIDED|95.0|0.75|2.11|||t-test, 2 sided|||Serotype 19F, Day 1||2.11|0.75|
92252325|NCT03803202|184406101|OTHER||Ratio of GMC|0.99|||||TWO_SIDED|95.0|0.57|1.72|||t-test, 2 sided|||Serotype 19F, Day 1||1.72|0.57|
92252326|NCT03803202|184406101|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.63|1.86|||t-test, 2 sided|||Serotype 23F, Day 1||1.86|0.63|
92252327|NCT03803202|184406101|OTHER||Ratio of GMC|1.19|||||TWO_SIDED|95.0|0.69|2.08|||t-test, 2 sided|||Serotype 23F, Day 1||2.08|0.69|
92252328|NCT03803202|184406101|OTHER||Ratio of GMC|1.19|||||TWO_SIDED|95.0|0.67|2.14|||t-test, 2 sided|||Serotype 23F, Day 1||2.14|0.67|
92252329|NCT03803202|184406101|OTHER||Ratio of GMC|0.82|||||TWO_SIDED|95.0|0.52|1.29|||t-test, 2 sided|||Serotype 1, Day 30||1.29|0.52|
92252330|NCT03803202|184406101|OTHER||Ratio of GMC|1.04|||||TWO_SIDED|95.0|0.68|1.59|||t-test, 2 sided|||Serotype 1, Day 30||1.59|0.68|
92252331|NCT03803202|184406101|OTHER||Ratio of GMC|1.17|||||TWO_SIDED|95.0|0.76|1.8|||t-test, 2 sided|||Serotype 1, Day 30||1.80|0.76|
92252332|NCT03803202|184406101|OTHER||Ratio of GMC|2.07|||||TWO_SIDED|95.0|1.42|3.01|||t-test, 2 sided|||Serotype 3, Day 30||3.01|1.42|
92252333|NCT03803202|184406101|OTHER||Ratio of GMC|3.29|||||TWO_SIDED|95.0|2.37|4.58|||t-test, 2 sided|||Serotype 3, Day 30||4.58|2.37|
92252334|NCT03803202|184406101|OTHER||Ratio of GMC|4.05|||||TWO_SIDED|95.0|2.83|5.79|||t-test, 2 sided|||Serotype 3, Day 30||5.79|2.83|
92252335|NCT03803202|184406101|OTHER||Ratio of GMC|0.79|||||TWO_SIDED|95.0|0.49|1.27|||t-test, 2 sided|||Serotype 4, Day 30||1.27|0.49|
92252336|NCT03803202|184406101|OTHER||Ratio of GMC|0.97|||||TWO_SIDED|95.0|0.63|1.48|||t-test, 2 sided|||Serotype 4, Day 30||1.48|0.63|
92252337|NCT03803202|184406101|OTHER||Ratio of GMC|1.05|||||TWO_SIDED|95.0|0.66|1.65|||t-test, 2 sided|||Serotype 4, Day 30||1.65|0.66|
92252338|NCT03803202|184406101|OTHER||Ratio of GMC|1.31|||||TWO_SIDED|95.0|0.75|2.29|||t-test, 2 sided|||Serotype 5, Day 30||2.29|0.75|
92252339|NCT03803202|184406101|OTHER||Ratio of GMC|1.3|||||TWO_SIDED|95.0|0.77|2.19|||t-test, 2 sided|||Serotype 5, Day 30||2.19|0.77|
92252340|NCT03803202|184406101|OTHER||Ratio of GMC|1.91|||||TWO_SIDED|95.0|1.08|3.37|||t-test, 2 sided|||Serotype 5, Day 30||3.37|1.08|
92252341|NCT03803202|184406101|OTHER||Ratio of GMC|0.86|||||TWO_SIDED|95.0|0.5|1.49|||t-test, 2 sided|||Serotype 6A, Day 30||1.49|0.50|
92283506|NCT05150964|184470678|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null Hypothesis: Hearing aid prescription will have no effect on the Word Recognition Scores."||||<0.05
92252342|NCT03803202|184406101|OTHER||Ratio of GMC|1.06|||||TWO_SIDED|95.0|0.65|1.72|||t-test, 2 sided|||Serotype 6A, Day 30||1.72|0.65|
92252343|NCT03803202|184406101|OTHER||Ratio of GMC|1.22|||||TWO_SIDED|95.0|0.71|2.1|||t-test, 2 sided|||Serotype 6A, Day 30||2.10|0.71|
92252344|NCT03803202|184406101|OTHER||Ratio of GMC|0.99|||||TWO_SIDED|95.0|0.56|1.75|||t-test, 2 sided|||Serotype 6B, Day 30||1.75|0.56|
92252345|NCT03803202|184406101|OTHER||Ratio of GMC|1.44|||||TWO_SIDED|95.0|0.84|2.47|||t-test, 2 sided|||Serotype 6B, Day 30||2.47|0.84|
92252346|NCT03803202|184406101|OTHER||Ratio of GMC|1.77|||||TWO_SIDED|95.0|1.0|3.15|||t-test, 2 sided|||Serotype 6B, Day 30||3.15|1.00|
92252347|NCT03803202|184406101|OTHER||Ratio of GMC|1.54|||||TWO_SIDED|95.0|1.02|2.3|||t-test, 2 sided|||Serotype 7F, Day 30||2.30|1.02|
92252348|NCT03803202|184406101|OTHER||Ratio of GMC|1.55|||||TWO_SIDED|95.0|1.06|2.26|||t-test, 2 sided|||Serotype 7F, Day 30||2.26|1.06|
92252349|NCT03803202|184406101|OTHER||Ratio of GMC|1.66|||||TWO_SIDED|95.0|1.09|2.53|||t-test, 2 sided|||Serotype 7F, Day 30||2.53|1.09|
92252350|NCT03803202|184406101|OTHER||Ratio of GMC|1.29|||||TWO_SIDED|95.0|0.81|2.07|||t-test, 2 sided|||Serotype 9V, Day 30||2.07|0.81|
92252351|NCT03803202|184406101|OTHER||Ratio of GMC|1.64|||||TWO_SIDED|95.0|1.04|2.57|||t-test, 2 sided|||Serotype 9V, Day 30||2.57|1.04|
92252352|NCT03803202|184406101|OTHER||Ratio of GMC|2.16|||||TWO_SIDED|95.0|1.35|3.47|||t-test, 2 sided|||Serotype 9V, Day 30||3.47|1.35|
92252353|NCT03803202|184406101|OTHER||Ratio of GMC|0.99|||||TWO_SIDED|95.0|0.58|1.68|||t-test, 2 sided|||Serotype 14, Day 30||1.68|0.58|
92252354|NCT03803202|184406101|OTHER||Ratio of GMC|1.26|||||TWO_SIDED|95.0|0.77|2.05|||t-test, 2 sided|||Serotype 14, Day 30||2.05|0.77|
92252355|NCT03803202|184406101|OTHER||Ratio of GMC|1.67|||||TWO_SIDED|95.0|0.99|2.81|||t-test, 2 sided|||Serotype 14, Day 30||2.81|0.99|
92252356|NCT03803202|184406101|OTHER||Ratio of GMC|0.61|||||TWO_SIDED|95.0|0.39|0.95|||t-test, 2 sided|||Serotype 18C, Day 30||0.95|0.39|
92176770|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|0.038||||0.9294|TWO_SIDED|95.0|-0.795|0.87|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||0.870|-0.795|0.9294
92252357|NCT03803202|184406101|OTHER||Ratio of GMC|1.04|||||TWO_SIDED|95.0|0.7|1.54|||t-test, 2 sided|||Serotype 18C, Day 30||1.54|0.70|
92252358|NCT03803202|184406101|OTHER||Ratio of GMC|1.03|||||TWO_SIDED|95.0|0.67|1.57|||t-test, 2 sided|||Serotype 18C, Day 30||1.57|0.67|
92252359|NCT03803202|184406101|OTHER||Ratio of GMC|0.83|||||TWO_SIDED|95.0|0.56|1.25|||t-test, 2 sided|||Serotype 19A, Day 30||1.25|0.56|
92252360|NCT03803202|184406101|OTHER||Ratio of GMC|1.07|||||TWO_SIDED|95.0|0.75|1.52|||t-test, 2 sided|||Serotype 19A, Day 30||1.52|0.75|
92252361|NCT03803202|184406101|OTHER||Ratio of GMC|1.2|||||TWO_SIDED|95.0|0.77|1.86|||t-test, 2 sided|||Serotype 19A, Day 30||1.86|0.77|
92252362|NCT03803202|184406101|OTHER||Ratio of GMC|1.2|||||TWO_SIDED|95.0|0.76|1.9|||t-test, 2 sided|||Serotype 19F, Day 30||1.90|0.76|
92252363|NCT03803202|184406101|OTHER||Ratio of GMC|1.69|||||TWO_SIDED|95.0|1.11|2.58|||t-test, 2 sided|||Serotype 19F, Day 30||2.58|1.11|
92252364|NCT03803202|184406101|OTHER||Ratio of GMC|2.23|||||TWO_SIDED|95.0|1.41|3.52|||t-test, 2 sided|||Serotype 19F, Day 30||3.52|1.41|
92252365|NCT03803202|184406101|OTHER||Ratio of GMC|0.86|||||TWO_SIDED|95.0|0.5|1.47|||t-test, 2 sided|||Serotype 23F, Day 30||1.47|0.50|
92252366|NCT03803202|184406101|OTHER||Ratio of GMC|0.83|||||TWO_SIDED|95.0|0.51|1.35|||t-test, 2 sided|||Serotype 23F, Day 30||1.35|0.51|
92252367|NCT03803202|184406101|OTHER||Ratio of GMC|1.18|||||TWO_SIDED|95.0|0.69|2.02|||t-test, 2 sided|||Serotype 23F, Day 30||2.02|0.69|
92252368|NCT03803202|184406104|OTHER||Mean Difference|0.1||||0.805|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||Serotype 1, Day 30||0.5|-0.4|0.805
92252369|NCT03803202|184406104|OTHER||Mean Difference|0.4||||0.102|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 1, Day 30||0.9|-0.1|0.102
92252370|NCT03803202|184406104|OTHER||Mean Difference|0.4||||0.158|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 1, Day 30||0.9|-0.1|0.158
92252371|NCT03803202|184406104|OTHER||Mean Difference|-0.1||||0.596|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||Serotype 2, Day 30||0.2|-0.4|0.596
92252372|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.025|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Serotype 2, Day 30||0.7|0.0|0.025
92176771|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.277||||0.529|TWO_SIDED|95.0|-0.587|1.142|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||1.142|-0.587|0.5290
92176772|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-0.508||||0.2291|TWO_SIDED|95.0|-1.337|0.321|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||0.321|-1.337|0.2291
92176773|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.525||||0.2179|TWO_SIDED|95.0|-0.311|1.361|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||1.361|-0.311|0.2179
92176774|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.401||||0.2002|TWO_SIDED|95.0|-0.213|1.016|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||1.016|-0.213|0.2002
92176775|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-0.29||||0.476|TWO_SIDED|95.0|-1.089|0.509|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||0.509|-1.089|0.4760
92176776|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-0.699||||0.0914|TWO_SIDED|95.0|-1.512|0.113|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||0.113|-1.512|0.0914
92176777|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|0.328||||0.9705|TWO_SIDED|95.0|-1.122|1.777|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||1.777|-1.122|0.9705
92252373|NCT03803202|184406104|OTHER||Mean Difference|0.4||||0.005|TWO_SIDED|95.0|0.1|0.7|||ANCOVA|||Serotype 2, Day 30||0.7|0.1|0.005
92252374|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.037|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Serotype 3, Day 30||0.7|0.0|0.037
92176778|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.977||||0.328|TWO_SIDED|95.0|-0.512|2.465|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||2.465|-0.512|0.3280
92176779|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-0.218||||0.9951|TWO_SIDED|95.0|-1.667|1.23|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||1.230|-1.667|0.9951
92176780|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.225||||0.1367|TWO_SIDED|95.0|-0.244|2.693|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||2.693|-0.244|0.1367
92176781|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.101||||0.0294|TWO_SIDED|95.0|0.111|2.091|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||2.091|0.111|0.0294
92176782|NCT04800211|184247061|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-0.248||||0.6792|TWO_SIDED|95.0|-1.424|0.928|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||0.928|-1.424|0.6792
92182748|NCT02831816|184264657|SUPERIORITY||Mean Difference (Final Values)|1.97|||||TWO_SIDED|95.0|1.7|2.25||||||Abdomen 10 minutes Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.25|1.70|
92182749|NCT02609048|184264675|SUPERIORITY||Difference in LSM|-60.99|STANDARD_ERROR_OF_MEAN|5.814|<|0.0001|TWO_SIDED|95.0|-72.85|-49.13||Difference in mean,p-value, and CIs estimated by comparing Seladelpar level with placebo by ANCOVA model.Treatment group as factor,baseline AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||-49.13|-72.85|<0.0001
92252375|NCT03803202|184406104|OTHER||Mean Difference|0.6||||0.002|TWO_SIDED|95.0|0.2|0.9|||ANCOVA|||Serotype 3, Day 30||0.9|0.2|0.002
92252376|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.23|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 3, Day 30||0.6|-0.1|0.230
92252377|NCT03803202|184406104|OTHER||Mean Difference|0.0||||0.984|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Serotype 4, Day 30||0.4|-0.4|0.984
92252378|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.262|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 4, Day 30||0.6|-0.2|0.262
92252379|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.264|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 4, Day 30||0.6|-0.2|0.264
92252380|NCT03803202|184406104|OTHER||Mean Difference|0.1||||0.638|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||Serotype 5, Day 30||0.6|-0.4|0.638
92252381|NCT03803202|184406104|OTHER||Mean Difference|0.5||||0.036|TWO_SIDED|95.0|0.0|1.0|||ANCOVA|||Serotype 5, Day 30||1.0|0.0|0.036
92252382|NCT03803202|184406104|OTHER||Mean Difference|0.4||||0.094|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 5, Day 30||0.9|-0.1|0.094
92252383|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.266|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Serotype 6A, Day 30||0.8|-0.2|0.266
92252384|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.25|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Serotype 6A, Day 30||0.8|-0.2|0.250
92252385|NCT03803202|184406104|OTHER||Mean Difference|0.0||||0.927|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Serotype 6A, Day 30||0.5|-0.5|0.927
92252386|NCT03803202|184406104|OTHER||Mean Difference|-0.1||||0.679|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Serotype 6B, Day 30||0.3|-0.5|0.679
92182750|NCT02609048|184264675|SUPERIORITY||Difference in Least Squares Mean (LSM)|-51.37|STANDARD_ERROR_OF_MEAN|5.849|<|0.0001|TWO_SIDED|95.0|-63.3|-39.44||Difference in mean,p-value, and confidence intervals (CIs) estimated by comparing Seladelpar level with placebo by ANCOVA model.Treatment group as factor,baseline AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||-39.44|-63.30|<0.0001
92252387|NCT03803202|184406104|OTHER||Mean Difference|-0.1||||0.589|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Serotype 6B, Day 30||0.3|-0.6|0.589
92252388|NCT03803202|184406104|OTHER||Mean Difference|0.0||||0.88|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||Serotype 6B, Day 30||0.4|-0.5|0.880
92252389|NCT03803202|184406104|OTHER||Mean Difference|0.1||||0.623|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|||Serotype 7F, Day 30||0.4|-0.2|0.623
92252390|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.232|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 7F, Day 30||0.6|-0.1|0.232
92252391|NCT03803202|184406104|OTHER||Mean Difference|0.1||||0.451|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Serotype 7F, Day 30||0.5|-0.2|0.451
92252392|NCT03803202|184406104|OTHER||Mean Difference|0.0||||0.785|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 8, Day 30||0.4|-0.3|0.785
92252393|NCT03803202|184406104|OTHER||Mean Difference|0.8|||<|0.001|TWO_SIDED|95.0|0.4|1.1|||ANCOVA|||Serotype 8, Day 30||1.1|0.4|<.001
92252394|NCT03803202|184406104|OTHER||Mean Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.4|1.1|||ANCOVA|||Serotype 8, Day 30||1.1|0.4|<.001
92252395|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.146|TWO_SIDED|95.0|-0.1|0.5|||ANCOVA|||Serotype 9N, Day 30||0.5|-0.1|0.146
92252396|NCT03803202|184406104|OTHER||Mean Difference|0.5||||0.003|TWO_SIDED|95.0|0.2|0.8|||ANCOVA|||Serotype 9N, Day 30||0.8|0.2|0.003
92252397|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.113|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 9N, Day 30||0.6|-0.1|0.113
92252398|NCT03803202|184406104|OTHER||Mean Difference|-0.2||||0.453|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Serotype 9V, Day 30||0.3|-0.6|0.453
92252399|NCT03803202|184406104|OTHER||Mean Difference|0.4||||0.111|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 9V, Day 30||0.8|-0.1|0.111
92252400|NCT03803202|184406104|OTHER||Mean Difference|0.5||||0.02|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|||Serotype 9V, Day 30||1.0|0.1|0.020
92252401|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.218|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Serotype 10A, Day 30||0.8|-0.2|0.218
92252402|NCT03803202|184406104|OTHER||Mean Difference|0.4||||0.125|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 10A, Day 30||0.9|-0.1|0.125
92252403|NCT03803202|184406104|OTHER||Mean Difference|0.1||||0.706|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||Serotype 10A, Day 30||0.6|-0.4|0.706
92252404|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.246|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 11A, Day 30||0.6|-0.1|0.246
92176783|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.638||||0.4012|TWO_SIDED|95.0|-0.86|2.137|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||2.137|-0.860|0.4012
92176784|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.163||||0.0201|TWO_SIDED|95.0|0.343|3.983|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.983|0.343|0.0201
92176785|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.21||||0.1709|TWO_SIDED|95.0|-0.528|2.948|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||2.948|-0.528|0.1709
92176786|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.593||||0.0307|TWO_SIDED|95.0|0.15|3.035|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.035|0.150|0.0307
92176787|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.588||||0.0691|TWO_SIDED|95.0|-0.126|3.302|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.302|-0.126|0.0691
92182751|NCT02609048|184264675|SUPERIORITY||Difference in Least Squares Mean (LSM)|-9.62|STANDARD_ERROR_OF_MEAN|5.963||0.1167|TWO_SIDED|95.0|-21.79|2.54||Difference in mean,p-value, and CIs estimated by comparing Seladelpar 200 mg versus 50 mg by ANCOVA model.Treatment group as factor,baseline AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||2.54|-21.79|0.1167
92182752|NCT02609048|184264676|SUPERIORITY||||||<|0.0001||||||The p-values were calculated from Fisher's exact test comparing each Seladelpar group with Placebo separately.|Fisher Exact|||||||<0.0001
92182753|NCT02609048|184264676|SUPERIORITY|||||||0.0036||||||The p-values were calculated from Fisher's exact test comparing each Seladelpar group with Placebo separately.|Fisher Exact|||||||0.0036
92182754|NCT02609048|184264676|SUPERIORITY|||||||0.1045||||||The p-values were calculated from Fisher's exact test comparing Seladelpar 200mg versus 50 mg.|Fisher Exact|||||||0.1045
92252405|NCT03803202|184406104|OTHER||Mean Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.3|1.1|||ANCOVA|||Serotype 11A, Day 30||1.1|0.3|<.001
92252406|NCT03803202|184406104|OTHER||Mean Difference|0.5||||0.01|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Serotype 11A, Day 30||0.9|0.1|0.010
92252407|NCT03803202|184406104|OTHER||Mean Difference|-0.3||||0.26|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Serotype 12F, Day 30||0.2|-0.7|0.260
92252408|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.366|TWO_SIDED|95.0|-0.3|0.7|||ANCOVA|||Serotype 12F, Day 30||0.7|-0.3|0.366
92283507|NCT05150964|184470679|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Presentation level will have no effect on multi-word recognition scores."||||<0.05
92283508|NCT05150964|184470679|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: The ASG setting will have no effect on multi-word recognition scores."||||>0.05
92252409|NCT03803202|184406104|OTHER||Mean Difference|0.5||||0.046|TWO_SIDED|95.0|0.0|1.0|||ANCOVA|||Serotype 12F, Day 30||1.0|0.0|0.046
92252410|NCT03803202|184406104|OTHER||Mean Difference|-0.4||||0.101|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||Serotype 14, Day 30||0.1|-0.8|0.101
92252411|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.522||95.0|-0.3|0.6|||ANCOVA|||Serotype 14, Day 30||0.6|-0.3|0.522
92252412|NCT03803202|184406104|OTHER||Mean Difference|0.5||||0.026|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|||Serotype 14, Day 30||1.0|0.1|0.026
92252413|NCT03803202|184406104|OTHER||Mean Difference|-0.2||||0.236|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Serotype 15B, Day 30||0.2|-0.6|0.236
92252414|NCT03803202|184406104|OTHER||Mean Difference|0.1||||0.528|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 15B, Day 30||0.5|-0.3|0.528
92252415|NCT03803202|184406104|OTHER||Mean Difference|0.4||||0.081|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Serotype 15B, Day 30||0.8|0.0|0.081
92252416|NCT03803202|184406104|OTHER||Mean Difference|-0.1||||0.388|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Serotype 17F, Day 30||0.2|-0.5|0.388
92252417|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.151|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 17F, Day 30||0.6|-0.1|0.151
92252418|NCT03803202|184406104|OTHER||Mean Difference|0.4||||0.024|TWO_SIDED|95.0|0.1|0.7|||ANCOVA|||Serotype 17F, Day 30||0.7|0.1|0.024
92252419|NCT03803202|184406104|OTHER||Mean Difference|0.1||||0.476|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 18C, Day 30||0.5|-0.3|0.476
92252420|NCT03803202|184406104|OTHER||Mean Difference|0.4||||0.077|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Serotype 18C, Day 30||0.8|0.0|0.077
92252421|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.262|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 18C, Day 30||0.6|-0.2|0.262
92252422|NCT03803202|184406104|OTHER||Mean Difference|0.0||||0.767|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 19A, Day 30||0.4|-0.3|0.767
92252423|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.364|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Serotype 19A, Day 30||0.5|-0.2|0.364
92252424|NCT03803202|184406104|OTHER||Mean Difference|0.1||||0.522|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Serotype 19A, Day 30||0.5|-0.2|0.522
92252425|NCT03803202|184406104|OTHER||Mean Difference|0.0||||0.962|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Serotype 19F, Day 30||0.4|-0.4|0.962
92252426|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.091|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 19F, Day 30||0.7|-0.1|0.091
92252427|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.093|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 19F, Day 30||0.7|-0.1|0.093
92252428|NCT03803202|184406104|OTHER||Mean Difference|-0.2||||0.455|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Serotype 20B, Day 30||0.3|-0.6|0.455
92252429|NCT03803202|184406104|OTHER||Mean Difference|0.4||||0.093|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 20B, Day 30||0.9|-0.1|0.093
92252430|NCT03803202|184406104|OTHER||Mean Difference|0.6||||0.017|TWO_SIDED|95.0|0.1|1.1|||ANCOVA|||Serotype 20B, Day 30||1.1|0.1|0.017
92252431|NCT03803202|184406104|OTHER||Mean Difference|-0.1||||0.561|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Serotype 22F, Day 30||0.3|-0.5|0.561
92252432|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.343|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 22F, Day 30||0.6|-0.2|0.343
92252433|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.132|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 22F, Day 30||0.7|-0.1|0.132
92283509|NCT05150964|184470679|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Hearing aid prescription will have no effect on multi-word recognition scores."||||>0.05
92182755|NCT02609048|184264677|SUPERIORITY||Difference in LSM|234.71|STANDARD_ERROR_OF_MEAN|104.647||0.0322|TWO_SIDED|95.0|21.28|448.14||Difference between means, p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline AST assessment as covariate,and percent change from baseline in AST as response variable.|ANCOVA|||||448.14|21.28|0.0322
92252434|NCT03803202|184406104|OTHER||Mean Difference|0.0||||0.898|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||Serotype 23F, Day 30||0.6|-0.5|0.898
92252435|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.313|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||Serotype 23F, Day 30||0.9|-0.3|0.313
92252436|NCT03803202|184406104|OTHER||Mean Difference|0.3||||0.366|TWO_SIDED|95.0|-0.3|0.8|||ANCOVA|||Serotype 23F, Day 30||0.8|-0.3|0.366
92252437|NCT03803202|184406104|OTHER||Mean Difference|0.0||||0.961|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Serotype 33F, Day 30||0.4|-0.4|0.961
92182756|NCT02609048|184264677|SUPERIORITY||Difference in LSM|132.82|STANDARD_ERROR_OF_MEAN|96.015||0.1764|TWO_SIDED|95.0|-63.0|328.65||Difference between means, p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline AST assessment as covariate,and percent change from baseline in AST as response variable.|ANCOVA|||||328.65|-63.00|0.1764
92252438|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.269|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 33F, Day 30||0.6|-0.2|0.269
92252439|NCT03803202|184406104|OTHER||Mean Difference|0.2||||0.245|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 33F, Day 30||0.6|-0.2|0.245
92252440|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.213|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 1, Day 30||0.7|-0.1|0.213
92252441|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.097|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 1, Day 30||0.8|-0.1|0.097
92252442|NCT03803202|184406105|OTHER||Mean Difference|0.1||||0.631|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 1, Day 30||0.5|-0.3|0.631
92252443|NCT03803202|184406105|OTHER||Mean Difference|0.1||||0.699|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 2, Day 30||0.4|-0.3|0.699
92252444|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.042|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Serotype 2, Day 30||0.7|0.0|0.042
92252445|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.092|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 2, Day 30||0.7|-0.1|0.092
92252446|NCT03803202|184406105|OTHER||Mean Difference|0.5||||0.007|TWO_SIDED|95.0|0.1|0.8|||ANCOVA|||Serotype 3, Day 30||0.8|0.1|0.007
92252447|NCT03803202|184406105|OTHER||Mean Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.3|1.0|||ANCOVA|||Serotype 3, Day 30||1.0|0.3|<.001
92252448|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.237|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 3, Day 30||0.6|-0.1|0.237
92252449|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.248|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 4, Day 30||0.6|-0.2|0.248
92252450|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.193|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 4, Day 30||0.7|-0.1|0.193
92252451|NCT03803202|184406105|OTHER||Mean Difference|0.0||||0.838|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||Serotype 4, Day 30||0.5|-0.4|0.838
92252452|NCT03803202|184406105|OTHER||Mean Difference|0.0||||0.898|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||Serotype 5, Day 30||0.4|-0.5|0.898
92252453|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.143|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 5, Day 30||0.9|-0.1|0.143
92252454|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.108|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 5, Day 30||0.9|-0.1|0.108
92252455|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.396|TWO_SIDED|95.0|-0.3|0.7|||ANCOVA|||Serotype 6A, Day 30||0.7|-0.3|0.396
92252456|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.182|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|||Serotype 6A, Day 30||0.9|-0.2|0.182
92252457|NCT03803202|184406105|OTHER||Mean Difference|0.1||||0.593|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||Serotype 6A, Day 30||0.6|-0.4|0.593
92252458|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.186|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|||Serotype 6B, Day 30||0.9|-0.2|0.186
92252459|NCT03803202|184406105|OTHER||Mean Difference|0.6||||0.038|TWO_SIDED|95.0|0.0|1.1|||ANCOVA|||Serotype 6B, Day 30||1.1|0.0|0.038
92252460|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.408|TWO_SIDED|95.0|-0.3|0.8|||ANCOVA|||Serotype 6B, Day 30||0.8|-0.3|0.408
92252461|NCT03803202|184406105|OTHER||Mean Difference|0.1||||0.805|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 7F, Day 30||0.4|-0.3|0.805
92252462|NCT03803202|184406105|OTHER||Mean Difference|0.1||||0.711|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 7F, Day 30||0.5|-0.3|0.711
92252463|NCT03803202|184406105|OTHER||Mean Difference|0.0||||0.891|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Serotype 7F, Day 30||0.4|-0.4|0.891
92252464|NCT03803202|184406105|OTHER||Mean Difference|0.1||||0.649|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 8, Day 30||0.4|-0.3|0.649
92252465|NCT03803202|184406105|OTHER||Mean Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.3|1.0|||ANCOVA|||Serotype 8, Day 30||1.0|0.3|<.001
92252466|NCT03803202|184406105|OTHER||Mean Difference|0.6|||<|0.001|TWO_SIDED|95.0|0.3|0.9|||ANCOVA|||Serotype 8, Day 30||0.9|0.3|<.001
92252467|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.454|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Serotype 9N, Day 30||0.5|-0.2|0.454
92176788|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.487||||0.0034|TWO_SIDED|95.0|0.838|4.137|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||4.137|0.838|0.0034
92176789|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.849||||0.0034|TWO_SIDED|95.0|0.622|3.075|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.075|0.622|0.0034
92182757|NCT02609048|184264677|SUPERIORITY||Difference in LSM|101.88|STANDARD_ERROR_OF_MEAN|103.504||0.3326|TWO_SIDED|95.0|-109.21|312.98||Difference between means, p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor, baseline AST assessment as covariate, and percent change from baseline in AST as response variable.|ANCOVA|||||312.98|-109.21|0.3326
92252468|NCT03803202|184406105|OTHER||Mean Difference|0.6||||0.003|TWO_SIDED|95.0|0.2|1.0|||ANCOVA|||Serotype 9N, Day 30||1.0|0.2|0.003
92252469|NCT03803202|184406105|OTHER||Mean Difference|0.5||||0.021|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Serotype 9N, Day 30||0.9|0.1|0.021
92252470|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.205|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 9V, Day 30||0.6|-0.1|0.205
92252471|NCT03803202|184406105|OTHER||Mean Difference|0.5||||0.015|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Serotype 9V, Day 30||0.9|0.1|0.015
92252472|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.209|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 9V, Day 30||0.7|-0.1|0.209
92283510|NCT05150964|184470680|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Presentation level will have no effect on Nonword Detection scores."||||<0.05
92252473|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.502|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||Serotype 10A, Day 30||0.6|-0.3|0.502
92252474|NCT03803202|184406105|OTHER||Mean Difference|0.5||||0.054|TWO_SIDED|95.0|0.0|1.0|||ANCOVA|||Serotype 10A, Day 30||1.0|0.0|0.054
92252475|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.19|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Serotype 10A, Day 30||0.8|-0.2|0.190
92252476|NCT03803202|184406105|OTHER||Mean Difference|0.1||||0.616|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 11A, Day 30||0.4|-0.3|0.616
92283511|NCT05150964|184470680|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Hearing aid prescription will have no effect on Nonword Detection scores."||||<0.05
92283512|NCT05150964|184470680|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: The ASG setting will have no effect on Nonword Detection scores."||||>0.05
92283513|NCT05150964|184470681|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: The ASG setting will have no effect on Rapid Word Learning scores."||||>0.05
92283514|NCT05150964|184470681|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Presentation level will have no effect on Rapid Word Learning scores."||||>0.05
92252477|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.018|TWO_SIDED|95.0|0.1|0.8|||ANCOVA|||Serotype 11A, Day 30||0.8|0.1|0.018
92182758|NCT02609048|184264678|SUPERIORITY||Difference in LSM|185.78|STANDARD_ERROR_OF_MEAN|104.379||0.0849|TWO_SIDED|95.0|-27.1|398.66||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor, baseline ALT assessment as covariate,and percent change from baseline in ALT as response variable.|ANCOVA|||||398.66|-27.10|0.0849
92252478|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.056|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Serotype 11A, Day 30||0.7|0.0|0.056
92252479|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.527|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||Serotype 12F, Day 30||0.7|-0.4|0.527
92252480|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.444|TWO_SIDED|95.0|-0.4|0.8|||ANCOVA|||Serotype 12F, Day 30||0.8|-0.4|0.444
92252481|NCT03803202|184406105|OTHER||Mean Difference|0.0||||0.869|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||Serotype 12F, Day 30||0.6|-0.5|0.869
92252482|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.305|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Serotype 14, Day 30||0.7|-0.2|0.305
92252483|NCT03803202|184406105|OTHER||Mean Difference|0.5||||0.046|TWO_SIDED|95.0|0.0|1.0|||ANCOVA|||Serotype 14, Day 30||1.0|0.0|0.046
92252484|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.299|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Serotype 14, Day 30||0.8|-0.2|0.299
92252485|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.14|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 15B, Day 30||0.7|-0.1|0.140
92176790|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.178||||0.8123|TWO_SIDED|95.0|-1.654|1.299|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||1.299|-1.654|0.8123
92182759|NCT02609048|184264678|SUPERIORITY||Difference in LSM|116.5|STANDARD_ERROR_OF_MEAN|97.437||0.2409|TWO_SIDED|95.0|-82.22|315.23||Difference between means,p-value,and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor,baseline ALT assessment as covariate, and percent change from baseline in ALT as response variable.|ANCOVA|||||315.23|-82.22|0.2409
92252486|NCT03803202|184406105|OTHER||Mean Difference|0.9|||<|0.001|TWO_SIDED|95.0|0.4|1.3|||ANCOVA|||Serotype 15B, Day 30||1.3|0.4|<.001
92252487|NCT03803202|184406105|OTHER||Mean Difference|0.6||||0.012|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|||Serotype 15B, Day 30||1.0|0.1|0.012
92252488|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.2|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 17F, Day 30||0.6|-0.1|0.200
92252489|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.037|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Serotype 17F, Day 30||0.8|0.0|0.037
92252490|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.38|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 17F, Day 30||0.6|-0.2|0.380
92252491|NCT03803202|184406105|OTHER||Mean Difference|0.6||||0.006|TWO_SIDED|95.0|0.2|1.0|||ANCOVA|||Serotype 18C, Day 30||1.0|0.2|0.006
92252492|NCT03803202|184406105|OTHER||Mean Difference|0.5||||0.018|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|||Serotype 18C, Day 30||1.0|0.1|0.018
92252493|NCT03803202|184406105|OTHER||Mean Difference|-0.1||||0.81|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||Serotype 18C, Day 30||0.4|-0.5|0.810
92252494|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.173|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 19A, Day 30||0.7|-0.1|0.173
92252495|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.096|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 19A, Day 30||0.8|-0.1|0.096
92252496|NCT03803202|184406105|OTHER||Mean Difference|0.1||||0.71|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 19A, Day 30||0.5|-0.3|0.710
92252497|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.1|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 19F, Day 30||0.8|-0.1|0.100
92252498|NCT03803202|184406105|OTHER||Mean Difference|0.6||||0.007|TWO_SIDED|95.0|0.2|1.1|||ANCOVA|||Serotype 19F, Day 30||1.1|0.2|0.007
92252499|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.251|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Serotype 19F, Day 30||0.7|-0.2|0.251
92252500|NCT03803202|184406105|OTHER||Mean Difference|0.1||||0.618|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 20B, Day 30||0.5|-0.3|0.618
92176791|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.48||||0.5879|TWO_SIDED|95.0|-2.226|1.267|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||1.267|-2.226|0.5879
92176792|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.596||||0.491|TWO_SIDED|95.0|-2.304|1.111|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||1.111|-2.304|0.4910
92182760|NCT02609048|184264678|SUPERIORITY||Difference in LSM|69.28|STANDARD_ERROR_OF_MEAN|105.295||0.5154|TWO_SIDED|95.0|-145.47|284.03||Difference between means,p-value,and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as a factor,baseline ALT assessment as covariate, and percent change from baseline in ALT as response variable.|ANCOVA|||||284.03|-145.47|0.5154
92252501|NCT03803202|184406105|OTHER||Mean Difference|0.5||||0.041|TWO_SIDED|95.0|0.0|0.9|||ANCOVA|||Serotype 20B, Day 30||0.9|0.0|0.041
92252502|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.111|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 20B, Day 30||0.8|-0.1|0.111
92252503|NCT03803202|184406105|OTHER||Mean Difference|0.1||||0.758|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 22F, Day 30||0.4|-0.3|0.758
92252504|NCT03803202|184406105|OTHER||Mean Difference|0.5||||0.012|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Serotype 22F, Day 30||0.9|0.1|0.012
92252505|NCT03803202|184406105|OTHER||Mean Difference|0.4||||0.025|TWO_SIDED|95.0|0.1|0.8|||ANCOVA|||Serotype 22F, Day 30||0.8|0.1|0.025
92252506|NCT03803202|184406105|OTHER||Mean Difference|0.0||||0.912|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||Serotype 23F, Day 30||0.4|-0.5|0.912
92252507|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.174|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 23F, Day 30||0.8|-0.1|0.174
92252508|NCT03803202|184406105|OTHER||Mean Difference|0.3||||0.138|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 23F, Day 30||0.8|-0.1|0.138
92252509|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.267|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Serotype 33F, Day 30||0.7|-0.2|0.267
92252510|NCT03803202|184406105|OTHER||Mean Difference|0.2||||0.3|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Serotype 33F, Day 30||0.7|-0.2|0.300
92252511|NCT03803202|184406105|OTHER||Mean Difference|0.0||||0.982|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Serotype 33F, Day 30||0.4|-0.4|0.982
92252512|NCT03803202|184406106|OTHER||Ratio of GMT|1.49|||||TWO_SIDED|95.0|1.06|2.08|||t-test, 2 sided|||Serotype 2||2.08|1.06|
92252513|NCT03803202|184406106|OTHER||Ratio of GMT|0.97|||||TWO_SIDED|95.0|0.68|1.37|||t-test, 2 sided|||Serotype 8||1.37|0.68|
92252514|NCT03803202|184406106|OTHER||Ratio of GMT|1.35|||||TWO_SIDED|95.0|0.92|2.0|||t-test, 2 sided|||Serotype 9N||2.00|0.92|
92252515|NCT03803202|184406106|OTHER||Ratio of GMT|2.18|||||TWO_SIDED|95.0|1.25|3.79|||t-test, 2 sided|||Serotype 10A||3.79|1.25|
92252516|NCT03803202|184406106|OTHER||Ratio of GMT|1.19|||||TWO_SIDED|95.0|0.8|1.77|||t-test, 2 sided|||Serotype 11A||1.77|0.80|
92252517|NCT03803202|184406106|OTHER||Ratio of GMT|1.2|||||TWO_SIDED|95.0|0.73|2.0|||t-test, 2 sided|||Serotype 12F||2.00|0.73|
92252518|NCT03803202|184406106|OTHER||Ratio of GMT|1.47|||||TWO_SIDED|95.0|0.94|2.29|||t-test, 2 sided|||Serotype 15B||2.29|0.94|
92252519|NCT03803202|184406106|OTHER||Ratio of GMT|2.61|||||TWO_SIDED|95.0|1.68|4.04|||t-test, 2 sided|||Serotype 17F||4.04|1.68|
92252520|NCT03803202|184406106|OTHER||Ratio of GMT|9.05|||||TWO_SIDED|95.0|5.65|14.5|||t-test, 2 sided|||Serotype 20B||14.50|5.65|
92252521|NCT03803202|184406106|OTHER||Ratio of GMT|1.79|||||TWO_SIDED|95.0|1.09|2.95|||t-test, 2 sided|||Serotype 22F||2.95|1.09|
92252522|NCT03803202|184406106|OTHER|Serotype 33F|Ratio of GMT|1.34|||||TWO_SIDED|95.0|0.86|2.11|||t-test, 2 sided|||||2.11|0.86|
92252523|NCT03803202|184406106|OTHER||Ratio of GMT|1.31|||||TWO_SIDED|95.0|0.93|1.83|||t-test, 2 sided|||Serotype 2||1.83|0.93|
92252524|NCT03803202|184406106|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.67|1.43|||t-test, 2 sided|||Serotype 8||1.43|0.67|
92252525|NCT03803202|184406106|OTHER||Ratio of GMT|1.62|||||TWO_SIDED|95.0|1.62|2.26|||t-test, 2 sided|||Serotype 9N||2.26|1.62|
92252526|NCT03803202|184406106|OTHER||Ratio of GMT|2.87|||||TWO_SIDED|95.0|1.68|4.9|||t-test, 2 sided|||Serotype 10A||4.90|1.68|
92252527|NCT03803202|184406106|OTHER||Ratio of GMT|1.42|||||TWO_SIDED|95.0|0.98|2.06|||t-test, 2 sided|||Serotype 11A||2.06|0.98|
92252528|NCT03803202|184406106|OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.54|1.48|||t-test, 2 sided|||Serotype 12F||1.48|0.54|
92252529|NCT03803202|184406106|OTHER||Ratio of GMT|1.09|||||TWO_SIDED|95.0|0.73|1.64|||t-test, 2 sided|||Serotype 15B||1.64|0.73|
92252530|NCT03803202|184406106|OTHER||Ratio of GMT|2.13|||||TWO_SIDED|95.0|1.4|3.25|||t-test, 2 sided|||Serotype 17F||3.25|1.40|
92252531|NCT03803202|184406106|OTHER||Ratio of GMT|7.28|||||TWO_SIDED|95.0|4.61|11.5|||t-test, 2 sided|||Serotype 20B||11.50|4.61|
92252532|NCT03803202|184406106|OTHER||Ratio of GMT|1.55|||||TWO_SIDED|95.0|0.96|2.48|||t-test, 2 sided|||Serotype 22F||2.48|0.96|
92252533|NCT03803202|184406106|OTHER||Ratio of GMT|1.24|||||TWO_SIDED|95.0|0.83|1.84|||t-test, 2 sided|||Serotype 33F||1.84|0.83|
92252534|NCT03803202|184406106|OTHER||Ratio of GMT|2.1|||||TWO_SIDED|95.0|1.51|2.94|||t-test, 2 sided|||Serotype 2||2.94|1.51|
92252535|NCT03803202|184406106|OTHER||Ratio of GMT|2.08|||||TWO_SIDED|95.0|1.46|2.97|||t-test, 2 sided|||Serotype 8||2.97|1.46|
92252536|NCT03803202|184406106|OTHER||Ratio of GMT|2.24|||||TWO_SIDED|95.0|1.56|3.2|||t-test, 2 sided|||Serotype 9N||3.20|1.56|
92252537|NCT03803202|184406106|OTHER||Ratio of GMT|3.24|||||TWO_SIDED|95.0|1.79|5.89|||t-test, 2 sided|||Serotype 10A||5.89|1.79|
92252538|NCT03803202|184406106|OTHER||Ratio of GMT|2.43|||||TWO_SIDED|95.0|1.63|3.62|||t-test, 2 sided|||Serotype 11A||3.62|1.63|
92252539|NCT03803202|184406106|OTHER||Ratio of GMT|1.51|||||TWO_SIDED|95.0|0.89|2.55|||t-test, 2 sided|||Serotype 12 F||2.55|0.89|
92252540|NCT03803202|184406106|OTHER||Ratio of GMT|1.69|||||TWO_SIDED|95.0|1.11|2.57|||t-test, 2 sided|||Serotype 15B||2.57|1.11|
92252541|NCT03803202|184406106|OTHER||Ratio of GMT|3.37|||||TWO_SIDED|95.0|2.18|5.2|||t-test, 2 sided|||Serotype 17F||5.20|2.18|
92252542|NCT03803202|184406106|OTHER||Ratio of GMT|13.7|||||TWO_SIDED|95.0|8.26|22.72|||t-test, 2 sided|||Serotype 20B||22.72|8.26|
92252543|NCT03803202|184406106|OTHER||Ratio of GMT|2.17|||||TWO_SIDED|95.0|1.36|3.46|||t-test, 2 sided|||Serotype 22F||3.46|1.36|
92252544|NCT03803202|184406106|OTHER||Ratio of GMT|1.69|||||TWO_SIDED|95.0|1.11|2.57|||t-test, 2 sided|||Serotype 33F||2.57|1.11|
92252545|NCT03803202|184406107|OTHER||Ratio of GMT|1.35|||||TWO_SIDED|95.0|0.95|1.93|||t-test, 2 sided|||Serotype 2||1.93|0.95|
92252546|NCT03803202|184406107|OTHER||Ratio of GMT|1.51|||||TWO_SIDED|95.0|1.07|2.13|||t-test, 2 sided|||Serotype 8||2.13|1.07|
92252547|NCT03803202|184406107|OTHER||Ratio of GMT|1.59|||||TWO_SIDED|95.0|1.09|2.33|||t-test, 2 sided|||Serotype 9N||2.33|1.09|
92252548|NCT03803202|184406107|OTHER||Ratio of GMT|2.24|||||TWO_SIDED|95.0|1.45|3.47|||t-test, 2 sided|||Serotype 10A||3.47|1.45|
92252549|NCT03803202|184406107|OTHER||Ratio of GMT|1.83|||||TWO_SIDED|95.0|1.27|2.65|||t-test, 2 sided|||Serotype 11A||2.65|1.27|
92252550|NCT03803202|184406107|OTHER||Ratio of GMT|1.31|||||TWO_SIDED|95.0|0.77|2.23|||t-test, 2 sided|||Serotype 12F||2.23|0.77|
92252551|NCT03803202|184406107|OTHER||Ratio of GMT|1.24|||||TWO_SIDED|95.0|0.8|1.91|||t-test, 2 sided|||Serotype 15B||1.91|0.80|
92252552|NCT03803202|184406107|OTHER||Ratio of GMT|2.63|||||TWO_SIDED|95.0|1.7|4.07|||t-test, 2 sided|||Serotype 17F||4.07|1.70|
92252553|NCT03803202|184406107|OTHER||Ratio of GMT|2.43|||||TWO_SIDED|95.0|1.61|3.67|||t-test, 2 sided|||Serotype 20B||3.67|1.61|
92252554|NCT03803202|184406107|OTHER||Ratio of GMT|2.49|||||TWO_SIDED|95.0|1.7|3.65|||t-test, 2 sided|||Serotype 22F||3.65|1.70|
92252555|NCT03803202|184406107|OTHER||Ratio of GMT|1.67|||||TWO_SIDED|95.0|1.1|2.54|||t-test, 2 sided|||Serotype 33F||2.54|1.10|
92252556|NCT03803202|184406107|OTHER||Ratio of GMT|1.42|||||TWO_SIDED|95.0|0.98|2.07|||t-test, 2 sided|||Serotype 2||2.07|0.98|
92252557|NCT03803202|184406107|OTHER||Ratio of GMT|1.58|||||TWO_SIDED|95.0|1.11|2.26|||t-test, 2 sided|||Serotype 8||2.26|1.11|
92252558|NCT03803202|184406107|OTHER||Ratio of GMT|1.83|||||TWO_SIDED|95.0|1.23|2.72|||t-test, 2 sided|||Serotype 9N||2.72|1.23|
92252559|NCT03803202|184406107|OTHER||Ratio of GMT|2.59|||||TWO_SIDED|95.0|1.66|4.05||||||Serotype 10A||4.05|1.66|
92252560|NCT03803202|184406107|OTHER||Ratio of GMT|1.9|||||TWO_SIDED|95.0|1.32|2.73|||t-test, 2 sided|||Serotype 11A||2.73|1.32|
92252561|NCT03803202|184406107|OTHER||Ratio of GMT|1.59|||||TWO_SIDED|95.0|0.93|2.71|||t-test, 2 sided|||Serotype 12F||2.71|0.93|
92252562|NCT03803202|184406107|OTHER||Ratio of GMT|1.68|||||TWO_SIDED|95.0|1.11|2.53|||t-test, 2 sided|||Serotype 15B||2.53|1.11|
92252563|NCT03803202|184406107|OTHER||Ratio of GMT|3.27|||||TWO_SIDED|95.0|2.17|4.93|||t-test, 2 sided|||Serotype 17F||4.93|2.17|
92252564|NCT03803202|184406107|OTHER||Ratio of GMT|2.79|||||TWO_SIDED|95.0|1.85|4.22|||t-test, 2 sided|||Serotype 20B||4.22|1.85|
92252565|NCT03803202|184406107|OTHER||Ratio of GMT|2.63|||||TWO_SIDED|95.0|1.79|3.88|||t-test, 2 sided|||Serotype 22F||3.88|1.79|
92252566|NCT03803202|184406107|OTHER||Ratio of GMT|2.05|||||TWO_SIDED|95.0|1.4|3.01|||t-test, 2 sided|||Serotype 33F||3.01|1.40|
92252567|NCT03803202|184406107|OTHER||Ratio of GMT|1.97|||||TWO_SIDED|95.0|1.37|2.84|||t-test, 2 sided|||Serotype 2||2.84|1.37|
92252568|NCT03803202|184406107|OTHER||Ratio of GMT|2.98|||||TWO_SIDED|95.0|2.12|4.18|||t-test, 2 sided|||Serotype 8||4.18|2.12|
92252569|NCT03803202|184406107|OTHER||Ratio of GMT|2.99|||||TWO_SIDED|95.0|2.02|4.44|||t-test, 2 sided|||Serotype 9N||4.44|2.02|
92252570|NCT03803202|184406107|OTHER||Ratio of GMT|3.63|||||TWO_SIDED|95.0|2.25|5.86|||t-test, 2 sided|||Serotype 10A||5.86|2.25|
92252571|NCT03803202|184406107|OTHER||Ratio of GMT|2.86|||||TWO_SIDED|95.0|1.96|4.18|||t-test, 2 sided|||Serotype 11A||4.18|1.96|
92252572|NCT03803202|184406107|OTHER||Ratio of GMT|1.64|||||TWO_SIDED|95.0|0.91|2.96|||t-test, 2 sided|||Serotype 12F||2.96|0.91|
92252573|NCT03803202|184406107|OTHER||Ratio of GMT|2.93|||||TWO_SIDED|95.0|1.87|4.61|||t-test, 2 sided|||Serotype 15B||4.61|1.87|
92252574|NCT03803202|184406107|OTHER||Ratio of GMT|4.0|||||TWO_SIDED|95.0|2.55|6.26|||t-test, 2 sided|||Serotype 17F||6.26|2.55|
92252575|NCT03803202|184406107|OTHER||Ratio of GMT|3.82|||||TWO_SIDED|95.0|2.46|5.91|||t-test, 2 sided|||Serotype 22F||5.91|2.46|
92252576|NCT03803202|184406107|OTHER||Ratio of GMT|4.02|||||TWO_SIDED|95.0|2.74|5.9|||t-test, 2 sided|||Serotype 22F||5.90|2.74|
92252577|NCT03803202|184406107|OTHER||Ratio of GMT|2.11|||||TWO_SIDED|95.0|1.38|3.23|||t-test, 2 sided|||Serotype 33F||3.23|1.38|
92265216|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|51.5||||0.028|TWO_SIDED|95.0|8.2|77.0|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||77.0|8.2|0.028
92176793|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.816||||0.9673|TWO_SIDED|95.0|-1.967|3.599|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.599|-1.967|0.9673
92252578|NCT00293241|184406108|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.927||||0.72|TWO_SIDED|95.0|0.612|1.405|||Log Rank||"Hospitalization:hospital admission with overnight stay;ER/office visits with cardioversions;acute treatment of worsened cardiac condition~CV:new/worsening HF,angina,MI,arrhythmia,stroke, TIA,acute peripheral vascular emergencies,pulmonary embolism"|"Analysis:Time to first cardiovascular hospitalization (CV hosp)~H0:freedom from CV hosp MVP=freedom from CV hosp DDD (dual chamber conventional pacing)~Ha:freedom from CV hosp MVP≠freedom from CV hosp DDD~Power calculation:~The study is designed to detect a difference event-free survival after 2 years of 5.5 % absolute, going from 91.5% to 97%.~Test=two-sided alpha=0.05 power=80% 1:1 randomization n=600"||1.405|0.612|0.72
92252579|NCT00293241|184406109|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.127||||0.48|TWO_SIDED|95.0|0.808|1.57|||Log Rank|||"Analysis:Time to first all cause death or cardiovascular hospitalization~H0:freedom from death or CV hospitalization=freedom from death or CV hospitalization~Ha:freedom from death or CV hospitalization≠freedom from death or CV hospitalization"||1.570|0.808|0.48
92252580|NCT00293241|184406110|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.521||||0.08|TWO_SIDED|95.0|0.954|2.424|||Log Rank|||Analysis:Time to first persistent AT/AF H0:freedom from persistent AT/AF=freedom from persistent AT/AF Ha:freedom from persistent AT/AF≠freedom from persistent AT/AF||2.424|0.954|0.08
92252581|NCT00293241|184406111|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.425||||0.44|TWO_SIDED|95.0|0.573|3.543|||Log Rank|||Analysis:Time to permanent AF H0:freedom from permanent AF=freedom from permanent AF Ha:freedom from permanent AF≠freedom from permanent AF||3.543|0.573|0.44
92252582|NCT00293241|184406112|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"Analysis:Wilcoxon Test for Comparison of Percentage of Ventricular Pacing (%VP) During Followup by Randomization Arm~H0:distribution %VP MVP=distribution %VP DDD~Ha:distribution %VP MVP≠distribution %VP DDD~Ha:"||||<0.0001
92252583|NCT00293241|184406113|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||Regression, Linear|||||||0.048
92252584|NCT00293241|184406115|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED|95.0|||||Repeated measures logistic regression|||Analysis:Repeated measures logistic regression||||0.78
92252585|NCT00293241|184406116|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Regression, Logistic|||Analysis:Repeated measures logistic regression H0:Change in Beta-blockers=Change in Beta-blockers Ha:Change in Beta-blockers≠Change in Beta-blockers||||0.34
92252586|NCT00293241|184406116|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||Regression, Logistic|||Analysis:Repeated measures logistic regression H0:Change in Digitalis/digoxin=Change in Digitalis/digoxin Ha:Change in Digitalis/digoxin≠Change in Digitalis/digoxin||||0.65
92252587|NCT00293241|184406116|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Regression, Logistic|||Analysis:Repeated measures logistic regression H0:Change in Calcium antagonists=Change in Calcium antagonists Ha:Change in Calcium antagonists≠Change in Calcium antagonists||||0.55
92252588|NCT00293241|184406116|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Regression, Logistic|||Analysis:Repeated measures logistic regression H0:Change in Antiarrhythmic drug=Change in Antiarrhythmic drug Ha:Change in Antiarrhythmic drug≠Change in Antiarrhythmic drug||||0.53
92252589|NCT00293241|184406118|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.243||||0.33|TWO_SIDED|95.0|0.803|1.923|||Log Rank|||"Analysis:Time to all-cause death~H0:survival MVP ON=survival MVP OFF Ha:survival MVP ON≠survival MVP OFF"||1.923|0.803|0.33
92252590|NCT00293241|184406119|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.492||||0.24|TWO_SIDED|95.0|0.148|1.637|||Log Rank|||||1.637|0.148|0.24
92252591|NCT00293241|184406120|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Statistical test for Number of subjects with CV hospitalization||||0.83
92252592|NCT00293241|184406123|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0:Change in P-R interval=Change in P-R interval Ha:Change in P-R interval≠Change in P-R interval||||0.34
92252593|NCT00293241|184406123|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0:Change in QRS duration=Change in QRS duration Ha:Change in QRS duration≠Change in QRS duration||||0.19
92252594|NCT00293241|184406123|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0:Change in P-wave duration=Change in P-wave duration Ha:Change in P-wave duration≠Change in P-wave duration||||0.29
92252595|NCT00293241|184406124|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|95.0|||||Fisher Exact|||No Symptoms (Baseline)||||0.24
92252596|NCT00293241|184406124|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED||||||Fisher Exact|||No Symptoms (12 months)||||0.92
92252597|NCT00293241|184406124|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||No Symptoms (24 Months)||||1.0
92252598|NCT00293241|184406125|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
92265217|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|11.1||||0.175|TWO_SIDED|95.0|-2.9|27.9|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||27.9|-2.9|0.175
92252599|NCT01125293|184406130|OTHER|||||||0.69|||||||Two stage design, exact method|||In a two-stage Simon design, a VGPR or better rate of at least 18% is considered promising versus a 5% or less rate. In stage 1, if 1 or fewer of 23 evaluable participants achieve VGPR, the regimen is considered non-promising else continue with 24 more patients enrolled. If \</=4 of 47 evaluable patients have VGPR or better, the regimen is considered non-promising. If \>/=5, then the regimen is considered promising for further study. With this design, there is 90% power and 1-sided 10% alpha.|The study did not continue to stage 2 given 1 VGPR or better response was observed in 23 evaluable participants in stage 1.|||0.69
92252600|NCT01270958|184406139|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252601|NCT01270958|184406140|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252602|NCT01270958|184406141|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252603|NCT01270958|184406142|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252604|NCT01270958|184406143|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92283515|NCT05150964|184470681|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Hearing aid prescripton will have no effect on Rapid Word Learning scores."||||>0.05
92283516|NCT01062256|184470697|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.216|TWO_SIDED|95.0|0.64|1.1||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time) as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 4-hour postdose period.||1.10|0.64|0.216
92283517|NCT01062256|184470697|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.513|TWO_SIDED|95.0|0.72|1.18||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time) as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 4-hour postdose period.||1.18|0.72|0.513
92283518|NCT01062256|184470697|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.459|TWO_SIDED|95.0|0.87|1.38||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time) as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 4-hour postdose period.||1.38|0.87|0.459
92252605|NCT01270958|184406144|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252606|NCT01270958|184406145|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252607|NCT01270958|184406146|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252608|NCT01270958|184406147|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||<0.01
92252609|NCT01270958|184406148|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252610|NCT01270958|184406149|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252611|NCT01270958|184406150|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252612|NCT01270958|184406151|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252613|NCT01270958|184406152|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252614|NCT01270958|184406153|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252615|NCT01270958|184406154|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252616|NCT01270958|184406155|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252617|NCT01270958|184406156|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252618|NCT01270958|184406157|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
92252619|NCT01367860|184406162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.89|STANDARD_ERROR_OF_MEAN|1.06||0.05|TWO_SIDED|95.0|-4.05|0.26|||t-test, 2 sided|||||0.26|-4.05|0.05
92252620|NCT01367860|184406163|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
92252621|NCT01367860|184406164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.9|<|0.05|TWO_SIDED|95.0|-2.21|1.43|||t-test, 2 sided|||||1.43|-2.21|<0.05
92252622|NCT01367860|184406165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|1.01|<|0.05|TWO_SIDED|95.0|-2.76|1.33|||t-test, 2 sided|||||1.33|-2.76|<0.05
92252623|NCT01367860|184406167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|1.13|<|0.05|TWO_SIDED|95.0|-2.58|2.01|||t-test, 2 sided|||||2.01|-2.58|<0.05
92283519|NCT01062256|184470698|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.195|TWO_SIDED|95.0|0.65|1.09||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time) as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 2-hour postdose period.||1.09|0.65|0.195
92252624|NCT01367860|184406168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|STANDARD_ERROR_OF_MEAN|1.14|<|0.05|TWO_SIDED|95.0|-1.3|3.3|||t-test, 2 sided|||||3.3|-1.3|<0.05
92252625|NCT01367860|184406169|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|2.77|<|0.05|TWO_SIDED|95.0|-2.36|8.8|||t-test, 2 sided|||||8.8|-2.36|<0.05
92252626|NCT01367860|184406170|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|3.3|<|0.05|TWO_SIDED|95.0|-4.4|8.9|||t-test, 2 sided|||||8.9|-4.4|<0.05
92252627|NCT01367860|184406171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|3.6|<|0.05|TWO_SIDED|95.0|-7.15|7.55|||t-test, 2 sided|||||7.55|-7.15|<0.05
92252628|NCT01367860|184406172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|3.65|<|0.05|TWO_SIDED|95.0|-7.14|7.67|||t-test, 2 sided|||||7.67|-7.14|<0.05
92252629|NCT01367860|184406173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|3.18|<|0.05|TWO_SIDED|95.0|-8.16|4.76|||t-test, 2 sided|||||4.76|-8.16|<0.05
92252630|NCT01367860|184406174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67|STANDARD_ERROR_OF_MEAN|0.88|<|0.05|TWO_SIDED|95.0|-0.12|3.46|||t-test, 2 sided|||||3.46|-0.12|<0.05
92252631|NCT01367860|184406175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|1.09|<|0.05|TWO_SIDED|95.0|-2.0|2.4|||t-test, 2 sided|||||2.4|-2|<0.05
92252632|NCT01367860|184406176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|1.08|<|0.05|TWO_SIDED|95.0|-2.55|1.85|||t-test, 2 sided|||||1.85|-2.55|<0.05
92252633|NCT01367860|184406177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|1.11|<|0.05|TWO_SIDED|95.0|-2.29|2.23|||t-test, 2 sided|||||2.23|-2.29|<0.05
92252634|NCT01367860|184406178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|1.17|<|0.05|TWO_SIDED|95.0|-1.67|3.08|||t-test, 2 sided|||||3.08|-1.67|<0.05
92252635|NCT02228564|184406179|NON_INFERIORITY|"The sample size calculation assumes the following:~The LIFESTREAM™ Covered Stent composite event rate is estimated at 10.5% The Performance Goal is set at 19.5% The Type 1 error, α = 0.05 (one-sided). The Type 2 error, β = 0.10 (Power = 1 - β = 90%). The calculated sample size is 139 subjects to be followed through the 9-month follow-up visit (using nQuery 7.0). To accommodate 10% censoring, the sample size is increased to 154."|||||<|0.0325|||||||Exact binomial test|||"H0: The proportion of subjects in the LifeStream™ Covered Stent group (PBBX) with events in the primary endpoint is greater than or equal to that of the PG of 19.5%.~H1: The proportion of subjects in the LifeStream™ Covered Stent group (PBBX) with events in the primary endpoint is less than that of the PG of 19.5%."||||<0.0325
92252636|NCT02925312|184406226|SUPERIORITY|||||||0.05|||||||McNemar|||The study was powered to detect a difference of 0.5 in the change in HbA1c with SD=2 with 80% power at alpha=0.05 with a sample size of 128 in each group (paired t-test). Differences in patient characteristics and the unadjusted differences in the outcome measures between the intervention and control groups were tested using linear mixed models, McNemar tests and conditional logistic models due to matching.||||0.05
92252637|NCT00971633|184406238|NON_INFERIORITY_OR_EQUIVALENCE|Study Secondary Hypothesis: A single dose of U.K. ZOFRAN (ondansetron) 8-mg table over-encapsulated is bioequivalent to a single dose of the U.K. ZOFRAN (ondansetron) 8-mg tablet. That is, the true geometric mean ratios (U.K. ZOFRAN tablet over-encapsulated/U.K. ZOFRAN tablet) of the area under the plasma concentration vs. time curve (AUC) from zero to infinity and maximum plasma concentration (Cmax) for ondansetron each lie within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.904|||||TWO_SIDED|95.0|0.796|1.028|||||Geometric Mean Ratio (Treatment OE U.K. tablet / Treatment U.K. tablet)|Treatment OE U.K. tablet: an over-encapsulated single 8-mg tablet of United Kingdom (U.K.) ZOFRAN (ondansetron) taken orally Treatment U.K. tablet: a single 8-mg tablet of ZOFRAN (ondansetron) which is marketed in the United Kingdom (U.K.) taken orally||1.028|0.796|
92252638|NCT00971633|184406238|NON_INFERIORITY_OR_EQUIVALENCE|Study Primary Hypothesis: A single dose of the U.K. ZOFRAN (ondansetron) 8-mg tablet over-encapsulated is bioequivalent to a single dose of the U.S. ZOFRAN (ondansetron) 8-mg tablet. That is, the true geometric mean rations (U.K. ZOFRAN tablet over-encapsulated/U.S. ZOFRAN tablet) of the area under the plasma concentration vs. time curve (AUC) from zero to infinity and maximum plasma concentration (Cmax) for ondansetron each lie within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.991|||||TWO_SIDED|95.0|0.873|1.126|||||Geometric Mean Ratio (Treatment OE U.K. tablet / Treatment U.S. tablet)|Treatment OE U.K. tablet: an over-encapsulated single 8-mg tablet of United Kingdom (U.K.) ZOFRAN (ondansetron) taken orally Treatment U.S. tablet: a single 8-mg tablet of ZOFRAN (ondansetron) which is marketed in the United States (U.S.) taken orally||1.126|0.873|
92252639|NCT00971633|184406239|NON_INFERIORITY_OR_EQUIVALENCE|Study Secondary Hypothesis: A single dose of U.K. ZOFRAN (ondansetron) 8-mg table over-encapsulated is bioequivalent to a single dose of the U.K. ZOFRAN (ondansetron) 8-mg tablet. That is, the true geometric mean ratios (U.K.) ZOFRAN tablet over-encapsulated/U.K. ZOFRAN tablet) of the area under the plasma concentration vs. time curve (AUC) from zero to infinity and maximum plasma concentration (Cmax) for ondansetron each lie within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.886|||||TWO_SIDED|95.0|0.813|0.966|||||Geometric Mean Ratio (Treatment OE U.K. tablet / Treatment U.K. tablet)|Treatment OE U.K. tablet: an over-encapsulated single 8-mg tablet of United Kingdom (U.K.) ZOFRAN (ondansetron) taken orally Treatment U.K. tablet: a single 8-mg tablet of ZOFRAN (ondansetron) which is marketed in the United Kingdom (U.K.) taken orally||0.966|0.813|
92252640|NCT00971633|184406239|NON_INFERIORITY_OR_EQUIVALENCE|§ Study Primary Hypothesis: A single dose of the U.K. ZOFRAN (ondansetron) 8-mg tablet over-encapsulated is bioequivalent to a single dose of the U.S. ZOFRAN (ondansetron) 8-mg tablet. That is, the true geometric mean rations (U.K. ZOFRAN tablet over-encapsulated/U.S. ZOFRAN tablet) of the area under the plasma concentration vs. time curve (AUC) from zero to infinity and maximum plasma concentration (Cmax) for ondansetron each lie within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.951|||||TWO_SIDED|95.0|0.872|1.037|||||Geometric Mean Ratio (Treatment OE U.K. tablet / Treatment U.S. tablet)|Treatment OE U.K. tablet: an over-encapsulated single 8-mg tablet of United Kingdom (U.K.) ZOFRAN (ondansetron) taken orally. Treatment U.S. tablet: a single 8-mg tablet of ZOFRAN (ondansetron) which is marketed in the United States (U.S.) taken orally||1.037|0.872|
92252641|NCT00418717|184406277|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||||95.0|-0.25|0.06||||||||0.06|-0.25|
92283520|NCT01062256|184470698|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.438|TWO_SIDED|95.0|0.71|1.16||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site and baseline of cough bouts terms with log(exposure time)as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 2-hour postdose period.||1.16|0.71|0.438
92283521|NCT01062256|184470698|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.497|TWO_SIDED|95.0|0.87|1.34||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site and baseline of cough bouts terms with log(exposure time)as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 2-hour postdose period.||1.34|0.87|0.497
92283522|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.25|TWO_SIDED|95.0|0.64|1.12||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts within 15 minutes postdose||1.12|0.64|0.250
92283523|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.802|TWO_SIDED|95.0|0.75|1.25||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts within 15 minutes postdose||1.25|0.75|0.802
92252642|NCT03136367|184406357|SUPERIORITY|||||||0.045||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.045
92252643|NCT03136367|184406357|SUPERIORITY|||||||0.2||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.20
92252644|NCT03136367|184406357|SUPERIORITY|||||||0.82||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.82
92283524|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.188|TWO_SIDED|95.0|0.94|1.39||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts within 15 minutes postdose||1.39|0.94|0.188
92283525|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.091|TWO_SIDED|95.0|0.58|1.04||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 15 and 30 minutes postdose||1.04|0.58|0.091
92182761|NCT02609048|184264679|SUPERIORITY||Difference in LSM|-45.34|STANDARD_ERROR_OF_MEAN|12.112||0.0007|TWO_SIDED|95.0|-70.04|-20.64||Difference between means, p-value,and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor, baseline GGT assessment as covariate,and percent change from baseline in GGT as response variable.|ANCOVA|||||-20.64|-70.04|0.0007
92252645|NCT03136367|184406358|SUPERIORITY|||||||0.048||||||Adjusted for repeated within-patient measurements|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.048
92252646|NCT03136367|184406358|SUPERIORITY|||||||0.015||||||Adjusted for repeated within-patient measurements|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.015
92252647|NCT03136367|184406358|SUPERIORITY|||||||0.43||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.43
92252648|NCT03136367|184406359|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|Mixed effects linear regression that accounted clustering and was adjusted for surgeon and patient characteristics.||||||0.46
92252649|NCT03136367|184406359|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|Mixed effects linear regression that accounted clustering and was adjusted for surgeon and patient characteristics.||||||0.34
92252650|NCT03136367|184406359|SUPERIORITY|||||||0.165|||||||Mixed Models Analysis|Mixed effects linear regression that accounted clustering and was adjusted for surgeon and patient characteristics.||||||0.165
92283526|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.465|TWO_SIDED|95.0|0.69|1.19||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 15 and 30 minutes postdose||1.19|0.69|0.465
92252651|NCT03136367|184406361|SUPERIORITY|||||||0.25||||||Adjusted for repeated within-patient measurements|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.25
92283527|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.207|TWO_SIDED|95.0|0.92|1.46||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 15 and 30 minutes postdose||1.46|0.92|0.207
92252652|NCT03136367|184406361|SUPERIORITY|||||||0.89||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.89
92252653|NCT03136367|184406361|SUPERIORITY|||||||0.54||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.54
92252654|NCT03136367|184406362|SUPERIORITY|||||||0.72||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.72
92252655|NCT03136367|184406362|SUPERIORITY|||||||0.41||||||Adjusted for repeated within-patient measurements.|McNemar|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.41
92252656|NCT03136367|184406362|SUPERIORITY|||||||0.28||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.28
92252657|NCT03136367|184406363|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.01
92252658|NCT03136367|184406363|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.12
92252659|NCT03136367|184406363|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.78
92252660|NCT03136367|184406364|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||<0.01
92252661|NCT03136367|184406364|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||<0.01
92252662|NCT03136367|184406365|SUPERIORITY|||||||0.06||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.06
92252663|NCT03136367|184406365|SUPERIORITY|||||||0.65||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.65
92252664|NCT03136367|184406365|SUPERIORITY|||||||0.36||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.36
92283528|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.122|TWO_SIDED|95.0|0.62|1.06||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 30 and 45 minutes postdose||1.06|0.62|0.122
92283529|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.165|TWO_SIDED|95.0|0.66|1.07||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 30 and 45 minutes postdose||1.07|0.66|0.165
92283530|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.711|TWO_SIDED|95.0|0.83|1.32||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 30 and 45 minutes postdose||1.32|0.83|0.711
92252665|NCT03136367|184406366|SUPERIORITY|||||||0.11||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.11
92252666|NCT03136367|184406366|SUPERIORITY|||||||0.037||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.037
92252667|NCT03136367|184406366|SUPERIORITY|||||||0.28||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.28
92252668|NCT00523614|184406368|NON_INFERIORITY_OR_EQUIVALENCE|"Size of the study adapted to the use of DNG/EE in female fertile age. Market share of DNG/EE of 13% in Germany. Assuming that 30% of women in the fertile age range were current users of OCs, a prevalence of current use of DNG/EE of about 4% was estimated.~Based on these data the number of cases needed to exclude a twofold increased VTE risk was estimated at about 500-700 cases (based on four controls per case)."|Odds Ratio (OR)|0.89|||<|0.05||95.0|0.57|1.39|||Regression, Logistic|||Null hypothesis: OR ≥ 2 (VTE of DNG/EE vs. other low-dose COC)||1.39|0.57|<0.05
92283531|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.215|TWO_SIDED|95.0|0.64|1.11||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 45 and 60 minutes postdose||1.11|0.64|0.215
92252669|NCT01230749|184406385|SUPERIORITY_OR_OTHER||Difference in LSM|-27.4||||0.006|TWO_SIDED|95.0|-46.792|-8.008|||ANCOVA|||||-8.008|-46.792|0.006
92252670|NCT01230749|184406385|SUPERIORITY_OR_OTHER||Difference in LSM|-20.47||||0.038|TWO_SIDED|95.0|-39.801|-1.142|||ANCOVA|||||-1.142|-39.801|0.038
92252671|NCT01230749|184406385|SUPERIORITY_OR_OTHER||Difference in LSM|-13.24||||0.178|TWO_SIDED|95.0|-32.635|6.151|||ANCOVA|||||6.151|-32.635|0.178
92252672|NCT01230749|184406386|SUPERIORITY_OR_OTHER||Difference in LSM|-28.28||||0.005|TWO_SIDED|95.0|-47.606|-8.957|||ANCOVA|||||-8.957|-47.606|0.005
92252673|NCT01230749|184406386|SUPERIORITY_OR_OTHER||Difference in LSM|-21.97||||0.025|TWO_SIDED|95.0|-41.154|-2.786|||ANCOVA|||||-2.786|-41.154|0.025
92252674|NCT01230749|184406386|SUPERIORITY_OR_OTHER||Difference in LSM|-17.71||||0.069|TWO_SIDED|95.0|-36.86|1.431|||ANCOVA|||||1.431|-36.860|0.069
92252675|NCT01230749|184406387|SUPERIORITY_OR_OTHER||Difference in LSM|2.76||||0.628|TWO_SIDED|95.0|-8.542|14.054|||ANCOVA|||||14.054|-8.542|0.628
92252676|NCT01230749|184406387|SUPERIORITY_OR_OTHER||Difference in LSM|13.7||||0.018|TWO_SIDED|95.0|2.392|25.008|||ANCOVA|||||25.008|2.392|0.018
92252677|NCT01230749|184406387|SUPERIORITY_OR_OTHER||Difference in LSM|5.87||||0.303|TWO_SIDED|95.0|-5.417|17.148|||ANCOVA|||||17.148|-5.417|0.303
92252678|NCT01230749|184406388|SUPERIORITY_OR_OTHER||Difference in LSM|-1.86||||0.041|TWO_SIDED|95.0|-3.634|-0.082|||ANCOVA|||||-0.082|-3.634|0.041
92252679|NCT01230749|184406388|SUPERIORITY_OR_OTHER||Difference in LSM|-0.26||||0.769|TWO_SIDED|95.0|-2.033|1.509|||ANCOVA|||||1.509|-2.033|0.769
92252680|NCT01230749|184406388|SUPERIORITY_OR_OTHER||Difference in LSM|-0.69||||0.444|TWO_SIDED|95.0|-2.463|1.091|||ANCOVA|||||1.091|-2.463|0.444
92252681|NCT01230749|184406389|SUPERIORITY_OR_OTHER||GMR mulitplied by 100 percent|95.1||||0.774|TWO_SIDED|90.0|71.031|127.324|||ANCOVA|||||127.324|71.031|0.774
92252682|NCT01230749|184406389|SUPERIORITY_OR_OTHER||GMR multiplied by 100 percent|89.9||||0.555|TWO_SIDED|90.0|66.567|121.403|||ANCOVA|||||121.403|66.567|0.555
92252683|NCT01230749|184406390|SUPERIORITY_OR_OTHER||GMR multiplied by 100 percent|100.17||||0.968|TWO_SIDED|90.0|93.217|107.647|||ANCOVA|||||107.647|93.217|0.968
92252684|NCT01230749|184406390|SUPERIORITY_OR_OTHER||GMR multiplied by 100 percent|101.18||||0.785|TWO_SIDED|90.0|94.179|108.7|||ANCOVA|||||108.700|94.179|0.785
92252685|NCT01230749|184406391|SUPERIORITY_OR_OTHER||GMR multiplied by 100 percent|133.27||||0.097|TWO_SIDED|90.0|100.275|177.115|||ANCOVA|||||177.115|100.275|0.097
92252686|NCT01230749|184406391|SUPERIORITY_OR_OTHER||GMR mulitplied by 100 percent|101.82||||0.917|TWO_SIDED|90.0|76.26|135.942|||ANCOVA|||||135.942|76.260|0.917
92252687|NCT01230749|184406392|SUPERIORITY_OR_OTHER||Difference in LSM|0.46||||0.295|TWO_SIDED|95.0|-0.408|1.323|||ANCOVA|||||1.323|-0.408|0.295
92252688|NCT01230749|184406392|SUPERIORITY_OR_OTHER||Difference in LSM|0.03||||0.941|TWO_SIDED|95.0|-0.838|0.904|||ANCOVA|||||0.904|-0.838|0.941
92252689|NCT01230749|184406392|SUPERIORITY_OR_OTHER||Difference in LSM|1.02||||0.022|TWO_SIDED|95.0|0.15|1.892|||ANCOVA|||||1.892|0.150|0.022
92252690|NCT00191386|184406401|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score 6 Months|Paired t-test|||||||<0.001
92252691|NCT00191386|184406401|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score 12 Months|Paired t-test|||||||<0.001
92252692|NCT00191386|184406401|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score 2 Years.|Paired t-test|||||||<0.001
92252693|NCT00191386|184406401|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score 3 Years.|Paired t-test|||||||<0.001
92252694|NCT00191386|184406401|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score 4 Years.|Paired t-test|||||||<0.001
92252695|NCT00191386|184406402|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 6 Months.|Paired t-test|||||||<0.001
92252696|NCT00191386|184406402|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 12 Months.|Paired t-test|||||||<0.001
92252697|NCT00191386|184406402|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 2 Years.|Paired t-test|||||||<0.001
92252698|NCT00191386|184406402|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 3 Years.|Paired t-test|||||||<0.001
92252699|NCT00191386|184406402|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 4 Years.|Paired t-test|||||||<0.001
92252700|NCT02574481|184406418|NON_INFERIORITY|A two-group Farrington-Manning test is used to test the one-sided hypothesis of non-inferiority in proportions.|||||<|0.0001||||||A two-group Farrington-Manning test is used to test the one-sided hypothesis of non-inferiority in proportions. If the P-value from the one-sided Farrington-Manning test is \<0.05, Eluvia is concluded to be non-inferior to Zilver PTX.|Farrington-Manning|||||||<0.0001
92252701|NCT02574481|184406419|NON_INFERIORITY|A two-group Farrington-Manning test is used to test the one-sided hypothesis of non-inferiority in proportions..|||||<|0.0001||||||A two-group Farrington-Manning test is used to test the one-sided hypothesis of non-inferiority in proportions. If the P-value from the one-sided Farrington-Manning test is \<0.05, Eluvia is concluded to be non-inferior to Zilver PTX.|Farrington-Manning|||||||<0.0001
92252702|NCT00446641|184406439|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.654||95.0|||||Chi-squared|||We assumed that the prevalence of AR would be 12 % among ischemic stroke patients who were treated with aspirin 100 per day. The prevalence could be reduced to 4% with additional cilostazol therapy||||0.654
92252703|NCT04038385|184406461|SUPERIORITY||Mean Difference (Net)|-42.87||||0.001|TWO_SIDED|95.0|-65.25|-20.49|||Mixed Models Analysis|||||-20.49|-65.25|0.001
92252704|NCT04038385|184406462|SUPERIORITY||Median Difference (Net)|23.91||||0.031|TWO_SIDED|95.0|2.21|45.62|||Mixed Models Analysis|||||45.62|2.21|0.031
92283532|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.367|TWO_SIDED|95.0|0.67|1.16||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 45 and 60 minutes postdose||1.16|0.67|0.367
92252705|NCT04038385|184406463|SUPERIORITY||Median Difference (Net)|-0.06||||0.662|TWO_SIDED|95.0|-0.33|0.21|||Mixed Models Analysis|||||0.21|-0.33|0.662
92252706|NCT04038385|184406464|SUPERIORITY||Mean Difference (Net)|0.28||||0.047|TWO_SIDED|95.0|0.0|0.55|||Mixed Models Analysis|||||0.55|0.00|0.047
92252707|NCT04038385|184406465|SUPERIORITY||Odds Ratio (OR)|17.39|||<|0.01|TWO_SIDED|95.0|8.64|35.02|||Regression, Logistic|||||35.02|8.64|<0.01
92252708|NCT04038385|184406466|SUPERIORITY||Odds Ratio (OR)|3.9||||0.056|TWO_SIDED|95.0|1.0|16.1|||Mixed Models Analysis|||||16.1|1.0|0.056
92252709|NCT04038385|184406467|SUPERIORITY||Odds Ratio (OR)|4.0||||0.05|TWO_SIDED|95.0|1.0|16.3|||Mixed Models Analysis|||||16.3|1.0|0.050
92252710|NCT04038385|184406468|SUPERIORITY||Mean Difference (Net)|-1.7||||0.001|TWO_SIDED|95.0|-2.5|-1.0|||Mixed Models Analysis|||||-1.0|-2.5|0.001
92252711|NCT04038385|184406469|SUPERIORITY||Median Difference (Net)|-0.7||||0.082|TWO_SIDED|95.0|-1.4|0.1|||Mixed Models Analysis|||||0.1|-1.4|0.082
92252712|NCT04038385|184406470|SUPERIORITY||Mean Difference (Net)|-1.5||||0.001|TWO_SIDED|95.0|-2.2|-0.8|||Mixed Models Analysis|||||-0.8|-2.2|0.001
92252713|NCT04038385|184406471|SUPERIORITY||Median Difference (Net)|-0.7||||0.039|TWO_SIDED|95.0|-1.4|0.0|||Mixed Models Analysis|||||-0.0|-1.4|0.039
92252714|NCT04038385|184406472|SUPERIORITY||Mean Difference (Net)|0.0||||0.962|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||||0.3|-0.3|0.962
92252715|NCT04038385|184406473|SUPERIORITY||Mean Difference (Net)|-0.2||||0.277|TWO_SIDED|95.0|-0.4|0.1|||Mixed Models Analysis|||||0.1|-0.4|.277
92252716|NCT04038385|184406474|SUPERIORITY||Median Difference (Net)|-0.4||||0.155|TWO_SIDED|95.0|-1.0|0.2|||Mixed Models Analysis|||||0.2|-1.0|0.155
92252717|NCT04038385|184406475|SUPERIORITY||Mean Difference (Net)|0.1||||0.74|TWO_SIDED|95.0|-0.5|0.7|||Mixed Models Analysis|||||0.7|-0.5|0.740
92252718|NCT04038385|184406476|SUPERIORITY||Median Difference (Net)|-0.2||||0.122|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||||0.1|-0.5|.122
92252719|NCT04038385|184406477|SUPERIORITY||Mean Difference (Net)|-0.2||||0.177|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||||0.1|-0.5|.177
92252720|NCT04038385|184406478|SUPERIORITY||Median Difference (Net)|0.1||||0.514|TWO_SIDED|95.0|-0.3|0.5|||Mixed Models Analysis|||||0.5|-0.3|0.514
92252721|NCT04038385|184406479|SUPERIORITY||Median Difference (Net)|0.2||||0.335|TWO_SIDED|95.0|-0.2|0.6|||Mixed Models Analysis|||||0.6|-0.2|0.335
92252722|NCT04038385|184406480|SUPERIORITY||Mean Difference (Net)|0.1||||0.75|TWO_SIDED|95.0|-0.4|0.6|||Mixed Models Analysis|||||0.6|-0.4|0.750
92252723|NCT04038385|184406481|SUPERIORITY||Mean Difference (Net)|-0.2||||0.455|TWO_SIDED|95.0|-0.7|0.3|||Mixed Models Analysis|||||0.3|-0.7|0.455
92252724|NCT04038385|184406482|SUPERIORITY||Mean Difference (Net)|0.9||||0.053|TWO_SIDED|95.0|0.0|1.8|||Mixed Models Analysis|||||1.8|-0.0|0.053
92252725|NCT04038385|184406483|SUPERIORITY||Mean Difference (Net)|0.0||||0.986|TWO_SIDED|95.0|-0.9|0.9|||Mixed Models Analysis|||||0.9|-0.9|.986
92252726|NCT04038385|184406484|SUPERIORITY||Odds Ratio (OR)|1.1||||0.81|TWO_SIDED|95.0|0.6|2.2|||Mixed Models Analysis|||||2.2|0.6|0.810
92252727|NCT04038385|184406485|SUPERIORITY||Odds Ratio (OR)|0.8||||0.591|TWO_SIDED|95.0|0.4|1.7|||Mixed Models Analysis|||||1.7|0.4|0.591
92252728|NCT02279160|184406492|SUPERIORITY||Multiple imputation|0.742||||0.022|TWO_SIDED|95.0|0.575|0.958|||ANCOVA|||||0.958|0.575|0.0220
92252729|NCT02279160|184406493|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.9002|TWO_SIDED|95.0|-28.0|30.0|||Stratified Wilcoxon|||||30.0|-28.0|0.9002
92252730|NCT03180294|184406512|SUPERIORITY|||||||0.46|||||||t-test, 1 sided|||Using a two sample t-test with a one-sided type I error of 0.05 (overall type I error of 0.1 after a Bonferroni correction) and an effect size of 0.45, 62 patients/arm were calculated to be needed to achieve 80% statistical power. Adjusting for 20% non-compliance resulted in a total sample size of 234 patients..||||0.46
92252731|NCT03180294|184406512|SUPERIORITY|||||||0.54|||||||t-test, 1 sided|||Using a two sample t-test with a one-sided type I error of 0.05 (overall type I error of 0.1 after a Bonferroni correction) and an effect size of 0.45, 62 patients/arm were calculated to be needed to achieve 80% statistical power. Adjusting for 20% non-compliance resulted in a total sample size of 234 patients..||||0.54
92252732|NCT03180294|184406513|SUPERIORITY|||||||0.95||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.95
92252733|NCT03180294|184406513|SUPERIORITY|||||||0.73||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.73
92252734|NCT03180294|184406513|SUPERIORITY|||||||0.46||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.46
92252735|NCT03180294|184406513|SUPERIORITY|||||||0.42||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.42
92252736|NCT03180294|184406514|SUPERIORITY|||||||0.24||||||One-side significance level 0.05|t-test, 1 sided|||||||0.24
92252737|NCT03180294|184406514|SUPERIORITY|||||||0.74||||||One-sided significance level 0.05|t-test, 1 sided|||||||0.74
92252738|NCT03180294|184406515|SUPERIORITY|||||||0.41||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.41
92252739|NCT03180294|184406515|SUPERIORITY|||||||0.6||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.60
92252740|NCT03180294|184406515|SUPERIORITY|||||||0.9||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.90
92252741|NCT03180294|184406515|SUPERIORITY|||||||0.79||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.79
92252742|NCT03180294|184406516|SUPERIORITY|||||||0.41||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.41
92252743|NCT03180294|184406516|SUPERIORITY|||||||0.35||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.35
92252744|NCT03180294|184406516|SUPERIORITY|||||||0.83||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.83
92252745|NCT03180294|184406516|SUPERIORITY|||||||0.79||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.79
92252746|NCT03180294|184406517|SUPERIORITY|||||||0.78||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.78
92252747|NCT03180294|184406517|SUPERIORITY|||||||0.51||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.51
92252748|NCT03180294|184406517|SUPERIORITY|||||||0.49||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.49
92252749|NCT03180294|184406517|SUPERIORITY|||||||0.5||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.50
92252750|NCT03180294|184406518|SUPERIORITY|||||||0.71|||||||Chi-squared|One-sided significance level 0.05||||||0.71
92252751|NCT03180294|184406518|SUPERIORITY|||||||0.34|||||||Chi-squared|One-sided significance level 0.05||||||0.34
92252752|NCT03180294|184406519|SUPERIORITY|||||||0.23||||||One-sided significance level 0.05|t-test, 1 sided|||||||0.23
92252753|NCT03180294|184406519|SUPERIORITY|||||||0.25||||||One-sided significance level 0.05|t-test, 1 sided|||||||0.25
92252754|NCT01951326|184406541|SUPERIORITY|||||||0.0048|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0048
92252755|NCT01951326|184406542|SUPERIORITY|||||||0.0116|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0116
92252756|NCT01951326|184406543|SUPERIORITY|||||||0.0616|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0616
92252757|NCT01951326|184406544|SUPERIORITY|||||||0.0851|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0851
92252758|NCT01951326|184406545|SUPERIORITY|||||||0.0147|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0147
92252759|NCT01951326|184406546|SUPERIORITY|||||||0.151|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.1510
92252760|NCT01951326|184406547|SUPERIORITY|||||||0.2402|||||||Log Rank|||||||0.2402
92252761|NCT01951326|184406548|SUPERIORITY|||||||0.046|||||||Log Rank|||||||0.0460
92252762|NCT01951326|184406549|SUPERIORITY|||||||0.0031|||||||Log Rank|||||||0.0031
92252763|NCT01951326|184406550|SUPERIORITY|||||||0.01|||||||Log Rank|||||||0.0100
92252764|NCT01951326|184406551|SUPERIORITY|||||||0.0077|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0077
92252765|NCT01951326|184406552|SUPERIORITY|||||||0.0422|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0422
92252766|NCT03300427|184406578|SUPERIORITY||difference in least square means|-900.0||||0.7594|TWO_SIDED|95.0|-6781.7|4981.8|||ANCOVA|||The study hypothesis is that short-term therapy with sacubitril/valsartan added on standard HF therapy improves cardiac efficiency in subjects with systolic HF.||4981.8|-6781.7|0.7594
92252767|NCT03300427|184406580|SUPERIORITY||difference in least square means|-575.5||||0.8422|TWO_SIDED|95.0|-6365.5|5214.5|||ANCOVA|||The study hypothesis is that short-term therapy with sacubitril/valsartan added on standard HF therapy improves cardiac efficiency in subjects with systolic HF.||5214.5|-6365.5|0.8422
92252768|NCT00762528|184406670|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92252769|NCT00762528|184406671|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92252770|NCT00762528|184406672|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92252771|NCT00762528|184406673|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92252772|NCT00762528|184406674|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92252773|NCT00762528|184406675|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92252774|NCT00762528|184406676|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92252775|NCT00762528|184406677|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92252776|NCT03417505|184406678|SUPERIORITY||||||<|0.01|||||||t-test, 1 sided|Paired t-test comparison||||||<0.01
92252777|NCT03417505|184406679|SUPERIORITY||||||<|0.05||||||Calculated p value was \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank comparisons, one-sided||||||<0.05
92252778|NCT03417505|184406680|SUPERIORITY||||||<|0.01|||||||t-test, 1 sided|paired 1-sided t-test||||||<0.01
92252779|NCT03417505|184406681|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank comparison, one sided p value||||||<0.01
92252780|NCT03417505|184406682|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05.|t-test, 1 sided|paired||||||>0.05
92252781|NCT03417505|184406683|SUPERIORITY||||||<|0.05||||||Calculated p value was \<0.05.|Wilcoxon (Mann-Whitney)|paired, 1-sided||||||<0.05
92252782|NCT03417505|184406684|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|paired, 1-sided||||||<0.01
92252783|NCT03417505|184406685|SUPERIORITY||||||<|0.05||||||Calculated p value was \<0.05.|Wilcoxon (Mann-Whitney)|paired, 1-sided||||||<0.05
92252784|NCT03417505|184406686|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05.|Wilcoxon (Mann-Whitney)|paired, 1-sided||||||>0.05
92252785|NCT04211961|184406707|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
92252786|NCT04211961|184406708|SUPERIORITY||||||>|0.9|||||||Fisher Exact|||||||>0.9
92252787|NCT04211961|184406709|SUPERIORITY|||||||0.3|||||||Fisher Exact|||||||0.3
92252788|NCT04211961|184406710|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
92252789|NCT04211961|184406712|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.6
92252790|NCT04211961|184406713|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
92252791|NCT04211961|184406714|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
92252792|NCT04211961|184406716|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
92252793|NCT04211961|184406717|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.9
92252794|NCT04211961|184406718|SUPERIORITY||||||>|0.9|||||||Fisher Exact|||||||>0.9
92252795|NCT04211961|184406719|SUPERIORITY||||||>|0.9|||||||Fisher Exact|||||||>0.9
92252796|NCT04211961|184406720|SUPERIORITY||||||>|0.9|||||||Fisher Exact|||||||>0.9
92252797|NCT00879437|184406803|NON_INFERIORITY|if 19 evaluable patients enrolled for DIPG, study is powered at 80% to detect a 20% improvement in 1-year EFS compared to historical control if 21 evaluable patients enrolled for HGG, study is powered at 80% to detect a 20% improvement in 1-year EFS compared to historical control|||||<|0.05|||||||Log Rank|one sample log-rank||comparing 1-year EFS of DIPG on this trial versus historical control (1-year EFS of 17% from CCG-9941; PMID 12177103) comparing 1-year EFS of HGG on this trial versus historical control (1-year EFS of 36% from ACNS0126; PMID 21339192)||||< 0.05
92252798|NCT00879437|184406843|OTHER|The Kaplan-Meier method was used to estimate the median EFS for each cohort with 95% confidence intervals. All analyses were performed in SAS version 9.4 statistical software (SAS Institute Inc) and R (https://cran.r-project.org/).|||||||TWO_SIDED|95.0|||||||||The Kaplan-Meier method was used to estimate the median EFS for each cohort with 95% confidence intervals.|||
92182762|NCT02609048|184264679|SUPERIORITY||Difference in LSM|-40.78|STANDARD_ERROR_OF_MEAN|11.033||0.0008|TWO_SIDED|95.0|-63.28|-18.28||Difference between means, p-value,and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor, baseline GGT assessment as covariate,and percent change from baseline in GGT as response variable.|ANCOVA|||||-18.28|-63.28|0.0008
92252799|NCT00879437|184406844|OTHER|The Kaplan-Meier method was used to estimate the one-year EFS for each cohort with 95% confidence intervals. All analyses were performed in SAS version 9.4 statistical software (SAS Institute Inc) and R (https://cran.r-project.org/).|||||||TWO_SIDED|95.0|||||||||The Kaplan-Meier method was used to estimate the one-year EFS for each cohort with 95% confidence intervals.|||
92252800|NCT00879437|184406845|OTHER|||||||||||||||||partial response defined as 51% to 99% reduction in tumor size,determined using WHO bi-dimensional criteria (product of the greatest tumor diameter and its perpendicular diameter)|Not applicable (8 partial responses in 16 patients = 50%)|||
92252801|NCT04362813|184406876|SUPERIORITY||Odds Ratio (OR)|1.39||||0.2874|TWO_SIDED|95.0|0.76|2.54|||Regression, Logistic|||Odds ratio is based on a Logistic regression model adjusted by treatment, region (North America vs Europe), and baseline 9-point ordinal scale (\<=4, \>=5).||2.54|0.76|0.2874
92252802|NCT04362813|184406877|SUPERIORITY||Odds Ratio (OR)|0.67||||0.3303|TWO_SIDED|95.0|0.3|1.5|||Regression, Logistic|||Odds ratio is based on a Logistic regression model adjusted by treatment, region (North America vs Europe), and baseline 9-point ordinal scale (\<=4, \>=5)||1.50|0.30|0.3303
92252803|NCT04445688|184406909|SUPERIORITY||difference in Least Squares Mean|-7.3|||<|0.0001|TWO_SIDED|95.0|-10.2|-4.4|||ANOVA|||||-4.4|-10.2|<0.0001
92252804|NCT04445688|184406910|SUPERIORITY||difference in Least Squares Mean|-21.8|||<|0.0001|TWO_SIDED|95.0|-29.5|-14.1|||ANOVA|||||-14.1|-29.5|<0.0001
92252805|NCT04445688|184406911|SUPERIORITY||difference in Least Squares Mean|-7.3|||<|0.0001|TWO_SIDED|95.0|-10.5|-4.2|||ANOVA|||||-4.2|-10.5|<0.0001
92252806|NCT01363258|184406918|OTHER|Generalized linear mixed models fitted with binomial (logit link) and gamma (log link) distributions, with additional dispersion parameters, were used to estimate and test intervention effects in terms of occurrence and intensity of CRBs, respectively. Inference was conducted in the link scale, but inverse-link estimates in the original scales (proportions and CRB scores, for the binomial and gamma models, respectively) were computed to facilitate interpretation.|Effect size|-0.16||||0.1433|TWO_SIDED||||||Time by group interaction test|||||||0.1433
92252807|NCT00918346|184406925|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence limit was set to 1.5 mmHg. Equivalence was shown if the two-sided 95% confidence interval for the difference (unpreserved-preserved) lay entirely within the equivalence range (-1.5 mmHg, 1.5 mmHg). Target sample size was 34 evaluable patients (40 randomized), assuming a standard deviation of 3.0 mmHg change in IOP, a power of 80%, an intra-class correlation coefficient of 0.60 and a twosided type 1 error rate of 5%.|Mean Difference (Final Values)|0.01||||0.96||95.0|-0.46|0.49|||ANCOVA|Baseline IOP a covariate|Analysis model used IOP measurements at four timepoints (at 8, 12, 16 and 20 o'clock) on Baseline and Week 4.|H1 (the alternative hypothesis aimed to be proven): the unpreserved formulation is equivalent with the preserved formulation||0.49|-0.46|0.96
92252808|NCT00918346|184406926|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence limit was set to 1.5 mmHg. Equivalence was shown if the two-sided 95% confidence interval for the difference (unpreserved-preserved) lay entirely within the equivalence range (-1.5 mmHg, 1.5 mmHg). Target sample size was 34 evaluable patients (40 randomized), assuming a standard deviation of 3.0 mmHg change in IOP, a power of 80%, an intra-class correlation coefficient of 0.60 and a twosided type I error rate of 5%.|Median Difference (Final Values)|-0.05||||0.83||95.0|-0.52|0.42|||ANCOVA|Baseline IOP a covariate|Analysis model used IOP measurements at four timepoints (at 8, 12, 16 and 20 o'clock) on Baseline and Week 4|H1 (the alternative hypothesis aimed to be proven): the unpreserved formulation is equivalent with the preserved formulation||0.42|-0.52|0.83
92252809|NCT03549429|184406956|SUPERIORITY||Percent difference|8.0||||0.03|TWO_SIDED|95.0|1.5|14.4|||McNemar|||We compared the proportion of patients who had postoperative eyelid erythema with Tegaderm™ to those who had postop eyelid erythema with EyeGard®.||14.4|1.5|0.03
92252810|NCT03549429|184406957|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.23|TWO_SIDED||||||t-test, 2 sided|paired||||||0.23
92252811|NCT02157168|184406959|SUPERIORITY|||||||0.624||||||This comparison reflects intent to treat and is the main comparison in the study.|Chi-squared|||CG and IG (IG1+IG2)||||0.624
92252812|NCT02157168|184406959|SUPERIORITY|||||||0.001||||||This comparison could be considered to be a per protocol analysis. Note, however, that the IG1 group was self-selected.|Chi-squared|||||||0.001
92252813|NCT02157168|184406960|SUPERIORITY|||||||0.278||||||This comparison reflects intent to treat and compares the two randomized groups CG and IG (IG1+IG2).|Chi-squared|||CG and IG (IG1+IG2)||||0.278
92252814|NCT02157168|184406960|SUPERIORITY|||||||0.056||||||This comparison could be considered to be a per protocol analysis. Note, however, that the IG1 group was self-selected.|Chi-squared|||||||0.056
92252815|NCT02157168|184406961|SUPERIORITY|||||||0.889||||||This comparison reflects intent to treat and compares the two randomized groups CG and IG (IG1+IG2).|Chi-squared|||CG and IG (IG1+IG2)||||0.889
92252816|NCT02157168|184406961|SUPERIORITY|||||||0.691||||||This comparison could be considered to be a per protocol analysis. Note, however, that the IG1 group was self-selected.|Chi-squared|||||||0.691
92252817|NCT02157168|184406962|SUPERIORITY|||||||0.741||||||This comparison reflects intent to treat and compares the two randomized groups CG and IG (IG1+IG2).|Chi-squared|||CG and IG (IG1+IG2)||||0.741
92176794|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.643||||0.1787|TWO_SIDED|95.0|-0.683|5.968|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||5.968|-0.683|0.1787
92176795|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.806||||0.5243|TWO_SIDED|95.0|-1.406|5.018|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||5.018|-1.406|0.5243
92176796|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.77||||0.3956|TWO_SIDED|95.0|-0.966|4.507|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||4.507|-0.966|0.3956
92252818|NCT02157168|184406962|SUPERIORITY|||||||0.966||||||This comparison could be considered to be a per protocol analysis. Note, however, that the IG1 group was self-selected.|Chi-squared|||||||0.966
92252819|NCT02157168|184406963|SUPERIORITY|||||||0.117||||||This comparison captures the change over the intervention period.|Chi-squared|||||||.117
92252820|NCT02157168|184406963|SUPERIORITY|||||||0.638||||||This comparison is an indication of whether the change seen between baseline and 6 months in the IG1 was due to the intervention or simply due to 6 months' enrollment.|Chi-squared|||||||.638
92252821|NCT02971293|184406964|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
92252822|NCT02971293|184406964|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252823|NCT02971293|184406964|SUPERIORITY|||||||0.02|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.020
92252824|NCT02971293|184406976|SUPERIORITY|||||||0.002|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.002
92252825|NCT02971293|184406976|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252826|NCT02971293|184406976|SUPERIORITY|||||||0.011|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.011
92252827|NCT02971293|184406977|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
92252828|NCT02971293|184406977|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252829|NCT02971293|184406977|SUPERIORITY|||||||0.201|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.201
92252830|NCT02971293|184406978|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
92252831|NCT02971293|184406978|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252832|NCT02971293|184406978|SUPERIORITY|||||||0.02|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.020
92252833|NCT02971293|184406979|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
92252834|NCT02971293|184406979|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252835|NCT02971293|184406979|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||<0.001
92252836|NCT02971293|184406980|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
92252837|NCT02971293|184406980|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252838|NCT02971293|184406980|SUPERIORITY|||||||0.092|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.092
92252839|NCT02971293|184406981|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
92252840|NCT02971293|184406981|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252841|NCT02971293|184406981|SUPERIORITY|||||||0.279|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.279
92252842|NCT02971293|184406982|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
92252843|NCT02971293|184406982|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252844|NCT02971293|184406982|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||<0.001
92252845|NCT02971293|184406983|SUPERIORITY|||||||0.205|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.205
92252846|NCT02971293|184406983|SUPERIORITY|||||||0.002|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||0.002
92252847|NCT02971293|184406983|SUPERIORITY|||||||0.06|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.060
92252848|NCT02971293|184406984|SUPERIORITY|||||||0.111|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.111
92176797|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.068||||0.381|TWO_SIDED|95.0|-1.16|5.295|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||5.295|-1.160|0.3810
92176798|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|3.084||||0.0557|TWO_SIDED|95.0|-0.049|6.216|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||6.216|-0.049|0.0557
92176799|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.445||||0.0195|TWO_SIDED|95.0|0.4|4.49|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||4.490|0.400|0.0195
92176800|NCT04800211|184247062|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-1.277||||0.2817|TWO_SIDED|95.0|-3.615|1.06|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||1.060|-3.615|0.2817
92176801|NCT05170841|184247063|SUPERIORITY||||||=|0.566|||||||t-test, 2 sided|||||||=0.566
92176802|NCT05170841|184247064|SUPERIORITY||||||=|0.013|||||||t-test, 2 sided|||||||=0.013
92176803|NCT05170841|184247065|SUPERIORITY||||||=|0.006|||||||t-test, 2 sided|||||||=0.006
92252849|NCT02971293|184406984|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252850|NCT02971293|184406984|SUPERIORITY|||||||0.015|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.015
92252851|NCT02971293|184406985|SUPERIORITY|||||||0.621|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.621
92283533|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.687|TWO_SIDED|95.0|0.82|1.35||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 45 and 60 minutes postdose||1.35|0.82|0.687
92283534|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.73|TWO_SIDED|95.0|0.67|1.32||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 60 and 75 minutes postdose||1.32|0.67|0.730
92252852|NCT02971293|184406985|SUPERIORITY|||||||0.138|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||0.138
92252853|NCT02971293|184406985|SUPERIORITY|||||||0.333|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.333
92252854|NCT02971293|184406986|SUPERIORITY|||||||0.748|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.748
92252855|NCT02971293|184406986|SUPERIORITY|||||||0.005|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||0.005
92252856|NCT02971293|184406986|SUPERIORITY|||||||0.013|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.013
92252857|NCT02971293|184406987|SUPERIORITY|||||||0.064|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.064
92252858|NCT02971293|184406987|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252859|NCT02971293|184406987|SUPERIORITY|||||||0.03|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.030
92252860|NCT02971293|184406988|SUPERIORITY|||||||0.018|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.018
92252861|NCT02971293|184406988|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
92252862|NCT02971293|184406988|SUPERIORITY|||||||0.047|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.047
92252863|NCT02971293|184406989|SUPERIORITY|||||||0.477|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.477
92252864|NCT02971293|184406989|SUPERIORITY|||||||0.014|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||0.014
92252865|NCT02971293|184406989|SUPERIORITY|||||||0.084|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.084
92252866|NCT02971293|184406990|SUPERIORITY|||||||0.213|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.213
92252867|NCT02971293|184406990|SUPERIORITY|||||||0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||0.001
92252868|NCT02971293|184406990|SUPERIORITY|||||||0.046|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.046
92252869|NCT02754661|184406991|NON_INFERIORITY|The non-inferiority margin (δ) is pre-defined to be 5% in this study. Posterior Probability was based on Bayesian analysis.|Posterior Probability Bayesian analysis|0.9999|||||TWO_SIDED||||||||Support the claim of statistical non-inferiority of CCE vs CTC|||||
92252870|NCT02754661|184406992|NON_INFERIORITY|Non-inferiority margin was set as 10%|Risk Difference (RD)|0.3732|||<|0.0001|TWO_SIDED|90.0|0.203|0.5434|||Farrington-Manning test||Based on Farrington-Manning Method|||0.5434|0.2030|<0.0001
92252871|NCT02754661|184406993|NON_INFERIORITY|Non-inferiority margin was set as 10%|Risk Difference (RD)|-0.026||||0.019|TWO_SIDED|90.0|-0.0847|0.0327|||Farrington-Manning test||Based on Farrington-Manning Method|||0.0327|-0.0847|0.0190
92252872|NCT02754661|184406994|NON_INFERIORITY|Non-inferiority margin was set as 10%|Risk Difference (RD)|0.0023||||0.093|TWO_SIDED|90.0|-0.1249|0.1249|||Farrington-Manning test||Based on Farrington-Manning Method|||0.1249|-0.1249|0.0930
92252873|NCT02754661|184406995|NON_INFERIORITY|Non-inferiority margin was set as 10%|Risk Difference (RD)|0.0607||||0.0034|TWO_SIDED|90.0|-0.0371|0.1585|||Farrington-Manning test||Based on Farrington-Manning Method|||0.1585|-0.0371|0.0034
92252874|NCT00729326|184407001|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-values were not adjusted. The primary measure was change in 24-hour glucose without multiplicity adjustments for other analyses.|ANCOVA|Analyses for continuous variables adjusted for treatment, period, sequence, baseline of the continuous variable.Analysis method was Grizzle's model.||Null hypothesis: The 24-hour average glucose for exenatide was greater than or equal to that for sitagliptin after 4 weeks of treatment. The primary objective was to compare exenatide with sitagliptin on the time-averaged glucose during the 24-hour inpatient periods after 4 weeks of treatment.||||<.001
92252875|NCT00729326|184407002|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92252876|NCT00729326|184407003|SUPERIORITY_OR_OTHER|||||||0.766||95.0|||||ANCOVA|||||||.766
92252877|NCT00729326|184407004|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92252878|NCT00729326|184407005|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92252879|NCT00729326|184407006|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||ANCOVA|||||||.117
92252880|NCT00729326|184407007|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92252881|NCT00729326|184407008|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92252882|NCT00729326|184407009|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92252883|NCT00729326|184407010|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92252884|NCT00729326|184407011|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92252885|NCT00729326|184407012|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92252886|NCT00729326|184407013|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
92252887|NCT01000025|184407023|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.506|TWO_SIDED|95.0|0.83|1.21||Stratified by stratification factors at randomization except study center, but included K-Ras mutation status.1-sied p-value.|Log Rank|Stratified by stratification factors at randomization except study center, but included K-Ras mutation status.||The trial was designed to detect a 25% deduction in risk of death with PF-804 with 90% power using a 1-sided 2.5% level significance test. The sample size was estimated as 720 patients.||1.21|0.83|0.506
92252888|NCT01000025|184407024|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.043|TWO_SIDED|95.0|0.61|1.03||1-sided p-value|Log Rank|Stratified by stratification factors at randomization except study center.||||1.03|0.61|0.043
92252889|NCT01000025|184407025|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98||||0.46|TWO_SIDED|95.0|0.67|1.44||1-sided pvalue|Log Rank|||||1.44|0.67|0.46
92252890|NCT01000025|184407026|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.55|0.79|||Log Rank|Stratified by stratification factors at randomization except study center, but included K-Ras mutation status.||||0.79|0.55|< 0.0001
92176804|NCT05170841|184247066|SUPERIORITY||||||=|0.013|||||||t-test, 2 sided|||||||=0.013
92176805|NCT05170841|184247067|SUPERIORITY||||||=|0.031|||||||t-test, 2 sided|||||||=0.031
92176806|NCT05170841|184247068|SUPERIORITY||||||=|0.027|||||||t-test, 2 sided|||||||=0.027
92176807|NCT05170841|184247069|SUPERIORITY||||||=|0.011|||||||t-test, 2 sided|||||||=0.011
92252891|NCT01000025|184407027|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.11||||0.001|TWO_SIDED|95.0|1.84|20.3|||Cochran-Mantel-Haenszel|||||20.3|1.84|0.001
92252892|NCT04423757|184407029|OTHER||Adjusted mean difference|3.38|STANDARD_ERROR_OF_MEAN|3.1||0.2796|TWO_SIDED|90.0|-1.81|8.56|||Mixed Models Analysis||Difference calculated as BI - Placebo.|Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||8.56|-1.81|0.2796
92176808|NCT05170841|184247070|SUPERIORITY||||||=|0.007|||||||t-test, 2 sided|||||||=0.007
92176809|NCT05170841|184247071|SUPERIORITY||||||=|0.013|||||||t-test, 2 sided|||||||=0.013
92252893|NCT04423757|184407030|OTHER||Odds Ratio (OR)|0.276||||0.0468|TWO_SIDED|90.0|0.091|0.781|||Regression, Logistic||For the calculation of the odds ratio Placebo is taken as reference.|Logistic regression includes treatment as covariate.||0.781|0.091|0.0468
92252894|NCT04423757|184407031|OTHER||Adjusted mean difference|1.35|STANDARD_ERROR_OF_MEAN|3.5||0.698|TWO_SIDED|90.0|-4.47|7.17|||Mixed Models Analysis||Difference calculated as BI - Placebo.|S-Anxiety scale - Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||7.17|-4.47|0.6980
92265218|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|17.3||||0.026|TWO_SIDED|95.0|2.4|34.1|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||34.1|2.4|0.026
92265219|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|8.5||||0.271|TWO_SIDED|95.0|-5.1|24.9|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||24.9|-5.1|0.271
92252895|NCT04423757|184407031|OTHER||Adjusted mean difference|3.54|STANDARD_ERROR_OF_MEAN|3.1||0.2589|TWO_SIDED|90.0|-1.67|8.76|||Mixed Models Analysis||Difference calculated as BI - Placebo.|T-Anxiety scale - Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||8.76|-1.67|0.2589
92283535|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.923|TWO_SIDED|95.0|0.74|1.39||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 60 and 75 minutes postdose||1.39|0.74|0.923
92283536|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.573|TWO_SIDED|95.0|0.83|1.4||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 60 and 75 minutes postdose||1.40|0.83|0.573
92176810|NCT05170841|184247072|SUPERIORITY||||||=|0.029|||||||t-test, 2 sided|||||||=0.029
92176811|NCT05170841|184247073|SUPERIORITY||||||=|0.022|||||||t-test, 2 sided|||||||=0.022
92176812|NCT05170841|184247074|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92176813|NCT05170841|184247075|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92176814|NCT05170841|184247076|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||||||=0.001
92252896|NCT04423757|184407032|OTHER||Adjusted mean difference|0.51|STANDARD_ERROR_OF_MEAN|0.4||0.1863|TWO_SIDED|90.0|-0.13|1.15|||Mixed Models Analysis||Difference calculated as BI - Placebo.|Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||1.15|-0.13|0.1863
92283537|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.289|TWO_SIDED|95.0|0.61|1.16||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 75 and 90 minutes postdose||1.16|0.61|0.289
92176815|NCT05170841|184247077|SUPERIORITY||||||=|0.01|||||||t-test, 2 sided|||||||=0.01
92252897|NCT04423757|184407033|OTHER||Adjusted mean difference|0.65|STANDARD_ERROR_OF_MEAN|3.1||0.8326|TWO_SIDED|90.0|-4.46|5.76|||Mixed Models Analysis||Difference calculated as BI - Placebo.|Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||5.76|-4.46|0.8326
92252898|NCT04423757|184407034|OTHER||Adjusted mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.4||0.5567|TWO_SIDED|90.0|-0.43|0.89|||Mixed Models Analysis||Difference calculated as BI - Placebo.|Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||0.89|-0.43|0.5567
92252899|NCT01654523|184407055|SUPERIORITY_OR_OTHER||Mean change in the single arm trial|6.695|STANDARD_DEVIATION|5.505|<|0.05|TWO_SIDED|95.0|4.041|9.348|||Paired t-test|||||9.348|4.041|<0.05
92252900|NCT01575899|184407058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.629|STANDARD_ERROR_OF_MEAN|3.1526||0.008|TWO_SIDED|95.0|1.28|5.42|||Chi-squared|||||5.42|1.28|0.008
92283538|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.379|TWO_SIDED|95.0|0.64|1.18||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 75 and 90 minutes postdose||1.18|0.64|0.379
92252901|NCT01575899|184407060|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.87|STANDARD_ERROR_OF_MEAN|3.2589||0.004|TWO_SIDED|95.0|1.5|10.02|||Chi-squared|||||10.02|1.5|0.004
92252902|NCT00753688|184407086|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35|||<|0.001|TWO_SIDED|95.0|0.26|0.48||Stratified two-sided log rank p-value|Log Rank||The HR was adjusted for World Health Organization (WHO) performance status scale (0 versus 1 at Baseline) and number of prior lines of systemic treatment for advanced disease (0/1 versus 2+).|||0.48|0.26|<0.001
92252903|NCT00753688|184407087|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.256|TWO_SIDED|95.0|0.67|1.12||Stratified two-sided log rank p-value|Log Rank||The HR was adjusted for World Health Organization (WHO) performance status scale (0 versus 1 at Baseline) and number of prior lines of systemic treatment for advanced disease (0/1 versus 2+).|||1.12|0.67|0.256
92252904|NCT00753688|184407091|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.37|||<|0.001|TWO_SIDED|95.0|0.23|0.6||Stratified two-sided log rank p-value for leiomyosarcoma|Log Rank||The HR was adjusted for World Health Organization (WHO) performance status scale (0 versus 1 at Baseline) and number of prior lines of systemic treatment for advanced disease (0/1 versus 2+).|||0.60|0.23|<0.001
92252905|NCT00753688|184407091|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43||||0.005|TWO_SIDED|95.0|0.19|0.98||Stratified two-sided log rank p-value for synovial sarcoma|Log Rank||The HR was adjusted for World Health Organization (WHO) performance status scale (0 versus 1 at Baseline) and number of prior lines of systemic treatment for advanced disease (0/1 versus 2+).|||0.98|0.19|0.005
92252906|NCT00753688|184407091|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.001|TWO_SIDED|95.0|0.25|0.6||Stratified two-sided log rank p-value for other STS histologies|Log Rank||The HR was adjusted for World Health Organization (WHO) performance status scale (0 versus 1 at Baseline) and number of prior lines of systemic treatment for advanced disease (0/1 versus 2+).|||0.60|0.25|<0.001
92252907|NCT01854593|184407124|SUPERIORITY_OR_OTHER|||||||0.025|||||||Wilcoxon (Mann-Whitney)|||||||0.025
92252908|NCT01854593|184407125|SUPERIORITY_OR_OTHER|||||||0.006|||||||Chi-squared|||||||0.006
92252909|NCT01854593|184407126|SUPERIORITY_OR_OTHER|||||||0.033|||||||Fisher Exact|||||||0.033
92252910|NCT01854593|184407127|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92252911|NCT01854593|184407128|SUPERIORITY_OR_OTHER|||||||0.667|||||||Wilcoxon (Mann-Whitney)|||||||0.667
92252912|NCT01854593|184407129|SUPERIORITY_OR_OTHER|||||||0.593|||||||Fisher Exact|||||||0.593
92252913|NCT01854593|184407130|SUPERIORITY_OR_OTHER|||||||0.298|||||||Wilcoxon (Mann-Whitney)|||||||0.298
92252914|NCT01854593|184407131|SUPERIORITY_OR_OTHER|||||||0.929|||||||Wilcoxon (Mann-Whitney)|||||||0.929
92252915|NCT01854593|184407132|SUPERIORITY_OR_OTHER|||||||0.445|||||||Wilcoxon (Mann-Whitney)|||||||0.445
92283539|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.785|TWO_SIDED|95.0|0.79|1.37||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 75 and 90 minutes postdose||1.37|0.79|0.785
92252916|NCT01854593|184407133|SUPERIORITY_OR_OTHER|||||||0.131|||||||Chi-squared|||||||0.131
92252917|NCT01854593|184407134|SUPERIORITY_OR_OTHER|||||||0.149|||||||Fisher Exact|||||||0.149
92252918|NCT01854593|184407135|SUPERIORITY_OR_OTHER|||||||0.67|||||||Fisher Exact|||||||0.670
92252919|NCT01854593|184407136|SUPERIORITY_OR_OTHER|||||||0.378|||||||Chi-squared|||||||0.378
92252920|NCT01216397|184407175|SUPERIORITY_OR_OTHER||adjusted gMean ratio|99.4||||||90.0|94.2|105.0|||ANOVA|||Standard batch vs. Side batch||105.0|94.2|
92252921|NCT01216397|184407176|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.1||||||90.0|96.1|104.2|||ANOVA|||Standard batch vs. Side batch||104.2|96.1|
92252922|NCT01216397|184407177|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.1||||||90.0|94.7|105.8|||ANOVA|||Standard batch vs. Side batch||105.8|94.7|
92252923|NCT01216397|184407185|SUPERIORITY_OR_OTHER||adjusted gMean ratio|97.9||||||90.0|92.5|103.7|||ANOVA|||Standard batch vs. Side batch||103.7|92.5|
92252924|NCT01216397|184407186|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.4||||||90.0|95.7|105.4|||ANOVA|||||105.4|95.7|
92252925|NCT01216397|184407187|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.3||||||90.0|95.7|105.2|||ANOVA|||Standard batch vs. Side batch||105.2|95.7|
92252926|NCT01455415|184407199|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.2||||0.3287|TWO_SIDED|95.0|0.83|1.73||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Regression, Logistic|||Analysis was done using a logistic regression model which included baseline pain, sequence, period and treatment as covariate.||1.73|0.83|0.3287
92252927|NCT01455415|184407200|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.57||||0.0625|TWO_SIDED|95.0|0.98|2.51||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Regression, Logistic|||Analysis was done using a logistic regression model which included baseline pain, sequence, period and treatment as covariate.||2.51|0.98|0.0625
92252928|NCT01455415|184407201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.11||0.9448|TWO_SIDED|95.0|-0.21|0.22||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline pain severity, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.22|-0.21|0.9448
92252929|NCT01455415|184407202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.12||0.4548|TWO_SIDED|95.0|-0.32|0.14||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline interference score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.14|-0.32|0.4548
92252930|NCT01455415|184407203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.11||0.0272|TWO_SIDED|95.0|-0.44|-0.03||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using linear mixed effects model including baseline score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||-0.03|-0.44|0.0272
92252931|NCT01455415|184407204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.18||0.7344|TWO_SIDED|95.0|-0.42|0.3||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline HADS-A score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.30|-0.42|0.7344
92252932|NCT01455415|184407205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.17||0.6007|TWO_SIDED|95.0|-0.42|0.24||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline HADS-D score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.24|-0.42|0.6007
92252933|NCT01455415|184407206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|1.04||0.2987|TWO_SIDED|95.0|-3.13|0.96||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline total score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.96|-3.13|0.2987
92252934|NCT01455415|184407207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.26||0.1769|TWO_SIDED|95.0|-0.85|0.16||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline symptoms domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.16|-0.85|0.1769
92252935|NCT01455415|184407208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.18||0.5119|TWO_SIDED|95.0|-0.48|0.24||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline activities of daily living domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.24|-0.48|0.5119
92265220|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|18.8||||0.021|TWO_SIDED|95.0|3.4|36.0|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||36.0|3.4|0.021
92252936|NCT01455415|184407209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.62||0.4335|TWO_SIDED|95.0|-1.72|0.74||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline physical functioning / large fiber domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.74|-1.72|0.4335
92252937|NCT01455415|184407210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.16||0.9653|TWO_SIDED|95.0|-0.31|0.3||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline small fiber domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.30|-0.31|0.9653
92265221|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|-0.7||||1|TWO_SIDED|95.0|-27.0|34.8|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||34.8|-27.0|1.000
92265222|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|25.7||||0.283|TWO_SIDED|95.0|-8.8|63.2|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||63.2|-8.8|0.283
92265223|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|-11.8||||0.529|TWO_SIDED|95.0|-35.0|22.7|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||22.7|-35.0|0.529
92176816|NCT05170841|184247078|SUPERIORITY||||||=|0.04|||||||t-test, 2 sided|||||||=0.04
92252938|NCT01455415|184407211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.12||0.269|TWO_SIDED|95.0|-0.38|0.11||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline autonomic domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.11|-0.38|0.2690
92252939|NCT01455415|184407212|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.9951|TWO_SIDED|95.0|-0.05|0.05||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline mobility domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.05|-0.05|0.9951
92252940|NCT01455415|184407213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.9726|TWO_SIDED|95.0|-0.05|0.05||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline self-care domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.05|-0.05|0.9726
92176817|NCT05170841|184247079|SUPERIORITY||||||=|0.016|||||||t-test, 2 sided|||||||=0.016
92176818|NCT05170841|184247080|SUPERIORITY||||||=|0.045|||||||t-test, 2 sided|||||||=0.045
92252941|NCT01455415|184407214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.5497|TWO_SIDED|95.0|-0.04|0.08||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline usual activities domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.08|-0.04|0.5497
92176819|NCT05170841|184247081|SUPERIORITY||||||=|0.042|||||||t-test, 2 sided|||||||=0.042
92176820|NCT05170841|184247082|SUPERIORITY||||||=|0.037|||||||t-test, 2 sided|||||||=0.037
92176821|NCT05170841|184247083|SUPERIORITY||||||=|0.045|||||||t-test, 2 sided|||||||=0.045
92176822|NCT05170841|184247084|SUPERIORITY||||||=|0.029|||||||t-test, 2 sided|||||||=0.029
92176823|NCT05170841|184247085|SUPERIORITY||||||=|0.027|||||||t-test, 2 sided|||||||=0.027
92176824|NCT05170841|184247086|SUPERIORITY||||||=|0.035|||||||t-test, 2 sided|||||||=0.035
92176825|NCT05170841|184247087|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||||||=0.001
92176826|NCT05233800|184247089|SUPERIORITY||Mean Difference (Net)|5.83|||<|0.05|TWO_SIDED|95.0|3.84|7.81|||Mixed Models Analysis|||||7.81|3.84|<0.05
92176827|NCT03643744|184247100|SUPERIORITY|||||||0.53|||||||ANOVA|||||||0.530
92252942|NCT01455415|184407215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.1495|TWO_SIDED|95.0|-0.02|0.11||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline pain / discomfort domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.11|-0.02|0.1495
92252943|NCT01455415|184407216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.03||0.1297|TWO_SIDED|95.0|-0.11|0.01||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline anxiety / depression domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.01|-0.11|0.1297
92252944|NCT01455415|184407217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.4279|TWO_SIDED|95.0|-0.04|0.02||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline Dolan 1997 index summary score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.02|-0.04|0.4279
92252945|NCT01455415|184407218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.5505|TWO_SIDED|95.0|-0.04|0.02||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline Dolan 2001 index summary score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.02|-0.04|0.5505
92252946|NCT01455415|184407219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0604|TWO_SIDED|||||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Cochran-Mantel-Haenszel|||Analysis was done using a Cochran-Mantel-Haenszel (CMH) test with modified ridit transformation, under alternative hypothesis of raw mean scores differ.||||0.0604
92252947|NCT01455415|184407220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.106||0.7174|TWO_SIDED|95.0|-0.248|0.171||Primary analysis was two-sided and performed at the 0.05 significance level.|Repeated measure mixed effects model|The Kenward-Roger method was used to estimate denominator degrees of freedom.||A longitudinal analysis was done using a repeated measure linear mixed effects model including visit, treatment, an indicator variable for Week 6, and treatment by visit and by the indicator variable interaction as fixed effect factors and participant within sequence and within-participant error (estimated by using an unstructured covariance structure) as random factors. The treatment differences were tested using within-participant variability as the error term.||0.171|-0.248|0.7174
92252948|NCT01455415|184407221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1511|TWO_SIDED|||||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Cochran-Mantel-Haenszel|||Analysis was done using a CMH test with modified ridit transformation, under alternative hypothesis of raw mean scores differ.||||0.1511
92252949|NCT01731990|184407236|SUPERIORITY_OR_OTHER_LEGACY||Treatment effect for ratio to placebo|1.06||||0.284|TWO_SIDED|90.0|0.97|1.15|||Mixed Models Analysis|||||1.15|0.97|0.284
92252950|NCT01183104|184407240|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin was 0.3%.|LS mean difference|0.11||||0.087|TWO_SIDED|95.0|-0.02|0.24|||ANCOVA|||||0.24|-0.02|0.087
92252951|NCT01183104|184407241|SUPERIORITY_OR_OTHER|||||||0.002|||||||Fisher Exact|||||||0.002
92252952|NCT01183104|184407242|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
92252953|NCT01183104|184407243|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANCOVA|||||||0.030
92252954|NCT01183104|184407244|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
92252955|NCT01183104|184407245|SUPERIORITY_OR_OTHER|||||||0.043|||||||ANCOVA|||||||0.043
92252956|NCT00323310|184407246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_DEVIATION|1.46|<|0.0001|TWO_SIDED|95.0|1.1|1.5||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.5|1.1|<0.0001
92252957|NCT00323310|184407247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|1.45|<|0.0001|TWO_SIDED|95.0|0.9|1.4||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.4|0.9|<0.0001
92176828|NCT03643744|184247100|SUPERIORITY|||||||0.727|||||||ANOVA|||||||0.727
92176829|NCT03643744|184247101|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92176830|NCT04487860|184247103|SUPERIORITY|||||||0.7905|||||||ANCOVA|||||||0.7905
92176831|NCT04487860|184247103|SUPERIORITY|||||||0.7372|||||||ANCOVA|||||||0.7372
92283540|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.194|TWO_SIDED|95.0|0.6|1.11||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 90 and 105 minutes postdose||1.11|0.60|0.194
92176832|NCT04487860|184247103|SUPERIORITY|||||||0.2989|||||||ANCOVA|||||||0.2989
92176833|NCT04487860|184247103|SUPERIORITY|||||||0.3328|||||||ANCOVA|||||||0.3328
92176834|NCT04487860|184247104|SUPERIORITY|||||||0.8989|||||||ANCOVA|||||||0.8989
92252958|NCT00323310|184407248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_DEVIATION|1.42|<|0.0001|TWO_SIDED|95.0|0.4|0.9||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||0.9|0.4|<0.0001
92252959|NCT00323310|184407249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_DEVIATION|1.56|<|0.001|TWO_SIDED|95.0|1.1|1.6||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.6|1.1|<0.001
92252960|NCT00323310|184407250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|STANDARD_DEVIATION|1.49|<|0.001|TWO_SIDED|95.0|0.8|1.4||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.4|0.8|<0.001
92252961|NCT00323310|184407251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|1.2|<|0.0001|TWO_SIDED|95.0|0.4|0.8||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||0.8|0.4|<0.0001
92252962|NCT00323310|184407252|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|1.57|<|0.0001|TWO_SIDED|95.0|1.0|1.5||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.5|1.0|<0.0001
92176835|NCT04487860|184247104|SUPERIORITY|||||||0.6768|||||||ANCOVA|||||||0.6768
92176836|NCT04487860|184247104|SUPERIORITY|||||||0.8209|||||||ANCOVA|||||||0.8209
92252963|NCT00323310|184407253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|1.49|<|0.0001|TWO_SIDED|95.0|0.9|1.4||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.4|0.9|<0.0001
92252964|NCT00323310|184407254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|1.54|<|0.0001|TWO_SIDED|95.0|0.6|1.1||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.1|0.6|<0.0001
92252965|NCT00937326|184407262|SUPERIORITY|||||||0.4816||||||No adjustments for covariates were made.|Fisher Exact|||Placebo versus SRT2104 0.25 g/day in number of participants with any AE.||||0.4816
92252966|NCT00937326|184407262|SUPERIORITY|||||||0.1147||||||No adjustments for covariates were made.|Fisher Exact|||Placebo versus SRT2104 0.5 g/day in number of participants with any AE.||||0.1147
92252967|NCT00937326|184407262|SUPERIORITY|||||||1||||||No adjustments for covariates were made.|Fisher Exact|||Placebo versus SRT2104 1.0 g/day in number of participants with any AE.||||1.0000
92252968|NCT00937326|184407262|SUPERIORITY|||||||0.4816||||||No adjustments for covariates were made.|Fisher Exact|||Placebo versus SRT2104 2.0 g/day in number of participants with any AE.||||0.4816
92252969|NCT00937326|184407286|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|168.4|||||TWO_SIDED|90.0|123.87|228.94|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding confidence interval (CI) were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for AUC 0-t of SRT2104 0.25 g/day.||228.94|123.87|
92252970|NCT00937326|184407286|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|110.88|||||TWO_SIDED|90.0|88.18|139.43|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI. AUC values included in the analysis were AUC 0-infinity on Day 1 and AUC 0-τ on Day 28.|Day 28 versus Day 1 for AUC 0-infinity of SRT2104 0.25 g/day.||139.43|88.18|
92252971|NCT00937326|184407286|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|133.11|||||TWO_SIDED|90.0|100.55|176.21|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for AUC 0-t of SRT2104 0.5 g/day.||176.21|100.55|
92265224|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|38.2||||0.059|TWO_SIDED|95.0|1.6|71.2|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||71.2|1.6|0.059
92265225|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|1.1||||1|TWO_SIDED|95.0|-7.0|14.2|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||14.2|-7.0|1.000
92176837|NCT04487860|184247104|SUPERIORITY|||||||0.3106|||||||ANCOVA|||||||0.3106
92176838|NCT04487860|184247105|SUPERIORITY|||||||0.8593|||||||ANCOVA|||||||0.8593
92176839|NCT04487860|184247105|SUPERIORITY|||||||0.9594|||||||ANCOVA|||||||0.9594
92176840|NCT04487860|184247105|SUPERIORITY|||||||0.9041|||||||ANCOVA|||||||0.9041
92176841|NCT04487860|184247105|SUPERIORITY|||||||0.7147|||||||ANCOVA|||||||0.7147
92176842|NCT02432261|184247108|SUPERIORITY|We did not statistically power this study.|difference of proportion of subjects|57.6||||0.003|TWO_SIDED||||||Fisher Exact||The difference of proportion = NES/Testosterone - Testosterone|||||0.003
92176843|NCT06122194|184247151|OTHER||Ratio of Adjusted Geometric Means|112.15|||||TWO_SIDED|90.0|93.01|135.22||||||Natural log transformed Cmax for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90 percent (%) confidence intervals (CIs) were expressed as percentages.||135.22|93.01|
92176844|NCT06122194|184247151|OTHER||Ratio of Adjusted Geometric Means|187.37|||||TWO_SIDED|90.0|155.79|225.35||||||Natural log transformed Cmax for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90% CIs were expressed as percentages.||225.35|155.79|
92252972|NCT00937326|184407286|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Other|94.3|||||TWO_SIDED|90.0|70.31|126.48|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI. The AUC values included in the analysis were AUC 0-infinity on Day 1 and AUC 0-τ on Day 28.|Day 28 versus Day 1 for AUC 0-infinity of SRT2104 0.5 g/day.||126.48|70.31|
92252973|NCT00937326|184407286|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|141.63|||||TWO_SIDED|90.0|111.2|180.39|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for AUC 0-t of SRT2104 1.0 g/day.||180.39|111.20|
92252974|NCT00937326|184407286|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|114.46|||||TWO_SIDED|90.0|85.56|153.11|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI. The AUC values included in the analysis were AUC 0-infinity on Day 1 and AUC 0-τ on Day 28.|Day 28 versus Day 1for AUC 0-infinity of SRT2104 1.0 g/day.||153.11|85.56|
92252975|NCT00937326|184407286|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|167.09|||||TWO_SIDED|90.0|120.73|231.25|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for AUC 0-t of SRT2104 2.0 g/day.||231.25|120.73|
92252976|NCT00937326|184407286|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|117.73|||||TWO_SIDED|90.0|85.14|162.79|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI. The AUC values included in the analysis were AUC 0-infinity on Day 1 and AUC 0-τ on Day 28.|Day 28 versus Day 1 for AUC 0-infinity of SRT2104 2.0 g/day.||162.79|85.14|
92252977|NCT00937326|184407287|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|122.22|||||TWO_SIDED|90.0|86.94|171.8|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for Cmax of SRT2104 0.25 g/day.||171.80|86.94|
92252978|NCT00937326|184407287|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|94.45|||||TWO_SIDED|90.0|69.07|129.16|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for Cmax of SRT2104 0.5 g/day.||129.16|69.07|
92252979|NCT00937326|184407287|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|114.79|||||TWO_SIDED|90.0|91.54|143.95|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for Cmax of SRT2104 1.0 g/day.||143.95|91.54|
92252980|NCT00937326|184407287|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|120.3|||||TWO_SIDED|90.0|88.66|163.23|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for Cmax of SRT2104 2.0 g/day.||163.23|88.66|
92252981|NCT00937326|184407292|SUPERIORITY|||||||0.997||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 8 for FPG.||||0.997
92252982|NCT00937326|184407292|SUPERIORITY|||||||0.581||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 8 for FPG.||||0.581
92252983|NCT00937326|184407292|SUPERIORITY|||||||0.987||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 8 for FPG.||||0.987
92252984|NCT00937326|184407292|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 8 for FPG.||||0.999
92252985|NCT00937326|184407292|SUPERIORITY|||||||0.85||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 15 for FPG.||||0.850
92252986|NCT00937326|184407292|SUPERIORITY|||||||0.843||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 15 for FPG.||||0.843
92176845|NCT06122194|184247151|OTHER||Ratio of Adjusted Geometric Means|153.61|||||TWO_SIDED|90.0|127.4|185.21||||||Natural log transformed Cmax for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90% CIs were expressed as percentages.||185.21|127.40|
92252987|NCT00937326|184407292|SUPERIORITY|||||||0.961||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 15 for FPG.||||0.961
92176846|NCT06122194|184247152|OTHER||Ratio of Adjusted Geometric Means|102.59|||||TWO_SIDED|90.0|91.09|115.54||||||Natural log transformed AUCinf for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90% CIs were expressed as percentages.||115.54|91.09|
92252988|NCT00937326|184407292|SUPERIORITY|||||||0.939||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 15 for FPG.||||0.939
92252989|NCT00937326|184407292|SUPERIORITY|||||||0.966||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 22 for FPG.||||0.966
92252990|NCT00937326|184407292|SUPERIORITY|||||||0.075||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 22 for FPG.||||0.075
92252991|NCT00937326|184407292|SUPERIORITY|||||||0.7||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 22 for FPG.||||0.700
92252992|NCT00937326|184407292|SUPERIORITY|||||||0.732||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 22 for FPG.||||0.732
92252993|NCT00937326|184407292|SUPERIORITY|||||||0.552||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 28 for FPG.||||0.552
92252994|NCT00937326|184407292|SUPERIORITY|||||||0.196||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 28 for FPG.||||0.196
92252995|NCT00937326|184407292|SUPERIORITY|||||||0.393||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 28 for FPG.||||0.393
92252996|NCT00937326|184407292|SUPERIORITY|||||||0.775||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 28 for FPG.||||0.775
92252997|NCT00937326|184407292|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 35 for FPG.||||1.000
92252998|NCT00937326|184407292|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 35 for FPG.||||0.989
92252999|NCT00937326|184407292|SUPERIORITY|||||||0.603||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 35 for FPG.||||0.603
92253000|NCT00937326|184407292|SUPERIORITY|||||||0.108||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 35 for FPG.||||0.108
92253001|NCT00937326|184407293|SUPERIORITY|||||||0.525||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPG on Day 8.||||0.525
92253002|NCT00937326|184407293|SUPERIORITY|||||||0.818||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPG on Day 8.||||0.818
92253003|NCT00937326|184407293|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPG on Day 8.||||0.999
92253004|NCT00937326|184407293|SUPERIORITY|||||||0.809||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPG on Day 8.||||0.809
92176847|NCT06122194|184247152|OTHER||Ratio of Adjusted Geometric Means|125.07|||||TWO_SIDED|90.0|110.81|141.17||||||Natural log transformed AUCinf for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90% CIs were expressed as percentages.||141.17|110.81|
92176848|NCT06122194|184247152|OTHER||Ratio of Adjusted Geometric Means|121.75|||||TWO_SIDED|90.0|108.65|136.43||||||Natural log transformed AUCinf for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90% CIs were expressed as percentages.||136.43|108.65|
92265226|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|5.8||||0.242|TWO_SIDED|95.0|-3.7|19.4|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||19.4|-3.7|0.242
92265227|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|3.7||||0.41|TWO_SIDED|95.0|-5.1|16.9|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||16.9|-5.1|0.410
92265228|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|13.9||||0.03|TWO_SIDED|95.0|2.7|29.5|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||29.5|2.7|0.030
92253005|NCT00937326|184407293|SUPERIORITY|||||||0.993||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPG on Day 15.||||0.993
92253006|NCT00937326|184407293|SUPERIORITY|||||||0.954||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPG on Day 15.||||0.954
92253007|NCT00937326|184407293|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPG on Day 15.||||1.000
92253008|NCT00937326|184407293|SUPERIORITY|||||||0.344||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPG on Day 15.||||0.344
92253009|NCT00937326|184407293|SUPERIORITY|||||||0.968||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPG on Day 22.||||0.968
92253010|NCT00937326|184407293|SUPERIORITY|||||||0.316||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPG on Day 22.||||0.316
92253011|NCT00937326|184407293|SUPERIORITY|||||||0.984||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPG on Day 22.||||0.984
92253012|NCT00937326|184407293|SUPERIORITY|||||||0.235||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPG on Day 22.||||0.235
92253013|NCT00937326|184407293|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPG on Day 28.||||1.000
92253014|NCT00937326|184407293|SUPERIORITY|||||||0.656||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPG on Day 28.||||0.656
92253015|NCT00937326|184407293|SUPERIORITY|||||||0.994||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPG on Day 28.||||0.994
92253016|NCT00937326|184407293|SUPERIORITY|||||||0.285||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPG on Day 28.||||0.285
92283541|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.212|TWO_SIDED|95.0|0.62|1.11||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 90 and 105 minutes postdose||1.11|0.62|0.212
92253017|NCT00937326|184407293|SUPERIORITY|||||||0.992||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPG on Day 35.||||0.992
92253018|NCT00937326|184407293|SUPERIORITY|||||||0.822||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPG on Day 35.||||0.822
92253019|NCT00937326|184407293|SUPERIORITY|||||||0.538||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPG on Day 35.||||0.538
92253020|NCT00937326|184407293|SUPERIORITY|||||||0.907||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPG on Day 35.||||0.907
92253021|NCT00937326|184407294|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 8 for FPI.||||0.999
92253022|NCT00937326|184407294|SUPERIORITY|||||||0.982||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 8 for FPI.||||0.982
92253023|NCT00937326|184407294|SUPERIORITY|||||||0.677||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 8 for FPI.||||0.677
92253024|NCT00937326|184407294|SUPERIORITY|||||||0.688||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 8 for FPI.||||0.688
92253025|NCT00937326|184407294|SUPERIORITY|||||||0.903||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 15 for FPI.||||0.903
92253026|NCT00937326|184407294|SUPERIORITY|||||||0.945||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 15 for FPI.||||0.945
92253027|NCT00937326|184407294|SUPERIORITY|||||||0.949||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 15 for FPI.||||0.949
92253028|NCT00937326|184407294|SUPERIORITY|||||||0.924||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 15 for FPI.||||0.924
92253029|NCT00937326|184407294|SUPERIORITY|||||||0.394||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 22 for FPI.||||0.394
92176849|NCT04726371|184247171|SUPERIORITY|||||||0.89||||||A Wald test was used to test against the null hypothesis that intervention main effect and interaction effects between intervention and time trends were simultaneously zero and assess for differences in the mean trend of infections over follow-up.|Test of joint null hypothesis from model|Bonferroni-adjusted p-value is reported to correct for multiplicity for testing outcomes with 6 combinations of outcomes and subpopulations.||A Poisson GLMM was fit with a main effect for intervention group, linear and quadratic time trends, and interaction effects between intervention and the time trend variables. The model was adjust for stratification factors, baseline infection incidence, agency and included random intercept for group home.|"The point estimates for intervention main effect, intervention by linear time effect, and for intervention by time\^2 interaction effect are described in the paper Tailored vs. General COVID-19 prevention for adults with mental disabilities residing in group homes: a randomized controlled effectiveness-implementation trial by Bartels S, Levison JH, Trieu HD, et al., published in 2024 in BMC Public Health, doi:10.1186/s12889-024-18835-w."|||0.89
92176850|NCT04726371|184247172|SUPERIORITY||||||>|0.99||||||A Wald test was used to test against the null hypothesis that intervention main effect and interaction effects between intervention and time trends were simultaneously zero and assess for differences in the mean trend of scores over follow-up.|Wald test|Bonferroni-adjusted p-value is reported to correct for multiplicity for testing outcomes with 6 combinations of outcomes and subpopulations.||A GLMM was fit with a main effect for intervention group, linear and quadratic time trends, and interaction effects between intervention and the time trend variables. The model was adjust for stratification factors, baseline fidelity score, agency and included random intercept for group home.|"The point estimates for intervention main effect, intervention by linear time effect, and intervention by time\^2 interaction effect are described in the paper Tailored vs. General COVID-19 prevention for adults with mental disabilities residing in group homes: a randomized controlled effectiveness-implementation trial by Bartels S, Levison JH, Trieu HD, et al., published in 2024 in BMC Public Health, doi:10.1186/s12889-024-18835-w."|||>.99
92176851|NCT04726371|184247173|SUPERIORITY||Hazard Ratio (HR)|1.21|||>|0.99|TWO_SIDED|95.0|0.79|1.84||Bonferroni-adjusted p-value is reported to correct for multiplicity for testing outcomes with 6 combinations of outcomes and subpopulations.|Regression, Cox|||A Cox frailty model was fit to evaluate differences in the hazard of vaccination uptake between arms separately within the combined population of residents with SMI and ID/DD. This model included a main effect for intervention arm and additionally adjusted for stratification factors, GH agency, and GH-level log-normal frailties.||1.84|0.79|>.99
92176852|NCT04726371|184247174|SUPERIORITY||Hazard Ratio (HR)|0.99|||>|0.99|TWO_SIDED|95.0|0.86|1.15||Bonferroni-adjusted p-value is reported to correct for multiplicity for testing outcomes with 6 combinations of outcomes and subpopulations.|Regression, Cox|||A Cox frailty model was fit to evaluate differences in the hazard of vaccination uptake between arms separately within the staff population. This model included a main effect for intervention arm and additionally adjusted for stratification factors, GH agency, and GH-level log-normal frailties.||1.15|0.86|>.99
92253030|NCT00937326|184407294|SUPERIORITY|||||||0.687||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 22 for FPI.||||0.687
92283542|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.901|TWO_SIDED|95.0|0.77|1.34||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 90 and 105 minutes postdose||1.34|0.77|0.901
92283543|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.6|TWO_SIDED|95.0|0.7|1.23||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 105 and 120 minutes postdose||1.23|0.70|0.600
92176853|NCT03125070|184247187|SUPERIORITY|||||||0.9||||||The threshold for statistical significance was p=0.05|Chi-squared|||||||0.90
92176854|NCT03125070|184247188|SUPERIORITY|||||||0.6||||||The threshold for statistical significance was p=0.05|Chi-squared|||||||0.60
92176855|NCT03125070|184247189|OTHER|||||||0.27||||||The threshold for statistical significance was p=0.05|Chi-squared|||Sex: Female vs. Male||||0.27
92176856|NCT03125070|184247189|OTHER|||||||0.88||||||The threshold for statistical significance was p=0.05|Chi-squared|||Age \<70 vs. \>=70||||0.88
92176857|NCT03125070|184247189|OTHER|||||||0.98||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer this survey item are shown as unknwon in the table and are excluded from the statistical test.||Race and ethnicity: white AND non-Hispanic versus any other combination of race and ethnicity (BIPOC)||||0.98
92253031|NCT00937326|184407294|SUPERIORITY|||||||0.568||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 22 for FPI.||||0.568
92283544|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.853|TWO_SIDED|95.0|0.74|1.29||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 105 and 120 minutes postdose||1.29|0.74|0.853
92253032|NCT00937326|184407294|SUPERIORITY|||||||0.486||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 22 for FPI.||||0.486
92253033|NCT00937326|184407294|SUPERIORITY|||||||0.973||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 28 for FPI.||||0.973
92253034|NCT00937326|184407294|SUPERIORITY|||||||0.739||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 28 for FPI.||||0.739
92253035|NCT00937326|184407294|SUPERIORITY|||||||0.731||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 28 for FPI.||||0.731
92176858|NCT03125070|184247189|OTHER|||||||0.19||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer this survey item are shown as unknwon in the table and are excluded from the statistical test.||Education: High school or less versus at least some college or vocational/technical program||||0.19
92176859|NCT03125070|184247189|OTHER|||||||0.24||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer this survey item are shown as unknwon in the table and are excluded from the statistical test.||Income: \<$100,000 annual versus \>=$100,000 annual||||0.24
92176860|NCT03125070|184247189|OTHER|||||||0.28||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer the survey items for this measure are shown as unknwon in the table and are excluded from the statistical test.||PHQ score at baseline: no depression (\<10), mild depression (10-14), moderate depression (15-19), severe depression (\>=20)||||0.28
92176861|NCT03125070|184247189|OTHER|||||||0.33||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer the survey items for this measure are shown as unknwon in the table and are excluded from the statistical test.||CTXD score at baseline \<0.9 (not distressed) or \>=0.9 (distressed)||||0.33
92176862|NCT03125070|184247189|OTHER|||||||0.1||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer this survey item are shown as unknwon in the table and are excluded from the statistical test.||Cardiometabolic Healthcare Utilization (HCU-C) score at baseline: \>.80 versus \<.80||||0.10
92176863|NCT03125070|184247189|OTHER|||||||0.31||||||The threshold for statistical significance was p=0.05|Chi-squared|||Secondary cancer screening healthcare utilization (HCU-SM) at baseline: \>=.80 versus \<.80||||0.31
92176864|NCT03125070|184247190|SUPERIORITY|||||||0.89|||||||Chi-squared|||||||0.89
92253036|NCT00937326|184407294|SUPERIORITY|||||||0.991||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 28 for FPI.||||0.991
92176865|NCT03125070|184247191|SUPERIORITY|||||||0.4|||||||Chi-squared|||||||0.40
92176866|NCT04119843|184247265|SUPERIORITY|Reader success for the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.95|STANDARD_DEVIATION|0.824|<|0.001|TWO_SIDED|95.0|0.743|1.165|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 1||1.165|0.743|<0.001
92253037|NCT00937326|184407294|SUPERIORITY|||||||0.994||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 35 for FPI.||||0.994
92176867|NCT04119843|184247265|SUPERIORITY|Reader success for the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|0.892|<|0.001|TWO_SIDED|95.0|0.552|1.043|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 2||1.043|0.552|<0.001
92253038|NCT00937326|184407294|SUPERIORITY|||||||0.963||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 35 for FPI.||||0.963
92253039|NCT00937326|184407294|SUPERIORITY|||||||0.929||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 35 for FPI.||||0.929
92253040|NCT00937326|184407294|SUPERIORITY|||||||0.97||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 35 for FPI.||||0.970
92176868|NCT04119843|184247265|SUPERIORITY|Reader success for the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.65|STANDARD_DEVIATION|0.622|<|0.001|TWO_SIDED|95.0|0.494|0.813|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 3||0.813|0.494|<0.001
92253041|NCT00937326|184407295|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPI on Day 8.||||0.989
92253042|NCT00937326|184407295|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPI on Day 8.||||0.989
92253043|NCT00937326|184407295|SUPERIORITY|||||||0.982||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPI on Day 8.||||0.982
92182763|NCT02609048|184264679|SUPERIORITY||Difference in LSM|-4.56|STANDARD_ERROR_OF_MEAN|12.401||0.7155|TWO_SIDED|95.0|-29.85|20.73||Difference between means, p-value,and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as a factor, baseline GGT assessment as covariate,and percent change from baseline in GGT as response variable.|ANCOVA|||||20.73|-29.85|0.7155
92253044|NCT00937326|184407295|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPI on Day 8.||||0.999
92253045|NCT00937326|184407295|SUPERIORITY|||||||0.685||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPI on Day 15.||||0.685
92253046|NCT00937326|184407295|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPI on Day 15.||||0.999
92253047|NCT00937326|184407295|SUPERIORITY|||||||0.971||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPI on Day 15.||||0.971
92253048|NCT00937326|184407295|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPI on Day 15.||||1.000
92253049|NCT00937326|184407295|SUPERIORITY|||||||0.405||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPI on Day 22.||||0.405
92253050|NCT00937326|184407295|SUPERIORITY|||||||0.975||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPI on Day 22.||||0.975
92253051|NCT00937326|184407295|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPI on Day 22.||||0.999
92253052|NCT00937326|184407295|SUPERIORITY|||||||0.629||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPI on Day 22.||||0.629
92253053|NCT00937326|184407295|SUPERIORITY|||||||0.982||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPI on Day 28.||||0.982
92253054|NCT00937326|184407295|SUPERIORITY|||||||0.982||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPI on Day 28.||||0.982
92253055|NCT00937326|184407295|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPI on Day 28.||||0.999
92253056|NCT00937326|184407295|SUPERIORITY|||||||0.874||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPI on Day 28.||||0.874
92253057|NCT00937326|184407295|SUPERIORITY|||||||0.986||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPI on Day 35.||||0.986
92253058|NCT00937326|184407295|SUPERIORITY|||||||0.997||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPI on Day 35.||||0.997
92253059|NCT00937326|184407295|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPI on Day 35.||||1.000
92253060|NCT00937326|184407295|SUPERIORITY|||||||0.697||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPI on Day 35.||||0.697
92253061|NCT00937326|184407296|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 30 minutes for PPG.||||1.000
92253062|NCT00937326|184407296|SUPERIORITY|||||||0.812||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 30 minutes for PPG.||||0.812
92253063|NCT00937326|184407296|SUPERIORITY|||||||0.996||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 30 minutes for PPG.||||0.996
92253064|NCT00937326|184407296|SUPERIORITY|||||||0.198||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 30 minutes for PPG.||||0.198
92253065|NCT00937326|184407296|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 60 minutes for PPG.||||1.000
92253066|NCT00937326|184407296|SUPERIORITY|||||||0.358||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 60 minutes for PPG.||||0.358
92253067|NCT00937326|184407296|SUPERIORITY|||||||0.852||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 60 minutes for PPG.||||0.852
92253068|NCT00937326|184407296|SUPERIORITY|||||||0.678||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 60 minutes for PPG.||||0.678
92253069|NCT00937326|184407296|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 2 hour for PPG.||||1.000
92253070|NCT00937326|184407296|SUPERIORITY|||||||0.191||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 2 hour for PPG.||||0.191
92253071|NCT00937326|184407296|SUPERIORITY|||||||0.805||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 2 hour for PPG.||||0.805
92253072|NCT00937326|184407296|SUPERIORITY|||||||0.96||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 2 hour for PPG.||||0.960
92253073|NCT00937326|184407296|SUPERIORITY|||||||0.985||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 30 minutes for PPI.||||0.985
92253074|NCT00937326|184407296|SUPERIORITY|||||||0.733||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 30 minutes for PPI.||||0.733
92253075|NCT00937326|184407296|SUPERIORITY|||||||0.365||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 30 minutes for PPI.||||0.365
92253076|NCT00937326|184407296|SUPERIORITY|||||||0.413||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 30 minutes for PPI.||||0.413
92253077|NCT00937326|184407296|SUPERIORITY|||||||0.765||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 60 minutes for PPI.||||0.765
92253078|NCT00937326|184407296|SUPERIORITY|||||||0.434||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 60 minutes for PPI.||||0.434
92253079|NCT00937326|184407296|SUPERIORITY|||||||0.184||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 60 minutes for PPI.||||0.184
92253080|NCT00937326|184407296|SUPERIORITY|||||||0.142||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 60 minutes for PPI.||||0.142
92253081|NCT00937326|184407296|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 2 hour for PPI.||||0.999
92253082|NCT00937326|184407296|SUPERIORITY|||||||0.876||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 2 hour for PPI.||||0.876
92253083|NCT00937326|184407296|SUPERIORITY|||||||0.756||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 2 hour for PPI.||||0.756
92253084|NCT00937326|184407296|SUPERIORITY|||||||0.983||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 2 hour for PPI.||||0.983
92253085|NCT00937326|184407297|SUPERIORITY|||||||0.809||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPG at 30 minutes.||||0.809
92253086|NCT00937326|184407297|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPG at 30 minutes.||||1.000
92253087|NCT00937326|184407297|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPG at 30 minutes.||||0.989
92176869|NCT04119843|184247266|SUPERIORITY|Reader success of the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.98|STANDARD_DEVIATION|0.853|<|0.001|TWO_SIDED|95.0|0.759|1.196|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 1||1.196|0.759|<0.001
92253088|NCT00937326|184407297|SUPERIORITY|||||||0.13||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPG at 30 minutes.||||0.130
92253089|NCT00937326|184407297|SUPERIORITY|||||||0.87||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPG at 60 minutes.||||0.870
92253090|NCT00937326|184407297|SUPERIORITY|||||||0.864||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPG at 60 minutes.||||0.864
92253091|NCT00937326|184407297|SUPERIORITY|||||||0.997||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPG at 60 minutes.||||0.997
92253092|NCT00937326|184407297|SUPERIORITY|||||||0.682||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPG at 60 minutes.||||0.682
92253093|NCT00937326|184407297|SUPERIORITY|||||||0.798||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPG at 2 hour.||||0.798
92253094|NCT00937326|184407297|SUPERIORITY|||||||0.73||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPG at 2 hour.||||0.730
92253095|NCT00937326|184407297|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPG at 2 hour.||||1.000
92253096|NCT00937326|184407297|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPG at 2 hour.||||1.000
92253097|NCT00937326|184407297|SUPERIORITY|||||||0.464||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPI at 30 minutes.||||0.464
92253098|NCT00937326|184407297|SUPERIORITY|||||||0.634||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPI at 30 minutes.||||0.634
92253099|NCT00937326|184407297|SUPERIORITY|||||||0.254||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPI at 30 minutes.||||0.254
92176870|NCT04119843|184247266|SUPERIORITY|Reader success of the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|1.02|STANDARD_DEVIATION|0.909|<|0.001|TWO_SIDED|95.0|0.766|1.267|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 2||1.267|0.766|<0.001
92253100|NCT00937326|184407297|SUPERIORITY|||||||0.034||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPI at 30 minutes.||||0.034
92253101|NCT00937326|184407297|SUPERIORITY|||||||0.765||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPI at 60 minutes.||||0.765
92253102|NCT00937326|184407297|SUPERIORITY|||||||0.434||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPI at 60 minutes.||||0.434
92253103|NCT00937326|184407297|SUPERIORITY|||||||0.184||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPI at 60 minutes.||||0.184
92253104|NCT00937326|184407297|SUPERIORITY|||||||0.142||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPI at 60 minutes.||||0.142
92253105|NCT00937326|184407297|SUPERIORITY|||||||0.955||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPI at 2 hour.||||0.955
92253106|NCT00937326|184407297|SUPERIORITY|||||||0.985||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPI at 2 hour.||||0.985
92176871|NCT04119843|184247266|SUPERIORITY|Reader success for the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.81|STANDARD_DEVIATION|0.678|<|0.001|TWO_SIDED|95.0|0.638|0.985|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 3||0.985|0.638|<0.001
92176872|NCT04119843|184247268|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.76|STANDARD_DEVIATION|0.805|<|0.001|TWO_SIDED|95.0|0.555|0.971|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 1||0.971|0.555|<0.001
92253107|NCT00937326|184407297|SUPERIORITY|||||||0.923||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPI at 2 hour.||||0.923
92253108|NCT00937326|184407297|SUPERIORITY|||||||0.883||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPI at 2 hour.||||0.883
92253109|NCT00937326|184407298|SUPERIORITY|||||||0.118||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.118
92253110|NCT00937326|184407298|SUPERIORITY|||||||0.119||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.119
92253111|NCT00937326|184407298|SUPERIORITY|||||||0.293||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.293
92253112|NCT00937326|184407298|SUPERIORITY|||||||0.966||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.966
92253113|NCT00937326|184407299|SUPERIORITY|||||||0.94||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.940
92283545|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.736|TWO_SIDED|95.0|0.79|1.39||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 105 and 120 minutes postdose||1.39|0.79|0.736
92253114|NCT00937326|184407299|SUPERIORITY|||||||0.197||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.197
92283546|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.744|TWO_SIDED|95.0|0.7|1.3||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 120 and 135 minutes postdose||1.30|0.70|0.744
92253115|NCT00937326|184407299|SUPERIORITY|||||||0.097||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.097
92253116|NCT00937326|184407299|SUPERIORITY|||||||0.404||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.404
92253117|NCT00937326|184407300|SUPERIORITY|||||||0.206||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-1 at Day 1 for PPG.||||0.2060
92253118|NCT00937326|184407300|SUPERIORITY|||||||0.179||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-1 at Day 1 for PPG.||||0.1790
92253119|NCT00937326|184407300|SUPERIORITY|||||||0.2741||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-1 at Day 1 for PPG.||||0.2741
92253120|NCT00937326|184407300|SUPERIORITY|||||||0.6001||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-1 at Day 1 for PPG.||||0.6001
92283547|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.904|TWO_SIDED|95.0|0.72|1.33||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 120 and 135 minutes postdose||1.33|0.72|0.904
92253121|NCT00937326|184407300|SUPERIORITY|||||||0.6711||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-1 at Day 28 for PPG.||||0.6711
92253122|NCT00937326|184407300|OTHER|||||||0.1361||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-1 at Day 28 for PPG.||||0.1361
92253123|NCT00937326|184407300|SUPERIORITY|||||||0.3369||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-1 at Day 28 for PPG.||||0.3369
92253124|NCT00937326|184407300|SUPERIORITY|||||||0.0975||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-1 at Day 28 for PPG.||||0.0975
92253125|NCT00937326|184407300|SUPERIORITY|||||||0.2184||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-2 at Day 1 for PPG.||||0.2184
92253126|NCT00937326|184407300|SUPERIORITY|||||||0.1013||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-2 at Day 1 for PPG.||||0.1013
92253127|NCT00937326|184407300|SUPERIORITY|||||||0.3286||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-2 at Day 1 for PPG.||||0.3286
92253128|NCT00937326|184407300|SUPERIORITY|||||||0.5193||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-2 at Day 1 for PPG.||||0.5193
92253129|NCT00937326|184407300|SUPERIORITY|||||||0.9788||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-2 at Day 28 for PPG.||||0.9788
92253130|NCT00937326|184407300|SUPERIORITY|||||||0.1214||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-2 at Day 28 for PPG.||||0.1214
92253131|NCT00937326|184407300|SUPERIORITY|||||||0.5751||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-2 at Day 28 for PPG.||||0.5751
92253132|NCT00937326|184407300|SUPERIORITY|||||||0.2409||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-2 at Day 28 for PPG.||||0.2409
92253133|NCT00937326|184407300|SUPERIORITY|||||||0.4829||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-1 at Day 1 for PPI.||||0.4829
92283548|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.828|TWO_SIDED|95.0|0.77|1.39||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 120 and 135 minutes postdose||1.39|0.77|0.828
92176873|NCT04119843|184247268|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.76|STANDARD_DEVIATION|1.059|<|0.001|TWO_SIDED|95.0|0.464|1.054|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 2||1.054|0.464|<0.001
92176874|NCT04119843|184247268|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.59|STANDARD_DEVIATION|0.609|<|0.001|TWO_SIDED|95.0|0.429|0.747|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 3||0.747|0.429|<0.001
92253134|NCT00937326|184407300|SUPERIORITY|||||||0.7563||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-1 at Day 1 for PPI.||||0.7563
92253135|NCT00937326|184407300|SUPERIORITY|||||||0.2907||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-1 at Day 1 for PPI.||||0.2907
92253136|NCT00937326|184407300|SUPERIORITY|||||||0.7663||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-1 at Day 1 for PPI.||||0.7663
92253137|NCT00937326|184407300|SUPERIORITY|||||||0.5825||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-1 at Day 28 for PPI||||0.5825
92253138|NCT00937326|184407300|SUPERIORITY|||||||0.322||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-1 at Day 28 for PPI.||||0.3220
92253139|NCT00937326|184407300|SUPERIORITY|||||||0.0564||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-1 at Day 28 for PPI.||||0.0564
92253140|NCT00937326|184407300|SUPERIORITY|||||||0.196||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-1 at Day 28 for PPI.||||0.1960
92253141|NCT00937326|184407300|SUPERIORITY|||||||0.5997||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-2 at Day 1 for PPI.||||0.5997
92182764|NCT02609048|184264680|SUPERIORITY||Difference in LSM|-34.27|STANDARD_ERROR_OF_MEAN|11.342||0.005|TWO_SIDED|95.0|-57.4|-11.14||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor, baseline 5NT assessment as covariate,and percent change from baseline in 5NT as response variable.|ANCOVA|||||-11.14|-57.40|0.0050
92253142|NCT00937326|184407300|SUPERIORITY|||||||0.9637||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-2 at Day 1 for PPI.||||0.9637
92253143|NCT00937326|184407300|SUPERIORITY|||||||0.324||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-2 at Day 1 for PPI.||||0.3240
92253144|NCT00937326|184407300|SUPERIORITY|||||||0.844||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-2 at Day 1 for PPI.||||0.8440
92253145|NCT00937326|184407300|SUPERIORITY|||||||0.6483||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-2 at Day 28 for PPI.||||0.6483
92253146|NCT00937326|184407300|SUPERIORITY|||||||0.6452||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-2 at Day 28 for PPI.||||0.6452
92253147|NCT00937326|184407300|SUPERIORITY|||||||0.1253||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-2 at Day 28 for PPI.||||0.1253
92253148|NCT00937326|184407300|SUPERIORITY|||||||0.2583||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-2 at Day 28 for PPI.||||0.2583
92253149|NCT00937326|184407301|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 1 for fructosamine.||||1.000
92253150|NCT00937326|184407301|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 1 for fructosamine.||||1.000
92253151|NCT00937326|184407301|SUPERIORITY|||||||0.901||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 1 for fructosamine.||||0.901
92253152|NCT00937326|184407301|SUPERIORITY|||||||0.155||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 1 for fructosamine.||||0.155
92253153|NCT00937326|184407301|SUPERIORITY|||||||0.845||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 28 for fructosamine.||||0.845
92265229|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|-11.8||||0.529|TWO_SIDED|95.0|-35.0|22.7|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||22.7|-35.0|0.529
92253154|NCT00937326|184407301|SUPERIORITY|||||||0.164||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 28 for fructosamine.||||0.164
92176875|NCT04119843|184247269|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.95|STANDARD_DEVIATION|0.852|<|0.001|TWO_SIDED|95.0|0.726|1.166|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 1||1.166|0.726|<0.001
92253155|NCT00937326|184407301|SUPERIORITY|||||||0.699||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 28 for fructosamine.||||0.699
92253156|NCT00937326|184407301|SUPERIORITY|||||||0.313||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 28 for fructosamine.||||0.313
92253157|NCT00937326|184407302|SUPERIORITY|||||||0.896||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.896
92182765|NCT02609048|184264680|SUPERIORITY||Difference in LSM|-24.84|STANDARD_ERROR_OF_MEAN|10.116||0.0199|TWO_SIDED|95.0|-45.47|-4.21||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor, baseline 5NT assessment as covariate,and percent change from baseline in 5NT as response variable.|ANCOVA|||||-4.21|-45.47|0.0199
92253158|NCT00937326|184407302|SUPERIORITY|||||||0.08||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.080
92253159|NCT00937326|184407302|SUPERIORITY|||||||0.792||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.792
92253160|NCT00937326|184407302|SUPERIORITY|||||||0.645||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.645
92253161|NCT00937326|184407303|SUPERIORITY|||||||0.992||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 1 for HOMA-IR.||||0.992
92253162|NCT00937326|184407303|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 1 for HOMA-IR.||||0.999
92253163|NCT00937326|184407303|SUPERIORITY|||||||0.548||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 1 for HOMA-IR.||||0.548
92253164|NCT00937326|184407303|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 1 for HOMA-IR.||||0.989
92253165|NCT00937326|184407303|SUPERIORITY|||||||0.877||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 28 for HOMA-IR.||||0.877
92253166|NCT00937326|184407303|SUPERIORITY|||||||0.887||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 28 for HOMA-IR.||||0.887
92253167|NCT00937326|184407303|SUPERIORITY|||||||0.916||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 28 for HOMA-IR.||||0.916
92253168|NCT00937326|184407303|SUPERIORITY|||||||0.86||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 28 for HOMA-IR.||||0.860
92253169|NCT00937326|184407304|SUPERIORITY|||||||0.996||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.996
92253170|NCT00937326|184407304|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.989
92253171|NCT00937326|184407304|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.999
92253172|NCT00937326|184407304|SUPERIORITY|||||||0.763||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.763
92253173|NCT00937326|184407305|SUPERIORITY|||||||0.81||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 1 for HOMA-percentage of beta cell function.||||0.810
92253174|NCT00937326|184407305|SUPERIORITY|||||||0.753||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 1 for HOMA-percentage of beta cell function.||||0.753
92253175|NCT00937326|184407305|SUPERIORITY|||||||0.404||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 1 for HOMA-percentage of beta cell function.||||0.404
92253176|NCT00937326|184407305|SUPERIORITY|||||||0.671||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 1 for HOMA-percentage of beta cell function.||||0.671
92283549|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.147|TWO_SIDED|95.0|0.59|1.08||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 135 and 150 minutes postdose||1.08|0.59|0.147
92283550|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.345|TWO_SIDED|95.0|0.65|1.16||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 135 and 150 minutes postdose||1.16|0.65|0.345
92253177|NCT00937326|184407305|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 28 for HOMA-percentage of beta cell function.||||1.000
92253178|NCT00937326|184407305|SUPERIORITY|||||||0.622||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 28 for HOMA-percentage of beta cell function.||||0.622
92253179|NCT00937326|184407305|SUPERIORITY|||||||0.332||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 28 for HOMA-percentage of beta cell function.||||0.332
92253180|NCT00937326|184407305|SUPERIORITY|||||||0.998||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 28 for HOMA-percentage of beta cell function.||||0.998
92253181|NCT00937326|184407306|SUPERIORITY|||||||0.994||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.994
92253182|NCT00937326|184407306|SUPERIORITY|||||||0.979||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.979
92253183|NCT00937326|184407306|SUPERIORITY|||||||0.993||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.993
92253184|NCT00937326|184407306|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.999
92253185|NCT03250624|184407363|SUPERIORITY||Least Square (LS) Mean Difference|-0.28||||0.632|TWO_SIDED|95.0|-1.46|0.89|||ANCOVA|||||0.89|-1.46|0.632
92253186|NCT00927576|184407373|NON_INFERIORITY_OR_EQUIVALENCE|Power analysis of the results showed a 95% chance of finding a p\<0.05 difference in 166 subjects and a 99% chance of finding a p \<0.05 difference in 230 subjects in comparison of Group 1 controls and sTBI patients.|Difference in z-score, sTBI vs. controls|2.04|||<|0.001|TWO_SIDED||||||ANOVA|for repeated measures with effect sizes (omega squared).||The null hypotheses was that the severe TBI group would not differ from the control group in SRT latencies.||||< 0.001
92253187|NCT00927576|184407373|NON_INFERIORITY_OR_EQUIVALENCE|Power analysis of controls (i.e., with z-score = 0) showed a 95% chance of detecting a p \< 0.05 significance level for z-scores exceeding 0.54 in the mild TBI patient group..|z-score difference between groups|-0.3||||0.5|TWO_SIDED|||||The P-value reflects the likelihood of detection a difference of the magnitude observed.|ANOVA|||The null hypothesis was that the mild TBI group would not differ in age-corrected z-score from that of a control subjects in the large control group.||||.50
92253188|NCT01819506|184407374|SUPERIORITY|||||||0.912|||||||ANOVA|||||||0.912
92253189|NCT01150760|184407384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.0007|||||||Chi-squared|||||||0.0007
92253190|NCT01150760|184407385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.9|||<|0.0001|||||||Chi-squared|||||||< 0.0001
92253191|NCT01150760|184407386|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.6||||0.0001|||||||Chi-squared|||||||0.0001
92253192|NCT01150760|184407387|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.1022|||||||Chi-squared|||||||0.1022
92253193|NCT01150760|184407388|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|||<|0.0001|||||||Chi-squared|||||||< 0.0001
92253194|NCT01150760|184407389|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
92253195|NCT01150760|184407390|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3||||0.0012|||||||Chi-squared|||||||0.0012
92253196|NCT01150760|184407391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.003|||||||Chi-squared|||||||0.0030
92253197|NCT01150760|184407392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.7637|||||||Chi-squared|||||||0.7637
92253198|NCT01150760|184407393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.0402|||||||Chi-squared|||||||0.0402
92253199|NCT01150760|184407394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.0755|||||||Chi-squared|||||||0.0755
92253200|NCT01150760|184407395|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9||||0.0532|||||||Chi-squared|||||||0.0532
92253201|NCT01150760|184407396|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||< 0.0001
92253202|NCT01150760|184407397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
92253203|NCT01963780|184407407|SUPERIORITY|Performance goal is 65%.|Proportion|0.544||||0.9663|TWO_SIDED|95.0|0.428|0.657|||one-sided exact binomial test|||||0.657|0.428|0.9663
92253204|NCT01963780|184407408|OTHER|No statistical hypothesis testing|Proportion|0.167|||||TWO_SIDED|95.0|0.092|0.268||||||||0.268|0.092|
92253205|NCT01963780|184407409|OTHER|No statistical hypothesis testing|Proportion|0.064|||||TWO_SIDED|95.0|0.021|0.143||||||||0.143|0.021|
92253206|NCT01963780|184407410|OTHER|No statistical hypothesis testing|Mean|0.3|||||TWO_SIDED|95.0|0.1|0.4||||||||0.4|0.1|
92253207|NCT01975675|184407413|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Treatment-naive noncirrhotic participants in the LDV/SOF (treatment naive) group were compared to the adjusted historical SVR null rate of 63% using a two-sided exact one-sample binomial test.|Binomial test|||||||< 0.001
92253208|NCT01975675|184407413|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Treatment-naive noncirrhotic participants in the LDV/SOF+RBV (treatment naive) group were compared to the adjusted historical SVR null rate of 63% using a two-sided exact one-sample binomial test.|Binomial test|||||||< 0.001
92253209|NCT01975675|184407414|SUPERIORITY_OR_OTHER||Difference in proportions|-3.6|||||TWO_SIDED|95.0|-10.2|1.0|||||The 95% confidence interval (CI) on the difference in proportions is based on the exact method (standardized statistic and inverting two 1-sided tests).|||1.0|-10.2|
92253210|NCT01975675|184407414|SUPERIORITY_OR_OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-4.2|4.2|||||The 95% CI on the difference in proportions is based on the exact method (standardized statistic and inverting two 1-sided tests).|||4.2|-4.2|
92253211|NCT01015820|184407440|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Statistical significance p ≤ 0.05||||0.001
92253212|NCT01015820|184407441|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Statistical significance p ≤ 0.05||||0.03
92253213|NCT01998399|184407442|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Chi-squared|||Total enrollment only 25 patients and the study was terminated early due to low enrollment. No further statistical analysis was done.||||0.41
92253214|NCT01711658|184407458|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.3436|TWO_SIDED|95.0|0.56|1.46|||Log Rank|One-sided significance level = 0.1803|Reference level = IMRT + cisplatin + placebo|Hazard ratio (lapatinib/placebo) set at 0.65 (35% reduction), 1-sided alpha 0.20 (final test at 0.1803 accounting for 1 interim analysis), logrank test, 80% power, 69 events in 128 randomized (142 total enrolled) patients required. Final analysis at 67 (of 69) events drops power to 79%.||1.46|0.56|0.3436
92253215|NCT01711658|184407459|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.5836|TWO_SIDED|95.0|0.61|1.86|||Log Rank|One-sided significance level = 0.05|Reference level = IMRT + cisplatin + placebo|||1.86|0.61|0.5836
92253216|NCT01711658|184407460|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.1743|TWO_SIDED|95.0|0.25|1.65|||Log Rank|One-sided significance level = 0.05|Reference level = IMRT + cisplatin + placebo|||1.65|0.25|0.1743
92253217|NCT01711658|184407461|SUPERIORITY|||||||0.7989|||||||Fisher Exact|Two-sided significance level = 0.05||||||0.7989
92253218|NCT01711658|184407462|SUPERIORITY|||||||0.3728||||||IMRT|Fisher Exact|Two-sided significance level = 0.05||||||0.3728
92253219|NCT01711658|184407462|OTHER|||||||0.7781||||||Cisplatin|Fisher Exact|Two-sided significance level = 0.05||||||0.7781
92253220|NCT01711658|184407462|OTHER|||||||0.8||||||Pre-IMRT lapatinib/placebo|Fisher Exact|Two-sided significance level = 0.05||||||0.8000
92253221|NCT01711658|184407462|OTHER|||||||0.6459||||||Concurrent lapatinib/placebo|Fisher Exact|Two-sided significance level = 0.05||||||0.6459
92253222|NCT01711658|184407462|OTHER|||||||0.4792||||||Maintenance lapatinib/placebo|Fisher Exact|Two-sided significance level = 0.05||||||0.4792
92253223|NCT01711658|184407463|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.6735|TWO_SIDED|95.0|0.62|2.17|||Log Rank|One-sided significance level = 0.05|Reference level = IMRT + cisplatin + placebo|||2.17|0.62|0.6735
92253224|NCT02460978|184407494|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.0579|<|0.0001|TWO_SIDED|95.0|-0.49|-0.26|||Mixed Models Analysis|Model is adjusted for baseline HbA1c, treatment, week, randomization stratum, week\*treatment, and week\*baseline HbA1c.||Difference vs. placebo in adjusted mean change from baseline||-0.26|-0.49|<0.0001
92253225|NCT02460978|184407494|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.0578|<|0.0001|TWO_SIDED|95.0|-0.53|-0.3|||Mixed Models Analysis|Model is adjusted for baseline HbA1c, treatment, week, randomization stratum, week\*treatment, and week\*baseline HbA1c.||Difference vs. placebo in adjusted mean change from baseline||-0.30|-0.53|<0.0001
92253226|NCT02460978|184407495|SUPERIORITY||Mean Difference (Final Values)|-10.78|STANDARD_ERROR_OF_MEAN|1.5291|<|0.0001|TWO_SIDED|95.0|-13.73|-7.72|||Mixed Models Analysis|Adjusted for ln(baseline), treatment, week, randomization stratum, week\*treatment, week\*ln(baseline).||Difference vs. placebo in adjusted mean percentage change from baseline||-7.72|-13.73|<0.0001
92253227|NCT02460978|184407495|SUPERIORITY||Mean Difference (Final Values)|-11.08|STANDARD_ERROR_OF_MEAN|1.5331|<|0.0001|TWO_SIDED|95.0|-14.04|-8.02|||Mixed Models Analysis|Adjusted for ln(baseline), treatment, week, randomization stratum, week\*treatment, and week\*ln(baseline).||Difference vs. placebo in adjusted mean percentage change from baseline||-8.02|-14.04|<0.0001
92253228|NCT02460978|184407496|SUPERIORITY||Mean Difference (Final Values)|-3.21|STANDARD_ERROR_OF_MEAN|0.3829|<|0.0001|TWO_SIDED|95.0|-3.96|-2.45|||Mixed Models Analysis|Adjusted for ln(baseline), treatment, week, randomization stratum, week\*treatment, and week\*ln(baseline).||Difference vs. placebo in adjusted mean percentage change from baseline||-2.45|-3.96|<0.0001
92253229|NCT02460978|184407496|SUPERIORITY||Mean Difference (Final Values)|-3.74|STANDARD_ERROR_OF_MEAN|0.3812|<|0.0001|TWO_SIDED|95.0|-4.49|-2.99|||Mixed Models Analysis|Adjusted for ln(baseline), treatment, week, randomization stratum, week\*treatment, and week\*ln(baseline).||Difference vs. placebo in adjusted mean percentage change from baseline||-2.99|-4.49|<0.0001
92253230|NCT02460978|184407497|SUPERIORITY||Mean Difference (Final Values)|-15.66|STANDARD_ERROR_OF_MEAN|2.3468|<|0.0001|TWO_SIDED|95.0|-20.26|-11.05|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||-11.05|-20.26|<0.0001
92253231|NCT02460978|184407497|SUPERIORITY||Mean Difference (Final Values)|-19.74|STANDARD_ERROR_OF_MEAN|2.3419|<|0.0001|TWO_SIDED|95.0|-24.34|-15.14|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||-15.14|-24.34|<0.0001
92253232|NCT02460978|184407498|SUPERIORITY||Mean Difference (Final Values)|-9.85|STANDARD_ERROR_OF_MEAN|2.4519|<|0.0001|TWO_SIDED|95.0|-14.66|-5.03|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||-5.03|-14.66|<0.0001
92253233|NCT02460978|184407498|SUPERIORITY||Mean Difference (Final Values)|-9.36|STANDARD_ERROR_OF_MEAN|2.4487||0.0001|TWO_SIDED|95.0|-14.16|-4.55|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||-4.55|-14.16|0.0001
92253234|NCT02460978|184407499|SUPERIORITY||Mean Difference (Final Values)|9.02|STANDARD_ERROR_OF_MEAN|1.0415|<|0.0001|TWO_SIDED|95.0|6.97|11.06|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||11.06|6.97|<0.0001
92253235|NCT02460978|184407499|SUPERIORITY||Mean Difference (Final Values)|10.7|STANDARD_ERROR_OF_MEAN|1.0396|<|0.0001|TWO_SIDED|95.0|8.66|12.74|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||12.74|8.66|<0.0001
92253236|NCT02460978|184407500|SUPERIORITY||Odds Ratio (OR)|2.71|STANDARD_ERROR_OF_MEAN|0.2058|<|0.0001|TWO_SIDED|95.0|1.81|4.06|||Regression, Logistic|Adjusted for baseline HbA1c and randomization strata||Odds Ratio vs. Placebo||4.06|1.81|<0.0001
92253237|NCT02460978|184407500|SUPERIORITY||Odds Ratio (OR)|3.07|STANDARD_ERROR_OF_MEAN|0.2054|<|0.0001|TWO_SIDED|95.0|2.05|4.6|||Regression, Logistic|Adjusted for baseline HbA1c and randomization strata||Odds Ratio vs. Placebo||4.60|2.05|<0.0001
92253238|NCT01142193|184407501|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.85|||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<.001
92253239|NCT01142193|184407501|SUPERIORITY_OR_OTHER||Median Difference (Net)|18.5|||||TWO_SIDED|95.0|8.53|28.1|||Hodges-Lehmann|||||28.1|8.53|
92253240|NCT01142193|184407502|SUPERIORITY_OR_OTHER||Difference in Percentages|14.7||||0.013|||||||Fisher Exact|||||||0.013
92253241|NCT01142193|184407503|SUPERIORITY_OR_OTHER||Difference in Percentages|16.3||||0.007|||||||Cochran-Mantel-Haenszel|Analysis was stratified by Geographic Region.||||||0.007
92253242|NCT01142193|184407504|SUPERIORITY_OR_OTHER||Median Difference (Net)|25.36|||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92253243|NCT01142193|184407505|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.85|||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92182766|NCT02609048|184264680|SUPERIORITY||Difference in LSM|-9.43|STANDARD_ERROR_OF_MEAN|11.442||0.4161|TWO_SIDED|95.0|-32.77|13.9||Difference between means,p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as a factor, baseline 5NT assessment as covariate,and percent change from baseline in 5NT as response variable.|ANCOVA|||||13.90|-32.77|0.4161
92253244|NCT01142193|184407509|SUPERIORITY_OR_OTHER||Median Difference (Net)|23.61||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92253245|NCT01142193|184407510|SUPERIORITY_OR_OTHER||Difference in Percentages|13.4||||0.048|||||||Cochran-Mantel-Haenszel|Analysis was stratified by Geographic Region.||||||0.048
92253246|NCT01459068|184407525|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|We estimated 150 participants in each arm using the test for paired means, based on a moderate effect size (0.50), 80% power, two-tailed 5% significance level, design effect of 1.5, and up to a 50% expected drop-out rate (due to frequent cross-border movement).|Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.59|-0.4||a priori threshold for statistical significance was 0.05.|longitudinal model|longitudinal to model within-person change in mean scores||||-0.40|-0.59|<0.001
92253247|NCT01459068|184407526|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|power calculations were not done for secondary outcomes|Mean Difference (Net)|-0.44|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.59|-0.28|||longitudinal model|||||-0.28|-0.59|<0.001
92253248|NCT01459068|184407527|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|We estimated 150 participants in each arm using the test for paired means, based on a moderate effect size (0.50), 80% power, two-tailed 5% significance level, design effect of 1.5, and up to a 50% expected drop-out rate (due to frequent cross-border movement).|Mean Difference (Net)|-0.43|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|95.0|-0.51|-0.35||a priori threshold for significance set at 0.05|longitudinal model|longitudinal analysis modeling within-person change in mean scores||||-0.35|-0.51|<0.001
92253249|NCT01459068|184407528|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|no power calculations on secondary outcomes|Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.61|-0.34|||longitudinal model|||||-0.34|-0.61|<0.001
92253250|NCT01459068|184407529|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|no power calculations for secondary measures|Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.34|-0.15|||longitudinal model|||||-0.15|-0.34|<0.001
92253251|NCT01459068|184407530|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|no power calculations for secondary measures|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.26||0.896|TWO_SIDED|95.0|-0.44|0.5|||longitudinal model|||||0.50|-0.44|0.896
92253252|NCT02023112|184407531|SUPERIORITY_OR_OTHER_LEGACY||percentage of participants with SVR12|91.5|||||TWO_SIDED|95.0|80.1|96.6|||||Tested using the following hierarchical order: among non-cirrhotic treatment-naïve participants 1) superiority of 16-week treatment arm to a clinically relevant threshold; 2) superiority of 12-week treatment arm to a clinically relevant threshold.|"Among non-cirrhotic treatment-naïve participants, superiority of the 16-week treatment arm to a clinically relevant threshold.~Lower bound of 95% confidence interval (LCB) must have exceeded 67% to achieve superiority. Threshold indicates value the LCB had to exceed to demonstrate superiority for the treatment arm and was based on the SVR rates with pegylated-interferon (IFN) alfa-2a or 2b/RBV in treatment-naïve, noncirrhotic HCV genotype 2-infected participants."||96.6|80.1|
92253253|NCT02023112|184407531|SUPERIORITY_OR_OTHER_LEGACY||percentage of participants with SVR12|75.0|||||TWO_SIDED|95.0|61.2|85.1|||||Tested using the following hierarchical order: among non-cirrhotic treatment-naïve participants 1) superiority of 16-week treatment arm to a clinically relevant threshold; 2) superiority of 12-week treatment arm to a clinically relevant threshold.|"Among non-cirrhotic treatment-naïve participants, superiority of the 12-week treatment arm to a clinically relevant threshold.~LCB must have exceeded 67% to achieve superiority. Threshold indicates value the LCB had to exceed to demonstrate superiority for the treatment arm and was based on the SVR rates with pegylated-IFN alfa-2a or 2b/RBV in treatment-naïve, noncirrhotic HCV genotype 2-infected participants."||85.1|61.2|
92253254|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test.||||||0.09|||||||Paired t-test|||P-value comparing AL between G6 and IOLM||||0.09
92253255|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.001|||||||Paired t-test|||P-value comparing AL between G6 and LS||||<0.001
92253256|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.0001|||||||Paired t-test|||P-value comparing AL between IOLM and LS||||<0.0001
92253257|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.0001|||||||Paired t-test|||P-value comparing CCT between G6 and LS||||<0.0001
92253258|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.0001|||||||Paired t-test|||P-value comparing ACD between G6 and IOLM||||<0.0001
92253259|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.01|||||||Paired t-test|||P-value comparing ACD between G6 and LS||||<0.01
92253260|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test||||||0.02|||||||Paired t-test|||P-value comparing ACD between IOLM and LS||||0.02
92253261|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.01|||||||Paired t-test|||P-value comparing LT between G6 and LS||||<0.01
92176876|NCT04119843|184247269|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.73|STANDARD_DEVIATION|1.261|<|0.001|TWO_SIDED|95.0|0.38|1.082|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 2||1.082|0.380|<0.001
92176877|NCT04119843|184247269|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.72|STANDARD_DEVIATION|0.786|<|0.001|TWO_SIDED|95.0|0.517|0.927|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 3||0.927|0.517|<0.001
92176878|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|-1.29||||0.27|TWO_SIDED|95.0|-3.6|1.03|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||1.03|-3.60|0.27
92176879|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|-0.25||||0.83|TWO_SIDED|95.0|-2.53|2.04|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||2.04|-2.53|0.83
92176880|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|-2.01||||0.08|TWO_SIDED|95.0|-4.3|0.28|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||0.28|-4.30|0.08
92253262|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.0001|||||||Paired t-test|||P-value comparing WtW between G6 and IOLM||||<0.0001
92253263|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.0001|||||||Paired t-test|||P-value comparing WtW between G6 and LS||||<0.0001
92253264|NCT01961089|184407549|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.001|||||||Paired t-test|||P-value comparing WtW between IOLM and LS||||<0.001
92253265|NCT01961089|184407550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||ANOVA|||Repeatability was determined with random effect ANOVAs (estimates of random effects). They were calculated as the square root of the sum of the (Device x EyeID) interaction component plus (EyeID) and (Device) variance components plus the residual variance component. A (Device x Operator) interaction component was not assessed because each device was consistently operated by the same operator such that there was no Device x Operator interaction component. CV = Coefficient of Variation = SD/mean.||||0.05
92253266|NCT01961089|184407551|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test||||||0.13|||||||Paired t-test|||P-value comparing SimK between G6 and IOLM||||0.13
92253267|NCT01961089|184407551|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test||||||0.25|||||||Paired t-test|||P-value comparing SimK between G6 and LS||||0.25
92253268|NCT01961089|184407551|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test||||||0.21|||||||Paired t-test|||P-value comparing SimK between IOLM and LS||||0.21
92253269|NCT01062009|184407561|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED||||||Chi-squared|||Chi square analysis comparing number of participants with new fever in each group||||0.24
92176881|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|-1.56||||0.16|TWO_SIDED|95.0|-3.77|0.65|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||0.65|-3.77|0.16
92176882|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|-1.65||||0.14|TWO_SIDED|95.0|-3.84|0.54|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||0.54|-3.84|0.14
92176883|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|-2.46||||0.04|TWO_SIDED|95.0|-4.47|-0.17|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||-0.17|-4.47|0.04
92176884|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|2.46||||0.04|TWO_SIDED|95.0|0.17|4.74|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||4.74|0.17|0.04
92176885|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|1.17||||0.32|TWO_SIDED|95.0|-1.14|3.48|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||3.48|-1.14|0.32
92176886|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|2.21||||0.06|TWO_SIDED|95.0|-0.08|4.5|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||4.50|-0.08|0.06
92176887|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|0.45||||0.7|TWO_SIDED|95.0|-1.84|2.73|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||2.73|-1.84|0.70
92176888|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|0.9||||0.42|TWO_SIDED|95.0|-1.31|3.1|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||3.10|-1.31|0.42
92176889|NCT01037881|184247299|SUPERIORITY||Difference in least squares mean|0.81||||0.47|TWO_SIDED|95.0|-1.38|3.0|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||3.00|-1.38|0.47
92176890|NCT04563546|184247320|OTHER||||||<|0.001||||||Unadjusted p-value. Threshold for statistical significance = 0.05|Chi-squared|||||||<0.001
92176891|NCT04563546|184247321|OTHER|||||||0.739|||||||Chi-squared|||||||0.739
92176892|NCT04563546|184247322|OTHER||||||<|0.001||||||Unadjusted p-value. Threshold for statistical significance = 0.05|Chi-squared|||||||<0.001
92176893|NCT04005794|184247446|OTHER|||||||0.004||||||Social latency t = 3.215|t-test, 2 sided|||||||0.004
92176894|NCT04005794|184247447|OTHER|||||||0.213|||||||ANOVA|||||||0.213
92176895|NCT04005794|184247448|OTHER|||||||0.01|||||||ANOVA|||||||0.01
92176896|NCT04005794|184247449|OTHER|||||||0.004|||||||ANOVA|||||||0.004
92176897|NCT04005794|184247450|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92176898|NCT02844465|184247479|NON_INFERIORITY|A non-inferiority test will be performed using a paired t-test, with a non-inferiority delta (δ) of one Reliable Change Index (RCI) of 5 points, to test the hypothesis of no reduction. A two-tailed alpha of 0.05 will be used.|||||<|0.0001|||||||Paired t-test|||"It is hypothesized that the Boston Naming Test score will not decrease from baseline to 12 months following the Visualase procedure. The hypotheses associated with this endpoint are as follows:~Null Hypothesis: μ (V-BNT - BSL-BNT) + δ ≤ 0 Alternate Hypothesis: μ (V-BNT - BSL-BNT) + δ \> 0 Where μ (V-BNT - BSL-BNT) = mean difference in the Boston Naming Test score from baseline to Month 12 post Visualase."||||<0.0001
92176899|NCT02844465|184247480|NON_INFERIORITY|A non-inferiority test will be performed using a paired t-test, with a non-inferiority delta (δ) of one Reliable Change Index (RCI) of 15 points, to test the hypothesis of no reduction. A two-tailed alpha of 0.05 will be used.|||||<|0.0001|||||||Paired t-test|||"It is hypothesized that the Rey Auditory Verbal Learning Test 5-Trial Total score will not decrease from baseline to 12 months following the Visualase procedure. The hypotheses associated with this endpoint are as follows:~Null Hypothesis: μ (V-RAVLT - BSL-RAVLT) + δ ≤ 0 Alternate Hypothesis: μ (V-RAVLT - BSL-RAVLT) + δ \> 0 Where μ (V-RAVLT - BSL-RAVLT) = mean difference in the Rey Auditory Verbal Learning Test 5-Trial Total score from baseline to Month 12 post Visualase."||||<0.0001
92176900|NCT02844465|184247481|OTHER|A sign test will be used to determine if the median categorical change is significantly greater than zero.|||||<|0.0001|||||||Sign test|||"It is hypothesized that the QOLIE-31 score will increase (improve) from baseline to 12 months following the Visualase procedure. The hypotheses associated with this endpoint are as follows:~Null Hypothesis: M (V-QOLIE-31 - BSL-QOLIE-31) ≤ 0 Alternate Hypothesis: M (V-QOLIE-31 - BSL-QOLIE-31) \> 0 Where M (V-QOLIE-31 - BSL-QOLIE-31) = sign-test statistic (\[increases-decreases\]/2) in the Quality of Life in Epilepsy inventory from baseline to Month 12 post Visualase."||||<0.0001
92176901|NCT02844465|184247482|OTHER|A sign test will be used to determine if the median categorical change is significantly greater than zero.||||||0.0004|||||||Sign test|||"It is hypothesized that the SF-36 Mental Component Score (MCS) will increase (improve) from baseline to 12 months following the Visualase procedure. The hypotheses associated with this endpoint are as follows:~Null Hypothesis: M (V-SF-36 - BSL-SF-36-MCS) ≤ 0 Alternate Hypothesis: M (V-SF-36 - BSL-SF-36-MCS) \> 0 Where M (V- SF-36-MCS - BSL- SF-36-MCS) = sign-test statistic (\[increases-decreases\]/2) in the SF-36 quality of life questionnaire MCS from baseline to Month 12 post Visualase."||||0.0004
92182767|NCT02609048|184264681|SUPERIORITY||Difference in LSM|6.2|STANDARD_ERROR_OF_MEAN|8.626||0.478|TWO_SIDED|95.0|-11.4|23.79||Difference between means,p-value, and CIs estimated by comparing each Seladelpar level with placebo by ANCOVA model.Treatment group as factor, baseline assessment as covariate, and percent change from baseline in total bilirubin as response variable.|ANCOVA|||||23.79|-11.40|0.4780
92176902|NCT02844465|184247483|OTHER|A sign test will be used to determine if the median categorical change is significantly greater than zero.|||||<|0.0001|||||||Sign test|||"It's hypothesized that the SF-36 Physical Component Score (PCS) will increase (improve) from baseline to 12 months following the Visualase procedure. The hypotheses associated with this endpoint are as follows:~Null Hypothesis: M (V-SF-36-PCS - BSL-SF-36-PCS) ≤ 0 Alternate Hypothesis: M (V-SF-36-PCS - BSL-SF-36-PCS) \> 0 Where M (V-SF-36-PCS - BSL- SF-36-PCS) = sign-test statistic (\[increases-decreases\]/2) in the SF-36 quality of life questionnaire PCS from baseline to Month 12 post Visualase."||||<0.0001
92176903|NCT02844465|184247484|NON_INFERIORITY|"The hypotheses associated with this endpoint are:~Null Hypothesis: π V - 64% + δ ≤ 0 Alternate Hypothesis: π V - 64% + δ \> 0 Where πV is the proportion of subjects treated with Visualase experiencing no seizures.~An exact 95% CI for the percentage of subjects who are seizure free will be calculated and its lower boundary compared to zero after subtraction of the historical open surgical resection percentage of 64% and the addition of the equivalence delta percentage of 10%."|Proportion of Participants|56.0|||||TWO_SIDED|95.0|46.2|65.8||||||||65.8|46.2|
92176904|NCT05671653|184247502|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|88.85|||||TWO_SIDED|90.0|80.25|98.38||||||Reference: Cohort 1: Midazolam 2 mg + Omeprazole 20 mg (Period 1). Test: Cohort 1: PF-07081532 80 mg QD + Midazolam 2 mg + Omeprazole 20 mg (Period 4).||98.38|80.25|
92176905|NCT05671653|184247502|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|70.0|||||TWO_SIDED|90.0|55.21|88.76||||||Reference: Cohort 1: Midazolam 2 mg + Omeprazole 20 mg (Period 1). Test: Cohort 1: PF-07081532 260 mg QD + Midazolam 2 mg + Omeprazole 20 mg (Period 7).||88.76|55.21|
92176906|NCT05671653|184247503|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|57.19|||||TWO_SIDED|90.0|39.27|83.29||||||Reference: Cohort 1: Midazolam 2 mg + Omeprazole 20 mg (Period 1). Test: Cohort 1: PF-07081532 80 mg QD + Midazolam 2 mg + Omeprazole 20 mg (Period 4).||83.29|39.27|
92253270|NCT01176240|184407583|SUPERIORITY_OR_OTHER|||||||0.978|||||||ANCOVA|ANCOVA model that includes treatment as a factor and baseline OHQ composite score as a co-variate.||Study 306A was initially designed as a blinded interim analysis by an independent DMC to ensure that the overall study was adequately powered. Study 306A was not powered to provide statistical significance as a stand alone study. Thus, no additional efficacy end points were prospectively defined beyond the primary end point.||||0.978
92253271|NCT01176240|184407584|SUPERIORITY_OR_OTHER|||||||0.018||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at baseline.||||||0.018
92253272|NCT01176240|184407586|SUPERIORITY_OR_OTHER|||||||0.6||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors. As the first secondary endpoint was not positive, statistical analysis was not performed on additional secondary endpoints.|Wilcoxon (Mann-Whitney)|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at baseline.||||||0.60
92253273|NCT01176240|184407592|SUPERIORITY_OR_OTHER|||||||0.238|||||||ANCOVA|ANCOVA model that includes treatment as a factor and baseline OHQ composite score as a co-variate.||||||0.238
92253274|NCT00771173|184407593|SUPERIORITY_OR_OTHER|||||||0.745|TWO_SIDED||||||t-test, 2 sided|||The independent samples t-test was used to test the null hypothesis that the mean VAS score for the active treatment cohort (i.e., those receiving pyridium) was no different than the mean VAS score for those receiving placebo.||||.745
92176907|NCT05671653|184247503|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|29.68|||||TWO_SIDED|90.0|19.6|44.94||||||Reference: Cohort 1: Midazolam 2 mg + Omeprazole 20 mg (Period 1). Test: Cohort 1: PF-07081532 260 mg QD + Midazolam 2 mg + Omeprazole 20 mg (Period 7).||44.94|19.60|
92176908|NCT05671653|184247504|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|119.86|||||TWO_SIDED|90.0|108.97|131.85||||||Reference: Cohort 1: LE 0.15 mg \& EE 0.03 mg (Period 2). Test: Cohort 1: PF-07081532 80 mg QD + LE 0.15 mg \& EE 0.03 mg (Period 5).||131.85|108.97|
92253275|NCT00807014|184407594|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Analysis of covariance (ANCOVA) model was used with terms for baseline value, treatment, and center. Treatment-by-center interaction was not included.|ANCOVA|||||||<0.001
92253276|NCT00106249|184407662|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92253277|NCT00106249|184407663|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92253278|NCT00948428|184407665|EQUIVALENCE|If the 90% confidence interval around the difference between the Generic Imiquimod and Aldara Complete Clearance rates in the PP population were contained within the interval -0.20 to +0.20, and each of these rates was greater than, and statistically different (p\<0.05) from, the Vehicle rate in the ITT population, then Generic Imiquimod and Aldara were considered to be therapeutically equivalent|Mean Difference (Net)|-0.85|||||TWO_SIDED|90.0|-10.84|9.15||||||||9.15|-10.84|
92176909|NCT05671653|184247504|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|185.45|||||TWO_SIDED|90.0|108.0|318.44||||||Reference: Cohort 1: LE 0.15 mg \& EE 0.03 mg (Period 2). Test: Cohort 1: PF-07081532 260 mg QD + LE 0.15 mg \& EE 0.03 mg (Period 8)||318.44|108.00|
92253279|NCT00948428|184407665|SUPERIORITY|||||||0.0001|||||||ANOVA|||Based on Intent-to-Treat Population||||0.0001
92253280|NCT00948428|184407666|EQUIVALENCE|If the 90% confidence interval around the difference between the Generic Imiquimod and Aldara Partial Clearance rates in the PP population were contained within the interval -0.20 to +0.20, then Generic Imiquimod and Aldara were considered to be therapeutically equivalent.|Mean Difference (Net)|-3.1|||||TWO_SIDED|90.0|-12.11|5.95||||||||5.95|-12.11|
92253281|NCT00948428|184407667|EQUIVALENCE|If the 90% confidence interval around the difference between the Generic Imiquimod and Aldara Complete Clearance rates in the ITT population were contained within the interval -0.20 to +0.20, then Generic Imiquimod and Aldara were considered to be therapeutically equivalent.|Mean Difference (Net)|-0.5|||||TWO_SIDED|90.0|-9.92|8.88||||||||8.88|-9.92|
92283551|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.532|TWO_SIDED|95.0|0.83|1.44||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 135 and 150 minutes postdose||1.44|0.83|0.532
92283552|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.261|TWO_SIDED|95.0|0.61|1.15||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 150 and 165 minutes postdose||1.15|0.61|0.261
92253282|NCT02037204|184407673|NON_INFERIORITY|A repeated-measures analysis of variance was used to test for differences in clinical outcome between baseline and 3, and 18 months after surgery.|||||<|0.05|||||||ANOVA|||A repeated-measures analysis of variance was used to test for differences in clinical outcome between baseline and 3, and 18 months after surgery.||||<0.05
92253283|NCT05516134|184407694|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||baseline vs. treatment, paired sample t-test||||<0.01
92253284|NCT05516134|184407695|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<.01
92176910|NCT05671653|184247505|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|103.17|||||TWO_SIDED|90.0|95.09|111.93||||||Reference: Cohort 1: LE 0.15 mg \& EE 0.03 mg (Period 2). Test: Cohort 1: PF-07081532 80 mg QD + LE 0.15 mg \& EE 0.03 mg (Period 5).||111.93|95.09|
92176911|NCT05671653|184247505|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|90.2|||||TWO_SIDED|90.0|60.24|135.06||||||Reference: Cohort 1: LE 0.15 mg \& EE 0.03 mg (Period 2). Test: Cohort 1: PF-07081532 260 mg QD + LE 0.15 mg \& EE 0.03 mg (Period 8)||135.06|60.24|
92253285|NCT05516134|184407696|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<.01
92253286|NCT05516134|184407697|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||.03
92253287|NCT05516134|184407698|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<.01
92253288|NCT05516134|184407699|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||.11
92253289|NCT05516134|184407700|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<.01
92253290|NCT05516134|184407701|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92253291|NCT01599806|184407783|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Difference of symp resolution rates|4.0|||||TWO_SIDED|95.0|-2.39|10.42|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of symptomatic resolution rates ≤ non-inferiority margin||10.42|-2.39|
92253292|NCT01599806|184407784|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Diff of favorable combined resp rates|6.7|||||TWO_SIDED|95.0|0.3|13.12|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable combined response rates ≤ non-inferiority margin||13.12|0.30|
92253293|NCT01599806|184407785|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Diff of favorable response rates|6.4|||||TWO_SIDED|95.0|0.33|12.36|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates ≤ non-inferiority margin||12.36|0.33|
92253294|NCT01599806|184407786|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.4|||||TWO_SIDED|95.0|-2.7|3.56|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||3.56|-2.70|
92253295|NCT01599806|184407787|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.3|||||TWO_SIDED|95.0|0.68|13.81|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||13.81|0.68|
92253296|NCT01599806|184407788|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.2|||||TWO_SIDED|95.0|-1.21|1.72|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||1.72|-1.21|
92253297|NCT01599806|184407789|SUPERIORITY_OR_OTHER||Diff of favorable response rates|8.8|||||TWO_SIDED|95.0|2.27|15.24|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||15.24|2.27|
92253298|NCT01599806|184407790|SUPERIORITY_OR_OTHER||Diff of favorable response rates|10.9|||||TWO_SIDED|95.0|2.86|18.85|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||18.85|2.86|
92253299|NCT01599806|184407791|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.2|||||TWO_SIDED|95.0|-1.17|1.68|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||1.68|-1.17|
92283553|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.601|TWO_SIDED|95.0|0.69|1.24||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 150 and 165 minutes postdose||1.24|0.69|0.601
92283554|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.47|TWO_SIDED|95.0|0.84|1.47||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 150 and 165 minutes postdose||1.47|0.84|0.470
92253300|NCT01599806|184407792|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.3|||||TWO_SIDED|95.0|0.88|13.74|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||13.74|0.88|
92253301|NCT01599806|184407793|SUPERIORITY_OR_OTHER||Diff of favorable response rates|9.7|||||TWO_SIDED|95.0|1.72|17.55|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||17.55|1.72|
92253302|NCT01599806|184407794|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.4|||||TWO_SIDED|95.0|-4.07|1.02|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||1.02|-4.07|
92253303|NCT01599806|184407795|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-0.1|||||TWO_SIDED|95.0|-4.23|4.03|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.03|-4.23|
92253304|NCT01599806|184407796|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.3|||||TWO_SIDED|95.0|-3.71|6.3|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||6.30|-3.71|
92283555|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.834|TWO_SIDED|95.0|0.71|1.32||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 165 and 180 minutes postdose||1.32|0.71|0.834
92253305|NCT01599806|184407797|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.3|||||TWO_SIDED|95.0|-3.64|0.55|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||0.55|-3.64|
92283556|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.628|TWO_SIDED|95.0|0.81|1.43||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 165 and 180 minutes postdose||1.43|0.81|0.628
92283557|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.481|TWO_SIDED|95.0|0.83|1.48||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 165 and 180 minutes postdose||1.48|0.83|0.481
92283558|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.749|TWO_SIDED|95.0|0.65|1.37||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 180 and 195 minutes postdose||1.37|0.65|0.749
92253306|NCT01599806|184407798|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.2|||||TWO_SIDED|95.0|-2.03|4.56|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.56|-2.03|
92253307|NCT01599806|184407799|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|2.2|||||TWO_SIDED|95.0|-2.9|7.24|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||7.24|-2.90|
92253308|NCT01599806|184407800|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.9|||||TWO_SIDED|95.0|-4.3|0.04|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||0.04|-4.30|
92253309|NCT01599806|184407801|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.1|||||TWO_SIDED|95.0|-2.07|4.32|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.32|-2.07|
92253310|NCT01599806|184407802|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|2.0|||||TWO_SIDED|95.0|-2.94|6.91|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||6.91|-2.94|
92253311|NCT01599806|184407803|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-0.1|||||TWO_SIDED|95.0|-1.99|1.61|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||1.61|-1.99|
92253312|NCT01599806|184407804|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|3.7|||||TWO_SIDED|95.0|0.41|7.16|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||7.16|0.41|
92253313|NCT01599806|184407805|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|4.0|||||TWO_SIDED|95.0|-1.0|9.05|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||9.05|-1.00|
92253314|NCT01599806|184407806|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|0.0|||||TWO_SIDED|95.0|-10.4|10.1|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||10.1|-10.4|
92253315|NCT01599806|184407807|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|1.4|||||TWO_SIDED|95.0|-7.8|10.2|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||10.2|-7.8|
92253316|NCT01599806|184407808|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|1.2|||||TWO_SIDED|95.0|-7.5|9.2|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||9.2|-7.5|
92253317|NCT01599806|184407809|SUPERIORITY_OR_OTHER||Diff of favorable response rates|2.0|||||TWO_SIDED|95.0|-13.18|16.89|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||16.89|-13.18|
92253318|NCT01599806|184407810|SUPERIORITY_OR_OTHER||Diff of favorable response rates|8.0|||||TWO_SIDED|95.0|-10.03|25.21|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||25.21|-10.03|
92253319|NCT01599806|184407811|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.5|||||TWO_SIDED|95.0|-9.91|24.01|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||24.01|-9.91|
92253320|NCT01599806|184407812|SUPERIORITY_OR_OTHER|||||||0.038|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.038
92253321|NCT01599806|184407813|SUPERIORITY_OR_OTHER|||||||0.129|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.129
92253322|NCT01599806|184407814|SUPERIORITY_OR_OTHER|||||||0.08|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.080
92283559|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.857|TWO_SIDED|95.0|0.7|1.35||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 180 and 195 minutes postdose||1.35|0.70|0.857
92253323|NCT01599806|184407815|SUPERIORITY_OR_OTHER|||||||0.155|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.155
92253324|NCT00563368|184407851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.76|STANDARD_ERROR_OF_MEAN|0.831||0.0009|TWO_SIDED|95.0|1.13|4.39||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.39|1.13|0.0009
92253325|NCT00563368|184407851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.15|STANDARD_ERROR_OF_MEAN|0.825||0.0001|TWO_SIDED|95.0|1.53|4.77||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.77|1.53|0.0001
92283560|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.847|TWO_SIDED|95.0|0.76|1.41||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 180 and 195 minutes postdose||1.41|0.76|0.847
92253326|NCT00563368|184407851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.49|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|95.0|5.86|9.12||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||9.12|5.86|<0.0001
92253327|NCT00563368|184407851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.33|STANDARD_ERROR_OF_MEAN|0.832|<|0.0001|TWO_SIDED|95.0|1.69|4.96||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.96|1.69|<0.0001
92253328|NCT00563368|184407851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.01|STANDARD_ERROR_OF_MEAN|0.828||0.0003|TWO_SIDED|95.0|1.38|4.63||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.63|1.38|0.0003
92253329|NCT00563368|184407851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.75|STANDARD_ERROR_OF_MEAN|0.831|<|0.0001|TWO_SIDED|95.0|5.11|8.38||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||8.38|5.11|<0.0001
92253330|NCT00563368|184407852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.028|STANDARD_ERROR_OF_MEAN|0.5832||0.014|TWO_SIDED|95.0|1.154|3.563||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||3.563|1.154|0.0140
92253331|NCT00563368|184407852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.246|STANDARD_ERROR_OF_MEAN|0.6418||0.0046|TWO_SIDED|95.0|1.283|3.932||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||3.932|1.283|0.0046
92253332|NCT00563368|184407852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.623|STANDARD_ERROR_OF_MEAN|3.644|<|0.0001|TWO_SIDED|95.0|5.424|20.81||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||20.81|5.424|<0.0001
92253333|NCT00563368|184407852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.568|STANDARD_ERROR_OF_MEAN|0.7391||0.0011|TWO_SIDED|95.0|1.46|4.514||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.514|1.460|0.0011
92253334|NCT00563368|184407852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.166|STANDARD_ERROR_OF_MEAN|0.6158||0.0066|TWO_SIDED|95.0|1.241|3.781||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||3.781|1.241|0.0066
92253335|NCT00563368|184407852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.063|STANDARD_ERROR_OF_MEAN|3.0857|<|0.0001|TWO_SIDED|95.0|4.65|17.66||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||17.66|4.650|<0.0001
92283561|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.146|TWO_SIDED|95.0|0.54|1.09||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 195 and 210 minutes postdose||1.09|0.54|0.146
92253336|NCT02420990|184407883|SUPERIORITY||Slope|-0.31|||||TWO_SIDED||||||Latent Growth Curve Modeling|||||||
92253337|NCT02420990|184407883|SUPERIORITY||Slope|-0.67|||||TWO_SIDED||||||Latent Growth Curve Modeling|||||||
92253338|NCT02420990|184407883|SUPERIORITY||Slope|0.05||||0.05|TWO_SIDED||||||Latent Growth Curve Modeling|||||||0.05
92253339|NCT02420990|184407883|SUPERIORITY||Slope|0.56||||0.05|TWO_SIDED||||||Latent Growth Curve Modeling|||||||0.05
92253340|NCT02420990|184407883|SUPERIORITY||Slope|-0.72||||0.05|TWO_SIDED||||||Latent Growth Curve Modeling|||||||0.05
92283562|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.702|TWO_SIDED|95.0|0.69|1.29||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 195 and 210 minutes postdose||1.29|0.69|0.702
92283563|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.228|TWO_SIDED|95.0|0.88|1.69||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 195 and 210 minutes postdose||1.69|0.88|0.228
92176912|NCT05671653|184247506|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|92.88|||||TWO_SIDED|90.0|79.97|107.87||||||Reference: Cohort 2: Midazolam 2 mg (Period 1). Test: Cohort 2: Semaglutide 2.4 mg QW + Midazolam 2 mg (Period 3).||107.87|79.97|
92253341|NCT02420990|184407884|SUPERIORITY||Slope|-1.78|||||TWO_SIDED||||||Linear Growth Curve Modeling|||||||
92253342|NCT02420990|184407884|SUPERIORITY||Slope|-0.64|||||TWO_SIDED||||||Latent Growth Curve Modeling|||||||
92253343|NCT02420990|184407884|SUPERIORITY||Slope|0.07|||||TWO_SIDED||||||Linear Growth Curve Modeling|||||||
92253344|NCT02420990|184407884|SUPERIORITY||Slope|0.0|||||TWO_SIDED||||||Latent Growth Curve Modeling|||||||
92176913|NCT02589795|184247596|OTHER|Inequality test|||||>|0.05|||||||Fisher Exact|||The proportions of subjects with primary safety outcomes were compared in a pairwise manner between the three randomised groups, using Fisher's exact tests.||||>0.05
92253345|NCT02420990|184407884|SUPERIORITY||Slope|-1.44|||||TWO_SIDED||||||Latent Growth Curve Modeling|||||||
92253346|NCT02420990|184407885|SUPERIORITY||Mean Difference (Final Values)|6.6||||0.56|TWO_SIDED||||||Regression, Linear|||||||.56
92253347|NCT03326583|184407886|SUPERIORITY|||||||0.05|||||||Fisher Exact|||||||.05
92253348|NCT03326583|184407887|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||.05
92253349|NCT03326583|184407888|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||.05
92253350|NCT03326583|184407889|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||.05
92283564|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.13|TWO_SIDED|95.0|0.51|1.09||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 210 and 225 minutes postdose||1.09|0.51|0.130
92253351|NCT01784614|184407900|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean|0.96||||0.908|TWO_SIDED|90.0|0.56|1.65|||Mixed Models Analysis||Ratio of Geometric LS mean is WASO of 0.1 mg LY2624803 / Placebo.|||1.65|0.56|0.908
92253352|NCT01784614|184407900|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean|0.67||||0.083|TWO_SIDED|90.0|0.45|0.98|||Mixed Models Analysis||Ratio of Geometric LS mean is WASO of 1.0 mg LY2624803 / Placebo.|||0.98|0.45|0.083
92253353|NCT01784614|184407900|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean|0.53||||0.01|TWO_SIDED|90.0|0.36|0.78|||Mixed Models Analysis||Ratio of Geometric LS mean is WASO of 3.0 mg LY2624803 / Placebo.|||0.78|0.36|0.010
92253354|NCT01784614|184407900|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean|0.3|||<|0.001|TWO_SIDED|90.0|0.18|0.51|||Mixed Models Analysis||Ratio of Geometric LS mean is WASO of 6.0 mg LY2624803 / Placebo.|||0.51|0.18|<0.001
92253355|NCT03168555|184407907|EQUIVALENCE|compares visit 1 with visit 2||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92253356|NCT03168555|184407909|EQUIVALENCE|compares visit 1 with visit 2||||||0.63|||||||paired t-test|lognormalized values||compares visit 1 with visit 2||||0.63
92253357|NCT03168555|184407910|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92253358|NCT03168555|184407911|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
92253359|NCT03168555|184407912|OTHER|Spearman correlation||||||0.41|||||||Spearman correlation|||||||0.41
92253360|NCT03168555|184407913|OTHER|Spearman correlation||||||0.35|||||||Spearman correlation|||||||0.35
92253361|NCT03168555|184407913|OTHER|||||||0.03|||||||Spearman correlation|||||||0.03
92253362|NCT03168555|184407914|EQUIVALENCE|comparing visit 1 with visit 2||||||0.36|||||||paired t-test|||||||0.36
92253363|NCT03168555|184407915|SUPERIORITY|||||||0.29|||||||paired t-test|||||||0.29
92253364|NCT03168555|184407916|OTHER|Spearman correlation||||||0.73|||||||Spearman correlation|||||||0.73
92253365|NCT03168555|184407916|OTHER|||||||0.77|||||||Spearman correlation|||||||0.77
92253366|NCT03168555|184407917|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.80
92253367|NCT01235507|184407937|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
92253368|NCT01235507|184407937|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
92253369|NCT01235507|184407937|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
92253370|NCT01235507|184407939|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
92253371|NCT01235507|184407939|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
92253372|NCT01235507|184407939|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
92253373|NCT01235507|184407940|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
92253374|NCT01235507|184407940|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
92253375|NCT01235507|184407940|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
92253376|NCT01235507|184407941|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
92253377|NCT01235507|184407941|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
92253378|NCT01235507|184407941|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
92253379|NCT01235507|184407942|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
92253380|NCT01235507|184407942|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
92253381|NCT01235507|184407942|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
92253382|NCT01235507|184407943|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
92253383|NCT01235507|184407943|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
92253384|NCT01235507|184407943|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
92253385|NCT01235507|184407944|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
92253386|NCT01235507|184407944|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
92253387|NCT01235507|184407944|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
92253388|NCT02738580|184407953|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_DEVIATION|0.26|<|0.05|TWO_SIDED|||||The proportion of patients with elevated Progesterone on last day of stimulation(\>1.5 ng/mL) was compared between both groups using the Chi-square test.|t-test, 2 sided|||||||<0.05
92253389|NCT02738580|184407954|SUPERIORITY||||||<|0.49|||||||t-test, 1 sided|||||||<0.49
92253390|NCT00583661|184407955|NON_INFERIORITY_OR_EQUIVALENCE|Sample size determination: A sample of 24 subjects followed for approximately 100 days provides greater than 80% power to conclude that, with a 1-sided alpha=0.025 test, the SAE rate of the EXCOR (assumed to be 0.21 per patient-day) is less than 0.25 per patient-day. This sample size was estimated using 10,000 simulations of this study. A total enrollment of 48 subjects (24 per cohort) were enrolled and implanted with the EXCOR® Pediatric.|Poisson confidence interval|0.25|||<|0.05|TWO_SIDED|95.0|0.0|0.25||A Poisson exact confidence interval was calculated and the critical-value method was used for the significance testing. Success was defined as the upper bound of the 95% Poisson exact confidence interval being less than 0.25.|Poisson confidence interval|||Ho: EXCOR® SAE Rate \>=0.25 Ha: EXCOR® SAE Rate \< 0.25 Where serious adverse event (SAE) rate is calculated as the total number of serious adverse events divided by the sum of days all patients are on the EXCOR® Pediatric device, and 0.25 serious adverse events per patient-day is the success criterion. Study success in terms of safety will be demonstrated by the upper bound of a two-sided 95% Poisson exact confidence interval being less than 0.25.||0.25|0|<0.05
92253391|NCT01324687|184407957|SUPERIORITY_OR_OTHER||Rate ratio|0.8387||||0.017|TWO_SIDED|95.0|0.7261|0.9689|||GEE / Poisson regression models|||Rate ratio of ED use rate of the intervention group as compared to the control group.||0.9689|0.7261|0.017
92253392|NCT00701441|184408004|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||For comparing pre versus post, paired t tests were used. We considered tests in the hypothesized direction conclusive|t-test, 2 sided|For each comparison, we tested at the 0.05 level with double-sided P values. We used no correction for multiple testing when declaring significance.||Flow mediated dilation = \[(average maximum dilation post cuff deflation - average baseline diameter)/ average baseline diameter\]100||||0.02
92176914|NCT02589795|184247597|OTHER|Inequality test|||||>|0.05|||||||Kruskal-Wallis|Kruskal-Wallis test with Dunn's correction for multiple comparisons||Kruskal-Wallis test with Dunn's correction for multiple comparisons to compare the levels of antigen-specific serum IgG in the three groups at Week 22.||||>0.05
92176915|NCT03511664|184247602|SUPERIORITY||Hazard Ratio (HR)|0.4|||<|0.001|TWO_SIDED|99.2|0.29|0.57|||Log Rank|one-sided stratified log-rank test||||0.57|0.29|< 0.001
92253393|NCT00701441|184408005|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||We only consider tests in the hypothesized direction conclusive, so testing is conservative from that perspective. However, we used no correction for multiple testing when declaring significance|t-test, 2 sided|||For comparing pre- versus post-treatment, paired t tests were used. For each variable and comparison, we tested at the 0.05 level with double-sided P values.||||0.02
92253394|NCT01068717|184408027|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric least squares (LS) mean|109.53|||||TWO_SIDED|90.0|102.67|116.85||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||116.85|102.67|
92265230|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|0.7||||1|TWO_SIDED|95.0|-26.7|39.5|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||39.5|-26.7|1.000
92265231|NCT01050998|184431821|SUPERIORITY_OR_OTHER||Percent difference|-11.8||||1|TWO_SIDED|95.0|-37.5|22.6|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||22.6|-37.5|1.000
92176916|NCT03511664|184247603|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.52|0.74|||Log Rank|one-sided stratified log-rank test||Primary OS Analysis||0.74|0.52|<0.001
92253395|NCT01068717|184408027|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|100.37|||||TWO_SIDED|90.0|85.7|117.56||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||117.56|85.70|
92253396|NCT01068717|184408028|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|99.02|||||TWO_SIDED|90.0|91.29|107.41||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states||107.41|91.29|
92253397|NCT01068717|184408028|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|100.21|||||TWO_SIDED|90.0|96.86|103.67||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||103.67|96.86|
92253398|NCT01068717|184408030|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|102.34|||||TWO_SIDED|90.0|97.96|106.91||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||106.91|97.96|
92253399|NCT01068717|184408030|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|99.78|||||TWO_SIDED|90.0|96.61|103.05||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||103.05|96.61|
92265232|NCT01050998|184431823|SUPERIORITY_OR_OTHER||Adjusted Mean difference|14.05|STANDARD_ERROR_OF_MEAN|7.162||0.051|TWO_SIDED|95.0|-0.05|28.15|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||28.15|-0.05|0.051
92265233|NCT01050998|184431823|SUPERIORITY_OR_OTHER||Adjusted Mean difference|21.23|STANDARD_ERROR_OF_MEAN|7.028||0.003|TWO_SIDED|95.0|7.39|35.07|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||35.07|7.39|0.003
92253400|NCT01068717|184408035|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|102.34|||||TWO_SIDED|90.0|97.96|106.91||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||106.91|97.96|
92253401|NCT01068717|184408035|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|101.82|||||TWO_SIDED|90.0|96.1|107.88||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||107.88|96.10|
92253402|NCT01068717|184408036|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio (%) of geometric LS mean|102.64|||||TWO_SIDED|90.0|98.31|107.16||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||107.16|98.31|
92253403|NCT01068717|184408036|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio (%) of geometric LS mean|99.22||||||90.0|96.48|102.04||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||102.04|96.48|
92265234|NCT01050998|184431823|SUPERIORITY_OR_OTHER||Adjusted Mean difference|7.09|STANDARD_ERROR_OF_MEAN|7.136||0.322|TWO_SIDED|95.0|-6.96|21.14|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||21.14|-6.96|0.322
92176917|NCT03511664|184247603|SUPERIORITY||Cox Proportional Hazard|0.68|||||TWO_SIDED|95.0|0.58|0.81|||||Cox PH model stratified by LDH (≤260 vs. \>260 IU/L), liver metastases (yes/no), ECOG score (0-1 vs. 2), and NAAD inclusion in best supportive care at randomization (yes/no). IRT data used for stratification|Final OS analysis||0.81|0.58|
92176918|NCT03511664|184247605|SUPERIORITY||Odds Ratio (OR)|24.99|||<|0.001|TWO_SIDED|95.0|6.05|103.24|||Chi-squared|Two-sided Wald's Chi-square test (stratified)||||103.24|6.05|< 0.001
92176919|NCT03511664|184247606|SUPERIORITY||Odds Ratio (OR)|5.79|||<|0.001|TWO_SIDED|95.0|3.18|10.55|||Chi-squared|Two-sided Wald's Chi-square test (stratified)||||10.55|3.18|< 0.001
92176920|NCT03511664|184247608|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.4|0.62|||Log Rank|Two-sided stratified log-rank test||||0.62|0.40|< 0.001
92176921|NCT03511664|184247609|SUPERIORITY||Cox Proportional Hazard|0.3|||<|0.001|TWO_SIDED|95.0|0.24|0.38|||Log Rank|Two-sided stratified log-rank test||||0.38|0.24|< 0.001
92253404|NCT01068717|184408037|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|99.04|||||TWO_SIDED|95.0|92.9|105.59||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||105.59|92.90|
92253405|NCT01068717|184408037|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|102.77|||||TWO_SIDED|95.0|96.82|109.09||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||109.09|96.82|
92253406|NCT02758119|184408046|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92253407|NCT04209400|184408049|NON_INFERIORITY|P \< 0.05 is considered a statistically significant difference in seroconversion between the two groups.||||||1|||||||Chi-squared|||The null hypothesis is that the vaccines equally affect the achievement of seroconversion level.||||1
92253408|NCT01449955|184408066|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||ANOVA comparing the results of change over time (e.g., comparing baseline to 1 month posttreatment) as well as comparing differences between condition (e.g., placebo compared to rapamycin).||||>0.05
92253409|NCT01449955|184408067|SUPERIORITY||||||>|0.5|||||||ANOVA|||||||> 0.5
92253410|NCT01449955|184408068|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||> .05
92253411|NCT01449955|184408069|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||> .05
92253412|NCT01449955|184408070|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||< .05
92253413|NCT01449955|184408071|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||> .05
92253414|NCT03296787|184408139|SUPERIORITY|TAK-954 (Total): An analysis of variance (ANOVA) were performed on log transformed Cmax (total TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.7265|||||||ANOVA|||||||0.7265
92253415|NCT03296787|184408139|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed Cmax (total TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.9839|||||||ANOVA|||||||0.9839
92253416|NCT03296787|184408139|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of Cmax (free TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.9393|||||||ANOVA|||||||0.9393
92253417|NCT03296787|184408139|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of Cmax (free TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.1321|||||||ANOVA|||||||0.1321
92253418|NCT03296787|184408140|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUC(0-72) (total TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.36|||||||ANOVA|||||||0.3600
92253419|NCT03296787|184408140|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUC(0-72) (total TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0816|||||||ANOVA|||||||0.0816
92253420|NCT03296787|184408140|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUC(0-72) (free TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.2686|||||||ANOVA|||||||0.2686
92253421|NCT03296787|184408140|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUC(0-72) (free TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0059|||||||ANOVA|||||||0.0059
92253422|NCT03296787|184408141|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUClast (total TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.0998|||||||ANOVA|||||||0.0998
92253423|NCT03296787|184408141|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUClast (total TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0155|||||||ANOVA|||||||0.0155
92253424|NCT03296787|184408141|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUClast (free TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.0916|||||||ANOVA|||||||0.0916
92253425|NCT03296787|184408141|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUClast (free TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0014|||||||ANOVA|||||||0.0014
92253426|NCT03296787|184408142|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUC∞ (total TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.0038|||||||ANOVA|||||||0.0038
92253427|NCT03296787|184408142|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUC∞ (total TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0004|||||||ANOVA|||||||0.0004
92253428|NCT03296787|184408142|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUC∞ (free TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.0389|||||||ANOVA|||||||0.0389
92253429|NCT03296787|184408142|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUC∞ (free TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0011|||||||ANOVA|||||||0.0011
92253430|NCT02823080|184408197|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92253431|NCT02823080|184408198|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92253432|NCT02823080|184408199|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92176922|NCT03511664|184247611|SUPERIORITY||Odds Ratio (OR)|11.19|||<|0.001|TWO_SIDED|95.0|6.3|20.0|||Chi-squared|Two-sided Wald's Chi-square test (stratified)||||20.0|6.3|< 0.001
92253433|NCT02823080|184408203|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92176923|NCT03511664|184247612|SUPERIORITY||Odds Ratio (OR)|23.6|||<|0.001|TWO_SIDED|95.0|8.6|65.1|||Chi-squared|Two-sided Wald's Chi-square test (stratified)||||65.1|8.6|< 0.001
92253434|NCT00676208|184408204|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.04
92253435|NCT00676208|184408205|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.04
92253436|NCT01379924|184408206|SUPERIORITY||Odds Ratio (OR)|0.25||||0.037|TWO_SIDED|95.0|0.07|0.92|||Regression, Logistic|Adjusted for group differences at baseline and variables associated with differential study retention.|Usual care arm is reference group|Multiple logistic regression modeling used to compute adjusted odds ratios for 12-month follow-up data.||.92|.07|.037
92253437|NCT01379924|184408207|SUPERIORITY||Odds Ratio (OR)|0.24||||0.029|TWO_SIDED|95.0|0.07|0.86|||Regression, Logistic|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.|Usual care arm is reference group.|||.86|.07|.029
92253438|NCT01379924|184408208|SUPERIORITY||Odds Ratio (OR)|0.2||||0.017|TWO_SIDED|95.0|0.06|0.75|||Regression, Logistic|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.|Usual care arm is the reference group|||.75|.06|.017
92253439|NCT01379924|184408209|SUPERIORITY||Group by time interaction term coefficie|4.75|STANDARD_ERROR_OF_MEAN|3.84||0.217|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.217
92253440|NCT01379924|184408210|SUPERIORITY||Group by time interaction term coefficie|2.89|STANDARD_ERROR_OF_MEAN|3.77||0.444|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.444
92253441|NCT01379924|184408211|SUPERIORITY||Group by time interaction term coefficie|9.76|STANDARD_ERROR_OF_MEAN|3.82||0.011|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.011
92253442|NCT01379924|184408213|SUPERIORITY||Group by time interaction term coefficie|0.64|STANDARD_ERROR_OF_MEAN|0.59||0.758|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.758
92253443|NCT01379924|184408214|SUPERIORITY||Group by time interaction term coefficie|1.36|STANDARD_ERROR_OF_MEAN|0.6||0.024|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.024
92253444|NCT01379924|184408215|SUPERIORITY||Group by time interaction term coefficie|2.67|STANDARD_ERROR_OF_MEAN|2.88||0.354|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up||||||.354
92253445|NCT01379924|184408216|SUPERIORITY||Group by time interaction term coefficie|4.43|STANDARD_ERROR_OF_MEAN|2.85||0.121|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.121
92253446|NCT01379924|184408217|SUPERIORITY||Group by time interaction term coefficie|3.67|STANDARD_ERROR_OF_MEAN|2.89||0.205|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.205
92253447|NCT01379924|184408218|SUPERIORITY||Group by time interaction term coefficie|0.65|STANDARD_ERROR_OF_MEAN|2.6||0.803|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.803
92253448|NCT01379924|184408219|SUPERIORITY||Group by time interaction term coefficie|2.41|STANDARD_ERROR_OF_MEAN|2.56||0.347|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.347
92253449|NCT01379924|184408220|SUPERIORITY||Group by time interaction term coefficie|-1.39|STANDARD_ERROR_OF_MEAN|2.59||0.591|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.591
92253450|NCT00617656|184408249|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.56|TWO_SIDED|95.0|0.76|1.67|||Log Rank|||This is a futility analysis. The initial hypothesis of the clinical trial was that the experimental group as a whole was superior to the control group.||1.67|0.76|0.56
92253451|NCT00617656|184408249|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.79|TWO_SIDED|95.0|0.73|1.51|||Log Rank|||||1.51|0.73|0.79
92283565|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.371|TWO_SIDED|95.0|0.6|1.21||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 210 and 225 minutes postdose||1.21|0.60|0.371
92253452|NCT00617656|184408249|SUPERIORITY||Hazard Ratio (HR)|2.02||||0.0001|TWO_SIDED|95.0|1.38|2.95|||Log Rank|||||2.95|1.38|0.0001
92253453|NCT00617656|184408250|SUPERIORITY||Hazard Ratio (HR)|1.55||||0.006|TWO_SIDED|95.0|1.13|2.12|||Log Rank|||||2.12|1.13|0.006
92176924|NCT01928394|184247683|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0309|TWO_SIDED|95.0|1.06|4.26|||Cochran-Mantel-Haenszel|||SCLC Arm N Expansion as compare to SCLC Arm N-I Dose Level 2- Expansion||4.26|1.06|0.0309
92253454|NCT02579863|184408329|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.33475|TWO_SIDED|95.0|0.56|1.45|||Log Rank|One-sided p-value based on Stratified log-rank test.|Based on Cox regression model with treatment as a covariate stratified by Age (\<75 years vs \>= 75 years) and ISS stage (I or II vs. III).|||1.45|0.56|0.33475
92253455|NCT02579863|184408330|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.83416|TWO_SIDED|95.0|0.81|1.84|||Stratified log-rank test||"Based on Cox regression model with treatment as a covariate stratified by Age (\<75 years vs \>= 75 years) and ISS stage (I or II vs. III)."|||1.84|0.81|0.83416
92253456|NCT02579863|184408331|SUPERIORITY||Difference in % vs SOC|5.8||||0.13102|TWO_SIDED|95.0|-4.3|15.8|||One-sided p-value for testing|H0: difference in % =0 versus H1: difference in % \> 0.|||Based on Miettinen \& Nurminen method stratified by 'Age' (\<75 years vs \>= 75 years) and 'ISS stage' (I or II vs. III); If there were no participants in one of the treatment groups involved in a comparison for a particular stratum, then that stratum was excluded from the treatment comparison.|15.8|-4.3|0.13102
92253457|NCT01224106|184408355|SUPERIORITY||Effect Size|-0.044||||0.6744|TWO_SIDED|95.0|-0.248|0.161|||Mixed Models Analysis|||||0.161|-0.248|0.6744
92253458|NCT01224106|184408355|SUPERIORITY||Effect Size|-0.085||||0.4494|TWO_SIDED|95.0|-0.304|0.135|||Mixed Models Analysis|||||0.135|-0.304|0.4494
92253459|NCT01224106|184408357|SUPERIORITY||Effect Size|0.035||||0.7458|TWO_SIDED|95.0|-0.179|0.25|||Mixed Models Analysis|||||0.250|-0.179|0.7458
92253460|NCT01224106|184408357|SUPERIORITY||Effect Size|0.042||||0.723|TWO_SIDED|95.0|-0.191|0.275|||Mixed Models Analysis|||||0.275|-0.191|0.723
92283566|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.43|TWO_SIDED|95.0|0.82|1.58||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 210 and 225 minutes postdose||1.58|0.82|0.430
92253461|NCT01224106|184408361|SUPERIORITY||Effect Size|-0.191||||0.0825|TWO_SIDED|95.0|-0.407|0.025|||Mixed Models Analysis|||||0.025|-0.407|0.0825
92253462|NCT01224106|184408361|SUPERIORITY||Effect Size|0.043||||0.7171|TWO_SIDED|95.0|-0.19|0.276|||Mixed Models Analysis|||||0.276|-0.19|0.7171
92253463|NCT01224106|184408364|SUPERIORITY|||||||0.9734|||||||Mixed Models Analysis|||"Statistical analysis of the Abeta 1-42 CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 105 mg (Parts 1 and 2) treatment arms at Week 104."||||0.9734
92253464|NCT01224106|184408364|SUPERIORITY|||||||0.0629|||||||Mixed Models Analysis|||"Statistical analysis of the Abeta 1-42 CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 225 mg (Parts 1 and 2) treatment arms at Week 104."||||0.0629
92253465|NCT01224106|184408364|SUPERIORITY|||||||0.0084|||||||Mixed Models Analysis|||"Statistical analysis of the p-tau CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 105 mg (Parts 1 and 2) treatment arms at Week 104."||||0.0084
92253466|NCT01224106|184408364|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||"Statistical analysis of the p-tau CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 225 mg (Parts 1 and 2) treatment arms at Week 104."||||0.0003
92253467|NCT01224106|184408364|SUPERIORITY|||||||0.0903|||||||Mixed Models Analysis|||"Statistical analysis of the t-tau CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 105 mg (Parts 1 and 2) treatment arms at Week 104."||||0.0903
92253468|NCT01224106|184408364|SUPERIORITY|||||||0.0434|||||||Mixed Models Analysis|||"Statistical analysis of the t-tau CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 225 mg (Parts 1 and 2) treatment arms at Week 104."||||0.0434
92253469|NCT00446797|184408383|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To conclude non inferiority, the lower bound of the 2-sided 95% confidence interval of the difference in change scores between the 2 treatment groups (nsNSAIDs - celecoxib) must be greater than -10 mm.|Mean Difference (Final Values)|3.39|STANDARD_ERROR_OF_MEAN|2.11||||95.0|-0.76|7.55|||ANCOVA|Terms for treatment, country (fixed), and the baseline pain VAS score|Direction: nsNSAIDs minus celecoxib|Least squares mean||7.55|-0.76|
92253470|NCT00446797|184408384|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|2.02||||95.0|-0.89|7.08|||ANCOVA|Terms for treatment, country (fixed) and the baseline pain VAS score|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||7.08|-0.89|
92253471|NCT00446797|184408384|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.46|STANDARD_ERROR_OF_MEAN|2.04||||95.0|-0.55|7.48|||ANCOVA|Terms for treatment, country (fixed) and the baseline pain VAS score|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||7.48|-0.55|
92253472|NCT00446797|184408384|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.76|STANDARD_ERROR_OF_MEAN|1.86||||95.0|-0.91|6.42|||ANCOVA|Terms for treatment, country (fixed) and the baseline pain VAS score|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||6.42|-0.91|
92253473|NCT00446797|184408385|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1591||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Regression, Logistic|Terms for treatment and the baseline pain VAS score||Day 2||||0.1591
92253474|NCT00446797|184408385|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3995||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Regression, Logistic|Terms for treatment and the baseline pain VAS score||Day 3||||0.3995
92253475|NCT00446797|184408385|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6805||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Regression, Logistic|Terms for treatment and the baseline pain VAS score||Day 7||||0.6805
92253476|NCT00446797|184408386|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2411||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 2||||0.2411
92253477|NCT00446797|184408386|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1163||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 3||||0.1163
92283567|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.177|TWO_SIDED|95.0|0.51|1.13||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 225 and 240 minutes postdose||1.13|0.51|0.177
92283568|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.58|TWO_SIDED|95.0|0.64|1.28||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 225 and 240 minutes postdose||1.28|0.64|0.580
92283569|NCT01062256|184470699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.333|TWO_SIDED|95.0|0.84|1.7||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 225 and 240 minutes postdose||1.70|0.84|0.333
92283570|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.264|TWO_SIDED|95.0|-0.08|0.27||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 1 hour postdose||0.27|-0.08|0.264
92253478|NCT00446797|184408386|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 7||||0.0440
92253479|NCT00446797|184408387|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7223||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|"Controlled for country~Test of row mean score differences based on modified ridits (standardizing the mid-rank)"||Day 3||||0.7223
92283571|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.737|TWO_SIDED|95.0|-0.2|0.14||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 1 hour postdose||0.14|-0.20|0.737
92176925|NCT01868997|184247684|SUPERIORITY||Odds Ratio (OR)|8.86|||<|0.001|TWO_SIDED|95.0|3.293|23.825||Odds ratio, 95% confidence interval, and P-value are obtained from a logistic regression model with treatment and smoking status as covariates.|Regression, Logistic|||||23.825|3.293|< 0.001
92253480|NCT00446797|184408387|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0541||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|"Controlled for country~Test of row mean score differences based on modified ridits (standardizing the mid-rank)"||Day 7||||0.0541
92253481|NCT00446797|184408388|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|"Controlled for country~Test of row mean score differences based on modified ridits (standardizing the mid-rank)"||Day 2||||0.2900
92253482|NCT00446797|184408388|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0157||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|"Controlled for country~Test of row mean score differences based on modified ridits (standardizing the mid-rank)"||Day 3||||0.0157
92253483|NCT00446797|184408388|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1206||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|"Controlled for country~Test of row mean score differences based on modified ridits (standardizing the mid-rank)"||Day 7||||0.1206
92253484|NCT00446797|184408389|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0846||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 2||||0.0846
92253485|NCT00446797|184408389|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3041||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 3||||0.3041
92283572|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.078|TWO_SIDED|95.0|-0.27|0.01||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 1 hour postdose||0.01|-0.27|0.078
92283573|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.125|TWO_SIDED|95.0|-0.04|0.36||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 2 hour postdose||0.36|-0.04|0.125
92253486|NCT00446797|184408389|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1216||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 7||||0.1216
92253487|NCT00446797|184408390|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.24||0.395||95.0|-0.33|0.62||Overall p-value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.62|-0.33|0.395
92253488|NCT00446797|184408390|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.22||0.004||95.0|0.18|1.04||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||1.04|0.18|0.004
92253489|NCT00446797|184408390|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.22||0.122||95.0|-0.08|0.77||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.77|-0.08|0.122
92253490|NCT00446797|184408391|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.21||0.604||95.0|-0.32|0.49||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.49|-0.32|0.604
92253491|NCT00446797|184408391|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28|STANDARD_DEVIATION|0.18||0.124||95.0|-0.07|0.63||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.63|-0.07|0.124
92253492|NCT00446797|184408391|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.15||0.062||95.0|0.03|0.61||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.61|0.03|0.062
92253493|NCT00446797|184408392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.21||0.705||95.0|-0.36|0.47||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.47|-0.36|0.705
92253494|NCT00446797|184408392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.19||0.064||95.0|-0.01|0.73||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.73|-0.01|0.064
92253495|NCT00446797|184408392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.17||0.074||95.0|-0.01|0.68||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.68|-0.01|0.074
92253496|NCT00446797|184408393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.24||0.017||95.0|0.11|1.05||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||1.05|0.11|0.017
92253497|NCT00446797|184408393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.2||0.108||95.0|-0.05|0.74||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.74|-0.05|0.108
92253498|NCT00446797|184408393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.17||0.117||95.0|-0.01|0.66||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.66|-0.01|0.117
92253499|NCT00446797|184408394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.2||0.229||95.0|-0.17|0.6||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.60|-0.17|0.229
92253500|NCT00446797|184408394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.18||0.027||95.0|0.05|0.75||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.75|0.05|0.027
92253501|NCT00446797|184408394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.16||0.07||95.0|0.01|0.65||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.65|0.01|0.070
92253502|NCT00446797|184408395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.3||0.954||95.0|-0.64|0.53||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.53|-0.64|0.954
92253503|NCT00446797|184408395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.31||0.172||95.0|-0.19|1.02||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||1.02|-0.19|0.172
92253504|NCT00446797|184408395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.24||0.541||95.0|-0.3|0.62||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.62|-0.30|0.541
92253505|NCT00446797|184408396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.34||0.924||95.0|-0.75|0.58||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.58|-0.75|0.924
92253506|NCT00446797|184408396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.29||0.898||95.0|-0.62|0.51||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.51|-0.62|0.898
92176926|NCT01868997|184247685|SUPERIORITY||Difference in Least Squares Mean|10.97|STANDARD_ERROR_OF_MEAN|3.221||0.001|TWO_SIDED|95.0|4.561|17.375|||Mixed-Model Repeated Measures|||||17.375|4.561|0.001
92253507|NCT00446797|184408396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.24||0.655||95.0|-0.33|0.6||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.60|-0.33|0.655
92253508|NCT00446797|184408397|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.31||0.929||95.0|-0.59|0.62||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.62|-0.59|0.929
92253509|NCT00446797|184408397|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.3||0.712||95.0|-0.5|0.71||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.71|-0.50|0.712
92253510|NCT00446797|184408397|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.24||0.993||95.0|-0.44|0.51||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.51|-0.44|0.993
92253511|NCT00446797|184408398|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_DEVIATION|0.32||0.779||95.0|-0.53|0.75||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.75|-0.53|0.779
92253512|NCT00446797|184408398|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.34||0.972||95.0|-0.69|0.65||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.65|-0.69|0.972
92253513|NCT00446797|184408398|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.27||0.844||95.0|-0.47|0.61||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.61|-0.47|0.844
92283574|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.688|TWO_SIDED|95.0|-0.16|0.24||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 2 hour postdose||0.24|-0.16|0.688
92283575|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.166|TWO_SIDED|95.0|-0.29|0.05||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 2 hour postdose||0.05|-0.29|0.166
92283576|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.233|TWO_SIDED|95.0|-0.09|0.35||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 3 hour postdose||0.35|-0.09|0.233
92253514|NCT00446797|184408399|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.31||0.944||95.0|-0.63|0.6||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.60|-0.63|0.944
92253515|NCT00446797|184408399|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.26||0.654||95.0|-0.62|0.38||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.38|-0.62|0.654
92283577|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.848|TWO_SIDED|95.0|-0.24|0.19||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 3 hour postdose||0.19|-0.24|0.848
92283578|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.093|TWO_SIDED|95.0|-0.33|0.03||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 3 hour postdose||0.03|-0.33|0.093
92283579|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.406|TWO_SIDED|95.0|-0.14|0.34||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 4 hour postdose||0.34|-0.14|0.406
92283580|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.991|TWO_SIDED|95.0|-0.24|0.24||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 4 hour postdose||0.24|-0.24|0.991
92253516|NCT00446797|184408399|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.19||0.952||95.0|-0.36|0.39||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.39|-0.36|0.952
92253517|NCT00446797|184408400|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.31||0.842||95.0|-0.65|0.59||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.59|-0.65|0.842
92253518|NCT00446797|184408400|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.27||0.828||95.0|-0.57|0.49||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.49|-0.57|0.828
92253519|NCT00446797|184408400|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.21||0.542||95.0|-0.3|0.53||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.53|-0.30|0.542
92283581|NCT01062256|184470700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.306|TWO_SIDED|95.0|-0.3|0.09||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 4 hour postdose||0.09|-0.30|0.306
92253520|NCT00446797|184408401|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.34||0.404||95.0|-0.92|0.42||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.42|-0.92|0.404
92253521|NCT00446797|184408401|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.28||0.816||95.0|-0.53|0.58||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.58|-0.53|0.816
92253522|NCT00446797|184408401|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.23||0.837||95.0|-0.37|0.52||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.52|-0.37|0.837
92253523|NCT00446797|184408402|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.25||0.887||95.0|-0.54|0.45||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.45|-0.54|0.887
92253524|NCT00446797|184408402|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.24||0.889||95.0|-0.43|0.51||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.51|-0.43|0.889
92253525|NCT00446797|184408402|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.2||0.738||95.0|-0.3|0.47||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.47|-0.30|0.738
92253526|NCT00420342|184408404|SUPERIORITY_OR_OTHER|||||||0.1182||95.0||||0.5 mg DRSP / 1.0 mg E2 vs 1.5 mg MPA / 0.3 mg CEE.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.1182
92253527|NCT00420342|184408404|SUPERIORITY_OR_OTHER|||||||0.2224||95.0||||2.0 mg DRSP / 1.0 mg E2 vs 1.5mg MPA / 0.3 mg CEE.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.2224
92253528|NCT00420342|184408404|SUPERIORITY_OR_OTHER|||||||0.6929||95.0||||0.5 mg DRSP / 1.0 mg E2 vs 2.0 mg DRSP / 1.0 mg E2.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.6929
92253529|NCT00420342|184408405|SUPERIORITY_OR_OTHER|||||||0.0702||95.0||||0.5 mg DRSP / 1.0 mg E2 vs 1.5 mg MPA / 0.3 mg CEE.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.0702
92253530|NCT00420342|184408405|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||2.0 mg DRSP / 1.0 mg E2 vs 1.5mg MPA / 0.3 mg CEE.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.1980
92283582|NCT01062256|184470701|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma statistic|0.15||||0.254|TWO_SIDED|95.0|-0.09|0.39||p-values from Cochran-Mantel-Haenszel test with modified ridit scores, controlling for gender, time stratum, and site.|Cochran-Mantel-Haenszel|||Pairwise comparison of global evaluation of study medication.||0.39|-0.09|0.254
92283583|NCT01062256|184470701|SUPERIORITY_OR_OTHER||weighted Goodman-Kruskal Gamma statistic|-0.01||||0.949|TWO_SIDED|95.0|-0.25|0.23||p-values from Cochran-Mantel-Haenszel test with modified ridit scores, controlling for gender, time stratum, and site.|Cochran-Mantel-Haenszel|||Pairwise comparison of global evaluation of study medication.||0.23|-0.25|0.949
92253531|NCT00420342|184408405|SUPERIORITY_OR_OTHER|||||||0.5777||95.0||||0.5 mg DRSP / 1.0 mg E2 vs 2.0 mg DRSP / 1.0 mg E2.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.5777
92253532|NCT03053401|184408416|OTHER|Test of difference was conducted.||||||0.026|||||||Wilcoxon (Mann-Whitney)|||||||0.026
92253533|NCT03053401|184408417|OTHER|||||||0.762||||||Alpha = 0.025 for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.762
92253534|NCT03053401|184408417|OTHER|||||||0.41||||||Alpha = 0.025 for multiple comparisons.|Wilcoxon Rank Sum Test with Exact Option|||||||0.410
92253535|NCT03053401|184408418|OTHER|Test of Difference conducted.||||||0.454|||||||t-test, 2 sided|||||||0.454
92253536|NCT00407550|184408456|SUPERIORITY|||||||0.015|||||||Log Rank|||||||0.015
92253537|NCT00407550|184408457|SUPERIORITY|||||||0.56|||||||Log Rank|||||||0.56
92253538|NCT01444898|184408459|SUPERIORITY_OR_OTHER|||||||0.07|||||||Mixed Models Analysis|||||||.07
92253539|NCT01444898|184408460|SUPERIORITY_OR_OTHER|||||||0.08|||||||Mixed Models Analysis|||||||0.08
92253540|NCT01444898|184408461|SUPERIORITY_OR_OTHER|||||||0.8|||||||Mixed Models Analysis|||||||.8
92253541|NCT01444898|184408462|SUPERIORITY_OR_OTHER|||||||0.04|||||||Mixed Models Analysis|||||||.04
92253542|NCT01444898|184408463|SUPERIORITY_OR_OTHER|||||||0.8|||||||Mixed Models Analysis|||||||.8
92253543|NCT01444898|184408464|SUPERIORITY_OR_OTHER|||||||0.2|||||||Mixed Models Analysis|||||||.2
92253544|NCT01444898|184408465|SUPERIORITY_OR_OTHER|||||||0.2|||||||Mixed Models Analysis|||||||.2
92253545|NCT01444898|184408466|SUPERIORITY_OR_OTHER|||||||0.04|||||||Mixed Models Analysis|||||||.04
92253546|NCT01444898|184408467|SUPERIORITY_OR_OTHER|||||||0.004|||||||Mixed Models Analysis|||||||.004
92253547|NCT02580591|184408469|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|99.0|-0.46|-0.11|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.11|-0.46|<0.0001
92253548|NCT02580591|184408469|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.6|-0.3|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.30|-0.60|<0.0001
92253549|NCT02580591|184408469|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.68|-0.37|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.37|-0.68|<0.0001
92283584|NCT01062256|184470701|SUPERIORITY_OR_OTHER||weighted Goodman-Kruskal Gamma statistic|-0.12||||0.256|TWO_SIDED|95.0|-0.32|0.08||p-values from Cochran-Mantel-Haenszel test with modified ridit scores, controlling for gender, time stratum, and site.|Cochran-Mantel-Haenszel|||Pairwise comparison of global evaluation of study medication.||0.08|-0.32|0.256
92253550|NCT02580591|184408470|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.4|-0.14|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.14|-0.40|
92253551|NCT02580591|184408470|SUPERIORITY||Median Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.59|-0.28|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.28|-0.59|<0.0001
92253552|NCT02580591|184408470|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.66|-0.35|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.35|-0.66|<0.0001
92253553|NCT02580591|184408471|SUPERIORITY||Adjusted Rate Ratio (%)|0.94|||||TWO_SIDED|95.0|0.673|1.314|||Negative binomial model||Empagliflozin 2.5 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For Week 5 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.314|0.673|
92253554|NCT02580591|184408471|SUPERIORITY||Adjusted Rate Ratio (%)|1.202||||0.2752|TWO_SIDED|97.75|0.818|1.766|||Negative binomial model||Empagliflozin 10 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For Week 5 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.766|0.818|0.2752
92176927|NCT01868997|184247686|SUPERIORITY||Difference in Least Squares Mean|-2.31|STANDARD_ERROR_OF_MEAN|0.269|<|0.001|TWO_SIDED|95.0|-2.843|-1.772|||Mixed-Model Repeated Measures|||||-1.772|-2.843|< 0.001
92176928|NCT01868997|184247687|SUPERIORITY||Difference in Least Squares Mean|-1.59|STANDARD_ERROR_OF_MEAN|0.245|<|0.001|TWO_SIDED|95.0|-2.073|-1.098|||Mixed-Model Repeated Measures|||||-1.098|-2.073|< 0.001
92176929|NCT01868997|184247688|SUPERIORITY||Difference in Least Squares Mean|14.16|STANDARD_ERROR_OF_MEAN|3.827|<|0.001|TWO_SIDED|95.0|6.549|21.773|||Mixed-Model Repeated Measures|||||21.773|6.549|< 0.001
92176930|NCT01868997|184247689|SUPERIORITY||Difference in Least Squares Mean|6.32|STANDARD_ERROR_OF_MEAN|3.81||0.101|TWO_SIDED|95.0|-1.255|13.901|||Mixed-Model Repeated Measures|||||13.901|-1.255|0.101
92176931|NCT05093842|184247701|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92253555|NCT02580591|184408471|SUPERIORITY||Adjusted Rate Ratio (%)|1.02||||0.9077|TWO_SIDED|97.75|0.693|1.501|||Negative binomial model||Empagliflozin 25 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For Week 5 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.501|0.693|0.9077
92253556|NCT02580591|184408471|SUPERIORITY||Adjusted Rate Ratio (%)|0.932|||||TWO_SIDED|95.0|0.682|1.274|||Negative binomial model|||For Week 1 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.274|0.682|
92176932|NCT05093842|184247702|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92176933|NCT05093842|184247703|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92176934|NCT05093842|184247704|OTHER|Descriptive rates were calculated.|||||||||||||||||Descriptive statistics only|||
92176935|NCT05093842|184247705|OTHER|Descriptive statistics only|||||||||||||||||Descriptive statistics only|||
92176936|NCT05093842|184247706|OTHER|Descriptive statistics only|||||||||||||||||Descriptive statistics only|||
92176937|NCT05093842|184247707|OTHER|Descriptive statistics only|||||||||||||||||Descriptive statistics only|||
92176938|NCT03806790|184247791|SUPERIORITY||Odds Ratio (OR)|5.8||||0.12|TWO_SIDED|95.0|0.68|49.16|||Fisher Exact|||Statistical analysis on the Full Analysis Set (FAS)||49.16|0.68|0.120
92253557|NCT02580591|184408471|SUPERIORITY||Adjusted Rate Ratio (%)|1.258||||0.1438|TWO_SIDED|95.0|0.925|1.713||This is a nominal p-value.|Negative binomial model||Empagliflozin 10 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For Week 1 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.713|0.925|0.1438
92253558|NCT02580591|184408471|SUPERIORITY||Adjusted Rate Ratio (%)|1.051||||0.7543|TWO_SIDED|95.0|0.771|1.433||This is a nominal p-value.|Negative binomial model||Empagliflozin 25 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For Week 1 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.433|0.771|0.7543
92283585|NCT01629381|184470722|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.3||||0.03|TWO_SIDED|95.0|-11.3|-0.4|||Fisher Exact|||||-0.4|-11.3|0.03
92176939|NCT03806790|184247792|SUPERIORITY||Odds Ratio (OR)|2.5||||0.004|TWO_SIDED|95.0|1.36|4.6|||Fisher Exact|||End of Week 1 (FAS)||4.60|1.36|0.004
92176940|NCT03806790|184247792|SUPERIORITY||Odds Ratio (OR)|4.85||||0.003|TWO_SIDED|95.0|1.57|14.97|||Fisher Exact|||End of Week 2 (FAS)||14.97|1.57|0.003
92176941|NCT03806790|184247793|SUPERIORITY||Estimated difference|-1.11|||<|0.001|TWO_SIDED|95.0|-1.64|-0.59|||ANOVA|||FAS||-0.59|-1.64|<0.001
92176942|NCT03257410|184247916|SUPERIORITY||Mean Difference (Final Values)|14.828|||||TWO_SIDED|95.0|10.501|19.156|||||Method=ANCOVA|If the lower bound of the two-sided 95% confidence interval around the difference between Theranova 400 and Elisio-17H is \> 0 then superiority will be demonstrated.||19.156|10.501|
92176943|NCT03257410|184247917|NON_INFERIORITY|If the lower bound of the two-sided 95% confidence interval around the mean estimated treatment difference between Theranova 400 and Elisio 17H is \> -0.1765 g/dL then non-inferiority can be claimed. If the lower bound of the two-sided 95% confidence interval is \> 0, then superiority may be concluded.|Mean Difference (Final Values)|-0.015|||||TWO_SIDED|95.0|-0.098|0.069|||ANCOVA|||||0.069|-0.098|
92176944|NCT03257410|184247918|OTHER||Mean Difference (Final Values)|19.42|STANDARD_ERROR_OF_MEAN|2.103|<|0.0001|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 4||||<0.0001
92176945|NCT03257410|184247918|OTHER||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|2.115|<|0.0001|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||<0.0001
92176946|NCT03257410|184247919|OTHER||Mean Difference (Final Values)|25.07|STANDARD_ERROR_OF_MEAN|4.3|<|0.0001|TWO_SIDED||||||MMRM|||Week 4||||<0.0001
92176947|NCT03257410|184247919|OTHER||Mean Difference (Final Values)|23.54|STANDARD_ERROR_OF_MEAN|2.0|<|0.0001|TWO_SIDED||||||MMRM|||Week 24||||<0.0001
92176948|NCT03257410|184247920|OTHER||Mean Difference (Final Values)|15.89|STANDARD_ERROR_OF_MEAN|2.73|<|0.0001|TWO_SIDED||||||MMRM|||Week 4||||<0.0001
92176949|NCT03257410|184247920|OTHER||Mean Difference (Final Values)|15.36|STANDARD_ERROR_OF_MEAN|2.479|<|0.0001|TWO_SIDED||||||MMRM|||Week 24||||<0.0001
92176950|NCT03257410|184247921|OTHER||Mean Difference (Final Values)|17.59|STANDARD_ERROR_OF_MEAN|9.583||0.0684|TWO_SIDED||||||MMRM|||Week 4||||0.0684
92176951|NCT03257410|184247921|OTHER||Mean Difference (Final Values)|13.98|STANDARD_ERROR_OF_MEAN|7.937||0.0806|TWO_SIDED||||||MMRM|||Week 24||||0.0806
92176952|NCT03257410|184247926|OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.033||0.0347|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 4||||0.0347
92176953|NCT03257410|184247926|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.033||0.0036|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 8||||0.0036
92176954|NCT03257410|184247926|OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.04||0.129|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 12||||0.129
92176955|NCT03257410|184247926|OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.052||0.1149|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 16||||0.1149
92253559|NCT02580591|184408472|SUPERIORITY||Mean Difference (Final Values)|-1.76|||||TWO_SIDED|95.0|-2.32|-1.2|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline weight, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline weight by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-1.20|-2.32|
92253560|NCT02580591|184408472|SUPERIORITY||Mean Difference (Final Values)|-3.04|||<|0.0001|TWO_SIDED|99.75|-3.91|-2.18|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline weight, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline weight by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-2.18|-3.91|<0.0001
92253561|NCT02580591|184408472|SUPERIORITY||Mean Difference (Final Values)|-3.43|||<|0.0001|TWO_SIDED|99.75|-4.3|-2.57|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline weight, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline weight by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-2.57|-4.30|<0.0001
92253562|NCT02580591|184408473|SUPERIORITY||Mean Difference (Final Values)|-0.049|||||TWO_SIDED|95.0|-0.069|-0.03|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline total daily insulin dose, baseline estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline total daily insulin dose by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.030|-0.069|
92253563|NCT02580591|184408473|SUPERIORITY||Mean Difference (Final Values)|-0.07|||<|0.0001|TWO_SIDED|99.75|-0.101|-0.039|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline total daily insulin dose, baseline estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline total daily insulin dose by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.039|-0.101|<0.0001
92253564|NCT02580591|184408473|SUPERIORITY||Mean Difference (Final Values)|-0.091|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|99.75|-0.122|-0.06|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline total daily insulin dose, baseline estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline total daily insulin dose by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.060|-0.122|<0.0001
92253565|NCT02580591|184408474|SUPERIORITY||Median Difference (Final Values)|-2.1|||||TWO_SIDED|95.0|-3.9|-0.2|||Mixed effect Model Repeat MeasurementMix||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For SBP, the model includes baseline SBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline SBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.2|-3.9|
92253566|NCT02580591|184408474|SUPERIORITY||Mean Difference (Final Values)|-3.9|||<|0.0001|TWO_SIDED|99.75|-6.8|-1.1|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For SBP, the model includes baseline SBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, , treatment by visit interaction, baseline SBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-1.1|-6.8|<0.0001
92283586|NCT01629381|184470724|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.3||||0.03|TWO_SIDED|95.0|-11.7|-0.1|||Fisher Exact|||||-0.1|-11.7|0.03
92283587|NCT01629381|184470725|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-2.0||||0.53|TWO_SIDED|95.0|-8.0|3.7|||Fisher Exact|||||3.7|-8.0|0.53
92253567|NCT02580591|184408474|SUPERIORITY||Mean Difference (Final Values)|-3.7|||<|0.0001|TWO_SIDED|99.75|-6.6|-0.9|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For SBP, the model includes baseline SBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline SBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.9|-6.6|<0.0001
92253568|NCT02580591|184408474|SUPERIORITY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.5|0.9|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For DBP, the model includes baseline DBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline DBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||0.9|-1.5|
92253569|NCT02580591|184408474|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.0047|TWO_SIDED|99.75|-3.6|0.1|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For DBP, the model includes baseline DBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, ß, treatment by visit interaction, baseline DBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||0.1|-3.6|0.0047
92253570|NCT02580591|184408474|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0.0202|TWO_SIDED|99.75|-3.3|0.4|||Mixed effect Model Repeat Measurement|||For DBP, the model includes baseline DBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, ß, treatment by visit interaction, baseline DBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||0.4|-3.3|0.0202
92253571|NCT01366534|184408481|OTHER||Vaccine Efficacy Maentel-Haenzel Method|-17.6||||0.7675|TWO_SIDED|95.0|-107.4|33.3|||2-sided Fisher Exact test||Pre-defined futility criteria for efficacy: point estimate of increase of VE in Ad35.CS.01 Group over GSK257049 Group less than 0%|Comparison of the efficacy (occurrence of P. falciparum parasitemia, assessed by blood slide) of an immunization regimen comprising of one dose of Ad35.CS.01 vaccine followed one month later by 2 doses of GSK257049 vaccine administered at one month intervals, with that of 3 doses of GSK257049 vaccine administered at one month intervals, in healthy malaria-naïve volunteers aged 18-50 years in the sporozoite challenge model.||33.3|-107.4|0.7675
92253572|NCT01366534|184408481|OTHER||Vaccine Efficacy: Maentel-Haenzel Method|44.0||||0.0066|TWO_SIDED|95.0|20.7|60.4|||2-sided Fisher Exact test|||Comparison of the efficacy (occurrence of P. falciparum parasitemia, assessed by blood slide) of an immunization regimen comprising of one dose of Ad35.CS.01 vaccine followed one month later by 2 doses of GSK257049 vaccine administered at 1 month intervals, with that of 3 doses of GSK257049 vaccine administered at one month intervals, in healthy malaria-naïve volunteers aged 18-50 years in the sporozoite challenge model.||60.4|20.7|0.0066
92253573|NCT01366534|184408481|OTHER||Vaccine Efficacy: Maentel-Haenzel Method|52.4||||0.0021|TWO_SIDED|95.0|25.4|69.6|||2-sided Fisher Exact test|||Comparison of the efficacy (occurrence of P. falciparum parasitemia, assessed by blood slide) of an immunization regimen comprising of one dose of Ad35.CS.01 vaccine followed one month later by 2 doses of GSK257049 vaccine administered at 1 month intervals, with that of 3 doses of GSK257049 vaccine administered at one month intervals, in healthy malaria-naïve volunteers aged 18-50 years in the sporozoite challenge model.||69.6|25.4|0.0021
92253574|NCT00324272|184408530|SUPERIORITY_OR_OTHER|||||||0.704||95.0|||||t-test, 2 sided|||||||0.704
92253575|NCT00324272|184408530|SUPERIORITY_OR_OTHER|||||||0.217||95.0|||||t-test, 2 sided|||||||0.217
92253576|NCT00324272|184408532|SUPERIORITY_OR_OTHER|||||||0.988||95.0|||||t-test, 2 sided|||||||0.988
92253577|NCT00324272|184408532|SUPERIORITY_OR_OTHER|||||||0.426||95.0|||||t-test, 2 sided|||||||0.426
92253578|NCT00324272|184408533|SUPERIORITY_OR_OTHER|||||||0.351||95.0|||||Fisher Exact|||||||0.351
92253579|NCT00324272|184408533|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Fisher Exact|||||||0.480
92253580|NCT00324272|184408534|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92253581|NCT00324272|184408534|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.400
92253582|NCT00324272|184408535|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Local recurrence in the groin cohort.||||1.00
92253583|NCT00324272|184408535|SUPERIORITY_OR_OTHER|||||||0.301||95.0|||||Fisher Exact|||In transit or regional recurrence in the groin cohort.||||0.301
92253584|NCT00324272|184408535|SUPERIORITY_OR_OTHER|||||||0.474||95.0|||||Fisher Exact|||Distant metastasis in the groin cohort (with the patient being alive at the end of the study follow-up period on 1.6.10).||||0.474
92253585|NCT00324272|184408535|SUPERIORITY_OR_OTHER|||||||0.606||95.0|||||Fisher Exact|||Local recurrence in the groin cohort.||||0.606
92253586|NCT00324272|184408535|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||In transit or regional recurrence in the axillary cohort.||||1.000
92253587|NCT00324272|184408535|SUPERIORITY_OR_OTHER|||||||0.486||95.0|||||Fisher Exact|||Distant metastasis in the axillary cohort (with the patient being alive at the end of the study follow-up period on 1.6.10).||||0.486
92253588|NCT00324272|184408536|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.963|TWO_SIDED|95.0|0.4|2.58|||Regression, Cox|||Death from metastatic disease in the groin cohort.||2.58|0.40|0.963
92253589|NCT00324272|184408536|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.338|TWO_SIDED|95.0|0.03|3.2|||Regression, Cox|||Death from an unrelated cause in the groin cohort.||3.20|0.03|0.338
92253590|NCT00324272|184408536|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.88|TWO_SIDED|95.0|0.35|2.47|||Regression, Cox|||Death from metastatic disease in the axillary cohort.||2.47|0.35|0.880
92253591|NCT00324272|184408536|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.923||||0.923|TWO_SIDED|95.0|0.05|13.95|||Regression, Cox|||Death from an unrelated cause in the axillary cohort.||13.95|0.05|0.923
92253592|NCT02918318|184408537|SUPERIORITY||Difference of Least Squares means|-1.0|STANDARD_ERROR_OF_MEAN|2.25||0.475|TWO_SIDED|90.0|-5.77|3.7||1-sided|Dunnett adjustment|||||3.70|-5.77|0.475
92253593|NCT02918318|184408537|SUPERIORITY||Difference of Least Squares means|0.6|STANDARD_ERROR_OF_MEAN|2.33||0.504|TWO_SIDED|90.0|-4.32|5.47||1-sided|Dunnett adjustment|||||5.47|-4.32|0.504
92253594|NCT02918318|184408537|SUPERIORITY||Difference of Least Squares means|-0.9|STANDARD_ERROR_OF_MEAN|2.26||0.482|TWO_SIDED|90.0|-5.66|3.83||1-sided|Dunnett adjustment|||||3.83|-5.66|0.482
92176956|NCT03257410|184247926|OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.044||0.0688|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 20||||0.0688
92253595|NCT04080752|184408551|SUPERIORITY||Least Square (LS) Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.897||0.2494|TWO_SIDED|80.0|-1.76|0.55|||Mixed Model for Repeated Measures (MMRM)|||||0.55|-1.76|0.2494
92253596|NCT00444080|184408564|OTHER|||||||0.013|||||||Fisher Exact|||||||0.013
92253597|NCT01641081|184408566|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2644|STANDARD_ERROR_OF_MEAN|0.0148|<|0.0001|TWO_SIDED|95.0|0.2353|0.2934|||Mixed Models Analysis|Treatment and period as fixed effects, and baseline FEV1 values at each period as a covariate||||0.2934|0.2353|<0.0001
92253598|NCT01641081|184408566|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2524|STANDARD_ERROR_OF_MEAN|0.0156|<|0.0001|TWO_SIDED|95.0|0.2218|0.283|||Mixed Models Analysis|Treatment and period as fixed effects, and baseline FEV1 values at each period as a covariate||||0.2830|0.2218|<0.0001
92253599|NCT01641081|184408566|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2242|STANDARD_ERROR_OF_MEAN|0.0153|<|0.0001|TWO_SIDED|95.0|0.1941|0.2544|||Mixed Models Analysis|Treatment and period as fixed effects, and baseline FEV1 values at each period as a covariate||||0.2544|0.1941|<0.0001
92253600|NCT01641081|184408566|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2174|STANDARD_ERROR_OF_MEAN|0.0146|<|0.0001|TWO_SIDED|95.0|0.1887|0.2461|||Mixed Models Analysis|Treatment and period as fixed effects, and baseline FEV1 values at each period as a covariate||||0.2461|0.1887|<0.0001
92253601|NCT01095666|184408568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.0869|<|0.0001|TWO_SIDED|95.0|-0.76|-0.42||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment.|ANCOVA|||||-0.42|-0.76|<0.0001
92253602|NCT01095666|184408568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.0865|<|0.0001|TWO_SIDED|95.0|-0.79|-0.45||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment.|ANCOVA|||||-0.45|-0.79|<0.0001
92253603|NCT01095666|184408569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.1|STANDARD_ERROR_OF_MEAN|3.299|<|0.0001|TWO_SIDED|95.0|-28.6|-15.6||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-15.6|-28.6|<0.0001
92253604|NCT01095666|184408569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.1|STANDARD_ERROR_OF_MEAN|3.271|<|0.0001|TWO_SIDED|95.0|-33.5|-20.7||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-20.7|-33.5|<0.0001
92253605|NCT01095666|184408570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.3|STANDARD_ERROR_OF_MEAN|5.8758|<|0.0001|TWO_SIDED|95.0|-53.84|-30.73||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-30.73|-53.84|<0.0001
92253606|NCT01095666|184408570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-49.1|STANDARD_ERROR_OF_MEAN|5.7921|<|0.0001|TWO_SIDED|95.0|-60.53|-37.74||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-37.74|-60.53|<0.0001
92253607|NCT01095666|184408571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.2765|<|0.0001|TWO_SIDED|95.0|-1.65|-0.56||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-0.56|-1.65|<0.0001
92253608|NCT01095666|184408571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.82|STANDARD_ERROR_OF_MEAN|0.2747|<|0.0001|TWO_SIDED|95.0|-2.36|-1.28||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-1.28|-2.36|<0.0001
92253609|NCT01095666|184408572|SUPERIORITY_OR_OTHER||Difference in percentage|15.4|STANDARD_ERROR_OF_MEAN|4.702||0.001|TWO_SIDED|95.0|6.2|24.7||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|Modified logistic regression|Modified logistic regression model, adjusted for baseline HbA1c||||24.7|6.2|0.0010
92253610|NCT01095666|184408572|SUPERIORITY_OR_OTHER||Difference in percentage|15.5|STANDARD_ERROR_OF_MEAN|4.594||0.0007|TWO_SIDED|95.0|6.5|24.5||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|Modified logistic regression|Modified logistic regression model, adjusted for baseline HbA1c||||24.5|6.5|0.0007
92253611|NCT02690168|184408599|OTHER|||||||0.0053|||||||t-test, 2 sided|||||||0.0053
92253612|NCT02690168|184408600|OTHER|||||||0.477|||||||t-test, 2 sided|||||||0.477
92253613|NCT02690168|184408601|OTHER|||||||0.917|||||||t-test, 2 sided|||||||0.917
92253614|NCT02690168|184408603|OTHER|||||||0.53|||||||t-test, 2 sided|||||||0.53
92253615|NCT01496274|184408606|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P value is based on a Wilcoxon signed-rank test of H0: AsBR ratio (prophylaxis regimen/on-demand regimen) ≥ 0.50. The ratio was based on the original scale.|Wilcoxon signed-rank test|||A test of null hypothesis that the ratio of AsBR (prophylaxis regimen/on-demand regimen) was ≥ 0.50 was conducted at the 1-sided 0.025 level. Matched pairs design with 19 subjects and 2 observations per subject.||||<0.0001
92253616|NCT04018612|184408619|SUPERIORITY||LS Mean Difference|-21.84|STANDARD_ERROR_OF_MEAN|11.091||0.0258|ONE_SIDED|90.0||-7.53|||ANCOVA||SPID24 was analyzed using ANCOVA model with treatment group as a fixed effect and baseline (BL) Pain Intensity-Numerical Pain Relief Scale (PI-NPRS) as a covariate. The lower limit of one-sided 90% confidence interval (CI) was -∞|||-7.53||0.0258
92253617|NCT04018612|184408619|SUPERIORITY||LS Mean Difference|-25.74|STANDARD_ERROR_OF_MEAN|11.154||0.0115|ONE_SIDED|90.0||-11.35|||ANCOVA||SPID24 was analyzed using an analysis of covariance (ANCOVA) model with treatment group as a fixed effect and baseline PI-NPRS as a covariate. The lower limit of one-sided 90% CI was -∞|||-11.35||0.0115
92253618|NCT04018612|184408620|SUPERIORITY||LS Mean Difference|12.72|STANDARD_ERROR_OF_MEAN|5.267||0.0087|ONE_SIDED|90.0|5.92||||ANCOVA||TOTPAR24 was analyzed using an ANCOVA model with treatment group as a fixed effect and baseline PI-NPRS as a covariate. The upper limit of one-sided 90% CI was +∞||||5.92|0.0087
92253619|NCT04018612|184408620|SUPERIORITY||LS Mean Difference|12.14|STANDARD_ERROR_OF_MEAN|5.297||0.012|ONE_SIDED|90.0|5.31||||ANCOVA||TOTPAR24 was analyzed using an ANCOVA model with treatment group as a fixed effect and baseline PI-NPRS as a covariate. The upper limit of one-sided 90% CI was +∞||||5.31|0.0120
92253620|NCT01041404|184408654|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.0002|TWO_SIDED|95.0|0.59|0.85|||Log Rank|||||0.85|0.59|0.0002
92253621|NCT01041404|184408656|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.0003|TWO_SIDED|95.0|0.58|0.85|||Log Rank|||||0.85|0.58|0.0003
92253622|NCT01041404|184408657|SUPERIORITY_OR_OTHER||Difference in Response Rates|12.8||||0.0017|TWO_SIDED|95.0|4.7|20.9|||Chi-squared|||||20.9|4.7|0.0017
92253623|NCT01041404|184408659|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.4|0.73|||Log Rank|||||0.73|0.40|<0.0001
92253624|NCT01041404|184408660|SUPERIORITY_OR_OTHER||Difference in Clinical Benefit Rate|9.6||||0.0081|TWO_SIDED|95.0|2.4|16.9|||Chi-squared|||||16.9|2.4|0.0081
92253625|NCT01041404|184408660|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66|||||TWO_SIDED|95.0|1.14|2.41||||||||2.41|1.14|
92253626|NCT01041404|184408661|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.0046|TWO_SIDED|95.0|0.6|0.91|||Log Rank|||||0.91|0.60|0.0046
92253627|NCT00892957|184408688|SUPERIORITY_OR_OTHER||||||<|0.0001|ONE_SIDED|95.0|||||Likelihood ratio chi-square test|||||||<0.0001
92253628|NCT00892957|184408689|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|95.0|||||Likelihood ratio chi-square test|||||||0.001
92253629|NCT00892957|184408690|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|95.0|||||Likelihood ratio chi-square test|||||||0.012
92253630|NCT00892957|184408691|SUPERIORITY_OR_OTHER|||||||0.158|TWO_SIDED|95.0|||||Likelihood ratio chi-square test|||||||0.158
92253631|NCT00892957|184408693|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED|95.0|||||Likelihood ratio chi-square test|||||||0.380
92253632|NCT00892957|184408694|SUPERIORITY_OR_OTHER|||||||0.545|TWO_SIDED|95.0|||||Likelihood ratio chi-square test|||||||0.545
92253633|NCT02483078|184408718|SUPERIORITY|||||||0.0032|||||||Fisher Exact|The Fisher's Exact test if the count in any cell was less than 5; otherwise Chi-Square test was to be used||||||.0032
92253634|NCT02483078|184408719|SUPERIORITY|||||||0.0377|||||||Fisher Exact|||||||.0377
92253635|NCT02483078|184408720|SUPERIORITY|||||||0.1201|||||||Fisher Exact|||||||.1201
92253636|NCT02483078|184408721|SUPERIORITY|||||||0.0013|||||||ANCOVA|||||||.0013
92253637|NCT02483078|184408725|SUPERIORITY|||||||0.7123|||||||ANCOVA|||The raw and change from baseline in CD4 cell count at the end of the 1-week double blind treatment period was to be summarized by treatment group for the first week during the double-blind treatment phase. For change from baseline summaries, subjects with an undefined change from baseline, because of missing data, were to be excluded.||||.7123
92253638|NCT02483078|184408727|SUPERIORITY|||||||0.0993|||||||Fisher Exact|||||||.0993
92253639|NCT01962688|184408738|OTHER|||||||0.002|||||||Chi-squared|||||||0.002
92253640|NCT00669032|184408747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|ONE_SIDED||||||Chi-squared|||||||0.004
92253641|NCT00669032|184408748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.525|TWO_SIDED||||||Chi-squared|||||||0.525
92253642|NCT00669032|184408749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|TWO_SIDED||||||Chi-squared|||||||0.030
92253643|NCT00669032|184408750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049|TWO_SIDED||||||Chi-squared|||||||0.049
92253644|NCT00669032|184408751|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049|TWO_SIDED||||||Chi-squared|||||||0.049
92253645|NCT00669032|184408752|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Chi-squared|||||||0.002
92253646|NCT00669032|184408753|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021|TWO_SIDED||||||Chi-squared|||||||0.021
92253647|NCT00669032|184408754|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025|TWO_SIDED||||||Chi-squared|||||||0.025
92253648|NCT00669032|184408755|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|TWO_SIDED||||||Chi-squared|||||||0.023
92253649|NCT00669032|184408756|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Chi-squared|||||||0.002
92253650|NCT00669032|184408757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9129|TWO_SIDED||||||Chi-squared|||||||0.9129
92253651|NCT02564029|184408762|OTHER||Mean Difference (Final Values)|-6.23|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|90.0|-8.6|-3.86|||Mixed Model Repeated Measures Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||-3.86|-8.60|
92253652|NCT02564029|184408762|OTHER||Mean Difference (Final Values)|-5.42|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-7.78|-3.06|||Mixed Model Repeated Measures Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||-3.06|-7.78|
92253653|NCT02564029|184408762|OTHER||Mean Difference (Final Values)|-5.22|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|90.0|-7.6|-2.84|||Mixed Model Repeated Measures Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||-2.84|-7.60|
92253654|NCT02564029|184408762|OTHER||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|90.0|-1.58|3.2|||Mixed Model Repeated Measures Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||3.20|-1.58|
92253655|NCT02564029|184408762|OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|-3.43|1.41|||Mixed Model Repreated Measure Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||1.41|-3.43|
92253656|NCT02564029|184408762|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-2.56|2.16|||Mixed Model Repeated Measures Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||2.16|-2.56|
92253657|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-6.23|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|90.0|-8.6|-3.86|||Mixed Model Repeated Measure Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-3.86|-8.60|
92253658|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-5.42|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-7.78|-3.06|||Mixed Model Repeated Measures Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-3.06|-7.78|
92253659|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-5.22|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|90.0|-7.6|-2.84|||Mixed Model Repeated Measures Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-2.84|-7.60|
92283588|NCT01395030|184470758|OTHER||||||||||||||||||"Analysis was performed using Gene Set Enrichment Analysis (GSEA version 19.0.24, Broad Institute, Cambridge, MA) implemented in GenePattern (Broad Institute, Cambridge, MA) by uploading expression array data to this cloud-computing genomics platform. The specific details of this statistical approach can be found in the following publicly available references:~Reich M, Liefeld T, Gould J, Lerner J, Tamayo P, Mesirov JP. GenePattern 2.0 Nature Genetics 38 no. 5 (2006): pp500-501~Subramanian A, Tamayo P, Mootha VK, Mukherjee S, Ebert BL, Gillette MA, Paulovich A, Pomeroy SL, Golub TR, Lander ES, Mesirov JP. Gene set enrichment analysis: A knowledge-based approach for interpreting genome-wide expression profiles. PNAS. 2005;102(43);15545-15550."|||
92283589|NCT03629249|184470761|SUPERIORITY|||||||0.714|||||||Wilcoxon (Mann-Whitney)|||||||0.714
92176957|NCT03257410|184247926|OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.042||0.6097|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.6097
92283590|NCT03629249|184470761|SUPERIORITY|||||||0.734|||||||Wilcoxon (Mann-Whitney)|||||||0.734
92283591|NCT03629249|184470762|SUPERIORITY|||||||0.665|||||||Wilcoxon (Mann-Whitney)|||||||0.665
92253660|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|90.0|-1.58|3.2|||Mixed Model Repeated Measures Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||3.20|-1.58|
92283592|NCT03629249|184470762|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.910
92283593|NCT00705536|184470813|SUPERIORITY_OR_OTHER|||||||0.0006||||||Treatment comparison of Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0006
92283594|NCT00705536|184470813|SUPERIORITY_OR_OTHER|||||||0.0002||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0002
92283595|NCT00705536|184470814|SUPERIORITY_OR_OTHER|||||||0.0003||||||Treatment comparison of Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0003
92176958|NCT03257410|184247927|OTHER||Mean Difference (Final Values)|-6.32|STANDARD_ERROR_OF_MEAN|4.336||0.1472|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 12||||0.1472
92176959|NCT03257410|184247927|OTHER||Mean Difference (Final Values)|-11.18|STANDARD_ERROR_OF_MEAN|7.154||0.1207|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.1207
92283596|NCT00705536|184470814|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||<0.0001
92283597|NCT00705536|184470815|SUPERIORITY_OR_OTHER|||||||0.0059||||||Treatment comparison of Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0059
92283598|NCT00705536|184470815|SUPERIORITY_OR_OTHER|||||||0.0105||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0105
92253661|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|-3.43|1.41|||Mixed Model Repeated Measures Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||1.41|-3.43|
92253662|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-2.56|2.16|||Mixed Model Repeated Measures Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||2.16|-2.56|
92253663|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-6.51|STANDARD_ERROR_OF_MEAN|0.79|||TWO_SIDED|90.0|-8.01|-5.01|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-5.01|-8.01|
92253664|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-6.44|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|90.0|-7.93|-4.95|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-4.95|-7.93|
92253665|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-5.74|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-7.2|-4.28|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-4.28|-7.20|
92253666|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|90.0|-1.31|1.46|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||1.46|-1.31|
92253667|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|90.0|-2.19|0.65|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||0.65|-2.19|
92253668|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|90.0|-2.09|0.7|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||0.70|-2.09|
92253669|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-4.42|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|90.0|-5.6|-3.25|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-3.25|-5.60|
92253670|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-4.37|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|90.0|-5.57|-3.17|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-3.17|-5.57|
92253671|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-4.38|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|90.0|-5.57|-3.19|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-3.19|-5.57|
92253672|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|90.0|-1.08|1.19|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||1.19|-1.08|
92253673|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|90.0|-1.18|1.1|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||1.10|-1.18|
92253674|NCT02564029|184408763|OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|90.0|-1.11|1.13|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||1.13|-1.11|
92253675|NCT02712008|184408809|SUPERIORITY|Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.|Least square mean difference|-2.09||||0.1368|TWO_SIDED|95.0||0.67||Threshold for significance at 0.05 level.|ANCOVA|||||0.67|- 4.84|0.1368
92253676|NCT02712008|184408809|SUPERIORITY||Least square mean difference|0.04||||0.9716|TWO_SIDED|95.0||2.18||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||2.18|- 2.10|0.9716
92253677|NCT02712008|184408810|SUPERIORITY||Least square mean difference|2.15||||0.1665|TWO_SIDED|95.0|-0.9|5.2||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||5.20|-0.90|0.1665
92253678|NCT02712008|184408810|SUPERIORITY||Least square mean difference|1.9||||0.2223|TWO_SIDED|95.0|-1.16|4.95||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||4.95|-1.16|0.2223
92253679|NCT02712008|184408810|SUPERIORITY||Least square mean difference|0.39||||0.7943|TWO_SIDED|95.0|-2.54|3.32||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||3.32|-2.54|0.7943
92283599|NCT00705536|184470816|SUPERIORITY_OR_OTHER|||||||0.0002||||||Treatment comparison for Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0002
92253680|NCT02712008|184408810|SUPERIORITY||Least square mean difference|0.66||||0.6655|TWO_SIDED|95.0|-2.35|3.67||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||3.67|-2.35|0.6655
92253681|NCT02712008|184408810|SUPERIORITY||Least square mean difference|2.33||||0.1278|TWO_SIDED|95.0|-0.67|5.33||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||5.33|-0.67|0.1278
92253682|NCT02712008|184408810|SUPERIORITY||Least square mean difference|-1.51||||0.3159|TWO_SIDED|-1.51|-4.47|1.45||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||1.45|-4.47|0.3159
92253683|NCT02712008|184408810|SUPERIORITY||Least square mean difference|-0.27||||0.8537|TWO_SIDED|95.0|-3.18|2.63||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||2.63|-3.18|0.8537
92253684|NCT02712008|184408811|SUPERIORITY||Least square mean difference|-24.43||||0.1105|TWO_SIDED|95.0|-54.46|5.61||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||5.61|-54.46|0.1105
92253685|NCT02712008|184408811|SUPERIORITY||Least square mean difference|-27.79||||0.0183|TWO_SIDED|95.0||||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||- 4.74|- 50.83|0.0183
92253686|NCT02712008|184408812|SUPERIORITY||Least square mean difference|-55.91||||0.004|TWO_SIDED|95.0||||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||- 18.01|- 93.81|0.0040
92253687|NCT02712008|184408812|SUPERIORITY||Least square mean difference|-40.51||||0.0365|TWO_SIDED|95.0|-78.46|-2.57||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||-2.57|-78.46|0.0365
92176960|NCT03257410|184247928|OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|2.488||0.9775|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 12||||0.9775
92253688|NCT02712008|184408812|SUPERIORITY||Least square mean difference|-37.15||||0.0454|TWO_SIDED|95.0|-73.53|-0.77||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||-0.77|-73.53|0.0454
92253689|NCT02712008|184408812|SUPERIORITY||Least square mean difference|1.75||||0.9266|TWO_SIDED|95.0|-35.54|39.03||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||39.03|-35.54|0.9266
92253690|NCT02712008|184408812|SUPERIORITY||Least square mean difference|-15.49||||0.4116|TWO_SIDED|95.0|-52.58|21.59||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||21.59|-52.58|0.4116
92253691|NCT02712008|184408812|SUPERIORITY||Least square mean difference|3.36||||0.8574|TWO_SIDED|95.0|-33.42|40.14||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||40.14|-33.42|0.8574
92176961|NCT03257410|184247928|OTHER||Mean Difference (Final Values)|1.72|STANDARD_ERROR_OF_MEAN|2.905||0.5538|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.5538
92176962|NCT03257410|184247929|OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.146||0.11|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 4||||0.1100
92253692|NCT02712008|184408812|SUPERIORITY||Least square mean difference|-38.9||||0.0351|TWO_SIDED|95.0|-75.06|-2.73||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||-2.73|-75.06|0.0351
92253693|NCT02712008|184408813|SUPERIORITY||difference in percentages|-1.8||||0.7617|TWO_SIDED|95.0|-13.5|9.8||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using analysis of Cochran-Mantel-Haenszel model.||9.8|-13.5|0.7617
92253694|NCT02712008|184408813|SUPERIORITY||difference in percentages|6.1||||0.2268|TWO_SIDED|95.0||16.3||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using analysis of Cochran-Mantel-Haenszel model.||16.3|- 4.1|0.2268
92253695|NCT02712008|184408814|SUPERIORITY||difference in percentages|-1.3||||0.8896|TWO_SIDED|95.0|-20.4|17.7||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||17.7|-20.4|0.8896
92253696|NCT02712008|184408814|SUPERIORITY||difference in percentages|6.4||||0.5021|TWO_SIDED|95.0|-12.6|25.5||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||25.5|-12.6|0.5021
92253697|NCT02712008|184408814|SUPERIORITY||difference in percentages|6.0||||0.5273|TWO_SIDED|95.0|-12.8|24.7||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||24.7|-12.8|0.5273
92253698|NCT02712008|184408814|SUPERIORITY||difference in percentages|-1.5||||0.8683|TWO_SIDED|95.0|-19.7|16.6||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||16.6|-19.7|0.8683
92253699|NCT02712008|184408814|SUPERIORITY||difference in percentages|8.8||||0.3546|TWO_SIDED|95.0|-9.8|27.4||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||27.4|-9.8|0.3546
92176963|NCT03257410|184247929|OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.153||0.4607|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.4607
92176964|NCT03257410|184247930|OTHER||Mean Difference (Final Values)|-0.0787|STANDARD_ERROR_OF_MEAN|0.04454||0.0791|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 4||||0.0791
92176965|NCT03257410|184247930|OTHER||Mean Difference (Final Values)|-0.0027|STANDARD_ERROR_OF_MEAN|0.04302||0.9505|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 8||||0.9505
92176966|NCT03257410|184247930|OTHER||Mean Difference (Final Values)|-0.0615|STANDARD_ERROR_OF_MEAN|0.04271||0.1521|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 12||||0.1521
92176967|NCT03257410|184247930|OTHER||Mean Difference (Final Values)|0.0538|STANDARD_ERROR_OF_MEAN|0.04652||0.2489|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 16||||0.2489
92253700|NCT02712008|184408814|SUPERIORITY||difference in percentages|0.2||||0.9801|TWO_SIDED|95.0|-19.0|19.5||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||19.5|-19.0|0.9801
92253701|NCT02712008|184408814|SUPERIORITY||difference in percentages|8.8||||0.3528|TWO_SIDED|95.0|-9.9|27.4||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||27.4|-9.9|0.3528
92176968|NCT03257410|184247930|OTHER||Mean Difference (Final Values)|-0.0345|STANDARD_ERROR_OF_MEAN|0.05025||0.4936|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 20||||0.4936
92176969|NCT03257410|184247930|OTHER||Mean Difference (Final Values)|-0.0663|STANDARD_ERROR_OF_MEAN|0.0458||0.1497|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.1497
92176970|NCT03257410|184247931|OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|2.012||0.9001|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 12||||0.9001
92176971|NCT03257410|184247931|OTHER||Mean Difference (Final Values)|-2.33|STANDARD_ERROR_OF_MEAN|2.372||0.3279|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.3279
92176972|NCT03257410|184247932|OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.452||0.6576|TWO_SIDED||||||ANCOVA|||||||0.6576
92176973|NCT03257410|184247933|OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.104||0.0058|TWO_SIDED||||||ANCOVA|||||||0.0058
92176974|NCT03257410|184247934|OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.023||0.034|TWO_SIDED||||||ANCOVA|||||||0.034
92176975|NCT03257410|184247935|OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.071||0.0285|TWO_SIDED||||||ANCOVA|||||||0.0285
92176976|NCT03257410|184247936|OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.513||0.9069|TWO_SIDED||||||ANCOVA|||||||0.9069
92176977|NCT03257410|184247937|OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.443||0.8413|TWO_SIDED||||||ANCOVA|||||||0.8413
92176978|NCT03257410|184247938|OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.382||0.0125|TWO_SIDED||||||ANCOVA|||||||0.0125
92176979|NCT03257410|184247939|OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.561||0.6891|TWO_SIDED||||||ANCOVA|||||||0.6891
92176980|NCT03257410|184247940|OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.047||0.6043|TWO_SIDED||||||ANCOVA|||||||0.6043
92176981|NCT03257410|184247941|OTHER||Mean Difference (Final Values)|1.39|STANDARD_ERROR_OF_MEAN|2.08||0.5067|TWO_SIDED||||||ANCOVA|||||||0.5067
92176982|NCT03257410|184247942|OTHER||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.009||0.0297|TWO_SIDED||||||ANCOVA|||||||0.0297
92176983|NCT03257410|184247943|OTHER||Mean Difference (Final Values)|3.24|STANDARD_ERROR_OF_MEAN|2.14||0.1325|TWO_SIDED||||||ANCOVA|||||||0.1325
92253702|NCT02436915|184408872|EQUIVALENCE|We hypothesized that the real tDCS would improve the performance of TUG (i.e., greater percent decrease of time to complete TUG from baseline to follow ups) as compared to the sham tDCS.||||||0.24|||||||ANOVA|||||||0.24
92253703|NCT02436915|184408873|EQUIVALENCE|We hypothesized that the real tDCS would improve the MoCA score (i.e., greater percent increase decrease of MoCA score from baseline to follow ups) as compared to the sham tDCS.||||||0.03|||||||ANOVA|||||||0.03
92253704|NCT02436915|184408874|EQUIVALENCE|We hypothesized that the real tDCS would improve the dual task performance of walking (i.e., greater percent decrease of dual task cost to walking speed from baseline to follow ups) as compared to the sham tDCS.||||||0.37|||||||ANOVA|||||||0.37
92253705|NCT02436915|184408875|EQUIVALENCE|We hypothesized that the real tDCS would improve the performance of dual task standing (i.e., greater percent decrease of dual task cost to standing sway speed from baseline to follow ups) as compared to the sham tDCS.||||||0.004|||||||ANOVA|||||||0.004
92176984|NCT03257410|184247944|OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.186||0.2304|TWO_SIDED||||||ANCOVA|||||||0.2304
92176985|NCT03257410|184247945|OTHER||Mean Difference (Final Values)|-1.59|STANDARD_ERROR_OF_MEAN|2.846||0.5785|TWO_SIDED||||||ANCOVA|||||||0.5785
92176986|NCT03257410|184247946|OTHER||Mean Difference (Final Values)|2.55|STANDARD_ERROR_OF_MEAN|0.918||0.0067|TWO_SIDED||||||ANCOVA|||||||0.0067
92176987|NCT03257410|184247947|OTHER||Mean Difference (Final Values)|-14.93|STANDARD_ERROR_OF_MEAN|7.314||0.0434|TWO_SIDED||||||ANCOVA|||||||0.0434
92176988|NCT03257410|184247948|OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.07||0.3281|TWO_SIDED||||||ANCOVA|||||||0.3281
92176989|NCT03257410|184247949|OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.334||0.0463|TWO_SIDED||||||ANCOVA|||||||0.0463
92176990|NCT03257410|184247950|OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.06||0.1925|TWO_SIDED||||||ANCOVA|||||||0.1925
92176991|NCT03257410|184247951|OTHER||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.389||0.2569|TWO_SIDED||||||ANCOVA|||||||0.2569
92176992|NCT03257410|184247952|OTHER||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|1.104||0.5709|TWO_SIDED||||||ANCOVA|||||||0.5709
92253706|NCT02436915|184408876|EQUIVALENCE|We hypothesized that the real tDCS would reduce the depression (i.e., greater percent decrease of GDS score from baseline to follow ups) as compared to the sham tDCS.||||||0.37|||||||ANOVA|||||||0.37
92253707|NCT02436915|184408877|EQUIVALENCE|We hypothesized that the real tDCS would improve the performance of TMT (i.e., greater percent decrease of time to complete TMT from baseline to follow ups) as compared to the sham tDCS.||||||0.54|||||||ANOVA|||||||0.54
92253708|NCT02436915|184408878|EQUIVALENCE|We hypothesized that the real tDCS would improve the performance of dual task standing (i.e., greater percent decrease of dual task cost to standing postural sway area from baseline to follow ups) as compared to the sham tDCS.||||||0.0007|||||||ANOVA|||||||0.0007
92253709|NCT02436915|184408879|EQUIVALENCE|We hypothesized that the real tDCS would improve the performance of walking (i.e., greater percent decrease of dual task cost to stride time from baseline to follow ups) as compared to the sham tDCS.||||||0.04|||||||ANOVA|||||||0.04
92253710|NCT03805971|184408880|SUPERIORITY|||||||0.0003|||||||Fisher Exact|||"The objective of the test is to assess if the pCLE feature full chia seed sign is found statistically more frequently in the benign pleura group than in the malignant pleural infiltrations group."||||0.0003
92253711|NCT03805971|184408880|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"The objective is to assess if the abnormal tissular architecture is significantly more frequently found in the malignant pleural infiltrations group than in the benign pleura group."||||<0.0001
92253712|NCT03805971|184408880|SUPERIORITY|||||||0.0052|||||||Fisher Exact|||"The objective is to assess if the pCLE feature cellular shape homogeneity is found statistically more frequently in the benign pleura group than in the malignant pleural infiltrations group."||||0.0052
92253713|NCT03805971|184408880|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"The objective is to assess if dysplastic vessels are more frequently found in the malignant pleural infiltrations group than in the benign pleura group."||||<0.0001
92253714|NCT00364832|184408890|SUPERIORITY_OR_OTHER||Estimated Conversion Factor 90% CI|0.81|||||TWO_SIDED|90.0|0.73|0.9|||||To analyze dose conversion factors (CF), 2nd regression (R) analysis was performed on 3 different CF dose groups, using the R slope estimates of Hb change over 6 weeks. Equi-effective CF was interpolated using value that gives an Hb change of zero.|All cohorts with dosing frequency 1x/ week (0.4, 0.8 and 1.2 dose group)||0.90|0.73|
92283600|NCT00705536|184470816|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||<0.0001
92253715|NCT00364832|184408890|SUPERIORITY_OR_OTHER||Estimated Conversion Factor 90% CI|0.72|||||TWO_SIDED|90.0|0.55|0.86|||||To analyze dose conversion factors (CF), 2nd regression (R) analysis was performed on 3 different CF dose groups, using the R slope estimates of Hb change over 6 weeks. Equi-effective CF was interpolated using value that gives an Hb change of zero.|All cohorts with dosing frequency 1x/ 3 weeks (0.4, 0.8 and 1.2 dose group)||0.86|0.55|
92253716|NCT00364832|184408890|SUPERIORITY_OR_OTHER||Estimated Conversion Factor 90% CI|0.93|||||TWO_SIDED|90.0|0.81|1.09|||||To analyze dose conversion factors (CF), 2nd regression (R) analysis was performed on 3 different CF dose groups, using the R slope estimates of Hb change over 6 weeks. Equi-effective CF was interpolated using value that gives an Hb change of zero.|All cohorts with dosing frequency 1x/ 4 weeks (0.4, 0.8 and 1.2 dose group)||1.09|0.81|
92253717|NCT04882072|184408907|SUPERIORITY||Hazard Ratio (HR)|1.86|||||TWO_SIDED|95.0|0.41|8.47||||||||8.47|0.41|
92283601|NCT00705536|184470817|SUPERIORITY_OR_OTHER|||||||0.3019||||||Treatment comparison for Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.3019
92253718|NCT01548417|184408928|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|||Linear Mixed Effects Modeling (MEM) with Restricted Maximum Likelihood estimation was used to measure differences in alcohol-cued craving..||||.003
92253719|NCT01548417|184408929|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||Linear Mixed Effect Modeling (MEM) with Restricted Maximum Likelihood estimation was used to measure differences in changes in drinking.||||.05
92253720|NCT01548417|184408929|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||Data represent the estimated marginal mean + or - SEM. \*P\<0.05, mifepristone vs. placebo (linear mixed effects modeling).||||<0.05
92253721|NCT04583969|184408931|SUPERIORITY||Odds Ratio (OR)|1.13||||0.691|TWO_SIDED|95.0|0.63|2.02|||Regression, Logistic||Odds ratio above 1 favors Remdesivir plus Lenzilumab.|Odds ratio, CI, and p-value estimated from a logistic regression model adjusted for baseline dexamethasone use, baseline OS, age (continuous), and baseline CRP. Missing data imputed using the 3-stage multiple imputation procedure described in the statistical analysis plan.||2.02|0.63|0.691
92283602|NCT00705536|184470818|SUPERIORITY_OR_OTHER|||||||0.0401||||||Treatment comparison of Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0401
92283603|NCT00705536|184470818|SUPERIORITY_OR_OTHER|||||||0.0004||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0004
92176993|NCT03257410|184247953|OTHER||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.412||0.217|TWO_SIDED||||||ANCOVA|||||||0.217
92176994|NCT03257410|184247954|OTHER||Mean Difference (Final Values)|-1.53|STANDARD_ERROR_OF_MEAN|1.292||0.2386|TWO_SIDED||||||ANCOVA|||||||0.2386
92176995|NCT03257410|184247955|OTHER||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|0.84||0.1769|TWO_SIDED||||||ANCOVA|||||||0.1769
92176996|NCT03257410|184247956|OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.36||0.8102|TWO_SIDED||||||ANCOVA|||||||0.8102
92176997|NCT03257410|184247957|OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|1.501||0.9672|TWO_SIDED||||||ANCOVA|||||||0.9672
92176998|NCT03257410|184247958|OTHER||Mean Difference (Final Values)|27.34|STANDARD_ERROR_OF_MEAN|24.623||0.2697|TWO_SIDED||||||ANCOVA|||||||0.2697
92176999|NCT03257410|184247961|OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.115||0.7189|TWO_SIDED||||||ANCOVA|||||||0.7189
92177000|NCT03257410|184247962|OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.044||0.097|TWO_SIDED||||||ANCOVA|||||||0.097
92253722|NCT04583969|184408932|SUPERIORITY||Odds Ratio (OR)|1.24||||0.378|TWO_SIDED|95.0|0.77|1.99|||Regression, Logistic||Odds ratio above 1 favors Remdesivir plus Lenzilumab.|Odds ratio, CI, and p-value estimated from a logistic regression model adjusted for baseline dexamethasone use, baseline OS, age (continuous), and baseline CRP. Missing data imputed using the 3-stage multiple imputation procedure described in the statistical analysis plan.||1.99|0.77|0.378
92177001|NCT03257410|184247963|OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.113||0.4513|TWO_SIDED||||||ANCOVA|||||||0.4513
92177002|NCT03257410|184247964|OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.1||0.0733|TWO_SIDED||||||ANCOVA|||||||0.0733
92253723|NCT04583969|184408933|SUPERIORITY|Hazard ratio, confidence intervals, and p-value estimated from a Cox model adjusted for baseline dexamethasone use, baseline ordinal score, age, and baseline CRP.|Hazard Ratio, log|0.96||||0.689|TWO_SIDED|95.0|0.76|1.2|||Regression, Cox||HR greater than 1 favors Remdesivir plus Lenzilumab.|||1.20|0.76|0.689
92177003|NCT03257410|184247965|OTHER||Mean Difference (Final Values)|-3.42|STANDARD_ERROR_OF_MEAN|5.467||0.5326|TWO_SIDED||||||ANCOVA|||||||0.5326
92177004|NCT03257410|184247966|OTHER||Mean Difference (Final Values)|-1.11|STANDARD_ERROR_OF_MEAN|1.076||0.3042|TWO_SIDED||||||ANCOVA|||||||0.3042
92177005|NCT03257410|184247967|OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.976||0.5534|TWO_SIDED||||||ANCOVA|||||||0.5534
92177006|NCT03257410|184247968|OTHER||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|1.181||0.2958|TWO_SIDED||||||ANCOVA|||||||0.2958
92177007|NCT03257410|184247969|OTHER||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.377||0.0998|TWO_SIDED||||||ANCOVA|||||||0.0998
92177008|NCT03257410|184247970|OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|3.176||0.9952|TWO_SIDED||||||ANCOVA|||||||0.9952
92177009|NCT03257410|184247971|OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.693||0.3063|TWO_SIDED||||||ANCOVA|||||||0.3063
92177010|NCT03257410|184247972|OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.529||0.1098|TWO_SIDED||||||ANCOVA|||||||0.1098
92177011|NCT03257410|184247973|OTHER||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|0.797||0.0766|TWO_SIDED||||||ANCOVA|||||||0.0766
92177012|NCT03257410|184247974|OTHER||Mean Difference (Final Values)|-2.58|STANDARD_ERROR_OF_MEAN|2.41||0.2886|TWO_SIDED||||||ANCOVA|||||||0.2886
92177013|NCT03257410|184247975|OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.042||0.4513|TWO_SIDED||||||ANCOVA|||||||0.4513
92177014|NCT03257410|184247976|OTHER||Mean Difference (Final Values)|1.56|STANDARD_ERROR_OF_MEAN|2.96||0.5992|TWO_SIDED||||||ANCOVA|||||||0.5992
92177015|NCT03257410|184247977|OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.29||0.3836|TWO_SIDED||||||ANCOVA|||||||0.3836
92253724|NCT04583969|184408934|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.718|TWO_SIDED|95.0|0.79|1.18|||Regression, Cox||HR greater than 1 favors Remdesivir plus Lenzilumab.|Hazard ratio, confidence intervals, and p-value estimated from a Cox model adjusted for baseline dexamethasone use, baseline ordinal Score, age, and baseline CRP.||1.18|0.79|0.718
92177016|NCT03257410|184247978|OTHER||Mean Difference (Final Values)|-13.07|STANDARD_ERROR_OF_MEAN|7.284||0.0769|TWO_SIDED||||||ANCOVA|||||||0.0769
92177017|NCT03257410|184247979|OTHER||Mean Difference (Final Values)|-19.56|STANDARD_ERROR_OF_MEAN|5.17||0.0002|TWO_SIDED||||||ANCOVA|||||||0.0002
92177018|NCT03257410|184247980|OTHER||Mean Difference (Final Values)|-1.39|STANDARD_ERROR_OF_MEAN|1.039||0.1825|TWO_SIDED||||||ANCOVA|||||||0.1825
92177019|NCT03257410|184247981|OTHER||Mean Difference (Final Values)|-1.24|STANDARD_ERROR_OF_MEAN|0.737||0.0957|TWO_SIDED||||||ANCOVA|||||||0.0957
92177020|NCT03257410|184247982|OTHER||Mean Difference (Final Values)|-34.02|STANDARD_ERROR_OF_MEAN|10.23||0.0012|TWO_SIDED||||||ANCOVA|||||||0.0012
92177021|NCT03257410|184247983|OTHER||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|0.859||0.1824|TWO_SIDED||||||ANCOVA|||||||0.1824
92283604|NCT00705536|184470819|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone and Humalog +rHuPH20 using a pairwise t-test.|ANOVA|||||||<0.0001
92177022|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|2.49||||0.75|TWO_SIDED|90.0|-10.66|15.65|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||15.65|-10.66|0.75
92177023|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-5.37||||0.5|TWO_SIDED|90.0|-18.49|7.76|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||7.76|-18.49|0.50
92177024|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|1.68||||0.83|TWO_SIDED|90.0|-11.48|14.84|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||14.84|-11.48|0.83
92177025|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-0.88||||0.84|TWO_SIDED|90.0|-7.91|6.15|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||6.15|-7.91|0.84
92177026|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.66|TWO_SIDED|90.0|-5.13|8.9|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||8.90|-5.13|0.66
92177027|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|0.65||||0.88|TWO_SIDED|90.0|-6.38|7.68|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||7.68|-6.38|0.88
92177028|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-53.83||||0.54|TWO_SIDED|90.0|-200.7|93.05|||ANOVA|||Ring/CA conc: 3% Type: ROI||93.05|-200.70|0.54
92177029|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-40.51||||0.65|TWO_SIDED|90.0|-187.01|105.98|||ANOVA|||Ring/CA conc: 3% Type: ROI||105.98|-187.01|0.65
92283605|NCT00705536|184470819|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||<0.0001
92177030|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-52.99||||0.55|TWO_SIDED|90.0|-199.87|93.88|||ANOVA|||Ring/CA conc: 3% Type: ROI||93.88|-199.87|0.55
92177031|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-36.65||||0.18|TWO_SIDED|90.0|-81.85|8.56|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||8.56|-81.85|0.18
92265235|NCT01050998|184431823|SUPERIORITY_OR_OTHER||Adjusted Mean difference|32.03|STANDARD_ERROR_OF_MEAN|7.085|<|0.001|TWO_SIDED|95.0|18.08|45.98|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||45.98|18.08|<0.001
92283606|NCT00705536|184470821|SUPERIORITY_OR_OTHER|||||||0.5589||||||Treatment comparison of Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.5589
92177032|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-22.49||||0.41|TWO_SIDED|90.0|-67.58|22.59|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||22.59|-67.58|0.41
92177033|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-33.86||||0.22|TWO_SIDED|90.0|-79.06|11.34|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||11.34|-79.06|0.22
92177034|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-30.66||||0.74|TWO_SIDED|90.0|-183.08|121.76|||ANOVA|||Ring/CA conc: 10%, Type: ROI||121.76|-183.08|0.74
92177035|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-98.77||||0.28|TWO_SIDED|90.0|-250.79|53.25|||ANOVA|||Ring/CA conc: 10%, Type: ROI||53.25|-250.79|0.28
92177036|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-214.89||||0.02|TWO_SIDED|90.0|-367.31|-62.48|||ANOVA|||Ring/CA conc: 10%, Type: ROI||-62.48|-367.31|0.02
92177037|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-3.89||||0.93|TWO_SIDED|90.0|-81.44|73.66|||ANOVA|||Ring/CA conc: 10% , Type: Entire Image||73.66|-81.44|0.93
92253725|NCT04583969|184408935|SUPERIORITY||Odds Ratio (OR)|1.02||||0.907|TWO_SIDED|95.0|0.75|1.39|||Proportional odds model||Odds ratio greater than 1 favors Remdesivir plus Lenzilumab.|Includes all ordinal score categories. Odds ratio of a better clinical status score, confidence interval and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using multiple imputation (MI) for participants lost to follow-up before Day 8 while hospitalized, in hospice, long term acute care, or transferred to other hospital while those participants lost to follow-up after discharge to home are assigned a score of 2.||1.39|0.75|0.907
92283607|NCT00705536|184470821|SUPERIORITY_OR_OTHER|||||||0.0067||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0067
92177038|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-191.02|||<|0.0001|TWO_SIDED|90.0|-268.37|-113.67|||ANOVA|||Ring/CA conc: 10% , Type: Entire Image||-113.67|-268.37|<.0001
92177039|NCT04183283|184247994|SUPERIORITY||Mean Difference (Final Values)|-252.24|||<|0.0001|TWO_SIDED|90.0|-329.79|-174.68|||ANOVA|||Ring/CA conc: 10%, Type: Entire Image||-174.68|-329.79|<.0001
92253726|NCT04583969|184408969|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.609|TWO_SIDED|95.0|0.87|1.27|||Regression, Cox||HR greater than 1 favors Remdesivir plus Lenzilumab|||1.27|0.87|0.609
92283608|NCT02289963|184470827|SUPERIORITY||Least Square (LS) Mean Difference|-63.4|||<|0.0001|TWO_SIDED|95.0|-71.6|-55.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/ Up to 150 mg Q2W vs. Placebo Q2W|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-55.2|-71.6|<0.0001
92177040|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.99|TWO_SIDED|90.0|-8.28|8.15|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||8.15|-8.28|0.99
92177041|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.91|TWO_SIDED|90.0|-8.78|7.6|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||7.60|-8.78|0.91
92177042|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|2.53||||0.61|TWO_SIDED|90.0|-5.69|10.74|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||10.74|-5.69|0.61
92177043|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-1.29||||0.8|TWO_SIDED|90.0|-9.58|7.0|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||7.00|-9.58|0.80
92177044|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|1.45||||0.77|TWO_SIDED|90.0|-6.83|9.72|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||9.72|-6.83|0.77
92177045|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|1.85||||0.71|TWO_SIDED|90.0|-6.45|10.14|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||10.14|-6.45|0.71
92177046|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-18.38||||0.38|TWO_SIDED|90.0|-53.27|16.51|||ANOVA|||Ring/CA conc: 3%, Type: ROI||16.51|-53.27|0.38
92177047|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-2.97||||0.89|TWO_SIDED|90.0|-37.76|31.83|||ANOVA|||Ring/CA conc: 3%, Type: ROI||31.83|-37.76|0.89
92177048|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-10.12||||0.63|TWO_SIDED|90.0|-45.0|24.77|||ANOVA|||Ring/CA conc: 3%, Type: ROI||24.77|-45.00|0.63
92177049|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-11.31||||0.21|TWO_SIDED|90.0|-26.21|3.58|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||3.58|-26.21|0.21
92177050|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-3.19||||0.72|TWO_SIDED|90.0|-18.04|11.67|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||11.67|-18.04|0.72
92177051|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-10.46||||0.25|TWO_SIDED|90.0|-25.35|4.44|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||4.44|-25.35|0.25
92177052|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|7.27||||0.69|TWO_SIDED|90.0|-22.71|37.25|||ANOVA|||Ring/CA conc: 10%, Type: ROI||37.25|-22.71|0.69
92177053|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-20.7||||0.25|TWO_SIDED|90.0|-50.6|9.2|||ANOVA|||Ring/CA conc: 10%, Type: ROI||9.2|-50.60|0.25
92177054|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-34.79||||0.06|TWO_SIDED|90.0|-64.77|-4.81|||ANOVA|||Ring/CA conc: 10%, Type: ROI||-4.81|-64.77|0.06
92177055|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|10.01||||0.51|TWO_SIDED|90.0|-15.4|35.42|||ANOVA|||Ring/CA conc: 10% Type: Entire Image||35.42|-15.4|0.51
92177056|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-53.63|||<|0.001|TWO_SIDED|90.0|-78.98|-28.29|||ANOVA|||Ring/CA conc: 10% Type: Entire Image||-28.29|-78.98|<0.001
92177057|NCT04183283|184247995|SUPERIORITY||Mean Difference (Final Values)|-79.5|||<|0.0001|TWO_SIDED|90.0|-104.91|-54.09|||ANOVA|||Ring/CA conc: 10% Type: Entire Image||-54.09|-104.91|<.0001
92253727|NCT04583969|184408970|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.708|TWO_SIDED|95.0|0.85|1.26|||Regression, Cox||HR greater than 1 favors Remdesivir plus Lenzilumab|||1.26|0.85|0.708
92283609|NCT02289963|184470828|SUPERIORITY||LS Mean Difference|-66.2|||<|0.0001|TWO_SIDED|95.0|-73.9|-58.4||Threshold for significance was at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-58.4|-73.9|<0.0001
92283610|NCT02289963|184470829|SUPERIORITY||LS Mean Difference|-62.5|||<|0.0001|TWO_SIDED|95.0|-68.8|-56.3||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-56.3|-68.8|<0.0001
92253728|NCT01585168|184409024|OTHER||Mean Difference (Net)|2.4109||||0.032|TWO_SIDED|||||P value was adjusted for multiple comparisons using FWE (family wise error) correction.|t-test, 2 sided|A Paired t-test was performed to explore the difference between two groups.|FHN was found to have lower mean BOLD activation while given drug compared to placebo in amygdala.|||||0.032
92253729|NCT01585168|184409024|OTHER||Median Difference (Net)|3.6615||||0.125|TWO_SIDED||||||t-test, 2 sided|||||||0.125
92253730|NCT01585168|184409027|OTHER||Mean Difference (Net)|2.7264||||0.356|TWO_SIDED|||||P value was adjusted for multiple comparisons using FWE (family wise error) correction.|t-test, 2 sided||FHP was found to have lower mean BOLD activation while given drug compared to placebo in anterior cingulate cortex.|||||0.356
92253731|NCT01585168|184409027|OTHER||Median Difference (Net)|1.8348||||0.009|TWO_SIDED||||||t-test, 2 sided|||||||0.009
92253732|NCT02057068|184409051|SUPERIORITY||||||<|0.001|||||||ANOVA|Intention to treat analysis with last observation carried forward|||Partial Eta Squared = .282|||<.001
92253733|NCT02057068|184409052|SUPERIORITY|Intention to treat analysis with last observation carried forward|||||>|0.05|||||||ANOVA|||||||>.05
92253734|NCT02057068|184409053|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
92265236|NCT01050998|184431824|SUPERIORITY_OR_OTHER||Adjusted Mean difference|14.49|STANDARD_ERROR_OF_MEAN|7.981||0.071|TWO_SIDED|95.0|-1.24|30.22|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for European region.||30.22|-1.24|0.071
92265237|NCT01050998|184431824|SUPERIORITY_OR_OTHER||Adjusted mean difference|19.43|STANDARD_ERROR_OF_MEAN|7.798||0.013|TWO_SIDED|95.0|4.06|34.8|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for European region.||34.80|4.06|0.013
92265238|NCT01050998|184431824|SUPERIORITY_OR_OTHER||Adjusted mean difference|7.84|STANDARD_ERROR_OF_MEAN|7.873||0.32|TWO_SIDED|95.0|-7.68|23.36|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for European region.||23.36|-7.68|0.320
92265239|NCT01050998|184431824|SUPERIORITY_OR_OTHER||Adjusted mean difference|31.37|STANDARD_ERROR_OF_MEAN|7.873|<|0.001|TWO_SIDED|95.0|15.85|46.89|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for European region.||46.89|15.85|<0.001
92265240|NCT01050998|184431824|SUPERIORITY_OR_OTHER||Adjusted mean difference|12.11|STANDARD_ERROR_OF_MEAN|17.089||0.483|TWO_SIDED|95.0|-22.41|46.64|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for Japanese region.||46.64|-22.41|0.483
92283611|NCT02289963|184470830|SUPERIORITY||LS Mean Difference|-63.1|||<|0.0001|TWO_SIDED|95.0|-69.2|-57.0||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-57.0|-69.2|<0.0001
92283612|NCT02289963|184470831|SUPERIORITY||LS Mean Difference|-46.3|||<|0.0001|TWO_SIDED|95.0|-53.0|-39.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-39.7|-53.0|<0.0001
92283613|NCT02289963|184470832|SUPERIORITY||LS Mean Difference|-49.2|||<|0.0001|TWO_SIDED|95.0|-55.3|-43.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-43.1|-55.3|<0.0001
92265241|NCT01050998|184431824|SUPERIORITY_OR_OTHER||Adjusted mean difference|31.24|STANDARD_ERROR_OF_MEAN|17.089||0.075|TWO_SIDED|95.0|-3.28|65.77|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for Japanese region.||65.77|-3.28|0.075
92265242|NCT01050998|184431824|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.22|STANDARD_ERROR_OF_MEAN|17.872||0.815|TWO_SIDED|95.0|-31.89|40.32|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for Japanese region.||40.32|-31.89|0.815
92177058|NCT00104676|184248003|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.05|TWO_SIDED|95.0|0.44|1.0|||Log Rank|Adjusted on the stratification factor (treatment centers)||To detect an absolute difference of 20% in progression-free survival at 3-years between Arm I and Unfav-Dose-Dense Arm II (46% versus 66%) with the possibility that 80 events (progressive disease and death) may be observed during this period, a total of 196 participants, 98 per group needed to be included, with an additional 25% of patients for a total of 260 participants required.||1.00|0.44|0.05
92177059|NCT00104676|184248004|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.34|TWO_SIDED|95.0|0.46|1.31|||Log Rank|Adjusted on the stratification factor (treatment centers)||||1.31|0.46|0.34
92177060|NCT05622812|184248005|SUPERIORITY||Treatment difference|39.0|||<|0.001|TWO_SIDED|95.0|21.6|56.5||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|||56.5|21.6|<0.001
92177061|NCT05622812|184248006|SUPERIORITY||Treatment difference|40.4|||<|0.001|TWO_SIDED|95.0|23.1|57.6||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 6||57.6|23.1|<0.001
92177062|NCT05622812|184248006|SUPERIORITY||Treatment difference|41.7|||<|0.001|TWO_SIDED|95.0|25.6|57.8||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 9||57.8|25.6|<0.001
92177063|NCT05622812|184248006|SUPERIORITY||Treatment difference|30.2||||0.003|TWO_SIDED|95.0|13.2|47.1||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 12||47.1|13.2|0.003
92177064|NCT05622812|184248007|SUPERIORITY||Treatment difference|99.0|||<|0.001|TWO_SIDED|95.0|97.1|100.0||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 3||100.0|97.1|<0.001
92177065|NCT05622812|184248007|SUPERIORITY||Treatment difference|87.6|||<|0.001|TWO_SIDED|95.0|76.9|98.2||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 6||98.2|76.9|<0.001
92177066|NCT05622812|184248007|SUPERIORITY||Treatment difference|80.5|||<|0.001|TWO_SIDED|95.0|68.6|92.4||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 9||92.4|68.6|<0.001
92177067|NCT05622812|184248007|SUPERIORITY||Treatment difference|73.7|||<|0.001|TWO_SIDED|95.0|61.9|85.5||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 12||85.5|61.9|<0.001
92177068|NCT05622812|184248008|SUPERIORITY||Treatment difference|93.1|||<|0.001|TWO_SIDED|95.0|88.2|98.0||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 3||98.0|88.2|<0.001
92177069|NCT05622812|184248008|SUPERIORITY||Treatment difference|87.9|||<|0.001|TWO_SIDED|95.0|81.4|94.3||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 6||94.3|81.4|<0.001
92177070|NCT05622812|184248008|SUPERIORITY||Treatment difference|80.4|||<|0.001|TWO_SIDED|95.0|72.7|88.1||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|||88.1|72.7|<0.001
92177071|NCT05622812|184248008|SUPERIORITY||Treatment difference|71.6|||<|0.001|TWO_SIDED|95.0|62.8|80.3||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 12||80.3|62.8|<0.001
92177072|NCT03916185|184248009|SUPERIORITY||Difference in proportions|0.0|||>|0.99|TWO_SIDED|95.0|-32.0|32.0||Statistical significance level of 0.05 was used. No adjustment for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||32|-32|>0.99
92177073|NCT03916185|184248009|SUPERIORITY||Difference in proportions|-15.0||||0.53|TWO_SIDED|95.0|-46.0|18.0||Statistical significance level of 0.05 used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||18|-46|0.53
92177074|NCT03916185|184248009|SUPERIORITY||Difference in proportions|16.0||||0.66|TWO_SIDED|95.0|-29.0|52.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||52|-29|0.66
92177075|NCT03916185|184248010|SUPERIORITY||Difference in proportions|0.0|||>|0.99|TWO_SIDED|95.0|-20.0|20.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||20|-20|>0.99
92177076|NCT03916185|184248010|SUPERIORITY||Difference in proportions|-5.0|||>|0.99|TWO_SIDED|95.0|-25.0|13.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||13|-25|>0.99
92177077|NCT03916185|184248010|SUPERIORITY||Difference in proportions|-5.0|||>|0.99|TWO_SIDED|95.0|-26.0|34.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||34|-26|>0.99
92177078|NCT03916185|184248011|SUPERIORITY||Difference in proportions|0.0|||>|0.99|TWO_SIDED|95.0|-18.0|18.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||18|-18|>0.99
92177079|NCT03916185|184248011|SUPERIORITY||Difference in proportions|0.0|||>|0.99|TWO_SIDED|95.0|-18.0|18.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||18|-18|>0.99
92177080|NCT03916185|184248011|SUPERIORITY||Difference in proportions|0.0|||>|0.99|TWO_SIDED|95.0|-17.0|41.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||41|-17|>0.99
92177081|NCT03916185|184248012|SUPERIORITY||Difference in proportions|61.0|||<|0.001|TWO_SIDED|95.0|27.0|83.0||Statistical significance level of 0.05 was used. No adjustment for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||83|27|<0.001
92265243|NCT01050998|184431824|SUPERIORITY_OR_OTHER||Adjusted mean difference|36.11|STANDARD_ERROR_OF_MEAN|17.089||0.041|TWO_SIDED|95.0|1.58|70.63|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for Japanese region.||70.63|1.58|0.041
92265244|NCT00370994|184431854|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Comparisons were made between groups and within the group between baseline and different time points.|Repeated measures ANOVA.|||||||<0.001
92265245|NCT00370994|184431855|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||There were significant differences in Oswestry Disability Index between both groups|Repeated measures of ANOVA|||||||0.001
92265246|NCT04278846|184431856|SUPERIORITY|||||||0.87|||||||Kruskal-Wallis|||||||.87
92265247|NCT04278846|184431857|SUPERIORITY|||||||0.49|||||||Kruskal-Wallis|||||||.49
92265248|NCT04278846|184431858|SUPERIORITY|||||||0.57|||||||Kruskal-Wallis|||||||.57
92265249|NCT04278846|184431859|SUPERIORITY|||||||0.3|||||||Kruskal-Wallis|||||||.3
92177082|NCT03916185|184248012|SUPERIORITY||Difference in proportions|56.0|||<|0.001|TWO_SIDED|95.0|22.0|79.0|||Fisher Exact|Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Comparison was vaccine arm - placebo.|||79|22|<0.001
92177083|NCT03916185|184248012|SUPERIORITY||Difference in proportions|56.0||||0.011|TWO_SIDED|95.0|9.0|86.0|||Fisher Exact|Statistical significance level of 0.05 was used. No adjustments were made for multiple comparisons.|Comparison was vaccine arm - placebo.|||86|9|0.011
92177084|NCT03916185|184248012|SUPERIORITY||Difference in proportions|6.0|||>|0.99|TWO_SIDED|95.0|-25.0|36.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV ΔNS2/Δ1313/I1314L Vaccine - RSV 6120/ΔNS2/1030s Vaccine.|||36|-25|>0.99
92177085|NCT03916185|184248012|SUPERIORITY||Difference in proportions|5.0|||>|0.99|TWO_SIDED|95.0|-31.0|48.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV ΔNS2/Δ1313/I1314L Vaccine - RSV 276 Vaccine.|||48|-31|>0.99
92177086|NCT03916185|184248012|SUPERIORITY||Difference in proportions|-1.0|||>|0.99|TWO_SIDED|95.0|-38.0|44.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV 6120/ΔNS2/1030s Vaccine - RSV 276 Vaccine.|||44|-38|>0.99
92265250|NCT04278846|184431860|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||||||.99
92177087|NCT03916185|184248013|SUPERIORITY||Difference in proportions|73.0|||<|0.001|TWO_SIDED|95.0|44.0|91.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||91|44|<0.001
92177088|NCT03916185|184248013|SUPERIORITY||Difference in proportions|61.0|||<|0.001|TWO_SIDED|95.0|27.0|83.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||83|27|<0.001
92177089|NCT03916185|184248013|SUPERIORITY||Difference in proportions|85.0|||<|0.001|TWO_SIDED|95.0|42.0|97.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||97|42|<0.001
92177090|NCT03916185|184248013|SUPERIORITY||Difference in proportions|12.0||||0.66|TWO_SIDED|95.0|-17.0|40.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV ΔNS2/Δ1313/I1314L Vaccine - RSV 6120/ΔNS2/1030s Vaccine.|||40|-17|0.66
92177091|NCT03916185|184248013|SUPERIORITY||Difference in proportions|-12.0|||>|0.99|TWO_SIDED|95.0|-36.0|30.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV ΔNS2/Δ1313/I1314L Vaccine - RSV 276 Vaccine.|||30|-36|>0.99
92177092|NCT03916185|184248013|SUPERIORITY||Difference in proportions|-24.0||||0.28|TWO_SIDED|95.0|-50.0|20.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV 6120/ΔNS2/1030s Vaccine - RSV 276 Vaccine.|||20|-50|0.28
92177093|NCT03916185|184248014|SUPERIORITY||||||<|0.001||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
92177094|NCT03916185|184248014|SUPERIORITY||||||<|0.001||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
92177095|NCT03916185|184248014|SUPERIORITY||||||<|0.001||||||Statistical significance of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
92177096|NCT03916185|184248014|SUPERIORITY|||||||0.95||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.95
92177097|NCT03916185|184248014|SUPERIORITY|||||||0.12||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.12
92265251|NCT04278846|184431861|SUPERIORITY|||||||0.33|||||||Kruskal-Wallis|||||||.33
92177098|NCT03916185|184248014|SUPERIORITY|||||||0.033||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.033
92177099|NCT03916185|184248015|SUPERIORITY||||||<|0.001||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
92265252|NCT04278846|184431862|SUPERIORITY|||||||0.26|||||||Kruskal-Wallis|||||||.26
92283614|NCT02289963|184470833|SUPERIORITY||LS Mean Difference|-51.5|||<|0.0001|TWO_SIDED|95.0|-58.4|-44.6||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-44.6|-58.4|<0.0001
92177100|NCT03916185|184248015|SUPERIORITY||||||<|0.001||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
92177101|NCT03916185|184248015|SUPERIORITY||||||<|0.001||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
92177102|NCT03916185|184248015|SUPERIORITY|||||||0.39||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.39
92177103|NCT03916185|184248015|SUPERIORITY|||||||0.15||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.15
92177104|NCT03916185|184248015|SUPERIORITY|||||||0.049||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.049
92177105|NCT04228042|184248039|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
92265253|NCT04278846|184431863|SUPERIORITY|||||||0.79|||||||Kruskal-Wallis|||||||.79
92177106|NCT04228042|184248039|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92177107|NCT04228042|184248039|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92177108|NCT04228042|184248039|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92177109|NCT05196919|184248051|SUPERIORITY||Mean Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|8.693||1|TWO_SIDED|95.0|-22.57|30.97|||Mixed Models Analysis|||This was a phase 2a safety study that was not statistically powered for efficacy assessments.||30.97|-22.57|1.00
92177110|NCT05196919|184248051|SUPERIORITY||Mean Difference (Final Values)|7.96|STANDARD_ERROR_OF_MEAN|8.142||0.99|TWO_SIDED|95.0|-17.12|33.03|||Mixed Models Analysis|||This was a phase 2a safety study that was not statistically powered for efficacy assessments.||33.03|-17.12|0.99
92265254|NCT04278846|184431864|SUPERIORITY|||||||0.62|||||||Kruskal-Wallis|||||||.62
92177111|NCT05196919|184248052|SUPERIORITY||Mean Difference (Final Values)|-6.15|STANDARD_ERROR_OF_MEAN|4.676||0.1933|TWO_SIDED|95.0|-15.49|3.19|||Mixed Models Analysis|||This was a phase 2a safety study that was not statistically powered for efficacy assessments.||3.19|-15.49|0.1933
92177112|NCT05196919|184248052|SUPERIORITY||Mean Difference (Final Values)|5.14|STANDARD_ERROR_OF_MEAN|4.434||0.2511|TWO_SIDED|95.0|-3.73|14.0|||Mixed Models Analysis|||This was a phase 2a safety study that was not statistically powered for efficacy assessments.||14.00|-3.73|0.2511
92177113|NCT01959607|184248067|OTHER||Geometric LS Mean Ratio|103.5|||||TWO_SIDED|95.0|84.94|126.11|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (THS 2.2 - Group 1:CC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of THS 2.2:CC) for Cmax, therefore, there was no statistical hypothesis to be tested for this objective.||126.11|84.94|
92182768|NCT02609048|184264681|SUPERIORITY||Difference in LSM|-12.0|STANDARD_ERROR_OF_MEAN|8.043||0.1459|TWO_SIDED|95.0|-28.4|4.41||Difference between means,p-value, and CIs estimated by comparing each Seladelpar level with placebo by ANCOVA model.Treatment group as factor, baseline assessment as covariate, and percent change from baseline in total bilirubin as response variable.|ANCOVA|||||4.41|-28.40|0.1459
92265255|NCT04278846|184431865|SUPERIORITY|||||||0.94|||||||Kruskal-Wallis|||||||.94
92265256|NCT04278846|184431866|SUPERIORITY|||||||0.95|||||||Kruskal-Wallis|||||||.95
92265257|NCT04278846|184431867|SUPERIORITY|||||||0.54|||||||Kruskal-Wallis|||||||.54
92265258|NCT04278846|184431868|SUPERIORITY|||||||0.95|||||||Kruskal-Wallis|||||||.95
92265259|NCT04278846|184431869|SUPERIORITY|||||||0.96|||||||Kruskal-Wallis|||||||.96
92265260|NCT04278846|184431871|SUPERIORITY|||||||0.088|||||||Kruskal-Wallis|||||||.088
92265261|NCT04278846|184431872|SUPERIORITY|||||||0.42|||||||Kruskal-Wallis|||||||.42
92265262|NCT04278846|184431873|SUPERIORITY|||||||0.88|||||||Kruskal-Wallis|||||||.88
92283615|NCT02289963|184470834|SUPERIORITY||LS Mean Difference|-54.2|||<|0.0001|TWO_SIDED|95.0|-60.6|-47.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-47.8|-60.6|<0.0001
92253735|NCT02809846|184409068|OTHER|Bivariate associations between variables were assessed using statistical methods appropriate for the variable types. Baseline characteristics (demographics, other morbidities, baseline medication use, pain intensity and QOL) were compared between the two treatment groups to assess effectiveness of randomization and identify important covariates for multivariable analyses. Associations between demographic variables and primary and secondary endpoints were examined.|||||<|0.05||||||Sensitivity analyses comparing use of data from all participants with use of participants with complete data only was also performed. Agreement between different measures representing the same variable type was assessed using correlation analyses.|Mixed Models Analysis|Multivariable analysis with mixed effect regression models were used to assess the effect of treatment group on the primary and secondary outcomes.||Initially, a sample size of 20 participants per treatment group (active and sham) was selected to achieve 90% power to find a 20% difference in mean percent change in opioid consumption between the two groups with an estimated standard deviation of 22% and 80% power to detect the same difference with a standard deviation of 19% at a two-sided alpha = 0.05|Similar models were used to assess associations of treatment group with secondary endpoints. Model fit was assessed by Akaike's Information Criteria to determine optimal covariance structure.|||<0.05
92253736|NCT05563714|184409074|SUPERIORITY||Odds Ratio (OR)|5.22|||<|0.001|TWO_SIDED|95.0|2.41|11.33|||generalized linear mixed effects model||Adjusted OR (base model)|Adjusted OR (base model), 95% CI - Includes clinician proceduralist vs non-proceduralist status as a co-variate.||11.33|2.41|<0.001
92253737|NCT05563714|184409074|SUPERIORITY||Odds Ratio (OR)|5.76|||<|0.001|TWO_SIDED|95.0|2.54|13.05|||generalized linear mixed effects model||Adjusted OR (expanded model)|Adjusted OR (expanded model), 95% CI - Adjusted for clinician proceduralist vs non-proceduralist status, patient age, sex, race, ethnicity, number of comorbidities, antiplatelet therapy used at baseline, and baseline use of H2 receptor antagonists.||13.05|2.54|<0.001
92253738|NCT05563714|184409075|SUPERIORITY||Odds Ratio (OR)|29.3|||<|0.001|TWO_SIDED|95.0|6.07|141.49|||generalized linear mixed effects model||Adjusted OR (base model)|Adjusted OR (base model), 95% CI - Included clinician proceduralist vs non-proceduralist status as a co-variate.||141.49|6.07|<0.001
92253739|NCT05563714|184409075|SUPERIORITY||Odds Ratio (OR)|43.6|||<|0.001|TWO_SIDED|95.0|6.56|289.88|||generalized linear mixed effects model||Adjusted OR (expanded model)|Adjusted OR (expanded model), 95% CI - Adjusted for clinician proceduralist vs non-proceduralist status, patient age, sex, race, ethnicity, number of comorbidities, antiplatelet therapy used at baseline, and baseline use of H2 receptor antagonists.||289.88|6.56|<0.001
92253740|NCT05563714|184409076|SUPERIORITY|Adjusted OR, 95% CI (base model) - Included clinician proceduralist vs non-proceduralist status as a co-variate.|Odds Ratio, log|19.86|||<|0.001|TWO_SIDED|95.0|10.63|29.09|||generalized linear mixed effects model|||We used generalized linear mixed effects modeling (logit link) to estimate the odds of medication optimization at week 7-10. This model included fixed effects for CNNF (vs. usual care), target provider specialty and size, and a random effect for clinician to account for the clustering of patients. We report the log odds ratios with corresponding confidence intervals for the main effect. The main effect was tested at a two-sided 5% significance level.||29.09|10.63|<0.001
92253741|NCT00444964|184409085|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92253742|NCT00444964|184409086|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92253743|NCT00444964|184409087|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92253744|NCT00166517|184409088|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was assessed versus a constant, 85%, based on historical data.||||||0.003||95.0||||p ≥.85, where p is the proportion of subjects who achieved ≥3-fold rise from baseline in the group that received RotaTeq®|Exact test of proportion|Exact test of proportion, based on binomial distribution||||||0.003
92253745|NCT00249795|184409126|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.992||||0.857|TWO_SIDED|95.0|0.907|1.085||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 4.5% level to account for multiplicity.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of any component of the composite event in Irbesartan group versus Placebo group.|||1.085|0.907|0.8570
92253746|NCT00249795|184409127|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.12|TWO_SIDED|95.0|0.869|1.016||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 1% level to account for multiplicity.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of any component of the composite event in Irbesartan group versus Placebo group.|||1.016|0.869|0.1200
92253747|NCT00249795|184409128|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.916||||0.2162|TWO_SIDED|95.0|0.796|1.053||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 5% level.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of a stroke in Irbesartan group versus Placebo group.|||1.053|0.796|0.2162
92253748|NCT00249795|184409129|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.014||||0.759|TWO_SIDED|95.0|0.927|1.11||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 5% level.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of death in Irbesartan group versus Placebo group.|||1.110|0.927|0.7590
92253749|NCT00249795|184409130|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.897||||0.0369|TWO_SIDED|95.0|0.809|0.993||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 5% level.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of HF episodes in Irbesartan group versus Placebo group.|||0.993|0.809|0.0369
92253750|NCT00249795|184409131|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.863||||0.0175|TWO_SIDED|95.0|0.763|0.975||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 5% level.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of hospitalization for Heart Failure in Irbesartan group versus Placebo group.|||0.975|0.763|0.0175
92177114|NCT01959607|184248068|OTHER||Geometric LS Mean Ratio|96.34|||||TWO_SIDED|95.0|85.1|109.07|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (THS 2.2 - Group 1:CC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of THS 2.2:CC) for AUC(0-last), therefore, there was no statistical hypothesis to be tested for this objective.||109.07|85.10|
92253751|NCT00249795|184409132|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.008||||0.8377|TWO_SIDED|95.0|0.93|1.093||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 5% level.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of hospitalization for other CV cause in Irbesartan group versus Placebo group.|||1.093|0.930|0.8377
92253752|NCT05103475|184409138|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||1||||||The investigators used Fisher's exact due to small cell sizes.|Fisher Exact|The reported value represents the calculated p-value for the Fisher's Exact test.||||||1.0
92253753|NCT05103475|184409139|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.35|||||||t-test, 2 sided|||||||0.35
92253754|NCT05103475|184409140|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.15||||||The investigators used Fisher's Exact due to small cell sizes.|Fisher Exact|||||||0.15
92177115|NCT03687086|184248094|SUPERIORITY||Odds Ratio (OR)|1.95|STANDARD_ERROR_OF_MEAN|0.63||0.039|TWO_SIDED|95.0|1.03|3.7|||Regression, Logistic|||||3.70|1.03|.039
92253755|NCT05103475|184409141|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.43|||||||t-test, 2 sided|||Pre/post comparison for control group scores.||||0.43
92265263|NCT04278846|184431875|SUPERIORITY|||||||0.12|||||||Kruskal-Wallis|||||||.12
92177116|NCT03687086|184248095|SUPERIORITY||Mean Difference (Net)|1.38|STANDARD_ERROR_OF_MEAN|0.97||0.155|TWO_SIDED|95.0|-0.52|3.29|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (9 Weeks vs. baseline)||||3.29|-0.52|0.155
92177117|NCT03687086|184248096|SUPERIORITY||Median Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|1.04||0.88|TWO_SIDED|95.0|-1.88|2.2|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (6 months vs. baseline)||||2.20|-1.88|0.880
92253756|NCT05103475|184409141|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.24|||||||t-test, 2 sided|||Pre/post comparison for RAP group score.||||0.24
92253757|NCT05103475|184409141|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.53||||||F = 0.41|ANOVA|||ANOVA results - group x time interaction.||||0.53
92253758|NCT05103475|184409142|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.7|||||||t-test, 2 sided|||Pre/post comparison for control group.||||0.70
92253759|NCT05103475|184409142|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.17|||||||t-test, 2 sided|||Pre/post comparison for RAP group.||||0.17
92253760|NCT05103475|184409142|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.18||||||F = 1.95|ANOVA|||ANOVA results - group x time interaction.||||0.18
92177118|NCT03687086|184248097|SUPERIORITY||Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.39||0.228|TWO_SIDED|95.0|-1.25|0.3|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (9 weeks vs. baseline)||||0.30|-1.25|0.228
92253761|NCT05103475|184409143|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.37|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.37
92253762|NCT05103475|184409143|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.5|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.50
92253763|NCT05103475|184409143|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.9||||||F = 0.01|ANOVA|||ANOVA results - group x time interaction.||||0.90
92253764|NCT05103475|184409144|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.56|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.56
92177119|NCT03687086|184248098|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.44||0.843|TWO_SIDED|95.0|-0.96|0.78|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (6 months vs. baseline)||||0.78|-0.96|0.843
92253765|NCT05103475|184409144|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.32|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.32
92253766|NCT05103475|184409144|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.41||||||F = 0.71|ANOVA|||ANOVA results - group x time interaction.||||0.41
92253767|NCT05103475|184409145|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.5|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.50
92253768|NCT05103475|184409145|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.6|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.60
92253769|NCT05103475|184409145|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.98||||||F = 0.0|ANOVA|||ANOVA results - group x time interaction.||||0.98
92253770|NCT05103475|184409146|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.54|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.54
92253771|NCT05103475|184409146|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.15|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.15
92253772|NCT05103475|184409146|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.04||||||F = 4.9|ANOVA|||ANOVA results - group x time interaction.||||0.04
92253773|NCT05103475|184409147|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.11|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.11
92253774|NCT05103475|184409147|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.09|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.09
92253775|NCT05103475|184409147|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.75||||||F = 0.10|ANOVA|||ANOVA results - group x time interaction.||||0.75
92253776|NCT05103475|184409148|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.41|||||||Fisher Exact|The investigators used Fisher's Exact due to small cell sizes.||Likelihood to participate in a program like it in the future||||0.41
92253777|NCT05103475|184409148|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.003||||||The investigators used Fisher's Exact due to small cell sizes.|Fisher Exact|||Help to manage back pain.||||0.003
92253778|NCT05103475|184409148|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||1||||||The investigators used Fisher's Exact due to small sample sizes.|Fisher Exact|The reported value represents the calculated p-value for the Fisher's Exact test.||Would recommend to another Veteran.||||1.00
92265264|NCT04278846|184431876|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||.96
92253779|NCT05103475|184409148|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.07||||||The investigators used Fisher's Exact due to small cell sizes.|Fisher Exact|||Liked the program.||||0.07
92177120|NCT03687086|184248099|SUPERIORITY||Odds Ratio (OR)|3.68|STANDARD_ERROR_OF_MEAN|1.48||0.001|TWO_SIDED|95.0|1.67|8.12|||Regression, Logistic|||||8.12|1.67|0.001
92177121|NCT03687086|184248100|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.42||0.443|TWO_SIDED|95.0|-1.14|0.5|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (9 weeks vs. baseline)||||0.50|-1.14|0.443
92177122|NCT03687086|184248101|SUPERIORITY||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.51||0.409|TWO_SIDED|95.0|-1.41|0.58|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (6 months vs. baseline)||||0.58|-1.41|0.409
92177123|NCT01627574|184248138|SUPERIORITY||Risk Ratio, log|0.281|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED|95.0|0.056|1.42|||Chi-squared, Corrected|||||1.42|.056|>.05
92177124|NCT03625115|184248185|EQUIVALENCE|A two-tailed t-test was done to compare the mean Bayley cognitive scores between the groups.||||||0.3|||||||t-test, 2 sided|||||||0.30
92177125|NCT03625115|184248186|SUPERIORITY||Pearson chi square (1)|8.51||||0.004|TWO_SIDED||||||Chi-squared|||Chi-square test of independence to determine if there was a significant difference between intervention arms for those who completed a multidisciplinary evaluation (referral completed).||||.004
92177126|NCT03625115|184248187|SUPERIORITY||Pearson chi square (1)|0.05||||0.82|TWO_SIDED||||||Chi-squared|||Chi-square test of independence to determine if there was a significant difference between intervention arms for those who began early intervention services.||||.82
92177127|NCT03625115|184248188|EQUIVALENCE|A two-tailed t-test was done to compare the mean Bayley language scores between the groups.||||||0.69|||||||t-test, 2 sided|||||||0.69
92177128|NCT03625115|184248190|EQUIVALENCE|two tailed t-test to compare the means of factor 1 between groups||||||0.858|||||||t-test, 2 sided|||Analysis of factor 1 items from the parent engagement questionnaire. Factor 1 (Buy-in) I am open to getting EI for my child. EI can help my child. EI can teach me new ways to help my child.||||.858
92177129|NCT03625115|184248190|EQUIVALENCE|two tailed t-test to compare the means of factor 2 between groups||||||0.995|||||||t-test, 2 sided|||"Analysis of factor 2 items from the parent engagement questionnaire.~Factor 2 (early intervention consequences):~EI could have negative consequences for my child. Getting EI for my child reflects negatively on me as a parent."||||.995
92177130|NCT03625115|184248190|EQUIVALENCE|two tailed t-test to compare the means of factor 3 between groups||||||0.049|||||||t-test, 2 sided|||"Analysis of factor 3 items from the parent engagement questionnaire.~Factor 3 (Knowledge/Self-Efficacy):~I know how to get EI for my child. I understand how the EI process works. If I have questions about EI, I know who to call. 12. I know my child's rights to EI under the law."||||.049
92177131|NCT03625115|184248191|SUPERIORITY||Odds Ratio (OR)|1.87||||0.02|TWO_SIDED|95.0|1.09|3.21|||Regression, Logistic|||A logistic regression was run to determine if the intervention arm, adjusted for child sex, income, maternal education, and primary care site, was associated with the completion of early intervention referrals for families with an adverse childhood experience survey score of greater than 2.||3.21|1.09|.02
92177132|NCT03655028|184248203|SUPERIORITY|||||||0.85||||||The co-variate used in the analysis was the 6 minute walk distance at baseline.|ANCOVA|||||||0.85
92177133|NCT03655028|184248204|SUPERIORITY|||||||0.307||||||The co-variant used to adjust the ANCOVA was the baseline step count/day.|ANCOVA|||||||.307
92177134|NCT03655028|184248205|SUPERIORITY|||||||0.106||||||this comparison is made between distance walked during 6MW at 12 weeks and distance walked during 6MW at 24 weeks|ANCOVA|||||||0.106
92177135|NCT03655028|184248206|SUPERIORITY|||||||0.26||||||Baseline PCS score was used at the co-variate|ANCOVA|||||||0.26
92177136|NCT03655028|184248207|SUPERIORITY|||||||0.85||||||Covariate was baseline MCS score|ANCOVA|||||||0.85
92177137|NCT03655028|184248208|SUPERIORITY|||||||0.025|||||||t-test, 2 sided|||||||0.025
92177138|NCT01236781|184248222|EQUIVALENCE|no margin is assumed.||||||0.46||||||1 degree of freedom;|McNemar|Exact test||"To account for the paired nature of the design, McNemar's test will be used to compare the call-back rates.~H0: assumes no difference between the tests (modalities)"||||0.46
92177139|NCT01236781|184248225|EQUIVALENCE|no equivalence margin||||||0.2188||||||Due to the paired nature of the data an exact McNemar's Test is used|McNemar|Exact test||H0: no difference between the 2 modalities||||0.2188
92177140|NCT05256654|184248243|SUPERIORITY||Mean Difference (Net)|-2.8|STANDARD_ERROR_OF_MEAN|6.92||0.691|TWO_SIDED|95.0|-15.5|11.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (Triglycerides (TG) \<250 milligram per deciliter (mg/dL) or \>=250 mg/dL at screening), and the interaction between treatment and time.|||11.9|-15.5|0.691
92177141|NCT05256654|184248243|SUPERIORITY||Mean Difference (Net)|-14.3|STANDARD_ERROR_OF_MEAN|4.98||0.008|TWO_SIDED|95.0|-23.6|-3.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-3.9|-23.6|0.008
92177142|NCT05256654|184248243|SUPERIORITY||Mean Difference (Net)|-8.3|STANDARD_ERROR_OF_MEAN|5.36||0.14|TWO_SIDED|95.0|-18.3|2.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||2.9|-18.3|0.140
92253780|NCT05103475|184409149|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.91|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.91
92253781|NCT05103475|184409149|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.51|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.51
92253782|NCT05103475|184409149|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.42||||||F = 0.68|ANOVA|||ANOVA results - group x time interaction.||||0.42
92253783|NCT02228824|184409152|SUPERIORITY||Mean Difference (Final Values)|1.51|||<|0.001|TWO_SIDED|95.0|0.86|2.17|||ANCOVA|ANCOVA was performed on 25 sets of imputed data and then analyzed using SAS PROC MIANALYZE||||2.17|0.86|<0.001
92253784|NCT02228824|184409154|SUPERIORITY||Mean Difference (Final Values)|-38.5||||0.041|TWO_SIDED|95.0|-75.21|-1.78|||Mixed Models Analysis|||||-1.78|-75.21|0.041
92253785|NCT02228824|184409155|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.016|TWO_SIDED|95.0|-1.26|-0.13|||ANCOVA|ANCOVA was performed on 25 sets of imputed data and then analyzed using SAS PROC MIANALYZE||||-0.13|-1.26|0.016
92253786|NCT02228824|184409156|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.03|TWO_SIDED|95.0|-0.04|-0.002|||Mixed Models Analysis|||||-0.002|-0.04|0.03
92253787|NCT02917629|184409192|SUPERIORITY||Mean Difference (Final Values)|1.0011|STANDARD_DEVIATION|0.024||0.031|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000229822 baseline and post exposure||||0.031
92253788|NCT02917629|184409192|SUPERIORITY||Mean Difference (Final Values)|-1.0217|STANDARD_DEVIATION|0.0257||0.031|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000230585 baseline and post exposure||||0.031
92253789|NCT02917629|184409192|SUPERIORITY||Mean Difference (Final Values)|-1.0098|STANDARD_DEVIATION|0.005|<|0.001|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000249245 baseline and post exposure||||<0.001
92253790|NCT02917629|184409192|SUPERIORITY||Mean Difference (Final Values)|1.0007|STANDARD_DEVIATION|0.0063|<|0.001|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000261792 baseline and post exposure||||<0.001
92177143|NCT05256654|184248244|SUPERIORITY||Mean Difference (Net)|-54.3|STANDARD_ERROR_OF_MEAN|5.08|<|0.001|TWO_SIDED|95.0|-63.3|-43.1|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-43.1|-63.3|<.001
92177144|NCT05256654|184248244|SUPERIORITY||Mean Difference (Net)|-69.8|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-74.8|-63.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-63.9|-74.8|<.001
92177145|NCT05256654|184248244|SUPERIORITY||Mean Difference (Net)|-76.6|STANDARD_ERROR_OF_MEAN|2.13|<|0.001|TWO_SIDED|95.0|-80.4|-72.0|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-72.0|-80.4|<.001
92177146|NCT05256654|184248245|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|7.24||0.854|TWO_SIDED|95.0|-14.6|14.0|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||14.0|-14.6|0.854
92177147|NCT05256654|184248245|SUPERIORITY||Mean Difference (Net)|-16.8|STANDARD_ERROR_OF_MEAN|4.98||0.002|TWO_SIDED|95.0|-26.0|-6.4|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-6.4|-26.0|0.002
92177148|NCT05256654|184248245|SUPERIORITY||Mean Difference (Net)|-12.1|STANDARD_ERROR_OF_MEAN|5.28||0.033|TWO_SIDED|95.0|-21.9|-1.1|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-1.1|-21.9|0.033
92253791|NCT02917629|184409193|SUPERIORITY||Mean Difference (Final Values)|1.006|STANDARD_DEVIATION|0.006||0.002|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000234806 baseline and post exposure||||0.002
92253792|NCT02917629|184409194|SUPERIORITY||Mean Difference (Final Values)|1.0013|STANDARD_DEVIATION|0.0072||0.002|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000232479 baseline and post exposure||||0.002
92253793|NCT02917629|184409194|SUPERIORITY||Mean Difference (Final Values)|1.0037|STANDARD_DEVIATION|0.0193||0.02|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000233163 baseline and post exposure||||0.020
92253794|NCT02917629|184409194|SUPERIORITY||Mean Difference (Final Values)|-1.0098|STANDARD_DEVIATION|0.005||0.001|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000249245 baseline and post-exposure||||0.001
92253795|NCT01042938|184409208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7991|STANDARD_DEVIATION|0.7606||0.0077|TWO_SIDED|95.0|-1.3693|-0.2289|||Standard pooled variances t-test|||Hypothesis: The mean RDS for curcumin group is significantly different (i.e., lower) than mean RDS of placebo group at end of radiation treatment.||-0.2289|-1.3693|0.0077
92253796|NCT01042938|184409209|SUPERIORITY_OR_OTHER|||||||0.0022||95.0|||||Fisher Exact|||Hypothesis: The presence of moist desquamation significantly differed between the curcumin group and the placebo group.||||0.0022
92177149|NCT05256654|184248246|SUPERIORITY||Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|4.03||0.143|TWO_SIDED|95.0|-13.8|2.2|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||2.2|-13.8|0.143
92177150|NCT05256654|184248246|SUPERIORITY||Mean Difference (Net)|-16.4|STANDARD_ERROR_OF_MEAN|2.93|<|0.001|TWO_SIDED|95.0|-22.0|-10.5|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-10.5|-22.0|<.001
92177151|NCT05256654|184248246|SUPERIORITY||Mean Difference (Net)|-22.7|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-27.9|-17.2|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-17.2|-27.9|<.001
92177152|NCT05256654|184248247|SUPERIORITY||Mean Difference (Net)|-10.8|STANDARD_ERROR_OF_MEAN|5.55||0.068|TWO_SIDED|95.0|-21.1|0.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||0.9|-21.1|0.068
92253797|NCT01042938|184409210|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||ANOVA|||Hypothesis: There is a significant difference in mean redness (i.e., mean a\* number value) between the curcumin and placebo groups.||||0.145
92253798|NCT01042938|184409211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.685||||0.218|TWO_SIDED|95.0|-1.059|4.428|||ANCOVA|||Hypothesis: There is a significant difference in mean MPQ pain scores between the curcumin and placebo groups.||4.428|-1.059|0.218
92253799|NCT01042938|184409211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.152|TWO_SIDED|95.0|-0.6|3.6|||ANCOVA|||Hypothesis: There is a significant difference in mean sensory subscale pain scores between curcumin and placebo groups.||3.6|-0.6|0.152
92253800|NCT01042938|184409211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.7|TWO_SIDED|95.0|-0.7|1.1|||ANCOVA|||Hypohesis: There is a signifcant difference in affective subscale pain scores between curcumin and placebo groups.||1.1|-0.7|0.700
92253801|NCT01042938|184409211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.559|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||Hypothesis: There is a significant difference in mean perceived pain scores between curcumin and placebo groups.||0.7|-0.4|0.559
92253802|NCT03136484|184409212|NON_INFERIORITY|The non-inferiority p-value was calculated as two times the one-sided p-value from a t-distributed test statistic comparing the treatment contrast with 0.3 rather than zero as in a superiority test.|Treatment difference|-0.49|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.33|||ANCOVA||Semaglutide + canagliflozin placebo vs Canagliflozin + semaglutide placebo|The responses were analysed using an analysis of covariance (ANCOVA) with treatment, region and stratification factor as fixed factors and baseline value as covariate. Before analysis, missing data were multiple imputed using observed data from participants within the same group defined by randomised treatment, using a regression model including region and stratification factor as categorical effects and data from baseline and all previous visits as covariates.||-0.33|-0.65|<.0001
92253803|NCT03136484|184409212|SUPERIORITY||Treatment difference|-0.49|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.33|||ANCOVA||Semaglutide + canagliflozin placebo vs Canagliflozin + semaglutide placebo|The responses were analysed using an ANCOVA with treatment, region and stratification factor as fixed factors and baseline value as covariate. Before analysis, missing data were multiple imputed using observed data from participants within the same group defined by randomised treatment, using a regression model including region and stratification factor as categorical effects and data from baseline and all previous visits as covariates.||-0.33|-0.65|<.0001
92253804|NCT00360685|184409273|SUPERIORITY_OR_OTHER|||||||0.06|||||||Fisher Exact|||Sample size was based on the difference in the proportion of patients in each arm who were predicted to develop severe mucositis defined as clinical grade 3 or 4 per the CTCAE. A sample-size of 42 evaluable subjects per study-arm allowed detection of an absolute difference of 30%, which corresponds to a reduction in the incidence of severe mucositis from 60% in the methotrexate arm to 30% in the MMF arm (alpha=0.05, power=0.80).||||0.06
92253805|NCT00360685|184409274|SUPERIORITY_OR_OTHER|||||||0.8|||||||K-sample tests for comparing the cumulat|||||||0.8
92253806|NCT00360685|184409275|SUPERIORITY_OR_OTHER|||||||0.58|||||||Log Rank|||||||0.58
92253807|NCT01203787|184409289|SUPERIORITY_OR_OTHER|||||||0.0262|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.0262
92253808|NCT03061812|184409296|SUPERIORITY||Hazard Ratio (HR)|1.46||||0.0051|TWO_SIDED|95.0|1.17|1.82|||Log Rank|Two-sided p-value stratified by the randomization stratification factors.|Calculated using a Cox proportional hazards regression model, with treatment and randomization stratification factors as covariates.|||1.82|1.17|0.0051
92253809|NCT03061812|184409297|SUPERIORITY||Hazard Ratio (HR)|1.51|||<|0.0001|TWO_SIDED|95.0|1.22|1.87|||Log Rank|Two-sided p-value stratified by the randomization stratification factors.|Calculated using a Cox proportional hazards regression model, with treatment and randomization stratification factors as covariates.|||1.87|1.22|< 0.0001
92253810|NCT03061812|184409298|SUPERIORITY||LS Mean of Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.62|||TWO_SIDED|95.0|-5.66|4.65||||||||4.65|-5.66|
92253811|NCT03061812|184409299|SUPERIORITY||Odds Ratio (OR)|0.68||||0.3352|TWO_SIDED|95.0|0.39|1.18|||Cochran-Mantel-Haenszel|Stratified by the randomization stratification factors.||||1.18|0.39|0.3352
92253812|NCT03061812|184409300|SUPERIORITY||Odds Ratio (OR)|0.73||||0.0358|TWO_SIDED|95.0|0.47|1.12|||Cochran-Mantel-Haenszel|Stratified by the randomization stratification factors.||||1.12|0.47|0.0358
92253813|NCT00431496|184409302|SUPERIORITY_OR_OTHER||Percentage of participants|42.3||||||95.0|30.8|53.7||||||||53.7|30.8|
92253814|NCT00431496|184409303|SUPERIORITY_OR_OTHER||Percentage of participants|52.1||||||95.0|40.5|63.7||||||||63.7|40.5|
92253815|NCT00431496|184409304|SUPERIORITY_OR_OTHER||Percentage of participants|78.9||||||95.0|69.4|88.4||||||||88.4|69.4|
92253816|NCT00431496|184409305|SUPERIORITY_OR_OTHER||Percentage of participants|54.9||||||95.0|43.4|66.5||||||||66.5|43.4|
92253817|NCT00431496|184409306|SUPERIORITY_OR_OTHER||Percentage of participants|53.5||||||95.0|41.9|65.1||||||||65.1|41.9|
92253818|NCT00431496|184409307|SUPERIORITY_OR_OTHER||Percentage of participants|46.5||||||95.0|34.9|58.1||||||||58.1|34.9|
92253819|NCT01685203|184409346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.381|TWO_SIDED||||||Regression, Logistic|Treatment group, baseline log(subscript)10(subscript) HCV RNA level and Interleukin-28B (IL28B) genotype (CC or non-CC) were used as predictors||||||0.381
92253820|NCT01685203|184409346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.086|TWO_SIDED|||||Difference in rates after adjusting for Interleukin-28 (IL28) genotype (CC or Non-CC) using stratum-adjusted Mantel-Haenszel proportions and continuity-corrected variances.|Stratum-adjusted Mantel-Haenszel|||||||0.086
92253821|NCT02177786|184409381|SUPERIORITY||Least Square Means Difference|0.38|STANDARD_ERROR_OF_MEAN|1.21||0.755|TWO_SIDED|95.0|-2.0|2.75||Data was calculated using a mixed-effect model repeated measures (MMRM) model including terms for treatment group, baseline eGFR, visit and treatment by visit interaction for comparison of change from baseline in eGFR between selonsertib and placebo.|MMRM|||||2.75|-2.00|0.755
92253822|NCT02177786|184409381|SUPERIORITY||Least Square Means Difference|0.84|STANDARD_ERROR_OF_MEAN|1.22||0.492|TWO_SIDED|95.0|-1.55|3.23||Data was calculated using a MMRM model including terms for treatment group, baseline eGFR, visit and treatment by visit interaction for comparison of change from baseline in eGFR between selonsertib and placebo.|MMRM|||||3.23|-1.55|0.492
92253823|NCT02177786|184409381|SUPERIORITY||Least Square Means Difference|-0.87|STANDARD_ERROR_OF_MEAN|1.23||0.481|TWO_SIDED|95.0|-3.29|1.56||Data was calculated using a MMRM model including terms for treatment group, baseline eGFR, visit and treatment by visit interaction for comparison of change from baseline in eGFR between selonsertib and placebo.|MMRM|||||1.56|-3.29|0.481
92265265|NCT04278846|184431877|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||.76
92265266|NCT04278846|184431878|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||.88
92253824|NCT02177786|184409382|SUPERIORITY||Difference in Percentages|-2.2||||0.798|TWO_SIDED|95.0|-16.1|11.7|||Cochran-Mantel-Haenszel|P-value was based on a Cochran-Mantel-Haenszel (CMH) test stratified by stage of disease to compare the response rate between selonsertib and placebo.|The 95% confidence interval (CI) in the difference in percentages between selonsertib and placebo was based on Wald Asymptotic test.|||11.7|-16.1|0.798
92253825|NCT02177786|184409382|SUPERIORITY||Difference in Percentages|-9.2||||0.175|TWO_SIDED|95.0|-22.3|4.0|||Cochran-Mantel-Haenszel|P-value was based on a CMH test stratified by stage of disease to compare the response rate between selonsertib and placebo.|The 95% CI in the difference in percentages between selonsertib and placebo was based on Wald Asymptotic test.|||4.0|-22.3|0.175
92253826|NCT02177786|184409382|SUPERIORITY||Difference in Percentages|-2.9||||0.686|TWO_SIDED|95.0|-16.6|10.9|||Cochran-Mantel-Haenszel|P-value was based on a CMH test stratified by stage of disease to compare the response rate between selonsertib and placebo.|The 95% CI in the difference in percentages between selonsertib and placebo was based on Wald Asymptotic test.|||10.9|-16.6|0.686
92253827|NCT01957215|184409397|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.72||||0.0201||95.0|0.1134|1.3199||P- value was obtained from ANCOVA model with treatment and site as fixed effects and NRS Baseline value as a covariate|ANCOVA||ADJ DIFF is the Treatment difference defined as the Adjusted Mean of 0.35% Indomethacin Patches minus Adjusted Mean of Placebo Patches|||1.3199|0.1134|0.0201
92253828|NCT02408484|184409487|OTHER|||||||0.0028||||||p-value for the change in MCF from baseline to 1 hour post infusion for the firstBLEED population|ANOVA|||||||0.0028
92253829|NCT02408484|184409487|OTHER|||||||0.0002||||||p-value for the change in MCF from baseline to 1 hour post infusion for the BLEED population|ANOVA|||||||0.0002
92253830|NCT01726504|184409497|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||Mixed Models Analysis|||During the 8-week treatment period, the adjusted change from baseline in mean weekly CSBMs was 1.72 ± 0.12 (95% CI, 1.48 to 1.96) in the EA group and 0.82 ± 0.13 (95% CI, 0.58 to 1.07, P\<0.001) times more than that in the SA group.||||<0.001
92253831|NCT00524043|184409529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|4.2||0.504||95.0|-5.47|11.09||Based on ANCOVA model with treatment (Placebo, Paliperidone ER 1.5 mg, and Paliperidone ER 6 mg) and country as factors, and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|||Sample size estimation was based on the assumption that the difference between the paliperidone ER 1.5 mg dose group and the placebo group in the mean change in PANSS total score from baseline to end point was 11 points with a within-group standard deviation of 20 points. It was calculated that 65 patients were needed per treatment group to detect a statistically significant treatment difference between the paliperidone ER 1.5 mg dose group and the placebo group with a power of 87.5%.||11.09|-5.47|0.504
92253832|NCT00524043|184409529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|4.15||0.431||95.0|-11.46|4.9||Based on ANCOVA model with treatment (Placebo, Paliperidone ER 1.5 mg, and Paliperidone ER 6 mg) and country as factors, and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|Paliperidone ER 6 mg was used for assay sensitivity||||4.90|-11.46|0.431
92253833|NCT00524043|184409530|SUPERIORITY_OR_OTHER|||||||0.626||95.0||||Based on ANCOVA model on ranks with treatment (Placebo, Paliperidone ER 1.5 mg, and Paliperidone ER 6 mg) and country as factors, and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|||||||0.626
92283616|NCT02289963|184470835|SUPERIORITY||LS Mean Difference|-35.2|||<|0.0001|TWO_SIDED|95.0|-40.3|-30.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.1|-40.3|<0.0001
92177153|NCT05256654|184248247|SUPERIORITY||Mean Difference (Net)|-25.5|STANDARD_ERROR_OF_MEAN|3.79|<|0.001|TWO_SIDED|95.0|-32.6|-17.6|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-17.6|-32.6|<.001
92177154|NCT05256654|184248247|SUPERIORITY||Mean Difference (Net)|-23.8|STANDARD_ERROR_OF_MEAN|3.88|<|0.001|TWO_SIDED|95.0|-31.1|-15.7|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-15.7|-31.1|<.001
92253834|NCT00524043|184409531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|2.69||0.87||95.0|-4.86|5.74||Based on ANCOVA model with treatment (placebo, paliperidone ER 1.5 mg, and paliperidone ER 6 mg) and country as factors, and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|||||5.74|-4.86|0.870
92253835|NCT00524043|184409532|SUPERIORITY_OR_OTHER|||||||0.126||95.0||||Based on ANCOVA model with treatment (placebo, paliperidone ER 1.5 mg, and paliperidone ER 6 mg) and country as factors and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|||||||0.126
92253836|NCT00524043|184409533|SUPERIORITY_OR_OTHER|||||||0.691||95.0||||Based on ANCOVA model with treatment (placebo, paliperidone ER 1.5 mg, and paliperidone ER 6 mg) and country as factors and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|||||||0.691
92253837|NCT03012594|184409534|SUPERIORITY|||||||0.07|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.07
92253838|NCT03531762|184409565|OTHER||Ratio of Geometric Least Square Mean|108.87|||||TWO_SIDED|90.0|101.2|117.13||||||||117.13|101.20|
92253839|NCT03531762|184409566|OTHER||Ratio of Geometric Least Square Mean|109.8|||||TWO_SIDED|90.0|101.69|118.55||||||||118.55|101.69|
92253840|NCT03531762|184409567|OTHER||Ratio of Geometric Least Square Mean|104.1|||||TWO_SIDED|90.0|92.93|116.61||||||||116.61|92.93|
92253841|NCT02019758|184409579|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||The mean post-treatment maximum eosinophil count will be compared between the OVB and MDI groups using a two-sample t-test.||||0.31
92253842|NCT02019758|184409580|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||The mean DSQ scores will be compared between the OVB and MDI groups using a two-sample t-test.||||0.70
92253843|NCT02019758|184409585|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.52|2.08||||||||2.08|0.52|
92283617|NCT02289963|184470836|SUPERIORITY||LS Mean Difference|-46.1|||<|0.0001|TWO_SIDED|95.0|-51.2|-41.0||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-41.0|-51.2|<0.0001
92253844|NCT02019758|184409586|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92253845|NCT02019758|184409587|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92253846|NCT02019758|184409588|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92253847|NCT00735072|184409593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||95.0|||||Wilcoxon (Mann-Whitney)|||Null hypothesis: there will be no difference in the week 24 change in %activated CD8+ T cells between arms. Assuming a standard deviation as high as 3.5% and a Type I error of 5%, with 21 subjects in each treatment arm we would have 80% statistical power to detect a mean 3 percentage-point difference in the percent of activated CD8+ T cells between the active drug and placebo groups.||||0.014
92253848|NCT00735072|184409594|OTHER|||||||0.97|||||||Mixed Models Analysis|||||||0.97
92253849|NCT00735072|184409595|OTHER|||||||0.33|||||||Mixed Models Analysis|||||||0.33
92253850|NCT01291511|184409608|SUPERIORITY||Cox Proportional Hazard|5.2|||<|0.0001|TWO_SIDED|95.0|3.2|8.4|||Log Rank|||||8.4|3.2|<0.0001
92283618|NCT02289963|184470837|SUPERIORITY||LS Mean Difference|-51.2|||<|0.0001|TWO_SIDED|95.0|-56.4|-46.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-46.1|-56.4|<0.0001
92283619|NCT02289963|184470838|SUPERIORITY||LS Mean Difference|-35.8|||<|0.0001|TWO_SIDED|95.0|-39.7|-31.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant.||-31.9|-39.7|<0.0001
92253851|NCT01291511|184409609|SUPERIORITY||||||<|0.0001||||||P-value is based on an ANCOVA model with treatment and site as main effects and DBRP baseline as a covariate.|ANCOVA|||||||<0.0001
92253852|NCT01291511|184409611|SUPERIORITY|||||||0.0062||||||P-value is based on an ANCOVA model with treatment and site as main effects and DBRP baseline as a covariate.|ANCOVA|||||||0.0062
92253853|NCT01263314|184409623|OTHER||Mean Difference (Final Values)|-1.25||||0.3551|TWO_SIDED|90.0|-7.01|4.5|||ANOVA|||||4.50|-7.01|0.3551
92253854|NCT01263314|184409623|OTHER||Mean Difference (Final Values)|-1.32||||0.3474|TWO_SIDED|90.0|-7.08|4.48|||ANOVA|||||4.48|-7.08|0.3474
92253855|NCT01263314|184409623|OTHER||Mean Difference (Final Values)|-1.67||||0.3105|TWO_SIDED|90.0|-7.42|4.09|||ANOVA|||||4.09|-7.42|0.3105
92253856|NCT01263314|184409623|OTHER||Mean Difference (Final Values)|-6.25||||0.1346|TWO_SIDED|90.0|-15.8|3.27|||ANOVA|||||3.27|-15.8|0.1346
92253857|NCT01263314|184409623|OTHER||Mean Difference (Final Values)|-10.1||||0.0416|TWO_SIDED|90.0|-19.6|-0.56|||ANOVA|||||-0.56|-19.6|0.0416
92253858|NCT01263314|184409623|OTHER||Mean Difference (Final Values)|-8.2||||0.0762|TWO_SIDED|90.0|-17.7|1.32|||ANOVA|||||1.32|-17.7|0.0762
92253859|NCT01263314|184409624|OTHER||Mean Difference (Final Values)|0.47||||0.418|TWO_SIDED|90.0|-3.47|4.41|||ANOVA|||||4.41|-3.47|0.418
92253860|NCT01263314|184409624|OTHER||Mean Difference (Final Values)|4.12||||0.0434|TWO_SIDED|90.0|0.18|8.05|||ANOVA|||||8.05|0.18|0.0434
92253861|NCT01263314|184409624|OTHER||Mean Difference (Final Values)|7.79||||0.0019|TWO_SIDED|90.0|3.85|11.72|||ANOVA|||||11.72|3.85|0.0019
92253862|NCT01263314|184409624|OTHER||Mean Difference (Final Values)|1.15||||0.2223|TWO_SIDED|90.0|-1.42|3.71|||ANOVA|||||3.71|-1.42|0.2223
92253863|NCT01263314|184409624|OTHER||Mean Difference (Final Values)|4.25||||0.0056|TWO_SIDED|90.0|1.69|6.82|||ANOVA|||||6.82|1.69|0.0056
92253864|NCT01263314|184409624|OTHER||Mean Difference (Final Values)|5.4||||0.0012|TWO_SIDED|90.0|2.83|7.96|||ANOVA|||||7.96|2.83|0.0012
92253865|NCT01263314|184409626|OTHER||GMR (Elderly female/Elderly male)|1.23|||||TWO_SIDED|90.0|0.85|1.76|||||GMR = geometric mean ratio|||1.76|0.85|
92253866|NCT01263314|184409627|OTHER||GMR (Elderly female/Elderly male)|1.08|||||TWO_SIDED|90.0|0.88|1.33||||||||1.33|0.88|
92253867|NCT01263314|184409627|OTHER||GMR (Elderly female/Elderly male)|1.26|||||TWO_SIDED|90.0|1.02|1.55||||||||1.55|1.02|
92253868|NCT01263314|184409627|OTHER||GMR (Elderly female/Elderly male)|1.2|||||TWO_SIDED|90.0|0.98|1.48||||||||1.48|0.98|
92253869|NCT01263314|184409630|SUPERIORITY||MK-8266 0.3 mg vs. placebo|9.58||||0.0253|TWO_SIDED|90.0|1.69|17.46|||ANOVA|||||17.46|1.69|0.0253
92253870|NCT01263314|184409630|SUPERIORITY||MK-8266 0.6 mg vs. placebo|-2.59||||0.2856|TWO_SIDED|90.0|-10.5|5.29|||ANOVA|||||5.29|-10.5|0.2856
92253871|NCT01263314|184409630|SUPERIORITY||MK-8266 0.7 mg/ 0.3 mg vs. placebo|-4.06||||0.1895|TWO_SIDED|90.0|-11.9|3.82|||ANOVA|||||3.82|-11.9|0.1895
92253872|NCT01263314|184409630|SUPERIORITY||MK-8266 0.3 mg vs. placebo|-4.16||||0.1157|TWO_SIDED|90.0|-10.0|1.7|||ANOVA|||||1.70|-10.0|0.1157
92253873|NCT01263314|184409630|SUPERIORITY||MK-8266 0.6 mg vs. placebo|-11.7||||0.0018|TWO_SIDED|90.0|-17.5|-5.79|||ANOVA|||||-5.79|-17.5|0.0018
92253874|NCT01263314|184409630|SUPERIORITY||MK-8266 0.7 mg/ 0.3 mg vs. placebo|-10.6||||0.0034|TWO_SIDED|90.0|-16.5|-4.77|||ANOVA|||||-4.77|-16.5|0.0034
92253875|NCT01704976|184409660|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
92283620|NCT02289963|184470839|SUPERIORITY||Odds Ratio (OR)|46.9|||<|0.0001|TWO_SIDED|95.0|18.4|119.4||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||119.4|18.4|<0.0001
92283621|NCT02289963|184470840|SUPERIORITY||Odds Ratio (OR)|70.0|||<|0.0001|TWO_SIDED|95.0|23.3|210.8||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model|Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||210.8|23.3|<0.0001
92177155|NCT05256654|184248248|SUPERIORITY||Mean Difference (Net)|-36.3|STANDARD_ERROR_OF_MEAN|5.21|<|0.001|TWO_SIDED|95.0|-45.8|-25.1|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-25.1|-45.8|<.001
92253876|NCT01704976|184409661|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
92177156|NCT05256654|184248248|SUPERIORITY||Mean Difference (Net)|-50.3|STANDARD_ERROR_OF_MEAN|3.31|<|0.001|TWO_SIDED|95.0|-56.4|-43.3|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-43.3|-56.4|<.001
92177157|NCT05256654|184248248|SUPERIORITY||Mean Difference (Net)|-52.5|STANDARD_ERROR_OF_MEAN|3.17|<|0.001|TWO_SIDED|95.0|-58.4|-45.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-45.9|-58.4|<.001
92177158|NCT05256654|184248249|SUPERIORITY||Mean Difference (Net)|-38.6|STANDARD_ERROR_OF_MEAN|7.76|<|0.001|TWO_SIDED|95.0|-52.2|-21.2|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-21.2|-52.2|<.001
92177159|NCT05256654|184248249|SUPERIORITY||Mean Difference (Net)|-54.0|STANDARD_ERROR_OF_MEAN|4.69|<|0.001|TWO_SIDED|95.0|-62.4|-43.8|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-43.8|-62.4|<.001
92177160|NCT05256654|184248249|SUPERIORITY||Mean Difference (Net)|-63.6|STANDARD_ERROR_OF_MEAN|3.72|<|0.001|TWO_SIDED|95.0|-70.3|55.5|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||55.5|-70.3|<.001
92177161|NCT05256654|184248250|SUPERIORITY||Mean Difference (Net)|-4.1|STANDARD_ERROR_OF_MEAN|5.99||0.506|TWO_SIDED|95.0|-15.2|8.5|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||8.5|-15.2|0.506
92177162|NCT05256654|184248250|SUPERIORITY||Mean Difference (Net)|-19.7|STANDARD_ERROR_OF_MEAN|4.04|<|0.001|TWO_SIDED|95.0|-27.2|-11.3|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-11.3|-27.2|<.001
92177163|NCT05256654|184248250|SUPERIORITY||Mean Difference (Net)|-19.4|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-27.0|-11.0|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-11.0|-27.0|<.001
92177164|NCT05256654|184248251|SUPERIORITY||Mean Difference (Net)|-3.4|STANDARD_ERROR_OF_MEAN|4.16||0.428|TWO_SIDED|95.0|-11.2|5.2|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||5.2|-11.2|0.428
92253877|NCT01704976|184409662|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
92253878|NCT01704976|184409663|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
92253879|NCT01704976|184409664|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
92253880|NCT00329784|184409676|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92253881|NCT00329784|184409676|SUPERIORITY_OR_OTHER|||||||0.004|||||||Chi-squared|||||||0.004
92253882|NCT00329784|184409677|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92253883|NCT00329784|184409678|SUPERIORITY_OR_OTHER|||||||0.369|||||||Wilcoxon (Mann-Whitney)|||||||0.369
92253884|NCT00329784|184409679|SUPERIORITY_OR_OTHER|||||||0.642|||||||Chi-squared|||||||0.642
92253885|NCT00329784|184409680|SUPERIORITY_OR_OTHER|||||||0.417|||||||Chi-squared|||Comparison for Seasonal Rhinoconjunctivitis||||0.417
92253886|NCT00329784|184409680|SUPERIORITY_OR_OTHER|||||||0.926|||||||Chi-squared|||Comparison for Perennial Rhinoconjunctivitis||||0.926
92253887|NCT00329784|184409681|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison for Peanut Wheal||||<0.001
92253888|NCT00329784|184409681|SUPERIORITY_OR_OTHER|||||||0.361|||||||Chi-squared|||Comparison for Egg Wheal||||0.361
92253889|NCT00329784|184409681|SUPERIORITY_OR_OTHER|||||||0.76|||||||Chi-squared|||Comparison for Milk Wheal||||0.760
92253890|NCT00329784|184409681|SUPERIORITY_OR_OTHER|||||||0.834|||||||Chi-squared|||Comparison for Sesame Wheal||||0.834
92253891|NCT00329784|184409681|SUPERIORITY_OR_OTHER|||||||0.882|||||||Chi-squared|||Comparison for Brazil Nut Wheal||||0.882
92253892|NCT00329784|184409681|SUPERIORITY_OR_OTHER|||||||0.226|||||||Chi-squared|||Comparison for Hazel Nut Wheal||||0.226
92253893|NCT00329784|184409681|SUPERIORITY_OR_OTHER|||||||0.024|||||||Chi-squared|||Comparison for Cashew Wheal||||0.024
92253894|NCT00329784|184409681|SUPERIORITY_OR_OTHER|||||||0.204|||||||Chi-squared|||Comparison for Walnut Wheal||||0.204
92253895|NCT00329784|184409681|SUPERIORITY_OR_OTHER|||||||0.194|||||||Chi-squared|||Comparison for Almond Wheal||||0.194
92253896|NCT00329784|184409682|SUPERIORITY_OR_OTHER|||||||0.859|||||||Chi-squared|||Comparison for Peanut IgE||||0.859
92253897|NCT00329784|184409682|SUPERIORITY_OR_OTHER|||||||0.885|||||||Chi-squared|||Comparison for Egg IgE||||0.885
92253898|NCT00329784|184409682|SUPERIORITY_OR_OTHER|||||||0.403|||||||Chi-squared|||Comparison for Milk IgE||||0.403
92253899|NCT00329784|184409682|SUPERIORITY_OR_OTHER|||||||0.106|||||||Chi-squared|||Comparison for Sesame IgE||||0.106
92253900|NCT00329784|184409682|SUPERIORITY_OR_OTHER|||||||0.202|||||||Chi-squared|||Comparison for Brazil Nut IgE||||0.202
92253901|NCT00329784|184409682|SUPERIORITY_OR_OTHER|||||||0.108|||||||Chi-squared|||Comparison for Hazel Nut IgE||||0.108
92253902|NCT00329784|184409682|SUPERIORITY_OR_OTHER|||||||0.157|||||||Chi-squared|||Comparison for Cashew IgE||||0.157
92253903|NCT00329784|184409682|SUPERIORITY_OR_OTHER|||||||0.04|||||||Chi-squared|||Comparison for Walnut IgE||||0.040
92253904|NCT00329784|184409682|SUPERIORITY_OR_OTHER|||||||0.262|||||||Chi-squared|||Comparison for Almond IgE||||0.262
92253905|NCT00654420|184409684|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.268|TWO_SIDED|95.0|0.47|1.57|||Finkelstein Proportional Hazards Model|||Finkelstein proportional hazards model for interval-censored data was used to assess treatment effect on PFS in Phase II. The hazard ratio with 95% confidence interval for the Dalotuzumab (10 mg/kg) + Erlotinib treatment arm compared to the Erlotinib treatment arm was reported.||1.57|0.47|0.268
92253906|NCT00654420|184409685|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.879|TWO_SIDED|95.0|0.78|2.64|||Regression, Cox|||The treatment difference in survival between treatment groups was assessed by Cox regression. The estimated hazard ratio for treatment of the Dalotuzumab (10 mg/kg) + Erlotinib treatment arm compared to the Erlotinib treatment arm was reported from the Cox model.||2.64|0.78|0.879
92253907|NCT00654420|184409686|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.8||||0.721|TWO_SIDED|95.0|-15.9|9.4|||Miettinen & Nurminen Method|||Miettinen and Nurminen's method for stratified data was used for comparison of percentage of participants with objective response (ORR) between the two treatment groups. Response rate calculation was based on full follow-up.||9.4|-15.9|0.721
92253908|NCT00588380|184409770|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Kruskal-Wallis|||Using the Kruskal-Wallis test (general allelic model), we assessed univariate associations of rs6923761 genotype with Phi Total in the presence of either glucose alone, glucose and 0.75 pmol/kg/min GLP-1 or glucose and 1.5 pmol/kg/min GLP-1 If the p-value for the overall univariate test of association was \<0.1, then the associations for specific genotype pairs (e.g.: 1,1 vs. 1,2 or 2,2 vs. 1,1) were also examined using a Mann-Whitney Rank Sum test.||||0.11
92253909|NCT00588380|184409771|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Kruskal-Wallis|||All data are presented as means ± SEM. Using the Kruskal-Wallis test (general allelic model), we assessed univariate associations of genotype with ΦTotal||||0.09
92253910|NCT02709109|184409780|SUPERIORITY||Least Square (LS) mean difference|0.2||||0.8173|TWO_SIDED|95.0|-1.4|1.8|||Mixed-effects Model for Repeated Measure|||||1.8|-1.4|0.8173
92253911|NCT02709109|184409780|SUPERIORITY||LS mean difference|-0.7||||0.5903|TWO_SIDED|95.0|-3.3|1.9|||Mixed-effects Model for Repeated Measure|||||1.9|-3.3|0.5903
92253912|NCT02709109|184409780|SUPERIORITY||LS mean difference|-0.7||||0.5917|TWO_SIDED|95.0|-3.4|1.9|||Mixed-effects Model for Repeated Measure|||||1.9|-3.4|0.5917
92253913|NCT02709109|184409780|SUPERIORITY||LS mean difference|-0.9||||0.5021|TWO_SIDED|95.0|-3.6|1.8|||Mixed-effects Model for Repeated Measure|||||1.8|-3.6|0.5021
92253914|NCT02709109|184409780|SUPERIORITY||LS mean difference|-1.6||||0.1382|TWO_SIDED|95.0|-3.8|0.5|||Mixed-effects Model for Repeated Measure|||||0.5|-3.8|0.1382
92253915|NCT02709109|184409780|SUPERIORITY||LS mean difference|0.9||||0.4962|TWO_SIDED|95.0|-1.7|3.5|||Mixed-effects Model for Repeated Measure|||||3.5|-1.7|0.4962
92253916|NCT01000818|184409783|NON_INFERIORITY_OR_EQUIVALENCE|The raltegravir AUC0-12 hr geometric mean ratio (raltegravir + omeprazole/raltegravir) is noniferior at less than 2.0.|Geometric Mean Ratio|1.39||||||95.0|1.04|1.84||||||||1.84|1.04|
92253917|NCT01000818|184409783|NON_INFERIORITY_OR_EQUIVALENCE|The raltegravir AUC0-12 hr geometric mean ratio (raltegravir + omeprazole/raltegravir) is noniferior at less than 2.0.|Geometric Mean Ratio|1.45||||||95.0|1.09|1.93||||||||1.93|1.09|
92253918|NCT01815580|184409836|OTHER||||||>|0.75|||||||Chi-squared|||||||>0.75
92253919|NCT01815580|184409837|OTHER|||||||0.14|||||||t-test, 2 sided|||||||0.14
92253920|NCT01815580|184409838|OTHER||||||>|0.3|||||||Chi-squared|||||||>0.3
92253921|NCT01815580|184409839|OTHER||||||>|0.12|||||||Chi-squared|||||||>0.12
92253922|NCT01815580|184409840|OTHER||||||>|0.22|||||||Chi-squared|||||||>0.22
92253923|NCT01262599|184409841|SUPERIORITY|Applies to primary and secondary outcomes: Data were analyzed using one-way analysis of variance, one-way repeated measures analysis of variance, t test, or Mann-Whitney rank sum test, as appropriate. (SigmaStat 3.5; Systat Software, Inc., San Jose, Calif.). Intention-to-treat using last value carried forward was used for missing data.|||||<|0.01|||||||ANOVA|||Before the start of this study, a sample size analysis, assuming a clinically meaningful 50± 40 percent (mean ± SD) decrease in pain scores from pulsed electromagnetic field treatment, suggested that a minimum of 11 patients per group were needed.||||<0.01
92253924|NCT02120352|184409844|OTHER||Difference in Percentage|3.7|||||TWO_SIDED|95.0|-4.8|12.2|||||Comparison between CAB LA 600 mg+RPV LA 900 mg IM-Q8W and CAB 30 mg+ABC/3TC QD|||12.2|-4.8|
92253925|NCT02120352|184409844|OTHER||Difference in Percentage|2.8|||||TWO_SIDED|95.0|-5.8|11.5|||||Comparison between CAB LA 400 mg+RPV LA 600 mg IM-Q4W and CAB 30 mg+ABC/3TC QD|||11.5|-5.8|
92253926|NCT02427100|184409909|SUPERIORITY_OR_OTHER|||||||0.18|||||||ANCOVA|||||||.18
92265267|NCT04278846|184431879|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||||||.37
92253927|NCT02427100|184409910|SUPERIORITY_OR_OTHER|||||||0.00036||||||The Linear Mixed Model (LMM) regression analysis (repeated measures) was adjusted for daily minutes of accelerometer wear time, gender, age, BMI, education, and meeting physical activity guidelines at baseline.|Mixed Models Analysis|A fourth root transformation of daily accelerometer-measured minutes of MVPA was used to normalize the distribution and was included in the analyses.||||||.00036
92253928|NCT01610206|184409913|EQUIVALENCE|To estimate the progression-free survival hazard ratio of the combination of weekly gemcitabine and pazopanib compared to weekly gemcitabine alone in patients with persistent or recurrent ovarian, fallopian tube, or primary peritoneal cancer.|Hazard Ratio (HR)|0.81||||0.019|TWO_SIDED|95.0|0.61|1.07|||non-parametric weighted Tarone-Ware test|||||1.07|0.61|0.019
92253929|NCT02573233|184409927|SUPERIORITY|||||||0.84||||||Threshold for significance at 0.05 level|Rank ANCOVA|Rank ANCOVA model stratified by ICS dose level and region||Analysis was performed using a rank ANCOVA model stratified by ICS dose level and region.||||0.8400
92253930|NCT02573233|184409928|SUPERIORITY||LS Mean Difference|-235.02||||0.0336|TWO_SIDED|90.0|-414.19|-55.84||Threshold for significance at 0.05 level|Linear fixed-effect model|||Analysis was performed using a linear fixed-effect model with treatment, region and ICS dose level as fixed effects, and the baseline value as continuous covariate.||-55.84|-414.19|0.0336
92253931|NCT02573233|184409929|SUPERIORITY||LS mean difference|13.89||||0.4795|TWO_SIDED|90.0|-19.0|46.78||Threshold for significance at 0.05 level.|Linear fixed-effect model|||Analysis was performed using a linear fixed-effect model with treatment, region and ICS dose level as fixed effects, and the baseline value as continuous covariate.||46.78|-19.00|0.4795
92253932|NCT02573233|184409930|SUPERIORITY||LS mean difference|-18.98||||0.4494|TWO_SIDED|90.0|-60.92|22.97||Threshold for significance at 0.05 level.|Linear fixed-effect model|||Analysis was performed using a linear fixed-effect model with treatment, region and ICS dose level as fixed effects, and the baseline value as continuous covariate.||22.97|-60.92|0.4494
92177165|NCT05256654|184248251|SUPERIORITY||Mean Difference (Net)|-8.7|STANDARD_ERROR_OF_MEAN|3.14||0.009|TWO_SIDED|95.0|-14.7|-2.3|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-2.3|-14.7|0.009
92253933|NCT02573233|184409931|SUPERIORITY|||||||0.6865||||||Threshold for significance at 0.05 level.|Rank ANCOVA|Rank ANCOVA model stratified by ICS dose level and region||Analysis was performed using a rank ANCOVA model stratified by ICS dose level and region.||||0.6865
92253934|NCT02573233|184409932|SUPERIORITY|||||||0.7588||||||Threshold for significance at 0.05 level|Rank ANCOVA|Rank ANCOVA model stratified by ICS dose level and region||Analysis was performed using a rank ANCOVA model stratified by ICS dose level and region.||||0.7588
92177166|NCT05256654|184248251|SUPERIORITY||Mean Difference (Net)|-12.2|STANDARD_ERROR_OF_MEAN|3.04|<|0.001|TWO_SIDED|95.0|-18.0|-6.0|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-6.0|-18.0|<.001
92177167|NCT05256654|184248252|SUPERIORITY||Mean Difference (Net)|6.5|STANDARD_ERROR_OF_MEAN|8.1||0.412|TWO_SIDED|95.0|-8.4|23.7|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||23.7|-8.4|0.412
92177168|NCT05256654|184248252|SUPERIORITY||Mean Difference (Net)|-9.5|STANDARD_ERROR_OF_MEAN|5.52||0.104|TWO_SIDED|95.0|-19.7|2.1|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||2.1|-19.7|0.104
92177169|NCT05256654|184248252|SUPERIORITY||Mean Difference (Net)|-5.4|STANDARD_ERROR_OF_MEAN|5.79||0.363|TWO_SIDED|95.0|-16.2|6.7|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||6.7|-16.2|0.363
92253935|NCT02573233|184409933|SUPERIORITY||LS Mean Difference|-22.4||||0.0012|TWO_SIDED|90.0|-32.9|-11.9||Threshold for significance at 0.05 level|MMRM|||Analysis was performed using a Mixed-effect Model with Repeated Measures (MRMM) with treatment, treatment-by-visit interaction, region, and ICS dose level as fixed effects, and baseline biomarker-by-visit interaction as fixed covariate, and assuming an unstructured covariance structure separately by treatment group.||-11.9|-32.9|0.0012
92253936|NCT02573233|184409934|SUPERIORITY||LS Mean Difference|-22.0||||0.0005|TWO_SIDED|90.0|-31.3|-12.8||Threshold for significance at 0.05 level|MMRM|||Analysis was performed using a Mixed-effect model with Repeated Measures (MMRM) with treatment, treatment-by-visit interaction, region, and ICS dose level as fixed effects, and baseline biomarker-by-visit interaction as fixed covariate, and assuming an unstructured covariance structure separately by treatment group.||-12.8|-31.3|0.0005
92253937|NCT02999191|184409943|OTHER||Ratio|89.9|STANDARD_DEVIATION|36.0|||TWO_SIDED|90.0|73.304|110.25|||ANOVA||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 1467335: Tablets, fasted (numerator) and Solution, fasted (denominator). The Standard Deviation \[SD\] is the intra-individual geometric coefficient of variation \[%\].|The statistical model used for the analysis of the endpoint was an ANOVA \[Analysis of Variance\] model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||110.25|73.304|
92253938|NCT02999191|184409943|OTHER||Ratio|170.78|STANDARD_DEVIATION|33.9|||TWO_SIDED|90.0|139.85|208.54|||ANOVA||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 1467335: Tablets, fed (numerator) and Tablets, fasted (denominator). The parameter dispersion type \[SD\] is the intra-individual geometric coefficient of variation \[%\].|The statistical model used for the analysis of the endpoint was an ANOVA \[Analysis of Variance\] model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||208.54|139.85|
92265268|NCT00796367|184431957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.71|STANDARD_ERROR_OF_MEAN|0.673|<|0.0001|TWO_SIDED|95.0|7.39|10.03||Intersection-union method applied in a step-down testing approach|ANCOVA|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||10.03|7.39|<0.0001
92253939|NCT02999191|184409944|OTHER||Ratio|84.17|STANDARD_DEVIATION|48.8|||TWO_SIDED|90.0|64.26|110.24|||ANOVA||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 1467335: Tablets, fasted (numerator) and Solution, fasted (denominator). The parameter dispersion type \[SD\] is the intra-individual geometric coefficient of variation \[%\].|The statistical model used for the analysis of the endpoint was an ANOVA \[Analysis of Variance\] model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||110.24|64.260|
92253940|NCT02999191|184409944|OTHER||Ratio|136.16|STANDARD_DEVIATION|54.8|||TWO_SIDED|90.0|99.885|185.61|||ANOVA||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 1467335: Tablets, fed (numerator) and Tablets, fasted (denominator). The parameter dispersion type \[SD\] is the intra-individual geometric coefficient of variation \[%\].|The statistical model used for the analysis of the endpoint was an ANOVA \[Analysis of Variance\] model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||185.61|99.885|
92265269|NCT00796367|184431957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.52|STANDARD_ERROR_OF_MEAN|0.799|<|0.0001|TWO_SIDED|95.0|5.95|9.09||Intersection-union method applied in a step-down testing approach|ANCOVA|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||9.09|5.95|<0.0001
92265270|NCT00796367|184431957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19|STANDARD_ERROR_OF_MEAN|0.76||0.1189|TWO_SIDED|95.0|-0.31|2.68||Intersection-union method applied in a step-down testing approach|ANCOVA|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||2.68|-0.31|0.1189
92265271|NCT00796367|184431958|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.4|STANDARD_ERROR_OF_MEAN|1.97|<|0.0001|TWO_SIDED|95.0|6.24|14.16||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||14.16|6.24|<0.0001
92265272|NCT00796367|184431958|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.99|STANDARD_ERROR_OF_MEAN|1.68|<|0.0001|TWO_SIDED|95.0|4.36|11.19||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||11.19|4.36|<0.0001
92265273|NCT00796367|184431958|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35|STANDARD_ERROR_OF_MEAN|0.32||0.2169|TWO_SIDED|95.0|0.84|2.15|||Regression, Logistic|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||2.15|0.84|0.2169
92253941|NCT01602549|184409964|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.965|||||TWO_SIDED|95.0|0.831|1.12|||||Day 1: The adjusted means (AMs) and ratios were estimated using a mixed model (MM) fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|GSK962040 50 mg : Placebo Day 1||1.120|0.831|
92253942|NCT01602549|184409964|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.886|||||TWO_SIDED|95.0|0.763|1.029|||||Day 8: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|GSK962040 50 mg : Placebo Day 8||1.029|0.763|
92253943|NCT01602549|184409964|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.937|||||TWO_SIDED|95.0|0.85|1.033|||||Day 8:Day 1: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|Day 8: Day 1||1.033|0.850|
92253944|NCT01602549|184409964|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|1.02|||||TWO_SIDED|95.0|0.89|1.17|||||Day 8:Day 1: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|Day 8:Day 1 Placebo||1.170|0.890|
92253945|NCT01602549|184409966|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.864|||||TWO_SIDED|95.0|0.702|1.064|||||Day 1: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|GSK962040 50 mg Vs Placebo Day 1||1.064|0.702|
92253946|NCT01602549|184409966|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|1.018|||||TWO_SIDED|95.0|0.824|1.257|||||Day 8: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|GSK962040 50 mg Vs Placebo Day 8||1.257|0.824|
92253947|NCT01602549|184409966|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|1.018|||||TWO_SIDED|95.0|0.889|1.166|||||Day 8:Day 1: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|Day 8 VS Day 1 GSK962040 50 mg||1.166|0.889|
92253948|NCT01602549|184409966|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.865|||||TWO_SIDED|95.0|0.709|1.055|||||Day 8:Day 1: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|Day 8 Vs Day 1 Placebo||1.055|0.709|
92253949|NCT01602549|184409967|SUPERIORITY_OR_OTHER|||||||0.157||95.0|||||Wilcoxon rank-sum test|||Day 1||||0.157
92253950|NCT01602549|184409967|SUPERIORITY_OR_OTHER|||||||0.186||95.0|||||Wilcoxon rank-sum test|||Day 8||||0.186
92253951|NCT01602549|184409969|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-4.239|||||TWO_SIDED|95.0|-16.015|7.537|||||Day 1: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit, and Baseline gastric half emptying time as fixed effects, and participant as a random effect.|GSK962040 50 mg Vs Placebo Day 1||7.537|-16.015|
92253952|NCT01602549|184409969|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-5.327|||||TWO_SIDED|95.0|-17.567|6.914|||||Day 8: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit, and Baseline gastric half emptying time as fixed effects, and participant as a random effect.|GSK962040 50 mg Vs Placebo Day 8||6.914|-17.567|
92253953|NCT01602549|184409970|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.16||||||95.0|-3.9|-0.41|||||Day 1; Part I: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part I-GSK962040 50 mg Vs Placebo Day 1||-0.41|-3.90|
92253954|NCT01602549|184409970|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.63|||||TWO_SIDED|95.0|-5.41|-1.85|||||Day 8; Part I: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part I-GSK962040 50 mg Vs Placebo Day 8||-1.85|-5.41|
92253955|NCT01602549|184409970|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.29|||||TWO_SIDED|95.0|-4.65|0.07|||||Day 1; Part II: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part II- GSK962040 50 mg Vs Placebo Day 1||0.07|-4.65|
92177170|NCT05256654|184248253|SUPERIORITY||Mean Difference (Net)|-10.8|STANDARD_ERROR_OF_MEAN|6.19||0.101|TWO_SIDED|95.0|-22.2|2.3|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||2.3|-22.2|0.101
92253956|NCT01602549|184409970|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.46|||||TWO_SIDED|95.0|-4.85|-0.07|||||Day 8; Part II: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part II- GSK962040 50 mg Vs Placebo Day 8||-0.07|-4.85|
92253957|NCT01602549|184409970|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-5.38|||||TWO_SIDED|95.0|-10.28|-0.49|||||Day 8; Part III: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part III -GSK962040 50 mg Vs Placebo Day 8||-0.49|-10.28|
92253958|NCT01602549|184409970|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-0.56|||||TWO_SIDED|95.0|-1.65|0.54|||||Day 1; Part IV: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part IV-GSK962040 50 mg Vs Placebo Day 1||0.54|-1.65|
92265274|NCT04604015|184432012|OTHER||absolute difference|41.0|||<|0.001|TWO_SIDED|95.0|32.9|50.2|||McNemar|||The study was powered based on the results of a meta-analysis reporting the pooled NeuralBot (TCD) sensitivity for Right to Left Shunt detection, and the pooled TTE sensitivity for Right to Left Shunt detection.||50.2|32.9|<0.001
92265275|NCT02129192|184432015|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of Cmax of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|95.77|||||TWO_SIDED|90.0|88.89|103.17|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for telmisartan 80 mg||103.17|88.89|
92253959|NCT01602549|184409970|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-0.9|||||TWO_SIDED|95.0|-2.02|0.22|||||Day 8; Part IV: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part IV-GSK962040 50 mg Vs Placebo Day 8||0.22|-2.02|
92253960|NCT01602549|184409970|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-6.69|||||TWO_SIDED|95.0|-13.77|0.39|||||Day 1; Total: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Total- GSK962040 50 mg Vs Placebo Day 1||0.39|-13.77|
92253961|NCT01602549|184409970|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-12.5|||||TWO_SIDED|95.0|-19.67|-5.29|||||Day 8; Total: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Total- GSK962040 50 mg Vs Placebo Day 8||-5.29|-19.67|
92253962|NCT01602549|184409970|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-1.7|||||TWO_SIDED|95.0|-6.53|3.13|||||Day 1; Part III: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part III- GSK962040 50 mg Vs Placebo Day 1||3.13|-6.53|
92253963|NCT01602549|184409971|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.14|||||TWO_SIDED|95.0|-9.07|2.78|||||Day 1; Pre-dose: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|Pre dose: GSK962040 50 mg Vs Placebo Day 1||2.78|-9.07|
92253964|NCT01602549|184409971|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.18|||||TWO_SIDED|95.0|-9.11|2.75|||||Day 1; 120 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|120 min PD: GSK962040 50 mg Vs Placebo Day 1||2.75|-9.11|
92283622|NCT02289963|184470841|SUPERIORITY||Adjusted Mean Difference|-33.611|||<|0.0001|TWO_SIDED|95.0|-41.883|-25.338||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.338|-41.883|<0.0001
92253965|NCT01602549|184409971|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.66|||||TWO_SIDED|95.0|-9.59|2.27|||||Day 1; 180 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|180 min PD: GSK962040 50 mg Vs Placebo Day 1:||2.27|-9.59|
92253966|NCT01602549|184409971|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-4.15|||||TWO_SIDED|95.0|-10.07|1.76|||||Day 1; 240 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|240 min PD: GSK962040 50 mg Vs Placebo Day 1||1.76|-10.07|
92253967|NCT01602549|184409971|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-6.8|||||TWO_SIDED|95.0|-12.79|-0.81|||||Day 8; Pre-dose: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|Pre dose: GSK962040 50 mg Vs Placebo Day 8||-0.81|-12.79|
92253968|NCT01602549|184409971|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.97|||||TWO_SIDED|95.0|-9.96|2.03|||||Day 8; 120 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|120 min PD: GSK962040 50 mg Vs Placebo Day 8||2.03|-9.96|
92283623|NCT02289963|184470842|SUPERIORITY||LS Mean Difference|7.5||||0.0029|TWO_SIDED|95.0|2.6|12.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||12.4|2.6|0.0029
92253969|NCT01602549|184409971|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-5.29|||||TWO_SIDED|95.0|-11.29|0.71|||||Day 8; 180 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|180 min PD: GSK962040 50 mg Vs Placebo Day 8||0.71|-11.29|
92253970|NCT01602549|184409971|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-8.9|||||TWO_SIDED|95.0|-14.88|-2.91|||||Day 8; 240 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|240 min PD: GSK962040 50 mg Vs Placebo Day 8||-2.91|-14.88|
92253971|NCT01602549|184409972|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.31|||||TWO_SIDED|95.0|-3.71|-0.9|||||OFF: Treatment Period: The AMs and differences (GSK962040 minus Placebo) were estimated using an analysis of covariance (ANCOVA) model fitting treatment and Baseline amount of hours spent ON/OFF as main effects.|OFF: Treatment Period||-0.90|-3.71|
92253972|NCT01602549|184409972|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|1.88|||||TWO_SIDED|95.0|0.28|3.48|||||ON: Treatment Period: The AMs and differences (GSK962040 minus Placebo) were estimated using an analysis of covariance (ANCOVA) model fitting treatment and Baseline amount of hours spent ON/OFF as main effects.|ON: Treatment Period||3.48|0.28|
92283624|NCT02289963|184470843|SUPERIORITY||LS Mean Difference|-4.515||||0.311|TWO_SIDED|95.0|-13.25|4.219||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.219|-13.250|0.3110
92253973|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.83|||||TWO_SIDED|95.0|-21.79|16.13|||||Day 1, pre-dose: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|Pre-dose: Day GSK962040 50 mg Vs Placebo Day 1||16.13|-21.79|
92253974|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|0.58|||||TWO_SIDED|95.0|-18.39|19.56|||||Day 1, 0 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|0 min PD: GSK962040 50 mg Vs Placebo Day 1||19.56|-18.39|
92283625|NCT00840632|184470962|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|93.26||||||90.0|83.39|104.31|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.31|83.39|
92283626|NCT00840632|184470963|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|100.35||||||90.0|92.08|109.36|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109.36|92.08|
92283627|NCT00840632|184470964|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|99.17||||||90.0|92.71|106.08|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.08|92.71|
92177171|NCT05256654|184248253|SUPERIORITY||Mean Difference (Net)|-11.3|STANDARD_ERROR_OF_MEAN|4.96||0.033|TWO_SIDED|95.0|-20.6|-1.0|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-1.0|-20.6|0.033
92177172|NCT05256654|184248253|SUPERIORITY||Mean Difference (Net)|-10.9|STANDARD_ERROR_OF_MEAN|4.98||0.04|TWO_SIDED|95.0|-20.3|-0.6|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-0.6|-20.3|0.040
92253975|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|1.84|||||TWO_SIDED|95.0|-17.18|20.86|||||Day 1, 30 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|Day 1, 30 min PD||20.86|-17.18|
92253976|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|0.28|||||TWO_SIDED|95.0|-18.72|19.28|||||Day 1, 60 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|60 min PD: GSK962040 50 mg Vs Placebo Day 1||19.28|-18.72|
92283628|NCT00840632|184470965|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|102.93||||||90.0|99.8|106.15|||||Informational Purposes Only|||106.15|99.80|
92253977|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.38|||||TWO_SIDED|95.0|-22.35|15.58|||||Day 1, 90 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|90 min PD: GSK962040 50 mg Vs Placebo Day 1||15.58|-22.35|
92253978|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-4.18|||||TWO_SIDED|95.0|-23.13|14.76|||||Day 1, 120 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|120 min PD: GSK962040 50 mg Vs Placebo Day 1||14.76|-23.13|
92283629|NCT00840632|184470966|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|100.24||||||90.0|98.11|102.43|||||Informational Purposes Only|||102.43|98.11|
92283630|NCT00840632|184470967|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|100.1||||||90.0|98.12|102.12|||||Informational Purposes Only|||102.12|98.12|
92253979|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-6.39|||||TWO_SIDED|95.0|-25.36|12.58|||||Day 1, 180 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|180 min PD: GSK962040 50 mg Vs Placebo Day 1||12.58|-25.36|
92253980|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|0.77|||||TWO_SIDED|95.0|-18.2|19.75|||||Day 1, 240 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|240 min PD: GSK962040 50 mg Vs Placebo Day 1||19.75|-18.20|
92253981|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|0.51|||||TWO_SIDED|95.0|-18.51|19.52|||||Day 8, pre-dose: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|Pre-dose: GSK962040 50 mg Vs Placebo Day 8||19.52|-18.51|
92253982|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|3.32|||||TWO_SIDED|95.0|-15.7|22.33|||||Day 8, 0 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|0 min PD: GSK962040 50 mg Vs Placebo Day 8||22.33|-15.70|
92253983|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.94|||||TWO_SIDED|95.0|-21.97|16.08|||||Day 8, 30 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|30 min PD: GSK962040 50 mg Vs Placebo Day 8||16.08|-21.97|
92253984|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.12|||||TWO_SIDED|95.0|-22.13|15.88|||||Day 8, 60 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|60 min PD: GSK962040 50 mg Vs Placebo Day 8||15.88|-22.13|
92253985|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-1.38|||||TWO_SIDED|95.0|-20.4|17.63|||||Day 8, 90 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|90 min PD: GSK962040 50 mg Vs Placebo Day 8||17.63|-20.40|
92253986|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-0.71|||||TWO_SIDED|95.0|-19.7|18.28|||||Day 8, 120 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|120 min PD: GSK962040 50 mg Vs Placebo Day 8||18.28|-19.70|
92253987|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|3.02|||||TWO_SIDED|95.0|-15.98|22.02|||||Day 8, 180 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|180 min PD: GSK962040 50 mg Vs Placebo Day 8||22.02|-15.98|
92253988|NCT01602549|184409973|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|4.08|||||TWO_SIDED|95.0|-14.91|23.07|||||Day 8, 240 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|240 min PD: GSK962040 50 mg Vs Placebo Day 8||23.07|-14.91|
92253989|NCT03627494|184410045|OTHER||Ratio|0.93|||||TWO_SIDED|90.0|0.84|1.03|||||"Analysis was performed using Mixed Effect Model with treatment and period as fixed effect and participant as random effect. Variance Components covariance structure was used."|||1.03|0.84|
92253990|NCT03627494|184410046|OTHER||Ratio|0.93|||||TWO_SIDED|90.0|0.84|1.04|||||"Analysis was performed using Mixed Effect Model with treatment and period as fixed effect and participant as random effect. Variance Components covariance structure was used."|||1.04|0.84|
92253991|NCT03627494|184410047|OTHER||Ratio|0.89|||||TWO_SIDED|90.0|0.79|1.01|||||"Analysis was performed using Mixed Effect Model with treatment and period as fixed effect and participant as random effect. Variance Components covariance structure was used."|||1.01|0.79|
92253992|NCT02859558|184410081|SUPERIORITY|||||||0.48||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 2 in the proportion of participants with undetectable CA-DNA.||||0.48
92253993|NCT02859558|184410081|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||1
92253994|NCT02859558|184410081|SUPERIORITY|||||||0.5||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 2 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||0.50
92253995|NCT02859558|184410081|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Gag Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 2 in the proportion of participants with undetectable CA-DNA.||||1
92253996|NCT02859558|184410081|SUPERIORITY|||||||0.44||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Gag Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||0.44
92253997|NCT02859558|184410081|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Gag Assay. Null Hypothesis: There is no difference between Arm 2 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||1
92253998|NCT02859558|184410082|SUPERIORITY|||||||0.39||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.39
92253999|NCT02859558|184410082|SUPERIORITY|||||||0.46||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.46
92254000|NCT02859558|184410082|SUPERIORITY|||||||0.056||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.056
92254001|NCT02859558|184410082|SUPERIORITY|||||||0.025||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.025
92254002|NCT02859558|184410082|SUPERIORITY|||||||0.072||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.072
92254003|NCT02859558|184410082|SUPERIORITY|||||||0.47||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.47
92254004|NCT02859558|184410082|SUPERIORITY|||||||0.086||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.086
92254005|NCT02859558|184410082|SUPERIORITY|||||||0.18||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.18
92254006|NCT02859558|184410082|SUPERIORITY|||||||0.88||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.88
92254007|NCT02859558|184410082|SUPERIORITY|||||||0.061||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.061
92254008|NCT02859558|184410082|SUPERIORITY|||||||0.042||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.042
92254009|NCT02859558|184410082|SUPERIORITY|||||||0.54||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.54
92254010|NCT02859558|184410083|SUPERIORITY|||||||0.97||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.97
92177173|NCT05256654|184248254|SUPERIORITY||Mean Difference (Net)|-28.3|STANDARD_ERROR_OF_MEAN|6.79|<|0.001|TWO_SIDED|95.0|-40.5|-13.6|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-13.6|-40.5|<.001
92177174|NCT05256654|184248254|SUPERIORITY||Mean Difference (Net)|-42.5|STANDARD_ERROR_OF_MEAN|4.35|<|0.001|TWO_SIDED|95.0|-50.5|-33.2|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-33.2|-50.5|<.001
92254011|NCT02859558|184410083|SUPERIORITY|||||||0.21||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.21
92254012|NCT02859558|184410083|SUPERIORITY|||||||0.12||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.12
92254013|NCT02859558|184410083|SUPERIORITY|||||||0.055||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.055
92254014|NCT02859558|184410083|SUPERIORITY|||||||0.28||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.28
92254015|NCT02859558|184410083|SUPERIORITY|||||||0.38||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.38
92254016|NCT02859558|184410083|SUPERIORITY|||||||0.35||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.35
92177175|NCT05256654|184248254|SUPERIORITY||Mean Difference (Net)|-44.8|STANDARD_ERROR_OF_MEAN|4.2|<|0.001|TWO_SIDED|95.0|-52.5|-35.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-35.9|-52.5|<.001
92254017|NCT02859558|184410083|SUPERIORITY|||||||0.007||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.007
92177176|NCT02709161|184248262|SUPERIORITY||Mean Difference (Final Values)|8.2|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
92254018|NCT02859558|184410083|SUPERIORITY|||||||0.045||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.045
92254019|NCT02859558|184410083|SUPERIORITY|||||||0.085||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.085
92254020|NCT02859558|184410083|SUPERIORITY|||||||0.044||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.044
92254021|NCT02859558|184410083|SUPERIORITY|||||||0.6||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.60
92177177|NCT02709161|184248263|SUPERIORITY||Mean Difference (Final Values)|8.2|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
92177178|NCT04028284|184248281|OTHER|Two-sided inferential test||||||0.02||||||Adjusted for multiple comparisons using the Holm-Bonferroni correction. The a priori threshold for statistical significance was P \< 0.05 for the primary outcome.|t-test, 2 sided|||||||0.02
92177179|NCT04028284|184248282|OTHER|Inferential two-sided test||||||0.31|||||||t-test, 2 sided|||||||0.31
92177180|NCT04028284|184248283|OTHER|Inferential two-sided test||||||0.01||||||Adjusted for multiple comparisons using the Holm-Bonferroni correction.|t-test, 2 sided|||||||0.01
92254022|NCT02859558|184410084|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Joint Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 2 in the proportion of participants with undetectable CA-DNA.||||1
92254023|NCT02859558|184410084|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Joint Assay. Null Hypothesis: There is no difference between Arm 2 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||1
92254024|NCT02859558|184410084|SUPERIORITY|||||||0.64||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 2 in the proportion of participants with undetectable CA-DNA.||||0.64
92254025|NCT02859558|184410084|SUPERIORITY|||||||0.69||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||0.69
92254026|NCT02859558|184410084|SUPERIORITY|||||||0.4||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 2 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||0.40
92177181|NCT04028284|184248284|OTHER|Inferential two-sided test||||||0.03||||||Adjusted for multiple comparisons using the Holm-Bonferroni correction.|t-test, 2 sided|||||||0.03
92177182|NCT04028284|184248285|OTHER|Inferential two-sided test||||||0.56|||||||t-test, 2 sided|||||||0.56
92177183|NCT04028284|184248286|OTHER|Inferential two-sided test||||||0.78|||||||t-test, 2 sided|||||||0.78
92177184|NCT04028284|184248287|OTHER|Inferential two-sided test||||||0.24|||||||Fisher Exact|||||||0.24
92254027|NCT02859558|184410084|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Gag Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 2 in the proportion of participants with undetectable CA-DNA.||||1
92177185|NCT03295721|184248364|SUPERIORITY||Least Squares Mean Difference (LSMD)|-122.05|STANDARD_ERROR_OF_MEAN|21.217|<|0.0001|TWO_SIDED|95.0|-163.76|-80.34|||ANOVA|||||-80.34|-163.76|< 0.0001
92177186|NCT03295721|184248365|SUPERIORITY||Least Squares Mean Difference (LSMD)|-70.16|STANDARD_ERROR_OF_MEAN|18.777|=|0.0002|TWO_SIDED|95.0|-107.07|-33.25|||ANOVA|||||-33.25|-107.07|= 0.0002
92177187|NCT03295721|184248366|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
92177188|NCT03295721|184248367|SUPERIORITY||Risk Difference (RD)|0.177||||0.0001|TWO_SIDED|95.0|0.085|0.265|||Fisher Exact|||||.265|.085|0.0001
92177189|NCT03295721|184248368|SUPERIORITY||||||=|0.0022|||||||Wilcoxon (Mann-Whitney)|||||||= 0.0022
92177190|NCT04231331|184248369|SUPERIORITY||||||<|0.001||||||P-value \<0.05 was considered statistically significant.|t-test, 2 sided|||Based on our previous study, we assumed a common baseline mean EROA of 0.21 cm2 with a common standard deviation of 0.11 cm2. Given these assumptions, we calculated that a sample size of 204 patients randomly assigned to two groups, would provide 90% power to detect a difference of 0.05 cm2 in the EROA between the ertugliflozin and placebo groups, using a two-sided t test with an alpha level of 0.05.||||<0.001
92177191|NCT05098158|184248380|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|3.9|||<|0.001|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||<0.001
92177192|NCT05098158|184248381|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|5.6||||0.003|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.003
92254028|NCT02859558|184410084|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Gag Assay. Null Hypothesis: There is no difference between Arm 2 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||1
92254029|NCT04507360|184410090|SUPERIORITY||Mean Difference (Final Values)|0.23|||||TWO_SIDED|||||||||"Mean difference in Overall row"||||
92254030|NCT04507360|184410092|SUPERIORITY||Mean Difference (Final Values)|0.96|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
92254031|NCT04507360|184410092|SUPERIORITY||Mean Difference (Final Values)|0.63|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
92177193|NCT05098158|184248382|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|3.1||||0.011|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.011
92177194|NCT05098158|184248383|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|1.9||||0.168|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.168
92177195|NCT05098158|184248384|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|1.1||||0.456|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.456
92177196|NCT05098158|184248385|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|0.8||||0.517|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.517
92254032|NCT04507360|184410092|SUPERIORITY||Mean Difference (Final Values)|0.19|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
92254033|NCT04507360|184410092|SUPERIORITY||Mean Difference (Final Values)|0.62|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
92254034|NCT04507360|184410092|SUPERIORITY||Mean Difference (Final Values)|0.85|||||TWO_SIDED|||||||||Mean difference in total score at week 8||||
92177197|NCT05098158|184248386|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Net)|3.2||||0.012|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.012
92177198|NCT05098158|184248387|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Net)|0.3||||0.811|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||||||0.811
92254035|NCT04507360|184410092|SUPERIORITY||Mean Difference (Final Values)|0.41|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
92254036|NCT04507360|184410092|SUPERIORITY||Mean Difference (Final Values)|1.39|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
92254037|NCT04507360|184410092|SUPERIORITY||Mean Difference (Final Values)|2.16|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
92254038|NCT04507360|184410092|SUPERIORITY||Mean Difference (Final Values)|2.69|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
92254039|NCT04507360|184410092|SUPERIORITY||Mean Difference (Final Values)|1.75|||||TWO_SIDED|||||||||Mean difference in total score at week 8||||
92254040|NCT04507360|184410093|SUPERIORITY||Mean Difference (Final Values)|0.07|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
92254041|NCT04507360|184410093|SUPERIORITY||Mean Difference (Final Values)|0.42|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
92254042|NCT04507360|184410093|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
92254043|NCT04507360|184410093|SUPERIORITY||Mean Difference (Final Values)|0.32|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
92254044|NCT04507360|184410094|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
92254045|NCT04507360|184410094|SUPERIORITY||Mean Difference (Final Values)|0.37|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
92254046|NCT04507360|184410094|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
92254047|NCT04507360|184410094|SUPERIORITY||Mean Difference (Final Values)|0.29|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
92254048|NCT04507360|184410095|SUPERIORITY||Mean Difference (Final Values)|0.58|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
92254049|NCT04507360|184410095|SUPERIORITY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
92254050|NCT04507360|184410095|SUPERIORITY||Mean Difference (Final Values)|1.24|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
92254051|NCT04507360|184410095|SUPERIORITY||Mean Difference (Final Values)|0.47|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
92254052|NCT04507360|184410095|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|||||||||Mean difference in total score at week 8||||
92254053|NCT04507360|184410095|SUPERIORITY||Mean Difference (Final Values)|1.98|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
92254054|NCT04507360|184410095|SUPERIORITY||Mean Difference (Final Values)|1.18|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
92254055|NCT04507360|184410095|SUPERIORITY||Mean Difference (Final Values)|3.67|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
92254056|NCT04507360|184410095|SUPERIORITY||Mean Difference (Final Values)|4.22|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
92254057|NCT04507360|184410095|SUPERIORITY||Mean Difference (Final Values)|2.07|||||TWO_SIDED|||||||||Mean difference in total score at week 8||||
92254058|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|||||||||Mean difference at baseline||||
92254059|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.29|||||TWO_SIDED|||||||||Mean difference at week 1||||
92254060|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|||||||||Mean difference at week 2||||
92254061|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.13|||||TWO_SIDED|||||||||Mean difference at week 3||||
92254062|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|1.68|||||TWO_SIDED|||||||||Mean difference at week 4||||
92254063|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.16|||||TWO_SIDED|||||||||Mean difference at week 8||||
92254064|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.28|||||TWO_SIDED|||||||||Mean difference at baseline||||
92254065|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.67|||||TWO_SIDED|||||||||Mean difference at week 1||||
92254066|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.78|||||TWO_SIDED|||||||||Mean difference at week 2||||
92254067|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|||||||||Mean difference at week 3||||
92254068|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.47|||||TWO_SIDED|||||||||Mean difference at week 4||||
92254069|NCT04507360|184410098|SUPERIORITY||Mean Difference (Final Values)|0.24|||||TWO_SIDED|||||||||Mean difference at week 8||||
92254070|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|||||||||Mean difference at baseline||||
92254071|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.15|||||TWO_SIDED|||||||||Mean difference at week 1||||
92254072|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.23|||||TWO_SIDED|||||||||Mean difference at week 2||||
92254073|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.38|||||TWO_SIDED|||||||||Mean difference at week 3||||
92254074|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|1.26|||||TWO_SIDED|||||||||Mean difference at week 4||||
92254075|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.26|||||TWO_SIDED|||||||||Mean difference at week 8||||
92254076|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.09|||||TWO_SIDED|||||||||Mean difference at baseline||||
92254077|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.26|||||TWO_SIDED|||||||||Mean difference at week 1||||
92254078|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.05|||||TWO_SIDED|||||||||Mean difference at week 2||||
92254079|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|||||||||Mean difference at week 3||||
92254080|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|||||||||Mean difference at week 4||||
92254081|NCT04507360|184410099|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|||||||||Mean difference at week 8||||
92254082|NCT00400946|184410100|SUPERIORITY|||||||0.6|||||||Fisher Exact|||||||.60
92254083|NCT00439309|184410115|NON_INFERIORITY_OR_EQUIVALENCE|The sealing success rates for the investigational group and control groups were assumed to be 0.85 (85%) and 0.75 (75%), respectively, and the non-inferiority margin (10%) is 0.10. For safety reasons it was desired to have at least 100 Vascular Sealant treated subjects. It was determined that a sample size of at least 31 evaluable subjects is required for the control group. For blocking purposes, the number of evaluable control group subjects was set to 33, for a 3:1 randomization.||||||0.072|||||||Z-Test|one-sided Z-test based on the normal approximation to the binomial distribution testing||The effectiveness analyses were performed on the ITT population.||||0.072
92254084|NCT00439309|184410116|SUPERIORITY_OR_OTHER|||||||0.006|||||||t-test, 2 sided|p-value for superiority of the Vascular Sealant System compared to the GELFOAM Treatment from two-sided test based on the GEE regression model.||||||0.006
92254085|NCT00439309|184410117|SUPERIORITY_OR_OTHER|||||||0.654|||||||t-test, 2 sided|p-value for superiority of the Vascular Sealant System compared to the GELFOAMTreatment from two-sided test based on the GEE regression model||||||0.654
92254086|NCT00439309|184410118|SUPERIORITY_OR_OTHER|||||||0.089|||||||t-test, 2 sided|||||||0.089
92254087|NCT00439309|184410119|SUPERIORITY_OR_OTHER|||||||0.404|||||||Log Rank|Kaplan-Meier method was used to obtain estimated median times to wound closure and the corresponding 95% confidence intervals for each treatment group||||||0.404
92254088|NCT01998906|184410147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.6||||0.0051|TWO_SIDED|95.0|5.0|30.2|||Chi-squared|||||30.2|5.0|0.0051
92254089|NCT01998906|184410148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.3||||0.0014|TWO_SIDED|95.0|7.2|31.4|||Chi-squared|||||31.4|7.2|0.0014
92254090|NCT01998906|184410149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4||||0.3077|TWO_SIDED|95.0|-6.4|19.1|||Chi-squared|||||19.1|-6.4|0.3077
92254091|NCT01998906|184410151|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.0275|TWO_SIDED|95.0|0.44|0.96|||Log Rank|||||0.96|0.44|0.0275
92254092|NCT01998906|184410153|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59||||0.0555|TWO_SIDED|95.0|0.35|1.02|||Log Rank|||||1.02|0.35|0.0555
92254093|NCT05724069|184410164|SUPERIORITY||Median Difference (Net)|-0.239|||=|0.1279|TWO_SIDED|95.0|-0.553|0.074|||paired T-test|||Subjects in this analysis are 15 and not 30 (this happens because arms are not mutually exclusive, as explained in previous sections). Each subject can contribute with 0, 1, 2 pairs. Only data that constitute pairs evaluable for primary endpoint are considered in the analysis; the pairs evaluable for primary endpoint were 23.||0.074|-0.553|=0.1279
92254094|NCT03552289|184410165|SUPERIORITY|||||||0.8283|||||||One-sided Z-test|||||||0.8283
92254095|NCT05241470|184410186|SUPERIORITY||Mean Difference (Net)|0.01||||0.9575|TWO_SIDED||||||ANCOVA|||||||0.9575
92254096|NCT05241470|184410186|SUPERIORITY||Mean Difference (Net)|0.01||||0.9741|TWO_SIDED||||||ANCOVA|||||||0.9741
92254097|NCT05241470|184410187|SUPERIORITY|||||||0.5696|||||||ANCOVA|||||||0.5696
92254098|NCT05241470|184410188|SUPERIORITY|||||||0.0266|||||||Fisher Exact|||||||0.0266
92254099|NCT05241470|184410189|SUPERIORITY|||||||0.0055|||||||ANCOVA|||||||0.0055
92254100|NCT05241470|184410190|SUPERIORITY|||||||0.0097|||||||ANCOVA|||||||0.0097
92254101|NCT05241470|184410191|SUPERIORITY|||||||0.0137|||||||ANCOVA|||||||0.0137
92254102|NCT05241470|184410192|SUPERIORITY|||||||0.0332|||||||ANCOVA|||||||0.0332
92254103|NCT05241470|184410193|SUPERIORITY|||||||0.0394|||||||t-test, 2 sided|||||||0.0394
92254104|NCT05241470|184410194|SUPERIORITY|||||||0.0121|||||||Wilcoxon (Mann-Whitney)|||||||0.0121
92254105|NCT05241470|184410195|SUPERIORITY|||||||0.0224|||||||Wilcoxon (Mann-Whitney)|||||||0.0224
92254106|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.9825|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 1: analysis was performed using paired t-test.||||0.9825
92254107|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.5737|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 1: analysis was performed using paired t-test.||||0.5737
92254108|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.5703|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 1: analysis was performed using paired t-test.||||0.5703
92254109|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.5684|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 1: analysis was performed using paired t-test.||||0.5684
92254110|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.8235|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 2: analysis was performed using paired t-test.||||0.8235
92254111|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.2384|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 2: analysis was performed using paired t-test.||||0.2384
92254112|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.1634|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 2: analysis was performed using paired t-test.||||0.1634
92254113|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.7816|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 2: analysis was performed using paired t-test.||||0.7816
92254114|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.3917|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 3: analysis was performed using paired t-test.||||0.3917
92254115|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.1749|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 3: analysis was performed using paired t-test.||||0.1749
92254116|NCT01156363|184410201|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 3: analysis was performed using paired t-test.||||<0.001
92254117|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0905|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 3: analysis was performed using paired t-test.||||0.0905
92254118|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.3766|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 4: analysis was performed using paired t-test.||||0.3766
92254119|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0253|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 4: analysis was performed using paired t-test.||||0.0253
92254120|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0209|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 4: analysis was performed using paired t-test.||||0.0209
92254121|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.8206|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 4: analysis was performed using paired t-test.||||0.8206
92254122|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0907|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 5: analysis was performed using paired t-test.||||0.0907
92254123|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0177|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 5: analysis was performed using paired t-test.||||0.0177
92254124|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 5: analysis was performed using paired t-test.||||0.0050
92254125|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.3724|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 5: analysis was performed using paired t-test.||||0.3724
92254126|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.2796|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 6: analysis was performed using paired t-test.||||0.2796
92254127|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0066|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 6: analysis was performed using paired t-test.||||0.0066
92254128|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0081|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 6: analysis was performed using paired t-test.||||0.0081
92254129|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.7853|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 6: analysis was performed using paired t-test.||||0.7853
92254130|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0039|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 7: analysis was performed using paired t-test.||||0.0039
92254131|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.3057|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 7: analysis was performed using paired t-test.||||0.3057
92254132|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.3374|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 7: analysis was performed using paired t-test.||||0.3374
92254133|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.141|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 7: analysis was performed using paired t-test.||||0.1410
92254134|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0017|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 8: analysis was performed using paired t-test.||||0.0017
92254135|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0677|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 8: analysis was performed using paired t-test.||||0.0677
92254136|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.1608|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 8: analysis was performed using paired t-test.||||0.1608
92254137|NCT01156363|184410201|SUPERIORITY_OR_OTHER|||||||0.0196|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 8: analysis was performed using paired t-test.||||0.0196
92254138|NCT00047008|184410239|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.18|TWO_SIDED|95.0|0.719|1.128|||Log Rank|||A sample size of 684 analyzable patients provides 80% power to detect a relative reduction of 25% in the rate of death in the accelerated-fractionation radiotherapy group as compared with the standard-fractionation radiotherapy group, assuming a 2-year rate of overall survival of 45% in the standard-fractionation radiotherapy group, with the use of a one-sided log-rank test at the 0.05 significance level.||1.128|0.719|0.180
92254139|NCT00047008|184410240|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.76|TWO_SIDED|95.0|0.83|1.43||One-sided significance level = 0.05|Gray's test|||||1.43|0.83|0.76
92254140|NCT00047008|184410241|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.8|TWO_SIDED|95.0|0.85|1.44||One-sided significance level = 0.05|Gray's test|||||1.44|0.85|0.80
92254141|NCT00047008|184410242|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.42|TWO_SIDED|95.0|0.81|1.2||One-sided significance level = 0.05|Log Rank|||||1.20|0.81|0.42
92254142|NCT00047008|184410243|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.5|TWO_SIDED|95.0|0.81|1.23||One-sided significance level = 0.05|Log Rank|||||1.23|0.81|0.50
92254143|NCT00047008|184410244|SUPERIORITY|||||||0.21||||||Two-side significance level = 0.05|Fisher Exact|||Acute toxicity||||0.21
92254144|NCT00047008|184410244|SUPERIORITY|||||||0.18||||||Two-sided significance level = 0.05|Fisher Exact|||Late toxicity||||0.18
92254145|NCT00047008|184410245|SUPERIORITY|||||||0.92||||||Two-sided significance level = 0.05|t-test, 2 sided|||Two hundred and fifty-two patients (126/arm) provide at least 86% power to detect a difference of 7 (standard deviation 18) between arms with a two-sided significance level of 0.05.||||0.92
92254146|NCT00047008|184410246|SUPERIORITY|||||||0.67||||||Two-sided significance level = 0.05|t-test, 2 sided|||Two hundred and fifty-two patients (126/arm) provide at least 86% power to detect a difference of 7 (standard deviation 18) between arms with a two-sided significance level of 0.05.||||0.67
92254147|NCT00047008|184410247|SUPERIORITY|||||||0.43||||||Two-sided significance level = 0.05|t-test, 2 sided|||Two hundred and fifty-two patients (126/arm) provide at least 86% power to detect a difference of 7 (standard deviation 18) between arms with a two-sided significance level of 0.05.||||0.43
92254148|NCT00047008|184410248|SUPERIORITY|||||||0.39||||||Two-sided significance level = 0.05|t-test, 2 sided|||Two hundred and fifty-two patients (126/arm) provide at least 86% power to detect a difference of 7 (standard deviation 18) between arms with a two-sided significance level of 0.05.||||0.39
92254149|NCT02773368|184410256|NON_INFERIORITY|Non-inferiority of IDegLira was considered confirmed if the upper limit of the two-sided 95% confidence interval (CI) for mean treatment difference (IDegLira minus IGlar) was strictly below 0.3%.|Treatment Contrast|-0.34|||||TWO_SIDED|95.0|-0.48|-0.2|||ANCOVA||IDegLira minus IGlar|Analysis was based on ANCOVA model with treatment, pre-trial OAD, region as factors and baseline HbA1c as covariate. Data obtained after premature treatment discontinuation are included in the analysis. Missing data was imputed using unconditional reference based multiple imputation including data obtained after premature treatment discontinuation. The non-inferiority margin of 0.3 % was added to the end-of-treatment value for prematurely discontinued and withdrawn from trial IDegLira subjects.||-0.20|-0.48|
92254150|NCT02773368|184410256|SUPERIORITY|Superiority of IDegLira was considered confirmed if the test procedure was not stopped (i.e. non-inferiority of IDegLira was confirmed for change from baseline in HbA1c; and superiority of IDegLira was confirmed for weight change and the number of treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes) and if the upper limit of the two-sided 95% CI for the mean treatment difference (IDegLira minus IGlar) in change from baseline in HbA1c was strictly below 0%.|Treatment Contrast|-0.36|||||TWO_SIDED|95.0|-0.5|-0.21|||ANCOVA||IDegLira minus IGlar|This endpoint was analysed using an ANCOVA model with treatment, pre-trial OAD and region as factors and corresponding baseline value as covariate. Data obtained after premature treatment discontinuation were included in the analysis. Missing data were imputed using unconditional reference based multiple imputation including data obtained after premature treatment discontinuation.||-0.21|-0.50|
92254151|NCT02773368|184410257|SUPERIORITY|Superiority of IDegLira was considered confirmed if the test procedure was not stopped (i.e. non-inferiority of IDegLira was confirmed for change from baseline in HbA1c) and if the upper limit of the two-sided 95% CI for the mean treatment difference (IDegLira minus IGlar) in change from baseline in body weight was strictly below 0 kg.|Treatment Contrast|-1.92|||||TWO_SIDED|95.0|-2.64|-1.19|||ANCOVA||IDegLira minus IGlar|This endpoint was analysed using an ANCOVA model with treatment, pre-trial OAD and region as factors and corresponding baseline weight as covariate. Data obtained after premature treatment discontinuation were included in the analysis. Missing data were imputed using unconditional reference based multiple imputation including data obtained after premature treatment discontinuation.||-1.19|-2.64|
92254152|NCT02773368|184410258|SUPERIORITY|Superiority of IDegLira was considered confirmed if the test procedure was not stopped (i.e. non-inferiority of IDegLira was confirmed for change from baseline in HbA1c and superiority of IDegLira was confirmed for change from baseline in body weight) and if the upper limit of the two-sided 95% CI for the rate ratio (IDegLira over IGlar) of rate of treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes was strictly below 1.|Treatment Ratio|0.42|||||TWO_SIDED|95.0|0.23|0.75|||Negative binomial regression model||IDegLira over IGlar|This endpoint was analysed using a negative binomial regression model with a log link and the logarithm of the exposure time as offset. The model included treatment and pre-trial OAD as fixed factors. Missing data were imputed using multiple imputations (conditioning on expected event rate before premature treatment discontinuation or withdrawal from trial as if treated with IGlar).||0.75|0.23|
92254153|NCT02773368|184410259|SUPERIORITY|Superiority of IDegLira was considered confirmed if the test procedure was not stopped (i.e. non-inferiority of IDegLira was confirmed for change from baseline in HbA1c; and superiority of IDegLira was confirmed for weight change, number of treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes and change in HbA1c) and if the upper limit of the two-sided 95% CI for the mean treatment difference (IDegLira minus IGlar) in insulin dose after 26 weeks was strictly below 0 U.|Treatment Contrast|-15.37|||||TWO_SIDED|95.0|-19.6|-11.13|||ANCOVA||IDegLira minus IGlar|The endpoint was analysed using an ANCOVA model with treatment, pre-trial OAD and region as factors and corresponding baseline HbA1c as covariate. Missing data were imputed using unconditional reference based multiple imputation including data obtained after premature treatment discontinuation.||-11.13|-19.60|
92254154|NCT01665872|184410289|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.172|||||||t-test, 2 sided|||||||0.172
92254155|NCT01665872|184410290|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.5337|||||||Wilcoxon (Mann-Whitney)|||Are CES-D scores at 12 months different between groups?||||0.5337
92254156|NCT01665872|184410291|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.092||||||This test looks at a difference in Parental Distress at the 12 month follow-up between groups.|Wilcoxon (Mann-Whitney)|||||||0.0920
92254157|NCT01665872|184410291|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.3352||||||This test looks at a difference in Parent-Child Dysfunctional Interaction at the 12 month follow-up between groups.|Wilcoxon (Mann-Whitney)|||||||0.3352
92254158|NCT01665872|184410291|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.0404||||||This test looks at a difference in Difficult Child at the 12 month follow-up between groups.|Wilcoxon (Mann-Whitney)|||||||0.0404
92254159|NCT01665872|184410291|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.0915||||||This test looks at a difference in PSI total score (percentile) at the 12 month follow-up between groups.|Wilcoxon (Mann-Whitney)|||||||0.0915
92254160|NCT01665872|184410292|EQUIVALENCE|Chi-square was used with a p-value of 0.05 to determine if the difference was statistically greater than 0.||||||0.2914|||||||Chi-squared|||||||0.2914
92254161|NCT01929018|184410294|SUPERIORITY|||||||0.87|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.87
92254162|NCT01929018|184410294|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.38
92254163|NCT01929018|184410295|SUPERIORITY|||||||0.75|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.75
92254164|NCT01929018|184410295|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.11
92254165|NCT01929018|184410296|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.11
92254166|NCT01929018|184410296|SUPERIORITY|||||||0.23|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.23
92254167|NCT01929018|184410297|SUPERIORITY|||||||0.27|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.27
92254168|NCT01929018|184410297|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.58
92254169|NCT01929018|184410298|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.83
92254170|NCT01929018|184410298|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.13
92254171|NCT01929018|184410299|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.03
92254172|NCT01929018|184410299|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.02
92254173|NCT01929018|184410300|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.03
92254174|NCT01929018|184410300|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.06
92254175|NCT01929018|184410301|SUPERIORITY|||||||0.62|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.62
92254176|NCT01929018|184410301|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.40
92254177|NCT01929018|184410302|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.96
92254178|NCT01929018|184410302|SUPERIORITY|||||||0.35|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.35
92254179|NCT01047436|184410311|SUPERIORITY_OR_OTHER||difference between treatments|26.7||||0.17|TWO_SIDED|95.0|-0.3|53.7|||Fisher Exact|||The sample size was not statistically determined in this initial trial with ArTimist. For the primary outcome analysis, the percentage of patients defined as having success were determined. The difference between ArTiMist and quinine, along with its 95% confidence interval (CI) were determined. The difference between treatments were compared using Fisher's Exact test||53.7|-0.3|0.17
92177199|NCT05098158|184248388|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|0.1||||0.941|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest dat||||0.941
92177200|NCT05098158|184248389|OTHER|Descriptive statistics to report the percentage of offered telehealth sessions that were attended \[#attended/#offered = % attended\]|percentage|95.8|||||TWO_SIDED|||||||||||||
92177201|NCT03526887|184248419|SUPERIORITY||Median Difference (Net)|9.7||||0.016|TWO_SIDED|95.0|9.4|19.1|||Log Rank|||||19.1|9.4|0.016
92177202|NCT04909801|184248474|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9026|TWO_SIDED|95.0|0.6|1.6|||Regression, Logistic|||||1.6|0.6|0.9026
92177203|NCT04909801|184248475|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.5824|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||||1.5|0.5|0.5824
92177204|NCT04909801|184248476|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.3534||95.0|0.5|1.3|||Regression, Logistic|||||1.3|0.5|0.3534
92177205|NCT04909801|184248477|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.614|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||||1.5|0.5|0.6140
92177206|NCT04909801|184248479|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4996|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 29||1.4|0.5|0.4996
92254180|NCT01047436|184410313|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.7|TWO_SIDED|95.0|0.48|3.01|||Log Rank|||The time for the parasite count to fall by 90% (PCT90) was determined for each patient as the time in minutes/seconds, when the parasite count fell by 90% The PCT90 was appropriately summarised for each treatment for the FAS . The times were presented graphically for each endpoint using a life-table curve (Kaplan-Meier method). For each endpoint the survival curves were compared by the log-rank test. The hazard ratio was calculated along with its 95% CI.||3.01|0.48|0.70
92254181|NCT01047436|184410315|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.76||95.0|0.34|2.18||Difference between survival curves compared by Log Rank test|Log Rank|||The PCT50 was determined for each patient as the time in minutes/seconds, when the parasite count fell by 50% The PCT50 was appropriately summarised for each treatment for the FAS . The times were presented graphically for each endpoint using a life-table curve (Kaplan-Meier method). For each endpoint the survival curves were compared by the log-rank test. The hazard ratio was calculated along with its 95% CI.||2.18|0.34|0.76
92254182|NCT01789255|184410325|OTHER|||||||0.02642|||||||Wilcoxon (Mann-Whitney)|||||||0.02642
92254183|NCT01789255|184410326|OTHER|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
92177207|NCT04909801|184248479|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.449|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 57||1.4|0.5|0.4490
92177208|NCT04909801|184248479|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.809|TWO_SIDED|95.0|0.5|1.7|||Regression, Logistic|||Day 85||1.7|0.5|0.8090
92177209|NCT04909801|184248479|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.9||||0.0739|TWO_SIDED|95.0|0.9|3.6|||Regression, Logistic|||Day 113||3.6|0.9|0.0739
92177210|NCT04909801|184248479|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.3||||0.4201|TWO_SIDED|95.0|0.7|2.6|||Regression, Logistic|||Day 141||2.6|0.7|0.4201
92177211|NCT04909801|184248479|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.7928|TWO_SIDED|95.0|0.6|2.0|||Regression, Logistic|||Day 169||2.0|0.6|0.7928
92177212|NCT04909801|184248480|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.2701|TWO_SIDED|95.0|0.4|1.3|||Regression, Logistic|||Day 29||1.3|0.4|0.2701
92177213|NCT04909801|184248480|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4863|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 57||1.4|0.5|0.4863
92177214|NCT04909801|184248480|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9513|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Day 85||1.7|0.6|0.9513
92177215|NCT04909801|184248480|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.8536|TWO_SIDED|95.0|0.6|1.8|||Regression, Logistic|||Day 113||1.8|0.6|0.8536
92177216|NCT04909801|184248480|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9223|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Day 141||1.7|0.6|0.9223
92177217|NCT04909801|184248480|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9026|TWO_SIDED|95.0|0.6|1.6|||Regression, Logistic|||Day 169||1.6|0.6|0.9026
92177218|NCT04909801|184248481|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.6||||0.3411|TWO_SIDED|95.0|0.2|1.6|||Regression, Logistic|||Day 29||1.6|0.2|0.3411
92177219|NCT04909801|184248481|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.2546|TWO_SIDED|95.0|0.4|1.3|||Regression, Logistic|||Day 57||1.3|0.4|0.2546
92177220|NCT04909801|184248481|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4558|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 85||1.4|0.5|0.4558
92177221|NCT04909801|184248481|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9544|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Day 113||1.7|0.6|0.9544
92177222|NCT04909801|184248481|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.545|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 141||1.4|0.5|0.5450
92177223|NCT04909801|184248481|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.2227|TWO_SIDED|95.0|0.4|1.2|||Regression, Logistic|||Day 169||1.2|0.4|0.2227
92177224|NCT04909801|184248482|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.32|TWO_SIDED|95.0|0.3|1.4|||Regression, Logistic|||Day 29||1.4|0.3|0.3200
92177225|NCT04909801|184248482|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4992|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||Day 57||1.5|0.5|0.4992
92177226|NCT04909801|184248482|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.8963|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Day 85||1.7|0.6|0.8963
92177227|NCT04909801|184248482|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4544|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 113||1.4|0.5|0.4544
92254184|NCT02635867|184410327|SUPERIORITY|Descriptive data and rates of success were calculated independently for indirect and direct therapies. Statistical analyses of proportions were done using Fisher's test and 95% confidence intervals (CI)|||||>|0.1|||||||Fisher Exact|||"The clinical outcome measures assessed were pain using visual analog pain scale, pulp vitality assessment at 12 months.~The success rate was based on 3 measures of pulp vitality that resulted in a diagnosis of vital or nonvital:~Vital: palpation = negative/ percussion = negative/ response to cold stimuli= positive response Non vital: palpation = positive / percussion = positive. / response to cold stimuli= positive or delayed response time in seconds and lingering."||||>0.1
92254185|NCT02128958|184410329|OTHER|||||||0.536|||||||Log Rank|||The between-treatment comparison (CF102 vs Placebo) of Overall Survival will be performed using the log rank test as the primary analysis.||||0.536
92254186|NCT02128958|184410330|OTHER|||||||0.371|||||||Log Rank|||The between-treatment comparison (CF102 vs Placebo) of Time to Progression will be performed using the log rank test as the primary analysis.||||.371
92254187|NCT02128958|184410331|OTHER|||||||0.521|||||||Log Rank|||The between-treatment comparison (CF102 vs Placebo) will be performed on Time to Progression Free Survival using the logrank test.||||0.521
92254188|NCT02128958|184410334|OTHER|||||||0.988|||||||ANCOVA|||Between-treatment comparisons of ALT will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.988
92254189|NCT02128958|184410334|OTHER|||||||0.989|||||||ANCOVA|||Between-treatment comparisons of AST will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.989
92177228|NCT04909801|184248482|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.8985|TWO_SIDED|95.0|0.6|1.8|||Regression, Logistic|||Day 141||1.8|0.6|0.8985
92254190|NCT02128958|184410334|OTHER|||||||0.717|||||||ANCOVA|||Between-treatment comparisons of Albumin will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.717
92254191|NCT02128958|184410334|OTHER|||||||0.891|||||||ANCOVA|||Between-treatment comparisons of Bilirubin (direct) will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.891
92254192|NCT02128958|184410334|OTHER|||||||0.275|||||||ANCOVA|||Between-treatment comparisons of Bilirubin (Total) will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.275
92254193|NCT02128958|184410334|OTHER|||||||0.549|||||||ANCOVA|||Between-treatment comparisons of PT will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.549
92254194|NCT02128958|184410334|OTHER|||||||0.479|||||||ANCOVA|||Between-treatment comparisons of INR will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.479
92254195|NCT02565576|184410342|SUPERIORITY||estimate of contrast posterior median|-1.14|||||TWO_SIDED|90.0|-3.41|1.14|||bayesian|||Primary analysis was performed on the PD analysis set. Changes from baseline in QMG scores at Week 25 were analyzed using a Bayesian model. The model investigated effects for treatment (CFZ533 or placebo) and baseline QMG score. A difference of 3 points on the mean change in QMG score between CFZ533 and placebo was deemed a clinical meaningful effect.||1.14|-3.41|
92254196|NCT00282568|184410353|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of the natural log-transformed pharmacokinetic parameters fell within an 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|94.97|||||TWO_SIDED|90.0|90.72|99.41|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance with repeated measures was used for the comparisons of AUC0-24. Exposure at steady state was used for tacrolimus (steady state was defined as days 1 and 7) and for tacrolimus MR (steady state was defined as days 14 and 21). The natural log (ln) was used to transform AUC0-24 prior to analysis and the results were transformed back to the original scale for the presentation of results.||99.41|90.72|
92254197|NCT00282568|184410355|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of the natural log-transformed pharmacokinetic parameters fell within an 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|88.15|||||TWO_SIDED|90.0|82.69|93.96|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance with repeated measures was used for the comparisons of Cmax. Exposure at steady state was used for tacrolimus (steady state was defined as days 1 and 7) and for tacrolimus MR (steady state was defined as days 14 and 21). The natural log (ln) was used to transform Cmax prior to analysis and the results were transformed back to the original scale for the presentation of results.||93.96|82.69|
92254198|NCT00282568|184410356|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of the natural log-transformed pharmacokinetic parameters fell within an 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|87.2|||||TWO_SIDED|90.0|82.72|91.93|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance with repeated measures was used for the comparisons of Cmin. Exposure at steady state was used for tacrolimus (steady state was defined as days 1 and 7) and for tacrolimus MR (steady state was defined as days 14 and 21). The natural log (ln) was used to transform Cmin prior to analysis and the results were transformed back to the original scale for the presentation of results.||91.93|82.72|
92254199|NCT00796003|184410412|SUPERIORITY_OR_OTHER||Overall Response Rate|26.5|STANDARD_ERROR_OF_MEAN|7.6|<|0.0001|TWO_SIDED|90.0|14.6|41.6|||Binomial test|one-tailed 5% level at a significance level||Null Hypothesis: Overall Remission Rate = 5%||41.6|14.6|<0.0001
92177229|NCT04909801|184248482|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.5824|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||Day 169||1.5|0.5|0.5824
92177230|NCT04909801|184248483|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.5||||0.4152|TWO_SIDED|95.0|0.6|4.1|||Regression, Logistic|||Day 29||4.1|0.6|0.4152
92177231|NCT04909801|184248483|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.5917|TWO_SIDED|95.0|0.6|2.5|||Regression, Logistic|||Day 57||2.5|0.6|0.5917
92254200|NCT03185819|184410424|SUPERIORITY||Difference of LS Means|-5.8|STANDARD_ERROR_OF_MEAN|2.74|=|0.037|TWO_SIDED|95.0|-11.19|-0.35||Threshold for significance for p-value was 0.05.|ANCOVA|||A pooled (54 mg and 84 mg) sequential multiple testing procedure was implemented to control type I error by comparing pooled data against midazolam + placebo matched to esketamine nasal spray.||-0.35|-11.19|= 0.037
92254201|NCT03185819|184410424|SUPERIORITY||Difference of LS Mean|-5.7|STANDARD_ERROR_OF_MEAN|3.65|=|0.123|TWO_SIDED|95.0|-12.91|1.55||Threshold for significance for p-value was 0.05.|ANCOVA|||Individual esketamine dose (84 mg versus medazolam + esketamine matched placebo) independent testing was planned to be performed after pooled (56 mg + 84 mg) analysis.||1.55|-12.91|= 0.123
92254202|NCT03185819|184410424|SUPERIORITY||Difference of LS Means|-5.9|STANDARD_ERROR_OF_MEAN|3.23|=|0.072|TWO_SIDED|95.0|-12.25|0.53||Threshold for significance for p-value was 0.05.|ANCOVA|||Individual esketamine dose (56 mg versus medazolam + esketamine matched placebo) independent testing was planned to be performed after pooled (56 mg + 84 mg) analysis.||0.53|-12.25|= 0.072
92254203|NCT03185819|184410424|SUPERIORITY||Difference of LS Means|-2.4|STANDARD_ERROR_OF_MEAN|3.35|||TWO_SIDED|95.0|-9.08|4.19||||||||4.19|-9.08|
92283631|NCT01136382|184470975|SUPERIORITY_OR_OTHER||LS mean difference|13.6|STANDARD_ERROR_OF_MEAN|3.1|<|0.0001|TWO_SIDED|95.0|7.5|19.7||To address multiplicity, a step-down procedure was used. If the treatment difference for the primary variable, morning PEF, was statistically significant (p\<0.05), then the key secondary variable, FEV1, was tested at the 0.05 level of significance.|ANCOVA|||Change from baseline to treatment period average was analyzed using an analysis of covariance (ANCOVA) model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||19.7|7.5|<0.0001
92283632|NCT01136382|184470976|SUPERIORITY_OR_OTHER||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.022||0.0047|TWO_SIDED|95.0|0.02|0.11||To address multiplicity, a step-down procedure was used. If the treatment difference for the primary variable, morning PEF, was statistically significant (p\<0.05), then the key secondary variable, FEV1, was tested at the 0.05 level of significance.|ANCOVA|||Change from baseline to treatment period average was analyzed using an analysis of covariance (ANCOVA) model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||0.11|0.02|0.0047
92283633|NCT01136382|184470977|SUPERIORITY_OR_OTHER||LS mean difference|10.8|STANDARD_ERROR_OF_MEAN|3.0||0.0004|TWO_SIDED|95.0|4.9|16.7|||ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||16.7|4.9|0.0004
92254204|NCT02910089|184410432|SUPERIORITY|As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.2|0.32||As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|GEE|Generalized Estimating Equations with an identity link function (as a continuous variable) and normally distributed errors|Model-based Mean Differences are reported that have been adjusted for imbalanced baseline characteristics|||0.32|-0.2|
92254205|NCT02910089|184410433|OTHER||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.42|4.4||As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|GEE|Generalized Estimating Equations with an identity link function and normally distributed errors|Model-based Mean Differences are reported that have been adjusted for imbalanced baseline characteristics|Average of the percentage (proportion x 100) of days covered across all subjects.||4.40|-2.42|
92254206|NCT02910089|184410434|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.83|1.28||As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|GEE|Generalized Estimating Equations with a logit link and binary distributed errors||||1.28|0.83|
92254207|NCT02910089|184410435|OTHER|As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.71|1.17||As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|See comments|Generalized Estimating Equations with a logit link and binary distributed errors||||1.17|0.71|
92254208|NCT03434041|184410439|SUPERIORITY||Difference of Least Square (LS) Means|-2.0||||0.123|TWO_SIDED|95.0|-4.64|0.55||2-sided|Mixed-effects Model for Repeated Measure|||||0.55|-4.64|0.123
92254209|NCT03434041|184410440|SUPERIORITY||Difference of LS Means|-3.3|||||TWO_SIDED|95.0|-5.33|-1.33||||||||-1.33|-5.33|
92254210|NCT03434041|184410441|SUPERIORITY||Difference of LS Means|-1.0|||||TWO_SIDED|95.0|-2.96|0.97||||||||0.97|-2.96|
92283634|NCT01136382|184470978|SUPERIORITY_OR_OTHER||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.0673|TWO_SIDED|95.0|0.0|0.08|||ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||0.08|0.00|0.0673
92177232|NCT04909801|184248483|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.4||||0.3348|TWO_SIDED|95.0|0.7|2.6|||Regression, Logistic|||Day 85||2.6|0.7|0.3348
92254211|NCT02977507|184410457|OTHER|||||||0.041|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.041
92254212|NCT02977507|184410457|OTHER|||||||0.0005|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.0005
92254213|NCT02977507|184410458|OTHER|||||||0.002|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.002
92254214|NCT02977507|184410458|OTHER|||||||0.0001|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.0001
92254215|NCT02977507|184410459|OTHER|||||||0.004|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.004
92254216|NCT02977507|184410459|OTHER|||||||0.001|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.001
92254217|NCT02977507|184410463|OTHER|||||||0.003|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.003
92283635|NCT01136382|184470979|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.044||0.0216|TWO_SIDED|95.0|0.01|0.19|||ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||0.19|0.01|0.0216
92177233|NCT04909801|184248483|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.3959|TWO_SIDED|95.0|0.4|1.4|||Regression, Logistic|||Day 113||1.4|0.4|0.3959
92177234|NCT04909801|184248483|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.6225|TWO_SIDED|95.0|0.7|2.0|||Regression, Logistic|||Day 141||2.0|0.7|0.6225
92254218|NCT02977507|184410463|OTHER|||||||0.0007|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.0007
92254219|NCT02977507|184410465|OTHER|||||||0.569|||||||Paired t-test|||Melanin index: Testing hypothesis is that the mean change from baseline is zero.||||0.569
92254220|NCT02977507|184410465|OTHER|||||||9e-05|||||||Paired t-test|||Melanin index: Testing hypothesis is that the mean change from baseline is zero.||||0.00009
92254221|NCT02977507|184410465|OTHER|||||||0.821|||||||Paired t-test|||Erythema: Testing hypothesis is that the mean change from baseline is zero.||||0.821
92254222|NCT02977507|184410465|OTHER|||||||0.502|||||||Paired t-test|||Erythema: Testing hypothesis is that the mean change from baseline is zero.||||0.502
92254223|NCT02977507|184410465|OTHER|||||||0.81|||||||Paired t-test|||Melanin index: Testing hypothesis is that the mean change from baseline is zero.||||0.810
92254224|NCT02977507|184410465|OTHER|||||||0.435|||||||Paired t-test|||Erythema: Testing hypothesis is that the mean change from baseline is zero.||||0.435
92254225|NCT03236506|184410479|NON_INFERIORITY|Assuming a 95% SVR rate (based on published studies) in the DOT arm of the trial in this population and a non-inferiority limit of 14% (which would be likely to maintain cost-effectiveness) then at a 5% significance level and 90% power we would need a sample size of 42 in each group 126 in total. To allow for drop-outs we will aim to recruit 135 individuals, 45 per group.|Odds Ratio (OR)|0.64||||0.67|TWO_SIDED|95.0|0.14|3.0|||Logistic|||||3.00|0.14|0.67
92254226|NCT03236506|184410479|NON_INFERIORITY|Described in Statistical Analysis 1.|Odds Ratio (OR)|0.53||||0.41|TWO_SIDED|95.0|0.11|2.45|||logistic|||||2.45|0.11|0.41
92254227|NCT03236506|184410479|NON_INFERIORITY|Described in Statistical Analysis 1.|Odds Ratio (OR)|1.22||||0.82|TWO_SIDED|95.0|0.23|6.61|||logistic|||||6.61|0.23|0.82
92254228|NCT00638274|184410484|OTHER||||||>|0.05|||||||Chi-squared|||||||>.05
92254229|NCT00638274|184410484|OTHER||||||>|0.05|||||||Chi-squared|||||||>.05
92254230|NCT00838383|184410496|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-70.0||||0.5307|TWO_SIDED|95.0|-291.3|151.4|||ANCOVA|||||151.4|-291.3|0.5307
92254231|NCT00838383|184410496|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-73.2||||0.5121|TWO_SIDED|95.0|-294.5|148.2|||ANCOVA|||||148.2|-294.5|0.5121
92254232|NCT00838383|184410497|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-123.1||||0.2735|TWO_SIDED|95.0|-345.5|99.3|||ANCOVA|||||99.3|-345.5|0.2735
92254233|NCT00838383|184410497|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-174.5||||0.1223|TWO_SIDED|95.0|-396.8|47.9|||ANCOVA|||||47.9|-396.8|0.1223
92254234|NCT00838383|184410498|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-66.6||||0.5505|TWO_SIDED|95.0|-288.0|154.8|||ANCOVA|||||154.8|-288.0|0.5505
92254235|NCT00838383|184410498|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-110.3||||0.3237|TWO_SIDED|95.0|-331.7|111.0|||ANCOVA|||||111.0|-331.7|0.3237
92254236|NCT00838383|184410499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-166.5||||0.1412|TWO_SIDED|95.0|-389.6|56.6|||ANCOVA|||||56.6|-389.6|0.1412
92254237|NCT00838383|184410499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-199.8||||0.0813|TWO_SIDED|95.0|-425.0|25.5|||ANCOVA|||||25.5|-425.0|0.0813
92254238|NCT03920865|184410524|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.802|||||TWO_SIDED|90.0|0.627|1.03||||||||1.03|0.627|
92254239|NCT03920865|184410524|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.842|||||TWO_SIDED|90.0|0.588|1.21||||||||1.21|0.588|
92254240|NCT03920865|184410526|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.95|||||TWO_SIDED|90.0|0.695|1.3||||||||1.30|0.695|
92254241|NCT03920865|184410526|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.953|||||TWO_SIDED|90.0|0.715|1.27||||||||1.27|0.715|
92254242|NCT03920865|184410527|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|1.08|||||TWO_SIDED|90.0|0.83|1.39||||||||1.39|0.830|
92254243|NCT03920865|184410527|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.947|||||TWO_SIDED|90.0|0.74|1.21||||||||1.21|0.740|
92254244|NCT03920865|184410529|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|1.2|||||TWO_SIDED|90.0|0.962|1.49||||||||1.49|0.962|
92254245|NCT03920865|184410529|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.991|||||TWO_SIDED|90.0|0.81|1.21||||||||1.21|0.810|
92254246|NCT04010370|184410548|SUPERIORITY||||||<|0.001|||||||Spearman correlation|||Correlation of McAuley index with PREDIM index at baseline.||||<0.001
92254247|NCT04010370|184410549|SUPERIORITY|||||||0.319|||||||Spearman correlation|||Correlation of Belfiore index with PREDIM index at baseline.||||0.319
92254248|NCT04010370|184410550|SUPERIORITY|||||||0.27|||||||Spearman correlation|||Correlation of Cederholm index with PREDIM index at baseline.||||0.27
92254249|NCT04010370|184410551|SUPERIORITY|||||||0.246|||||||Spearman correlation|||Correlation of Avignon index with PREDIM index at baseline.||||0.246
92177235|NCT04909801|184248483|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.614|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||Day 169||1.5|0.5|0.6140
92177236|NCT04909801|184248484|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.8084|TWO_SIDED|95.0|0.4|2.9|||Regression, Logistic|||Day 29||2.9|0.4|0.8084
92177237|NCT04909801|184248484|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.747|TWO_SIDED|95.0|0.5|2.3|||Regression, Logistic|||Day 57||2.3|0.5|0.7470
92254250|NCT04010370|184410552|SUPERIORITY|||||||0.259|||||||Spearman correlation|||Correlation of Matsuda index with PREDIM index at baseline.||||0.259
92254251|NCT04010370|184410553|SUPERIORITY|||||||0.69|||||||Spearman correlation|||Correlation of Gutt index with PREDIM index at baseline.||||0.69
92254252|NCT04010370|184410554|SUPERIORITY|||||||0.022|||||||Spearman correlation|||Correlation of Stumvoll index with PREDIM index at baseline.||||0.022
92254253|NCT04010370|184410555|SUPERIORITY|||||||0.69|||||||Spearman correlation|||Correlation of HOMA-IR index with PREDIM index at baseline.||||0.69
92254254|NCT04010370|184410556|SUPERIORITY|||||||0.69|||||||Spearman correlation|||Correlation of ISI index with PREDIM index at baseline.||||0.69
92254255|NCT04010370|184410557|SUPERIORITY|||||||0.541|||||||Spearman correlation|||Correlation of Raynaud index with PREDIM index at baseline.||||0.541
92254256|NCT04010370|184410558|SUPERIORITY|||||||0.69|||||||Spearman correlation|||Correlation of QUICKI index with PREDIM index at baseline.||||0.69
92254257|NCT04010370|184410559|SUPERIORITY|||||||0.531|||||||Spearman correlation|||Correlation of FIRI index with PREDIM index at baseline.||||0.531
92177238|NCT04909801|184248484|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.5233|TWO_SIDED|95.0|0.7|2.3|||Regression, Logistic|||Day 85||2.3|0.7|0.5233
92177239|NCT04909801|184248484|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.7295|TWO_SIDED|95.0|0.5|1.6|||Regression, Logistic|||Day 113||1.6|0.5|0.7295
92177240|NCT04909801|184248484|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.7621|TWO_SIDED|95.0|0.6|1.9|||Regression, Logistic|||Day 141||1.9|0.6|0.7621
92177241|NCT04909801|184248484|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.6861|TWO_SIDED|95.0|0.5|1.6|||Regression, Logistic|||Day 169||1.6|0.5|0.6861
92177242|NCT04909801|184248485|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.3117|TWO_SIDED|95.0|0.5|1.2|||Regression, Logistic|||Day 29||1.2|0.5|0.3117
92177243|NCT04909801|184248485|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.612|TWO_SIDED|95.0|0.6|1.4|||Regression, Logistic|||Day 57||1.4|0.6|0.6120
92177244|NCT04909801|184248485|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4339|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|||Day 85||1.3|0.5|0.4339
92177245|NCT04909801|184248485|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.5||||0.1963|TWO_SIDED|95.0|0.8|2.6|||Regression, Logistic|||Day 113||2.6|0.8|0.1963
92254258|NCT04010370|184410560|SUPERIORITY|||||||0.726|||||||Spearman correlation|||Correlation of Bennett index with PREDIM index at baseline.||||0.726
92254259|NCT04010370|184410561|SUPERIORITY|||||||0.787|||||||Spearman correlation|||Correlation of TyG index with PREDIM index at baseline.||||0.787
92254260|NCT02566109|184410611|OTHER|Estimation of Pearson correlation|Pearson Correlation Coefficient|-0.57472||||0.6102|TWO_SIDED||||||Pearson Correlation Coefficient|||Correlation between baseline and 2 months.||||0.6102
92254261|NCT02566109|184410611|OTHER|Correlation|Pearson Correlation Coefficient|0.25733||||0.8343|TWO_SIDED||||||Peason Correlation Coefficient|||Correlation between baseline and 6 months.||||0.8343
92254262|NCT02566109|184410612|OTHER|Pearson Correlation Coefficient|Pearson Correlation Coefficient|-0.09487||||0.9395|TWO_SIDED||||||Pearson Correlation Coefficient|||Correlation between baseline and 2 months.||||0.9395
92254263|NCT02566109|184410612|OTHER|Pearson Correlation Coefficient|Pearson Correlation Coefficient|0.97287||||0.1486|TWO_SIDED||||||Pearson Correlation Coefficient|||Correlation between baseline and 6 months.||||0.1486
92177246|NCT04909801|184248485|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.3||||0.3275|TWO_SIDED|95.0|0.8|2.3|||Regression, Logistic|||Day 141||2.3|0.8|0.3275
92177247|NCT04909801|184248485|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9113|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Day 169||1.7|0.6|0.9113
92177248|NCT04909801|184248486|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.1247|TWO_SIDED|95.0|0.4|1.1|||Regression, Logistic|||Day 29||1.1|0.4|0.1247
92177249|NCT04909801|184248486|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.5656|TWO_SIDED|95.0|0.6|1.4|||Regression, Logistic|||Day 57||1.4|0.6|0.5656
92177250|NCT04909801|184248486|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.897|TWO_SIDED|95.0|0.6|1.5|||Regression, Logistic|||Day 85||1.5|0.6|0.8970
92177251|NCT04909801|184248486|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9175|TWO_SIDED|95.0|0.7|1.6|||Regression, Logistic|||Day 113||1.6|0.7|0.9175
92177252|NCT04909801|184248486|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.5996|TWO_SIDED|95.0|0.7|1.7|||Regression, Logistic|||Day 141||1.7|0.7|0.5996
92177253|NCT04909801|184248486|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.3534|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|||Day 169||1.3|0.5|0.3534
92177254|NCT04909801|184248487|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.6||||0.1641|TWO_SIDED|95.0|0.2|1.3|||Regression, Logistic|||Day 29||1.3|0.2|0.1641
92177255|NCT04909801|184248487|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.5905|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||Day 57||1.5|0.5|0.5905
92177256|NCT04909801|184248487|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.7146|TWO_SIDED|95.0|0.6|1.5|||Regression, Logistic|||Day 85||1.5|0.6|0.7146
92177257|NCT04909801|184248487|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.7416|TWO_SIDED|95.0|0.7|1.7|||Regression, Logistic|||Day 113||1.7|0.7|0.7416
92177258|NCT04909801|184248487|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9026|TWO_SIDED|95.0|0.6|1.5|||Regression, Logistic|||Day 141||1.5|0.6|0.9026
92177259|NCT04909801|184248487|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.2605|TWO_SIDED|95.0|0.5|1.2|||Regression, Logistic|||Day 169||1.2|0.5|0.2605
92177260|NCT04909801|184248488|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.6||||0.1078|TWO_SIDED|95.0|0.3|1.1|||Regression, Logistic|||Day 29||1.1|0.3|0.1078
92177261|NCT04909801|184248488|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.1855|TWO_SIDED|95.0|0.4|1.2|||Regression, Logistic|||Day 57||1.2|0.4|0.1855
92177262|NCT04909801|184248488|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.5223|TWO_SIDED|95.0|0.6|1.4|||Regression, Logistic|||Day 85||1.4|0.6|0.5223
92177263|NCT04909801|184248488|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4078|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|||Day 113||1.3|0.5|0.4078
92177264|NCT04909801|184248488|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.5238|TWO_SIDED|95.0|0.7|1.8|||Regression, Logistic|||Day 141||1.8|0.7|0.5238
92177265|NCT04909801|184248488|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.474|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|||Day 169||1.3|0.5|0.4740
92177266|NCT04909801|184248489|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.6565|TWO_SIDED|95.0|0.5|2.9|||Regression, Logistic|||Day 29||2.9|0.5|0.6565
92254264|NCT02566109|184410613|OTHER|Pearson Correlation Coefficient|Pearson Correlation Coefficient|0.10327||||0.9341|TWO_SIDED||||||Pearson Correlation Coefficient|||Correlation between baseline and 2 months.||||0.9341
92254265|NCT02566109|184410613|OTHER|Pearson Correlation Coefficient|Pearson Correlation Coefficient|0.99696||||0.0497|TWO_SIDED||||||Pearson Correlation Coefficient|||Correlation between baseline and 6 months.||||0.0497
92254266|NCT02566109|184410614|OTHER|Pearson Correlation Coefficient|Pearson Correlation Coefficient|0.98432||||0.1129|TWO_SIDED||||||Pearson Correlation Coefficient|||||||0.1129
92177267|NCT04909801|184248489|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.701|TWO_SIDED|95.0|0.6|2.1|||Regression, Logistic|||Day 57||2.1|0.6|0.7010
92254267|NCT01906476|184410619|NON_INFERIORITY|Non-inferiority trials of pharmaceuticals have used 30% to 50% of the difference between treatment and control conditions to define non-inferiority margins. (Jones, Jarvis, Lewis, \& Ebbutt, 1996; Nutt et al., 2008). A meta-analysis of CBT found an overall effect size of d=0.82.(Cuijpers, Smit, Bohlmeijer, Hollon, \& Andersson, 2010). Using the midpoint of 40% for the acceptable criterion, we set d=0.33 as the non-inferiority criterion.|||||||||||||||||"Cohen's d and upper limits of one-sided 95% Confidence intervals for each time are as follows:~Mid-treatment -0.19 (95% upper limit= 0.06) End of treatment 0.03 (0.24) 3 months post treatment -0.02 (0.19) 6 months post treatment -0.07 (0.14)"|||
92254268|NCT01906476|184410620|SUPERIORITY||ICER estimate|-152.55|||||TWO_SIDED|95.0|-1143.09|1094.72||||||We calculated the ICER (Incremental cost-effectiveness ratio) estimate, computed using the difference in average cost between the two arms, divided by the difference in average Depression Free Days (DFD) as defined using QIDS (Quick Inventory of Depressive Symptomatology), between the two arms, Stepped Care minus Telephone Cognitive Behavior Therapy. The confidence interval was created using bootstrapping.||1094.72|-1143.09|
92254269|NCT01248585|184410621|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.053||0.05|TWO_SIDED|90.0|0.0|0.177||1-sided p-value.|Cochran-Mantel-Haenszel|||One-sided 0.05 level test with 90% power, 298 participants required.||0.177|0|0.05
92254270|NCT01248585|184410622|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.009||||0.432|TWO_SIDED|95.0|-0.08|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.08|0.432
92254271|NCT01248585|184410624|SUPERIORITY||Risk Difference (RD)|0.09||||0.15|TWO_SIDED|90.0|0.01|0.18||Fisher exact test.|Fisher Exact|||||0.18|0.01|0.15
92254272|NCT01248585|184410625|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.55||||0.07|TWO_SIDED|90.0|-5.06|3.97|||Wilcoxon (Mann-Whitney)|||||3.97|-5.06|0.07
92254273|NCT01576406|184410634|SUPERIORITY||Geometric mean ratio|91.2|||||TWO_SIDED|90.0|57.47|144.72||||||Confidence interval (CI): Geometric mean ratio and 90 percent (%) CI were derived from analysis of variance (ANOVA) model.||144.72|57.47|
92254274|NCT01576406|184410634|SUPERIORITY||Geometric mean ratio|143.82|||||TWO_SIDED|90.0|89.11|232.12||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||232.12|89.11|
92254275|NCT01576406|184410634|SUPERIORITY||Geometric mean ratio|108.87|||||TWO_SIDED|90.0|70.13|168.99||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||168.99|70.13|
92254276|NCT01576406|184410634|SUPERIORITY||Geometric mean ratio|72.63|||||TWO_SIDED|90.0|49.07|107.5||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||107.50|49.07|
92254277|NCT01576406|184410660|SUPERIORITY||Percentage of ratio of geometric mean|91.12|||||TWO_SIDED|90.0|56.56|146.79||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||146.79|56.56|
92283636|NCT01136382|184470980|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06||0.0004|TWO_SIDED|95.0|-0.31|-0.09||Analysis for change in daytime asthma symptom score from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.09|-0.31|0.0004
92254278|NCT01576406|184410660|SUPERIORITY||Percentage of ratio of geometric mean|149.54|||||TWO_SIDED|90.0|91.85|243.46||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||243.46|91.85|
92254279|NCT01576406|184410660|SUPERIORITY||Percentage of ratio of geometric mean|114.08|||||TWO_SIDED|90.0|73.57|176.89||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||176.89|73.57|
92254280|NCT01576406|184410660|SUPERIORITY||Percentage of ratio of geometric mean|64.67|||||TWO_SIDED|90.0|39.5|105.89||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||105.89|39.50|
92283637|NCT01136382|184470980|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.11||0.0015|TWO_SIDED|95.0|-0.55|-0.13||Analysis for change in total asthma symptom score from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.13|-0.55|0.0015
92254281|NCT01576406|184410661|SUPERIORITY||Percentage of ratio of geometric mean|108.43|||||TWO_SIDED|90.0|63.47|185.26||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||185.26|63.47|
92254282|NCT01576406|184410661|SUPERIORITY||Percentage of ratio of geometric mean|202.89|||||TWO_SIDED|90.0|120.96|340.3||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||340.30|120.96|
92254283|NCT01576406|184410661|SUPERIORITY||Percentage of ratio of geometric mean|130.78|||||TWO_SIDED|90.0|86.61|197.47||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||197.47|86.61|
92254284|NCT01576406|184410661|SUPERIORITY||Percentage of ratio of geometric mean|62.82|||||TWO_SIDED|90.0|42.54|92.78||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||92.78|42.54|
92254285|NCT01627782|184410673|SUPERIORITY_OR_OTHER_LEGACY||Difference of Least Square Means|-16.0|||<|0.001|TWO_SIDED|70.0|-20.0|-12.01|||Mixed Effect Model Repeated Measure|||||-12.01|-20.00|< 0.001
92254286|NCT01627782|184410673|SUPERIORITY_OR_OTHER_LEGACY||Difference of Least Square Means|-16.4|||<|0.001|TWO_SIDED|70.0|-18.96|-13.84|||Mixed Effect Model Repeated Measure|||||-13.84|-18.96|< 0.001
92254287|NCT00142818|184410702|SUPERIORITY|||||||0.4|||||||ANOVA|||||||0.4
92254288|NCT04315298|184410722|SUPERIORITY||LS Mean (log scale)|-1.25|STANDARD_ERROR_OF_MEAN|0.107|<|0.0001|TWO_SIDED|95.0|-1.456|-1.035||P-value is based on the ANCOVA model for differences between treatment groups in terms of \[ln(CRP at day 4 ) - ln(baseline CRP)\].|ANCOVA|||||-1.035|-1.456|<0.0001
92254289|NCT04315298|184410722|SUPERIORITY||LS Mean (log scale)|-1.3|STANDARD_ERROR_OF_MEAN|0.107|<|0.0001|TWO_SIDED|95.0|-1.511|-1.09||p-value is based on the ANCOVA model for differences between treatment groups in terms of \[ln(CRP at day 4 ) - ln(baseline CRP)\].|ANCOVA|||||-1.090|-1.511|<0.0001
92254290|NCT04315298|184410723|SUPERIORITY||Risk Difference (RD)|7.1||||0.3707|TWO_SIDED|95.0|-8.4|21.7||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||21.7|-8.4|0.3707
92177268|NCT04909801|184248489|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.3||||0.3683|TWO_SIDED|95.0|0.8|2.1|||Regression, Logistic|||Day 85||2.1|0.8|0.3683
92254291|NCT04315298|184410723|SUPERIORITY||Risk Difference (RD)|7.5||||0.3261|TWO_SIDED|95.0|-7.4|21.3||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||21.3|-7.4|0.3261
92254292|NCT04315298|184410724|SUPERIORITY||Risk Difference (RD)|6.2||||0.7328|TWO_SIDED|95.0|-26.2|36.8|||Cochran-Mantel-Haenszel|P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline||||36.8|-26.2|0.7328
92254293|NCT04315298|184410725|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.5687|TWO_SIDED|95.0|0.76|1.66||P-value based on log-rank test stratified by disease severity (severe, critical) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.66|0.76|0.5687
92254294|NCT04315298|184410725|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7014|TWO_SIDED|95.0|0.74|1.62||P-value based on log-rank test stratified by disease severity (severe, critical) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.62|0.74|0.7014
92254295|NCT04315298|184410726|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.3622|TWO_SIDED|95.0|0.83|1.7||P-value based on log-rank test stratified by disease severity (severe, critical) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.70|0.83|0.3622
92254296|NCT04315298|184410726|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.5802|TWO_SIDED|95.0|0.79|1.63||P-value based on log-rank test stratified by disease severity (severe, critical) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.63|0.79|0.5802
92254297|NCT04315298|184410727|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.234|TWO_SIDED|95.0|0.83|2.02||P-value based on log-rank test stratified by disease severity (severe, critical and MSOD) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.02|0.83|0.2340
92283638|NCT01136382|184470981|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.0079|TWO_SIDED|95.0|-0.26|-0.04|||ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.04|-0.26|0.0079
92283639|NCT01136382|184470982|SUPERIORITY_OR_OTHER||LS mean difference|-4.7|STANDARD_ERROR_OF_MEAN|1.78||0.0095|TWO_SIDED|95.0|-8.2|-1.1||Analysis for change in nighttime awakenings from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-1.1|-8.2|0.0095
92254298|NCT04315298|184410727|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.6949|TWO_SIDED|95.0|0.74|1.79||P-value based on log-rank test stratified by disease severity (severe, critical and MSOD) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.79|0.74|0.6949
92254299|NCT04315298|184410728|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.3151|TWO_SIDED|95.0|0.66|2.43||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||2.43|0.66|0.3151
92254300|NCT04315298|184410728|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.1884|TWO_SIDED|95.0|0.39|1.41||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.41|0.39|0.1884
92254301|NCT04315298|184410728|SUPERIORITY||Hazard Ratio (HR)|1.61||||0.4356|TWO_SIDED|95.0|0.76|3.4||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||3.40|0.76|0.4356
92254302|NCT04315298|184410728|SUPERIORITY||Hazard Ratio (HR)|2.1||||0.0371|TWO_SIDED|95.0|1.01|4.4||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||4.40|1.01|0.0371
92254303|NCT04315298|184410728|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.8923|TWO_SIDED|95.0|0.32|3.05||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||3.05|0.32|0.8923
92254304|NCT04315298|184410728|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.694|TWO_SIDED|95.0|0.25|2.71||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||2.71|0.25|0.6940
92254305|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|2.14||||0.0832|TWO_SIDED|95.0|0.81|5.65||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \< 87.04 pg/mL (median)||5.65|0.81|0.0832
92254306|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|1.93||||0.1369|TWO_SIDED|95.0|0.77|4.8||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \< 87.04 pg/mL (median)||4.80|0.77|0.1369
92254307|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.9636|TWO_SIDED|95.0|0.28|1.95||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \>= 87.04 pg/mL (median)||1.95|0.28|0.9636
92177269|NCT04909801|184248489|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.6372|TWO_SIDED|95.0|0.7|1.8|||Regression, Logistic|||Day 113||1.8|0.7|0.6372
92177270|NCT04909801|184248489|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.3||||0.2922|TWO_SIDED|95.0|0.8|2.0|||Regression, Logistic|||Day 141||2.0|0.8|0.2922
92254308|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|0.24||||0.0038|TWO_SIDED|95.0|0.08|0.74||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \>= 87.04 pg/mL (median)||0.74|0.08|0.0038
92254309|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.738|TWO_SIDED|95.0|0.47|3.13||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \< 166.68pg/mL (Median)||3.13|0.47|0.7380
92254310|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.7342|TWO_SIDED|95.0|0.48|3.05||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \<166.68pg/mL (Median)||3.05|0.48|0.7342
92254311|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|3.58||||0.1934|TWO_SIDED|95.0|0.79|16.17||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \>= 166.68pg/mL (Median)||16.17|0.79|0.1934
92254312|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|5.33||||0.0159|TWO_SIDED|95.0|1.19|23.94||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \>= 166.68pg/mL (Median)||23.94|1.19|0.0159
92254313|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.6281|TWO_SIDED|95.0|0.13|8.75||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \<254.95 pg/mL (Median)||8.75|0.13|0.6281
92254314|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.4971|TWO_SIDED|95.0|0.06|6.13||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \<254.95 pg/mL (Median)||6.13|0.06|0.4971
92254315|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|0.3||||0.299|TWO_SIDED|95.0|0.03|2.86||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \>= 254.95 pg/mL (Median)||2.86|0.03|0.2990
92254316|NCT04315298|184410729|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.936|TWO_SIDED|95.0|0.22|4.41||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \>= 254.95 pg/mL (Median)||4.41|0.22|0.9360
92254317|NCT04315298|184410730|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.9032|TWO_SIDED|95.0|0.52|1.47||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.47|0.52|0.9032
92254318|NCT04315298|184410730|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.0052|TWO_SIDED|95.0|0.29|0.88||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||0.88|0.29|0.0052
92254319|NCT04315298|184410730|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.1168|TWO_SIDED|95.0|0.48|1.21||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||1.21|0.48|0.1168
92254320|NCT04315298|184410730|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.3753|TWO_SIDED|95.0|0.69|1.72||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||1.72|0.69|0.3753
92254321|NCT04315298|184410730|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.4956|TWO_SIDED|95.0|0.4|1.66||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||1.66|0.40|0.4956
92254322|NCT04315298|184410730|SUPERIORITY||Cox Proportional Hazard|1.01||||0.8439|TWO_SIDED|95.0|0.5|2.02||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||2.02|0.50|0.8439
92254323|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.389|TWO_SIDED|95.0|0.52|2.79||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \< 67.11 pg/mL (median)||2.79|0.52|0.3890
92254324|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.7838||95.0|0.3|1.41||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \>= 67.11pg/mL (median)||1.41|0.30|0.7838
92254325|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.237|TWO_SIDED|95.0|0.28|1.65||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \< 67.11 pg/mL (median)||1.65|0.28|0.2370
92254326|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|0.25||||0.0004||95.0|0.1|0.59||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \>= 67.11pg/mL (median)||0.59|0.10|0.0004
92254327|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.174|TWO_SIDED|95.0|0.37|1.32||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \< 131.90 pg/mL (median)||1.32|0.37|0.1740
92254328|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.3664|TWO_SIDED|95.0|0.38|1.66||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \>= 131.90 pg/mL (median)||1.66|0.38|0.3664
92254329|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.7318|TWO_SIDED|95.0|0.53|1.87||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \< 131.90 pg/mL (median)||1.87|0.53|0.7318
92254330|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.4155|TWO_SIDED|95.0|0.59|2.37||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \>= 131.90 pg/mL (median)||2.37|0.59|0.4155
92254331|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.6262|TWO_SIDED|95.0|0.23|2.45||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \< 254.95 pg/mL (median)||2.45|0.23|0.6262
92254332|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.553||95.0|0.21|2.3||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \>= 254.95 pg/mL (median)||2.30|0.21|0.5530
92254333|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.8775|TWO_SIDED|95.0|0.25|2.85||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \< 254.95 pg/mL (median)||2.85|0.25|0.8775
92177271|NCT04909801|184248489|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.8178|TWO_SIDED|95.0|0.7|1.7|||Regression, Logistic|||Day 169||1.7|0.7|0.8178
92177272|NCT04909801|184248490|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9599|TWO_SIDED|95.0|0.4|2.2|||Regression, Logistic|||Day 29||2.2|0.4|0.9599
92177273|NCT04909801|184248490|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.7899|TWO_SIDED|95.0|0.5|1.7|||Regression, Logistic|||Day 57||1.7|0.5|0.7899
92177274|NCT04909801|184248490|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.6305|TWO_SIDED|95.0|0.7|1.9|||Regression, Logistic|||Day 85||1.9|0.7|0.6305
92177275|NCT04909801|184248490|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.3||||0.3491|TWO_SIDED|95.0|0.8|2.0|||Regression, Logistic|||Day 113||2.0|0.8|0.3491
92177276|NCT04909801|184248490|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.4916|TWO_SIDED|95.0|0.7|1.9|||Regression, Logistic|||Day 141||1.9|0.7|0.4916
92177277|NCT04909801|184248490|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.5697|TWO_SIDED|95.0|0.7|1.8|||Regression, Logistic|||Day 169||1.8|0.7|0.5697
92177278|NCT04909801|184248491|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.2||||0.0977|TWO_SIDED|95.0|0.0|0.5|||longitudinal|||Day 29||0.5|-0.0|0.0977
92177279|NCT04909801|184248491|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.2||||0.2889|TWO_SIDED|95.0|-0.1|0.5|||longitudinal|||Day 57||0.5|-0.1|0.2889
92254334|NCT04315298|184410731|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.7485|TWO_SIDED|95.0|0.41|2.99||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \>= 254.95 pg/mL (median)||2.99|0.41|0.7485
92254335|NCT04315298|184410732|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.4556|TWO_SIDED|95.0|0.63|1.79||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.79|0.63|0.4556
92254336|NCT04315298|184410732|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0248|TWO_SIDED|95.0|0.35|1.04||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.04|0.35|0.0248
92254337|NCT04315298|184410732|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.6842|TWO_SIDED|95.0|0.62|1.67||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||1.67|0.62|0.6842
92177280|NCT04909801|184248491|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.0||||0.7676|TWO_SIDED|95.0|-0.3|0.4|||longitudinal|||Day 85||0.4|-0.3|0.7676
92177281|NCT04909801|184248491|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-0.1||||0.6157|TWO_SIDED|95.0|-0.3|0.2|||longitudinal|||Day 113||0.2|-0.3|0.6157
92177282|NCT04909801|184248491|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-0.1||||0.3904|TWO_SIDED|95.0|-0.4|0.2|||longitudinal|||Day 141||0.2|-0.4|0.3904
92177283|NCT04909801|184248491|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.0||||0.8359|TWO_SIDED|95.0|-0.4|0.3|||longitudinal|||Day 169||0.3|-0.4|0.8359
92177284|NCT04909801|184248492|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.4||||0.7852|TWO_SIDED|95.0|-2.3|3.1|||longitudinal|||Day 29||3.1|-2.3|0.7852
92177285|NCT04909801|184248492|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.6||||0.6336|TWO_SIDED|95.0|-2.0|3.3|||longitudinal|||Day 57||3.3|-2.0|0.6336
92177286|NCT04909801|184248492|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-0.9||||0.4879|TWO_SIDED|95.0|-3.5|1.7|||longitudinal|||Day 85||1.7|-3.5|0.4879
92177287|NCT04909801|184248492|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.2||||0.2812|TWO_SIDED|95.0|-3.5|1.0|||longitudinal|||Day 113||1.0|-3.5|0.2812
92254338|NCT04315298|184410732|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.0671|TWO_SIDED|95.0|0.89|2.32||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||2.32|0.89|0.0671
92254339|NCT04315298|184410732|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.6146|TWO_SIDED|95.0|0.41|1.74||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||1.74|0.41|0.6146
92177288|NCT04909801|184248492|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.7||||0.1205|TWO_SIDED|95.0|-3.9|0.5|||longitudinal|||Day 141||0.5|-3.9|0.1205
92177289|NCT04909801|184248492|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.4||||0.3001|TWO_SIDED|95.0|-4.1|1.3|||longitudinal|||Day 169||1.3|-4.1|0.3001
92177290|NCT04909801|184248493|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|1.2||||0.4107|TWO_SIDED|95.0|-1.6|4.0|||longitudinal|||Day 29||4.0|-1.6|0.4107
92177291|NCT04909801|184248493|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.5||||0.6824|TWO_SIDED|95.0|-2.1|3.2|||longitudinal|||Day 57||3.2|-2.1|0.6824
92177292|NCT04909801|184248493|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-0.7||||0.5793|TWO_SIDED|95.0|-3.4|1.9|||longitudinal|||Day 85||1.9|-3.4|0.5793
92177293|NCT04909801|184248493|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.5||||0.2883|TWO_SIDED|95.0|-4.2|1.2|||longitudinal|||Day 113||1.2|-4.2|0.2883
92177294|NCT04909801|184248493|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.7||||0.1285|TWO_SIDED|95.0|-3.9|0.5|||longitudinal|||Day 141||0.5|-3.9|0.1285
92177295|NCT04909801|184248493|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.5||||0.2815|TWO_SIDED|95.0|-4.2|1.2|||longitudinal|||Day 169||1.2|-4.2|0.2815
92177296|NCT04909801|184248498|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.3||||0.0099|TWO_SIDED|95.0|0.1|0.5|||longitudinal|||Day 29||0.5|0.1|0.0099
92177297|NCT04909801|184248498|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.2||||0.1519|TWO_SIDED|95.0|-0.1|0.4|||longitudinal|||Day 57||0.4|-0.1|0.1519
92177298|NCT04909801|184248498|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.1||||0.2505|TWO_SIDED|95.0|-0.1|0.4|||longitudinal|||Day 85||0.4|-0.1|0.2505
92177299|NCT04909801|184248498|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-0.1||||0.5248|TWO_SIDED|95.0|-0.3|0.2|||longitudinal|||Day 113||0.2|-0.3|0.5248
92177300|NCT04909801|184248498|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.0||||0.1778|TWO_SIDED|95.0|-0.3|0.2|||longitudinal|||Day 141||0.2|-0.3|0.1778
92177301|NCT04909801|184248498|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.0||||0.851|TWO_SIDED|95.0|-0.3|0.2|||longitudinal|||Day 169||0.2|-0.3|0.8510
92254340|NCT04315298|184410732|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.973|TWO_SIDED|95.0|0.48|1.99||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||1.99|0.48|0.9730
92254341|NCT04315298|184410734|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.6987|TWO_SIDED|95.0|0.59|1.59||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.59|0.59|0.6987
92254342|NCT04315298|184410734|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0453|TWO_SIDED|95.0|0.39|1.09||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.09|0.39|0.0453
92254343|NCT04315298|184410734|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.9734|TWO_SIDED|95.0|0.73|2.09||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||2.09|0.73|0.9734
92254344|NCT04315298|184410734|SUPERIORITY||Hazard Ratio (HR)|1.91||||0.004|TWO_SIDED|95.0|1.14|3.2||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No)|Log Rank|||Disease Severity: Critical||3.20|1.14|0.0040
92254345|NCT04315298|184410734|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.9551|TWO_SIDED|95.0|0.43|2.17||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||2.17|0.43|0.9551
92254346|NCT04315298|184410734|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.8722|TWO_SIDED|95.0|0.42|2.1||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||2.10|0.42|0.8722
92254347|NCT04315298|184410737|SUPERIORITY|||||||1|||||||Chi-squared|||Disease Severity: Severe||||1.0000
92254348|NCT04315298|184410737|SUPERIORITY|||||||0.0353|||||||Chi-squared|||Disease Severity: Severe||||0.0353
92254349|NCT04315298|184410737|SUPERIORITY|||||||0.3187|||||||Chi-squared|||Disease Severity: Critical||||0.3187
92254350|NCT04315298|184410737|SUPERIORITY|||||||0.0261|||||||Chi-squared|||Disease Severity: Critical||||0.0261
92254351|NCT04315298|184410737|SUPERIORITY|||||||0.9117|||||||Chi-squared|||Disease Severity: MSOD||||0.9117
92254352|NCT04315298|184410737|SUPERIORITY|||||||0.7584|||||||Chi-squared|||Disease Severity: MSOD||||0.7584
92254353|NCT04315298|184410741|SUPERIORITY||Hazard Ratio (HR)|0.32||||0.0385|TWO_SIDED|95.0|0.11|0.94||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||0.94|0.11|0.0385
92254354|NCT04315298|184410741|SUPERIORITY||Hazard Ratio (HR)|0.38||||0.0782|TWO_SIDED|95.0|0.14|1.05||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.05|0.14|0.0782
92254355|NCT04315298|184410741|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.2436|TWO_SIDED|95.0|0.7|2.14||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||2.14|0.70|0.2436
92254356|NCT04315298|184410741|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.3223|TWO_SIDED|95.0|0.46|1.51||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||1.51|0.46|0.3223
92254357|NCT04315298|184410741|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.467|TWO_SIDED|95.0|0.36|1.52||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||1.52|0.36|0.4670
92254358|NCT04315298|184410741|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.3728|TWO_SIDED|95.0|0.35|1.47||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||1.47|0.35|0.3728
92254359|NCT04315298|184410747|SUPERIORITY||Risk Difference (RD)|2.7||||0.5851|TWO_SIDED|95.0|-7.0|12.4||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||12.4|-7.0|0.5851
92254360|NCT04315298|184410747|SUPERIORITY||Risk Difference (RD)|-2.6||||0.5767|TWO_SIDED|95.0|-11.7|6.5||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||6.5|-11.7|0.5767
92254361|NCT04315298|184410748|SUPERIORITY||Risk Difference (RD)|5.2||||0.4777|TWO_SIDED|95.0|-9.4|18.6||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||18.6|-9.4|0.4777
92254362|NCT04315298|184410748|SUPERIORITY||Risk Difference (RD)|5.7||||0.4202|TWO_SIDED|95.0|-8.4|18.2||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||18.2|-8.4|0.4202
92254363|NCT04315298|184410749|SUPERIORITY||Risk Difference (RD)|0.2||||0.9696|TWO_SIDED|95.0|-9.5|9.9||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||9.9|-9.5|0.9696
92254364|NCT04315298|184410749|SUPERIORITY||Risk Difference (RD)|-4.7||||0.3152|TWO_SIDED|95.0|-13.8|4.4||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||4.4|-13.8|0.3152
92254365|NCT04315298|184410750|SUPERIORITY||Risk Difference (RD)|-7.7||||0.3217|TWO_SIDED|95.0|-22.8|7.2||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 29||7.2|-22.8|0.3217
92254366|NCT04315298|184410750|SUPERIORITY||Risk Difference (RD)|-5.5||||0.463|TWO_SIDED|95.0|-20.2|8.7||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 29||8.7|-20.2|0.4630
92254367|NCT04315298|184410750|SUPERIORITY||Risk Difference (RD)|-13.3||||0.0971|TWO_SIDED|95.0|-28.2|2.3||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 60||2.3|-28.2|0.0971
92254368|NCT04315298|184410750|SUPERIORITY||Risk Difference (RD)|-11.9||||0.1193|TWO_SIDED|95.0|-26.4|2.9||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 60||2.9|-26.4|0.1193
92254369|NCT04315298|184410751|SUPERIORITY||Risk Difference (RD)|-0.6||||0.8844|TWO_SIDED|95.0|-9.3|7.7||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 29||7.7|-9.3|0.8844
92254370|NCT04315298|184410751|SUPERIORITY||Risk Difference (RD)|5.2||||0.2247|TWO_SIDED|95.0|-3.3|13.0||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 29||13.0|-3.3|0.2247
92177302|NCT04909801|184248499|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|1.3||||0.2319|TWO_SIDED|95.0|-0.9|3.5|||longitudinal|||Day 29||3.5|-0.9|0.2319
92254371|NCT04315298|184410751|SUPERIORITY||Risk Difference (RD)|-13.3||||0.2102|TWO_SIDED|95.0|-28.2|2.3||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 60||2.3|-28.2|0.2102
92254372|NCT04315298|184410751|SUPERIORITY||Risk Difference (RD)|-11.9||||0.8292|TWO_SIDED|95.0|-26.4|2.9||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 60||2.9|-26.4|0.8292
92254373|NCT04315298|184410752|SUPERIORITY||Risk Difference (RD)|9.8||||0.2203|TWO_SIDED|95.0|-6.0|24.3||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||24.3|-6.0|0.2203
92254374|NCT04315298|184410752|SUPERIORITY||Risk Difference (RD)|8.8||||0.2483|TWO_SIDED|95.0|-6.1|22.6||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||22.6|-6.1|0.2483
92254375|NCT04315298|184410753|SUPERIORITY||Risk Difference (RD)|4.1||||0.602|TWO_SIDED|95.0|-11.2|18.5||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||18.5|-11.2|0.6020
92254376|NCT04315298|184410753|SUPERIORITY||Risk Difference (RD)|5.9||||0.4342|TWO_SIDED|95.0|-8.9|19.5||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||19.5|-8.9|0.4342
92254377|NCT04315298|184410754|SUPERIORITY||Risk Difference (RD)|5.2||||0.2896|TWO_SIDED|95.0|-4.3|14.7||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||14.7|-4.3|0.2896
92254378|NCT04315298|184410754|SUPERIORITY||Risk Difference (RD)|-2.9||||0.5355|TWO_SIDED|95.0|-11.8|6.2||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||6.2|-11.8|0.5355
92254379|NCT04315298|184410755|SUPERIORITY||Risk Difference (RD)|0.5||||0.921|TWO_SIDED|95.0|-9.2|10.2||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||10.2|-9.2|0.9210
92254380|NCT04315298|184410755|SUPERIORITY||Risk Difference (RD)|-4.7||||0.3174|TWO_SIDED|95.0|-13.8|4.5||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||4.5|-13.8|0.3174
92254381|NCT04315298|184410756|SUPERIORITY||Hazard Ratio (HR)|1.62||||0.0705|TWO_SIDED|95.0|0.98|2.66||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.66|0.98|0.0705
92254382|NCT04315298|184410756|SUPERIORITY||Hazard Ratio (HR)|1.5||||0.18|TWO_SIDED|95.0|0.92|2.43||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.43|0.92|0.1800
92283640|NCT01136382|184470982|SUPERIORITY_OR_OTHER||LS mean difference|-3.9|STANDARD_ERROR_OF_MEAN|1.15||0.0007|TWO_SIDED|95.0|-6.2|-1.7||Analysis for change in nighttime awakenings with reliever medication use from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-1.7|-6.2|0.0007
92283641|NCT01136382|184470983|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.07||0.0001|TWO_SIDED|95.0|-0.4|-0.1||Analysis for change in daytime reliever medication use from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.1|-0.4|0.0001
92283642|NCT01136382|184470983|SUPERIORITY_OR_OTHER||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.7|-0.2||Analysis for change in total reliever medication use from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.2|-0.7|<0.0001
92254383|NCT04315298|184410757|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.1831|TWO_SIDED|95.0|0.91|1.52||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.52|0.91|0.1831
92254384|NCT04315298|184410757|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.877|TWO_SIDED|95.0|0.82|1.34||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.34|0.82|0.8770
92283643|NCT01136382|184470984|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.3|-0.1|||ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.1|-0.3|<0.0001
92283644|NCT01136382|184470985|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Log Rank|||||||0.0004
92283645|NCT05628675|184471010|OTHER||Effect size (Hedge's g)|0.32|||||TWO_SIDED|95.0|-0.33|0.96||||||Effect size calculation from Time 1 to Time 2 on MAAS||0.96|-0.33|
92283646|NCT05628675|184471010|OTHER||Effect size (Hedge's g)|0.72|||||TWO_SIDED|95.0|0.02|1.42||||||Effect size calculation from Time 1 to Time 3 on MAAS||1.42|0.02|
92283647|NCT05628675|184471011|OTHER||Effect size (Hedge's g)|0.36|||||TWO_SIDED|95.0|-0.29|1.01||||||Effect size calculation from Time 1 to Time 2 on P-PRFQ||1.01|-0.29|
92254385|NCT04315298|184410758|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.7103|TWO_SIDED|95.0|0.35|2.06||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.06|0.35|0.7103
92254386|NCT04315298|184410759|SUPERIORITY||Hazard Ratio (HR)|1.47||||0.1512|TWO_SIDED|95.0|0.89|2.43||P-value from stratified log-rank test|Log Rank|||||2.43|0.89|0.1512
92283648|NCT05628675|184471011|OTHER||Effect size (Hedge's g)|0.49|||||TWO_SIDED|95.0|-0.2|1.17||||||Effect size calculation from Time 1 to Time 3 on P-PRFQ||1.17|-0.20|
92283649|NCT05628675|184471012|OTHER||Effect size (Hedge's g)|1.48|||||TWO_SIDED|95.0|0.75|2.21||||||Effect size calculation from Time 1 to Time 2 on EPDS||2.21|0.75|
92283650|NCT05628675|184471012|OTHER||Effect size (Hedge's g)|2.08|||||TWO_SIDED|95.0|1.28|2.88||||||Effect size calculation from Time 1 to Time 3 on EPDS||2.88|1.28|
92283651|NCT02028715|184471028|SUPERIORITY||Mean Difference (Final Values)|5.55501|STANDARD_ERROR_OF_MEAN|5.96535||0.356|TWO_SIDED|95.0|-6.3904|17.50042|||t-test for Equality of Means|||||17.50042|-6.39040|.356
92254387|NCT04315298|184410759|SUPERIORITY||Hazard Ratio (HR)|1.38||||0.2952|TWO_SIDED|95.0|0.85|2.24||P-value from stratified log-rank test|Log Rank|||||2.24|0.85|0.2952
92254388|NCT04315298|184410760|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.2297|TWO_SIDED|95.0|0.89|1.5||P-value from stratified log-rank test|Log Rank|||||1.50|0.89|0.2297
92254389|NCT04315298|184410760|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.8651|TWO_SIDED|95.0|0.79|1.3||P-value from stratified log-rank test|Log Rank|||||1.30|0.79|0.8651
92254390|NCT04315298|184410761|SUPERIORITY||Risk Difference (RD)|-1.0||||0.8864|TWO_SIDED|95.0|-15.2|12.1||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||12.1|-15.2|0.8864
92254391|NCT04315298|184410761|SUPERIORITY||Risk Difference (RD)|-2.1||||0.75|TWO_SIDED|95.0|-15.8|10.1||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||10.1|-15.8|0.7500
92254392|NCT04315298|184410762|SUPERIORITY||Risk Difference (RD)|-1.5||||0.6858|TWO_SIDED|95.0|-9.1|5.6||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||5.6|-9.1|0.6858
92254393|NCT04315298|184410762|SUPERIORITY||Risk Difference (RD)|0.4||||0.9173|TWO_SIDED|95.0|-7.0|7.0||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||7.0|-7.0|0.9173
92254394|NCT04315298|184410763|SUPERIORITY||Risk Difference (RD)|4.5||||0.5239|TWO_SIDED|95.0|-9.7|17.3||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||17.3|-9.7|0.5239
92254395|NCT04315298|184410763|SUPERIORITY||Risk Difference (RD)|3.7||||0.5809|TWO_SIDED|95.0|-10.0|15.6||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||15.6|-10.0|0.5809
92283652|NCT02028715|184471029|SUPERIORITY||Median Difference (Final Values)|11.51818|STANDARD_ERROR_OF_MEAN|6.98569||0.105|TWO_SIDED|95.0|-2.49963|25.53599|||t-test for Equality of Means|||||25.53599|-2.49963|.105
92283653|NCT02028715|184471030|SUPERIORITY|||||||0.029|||||||ANOVA|||||||.029
92283654|NCT02028715|184471031|SUPERIORITY|Within subjects Analysis of Variance (ANOVA) of time, sphericity assumed, was used for pain, nausea, bloating and pruritus.||||||0.643|||||||ANOVA|||||||.643
92283655|NCT02028715|184471032|SUPERIORITY|Within subjects Analysis of Variance (ANOVA) of time, sphericity assumed, was used for pain, nausea, bloating and pruritus.||||||0.217|||||||ANOVA|||||||.217
92254396|NCT04315298|184410764|SUPERIORITY||Risk Difference (RD)|0.4||||0.9343|TWO_SIDED|95.0|-9.3|10.1||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||10.1|-9.3|0.9343
92254397|NCT04315298|184410764|SUPERIORITY||Risk Difference (RD)|-5.0||||0.2822|TWO_SIDED|95.0|-14.1|4.1||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||4.1|-14.1|0.2822
92254398|NCT04315298|184410765|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.4519|TWO_SIDED|95.0|0.75|2.18||P-value from stratified log-rank test|Log Rank|||||2.18|0.75|0.4519
92283656|NCT02028715|184471033|SUPERIORITY|Within subjects Analysis of Variance (ANOVA) of time, sphericity assumed, was used for pain, nausea, bloating and pruritus.||||||0.647|||||||ANOVA|||||||.647
92283657|NCT02028715|184471034|SUPERIORITY||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.587|0.695||||||||.695|-.587|
92283658|NCT01492361|184471035|SUPERIORITY||Hazard Ratio (HR)|0.75||||1e-08|TWO_SIDED|95.0|0.68|0.83||The 2-sided alpha level for the primary analysis was adjusted to 0.0437 from 0.05 to account for the two interim analyses based on a group sequential design with O'Brien-Fleming boundaries generated using the Lan-DeMets alpha-spending function.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region||||0.83|0.68|0.00000001
92283659|NCT01492361|184471036|SUPERIORITY||Hazard Ratio (HR)|0.74||||6e-07|TWO_SIDED|95.0|0.65|0.83||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.83|0.65|0.0000006
92254399|NCT04315298|184410765|SUPERIORITY||Hazard Ratio (HR)|1.35||||0.2818|TWO_SIDED|95.0|0.81|2.24||P-value from stratified log-rank test|Log Rank|||||2.24|0.81|0.2818
92283660|NCT01492361|184471037|SUPERIORITY||Hazard Ratio (HR)|0.75|||<|0.0001|TWO_SIDED|95.0|0.66|0.86||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.86|0.66|<0.0001
92283661|NCT01492361|184471038|SUPERIORITY||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.58|0.81||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.81|0.58|<0.0001
92283662|NCT01492361|184471039|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.55|0.78||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.78|0.55|<0.0001
92283663|NCT01492361|184471040|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0315|TWO_SIDED|95.0|0.66|0.98||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.98|0.66|0.0315
92283664|NCT01492361|184471041|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0018|TWO_SIDED|95.0|0.53|0.87||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.87|0.53|0.0018
92283665|NCT01492361|184471042|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0129|TWO_SIDED|95.0|0.55|0.93||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.93|0.55|0.0129
92283666|NCT01492361|184471043|SUPERIORITY||Hazard Ratio (HR)|0.77|||<|0.0001|TWO_SIDED|95.0|0.69|0.86||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.86|0.69|<0.0001
92177303|NCT04909801|184248499|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.6||||0.5572|TWO_SIDED|95.0|-1.5|2.7|||longitudinal|||Day 57||2.7|-1.5|0.5572
92177304|NCT04909801|184248499|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.1||||0.9366|TWO_SIDED|95.0|-2.0|2.1|||longitudinal|||Day 85||2.1|-2.0|0.9366
92177305|NCT04909801|184248499|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.2||||0.1508|TWO_SIDED|95.0|-3.5|1.0|||longitudinal|||Day 113||1.0|-3.5|0.1508
92177306|NCT04909801|184248499|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.9||||0.0303|TWO_SIDED|95.0|-3.6|-0.2|||longitudinal|||Day 141||-0.2|-3.6|0.0303
92177307|NCT04909801|184248499|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.2||||0.2333|TWO_SIDED|95.0|-3.3|0.8|||longitudinal|||Day 169||0.8|-3.3|0.2333
92177308|NCT04909801|184248500|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|1.9||||0.0938|TWO_SIDED|95.0|-0.3|4.2|||longitudinal|||Day 29||4.2|-0.3|0.0938
92177309|NCT04909801|184248500|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.6||||0.6053|TWO_SIDED|95.0|-1.6|2.7|||longitudinal|||Day 57||2.7|-1.6|0.6053
92177310|NCT04909801|184248500|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.2||||0.857|TWO_SIDED|95.0|-1.9|2.3|||longitudinal|||Day 85||2.3|-1.9|0.8570
92177311|NCT04909801|184248500|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.2||||0.1592|TWO_SIDED|95.0|-3.0|0.5|||longitudinal|||Day 113||0.5|-3.0|0.1592
92177312|NCT04909801|184248500|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.9||||0.0319|TWO_SIDED|95.0|-3.7|-0.2|||longitudinal|||Day 141||-0.2|-3.7|0.0319
92254400|NCT04315298|184410766|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.4674|TWO_SIDED|95.0|0.84|1.43||P-value from stratified log-rank test|Log Rank|||||1.43|0.84|0.4674
92177313|NCT04909801|184248500|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.3||||0.2059|TWO_SIDED|95.0|-3.4|0.7|||longitudinal|||Day 169||0.7|-3.4|0.2059
92177314|NCT04447040|184248509|SUPERIORITY||Least square (LS) Mean Difference|31.48|STANDARD_ERROR_OF_MEAN|5.379|<|0.001|TWO_SIDED|95.0|20.9|42.07|||ANOVA|||||42.07|20.90|<0.001
92177315|NCT04447040|184248509|SUPERIORITY||LS Mean Difference|41.38|STANDARD_ERROR_OF_MEAN|5.267|<|0.001|TWO_SIDED|95.0|31.02|51.75|||ANOVA|||||51.75|31.02|<0.001
92177316|NCT04447040|184248509|SUPERIORITY||LS Mean Difference|46.86|STANDARD_ERROR_OF_MEAN|5.292|<|0.001|TWO_SIDED|95.0|36.44|57.27|||ANOVA|||||57.27|36.44|<0.001
92177317|NCT04447040|184248509|SUPERIORITY||LS Mean Difference|54.04|STANDARD_ERROR_OF_MEAN|5.321|<|0.001|TWO_SIDED|95.0|43.57|64.51|||ANOVA|||||64.51|43.57|<0.001
92177318|NCT04447040|184248509|SUPERIORITY||LS Mean Difference|59.92|STANDARD_ERROR_OF_MEAN|5.468|<|0.001|TWO_SIDED|95.0|49.16|70.68|||ANOVA|||||70.68|49.16|<0.001
92177319|NCT04447040|184248510|SUPERIORITY||LS Mean Difference|35.66|STANDARD_ERROR_OF_MEAN|6.542|<|0.001|TWO_SIDED|95.0|22.79|48.54|||ANOVA|||||48.54|22.79|<0.001
92177320|NCT04447040|184248510|SUPERIORITY||LS Mean Difference|49.04|STANDARD_ERROR_OF_MEAN|6.407|<|0.001|TWO_SIDED|95.0|36.44|61.65|||ANOVA|||||61.65|36.44|<0.001
92177321|NCT04447040|184248510|SUPERIORITY||LS Mean Difference|53.64|STANDARD_ERROR_OF_MEAN|6.437|<|0.001|TWO_SIDED|95.0|40.97|66.31|||ANOVA|||||66.31|40.97|<0.001
92254401|NCT04315298|184410766|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.8503|TWO_SIDED|95.0|0.77|1.28||P-value from stratified log-rank test.|Log Rank|||||1.28|0.77|0.8503
92177322|NCT04447040|184248510|SUPERIORITY||LS Mean Difference|60.93|STANDARD_ERROR_OF_MEAN|6.472|<|0.001|TWO_SIDED|95.0|48.19|73.67|||ANOVA|||||73.67|48.19|<0.001
92177323|NCT04447040|184248510|SUPERIORITY||LS Mean Difference|67.58|STANDARD_ERROR_OF_MEAN|6.65|<|0.001|TWO_SIDED|95.0|54.49|80.67|||ANOVA|||||80.67|54.49|<0.001
92177324|NCT04447040|184248511|SUPERIORITY||LS mean Difference|12.53|STANDARD_ERROR_OF_MEAN|3.097|<|0.001|TWO_SIDED|95.0|6.44|18.63|||ANOVA|||||18.63|6.44|<0.001
92177325|NCT04447040|184248511|SUPERIORITY||LS MEAN Difference|17.73|STANDARD_ERROR_OF_MEAN|3.032|<|0.001|TWO_SIDED|95.0|11.76|23.7|||ANOVA|||||23.70|11.76|<0.001
92254402|NCT04315298|184410767|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.6156|TWO_SIDED|95.0|0.31|2.02||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.02|0.31|0.6156
92177326|NCT04447040|184248511|SUPERIORITY||LS Mean Difference|21.88|STANDARD_ERROR_OF_MEAN|3.047|<|0.001|TWO_SIDED|95.0|15.89|27.88|||ANOVA|||||27.88|15.89|<0.001
92177327|NCT04447040|184248511|SUPERIORITY||LS Mean Difference|25.01|STANDARD_ERROR_OF_MEAN|3.063|<|0.001|TWO_SIDED|95.0|18.98|31.03|||ANOVA|||||31.03|18.98|<0.001
92177328|NCT04447040|184248511|SUPERIORITY||LS Mean Difference|29.3|STANDARD_ERROR_OF_MEAN|3.148|<|0.001|TWO_SIDED|95.0|23.11|35.5|||ANOVA|||||35.50|23.11|<0.001
92177329|NCT04447040|184248512|SUPERIORITY||||||<|0.001|||||||Wilcoxon test|||||||<0.001
92177330|NCT04447040|184248512|SUPERIORITY||||||<|0.001|||||||Wilcoxon test|||||||<0.001
92177331|NCT04447040|184248512|SUPERIORITY||||||<|0.001|||||||Wilcoxon test|||||||<0.001
92177332|NCT04447040|184248512|SUPERIORITY||||||<|0.001|||||||Wilcoxon test|||||||<0.001
92177333|NCT04447040|184248512|SUPERIORITY||||||<|0.001|||||||Wilcoxon test|||||||<0.001
92177334|NCT04447040|184248513|SUPERIORITY|||||||0.014|||||||Wald method|||||||0.014
92177335|NCT04447040|184248513|SUPERIORITY|||||||0.002|||||||Wald method|||||||0.002
92177336|NCT04447040|184248513|SUPERIORITY||||||<|0.001|||||||Wald method|||||||<0.001
92177337|NCT04447040|184248513|SUPERIORITY||||||<|0.001|||||||Wald method|||||||<0.001
92177338|NCT04447040|184248513|SUPERIORITY||||||<|0.001|||||||Wald method|||||||<0.001
92177339|NCT04433208|184248514|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92177340|NCT05485779|184248537|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.17||||0.6358|TWO_SIDED|95.0|1.07|1.27|||Lack of fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 30.4. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 3 to 60 mg AQ280||1.27|1.07|0.6358
92182769|NCT02609048|184264681|SUPERIORITY||Difference in LSM|18.19|STANDARD_ERROR_OF_MEAN|8.521||0.0407|TWO_SIDED|95.0|0.82|35.57||Difference between means,p-value, and CIs estimated by comparing Seladelpar 200 mg versus 50 mg by ANCOVA model.Treatment group as factor, baseline assessment as covariate, and percent change from baseline in total bilirubin as response variable.|ANCOVA|||||35.57|0.82|0.0407
92254403|NCT04315298|184410768|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0843|TWO_SIDED|95.0|0.41|1.03||P-value from stratified log-rank test|Log Rank|||||1.03|0.41|0.0843
92254404|NCT04315298|184410768|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.1576|TWO_SIDED|95.0|0.44|1.07||P-value from stratified log-rank test|Log Rank|||||1.07|0.44|0.1576
92254405|NCT04315298|184410769|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.198|TWO_SIDED|95.0|0.57|1.14||P-value from stratified log-rank test|Log Rank|||||1.14|0.57|0.1980
92254406|NCT04315298|184410769|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.7973|TWO_SIDED|95.0|0.73|1.36||P-value from stratified log-rank test.|Log Rank|||||1.36|0.73|0.7973
92254407|NCT04315298|184410770|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.5023|TWO_SIDED|95.0|0.13|2.75||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.75|0.13|0.5023
92254408|NCT04315298|184410771|SUPERIORITY||Risk Difference (RD)|0.3|STANDARD_ERROR_OF_MEAN|0.26||0.2804|TWO_SIDED|95.0|-0.2|0.8||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 8||0.8|-0.2|0.2804
92254409|NCT04315298|184410771|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5023|TWO_SIDED|95.0|-0.5|0.3||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 8||0.3|-0.5|0.5023
92254410|NCT04315298|184410771|SUPERIORITY||Risk Difference (RD)|0.6|STANDARD_ERROR_OF_MEAN|0.68||0.3821|TWO_SIDED|95.0|-0.7|1.9||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 15||1.9|-0.7|0.3821
92254411|NCT04315298|184410771|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.59||0.9737|TWO_SIDED|95.0|-1.2|1.1||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 15||1.1|-1.2|0.9737
92254412|NCT04315298|184410771|SUPERIORITY||Risk Difference (RD)|1.2|STANDARD_ERROR_OF_MEAN|1.15||0.3179|TWO_SIDED|95.0|-1.1|3.4||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 22||3.4|-1.1|0.3179
92254413|NCT04315298|184410771|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|1.03||0.6302|TWO_SIDED|95.0|-1.5|2.5||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 22||2.5|-1.5|0.6302
92254414|NCT04315298|184410771|SUPERIORITY||Risk Difference (RD)|1.8|STANDARD_ERROR_OF_MEAN|1.64||0.2862|TWO_SIDED|95.0|-1.5|5.0||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 29||5.0|-1.5|0.2862
92254415|NCT04315298|184410771|SUPERIORITY||Risk Difference (RD)|1.1|STANDARD_ERROR_OF_MEAN|1.49||0.4509|TWO_SIDED|95.0|-1.8|4.1||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 29||4.1|-1.8|0.4509
92254416|NCT04315298|184410772|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|0.33||0.564|TWO_SIDED|95.0|-0.8|0.5||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 8||0.5|-0.8|0.5640
92254417|NCT04315298|184410772|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|0.31||0.1602|TWO_SIDED|95.0|-1.0|0.2||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 8||0.2|-1.0|0.1602
92254418|NCT04315298|184410772|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.64||0.9144|TWO_SIDED|95.0|-1.3|1.2||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 15||1.2|-1.3|0.9144
92254419|NCT04315298|184410772|SUPERIORITY||Risk Difference (RD)|-0.9|STANDARD_ERROR_OF_MEAN|0.61||0.145|TWO_SIDED|95.0|-2.1|0.3||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 15||0.3|-2.1|0.1450
92254420|NCT04315298|184410772|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|0.95||0.8378|TWO_SIDED|95.0|-1.7|2.1||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 22||2.1|-1.7|0.8378
92254421|NCT04315298|184410772|SUPERIORITY||Risk Difference (RD)|-1.2|STANDARD_ERROR_OF_MEAN|0.89||0.1988|TWO_SIDED|95.0|-2.9|0.6||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 22||0.6|-2.9|0.1988
92254422|NCT04315298|184410772|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|1.26||0.8556|TWO_SIDED|95.0|-2.2|2.7||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 29||2.7|-2.2|0.8556
92254423|NCT04315298|184410772|SUPERIORITY||Risk Difference (RD)|-1.3|STANDARD_ERROR_OF_MEAN|1.19||0.263|TWO_SIDED|95.0|-3.7|1.0||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 29||1.0|-3.7|0.2630
92254424|NCT04315298|184410773|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.18||0.3662|TWO_SIDED|95.0|-0.2|0.5||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 8||0.5|-0.2|0.3662
92254425|NCT04315298|184410773|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.16||0.082|TWO_SIDED|95.0|0.0|0.6||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 8||0.6|0.0|0.0820
92254426|NCT04315298|184410773|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.37||0.6984|TWO_SIDED|95.0|-0.9|0.6||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 15||0.6|-0.9|0.6984
92254427|NCT04315298|184410773|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.32||0.9833|TWO_SIDED|95.0|-0.6|0.6||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 15||0.6|-0.6|0.9833
92254428|NCT04315298|184410773|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.56||0.1436|TWO_SIDED|95.0|-0.3|2.0||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 22||2.0|-0.3|0.1436
92254429|NCT04315298|184410773|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.49||0.419|TWO_SIDED|95.0|-0.6|1.4||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 22||1.4|-0.6|0.4190
92254430|NCT04315298|184410773|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.47||0.652|TWO_SIDED|95.0|-0.7|1.2||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 29||1.2|-0.7|0.6520
92254431|NCT04315298|184410773|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.801|TWO_SIDED|95.0|-1.1|0.9||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 29||0.9|-1.1|0.8010
92254432|NCT04315298|184410774|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.16||0.3724|TWO_SIDED|95.0|-0.4|0.2||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 8||0.2|-0.4|0.3724
92283667|NCT01492361|184471044|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.0915|TWO_SIDED|95.0|0.74|1.02||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||1.02|0.74|0.0915
92254433|NCT04315298|184410774|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.7034|TWO_SIDED|95.0|-0.2|0.3||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 8||0.3|-0.2|0.7034
92254434|NCT04315298|184410774|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.5841|TWO_SIDED|95.0|-0.4|0.7||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 15||0.7|-0.4|0.5841
92182770|NCT02609048|184264682|SUPERIORITY||Difference in LSM|31.47|STANDARD_ERROR_OF_MEAN|13.831||0.03|TWO_SIDED|95.0|3.26|59.67||Difference between means,p-value,and CIs are estimated by each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline assessment as covariate,and percent change from baseline in conjugated bilirubin as response variable.|ANCOVA|||||59.67|3.26|0.0300
92254435|NCT04315298|184410774|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.6648|TWO_SIDED|95.0|-0.4|0.6||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 15||0.6|-0.4|0.6648
92254436|NCT04315298|184410774|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.36||0.4624|TWO_SIDED|95.0|-0.4|1.0||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 22||1.0|-0.4|0.4624
92254437|NCT04315298|184410774|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.32||0.2546|TWO_SIDED|95.0|-0.3|1.0||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 22||1.0|-0.3|0.2546
92254438|NCT04315298|184410774|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.38||0.5312|TWO_SIDED|95.0|-1.0|0.5||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 29||0.5|-1.0|0.5312
92254439|NCT04315298|184410774|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.35||0.3039|TWO_SIDED|95.0|-1.1|0.3||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 29||0.3|-1.1|0.3039
92254440|NCT03267511|184410802|OTHER||Difference of Least Mean Square|0.06|STANDARD_ERROR_OF_MEAN|0.128||0.6499|TWO_SIDED|95.0|-0.19|0.31|||ANCOVA|From ANCOVA with treatment as fixed effect and baseline overall MLSI score as a covariate.|||"The reason for entering same analysis for primary and secondary is because statistical analysis was not done separately for primary outcome measure.~The decision was clinical decision at the time of protocol design.There was no comparisons for the primary objective as the main objective was to look at the rank order of the treatments in level of stain reduction after 8 weeks of treatment. This was achieved via the adjusted means and confidence intervals for the means along with plots of MLSI over time. The hypothesis was that the test products would reduce stain to a greater extent than the reference products. Two comparisons of interest were done under secondary and exploratory objectives."|0.31|-0.19|0.6499
92254441|NCT03267511|184410802|OTHER||Difference of Least Square mean|-0.07|STANDARD_ERROR_OF_MEAN|0.128||0.568|TWO_SIDED|95.0|-0.33|0.18|||ANCOVA|From ANCOVA with treatment as fixed effect and baseline overall MLSI score as a covariate.|-0.33 to 0.18|||0.18|-0.33|0.5680
92254442|NCT03267511|184410803|OTHER||Difference of Least Square mean|0.06|STANDARD_ERROR_OF_MEAN|0.128||0.6499|TWO_SIDED|95.0|-0.19|0.31|||ANCOVA|From ANCOVA with treatment as fixed effect and baseline overall MLSI score as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.31|-0.19|0.6499
92254443|NCT03267511|184410804|OTHER||Difference of Least Square mean|-0.07|STANDARD_ERROR_OF_MEAN|0.128||0.568|TWO_SIDED|95.0|-0.33|0.18|||ANCOVA|From ANCOVA with treatment as fixed effect and baseline overall MLSI score as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.18|-0.33|0.5680
92254444|NCT03050307|184410805|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|-3.7|||||TWO_SIDED|95.0|-10.966|3.339||||||||3.339|-10.966|
92254445|NCT03050307|184410806|NON_INFERIORITY|If the primary outcome measure was met, then the hypothesis for this outcome measure was that if the lower bound of the 95% CI of the difference was ≥-10%, noninferiority for TAK-438 relative to lansoprazole with regard to H pylori eradication was declared.|Exact (Clopper-Pearson)|7.2|||||TWO_SIDED|95.0|-4.469|18.825||||||||18.825|-4.469|
92254446|NCT03050307|184410807|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|-6.0|||||TWO_SIDED|95.0|-16.644|4.741||||||||4.741|-16.644|
92254447|NCT03050307|184410808|OTHER|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|-1.1|||||TWO_SIDED|95.0|-25.175|23.07||||||Epigastric Pain (Postprandial)||23.070|-25.175|
92254448|NCT03050307|184410808|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|4.5|||||TWO_SIDED|95.0|-11.907|20.931||||||Epigastric Pain (Fasting/Nocturnal)||20.931|-11.907|
92254449|NCT03050307|184410808|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|16.0|||||TWO_SIDED|95.0|-11.255|43.321||||||Abdominal Bloating||43.321|-11.255|
92254450|NCT03050307|184410808|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|10.1|||||TWO_SIDED|95.0|-5.109|25.348||||||Heartburn||25.348|-5.109|
92254451|NCT03050307|184410808|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|-12.2|||||TWO_SIDED|95.0|-45.138|20.694||||||Lack of Appetite||20.694|-45.138|
92265276|NCT02129192|184432015|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of Cmax of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|101.4|||||TWO_SIDED|90.0|99.7|103.13|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for amlodipine 5 mg||103.13|99.70|
92265277|NCT02129192|184432015|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of Cmax of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|101.77|||||TWO_SIDED|90.0|98.46|105.19|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for hydrochlorothiazide 12.5 mg||105.19|98.46|
92265278|NCT02129192|184432016|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|30.15||||1|TWO_SIDED|90.0|24.99|36.38|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for telmisartan 80 mg. No hypothesis was tested.||36.38|24.99|1.0000
92265279|NCT02129192|184432016|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|98.23|||<|0.0001|TWO_SIDED|90.0|94.63|101.97|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for amlodipine 5 mg. No hypothesis was tested.||101.97|94.63|<0.0001
92265280|NCT02129192|184432016|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|79.69||||0.5422|TWO_SIDED|90.0|74.97|84.71|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for hydrochlorothiazide 12.5 mg. No hypothesis was tested.||84.71|74.97|0.5422
92265281|NCT02129192|184432017|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-tz of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|99.21|||||TWO_SIDED|90.0|96.14|102.38|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for telmisartan 80 mg||102.38|96.14|
92265282|NCT02129192|184432017|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-tz of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|101.43||||||90.0|99.84|103.04|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for amlodipine 5 mg||103.04|99.84|
92265283|NCT02129192|184432017|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-tz of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|100.33|||||TWO_SIDED|90.0|98.29|102.4|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for hydrochlorothiazide 12.5 mg||102.40|98.29|
92265284|NCT02129192|184432018|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|63.66||||1|TWO_SIDED|90.0|58.98|68.71|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for telmisartan 80 mg. No hypothesis was tested.||68.71|58.98|1.0000
92265285|NCT02129192|184432018|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|99.74|||<|0.0001|TWO_SIDED|90.0|97.08|102.48|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for amlodipine 5 mg. No hypothesis was tested.||102.48|97.08|<0.0001
92177341|NCT05485779|184248537|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.13||||0.5506|TWO_SIDED|95.0|0.963|1.31|||Lack of Fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 32.9. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 9 to 60 mg AQ280||1.31|0.963|0.5506
92254452|NCT03950440|184410809|OTHER|Propensity scores were obtained from three separate multivariable logistic regression models contrasting each group versus the two other groups. The result from this multivariable model quantifies the degree of separation between both groups.|Risk Ratio (RR)|0.26|||<|0.0001|TWO_SIDED|95.0|0.16|0.44||The double robust approach refers to the weighted analysis with all variables involved in the construction of the propensity-based weights added as confounders in the model.|Poisson regression||TAVI-group compared to the SAVR-group|Frailty scores (Tilburg and essential) and Euroscore were specified in the protocol. Age was added during the meeting before start of the data-analysis|The double robust approach refers to the weighted analysis with all variables involved in the construction of the propensity-based weights added as confounders in the model.|0.44|0.16|<0.0001
92254453|NCT02043509|184410819|SUPERIORITY||Adjusted odds ratio|2.7|||||TWO_SIDED|95.0|0.93|9.35|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||9.35|0.93|
92254454|NCT02043509|184410820|SUPERIORITY||Adjusted odds ratio|1.03|||||TWO_SIDED|95.0|0.61|1.75|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||1.75|0.61|
92254455|NCT02043509|184410821|SUPERIORITY||Adjusted odds ratio|1.34|||||TWO_SIDED|95.0|0.79|2.31|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||2.31|0.79|
92254456|NCT02043509|184410822|SUPERIORITY||Adjusted odds ratio|1.67|||||TWO_SIDED|95.0|0.72|4.03|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||4.03|0.72|
92254457|NCT02043509|184410823|SUPERIORITY||Adjusted odds ratio|2.11|||||TWO_SIDED|95.0|0.89|5.46|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||5.46|0.89|
92254458|NCT02043509|184410824|SUPERIORITY||Adjusted odds ratio|3.16|||||TWO_SIDED|95.0|1.14|10.69|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||10.69|1.14|
92254459|NCT02043509|184410825|SUPERIORITY||Adjusted odds ratio|3.28|||||TWO_SIDED|95.0|0.9|17.36|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||17.36|0.90|
92254460|NCT02043509|184410826|SUPERIORITY|||||||0.118|||||||Mann-Whitney U-test|||||||0.118
92254461|NCT03189563|184410830|SUPERIORITY|||||||0.3656||||||p-value is from ANCOVA model adjusted for baseline motor MDS-UPDRS total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.3656
92254462|NCT03189563|184410830|SUPERIORITY|||||||0.3119||||||p-value is from ANCOVA model adjusted for baseline motor MDS-UPDRS total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.3119
92254463|NCT03189563|184410831|SUPERIORITY|||||||0.147||||||p-value is from ANCOVA model adjusted for baseline MDS-UPDRS total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.1470
92254464|NCT03189563|184410831|SUPERIORITY|||||||0.252||||||p-value is from ANCOVA model adjusted for baseline MDS-UPDRS total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.2520
92254465|NCT03189563|184410832|SUPERIORITY|||||||0.1528||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 1 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.1528
92254466|NCT03189563|184410832|SUPERIORITY|||||||0.6146||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 1 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.6146
92254467|NCT03189563|184410833|SUPERIORITY|||||||0.5691||||||p-value is from ANCOVA model adjusted for baseline S\&E scale total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.5691
92254468|NCT03189563|184410833|SUPERIORITY|||||||0.1309||||||p-value is from ANCOVA model adjusted for baseline S\&E scale total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.1309
92254469|NCT03189563|184410834|SUPERIORITY|||||||0.7913||||||p-value is from ANCOVA model adjusted for baseline PDQ-39 summary index. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.7913
92254470|NCT03189563|184410834|SUPERIORITY|||||||0.9399||||||p-value is from ANCOVA model adjusted for baseline PDQ-39 summary index. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.9399
92254471|NCT03189563|184410835|SUPERIORITY|||||||0.4978||||||p-value is from ANCOVA model adjusted for baseline H\&Y scale total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.4978
92254472|NCT03189563|184410835|SUPERIORITY|||||||0.888||||||p-value is from ANCOVA model adjusted for baseline H\&Y scale total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.8880
92254473|NCT03189563|184410836|SUPERIORITY|||||||0.5755||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 2 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.5755
92254474|NCT03189563|184410836|SUPERIORITY|||||||0.1517||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 2 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.1517
92177342|NCT05485779|184248538|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.13||||0.3653|TWO_SIDED|95.0|1.04|1.22|||Lack of Fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 25.7. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 3 to 60 mg AQ280||1.22|1.04|0.3653
92177343|NCT05485779|184248538|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.16||||0.2933|TWO_SIDED|95.0|1.01|1.31|||Lack of Fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 27.7. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 9 to 60 mg AQ280||1.31|1.01|0.2933
92177344|NCT05485779|184248539|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.16||||0.46|TWO_SIDED|95.0|0.908|1.41|||Lack of Fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 64.3. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 3 to 60 mg AQ280||1.41|0.908|0.4600
92177345|NCT05485779|184248539|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.12||||0.3157|TWO_SIDED|95.0|0.795|1.45|||Lack of Fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 65.6. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 9 to 60 mg AQ280||1.45|0.795|0.3157
92177346|NCT05485779|184248540|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.2||||0.235|TWO_SIDED|95.0|1.02|1.37|||Lack of fit 1-sided p-value|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 54.2. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 3 to 60 mg AQ280||1.37|1.02|0.2350
92177347|NCT05485779|184248540|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.19||||0.1632|TWO_SIDED|95.0|0.88|1.5|||Lack of fit 1-sided p-value|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 58.5. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 9 to 60 mg AQ280||1.50|0.880|0.1632
92177348|NCT05485779|184248541|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|0.977|||||TWO_SIDED|90.0|0.915|1.04|||||Within-subject geometric coefficient of variation was 5.66. Data analyzed using a mixed model included treatment as a fixed effect and subject as a random effect. ln(parameter)=treatment+subject+random error, with subject fitted as a random effect.|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess the Effect of Food on Single Oral Doses of 16 mg AQ280||1.04|0.915|
92177349|NCT05485779|184248542|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|0.805|||||TWO_SIDED|90.0|0.635|1.02|||||Within-subject geometric coefficient of variation was 20.5. Data analyzed using a mixed model included treatment as a fixed effect and subject as a random effect. ln(parameter)=treatment+subject+random error, with subject fitted as a random effect.|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess the Effect of Food on Single Oral Doses of 16 mg AQ280||1.02|0.635|
92177350|NCT05485779|184248544|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.15||||0.1558|TWO_SIDED|95.0|0.954|1.34|||Lack of fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 28.0. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Multiple Oral Doses of 9 to 60 mg AQ280 QD for 7 Consecutive Days in a Fasted State||1.34|0.954|0.1558
92254475|NCT03189563|184410837|SUPERIORITY|||||||0.2095||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 3 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.2095
92254476|NCT03189563|184410837|SUPERIORITY|||||||0.6094||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 3 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.6094
92254477|NCT03189563|184410838|SUPERIORITY|||||||0.226||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 4 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.2260
92254478|NCT03189563|184410838|SUPERIORITY|||||||0.226||||||p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 4 subscale score All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.2260
92254479|NCT03189563|184410839|SUPERIORITY|||||||0.8274||||||p-value is from ANCOVA model adjusted for baseline CGI-S score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.8274
92254480|NCT03189563|184410839|SUPERIORITY|||||||0.3416||||||p-value is from ANCOVA model adjusted for baseline CGI-S score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.3416
92254481|NCT03189563|184410840|SUPERIORITY|||||||0.4052||||||P-value is from ANCOVA model. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||||||0.4052
92254482|NCT03189563|184410840|SUPERIORITY|||||||0.2643||||||P-value is from ANCOVA model. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||||||0.2643
92254483|NCT02443155|184410898|SUPERIORITY||Treatment ratio|1.48|||=|0.0017|TWO_SIDED|95.0|1.16|1.89|||Mixed model repeated measurements||NNC0114-0006 + liraglutide / Placebo|Ratio of week 54 to baseline are analysed using mixed model for repeated measurements (MMRM) with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.89|1.16|=0.0017
92254484|NCT02443155|184410898|SUPERIORITY||Treatment Ratio|1.23|||=|0.0927|TWO_SIDED|95.0|0.97|1.57|||Mixed model repeated measurements|||Ratio of week 54 to baseline are analysed using MMRM with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.57|0.97|=0.0927
92254485|NCT02443155|184410898|SUPERIORITY||Treatment Ratio|1.12|||=|0.378|TWO_SIDED|95.0|0.87|1.42|||Mixed model repeated measurements|||Ratio of week 54 to baseline are analysed using MMRM with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.42|0.87|=0.3780
92254486|NCT02443155|184410898|SUPERIORITY||Treatment ratio|1.2|||=|0.1377|TWO_SIDED|95.0|0.94|1.53|||Mixed model repeated measurements|||Ratio of week 54 to baseline are analysed using MMRM with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.53|0.94|=0.1377
92254487|NCT02443155|184410898|SUPERIORITY||Treatment ratio|1.33|||=|0.0214|TWO_SIDED|95.0|1.04|1.69|||Mixed model repeated measurements|||Ratio of week 54 to baseline are analysed using MMRM with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.69|1.04|=0.0214
92254488|NCT02443155|184410898|SUPERIORITY||Treatmrnt ratio|1.1|||=|0.4187|TWO_SIDED|95.0|0.87|1.41|||Mixed model repeated measurements|||Ratio of week 54 to baseline are analysed using MMRM with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.41|0.87|=0.4187
92254489|NCT06048809|184411032|OTHER|||||||2.36e-05|||||||ANCOM-BC2|||Haemophilus parainfluenzae: Change From Baseline at Week 6||||0.0000236
92254490|NCT06048809|184411032|OTHER|||||||0.0033243|||||||ANCOM-BC2|||Neisseria elongata: Change From Baseline at Week 6||||0.0033243
92254491|NCT06048809|184411032|OTHER|||||||0.00500088|||||||ANCOM-BC2|||Aggregatibacter sp.\_HMT\_898: Change From Baseline at Week 6||||0.00500088
92254492|NCT06048809|184411032|OTHER|||||||0.0066975|||||||ANCOM-BC2|||Parvimonas sp.\_HMT\_110: Change From Baseline at Week 6||||0.0066975
92254493|NCT06048809|184411032|OTHER|||||||0.00710228|||||||ANCOM-BC2|||Aggregatibacter aphrophilus: Change From Baseline at Week 6||||0.00710228
92254494|NCT06048809|184411032|OTHER|||||||0.00744022|||||||ANCOM-BC2|||Kingella oralis: Change From Baseline at Week 6||||0.00744022
92254495|NCT06048809|184411032|OTHER|||||||0.01434037|||||||ANCOM-BC2|||Haemophilus sp.\_HMT\_036: Change From Baseline at Week 6||||0.01434037
92254496|NCT06048809|184411032|OTHER|||||||0.01955327|||||||ANCOM-BC2|||Haemophilus haemolyticus: Change From Baseline at Week 6||||0.01955327
92254497|NCT06048809|184411032|OTHER|||||||0.01995277|||||||ANCOM-BC2|||Neisseria mucosa: Change From Baseline at Week 6||||0.01995277
92254498|NCT06048809|184411032|OTHER|||||||0.02082528|||||||ANCOM-BC2|||Parvimonas sp.\_HMT\_393\_nov\_97.053%: Change From Baseline at Week 6||||0.02082528
92254499|NCT06048809|184411032|OTHER|||||||0.02188156|||||||ANCOM-BC2|||Ottowia sp.\_HMT\_894: Change from Baseline at Week 6||||0.02188156
92254500|NCT06048809|184411032|OTHER|||||||0.02321733|||||||ANCOM-BC2|||Cryptobacterium curtum: Change From Baseline at Week 6||||0.02321733
92254501|NCT06048809|184411032|OTHER|||||||0.02397996|||||||ANCOM-BC2|||Lautropia mirabilis: Change from Baseline at Week 6||||0.02397996
92254502|NCT06048809|184411032|OTHER|||||||0.02509094|||||||ANCOM-BC2|||Haemophilus paraphrohaemolyticus: Change From Baseline at Week 6||||0.02509094
92254503|NCT06048809|184411032|OTHER|||||||0.02648847|||||||ANCOM-BC2|||Capnocytophaga sp.\_HMT\_332: Change From Baseline at Week 6||||0.02648847
92254504|NCT06048809|184411032|OTHER|||||||0.02828764|||||||ANCOM-BC2|||Neisseria flavescens: Change From Baseline at Week 6||||0.02828764
92254505|NCT06048809|184411032|OTHER|||||||0.03454372|||||||ANCOM-BC2|||Capnocytophaga gingivalis\_nov\_96.429%: Change From Baseline at Week 6||||0.03454372
92254506|NCT06048809|184411032|OTHER|||||||0.03747507|||||||ANCOM-BC2|||Capnocytophaga sputigena: Change From Baseline at Week 6||||0.03747507
92254507|NCT06048809|184411032|OTHER|||||||0.03776136|||||||ANCOM-BC2|||Haemophilus sputorum: Change From Baseline at Week 6||||0.03776136
92254508|NCT06048809|184411032|OTHER|||||||0.03853215|||||||ANCOM-BC2|||Capnocytophaga gingivalis\_nov\_90.546%: Change From Baseline at Week 6||||0.03853215
92254509|NCT06048809|184411032|OTHER|||||||0.04751303|||||||ANCOM-BC2|||Prevotella denticola: Change From Baseline at Week 6||||0.04751303
92254510|NCT06048809|184411032|OTHER|||||||0.05190512|||||||ANCOM-BC2|||Aggregatibacter sp.\_HMT\_513: Change From Baseline at Week 6||||0.05190512
92254511|NCT06048809|184411032|OTHER|||||||0.0550647|||||||ANCOM-BC2|||Veillonella sp.\_HMT\_780: Change From Baseline at Week 6||||0.0550647
92254512|NCT06048809|184411032|OTHER|||||||0.05861488|||||||ANCOM-BC2|||Neisseria perflava: Change From Baseline at Week 6||||0.05861488
92254513|NCT06048809|184411032|OTHER|||||||0.06727926|||||||ANCOM-BC2|||Slackia exigua: Change From Baseline at Week 6||||0.06727926
92254514|NCT06048809|184411032|OTHER|||||||0.07051698|||||||ANCOM-BC2|||Shuttleworthia satelles: Change from Baseline at Week 6||||0.07051698
92254515|NCT06048809|184411032|OTHER|||||||0.0740793|||||||ANCOM-BC2|||Aggregatibacter sp.\_HMT\_458: Change From Baseline at Week 6||||0.0740793
92254516|NCT06048809|184411032|OTHER|||||||0.07426973|||||||ANCOM-BC2|||Ruminococcaceae\_\[G-1\] bacterium\_HMT\_075: Change From Baseline at Week 6||||0.07426973
92254517|NCT06048809|184411032|OTHER|||||||0.07829888|||||||ANCOM-BC2|||Campylobacter showae: Change From Baseline at Week 6||||0.07829888
92254518|NCT06048809|184411032|OTHER|||||||0.08462924|||||||ANCOM-BC2|||Streptococcus sp.\_HMT\_056: Change From Baseline at Week 6||||0.08462924
92177351|NCT05485779|184248545|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.1||||0.5458|TWO_SIDED|95.0|0.946|1.26|||Lack of Fit 2-sided model|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 24.0. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Multiple Oral Doses of 9 to 60 mg AQ280 QD for 7 Consecutive Days in a Fasted State||1.26|0.946|0.5458
92177352|NCT05485779|184248546|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|0.941||||0.4856|TWO_SIDED|95.0|0.602|1.28||Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Lack of fit 2-sided||Between-subject geometric coefficient of variation was 54.7. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Multiple Oral Doses of 9 to 60 mg AQ280 once daily for 7 Consecutive Days in a Fasted State||1.28|0.602|0.4856
92177353|NCT05485779|184248547|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|0.971||||0.1455|TWO_SIDED|95.0|0.666|1.28|||Lack of fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 45.5. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Multiple Oral Doses of 9 to 60 mg AQ280 once daily for 7 Consecutive Days in a Fasted State||1.28|0.666|0.1455
92177354|NCT02038777|184248560|OTHER||||||<|0.0001||||||An exact test for a single proportion (1-sided significance level: 0.05) was used.|Exact test for a single proportion|||||||<.0001
92254519|NCT06048809|184411033|OTHER|||||||0.062378|||||||ANCOM-BC2|||Abiotrophia defectiva: Change from Baseline at Week 6||||0.062378
92254520|NCT06048809|184411033|OTHER|||||||0.063437|||||||ANCOM-BC2|||Saccharibacteria\_(TM7)\_\[G1\] bacterium\_HMT\_346: Change from Baseline at Week 6||||0.063437
92177355|NCT02010242|184248643|SUPERIORITY|All statistical analyses were performed on a comparison-wise basis without adjustment for multiple comparisons.||||||1|||||||ANCOVA|||Primary efficacy endpoint was analyzed using ANCOVA comparing GKT137831 vs placebo after controlling for the baseline UACR level. The UACR were log-transformed prior to analysis. The model included treatment group and log-transformed baseline UACR value as predicted variables. The results were back-transformed exponentially to calculate geo. mean values and associated 90% CIs and 1-sided p-values. The null hypothesis was that the difference in the adjusted mean logarithm of UACR was equal to 0||||1.000
92177356|NCT03676192|184248651|EQUIVALENCE|The similarity criterion had been set such that the confidence limits of the 95% confidence interval (CI) of the difference of ORR from each treatment group was entirely bounded by the interval (-12.5, 12.5).|Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-7.02|7.83||||||Logistic regression model including treatment groups (CT-P16 and EU-approved Avastin) as a fixed effect and region (EMEA vs. America vs. Asia), sex (female vs. male), disease status at baseline (recurrence vs. metastatic), and ECOG performance score at baseline (0 vs. 1) as covariates was used.||7.83|-7.02|
92254521|NCT06048809|184411033|OTHER|||||||0.069908|||||||ANCOM-BC2|||Olsenella sp.\_HMT\_807: Change from Baseline at Week 6||||0.069908
92177357|NCT03676192|184248651|EQUIVALENCE|The similarity criterion had been set such that the confidence limits of the 90% confidence interval (CI) of the ratio of ORR from each treatment group was entirely bounded by the interval (0.7368, 1.3572).|Risk Ratio (RR)|1.0136|||||TWO_SIDED|90.0|0.8767|1.1719||||||Log-binomial regression model including treatment groups (CT-P16 and EU-approved Avastin) as a fixed effect and region (EMEA vs. America vs. Asia), sex (female vs. male), disease status at baseline (recurrence vs. metastatic), and ECOG performance score at baseline (0 vs. 1) as covariates was used.||1.1719|0.8767|
92254522|NCT06048809|184411033|OTHER|||||||0.079736|||||||ANCOM-BC2|||Fusobacterium nucleatum\_nucleatum\_subsp.\_animalis: Change from Baseline at Week 6||||0.079736
92254523|NCT06048809|184411033|OTHER|||||||0.094642|||||||ANCOM-BC2|||Bergeyella sp.\_HMT\_322: Change from Baseline at Week 6||||0.094642
92254524|NCT06048809|184411033|OTHER|||||||0.095848|||||||ANCOM-BC2|||Peptostreptococcaceae\_\[XI\]\[G-1\] \[Eubacterium\]\_infirmum: Change from Baseline at Week 6||||0.095848
92254525|NCT06048809|184411033|OTHER|||||||0.107931|||||||ANCOM-BC2|||Prevotella sp.\_HMT\_317: Change from Baseline at Week 6||||0.107931
92254526|NCT06048809|184411033|OTHER|||||||0.109114|||||||ANCOM-BC2|||Bacteroidales\_\[G-2\] bacterium\_HMT\_274: Change from Baseline at Week 6||||0.109114
92254527|NCT06048809|184411033|OTHER|||||||0.11083|||||||ANCOM-BC2|||Actinomyces sp.\_HMT\_175\_nov 97.951%: Change from Baseline at Week 6||||0.11083
92254528|NCT06048809|184411033|OTHER|||||||0.120377|||||||ANCOM-BC2|||Slackia exigua: Change from Baseline at Week 6||||0.120377
92254529|NCT06048809|184411033|OTHER|||||||0.123758|||||||ANCOM-BC2|||Granulicatella adiacens: Change from Baseline at Week 6||||0.123758
92254530|NCT06048809|184411033|OTHER|||||||0.123992|||||||ANCOM-BC2|||Prevotella oris: Change from Baseline at Week 6||||0.123992
92254531|NCT06048809|184411033|OTHER|||||||0.133385|||||||ANCOM-BC2|||Streptococcus sp.\_HMT\_064: Change from Baseline at Week 6||||0.133385
92254532|NCT06048809|184411033|OTHER|||||||0.144598|||||||ANCOM-BC2|||Schaalia odontolyticus: Change from Baseline at Week 6||||0.144598
92254533|NCT06048809|184411033|OTHER|||||||0.147278|||||||ANCOM-BC2|||Mogibacterium diversum: Change from Baseline at Week 6||||0.147278
92254534|NCT06048809|184411033|OTHER|||||||0.148674|||||||ANCOM-BC2|||Prevotella denticola: Change from Baseline at Week 6||||0.148674
92283668|NCT01475838|184471045|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the Stribild group was at least 12% worse than the PI+RTV+FTC/TDF group with respect to the percentage of participants maintaining HIV-1 RNA \< 50 copies/mL at Week 48. The alternative hypothesis was that the Stribild group was less than 12% worse than the PI+RTV+FTC/TDF group.|Difference in proportions|6.7||||0.025|TWO_SIDED|95.0|0.4|13.7|||Fisher Exact||The 95% confidence interval (CI) for the difference was from unconditional exact method using 2 inverted 1-sided tests with the standardized statistic using StatXact.|||13.7|0.4|0.025
92254535|NCT06048809|184411033|OTHER|||||||0.149722|||||||ANCOM-BC2|||Absconditabacteria\_(SR1)\_\[G-1\] bacterium\_HMT\_875: Change from Baseline at Week 6||||0.149722
92254536|NCT06048809|184411033|OTHER|||||||0.154465|||||||ANCOM-BC2|||Prevotella nigrescens: Change from Baseline at Week 6||||0.154465
92254537|NCT06048809|184411033|OTHER|||||||0.158139|||||||ANCOM-BC2|||Streptococcus chosunense: Change from Baseline at Week 6||||0.158139
92254538|NCT01250899|184411035|SUPERIORITY_OR_OTHER||Percentage of 12-wk 25(OH)D ≥30ng/mL|70.0|||<|0.05|TWO_SIDED|95.0|60.0|80.0|||Exact binomial||The primary endpoint (mean change in 25(OH)D following 12 weeks of vitamin D repletion in vitamin D insufficient subjects) was dichotomized to success or failure to achieve a week twelve 25(OH)D level ≥30ng/mL.|We predicted that HIV-infected subjects would have a 70% twelve-week repletion success rate compared to 85% among historical controls.Eighty subjects provided 91% power to detect a 12-week repletion rate statistically different than 85% (95% confidence interval (CI) 60%, 80%).||80|60|<0.05
92254539|NCT01536418|184411043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1|||||TWO_SIDED|95.0|-3.0|19.3||||||||19.3|-3.0|
92254540|NCT01536418|184411044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-5.8|10.8||||||CDAI score (Clinical remission), GSK1605786A, 500 mg QD Vs GSK1605786A, 500 mg BID; at Week 8||10.8|-5.8|
92254541|NCT01536418|184411044|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.6|||||TWO_SIDED|95.0|-3.0|14.3||||||CDAI score (Clinical remission), GSK1605786A, 500 mg QD Vs GSK1605786A, 500 mg BID; at Week 12||14.3|-3.0|
92254542|NCT01536418|184411044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|||||TWO_SIDED|95.0|-4.6|9.5||||||CDAI score (Clinical remission), GSK1605786A, 500 mg QD Vs GSK1605786A, 500 mg BID; at both Weeks 8 and 12||9.5|-4.6|
92254543|NCT01536418|184411045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|||||TWO_SIDED|95.0|-6.0|15.9||||||CDAI score (Clinical response), GSK1605786A, 500 mg QD Vs GSK1605786A, 500 mg BID at Week 8||15.9|-6.0|
92254544|NCT01536418|184411045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|||||TWO_SIDED|95.0|-1.0|18.7||||||CDAI score (Clinical response), GSK1605786A, 500 mg QD Vs GSK1605786A, 500 mg BID at both Week 8 and Week 12||18.7|-1.0|
92287079|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|0.112|||<|0.001|TWO_SIDED|95.0|0.049|0.175|||ANCOVA|||"Comparison groups:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. CIs and p-values for CHF 1531 pMDI vs Placebo are adjusted for multiplicity (parametric simulation method by Edwards and Berry). Subjects receiving the same treatment in more than one period are included in the primary efficacy model with only data from the first instance of each treatment."||0.175|0.049|<0.001
92177358|NCT03676192|184248654|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.77|1.1||||||Adjusted stratified Cox regression model is used to estimate the hazard ratio and its 95% CI for receiving CT-P16 compared with receiving EU-approved Avastin using region (EMEA vs. America vs. Asia), sex (female vs. male), disease status at baseline (recurrence vs. metastatic), and ECOG performance score at baseline (0 vs. 1) as stratification factors.||1.10|0.77|
92254545|NCT02658149|184411051|OTHER|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||||||0.036
92254546|NCT02658149|184411052|OTHER|||||||0.204|||||||Wilcoxon (Mann-Whitney)|||||||0.204
92254547|NCT02658149|184411053|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
92254548|NCT02658149|184411054|OTHER|||||||0.741|||||||t-test, 2 sided|||||||0.741
92254549|NCT02658149|184411055|OTHER|||||||1|||||||t-test, 2 sided|||||||1.0
92254550|NCT02498392|184411096|SUPERIORITY||Difference of Least Square (LS) Means|-0.2|STANDARD_ERROR_OF_MEAN|1.04|=|0.416|TWO_SIDED|60.0|-1.1|0.66|||Mixed-effects Model for Repeated Measure|||||0.66|-1.10|= 0.416
92254551|NCT02498392|184411097|SUPERIORITY||Difference of Least Square (LS) Means|0.3|STANDARD_ERROR_OF_MEAN|0.88|=|0.647|TWO_SIDED|60.0|-0.41|1.07||1-sided|Mixed-effects Model for Repeated Measure|||||1.07|-0.41|= 0.647
92254552|NCT00068822|184411141|SUPERIORITY_OR_OTHER||Adjusted treatment effect|0.7||||0.49|TWO_SIDED|95.0|-1.3|2.8|||ANCOVA|||Between group comparisons, confidence intervals, and P values were calculated with the use of analysis-of-covariance models with adjustment for study group assignment, baseline value of the outcome measure, and study center. Negative treatment effects favor the control procedure, and positive treatment effects favor vertebroplasty.||2.8|-1.3|0.49
92254553|NCT00068822|184411142|SUPERIORITY_OR_OTHER||Treatment Effect|1.0||||0.45|TWO_SIDED|95.0|-1.7|3.7|||ANCOVA|||SF-36 Physical Component Summary treatment effect||3.7|-1.7|0.45
92254554|NCT00068822|184411142|SUPERIORITY_OR_OTHER||Treatment Effect|1.0||||0.83|TWO_SIDED|95.0|-3.7|4.6|||ANCOVA|||SF-36 Mental Component Summary treatment effect||4.6|-3.7|0.83
92254555|NCT00068822|184411142|SUPERIORITY_OR_OTHER||Treatment Effect|0.2||||0.33|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Pain Frequency Index treatment effect||0.6|-0.2|0.33
92254556|NCT00068822|184411142|SUPERIORITY_OR_OTHER||Treatment Effect|0.33||||0.33|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Pain Bothersome Index treatment effect||0.6|-0.2|0.33
92254557|NCT00068822|184411142|SUPERIORITY_OR_OTHER||Treatment Effect|0.05||||0.13|TWO_SIDED|95.0|-0.01|0.11|||ANCOVA|||EQ-5D Index treatment effect||0.11|-0.01|0.13
92254558|NCT00068822|184411142|SUPERIORITY_OR_OTHER||Treatment Effect|0.4||||0.5|TWO_SIDED|95.0|-0.8|1.6|||ANCOVA|||SOF-ADL treatment effect||1.6|-0.8|0.5
92254559|NCT00068822|184411143|SUPERIORITY_OR_OTHER||Adjusted treatment effect|0.7||||0.19|TWO_SIDED|95.0|-0.3|1.7|||ANCOVA|||Between group comparisons, confidence intervals, and P values were calculated with the use of analysis-of-covariance models with adjustment for study group assignment, baseline value of the outcome measure, and study center. Negative treatment effects favor the control procedure, and positive treatment effects favor vertebroplasty.||1.7|-0.3|0.19
92254560|NCT00617162|184411144|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.3989|TWO_SIDED|95.0|-5.5|2.2|||Fisher Exact|||||2.2|-5.5|0.3989
92254561|NCT00424099|184411153|OTHER|||||||0.16|||||||Kruskal-Wallis|||||||0.16
92254562|NCT00424099|184411154|OTHER|||||||0.45|||||||Kruskal-Wallis|||||||0.45
92254563|NCT00435929|184411156|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.656|||||TWO_SIDED|90.0|0.268|1.603||||||Comparison between normal liver function and moderate hepatic impairment for SQV||1.603|0.268|
92254564|NCT00435929|184411156|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.764|||||TWO_SIDED|90.0|0.505|1.156||||||Comparison between normal liver function and moderate hepatic impairment for RTV.||1.156|0.505|
92254565|NCT00435929|184411157|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.716|||||TWO_SIDED|90.0|0.311|1.644||||||Comparison between normal liver function and moderate hepatic impairment for SQV.||1.644|0.311|
92254566|NCT00435929|184411157|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.844|||||TWO_SIDED|90.0|0.551|1.292||||||Comparison between normal liver function and moderate hepatic impairment for RTV.||1.292|0.551|
92254567|NCT02417064|184411167|SUPERIORITY||Difference of Least Square (LS) Means|-3.2||||0.088|TWO_SIDED|95.0|-6.88|0.45|||Mixed Model for Repeated Measures|||||0.45|-6.88|0.088
92254568|NCT02417064|184411167|SUPERIORITY||Difference of Least Square (LS) Means|-4.1|||||TWO_SIDED|95.0|-7.67|-0.49||||||||-0.49|-7.67|
92287080|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|0.166|||<|0.001|TWO_SIDED|95.0|0.101|0.23|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.230|0.101|<0.001
92177359|NCT03676192|184248655|OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.77|1.19||||||Adjusted stratified Cox regression model is used to estimate the hazard ratio and its 95% CI for receiving CT-P16 compared with receiving EU-approved Avastin using region (EMEA vs. America vs. Asia), sex (female vs. male), disease status at baseline (recurrence vs. metastatic), and ECOG performance score at baseline (0 vs. 1) as stratification factors.||1.19|0.77|
92254569|NCT02417064|184411168|SUPERIORITY||Difference of Least Square (LS) Means|-2.0|||=|0.25|TWO_SIDED|95.0|-5.52|1.42|||ANCOVA|||||1.42|-5.52|= 0.250
92254570|NCT02417064|184411168|SUPERIORITY||Difference of Least Square (LS) Means|-4.1|||||TWO_SIDED|95.0|-7.53|-0.6||||||||-0.6|-7.53|
92254571|NCT02437162|184411183|SUPERIORITY||Percentage difference|2.586||||0.669|TWO_SIDED|95.0|-9.138|14.31|||Cochran-Mantel-Haenszel|||||14.310|-9.138|0.669
92254572|NCT02437162|184411183|SUPERIORITY||Percentage difference|-0.646||||0.913|TWO_SIDED|95.0|-12.18|10.887|||Cochran-Mantel-Haenszel|||||10.887|-12.180|0.913
92254573|NCT03321526|184411219|SUPERIORITY|||||||0.5355|TWO_SIDED||||||Log Rank|||||||0.5355
92287081|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|0.138|||<|0.001|TWO_SIDED|95.0|0.074|0.203|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.203|0.074|<0.001
92177360|NCT04731129|184248658|SUPERIORITY|||||||0.023||||||threshold for statistical significance \< 0.05|Fisher Exact|||Abnormal tissular architecture||||0.023
92177361|NCT04731129|184248658|SUPERIORITY|||||||0.01||||||Threshold for statistical significance \< 0.05|Fisher Exact|||Homogeneous cell size||||0.01
92254574|NCT03097133|184411257|SUPERIORITY||Difference of Least Square Means|-3.9|STANDARD_ERROR_OF_MEAN|1.39||0.006|TWO_SIDED|95.0|-6.6|-1.11|||ANCOVA|||||-1.11|-6.60|0.006
92254575|NCT03605836|184411280|SUPERIORITY||Least Squares (LS) Mean Difference|-4.01|||=|0.0021|TWO_SIDED|95.0|-6.55|-1.46|||MMRM||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|||-1.46|-6.55|=0.0021
92254576|NCT03605836|184411280|SUPERIORITY||LS Mean Difference|-4.42|||=|0.0009|TWO_SIDED|95.0|-7.02|-1.82|||MMRM||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|||-1.82|-7.02|=0.0009
92254577|NCT03605836|184411281|SUPERIORITY||LS Mean Difference|-0.33|||=|0.0073|TWO_SIDED|95.0|-0.57|-0.09|||MMRM||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|||-0.09|-0.57|=0.0073
92254578|NCT03605836|184411281|SUPERIORITY||LS Mean Difference|-0.28|||=|0.0245|TWO_SIDED|95.0|-0.53|-0.04|||MMRM||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|||-0.04|-0.53|=0.0245
92254579|NCT01933399|184411286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4||||0.01|TWO_SIDED|95.0|2.2|16.6|||ANCOVA||"Difference in mean change in scores from baseline to follow-up by treatment group with no adjusment for baseline.~a priori threshold determined to be .05. no adjustments for multiple comparisons."|ANCOVA Adjusted for baseline score||16.6|2.2|.01
92254580|NCT01933399|184411286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3||||0.16|TWO_SIDED|95.0|-2.0|12.6||a priori threshold determined to be .05. no adjustments for multiple comparisons.|ANCOVA|Adjustment for baseline.||||12.6|-2.0|.16
92254581|NCT01933399|184411287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.01|TWO_SIDED|95.0|-2.3|-0.4|||ANCOVA|||Adjusted for baseline.||-0.4|-2.3|0.01
92254582|NCT01933399|184411287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.05|TWO_SIDED|95.0|-2.1|0.0|||ANCOVA|||Adjusted for baseline.||0|-2.1|.05
92254583|NCT00633360|184411288|SUPERIORITY_OR_OTHER|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||.59
92254584|NCT00633360|184411289|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||||||.29
92254585|NCT03011775|184411316|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|The threshold for statistical significance was P value of .05||||||<0.05
92254586|NCT03011775|184411317|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
92254587|NCT03011775|184411319|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
92254588|NCT03011775|184411320|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92254589|NCT03011775|184411322|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92254590|NCT03011775|184411323|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92254591|NCT03011775|184411324|SUPERIORITY||||||=|0.3|||||||Wilcoxon (Mann-Whitney)|||||||=0.3
92254592|NCT03748420|184411325|SUPERIORITY||Odds Ratio (OR)|1.29|STANDARD_ERROR_OF_MEAN|0.09845||0.0103|TWO_SIDED|95.0|1.06|1.56|||Regression, Logistic|||||1.56|1.06|0.0103
92254593|NCT03748420|184411326|SUPERIORITY||Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|0.1166||0.7967|TWO_SIDED|95.0|0.82|1.3|||Regression, Logistic|||||1.30|0.82|0.7967
92254594|NCT03748420|184411327|SUPERIORITY||Odds Ratio (OR)|1.18|STANDARD_ERROR_OF_MEAN|0.08906||0.0589|TWO_SIDED|95.0|0.99|1.41|||Regression, Logistic|||||1.41|0.99|0.0589
92254595|NCT03748420|184411328|SUPERIORITY||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|1.0871||0.21|TWO_SIDED|95.0|-0.8|3.5|||Mixed Models Analysis|||||3.5|-0.8|0.21
92254596|NCT03748420|184411329|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.1234||0.2|TWO_SIDED|95.0|-0.4|0.1|||Mixed Models Analysis|||||0.1|-0.4|0.20
92254597|NCT03748420|184411330|SUPERIORITY||Mean Difference (Net)|-7.47|STANDARD_ERROR_OF_MEAN|59.96||0.901|TWO_SIDED|95.0|-124.99|110.04|||Mixed Models Analysis|||||110.04|-124.99|0.901
92254598|NCT01634100|184411367|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and rifampicin divided by empa|Geometric Mean Ratio|135.2|STANDARD_DEVIATION|7.3|||TWO_SIDED|90.0|129.58|141.06|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||141.06|129.58|
92254599|NCT01634100|184411367|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus probenecid divided by empa|Geometric Mean Ratio|153.47|STANDARD_DEVIATION|7.4|||TWO_SIDED|90.0|146.41|160.88|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||160.88|146.41|
92254600|NCT01634100|184411368|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and rifampicin divided by empa|Geometric Mean Ratio|175.14|STANDARD_DEVIATION|15.4|||TWO_SIDED|90.0|160.14|191.56|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||191.56|160.14|
92254601|NCT01634100|184411368|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus probenecid divided by empa|Geometric Mean Ratio|125.6|STANDARD_DEVIATION|15.9|||TWO_SIDED|90.0|113.67|138.78|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||138.78|113.67|
92254602|NCT01634100|184411369|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and rifampicin divided by empa|Geometric Mean Ratio|136.42|STANDARD_DEVIATION|7.5|||TWO_SIDED|90.0|130.61|142.48|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||142.48|130.61|
92254603|NCT01634100|184411369|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus probenecid divided by empa|Geometric Mean Ratio|153.61|STANDARD_DEVIATION|7.5|||TWO_SIDED|90.0|146.5|161.06|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||161.06|146.50|
92254604|NCT01594411|184411422|SUPERIORITY_OR_OTHER||||||<|0.001|||||||one-sided binomial with alpha level of 0|||"The proportion of patients whose final treatment plan changes from the preliminary will be estimated, and a one-sided binomial test with alpha level of .05 will be used to test whether it is greater than 10%.~This is the level at which it is assumed that patient management has been modified by a practically important amount."||||<0.001
92254605|NCT00924729|184411423|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92254606|NCT01332097|184411428|SUPERIORITY||Least squares mean difference|54.2|||||TWO_SIDED|95.0|-41.7|150.1||||||LS Mean difference: Treatment A vs. Treatment B, E, G \& I (placebo) Day 5||150.1|-41.7|
92254607|NCT01332097|184411428|SUPERIORITY||Least squares mean difference|-52.0|||||TWO_SIDED|95.0|-148.5|44.5||||||LS Mean difference: Treatment C vs. Treatment B, E, G \& I (placebo) Day 5||44.5|-148.5|
92254608|NCT01332097|184411428|SUPERIORITY||Least squares mean difference|5.5|||||TWO_SIDED|95.0|-96.0|106.9||||||LS Mean difference: Treatment D vs. Treatment B, E, G \& I (placebo) Day 5||106.9|-96.0|
92254609|NCT01332097|184411428|SUPERIORITY||Least squares mean difference|33.5|||||TWO_SIDED|95.0|-66.8|133.9||||||LS Mean difference: Treatment F vs. Treatment B, E, G \& I (placebo) Day 5||133.9|-66.8|
92254610|NCT01332097|184411428|SUPERIORITY||Least squares mean difference|99.8|||||TWO_SIDED|95.0|-2.4|202.0||||||LS Mean difference: Treatment H vs. Treatment B, E, G \& I (placebo) Day 5||202.0|-2.4|
92254611|NCT01332097|184411428|SUPERIORITY||Least squares mean difference|37.8|||||TWO_SIDED|95.0|-107.1|182.6||||||LS Mean difference: Treatment A vs. Treatment B, E, G \& I (placebo) Day 10||182.6|-107.1|
92254612|NCT01332097|184411428|SUPERIORITY||Least squares mean difference|-72.0|||||TWO_SIDED|95.0|-215.7|71.8||||||LS Mean difference: Treatment C vs. Treatment B, E, G \& I (placebo) Day 10||71.8|-215.7|
92254613|NCT01332097|184411428|SUPERIORITY||Least squares mean difference|-72.3|||||TWO_SIDED|95.0|-241.5|96.9||||||LS Mean difference: Treatment D vs. Treatment B, E, G \& I (placebo) Day 10||96.9|-241.5|
92254614|NCT01332097|184411428|SUPERIORITY||Least squares mean difference|-17.9|||||TWO_SIDED|95.0|-154.9|119.2||||||LS Mean difference: Treatment F vs. Treatment B, E, G \& I (placebo) Day 10||119.2|-154.9|
92254615|NCT01332097|184411428|SUPERIORITY||Least squares mean difference|123.6|||||TWO_SIDED|95.0|-15.8|263.0||||||LS Mean difference: Treatment H vs. Treatment B, E, G \& I (placebo) Day 10||263.0|-15.8|
92254616|NCT00856986|184411430|SUPERIORITY_OR_OTHER||Estimated Treatment Difference, LSMean|-0.52||||||95.0|-0.68|-0.36|||ANCOVA|||The estimated treatment difference between Detemir+Lira 1.8 and Lira 1.8 as well as 95% confidence interval and p-value were calculated by an ANCOVA model with treatment, country and previous OAD as fixed factors and baseline value as covariate. The p-value reflects a two-sided test for the null hypothesis of no difference between the two treatment groups with a significance level of 5% and with the power of 90%.||-0.36|-0.68|
92254617|NCT00856986|184411431|SUPERIORITY_OR_OTHER||Estimated Treatment Difference, LSMean|-0.41||||||95.0|-0.6|-0.21|||ANCOVA||The analysis values for intensified Lira 1.8 mg subjects were kept in the treatment group and the last observation carried forward (LOCF) method was applied.|The estimated treatment difference between Detemir+Lira 1.8 and Lira 1.8 as well as 95% confidence interval and p-value were calculated by an ANCOVA model with treatment, country and previous OAD as fixed factors and baseline value as covariate. The p-value reflects a two-sided test for the null hypothesis of no difference between the two treatment groups with a significance level of 5%.||-0.21|-0.6|
92254618|NCT00856986|184411432|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS mean|-0.51||||||95.0|-0.7|-0.31|||ANCOVA||The mean change in HbA1c from randomisation to week 52 was analysed including the values before intensification as LOCF for intensified subjects|||-0.31|-0.7|
92254619|NCT02448914|184411463|NON_INFERIORITY_OR_EQUIVALENCE|Analysis was first to attempt to show non-inferiority. To show non-inferiority of TRIGEL over Duodopa, the lower limit of the two-sided CI for the treatment ratio had to be above the chosen non-inferiority margin of 0.9. If non-inferiority was shown, analysis continued with test of superiority. To show superiority of TRIGEL versus Duodopa, the lower confidence limit had to be above 1 (corresponding to a p-value less than 0.05).|back-transformed ratio|1.382|||<|0.0001|TWO_SIDED|95.0|1.264|1.511|||ANCOVA|||Levodopa AUC 0-14h/dose, was derived using the trapezoidal method and divided by the total administered dose of levodopa during the corresponding time interval.The primary endpoint was log transformed and analysed using an ANCOVA, adjusting for treatment, period and patient. The back-transformed ratio of TRIGEL over Duodopa was calculated together with 95% confidence intervals (CI) and the associated (2 sided) p value.||1.511|1.264|<0.0001
92254620|NCT03209362|184411488|SUPERIORITY||Least Squares Mean Difference|-2.9||||0.5453|TWO_SIDED|95.0|-12.4|6.6|||ANCOVA|||||6.6|-12.4|0.5453
92287082|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|0.174|||<|0.001|TWO_SIDED|95.0|0.113|0.235|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.235|0.113|<0.001
92254621|NCT03209362|184411489|SUPERIORITY||Least Squares Mean Difference|-3.5||||0.5386|TWO_SIDED|95.0|-14.9|7.8|||Longitudinal model|||Week 12||7.8|-14.9|0.5386
92254622|NCT03209362|184411489|SUPERIORITY||Least Squares Mean Difference|-3.3||||0.5873|TWO_SIDED|95.0|-15.2|8.6|||Longitudinal model|||Week 26||8.6|-15.2|0.5873
92254623|NCT03209362|184411490|SUPERIORITY||Least Squares Mean Difference|-2.9||||0.6347|TWO_SIDED|95.0|-15.0|9.2|||Longitudinal model|||Week 12||9.2|-15.0|0.6347
92254624|NCT03209362|184411490|SUPERIORITY||Least Squares Mean Difference|-1.8||||0.7806|TWO_SIDED|95.0|-14.3|10.8|||Longitudinal model|||Week 26||10.8|-14.3|0.7806
92254625|NCT03209362|184411491|SUPERIORITY||Least Squares Mean Difference|-0.9||||0.8819|TWO_SIDED|95.0|-13.2|11.4|||Longitudinal model|||Week 12||11.4|-13.2|0.8819
92254626|NCT03209362|184411491|SUPERIORITY||Least Squares Mean Difference|-5.6||||0.3796|TWO_SIDED|95.0|-18.3|7.1|||Longitudinal model|||Week 26||7.1|-18.3|0.3796
92254627|NCT03209362|184411492|SUPERIORITY||Least Squares Mean Difference|-3.0||||0.6217|TWO_SIDED|95.0|-14.9|9.0|||Longitudinal model|||Week 12||9.0|-14.9|0.6217
92254628|NCT03209362|184411492|SUPERIORITY||Least Squares Mean Difference|-2.5||||0.6901|TWO_SIDED|95.0|-14.8|9.8|||Longitudinal model|||Week 26||9.8|-14.8|0.6901
92177362|NCT04731129|184248658|SUPERIORITY|||||||0.01||||||threshold for statistical significance \< 0.05|Fisher Exact|||Homogeneous cell shape||||0.01
92177363|NCT04731129|184248658|SUPERIORITY|||||||0.013||||||threshold for statistical significance \< 0.05|Fisher Exact|||Homogeneous cell fluorescence||||0.013
92254629|NCT01628042|184411493|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.83|||||TWO_SIDED|90.0|1.36|2.46|||ANCOVA|||||2.46|1.36|
92254630|NCT01628042|184411493|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|2.06|||||TWO_SIDED|90.0|1.55|2.74|||ANCOVA|||||2.74|1.55|
92254631|NCT01628042|184411493|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.49|||||TWO_SIDED|90.0|1.11|2.0|||ANCOVA|||||2.00|1.11|
92254632|NCT01628042|184411494|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.42|||||TWO_SIDED|90.0|0.89|2.27|||ANCOVA|||||2.27|0.89|
92254633|NCT01628042|184411494|SUPERIORITY_OR_OTHER||Geometric least-squares mean ration|1.68|||||TWO_SIDED|90.0|1.07|2.63|||ANCOVA|||||2.63|1.07|
92254634|NCT01628042|184411494|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.96|||||TWO_SIDED|90.0|1.23|3.13|||ANCOVA|||||3.13|1.23|
92254635|NCT01628042|184411495|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|0.55|||||TWO_SIDED|90.0|0.41|0.74|||ANCOVA|||||0.74|0.41|
92254636|NCT01628042|184411495|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|0.49|||||TWO_SIDED|90.0|0.36|0.65|||ANCOVA|||||0.65|0.36|
92254637|NCT01628042|184411495|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|0.67|||||TWO_SIDED|90.0|0.5|0.9|||ANCOVA|||||0.90|0.50|
92254638|NCT04852666|184411501|SUPERIORITY|||||||0.751|||||||t-test, 2 sided|||||||0.751
92254639|NCT04852666|184411501|SUPERIORITY|||||||0.372|||||||t-test, 2 sided|||||||0.372
92177364|NCT04731129|184248658|SUPERIORITY|||||||0.16||||||threshold for statistical significance \< 0.05|Fisher Exact|||Blood vessel dysplasia||||0.16
92177365|NCT04731129|184248658|SUPERIORITY|||||||0.17||||||threshold for statistical significance \< 0.05|Fisher Exact|||Organized conjunctive fibers||||0.17
92177366|NCT04731129|184248658|SUPERIORITY|||||||0.049||||||threshold for statistical significance \< 0.05|Fisher Exact|||Full chia seed sign||||0.049
92177367|NCT04731129|184248658|SUPERIORITY|||||||0.0041||||||threshold for statistical significance \< 0.05|Fisher Exact|||General physician conclusion||||0.0041
92254640|NCT04852666|184411502|SUPERIORITY|||||||0.778|||||||t-test, 2 sided|||||||0.778
92254641|NCT04852666|184411502|SUPERIORITY|||||||0.357|||||||t-test, 2 sided|||||||0.357
92254642|NCT04852666|184411503|SUPERIORITY|||||||0.012|||||||Chi-squared|||||||0.012
92254643|NCT04852666|184411503|SUPERIORITY|||||||0.956|||||||Chi-squared|||||||0.956
92254644|NCT04852666|184411504|SUPERIORITY|||||||0.103|||||||Chi-squared|||||||0.103
92254645|NCT04852666|184411504|SUPERIORITY|||||||0.025|||||||Chi-squared|||||||0.025
92254646|NCT04852666|184411505|SUPERIORITY|||||||0.785|||||||t-test, 2 sided|||||||0.785
92254647|NCT04852666|184411506|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.200
92254648|NCT04852666|184411507|SUPERIORITY|||||||0.887|||||||t-test, 2 sided|||||||0.887
92254649|NCT04852666|184411507|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||||||0.204
92254650|NCT05426460|184411521|SUPERIORITY|||||||0.438|||||||ANOVA|||2 x 2 ANOVA||||.438
92254651|NCT05426460|184411522|SUPERIORITY|||||||0.847|||||||ANOVA|||2 x 2 ANOVA||||.847
92254652|NCT05426460|184411523|SUPERIORITY|||||||0.57|||||||ANOVA|||2 X 2 ANOVA||||.570
92254653|NCT05426460|184411524|SUPERIORITY|||||||0.657|||||||ANOVA|||2 x 2 ANOVA||||.657
92254654|NCT05426460|184411525|SUPERIORITY|||||||0.254|||||||ANOVA|||2 x 2 ANOVA||||.254
92254655|NCT05426460|184411526|SUPERIORITY|||||||0.852|||||||ANOVA|||2 x 2 ANOVA with Main effect p-values for tDCS and AAT reported in comments below||||.852
92254656|NCT05426460|184411527|SUPERIORITY|||||||0.732|||||||ANOVA|||2 x 2 ANOVA||||.732
92254657|NCT05426460|184411528|SUPERIORITY|||||||0.038|||||||ANOVA|||2 x 2 ANOVA||||.038
92254658|NCT05426460|184411529|SUPERIORITY|||||||0.029|||||||ANOVA|||2 x 2 ANOVA||||.029
92254659|NCT05426460|184411530|SUPERIORITY|||||||0.353|||||||ANOVA|||2 x 2 ANOVA||||.353
92254660|NCT01405027|184411544|SUPERIORITY_OR_OTHER|||||||0.4864|TWO_SIDED||||||ANOVA|||||||0.4864
92254661|NCT01193049|184411549|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.25||||0.001|TWO_SIDED|90.0|0.14|0.46||1-sided p-value, α = 0.05|ANOVA|||GM Fold Reduction (FR) is the GM of individual FC(Prednisone)/FC (Placebo) from SP.||0.46|0.14|0.001
92254662|NCT01193049|184411549|SUPERIORITY_OR_OTHER||GM FR from Placebo : NE|0.2|||<|0.001|TWO_SIDED|90.0|0.13|0.3||1-sided p value, α = 0.05|ANOVA|||GM FR is the GM of individual FC(Prednisone)/FC(Placebo) from NE.||0.30|0.13|<0.001
92254663|NCT01193049|184411549|SUPERIORITY_OR_OTHER||Correlation FC from BL: SP vs NE|0.2||||0.553||||||Unadjusted for Baseline and Period Effects|Pearson's correlation coefficient|||Correlation between SP and NE of FC from BL in IL-5 after placebo treatment.||||0.553
92254664|NCT01193049|184411549|SUPERIORITY_OR_OTHER||Correlation FR from Placebo :SP vs NE|-0.02||||0.964||||||Unadjusted for Baseline and Period Effects|Pearson's correlation coefficient|||Correlation between SP and NE of FR from placebo in IL-5 after prednisone treatment.||||0.964
92254665|NCT01193049|184411550|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.27||||0.009|TWO_SIDED|90.0|0.12|0.62||1-sided p-value, α = 0.05|ANOVA|||GM FR is the GM of individual FC(Prednisone)/FC (Placebo) from SP.||0.62|0.12|0.009
92254666|NCT01193049|184411550|SUPERIORITY_OR_OTHER||GM FR from Placebo : NE|0.31|||<|0.001|TWO_SIDED|90.0|0.22|0.43||1-sided p-value, α = 0.05|ANOVA|||GM FR is the GM of individual FC Prednisone)/FC(Placebo) from NE.||0.43|0.22|<0.001
92254667|NCT01193049|184411550|SUPERIORITY_OR_OTHER||Correlation FC from BL: SP vs NE|-0.02||||0.962||||||Unadjusted for Baseline and Period Effects|Pearson's correlation coefficient|||Correlation between SP and NE of FC from BL in IL-13 after placebo treatment.||||0.962
92254668|NCT01193049|184411550|SUPERIORITY_OR_OTHER||Correlation FR from Placebo: SP vs NE|0.07||||0.83||||||Unadjusted for Baseline and Period Effects|Pearson's correlation coefficient|||Correlation between SP and NE of FR from placebo in IL-13 after prednisone treatment.||||0.83
92254669|NCT01193049|184411551|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.8||||0.258|TWO_SIDED|90.0|0.43|1.47||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) from SP.||1.47|0.43|0.258
92254670|NCT01193049|184411551|SUPERIORITY_OR_OTHER||GM FR from Placebo: NE|1.08||||0.681|TWO_SIDED|90.0|0.8|1.46||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) from NE.||1.46|0.80|0.681
92254671|NCT01193049|184411552|SUPERIORITY_OR_OTHER||GM FR from Placebo:SP|0.61||||0.117|TWO_SIDED|90.0|0.3|1.24||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) from SP.||1.24|0.30|0.117
92254672|NCT01193049|184411552|SUPERIORITY_OR_OTHER||GM FR from Placebo: NE|0.64||||0.011|TWO_SIDED|90.0|0.47|0.86||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) from NE.||0.86|0.47|0.011
92254673|NCT01193049|184411554|SUPERIORITY_OR_OTHER||GM FR from Placebo: IL-5|1.51||||0.01|TWO_SIDED|90.0|1.15|1.99||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) for IL-5.||1.99|1.15|0.010
92254674|NCT01193049|184411554|SUPERIORITY_OR_OTHER||GM FR from Placebo: IL-13|1.35||||0.02|TWO_SIDED|90.0|1.07|1.71||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC(Prednisone)/FC (Placebo) for IL-13.||1.71|1.07|0.020
92254675|NCT01193049|184411555|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.82||||0.119|TWO_SIDED|90.0|0.62|1.09||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) in IL-17 from SP.||1.09|0.62|0.119
92254676|NCT01193049|184411555|SUPERIORITY_OR_OTHER||GM FR from Placebo: NE|0.68||||0.103|TWO_SIDED|90.0|0.41|1.14||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) in IL-17 from NE.||1.14|0.41|0.103
92254677|NCT01193049|184411556|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.6||||0.003|TWO_SIDED|90.0|0.46|0.77||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) in IL-1β from SP.||0.77|0.46|0.003
92254678|NCT01193049|184411556|SUPERIORITY_OR_OTHER||GM FR from Placebo: NE|0.49||||0.036|TWO_SIDED|90.0|0.26|0.93||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC(Prednisone)/FC (Placebo) in IL-1β from NE.||0.93|0.26|0.036
92254679|NCT01193049|184411557|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.7||||0.143|TWO_SIDED|90.0|0.4|1.24||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC(Prednisone)/FC (Placebo) in MIP-1β from SP.||1.24|0.40|0.143
92177368|NCT03386578|184248670|OTHER||Incidence rate ratio|1.62|||||TWO_SIDED|95.0|0.89|2.94||||||The incidence rate ratio of cumulative maternal adverse events was calculated between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and the PrEP-unexposed (Cohort 2/Step 1) reference group based on incidence per person-time follow-up. Maternal participants in Cohort 2/Step 2 contributed person-time to both Cohort 2/Step 1 and Step 2.||2.94|0.89|
92254680|NCT01193049|184411557|SUPERIORITY_OR_OTHER||GM FR from Placebo: NE|0.61||||0.056|TWO_SIDED|90.0|0.37|1.02||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) in MIP-1β from NE.||1.02|0.37|0.056
92287083|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|0.149|||<|0.001|TWO_SIDED|95.0|0.101|0.197|||ANCOVA|||"Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. Subjects receiving the same treatment in more than one period are included in the primary efficacy model with only data from the first instance of each treatment."||0.197|0.101|<0.001
92254681|NCT05085327|184411562|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|CLM Original: Labeled SPF|13.0|||||TWO_SIDED|||||||||||||
92254682|NCT05085327|184411562|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|CLM Mint: Labeled SPF|13.0|||||TWO_SIDED|||||||||||||
92254683|NCT05085327|184411562|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|CLM Black Cherry: Labeled SPF|13.0|||||TWO_SIDED|||||||||||||
92254684|NCT02234050|184411569|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.204|TWO_SIDED|80.0|0.997|2.028|||Regression, Cox|||||2.028|0.997|0.204
92254685|NCT02234050|184411572|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.94|TWO_SIDED|95.0|0.53|1.71|||Regression, Cox|||||1.71|0.53|0.94
92254686|NCT00592176|184411574|SUPERIORITY_OR_OTHER|||||||0.83|||||||t-test, 2 sided|||||||0.83
92254687|NCT02473289|184411580|SUPERIORITY||Difference of Least Square (LS) Means|-0.8|STANDARD_ERROR_OF_MEAN|1.67||0.31|TWO_SIDED|75.0|-2.77|1.1||1-sided|MMRM|Here 'MMRM' refers to Mixed-effect Model Using Repeated Measures.||||1.10|-2.77|0.310
92254688|NCT03285490|184411589|SUPERIORITY||||||<|0.0001||||||P-value threshold for statistical significance was 0.5%|Cochran-Mantel-Haenszel|||Statistical significance in the study for Day 57 complete clearance rate was analyzed using a Cochran-Mantel-Haenszel model controlling for treatment location (face or scalp) and treatment group (Placebo versus KX2-391 Ointment 1%).||||<0.0001
92254689|NCT03285490|184411590|SUPERIORITY||||||<|0.0001||||||P-value threshold for statistical significance was 0.5%.|Cochran-Mantel-Haenszel|||Statistical significance in the study for Day 57 partial clearance rate was analyzed using a Cochran-Mantel-Haenszel model controlling for treatment location (face or scalp) and treatment group (Placebo versus KX2-391 Ointment 1%).||||<0.0001
92254690|NCT03689972|184411622|SUPERIORITY||Ratio of Mean|4.24|||=|0.0755|TWO_SIDED|95.0|0.86|20.85|||Negative Binomial Regression|The model included treatment as classification variable \& baseline body weight, duration of natalizumab exposure at baseline, \& region as covariates.||||20.85|0.86|=0.0755
92254691|NCT03689972|184411623|SUPERIORITY||Percentage|87.8|||||TWO_SIDED|95.0|80.68|93.01|||Exact Binomial method|Percentage of participants preferring natalizumab SC at end of crossover period of Part 2, and 95% CI was calculated using the exact binomial method.||||93.01|80.68|
92254692|NCT03689972|184411625|SUPERIORITY||Ratio of annualized relapse rate|1.32481|||=|0.6312|TWO_SIDED|95.0|0.42016|4.17725|||Poisson Regression|Poisson regression model was adjusted for baseline body weight, duration of natalizumab exposure at baseline, and region.||||4.17725|0.42016|=0.6312
92254693|NCT03689972|184411631|SUPERIORITY||Difference|0.47|||=|0.764|TWO_SIDED|95.0|-2.61|3.54||Performed with factors:route of administration,period,sequence,body weight,duration of natalizumab exposure,stratification factor,baseline TSQM score.|Linear Mixed Effects Model|||||3.54|-2.61|=0.764
92254694|NCT03689972|184411638|SUPERIORITY||Difference|0.08|||=|0.357|TWO_SIDED|95.0|-0.09|0.25||Performed with factors:route of administration,period,sequence,body weight,duration of natalizumab exposure,stratification factor,baseline TSQM score.|Linear Mixed Effects Model|||||0.25|-0.09|=0.357
92254695|NCT04338321|184411675|SUPERIORITY||Mean Difference (Final Values)|9.44|||=|0.003|TWO_SIDED|95.0|3.19|15.68|||Cochran-Mantel-Haenszel|||||15.68|3.19|=0.003
92254696|NCT00371540|184411722|SUPERIORITY_OR_OTHER|||||||0.65|||||||Fisher Exact|||Note: The differences between the number of individuals evaluable for this secondary outcome and the number of individuals evaluable for the primary outcome is related to specimen loss by the laboratory. As such of the Routine care group only 96 of 102 patients completing the study were evaluable for the viral load outcome and only 86 of 87 patients in the Home visit group.||||0.65
92177369|NCT03386578|184248671|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.52|1.5||||||Odds ratio comparing the proportion of mothers with adverse pregnancy outcomes between the PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed (Cohort 2/Step 1) reference group.||1.50|0.52|
92254697|NCT00371540|184411723|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
92254698|NCT00371540|184411724|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Fisher Exact|||||||<0.05
92177370|NCT03386578|184248671|OTHER|||||||0.68|||||||Fisher Exact|||Test the differences in the proportion of mothers with adverse pregnancy outcomes between PrEP-exposed (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed (Cohort 2/Step 2) groups.||||0.68
92177371|NCT03386578|184248672|OTHER||Incidence rate ratio|1.29|||||TWO_SIDED|95.0|0.7|2.38||||||The incidence rate ratio of cumulative infant AEs between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed (Cohort 2/Step 1) reference group was based on incidence per person-time follow-up. Cohort 2/Step 2 infants contributed person-time to both Cohort 2/Step 1 and Step 2.||2.38|0.70|
92254699|NCT01989572|184411725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.528|||||||Log Rank|stratifying on HLA-A2 status, site of metastases and number of metastatic lesions.||||||0.528
92254700|NCT01989572|184411726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131|||||||Log Rank|stratifying on HLA-A2 status, site of metastases, and number of metastatic lesions||||||0.131
92254701|NCT01989572|184411727|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Log Rank|stratifying on GM-CSF, site of metastases and number of metastatic lesions||||||0.60
92254702|NCT01989572|184411728|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||||||stratifying on GM-CSF, site of metastases and number of metastatic lesions|Log Rank|||||||0.71
92254703|NCT01989572|184411729|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88|||||||Log Rank|stratifying on site of metastases and number of metastatic lesions||Treatment arm comparison in patients with positive HLA-A2 status||||0.88
92177372|NCT03386578|184248673|OTHER|||||||0.18|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant whole-body bone mineral content (WB-BMC) at birth between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.18
92177373|NCT03386578|184248674|OTHER|||||||0.39|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant lumbar-spine bone mineral content (WB-BMC) at birth between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.39
92254704|NCT01989572|184411729|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69|||||||Log Rank|stratifying on site of metastases and number of metastatic lesions||Treatment arm comparison in patients with negative HLA-A2 status||||0.69
92254705|NCT01989572|184411730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91|||||||Log Rank|stratifying on site of metastases and number of metastatic lesions||Treatment arm comparison in patients with positive HLA-A2 status||||0.91
92254706|NCT01989572|184411730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|||||||Log Rank|stratifying on site of metastases and number of metastatic lesions||Treatment arm comparisons in patients with negative HLA-A2 status||||0.13
92254707|NCT00262639|184411731|SUPERIORITY|||||||0.03|||||||Regression, Logistic|||||||0.03
92254708|NCT00262639|184411732|SUPERIORITY|||||||0.0006||||||This p value is for the interaction of AW status by medication group.|ANOVA|||The analysis was an ANOVA interaction analysis with alcohol withdrawal (AW) group (Low vs. High) by medication group (active versus placebo medication) across the 6 weeks of the medication trial.||||0.0006
92254709|NCT02280096|184411735|SUPERIORITY||t-boostrap|0.028||||0.028|TWO_SIDED||||||t-test, 1 sided|||||||0.028
92254710|NCT02280096|184411736|SUPERIORITY||t-boostrap|0.001||||0.001|ONE_SIDED||||||t-test, 1 sided|||||||0.001
92254711|NCT02280096|184411737|SUPERIORITY||t-boostrap|0.016||||0.016|TWO_SIDED||||||t-test, 1 sided|||||||0.016
92254712|NCT02280096|184411738|SUPERIORITY||t-boostrap|0.64||||0.64|ONE_SIDED||||||t-test, 1 sided|||Reading speed||||0.64
92254713|NCT02280096|184411738|SUPERIORITY||t-boostrap|0.43||||0.43|TWO_SIDED||||||t-test, 1 sided|||Count speed||||0.43
92254714|NCT02280096|184411738|SUPERIORITY||t-boostrap|0.9||||0.9|TWO_SIDED||||||t-test, 1 sided|||Alternation||||0.9
92254715|NCT02280096|184411739|SUPERIORITY||t-boostrap|0.83||||0.83|TWO_SIDED||||||t-test, 1 sided|||||||0.83
92254716|NCT02280096|184411740|SUPERIORITY||t-boostrap|0.92||||0.92|ONE_SIDED||||||t-test, 1 sided|||||||0.92
92254717|NCT02280096|184411741|SUPERIORITY||t-boostrap|0.017||||0.017|TWO_SIDED||||||t-test, 1 sided|||Total moves||||0.017
92254718|NCT02280096|184411741|SUPERIORITY||t-boostrap|0.01||||0.01|TWO_SIDED||||||t-test, 1 sided|||Correct moves||||0.010
92254719|NCT02280096|184411742|SUPERIORITY||t-boostrap|0.001||||0.001|TWO_SIDED||||||t-test, 1 sided|||Execution time||||0.001
92254720|NCT02280096|184411742|SUPERIORITY||t-boostrap|0.001||||0.001|TWO_SIDED||||||t-test, 1 sided|||Problem-solving time||||0.001
92254721|NCT03733132|184411749|SUPERIORITY|||||||0.854|||||||t-test, 2 sided|||||||0.854
92254722|NCT03733132|184411750|SUPERIORITY|||||||0.389|||||||t-test, 2 sided|||||||0.389
92254723|NCT03733132|184411751|SUPERIORITY|||||||0.609|||||||t-test, 2 sided|||||||0.609
92254724|NCT03733132|184411752|SUPERIORITY|||||||0.371|||||||t-test, 2 sided|||||||0.371
92254725|NCT03733132|184411753|SUPERIORITY|||||||0.686|||||||t-test, 2 sided|||||||0.686
92254726|NCT02219516|184411763|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|153.0|||||TWO_SIDED|90.0|115.0|203.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||203|115|
92254727|NCT02219516|184411763|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|173.0|||||TWO_SIDED|90.0|131.0|230.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||230|131|
92254728|NCT02219516|184411763|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|228.0|||||TWO_SIDED|90.0|155.0|336.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||336|155|
92283669|NCT03227445|184471050|SUPERIORITY||Odds Ratio (OR)|6.88|||<|0.001|TWO_SIDED|95.0|1.97|54.28|||stratified exact logistic model||Participants included in the model as fixed strata, treatment option was included in the exact statement and period included as fixed effects.||"There are three intercurrent events identified which could impact upon the estimand of interest:~* The participant could withdraw from randomised study device sequence and therefore withdraw from the study~* The participant could change their standard COPD maintenance medication device to one delivered via ELLIPTA, DISKUS or HANDIHALER; these subjects should have been withdrawn from the study according to the protocol.~* The participant could attend the visit without the device/s they were randomised to, in which case correct use cannot be assessed as described in the protocol.~Rescue Medication use and change to maintenance COPD medication which is not delivered via ELLIPTA, DISKUS or HANDIHALER are not considered intercurrent events"|54.28|1.97|<0.001
92283670|NCT03227445|184471052|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Sensitivity Analyses (Primary Estimand: Hypothetical)||||||<0.001
92254729|NCT02219516|184411765|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|131.0|||||TWO_SIDED|90.0|98.6|174.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||174|98.6|
92283671|NCT03227445|184471057|SUPERIORITY||Odds Ratio (OR)|8.85|||<|0.001|TWO_SIDED|95.0|3.45||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Participants included in the model as fixed strata, treatment option was included in the exact statement and period included as fixed effects.||||3.45|<0.001
92254730|NCT02219516|184411765|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|222.0|||||TWO_SIDED|90.0|171.0|287.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||287|171|
92254731|NCT02219516|184411765|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|211.0|||||TWO_SIDED|90.0|139.0|319.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||319|139|
92254732|NCT02219516|184411766|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|124.0|||||TWO_SIDED|90.0|88.8|173.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||173|88.8|
92254733|NCT02219516|184411766|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|248.0|||||TWO_SIDED|90.0|168.0|366.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||366|168|
92254734|NCT02219516|184411766|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|230.0|||||TWO_SIDED|90.0|146.0|363.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||363|146|
92254735|NCT02219516|184411768|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|76.0|||||TWO_SIDED|90.0|57.1|101.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||101|57.1|
92254736|NCT02219516|184411768|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|45.1|||||TWO_SIDED|90.0|34.9|58.3|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||58.3|34.9|
92177374|NCT03386578|184248675|OTHER|||||||0.12|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant lumbar-spine bone mineral content (WB-BMC) at week 26 between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.12
92177375|NCT03386578|184248676|OTHER|||||||0.7|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant creatinine levels at birth between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.70
92177376|NCT03386578|184248677|OTHER|||||||0.58|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant creatinine levels at week 26 between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.58
92177377|NCT03386578|184248678|OTHER|||||||0.08|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant creatinine clearance rate at birth between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.08
92177378|NCT03386578|184248679|OTHER|||||||0.52|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant creatinine clearance rate at week 26 between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1)||||0.52
92177379|NCT03386578|184248680|OTHER|||||||0.3|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant length-for-age z-score at birth between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.30
92177380|NCT03386578|184248681|OTHER|||||||0.06|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant length-for-age z-score at week 26 between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.06
92177381|NCT03386578|184248682|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92283672|NCT03227445|184471058|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Sensitivity Analyses (Supplementary Estimand: Composite)||||||<0.001
92177382|NCT04778397|184248724|SUPERIORITY||Stratified Hazard Ratio|1.132||||0.507|TWO_SIDED|95.0|0.783|1.637|||Stratified log-rank test|P-value from stratified log-rank test.|||Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors (appropriateness for non-intensive therapy vs intensive therapy, age (\< 75 years, \>=75 years), geographic region (US sites, outside the US sites)).|1.637|0.783|0.5070
92177383|NCT04778397|184248725|SUPERIORITY||Stratified Hazard Ratio|1.183||||0.3237|TWO_SIDED|95.0|0.845|1.654|||Stratified Log-rank test|P-value from stratified log-rank test.|||Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors (appropriateness for non-intensive therapy vs intensive therapy, age (\< 75 years, \>=75 years), geographic region (US sites, outside the US sites)).|1.654|0.845|0.3237
92177384|NCT04778397|184248726|SUPERIORITY||Stratified Hazard Ratio|1.389||||0.0661|TWO_SIDED|95.0|1.043|1.848|||Stratified Log-rank test|P-value for comparing the event free survival functions from the two treatment groups was from stratified log-rank test, adjusted for randomization.|||Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors: therapy appropriateness, age (\< 75 years, \>=75 years), geographic region (US sites, outside the US sites).|1.848|1.043|0.0661
92177385|NCT04778397|184248727|SUPERIORITY||Stratified Odds Ratio|0.25|||||TWO_SIDED|95.0|0.123|0.506|||||||Odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for randomization stratification factors (appropriateness for non-intensive therapy versus intensive therapy, age (\< 75 years, \>=75 years), geographic region (US sites, outside US sites)).|0.506|0.123|
92177386|NCT04778397|184248728|SUPERIORITY||Stratified Odds Ratio|0.072|||||TWO_SIDED|95.0|0.009|0.559|||||||Odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for randomization stratification factors (appropriateness for non-intensive therapy versus intensive therapy, age (\< 75 years, \>=75 years), geographic region (US sites, outside US sites)).|0.559|0.009|
92177387|NCT04778397|184248729|SUPERIORITY||Stratified Odds Ratio|0.215|||||TWO_SIDED|95.0|0.108|0.428|||||||Odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for randomization stratification factors (appropriateness for non-intensive therapy versus intensive therapy, age (\< 75 years, \>=75 years), geographic region (US sites, outside US sites)).|0.428|0.108|
92177388|NCT03987022|184248748|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||.16
92177389|NCT03987022|184248749|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92177390|NCT03987022|184248750|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||.01
92177391|NCT03987022|184248751|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92177392|NCT03987022|184248752|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||.58
92177393|NCT03987022|184248753|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||.47
92177394|NCT03987022|184248754|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
92177395|NCT03987022|184248755|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||.02
92177396|NCT03987022|184248756|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92177397|NCT03308877|184248758|OTHER|||||||0.07||||||Covariates include education \& percent days abstinent at baseline.|Regression, Linear|||Hypothesis 1: Affective psychopathy scores will moderate response to a BMI such that individuals with lower scores will benefit relative to controls, but individuals with higher psychopathy scores will not benefit from the intervention in terms of percent days abstinent.||||.07
92177398|NCT03308877|184248758|OTHER|||||||0.02|||||||Regression, Linear|||Sensitivity analysis: proximal follow-up (3 months following BMI or SC)||||.02
92177399|NCT03308877|184248758|OTHER||B|0.063|||<|0.01|TWO_SIDED|95.0|0.007|0.156|||Regression, Linear|bias corrected bootstrap||Increased readiness to change will be associated with decreased substance use.||.156|.007|<.01
92177400|NCT03308877|184248759|OTHER|||||||0.74|||||||Regression, Linear|||||||.74
92177401|NCT03308877|184248760|OTHER|||||||0.88|||||||Regression, Logistic|||||||.88
92177402|NCT04685135|184248771|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.45|0.76|||Log Rank|HR and CI are from stratified Cox proportional hazard model||||0.76|0.45|<0.0001
92283673|NCT03227445|184471059|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Sensitivity Analyses (Primary Estimand: Hypothetical)||||||<0.001
92283674|NCT03227445|184471060|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Sensitivity Analyses (Supplementary Composite Estimand)||||||<0.001
92254737|NCT02219516|184411768|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|47.8|||||TWO_SIDED|90.0|31.5|72.5|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||72.5|31.5|
92254738|NCT02219516|184411769|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|80.8|||||TWO_SIDED|90.0|57.9|113.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||113|57.9|
92254739|NCT02219516|184411769|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|40.3|||||TWO_SIDED|90.0|27.3|59.5|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||59.5|27.3|
92254740|NCT02219516|184411769|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|43.5|||||TWO_SIDED|90.0|27.5|68.7|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||68.7|27.5|
92254741|NCT02219516|184411770|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|95.4|||||TWO_SIDED|90.0|60.6|150.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||150|60.6|
92254742|NCT02219516|184411770|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|58.3|||||TWO_SIDED|90.0|30.2|113.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||113|30.2|
92254743|NCT02219516|184411770|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|21.2|||||TWO_SIDED|90.0|13.6|32.8|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||32.8|13.6|
92254744|NCT01872897|184411771|SUPERIORITY||Mean Difference (Final Values)|-9.79||||0.0003|TWO_SIDED|95.0|-14.85|-4.74|||Mixed Models Analysis|||||-4.74|-14.85|0.0003
92254745|NCT01872897|184411772|SUPERIORITY||Mean Difference (Final Values)|-15.76|||<|0.0001|TWO_SIDED|95.0|-22.82|-8.71|||Mixed Models Analysis|||||-8.71|-22.82|<0.0001
92283675|NCT03227445|184471061|SUPERIORITY||Odds Ratio (OR)|6.06|||<|0.001|TWO_SIDED|95.0|2.08|24.55|||stratified exact logistic model||Participants included in the model as fixed strata, treatment option was included in the exact statement and period included as fixed effects.|||24.55|2.08|<0.001
92254746|NCT01872897|184411773|SUPERIORITY||Median Difference (Final Values)|-19.4||||0.0004|TWO_SIDED|95.0|-29.6|-9.2|||Mixed Models Analysis|||||-9.2|-29.6|0.0004
92254747|NCT01872897|184411774|SUPERIORITY||Mean Difference (Final Values)|-16.3||||0.0019|TWO_SIDED|95.0|-26.2|-6.4|||Mixed Models Analysis|||||-6.4|-26.2|0.0019
92177403|NCT04685135|184248773|SUPERIORITY||Odds Ratio (OR)|4.68|||<|0.0001|TWO_SIDED|95.0|2.56|8.56|||Cochran Mantel Haenszel chi-square test|||||8.56|2.56|<0.0001
92254748|NCT01872897|184411775|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.029|TWO_SIDED|95.0|-1.6|-0.1|||Mixed Models Analysis|||||-0.1|-1.6|0.0290
92254749|NCT01872897|184411776|SUPERIORITY||Mean Difference (Final Values)|-14.4|||<|0.0001|TWO_SIDED|95.0|-20.57|-8.23|||Mixed Models Analysis|||||-8.23|-20.57|<0.0001
92254750|NCT01872897|184411777|SUPERIORITY||Mean Difference (Final Values)|-23.37|||<|0.0001|TWO_SIDED|95.0|-31.55|-15.19|||Mixed Models Analysis|||||-15.19|-31.55|<0.0001
92254751|NCT01872897|184411778|SUPERIORITY||Mean Difference (Final Values)|-7.3|||<|0.0001|TWO_SIDED|95.0|-10.0|-4.6|||Mixed Models Analysis|||||-4.6|-10.0|<0.0001
92254752|NCT01872897|184411779|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.0001|TWO_SIDED|95.0|-9.4|-3.3|||Mixed Models Analysis|||||-3.3|-9.4|0.0001
92254753|NCT01872897|184411780|SUPERIORITY||Mean Difference (Final Values)|-6.3||||0.0075|TWO_SIDED|95.0|-10.9|-1.8|||Mixed Models Analysis|||||-1.8|-10.9|0.0075
92254754|NCT01872897|184411781|SUPERIORITY||Mean Difference (Final Values)|-24.145||||0.0007|TWO_SIDED|95.0|-37.432|-10.858|||Mixed Models Analysis|||||-10.858|-37.432|0.0007
92254755|NCT04254796|184411782|OTHER|Calculation of the effect size (Cohen's d)|Cohen's d|0.27|||||TWO_SIDED|95.0|-0.13|0.68||||||The goal of the analysis was to measure the effect size of the change in the primary mechanistic outcome (Putamen structural node strength), with a Go/No-Go threshold of Cohen's d \> 0.20.||0.68|-0.13|
92283676|NCT01239121|184471091|SUPERIORITY_OR_OTHER||Slope|0.6||||0.175|TWO_SIDED|95.0|-0.27|1.5|||Regression, Linear|||||1.5|-0.27|0.175
92283677|NCT01239121|184471092|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.964|TWO_SIDED|95.0|0.49|2.1|||Regression, Logistic|||||2.1|.49|0.964
92177404|NCT02724969|184248804|SUPERIORITY|||||||0.272|||||||Mixed Models Analysis|||||||.272
92177405|NCT02724969|184248805|SUPERIORITY|||||||0.082|||||||Mixed Models Analysis|||||||.082
92177406|NCT02724969|184248806|SUPERIORITY|||||||0.355|||||||Mixed Models Analysis|||||||.355
92177407|NCT02724969|184248807|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|||||||.780
92177408|NCT02724969|184248808|SUPERIORITY|||||||0.588|||||||Mixed Models Analysis|||||||.588
92177409|NCT04911296|184248828|OTHER|||||||0.935|||||||Fisher Exact|||||||0.935
92177410|NCT04911296|184248829|OTHER|||||||0.536|||||||Fisher Exact|||||||0.536
92177411|NCT05207982|184248872|OTHER|||||||||||||||||This study utilized a multiple baseline single case experimental design in which analysis of the daily weights (for each participant) involved discontinuous growth curve analysis using multi-level modeling. Separate models were developed for each participant which include the daily weights from the baseline, treatment and follow-up phases. Given the nature of the data, we hypothesized different slopes for the baseline vs treatment phases. Overall weight change was a primary outcome measure.|Multiple baseline single case experimental design in which analysis of the daily weights (for each participant) involved discontinuous growth curve analysis using multi-level modeling.|||
92177412|NCT04089059|184248888|SUPERIORITY|Poisson regression for comparison of incidence rate against performance goal (0.43)|||||<|0.0001|||||||Poisson Regression|||||||<0.0001
92177413|NCT04089059|184248891|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Comparison of HF Hospitalization events 6 months before implant vs 6 months after implant||||<0.0001
92177414|NCT04089059|184248892|SUPERIORITY|Comparison of the incidence rate of HF hospitalizations or emergency department / hospital outpatient IV diuretic visits of Former Control Arm versus Modified Intent to Treat Arm at 6 months post-implant/Subgroup Analysis||||||0.0697|||||||Poisson Regression|||||||0.0697
92177415|NCT04089059|184248895|SUPERIORITY|Comparison of mPAP values at baseline to values at 6 months.||||||0.0952|||||||Wilcoxon (Mann-Whitney)|||||||0.0952
92177416|NCT04089059|184248895|SUPERIORITY|Comparison of mPAP values at baseline to values at 6 months.||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.0090
92177417|NCT04089059|184248895|SUPERIORITY|Comparison of mPAP values at baseline to values at 6 months.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92177418|NCT04089059|184248897|SUPERIORITY|Comparison of KCCQ at baseline and at 6 months||||||0.0026|||||||Wilcoxon (Mann-Whitney)|||||||0.0026
92177419|NCT04089059|184248898|OTHER|Test of difference in distribution of NYHA class from baseline (all patients were class III at baseline).|||||<|0.0001|||||||Chi-squared|||The New York Heart Association (NYHA) Classification is a system used to evaluate and classify the severity of heart failure based on symptoms, patient's physical activity, and quality of life. Its scale ranges from class 1 to 4 with class 1 indicating the least severe heart failure symptoms (i.e., the best functionality) and class 4 indicating the most severe heart failure symptoms (i.e., the poorest functionality), with higher classes indicating poorer functioning as relates to heart failure.||||<0.0001
92177420|NCT04089059|184248899|SUPERIORITY|Comparison of baseline 6MWT vs 6 month 6MWT.||||||0.1086|||||||Wilcoxon (Mann-Whitney)|||||||0.1086
92177421|NCT04089059|184248902|SUPERIORITY|Compare NTproBNP at baseline with 6 months||||||0.0628|||||||Wilcoxon (Mann-Whitney)|||||||0.0628
92177422|NCT03728608|184248912|SUPERIORITY|||||||0.92|||||||survival analysis|||||||0.92
92177423|NCT03728608|184248913|SUPERIORITY|||||||0.65|||||||survival analysis|||||||0.65
92177424|NCT03728608|184248914|SUPERIORITY|||||||0.96|||||||survival analysis|||||||0.96
92177425|NCT03728608|184248915|SUPERIORITY|||||||0.77|||||||survival analysis|||||||0.77
92177426|NCT03728608|184248916|SUPERIORITY|||||||0.43|||||||Regression, Logistic|||||||0.43
92177427|NCT03728608|184248917|SUPERIORITY|||||||0.97|||||||Regression, Logistic|||||||0.97
92177428|NCT03728608|184248918|SUPERIORITY|||||||0.97|||||||Regression, Logistic|||||||0.97
92177429|NCT03728608|184248919|SUPERIORITY|||||||0.79|||||||Regression, Logistic|||||||0.79
92177430|NCT04587453|184248930|OTHER|No formal testing was performed. Confidence intervals (CIs) are presented with two sided 95% degree of confidence.|Risk Difference (RD)|5.7|||||TWO_SIDED|95.0|-11.2|22.5|||||Mantel-Haenzel risk difference, stratified by baseline IGA.|Responders were considered those meeting an IGA score of 0 or 1 (clear or almost clear). Subjects with missing data or subjects who had received rescue medication prior to Week 16 were considered non-responders in the primary analysis of the primary estimand.||22.5|-11.2|
92177431|NCT04587453|184248931|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Risk Difference (RD)|15.1|||||TWO_SIDED|95.0|-2.9|33.0|||||Mantel-Haenzel risk difference, stratified by baseline IGA.|Subjects with 75% reduction in EASI were considered responders. Subjects with missing data or subjects who had received rescue medication prior to Week 16 were considered non-responders in the primary analysis of the primary estimand.||33.0|-2.9|
92177432|NCT04587453|184248932|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|-5.1|||||TWO_SIDED|95.0|-12.4|2.3|||||Analysis of covariance (ANCOVA). Worst observation carried forward for all subjects who prior to Week 16 had received rescue medication. Multiple imputation of missing values for subjects who had not received rescue medication.|||2.3|-12.4|
92177433|NCT04587453|184248933|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|-1.1|||||TWO_SIDED|95.0|-2.7|0.5|||||ANCOVA. Worst observation carried forward for all subjects who prior to Week 16 had received rescue medication. Multiple imputation of missing values for subjects who had not received rescue medication.|||0.5|-2.7|
92177434|NCT04587453|184248934|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Risk Difference (RD)|-3.8|||||TWO_SIDED|95.0|-21.7|14.2|||||Mantel-Haenszel risk difference, stratified by baseline IGA.|Subjects with at least a reduction of 4 in the worst daily pruritus NRS score were considered responders. Subjects who had received rescue medication were considered non-responders. Subjects with missing data at Week 16 were imputed as non-responders.||14.2|-21.7|
92177435|NCT04587453|184248935|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Risk Difference (RD)|15.1|||||TWO_SIDED|95.0|-3.0|33.2|||||Mantel-Haenszel risk difference, stratified by baseline IGA.|Subjects with a reduction of 90% in EASI were considered responders. Subjects who had received rescue medication were considered non-responders. Subjects with missing data were imputed as non-responders.||33.2|-3.0|
92177436|NCT04587453|184248936|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Risk Difference (RD)|5.7|||||TWO_SIDED|95.0|-9.0|20.3|||||Mantel-Haenszel risk difference, stratified by baseline IGA.|Subjects with at least 50% reduction in EASI were considered responders. Subjects who had received rescue medication were considered non-responders. Subjects with missing data were imputed as non-responders.||20.3|-9.0|
92254756|NCT04159701|184411784|SUPERIORITY||Mean Difference (Final Values)|2.94||||0.38|TWO_SIDED|95.0|-3.73|9.6|||Mixed Models Analysis|||||9.60|-3.73|0.380
92254757|NCT04159701|184411785|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.415|TWO_SIDED|95.0|-1.89|4.5|||Mixed Models Analysis|||||4.50|-1.89|0.415
92254758|NCT04159701|184411786|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.369|TWO_SIDED|95.0|-2.09|5.53|||Mixed Models Analysis|||||5.53|-2.09|0.369
92254759|NCT04159701|184411787|SUPERIORITY||Odds Ratio (OR)|0.61||||0.674|TWO_SIDED|95.0|0.14|2.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted by baseline UAS7 (\< 28 vs \>= 28) score.||||2.70|0.14|0.674
92254760|NCT04159701|184411788|SUPERIORITY||Odds Ratio (OR)|0.59||||0.674|TWO_SIDED|95.0|0.13|2.68|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted by baseline UAS7 (\< median vs \>= median) score.||||2.68|0.13|0.674
92254761|NCT02845440|184411796|SUPERIORITY||Odds Ratio (OR)|2.4||||0.013|TWO_SIDED|95.0|1.2|4.79||A priori threshold for significance was p \< 0.05.|Regression, Logistic|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||4.79|1.20|0.013
92254762|NCT02845440|184411796|SUPERIORITY||Odds Ratio (OR)|1.31||||0.481|TWO_SIDED|95.0|0.62|2.74||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||2.74|0.62|0.481
92254763|NCT02845440|184411796|SUPERIORITY||Odds Ratio (OR)|1.84||||0.036|TWO_SIDED|95.0|1.04|3.24||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||3.24|1.04|0.036
92254764|NCT02845440|184411797|SUPERIORITY||Odds Ratio (OR)|1.35||||0.174|TWO_SIDED|95.0|0.88|2.06||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept.||2.06|0.88|0.174
92254765|NCT02845440|184411797|SUPERIORITY||Odds Ratio (OR)|0.69||||0.092|TWO_SIDED|95.0|0.45|1.06||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept.||1.06|0.45|0.092
92254766|NCT02845440|184411798|SUPERIORITY||Odds Ratio (OR)|2.77|||<|0.001|TWO_SIDED|95.0|1.61|4.75||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept.||4.75|1.61|<0.001
92254767|NCT02845440|184411798|SUPERIORITY||Odds Ratio (OR)|0.9||||0.742|TWO_SIDED|95.0|0.5|1.64||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept.||1.64|0.50|0.742
92254768|NCT02845440|184411799|SUPERIORITY||Odds Ratio (OR)|1.57||||0.056|TWO_SIDED|95.0|0.99|2.51||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing abstinence rates at year 2 of intervention were imputed using MICE based on baseline characteristics and abstinence rates at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) as well as TUD medication use and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.|A mediation analysis found that the estimated proportion of the effect of TUD medication use on abstinence rates attributable to the AD+CHW intervention was 2.8%.|2.51|0.99|0.056
92254769|NCT02845440|184411800|SUPERIORITY||Odds Ratio (OR)|1.97||||0.012|TWO_SIDED|95.0|1.16|3.33||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing abstinence rates at year 2 of intervention were imputed using MICE based on baseline characteristics and abstinence rates at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) as well as varenicline use and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.|A mediation analysis found that the estimated proportion of the effect of varenicline use on abstinence rates attributable to the AD+CHW intervention was 13.9%.|3.33|1.16|0.012
92254770|NCT02845440|184411801|SUPERIORITY||Odds Ratio (OR)|1.71||||0.032|TWO_SIDED|95.0|1.05|2.79||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||2.79|1.05|0.032
92283678|NCT02158494|184471115|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||P-Value for Sensory Organization Test results at 2 weeks||||0.41
92283679|NCT02158494|184471115|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||P-Value for Sensory Organization Test results at 14 weeks||||0.47
92283680|NCT02158494|184471115|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||P-Value for Sensory Organization Test results at 26 weeks||||0.99
92283681|NCT04567342|184471147|SUPERIORITY||Risk Ratio (RR)|1.08||||0.531|TWO_SIDED|95.0|0.85|1.37|||Regression, Logistic||||Arm 3 vs. Arm 1|1.37|0.85|0.531
92283682|NCT04567342|184471147|SUPERIORITY||Risk Ratio (RR)|0.84||||0.189|TWO_SIDED|95.0|0.65|1.09|||Regression, Logistic||||Arm 2 vs. Arm 1|1.09|0.65|0.189
92283683|NCT04567342|184471147|SUPERIORITY||Risk Ratio (RR)|1.29||||0.054|TWO_SIDED|95.0|0.1|1.66|||Regression, Logistic||||Arm 3 vs. Arm 2|1.66|0.10|0.054
92283684|NCT04567342|184471147|SUPERIORITY||Risk Ratio (RR)|1.05||||0.654|TWO_SIDED|95.0|0.84|1.32|||Regression, Logistic||||Arm 4 vs. Arm 3|1.32|0.84|0.654
92283685|NCT04567342|184471147|SUPERIORITY||Risk Ratio (RR)|1.36||||0.018|TWO_SIDED|95.0|1.05|1.74|||Regression, Logistic||||Arm 4 vs. Arm 2|1.74|1.05|0.018
92283686|NCT04567342|184471147|SUPERIORITY||Risk Ratio (RR)|1.14||||0.283|TWO_SIDED|95.0|0.9|1.44|||Regression, Logistic||||Arm 4 vs. Arm 1|1.44|0.90|0.283
92177437|NCT04587453|184248937|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|-4.3|||||TWO_SIDED|95.0|-14.9|6.3|||||Repeated measurements Model: Change=Treatment\*Week+Baseline\*Week+Baseline IGA. Data after permanent discontinuation of IMP/initiation of rescue medication not included (4 subjects excluded). Week 2 change imputed as 0 if no post-baseline assessments.|||6.3|-14.9|
92177438|NCT04587453|184248938|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.7|0.8|||||Repeated measurements Model: Change=Treatment\*Week+Baseline\*Week+Baseline IGA. Data after permanent discontinuation of IMP/initiation of rescue medication not included (4 subjects excluded). Week 2 change imputed as 0 if no post-baseline assessments.|||0.8|-0.7|
92177439|NCT04587453|184248939|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.9|0.6|||||Repeated measurements model: Change=Treatment\*Week+Baseline\*Week+Baseline IGA. Data after permanent discontinuation of IMP/initiation of rescue medication not included (4 subjects excluded). Week 1 change imputed as 0 if no post-baseline assessments.|||0.6|-0.9|
92177440|NCT04587453|184248940|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|-3.2|||||TWO_SIDED|95.0|-5.6|-0.9|||||Repeated measurements model: Change=Treatment\*Week+Baseline\*Week+Baseline IGA. Data after permanent discontinuation of IMP/initiation of rescue medication not included (4 subjects excluded). Week 2 change imputed as 0 if no post-baseline assessments.|||-0.9|-5.6|
92177441|NCT02800356|184248943|OTHER|||||||0.404|||||||ANOVA|Analysis of Variance (ANOVA) for paired samples with Bonferroni post-hoc analysis||||||0.404
92177442|NCT02800356|184248944|OTHER|||||||0.232|||||||ANOVA|Analysis of Variance (ANOVA) for paired samples with Bonferroni post-hoc analysis||||||0.232
92177443|NCT02800356|184248945|OTHER|||||||0.001|||||||ANOVA|Analysis of Variance (ANOVA) for paired samples with Bonferroni post-hoc analysis||||||0.001
92177444|NCT02800356|184248948|OTHER|||||||0.267|||||||ANOVA|Analysis of Variance (ANOVA) for paired samples with Bonferroni post-hoc analysis||||||0.267
92177445|NCT01651403|184248970|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel test adjusted for age at baseline and region strata||||||< 0.001
92254771|NCT02845440|184411801|SUPERIORITY||Odds Ratio (OR)|1.37||||0.376|TWO_SIDED|95.0|0.68|2.75||The a priori threshold for significance was a p-value \< 0.05.|Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||2.75|0.68|0.376
92283687|NCT04567342|184471148|SUPERIORITY||Risk Ratio (RR)|1.93|||<|0.01|TWO_SIDED|95.0|1.42|2.62|||Regression, Logistic||||Arm 3 vs. Arm 1|2.62|1.42|<0.01
92283688|NCT04567342|184471148|SUPERIORITY||Risk Ratio (RR)|0.82||||0.318|TWO_SIDED|95.0|0.56|1.21|||Regression, Logistic||||Arm 2 vs. Arm 1|1.21|0.56|0.318
92283689|NCT04567342|184471148|SUPERIORITY||Risk Ratio (RR)|2.34|||<|0.01|TWO_SIDED|95.0|1.68|3.26|||Regression, Logistic||||Arm 3 vs. Arm 2|3.26|1.68|<0.01
92177446|NCT01651403|184248970|SUPERIORITY||||||<|0.001|||||||Fisher Exact|Fisher's exact test without adjusting for strata at baseline||||||< 0.001
92177447|NCT01651403|184248971|SUPERIORITY|||||||0.935|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel test adjusted for age at baseline and region strata||||||0.935
92177448|NCT01651403|184248972|SUPERIORITY|||||||0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||0.001
92177449|NCT01651403|184248974|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||<0.001
92177450|NCT01651403|184248976|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||0.002
92177451|NCT01651403|184248978|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||<0.001
92177452|NCT01651403|184248980|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||<0.001
92177453|NCT01651403|184248982|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||<0.001
92177454|NCT01651403|184248984|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|two-sided Cochran-Mantel-Haenszel test adjusted for age at baseline and region strata||||||<0.001
92177455|NCT01651403|184248986|SUPERIORITY||||||>|0.999|||||||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test adjusted for age at baseline and region strata||||||>0.999
92177456|NCT01651403|184248994|OTHER|Comparison of the difference in percentages|Exact Chan-Zhang method|11.4|||||TWO_SIDED|95.0|-6.9|25.1||||||||25.1|-6.9|
92177457|NCT01651403|184248995|OTHER|Comparison of the difference in percentages|Exact Chan-Zhang method|11.4|||||TWO_SIDED|95.0|-6.9|25.1||||||||25.1|-6.9|
92177458|NCT01651403|184248996|SUPERIORITY|||||||0.007|||||||ANOVA|two-sided superiority test||||||0.007
92177459|NCT01651403|184248998|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel test adjusted for age at baseline and region strata||||||<0.001
92254772|NCT02845440|184411801|OTHER|Test of the additive assumption required by a factorial design. If the AD x CHW interaction is significant at p \< 0.05, the additive assumption would have to be rejected.|Odds Ratio (OR)|1.3||||0.645|TWO_SIDED|95.0|0.42|4.05|||Regression, Logistic|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with both additive terms and an interaction (TAU, AD, CHW, AD x CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||4.05|0.42|0.645
92254773|NCT02845440|184411802|SUPERIORITY||Odds Ratio (OR)|1.85|||<|0.001|TWO_SIDED|95.0|1.34|2.56||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|The CHW intervention increased odds of self-reported use of any TUD medication by 1.85.||The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept.||2.56|1.34|<0.001
92254774|NCT02845440|184411802|SUPERIORITY||Odds Ratio (OR)|0.7||||0.084|TWO_SIDED|95.0|0.46|1.05|||Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept.||1.05|0.46|0.084
92254775|NCT02845440|184411802|OTHER|Test of the additive assumption required by a factorial design. If the AD x CHW interaction is significant at p \< 0.05, the additive assumption would have to be rejected.|Odds Ratio (OR)|1.22||||0.589|TWO_SIDED|95.0|0.59|2.55|||Regression, Logistic|||The statistical model was a mixed effects logistic regression with both additive terms and an interaction (TAU, AD, CHW, AD x CHW, and cohort) and a clinic-varying random intercept.||2.55|0.59|0.589
92254776|NCT02845440|184411803|SUPERIORITY||Odds Ratio (OR)|3.05|||<|0.001|TWO_SIDED|95.0|1.99|4.68||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept.||4.68|1.99|<0.001
92254777|NCT02845440|184411803|SUPERIORITY||Odds Ratio (OR)|0.89||||0.698|TWO_SIDED|95.0|0.51|1.57||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept.||1.57|0.51|0.698
92177460|NCT04070573|184249045|SUPERIORITY||Risk Difference (RD)|0.035||||0.28|TWO_SIDED||||||Chi-squared||Risk difference direction = 81mg arm minus 162mg arm.|||||0.28
92177461|NCT04070573|184249046|SUPERIORITY||Risk Difference (RD)|0.035||||0.31|TWO_SIDED||||||Chi-squared||Risk difference direction = 81mg arm minus 162mg arm.|||||0.31
92254778|NCT02845440|184411803|OTHER|Test of the additive assumption required by a factorial design. If the AD x CHW interaction is significant at p \< 0.05, the additive assumption would have to be rejected.|Odds Ratio (OR)|1.1||||0.845|TWO_SIDED|95.0|0.43|2.78|||Regression, Logistic|||The statistical model was a mixed effects logistic regression with both additive terms and an interaction (TAU, AD, CHW, AD x CHW, and cohort) and a clinic-varying random intercept.||2.78|0.43|0.845
92254779|NCT02845440|184411804|SUPERIORITY||Odds Ratio (OR)|1.42||||0.158|TWO_SIDED|95.0|0.92|2.2||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing abstinence rates at year 2 of intervention were imputed using MICE based on baseline characteristics and abstinence rates at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) as well as TUD medication use and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.|A mediation analysis found that the estimated proportion of the effect of TUD medication use on abstinence rates attributable to the CHW intervention was 55.6%.|2.20|0.92|0.158
92177462|NCT04070573|184249047|SUPERIORITY||Risk Difference (RD)|0.019||||0.61|TWO_SIDED||||||Chi-squared||Risk difference direction = 81mg arm minus 162mg arm.|||||0.61
92254780|NCT02845440|184411805|SUPERIORITY||Odds Ratio (OR)|1.89||||0.013|TWO_SIDED|95.0|1.14|3.13||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing abstinence rates at year 2 of intervention were imputed using MICE based on baseline characteristics and abstinence rates at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) as well as varenicline use and a clinic-varying random intercept. Regression coefficients and mediation analysis estimates were pooled using Rubin's rule over 10 imputation runs.|A mediation analysis found that the estimated proportion of the effect of varenicline use on abstinence rates attributable to the CHW intervention was 36.6%.|3.13|1.14|0.013
92254781|NCT02845440|184411806|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.505|TWO_SIDED|95.0|-0.16|0.33|||Regression, Linear|||The model had a clinic varying random intercept. This statistical model included cohort 1: TAU , AD, and AD+CHW||0.33|-0.16|0.505
92254782|NCT02845440|184411806|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.848|TWO_SIDED|95.0|-0.22|0.27||The a priori threshold for significance was a p-value \< 0.05.|Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects linear regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||0.27|-0.22|0.848
92177463|NCT04070573|184249050|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.72|TWO_SIDED||||||t-test, 2 sided|||||||0.72
92177464|NCT04479761|184249143|OTHER|T test derived from a linear mixed effects model|Mean Difference (Final Values)|0.52||||0.005|TWO_SIDED|95.0|||||Mixed Models Analysis||we provided the mean difference between the vestibular group and healthy controls for the reported condition.|||||0.005
92177465|NCT04479761|184249144|OTHER|T tests derived from linear mixed effects model|Mean Difference (Final Values)|0.23||||0.008|TWO_SIDED||||||Mixed Models Analysis||we provided the mean difference between the vestibular group and the controls on the reported condition.|||||0.008
92177466|NCT05274074|184249162|SUPERIORITY||Mean Difference (Net)|1.4||||0.57|TWO_SIDED|95.0|-3.4|6.2|||Regression, Linear|||||6.2|-3.4|0.57
92177467|NCT05274074|184249163|SUPERIORITY||Mean Difference (Net)|-0.1||||0.53|TWO_SIDED|95.0|-0.5|0.2|||Regression, Linear|||||0.2|-0.5|0.53
92177468|NCT05274074|184249164|SUPERIORITY||Mean Difference (Net)|-1.0||||0.41|TWO_SIDED|95.0|-3.3|1.4|||Regression, Linear|||||1.4|-3.3|0.41
92283690|NCT04567342|184471148|SUPERIORITY||Risk Ratio (RR)|1.08||||0.535|TWO_SIDED|95.0|0.85|1.36|||Regression, Logistic||||Arm 4 vs. Arm 3|1.36|0.85|0.535
92177469|NCT05274074|184249165|SUPERIORITY||Mean Difference (Net)|-0.9||||0.45|TWO_SIDED|95.0|-3.5|1.6|||Regression, Linear|||||1.6|-3.5|0.45
92177470|NCT05274074|184249166|SUPERIORITY||Mean Difference (Net)|3.3||||0.02|TWO_SIDED|95.0|0.5|6.2|||Regression, Linear|||||6.2|0.5|0.02
92254783|NCT02845440|184411806|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.529|TWO_SIDED|95.0|-0.13|0.25||The a priori threshold for significance was a p-value \< 0.05.|Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects linear regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||0.25|-0.13|0.529
92254784|NCT02845440|184411807|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.937|TWO_SIDED|95.0|-0.16|0.18|||Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects linear regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||0.18|-0.16|0.937
92254785|NCT02845440|184411807|SUPERIORITY||Median Difference (Final Values)|0.05||||0.683|TWO_SIDED|95.0|-0.19|0.29|||Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects linear regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||0.29|-0.19|0.683
92254786|NCT02845440|184411807|OTHER|Test of the additive assumption required by a factorial design. If the AD x CHW interaction is significant at p \< 0.05, the additive assumption would have to be rejected.|Mean Difference (Final Values)|0.3||||0.19|TWO_SIDED|95.0|-0.15|0.74|||Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects linear regression with both additive terms and an interaction (TAU, AD, CHW, AD x CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||0.74|-0.15|0.190
92283691|NCT04567342|184471148|SUPERIORITY||Risk Ratio (RR)|2.52|||<|0.01|TWO_SIDED|95.0|1.82|3.5|||Regression, Logistic||||Arm 4 vs Arm 2|3.50|1.82|<0.01
92283692|NCT04567342|184471148|SUPERIORITY||Risk Ratio (RR)|2.07|||<|0.01|TWO_SIDED|95.0|1.53|2.8|||Regression, Logistic||||Arm 4 vs. Arm 1|2.80|1.53|<0.01
92177471|NCT05274074|184249167|SUPERIORITY||Mean Difference (Net)|-0.8||||0.69|TWO_SIDED|95.0|-4.9|3.3|||Regression, Linear|||||3.3|-4.9|0.69
92177472|NCT04117347|184249168|OTHER|Dose Response Relationship.|Coefficient for an indicator|0.022|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|-0.0861723|0.1309519|||||coefficient for an indicator for Light Therapy B (vs. Light Therapy A)|Analysis for left amygdala.||0.1309519|-0.0861723|
92177473|NCT04117347|184249168|OTHER|Dose Response Relationship.|Coefficient for an indicator|0.068|STANDARD_ERROR_OF_MEAN|0.052|||TWO_SIDED|95.0|-0.0363877|0.1730965|||||coefficient for an indicator for Light Therapy C (vs. Light Therapy A)|Analysis for left amygdala.||0.1730965|-0.0363877|
92177474|NCT04117347|184249168|OTHER|Dose Response Relationship.|Coefficient for an indicator|0.043|STANDARD_ERROR_OF_MEAN|0.055|||TWO_SIDED|95.0|-0.0676154|0.1545869|||||coefficient for an indicator for Light Therapy B (vs. Light Therapy A)|Analysis for right amygdala.||0.1545869|-0.0676154|
92177475|NCT04117347|184249168|OTHER|Dose Response Relationship.|Coefficient for an indicator|0.018|STANDARD_ERROR_OF_MEAN|0.053|||TWO_SIDED|95.0|-0.0888691|0.1255146|||||coefficient for an indicator for Light Therapy C (vs. Light Therapy A)|Analysis for right amygdala.||0.1255146|-0.0888691|
92177476|NCT05194956|184249169|SUPERIORITY||Mean Difference (Net)|8.5||||0.0006|TWO_SIDED|95.0|3.75|13.15|||Two-period two-treatment crossover ANOVA|P-values are calculated taking sequence and period effects into account.|This estimation value assumes period and sequence effects are equal between the treatments.|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)||13.15|3.75|0.0006
92177477|NCT05194956|184249169|SUPERIORITY|Sequence effects||||||0.1984|||||||ANOVA|||||||0.1984
92177478|NCT05194956|184249169|SUPERIORITY|Period effects||||||0.7494|||||||ANOVA|||||||0.7494
92177479|NCT05194956|184249169|SUPERIORITY|Mixed effects modelling|Mean Difference (Net)|-13.31||||0.001|TWO_SIDED|95.0|-21.29|-5.33|||Mixed Models Analysis|||||-5.33|-21.29|0.001
92177480|NCT05194956|184249170|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-3.4||||0.123|TWO_SIDED|95.0|-7.71|0.91||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||0.91|-7.71|0.1230
92177481|NCT05194956|184249170|SUPERIORITY|Sequence effects||||||0.8423|||||||ANOVA|||||||0.8423
92177482|NCT05194956|184249170|SUPERIORITY|Period effects||||||0.9544|||||||ANOVA|||||||0.9544
92177483|NCT05194956|184249171|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-3.4||||0.0439|TWO_SIDED|95.0|-6.69|-0.12||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||-0.12|-6.69|0.0439
92177484|NCT05194956|184249171|SUPERIORITY|Sequence effects||||||0.3878|||||||ANOVA|||||||0.3878
92177485|NCT05194956|184249171|SUPERIORITY|Period effects||||||0.9772|||||||ANOVA|||||||0.9772
92177486|NCT05194956|184249172|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|9.6||||0.0213|TWO_SIDED|95.0|1.5|17.79||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||17.79|1.50|0.0213
92254787|NCT01849562|184411819|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|50.0|||||TWO_SIDED|95.0|1.8|82.7||||||Differences in proportions between Group 1 (sovaprevir 200 mg plus ACH-3102 150/50 mg plus RBV) and overall placebo (placebo from Group 1 and Group 2 combined) along with corresponding 95% confidence intervals for risk difference calculated using exact unconditional methods were obtained.||82.7|1.8|
92254788|NCT01849562|184411819|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|70.0|||||TWO_SIDED|95.0|24.2|93.6||||||Differences in proportions between Group 2 (sovaprevir 400 mg plus ACH-3102 150/50 mg plus RBV) and overall placebo (placebo from Group 1 and Group 2 combined) along with corresponding 95% confidence intervals for risk difference calculated using exact unconditional methods were obtained.||93.6|24.2|
92177487|NCT05194956|184249172|SUPERIORITY|Sequence effects||||||0.1583|||||||ANOVA|||||||0.1583
92177488|NCT05194956|184249172|SUPERIORITY|Period effects||||||0.4709|||||||ANOVA|||||||0.4709
92177489|NCT05194956|184249173|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|5.3||||0.0146|TWO_SIDED|95.0|1.09|9.46||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||9.46|1.09|0.0146
92177490|NCT05194956|184249173|SUPERIORITY|Sequence effects||||||0.5911|||||||ANOVA|||||||0.5911
92177491|NCT05194956|184249173|SUPERIORITY|Period effects||||||0.5825|||||||ANOVA|||||||0.5825
92177492|NCT05194956|184249174|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-5.2||||0.0817|TWO_SIDED|95.0|-11.12|0.69||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||0.69|-11.12|0.0817
92177493|NCT05194956|184249174|SUPERIORITY|Sequence effects||||||0.091|||||||ANOVA|||||||0.0910
92177494|NCT05194956|184249174|SUPERIORITY|Period effects||||||0.2278|||||||ANOVA|||||||0.2278
92177495|NCT05194956|184249175|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-2.2||||0.1347|TWO_SIDED|95.0|-5.17|0.69|||Two-period two-treatment crossover ANOVA|From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|This estimation value assumes period and sequence effects are equal between the treatments.|||0.69|-5.17|0.1347
92177496|NCT05194956|184249175|SUPERIORITY|Sequence effects||||||0.9259|||||||ANOVA|||||||0.9259
92283693|NCT04567342|184471149|SUPERIORITY||Risk Ratio (RR)|1.17||||0.192|TWO_SIDED|95.0|0.92|1.48|||Regression, Logistic||||Arm 3 vs. Arm 1|1.48|0.92|0.192
92283694|NCT04567342|184471149|SUPERIORITY||Risk Ratio (RR)|0.81||||0.132|TWO_SIDED|95.0|0.62|1.06|||Regression, Logistic||||Arm 2 vs. Arm 1|1.06|0.62|0.132
92177497|NCT05194956|184249175|SUPERIORITY|Period effects||||||0.8225|||||||ANOVA|||||||0.8225
92177498|NCT05194956|184249176|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Median Difference (Net)|-11.2||||0.02|TWO_SIDED|95.0|-20.47|-1.83||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||-1.83|-20.47|0.0200
92177499|NCT05194956|184249176|SUPERIORITY|Sequence effects||||||0.9104|||||||ANOVA|||||||0.9104
92177500|NCT05194956|184249176|SUPERIORITY|Period effects||||||0.5194|||||||ANOVA|||||||0.5194
92177501|NCT05194956|184249177|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-23.2|||<|5e-05|TWO_SIDED|95.0|-30.71|-15.75||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||-15.75|-30.71|<0.00005
92177502|NCT05194956|184249177|SUPERIORITY|Sequence effects||||||0.1369|||||||ANOVA|||||||0.1369
92177503|NCT05194956|184249177|SUPERIORITY|Period effects||||||0.3366|||||||ANOVA|||||||0.3366
92177504|NCT05194956|184249178|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-120.0|||<|5e-05|TWO_SIDED|95.0|-149.54|-90.38|||Two-period two-treatment crossover ANOVA|From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|This estimation value assumes period and sequence effects are equal between the treatments.|||-90.38|-149.54|<0.00005
92177505|NCT05194956|184249178|SUPERIORITY|Sequence effects||||||0.8509|||||||ANOVA|||||||0.8509
92254789|NCT03241589|184411826|SUPERIORITY||Odds Ratio (OR)|0.931||||0.7428|TWO_SIDED|95.0|0.606|1.429|||Regression, Logistic||Referent group is Urban|We followed power calculations described in uploaded protocol document, using an incomplete design matrix with a 3-month transition period, a level of precision α=0.05 and a minimum power level of 0.80. We also assumed a total number of clusters I=36 as per the study design and the number of baseline measurements B=2. Due to insufficient sample size, we modified groups studied.||1.429|0.606|0.7428
92177506|NCT05194956|184249178|SUPERIORITY|Period effects||||||0.0355|||||||ANOVA|||||||0.0355
92177507|NCT05452460|184249180|SUPERIORITY||Mean Difference (Final Values)|0.11|||>|0.05|TWO_SIDED||||||ANCOVA|ANCOVA with post-test condition difference in RT as the outcome, with Group as the factor, and pre-test condition difference in RT as the covariate.||||||> 0.05
92177508|NCT05452460|184249181|SUPERIORITY||Mean Difference (Final Values)|0.18|||>|0.05|TWO_SIDED||||||ANCOVA|ANCOVA with post-test condition difference in ACC the outcome, with Group as the factor, and pre-test condition difference in ACC as the covariate.||||||> .05
92177509|NCT05452460|184249182|SUPERIORITY||Mean Difference (Final Values)|0.32|||>|0.05|TWO_SIDED||||||ANCOVA|ANCOVA with post-test condition difference in N2 the outcome, with Group as the factor, and pre-test condition difference in N2 as the covariate.||||||> 0.05
92177510|NCT05452460|184249183|SUPERIORITY||Mean Difference (Final Values)|0.71|||>|0.05|TWO_SIDED||||||ANCOVA|ANCOVA with post-test condition difference in P3 the outcome, with Group as the factor, and pre-test condition difference in P3 as the covariate.||||||> 0.05
92177511|NCT05452460|184249184|SUPERIORITY||Mean Difference (Final Values)|13.35|||<|0.01|TWO_SIDED||||||ANCOVA|ANCOVA with post-test condition difference in TTE the outcome, with Group as the factor, and pre-test condition difference in TTE as the covariate.|\[F(1, 52) = 13.35, p = .001, ηp2 = .211\]|||||< 0.01
92177512|NCT05452460|184249185|SUPERIORITY||Mean Difference (Final Values)|0.02|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in VO2max Covariate: Pre-test condition difference in VO2max||||||> 0.05
92177513|NCT05452460|184249186|SUPERIORITY||Mean Difference (Final Values)|38.76|||<|0.01|TWO_SIDED||||||ANOVA|Four-way mixed-design ANOVA: 2 (GROUP) × 2 (CONDITION) × 3 (ASSESSMENT TIME) × 2 (Experiment Phase)||||||< 0.01
92177514|NCT05452460|184249187|SUPERIORITY||Mean Difference (Final Values)|9.21|||<|0.01|TWO_SIDED|||||The main effect of the Stroop block on accuracy showed a decrease from the first block to the fifth block.|ANOVA|Four-way mixed-design ANOVA: 2 (GROUP) × 2 (CONDITION) × 5 (BLOCK) × 2 (Phase)||||||< 0.01
92254790|NCT03241589|184411827|SUPERIORITY||Odds Ratio (OR)|2.258||||0.0031|TWO_SIDED|95.0|1.181|4.315|||Regression, Logistic|2 degrees of freedom, Wald Chi-Square 11.5759|Veterans with expired requests = referent.|||4.315|1.181|0.0031
92254791|NCT04599972|184411829|SUPERIORITY||Odds Ratio (OR)|2.979|||<|0.01|TWO_SIDED|95.0|1.753|5.064|||Regression, Logistic|||All treatment comparisons for primary and secondary endpoints related to BDCVA were conducted with a logistic regression model including fixed effects of baseline BDCVA at 40 cm as a covariate and treatment.||5.064|1.753|<0.01
92254792|NCT04599972|184411830|SUPERIORITY||Odds Ratio (OR)|2.807|||<|0.01|TWO_SIDED|95.0|1.655|4.762|||Regression, Logistic|||||4.762|1.655|<0.01
92177515|NCT05452460|184249188|SUPERIORITY||Mean Difference (Final Values)|7.07|||<|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test mean score Covariate: Pre-test mean score||||||< 0.05
92177516|NCT05452460|184249189|SUPERIORITY||Mean Difference (Final Values)|1.37|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed anger Covariate: Pre-test condition difference in changed anger||||||> 0.05
92177517|NCT05452460|184249190|SUPERIORITY||Mean Difference (Final Values)|2.73|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed confusion Covariate: Pre-test condition difference in changed confusion||||||> 0.05
92177518|NCT05452460|184249191|SUPERIORITY||Mean Difference (Final Values)|0.07|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed depression Covariate: Pre-test condition difference in changed depression||||||> 0.05
92177519|NCT05452460|184249192|SUPERIORITY||Mean Difference (Final Values)|0.2|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed fatigue Covariate: Pre-test condition difference in changed fatigue||||||> 0.05
92177520|NCT05452460|184249193|SUPERIORITY||Mean Difference (Final Values)|0.01|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed confusion Covariate: Pre-test condition difference in changed confusion||||||> 0.05
92177521|NCT05452460|184249194|SUPERIORITY||Mean Difference (Final Values)|0.66|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed confusion Covariate: Pre-test condition difference in changed confusion||||||> 0.05
92254793|NCT04599972|184411831|SUPERIORITY||Odds Ratio (OR)|6.002|||<|0.01|TWO_SIDED|95.0|3.431|10.499|||Regression, Logistic|||||10.499|3.431|<0.01
92254794|NCT04599972|184411832|SUPERIORITY||Odds Ratio (OR)|4.161|||<|0.01|TWO_SIDED|95.0|2.404|7.204|||Regression, Logistic|||||7.204|2.404|<0.01
92254795|NCT02069704|184411833|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio BEVZ92 to Avastin|99.4|||||TWO_SIDED|90.0|90.5|109.0|||||For the ratio: BEVZ92 represents the numerator and reference bevacizumab the denominator|Based on previously published PK data for reference bevacizumab in metastatic colorectal cancer, we assumed a conservative inter-participant coefficient of variation for AUC of around 35%. A sample size of 51 patients in each treatment arm could show bioequivalence with a nominal power of 90% and an α of 0·05, if the 90% CIs for the ratio of BEVZ92 to reference bevacizumab of the geometric means for AUC0-336h and AUCss were within the acceptance interval of 80%-125%.||109.0|90.5|
92254796|NCT02069704|184411834|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio BEVZ92 to Avastin|100.0|||||TWO_SIDED|90.0|90.2|112.0||||||||112.0|90.2|
92254797|NCT00554853|184411847|SUPERIORITY_OR_OTHER|||||||0.63|||||||ANCOVA|||||||0.63
92254798|NCT02861118|184411848|OTHER|||||||0.024|||||||Regression, Logistic|||IBD||||0.024
92254799|NCT02861118|184411848|OTHER|||||||0.006|||||||Regression, Logistic|||Corticosteroids||||0.006
92254800|NCT02861118|184411848|OTHER|||||||0.006|||||||Regression, Logistic|||Chronic Obstructive Pulmonary Disease||||0.006
92177522|NCT05163496|184249271|SUPERIORITY||Mean Difference (Net)|12.0|STANDARD_DEVIATION|0.8|<|0.001|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis was that the mean change in MADRS score from the preparation 1 session to day 28 would be the same in both niacin and psilocybin groups. The alternative hypothesis was that the change in the psilocybin group would be greater than the change in the niacin group, with an assumed true effect size of 1.06 SD units based on findings in prior studies. With 15 participants per group, this study had 80% power to observe a statistically significant difference between groups.||||<.001
92177523|NCT04625725|184249314|SUPERIORITY||Relative Risk Reduction|76.73|||<|0.001|TWO_SIDED|95.0|46.05|89.96|||Poisson regression||Estimates are based on a Poisson regression with robust variance. The model includes covariate for treatment, and age group, with the log of the follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|Primary Analysis||89.96|46.05|<0.001
92254801|NCT02861118|184411849|OTHER|||||||0.044|||||||Regression, Logistic|||IBD||||0.044
92254802|NCT02861118|184411849|OTHER|||||||0.003|||||||Regression, Logistic|||Corticosteroids||||0.003
92254803|NCT02861118|184411849|OTHER|||||||0.003|||||||Regression, Logistic|||Myocardial Infarction||||0.003
92254804|NCT02861118|184411850|OTHER|||||||0.007|||||||Regression, Logistic|||Corticosteroids||||0.007
92254805|NCT02861118|184411851|OTHER|||||||0.002|||||||Regression, Logistic|||Corticosteroids||||0.002
92254806|NCT02861118|184411851|OTHER|||||||0.003|||||||Regression, Logistic|||Skin Disease||||0.003
92283695|NCT04567342|184471149|SUPERIORITY||Risk Ratio (RR)|1.44|||<|0.01|TWO_SIDED|95.0|1.11|1.86|||Regression, Logistic||||Arm 3 vs. Arm 2|1.86|1.11|<0.01
92254807|NCT01690988|184411867|OTHER|Test of independence|Difference in Percentages|0.36|STANDARD_ERROR_OF_MEAN|3.301||0.912|TWO_SIDED|95.0|-6.07|7.38|||Chi-squared||Difference in delirium incidence between placebo control and combined ketamine groups.|The primary analysis was a comparison between the placebo control group and the combined ketamine groups||7.38|-6.07|0.912
92254808|NCT01690988|184411868|SUPERIORITY|||||||0.964|||||||ANOVA|one-way||We compared the combined average pain level (pain level at rest, taking a deep breath, and/or when moving) over the entire day (AM and PM).||||0.964
92254809|NCT01690988|184411869|SUPERIORITY|||||||0.476|||||||ANOVA|||"All morphine equivalent drugs consumed by patients perioperatively~Opioid Drugs included:~\* Postoperatively while still in hospital, the list of pain medication used included Morphine, Hydromorphone, Meperidine, Nalbuphine, Oxycodone,Oxymorphone, Tramadol, bupivacaine, (Codeine, Fentanyl, Naloxone) Total Opiates (Morphine Equivalent) in milligrams The median(IQR) opioid consumption was compared across the three study groups Placebo vs. Lo-K (0.5 mg/kg) vs. Hi-K (1 mg/kg)"||||0.476
92254810|NCT01690988|184411870|SUPERIORITY||frequency-test|0.572||||0.572|TWO_SIDED||||||Chi-squared|||"Assessed from patient-reported postoperative nausea and vomiting section of Behavioral Pain Scale or Behavioral Pain Scale (Non-Intubated) Patients where asked whether they currently have nausea/vomiting AM \& PM the response choices: None, Mild, Moderate, Severe Incidence of nausea\\vomiting accounted for any positive reporting(Mild, moderate, or sever) Daily incidence accounted for any positive incidence AM/PM in each POD Any POD nausea/vomiting reports the incidence across day 1-3"||||0.572
92254811|NCT01690988|184411872|SUPERIORITY|||||||0.01|||||||Chi-squared|||Frequency of patients reporting hallucinations using the DSAQ instrument.||||0.01
92283696|NCT04567342|184471149|SUPERIORITY||Risk Ratio (RR)|0.92||||0.462|TWO_SIDED|95.0|0.73|1.16|||Regression, Logistic||||Arm 4 vs. Arm 3|1.16|0.73|0.462
92283697|NCT04567342|184471149|SUPERIORITY||Risk Ratio (RR)|1.32||||0.039|TWO_SIDED|95.0|1.01|1.72|||Regression, Logistic||||Arm 4 vs. Arm 2|1.72|1.01|0.039
92254812|NCT01690988|184411873|SUPERIORITY|||||||0.03||||||"Patients where asked whether Following their surgery they had bad dreams or nightmares the response choices: Yes/No question The incidence of hallucination and nightmares were assessed separately and compared across the three study group."|Chi-squared|||||||0.03
92254813|NCT01975376|184411890|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.930905|TWO_SIDED|95.0|0.8|1.22|||Log Rank|||Hazard ratio and 95 percent (%) Confidence Interval (CI) were from a Cox proportional hazards model stratified by geographic region and low density lipoprotein cholesterol (LDL-C) at pre-screening (less than \[\<\] 100 milligrams per deciliters \[mg/dL\], greater than and equal to \[\>=\] 100 mg/dL) with treatment as a co-variate.||1.22|0.80|0.930905
92254814|NCT01975376|184411891|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.784265|TWO_SIDED|95.0|0.82|1.3|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.30|0.82|0.784265
92283698|NCT04567342|184471149|SUPERIORITY||Risk Ratio (RR)|1.07||||0.57|TWO_SIDED|95.0|0.84|1.37|||Regression, Logistic||||Arm 4 vs. Arm 1|1.37|0.84|0.570
92254815|NCT01975376|184411892|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.892441|TWO_SIDED|95.0|0.81|1.2|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.20|0.81|0.892441
92254816|NCT01975376|184411893|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.845797|TWO_SIDED|95.0|0.83|1.26|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.26|0.83|0.845797
92254817|NCT01975376|184411894|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.431903|TWO_SIDED|95.0|0.49|1.36|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.36|0.49|0.431903
92254818|NCT01975376|184411895|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.883797|TWO_SIDED|95.0|0.8|1.21|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.21|0.80|0.883797
92254819|NCT01975376|184411896|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.45569|TWO_SIDED|95.0|0.74|1.95|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.95|0.74|0.455690
92254820|NCT01975376|184411897|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.469496|TWO_SIDED|95.0|0.84|1.48|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.48|0.84|0.469496
92283699|NCT00577460|184471161|SUPERIORITY_OR_OTHER|||||||0.0039||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) with factors treatment and country and covariate OL baseline||PPX ER versus Placebo||||0.0039
92283700|NCT00577460|184471161|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) with factors treatment and country and covariate OL baseline||PPX IR versus Placebo||||0.0001
92283701|NCT00577460|184471164|SUPERIORITY_OR_OTHER|||||||0.559||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.5590
92283702|NCT00577460|184471164|SUPERIORITY_OR_OTHER|||||||0.1289||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.1289
92283703|NCT00577460|184471166|SUPERIORITY_OR_OTHER|||||||0.1073||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.1073
92283704|NCT00577460|184471166|SUPERIORITY_OR_OTHER|||||||0.8694||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.8694
92283705|NCT00577460|184471167|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0009
92254821|NCT01975376|184411898|SUPERIORITY||Hazard Ratio (HR)|1.54||||0.633022|TWO_SIDED|95.0|0.26|9.23|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||9.23|0.26|0.633022
92254822|NCT01975376|184411899|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.46765|TWO_SIDED|95.0|0.83|1.48|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.48|0.83|0.467650
92254823|NCT01975376|184411900|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.015462|TWO_SIDED|95.0|0.32|0.89|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||0.89|0.32|0.015462
92254824|NCT01975376|184411901|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.011863|TWO_SIDED|95.0|0.33|0.88|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||0.88|0.33|0.011863
92177524|NCT04625725|184249314|SUPERIORITY||Relative Risk Reduction|83.04|||<|0.001|TWO_SIDED|95.0|67.26|91.21|||Poisson regression||Estimates are based on a Poisson regression with robust variance. The model includes covariate for treatment, and age group, with the log of the follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|Final Analysis||91.21|67.26|<0.001
92254825|NCT01975376|184411902|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.316066|TWO_SIDED|95.0|0.12|2.0|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||2.00|0.12|0.316066
92254826|NCT01975376|184411903|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.020328|TWO_SIDED|95.0|0.3|0.91|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||0.91|0.30|0.020328
92254827|NCT01975376|184411904|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.367069|TWO_SIDED|95.0|0.53|1.27|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.27|0.53|0.367069
92254828|NCT01975376|184411905|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.443081|TWO_SIDED|95.0|0.56|1.29|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.29|0.56|0.443081
92254829|NCT01975376|184411906|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.343817|TWO_SIDED|95.0|0.71|1.12|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.12|0.71|0.343817
92254830|NCT01975376|184411907|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.889065|TWO_SIDED|95.0|0.59|1.85|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.85|0.59|0.889065
92254831|NCT01975376|184411908|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.308388|TWO_SIDED|95.0|0.69|1.13|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.13|0.69|0.308388
92254832|NCT01975376|184411909|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.874835|TWO_SIDED|95.0|0.74|1.42|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.42|0.74|0.874835
92254833|NCT01975376|184411910|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.526269|TWO_SIDED|95.0|0.79|1.6|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.60|0.79|0.526269
92283706|NCT00577460|184471167|SUPERIORITY_OR_OTHER|||||||0.0573||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0573
92283707|NCT00577460|184471168|SUPERIORITY_OR_OTHER|||||||0.6434||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.6434
92283708|NCT00577460|184471168|SUPERIORITY_OR_OTHER|||||||0.2469||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.2469
92254834|NCT01975376|184411911|SUPERIORITY||LS-mean difference|-60.57|||<|0.001|TWO_SIDED|95.0|-61.43|-59.71|||Mixed Effect Model Repeat Measurement|||Lease Square (LS)- mean differences, associated 95% CI, and p-values were from a mixed model repeated measures (MMRM) model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-59.71|-61.43|<0.001
92254835|NCT01975376|184411912|SUPERIORITY||LS-mean difference|-54.7|||<|0.001|TWO_SIDED|95.0|-55.48|-53.92|||Mixed Effect Model Repeat Measurement|||LS- mean differences and associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-53.92|-55.48|<0.001
92254836|NCT01975376|184411913|SUPERIORITY||LS-mean difference|-46.72|||<|0.001|TWO_SIDED|95.0|-47.68|-45.76|||ANCOVA|||LS- mean difference and associated 95% CI, and p-value were from an analysis of covariance (ANCOVA) model with fixed effects for treatment group, baseline value, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-45.76|-47.68|<0.001
92254837|NCT01975376|184411914|SUPERIORITY||LS-mean difference|-54.88|||<|0.001|TWO_SIDED|95.0|-55.66|-54.09|||Mixed Effect Model Repeat Measurement|||Non-HDL-C: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-54.09|-55.66|<0.001
92254838|NCT01975376|184411914|SUPERIORITY||LS-mean difference|-36.51|||<|0.001|TWO_SIDED|95.0|-37.07|-35.95|||Mixed Effect Model Repeat Measurement|||Total cholesterol: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-35.95|-37.07|<0.001
92254839|NCT01975376|184411914|SUPERIORITY||LS-mean difference|-20.17|||<|0.001|TWO_SIDED|95.0|-21.42|-18.93|||Mixed Effect Model Repeat Measurement|||VLDL-C: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-18.93|-21.42|<0.001
92254840|NCT01975376|184411914|SUPERIORITY||LS-Mean Difference|-30.25|||<|0.001|TWO_SIDED|95.0|-32.44|-28.07|||Mixed Effect Model Repeat Measurement|||RLP-C: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-28.07|-32.44|<0.001
92254841|NCT01975376|184411914|SUPERIORITY||LS-Mean Difference|-58.55|||<|0.001|TWO_SIDED|95.0|-59.42|-57.69|||Mixed Effect Model Repeat Measurement|||Apo B: LS -mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-57.69|-59.42|<0.001
92254842|NCT01975376|184411914|SUPERIORITY||LS-Mean Difference|6.14|||<|0.001|TWO_SIDED|95.0|5.69|6.59|||Mixed Effect Model Repeat Measurement|||HDL-C: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||6.59|5.69|<0.001
92254843|NCT01975376|184411914|SUPERIORITY||LS-Mean Difference|3.53|||<|0.001|TWO_SIDED|95.0|3.02|4.03|||Mixed Effect Model Repeat Measurement|||Apo A-I: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||4.03|3.02|<0.001
92254844|NCT01975376|184411915|SUPERIORITY||LS-mean difference|0.67|||<|0.001|TWO_SIDED|95.0|0.66|0.68|||Mixed Effect Model Repeat Measurement|||Lp (a): LS- mean differences and associated 95% CI, and p-values were from an MMRM model on the difference of log-transformed observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||0.68|0.66|<0.001
92283709|NCT00577460|184471169|SUPERIORITY_OR_OTHER|||||||0.9741||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.9741
92283710|NCT00577460|184471169|SUPERIORITY_OR_OTHER|||||||0.762||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.7620
92283711|NCT00577460|184471173|SUPERIORITY_OR_OTHER|||||||0.0831||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0831
92254845|NCT01975376|184411915|SUPERIORITY||LS-mean difference|0.81|||<|0.001|TWO_SIDED|95.0|0.8|0.81|||Mixed Effect Model Repeat Measurement|||Triglycerides: LS- mean differences and associated 95% CI, and p-values were from an MMRM model through Week 70 on the difference of log-transformed observations with fixed effects for treatment group, visit, treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||0.81|0.80|<0.001
92254846|NCT01975376|184411916|SUPERIORITY||LS-mean difference|1.06|||<|0.001|TWO_SIDED|95.0|1.03|1.1|||Mixed Effect Model Repeat Measurement|||LS- mean differences and associated 95% CI, and p-values were from an MMRM model on the difference of log-transformed observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||1.10|1.03|<0.001
92254847|NCT00356057|184411917|SUPERIORITY|||||||0.437|||||||t-test, 2 sided|||||||0.437
92254848|NCT00356057|184411917|SUPERIORITY|||||||0.405|||||||t-test, 2 sided|||||||0.405
92254849|NCT00356057|184411918|EQUIVALENCE|Complication-free rate was evaluated in an equivalence (non-inferiority) format compared to a target of 85% minus delta (10%), where delta is the clinically significant difference for establishing equivalence.||||||0.0596|||||||t-test, 1 sided|||||||0.0596
92254850|NCT00356057|184411919|EQUIVALENCE|Complication-free rate was evaluated in an equivalence (non-inferiority) format compared to a target of 85% minus delta (10%), where delta is the clinically significant difference for establishing equivalence.||||||0.0009|||||||t-test, 1 sided|||||||0.0009
92254851|NCT00356057|184411922|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.030
92254852|NCT00356057|184411922|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
92254853|NCT00356057|184411926|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||||||0.005
92254854|NCT00356057|184411926|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
92254855|NCT00356057|184411927|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.020
92254856|NCT00356057|184411927|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
92254857|NCT00356057|184411928|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92283712|NCT00577460|184471173|SUPERIORITY_OR_OTHER|||||||0.0759||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0759
92254858|NCT00356057|184411928|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92254859|NCT00356057|184411929|SUPERIORITY|||||||0.039|||||||t-test, 2 sided|||||||0.039
92254860|NCT00356057|184411929|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||0.047
92283713|NCT00577460|184471174|SUPERIORITY_OR_OTHER|||||||0.1713||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.1713
92283714|NCT00577460|184471174|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0130
92283715|NCT00577460|184471175|SUPERIORITY_OR_OTHER|||||||0.0015||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0015
92254861|NCT01451398|184411930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.57|-0.23|||Mixed Models Analysis|Change in HbA1c = Baseline HbA1c + Region + Pooled OAD Strata + Visit + Treatment + (Treatment\*Visit), using AR(1) variance/covariance structure.||||-0.23|-0.57|<0.0001
92254862|NCT01451398|184411931|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.726||||0.0005|TWO_SIDED|95.0|1.55|4.8|||Regression, Logistic|Model: Treatment + Pooled OAD Stratum + Region + Baseline HbA1c||||4.80|1.55|0.0005
92254863|NCT01451398|184411932|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.361||||0.0021|TWO_SIDED|95.0|1.7|11.17|||Regression, Logistic|Model: Treatment + Pooled OAD Stratum + Region + Baseline HbA1c||||11.17|1.70|0.0021
92283716|NCT00577460|184471175|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0002
92177525|NCT04625725|184249316|SUPERIORITY||Relative Risk Reduction|34.9|||<|0.001|TWO_SIDED|95.0|21.44|46.05|||Poisson regression||Estimates are based on a Poisson regression with robust variance. The model includes covariate for treatment, and age group, with the log of the follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|||46.05|21.44|<0.001
92254864|NCT01451398|184411933|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.42|STANDARD_ERROR_OF_MEAN|5.4||0.1698|TWO_SIDED|95.0|-18.03|3.18|||Mixed Models Analysis|"Model: FPG = Baseline FPG + Region + Pooled OAD Stratum + Visit + Treatment + (Treatment \* Visit)~Variance/Covariance Matrix is Autoregression 1"||||3.18|-18.03|0.1698
92283717|NCT00577460|184471176|SUPERIORITY_OR_OTHER|||||||0.876||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.8760
92254865|NCT01451398|184411936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.018|||TWO_SIDED|95.0|-0.12|-0.05|||Mixed Models Analysis|FEV1 = Baseline FEV1 + Age + Gender + Race + Height + Visit + Treatment + (Treatment\*Visit)||||-0.05|-0.12|
92254866|NCT01451398|184411939|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Negative binomial regression|Model: Treatment + Region + OAD Stratum + Exposure Time||||||<0.0001
92254867|NCT01451398|184411940|SUPERIORITY_OR_OTHER|||||||0.2024|||||||Negative Binomial Regression|Model: Treatment + Region + OAD Stratum + Exposure Time||||||0.2024
92254868|NCT01451398|184411943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.62|STANDARD_ERROR_OF_MEAN|0.365|<|0.0001|TWO_SIDED|95.0|0.9|2.34|||ANCOVA||Model: Baseline Weight + Change in HbA1c at Week 24 + Region + OAD Stratum + Treatment|||2.34|0.90|<0.0001
92254869|NCT04857892|184411992|OTHER||Ratio of geometric Least Square mean|1.025|||||TWO_SIDED|90.0|0.9335|1.126|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf).|||1.126|0.9335|
92254870|NCT04857892|184411992|OTHER||Ratio of geometric Least Square mean|1.072|||||TWO_SIDED|90.0|0.9693|1.185|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf).|||1.185|0.9693|
92283718|NCT00577460|184471176|SUPERIORITY_OR_OTHER|||||||0.5113||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.5113
92283719|NCT00577460|184471177|SUPERIORITY_OR_OTHER|||||||0.0148||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0148
92283720|NCT00577460|184471177|SUPERIORITY_OR_OTHER|||||||0.0201||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0201
92283721|NCT02016170|184471192|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was assessed using a 95% confidence interval (CI) of the difference in mean PRU between prasugrel and ticagrelor (two arms combined). Under the assumption of 0 difference in mean PRU between ticagrelor 90 mg bid MD and prasugrel 10 mg qd MD and a common standard deviation of 60 PRU, a sample size of 24 patients per group allowed for the 95% CI to stay within ± 45 PRU with a 90% power and alpha=0.05.|Mean Difference (Final Values)|-18.0|||||TWO_SIDED|95.0|-41.0|5.0||||||||5|-41|
92283722|NCT02016170|184471193|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was assessed using a 95% confidence interval (CI) of the difference in mean PRU between prasugrel and ticagrelor (two arms combined).|Mean Difference (Final Values)|-11.0|||||TWO_SIDED|95.0|-18.0|-4.0||||||||-4|-18|
92283723|NCT04977336|184471218|SUPERIORITY|||||||0.3706|||||||ANCOVA|||||||0.3706
92283724|NCT04977336|184471218|SUPERIORITY|||||||0.5379|||||||ANCOVA|||||||0.5379
92254871|NCT04857892|184411993|OTHER||Ratio of geometric Least Square mean|1.126|||||TWO_SIDED|90.0|0.9918|1.278|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t).|||1.278|0.9918|
92283725|NCT04977336|184471218|SUPERIORITY|||||||0.3859|||||||ANCOVA|||||||0.3859
92283726|NCT04977336|184471218|SUPERIORITY|||||||0.0251|||||||ANCOVA|||||||0.0251
92283727|NCT04977336|184471219|SUPERIORITY|||||||0.2318|||||||ANCOVA|||||||0.2318
92283728|NCT04977336|184471219|SUPERIORITY|||||||0.7615|||||||ANCOVA|||||||0.7615
92283729|NCT04977336|184471219|SUPERIORITY|||||||0.387|||||||ANCOVA|||||||0.3870
92283730|NCT04977336|184471219|SUPERIORITY|||||||0.0823|||||||ANCOVA|||||||0.0823
92283731|NCT04977336|184471220|SUPERIORITY|||||||0.9986|||||||Cochran-Mantel-Haenszel|||||||0.9986
92283732|NCT04977336|184471220|SUPERIORITY|||||||0.4446|||||||Cochran-Mantel-Haenszel|||||||0.4446
92283733|NCT04977336|184471220|SUPERIORITY|||||||0.5978|||||||Cochran-Mantel-Haenszel|||||||0.5978
92283734|NCT04977336|184471220|SUPERIORITY|||||||0.0479|||||||Cochran-Mantel-Haenszel|||||||0.0479
92283735|NCT04977336|184471221|SUPERIORITY|||||||0.9895|||||||Cochran-Mantel-Haenszel|||||||0.9895
92283736|NCT04977336|184471221|SUPERIORITY|||||||0.2731|||||||Cochran-Mantel-Haenszel|||||||0.2731
92283737|NCT04977336|184471221|SUPERIORITY|||||||0.6492|||||||Cochran-Mantel-Haenszel|||||||0.6492
92283738|NCT04977336|184471221|SUPERIORITY|||||||0.5119|||||||Cochran-Mantel-Haenszel|||||||0.5119
92283739|NCT04977336|184471222|SUPERIORITY|||||||0.3158|||||||Cochran-Mantel-Haenszel|||||||0.3158
92254872|NCT04857892|184411993|OTHER||Ratio of geometric Least Square mean|1.055|||||TWO_SIDED|90.0|0.9278|1.201|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t).|||1.201|0.9278|
92254873|NCT04857892|184411994|OTHER||Ratio of geometric Least Square mean|1.036|||||TWO_SIDED|90.0|0.9209|1.166|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax.|||1.166|0.9209|
92254874|NCT04857892|184411994|OTHER||Ratio of geometric Least Square mean|1.02|||||TWO_SIDED|90.0|0.9049|1.151|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax.|||1.151|0.9049|
92254875|NCT04857892|184411995|OTHER||Ratio of geometric Least Square mean|1.129|||||TWO_SIDED|90.0|1.067|1.195|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf).|||1.195|1.067|
92254876|NCT04857892|184411995|OTHER||Ratio of geometric Least Square mean|1.112|||||TWO_SIDED|90.0|1.05|1.178|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf).|||1.178|1.050|
92283740|NCT04977336|184471222|SUPERIORITY|||||||0.3247|||||||Cochran-Mantel-Haenszel|||||||0.3247
92254877|NCT04857892|184411996|OTHER||Ratio of geometric Least Square mean|1.164|||||TWO_SIDED|90.0|1.07|1.267|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t).|||1.267|1.070|
92254878|NCT04857892|184411996|OTHER||Ratio of geometric Least Square mean|1.087|||||TWO_SIDED|90.0|0.9975|1.184|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t).|||1.184|0.9975|
92254879|NCT04857892|184411997|OTHER||Ratio of geometric Least Square mean|1.078|||||TWO_SIDED|90.0|1.036|1.122|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax|||1.122|1.036|
92254880|NCT04857892|184411997|OTHER||Ratio of geometric Least Square mean|1.032|||||TWO_SIDED|90.0|0.9914|1.075|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax|||1.075|0.9914|
92254881|NCT04857892|184411998|OTHER||Ratio of geometric Least Square mean|2.705|||||TWO_SIDED|90.0|2.135|3.427|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf)|||3.427|2.135|
92283741|NCT04977336|184471222|SUPERIORITY|||||||0.8424|||||||Cochran-Mantel-Haenszel|||||||0.8424
92283742|NCT04977336|184471222|SUPERIORITY|||||||0.2312|||||||Cochran-Mantel-Haenszel|||||||0.2312
92283743|NCT01968382|184471232|SUPERIORITY|||||||0.3198|||||||ANOVA|||||||0.3198
92283744|NCT01968382|184471235|SUPERIORITY|||||||0.8462|||||||ANOVA|||||||0.8462
92177526|NCT04625725|184249317|SUPERIORITY||Relative Risk Reduction|91.41||||0.001|TWO_SIDED|95.0|61.31|98.09|||Poisson regression||Estimates are based on a Poisson regression with robust variance. The model includes covariate for treatment, and age group, with the log of the follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|||98.09|61.31|0.001
92177527|NCT04625725|184249318|SUPERIORITY||Relative Risk Reduction|52.43||||0.137|TWO_SIDED|95.0|-26.61|82.13|||Poisson regression|||||82.13|-26.61|0.137
92177528|NCT05086796|184249351|SUPERIORITY||Risk Ratio (RR)|2.1|||||TWO_SIDED|97.5|1.51|2.91|||||The START arm is the numerator, Usual Care is the denominator. There are two primary outcome measures, so the type I error level was adjusted to alpha = 0.025.||Poisson regression was used to compare the proportions of participants who initiated MOUD in the hospital by calculating the risk ratio (RR) and 97.5% confidence interval (CI) and with covariates treatment arm, site (3 sites), prior exposure to MOUD (yes vs. no), and length of hospital stay in days.|2.91|1.51|
92177529|NCT05086796|184249352|SUPERIORITY||Risk Ratio (RR)|1.49|||||TWO_SIDED|97.5|1.15|1.93|||||The START arm is the numerator, Usual Care is the denominator. There are two primary outcome measures, so the type I error level was adjusted to alpha = 0.025.||Poisson regression was used to compare the proportions of participants who linked to follow-up OUD care by calculating the risk ratio (RR) and 97.5% confidence interval (CI) and with covariates treatment arm, site (3 sites), and prior exposure to MOUD (yes vs. no).|1.93|1.15|
92177530|NCT05086796|184249353|SUPERIORITY||Risk Ratio (RR)|1.8|||||TWO_SIDED|95.0|1.35|2.41|||||The START arm is the numerator, Usual Care is the denominator.||Multivariable Poisson regression was used to compare the proportions of participants who initiated MOUD in the hospital between arms by calculating the risk ratio (RR) and 95% confidence interval (CI) with covariates: treatment arm, site (3 sites), and prior exposure to MOUD (yes vs. no).|2.41|1.35|
92177531|NCT05086796|184249354|SUPERIORITY||Risk Ratio (RR)|1.71|||||TWO_SIDED|95.0|1.23|2.39|||||The START arm is the numerator, Usual Care is the denominator.||Multivariable Poisson regression was used to compare the proportions of participants who reported any post-discharge MOUD utilization between arms by calculating the risk ratio (RR) and 95% confidence interval (CI) with covariates: treatment arm, site (3 sites), and prior exposure to MOUD (yes vs. no).|2.39|1.23|
92177532|NCT05086796|184249355|SUPERIORITY||Risk Ratio (RR)|1.89|||||TWO_SIDED|95.0|1.18|3.03|||||The START arm is the numerator, Usual Care is the denominator.||Multivariable Poisson regression was used to compare the proportions of participants who reported receiving any post-discharge outpatient medical care for their OUD between arms by calculating the risk ratio (RR) and 95% confidence interval (CI) with covariates: site (3 sites), and prior exposure to MOUD (yes vs. no).|3.03|1.18|
92177533|NCT05086796|184249356|SUPERIORITY||Incident rate ratio|1.25|||||TWO_SIDED|95.0|0.64|2.43|||||The START arm is the numerator, Usual Care is the denominator.||Multivariable negative binomial regression with a log link function was used to compare opioid use-days between the two treatment arms by calculating the incident rate ratio (IRR) and 95% confidence interval (CI) with covariates: site (3 sites), prior exposure to MOUD (yes vs. no), and baseline opioid use days.|2.43|0.64|
92177534|NCT00429364|184249357|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.08
92177535|NCT00429364|184249358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.20
92177536|NCT00429364|184249359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.15
92177537|NCT00429364|184249360|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.30
92177538|NCT00429364|184249361|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||<0.001
92177539|NCT00429364|184249362|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.002
92177540|NCT00429364|184249363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.29
92177541|NCT00429364|184249364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96|TWO_SIDED|||||Regression model adjusted for age at study visit.|Mixed Models Analysis|||||||0.96
92283745|NCT03633721|184471300|SUPERIORITY|||||||0.17|||||||ANOVA|||Hypothesis Being Tested in 2 way ANOVA is that the difference in the change from Baseline to the Average of 15 and 60 minutes post baseline while on cannabis Vs. the change while on placebo (i.e. the last row in the outcomes) is greater for HIV+ subjects than for HIV- subjects.||||0.17
92177542|NCT00429364|184249365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45|TWO_SIDED||||||Mixed Models Analysis|||||||0.45
92177543|NCT00429364|184249366|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
92177544|NCT00429364|184249367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.65|TWO_SIDED||||||Mixed Models Analysis|||||||0.65
92177545|NCT00429364|184249368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
92177546|NCT00429364|184249369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.82|TWO_SIDED||||||Mixed Models Analysis|||||||0.82
92177547|NCT00429364|184249370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64|TWO_SIDED||||||Mixed Models Analysis|||||||0.64
92177548|NCT00429364|184249371|SUPERIORITY_OR_OTHER_LEGACY|||||||0.49|TWO_SIDED||||||Mixed Models Analysis|||||||0.49
92177549|NCT00429364|184249372|SUPERIORITY_OR_OTHER_LEGACY|||||||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||0.59
92177550|NCT00429364|184249374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|TWO_SIDED||||||Log Rank|||||||0.16
92177551|NCT00429364|184249376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED||||||Log Rank|||||||0.13
92177552|NCT00429364|184249378|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32|TWO_SIDED||||||Log Rank|||||||0.32
92177553|NCT00429364|184249380|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|TWO_SIDED||||||Log Rank|||||||0.10
92254882|NCT04857892|184411999|OTHER||Ratio of geometric Least Square mean|2.761|||||TWO_SIDED|90.0|2.16|3.527|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t)|||3.527|2.160|
92254883|NCT04857892|184412000|OTHER||Ratio of geometric Least Square mean|2.498|||||TWO_SIDED|90.0|1.821|3.425|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax|||3.425|1.821|
92254884|NCT04857892|184412001|OTHER||Ratio of geometric Least Square mean|1.316|||||TWO_SIDED|90.0|1.193|1.451|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf)|||1.451|1.193|
92254885|NCT04857892|184412002|OTHER||Ratio of geometric Least Square mean|1.316|||||TWO_SIDED|90.0|1.193|1.452|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t)|||1.452|1.193|
92254886|NCT04857892|184412003|OTHER||Ratio of geometric Least Square mean|1.232|||||TWO_SIDED|90.0|1.138|1.333|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax|||1.333|1.138|
92254887|NCT00655811|184412096|SUPERIORITY||||||<|0.05|||||||ANOVA|||One-way anova was used to compare the mean COVAS values between groups.||||<0.05
92254888|NCT00655811|184412096|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.550
92254889|NCT00655811|184412096|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||||||0.005
92254890|NCT00655811|184412096|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||||||0.027
92254891|NCT00655811|184412097|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
92254892|NCT00655811|184412097|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
92254893|NCT00655811|184412097|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.002
92254894|NCT00655811|184412098|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
92254895|NCT04984876|184412136|OTHER||Odds Ratio (OR)|25.83||||0.002|TWO_SIDED|95.0|4.34|506.78|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||506.78|4.34|0.002
92254896|NCT04984876|184412136|OTHER||Odds Ratio (OR)|5.1||||0.073|TWO_SIDED|95.0|0.8|100.98|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||100.98|0.80|0.073
92254897|NCT04984876|184412137|OTHER||Odds Ratio (OR)|9.86||||0.018|TWO_SIDED|95.0|1.69|188.85|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||188.85|1.69|0.018
92254898|NCT04984876|184412137|OTHER||Odds Ratio (OR)|3.02||||0.164|TWO_SIDED|95.0|0.45|59.93|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||59.93|0.45|0.164
92254899|NCT04984876|184412138|OTHER||Odds Ratio (OR)|3.47||||0.138|TWO_SIDED|95.0|0.51|70.08|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||70.08|0.51|0.138
92254900|NCT04984876|184412138|OTHER||Odds Ratio (OR)|2.21||||0.247|TWO_SIDED|95.0|0.3|45.56|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||45.56|0.30|0.247
92254901|NCT04984876|184412139|OTHER||Odds Ratio (OR)|10.59|||<|0.001|TWO_SIDED|95.0|3.63|31.56|||proportional odds model||proportional odds model adjusting for treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), log transformed baseline total IgE at screening and region.|||31.56|3.63|<0.001
92254902|NCT04984876|184412139|OTHER||Odds Ratio (OR)|5.05||||0.001|TWO_SIDED|95.0|1.8|14.36|||proportional odds model||proportional odds model adjusting for treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), log transformed baseline total IgE at screening and region.|||14.36|1.80|0.001
92254903|NCT04984876|184412140|OTHER||Odds Ratio (OR)|4.73||||0.082|TWO_SIDED|95.0|0.74|93.16|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||93.16|0.74|0.082
92254904|NCT04984876|184412140|OTHER||Odds Ratio (OR)|0.61||||0.632|TWO_SIDED|95.0|0.02|16.43|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||16.43|0.02|0.632
92254905|NCT04984876|184412145|OTHER||LS Mean difference|-3.77|||<|0.001|TWO_SIDED|95.0|-5.15|-2.4|||ANCOVA||ANCOVA model with treatment group, age subgroup (12 - 17 years, 18 - 55 years), region, log-transformed baseline total IgE at screening and baseline SPT mean wheal diameter (average dilutions peanut protein) as covariates.|||-2.40|-5.15|<0.001
92254906|NCT04984876|184412145|OTHER||LS Mean difference|-4.93|||<|0.001|TWO_SIDED|95.0|-7.77|-2.09|||ANCOVA||ANCOVA model with treatment group, age subgroup (12 - 17 years, 18 - 55 years), region, log-transformed baseline total IgE at screening and baseline SPT mean wheal diameter (average dilutions peanut protein) as covariates.|||-2.09|-7.77|<0.001
92254907|NCT04984876|184412145|OTHER||LS Mean difference|-3.2||||0.015|TWO_SIDED|95.0|-6.08|-0.32|||ANCOVA||ANCOVA model with treatment group, age subgroup (12 - 17 years, 18 - 55 years), region, log-transformed baseline total IgE at screening and baseline SPT mean wheal diameter (average dilutions peanut protein) as covariates.|||-0.32|-6.08|0.015
92254908|NCT04984876|184412145|OTHER||LS Mean difference|-1.68||||0.13|TWO_SIDED|95.0|-4.62|1.25|||ANCOVA||ANCOVA model with treatment group, age subgroup (12 - 17 years, 18 - 55 years), region, log-transformed baseline total IgE at screening and baseline SPT mean wheal diameter (average dilutions peanut protein) as covariates.|||1.25|-4.62|0.130
92254909|NCT04984876|184412146|OTHER||LS Mean difference|-0.33||||0.173|TWO_SIDED|95.0|-1.03|0.36|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.36|-1.03|0.173
92254910|NCT04984876|184412146|OTHER||LS Mean difference|-0.29||||0.202|TWO_SIDED|95.0|-0.96|0.39|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.39|-0.96|0.202
92254911|NCT04984876|184412146|OTHER||LS Mean difference|-0.37||||0.151|TWO_SIDED|95.0|-1.09|0.34|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.34|-1.09|0.151
92254912|NCT04984876|184412146|OTHER||LS Mean difference|-0.23||||0.264|TWO_SIDED|95.0|-0.94|0.49|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.49|-0.94|0.264
92254913|NCT04984876|184412146|OTHER||LS Mean difference|-0.43||||0.123|TWO_SIDED|95.0|-1.16|0.3|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.30|-1.16|0.123
92254914|NCT04984876|184412146|OTHER||LS Mean difference|-0.23||||0.258|TWO_SIDED|95.0|-0.94|0.47|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.47|-0.94|0.258
92254915|NCT04984876|184412146|OTHER||LS Mean difference|-0.17||||0.324|TWO_SIDED|95.0|-0.92|0.58|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.58|-0.92|0.324
92254916|NCT04984876|184412146|OTHER||LS Mean difference|-0.03||||0.473|TWO_SIDED|95.0|-0.78|0.73|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.73|-0.78|0.473
92254917|NCT04984876|184412147|OTHER||LS Mean difference|0.06||||0.597|TWO_SIDED|95.0|-0.44|0.57|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.57|-0.44|0.597
92254918|NCT04984876|184412147|OTHER||LS Mean difference|-0.39||||0.064|TWO_SIDED|95.0|-0.89|0.11|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.11|-0.89|0.064
92254919|NCT04984876|184412147|OTHER||LS Mean difference|-0.22||||0.191|TWO_SIDED|95.0|-0.72|0.28|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.28|-0.72|0.191
92254920|NCT04984876|184412147|OTHER||LS Mean difference|-0.02||||0.472|TWO_SIDED|95.0|-0.51|0.48|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.48|-0.51|0.472
92254921|NCT04984876|184412147|OTHER||LS Mean difference|0.03||||0.537|TWO_SIDED|95.0|-0.57|0.62|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.62|-0.57|0.537
92254922|NCT04984876|184412147|OTHER||LS Mean difference|-0.32||||0.141|TWO_SIDED|95.0|-0.91|0.27|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.27|-0.91|0.141
92254923|NCT04984876|184412147|OTHER||LS Meand difference|-0.45||||0.063|TWO_SIDED|95.0|-1.04|0.13|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.13|-1.04|0.063
92254924|NCT04984876|184412147|OTHER||LS Mean difference|-0.1||||0.368|TWO_SIDED|95.0|-0.68|0.48|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.48|-0.68|0.368
92254925|NCT04984876|184412148|OTHER||LS Mean difference|-0.24||||0.225|TWO_SIDED|95.0|-0.87|0.39|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.39|-0.87|0.225
92254926|NCT04984876|184412148|OTHER||LS Mean difference|-0.32||||0.153|TWO_SIDED|95.0|-0.93|0.3|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.30|-0.93|0.153
92254927|NCT04984876|184412148|OTHER||LS Mean difference|-0.3||||0.179|TWO_SIDED|95.0|-0.95|0.34|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.34|-0.95|0.179
92254928|NCT04984876|184412148|OTHER||LS Mean difference|0.11||||0.631|TWO_SIDED|95.0|-0.55|0.77|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.77|-0.55|0.631
92254929|NCT04984876|184412148|OTHER||LS Mean difference|-0.52||||0.06|TWO_SIDED|95.0|-1.18|0.14|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.14|-1.18|0.060
92254930|NCT04984876|184412148|OTHER||LS Mean difference|-0.08||||0.404|TWO_SIDED|95.0|-0.72|0.56|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.56|-0.72|0.404
92254931|NCT04984876|184412148|OTHER||LS Mean difference|-0.38||||0.135|TWO_SIDED|95.0|-1.06|0.3|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.30|-1.06|0.135
92254932|NCT04984876|184412148|OTHER||LS Mean difference|0.01||||0.514|TWO_SIDED|95.0|-0.7|0.72|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.72|-0.70|0.514
92254933|NCT04984876|184412149|OTHER||LS Mean difference|0.04||||0.574|TWO_SIDED|95.0|-0.42|0.51|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.51|-0.42|0.574
92254934|NCT04984876|184412149|OTHER||LS Mean difference|-0.37||||0.056|TWO_SIDED|95.0|-0.83|0.09|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.09|-0.83|0.056
92254935|NCT04984876|184412149|OTHER||LS Mean difference|-0.36||||0.069|TWO_SIDED|95.0|-0.83|0.12|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.12|-0.83|0.069
92254936|NCT04984876|184412149|OTHER||LS Mean difference|-0.19||||0.205|TWO_SIDED|95.0|-0.65|0.27|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.27|-0.65|0.205
92254937|NCT04984876|184412149|OTHER||LS Mean difference|-0.2||||0.248|TWO_SIDED|95.0|-0.76|0.37|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.37|-0.76|0.248
92254938|NCT04984876|184412149|OTHER||LS Mean difference|-0.42||||0.071|TWO_SIDED|95.0|-0.98|0.14|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.14|-0.98|0.071
92254939|NCT04984876|184412149|OTHER||LS Mean difference|-0.49||||0.048|TWO_SIDED|95.0|-1.06|0.09|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.09|-1.06|0.048
92254940|NCT04984876|184412149|OTHER||LS Mean difference|-0.3||||0.142|TWO_SIDED|95.0|-0.85|0.25|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.25|-0.85|0.142
92254941|NCT01077193|184412153|NON_INFERIORITY_OR_EQUIVALENCE|See above.|Mean Percent Excess Weight Loss|37.9|STANDARD_DEVIATION|25.18||0.3227|TWO_SIDED|95.0|30.2|45.5||No multiple comparison adjustments are necessary as this is a single hypothesis on 1 parameter for a within group change comparison to 36.1%.|t-test, 1 sided|||A sample size of 32 achieves power\>90% to demonstrate non-inferiority using a one-sided t-test (alpha=0.025) when the margin of equivalence is a 5% difference in EWL. The true difference between %EWL for patients undergoing a greater curvature procedure and the target %EWL is hypothesized to be 0. The target %EWL at 3 years is 41.1%, based upon prior studies. This power analysis assumes data are drawn from a single population with a standard deviation of 8.20.||45.5|30.2|0.3227
92254942|NCT04960202|184412155|SUPERIORITY||Percentage difference|-6.137|STANDARD_ERROR_OF_MEAN|1.057|<|0.0001|TWO_SIDED|95.0|-8.208|-4.066|||Normal approximation|||The difference of the percentage in the 2 treatment groups and its 95% confidence interval, and p-value based on Normal approximation of the data are presented.||-4.066|-8.208|<0.0001
92254943|NCT04960202|184412158|SUPERIORITY||Percentage difference|-5.638|STANDARD_ERROR_OF_MEAN|0.852|<|0.0001|TWO_SIDED|95.0|-7.308|-3.967|||Normal approximation|||The difference of the percentage in the 2 treatment groups and its 95% confidence interval, and p-value based on Normal approximation of the data are presented.||-3.967|-7.308|<0.0001
92254944|NCT04960202|184412159|SUPERIORITY||Hazard Ratio (HR)|1.294||||0.0003|TWO_SIDED|95.0|1.136|1.476|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained alleviation is based on Cox proportional hazard (PH) model with treatment and geographic region effects as independent variables, and baseline SARS-CoV-2 serology status and baseline viral load (\<4 logarithm to base 10 \[log10\] copies/milliliter \[mL\], \>=4 log10 copies/mL) as covariates.||1.476|1.136|0.0003
92254945|NCT04960202|184412160|SUPERIORITY||Hazard Ratio (HR)|1.266|||<|0.0001|TWO_SIDED|95.0|1.134|1.412|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained alleviation is based on Cox PH model with treatment and geographic region effects as independent variables, and symptom onset duration (\<=3, \>3), baseline SARS-CoV-2 serology status and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL) as covariates.||1.412|1.134|<0.0001
92254946|NCT04960202|184412161|SUPERIORITY||Hazard Ratio (HR)|1.258|||<|0.0001|TWO_SIDED|95.0|1.131|1.4|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained alleviation is based on Cox PH model with treatment and geographic region effects as independent variables, and symptom onset duration (\<=3, \>3), COVID-19 mAb treatment (Yes/No), baseline SARS-CoV-2 serology status and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL) as covariates.||1.400|1.131|<0.0001
92254947|NCT04960202|184412162|SUPERIORITY||Odds Ratio (OR)|0.871||||0.3473|TWO_SIDED|95.0|0.652|1.162|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.162|0.652|0.3473
92254948|NCT04960202|184412163|SUPERIORITY||Odds Ratio (OR)|0.936||||0.5762|TWO_SIDED|95.0|0.74|1.182|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, symptom onset duration (\<=3, \>3), baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.182|0.740|0.5762
92254949|NCT04960202|184412164|SUPERIORITY||Odds Ratio (OR)|0.969||||0.7807|TWO_SIDED|95.0|0.773|1.213|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, symptom onset duration (\<=3, \>3), COVID-19 mAb treatment (Yes/No),baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.213|0.773|0.7807
92283746|NCT03633721|184471301|SUPERIORITY|||||||0.18|||||||ANOVA|||Hypothesis Being Tested in 2 way ANOVA is that the difference in the change from Baseline to the Average of 15 and 60 minutes post baseline while on cannabis Vs. the change while on placebo (i.e. the last row in the outcomes) is greater for HIV+ subjects than for HIV- subjects.||||0.18
92254950|NCT04960202|184412165|SUPERIORITY||Hazard Ratio (HR)|1.219||||0.0053|TWO_SIDED|95.0|1.061|1.401|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained resolution is based on Cox PH model with treatment and geographic region effects as independent variables, and baseline SARS-CoV-2 serology status and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL) as covariates.||1.401|1.061|0.0053
92254951|NCT04960202|184412166|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.0022|TWO_SIDED|95.0|1.068|1.348|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained resolution is based on Cox PH model with treatment and geographic region effects as independent variables, and symptom onset duration (\<=3, \>3), baseline SARS-CoV-2 serology status and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL) as covariates.||1.348|1.068|0.0022
92254952|NCT04960202|184412167|SUPERIORITY||Hazard Ratio (HR)|1.194||||0.0021|TWO_SIDED|95.0|1.066|1.337|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained resolution is based on Cox PH model with treatment and geographic region effects as independent variables, and symptom onset duration (\<=3, \>3), COVID-19 mAb treatment (Yes/No), baseline SARS-CoV-2 serology status and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL) as covariates.||1.337|1.066|0.0021
92254953|NCT04960202|184412174|SUPERIORITY||Odds Ratio (OR)|1.088||||0.5293|TWO_SIDED|95.0|0.836|1.416|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.416|0.836|0.5293
92254954|NCT04960202|184412175|SUPERIORITY||Odds Ratio (OR)|1.053||||0.6379|TWO_SIDED|95.0|0.85|1.303|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, symptom onset duration (\<=3, \>3), baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.303|0.850|0.6379
92254955|NCT04960202|184412176|SUPERIORITY||Odds Ratio (OR)|1.046||||0.676|TWO_SIDED|95.0|0.848|1.29|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, symptom onset duration (\<=3, \>3), COVID-19 mAb treatment (Yes/No), baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.290|0.848|0.6760
92254956|NCT04960202|184412177|SUPERIORITY||Odds Ratio (OR)|19.4||||0.1997||95.0|7.788|48.328|||Breslow-Day test||Odds ratio for Day 5 vs Day 1: PF-07321332 300 mg + Ritonavir 100 mg|||48.328|7.788|0.1997
92254957|NCT04960202|184412177|OTHER||Odds Ratio (OR)|8.948|||||TWO_SIDED|95.0|4.159|19.253|||Breslow-Day test||Odds ratio for Day 5 vs Day 1: Placebo|||19.253|4.159|
92182771|NCT02609048|184264682|SUPERIORITY||Difference in LSM|-8.84|STANDARD_ERROR_OF_MEAN|12.883||0.4979|TWO_SIDED|95.0|-35.11|17.44||Difference between means,p-value,and CIs are estimated by each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline assessment as covariate,and percent change from baseline in conjugated bilirubin as response variable.|ANCOVA|||||17.44|-35.11|0.4979
92254958|NCT04960202|184412178|SUPERIORITY||Odds Ratio (OR)|20.875||||0.281|TWO_SIDED|95.0|10.097|43.156|||Breslow-Day test||Odds ratio for Day 5 vs Day 1: PF-07321332 300 mg + Ritonavir 100 mg|||43.156|10.097|0.2810
92254959|NCT04960202|184412178|SUPERIORITY||Odds Ratio (OR)|12.452|||||TWO_SIDED|95.0|6.823|22.725|||Breslow Day test||Odds ratio for Day 5 vs Day 1: Placebo|||22.725|6.823|
92254960|NCT04960202|184412179|SUPERIORITY||Odds Ratio (OR)|21.119||||0.2226|TWO_SIDED|95.0|10.412|42.837|||Breslow-Day test||Odds ratio for Day 5 vs Day 1: PF-07321332 300 mg + Ritonavir 100 mg|||42.837|10.412|0.2226
92254961|NCT04960202|184412179|SUPERIORITY||Odds Ratio (OR)|12.036||||0.2342|TWO_SIDED|95.0|6.808|21.28|||Breslow-Day test||Odds ratio for Day 5 vs Day 1: Placebo|||21.280|6.808|0.2342
92254962|NCT03687827|184412197|SUPERIORITY|Superiority is confirmed if non-inferiority is confirmed and the lower limit of the two-sided 95% confidence interval is entirely above zero.|Estimated treatment difference|1.43||||0.0321|TWO_SIDED|95.0|0.12|2.74|||t-test, 2 sided|||||2.74|0.12|0.0321
92254963|NCT03687827|184412197|NON_INFERIORITY|A non-inferiority margin of -0.83% has been applied, corresponding to 0.2 hours/24 hours|Estimated treatment difference|1.43|||||TWO_SIDED|95.0|0.12|2.74||||||||2.74|0.12|
92254964|NCT00981292|184412225|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||A Bonferroni adjustment was made for multiplicity.|ANOVA|||This data was analysed by two-way repeated measures ANOVA (task \[epoch\] x treatment). In the case of those analyses that showed a significant main effect of treatment or a task/epoch x treatment interaction, planned comparisons of data from each task or epoch were then made between placebo and each of the EGCG treatment groups using t tests calculated with the Mean Squares Error from the ANOVA.||||<0.05
92254965|NCT00981292|184412226|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||Task performance data were analysed by within subjects ANCOVA (treatment) with pre-treatment performance included as a co-variate for each individual task/measure.||||>0.05
92254966|NCT00981292|184412227|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Mood data was analysed via student t-test.||||>0.05
92254967|NCT03377452|184412228|SUPERIORITY||Mean Difference (Final Values)|7.26|STANDARD_ERROR_OF_MEAN|6.02||0.2313|TWO_SIDED|95.0|-4.71|19.22|||t-test, 2 sided|||||19.22|-4.71|0.2313
92254968|NCT03377452|184412229|SUPERIORITY||Mean Difference (Net)|-3.31|STANDARD_ERROR_OF_MEAN|0.81|<|0.001|TWO_SIDED|95.0|-4.91|-1.72|||Mixed Models Analysis||The parameter estimate is the change in the outcome from baseline to 3-months after the last intervention/control session for the intervention group versus the same change in the control group.|||-1.72|-4.91|<0.001
92254969|NCT03146403|184412248|SUPERIORITY|||||||0.7474|||||||Wilcoxon (Mann-Whitney)|||||||0.7474
92254970|NCT03146403|184412249|SUPERIORITY|||||||0.645|||||||Wilcoxon (Mann-Whitney)|||||||0.6450
92254971|NCT03146403|184412250|SUPERIORITY|||||||0.3157|||||||Chi-squared|||||||0.3157
92254972|NCT03146403|184412251|SUPERIORITY|||||||0.3869|||||||Log Rank|||||||0.3869
92254973|NCT03146403|184412252|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.2200
92254974|NCT02182999|184412255|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.596|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||A sample size of 17 patients in each group was previously calculated on the basis of a significance level of .05, a power of 80%, an anticipated pooled standard Deviation (SD) of 1.0 of the mean verbal NRS pain level, and a minimal clinically important difference in the mean verbal NRS pain level of 1.0 points between the groups. Anticipating a loss to follow-up, we planned to recruit a total of 50 patients (25 patients each group).||||0.596
92254975|NCT02182999|184412256|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.353|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.353
92254976|NCT00926185|184412265|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|0.06||||0.9381|TWO_SIDED|95.0|-0.26|0.39|||Dunnett's test||Analysis of covariance model with treatment, baseline, and site.|||0.39|-0.26|0.9381
92254977|NCT00926185|184412265|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|0.2||||0.3585|TWO_SIDED|95.0|-0.13|0.53|||Dunnett's test||Analysis of covariance model with treatment, baseline, and site.|||0.53|-0.13|0.3585
92254978|NCT00926185|184412265|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|0.27||||0.1375|TWO_SIDED|95.0|-0.06|0.6|||Dunnett's test||Analysis of covariance model with treatment, baseline, and site.|||0.60|-0.06|0.1375
92254979|NCT00638690|184412267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.646|||<|0.0001|TWO_SIDED|95.0|0.543|0.768||Nominal P-value is 0.0142 at interim analysis based on group sequential design.|Log Rank|This was a stratified analysis.||||0.768|0.543|<0.0001
92254980|NCT00638690|184412268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.0001||95.0|0.462|0.728||Nominal P-value = 0.05.|Log Rank|This was a stratified analysis.||||0.728|0.462|<0.0001
92254981|NCT00638690|184412269|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|5.266|||<|0.001|TWO_SIDED|95.0|3.459|8.018||Nominal P-value = 0.05.|Chi-squared|||||8.018|3.459|<0.001
92254982|NCT00638690|184412270|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.673|||<|0.0001|TWO_SIDED|95.0|0.585|0.776||The nominal P-value = 0.05.|Log Rank|This was a stratified analysis.||||0.776|0.585|<0.0001
92254983|NCT02203916|184412274|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.317|STANDARD_ERROR_OF_MEAN|2.4502|<|0.001|TWO_SIDED|95.0|-18.138|-8.497||"Overall type 1 error rate of 0.05 was controlled using principle of 'closed' testing: each pairwise comparison to placebo was conducted at 0.05 level with no p-value adjustment if hypothesis all treatment groups equal was first rejected at 0.05."|ANCOVA|Post-baseline p-values were from an ANCOVA model with treatment as a fixed factor and baseline values as a continuous covariate.||||-8.497|-18.138|<0.001
92254984|NCT02203916|184412274|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.955|STANDARD_ERROR_OF_MEAN|2.447|<|0.001|TWO_SIDED|95.0|-19.77|-10.141||"Overall type 1 error rate of 0.05 was controlled using principle of 'closed' testing: each pairwise comparison to placebo was conducted at 0.05 level with no p-value adjustment if hypothesis all treatment groups equal was first rejected at 0.05."|ANCOVA|Post-baseline p-values were from an ANCOVA model with treatment as a fixed factor and baseline values as a continuous covariate.||||-10.141|-19.770|<0.001
92254985|NCT03152110|184412296|SUPERIORITY|||||||0.203|||||||t-test, 2 sided|||||||.203
92182772|NCT02609048|184264682|SUPERIORITY||Difference in LSM|40.3|STANDARD_ERROR_OF_MEAN|13.591||0.0058|TWO_SIDED|95.0|12.58|68.02||Difference between means,p-value,and CIs are estimated for Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline assessment as covariate,and percent change from baseline in conjugated bilirubin as response variable.|ANCOVA|||||68.02|12.58|0.0058
92254986|NCT03152110|184412297|SUPERIORITY|||||||0.931|||||||t-test, 2 sided|||||||0.931
92254987|NCT01620593|184412336|SUPERIORITY|t-test|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92254988|NCT03536923|184412343|OTHER|||||||0.0001|||||||t-test, 1 sided|||||||0.0001
92254989|NCT03536923|184412344|OTHER|||||||0.0009|||||||t-test, 1 sided|||||||0.0009
92254990|NCT03536923|184412346|OTHER|||||||0.0001|||||||t-test, 1 sided|||||||0.0001
92254991|NCT03054740|184412347|SUPERIORITY||||||||||||||||||Levene's Test of Equality of Error Variances (Design: Intercept + Pain Previous IV + Intervention) F = .001, df1 = 1, df2=28, Sig. = .972|||
92254992|NCT03054740|184412348|SUPERIORITY|||||||0.39|||||||Fisher Exact|||||||.390
92254993|NCT01378299|184412352|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with last value carry forward.||||<0.05
92254994|NCT01378299|184412353|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward||||<0.05
92254995|NCT01378299|184412354|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
92254996|NCT01378299|184412355|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
92254997|NCT01378299|184412356|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
92254998|NCT01378299|184412357|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
92254999|NCT01378299|184412358|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
92255000|NCT01378299|184412360|OTHER||||||<|0.05|||||||ANOVA|||Analysis was by intention to treat with the last value carry forward. Those who had at least one follow-up from baseline and with acceptable assay coefficient of variability were included in the analysis. The data of 79 subjects were analyzed; 15 in the GG, 43 in the GA and 21 in the AA genotype.||||<0.05
92255001|NCT01378299|184412361|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
92255002|NCT01378299|184412362|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
92255003|NCT01378299|184412363|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
92255004|NCT00565812|184412364|SUPERIORITY_OR_OTHER||Difference in Slopes|0.012|STANDARD_ERROR_OF_MEAN|0.018||0.50877|TWO_SIDED|95.0|-0.023|0.046|||Mixed Models Analysis|||Slopes, 95 percent confidence interval (CI), P-values: Random coefficients mixed-effects model for repeated measures (MMRM) with random intercept and slope for each participant,fixed effects for treatment group,time (years),treatment group\*time interaction,(collapsed)Kellgren and Lawrence Grades (KLG), KLG\*time interaction,geographic region,gender,age,body mass index with unstructured covariance matrix for random effects. Statistical hypothesis used Hochberg procedure with 2-sided alpha =0.0499.||0.046|-0.023|0.508770
92255005|NCT00565812|184412364|SUPERIORITY_OR_OTHER||Difference in Slopes|0.005|STANDARD_ERROR_OF_MEAN|0.017||0.754074|TWO_SIDED|95.0|-0.029|0.04|||Mixed Models Analysis|||Slopes, 95 percent CI, P-values: MMRM with random intercept and slope for each participant, fixed effects for treatment group, time (years), treatment group\*time interaction, (collapsed) KLG, KLG\*time interaction, geographic region, gender, age, body mass index with unstructured covariance matrix for random effects. Statistical hypothesis used Hochberg procedure with 2-sided alpha=0.0499.||0.040|-0.029|0.754074
92255006|NCT00565812|184412365|SUPERIORITY_OR_OTHER||Difference in slopes|0.023|STANDARD_ERROR_OF_MEAN|0.023||0.312|TWO_SIDED|95.0|-0.022|0.067|||Mixed Models Analysis|||Slopes, 95 percent CI and P-values were obtained from a random coefficients MMRM with random intercept and slope for each participant, and fixed effects for treatment group, time (years), a treatment group\*time (years) interaction, geographic region, gender, age, and body mass index with an unstructured covariance matrix for the random effects.||0.067|-0.022|0.312
92255007|NCT00565812|184412365|SUPERIORITY_OR_OTHER||Difference in slopes|0.022|STANDARD_ERROR_OF_MEAN|0.023||0.327|TWO_SIDED|95.0|-0.022|0.067|||Mixed Models Analysis|||Slopes, 95 percent CI and P-values were obtained from a random coefficients MMRM with random intercept and slope for each participant, and fixed effects for treatment group, time (years), a treatment group\*time (years) interaction, geographic region, gender, age, and body mass index with an unstructured covariance matrix for the random effects.||0.067|-0.022|0.327
92255008|NCT00565812|184412366|SUPERIORITY_OR_OTHER||Difference in slopes|0.004|STANDARD_ERROR_OF_MEAN|0.026||0.881|TWO_SIDED|95.0|-0.046|0.054|||Mixed Models Analysis|||Slopes, 95 percent CI and P-values were obtained from a random coefficients MMRM with random intercept and slope for each participant, and fixed effects for treatment group, time (years), a treatment group\*time (years) interaction, geographic region, gender, age, and body mass index with an unstructured covariance matrix for the random effects.||0.054|-0.046|0.881
92255009|NCT00565812|184412366|SUPERIORITY_OR_OTHER||Difference in slopes|-0.007|STANDARD_ERROR_OF_MEAN|0.025||0.78|TWO_SIDED|95.0|-0.056|0.042|||Mixed Models Analysis|||Slopes, 95 percent CI and P-values were obtained from a random coefficients MMRM with random intercept and slope for each participant, and fixed effects for treatment group, time (years), a treatment group\*time (years) interaction, geographic region, gender, age, and body mass index with an unstructured covariance matrix for the random effects.||0.042|-0.056|0.780
92255010|NCT00565812|184412367|SUPERIORITY_OR_OTHER||LS mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.84||0.639|TWO_SIDED|95.0|-1.26|2.05|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.05|-1.26|0.639
92283747|NCT03633721|184471302|SUPERIORITY|||||||0.72|||||||ANOVA|||Hypothesis Being Tested in 2 way ANOVA is that the difference in the change from Baseline to the Average of 15 and 60 minutes post baseline while on cannabis Vs. the change while on placebo (i.e. the last row in the outcomes) is greater for HIV+ subjects than for HIV- subjects.||||0.72
92283748|NCT01475474|184471307|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Signed-Rank Test|||Wilcoxon Signed-Rank Test used to evaluate median Percent Change-from-Baseline in ABL different from zero||||<0.001
92283749|NCT01475474|184471308|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Signed-Rank Test|||Wilcoxon Signed-Rank Test used to evaluate median Percent Change-from-Baseline in Wexner score||||<0.001
92283750|NCT01054599|184471345|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92283751|NCT01054599|184471348|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||||||>0.05
92283752|NCT01691248|184471351|SUPERIORITY_OR_OTHER||Percentage Difference|2.2||||0.2778|TWO_SIDED|95.0|-5.1|9.5||1-sided Wald test for a difference in proportions using an unpooled estimate of variance.|One-sided Wald p-value||Placebo minus Fidaxomicin|||9.5|-5.1|0.2778
92283753|NCT01691248|184471352|SUPERIORITY_OR_OTHER||Percentage difference|0.6||||0.442|TWO_SIDED|95.0|-7.1|8.2||1-sided Wald test for a difference in proportions using an unpooled estimate of variance.|One-sided Wald p-value||Placebo minus Fidaxomicin|||8.2|-7.1|0.4420
92182773|NCT02609048|184264683|SUPERIORITY||Difference in LSM|-2.97|STANDARD_ERROR_OF_MEAN|8.362||0.7244|TWO_SIDED|95.0|-20.03|14.08||Difference between means,p-value, and CIs are estimated by comparing Seladelpar level with placebo using ANCOVA model.Treatment group as a factor,baseline assessment as covariate, and percent change from baseline as the response variable.|ANCOVA|||||14.08|-20.03|0.7244
92283754|NCT01691248|184471353|SUPERIORITY_OR_OTHER||Percentage difference|1.9||||0.3091|TWO_SIDED|95.0|-5.5|9.2||1-sided Wald test for a difference in proportions using an unpooled estimate of variance.|One-sided Wald p-value||Placebo minus Fidaxomicin|||9.2|-5.5|0.3091
92283755|NCT00993187|184471354|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.8|||<|0.001|TWO_SIDED|95.0|-1.0|-0.6|||ANCOVA|||||-0.6|-1.0|<0.001
92283756|NCT00993187|184471357|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-23.5|||<|0.001|TWO_SIDED|95.0|-30.0|-16.9|||ANCOVA|||||-16.9|-30.0|<0.001
92283757|NCT00993187|184471358|SUPERIORITY_OR_OTHER||Difference in percent|-14.7|||<|0.001|TWO_SIDED|95.0|-23.0|-7.0|||ANCOVA|||||-7.0|-23.0|<0.001
92283758|NCT00993187|184471359|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-1.72|||<|0.001|TWO_SIDED|95.0|-2.2|-1.25|||ANCOVA|||||-1.25|-2.20|<0.001
92283759|NCT00993187|184471360|SUPERIORITY_OR_OTHER||Difference in percent|41.01|||<|0.001|TWO_SIDED|95.0|30.0|51.0|||ANCOVA|||||51.0|30.0|<0.001
92283760|NCT00549718|184471367|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92283761|NCT00549718|184471368|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
92283762|NCT03422653|184471369|SUPERIORITY||Odds Ratio (OR)|2.72|||<|0.001|TWO_SIDED|95.0|1.72|4.3|||Cui, Hung, Wang|||||4.30|1.72|<0.001
92283763|NCT03422653|184471370|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-2.0|-0.5|||ANCOVA|||||-0.5|-2.0|<0.001
92283764|NCT03422653|184471371|SUPERIORITY||Mean Difference (Final Values)|-5.1|STANDARD_ERROR_OF_MEAN|1.44|<|0.001|TWO_SIDED|95.0|-8.0|-2.3|||ANCOVA|||||-2.3|-8.0|<0.001
92283765|NCT03422653|184471372|SUPERIORITY||Odds Ratio (OR)|2.89|||<|0.001|TWO_SIDED|95.0|1.75|4.76|||Cui, Hung, Wang|||||4.76|1.75|<0.001
92283766|NCT01287013|184471415|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92283767|NCT01287013|184471416|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92283768|NCT01287013|184471417|OTHER||||||<|0.04|||||||t-test, 2 sided|||||||<0.04
92255011|NCT00565812|184412367|SUPERIORITY_OR_OTHER||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.84||0.957|TWO_SIDED|95.0|-1.61|1.7|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.70|-1.61|0.957
92255012|NCT00565812|184412367|SUPERIORITY_OR_OTHER||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|0.96||0.893|TWO_SIDED|95.0|-1.76|2.01|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.01|-1.76|0.893
92255013|NCT00565812|184412367|SUPERIORITY_OR_OTHER||LS mean difference|0.87|STANDARD_ERROR_OF_MEAN|0.96||0.365|TWO_SIDED|95.0|-1.01|2.76|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.76|-1.01|0.365
92255014|NCT00565812|184412367|SUPERIORITY_OR_OTHER||LS mean difference|0.44|STANDARD_ERROR_OF_MEAN|1.05||0.678|TWO_SIDED|95.0|-1.63|2.51|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.51|-1.63|0.678
92255015|NCT00565812|184412367|SUPERIORITY_OR_OTHER||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|1.05||0.902|TWO_SIDED|95.0|-2.18|1.93|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.93|-2.18|0.902
92283769|NCT01287013|184471418|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92283770|NCT01287013|184471419|SUPERIORITY_OR_OTHER||||||=|0.67|||||||t-test, 2 sided|||||||=0.67
92283771|NCT01179048|184471424|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of liraglutide versus placebo was considered confirmed, if the upper limit of the two-sided 95% CI for the hazard ratio was below 1.3 or if the p-value for the one-sided test of H0: HR \>=1.3 against Ha: HR \<1.3 was less than 2.5% (or equivalent to 5% in two-sided test). If non-inferiority was established for the primary outcome, a test for superiority was to be performed.|Hazard Ratio (HR)|0.868|||<|0.001|TWO_SIDED|95.0|0.778|0.968||p-value is reported for one-sided (α-level 0.025) test for non-inferiority (hazard ratio \>=1.3).|Regression, Cox|||The primary endpoint was evaluated using the Cox regression model to estimate the hazard ratio (HR) (liraglutide/placebo) and the 2-sided 95% confidence interval (CI) including treatment group as factor. Non-inferiority of liraglutide versus placebo was considered confirmed, if the upper limit of the two-sided 95% CI for the hazard ratio was below 1.3 or if the p-value for the one-sided test of H0: HR \>=1.3 against Ha: HR \<1.3 was less than 2.5% (or equivalent to 5% in two-sided test).||0.968|0.778|<0.001
92283772|NCT01179048|184471424|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.868||||0.005|TWO_SIDED|95.0|0.778|0.968||p-value is reported for one-sided (α-level 0.025) test for superiority (hazard ratio\>=1.0).|Regression, Cox|||If non-inferiority was established for the primary outcome, a test for superiority was performed. Superiority of liraglutide versus placebo was considered confirmed, if the upper limit of the two-sided 95% CI for the hazard ratio was below 1.0 or equivalent if the p-value for the one-sided test of H0: HR \>=1.0 against Ha: HR \<1.0 was less than 2.5% (or equivalent to 5% in two-sided test).||0.968|0.778|0.005
92283773|NCT01179048|184471425|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.881|||||TWO_SIDED|95.0|0.807|0.962|||Regression, Cox|The analysis was done using a Cox regression model with treatment as a fixed factor including all randomised subjects.||||0.962|0.807|
92255016|NCT00565812|184412367|SUPERIORITY_OR_OTHER||LS mean difference|-0.64|STANDARD_ERROR_OF_MEAN|1.15||0.577|TWO_SIDED|95.0|-2.89|1.61|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.61|-2.89|0.577
92255017|NCT00565812|184412367|SUPERIORITY_OR_OTHER||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|1.14||0.98|TWO_SIDED|95.0|-2.26|2.21|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.21|-2.26|0.980
92283774|NCT01179048|184471426|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.847|||||TWO_SIDED|95.0|0.739|0.971|||Regression, Cox|The analysis was done using a Cox regression model with treatment as a fixed factor including all randomised subjects.||||0.971|0.739|
92283775|NCT01179048|184471427|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.783|||||TWO_SIDED|95.0|0.656|0.934|||Regression, Cox|||Analysis for percentage of subjects experiencing cardiovascular death was done by Cox regression model with treatment as fixed factor.||0.934|0.656|
92283776|NCT01179048|184471427|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.894|||||TWO_SIDED|95.0|0.721|1.107|||Regression, Cox|||Analysis for percentage of subjects experiencing non-fatal stroke was done by Cox regression model with treatment as fixed factor||1.107|0.721|
92283777|NCT01179048|184471427|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.878|||||TWO_SIDED|95.0|0.747|1.031|||Regression, Cox|||Analysis for percentage of subjects experiencing non-fatal myocardial infarction was done by Cox regression model with treatment as fixed factor||1.031|0.747|
92283778|NCT01179048|184471427|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.763|1.258|||Regression, Cox|||Analysis for percentage of subjects experiencing hospitalisation for unstable angina pectoris was done by Cox regression model with treatment as fixed factor||1.258|0.763|
92283779|NCT01179048|184471427|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.912|||||TWO_SIDED|95.0|0.797|1.044|||Regression, Cox|||Analysis for percentage of subjects experiencing coronary revascularisation was done by Cox regression model with treatment as fixed factor||1.044|0.797|
92255018|NCT00565812|184412367|SUPERIORITY_OR_OTHER||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|1.17||0.95|TWO_SIDED|95.0|-2.37|2.23|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.23|-2.37|0.950
92255019|NCT00565812|184412367|SUPERIORITY_OR_OTHER||LS mean difference|-1.23|STANDARD_ERROR_OF_MEAN|1.17||0.292|TWO_SIDED|95.0|-3.53|1.06|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.06|-3.53|0.292
92255020|NCT00565812|184412368|SUPERIORITY_OR_OTHER||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.19||0.683|TWO_SIDED|95.0|-0.3|0.46|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\* visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.46|-0.30|0.683
92255021|NCT00565812|184412368|SUPERIORITY_OR_OTHER||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.19||0.853|TWO_SIDED|95.0|-0.42|0.35|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.35|-0.42|0.853
92283780|NCT01179048|184471427|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.872|||||TWO_SIDED|95.0|0.727|1.046|||Regression, Cox|||Analysis for percentage of subjects experiencing hospitalisation for heart failure was done by Cox regression model with treatment as fixed factor||1.046|0.727|
92283781|NCT01179048|184471428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.841|||||TWO_SIDED|95.0|0.73|0.969|||Regression, Cox|||Analysis for percentage of subjects experiencing a first microvascular event was done by Cox regression model with treatment as fixed factor.||0.969|0.730|
92283782|NCT01179048|184471429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.782|||||TWO_SIDED|95.0|0.666|0.918|||Regression, Cox|||Analysis for percentage of subjects experiencing a composite nephropathy event was done by Cox regression model with treatment as fixed factor.||0.918|0.666|
92283783|NCT01179048|184471429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.738|||||TWO_SIDED|95.0|0.602|0.905|||Regression, Cox|||Analysis for percentage of subjects experiencing a new onset of persistant macroalbuminaria event was done by Cox regression model with treatment as fixed factor.||0.905|0.602|
92177554|NCT05873556|184249383|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.97||||0.83|TWO_SIDED|95.0|0.74|1.27|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.27|0.74|0.83
92177555|NCT05873556|184249383|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.07||||0.61|TWO_SIDED|95.0|0.83|1.38|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.38|0.83|0.61
92177556|NCT05873556|184249384|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|1.16||||0.45|TWO_SIDED|95.0|0.79|1.72|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.72|0.79|0.45
92177557|NCT05873556|184249384|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.17||||0.46|TWO_SIDED|95.0|0.77|1.79|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.79|0.77|0.46
92177558|NCT05873556|184249385|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.95||||0.62|TWO_SIDED|95.0|0.77|1.17|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.17|0.77|0.62
92177559|NCT05873556|184249385|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.14||||0.34|TWO_SIDED|95.0|0.87|1.48|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.48|0.87|0.34
92177560|NCT05873556|184249386|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|1.08||||0.66|TWO_SIDED|95.0|0.76|1.54|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.54|0.76|0.66
92177561|NCT05873556|184249386|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.02||||0.92|TWO_SIDED|95.0|0.75|1.38|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.38|0.75|0.92
92177562|NCT04047602|184249387|EQUIVALENCE|The observed proportion of evaluable patients with symptomatic radiation necrosis was calculated and tested against a baseline 6-month symptomatic radiation necrosis rate of 16% at a type I error rate of 5% using a one-sided binomial exact test. The null hypothesis is that the observed proportion is equivalent to 16% or 0.160.|Binomial Proportion|0.083||||0.234|TWO_SIDED|95.0|0.002|0.385||The p-value reported is the one-sided p-value from the exact equivalence binomial test using an alpha value of 0.05.|Exact Binomial Test||The binomial proportion 95% confidence intervals were calculated using the Clopper-Pearson (Exact) method.|The observed proportion of evaluable patients with symptomatic radiation necrosis was calculated and tested against a baseline 6-month symptomatic radiation necrosis rate of 16% at a type I error rate of 5% using a one-sided binomial exact test. The null hypothesis is that the observed proportion is equivalent to 16% or 0.160.||0.385|0.002|0.234
92177563|NCT04047602|184249390|OTHER|||||||0.285|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across SRS groups. The null hypothesis was that the survival probabilities were equal.||||0.285
92177564|NCT04047602|184249391|OTHER|||||||0.292|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across brain metastases groups. The null hypothesis was that the survival probabilities were equal.||||0.292
92177565|NCT04047602|184249392|OTHER|||||||0.289|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across ICI groups. The null hypothesis was that the survival probabilities were equal.||||0.289
92177566|NCT04047602|184249395|OTHER|||||||0.248|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across SRS groups. The null hypothesis was that the survival probabilities were equal.||||0.248
92177567|NCT04047602|184249396|OTHER|||||||0.292|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across brain metastases groups. The null hypothesis was that the survival probabilities were equal.||||0.292
92177568|NCT04047602|184249397|OTHER|||||||0.289|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across ICI groups. The null hypothesis was that the survival probabilities were equal.||||0.289
92177569|NCT04484428|184249423|SUPERIORITY|||||||0.773|||||||ANCOVA|||||||0.773
92177570|NCT04484428|184249424|SUPERIORITY|||||||0.972|||||||ANCOVA|||||||0.972
92177571|NCT04484428|184249425|SUPERIORITY|||||||0.617|||||||ANCOVA|||||||0.617
92177572|NCT04484428|184249426|SUPERIORITY|||||||0.796|||||||ANCOVA|||||||0.796
92177573|NCT04484428|184249427|SUPERIORITY|||||||0.96|||||||ANCOVA|||||||0.960
92255022|NCT00565812|184412368|SUPERIORITY_OR_OTHER||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.22||0.938|TWO_SIDED|95.0|-0.41|0.44|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\* visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.44|-0.41|0.938
92255023|NCT00565812|184412368|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.22||0.648|TWO_SIDED|95.0|-0.32|0.52|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.52|-0.32|0.648
92255024|NCT00565812|184412368|SUPERIORITY_OR_OTHER||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.24||0.916|TWO_SIDED|95.0|-0.49|0.44|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.44|-0.49|0.916
92255025|NCT00565812|184412368|SUPERIORITY_OR_OTHER||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.23||0.528|TWO_SIDED|95.0|-0.6|0.31|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.31|-0.60|0.528
92255026|NCT00565812|184412368|SUPERIORITY_OR_OTHER||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.25||0.365|TWO_SIDED|95.0|-0.73|0.27|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.27|-0.73|0.365
92255027|NCT00565812|184412368|SUPERIORITY_OR_OTHER||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.25||0.328|TWO_SIDED|95.0|-0.74|0.25|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.25|-0.74|0.328
92255028|NCT00565812|184412368|SUPERIORITY_OR_OTHER||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.26||0.54|TWO_SIDED|95.0|-0.66|0.35|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.35|-0.66|0.540
92255029|NCT00565812|184412368|SUPERIORITY_OR_OTHER||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.26||0.423|TWO_SIDED|95.0|-0.71|0.3|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.30|-0.71|0.423
92255030|NCT00565812|184412369|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.09||0.904|TWO_SIDED|95.0|-0.17|0.2|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.20|-0.17|0.904
92255031|NCT00565812|184412369|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.09||0.582|TWO_SIDED|95.0|-0.24|0.13|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.13|-0.24|0.582
92255032|NCT00565812|184412369|SUPERIORITY_OR_OTHER||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.1||0.818|TWO_SIDED|95.0|-0.22|0.18|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.18|-0.22|0.818
92177574|NCT04484428|184249428|SUPERIORITY|||||||0.761|||||||ANCOVA|||||||0.761
92255033|NCT00565812|184412369|SUPERIORITY_OR_OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.988|TWO_SIDED|95.0|-0.2|0.2|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group x visit interaction, (collapsed) KLG, a (collapsed) KLG x visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.20|-0.20|0.988
92265286|NCT02129192|184432018|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|89.66||||0.0001|TWO_SIDED|90.0|85.8|93.7|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for hydrochlorothiazide 12.5 mg. No hypothesis was tested.||93.70|85.80|0.0001
92177575|NCT04484428|184249429|SUPERIORITY|||||||0.979|||||||ANCOVA|||||||0.979
92177576|NCT04484428|184249430|SUPERIORITY|||||||0.803|||||||ANCOVA|||||||0.803
92177577|NCT00661141|184249433|SUPERIORITY|||||||0.8727||||||Overall p-value testing cohort difference from ANOVA|ANOVA|||1.0 mg/kg Cohort, 3.0 mg/kg cohort, 5.0 mg/kg cohort||||0.8727
92177578|NCT00661141|184249436|SUPERIORITY|||||||0.0023||||||Overall p-value testing cohort difference from ANOVA|ANOVA|||1.0 mg/kg Cohort, 3.0 mg/kg cohort, 5.0 mg/kg cohort||||0.0023
92177579|NCT00661141|184249436|SUPERIORITY|||||||0.386||||||P-values for pairwise comparison between cohorts from ANOVA|ANOVA|||1.0 mg/kg Cohort, 3.0 mg/kg cohort||||0.386
92177580|NCT00661141|184249436|SUPERIORITY|||||||0.0006||||||P-values for pairwise comparison between cohorts from ANOVA|ANOVA|||1.0 mg/kg, 5.0 mg/kg||||0.0006
92177581|NCT00661141|184249436|SUPERIORITY|||||||0.0154||||||P-values for pairwise comparison between cohorts from ANOVA|ANOVA|||3.0 mg/kg, 5.0 mg/kg||||0.0154
92177582|NCT00661141|184249443|SUPERIORITY||ratio of parameter means|115.57|||||TWO_SIDED|90.0|90.45|147.67|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||147.67|90.45|
92177583|NCT00661141|184249443|SUPERIORITY||ratio of parameter means|126.05|||||TWO_SIDED|90.0|101.94|155.87|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||155.87|101.94|
92177584|NCT00661141|184249443|SUPERIORITY||ratio of parameter means|137.58|||||TWO_SIDED|90.0|115.66|163.65|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||163.65|115.66|
92177585|NCT00661141|184249443|SUPERIORITY||ratio of parameter means|82.4|||||TWO_SIDED|90.0|62.83|108.07|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||108.07|62.83|
92177586|NCT00661141|184249443|SUPERIORITY||ratio of parameter means|115.25|||||TWO_SIDED|90.0|91.19|145.67|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|3 participants in Cohort 3 had some residual 4-MP detected on Day 2 (Placebo treatment). As a result, the data for the participants on Day 2 were excluded from these statistical analyses, which could be compared with the analyses below where all available data were included.||145.67|91.19|
92177587|NCT00661141|184249443|SUPERIORITY||ratio of parameter means|112.64|||||TWO_SIDED|90.0|96.14|131.98|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analyses for Cohort 3 where all available data were included.||131.98|96.14|
92177588|NCT00661141|184249446|SUPERIORITY||ratio of parameter means|139.63|||||TWO_SIDED|90.0|92.18|211.51|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||211.51|92.18|
92177589|NCT00661141|184249446|SUPERIORITY||ratio of parameter means|120.76|||||TWO_SIDED|90.0|108.8|134.03|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||134.03|108.80|
92177590|NCT00661141|184249446|SUPERIORITY||ratio of parameter means|143.39|||||TWO_SIDED|90.0|107.72|190.87|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||190.87|107.72|
92255034|NCT00565812|184412369|SUPERIORITY_OR_OTHER||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.11||0.857|TWO_SIDED|95.0|-0.2|0.24|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.24|-0.20|0.857
92177591|NCT00661141|184249446|SUPERIORITY||ratio of parameter means|103.13|||||TWO_SIDED|90.0|84.35|126.1|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||126.10|84.35|
92177592|NCT00661141|184249446|SUPERIORITY||ratio of parameter means|123.17|||||TWO_SIDED|90.0|108.61|139.67|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|3 participants in Cohort 3 had some residual 4-MP detected on Day 2 (Placebo treatment). As a result, the data for the participants on Day 2 were excluded from these statistical analyses, which could be compared with the analyses below where all available data were included.||139.67|108.61|
92177593|NCT00661141|184249446|SUPERIORITY||ratio of parameter means|137.17|||||TWO_SIDED|90.0|123.3|152.59|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analyses for Cohort 3 where all available data were included.||152.59|123.30|
92177594|NCT00661141|184249448|SUPERIORITY||ratio of parameter means|121.81|||||TWO_SIDED|90.0|108.42|136.84|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||136.84|108.42|
92177595|NCT00661141|184249448|SUPERIORITY||ratio of parameter means|123.7|||||TWO_SIDED|90.0|93.55|163.56|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||163.56|93.55|
92177596|NCT00661141|184249448|SUPERIORITY||ratio of parameter means|150.33|||||TWO_SIDED|90.0|93.14|242.63|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||242.63|93.14|
92177597|NCT00661141|184249448|SUPERIORITY||ratio of parameter means|122.83|||||TWO_SIDED|90.0|82.45|183.0|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analysis for Cohort 3 where all available data were included.||183.00|82.45|
92177598|NCT00661141|184249454|SUPERIORITY||ratio of parameter means|69.13|||||TWO_SIDED|90.0|48.88|97.78|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||97.78|48.88|
92255035|NCT00565812|184412369|SUPERIORITY_OR_OTHER||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.658|TWO_SIDED|95.0|-0.17|0.27|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.27|-0.17|0.658
92255036|NCT00565812|184412369|SUPERIORITY_OR_OTHER||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.12||0.612|TWO_SIDED|95.0|-0.28|0.17|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.17|-0.28|0.612
92255037|NCT00565812|184412369|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.391|TWO_SIDED|95.0|-0.32|0.13|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.13|-0.32|0.391
92255038|NCT00565812|184412369|SUPERIORITY_OR_OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||1|TWO_SIDED|95.0|-0.24|0.24|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.24|-0.24|1.000
92255039|NCT00565812|184412369|SUPERIORITY_OR_OTHER||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.12||0.086|TWO_SIDED|95.0|-0.45|0.03|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.03|-0.45|0.086
92177599|NCT00661141|184249454|SUPERIORITY||ratio of parameter means|124.46|||||TWO_SIDED|90.0|88.77|174.5|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||174.50|88.77|
92177600|NCT00661141|184249454|SUPERIORITY||ratio of parameter means|105.31|||||TWO_SIDED|90.0|89.24|124.27|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||124.27|89.24|
92177601|NCT00661141|184249454|SUPERIORITY||ratio of parameter means|88.6|||||TWO_SIDED|90.0|56.66|138.54|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||138.54|56.66|
92255040|NCT00565812|184412370|SUPERIORITY_OR_OTHER||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.62||0.586|TWO_SIDED|95.0|-0.88|1.55|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.55|-0.88|0.586
92283784|NCT01179048|184471429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.667|1.189|||Regression, Cox|||Analysis for percentage of subjects experiencing persistent doubling of serum creatinine was done by Cox regression model with treatment as fixed factor.||1.189|0.667|
92283785|NCT01179048|184471429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.869|||||TWO_SIDED|95.0|0.607|1.244|||Regression, Cox|||Analysis for percentage of subjects experiencing a need for continuous renal-replacement therapy was done by Cox regression model with treatment as fixed factor.||1.244|0.607|
92283786|NCT01179048|184471429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.593|||||TWO_SIDED|95.0|0.521|4.869|||Regression, Cox|||Analysis for percentage of subjects experiencing death due to renal disease was done by Cox regression model with treatment as fixed factor.||4.869|0.521|
92177602|NCT00661141|184249454|SUPERIORITY||ratio of parameter means|70.77|||||TWO_SIDED|90.0|34.16|146.59|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|3 participants in Cohort 3 had some residual 4-MP detected on Day 2 (Placebo treatment). As a result, the data for the participants on Day 2 were excluded from these statistical analyses, which could be compared with the analyses below where all available data were included.||146.59|34.16|
92177603|NCT00661141|184249454|SUPERIORITY||ratio of parameter means|86.04|||||TWO_SIDED|90.0|55.78|132.73|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analyses for Cohort 3 where all available data were included.||132.73|55.78|
92177604|NCT00661141|184249457|SUPERIORITY||ratio of parameter means|90.2|||||TWO_SIDED|90.0|69.54|117.0|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||117.00|69.54|
92177605|NCT00661141|184249457|SUPERIORITY||ratio of parameter means|112.28|||||TWO_SIDED|90.0|103.72|121.54|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||121.54|103.72|
92177606|NCT00661141|184249457|SUPERIORITY||ratio of parameter means|106.08|||||TWO_SIDED|90.0|96.81|116.24|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||116.24|96.81|
92177607|NCT00661141|184249457|SUPERIORITY||ratio of parameter means|104.12|||||TWO_SIDED|90.0|83.5|129.84|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||129.84|83.50|
92283787|NCT01179048|184471429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.149|||||TWO_SIDED|95.0|0.869|1.519|||Regression, Cox|||Analysis for percentage of subjects experiencing composite retinopathy was done by Cox regression model with treatment as fixed factor.||1.519|0.869|
92283788|NCT01179048|184471429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.159|||||TWO_SIDED|95.0|0.869|1.546|||Regression, Cox|||Analysis for percentage of subjects experiencing treatment with photocoagulation or intravitreal agents was done by Cox regression model with treatment as fixed factor.||1.546|0.869|
92255041|NCT00565812|184412370|SUPERIORITY_OR_OTHER||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.62||0.789|TWO_SIDED|95.0|-1.05|1.38|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.38|-1.05|0.789
92255042|NCT00565812|184412370|SUPERIORITY_OR_OTHER||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.69||0.821|TWO_SIDED|95.0|-1.21|1.52|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.52|-1.21|0.821
92255043|NCT00565812|184412370|SUPERIORITY_OR_OTHER||LS mean difference|0.73|STANDARD_ERROR_OF_MEAN|0.69||0.294|TWO_SIDED|95.0|-0.63|2.09|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.09|-0.63|0.294
92255044|NCT00565812|184412370|SUPERIORITY_OR_OTHER||LS mean difference|0.48|STANDARD_ERROR_OF_MEAN|0.76||0.532|TWO_SIDED|95.0|-1.02|1.97|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.97|-1.02|0.532
92255045|NCT00565812|184412370|SUPERIORITY_OR_OTHER||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.76||0.938|TWO_SIDED|95.0|-1.55|1.43|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.43|-1.55|0.938
92255046|NCT00565812|184412370|SUPERIORITY_OR_OTHER||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.83||0.68|TWO_SIDED|95.0|-1.97|1.29|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.29|-1.97|0.680
92255047|NCT00565812|184412370|SUPERIORITY_OR_OTHER||LS mean difference|0.28|STANDARD_ERROR_OF_MEAN|0.82||0.73|TWO_SIDED|95.0|-1.33|1.9|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.90|-1.33|0.730
92255048|NCT00565812|184412370|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.84||0.901|TWO_SIDED|95.0|-1.55|1.76|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.76|-1.55|0.901
92255049|NCT00565812|184412370|SUPERIORITY_OR_OTHER||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.84||0.333|TWO_SIDED|95.0|-2.45|0.83|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.83|-2.45|0.333
92255050|NCT00565812|184412371|SUPERIORITY_OR_OTHER||LS mean difference|2.34|STANDARD_ERROR_OF_MEAN|1.36||0.086|TWO_SIDED|95.0|-0.33|5.01|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||5.01|-0.33|0.086
92283789|NCT01179048|184471429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.335|||||TWO_SIDED|95.0|0.004|30.847|||Regression, Cox|||Analysis for percentage of subjects experiencing development of diabetes-related blindness was done by Cox regression model with treatment as fixed factor.||30.847|0.004|
92255051|NCT00565812|184412371|SUPERIORITY_OR_OTHER||LS mean difference|1.11|STANDARD_ERROR_OF_MEAN|1.36||0.415|TWO_SIDED|95.0|-1.56|3.78|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.78|-1.56|0.415
92255052|NCT00565812|184412371|SUPERIORITY_OR_OTHER||LS mean difference|0.8|STANDARD_ERROR_OF_MEAN|1.41||0.569|TWO_SIDED|95.0|-1.97|3.57|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.57|-1.97|0.569
92255053|NCT00565812|184412371|SUPERIORITY_OR_OTHER||LS mean difference|1.26|STANDARD_ERROR_OF_MEAN|1.41||0.374|TWO_SIDED|95.0|-1.51|4.02|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.02|-1.51|0.374
92283790|NCT01179048|184471429|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.454|||||TWO_SIDED|95.0|0.845|2.502|||Regression, Cox|||Analysis for percentage of subjects experiencing vitreous haemorrhage was done by Cox regression model with treatment as fixed factor.||2.502|0.845|
92255054|NCT00565812|184412371|SUPERIORITY_OR_OTHER||LS mean difference|1.63|STANDARD_ERROR_OF_MEAN|1.53||0.288|TWO_SIDED|95.0|-1.38|4.64|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.64|-1.38|0.288
92255055|NCT00565812|184412371|SUPERIORITY_OR_OTHER||LS mean difference|1.18|STANDARD_ERROR_OF_MEAN|1.52||0.44|TWO_SIDED|95.0|-1.81|4.17|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.17|-1.81|0.440
92255056|NCT00565812|184412371|SUPERIORITY_OR_OTHER||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|1.58||0.896|TWO_SIDED|95.0|-3.3|2.88|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.88|-3.30|0.896
92255057|NCT00565812|184412371|SUPERIORITY_OR_OTHER||LS mean difference|1.14|STANDARD_ERROR_OF_MEAN|1.56||0.464|TWO_SIDED|95.0|-1.92|4.2|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.20|-1.92|0.464
92255058|NCT00565812|184412371|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|1.57||0.901|TWO_SIDED|95.0|-3.27|2.88|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.88|-3.27|0.901
92255059|NCT00565812|184412371|SUPERIORITY_OR_OTHER||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|1.56||0.8|TWO_SIDED|95.0|-3.45|2.66|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.66|-3.45|0.800
92255060|NCT00565812|184412372|SUPERIORITY_OR_OTHER||LS mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.048||0.984|TWO_SIDED|95.0|-0.093|0.095|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.095|-0.093|0.984
92177608|NCT00661141|184249457|SUPERIORITY||ratio of parameter means|100.41|||||TWO_SIDED|90.0|77.86|129.49|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|3 participants in Cohort 3 had some residual 4-MP detected on Day 2 (Placebo treatment). As a result, the data for the participants on Day 2 were excluded from these statistical analyses, which could be compared with the analyses below where all available data were included.||129.49|77.86|
92177609|NCT00661141|184249457|SUPERIORITY||ratio of parameter means|94.7|||||TWO_SIDED|90.0|82.7|108.42|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analyses for Cohort 3 where all available data were included.||108.42|82.70|
92177610|NCT00661141|184249459|SUPERIORITY||ratio of parameter means|94.15|||||TWO_SIDED|90.0|78.01|1113.63|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||1113.63|78.01|
92177611|NCT00661141|184249459|SUPERIORITY||ratio of parameter means|107.05|||||TWO_SIDED|90.0|87.42|131.1|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|3 participants in Cohort 3 had some residual 4-MP detected on Day 2 (Placebo treatment). As a result, the data for the participants on Day 2 were excluded from these statistical analyses, which could be compared with the analyses below where all available data were included.||131.10|87.42|
92177612|NCT00661141|184249459|SUPERIORITY||ratio of parameter means|97.9|||||TWO_SIDED|90.0|84.84|112.97|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analyses for Cohort 3 where all available data were included.||112.97|84.84|
92177613|NCT05828017|184249463|SUPERIORITY||Mean Difference (Final Values)|1.107|||<|0.001|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts per participant between the standard curve, variation #1, and no preference counts.||||<0.001
92177614|NCT05828017|184249463|SUPERIORITY||Mean Difference (Final Values)|0.544||||0.015|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference between Variation #1 and the standard curve in terms of mean preference counts per participant.||||0.015
92177615|NCT05828017|184249464|SUPERIORITY||Mean Difference (Final Values)|1.039|||<|0.001|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts per participant between the standard curve, variation #1, and no preference counts.||||<0.001
92177616|NCT05828017|184249464|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.03569|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts between the standard curve and variation #1.||||0.03569
92177617|NCT05828017|184249465|SUPERIORITY||Mean Difference (Final Values)|0.365||||0.069|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts per participant between the standard curve, variation #1, and no preference counts.||||0.069
92177618|NCT05828017|184249465|SUPERIORITY||Mean Difference (Final Values)|0.087||||0.6976|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts between the standard curve and variation #1.||||0.6976
92177619|NCT05828017|184249466|SUPERIORITY||Mean Difference (Final Values)|0.876|||<|0.001|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts per participant between the standard curve, variation #1, and no preference counts.||||<0.001
92177620|NCT05828017|184249466|SUPERIORITY||Mean Difference (Final Values)|0.728||||0.0013|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts between the standard curve and variation #1.||||0.0013
92177621|NCT05828017|184249467|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.522|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.522
92177622|NCT05828017|184249467|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.27|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts between the standard curve and variation #1.||||0.27
92177623|NCT05828017|184249468|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.28|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.28
92255061|NCT00565812|184412372|SUPERIORITY_OR_OTHER||LS mean difference|-0.046|STANDARD_ERROR_OF_MEAN|0.048||0.33|TWO_SIDED|95.0|-0.14|0.047|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.047|-0.140|0.330
92255062|NCT00565812|184412372|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.049||0.308|TWO_SIDED|95.0|-0.146|0.046|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.046|-0.146|0.308
92177624|NCT05828017|184249468|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.11|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.11
92177625|NCT05828017|184249469|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.52|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.52
92177626|NCT05828017|184249469|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.26|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.26
92255063|NCT00565812|184412372|SUPERIORITY_OR_OTHER||LS mean difference|-0.083|STANDARD_ERROR_OF_MEAN|0.049||0.089|TWO_SIDED|95.0|-0.18|0.013|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.013|-0.180|0.089
92177627|NCT05828017|184249470|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.16|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.16
92177628|NCT05828017|184249470|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.37|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.37
92177629|NCT05828017|184249471|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.08|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.08
92255064|NCT00565812|184412372|SUPERIORITY_OR_OTHER||LS mean difference|-0.035|STANDARD_ERROR_OF_MEAN|0.052||0.508|TWO_SIDED|95.0|-0.137|0.068|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.068|-0.137|0.508
92255065|NCT00565812|184412372|SUPERIORITY_OR_OTHER||LS mean difference|-0.036|STANDARD_ERROR_OF_MEAN|0.052||0.49|TWO_SIDED|95.0|-0.137|0.066|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.066|-0.137|0.490
92255066|NCT00565812|184412372|SUPERIORITY_OR_OTHER||LS mean difference|-0.019|STANDARD_ERROR_OF_MEAN|0.057||0.739|TWO_SIDED|95.0|-0.132|0.094|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.094|-0.132|0.739
92255067|NCT00565812|184412372|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.057||0.376|TWO_SIDED|95.0|-0.162|0.061|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.061|-0.162|0.376
92255068|NCT00565812|184412372|SUPERIORITY_OR_OTHER||LS mean difference|-0.008|STANDARD_ERROR_OF_MEAN|0.057||0.883|TWO_SIDED|95.0|-0.121|0.104|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.104|-0.121|0.883
92255069|NCT00565812|184412372|SUPERIORITY_OR_OTHER||LS mean difference|-0.023|STANDARD_ERROR_OF_MEAN|0.057||0.69|TWO_SIDED|95.0|-0.135|0.089|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.089|-0.135|0.690
92255070|NCT00565812|184412373|SUPERIORITY_OR_OTHER||LS mean difference|0.008|STANDARD_ERROR_OF_MEAN|0.044||0.849|TWO_SIDED|95.0|-0.078|0.095|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.095|-0.078|0.849
92255071|NCT00565812|184412373|SUPERIORITY_OR_OTHER||LS mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.044||0.837|TWO_SIDED|95.0|-0.096|0.078|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.078|-0.096|0.837
92255072|NCT00565812|184412373|SUPERIORITY_OR_OTHER||LS mean difference|-0.013|STANDARD_ERROR_OF_MEAN|0.047||0.776|TWO_SIDED|95.0|-0.105|0.078|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.078|-0.105|0.776
92255073|NCT00565812|184412373|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.047||0.033|TWO_SIDED|95.0|-0.191|-0.008|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.008|-0.191|0.033
92177630|NCT05828017|184249471|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.31|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.31
92177631|NCT05828017|184249472|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.21|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.21
92177632|NCT05828017|184249472|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.085|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.085
92177633|NCT05828017|184249473|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.86|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.86
92177634|NCT05828017|184249473|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||1
92255074|NCT00565812|184412373|SUPERIORITY_OR_OTHER||LS mean difference|-0.064|STANDARD_ERROR_OF_MEAN|0.05||0.201|TWO_SIDED|95.0|-0.163|0.034|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.034|-0.163|0.201
92177635|NCT05828017|184249474|SUPERIORITY||Mean Difference (Final Values)|0.607||||0.009|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.009
92177636|NCT05828017|184249474|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.61|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.61
92177637|NCT05828017|184249475|SUPERIORITY||Mean Difference (Final Values)|0.28|||<|0.001|TWO_SIDED|95.0|0.11|1.0|||ANOVA|||This is to see if there is a difference in mean SRT50 scores between the standard curve, variation #1, and no preference counts.||1.00|0.11|<0.001
92177638|NCT05828017|184249475|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.357|TWO_SIDED|95.0|0.0|1.0|||ANOVA|||This is to see if there is a difference in SRT 50 scores between the standard curve and variation #1.||1|0|0.357
92177639|NCT05828017|184249476|SUPERIORITY||Total Count - Cramer's V|0.7|||<|0.01|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in most preferred program counts between variations #2, #3, and #4||||<0.01
92255075|NCT00565812|184412373|SUPERIORITY_OR_OTHER||LS mean difference|-0.103|STANDARD_ERROR_OF_MEAN|0.05||0.038|TWO_SIDED|95.0|-0.201|-0.006|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.006|-0.201|0.038
92255076|NCT00565812|184412373|SUPERIORITY_OR_OTHER||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.053||0.848|TWO_SIDED|95.0|-0.114|0.094|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.094|-0.114|0.848
92255077|NCT00565812|184412373|SUPERIORITY_OR_OTHER||LS mean difference|-0.019|STANDARD_ERROR_OF_MEAN|0.052||0.714|TWO_SIDED|95.0|-0.122|0.084|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.084|-0.122|0.714
92255078|NCT00565812|184412373|SUPERIORITY_OR_OTHER||LS mean difference|0.025|STANDARD_ERROR_OF_MEAN|0.054||0.652|TWO_SIDED|95.0|-0.082|0.131|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.131|-0.082|0.652
92255079|NCT00565812|184412373|SUPERIORITY_OR_OTHER||LS mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.054||0.7|TWO_SIDED|95.0|-0.085|0.127|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.127|-0.085|0.700
92255080|NCT00565812|184412374|SUPERIORITY_OR_OTHER||LS mean difference|1.68|STANDARD_ERROR_OF_MEAN|1.37||0.22|TWO_SIDED|95.0|-1.0|4.36|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.36|-1.00|0.220
92255081|NCT00565812|184412374|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|1.36||0.997|TWO_SIDED|95.0|-2.67|2.68|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.68|-2.67|0.997
92177640|NCT05828017|184249476|SUPERIORITY||Total Count - Cramer's V|0.01||||0.94|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in most preferred program counts between variations #2 and #3.||||0.94
92177641|NCT05828017|184249476|SUPERIORITY||Total Count - Cramer's V|0.014||||0.94|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in most preferred program counts between variations #2 and #4||||0.94
92177642|NCT05828017|184249476|SUPERIORITY||Total Count - Cramer's V|0.45||||0.017|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in somewhat preferred (i.e. rated in the middle) program counts between variations #2, #3, and #4||||0.017
92177643|NCT05828017|184249476|SUPERIORITY||Total Count - Cramer's V|0.51||||0.02|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in somewhat preferred (i.e. rated in the middle) program counts between variations #2 and #3.||||0.02
92177644|NCT05828017|184249476|SUPERIORITY||Total Count - Cramer's V|0.61||||0.006|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in somewhat preferred (i.e. rated in the middle) program counts between variations #2 and #4||||0.006
92177645|NCT05828017|184249476|SUPERIORITY||Total Count - Cramer's V|0.6|||<|0.0001|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in the least preferred program counts between variations #2, #3, and #4||||<.0001
92177646|NCT05828017|184249476|SUPERIORITY||Total Count - Cramer's V|0.38||||0.08|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in the least preferred program counts between variations #2 and #3||||0.08
92177647|NCT05828017|184249476|SUPERIORITY||Total Count - Cramer's V|0.5|||<|0.001|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in the least preferred program counts between variations #2 and #4||||<0.001
92177648|NCT00670241|184249603|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.42|||<|0.001|TWO_SIDED|95.0|2.05|5.7|||Cochran-Mantel-Haenszel|||||5.70|2.05|< 0.001
92255082|NCT00565812|184412374|SUPERIORITY_OR_OTHER||LS mean difference|0.73|STANDARD_ERROR_OF_MEAN|1.44||0.613|TWO_SIDED|95.0|-2.09|3.55|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.55|-2.09|0.613
92255083|NCT00565812|184412374|SUPERIORITY_OR_OTHER||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|1.44||0.964|TWO_SIDED|95.0|-2.75|2.88|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.88|-2.75|0.964
92255084|NCT00565812|184412374|SUPERIORITY_OR_OTHER||LS mean difference|0.24|STANDARD_ERROR_OF_MEAN|1.49||0.872|TWO_SIDED|95.0|-2.69|3.17|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.17|-2.69|0.872
92255085|NCT00565812|184412374|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|1.48||0.947|TWO_SIDED|95.0|-2.81|3.01|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.01|-2.81|0.947
92255086|NCT00565812|184412374|SUPERIORITY_OR_OTHER||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|1.62||0.927|TWO_SIDED|95.0|-3.03|3.33|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.33|-3.03|0.927
92255087|NCT00565812|184412374|SUPERIORITY_OR_OTHER||LS mean difference|0.97|STANDARD_ERROR_OF_MEAN|1.61||0.547|TWO_SIDED|95.0|-2.18|4.12|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.12|-2.18|0.547
92287084|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|0.054||||0.035|TWO_SIDED|95.0|0.004|0.104|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. Subjects receiving the same treatment in more than one period are included in the primary efficacy model with only data from the first instance of each treatment."||0.104|0.004|0.035
92177649|NCT00670241|184249604|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.51|||<|0.001|TWO_SIDED|98.33|1.46|8.4|||Cochran-Mantel-Haenszel|||||8.40|1.46|<0.001
92255088|NCT00565812|184412374|SUPERIORITY_OR_OTHER||LS mean difference|1.62|STANDARD_ERROR_OF_MEAN|1.58||0.304|TWO_SIDED|95.0|-1.47|4.71|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.71|-1.47|0.304
92255089|NCT00565812|184412374|SUPERIORITY_OR_OTHER||LS mean difference|-0.65|STANDARD_ERROR_OF_MEAN|1.57||0.679|TWO_SIDED|95.0|-3.73|2.43|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.43|-3.73|0.679
92255090|NCT00565812|184412375|SUPERIORITY_OR_OTHER||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|1.11||0.738|TWO_SIDED|95.0|-1.8|2.55|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.55|-1.80|0.738
92255091|NCT00565812|184412375|SUPERIORITY_OR_OTHER||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|1.11||0.632|TWO_SIDED|95.0|-2.7|1.64|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.64|-2.70|0.632
92177650|NCT00670241|184249605|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.7|||<|0.001|TWO_SIDED|98.33|-22.6|-6.9|||ANOVA|||||-6.90|-22.6|<0.001
92177651|NCT03213873|184249654|SUPERIORITY||Interaction effect time x group|0.4||||0.57|TWO_SIDED|95.0|-1.0|1.9|||Mixed Models Analysis|||||1.9|-1.0|0.57
92177652|NCT03213873|184249655|SUPERIORITY||Interaction effect time x group|0.05||||0.25|TWO_SIDED|95.0|-0.03|0.12|||Mixed Models Analysis|||||0.12|-0.03|0.25
92177653|NCT03213873|184249656|SUPERIORITY||Interaction effect time x group|0.2||||0.75|TWO_SIDED|95.0|-0.8|1.1|||Mixed Models Analysis|||||1.1|-0.8|0.75
92177654|NCT02056834|184249688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0166|||||||t-test, 2 sided|||Paired T-Test p-value tests the significance of the percent change from baseline within each treatment group.||||0.0166
92177655|NCT02056834|184249689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3785|||||||t-test, 2 sided|||Paired T-Test p-value tests the significance of the percent change from baseline within each treatment group.||||0.3785
92177656|NCT02056834|184249690|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|||Paired T-Test p-value tests the significance of the change from baseline within treatment group.||||<0.0001
92177657|NCT02056834|184249691|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|||Paired T-Test p-value tests the significance of the change from baseline within treatment group.||||<0.0001
92177658|NCT03687762|184249734|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177659|NCT03687762|184249735|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177660|NCT03687762|184249736|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177661|NCT03687762|184249737|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177662|NCT03687762|184249738|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177663|NCT03687762|184249739|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.||||||0.01|||||||ANOVA|||||||0.01
92177664|NCT03687762|184249740|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177665|NCT03687762|184249741|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177666|NCT03687762|184249742|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce a greater proportion of people decreasing their dose relative to those increasing their dose during treatment.|||||>|0.05|||||||Chi-squared|||||||>.05
92177667|NCT03687762|184249743|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92255092|NCT00565812|184412375|SUPERIORITY_OR_OTHER||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|1.21||0.736|TWO_SIDED|95.0|-2.77|1.96|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.96|-2.77|0.736
92177668|NCT03687762|184249744|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177669|NCT03687762|184249745|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177670|NCT03687762|184249746|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177671|NCT03687762|184249747|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177672|NCT03687762|184249748|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177673|NCT03687762|184249749|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
92177674|NCT05309291|184249819|NON_INFERIORITY|The null hypothesis to demonstrate non-inferiority using a 10% margin for λ FLC RR can be expressed as: Ho: μT-μR ≤ -3.783. The alternative hypothesis is expressed as: Ha: μT-μR \> -3.783 where μT denotes the Theranova 400 treatment mean and μR denotes the FX 800 treatment mean.|Mean Difference (Final Values)|16.99|STANDARD_DEVIATION|8.86|<|0.0001|TWO_SIDED|95.0|14.84|19.15|||t-test, 2 sided|T-test was utilized to generate a two-sided 95% confidence interval (CI) for the difference in means.||Non-inferiority of the Theranova 400 Dialyzer compared to the FX 800 Dialyzer in regard to the λ FLC RR at the mid-week treatment day dialysis session was assessed.||19.15|14.84|<0.0001
92177675|NCT05309291|184249820|NON_INFERIORITY|The null hypothesis to demonstrate non-inferiority using a 10% margin for ß2-MG RR can be expressed as Ho: μT-μR ≤ -7.848. The alternative hypothesis is expressed as: Ha: μT-μR \> -7.848, where μT denotes the Theranova 400 treatment mean and μR denotes the FX 800 treatment mean.|Mean Difference (Final Values)|-1.19|STANDARD_DEVIATION|5.55|<|0.0001|TWO_SIDED|95.0|-2.54|0.16|||t-test, 2 sided|T-test was utilized to generate a two-sided 95% confidence interval (CI) for the difference in means.||Non-inferiority of the Theranova 400 Dialyzer compared to the FX 800 Dialyzer in regard to the β2-MG RR at the mid-week treatment day dialysis session was assessed.||0.16|-2.54|<0.0001
92177676|NCT03221426|184249825|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.01501|TWO_SIDED|95.0|0.67|0.98||One-sided p-value based on log-rank test stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|Log Rank||Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|||0.98|0.67|0.01501
92177677|NCT03221426|184249826|SUPERIORITY||Difference in Percentage|11.4|||<|1e-05|TWO_SIDED|95.0|8.0|15.3|||Stratified Miettinen and Nurminen|Based on Miettinen \& Nurminen method stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)||||15.3|8.0|<0.00001
92177678|NCT03221426|184249827|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.07503|TWO_SIDED|95.0|0.71|1.06||One-sided p-value based on log-rank test stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|Log Rank||Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|||1.06|0.71|0.07503
92255093|NCT00565812|184412375|SUPERIORITY_OR_OTHER||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|1.21||0.811|TWO_SIDED|95.0|-2.66|2.08|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.08|-2.66|0.811
92255094|NCT00565812|184412375|SUPERIORITY_OR_OTHER||LS mean difference|-1.22|STANDARD_ERROR_OF_MEAN|1.27||0.335|TWO_SIDED|95.0|-3.71|1.26|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.26|-3.71|0.335
92255095|NCT00565812|184412375|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|1.26||0.966|TWO_SIDED|95.0|-2.52|2.41|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.41|-2.52|0.966
92255096|NCT00565812|184412375|SUPERIORITY_OR_OTHER||LS mean difference|-1.44|STANDARD_ERROR_OF_MEAN|1.38||0.299|TWO_SIDED|95.0|-4.16|1.28|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.28|-4.16|0.299
92255097|NCT00565812|184412375|SUPERIORITY_OR_OTHER||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|1.37||0.925|TWO_SIDED|95.0|-2.56|2.82|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.82|-2.56|0.925
92255098|NCT00565812|184412375|SUPERIORITY_OR_OTHER||LS mean difference|0.58|STANDARD_ERROR_OF_MEAN|1.39||0.676|TWO_SIDED|95.0|-2.14|3.3|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.30|-2.14|0.676
92255099|NCT00565812|184412375|SUPERIORITY_OR_OTHER||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|1.38||0.732|TWO_SIDED|95.0|-3.18|2.23|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.23|-3.18|0.732
92255100|NCT00565812|184412376|SUPERIORITY_OR_OTHER||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|1.2||0.911|TWO_SIDED|95.0|-2.22|2.49|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.49|-2.22|0.911
92255101|NCT00565812|184412376|SUPERIORITY_OR_OTHER||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|1.2||0.5|TWO_SIDED|95.0|-3.16|1.54|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.54|-3.16|0.500
92255102|NCT00565812|184412376|SUPERIORITY_OR_OTHER||LS mean difference|0.67|STANDARD_ERROR_OF_MEAN|1.26||0.596|TWO_SIDED|95.0|-1.81|3.15|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.15|-1.81|0.596
92255103|NCT00565812|184412376|SUPERIORITY_OR_OTHER||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|1.26||0.979|TWO_SIDED|95.0|-2.51|2.44|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.44|-2.51|0.979
92255104|NCT00565812|184412376|SUPERIORITY_OR_OTHER||LS mean difference|-0.59|STANDARD_ERROR_OF_MEAN|1.33||0.659|TWO_SIDED|95.0|-3.2|2.03|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.03|-3.20|0.659
92255105|NCT00565812|184412376|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|1.32||0.823|TWO_SIDED|95.0|-2.89|2.3|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.30|-2.89|0.823
92177679|NCT03221426|184249832|OTHER||Hazard Ratio (HR)|0.82||||0.04125|TWO_SIDED|95.0|0.65|1.03||One-sided p-value based on log-rank test with stratification|Log Rank||Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification|||1.03|0.65|0.04125
92177680|NCT03221426|184249833|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.04493|TWO_SIDED|95.0|0.71|1.03||One-sided p-value based on log-rank test stratified by geographic region (Asia vs. Non-Asia), tumor staging (II vs. III vs. IVa), and chemotherapy backbone (XP/FP vs. FLOT)|Log Rank||Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia vs. Non-Asia), tumor staging (II vs. III vs. IVa), and chemotherapy backbone (XP/FP vs. FLOT)|||1.03|0.71|0.04493
92177681|NCT03221426|184249834|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.00589|TWO_SIDED|95.0|0.67|0.95||One-sided p-value based on log-rank test stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|Log Rank||Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|||0.95|0.67|0.00589
92177682|NCT06262477|184249835|EQUIVALENCE|The natural log (ln)- transformed Cmax was analysed using analysis of covariance (ANCOVA) model, which included actual treatment \& body weight category (\<75 kilograms \[kg\], ≥75 kg) as factors. The ratio of geometric least square means (GLSM), and corresponding confidence interval (CI) was obtained by taking the exponential of the differences in LSMs and corresponding CIs on the ln scale.|Ratio of GLSM|1.05|||||TWO_SIDED|90.3|0.974|1.13||||||||1.13|0.974|
92177683|NCT06262477|184249836|EQUIVALENCE|The natural log (ln)- transformed AUC0-inf was analyzed using ANCOVA model, which included actual treatment \& body weight category (\<75 kg, ≥75 kg) as factors. The ratio of GLSM, and corresponding CI was obtained by taking the exponential of the differences in LSMs and corresponding CIs on the ln scale.|Ratio of GLSM|1.07|||||TWO_SIDED|90.3|0.988|1.15||||||||1.15|0.988|
92177684|NCT06262477|184249837|EQUIVALENCE|The natural log (ln)- transformed AUC0-t was analyzed using ANCOVA model, which included actual treatment \& body weight category (\<75 kg, ≥75 kg) as factors. The ratio of GLSM, and corresponding CI was obtained by taking the exponential of the differences in LSMs and corresponding CIs on the ln scale.|Ratio of GLSM|1.06|||||TWO_SIDED|90.3|0.985|1.15||||||||1.15|0.985|
92177685|NCT05365958|184249854|SUPERIORITY||||||<|0.001|||||||Repeated Measures t-test of differences|||||||<.001
92177686|NCT05365958|184249855|SUPERIORITY||||||<|0.001|||||||Repeated Measures t-test of differences|||||||<.001
92177687|NCT05618587|184249983|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
92177688|NCT05618587|184249984|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
92177689|NCT05618587|184249985|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.68
92177690|NCT05618587|184249986|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||||||0.89
92177691|NCT05618587|184249987|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||0.75
92177692|NCT05618587|184249988|SUPERIORITY|||||||1|||||||Barnard unconditional exact test|||||||1.0
92177693|NCT05618587|184249989|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.28
92177694|NCT05618587|184249990|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
92177695|NCT05618587|184249991|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
92177696|NCT05618587|184249992|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
92177697|NCT05618587|184249993|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||0.29
92177698|NCT05618587|184249994|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.35
92177699|NCT05167864|184249996|SUPERIORITY|||||||0.13519|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 3|||0.13519
92177700|NCT05167864|184249996|SUPERIORITY|||||||0.8556|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 3|||0.8556
92177701|NCT05167864|184249996|SUPERIORITY|||||||0.46943|TWO_SIDED|95.0|||||Wilcoxon signed-rank test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 3|||0.46943
92177702|NCT05167864|184249996|SUPERIORITY|||||||0.0449|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 3|||0.0449
92177703|NCT05167864|184249996|SUPERIORITY|||||||0.504|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 30|||0.504
92177704|NCT05167864|184249996|SUPERIORITY|||||||0.772193|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 30|||0.772193
92177705|NCT05167864|184249996|SUPERIORITY|||||||0.5414|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 30|||0.5414
92177706|NCT05167864|184249996|SUPERIORITY|||||||0.07|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 30|||0.070
92177707|NCT05167864|184249996|SUPERIORITY|||||||0.546|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 90|||0.546
92177708|NCT05167864|184249996|SUPERIORITY|||||||0.756|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 90|||0.756
92177709|NCT05167864|184249996|SUPERIORITY|||||||0.7|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 90|||0.700
92177710|NCT05167864|184249996|SUPERIORITY|||||||0.397|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 90|||0.397
92177711|NCT05167864|184249996|SUPERIORITY|||||||0.093|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 180|||0.093
92255106|NCT00565812|184412376|SUPERIORITY_OR_OTHER||LS mean difference|-1.24|STANDARD_ERROR_OF_MEAN|1.43||0.387|TWO_SIDED|95.0|-4.04|1.57|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.57|-4.04|0.387
92255107|NCT00565812|184412376|SUPERIORITY_OR_OTHER||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|1.42||0.737|TWO_SIDED|95.0|-3.25|2.3|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.30|-3.25|0.737
92255108|NCT00565812|184412376|SUPERIORITY_OR_OTHER||LS mean difference|1.12|STANDARD_ERROR_OF_MEAN|1.45||0.443|TWO_SIDED|95.0|-1.73|3.97|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.97|-1.73|0.443
92255109|NCT00565812|184412376|SUPERIORITY_OR_OTHER||LS mean difference|-0.79|STANDARD_ERROR_OF_MEAN|1.44||0.585|TWO_SIDED|95.0|-3.62|2.04|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.04|-3.62|0.585
92255110|NCT00565812|184412377|SUPERIORITY_OR_OTHER||LS mean difference|0.58|STANDARD_ERROR_OF_MEAN|1.16||0.613|TWO_SIDED|95.0|-1.68|2.85|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.85|-1.68|0.613
92287085|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|0.026||||0.301|TWO_SIDED|95.0|-0.024|0.076|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.076|-0.024|0.301
92177712|NCT05167864|184249996|SUPERIORITY|||||||0.323|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 180|||0.323
92177713|NCT05167864|184249996|SUPERIORITY|||||||0.182|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) tothe patient satisfaction improvement of line in the forehead post injection day 180|||0.182
92177714|NCT05167864|184249996|SUPERIORITY|||||||0.88|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 180|||0.880
92177715|NCT05167864|184249996|SUPERIORITY|||||||0.496|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) tothe patient satisfaction improvement in the forehead post injection day 3|||0.496
92177716|NCT05167864|184249996|SUPERIORITY|||||||0.905|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 3|||0.905
92177717|NCT05167864|184249996|SUPERIORITY|||||||0.692|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 3|||0.692
92255111|NCT00565812|184412377|SUPERIORITY_OR_OTHER||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|1.16||0.67|TWO_SIDED|95.0|-2.76|1.78|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.78|-2.76|0.670
92255112|NCT00565812|184412377|SUPERIORITY_OR_OTHER||LS mean difference|-1.33|STANDARD_ERROR_OF_MEAN|1.27||0.296|TWO_SIDED|95.0|-3.82|1.16|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.16|-3.82|0.296
92255113|NCT00565812|184412377|SUPERIORITY_OR_OTHER||LS mean difference|-0.66|STANDARD_ERROR_OF_MEAN|1.27||0.604|TWO_SIDED|95.0|-3.15|1.83|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.83|-3.15|0.604
92177718|NCT05167864|184249996|SUPERIORITY|||||||0.262|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 3|||0.262
92177719|NCT05167864|184249996|SUPERIORITY|||||||0.828|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 30|||0.828
92177720|NCT05167864|184249996|SUPERIORITY|||||||0.268|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 30|||0.268
92177721|NCT05167864|184249996|SUPERIORITY|||||||0.975|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 30|||0.975
92177722|NCT05167864|184249996|SUPERIORITY|||||||0.499|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 30|||0.499
92177723|NCT05167864|184249996|SUPERIORITY|||||||0.75|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 90|||0.750
92177724|NCT05167864|184249996|SUPERIORITY|||||||0.433|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 90|||0.433
92177725|NCT05167864|184249996|SUPERIORITY|||||||0.834|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 90|||0.834
92177726|NCT05167864|184249996|SUPERIORITY|||||||0.834|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 90|||0.834
92177727|NCT05167864|184249996|SUPERIORITY|||||||0.526|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 180|||0.526
92177728|NCT05167864|184249996|SUPERIORITY|||||||0.816|TWO_SIDED|95.0|||||Wilcoxon singed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 180|||0.816
92177729|NCT05167864|184249996|SUPERIORITY|||||||0.65|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 180|||0.650
92177730|NCT05167864|184249996|SUPERIORITY|||||||0.095|TWO_SIDED|95.0|||||wilcoxon rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 180|||0.095
92177731|NCT05167864|184249996|SUPERIORITY|||||||0.618|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 3|||0.618
92177732|NCT05167864|184249996|SUPERIORITY|||||||0.34|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 3|||0.340
92177733|NCT05167864|184249996|SUPERIORITY|||||||0.15|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 3|||0.150
92177734|NCT05167864|184249996|SUPERIORITY|||||||0.361|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 3|||0.361
92177735|NCT05167864|184249996|SUPERIORITY|||||||0.428|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 30|||0.428
92177736|NCT05167864|184249996|SUPERIORITY|||||||0.834|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 30|||0.834
92177737|NCT05167864|184249996|SUPERIORITY|||||||0.318|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 30|||0.318
92177738|NCT05167864|184249996|SUPERIORITY|||||||0.311|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 30|||0.311
92177739|NCT05167864|184249996|SUPERIORITY|||||||0.885|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 90|||0.885
92177740|NCT05167864|184249996|SUPERIORITY|||||||0.457|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 90|||0.457
92177741|NCT05167864|184249996|SUPERIORITY|||||||0.745|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 90|||0.745
92177742|NCT05167864|184249996|SUPERIORITY|||||||0.757|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 90|||0.757
92177743|NCT05167864|184249996|SUPERIORITY|||||||0.562|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 180|||0.562
92177744|NCT05167864|184249996|SUPERIORITY|||||||0.828|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 180|||0.828
92177745|NCT05167864|184249996|SUPERIORITY|||||||0.005|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 180|||0.005
92177746|NCT05167864|184249996|SUPERIORITY|||||||0.437|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 180|||0.437
92177747|NCT03314688|184250015|SUPERIORITY|||||||0.69|||||||t-test, 2 sided|||||||0.69
92177748|NCT03314688|184250016|SUPERIORITY|||||||0.33|||||||Chi-squared|||Comparison of Q1: In the past month, how often did you take your aromatase inhibitor (AI)/tamoxifen pills as the doctor prescribed? = 'All the time'||||0.33
92177749|NCT03314688|184250016|SUPERIORITY|||||||0.44|||||||Chi-squared|||Comparison of Q2: In the past month, how often did you forget to take one or more of your aromatase inhibitor (AI)/tamoxifen pills? = 'Never'||||0.44
92177750|NCT03314688|184250016|SUPERIORITY|||||||0.29|||||||Chi-squared|||Comparison of Q3: In the past month, how often did you decide to skip one or more of your aromatase inhibitor (AI)/tamoxifen pills? = 'Never'||||0.29
92177751|NCT03314688|184250017|SUPERIORITY|||||||0.69|||||||Chi-squared|||Comparison of Q1: In the past month, how often did you take your aromatase inhibitor (AI)/tamoxifen pills as the doctor prescribed? = 'All the time'||||0.69
92177752|NCT03314688|184250017|SUPERIORITY|||||||0.91|||||||Chi-squared|||Comparison of Q2: In the past month, how often did you forget to take one or more of your aromatase inhibitor (AI)/tamoxifen pills? = 'Never'||||0.91
92177753|NCT03314688|184250017|SUPERIORITY|||||||0.13|||||||Chi-squared|||Comparison of Q3: In the past month, how often did you decide to skip one or more of your aromatase inhibitor (AI)/tamoxifen pills? = 'Never'||||0.13
92177754|NCT01828112|184250072|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.36|0.67|||Log Rank|||||0.67|0.36|<0.001
92182774|NCT02609048|184264683|SUPERIORITY||Difference in LSM|-14.15|STANDARD_ERROR_OF_MEAN|7.819||0.08|TWO_SIDED|95.0|-30.1|1.8||Difference between means,p-value, and CIs are estimated by comparing Seladelpar level with placebo using ANCOVA model.Treatment group as a factor,baseline assessment as covariate, and percent change from baseline as the response variable.|ANCOVA|||||1.80|-30.10|0.0800
92177755|NCT05565820|184250118|SUPERIORITY||difference in proportions|-0.335|STANDARD_ERROR_OF_MEAN|0.149||0.025|TWO_SIDED|||||Alpha: .05|Z-test for difference in proportions|Z: 2.246 Cohen's d: .590|Direction of comparison: Vamousse Day 2 proportion of live lice - Nix Day 2 proportion of live lice|"Null hypothesis: At Day 2 the proportion of lice free subjects in the Vamousse Spray 'n' Go group does not exceed that in the Nix Creme Rinse Lice Treatment group.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."||||.025
92177756|NCT05565820|184250118|SUPERIORITY||Difference in proportions|0.348|STANDARD_ERROR_OF_MEAN|0.141||0.014|TWO_SIDED|||||Alpha: .05.|Z-test for difference in proportions|Z 2.469 Cohen's d .660|Direction of comparison: Vamousse Day 7 proportion live lice free - Nix Day 7 proportion live lice free|"Null hypothesis: At Day 7 the proportion of lice free subjects in the Vamousse Spray 'n' Go group does not exceed that in the Nix Creme Rinse Lice Treatment group.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."||||.014
92177757|NCT05565820|184250118|SUPERIORITY||Difference in proportions|0.283|STANDARD_ERROR_OF_MEAN|0.147||0.054|TWO_SIDED|||||Alpha: .05|Z-test for difference in proportions|Z: 1.920 Cohen's d: .513|Vamousse Day 14 proportion live lice free - Nix Day 14 proportion live lice free|"Null hypothesis: At Day 14 the proportion of lice-free subjects in the Vamousse Spray 'n' Go group does not exceed that in the Nix Creme Rinse Lice Treatment group.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."||||.054
92177758|NCT05565820|184250119|SUPERIORITY|"To check on the effect of the non-normality of the change proportions, the nonparametric Mann-Whitney test was also performed.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."|Mean Difference (Final Values)|0.295|STANDARD_ERROR_OF_MEAN|0.1148||0.02|TWO_SIDED|95.0|0.052|0.537||Alpha = .05 t: 2.567 df (adjusted, see comment below): 16.83 Mann-Whitney Z: 2.830 p(2-tailed) of Mann-Whitney Z: .005 Cohen's d = 1.023|t-test, 2 sided|Degrees of freedom for the t-test were adjusted for inequality of variances between the groups using the Satterthwaite correction: df(adj) = 16.83|Direction of comparison: Vamousse prop. reduction in live lice count from Day O - Nix prop. reduction in live lice count from Day O|"Null hypothesis: At Day 2 the mean proportion of decrease from Day 0 in the number of live lice in the Vamousse group does not exceed that in the Nix group.~The distribution of the Day 0 to Day 2 change proportions deviated significantly from normality by the Shapiro-Wilk test for both the Vamousse and combined samples. However, the t-test is robust to such departures from normality for samples of this size and was used to compare the two groups on the mean change proportions."||.537|.052|.020
92177759|NCT05565820|184250119|SUPERIORITY|"The nonparametric Mann-Whitney test was also conducted to check on the effect of the non-normality of the change proportions.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."|Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.182||0.334|TWO_SIDED|95.0|-0.187|0.543||Alpha = .05 t: .976 df: 54 Mann-Whitney Z: 3.021 p(2-tailed) of Mann-Whitney Z: .003 Cohen's d = .294|t-test, 2 sided|Levine's test for violation of equality of variances nonsignificant; no df adjustment necessary.||"Null hypothesis: At Day 7 the proportion of decrease from baseline in the number of live lice in the Vamousse group does not exceed that in the Nix group.~The distribution of the Day 0 to Day 7 change proportions deviated significantly from normality by the Shapiro-Wilk test for both the Vamousse and combined samples. However, the t-test is robust to such departures from normality for samples of this size and was used to compare the two groups on their mean change proportions."||.543|-.187|.334
92177760|NCT05565820|184250119|SUPERIORITY|"The nonparametric Mann-Whitney test was also conducted to check on the effect of the non-normality of the change proportions.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."|Difference between proportions|0.235|STANDARD_ERROR_OF_MEAN|0.1034||0.037|TWO_SIDED|95.0|0.016|0.454||Alpha = .05 t: 2.276 df(adjusted, see comment below): 16.2 Mann-Whitney Z: 2.478 p(2-tailed) of Mann-Whitney Z: .013 Cohen's d = .947|t-test, 2 sided|Degrees of freedom for the t-test were adjusted for inequality of variances between the groups using the Satterthwaite correction: df(adj) = 16.2||"Null hypothesis: At Day 14 the proportion of decrease from baseline in the number of live lice in the Vamousse group does not exceed that in the Nix group.~The distribution of the Day 0 to Day 14 change proportion deviated significantly from normality by the Shapiro-Wilk test for both the Vamousse and combined samples. However, the t-test is robust to such departures from normality for samples of this size and was used to compare the two groups on the mean change proportions."||.454|.016|.037
92177761|NCT05586490|184250125|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|-0.6375||||0.429|TWO_SIDED|||||A priori threshold for statistical significance is p \< 0.05.|t-test, 2 sided|Paired samples t-test, df = 7||||||0.429
92255114|NCT00565812|184412377|SUPERIORITY_OR_OTHER||LS mean difference|-1.86|STANDARD_ERROR_OF_MEAN|1.33||0.163|TWO_SIDED|95.0|-4.46|0.75|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.75|-4.46|0.163
92255115|NCT00565812|184412377|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.32||0.939|TWO_SIDED|95.0|-2.69|2.48|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.48|-2.69|0.939
92255116|NCT00565812|184412377|SUPERIORITY_OR_OTHER||LS mean difference|-1.74|STANDARD_ERROR_OF_MEAN|1.46||0.233|TWO_SIDED|95.0|-4.61|1.12|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.12|-4.61|0.233
92287086|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|0.062||||0.011|TWO_SIDED|95.0|0.014|0.11|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.110|0.014|0.011
92255117|NCT00565812|184412377|SUPERIORITY_OR_OTHER||LS mean difference|0.52|STANDARD_ERROR_OF_MEAN|1.45||0.72|TWO_SIDED|95.0|-2.32|3.36|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.36|-2.32|0.720
92255118|NCT00565812|184412377|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|1.45||0.993|TWO_SIDED|95.0|-2.82|2.85|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.85|-2.82|0.993
92255119|NCT00565812|184412377|SUPERIORITY_OR_OTHER||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|1.44||0.794|TWO_SIDED|95.0|-3.19|2.44|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.44|-3.19|0.794
92255120|NCT00565812|184412378|SUPERIORITY_OR_OTHER||LS mean difference|0.97|STANDARD_ERROR_OF_MEAN|0.53||0.069|TWO_SIDED|95.0|-0.07|2.02|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.02|-0.07|0.069
92255121|NCT00565812|184412378|SUPERIORITY_OR_OTHER||LS mean difference|0.52|STANDARD_ERROR_OF_MEAN|0.54||0.335|TWO_SIDED|95.0|-0.53|1.57|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.57|-0.53|0.335
92255122|NCT00565812|184412378|SUPERIORITY_OR_OTHER||LS mean difference|0.89|STANDARD_ERROR_OF_MEAN|0.62||0.153|TWO_SIDED|95.0|-0.33|2.11|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.11|-0.33|0.153
92255123|NCT00565812|184412378|SUPERIORITY_OR_OTHER||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.62||0.672|TWO_SIDED|95.0|-0.95|1.47|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.47|-0.95|0.672
92255124|NCT00565812|184412378|SUPERIORITY_OR_OTHER||LS mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.63||0.765|TWO_SIDED|95.0|-1.05|1.43|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.43|-1.05|0.765
92255125|NCT00565812|184412378|SUPERIORITY_OR_OTHER||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.62||0.675|TWO_SIDED|95.0|-0.96|1.49|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.49|-0.96|0.675
92287087|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|-0.028||||0.294|TWO_SIDED|95.0|-0.08|0.024|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.024|-0.080|0.294
92287088|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|0.008||||0.747|TWO_SIDED|95.0|-0.042|0.058|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.058|-0.042|0.747
92177762|NCT05586490|184250126|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|3.75||||0.351|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 7||||||0.351
92177763|NCT05586490|184250127|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|-0.013||||0.937|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 7||||||0.937
92177764|NCT05586490|184250128|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|-14.8||||0.044|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 7||||||0.044
92177765|NCT05586490|184250129|SUPERIORITY||Mean Difference (Net)|-0.68||||0.42|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.42
92177766|NCT05586490|184250129|SUPERIORITY||Mean Difference (Net)|0.57||||0.5|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device group and no device group) controlling for pre-trial measurements, gender, and age.||||||0.50
92177767|NCT05586490|184250130|SUPERIORITY||Mean Difference (Net)|-0.03||||0.986|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.986
92177768|NCT05586490|184250130|SUPERIORITY||Mean Difference (Net)|-1.25||||0.479|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.479
92177769|NCT05586490|184250131|SUPERIORITY||Mean Difference (Net)|-0.195||||0.098|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.098
92255126|NCT00565812|184412378|SUPERIORITY_OR_OTHER||LS mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.72||0.56|TWO_SIDED|95.0|-1.0|1.84|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.84|-1.00|0.560
92255127|NCT00565812|184412378|SUPERIORITY_OR_OTHER||LS mean difference|0.56|STANDARD_ERROR_OF_MEAN|0.72||0.433|TWO_SIDED|95.0|-0.84|1.97|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.97|-0.84|0.433
92255128|NCT00565812|184412378|SUPERIORITY_OR_OTHER||LS mean difference|0.73|STANDARD_ERROR_OF_MEAN|0.73||0.318|TWO_SIDED|95.0|-0.7|2.16|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.16|-0.70|0.318
92177770|NCT05586490|184250131|SUPERIORITY||Mean Difference (Net)|-0.039||||0.729|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.729
92177771|NCT05586490|184250132|SUPERIORITY||Mean Difference (Net)|-8.15||||0.058|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.0580
92177772|NCT05586490|184250132|SUPERIORITY||Mean Difference (Net)|-1.54||||0.718|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.718
92177773|NCT05586490|184250134|SUPERIORITY||Mean Difference (Net)|0.063||||0.816|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.816
92177774|NCT05586490|184250134|SUPERIORITY||Mean Difference (Net)|-0.0048||||0.985|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.985
92177775|NCT05586490|184250135|SUPERIORITY||Mean Difference (Net)|6.33||||0.59|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.59
92177776|NCT05586490|184250135|SUPERIORITY||Mean Difference (Net)|8.16||||0.51|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.51
92177777|NCT05419830|184250162|OTHER|Three-group ANCOVA comparisons were completed using pre- to post-intervention changes in sleep time dip in systolic BP. Analysis was adjusted for baseline value of the outcome||||||0.65|||||||ANCOVA|||||||0.65
92177778|NCT05419830|184250163|OTHER|Three-group ANCOVA comparisons were completed using pre- to post-intervention changes in nocturia frequency. Analysis was adjusted for baseline value of the outcome||||||0.66|||||||ANCOVA|||||||0.66
92177779|NCT05419830|184250164|OTHER|Three-group ANCOVA comparisons were completed using pre- to post-intervention changes in NPi. Analysis was adjusted for baseline value of the outcome||||||0.14|||||||ANCOVA|||||||0.14
92177780|NCT05419830|184250165|OTHER|Three-group ANCOVA comparisons were completed using pre- to post-intervention changes in PSQI scores. Analysis was adjusted for baseline value of the outcome||||||0.2|||||||ANCOVA|||||||0.2
92177781|NCT05419830|184250166|OTHER|Three-group ANCOVA comparisons were completed using pre- to post-intervention changes in sleep efficiency. Analysis was adjusted for baseline value of the outcome||||||0.02|||||||ANCOVA|||||||0.02
92177782|NCT05012163|184250167|SUPERIORITY|||||||0.506||||||Pairwise comparisons between patients offered scratch-off tickets for vaccination and those in other arms (Analyses 1, 2 and 3) were analyzed in the same regression.|Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent messages offering a scratch-off lottery ticket and patients sent messages offering $1 cash in exchange for vaccination; Alternative hypothesis: the vaccination rate is higher in patients sent messages offering scratch-off tickets compared to those sent messages offering $1 cash.||||.506
92177783|NCT05012163|184250167|SUPERIORITY|||||||0.378||||||Comments: Pairwise comparisons between patients offered scratch-off tickets for vaccination and those in other arms (Analyses 1, 2 and 3) were analyzed in the same regression.|Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent messages offering a scratch-off lottery ticket in exchange for vaccination and those sent active control messages; Alternative hypothesis: the vaccination rate is higher in patients sent messages offering scratch-off tickets compared to those sent active control messages.||||0.378
92177784|NCT05012163|184250167|SUPERIORITY||||||<|0.001||||||Pairwise comparisons between patients offered scratch-off tickets for vaccination and those in other arms (Analyses 1, 2 and 3) were analyzed in the same regression.|Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent messages offering a scratch-off lottery ticket in exchange for vaccination and those sent no study messages; Alternative hypothesis: the vaccination rate is higher in patients sent messages offering scratch-off tickets compared to those who were not sent messages.||||<.001
92177785|NCT05012163|184250167|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent active control messages and those sent no study messages; Alternative hypothesis: the vaccination rate is higher in patients sent active control messages compared to those who were not sent messages.||||<.001
92177786|NCT05012163|184250167|SUPERIORITY|Pairwise comparisons between patients offered cash for vaccination and those in active or passive control (Analyses 5 and 6) were analyzed in the same regression.||||||0.121|||||||Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent messages offering $1 cash in exchange for vaccination and those sent active control messages; Alternative hypothesis: the vaccination rate is higher in patients sent messages offering $1 cash compared to those sent active control messages.||||.121
92177787|NCT05012163|184250167|SUPERIORITY|||||||0.002||||||Pairwise comparisons between patients offered cash for vaccination and those in active or passive control (Analyses 5 and 6) were analyzed in the same regression.|Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent messages offering $1 cash in exchange for vaccination and those sent no study messages; Alternative hypothesis: the vaccination rate is higher in patients sent messages offering $1 cash compared to those who were not sent messages.||||.002
92177788|NCT05062330|184250176|SUPERIORITY||Odds Ratio (OR)|2.63|||<|0.0001|TWO_SIDED|95.0|1.67|4.13|||Generalized estimating equation|||||4.13|1.67|<0.0001
92177789|NCT02567409|184250177|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.69|1.98|||||Hazard ratio relative to arm B.|||1.98|0.69|
92177790|NCT02567409|184250178|SUPERIORITY||Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.71|2.48|||||Hazard ratio relative to arm B.|||2.48|0.71|
92255129|NCT00565812|184412378|SUPERIORITY_OR_OTHER||LS mean difference|0.75|STANDARD_ERROR_OF_MEAN|0.73||0.303|TWO_SIDED|95.0|-0.68|2.18|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.18|-0.68|0.303
92255130|NCT00565812|184412379|SUPERIORITY_OR_OTHER||LS mean difference|1.67|STANDARD_ERROR_OF_MEAN|0.81||0.039|TWO_SIDED|95.0|0.08|3.26|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLGU\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.26|0.08|0.039
92177791|NCT02567409|184250179|SUPERIORITY|||||||0.51|||||||Fisher Exact|||||||0.51
92177792|NCT05280574|184250254|OTHER||Ratio of geometric means|0.75|||<|0.05|TWO_SIDED|95.0|0.51|1.1|||Distinct-effects GEE model||Average relative effect of unblinded versus blinded monitoring across the 5-component composite (SpO2 \<85%, RR \>30/min, RR \<4/min, HR \<45/min, HR \>130/min) of cumulative durations.||We assessed the treatment effect of unblinded versus blinded monitoring across the 5-component primary outcome composite of cumulative durations by estimating the average relative effect on the log-transformed count data (counts of observations beyond a given threshold at 1 Hz). Specifically, we employed a distinct-effects (i.e., separate treatment effect estimated for each component) generalized estimating equation (GEE) model to account for within-subject correlation across components with the vector of the 5 cumulative durations as the dependent variable and treatment as independent. We then averaged the component-specific effects and tested whether the average effect equals zero (on the log scale), and reported results as the ratio of geometric means of unblinded versus blinded monitoring.|1.1|0.51|< 0.05
92177793|NCT02361216|184250267|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|6.29|||<|0.001|TWO_SIDED|95.0|2.82|14.0|||Cochran-Mantel-Haenszel|||AKclear100 at Week 8: full analysis set. The null hypothesis was that there is no difference at Week 8 in AKclear100 rates between ingenol mebutate gel 0.027% and vehicle gel. This hypothesis was tested against the 2-sided alternative of a difference between the 2 treatment groups.||14|2.82|<0.001
92177794|NCT02361216|184250268|SUPERIORITY||Ratio of clearance rates|6.81|||<|0.001|TWO_SIDED|95.0|4.16|11.1|||Cochran-Mantel-Haenszel||Mantel-Haenszel estimate (0.027% relative to vehicle), adjusted for pooled sites|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||11.1|4.16|<0.001
92177795|NCT02361216|184250269|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|6.53|||<|0.001|TWO_SIDED|95.0|4.04|10.5|||Mantel Haenszel|||The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The pre-specified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||10.5|4.04|<0.001
92177796|NCT02361216|184250270|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance|0.28|||<|0.001|TWO_SIDED|95.0|0.24|0.32||Negative binominal regression with log baseline count as offset variable and treatment group, anatomical location stratum and pooled site as factors.|Cochran-Mantel-Haenszel|||The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||0.32|0.24|<0.001
92177797|NCT05683340|184250271|SUPERIORITY||Least squares mean difference|-21.78|STANDARD_ERROR_OF_MEAN|2.482||0.001|TWO_SIDED|95.0|-26.71|-16.85|||MMRM||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-16.85|-26.71|0.001
92177798|NCT03505008|184250288|NON_INFERIORITY|Two-sided 90% CI for the intergroup difference in SDAI remission rates to exceed the non-inferiority margin of -15%|Risk Difference (RD)|0.0|||||TWO_SIDED|90.0||||||||||||
92177799|NCT03825588|184250377|SUPERIORITY|||||||0.71||||||False Discovery Rate q-value \> 0.99|Chi-squared|||Compare participants receiving ASAP (ASAP+TAU and ASAP+BRITE+TAU) to those who do not (BRITE+TAU and TAU) on the rate of actual suicide attempts||||0.71
92177800|NCT03825588|184250377|SUPERIORITY|||||||0.43||||||False Discovery Rate q-vale \> 0.99|Chi-squared|||Compare participants receiving BRITE (BRITE+TAU and ASAP+BRITE+TAU) to those who do not (ASAP+TAU and TAU) on the rate of actual suicide attempts||||0.43
92177801|NCT03825588|184250377|SUPERIORITY||Odds Ratio (OR)|0.4||||0.21|TWO_SIDED|95.0|0.1|1.66||False Discovery Rate q-value \> 0.99|Regression, Logistic|||Compare the 4 arms on the rate of actual suicide attempts in a 2x2 factorial design. Interaction effect of ASAP and BRITE.||1.66|0.10|0.21
92177802|NCT03825588|184250377|SUPERIORITY||Odds Ratio (OR)|1.31||||0.57|TWO_SIDED|95.0|0.51|3.34||False Discovery Rate q-value \> 0.99|Regression, Logistic|||Compare the 4 arms on the rate of actual suicide attempts in a 2x2 factorial design. Main effect of ASAP||3.34|0.51|0.57
92177803|NCT03825588|184250377|SUPERIORITY||Odds Ratio (OR)|1.15||||0.77|TWO_SIDED|95.0|0.44|2.97||False Discovery Rate q-value \> 0.99|Regression, Logistic|||Compare the 4 arms on the rate of actual suicide attempts in a 2x2 factorial design. Main effect of BRITE.||2.97|0.44|0.77
92177804|NCT03825588|184250377|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.74|TWO_SIDED|95.0|0.48|1.69||False Discovery Rate q-value \> 0.99|Regression, Cox|||Compare participants receiving ASAP (ASAP+TAU and ASAP+BRITE+TAU) to those who do not (BRITE+TAU and TAU) on time to actual suicide attempt||1.69|0.48|0.74
92177805|NCT03825588|184250377|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.45|TWO_SIDED|95.0|0.42|1.48||False Discovery Rate q-vale \> 0.99|Regression, Cox|||Compare participants receiving BRITE (BRITE+TAU and ASAP+BRITE+TAU) to those who do not (ASAP+TAU and TAU) on the time to actual suicide attempt||1.48|0.42|0.45
92177806|NCT03825588|184250377|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.25|TWO_SIDED|95.0|0.13|1.72||False Discovery Rate q-value \> 0.99|Regression, Cox|||Compare the 4 arms on time to actual suicide attempt in a 2x2 factorial design. Interaction effect of ASAP and BRITE||1.72|0.13|0.25
92177807|NCT03825588|184250377|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.62|TWO_SIDED|95.0|0.54|2.87||False Discovery Rate q-value \> 0.99|Regression, Cox|||Compare the 4 arms on time to actual suicide attempt in a 2x2 factorial design. Main effect of ASAP.||2.87|0.54|0.62
92255131|NCT00565812|184412379|SUPERIORITY_OR_OTHER||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.82||0.395|TWO_SIDED|95.0|-0.91|2.3|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.30|-0.91|0.395
92177808|NCT03825588|184250377|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.83|TWO_SIDED|95.0|0.47|2.59||False Discovery Rate q-value \> 0.99|Regression, Cox|||Compare the 4 arms on time to actual suicide attempt in a 2x2 factorial design. Main effect of BRITE.||2.59|0.47|0.83
92177809|NCT03825588|184250378|SUPERIORITY|||||||0.19||||||False Discovery Rate q-value = 0.72|Chi-squared|||Compare participants receiving ASAP (ASAP+TAU and ASAP+BRITE+TAU) to those who do not (BRITE+TAU and TAU) on the rate of suicidal events|We used standard univariate statistics to compare partici- pants' baseline sociodemographics and clinical characteris- tics by arm \[(ASAP vs No ASAP where comparison is 6 www.jaacap.org (ASAP+TAU) and (ASAP+BRITE+TAU) vs (TAU alone) and (BRITE+TAU); and BRITE vs No BRITE where comparison is (ASAP+BRITE+TAU) and (BRITE+TAU) vs (ASAP+TAU) and (TAU Alone)\], site, retention, pre- post-COVID and recruitment venue. We then tested for equality of the 2 cells (ASAP vs no ASAP, BRITE vs no BRITE) or 4 cells (ASAP+BRITE+TAU vs BRITE +TAU vs ASAP+TAU vs TAU Alone) without covariates on the rates of and time to suicidal behavior using the appropriate (t or F, c2, Kaplan-Meier, Cox models) test statistics. We then used mixed-effects regression models with arm (2 and 4 cells), time, and their interaction for continuous data. Presented percentages are based on all observed data.|||0.19
92177810|NCT03825588|184250378|SUPERIORITY|||||||0.89|TWO_SIDED|95.0||||False Discovery Rate q-value \> 0.99|Chi-squared|||Compare participants receiving BRITE (BRITE+TAU and ASAP+BRITE+TAU) to those who do not (ASAP+TAU and TAU) on the rate of suicidal events||||0.89
92177811|NCT03825588|184250378|SUPERIORITY||Odds Ratio (OR)|0.35||||0.08|TWO_SIDED|95.0|0.11|1.1||False Discovery Rate q-value = 0.72|Regression, Logistic|||Compare participants the 4 arms on the rate of suicidal events in a 2x2 factorial design. Interaction effect of ASAP and BRITE.||1.10|0.11|0.08
92177812|NCT03825588|184250378|SUPERIORITY||Odds Ratio (OR)|1.14||||0.74|TWO_SIDED|95.0|0.51|2.55||False Discovery Rate q \> 0.99|Regression, Logistic|||Compare the 4 arms on time to actual suicide attempt in a 2x2 factorial design. Main effect of ASAP.||2.55|0.51|0.74
92177813|NCT03825588|184250378|SUPERIORITY||Odds Ratio (OR)|1.69||||0.19|TWO_SIDED|95.0|0.77|3.69||False Discovery Rate q=0.72|Regression, Logistic|||Compare the 4 arms on time to actual suicide attempt in a 2x2 factorial design. Main effect of BRITE.||3.69|0.77|0.19
92177814|NCT06029452|184250403|NON_INFERIORITY|Non-inferiority margin was 0.10.|Sensitivity|0.853|||||ONE_SIDED|95.0|0.815||||||Sensitivity was defined as the probability that an individual with the disease in the population were screen positive for disease by the algorithm (TP). Sensitivity = TP / (TP + FN).||||0.815|
92177815|NCT06029452|184250403|NON_INFERIORITY|Non-inferiority margin was 0.10.|Specificity|0.584|||||ONE_SIDED|95.0|0.539||||||Sensitivity was defined as the probability that an individual with the disease in the population were screen positive for disease by the algorithm (TP). Sensitivity = TP / (TP + FN).||||0.539|
92177816|NCT03106740|184250420|SUPERIORITY|Because relevant \[11C\]PBR28 PET imaging data were unavailable at the time of trial initiation to inform a power analysis of a treatment effect, we ran a power analysis of the treatment effect on the expected change in pain ratings based on a recent clinical trial using minocycline in subjects with back pain. We computed the sample size required for mixed effects between-subject and within-subject (Time: Pretest/Posttest) repeated measures ANOVA design. Alpha was set at 0.05 (two-tailed test).|Restricted maximum likelihood|0.0||||0.956|TWO_SIDED|95.0|-0.02|0.02||The p-value corresponds to the group-by-time interaction analysis of the primary outcome measure.|Mixed Models Analysis||Estimation parameter: Unstandardized partial regression coefficient (beta)|||0.02|-0.02|0.956
92177817|NCT04797858|184250423|SUPERIORITY||Risk Difference (RD)|0.0077||||0.45|TWO_SIDED|95.0|-0.021|0.056|||Fisher Exact|||||0.056|-0.021|0.45
92177818|NCT04797858|184250424|SUPERIORITY||Risk Difference (RD)|0.015||||0.11|TWO_SIDED|95.0|-0.0004|0.03|||Fisher Exact|||||0.03|-0.0004|0.11
92177819|NCT01880515|184250431|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.4|||||TWO_SIDED|95.0|0.17|0.99||||||||0.99|0.17|
92177820|NCT01880515|184250434|SUPERIORITY|||||||0.41|||||||Log Rank|||||||0.41
92177821|NCT05290493|184250506|SUPERIORITY|||||||0.0672|||||||Mixed Models Analysis|||||||0.0672
92177822|NCT05290493|184250507|SUPERIORITY|||||||0.2045|||||||Mixed Models Analysis|||||||0.2045
92287089|NCT03086460|184479318|SUPERIORITY||Mean Difference (Final Values)|0.036||||0.155|TWO_SIDED|95.0|-0.014|0.086|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.086|-0.014|0.155
92255132|NCT00565812|184412379|SUPERIORITY_OR_OTHER||LS mean difference|1.36|STANDARD_ERROR_OF_MEAN|0.96||0.16|TWO_SIDED|95.0|-0.54|3.25|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.25|-0.54|0.160
92255133|NCT00565812|184412379|SUPERIORITY_OR_OTHER||LS mean difference|0.46|STANDARD_ERROR_OF_MEAN|0.97||0.638|TWO_SIDED|95.0|-1.44|2.35|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.35|-1.44|0.638
92255134|NCT00565812|184412379|SUPERIORITY_OR_OTHER||LS mean difference|0.61|STANDARD_ERROR_OF_MEAN|0.98||0.537|TWO_SIDED|95.0|-1.32|2.54|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.54|-1.32|0.537
92177823|NCT05290493|184250508|SUPERIORITY|||||||0.2931|||||||Mixed Models Analysis|||||||0.2931
92255135|NCT00565812|184412379|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.98||0.988|TWO_SIDED|95.0|-1.9|1.93|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*(visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.93|-1.90|0.988
92255136|NCT00565812|184412379|SUPERIORITY_OR_OTHER||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|1.11||0.962|TWO_SIDED|95.0|-2.12|2.22|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.22|-2.12|0.962
92255137|NCT00565812|184412379|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|1.11||0.856|TWO_SIDED|95.0|-1.97|2.37|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.37|-1.97|0.856
92177824|NCT05290493|184250509|SUPERIORITY|||||||0.7799|||||||Mixed Models Analysis|||||||0.7799
92177825|NCT05290493|184250510|SUPERIORITY|||||||0.7974|||||||Mixed Models Analysis|||||||0.7974
92177826|NCT05290493|184250511|SUPERIORITY|||||||0.8286|||||||Mixed Models Analysis|||||||0.8286
92177827|NCT05363163|184250524|OTHER|If the mean volume variation was higher than 0 and the p-value of the statistical test lower than 0.05, the H0 hypothesis was rejected, and the primary endpoint demonstrated.|||||<|0.0001||||||p-value of the statistical test lower than 0.05|t-test, 2 sided|||||||<0.0001
92255138|NCT00565812|184412379|SUPERIORITY_OR_OTHER||LS mean difference|1.36|STANDARD_ERROR_OF_MEAN|1.15||0.237|TWO_SIDED|95.0|-0.9|3.63|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.63|-0.90|0.237
92177828|NCT03673501|184250537|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.3598|TWO_SIDED|95.0|0.66|1.16|||Log Rank|Strata: by intolerance to imatinib treatment||||1.16|0.66|0.3598
92177829|NCT03673501|184250538|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7153|TWO_SIDED|95.0|0.82|1.33||Two-sided P-value|Log Rank|Strata: mutation status (KIT exon 9 vs. 11 vs. KIT/PDGFRA WT vs. other KIT {absence of exon 9 or 11}/PDGFRA) and intolerance to imatinib treatment||||1.33|0.82|0.7153
92177830|NCT03673501|184250539|SUPERIORITY|||||||0.0333|||||||Cochran-Mantel-Haenszel|Strata: intolerance to imatinib treatment||||||0.0333
92177831|NCT03673501|184250540|SUPERIORITY|||||||0.2681|||||||Cochran-Mantel-Haenszel|Strata: mutation status (KIT exon 9 vs. 11 vs. KIT/PDGFRA WT vs. other KIT {absence of exon 9 or 11}/PDGFRA) and intolerance to imatinib treatment||||||0.2681
92177832|NCT03673501|184250541|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7733|TWO_SIDED|95.0|0.75|1.48|||Log Rank|Strata: intolerance to imatinib treatment||||1.48|0.75|0.7733
92177833|NCT03673501|184250542|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.3928|TWO_SIDED|95.0|0.66|1.18|||Log Rank|Strata: mutation status (KIT exon 9 vs. 11 vs. KIT/PDGFRA WT vs. other KIT {absence of exon 9 or 11}/PDGFRA) and intolerance to imatinib||||1.18|0.66|0.3928
92177834|NCT05838027|184250543|SUPERIORITY|All panel-data marginal models use robust standard errors. Categorical outcomes were assessed with ordered logistic models and continuous outcomes were assessed with GEE population-averaged models, except Medication Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Odds Ratio (OR)|3.24|||||TWO_SIDED|95.0|0.84|12.55||||||||12.55|0.84|
92177835|NCT05838027|184250544|SUPERIORITY|All panel-data marginal models use robust standard errors. Categorical outcomes were assessed with ordered logistic models and continuous outcomes were assessed with GEE population-averaged models, except Medication Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.24|2.64||||||||2.64|0.24|
92177836|NCT05838027|184250545|SUPERIORITY|All panel-data marginal models use robust standard errors. Categorical outcomes were assessed with ordered logistic models and continuous outcomes were assessed with GEE population-averaged models, except Medication Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|0.52|||||TWO_SIDED|95.0|-3.78|4.82||||||||4.82|-3.78|
92177837|NCT05838027|184250546|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-1.01|1.4||||||||1.40|-1.01|
92177838|NCT05838027|184250547|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|-2.71|||||TWO_SIDED|95.0|-7.43|2.0||||||||2.00|-7.43|
92177839|NCT05838027|184250548|SUPERIORITY|All panel-data marginal models use robust standard errors. Categorical outcomes were assessed with ordered logistic models and continuous outcomes were assessed with GEE population-averaged models, except Medication Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|-0.65|||||TWO_SIDED|95.0|-5.45|4.16||||||||4.16|-5.45|
92255139|NCT00565812|184412379|SUPERIORITY_OR_OTHER||LS mean difference|0.82|STANDARD_ERROR_OF_MEAN|1.15||0.475|TWO_SIDED|95.0|-1.44|3.09|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.09|-1.44|0.475
92255140|NCT00565812|184412380|SUPERIORITY_OR_OTHER||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.57||0.938|TWO_SIDED|95.0|-1.07|1.16|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.16|-1.07|0.938
92177840|NCT05838027|184250549|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|IRR|1.12|||||TWO_SIDED|95.0|0.46|2.74||||||||2.74|0.46|
92177841|NCT05838027|184250550|SUPERIORITY|All panel-data marginal models use robust standard errors. Categorical outcomes were assessed with ordered logistic models and continuous outcomes were assessed with GEE population-averaged models, except Medication Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|-0.75|||||TWO_SIDED|95.0|-1.29|-0.21||||||||-0.21|-1.29|
92177842|NCT05838027|184250553|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|0.57|||||TWO_SIDED|95.0|-1.9|3.03||||||||3.03|-1.90|
92177843|NCT05838027|184250554|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|0.13|||||TWO_SIDED|95.0|-0.32|0.58||||||||0.58|-0.32|
92255141|NCT00565812|184412380|SUPERIORITY_OR_OTHER||LS mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.56||0.906|TWO_SIDED|95.0|-1.04|1.17|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.17|-1.04|0.906
92255142|NCT00565812|184412380|SUPERIORITY_OR_OTHER||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.65||0.726|TWO_SIDED|95.0|-1.5|1.04|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.04|-1.50|0.726
92255143|NCT00565812|184412380|SUPERIORITY_OR_OTHER||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.64||0.681|TWO_SIDED|95.0|-1.52|1.0|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.00|-1.52|0.681
92177844|NCT05838027|184250555|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|IRR|0.62|||||TWO_SIDED|95.0|0.23|1.63||||||||1.63|0.23|
92177845|NCT05838027|184250556|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|1.05|||||TWO_SIDED|95.0|-0.54|2.64||||||||2.64|-0.54|
92177846|NCT05838027|184250557|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.19|5.49||||||||5.49|0.19|
92177847|NCT05838027|184250558|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|-1.1|||||TWO_SIDED|95.0|-2.64|0.43||||||||0.43|-2.64|
92177848|NCT05838027|184250559|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|2.72|||||TWO_SIDED|95.0|-1.35|6.8||||||||6.80|-1.35|
92177849|NCT05838027|184250560|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|-0.69|||||TWO_SIDED|95.0|-1.74|0.36||||||||0.36|-1.74|
92177850|NCT06193070|184250582|OTHER|A one-tailed paired t-test was run to examine within subject mean difference on the cancer nutrition information beliefs scale pre- and post-game.|||||<|0.001||||||The threshold was set at alpha \< 0.05.|t-test, 1 sided|A paired samples t-test was run on pre- and post-game mean scores within subjects.||All participants were exposed to the intervention, and pre- and post-game scores within subject were examined.||||<.001
92177851|NCT03580356|184250611|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|9.029|||<|0.0001|TWO_SIDED|95.0|3.183|25.615|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||25.615|3.183|<.0001
92177852|NCT03580356|184250611|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|0.926||||0.6646|TWO_SIDED|95.0|0.65|1.319|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||1.319|0.650|0.6646
92177853|NCT03580356|184250611|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|11.508|||<|0.0001|TWO_SIDED|95.0|4.058|32.638|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||32.638|4.058|<.0001
92177854|NCT03580356|184250611|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio, log|1.181||||0.173|TWO_SIDED|95.0|0.836|1.667|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||1.667|0.836|0.1730
92177855|NCT03580356|184250612|SUPERIORITY||LS Mean|-9.997|STANDARD_ERROR_OF_MEAN|1.305|<|0.0001|TWO_SIDED|95.0|-12.554|-7.439|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults only||-7.439|-12.554|<.0001
92177856|NCT03580356|184250612|SUPERIORITY||LS mean|0.414|STANDARD_ERROR_OF_MEAN|0.922||0.6735|TWO_SIDED|95.0|-1.392|2.221|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults only||2.221|-1.392|0.6735
92177857|NCT03580356|184250612|SUPERIORITY||LS Mean|-11.091|STANDARD_ERROR_OF_MEAN|1.313|<|0.0001|TWO_SIDED|95.0|-13.664|-8.518|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults only||-8.518|-13.664|<.0001
92177858|NCT03580356|184250612|SUPERIORITY||LS mean|-0.68|STANDARD_ERROR_OF_MEAN|0.923||0.2305|TWO_SIDED|95.0|-2.489|1.128|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults only||1.128|-2.489|0.2305
92177859|NCT03580356|184250614|SUPERIORITY||LS Mean|-4.105|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-5.281|-2.929|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults only||-2.929|-5.281|<.0001
92177860|NCT03580356|184250614|SUPERIORITY||LS Mean|0.101|STANDARD_ERROR_OF_MEAN|0.422||0.5943|TWO_SIDED|95.0|-0.727|0.928|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults only||0.928|-0.727|0.5943
92177861|NCT03580356|184250614|SUPERIORITY|Adults only|LS Mean|-4.496|STANDARD_ERROR_OF_MEAN|0.603|<|0.0001|TWO_SIDED|95.0|-5.678|-3.314|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||||-3.314|-5.678|<.0001
92177862|NCT03580356|184250614|SUPERIORITY||LS Mean|-0.29|STANDARD_ERROR_OF_MEAN|0.423||0.2467|TWO_SIDED|95.0|-1.12|0.54|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults only||0.540|-1.120|0.2467
92177863|NCT03580356|184250616|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|3.443|||<|0.0001|TWO_SIDED|95.0|1.955|6.063|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||6.063|1.955|<.0001
92177864|NCT03580356|184250616|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|0.838||||0.8524|TWO_SIDED|95.0|0.602|1.167|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||1.167|0.602|0.8524
92177865|NCT03580356|184250616|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|4.542|||<|0.0001|TWO_SIDED|95.0|2.577|8.004|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||8.004|2.577|<.0001
92177866|NCT03580356|184250616|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|1.106||||0.2764|TWO_SIDED|95.0|0.794|1.54|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||1.540|0.794|0.2764
92177867|NCT03580356|184250617|SUPERIORITY||Risk Ratio (RR)|1.389|||<|0.0001|TWO_SIDED|95.0|1.235|1.561|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults only||1.561|1.235|<.0001
92177868|NCT03580356|184250617|SUPERIORITY||Risk Ratio (RR)|1.029||||0.2369|TWO_SIDED|95.0|0.952|1.111|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults only||1.111|0.952|0.2369
92177869|NCT03580356|184250617|SUPERIORITY||Risk Ratio (RR)|1.425|||<|0.0001|TWO_SIDED|95.0|1.268|1.603|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults only||1.603|1.268|<.0001
92177870|NCT03580356|184250617|SUPERIORITY||Risk Ratio (RR)|1.056||||0.083|TWO_SIDED|95.0|0.978|1.14|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults only||1.140|0.978|0.0830
92177871|NCT05715528|184250619|SUPERIORITY||Hazard Ratio (HR)|1.099||||0.0681|TWO_SIDED|95.0|0.997|1.211||P-value calculated from stratified Log-rank test with randomization stratification factor as the strata.|Stratified Log-rank test||Hazard ratio and two-sided 95% confidence interval (CI) for hazard ratio were estimated using the Cox regression with randomization stratification factor as a covariate.|||1.211|0.997|0.0681
92177872|NCT05715528|184250623|SUPERIORITY||Hazard Ratio (HR)|1.036||||0.5558|TWO_SIDED|95.0|0.935|1.147|||Stratified Log-Rank Test|P-value calculated from stratified Log-rank test with randomization stratification factor as the strata.|Hazard ratio and two-sided 95% CI for hazard ratio were estimated using the Cox regression with randomization stratification factor as a covariate.|||1.147|0.935|0.5558
92177873|NCT05715528|184250624|SUPERIORITY|||||||0.6469|||||||Fisher's exact test|||||||0.6469
92177874|NCT05715528|184250625|SUPERIORITY||Hazard Ratio (HR)|0.495||||0.5581|TWO_SIDED|95.0|0.045|5.464|||Log-rank test|P value was based on log-rank test.|Hazard ratio and two-sided 95% CI were estimated using the Cox regression.|||5.464|0.045|0.5581
92177875|NCT05715528|184250627|SUPERIORITY||Least Squares Mean|0.02||||0.4254|TWO_SIDED|95.0|-0.03|0.08||p-value was from Mixed-effects model repeated measures (MMRM) with baseline viral load and randomization strata as covariates.|MMRM||95% CI was from MMRM with baseline viral load and randomization strata as covariates.|||0.08|-0.03|0.4254
92177876|NCT05715528|184250628|SUPERIORITY||Hazard Ratio (HR)|1.138||||0.0015|TWO_SIDED|95.0|1.032|1.256||P-value calculated from stratified Log-rank test with randomization stratification factor as the strata.|Stratified Log-rank test||Hazard ratio and two-sided 95% CI for hazard ratio were estimated using the Cox regression with randomization stratification factor as a covariate.|||1.256|1.032|0.0015
92177877|NCT05715528|184250629|SUPERIORITY|||||||0.6978|||||||Fisher's exact test|P-value was from the Fisher's exact test.||||||0.6978
92177878|NCT05715528|184250634|SUPERIORITY|||||||0.5707|||||||Fisher's exact test|P-value was from the Fisher's exact test.||||||0.5707
92255144|NCT00565812|184412381|SUPERIORITY_OR_OTHER||LS mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.58||0.9|TWO_SIDED|95.0|-1.07|1.21|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.21|-1.07|0.900
92255145|NCT00565812|184412381|SUPERIORITY_OR_OTHER||LS mean difference|0.36|STANDARD_ERROR_OF_MEAN|0.58||0.528|TWO_SIDED|95.0|-0.77|1.5|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.50|-0.77|0.528
92177879|NCT03331835|184250635|SUPERIORITY||Risk Difference (RD)|42.86|||<|0.001|TWO_SIDED|95.0|30.93|54.79|||Cochran-Mantel-Haenszel|95% CI and p-value are derived from CMH analysis stratified by weight group at baseline (≤100 kg, \> 100 kg).||Estimated risk difference, 95% CI and p-value are derived from Cochran-Mantel-Haenszel (CMH) analysis stratified by weight group at baseline (≤100 kg, \> 100 kg). Non-responder Imputation (NRI) was used to impute missing data. Treatment groups were defined as randomised treatment.||54.79|30.93|<0.001
92177880|NCT03331835|184250636|SUPERIORITY||Risk Difference (RD)|44.76|||<|0.001|TWO_SIDED|95.0|32.81|56.71|||Cochran-Mantel-Haenszel|95% CI and p-value are derived from CMH analysis stratified by weight group at baseline (≤100 kg, \> 100 kg)||Estimated risk difference, 95% CI and p-value are derived from Cochran-Mantel-Haenszel (CMH) analysis stratified by weight group at baseline (≤100 kg, \> 100 kg). Non-responder Imputation (NRI) was used to impute missing data. Treatment groups were defined as randomised treatment.||56.71|32.81|<0.001
92177881|NCT03331835|184250637|SUPERIORITY||Risk Difference (RD)|43.81|||<|0.001|TWO_SIDED|95.0|31.78|55.84|||Cochran-Mantel-Haenszel|||Estimated risk difference, 95% CI and p-value are derived from Cochran-Mantel-Haenszel (CMH) analysis stratified by weight group at baseline (≤100 kg, \> 100 kg). Non-responder Imputation (NRI) was used to impute missing data. Treatment groups were defined as randomised treatment.||55.84|31.78|<0.001
92177882|NCT03331835|184250638|SUPERIORITY||Risk Difference (RD)|31.43|||<|0.001|TWO_SIDED|95.0|20.76|42.1|||Cochran-Mantel-Haenszel|||Estimated risk difference, 95% CI and p-value are derived from Cochran-Mantel-Haenszel (CMH) analysis stratified by weight group at baseline (≤100 kg, \> 100 kg). Non-responder Imputation (NRI) was used to impute missing data. Treatment groups were defined as randomised treatment.||42.10|20.76|<0.001
92177883|NCT03331835|184250639|SUPERIORITY||Mean Difference (Net)|-3.08|||<|0.001|TWO_SIDED|95.0|-4.83|-1.33|||Mixed Models Analysis|||The endpoint was analysed using mixed model for repeated measures (MMRM) model including treatment group, week, interaction between treatment and time, baseline value, and baseline weight group as fixed factors. Within participant covariance was estimated by an unstructured covariance matrix. Treatment groups were defined as randomised treatment.||-1.33|-4.83|<0.001
92177884|NCT03331835|184250640|SUPERIORITY||Mean Difference (Net)|-16.36|||<|0.001|TWO_SIDED|95.0|-23.03|-9.68|||Mixed Models Analysis|||The endpoint was analysed using mixed model for repeated measures (MMRM) model including treatment group, week, interaction between treatment and time, baseline value, and baseline weight group as fixed factors. Within participant covariance was estimated by an unstructured covariance matrix. Treatment groups were defined as randomised treatment.||-9.68|-23.03|<0.001
92177885|NCT03331835|184250641|SUPERIORITY||Mean Difference (Net)|-8.91|||<|0.001|TWO_SIDED|95.0|-13.0|-4.81|||Mixed Models Analysis|||The endpoint was analysed using mixed model for repeated measures (MMRM) model including treatment group, week, interaction between treatment and time, baseline value, and baseline weight group as fixed factors. Within participant covariance was estimated by an unstructured covariance matrix. Treatment groups were defined as randomised treatment.||-4.81|-13.00|<0.001
92255146|NCT00565812|184412381|SUPERIORITY_OR_OTHER||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.62||0.647|TWO_SIDED|95.0|-1.51|0.94|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.94|-1.51|0.647
92255147|NCT00565812|184412381|SUPERIORITY_OR_OTHER||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.62||0.841|TWO_SIDED|95.0|-1.34|1.09|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.09|-1.34|0.841
92255148|NCT00565812|184412382|SUPERIORITY_OR_OTHER||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|0.59||0.587|TWO_SIDED|95.0|-0.84|1.48|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.48|-0.84|0.587
92255149|NCT00565812|184412382|SUPERIORITY_OR_OTHER||LS mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.58||0.687|TWO_SIDED|95.0|-0.91|1.38|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.38|-0.91|0.687
92255150|NCT00565812|184412382|SUPERIORITY_OR_OTHER||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.65||0.677|TWO_SIDED|95.0|-1.56|1.01|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.01|-1.56|0.677
92255151|NCT00565812|184412382|SUPERIORITY_OR_OTHER||LS mean difference|0.47|STANDARD_ERROR_OF_MEAN|0.65||0.469|TWO_SIDED|95.0|-0.8|1.74|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.74|-0.80|0.469
92255152|NCT00565812|184412383|SUPERIORITY_OR_OTHER||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.48||0.632|TWO_SIDED|95.0|-0.71|1.17|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.17|-0.71|0.632
92255153|NCT00565812|184412383|SUPERIORITY_OR_OTHER||LS mean difference|0.49|STANDARD_ERROR_OF_MEAN|0.48||0.308|TWO_SIDED|95.0|-0.45|1.42|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.42|-0.45|0.308
92255154|NCT00565812|184412383|SUPERIORITY_OR_OTHER||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.54||0.615|TWO_SIDED|95.0|-1.33|0.79|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.79|-1.33|0.615
92255155|NCT00565812|184412383|SUPERIORITY_OR_OTHER||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.53||0.425|TWO_SIDED|95.0|-1.48|0.62|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.62|-1.48|0.425
92255156|NCT00565812|184412384|SUPERIORITY_OR_OTHER||LS mean difference|0.67|STANDARD_ERROR_OF_MEAN|0.54||0.214|TWO_SIDED|95.0|-0.39|1.72|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.72|-0.39|0.214
92255157|NCT00565812|184412384|SUPERIORITY_OR_OTHER||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.53||0.98|TWO_SIDED|95.0|-1.06|1.03|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.03|-1.06|0.980
92255158|NCT00565812|184412384|SUPERIORITY_OR_OTHER||LS mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.59||0.575|TWO_SIDED|95.0|-0.83|1.49|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.49|-0.83|0.575
92255159|NCT00565812|184412384|SUPERIORITY_OR_OTHER||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.59||0.986|TWO_SIDED|95.0|-1.16|1.14|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.14|-1.16|0.986
92255160|NCT00565812|184412385|SUPERIORITY_OR_OTHER||LS mean difference|1.33|STANDARD_ERROR_OF_MEAN|0.61||0.03|TWO_SIDED|95.0|0.13|2.52|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.52|0.13|0.030
92177886|NCT03331835|184250645|SUPERIORITY||Mean Difference (Final Values)|-4.92|||<|0.001|TWO_SIDED|95.0|-6.31|-3.53|||ANCOVA|||The AUC was analysed using analysis of covariance (ANCOVA) with treatment group, baseline weight group, and the baseline PSI total score as explanatory variables. Treatment groups are defined as randomised treatment.||-3.53|-6.31|<0.001
92255161|NCT00565812|184412385|SUPERIORITY_OR_OTHER||LS mean difference|0.43|STANDARD_ERROR_OF_MEAN|0.6||0.48|TWO_SIDED|95.0|-0.76|1.61|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.61|-0.76|0.480
92255162|NCT00565812|184412385|SUPERIORITY_OR_OTHER||LS mean difference|1.01|STANDARD_ERROR_OF_MEAN|0.67||0.132|TWO_SIDED|95.0|-0.3|2.32|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.32|-0.30|0.132
92255163|NCT00565812|184412385|SUPERIORITY_OR_OTHER||LS mean difference|1.04|STANDARD_ERROR_OF_MEAN|0.66||0.117|TWO_SIDED|95.0|-0.26|2.34|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.34|-0.26|0.117
92255164|NCT00565812|184412386|SUPERIORITY_OR_OTHER||LS mean difference|1.06|STANDARD_ERROR_OF_MEAN|0.71||0.133|TWO_SIDED|95.0|-0.32|2.44|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.44|-0.32|0.133
92255165|NCT00565812|184412386|SUPERIORITY_OR_OTHER||LS mean difference|0.44|STANDARD_ERROR_OF_MEAN|0.7||0.524|TWO_SIDED|95.0|-0.93|1.82|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.82|-0.93|0.524
92255166|NCT00565812|184412386|SUPERIORITY_OR_OTHER||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.78||0.743|TWO_SIDED|95.0|-1.27|1.78|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.78|-1.27|0.743
92255167|NCT00565812|184412386|SUPERIORITY_OR_OTHER||LS mean difference|0.78|STANDARD_ERROR_OF_MEAN|0.77||0.31|TWO_SIDED|95.0|-0.73|2.3|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.30|-0.73|0.310
92255168|NCT00565812|184412387|SUPERIORITY_OR_OTHER||LS mean difference|1.17|STANDARD_ERROR_OF_MEAN|0.62||0.058|TWO_SIDED|95.0|-0.04|2.38|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.38|-0.04|0.058
92255169|NCT00565812|184412387|SUPERIORITY_OR_OTHER||LS mean difference|0.76|STANDARD_ERROR_OF_MEAN|0.61||0.213|TWO_SIDED|95.0|-0.44|1.96|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.96|-0.44|0.213
92255170|NCT00565812|184412387|SUPERIORITY_OR_OTHER||LS mean difference|0.98|STANDARD_ERROR_OF_MEAN|0.67||0.143|TWO_SIDED|95.0|-0.33|2.3|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.30|-0.33|0.143
92177887|NCT03331835|184250646|SUPERIORITY||Mean Difference (Net)|-2.57||||0.004|TWO_SIDED|95.0|-4.32|-0.82|||Mixed Models Analysis|||The endpoint is analysed by using mixed model for repeated measurements (MMRM) model including treatment group, week, interaction between treatment and time, baseline value, and baseline weight group as fixed factors. Within participant covariance was estimated by an unstructured covariance matrix. Treatment groups are defined as randomised treatment.||-0.82|-4.32|0.004
92177888|NCT03331835|184250647|SUPERIORITY|Estimated risk difference, 95% CI and p-value are derived from Cochran-Mantel-Haenszel (CMH) analysis stratified by weight group at baseline (\<=100 kg, \> 100 kg). Non-responder Imputation (NRI) was used to impute missing data. Treatment groups were defined as randomised treatment.|Risk Difference (RD)|40.95|||<|0.001|TWO_SIDED|95.0|28.75|53.16|||Cochran-Mantel-Haenszel|||||53.16|28.75|<0.001
92177889|NCT03331835|184250648|SUPERIORITY|The endpoint was analysed by using mixed model for repeated measures (MMRM) model including treatment group, week, interaction between treatment and time, baseline value, and baseline weight group as fixed factors. Within participant covariance was estimated by an unstructured covariance matrix. Treatment groups were defined as randomised treatment.|Mean Difference (Net)|-1.72||||0.028|TWO_SIDED|95.0|-3.24|-0.19|||Mixed Models Analysis|||||-0.19|-3.24|0.028
92177890|NCT05552508|184250675|OTHER|||||||0.0327|||||||t-test, 2 sided|||All participants||||0.0327
92177891|NCT05552508|184250675|OTHER|||||||0.0359|||||||t-test, 2 sided|||Participants with \>=4 mucus plugs||||0.0359
92255171|NCT00565812|184412387|SUPERIORITY_OR_OTHER||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.67||0.45|TWO_SIDED|95.0|-0.8|1.81|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.81|-0.80|0.450
92255172|NCT00565812|184412388|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.51||0.701|TWO_SIDED|95.0|-1.19|0.8|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.80|-1.19|0.701
92255173|NCT00565812|184412388|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.5||0.764|TWO_SIDED|95.0|-0.84|1.14|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.14|-0.84|0.764
92255174|NCT00565812|184412388|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.57||0.228|TWO_SIDED|95.0|-1.8|0.43|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.43|-1.80|0.228
92177892|NCT05552508|184250675|OTHER|||||||0.1088|||||||t-test, 2 sided|||Participants with \<4 mucus plugs||||0.1088
92177893|NCT05552508|184250675|OTHER|||||||0.0391|||||||t-test, 2 sided|||Non-OCS-dependent participants||||0.0391
92177894|NCT05552508|184250676|OTHER|||||||0.0423|||||||t-test, 2 sided|||||||0.0423
92177895|NCT05552508|184250677|OTHER|||||||0.9465|||||||t-test, 2 sided|||||||0.9465
92177896|NCT05552508|184250678|OTHER|||||||0.3455|||||||t-test, 2 sided|||||||0.3455
92177897|NCT05552508|184250679|OTHER|||||||0.2484|||||||t-test, 2 sided|||||||0.2484
92177898|NCT05552508|184250680|OTHER|||||||0.9405|||||||t-test, 2 sided|||||||0.9405
92177899|NCT05552508|184250681|OTHER|||||||0.6867|||||||t-test, 2 sided|||||||0.6867
92177900|NCT05552508|184250682|OTHER|||||||0.7554|||||||t-test, 2 sided|||||||0.7554
92177901|NCT03421340|184250766|NON_INFERIORITY|Non-Inferiority Margin of 10%|Risk Difference (RD)|1.8||||0.029|TWO_SIDED||||||exact|||||||0.029
92177902|NCT03421340|184250767|SUPERIORITY|Not powered|Risk Difference (RD)|-1.7|||||TWO_SIDED|95.0|-8.0|4.1||||||||4.1|-8|
92177903|NCT03421340|184250768|SUPERIORITY||Median Difference (Net)|133.0|||||TWO_SIDED|95.0|120.0|143.0||||||||143|120|
92177904|NCT03421340|184250769|SUPERIORITY||Median Difference (Final Values)|-10.2|||||TWO_SIDED|95.0|-11.6|-7.5||||||||-7.5|-11.6|
92177905|NCT01199133|184250793|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.01|||>|0.05||95.0|-0.41|0.43|||ANCOVA|||||0.43|-0.41|> 0.05
92177906|NCT02575950|184250794|SUPERIORITY||Mean Difference (Final Values)|-9.34|||<|0.001|TWO_SIDED|95.0|-14.71|-3.96|||ANCOVA|||Least square mean values and difference is from ANCOVA model with treatment as fixed effect and baseline total lesion count as covariate and participants as random effect. 100 simulations of monotone multiple imputation is performed. Summary statistics are found across these 100 simulations.||-3.96|-14.71|<.001
92177907|NCT04359654|184250874|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92177908|NCT04359654|184250875|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92177909|NCT04359654|184250877|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||||||0.004
92177910|NCT04359654|184250878|SUPERIORITY|||||||0.021|||||||Mixed Models Analysis|||The reported LS means are antilogs of the LS means estimated on the log scale.||||0.021
92177911|NCT03154190|184250931|SUPERIORITY||Hazard Ratio (HR)|0.3|||||TWO_SIDED|95.0|0.2|0.47|||Regression, Cox|||||0.47|0.20|
92177912|NCT03154190|184250932|SUPERIORITY||Hazard Ratio (HR)|0.48|||||TWO_SIDED|95.0|0.3|0.75|||Regression, Cox|||||0.75|0.30|
92177913|NCT03154190|184250935|SUPERIORITY||Risk Ratio (RR)|0.45|||||TWO_SIDED|95.0|0.33|0.62||||||||0.62|0.33|
92177914|NCT03154190|184250937|SUPERIORITY||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.36|0.7||||||||0.70|0.36|
92177915|NCT03154190|184250942|SUPERIORITY||Odds Ratio (OR)|4.46|||||TWO_SIDED|95.0|1.88|10.55||||||||10.55|1.88|
92177916|NCT05237284|184250945|SUPERIORITY|||||||0.6999|||||||Wilcoxon (Mann-Whitney)|||CAFS at Week 24 was analyzed using the Wilcoxon-Mann-Whitney test to compare mean scores between the treatment groups at Week 24.||||0.6999
92177917|NCT05237284|184250948|SUPERIORITY||LS Mean Difference|0.52||||0.2182|TWO_SIDED|95.0|-0.31|1.35|||MMRM|||Analysis was performed using MMRM including treatment group, visit, randomization strata of the geographic region, ALS onset region, use of riluzole, use of edaravone, use of the combination of sodium phenylbutyrate and taurursodiol, treatment-by-visit interaction, disease duration, baseline ALSFRS-R score, baseline NfL, disease duration-by-visit interaction, and baseline ALSFRS-R score-by-visit interaction.||1.350|-0.310|0.2182
92177918|NCT05237284|184250949|SUPERIORITY||LS Mean Difference|0.419||||0.8134|TWO_SIDED|95.0|-3.075|3.914|||MMRM|||Analysis was performed using MMRM including treatment group, visit, randomization strata of the geographic region, ALS onset region, use of riluzole, use of edaravone, use of the combination of sodium phenylbutyrate and taurursodiol, treatment-by-visit interaction, disease duration, baseline SVC, baseline NfL, disease duration-by-visit interaction, baseline NfL-by-visit interaction, and baseline SVC-by-visit interaction.||3.914|-3.075|0.8134
92177919|NCT05237284|184250950|SUPERIORITY||Ratio of the LS Geometric Mean Ratios|0.961||||0.2356|TWO_SIDED|95.0|0.899|1.027|||MMRM|||Analysis was performed using MMRM including treatment group, visit, randomization strata of the geographic region, ALS onset region, use of riluzole, use of edaravone, use of the combination of sodium phenylbutyrate and taurursodiol, treatment-by-visit interaction, disease duration, log transformed baseline NfL, disease duration-by-visit interaction, and log transformed baseline NfL-by-visit interaction.||1.027|0.899|0.2356
92177920|NCT05237284|184250951|SUPERIORITY||LS Mean difference|-0.005||||0.9565|TWO_SIDED|95.0|-0.193|0.183|||MMRM|||Analysis was performed using MMRM including treatment group, visit, randomization strata of the geographic region, ALS onset region, use of riluzole, use of edaravone, use of the combination of sodium phenylbutyrate and taurursodiol, treatment-by-visit interaction, disease duration, baseline megascore, baseline NfL, disease duration-by-visit interaction, baseline NfL-by-visit interaction and baseline megascore-by-visit interaction.||0.183|-0.193|0.9565
92177921|NCT05237284|184250956|SUPERIORITY||Least Square (LS) Mean Difference|-0.414||||0.5289|TWO_SIDED|95.0|-1.706|0.878|||MMRM|||Analysis was performed using MMRM including treatment group, visit, randomization strata of the geographic region, ALS onset region, use of riluzole, use of edaravone, use of the combination of sodium phenylbutyrate and taurursodiol, treatment-by-visit interaction, disease duration, baseline ALSFRS-R score, baseline serum neurofilament light chain (NfL), disease duration-by-visit interaction, baseline NfL-by-visit interaction and baseline ALSFRS-R score-by-visit interaction.||0.878|-1.706|0.5289
92177922|NCT05237284|184250957|SUPERIORITY|||||||0.183|||||||ANCOVA|||Analysis was performed using rank analysis of covariance (ANCOVA) model including treatment group, randomization strata of the geographic region of the study site, ALS onset region (bulbar or other areas), use of riluzole (yes or no), use of edaravone (yes or no), use of the combination of sodium phenylbutyrate and taurursodiol (yes or no), disease duration (from first symptom onset to the screening visit), baseline ALSFRS-R score and baseline NfL.||||0.1830
92255175|NCT00565812|184412388|SUPERIORITY_OR_OTHER||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.56||0.514|TWO_SIDED|95.0|-1.47|0.74|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.74|-1.47|0.514
92255176|NCT00565812|184412389|SUPERIORITY_OR_OTHER||LS mean difference|1.42|STANDARD_ERROR_OF_MEAN|0.62||0.023|TWO_SIDED|95.0|0.19|2.65|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.65|0.19|0.023
92255177|NCT00565812|184412389|SUPERIORITY_OR_OTHER||LS mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.62||0.391|TWO_SIDED|95.0|-0.68|1.75|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.75|-0.68|0.391
92255178|NCT00565812|184412389|SUPERIORITY_OR_OTHER||LS mean difference|1.02|STANDARD_ERROR_OF_MEAN|0.69||0.142|TWO_SIDED|95.0|-0.34|2.37|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.37|-0.34|0.142
92255179|NCT00565812|184412389|SUPERIORITY_OR_OTHER||LS mean difference|0.87|STANDARD_ERROR_OF_MEAN|0.68||0.204|TWO_SIDED|95.0|-0.47|2.21|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.21|-0.47|0.204
92255180|NCT00565812|184412396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.952||||0.875|TWO_SIDED|95.0|0.516|1.756|||Regression, Logistic|||Month 12; Odds ratio (OR), 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.756|0.516|0.875
92255181|NCT00565812|184412396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.273||||0.406|TWO_SIDED|95.0|0.721|2.247|||Regression, Logistic|||Month 12; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||2.247|0.721|0.406
92255182|NCT00565812|184412396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.787||||0.406|TWO_SIDED|95.0|0.448|1.384|||Regression, Logistic|||Month 24; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.384|0.448|0.406
92255183|NCT00565812|184412396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.154||||0.591|TWO_SIDED|95.0|0.685|1.942|||Regression, Logistic|||Month 24; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.942|0.685|0.591
92255184|NCT00565812|184412397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.704||||0.168|TWO_SIDED|95.0|0.428|1.16|||Regression, Logistic|||Month 12; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.160|0.428|0.168
92255185|NCT00565812|184412397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.893||||0.634|TWO_SIDED|95.0|0.56|1.423|||Regression, Logistic|||Month 12; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.423|0.560|0.634
92255186|NCT00565812|184412397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.583||||0.032|TWO_SIDED|95.0|0.356|0.955|||Regression, Logistic|||Month 24; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||0.955|0.356|0.032
92255187|NCT00565812|184412397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.774||||0.276|TWO_SIDED|95.0|0.489|1.227|||Regression, Logistic|||Month 24; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.227|0.489|0.276
92255188|NCT00565812|184412398|SUPERIORITY_OR_OTHER||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.09||0.709|TWO_SIDED|95.0|-0.21|0.14|||ANCOVA|||LS Mean, 95 percent CI and P-values were obtained from an analysis of covariance (ANCOVA) model, with treatment group, (collapsed) KLG, geographic region, and gender as factors and age and body mass index as covariates.||0.14|-0.21|0.709
92255189|NCT00565812|184412398|SUPERIORITY_OR_OTHER||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.09||0.798|TWO_SIDED|95.0|-0.15|0.2|||ANCOVA|||LS-Mean, 95 percent CI and P-values were obtained from an ANCOVA model, with treatment group, (collapsed) KLG, geographic region, and gender as factors and age and body mass index as covariates.||0.20|-0.15|0.798
92255190|NCT00565812|184412399|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.032||||0.81|TWO_SIDED|95.0|0.797|1.337|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, baseline JSW, age and body mass index as covariates.||1.337|0.797|0.810
92255191|NCT00565812|184412399|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.068||||0.62|TWO_SIDED|95.0|0.824|1.383|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, baseline JSW, age and body mass index as covariates.||1.383|0.824|0.620
92255192|NCT00565812|184412400|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.745||||0.047|TWO_SIDED|95.0|0.557|0.997|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||0.997|0.557|0.047
92255193|NCT00565812|184412400|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.864||||0.317|TWO_SIDED|95.0|0.65|1.15|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.150|0.650|0.317
92177923|NCT03583333|184250958|NON_INFERIORITY|Non-inferiority margin for the difference in mortality (IMI/REL minus PIP/TAZ) was 12.5%.|Adjusted difference in percentage|5.2||||0.024|TWO_SIDED|95.0|-1.5|12.4|||Miettinen & Nurminen method||Adjusted differences and the 95% confidence intervals (CIs) are based on Miettinen \& Nurminen method stratified by randomization stratum.|||12.4|-1.5|0.024
92255194|NCT00565812|184412401|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.043||||0.881|TWO_SIDED|95.0|0.602|1.806|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.806|0.602|0.881
92255195|NCT00565812|184412401|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.186||||0.525|TWO_SIDED|95.0|0.701|2.009|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||2.009|0.701|0.525
92255196|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.63||0.668|TWO_SIDED|95.0|-1.5|0.96|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.96|-1.50|0.668
92255197|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|0.62|STANDARD_ERROR_OF_MEAN|0.63||0.326|TWO_SIDED|95.0|-0.61|1.85|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.85|-0.61|0.326
92255198|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.66||0.679|TWO_SIDED|95.0|-1.56|1.01|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.01|-1.56|0.679
92255199|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|1.86|STANDARD_ERROR_OF_MEAN|0.66||0.005|TWO_SIDED|95.0|0.57|3.14|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.14|0.57|0.005
92255200|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.72||0.399|TWO_SIDED|95.0|-0.8|2.01|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.01|-0.80|0.399
92255201|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|2.52|STANDARD_ERROR_OF_MEAN|0.71|<|0.001|TWO_SIDED|95.0|1.12|3.92|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.92|1.12|<0.001
92255202|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.668|TWO_SIDED|95.0|-1.08|1.68|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.68|-1.08|0.668
92255203|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|1.76|STANDARD_ERROR_OF_MEAN|0.7||0.012|TWO_SIDED|95.0|0.39|3.13|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.13|0.39|0.012
92255204|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.75||0.109|TWO_SIDED|95.0|-0.27|2.67|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group x visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.67|-0.27|0.109
92255205|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|1.03|STANDARD_ERROR_OF_MEAN|0.74||0.163|TWO_SIDED|95.0|-0.42|2.48|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.48|-0.42|0.163
92255206|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.73||0.424|TWO_SIDED|95.0|-2.02|0.85|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.85|-2.02|0.424
92255207|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.72||0.635|TWO_SIDED|95.0|-1.07|1.76|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.76|-1.07|0.635
92255208|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.75||0.855|TWO_SIDED|95.0|-1.34|1.61|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.61|-1.34|0.855
92255209|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|1.84|STANDARD_ERROR_OF_MEAN|0.74||0.013|TWO_SIDED|95.0|0.38|3.3|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.30|0.38|0.013
92255210|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.81||0.292|TWO_SIDED|95.0|-2.44|0.73|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.73|-2.44|0.292
92255211|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.8||0.897|TWO_SIDED|95.0|-1.47|1.68|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.68|-1.47|0.897
92255212|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.84||0.39|TWO_SIDED|95.0|-2.36|0.92|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.92|-2.36|0.390
92255213|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.83||0.659|TWO_SIDED|95.0|-1.26|1.99|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.99|-1.26|0.659
92177924|NCT03583333|184250958|SUPERIORITY||Adjusted difference in percentage|5.2||||0.938|TWO_SIDED|95.0|-1.5|12.4|||Miettinen & Nurminen|Adjusted differences and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.||||12.4|-1.5|0.938
92255214|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.8||0.847|TWO_SIDED|95.0|-1.73|1.42|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.42|-1.73|0.847
92255215|NCT00565812|184412405|SUPERIORITY_OR_OTHER||LS mean difference|0.77|STANDARD_ERROR_OF_MEAN|0.8||0.333|TWO_SIDED|95.0|-0.79|2.34|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.34|-0.79|0.333
92255216|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.42||0.238|TWO_SIDED|95.0|-1.31|0.32|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.32|-1.31|0.238
92255217|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.41||0.815|TWO_SIDED|95.0|-0.72|0.91|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.91|-0.72|0.815
92255218|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|0.28|STANDARD_ERROR_OF_MEAN|0.42||0.508|TWO_SIDED|95.0|-0.54|1.1|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.10|-0.54|0.508
92255219|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.42||0.004|TWO_SIDED|95.0|0.38|2.02|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.02|0.38|0.004
92255220|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.45||0.683|TWO_SIDED|95.0|-1.07|0.7|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.70|-1.07|0.683
92255221|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|1.21|STANDARD_ERROR_OF_MEAN|0.45||0.007|TWO_SIDED|95.0|0.33|2.09|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.09|0.33|0.007
92255222|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.45||0.687|TWO_SIDED|95.0|-0.71|1.07|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.07|-0.71|0.687
92255223|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|0.89|STANDARD_ERROR_OF_MEAN|0.45||0.05|TWO_SIDED|95.0|0.0|1.78|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.78|-0.00|0.050
92283791|NCT03203447|184471435|SUPERIORITY||Difference in percentages|-7.1||||0.191|TWO_SIDED|95.0|-17.9|3.6||The a priori threshold for statistical significance was 0.050. Prior to evaluating the results of the CMH test, a Breslow-Day test with Tarone's adjustment was conducted to confirm the homogeneity of the odds ratios between RVO strata.|Cochran-Mantel-Haenszel|The CMH test was stratified by the type of retinal vein occlusion, i.e., branch vs. central.|Estimated value was calculated as the percentage of subjects in the Active arm meeting the primary endpoint minus the percentage of subjects in the Control arm meeting the primary endpoint.|Based on a Pearson chi-square test, a total sample size of approximately 460 subjects provided 90% power to detect a difference of 15% between the Active and Control arms assuming the Control arm showed a proportion of 0.50 at 8 weeks. The primary analysis was a test of superiority of the Active arm over the Control arm, and was based on a Cochran-Mantel-Haenszel chi-square test stratified by type of retinal vein occlusion.||3.6|-17.9|0.191
92283792|NCT00445003|184471444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.6|||<|0.001|TWO_SIDED|95.0|2.2|9.0||adjusted for baseline visual acuity, number of planned panretinal photocoagulation sittings, and correlation between two study eyes|ANCOVA||adjusted for multiple comparison|||9.0|2.2|<.001
92283793|NCT00445003|184471444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|||<|0.001|TWO_SIDED|95.0|3.2|10.1||adjusted for baseline visual acuity, number of planned panretinal photocoagulation sittings, and correlation between two study eyes|ANCOVA||adjusted for multiple comparisons|||10.1|3.2|<.001
92283794|NCT00445003|184471446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.0|||<|0.01|TWO_SIDED|95.0|-64.0|-6.0||Adjusted for baseline optical coherence tomography retinal thickness and visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||-6|-64|<.01
92283795|NCT00445003|184471446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-100.0|||<|0.001|TWO_SIDED|95.0|-128.0|-71.0||adjusted for baseline optical coherence tomography retinal thickness and visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||-71|-128|<.001
92283796|NCT00445003|184471448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9||||0.44|TWO_SIDED|95.0|-3.7|7.5||Adjusted for baseline visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||7.5|-3.7|0.44
92283797|NCT00445003|184471448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.63|TWO_SIDED|95.0|-4.4|6.8||Adjusted for baseline visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||6.8|-4.4|0.63
92177925|NCT03583333|184250959|OTHER||Adjusted difference in percentage|3.1|||||TWO_SIDED|95.0|-8.7|14.9|||||Adjusted differences and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||14.9|-8.7|
92255224|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.48||0.215|TWO_SIDED|95.0|-0.35|1.54|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.54|-0.35|0.215
92255225|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|0.96|STANDARD_ERROR_OF_MEAN|0.47||0.042|TWO_SIDED|95.0|0.03|1.89|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.89|0.03|0.042
92255226|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.5||0.401|TWO_SIDED|95.0|-1.41|0.56|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.56|-1.41|0.401
92177926|NCT03583333|184250960|OTHER||Adjusted difference in percentage|2.2|||||TWO_SIDED|95.0|-12.4|16.8|||||Adjusted difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||16.8|-12.4|
92177927|NCT03583333|184250961|OTHER||Adjusted difference in percentage|3.4|||||TWO_SIDED|95.0|-7.6|14.3|||||Adjusted difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||14.3|-7.6|
92283798|NCT00445003|184471451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.001|TWO_SIDED|95.0|-1.0|-0.2||adjusted for baseline retinal volume, optical coherence tomography retinal thickness and visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||-0.2|-1.0|0.001
92283799|NCT00445003|184471451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.1|-1.3||adjusted for baseline retinal volume, optical coherence tomography retinal thickness and visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||-1.3|-2.1|<.001
92283800|NCT00528606|184471453|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||p-value based on Cochran-Mantel-Haenszel test comparing treatment groups, stratified by baseline severity group and joint type.||||<0.001
92283801|NCT04006171|184471708|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92255227|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.5||0.98|TWO_SIDED|95.0|-0.96|0.99|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.99|-0.96|0.980
92255228|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.51||0.632|TWO_SIDED|95.0|-1.25|0.76|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.76|-1.25|0.632
92255229|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|1.08|STANDARD_ERROR_OF_MEAN|0.51||0.032|TWO_SIDED|95.0|0.09|2.07|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.07|0.09|0.032
92255230|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.54||0.668|TWO_SIDED|95.0|-1.29|0.83|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.83|-1.29|0.668
92255231|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|1.11|STANDARD_ERROR_OF_MEAN|0.54||0.038|TWO_SIDED|95.0|0.06|2.16|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.16|0.06|0.038
92255232|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.53||0.868|TWO_SIDED|95.0|-1.13|0.95|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.95|-1.13|0.868
92255233|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|0.59|STANDARD_ERROR_OF_MEAN|0.52||0.257|TWO_SIDED|95.0|-0.43|1.62|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.62|-0.43|0.257
92177928|NCT03583333|184250962|OTHER||Adjusted difference in percentage|-4.7|||||TWO_SIDED|95.0|-15.8|6.6|||||Adjusted difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||6.6|-15.8|
92255234|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.55||0.895|TWO_SIDED|95.0|-1.0|1.15|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.15|-1.00|0.895
92255235|NCT00565812|184412406|SUPERIORITY_OR_OTHER||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.54||0.268|TWO_SIDED|95.0|-0.46|1.67|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.67|-0.46|0.268
92255236|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.44||0.908|TWO_SIDED|95.0|-0.92|0.82|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.82|-0.92|0.908
92255237|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|0.44||0.008|TWO_SIDED|95.0|-2.05|-0.31|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.31|-2.05|0.008
92255238|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.46||0.44|TWO_SIDED|95.0|-1.25|0.54|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.54|-1.25|0.440
92255239|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.46||0.14|TWO_SIDED|95.0|-1.57|0.22|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.22|-1.57|0.140
92255240|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.46||0.474|TWO_SIDED|95.0|-0.58|1.24|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.24|-0.58|0.474
92283802|NCT04006171|184471709|OTHER|||||||0.004|||||||Roc curve|||||||0.004
92255241|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.46||0.376|TWO_SIDED|95.0|-1.32|0.5|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.50|-1.32|0.376
92255242|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|0.66|STANDARD_ERROR_OF_MEAN|0.5||0.186|TWO_SIDED|95.0|-0.32|1.64|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.64|-0.32|0.186
92255243|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.5||0.185|TWO_SIDED|95.0|-1.63|0.32|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.32|-1.63|0.185
92255244|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.52||0.334|TWO_SIDED|95.0|-1.53|0.52|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.52|-1.53|0.334
92255245|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|0.52||0.055|TWO_SIDED|95.0|-2.0|0.02|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.02|-2.00|0.055
92255246|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.54||0.539|TWO_SIDED|95.0|-1.38|0.72|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.72|-1.38|0.539
92255247|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-1.26|STANDARD_ERROR_OF_MEAN|0.53||0.018|TWO_SIDED|95.0|-2.3|-0.22|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.22|-2.30|0.018
92255248|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.53||0.365|TWO_SIDED|95.0|-1.52|0.56|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.56|-1.52|0.365
92255249|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.52||0.403|TWO_SIDED|95.0|-1.47|0.59|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.59|-1.47|0.403
92255250|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-1.32|STANDARD_ERROR_OF_MEAN|0.57||0.02|TWO_SIDED|95.0|-2.43|-0.21|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.21|-2.43|0.020
92255251|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-1.87|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|-2.98|-0.77|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.77|-2.98|<0.001
92177929|NCT03583333|184250963|OTHER||Adjusted difference in percentage|-2.4|||||TWO_SIDED|95.0|-17.8|13.1|||||Adjusted differences and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||13.1|-17.8|
92255252|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.54||0.269|TWO_SIDED|95.0|-1.66|0.46|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.46|-1.66|0.269
92255253|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.54||0.104|TWO_SIDED|95.0|-1.92|0.18|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.18|-1.92|0.104
92255254|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|0.57||0.038|TWO_SIDED|95.0|-2.3|-0.06|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.06|-2.30|0.038
92255255|NCT00565812|184412407|SUPERIORITY_OR_OTHER||LS mean difference|-1.16|STANDARD_ERROR_OF_MEAN|0.57||0.041|TWO_SIDED|95.0|-2.28|-0.05|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.05|-2.28|0.041
92255256|NCT02667392|184412425|OTHER|||||||0.77||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.77
92255257|NCT02667392|184412426|OTHER|||||||0.61||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.61
92255258|NCT02667392|184412427|OTHER|||||||0.28||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.28
92255259|NCT02667392|184412428|OTHER|||||||0.002||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.002
92255260|NCT02667392|184412429|OTHER|||||||0.02||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.02
92255261|NCT02667392|184412430|OTHER|||||||0.03||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.03
92255262|NCT02667392|184412431|OTHER|||||||0.55||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.55
92255263|NCT02667392|184412432|OTHER|a priori threshold for statistical significance set at p \< 0.05||||||0.0089|||||||t-test, 2 sided|||||||0.0089
92255264|NCT02667392|184412433|OTHER|a priori threshold for statistical significance set at p \< 0.05||||||0.73|||||||t-test, 2 sided|||||||0.73
92255265|NCT02667392|184412434|OTHER|a priori threshold for statistical significance set at p \< 0.05||||||0.81|||||||t-test, 2 sided|||||||0.81
92255266|NCT02667392|184412435|OTHER|||||||0.02||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.02
92255267|NCT02896192|184412436|OTHER||CI||||<|0.0001||||||One-sided p-value obtained from exact binomial test, testing that at least 5% of participants in the population of interest would achieve 10% weight loss.|Exact binomial test|||||||<0.0001
92177930|NCT03583333|184250964|OTHER||Adjusted difference in percentage|1.4|||||TWO_SIDED|95.0|-16.5|19.8|||||Adjusted difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||19.8|-16.5|
92255268|NCT02896192|184412437|OTHER||||||<|0.0001||||||One-sided p-value obtained from exact binomial test, testing that at least 5% of participants in the population of interest would achieve 10% weight loss.|Exact binomial test|||||||<0.0001
92255269|NCT02896192|184412438|OTHER||Least Squares Mean|-25.73|||<|0.0001|TWO_SIDED|90.0|-28.49|-22.98|||Longitudinal mixed analysis of variance|||Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for visit, baseline body weight and random effect for participant, one sided p-value from model.||-22.98|-28.49|<0.0001
92177931|NCT03583333|184250965|OTHER||Adjusted difference in percentage|-3.1|||||TWO_SIDED|95.0|-19.8|14.4|||||Adjusted difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||14.4|-19.8|
92255270|NCT02896192|184412439|OTHER||Least Squares Mean|-27.77||||0.0005|TWO_SIDED|90.0|-40.58|-14.96|||Longitudinal mixed analysis of variance|||Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for week, baseline daily hunger score and random effect for participant, one sided p-value from model.||-14.96|-40.58|0.0005
92255271|NCT02896192|184412440|OTHER|||||||0.0004||||||One-sided p-value obtained from exact binomial test, testing that ≥ 5% of participants in the population of interest would achieve ≥ 25% improvement in daily hunger score.|Exact binomial test|||||||0.0004
92255272|NCT02896192|184412441|OTHER||Least Squares Mean|-18.1|||<|0.0001|TWO_SIDED|90.0|-21.27|-14.88|||Longitudinal mixed analysis of variance|||Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for visit, baseline waist circumference and random effect for participant, one sided p-value from model.||-14.88|-21.27|<0.0001
92255273|NCT02896192|184412444|OTHER||Least Squares Mean|-27.4|||<|0.0001|TWO_SIDED|90.0|-30.6|-24.29|||Longitudinal mixed analysis of variance|||Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for week, baseline BMI and random effect for participant, one sided p-value from model.||-24.29|-30.60|<0.0001
92255274|NCT00383708|184412449|OTHER||||||<|0.0001|||||||Exact test|One-sided p value||The percentage of subjects (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||<0.0001
92255275|NCT00383708|184412450|OTHER|||||||0.1654||||||One-sided p value|Exact test|||The percentage of subjects in the subgroup previously treated with pegvisomant (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||0.1654
92283803|NCT04006171|184471710|OTHER|||||||0.171||||||p value for FSH|Wilcoxon (Mann-Whitney)|for FSH||||||0.171
92283804|NCT04006171|184471710|OTHER|||||||0.176||||||p value for LH|Wilcoxon (Mann-Whitney)|for LH||||||0.176
92283805|NCT04006171|184471711|OTHER|||||||0.306|||||||Wilcoxon (Mann-Whitney)|||||||0.306
92255276|NCT00383708|184412450|OTHER|||||||0.0115||||||One-sided p value|Exact test|||The percentage of subjects in the subgroup previously treated with lanreotide Autogel (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||0.0115
92255277|NCT00383708|184412450|OTHER|||||||0.0003||||||One-sided p value|Exact test|||The percentage of subjects in the subgroup previously treated with octreotide LAR (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||0.0003
92255278|NCT00383708|184412451|OTHER|||||||0.084||||||One-sided p value|Exact test|||The percentage of subjects in the subgroup diabetic subjects (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||0.084
92177932|NCT03583333|184250966|OTHER||Adjusted difference in percentage|2.0|||||TWO_SIDED|95.0|-6.5|10.6|||||Difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||10.6|-6.5|
92177933|NCT03583333|184250967|OTHER||Adjusted difference in percentage|-4.4|||||TWO_SIDED|95.0|-10.7|1.4|||||Difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||1.4|-10.7|
92177934|NCT03926130|184250968|SUPERIORITY||Risk Difference (RD)|28.7|||<|1e-06|TWO_SIDED|95.0|23.0|34.4|||Cochran-Mantel-Haenszel|||||34.4|23.0|<0.000001
92177935|NCT03926130|184250969|SUPERIORITY||Risk Difference (RD)|25.8|||<|1e-06|TWO_SIDED|95.0|18.8|32.7|||Cochran-Mantel-Haenszel|||||32.7|18.8|<0.000001
92255279|NCT00383708|184412451|OTHER||||||<|0.0001||||||One-sided p value|Exact test|||The percentage of subjects in the subgroup non diabetic subjects (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||<0.0001
92255280|NCT00383708|184412452|OTHER||||||<|0.0001||||||One-sided p-value|Exact test|||The percentage of subjects in the subgroup 'while taking final dose during co-administration' (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||<0.0001
92255281|NCT00383708|184412452|OTHER||||||<|0.0001||||||One-sided p-value|Exact test|||The percentage of subjects in the subgroup 'at any time during co-administration' (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||<0.0001
92255282|NCT02820038|184412487|SUPERIORITY||Odds Ratio (OR)|1.08||||0.8408|TWO_SIDED|95.0|0.52|2.24|||Regression, Logistic|Regression model adjusted for whether participant met criteria for informed decision making at baseline.|Modeled probability of meeting criteria for informed decision making at the 6-month follow-up. Independent variable coded: 0=Other Consumer Medication Information (CMI) Only, Other CMI+SMART, DrugFactsBox® (DFB) Only; 1=DFB+SMART|The investigators hypothesized that participants would be more likely to meet the criteria for Informed Decision-Making at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||2.24|0.52|0.8408
92255283|NCT02820038|184412487|SUPERIORITY||Odds Ratio (OR)|1.18||||0.58|TWO_SIDED|95.0|0.66|2.12|||Regression, Logistic|Regression model adjusted for whether participant met criteria for informed decision making at baseline.|Modeled probability of meeting criteria for informed decision making at the 6-month follow-up. Independent variable coded: 0=Other CMI Only or Other CMI+SMART, 1=DFB or DFB + SMART|The investigators hypothesized that participants would be more likely to meet the criteria for Informed Decision-Making at the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||2.12|0.66|0.58
92255284|NCT02820038|184412487|SUPERIORITY||Odds Ratio (OR)|1.48||||0.1937|TWO_SIDED|95.0|0.82|2.68|||Regression, Logistic|Regression model adjusted for whether participant met criteria for informed decision making at baseline.|Modeled probability of meeting criteria for informed decision making at the 6-month follow-up. Independent variable coded: 0=Other CMI Only or DFB Only, 1=Other CMI + SMART or DFB+SMART.|The investigators hypothesized that participants would be more likely to meet the criteria for Informed Decision-Making at the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||2.68|0.82|0.1937
92255285|NCT02820038|184412487|SUPERIORITY||Odds Ratio (OR)|2.379||||0.0193|TWO_SIDED|95.0|1.15|4.92|||Regression, Logistic|Sample restricted to participants who did not meet the criteria for informed decision making at baseline.|Modeled probability of meeting criteria for informed decision making at the 6-month follow-up. Independent variable coded: 0=Other CMI Only or DFB Only, 1=Other CMI + SMART or DFB+SMART.|In this analysis, participants were restricted to those who did not meet criteria for informed decision-making at baseline.||4.92|1.15|0.0193
92255286|NCT02820038|184412487|SUPERIORITY||Odds Ratio (OR)|0.53||||0.2216|TWO_SIDED|95.0|0.19|1.48|||Regression, Logistic||Modeled probability of meeting criteria for informed decision making at the 6-month follow-up. Independent variable coded: 0=Other CMI Only or DFB Only, 1=Other CMI + SMART or DFB+SMART.|In this analysis, participants were restricted to those who met the criteria for informed decision-making at baseline.||1.48|0.19|0.2216
92283806|NCT04006171|184471712|OTHER|||||||0.795|||||||Wilcoxon (Mann-Whitney)|||||||0.795
92283807|NCT04006171|184471713|OTHER|||||||0.852|||||||t-test, 2 sided|||||||0.852
92177936|NCT03926130|184250970|SUPERIORITY||Risk Difference (RD)|19.7|||<|1e-06|TWO_SIDED|95.0|13.7|25.6|||Cochran-Mantel-Haenszel|||||25.6|13.7|<0.000001
92177937|NCT03926130|184250971|SUPERIORITY||Risk Difference (RD)|39.1|||<|1e-06|TWO_SIDED|95.0|33.4|44.8|||Cochran-Mantel-Haenszel|||||44.8|33.4|<0.000001
92177938|NCT03926130|184250971|SUPERIORITY||Risk Difference (RD)|2.3||||0.513623|TWO_SIDED|95.0|-4.7|9.3|||Cochran-Mantel-Haenszel|||||9.3|-4.7|0.513623
92283808|NCT04006171|184471714|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92283809|NCT04006171|184471715|OTHER|||||||0.277|||||||Wilcoxon (Mann-Whitney)|||||||0.277
92283810|NCT04006171|184471716|OTHER|||||||0.006|||||||t-test, 2 sided|||||||0.006
92283811|NCT04006171|184471717|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92177939|NCT03926130|184250972|SUPERIORITY||Risk Difference (RD)|12.4||||0.001431|TWO_SIDED|95.0|5.3|19.6|||Cochran-Mantel-Haenszel|||||19.6|5.3|0.001431
92177940|NCT03926130|184250973|SUPERIORITY||Risk Difference (RD)|34.6|||<|1e-06|TWO_SIDED|95.0|27.7|41.4|||Cochran-Mantel-Haenszel|||||41.4|27.7|<0.000001
92177941|NCT03926130|184250973|NON_INFERIORITY|The non-inferiority margin is 10%. We do not have power calculation in the SAP for this endpoint.|Risk Difference (RD)|5.7|||<|0.0001|TWO_SIDED|95.0|-1.4|12.8|||Z test|||||12.8|-1.4|<0.0001
92177942|NCT03926130|184250974|SUPERIORITY||Risk Difference (RD)|6.8||||0.003414|TWO_SIDED|95.0|3.2|10.5|||Cochran-Mantel-Haenszel|||||10.5|3.2|0.003414
92177943|NCT03926130|184250975|SUPERIORITY||LSMean Difference (Net)|-0.86||||1.1e-05|TWO_SIDED|95.0|-1.24|-0.48|||ANCOVA|||||-0.48|-1.24|0.000011
92177944|NCT03926130|184250976|SUPERIORITY||LSMean Difference (Net)|-2.01|||<|1e-06|TWO_SIDED|95.0|-2.42|-1.6|||ANCOVA|||||-1.60|-2.42|<0.000001
92177945|NCT03926130|184250977|SUPERIORITY||Risk Difference (RD)|25.7|||<|1e-06|TWO_SIDED|95.0|18.9|32.6|||Cochran-Mantel-Haenszel|||||32.6|18.9|<0.000001
92177946|NCT03926130|184250978|SUPERIORITY||Risk Difference (RD)|13.8|||<|1e-06|TWO_SIDED|95.0|10.2|17.4|||Cochran-Mantel-Haenszel|||||17.4|10.2|<0.000001
92177947|NCT03926130|184250979|SUPERIORITY||Risk Difference (RD)|25.0|||<|1e-06|TWO_SIDED|95.0|18.2|31.8|||Cochran-Mantel-Haenszel|||||31.8|18.2|<0.000001
92177948|NCT03926130|184250980|SUPERIORITY||LSMean Difference (Net)|-0.85|||<|1e-06|TWO_SIDED|95.0|-1.05|-0.65|||ANCOVA|||||-0.65|-1.05|<0.000001
92255287|NCT02820038|184412488|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-1.83|STANDARD_ERROR_OF_MEAN|1.32||0.163|TWO_SIDED|95.0|-1.83|0.75|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in knowledge between baseline and the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.75|-1.83|0.1630
92283812|NCT04006171|184471718|OTHER|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
92177949|NCT03926130|184250981|SUPERIORITY||LSMean Difference (Net)|-1.22|||<|1e-06|TWO_SIDED|95.0|-1.48|-0.95|||ANCOVA|||||-0.95|-1.48|<0.000001
92177950|NCT03926130|184250982|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92177951|NCT03926130|184250983|SUPERIORITY||Risk Difference (RD)|4.1||||0.732715|TWO_SIDED|95.0|-18.0|26.1|||Cochran-Mantel-Haenszel|||||26.1|-18.0|0.732715
92177952|NCT03926130|184250984|SUPERIORITY||LSMean Difference (Net)|27.92|||<|1e-06|TWO_SIDED|95.0|22.67|33.18|||ANCOVA|||||33.18|22.67|<0.000001
92177953|NCT03926130|184250986|SUPERIORITY||Risk Difference (RD)|10.6||||0.000213|TWO_SIDED|99.5|4.1|17.2|||Cochran-Mantel-Haenszel|||||17.2|4.1|0.000213
92177954|NCT03926130|184250987|SUPERIORITY||Risk Difference (RD)|19.4|||<|1e-06|TWO_SIDED|99.5|13.1|25.7|||Cochran-Mantel-Haenszel|||||25.7|13.1|<0.000001
92177955|NCT04204083|184251005|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
92177956|NCT04204083|184251006|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
92177957|NCT04204083|184251007|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
92177958|NCT04934072|184251061|NON_INFERIORITY|Non-inferiority of FKS518 to US-Prolia was demonstrated if the 90% CI for the difference in mean percent change from baseline to Week 52 in LS-BMD laid entirely above -1.45%.|Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.306|||TWO_SIDED|90.0|-0.05|0.96|||||Difference : FKS518 - US-Prolia|||0.96|-0.05|
92177959|NCT04934072|184251061|OTHER|Non-superiority Analysis: Non-superiority of FKS518 to US-Prolia was demonstrated if the 90% CI for the difference in mean percent change from baseline to Week 52 in LS-BMD laid entirely below 1.45%.|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.306|||TWO_SIDED|90.0|0.19|1.2|||||Difference : FKS518 - US-Prolia|||1.20|0.19|
92177960|NCT05736458|184251190|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.66|TWO_SIDED||||||t-test, 2 sided|||Of the 23 participants who completed all study procedures, 2 participant's data was unusable for this analysis. Statistics are from paired 2 tailed t-test comparing pre-rTMS 2-back percent accuracy scores for participant's high and low controllability target.||||0.66
92177961|NCT05736458|184251191|SUPERIORITY||Mean Difference (Final Values)|1.94||||0.43|TWO_SIDED||||||t-test, 2 sided|df = 19||Statistics are from 2-tailed t-test comparing pre-rTMS to post-rTMS 2-back accuracy scores for a high controllability TMS target. Alternative hypothesis: true mean is not equal to 0.||||0.43
92177962|NCT05736458|184251191|SUPERIORITY||Mean Difference (Final Values)|6.36|||<|0.04|TWO_SIDED||||||t-test, 2 sided|df = 20||Statistics are from 2-tailed t-test comparing pre-rTMS and post-rTMS 2-back percent accuracy scores for a low controllability TMS target. Alternative hypothesis: true mean is not equal to 0.||||<0.04
92177963|NCT05736458|184251192|SUPERIORITY||Mean Difference (Final Values)|11.54|||<|0.05|TWO_SIDED||||||t-test, 2 sided|df = 11||Statistics are from 2-tailed paired t-test comparing 2-back accuracy score before and after rTMS to a high controllability target. Alternative hypothesis: true mean is not equal to 0.||||<0.05
92177964|NCT05736458|184251193|SUPERIORITY||Mean Difference (Net)|-4.42||||0.27|TWO_SIDED||||||t-test, 2 sided|df = 19||Statistics are from paired 2 tailed t-test comparing 2-back percent changes (Post-rTMS - pre-rTMS) scores for participant's high and low controllability target. Alternative hypothesis: true mean is not equal to 0.||||0.27
92265287|NCT02129192|184432019|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-inf of the two treatments was within the pre-specified acceptance range (80%-125%).|Adjusted geometric mean ratio (%)|99.62|||||TWO_SIDED|90.0|96.32|103.04|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for telmisartan 80 mg||103.04|96.32|
92283813|NCT04006171|184471719|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92283814|NCT04006171|184471720|OTHER|||||||0.947||||||for serum glucose|Wilcoxon (Mann-Whitney)|for serum glucose||||||0.947
92283815|NCT04006171|184471720|OTHER|||||||0.906||||||for total cholesterol|Wilcoxon (Mann-Whitney)|for total cholesterol||||||0.906
92283816|NCT04006171|184471720|OTHER|||||||0.428||||||for triglycerides|Wilcoxon (Mann-Whitney)|for triglycerides||||||0.428
92255288|NCT02820038|184412488|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|1.05||0.7892|TWO_SIDED|95.0|-2.33|1.77|||Regression, Linear|||The investigators hypothesized that participants would exhibit a greater increase in knowledge between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.|Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|1.77|-2.33|0.7892
92255289|NCT02820038|184412488|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-2.19|STANDARD_ERROR_OF_MEAN|1.05||0.0377|TWO_SIDED|95.0|-4.25|-0.13|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in knowledge between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||-0.13|-4.25|0.0377
92255290|NCT02820038|184412489|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.53||0.9216|TWO_SIDED|95.0|-0.98|1.08|||Regression, Linear|||The investigators hypothesized that participants would exhibit a greater increase in values favorable to aggressive therapy between baseline and the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.|Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|1.08|-0.98|0.9216
92255291|NCT02820038|184412489|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.36|STANDARD_ERROR_OF_MEAN|0.42||0.3843|TWO_SIDED|95.0|-0.45|1.17|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in values favoring aggressive therapy between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||1.17|-0.45|0.3843
92255292|NCT02820038|184412489|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.27|STANDARD_ERROR_OF_MEAN|0.42||0.509|TWO_SIDED|95.0|-0.54|1.09|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in values favoring aggressive therapy between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||1.09|-0.54|0.5090
92255293|NCT02820038|184412490|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.23||0.1486|TWO_SIDED|95.0|-0.77|0.12|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in gist reasoning ability at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.12|-0.77|0.1486
92255294|NCT02820038|184412490|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.18||0.4888|TWO_SIDED|95.0|-0.47|0.22|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in gist reasoning ability between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.22|-0.47|0.4888
92177965|NCT02990338|184251194|SUPERIORITY|A closed test procedure was used to control the type I error rate meaning no further testing would be performed unless the significance level had been reached on PFS.|Hazard Ratio (HR)|0.596||||0.0005|TWO_SIDED|95.0|0.436|0.814||One-sided p-value based on Stratified log-rank test. Threshold for statistical significance at 0.025.|Log Rank|Stratification was based on age (\<75 years versus \>=75 years) and number of previous lines of therapy (2 or 3 versus \>3) according to IRT.|Stratification was based on age (\<75 years versus \>=75 years) and number of previous lines of therapy (2 or 3 versus \>3) according to IRT.|Confidence interval (CI) for Kaplan-Meier estimates were calculated with log-log transformation of survival function and methods of Brookmeyer and Crowley.||0.814|0.436|0.0005
92255295|NCT02820038|184412490|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.18||0.8637|TWO_SIDED|95.0|-0.32|0.38|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in gist reasoning ability between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.38|-0.32|0.8637
92283817|NCT04006171|184471721|OTHER|||||||0.114||||||for high density lipoprotein|t-test, 2 sided|||||||0.114
92283818|NCT04006171|184471721|OTHER|||||||0.504||||||for low density lipoprotein|Wilcoxon (Mann-Whitney)|for low density lipoprotein||||||0.504
92283819|NCT04006171|184471722|OTHER|||||||0.713|||||||Wilcoxon (Mann-Whitney)|||||||0.713
92283820|NCT04006171|184471723|OTHER|||||||0.886|||||||Wilcoxon (Mann-Whitney)|||||||0.886
92255296|NCT02820038|184412491|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.25||0.507|TWO_SIDED|95.0|-0.33|0.66|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater gist reasoning ability at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.66|-0.33|0.5070
92255297|NCT02820038|184412491|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.19||0.4821|TWO_SIDED|95.0|-0.25|0.52|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in gist reasoning ability between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.52|-0.25|0.4821
92283821|NCT00891293|184471749|SUPERIORITY_OR_OTHER||Median Difference (Net)|3.3|STANDARD_DEVIATION|29.01||0.9999||95.0|-2.8|9.4|||ANOVA||Difference Between Percent Change from LOV111859/OM5 Baseline to LOV111860/OM5X End-of-Treatment and Percent Change from LOV111859/OM5 Baseline to LOV111821/OM5XX End-of-Treatment|For the MITT analysis, the method of last observation carried forward (LOCF) was applied. The LOCF is the value of a previous non-baseline visit (post-enrollment) carried forward to the subsequent visit, if missing.||9.4|-2.8|0.9999
92177966|NCT02990338|184251195|SUPERIORITY|A closed test procedure was used to control the type I error rate meaning no further testing would be performed unless the significance level had been reached on PFS.|||||<|0.0001||||||Threshold for statistical significance at 0.025.|Cochran-Mantel-Haenszel|One sided p-value was stratified based on age (\<75 years versus \>=75 years) and number of previous lines (2 or 3 versus \>3) according to IRT.||||||<0.0001
92177967|NCT02990338|184251199|SUPERIORITY|A closed test procedure was used to control the type I error rate meaning no further testing would be performed unless the significance level had been reached on PFS.|Hazard Ratio (HR)|0.776||||0.0319|TWO_SIDED|95.0|0.594|1.015||One-sided significance level was 0.02 using the O'Brien-Fleming alpha spending function.|Log Rank|Stratified on age (\<75 years versus \>=75 years) and number of previous lines of therapy (2 or 3 versus \> 3) according to IRT.|Stratified on age (\<75 years versus \>=75 years) and number of previous lines of therapy (2 or 3 versus \> 3) according to IRT.|||1.015|0.594|0.0319
92177968|NCT04011644|184251218|SUPERIORITY|||||||0.688|||||||Mixed Models Analysis|Quanbeck,A.et al. A randomized trial testing digital medicine support models for mild-to-moderate alcohol use disorder. npj Digit. Med.7,248(2024)||||||0.688
92177969|NCT04011644|184251219|SUPERIORITY|||||||0.261|||||||Mixed Models Analysis|||||||0.261
92177970|NCT04011644|184251220|SUPERIORITY|||||||0.014|||||||Mixed Models Analysis|||||||0.014
92255298|NCT02820038|184412491|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.2||0.7777|TWO_SIDED|95.0|-0.33|0.44|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in gist reasoning ability between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.44|-0.33|0.7777
92255299|NCT02820038|184412492|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.64||0.6084|TWO_SIDED|95.0|-0.93|1.58|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in satisfaction at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||1.58|-0.93|0.6084
92255300|NCT02820038|184412492|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.26|STANDARD_ERROR_OF_MEAN|0.5||0.597|TWO_SIDED|95.0|-0.71|1.23|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in satisfaction between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||1.23|-0.71|0.5970
92177971|NCT04011644|184251222|SUPERIORITY|||||||0.908|||||||ANCOVA|||A univariate analysis (Analysis of Covariance or ANCOVA) was conducted to compare the number of hospital days among the three groups controlling for baseline assessment of the dependent variable and design factors (i.e., Sex and Severity).||||0.908
92177972|NCT04011644|184251224|SUPERIORITY|||||||0.206|||||||ANCOVA|||A univariate analysis (Analysis of Covariance or ANCOVA) was conducted to compare the number of hospital days among the three groups controlling for baseline assessment of the dependent variable and design factors (i.e., Sex and Severity).||||0.206
92177973|NCT04011644|184251225|SUPERIORITY|||||||0.104|||||||ANCOVA|||A univariate analysis (Analysis of Covariance or ANCOVA) was conducted to compare the number of hospital days among the three groups controlling for baseline assessment of the dependent variable and design factors (i.e., Sex and Severity).||||0.104
92177974|NCT04011644|184251226|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92177975|NCT04011644|184251227|SUPERIORITY|||||||0.025|||||||Mixed Models Analysis|||||||0.025
92177976|NCT04011644|184251228|SUPERIORITY|||||||0.555|||||||Mixed Models Analysis|||||||0.555
92177977|NCT04011644|184251229|SUPERIORITY|||||||0.131|||||||Kruskal-Wallis|||||||0.131
92177978|NCT04011644|184251233|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|||||||0.02
92177979|NCT03334695|184251277|SUPERIORITY|||||||0.012|||||||Wilcoxon Rank Sum test|||||||0.012
92177980|NCT04271046|184251322|OTHER|||||||0.97|||||||Regression, Linear|||||||0.97
92177981|NCT04271046|184251323|OTHER|||||||0.55|||||||Regression, Linear|||||||0.55
92177982|NCT04271046|184251324|OTHER|||||||0.26|||||||Regression, Linear|||||||0.26
92177983|NCT04271046|184251325|OTHER|||||||0.42|||||||Regression, Linear|||||||0.42
92177984|NCT04271046|184251332|OTHER|||||||0.08|||||||Regression, Linear|||||||0.08
92177985|NCT04271046|184251333|OTHER|||||||0.79|||||||Regression, Linear|||||||0.79
92177986|NCT04271046|184251334|OTHER|||||||0.6|||||||Regression, Linear|||||||0.60
92177987|NCT04271046|184251335|OTHER|||||||0.86|||||||Regression, Linear|||||||0.86
92177988|NCT04271046|184251336|OTHER|||||||0.46|||||||Regression, Linear|||||||0.46
92255301|NCT02820038|184412492|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.5||0.5094|TWO_SIDED|95.0|-0.65|1.31|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in satisfaction between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||1.31|-0.65|.5094
92255302|NCT02820038|184412493|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-1.48|STANDARD_ERROR_OF_MEAN|2.74||0.5866|TWO_SIDED|95.0|-6.85|3.89|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in satisfaction at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||3.89|-6.85|0.5866
92255303|NCT02820038|184412493|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|2.13||0.8689|TWO_SIDED|95.0|-3.82|4.52|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in satisfaction between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||4.52|-3.82|0.8689
92265288|NCT02129192|184432019|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-inf of the two treatments was within the pre-specified acceptance range (80%-125%).|Adjusted geometric mean ratio (%)|101.21|||||TWO_SIDED|90.0|99.59|102.87|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for amlodipine 5 mg||102.87|99.59|
92255304|NCT02820038|184412493|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|1.66|STANDARD_ERROR_OF_MEAN|2.14||0.4356|TWO_SIDED|95.0|-2.53|5.86|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in satisfaction between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||5.86|-2.53|.4356
92255305|NCT02820038|184412494|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|3.48|STANDARD_ERROR_OF_MEAN|2.95||0.2366|TWO_SIDED|95.0|-2.3|9.26|||Regression, Linear|||The investigators hypothesized that participants would exhibit greater increases in self-efficacy at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||9.26|-2.30|0.2366
92255306|NCT02820038|184412494|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|2.29||0.8841|TWO_SIDED|95.0|-4.16|4.83|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in self-efficacy between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||4.83|-4.16|0.8841
92255307|NCT02820038|184412494|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|1.45|STANDARD_ERROR_OF_MEAN|2.3||0.5264|TWO_SIDED|95.0|-3.05|5.95|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in self-efficacy between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||5.95|-3.05|0.5264
92255308|NCT02820038|184412495|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|2.19||0.9604|TWO_SIDED|95.0|-4.4|4.18|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in medication adherence at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||4.18|-4.40|0.9604
92255309|NCT02820038|184412495|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-3.62|STANDARD_ERROR_OF_MEAN|1.64||0.0279|TWO_SIDED|95.0|-6.84|-0.4|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in adherence between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||-0.40|-6.84|0.0279
92255310|NCT02820038|184412495|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|3.92|STANDARD_ERROR_OF_MEAN|1.66||0.0184|TWO_SIDED|95.0|0.67|7.18|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in medication adherence between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||7.18|0.67|0.0184
92283822|NCT00440557|184471772|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a difference in the mean change in Hb from baseline to the average of the last 8 weeks of treatment through Week 22 of -0.3 g/dL between standard-tx group (TIW) and test-tx group (QW), a pooled standard deviation of 1.7 g/dL, and a noninferiority margin of 1 g/dL, a sample size of approximately 250 participants (125 per group) will provide 90% power to demonstrate that the test treatment group is not inferior to the standard-treatment group for an overall 2-sided 0.05 significance level|Difference of Least Squares Means|-0.17|STANDARD_ERROR_OF_MEAN|0.106||||95.0|-0.38|0.037||This comparison between QW and TIW was performed prior to comparing Q2W with TIW in the statistical analysis 2 according to a planned stepdown procedure for controlling multiplicity.||||The null hypothesis is the mean change in Hb concentration from baseline to the average of the last 8 weeks of treatment (tX) through Week 22 in the QW group is not lower than that of the TIW group by more than 1 g/dL.||0.037|-0.380|
92177989|NCT04271046|184251337|OTHER|||||||0.55|||||||Regression, Linear|||||||0.55
92177990|NCT04271046|184251338|OTHER|||||||0.63|||||||Regression, Linear|||||||0.63
92177991|NCT04271046|184251339|OTHER|||||||0.28|||||||Regression, Linear|||||||0.28
92177992|NCT04271046|184251340|OTHER|||||||0.82|||||||Regression, Linear|||||||0.82
92177993|NCT04271046|184251341|OTHER|||||||0.04|||||||Regression, Linear|||||||0.04
92177994|NCT04271046|184251342|OTHER|||||||0.98|||||||Regression, Linear|||||||0.98
92177995|NCT04271046|184251343|OTHER|||||||0.22|||||||Regression, Linear|||||||0.22
92177996|NCT04271046|184251344|OTHER|||||||0.85|||||||Regression, Linear|||||||0.85
92177997|NCT04271046|184251345|OTHER|||||||0.8|||||||Regression, Linear|||||||0.80
92177998|NCT01570361|184251347|SUPERIORITY|||||||0.0009||||||Prior to the final analysis, study had two interim analyses. Hence alpha level is 0.0231 for primary analysis adjusted for the two interim analyses.|Log Rank|One-sided test||||||0.0009
92177999|NCT01570361|184251348|SUPERIORITY|||||||0.0118||||||The alpha level is 0.025 for this secondary endpoint.|Log Rank|One-sided test||||||0.0118
92255311|NCT02820038|184412496|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|2.79|STANDARD_ERROR_OF_MEAN|2.73||0.3056|TWO_SIDED|95.0|-2.56|8.14|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater decreases in illness intrusiveness at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||8.14|-2.56|0.3056
92255312|NCT02820038|184412496|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|4.19|STANDARD_ERROR_OF_MEAN|2.11||0.0466|TWO_SIDED|95.0|0.06|8.32|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in illness intrusiveness between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||8.32|0.06|0.0466
92255313|NCT02820038|184412496|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.024|STANDARD_ERROR_OF_MEAN|2.11||0.9106|TWO_SIDED|95.0|-4.38|3.9|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in illness intrusiveness between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||3.90|-4.38|0.9106
92255314|NCT02820038|184412497|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.17||0.1762|TWO_SIDED|95.0|-0.57|0.1|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group..|The investigators hypothesized that participants would exhibit greater decreases in health distress at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.10|-0.57|0.1762
92255315|NCT02820038|184412497|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.4186|TWO_SIDED|95.0|-0.36|0.15|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in health distress between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.15|-0.36|0.4186
92255316|NCT02820038|184412497|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.13||0.8848|TWO_SIDED|95.0|-0.28|0.24|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in health distress between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.24|-0.28|0.8848
92283823|NCT00440557|184471772|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a difference in the mean change in Hb from baseline to the average of the last 8 weeks of treatment through Week 22 of -0.3 g/dL between standard-tx group (TIW) and test-tx group (QW), a pooled standard deviation of 1.7 g/dL, and a noninferiority margin of 1 g/dL, a sample size of approximately 250 participants (125 per group) will provide 90% power to demonstrate that the test treatment group is not inferior to the standard-treatment group for an overall 2-sided 0.05 significance level|Difference of Least Squares Means|-0.43|STANDARD_ERROR_OF_MEAN|0.107||||95.0|-0.641|-0.221||Since the non-inferiority was declared in the statistical analysis 1, this comparison between Q2W and TIW was then performed according to a planned stepdown procedure for controlling multiplicity.||||The null hypothesis is the mean change in Hb concentration from baseline to the average of the last 8 weeks of treatment through Week 22 in the Q2W group is not lower than that of the TIW group by more than 1 g/dL.||-0.221|-0.641|
92283824|NCT00440557|184471773|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-7.8||||||95.0|-17.2|1.7||||||||1.7|-17.2|
92283825|NCT00440557|184471773|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-15.0||||||95.0|-25.0|-5.0||||||||-5.0|-25.0|
92283826|NCT00440557|184471774|SUPERIORITY_OR_OTHER||Difference of Least Squares Means|-0.26||||||95.0|-0.564|0.043|||ANOVA|||||0.043|-0.564|
92283827|NCT00440557|184471774|SUPERIORITY_OR_OTHER||Difference of Least Squares Means|-0.45||||||95.0|-0.755|-0.147|||ANOVA|||||-0.147|-0.755|
92283828|NCT00440557|184471775|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-3.9||||||95.0|-9.5|1.6||||||||1.6|-9.5|
92283829|NCT00440557|184471775|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-5.5||||||95.0|-11.4|0.3||||||||0.3|-11.4|
92283830|NCT00440557|184471776|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-2.7||||||95.0|-14.2|8.7||||||||8.7|-14.2|
92283831|NCT00440557|184471776|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-9.9||||||95.0|-21.7|1.8||||||||1.8|-21.7|
92283832|NCT00440557|184471777|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|2.6||||||95.0|-9.6|14.8||||||||14.8|-9.6|
92283833|NCT00440557|184471777|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-3.0||||||95.0|-15.0|9.0||||||||9.0|-15.0|
92283834|NCT00440557|184471778|SUPERIORITY_OR_OTHER||Difference of Least Squares Means|0.03||||||95.0|-0.21|0.27|||ANOVA|||||0.270|-0.210|
92283835|NCT00440557|184471778|SUPERIORITY_OR_OTHER||Difference of Least Squares Means|-0.07||||||95.0|-0.315|0.166|||ANOVA|||||0.166|-0.315|
92283836|NCT00440557|184471779|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-8.8||||||95.0|-16.0|-1.9||||||||-1.9|-16|
92178000|NCT01570361|184251349|SUPERIORITY|||||||0.0041||||||The alpha level is 0.025 for this secondary endpoint.|Log Rank|One-sided test||||||0.0041
92255317|NCT02820038|184412498|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.1||0.6403|TWO_SIDED|95.0|-0.15|0.25|||Regression, Linear|||The investigators hypothesized that participants would exhibit greater increases in health status at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.25|-0.15|0.6403
92255318|NCT02820038|184412498|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.08||0.8766|TWO_SIDED|95.0|-0.14|0.16|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in global health status between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.16|-0.14|0.8766
92255319|NCT02820038|184412498|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.08||0.7603|TWO_SIDED|95.0|-0.13|0.18|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater improvement in global health status between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.18|-0.13|0.7603
92255320|NCT02820038|184412499|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.7093|TWO_SIDED|95.0|-0.43|0.63|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater decreases in disease activity at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.63|-0.43|0.7093
92255321|NCT02820038|184412499|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.21||0.5941|TWO_SIDED|95.0|-0.3|0.52|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in disease activity between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.52|-0.30|0.5941
92255322|NCT02820038|184412499|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.21||0.9476|TWO_SIDED|95.0|-0.42|0.4|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in disease activity between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.40|-0.42|0.9476
92255323|NCT02820038|184412500|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.8||0.9128|TWO_SIDED|95.0|-1.65|1.48|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater decreases in depression at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||1.48|-1.65|0.9128
92178001|NCT05513937|184251375|SUPERIORITY||Mean difference pre vs post|-15.2|STANDARD_DEVIATION|8.32|<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||||||<0.001
92283837|NCT00440557|184471779|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-10.0||||||95.0|-18.0|-3.2||||||||-3.2|-18.0|
92178002|NCT02846545|184251377|SUPERIORITY||Least Square (LS) Mean|-0.178|||=|0.0004|TWO_SIDED|95.0|-0.28|-0.08|||Mixed Models Analysis|||||-0.08|-0.28|= 0.0004
92178003|NCT02846545|184251378|SUPERIORITY||LS Mean|-0.09|||=|0.802|TWO_SIDED|95.0|-0.81|0.63|||Mixed Models Analysis|||||0.63|-0.81|= 0.8020
92178004|NCT02846545|184251379|SUPERIORITY||Ratio of hypoglycemia rates|0.9|||=|0.0036|TWO_SIDED|95.0|0.838|0.966|||Poisson regression model|||Hypoglycemia rate was analyzed by using a Poisson regression model with the number of hypoglycemia events through Week 52 as the response, treatment and gender as fixed factors, age and baseline HbA1c as covariates, and the duration of study participation through week 52 in logarithm as an offset variable.||0.966|0.838|= 0.0036
92178005|NCT06468982|184251388|SUPERIORITY|To evaluate whether intra-aortic balloon pump catheter support contributes to a more rapid decrease in troponin levels and faster myocardial recovery, daily troponin levels were analyzed using mixed ANOVA.||||||0.05||||||The p-value was adjusted for multiple comparisons, and the threshold value was set at 0.05.|ANOVA|The hypothesis that IABP causes a rapid increase in troponin levels was analyzed using ANOVA, and the p-value was reported.||After testing for normality, the baseline characteristics of the two groups will be analyzed using the Student's t-test or the Mann-Whitney U-test for continuous variables and the chi-square test or Fisher's exact test for categorical variables. Differences between the intra-aortic balloon pump group and the control group in terms of repeated measurements will be analyzed using mixed ANOVA.||||0.05
92178006|NCT06468982|184251389|OTHER||Hazard Ratio, log|0.55|||<|0.05|TWO_SIDED|95.0|0.38|0.78|||Wilcoxon (Mann-Whitney)|||The prognostic value of risk factors for in-hospital mortality was evaluated by multivariate logistic regression analysis||0.78|0.38|<0.05
92178007|NCT02326974|184251390|SUPERIORITY||||||<|0.001|||||||Mantel Haenszel|||By estimating that the overall pCR with T-DM1 plus pertuzumab would be approximately 40%, and 20% of the population classified as heterogeneous, the study would have 80% power with 136 evaluable patients to detect a difference in pCR of 44.9% in the non-heterogenous versus 20.3% in the heterogenous subgroup. The study had a 90% power to detect difference in pCR of 43.4% in the non-heterogenous versus 8.8% in the heterogenous subgroup if the observed prevalence of HER2 heterogeneity was 10%.||||<0.001
92178008|NCT04181736|184251399|OTHER||F-statistic|6.621||||0.02|TWO_SIDED|||||The a priori threshold for statistical significance was \<0.05.|Repeated Measures General Linear Model|||Test of the effect of guanfacine using a general linear model including a within subjects' effect for treatment (pre- versus post-treatment sessions) and for circuit function, with five repeated measures for each circuit measure defining the cognitive control circuit.||||0.020
92178009|NCT04181736|184251404|OTHER||Cohen's d effect size|1.47|||<|0.001|TWO_SIDED|95.0|0.937|2.002||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||A paired t-test was conducted to evaluate the effect of GIR on changes in HDRS-17 depression scores from pre-treatment to week 2.||2.002|0.937|<0.001
92255324|NCT02820038|184412500|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.62||0.6312|TWO_SIDED|95.0|-1.5|0.91|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in depression between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.91|-1.50|0.6312
92178010|NCT04181736|184251404|OTHER||Cohen's d effect size|3.152|||<|0.001|TWO_SIDED|95.0|2.757|3.547||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||A paired t-test was conducted to evaluate the effect of GIR on changes in HDRS-17 depression scores from pre-treatment to post-treatment sessions.||3.547|2.757|<0.001
92178011|NCT04181736|184251405|OTHER||Cohen's d effect size|-1.249|||<|0.001|TWO_SIDED|95.0|-1.724|-0.774||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||A paired t-test was conducted to evaluate the effect of GIR on changes in QIDS-SR depression scores from pre-treatment to post-treatment sessions.||-0.774|-1.724|< 0.001
92178012|NCT04181736|184251406|OTHER||F-statistic|19.362|||<|0.001|TWO_SIDED|||||The a priori threshold for statistical significance was \<0.05.|Repeated Measures General Linear Model|||Test of the effect of guanfacine using a general linear model including a within subjects' effect for treatment (pre- versus post-treatment sessions) and for cognitive control function, with six repeated measures for behavioral tests of cognitive control.||||<0.001
92178013|NCT04181736|184251407|OTHER||Cohen's d effect size|0.881||||0.002|TWO_SIDED|95.0|0.324|1.438||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||A paired t-test was conducted to evaluate the effect of GIR on changes in SWLS scores from pre-treatment to post-treatment sessions.||1.438|0.324|0.002
92178014|NCT04181736|184251408|OTHER||F-statistic|11.913||||0.003|TWO_SIDED|||||The a priori threshold for statistical significance was \<0.05.|Repeated Measures General Linear Model|||Test of the effect of guanfacine using a general linear model including a within subjects' effect for treatment (pre- versus post-treatment sessions) and for quality with four repeated measures for domains of quality of life.||||0.003
92178015|NCT04181736|184251409|OTHER||Cohen's d effect size|-0.2||||0.283|TWO_SIDED|95.0|-0.608|0.208||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||A paired t-test was conducted to evaluate the effect of GIR on changes in C-SSRS scores from pre-treatment to post-treatment sessions.||0.208|-0.608|0.283
92178016|NCT05507333|184251437|OTHER||Proportion of clinically cured patients|0.62|||||TWO_SIDED|95.0|0.4073|0.7909|||||"The proportion of clinically cured patients at Day 7-14 was calculated and presented together with a two-sided 95% CI based on the Wilson score for the proportion of Yes with continuity correction."|"It was assumed that the true clinical cure rate was 54% in the treatment group, therefore a sample size of 24 patients was needed to obtain 80% power to show that the one-sided 95% CI for the clinical cure rate was above 30%. A sample size of 26 was used to account for patients with missing data.~Hypotheses for the primary endpoint:~Null hypothesis: Clinical cure rate is less than or equal to 30%.~Alternative hypothesis (one-sided): Clinical cure rate is above 30%"||0.7909|0.4073|
92178017|NCT05507333|184251438|OTHER||Proportion with cont. clinical response|0.85|||||TWO_SIDED|95.0|0.5366|0.9729|||||"The proportion of participants with continued clinical response at Day 25 (Yes) was calculated and presented together with a two-sided 95% CI. The CI was based on the Wilson score for the proportion of Yes with a continuity correction."|||0.9729|0.5366|
92178018|NCT05507333|184251439|OTHER||Proportion with clin and mycol. cure|0.38|||||TWO_SIDED|95.0|0.2091|0.5927|||||"The proportion of participants with clinical and mycological cure at Day 7-14 (Yes) was calculated and presented with a 95% CI. The CI was based on the Wilson score for the proportion of participants with Yes with a continuity correction."|||0.5927|0.2091|
92255325|NCT02820038|184412500|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|0.62||0.5766|TWO_SIDED|95.0|-1.57|0.87|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in depression between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.87|-1.57|0.5766
92255326|NCT02820038|184412501|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|1.04||0.2123|TWO_SIDED|95.0|-3.34|0.75|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater decreases in fatigue at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.75|-3.34|0.2123
92178019|NCT05507333|184251440|OTHER||Proportion with mycological cure|0.54|||||TWO_SIDED|95.0|0.3375|0.7286|||||"The proportion of participants with mycological cure at Day 7-14 (Yes) was calculated and presented with a 95% CI. The CI was based on the Wilson score for the proportion of participants with Yes with a continuity correction."|||0.7286|0.3375|
92255327|NCT02820038|184412501|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|0.81||0.2691|TWO_SIDED|95.0|-2.48|0.7|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in fatigue between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.70|-2.48|0.2691
92255328|NCT02820038|184412501|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.47|STANDARD_ERROR_OF_MEAN|0.81||0.5655|TWO_SIDED|95.0|-2.06|1.13|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in fatigue between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||1.13|-2.06|0.5655
92255329|NCT02820038|184412502|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|2.52|STANDARD_ERROR_OF_MEAN|4.1||0.5364|TWO_SIDED|95.0|-5.51|10.55|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in health literacy at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||10.55|-5.51|0.5364
92255330|NCT02820038|184412502|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|1.67|STANDARD_ERROR_OF_MEAN|3.24||0.605|TWO_SIDED|95.0|-4.68|8.01|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in health literacy between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||8.01|-4.68|0.6050
92255331|NCT02820038|184412502|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|3.24||0.924|TWO_SIDED|95.0|-6.66|6.05|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in health literacy between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||6.05|-6.66|0.9240
92255332|NCT02820038|184412503|SUPERIORITY||Odds Ratio (OR)|0.9||||0.7871|TWO_SIDED|95.0|0.43|1.89|||Regression, Logistic||Modeled probability of attending at least one class session. Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART|The investigators hypothesized that participants would be more likely to participate in the BetterChoices, BetterHealth program if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||1.89|0.43|0.7871
92255333|NCT02820038|184412503|SUPERIORITY||Odds Ratio (OR)|1.189||||0.5815|TWO_SIDED|95.0|0.643|2.198|||Regression, Logistic||Modeled probability of attending at least one class. Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART.|The investigators hypothesized that participants would be more likely to participate in at least one session of the BetterChoices,BetterHealth program if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||2.198|0.643|0.5815
92255334|NCT02820038|184412503|SUPERIORITY||Odds Ratio (OR)|0.679||||0.2211|TWO_SIDED|95.0|0.366|1.262|||Regression, Logistic||Modeled probability of attending at least one class. Independent variable coded: 0=Other CMI Only, DFB Only; 1=Other CMI+SMART, DFB+SMART.|The investigators hypothesized that participants would be more likely to participate in at least one session of the BetterChoices, BetterHealth program if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||1.262|0.366|0.2211
92255335|NCT02820038|184412504|SUPERIORITY||Odds Ratio (OR)|0.804||||0.574|TWO_SIDED|95.0|0.38|1.72|||Regression, Logistic||Modeled probability of viewing at least one page on website. Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART|The investigators hypothesized that participants would be more likely to use the RA Self-Management website if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||1.72|0.38|0.5740
92255336|NCT02820038|184412504|SUPERIORITY||Odds Ratio (OR)|1.425||||0.1278|TWO_SIDED|95.0|0.766|2.649|||Regression, Logistic||Modeled probability of viewing at least one page on website. Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART.|The investigators hypothesized that participants would be more likely to visit the RA Self-Management Website if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||2.649|0.766|0.1278
92255337|NCT02820038|184412504|SUPERIORITY||Odds Ratio (OR)|0.614||||0.1278|TWO_SIDED|95.0|0.328|1.15|||Regression, Logistic||Modeled probability of viewing at least one page on website. Independent variable coded: 0=Other CMI Only, DFB Only; 1=Other CMI+SMART, DFB+SMART.|The investigators hypothesized that participants would be more likely to visit the RA Self-Management Website if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||1.15|0.328|0.1278
92255338|NCT02820038|184412505|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|11.9|STANDARD_ERROR_OF_MEAN|8.7||0.17|TWO_SIDED|95.0|-5.2|28.9|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in visual selective learning between baseline and the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||28.9|-5.2|0.17
92255339|NCT02820038|184412505|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable|Mean Difference (Net)|16.0|STANDARD_ERROR_OF_MEAN|6.9||0.02|TWO_SIDED|95.0|2.5|29.5|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in visual selective learning between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||29.5|2.5|0.02
92255340|NCT02820038|184412505|SUPERIORITY|Regression model adjusted for baseline values of the dependent variable.|Mean Difference (Net)|5.6|STANDARD_ERROR_OF_MEAN|6.9||0.42|TWO_SIDED|95.0|-8.1|19.2|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=Other CMI+SMART, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would experience a greater increase in visual selective learning between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||19.2|-8.1|0.42
92255341|NCT02820038|184412506|SUPERIORITY||Mean Difference (Net)|-2.2|STANDARD_ERROR_OF_MEAN|0.15||0.15|TWO_SIDED|95.0|-5.2|0.8|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater medication self-management knowledge at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.8|-5.2|0.15
92255342|NCT02820038|184412506|SUPERIORITY||Mean Difference (Net)|-2.1|STANDARD_ERROR_OF_MEAN|1.2||0.07|TWO_SIDED|95.0|-4.4|0.3|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater medication self-management knowledge at the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.3|-4.4|0.07
92255343|NCT02820038|184412506|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|1.2||0.13|TWO_SIDED|95.0|-4.2|0.6|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would experience greater medication self-management knowledge at the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.6|-4.2|0.13
92283838|NCT01939197|184471786|NON_INFERIORITY|The primary efficacy endpoint was the non-inferiority of the percentage of participants in the GT1 Analysis Group in Part 2 achieving SVR12 compared to the historical SVR12 rate for sofosbuvir plus ribavirin (a non-inferiority threshold of the lower bound of the 95% CI of 74%).|||||||||||||||||"The historical SVR rate, as reported in the PHOTON-1 study, for sofosbuvir and RBV in HCV/HIV-1 coinfected adults is 76% (87/114) with a 95% confidence interval of (67%, 84%).~Reference: Sulkowski MS, Naggie S, Lalezari J, et al. Sofosbuvir and ribavirin for hepatitis C in patients with HIV coinfection. JAMA. 2014;312(4):353-61."|||
92283839|NCT01939197|184471787|OTHER|||||||1|||||||Fisher Exact|||||||1.000
92283840|NCT01939197|184471788|OTHER||||||||||||||||||"The Fisher exact test was performed as prespecified on the SAP but the p-value couldn't be calculated because SVR12 rates in both arms were 100%, hence p-value appeared as not available."|||
92178020|NCT05507333|184251441|OTHER||Proportion with mycological cure|0.77|||||TWO_SIDED|95.0|0.4598|0.9384|||||"The proportion of participants with mycological cure at Day 25 (Yes) was calculated and presented with a 95% CI. The CI was based on the Wilson score for the proportion of participants recorded as Yes with a continuity correction."|||0.9384|0.4598|
92178021|NCT05507333|184251442|OTHER||Proportion with absence of Candida|0.58|||||TWO_SIDED|95.0|0.3719|0.7603|||||"The proportion of participants that did not show Candida hyphae in the wet smear (absence of/Yes) at Day 7-14 was calculated and presented together with a 95% CI based on the Wilson score for the proportion of Yes with a continuity correction."|||0.7603|0.3719|
92178022|NCT05507333|184251443|OTHER||Mean Difference (Net)|-4.5|STANDARD_DEVIATION|3.15|||TWO_SIDED|95.0|-5.77|-3.23|||||The mean change in the score for composite vulvovaginal signs and symptoms from Screening to Day 7-14 was calculated and presented together with a 95% CI.|||-3.23|-5.77|
92178023|NCT05507333|184251444|OTHER||Proportion with reduction CVVS score|0.88|||||TWO_SIDED|95.0|0.6872|0.9697|||||"The proportion of participants having a reduction in signs and symptoms (CVVS scores) on Day 7-14 vs. Screening was calculated and presented with a 95% CI based on the Wilson score for the prop. with Yes with a continuity correction."|||0.9697|0.6872|
92178024|NCT01960452|184251449|OTHER|Group comparison, for absolute (spatially z-score normalized across all electrodes for each subject)||||||0.2791|||||||t-test, 2 sided|||Only reporting values for approximate 10-20 channel CP1||||0.2791
92178025|NCT01960452|184251449|OTHER|Group comparison, for absolute multiple comparisons correction across electrodes using threshold free cluster enhancement (TFCE)||||||0.9|||||||t-test, 2 sided|||||||0.9
92178026|NCT01960452|184251450|OTHER|Group comparison, for both absolute (spatially z-score normalized across all electrodes for each subject)||||||0.1069|||||||t-test, 2 sided|||Only reporting values for approximate 10-20 channel CP1||||0.1069
92178027|NCT01960452|184251450|OTHER|Group comparison, for absolute multiple comparisons correction across electrodes using threshold free cluster enhancement (TFCE)||||||0.546|||||||t-test, 2 sided|||||||0.546
92178028|NCT01960452|184251451|OTHER|Group comparison, for absolute (spatially z-score normalized across all electrodes for each subject)||||||0.2918|||||||t-test, 2 sided|||Only reporting values for approximate 10-20 channel CP1||||0.2918
92178029|NCT01960452|184251451|OTHER|Group comparison, for absolute multiple comparisons correction across electrodes using threshold free cluster enhancement (TFCE)||||||0.761|||||||t-test, 2 sided|||||||0.761
92178030|NCT03677141|184251466|SUPERIORITY||Difference in rates|-4.77|||||TWO_SIDED|95.0|-30.61|21.07||||||||21.07|-30.61|
92178031|NCT01866163|184251504|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|30.27|||<|0.001|TWO_SIDED|95.0|9.72|94.3|||Mantel Haenszel|||Multiple imputations were used to handle missing data.||94.30|9.72|<0.001
92178032|NCT01866163|184251505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.28|||<|0.001|TWO_SIDED|95.0|-3.9|-2.67|||ANOVA|||The mean value and CIs were adjusted for the effect of pooled centres and baseline m-PASI. Multiple imputation was used to handle missing data.||-2.67|-3.90|<0.001
92178033|NCT01866163|184251506|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.27|||<|0.001|TWO_SIDED|95.0|-1.76|-0.78|||ANOVA|||The mean value and CIs were adjusted for the effect of pooled centres and baseline m-PASI. Multiple imputation was used to handle missing data.||-0.78|-1.76|<0.001
92178034|NCT04820322|184251544|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||0.087
92178035|NCT04820322|184251545|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.020
92255344|NCT02820038|184412507|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.12||0.68|TWO_SIDED|95.0|-0.19|0.29|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater verbatim recall of information concerning medication benefits and risks at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.29|-0.19|0.68
92255345|NCT02820038|184412507|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.1||0.2|TWO_SIDED|95.0|-0.06|0.31|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater verbatim recall of information concerning medication benefits and risks at the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.31|-0.06|0.20
92283841|NCT02545998|184471811|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.510
92178036|NCT04820322|184251546|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92178037|NCT04820322|184251547|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||0.70
92178038|NCT04820322|184251548|SUPERIORITY|||||||0.71|||||||Fisher Exact|||||||0.71
92178039|NCT04820322|184251549|SUPERIORITY|||||||0.71|||||||Fisher Exact|||||||0.71
92178040|NCT04820322|184251550|SUPERIORITY|||||||0.67|||||||Fisher Exact|||||||0.67
92178041|NCT04820322|184251551|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
92178042|NCT04820322|184251552|SUPERIORITY|||||||0.023|||||||t-test, 2 sided|||||||0.023
92178043|NCT04820322|184251553|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
92178044|NCT04820322|184251554|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.040
92178045|NCT04200313|184251566|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178046|NCT04200313|184251566|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178047|NCT04200313|184251567|NON_INFERIORITY|Non-inferiority with a 1% non-inferiority margin|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178048|NCT04200313|184251567|NON_INFERIORITY|Non-inferiority with a 1% non-inferiority margin|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178049|NCT04200313|184251568|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178050|NCT04200313|184251568|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178051|NCT04200313|184251569|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178052|NCT04200313|184251569|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178053|NCT04200313|184251570|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178054|NCT04200313|184251570|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92255346|NCT02820038|184412507|SUPERIORITY||Mean Difference (Net)|0.001|STANDARD_ERROR_OF_MEAN|0.1||0.99|TWO_SIDED|95.0|-0.19|0.19|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=Other CMI+SMART, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater verbatim recall of information concerning medication benefits and risks at the 6-week follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.19|-0.19|0.99
92255347|NCT02820038|184412508|SUPERIORITY||Odds Ratio (OR)|2.105||||0.0028|TWO_SIDED|95.0|1.291|3.432|||Regression, Logistic|||The investigators hypothesized that participants would be more likely to view at least one webpage if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.|Modeled probability of viewing at least one webpage. Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART.|3.432|1.291|0.0028
92255348|NCT02820038|184412509|SUPERIORITY||Mean Difference (Net)|-0.84|STANDARD_ERROR_OF_MEAN|0.45||0.0601|TWO_SIDED|95.0|-1.71|0.04|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would view more webpages if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.04|-1.71|0.0601
92255349|NCT02820038|184412510|SUPERIORITY||Odds Ratio (OR)|0.91||||0.9|TWO_SIDED|95.0|0.22|3.81|||Regression, Logistic||Independent variable coded: 0=Other Consumer Medication Information (CMI) Only, Other CMI+SMART, DrugFactsBox® (DFB) Only; 1=DFB+SMART|The investigators hypothesized that participants would be more likely to be using at least one DMARD (Disease-Modifying Antirheumatic Drug) at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||3.81|0.22|0.90
92255350|NCT02820038|184412510|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Odds Ratio (OR)|0.75||||0.63|TWO_SIDED|95.0|0.24|2.35|||Regression, Logistic||. Independent variable coded: 0=Other Consumer Medication Information (CMI) Only, Other CMI+SMART; 1=DFB Only, DFB+SMART|The investigators hypothesized that participants would exhibit a greater increase in the percentage of participants using at least one DMARD (Disease-Modifying Antirheumatic Drug) between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||2.35|0.24|0.63
92255351|NCT02820038|184412510|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Odds Ratio (OR)|1.15||||0.81|TWO_SIDED|95.0|0.37|3.54|||Regression, Logistic||Independent variable coded: 0=Other Consumer Medication Information (CMI) Only, DrugFactsBox® (DFB) Only; 1=Other CMI+SMART, DFB+SMART|The investigators hypothesized that participants would experience a greater increase in the percentage of participants using at least one DMARD (Disease-Modifying Antirheumatic Drug) between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||3.54|0.37|0.81
92265289|NCT02129192|184432019|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-inf of the two treatments was within the pre-specified acceptance range (80%-125%).|Adjusted geometric mean ratio (%)|100.15|||||TWO_SIDED|90.0|98.23|102.1|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for hydrochlorothiazide 12.5 mg||102.10|98.23|
92283842|NCT02545998|184471812|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
92283843|NCT02545998|184471813|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92283844|NCT02545998|184471814|SUPERIORITY|||||||0.589|||||||Wilcoxon (Mann-Whitney)|||||||0.589
92178055|NCT04200313|184251571|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178056|NCT04200313|184251571|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92255352|NCT03934203|184412511|OTHER|The null hypothesis was 'The mean difference in the QTcF changes from baseline between 50 mg BI 409306 and placebo is greater than or equal to 10 milliseconds at least for one timepoint after dosing.' The one-sided tests were performed at the 5% level; due to the symmetry of the normal distribution 2-sided 90% confidence intervals for the differences of adjusted means per timepoint were used.|Difference of adjusted means|1.3|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|90.0|0.2|2.4|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Maximum difference of adjusted means was calculated as BI 409306 - placebo at 20 minutes after drug intake.|MMRM was fitted to observations for 50 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||2.4|0.2|
92255353|NCT03934203|184412512|OTHER|The null hypothesis was 'The mean difference in the QTcF changes from baseline between 250 mg BI 409306 and placebo is greater than or equal to 10 milliseconds at least for one timepoint after dosing.' The one-sided tests were performed at the 5% level; due to the symmetry of the normal distribution 2-sided 90% confidence intervals for the differences of adjusted means per timepoint were used.|Difference of adjusted means|5.7|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|90.0|4.4|7.1|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Maximum difference of adjusted means was calculated as BI 409306 - placebo at 40 minutes after drug intake.|MMRM was fitted to observations for 250 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||7.1|4.4|
92255354|NCT03934203|184412513|OTHER|No formal hypotheses were tested.|Difference of adjusted means|12.1|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|90.0|10.5|13.6|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Maximum difference of adjusted means was calculated as moxifloxacin - placebo at 1 hour and 30 minutes after drug intake.|MMRM was fitted to the observations for moxifloxacin and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||13.6|10.5|
92283845|NCT02545998|184471815|SUPERIORITY|||||||0.471|||||||Wilcoxon (Mann-Whitney)|||||||0.471
92283846|NCT02545998|184471816|SUPERIORITY|||||||0.264|||||||Sign test|||||||0.264
92178057|NCT04200313|184251572|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92283847|NCT01226797|184471818|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5834||||0.6668|TWO_SIDED|95.0|0.1|3.51|||Fisher Exact||Odds-ratio and confidence interval obtained from logistic regression with treatment as fixed effect|||3.51|0.10|0.6668
92178058|NCT04200313|184251572|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92178059|NCT04200313|184251573|SUPERIORITY|||||||0.51|||||||Mixed Models Analysis|||||||0.51
92178060|NCT04200313|184251573|SUPERIORITY|||||||0.54|||||||Mixed Models Analysis|||||||0.54
92283848|NCT01226797|184471819|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.1591||||0.155|TWO_SIDED|95.0|0.01|1.73|||Fisher Exact||Odds-ratio and confidence interval obtained from logistic regression with treatment as fixed effect.|||1.73|0.01|0.1550
92283849|NCT01226797|184471820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.45||||0.1259|TWO_SIDED|95.0|-7.79|58.69||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 1||58.69|-7.79|0.1259
92283850|NCT01226797|184471820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.49||||0.3297|TWO_SIDED|95.0|-14.67|41.66||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 2||41.66|-14.67|0.3297
92178061|NCT05970861|184251727|OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||"Null hypothesis: there is no statistical significance between the mean percentages of microbiota units of the main and control groups after the mare's milk administration.~Alternate hypothesis: statistical significance exists between the mean percentages of microbiota units of the main and control groups after the mare's milk administration."||||<0.05
92178062|NCT05970861|184251727|OTHER||||||<|0.05|||||||ANOVA|||"Null Hypothesis: The freeze-dried mare's milk does not significantly influence the mean percentages of gut microbiota units.~Alternate Hypothesis: The freeze-dried mare's milk significantly influences the mean percentages of gut microbiota units."||||<0.05
92178063|NCT05970861|184251728|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Null hypothesis: No statistically significant difference exists between antiphospholipid antibody levels before and after the mare's milk administration.~Alternate hypothesis: Statistically significant difference exists between antiphospholipid antibody levels before and after the mare's milk administration."||||>0.05
92178064|NCT05970861|184251729|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||"Null hypothesis: No statistically significant difference exists between uric acid blood levels before and after the mare's milk administration.~Alternate hypothesis: Statistically significant difference exists between uric acid blood levels before and after the mare's milk administration."||||0.01
92255355|NCT03934203|184412514|OTHER|T-Test based on the results of the MMRM (fitted to the data for all timepoints). The null hypothesis was 'The mean difference in the QTcF changes from baseline between moxifloxacin and placebo is less than or equal to 5 milliseconds at 2 hours after drug administration.'|Difference of adjusted means|11.9|STANDARD_ERROR_OF_MEAN|0.9||0|TWO_SIDED|90.0|10.4|13.4||The corresponding alpha-level according to Hochberg's adjustment for mulitplicity was 0.0167.|Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Difference of adjusted means was calculated as moxifloxacin - placebo.|MMRM was fitted to the observations for moxifloxacin and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||13.4|10.4|0.00000000
92178065|NCT05970861|184251730|OTHER||||||<|0.01|||||||t-test, 2 sided|||"Null hypothesis: No statistically significant difference exists between the scores on a scale (PCS, MCS) after the mare's milk administration.~Alternate hypothesis: Statistically significant difference exists between the scores on a scale (PCS, MCS) after the mare's milk administration."||||<0.01
92178066|NCT05970861|184251730|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Null hypothesis: No statistically significant difference exists between the scores on a scale (PCS, MCS) after 2 measurements in the control group.~Alternate hypothesis: Statistically significant difference exists between the scores on a scale (PCS, MCS) after 2 measurements in the control group."||||>0.05
92283851|NCT01226797|184471820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.17||||0.3925|TWO_SIDED|95.0|-21.04|51.39||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 3||51.39|-21.04|0.3925
92178067|NCT05970861|184251730|OTHER||||||<|0.01|||||||ANOVA|||"Null Hypothesis: The freeze-dried mare's milk does not significantly influence the scores on the scales (PCS, MCS).~Alternate Hypothesis: The freeze-dried mare's milk significantly influences the scores on the scales (PCS, MCS)."||||<0.01
92178068|NCT04102111|184251773|OTHER||Least Squares Means|37.4||||0.288|TWO_SIDED|90.0|-21.0|95.8|||Mixed Model for Repeated Measures (MMRM)|||||95.8|-21.0|0.288
92178069|NCT02542631|184251780|NON_INFERIORITY|The sample size determination was based on the primary endpoint, A1C change from Baseline to Week 24. Assuming that the true mean difference in A1C change for Finesse versus Pen was -0.1% with a SD of 1.2%, a study population of 250 completers (125 per arm) was required to achieve a power of 90% for non-inferiority with a margin of 0.4%.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.32|0.14||Non-inferiority p-value was calculated with 2-sided comparison of the difference in treatment effects between Finesse and Pen with a non-inferiority margin of 0.4%.|ANCOVA|ANCOVA model with treatment group as a factor and baseline value as a covariate was used to compare devices for continuous measures.||||0.14|-0.32|<0.0001
92178070|NCT02542631|184251781|SUPERIORITY||Odds Ratio (OR)|1.3|STANDARD_ERROR_OF_MEAN|0.25||0.26|TWO_SIDED|95.0|0.81|2.14||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|Cochran-Mantel-Haenszel|||||2.14|0.81|0.26
92178071|NCT02542631|184251782|SUPERIORITY||Mean Difference (Final Values)|-2.97|STANDARD_ERROR_OF_MEAN|3.36||0.38|TWO_SIDED|95.0|-9.63|3.7||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|ANCOVA|ACNOVA model with treatment group as a factor and baseline value as a covariate was used to compare devices for continuous measures.||||3.70|-9.63|0.38
92178072|NCT02542631|184251783|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.99|TWO_SIDED|95.0|-0.28|0.28||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|ANCOVA|ANCOVA model with treatment group as a factor and baseline value as a covariate was used to compare devices for continuous measures.||||0.28|-0.28|0.99
92178073|NCT02542631|184251784|SUPERIORITY||Odds Ratio (OR)|1.1|STANDARD_ERROR_OF_MEAN|0.28||0.71|TWO_SIDED|95.0|0.64|1.93||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|Cochran-Mantel-Haenszel|||||1.93|0.64|0.71
92178074|NCT02542631|184251785|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.09||0.52|TWO_SIDED|95.0|-0.12|0.24||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|ANCOVA|ANCOVA model with treatment group as a factor and week 24 value as a covariate was used to compare devices for continuous measures.||||0.24|-0.12|0.52
92178075|NCT02542631|184251786|SUPERIORITY||Mean Difference (Final Values)|9.16|STANDARD_ERROR_OF_MEAN|2.8||0.001|TWO_SIDED|95.0|3.65|14.67||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|ANCOVA|ANCOVA model with change in score as dependent variable, treatment as factor, and baseline score as a covariate was used to compare devices.||||14.67|3.65|0.001
92178076|NCT02542631|184251787|SUPERIORITY||Mean Difference (Final Values)|4.32|STANDARD_ERROR_OF_MEAN|2.03||0.03|TWO_SIDED|95.0|0.33|8.32||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|ANCOVA|ANCOVA model with change in score as dependent variable, treatment as factor, and baseline score as a covariate was used to compare devices.||||8.32|0.33|0.03
92178077|NCT02542631|184251788|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
92178078|NCT02641730|184251789|SUPERIORITY||Mean Difference (Final Values)|-7.69|STANDARD_ERROR_OF_MEAN|1.674|<|0.001|TWO_SIDED|95.0|-11.0|-4.383|||Mixed-Model for Repeated Measures|||||-4.383|-11.000|<0.001
92178079|NCT02641730|184251789|SUPERIORITY||Mean Difference (Final Values)|-4.11|STANDARD_ERROR_OF_MEAN|1.7||0.017|TWO_SIDED|95.0|-7.468|-0.748|||Mixed-Model for Repeated Measures|||||-0.748|-7.468|0.017
92178080|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|2.19||||0.853|TWO_SIDED|95.0|-21.16|25.54||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.19|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||25.54|-21.16|0.853
92178081|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|5.04||||0.767|TWO_SIDED|95.0|-28.57|38.65||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.30|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||38.65|-28.57|0.767
92178082|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|2.84||||0.868|TWO_SIDED|95.0|-30.93|36.62||Unadjusted p-value|Mixed Models Analysis|t (df,112) = 0.17|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||36.62|-30.93|0.868
92178083|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|0.63||||0.96|TWO_SIDED|95.0|-24.26|25.52||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = 0.05|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||25.52|-24.26|0.960
92178084|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|8.42||||0.63|TWO_SIDED|95.0|-25.97|42.82||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = 0.48|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||42.82|-25.97|0.630
92265290|NCT02129192|184432020|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|64.4||||1|TWO_SIDED|90.0|59.59|69.59|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for telmisartan 80 mg. No hypothesis was tested.||69.59|59.59|1.0000
92265291|NCT02129192|184432020|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|99.45|||<|0.0001|TWO_SIDED|90.0|96.69|102.29|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for amlodipine 5 mg. No hypothesis was tested.||102.29|96.69|<0.0001
92178085|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|7.79||||0.657|TWO_SIDED|95.0|-26.77|42.36||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = 0.44|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||42.36|-26.77|0.657
92178086|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|-5.08||||0.627|TWO_SIDED|95.0|-25.72|15.56||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.49|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||15.56|-25.72|0.627
92178087|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|-13.5||||0.364|TWO_SIDED|95.0|-42.86|15.86||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.91|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||15.86|-42.86|0.364
92255356|NCT03934203|184412515|OTHER|T-Test based on the results of the MMRM (fitted to the data for all timepoints). The null hypothesis was 'The mean difference in the QTcF changes from baseline between moxifloxacin and placebo is less than or equal to 5 milliseconds at 3 hours after drug administration.'|Difference of adjusted means|11.1|STANDARD_ERROR_OF_MEAN|1.0||3e-08|TWO_SIDED|90.0|9.3|12.8||The corresponding alpha-level according to Hochberg's adjustment for mulitplicity was 0.0250.|Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Difference of adjusted means was calculated as moxifloxacin - placebo.|MMRM was fitted to the observations for moxifloxacin and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||12.8|9.3|0.00000003
92255357|NCT03934203|184412516|OTHER|T-Test based on the results of the MMRM (fitted to the data for all timepoints). The null hypothesis was 'The mean difference in the QTcF changes from baseline between moxifloxacin and placebo is less than or equal to 5 milliseconds at 4 hours after drug administration.'|Difference of adjusted means|10.7|STANDARD_ERROR_OF_MEAN|1.1||2e-07|TWO_SIDED|90.0|8.9|12.4||The corresponding alpha-level according to Hochberg's adjustment for mulitplicity was 0.050.|Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Difference of adjusted means was calculated as moxifloxacin - placebo.|MMRM was fitted to the observations for moxifloxacin and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||12.4|8.9|0.00000020
92178088|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|-8.42||||0.574|TWO_SIDED|95.0|-38.0|21.15||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.56|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||21.15|-38.00|0.574
92265292|NCT02129192|184432020|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|89.82|||<|0.0001|TWO_SIDED|90.0|86.02|93.79|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for hydrochlorothiazide 12.5 mg. No hypothesis was tested.||93.79|86.02|<0.0001
92265293|NCT04557189|184432021|SUPERIORITY||Adjusted Treatment Difference|0.241|||||TWO_SIDED|95.0|0.031|0.452|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.452|0.031|
92178089|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|-5.51||||0.557|TWO_SIDED|95.0|-23.96|12.94||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = -0.59|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||12.94|-23.96|0.557
92178090|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|-13.65||||0.302|TWO_SIDED|95.0|-39.64|12.35||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = -1.03|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||12.35|-39.64|0.302
92178091|NCT02938923|184251819|SUPERIORITY||Mean Difference (Final Values)|-8.14||||0.541|TWO_SIDED|95.0|-34.33|18.06||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = -0.61|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||18.06|-34.33|0.541
92178092|NCT02938923|184251820|SUPERIORITY||Mean Difference (Final Values)|357.72||||0.336|TWO_SIDED|95.0|-375.75|1091.19||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.97|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1091.19|-375.75|0.336
92178093|NCT02938923|184251820|SUPERIORITY||Mean Difference (Final Values)|936.93||||0.09|TWO_SIDED|95.0|-147.56|2021.42||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.71|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||2021.42|-147.56|0.090
92178094|NCT02938923|184251820|SUPERIORITY||Mean Difference (Final Values)|579.21||||0.297|TWO_SIDED|95.0|-515.36|1673.78||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.05|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1673.78|-515.36|0.297
92178095|NCT02938923|184251820|SUPERIORITY||Mean Difference (Final Values)|383.36||||0.245|TWO_SIDED|95.0|-266.06|1032.79||Unadjusted p-value|Mixed Models Analysis|t (df, 107) = 1.17|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||1032.79|-266.06|0.245
92178096|NCT02938923|184251820|SUPERIORITY||Mean Difference (Final Values)|836.64||||0.069|TWO_SIDED|95.0|-67.04|1740.32||Unadjusted p-value|Mixed Models Analysis|t (df, 107) = 1.84|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||1740.32|-67.04|0.069
92178097|NCT02938923|184251820|SUPERIORITY||Mean Difference (Final Values)|453.28||||0.327|TWO_SIDED|95.0|-459.13|1365.68||Unadjusted p-value|Mixed Models Analysis|t (df, 107) = 0.98|Difference between changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||1365.68|-459.13|0.327
92178098|NCT02938923|184251821|SUPERIORITY||Mean Difference (Final Values)|17.16||||0.934|TWO_SIDED|95.0|-391.74|426.05||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.08|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||426.05|-391.74|0.934
92178099|NCT02938923|184251821|SUPERIORITY||Mean Difference (Final Values)|562.64||||0.068|TWO_SIDED|95.0|-42.02|1167.31||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.84|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1167.31|-42.02|0.068
92178100|NCT02938923|184251821|SUPERIORITY||Mean Difference (Final Values)|545.49||||0.079|TWO_SIDED|95.0|-64.81|1155.79||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.77|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1155.79|-64.81|0.079
92178101|NCT02938923|184251821|SUPERIORITY||Mean Difference (Final Values)|33.73||||0.867|TWO_SIDED|95.0|-365.4|432.86||Unadjusted p-value|Mixed Models Analysis|t (df, 102) = 0.17|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||432.860|-365.40|0.867
92178102|NCT02938923|184251821|SUPERIORITY||Mean Difference (Final Values)|665.75||||0.02|TWO_SIDED|95.0|105.68|1225.81||Unadjusted p-value|Mixed Models Analysis|t (df, 102) = 2.36|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||1225.81|105.68|0.020
92178103|NCT02938923|184251821|SUPERIORITY||Mean Difference (Final Values)|632.02||||0.029|TWO_SIDED|95.0|66.38|1197.66||Unadjusted p-value|Mixed Models Analysis|t (df, 102) = 2.22|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||1197.66|66.38|0.029
92178104|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.946|TWO_SIDED|95.0|-19.61|21.01||Unadjusted p-value|Mixed Models Analysis|t (df, 110) = 0.07|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||21.01|-19.61|0.946
92178105|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|24.44||||0.094|TWO_SIDED|95.0|-4.25|53.13||Unadjusted p-value|Mixed Models Analysis|t (df, 110) = 1.69|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||53.13|-4.25|0.094
92178106|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|23.74||||0.107|TWO_SIDED|95.0|-5.19|52.67||Unadjusted p-value|Mixed Models Analysis|t (df, 110) = 1.63|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||52.67|-5.19|0.107
92178107|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|4.81||||0.627|TWO_SIDED|95.0|-14.68|24.3||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = 0.49|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||24.30|-14.68|0.627
92178108|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|24.91||||0.072|TWO_SIDED|95.0|-2.2|52.01||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = 1.81|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||52.01|-2.20|0.072
92178109|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|20.1||||0.149|TWO_SIDED|95.0|-7.29|47.49||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = 1.45|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||47.49|-7.29|0.149
92178110|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|-1.38||||0.849|TWO_SIDED|95.0|-15.71|12.95||Unadjusted p-value|Mixed Models Analysis|t (df, 110) = -0.19|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||12.95|-15.71|0.849
92178111|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|15.47||||0.134|TWO_SIDED|95.0|-4.83|35.78||Unadjusted p-value|Mixed Models Analysis|(df, 110) = 1.15|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||35.78|-4.83|0.134
92178112|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|16.86||||0.107|TWO_SIDED|95.0|-3.68|37.39||Unadjusted p-value|Mixed Models Analysis|t (df, 110) = 1.63|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||37.39|-3.68|0.107
92178113|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.973|TWO_SIDED|95.0|-13.64|13.17||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = -0.03|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||13.17|-13.64|0.973
92255358|NCT03934203|184412517|OTHER|No formal hypotheses were tested.|Difference of adjusted means|2.4|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|1.4|3.3|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Maximum difference of adjusted means was calculated as BI 409306 - placebo at 20 minutes after drug intake.|MMRM was fitted to observations for 50 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||3.3|1.4|
92265294|NCT04557189|184432022|SUPERIORITY||Adjusted Treatment Difference|0.175|||||TWO_SIDED|95.0|-0.044|0.394|||||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on Cochran-Mantel-Haenszel (CMH) method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|0.394|-0.044|
92178114|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|14.49||||0.135|TWO_SIDED|95.0|-4.56|33.54||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = 1.50|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||33.54|-4.56|0.135
92178115|NCT02938923|184251822|SUPERIORITY||Mean Difference (Final Values)|14.72||||0.134|TWO_SIDED|95.0|-4.55|34.0||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = 1.51|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||34.00|-4.55|0.134
92178116|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|1.21||||0.125|TWO_SIDED|95.0|-0.34|2.76||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.55|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||2.76|-0.34|0.125
92178117|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.758|TWO_SIDED|95.0|-1.9|2.61||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.31|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||2.61|-1.90|0.758
92178118|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|-0.86||||0.455|TWO_SIDED|95.0|-3.12|1.41||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.75|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1.41|-3.12|0.455
92178119|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.229|TWO_SIDED|95.0|-0.72|3.0||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 1.21|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||3.00|-0.72|0.229
92178120|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.647|TWO_SIDED|95.0|-1.97|3.16||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 0.46|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||3.16|-1.97|0.647
92283852|NCT01226797|184471820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|24.62||||0.208|TWO_SIDED|95.0|-14.85|64.09||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 4||64.09|-14.85|0.2080
92178121|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|-0.54||||0.68|TWO_SIDED|95.0|-3.12|2.04||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = -0.41|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||2.04|-3.12|0.680
92255359|NCT03934203|184412518|OTHER|No formal hypotheses were tested.|Difference of adjusted means|11.7|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|90.0|10.6|12.8|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Maximum difference of adjusted means was calculated as BI 409306 - placebo at 40 minutes after drug intake.|MMRM was fitted to observations for 250 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||12.8|10.6|
92255360|NCT03934203|184412519|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.2|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-2.3|-0.1|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Minimum difference of adjusted means was calculated as BI 409306 - placebo at 24 hours after drug intake.|MMRM was fitted to observations for 50 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||-0.1|-2.3|
92255361|NCT03934203|184412520|OTHER|No formal hypotheses were tested.|Difference of adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|90.0|-1.3|1.3|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Minimum difference of adjusted means was calculated as BI 409306 - placebo at 12 hours after drug intake.|MMRM was fitted to observations for 250 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||1.3|-1.3|
92255362|NCT02512276|184412539|SUPERIORITY||Mean Difference (Net)|4.7|||||TWO_SIDED|95.0|3.0|6.4||||||||6.4|3.0|
92255363|NCT02512276|184412540|SUPERIORITY||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.91|1.22||||||||1.22|0.91|
92255364|NCT02512276|184412541|SUPERIORITY||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.94|1.28||||||||1.28|0.94|
92255365|NCT02512276|184412542|SUPERIORITY||Odds Ratio (OR)|0.62|||||TWO_SIDED|95.0|0.45|0.85||||||||0.85|0.45|
92255366|NCT02512276|184412543|SUPERIORITY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.91|1.36||||||||1.36|0.91|
92255367|NCT02512276|184412544|SUPERIORITY||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.78|1.34||||||||1.34|0.78|
92255368|NCT00901394|184412568|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||For baseline comparisons among the three groups, one-way ANOVA was used for normally distributed variables and χ2 goodness-of-fit for categorical variables. To model the effects of B-vitamin treatment on nitrous-oxide-induced total homocysteine increase at the three different timepoints within individual patients and between the three groups, a linear mixed model with was used and we included a group × time interaction in the model.||||<0.05
92255369|NCT00887822|184412645|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.8636|TWO_SIDED|95.0|0.75|1.41|||Log Rank|The difference in distribution of survival between the two treatment arms was tested with a two-sided unstratified log-rank test.|The hazard ratio between the two treatment arms was estimated with a univariate Cox's proportional hazards model.|||1.41|0.75|0.8636
92255370|NCT00887822|184412647|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.4709|TWO_SIDED|95.0|0.66|1.21|||Log Rank|The difference in distribution of progression-free survival between the two treatment arms was tested with a two-sided unstratified log-rank test.|The hazard ratio between the two treatment arms was estimated with a univariate Cox's proportional hazards model.|||1.21|0.66|0.4709
92255371|NCT00887822|184412649|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.3685|TWO_SIDED|95.0|0.58|1.22|||Log Rank|The difference in distribution of progression-free survival between the two treatment arms was tested with a two-sided unstratified log-rank test.|The hazard ratio between the two treatment arms was estimated with a univariate Cox's proportional hazards model.|||1.22|0.58|0.3685
92255372|NCT00887822|184412651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.8589|TWO_SIDED|95.0|0.67|1.41|||Log Rank|The difference in distribution of disease progression between the two treatment arms was tested with a two-sided unstratified log-rank test.|The hazard ratio between the two treatment arms was estimated with a univariate Cox's proportional hazards model.|||1.41|0.67|0.8589
92255373|NCT00887822|184412652|SUPERIORITY_OR_OTHER||Difference in Response Rates|7.02||||0.348|TWO_SIDED|95.0|-8.3|22.4|||Chi-squared||Approximate 95% CI for difference of two rates using Hauck-Anderson method|||22.4|-8.3|0.3480
92283853|NCT01226797|184471822|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.87||||0.0577|TWO_SIDED|95.0|-0.78|44.53||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 1||44.53|-0.78|0.0577
92255374|NCT00887822|184412653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53||||0.0462|TWO_SIDED|95.0|0.29|1.0|||Log Rank|The difference in distribution of response between the two treatment arms was tested with a two-sided unstratified log-rank test.|The hazard ratio between the two treatment arms was estimated with a univariate Cox's proportional hazards model.|||1.00|0.29|0.0462
92255375|NCT00887822|184412654|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|0.45||||0.9426|TWO_SIDED|95.0|-12.4|13.3|||Chi-squared||Approximate 95% CI for difference of two rates using Hauck-Anderson method|||13.3|-12.4|0.9426
92255376|NCT02000622|184412657|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.0009|TWO_SIDED|95.0|0.43|0.8||A priori threshold for statistical significance (2-sided) is 0.05.|Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|Study is sized to provide 90% power to detect a true treatment effect of PFS hazard ratio 0.653.||0.80|0.43|0.0009
92255377|NCT02000622|184412658|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0033|TWO_SIDED|95.0|0.4|0.83||PFS2 tested using a multiple testing procedure with a recycling strategy. With 157 PFS2 events, a priori threshold for statistical significance (2-sided) was 0.008.|Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|||0.83|0.40|0.0033
92255378|NCT02000622|184412659|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.5665|TWO_SIDED|95.0|0.63|1.29||OS tested using a multiple testing procedure with a recycling strategy. With 140 OS events, a priori threshold for statistical significance (2-sided) was 0.018.|Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|||1.29|0.63|0.5665
92255379|NCT02000622|184412661|SUPERIORITY||Mean Difference (Final Values)|7.5||||0.0035|TWO_SIDED|95.0|2.5|12.4|||Mixed Models Analysis|Variables for treatment, visit, treatment-visit interaction, adjusted for baseline global health status/QoL score, baseline score-visit interaction.|Mean difference \>0 favours olaparib.|||12.4|2.5|0.0035
92255380|NCT02000622|184412662|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0005|TWO_SIDED|95.0|0.41|0.78|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|||0.78|0.41|0.0005
92255381|NCT02000622|184412663|SUPERIORITY||Hazard Ratio (HR)|0.34|||<|0.0001|TWO_SIDED|95.0|0.24|0.47|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|Supportive analysis to PFS.||0.47|0.24|<0.0001
92255382|NCT02000622|184412664|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0002|TWO_SIDED|95.0|0.38|0.74|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|Supportive analysis to PFS2.||0.74|0.38|0.0002
92255383|NCT02000622|184412665|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.5131|TWO_SIDED|95.0|0.66|1.23||OS tested using a multiple testing procedure with a recycling strategy. With 192 OS events, a priori threshold for statistical significance was 0.045.|Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|||1.23|0.66|0.5131
92255384|NCT02000622|184412666|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.4167|TWO_SIDED|95.0|0.67|1.18|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|||1.18|0.67|0.4167
92255385|NCT02000622|184412667|SUPERIORITY||Hazard Ratio (HR)|0.36|||<|0.0001|TWO_SIDED|95.0|0.27|0.5|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|Supportive analysis to PFS.||0.50|0.27|<0.0001
92255386|NCT02000622|184412668|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.4|0.72|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|Supportive analysis to PFS2.||0.72|0.40|<0.0001
92255387|NCT01462045|184412669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|5.7|<|0.01|TWO_SIDED|95.0|-25.6|-1.6|||t-test, 2 sided|||||-1.6|-25.6|<0.01
92255388|NCT01462045|184412670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_ERROR_OF_MEAN|2.4|<|0.01|TWO_SIDED|95.0|0.83|10.8|||t-test, 2 sided|||||10.8|0.83|<0.01
92255389|NCT04283773|184412680|SUPERIORITY||Median Difference (Final Values)|0.001|STANDARD_DEVIATION|1.5||0.001|TWO_SIDED|95.0|0.0|8.0||The test of significance is Kruskal Wallis was used to examine the Difference in Median between groups. Post-hoc test with Bonferroni Correction was used for Pairwise comparisons . A p-value \< 0.05 was considered significant.|Kruskal-Wallis|||Assessment of statistical differences in P16 expression between 3 groups. The immunohistochemical evaluation is done using German- semiquantitative scoring system. The score ranges from ( 0, 1,2,3,4,6,8,9 and 12). The data will entered on SPSS,version 24 as numbers. The test of significance is Kruskal Wallis was used to examine the Difference in Median between groups. Post-hoc test with Bonferroni Correction was used for Pairwise comparisons . A p-value \< 0.05 was considered significant.||8|0|0.001
92255390|NCT04283773|184412681|SUPERIORITY||Hazard Ratio, log|0.009||||0.009|TWO_SIDED|95.0|0.0|8.0||Data were analysed using IBM-SPSS version 24. Correlation analysis was used (Spearman' Ranked correlation, 2-tailed). A p-value \< 0.05 was considered significant.|Spearman's rank correlation coefficient(|||Correlation between Ki 67 expression using percentage of Ki67 positive nuclei and P16 cytoplasmic expression using German semi quantitative score among MOGCT group. Data were analysed using IBM-SPSS version 24. Correlation analysis was used (Spearman' Ranked correlation, 2-tailed). A p-value \< 0.05 was considered significant.||8|0|0.009
92265295|NCT04557189|184432023|SUPERIORITY||Adjusted Treatment Difference|-0.094|||||TWO_SIDED|95.0|-0.253|0.059|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.059|-0.253|
92283854|NCT01226797|184471822|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.3||||0.3669|TWO_SIDED|95.0|-11.71|30.3||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 2||30.30|-11.71|0.3669
92178122|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|1.48||||0.052|TWO_SIDED|95.0|-0.02|2.97||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.96|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||2.97|-0.02|0.052
92178123|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.754|TWO_SIDED|95.0|-1.79|2.46||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.31|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||2.46|-1.79|0.754
92178124|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|-1.14||||0.294|TWO_SIDED|95.0|-3.28|1.0||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -1.06|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||1.00|-3.28|0.294
92178125|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|1.46||||0.031|TWO_SIDED|95.0|0.13|2.78||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 2.17|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||2.78|0.13|0.031
92283855|NCT01226797|184471822|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.09||||0.2482|TWO_SIDED|95.0|-10.62|38.8||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 3||38.80|-10.62|0.2482
92178126|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.752|TWO_SIDED|95.0|-1.56|2.16||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 0.32|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||2.16|-1.56|0.752
92265296|NCT04557189|184432024|SUPERIORITY||Adjusted Treatment Difference|-0.141|||||TWO_SIDED|95.0|-0.316|0.033|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.033|-0.316|
92265297|NCT04557189|184432025|SUPERIORITY||Adjusted Treatment Difference|0.191|||||TWO_SIDED|95.0|-0.029|0.41|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.410|-0.029|
92255391|NCT04283773|184412682|SUPERIORITY|One-way ANOVA was used to examine the Difference in Mean between groups. Post-hoc test with Bonferroni Correction was used for Pairwise comparisons .Data was expressed as mean (SD). P value is significant if less than 0.05.|Mean Difference (Final Values)|11.0|STANDARD_DEVIATION|1.5||0.699|TWO_SIDED|80.0|9.5|13.0||One-way ANOVA was used to examine the Difference in Mean between groups. Post-hoc test with Bonferroni Correction was used for Pairwise comparisons .Data was expressed as mean (SD). P value is significant if less than 0.05.|ANOVA|||Correlation between P16 cytoplasmic score using German semi-quantitative system and FIGO staging of MOGCTs was done via One-way ANOVA was used to examine the Difference in Mean between groups. Post-hoc test with Bonferroni Correction was used for Pairwise comparisons .Data was expressed as mean (SD).||13|9.5|0.699
92178127|NCT02938923|184251823|SUPERIORITY||Mean Difference (Final Values)|-1.16||||0.223|TWO_SIDED|95.0|-3.03|0.71||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = -1.22|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||0.71|-3.03|0.223
92178128|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|0.85||||0.006|TWO_SIDED|95.0|0.24|1.46||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 2.78|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1.46|0.24|0.006
92283856|NCT01226797|184471822|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.19||||0.0801|TWO_SIDED|95.0|-3.84|62.22||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 4||62.22|-3.84|0.0801
92178129|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.863|TWO_SIDED|95.0|-0.81|0.97||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.17|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.97|-0.81|0.863
92178130|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.091|TWO_SIDED|95.0|-1.67|0.12||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -1.71|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.12|-1.67|0.091
92178131|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.009|TWO_SIDED|95.0|0.21|1.44||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 2.65|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||1.44|0.21|0.009
92178132|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.778|TWO_SIDED|95.0|-0.76|1.02||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 0.28|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||1.02|-0.76|0.778
92178133|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.124|TWO_SIDED|95.0|-1.59|0.19||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = -1.55|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.19|-1.59|0.124
92255392|NCT03558828|184412713|OTHER|A power analysis based on the study's primary aim (impact of augmented treatments on non-responders) was conducted. An estimated effect size of d=0.41 for the difference between the two augmented treatments was used. With a 2-tailed alpha of 0.05, a pre-post correlation of r=0.60, and a sample size of 188 non-responders, an estimated 80% power was obtained. Assuming 67% non-response to the initial treatments and 10% attrition, the final target sample size was N=312.|Effect size estimates|0.41|||||TWO_SIDED|95.0||||All analyses employed an intent-to-treat approach using a two-tailed alpha of 0.05 with no adjustment for multiple tests.|GEEs||Effect size estimates (Cohen's d) for all analyses were created by using the relevant slope (i.e., change) effect as the numerator and the baseline standard deviation of the dependent variable as the denominator.||"The longitudinal trajectories using generalized estimating equations (GEEs) were estimated. Cases for responders are duplicated and weighted based on the inverse probability of being assigned to a particular adaptive intervention (i.e., responders have a ½ probability of assignment to a specific adaptive intervention, and non-responders have a ¼ probability).~Only the Phase 1 (baseline to 8 weeks) treatment condition x time interaction was included because it preceded the randomization to Phase 2 (weeks 9-34) treatment conditions. Planned contrasts were used to test specific hypotheses. Effect size estimates for all analyses were created by using the relevant slope effect as the numerator and the baseline standard deviation of the dependent variable as the denominator. All analyses employed an intent-to-treat approach using a two-tailed alpha of 0.05 with no adjustment for multiple tests."|||
92178134|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|0.69||||0.027|TWO_SIDED|95.0|0.08|1.31||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 2.24|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||1.31|0.08|0.027
92178135|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.833|TWO_SIDED|95.0|-0.97|0.78||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.21|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.78|-0.97|0.833
92178136|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.08|TWO_SIDED|95.0|-1.67|0.1||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -1.77|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.10|-1.67|0.080
92178137|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|0.67||||0.014|TWO_SIDED|95.0|0.14|1.21||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 2.49|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||1.21|0.14|0.014
92178138|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.834|TWO_SIDED|95.0|-0.84|0.68||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = -0.21|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.68|-0.84|0.834
92178139|NCT02938923|184251824|SUPERIORITY||Mean Difference (Final Values)|-0.75||||0.054|TWO_SIDED|95.0|-1.52|0.01||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = -1.94|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.01|-1.52|0.054
92178140|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.326|TWO_SIDED|95.0|-0.25|0.74||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.99|Difference between the BADL changes (EX+T - EX+P)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.74|-0.25|0.326
92178141|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.587|TWO_SIDED|95.0|-0.87|0.49||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.54|Difference between the BADL changes (EX+T - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.49|-0.87|0.587
92178142|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.213|TWO_SIDED|95.0|-1.12|0.25||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -1.25|Difference between the BADL changes (EX+P - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.25|-1.12|0.213
92265298|NCT04557189|184432026|SUPERIORITY||Adjusted Treatment Difference|0.146|||||TWO_SIDED|95.0|-0.073|0.365|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.365|-0.073|
92178143|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.41|TWO_SIDED|95.0|-0.32|0.78||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.83|Difference between the BADL changes (EX+T - EX+P)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.78|-0.32|0.410
92265299|NCT04557189|184432027|SUPERIORITY||Adjusted Treatment Difference|-0.234|||||TWO_SIDED|95.0|-0.448|-0.019|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||-0.019|-0.448|
92265300|NCT04557189|184432028|SUPERIORITY||Hazard Ratio (HR)|0.393|||||TWO_SIDED|95.0|0.122|1.259|||||The hazard ratio is derived from a Cox proportional hazard model with treatment group and the number of Apfel risk factors (3 or 4) as independent variables.|||1.259|0.122|
92178144|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.527|TWO_SIDED|95.0|-0.99|0.51||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.63|Difference between the BADL changes (EX+T - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.51|-0.99|0.527
92255393|NCT03558828|184412714|OTHER|A power analysis based on the study's primary aim (impact of augmented treatments on non-responders) was conducted. An estimated effect size of d=0.41 for the difference between the two augmented treatments was used. With a 2-tailed alpha of 0.05, a pre-post correlation of r=0.60, and a sample size of 188 non-responders, an estimated 80% power was obtained. Assuming 67% non-response to the initial treatments and 10% attrition, the final target sample size was N=312.|Effect size estimates|0.41|||||TWO_SIDED|95.0||||All analyses employed an intent-to-treat approach using a two-tailed alpha of 0.05 with no adjustment for multiple tests.|GEEs||Effect size estimates for all analyses were created by using the relevant slope (i.e., change) effect as the numerator and the baseline standard deviation of the dependent variable as the denominator. An estimated effect size of d=0.41 was used.||There were time slope terms for Phase 1 (baseline to 8-week assessment), Phase 2 (9-weeks to 34-week assessment), and Phase 3 (maintenance from 35-weeks to 50-week assessment). Also, there were interactions of condition and time slopes. For Phase 1, only the Phase 1 treatment condition x time interaction was included because it preceded the randomization to Phase 2 treatment conditions. Supplementary analyses were conducted to compare the trajectories of responders versus non-responders to the Phase 1 treatment. Effect size estimates for all analyses were created by using the relevant slope (i.e., change) effect as the numerator and the baseline standard deviation of the dependent variable as the denominator. The resulting effect size is equivalent to a Cohen's d, representing mean change (or difference in change) in standard deviation units. All analyses employed an intent-to-treat approach using a two-tailed alpha of 0.05 with no adjustment for multiple tests.|||
92283857|NCT01226797|184471830|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.06||||0.0031|TWO_SIDED|95.0|-35.67|-8.44||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 2||-8.44|-35.67|0.0031
92182775|NCT02609048|184264683|SUPERIORITY||Difference in LSM|11.18|STANDARD_ERROR_OF_MEAN|8.29||0.1874|TWO_SIDED|95.0|-5.73|28.08||Difference between means,p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as a factor,baseline assessment as covariate, and percent change from baseline as the response variable.|ANCOVA|||||28.08|-5.73|0.1874
92178145|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.219|TWO_SIDED|95.0|-1.23|0.28||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.23|Difference between the BADL changes (EX+P - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.28|-1.23|0.219
92178146|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.355|TWO_SIDED|95.0|-0.25|0.69||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.93|Difference between the BADL changes (EX+T - EX+P)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.69|-0.25|0.355
92178147|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.554|TWO_SIDED|95.0|-0.88|0.47||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.59|Difference between the BADL changes (EX+T - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.47|-0.88|0.554
92255394|NCT03671148|184412737|SUPERIORITY||Response Rate Difference|24.5|||<|0.001|TWO_SIDED|95.0|15.9|33.0||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|The comparison between the risankizumab and placebo treatment groups for the primary efficacy endpoint (ACR20 at Week 24) was performed using the Cochran-Mantel-Haenszel (CMH) test adjusting for the stratification factors of current use of csDMARD (0 vs ≥ 1), number of prior biologic therapies (0 vs ≥ 1), and extent of psoriasis (≥ 3% BSA or \< 3% BSA) at Baseline.||33.0|15.9|<0.001
92255395|NCT03671148|184412738|SUPERIORITY||Least Squares (LS) Mean Difference|-0.16|||<|0.001|TWO_SIDED|95.0|-0.26|-0.07||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||-0.07|-0.26|<0.001
92255396|NCT03671148|184412739|SUPERIORITY||Response Rate Difference|44.3|||<|0.001|TWO_SIDED|95.0|33.9|54.6||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||54.6|33.9|<0.001
92178148|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.219|TWO_SIDED|95.0|-1.1|0.26||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -1.24|Difference between the BADL changes (EX+P - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.26|-1.10|0.219
92178149|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.345|TWO_SIDED|95.0|-0.24|0.68||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.95|Difference between the BADL changes (EX+T - EX+P)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.68|-0.24|0.345
92255397|NCT03671148|184412740|SUPERIORITY||Response Rate Difference|22.6|||<|0.001|TWO_SIDED|95.0|13.9|31.2||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||31.2|13.9|<0.001
92255398|NCT03671148|184412741|SUPERIORITY||Response Rate Difference|14.0|||<|0.001|TWO_SIDED|95.0|7.0|21.0||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||21.0|7.0|<0.001
92255399|NCT03671148|184412742|SUPERIORITY||LS Mean Difference|3.86|||<|0.001|TWO_SIDED|95.0|2.41|5.31||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||5.31|2.41|<0.001
92283858|NCT01226797|184471830|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.34||||0.0015|TWO_SIDED|95.0|-25.64|-7.04||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 4||-7.04|-25.64|0.0015
92283859|NCT02480764|184471848|NON_INFERIORITY|A test for noninferiority was done using a margin of 1.5 mm Hg. A test for significant difference was performed at 5% level.|Least Square Mean Difference|-1.932|STANDARD_ERROR_OF_MEAN|1.4512||0.184|TWO_SIDED|95.0|-4.782|0.918||Change at Week 8: P-value was calculated using analysis of covariance (ANCOVA) model, with treatment group as a fixed effect and baseline trough sitting clinic SBP as a continuous covariate.|ANCOVA|||||0.918|-4.782|0.184
92255400|NCT03671148|184412743|SUPERIORITY||LS Mean Difference|2.2||||0.009|TWO_SIDED|95.0|0.6|3.9||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||3.9|0.6|0.009
92255401|NCT03671148|184412744|SUPERIORITY||Response Rate Difference|16.6|||<|0.001|TWO_SIDED|95.0|9.7|23.6|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||23.6|9.7|<0.001
92178150|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.494|TWO_SIDED|95.0|-0.88|0.43||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.69|Difference between the BADL changes (EX+T - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.43|-0.88|0.494
92255402|NCT03671148|184412745|SUPERIORITY||Response Rate Difference|6.0||||0.024|TWO_SIDED|95.0|0.8|11.3|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||11.3|0.8|0.024
92255403|NCT03671148|184412746|SUPERIORITY||Response Rate Difference|13.8||||0.009|TWO_SIDED|95.0|3.5|24.2|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||24.2|3.5|0.009
92178151|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.45||||0.18|TWO_SIDED|95.0|-1.11|0.21||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.35|Difference between the BADL changes (EX+P - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.21|-1.11|0.180
92178152|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.693|TWO_SIDED|95.0|-0.75|0.5||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.4|Difference between the changes of IADL of EX+T - EX+P|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.50|-0.75|0.693
92178153|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.327|TWO_SIDED|95.0|-1.27|0.43||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.98|Difference between the IADL changes (EX+T - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.43|-1.27|0.327
92255404|NCT03671148|184412747|SUPERIORITY||Response Rate Difference|38.8|||<|0.001|TWO_SIDED|95.0|22.9|54.8|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||54.8|22.9|<0.001
92255405|NCT00425945|184412749|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.3|||||TWO_SIDED|95.0|-0.1|14.9||||||||14.9|-0.1|
92178154|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.493|TWO_SIDED|95.0|-1.15|0.56||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.69|Difference between the IADL changes (EX+P - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.56|-1.15|0.493
92178155|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.698|TWO_SIDED|95.0|-0.72|0.49||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.39|Difference between the IADL changes (EX+T - EX+P)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.49|-0.72|0.698
92178156|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.404|TWO_SIDED|95.0|-1.17|0.47||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.84|Difference between the IADL changes (EX+T - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.47|-1.17|0.404
92178157|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.585|TWO_SIDED|95.0|-1.06|0.6||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.55|Difference between the IADL changes (EX+P - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.60|-1.06|0.585
92255406|NCT00425945|184412750|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.4|||||TWO_SIDED|95.0|-2.1|10.8||||||||10.8|-2.1|
92255407|NCT00425945|184412751|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-1.7|2.5||||||||2.5|-1.7|
92255408|NCT00425945|184412752|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.2|||||TWO_SIDED|95.0|-2.3|38.7||||||||38.7|-2.3|
92255409|NCT00425945|184412753|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.1|0.3||||||||0.3|-0.1|
92255410|NCT00425945|184412754|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|0.0|0.1||||||||0.1|-0.0|
92255411|NCT00425945|184412755|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|||||TWO_SIDED|95.0|-6.8|0.5||||||||0.5|-6.8|
92255412|NCT00425945|184412756|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.5|0.5||||||||0.5|-1.5|
92255413|NCT00425945|184412757|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|0.0|0.4||||||||0.4|0.0|
92283860|NCT02480764|184471848|NON_INFERIORITY|A test for noninferiority was done using a margin of 1.5 mm Hg. A test for significant difference was performed at 5% level.|Least Square Mean Difference|-3.685|STANDARD_ERROR_OF_MEAN|1.4344||0.01|TWO_SIDED|95.0|-6.502|-0.868||Change at Week 8: P-value was calculated using ANCOVA model, with treatment group as a fixed effect and baseline trough sitting clinic SBP as a continuous covariate.|ANCOVA|||||-0.868|-6.502|0.010
92178158|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.399|TWO_SIDED|95.0|-0.31|0.76||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.85|Difference between IADL changes (EX+T - EX+P)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.76|-0.31|0.399
92255414|NCT00425945|184412758|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|||||TWO_SIDED|95.0|0.1|2.4||||||||2.4|0.1|
92255415|NCT00425945|184412759|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-4.4|2.3||||||||2.3|-4.4|
92255416|NCT00425945|184412760|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|||||TWO_SIDED|95.0|-0.9|2.5||||||||2.5|-0.9|
92255417|NCT00425945|184412761|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||||0.1|-0.1|
92255418|NCT00425945|184412762|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.8|||||TWO_SIDED|95.0|-1.6|9.3||||||||9.3|-1.6|
92255419|NCT00425945|184412763|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-3.4|0.8||||||||0.8|-3.4|
92255420|NCT05618808|184412787|SUPERIORITY||Posterior Odds Ratio|0.78|||||TWO_SIDED|90.0|0.47|1.32|||||REGN9933 vs Enoxaparin||"Bayesian Logistic Regression; Confidence Interval refers to Credible Interval"|1.32|0.47|
92283861|NCT02480764|184471849|OTHER||Least Square Mean Difference|-1.459|STANDARD_ERROR_OF_MEAN|0.9455||0.123|TWO_SIDED|95.0|-3.316|0.397||Change at Week 8: P-value was calculated using ANCOVA model, with treatment group as a fixed effect and baseline trough sitting clinic DBP as a continuous covariate.|ANCOVA|||||0.397|-3.316|0.123
92255421|NCT05618808|184412790|SUPERIORITY||Posterior Odds Ratio|0.44|||||TWO_SIDED|90.0|0.16|1.61|||||REGN9933 vs Enoxaparin||"Bayesian Logistic Regression; Confidence Interval refers to Credible Interval"|1.61|0.16|
92178159|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.554|TWO_SIDED|95.0|-0.53|0.98||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.59|Difference between the IADL changes (EX+T - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.98|-0.53|0.554
92255422|NCT05618808|184412791|SUPERIORITY||Posterior Odds Ratio|0.79|||||TWO_SIDED|90.0|0.47|1.32|||||REGN9933 vs Enoxaparin||"Bayesian Logistic Regression; Confidence Interval refers to Credible Interval"|1.32|0.47|
92255423|NCT05618808|184412797|SUPERIORITY||Posterior Odds Ratio|0.54|||||TWO_SIDED|90.0|0.32|0.95|||||Enoxaparin vs Apixaban||"Bayesian Logistic Regression; Confidence Interval refers to Credible Interval"|0.95|0.32|
92255424|NCT02527564|184412798|OTHER|||||||0.1||||||A p-value of \<0.05 would be considered statistically significant.|Paired 2-sided t-test|||Within group change at week 1 - suvorexant (double-blind)||||0.10
92255425|NCT02527564|184412798|OTHER|||||||0.57||||||A p-value of \<0.05 would be considered statistically significant.|Paired 2-sided t-test|||Within group change at week 1- placebo (double-blind) group||||0.57
92255426|NCT02527564|184412798|OTHER|||||||0.44||||||A p-value of \<0.05 would be considered statistically significant.|Unpaired 2-sided t-test|||Between group change at week 1||||0.44
92255427|NCT02527564|184412799|OTHER|||||||0.035||||||A p-value of \<0.05 would be considered significantly significant.|Paired 2-sided t-test|||Within group change at week 1 - suvorexant (double-blind)||||0.035
92255428|NCT02527564|184412799|OTHER|||||||0.55|||||||Paired 2-sided t-test|A p-value of \<0.05 would be considered statistically significant.||Within group change at week 1- placebo (double-blind) group||||0.55
92255429|NCT02527564|184412799|OTHER|||||||0.89||||||A p-value of \<0.05 would be considered statistically significant.|Paired 2-sided t-test|||Between group change at week 1||||0.89
92255430|NCT02527564|184412800|OTHER|||||||0.97||||||A p-value of \<0.05 would be considered significantly significant.|Paired 2-sided t-test|||Within group change at month 3 - suvorexant (open-label)||||0.97
92255431|NCT02527564|184412801|OTHER|||||||0.28||||||A p-value of \<0.05 would be considered significantly significant.|Paired 2-sided t-test|||Within group change at month 3 - suvorexant (open-label)||||0.28
92255432|NCT01804842|184412802|SUPERIORITY_OR_OTHER||% Ratio of LS Means|71.7||||0.0018|TWO_SIDED|90.0|61.14|84.01|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met DR qPM is the denominator for the % ratio of least squares (LS) means and the comparator for the p-values.||84.01|61.14|0.0018
92255433|NCT01804842|184412802|SUPERIORITY_OR_OTHER||% Ratio of LS Means|71.5||||0.002|TWO_SIDED|90.0|60.85|84.09|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||500 mg Met DR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||84.09|60.85|0.0020
92255434|NCT01804842|184412802|SUPERIORITY_OR_OTHER||% Ratio of LS Means|99.8||||0.9844|TWO_SIDED|90.0|84.91|117.33|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||500 mg Met DR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||117.33|84.91|0.9844
92255435|NCT01804842|184412803|SUPERIORITY_OR_OTHER||% Ratio of LS Means|83.8||||0.1595|TWO_SIDED|90.0|68.1|103.23|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met DR qPM is the denominator for the % ratio of LS means and the comparator for the p-values.||103.23|68.10|0.1595
92255436|NCT01804842|184412803|SUPERIORITY_OR_OTHER||% Ratio of LS Means|111.3||||0.3867|TWO_SIDED|90.0|90.37|136.99|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||500 mg Met DR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||136.99|90.37|0.3867
92255437|NCT01804842|184412803|SUPERIORITY_OR_OTHER||% Ratio of LS Means|132.7||||0.0294|TWO_SIDED|90.0|107.78|163.39|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||500 mg Met DR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||163.39|107.78|0.0294
92255438|NCT01804842|184412804|SUPERIORITY_OR_OTHER||% Ratio of LS Means|91.0||||0.0028|TWO_SIDED|95.0|85.7|96.67|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||96.67|85.70|0.0028
92255439|NCT01804842|184412804|SUPERIORITY_OR_OTHER||% Ratio of LS Means|90.9||||0.0024|TWO_SIDED|95.0|85.58|96.53|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||96.53|85.58|0.0024
92255440|NCT01804842|184412804|SUPERIORITY_OR_OTHER||% Ratio of LS Means|95.1||||0.0992|TWO_SIDED|95.0|89.54|100.99|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||100.99|89.54|0.0992
92255441|NCT01804842|184412805|SUPERIORITY_OR_OTHER||% Ratio of LS Means|90.4||||0.0006|TWO_SIDED|95.0|85.55|95.56|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||95.56|85.55|0.0006
92255442|NCT01804842|184412805|SUPERIORITY_OR_OTHER||% Ratio of LS Means|90.5||||0.0007|TWO_SIDED|95.0|85.65|95.67|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||95.67|85.65|0.0007
92255443|NCT01804842|184412805|SUPERIORITY_OR_OTHER||% Ratio of LS Means|94.3||||0.0389|TWO_SIDED|95.0|89.24|99.69|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||99.69|89.24|0.0389
92255444|NCT00628134|184412806|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon matched-pairs signed-ranks test was used for comparisons||||0.07
92255445|NCT00628134|184412807|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon matched-pairs signed-ranks test was used for comparisons||||0.29
92255446|NCT02365506|184412808|SUPERIORITY||Difference in LSM|-7.7|STANDARD_ERROR_OF_MEAN|7.92||0.358|TWO_SIDED|95.0|-26.0|10.5|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|Least Square mean (LSM) and 95% confidence interval (CI) is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||10.5|-26.0|0.358
92255447|NCT02365506|184412808|SUPERIORITY||Difference in LSM|-1.7|STANDARD_ERROR_OF_MEAN|7.96||0.84|TWO_SIDED|95.0|-20.0|16.7|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||16.7|-20.0|0.840
92255448|NCT02365506|184412809|SUPERIORITY||Difference in LSM|-6.0|STANDARD_ERROR_OF_MEAN|5.83||0.338|TWO_SIDED|95.0|-19.8|7.8|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||7.8|-19.8|0.338
92255449|NCT02365506|184412809|SUPERIORITY||Difference in LSM|5.3|STANDARD_ERROR_OF_MEAN|6.21||0.425|TWO_SIDED|95.0|-9.4|19.9|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||19.9|-9.4|0.425
92255450|NCT02365506|184412810|SUPERIORITY||Difference in LSM|-6.5|STANDARD_ERROR_OF_MEAN|4.42||0.174|TWO_SIDED|95.0|-16.5|3.5|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||3.5|-16.5|0.174
92255451|NCT02365506|184412810|SUPERIORITY||Difference in LSM|3.4|STANDARD_ERROR_OF_MEAN|4.28||0.448|TWO_SIDED|95.0|-6.3|13.1|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||13.1|-6.3|0.448
92255452|NCT02365506|184412811|SUPERIORITY||Difference in LSM|8.8|STANDARD_ERROR_OF_MEAN|8.5||0.339|TWO_SIDED|95.0|-12.0|29.6|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||29.6|-12.0|0.339
92255453|NCT02365506|184412811|SUPERIORITY||Difference in LSM|12.8|STANDARD_ERROR_OF_MEAN|8.4||0.178|TWO_SIDED|95.0|-7.7|33.4|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||33.4|-7.7|0.178
92255454|NCT02365506|184412812|SUPERIORITY||Difference in LSM|4.9|STANDARD_ERROR_OF_MEAN|8.03||0.564|TWO_SIDED|95.0|-14.1|23.9|||Mixed Models Analysis|||||23.9|-14.1|0.564
92255455|NCT02365506|184412812|SUPERIORITY||Difference in LSM|2.7|STANDARD_ERROR_OF_MEAN|7.38||0.721|TWO_SIDED|95.0|-14.7|20.2|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||20.2|-14.7|0.721
92283862|NCT02480764|184471849|OTHER||Least Square Mean Difference|-2.822|STANDARD_ERROR_OF_MEAN|0.9354||0.003|TWO_SIDED|95.0|-4.659|-0.985||Change at 8 Week: P-value was calculated using ANCOVA model, with treatment group as a fixed effect and baseline trough sitting clinic DBP as a continuous covariate.|ANCOVA|||||-0.985|-4.659|0.003
92255456|NCT03774875|184412816|SUPERIORITY||Adjusted Difference in Response Rates|31.9|STANDARD_ERROR_OF_MEAN|6.78|<|0.0001|TWO_SIDED|95.0|18.6|45.2|||Cochran-Mantel-Haenszel|The CMH (Cochran-Mantel-Haenszel) test adjusting for the stratification of the 5 difficult to treat manifestation types at randomization.|Adjusted difference (apremilast - placebo) in response rates calculated using the weighted average of the treatment differences across the strata with the CMH weights.|||45.2|18.6|<0.0001
92255457|NCT03774875|184412817|SUPERIORITY||Least Squares (LS) Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|0.95|<|0.0001|TWO_SIDED|95.0|-7.15|-3.43|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and baseline value as a covariate.|Difference in LS Means = Apremilast - Placebo|||-3.43|-7.15|<0.0001
92255458|NCT03774875|184412818|SUPERIORITY||LS Mean Difference|-38.4|STANDARD_ERROR_OF_MEAN|14.12||0.0085|TWO_SIDED|95.0|-66.58|-10.14|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate variable.|LS Mean Difference = Apremilast - Placebo|||-10.14|-66.58|0.0085
92255459|NCT03774875|184412819|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|95.0|-2.34|-0.86|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||-0.86|-2.34|<0.0001
92255460|NCT03774875|184412820|SUPERIORITY||LS Mean Difference|-16.1|STANDARD_ERROR_OF_MEAN|4.31||0.0003|TWO_SIDED|95.0|-24.63|-7.6|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||-7.60|-24.63|0.0003
92255461|NCT03774875|184412821|SUPERIORITY||Adjusted Difference in Response Rates|13.5|STANDARD_ERROR_OF_MEAN|6.3||0.0328|TWO_SIDED|95.0|1.1|25.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification of the 5 difficult to treat manifestation types at randomization.|The adjusted difference in response rates (Apremilast - Placebo) using the weighted average of the treatment differences across the strata with the CMH weights.|||25.8|1.1|0.0328
92283863|NCT02480764|184471850|OTHER||Odds Ratio (OR)|0.877|STANDARD_ERROR_OF_MEAN|0.192||0.548|TWO_SIDED|95.0|0.571|1.347||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.347|0.571|0.548
92283864|NCT02480764|184471850|OTHER||Odds Ratio (OR)|0.979|STANDARD_ERROR_OF_MEAN|0.2136||0.921|TWO_SIDED|95.0|0.638|1.501||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.501|0.638|0.921
92255462|NCT03774875|184412822|SUPERIORITY||Adjusted Difference in Response Rates|37.0|STANDARD_ERROR_OF_MEAN|6.58|<|0.0001|TWO_SIDED|95.0|24.1|49.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the stratification of the 5 difficult to treat manifestation types at randomization.|Adjusted difference (Apremilast - Placebo) in response rates using the weighted average of the treatment differences across the strata with the CMH weights.|||49.9|24.1|<0.0001
92255463|NCT03774875|184412823|SUPERIORITY||LS Mean Difference|14.9|STANDARD_ERROR_OF_MEAN|18.55||0.4216|TWO_SIDED|95.0|-21.62|51.48|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||51.48|-21.62|0.4216
92255464|NCT03774875|184412824|SUPERIORITY||LS Mean Difference|-148.024|STANDARD_ERROR_OF_MEAN|103.9525||0.1559|TWO_SIDED|95.0|-352.8793|56.8304|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||56.8304|-352.8793|0.1559
92255465|NCT03774875|184412825|SUPERIORITY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|2.82||0.2667|TWO_SIDED|95.0|-2.43|8.73|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||8.73|-2.43|0.2667
92255466|NCT03774875|184412826|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|4.23||0.562|TWO_SIDED|95.0|-10.83|5.91|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||5.91|-10.83|0.5620
92255467|NCT03774875|184412827|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|4.81||0.8927|TWO_SIDED|95.0|-10.16|8.86|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||8.86|-10.16|0.8927
92283865|NCT02480764|184471851|OTHER||Odds Ratio (OR)|1.033|STANDARD_ERROR_OF_MEAN|0.2805||0.904|TWO_SIDED|95.0|0.607|1.759||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||1.759|0.607|0.904
92255468|NCT03774875|184412828|SUPERIORITY||LS Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|4.09||0.0572|TWO_SIDED|95.0|-15.9|0.24|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||0.24|-15.90|0.0572
92255469|NCT02352090|184412854|OTHER|||||||0.27|||||||ANOVA|||||||0.27
92255470|NCT05179057|184412953|SUPERIORITY|A logistic regression model included treatment, level of viremia at baseline (≥10,000 copies/mL or \<10,000 copies/mL adenovirus DNA), age (≥12 years or \<12 years), and absolute lymphocyte counts at baseline. The null hypothesis is that the true percentage for posoleucel plus SoC is less than or equal to the true percentage for placebo plus SoC, and the alternative hypothesis is that it is greater.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.26|3.69|||||Posoleucel versus Placebo|||3.69|0.26|
92255471|NCT03375203|184412980|OTHER||Back-transformed Least Square Mean Ratio|0.88|||=|0.346|TWO_SIDED|90.0|0.7|1.1|||ANCOVA|||||1.10|0.70|= 0.346
92255472|NCT03375203|184412980|OTHER||Back-transformed Least Square Mean Ratio|0.64|||=|0.001|TWO_SIDED|90.0|0.51|0.81|||ANCOVA|||||0.81|0.51|= 0.001
92255473|NCT03375203|184412980|OTHER||Back-transformed Least Square Mean Ratio|0.51|||<|0.001|TWO_SIDED|90.0|0.41|0.64|||ANCOVA|||||0.64|0.41|< 0.001
92255474|NCT03375203|184412980|OTHER|||||||0|||||||MCP-mod|||||||0.000
92255475|NCT03107793|184413027|SUPERIORITY||||||=|0.0871|||||||Cochran-Mantel-Haenszel|||||||= 0.0871
92255476|NCT02808507|184413064|OTHER||Treatment initiation ratio|1.04||||0.73|TWO_SIDED|95.0|0.8|1.3|||See above comments|||The primary analysis was based on the facility-level rate ratio. We first calculated an unadjusted ratio of the treatment initiation rates between the two arms and the corresponding 95% CI. We first fit a Poisson regression to the facility-level counts and the district and historical volume covariates. The residuals ratios, calculated as the ratio of the observed over the expected counts, were then used in the second stage to estimate the between-arm rate ratio and the corresponding 95% CI.||1.3|0.80|0.73
92283866|NCT02480764|184471851|OTHER||Odds Ratio (OR)|1.074|STANDARD_ERROR_OF_MEAN|0.2897||0.79|TWO_SIDED|95.0|0.633|1.823||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||1.823|0.633|0.790
92283867|NCT02480764|184471852|OTHER||Odds Ratio (OR)|0.901|STANDARD_ERROR_OF_MEAN|0.1916||0.624|TWO_SIDED|95.0|0.594|1.367||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.367|0.594|0.624
92255477|NCT02808507|184413065|OTHER||Treatment initiation ratio|1.05||||0.68|TWO_SIDED|95.0|0.97|1.13|||Poisson regression||Adjusted for district, study phase and clinic random effect.|The primary outcome of the study was the comparative number of people with incident TB diagnosed and started on treatment at study clinics during the two study periods, excluding the six-month washout period. The number of people starting treatment for incident TB was calculated by performing a review of paper and electronic medical records at each clinic on a quarterly basis during the study.||1.13|0.97|0.68
92255478|NCT02808507|184413066|OTHER||Prevalence ratio|1.0||||0.8|TWO_SIDED|95.0|0.51|1.95||"The pre-specified secondary study outcome was the number of Xpert-based TB diagnoses made among enrolled contacts (secondary cases) by arm."|Poisson regression||Adjusted for study phase and district|||1.95|0.51|0.80
92255479|NCT02040857|184413084|OTHER|Exact binomial test||||||0.0011|||||||Exact binomial test|||Primary objective is treatment discontinuation rate at 2 yr for patients receiving Palbociclib therapy. If the true rate of discontinuation by two years is 48% or higher, treatment duration will be considered not feasible and not worthy of further study. If the rate of discontinuation is 33.3% or less, the 2 yr duration will be deemed feasible and worthy of further study. Using a one-sided alpha = 0.025, there is \> 90% power to reject the null hypothesis in favor of feasibility.||||0.0011
92255480|NCT00976963|184413090|NON_INFERIORITY|The equivalence margin for non-inferiority of Fosfomycin to TMP/SMX is 10%.|||||<|0.001|||||||Wald test for noninferiority|||The null hypothesis is that Fosfomycin is inferior to TMP/SMX.||||<0.001
92255481|NCT00608842|184413092|SUPERIORITY_OR_OTHER||Difference to placebo|0.0|||||TWO_SIDED|95.0|-18.4|20.4||||||Complete Clearance||20.4|-18.4|
92255482|NCT00608842|184413092|SUPERIORITY_OR_OTHER||Difference to placebo|0.0|||||TWO_SIDED|95.0|-18.4|20.4||||||Complete Clearance||20.4|-18.4|
92255483|NCT00608842|184413092|SUPERIORITY_OR_OTHER||Difference to placebo|7.1|||||TWO_SIDED|95.0|-12.2|31.5||||||Complete Clearance||31.5|-12.2|
92255484|NCT00608842|184413092|SUPERIORITY_OR_OTHER||Difference to placebo|1.6|||||TWO_SIDED|95.0|-23.0|27.5||||||≥ 75% Cleared||27.5|-23.0|
92255485|NCT00608842|184413092|SUPERIORITY_OR_OTHER||Difference to placebo|-5.1|||||TWO_SIDED|95.0|-28.3|19.6||||||≥ 75% Cleared||19.6|-28.3|
92255486|NCT00608842|184413092|SUPERIORITY_OR_OTHER||Difference to placebo|2.5|||||TWO_SIDED|95.0|-22.3|29.5||||||≥ 75% Cleared||29.5|-22.3|
92255487|NCT01791465|184413098|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92255488|NCT01791465|184413099|SUPERIORITY_OR_OTHER|||||||0.34||||||Unadjusted - this was a Wilcoxon signed rank p-value (Baseline vs. week 16) comparison|Wilcoxon (Mann-Whitney)|no adjustments||The null hypothesis was that there would be no difference between baseline and 16 week IL-6||||0.34
92255489|NCT01791465|184413100|SUPERIORITY_OR_OTHER|||||||0.046|||||||Wilcoxon (Mann-Whitney)|||||||0.046
92255490|NCT01791465|184413101|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
92255491|NCT01791465|184413102|SUPERIORITY_OR_OTHER|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
92255492|NCT01791465|184413103|SUPERIORITY_OR_OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
92255493|NCT01791465|184413104|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
92255494|NCT01791465|184413105|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92255495|NCT01791465|184413106|SUPERIORITY_OR_OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
92255496|NCT01791465|184413107|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92255497|NCT01791465|184413108|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92255498|NCT01791465|184413109|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
92255499|NCT01791465|184413110|SUPERIORITY_OR_OTHER|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
92255500|NCT01791465|184413111|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.50
92255501|NCT01791465|184413112|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
92255502|NCT01791465|184413113|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
92255503|NCT01791465|184413114|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
92255504|NCT01791465|184413115|SUPERIORITY_OR_OTHER|||||||0.046|||||||Wilcoxon (Mann-Whitney)|||||||0.046
92255505|NCT01791465|184413116|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
92255506|NCT01791465|184413117|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92255507|NCT01791465|184413118|SUPERIORITY_OR_OTHER|||||||0.046|||||||Wilcoxon (Mann-Whitney)|||||||0.046
92255508|NCT01448707|184413138|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DRV/rtv monotherapy versus triple therapy was assessed with a maximum allowable difference of 12 percent (%), with a one-sided significance level of 2.5%.|Non-Linear mixed|-7.9||||0.2331|TWO_SIDED|95.0|-14.64|-1.19||P-Value for non-inferiority of DRV/rtv MONO vs DRV/rtv + 2NRTIs (delta = 12%).|Mixed Models Analysis|Predicted response rate:confidence limits are obtained by means of logistic regression model with treatment group and Hepatitis C status as covariates||||-1.19|-14.64|0.2331
92255509|NCT01448707|184413139|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DRV/rtv monotherapy versus triple therapy was assessed with a maximum allowable difference of 12 percent (%), with a one-sided significance level of 2.5% and 80% power.|Non-Linear mixed|-10.1||||0.6933|TWO_SIDED|95.0|-19.5|-0.73|||Mixed Models Analysis|||||-0.73|-19.50|0.6933
92255510|NCT01448707|184413140|NON_INFERIORITY_OR_EQUIVALENCE|Week 48: Non-inferiority of DRV/rtv monotherapy versus triple therapy was assessed with a maximum allowable difference of 12 percent (%), with a one-sided significance level of 2.5% and 80% power.|Non-linear mixed model|-3.5||||0.0016|TWO_SIDED|95.0|-8.77|1.72|||Mixed Models Analysis|||||1.72|-8.77|0.0016
92255511|NCT01448707|184413140|NON_INFERIORITY_OR_EQUIVALENCE|Week 96: Non-inferiority of DRV/rtv monotherapy versus triple therapy was assessed with a maximum allowable difference of 12 percent (%), with a one-sided significance level of 2.5% and 80% power.|non-linear mixed model|-0.7||||0.0022|TWO_SIDED|95.0|-7.89|6.58|||Mixed Models Analysis|||||6.58|-7.89|0.0022
92255512|NCT02033850|184413145|SUPERIORITY|||||||0.145|||||||t-test, 2 sided|||Δs on ADL (baseline vs 6 months)||||.145
92283868|NCT02480764|184471852|OTHER||Odds Ratio (OR)|1.103|STANDARD_ERROR_OF_MEAN|0.235||0.647|TWO_SIDED|95.0|0.726|1.674||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.674|0.726|0.647
92283869|NCT02480764|184471853|OTHER||Odds Ratio (OR)|0.831|STANDARD_ERROR_OF_MEAN|0.1846||0.404|TWO_SIDED|95.0|0.537|1.284||Clinic SBP \<140 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.284|0.537|0.404
92178160|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.998|TWO_SIDED|95.0|-0.76|0.76||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0|Difference between the IADL changes (EX+P - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.76|-0.76|0.998
92255513|NCT02033850|184413145|SUPERIORITY|||||||0.618|||||||t-test, 2 sided|||Δs on ADL (6 vs 12 months)||||.618
92255514|NCT02033850|184413145|SUPERIORITY|||||||0.262|||||||t-test, 2 sided|||Δs on ADL (baseline vs 12 months)||||.262
92255515|NCT02033850|184413145|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||Δs on IADL (baseline vs 6 months)||||.240
92255516|NCT02033850|184413145|SUPERIORITY|||||||0.134|||||||t-test, 2 sided|||Δs on IADL (6 vs 12 months)||||.134
92255517|NCT02033850|184413145|SUPERIORITY|||||||0.457|||||||t-test, 2 sided|||Δs on IADL (baseline vs 12 months)||||.457
92255518|NCT02033850|184413145|SUPERIORITY|||||||0.612|||||||t-test, 2 sided|||Δs on DAD (baseline vs 6 months)||||.612
92283870|NCT02480764|184471853|OTHER||Odds Ratio (OR)|0.937|STANDARD_ERROR_OF_MEAN|0.2078||0.768|TWO_SIDED|95.0|0.606|1.447||Clinic SBP \<140 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.447|0.606|0.768
92255519|NCT02033850|184413145|SUPERIORITY|||||||0.522|||||||t-test, 2 sided|||Δs on DAD (6 vs 12 months)||||.522
92255520|NCT02033850|184413145|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||Δs on DAD (baseline vs 12 months)||||.800
92255521|NCT02033850|184413146|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||Δs on AQ (baseline vs 6 months)||||.204
92255522|NCT02033850|184413146|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||Δs on AQ (6 vs 12 months)||||.810
92255523|NCT02033850|184413146|SUPERIORITY|||||||0.193|||||||t-test, 2 sided|||Δs on AQ (baseline vs 12 months)||||.193
92255524|NCT02033850|184413146|SUPERIORITY|||||||0.698|||||||t-test, 2 sided|||Δs on EQ index (baseline vs 6 months)||||.698
92255525|NCT02033850|184413146|SUPERIORITY|||||||0.283|||||||t-test, 2 sided|||Δs on EQ index (6 vs 12 months)||||.283
92255526|NCT02033850|184413146|SUPERIORITY|||||||0.647|||||||t-test, 2 sided|||Δs on EQ index (baseline vs 12 months)||||.647
92255527|NCT02033850|184413146|SUPERIORITY|||||||0.057|||||||t-test, 2 sided|||Δs on EQ visual (baseline vs 6 months)||||.057
92255528|NCT02033850|184413146|SUPERIORITY|||||||0.685|||||||t-test, 2 sided|||Δs on EQ visual (6 vs 12 months)||||.685
92255529|NCT02033850|184413146|SUPERIORITY|||||||0.056|||||||t-test, 2 sided|||Δs on EQ visual (baseline vs 12 months)||||.056
92255530|NCT02033850|184413146|SUPERIORITY|||||||0.393|||||||t-test, 2 sided|||Δs on GDS (baseline vs 6 months)||||.393
92255531|NCT02033850|184413146|SUPERIORITY|||||||0.958|||||||t-test, 2 sided|||Δs on GDS (6 vs 12 months)||||.958
92255532|NCT02033850|184413146|SUPERIORITY|||||||0.448|||||||t-test, 2 sided|||Δs on GDS (baseline vs 12 months)||||.448
92255533|NCT02033850|184413146|SUPERIORITY|||||||0.567|||||||t-test, 2 sided|||Δs on MCS (baseline vs 6 months)||||.567
92255534|NCT02033850|184413146|SUPERIORITY|||||||0.274|||||||t-test, 2 sided|||Δs on MCS (6 vs 12 months)||||.274
92255535|NCT02033850|184413146|SUPERIORITY|||||||0.668|||||||t-test, 2 sided|||Δs on MCS (baseline vs 12 months)||||.668
92255536|NCT02033850|184413146|SUPERIORITY|||||||0.709|||||||t-test, 2 sided|||Δs on PCS (baseline vs 6 months)||||.709
92255537|NCT02033850|184413146|SUPERIORITY|||||||0.567|||||||t-test, 2 sided|||Δs on PCS (6 vs 12 months)||||.567
92255538|NCT02033850|184413146|SUPERIORITY|||||||0.867|||||||t-test, 2 sided|||Δs on PCS (baseline vs 12 months)||||.867
92255539|NCT02033850|184413147|SUPERIORITY|||||||0.095|||||||Chi-squared|||MCS outcome (baseline vs 6 months)||||.095
92255540|NCT02033850|184413147|SUPERIORITY|||||||0.729|||||||Chi-squared|||MCS outcome (6 vs 12 months)||||.729
92255541|NCT02033850|184413147|SUPERIORITY|||||||0.115|||||||Chi-squared|||MCS outcome (baseline vs 12 months)||||.115
92255542|NCT02033850|184413147|SUPERIORITY|||||||0.576|||||||Chi-squared|||PCS outcome (baseline vs 6 months)||||.576
92255543|NCT02033850|184413147|SUPERIORITY|||||||0.191|||||||Chi-squared|||PCS outcome (6 vs 12 months)||||.191
92255544|NCT02033850|184413147|SUPERIORITY|||||||0.79|||||||Chi-squared|||PCS outcome (baseline vs 12 months)||||.790
92255545|NCT02033850|184413148|SUPERIORITY|||||||0.936|||||||t-test, 2 sided|||Δs on MoCA (baseline vs 6 months)||||.936
92255546|NCT02033850|184413148|SUPERIORITY|||||||0.188|||||||t-test, 2 sided|||Δs on MoCA (6 vs 12 months)||||.188
92255547|NCT02033850|184413148|SUPERIORITY|||||||0.381|||||||t-test, 2 sided|||Δs on MoCA (baseline vs 12 months)||||.381
92255548|NCT02033850|184413148|SUPERIORITY|||||||0.458|||||||t-test, 2 sided|||Δs on MMSE (baseline vs 6 months)||||.458
92255549|NCT02033850|184413148|SUPERIORITY|||||||0.236|||||||t-test, 2 sided|||Δs on MMSE (6 vs 12 months)||||.236
92255550|NCT02033850|184413148|SUPERIORITY|||||||0.601|||||||t-test, 2 sided|||Δs on MMSE (baseline vs 12 months)||||.601
92255551|NCT02033850|184413148|SUPERIORITY|||||||0.839|||||||t-test, 2 sided|||Δs on RAVL immediate (baseline vs 6 months)||||.839
92255552|NCT02033850|184413148|SUPERIORITY|||||||0.021|||||||t-test, 2 sided|||Δs on RAVL immediate (6 vs 12 months)||||.021
92255553|NCT02033850|184413148|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||Δs on RAVL immediate (baseline vs 12 months)||||.032
92255554|NCT02033850|184413148|SUPERIORITY|||||||0.858|||||||t-test, 2 sided|||Δs on RAVL recall (baseline vs 6 months)||||.858
92255555|NCT02033850|184413148|SUPERIORITY|||||||0.212|||||||t-test, 2 sided|||Δs on RAVL recall (6 vs 12 months)||||.212
92255556|NCT02033850|184413148|SUPERIORITY|||||||0.268|||||||t-test, 2 sided|||Δs on RAVL recall (baseline vs 12 months)||||.268
92255557|NCT02033850|184413148|SUPERIORITY|||||||0.184|||||||t-test, 2 sided|||Δs on ROCF recall (baseline vs 6 months)||||.184
92255558|NCT02033850|184413148|SUPERIORITY|||||||0.358|||||||t-test, 2 sided|||Δs on ROCF recall (6 vs 12 months)||||.358
92255559|NCT02033850|184413148|SUPERIORITY|||||||0.768|||||||t-test, 2 sided|||Δs on ROCF recall (baseline vs 12 months)||||.768
92255560|NCT02033850|184413148|SUPERIORITY|||||||0.164|||||||t-test, 2 sided|||Δs on short story (baseline vs 6 months)||||.164
92255561|NCT02033850|184413148|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||Δs on short story (6 vs 12 months)||||.420
92255562|NCT02033850|184413148|SUPERIORITY|||||||0.527|||||||t-test, 2 sided|||Δs on short story (baseline vs 12 months)||||.527
92255563|NCT02033850|184413148|SUPERIORITY|||||||0.762|||||||t-test, 2 sided|||Δs on visual search (baseline vs 6 months)||||.762
92255564|NCT02033850|184413148|SUPERIORITY|||||||0.405|||||||t-test, 2 sided|||Δs on visual search (6 vs 12 months)||||.405
92255565|NCT02033850|184413148|SUPERIORITY|||||||0.674|||||||t-test, 2 sided|||Δs on visual search (baseline vs 12 months)||||.674
92255566|NCT02033850|184413148|SUPERIORITY|||||||0.328|||||||t-test, 2 sided|||Δs on SDMT (baseline vs 6 months)||||.328
92255567|NCT02033850|184413148|SUPERIORITY|||||||0.198|||||||t-test, 2 sided|||Δs on SDMT (6 vs 12 months)||||.198
92255568|NCT02033850|184413148|SUPERIORITY|||||||0.639|||||||t-test, 2 sided|||Δs on SDMT (baseline vs 12 months)||||.639
92255569|NCT02033850|184413148|SUPERIORITY|||||||0.098|||||||t-test, 2 sided|||Δs on ROCF copy (baseline vs 6 months)||||.098
92255570|NCT02033850|184413148|SUPERIORITY|||||||0.235|||||||t-test, 2 sided|||Δs on ROCF copy (6 vs 12 months)||||.235
92255571|NCT02033850|184413148|SUPERIORITY|||||||0.789|||||||t-test, 2 sided|||Δs on ROCF copy (baseline vs 12 months)||||.789
92255572|NCT02033850|184413149|SUPERIORITY|||||||0.743|||||||t-test, 2 sided|||Δs on Stroop test (baseline vs 6 months)||||.743
92255573|NCT02033850|184413149|SUPERIORITY|||||||0.428|||||||t-test, 2 sided|||Δs on Stroop test (6 vs 12 months)||||.428
92255574|NCT02033850|184413149|SUPERIORITY|||||||0.294|||||||t-test, 2 sided|||Δs on Stroop test (baseline vs 12 months)||||.294
92178161|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.378|TWO_SIDED|95.0|-0.28|0.73||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.88|Difference between the IADL changes (EX+T - EX+P)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.73|-0.28|0.378
92178162|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.608|TWO_SIDED|95.0|-0.53|0.91||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.51|Difference between the IADL changes (EX+T - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.91|-0.53|0.608
92255575|NCT02033850|184413149|SUPERIORITY|||||||0.157|||||||t-test, 2 sided|||Δs on TMT-A (baseline vs 6 months)||||.157
92255576|NCT02033850|184413149|SUPERIORITY|||||||0.094|||||||t-test, 2 sided|||Δs on TMT-A (6 vs 12 months)||||.094
92178163|NCT02938923|184251825|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.915|TWO_SIDED|95.0|-0.76|0.69||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.11|Difference between the IADL changes (EX+P - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.69|-0.76|0.915
92255577|NCT02033850|184413149|SUPERIORITY|||||||0.476|||||||t-test, 2 sided|||Δs on TMT-A (baseline vs 12 months)||||.476
92255578|NCT02033850|184413149|SUPERIORITY|||||||0.142|||||||t-test, 2 sided|||Δs on TMT-B (baseline vs 6 months)||||.142
92255579|NCT02033850|184413149|SUPERIORITY|||||||0.651|||||||t-test, 2 sided|||Δs on TMT-B (6 vs 12 months)||||.651
92255580|NCT02033850|184413149|SUPERIORITY|||||||0.534|||||||t-test, 2 sided|||Δs on TMT-B (baseline vs 12 months)||||.534
92255581|NCT02033850|184413150|SUPERIORITY|||||||0.882|||||||t-test, 2 sided|||Δs on phonemic fluency (baseline vs 6 months)||||.882
92178164|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.602|TWO_SIDED|95.0|-1.36|2.33||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = 0.52|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure.||2.33|-1.36|0.602
92255582|NCT02033850|184413150|SUPERIORITY|||||||0.835|||||||t-test, 2 sided|||Δs on phonemic fluency (6 vs 12 months)||||.835
92255583|NCT02033850|184413150|SUPERIORITY|||||||0.951|||||||t-test, 2 sided|||Δs on phonemic fluency (baseline vs 12 months)||||.951
92255584|NCT02033850|184413150|SUPERIORITY|||||||0.392|||||||t-test, 2 sided|||Δs on semantic fluency (baseline vs 6 months)||||.392
92255585|NCT02033850|184413150|SUPERIORITY|||||||0.973|||||||t-test, 2 sided|||Δs on semantic fluency (6 vs 12 months)||||.973
92255586|NCT02033850|184413150|SUPERIORITY|||||||0.486|||||||t-test, 2 sided|||Δs on semantic fluency (baseline vs 12 months)||||.486
92255587|NCT02033850|184413151|SUPERIORITY|||||||0.92|||||||Chi-squared|||MoCA variations (baseline vs 6 months)||||.920
92255588|NCT02033850|184413151|SUPERIORITY|||||||0.17|||||||Chi-squared|||MoCA variations (6 vs 12 months)||||.170
92178165|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|-0.96||||0.454|TWO_SIDED|95.0|-3.48|1.56||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.75|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure.||1.56|-3.48|0.454
92178166|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|-1.45||||0.262|TWO_SIDED|95.0|-3.98|1.09||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -1.13|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure.||1.09|-3.98|0.262
92178167|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.639|TWO_SIDED|95.0|-1.47|2.4||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = 0.47|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||2.40|-1.47|0.639
92178168|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.438|TWO_SIDED|95.0|-3.66|1.59||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.78|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||1.59|-3.66|0.438
92178169|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.265|TWO_SIDED|95.0|-4.14|1.14||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -1.12|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||1.14|-4.14|0.265
92178170|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.555|TWO_SIDED|95.0|-1.11|2.07||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = 0.59|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure.||2.07|-1.11|0.555
92255589|NCT02033850|184413151|SUPERIORITY|||||||0.716|||||||Chi-squared|||MoCA variations (baseline vs 12 months)||||.716
92255590|NCT02033850|184413151|SUPERIORITY|||||||0.973|||||||Chi-squared|||MMSE variations (baseline vs 6 months)||||.973
92178171|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.917|TWO_SIDED|95.0|-2.39|2.15||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.10|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure.||2.15|-2.39|0.917
92178172|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.606|TWO_SIDED|95.0|-2.87|1.68||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.52|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure.||1.68|-2.87|0.606
92178173|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.549|TWO_SIDED|95.0|-1.09|2.04||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = 0.60|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||2.04|-1.09|0.549
92178174|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.887|TWO_SIDED|95.0|-2.38|2.06||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.14|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||2.06|-2.38|0.887
92178175|NCT02938923|184251826|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.574|TWO_SIDED|95.0|-2.87|1.59||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.56|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||1.59|-2.87|0.574
92178176|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|0.96||||0.649|TWO_SIDED|95.0|-3.19|5.11||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.46|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure.||5.11|-3.19|0.649
92178177|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.389|TWO_SIDED|95.0|-3.22|8.23||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.86|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure.||8.23|-3.22|0.389
92255591|NCT02033850|184413151|SUPERIORITY|||||||0.973|||||||Chi-squared|||MMSE variations (6 vs 12 months)||||.973
92178178|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|1.55||||0.598|TWO_SIDED|95.0|-4.22|7.31||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.53|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure.||7.31|-4.22|0.598
92255592|NCT02033850|184413151|SUPERIORITY|||||||0.3|||||||Chi-squared|||MMSE variations (baseline vs 12 months)||||.300
92255593|NCT02033850|184413151|SUPERIORITY|||||||0.068|||||||Chi-squared|||RAVL immed. variations (baseline vs 6 months)||||.068
92255594|NCT02033850|184413151|SUPERIORITY|||||||0.089|||||||Chi-squared|||RAVL immed. variations (6 vs 12 months)||||.089
92255595|NCT02033850|184413151|SUPERIORITY|||||||0.241|||||||Chi-squared|||RAVL immed. variations (baseline vs 12 months)||||.241
92255596|NCT02033850|184413151|SUPERIORITY|||||||0.089|||||||Chi-squared|||RAVL recall variations (baseline vs 6 months)||||.089
92255597|NCT02033850|184413151|SUPERIORITY|||||||0.17|||||||Chi-squared|||RAVL recall variations (6 vs 12 months)||||.170
92255598|NCT02033850|184413151|SUPERIORITY|||||||0.413|||||||Chi-squared|||RAVL recall variations (baseline vs 12 months)||||.413
92255599|NCT02033850|184413151|SUPERIORITY|||||||0.777|||||||Chi-squared|||ROCF recall variations (baseline vs 6 months)||||.777
92255600|NCT02033850|184413151|SUPERIORITY|||||||0.134|||||||Chi-squared|||ROCF recall variations (6 vs 12 months)||||.134
92255601|NCT02033850|184413151|SUPERIORITY|||||||0.498|||||||Chi-squared|||ROCF recall variations (baseline vs 12 months)||||.498
92255602|NCT02033850|184413151|SUPERIORITY|||||||0.942|||||||Chi-squared|||Short story variations (baseline vs 6 months)||||.942
92255603|NCT02033850|184413151|SUPERIORITY|||||||0.578|||||||Chi-squared|||Short story variations (6 vs 12 months)||||.578
92255604|NCT02033850|184413151|SUPERIORITY|||||||0.413|||||||Chi-squared|||Short story variations (baseline vs 12 months)||||.413
92255605|NCT02033850|184413151|SUPERIORITY|||||||1|||||||Chi-squared|||Visual search variations (baseline vs 6 months)||||1
92255606|NCT02033850|184413151|SUPERIORITY|||||||0.038|||||||Chi-squared|||Visual search variations (6 vs 12 months)||||.038
92255607|NCT02033850|184413151|SUPERIORITY|||||||0.658|||||||Chi-squared|||Visual search variations (baseline vs 12 months)||||.658
92255608|NCT02033850|184413151|SUPERIORITY|||||||0.522|||||||Chi-squared|||SDMT variations (baseline vs 6 months)||||.522
92255609|NCT02033850|184413151|SUPERIORITY|||||||0.674|||||||Chi-squared|||SDMT variations (6 vs 12 months)||||.674
92255610|NCT02033850|184413151|SUPERIORITY|||||||0.17|||||||Chi-squared|||SDMT variations (baseline vs 12 months)||||.170
92255611|NCT02033850|184413151|SUPERIORITY|||||||0.961|||||||Chi-squared|||Stroop test variations (baseline vs 6 months)||||.961
92255612|NCT02033850|184413151|SUPERIORITY|||||||0.413|||||||Chi-squared|||Stroop test variations (6 vs 12 months)||||.413
92178179|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.676|TWO_SIDED|95.0|-3.26|5.02||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.42|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||5.02|-3.26|0.676
92255613|NCT02033850|184413151|SUPERIORITY|||||||0.477|||||||Chi-squared|||Stroop test variations (baseline vs 12 months)||||.477
92255614|NCT02033850|184413151|SUPERIORITY|||||||0.42|||||||Chi-squared|||TMT-A variations (baseline vs 6 months)||||.420
92255615|NCT02033850|184413151|SUPERIORITY|||||||0.241|||||||Chi-squared|||TMT-A variations (6 vs 12 months)||||.241
92255616|NCT02033850|184413151|SUPERIORITY|||||||0.295|||||||Chi-squared|||TMT-A variations (baseline vs 12 months)||||.295
92255617|NCT02033850|184413151|SUPERIORITY|||||||0.453|||||||Chi-squared|||TMT-B variations (baseline vs 6 months)||||.453
92255618|NCT02033850|184413151|SUPERIORITY|||||||0.952|||||||Chi-squared|||TMT-B variations (6 vs 12 months)||||.952
92255619|NCT02033850|184413151|SUPERIORITY|||||||0.881|||||||Chi-squared|||TMT-B variations (baseline vs 12 months)||||.881
92255620|NCT02033850|184413151|SUPERIORITY|||||||0.413|||||||Chi-squared|||Phonemic fluency variations (baseline vs 6 months)||||.413
92255621|NCT02033850|184413151|SUPERIORITY|||||||0.961|||||||Chi-squared|||Phonemic fluency variations (6 vs 12 months)||||.961
92255622|NCT02033850|184413151|SUPERIORITY|||||||0.951|||||||Chi-squared|||Phonemic fluency variation (baseline vs 12 months)||||.951
92255623|NCT02033850|184413151|SUPERIORITY|||||||0.951|||||||Chi-squared|||Semantic fluency variations (baseline vs 6 months)||||.951
92255624|NCT02033850|184413151|SUPERIORITY|||||||0.674|||||||Chi-squared|||Semantic fluency variations (6 vs 12 months)||||.674
92255625|NCT02033850|184413151|SUPERIORITY|||||||0.951|||||||Chi-squared|||Semantic fluency variation (baseline vs 12 months)||||.951
92255626|NCT02033850|184413151|SUPERIORITY|||||||1|||||||Chi-squared|||ROCF copy variations (baseline vs 6 months)||||1
92255627|NCT02033850|184413151|SUPERIORITY|||||||0.027|||||||Chi-squared|||ROCF copy variations (6 vs 12 months)||||.027
92255628|NCT02033850|184413151|SUPERIORITY|||||||0.169|||||||Chi-squared|||ROCF copy variations (baseline vs 12 months)||||.169
92255629|NCT02033850|184413152|SUPERIORITY|||||||0.478|||||||Chi-squared|||||||.478
92178180|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|2.48||||0.394|TWO_SIDED|95.0|-3.24|8.19||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.85|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||8.19|-3.24|0.394
92255630|NCT02033850|184413153|SUPERIORITY|||||||0.029||||||"Corrected for multiple comparisons using the 3D parameter settings with threshold-free cluster enhancement.~A priori threshold for statistical significance 0.05"|General linear model voxel-wise|||Z-transformed ReHo difference in vermis VIIIb||||0.029
92255631|NCT02033850|184413153|SUPERIORITY|||||||0.04||||||"Corrected for multiple comparisons using the 3D parameter settings with threshold-free cluster enhancement.~A priori threshold for statistical significance 0.05"|General linear model voxel-wise|||Z-transformed ReHo difference in right VIIb lobule||||0.04
92178181|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.585|TWO_SIDED|95.0|-4.15|7.35||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.55|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||7.35|-4.15|0.585
92255632|NCT02033850|184413153|SUPERIORITY|||||||0.039||||||"Corrected for multiple comparisons using the 3D parameter settings with threshold-free cluster enhancement.~A priori threshold for statistical significance 0.05"|General linear model voxel-wise|||Z-transformed ReHo difference in left VIIb lobule||||0.039
92255633|NCT00560794|184413181|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||The null hypothesis stated that the true MRD response probability (π) ≤ 5%.|1-sided exact binomial test|||||||0.0000
92255634|NCT00880607|184413227|OTHER|Wilcoxon rank-sum test because the outcome variable was found to have a skewed distribution.|Median Difference (Final Values)|7.7||||0.27|TWO_SIDED|95.0|-5.8|21.2||Hodges-Lehmanne estimation method|Wilcoxon (Mann-Whitney)||Hodges-Lehmanne estimation method|||21.2|-5.8|.27
92255635|NCT00880607|184413228|OTHER|Log-rank test in Kaplan-Meier used.||||||0.42|TWO_SIDED|95.0|||||Log Rank|||||||.42
92255636|NCT00880607|184413230|OTHER|||||||0.08|||||||Chi-squared|||||||0.08
92255637|NCT00880607|184413231|OTHER|||||||0.3|||||||Chi-squared|||||||0.30
92178182|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.794|TWO_SIDED|95.0|-3.56|4.65||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.26|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure.||4.65|-3.56|0.794
92255638|NCT00880607|184413232|OTHER|||||||0.07|||||||Chi-squared|||||||0.07
92255639|NCT00880607|184413233|OTHER|||||||0.31|||||||Chi-squared|||||||0.31
92255640|NCT02963766|184413241|SUPERIORITY||LS Mean difference (Final Values)|-1.3|||<|0.001|TWO_SIDED|95.0|-1.8|-0.7|||Mixed Models Analysis|||||-0.7|-1.8|<0.001
92255641|NCT02963766|184413242|SUPERIORITY||LS Mean difference (Final Values)|-1.0||||0.002|TWO_SIDED|95.0|-1.7|-0.4|||Mixed Models Analysis|||||-0.4|-1.7|0.002
92255642|NCT02963766|184413242|SUPERIORITY||LS Mean difference (Final Values)|-1.5|||<|0.001|TWO_SIDED|95.0|-2.2|-0.9|||Mixed Models Analysis|||||-0.9|-2.2|<0.001
92255643|NCT02963766|184413243|SUPERIORITY||LS Mean difference (Final Values)|-1.44||||0.021|TWO_SIDED|95.0|-2.65|-0.22|||Mixed Models Analysis|||||-0.22|-2.65|0.021
92178183|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|2.27||||0.449|TWO_SIDED|95.0|-3.62|8.16||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.76|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure.||8.16|-3.62|0.449
92178184|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.567|TWO_SIDED|95.0|-4.2|7.64||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.57|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure.||7.64|-4.20|0.567
92178185|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.794|TWO_SIDED|95.0|-3.56|4.65||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.26|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||4.65|-3.56|0.794
92178186|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.526|TWO_SIDED|95.0|-3.97|7.75||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.64|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||7.75|-3.97|0.526
92178187|NCT02938923|184251827|SUPERIORITY||Mean Difference (Final Values)|1.34||||0.654|TWO_SIDED|95.0|-4.55|7.23||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.45|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||7.23|-4.55|0.654
92178188|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|0.63||||0.597|TWO_SIDED|95.0|-1.72|2.98||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.53|Difference between the changes (EX+T - EX+P) on Physical Health domain|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||2.98|-1.72|0.597
92178189|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-2.18||||0.184|TWO_SIDED|95.0|-5.41|1.04||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.33|Difference between the changes (EX+T - EUC) on Physical Health domain|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||1.04|-5.41|0.184
92178190|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-2.82||||0.089|TWO_SIDED|95.0|-6.07|0.44||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.71|Difference between the changes (EX+P - EUC) on Physical Health domain|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||0.44|-6.07|0.089
92178191|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.635|TWO_SIDED|95.0|-2.01|3.28||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.47|Difference in the changes (EX+T - EX+P)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||3.28|-2.01|0.635
92178192|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-2.15||||0.242|TWO_SIDED|95.0|-5.76|1.46||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.17|Difference between the changes (EX+T - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||1.46|-5.76|0.242
92178193|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-2.79||||0.132|TWO_SIDED|95.0|-6.42|0.85||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.51|Difference between the changes (EX+P - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||0.85|-6.42|0.132
92178194|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|1.52||||0.193|TWO_SIDED|95.0|-0.77|3.81||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 1.31|Difference between the changes (EX+T - EX+P)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||3.81|-0.77|0.193
92178195|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|1.44||||0.39|TWO_SIDED|95.0|-1.86|4.75||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.86|Difference between the changes (EX+T - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||4.75|-1.86|0.390
92178196|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.965|TWO_SIDED|95.0|-3.39|3.25||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.04|Difference between the changes (EX+P - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||3.25|-3.39|0.965
92178197|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|1.52||||0.195|TWO_SIDED|95.0|-0.79|3.82||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 1.30|Difference between the changes (EX+T - EX+P)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||3.82|-0.79|0.195
92178198|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|1.35||||0.418|TWO_SIDED|95.0|-1.93|4.63||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.81|Difference between the changes (EX+T - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||4.63|-1.93|0.418
92178199|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.921|TWO_SIDED|95.0|-3.46|3.13||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.10|Difference between the changes (EX+P - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||3.13|-3.46|0.921
92255644|NCT02963766|184413243|SUPERIORITY||LS Mean difference (Final Values)|-2.51|||<|0.001|TWO_SIDED|95.0|-3.72|-1.29|||Mixed Models Analysis|||||-1.29|-3.72|<0.001
92255645|NCT02963766|184413243|SUPERIORITY||LS Mean difference (Final Values)|-1.97|||<|0.001|TWO_SIDED|95.0|-3.03|-0.91|||Mixed Models Analysis|||||-0.91|-3.03|<0.001
92255646|NCT02963766|184413244|SUPERIORITY||Odds Ratio (OR)|11.038|||<|0.001|TWO_SIDED|95.0|3.491|34.902|||Regression, Logistic|||||34.902|3.491|<0.001
92255647|NCT02963766|184413244|SUPERIORITY||Odds Ratio (OR)|11.666|||<|0.001|TWO_SIDED|95.0|3.653|37.253|||Regression, Logistic|||||37.253|3.653|<0.001
92255648|NCT02963766|184413244|SUPERIORITY||Odds Ratio (OR)|11.348|||<|0.001|TWO_SIDED|95.0|4.163|30.932|||Regression, Logistic|||||30.932|4.163|<0.001
92255649|NCT02963766|184413245|SUPERIORITY||LS Mean difference (Final Values)|-0.1||||0.689|TWO_SIDED|95.0|-0.7|0.5|||Mixed Models Analysis|||||0.5|-0.7|0.689
92178200|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|2.31||||0.078|TWO_SIDED|95.0|-0.26|4.88||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = 1.77|Difference between the changes (EX+T - EX+P)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||4.88|-0.26|0.078
92255650|NCT02963766|184413245|SUPERIORITY||LS Mean difference (Final Values)|0.0||||0.924|TWO_SIDED|95.0|-0.6|0.5|||Mixed Models Analysis|||||0.5|-0.6|0.924
92255651|NCT02963766|184413245|SUPERIORITY||LS Mean difference (Final Values)|-0.1||||0.776|TWO_SIDED|95.0|-0.6|0.4|||Mixed Models Analysis|||||0.4|-0.6|0.776
92255652|NCT04964557|184413257|SUPERIORITY||Mean Difference (Final Values)|-62.3|||<|0.001|TWO_SIDED|95.0|-68.0|-56.6|||ANCOVA|||||-56.6|-68|<0.001
92255653|NCT04964557|184413258|SUPERIORITY||Mean Difference (Final Values)|-76.7|||<|0.001|TWO_SIDED|95.0|-81.7|-71.7|||ANCOVA|||||-71.7|-81.7|<0.001
92255654|NCT02493868|184413269|SUPERIORITY||Hazard Ratio (HR)|0.49|||=|0.003|TWO_SIDED|95.0|0.29|0.84|||Weighted Log-rank|||||0.84|0.29|= 0.003
92255655|NCT05849441|184413287|SUPERIORITY|||||||0.04||||||This is for the subscale: Support-Seeking.|Regression, Linear|||||||0.04
92255656|NCT05849441|184413287|SUPERIORITY|||||||0.02||||||This is for subscale: Problem Solving|Regression, Linear|||||||0.02
92255657|NCT05849441|184413287|SUPERIORITY|||||||0.55||||||This is for subscale: Distancing|Regression, Linear|||||||0.55
92255658|NCT05849441|184413287|SUPERIORITY|||||||0.79||||||This is for subscale: Internalizing|Regression, Linear|||||||0.79
92255659|NCT05849441|184413287|SUPERIORITY|||||||0.93||||||This is for subscale: Externalizing|Regression, Linear|||||||0.93
92255660|NCT05849441|184413287|SUPERIORITY|||||||0.09||||||This is for subscale: Mindfulness|Regression, Linear|||||||0.09
92255661|NCT05849441|184413288|SUPERIORITY|||||||0.32||||||This is for subscale: Reappraisal|Regression, Linear|||||||0.32
92255662|NCT05849441|184413288|SUPERIORITY|||||||0.24||||||This is for subscale: Suppression|Regression, Linear|||||||0.24
92255663|NCT05849441|184413289|SUPERIORITY|||||||0.53||||||This is for subscale: Manage own emotions|Regression, Linear|||||||0.53
92255664|NCT05849441|184413289|SUPERIORITY|||||||0.16||||||This is for subscale: Identify and Understand Own Emotions|Regression, Linear|||||||0.16
92255665|NCT05849441|184413289|SUPERIORITY|||||||0.27||||||This is for subscale: Deal with emotions of others|Regression, Linear|||||||0.27
92255666|NCT05849441|184413289|SUPERIORITY|||||||0.59||||||This is for subscale: Perceive emotions through faces and bodies|Regression, Linear|||||||0.59
92255667|NCT05849441|184413290|SUPERIORITY|||||||0.16|||||||Regression, Linear|||||||0.16
92255668|NCT05849441|184413291|SUPERIORITY|||||||0.65||||||This is for subscale: Fear of Negative Evaluation|Regression, Linear|||||||0.65
92255669|NCT05849441|184413291|SUPERIORITY|||||||0.6||||||This is for subscale: Social avoidance and distress (new)|Regression, Linear|||||||0.60
92255670|NCT05849441|184413291|SUPERIORITY|||||||0.23||||||This is for subscale: social avoidance and distress (general)|Regression, Linear|||||||0.23
92255671|NCT05849441|184413292|SUPERIORITY|||||||0.55|||||||Regression, Linear|||||||0.55
92255672|NCT05849441|184413293|SUPERIORITY|||||||0.11||||||This is for subscale: Negativity|Regression, Linear|||||||0.11
92283871|NCT02480764|184471853|OTHER||Odds Ratio (OR)|1.051|STANDARD_ERROR_OF_MEAN|0.2837||0.852|TWO_SIDED|95.0|0.62|1.784||Clinic DBP \<90 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||1.784|0.620|0.852
92255673|NCT05849441|184413293|SUPERIORITY|||||||0.79||||||This is for subscale: Emotion regulation|Regression, Linear|||||||0.79
92255674|NCT05849441|184413294|SUPERIORITY|||||||0.14||||||This is for subscale: Working Memory|Regression, Linear|||||||0.14
92255675|NCT05849441|184413294|SUPERIORITY|||||||0.2||||||This is for subscale: Planning|Regression, Linear|||||||0.20
92255676|NCT05849441|184413294|SUPERIORITY|||||||0.48||||||This is for subscale: Inhibit|Regression, Linear|||||||0.48
92255677|NCT05849441|184413294|SUPERIORITY|||||||0.37||||||This is for subscale: Regulation|Regression, Linear|||||||0.37
92255678|NCT05849441|184413295|SUPERIORITY|||||||0.45|||||||Regression, Linear|||||||0.45
92255679|NCT05849441|184413296|SUPERIORITY|||||||0.88|||||||Regression, Linear|||||||0.88
92255680|NCT01431521|184413386|SUPERIORITY_OR_OTHER||Least squares mean difference|-44.37|||<|0.001|TWO_SIDED|95.0|-54.67|-34.07|||Linear mixed effects model|Treatment as fixed factor and predose Day 1 value, as a fixed covariate||||-34.07|-54.67|<0.001
92255681|NCT01431521|184413386|SUPERIORITY_OR_OTHER||Least squares mean difference|-26.67|||<|0.001|TWO_SIDED|95.0|-36.97|-16.37|||Linear mixed effects model|Treatment as fixed factor and predose Day 1 value, as a fixed covariate||||-16.37|-36.97|<0.001
92255682|NCT01431521|184413386|SUPERIORITY_OR_OTHER||least squares mean difference|-17.69||||0.007|TWO_SIDED|95.0|-36.97|-7.39|||Linear mixed effects model|Treatment as fixed factor and predose Day 1 value, as a fixed covariate||||-7.39|-36.97|0.007
92255683|NCT01431521|184413387|SUPERIORITY_OR_OTHER||Least square mean difference|-6.35|||>|0.2|TWO_SIDED|95.0|-18.69|6.0|||Linear mixed effect model|Containing fixed effects for treatment, and predose Day 1 (baseline) as a fixed covariate||||6.00|-18.69|>0.200
92255684|NCT01431521|184413387|SUPERIORITY_OR_OTHER||Least squares mean difference|-16.74||||0.028|TWO_SIDED|95.0|-29.08|-4.4|||Linear mixed effects model|Containing fixed effects for treatment, and predose Day 1 (baseline) as a fixed covariate||||-4.40|-29.08|0.028
92255685|NCT01431521|184413388|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.47|||>|0.2|TWO_SIDED|95.0|-17.85|10.92|||Linear mixed effects model|Containing fixed effects for treatment, and predose Day 1 (baseline) as a fixed covariate||||10.92|-17.85|>0.200
92255686|NCT01431521|184413388|SUPERIORITY_OR_OTHER||Least squares mean difference|-10.67|||>|0.2|TWO_SIDED|95.0|-25.06|3.71|||Linear mixed effects model|Containing fixed effects for treatment, and predose Day 1 (baseline) as a fixed covariate||||3.71|-25.06|>0.200
92255687|NCT02045979|184413392|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 percent (%).|ratio of the geometric means|108.62|||||TWO_SIDED|90.0|98.5|119.79|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||119.79|98.50|
92255688|NCT02045979|184413392|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|101.27|||||TWO_SIDED|90.0|92.45|110.94|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||110.94|92.45|
92255689|NCT02045979|184413392|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|94.02|||||TWO_SIDED|90.0|86.01|102.78|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||102.78|86.01|
92255690|NCT02045979|184413393|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|107.32|||||TWO_SIDED|90.0|98.49|116.94|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||116.94|98.49|
92283872|NCT02480764|184471853|OTHER||Odds Ratio (OR)|1.045|STANDARD_ERROR_OF_MEAN|0.2788||0.868|TWO_SIDED|95.0|0.62|1.763||Clinic DBP \<90 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||1.763|0.620|0.868
92255691|NCT02045979|184413393|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|99.93|||||TWO_SIDED|90.0|92.15|108.37|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||108.37|92.15|
92255692|NCT02045979|184413393|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|93.66|||||TWO_SIDED|90.0|86.76|101.11|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||101.11|86.76|
92255693|NCT02045979|184413394|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|100.85|||||TWO_SIDED|90.0|95.15|106.88|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||106.88|95.15|
92255694|NCT02045979|184413394|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|96.39|||||TWO_SIDED|90.0|91.06|102.03|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||102.03|91.06|
92255695|NCT02045979|184413394|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|95.93|||||TWO_SIDED|90.0|90.83|101.33|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||101.33|90.83|
92255696|NCT02045979|184413395|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% Confidence Interval (CI) for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|98.3|||||TWO_SIDED|90.0|91.54|105.55|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||105.55|91.54|
92255697|NCT02045979|184413395|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|96.05|||||TWO_SIDED|90.0|89.27|103.36|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||103.36|89.27|
92255698|NCT02045979|184413395|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|98.11|||||TWO_SIDED|90.0|91.42|105.27|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||105.27|91.42|
92255699|NCT02045979|184413396|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|99.61|||||TWO_SIDED|90.0|93.66|105.94|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||105.94|93.66|
92255700|NCT02045979|184413396|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|97.19|||||TWO_SIDED|90.0|91.39|103.35|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||103.35|91.39|
92255701|NCT02045979|184413396|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|97.97|||||TWO_SIDED|90.0|92.58|103.68|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||103.68|92.58|
92283873|NCT02480764|184471853|OTHER||Odds Ratio (OR)|1.042|STANDARD_ERROR_OF_MEAN|0.2244||0.847|TWO_SIDED|95.0|0.684|1.59||Clinic SBP\<140 mm Hg and DBP\<90 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.590|0.684|0.847
92255702|NCT02045979|184413397|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|101.23|||||TWO_SIDED|90.0|95.45|107.36|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||107.36|95.45|
92283874|NCT02480764|184471853|OTHER||Odds Ratio (OR)|1.172|STANDARD_ERROR_OF_MEAN|0.2517||0.46|TWO_SIDED|95.0|0.769|1.785||Clinic SBP\<140 mm Hg and DBP\<90 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.785|0.769|0.460
92178201|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.982|TWO_SIDED|95.0|-3.51|3.43||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -0.02|Difference between the changes (EX+T - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||3.43|-3.51|0.982
92178202|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-2.35||||0.187|TWO_SIDED|95.0|-5.85|1.15||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -1.32|Difference between the changes (EX+P - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||1.15|-5.85|0.187
92178203|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|2.16||||0.08|TWO_SIDED|95.0|-0.26|4.58||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = 1.76|Difference of the changes (EX+T - EX+P)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||4.58|-0.26|0.080
92178204|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.781|TWO_SIDED|95.0|-3.76|2.83||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -0.28|Difference between the changes (EX+T - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||2.83|-3.76|0.781
92178205|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-2.63||||0.121|TWO_SIDED|95.0|-5.94|0.69||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -1.56|Difference between the changes (EX+P - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||0.69|-5.94|0.121
92178206|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|1.58||||0.148|TWO_SIDED|95.0|-0.57|3.73||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = 1.45|Difference between the changes (EX+T - EX+P)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||3.73|-0.57|0.148
92178207|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.699|TWO_SIDED|95.0|-3.64|2.45||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -0.39|Differences between the changes (EX+T - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||2.45|-3.64|0.699
92255703|NCT02045979|184413397|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|98.83|||||TWO_SIDED|90.0|93.27|104.72|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||104.72|93.27|
92255704|NCT02045979|184413397|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|98.01|||||TWO_SIDED|90.0|93.15|103.11|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||103.11|93.15|
92255705|NCT02045979|184413398|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|103.68|||||TWO_SIDED|90.0|97.47|110.29|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||110.29|97.47|
92255706|NCT02045979|184413398|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|100.16|||||TWO_SIDED|90.0|94.37|106.29|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||106.29|94.37|
92178208|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-2.18||||0.163|TWO_SIDED|95.0|-5.24|0.89||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -1.4|Difference in the changes (EX+P - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||0.89|-5.24|0.163
92178209|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|1.59||||0.137|TWO_SIDED|95.0|-0.51|3.69||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = 1.49|Difference between the changes (EX+T - EX+P)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||3.69|-0.51|0.137
92178210|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-0.69||||0.648|TWO_SIDED|95.0|-3.68|2.29||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -0.46|Difference between the changes (EX+T - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||2.29|-3.68|0.648
92178211|NCT02938923|184251828|SUPERIORITY||Mean Difference (Final Values)|-2.28||||0.135|TWO_SIDED|95.0|-5.29|0.72||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -1.50|Difference between the changes (EX+P - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||0.72|-5.29|0.135
92283875|NCT02480764|184471854|OTHER||Odds Ratio (OR)|1.487|STANDARD_ERROR_OF_MEAN|0.3333||0.077|TWO_SIDED|95.0|0.958|2.307||Clinic SBP\<130 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||2.307|0.958|0.077
92178212|NCT02938923|184251829|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.821|TWO_SIDED|95.0|-0.073|0.058||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = -0.23|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive AR(1) covariance structure.||0.058|-0.073|0.821
92178213|NCT02938923|184251829|SUPERIORITY||Mean Difference (Final Values)|0.013||||0.789|TWO_SIDED|95.0|-0.082|0.108||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = 0.27|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive AR(1) covariance structure.||0.108|-0.082|0.789
92178214|NCT02938923|184251829|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.672|TWO_SIDED|95.0|-0.075|0.116||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = 0.42|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive AR(1) covariance structure.||0.116|-0.075|0.672
92178215|NCT02938923|184251829|SUPERIORITY||Mean Difference (Final Values)|-0.002||||0.703|TWO_SIDED|95.0|-0.013|0.009||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = -0.38||Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.|Difference between the changes (EX+T - EX+P)|0.009|-0.013|0.703
92178216|NCT02938923|184251829|SUPERIORITY||Mean Difference (Final Values)|-0.002||||0.803|TWO_SIDED|95.0|-0.017|0.014||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = -0.25||Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.|Difference between the changes (EX+T - EUC)|0.014|-0.017|0.803
92178217|NCT02938923|184251829|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.991|TWO_SIDED|95.0|-0.015|0.016||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = 0.01||Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.|Difference between the changes (EX+P - EUC)|0.016|-0.015|0.991
92178218|NCT03663205|184251875|SUPERIORITY||Hazard Ratio (HR)|0.651||||0.0054|TWO_SIDED|95.0|0.465|0.912|||One-sided, Log Rank Test||Stratified by stratification factors: disease stage (IIIB or IV) and the level of PD-L1 expression in tumor cells (\>=50%, 1% to 49%, \<1%)|||0.912|0.465|0.0054
92178219|NCT03663205|184251882|OTHER||Least squares mean difference|-2.2|||||TWO_SIDED|95.0|-7.4|3.1|||||Based on a constrained longitudinal data analysis model with QLQ-LC13 coughing score on the response variable and treatment by study visit interaction and randomization stratification factors as covariates.|Least squares mean difference in coughing score||3.1|-7.4|
92178220|NCT03663205|184251882|OTHER||Least squares mean difference|-1.2|||||TWO_SIDED|95.0|-4.4|2.1|||||Based on a constrained longitudinal data analysis model with QLQ-LC13 dyspnea score on the response variable and treatment by study visit interaction and randomization stratification factors as covariates.|Least squares mean difference in dyspnea score||2.1|-4.4|
92178221|NCT03663205|184251882|OTHER||Least squares mean difference|-3.2|||||TWO_SIDED|95.0|-7.6|1.2|||||Based on a constrained longitudinal data analysis model with QLQ-LC13 chest pain score on the response variable and treatment by study visit interaction and randomization stratification factors as covariates.|Least squares mean difference in chest pain score||1.2|-7.6|
92283876|NCT02480764|184471854|OTHER||Odds Ratio (OR)|1.914|STANDARD_ERROR_OF_MEAN|0.4229||0.003|TWO_SIDED|95.0|1.241|2.951||Clinic SBP\<130 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||2.951|1.241|0.003
92178222|NCT03663205|184251883|OTHER||Least squares mean difference|3.9|||||TWO_SIDED|95.0|-0.9|8.7|||||Based on a constrained longitudinal data analysis model with QLQ-LC30 Global Health Status/Quality of Life score on the response variable and treatment by study visit interaction and randomization stratification factors as covariates.|Least squares mean difference in Global Health Status/Quality of Life score||8.7|-0.9|
92178223|NCT05932407|184251886|SUPERIORITY||Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.1|2.0||||||Crude hazard ratio of Vortioxetine Tablets to SSRIs for intracranial hemorrhage was reported. Crude hazard ratio of Vortioxetine Tablet Treatment group relative to the control group (SSRI Treatment group) was calculated by the rate of Vortioxetine Tablet Treatment group divided by the rate of SSRI Treatment group.||2.0|0.1|
92178224|NCT05932407|184251886|SUPERIORITY|Adjusted hazard ratio was adjusted from crude hazard ratio by covariance 1 (age and gender), and covariance 2 (antithrombotic drug administration, NSAID administration, and hypertension).|Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.1|1.9||||||Adjusted hazard ratio of Vortioxetine Tablets to SSRIs for intracranial hemorrhage was reported. Adjusted hazard ratio of Vortioxetine Tablet Treatment group relative to the control group (SSRI Treatment group) was calculated by the rate of Vortioxetine Tablet Treatment group divided by the rate of SSRI Treatment group.||1.9|0.1|
92178225|NCT03812614|184251951|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.07|TWO_SIDED|95.0|-0.05|1.14|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Linear mixed model with random intercept and slope was used to compare the change in HbA1c as a function of time (included using restricted cubic splines), the interaction between time and intervention arm, baseline A1c and whether PT-SP live together (stratification variables), baseline insulin use, age, vital hunger, and preferred language.||1.14|-0.05|0.07
92178226|NCT03812614|184251952|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.96|TWO_SIDED|95.0|-0.67|0.64|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Linear mixed model with random intercept and slope was used to compare the change in A1c as a function of time (included using restricted cubic splines), the interaction between time and intervention arm, baseline A1c and whether PT-SP live together (stratification variables), baseline insulin use, age, vital hunger, and preferred language||0.64|-0.67|0.96
92178227|NCT03812614|184251953|SUPERIORITY||Mean Difference (Final Values)|-1.51||||0.55|TWO_SIDED|95.0|-6.4|3.38|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Change in patient SBP was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||3.38|-6.40|0.55
92178228|NCT03812614|184251954|SUPERIORITY||Mean Difference (Final Values)|5.74||||0.03|TWO_SIDED|95.0|0.57|10.91|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Change in patient SBP was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||10.91|0.57|0.03
92255707|NCT02045979|184413398|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|97.02|||||TWO_SIDED|90.0|92.07|102.24|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||102.24|92.07|
92255708|NCT02045979|184413399|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|106.57|||||TWO_SIDED|90.0|99.07|114.63|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||114.63|99.07|
92255709|NCT02045979|184413399|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|100.94|||||TWO_SIDED|90.0|94.24|108.12|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||108.12|94.24|
92255710|NCT02045979|184413399|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|95.37|||||TWO_SIDED|90.0|89.53|101.6|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||101.60|89.53|
92255711|NCT02045979|184413400|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|108.7|||||TWO_SIDED|90.0|98.54|119.9|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||119.90|98.54|
92255712|NCT02045979|184413400|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|101.36|||||TWO_SIDED|90.0|92.51|111.05|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||111.05|92.51|
92178229|NCT03812614|184251955|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.76|TWO_SIDED|95.0|-2.15|1.58|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Change in patient diabetes distress was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||1.58|-2.15|0.76
92178230|NCT03812614|184251956|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.72|TWO_SIDED|95.0|-2.11|1.46|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Change in patient diabetes distress was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||1.46|-2.11|0.72
92255713|NCT02045979|184413400|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|94.04|||||TWO_SIDED|90.0|86.01|102.82|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||102.82|86.01|
92255714|NCT01994109|184413402|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92255715|NCT01994109|184413402|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92178231|NCT03812614|184251957|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.38|TWO_SIDED|95.0|-0.76|0.29|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Change in patient health eating was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.29|-0.76|0.38
92178232|NCT03812614|184251958|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.7|TWO_SIDED|95.0|-1.11|0.74|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient physical activity was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.74|-1.11|0.70
92178233|NCT03812614|184251959|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.75|TWO_SIDED|95.0|-0.53|0.74|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient diabetes medication adherence was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.74|-0.53|0.75
92178234|NCT03812614|184251959|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.94|TWO_SIDED|95.0|-0.98|0.91|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient blood pressure medication adherence (days/week meds were taken) was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c). Analyses were ITT and thus based on data from all enrolled patients.||0.91|-0.98|0.94
92178235|NCT03812614|184251959|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.42|TWO_SIDED|95.0|-1.46|0.61|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient cholesterol medication adherence (days/week meds were taken) was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c). Analyses were ITT and thus based on data from all enrolled patients.||0.61|-1.46|0.42
92178236|NCT03812614|184251960|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.96|TWO_SIDED|95.0|-0.54|0.52|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient self-efficacy was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.52|-0.54|0.96
92178237|NCT03812614|184251961|SUPERIORITY||Mean Difference (Final Values)|2.93||||0.4|TWO_SIDED|95.0|-3.92|9.78|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient activation was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||9.78|-3.92|0.40
92178238|NCT03812614|184251962|SUPERIORITY||Mean Difference (Final Values)|0.75||||0.11|TWO_SIDED|95.0|-0.18|1.68|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient satisfaction with SP support was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||1.68|-0.18|0.11
92178239|NCT03812614|184251963|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.34|TWO_SIDED|95.0|-0.19|0.55|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient perception of supportive and non-supportive behaviors was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.55|-0.19|0.34
92178240|NCT03812614|184251965|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.47|TWO_SIDED|95.0|-2.67|1.23|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Support Persons (SPs) were surveyed twice, once at baseline and again at the end of their participation in the study. For SPs enrolled before the start of the COVID-19 pandemic (n=77), the follow-up survey was conducted at 12 months. Due to factors related to the pandemic, the length of the protocol was reduced from 12 to 6 months. Thus, SPs enrolled after the pandemic started (n=145) received their follow-up survey at 6 months, and 6-month change was used for predetermined SP outcomes.||1.23|-2.67|0.47
92178241|NCT03812614|184251966|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.35|TWO_SIDED|95.0|-0.78|0.27|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Support Persons (SPs) were surveyed twice, once at baseline and again at the end of their participation in the study. For SPs enrolled before the start of the COVID-19 pandemic (n=77), the follow-up survey was conducted at 12 months. Due to factors related to the pandemic, the length of the protocol was reduced from 12 to 6 months. Thus, SPs enrolled after the pandemic started (n=145) received their follow-up survey at 6 months, and 6-month change was used for predetermined SP outcomes.||0.27|-0.78|0.35
92255716|NCT01994109|184413403|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92255717|NCT01994109|184413403|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92178242|NCT03812614|184251967|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.06|TWO_SIDED|95.0|-1.0|0.01|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient healthy eating was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.01|-1.00|0.06
92178243|NCT03812614|184251968|SUPERIORITY||Median Difference (Final Values)|-0.34||||0.45|TWO_SIDED|95.0|-1.22|0.54|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|||0.54|-1.22|0.45
92178244|NCT03812614|184251969|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.4|TWO_SIDED|95.0|-0.86|0.35|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient diabetes medication adherence was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.35|-0.86|0.40
92178245|NCT03812614|184251969|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.98|TWO_SIDED|95.0|-0.9|0.88|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient blood pressure medication adherence (days/week meds were taken) was analyzed in a manner similar to that described for the primary outcome (6month change in patient A1c). Analyses were ITT and thus based on data from all enrolled patients.||0.88|-0.90|0.98
92255718|NCT02418585|184413432|SUPERIORITY||Difference of Least Square (LS) Means|-4.0|STANDARD_ERROR_OF_MEAN|1.69|=|0.02|TWO_SIDED|95.0|-7.31|-0.64|||Mixed Model for Repeated Measures|||||-0.64|-7.31|=0.020
92255719|NCT02418585|184413433|SUPERIORITY||Difference of Least Square (LS) Means|-3.5|||=|0.034|TWO_SIDED|95.0|-6.67|-0.26|||ANCOVA|||||-0.26|-6.67|=0.034
92255720|NCT01024920|184413448|OTHER|||||||0.8531||||||P-value for comparison of Kaplan-Meier estimates at 9 months using normal approximation test (two-sided).|Normal approximation test|||||||0.8531
92178246|NCT03812614|184251969|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.43|TWO_SIDED|95.0|-1.42|0.61|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient cholesterol medication adherence (days/week meds were taken) was analyzed in a manner similar to that described for the primary outcome (6month change in patient A1c). Analyses were ITT and thus based on data from all enrolled patients.||0.61|-1.42|0.43
92178247|NCT03812614|184251970|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.06|TWO_SIDED|95.0|-1.0|0.01|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|||0.01|-1.00|0.06
92178248|NCT03812614|184251971|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.92|TWO_SIDED|95.0|-7.22|6.49|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient activation was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||6.49|-7.22|0.92
92178249|NCT03812614|184251972|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.02|TWO_SIDED|95.0|0.21|1.99|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient satisfaction with SP support was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||1.99|0.21|0.02
92178250|NCT03812614|184251973|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.06|TWO_SIDED|95.0|-0.01|0.7|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient perception of supportive and non-supportive behaviors was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.70|-0.01|0.06
92178251|NCT03812614|184251974|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.49|TWO_SIDED|95.0|-2.19|4.57|||Mixed Models Analysis|||Support Persons (SPs) were surveyed twice, once at baseline and again at the end of their participation in the study. For SPs enrolled before the start of the COVID-19 pandemic (n=77), the follow-up survey was conducted at 12 months. Due to factors related to the pandemic, the length of the protocol was reduced from 12 to 6 months. Thus, SPs enrolled after the pandemic started (n=145) received their follow-up survey at 6 months, and 6-month change was used for predetermined SP outcomes.|Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|4.57|-2.19|0.49
92178252|NCT03812614|184251975|SUPERIORITY||Mean Difference (Final Values)|0.78||||0.08|TWO_SIDED|95.0|-0.09|1.66|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Support Persons (SPs) were surveyed twice, once at baseline and again at the end of their participation in the study. For SPs enrolled before the start of the COVID-19 pandemic (n=77), the follow-up survey was conducted at 12 months. Due to factors related to the pandemic, the length of the protocol was reduced from 12 to 6 months. Thus, SPs enrolled after the pandemic started (n=145) received their follow-up survey at 6 months, and 6-month change was used for predetermined SP outcomes.||1.66|-0.09|0.08
92178253|NCT02518048|184251992|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.17|||<|0.001|TWO_SIDED|95.0|-2.58|-1.76||Least Square Means difference from ANOVA with treatment group as fixed effect and subject as random effect (105 treated sites per treatment group).|ANOVA|||A last observation carried forward (LOCF) approach was used to account for drop-outs and missing values in the analysis of end of treatment values.||-1.76|-2.58|<0.001
92178254|NCT02518048|184251995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.53|-0.32||Least Square Means difference from ANOVA with treatment group as fixed effect and subject as random effect (105 treated sites per treatment group)|ANOVA|||Total Skin Thickness: LEO 90100 vs. Betesil®||-0.32|-0.53|<0.001
92255721|NCT01024920|184413450|OTHER||Hazard Ratio (HR)|1.12||||0.6395|TWO_SIDED|95.0|0.697|1.8|||Log Rank||Hazard ratio from Cox proportional hazards model stratified by Motzer risk score and previous surgery.|A stratified log-rank test (two-sided, 0.05 significance level) was used to test the effect of nintedanib on PFS compared with sunitinib. The test was stratified by Motzer risk score category (low/intermediate or high) and prior nephrectomy surgery for Renal Cell Cancer (yes or no).||1.800|0.697|0.6395
92255722|NCT01024920|184413451|OTHER||Odds Ratio (OR)|0.484||||0.1213|TWO_SIDED|95.0|0.193|1.212|||Regression, Logistic||Odds ratio \> 1 favours nintedanib.|A logistic regression model stratified by Motzer risk score category and prior surgery for renal cell cancer (RCC) was used to compare the objective response rate between the two treatment arms. The corresponding odds ratio and 95% Confidence Intervals was also presented.||1.212|0.193|0.1213
92255723|NCT01024920|184413453|OTHER||Hazard Ratio (HR)|0.92||||0.7593|TWO_SIDED|95.0|0.542|1.564||P-value from log-rank stratified by Motzer risk score and previous surgery.|Log Rank||Hazard ratio from Cox proportional hazards model stratified by Motzer risk score and previous surgery. Hazard ratio \< 1 favours nintedanib.|||1.564|0.542|0.7593
92178255|NCT02518048|184251995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|||<|0.001|TWO_SIDED|95.0|-0.69|-0.41||Least Square Means difference from ANOVA with treatment group as fixed effect and subject as random effect (105 treated sites per treatment group)|ANOVA|||Echo-Poor Band Thickness: LEO 90100 vs. Betesil®||-0.41|-0.69|<0.001
92178256|NCT04505410|184251996|OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92178257|NCT05123027|184251999|SUPERIORITY||Risk Ratio (RR)|0.7||||0.399|TWO_SIDED|95.0|0.3|1.62||Threshold for significance: p\< 0.05|Mixed Models Analysis|||The primary outcome was analyzed with a longitudinal mixed effects negative binomial model incorporating the total score at earlier time points as well as 180 days. Fixed effect covariates included baseline score, treatment, days, site, stratum, and an interaction between treatment and days. A random effect was included to account for correlation within each participant.||1.62|0.30|0.399
92255724|NCT01024920|184413454|OTHER||Cox Proportional Hazard|1.143||||0.5958|TWO_SIDED|95.0|0.697|1.873|||Log Rank|P-value from log-rank stratified by Motzer risk score and previous surgery.|Hazard ratio from Cox proportional hazards model stratified by Motzer risk score and previous surgery. Hazard ratio \< 1 favours nintedanib.|||1.873|0.697|0.5958
92255725|NCT01024920|184413455|OTHER||Hazard Ratio (HR)|1.142||||0.5712|TWO_SIDED|95.0|0.72|1.812|||Log Rank|P-value from log-rank stratified by Motzer risk score and previous surgery (two-sided).|Hazard ratio from Cox proportional hazards model stratified by Motzer risk score and previous surgery. Hazard ratio \< 1 favours nintedanib.|||1.812|0.720|0.5712
92182776|NCT02609048|184264684|SUPERIORITY||Difference in LSM|-45.96|STANDARD_ERROR_OF_MEAN|6.638|<|0.0001|TWO_SIDED|95.0|-59.5|-32.42||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline bone-specific AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||-32.42|-59.50|<0.0001
92255726|NCT02736929|184413541|SUPERIORITY||Mean Difference (Final Values)|9.8||||0.12|TWO_SIDED|95.0|-2.7|22.3|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up||22.3|-2.7|0.12
92178258|NCT05123027|184252000|SUPERIORITY||Risk Ratio (RR)|1.09||||0.53|TWO_SIDED|95.0|0.83|1.45||Threshold for significance: p\< 0.05|Mixed Models Analysis|||This was modeled similar to the primary outcome, an over dispersed Poisson regression model with fixed effect covariates for treatment arm, treatment days, site, and stratum with an interaction between treatment arm and treatment days. Note that no baseline score covariate was included as all participants will be considered to have achieved 0 steps at baseline. A random intercept was included for each subject to account for repeated measures.||1.45|0.83|0.53
92178259|NCT05654662|184252001|SUPERIORITY|||||||0.0032|||||||MMRM|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||0.0032
92178260|NCT05654662|184252002|SUPERIORITY||Adjusted Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|2.03||0.0013|TWO_SIDED|95.0|-10.6|-2.6|||Mixed Model with Repeated Measure (MMRM)||Adjusted mean difference was calculated as test product minus reference product.|||-2.6|-10.6|0.0013
92178261|NCT05654662|184252003|SUPERIORITY|||||||0.0181|||||||MMRM|||Change from Baseline at Week 3 (Test for non-zero within group change from Baseline)||||0.0181
92178262|NCT05654662|184252003|SUPERIORITY|||||||0.0541|||||||MMRM|||Change from Baseline at Week 6 (Test for non-zero within group change from Baseline)||||0.0541
92178263|NCT05654662|184252004|SUPERIORITY||Adjusted Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|1.44||0.0091|TWO_SIDED|95.0|-6.7|-1.0|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-1.0|-6.7|0.0091
92255727|NCT02736929|184413542|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.024|TWO_SIDED|95.0|0.1|0.5|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||0.5|0.1|0.024
92255728|NCT02736929|184413543|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.027|TWO_SIDED|95.0|0.0|0.6|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||0.6|0.0|0.027
92255729|NCT02736929|184413544|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.024|TWO_SIDED|95.0|0.5|7.1|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||7.1|0.5|0.024
92255730|NCT02736929|184413545|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.19|TWO_SIDED|95.0|-9.8|2.0|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||2.0|-9.8|0.19
92255731|NCT02736929|184413546|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.31|TWO_SIDED|95.0|-1.3|0.4|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||0.4|-1.3|0.31
92178264|NCT05654662|184252004|SUPERIORITY||Adjusted Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|1.78||0.0031|TWO_SIDED|95.0|-8.8|-1.8|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-1.8|-8.8|0.0031
92255732|NCT02736929|184413547|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.86|TWO_SIDED|95.0|-1.8|1.5|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||1.5|-1.8|0.86
92178265|NCT05654662|184252005|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 3 (Test for non-zero within group change from Baseline)||||<0.0001
92178266|NCT05654662|184252005|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 6 (Test for non-zero within group change from Baseline)||||<0.0001
92255733|NCT02736929|184413548|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.77|TWO_SIDED|95.0|-1.7|1.2|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||1.2|-1.7|0.77
92255734|NCT02972593|184413551|OTHER|Data collapsed to participant level, creating an ever/never response for each participant for each infection outcome type. Analyses performed at the participant level to determine if proportion of outcome types were similar between transfusion groups using Fisher's Exact tests, due to small expected cell counts, using SAS v9.4 (SAS Institute, Cary, NC). Power analyses performed based on these proportions using bootstrapping methods in SAS and confirmed with nQuery v8.7.1.0.||||||0.0122|||||||Fisher Exact|||||||.0122
92255735|NCT02972593|184413552|OTHER|||||||0.7742|||||||Fisher Exact|||||||.7742
92255736|NCT02972593|184413553|OTHER|||||||0.1443|||||||t-test, 1 sided|||||||.1443
92255737|NCT01236768|184413556|EQUIVALENCE|Comparative analysis of AG200-15 and Levora for breakthrough bleeding and/or spotting.||||||0.089|||||||Chi-squared|||Comparative evaluation of AG200-15 and Levora||||0.089
92178267|NCT05654662|184252005|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||<0.0001
92178268|NCT05654662|184252006|SUPERIORITY||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.011||0.0051|TWO_SIDED|95.0|-0.05|-0.01|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.01|-0.05|0.0051
92178269|NCT05654662|184252006|SUPERIORITY||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.013||0.0034|TWO_SIDED|95.0|-0.07|-0.01|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.01|-0.07|0.0034
92178270|NCT05654662|184252006|SUPERIORITY||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.015||0.0022|TWO_SIDED|95.0|-0.08|-0.02|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.02|-0.08|0.0022
92178271|NCT05654662|184252007|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 3 (Test for non-zero within group change from Baseline)||||<0.0001
92178272|NCT05654662|184252007|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 6 (Test for non-zero within group change from Baseline)||||<0.0001
92255738|NCT03949621|184413560|OTHER|Geometric least-squares means (LSMs) were calculated by exponentiating the LSMs derived from analysis of covariance (ANCOVA) with weight as a covariate. Confidence intervals (CIs) were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|0.9632|||||TWO_SIDED|90.0|0.7938|1.1688||||||||1.1688|0.7938|
92255739|NCT03949621|184413561|OTHER|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|0.9606|||||TWO_SIDED|90.0|0.798|1.1562||||||||1.1562|0.798|
92178273|NCT05654662|184252007|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||<0.0001
92178274|NCT05654662|184252008|SUPERIORITY||Adjusted Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|-0.12|-0.04|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.04|-0.12|<0.0001
92178275|NCT05654662|184252008|SUPERIORITY||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|-0.18|-0.07|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.07|-0.18|<0.0001
92178276|NCT05654662|184252008|SUPERIORITY||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.2|-0.08|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.08|-0.20|<0.0001
92178277|NCT05654662|184252009|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 3 (Test for non-zero within group change from Baseline)||||<0.0001
92178278|NCT05654662|184252009|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 6 (Test for non-zero within group change from Baseline)||||<0.0001
92178279|NCT05654662|184252009|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||<0.0001
92178280|NCT05654662|184252010|SUPERIORITY||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.047||0.0012|TWO_SIDED|95.0|-0.25|-0.06|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.06|-0.25|0.0012
92178281|NCT05654662|184252010|SUPERIORITY||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.061||0.0058|TWO_SIDED|95.0|-0.29|-0.05|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.05|-0.29|0.0058
92178282|NCT05654662|184252010|SUPERIORITY||Adjusted Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.42|-0.16|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.16|-0.42|<0.0001
92255740|NCT03949621|184413562|OTHER|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|1.0162|||||TWO_SIDED|90.0|0.9001|1.1473||||||||1.1473|0.9001|
92255741|NCT00605358|184413564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4||||0.018|TWO_SIDED|95.0|1.17|4.93|||Chi-squared|||Participants in the Open Door Intervention and the Services Referral condition were compared on rates of engagement in mental health services over the study follow-up period.||4.93|1.17|.018
92178283|NCT05654662|184252011|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 3 (Test for non-zero within group change from Baseline)||||<0.0001
92255742|NCT01957085|184413566|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.04||||||Statistical significance was set at .05 to determine statistical significance.|Chi-squared|||||||=.04
92178284|NCT05654662|184252011|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 6 (Test for non-zero within group change from Baseline)||||<0.0001
92178285|NCT05654662|184252011|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||<0.0001
92178286|NCT05654662|184252012|SUPERIORITY||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.051||0.0022|TWO_SIDED|95.0|-0.26|-0.06|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.06|-0.26|0.0022
92178287|NCT05654662|184252012|SUPERIORITY||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.066||0.0099|TWO_SIDED|95.0|-0.3|-0.04|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.04|-0.30|0.0099
92178288|NCT05654662|184252012|SUPERIORITY||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.073|<|0.0001|TWO_SIDED|95.0|-0.45|-0.16|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.16|-0.45|<0.0001
92255743|NCT01957085|184413567|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Chi-squared|||||||>.05
92255744|NCT01957085|184413568|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Chi-squared|||||||>.05
92178289|NCT05247034|184252057|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Comparing row Change from baseline at Week 12"||||>0.05
92178290|NCT05247034|184252057|OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
92178291|NCT05247034|184252057|OTHER|||||||0.0125|||||||Wilcoxon (Mann-Whitney)|||||||0.0125
92178292|NCT05247034|184252058|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||For 1 Hz||||>0.05
92178293|NCT05247034|184252058|OTHER||||||>|0.05|||||||t-test, 2 sided|||5 and 10 Hz||||>0.05
92178294|NCT05247034|184252058|OTHER||||||>|0.05|||||||t-test, 2 sided|||For 1, 5 and 10 Hz||||>0.05
92178295|NCT05247034|184252058|OTHER||||||>|0.05|||||||t-test, 2 sided|||For 1, 5 and 10 Hz||||>0.05
92178296|NCT05247034|184252059|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92178297|NCT05247034|184252059|OTHER|||||||0.042|||||||Friedman|||||||0.042
92178298|NCT05247034|184252059|OTHER|||||||0.015|||||||Friedman|||||||0.015
92178299|NCT05247034|184252060|OTHER||||||>|0.05|||||||Z Test|||||||>0.05
92178300|NCT05247034|184252060|OTHER||||||>|0.05|||||||Z Test|||||||>0.05
92178301|NCT05247034|184252060|OTHER||||||>|0.05|||||||Z Test|||||||>0.05
92178302|NCT05247034|184252061|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92178303|NCT05247034|184252061|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92178304|NCT05247034|184252061|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92178305|NCT05247034|184252062|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Comparing row Change from baseline at Week 12"||||>0.05
92178306|NCT05247034|184252062|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92178307|NCT05247034|184252062|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92178308|NCT05247034|184252063|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Comparing row Change from baseline at Week 12"||||>0.05
92178309|NCT05247034|184252063|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92178310|NCT05247034|184252063|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92255745|NCT01957085|184413570|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Chi-squared|||||||>.05
92255746|NCT02148952|184413574|SUPERIORITY|We hypothesized a 15% reduction in the composite outcome between the intervention and control arm.|Risk Ratio (RR)|0.99||||0.9|TWO_SIDED|95.0|0.83|1.18|||Chi-squared, Corrected|In secondary analyses, a Rao-Scott test with 3 degrees of freedom resulted in a p value of 0.88.|Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.18|0.83|0.90
92255747|NCT02148952|184413575|SUPERIORITY||Risk Ratio (RR)|1.03||||0.67|TWO_SIDED|95.0|0.89|1.2|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.20|0.89|0.67
92255748|NCT02148952|184413576|SUPERIORITY||Risk Ratio (RR)|1.03||||0.68|TWO_SIDED|95.0|0.89|1.2|||Chi-squared, Corrected|||||1.20|0.89|0.68
92255749|NCT02148952|184413577|SUPERIORITY||Risk Ratio (RR)|0.94||||0.56|TWO_SIDED|95.0|0.76|1.16|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.16|0.76|0.56
92255750|NCT02148952|184413578|SUPERIORITY||Risk Ratio (RR)|1.1||||0.19|TWO_SIDED|95.0|0.95|1.27|||Chi-squared, Corrected|||||1.27|0.95|0.19
92255751|NCT02148952|184413579|SUPERIORITY||Risk Ratio (RR)|1.11||||0.73|TWO_SIDED|95.0|0.74|1.53|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.53|0.74|0.73
92255752|NCT02148952|184413580|SUPERIORITY||Risk Ratio (RR)|0.97||||0.81|TWO_SIDED|95.0|0.79|1.2|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate any severe maternal complication within 7 days||1.20|0.79|0.81
92255753|NCT02148952|184413580|SUPERIORITY||Risk Ratio (RR)|0.89||||0.76|TWO_SIDED|95.0|0.57|1.52|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate of seizures||1.52|0.57|0.76
92255754|NCT02148952|184413580|SUPERIORITY||Risk Ratio (RR)|0.98||||0.97|TWO_SIDED|95.0|0.7|1.41|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate of loss of consciousness for \> 1 hr||1.41|0.70|0.97
92255755|NCT02148952|184413580|SUPERIORITY||Risk Ratio (RR)|1.02||||0.9|TWO_SIDED|95.0|0.76|1.38|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate of high fever with foul-smelling vaginal discharge||1.38|0.76|0.90
92255756|NCT02148952|184413580|SUPERIORITY||Risk Ratio (RR)|0.95||||0.61|TWO_SIDED|95.0|0.77|1.17|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate of hemorrhage||1.17|0.77|0.61
92255757|NCT02148952|184413580|SUPERIORITY||Risk Ratio (RR)|0.5||||0.41|TWO_SIDED|95.0|0.34|1.58|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate of stroke||1.58|0.34|0.41
92255758|NCT02148952|184413581|SUPERIORITY||Risk Ratio (RR)|1.07||||0.74|TWO_SIDED|95.0|0.72|1.58|||Chi-squared, Corrected|||||1.58|0.72|0.74
92255759|NCT02148952|184413582|SUPERIORITY||Risk Ratio (RR)|1.09||||0.57|TWO_SIDED|95.0|0.81|1.47|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.47|0.81|0.57
92255760|NCT02148952|184413583|SUPERIORITY||Risk Ratio (RR)|1.19||||0.41|TWO_SIDED|95.0|0.78|1.8|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.80|0.78|0.41
92255761|NCT02148952|184413584|SUPERIORITY||Risk Ratio (RR)|1.0||||0.95|TWO_SIDED|95.0|0.45|2.13|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||2.13|0.45|0.95
92255762|NCT02148952|184413585|SUPERIORITY||Risk Ratio (RR)|0.99||||0.97|TWO_SIDED|95.0|0.69|1.43|||Chi-squared, Corrected|||||1.43|0.69|0.97
92255763|NCT02148952|184413586|SUPERIORITY||Risk Ratio (RR)|0.91||||0.32|TWO_SIDED|95.0|0.76|1.1|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.10|0.76|0.32
92255764|NCT02148952|184413587|SUPERIORITY||Risk Ratio (RR)|0.92||||0.3|TWO_SIDED|95.0|0.78|1.08|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.08|0.78|0.30
92255765|NCT02148952|184413588|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected|||||||<0.001
92255766|NCT02148952|184413589|SUPERIORITY||Other|0.0||||0.18|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Birth Companion Present||||0.18
92255767|NCT02148952|184413589|SUPERIORITY||Risk Ratio (RR)|9.8|||<|0.001|TWO_SIDED|95.0|3.4|28.3|||Chi-squared, Corrected|||Maternal blood pressure taken||28.3|3.4|<0.001
92178311|NCT05247034|184252064|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Comparing row Change from baseline at Week 12"||||>0.05
92178312|NCT05247034|184252064|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92255768|NCT02148952|184413589|SUPERIORITY||Risk Ratio (RR)|132.0|||<|0.001|TWO_SIDED|95.0|26.9|645.0|||Chi-squared, Corrected|||Maternal temperature taken||645|26.9|<0.001
92255769|NCT02148952|184413589|SUPERIORITY||Risk Ratio (RR)|7.3||||0.01|TWO_SIDED|95.0|1.5|35.6|||Chi-squared, Corrected|||Partography started||35.6|1.5|0.01
92255770|NCT02148952|184413589|SUPERIORITY||Risk Ratio (RR)|413.0|||<|0.001|TWO_SIDED|95.0|65.8|2589.0|||Chi-squared, Corrected|||Checklist use||2589|65.8|<0.001
92255771|NCT02148952|184413590|SUPERIORITY||Risk Ratio (RR)|53.3|||<|0.001|TWO_SIDED|95.0|13.1|217.0|||Chi-squared, Corrected|||Hand hygiene||217|13.1|<0.001
92178313|NCT05247034|184252064|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92255772|NCT02148952|184413590|SUPERIORITY||Risk Ratio (RR)|2.3||||0.007|TWO_SIDED|95.0|1.3|4.2|||Chi-squared, Corrected|||No oxytocin given before delivery||4.2|1.3|0.007
92255773|NCT02148952|184413590|SUPERIORITY||Risk Ratio (RR)|5.7|||<|0.001|TWO_SIDED|95.0|2.7|12.1|||Chi-squared, Corrected|||Clean towel available||12.1|2.7|<0.001
92255774|NCT02148952|184413590|SUPERIORITY||Risk Ratio (RR)|1.1||||0.72|TWO_SIDED|95.0|0.7|1.7|||Chi-squared, Corrected|||Clean scissors or blade available||1.7|0.7|0.72
92178314|NCT05247034|184252065|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92178315|NCT05247034|184252065|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92178316|NCT05247034|184252065|OTHER||||||>|0.05|||||||Friedman|||||||>0.05
92178317|NCT05247034|184252066|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92255775|NCT02148952|184413590|SUPERIORITY||Risk Ratio (RR)|1.0||||0.48|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Cord tie available||1.0|1.0|0.48
92255776|NCT02148952|184413590|SUPERIORITY||Risk Ratio (RR)|1.0||||0.73|TWO_SIDED|95.0|0.9|1.1|||Chi-squared, Corrected|||Mucus extractor available||1.1|0.9|0.73
92255777|NCT02148952|184413590|SUPERIORITY||Risk Ratio (RR)|1.0||||0.56|TWO_SIDED|95.0|0.9|1.1|||Chi-squared, Corrected|||Neonatal bag and mask available||1.1|0.9|0.56
92255778|NCT02148952|184413590|SUPERIORITY||Risk Ratio (RR)|2.1||||0.005|TWO_SIDED|95.0|1.3|3.5|||Chi-squared, Corrected|||Pads available||3.5|1.3|0.005
92255779|NCT02148952|184413590|SUPERIORITY||Risk Ratio (RR)|185.0|||<|0.001|TWO_SIDED|95.0|19.7|1738.0|||Chi-squared, Corrected|||Checklist use||1738|19.7|<0.001
92255780|NCT02148952|184413591|SUPERIORITY||Risk Ratio (RR)|3.9|||<|0.001|TWO_SIDED|95.0|2.1|7.2|||Chi-squared, Corrected|||Oxytocin administered||7.2|2.1|<0.001
92255781|NCT02148952|184413591|SUPERIORITY||Risk Ratio (RR)|0.6||||0.25|TWO_SIDED|95.0|0.3|1.4|||Chi-squared, Corrected|||Neonatal bag used||1.4|0.3|0.25
92255782|NCT02148952|184413591|SUPERIORITY||Risk Ratio (RR)|1.0||||0.25|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Birth attendant present||1.0|1.0|0.25
92255783|NCT02148952|184413592|SUPERIORITY||Risk Ratio (RR)|1.1||||0.25|TWO_SIDED|95.0|0.9|1.4|||Chi-squared, Corrected|||Newborn weight taken||1.4|0.9|0.25
92255784|NCT02148952|184413592|SUPERIORITY||Risk Ratio (RR)|317.0|||<|0.001|TWO_SIDED|95.0|50.4|1989.0|||Chi-squared, Corrected|||Newborn temperature taken||1989|50.4|<0.001
92255785|NCT02148952|184413592|SUPERIORITY||Risk Ratio (RR)|7.3|||<|0.001|TWO_SIDED|95.0|2.4|22.0|||Chi-squared, Corrected|||Skin-to-skin care initiated at birth||22.0|2.4|<0.001
92255786|NCT02148952|184413592|SUPERIORITY||Risk Ratio (RR)|38.7|||<|0.001|TWO_SIDED|95.0|7.7|194.0|||Chi-squared, Corrected|||Skin-to-skin care maintained for 1 hr||194|7.7|<0.001
92255787|NCT02148952|184413592|SUPERIORITY||Risk Ratio (RR)|19.4|||<|0.001|TWO_SIDED|95.0|11.4|33.2|||Chi-squared, Corrected|||Initiation of breast-feeding||33.2|11.4|<0.001
92255788|NCT02148952|184413592|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Checklist use||||<0.001
92255789|NCT02148952|184413593|SUPERIORITY||Risk Ratio (RR)|182.0|||<|0.001|TWO_SIDED|95.0|33.5|993.0|||Chi-squared, Corrected|||Maternal temperature taken||993|33.5|<0.001
92255790|NCT02148952|184413593|SUPERIORITY||Risk Ratio (RR)|9.9|||<|0.001|TWO_SIDED|95.0|3.8|25.8|||Chi-squared, Corrected|||Maternal blood pressure taken||25.8|3.8|<0.001
92255791|NCT02148952|184413593|SUPERIORITY||Risk Ratio (RR)|0.4||||0.3|TWO_SIDED|95.0|0.1|2.1|||Chi-squared, Corrected|||Mother given magnesium sulfate||2.1|0.1|0.30
92178318|NCT05247034|184252066|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92178319|NCT05247034|184252066|OTHER||||||>|0.05|||||||Friedman|||||||>0.05
92178320|NCT05247034|184252067|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92255792|NCT02148952|184413594|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected|||||||<0.001
92255793|NCT02148952|184413595|SUPERIORITY||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Birth companion present||1.0|1.0|1.00
92255794|NCT02148952|184413595|SUPERIORITY||Risk Ratio (RR)|19.1|||<|0.001|TWO_SIDED|95.0|7.9|46.5|||Chi-squared, Corrected|||Maternal blood pressure taken||46.5|7.9|<0.001
92255795|NCT02148952|184413595|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated due to 100% or 0% values in one group.|Maternal temperature taken||||<0.001
92255796|NCT02148952|184413595|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Partography started||||<0.001
92255797|NCT02148952|184413595|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Checklist use||||<0.001
92255798|NCT02148952|184413596|SUPERIORITY||Risk Ratio (RR)|19.9|||<|0.001|TWO_SIDED|95.0|6.6|60.4|||Chi-squared, Corrected|||Hand hygiene||60.4|6.6|<0.001
92255799|NCT02148952|184413596|SUPERIORITY||Risk Ratio (RR)|2.1||||0.04|TWO_SIDED|95.0|1.0|4.1|||Chi-squared, Corrected|||No oxytocin given before delivery||4.1|1.0|0.04
92255800|NCT02148952|184413596|SUPERIORITY||Risk Ratio (RR)|2.4||||0.006|TWO_SIDED|95.0|1.3|4.3|||Chi-squared, Corrected|||Clean towel available||4.3|1.3|0.006
92255801|NCT02148952|184413596|SUPERIORITY||Risk Ratio (RR)|1.0||||0.34|TWO_SIDED|95.0|1.0|1.1|||Chi-squared, Corrected|||Clean scissors or blade available||1.1|1.0|0.34
92255802|NCT02148952|184413596|SUPERIORITY||Risk Ratio (RR)|1.0||||0.25|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Cord tie available||1.0|1.0|0.25
92283877|NCT02480764|184471854|OTHER||Odds Ratio (OR)|1.427|STANDARD_ERROR_OF_MEAN|0.3414||0.137|TWO_SIDED|95.0|0.893|2.28||Clinic DBP\<80 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||2.280|0.893|0.137
92283878|NCT02480764|184471854|OTHER||Odds Ratio (OR)|2.017|STANDARD_ERROR_OF_MEAN|0.4816||0.003|TWO_SIDED|95.0|1.263|3.22||Clinic DBP \<80 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||3.220|1.263|0.003
92283879|NCT02480764|184471854|OTHER||Odds Ratio (OR)|1.424|STANDARD_ERROR_OF_MEAN|0.3407||0.14|TWO_SIDED|95.0|0.891|2.276||Clinic SBP\<130 mm Hg and DBP\<80 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||2.276|0.891|0.140
92178321|NCT05247034|184252067|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92178322|NCT05247034|184252067|OTHER|||||||0.0027|||||||Wilcoxon (Mann-Whitney)|||||||0.0027
92255803|NCT02148952|184413596|SUPERIORITY||Risk Ratio (RR)|1.0||||0.5|TWO_SIDED|95.0|1.0|1.1|||Chi-squared, Corrected|||Mucus extractor available||1.1|1.0|0.50
92255804|NCT02148952|184413596|SUPERIORITY||Risk Ratio (RR)|1.0||||0.32|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Neonatal bag and mask available||1.0|1.0|0.32
92178323|NCT05247034|184252068|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92178324|NCT05247034|184252068|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92178325|NCT05247034|184252068|OTHER|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||||||0.0430
92255805|NCT02148952|184413596|SUPERIORITY||Risk Ratio (RR)|1.4||||0.11|TWO_SIDED|95.0|0.9|2.1|||Chi-squared, Corrected|||Pads available||2.1|0.9|0.11
92255806|NCT02148952|184413596|SUPERIORITY||Risk Ratio (RR)|37.9|||<|0.001|TWO_SIDED|95.0|7.3|196.0|||Chi-squared, Corrected|||Checklist available||196|7.3|<0.001
92255807|NCT02148952|184413597|SUPERIORITY||Risk Ratio (RR)|3.6|||<|0.001|TWO_SIDED|95.0|1.8|7.5|||Chi-squared, Corrected|||Oxytocin administered||7.5|1.8|<0.001
92255808|NCT02148952|184413597|SUPERIORITY||Risk Ratio (RR)|0.6||||0.19|TWO_SIDED|95.0|0.3|1.3|||Chi-squared, Corrected|||Neonatal bag used||1.3|0.3|0.19
92255809|NCT02148952|184413597|SUPERIORITY||Risk Ratio (RR)|1.0||||0.5|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Birth companion present||1.0|1.0|0.50
92255810|NCT02148952|184413598|SUPERIORITY||Risk Ratio (RR)|1.1||||0.08|TWO_SIDED|95.0|1.0|1.3|||Chi-squared, Corrected|||Newborn weight taken||1.3|1.0|0.08
92255811|NCT02148952|184413598|SUPERIORITY||Risk Ratio (RR)|91.5|||<|0.001|TWO_SIDED|95.0|11.0|758.0|||Chi-squared, Corrected|||Newborn temperature taken||758|11.0|<0.001
92255812|NCT02148952|184413598|SUPERIORITY||Risk Ratio (RR)|8.2|||<|0.001|TWO_SIDED|95.0|2.5|27.5|||Chi-squared, Corrected|||Skin-to-skin care initiated at birth||27.5|2.5|<0.001
92255813|NCT02148952|184413598|SUPERIORITY||Other|0.0||||0.01|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Skin-to-skin care maintained for 1 hr||||0.01
92255814|NCT02148952|184413598|SUPERIORITY||Risk Ratio (RR)|7.9|||<|0.001|TWO_SIDED|95.0|3.7|16.7|||Chi-squared, Corrected|||Initiation of breast-feeding||16.7|3.7|<0.001
92255815|NCT02148952|184413598|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Checklist use||||<0.001
92255816|NCT02148952|184413599|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Maternal temperature taken||||<0.001
92255817|NCT02148952|184413599|SUPERIORITY||Risk Ratio (RR)|12.7|||<|0.001|TWO_SIDED|95.0|4.7|34.3|||Chi-squared, Corrected|||Maternal blood pressure taken||34.3|4.7|<0.001
92255818|NCT02148952|184413599|SUPERIORITY||Risk Ratio (RR)|1.1||||0.95|TWO_SIDED|95.0|0.2|6.6|||Chi-squared, Corrected|||Mother given magnesium sulfate||6.6|0.2|0.95
92255819|NCT01925014|184413600|NON_INFERIORITY|Detailed in Ahn S, LOCAT Group. Trials 2014:15:28.|Risk Difference (RD)|0.013|||||TWO_SIDED|95.0|-0.008|0.033|||||The non-inferiority was established.|Detailed in Ahn S, LOCAT Group. Trials 2014:15:28.||0.033|-0.008|
92255820|NCT01925014|184413601|NON_INFERIORITY|Detailed in Ahn S, LOCAT Group. Trials 2014:15:28.|Risk Difference (RD)|0.035|||||TWO_SIDED|95.0|-0.021|0.091|||||The non-inferiority was established.|Detailed in Ahn S, LOCAT Group. Trials 2014:15:28.||0.091|-0.021|
92255821|NCT01487863|184413615|SUPERIORITY|||||||0.2141|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test.||||||0.2141
92283880|NCT02480764|184471854|OTHER||Odds Ratio (OR)|1.769|STANDARD_ERROR_OF_MEAN|0.4136||0.015|TWO_SIDED|95.0|1.118|2.797||Clinic SBP\<130 mm Hg and DBP\<80 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||2.797|1.118|0.015
92178326|NCT05247034|184252069|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92178327|NCT05247034|184252069|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92178328|NCT05247034|184252069|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92255822|NCT01810380|184413624|SUPERIORITY_OR_OTHER||Least square mean difference|-4.1|STANDARD_ERROR_OF_MEAN|2.1||0.056|TWO_SIDED|95.0|-8.2|0.1||For all efficacy analyses the primary comparison is the difference between brexpiprazole 2 to 4 mg/day and placebo at Week 6.|Mixed Models Analysis|Pooled site, visit, treatment as fixed effects, baseline score as continuous covariate, treatment-by-visit and baseline score-by-visit as interactions||The overall significance level was 0.05. The primary and the key secondary endpoints were tested hierarchically. Only if the primary endpoint was statistically significant would confirmatory testing continue with the key secondary endpoint.||0.1|-8.2|0.0560
92255823|NCT01810380|184413624|SUPERIORITY_OR_OTHER||Least square mean difference|-8.0|STANDARD_ERROR_OF_MEAN|2.1||0.0002|TWO_SIDED|95.0|-12.2|-3.9|||Mixed Models Analysis|||||-3.9|-12.2|0.0002
92255824|NCT03787095|184413652|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||Null hypothesis: There is no change from baseline to post-baseline among participants treated with Cemiplimab. Per the analysis plan, only participants in the Cemiplimab arm are evaluated.||||0.71
92255825|NCT03787095|184413653|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Null hypothesis: There is no change from baseline to post-baseline among participants treated with Cemiplimab. Per the analysis plan, only participants in the Cemiplimab arm are evaluated.||||1.00
92255826|NCT03787095|184413654|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||Null hypothesis: There is no change from baseline to post-baseline among participants treated with Cemiplimab. Per the analysis plan, only participants in the Cemiplimab arm are evaluated.||||0.33
92255827|NCT00118404|184413717|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.079|STANDARD_ERROR_OF_MEAN|0.39||0.42|TWO_SIDED|95.0|0.5|2.34|||Log Rank|log-rank chi-square = 0.038, df = 1, p \<=.42|Hazard ratio for relapse in C-CT group compared to that in the fluoxetine group.|The sample size was based on a predicted 30% difference in relapse/recurrence rates between C-CT and fluoxetine (ie,30% vs 60%) across both the experimental phase and the first 12 months of follow-up. With these assumptions, 180 randomized patients (60 per cell) were required to detect a statistically significant difference using a log-rank test with 1-sided α = 0.05 and 80% power.||2.34|0.50|.42
92178329|NCT05247034|184252070|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Comparing row Change from baseline at Week 12"||||>0.05
92255828|NCT00118404|184413717|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.481|STANDARD_ERROR_OF_MEAN|0.38||0.02|TWO_SIDED|95.0|0.23|1.01|||Log Rank|log-rank chi-square = 3.92, df = 1|Hazard Ratio for relapse in fluoxetine group compared to that in the pill placebo group.|||1.01|.23|.02
92178330|NCT05247034|184252070|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92255829|NCT00118404|184413717|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.519|STANDARD_ERROR_OF_MEAN|0.36||0.03|TWO_SIDED|95.0|0.26|1.06|||Log Rank|log-rank chi-square = 3.391, df = 1|Hazard ratio for relapse in C-CT group compared to that in the placebo group.|||1.06|0.26|.03
92255830|NCT00118404|184413717|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.501|STANDARD_ERROR_OF_MEAN|0.31||0.01|TWO_SIDED|95.0|0.27|0.93|||Log Rank|log-rank chi-square = 5.06, df = 1|Hazard ratio for relapse in active treatment group (fluoxetine or C-CT) compared to that in the placebo group.|||0.93|0.27|.01
92255831|NCT00118404|184413718|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.988|STANDARD_ERROR_OF_MEAN|0.3||0.48|TWO_SIDED|95.0|0.55|1.76|||Log Rank|log-rank chi-square = 0.002, df = 1|Hazard ratio for relapse/recurrence in the C-CT group compared to that in the fluoxetine group.|||1.76|0.55|.48
92255832|NCT00118404|184413718|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.717|STANDARD_ERROR_OF_MEAN|0.31||0.14|TWO_SIDED|95.0|0.39|1.31|||Log Rank|Chi-square = 1.19, df = 1|Hazard ratio of relapse/recurrence in the Fluoxetine arm over the 20 months of follow-up since randomization compared to the pill placebo arm.|||1.31|.39|.14
92178331|NCT05247034|184252070|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92178332|NCT05247034|184252071|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92178333|NCT05247034|184252071|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92178334|NCT05247034|184252071|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92178335|NCT05247034|184252072|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92178336|NCT05247034|184252072|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92178337|NCT05247034|184252072|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92178338|NCT05247034|184252073|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92178339|NCT05247034|184252073|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92178340|NCT05247034|184252073|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92178341|NCT05247034|184252074|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
92178342|NCT05247034|184252074|OTHER|||||||0.0007|||||||Wilcoxon (Mann-Whitney)|||||||0.0007
92178343|NCT05247034|184252074|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92178344|NCT05879991|184252086|OTHER||Ratio of adjusted geometric means [%]|76.18|||||TWO_SIDED|90.0|70.21|82.65|||||Ratio \[%\] = (adjusted geometric mean zongertinib / adjusted geometric mean \[14C\]zongertinib)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 7.9|"Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale.~The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included the effect 'subjects' as a random effect and 'treatment' as a fixed effect. These quantities were then back-transformed to the original scale."||82.65|70.21|
92255833|NCT00118404|184413718|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.715|STANDARD_ERROR_OF_MEAN|0.3||0.13|TWO_SIDED|95.0|0.4|1.29|||Log Rank|chi-square = 1.262, df = 1|Hazard ratio of relapse/recurrence in the C-CT arm over the 20 months of follow-up since randomization compared to the pill placebo arm.|||1.29|.40|.13
92255834|NCT00118404|184413718|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.717|STANDARD_ERROR_OF_MEAN|0.26||0.1|TWO_SIDED|95.0|0.43|1.2|||Log Rank|Chi-square = 1.595, df = 1|Hazard of relapse/recurrence in the active treatment (FLX or C-CT) arm compared to PBO (placebo)arm.|||1.20|.43|.10
92255835|NCT00118404|184413719|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.075|STANDARD_ERROR_OF_MEAN|0.27||0.4|TWO_SIDED|95.0|0.63|1.84|||Log Rank|chi-square = .07, df = 1|Hazard of relapse/recurrence for C-CT arm compared to FLX arm was reported.|||1.84|.63|.40
92283881|NCT03117569|184471855|NON_INFERIORITY|A total of 375 participants (2:1 randomisation) were planned for enrolment and evaluation as ITT population. Under the assumption that SVR12 rate would be 96% in both arms, the study had 80% power to show non-inferiority of the simplified monitoring strategy with a lower confidence bound for SVR12 in the simplified monitoring arm greater than 90% or with a lower confidence bound for the difference (simplified arm minus standard arm) in SVR12 greater than -6%.|Difference in Percentage of Participants|-3.2|||<|0.05|TWO_SIDED|95.0|-8.2|1.8|||t-test, 2 sided|||||1.8|-8.2|<0.05
92178345|NCT05879991|184252091|OTHER||Ratio of adjusted geometric means [%]|26.1|||||TWO_SIDED|90.0|22.12|30.79|||||Ratio \[%\] = (adjusted geometric mean zongertinib / adjusted geometric mean \[14C\]zongertinib)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 16.0|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included the effect 'subjects' as a random effect and 'treatment' as a fixed effect. These quantities were then back-transformed to the original scale.||30.79|22.12|
92178346|NCT05879991|184252092|OTHER||Ratio of adjusted geometric means [%]|76.99|||||TWO_SIDED|90.0|70.92|83.59|||||Ratio \[%\] = (adjusted geometric mean zongertinib / adjusted geometric mean \[14C\]zongertinib)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 7.9|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included the effect 'subjects' as a random effect and 'treatment' as a fixed effect. These quantities were then back-transformed to the original scale.||83.59|70.92|
92178347|NCT05464069|184252103|SUPERIORITY|||||||0.16||||||Significant level \< 0.05|t-test, 2 sided|||||||0.160
92178348|NCT04615273|184252138|SUPERIORITY||Estimate of Difference|-2.04|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001|TWO_SIDED|95.0|-2.94|-1.14|||ANCOVA|||Analysis included treatment arm, region, baseline age group, gender, concomitant oral estrogen, Adult Growth Hormone Deficiency (AGHD) onset as factors \& baseline trunk percent fat as the covariates. Multiple imputation method was used to impute missing data.||-1.14|-2.94|<.0001
92178349|NCT03314740|184252161|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.265|TWO_SIDED|90.0|0.5|1.14|||cox model|||||1.14|0.5|0.265
92178350|NCT03314740|184252161|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.904|TWO_SIDED|90.0|0.68|1.55|||cox- model|||||1.55|0.68|0.904
92178351|NCT00971087|184252208|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|3D + s2D will be considered non-inferior to 2D FFDM if the lower limit one-sided 95% CI for the difference in AUCs (3DS minus 2D FFDM) is greater than -0.05. That is, our null hypothesis is that the AUC for 3D + s2D is 0.05 less than the AUC for 2D FFDM. A difference of 0.05 is considered a clinically significant difference.||||||0.009|||||||MRMC ROC Analysis|||A multi-reader, multi-case ROC analysis will be used to compare 3D + s2D to 2D FFDM. The areas under the curve (AUC) will be used to compare ROC performance.||||0.009
92255836|NCT00118404|184413719|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.649|STANDARD_ERROR_OF_MEAN|0.28||0.61|TWO_SIDED|95.0|0.37|1.13|||Log Rank|chi-square = 2.407, df = 1|Hazard of relapse/recurrence in the FLX arm compared tp C-CT arm was reported.|||1.13|.37|.61
92178352|NCT00971087|184252209|NON_INFERIORITY|A multi-reader, multi-case ROC analysis will be used to compare 3DS to 2D FFDM. The areas under the curve (AUC) will be used to compare ROC performance. 3DS will be considered non-inferior to 2D FFDM if the lower limit onesided 95% CI for the difference in AUCs (3DS minus 2D FFDM) is greater than -0.05.||||||0.045|||||||MRMC ROC Analysis|||||||0.045
92178353|NCT00677365|184252219|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96||||0.0014|TWO_SIDED|95.0|-1.54|-0.38||Repeated Measure Model|Mixed Models Analysis|||LS Mean Difference||-0.38|-1.54|0.0014
92178354|NCT00677365|184252220|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.21||||0.0007|TWO_SIDED|95.0|0.09|0.52|||Regression, Cox|||Hazard Ratio for need of anti-pseudomonal antimicrobials; Estimates are obtained from a Cox proportional hazards regression model including terms for treatment, region, baseline P.aeruginosa density (log10 ), highest baseline MIC of levofloxacin against P. aeruginosa (log2 ), and baseline percent predicted FEV1 (quartiles)||0.52|0.09|0.0007
92178355|NCT00677365|184252221|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.61||||0.0026|TWO_SIDED|95.0|3.05|14.17|||Mixed Models Analysis|||LS Mean Difference Between MP-376 240 mg and Placebo groups||14.17|3.05|0.0026
92178356|NCT00677365|184252222|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.94||||0.0008|TWO_SIDED|95.0|4.63|17.25|||Mixed Models Analysis|||LS Mean Difference Between Placebo and MP-376 240 mg BID groups||17.25|4.63|0.0008
92178357|NCT00677365|184252223|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.5||||0.2174|TWO_SIDED|95.0|-2.68|11.67|||Mixed Models Analysis|||LS Mean Difference from MP-376 240 mg BID to placebo groups||11.67|-2.68|0.2174
92178358|NCT03969563|184252225|EQUIVALENCE|Equivalence based on non-significant difference between MBSR and Brain Health groups.|Mean Difference (Final Values)|0.3||||0.694|TWO_SIDED||||||Mixed Models Analysis|||||||.694
92178359|NCT03969563|184252226|EQUIVALENCE|Equivalence based on non-significant difference between MBSR vs Brain Health group.|Mean Difference (Final Values)|-1.4||||0.837|TWO_SIDED||||||Mixed Models Analysis|||||||.837
92178360|NCT04424316|184252233|OTHER||Vaccine Efficacy|57.6|||||TWO_SIDED|95.0|31.3|74.6||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||74.6|31.3|
92255837|NCT00118404|184413719|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.701|STANDARD_ERROR_OF_MEAN|0.27||0.09|TWO_SIDED|95.0|0.41|1.19|||Log Rank|chi-square = 1.731, df = 1|Hazard of relapse/recurrence in the C-CT arm compared to PBO arm is reported.|||1.19|.41|.09
92255838|NCT00118404|184413719|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.676|STANDARD_ERROR_OF_MEAN|0.24||0.05|TWO_SIDED|95.0|0.42|1.08|||Log Rank|chi-square = 2.705, df = 1|Hazard of relapse/recurrence in the active treatment (FLX or C-CT) arm compared to PBO arm was reported.|||1.08|.42|.05
92178361|NCT04424316|184252234|OTHER||Vaccine Efficacy|54.5|||||TWO_SIDED|95.0|33.2|69.5||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||69.5|33.2|
92178362|NCT04424316|184252235|OTHER||Vaccine Efficacy|50.0|||||TWO_SIDED|95.0|30.3|64.5||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||64.5|30.3|
92255839|NCT00814307|184413750|SUPERIORITY_OR_OTHER||Percent difference|39.04|||<|0.0001|TWO_SIDED|95.0|29.12|48.95||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690,550 to placebo.||48.95|29.12|<0.0001
92283882|NCT01030965|184471868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|||<|0.001|TWO_SIDED|95.0|0.088|0.229|||Repeated Measures Analysis of Covariance|||||0.229|0.088|<0.001
92255840|NCT00814307|184413750|SUPERIORITY_OR_OTHER||Percent difference|33.08|||<|0.0001|TWO_SIDED|95.0|23.04|43.13||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690,550 to placebo.||43.13|23.04|<0.0001
92255841|NCT00814307|184413751|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.38|||<|0.0001|TWO_SIDED|95.0|-0.5|-0.27||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in ACR20 had to be significant.|Linear mixed effect model|||p-value was calculated using linear mixed effect model. The fixed effects of treatment, visit, and treatment-by-visit interaction were included, along with participant as random effect.||-0.27|-0.50|<.0001
92255842|NCT00814307|184413751|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.31|||<|0.0001|TWO_SIDED|95.0|-0.43|-0.2||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in ACR20 had to be statistically significant.|Linear mixed effect model|||p-value was calculated using linear mixed effect model. The fixed effects of treatment, visit, and treatment-by-visit interaction were included, along with participant as random effect.||-0.20|-0.43|<0.0001
92178363|NCT04424316|184252236|OTHER||Vaccine Efficacy|49.2|||||TWO_SIDED|95.0|31.4|62.8||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||62.8|31.4|
92178364|NCT04424316|184252237|OTHER||Vaccine Efficacy|82.4|||||TWO_SIDED|95.0|57.5|93.9||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||93.9|57.5|
92178365|NCT04424316|184252238|OTHER||Vaccine Efficacy|73.5|||||TWO_SIDED|95.0|50.3|86.8||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||86.8|50.3|
92283883|NCT01030965|184471868|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.168|||<|0.001|TWO_SIDED|95.0|0.099|0.238|||Repeated Measures Analysis of Covariance|||||0.238|0.099|<0.001
92178366|NCT04424316|184252239|OTHER||Vaccine Efficacy|70.5|||||TWO_SIDED|95.0|49.4|83.6||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||83.6|49.4|
92178367|NCT04424316|184252240|OTHER||Vaccine Efficacy|70.0|||||TWO_SIDED|95.0|50.6|82.5||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||82.5|50.6|
92178368|NCT04424316|184252256|OTHER||Vaccine efficacy|69.7|||||TWO_SIDED|95.0|37.1|86.7||||||Vaccine efficacy within 90 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||86.7|37.1|
92255843|NCT00814307|184413752|SUPERIORITY_OR_OTHER||Percent difference|5.24||||0.0728|TWO_SIDED|95.0|-0.49|10.96||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in HAQ-DI had to be significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690550 to placebo.||10.96|-0.49|0.0728
92255844|NCT00814307|184413752|SUPERIORITY_OR_OTHER||Percent difference|1.31||||0.6193|TWO_SIDED|95.0|-3.85|6.46||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in HAQ-DI had to be statistically significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690550 to placebo.||6.46|-3.85|0.6193
92283884|NCT01030965|184471868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|||<|0.001|TWO_SIDED|95.0|0.08|0.22|||Repeated Measures Analysis of Covariance|||||0.220|0.080|<0.001
92283885|NCT00824265|184471956|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.67||||0.0032|TWO_SIDED|95.0|0.51|0.88|||Log Rank|||||0.88|0.51|0.0032
92283886|NCT00824265|184471957|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.1427|TWO_SIDED|95.0|0.59|1.09|||Log Rank|||||1.09|0.59|0.1427
92283887|NCT00824265|184471958|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.449|TWO_SIDED|95.0|0.85|1.37|||Log Rank|||||1.37|0.85|0.4490
92283888|NCT00824265|184471959|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.0878|TWO_SIDED|95.0|0.56|1.05|||Log Rank|||||1.05|0.56|0.0878
92283889|NCT00824265|184471960|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.0036|TWO_SIDED|95.0|0.45|0.87|||Log Rank|||||0.87|0.45|0.0036
92255845|NCT00323427|184413823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|STANDARD_ERROR_OF_MEAN|0.0974||0.69|TWO_SIDED|95.0|-0.15|0.23||No multiple testing adjustment.|t-test, 2 sided|||H0: Mean(Arm 1) = Mean(Arm 2)||0.23|-0.15|0.69
92255846|NCT00323427|184413824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.14||0.42|TWO_SIDED|95.0|-0.16|0.38||No adjustment.|t-test, 2 sided|||H0: Mean(Arm 1) = Mean(Arm 2)||0.38|-0.16|0.42
92255847|NCT00323427|184413825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.15||0.97|TWO_SIDED|95.0|-0.3|0.29||No adjustment|t-test, 2 sided|||H0: mean(Arm 1) = Mean (Arm 2)||0.29|-0.30|0.97
92255848|NCT03227224|184413826|SUPERIORITY||Difference of Least Square Means|0.9||||0.724|TWO_SIDED|90.0|-3.12|4.82|||Mixed model for repeated measures (MMRM)|||||4.82|-3.12|0.724
92255849|NCT03227224|184413826|SUPERIORITY||Difference of Least Square Means|-3.1||||0.083|TWO_SIDED|90.0|-6.13|-0.16|||MMRM|||||-0.16|-6.13|0.083
92255850|NCT03227224|184413826|SUPERIORITY||Difference of Least Square Means|-1.5||||0.424|TWO_SIDED|90.0|-4.7|1.63|||MMRM|||||1.63|-4.70|0.424
92255851|NCT03782376|184413871|SUPERIORITY||Difference in percentage|11.5||||0.089|TWO_SIDED|95.0|-1.5|24.5||Threshold for significance was 0.05 level.|Cochran-Mantel Haenszel-chi-square test|||The fixed sequence testing method was used. CMH chi-square test (2-sided) stratified by baseline CDAI score (\<= 300 or \> 300), and prior biologic failure status at baseline (yes or no).||24.5|-1.5|0.089
92283890|NCT00824265|184471961|SUPERIORITY_OR_OTHER_LEGACY|Participants in the ITT population|Hazard Ratio (HR)|0.77||||0.1143|TWO_SIDED|95.0|0.55|1.08|||Log Rank|||||1.08|0.55|0.1143
92255852|NCT03782376|184413872|SUPERIORITY||Difference in percentage|5.9||||0.338|TWO_SIDED|95.0|-6.0|17.8|||CMH chi-square test (2-sided)|||The fixed sequence testing method was used. CMH chi-square test (2-sided) stratified by baseline CDAI score (\<= 300 or \> 300), and prior biologic failure status at baseline (yes or no).||17.8|-6.0|0.338
92255853|NCT03782376|184413873|SUPERIORITY||Difference in percentage|7.1||||0.3|TWO_SIDED|95.0|-6.0|20.2|||CMH chi-square test (2-sided)|||The fixed sequence testing method was used. CMH chi-square test (2-sided) stratified by baseline CDAI score (\<= 300 or \> 300), and prior biologic failure status at baseline (yes or no).||20.2|-6.0|0.300
92255854|NCT03782376|184413874|SUPERIORITY||Difference in percentage|6.4||||0.314|TWO_SIDED|95.0|-5.8|18.6|||CMH chi-square test (2-sided)|||The fixed sequence testing method was used. CMH chi-square test (2-sided) stratified by baseline CDAI score (\<= 300 or \> 300), and prior biologic failure status at baseline (yes or no).||18.6|-5.8|0.314
92255855|NCT03782376|184413875|SUPERIORITY||Difference in percentage|18.5||||0.004|TWO_SIDED|95.0|6.8|30.2|||CMH chi-square test (2-sided)|||The fixed sequence testing method was used. CMH chi-square test (2-sided) stratified by baseline CDAI score (\<= 300 or \> 300), and prior biologic failure status at baseline (yes or no).||30.2|6.8|0.004
92255856|NCT03039192|184413915|SUPERIORITY||Difference of Least Square Means|-3.8|STANDARD_ERROR_OF_MEAN|1.39||0.006|TWO_SIDED|95.0|-6.56|-1.09|||ANCOVA|||||-1.09|-6.56|0.006
92255857|NCT02407236|184413938|SUPERIORITY||Adjusted treatment difference|10.3|||<|0.001|TWO_SIDED|95.0|5.7|14.9|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with Cochran-Mantel-Haenszel (CMH) weight.|Statistical Analysis 1||14.9|5.7|< 0.001
92255858|NCT02407236|184413938|SUPERIORITY||Adjusted treatment difference|10.2|||<|0.001|TWO_SIDED|95.0|5.6|14.8|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with Cochran-Mantel-Haenszel (CMH) weight.|Statistical Analysis 2||14.8|5.6|< 0.001
92255859|NCT02407236|184413939|SUPERIORITY||Adjusted treatment difference|10.3|||<|0.001|TWO_SIDED|97.5|4.8|15.8|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with Cochran-Mantel-Haenszel (CMH) weight.|Statistical Analysis 1||15.8|4.8|< 0.001
92255860|NCT02407236|184413939|SUPERIORITY||Adjusted treatment difference|12.7|||<|0.001|TWO_SIDED|97.5|7.0|18.4|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with Cochran-Mantel-Haenszel (CMH) weight.|Statistical Analysis 2||18.4|7.0|< 0.001
92178369|NCT04424316|184252256|OTHER||Vaccine efficacy|61.5|||||TWO_SIDED|95.0|28.6|80.3||||||Vaccine efficacy within 120 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||80.3|28.6|
92255861|NCT02407236|184413940|SUPERIORITY||Adjusted treatment difference|14.5||||0.002|TWO_SIDED|95.0|5.5|23.6|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with CMH weight.|Statistical Analysis 1||23.6|5.5|0.002
92255862|NCT02407236|184413940|SUPERIORITY||Adjusted treatment difference|19.7|||<|0.001|TWO_SIDED|95.0|10.3|29.0|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with CMH weight.|Statistical Analysis 2||29.0|10.3|< 0.001
92255863|NCT02407236|184413941|SUPERIORITY||Adjusted treatment difference|15.1||||0.002|TWO_SIDED|95.0|6.0|24.2|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with CMH weight.|Statistical Analysis 1||24.2|6.0|0.002
92255864|NCT02407236|184413941|SUPERIORITY||Adjusted treatment difference|17.9|||<|0.001|TWO_SIDED|95.0|8.6|27.2|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with CMH weight.|Statistical Analysis 2||27.2|8.6|< 0.001
92255865|NCT03277794|184414015|OTHER||Odds Ratio (OR)|2.28|STANDARD_ERROR_OF_MEAN|0.89||0.354|TWO_SIDED||||||Regression, Logistic|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.354
92255866|NCT03277794|184414015|OTHER||Odds Ratio (OR)|2.01|STANDARD_ERROR_OF_MEAN|0.95||0.465|TWO_SIDED||||||Regression, Logistic|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.465
92255867|NCT03277794|184414016|OTHER||Odds Ratio (OR)|2.31|STANDARD_ERROR_OF_MEAN|0.59||0.159|TWO_SIDED||||||Regression, Logistic|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.159
92255868|NCT03277794|184414016|OTHER||Odds Ratio (OR)|2.3|STANDARD_ERROR_OF_MEAN|0.64||0.2|TWO_SIDED||||||Regression, Linear|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.200
92255869|NCT03277794|184414017|OTHER||Odds Ratio (OR)|3.18|STANDARD_ERROR_OF_MEAN|0.74||0.121|TWO_SIDED||||||Regression, Logistic|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.121
92178370|NCT04424316|184252256|OTHER||Vaccine efficacy|57.1|||||TWO_SIDED|95.0|23.9|76.8||||||Vaccine efficacy within 150 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||76.8|23.9|
92255870|NCT03277794|184414017|OTHER||Odds Ratio (OR)|3.63|STANDARD_ERROR_OF_MEAN|0.85||0.134|TWO_SIDED||||||Regression, Logistic|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.134
92255871|NCT03277794|184414018|OTHER|||||||0.899||||||Unadjusted.|Regression, Linear|||||||0.899
92255872|NCT03277794|184414018|OTHER|||||||0.128||||||Unadjusted|Regression, Linear|||||||0.128
92255873|NCT03277794|184414019|OTHER|||||||0.198||||||Unadjusted.|Regression, Linear|||||||0.198
92255874|NCT03277794|184414019|OTHER|||||||0.017||||||Unadjusted.|Regression, Linear|||||||0.017
92255875|NCT03277794|184414020|OTHER|||||||0.091||||||Unadjusted.|Regression, Linear|||||||0.091
92255876|NCT03277794|184414020|OTHER|||||||0.591||||||Unadjusted.|Regression, Linear|||||||0.591
92255877|NCT03277794|184414021|OTHER|||||||0.03||||||Unadjusted.|Regression, Linear|||||||0.030
92255878|NCT03277794|184414021|OTHER|||||||0.005||||||Unadjusted.|Regression, Linear|||||||0.005
92283891|NCT00824265|184471961|SUPERIORITY_OR_OTHER_LEGACY|Participants who took anti-cancer therapies|Hazard Ratio (HR)|0.67||||0.0109|TWO_SIDED|95.0|0.48|0.94|||Log Rank|||||0.94|0.48|0.0109
92283892|NCT00824265|184471964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
92178371|NCT04424316|184252256|OTHER||Vaccine efficacy|55.3|||||TWO_SIDED|95.0|23.8|74.6||||||Vaccine efficacy within 180 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||74.6|23.8|
92178372|NCT04424316|184252256|OTHER||Vaccine efficacy|24.2|||||TWO_SIDED|95.0|-11.1|48.6||||||Vaccine efficacy within 360 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||48.6|-11.1|
92255879|NCT03277794|184414022|OTHER|||||||0.163||||||Unadjusted.|Regression, Linear|||||||0.163
92255880|NCT03277794|184414022|OTHER|||||||0.865||||||Unadjusted.|Regression, Linear|||||||0.865
92255881|NCT03277794|184414023|OTHER|||||||0.98||||||Unadjusted.|Regression, Linear|||||||0.980
92255882|NCT03277794|184414023|OTHER|||||||0.758||||||Unadjusted.|Regression, Linear|||||||0.758
92255883|NCT03277794|184414024|OTHER|||||||0.124||||||Unadjusted.|Regression, Linear|||||||0.124
92255884|NCT03277794|184414024|OTHER|||||||0.168||||||Unadjusted.|Regression, Linear|||||||0.168
92255885|NCT03277794|184414025|OTHER|||||||0.436||||||Unadjusted.|Regression, Linear|||||||0.436
92255886|NCT03277794|184414025|OTHER|||||||0.706||||||Unadjusted.|Regression, Linear|||||||0.706
92255887|NCT03277794|184414026|OTHER|||||||0.604||||||Unadjusted.|Regression, Linear|||Internalizing||||0.604
92255888|NCT03277794|184414026|OTHER|||||||0.177||||||Unadjusted.|Regression, Linear|||Internalizing||||0.177
92255889|NCT03277794|184414026|OTHER|||||||0.325||||||Unadjusted.|Regression, Linear|||Externalizing||||0.325
92255890|NCT03277794|184414026|OTHER|||||||0.227||||||Unadjusted.|Regression, Linear|||Externalizing||||0.227
92255891|NCT03277794|184414026|OTHER|||||||0.106||||||Unadjusted.|Regression, Linear|||Substance Use||||0.106
92255892|NCT03277794|184414026|OTHER|||||||0.058||||||Unadjusted.|Regression, Linear|||Substance Use||||0.058
92255893|NCT03277794|184414027|OTHER|||||||0.862||||||Unadjusted.|Regression, Linear|||Emotional Supports||||0.862
92255894|NCT03277794|184414027|OTHER|||||||0.382||||||Unadjusted.|Regression, Linear|||Emotional Supports||||0.382
92255895|NCT03277794|184414027|OTHER|||||||0.68||||||Unadjusted.|Regression, Linear|||Tangible Supports||||0.680
92255896|NCT03277794|184414027|OTHER|||||||0.988||||||Unadjusted.|Regression, Linear|||Tangible Supports||||0.988
92255897|NCT03277794|184414027|OTHER|||||||0.701||||||Unadjusted.|Regression, Linear|||Affectionate||||0.701
92255898|NCT03277794|184414027|OTHER|||||||0.154||||||Unadjusted.|Regression, Linear|||Affectionate||||0.154
92255899|NCT03277794|184414028|OTHER|||||||0.719||||||Unadjusted.|Regression, Linear|||Physical Health||||0.719
92255900|NCT03277794|184414028|OTHER|||||||0.15||||||Unadjusted.|Regression, Linear|||Physical Health||||0.150
92255901|NCT03277794|184414028|OTHER|||||||0.789||||||Unadjusted.|Regression, Linear|||Psychological||||0.789
92255902|NCT03277794|184414028|OTHER|||||||0.811||||||Unadjusted.|Regression, Linear|||Psychological||||0.811
92255903|NCT03277794|184414028|OTHER|||||||0.726||||||Unadjusted.|Regression, Linear|||Social||||0.726
92255904|NCT03277794|184414028|OTHER|||||||0.795||||||Unadjusted.|Regression, Linear|||Social||||0.795
92255905|NCT03277794|184414028|OTHER|||||||0.837||||||Unadjusted.|Regression, Linear|||Environment||||0.837
92255906|NCT03277794|184414028|OTHER|||||||0.048||||||Unadjusted.|Regression, Linear|||Environment||||0.048
92255907|NCT01899768|184414127|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.26|||||TWO_SIDED|90.0|1.1|1.44|||||Ratio of adjusted geometric means = GSK2339345/Placebo.|||1.44|1.10|
92255908|NCT01899768|184414128|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.02|||||TWO_SIDED|90.0|0.87|1.19|||||Ratio of adjusted geometric means = GSK2339345/Placebo.|||1.19|0.87|
92255909|NCT01899768|184414151|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.23|||||TWO_SIDED|90.0|0.86|1.75|||||Ratio of adjusted geometric means = GSK2339345/Placebo. Estimated value and CI are presented for the mean cough count over 0-4 hr.|||1.75|0.86|
92255910|NCT01899768|184414151|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.36|||||TWO_SIDED|90.0|1.07|1.72|||||Ratio of adjusted geometric means = GSK2339345/Placebo. Estimated value and CI are presented for the mean cough count over 4-8 hr.|||1.72|1.07|
92255911|NCT01899768|184414152|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.97|||||TWO_SIDED|90.0|0.67|1.4|||||Ratio of adjusted geometric means = GSK2339345/Placebo. Estimated value and CI are presented for the mean cough count over 0-4 hr.|||1.40|0.67|
92255912|NCT01899768|184414152|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means = GSK2|1.04|||||TWO_SIDED|90.0|0.79|1.36|||Ratio of adjusted geometric mean|||||1.36|0.79|
92178373|NCT04424316|184252257|OTHER||Vaccine efficacy|9.5|||||TWO_SIDED|95.0|-10.1|25.7||||||Vaccine efficacy within 90 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||25.7|-10.1|
92178374|NCT04424316|184252257|OTHER||Vaccine efficacy|6.7|||||TWO_SIDED|95.0|-9.8|20.7||||||Vaccine efficacy within 120 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||20.7|-9.8|
92178375|NCT04424316|184252257|OTHER||Vaccine efficacy|7.7|||||TWO_SIDED|95.0|-6.5|20.1||||||Vaccine efficacy within 150 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||20.1|-6.5|
92255913|NCT00414973|184414178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.39|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001||95.0|2.89|5.89||There were no adjustments for multiple comparisons.|ANCOVA||Difference = Teriparatide minus Calcitonin|Null hypothesis=no difference between percentage changes from baseline in lumbar spine bone mineral density for female patients receiving teriparatide compared to female patients receiving calcitonin.||5.89|2.89|<0.0001
92255914|NCT00414973|184414179|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.7||0.9062||95.0|-1.3|1.46|||ANCOVA||Difference = Teriparatide minus Calcitonin|||1.46|-1.30|0.9062
92255915|NCT00414973|184414180|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Week 12 Percentage Change.|Wilcoxon Rank-Sum Test|||||||<0.0001
92255916|NCT00414973|184414180|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Week 24 Percentage Change.|Wilcoxon Rank-Sum Test|||||||<0.0001
92255917|NCT00414973|184414181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.63|STANDARD_ERROR_OF_MEAN|2.2||0.2409||95.0|-1.87|7.13|||ANCOVA||Difference = Teriparatide minus Calcitonin|||7.13|-1.87|0.2409
92255918|NCT00414973|184414182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.96|STANDARD_ERROR_OF_MEAN|1.9||0.6156||95.0|-4.85|2.92|||ANCOVA||Difference = Teriparatide minus Calcitonin|||2.92|-4.85|0.6156
92255919|NCT00414973|184414183|SUPERIORITY_OR_OTHER|||||||0.0026||95.0||||P-value for Week 12 Percentage Change.|Wilcoxon Rank-Sum Test|||||||0.0026
92255920|NCT00414973|184414183|SUPERIORITY_OR_OTHER|||||||0.0006||95.0||||P-value for 24 Week Percentage Change.|Wilcoxon Rank-Sum Test|||||||0.0006
92255921|NCT04476108|184414260|SUPERIORITY||Posterior Mean Difference|-0.42|||||TWO_SIDED|95.0|-1.17|0.32|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.32|-1.17|
92255922|NCT04476108|184414261|SUPERIORITY||Posterior Mean Difference|-0.37|||||TWO_SIDED|95.0|-1.09|0.35|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.35|-1.09|
92255923|NCT04476108|184414262|SUPERIORITY||Posterior Mean Difference|-0.27|||||TWO_SIDED|95.0|-0.69|0.15|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.15|-0.69|
92255924|NCT04476108|184414263|SUPERIORITY||Posterior Mean Difference|-0.44|||||TWO_SIDED|95.0|-1.2|0.31|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.31|-1.20|
92255925|NCT04476108|184414264|SUPERIORITY||Posterior Mean Difference|-2.86|||||TWO_SIDED|95.0|-11.71|6.06|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||6.06|-11.71|
92255926|NCT04476108|184414265|SUPERIORITY||Posterior Mean Difference|0.35|||||TWO_SIDED|95.0|-0.09|0.78|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.78|-0.09|
92255927|NCT04476108|184414266|SUPERIORITY||Posterior Mean Difference|0.34|||||TWO_SIDED|95.0|-188.46|187.97|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||187.97|-188.46|
92255928|NCT04476108|184414267|SUPERIORITY||Posterior Mean Difference|0.04|||||TWO_SIDED|95.0|-0.01|0.1|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.10|-0.01|
92283893|NCT00824265|184471965|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0166|||||||Cochran-Mantel-Haenszel|||||||0.0166
92283894|NCT01402947|184472014|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean Ratio|1.013|||||TWO_SIDED|90.0|0.933|1.1|||ANOVA|||||1.100|0.933|
92255929|NCT00850135|184414268|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED|||||p-Value for the correlation between AUC-110 and birth weight|correlation|||||||0.035
92255930|NCT00471276|184414284|SUPERIORITY_OR_OTHER||Objective Response Rate (percent)|8.4|||||TWO_SIDED|95.0|3.5|16.6|||Exact 2-sided confidence interval|||||16.6|3.5|
92283895|NCT01402947|184472015|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean Ratio|0.999|||||TWO_SIDED|90.0|0.893|1.117|||ANOVA|||||1.117|0.893|
92283896|NCT02405195|184472037|OTHER|||||||0.638||||||Bonferroni-Holm adjustment for multiple comparisons was used|ANOVA|||Repeated measures ANOVA throughout measurement period (before, during and after CPB).||||0.638
92283897|NCT02405195|184472038|OTHER|||||||0.972||||||Bonferroni-Holm adjustment for multiple comparisons was used|ANOVA|||Repeated measures ANOVA||||0.972
92283898|NCT02405195|184472039|OTHER||||||<|0.001||||||Bonferroni-Holm adjustment for multiple comparisons was used|ANOVA|||Repeated measures ANOVA||||<0.001
92178376|NCT04424316|184252257|OTHER||Vaccine efficacy|4.1|||||TWO_SIDED|95.0|-9.5|16.0||||||Vaccine efficacy within 180 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||16.0|-9.5|
92255931|NCT00471276|184414285|SUPERIORITY_OR_OTHER||Objective Response Rate (percent)|10.8|||||TWO_SIDED|95.0|5.1|19.6|||Exact 2-sided confidence interval|||||19.6|5.1|
92255932|NCT01512693|184414339|NON_INFERIORITY_OR_EQUIVALENCE|Similarity will be concluded if the GMR (moderate hepatic insufficiency / healthy) is contained within the interval \[0.40, 2.50\].|GMR|0.85|||||TWO_SIDED|90.0|0.61|1.19||||||Natural log-transformed plasma values were analyzed using an analysis of covariance (ANCOVA) model with a categorical factor for population (moderate hepatic insufficiency participants, healthy matched control participants) and continuous covariates for age and body mass index (BMI). Data are back transformed to geometric least-squares mean ratio (GMR) (moderate hepatic insufficiency / healthy) and 90% confidence intervals.||1.19|0.61|
92255933|NCT01512693|184414340|SUPERIORITY_OR_OTHER||GMR|0.71|||||TWO_SIDED|90.0|0.51|1.0||||||Natural log-transformed plasma values were analyzed using an ANCOVA model with a categorical factor for population (moderate hepatic insufficiency participants, healthy matched control participants) and continuous covariates for age and BMI. Data are back transformed to GMR (moderate hepatic insufficiency / healthy) and 90% confidence intervals.||1.00|0.51|
92178377|NCT04424316|184252257|OTHER||Vaccine efficacy|4.6|||||TWO_SIDED|95.0|-6.6|14.6||||||Vaccine efficacy within 360 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||14.6|-6.6|
92255934|NCT02044367|184414350|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T1/R (%)|137.01|STANDARD_DEVIATION|26.8|||TWO_SIDED|90.0|125.773|149.25|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||149.250|125.773|
92255935|NCT02044367|184414350|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T2/R (%)|130.43|STANDARD_DEVIATION|27.1|||TWO_SIDED|90.0|119.628|142.2|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||142.200|119.628|
92265301|NCT04557189|184432029|SUPERIORITY||Difference in LSM Estimates|0.188|||||TWO_SIDED|95.0|-0.402|0.777||||||30 Minutes Post Surgery|From MMRM analysis over all post-randomization timepoints, with the Peak VRS score as the outcome, treatment group, timepoint, number of Apfel risk factors and treatment-by-timepoint interaction as fixed effects and participant as random effect with unstructured covariance structure for observed data up to 24 hours post surgery.|0.777|-0.402|
92283899|NCT02863575|184472043|SUPERIORITY||Least square (LS) means difference|2.68||||0.306|TWO_SIDED|95.0|-2.46|7.82|||ANCOVA|||||7.82|-2.46|0.306
92265302|NCT04557189|184432029|SUPERIORITY||Difference in LSM Estimates|0.401|||||TWO_SIDED|95.0|-0.258|1.059||||||1 Hour Post Surgery|From MMRM analysis over all post-randomization timepoints, with the Peak VRS score as the outcome, treatment group, timepoint, number of Apfel risk factors and treatment-by-timepoint interaction as fixed effects and participant as random effect with unstructured covariance structure for observed data up to 24 hours post surgery.|1.059|-0.258|
92255936|NCT02044367|184414351|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T1/R (%)|146.16|STANDARD_DEVIATION|31.6|||TWO_SIDED|90.0|132.217|161.576|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||161.576|132.217|
92255937|NCT02044367|184414351|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T2/R (%)|141.06|STANDARD_DEVIATION|31.5|||TWO_SIDED|90.0|127.644|155.876|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||155.876|127.644|
92255938|NCT02044367|184414352|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T1/R (%)|137.61|STANDARD_DEVIATION|26.5|||TWO_SIDED|90.0|126.418|149.797|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||149.797|126.418|
92255939|NCT02044367|184414352|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T2/R (%)|132.0|STANDARD_DEVIATION|28.0|||TWO_SIDED|90.0|120.714|144.342|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||144.342|120.714|
92255940|NCT02044367|184414353|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T1/R (%)|147.8|STANDARD_DEVIATION|32.4|||TWO_SIDED|90.0|133.384|163.779|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||163.779|133.384|
92255941|NCT02044367|184414353|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T2/R (%)|144.8|STANDARD_DEVIATION|32.0|||TWO_SIDED|90.0|130.853|160.242|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||160.242|130.853|
92283900|NCT02863575|184472044|SUPERIORITY||LS mean difference|1.09||||0.056|TWO_SIDED|95.0|-0.03|2.2|||ANCOVA|||SPRID 0-2||2.20|-0.03|0.056
92283901|NCT02863575|184472044|SUPERIORITY||LS means difference|11.13|||<|0.001|TWO_SIDED|95.0|9.54|12.73|||ANCOVA|||SPRID 0-2||12.73|9.54|< 0.001
92283902|NCT02863575|184472044|SUPERIORITY||LS mean difference|10.05|||<|0.001|TWO_SIDED|95.0|8.45|11.64|||ANCOVA|||SPRID 0-2||11.64|8.45|< 0.001
92283903|NCT02863575|184472044|SUPERIORITY||LS mean difference|1.58||||0.177|TWO_SIDED|95.0|-0.72|3.87|||ANCOVA|||SPRID 0-4||3.87|-0.72|0.177
92283904|NCT02863575|184472044|SUPERIORITY||LS mean difference|24.04|||<|0.001|TWO_SIDED|95.0|20.76|27.32|||ANCOVA|||SPRID 0-4||27.32|20.76|< 0.001
92283905|NCT02863575|184472044|SUPERIORITY||LS mean difference|22.46|||<|0.001|TWO_SIDED|95.0|19.18|25.75|||ANCOVA|||SPRID 0-4||25.75|19.18|< 0.001
92255942|NCT04157751|184414361|OTHER||Stratified Win Ratio|1.36||||0.0027|TWO_SIDED|95.0|1.09|1.68||p-value for WR\<=1.0 (one-sided), variance calculated using the asymptotic normal U statistics approach.|Asymptotic normal U statistics approach||WR estimate= \[((a)+(c)+(e)+(g)) / ((b)+(d)+(f)+(h))\]|"Stratified win ratio (WR) was used, calculated as total number of wins in the empa group across all strata divided by total number of losses. Weights were applied analogous to a Mantel-Haenszel approach.~1. death in pbo first;~2. death in empa first;~3. HFEs in pbo more frequently;~4. HFEs in empa more frequently;~5. HFEs in pbo first;~6. HFEs in empa first;~7. KCCQ-TSS change lower in pbo;~8. KCCQ-TSS change lower in empa"||1.68|1.09|0.0027
92255943|NCT04157751|184414362|OTHER||Odds Ratio (OR)|1.522|STANDARD_ERROR_OF_MEAN|0.386||0.097|TWO_SIDED|95.0|0.927|2.501||p-value for OR=1.0 (two-sided).|Regression, Logistic|Wald Confidence interval.|Comparison vs. Placebo.|Logistic regression including terms for baseline KCCQ-TSS, treatment and heart failure status||2.501|0.927|0.0970
92255944|NCT04157751|184414363|OTHER||Difference of adjusted mean|4.45|STANDARD_ERROR_OF_MEAN|2.1||0.0347|TWO_SIDED|95.0|0.32|8.59||p-value for difference = 0 (two-sided)|Mixed Models Analysis|||Restricted maximum likelihood estimation based on a mixed-effect model for repeated measures (MMRM) analysis to obtain adjusted means for the treatment effects. This model included discrete fixed effects for treatment group, and heart failure status at each visit and continuous fixed effects for baseline value at each visit. Missing data caused by patient withdrawal or other reasons were handled implicitly by the MMRM approach. Unstructured covariance structure was used.||8.59|0.32|0.0347
92255945|NCT04157751|184414364|OTHER||Adjusted geometric mean ratio|0.9||||0.0176|TWO_SIDED|95.0|0.82|0.98|||ANCOVA|ANCOVA with a discrete fixed effect for heart failure status and a continuous fixed effect for baseline NT-proBNP level.|Comparison vs. Placebo|Area under the curve (AUC) of change from baseline in log-transformed NT-proBNP level over 30 days of treatment was analysed by an analysis of covariance (ANCOVA). NT-proBNP level is regarded as log-normally distributed, therefore values were log-transformed prior to analysis. The linear trapezoidal rule was used to calculate the AUC after the log-transformation had been applied to each value.||0.98|0.82|0.0176
92255946|NCT04157751|184414367|OTHER||Hazard Ratio (HR)|0.71||||0.1241|TWO_SIDED|95.0|0.46|1.1||p-value for HR=1.0 (two sided)|Regression, Cox|Cox proportional hazard model with terms for heart failure status and treatment.|Comparison vs. Placebo.|||1.10|0.46|0.1241
92283906|NCT02863575|184472044|SUPERIORITY||LS mean difference|2.39||||0.201|TWO_SIDED|95.0|-1.28|6.06|||ANCOVA|||SPRID 0-6||6.06|-1.28|0.201
92283907|NCT02863575|184472044|SUPERIORITY||LS mean difference|34.3|||<|0.001|TWO_SIDED|95.0|29.06|39.55|||ANCOVA|||SPRID 0-6||39.55|29.06|< 0.001
92255947|NCT00441012|184414450|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|100.0||||||95.0|98.7|100.0|||||Exact binomial confidence interval|The purpose of the primary analysis is to demonstrate that there is an adequate seroprotection rate (percentage of participants with anti-HBs \>=10mIU/mL) in each group at 1 month after the third dose. An adequate response requires the lower bound of the two-sided 95% confidence interval for the seroprotection rate to exceed 90%.||100.0|98.7|
92255948|NCT00441012|184414450|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|99.1||||||95.0|69.9|99.9|||||Exact binomial confidence interval|The purpose of the primary analysis is to demonstrate that there is an adequate seroprotection rate (percentage of participants with anti-HBs \>=10mIU/mL) in each group at 1 month after the third dose. An adequate response requires the lower bound of the two-sided 95% confidence interval for the seroprotection rate to exceed 90%.||99.9|69.9|
92255949|NCT00441012|184414451|NON_INFERIORITY_OR_EQUIVALENCE|The Modified Process Vaccine is non-inferior to COMVAX with respect to anti-HBs GMT. The non-inferiority criterion requires that the lower bound of the two-sided 95% confidence interval on the ratio of the Month 11 GMTs \[GMT modified process vaccine/GMT COMVAX™\] is \>0.67.|Geometric Mean Titer Ratio|2.5||||||95.0|1.9|3.3||||||||3.3|1.9|
92283908|NCT02863575|184472044|SUPERIORITY||LS mean difference|31.91|||<|0.001|TWO_SIDED|95.0|26.67|37.16|||ANCOVA|||SPRID 0-6||37.16|26.67|< 0.001
92178378|NCT04424316|184252258|OTHER||Vaccine efficacy|43.8|||||TWO_SIDED|95.0|25.6|57.7||||||Vaccine efficacy at 210 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||57.7|25.6|
92255950|NCT00441012|184414453|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|93.9||||||95.0|90.0|96.6|||||Exact binomial confidence interval|||96.6|90.0|
92283909|NCT02863575|184472044|SUPERIORITY||LS mean difference|40.85|||<|0.001|TWO_SIDED|95.0|33.49|48.2|||ANCOVA|||SPRID 0-8||48.20|33.49|< 0.001
92283910|NCT02863575|184472044|SUPERIORITY||LS mean difference|38.17|||<|0.001|TWO_SIDED|95.0|30.81|45.52|||ANCOVA|||SPRID 0-8||45.52|30.81|< 0.001
92283911|NCT02863575|184472045|SUPERIORITY||LS means difference|0.73||||0.066|TWO_SIDED|95.0|-0.05|1.5|||ANCOVA|||SPID 0-2||1.50|-0.05|0.066
92283912|NCT02863575|184472045|SUPERIORITY||LS means difference|7.55|||<|0.001|TWO_SIDED|95.0|6.44|8.66|||ANCOVA|||SPID 0-2||8.66|6.44|< 0.001
92283913|NCT02863575|184472045|SUPERIORITY||LS means difference|6.82|||<|0.001|TWO_SIDED|95.0|5.71|7.93|||ANCOVA|||SPID 0-2||7.93|5.71|< 0.001
92283914|NCT02863575|184472045|SUPERIORITY||LS means difference|1.14||||0.165|TWO_SIDED|95.0|-0.47|2.74|||ANCOVA|||SPID 0-4||2.74|-0.47|0.165
92283915|NCT02863575|184472045|SUPERIORITY||LS means difference|16.35|||<|0.001|TWO_SIDED|95.0|14.05|18.64|||ANCOVA|||SPID 0-4||18.64|14.05|< 0.001
92283916|NCT02863575|184472045|SUPERIORITY||LS means difference|15.21|||<|0.001|TWO_SIDED|95.0|12.91|17.51|||ANCOVA|||SPID 0-4||17.51|12.91|< 0.001
92283917|NCT02863575|184472045|SUPERIORITY||LS means difference|1.78||||0.172|TWO_SIDED|95.0|-0.78|4.34|||ANCOVA|||SPID 0-6||4.34|-0.78|0.172
92255951|NCT00441012|184414453|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|92.1||||||95.0|87.8|95.3|||||Exact binomial confidence interval|No hypothesis is being tested. The purpose of the secondary analysis is to estimate the seroprotection rate (percentage of participants with anti-PRP \> 1µg/mL) in each group at 1 month after the third dose.||95.3|87.8|
92255952|NCT04498468|184414468|SUPERIORITY||Mean Difference (Final Values)|-0.55||||0.003|TWO_SIDED|95.0|-0.91|-0.19|||t-test, 2 sided|||Corneal staining analysis, day 28.||-0.19|-0.91|0.003
92255953|NCT04498468|184414468|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.19|TWO_SIDED|95.0|-1.28|0.28|||t-test, 2 sided|||Corneal staining sub-group analysis, day 28, 18-59 year old subgroup.||0.28|-1.28|0.19
92255954|NCT04498468|184414468|SUPERIORITY||Mean Difference (Final Values)|-0.94||||0.047|TWO_SIDED|95.0|-1.86|-0.02|||t-test, 2 sided|||Corneal staining sub-group analysis, day 28, 60+ year old subgroup.||-0.02|-1.86|0.047
92283918|NCT02863575|184472045|SUPERIORITY||LS means difference|23.37|||<|0.001|TWO_SIDED|95.0|19.71|27.03|||ANCOVA|||SPID 0-6||27.03|19.71|< 0.001
92178379|NCT04424316|184252258|OTHER||Vaccine efficacy|39.7|||||TWO_SIDED|95.0|21.3|54.1||||||Vaccine efficacy at 240 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||54.1|21.3|
92255955|NCT04498468|184414468|SUPERIORITY||Mean Difference (Final Values)|-0.69||||0.08|TWO_SIDED|95.0|-1.49|0.1|||t-test, 2 sided|||Corneal staining sub-group analysis, day 28, Sjogren's subgroup.||0.10|-1.49|0.08
92255956|NCT04498468|184414468|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.09|TWO_SIDED|95.0|-1.67|0.14|||t-test, 2 sided|||Corneal staining sub-group analysis, day 28, non-Sjogren's subgroup.||0.14|-1.67|0.09
92255957|NCT04498468|184414468|SUPERIORITY||Mean Difference (Final Values)|-0.68|||<|0.001|TWO_SIDED|95.0|-1.05|-0.3|||t-test, 2 sided|||Conjunctival staining analysis, day 28||-0.30|-1.05|< 0.001
92255958|NCT04498468|184414468|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.58|TWO_SIDED|95.0|-1.04|0.61|||t-test, 2 sided|||Conjunctival staining sub-group analysis, day 28, 18-59 year old subgroup.||0.61|-1.04|0.58
92255959|NCT04498468|184414468|SUPERIORITY||Mean Difference (Final Values)|-1.19||||0.021|TWO_SIDED|95.0|-2.17|-0.21|||t-test, 2 sided|||Conjunctival staining sub-group analysis, day 28, 60+ year old subgroup.||-0.21|-2.17|0.021
92255960|NCT04498468|184414468|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.16|TWO_SIDED|95.0|-1.88|0.34|||t-test, 2 sided|||Conjunctival staining sub-group analysis, day 28, Sjogren's subgroup.||0.34|-1.88|0.16
92283919|NCT02863575|184472045|SUPERIORITY||LS means difference|21.59|||<|0.001|TWO_SIDED|95.0|17.93|25.25|||ANCOVA|||SPID 0-6||25.25|17.93|< 0.001
92283920|NCT02863575|184472045|SUPERIORITY||LS means difference|2.1||||0.249|TWO_SIDED|95.0|-1.47|5.67|||ANCOVA|||SPID 0-8||5.67|-1.47|0.249
92283921|NCT02863575|184472045|SUPERIORITY||LS means difference|27.88|||<|0.001|TWO_SIDED|95.0|22.78|32.99|||ANCOVA|||SPID 0-8||32.99|22.78|< 0.001
92255961|NCT04498468|184414468|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.097|TWO_SIDED|95.0|-1.55|0.14|||t-test, 2 sided|||Conjunctival staining sub-group analysis, day 28, non-Sjogren's subgroup.||0.14|-1.55|0.097
92255962|NCT04498468|184414469|SUPERIORITY||Mean Difference (Final Values)|-5.5||||0.069|TWO_SIDED|95.0|-11.4|0.4|||t-test, 2 sided|||Eye dryness, day 28||0.4|-11.4|0.069
92283922|NCT02863575|184472045|SUPERIORITY||LS means difference|25.79|||<|0.001|TWO_SIDED|95.0|20.68|30.89|||ANCOVA|||SPID 0-8||30.89|20.68|< 0.001
92283923|NCT02863575|184472046|SUPERIORITY||LS means difference|0.36||||0.044|TWO_SIDED|95.0|0.01|0.71|||ANCOVA|||TOTPAR 0-2||0.71|0.01|0.044
92283924|NCT02863575|184472046|SUPERIORITY||LS means difference|3.59|||<|0.001|TWO_SIDED|95.0|3.09|4.09|||ANCOVA|||TOTPAR 0-2||4.09|3.09|< 0.001
92283925|NCT02863575|184472046|SUPERIORITY||LS means difference|3.23|||<|0.001|TWO_SIDED|95.0|2.73|3.73|||ANCOVA|||TOTPAR 0-2||3.73|2.73|< 0.001
92283926|NCT02863575|184472046|SUPERIORITY||LS means difference|0.44||||0.224|TWO_SIDED|95.0|-0.27|1.15|||ANCOVA|||TOTPAR 0-4||1.15|-0.27|0.224
92283927|NCT02863575|184472046|SUPERIORITY||LS means difference|7.69|||<|0.001|TWO_SIDED|95.0|6.68|8.71|||ANCOVA|||TOTPAR 0-4||8.71|6.68|< 0.001
92178380|NCT04424316|184252258|OTHER||Vaccine efficacy|35.0|||||TWO_SIDED|95.0|16.1|49.9||||||Vaccine efficacy at 270 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||49.9|16.1|
92255963|NCT04498468|184414469|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.92|TWO_SIDED|95.0|-7.0|6.3|||t-test, 2 sided|||VAS Eye discomfort, Day 28||6.3|-7.0|0.92
92283928|NCT02863575|184472046|SUPERIORITY||LS means difference|7.25|||<|0.001|TWO_SIDED|95.0|6.23|8.27|||ANCOVA|||TOTPAR 0-4||8.27|6.23|< 0.001
92283929|NCT02863575|184472046|SUPERIORITY||LS means difference|0.61||||0.293|TWO_SIDED|95.0|-0.53|1.75|||ANCOVA|||TOTPAR 0-6||1.75|-0.53|0.293
92178381|NCT04424316|184252258|OTHER||Vaccine efficacy|33.0|||||TWO_SIDED|95.0|15.2|47.1||||||Vaccine efficacy at 360 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||47.1|15.2|
92283930|NCT02863575|184472046|SUPERIORITY||LS means difference|10.93|||<|0.001|TWO_SIDED|95.0|9.3|12.56|||ANCOVA|||TOTPAR 0-6||12.56|9.30|< 0.001
92283931|NCT02863575|184472046|SUPERIORITY||LS means difference|10.32|||<|0.001|TWO_SIDED|95.0|8.69|11.95|||ANCOVA|||TOTPAR 0-6||11.95|8.69|< 0.001
92283932|NCT02863575|184472046|SUPERIORITY||LS means difference|0.58||||0.476|TWO_SIDED|95.0|-1.03|2.19|||ANCOVA|||TOTPAR 0-8||2.19|-1.03|0.476
92283933|NCT02863575|184472046|SUPERIORITY||LS means difference|12.96|||<|0.001|TWO_SIDED|95.0|10.66|15.26|||ANCOVA|||TOTPAR 0-8||15.26|10.66|< 0.001
92283934|NCT02863575|184472046|SUPERIORITY||LS means difference|12.38|||<|0.001|TWO_SIDED|95.0|10.08|14.68|||ANCOVA|||TOTPAR 0-8||14.68|10.08|< 0.001
92255964|NCT04498468|184414469|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.55|TWO_SIDED|95.0|-5.8|3.1|||t-test, 2 sided|||VAS eye fatigue, day 28||3.1|-5.8|0.55
92255965|NCT04498468|184414470|SUPERIORITY||Risk Ratio (RR)|1.26||||0.42|TWO_SIDED|95.0|0.8|2.0|||McNemar|||||2.0|0.8|0.42
92255966|NCT04498468|184414471|SUPERIORITY||Risk Ratio (RR)|1.04||||1|TWO_SIDED|95.0|0.76|1.42|||McNemar|||||1.42|0.76|1.00
92255967|NCT02092324|184414473|SUPERIORITY|1-proportion test for greater than 10% difference.||||||0.002||||||p-value for Protocol-defined objective response|binomial|||Proportion estimated using Clopper-Pearson method. P-value is one-sided proportion test for greater than 10% response rate (based on Simon's 2-stage).||||0.002
92255968|NCT02092324|184414473|SUPERIORITY|1-proportion test for greater than 10% difference||||||0.9||||||p-value is for IWG-defined objective response|binomial|||Proportion estimated using Clopper-Pearson method. P-value is one-sided proportion test for greater than 10% response rate (based on Simon's 2-stage).||||0.90
92283935|NCT02863575|184472047|SUPERIORITY||LS means difference|0.01||||0.975|TWO_SIDED|95.0|-0.35|0.36|||ANCOVA|||PRID at 0.25 hour||0.36|-0.35|0.975
92283936|NCT02863575|184472047|SUPERIORITY||LS means difference|0.12||||0.654|TWO_SIDED|95.0|-0.4|0.63|||ANCOVA|||PRID at 0.25 hour||0.63|-0.40|0.654
92283937|NCT02863575|184472047|SUPERIORITY||LS means difference|0.11||||0.67|TWO_SIDED|95.0|-0.4|0.62|||ANCOVA|||PRID at 0.25 hour||0.62|-0.40|0.670
92283938|NCT02863575|184472047|SUPERIORITY||LS means difference|-0.04||||0.917|TWO_SIDED|95.0|-0.7|0.63|||ANCOVA|||PRID at 0.5 hour||0.63|-0.70|0.917
92283939|NCT02863575|184472047|SUPERIORITY||LS means difference|2.26|||<|0.001|TWO_SIDED|95.0|1.31|3.2|||ANCOVA|||PRID at 0.5 hour||3.20|1.31|< 0.001
92283940|NCT02863575|184472047|SUPERIORITY||LS means difference|2.29|||<|0.001|TWO_SIDED|95.0|1.35|3.24|||ANCOVA|||PRID at 0.5 hour||3.24|1.35|< 0.001
92283941|NCT02863575|184472047|SUPERIORITY||LS means difference|0.73||||0.039|TWO_SIDED|95.0|0.04|1.42|||ANCOVA|||PRID at 1 hour||1.42|0.04|0.039
92283942|NCT02863575|184472047|SUPERIORITY||LS means difference|6.11|||<|0.001|TWO_SIDED|95.0|5.12|7.1|||ANCOVA|||PRID at 1 hour||7.10|5.12|< 0.001
92283943|NCT02863575|184472047|SUPERIORITY||LS means difference|5.38|||<|0.001|TWO_SIDED|95.0|4.39|6.37|||ANCOVA|||PRID at 1 hour||6.37|4.39|< 0.001
92283944|NCT02863575|184472047|SUPERIORITY||LS means difference|0.84||||0.015|TWO_SIDED|95.0|0.16|1.52|||ANCOVA|||PRID at 1.5 hour||1.52|0.16|0.015
92283945|NCT02863575|184472047|SUPERIORITY||LS means difference|7.36|||<|0.001|TWO_SIDED|95.0|6.39|8.33|||ANCOVA|||PRID at 1.5 hour||8.33|6.39|< 0.001
92283946|NCT02863575|184472047|SUPERIORITY||LS means difference|6.52|||<|0.001|TWO_SIDED|95.0|5.55|7.49|||ANCOVA|||PRID at 1.5 hour||7.49|5.55|< 0.001
92283947|NCT02863575|184472047|SUPERIORITY||LS means difference|0.62||||0.071|TWO_SIDED|95.0|-0.05|1.3|||ANCOVA|||PRID at 2 hour||1.30|-0.05|0.071
92283948|NCT02863575|184472047|SUPERIORITY||LS means difference|7.62|||<|0.001|TWO_SIDED|95.0|6.65|8.58|||ANCOVA|||PRID at 2 hour||8.58|6.65|< 0.001
92283949|NCT02863575|184472047|SUPERIORITY||LS means difference|6.99|||<|0.001|TWO_SIDED|95.0|6.03|7.96|||ANCOVA|||PRID at 2 hour||7.96|6.03|< 0.001
92283950|NCT02863575|184472047|SUPERIORITY||LS means difference|0.41||||0.243|TWO_SIDED|95.0|-0.28|1.09|||ANCOVA|||PRID at 3 hour||1.09|-0.28|0.243
92255969|NCT02092324|184414476|SUPERIORITY|Proportion estimated using Clopper-Pearson method. P-value is one-sided proportion test for greater than 10% response rate.|||||<|0.0001||||||p-value for protocol-defined objective response. p-value for IWG-defined objective response is 0.70|Clopper-Pearson method|||||||<0.0001
92255970|NCT02092324|184414476|SUPERIORITY|Proportion estimated using Clopper-Pearson method. P-value is one-sided proportion test for greater than 10% response rate.||||||0.7||||||p-value for IWG-defined objective response|Clopper-Pearson method|||||||0.70
92255971|NCT02092324|184414486|EQUIVALENCE|2-sample test for equality of proportions with continuity correction (Pearson's chi-square test statistic)||||||0.003||||||p-value for protocol-defined objective response.|Chi-squared, Corrected|||2-sample test for equality of proportions with continuity correction (Pearson's chi-square test statistic) comparing Wildtype and Mutant CSF3R status for protocol-defined objective response||||0.003
92255972|NCT02092324|184414486|EQUIVALENCE|2-sample test for equality of proportions with continuity correction (Pearson's chi-square)||||||0.1||||||p-value for IWG-defined objective response = 0.1|Fisher Exact|||2-sample test for equality of proportions with continuity correction (Pearson's chi-square test statistic) comparing Wildtype and Mutant CSF3R status for IWG-defined objective response||||0.1
92255973|NCT00499460|184414492|SUPERIORITY|The primary hypothesis being tested is that garlic powder treatment increases metabolic clearance of oxycodone through enzyme induction and results in lower exposure to oxycodone.|||||>|0.05||||||Significance probability for the treatment variable in the Generalized Linear Model|Generalized Estimating Equations|Response variable is oxycodone oral clearance. Explanatory variables include treatment, period and gender, along with their interaction terms.||||||>0.05
92283951|NCT02863575|184472047|SUPERIORITY||LS means difference|6.83|||<|0.001|TWO_SIDED|95.0|5.85|7.8|||ANCOVA|||PRID at 3 hour||7.80|5.85|< 0.001
92283952|NCT02863575|184472047|SUPERIORITY||LS means difference|6.42|||<|0.001|TWO_SIDED|95.0|5.44|7.4|||ANCOVA|||PRID at 3 hour||7.40|5.44|< 0.001
92283953|NCT02863575|184472047|SUPERIORITY||LS means difference|0.08||||0.823|TWO_SIDED|95.0|-0.65|0.82|||ANCOVA|||PRID at 4 hour||0.82|-0.65|0.823
92255974|NCT00499460|184414493|SUPERIORITY|The secondary hypothesis being tested is that powder garlic treatment lowers Cold Pressor Test tolerance (i.e., diminished analgesic response) after oxycodone administration due to a more rapid metabolic clearance and lower exposure to oxycodone.|||||>|0.05||||||Significance probability for the treatment variable in the Generalized Linear Model|Generalized Estimating Equations|Response variable is log Tolerance AUC. Explanatory variables include treatment, period and gender, along with their interaction terms.||||||>0.05
92283954|NCT02863575|184472047|SUPERIORITY||LS means difference|6.08|||<|0.001|TWO_SIDED|95.0|5.02|7.14|||ANCOVA|||PRID at 4 hour||7.14|5.02|< 0.001
92283955|NCT02863575|184472047|SUPERIORITY||LS means difference|6.0|||<|0.001|TWO_SIDED|95.0|4.94|7.05|||ANCOVA|||PRID at 4 hour||7.05|4.94|< 0.001
92255975|NCT00499460|184414494|SUPERIORITY|The secondary hypothesis being tested is that garlic powder treatment lowers opioid side effects after oxycodone administration due to a more rapid metabolic clearance and lower exposure to oxycodone.|||||>|0.05||||||Significance probability for the treatment variable in the Generalized Linear Model|Generalized Estimating Equations|Response variable is total SSE rating score. Explanatory variables include treatment, period, time and gender, along with their interaction terms.||||||>0.05
92283956|NCT02863575|184472047|SUPERIORITY||LS means difference|0.31||||0.438|TWO_SIDED|95.0|-0.48|1.11|||ANCOVA|||PRID at 5 hour||1.11|-0.48|0.438
92283957|NCT02863575|184472047|SUPERIORITY||LS means difference|5.47|||<|0.001|TWO_SIDED|95.0|4.33|6.6|||ANCOVA|||PRID at 5 hour||6.60|4.33|< 0.001
92283958|NCT02863575|184472047|SUPERIORITY||LS means difference|5.15|||<|0.001|TWO_SIDED|95.0|4.01|6.29|||ANCOVA|||PRID at 5 hour||6.29|4.01|< 0.001
92283959|NCT02863575|184472047|SUPERIORITY||LS means difference|0.5||||0.25|TWO_SIDED|95.0|-0.35|1.35|||ANCOVA|||PRID at 6 hour||1.35|-0.35|0.250
92283960|NCT02863575|184472047|SUPERIORITY||LS means difference|4.8|||<|0.001|TWO_SIDED|95.0|3.58|6.02|||ANCOVA|||PRID at 6 hour||6.02|3.58|< 0.001
92283961|NCT02863575|184472047|SUPERIORITY||LS means difference|4.3|||<|0.001|TWO_SIDED|95.0|3.08|5.52|||ANCOVA|||PRID at 6 hour||5.52|3.08|< 0.001
92283962|NCT02863575|184472047|SUPERIORITY||LS means difference|0.11||||0.818|TWO_SIDED|95.0|-0.8|1.01|||ANCOVA|||PRID at 7 hour||1.01|-0.80|0.818
92283963|NCT02863575|184472047|SUPERIORITY||LS means difference|3.53|||<|0.001|TWO_SIDED|95.0|2.23|4.82|||ANCOVA|||PRID at 7 hour||4.82|2.23|< 0.001
92283964|NCT02863575|184472047|SUPERIORITY||LS means difference|3.42|||<|0.001|TWO_SIDED|95.0|2.12|4.71|||ANCOVA|||PRID at 7 hour||4.71|2.12|< 0.001
92283965|NCT02863575|184472047|SUPERIORITY||LS means difference|0.18||||0.698|TWO_SIDED|95.0|-0.74|1.11|||ANCOVA|||PRID at 8 hour||1.11|-0.74|0.698
92283966|NCT02863575|184472047|SUPERIORITY||LS means difference|3.02|||<|0.001|TWO_SIDED|95.0|1.69|4.34|||ANCOVA|||PRID at 8 hour||4.34|1.69|< 0.001
92283967|NCT02863575|184472047|SUPERIORITY||LS means difference|2.83|||<|0.001|TWO_SIDED|95.0|1.51|4.16|||ANCOVA|||PRID at 8 hour||4.16|1.51|< 0.001
92283968|NCT02863575|184472048|SUPERIORITY||LS means difference|0.04||||0.575|TWO_SIDED|94.0|-0.09|0.16|||ANCOVA|||PRR score at 0.25 hour||0.16|-0.09|0.575
92255976|NCT00499460|184414495|SUPERIORITY|The secondary hypothesis being tested is that garlic powder treatment lowers opioid side effects after oxycodone administration due to a more rapid metabolic clearance and lower exposure to oxycodone.|||||>|0.05||||||Significance probability for the treatment variable in the Generalized Linear Model|Generalized Estimating Equations|Response variable is total CASE rating score. Explanatory variables include treatment, period, time and gender, along with their interaction terms.||||||>0.05
92255977|NCT00499460|184414496|SUPERIORITY||||||>|0.05|||||||t-test, 1 sided|Garlic powder versus placebo||The secondary hypothesis being tested is that garlic powder induces CYP3A-mediated metabolism resulting in a lower oral midazolam AUC.||||>0.05
92255978|NCT00499460|184414497|SUPERIORITY|The secondary hypothesis being tested is that garlic powder treatment induces intestinal P-glycoprotein, reduces the bioavailability and hence AUC of orally administered digoxin.|||||>|0.05|||||||t-test, 1 sided|Garlic powder versus placebo||||||>0.05
92255979|NCT00997555|184414511|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Chi-squared|||||||0.6
92255980|NCT00997555|184414512|SUPERIORITY_OR_OTHER|||||||0.7||95.0||||(bronchoscopy 5.1 days, 95% CI +/- 3.6 days versus control 6.7 days, 95% CI +/- 6.3 days, p = 0.7).|t-test, 2 sided|||||||0.7
92255981|NCT00997555|184414513|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||t-test, 2 sided|(bronchoscopy 10 days, 95% CI +/- 10 days versus control 18 days, 95% CI +/- 12 days, p = 0.4).||||||0.4
92283969|NCT02863575|184472048|SUPERIORITY||LS means difference|0.07||||0.426|TWO_SIDED|95.0|-0.11|0.25|||ANCOVA|||PRR score at 0.25 hour||0.25|-0.11|0.426
92255982|NCT00997555|184414514|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||t-test, 2 sided|(bronchoscopy 21 days, 95% CI +/- 12 days versus control 26 days, 95% CI +/- 12 days, p = 0.5).||||||0.5
92255983|NCT00804986|184414528|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.47||||0.0109|TWO_SIDED|95.0|-0.83|-0.11||p-value represents change from baseline to Week 12 HbA1c for 0.5 mg treatment arm in comparison to placebo with values \<0.05 considered to be statistically significant.|Mixed Models Analysis|Mixed effects model: baseline HbA1c, metformin use, treatment, visit, treatment-by-visit interaction||||-0.11|-0.83|0.0109
92255984|NCT00804986|184414528|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.67||||0.0003|TWO_SIDED|95.0|-1.02|-0.31||p-value represents change from baseline to week 12 HbA1c for 2.0 mg treatment arm in comparison to placebo with values \<0.05 considered to be statistically significant.|Mixed Models Analysis|Mixed effects model: baseline HbA1c, metformin use, treatment, visit, treatment-by-visit interaction||||-0.31|-1.02|0.0003
92283970|NCT02863575|184472048|SUPERIORITY||LS means difference|0.04||||0.686|TWO_SIDED|95.0|-0.14|0.22|||ANCOVA|||PRR score at 0.25 hour||0.22|-0.14|0.686
92255985|NCT00804986|184414528|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1.11|||<|0.0001|TWO_SIDED|95.0|-1.46|-0.76||p-value represents change from baseline to Week 12 HbA1c for 6.2 mg treatment arm in comparison to placebo with values \<0.05 considered to be statistically significant.|Mixed Models Analysis|Mixed effects model: baseline HbA1c, metformin use, treatment, visit, treatment-by-visit interaction||||-0.76|-1.46|<0.0001
92283971|NCT02863575|184472048|SUPERIORITY||LS means difference|0.07||||0.543|TWO_SIDED|95.0|-0.15|0.29|||ANCOVA|||PRR score at 0.5 hour||0.29|-0.15|0.543
92283972|NCT02863575|184472048|SUPERIORITY||LS means difference|0.81|||<|0.001|TWO_SIDED|95.0|0.49|1.12|||ANCOVA|||PRR score at 0.5 hour||1.12|0.49|< 0.001
92283973|NCT02863575|184472048|SUPERIORITY||LS means difference|0.74|||<|0.001|TWO_SIDED|95.0|0.42|1.05|||ANCOVA|||PRR score at 0.5 hour||1.05|0.42|< 0.001
92178382|NCT03995979|184252281|SUPERIORITY|||||||0.05||||||The P-value was calculated using a paired t test|Paired t-test|||A compositional analysis with species-level alpha diversity will be performed between the three conditions (Pre-Dietary Restriction, Dietary Restriction, and Post-Dietary Restriction,) with ANOVA testing. Furthermore, a differential abundance analysis will be performed to further identify and confirm prevalent organisms associated with the experimental dietary restriction.||||0.05
92178383|NCT04763772|184252285|SUPERIORITY||Mean Difference (Final Values)|-4.5||||0.2|TWO_SIDED|95.0|-14.0|4.8|||Regression, Linear|||||4.8|-14|0.2
92283974|NCT02863575|184472048|SUPERIORITY||LS means difference|0.24||||0.038|TWO_SIDED|95.0|0.01|0.46|||ANCOVA|||PRR score at 1 hour||0.46|0.01|0.038
92283975|NCT02863575|184472048|SUPERIORITY||LS means difference|2.01|||<|0.001|TWO_SIDED|95.0|1.69|2.33|||ANCOVA|||PRR score at 1 hour||2.33|1.69|< 0.001
92283976|NCT02863575|184472048|SUPERIORITY||LS means difference|1.78|||<|0.001|TWO_SIDED|95.0|1.46|2.09|||ANCOVA|||PRR score at 1 hour||2.09|1.46|< 0.001
92283977|NCT02863575|184472048|SUPERIORITY||LS means difference|0.25||||0.024|TWO_SIDED|95.0|0.03|0.47|||ANCOVA|||PRR score at 1.5 hour||0.47|0.03|0.024
92283978|NCT02863575|184472048|SUPERIORITY||LS means difference|2.33|||<|0.001|TWO_SIDED|95.0|2.02|2.64|||ANCOVA|||PRR score at 1.5 hour||2.64|2.02|< 0.001
92283979|NCT02863575|184472048|SUPERIORITY||LS means difference|2.08|||<|0.001|TWO_SIDED|95.0|1.77|2.39|||ANCOVA|||PRR score at 1.5 hour||2.39|1.77|< 0.001
92283980|NCT02863575|184472048|SUPERIORITY||LS means difference|0.18||||0.103|TWO_SIDED|95.0|-0.04|0.4|||ANCOVA|||PRR score at 2 hour||0.40|-0.04|0.103
92283981|NCT02863575|184472048|SUPERIORITY||LS means difference|2.4|||<|0.001|TWO_SIDED|95.0|2.09|2.71|||ANCOVA|||PRR score at 2 hour||2.71|2.09|< 0.001
92255986|NCT00804986|184414528|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1.28|||<|0.0001|TWO_SIDED|95.0|-1.64|-0.93||p-value represents change from baseline to Week 12 HbA1c for 12.0 mg treatment arm in comparison to placebo with values \<0.05 considered to be statistically significant.|Mixed Models Analysis|Mixed effects model: baseline HbA1c, metformin use, treatment, visit, treatment-by-visit interaction||||-0.93|-1.64|<0.0001
92255987|NCT00804986|184414528|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1.24|||<|0.0001|TWO_SIDED|95.0|-1.59|-0.88||p-value represents change from baseline to Week 12 HbA1c for 17.6 mg treatment arm in comparison to placebo with values \<0.05 considered to be statistically significant.|Mixed Models Analysis|Mixed effects model: baseline HbA1c, metformin use, treatment, visit, treatment-by-visit interaction||||-0.88|-1.59|<0.0001
92283982|NCT02863575|184472048|SUPERIORITY||LS means difference|2.22|||<|0.001|TWO_SIDED|95.0|1.91|2.53|||ANCOVA|||PRR score at 2 hour||2.53|1.91|< 0.001
92283983|NCT02863575|184472048|SUPERIORITY||LS means difference|0.08||||0.448|TWO_SIDED|95.0|-0.13|0.29|||ANCOVA|||PRR score at 3 hour||0.29|-0.13|0.448
92178384|NCT04564209|184252363|SUPERIORITY|||||||0.455|||||||ANOVA|||||||.455
92178385|NCT04564209|184252364|SUPERIORITY|||||||0.415|||||||ANOVA|||||||.415
92283984|NCT02863575|184472048|SUPERIORITY||LS means difference|2.16|||<|0.001|TWO_SIDED|95.0|1.86|2.47|||ANCOVA|||PRR score at 3 hour||2.47|1.86|< 0.001
92178386|NCT04564209|184252365|SUPERIORITY|||||||0.443|||||||ANOVA|||||||.443
92178387|NCT04564209|184252366|SUPERIORITY|||||||0.457|||||||ANOVA|||||||.457
92178388|NCT04564209|184252367|SUPERIORITY|||||||0.099|||||||ANOVA|||||||.099
92178389|NCT04564209|184252368|SUPERIORITY|||||||0.338|||||||ANOVA|||||||.338
92178390|NCT04564209|184252369|SUPERIORITY|||||||0.723|||||||ANOVA|||||||.723
92178391|NCT04564209|184252371|SUPERIORITY|||||||0.578|||||||t-test, 2 sided|||||||.578
92178392|NCT04564209|184252372|SUPERIORITY|||||||0.998|||||||t-test, 2 sided|||||||.998
92255988|NCT00804986|184414529|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|1.93||||0.655||95.0||||p-value represents change from baseline to Week 12 for hunger, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.655
92255989|NCT00804986|184414529|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|3.36||||0.436||95.0||||p-value represents change from baseline to Week 12 for hunger, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.436
92255990|NCT00804986|184414529|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|0.45||||0.914||95.0||||p-value represents change from baseline to Week 12 for hunger, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.914
92255991|NCT00804986|184414529|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|3.3||||0.446||95.0||||p-value represents change from baseline to Week 12 for hunger, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.446
92283985|NCT02863575|184472048|SUPERIORITY||LS means difference|2.08|||<|0.001|TWO_SIDED|95.0|1.78|2.38|||ANCOVA|||PRR score at 3 hour||2.38|1.78|< 0.001
92255992|NCT00804986|184414529|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|2.84||||0.508||95.0||||p-value represents change from baseline to Week 12 for hunger, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.508
92255993|NCT00804986|184414529|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|2.89||||0.561||95.0||||p-value represents change from baseline to Week 12 for how full, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.561
92255994|NCT00804986|184414529|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-7.4||||0.135||95.0||||p-value represents change from baseline to Week 12 for how full, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.135
92255995|NCT00804986|184414529|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-4.45||||0.357||95.0||||p-value represents change from baseline to Week 12 for how full, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.357
92283986|NCT02863575|184472048|SUPERIORITY||LS means difference|0.0||||0.997|TWO_SIDED|95.0|-0.23|0.23|||ANCOVA|||PRR score at 4 hour||0.23|-0.23|0.997
92283987|NCT02863575|184472048|SUPERIORITY||LS means difference|1.94|||<|0.001|TWO_SIDED|95.0|1.61|2.28|||ANCOVA|||PRR score at 4 hour||2.28|1.61|< 0.001
92283988|NCT02863575|184472048|SUPERIORITY||LS means difference|1.94|||<|0.001|TWO_SIDED|95.0|1.61|2.28|||ANCOVA|||PRR score at 4 hour||2.28|1.61|< 0.001
92178393|NCT04564209|184252373|SUPERIORITY|||||||0.864|||||||t-test, 2 sided|||||||.864
92283989|NCT02863575|184472048|SUPERIORITY||LS means difference|0.06||||0.656|TWO_SIDED|95.0|-0.19|0.31|||ANCOVA|||PRR score at 5 hour||0.31|-0.19|0.656
92178394|NCT03735979|184252376|SUPERIORITY||Posterior Mean Difference (Final Values)|-1.51|STANDARD_DEVIATION|0.51||0.002|TWO_SIDED|||||"The P-value is the posterior probability that study drug has a higher benefit than control. The a priori threshold for a successful trial is 0.985.~The posterior probability that argatroban was better than placebo was 0.002."|Bayesian|Primary analysis compared treatment group with placebo, with adjustment for baseline NIHSS score in a Bayesian normal dynamic linear model.|The posterior mean of study treatment minus placebo.|||||0.002
92255996|NCT00804986|184414529|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-8.05||||0.105||95.0||||p-value represents change from baseline to Week 12 for how full, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.105
92255997|NCT00804986|184414529|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-6.02||||0.221||95.0||||p-value represents change from baseline to Week 12 for how full, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.221
92255998|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-4.54||||0.4848||95.0||||p-value represents change from baseline to Week 12 for fasting glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.4848
92255999|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-19.48||||0.0029||95.0||||p-value represents change from baseline to Week 12 for fasting glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0029
92283990|NCT02863575|184472048|SUPERIORITY||LS means difference|1.73|||<|0.001|TWO_SIDED|95.0|1.36|2.09|||ANCOVA|||PRR score at 5 hour||2.09|1.36|< 0.001
92283991|NCT02863575|184472048|SUPERIORITY||LS means difference|1.67|||<|0.001|TWO_SIDED|95.0|1.31|2.03|||ANCOVA|||PRR score at 5 hour||2.03|1.31|< 0.001
92283992|NCT02863575|184472048|SUPERIORITY||LS means difference|0.11||||0.425|TWO_SIDED|94.0|-0.16|0.38|||ANCOVA|||PRR score at 6 hour||0.38|-0.16|0.425
92283993|NCT02863575|184472048|SUPERIORITY||LS means difference|1.51|||<|0.001|TWO_SIDED|95.0|1.12|1.9|||ANCOVA|||PRR score at 6 hour||1.90|1.12|< 0.001
92283994|NCT02863575|184472048|SUPERIORITY||LS means difference|1.4|||<|0.001|TWO_SIDED|95.0|1.01|1.79|||ANCOVA|||PRR score at 6 hour||1.79|1.01|< 0.001
92283995|NCT02863575|184472048|SUPERIORITY||LS means difference|-0.03||||0.841|TWO_SIDED|95.0|-0.32|0.26|||ANCOVA|||PRR score at 7 hour||0.26|-0.32|0.841
92256000|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-32.52|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for fasting glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256001|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-30.45|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for fasting glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256002|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-35.25|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for fasting glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256003|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-5.32||||0.6279||95.0||||p-value represents change from baseline to Week 12 for 2 hours post breakfast glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.6279
92256004|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-29.72||||0.0072||95.0||||p-value represents change from baseline to Week 12 for 2 hours post breakfast glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0072
92256005|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-42.49|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for 2 hours post breakfast glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256006|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-43.05||||0.0001||95.0||||p-value represents change from baseline to Week 12 for 2 hours post breakfast glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0001
92256007|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-51.38|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for 2 hours post breakfast glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256008|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-20.21||||0.0335||95.0||||p-value represents change from baseline to Week 12 for prior to lunch glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0335
92256009|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-21.91||||0.0221||95.0||||p-value represents change from baseline to Week 12 for prior to lunch glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0221
92256010|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-39.41|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to lunch glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256011|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-36.07||||0.0002||95.0||||p-value represents change from baseline to Week 12 for prior to lunch glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0002
92283996|NCT02863575|184472048|SUPERIORITY||LS means difference|1.1|||<|0.001|TWO_SIDED|95.0|0.69|1.52|||ANCOVA|||PRR score at 7 hour||1.52|0.69|< 0.001
92182777|NCT02609048|184264684|SUPERIORITY||Difference in LSM|-34.66|STANDARD_ERROR_OF_MEAN|6.46|<|0.0001|TWO_SIDED|95.0|-47.83|-21.48||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline bone-specific AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||-21.48|-47.83|<0.0001
92256012|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-40.36|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to lunch glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256013|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-6.41||||0.503||95.0||||p-value represents change from baseline to Week 12 for 2 hours post lunch glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.5030
92283997|NCT02863575|184472048|SUPERIORITY||LS means difference|1.13|||<|0.001|TWO_SIDED|95.0|0.72|1.55|||ANCOVA|||PRR score at 7 hour||1.55|0.72|< 0.001
92283998|NCT02863575|184472048|SUPERIORITY||LS means difference|0.0||||0.98||95.0|-0.3|0.3|||ANCOVA|||PRR score at 8 hour||0.30|-0.30|0.980
92256014|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-12.49||||0.1938||95.0||||p-value represents change from baseline to Week 12 for 2 hours post lunch glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.1938
92256015|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-33.13||||0.0003||95.0||||p-value represents change from baseline to Week 12 for 2 hours post lunch glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0003
92256016|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-24.66||||0.0101||95.0||||p-value represents change from baseline to Week 12 for 2 hours post lunch glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0101
92256017|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-43.47|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for 2 hours post lunch glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256018|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-24.69||||0.006||95.0||||p-value represents change from baseline to Week 12 for prior to dinner glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0060
92256019|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-34.26||||0.0002||95.0||||p-value represents change from baseline to Week 12 for prior to dinner glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0002
92256020|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-38.55|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to dinner glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256021|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-40.34|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to dinner glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256022|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-46.26|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to dinner glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256023|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-11.84||||0.2468||95.0||||p-value represents change from baseline to Week 12 for 2 hours post dinner glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.2468
92256024|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-21.13||||0.0413||95.0||||p-value represents change from baseline to Week 12 for 2 hours post dinner glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, visit, treatment and visit by treatment interaction as fixed effects||||||0.0413
92256025|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-35.19||||0.0004||95.0||||p-value represents change from baseline to Week 12 for 2 hours post dinner glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0004
92256026|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-29.59||||0.004||95.0||||p-value represents change from baseline to Week 12 for 2 hours post dinner glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0040
92256027|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-49.9|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for 2 hours post dinner glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256028|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-24.02||||0.0199||95.0||||p-value represents change from baseline to Week 12 for prior to bed glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0199
92256029|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-35.77||||0.0008||95.0||||p-value represents change from baseline to Week 12 for prior to bed glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0008
92256030|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-38.17||||0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to bed glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0001
92256031|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-40.74||||0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to bed glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0001
92256032|NCT00804986|184414532|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-53.16|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to bed glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256033|NCT00804986|184414533|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1131.85||||0.4193||95.0||||p-value represents change from baseline to Week 12 total glucose AUC for 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.4193
92256034|NCT00804986|184414533|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1471.04||||0.3026||95.0||||p-value represents change from baseline to Week 12 total glucose AUC for 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.3026
92256035|NCT00804986|184414533|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-5547.95|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 total glucose AUC for 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256036|NCT00804986|184414533|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-6116.19|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 total glucose AUC for 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256037|NCT00804986|184414533|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-7786.69|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 total glucose AUC for 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
92256038|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|0.08||||0.693||95.0||||p-value represents change from baseline to Week 12 for fasting triglycerides, 0.5 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.693
92256039|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|0.31||||0.104||95.0||||p-value represents change from baseline to Week 12 for fasting triglycerides, 2.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.104
92256040|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.13||||0.506||95.0||||p-value represents change from baseline to Week 12 for fasting triglycerides, 6.2 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.506
92256041|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.09||||0.648||95.0||||p-value represents change from baseline to Week 12 for fasting triglycerides, 12.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.648
92256042|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.09||||0.647||95.0||||p-value represents change from baseline to Week 12 for fasting triglycerides, 17.6 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.647
92256043|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|0.01||||0.781||95.0||||p-value represents change from baseline to Week 12 for fasting HDL, 0.5 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.781
92256044|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.04||||0.401||95.0||||p-value represents change from baseline to Week 12 for fasting HDL, 2.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.401
92256045|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.03||||0.464||95.0||||p-value represents change from baseline to Week 12 for fasting HDL, 6.2 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.464
92256046|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.04||||0.42||95.0||||p-value represents change from baseline to Week 12 for fasting HDL, 12.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.420
92256047|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|0.01||||0.762||95.0||||p-value represents change from baseline to Week 12 for fasting HDL, 17.6 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.762
92256048|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.04||||0.738||95.0||||p-value represents change from baseline to Week 12 for fasting LDL, 0.5 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.738
92256049|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.14||||0.277||95.0||||p-value represents change from baseline to Week 12 for fasting LDL, 2.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.277
92256050|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.21||||0.094||95.0||||p-value represents change from baseline to Week 12 for fasting LDL, 6.2 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.094
92256051|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.04||||0.792||95.0||||p-value represents change from baseline to Week 12 for fasting LDL, 12.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.792
92256052|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.21||||0.105||95.0||||p-value represents change from baseline to Week 12 for fasting LDL, 17.6 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.105
92256053|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.12||||0.403||95.0||||p-value represents change from baseline to Week 12 for fasting total cholesterol, 0.5 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.403
92256054|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.04||||0.799||95.0||||p-value represents change from baseline to Week 12 for fasting total cholesterol, 2.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.799
92256055|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.32||||0.029||95.0||||p-value represents change from baseline to Week 12 for fasting total cholesterol, 6.2 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.029
92256056|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.12||||0.439||95.0||||p-value represents change from baseline to Week 12 for fasting total cholesterol, 12.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.439
92178395|NCT03735979|184252376|SUPERIORITY||Posterior Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|0.29||0.04|TWO_SIDED|||||"The P-value is the posterior probability that study drug has a higher benefit than control. The a priori threshold for a successful trial is 0.985.~The posterior probability that eptifibitide was better than placebo was 0.04."|Bayesian|Primary analysis compared treatment group with placebo, with adjustment for baseline NIHSS score in a Bayesian normal dynamic linear model.|The posterior mean of study treatment minus placebo.|||||0.04
92256057|NCT00804986|184414536|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.27||||0.062||95.0||||p-value represents change from baseline to Week 12 for fasting total cholesterol, 17.6 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.062
92256058|NCT00804986|184414537|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.16||||0.8003||95.0||||p-value represents change from baseline to Week 12 for fasting weight, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.8003
92256059|NCT00804986|184414537|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.26||||0.6736||95.0||||p-value represents change from baseline to Week 12 for fasting weight, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.6736
92256060|NCT00804986|184414537|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1.53||||0.0123||95.0||||p-value represents change from baseline to Week 12 for fasting weight, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0123
92256061|NCT00804986|184414537|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.44||||0.4771||95.0||||p-value represents change from baseline to Week 12 for fasting weight, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.4771
92178396|NCT02668692|184252405|SUPERIORITY||Odds Ratio (OR)|1.96|||=|0.68|TWO_SIDED|95.0|0.35|10.95|||Fisher Exact|||Statistical analysis of the FAS.||10.95|0.35|=0.68
92256062|NCT00804986|184414537|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-2.01||||0.0013||95.0||||p-value represents change from baseline to Week 12 for fasting weight, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0013
92256063|NCT01256918|184414549|SUPERIORITY_OR_OTHER||incidence|0.0|||>|0.05|||||||incidence|||"Any occurence of posterior capsular rupture in attempted vertical chop would have been an indicator of overzealous penetration as the vertical chop even though effective would not have been safe.~We hypothesised that use of callibrated phacotip after careful preoperative assessment for performing vertical chop during phacoemulsification is not associated with any posterior capsular rupture we noted any incidence of posterior capsular rupture."||||>0.05
92256064|NCT01256918|184414550|SUPERIORITY_OR_OTHER||pearson correlation coefficient|0.850958|||<|0.05|||||||pearson correlation coefficient|||null hypothesis : there is no correlation between nuclear colour and phacodepth required for a full thickness crack during a vertical chop||||<0.05
92256065|NCT01256918|184414551|SUPERIORITY_OR_OTHER||pearson correlation coefficient|0.842617|||<|0.05|||||||pearson correlation coefficient|||"Null hypothesis:~there is no correlation between nuclear opalescence and phacodepth required to achieve full thickness nuclear crack using a callibrated phacotip."||||<0.05
92256066|NCT01256918|184414552|SUPERIORITY_OR_OTHER||pearson correlation coefficient|0.111166|||>|0.05|||||||pearson correlation coefficient|||null hypothesis there is no correlation between lens thickness and penetration of phacotip (phacodepth)required to achieve full thickness crack in vertical chop during phacoemulsification||||>0.05
92256067|NCT01387594|184414579|SUPERIORITY_OR_OTHER_LEGACY||Geometric Mean Ratio (GMR)|1.33|||||TWO_SIDED|80.0|1.13|1.56||A p-value was not computed; hypothesis was tested using confidence interval (CI) approach.|||The lower limit of 80% CI greater than 0.5 indicates the statistical significance at alpha=0.1 level.|The null hypothesis is the (median) percent decrease in total lymphocytes count is greater or equal to 50%, equivalently indicating that the geometric mean ratio (GMR: post-treatment/pretreatment) in total lymphocyte counts is less than or equal to 0.5.||1.56|1.13|
92256068|NCT03073200|184414587|SUPERIORITY||Mean Difference (Final Values)|63.7|||<|0.001|TWO_SIDED|95.0|51.0|76.4|||Fisher Exact|||||76.4|51.0|<0.001
92178397|NCT02668692|184252405|SUPERIORITY||Odds Ratio (OR)|1.92|||=|0.68|TWO_SIDED|95.0|0.34|10.72||Treatment comparison by Fisher's exact test.|Fisher Exact||Odds of 'overall improvement' in LEO 80185 gel group relative to Dovobet® ointment group.|Statistical analysis of the PPAS.||10.72|0.34|=0.68
92178398|NCT02668692|184252406|SUPERIORITY||Odds Ratio (OR)|0.28|||=|0.009|TWO_SIDED|95.0|0.11|0.74|||Fisher Exact|||Statistical analysis for the FAS.||0.74|0.11|=0.009
92178399|NCT02668692|184252406|SUPERIORITY||Odds Ratio (OR)|0.22|||=|0.003|TWO_SIDED|95.0|0.08|0.63||Treatment comparison by Fisher's exact test.|Fisher Exact||Odds of 'overall improvement' in LEO 80185 gel group relative to Dovobet® ointment group.|Statistical analysis of the PPAS.||0.63|0.08|=0.003
92178400|NCT03442309|184252408|NON_INFERIORITY|NI margin for arrest difference of 10%|Mean Difference (Final Values)|-0.11|||||TWO_SIDED|95.0|-0.22|0.01||||||||0.01|-.22|
92178401|NCT03442309|184252409|NON_INFERIORITY|Non-inferiority OR (OR δ, 0.63)|Odds Ratio (OR)|0.94|||||TWO_SIDED|90.0|0.82|1.08||||||||1.08|0.82|
92178402|NCT05465239|184252413|EQUIVALENCE|Equivalence analysis of metabolic energy consumption using the unpowered vs powered walker for control subjects.|||||<|0.001|||||||t-test, 1 sided|||||||< 0.001
92256069|NCT03073200|184414588|SUPERIORITY||Mean Difference (Final Values)|70.2|||<|0.001|TWO_SIDED|95.0|59.3|81.0|||Fisher Exact|||||81|59.3|<0.001
92178403|NCT05465239|184252413|EQUIVALENCE|Equivalence analysis of metabolic energy consumption using the unpowered vs powered walker for subjects with walking disabilities.|||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92256070|NCT03073200|184414589|SUPERIORITY||Mean Difference (Final Values)|72.9|||<|0.001|TWO_SIDED|95.0|63.3|82.5|||Fisher Exact|||||82.5|63.3|<0.001
92178404|NCT05423730|184252414|SUPERIORITY||Mean Difference (Final Values)|-11.12|||||TWO_SIDED|95.0|-49.75|57.2|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||57.20|-49.75|
92178405|NCT05423730|184252415|SUPERIORITY||Mean Difference (Final Values)|7.65|||||TWO_SIDED|95.0|-47.96|63.9|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||63.90|-47.96|
92178406|NCT05423730|184252416|SUPERIORITY||Mean Difference (Final Values)|-0.65|||||TWO_SIDED|95.0|-1.95|0.67|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||0.67|-1.95|
92178407|NCT05423730|184252417|SUPERIORITY||Mean Difference (Final Values)|13.83|||||TWO_SIDED|95.0|-9.45|43.09|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||43.09|-9.45|
92178408|NCT05423730|184252418|SUPERIORITY||Mean Difference (Final Values)|11.42|||||TWO_SIDED|95.0|-3.31|28.4|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||28.40|-3.31|
92256071|NCT03073200|184414590|SUPERIORITY||Mean Difference (Final Values)|50.4|||<|0.001|TWO_SIDED|95.0|40.6|60.2|||Fisher Exact|||||60.2|40.6|<0.001
92178409|NCT05423730|184252419|SUPERIORITY||Mean Difference (Final Values)|12.57|||||TWO_SIDED|95.0|-0.77|27.69|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||27.69|-0.77|
92256072|NCT03073200|184414591|SUPERIORITY||Mean Difference (Final Values)|47.8|||<|0.001|TWO_SIDED|95.0|38.0|57.6|||Fisher Exact|||||57.6|38.0|<0.001
92256073|NCT03073200|184414592|SUPERIORITY||Mean Difference (Final Values)|45.0|||<|0.001|TWO_SIDED|95.0|33.2|56.8|||Fisher Exact|||||56.8|33.2|<0.001
92256074|NCT03073200|184414593|SUPERIORITY||Mean Difference (Final Values)|40.7|||<|0.001|TWO_SIDED|95.0|29.3|52.0|||Fisher Exact|||||52.0|29.3|<0.001
92256075|NCT03073200|184414594|SUPERIORITY||Mean Difference (Final Values)|51.1|||<|0.001|TWO_SIDED|95.0|35.3|66.9|||Fisher Exact|||||66.9|35.3|<0.001
92256076|NCT03073200|184414595|SUPERIORITY||Mean Difference (Final Values)|41.1|||<|0.001|TWO_SIDED|95.0|27.0|55.2|||Fisher Exact|||||55.2|27.0|<0.001
92256077|NCT03073200|184414596|SUPERIORITY||Mean Difference (Final Values)|-17.04|STANDARD_ERROR_OF_MEAN|5.747||0.005|TWO_SIDED|95.0|-28.7|-5.38|||Mixed Models Analysis|||||-5.38|-28.70|0.005
92256078|NCT03073200|184414597|SUPERIORITY||Mean Difference (Final Values)|-15.36|STANDARD_ERROR_OF_MEAN|1.682|<|0.001|TWO_SIDED|95.0|-18.69|-12.04|||Mixed Models Analysis|||||-12.04|-18.69|<0.001
92256079|NCT03073200|184414598|SUPERIORITY||Mean Difference (Final Values)|-12.01|STANDARD_DEVIATION|3.853||0.006|TWO_SIDED|95.0|-20.11|-3.9|||Mixed Models Analysis|||||-3.90|-20.11|0.006
92256080|NCT03073200|184414601|SUPERIORITY||Mean Difference (Final Values)|20.9||||0.089|TWO_SIDED|95.0|0.1|41.7|||Fisher Exact|||||41.7|0.1|0.089
92256081|NCT03073200|184414602|SUPERIORITY||Mean Difference (Final Values)|23.0||||0.07|TWO_SIDED|95.0|0.6|45.4|||Fisher Exact|||||45.4|0.6|0.070
92283999|NCT02863575|184472048|SUPERIORITY||LS means difference|0.93|||<|0.001|TWO_SIDED|95.0|0.5|1.36|||ANCOVA|||PRR score at 8 hour||1.36|0.50|< 0.001
92284000|NCT02863575|184472048|SUPERIORITY||LS means difference|0.93|||<|0.001|TWO_SIDED|95.0|0.5|1.35|||ANCOVA|||PRR score at 8 hour||1.35|0.50|< 0.001
92284001|NCT02863575|184472049|SUPERIORITY||LS means difference|-0.03||||0.808|TWO_SIDED|95.0|-0.27|0.21|||ANCOVA|||PID score at 0.25 hour||0.21|-0.27|0.808
92284002|NCT02863575|184472049|SUPERIORITY||LS means difference|0.04||||0.804|TWO_SIDED|95.0|-0.3|0.39|||ANCOVA|||PID score at 0.25 hour||0.39|-0.30|0.804
92256082|NCT04757376|184414603|EQUIVALENCE|Statistical equivalence: the 90% confidence interval (CI) of the difference in the mean of the primary efficacy endpoint between treatment groups was entirely within an equivalence margin, \[- 1.45, + 1.45\].|Mean Difference (Final Values)|-0.19|||||TWO_SIDED|90.0|-0.76|0.38|||ANCOVA|ANCOVA included the treatment as a fixed effect and age, baseline LS-BMD T-score, and prior bisphosphonates therapy (Yes versus No) as covariates.||||0.38|-0.76|
92178410|NCT05423730|184252420|SUPERIORITY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-21.92|21.24|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||21.24|-21.92|
92256083|NCT01307046|184414617|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-5.1|||<|0.001|TWO_SIDED|95.0|-6.8|-3.4|||constrained longitudinal data analysis|||||-3.4|-6.8|<.001
92256084|NCT01307046|184414618|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-9.2|||<|0.001|TWO_SIDED|95.0|-11.9|-6.5|||constrained longitudinal data analysis|||||-6.5|-11.9|<.001
92256085|NCT04195750|184414673|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.00031|TWO_SIDED|95.0|0.63|0.88|||Log Rank|One-sided p-value based on log-rank test stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|||0.88|0.63|0.00031
92284003|NCT02863575|184472049|SUPERIORITY||LS means difference|0.07||||0.676|TWO_SIDED|95.0|-0.27|0.42|||ANCOVA|||PID score at 0.25 hr||0.42|-0.27|0.676
92284004|NCT02863575|184472049|SUPERIORITY||LS means difference|-0.1||||0.654|TWO_SIDED|95.0|-0.55|0.35|||ANCOVA|||PID score at 0.5 hour||0.35|-0.55|0.654
92284005|NCT02863575|184472049|SUPERIORITY||LS means difference|1.45|||<|0.001|TWO_SIDED|95.0|0.81|2.1|||ANCOVA|||PID score at 0.5 hour||2.10|0.81|< 0.001
92256086|NCT04195750|184414674|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.17644|TWO_SIDED|95.0|0.77|1.1|||Log Rank|One-sided p-value based on log-rank test stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|||1.10|0.77|0.17644
92256087|NCT04195750|184414675|SUPERIORITY|P-value, difference in percentage and associated 95% CI were calculated using Miettinen \& Nurminen method stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Difference in Percentage|18.4|||<|1e-05|TWO_SIDED|95.0|14.0|23.2||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Miettinen & Nurminen||Belzutifan minus Everolimus|||23.2|14.0|<0.00001
92284006|NCT02863575|184472049|SUPERIORITY||LS means difference|1.55|||<|0.001|TWO_SIDED|95.0|0.91|2.2|||ANCOVA|||PID score at 0.5 hour||2.20|0.91|< 0.001
92284007|NCT02863575|184472049|SUPERIORITY||LS means difference|0.49||||0.045|TWO_SIDED|95.0|0.01|0.97|||ANCOVA|||PID score at 1 hour||0.97|0.01|0.045
92284008|NCT02863575|184472049|SUPERIORITY||LS means difference|4.1|||<|0.001||95.0|3.41|4.78|||ANCOVA|||PID score at 1 hour||4.78|3.41|< 0.001
92284009|NCT02863575|184472049|SUPERIORITY||LS means difference|3.6|||<|0.001|TWO_SIDED|95.0|2.92|4.29|||ANCOVA|||PID score at 1 hour||4.29|2.92|< 0.001
92284010|NCT02863575|184472049|SUPERIORITY||LS means difference|0.59||||0.015|TWO_SIDED|95.0|0.11|1.06|||ANCOVA|||PID score at 1.5 hour||1.06|0.11|0.015
92284011|NCT02863575|184472049|SUPERIORITY||LS means difference|5.03|||<|0.001|TWO_SIDED|95.0|4.35|5.71|||ANOVA|||PID score at 1.5 hour||5.71|4.35|< 0.001
92284012|NCT02863575|184472049|SUPERIORITY||LS means difference|4.44|||<|0.001|TWO_SIDED|95.0|3.76|5.12|||ANCOVA|||PID score at 1.5 hour||5.12|3.76|< 0.001
92284013|NCT02863575|184472049|SUPERIORITY||LS means difference|0.44||||0.066|TWO_SIDED|95.0|-0.03|0.91|||ANCOVA|||PID score at 2 hour||0.91|-0.03|0.066
92284014|NCT02863575|184472049|SUPERIORITY||LS means difference|5.22|||<|0.001|TWO_SIDED|95.0|4.54|5.89|||ANCOVA|||PID score at 2 hour||5.89|4.54|< 0.001
92256088|NCT04195750|184414679|OTHER||Hazard Ratio (HR)|0.75||||0.0185|TWO_SIDED|95.0|0.58|0.96|||Log Rank|Two-sided p-value based on log-rank test stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|||0.96|0.58|0.0185
92284015|NCT02863575|184472049|SUPERIORITY||LS means difference|4.78|||<|0.001|TWO_SIDED|95.0|4.1|5.45|||ANCOVA|||PID score at 2 hour||5.45|4.10|< 0.001
92284016|NCT02863575|184472049|SUPERIORITY||LS means difference|0.32||||0.186|TWO_SIDED|95.0|-0.16|0.81|||ANCOVA|||PID score at 3 hour||0.81|-0.16|0.186
92284017|NCT02863575|184472049|SUPERIORITY||LS means difference|4.66|||<|0.001|TWO_SIDED|95.0|3.98|5.35|||ANCOVA|||PID score at 3 hour||5.35|3.98|< 0.001
92284018|NCT02863575|184472049|SUPERIORITY||LS means difference|4.34|||<|0.001|TWO_SIDED|95.0|3.65|5.03|||ANCOVA|||PID score at 3 hour||5.03|3.65|< 0.001
92256089|NCT04195750|184414680|OTHER||Hazard Ratio (HR)|0.93||||0.5533|TWO_SIDED|95.0|0.72|1.2|||Log Rank|Two-sided p-value based on log-rank test stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|||1.20|0.72|0.5533
92256090|NCT04195750|184414681|OTHER||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.41|0.69|||Log Rank|Two-sided p-value based on log-rank test stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|||0.69|0.41|<0.0001
92256091|NCT04195750|184414682|OTHER||Difference in Least Squares (LS) Means|6.38|||<|0.0001|TWO_SIDED|95.0|3.21|9.55|||t-test, 2 sided||Based on a cLDA model with scores as the response variable with covariates for treatment by time interaction, stratification factors (IMDC Risk Category, and Number of Prior VEGF/VEGF-Receptor Targeted Therapies for RCC) as covariates.|||9.55|3.21|<0.0001
92256092|NCT04195750|184414683|OTHER||Difference in LS Means|2.47||||0.1134|TWO_SIDED|95.0|-0.59|5.54|||t-test, 2 sided||Based on a cLDA model with scores as the response variable with covariates for treatment by time interaction, stratification factors (IMDC Risk Category, and Number of Prior VEGF/VEGF-Receptor Targeted Therapies for RCC) as covariates.|||5.54|-0.59|0.1134
92256093|NCT04195750|184414684|OTHER||Difference in LS Means|1.45||||0.0002|TWO_SIDED|95.0|0.7|2.19|||t-test, 2 sided||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (IMDC Risk Category, and Number of Prior VEGF/VEGF-Receptor Targeted Therapies for RCC) as covariates.|||2.19|0.70|0.0002
92284019|NCT02863575|184472049|SUPERIORITY||LS means difference|0.08||||0.75|TWO_SIDED|95.0|-0.43|0.6|||ANCOVA|||PID score at 4 hour||0.60|-0.43|0.750
92256094|NCT04195750|184414685|OTHER||Difference in LS Means|3.72||||0.0051|TWO_SIDED|95.0|1.12|6.31|||t-test, 2 sided||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (IMDC Risk Category, and Number of Prior VEGF/VEGF-Receptor Targeted Therapies for RCC) as covariates.|||6.31|1.12|0.0051
92256095|NCT04363944|184414692|EQUIVALENCE|A paired-t test comparing performance of vertical bowl transfer at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||<|0.001||||||Comparing the change in performing a vertical bowl transfer, the calculated p-value for this activity was \<.001|t-test, 2 sided|||mRehab task vertical bowl transfer- moving the bowl vertically up and down||||<0.001
92284020|NCT02863575|184472049|SUPERIORITY||LS means difference|4.14|||<|0.001|TWO_SIDED|95.0|3.4|4.87|||ANCOVA|||PID score at 4 hour||4.87|3.40|< 0.001
92284021|NCT02863575|184472049|SUPERIORITY||LS means difference|4.05|||<|0.001|TWO_SIDED|95.0|3.32|4.79|||ANCOVA|||PID score at 4 hour||4.79|3.32|< 0.001
92256096|NCT04363944|184414692|EQUIVALENCE|A paired-t test comparing performance of moving the bowl horizontally at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.001||||||Comparing the change in performing a horizontal bowl transfer, the calculated p-value for this activity was .001|t-test, 2 sided|||mRehab task horizontal bowl transfer- moving the bowl horizontally||||=.001
92256097|NCT04363944|184414692|EQUIVALENCE|A paired-t test comparing performance of the vertical mug transfer at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.003||||||Comparing the change in performing a vertical mug transfer, the calculated p-value for this activity was .003|t-test, 2 sided|||mRehab task vertical mug transfer- moving the mug vertically up and down||||=.003
92256098|NCT04363944|184414692|EQUIVALENCE|A paired-t test comparing performance of the horizontal mug transfer at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.009||||||Comparing the change in performing a horizontal mug transfer, the calculated p-value for this activity was .009|t-test, 2 sided|||mRehab task horizontal mug transfer- moving the mug horizontally||||=.009
92256099|NCT04363944|184414692|EQUIVALENCE|A paired-t test comparing performance of the simulated sip at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.933|||||||t-test, 2 sided|A paired-t test comparing performance at the beginning of the 6 week in-home program to the end of the 6 week in-home program.||mRehab task simulate sip- bring mug within one inch of mouth as if taking a drink||||=.933
92256100|NCT04363944|184414692|EQUIVALENCE|A paired-t test comparing performance of entering a phone number at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.136|||||||t-test, 2 sided|||mRehab task enter phone number||||=.136
92284022|NCT02863575|184472049|SUPERIORITY||LS means difference|0.26||||0.361|TWO_SIDED|95.0|-0.3|0.81|||ANCOVA|||PID score at 5 hour||0.81|-0.30|0.361
92284023|NCT02863575|184472049|SUPERIORITY||LS means difference|3.74|||<|0.001|TWO_SIDED|95.0|2.95|4.53|||ANCOVA|||PID score at 5 hour||4.53|2.95|< 0.001
92178411|NCT01447719|184252481|SUPERIORITY_OR_OTHER_LEGACY||Sensitivity|92.0|||||TWO_SIDED|95.0|78.0|98.0|||||95% CI calculated by Wilson score method|Proportion of subjects who had a positive scan based on majority of 5 blinded readers||98|78|
92284024|NCT02863575|184472049|SUPERIORITY||LS means difference|3.48|||<|0.001|TWO_SIDED|95.0|2.69|4.27|||ANCOVA|||PID score at 5 hour||4.27|2.69|< 0.001
92284025|NCT02863575|184472049|SUPERIORITY||LS means difference|0.39||||0.195|TWO_SIDED|95.0|-0.2|0.98|||ANCOVA|||PID score at 6 hour||0.98|-0.20|0.195
92284026|NCT02863575|184472049|SUPERIORITY||LS means difference|3.29|||<|0.001|TWO_SIDED|95.0|2.44|4.13|||ANCOVA|||PID score at 6 hour||4.13|2.44|< 0.001
92256101|NCT04363944|184414692|EQUIVALENCE|A paired-t test comparing performance of the quick tap at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.005|||||||t-test, 2 sided|||mRehab task quick tap- tapping a moving object on the phone screen||||=.005
92256102|NCT04363944|184414693|EQUIVALENCE|Paired t-tests comparing performance at the first session of in-home training to the last session of in-home training were conducted.|||||=|0.228|||||||t-test, 2 sided|||mRehab task vertical bowl transfer- moving bowl vertically up and down||||=.228
92256103|NCT04363944|184414693|EQUIVALENCE|A paired-t test comparing performance at the beginning of the 6 week in-home program to the end of the 6 week in-home program.||||||0.196|||||||t-test, 2 sided|||mRehab task horizontal bowl- bowl moved horizontally||||.196
92256104|NCT04363944|184414693|EQUIVALENCE|A paired-t test comparing performance at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.024|||||||t-test, 2 sided|||mRehab task Vertical Mug- Mug moved vertically and then placed on counter||||=.024
92256105|NCT04363944|184414693|EQUIVALENCE|A paired-t test comparing performance at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.038|||||||t-test, 2 sided|||mRehab task horizontal mug transfer- moving the mug horizontally||||=.038
92178412|NCT01447719|184252482|SUPERIORITY_OR_OTHER_LEGACY||Specificity|100.0|||||TWO_SIDED|95.0|80.0|100.0|||||95% CI calculated by Wilson score method|Proportion of subjects who had a negative scan based on majority of 5 blinded readers||100|80|
92256106|NCT04363944|184414693|EQUIVALENCE|A paired-t test comparing performance at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.306||||||calculated p-value greater than .05|t-test, 2 sided|||mRehab task simulate sip||||=.306
92256107|NCT04363944|184414694|EQUIVALENCE|The average of the WMFT from testing sessions pre intervention (week 1 and approximately week 2) was compared to the WMFT immediately following mRehab home intervention (week 8) using a two tailed paired t-test.|||||=|0.017||||||calculated p-value .017|t-test, 2 sided|||||||=.017
92256108|NCT04363944|184414695|EQUIVALENCE|Test, the scores from the first and second in-laboratory visits were averaged to account for variability in the performance of individuals with stroke. This averaged preintervention score was compared with the third in-laboratory visit to assess the immediate change in performance following use of mRehab.|||||=|0.019|||||||t-test, 2 sided|||Compared pre and post intervention data for participants using mRehab for a 6 week home program.||||=.019
92256109|NCT03559192|184414699|SUPERIORITY||Least Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.25|=|0.0443|ONE_SIDED|80.0||-1.09|||Mixed Models Analysis|||||-1.09||= 0.0443
92256110|NCT03559192|184414700|SUPERIORITY||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|1.05||0.0017|ONE_SIDED|80.0||-2.21|||Mixed Models Analysis|||||-2.21||0.0017
92256111|NCT03559192|184414702|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.87|=|0.4188|ONE_SIDED|80.0||0.41|||Mixed Models Analysis|||||0.41||= 0.4188
92256112|NCT03559192|184414703|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.73||0.2503|ONE_SIDED|80.0||0.1|||Mixed Models Analysis|||||0.10||0.2503
92256113|NCT03517722|184414718|SUPERIORITY||Odds Ratio (OR)|0.6||||0.042|TWO_SIDED|95.0|0.4|1.0|||Regression, Logistic|||||1.0|0.4|0.042
92265303|NCT04557189|184432029|SUPERIORITY||Difference in LSM Estimates|0.265|||||TWO_SIDED|95.0|0.0|0.786||||||2 Hours Post Surgery|From MMRM analysis over all post-randomization timepoints, with the Peak VRS score as the outcome, treatment group, timepoint, number of Apfel risk factors and treatment-by-timepoint interaction as fixed effects and participant as random effect with unstructured covariance structure for observed data up to 24 hours post surgery.|0.786|0|
92284027|NCT02863575|184472049|SUPERIORITY||LS means difference|2.9|||<|0.001|TWO_SIDED|95.0|2.06|3.74|||ANCOVA|||PID score at 6 hour||3.74|2.06|< 0.001
92182778|NCT02609048|184264684|SUPERIORITY||Difference in LSM|-11.3|STANDARD_ERROR_OF_MEAN|6.508||0.0924|TWO_SIDED|95.0|-24.58|1.97||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline bone-specific AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||1.97|-24.58|0.0924
92256114|NCT01673373|184414727|OTHER|Due to the early termination of enrollment, all inferential analyses were interpreted as descriptive and carried out in an exploratory manner.|||||<|0.0001||||||The p-value was computed using a one-sided exact test of the difference between the observed rate and the Performance Goal (equal to 70%). The defined threshold for statistical significance is .025.|one-sided exact|||The original Performance Goal of 70% patency rate was derived from a thorough literature review of trials with renal bare metal stent placement. Other assumptions included a determination of samples size based upon a one-sided alpha of 0.025 and desired power of 87%, and assumption of 10% attrition. The null hypothesis was that the incidence of primary patency at 9 months is less than or equal to 70%.|"The cumulative incidence of primary patency was computed as the number of subject-lesions with primary patency at 9 months divided by the number of subject-lesions and was analyzed using the allowable window of 243 to 303 trial days.~An exact binomial one-sided 95% CI was constructed and the lower limit compared to the Performance Goal equal to 70%."|||<.0001
92284028|NCT02863575|184472049|SUPERIORITY||LS means difference|0.14||||0.669|TWO_SIDED|95.0|-0.49|0.76|||ANCOVA|||PID score at 7 hour||0.76|-0.49|0.669
92256115|NCT01673373|184414728|OTHER|A one-sided 95% Confidence Interval for the mean difference between baseline and 9-month systolic blood pressure was constructed and the lower limit compared to the 10 mmHg performance goal. A p-value of the difference between the estimated systolic blood pressure change from the baseline and the performance goal was computed using a paired t-test.||||||0.0192||||||The defined threshold for statistical significance is .025.|t-test, 1 sided|||The primary endpoint of systolic blood pressure was analyzed according to the Performance Goal of a decrease in systolic blood pressure of 10 mmHg between procedure and 9 months.||||.0192
92256116|NCT00166504|184414740|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-10.0|STANDARD_DEVIATION|15.3|<|0.001||95.0|-14.3|-5.7|||ANOVA||Direction of the Comparison: Vytorin minus Atorvastatin.|||-5.7|-14.3|<0.001
92256117|NCT04423718|184414771|NON_INFERIORITY|One-sided test (alpha=0.025) for non-inferiority at a 4-letter margin|Difference in LS means|-0.97||||0.0009|TWO_SIDED|95.0|-2.87|0.92||Strictly hierarchical testing procedure: Since p-value below significance level 0.025, fixed sequence testing continued with next primary endpoint (HDq16-2q8) / within EMA/PMDA specific hierarchy with secondary endpoint (BCVA at W60, HDq12-2q8)|Mixed Models Analysis|Adjusted for baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||0.92|-2.87|0.0009
92256118|NCT04423718|184414771|NON_INFERIORITY|One-sided test (alpha=0.025) for non-inferiority at a 4-letter margin|Difference in LS means|-1.14||||0.0011|TWO_SIDED|95.0|-2.97|0.69||Strictly hierarchical testing procedure: Since p-value below significance level 0.025, fixed sequence testing continued with secondary endpoint (no IRF no SRF at W16)/within EMA/PMDA specific hierarchy with secondary endpoint (BCVA at W60, HDq16-2q8)|Mixed Models Analysis|Adjusted for baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||0.69|-2.97|0.0011
92256119|NCT04423718|184414772|NON_INFERIORITY|One-sided test (alpha=0.025) for non-inferiority at a 4-letter margin|Difference in LS means|-0.86||||0.0002|TWO_SIDED|95.0|-2.57|0.84||EMA/PMDA specific hierarchy: i.e. secondary endpoint was tested for EMA/PMDA after primary endpoint (HDq12-2q8). Since p-value below significance level 0.025, EMA/PMDA specific fixed sequence testing continued with next primary endpoint (HDq16-2q8)|Mixed Models Analysis|Adjusted for baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||0.84|-2.57|0.0002
92256120|NCT04423718|184414772|NON_INFERIORITY|One-sided test (alpha=0.025) for non-inferiority at a 4-letter margin|Difference in LS means|-0.92|||<|0.0001|TWO_SIDED|95.0|-2.51|0.66||EMA/PMDA specific hierarchy: i.e. secondary endpoint was tested after primary endpoint (HDq16-2q8). Since p-value below significance level 0.025, EMA/PMDA specific fixed sequence testing continued with secondary endpoint test (no IRF no SRF at W16)|Mixed Models Analysis|Adjusted for baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||0.66|-2.51|<0.0001
92256121|NCT04423718|184414773|SUPERIORITY|One sided test (alpha = 0.025) for superiority|Difference|11.733||||0.0002|TWO_SIDED|95.0|5.263|18.204||Strictly hierarchical testing procedure to adjust for multiplicity.|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|All HD - 2q8||18.204|5.263|0.0002
92284029|NCT02863575|184472049|SUPERIORITY||LS means difference|2.42|||<|0.001|TWO_SIDED|95.0|1.53|3.31|||ANCOVA|||PID score at 7 hour||3.31|1.53|< 0.001
92284030|NCT02863575|184472049|SUPERIORITY||LS means difference|2.29|||<|0.001|TWO_SIDED|95.0|1.4|3.18|||ANCOVA|||PID score at 7 hour||3.18|1.40|< 0.001
92256122|NCT04423718|184414774|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|-1.748||||0.5704|TWO_SIDED|95.0|-7.784|4.287||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq12 - 2q8||4.287|-7.784|0.5704
92256123|NCT04423718|184414774|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|-0.939||||0.7611|TWO_SIDED|95.0|-6.997|5.119||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq16 - 2q8||5.119|-6.997|0.7611
92256124|NCT04423718|184414775|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|-0.182||||0.9554|TWO_SIDED|95.0|-6.565|6.2||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq12 - 2q8||6.200|-6.565|0.9554
92256125|NCT04423718|184414775|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|-2.221||||0.4834|TWO_SIDED|95.0|-8.435|3.994||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq16 - 2q8||3.994|-8.435|0.4834
92284031|NCT02863575|184472049|SUPERIORITY||LS means difference|0.18||||0.581|TWO_SIDED|95.0|-0.46|0.82|||ANCOVA|||PID score at 8 hour||0.82|-0.46|0.581
92284032|NCT02863575|184472049|SUPERIORITY||LS means difference|2.09|||<|0.001|TWO_SIDED|95.0|1.18|3.0|||ANCOVA|||PID score at 8 hour||3.00|1.18|< 0.001
92284033|NCT02863575|184472049|SUPERIORITY||LS means difference|1.91|||<|0.001|TWO_SIDED|95.0|1.0|2.82|||ANCOVA|||PID score at 8 hour||2.82|1.00|< 0.001
92178413|NCT01447719|184252483|SUPERIORITY_OR_OTHER_LEGACY||Correlation coefficient|0.76|STANDARD_ERROR_OF_MEAN|0.133|<|0.0001|TWO_SIDED|95.0|0.62|0.85||A one-sided test (rho \> 0) was performed with a significance level of alpha=0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|Asymptotic standard error and 95 percent CI used Fisher z-transformation.||Spearman's Rank Order Correlation of the median semiquantitative read (three readers) and the quantitative IHC measurement of cortical amyloid plaque density averaged across six brain regions.||0.85|0.62|<0.0001
92178414|NCT01447719|184252484|SUPERIORITY_OR_OTHER_LEGACY||Sensitivity|96.0|||||TWO_SIDED|95.0|80.0|100.0||||||Proportion of subjects who had a positive scan based on majority of 5 blinded readers||100|80|
92178415|NCT01447719|184252485|SUPERIORITY_OR_OTHER_LEGACY||Specificity|100.0|||||TWO_SIDED|95.0|78.0|100.0||||||Proportion of subjects who had a negative scan based on majority of 5 blinded readers||100|78|
92178416|NCT02905331|184252510|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92178417|NCT02905331|184252511|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92256126|NCT04423718|184414776|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-1.22||||0.0009|TWO_SIDED|95.0|-1.94|-0.51||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline CNV size and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||-0.51|-1.94|0.0009
92284034|NCT02863575|184472050|SUPERIORITY|||||||0.028|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||0.028
92284035|NCT02863575|184472050|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
92284036|NCT02863575|184472050|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
92284037|NCT02863575|184472051|SUPERIORITY|||||||0.861|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||0.861
92256127|NCT04423718|184414776|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-0.48||||0.2076|TWO_SIDED|95.0|-1.22|0.27||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline CNV size and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||0.27|-1.22|0.2076
92256128|NCT04423718|184414777|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-0.55||||0.0287|TWO_SIDED|95.0|-1.04|-0.06||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline total lesion area and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||-0.06|-1.04|0.0287
92284038|NCT02863575|184472051|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
92284039|NCT02863575|184472051|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
92284040|NCT02863575|184472052|SUPERIORITY|||||||0.838|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||0.838
92256129|NCT04423718|184414777|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-0.44||||0.087|TWO_SIDED|95.0|-0.94|0.06||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline total lesion area and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||0.06|-0.94|0.0870
92256130|NCT04423718|184414778|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|11.725||||0.0015|TWO_SIDED|95.0|4.527|18.923||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq12 - 2q8||18.923|4.527|0.0015
92256131|NCT04423718|184414778|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|7.451||||0.0458|TWO_SIDED|95.0|0.142|14.76||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq16 - 2q8||14.760|0.142|0.0458
92256132|NCT04423718|184414779|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-11.12||||0.0283|TWO_SIDED|95.0|-21.06|-1.18||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline CST and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||-1.18|-21.06|0.0283
92284041|NCT02863575|184472052|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
92284042|NCT02863575|184472052|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
92256133|NCT04423718|184414779|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-10.51||||0.0321|TWO_SIDED|95.0|-20.12|-0.9||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline CST and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||-0.90|-20.12|0.0321
92284043|NCT01706926|184472058|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.193|<|0.001|TWO_SIDED|95.0|-1.06|-0.31|||Repeated measures model|||Analysis reported for change from baseline in DAS28 (CRP) at Day 85. An estimate of the treatment difference and its 95 percent (%) confidence interval (CI) was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.||-0.31|-1.06|<0.001
92178418|NCT02905331|184252516|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92256134|NCT04423718|184414780|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-0.72||||0.3817|TWO_SIDED|95.0|-2.35|0.9||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline NEI-VFQ-25 total score and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||0.90|-2.35|0.3817
92178419|NCT01223352|184252573|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.85|||||TWO_SIDED|95.0|0.61|1.2||No statistical test of hypothesis was set for this study. The analysis of PK data was carried out descriptively|||b.i.d. bosentan regimen was taken as reference|||1.20|0.61|
92178420|NCT01223352|184252574|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.71|||||TWO_SIDED|95.0|0.48|1.05||No statistical hypothesis tests were set for this study. The analysis of PK data was carried out descriptively.|||b.i.d. bosentan regimen was taken as reference|||1.05|0.48|
92265304|NCT04557189|184432029|SUPERIORITY||Difference in LSM Estimates|0.097|||||TWO_SIDED|95.0|-0.093|0.286||||||6 Hours Post Surgery|From MMRM analysis over all post-randomization timepoints, with the Peak VRS score as the outcome, treatment group, timepoint, number of Apfel risk factors and treatment-by-timepoint interaction as fixed effects and participant as random effect with unstructured covariance structure for observed data up to 24 hours post surgery.|0.286|-0.093|
92256135|NCT04423718|184414780|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-0.87||||0.307|TWO_SIDED|95.0|-2.55|0.8||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline NEI-VFQ-25 total score and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||0.80|-2.55|0.3070
92256136|NCT01058395|184414803|SUPERIORITY|"Comparison between groups at 3 months (primary).~Comparison between the 2 tiers."||||||0.021||||||P-value|ANCOVA|Threshold for significance was P-value \< 0.05||DRS levels changes at from 4 weeks to 3 months comparing the different doses.||||0.021
92256137|NCT01058395|184414803|SUPERIORITY|||||||0.258|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between groups in the DRS scores at 3 months.||||0.258
92284044|NCT01706926|184472058|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.33|-0.58|||Repeated measures model|||Analysis reported for change from baseline in DAS28 (CRP) at Day 85. An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.||-0.58|-1.33|<0.001
92284045|NCT01706926|184472058|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.22|STANDARD_ERROR_OF_MEAN|0.193|<|0.001|TWO_SIDED|95.0|-1.6|-0.84|||Repeated measures model|||Analysis reported for change from baseline in DAS28 (CRP) at Day 85. An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.||-0.84|-1.60|<0.001
92284046|NCT01706926|184472059|SUPERIORITY_OR_OTHER||Percent difference|25.9|||<|0.001|TWO_SIDED|95.0|11.5|40.3|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||40.3|11.5|<0.001
92284047|NCT01706926|184472059|SUPERIORITY_OR_OTHER||Percent difference|36.5|||<|0.001|TWO_SIDED|95.0|22.5|50.5|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||50.5|22.5|<0.001
92256138|NCT01058395|184414803|SUPERIORITY|t-test||||||0.541|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between groups in the DRS scores at 4 weeks.||||0.541
92256139|NCT01058395|184414805|SUPERIORITY||Mean Difference (Final Values)|176.0|||>|0.05|ONE_SIDED||||||t-test, 2 sided|||||||>0.05
92284048|NCT01706926|184472059|SUPERIORITY_OR_OTHER||Percent difference|48.7|||<|0.001|TWO_SIDED|95.0|35.2|62.3|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||62.3|35.2|<0.001
92256140|NCT01266876|184414806|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||Threshold for significance at ≤ 0.05.|ANCOVA|||"Each treatment group was compared to placebo using ANCOVA-derived contrasts.~A hierarchical testing procedure was applied to ensure strong control of overall Type-I error rate at 0.05 level. Order was following:~1. Alirocumab 150 mg Q2W versus placebo~2. Alirocumab 300 mg Q4W versus placebo~3. Alirocumab 200 mg Q4W versus placebo~4. Alirocumab 150 mg Q4W versus placebo~Testing continued only when high-order test was statistically significant at 5% level."||||0.0000
92284049|NCT01706926|184472066|SUPERIORITY_OR_OTHER||Percent difference|16.0||||0.013|TWO_SIDED|95.0|3.9|28.2|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||28.2|3.9|0.013
92284050|NCT01706926|184472066|SUPERIORITY_OR_OTHER||Percent difference|13.5||||0.03|TWO_SIDED|95.0|1.8|25.3|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||25.3|1.8|0.030
92284051|NCT01706926|184472066|SUPERIORITY_OR_OTHER||Percent difference|28.2|||<|0.001|TWO_SIDED|95.0|15.2|41.1|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||41.1|15.2|<0.001
92284052|NCT01706926|184472067|SUPERIORITY_OR_OTHER||Percent difference|8.6||||0.079|TWO_SIDED|95.0|0.4|16.9|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response). p-value estimated from fisher's exact test.|||16.9|0.4|0.079
92284053|NCT01706926|184472067|SUPERIORITY_OR_OTHER||Percent difference|6.9||||0.133|TWO_SIDED|95.0|-0.8|14.6|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response). p-value estimated from fisher's exact test.|||14.6|-0.8|0.133
92284054|NCT01706926|184472067|SUPERIORITY_OR_OTHER||Percent difference|10.2||||0.026|TWO_SIDED|95.0|1.5|18.9|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response). p-value estimated from fisher's exact test.|||18.9|1.5|0.026
92256141|NCT01266876|184414806|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||Threshold for significance at ≤ 0.05.|ANCOVA|||||||0.0000
92256142|NCT01266876|184414806|SUPERIORITY_OR_OTHER|||||||0.0035|TWO_SIDED|||||Threshold for significance at ≤ 0.05.|ANCOVA|||||||0.0035
92256143|NCT01266876|184414806|SUPERIORITY_OR_OTHER|||||||0.0113|TWO_SIDED|||||Threshold for significance at ≤ 0.05.|ANCOVA|||||||0.0113
92256144|NCT02213081|184414850|EQUIVALENCE|Wilcoxon signed rank test was used to determine if the mean difference in pain scores before compared to during ulipristal therapy were equivalent or non-equivalent.|Mean Difference (Net)|3.5|STANDARD_ERROR_OF_MEAN|0.57|<|0.05|TWO_SIDED||||||Wilcoxon signed rank|||||||<0.05
92256145|NCT01836029|184414854|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.266|ONE_SIDED|90.0||1.22||The 1-sided p-value based on a log-rank test stratified by randomization stratification factors.|Log Rank|||||1.22||0.266
92256146|NCT01836029|184414856|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.95||||0.399|ONE_SIDED|90.0||1.22||The 1-sided p-value based on a log-rank test stratified by randomization stratification factors.|Log Rank|||||1.22||0.399
92178421|NCT02577354|184252615|SUPERIORITY|||||||0.138||||||The threshold for statistical significance was p=0.05|Wald asymptotic test of proportions|Cui p-value adjustment for sample size re-estimation at interim analysis; Multiple imputation utilized for 3 participants lost to follow-up.||||||0.138
92256147|NCT01836029|184414857|SUPERIORITY_OR_OTHER_LEGACY|||||||0.536||||||p-values are from Cochran-Mantel-Haenszel tests controlling for randomization stratification factors and comparing tumor response rates between the treatment groups.|Cochran-Mantel-Haenszel|||||||0.536
92256148|NCT01526928|184414869|OTHER||||||||||||||||||Since an MTD was never reached for any of the rociletinib FB or HBr formulations/doses, a 750 mg BID HBr starting dose was selected based on early efficacy data from Phase 1, and enrollment into Phase 2 was initiated at this dosage. As the Phase 1 efficacy data matured, the recommended dose was adjusted to 625 mg BID based on antitumor activity and safety evaluations.|||
92256149|NCT05559203|184414894|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.752|||||||t-test, 2 sided|paired sample||Feasibility study so no power calculation. N = 18 with baseline and follow-up data.||||.752
92256150|NCT05559203|184414895|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.197|||||||t-test, 2 sided|||Feasibility study so no power calculation. N = 18 with baseline and follow-up data.||||.197
92284055|NCT01706926|184472068|SUPERIORITY_OR_OTHER||Adjusted Mean difference|15.79|STANDARD_ERROR_OF_MEAN|6.007||0.009|TWO_SIDED|95.0|3.96|27.61|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||27.61|3.96|0.009
92256151|NCT05559203|184414896|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.562|||||||t-test, 2 sided|||||||.562
92256152|NCT05559203|184414897|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.02|||||||t-test, 2 sided|||Anxiety subscale||||.020
92178422|NCT02577354|184252616|SUPERIORITY|||||||0.032||||||Threshold for statistical significance was p=0.05|t-test, 2 sided|||||||0.032
92178423|NCT02577354|184252617|SUPERIORITY|||||||0.0499||||||The threshold for significance was p=0.05.|Friedman's regression analysis|Multiple Imputation utilized for 3 participants lost to follow-up.||||||0.0499
92256153|NCT05559203|184414897|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.002|||||||t-test, 2 sided|||Depression subscale||||.002
92256154|NCT05559203|184414898|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.036|||||||t-test, 2 sided|||||||.036
92256155|NCT05559203|184414899|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.042|||||||t-test, 2 sided|||||||.042
92256156|NCT05559203|184414900|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention|||||<|0.001|||||||t-test, 2 sided|||||||<.001
92256157|NCT05559203|184414901|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.781|||||||t-test, 2 sided|||||||.781
92256158|NCT02725268|184414946|SUPERIORITY||Hazard Ratio (HR)|0.8|||=|0.178|TWO_SIDED|95.0|0.58|1.12||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||1.12|0.58|=0.178
92178424|NCT02577354|184252619|SUPERIORITY|||||||0.011||||||Threshold for statistical significance was p=0.05|t-test, 2 sided|||||||0.011
92256159|NCT02725268|184414946|SUPERIORITY||Hazard Ratio (HR)|1.85|||=|0.092|TWO_SIDED|95.0|1.19|2.86||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||2.86|1.19|=0.092
92256160|NCT02725268|184414946|SUPERIORITY||Hazard Ratio (HR)|2.57|||=|0.147|TWO_SIDED|95.0|1.47|4.49||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||4.49|1.47|=0.147
92256161|NCT02725268|184414948|SUPERIORITY||Hazard Ratio (HR)|1.04|||=|0.968|TWO_SIDED|95.0|0.72|1.5||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||1.50|0.72|=0.968
92284056|NCT01706926|184472068|SUPERIORITY_OR_OTHER||Adjusted mean difference|16.99|STANDARD_ERROR_OF_MEAN|5.879||0.004|TWO_SIDED|95.0|5.42|28.56|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||28.56|5.42|0.004
92284057|NCT01706926|184472068|SUPERIORITY_OR_OTHER||Adjusted mean difference|27.47|STANDARD_ERROR_OF_MEAN|5.892|<|0.001|TWO_SIDED|95.0|15.87|39.07|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||39.07|15.87|<0.001
92178425|NCT02577354|184252620|SUPERIORITY|||||||0.009||||||Threshold for statistical significance was p=0.05|t-test, 2 sided|||||||0.009
92178426|NCT02577354|184252621|SUPERIORITY||||||<|0.001||||||Threshold for statistical significance was 0.05|t-test, 2 sided|||||||<0.001
92178427|NCT02577354|184252622|SUPERIORITY|||||||0.003||||||Threshold for statistical significance was p=0.05.|Wilcoxon (Mann-Whitney)|||||||0.003
92178428|NCT02577354|184252623|SUPERIORITY|||||||0.335||||||Threshold for statistical significance was p=0.05.|Chi-squared|||||||0.335
92256162|NCT02725268|184414948|SUPERIORITY||Hazard Ratio (HR)|1.5|||=|0.145|TWO_SIDED|95.0|0.95|2.37||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||2.37|0.95|=0.145
92256163|NCT02725268|184414948|SUPERIORITY||Hazard Ratio (HR)|1.54|||=|0.243|TWO_SIDED|95.0|0.87|2.73||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||2.73|0.87|=0.243
92256164|NCT02725268|184414949|SUPERIORITY||Hazard Ratio (HR)|0.79|||=|0.17|TWO_SIDED|95.0|0.57|1.11||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||1.11|0.57|=0.170
92256165|NCT02725268|184414949|SUPERIORITY||Hazard Ratio (HR)|1.67|||=|0.224|TWO_SIDED|95.0|1.04|2.68||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||2.68|1.04|=0.224
92256166|NCT02725268|184414949|SUPERIORITY||Hazard Ratio (HR)|2.28|||=|0.244|TWO_SIDED|95.0|1.32|3.96||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||3.96|1.32|=0.244
92256167|NCT02725268|184414950|SUPERIORITY||Odds Ratio (OR)|1.39|||||TWO_SIDED|95.0|0.66|2.9|||||The odds ratio and 95% confidence intervals were obtained using a stratified Cochran-Mantel-Haenszel (CMH) model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||2.90|0.66|
92178429|NCT02577354|184252631|SUPERIORITY|||||||0.048||||||The threshold for statistical significance was p=0.05.|Wald asymptotic test of proportions|Multiple imputation used for three participants lost to follow-up.||||||0.048
92178430|NCT02577354|184252632|SUPERIORITY||||||<|0.001||||||"P-value for Satisfied with Treatment. Threshold for statistical significance was p=0.05"|Cochran-Mantel-Haenszel|||||||<0.001
92178431|NCT02577354|184252634|SUPERIORITY||||||<|0.001||||||Threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||<0.001
92256168|NCT02725268|184414950|SUPERIORITY||Odds Ratio (OR)|0.22|||||TWO_SIDED|95.0|0.04|1.14|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||1.14|0.04|
92256169|NCT02725268|184414950|SUPERIORITY||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||0.00|0.00|
92256170|NCT02725268|184414951|SUPERIORITY||Odds Ratio (OR)|3.02|||||TWO_SIDED|95.0|1.53|5.96|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||5.96|1.53|
92256171|NCT02725268|184414951|SUPERIORITY||Odds Ratio (OR)|0.4|||||TWO_SIDED|95.0|0.18|0.86|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||0.86|0.18|
92256172|NCT02725268|184414951|SUPERIORITY||Odds Ratio (OR)|0.43|||||TWO_SIDED|95.0|0.15|1.21|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||1.21|0.15|
92284058|NCT01706926|184472069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.7|||<|0.001|TWO_SIDED|95.0|2.56|8.8|||Proportional odds analysis||Odds ratio, 95% CI and p-value were was calculated using proportional odds analysis of response model including treatment as a factor. Odds ratios greater than (\>) one favored mavrilimumab.|||8.80|2.56|<0.001
92256173|NCT02725268|184414952|SUPERIORITY||Odds Ratio (OR)|2.62|||||TWO_SIDED|95.0|0.89|7.67|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||7.67|0.89|
92256174|NCT02725268|184414952|SUPERIORITY||Odds Ratio (OR)|0.15|||||TWO_SIDED|95.0|0.05|0.51|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||0.51|0.05|
92256175|NCT02725268|184414952|SUPERIORITY||Odds Ratio (OR)|0.07|||||TWO_SIDED|95.0|0.01|0.67|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||0.67|0.01|
92256176|NCT01838304|184414955|OTHER||Odds Ratio (OR)|7.9|||<|0.0001|TWO_SIDED|95.0|4.21|14.81|||Fisher Exact|||Fisher's exact test for odd's ratio of time below a saturation of 80% to total time||14.81|4.21|<0.0001
92256177|NCT00117572|184414962|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.68|TWO_SIDED|95.0|0.59|1.41|||Log Rank||Hazard ratio is (Induction+CRT)/CRT|Comparison of overall survival curves||1.41|0.59|0.68
92256178|NCT00117572|184414963|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.37|TWO_SIDED|95.0|0.55|1.25|||Log Rank||Hazard ratio is (Induction+CRT)/CRT|||1.25|0.55|0.37
92256179|NCT00117572|184414964|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.16|TWO_SIDED|95.0|0.51|1.12|||Log Rank||Hazard ratio is (Induction+CRT)/CRT|||1.12|0.51|0.16
92256180|NCT00117572|184414965|SUPERIORITY_OR_OTHER|||||||0.57|||||||Fisher Exact|||||||0.57
92256181|NCT00117572|184414966|SUPERIORITY_OR_OTHER|||||||0.11|||||||Fisher Exact|||||||0.11
92256182|NCT00117572|184414967|SUPERIORITY_OR_OTHER|||||||0.55|||||||t-test, 2 sided|Comparison of change scores between treatment groups||||||0.55
92256183|NCT00117572|184414968|SUPERIORITY_OR_OTHER|||||||0.034|||||||t-test, 2 sided|||||||0.034
92256184|NCT00117572|184414969|SUPERIORITY_OR_OTHER|||||||0.35|||||||t-test, 2 sided|||||||0.35
92256185|NCT00117572|184414970|SUPERIORITY_OR_OTHER|||||||0.96|||||||t-test, 2 sided|||||||0.96
92256186|NCT00117572|184414971|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||t-test, 2 sided|||||||0.88
92256187|NCT00117572|184414972|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
92256188|NCT00117572|184414973|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||t-test, 2 sided|||||||0.49
92256189|NCT00117572|184414974|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||t-test, 2 sided|||||||0.090
92256190|NCT00654368|184414983|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the one-sided 95% confidence interval (CI), defined below, exceeded the noninferiority margin of -0.6, then noninferiority was to be concluded.|Mean Difference|-0.41|||||TWO_SIDED|95.0|-0.75|-0.06|||||The 95% CI was calculated using the mean square error from an analysis of variance (ANOVA) fitted with effects for treatment and covariates of duration of disease, type of reimbursement, and 6 month DAS28.|||-0.06|-0.75|
92256191|NCT00815776|184414996|NON_INFERIORITY_OR_EQUIVALENCE|The unadjusted reductions are straight arithmetic averages and are supplied for informational purposes only. The pooled variance is calculated from the unadjusted standard deviations, and the t statistic is calculated as described in Laster (2003) using an average sample size of 54 and 106 degrees of freedom.|||||<|0.0096|||||||student's t-test with 2n-2 DoF|||The LS means were used to calculate the test statistic for non-inferiority of the CID to the traditional splint device. The null hypothesis was that the reduction of CMI score for the CID is less than 80% of the reduction in the splint group. A significant p-value(\< 0.05) would reject this null hypothesis in favor of the alternative hypothesis that the CID demonstrated a reduction of at least 80% of that seen in the splint group.||||<0.0096
92256192|NCT00815776|184414997|NON_INFERIORITY_OR_EQUIVALENCE|Safety analyses were performed on the ITT population.||||||0.688|||||||t-test, 1 sided|||Safety analyses were performed on the ITT population. The safety of the CID was characterized by the proportion of subjects with all serious and non-serious study-related adverse events and Unanticipated Adverse Device Events (UADEs). In addition, summaries of the onset, duration, severity, treatment relatedness, and outcome of all adverse events were reported.||||0.688
92256193|NCT00815776|184414998|SUPERIORITY_OR_OTHER|||||||0.2995||||||From the pilot study, 50 subjects (CID arm) and 25 (exercise arm) were required for at least 80% power to detect a difference in the mean reduction in CMI scores between arms if muPassive is less than approximately 70% of that in the CID arm.|t-test, 2 sided|||A significant p-value for the treatment group effect would indicate that the CID group and Exercise group were significantly different, based on results of a two-sided t test for difference in means, with alpha=0.5, and allowing for unequal sample sizes.||||.2995
92256194|NCT04228445|184414999|SUPERIORITY||Odds Ratio (OR)|14.041|||<|0.0001|TWO_SIDED|95.0|7.394|26.662|||Score statistics for Type 3 GEE analysis|||||26.662|7.394|<0.0001
92256195|NCT04228445|184414999|SUPERIORITY||Odds Ratio (OR)|16.772|||<|0.0001|TWO_SIDED|95.0|8.625|32.617|||Score statistics for Type 3 GEE analysis|||||32.617|8.625|<0.0001
92256196|NCT04228445|184415000|OTHER||Percentage of Responders|87.8|||||TWO_SIDED|95.0|78.6|96.9|||||Missing data imputed as non-responder|||96.9|78.6|
92178432|NCT04173247|184252641|OTHER|A t-test with 180 degrees of freedom to compare the mean DLQI score over the 6 weeks in arm1 to the mean DLQI score over six weeks in arm2.||||||0.28|||||||t-test, 1 sided|||||||0.28
92256197|NCT04228445|184415000|OTHER||Percentage of Responders|87.2|||||TWO_SIDED|95.0|77.7|96.8|||||Missing data imputed as non-responder|||96.8|77.7|
92256198|NCT04228445|184415001|OTHER||percentage of satisfaction|89.8|||||TWO_SIDED|95.0|78.2|95.6||||||||95.6|78.2|
92256199|NCT04228445|184415001|OTHER||percentage of satisfaction|80.9|||||TWO_SIDED|95.0|67.5|89.6||||||||89.6|67.5|
92178433|NCT06097494|184252647|SUPERIORITY||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|1.01|1.15|||||Calculated as the odds of a person diagnosed with vitiligo having with depression versus people not diagnosed with vitiligo|||1.15|1.01|
92256200|NCT04228445|184415002|OTHER||median time to visualization (minutes)|6.0|||||TWO_SIDED|95.0|5.25|7.0||||||||7.00|5.25|
92178434|NCT06097494|184252648|SUPERIORITY||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|1.09|1.3|||||Calculated as the odds of people diagnosed with vitiligo having anxiety compared to people not diagnosed with vitilligo.|||1.30|1.09|
92178435|NCT06097494|184252649|SUPERIORITY||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|1.03|1.17|||||Calculated as the odds of people diagnosed with vitiligo having anxiety or depression compared to people not diagnosed with vitilligo.|||1.17|1.03|
92256201|NCT04228445|184415002|OTHER||median time to visualization (minutes)|5.93|||||TWO_SIDED|95.0|5.12|7.0||||||||7.00|5.12|
92256202|NCT04228445|184415003|SUPERIORITY||Odds Ratio (OR)|19.532|||<|0.0001|TWO_SIDED|95.0|8.738|43.663|||Score statistics for Type 3 GEE analysis|||||43.663|8.738|<0.0001
92256203|NCT04228445|184415003|SUPERIORITY||Odds Ratio (OR)|15.73|||<|0.0001|TWO_SIDED|95.0|7.199|34.369|||Score statistics for Type 3 GEE analysis|||||34.369|7.199|<0.0001
92256204|NCT04228445|184415004|OTHER||Percentage of Agreement|91.1|||||TWO_SIDED|||||||||Left Ureter||||
92256205|NCT04228445|184415004|OTHER||Percentage of Agreement|88.4|||||TWO_SIDED|||||||||Left Ureter||||
92256206|NCT04228445|184415004|OTHER||Percentage of Agreement|76.1|||||TWO_SIDED|||||||||Left Ureter||||
92256207|NCT04228445|184415004|OTHER||Percentage of Agreement|95.6|||||TWO_SIDED|||||||||Right Ureter||||
92256208|NCT04228445|184415004|OTHER||Percentage of Agreement|86.0|||||TWO_SIDED|||||||||Right Ureter||||
92256209|NCT04228445|184415004|OTHER||Percentage of Agreement|71.6|||||TWO_SIDED|||||||||Right Ureter||||
92256210|NCT04228445|184415005|SUPERIORITY||Odds Ratio (OR)|0.771||||0.4595|TWO_SIDED|95.0|0.388|1.534|||Score statistics for Type 3 GEE analysis|||||1.534|.388|0.4595
92256211|NCT04228445|184415006|SUPERIORITY||Odds Ratio (OR)|1.036||||0.922|TWO_SIDED|95.0|0.509|2.11|||Score statistics for Type 3 GEE analysis|||||2.110|.509|0.9220
92256212|NCT03028467|184415021|OTHER||Mean Difference (Net)|-1.111|||||TWO_SIDED|95.0|-2.7186|0.4965|||||Week 1. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.4965|-2.7186|
92178436|NCT06097494|184252650|SUPERIORITY||Incidence rate ratio|1.29|||||TWO_SIDED|95.0|1.26|1.32|||||Adjusted incident rate ratio for increased primary care use was calculated by comparing patients with vitiligo versus matched controls not having vitiligo,using negative binomial regression.|||1.32|1.26|
92256213|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.5177|||||TWO_SIDED|95.0|-1.904|0.8685|||||Week 1. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.8685|-1.9040|
92256214|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.5332|||||TWO_SIDED|95.0|-1.914|0.8475|||||Week 1. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.8475|-1.9140|
92256215|NCT03028467|184415021|OTHER||Mean Difference (Net)|-1.1387|||||TWO_SIDED|95.0|-2.8848|0.6075|||||Week 2. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.6075|-2.8848|
92256216|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.8905|||||TWO_SIDED|95.0|-2.3962|0.6153|||||Week 2. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.6153|-2.3962|
92256217|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.8047|||||TWO_SIDED|95.0|-2.3045|0.6951|||||Week 2. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.6951|-2.3045|
92256218|NCT03028467|184415021|OTHER||Mean Difference (Net)|-1.4575|||||TWO_SIDED|95.0|-3.6013|0.6863|||||Week 4. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.6863|-3.6013|
92284059|NCT01706926|184472069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.81|||<|0.001|TWO_SIDED|95.0|2.64|8.92|||Proportional odds analysis||Odds ratio, 95% CI and p-value were was calculated using proportional odds analysis of response model including treatment as a factor. Odds ratios \>one favored mavrilimumab.|||8.92|2.64|<0.001
92178437|NCT06097494|184252652|OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.93|1.2|||||Hazard ratios for mental health referrals was calculated using Cox proportional hazards regression model and reflect a comparison of the incidence rates between people diagnosed with vitiligo and people not diagnosed with vitiligo.|||1.20|0.93|
92256219|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.8894|||||TWO_SIDED|95.0|-2.7381|0.9593|||||Week 4. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.9593|-2.7381|
92256220|NCT03028467|184415021|OTHER||Mean Difference (Net)|-1.1615|||||TWO_SIDED|95.0|-3.0028|0.6799|||||Week 4. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.6799|-3.0028|
92256221|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.3209|||||TWO_SIDED|95.0|-2.3021|1.6603|||||Week 6. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.6603|-2.3021|
92256222|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.1876|||||TWO_SIDED|95.0|-1.896|1.5209|||||Week 6. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.5209|-1.8960|
92256223|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.4593|||||TWO_SIDED|95.0|-2.161|1.2424|||||Week 6. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.2424|-2.1610|
92256224|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.6521|||||TWO_SIDED|95.0|-3.1342|1.83|||||Week 8. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.8300|-3.1342|
92256225|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.5499|||||TWO_SIDED|95.0|-2.6903|1.5904|||||Week 8. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.5904|-2.6903|
92256226|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.9665|||||TWO_SIDED|95.0|-3.0984|1.1654|||||Week 8. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.1654|-3.0984|
92256227|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.3576|||||TWO_SIDED|95.0|-3.0892|2.374|||||Week 12. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||2.3740|-3.0892|
92256228|NCT03028467|184415021|OTHER||Mean Difference (Net)|0.1851|||||TWO_SIDED|95.0|-2.1704|2.5407|||||Week 12. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||2.5407|-2.1704|
92178438|NCT06097494|184252653|OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.76|1.15|||||Hazard ratios for unemployment was calculated using Cox proportional hazards regression model and reflect a comparison of the incidence rates between people diagnosed with vitiligo and people not diagnosed with vitiligo.|||1.15|0.76|
92256229|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.1181|||||TWO_SIDED|95.0|-2.4643|2.2281|||||Week 12. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||2.2281|-2.4643|
92256230|NCT03028467|184415021|OTHER||Mean Difference (Net)|-1.4276|||||TWO_SIDED|95.0|-3.6569|0.8018|||||Week 22 (Follow up). The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.8018|-3.6569|
92256231|NCT03028467|184415021|OTHER||Mean Difference (Net)|0.5415|||||TWO_SIDED|95.0|-1.381|2.4639|||||Week 22 (Follow up). The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||2.4639|-1.3810|
92256232|NCT03028467|184415021|OTHER||Mean Difference (Net)|-0.7932|||||TWO_SIDED|95.0|-2.708|1.1217|||||Week 22 (Follow up). The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.1217|-2.7080|
92256233|NCT00460525|184415028|SUPERIORITY_OR_OTHER||Vaccine Efficacy, VE=1-RR=1-exp(ß)|0.17||||0.175||95.0|-0.09|0.37||The a priori threshold for statistical significance was set at 0.05.|Regression, Cox|No adjustments were made.|Vaccine efficacy (VE) was defined as one minus the relative risk (RR), which was estimated by exponentiating the treatment parameter (ß) from the Cox model fit.|Time to first clinical malaria episode with significant parasitemia (2500/mm\^3) and temperature of greater than or equal to 37.5 degrees C was analyzed by fitting a Cox Proportional Hazards model. The null hypothesis of no vaccine efficacy was tested by the stratified log-rank test (score test). The point and interval estimates for vaccine efficacy were obtained by transforming those for treatment effect in the model.||0.37|-0.09|0.175
92256234|NCT00460525|184415030|SUPERIORITY_OR_OTHER||Vaccine Efficacy, VE=1-RR=1-exp(ß)|0.2||||0.068||95.0|-0.02|0.37||The a priori threshold for statistical significance was set at 0.05.|Poisson regression|No adjustments|Vaccine efficacy (VE) was defined as one minus the relative risk (RR), which was estimated by exponentiating the treatment parameter (ß) from the Poisson model fit.|Incidence density, defined as number of clinical malaria episodes per PYAR, was compared using Poisson regression. The null hypothesis of no vaccine efficacy was tested. The point and interval estimates for vaccine efficacy were obtained by transforming those for treatment effect in the model.||0.37|-0.02|0.068
92256235|NCT02550093|184415040|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||HEAT||||.47
92256236|NCT02550093|184415040|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||COLD||||0.70
92256237|NCT02550093|184415041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||HEAT||||0.84
92256238|NCT02550093|184415041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||COLD||||0.95
92256239|NCT02550093|184415042|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||HEAT||||0.92
92256240|NCT02550093|184415042|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||COLD||||0.63
92256241|NCT02550093|184415043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
92256242|NCT02550093|184415044|SUPERIORITY_OR_OTHER_LEGACY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92256243|NCT02550093|184415045|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||||||0.62
92178439|NCT06097494|184252654|OTHER||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|1.06|1.24|||||Hazard ratios for time off work was calculated using Cox proportional hazards regression model and reflect a comparison of the incidence rates between people diagnosed with vitiligo and people not diagnosed with vitiligo.|||1.24|1.06|
92256244|NCT02550093|184415046|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
92256245|NCT02550093|184415047|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
92256246|NCT02550093|184415048|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.61
92256247|NCT02550093|184415049|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||0.71
92256248|NCT02550093|184415050|SUPERIORITY_OR_OTHER_LEGACY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
92256249|NCT02550093|184415051|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
92256250|NCT00796224|184415099|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|157.98||||||90.0|98.87|252.44|||ANOVA|||Test (60 mg/kg Azithromycin ER)/ Reference (30 mg/kg Azithromycin IR)||252.44|98.87|
92256251|NCT00796224|184415101|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|91.63||||||90.0|56.21|149.38|||ANOVA|||||149.38|56.21|
92256252|NCT00796224|184415103|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|65.44||||||90.0|23.56|181.77|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 1 hour postdose||181.77|23.56|
92256253|NCT00796224|184415103|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|50.57||||||90.0|25.24|101.3|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 2 hours postdose||101.30|25.24|
92256254|NCT00796224|184415103|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|100.07||||||90.0|57.91|172.92|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 3 hours postdose||172.92|57.91|
92256255|NCT00796224|184415103|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|164.93||||||90.0|103.78|262.12|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 4 hours postdose||262.12|103.78|
92256256|NCT00796224|184415103|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|174.41||||||90.0|110.07|276.36|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 8 hours postdose||276.36|110.07|
92256257|NCT00796224|184415103|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|173.01||||||90.0|111.45|268.55|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 24 hours postdose||268.55|111.45|
92256258|NCT00796224|184415103|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|189.35||||||90.0|129.76|276.3|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 48 hours postdose||276.30|129.76|
92256259|NCT00796224|184415103|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|183.14||||||90.0|124.61|269.14|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 72 hours postdose||269.14|124.61|
92178440|NCT06097494|184252655|OTHER||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|1.02|1.31|||||Hazard ratios for sleep disturbance was calculated using Cox proportional hazards regression model and reflect a comparison of the incidence rates between people diagnosed with vitiligo and people not diagnosed with vitiligo.|||1.31|1.02|
92256260|NCT00089999|184415162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.691|TWO_SIDED|95.0|0.3|1.9|||Fisher Exact|||||1.9|0.3|0.691
92256261|NCT00089999|184415163|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.443|TWO_SIDED|95.0|0.3|1.6|||Fisher Exact||Overall Response (i.e. sum of Complete and Partial Responses) comparison|||1.6|0.3|0.443
92256262|NCT00616772|184415170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006||||0.22|TWO_SIDED|95.0|-0.016|0.004|||Repeated measures linear mixed model|Fixed effects for baseline cIMT, baseline atorvastatin dose, central imaging site, treatment group, time; interaction between treatment group and time||||0.004|-0.016|0.220
92256263|NCT00616772|184415171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002||||0.813|TWO_SIDED|95.0|-0.014|0.011|||Repeated measures linear mixed model|Fixed effects for baseline atorvastatin dose, imaging site, treatment, time; interaction between treatment group and time; baseline cIMT as covariate.||||0.011|-0.014|0.813
92256264|NCT00616772|184415172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007||||0.249|TWO_SIDED|95.0|-0.018|0.005|||Repeated measures linear mixed model|Fixed effects for baseline atorvastatin dose, imaging site, treatment, time; interaction between treatment group and time; baseline IMT as covariate||||0.005|-0.018|0.249
92256265|NCT00616772|184415173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005||||0.487|TWO_SIDED|95.0|-0.02|0.01|||Repeated measures linear mixed model|Fixed effects for baseline atorvastatin dose, imaging site, treatment, time; interaction between treatment group and time; baseline IMT as covariate||||0.010|-0.020|0.487
92256266|NCT00616772|184415174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016||||0.112|TWO_SIDED|95.0|-0.004|0.035|||Repeated measures linear mixed model|Fixed effects for baseline atorvastatin dose, imaging site, treatment, time; interaction between treatment group and time; baseline IMT as covariate||||0.035|-0.004|0.112
92256267|NCT03991468|184415175|NON_INFERIORITY|A Mixed Model Repeated Measures logistic regression was used to prove WSI major discordance (MD) rate non-inferior to Glass MD rate. A two-sided 95% CI for the difference in MD rate was constructed. If the upper bound of the 95% CI was less than the non-inferiority margin of 4%, then WSI would be considered non-inferior to Glass, assuming power = 0.9 and alpha = 0.05 a sample size of 2000 was calculated to be sufficient to prove non-inferiority.|Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.1|1.0|||Mixed Models Analysis|Dependent var = major discordance status (yes/no); independent var = modality (WSI/Glass) as a fixed effect \& site, reader, \& case as random effects.||||1.0|-0.1|
92256268|NCT03573804|184415177|OTHER|A two-tailed paired T-test for equivalence was used to evaluate equivalence between the average raw tumor.|Mean Difference (Net)|224.675|STANDARD_ERROR_OF_MEAN|67.89|<|0.001|TWO_SIDED|95.0|90.26044|359.08956||Using an alpha value of 0.05, dof = 60, the null hypothesis of sample mean equivalence was rejected.|t-test, 2 sided|A paired two-tailed t-test was used on the paired prone-to-supine tumor intensity values.||Regions of interest (ROIs) for tumor were defined by the radiologist segmentation of tumor in supine and prone positions. ROIs for the surrounding tissue were selected such that tumor and normal regions had equal volumes. The alpha level was assumed to be of 0.05 (dof = 60), and the null hypothesis of equivalence (mu = 0).||359.08956|90.26044|<0.001
92256269|NCT03573804|184415178|OTHER|A two-tailed paired T-test was used to compare sample means in between the prone and supine mean benign tissue intensities.|Mean Difference (Net)|165.833|STANDARD_ERROR_OF_MEAN|44.19|<|0.001|TWO_SIDED|95.0|78.34708|253.31892||Using an alpha value of 0.05, dof = 60, the null hypothesis of sample mean equivalence was rejected.|t-test, 2 sided|A paired two-tailed t-test was used on the paired prone-to-supine normal tissue intensity values.||Regions of interest (ROIs) for surrounding tissues were selected as the surrounding benign tissue regions directly adjacent to the segmented tumor regions. Tumor and surrounding regions had equal volumes. The mean surrounding region intensities reported were all calculated from the prone and supine T1-weighted MR images segmented by the radiologist.||253.31892|78.34708|<0.001
92256270|NCT03573804|184415179|OTHER|A two-tailed paired T-test was used to compare sample means in between the prone and supine tumor-to-surrounding tissue ratios.|Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.08||0.0058|TWO_SIDED|95.0|-0.04209|0.28209||Using an alpha value of 0.05, dof = 60, the null hypothesis of sample mean equivalence was rejected.|t-test, 2 sided|A two-tailed paired T-test was used to compare sample means in between the prone and supine tumor-to-surrounding tissue ratios.||The ratios of tumor-to-surrounding tissue intensities, as calculated in Secondary Objective Part A, were compared between prone and supine T1-weighted MR image scans.||0.28209|-0.04209|0.0058
92256271|NCT03573804|184415181|SUPERIORITY|||||||0.00049664|||||||Students two-tailed paired t-test|||||||0.00049664
92256272|NCT03649815|184415182|OTHER|||||||0.067|||||||Paired Sample T-Test|||||||0.067
92256273|NCT03649815|184415182|OTHER|||||||0.071||||||Controlled for gender, age, and baseline symptomatology|Paired Sample T-Test|||||||0.071
92256274|NCT03649815|184415183|OTHER|||||||0.047|||||||Paired Sample T-Test|||||||0.047
92256275|NCT03649815|184415183|OTHER|||||||0.036||||||Controlled for gender, age and baseline symptomatology|Paired Sample T-Test|||||||0.036
92256276|NCT03649815|184415184|OTHER|||||||0.032|||||||Paired Sample T-Test|||||||0.032
92256277|NCT03649815|184415184|OTHER|||||||0.006||||||Controlled for gender, age and baseline symptomatology|Paired Sample T-Test|||||||0.006
92256278|NCT01654224|184415198|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.005||||||A/California/07/2009(H1N1)|t-test, 2 sided|||||||.005
92256279|NCT01654224|184415198|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.001||||||A/Victoria/210/2009(H3N2)|t-test, 2 sided|||||||.001
92256280|NCT01654224|184415198|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.004||||||B/Brisbane/60/2008|t-test, 2 sided|||||||.004
92256281|NCT01654224|184415198|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.672||||||A/California/07/2009(H1N1)|t-test, 2 sided|||||||.672
92256282|NCT01654224|184415198|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.011||||||A/Victoria/361/2011(H3N2)|t-test, 2 sided|||||||.011
92256283|NCT01654224|184415198|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.01||||||B/Texas/6/2011|t-test, 2 sided|||||||.010
92256284|NCT01654224|184415199|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.074||||||A/California/07/2009(H1N1)|t-test, 2 sided|||||||.074
92256285|NCT01654224|184415199|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.006||||||A/Victoria/210/2009(H3N2)|t-test, 2 sided|||||||.006
92256286|NCT01654224|184415199|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.069||||||B/Brisbane/60/2008|t-test, 2 sided|||||||.069
92256287|NCT01654224|184415199|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.663||||||A/California/07/2009(H3N2)|t-test, 2 sided|||||||.663
92256288|NCT01654224|184415199|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.003||||||A/Victoria/361/2011(H3N2)|t-test, 2 sided|||||||.003
92256289|NCT01654224|184415199|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.063||||||B/Texas/6/2011|t-test, 2 sided|||||||.063
92256290|NCT01654224|184415200|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.917||||||A/California/07/2009(H1N1)|t-test, 2 sided|||||||.917
92256291|NCT01654224|184415200|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.36||||||A/Victoria/210/2009(H3N2)|t-test, 2 sided|||||||.360
92256292|NCT01654224|184415200|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.248||||||B/Brisbane/60/2008|t-test, 2 sided|||||||.248
92256293|NCT01654224|184415200|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.178||||||A/California/07/2009(H1N1)|t-test, 2 sided|||||||.178
92256294|NCT01654224|184415200|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.152||||||A/Victoria/361/2011(H1N2)|t-test, 2 sided|||||||.152
92256295|NCT01654224|184415200|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.285||||||B/Texas/6/2011|t-test, 2 sided|||||||.285
92256296|NCT01874353|184415206|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.41||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.41|0.22|<0.0001
92256297|NCT01874353|184415206|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.17|1.19||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes a treatment factor only|A hazard ratio \< 1 favours olaparib|||1.19|0.17|
92256298|NCT01874353|184415207|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.0537|TWO_SIDED|95.0|0.54|1.0||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \<1 favours olaparib|||1.00|0.54|0.0537
92284060|NCT01706926|184472069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.11|||<|0.001|TWO_SIDED|95.0|3.85|13.4|||Proportional odds analysis||Odds ratio, 95% CI and p-value were was calculated using proportional odds analysis of response model including treatment as a factor. Odds ratios \>one favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (CRP) at Day 85. An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.||13.40|3.85|<0.001
92178441|NCT01116895|184252676|OTHER||Least square mean difference|-2.2||||0.89|TWO_SIDED|95.0|-32.6|28.2|||ANOVA|||||28.2|-32.6|0.89
92256299|NCT01874353|184415207|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.38|2.49||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes a treatment factor only|A hazard ratio \<1 favours olaparib|||2.49|0.38|
92256300|NCT01874353|184415208|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.23|0.41||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.41|0.23|<0.0001
92256301|NCT01874353|184415208|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.41|||||TWO_SIDED|95.0|0.18|1.03||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes a treatment factor only|A hazard ratio \<1 favours olaparib|||1.03|0.18|
92256302|NCT01874353|184415209|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5||||0.0002|TWO_SIDED|95.0|0.34|0.72||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.72|0.34|0.0002
92256303|NCT01874353|184415209|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.22|3.97||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes treatment factor only|A hazard ratio \< 1 favours olaparib|||3.97|0.22|
92256304|NCT01874353|184415210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03||||0.9765|TWO_SIDED|95.0|-2.191|2.126|||Mixed Models Analysis|Fixed effects for treatment, visit and baseline TOI with the treatment by visit and baseline TOI by visit interaction. Random patient effect.||||2.126|-2.191|0.9765
92256305|NCT01874353|184415211|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.28|0.48||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.48|0.28|<0.0001
92256306|NCT01874353|184415211|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.21|1.08||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes a treatment factor only|A hazard ratio \< 1 favours olaparib|||1.08|0.21|
92256307|NCT01874353|184415212|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.39|0.68||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.68|0.39|<0.0001
92256308|NCT01874353|184415212|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.37|1.85||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model included treatment factor only|A hazard ratio \< 1 favours olaparib|||1.85|0.37|
92256309|NCT01874353|184415213|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.28|0.49||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.49|0.28|<0.0001
92256310|NCT01874353|184415213|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.2|1.04||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes a treatment factor only|A hazard ratio \< 1 favours the Olaparib arm|||1.04|0.20|
92256311|NCT01874353|184415214|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.4||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.40|0.22|<0.0001
92284061|NCT01706926|184472070|SUPERIORITY_OR_OTHER||Percent difference|16.0||||0.004|TWO_SIDED|95.0|6.0|26.1|||Fisher Exact||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|DAS28 (CRP) remission: p-value estimated from fisher's exact test when number of placebo or active responders was less than 5.||26.1|6.0|0.004
92256312|NCT03887052|184415216|NON_INFERIORITY|The primary endpoint was performed as a one-sided test with a 0.025 significance level of the null hypothesis (H0) that the WCD false positive shock alarm rate per patient-day for the study device was equal to or greater than the comparator rate (0.29). A random-effects Poisson regression model was fit with the number of false-positive shock alarms for each patient as the outcome, the logarithm of days of wear as an offset, and random site effect.|||||<|0.001||||||"Hypotheses:~H0: p1 ≥ 0.29 H1: p1 \< 0.29~where p1 = A-WCD False Positive Alarm Rate"|One-sided non-inferiority|Poisson Regression Analysis||The analysis was based on the cohort of 130 patients with three false-positive shock alarms occurring over a total of 3501 patient-days (500 weeks), or 0.0060 false-positive shock alarms per patient-week. The Poisson distribution was used to model the results and calculate the false-positive shock alarm rate.||||<0.001
92284062|NCT01706926|184472070|SUPERIORITY_OR_OTHER||Percent difference|12.7||||0.014|TWO_SIDED|95.0|3.3|22.1|||Fisher Exact||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|DAS28 (CRP) remission: p-value estimated from fisher's exact test when number of placebo or active responders was less than 5.||22.1|3.3|0.014
92284063|NCT01706926|184472070|SUPERIORITY_OR_OTHER||Percent difference|14.0||||0.007|TWO_SIDED|95.0|4.2|23.9|||Fisher Exact||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|DAS28 (CRP) remission: p-value estimated from fisher's exact test when number of placebo or active responders was less than 5.||23.9|4.2|0.007
92256313|NCT03728881|184415220|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.5|||||TWO_SIDED|96.0|0.44|0.57|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.57|0.44|
92256314|NCT03728881|184415222|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|Ratio of the GMCs|1.11|||||TWO_SIDED|96.0|0.95|1.29|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.29|0.95|
92265305|NCT04557189|184432029|SUPERIORITY||Difference in LSM Estimates|-0.203|||||TWO_SIDED|95.0|-0.575|0.17||||||24 Hours Post Surgery|From MMRM analysis over all post-randomization timepoints, with the Peak VRS score as the outcome, treatment group, timepoint, number of Apfel risk factors and treatment-by-timepoint interaction as fixed effects and participant as random effect with unstructured covariance structure for observed data up to 24 hours post surgery.|0.170|-0.575|
92178442|NCT01116895|184252676|OTHER||Least square mean difference|4.5||||0.77|TWO_SIDED|95.0|-26.2|35.3|||ANOVA|||||35.3|-26.2|0.77
92178443|NCT01116895|184252676|OTHER||Least square mean difference|-6.7||||0.65|TWO_SIDED|95.0|-36.2|22.8|||ANOVA|||||22.8|-36.2|0.65
92256315|NCT03728881|184415224|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.42|||||TWO_SIDED|99.0|0.36|0.5|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.50|0.36|
92265306|NCT04557189|184432030|SUPERIORITY||Adjusted Treatment Difference|0.146|||||TWO_SIDED|95.0|-0.073|0.365|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.365|-0.073|
92284064|NCT01706926|184472070|SUPERIORITY_OR_OTHER||Percent difference|24.7|||<|0.001|TWO_SIDED|95.0|12.7|36.6|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|The analysis reported DAS28 (CRP) low disease activity response.||36.6|12.7|<0.001
92256316|NCT03728881|184415226|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.9|||||TWO_SIDED|99.0|0.75|1.08|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|This procedure controls the overall type one error at 0.05. We are conducting 4 one sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.08|0.75|
92256317|NCT03728881|184415227|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|1|||||||Fisher Exact|||||||=1.0
92256318|NCT03728881|184415228|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|0.006|||||||Fisher Exact|||||||=0.006
92256319|NCT03728881|184415229|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|1|||||||Fisher Exact|||||||=1.0
92256320|NCT03728881|184415230|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|0.48|||||||Fisher Exact|||||||=0.48
92256321|NCT03728881|184415236|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.49|||||TWO_SIDED|96.0|0.42|0.56|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||0.56|0.42|
92256322|NCT03728881|184415237|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.||||||1|||||||Fisher Exact|||||||1.0
92256323|NCT03728881|184415239|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.09|||||TWO_SIDED|96.0|0.93|1.27||||||||1.27|0.93|
92256324|NCT03728881|184415240|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|0.0006|||||||Fisher Exact|||||||=0.0006
92256325|NCT03728881|184415242|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.41|||||TWO_SIDED|99.0|0.35|0.49|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||0.49|0.35|
92256326|NCT03728881|184415243|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|1|||||||Fisher Exact|||||||=1.0
92256327|NCT03728881|184415245|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.86|||||TWO_SIDED|99.0|0.71|1.04|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||1.04|0.71|
92256328|NCT03728881|184415246|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|0.478|||||||Fisher Exact|||||||=0.478
92256329|NCT03728881|184415248|NON_INFERIORITY|We reject the noninferiority hypothesis if the lower limit of the two-sided 95% confidence interval on R ≥ 0.67 for HPV16 and HPV18.|GMC Ratio|1.33|||||TWO_SIDED|95.0|1.12|1.58|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||1.58|1.12|
92256330|NCT03728881|184415251|NON_INFERIORITY|We reject the noninferiority hypothesis if the lower limit of the two-sided 95% confidence interval on R ≥ 0.67 for HPV16 and HPV18.|GMC Ratio|1.29|||||TWO_SIDED|95.0|1.09|1.54|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||1.54|1.09|
92256331|NCT03728881|184415254|NON_INFERIORITY|We reject the noninferiority hypothesis if the lower limit of the two-sided 95% confidence interval on R ≥ 0.67 for HPV16 and HPV18.|GMC Ratio|1.48|||||TWO_SIDED|95.0|1.2|1.81|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||1.81|1.20|
92256332|NCT03728881|184415255|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose 9-10 year old girls and one-dose 11-14 year old girls. A p-value under 0.05 will be regarded as significant.|||||=|1|||||||Fisher Exact|||||||=1.0
92256333|NCT03728881|184415257|NON_INFERIORITY|We reject the noninferiority hypothesis if the lower limit of the two-sided 95% confidence interval on R ≥ 0.67 for HPV16 and HPV18.|GMC Ratio|1.42|||||TWO_SIDED|95.0|1.15|1.75|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||1.75|1.15|
92256334|NCT03728881|184415258|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose 9-10 year old girls and one-dose 11-14 year old girls. A p-value under 0.05 will be regarded as significant.|||||=|0.368|||||||Fisher Exact|||||||=0.368
92256335|NCT03728881|184415260|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.46|||||TWO_SIDED|96.0|0.38|0.56|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.56|0.38|
92256336|NCT03728881|184415260|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.58|||||TWO_SIDED|96.0|0.48|0.7|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||0.70|0.48|
92256337|NCT03728881|184415260|EQUIVALENCE|A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|||||=|0.079||||||The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|p-values test for heterogeneity|||||||=0.079
92178444|NCT05652010|184252681|OTHER|Comparative study|Odds Ratio (OR)|0.576||||0.164|TWO_SIDED|95.0|0.2634|1.2659||P=0.164 for testing the hypothesis that OR=1|Mixed Models Analysis|Generalized linear mixed model. As it was an exploratory study no adjustment for multiple comparison was performed.|P=0.164 for testing the hypothesis that OR=1|||1.2659|0.2634|0.164
92178445|NCT05652010|184252682|OTHER||Binominal|0.9|||<|0.0001|TWO_SIDED|95.0|0.75|0.97|||Exact test in the binomial distribution|Exact test in the binomial distribution tested if the proportion of very satisfied/satisfied was sign. different from 50% when using a 5% test level|The binomial proportion is based on subjects that have answered the questions. Exact test in the binomial distribution.|||0.97|0.75|<0.0001
92256338|NCT03728881|184415261|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between the older one-dose recipients and the older three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|1|||||||Fisher Exact|||NOTE: Younger one-dose recipients (9-11 Year Old Girls) and three-dose recipients (18-21 Year Old Women) both had a 100% seroconversion proportion for HPV16 at 36 months, so a p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate between older one-dose recipients (9-11 Year Old Girls) and three-dose recipients (22-25 Year Old Women).||||=1.0000
92256339|NCT03728881|184415263|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.01|||||TWO_SIDED|96.0|0.82|1.25||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.25|0.82|
92256340|NCT03728881|184415263|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.24|||||TWO_SIDED|96.0|1.01|1.54||||||The cohort for the analysis of HPV16 at 36 months by enrollment age group includes participants who received the appropriate number of vaccine doses within the specified windows, were initially seronegative for HPV16, underwent blood collection at the 36-month mark, and reported no additional HPV vaccinations outside the study before the 36-month blood collection, as confirmed by self-report or serologic testing for HPV6/HPV11.||1.54|1.01|
92178446|NCT05652010|184252683|OTHER|The binomial proportion is based on subjects that have answered the questions. Exact test in the binomial distribution.|Binominal|0.82|||<|0.0001|TWO_SIDED|95.0|0.66|0.92|||Exact test in the binominal distribution|Exact test in the binomial distribution tested if the proportion of YES was significantly different from 50% when using a 5% test level||||0.92|0.66|<0.0001
92178447|NCT05652010|184252684|OTHER||Odds Ratio (OR)|0.259||||0.027|TWO_SIDED|95.0|0.078|0.855||P=0.027 for testing the hypothesis that OR=1|Mixed Models Analysis|Generalized linear mixed model|P=0.027 for testing the hypothesis that OR=1|||0.855|0.078|0.027
92178448|NCT04099732|184252692|OTHER||Ratio of geometric means (T/R) %|183.36|||||TWO_SIDED|90.0|164.35|204.56|||||Geometric coefficient of variation (gCV) = 16.5.|Relative bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||204.56|164.35|
92178449|NCT04099732|184252693|OTHER||Ratio of geometric means (T/R) %|174.01|||||TWO_SIDED|90.0|154.73|195.68|||||Geometric coefficient of variation (gCV) = 17.7|Relative bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||195.68|154.73|
92178450|NCT04099732|184252694|OTHER||Ratio of geometric means (T/R) %|119.1|||||TWO_SIDED|90.0|109.84|129.15|||||Geometric coefficient of variation (gCV) = 11.1.|Relative Bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||129.15|109.84|
92256341|NCT03728881|184415263|EQUIVALENCE|A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|||||=|0.14||||||The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|p-values test for heterogeneity|||||||=0.14
92256342|NCT03728881|184415264|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between the younger one-dose recipients and the younger three-dose recipients.|||||=|0.001||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||Calculated p-value for the comparison of the seroconversion rate for HPV18 at 36 months between younger one-dose recipients (9-11 Year Old Girls) and the younger three-dose recipients (18-21 Year Old Women).||||=0.001
92256343|NCT03728881|184415264|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between older one-dose and older three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|0.737||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||Calculated p-value for the comparison of the seroconversion rate for HPV18 at 36 months between older one-dose recipients (12-14 Year Old Girls) and the older three-dose recipients (22-25 Year Old Women).||||=0.737
92256344|NCT03728881|184415266|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.41|||||TWO_SIDED|99.0|0.33|0.52||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.52|0.33|
92256345|NCT03728881|184415266|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.47|||||TWO_SIDED|99.0|0.37|0.6||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.60|0.37|
92256346|NCT03728881|184415266|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.028||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.028
92256347|NCT03728881|184415267|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between the older one-dose recipients and the older three-dose recipients.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||NOTE: Younger one-dose recipients (9-11 Year Old Girls) and three-dose recipients (18-21 Year Old Women) both had a 100% seroconversion proportion for HPV16 at 24months, so a p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate between older one-dose recipients (9-11 Year Old Girls) and three-dose recipients (22-25 Year Old Women).||||=1.000
92265307|NCT00976521|184432041|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||Wilcoxon (Mann-Whitney)|||The primary endpoint of infarct size at 30 days measured by cardiac MRI, was summarized using the median, IQR, minimum and maximum values, in each infusion group, comparing the pooled active infusion arm to the pooled control non-infusion arm with the Wilcoxon rank sum test in the ITT analysis set. Data was only analyzed in subjects completing the cardiac MRI study and for whom the imaging data was received and deemed analyzable by the core laboratory.||||0.034
92178451|NCT04099732|184252695|OTHER||Ratio of geometric means (T/R) %|119.2|||||TWO_SIDED|90.0|107.68|131.94|||||Geometric coefficient of variation (gCV) = 13.9.|Relative Bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||131.94|107.68|
92178452|NCT04099732|184252696|OTHER||Ratio of geometric means (T/R) %|186.38|||||TWO_SIDED|90.0|169.7|204.71|||||Geometric coefficient of variation (gCV) = 14.1.|Relative Bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||204.71|169.70|
92178453|NCT04099732|184252697|OTHER||Ratio of geometric means (T/R) %|120.11|||||TWO_SIDED|90.0|110.78|130.23|||||Geometric coefficient of variation (gCV) = 11.1|Relative Bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||130.23|110.78|
92178454|NCT02994927|184252733|NON_INFERIORITY|The proportion of subjects achieving disease remission at Week 26 and the two-sided 95% confidence intervals (CIs) for the difference in proportions was estimated for the comparison between the avacopan group and the prednisone group. For both the noninferiority and superiority tests, the one-sided P-values are presented. Statistical significance was claimed based on the one-sided type-I error of 0.025.|Common difference in remission rates|3.4|||<|0.0001|TWO_SIDED|95.0|-6.0|12.8|||Summary score test||Summary Score estimate of the common difference and Miettinen-Nurminen (score) confidence limits for the common difference|||12.8|-6.0|< 0.0001
92178455|NCT02994927|184252733|SUPERIORITY|The proportion of subjects achieving disease remission at Week 26 and the two-sided 95% confidence intervals (CIs) for the difference in proportions was estimated for the comparison between the avacopan group and the prednisone group. For both the noninferiority and superiority tests, the one-sided P-values are presented. Statistical significance was claimed based on the one-sided type-I error of 0.025.|Common difference in remission rates|3.4|||=|0.2387|TWO_SIDED|95.0|-6.0|12.8|||Summary score test||Summary Score estimate of the common difference and Miettinen-Nurminen (score) confidence limits for the common difference|||12.8|-6.0|= 0.2387
92178456|NCT02994927|184252734|NON_INFERIORITY|The proportion of subjects achieving sustained disease remission at Week 52, and the two-sided 95% confidence intervals (CIs) for the difference in proportions (avacopan minus prednisone) was estimated for the comparison between the avacopan group and the prednisone group. For both the noninferiority and superiority tests, the one-sided P-values are presented. Statistical significance was claimed based on the one-sided type-I error of 0.025.|Common difference in remission rates|12.5|||<|0.0001|TWO_SIDED|95.0|2.6|22.3|||Summary score test||Summary Score estimate of the common difference and Miettinen-Nurminen (score) confidence limits for the common difference|||22.3|2.6|< 0.0001
92178457|NCT02994927|184252734|SUPERIORITY|The proportion of subjects achieving sustained disease remission at Week 52, and the two-sided 95% confidence intervals (CIs) for the difference in proportions (avacopan minus prednisone) was estimated for the comparison between the avacopan group and the prednisone group. For both the noninferiority and superiority tests, the one-sided P-values are presented. Statistical significance was claimed based on the one-sided type-I error of 0.025.|Common difference in remission rates|12.5|||=|0.0066|TWO_SIDED|95.0|2.6|22.3|||Summary score test||Summary Score estimate of the common difference and Miettinen-Nurminen (score) confidence limits for the common difference|||22.3|2.6|= 0.0066
92178458|NCT03533257|184252763|SUPERIORITY|||||||0.3654|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.3654
92178459|NCT03533257|184252764|SUPERIORITY|||||||0.6698|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.6698
92178460|NCT03533257|184252765|SUPERIORITY|||||||0.3086|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.3086
92178461|NCT03533257|184252766|SUPERIORITY|||||||0.5552|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.5552
92256348|NCT03728881|184415269|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.85|||||TWO_SIDED|99.0|0.65|1.1||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.10|0.65|
92256349|NCT03728881|184415269|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|1.0|||||TWO_SIDED|99.0|0.77|1.29||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.29|0.77|
92256350|NCT03728881|184415269|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.24||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|The p-values test for heterogeneity|||||||=0.24
92256351|NCT03728881|184415270|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between younger one-dose and younger three-dose recipients.|||||=|0.216||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 24 months between younger one-dose recipients (9-12 Year Old Girls) and younger three-dose recipients (18-21 Year Old Women).||||=0.216
92256352|NCT03728881|184415270|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between older one-dose and older three-dose recipients.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 24 months between older one-dose recipients (12-14 Year Old Girls) and older three-dose recipients (22-25 Year Old Women).||||=1.000
92178462|NCT03533257|184252767|SUPERIORITY|||||||0.0361|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.0361
92178463|NCT03533257|184252768|SUPERIORITY|||||||0.3585|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.3585
92178464|NCT03533257|184252769|SUPERIORITY|||||||0.8996|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.8996
92178465|NCT03550170|184252803|NON_INFERIORITY|Non-inferiority was established using the prespecified margin of inferiority of 10 points on the total composite score of the Fatigue Impact Scale.|Slope|4.89|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|90.0|0.67|9.11|||||Comparison of teleconference to one-to-one at 6 months.|A generalized estimating equation (GEE) served as the primary analysis tool for modeling the longitudinal scores of the primary outcome - Fatigue Impact Scale (FIS).||9.11|0.67|
92178466|NCT03550170|184252803|NON_INFERIORITY|Non-inferiority was established using the prespecified margin of inferiority of 10 points on the total composite score of the Fatigue Impact Scale.|Slope|6.12|STANDARD_ERROR_OF_MEAN|2.62|||TWO_SIDED|90.0|0.98|11.26|||||Comparison of internet to one-to-one at 6 months.|A generalized estimating equation (GEE) served as the primary analysis tool for modeling the longitudinal scores of the primary outcome - Fatigue Impact Scale (FIS).||11.26|0.98|
92178467|NCT03550170|184252804|SUPERIORITY|||||||0.1|||||||ANOVA|||||||0.10
92256353|NCT03728881|184415272|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.52|||||TWO_SIDED|96.0|0.43|0.64||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.64|0.43|
92265308|NCT00976521|184432042|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon (Mann-Whitney)|||The primary endpoint of infarct size at 30 days measured by cardiac MRI, was summarized using the median, IQR, minimum and maximum values, in each infusion group, comparing the pooled active infusion arm to the pooled control non-infusion arm with the Wilcoxon rank sum test in the ITT analysis set. Data was only analyzed in subjects completing the cardiac MRI study and for whom the imaging data was received and deemed analyzable by the core laboratory.||||0.51
92178468|NCT05850052|184252805|SUPERIORITY||Odds Ratio (OR)|1.24||||0.26|TWO_SIDED|95.0|0.85|1.79|||proportional-odds cumulative logit model|||||1.79|0.85|0.26
92178469|NCT05850052|184252806|SUPERIORITY||incidence rate ratio|1.02||||0.86|TWO_SIDED|97.5|0.82|1.27|||proportional-odds cumulative logit model|||||1.27|0.82|0.86
92178470|NCT05850052|184252807|SUPERIORITY||Risk Ratio (RR)|3.1||||0.36|TWO_SIDED|95.0|0.32|30.0|||Fisher Exact|||||30|0.32|0.36
92178471|NCT06037668|184252847|SUPERIORITY|||||||0.1134||||||p-values are calculated by independent t-test|Independent t-test|||||||0.1134
92178472|NCT06037668|184252848|SUPERIORITY|||||||0.0031||||||p-values are calculated by independent t-test|Independent t-test|||||||0.003100
92178473|NCT06037668|184252849|SUPERIORITY|||||||0.0503||||||p-values are calculated by independent t-test|Independent t-test|||||||0.050300
92178474|NCT06037668|184252850|SUPERIORITY|||||||0.1178||||||p-values are calculated by independent t-test|Independent t-test|||||||0.1178
92178475|NCT06037668|184252851|SUPERIORITY|||||||0.1003||||||p-values are calculated by independent t-test|Independent t-test|||||||0.1003
92178476|NCT06037668|184252852|SUPERIORITY|||||||0.4832||||||p-values are calculated by independent t-test|Independent t-test|||||||0.4832
92178477|NCT04881461|184252859|SUPERIORITY||Mean Difference (Final Values)|1.88||||0.0036|TWO_SIDED|95.0|0.6|3.17||Adjusted P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The endpoint analysis was based on a 5% significance level. The trial was designed to have 86% power for the primary endpoint using the primary (trial product) estimand."||3.17|0.60|0.0036
92178478|NCT04881461|184252860|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.1111|TWO_SIDED|95.0|-0.04|0.39||Adjusted P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction.|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The endpoint analysis was based on a 5% significance level. The trial was designed to have 95% power for this key secondary endpoint using the primary (trial product) estimand."||0.39|-0.04|0.1111
92178479|NCT04881461|184252861|SUPERIORITY||Mean Difference (Final Values)|1.33||||0.0417|TWO_SIDED|95.0|-0.01|2.67||Observed P-value|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||2.67|-0.01|0.0417
92178480|NCT04881461|184252862|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.4984|TWO_SIDED|95.0|-0.15|0.3||Observed P-value|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass SLIT drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||0.30|-0.15|0.4984
92178481|NCT04881461|184252863|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.4438|TWO_SIDED|95.0|-0.12|0.27||Observed P-value|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||0.27|-0.12|0.4438
92284065|NCT01706926|184472070|SUPERIORITY_OR_OTHER||Percent difference|23.1|||<|0.001|TWO_SIDED|95.0|11.5|34.8|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|The analysis reported DAS28 (CRP) low disease activity response.||34.8|11.5|<0.001
92284066|NCT01706926|184472070|SUPERIORITY_OR_OTHER||Percent difference|33.1|||<|0.001|TWO_SIDED|95.0|20.7|45.6|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|The analysis reported DAS28 (CRP) low disease activity response.||45.6|20.7|<0.001
92284067|NCT01706926|184472071|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.68|STANDARD_ERROR_OF_MEAN|1.237|<|0.001|TWO_SIDED|95.0|-8.12|-3.24|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in swollen joint count at Day 169.||-3.24|-8.12|<0.001
92265309|NCT00129220|184432132|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.62|||<|0.001|TWO_SIDED|95.0|-8.87|-2.37|||ANCOVA||Least Squares Mean Difference = Olanzapine minus Placebo.|||-2.37|-8.87|<0.001
92265310|NCT00129220|184432133|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.78||||0.774|TWO_SIDED|95.0|-6.15|4.59|||ANCOVA||Least Squares Mean Difference = Olazapine minus Haloperidol.|||4.59|-6.15|0.774
92265311|NCT00129220|184432134|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|21.0||||0.064|TWO_SIDED|95.0|1.6|40.4|||Cochran-Mantel-Haenszel||Least Squares Mean Difference = Olanzapine minus Haloperidol.|||40.4|1.6|0.064
92265312|NCT00129220|184432135|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47||||0.171|TWO_SIDED|95.0|-1.15|0.21|||ANCOVA||Least Squares Mean Difference = Olanzapine minus Haloperidol.|||0.21|-1.15|0.171
92265313|NCT00129220|184432136|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.51||||0.006|TWO_SIDED|95.0|-0.87|-0.15||P-value for 3-Week Change.|ANCOVA||Least Squares Mean Difference = Olanzapine minus Placebo.|||-0.15|-0.87|0.006
92178482|NCT04881461|184252864|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.0363|TWO_SIDED|95.0|0.01|0.38||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||0.38|0.01|0.0363
92178483|NCT04881461|184252865|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.0329|TWO_SIDED|95.0|0.06|2.31||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand.."||2.31|0.06|0.0329
92256354|NCT03728881|184415272|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.49|||||TWO_SIDED|96.0|0.41|0.58||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.58|0.41|
92256355|NCT03728881|184415272|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.73||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|The p-values test for heterogeneity|||||||=0.73
92256356|NCT03728881|184415273|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate one-dose and three-dose recipients who enrolled June - August.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||NOTE: One-dose recipients and three-dose recipients enrolled April - May both had a 100% seroconversion proportion for HPV16 at 36 months, so the p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate between one-dose recipients and three-dose recipients enrolled June - August.||||=1.000
92178484|NCT04881461|184252866|SUPERIORITY||Mean Difference (Final Values)|1.73||||0.0016|TWO_SIDED|95.0|0.66|2.79||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||2.79|0.66|0.0016
92178485|NCT04881461|184252867|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.4502|TWO_SIDED|95.0|-0.42|0.92||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||0.92|-0.42|0.4502
92182779|NCT02609048|184264685|SUPERIORITY||Difference in LSM|-14.15|STANDARD_ERROR_OF_MEAN|12.807||0.2777|TWO_SIDED|95.0|-40.27|11.97||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline TG assessment as a covariate, and percent change from baseline in TG as response variable.|ANCOVA|||||11.97|-40.27|0.2777
92256357|NCT03728881|184415275|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.26||||||96.0|1.0|1.58||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.58|1.00|
92256358|NCT03728881|184415275|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.01||||||96.0|0.83|1.24||||||||1.24|0.83|
92256359|NCT03728881|184415275|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.15||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|The p-values test for heterogeneity|||||||=0.15
92256360|NCT03728881|184415276|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled April - May.|||||=|0.253||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 36 months between one-dose recipients and three-dose recipients enrolled April - May.||||=0.253
92178486|NCT04881461|184252868|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.1177|TWO_SIDED|95.0|-0.14|1.23||Observed P-value|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.23|-0.14|0.1177
92178487|NCT04881461|184252869|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.4604|TWO_SIDED|95.0|-0.37|0.79||Observed P-value|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||0.79|-0.37|0.4604
92178488|NCT04881461|184252870|SUPERIORITY||Mean Difference (Final Values)|0.57||||0.0549|TWO_SIDED|95.0|-0.01|1.15||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.15|-0.01|0.0549
92256361|NCT03728881|184415276|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled June - August.|||||=|0.015||||||A p-value under 0.05 will be regarded as significant|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 36 months between one-dose recipients and three-dose recipients enrolled June - August.||||=0.015
92256362|NCT03728881|184415278|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.43||||||99.0|0.33|0.55||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.55|0.33|
92256363|NCT03728881|184415278|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.42|||||TWO_SIDED|99.0|0.34|0.52||||||||0.52|0.34|
92256364|NCT03728881|184415278|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.95||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.95
92256365|NCT03728881|184415279|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled June - August.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||NOTE: One-dose recipients and three-dose recipients enrolled April - May both had a 100% seroconversion proportion for HPV16 at 24 months, so the p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate between one-dose recipients and three-dose recipients enrolled June - August.||||=1.000
92256366|NCT03728881|184415281|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.91|||||TWO_SIDED|99.0|0.69|1.19||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.19|0.69|
92256367|NCT03728881|184415281|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.89|||||TWO_SIDED|99.0|0.69|1.14||||||||1.14|0.69|
92256368|NCT03728881|184415281|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.88||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.88
92256369|NCT03728881|184415282|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled April - May.|||||=|0.629||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 24 months between one-dose recipients and three-dose recipients enrolled April - May.||||=0.629
92265314|NCT00129220|184432136|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.13||||0.722|TWO_SIDED|95.0|-0.82|0.57||P-value for 6-Week Change.|ANCOVA||Least Squares Mean Difference = Olanzapine minus Haloperidol.|||0.57|-0.82|0.722
92178489|NCT04881461|184252871|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.0049|TWO_SIDED|95.0|0.3|1.93||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.93|0.30|0.0049
92178490|NCT04881461|184252872|SUPERIORITY||Mean Difference (Final Values)|1.24||||0.0004|TWO_SIDED|95.0|0.54|1.95||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.95|0.54|0.0004
92178491|NCT04881461|184252873|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.0054|TWO_SIDED|95.0|0.25|1.63||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.63|0.25|0.0054
92178492|NCT04881461|184252874|SUPERIORITY||Mean Difference (Final Values)|1.11||||0.0002|TWO_SIDED|95.0|0.52|1.71||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.71|0.52|0.0002
92178493|NCT03988621|184252875|SUPERIORITY||Mean Difference (Net)|-0.65||||0.04|TWO_SIDED|95.0|-1.27|-0.03||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis||Mean HSCN scale scores of participants in the intervention group were estimated to decrease by 0.65 (95% CI: -1.27 to -0.03) units more than that of participants in the control group from baseline to 6-months.|||-0.03|-1.27|0.04
92178494|NCT03988621|184252876|SUPERIORITY||Mean Difference (Net)|5.05||||0.01|TWO_SIDED|95.0|1.12|8.98||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis||Mean Self Care Inventory scale scores of participants in the intervention group were estimated to increase by 5.05 (95% CI: 1.12 to 8.98) units more than that of participants in the control group from baseline to 6-months.|||8.98|1.12|0.01
92178495|NCT03988621|184252877|SUPERIORITY||Mean Difference (Net)|-4.5|||<|0.0001|TWO_SIDED|95.0|-6.48|-2.52||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis||Mean PSS scale scores of participants in the intervention group were estimated to decrease by 4.50 (95% CI: -6.48 to -2.52) units more than that of participants in the control group from baseline to 6-months.|||-2.52|-6.48|<0.0001
92256370|NCT03728881|184415282|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled June - August.|||||=|0.175||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 24 months between one-dose recipients and three-dose recipients enrolled June - August.||||=0.175
92256371|NCT03728881|184415284|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.52||||||96.0|0.43|0.64||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.64|0.43|
92256372|NCT03728881|184415284|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.48||||||96.0|0.4|0.58||||||||0.58|0.40|
92256373|NCT03728881|184415284|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.46||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.46
92256374|NCT03728881|184415285|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients from coastal districts.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||NOTE: One-dose recipients and three-dose recipients enrolled from mountainous districts both had a 100% seroconversion proportion for HPV16 at 36 months, so the p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate for HPV16 at 36 months between one-dose recipients and three-dose recipients enrolled from coastal districts.||||=1.000
92256375|NCT03728881|184415287|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.27||||||96.0|1.03|1.57||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.57|1.03|
92178496|NCT03988621|184252878|SUPERIORITY||Mean Difference (Net)|2.16||||0.099|TWO_SIDED|95.0|-0.41|4.73||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis|||Active Coping Subscale||4.73|-0.41|0.099
92178497|NCT03988621|184252878|SUPERIORITY||Mean Difference (Net)|-0.88||||0.25|TWO_SIDED|95.0|-2.38|0.62||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis||Estimated difference may not be consistent with difference sample means presented in outcome measure data table.|Avoidance Coping Subscale||0.62|-2.38|0.25
92178498|NCT03988621|184252878|SUPERIORITY|The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mean Difference (Net)|-0.31||||0.68|TWO_SIDED|95.0|-1.81|1.18|||Mixed Models Analysis|||Minimization Coping Subscale||1.18|-1.81|0.68
92178499|NCT03988621|184252879|SUPERIORITY||Mean Difference (Net)|-1.32||||0.27|TWO_SIDED|95.0|-3.68|1.04||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis|||Physical Health Score||1.04|-3.68|0.27
92178500|NCT03988621|184252879|SUPERIORITY||Mean Difference (Net)|3.35||||0.04|TWO_SIDED|95.0|0.17|6.53||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis||Mean Mental Health scores of participants in the intervention group were estimated to increase by 3.35 (95% CI: 0.17 to 6.53) units more than that of participants in the control group from baseline to 6-months.|Mental Health Score||6.53|0.17|0.04
92178501|NCT03988621|184252882|SUPERIORITY||Mean Difference (Final Values)|1.3472||||0.5433|TWO_SIDED|95.0|0.5153|3.5218|||Regression, zero inflated poisson||Estimation accounts for the zero-inflated distribution of hospitalization count, thus estimate is inconsistent with mean values in the Outcome Measure Data table|||3.5218|0.5153|0.5433
92178502|NCT03988621|184252883|SUPERIORITY||Mean Difference (Final Values)|1.0143||||0.9173|TWO_SIDED|95.0|0.7766|1.3247|||Zero-inflated poisson regression|||||1.3247|0.7766|0.9173
92178503|NCT03988621|184252884|SUPERIORITY|||||||0.6486|||||||Fisher Exact|||||||0.6486
92178504|NCT03988621|184252885|SUPERIORITY|||||||0.6791|||||||t-test, 2 sided|||||||0.6791
92178505|NCT06356285|184252907|EQUIVALENCE|Quasibinominal models were used as the outcomes are bounded count variables. Accepting a two-sided p-value adjusted for 3 comparisons, the study was designed with 80% power to detect a minimal detectable effect size between the trial arms and control for the primary outcome.|Odds Ratio, log|0.05||||0.017|TWO_SIDED|95.0||||A two-sided p-value, as shown in the table, which was adjusted for 3 comparisons|Quasibinominal regression|||||||0.017
92178506|NCT05265065|184252911|NON_INFERIORITY|"Non-inferiority margin of -10% (absolute difference) and a one-sided significance level of 5%.~The sample size calculation assumed an estimated seroresponse rate of 95% in both half- and full-dose arms, a non- inferiority margin of -10% (absolute difference), a one-sided significance level of5%, and no loss to follow- up. Under this scenario, a sample size of 100 per arm provides 90% power to compare seroresponse rates between arms under the non-inferiority framework."|Risk Difference (RD)|-2.9|||||TWO_SIDED|95.0|-7.7|2.0|||Regression, Logistic||The difference in seroresponse was adjusted for age group, priming vaccine, duration between first and second dose, duration between second and third (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|Non-inferiority margin of -10% (absolute difference) and a one-sided significance level of 5%.||2.0|-7.7|
92178507|NCT05265065|184252913|NON_INFERIORITY|Non-inferiority margin of -10% (absolute difference)|Risk Difference (RD)|-2.4|||||TWO_SIDED|95.0|-16.1|11.3|||Regression, Logistic||The difference in seroresponse was adjusted for age group, priming vaccine, duration between first and second dose, duration between second and third (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||11.3|-16.1|
92178508|NCT05265065|184252913|NON_INFERIORITY|Non-inferiority margin of -10% (absolute difference)|Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-9.5|3.2|||Regression, Logistic||The difference in seroresponse was adjusted for age group, priming vaccine, duration between first and second dose, duration between second and third (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||3.2|-9.5|
92256376|NCT03728881|184415287|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.99||||||96.0|0.8|1.23||||||||1.23|0.80|
92256377|NCT03728881|184415287|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.095||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.095
92256378|NCT03728881|184415288|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled from coastal districts.|||||=|0.327||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate for HPV18 at 36 months between one-dose recipients and three-dose recipients enrolled from coastal districts.||||=0.327
92178509|NCT05265065|184252913|NON_INFERIORITY|Non-inferiority margin of -10% (absolute difference)|Risk Difference (RD)|-0.5|||||TWO_SIDED|95.0|-17.1|16.1|||Regression, Logistic||The difference in seroresponse was adjusted for age group, priming vaccine, duration between first and second dose, duration between second and third (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||16.1|-17.1|
92178510|NCT05265065|184252914|SUPERIORITY||Geometric Mean Ratio|0.94||||0.228|TWO_SIDED|95.0|0.86|1.04|||Regression, Linear||Adjusted for age group, priming vaccine, duration between 1st and 2nd dose, duration between 2nd and 3rd (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||1.04|0.86|0.228
92178511|NCT05265065|184252915|SUPERIORITY||Geometric Mean Ratio|0.94||||0.537|TWO_SIDED|95.0|0.77|1.15|||Regression, Linear||Adjusted for age group, priming vaccine, duration between 1st and 2nd dose, duration between 2nd and 3rd (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||1.15|0.77|0.537
92178512|NCT05265065|184252915|SUPERIORITY||Geometric Mean Ratio|0.99||||0.922|TWO_SIDED|95.0|0.89|1.11|||Regression, Linear||Adjusted for age group, priming vaccine, duration between 1st and 2nd dose, duration between 2nd and 3rd (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||1.11|0.89|0.922
92265315|NCT00129220|184432137|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.7||||0.333|TWO_SIDED|95.0|-6.7|20.1||P-value for 3-Week Response Rate.|Cochran-Mantel-Haenszel|||||20.1|-6.7|0.333
92178513|NCT05265065|184252915|SUPERIORITY||Geometric Mean Ratio|0.71||||0.014|TWO_SIDED|95.0|0.54|0.93|||Regression, Linear||Adjusted for age group, priming vaccine, duration between 1st and 2nd dose, duration between 2nd and 3rd (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||0.93|0.54|0.014
92178514|NCT04778410|184252933|SUPERIORITY|||||||0.1794|||||||One Group Chi-Square test|The p-value was based on one group Chi-Square test for the null hypothesis CR rate was 0.19 at one-sided alpha of 0.1 in Cohort 2.||||||0.1794
92178515|NCT04084574|184252986|SUPERIORITY||Mean Difference (Net)|-4.9|STANDARD_DEVIATION|13.5||0.3968|TWO_SIDED|95.0|-16.8|6.9||The threshold for statistical significance is p = 0.05|t-test, 2 sided||Between group difference in mean blood pressure change from baseline for Standard of Care group minus Behavioral Diet Counseling group.|||6.9|-16.8|0.3968
92178516|NCT04084574|184252987|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.5||0.07926|TWO_SIDED|95.0|-0.33|0.44|||t-test, 2 sided||Between group difference from baseline for Standard of Care group minus Behavioral Diet Counseling group.|||0.44|-0.33|0.07926
92178517|NCT04084574|184252989|SUPERIORITY||Mean Difference (Net)|11.7|STANDARD_DEVIATION|59.3||0.0673|TWO_SIDED|95.0|-34.2|58.6|||t-test, 2 sided|||||58.6|-34.2|0.0673
92178518|NCT04084574|184252990|SUPERIORITY||Mean Difference (Net)|-10.7|STANDARD_DEVIATION|189.3||0.8821|TWO_SIDED|95.0|-157.8|136.4|||t-test, 2 sided||Between group difference from baseline for Standard of Care group minus Behavioral Diet Counseling group.|||136.4|-157.8|0.8821
92178519|NCT04084574|184252991|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_DEVIATION|3.3||0.6479|TWO_SIDED|95.0|-2.0|3.1|||t-test, 2 sided||Between group difference from baseline for Standard of Care group minus Behavioral Diet Counseling group.|||3.1|-2.0|0.6479
92256379|NCT03728881|184415288|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled from mountainous districts.|||||=|0.012||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate for HPV18 at 36 months between one-dose recipients and three-dose recipients enrolled from mountainous districts.||||=0.012
92256380|NCT03728881|184415290|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.45|||||TWO_SIDED|99.0|0.36|0.58||||||||0.58|0.36|
92256381|NCT03728881|184415290|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.4|||||TWO_SIDED|99.0|0.32|0.5||||||||0.50|0.32|
92256382|NCT03728881|184415290|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.3||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.30
92256383|NCT03728881|184415291|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled from coastal districts.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||NOTE: One-dose recipients and three-dose recipients enrolled from mountainous districts had a 100% seroconversion proportion for HPV16 at 24 months, so the p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate for HPV16 at 24 months between one-dose recipients and three-dose recipients enrolled from coastal districts.||||=1.000
92256384|NCT03728881|184415293|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|1.02||||||99.0|0.79|1.32||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.32|0.79|
92178520|NCT04084574|184252992|SUPERIORITY||Mean Difference (Net)|7.0|STANDARD_DEVIATION|21.8||0.4044|TWO_SIDED|95.0|-10.0|24.0|||t-test, 2 sided||Between group difference in mean blood pressure change from baseline for Behavioral Diet Counseling group minus Standard of Care group.|||24.0|-10.0|0.4044
92178521|NCT04084574|184252993|SUPERIORITY||Mean Difference (Net)|1.34|STANDARD_DEVIATION|2.91||0.2374|TWO_SIDED|95.0|-0.97|3.6|||t-test, 2 sided|||||3.60|-0.97|0.2374
92178522|NCT04084574|184252994|SUPERIORITY||Mean Difference (Net)|-2.69|STANDARD_DEVIATION|13.62||0.6188|TWO_SIDED|95.0|-13.71|8.33|||t-test, 2 sided||Between group difference from 12 weeks to 24 weeks for Behavioral Diet Counseling group minus Standard of Care group.|||8.33|-13.71|0.6188
92178523|NCT04084574|184252995|SUPERIORITY||Mean Difference (Net)|-1.39|STANDARD_DEVIATION|1.79||0.0546|TWO_SIDED|95.0|-2.82|0.03|||t-test, 2 sided||Between group difference from 12 weeks to 24 weeks for Behavioral Diet Counseling group minus Standard of Care group.|||0.03|-2.82|0.0546
92178524|NCT04084574|184252996|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_DEVIATION|1.2||1|TWO_SIDED|95.0|-0.98|0.98|||t-test, 2 sided||Between group difference from 12 weeks to 24 weeks for Behavioral Diet Counseling group minus Standard of Care group.|||0.98|-0.98|1.00
92178525|NCT04084574|184252997|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_DEVIATION|1.5||1|TWO_SIDED|95.0|-0.89|1.49|||t-test, 2 sided|||||1.49|-0.89|1.00
92178526|NCT04068792|184253025|OTHER||Mean Difference (Final Values)|-1.03|||||TWO_SIDED|90.0|-4.467|2.416||||||||2.416|-4.467|
92178527|NCT04214834|184253065|SUPERIORITY||Mean Difference (Final Values)|2.96|||<|0.001|TWO_SIDED|95.0|1.7|4.29|||Mixed Models Analysis||Given that the model was on the log scale, mean difference and 95% confidence interval were derived from 1,000 bootstrap resamples.|A logarithmic transformation was applied to the outcome, centers were added as random effects to account for variation between them.||4.29|1.70|<0.001
92178528|NCT05683158|184253076|OTHER||Mean Difference (Net)|1.71|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED||||||ANOVA||Mean difference between two groups of movement unit in forward direction|To determine the sample size, the G\*Power software was utilized, incorporating an effect size (d) of 1.9, alpha level of 0.05, and power of 0.8. A sample size of six individuals per group was considered sufficient to achieve adequate statistical power, which are α ≤ 0.05, power = 0.8, and β = 0.2.||||<.001
92178529|NCT05683158|184253076|OTHER||Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED||||||ANOVA||Statistics difference among forward, ipsilateral and contralateral directions in within group|To determine the sample size, the G\*Power software was utilized, incorporating an effect size (d) of 1.9, alpha level of 0.05, and power of 0.8. A sample size of six individuals per group was considered sufficient to achieve adequate statistical power, which are α ≤ 0.05, power = 0.8, and β = 0.2.||||<.001
92178530|NCT04109066|184253090|SUPERIORITY||Odds Ratio (OR)|2.05||||0.0021|TWO_SIDED|95.0|1.29|3.27|||Cochran-Mantel-Haenszel||"Stratified by PD-L1 by SP142 (\< 1% vs. \>= 1%), AC Dose-Frequency Chemotherapy Regimen (Q2W vs. Q3W) per IRT.~Strata adjusted odds ratio (Arm A over Arm B) using Mantel-Haenszel method."|Arm A over Arm B||3.27|1.29|0.0021
92178531|NCT04109066|184253090|OTHER||Adjusted Difference of pCR Rates|10.5|||||TWO_SIDED|95.0|4.0|16.9|||||"Strata adjusted difference in pCR (Arm A-B) based on Cochran-Mantel-Haenszel (CMH) method of weighting.~Stratified by PD-L1 by SP142 (\< 1% vs. \>= 1%), AC Dose-Frequency Chemotherapy Regimen (Q2W vs. Q3W) per IRT."|||16.9|4.0|
92178532|NCT04109066|184253091|SUPERIORITY||Odds Ratio (OR)|3.11|||||TWO_SIDED|95.0|1.58|6.11|||||Stratified by AC Dose-Frequency. Chemotherapy Regimen (Q2W vs. Q3W) per IRT. Strata adjusted odds ratio (Arm A over Arm B) using Mantel-Haenszel method.|Arm A over Arm B||6.11|1.58|
92178533|NCT04109066|184253091|OTHER||Adjusted Difference of pCR Rates|24.1|||||TWO_SIDED|95.0|10.7|37.5|||||"Strata adjusted difference in pCR (Arm A-B) based on Cochran-Mantel-Haenszel (CMH) method of weighting.~Stratified by AC Dose-Frequency Chemotherapy Regimen (Q2W vs. Q3W) per IRT."|||37.5|10.7|
92178534|NCT04967599|184253097|SUPERIORITY|||||||0.81|||||||Kruskal-Wallis|||||||.81
92178535|NCT04967599|184253098|SUPERIORITY|||||||0.46|||||||Kruskal-Wallis|||||||.46
92178536|NCT04967599|184253099|SUPERIORITY|||||||0.49|||||||Kruskal-Wallis|||||||.49
92178537|NCT04967599|184253100|SUPERIORITY|||||||0.59|||||||Kruskal-Wallis|||||||.59
92178538|NCT04967599|184253101|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||.29
92178539|NCT04967599|184253102|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||.49
92178540|NCT02510235|184253168|NON_INFERIORITY|"To declare non-inferiority between treatments, a change in the SANDE overall score of 12 mm was required, with an estimated standard deviation of 13 (approximately 70% of the mean at 28 ± 4 days after treatment).~The left inferior limits of confidence interval were determined and compared with the non-inferiority limit defined in the testing hypothesis.~Testing Hypothesis:~H0: meanHyaluronic - meanLubricin ≤ - 12~/ H1: meanHyaluronic - meanLubricin \> - 12"|Mean Difference (Final Values)|1.5|||||ONE_SIDED|95.0|-8.87||||Student t-test for unpaired data.|||Values at Day 28 ± 4 (end of treatment) for the SANDE overall VAS score were compared between treatment groups using a Student's t-test for unpaired data.|||-8.87|
92178541|NCT02510235|184253170|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.8226|TWO_SIDED|95.0|-7.66|6.11|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score||Foreign Body Sensation in the Study Eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||6.11|-7.66|0.8226
92178542|NCT02510235|184253170|SUPERIORITY||Mean Difference (Final Values)|3.16||||0.3178|TWO_SIDED|95.0|-3.13|9.44|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Burning/Stinging in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||9.44|-3.13|0.3178
92178543|NCT02510235|184253170|SUPERIORITY||Mean Difference (Final Values)|6.52||||0.0085|TWO_SIDED|95.0|1.74|11.3|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Itching in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||11.30|1.74|0.0085
92256385|NCT03728881|184415293|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.81||||||99.0|0.63|1.04||||||||1.04|0.63|
92178544|NCT02510235|184253170|SUPERIORITY||Mean Difference (Final Values)|3.41||||0.3124|TWO_SIDED|95.0|-3.31|10.13|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Pain in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||10.13|-3.31|0.3124
92178545|NCT02510235|184253170|SUPERIORITY||Mean Difference (Final Values)|6.76||||0.0377|TWO_SIDED|95.0|0.4|13.12|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Sticky feeling in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||13.12|0.40|0.0377
92178546|NCT02510235|184253170|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.5321|TWO_SIDED|95.0|-4.62|8.83|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Blurred vision in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||8.83|-4.62|0.5321
92178547|NCT02510235|184253170|SUPERIORITY||Mean Difference (Final Values)|2.32||||0.579|TWO_SIDED|95.0|-6.04|10.68|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Photophobia in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||10.68|-6.04|0.5790
92178548|NCT02510235|184253170|SUPERIORITY||Mean Difference (Final Values)|16.13||||0.3383|TWO_SIDED|95.0|-17.41|49.68|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Total ocular tolerability score in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||49.68|-17.41|0.3383
92178549|NCT02510235|184253171|SUPERIORITY||Mean Difference (Final Values)|-0.94||||0.6484|TWO_SIDED|95.0|-5.07|3.19|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study Eye analytic statistic is presented. The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||3.19|-5.07|0.6484
92178550|NCT02510235|184253172|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.7408|TWO_SIDED|95.0|-0.71|0.51|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study Eye analytic statistic is presented. The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.51|-0.71|0.7408
92178551|NCT02510235|184253173|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.8596|TWO_SIDED|95.0|-0.78|0.87|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study Eye analytic statistic is presented. The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.87|-0.78|0.8596
92178552|NCT02510235|184253174|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.7891|TWO_SIDED|95.0|-0.16|0.2|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Eyelid - Meibomian glands in Study eye analytic statistic is presented. The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.20|-0.16|0.7891
92178553|NCT02510235|184253174|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.6075|TWO_SIDED|95.0|-0.24|0.14|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Eyelid - Erythema in Study eye analytic statistic is presented. The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.14|-0.24|0.6075
92178554|NCT02510235|184253174|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.6639|TWO_SIDED|95.0|-0.14|0.21|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Eyelid - Oedema in Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.21|-0.14|0.6639
92178555|NCT02510235|184253174|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.3482|TWO_SIDED|95.0|-0.1|0.29|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Conjunctiva - Erythema in Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value is not duplicated or triplicated, reflecting the global outcome consistent with repeated measures ANOVA methodology.||0.29|-0.10|0.3482
92256386|NCT03728881|184415293|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.1||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.10
92256387|NCT03728881|184415294|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled from coastal districts.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate for HPV18 at 24 months between one-dose recipients and three-dose recipients enrolled from coastal districts.||||=1.000
92256388|NCT03728881|184415294|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled from mountainous districts.|||||=|0.339||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate for HPV18 at 24 months between one-dose recipients and three-dose recipients enrolled from mountainous districts.||||=0.339
92256389|NCT05505734|184415343|SUPERIORITY||Hazard Ratio (HR)|0.535|||<|0.001|TWO_SIDED|95.0|0.392|0.73||The pre-specified alpha (type I error) at the IA was set at 0.003 for the primary and first secondary endpoint|Regression, Cox|||Hazard ratios, 95% confidence intervals for hazard ratios and p-values are estimated using a Cox regression model with treatment group, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favors the BDA MDI treatment group.||0.730|0.392|<0.001
92256390|NCT05505734|184415344|SUPERIORITY||Hazard Ratio (HR)|0.539|||<|0.001|TWO_SIDED|95.0|0.397|0.733||The pre-specified alpha (type I error) at the IA was set at 0.003 for the primary and first secondary endpoint|Regression, Cox|||Hazard ratios, 95% confidence intervals for hazard ratios and p-values were estimated using a Cox regression model with treatment group, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favors the BDA MDI treatment group.||0.733|0.397|<0.001
92256391|NCT05505734|184415345|SUPERIORITY||Hazard Ratio (HR)|0.541|||<|0.001|TWO_SIDED|95.0|0.405|0.724||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Regression, Cox|||Hazard ratios, 95% confidence intervals for hazard ratios and p-values were estimated using a Cox regression model with treatment group, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favors the BDA MDI treatment group.||0.724|0.405|<0.001
92256392|NCT05505734|184415346|SUPERIORITY||Hazard Ratio (HR)|0.541|||<|0.001|TWO_SIDED|95.0|0.406|0.72||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Regression, Cox|||Hazard ratios, 95% confidence intervals for hazard ratios and p-values were estimated using a Cox regression model with treatment group, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favors the BDA MDI treatment group.||0.720|0.406|<0.001
92256393|NCT05505734|184415347|SUPERIORITY||Rate Ratio|0.47|||<|0.001|TWO_SIDED|95.0|0.34|0.64||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Negative binomial|||Rates, rate ratios and two-sided p-values were estimated from a negative binomial model with treatment, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A rate ratio less than 1 favors BDA MDI treatment group.||0.64|0.34|<0.001
92256394|NCT05505734|184415348|SUPERIORITY||Rate Ratio|0.46|||<|0.001|TWO_SIDED|95.0|0.33|0.63||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Negative binomial|||Rates, rate ratios and two-sided p-values were estimated from a negative binomial model with treatment, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A rate ratio less than 1 favors BDA MDI treatment group.||0.63|0.33|<0.001
92265316|NCT00129220|184432137|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.908|TWO_SIDED|95.0|-21.0|18.4||P-value for 6-Week Response Rate.|Cochran-Mantel-Haenszel|||||18.4|-21.0|0.908
92265317|NCT00129220|184432138|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.9||||0.384|TWO_SIDED|95.0|-7.3|19.2||P-value for 3-Week Remission Rate.|Cochran-Mantel-Haenszel||Least Squares Mean Difference = Olanzapine minus Placebo.|||19.2|-7.3|0.384
92265318|NCT00129220|184432138|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3||||0.982|TWO_SIDED|95.0|-21.3|21.8||P-value is for 6-Week Remission Rate|Cochran-Mantel-Haenszel||Least Squares Mean Difference = Olanzapine minus Haloperidol.|||21.8|-21.3|0.982
92265319|NCT00129220|184432139|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8||||0.698|TWO_SIDED|95.0|-3.2|4.9||P-value for 3-Week Symptomatic Depression Rate.|Cochran-Mantel-Haenszel|||||4.9|-3.2|0.698
92265320|NCT00129220|184432139|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.1||||0.014|TWO_SIDED|95.0|-31.7|3.4||P-value for 6-Week Symptomatic Depression Rate.|Cochran-Mantel-Haenszel|||||3.4|-31.7|0.014
92256395|NCT05505734|184415349|SUPERIORITY||||||<|0.001||||||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Wilcoxon rank sum|||||||<0.001
92256396|NCT05505734|184415350|SUPERIORITY||||||<|0.001||||||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Wilcoxon rank sum|||||||<0.001
92256397|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.26|STANDARD_ERROR_OF_MEAN|2.777|||TWO_SIDED|95.0|-3.39|7.91|||||Day 1, Max HR|||7.91|-3.39|
92256398|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|2.922|||TWO_SIDED|95.0|-4.78|7.28|||||Day 7, Max HR|||7.28|-4.78|
92256399|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.27|STANDARD_ERROR_OF_MEAN|2.772|||TWO_SIDED|95.0|-2.37|8.91|||||Day 1, Max HR|||8.91|-2.37|
92256400|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.25|STANDARD_ERROR_OF_MEAN|2.729|||TWO_SIDED|95.0|-7.89|3.39|||||Day 7, Max HR|||3.39|-7.89|
92256401|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.49|STANDARD_ERROR_OF_MEAN|2.899|||TWO_SIDED|95.0|1.59|13.39|||||Day 1, Max HR|||13.39|1.59|
92256402|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.7|STANDARD_ERROR_OF_MEAN|3.079|||TWO_SIDED|95.0|2.34|15.05|||||Day 7, Max HR|||15.05|2.34|
92256403|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|2.243|||TWO_SIDED|95.0|-4.8|4.34|||||Day 1, WM|||4.34|-4.80|
92256404|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|2.52|||TWO_SIDED|95.0|-5.09|5.4|||||Day 7, WM|||5.40|-5.09|
92256405|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.33|STANDARD_ERROR_OF_MEAN|2.182|||TWO_SIDED|95.0|-2.12|6.77|||||Day 1, WM|||6.77|-2.12|
92256406|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.51|STANDARD_ERROR_OF_MEAN|2.378|||TWO_SIDED|95.0|-7.48|2.45|||||Day 7, WM|||2.45|-7.48|
92256407|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.16|STANDARD_ERROR_OF_MEAN|2.282|||TWO_SIDED|95.0|1.51|10.81|||||Day 1, WM|||10.81|1.51|
92256408|NCT00732472|184415356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.06|STANDARD_ERROR_OF_MEAN|2.642|||TWO_SIDED|95.0|1.57|12.54|||||Day 7, WM|||12.54|1.57|
92256409|NCT02623699|184415473|SUPERIORITY||least square (LS) mean difference|1.2|STANDARD_ERROR_OF_MEAN|2.22|=|0.9689|TWO_SIDED|95.0|-3.19|5.53||Joint rank p-value was calculated from ANCOVA model which included treatment as fixed effect, adjusts for covariates: Baseline disease duration since symptom onset, baseline ALSFRS-R total score, and use of riluzole or edaravone.|Joint rank||ANCOVA model included treatment as a fixed effect, adjusts for the covariates: Baseline disease duration since symptom onset, baseline ALSFRS-R total score, and use of riluzole or edaravone.|Joint rank test combining function and mortality were used for statistical inference and the estimates were from the Analysis of covariance (ANCOVA) for change from baseline. Multiple imputation was used to handle missing data for withdrawals other than death in the joint rank analysis. Multiple imputation was used to handle all missing data in the ANCOVA for change from baseline.||5.53|-3.19|= 0.9689
92256410|NCT02623699|184415474|SUPERIORITY||Difference in LS geometric mean ratio|0.67|||<|0.0001|TWO_SIDED|95.0|0.53|0.84|||Wilcoxon rank sum test|||Difference in LS geometric mean ratio (BIIB067:Placebo) was calculated.||0.84|0.53|< 0.0001
92256411|NCT02623699|184415474|SUPERIORITY||Difference in LS geometric mean ratio|0.75|||=|0.0002|TWO_SIDED|95.0|0.6|0.95|||Wilcoxon rank sum test|||Difference in LS geometric mean ratio (BIIB067:Placebo) was calculated.||0.95|0.60|=0.0002
92256412|NCT02623699|184415474|SUPERIORITY||Difference in LS geometric mean ratio|0.81|||=|0.0641|TWO_SIDED|95.0|0.65|1.02|||Wilcoxon rank sum test|||Difference in LS geometric mean ratio (BIIB067:Placebo) was calculated.||1.02|0.65|=0.0641
92256413|NCT02623699|184415474|SUPERIORITY||Difference in LS geometric mean ratio|0.67|||<|0.0001|TWO_SIDED|95.0|0.53|0.84|||Wilcoxon rank sum test|||Difference in LS geometric mean ratio (BIIB067:Placebo) was calculated.||0.84|0.53|<0.0001
92256414|NCT02623699|184415475|SUPERIORITY||Difference in LS geometric mean ratio|0.62|||<|0.0001|TWO_SIDED|95.0|0.49|0.78||The analysis was based on ANCOVA model with natural log transformed data. P-value for this secondary outcome measure (OM) is nominal as statistical significance was not met on the primary OM.|ANCOVA|||The ANCOVA model included covariates for the corresponding baseline value i.e. log value, baseline disease duration since symptom onset, and use of riluzole or edaravone. Multiple imputation was used to handle missing data for withdrawals. Difference in LS geometric mean ratio to baseline (BIIB067:Placebo) was calculated.||0.78|0.49|< 0.0001
92256415|NCT02623699|184415476|SUPERIORITY||Difference in LS geometric mean ratio|0.33|||<|0.0001|TWO_SIDED|95.0|0.25|0.45||The analysis was based on ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, baseline disease duration since symptom onset, and use of riluzole or edaravone.|ANCOVA|P-value for this secondary OM is nominal as statistical significance was not met on the primary OM.||Difference in LS geometric mean ratio (BIIB067:Placebo) was calculated.||0.45|0.25|< 0.0001
92256416|NCT02623699|184415477|SUPERIORITY||LS mean difference|7.9|STANDARD_ERROR_OF_MEAN|5.829|=|0.3233|TWO_SIDED|95.0|-3.528|19.322||Joint rank p-value was calculated from ANCOVA model which included treatment as fixed effect, adjusts for covariates: Baseline disease duration since symptom onset, baseline ALSFRS-R total score, baseline SVC, and use of riluzole or edaravone.|Joint rank|P-value for this secondary OM is nominal as statistical significance was not met on the primary OM.|ANCOVA model included treatment as a fixed effect, adjusts for the covariates: Baseline disease duration since symptom onset, baseline ALSFRS-R total score, baseline SVC, and use of riluzole or edaravone.|Joint rank test combining function and mortality were used for statistical inference and the estimates were from the ANCOVA for change from baseline. Multiple imputation was used to handle missing data for withdrawals other than death in the joint rank analysis. Multiple imputation was used to handle all missing data in the ANCOVA for change from baseline.||19.322|-3.528|= 0.3233
92178556|NCT02510235|184253174|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.2422|TWO_SIDED|95.0|-0.34|0.09|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Conjunctiva - Oedema in Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline (Visit 2 - Day 1) across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.09|-0.34|0.2422
92256417|NCT02623699|184415478|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.118|=|0.839|TWO_SIDED|95.0|-0.207|0.255||ANCOVA model included treatment as fixed effect and adjusts for following covariates: Baseline disease duration since symptom onset, baseline HHD overall megascore, and use of riluzole/edaravone. Missing data were handled using multiple imputation.|ANCOVA|P-value for this secondary OM is nominal as statistical significance was not met on the primary OM.||||0.255|-0.207|= 0.8390
92256418|NCT01426009|184415482|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.0723|STANDARD_ERROR_OF_MEAN|0.0188||0.0003|TWO_SIDED|95.0|0.0347|0.1099|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response,with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence. A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.1099|0.0347|0.0003
92256419|NCT01426009|184415482|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.0676|STANDARD_ERROR_OF_MEAN|0.0184||0.0006|TWO_SIDED|95.0|0.0307|0.1046|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response,with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.1046|0.0307|0.0006
92256420|NCT01426009|184415482|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.1021|STANDARD_ERROR_OF_MEAN|0.0188|<|0.0001|TWO_SIDED|95.0|0.0644|0.1398|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.1398|0.0644|<0.0001
92256421|NCT01426009|184415482|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.1299|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.0918|0.1681|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||00.1681|0.0918|<0.0001
92256422|NCT01426009|184415482|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.0446|STANDARD_ERROR_OF_MEAN|0.0186||0.02|TWO_SIDED|95.0|0.0073|0.082|||Mantel Haenszel||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.0820|0.0073|0.0200
92256423|NCT01426009|184415482|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.0813|STANDARD_ERROR_OF_MEAN|0.0284||0.006|TWO_SIDED|95.0|0.0243|0.1382|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.1382|0.0243|0.0060
92265321|NCT00129220|184432140|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.48||||0.019|TWO_SIDED|95.0|-2.71|-0.25||P-value for 3-Week Change.|ANCOVA||Least Squares Mean Difference = Olanzapine minus Placebo.|||-0.25|-2.71|0.019
92265322|NCT00129220|184432140|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.16||||0.855|TWO_SIDED|95.0|-1.95|1.62||P-value for 6-Week Change.|ANCOVA||Least Squares Mean Difference = Olanzapine minus Haloperidol.|||1.62|-1.95|0.855
92256424|NCT01426009|184415482|SUPERIORITY|Day 1 analysis|Least Squares Mean Difference (SE)|0.0385|STANDARD_ERROR_OF_MEAN|0.0183||0.0402|TWO_SIDED|95.0|0.0018|0.0752|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.0752|0.0018|0.0402
92256425|NCT01426009|184415482|SUPERIORITY|Day 1 analysis|Least Squares Mean Difference (SE)|0.0696|STANDARD_ERROR_OF_MEAN|0.0179||0.0003|TWO_SIDED|95.0|0.0337|0.1055|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.1055|0.0337|0.0003
92256426|NCT01426009|184415482|SUPERIORITY|Day 1 analysis|Least Squares Mean|0.0501|STANDARD_ERROR_OF_MEAN|0.018||0.0074|TWO_SIDED|95.0|0.014|0.0861|||ANCOVA|||An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.0861|0.0140|0.0074
92256427|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.0767|STANDARD_ERROR_OF_MEAN|0.0131|<|0.0001|TWO_SIDED|95.0|0.0505|0.1028|||ANCOVA||standard error of the mean difference|ACU 0-24 on Day 1||0.1028|0.0505|<0.0001
92256428|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.122|STANDARD_ERROR_OF_MEAN|0.0127|<|0.0001|TWO_SIDED|95.0|0.0965|0.1475|||ANCOVA||standard error of the Mean difference|ACU 0-24 Day 1||0.1475|0.0965|<0.0001
92256429|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1222|STANDARD_ERROR_OF_MEAN|0.0128|<|0.0001|TWO_SIDED|95.0|0.0965|0.1479|||ANCOVA||standard error of the Mean difference|AUC 0-24 Day 1||0.1479|0.0965|<0.0001
92256430|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1625|STANDARD_ERROR_OF_MEAN|0.0131|<|0.0001|TWO_SIDED|95.0|0.1362|0.1888|||ANCOVA||standard error of the Mean difference|AUC 0-24 day 1||0.1888|0.1362|<0.0001
92256431|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.169|STANDARD_ERROR_OF_MEAN|0.0128|<|0.0001|TWO_SIDED|95.0|0.1434|0.1946|||ANCOVA||standard error of the Mean difference|AUC 0-24 day 1||0.1946|0.1434|<0.0001
92256432|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1095|STANDARD_ERROR_OF_MEAN|0.0189|<|0.0001|TWO_SIDED|95.0|0.0716|0.1473|||ANCOVA||standard error of the Mean difference|AUC 0-24 day 1||0.1473|0.0716|<0.0001
92256433|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1095|STANDARD_ERROR_OF_MEAN|0.0141|<|0.0001|TWO_SIDED|95.0|0.0812|0.1379|||ANCOVA||standard error of the Mean difference|AUC 0-24 on Day 7||0.1379|0.0812|<0.0001
92256434|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1271|STANDARD_ERROR_OF_MEAN|0.0139|<|0.0001|TWO_SIDED|95.0|0.0993|0.1548|||ANCOVA||standard error of the Mean difference|AUC0-24 on Day 7||0.1548|0.0993|<0.0001
92256435|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.145|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.1169|0.173|||ANCOVA||standard error of the Mean difference|AUC 0-24 on day 7||0.1730|0.1169|<0.0001
92256436|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1688|STANDARD_ERROR_OF_MEAN|0.0142|<|0.0001|TWO_SIDED|95.0|0.1403|0.1972|||ANCOVA||standard error of the Mean difference|AUC 0-24 on day 7||0.1972|0.1403|<0.0001
92256437|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1396|STANDARD_ERROR_OF_MEAN|0.0139|<|0.0001|TWO_SIDED|95.0|0.1117|0.173|||ANCOVA||standard error of the Mean difference|AUC 0-24 on day 7||0.1730|0.1117|<0.0001
92256438|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1183|STANDARD_ERROR_OF_MEAN|0.0194|<|0.0001|TWO_SIDED|95.0|0.0795|0.1972|||ANCOVA||standard error of the Mean difference|AUC 0-24 on day 7||0.1972|0.0795|<0.0001
92256439|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1038|STANDARD_ERROR_OF_MEAN|0.0131|<|0.0001|TWO_SIDED|95.0|0.0776|0.1301|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.1301|0.0776|<0.0001
92256440|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1468|STANDARD_ERROR_OF_MEAN|0.0128|<|0.0001|TWO_SIDED|95.0|0.1212|0.1724|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.1724|0.1212|<0.0001
92256441|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1579|STANDARD_ERROR_OF_MEAN|0.0128|<|0.0001|TWO_SIDED|95.0|0.1322|0.1837|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.1837|0.1322|<0.0001
92256442|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1919|STANDARD_ERROR_OF_MEAN|0.0132|<|0.0001|TWO_SIDED|95.0|0.1655|0.2184|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.2184|0.1655|<0.0001
92256443|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1994|STANDARD_ERROR_OF_MEAN|0.0128|<|0.0001|TWO_SIDED|95.0|0.1738|0.2251|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.2251|0.1738|<0.0001
92256444|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1248|STANDARD_ERROR_OF_MEAN|0.0188|<|0.0001|TWO_SIDED|95.0|0.0872|0.1625|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.1625|0.0872|<0.0001
92256445|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1279|STANDARD_ERROR_OF_MEAN|0.0154|<|0.0001|TWO_SIDED|95.0|0.097|0.1587|||ANCOVA|standard error of the Mean difference|standard error of the Mean difference|AUC 0-12 on day 7||0.1587|0.0970|<0.0001
92256446|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1454|STANDARD_ERROR_OF_MEAN|0.0151|<|0.0001|TWO_SIDED|95.0|0.1151|0.1756|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 7||0.1756|0.1151|<0.0001
92256447|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1699|STANDARD_ERROR_OF_MEAN|0.0152|<|0.0001|TWO_SIDED|95.0|0.1393|0.2004|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 7||0.2004|0.1393|<0.0001
92256448|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1814|STANDARD_ERROR_OF_MEAN|0.0155|<|0.0001|TWO_SIDED|95.0|0.1503|0.2125|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 7||0.2125|0.1503|<0.0001
92256449|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1697|STANDARD_ERROR_OF_MEAN|0.0152|<|0.0001|TWO_SIDED|95.0|0.1393|0.201|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 7||0.201|0.1393|<0.0001
92178557|NCT02510235|184253174|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.8645|TWO_SIDED|95.0|-0.11|0.14|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Lens in Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.14|-0.11|0.8645
92182780|NCT02609048|184264685|SUPERIORITY||Difference in LSM|-37.31|STANDARD_ERROR_OF_MEAN|11.946||0.0039|TWO_SIDED|95.0|-61.67|-12.95||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline TG assessment as a covariate, and percent change from baseline in TG as response variable.|ANCOVA|||||-12.95|-61.67|0.0039
92256450|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1384|STANDARD_ERROR_OF_MEAN|0.0216|<|0.0001|TWO_SIDED|95.0|0.0951|0.1817|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 7||0.1817|0.0951|<0.0001
92256451|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.0471|STANDARD_ERROR_OF_MEAN|0.0157|<|0.0001|TWO_SIDED|95.0|0.0155|0.0786|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 1||0.0786|0.0155|<0.0001
92256452|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.0918|STANDARD_ERROR_OF_MEAN|0.0154|<|0.0001|TWO_SIDED|95.0|0.0611|0.1226|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 1||0.1226|0.0611|<0.0001
92256453|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.0829|STANDARD_ERROR_OF_MEAN|0.0155|<|0.0001|TWO_SIDED|95.0|0.0519|0.1139|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 1||0.1139|0.0519|<0.0001
92256454|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1299|STANDARD_ERROR_OF_MEAN|0.0158|<|0.0001|TWO_SIDED|95.0|0.0982|0.1617|||ANCOVA||standard error of the Mean difference|AUC 12-24 o day 1||0.1617|0.0982|<0.0001
92256455|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1369|STANDARD_ERROR_OF_MEAN|0.0154|<|0.0001|TWO_SIDED|95.0|0.1061|0.1678|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 1||0.1678|0.1061|<0.0001
92256456|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.0934|STANDARD_ERROR_OF_MEAN|0.0221|<|0.0001|TWO_SIDED|95.0|0.049|0.1377|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 1||0.1377|0.0490|<0.0001
92256457|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.0879|STANDARD_ERROR_OF_MEAN|0.0153|<|0.0001|TWO_SIDED|95.0|0.0573|0.1186|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 7||0.1186|0.0573|<0.0001
92256458|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1088|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.0788|0.1388|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 7||0.1388|0.0788|<0.0001
92256459|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1175|STANDARD_ERROR_OF_MEAN|0.0151|<|0.0001|TWO_SIDED|95.0|0.0872|0.1478|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 7||0.1478|0.0872|<0.0001
92256460|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1532|STANDARD_ERROR_OF_MEAN|0.0153|<|0.0001|TWO_SIDED|95.0|0.1226|0.1838|||ANCOVA||standard error of the Mean difference|||0.1838|0.1226|<0.0001
92256461|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.1048|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.0747|0.135|||ANCOVA||standard error of the Mean difference|||0.1350|0.0747|<0.0001
92256462|NCT01426009|184415483|SUPERIORITY||Least Squares Mean Difference (SE)|0.0993|STANDARD_ERROR_OF_MEAN|0.0202|<|0.0001|TWO_SIDED|95.0|0.0589|0.1398|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 7||0.1398|0.0589|<0.0001
92256463|NCT00515099|184415576|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline ln(AUC+1) as a covariate and change in ln(AUC+1) from baseline as the outcome variable.|ANCOVA|||Primary imputation method used for missing Month 12 AUC. Measuring range for C-peptide is 0.05-30 ng/mL||||0.60
92256464|NCT00515099|184415577|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome variable|ANCOVA|||Missing Month 12 AUC values were not imputed. Measuring range for C-peptide is 0.05-30 ng/mL||||0.40
92256465|NCT00515099|184415578|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in insulin use from baseline as the outcome variable|ANCOVA|||Comparison of groups for change from baseline (pre-treatment initiation) to Month 12||||0.59
92256466|NCT00515099|184415578|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in insulin use from baseline as the outcome variable|ANCOVA|||Comparison of groups for change from baseline (pre-treatment initiation) to Month 24||||0.14
92256467|NCT00515099|184415580|SUPERIORITY_OR_OTHER||||||>|0.099|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in insulin use from baseline as the outcome variable|Fisher Exact|||Comparison of groups up to Month 12||||>0.099
92256468|NCT00515099|184415580|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in insulin use from baseline as the outcome variable|Fisher Exact|||Comparison of groups up to Month 24||||0.75
92256469|NCT00515099|184415581|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome variable|ANCOVA|||2-Hour AUC change from baseline (pre-initiation treatment) to Month 24. Primary imputation method used for missing Month 24 AUC. Measuring range for C-peptide is 0.05-30 ng/mL.||||0.38
92256470|NCT00515099|184415581|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome variable|ANCOVA|||4-Hour AUC change from baseline (pre-initiation treatment) to Month 24. Missing Month 24 AUC values were not imputed. Measuring range for C-peptide is 0.05-30 ng/mL.||||0.33
92256471|NCT00515099|184415582|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in HbA1c from baseline as the outcome variable|ANCOVA|||Comparison of groups for change from Baseline to Month 12||||0.07
92178558|NCT02510235|184253174|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.379|TWO_SIDED|95.0|-0.11|0.04|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Cornea transparency in Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.04|-0.11|0.3790
92256472|NCT00515099|184415582|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in HbA1c from baseline as the outcome variable|ANCOVA|||Comparison of groups for change from Baseline to Month 24||||0.16
92178559|NCT02510235|184253175|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.8363|TWO_SIDED|95.0|-0.26|0.21|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.21|-0.26|0.8363
92182781|NCT02609048|184264685|SUPERIORITY||Difference in LSM|23.16|STANDARD_ERROR_OF_MEAN|12.498||0.0734|TWO_SIDED|95.0|-2.33|48.65||Difference between means,p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor, baseline TG assessment as a covariate, and percent change from baseline in TG as response variable.|ANCOVA|||||48.65|-2.33|0.0734
92256473|NCT03342404|184415583|SUPERIORITY||Difference in proportions|77.1|||||TWO_SIDED|95.0|63.4|87.0|||||The difference in proportions (luspatercept - placebo) and 95% CI were estimated from the exact unconditional test|||87.0|63.4|
92256474|NCT03342404|184415583|SUPERIORITY||Risk Difference (RD)|77.1|||||TWO_SIDED|95.0|68.7|85.5|||||The common risk difference (luspatercept - placebo) and 95% CI were estimated from the CMH test stratified by baseline Hb category and baseline NTDT-PRO T/W domain score category|||85.5|68.7|
92256475|NCT03342404|184415584|SUPERIORITY||Mean Difference (Net)|-0.48||||0.0924|TWO_SIDED|95.0|-1.03|0.08|||ANCOVA|||||0.08|-1.03|0.0924
92256476|NCT03342404|184415585|SUPERIORITY||Mean Difference (Net)|1.42|||<|0.0001|TWO_SIDED|95.0|1.16|1.67|||ANCOVA|||||1.67|1.16|< 0.0001
92256477|NCT03342404|184415586|SUPERIORITY||Mean Difference (Net)|68.8|||<|0.0001|TWO_SIDED|95.0|54.3|80.4|||Cochran-Mantel-Haenszel|||||80.4|54.3|< 0.0001
92256478|NCT03342404|184415587|SUPERIORITY||Mean Difference (Net)|1.39||||0.2641|TWO_SIDED|95.0|-1.06|3.83|||ANCOVA|||||3.83|-1.06|0.2641
92256479|NCT03342404|184415588|SUPERIORITY||Mean Difference (Net)|-0.49||||0.0721|TWO_SIDED|95.0|-1.02|0.04|||ANCOVA|||||0.04|-1.02|0.0721
92256480|NCT03342404|184415589|SUPERIORITY||Mean Difference (Net)|1.49|||<|0.0001|TWO_SIDED|95.0|1.2|1.79|||ANCOVA|||||1.79|1.20|< 0.0001
92256481|NCT03342404|184415590|SUPERIORITY||Mean Difference (Net)|2.19||||0.0959|TWO_SIDED|95.0|-0.39|4.78|||ANCOVA|||||4.78|-0.39|0.0959
92256482|NCT03342404|184415591|SUPERIORITY||Mean Difference (Net)|-0.79||||0.051|TWO_SIDED|95.0|-1.58|0.0|||ANCOVA|||||0.00|-1.58|0.0510
92256483|NCT03342404|184415592|SUPERIORITY||Mean Difference (Net)|-1.07||||0.0047|TWO_SIDED|95.0|-1.8|-0.33|||ANCOVA|||||-0.33|-1.80|0.0047
92182782|NCT02609048|184264686|SUPERIORITY||Difference in LSM|-16.12|STANDARD_ERROR_OF_MEAN|4.433||0.001|TWO_SIDED|95.0|-25.16|-7.07||Difference between means,p-value,and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline TC assessment as covariate,and percent change from baseline in TC as the response variable.|ANCOVA|||||-7.07|-25.16|0.0010
92256484|NCT03342404|184415593|SUPERIORITY||Odds Ratio (OR)|1.8||||0.1359|TWO_SIDED|95.0|0.8|4.0|||Cochran-Mantel-Haenszel|||||4.0|0.8|0.1359
92256485|NCT03342404|184415594|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0657|TWO_SIDED|95.0|0.9|5.4|||Cochran-Mantel-Haenszel|||||5.4|0.9|0.0657
92256486|NCT03342404|184415595|SUPERIORITY||Mean Difference (Net)|1.39||||0.0847|TWO_SIDED|95.0|-0.19|2.96|||Mixed Models Analysis|||Mean change from baseline in SF-36 PCS to Week 24||2.96|-0.19|0.0847
92256487|NCT03342404|184415595|SUPERIORITY||Mean Difference (Net)|1.75||||0.0712|TWO_SIDED|95.0|-0.15|3.65|||Mixed Models Analysis|||Mean change from baseline in SF-36 PCS to Week 48||3.65|-0.15|0.0712
92256488|NCT03342404|184415595|SUPERIORITY||Mean Difference (Net)|1.54||||0.1633|TWO_SIDED|95.0|-0.63|3.72|||Mixed Models Analysis|||Mean change from baseline in SF-36 MCS to Week 24||3.72|-0.63|0.1633
92256489|NCT03342404|184415595|SUPERIORITY||Mean Difference (Net)|2.7||||0.0469|TWO_SIDED|95.0|0.04|5.36|||Mixed Models Analysis|||Mean change from baseline in SF-36 MCS to Week 48||5.36|0.04|0.0469
92256490|NCT03342404|184415596|SUPERIORITY||Mean Difference (Net)|-4.2||||0.4787|TWO_SIDED|95.0|-21.4|13.0|||Cochran-Mantel-Haenszel|||Percentage of participants with improvement of iron overload (LIC/ICT responders) at Week 24||13.0|-21.4|0.4787
92256491|NCT03342404|184415596|SUPERIORITY||Mean Difference (Net)|-14.6||||0.0827|TWO_SIDED|95.0|-31.5|2.4|||Cochran-Mantel-Haenszel|||Percentage of participants with improvement of iron overload (LIC/ICT responders) at Week 48||2.4|-31.5|0.0827
92256492|NCT03342404|184415597|SUPERIORITY||Mean Difference (Net)|27.14||||0.5949|TWO_SIDED|95.0|-46.77|101.06|||ANCOVA|||Mean change from baseline in serum ferritin at Week 24||101.06|-46.77|0.5949
92256493|NCT03342404|184415597|SUPERIORITY||Mean Difference (Net)|13.46||||0.3454|TWO_SIDED|95.0|-61.01|87.93|||ANCOVA|||Mean change from baseline in serum ferritin at Week 48||87.93|-61.01|0.3454
92256494|NCT03342404|184415598|SUPERIORITY||Mean Difference (Net)|-0.09||||0.6628|TWO_SIDED|95.0|-0.47|0.3|||ANCOVA|||Mean change from baseline in LIC at Week 24||0.30|-0.47|0.6628
92256495|NCT03342404|184415598|SUPERIORITY||Mean Difference (Net)|0.66||||0.0859|TWO_SIDED|95.0|-0.09|1.42|||ANCOVA|||Mean change from baseline in LIC at Week 48||1.42|-0.09|0.0859
92256496|NCT03342404|184415599|SUPERIORITY||Mean Difference (Net)|22.2||||0.0013|TWO_SIDED|95.0|5.0|38.6|||Cochran-Mantel-Haenszel|||Percentage of participants who were transfusion free over 24 weeks||38.6|5.0|0.0013
92256497|NCT03342404|184415600|SUPERIORITY||Mean Difference (Net)|37.4|||<|0.0001|TWO_SIDED|95.0|20.9|53.0|||Cochran-Mantel-Haenszel|||Percentage of Participants Who are Transfusion-Free Over 48 Weeks||53.0|20.9|< 0.0001
92256498|NCT03342404|184415602|SUPERIORITY||Mean Difference (Net)|16.15||||0.1466|TWO_SIDED|95.0|-5.73|38.04|||ANCOVA|||Mean change from baseline in 6MWT distance at Week 24||38.04|-5.73|0.1466
92256499|NCT03342404|184415602|SUPERIORITY||Mean Difference (Net)|12.44||||0.2011|TWO_SIDED|95.0|-6.72|31.59|||ANCOVA|||Mean change from baseline in 6MWT distance at Week 48||31.59|-6.72|0.2011
92256500|NCT03342404|184415603|SUPERIORITY||Mean Difference (Net)|52.1|||<|0.0001|TWO_SIDED|95.0|36.2|66.2|||Cochran-Mantel-Haenszel|||Percentage of Participants with an Increase From Baseline ≥1.5 g/dL in Mean Hemoglobin Values in the Absence of Transfusion||66.2|36.2|< 0.0001
92256501|NCT03342404|184415604|SUPERIORITY||Mean Difference (Net)|1.7||||0.1989|TWO_SIDED|95.0|0.8|3.7|||Cochran-Mantel-Haenszel|||Percentage of Participants With a Decrease From Baseline ≥ RD (= 1) in the Non-Transfusion Dependent β-thalassemia-Patient Reported Outcome (NTDT-PRO) Tiredness and Weakness (T/W) Domain Score Week 13 to Week 24||3.7|0.8|0.1989
92256502|NCT03342404|184415604|SUPERIORITY||Mean Difference (Net)|2.1||||0.0733|TWO_SIDED|95.0|0.9|5.0|||Cochran-Mantel-Haenszel|||Percentage of Participants With a Decrease From Baseline ≥ RD (= 1) in the Non-Transfusion Dependent β-thalassemia-Patient Reported Outcome (NTDT-PRO) Tiredness and Weakness (T/W) Domain Score Week 37 to Week 48||5.0|0.9|0.0733
92256503|NCT03676465|184415690|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
92256504|NCT03676465|184415691|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
92256505|NCT03676465|184415692|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
92256506|NCT03676465|184415693|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
92256507|NCT03676465|184415694|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92256508|NCT03676465|184415695|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
92256509|NCT03676465|184415696|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92256510|NCT03676465|184415697|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
92256511|NCT03676465|184415698|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
92256512|NCT03676465|184415699|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|Wilcoxon (Mann-Whitney)|||||||>0.05
92256513|NCT03676465|184415700|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
92256514|NCT03676465|184415701|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|Wilcoxon (Mann-Whitney)|||||||>0.05
92256515|NCT03676465|184415702|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|Wilcoxon (Mann-Whitney)|||||||>0.05
92256516|NCT03676465|184415703|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92256517|NCT00085644|184415704|SUPERIORITY_OR_OTHER||Risk Difference (RD)|37.6|||<|0.001||95.0|27.4|47.8|||Chi-squared||Risk difference is measured as a percentage.|ASAS 20 response rates of the adalimumab group were compared with the placebo group using Pearson's Chi-square test. The counts and percentages were calculated for total sample and by therapy group. Statistical tests were 2-sided. For the statistical analysis, subjects with missing data before Week 12 were considered as nonresponders. The comparisons were performed at an alpha level = 0.05.||47.8|27.4|< 0.001
92256518|NCT00085644|184415705|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.985||95.0|||||ANCOVA|||||||0.985
92256519|NCT00893763|184415785|SUPERIORITY_OR_OTHER|||||||0.1763|TWO_SIDED||||||mixed effects linear model|||We compared groups in a single analytical model using a mixed effects linear model with CPIS as the response variable. For this model, group (CHX, control), day, group by day interaction, APACHE III score and hospital (VCU, USF) were modeled as fixed effects and subject was modeled as a random effect.||||0.1763
92256520|NCT00893763|184415785|SUPERIORITY_OR_OTHER|||||||0.8656|TWO_SIDED||||||Regression, Logistic|||A logistic regression analysis was performed using the binary response variable of colonization or no colonization and dependent variables for group, length of intubation, and group-by-length-of-intubation interaction. The probability of a type 1 error ( a ) was set to 0.05.||||0.8656
92256521|NCT04107935|184415809|SUPERIORITY|||||||0.983||||||Propensity score matching was used to form pairs of intervention and control participants. Specifically, a greedy matching procedure with a matching caliper of 0.2 of the standard deviation of the logit of the propensity score was used.|Mixed Models Analysis|Since baseline characteristics achieved a good balance, those variables were not entered into the propensity score matched model.||||||0.9830
92256522|NCT04107935|184415810|SUPERIORITY|||||||0.8365||||||Adjusted for age, race, body mass index, and time|Mixed Models Analysis|||||||0.8365
92256523|NCT04107935|184415811|SUPERIORITY|||||||0.5727||||||Adjusted for age, race, body mass index, and time|Mixed Models Analysis|||||||0.5727
92256524|NCT04107935|184415812|SUPERIORITY|||||||0.9381||||||Adjusted for age, race, body mass index, and time|Mixed Models Analysis|||||||0.9381
92256525|NCT04107935|184415814|SUPERIORITY|||||||0.608||||||Adjusted for age, race, body mass index, and time|Mixed Models Analysis|||||||0.608
92256526|NCT00376675|184415815|SUPERIORITY_OR_OTHER|||||||0.317|||||||Wilcoxon rank sum test|||||||0.317
92256527|NCT03489850|184415838|SUPERIORITY||Parameter Estimate|0.34|STANDARD_ERROR_OF_MEAN|0.69||0.62|TWO_SIDED|95.0|-1.01|1.69|||Generalized Estimating Equation|||||1.69|-1.01|.62
92256528|NCT03489850|184415839|SUPERIORITY||Odds Ratio (OR)|0.55|||<|0.05|TWO_SIDED|95.0|0.3|0.98|||Generalized Estimating Equation|||||.98|.30|<0.05
92256529|NCT03489850|184415840|SUPERIORITY||Odds Ratio (OR)|0.83|||<|0.05|TWO_SIDED|95.0|0.47|1.48|||Generalized Estimating Equation|||||1.48|0.47|<0.05
92256530|NCT03489850|184415841|SUPERIORITY||F|7.36|||<|0.05|TWO_SIDED||||||ANCOVA|||||||<0.05
92256531|NCT03674541|184415901|SUPERIORITY|||||||0.043|||||||Welch's t-test|||||||0.043
92256532|NCT03674541|184415902|SUPERIORITY|||||||0.008||||||P-value was not adjusted for multiplicity for secondary outcomes|Welch's t-test|||||||0.008
92256533|NCT03674541|184415903|SUPERIORITY|||||||0.263||||||Not adjusted for multiplicity|Welch's t-test|||||||0.263
92256534|NCT03674541|184415904|SUPERIORITY|||||||0.039||||||Not adjusted for multiplicity|Welch's t-test|||||||0.039
92256535|NCT03674541|184415905|SUPERIORITY|||||||0.068||||||Not adjusted for multiplicity|Welch's t-test|||||||0.068
92256536|NCT03674541|184415906|SUPERIORITY|||||||0.045||||||Not adjusted for multiplicity|Welch's t-test|||||||0.045
92256537|NCT03674541|184415907|SUPERIORITY|||||||1||||||Not adjusted multiplicity|Welch's t-test|||||||1.000
92256538|NCT03674541|184415908|SUPERIORITY|||||||0.093||||||Not adjusted for multiplicity|Welch's t-test|||||||0.093
92256539|NCT03674541|184415909|SUPERIORITY|||||||0.427||||||Not adjusted for multiplicity|Welch's t-test|||||||0.427
92256540|NCT03674541|184415910|SUPERIORITY|||||||0.262||||||Not adjusted for multiplicity|Welch's t-test|||||||0.262
92256541|NCT03674541|184415911|SUPERIORITY|||||||0.038||||||Not adjusted for multiplicity|Welch's t-test|||||||0.038
92256542|NCT03674541|184415912|SUPERIORITY|||||||0.147|||||||Welch's t-test|||||||0.147
92256543|NCT04973085|184415926|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
92265323|NCT00129220|184432141|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.6||||0.136|TWO_SIDED|95.0|-14.9|5.7||P-value for 6-Week Syndromic Depression Rate.|Cochran-Mantel-Haenszel|||||5.7|-14.9|0.136
92256544|NCT00959699|184415931|SUPERIORITY_OR_OTHER||Strata-Adjusted Difference|33.7||||0.0008|TWO_SIDED|95.0|14.1|53.3||The Cochran-Mantel-Haenszel p-value is adjusted for randomization strata of HCV-RNA (\< or \>= 800,000 IU/mL) and Cirrhosis/Fibrosis (Yes or No)|Cochran-Mantel-Haenszel|||The methodology for 95% Confidence Interval (CI) is based on a Modified Koch approach which adjusted for Randomization Strata of Cirrhosis/Fibrosis (Yes or No). The adjustment of randomization strata of HCV-RNA (\< or \>= 800,000 IU/mL) was not possible due to sparse data.||53.3|14.1|0.0008
92256545|NCT00959699|184415932|SUPERIORITY_OR_OTHER||Observed Difference|34.2||||0.0007|TWO_SIDED|95.0|14.5|53.9||The Cochran-Mantel-Haenszel p-value is adjusted for randomization strata of HCV-RNA (\< or \>= 800,000 IU/mL) and Cirrhosis/Fibrosis (Yes or No)|Cochran-Mantel-Haenszel|||The methodology for 95% CI is based on the asymptotic normal approximation to the binomial distribution||53.9|14.5|0.0007
92256546|NCT02858713|184415939|SUPERIORITY||Odds Ratio (OR)|2.99|||=|0.004|TWO_SIDED|95.0|1.42|6.28|||Regression, Logistic|||||6.28|1.42|=0.004
92256547|NCT02858713|184415940|SUPERIORITY||Coefficient|-0.415|||=|0.545|TWO_SIDED|95.0|-1.77|0.939|||Regression, Linear|||DLQI: Change baseline to week 4||0.939|-1.770|=0.545
92256548|NCT02858713|184415940|SUPERIORITY||Coefficient|-0.415||||0.545|TWO_SIDED|95.0|-1.77|0.939|||Regression, Linear|||DLQI: Change from baseline to week 4||0.939|-1.770|0.545
92256549|NCT02858713|184415940|SUPERIORITY||Coefficient|-0.581||||0.45|TWO_SIDED|95.0|-2.099|0.938|||Regression, Linear|||DLQI: Change from baseline to week 8||0.938|-2.099|0.450
92256550|NCT02858713|184415940|SUPERIORITY||Coefficient|-0.77||||0.348|TWO_SIDED|95.0|-2.389|0.848|||Regression, Linear|||DLQI: Change from baseline to week 26||0.848|-2.389|0.348
92256551|NCT02858713|184415941|SUPERIORITY||coefficient|0.4||||0.047|TWO_SIDED|95.0|0.005|0.795|||Regression, Linear|||LS-PGA: Change from baseline to week 4||0.795|0.005|0.047
92256552|NCT02858713|184415941|SUPERIORITY||Coefficient|0.091||||0.662|TWO_SIDED|95.0|-0.321|0.504|||Regression, Linear|||LS-PGA: Change from baseline to week 8||0.504|-0.321|0.662
92256553|NCT02858713|184415941|SUPERIORITY||Coefficient|0.18||||0.424|TWO_SIDED|95.0|-0.264|0.625|||Regression, Linear|||LS-PGA: Change from baseline to week 26||0.625|-0.264|0.424
92256554|NCT02200510|184415982|EQUIVALENCE|Because this was a pilot study, the goal was to detect effects sizes for a larger R01 or R21.|Mean Difference (Final Values)|0.33||||0.575|TWO_SIDED||||||ANOVA|||||||0.575
92256555|NCT02200510|184415982|EQUIVALENCE|Because this was a pilot study, the goal was to detect effects sizes for a larger R01 or R21.|Mean Difference (Final Values)|0.138||||0.721|TWO_SIDED||||||ANOVA|||||||0.721
92256556|NCT03057106|184415983|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.46|TWO_SIDED|90.0|0.67|1.16||2-sided, adjusted for stratification factors at rtandomization.|Log Rank|||||1.16|0.67|0.46
92256557|NCT03057106|184415984|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0035|TWO_SIDED|95.0|0.52|0.88||2-sided, adjusted for stratification factors at randomization.|Log Rank|Adjusted for stratification factors at randomization.||||0.88|0.52|0.0035
92256558|NCT03057106|184415985|SUPERIORITY||Odds Ratio (OR)|1.69||||0.033|TWO_SIDED|95.0|1.04|2.76||2-sided, adjusted for stratification factors at randomization.|Cochran-Mantel-Haenszel|||||2.76|1.04|0.033
92256559|NCT00576147|184416035|SUPERIORITY_OR_OTHER||Percent Sensitivity|88.0|||||TWO_SIDED|95.0|75.0|95.0||||||||95.0|75.0|
92256560|NCT00576147|184416035|SUPERIORITY_OR_OTHER||Percent Specificity|90.7|||||TWO_SIDED|95.0|86.4|93.7||||||||93.7|86.4|
92256561|NCT06408818|184416082|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.06||0.69|TWO_SIDED||||||Regression, Linear|||||||0.69
92256562|NCT06408818|184416083|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.33|TWO_SIDED||||||Regression, Linear|||||||0.33
92256563|NCT06408818|184416084|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.46|TWO_SIDED||||||Regression, Linear|||||||0.46
92265324|NCT00129220|184432142|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Maximum Change from Baseline.|Wilcoxon Rank Sum|||||||0.003
92265325|NCT01883362|184432151|SUPERIORITY||Hazard Ratio (HR)|0.46||||0.2655|TWO_SIDED|95.0|0.12|1.86|||Log Rank|||||1.86|0.12|0.2655
92265326|NCT01883362|184432152|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.4297|TWO_SIDED|95.0|0.17|2.14|||Log Rank|||||2.14|0.17|0.4297
92265327|NCT01883362|184432153|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.2424|TWO_SIDED|95.0|0.2|1.52|||Log Rank|||||1.52|0.20|0.2424
92265328|NCT01883362|184432154|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.4297|TWO_SIDED|95.0|0.17|2.14|||Log Rank|||||2.14|0.17|0.4297
92256564|NCT06408818|184416085|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.06||0.46|TWO_SIDED||||||Regression, Linear|||||||0.46
92256565|NCT06408818|184416086|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.17||0.2|TWO_SIDED||||||Regression, Linear|||||||0.20
92256566|NCT06408818|184416087|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.11||0.22|TWO_SIDED||||||Regression, Linear|||||||0.22
92256567|NCT06408818|184416088|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.19||0.48|TWO_SIDED||||||Regression, Linear|||||||0.48
92256568|NCT06408818|184416089|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.69|TWO_SIDED||||||Regression, Linear|||||||0.69
92256569|NCT06408818|184416090|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used logistic regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.63||0.22|TWO_SIDED||||||Regression, Logistic|||||||0.22
92256570|NCT06408818|184416091|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used logistic regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|-0.45|STANDARD_ERROR_OF_MEAN|0.79||0.57|TWO_SIDED||||||Regression, Logistic|||||||0.57
92256571|NCT06408818|184416092|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.1||0.42|TWO_SIDED||||||Regression, Linear|||||||0.42
92256572|NCT06408818|184416093|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.45|TWO_SIDED||||||Regression, Linear|||||||0.45
92256573|NCT06408818|184416094|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.39|TWO_SIDED||||||Regression, Linear|||||||0.39
92256574|NCT02268942|184416115|OTHER|||||||0.0003|||||||Exact Binomial|||"Success at six months is estimated to be 86% compared to a performance goal of 77.5%. Using an exact binomial test, with a one-sided alpha of 0.05, and 80% Power, a sample size of 145 implanted subjects was planned.~Success will be met if the lower bound of the upper one-sided exact 95% confidence interval is greater than 77.5%."||||0.0003
92256575|NCT02268942|184416116|OTHER||||||<|0.0001|||||||t-test, 1 sided|||"The secondary endpoint is an improvement in the mean length of initial hospital stay (initial recovery and step down unit), which is calculated by considering the number of days in acute care (ICU/CCU) plus the number of days in intermediate/step-down care, comprising the total number of days post-implant to discharge.~This secondary endpoint will be calculated using an upper tail one-sided t-test at 0.05 level of significance compared to 26.1 days for median sternotomy patients."||||<0.0001
92256576|NCT00995215|184416118|OTHER|Statistical analysis was performed using a repeated measures analysis of variance and paired t-test.||||||0.05||||||A P value \<0.05 was taken as indicative of statistical significance.|ANOVA|||The effects of electrical (spinal cord stimulation) SCS with disc electrode and wire leads on airway pressure generation were compared. Since SCS with the disc leads, when applied in clinical trials, resulted in airway pressure generation that approximated pressures generated with a normal maximum cough, airway pressure generation achieved during SCS with these leads served as our gold standard to which all comparisons were made.||||0.05
92256577|NCT01332851|184416119|SUPERIORITY||Cox Proportional Hazard|2.5|||=|0.043|TWO_SIDED|95.0|1.03|6.1||We used a threshold of p \< .05 as the criterion for statistical significance.|Regression, Cox||The hazard ratio of 2.5 indicates that children with parents in the control group were 2.5 times more likely to be removed from their home and placed into foster care compared to the intervention group.|Child welfare system removals were analyzed with a survival models that used condition assignment to predict hazard of being removed from the birth parent home.||6.10|1.03|=.043
92265329|NCT01883362|184432155|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.3418|TWO_SIDED|95.0|0.19|1.79|||Log Rank|||||1.79|0.19|0.3418
92265330|NCT01883362|184432156|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.4169|TWO_SIDED|95.0|0.09|2.74|||Log Rank|||||2.74|0.09|0.4169
92265331|NCT01366846|184432278|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison of the percentage of subjects with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Avoidance After Peanut Consumption Group within the SPT-negative stratum.||||<0.001
92265332|NCT01366846|184432278|SUPERIORITY_OR_OTHER|||||||0.004|||||||Chi-squared|||Comparison of the percentage of subjects with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Avoidance After Peanut Consumption Group within the SPT-positive stratum.||||0.004
92265333|NCT01366846|184432279|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison of the percentage of participants with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Consumption Group across both the SPT-negative and SPT-positive strata.||||<0.001
92265334|NCT01366846|184432280|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison of the percentage of subjects with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Avoidance After Peanut Consumption Group within the SPT-negative stratum.||||<0.001
92256578|NCT01332851|184416120|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.94|STANDARD_ERROR_OF_MEAN|0.42|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Parents in the PFR condition were 0.94 higher on sensitivity scores (on the unstandardized sensitivity measure) across the three post-intervention time points than parents in the R\&R condition. The standard error (SE) of this difference was .42.|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline sensitivity score, months between baseline and end of intervention, and age of child at baseline.||||<.05
92256579|NCT01332851|184416121|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.03|>|0.05|TWO_SIDED||||||Mixed Models Analysis||The PFR group had a higher mean compared to the R\&R group. (the absolute value of the standardized effect is d=.15).|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline security score, months between baseline and end of intervention, and age of child at baseline||||>.05
92256580|NCT01332851|184416122|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.5|>|0.05|TWO_SIDED||||||Mixed Models Analysis||The adjusted mean across the two post-intervention time points was -.20 (SE=.50) lower in the PFR group than R\&R group. The standardized effect size was d=.04.|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline problem behavior score, months between baseline and end of intervention, and age of child at baseline.||||>.05
92256581|NCT01332851|184416123|SUPERIORITY||Mean Difference (Net)|0.41|STANDARD_ERROR_OF_MEAN|0.53|>|0.05|TWO_SIDED||||||Mixed Models Analysis||The adjusted mean across post-intervention time points was .41 (SE=.53) higher in the PFR group than the R\&R group. The standardized effect size was d=-.07|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline competence stress score, months between baseline and end of intervention, and age of child at baseline||||>.05
92256582|NCT01332851|184416124|SUPERIORITY||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.25|>|0.05|TWO_SIDED||||||Mixed Models Analysis||The PFR group had a higher mean level of social and emotional development compared to the R\&R group (the absolute value of the standardized effect is d=.10).|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline social-emotional competence score, months between baseline and end of intervention, and age of child at baseline.||||>.05
92256583|NCT01332851|184416125|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.66|>|0.05|TWO_SIDED||||||Mixed Models Analysis||The PFR group had lower mean level of problem behavior compared to the R\&R group (the absolute value of standardized effect is d= .12).|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline problem behavior score, months between baseline and end of intervention, and age of child at baseline||||>.05
92256584|NCT01332851|184416126|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Regression, Linear||Adjusted mean at 3-month post-intervention was -.07 (SE=.08) lower for PFR compared to R\&R group.|Tested mean differences by condition at 3-month follow-up controlling for baseline score, months between baseline and the end of the intervention, and age of child and using an ANVOVA/regression model. Null hypothesis was that post-intervention means were equal.||||>.05
92256585|NCT01332851|184416127|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Regression, Linear||Adjusted mean at 3-month post-intervention was -.06 (SE=.08) lower for PFR compared to R\&R group.|||||>.05
92256586|NCT01332851|184416128|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED||||||Mixed Models Analysis||The PFR group had lower atypical affective communication compared to the R\&R group (the absolute value of the standardized effect size was d=.19).|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline score, months between baseline and end of intervention, and age of child at baseline||||<.05
92284068|NCT01706926|184472071|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.21|STANDARD_ERROR_OF_MEAN|1.211|<|0.001|TWO_SIDED|95.0|-8.6|-3.82|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in swollen joint count at Day 169.||-3.82|-8.60|<0.001
92284069|NCT01706926|184472071|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.0|STANDARD_ERROR_OF_MEAN|1.219|<|0.001|TWO_SIDED|95.0|-9.4|-4.59|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in swollen joint count at Day 169.||-4.59|-9.40|<0.001
92178560|NCT02510235|184253176|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.6248|TWO_SIDED|95.0|-0.62|1.02|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline (Visit 2 - Day 1) across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||1.02|-0.62|0.6248
92178561|NCT02510235|184253177|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.6153|TWO_SIDED|95.0|-0.82|0.49|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline (Visit 2 - Day 1) across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.49|-0.82|0.6153
92178562|NCT00450216|184253178|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.8|||<|0.0001|TWO_SIDED|95.0|4.4|15.3||CMH test stratified by use of low-dose aspirin (yes/no) and prior upper gastrointestinal (UGI) ulcer history (yes/no) at randomization.|Cochran-Mantel-Haenszel|||The primary efficacy endpoint was the number of participants developing gastric ulcers throughout 24 weeks of treatment. A summary, including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of gastric ulcers at 24 weeks. The cumulative number of participants developing gastric ulcers at 24 weeks was analyzed using the Cochran-Mantel-Haenszel (CMH) test stratified by use of low-dose aspirin and prior UGI ulcer history.||15.3|4.4|<0.0001
92178563|NCT00450216|184253179|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.8|||<|0.0001|TWO_SIDED|95.0|6.1|17.6||CMH test stratified by use of low-dose aspirin (yes/no) and prior UGI ulcer history (yes/no) at randomization.|Cochran-Mantel-Haenszel|||The secondary efficacy endpoint was the number of participants developing UGI (i.e., gastric and/or duodenal) ulcers throughout 24 weeks of treatment. A summary, including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of UGI ulcers at 24 weeks. The cumulative number of participants developing UGI ulcers at 24 weeks was analyzed using the CMH test stratified by use of low-dose aspirin and prior UGI ulcer history.||17.6|6.1|<0.0001
92178564|NCT00450216|184253180|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|3.8||||0.0006|TWO_SIDED|95.0|1.0|6.8||CMH test stratified by use of low-dose aspirin (yes/no) and prior UGI ulcer history (yes/no) at randomization.|Cochran-Mantel-Haenszel|||The secondary efficacy endpoint was the number of participants developing duodenal ulcers throughout 24 weeks of treatment. A summary, including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of duodenal ulcers at 24 weeks. The cumulative number of participants developing duodenal ulcers at 24 weeks was analyzed using the CMH test stratified by use of low-dose aspirin and prio UGI ulcer history at randomization.||6.8|1.0|0.0006
92178565|NCT05525104|184253191|SUPERIORITY|||||||0.041|||||||Wilcoxon (Mann-Whitney)|||||||0.041
92178566|NCT05525104|184253192|SUPERIORITY|||||||0.066|||||||Wilcoxon (Mann-Whitney)|||||||0.066
92178567|NCT05525104|184253196|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92178568|NCT02865538|184253247|OTHER|Descriptive Analysis|LS means difference|0.09|STANDARD_ERROR_OF_MEAN|0.127||0.4641|TWO_SIDED|90.0|-0.12|0.3|||Linear mixed-effects model||Change from Week -1 to Week 1|||0.30|-0.12|0.4641
92178569|NCT02865538|184253247|OTHER|Descriptive Analysis|Linear mixed-effects model|0.0|STANDARD_ERROR_OF_MEAN|0.128||0.9894|TWO_SIDED|90.0|-0.21|0.21|||LS means difference||Change from Week -1 to Week 1|||0.21|-0.21|0.9894
92178570|NCT02865538|184253247|OTHER|Descriptive Analysis|LS means difference|-0.31|STANDARD_ERROR_OF_MEAN|0.129||0.0199|TWO_SIDED|90.0|-0.52|-0.09|||Linear mixed-effects model||Change from Week -1 to Week 1|||-0.09|-0.52|0.0199
92178571|NCT02865538|184253247|OTHER|Descriptive Analysis|LS means difference|-0.12|STANDARD_ERROR_OF_MEAN|0.133||0.3907|TWO_SIDED|90.0|-0.34|0.11|||Linear mixed-effects model||Change from Week -1 to Week 1|||0.11|-0.34|0.3907
92178572|NCT02865538|184253247|OTHER|Descriptive Analysis|LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.166||0.5393|TWO_SIDED|90.0|-0.17|0.38|||Linear mixed-effects model||Change from Week -1 to Week 2|||0.38|-0.17|0.5393
92178573|NCT02865538|184253247|OTHER|Descriptive Analysis|LS means difference|-0.04|STANDARD_ERROR_OF_MEAN|0.169||0.7931|TWO_SIDED|90.0|-0.33|0.24|||Linear mixed-effects model||Change from Week -1 to Week 2|||0.24|-0.33|0.7931
92178574|NCT02865538|184253247|OTHER|Descriptive Analysis|LS means difference|-0.63|STANDARD_ERROR_OF_MEAN|0.169||0.0004|TWO_SIDED|90.0|-0.92|-0.35|||Linear mixed-effects model||Change from Week -1 to Week 2|||-0.35|-0.92|0.0004
92178575|NCT02865538|184253247|OTHER|Descriptive Analysis|LS means difference|-0.16|STANDARD_ERROR_OF_MEAN|0.175||0.3739|TWO_SIDED|90.0|-0.45|0.13|||Linear mixed-effects model||Change from Week -1 to Week 2|||0.13|-0.45|0.3739
92256587|NCT01302691|184416133|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.1||||0.205|TWO_SIDED|95.0|-2.7|0.6|||Constrained Longitudinal Data Analysis|Model includes treatment group, time point, and the interaction of time by treatment with restriction of same baseline mean across treatment groups||||0.6|-2.7|0.205
92256588|NCT01302691|184416139|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-3.2||||0.011|TWO_SIDED|95.0|-5.7|-0.8|||Constrained Longitudinal Data Analysis|Model includes treatment group, time point, and the interaction of time by treatment with restriction of same baseline mean across treatment groups||||-0.8|-5.7|0.011
92256589|NCT03446612|184416140|OTHER||FBF ratio difference|0.6953|STANDARD_DEVIATION|0.12998|||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to acetylcholine (7.5 ug/min) is presented.|||||
92256590|NCT03446612|184416140|OTHER||FBF ratio difference|0.1683|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to acetylcholine (15 ug/min) is presented.|||||
92256591|NCT03446612|184416140|OTHER||FBF ratio difference|0.3238|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to acetylcholine (30 ug/min) is presented.|||||
92256592|NCT03446612|184416142|OTHER||FBF ratio difference|0.2968|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to sodium nitroprusside (3 ug/min) is presented.|||||
92256593|NCT03446612|184416142|OTHER||FBF ratio difference|1.4425|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to sodium nitroprusside (10 ug/min) is presented.|||||
92256594|NCT03446612|184416144|OTHER||FBF ratio difference|-0.1598|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to L-NMMA (2 umol/min) is presented.|||||
92178576|NCT02865538|184253248|OTHER|Descriptive Analysis|LS means difference|5.29|STANDARD_ERROR_OF_MEAN|3.077||0.09|TWO_SIDED|90.0|0.16|10.42|||Linear mixed-effects model||Change from Week -1 to Week 1|||10.42|0.16|0.0900
92178577|NCT02865538|184253248|OTHER|Descriptive Analysis|LS means difference|-4.46|STANDARD_ERROR_OF_MEAN|3.053||0.1487|TWO_SIDED|90.0|-9.55|0.63|||Linear mixed-effects model||Change from Week -1 to Week 1|||0.63|-9.55|0.1487
92178578|NCT02865538|184253248|OTHER|Descriptive Analysis|LS means difference|-10.18|STANDARD_ERROR_OF_MEAN|3.015||0.0012|TWO_SIDED|90.0|-15.2|-5.15|||Linear mixed-effects model||Change from Week -1 to Week 1|||-5.15|-15.20|0.0012
92256595|NCT03446612|184416144|OTHER||FBF ratio difference|-0.3715|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to L-NMMA (8 umol/min) is presented.|||||
92256596|NCT04445051|184416202|SUPERIORITY||Mean Difference (Final Values)|32.9||||0.01|TWO_SIDED|95.0|8.3|57.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||57.5|8.3|0.010
92256597|NCT04445051|184416202|SUPERIORITY||Mean Difference (Final Values)|34.3||||0.007|TWO_SIDED|95.0|9.8|58.8||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||58.8|9.8|0.007
92256598|NCT04445051|184416202|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.908|TWO_SIDED|95.0|-23.1|25.9||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||25.9|-23.1|0.908
92256599|NCT04445051|184416202|SUPERIORITY||Mean Difference (Final Values)|35.3||||0.006|TWO_SIDED|95.0|10.8|59.8||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||59.8|10.8|0.006
92256600|NCT04445051|184416202|SUPERIORITY||Mean Difference (Final Values)|36.8||||0.005|TWO_SIDED|95.0|11.9|61.8||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||61.8|11.9|0.005
92256601|NCT04445051|184416202|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.899|TWO_SIDED|95.0|-23.3|26.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||26.5|-23.3|0.899
92256602|NCT04445051|184416203|SUPERIORITY||Mean Difference (Final Values)|8.8||||0.665|TWO_SIDED|95.0|-31.9|49.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||49.6|-31.9|0.665
92265335|NCT01366846|184432280|SUPERIORITY_OR_OTHER|||||||0.027|||||||Chi-squared|||Comparison of the percentage of subjects with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Avoidance After Peanut Consumption Group within the SPT-positive stratum.||||0.027
92265336|NCT01366846|184432281|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison of the percentage of subjects with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Avoidance After Peanut Consumption Group across both the SPT-negative and SPT-positive strata.||||<0.001
92256603|NCT04445051|184416203|SUPERIORITY||Mean Difference (Final Values)|-18.1||||0.375|TWO_SIDED|95.0|-58.7|22.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||22.4|-58.7|0.375
92256604|NCT04445051|184416203|SUPERIORITY||Mean Difference (Final Values)|-27.0||||0.188|TWO_SIDED|95.0|-67.6|13.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||13.6|-67.6|0.188
92256605|NCT04445051|184416203|SUPERIORITY||Mean Difference (Final Values)|-18.6||||0.361|TWO_SIDED|95.0|-59.3|21.9||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||21.9|-59.3|0.361
92256606|NCT04445051|184416203|SUPERIORITY||Mean Difference (Final Values)|-10.9||||0.6|TWO_SIDED|95.0|-52.3|30.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||30.5|-52.3|0.600
92256607|NCT04445051|184416203|SUPERIORITY||Mean Difference (Final Values)|7.78||||0.707|TWO_SIDED|95.0|-33.5|49.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||49.0|-33.5|0.707
92256608|NCT04445051|184416204|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.615|TWO_SIDED|95.0|-1.08|0.65||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.65|-1.08|0.615
92256609|NCT04445051|184416204|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.48|TWO_SIDED|95.0|-1.17|0.56||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.56|-1.17|0.480
92256610|NCT04445051|184416204|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.839|TWO_SIDED|95.0|-0.95|0.77||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.77|-0.95|0.839
92178579|NCT02865538|184253248|OTHER|Descriptive Analysis|LS means difference|-6.14|STANDARD_ERROR_OF_MEAN|3.142||0.0548|TWO_SIDED|90.0|-11.37|-0.9|||Linear mixed-effects model||Change from Week -1 to Week 1|||-0.90|-11.37|0.0548
92178580|NCT02865538|184253248|OTHER|Descriptive Analysis|LS means difference|6.59|STANDARD_ERROR_OF_MEAN|3.337||0.0522|TWO_SIDED|90.0|1.03|12.15|||Linear mixed-effects model||Change from Week -1 to Week 2|||12.15|1.03|0.0522
92256611|NCT04445051|184416204|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.894|TWO_SIDED|95.0|-0.92|0.8||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.80|-0.92|0.894
92256612|NCT04445051|184416204|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.195|TWO_SIDED|95.0|-1.46|0.3||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.30|-1.46|0.195
92256613|NCT04445051|184416204|SUPERIORITY||Mean Difference (Final Values)|-0.52||||0.242|TWO_SIDED|95.0|-1.4|0.36||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.36|-1.40|0.242
92256614|NCT04445051|184416205|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.639|TWO_SIDED|95.0|-1.2|0.74||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.74|-1.20|0.639
92256615|NCT04445051|184416205|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.492|TWO_SIDED|95.0|-1.3|0.63||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.63|-1.30|0.492
92256616|NCT04445051|184416205|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.828|TWO_SIDED|95.0|-1.07|0.86||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.86|-1.07|0.828
92256617|NCT04445051|184416205|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.744|TWO_SIDED|95.0|-0.81|1.13||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.13|-0.81|0.744
92256618|NCT04445051|184416205|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.208|TWO_SIDED|95.0|-1.62|0.36||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.36|-1.62|0.208
92256619|NCT04445051|184416205|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.116|TWO_SIDED|95.0|-1.77|0.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.20|-1.77|0.116
92256620|NCT04445051|184416206|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.798|TWO_SIDED|95.0|-0.75|0.96||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.96|-0.75|0.798
92256621|NCT04445051|184416206|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.556|TWO_SIDED|95.0|-1.1|0.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.60|-1.10|0.556
92284070|NCT01706926|184472071|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.24|STANDARD_ERROR_OF_MEAN|1.922|<|0.001|TWO_SIDED|95.0|-11.02|-3.45|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in tender joint count at Day 169.||-3.45|-11.02|<0.001
92178581|NCT02865538|184253248|OTHER|Descriptive Analysis|LS means difference|-5.07|STANDARD_ERROR_OF_MEAN|3.329||0.1326|TWO_SIDED|90.0|-10.61|0.48|||Linear mixed-effects model||Change from Week -1 to Week 2|||0.48|-10.61|0.1326
92178582|NCT02865538|184253248|OTHER|Descriptive Analysis|LS means difference|-12.28|STANDARD_ERROR_OF_MEAN|3.27||0.0004|TWO_SIDED|90.0|-17.73|-6.83|||Linear mixed-effects model||Change from Week -1 to Week 2|||-6.83|-17.73|0.0004
92256622|NCT04445051|184416206|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.399|TWO_SIDED|95.0|-1.21|0.49||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.49|-1.21|0.399
92178583|NCT02865538|184253248|OTHER|Descriptive Analysis|LS means difference|-7.79|STANDARD_ERROR_OF_MEAN|3.408||0.0253|TWO_SIDED|90.0|-13.47|-2.11|||Linear mixed-effects model||Change from Week -1 to Week 2|||-2.11|-13.47|0.0253
92178584|NCT02865538|184253249|OTHER|Descriptive Analysis|LS means difference|1.4|STANDARD_ERROR_OF_MEAN|1.58||0.3796|TWO_SIDED|90.0|-1.2|4.0|||Linear mixed-effects model||Day 7 Change from Day -1|||4.0|-1.2|0.3796
92178585|NCT02865538|184253249|OTHER|Descriptive Analysis|LS means difference|-2.3|STANDARD_ERROR_OF_MEAN|1.55||0.1413|TWO_SIDED|90.0|-4.9|0.3|||Linear mixed-effects model||Day 7 Change from Day -1|||0.3|-4.9|0.1413
92256623|NCT04445051|184416206|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.198|TWO_SIDED|95.0|-0.3|1.41||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.41|-0.30|0.198
92256624|NCT04445051|184416206|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.365|TWO_SIDED|95.0|-1.27|0.48||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.48|-1.27|0.365
92256625|NCT04445051|184416206|SUPERIORITY||Mean Difference (Final Values)|-0.95||||0.033|TWO_SIDED|95.0|-1.82|-0.08||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||-0.08|-1.82|0.033
92256626|NCT04445051|184416207|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.882|TWO_SIDED|95.0|-0.83|0.96||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.96|-0.83|0.882
92256627|NCT04445051|184416207|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.478|TWO_SIDED|95.0|-1.21|0.57||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.57|-1.21|0.478
92256628|NCT04445051|184416207|SUPERIORITY||Mean Difference (Final Values)|-0.38||||0.391|TWO_SIDED|95.0|-1.27|0.51||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.51|-1.27|0.391
92256629|NCT04445051|184416207|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.657|TWO_SIDED|95.0|-0.69|1.09||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.09|-0.69|0.657
92256630|NCT04445051|184416207|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.125|TWO_SIDED|95.0|-1.62|0.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.20|-1.62|0.125
92256631|NCT04445051|184416207|SUPERIORITY||Mean Difference (Final Values)|-0.91||||0.051|TWO_SIDED|95.0|-1.81|0.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.00|-1.81|0.051
92256632|NCT04445051|184416208|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.877|TWO_SIDED|95.0|-0.83|0.97||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.97|-0.83|0.877
92256633|NCT04445051|184416208|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.351|TWO_SIDED|95.0|-1.31|0.47||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.47|-1.31|0.351
92256634|NCT04445051|184416208|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.278|TWO_SIDED|95.0|-1.38|0.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.40|-1.38|0.278
92256635|NCT04445051|184416208|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.711|TWO_SIDED|95.0|-0.73|1.06||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.06|-0.73|0.711
92284071|NCT01706926|184472071|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.45|STANDARD_ERROR_OF_MEAN|1.884|<|0.001|TWO_SIDED|95.0|-12.16|-4.74|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in tender joint count at Day 169.||-4.74|-12.16|<0.001
92284072|NCT01706926|184472071|SUPERIORITY_OR_OTHER||Adjusted mean difference|-10.42|STANDARD_ERROR_OF_MEAN|1.901|<|0.001|TWO_SIDED|95.0|-14.17|-6.67|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in tender joint count at Day 169.||-6.67|-14.17|<0.001
92256636|NCT04445051|184416208|SUPERIORITY||Mean Difference (Final Values)|-1.06||||0.024|TWO_SIDED|95.0|-1.97|-0.15||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||-0.15|-1.97|0.024
92256637|NCT04445051|184416208|SUPERIORITY||Mean Difference (Final Values)|-1.23||||0.009|TWO_SIDED|95.0|-2.14|-0.31||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||-0.31|-2.14|0.009
92265337|NCT01366846|184432282|SUPERIORITY_OR_OTHER|||||||0.25|||||||Exact McNemar|||Comparison of the percentage of subjects with peanut allergy in the Peanut Avoidance After Peanut Consumption Group at month 60 to that of the Peanut Avoidance After Peanut Consumption Group at month 72 across both the SPT-negative and SPT-positive strata.||||0.250
92265338|NCT01366846|184432283|SUPERIORITY_OR_OTHER|||||||0.25|||||||Exact McNemar|||Comparison of the percentage of subjects with peanut allergy in the Peanut Avoidance After Peanut Consumption Group at month 60 to that of the Peanut Avoidance After Peanut Consumption Group at month 72 across both the SPT-negative and SPT-positive strata.||||0.250
92178586|NCT02865538|184253249|OTHER|Descriptive Analysis|LS means difference|-5.5|STANDARD_ERROR_OF_MEAN|1.55||0.0007|TWO_SIDED|90.0|-8.1|-2.9|||Linear mixed-effects model||Day 7 Change from Day -1|||-2.9|-8.1|0.0007
92178587|NCT02865538|184253249|OTHER|Descriptive Analysis|LS means difference|-3.1|STANDARD_ERROR_OF_MEAN|1.62||0.0624|TWO_SIDED|90.0|-5.8|-0.4|||Linear mixed-effects model||Day 7 Change from Day -1|||-0.4|-5.8|0.0624
92178588|NCT02865538|184253249|OTHER|Descriptive Analysis|LS means difference|1.3|STANDARD_ERROR_OF_MEAN|1.21||0.293|TWO_SIDED|90.0|-0.7|3.3|||Linear mixed-effects model||Day 14 Change from Day -1|||3.3|-0.7|0.2930
92178589|NCT02865538|184253249|OTHER|Descriptive Analysis|LS means difference|-2.4|STANDARD_ERROR_OF_MEAN|1.21||0.0512|TWO_SIDED|90.0|-4.4|-0.4|||Linear mixed-effects model||Day 14 Change from Day -1|||-0.4|-4.4|0.0512
92178590|NCT02865538|184253249|OTHER|Descriptive Analysis|LS means difference|-5.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|90.0|-7.0|-3.0|||Linear mixed-effects model||Day 14 Change from Day -1|||-3.0|-7.0|<0.0001
92178591|NCT02865538|184253249|OTHER|Descriptive Analysis|LS means difference|-3.4|STANDARD_ERROR_OF_MEAN|1.25||0.008|TWO_SIDED|90.0|-5.5|-1.3|||Linear mixed-effects model||Day 14 Change from Day -1|||-1.3|-5.5|0.0080
92256638|NCT05083949|184416235|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|99.57|STANDARD_DEVIATION|5.23||0.7792|TWO_SIDED|90.0|97.03|102.19|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||102.19|97.03|0.7792
92178592|NCT02865538|184253250|OTHER|Descriptive Analysis|LS means difference|0.84|STANDARD_ERROR_OF_MEAN|0.574||0.1482|TWO_SIDED|90.0|-0.12|1.8|||Linear mixed-effects model||Change from Week -1 to Week 1|||1.80|-0.12|0.1482
92265339|NCT04311411|184432305|SUPERIORITY||Median Difference (Final Values)|-534.11|||<|0.0001|TWO_SIDED|95.0|-668.2|-400.02|||ANCOVA|||||-400.02|-668.20|<.0001
92178593|NCT02865538|184253250|OTHER|Descriptive Analysis|LS means difference|-1.04|STANDARD_ERROR_OF_MEAN|0.571||0.0734|TWO_SIDED|90.0|-1.99|-0.09|||Linear mixed-effects model||Change from Week -1 to Week 1|||-0.09|-1.99|0.0734
92265340|NCT04311411|184432306|SUPERIORITY||Median Difference (Final Values)|0.0439||||0.5437|TWO_SIDED|95.0|-0.0994|0.1871|||Mixed Models Analysis|||Insula||0.1871|-0.0994|0.5437
92265341|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|0.093||||0.1806|TWO_SIDED|95.0|-0.0441|0.2301|||Mixed Models Analysis|||Insula||0.2301|-0.0441|0.1806
92178594|NCT02865538|184253250|OTHER|Descriptive Analysis|LS means difference|-1.8|STANDARD_ERROR_OF_MEAN|0.565||0.0022|TWO_SIDED|90.0|-2.74|-0.86|||Linear mixed-effects model||Change from Week -1 to Week 1|||-0.86|-2.74|0.0022
92178595|NCT02865538|184253250|OTHER|Descriptive Analysis|LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.589||0.066|TWO_SIDED|90.0|-2.08|-0.12|||Linear mixed-effects model||Change from Week -1 to Week 1|||-0.12|-2.08|0.0660
92178596|NCT02865538|184253250|OTHER|Descriptive Analysis|LS means difference|1.18|STANDARD_ERROR_OF_MEAN|0.613||0.0593|TWO_SIDED|90.0|0.15|2.2|||Linear mixed-effects model||||Change from Week -1 to Week 2|2.20|0.15|0.0593
92178597|NCT02865538|184253250|OTHER||LS means difference|-0.93|STANDARD_ERROR_OF_MEAN|0.614||0.1354|TWO_SIDED|90.0|-1.95|0.1|||Linear mixed-effects model||Change from Week -1 to Week 2|||0.10|-1.95|0.1354
92256639|NCT05083949|184416236|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|101.36|STANDARD_DEVIATION|10.18||0.6493|TWO_SIDED|90.0|96.39|106.59|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||106.59|96.39|0.6493
92256640|NCT05083949|184416237|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|101.63|STANDARD_DEVIATION|7.65||0.471|TWO_SIDED|90.0|97.85|105.55|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis of the was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||105.55|97.85|0.4710
92256641|NCT05083949|184416238|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|98.11|STANDARD_DEVIATION|8.14||0.4251|TWO_SIDED|90.0|94.24|102.15|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||102.15|94.24|0.4251
92256642|NCT05083949|184416239|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|99.49|STANDARD_DEVIATION|5.25||0.7379|TWO_SIDED|90.0|96.93|102.11|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||102.11|96.93|0.7379
92265342|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|-0.0491||||0.472|TWO_SIDED|95.0|-0.1846|0.0863|||Mixed Models Analysis|||Insula||0.0863|-0.1846|0.4720
92265343|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|-0.0011||||0.9842|TWO_SIDED|95.0|-0.1079|0.1058|||Mixed Models Analysis|||Medial frontal gyrus||0.1058|-0.1079|0.9842
92265344|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|0.0077||||0.8822|TWO_SIDED|95.0|-0.0949|0.1102|||Mixed Models Analysis|||Medial frontal gyrus||0.1102|-0.0949|0.8822
92178598|NCT02865538|184253250|OTHER|Descriptive Analysis|LS means difference|-2.2|STANDARD_ERROR_OF_MEAN|0.603||0.0005|TWO_SIDED|90.0|-3.21|-1.2|||Linear mixed-effects model||Change from Week -1 to Week 2|||-1.20|-3.21|0.0005
92178599|NCT02865538|184253250|OTHER|Descriptive Analysis|LS means difference|-1.38|STANDARD_ERROR_OF_MEAN|0.628||0.0309|TWO_SIDED|90.0|-2.43|-0.34|||Linear mixed-effects model||Change from Week -1 to Week 2|||-0.34|-2.43|0.0309
92178600|NCT02865538|184253251|OTHER|Descriptive analysis|LS means difference|-9.7|STANDARD_ERROR_OF_MEAN|10.88||0.3768|TWO_SIDED|90.0|-27.8|8.5|||Linear mixed-effects model||Change from Day -1 to Day 1|||8.5|-27.8|0.3768
92178601|NCT02865538|184253251|OTHER|Descriptive analysis|LS means difference|-25.0|STANDARD_ERROR_OF_MEAN|10.89||0.0248|TWO_SIDED|90.0|-43.1|-6.8|||Linear mixed-effects model||Change from Day -1 to Day 1|||-6.8|-43.1|0.0248
92178602|NCT02865538|184253251|OTHER|Descriptive analysis|LS means difference|-43.9|STANDARD_ERROR_OF_MEAN|10.9||0.0001|TWO_SIDED|90.0|-62.1|-25.8|||Linear mixed-effects model||Change from Day -1 to Day 1|||-25.8|-62.1|0.0001
92178603|NCT02865538|184253251|OTHER|Descriptive analysis|LS means difference|-42.9|STANDARD_ERROR_OF_MEAN|11.43||0.0004|TWO_SIDED|90.0|-61.9|-23.8|||Linear mixed-effects model||Change from Day -1 to Day 1|||-23.8|-61.9|0.0004
92178604|NCT02865538|184253251|OTHER|Descriptive analysis|LS means difference|10.4|STANDARD_ERROR_OF_MEAN|14.76||0.4819|TWO_SIDED|90.0|-14.2|35.1|||Linear mixed-effects model||Change from Day -1 to Day 7|||35.1|-14.2|0.4819
92178605|NCT02865538|184253251|OTHER|Descriptive analysis|LS means difference|-2.4|STANDARD_ERROR_OF_MEAN|14.77||0.8694|TWO_SIDED|90.0|-27.1|22.2|||Linear mixed-effects model||Change from Day -1 to Day 7|||22.2|-27.1|0.8694
92284073|NCT01706926|184472072|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.94|STANDARD_ERROR_OF_MEAN|3.95||0.045|TWO_SIDED|95.0|-15.72|-0.17|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.17|-15.72|0.045
92256643|NCT05083949|184416240|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|101.24|STANDARD_DEVIATION|7.82||0.5895|TWO_SIDED|90.0|97.4|105.24|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||105.24|97.40|0.5895
92284074|NCT01706926|184472072|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.11|STANDARD_ERROR_OF_MEAN|3.876||0.037|TWO_SIDED|95.0|-15.73|-0.48|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.48|-15.73|0.037
92178606|NCT02865538|184253251|OTHER|Descriptive analysis|LS means difference|-23.9|STANDARD_ERROR_OF_MEAN|14.79||0.1105|TWO_SIDED|90.0|-48.6|0.7|||Linear mixed-effects model||Change from Day -1 to Day 7|||0.7|-48.6|0.1105
92178607|NCT02865538|184253251|OTHER|Descriptive analysis|LS means difference|-18.4|STANDARD_ERROR_OF_MEAN|15.5||0.239|TWO_SIDED|90.0|-44.2|7.4|||Linear mixed-effects model||Change from Day -1 to Day 7|||7.4|-44.2|0.2390
92178608|NCT06149338|184253252|SUPERIORITY|||||||0.0002||||||Threshold for statistical significance: p \< 0.05|Chi-squared|||||||0.0002
92178609|NCT06149338|184253252|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92178610|NCT06149338|184253253|SUPERIORITY||||||<|0.0001||||||Threshold for statistical significance: p \< 0.05|Kruskal-Wallis|||||||< 0.0001
92178611|NCT06149338|184253254|SUPERIORITY|||||||0.0041||||||Threshold for statistical significance: p \< 0.05|Chi-squared|||||||0.0041
92178612|NCT06149338|184253254|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92178613|NCT06149338|184253255|SUPERIORITY|||||||0.7895||||||Threshold for statistical significance: p \< 0.05|Kruskal-Wallis|||||||0.7895
92265345|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|-0.0087||||0.8657|TWO_SIDED|95.0|-0.1111|0.0937|||Mixed Models Analysis|||Medial frontal gyrus||0.0937|-0.1111|0.8657
92265346|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|0.0043||||0.9599|TWO_SIDED|95.0|-0.165|0.1736|||Mixed Models Analysis|||Superior temporal gyrus||0.1736|-0.1650|0.9599
92182783|NCT02609048|184264686|SUPERIORITY||Difference in LSM|-8.13|STANDARD_ERROR_OF_MEAN|3.992||0.0504|TWO_SIDED|95.0|-16.27|0.02||Difference between means,p-value,and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline TC assessment as covariate,and percent change from baseline in TC as the response variable.|ANCOVA|||||0.02|-16.27|0.0504
92265347|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|0.0489||||0.549|TWO_SIDED|95.0|-0.1129|0.2107|||Mixed Models Analysis|||Superior temporal gyrus||0.2107|-0.1129|0.5490
92182784|NCT02609048|184264686|SUPERIORITY||Difference in LSM|-7.99|STANDARD_ERROR_OF_MEAN|4.317||0.0738|TWO_SIDED|95.0|-16.8|0.81||Difference between means,p-value,and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor, baseline TC assessment as covariate,and percent change from baseline in TC as the response variable.|ANCOVA|||||0.81|-16.80|0.0738
92265348|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|-0.0446||||0.5854|TWO_SIDED|95.0|-0.2068|0.1176|||Mixed Models Analysis|||Superior temporal gyrus||0.1176|-0.2068|0.5854
92256644|NCT01678560|184416249|OTHER|Exact Fisher test was used on the collected information from the limited population|Fisher exact test statistic value|1.0|||<|0.01|TWO_SIDED|||||Hypothesis: Active continuous monitoring of PAP treatment in OSA will result in improved adherence at 90 days Exact Fisher test was used on the collected information from the limited population.|Fisher Exact|Exact Fisher test was used on the information from the limited population.||PAP devices delivery to the patients was outsourced by the institution eliminating the point of recruitment for the study at our department. The recruitment was halted and the study proceeded with the follow-up of already recruited patients. As a result of the limited recruitment, planned statistical data analysis was not performed on the primary outcomes due to the smaller then expected number of subjects (expected 110 subjects in the Usual arm and 110 subjects in the Wireless arm.|Exact Fisher test was used on the collected information from the limited population.|||<0.01
92265349|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|-0.0192||||0.7203|TWO_SIDED|95.0|-0.1259|0.0874|||Mixed Models Analysis|||Precentral gyrus||0.0874|-0.1259|0.7203
92265350|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|0.0404||||0.433|TWO_SIDED|95.0|-0.0617|0.1425|||Mixed Models Analysis|||Precentral gyrus||0.1425|-0.0617|0.4330
92265351|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|-0.0596||||0.2488|TWO_SIDED|95.0|-0.1619|0.0426|||Mixed Models Analysis|||Precentral gyrus||0.0426|-0.1619|0.2488
92265352|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|-0.007||||0.8886|TWO_SIDED|95.0|-0.1059|0.0919|||Mixed Models Analysis|||Cingulate gyrus||0.0919|-0.1059|0.8886
92178614|NCT06946888|184253256|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.837||||||This is the first week of tracking. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.837
92178615|NCT06946888|184253256|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.428||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.428
92178616|NCT06946888|184253256|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.269||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.269
92178617|NCT06946888|184253256|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.015||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.015
92284075|NCT01706926|184472072|SUPERIORITY_OR_OTHER||Adjusted mean difference|-11.32|STANDARD_ERROR_OF_MEAN|3.899||0.004|TWO_SIDED|95.0|-19.0|-3.65|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-3.65|-19.00|0.004
92284076|NCT01706926|184472073|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.85|STANDARD_ERROR_OF_MEAN|4.137||0.837|TWO_SIDED|95.0|-8.99|7.29|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||7.29|-8.99|0.837
92284077|NCT01706926|184472073|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.19|STANDARD_ERROR_OF_MEAN|4.058||0.589|TWO_SIDED|95.0|-10.18|5.79|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||5.79|-10.18|0.589
92284078|NCT01706926|184472073|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.48|STANDARD_ERROR_OF_MEAN|4.083||0.18|TWO_SIDED|95.0|-13.52|2.55|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||2.55|-13.52|0.180
92284079|NCT01706926|184472074|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.41|STANDARD_ERROR_OF_MEAN|0.397|<|0.001|TWO_SIDED|95.0|-2.2|-0.63|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.63|-2.20|<0.001
92284080|NCT01706926|184472074|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.46|STANDARD_ERROR_OF_MEAN|0.389|<|0.001|TWO_SIDED|95.0|-2.23|-0.69|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.69|-2.23|<0.001
92284081|NCT01706926|184472074|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.56|STANDARD_ERROR_OF_MEAN|0.391|<|0.001|TWO_SIDED|95.0|-2.33|-0.79|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.79|-2.33|<0.001
92284082|NCT01706926|184472075|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.108||0.479|TWO_SIDED|95.0|-0.29|0.14|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||0.14|-0.29|0.479
92256645|NCT01678560|184416250|OTHER|Exact Fisher test was used on the collected information from the limited population|Fisher exact test statistic value|1.0|||<|0.01|TWO_SIDED|||||"Hypothesis: Active continuous monitoring of PAP treatment in OSA (Wireless group) will result in improved adherence at 90 days compared to Usual Group.~Exact Fisher test was used on the collected information from the limited population."|Fisher Exact|Exact Fisher test was used on the information from the limited population||CPAP devices delivery to the patients was outsourced by the institution eliminating the point of recruitment for the study at our department The recruitment was halted and the study proceeded with the follow-up of already recruited patients. As a result of the limited recruitment, planned statistical data analysis was not performed on the primary outcomes due to the smaller then expected number of subjects (expected 110 subjects in the Usual arm and 110 subjects in the Wireless arm|Exact Fisher test was used on the collected information from the limited population|||<0.01
92178618|NCT06946888|184253256|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.163||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.163
92178619|NCT06946888|184253256|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.14||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.140
92178620|NCT06946888|184253256|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.079||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.079
92182785|NCT02609048|184264687|SUPERIORITY||Difference in LSM|-17.39|STANDARD_ERROR_OF_MEAN|5.848||0.0057|TWO_SIDED|95.0|-29.32|-5.46||Difference between means,p-value,and CIs estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline HDL-C assessment as covariate,and percent change from baseline in HDL-C as response variable.|ANCOVA|||||-5.46|-29.32|0.0057
92265353|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|0.0684||||0.1563|TWO_SIDED|95.0|-0.0267|0.1635|||Mixed Models Analysis|||Cingulate gyrus||0.1635|-0.0267|0.1563
92182786|NCT02609048|184264687|SUPERIORITY||Difference in LSM|-0.89|STANDARD_ERROR_OF_MEAN|5.378||0.8703|TWO_SIDED|95.0|-11.85|10.08||Difference between means,p-value,and CIs estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline HDL-C assessment as covariate,and percent change from baseline in HDL-C as response variable.|ANCOVA|||||10.08|-11.85|0.8703
92265354|NCT04311411|184432306|SUPERIORITY||Mean Difference (Final Values)|-0.0754||||0.1182|TWO_SIDED|95.0|-0.1704|0.0196|||Mixed Models Analysis|||Cingulate gyrus||0.0196|-0.1704|0.1182
92256646|NCT01678560|184416251|OTHER|Exact Fisher test was used on the collected information from the limited population|Estimation Parameter Other[Fisher exact|1.0|||<|0.01|TWO_SIDED|||||Hypothesis - Number of patients effectively treated with the PAP will be higher in the Wireless Group compared to the Usual Group Exact Fisher test was used on the collected information from the limited population.|Fisher Exact|||CPAP devices delivery to the patients was outsourced by the institution eliminating the point of recruitment for the study at our department The recruitment was halted and the study proceeded with the follow-up of already recruited patients. As a result of the limited recruitment, planned statistical data analysis was not performed on the primary outcomes due to the smaller then expected number of subjects (expected 110 subjects in the Usual arm and 110 subjects in the Wireless arm.||||<0.01
92256647|NCT01678560|184416252|OTHER|Exact Fisher test was used on the collected information from the limited population|Other[Fisher exact test statistic value]|0.0286|||<|0.01|TWO_SIDED|||||Hypothesis - PAP treatment Adherence in the first 3 months of treatment predicts the PAP treatment Adherence in the next 9 months of treatment Exact Fisher test was used on the collected information from the limited population|Fisher Exact||Exact Fisher test was used on the collected information from the limited population.|Exact Fisher test was used on the collected information from the limited population|Exact Fisher test was used on the collected information from the limited population.|||<0.01
92256648|NCT01678560|184416253|OTHER|Exact Fisher test was used on the collected information from the limited population|Exact Fisher test|0.0039|||<|0.01|TWO_SIDED|||||"Hypothesis: Patients with the higher AHI are more likely to become adherent to the PAP therapy.~Exact Fisher test was used on the collected information from the limited population"|Fisher Exact|Exact Fisher test was used on the collected information from the limited population||Exact Fisher test was used on the collected information from the limited population|Exact Fisher test was used on the collected information from the limited population|||<0.01
92265355|NCT04311411|184432307|SUPERIORITY||Mean Difference (Final Values)|20.57|||<|0.0001|TWO_SIDED|95.0|12.11|29.02|||Mixed Models Analysis|||Fasting (Pre-lunch)||29.02|12.11|<.0001
92265356|NCT04311411|184432307|SUPERIORITY||Mean Difference (Final Values)|6.63||||0.1097|TWO_SIDED|95.0|-1.53|14.79||Fasting|Mixed Models Analysis|||Fasting (Pre-lunch)||14.79|-1.53|0.1097
92265357|NCT04311411|184432307|SUPERIORITY||Mean Difference (Final Values)|13.94||||0.0015|TWO_SIDED|95.0|5.49|22.38|||Mixed Models Analysis|||Fasting (Pre-lunch)||22.38|5.49|0.0015
92178621|NCT06946888|184253256|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.151||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.151
92256649|NCT00126425|184416286|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44|||=|0.004|TWO_SIDED|95.0|0.23|0.83||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader A readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.83|0.23|=0.004
92256650|NCT00126425|184416286|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44|||=|0.004|TWO_SIDED|95.0|0.23|0.84||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader B readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.84|0.23|=0.004
92284083|NCT01706926|184472075|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.106||0.124|TWO_SIDED|95.0|-0.37|0.04|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||0.04|-0.37|0.124
92284084|NCT01706926|184472075|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.107||0.017|TWO_SIDED|95.0|-0.47|-0.05|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.05|-0.47|0.017
92284085|NCT01706926|184472076|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.64||||0.017|TWO_SIDED|95.0|0.45|0.92|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.92|0.45|0.017
92284086|NCT01706926|184472076|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.46|||<|0.001|TWO_SIDED|95.0|0.32|0.66|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.66|0.32|<0.001
92284087|NCT01706926|184472076|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.44|||<|0.001|TWO_SIDED|95.0|0.31|0.63|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.63|0.31|<0.001
92284088|NCT01706926|184472077|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.72||||0.003|TWO_SIDED|95.0|0.58|0.89|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.89|0.58|0.003
92182787|NCT02609048|184264687|SUPERIORITY||Difference in LSM|-16.51|STANDARD_ERROR_OF_MEAN|5.781||0.0076|TWO_SIDED|95.0|-28.3|-4.71||Difference between means,p-value,and CIs estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline HDL-C assessment as covariate,and percent change from baseline in HDL-C as response variable.|ANCOVA|||||-4.71|-28.30|0.0076
92284089|NCT01706926|184472077|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.68|||<|0.001|TWO_SIDED|95.0|0.55|0.84|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.84|0.55|<0.001
92284090|NCT01706926|184472077|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.61|||<|0.001|TWO_SIDED|95.0|0.49|0.75|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.75|0.49|<0.001
92284091|NCT01706926|184472078|SUPERIORITY_OR_OTHER||Percent difference|4.9||||0.21|TWO_SIDED|95.0|-0.8|10.7|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||10.7|-0.8|0.210
92284092|NCT01706926|184472078|SUPERIORITY_OR_OTHER||Percent difference|1.1||||1|TWO_SIDED|95.0|-2.9|5.1|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||5.1|-2.9|1.000
92284093|NCT01706926|184472078|SUPERIORITY_OR_OTHER||Percent difference|3.8||||0.207|TWO_SIDED|95.0|-1.6|9.2|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||9.2|-1.6|0.207
92284094|NCT01706926|184472079|SUPERIORITY_OR_OTHER||Percent difference|4.9||||0.21|TWO_SIDED|95.0|-0.8|10.7|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||10.7|-0.8|0.210
92256651|NCT00126425|184416286|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44|||=|0.004|TWO_SIDED|95.0|0.23|0.84||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader C readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.84|0.23|=0.004
92256652|NCT01316380|184416287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.036||0.0005||95.0|0.057|0.199||Step-wise testing for the two treatment groups for the primary endpoint, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.025 (one-sided) for primary endpoint.|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.199|0.057|0.0005
92256653|NCT01316380|184416287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.088|0.23||Step-wise testing for the two treatment groups for the primary endpoint, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.025 (one-sided) for the primary endpoint.|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Tio R2.5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.230|0.088|<0.0001
92182788|NCT02609048|184264688|SUPERIORITY||Difference in LSM|-14.85|STANDARD_ERROR_OF_MEAN|5.981||0.0186|TWO_SIDED|95.0|-27.05|-2.66||Difference between means,p-value, and CIs estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline LDL-C assessment as covariate,and percent change from baseline in LDL-C as response variable.|ANCOVA|||||-2.66|-27.05|0.0186
92256654|NCT01316380|184416288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.037||0.001||95.0|0.049|0.194||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.194|0.049|0.001
92256655|NCT01316380|184416288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.037||0.0028||95.0|0.038|0.182||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R2.5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.182|0.038|0.0028
92256656|NCT01316380|184416289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.042||0.1714||95.0|-0.025|0.14||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.140|-0.025|0.1714
92265358|NCT04311411|184432307|SUPERIORITY||Mean Difference (Final Values)|2.25||||0.4469|TWO_SIDED|95.0|-3.6|8.09|||Mixed Models Analysis|||Postprandial (Post-lunch)||8.09|-3.60|0.4469
92178622|NCT06946888|184253257|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.63||||||This is the first week of tracking. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.63
92178623|NCT06946888|184253257|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.608||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.608
92182789|NCT02609048|184264688|SUPERIORITY||Difference in LSM|-10.06|STANDARD_ERROR_OF_MEAN|5.448||0.0745|TWO_SIDED|95.0|-21.17|1.06||Difference between means,p-value, and CIs estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline LDL-C assessment as covariate,and percent change from baseline in LDL-C as response variable.|ANCOVA|||||1.06|-21.17|0.0745
92265359|NCT04311411|184432307|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.8227|TWO_SIDED|95.0|-5.02|6.31|||Mixed Models Analysis|||Postprandial (Post-lunch)||6.31|-5.02|0.8227
92178624|NCT06946888|184253257|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.244||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.244
92178625|NCT06946888|184253257|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.052||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.052
92178626|NCT06946888|184253257|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.229||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.229
92178627|NCT06946888|184253257|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.184||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.184
92178628|NCT06946888|184253257|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.148||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.148
92178629|NCT06946888|184253257|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.143||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.143
92182790|NCT02609048|184264688|SUPERIORITY||Difference in LSM|-4.8|STANDARD_ERROR_OF_MEAN|5.785||0.4131|TWO_SIDED|95.0|-16.6|7.0||Difference between means,p-value, and CIs estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline LDL-C assessment as covariate,and percent change from baseline in LDL-C as response variable.|ANCOVA|||||7.00|-16.60|0.4131
92182791|NCT02609048|184264689|SUPERIORITY|||||||0.4667||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.4667
92256657|NCT01316380|184416289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.042||0.0119||95.0|0.023|0.188||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R2.5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.188|0.023|0.0119
92256658|NCT01316380|184416290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.034||0.0003||95.0|0.058|0.192||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.192|0.058|0.0003
92256659|NCT01316380|184416290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.149|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.082|0.216||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R2.5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.216|0.082|<0.0001
92256660|NCT01316380|184416291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.039||0.1182||95.0|-0.016|0.138||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.138|-0.016|0.1182
92256661|NCT01316380|184416291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.039||0.0102||95.0|0.024|0.178||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R2.5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.178|0.024|0.0102
92256662|NCT01316380|184416293|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.25||||0.2155||95.0|0.03|2.24||Significance level of alpha=0.05 (two-sided). P-values serve an exploratory function only.|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|Since the percent patients with event is less than 50% the median is not calculable, but Hazard Ratio is still estimable from the Cox model.||2.24|0.03|0.2155
92256663|NCT01316380|184416293|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.53||||0.5071||95.0|0.43|5.44||Significance level of alpha=0.05 (two-sided). P-values serve an exploratory function only.|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|Since the percent patients with event is less than 50% the median is not calculable, but Hazard Ratio is still estimable from the Cox model.||5.44|0.43|0.5071
92256664|NCT01316380|184416294|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.1217||95.0|0.29|1.16||Significance level of alpha=0.05 (two-sided). P-values serve an exploratory function only.|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|Since only 22 of the 155 patients in the placebo group, 21 of the 154 patients in the Tio R2.5 group and 13 of the 155 patients in the Tio R5 group had asthma exacerbations, the median times were not calculable (nc).||1.16|0.29|0.1217
92256665|NCT01316380|184416294|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.8974||95.0|0.53|1.75||Significance level of alpha=0.05 (two-sided). P-values serve an exploratory function only.|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|Since only 22 of the 155 patients in the placebo group, 21 of the 154 patients in the Tio R2.5 group and 13 of the 155 patients in the Tio R5 group had asthma exacerbations, the median times were not calculable (nc). The Hazard Ratio is still estimable from the Cox model.||1.75|0.53|0.8974
92256666|NCT01316380|184416295|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.222|STANDARD_ERROR_OF_MEAN|0.129||0.0872|TWO_SIDED|95.0|-0.032|0.476||p-values serve an exploratory function only|Mixed Models Analysis||Tio R2.5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used.||0.476|-0.032|0.0872
92256667|NCT01316380|184416295|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.033|STANDARD_ERROR_OF_MEAN|0.129||0.7995|TWO_SIDED|95.0|-0.287|0.221||p-values serve an exploratory function only|Mixed Models Analysis||Tio R5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used.||0.221|-0.287|0.7995
92256668|NCT01316380|184416296|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.097|STANDARD_ERROR_OF_MEAN|0.076||0.2038|TWO_SIDED|95.0|-0.053|0.247||p-values serve an exploratory function only|Mixed Models Analysis||Tio R2.5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.||0.247|-0.053|0.2038
92182792|NCT02609048|184264689|SUPERIORITY|||||||0.4667||||||Fisher's exact test between Seladelpar 200 mg versus 50 mg was used to obtain the p-value.|Fisher Exact|||||||0.4667
92256669|NCT01316380|184416296|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.009|STANDARD_ERROR_OF_MEAN|0.076||0.9104|TWO_SIDED|95.0|-0.158|0.141||p-values serve an exploratory function only|Mixed Models Analysis||Tio R5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used.||0.141|-0.158|0.9104
92182793|NCT02609048|184264690|SUPERIORITY|||||||0.0824||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0824
92256670|NCT01316380|184416297|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.131|STANDARD_ERROR_OF_MEAN|0.068||0.0559|TWO_SIDED|95.0|-0.003|0.265||p-values serve an exploratory function only|Mixed Models Analysis||Tio R2.5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used.||0.265|-0.003|0.0559
92182794|NCT02609048|184264690|SUPERIORITY|||||||0.0537||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0537
92182795|NCT02609048|184264690|SUPERIORITY|||||||1||||||Fisher's exact test between Seladelpar 200 mg versus 50 mg was used to obtain the p-value.|Fisher Exact|||||||1.0000
92178630|NCT06946888|184253258|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.333||||||This is the first week of tracking. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.333
92178631|NCT06946888|184253258|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.273||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.273
92178632|NCT06946888|184253258|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.424||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.424
92178633|NCT06946888|184253258|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.482||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.482
92178634|NCT06946888|184253258|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.627||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.627
92178635|NCT06946888|184253258|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.806||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.806
92178636|NCT06946888|184253258|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.786||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.786
92182796|NCT02609048|184264691|SUPERIORITY|||||||0.0101||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0101
92182797|NCT02609048|184264691|SUPERIORITY|||||||0.0198||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0198
92256671|NCT01316380|184416297|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.068||0.8795|TWO_SIDED|95.0|-0.144|0.123||p-values serve an exploratory function only|Mixed Models Analysis||Tio R5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used.||0.123|-0.144|0.8795
92182798|NCT02609048|184264691|SUPERIORITY|||||||0.5165||||||Fisher's exact test between Seladelpar 200 mg versus 50 mg was used to obtain the p-value.|Fisher Exact|||||||0.5165
92182799|NCT02609048|184264692|SUPERIORITY|||||||0.0101||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0101
92182800|NCT02609048|184264692|SUPERIORITY|||||||0.0055||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0055
92182801|NCT02609048|184264692|SUPERIORITY|||||||1||||||Fisher's exact test between Seladelpar 200 mg versus 50 mg was used to obtain the p-value.|Fisher Exact|||||||1.0000
92178637|NCT06946888|184253258|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.497||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.497
92178638|NCT06946888|184253259|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.857||||||This is the first week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.857
92256672|NCT02574520|184416309|SUPERIORITY|Primary|Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.24||0.124|TWO_SIDED|95.0|-0.84|0.1|||ANOVA|Mixed model with repeated measures (MMRM) for scheduled pain measurements was estimated with time as a repeating factor within subject.|Least squares mean from the MMRM described in the Statistical Test of Hypothesis.|Pain Intensity on Movement 0-48 hr||0.10|-0.84|0.124
92256673|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 1: The corresponding power and coefficient of variation between test and reference drugs are 98% and 17.24%, respectively|Geometric mean ratio|95.204|||||TWO_SIDED|90.0|87.618|103.446|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||103.446|87.618|
92256674|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 1: The corresponding power and coefficient of variation are 80% and 22.62%, respectively.|Geometric mean ratio|107.606|||||TWO_SIDED|90.0|96.552|119.924|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||119.924|96.552|
92256675|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 1: The corresponding power and the coefficient of variation are 99% and 16.26%, respectively.|Geometric mean ratio|104.373|||||TWO_SIDED|90.0|96.504|112.883|||||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B= FDC (test value)|||112.883|96.504|
92256676|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 2: The corresponding power and the variation coefficient are 81% and 14.42%,respectively.|Geometric mean ratio|88.188|||||TWO_SIDED|90.0|82.368|94.419|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||94.419|82.368|
92256677|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 2: The corresponding power and the variation coefficient are 99% and 13.09%, respectively.|Geometric mean ratio|98.168|||||TWO_SIDED|90.0|92.263|104.451|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||104.451|92.263|
92256678|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|5-OH saxagliptin, Arm 2: The corresponding power and the variation coefficient are 99% and 8.02%, respectively.|Geometric mean ratio|95.023|||||TWO_SIDED|90.0|91.47|98.714|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||98.714|91.470|
92256679|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 3: The corresponding power and the variation coefficient are 99% and 15.55%, respectively.|Geometric mean ratio|97.601|||||TWO_SIDED|90.0|15.55|99.0|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||99|15.55|
92256680|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 3: The corresponding power and the variation coefficient are 84% and 15.65%, respectively.|Geometric mean ratio|110.656|||||TWO_SIDED|90.0|102.416|119.559|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||119.559|102.416|
92256681|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|OH-Saxagliptin, Arm 3: The corresponding power and the variation coefficient are 99% and 12.61%, respectively.|Geometric mean ratio|106.264|||||TWO_SIDED|90.0|99.826|113.117|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||113.117|99.826|
92256682|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 4: The corresponding power and the variation coefficient are 99% and 10.30%, respectively.|Geometric mean ratio|100.028|||||TWO_SIDED|90.0|95.164|105.139|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||105.139|95.164|
92256683|NCT01365091|184416321|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 4: The corresponding power and the variation coefficient are 99% and 10.38%, respectively.|Geometric mean ratio|93.644|||||TWO_SIDED|95.0|89.055|98.47|||ANCOVA|Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||98.470|89.055|
92256684|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 1: The corresponding power and coefficient of variation are 98% and 17.24%, respectively.|Geometric mean ratio|91.508|||||TWO_SIDED|90.0|82.596|101.38|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.380|82.596|
92265360|NCT04311411|184432307|SUPERIORITY||Mean Difference (Final Values)|1.61||||0.5861|TWO_SIDED|95.0|-4.23|7.45|||Mixed Models Analysis|||Postprandial (Post-lunch)||7.45|-4.23|0.5861
92265361|NCT00933543|184432396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.43||||0.0703|TWO_SIDED|95.0|0.65|63.18||Priori threshold for statistical significance was 5%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by center. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||63.18|0.65|0.0703
92178639|NCT06946888|184253259|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.684||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.684
92178640|NCT06946888|184253259|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.333||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.333
92178641|NCT06946888|184253259|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.09||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.090
92178642|NCT06946888|184253259|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.545||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.545
92178643|NCT06946888|184253259|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.251||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.251
92178644|NCT06946888|184253259|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.701||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.701
92178645|NCT06946888|184253259|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.08||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.080
92182802|NCT02609048|184264694|SUPERIORITY||Difference in LSM|-1.1|STANDARD_ERROR_OF_MEAN|1.82||0.5379|TWO_SIDED|95.0|-4.8|2.6||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline score as covariate, and change from baseline score as the response variable.|ANCOVA|||||2.6|-4.8|0.5379
92256685|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 1: The corresponding power and the coefficient of variation are 99% and 07.66%, respectively.|Geometric mean ratio|97.437|||||TWO_SIDED|90.0|93.889|101.119|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.119|93.889|
92256686|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 1: The corresponding power and the coefficient of variation are 99% and 07.43%, respectively.|Geometric mean ratio|96.77|||||TWO_SIDED|90.0|93.35|100.316|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||100.316|93.350|
92256687|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 2: The corresponding power and the variation coefficient are 96% and 14.37%, respectively.|Geometric mean ratio|91.585|||||TWO_SIDED|90.0|85.56|98.035|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||98.035|85.56|
92256688|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 2: The corresponding power and the variation coefficient are 96.028% and 101.095%, respectively.|Geometric mean ratio|98.529|||||TWO_SIDED|90.0|96.028|101.095|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.095|96.028|
92256689|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 2: The corresponding power and the variation coefficient are 99% and 6.55%, respectively|Geometric mean ratio|96.239|||||TWO_SIDED|90.0|93.286|99.286|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||99.286|93.286|
92256690|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 3: The corresponding power and the variation coefficient are 99% and 12.19%, respectively.|Geometric mean ratio|102.994|||||TWO_SIDED|90.0|96.956|109.407|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||109.407|96.956|
92256691|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 3: The corresponding power and the variation coefficient are 99% and 7.07%, respectively.|Geometric mean ratio|97.135|||||TWO_SIDED|95.0|93.778|100.613|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||100.613|93.778|
92178646|NCT06946888|184253260|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.636||||||This is the first week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.636
92256692|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 3: The corresponding power and the variation coefficient are 99% and 7.18%, respectively.|Geometric mean ratio|100.01|||||TWO_SIDED|90.0|96.512|103.648|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||103.648|96.512|
92256693|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 1:The corresponding power and the variation coefficient are 93% and 17.35%, respectively.|Geometric mean ratio|92.953|||||TWO_SIDED|90.0|85.502|101.053|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.053|85.502|
92284095|NCT01706926|184472079|SUPERIORITY_OR_OTHER||Percent difference|2.3||||0.621|TWO_SIDED|95.0|-2.3|6.9|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||6.9|-2.3|0.621
92256694|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 4: The corresponding power and the variation coefficient are 99% and 5.75%, respectively.|Geometric mean ratio|101.281|||||TWO_SIDED|95.0|98.494|104.147|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||104.147|98.494|
92256695|NCT01365091|184416322|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 4: The corresponding power and the variation coefficient are 99% and 5.73%, respectively.|Geometric mean ratio|100.111|||||TWO_SIDED|90.0|97.367|102.932|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||102.932|97.367|
92256696|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|For AUC(0-inf) metformin, Arm 1, the corresponding power and coefficient of variation are 80% and 21.06%, respectively.|Geometric mean ratio|91.494|||||TWO_SIDED|90.0|82.697|101.226|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value).|||101.226|82.697|
92284096|NCT01706926|184472079|SUPERIORITY_OR_OTHER||Percent difference|6.4||||0.062|TWO_SIDED|95.0|0.0|12.7|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||12.7|0.0|0.062
92256697|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 1: The corresponding power and the coefficient of variation are 99% and 07.60%, respectively.|Geometric mean ratio|97.477|||||TWO_SIDED|90.0|93.955|101.132|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.132|93.955|
92178647|NCT06946888|184253260|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.909||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.909
92178648|NCT06946888|184253260|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.627||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.627
92182803|NCT02609048|184264694|SUPERIORITY||Difference in LSM|0.2|STANDARD_ERROR_OF_MEAN|1.7||0.8949|TWO_SIDED|95.0|-3.3|3.7||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline score as covariate, and change from baseline score as the response variable.|ANCOVA|||||3.7|-3.3|0.8949
92182804|NCT02609048|184264694|SUPERIORITY||Difference in LSM|-1.4|STANDARD_ERROR_OF_MEAN|1.75||0.4431|TWO_SIDED|95.0|-4.9|2.2||Difference between means,p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor, baseline score as covariate, and change from baseline score as the response variable.|ANCOVA|||||2.2|-4.9|0.4431
92256698|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 1. The corresponding power and the coefficient of variation are 99% and 07.31%, respectively.|Geometric mean ratio|96.76|||||TWO_SIDED|90.0|93.393|100.247|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value).|||100.247|93.393|
92256699|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 2: The corresponding power and the variation coefficient are 96% and 14.25%, respectively.|Geometric mean ratio|91.548|||||TWO_SIDED|90.0|85.573|97.939|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||97.939|85.573|
92284097|NCT01706926|184472080|SUPERIORITY_OR_OTHER||Percent difference|3.7||||0.245|TWO_SIDED|95.0|-0.4|7.8|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||7.8|-0.4|0.245
92284098|NCT01706926|184472080|SUPERIORITY_OR_OTHER||Percent difference|1.2||||1|TWO_SIDED|95.0|-1.1|3.5|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||3.5|-1.1|1.000
92256700|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 2: The corresponding power and the variation coefficient are 99% and 5.38%,respectively.|Geometric mean ratio|98.535|||||TWO_SIDED|95.0|96.044|101.09|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.090|96.044|
92178649|NCT06946888|184253260|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.474||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.474
92178650|NCT06946888|184253260|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.378||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.378
92178651|NCT06946888|184253260|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.768||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.768
92178652|NCT06946888|184253260|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.909||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.909
92178653|NCT06946888|184253260|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.449||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.449
92256701|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 2: The corresponding power and the variation coefficient are 99% and 6.52%, respectively.|Geometric mean ratio|96.258|||||TWO_SIDED|95.0|93.319|99.29|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||99.290|93.319|
92256702|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 3: The corresponding power and the variation coefficient are 99% and 11.75%, respectively.|Geometric mean ratio|102.383|||||TWO_SIDED|95.0|96.589|108.525|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||108.525|96.589|
92256703|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 5: The corresponding power and the variation coefficient are 99% and 7.07%, respectively.|Geometric mean ratio|97.187|||||TWO_SIDED|90.0|93.832|100.662|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||100.662|93.832|
92284099|NCT01706926|184472080|SUPERIORITY_OR_OTHER||Percent difference|1.3||||0.494|TWO_SIDED|95.0|-1.2|3.7|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||3.7|-1.2|0.494
92284100|NCT01706926|184472081|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.18|STANDARD_ERROR_OF_MEAN|1.608||0.463|TWO_SIDED|95.0|-1.99|4.35|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \>0 favored mavrilimumab.|||4.35|-1.99|0.463
92284101|NCT01706926|184472081|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.27|STANDARD_ERROR_OF_MEAN|1.574||0.151|TWO_SIDED|95.0|-0.83|5.37|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \>0 favored mavrilimumab.|||5.37|-0.83|0.151
92178654|NCT06946888|184253261|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.593||||||This is the first week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.593
92178655|NCT06946888|184253261|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.994||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.994
92178656|NCT06946888|184253261|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.959||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.959
92178657|NCT06946888|184253261|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.946||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.946
92178658|NCT06946888|184253261|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.715||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.715
92178659|NCT06946888|184253261|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.422||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.422
92182805|NCT02609048|184264695|SUPERIORITY||Difference in LSM|-7.4|STANDARD_ERROR_OF_MEAN|10.07||0.4674|TWO_SIDED|95.0|-28.0|13.2||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model. Treatment group as factor, baseline score as a covariate, and change from baseline score as the response variable.|ANCOVA|||||13.2|-28.0|0.4674
92256704|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Sarexagliptin, Arm 3: The corresponding power and the variation coefficient are 99% and 7.08%, respectively.|Geometric mean ratio|100.015|||||TWO_SIDED|95.0|96.56|103.594|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||103.594|96.560|
92256705|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 4: The corresponding power and the variation coefficient are 94% and 17.13%, respectively.|Geometric mean ratio|93.219|||||TWO_SIDED|90.0|85.835|101.238|||ANCOVA|||||101.238|85.835|
92256706|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 4: The corresponding power and the variation coefficient are 99% and 5.72%, respectively.|Geometric mean ratio|101.346|||||TWO_SIDED|90.0|98.574|104.196|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||104.196|98.574|
92256707|NCT01365091|184416324|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 4: The corresponding power and the variation coefficient are 99% and 5.71%, respectively.|Geometric mean ratio|100.056|||||TWO_SIDED|90.0|97.324|102.864|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||102.864|97.324|
92265362|NCT00933543|184432398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.92||||0.2969|TWO_SIDED|95.0|-11.35|3.5||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model, including center and baseline lesion count as a covariates||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||3.50|-11.35|0.2969
92284102|NCT01706926|184472081|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.92|STANDARD_ERROR_OF_MEAN|1.578||0.014|TWO_SIDED|95.0|0.81|7.02|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \>0 favored mavrilimumab.|||7.02|0.81|0.014
92178660|NCT06946888|184253261|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.379||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.379
92178661|NCT06946888|184253261|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.302||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.302
92178662|NCT06946888|184253262|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.913||||||This is the first week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.913
92182806|NCT02609048|184264695|SUPERIORITY||Difference in LSM|-9.0|STANDARD_ERROR_OF_MEAN|8.99||0.3236|TWO_SIDED|95.0|-27.4|9.4||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model. Treatment group as factor, baseline score as a covariate, and change from baseline score as the response variable.|ANCOVA|||||9.4|-27.4|0.3236
92265363|NCT00933543|184432399|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.67||||0.8913|TWO_SIDED|95.0|-9.09|10.43||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model, including center and baseline lesion count as a covariates||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||10.43|-9.09|0.8913
92284103|NCT00722124|184472095|SUPERIORITY_OR_OTHER|||||||0.615||95.0|||||Fisher Exact|1 sided||Data were compared between treatment groups using Fisher's Exact test.||||0.615
92284104|NCT00722124|184472095|SUPERIORITY_OR_OTHER|||||||0.826||95.0|||||Fisher Exact|1 sided||Data were compared between treatment groups using Fisher's Exact test.||||0.826
92178663|NCT06946888|184253262|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.802||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.802
92182807|NCT02609048|184264695|SUPERIORITY||Difference in LSM|1.6|STANDARD_ERROR_OF_MEAN|9.92||0.8723|TWO_SIDED|95.0|-18.7|21.9||Difference between means,p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model. Treatment group as factor, baseline score as a covariate, and change from baseline score as the response variable.|ANCOVA|||||21.9|-18.7|0.8723
92284105|NCT00963482|184472101|SUPERIORITY_OR_OTHER||||||=|0.111||95.0||||not adjusted for multiple comparisons due to only two groups p\<.05, two-tailed|Chi-squared|||"H0: EG is equal in smoking quit rates compared to CG. H1: EG is superior in smoking quit rates compared to CG"||||=.111
92178664|NCT06946888|184253262|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.605||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.605
92178665|NCT06946888|184253262|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.35||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized Estimating Equations were used to analyze repeated measures data and to assess the interaction effect between group and time. Potential interfering factors such as age and years of work experience were controlled during the analysis, and the effect size (Cohen's d) and its 95% confidence interval were calculated to assist in interpreting the clinical significance. Statistical analysis was performed using SPSS version XX or R version XX, and the significance level was set at p \< 0.05.||||0.350
92178666|NCT06946888|184253262|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||1||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||1.000
92178667|NCT06946888|184253262|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.744||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.744
92178668|NCT06946888|184253262|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.202||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.202
92178669|NCT06946888|184253262|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.918||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.918
92178670|NCT04244175|184253263|SUPERIORITY|RRatio was analyzed using an analysis of covariance (ANCOVA) model including treatment and the Baseline seizure frequency per week as a covariate.|LS Mean Difference|0.11|||=|0.986|TWO_SIDED|90.0|-10.38|10.61|||ANCOVA||CVL-865 25 mg BID - Placebo|CVL-865 25 mg BID vs Placebo||10.61|-10.38|=0.986
92265364|NCT00694070|184432422|NON_INFERIORITY_OR_EQUIVALENCE|"The null and alternative hypotheses for these tests will have the form:~Ho: Pr{Success} \< Po vs. Ha: Pr{Success} ≥ Po. Critical values for numbers of successes were computed to give approximately a 90% chance of rejecting Ho in favor of the alternative (non-inferiority) if the true probability of success is at least Po. For Po = 80%, with n=51, critical number is 38. With this critical value and sample size, the power to reject Ho is approximately 87.43%."||||||0.0421|||||||Exact binomial test|||||||0.0421
92256708|NCT03398824|184416325|OTHER|Fanconi Anemia is a rare disease. Therefore, the primary end point of the study was to assess the proportion of subjects with a HR during 6 months of metformin treatment; sample size was calculated assuming that a HR rate \< 20% suggests preliminary efficacy of treatment that warranted additional investigation and, conversely, that the study should be deemed futile if the rate of HR was \<5%.|response rate|30.8|||||TWO_SIDED|90.0|11.3|57.3|||||||Fanconi Anemia is a rare disease. Therefore, the primary end point of the study was to assess the proportion of subjects with a HR during 6 months of metformin treatment; sample size was calculated assuming that a HR rate \>20% suggests preliminary efficacy of treatment that warranted additional investigation and, conversely, that the study should be deemed futile if the rate of HR was \<5%.|57.3|11.3|
92256709|NCT05307523|184416329|OTHER|Paired t-test for normally distributed data Wilcoxon Rank test for the not normally distributed data|||||<|0.05||||||Paired T-test for the normally distributed data and a Wilcoxon Rank test for the non-parametric data were used|Both Paired T-test and Wilcoxon Rank|The data included both normally and not normally distributed data for the baseline, mid-study, and final study assessment points.||||||<0.05
92256710|NCT01388491|184416366|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-11.8||||0.5892|TWO_SIDED|95.0|-54.75|31.17||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||31.17|-54.75|0.5892
92256711|NCT01388491|184416367|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|3.0||||0.839|TWO_SIDED|95.0|-25.96|31.94||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||31.94|-25.96|0.839
92256712|NCT01388491|184416368|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-4.8||||0.0021|TWO_SIDED|95.0|-7.87|-1.77||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||-1.77|-7.87|0.0021
92256713|NCT01388491|184416369|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|3.2||||0.2312|TWO_SIDED|95.0|-2.08|8.58||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||8.58|-2.08|0.2312
92256714|NCT01388491|184416370|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.6||||0.344|TWO_SIDED|95.0|-1.7|4.85||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||4.85|-1.70|0.3440
92256715|NCT01388491|184416371|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.3||||0.2522|TWO_SIDED|95.0|-0.24|0.92||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||0.92|-0.24|0.2522
92256716|NCT01388491|184416372|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.9||||0.0143|TWO_SIDED|95.0|0.58|5.13||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||5.13|0.58|0.0143
92256717|NCT01388491|184416373|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.5||||0.8507|TWO_SIDED|95.0|-4.87|5.91||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||5.91|-4.87|0.8507
92256718|NCT01388491|184416374|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1||||0.0459|TWO_SIDED|95.0|0.0|0.14||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||0.14|0.00|0.0459
92256719|NCT01388491|184416375|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1||||0.0318|TWO_SIDED|95.0|0.01|0.26||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||0.26|0.01|0.0318
92256720|NCT01388491|184416376|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|361.6||||0.1148|TWO_SIDED|95.0|-88.45|811.61||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||811.61|-88.45|0.1148
92256721|NCT01388491|184416377|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|8.2||||0.7136|TWO_SIDED|95.0|-35.92|52.39||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||52.39|-35.92|0.7136
92256722|NCT01388491|184416378|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.1||||0.3903|TWO_SIDED|95.0|-0.29|0.11||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||0.11|-0.29|0.3903
92256723|NCT01388491|184416379|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|14.3||||0.1731|TWO_SIDED|95.0|-6.29|34.8||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||34.80|-6.29|0.1731
92256724|NCT02875366|184416385|SUPERIORITY||Least Squares Mean Difference|-3.2||||0.3021|TWO_SIDED|95.0|-9.2|2.9|||Mixed effects model for repeated measure|||||2.9|-9.2|0.3021
92256725|NCT02875366|184416386|SUPERIORITY||Least Squares Mean Difference|-3.2||||0.1894|TWO_SIDED|95.0|-8.0|1.6|||Mixed effects model for repeated measure|||||1.6|-8.0|0.1894
92256726|NCT02875366|184416387|SUPERIORITY||Least Squares Mean Difference|-15.3||||0.2328|TWO_SIDED|95.0|-40.8|10.1|||Mixed effects model for repeated measure|||||10.1|-40.8|0.2328
92256727|NCT02875366|184416388|SUPERIORITY||Least Squares Mean Difference|-1.4||||0.1203|TWO_SIDED|95.0|-3.1|0.4|||Mixed effects model for repeated measure|||||0.4|-3.1|0.1203
92256728|NCT02875366|184416389|SUPERIORITY||Least Squares Mean Difference|-149.6||||0.0439|TWO_SIDED|95.0|-295.0|-4.2|||Mixed effects model for repeated measure|||||-4.2|-295.0|0.0439
92256729|NCT02875366|184416390|SUPERIORITY||Least Squares Mean Difference|-7.5||||0.2237|TWO_SIDED|95.0|-19.8|4.7|||Mixed effects model for repeated measure|||||4.7|-19.8|0.2237
92256730|NCT02875366|184416391|SUPERIORITY||Least Squares Mean Difference|-0.6||||0.0226|TWO_SIDED|95.0|-1.12|-0.09|||Mixed effects model for repeated measure|||||-0.09|-1.12|0.0226
92256731|NCT02875366|184416392|SUPERIORITY||Least Squares Mean Difference|-6.32||||0.0613|TWO_SIDED|95.0|-12.94|0.31|||Mixed effects model for repeated measure|||||0.31|-12.94|0.0613
92256732|NCT02875366|184416393|SUPERIORITY||Least Squares Mean Difference|0.3||||0.6409|TWO_SIDED|95.0|-0.9|1.5|||Mixed effects model for repeated measure|||||1.5|-0.9|0.6409
92256733|NCT02875366|184416394|SUPERIORITY||Least Squares Mean Difference|1.0||||0.5889|TWO_SIDED|95.0|-2.7|4.7|||Mixed effects model for repeated measure|||||4.7|-2.7|0.5889
92256734|NCT02875366|184416395|SUPERIORITY||Least Squares Mean Difference|3.4||||0.146|TWO_SIDED|95.0|-1.2|8.1|||Mixed effects model for repeated measure|||||8.1|-1.2|0.1460
92256735|NCT02875366|184416396|SUPERIORITY||Least Squares Mean Difference|3.5||||0.3091|TWO_SIDED|95.0|-3.4|10.4|||Mixed effects model for repeated measure|||||10.4|-3.4|0.3091
92256736|NCT02875366|184416397|SUPERIORITY||Least Squares Mean Difference|0.2||||0.3961|TWO_SIDED|95.0|-0.3|0.6|||Mixed effects model for repeated measure|||||0.6|-0.3|0.3961
92256737|NCT02875366|184416398|SUPERIORITY||Least Squares Mean Difference|0.9||||0.3905|TWO_SIDED|95.0|-1.2|3.1|||Mixed effects model for repeated measure|||||3.1|-1.2|0.3905
92256738|NCT02875366|184416399|SUPERIORITY||Least Squares Mean Difference|6.2||||0.1257|TWO_SIDED|95.0|-1.8|14.1|||Mixed effects model for repeated measure|||||14.1|-1.8|0.1257
92256739|NCT02735044|184416483|NON_INFERIORITY|Non-inferiority of HOE901-U300 versus Lantus was demonstrated if the upper bound of the two-sided 95% confidence interval (CI) for the difference in the mean change in HbA1c from baseline to month 6 was \<0.3%.|LS Mean difference|0.004|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.172|0.179||||||Analysis was performed using ANCOVA models which included the treatment group, the randomization stratum of age group at screening visit (\<12 years and \>=12 years), and the continuous fixed covariates of the baseline HbA1c value.||0.179|-0.172|
92256740|NCT02735044|184416483|SUPERIORITY|Superiority of HOE901-U300 versus Lantus was demonstrated if the upper bound of the two-sided 95% CI for the difference between treatment groups was \<0 (zero).||||||0.965||||||Threshold for significance at 0.025 level.|ANCOVA|||A step-wise closed testing approach was used to control the type I error. Analysis was performed using ANCOVA models which included the treatment group, the randomization stratum of age group at screening visit (\<12 years and \>=12 years), and the continuous fixed covariates of the baseline HbA1c value.||||0.965
92256741|NCT00412113|184416498|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|19.03|||<|0.001||95.0|9.14|39.63||There was only one primary endpoint and the p-value was not adjusted for comparison.|Cochran-Mantel-Haenszel|||"Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving both the BP(\< 140/90 mmHg) and LDL goal (\< 100mg/dL) at Week 6.~With \~120 in each treatment arm, planned power was at least 90% to detect a difference between treatments, assuming 35% in the Caduet and 15% in the Norvasc arm achieving BP \<140/90 mmHg and LDL \<100 mg/dL and using a chi-square test with 0.05 two-sided significance level."||39.63|9.14|<0.001
92256742|NCT00412113|184416499|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|31.39|||<|0.001||95.0|12.61|78.09||No adjustment for p-value for secondary analysis|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving both the blood pressure (\< 140/90 mmHg) and LDL-goal (\<100 mg/dL) at Week 4.||78.09|12.61|<0.001
92256743|NCT00412113|184416500|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.2|||<|0.001||95.0|2.93|9.24||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving both the blood pressure (\< 140/90 mmHg) and LDL-goal (\<130mg/dL) at Week 4.||9.24|2.93|<0.001
92256744|NCT00412113|184416501|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.14|||<|0.001||95.0|2.89|9.11||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving both the blood pressure (\< 140/90 mmHg) and LDL-goal (\<130mg/dL) at Week 6.||9.11|2.89|<0.001
92284106|NCT02653664|184472129|SUPERIORITY|||||||0.39||||||Statistical significance was set at p=.05|ANOVA|||Based on our prior work comparing similar interventions, assuming decreases in average pain intensity of 0.3 points (on a 0-10 scale) for ED, between 0.8 to 1.4 points for HYP, and between 0.6 to 1 for MM, with standard deviations (SD) ranging from 0.15 to 1, significance level of 0.05, and using ANOVA as the statistical method, we calculated that 80 participants per arm at immediate post-treatment would provide at least 80% power to detect between-groups differences as specified.||||.39
92284107|NCT02653664|184472130|SUPERIORITY|||||||0.05||||||Statistical significance was set at p=.05.|ANOVA|||||||.05
92284108|NCT02653664|184472131|SUPERIORITY||||||<|0.001||||||Statistical significance was set at p= .05|ANOVA|||||||<.001
92256745|NCT00412113|184416502|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|65.51|||<|0.001||95.0|27.1|158.34||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving (\<100mg/DL) at Week 4.||158.34|27.10|<0.001
92256746|NCT00412113|184416503|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|42.04|||<|0.001||95.0|19.42|90.99||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving LDL-goal (\<100mg/DL) at Week 6.||90.99|19.42|<0.001
92256747|NCT00412113|184416504|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.785||95.0|0.6|1.98||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving blood pressure (\< 140/90 mmHg)at Week 4||1.98|0.60|0.785
92284109|NCT00485472|184472133|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.36||||0.5438||95.0|-5.3|10.02|||ANCOVA|||The ANCOVA analysis includes treatment and pooled site as factors and baseline score as covariate.||10.02|-5.30|0.5438
92284110|NCT00485472|184472134|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.83||||0.2022||95.0|-2.62|12.28|||ANCOVA|||The ANCOVA analysis includes treatment and pooled site as factors and baseline score as covariate.||12.28|-2.62|0.2022
92284111|NCT00485472|184472135|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.79||||0.665||95.0|-6.36|9.93|||ANCOVA|||The ANCOVA analysis includes treatment and pooled site as factors and baseline score as covariate.||9.93|-6.36|0.6650
92284112|NCT00485472|184472136|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.74||||0.3445||95.0|-11.65|33.13|||ANCOVA|||The ANCOVA analysis includes treatment and pooled site as factors and baseline score as covariate.||33.13|-11.65|0.3445
92284113|NCT00485472|184472138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.488||||0.0418||95.0|0.245|0.974|||Likelihood ratio test|||Analysis of 'response' based on a likelihood ratio test with treatment and pooled site as factors.||0.974|0.245|0.0418
92284114|NCT02055963|184472146|OTHER|||||||0.98|||||||Wilcoxon Rank Sum Test|||||||0.98
92284115|NCT03247556|184472167|SUPERIORITY||Least Square Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|1.93||0.0082|TWO_SIDED|95.0|-8.9|-1.3|||Mixed Model for Repeated Measures|||||-1.3|-8.9|0.0082
92284116|NCT03247556|184472167|SUPERIORITY||Least Square Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|1.93||0.0712|TWO_SIDED|95.0|-7.3|0.3|||Mixed Model for Repeated Measures|||||0.3|-7.3|0.0712
92284117|NCT03247556|184472168|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0051|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.1|-0.8|0.0051
92178671|NCT04244175|184253263|SUPERIORITY|RRatio was analyzed using an analysis of covariance (ANCOVA) model including treatment and the Baseline seizure frequency per week as a covariate.|LS Mean Difference|1.42|||=|0.823|TWO_SIDED|90.0|-9.04|11.87|||ANCOVA||CVL-865 7.5 mg BID - Placebo|CVL-865 7.5 mg BID vs Placebo||11.87|-9.04|=0.823
92178672|NCT04244175|184253263|SUPERIORITY|RRatio was analyzed using an analysis of covariance (ANCOVA) model including treatment and the Baseline seizure frequency per week as a covariate.|LS Mean Difference|0.76|||=|0.888|TWO_SIDED|90.0|-8.23|9.76|||ANCOVA||CVL-865 7.5 mg BID / 25 mg BID - Placebo|CVL-865 7.5 mg BID / 25 mg BID vs Placebo||9.76|-8.23|=0.888
92178673|NCT04244175|184253264|SUPERIORITY|The percent reduction relative to Placebo was calculated.|Percent reduction relative to Placebo|4.9|||||TWO_SIDED|90.0|-12.0|19.3||||||CVL-865 25 mg BID vs Placebo||19.3|-12.0|
92178674|NCT04244175|184253264|SUPERIORITY|The percent reduction relative to Placebo was calculated.|Percent reduction relative to Placebo|1.4|||||TWO_SIDED|90.0|-16.1|16.2||||||CVL-865 7.5 mg BID vs Placebo||16.2|-16.1|
92178675|NCT04244175|184253264|SUPERIORITY|The percent reduction relative to Placebo was calculated.|Percent reduction relative to Placebo|3.2|||||TWO_SIDED|90.0|-11.4|15.8||||||CVL-865 7.5 mg BID / 25 mg BID vs Placebo||15.8|-11.4|
92178676|NCT04244175|184253265|SUPERIORITY|A logistic regression with treatment group and Baseline seizure frequency as covariates was used to calculate the Odds ratio, 90% confidence interval, and p-value.|Odds Ratio (OR)|1.27|||=|0.587|TWO_SIDED|90.0|0.616|2.618|||Regression, Logistic|||CVL-865 25 mg BID vs Placebo||2.618|0.616|=0.587
92178677|NCT04244175|184253265|SUPERIORITY|A logistic regression with treatment group and Baseline seizure frequency as covariates was used to calculate the Odds ratio, 90% confidence interval, and p-value.|Odds Ratio (OR)|1.303|||=|0.554|TWO_SIDED|90.0|0.624|2.723|||Regression, Logistic|||CVL-865 7.5 mg BID vs Placebo||2.723|0.624|=0.554
92178678|NCT04244175|184253265|SUPERIORITY|A logistic regression with treatment group and Baseline seizure frequency as covariates was used to calculate the Odds ratio, 90% confidence interval, and p-value.|Odds Ratio (OR)|1.286|||=|0.513|TWO_SIDED|90.0|0.684|2.42|||Regression, Logistic|||CVL-865 7.5 mg BID / 25 mg BID vs Placebo||2.420|0.684|=0.513
92178679|NCT04244175|184253266|SUPERIORITY|The p-value is from Fisher's exact test for number of responders.|||||>|0.999|||||||Fisher's exact test|||CVL-865 25 mg BID vs Placebo||||>0.999
92256748|NCT00412113|184416505|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.171||95.0|0.83|2.88||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving blood pressure (\< 140/90 mmHg) at Week 6.||2.88|0.83|0.171
92256749|NCT00412113|184416506|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.76||||0.585||95.0|-1.97|3.48||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in systolic blood pressure at Week 4.||3.48|-1.97|0.585
92256750|NCT00412113|184416507|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.0|||>|0.999||95.0|-2.01|2.01||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in diastolic blood pressure at Week 4.||2.01|-2.01|> 0.999
92178680|NCT04244175|184253266|SUPERIORITY|The p-value is from Fisher's exact test for number of responders.|||||=|0.618|||||||Fisher's exact test|||CVL-865 7.5 mg BID vs Placebo||||=0.618
92178681|NCT04244175|184253266|SUPERIORITY|The p-value is from Fisher's exact test for number of responders.|||||=|0.422|||||||Fisher's exact test|||CVL-865 7.5 mg BID / 25 mg BID vs Placebo||||=0.422
92178682|NCT04244175|184253268|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.5|||=|0.021|TWO_SIDED|90.0|-0.8|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 15)|CVL-865 25 mg BID vs Placebo (Day 15)||-0.1|-0.8|=0.021
92178683|NCT04244175|184253268|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.2|||=|0.342|TWO_SIDED|90.0|-0.5|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID vs Placebo (Day 15)||0.1|-0.5|=0.342
92178684|NCT04244175|184253268|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.059|TWO_SIDED|90.0|-0.6|0.0|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 15)||0.0|-0.6|=0.059
92178685|NCT04244175|184253268|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.5|||=|0.04|TWO_SIDED|90.0|-0.9|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 43)|CVL-865 25 mg BID vs Placebo (Day 43)||-0.1|-0.9|=0.040
92256751|NCT00412113|184416508|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.9||||0.363||95.0|-2.83|1.04|||ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in pulse rate at Week 4.||1.04|-2.83|0.363
92256752|NCT00412113|184416509|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-3.25||||0.02||95.0|-5.99|-0.51||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in systolic blood pressure at Week 6.||-0.51|-5.99|0.020
92256753|NCT00412113|184416510|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.87||||0.351||95.0|-2.71|0.97||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in diastolic blood pressure at Week 6.||0.97|-2.71|0.351
92256754|NCT00412113|184416511|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.1||||0.922||95.0|-1.91|2.11||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in mean change from baseline in pulse rate at Week 6.||2.11|-1.91|0.922
92256755|NCT00412113|184416512|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-49.3|||<|0.001||95.0|-54.68|-43.91||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in LDL at Week 4.||-43.91|-54.68|<0.001
92256756|NCT00412113|184416513|SUPERIORITY_OR_OTHER_LEGACY||difference in LS Means|-0.3||||0.739||95.0|-2.07|1.47||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in HDL at Week 4.||1.47|-2.07|0.739
92256757|NCT00412113|184416514|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-57.9|||<|0.001||95.0|-64.02|51.81||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in TC at Week 4.||51.81|-64.02|<0.001
92256758|NCT00412113|184416515|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-47.27|||<|0.001||95.0|-63.37|-31.16||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in TG at Week 4.||-31.16|-63.37|<0.001
92256759|NCT00412113|184416516|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-51.21|||<|0.001||95.0|-56.88|-45.55||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in LDL at Week 6.||-45.55|-56.88|<0.001
92178686|NCT04244175|184253268|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.4|||=|0.152|TWO_SIDED|90.0|-0.8|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID vs Placebo (Day 43)||0.1|-0.8|=0.152
92256760|NCT00412113|184416517|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.02||||0.329||95.0|-3.07|1.03||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in HDL at Week 6.||1.03|-3.07|0.329
92256761|NCT00412113|184416518|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-62.07|||<|0.001||95.0|-68.49|-55.65||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in TC at Week 6.||-55.65|-68.49|<0.001
92256762|NCT00412113|184416519|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-53.95|||<|0.001||95.0|-77.61|-30.29||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change in TG from baseline in at Week 6.||-30.29|-77.61|<0.001
92256763|NCT00412113|184416520|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.4|||<|0.001||95.0|-3.1|-1.7||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in mean change from baseline to Week 4 in Framingham predicted absolute 10-year risk.||-1.7|-3.1|<0.001
92284118|NCT03247556|184472168|SUPERIORITY||Least Square Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0995|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||0.1|-0.6|0.0995
92256764|NCT00412113|184416521|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.8|||<|0.001||95.0|-3.5|-2.1||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline to Week 6 in Framingham predicted absolute 10-year risk.||-2.1|-3.5|<0.001
92256765|NCT00740116|184416529|SUPERIORITY|||||||0.03||||||Statistical significance threshold was p \< 0.05|Wilcoxon (Mann-Whitney)|Mann-Whitney U-test, one-sided test||||||0.03
92256766|NCT00740116|184416530|SUPERIORITY|||||||0.07||||||Statistical significance threshold was p \< 0.05|Wilcoxon (Mann-Whitney)|Mann-Whitney U-test, one-sided test||||||0.07
92256767|NCT00740116|184416531|SUPERIORITY||Odds Ratio (OR)|0.44||||0.46|ONE_SIDED|95.0||0.97||Statistical significance threshold was p \< 0.05|Wilcoxon (Mann-Whitney)|Mann-Whitney U-test, one-sided test||||0.97||0.46
92256768|NCT00740116|184416532|SUPERIORITY|||||||0.46||||||p\< 0.05 for statistical significance|Wilcoxon (Mann-Whitney)|||||||0.46
92256769|NCT00740116|184416533|SUPERIORITY||Odds Ratio (OR)|0.36||||0.22|TWO_SIDED|95.0|0.05|2.72||Statistical significance threshold p-value \< 0.05|Fisher Exact|||||2.72|0.05|0.22
92284119|NCT03247556|184472169|SUPERIORITY||Least Square Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.26||0.1377|TWO_SIDED|95.0|-4.3|0.6|||ANCOVA|||||0.6|-4.3|0.1377
92284120|NCT03247556|184472169|SUPERIORITY||Least Square Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|1.25||0.313|TWO_SIDED|95.0|-3.7|1.2|||ANCOVA|||||1.2|-3.7|0.3130
92256770|NCT00121485|184416546|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|200 patients (137 HMII and 67 XVE) provides 80% power (alpha= 0.05 (one-sided)) using a Blackwelder like analysis and a non-inferiority margin of 10%. The protocol specifies that once non-inferiority is proven, the data will be analyzed for superiority using closed testing methods.|Mean Difference (Final Values)|35.7||||2.5e-07|TWO_SIDED|95.0|24.5|46.9||Two (2) interim analysis were pre-specified in the protocol. The type I error rate was preserved at 5% by use of the O'Brien-Fleming spending function.|Fisher Exact|||Primary endpoint is 2-yr survival free of stroke or re-operation to repair/replace the device. Patients are a success if composite endpoint achieved. Patients urgently transplanted due to device failure are failures. Patients electively transplanted after reversal of co-morbidity will be considered success if they achieve 2 years of survival from day of VAD implant and no stroke. HMII is a success if the proportion of HMII pts achieving the composite endpoint is equal to or better than HM XVE||46.9|24.5|0.00000025
92256771|NCT01111331|184416561|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean ratio|100.89|STANDARD_DEVIATION|7.0|||TWO_SIDED|90.0|96.86|105.1|||ANOVA|Based on ANOVA with terms for subject and treatment|Standard deviation is actually the intra-individual geometric coefficient of variation (gCV)|Ratio calculated as empa plus warfarin divided by empa||105.10|96.86|
92256772|NCT01111331|184416562|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|100.64|STANDARD_DEVIATION|19.9||0.0021|TWO_SIDED|90.0|89.79|112.8||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|Based on ANOVA with terms for subject and treatment|Standard deviation is actually the intra-individual gCV|Ratio calculated as empa plus warfarin divided by empa||112.80|89.79|0.0021
92284121|NCT03247556|184472170|SUPERIORITY||Least Square Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.049||0.0698|TWO_SIDED|95.0|-0.19|0.01|||ANCOVA|||||0.01|-0.19|0.0698
92256773|NCT01111331|184416563|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|98.49|STANDARD_DEVIATION|5.7|||TWO_SIDED|90.0|95.29|101.8|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the geometric coefficient of variation (gCV)|Ratio calculated as empa plus warfarin divided by warfarin||101.80|95.29|
92256774|NCT01111331|184416564|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|97.89|STANDARD_DEVIATION|12.4||0.0001|TWO_SIDED|90.0|91.12|105.15|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the geometric coefficient of variation (gCV)|Ratio calculated as empa plus warfarin divided by warfarin||105.15|91.12|0.0001
92256775|NCT01111331|184416565|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|95.88|STANDARD_DEVIATION|4.5|||TWO_SIDED|90.0|93.4|98.43|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV|Ratio calculated as empa plus warfarin divided by warfarin||98.43|93.40|
92256776|NCT01111331|184416566|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|98.88|STANDARD_DEVIATION|12.7||0.0001|TWO_SIDED|90.0|91.84|106.47||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV|Ratio calculated as empa plus warfarin divided by warfarin||106.47|91.84|0.0001
92256777|NCT01111331|184416574|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|98.9|STANDARD_DEVIATION|5.3|||TWO_SIDED|90.0|95.89|102.0|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the geometric coefficient of variation (gCV)|Ratio calculated as empa plus warfarin divided by warfarin||102.00|95.89|
92256778|NCT01111331|184416581|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|96.09|STANDARD_DEVIATION|4.4|||TWO_SIDED|90.0|93.64|98.6|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV|Ratio calculated as empa plus warfarin divided by warfarin||98.60|93.64|
92256779|NCT01111331|184416588|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.87|||||TWO_SIDED|95.0|0.73|1.04|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline INR value||Difference calculated as empa plus warfarin minus warfarin||1.04|0.73|
92256780|NCT01111331|184416589|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.88|||||TWO_SIDED|95.0|0.79|0.98|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline INR value||Difference calculated as empa plus warfarin minus warfarin||0.98|0.79|
92256781|NCT01111331|184416590|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.99|||||TWO_SIDED|95.0|0.67|1.48|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline INR value||Difference calculated as empa plus warfarin minus warfarin||1.48|0.67|
92256782|NCT01111331|184416591|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.9|||||TWO_SIDED|95.0|0.79|1.02|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline PT value||Difference calculated as empa plus warfarin minus warfarin||1.02|0.79|
92256783|NCT01111331|184416592|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|1.12|||||TWO_SIDED|95.0|0.64|1.95|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline PT value||Difference calculated as empa plus warfarin minus warfarin||1.95|0.64|
92256784|NCT01111331|184416593|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.91|||||TWO_SIDED|95.0|0.84|0.98|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline PT value||Difference calculated as empa plus warfarin minus warfarin||0.98|0.84|
92256785|NCT01111331|184416594|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.97|||||TWO_SIDED|95.0|0.68|1.4|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline PT value||Difference calculated as empa plus warfarin minus warfarin||1.40|0.68|
92256786|NCT01111331|184416595|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.85|||||TWO_SIDED|95.0|0.47|1.51|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline PT value||Difference calculated as empa plus warfarin minus warfarin||1.51|0.47|
92256787|NCT03650387|184416623|OTHER||||||<|0.0001||||||Bonferroni-Holm was used for alpha correction.|Exact one-sample binomial test|The one-sample binomial test was used to test whether the probability of being a responder (p) is significantly above 60%.||||||< 0.0001
92284122|NCT03247556|184472170|SUPERIORITY||Least Square Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.9756|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||||0.10|-0.10|0.9756
92284123|NCT03247556|184472171|SUPERIORITY||Risk Difference (RD)|15.3||||0.0349|TWO_SIDED|95.0|1.3|29.3|||Regression, Logistic|||||29.3|1.3|0.0349
92284124|NCT03247556|184472171|SUPERIORITY||Risk Difference (RD)|13.1||||0.0698|TWO_SIDED|95.0|-0.9|27.0|||Regression, Logistic|||||27.0|-0.9|0.0698
92284125|NCT03247556|184472172|SUPERIORITY||Least Square Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|4.76||0.1259|TWO_SIDED|95.0|-16.6|2.0|||ANCOVA|||||2.0|-16.6|0.1259
92178687|NCT04244175|184253268|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.4|||=|0.044|TWO_SIDED|90.0|-0.8|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 43)||-0.1|-0.8|=0.044
92256788|NCT03650387|184416624|OTHER||||||<|0.0001||||||Bonferroni-Holm was used for alpha correction.|Exact one-sample binomial test|The one-sample binomial test was used to test whether the probability of being a responder (p) is significantly above 60%.||||||< 0.0001
92178688|NCT04244175|184253268|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.199|TWO_SIDED|90.0|-0.7|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 71)|CVL-865 25 mg BID vs Placebo (Day 71)||0.1|-0.7|=0.199
92178689|NCT04244175|184253268|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.171|TWO_SIDED|90.0|-0.7|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID vs Placebo (Day 71)||0.1|-0.7|=0.171
92178690|NCT04244175|184253268|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.125|TWO_SIDED|90.0|-0.7|0.0|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 71)||0.0|-0.7|=0.125
92256789|NCT03650387|184416625|OTHER||||||<|0.0001||||||Bonferroni-Holm was used for alpha correction.|Exact one-sample binomial test|The one-sample binomial test was used to test whether the probability of being a responder (p) is significantly above 60%.||||||< 0.0001
92284126|NCT03247556|184472172|SUPERIORITY||Least Square Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|4.78||0.7417|TWO_SIDED|95.0|-7.8|10.9|||ANCOVA|||||10.9|-7.8|0.7417
92178691|NCT04244175|184253269|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|0.0|||=|0.767|TWO_SIDED|90.0|-0.3|0.2|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 15)|CVL-865 25 mg BID vs Placebo (Day 15)||0.2|-0.3|=0.767
92256790|NCT02903966|184416655|OTHER||Least Square Mean Difference|-0.18|||||TWO_SIDED|95.0|-1.23|0.87|||||Analysis performed using a Mixed Models Repeated Measures (MMRM) model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and baseline value by visit interactions|||0.87|-1.23|
92256791|NCT02903966|184416656|OTHER||Least Square Mean Difference|0.02|||||TWO_SIDED|95.0|-1.18|1.22|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and baseline value by visit interactions|||1.22|-1.18|
92256792|NCT02903966|184416657|OTHER||Least Square Mean Difference|-0.05|||||TWO_SIDED|95.0|-4.11|4.02|||||Day 15. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||4.02|-4.11|
92256793|NCT02903966|184416657|OTHER||Least Square Mean Difference|-3.17|||||TWO_SIDED|95.0|-5.99|-0.35|||||Day 29. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||-0.35|-5.99|
92256794|NCT02903966|184416657|OTHER||Least Square Mean Difference|-1.69|||||TWO_SIDED|95.0|-6.26|2.88|||||Day 43. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||2.88|-6.26|
92284127|NCT03247556|184472173|SUPERIORITY||Least Square Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.97||0.0484|TWO_SIDED|95.0|-3.8|0.0|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-0.0|-3.8|0.0484
92178692|NCT04244175|184253269|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|0.2|||=|0.178|TWO_SIDED|90.0|0.0|0.5|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID vs Placebo (Day 15)||0.5|0.0|=0.178
92256795|NCT02903966|184416658|OTHER||Least Square Mean Difference|0.29|||||TWO_SIDED|95.0|-4.01|4.59|||||Day 57. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||4.59|-4.01|
92256796|NCT02903966|184416658|OTHER||Least Square Mean Difference|0.11|||||TWO_SIDED|95.0|-3.64|3.85|||||Day 71. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||3.85|-3.64|
92256797|NCT02903966|184416658|OTHER||Least Square Mean Difference|1.12|||||TWO_SIDED|95.0|-2.87|5.1|||||Day 85. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||5.10|-2.87|
92256798|NCT02903966|184416659|OTHER||Ratio|0.7|||||TWO_SIDED|95.0|0.27|1.8|||||Day 15. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||1.80|0.27|
92256799|NCT02903966|184416659|OTHER||Ratio|0.44|||||TWO_SIDED|95.0|0.2|1.0|||||Day 29. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||1.00|0.20|
92256800|NCT02903966|184416659|OTHER||Ratio|0.23|||||TWO_SIDED|95.0|0.09|0.62|||||Day 43. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||0.62|0.09|
92256801|NCT02903966|184416660|OTHER||Ratio|0.49|||||TWO_SIDED|95.0|0.25|0.97|||||Day 57. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||0.97|0.25|
92256802|NCT02903966|184416660|OTHER||Ratio|0.56|||||TWO_SIDED|95.0|0.2|1.57|||||Day 71. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||1.57|0.20|
92256803|NCT02903966|184416660|OTHER||Ratio|0.82|||||TWO_SIDED|95.0|0.31|2.18|||||Day 85. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||2.18|0.31|
92256804|NCT02903966|184416661|OTHER||Least Square Mean Difference|0.01|||||TWO_SIDED|95.0|-2.05|2.07|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||2.07|-2.05|
92256805|NCT02903966|184416662|OTHER||Least Square Mean Difference|0.08|||||TWO_SIDED|95.0|-2.11|2.27|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||2.27|-2.11|
92256806|NCT02903966|184416663|OTHER||Least Square Mean Difference|-0.76|||||TWO_SIDED|95.0|-5.29|3.77|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||3.77|-5.29|
92256807|NCT02903966|184416664|OTHER||Least Square Mean Difference|-0.8|||||TWO_SIDED|95.0|-5.68|4.08|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||4.08|-5.68|
92178693|NCT04244175|184253269|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|0.1|||=|0.542|TWO_SIDED|90.0|-0.1|0.3|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 15)||0.3|-0.1|=0.542
92178694|NCT04244175|184253269|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.106|TWO_SIDED|90.0|-0.6|0.0|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 43)|CVL-865 25 mg BID vs Placebo (Day 43)||0.0|-0.6|=0.106
92178695|NCT04244175|184253269|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|0.1|||=|0.663|TWO_SIDED|90.0|-0.2|0.4|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID vs Placebo (Day 43)||0.4|-0.2|=0.663
92182808|NCT02609048|184264696|SUPERIORITY||Difference in LSM|3.4|STANDARD_ERROR_OF_MEAN|1.25||0.0115|TWO_SIDED|95.0|0.8|6.0||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Cognitive Domain Score||6.0|0.8|0.0115
92178696|NCT04244175|184253269|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.1|||=|0.488|TWO_SIDED|90.0|-0.4|0.2|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 43)||0.2|-0.4|=0.488
92178697|NCT04244175|184253269|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.1|TWO_SIDED|90.0|-0.7|0.0|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 71)|CVL-865 25 mg BID vs Placebo (Day 71)||0.0|-0.7|=0.100
92178698|NCT04244175|184253269|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|0.0|||=|0.969|TWO_SIDED|90.0|-0.3|0.3|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID vs Placebo (Day 71)||0.3|-0.3|=0.969
92256808|NCT02903966|184416669|OTHER||Least Square Mean Difference|-0.36|||||TWO_SIDED|95.0|-1.58|0.86|||||Day 15. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||0.86|-1.58|
92256809|NCT02903966|184416669|OTHER||Least Square Mean Difference|-0.1|||||TWO_SIDED|95.0|-1.29|1.08|||||Day 29. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||1.08|-1.29|
92256810|NCT02903966|184416669|OTHER||Least Square Mean Difference|-0.34|||||TWO_SIDED|95.0|-1.72|1.04|||||Day 43. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||1.04|-1.72|
92256811|NCT02903966|184416670|OTHER||Least Square Mean Difference|-0.06|||||TWO_SIDED|95.0|-1.87|1.75|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||1.75|-1.87|
92256812|NCT01320033|184416687|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.006|TWO_SIDED|95.0|-6.1|-1.1|||ANCOVA|||||-1.1|-6.1|0.006
92256813|NCT01320033|184416687|SUPERIORITY||Mean Difference (Final Values)|-2.9||||0.024|TWO_SIDED|95.0|-5.4|-0.4|||ANCOVA|||||-0.4|-5.4|0.024
92256814|NCT01320033|184416687|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.595|TWO_SIDED|95.0|-3.2|1.8|||ANCOVA|||||1.8|-3.2|0.595
92178699|NCT04244175|184253269|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.2|||=|0.344|TWO_SIDED|90.0|-0.4|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 71)||0.1|-0.4|=0.344
92256815|NCT02425891|184416694|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.8||||0.0025|TWO_SIDED|95.0|0.69|0.92|||Log Rank|||||0.92|0.69|0.0025
92256816|NCT02425891|184416695|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.49|0.78|||Log Rank|||||0.78|0.49|<.0001
92256817|NCT02425891|184416696|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.87||||0.077|TWO_SIDED|95.0|0.75|1.02|||Log Rank|||||1.02|0.75|0.0770
92182809|NCT02609048|184264696|SUPERIORITY||Difference in LSM|1.8|STANDARD_ERROR_OF_MEAN|1.1||0.1256|TWO_SIDED|95.0|-0.5|4.0||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Cognitive Domain Score||4.0|-0.5|0.1256
92256818|NCT02425891|184416697|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.67||||0.0016|TWO_SIDED|95.0|0.53|0.86|||Log Rank|||||0.86|0.53|0.0016
92256819|NCT02425891|184416698|SUPERIORITY|Stratified Analysis|Difference in Overall Response Rates|10.12||||0.0021|TWO_SIDED|95.0|3.4|16.84|||Cochran-Mantel-Haenszel|||||16.84|3.40|0.0021
92256820|NCT02425891|184416699|SUPERIORITY|Stratified Analysis|Difference in Overall Response Rates|16.3||||0.0016|TWO_SIDED|95.0|5.67|26.92|||Cochran-Mantel-Haenszel|||||26.92|5.67|0.0016
92256821|NCT02425891|184416700|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.78||||0.0285|TWO_SIDED|95.0|0.63|0.98|||Log Rank|||||0.98|0.63|0.0285
92256822|NCT02425891|184416701|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.6||||0.0047|TWO_SIDED|95.0|0.43|0.86|||Log Rank|||||0.86|0.43|0.0047
92256823|NCT02425891|184416702|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.98||||0.8078|TWO_SIDED|95.0|0.81|1.18|||Log Rank|||||1.18|0.81|0.8078
92256824|NCT02425891|184416703|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.98||||0.8879|TWO_SIDED|95.0|0.73|1.31|||Log Rank|||||1.31|0.73|0.8879
92256825|NCT02145429|184416731|OTHER||Hazard Ratio (HR)|0.32||||0.04|TWO_SIDED|95.0|0.1|0.98|||Log Rank|||||0.98|0.10|0.04
92256826|NCT02145429|184416732|OTHER||Mean Difference (Final Values)|-1.18|||<|0.001|TWO_SIDED|95.0|-2.03|-0.31|||Mixed Models Analysis|||||-0.31|-2.03|<0.001
92256827|NCT02145429|184416733|OTHER||Mean Difference (Final Values)|-0.14||||0.26|TWO_SIDED|95.0|-1.89|1.62|||Mixed Models Analysis|||||1.62|-1.89|0.26
92256828|NCT02943577|184416734|SUPERIORITY||Least Squares Mean Difference|-1.0||||0.2398|TWO_SIDED|95.0|-2.7|0.68|||Mixed Model Repeated Measures (MMRM)|||||0.68|-2.70|0.2398
92256829|NCT02943577|184416735|SUPERIORITY||Least Squares Mean Difference|0.4||||0.5522|TWO_SIDED|95.0|-0.95|1.77|||Mixed Model Repeated Measures (MMRM)|||||1.77|-0.95|0.5522
92256830|NCT02943577|184416736|SUPERIORITY||Least Squares Mean Difference|0.0||||0.9901|TWO_SIDED|95.0|-2.01|1.99|||Mixed Model Repeated Measures (MMRM)|||||1.99|-2.01|0.9901
92256831|NCT02943577|184416737|SUPERIORITY||Least Squares Mean Difference|0.5||||0.5563|TWO_SIDED|95.0|-1.17|2.17|||Mixed Model Repeated Measures (MMRM)|||||2.17|-1.17|0.5563
92178700|NCT04244175|184253270|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.4|||=|0.01|TWO_SIDED|90.0|-0.7|-0.2|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 15)|CVL-865 25 mg BID vs Placebo (Day 15)||-0.2|-0.7|=0.010
92178701|NCT04244175|184253270|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.1|||=|0.376|TWO_SIDED|90.0|-0.4|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID vs Placebo (Day 15)||0.1|-0.4|=0.376
92178702|NCT04244175|184253270|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.044|TWO_SIDED|90.0|-0.5|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 15)||-0.1|-0.5|=0.044
92178703|NCT04244175|184253270|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.6|||=|0.005|TWO_SIDED|90.0|-1.0|-0.3|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 43)|CVL-865 25 mg BID vs Placebo (Day 43)||-0.3|-1.0|=0.005
92256832|NCT01355224|184416738|SUPERIORITY_OR_OTHER|||||||0.015|||||||Regression, Linear|Adjusted for age, gender, BMI, baseline intention.||||||.0150
92256833|NCT01355224|184416739|SUPERIORITY_OR_OTHER|||||||0.0365|||||||Regression, Linear|Adjusted for age, gender, BMI, and baseline intent.||||||0.0365
92256834|NCT01355224|184416740|SUPERIORITY_OR_OTHER|||||||0.0622|||||||Regression, Linear|Adjusted for age, gender, BMI, and baseline intent.||||||0.0622
92256835|NCT03991936|184416742|SUPERIORITY||Mean Difference (Net)|-2.635|||<|0.001|TWO_SIDED|||||The threshold for statistical analysis was p = 0.05|t-test, 2 sided|||The null hypothesis was that the change from baseline to 24 weeks in the Nail Psoriasis Severity Index (NAPSI) for the triamcinolone acetonide groups: 2.5 mg/mL, 5.0 mg/mL, 7.5 mg/mL, and 10 mg/mL would be no different than the change from baseline to 24 weeks for the placebo group.||||<0.001
92256836|NCT03502941|184416762|SUPERIORITY||||||<|0.05||||||P value was calculated.|t-test, 2 sided|||||||<0.05
92256837|NCT03502941|184416763|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92256838|NCT00808028|184416770|SUPERIORITY_OR_OTHER||||||>|0.9999|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||>0.9999
92256839|NCT00808028|184416770|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0007
92256840|NCT00808028|184416770|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
92256841|NCT00808028|184416770|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
92256842|NCT00808028|184416770|SUPERIORITY_OR_OTHER||||||>|0.9999|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||>0.9999
92256843|NCT00808028|184416770|SUPERIORITY_OR_OTHER|||||||0.0392|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0392
92256844|NCT00808028|184416770|SUPERIORITY_OR_OTHER|||||||0.0225|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0225
92256845|NCT00808028|184416770|SUPERIORITY_OR_OTHER|||||||0.0244|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0244
92284128|NCT03247556|184472173|SUPERIORITY||Least Square Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.96||0.2084|TWO_SIDED|95.0|-3.1|0.7|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||0.7|-3.1|0.2084
92256846|NCT00808028|184416771|SUPERIORITY_OR_OTHER||||||>|0.9999|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||>0.9999
92256847|NCT00808028|184416771|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0004
92284129|NCT03247556|184472173|SUPERIORITY||Least Square Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.06||0.0042|TWO_SIDED|95.0|-5.1|-1.0|||ANCOVA|||This analysis pertains to the Inattention subscale score||-1.0|-5.1|0.0042
92256848|NCT00808028|184416771|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
92256849|NCT00808028|184416771|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
92256850|NCT00808028|184416771|SUPERIORITY_OR_OTHER||||||>|0.9999|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||>0.9999
92284130|NCT03247556|184472173|SUPERIORITY||Least Square Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.06||0.1392|TWO_SIDED|95.0|-3.6|0.5|||ANCOVA|||This analysis pertains to the Inattention subscale score||0.5|-3.6|0.1392
92284131|NCT03247556|184472174|SUPERIORITY||Least Square Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.07||0.381|TWO_SIDED|95.0|-3.0|1.2|||ANCOVA|||||1.2|-3.0|0.3810
92284132|NCT03247556|184472174|SUPERIORITY||Least Square Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|1.08||0.0432|TWO_SIDED|95.0|-4.3|-0.1|||ANCOVA|||||-0.1|-4.3|0.0432
92284133|NCT03247556|184472175|SUPERIORITY|||||||0.1433|||||||Chi-squared|||This analysis pertains to Week 1||||0.1433
92284134|NCT03247556|184472175|SUPERIORITY|||||||0.0114|||||||Chi-squared|||This analysis pertains to Week 2||||0.0114
92284135|NCT03247556|184472175|SUPERIORITY|||||||0.0008|||||||Chi-squared|||This analysis pertains to Week 3||||0.0008
92256851|NCT00808028|184416771|SUPERIORITY_OR_OTHER|||||||0.0036|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0036
92256852|NCT00808028|184416771|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
92256853|NCT00808028|184416771|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
92256854|NCT01599585|184416789|NON_INFERIORITY_OR_EQUIVALENCE|One tailed test at .05a = .05 margin was set at standardized difference of .50|Regression, Beta|0.4|||||TWO_SIDED|90.0|0.12|0.68||||||||.68|.12|
92256855|NCT01599585|184416801|NON_INFERIORITY_OR_EQUIVALENCE|One tailed test at .05a = .05 margin was set at standardized difference of .50|Regression, Beta|0.47|||||TWO_SIDED|90.0|0.16|0.78||||||||.78|.16|
92256856|NCT05706623|184416824|OTHER|Analysis of variance model|Geometric least squares (LS) mean ratio|0.8354|||||TWO_SIDED|90.0|0.5216|1.338||||||Moderate Hepatic Impairment Group (test) versus Normal Hepatic Function Group (reference). The analysis was performed on natural log (ln) transformed parameters using an analysis of variance model with the hepatic function group as a fixed effect.||1.338|0.5216|
92284136|NCT03247556|184472175|SUPERIORITY|||||||0.0197|||||||Chi-squared|||This analysis pertains to Week 4||||0.0197
92178704|NCT04244175|184253270|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.1|||=|0.549|TWO_SIDED|90.0|-0.5|0.2|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID vs Placebo (Day 43)||0.2|-0.5|=0.549
92178705|NCT04244175|184253270|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.4|||=|0.048|TWO_SIDED|90.0|-0.7|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 43)||-0.1|-0.7|=0.048
92256857|NCT05706623|184416826|OTHER|Analysis of variance model|Geometric LS Mean Ratio|0.9356|||||TWO_SIDED|90.0|0.5889|1.4864||||||Moderate Hepatic Impairment Group (test) versus Normal Hepatic Function Group (reference). The analysis was performed on ln transformed parameters using an analysis of variance model with the hepatic function group as a fixed effect.||1.4864|0.5889|
92256858|NCT03070119|184416847|SUPERIORITY||Least square (LS) geometric mean ratio|0.86|||||TWO_SIDED|95.0|0.69|1.08||||||Week 52 - The analysis was based on an analysis of covariance (ANCOVA) model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation (MI) including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.08|0.69|
92256859|NCT03070119|184416847|SUPERIORITY||LS geometric mean ratio|0.91|||=|0.3711|TWO_SIDED|95.0|0.75|1.11|||ANCOVA|ANCOVA model using MI.||Week 104 - The analysis was based on an ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.11|0.75|=0.3711
92256860|NCT03070119|184416847|SUPERIORITY||LS geometric mean ratio|1.06|||=|0.6344|TWO_SIDED|95.0|0.84|1.34|||ANCOVA|ANCOVA model using MI.||Week 148 - The analysis was based on an ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.34|0.84|=0.6344
92256861|NCT03070119|184416848|SUPERIORITY||LS geometric mean ratio|0.8|||||TWO_SIDED|95.0|0.63|1.03||||||Week 52 - The analysis was based on an ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.03|0.63|
92284137|NCT03247556|184472175|SUPERIORITY|||||||0.0573|||||||Chi-squared|||This analysis pertains to Week 5||||0.0573
92284138|NCT03247556|184472175|SUPERIORITY|||||||0.0105|||||||Chi-squared|||This analysis pertains to Week 6||||0.0105
92284139|NCT03247556|184472175|SUPERIORITY|||||||0.0004|||||||Chi-squared|||This analysis pertains to Week 7||||0.0004
92284140|NCT03247556|184472175|SUPERIORITY|||||||0.2573|||||||Chi-squared|||This analysis pertains to Week 1||||0.2573
92284141|NCT03247556|184472175|SUPERIORITY|||||||0.165|||||||Chi-squared|||This analysis pertains to Week 2||||0.1650
92178706|NCT04244175|184253270|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.6|||=|0.005|TWO_SIDED|90.0|-1.0|-0.3|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 71)|CVL-865 25 mg BID vs Placebo (Day 71)||-0.3|-1.0|=0.005
92178707|NCT04244175|184253270|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.1|||=|0.549|TWO_SIDED|90.0|-0.5|0.2|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID vs Placebo (Day 71)||0.2|-0.5|=0.549
92178708|NCT04244175|184253270|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.4|||=|0.048|TWO_SIDED|90.0|-0.7|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 71)||-0.1|-0.7|=0.048
92178709|NCT04244175|184253271|SUPERIORITY|Changes from Baseline in QOLIE-31 Overall Scores was compared using an ANCOVA model with the Baseline score as a covariate and treatment group included in the model as fixed effects in the mITT population. This estimand included available post-Baseline response data that occurred before discontinuation of treatment or the addition of rescue medication.|LS Mean Difference|-0.49|||=|0.829|TWO_SIDED|90.0|-4.23|3.26|||ANCOVA||CVL-865 25 mg BID - Placebo|CVL-865 25 mg BID vs Placebo||3.26|-4.23|=0.829
92178710|NCT04244175|184253271|SUPERIORITY|Changes from Baseline in QOLIE-31 Overall Scores was compared using an ANCOVA model with the Baseline score as a covariate and treatment group included in the model as fixed effects in the mITT population. This estimand included available post-Baseline response data that occurred before discontinuation of treatment or the addition of rescue medication.|LS Mean Difference|-0.2|||=|0.927|TWO_SIDED|90.0|-3.87|3.46|||ANCOVA||CVL-865 7.5 mg BID - Placebo|CVL-865 7.5 mg BID vs Placebo||3.46|-3.87|=0.927
92256862|NCT03070119|184416848|SUPERIORITY||LS geometric mean ratio|0.83|||=|0.2306|TWO_SIDED|95.0|0.6|1.13|||ANCOVA|ANCOVA model using MI.||Week 104 - The analysis was based on an ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.13|0.60|=0.2306
92178711|NCT04244175|184253271|SUPERIORITY|Changes from Baseline in QOLIE-31 Overall Scores was compared using an ANCOVA model with the Baseline score as a covariate and treatment group included in the model as fixed effects in the mITT population. This estimand included available post-Baseline response data that occurred before discontinuation of treatment or the addition of rescue medication.|LS Mean Difference|-0.35|||=|0.859|TWO_SIDED|90.0|-3.57|2.88|||ANCOVA||CVL-865 7.5 mg BID / 25 mg BID - Placebo|CVL-865 7.5 mg BID / 25 mg BID vs Placebo||2.88|-3.57|=0.859
92178712|NCT04244175|184253272|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|-0.013|||=|0.788|TWO_SIDED|90.0|-0.096|0.069|||ANCOVA||CVL-865 25 mg BID - Placebo (HUI-2)|CVL-865 25 mg BID vs Placebo (HUI-2)||0.069|-0.096|=0.788
92178713|NCT04244175|184253272|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|0.077|||=|0.126|TWO_SIDED|90.0|-0.006|0.16|||ANCOVA||CVL-865 7.5 mg BID - Placebo (HUI-2)|CVL-865 7.5 mg BID vs Placebo (HUI-2)||0.160|-0.006|=0.126
92256863|NCT03070119|184416848|SUPERIORITY||LS geometric mean ratio|0.92|||=|0.673|TWO_SIDED|95.0|0.61|1.38|||ANCOVA|ANCOVA model using MI.||Week 148 - The analysis was based on an ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.38|0.61|=0.6730
92284142|NCT03247556|184472175|SUPERIORITY|||||||0.0372|||||||Chi-squared|||This analysis pertains to Week 3||||0.0372
92178714|NCT04244175|184253272|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|0.032|||=|0.461|TWO_SIDED|90.0|-0.039|0.103|||ANCOVA||CVL-865 7.5 mg BID / 25 mg BID - Placebo (HUI-2)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (HUI-2)||0.103|-0.039|=0.461
92178715|NCT04244175|184253272|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|-0.032|||=|0.661|TWO_SIDED|90.0|-0.154|0.089|||ANCOVA||CVL-865 25 mg BID - Placebo (HUI-3)|CVL-865 25 mg BID vs Placebo (HUI-3)||0.089|-0.154|=0.661
92256864|NCT03070119|184416849|SUPERIORITY||Least square (LS) mean difference|3.6|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|95.0|0.5|6.7||||||Week 52 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline ALSFRS-R total score, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||6.7|0.5|
92284143|NCT03247556|184472175|SUPERIORITY|||||||0.1711|||||||Chi-squared|||This analysis pertains to Week 4||||0.1711
92284144|NCT03247556|184472175|SUPERIORITY|||||||0.1428|||||||Chi-squared|||This analysis pertains to Week 5||||0.1428
92284145|NCT03247556|184472175|SUPERIORITY|||||||0.2148|||||||Chi-squared|||This analysis pertains to Week 6||||0.2148
92284146|NCT03247556|184472175|SUPERIORITY|||||||0.0662|||||||Chi-squared|||This analysis pertains to Week 7||||0.0662
92284147|NCT00358449|184472185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.865|TWO_SIDED|95.0|0.04|5.44|||Regression, Logistic|||||5.44|0.04|0.865
92256865|NCT03070119|184416849|SUPERIORITY||LS mean difference|3.7|STANDARD_ERROR_OF_MEAN|2.28|=|0.1054|TWO_SIDED|95.0|-0.8|8.2|||ANCOVA|ANCOVA model using MI.||Week 104 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline ALSFRS-R total score, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||8.2|-0.8|=0.1054
92256866|NCT03070119|184416849|SUPERIORITY||LS mean difference|3.6|STANDARD_ERROR_OF_MEAN|2.46|=|0.1432|TWO_SIDED|95.0|-1.2|8.4|||ANCOVA|ANCOVA model using MI.||Week 148 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline ALSFRS-R total score, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||8.4|-1.2|=0.1432
92256867|NCT03070119|184416850|SUPERIORITY||LS mean difference|8.1|STANDARD_ERROR_OF_MEAN|3.99|||TWO_SIDED|95.0|0.3|15.9||||||Week 52 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline percent predicted SVC and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||15.9|0.3|
92284148|NCT00358449|184472185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.21||||0.19|TWO_SIDED|95.0|0.01|2.07|||Regression, Logistic|||||2.07|0.01|0.190
92256868|NCT03070119|184416850|SUPERIORITY||LS mean difference|9.3|STANDARD_ERROR_OF_MEAN|5.6|=|0.0963|TWO_SIDED|95.0|-1.7|20.4|||ANCOVA|ANCOVA model using MI.||Week 104 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline percent predicted SVC and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||20.4|-1.7|=0.0963
92256869|NCT03070119|184416850|SUPERIORITY||LS mean difference|4.3|STANDARD_ERROR_OF_MEAN|5.56|=|0.4388|TWO_SIDED|95.0|-6.6|15.2|||ANCOVA|ANCOVA model using MI.||Week 148 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline percent predicted SVC and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||15.2|-6.6|= 0.4388
92284149|NCT00358449|184472188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128||||0.551|TWO_SIDED|95.0|-0.303|0.56|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.560|-0.303|0.551
92284150|NCT00358449|184472188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.593||95.0|-0.331|0.572|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.572|-0.331|0.593
92284151|NCT00358449|184472188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.334||||0.239|TWO_SIDED|95.0|-0.232|0.901|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.901|-0.232|0.239
92284152|NCT00358449|184472188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.211||||0.488|TWO_SIDED|95.0|-0.401|0.823|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.823|-0.401|0.488
92284153|NCT00358449|184472189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.356||||0.139|TWO_SIDED|95.0|-0.121|0.833|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.833|-0.121|0.139
92256870|NCT03070119|184416851|SUPERIORITY||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.109|||TWO_SIDED|95.0|0.051|0.477||||||Week 52 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline HHD overall megascore and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||0.477|0.051|
92256871|NCT03070119|184416851|SUPERIORITY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.145|=|0.3207|TWO_SIDED|95.0|-0.141|0.43|||ANCOVA|ANCOVA model using MI.||Week 104 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline HHD overall megascore and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||0.430|-0.141|=0.3207
92256872|NCT03070119|184416851|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.091|=|0.5452|TWO_SIDED|95.0|-0.124|0.234|||ANCOVA|ANCOVA model using MI.||Week 148 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline HHD overall megascore and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||0.234|-0.124|=0.5452
92256873|NCT03070119|184416853|SUPERIORITY||Hazard Ratio (HR)|0.64|||=|0.4202|TWO_SIDED|95.0|0.282|1.461|||Log Rank|The analysis was based on a log rank test stratified by median baseline plasma NfL.|The analysis was based on a Cox proportional hazards model adjusted for baseline plasma NfL, and riluzole or edaravone use.|||1.461|0.282|=0.4202
92256874|NCT03070119|184416854|SUPERIORITY||Hazard Ratio (HR)|0.52|||=|0.3108|TWO_SIDED|95.0|0.199|1.357|||Log Rank|The analysis was based on a log rank test stratified by median baseline plasma NfL.|The analysis was based on a Cox proportional hazards model adjusted for baseline plasma NfL, and riluzole or edaravone use.|||1.357|0.199|=0.3108
92256875|NCT01996865|184416855|OTHER||Hazard Ratio (HR)|0.8||||0.3296|TWO_SIDED|95.0|0.6|1.2|||Regression, Cox|||||1.2|0.6|0.3296
92256876|NCT01996865|184416856|OTHER||Hazard Ratio (HR)|0.7||||0.1222|TWO_SIDED|95.0|0.4|1.1|||Regression, Cox|||||1.1|0.4|0.1222
92284154|NCT00358449|184472189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.371||||0.145||95.0|-0.133|0.874|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.874|-0.133|0.145
92284155|NCT00358449|184472189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.433||||0.095|TWO_SIDED|95.0|-0.08|0.946|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.946|-0.080|0.095
92284156|NCT00358449|184472189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.343||||0.219|TWO_SIDED|95.0|-0.214|0.899|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.899|-0.214|0.219
92284157|NCT00358449|184472190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59||||0.832|TWO_SIDED|95.0|-13.47|16.65|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||16.65|-13.47|0.832
92284158|NCT00358449|184472190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.92||||0.622|TWO_SIDED|95.0|-12.01|19.84|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||19.84|-12.01|0.622
92284159|NCT00358449|184472190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.83||||0.317|TWO_SIDED|95.0|-11.86|35.52|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||35.52|-11.86|0.317
92256877|NCT00557362|184416906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.098||||0.29|TWO_SIDED|95.0|-0.28|0.083|||Regression, Linear|Multiple linear regression model adjusted for enrollment BSCVA and corneal de-epithelialization||||0.083|-0.28|0.29
92256878|NCT00557362|184416907|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.4|TWO_SIDED|95.0|0.76|2.02|||Regression, Cox|||||2.02|0.76|0.40
92256879|NCT00557362|184416908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.37|TWO_SIDED|95.0|-0.2|0.53|||Regression, Linear|||||0.53|-0.20|0.37
92256880|NCT00557362|184416909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.62|TWO_SIDED|95.0|-0.25|0.41|||Regression, Linear|||Best spectacle-corrected visual acuity (BSCVA) was examined in a linear regression model with enrollment BSCVA and treatment arm as covariates among a subgroup of ulcers caused by Fusarium spp.||0.41|-0.25|0.62
92256881|NCT00557362|184416909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.26|TWO_SIDED|95.0|-0.57|0.17|||Regression, Linear|||Best spectacle-corrected visual acuity (BSCVA) was evaluated in a linear regression model with enrollment BSCVA and treatment arm as covariates in a subgroup of ulcers caused by Aspergillus spp.||0.17|-0.57|0.26
92256882|NCT00557362|184416910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.53|TWO_SIDED|95.0|-0.26|0.14|||Regression, Linear|||||0.14|-0.26|0.53
92256883|NCT00397631|184416943|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|0.12|<|0.001||95.0|-1.13|-0.65|||ANCOVA|Model terms: treatment, baseline HbA1c||||-0.65|-1.13|<0.001
92256884|NCT00397631|184416944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.8|STANDARD_ERROR_OF_MEAN|3.87|<|0.001||95.0|-30.4|-15.2|||ANCOVA|Model terms: treatment, baseline FPG||||-15.2|-30.4|<0.001
92256885|NCT00397631|184416945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-44.7|STANDARD_ERROR_OF_MEAN|6.37|<|0.001||95.0|-57.2|32.2|||ANCOVA|Model terms: treatment, baseline 2-hour PPG||||32.2|-57.2|<0.001
92256886|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-1.17|||||TWO_SIDED|95.0|-25.61|23.27|||||Comparison for fasting, Day 7|An estimation approach was used.||23.27|-25.61|
92284160|NCT00358449|184472190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.1||||0.246|TWO_SIDED|95.0|-10.91|41.11|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||41.11|-10.91|0.246
92284161|NCT00358449|184472191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.28||||0.046|TWO_SIDED|95.0|0.39|38.18|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||38.18|0.39|0.046
92178716|NCT04244175|184253272|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|0.115|||=|0.124|TWO_SIDED|90.0|-0.008|0.237|||ANCOVA||CVL-865 7.5 mg BID - Placebo (HUI-3)|CVL-865 7.5 mg BID vs Placebo (HUI-3)||0.237|-0.008|=0.124
92178717|NCT04244175|184253272|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|0.041|||=|0.518|TWO_SIDED|90.0|-0.064|0.146|||ANCOVA||CVL-865 7.5 mg BID / 25 mg BID - Placebo (HUI-3)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (HUI-3)||0.146|-0.064|=0.518
92178718|NCT02585323|184253284|SUPERIORITY||Adjusted difference in mean change|13.1||||0.05|TWO_SIDED|95.0|1.6|24.5|||ANCOVA|||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing time in MVPA at 13 weeks (primary end point) between groups, adjusting for baseline MVPA, diagnosis, and blocking.||24.5|1.6|0.05
92178719|NCT02585323|184253285|SUPERIORITY||Adjusted difference in mean change|-29.5||||0.05|TWO_SIDED|95.0|-75.8|16.7|||ANCOVA|||||16.7|-75.8|0.05
92178720|NCT02585323|184253286|SUPERIORITY||Adjusted difference in mean change|-1.4||||0.05|TWO_SIDED|95.0|-7.8|4.9|||ANCOVA|||||4.9|-7.8|0.05
92178721|NCT02585323|184253287|SUPERIORITY||Adjusted diff in mean change at T0-T1|2.5||||0.05|TWO_SIDED|95.0|-4.2|9.5|||ANCOVA|||||9.5|-4.2|0.05
92178722|NCT02585323|184253288|SUPERIORITY||Adjusted diff in mean change at T0-T1|-3.8||||0.05|TWO_SIDED|95.0|-14.9|7.2|||ANCOVA|||||7.2|-14.9|0.05
92178723|NCT02585323|184253289|SUPERIORITY||Adjusted diff in mean change at T0-T1|2.8||||0.05|TWO_SIDED|95.0|-3.3|8.8|||ANCOVA|||||8.8|-3.3|0.05
92178724|NCT02585323|184253290|SUPERIORITY||Adjusted diff in mean change at T0-T1|1.4||||0.05|TWO_SIDED|95.0|-5.0|7.9|||ANCOVA|||||7.9|-5.0|0.05
92178725|NCT02585323|184253291|SUPERIORITY||Adjusted diff in mean change at T0-T1|-0.4||||0.05|TWO_SIDED|95.0|-1.7|0.8|||ANCOVA|||||0.8|-1.7|0.05
92178726|NCT02585323|184253292|SUPERIORITY||Adjusted diff in mean change at T0-T1|-2.3||||0.05|TWO_SIDED|95.0|-6.6|1.9|||ANCOVA|||||1.9|-6.6|0.05
92178727|NCT02585323|184253293|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.7||||0.05|TWO_SIDED|95.0|0.2|1.2|||ANCOVA|||||1.2|0.2|0.05
92178728|NCT02585323|184253294|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.7||||0.05|TWO_SIDED|95.0|0.2|1.1|||ANCOVA|||||1.1|0.2|0.05
92178729|NCT02585323|184253295|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.3||||0.05|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||||0.9|-0.3|0.05
92284162|NCT00358449|184472191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.21||||0.16|TWO_SIDED|95.0|-5.83|34.25|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||34.25|-5.83|0.160
92178730|NCT02585323|184253296|SUPERIORITY||Adjusted diff in mean change at T0-T1|-0.1||||0.05|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||||0.2|-0.4|0.05
92178731|NCT02585323|184253297|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.2||||0.05|TWO_SIDED|95.0|-0.1|0.5|||ANCOVA|||||0.5|-0.1|0.05
92178732|NCT02585323|184253298|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.1||||0.05|TWO_SIDED|95.0|-0.6|0.8|||ANCOVA|||||0.8|-0.6|0.05
92178733|NCT02585323|184253299|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.1||||0.05|TWO_SIDED|95.0|-0.1|0.3|||ANCOVA|||||0.3|-0.1|0.05
92178734|NCT03364127|184253317|SUPERIORITY||Mean Difference (Net)|-0.12||||0.702|TWO_SIDED|95.0|-0.76|0.51|||ANCOVA|Full information maximum likelihood for missing data and to retain participants for intention to treat model. Adjusted for baseline value.||||.51|-.76|0.702
92178735|NCT03364127|184253318|SUPERIORITY||Mean Difference (Net)|0.1||||0.77|TWO_SIDED|95.0|-0.58|0.79|||ANCOVA|Full information maximum likelihood for missing data and to retain participants for intention to treat model. Adjusted for baseline value.||||.79|-.58|0.77
92178736|NCT03364127|184253319|SUPERIORITY||Mean Difference (Net)|1.16||||0.436|TWO_SIDED|95.0|-1.76|4.09|||ANCOVA|Full information maximum likelihood for missing data and to retain participants for intention to treat model. Adjusted for baseline value.||||4.09|-1.76|0.436
92178737|NCT03364127|184253320|SUPERIORITY||Hazard Ratio (HR)|2.72||||0.017|TWO_SIDED|95.0|1.13|6.54||Kaplan-Meier curves by treatment arm were examined to determine the rates of return to baseline over the 12-week follow-up period .|Log Rank|||Goal was to assess duration of effect among those who showed a response to the intervention (1.5 or greater decrease in PIN).||6.54|1.13|0.017
92178738|NCT02278211|184253321|OTHER||Hazard Ratio (HR)|1.25||||0.2|TWO_SIDED|95.0|0.89|1.76|||Log Rank|||||1.76|0.89|0.20
92178739|NCT02278211|184253322|OTHER||Hazard Ratio (HR)|2.43||||0.02|TWO_SIDED|95.0|1.15|5.12|||Log Rank|||||5.12|1.15|0.02
92182810|NCT02609048|184264696|SUPERIORITY||Difference in LSM|1.7|STANDARD_ERROR_OF_MEAN|1.22||0.1842|TWO_SIDED|95.0|-0.9|4.2||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Cognitive Domain Score||4.2|-0.9|0.1842
92178740|NCT01385202|184253361|SUPERIORITY_OR_OTHER_LEGACY||Primary effectiveness rate|70.2|||<|0.0001|TWO_SIDED|95.0|60.9|78.4||In the worst-case scenario analysis, over seventy-percent (70.2%, 80/114) of the primary effectiveness cohort (PEC) were free from documented symptomatic atrial tachyarrhythmias during their effectiveness evaluation period.|Fisher Exact|The lower bound of the 95% confidence intervals was 60.9%, significantly higher than the pre-determined performance goal of 50% (p\<0.0001).|The confidence intervals above are the 95% exact binomial confidence intervals.|The null hypothesis was that the rate of freedom from documented symptomatic AF/AFL/AT at 12 months would be less than or equal to the pre-determined performance criterion of 50%. The alternative hypothesis was that the rate of freedom from documented symptomatic AF/AFL/AT at 12 months would be greater than the pre-determined performance criterion of 50%.||78.4|60.9|<0.0001
92178741|NCT01385202|184253361|SUPERIORITY_OR_OTHER_LEGACY||Primary effectiveness rate|74.0|||||TWO_SIDED|95.0|66.0|82.0|||||The 95% confidence intervals above were calculated using the Kaplan-Meier (KM) method.|||82|66|
92178742|NCT04631016|184253420|OTHER||LS Mean Difference|0.024||||0.216|TWO_SIDED|80.0|-0.015|0.063|||Mixed Models Analysis|||||0.063|-0.015|0.216
92178743|NCT04631016|184253423|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.186|TWO_SIDED|80.0|0.57|1.11|||Regression, Cox|||||1.11|0.57|0.186
92178744|NCT04631016|184253444|SUPERIORITY||Least square mean difference|0.067||||0.044|TWO_SIDED|80.0|0.017|0.116||One-sided p-value|Mixed Models Analysis|Kenward-Roger correction has been used for degrees of freedom approximation in the generation of model.||Results are based on the mixed model for repeated measures (MMRM) analysis at Week 12.||0.116|0.017|0.044
92256887|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|13.22|||||TWO_SIDED|95.0|-9.84|36.27|||||Comparison for fasting, Day 7|An estimation approach was used.||36.27|-9.84|
92178745|NCT04631016|184253444|SUPERIORITY||Least square mean difference|0.07||||0.036|TWO_SIDED|80.0|0.02|0.12||One-sided p-value|Mixed Models Analysis|Kenward-Roger correction has been used for degrees of freedom approximation in the generation of model.||Results are based on the MMRM analysis at Week 28.||0.120|0.020|0.036
92178746|NCT04704869|184253459|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.81|1.17||||||||1.17|0.81|
92256888|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-21.77|||||TWO_SIDED|95.0|-41.43|-2.1|||||Comparison for fasting, Day 7|An estimation approach was used.||-2.10|-41.43|
92256889|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-23.1|||||TWO_SIDED|95.0|-42.63|-3.57|||||Comparison for fasting, Day 7|An estimation approach was used.||-3.57|-42.63|
92256890|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-11.79|||||TWO_SIDED|95.0|-30.85|7.28|||||Comparison for fasting, Day 7|An estimation approach was used.||7.28|-30.85|
92256891|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-10.04|||||TWO_SIDED|95.0|-27.66|7.57|||||Comparison for fasting, Day 7|An estimation approach was used.||7.57|-27.66|
92256892|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-15.14|||||TWO_SIDED|95.0|-37.72|7.43|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||7.43|-37.72|
92256893|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-2.1|||||TWO_SIDED|95.0|-23.66|19.45|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||19.45|-23.66|
92256894|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-20.66|||||TWO_SIDED|95.0|-38.75|-2.57|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||-2.57|-38.75|
92256895|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-21.7|||||TWO_SIDED|95.0|-39.7|-3.71|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||-3.71|-39.70|
92256896|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-10.62|||||TWO_SIDED|95.0|-28.62|7.38|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||7.38|-28.62|
92284163|NCT00358449|184472191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.69||||0.078|TWO_SIDED|95.0|-2.1|37.48|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||37.48|-2.10|0.078
92182811|NCT02609048|184264696|SUPERIORITY||Difference in LSM|3.7|STANDARD_ERROR_OF_MEAN|1.7||0.042|TWO_SIDED|95.0|0.1|7.2||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Social Domain Score||7.2|0.1|0.0420
92182812|NCT02609048|184264696|SUPERIORITY||Difference in LSM|0.7|STANDARD_ERROR_OF_MEAN|1.54||0.6384|TWO_SIDED|95.0|-2.4|3.9||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Social Domain Score||3.9|-2.4|0.6384
92256897|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-26.03|||||TWO_SIDED|95.0|-41.94|-10.12|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||-10.12|-41.94|
92256898|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-12.1|||||TWO_SIDED|95.0|-33.56|9.36|||||Comparison for fasting, Day 14|An estimation approach was used.||9.36|-33.56|
92256899|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|4.33|||||TWO_SIDED|95.0|-15.91|24.57|||||Comparison for fasting, Day 14|An estimation approach was used.||24.57|-15.91|
92284164|NCT00358449|184472191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.11||||0.055|TWO_SIDED|95.0|-0.51|42.74|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||42.74|-0.51|0.055
92284165|NCT00358449|184472192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.324||||0.241|TWO_SIDED|95.0|-0.226|0.873|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.873|-0.226|0.241
92284166|NCT00358449|184472192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.371|TWO_SIDED|95.0|-0.32|0.839|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.839|-0.320|0.371
92178747|NCT04490109|184253488|SUPERIORITY|The ANCOVA model for primary endpoint change from Baseline to Week 4 in average WI-NRS will have treatment group and Baseline weekly average WI-NRS as explanatory variables. Hypothesis will be tested using a Dunnett Testing Method, applying pairwise comparisons of each group to vehicle using a one-sided familywise error rate of 0.10. Treatment effect will be estimated as least squares means using vehicle as reference and adjusted using Dunnett Testing Method and presented with one-sided 90% CI.||||||0.0148|||||||ANCOVA|||Approximately 576 subjects may be enrolled to account for 16.7% drop out rate prior to completing the study. A total of 160 evaluable subjects per group are required to achieve at least 80% power to detect a difference of 0.65 in mean WI-NRS change from Baseline to Week 4 between one of two active doses of B244 and vehicle control when assuming a standard deviation of 2.5 and applying a Dunnett Testing Method at a one-sided familywise error rate of 0.10.||||0.0148
92178748|NCT04490109|184253488|SUPERIORITY|The ANCOVA model for primary endpoint change from Baseline to Week 4 in average WI-NRS will have treatment group and Baseline weekly average WI-NRS as explanatory variables. Hypothesis will be tested using a Dunnett Testing Method, applying pairwise comparisons of each group to vehicle using a one-sided familywise error rate of 0.10. Treatment effect will be estimated as least squares means using vehicle as reference and adjusted using Dunnett Testing Method and presented with one-sided 90% CI.||||||0.0143|||||||ANCOVA|||Approximately 576 subjects may be enrolled to account for 16.7% drop out rate prior to completing the study. A total of 160 evaluable subjects per group are required to achieve at least 80% power to detect a difference of 0.65 in mean WI-NRS change from Baseline to Week 4 between one of two active doses of B244 and vehicle control when assuming a standard deviation of 2.5 and applying a Dunnett Testing Method at a one-sided familywise error rate of 0.10.||||0.0143
92178749|NCT04490109|184253490|SUPERIORITY|||||||0.0205|||||||Regression, Logistic|||The frequency and rate of WI-NRS and AI-NRS responders will be reported and compared between treatment groups using a logistic regression model. Generalized estimating equations to account for repeated measures and within-subject variability may also be applied.||||0.0205
92178750|NCT04490109|184253491|SUPERIORITY|||||||0.0044|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0044
92178751|NCT04490109|184253491|SUPERIORITY|||||||0.0077|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0077
92256900|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-25.29|||||TWO_SIDED|95.0|-42.56|-8.02|||||Comparison for fasting, Day 14|An estimation approach was used.||-8.02|-42.56|
92256901|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-19.97|||||TWO_SIDED|95.0|-37.12|-2.82|||||Comparison for fasting, Day 14|An estimation approach was used.||-2.82|-37.12|
92284167|NCT00358449|184472192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.353||||0.291|TWO_SIDED|95.0|-0.317|1.023|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||1.023|-0.317|0.291
92256902|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-21.82|||||TWO_SIDED|95.0|-38.56|-5.08|||||Comparison for fasting, Day 14|An estimation approach was used.||-5.08|-38.56|
92256903|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-18.01|||||TWO_SIDED|95.0|-33.48|-2.55|||||Comparison for fasting, Day 14|An estimation approach was used.||-2.55|-33.48|
92284168|NCT00358449|184472192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.176||||0.653|TWO_SIDED|95.0|-0.965|0.614|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.614|-0.965|0.653
92178752|NCT04490109|184253492|SUPERIORITY|||||||0.04|||||||Regression, Logistic|||The frequency and rate of WI-NRS and AI-NRS responders will be reported and compared between treatment groups using a logistic regression model. Generalized estimating equations to account for repeated measures and within-subject variability may also be applied.||||0.0400
92178753|NCT04490109|184253492|SUPERIORITY|||||||0.0486|||||||Regression, Logistic|||The frequency and rate of WI-NRS and AI-NRS responders will be reported and compared between treatment groups using a logistic regression model. Generalized estimating equations to account for repeated measures and within-subject variability may also be applied.||||0.0486
92178754|NCT04490109|184253494|SUPERIORITY|||||||0.0246|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0246
92256904|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-11.2|||||TWO_SIDED|95.0|-33.21|10.81|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||10.81|-33.21|
92284169|NCT00358449|184472193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.06||||0.123|TWO_SIDED|95.0|-4.0|32.13|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||32.13|-4.00|0.123
92256905|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|4.8|||||TWO_SIDED|95.0|-16.22|25.81|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||25.81|-16.22|
92256906|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-15.23|||||TWO_SIDED|95.0|-32.86|2.41|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||2.41|-32.86|
92178755|NCT04490109|184253494|SUPERIORITY|||||||0.0366|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0366
92178756|NCT04490109|184253495|SUPERIORITY|||||||0.0467|||||||Regression, Logistic|||The frequency and rate of WI-NRS and AI-NRS responders will be reported and compared between treatment groups using a logistic regression model. Generalized estimating equations to account for repeated measures and within-subject variability may also be applied.||||0.0467
92256907|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-17.01|||||TWO_SIDED|95.0|-34.56|0.53|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||0.53|-34.56|
92256908|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-23.94|||||TWO_SIDED|95.0|-41.49|-6.39|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||-6.39|-41.49|
92256909|NCT02202161|184416946|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-19.45|||||TWO_SIDED|95.0|-34.96|-3.93|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||-3.93|-34.96|
92256910|NCT02202161|184416961|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.17|||||TWO_SIDED|90.0|0.92|1.49|||||Mean and confidence interval (CI) for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.49|0.92|
92256911|NCT02202161|184416961|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.11|||||TWO_SIDED|90.0|0.89|1.38|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.38|0.89|
92284170|NCT00358449|184472193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.62||||0.551|TWO_SIDED|95.0|-13.29|24.54|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||24.54|-13.29|0.551
92284171|NCT00358449|184472193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.04||||0.141|TWO_SIDED|95.0|-5.61|37.7|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||37.70|-5.61|0.141
92178757|NCT04490109|184253496|SUPERIORITY|||||||0.0293|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0293
92178758|NCT04490109|184253497|SUPERIORITY|||||||0.0045|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0045
92178759|NCT04490109|184253497|SUPERIORITY|||||||0.0043|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0043
92256912|NCT02202161|184416961|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.05|||||TWO_SIDED|90.0|0.87|1.27|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.27|0.87|
92284172|NCT00358449|184472193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.42||||0.666|TWO_SIDED|95.0|-30.74|19.9|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||19.90|-30.74|0.666
92284173|NCT00358449|184472194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088||||0.572|TWO_SIDED|95.0|-0.224|0.4|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.400|-0.224|0.572
92284174|NCT00358449|184472194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012||||0.942|TWO_SIDED|95.0|-0.35|0.326|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.326|-0.350|0.942
92284175|NCT00358449|184472194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005||||0.96|TWO_SIDED|95.0|-0.188|0.197|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.197|-0.188|0.960
92284176|NCT00358449|184472194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105||||0.317|TWO_SIDED|95.0|-0.105|0.315|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.315|-0.105|0.317
92178760|NCT04490109|184253498|SUPERIORITY|||||||0.0026|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0026
92178761|NCT04490109|184253498|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0005
92178762|NCT04490109|184253499|SUPERIORITY|||||||0.0348|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0348
92178763|NCT04490109|184253499|SUPERIORITY|||||||0.0173|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0173
92178764|NCT04490109|184253500|SUPERIORITY|||||||0.0228|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0228
92178765|NCT04490109|184253500|SUPERIORITY|||||||0.0015|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0015
92178766|NCT04490109|184253501|SUPERIORITY|||||||0.0003|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0003
92256913|NCT02202161|184416961|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.25|||||TWO_SIDED|90.0|1.03|1.52|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.52|1.03|
92256914|NCT02202161|184416961|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.25|||||TWO_SIDED|90.0|1.04|1.5|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.50|1.04|
92178767|NCT04490109|184253502|SUPERIORITY|||||||0.0195|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0195
92178768|NCT04490109|184253503|SUPERIORITY|||||||0.0365|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0365
92178769|NCT04490109|184253504|SUPERIORITY|||||||0.0086|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0086
92178770|NCT04490109|184253504|SUPERIORITY|||||||0.0035|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0035
92178771|NCT04490109|184253505|SUPERIORITY|||||||0.0074|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0074
92178772|NCT04490109|184253505|SUPERIORITY|||||||0.0008|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0008
92256915|NCT02202161|184416961|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.11|||||TWO_SIDED|90.0|0.94|1.31|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.31|0.94|
92284177|NCT00358449|184472195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13||||0.666|TWO_SIDED|95.0|-6.39|4.12|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||4.12|-6.39|0.666
92284178|NCT00358449|184472195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16||||0.45|TWO_SIDED|95.0|-7.87|3.56|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||3.56|-7.87|0.450
92178773|NCT04163991|184253506|SUPERIORITY||Least Squares (LS) Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.38||0.0296|TWO_SIDED|90.0|-1.47|-0.21||Results are from MMRM analysis with treatment, visit, visit by treatment interaction, and baseline DAS28-CRP score included in the model.|MMRM||LS Mean difference is VIB4920 minus placebo. Differences less than 0 favor VIB4920.|||-0.21|-1.47|0.0296
92178774|NCT04163991|184253506|SUPERIORITY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.38||0.0355|TWO_SIDED|90.0|-1.44|-0.18||Results are from MMRM analysis with treatment, visit, visit by treatment interaction, and baseline DAS28-CRP score included in the model.|MMRM||LS Mean difference is VIB4920 minus placebo. Differences less than 0 favor VIB4920.|||-0.18|-1.44|0.0355
92178775|NCT04163991|184253506|SUPERIORITY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.38||0.0364|TWO_SIDED|90.0|-1.44|-0.18||Results are from MMRM analysis with treatment, visit, visit by treatment interaction, and baseline DAS28-CRP score included in the model.|MMRM||LS Mean difference is VIB4920 minus placebo. Differences less than 0 favor VIB4920.|||-0.18|-1.44|0.0364
92178776|NCT04163991|184253506|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.38||0.0478|TWO_SIDED|90.0|-1.41|-0.13||Results are from MMRM analysis with treatment, visit, visit by treatment interaction, and baseline DAS28-CRP score included in the model.|MMRM||LS Mean difference is VIB4920 minus placebo. Differences less than 0 favor VIB4920.|||-0.13|-1.41|0.0478
92178777|NCT04163991|184253517|SUPERIORITY||Ratio of geometric mean versus placebo|0.64||||0.0584|TWO_SIDED|90.0|0.43|0.94||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.94|0.43|0.0584
92178778|NCT04163991|184253517|OTHER||Ratio of geometric mean versus placebo|0.76||||0.2274|TWO_SIDED|90.0|0.51|1.11||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||1.11|0.51|0.2274
92178779|NCT04163991|184253517|SUPERIORITY||Ratio of geometric mean versus placebo|0.77||||0.2794|TWO_SIDED|90.0|0.52|1.14||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||1.14|0.52|0.2794
92256916|NCT02202161|184416963|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|0.88|||||TWO_SIDED|90.0|0.68|1.13|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.13|0.68|
92256917|NCT02202161|184416963|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|1.04|||||TWO_SIDED|90.0|0.82|1.31|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.31|0.82|
92284179|NCT00358449|184472195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.215|TWO_SIDED|95.0|-12.0|2.81|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||2.81|-12.00|0.215
92256918|NCT02202161|184416963|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|1.04|||||TWO_SIDED|90.0|0.85|1.26|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.26|0.85|
92284180|NCT00358449|184472195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.898|TWO_SIDED|95.0|-8.61|7.58|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||7.58|-8.61|0.898
92256919|NCT02202161|184416963|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|1.19|||||TWO_SIDED|90.0|0.97|1.45|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.45|0.97|
92256920|NCT02202161|184416963|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|1.23|||||TWO_SIDED|90.0|1.01|1.49|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.49|1.01|
92256921|NCT02202161|184416963|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|1.24|||||TWO_SIDED|90.0|1.04|1.48|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.48|1.04|
92256922|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.03|||||TWO_SIDED|95.0|0.91|1.17|||||Comparison for Day 7, cholesterol|An estimation approach was used.||1.17|0.91|
92256923|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.88|||||TWO_SIDED|95.0|0.78|0.98|||||Comparison for Day 7, cholesterol|An estimation approach was used.||0.98|0.78|
92256924|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.86|||||TWO_SIDED|95.0|0.78|0.95|||||Comparison for Day 7, cholesterol|An estimation approach was used.||0.95|0.78|
92256925|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.75|||||TWO_SIDED|95.0|0.68|0.83|||||Comparison for Day 7, cholesterol|An estimation approach was used.||0.83|0.68|
92256926|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.83|||||TWO_SIDED|95.0|0.76|0.92|||||Comparison for Day 7, cholesterol|An estimation approach was used.||0.92|0.76|
92284181|NCT00358449|184472196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038||||0.762|TWO_SIDED|95.0|-0.217|0.294|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.294|-0.217|0.762
92284182|NCT00358449|184472196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.159||||0.235|TWO_SIDED|95.0|-0.426|0.108|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.108|-0.426|0.235
92256927|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.01|||||TWO_SIDED|95.0|0.92|1.1|||||Comparison for Day 7, cholesterol|An estimation approach was used.||1.10|0.92|
92256928|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.07|||||TWO_SIDED|95.0|0.95|1.19|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.19|0.95|
92284183|NCT00358449|184472196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089||||0.607|TWO_SIDED|95.0|-0.259|0.436|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.436|-0.259|0.607
92284184|NCT00358449|184472196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068||||0.716|TWO_SIDED|95.0|-0.308|0.443|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.443|-0.308|0.716
92256929|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.04|||||TWO_SIDED|95.0|0.94|1.16|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.16|0.94|
92256930|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.96|||||TWO_SIDED|95.0|0.88|1.05|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.05|0.88|
92256931|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.98|||||TWO_SIDED|95.0|0.89|1.07|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.07|0.89|
92256932|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.07|||||TWO_SIDED|95.0|0.98|1.17|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.17|0.98|
92256933|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.97|||||TWO_SIDED|95.0|0.9|1.05|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.05|0.90|
92284185|NCT00358449|184472197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.691|TWO_SIDED|95.0|-0.365|0.545|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.545|-0.365|0.691
92284186|NCT00358449|184472197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.161||||0.5|TWO_SIDED|95.0|-0.639|0.317|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.317|-0.639|0.500
92284187|NCT00358449|184472197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.187||||0.568|TWO_SIDED|95.0|-0.474|0.849|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.849|-0.474|0.568
92284188|NCT00358449|184472197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.076||||0.832|TWO_SIDED|95.0|-0.643|0.794|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.794|-0.643|0.832
92284189|NCT00358449|184472198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.515|TWO_SIDED|95.0|-3.45|1.76|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||1.76|-3.45|0.515
92256934|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.95|||||TWO_SIDED|95.0|0.8|1.13|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||1.13|0.80|
92256935|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.76|||||TWO_SIDED|95.0|0.65|0.9|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||0.90|0.65|
92256936|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.74|||||TWO_SIDED|95.0|0.64|0.85|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||0.85|0.64|
92256937|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.59|||||TWO_SIDED|95.0|0.51|0.69|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||0.69|0.51|
92256938|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.71|||||TWO_SIDED|95.0|0.62|0.81|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||0.81|0.62|
92256939|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.89|1.14|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||1.14|0.89|
92256940|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.03|||||TWO_SIDED|95.0|0.88|1.21|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||1.21|0.88|
92256941|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.82|||||TWO_SIDED|95.0|0.71|0.95|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||0.95|0.71|
92178780|NCT04163991|184253517|SUPERIORITY||Ratio of geometric mean versus placebo|0.57||||0.0199|TWO_SIDED|90.0|0.39|0.85||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.85|0.39|0.0199
92256942|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.84|||||TWO_SIDED|95.0|0.74|0.95|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||0.95|0.74|
92256943|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.67|||||TWO_SIDED|95.0|0.59|0.76|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||0.76|0.59|
92256944|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|0.68|0.87|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||0.87|0.68|
92256945|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.02|||||TWO_SIDED|95.0|0.92|1.14|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||1.14|0.92|
92256946|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.27|||||TWO_SIDED|95.0|0.97|1.66|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.66|0.97|
92256947|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.16|||||TWO_SIDED|95.0|0.9|1.5|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.50|0.90|
92256948|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.3|||||TWO_SIDED|95.0|1.06|1.61|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.61|1.06|
92256949|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.19|||||TWO_SIDED|95.0|0.96|1.48|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.48|0.96|
92256950|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.15|||||TWO_SIDED|95.0|0.93|1.42|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.42|0.93|
92256951|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.95|||||TWO_SIDED|95.0|0.79|1.16|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.16|0.79|
92256952|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.86|1.17|||||Comparison for Day 14, cholesterol|An estimation approach was used.||1.17|0.86|
92256953|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.83|||||TWO_SIDED|95.0|0.73|0.96|||||Comparison for Day 14, cholesterol|An estimation approach was used.||0.96|0.73|
92256954|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.82|||||TWO_SIDED|95.0|0.73|0.91|||||Comparison for Day 14, cholesterol|An estimation approach was used.||0.91|0.73|
92256955|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.74|||||TWO_SIDED|95.0|0.66|0.82|||||Comparison for Day 14, cholesterol|An estimation approach was used.||0.82|0.66|
92256956|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|0.69|0.86|||||Comparison for Day 14, cholesterol|An estimation approach was used.||0.86|0.69|
92256957|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.93|||||TWO_SIDED|95.0|0.84|1.03|||||Comparison for Day 14, cholesterol|An estimation approach was used.||1.03|0.84|
92256958|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.09|||||TWO_SIDED|95.0|0.99|1.21|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.21|0.99|
92256959|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.02|||||TWO_SIDED|95.0|0.93|1.11|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.11|0.93|
92256960|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.97|||||TWO_SIDED|95.0|0.9|1.04|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.04|0.90|
92256961|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.99|||||TWO_SIDED|95.0|0.92|1.06|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.06|0.92|
92256962|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.01|||||TWO_SIDED|95.0|0.94|1.08|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.08|0.94|
92256963|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.98|||||TWO_SIDED|95.0|0.92|1.04|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.04|0.92|
92256964|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.85|||||TWO_SIDED|95.0|0.69|1.04|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||1.04|0.69|
92256965|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|0.58|0.85|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||0.85|0.58|
92256966|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.73|||||TWO_SIDED|95.0|0.62|0.86|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||0.86|0.62|
92256967|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|0.5|0.71|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||0.71|0.50|
92284190|NCT00358449|184472198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.496|TWO_SIDED|95.0|-1.74|3.54|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||3.54|-1.74|0.496
92256968|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.69|||||TWO_SIDED|95.0|0.59|0.8|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||0.80|0.59|
92256969|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.94|||||TWO_SIDED|95.0|0.81|1.09|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||1.09|0.81|
92256970|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.99|||||TWO_SIDED|95.0|0.8|1.22|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||1.22|0.80|
92256971|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|0.64|0.93|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||0.93|0.64|
92284191|NCT00358449|184472198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05||||0.657|TWO_SIDED|95.0|-5.82|3.72|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||3.72|-5.82|0.657
92256972|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|0.67|0.9|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||0.90|0.67|
92178781|NCT04163991|184253518|SUPERIORITY||Ratio of geometric mean versus placebo|0.64||||0.0007|TWO_SIDED|90.0|0.52|0.79||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.79|0.52|0.0007
92178782|NCT04163991|184253518|SUPERIORITY||Ratio of geometric mean versus placebo|0.62||||0.0003|TWO_SIDED|90.0|0.5|0.76||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.76|0.50|0.0003
92256973|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.65|||||TWO_SIDED|95.0|0.55|0.75|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||0.75|0.55|
92256974|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|0.6|0.81|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||0.81|0.60|
92256975|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.91|||||TWO_SIDED|95.0|0.8|1.04|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||1.04|0.80|
92256976|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.42|||||TWO_SIDED|95.0|1.01|2.0|||||Comparison for Day 14, triglycerides|An estimation approach was used.||2.00|1.01|
92256977|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.28|||||TWO_SIDED|95.0|0.94|1.75|||||Comparison for Day 14, triglycerides|An estimation approach was used.||1.75|0.94|
92256978|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.24|||||TWO_SIDED|95.0|0.98|1.58|||||Comparison for Day 14, triglycerides|An estimation approach was used.||1.58|0.98|
92256979|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.22|||||TWO_SIDED|95.0|0.95|1.56|||||Comparison for Day 14, triglycerides|An estimation approach was used.||1.56|0.95|
92256980|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.23|||||TWO_SIDED|95.0|0.96|1.57|||||Comparison for Day 14, triglycerides|An estimation approach was used.||1.57|0.96|
92256981|NCT02202161|184416964|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.89|||||TWO_SIDED|95.0|0.72|1.11|||||Comparison for Day 14, triglycerides|An estimation approach was used.||1.11|0.72|
92256982|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.98|||||TWO_SIDED|95.0|0.87|1.11|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||1.11|0.87|
92256983|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.79|||||TWO_SIDED|95.0|0.71|0.89|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||0.89|0.71|
92256984|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.82|||||TWO_SIDED|95.0|0.74|0.9|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||0.90|0.74|
92256985|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|0.63|0.77|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||0.77|0.63|
92256986|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|0.7|0.85|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||0.85|0.70|
92256987|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.97|||||TWO_SIDED|95.0|0.89|1.06|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||1.06|0.89|
92256988|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.91|||||TWO_SIDED|95.0|0.77|1.07|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||1.07|0.77|
92256989|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.81|||||TWO_SIDED|95.0|0.68|0.95|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||0.95|0.68|
92256990|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.8|||||TWO_SIDED|95.0|0.7|0.91|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||0.91|0.70|
92256991|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.67|||||TWO_SIDED|95.0|0.58|0.77|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||0.77|0.58|
92256992|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.73|||||TWO_SIDED|95.0|0.64|0.83|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||0.83|0.64|
92256993|NCT02202161|184416965|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.9|||||TWO_SIDED|95.0|0.8|1.02|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||1.02|0.80|
92256994|NCT03797144|184416971|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.06|||||||t-test, 1 sided|||"To verify that the improvement of ODI from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_ODI ≤ 0, and the alternative hypothesis was Ha: μ\_ODI \> 0 where μ\_ODI is the mean improvement of ODI score at 3 months from baseline."||||0.06
92256995|NCT03797144|184416971|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.012|||||||t-test, 1 sided|||"To verify that the improvement of ODI from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_ODI ≤ 0, and the alternative hypothesis was Ha: μ\_ODI \> 0 where μ\_ODI is the mean improvement of ODI score at 3 months from baseline."||||0.012
92256996|NCT03797144|184416972|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.002||||||Back Pain|t-test, 1 sided|||"To verify that the improvement of VAS from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_VAS ≤ 0, and the alternative hypothesis was Ha: μ\_VAS \> 0 where μ\_VAS is the mean improvement of VAS score at 3 months from baseline."||||0.002
92284192|NCT00358449|184472198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.691|TWO_SIDED|95.0|-6.11|4.09|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||4.09|-6.11|0.691
92284193|NCT00358449|184472199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.142|TWO_SIDED|95.0|-0.105|0.704|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.704|-0.105|0.142
92178783|NCT04163991|184253518|SUPERIORITY||Ratio of geometric mean versus placebo|0.6||||0.0001|TWO_SIDED|90.0|0.48|0.74||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.74|0.48|0.0001
92178784|NCT04163991|184253518|SUPERIORITY||Ratio of geometric mean versus placebo|0.47|||<|0.0001|TWO_SIDED|90.0|0.38|0.59||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.59|0.38|< 0.0001
92178785|NCT04163991|184253519|SUPERIORITY||Odds Ratio (OR)|1.4||||0.775|TWO_SIDED|90.0|0.2|8.0||Results are from logistic regression analysis with treatment and baseline DAS28-CRP score included in the model.|Regression, Logistic||Odds ratio is VIB4920/placebo, with associated 90% CI and p-value. Odds ratios greater than 1 favor VIB4920.|||8.0|0.2|0.7750
92256997|NCT03797144|184416972|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."|||||<|0.001||||||Back Pain|t-test, 1 sided|||"To verify that the improvement of VAS from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_VAS ≤ 0, and the alternative hypothesis was Ha: μ\_VAS \> 0 where μ\_VAS is the mean improvement of VAS score at 3 months from baseline."||||<0.001
92256998|NCT03797144|184416972|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."|||||<|0.001||||||Leg Pain|t-test, 1 sided|||"To verify that the improvement of VAS from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_VAS ≤ 0, and the alternative hypothesis was Ha: μ\_VAS \> 0 where μ\_VAS is the mean improvement of VAS score at 3 months from baseline."||||<0.001
92178786|NCT04163991|184253519|SUPERIORITY||Odds Ratio (OR)|0.6||||0.6974|TWO_SIDED|90.0|0.1|5.5||Results are from logistic regression analysis with treatment and baseline DAS28-CRP score included in the model.|Regression, Logistic||(Lower limit of 90% CI is \< 0.1.) Odds ratio is VIB4920/placebo, with associated 90% CI and p-value. Odds ratios greater than 1 favor VIB4920.|||5.5|0.1|0.6974
92178787|NCT04163991|184253519|SUPERIORITY||Odds Ratio (OR)|0.9||||0.9318|TWO_SIDED|90.0|0.1|5.7||Results are from logistic regression analysis with treatment and baseline DAS28-CRP score included in the model.|Regression, Logistic||Odds ratio is VIB4920/placebo, with associated 90% CI and p-value. Odds ratios greater than 1 favor VIB4920.|||5.7|0.1|0.9318
92178788|NCT04163991|184253519|SUPERIORITY||Odds Ratio (OR)|0.9||||0.9108|TWO_SIDED|90.0|0.2|5.1||Results are from logistic regression analysis with treatment and baseline DAS28-CRP score included in the model.|Regression, Logistic||Odds ratio is VIB4920/placebo, with associated 90% CI and p-value. Odds ratios greater than 1 favor VIB4920.|||5.1|0.2|0.9108
92178789|NCT04163991|184253520|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9805|TWO_SIDED|90.0|0.1|10.6||Based on Cox regression method with treatment group included in the model.|Regression, Cox||Hazard ratio is VIB4920/placebo. Hazard ratios less than 1 favor VIB4920.|||10.60|0.10|0.9805
92256999|NCT03797144|184416972|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."|||||<|0.001||||||Leg Pain|t-test, 1 sided|||"To verify that the improvement of VAS from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_VAS ≤ 0, and the alternative hypothesis was Ha: μ\_VAS \> 0 where μ\_VAS is the mean improvement of VAS score at 3 months from baseline."||||<0.001
92284194|NCT00358449|184472199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.354||||0.115|TWO_SIDED|95.0|-0.09|0.798|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.798|-0.090|0.115
92178790|NCT04163991|184253520|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9805|TWO_SIDED|90.0|0.1|10.6||Based on Cox regression method with treatment group included in the model.|Regression, Cox||Hazard ratio is VIB4920/placebo. Hazard ratios less than 1 favor VIB4920.|||10.60|0.10|0.9805
92284195|NCT00358449|184472199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182||||0.465|TWO_SIDED|95.0|-0.319|0.683|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.683|-0.319|0.465
92178791|NCT04163991|184253520|SUPERIORITY||Hazard Ratio (HR)|3.01||||0.3407|TWO_SIDED|90.0|0.45|20.09||Based on Cox regression method with treatment group included in the model.|Regression, Cox||Hazard ratio is VIB4920/placebo. Hazard ratios less than 1 favor VIB4920.|||20.09|0.45|0.3407
92178792|NCT04163991|184253520|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9805|TWO_SIDED|90.0|0.1|10.6||Based on Cox regression method with treatment group included in the model.|Regression, Cox||Hazard ratio is VIB4920/placebo. Hazard ratios less than 1 favor VIB4920.|||10.60|0.10|0.9805
92178793|NCT05541484|184253562|OTHER|Spearman's ρ given non-normal variable distributions|||||<|0.0001||||||Spearman's ρ given non-normal variable distributions|Wilcoxon (Mann-Whitney)|||||||< 0.0001
92178794|NCT00626795|184253581|NON_INFERIORITY|The lower confidence limit greater or equal to -12.5% indicates non-inferiority.|Difference in percentage|4.56|||||TWO_SIDED|95.0|-1.59|10.71|||||Estimated using a Cochran-Mantel-Haenszel approach, stratifying by country and disease (impetigo/SITL).|||10.71|-1.59|
92178795|NCT00626795|184253581|NON_INFERIORITY|The lower confidence limit greater or equal to -12.5% indicates non-inferiority.|Difference in percentage|-3.35|||||TWO_SIDED|95.0|-10.28|3.57|||||Estimated using a Cochran-Mantel-Haenszel approach, stratifying by country and disease (impetigo/SITL).|||3.57|-10.28|
92178796|NCT04499521|184253591|OTHER||Median Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.27|0.5||||||Mean difference between Gauze and Gel ARM A Bladder D2cc||0.50|-0.27|
92178797|NCT04499521|184253591|OTHER||Median Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.94|0.96||||||Mean difference between Gauze and Gel ARM B Bladder D2cc||0.96|-0.94|
92178798|NCT04499521|184253591|OTHER||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.54|0.16||||||Mean difference between Gauze and Gel ARM A Rectum D2cc||0.16|-0.54|
92178799|NCT04499521|184253591|OTHER||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.67|0.29||||||Mean difference between Gauze and Gel ARM B Rectum D2cc||0.29|-0.67|
92178800|NCT03636490|184253616|OTHER|We tested an association between change in urinary sodium excretion rate with stress and ratio of awake-to-asleep urinary sodium excretion rate.|unstandardized B coefficients|0.0021||||0.0032||95.0|0.0007|0.0034|||Regression, Linear|Adjusted for age, sex, race, ethnicity, body mass index, mean DBP during the baseline period, and 24-hour creatinine clearance.||||0.0034|0.0007|0.0032
92178801|NCT03636490|184253617|OTHER|We tested an association between ratio of awake-to-asleep urinary sodium excretion rate and SBP dipping.|unstandardized B coefficients|0.8244||||0.037||95.0|0.0487|1.6|||Regression, Linear|Adjusted for age, sex, race, ethnicity, BMI, smoking, alcohol use, glucose, 24-hr sodium and potassium excretion, 24-hr creat clear, and FENa|Data are unstandardized B coefficients (95% CI)|||1.6000|0.0487|0.037
92284196|NCT00358449|184472199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121||||0.649|TWO_SIDED|95.0|-0.417|0.66|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.660|-0.417|0.649
92178802|NCT04734197|184253640|SUPERIORITY|||||||0.004||||||The threshold for statistical significance is p=0.05.|Fisher Exact|||Exploratory Phase 2 Study; the sample size of approximately 280-350 subjects (between 40 and 50 subjects per each of the 7 treatment groups) was based on medical judgement.||||0.0040
92178803|NCT04734197|184253641|SUPERIORITY|||||||0.3111|||||||Fisher Exact|The threshold for statistical significance is p=0.05.||"Mixed Model for Repeated Measures (MMRM) analysis included fixed effects of baseline TBUT, age, treatment, visit, and treatment by visit interaction.~Least squares means (LSMs) of the absolute TBUT change from baseline and their 95% CIs were estimated from the MMRM model for each treatment group."||||0.3111
92178804|NCT04734197|184253642|SUPERIORITY|||||||0.2027||||||The threshold for statistical significance is p=0.05.|Fisher Exact|||"MMRM analysis included fixed effects of baseline Schirmer test score, age, treatment, visit, and treatment by visit interaction.~LSMs of the absolute change from baseline in Schirmer test score and their 95% CIs were estimated from the MMRM model for each treatment group."||||0.2027
92178805|NCT04310423|184253664|OTHER|||||||0.036|||||||Mixed Models Analysis|||Treatment x Time interaction for alcohol cue-induced alcohol craving.||||0.036
92178806|NCT04310423|184253665|OTHER||||||>|0.05|||||||Mixed Models Analysis|||Two-way Treatment x Time interaction||||>0.05
92178807|NCT04310423|184253666|OTHER||||||>|0.05|||||||Mixed Models Analysis|||Treatment x Time interactions||||>0.05
92178808|NCT04310423|184253667|OTHER||||||>|0.05|||||||Mixed Models Analysis|||Treatment x Time interactions||||>0.05
92178809|NCT04310423|184253668|OTHER||||||<|0.001|||||||ANCOVA|||Main effect of treatment on alcohol cue-elicited brain activation||||<0.001
92257000|NCT03797144|184416973|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.174||||||Health State Score|t-test, 1 sided|||"To verify that the improvement of EQ-5D 5L from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_EQ-5D 5L ≤ 0, and the alternative hypothesis was Ha: μ\_EQ-5D 5L \> 0 where μ\_EQ-5D 5L is the mean improvement of EQ-5D 5L score at 3 months from baseline."||||0.174
92284197|NCT00358449|184472200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.077|TWO_SIDED|95.0|-0.042|0.782|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.782|-0.042|0.077
92284198|NCT00358449|184472200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.356||||0.12|TWO_SIDED|95.0|-0.097|0.809|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.809|-0.097|0.120
92284199|NCT00358449|184472200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.345|TWO_SIDED|95.0|-0.326|0.906|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.906|-0.326|0.345
92284200|NCT00358449|184472200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128||||0.7|TWO_SIDED|95.0|-0.541|0.798|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.798|-0.541|0.700
92178810|NCT02997202|184253700|SUPERIORITY||Hazard Ratio (HR)|0.679||||0.0518|TWO_SIDED|95.0|0.459|1.005|||Log Rank|||Stratification factors were conditioning regimen intensity MAC vs RIC/NMA, time from transplant to randomization (30 to 60 days vs 61 to 90 days), and the presence of MRD (present vs absent/unknown) based on the pre-transplant BM aspirate.||1.005|0.459|0.0518
92178811|NCT02997202|184253701|SUPERIORITY||Hazard Ratio (HR)|0.846||||0.4394|TWO_SIDED|95.0|0.554|1.293|||Log Rank|||Stratification factors were conditioning regimen intensity MAC vs RIC/NMA, time from transplant to randomization (30 to 60 days vs 61 to 90 days), and the presence of MRD (present vs absent/unknown) based on the pre-transplant BM aspirate.||1.293|0.554|0.4394
92257001|NCT03797144|184416973|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.002||||||Health State Score|t-test, 1 sided|||"To verify that the improvement of EQ-5D 5L from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_EQ-5D 5L ≤ 0, and the alternative hypothesis was Ha: μ\_EQ-5D 5L \> 0 where μ\_EQ-5D 5L is the mean improvement of EQ-5D 5L score at 3 months from baseline."||||0.002
92257002|NCT03797144|184416973|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.003||||||Index score|t-test, 1 sided|||"To verify that the improvement of EQ-5D 5L from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_EQ-5D 5L ≤ 0, and the alternative hypothesis was Ha: μ\_EQ-5D 5L \> 0 where μ\_EQ-5D 5L is the mean improvement of EQ-5D 5L score at 3 months from baseline."||||0.003
92257003|NCT03797144|184416973|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.012||||||Index score|t-test, 1 sided|||"To verify that the improvement of EQ-5D 5L from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_EQ-5D 5L ≤ 0, and the alternative hypothesis was Ha: μ\_EQ-5D 5L \> 0 where μ\_EQ-5D 5L is the mean improvement of EQ-5D 5L score at 3 months from baseline."||||0.012
92257004|NCT01201967|184417008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.68||||0.002|TWO_SIDED|95.0|2.14|9.22|||Mixed Models Analysis|||||9.22|2.14|0.002
92257005|NCT01201967|184417009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||0.045|TWO_SIDED|95.0|-4.06|-0.05|||Mixed Models Analysis|||||-0.05|-4.06|0.045
92257006|NCT01201967|184417010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.55|TWO_SIDED|95.0|-0.93|1.76|||Mixed Models Analysis|||||1.76|-0.93|0.55
92257007|NCT01201967|184417011|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|11.4|||<|0.001|TWO_SIDED|95.0|5.2|24.9|||Chi-squared|||||24.9|5.20|<0.001
92257008|NCT01201967|184417012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.28|TWO_SIDED|95.0|-0.51|1.76|||Mixed Models Analysis|||||1.76|-0.51|0.28
92257009|NCT01201967|184417013|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96||||0.83|TWO_SIDED|95.0|0.63|1.46|||Chi-squared|||||1.46|0.63|0.83
92257010|NCT01201967|184417014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.029|TWO_SIDED|95.0|0.012|0.22|||Mixed Models Analysis|||||0.22|0.012|0.029
92257011|NCT01201967|184417015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.59||||0.005|TWO_SIDED|95.0|1.71|9.46|||Mixed Models Analysis|||||9.46|1.71|0.005
92257012|NCT01201967|184417016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3||||0.11|TWO_SIDED|95.0|-0.54|5.14|||Mixed Models Analysis|||||5.14|-0.54|0.11
92257013|NCT01425307|184417053|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|We hypothesized that the Alternative arm mean TCD velocity at 24 months will be less than the Standard arm mean TCD velocity plus 15cm/sec. We used Lan-DeMets boundaries to control overall Type I error rate at α = 0.05. For looks at exactly 1/3, 2/3, and 100 percent of the completed subjects, the cumulative α were estimated to be 0.0001, 0.001, and 0.05, respectively.|Mean Difference (Final Values)|4.54|||<|0.05|TWO_SIDED|95.0|0.1|8.98||P value for non inferiority was 8.82 X 10\^-16|Mixed Models Analysis|Linear mixed model||Participants were randomized at a central site, stratified by site with a block size of four, and an adaptive randomization scheme was used to balance the covariates of baseline age and TCD velocity. The treatment period lasted 24 months. The primary study endpoint was the 24 month TCD velocity calculated from a general linear mixed model, with the non-inferiority margin set at 15 cm/s. The primary analysis was done in the intention-to-treat population.||8.98|0.10|<0.05
92257014|NCT01425307|184417057|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92257015|NCT01425307|184417067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011|||||||t-test, 2 sided|||||||0.0011
92257016|NCT03128307|184417068|SUPERIORITY||||||<|0.0001||||||Assuming a priori threshold for statistical significant of p = 0.05|t-test, 2 sided|||||||< 0.0001
92257017|NCT03128307|184417069|SUPERIORITY||||||<|0.0001||||||a priori threshold for statistical significance of p = 0.05|t-test, 2 sided|||||||< 0.0001
92257018|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|2.9||||0.3474|TWO_SIDED|95.0|-3.3|9.1|||ANOVA|Analysis of variance for repeated measures||Dryness - Study eye - Day 15±2 The model included fixed effect terms for time point, baseline covariate (i.e. the day 1 - pre-dose value) and treatment. Time point was specified as a repeated measurement.||9.1|-3.3|0.3474
92257019|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.1327|TWO_SIDED|95.0|-8.2|4.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Dryness - Study eye - Day 15±2||4.3|-8.2|0.1327
92257020|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-4.8||||0.1327|TWO_SIDED|95.0|-11.2|1.6|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Dryness - Study eye - Day 15±2||1.6|-11.2|0.1327
92284201|NCT00358449|184472201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.79||||0.609|TWO_SIDED|95.0|-8.79|5.22|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||5.22|-8.79|0.609
92257021|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.2237|TWO_SIDED|95.0|-2.5|10.0|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Study eye - Day 15±2||10.0|-2.5|0.2237
92257022|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.4905|TWO_SIDED|95.0|-8.4|4.1|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Study eye - Day 15±2||4.1|-8.4|0.4905
92257023|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-5.9||||0.0687|TWO_SIDED|95.0|-12.3|0.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Study eye - Day 15±2||0.5|-12.3|0.0687
92257024|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.7609|TWO_SIDED|95.0|-4.2|5.6|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Study eye - Day 15±2||5.6|-4.2|0.7609
92257025|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.6428|TWO_SIDED|95.0|-6.0|3.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Study eye - Day 15±2||3.8|-6.0|0.6428
92257026|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.4599|TWO_SIDED|95.0|-6.9|3.2|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Study eye - Day 15±2||3.2|-6.9|0.4599
92257027|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.4217|TWO_SIDED|95.0|-4.6|10.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Study eye - Day 15±2||10.5|-4.6|0.4217
92257028|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|0.503||||-2.5|TWO_SIDED|95.0|-10.0|5.0|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Study eye - Day 15±2||5.0|-10.0|-2.5
92257029|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.4599|TWO_SIDED|95.0|-6.9|3.2|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Study eye - Day 15±2||3.2|-6.9|0.4599
92257030|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.6157|TWO_SIDED|95.0|-2.6|4.4|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Study eye - Day 15±2||4.4|-2.6|0.6157
92257031|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.912|TWO_SIDED|95.0|-3.7|3.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Study eye - Day 15±2||3.3|-3.7|0.9120
92257032|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.5463|TWO_SIDED|95.0|-4.6|2.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Study eye - Day 15±2||2.5|-4.6|0.5463
92257033|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.9065|TWO_SIDED|95.0|-5.9|5.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky Feeling - Study eye - Day 15±2||5.3|-5.9|0.9065
92257034|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.5065|TWO_SIDED|95.0|-7.3|3.7|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky Feeling - Study eye - Day 15±2||3.7|-7.3|0.5065
92257035|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.5977|TWO_SIDED|95.0|-7.1|4.2|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky Feeling - Study eye - Day 15±2||4.2|-7.1|0.5977
92257036|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.2785|TWO_SIDED|95.0|-6.3|1.9|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred Vision - Study eye - Day 15±2||1.9|-6.3|0.2785
92257037|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.7454|TWO_SIDED|95.0|-4.6|3.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred vision - Study eye - Day 15±2||3.3|-4.6|0.7454
92257038|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.4588|TWO_SIDED|95.0|-2.7|5.9|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred vision - Study eye - Day 15±2||5.9|-2.7|0.4588
92257039|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|4.3||||0.2812|TWO_SIDED|95.0|-3.7|12.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Study eye - Day 15±2||12.3|-3.7|0.2812
92257040|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.6811|TWO_SIDED|95.0|-6.5|9.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Study eye - Day 15±2||9.8|-6.5|0.6811
92257041|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.5169|TWO_SIDED|95.0|-10.8|5.6|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Study eye - Day 15±2||5.6|-10.8|0.5169
92257042|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.7874|TWO_SIDED|95.0|-5.9|7.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Dryness - Non Study eye - Day 15±2||7.8|-5.9|0.7874
92284202|NCT00358449|184472201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59||||0.882|TWO_SIDED|95.0|-8.55|7.38|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||7.38|-8.55|0.882
92284203|NCT00358449|184472201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.595|TWO_SIDED|95.0|-7.68|4.47|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||4.47|-7.68|0.595
92257043|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.8299|TWO_SIDED|95.0|-7.6|6.1|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Dryness - Non Study eye - Day 15±2||6.1|-7.6|0.8299
92257044|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.6386|TWO_SIDED|95.0|-8.7|5.4|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Dryness - Non Study eye - Day 15±2||5.4|-8.7|0.6386
92257045|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.0132|TWO_SIDED|95.0|1.3|10.2|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Non Study eye - Day 15±2||10.2|1.3|0.0132
92257046|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.7177|TWO_SIDED|95.0|-5.3|3.7|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Non Study eye - Day 15±2||3.7|-5.3|0.7177
92257047|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-6.5||||0.0077|TWO_SIDED|95.0|-11.2|-1.9|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Non Study eye - Day 15±2||-1.9|-11.2|0.0077
92257048|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.0301|TWO_SIDED|95.0|0.6|10.0|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Non Study eye - Day 15±2||10.0|0.6|0.0301
92178812|NCT02997202|184253704|SUPERIORITY||Hazard Ratio (HR)|2.308||||0.0209|TWO_SIDED|95.0|1.1352|4.6922|||Fine-Grays Model|||Based on Fine \& Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate.||4.6922|1.1352|0.0209
92257049|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.8657|TWO_SIDED|95.0|-4.3|5.1|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Non Study eye - Day 15±2||5.1|-4.3|0.8657
92257050|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.044|TWO_SIDED|95.0|-9.7|-0.1|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Non Study eye - Day 15±2||-0.1|-9.7|0.0440
92257051|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|4.1||||0.1351|TWO_SIDED|95.0|-1.4|9.6|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Non Study eye - Day 15±2||9.6|-1.4|0.1351
92257052|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.8821|TWO_SIDED|95.0|-6.0|5.2|||ANCOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Non Study eye - Day 15±2||5.2|-6.0|0.8821
92257053|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-4.5||||0.1208|TWO_SIDED|95.0|-10.3|1.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Non Study eye - Day 15±2||1.3|-10.3|0.1208
92257054|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.944|TWO_SIDED|95.0|-3.3|3.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Non Study eye - Day 15±2||3.5|-3.3|0.9440
92257055|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.4903|TWO_SIDED|95.0|-2.2|4.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Non Study eye - Day 15±2||4.5|-2.2|0.4903
92257056|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.5364|TWO_SIDED|95.0|-2.3|4.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Non Study eye - Day 15±2||4.3|-2.3|0.5364
92257057|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.51|TWO_SIDED|95.0|-2.9|5.7|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky feeling - Non Study eye - Day 15±2||5.7|-2.9|0.5100
92257058|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.1132|TWO_SIDED|95.0|-0.9|7.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky feeling - Non Study eye - Day 15±2||7.8|-0.9|0.1132
92257059|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.3457|TWO_SIDED|95.0|-2.4|6.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky feeling - Non Study eye - Day 15±2||6.5|-2.4|0.3457
92257060|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|4.3||||0.0185|TWO_SIDED|95.0|0.8|7.9|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred vision - Non Study eye - Day 15±2||7.9|0.8|0.0185
92257061|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.0408|TWO_SIDED|95.0|0.2|7.1|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred vision - Non Study eye - Day 15±2||7.1|0.2|0.0408
92257062|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.6992|TWO_SIDED|95.0|-4.4|3.0|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred vision - Non Study eye - Day 15±2||3.0|-4.4|0.6992
92257063|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|5.9||||0.0905|TWO_SIDED|95.0|-1.0|12.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Non Study eye - Day 15±2||12.8|-1.0|0.0905
92284204|NCT00358449|184472201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.895|TWO_SIDED|95.0|-7.34|6.44|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||6.44|-7.34|0.895
92284205|NCT00358449|184472202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.513||||0.062|TWO_SIDED|95.0|-0.028|1.055|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||1.055|-0.028|0.062
92284206|NCT00358449|184472202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.241||||0.425|TWO_SIDED|95.0|-0.369|0.852|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.852|-0.369|0.425
92284207|NCT00358449|184472202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.082|TWO_SIDED|95.0|-0.096|1.516|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||1.516|-0.096|0.082
92284208|NCT00358449|184472202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.564|TWO_SIDED|95.0|-0.631|1.132|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||1.132|-0.631|0.564
92284209|NCT00358449|184472203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.45||||0.27|TWO_SIDED|95.0|-7.77|26.67|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||26.67|-7.77|0.270
92257064|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.3054|TWO_SIDED|95.0|-3.4|10.4|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Non Study eye - Day 15±2||10.4|-3.4|0.3054
92257065|NCT03031327|184417096|SUPERIORITY||Mean Difference (Final Values)|0.5024||||0.5024|TWO_SIDED|95.0|-9.6|4.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Non Study eye - Day 15±2||4.8|-9.6|0.5024
92257066|NCT03031327|184417098|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.1226|TWO_SIDED|95.0|-0.1|0.8|||Student t-test pooled|Student t-test with pool method for estimating common variance on changes from baseline in ocular surface vital staining||Study eye - Day 15±2 pre-dose||0.8|-0.1|0.1226
92257067|NCT03031327|184417098|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.2854|TWO_SIDED|95.0|-0.2|0.7|||Student t-test pooled|Student t-test with pool method for estimating common variance on changes from baseline in ocular surface vital staining||Study eye - Day 15±2 pre-dose||0.7|-0.2|0.2854
92257068|NCT03031327|184417098|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.6525|TWO_SIDED|95.0|-0.6|0.4|||Student t-test pooled|Student t-test pooled method for estimating common variance on changes from baseline in ocular surface vital staining -||Student t-test on changes from baseline in ocular surface vital staining - Study eye - Day 15±2 pre-dose||0.4|-0.6|0.6525
92257069|NCT03031327|184417098|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.8843|TWO_SIDED|95.0|-0.4|0.5|||Student t-test pooled|Student t-test pooled method for estimating common variance on changes from baseline in ocular surface vital staining -||Non Study eye - Day 15±2 pre-dose||0.5|-0.4|0.8843
92257070|NCT03031327|184417098|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.0806|TWO_SIDED|95.0|-0.6|0.0|||Student t-test pooled|Student t-test pooled method for estimating common variance on changes from baseline in ocular surface vital staining||Non Study eye - Day 15±2 pre-dose||0.0|-0.6|0.0806
92257071|NCT03031327|184417098|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.0628|TWO_SIDED|95.0|-0.7|0.0|||Student t-test pooled|Student t-test pooled method for estimating common variance on changes from baseline in ocular surface vital staining||Non Study eye - Day 15±2 pre-dose||0.0|-0.7|0.0628
92257072|NCT03031327|184417099|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.2004|TWO_SIDED|95.0|-0.2|0.9|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Study eye - Day 15±2 pre-dose||0.9|-0.2|0.2004
92257073|NCT03031327|184417099|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.5413|TWO_SIDED|95.0|-0.3|0.6|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Study eye - Day 15±2 pre-dose||0.6|-0.3|0.5413
92257074|NCT03031327|184417099|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.4607|TWO_SIDED|95.0|-0.8|0.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Study eye - Day 15±2 pre-dose||0.4|-0.8|0.4607
92257075|NCT03031327|184417099|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.1248|TWO_SIDED|95.0|-0.2|1.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Non Study eye - Day 15±2 pre-dose||1.4|-0.2|0.1248
92257076|NCT03031327|184417099|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.0624|TWO_SIDED|95.0|0.0|1.1|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Non Study eye - Day 15±2 pre-dose||1.1|0.0|0.0624
92257077|NCT03031327|184417099|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.7927|TWO_SIDED|95.0|-1.0|0.8|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Non Study eye - Day 15±2 pre-dose||0.8|-1.0|0.7927
92257078|NCT03031327|184417100|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9717|TWO_SIDED|95.0|-0.6|0.7|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in TFBUT - Study eye - Day 15±2 pre-dose||0.7|-0.6|0.9717
92257079|NCT03031327|184417100|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.7386|TWO_SIDED|95.0|-0.6|0.9|||Student t-test pooled|Pooled method for estimating common variance was used||Study eye - Day 15±2 pre-dose||0.9|-0.6|0.7386
92257080|NCT03031327|184417100|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.7498|TWO_SIDED|95.0|-0.6|0.8|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in TFBUT - Study eye - Day 15±2 pre-dose||0.8|-0.6|0.7498
92257081|NCT03031327|184417100|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.3229|TWO_SIDED|95.0|-1.1|0.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in TFBUT - Non Study eye - Day 15±2 pre-dose||0.4|-1.1|0.3229
92257082|NCT03031327|184417100|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.57|TWO_SIDED|95.0|-0.5|0.9|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in TFBUT - Non Study eye - Day 15±2 pre-dose||0.9|-0.5|0.5700
92257083|NCT03031327|184417100|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.1197|TWO_SIDED|95.0|-0.2|1.3|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in TFBUT - Non Study eye - Day 15±2 pre-dose||1.3|-0.2|0.1197
92257084|NCT03031327|184417101|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.8787|TWO_SIDED|95.0|-0.6|0.6|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Study eye - Day 15±2 pre-dose||0.6|-0.6|0.8787
92257085|NCT03031327|184417101|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.8159|TWO_SIDED|95.0|-0.5|0.7|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Study eye - Day 15±2 pre-dose||0.7|-0.5|0.8159
92257086|NCT03031327|184417101|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.6525|TWO_SIDED|95.0|-0.4|0.6|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Study eye - Day 15±2 pre-dose||0.6|-0.4|0.6525
92257087|NCT03031327|184417101|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.334|TWO_SIDED|95.0|-1.0|0.4|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Non Study eye - Day 15±2 pre-dose||0.4|-1.0|0.3340
92257088|NCT03031327|184417101|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9749|TWO_SIDED|95.0|-0.7|0.7|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Non Study eye - Day 15±2 pre-dose||0.7|-0.7|0.9749
92257089|NCT03031327|184417101|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.1984|TWO_SIDED|95.0|-0.2|0.9|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Non Study eye - Day 15±2 pre-dose||0.9|-0.2|0.1984
92257090|NCT03031327|184417102|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.6497|TWO_SIDED|95.0|-10.5|16.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Frequency of symptoms - Day 15±2 pre-dose||16.4|-10.5|0.6497
92257091|NCT03031327|184417102|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.1443|TWO_SIDED|95.0|-16.5|2.6|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Frequency of symptoms - Day 15±2 pre-dose||2.6|-16.5|0.1443
92257092|NCT03031327|184417102|SUPERIORITY||Mean Difference (Final Values)|-9.9||||0.0751|TWO_SIDED|95.0|-20.9|1.1|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Frequency of symptoms - Day 15±2 pre-dose||1.1|-20.9|0.0751
92257093|NCT03031327|184417102|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.5015|TWO_SIDED|95.0|-7.9|15.5|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Severity of symptoms - Day 15±2 pre-dose||15.5|-7.9|0.5015
92257094|NCT03031327|184417102|SUPERIORITY||Mean Difference (Final Values)|-4.1||||0.3217|TWO_SIDED|95.0|-12.5|4.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Severity of symptoms - Day 15±2 pre-dose||4.4|-12.5|0.3217
92257095|NCT03031327|184417102|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.1026|TWO_SIDED|95.0|-17.5|1.8|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Severity of symptoms - Day 15±2 pre-dose||1.8|-17.5|0.1026
92257096|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Study eye - Day 15±2 pre-dose||||1.000
92257097|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Study eye - Day 15±2 pre-dose||||1.000
92257098|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Study eye - Day 15±2 pre-dose||||1.000
92257099|NCT03031327|184417103|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Non Study eye - Day 15±2 pre-dose||||0.4101
92257100|NCT03031327|184417103|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Non Study eye - Day 15±2 pre-dose||||0.4101
92257101|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Non Study eye - Day 15±2 pre-dose||||1.000
92257102|NCT03031327|184417103|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Study eye - Day 15±2 pre-dose||||0.4101
92257103|NCT03031327|184417103|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Study eye - Day 15±2 pre-dose||||0.4101
92257104|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Study eye - Day 15±2 pre-dose||||1.000
92257105|NCT03031327|184417103|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Non Study eye - Day 15±2 pre-dose||||0.4101
92257106|NCT03031327|184417103|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Non Study eye - Day 15±2 pre-dose||||0.4101
92284210|NCT00358449|184472203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.12||||0.664|TWO_SIDED|95.0|-15.11|23.36|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||23.36|-15.11|0.664
92257107|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Non Study eye - Day 15±2 pre-dose||||1.000
92257108|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Study eye - Day 15±2 pre-dose||||1.000
92257109|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Study eye - Day 15±2 pre-dose||||1.000
92257110|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Study eye - Day 15±2 pre-dose||||1.000
92257111|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
92257112|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
92257113|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
92257114|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Study eye - Day 15±2 pre-dose||||1.000
92257115|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Study eye - Day 15±2 pre-dose||||1.000
92257116|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Study eye - Day 15±2 pre-dose||||1.000
92257117|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Non Study eye - Day 15±2 pre-dose||||1.000
92257118|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Non Study eye - Day 15±2 pre-dose||||1.000
92257119|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Non Study eye - Day 15±2 pre-dose||||1.000
92284211|NCT00358449|184472203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.57||||0.381|TWO_SIDED|95.0|-13.81|34.94|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||34.94|-13.81|0.381
92257120|NCT03031327|184417103|SUPERIORITY|||||||0.5267|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Study eye - Day 15±2 pre-dose||||0.5267
92257121|NCT03031327|184417103|SUPERIORITY|||||||0.2633|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Study eye - Day 15±2 pre-dose||||0.2633
92257122|NCT03031327|184417103|SUPERIORITY|||||||0.6552|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Study eye - Day 15±2 pre-dose||||0.6552
92257123|NCT03031327|184417103|SUPERIORITY|||||||0.1262|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Non Study eye - Day 15±2 pre-dose||||0.1262
92257124|NCT03031327|184417103|SUPERIORITY|||||||0.2094|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Non Study eye - Day 15±2 pre-dose||||0.2094
92257125|NCT03031327|184417103|SUPERIORITY||Hodges Lehmann estimation|-1.0||||0.0377|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Non Study eye - Day 15±2 pre-dose||0.0|-1.0|0.0377
92257126|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Study eye - Day 15±2 pre-dose||||1.000
92257127|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Study eye - Day 15±2 pre-dose||||1.000
92257128|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Study eye - Day 15±2 pre-dose||||1.000
92257129|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
92257130|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
92257131|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
92178813|NCT02997202|184253705|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.6417|TWO_SIDED|95.0|0.686|1.261|||Log Rank|||Stratification factors were conditioning regimen intensity MAC vs RIC/NMA, time from transplant to randomization (30 to 60 days vs 61 to 90 days), and the presence of MRD (present vs absent/unknown) based on the pre-transplant BM aspirate.||1.261|0.686|0.6417
92257132|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Study eye - Day 15±2 pre-dose||||1.000
92257133|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Study eye - Day 15±2 pre-dose||||1.000
92178814|NCT02997202|184253706|SUPERIORITY||Hazard Ratio (HR)|0.8938||||0.641|TWO_SIDED|95.0|0.5574|1.433|||Fine-Grays model|||"aGVHD II to IV:~Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate."||1.4330|0.5574|0.6410
92257134|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Study eye - Day 15±2 pre-dose||||1.000
92257135|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Non Study eye - Day 15±2 pre-dose||||1.000
92257136|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Non Study eye - Day 15±2 pre-dose||||1.000
92257137|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Non Study eye - Day 15±2 pre-dose||||1.000
92257138|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Study eye - Day 15±2 pre-dose||||1.000
92257139|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Study eye - Day 15±2 pre-dose||||1.000
92257140|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Study eye - Day 15±2 pre-dose||||1.000
92257141|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Non Study eye - Day 15±2 pre-dose||||1.000
92257142|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Non Study eye - Day 15±2 pre-dose||||1.000
92257143|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Non Study eye - Day 15±2 pre-dose||||1.000
92257144|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Study eye - Day 15±2 pre-dose||||1.000
92257145|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Study eye - Day 15±2 pre-dose||||1.000
92257146|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Study eye - Day 15±2 pre-dose||||1.000
92257147|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Non Study eye - Day 15±2 pre-dose||||1.000
92257148|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Non Study eye - Day 15±2 pre-dose||||1.000
92257149|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Non Study eye - Day 15±2 pre-dose||||1.000
92284212|NCT00358449|184472203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.49||||0.672|TWO_SIDED|95.0|-20.87|31.86|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||31.86|-20.87|0.672
92284213|NCT00358449|184472204|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Cochran-Mantel-Haenszel|||||||0.400
92257150|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Study eye - Day 15±2 pre-dose||||1.000
92257151|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Study eye - Day 15±2 pre-dose||||1.000
92257152|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Study eye - Day 15±2 pre-dose||||1.000
92257153|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Non Study eye - Day 15±2 pre-dose||||1.000
92257154|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Non Study eye - Day 15±2 pre-dose||||1.000
92257155|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Non Study eye - Day 15±2 pre-dose||||1.000
92257156|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Study eye - Day 15±2 pre-dose||||1.000
92257157|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Study eye - Day 15±2 pre-dose||||1.000
92257158|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Study eye - Day 15±2 pre-dose||||1.000
92257159|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Non Study eye - Day 15±2 pre-dose||||1.000
92284214|NCT00358449|184472204|SUPERIORITY_OR_OTHER|||||||0.111||95.0|||||Cochran-Mantel-Haenszel|||||||0.111
92284215|NCT00358449|184472205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.3||||0.421|TWO_SIDED|95.0|-71.1|34.4|||van Elteren test||P-value, 95% CI, and Estimated value are presented for Change from Baseline at Week 12|||34.4|-71.1|0.421
92178815|NCT02997202|184253706|SUPERIORITY||Hazard Ratio (HR)|1.4254||||0.4128|TWO_SIDED|95.0|0.6103|3.3289|||Fine-Grays model|||"aGVHD III to IV:~Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate."||3.3289|0.6103|0.4128
92178816|NCT02997202|184253707|SUPERIORITY||Hazard Ratio (HR)|1.236||||0.1725|TWO_SIDED|95.0|0.9116|1.6757|||Fine-Grays Model|||Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate.||1.6757|0.9116|0.1725
92178817|NCT02997202|184253708|SUPERIORITY||Hazard Ratio (HR)|1.236||||0.1725|TWO_SIDED|95.0|0.9116|1.6757|||Fine-Grays Model|||Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate.||1.6757|0.9116|0.1725
92178818|NCT02997202|184253709|SUPERIORITY||Hazard Ratio (HR)|3.4537||||0.2029|TWO_SIDED|95.0|0.5126|23.2687|||Fine-Grays Model|||MRD Eradication||23.2687|0.5126|0.2029
92178819|NCT02997202|184253709|SUPERIORITY||Hazard Ratio (HR)|0.7073||||0.4077|TWO_SIDED|95.0|0.3116|1.6055|||Fine-Grays Model|||MRD 10\^-4 Detection||1.6055|0.3116|0.4077
92178820|NCT02997202|184253710|SUPERIORITY||Hazard Ratio (HR)|0.3729|||<|0.001|TWO_SIDED|95.0|0.2243|0.6199|||Fine-Grays Model|||Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate.||0.6199|0.2243|<0.001
92257160|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Non Study eye - Day 15±2 pre-dose||||1.000
92257161|NCT03031327|184417103|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Non Study eye - Day 15±2 pre-dose||||1.000
92257162|NCT03031327|184417104|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.5842|TWO_SIDED|95.0|-1.5|2.6|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Study eye - Day 15±2 pre-dose||2.6|-1.5|0.5842
92257163|NCT03031327|184417104|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.4606|TWO_SIDED|95.0|-2.2|1.0|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Study eye - Day 15±2 pre-dose||1.0|-2.2|0.4606
92257164|NCT03031327|184417104|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.2319|TWO_SIDED|95.0|-3.0|0.8|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Study eye - Day 15±2 pre-dose||0.8|-3.0|0.2319
92284216|NCT00358449|184472205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.633|TWO_SIDED|95.0|-44.6|40.5|||van Elteren test||P-value, 95% CI, and Estimated value are presented for Change from Baseline at Week 12|||40.5|-44.6|0.633
92178821|NCT02997202|184253711|SUPERIORITY||Hazard Ratio (HR)|1.4848||||0.0568|TWO_SIDED|95.0|0.9886|2.23|||Fine-Grays model|||Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate.||2.2300|0.9886|0.0568
92178822|NCT00303459|184253747|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.831||||0.2508|TWO_SIDED|97.31|0.582|1.187|||Log Rank|||||1.187|0.582|0.2508
92178823|NCT00303459|184253748|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.963||||0.8385|TWO_SIDED|95.0|0.673|1.38|||Log Rank|||||1.380|0.673|0.8385
92178824|NCT00303459|184253749|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|21.8||||0.0106|TWO_SIDED|95.0|5.9|37.8|||Wilcoxon (Mann-Whitney)|||||37.8|5.9|0.0106
92178825|NCT00303459|184253750|SUPERIORITY_OR_OTHER_LEGACY||Relative risk of improvement|0.98||||1|TWO_SIDED|95.0|0.6|1.61|||Fisher Exact|||||1.61|0.60|1.0000
92178826|NCT00303459|184253751|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.855||||0.4974|TWO_SIDED|95.0|0.544|1.344|||Log Rank|||||1.344|0.544|0.4974
92257165|NCT03031327|184417104|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.6018|TWO_SIDED|95.0|-2.3|1.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Non Study eye - Day 15±2 pre-dose||1.4|-2.3|0.6018
92284217|NCT00358449|184472205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3||||0.92|TWO_SIDED|95.0|-76.3|45.7|||van Elteren test||P-value, 95% CI, and Estimated value are presented for Change from Baseline at Week 24|||45.7|-76.3|0.920
92178827|NCT00303459|184253752|SUPERIORITY_OR_OTHER_LEGACY||Percentage change over placebo|-23.52||||0.0003|TWO_SIDED|95.0|-33.69|-11.79|||Repeated measures analysis|||||-11.79|-33.69|0.0003
92178828|NCT00303459|184253753|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.01||||0.9566|TWO_SIDED|95.0|-0.42|0.39|||Wilcoxon (Mann-Whitney)|||||0.39|-0.42|0.9566
92178829|NCT00303459|184253754|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.02||||0.5571|TWO_SIDED|95.0|-0.036|0.076|||Wilcoxon (Mann-Whitney)|||||0.076|-0.036|0.5571
92178830|NCT00303459|184253755|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.2||||0.4086|TWO_SIDED|95.0|-3.7|4.0|||Wilcoxon (Mann-Whitney)|||||4.0|-3.7|0.4086
92178831|NCT02492711|184253788|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0334|TWO_SIDED|95.0|0.593|0.979|||Log Rank|Stratified Log-Rank Test|Stratified Cox Proportional Model|||0.979|0.593|0.0334
92178832|NCT02492711|184253789|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.6204|TWO_SIDED|95.0|0.774|1.165|||Log Rank|Stratified Log-Rank Test|Stratified Cox Proportional Model|||1.165|0.774|0.6204
92178833|NCT02492711|184253791|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0014|TWO_SIDED|95.0|0.556|0.87|||Log Rank|Stratified Log-Rank Test|Stratified Cox Proportional Model|||0.870|0.556|0.0014
92178834|NCT01474122|184253794|SUPERIORITY_OR_OTHER_LEGACY||NB-2 estimate of new DUs per patient|1.194||||0.434|TWO_SIDED|95.0|0.766|1.861|||negative binomial-2 regression (NB-2)||The estimated value corresponds to the treatment effect i.e. the ratio between the estimated number of new DUs in macitentan 3 mg and in placebo|||1.861|0.766|0.434
92178835|NCT01474122|184253794|SUPERIORITY_OR_OTHER_LEGACY||NB-2 estimate of new DUs per patient|1.208||||0.407|TWO_SIDED|95.0|0.773|1.886|||NB-2||The estimated value corresponds to the treatment effect i.e. the ratio between the estimated number of new DUs in macitentan 10 mg and in placebo|||1.886|0.773|0.407
92178836|NCT01474122|184253795|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.831||||0.5668|TWO_SIDED|95.0|0.442|1.564|||Chi-squared|||||1.564|0.442|0.5668
92178837|NCT01474122|184253795|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.789||||0.4624|TWO_SIDED|95.0|0.42|1.484|||Chi-squared|||||1.484|0.420|0.4624
92284218|NCT00358449|184472205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.8||||0.105|TWO_SIDED|95.0|-79.2|11.6|||van Elteren test||P-value, 95% CI, and Estimated value are presented for Change from Baseline at Week 24|||11.6|-79.2|0.105
92178838|NCT01474122|184253796|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.216||||0.6117|TWO_SIDED|95.0|0.572|2.582|||Chi-squared|||||2.582|0.572|0.6117
92257166|NCT03031327|184417104|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.4857|TWO_SIDED|95.0|-2.2|1.1|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Non Study eye - Day 15±2 pre-dose||1.1|-2.2|0.4857
92257167|NCT03031327|184417104|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.9015|TWO_SIDED|95.0|-2.0|1.8|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Non Study eye - Day 15±2 pre-dose||1.8|-2.0|0.9015
92178839|NCT01474122|184253796|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.048||||0.9047|TWO_SIDED|95.0|0.485|2.264|||Chi-squared|||||2.264|0.485|0.9047
92257168|NCT03031327|184417105|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.3574|TWO_SIDED|95.0|-0.1|0.3|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Study eye - Day 15±2 pre-dose||0.3|-0.1|0.3574
92178840|NCT01474122|184253797|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.347|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.347
92178841|NCT01474122|184253797|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.165|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.165
92178842|NCT01474122|184253798|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.339|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.339
92178843|NCT01474122|184253798|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.312|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.312
92178844|NCT01474122|184253799|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.319|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.319
92178845|NCT01474122|184253799|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.2||||0.221|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.221
92257169|NCT03031327|184417105|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.3574|TWO_SIDED|95.0|-0.1|0.3|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Study eye - Day 15±2 pre-dose||0.3|-0.1|0.3574
92257170|NCT03031327|184417105|SUPERIORITY||Mean Difference (Final Values)|0.0||||0|TWO_SIDED|95.0|0.0|0.0||P-value is NA due to the measured values of corneal sensitivity equal to zero.|Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Study eye - Day 15±2 pre-dose||0.0|0.0|00
92257171|NCT03031327|184417105|SUPERIORITY||Mean Difference (Final Values)|0.0||||0|TWO_SIDED|95.0|0.0|0.0||P-value is NA due to the measured values of corneal sensitivity equal to zero.|Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Non Study eye - Day 15±2 pre-dose||0.0|0.0|00
92257172|NCT03031327|184417105|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.1|TWO_SIDED|95.0|-0.1|0.3|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Non Study eye - Day 15±2 pre-dose||0.3|-0.1|0.1
92178846|NCT02163694|184253803|SUPERIORITY|||||||0.003|||||||Log-rank test|||PFS was compared between the treatment groups using the log-rank test, stratified by prior platinum therapy (Yes versus No) and receptor status (estrogen receptor \[ER\] and/or progesterone receptor \[PgR\] positive versus ER/PgR negative).||||0.003
92178847|NCT02163694|184253803|SUPERIORITY||Stratified Cox proportional hazards|0.728||||0.003|TWO_SIDED|95.0|0.59|0.9|||Stratified Cox proportional hazards|||A Cox proportional hazards model, stratified by prior platinum therapy (Yes versus No) and receptor status (estrogen receptor (ER) and/or progesterone receptor (PgR) positive versus ER/PgR negative) was used to estimate the hazard ratio and 95% confidence interval comparing the two treatment arms.||0.900|0.590|0.003
92178848|NCT02163694|184253804|SUPERIORITY|||||||0.41|||||||Log Rank|||||||0.410
92178849|NCT02163694|184253804|SUPERIORITY||Stratified Cox proportional hazards|0.914||||0.41|TWO_SIDED|95.0|0.737|1.333|||Stratified Cox proportional hazards|||A Cox proportional hazards model, stratified by prior platinum therapy (Yes versus No) and receptor status (estrogen receptor (ER) and/or progesterone receptor (PgR) positive versus ER/PgR negative) was used to estimate the hazard ratio and 95% confidence interval comparing the two treatment arms.||1.333|0.737|0.410
92178850|NCT02163694|184253805|SUPERIORITY|||||||0.202||||||Nominal P value is from Cochran-Mantel-Haenszel test stratified by ER/PgR status and prior platinum therapy use.|Cochran-Mantel-Haenszel|||||||0.202
92257173|NCT03031327|184417105|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.1|TWO_SIDED|95.0|-0.1|0.3|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Non Study eye - Day 15±2 pre-dose||0.3|-0.1|0.1
92178851|NCT02163694|184253806|SUPERIORITY|||||||0.715||||||Nominal P value is from Cochran-Mantel-Haenszel test stratified by ER/PgR status and prior platinum therapy use.|Cochran-Mantel-Haenszel|||||||0.715
92178852|NCT02163694|184253807|SUPERIORITY|||||||0.004|||||||Log Rank|||||||0.004
92178853|NCT02163694|184253807|SUPERIORITY||Stratified Cox proportional hazards|0.737||||0.004|TWO_SIDED|95.0|0.597|0.908|||Stratified Cox proportional hazards|Stratified by prior platinum therapy (yes vs no) and receptor status (ER and/or PgR positive vs ER/PgR negative).||||0.908|0.597|0.004
92178854|NCT03884101|184253808|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5550121|TWO_SIDED|95.0|0.83|1.24|||Log Rank|One-sided p-value based on log-rank test and stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|||1.24|0.83|0.5550121
92178855|NCT03884101|184253809|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.1792058|TWO_SIDED|95.0|0.77|1.1|||Log Rank|One-sided p-value based on log-rank test and stratified by MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate stratified by MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|||1.10|0.77|0.1792058
92178856|NCT03884101|184253810|NON_INFERIORITY|The null hypothesis for the non-inferiority test was that the hazard ratio was equal to 1.1.|Hazard Ratio (HR)|1.02||||0.2459875|TWO_SIDED|95.0|0.83|1.26|||Log Rank|One-sided p-value based on log-rank test and stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|||1.26|0.83|0.2459875
92257174|NCT00908050|184417117|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0394|||||||Chi-squared|||The averaged data calculated from three nights in each recording period for each subject will be submitted to statistical analysis. Descriptive and non-parametric statistics will be used for the secondary end-points.||||0.0394
92257175|NCT00087594|184417272|SUPERIORITY_OR_OTHER||Difference|7.0|||||TWO_SIDED|95.0|-27.8|41.3||||||95% CI for G1 participants||41.3|-27.8|
92257176|NCT00087594|184417272|SUPERIORITY_OR_OTHER||Difference|13.0|||||TWO_SIDED|95.0|-10.4|35.4||||||95% CI for G2/3 participants||35.4|-10.4|
92178857|NCT03884101|184253810|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.5875597|TWO_SIDED|95.0|0.83|1.26|||Log Rank|One-sided p-value based on log-rank test and stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|||1.26|0.83|0.5875597
92178858|NCT03884101|184253811|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.21552|TWO_SIDED|95.0|0.77|1.12|||Log Rank|One-sided p-value based on log-rank test and stratified by MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate stratified by MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|||1.12|0.77|0.21552
92178859|NCT03884101|184253812|OTHER||Difference in Percentage|-4.2||||0.8569|TWO_SIDED|95.0|-11.9|3.5|||Stratified Miettinen & Nurminen|One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Based on Miettinen \& Nurminen method stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|||3.5|-11.9|0.8569
92178860|NCT03884101|184253813|OTHER||Difference in Percentage|0.0||||0.4999|TWO_SIDED|95.0|-6.7|6.7|||Stratified Miettinen & Nurminen|One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Based on Miettinen \& Nurminen method stratified by MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|||6.7|-6.7|0.4999
92178861|NCT03884101|184253814|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors ECOG performance status, and prior chemotherapy and/or chemoradiation.|Difference in Least Square Means|-3.77||||0.0302|TWO_SIDED|95.0|-7.17|-0.36|||cLDA model|||||-0.36|-7.17|0.0302
92257177|NCT00087594|184417272|SUPERIORITY_OR_OTHER||Difference|44.0|||||TWO_SIDED|95.0|12.0|76.9||||||95% CI for G1 participants with 2 log drop at W 12||76.9|12.0|
92178862|NCT03884101|184253815|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|Difference in Least Square Means|-2.29||||0.1355|TWO_SIDED|95.0|-5.31|0.72|||cLDA model|||||0.72|-5.31|0.1355
92257178|NCT00087594|184417272|SUPERIORITY_OR_OTHER||Difference|0.0|||||TWO_SIDED|||||||||95% CI for G1 participants with non 2 log drop at W 12||||
92257179|NCT00087594|184417272|SUPERIORITY_OR_OTHER||Difference|-13.0|||||TWO_SIDED|95.0|-77.2|50.5||||||95% CI for G1 participants with missing HCV-RNA at W 12||50.5|-77.2|
92257180|NCT01952041|184417286|SUPERIORITY|||||||0.8|||||||Chi-squared|Chi-square test statistic=0.06, degrees of freedom=2||||||0.80
92178863|NCT05061017|184253820|SUPERIORITY|||||||1|TWO_SIDED|95.0|||||Fisher Exact|||||||1.0000
92178864|NCT05061017|184253821|SUPERIORITY|||||||1|TWO_SIDED|95.0|||||Fisher Exact|||||||1.0000
92178865|NCT05412004|184253888|SUPERIORITY||LS Mean Change difference|-20.01|||<|0.001|TWO_SIDED|95.0|-25.82|-14.2|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, treatment (Type III sum of squares) as covariates.||||-14.20|-25.82|<0.001
92178866|NCT05412004|184253888|SUPERIORITY||LS Mean Change difference|-23.77|||<|0.001|TWO_SIDED|95.0|-29.61|-17.93|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, treatment (Type III sum of squares) as covariates.||||-17.93|-29.61|<0.001
92178867|NCT05412004|184253889|SUPERIORITY||LS Mean Change difference|-47.65|||<|0.001|TWO_SIDED|95.0|-65.76|-29.55|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, treatment (Type III sum of squares) as covariates.||||-29.55|-65.76|<0.001
92178868|NCT05412004|184253889|SUPERIORITY||LS Mean Change difference|-56.21|||<|0.001|TWO_SIDED|95.0|-73.73|-38.7|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, treatment (Type III sum of squares) as covariates.||||-38.70|-73.73|<0.001
92178869|NCT05412004|184253890|SUPERIORITY||Risk Difference (RD)|42.77|||<|0.001|TWO_SIDED|95.0|30.76|54.79|||Regression, Logistic|||||54.79|30.76|<0.001
92178870|NCT05412004|184253890|SUPERIORITY||Risk Difference (RD)|48.6|||<|0.001|TWO_SIDED|95.0|36.55|60.65|||Regression, Logistic|||||60.65|36.55|<0.001
92178871|NCT05412004|184253891|SUPERIORITY||Risk Difference (RD)|28.74|||<|0.001|TWO_SIDED|95.0|18.27|39.22|||Regression, Logistic|||||39.22|18.27|<.001
92257181|NCT01952041|184417287|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.43|TWO_SIDED|95.0|0.42|1.44|||Regression, Cox||Hazard ratio is intervention arm vs. TAU for time to first relapse from randomization. There is not a standard error (SE) that directly links to the hazard ratio. The confidence interval provided illustrates the dispersion for the hazard ratio.|||1.44|0.42|0.43
92257182|NCT01952041|184417288|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.41||0.58|TWO_SIDED|95.0|-0.58|1.02|||Mixed Models Analysis||Treatment by time interaction terms are given to test difference of slopes between arms.|||1.02|-0.58|0.58
92257183|NCT01952041|184417289|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.12||0.84|TWO_SIDED|95.0|-0.22|0.26|||Mixed Models Analysis||Treatment by time interaction terms are given to test difference of slopes between arms.|||0.26|-0.22|0.84
92257184|NCT01952041|184417290|SUPERIORITY||Slope|-2.7|STANDARD_ERROR_OF_MEAN|1.4||0.06|TWO_SIDED|95.0|-5.4|0.04|||Mixed Models Analysis||Treatment by time interaction terms are given to test difference of slopes between arms.|||0.04|-5.40|0.06
92284219|NCT00358449|184472206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.63||||0.747|TWO_SIDED|95.0|-20.68|15.41|||van Elteren test||P-value, 95% CI, and Estimated value are presented for change from baseline values at Week 12|||15.41|-20.68|0.747
92178872|NCT05412004|184253891|SUPERIORITY||Risk Difference (RD)|33.22|||<|0.001|TWO_SIDED|95.0|22.12|44.31|||Regression, Logistic|||||44.31|22.12|<0.001
92178873|NCT05412004|184253892|SUPERIORITY||Median Difference (Net)|-70.13|STANDARD_ERROR_OF_MEAN|10.619|||TWO_SIDED|95.0|-90.94|-49.31||||||||-49.31|-90.94|
92178874|NCT05412004|184253892|SUPERIORITY||Median Difference (Net)|-61.29|STANDARD_ERROR_OF_MEAN|11.921|||TWO_SIDED|95.0|-84.66|-37.93||||||||-37.93|-84.66|
92257185|NCT01736176|184417291|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Mixed-effect Repeated Measures (MMRM)|MMRM model included the fixed effects of study site and visit, with baseline score as a covariate, and the baseline-by-visit interaction.||The primary null hypothesis was no change in least-square (LS) mean, calculated using a mixed-effect repeated measures model (MMRM), for NMSS total score from baseline to Week 12. The statistical test was two-sided and the null hypothesis was rejected at the significance level of α = 0.050.||||< 0.001
92257186|NCT01736176|184417295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Mixed-effect Repeated Measures (MMRM)|MMRM model included the fixed effects of study site and visit, with baseline score as a covariate, and the baseline-by-visit interaction.||||||0.004
92257187|NCT01569568|184417329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||This is an uncorrected p-value. A priori threshold is 0.05.|t-test, 2 sided|||The null hypothesis predicts that the concentration of glutamine is the same for controls and OTCD patients in PCGM.||||0.001
92178875|NCT05412004|184253893|SUPERIORITY||LS Mean Change difference|-2.03||||0.037|TWO_SIDED|95.0|-3.95|-0.12|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||Sleep Disturbance||-0.12|-3.95|0.037
92178876|NCT05412004|184253893|SUPERIORITY||LS Mean Change difference|-3.43||||0.003|TWO_SIDED|95.0|-5.69|-1.17|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||Sleep Related Impairment||-1.17|-5.69|0.003
92257188|NCT01569568|184417329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold is 0.05.|t-test, 2 sided|||The null hypothesis predicts that the concentration of myoinositol is the same for controls and OTCD patients in PCGM.||||0.011
92257189|NCT01569568|184417329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||This is an uncorrected p-value. A priori threshold was 0.05.|t-test, 2 sided|||The null hypothesis predicts that the concentration of glutamine is the same for controls and OTCD patients in PWM.||||0.004
92178877|NCT05412004|184253893|SUPERIORITY||LS Mean Change difference|-3.9|||<|0.001|TWO_SIDED|95.0|-6.21|-1.58|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||Sleep Disturbance||-1.58|-6.21|<0.001
92178878|NCT05412004|184253893|SUPERIORITY||LS Mean Change difference|-4.26||||0.002|TWO_SIDED|95.0|-6.97|-1.56|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||Sleep-Related Impairment||-1.56|-6.97|0.002
92178879|NCT05412004|184253894|SUPERIORITY||LS Mean Change difference|-16.09|||<|0.001|TWO_SIDED|95.0|-17.99|-14.19|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||||-14.19|-17.99|<0.001
92178880|NCT05412004|184253894|SUPERIORITY||LS Mean Change difference|-17.28|||<|0.001|TWO_SIDED|95.0|-19.29|-15.28|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||||-15.28|-19.29|<.001
92257190|NCT01569568|184417329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046|TWO_SIDED|||||This is an uncorrected p-value. A priori threshold was 0.05.|t-test, 2 sided|||The null hypothesis predicts that the concentration of myoinositol is the same for controls and OTCD patients in PWM.||||0.046
92178881|NCT05412004|184253895|SUPERIORITY||LS Mean Change difference|-0.71|STANDARD_ERROR_OF_MEAN|0.253||0.752|TWO_SIDED|95.0|-1.21|-0.22||ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.|ANCOVA|||||-0.22|-1.21|0.752
92257191|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Our a priori threshold for statistical significance was 0.05.|ANOVA|We ran a 2 (Group) x 6 (ROI Pair) ANOVA to assess functional connectivity between the nodes of the DMN, using age as a covariate.||The null hypothesis states predicts no main effects of Group, ROI pair, or Age, suggesting that the connectivity between all DMN nodes is the same across groups.||||<0.001
92257192|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC/mPFC node and the left IPL node does not differ between groups.||||0.024
92257193|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold is 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC/mPFC node and the PCC node does not differ between groups.||||0.040
92257194|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC/mPFC node and the right IPL node does not differ between groups.||||0.008
92178882|NCT05412004|184253895|SUPERIORITY||LS Mean Change difference|-1.04|STANDARD_ERROR_OF_MEAN|0.269||0.35|TWO_SIDED|95.0|-1.57|-0.51||ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.|ANCOVA|||||-0.51|-1.57|0.350
92178883|NCT05412004|184253896|SUPERIORITY||LS Mean Change difference|-7.62|||<|0.001|TWO_SIDED|95.0|-10.48|-4.77|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||||-4.77|-10.48|<0.001
92178884|NCT05412004|184253896|SUPERIORITY||LS Mean difference|-3.7||||0.017|TWO_SIDED|95.0|-6.75|-0.65|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||||-0.65|-6.75|0.017
92257195|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the left IPL node and the right IPL node does not differ between groups.||||0.470
92257196|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.829|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the PCC node and the left IPL node does not differ between groups.||||0.829
92284220|NCT00358449|184472206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7||||0.352|TWO_SIDED|95.0|-24.41|11.01|||van Elteren test||P-value, 95% CI, and Estimated value are presented for change from baseline values at Week 12|||11.01|-24.41|0.352
92284221|NCT00358449|184472206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.25||||0.525|TWO_SIDED|95.0|-29.69|11.2|||van Elteren test||P-value, 95% CI, and Estimated value are presented for change from baseline values at Week 24|||11.20|-29.69|0.525
92257197|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.801|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the PCC node and the right IPL node does not differ between groups.||||0.801
92178885|NCT03781089|184253897|OTHER|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
92178886|NCT03781089|184253898|OTHER|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
92178887|NCT02246127|184253913|SUPERIORITY||Odds Ratio (OR)|0.65||||0.229|TWO_SIDED|95.0|0.32|1.32|||Regression, Cox|||significant differences between both arms is assumed in case p-val \< 0.05||1.32|0.32|0.229
92257198|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Our a priori threshold for statistical significance was 0.05.|ANOVA|We ran a 2 (Group) x 6 (ROI Pair) ANOVA to assess functional connectivity between the nodes of the SMN, using age as a covariate.||The null hypothesis states predicts no main effects of Group, ROI pair, or Age, suggesting that the connectivity between all SMN nodes is the same across groups.||||<0.001
92284222|NCT00358449|184472206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.79||||0.071|TWO_SIDED|95.0|-35.21|-0.38|||Van Elteren test||P-value, 95% CI, and Estimated value are presented for change from baseline at week 24|||-0.38|-35.21|0.071
92284223|NCT02334722|184472217|SUPERIORITY||Median Difference (Final Values)|-2.5||||0.7824|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.7824
92257199|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC node and the left aI/fO node does not differ between groups.||||0.550
92257200|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC node and the left SFG node does not differ between groups.||||0.113
92257201|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC node and the right aI/fO node does not differ between groups.||||0.039
92257202|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC node and the right SFG node does not differ between groups.||||0.005
92257203|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.426|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the left aI/fO and the left SFG node does not differ between groups.||||0.426
92178888|NCT02246127|184253914|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.135|TWO_SIDED|95.0|0.9|2.19|||Regression, Cox|||significant differences between both arms is assumed in case p-val \< 0.05||2.19|0.90|0.135
92178889|NCT02246127|184253915|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.474|TWO_SIDED|95.0|0.77|1.75|||Regression, Cox|||significant differences between both arms is assumed in case p-val \< 0.05||1.75|0.77|0.474
92178890|NCT02246127|184253917|SUPERIORITY|||||||0.001|||||||Fisher Exact|||significant differences between both arms is assumed in case p-val \< 0.05||||0.001
92178891|NCT02246127|184253919|SUPERIORITY|||||||0.012|||||||Fisher Exact|||significant differences between both arms is assumed in case p-val \< 0.05||||0.012
92178892|NCT02246127|184253920|SUPERIORITY|||||||0.001|||||||Fisher Exact|||significant differences between both arms is assumed in case p-val \< 0.05||||0.001
92178893|NCT02246127|184253921|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.168|TWO_SIDED|95.0|0.86|2.37|||Regression, Cox|||significant differences between both arms is assumed in case p-val \< 0.05||2.37|0.86|0.168
92178894|NCT02246127|184253923|SUPERIORITY|||||||0.072|||||||Fisher Exact|||significant differences between both arms is assumed in case p-val \< 0.05||||0.072
92178895|NCT02246127|184253925|SUPERIORITY||Hazard Ratio (HR)|1.6||||0.079|TWO_SIDED|95.0|0.94|2.73|||Log Rank|||significant differences between both arms is assumed in case p-val \< 0.05||2.73|0.94|0.079
92178896|NCT03370913|184253972|SUPERIORITY||% Reduction from Baseline|-77.0|||<|0.0001|TWO_SIDED|||||P-values were for 2-sided test against 0.|t-test, 2 sided|Superiority was tested by1-sample t-test to test null hypothesis that change is \>=0. Only negative changes represent efficacy.|77% reduction|Change from baseline in the ABR for all bleeds (post-baseline EEP value - baseline value)||||<0.0001
92178897|NCT05257603|184253999|OTHER||Mean Difference (Net)|4.82|STANDARD_ERROR_OF_MEAN|0.615|<|0.99|TWO_SIDED|95.0|3.24|5.72|||ANOVA|||||5.72|3.24|<0.99
92178898|NCT05257603|184254000|OTHER||||||<|0.29|||||||Chi-squared|||||||<.29
92178899|NCT05257603|184254001|OTHER||||||<|0.99|||||||ANOVA|||A one-way ANOVA was used to compare the mean difference in key presses from time 1 to time 2 between the intervention (RPCW) and Control conditions.||||<0.99
92257204|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.256|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the left aI/fO node and the right aI/fO node does not differ between groups.||||0.256
92178900|NCT05257603|184254002|OTHER||||||<|0.45|||||||ANOVA|||||||<0.45
92178901|NCT05257603|184254003|OTHER||||||<|0.1||||||Given the exploratory nature of the analysis we were looking for a trend in improvement in emotion regulation (i.e., p\<.10) following the intervention condition compared to control.|ANOVA|||||||<.10
92178902|NCT05257603|184254004|OTHER||||||<|0.1|||||||ANOVA|||Repeated measure ANOVA was used to provide preliminary information for estimating sample sizes needed for a larger Stage II efficacy trial. The current pilot RCT was not powered to find significant effects.||||<.10
92257205|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.853|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the left aI/fO and the right SFG node does not differ between groups.||||0.853
92257206|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the right aI/fO node and the left SFG node does not differ between groups.||||0.003
92257207|NCT01569568|184417330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the right aI/fO node and the right SFG node does not differ between groups.||||0.023
92257208|NCT01569568|184417332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.929|TWO_SIDED|||||Equal variance is not assumed. Two tailed t-test WASI verbal IQ between cases and controls|t-test, 2 sided|||||||.929
92178903|NCT05257603|184254005|OTHER||||||<|0.1||||||A priori threshold for a trend set at p\<.10 for condition effect (intervention v control).|ANOVA|||An exploratory repeated measures ANOVA with time (4) as the within-subjects variable and condition (2) as the between-subjects variable was conducted to provide preliminary information for estimating sample sizes needed for a larger Stage II efficacy trial. The current pilot RCT was not powered to find significant effects.||||<.10
92178904|NCT05257603|184254006|OTHER||||||<|0.098|||||||ANOVA|||An exploratory repeated measures ANOVA with time (4) as the within-subjects variable and condition (2) as the between-subjects variable was conducted to provide preliminary information for estimating sample sizes needed for a larger Stage II efficacy trial.||||<.098
92178905|NCT03279978|184254018|OTHER||Slope|0.7124|STANDARD_ERROR_OF_MEAN|0.0694|||TWO_SIDED|95.0|0.5702|0.8546||||||Dose proportionality for AUC0-24 of BI 730357 in plasma - fasted groups was assessed using a power model (regression model applied to log-transformed data). In this study AUCtau,1 = AUC0-24|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.8546|0.5702|
92178906|NCT03279978|184254018|OTHER||Slope|0.5964|STANDARD_ERROR_OF_MEAN|0.0575|||TWO_SIDED|95.0|0.4777|0.7151||||||Dose proportionality for AUC0-24 of BI 730357 in plasma - fed groups was assessed using a power model (regression model applied to log-transformed data). In this study AUCtau,1 = AUC0-24|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7151|0.4777|
92257209|NCT01569568|184417332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||Equal variance not assumed. Comparison WASI performance IQ cases and controls|t-test, 2 sided|||||||.002
92257210|NCT01569568|184417332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.094|TWO_SIDED|||||Equal variance not assumed. Comparison of WASI full IQ cases and controls|t-test, 2 sided|||||||.094
92284224|NCT03988803|184472218|OTHER||Ratio of the geometric means (T/R1)|94.8|STANDARD_ERROR_OF_MEAN|12.2|||TWO_SIDED|90.0|87.14|103.14|||ANOVA||Standard error of the mean is the geometric coefficient of variation|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That was, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. The model used included effects accounting for the following sources of variation: subjects and treatment. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||103.14|87.14|
92257211|NCT01569568|184417332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.853|TWO_SIDED|||||Equal variance not assumed. Comparison of CTMT global composite score between cases and controls|t-test, 2 sided|||||||.853
92284225|NCT03988803|184472219|OTHER||Ratio of the geometric means (T/R1)|99.34|STANDARD_ERROR_OF_MEAN|12.3|||TWO_SIDED|90.0|91.22|108.18|||ANOVA||Standard error fo the mean is the geometric coefficient of variation|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That was, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. The model used included effects accounting for the following sources of variation: subjects and treatment. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||108.18|91.22|
92178907|NCT03279978|184254019|OTHER||Slope|0.6445|STANDARD_ERROR_OF_MEAN|0.0649|||TWO_SIDED|95.0|0.5124|0.7766||||||Dose proportionality for Cmax of BI 730357 in plasma - fasted groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7766|0.5124|
92257212|NCT01569568|184417332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||Equal variance not assumed. Comparison of BRIEF BRI cases and controls|t-test, 2 sided|||||||.001
92257213|NCT01569568|184417332|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Equal variances not assumed. Comparison of BRIEF MI cases and controls|t-test, 2 sided|||||||<.001
92257214|NCT01569568|184417332|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Equal variances not assumed. Comparison of BRIEF GEC between cases and controls.|t-test, 2 sided|||||||<0.001
92257215|NCT04437511|184417339|SUPERIORITY||LS Mean change difference (Final Values)|2.92|STANDARD_ERROR_OF_MEAN|0.72|<|0.001|TWO_SIDED|95.0|1.508|4.331|||Mixed Models Analysis|||||4.331|1.508|<0.001
92178908|NCT03279978|184254019|OTHER||Slope|0.6223|STANDARD_ERROR_OF_MEAN|0.0715|||TWO_SIDED|95.0|0.4747|0.7699||||||Dose proportionality for Cmax of BI 730357 in plasma - fed groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7699|0.4747|
92257216|NCT04437511|184417340|SUPERIORITY||LS Mean change difference (Final Values)|3.25|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.883|4.618|||Mixed Models Analysis|||||4.618|1.883|<0.001
92178909|NCT03279978|184254020|OTHER||Slope|0.6401|STANDARD_ERROR_OF_MEAN|0.0909|||TWO_SIDED|95.0|0.4545|0.8258||||||Dose proportionality for AUCτ,ss of BI 730357 in plasma - fasted groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.8258|0.4545|
92178910|NCT03279978|184254020|OTHER||Slope|0.5811|STANDARD_ERROR_OF_MEAN|0.0864|||TWO_SIDED|95.0|0.4013|0.7609||||||Dose proportionality for AUCτ,ss of BI 730357 in plasma - fed groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7609|0.4013|
92178911|NCT03279978|184254021|OTHER||Slope|0.6005|STANDARD_ERROR_OF_MEAN|0.0722|||TWO_SIDED|95.0|0.4534|0.7477||||||Dose proportionality for Cmax,ss of BI 730357 in plasma - fasted groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7477|0.4534|
92178912|NCT03279978|184254021|OTHER||Slope|0.5799|STANDARD_ERROR_OF_MEAN|0.0656|||TWO_SIDED|95.0|0.4441|0.7156||||||Dose proportionality for Cmax,ss of BI 730357 in plasma - fed groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7156|0.4441|
92178913|NCT04159519|184254027|OTHER|Mixed model for repeated measure (MMRM) with fixed effects for treatment arm, visit, baseline value, and treatment-by-visit interaction with an unstructured covariance structure.|Least square mean difference|0.1062|||||TWO_SIDED|95.0|-0.0485|0.2609||||||Comparison with reference arm||0.2609|-0.0485|
92178914|NCT04159519|184254028|OTHER|Comparison|Least square mean difference|-0.0343|||||TWO_SIDED|95.0|-0.2527|0.1841|||Mixed model for repeated measure (MMRM)|MMRM with fixed effects for treatment arm, visit, baseline value, and treatment-by-visit interaction with an unstructured covariance structure.||Comparison with reference arm||0.1841|-0.2527|
92178915|NCT03493542|184254050|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval of GMT ratio (9 to 19 years old/20 to 26 years old) was greater than 0.67 for each HPV type.|GMT Ratio|1.42|||<|0.0001|TWO_SIDED|95.0|1.28|1.58|||ANOVA||GMT Ratio = GMT (9-19 yr)/GMT(20-26 yr)|Anti-HPV 6||1.58|1.28|<0.0001
92178916|NCT03493542|184254050|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval of GMT ratio (9 to 19 years old/20 to 26 years old) was greater than 0.67 for each HPV type.|GMT Ratio|1.39|||<|0.0001|TWO_SIDED|95.0|1.25|1.55|||ANOVA||GMT Ratio = GMT (9-19 yr)/GMT(20-26 yr)|Anti-HPV 11||1.55|1.25|<0.0001
92257217|NCT04437511|184417341|SUPERIORITY||LS Mean change difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.19||0.012|TWO_SIDED|95.0|0.104|0.841|||Mixed Models Analysis|||||0.841|0.104|0.012
92257218|NCT04437511|184417342|SUPERIORITY||LS Mean change difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.2||0.016|TWO_SIDED|95.0|0.089|0.868|||Mixed Models Analysis|||||0.868|0.089|0.016
92257219|NCT04437511|184417343|SUPERIORITY||LS Mean change difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.39||0.0006|TWO_SIDED|95.0|-2.086|-0.565|||Mixed Models Analysis|||||-0.565|-2.086|0.0006
92178917|NCT03493542|184254050|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval of GMT ratio (9 to 19 years old/20 to 26 years old) was greater than 0.67 for each HPV type.|GMT Ratio|1.53|||<|0.0001|TWO_SIDED|95.0|1.37|1.7|||ANOVA||GMT Ratio = GMT (9-19 yr)/GMT(20-26 yr)|Anti-HPV 16||1.70|1.37|<0.0001
92178918|NCT03493542|184254050|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval of GMT ratio (9 to 19 years old/20 to 26 years old) was greater than 0.67 for each HPV type.|GMT Ratio|1.66|||<|0.0001|TWO_SIDED|95.0|1.45|1.9|||ANOVA||GMT Ratio = GMT (9-19 yr)/GMT(20-26 yr)|Anti-HPV 18||1.90|1.45|<0.0001
92257220|NCT04437511|184417344|SUPERIORITY||LS Mean change difference (Final Values)|-1.52|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.25|-0.794|||Mixed Models Analysis|||||-0.794|-2.250|<0.001
92257221|NCT04437511|184417345|SUPERIORITY||LS Mean change difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.127|<|0.001|TWO_SIDED|95.0|-0.95|-0.45|||Mixed Models Analysis|||||-0.45|-0.95|<0.001
92257222|NCT04437511|184417346|SUPERIORITY||LS Mean change difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.141|<|0.001|TWO_SIDED|95.0|-0.95|-0.4|||Mixed Models Analysis|||||-0.40|-0.95|<0.001
92257223|NCT04437511|184417347|SUPERIORITY||LS Mean change difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|0.44||0.0001|TWO_SIDED|95.0|0.84|2.566|||Mixed Models Analysis|||||2.566|0.840|0.0001
92257224|NCT04437511|184417348|SUPERIORITY||LS Mean change difference (Final Values)|1.83|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|0.913|2.748|||Mixed Models Analysis|||||2.748|0.913|<0.001
92257225|NCT04437511|184417349|SUPERIORITY||LS Mean change difference (Final Values)|-86.37|STANDARD_ERROR_OF_MEAN|1.275|<|0.0001|TWO_SIDED|95.0|-88.87|-83.87|||Mixed Models Analysis|||||-83.87|-88.87|<0.0001
92284226|NCT03988803|184472220|OTHER||Ratio of the geometric means (T/R2)|103.69|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|90.0|99.99|107.52|||ANOVA||Standard error fo the mean is the geometric coefficient of variation|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That was, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. The model used included effects accounting for the following sources of variation: subjects and treatment. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||107.52|99.99|
92257226|NCT04437511|184417350|SUPERIORITY||LS Mean change difference (Final Values)|-0.0041||||0.4522|TWO_SIDED|95.0|-0.0148|0.0066|||ANCOVA|||||0.0066|-0.0148|0.4522
92257227|NCT04437511|184417351|SUPERIORITY||LS Mean change difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.007||0.002|TWO_SIDED|95.0|0.01|0.04|||Mixed Models Analysis|||Bilateral Hippocampus||0.04|0.01|0.002
92257228|NCT04437511|184417351|SUPERIORITY||LS Mean change difference (Final Values)|-6.66|STANDARD_ERROR_OF_MEAN|0.561|<|0.001|TWO_SIDED|95.0|-7.76|-5.56|||Mixed Models Analysis|||Bilateral Whole Brain||-5.56|-7.76|<0.001
92257229|NCT04437511|184417351|SUPERIORITY||LS Mean change difference (Final Values)|3.02|STANDARD_ERROR_OF_MEAN|0.256|<|0.001|TWO_SIDED|95.0|2.52|3.52|||Mixed Models Analysis|||Bilateral Ventricles||3.52|2.52|<0.001
92284227|NCT03988803|184472221|OTHER||Ratio of the geometric means (T/R2)|107.45|STANDARD_ERROR_OF_MEAN|6.5|||TWO_SIDED|90.0|102.66|112.45|||ANOVA||Standard error fo the mean is the geometric coefficient of variation|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That was, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. The model used included effects accounting for the following sources of variation: subjects and treatment. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||112.45|102.66|
92284228|NCT01171690|184472222|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Matched pairs t test|||Matched pairs||||0.01
92284229|NCT02087904|184472230|SUPERIORITY||LS Mean Difference|-0.3||||0.834|TWO_SIDED|95.0|-3.13|2.53||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and Kellgren-Lawrence (K-L) grade as the main factors and baseline as a covariate.|ANCOVA|||||2.53|-3.13|0.834
92178919|NCT03493542|184254071|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval for the difference (9 to 19 years old minus 20 to 26 years old) in seroconversion percentages being greater than -5 percentage points for each HPV type.|Difference in percentages (%)|0.0|||<|0.0001|TWO_SIDED|95.0|-1.1|1.2|||Miettinen & Nurminen method|||Difference of Seroconversion percentage HPV 6||1.2|-1.1|<0.0001
92257230|NCT05032755|184417354|SUPERIORITY||beta estimate|1.902|STANDARD_ERROR_OF_MEAN|0.398|<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term|||||<.0001
92257231|NCT05032755|184417355|SUPERIORITY||beta estimate|0.368|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||<.0001
92257232|NCT05032755|184417356|SUPERIORITY||beta estimate|0.672|STANDARD_ERROR_OF_MEAN|0.362||0.065|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.065
92257233|NCT05032755|184417357|SUPERIORITY||beta estimate|0.364|STANDARD_ERROR_OF_MEAN|0.133||0.007|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.007
92284230|NCT02087904|184472230|SUPERIORITY||LS Mean Difference|-2.9||||0.05|TWO_SIDED|95.0|-5.73|0.01||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.01|-5.73|0.05
92257234|NCT05032755|184417358|SUPERIORITY||beta estimate|1.78|STANDARD_ERROR_OF_MEAN|1.78||0.325|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 2 levels (pre- vs post-intervention). Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.325
92257235|NCT05032755|184417360|SUPERIORITY||beta estimate|0.222|STANDARD_ERROR_OF_MEAN|0.104||0.035|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.035
92257236|NCT05032755|184417361|SUPERIORITY||beta estimate|0.201|STANDARD_ERROR_OF_MEAN|0.181||0.27|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.27
92257237|NCT05032755|184417362|SUPERIORITY||beta estimate|-1.229|STANDARD_ERROR_OF_MEAN|1.037||0.24|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.24
92257238|NCT05032755|184417367|SUPERIORITY||beta estimate|4.69|STANDARD_ERROR_OF_MEAN|2.88||0.113|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 2 levels (pre- vs post-intervention). Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.113
92257239|NCT05085275|184417383|NON_INFERIORITY|The study planned to enroll 400 patients (200 patients in each treatment arm) to achieve 90% power to detect a hazard ratio (HR) of 0.60 for the primary composite endpoint, with differences between treatment groups assessed using a 2-sided alpha of \<0.05|Hazard Ratio (HR)|0.73||||0.1602|TWO_SIDED|95.0|0.46|1.14|||Regression, Cox|||||1.14|0.46|.1602
92284231|NCT02087904|184472230|SUPERIORITY||LS Mean Difference|-1.2||||0.415|TWO_SIDED|95.0|-4.0|1.66||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||1.66|-4.00|0.415
92257240|NCT05085275|184417385|OTHER||Hazard Ratio (HR)|0.78|STANDARD_ERROR_OF_MEAN|0.2392||0.3|||||||Regression, Cox|||||||.30
92257241|NCT05085275|184417386|OTHER||Hazard Ratio (HR)|0.35|STANDARD_ERROR_OF_MEAN|0.8295||0.17|||||||Regression, Cox|||||||0.17
92257242|NCT05564039|184417412|SUPERIORITY||LS Mean difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.69|||Mixed Models Analysis|||||-0.69|-1.10|<0.0001
92257243|NCT05564039|184417413|SUPERIORITY||LS Mean difference (Final Values)|-7.4|||<|0.0001|TWO_SIDED|95.0|-8.7|-6.0|||Mixed Models Analysis|||||-6.0|-8.7|<.0001
92257244|NCT05564039|184417414|SUPERIORITY||Odds Ratio (OR)|7.13|||<|0.0001|TWO_SIDED|95.0|3.82|13.32|||Regression, Logistic|||||13.32|3.82|<0.0001
92257245|NCT05564039|184417415|SUPERIORITY||Odds Ratio (OR)|12.24|||<|0.0001|TWO_SIDED|95.0|6.51|23.02|||Regression, Logistic|||||23.02|6.51|<0.0001
92257246|NCT05564039|184417416|SUPERIORITY||Odds Ratio (OR)|15.34|||<|0.0001|TWO_SIDED|95.0|4.58|51.36|||Regression, Logistic|||||51.36|4.58|<0.0001
92257247|NCT05564039|184417417|SUPERIORITY||Odds Ratio (OR)|9.31|||<|0.0001|TWO_SIDED|95.0|5.11|16.98|||Regression, Logistic|||||16.98|5.11|<0.0001
92257248|NCT05564039|184417418|SUPERIORITY||Odds Ratio (OR)|19.35|||<|0.0001|TWO_SIDED|95.0|9.07|41.3|||Regression, Logistic|||||41.30|9.07|<0.0001
92257249|NCT05564039|184417419|SUPERIORITY||Odds Ratio (OR)|35.83|||<|0.0001|TWO_SIDED|95.0|7.18|178.89|||Regression, Logistic|||||178.89|7.18|<0.0001
92257250|NCT05564039|184417420|SUPERIORITY||Odds Ratio (OR)|20.44|||<|0.0001|TWO_SIDED|95.0|8.4|49.77|||Regression, Logistic|||||49.77|8.40|<0.0001
92257251|NCT05564039|184417421|SUPERIORITY||LS Mean difference (Final Values)|-0.9|||<|0.001|TWO_SIDED|95.0|-1.32|-0.49|||ANCOVA|||||-0.49|-1.32|<0.001
92257252|NCT05564039|184417422|SUPERIORITY||LS Mean difference (Final Values)|-5.1||||0.0002|TWO_SIDED|95.0|-7.8|-2.5|||Mixed Models Analysis|||||-2.5|-7.8|0.0002
92257253|NCT05564039|184417423|SUPERIORITY||LS Mean difference (Final Values)|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.1|-2.1|||Mixed Models Analysis|||||-2.1|-3.1|<0.0001
92257254|NCT05564039|184417424|SUPERIORITY||LS Mean difference (Final Values)|4.1||||0.1181|TWO_SIDED|95.0|-1.0|9.2|||ANCOVA|||||9.2|-1.0|0.1181
92257255|NCT01263470|184417425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||||TWO_SIDED|95.0|-0.755|-0.386||||||||-0.386|-0.755|
92257256|NCT01263470|184417425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.762|||||TWO_SIDED|95.0|-0.925|-0.598||||||||-0.598|-0.925|
92257257|NCT01263470|184417425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.826|||||TWO_SIDED|95.0|-0.987|-0.665||||||||-0.665|-0.987|
92257258|NCT01263470|184417425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.887|||||TWO_SIDED|95.0|-1.035|-0.739||||||||-0.739|-1.035|
92257259|NCT01263470|184417425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.351|||||TWO_SIDED|95.0|-0.57|-0.132||||||||-0.132|-0.570|
92257260|NCT01263470|184417425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.542|||||TWO_SIDED|95.0|-0.743|-0.342||||||||-0.342|-0.743|
92257261|NCT01263470|184417425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.607|||||TWO_SIDED|95.0|-0.808|-0.406||||||||-0.406|-0.808|
92257262|NCT01263470|184417425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.667|||||TWO_SIDED|95.0|-0.859|-0.475||||||||-0.475|-0.859|
92257263|NCT01263470|184417426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.158|||||TWO_SIDED|95.0|-0.213|-0.104||||||||-0.104|-0.213|
92257264|NCT01263470|184417426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174|||||TWO_SIDED|95.0|-0.234|-0.114||||||||-0.114|-0.234|
92257265|NCT01263470|184417426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-0.219|-0.1||||||||-0.100|-0.219|
92257266|NCT01263470|184417426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.153|||||TWO_SIDED|95.0|-0.212|-0.095||||||||-0.095|-0.212|
92257267|NCT01263470|184417426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.059|||||TWO_SIDED|95.0|-0.116|-0.003||||||||-0.003|-0.116|
92257268|NCT01263470|184417426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.075|||||TWO_SIDED|95.0|-0.136|-0.014||||||||-0.014|-0.136|
92257269|NCT01263470|184417426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.061|||||TWO_SIDED|95.0|-0.121|0.0||||||||0.000|-0.121|
92257270|NCT01263470|184417426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|||||TWO_SIDED|95.0|-0.114|0.006||||||||0.006|-0.114|
92257271|NCT01263470|184417427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.326|||||TWO_SIDED|95.0|-0.419|-0.233||||||||-0.233|-0.419|
92257272|NCT01263470|184417427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.369|||||TWO_SIDED|95.0|-0.47|-0.268||||||||-0.268|-0.470|
92257273|NCT01263470|184417427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||||TWO_SIDED|95.0|-0.438|-0.241||||||||-0.241|-0.438|
92257274|NCT01263470|184417427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.387|||||TWO_SIDED|95.0|-0.485|-0.288||||||||-0.288|-0.485|
92257275|NCT01263470|184417427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.178|||||TWO_SIDED|95.0|-0.28|-0.076||||||||-0.076|-0.280|
92257276|NCT01263470|184417427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.221|||||TWO_SIDED|95.0|-0.329|-0.112||||||||-0.112|-0.329|
92257277|NCT01263470|184417427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.192|||||TWO_SIDED|95.0|-0.299|-0.085||||||||-0.085|-0.299|
92257278|NCT01263470|184417427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.239|||||TWO_SIDED|95.0|-0.346|-0.131||||||||-0.131|-0.346|
92257279|NCT01263470|184417428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-0.644|-0.356||||||||-0.356|-0.644|
92257280|NCT01263470|184417428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.614|||||TWO_SIDED|95.0|-0.763|-0.464||||||||-0.464|-0.763|
92257281|NCT01263470|184417428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-0.804|-0.516||||||||-0.516|-0.804|
92257282|NCT01263470|184417428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.695|||||TWO_SIDED|95.0|-0.832|-0.559||||||||-0.559|-0.832|
92257283|NCT01263470|184417428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.325|||||TWO_SIDED|95.0|-0.494|-0.156||||||||-0.156|-0.494|
92257284|NCT01263470|184417428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.438|||||TWO_SIDED|95.0|-0.61|-0.267||||||||-0.267|-0.610|
92257285|NCT01263470|184417428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.485|||||TWO_SIDED|95.0|-0.654|-0.315||||||||-0.315|-0.654|
92257286|NCT01263470|184417428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||||TWO_SIDED|95.0|-0.683|-0.357||||||||-0.357|-0.683|
92257287|NCT01263470|184417429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.6|||||TWO_SIDED|95.0|-23.27|-7.93||||||||-7.93|-23.27|
92257288|NCT01263470|184417429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.69|||||TWO_SIDED|95.0|-25.34|-10.05||||||||-10.05|-25.34|
92257289|NCT01263470|184417429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.08|||||TWO_SIDED|95.0|-24.14|-8.02||||||||-8.02|-24.14|
92257290|NCT01263470|184417429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.47|||||TWO_SIDED|95.0|-32.06|-14.89||||||||-14.89|-32.06|
92257291|NCT01263470|184417429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.82|||||TWO_SIDED|95.0|-12.66|1.02||||||||1.02|-12.66|
92257292|NCT01263470|184417429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.92|||||TWO_SIDED|95.0|-14.76|-1.08||||||||-1.08|-14.76|
92257293|NCT01263470|184417429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-13.53|0.93||||||||0.93|-13.53|
92257294|NCT01263470|184417429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.69|||||TWO_SIDED|95.0|-21.45|-5.94||||||||-5.94|-21.45|
92257295|NCT01263470|184417430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.6|||||TWO_SIDED|95.0|-23.27|-7.93||||||||-7.93|-23.27|
92257296|NCT01263470|184417430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.69|||||TWO_SIDED|95.0|-25.34|-10.05||||||||-10.05|-25.34|
92257297|NCT01263470|184417430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.08|||||TWO_SIDED|95.0|-24.14|-8.02||||||||-8.02|-24.14|
92257298|NCT01263470|184417430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.47|||||TWO_SIDED|95.0|-32.06|-14.89||||||||-14.89|-32.06|
92257299|NCT01263470|184417430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.82|||||TWO_SIDED|95.0|-12.66|1.02||||||||1.02|-12.66|
92257300|NCT01263470|184417430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.92|||||TWO_SIDED|95.0|-14.76|-1.08||||||||-1.08|-14.76|
92257301|NCT01263470|184417430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-13.53|0.93||||||||0.93|-13.53|
92257302|NCT01263470|184417430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.69|||||TWO_SIDED|95.0|-21.45|-5.94||||||||-5.94|-21.45|
92257303|NCT01263470|184417431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.73|||||TWO_SIDED|95.0|-26.52|-8.94||||||||-8.94|-26.52|
92257304|NCT01263470|184417431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.22|||||TWO_SIDED|95.0|-32.07|-16.37||||||||-16.37|-32.07|
92257305|NCT01263470|184417431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.34|||||TWO_SIDED|95.0|-32.03|-16.65||||||||-16.65|-32.03|
92257306|NCT01263470|184417431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.28|||||TWO_SIDED|95.0|-37.04|-19.52||||||||-19.52|-37.04|
92257307|NCT01263470|184417431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.55|||||TWO_SIDED|95.0|-17.28|0.18||||||||0.18|-17.28|
92257308|NCT01263470|184417431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.04|||||TWO_SIDED|95.0|-22.9|-7.18||||||||-7.18|-22.90|
92257309|NCT01263470|184417431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.16|||||TWO_SIDED|95.0|-22.9|-7.42||||||||-7.42|-22.90|
92257310|NCT01263470|184417431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1|||||TWO_SIDED|95.0|-27.8|-10.4||||||||-10.40|-27.80|
92257311|NCT01263470|184417432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.92|||||TWO_SIDED|95.0|-24.19|-5.64||||||||-5.64|-24.19|
92257312|NCT01263470|184417432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.17|||||TWO_SIDED|95.0|-27.86|-12.48||||||||-12.48|-27.86|
92257313|NCT01263470|184417432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.07|||||TWO_SIDED|95.0|-30.41|-15.73||||||||-15.73|-30.41|
92257314|NCT01263470|184417432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.17|||||TWO_SIDED|95.0|-36.05|-20.29||||||||-20.29|-36.05|
92257315|NCT01263470|184417432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.27|||||TWO_SIDED|95.0|-15.6|3.06||||||||3.06|-15.60|
92257316|NCT01263470|184417432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.52|||||TWO_SIDED|95.0|-19.41|-3.64||||||||-3.64|-19.41|
92257317|NCT01263470|184417432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.42|||||TWO_SIDED|95.0|-22.04|-6.8||||||||-6.80|-22.04|
92257318|NCT01263470|184417432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.52|||||TWO_SIDED|95.0|-27.61|-11.43||||||||-11.43|-27.61|
92257319|NCT01263470|184417433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.145|||||TWO_SIDED|95.0|-0.384|0.094||||||||0.094|-0.384|
92257320|NCT01263470|184417433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|||||TWO_SIDED|95.0|-0.106|0.374||||||||0.374|-0.106|
92257321|NCT01263470|184417433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|||||TWO_SIDED|95.0|-0.103|0.39||||||||0.390|-0.103|
92257322|NCT01263470|184417433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|||||TWO_SIDED|95.0|-0.218|0.227||||||||0.227|-0.218|
92257323|NCT01263470|184417433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.002|||||TWO_SIDED|95.0|-0.241|0.245||||||||0.245|-0.241|
92257324|NCT01263470|184417433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|||||TWO_SIDED|95.0|0.038|0.524||||||||0.524|0.038|
92257325|NCT01263470|184417433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.291|||||TWO_SIDED|95.0|0.041|0.54||||||||0.540|0.041|
92257326|NCT01263470|184417433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|||||TWO_SIDED|95.0|-0.077|0.38||||||||0.380|-0.077|
92257327|NCT01263470|184417434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|||||TWO_SIDED|95.0|-0.245|0.156||||||||0.156|-0.245|
92257328|NCT01263470|184417434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|||||TWO_SIDED|95.0|-0.185|0.21||||||||0.210|-0.185|
92257329|NCT01263470|184417434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|||||TWO_SIDED|95.0|-0.053|0.369||||||||0.369|-0.053|
92257330|NCT01263470|184417434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|||||TWO_SIDED|95.0|-0.14|0.235||||||||0.235|-0.140|
92257331|NCT01263470|184417434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|||||TWO_SIDED|95.0|-0.097|0.341||||||||0.341|-0.097|
92257332|NCT01263470|184417434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.179|||||TWO_SIDED|95.0|-0.036|0.395||||||||0.395|-0.036|
92257333|NCT01263470|184417434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.325|||||TWO_SIDED|95.0|0.097|0.553||||||||0.553|0.097|
92257334|NCT01263470|184417434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|||||TWO_SIDED|95.0|0.006|0.423||||||||0.423|0.006|
92257335|NCT01263470|184417435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.117|||||TWO_SIDED|95.0|-0.444|0.209||||||||0.209|-0.444|
92257336|NCT01263470|184417435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.362|0.162||||||||0.162|-0.362|
92257337|NCT01263470|184417435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|||||TWO_SIDED|95.0|-0.166|0.324||||||||0.324|-0.166|
92257338|NCT01263470|184417435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.117|||||TWO_SIDED|95.0|-0.355|0.121||||||||0.121|-0.355|
92257339|NCT01263470|184417435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|||||TWO_SIDED|95.0|-0.203|0.408||||||||0.408|-0.203|
92257340|NCT01263470|184417435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.124|0.364||||||||0.364|-0.124|
92257341|NCT01263470|184417435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.299|||||TWO_SIDED|95.0|0.071|0.526||||||||0.526|0.071|
92257342|NCT01263470|184417435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|||||TWO_SIDED|95.0|-0.118|0.322||||||||0.322|-0.118|
92257343|NCT01263470|184417436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|||||TWO_SIDED|95.0|-0.23|0.308||||||||0.308|-0.230|
92257344|NCT01263470|184417436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|||||TWO_SIDED|95.0|-0.029|0.379||||||||0.379|-0.029|
92257345|NCT01263470|184417436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.248|||||TWO_SIDED|95.0|0.044|0.453||||||||0.453|0.044|
92257346|NCT01263470|184417436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|||||TWO_SIDED|95.0|-0.035|0.407||||||||0.407|-0.035|
92257347|NCT01263470|184417436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|||||TWO_SIDED|95.0|-0.236|0.34||||||||0.340|-0.236|
92257348|NCT01263470|184417436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|||||TWO_SIDED|95.0|-0.044|0.421||||||||0.421|-0.044|
92257349|NCT01263470|184417436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.261|||||TWO_SIDED|95.0|0.026|0.496||||||||0.496|0.026|
92257350|NCT01263470|184417436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.199|||||TWO_SIDED|95.0|-0.049|0.448||||||||0.448|-0.049|
92257351|NCT01263470|184417437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.85|||||TWO_SIDED|95.0|-38.75|-8.94||||||||-8.94|-38.75|
92257352|NCT01263470|184417437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.38|||||TWO_SIDED|95.0|-37.14|-9.61||||||||-9.61|-37.14|
92257353|NCT01263470|184417437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.6|||||TWO_SIDED|95.0|-53.18|-28.02||||||||-28.02|-53.18|
92257354|NCT01263470|184417437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.75|||||TWO_SIDED|95.0|-54.93|-30.58||||||||-30.58|-54.93|
92257355|NCT01263470|184417437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.36|||||TWO_SIDED|95.0|-19.7|8.98||||||||8.98|-19.70|
92257356|NCT01263470|184417437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.89|||||TWO_SIDED|95.0|-18.13|8.35||||||||8.35|-18.13|
92257357|NCT01263470|184417437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.11|||||TWO_SIDED|95.0|-34.22|-10.01||||||||-10.01|-34.22|
92257358|NCT01263470|184417437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.27|||||TWO_SIDED|95.0|-35.98|-12.55||||||||-12.55|-35.98|
92257359|NCT01263470|184417438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-58.31|||||TWO_SIDED|95.0|-80.79|-35.83||||||||-35.83|-80.79|
92257360|NCT01263470|184417438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.66|||||TWO_SIDED|95.0|-80.84|-40.47||||||||-40.47|-80.84|
92257361|NCT01263470|184417438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-78.72|||||TWO_SIDED|95.0|-97.03|-60.4||||||||-60.40|-97.03|
92257362|NCT01263470|184417438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-87.43|||||TWO_SIDED|95.0|-106.26|-68.6||||||||-68.60|-106.26|
92257363|NCT01263470|184417438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.73|||||TWO_SIDED|95.0|-24.69|19.23||||||||19.23|-24.69|
92257364|NCT01263470|184417438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.07|||||TWO_SIDED|95.0|-24.85|14.7||||||||14.70|-24.85|
92257365|NCT01263470|184417438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.13|||||TWO_SIDED|95.0|-41.16|-5.11||||||||-5.11|-41.16|
92257366|NCT01263470|184417438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.84|||||TWO_SIDED|95.0|-50.36|-13.33||||||||-13.33|-50.36|
92257367|NCT01263470|184417439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.859|||||TWO_SIDED|95.0|-2.736|8.455||||||||8.455|-2.736|
92257368|NCT01263470|184417439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.456|||||TWO_SIDED|95.0|0.748|10.165||||||||10.165|0.748|
92257369|NCT01263470|184417439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.715|||||TWO_SIDED|95.0|3.181|12.248||||||||12.248|3.181|
92257370|NCT01263470|184417439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.557|||||TWO_SIDED|95.0|-3.763|8.877||||||||8.877|-3.763|
92257371|NCT01263470|184417439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.66|||||TWO_SIDED|95.0|7.924|21.396||||||||21.396|7.924|
92257372|NCT01263470|184417439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.257|||||TWO_SIDED|95.0|11.353|23.16||||||||23.160|11.353|
92257373|NCT01263470|184417439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.515|||||TWO_SIDED|95.0|13.629|25.401||||||||25.401|13.629|
92257374|NCT01263470|184417439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.357|||||TWO_SIDED|95.0|7.013|21.701||||||||21.701|7.013|
92257375|NCT01263470|184417440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.535|||||TWO_SIDED|95.0|-0.019|1.089||||||||1.089|-0.019|
92257376|NCT01263470|184417440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.764|||||TWO_SIDED|95.0|0.214|1.315||||||||1.315|0.214|
92257377|NCT01263470|184417440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.999|||||TWO_SIDED|95.0|0.418|1.58||||||||1.580|0.418|
92257378|NCT01263470|184417440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.959|||||TWO_SIDED|95.0|0.43|1.489||||||||1.489|0.430|
92257379|NCT01263470|184417440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.934|||||TWO_SIDED|95.0|0.315|1.552||||||||1.552|0.315|
92257380|NCT01263470|184417440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.163|||||TWO_SIDED|95.0|0.551|1.774||||||||1.774|0.551|
92257381|NCT01263470|184417440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.398|||||TWO_SIDED|95.0|0.759|2.036||||||||2.036|0.759|
92257382|NCT01263470|184417440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.358|||||TWO_SIDED|95.0|0.76|1.956||||||||1.956|0.760|
92257383|NCT01263470|184417441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.25|||||TWO_SIDED|95.0|-7.87|16.38||||||||16.38|-7.87|
92257384|NCT01263470|184417441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.26|||||TWO_SIDED|95.0|-0.9|23.42||||||||23.42|-0.90|
92257385|NCT01263470|184417441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.19|||||TWO_SIDED|95.0|-10.56|16.95||||||||16.95|-10.56|
92257386|NCT01263470|184417441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.66|||||TWO_SIDED|95.0|-16.27|8.94||||||||8.94|-16.27|
92284232|NCT02087904|184472231|SUPERIORITY||LS Mean Difference|0.06||||0.145|TWO_SIDED|95.0|-0.021|0.141||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.141|-0.021|0.145
92257387|NCT01263470|184417441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.75|||||TWO_SIDED|95.0|-9.79|19.29||||||||19.29|-9.79|
92257388|NCT01263470|184417441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.76|||||TWO_SIDED|95.0|-2.67|26.19||||||||26.19|-2.67|
92257389|NCT01263470|184417441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.69|||||TWO_SIDED|95.0|-12.02|19.4||||||||19.40|-12.02|
92257390|NCT01263470|184417441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.17|||||TWO_SIDED|95.0|-18.04|11.71||||||||11.71|-18.04|
92257391|NCT01327573|184417443|SUPERIORITY_OR_OTHER|||||||0.09||||||"This p-value was for the overall slope difference between groups (i.e. the interaction between group and time).~Significance level was set at 0.1 a priori."|Mixed effects model analysis|||Analysis used eGFR, group, time, and group-by-time variables.||||0.09
92257392|NCT04916314|184417464|SUPERIORITY||Mean Difference (Net)|-0.7||||0.8|TWO_SIDED|95.0|-5.0|3.6||Omnibus likelihood ratio test for significant change in co-primary outcomes at 3 or 12 months|Mixed Models Analysis|||||3.6|-5|0.8
92257393|NCT04916314|184417465|SUPERIORITY||Mean Difference (Net)|-1.5||||0.8|TWO_SIDED|95.0|-5.7|2.8||omnibus likelihood ratio test for significant change in co-primary outcomes at 3 or 12 months|Mixed Models Analysis|||||2.8|-5.7|0.8
92257394|NCT00853112|184417574|SUPERIORITY_OR_OTHER||Predicted Mean Difference|-115.0|STANDARD_DEVIATION|98.36||0.12|TWO_SIDED|95.0|-371.5|-1.1|||Bayesian 4-parameter Emax model|||Change over 4 hours post-dose: The Bayesian 4-parameter Emax model was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of \>=240 dyne\*s\*m\^2/cm\^5 from placebo. The predicted means and SD were the posterior means and standard deviation (SD) from the Bayesian analysis.||-1.1|-371.5|0.120
92178920|NCT03493542|184254071|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval for the difference (9 to 19 years old minus 20 to 26 years old) in seroconversion percentages being greater than -5 percentage points for each HPV type.|Difference in percentages (%)|0.0|||<|0.0001|TWO_SIDED|95.0|-1.1|1.2|||Miettinen & Nurminen method|||Difference of Seroconversion percentage HPV 11||1.2|-1.1|<0.0001
92178921|NCT03493542|184254071|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval for the difference (9 to 19 years old minus 20 to 26 years old) in seroconversion percentages being greater than -5 percentage points for each HPV type.|Difference in percentages (%)|0.0|||<|0.0001|TWO_SIDED|95.0|-1.1|1.2|||Miettinen & Nurminen method|||Difference of Seroconversion percentage HPV 16||1.2|-1.1|<0.0001
92178922|NCT03493542|184254071|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval for the difference (9 to 19 years old minus 20 to 26 years old) in seroconversion percentages being greater than -5 percentage points for each HPV type.|Difference in percentages (%)|0.0|||<|0.0001|TWO_SIDED|95.0|-1.1|1.2|||Miettinen & Nurminen method|||Difference of Seroconversion percentage HPV 18||1.2|-1.1|<0.0001
92178923|NCT01651000|184254080|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92178924|NCT01651000|184254081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92178925|NCT01651000|184254082|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92257395|NCT00853112|184417574|SUPERIORITY_OR_OTHER||Predicted Mean Difference|-170.6|STANDARD_DEVIATION|107.84||0.25|TWO_SIDED|95.0|-409.2|-7.1|||Bayesian 4-parameter Emax model.|||Change over 4 hours post-dose: The Bayesian 4-parameter Emax model was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of \>=240 dyne.s.m2/cm5 from placebo. The predicted means and SD were the posterior means and SD from the Bayesian analysis.||-7.1|-409.2|0.250
92178926|NCT02765412|184254084|OTHER|multilevel model|Odds Ratio (OR)|0.67||||0.081|TWO_SIDED|95.0|0.58|0.78||Two-sided test; the a priori threshold being 0.05|Regression, Logistic|Adjusts for age, gender, race, comorbidities, implementation group, travel distance, and VAMC indicator|OR corresponding to the interaction between implementation group and lung cancer risk, a ratio of odds ratios. The OR for screening based on lung cancer risk in the SI group versus the OR for screening based on lung cancer risk in the II group|||0.78|0.58|0.081
92178927|NCT02765412|184254085|OTHER||Median Difference (Net)|-0.15||||0.35|TWO_SIDED|95.0|-0.16|0.46||Two-sided test; the a priori threshold being 0.05|t-test, 2 sided||Satisfaction rating on a scale of 0 to 10; Difference is Arm 1 - Arm 2|Simple t-test comparing mean satisfaction ratings between arms||0.46|-0.16|0.35
92178928|NCT03952520|184254165|SUPERIORITY||Mean Difference (Final Values)|37.3|||||TWO_SIDED|95.0|26.5|48.1|||||This generalized linear model was adjusted for engagement of site leadership. The Standard Approach is the referent.|||48.1|26.5|
92257396|NCT00853112|184417574|SUPERIORITY_OR_OTHER||Predicted Mean Difference|-240.2|STANDARD_DEVIATION|109.28||0.485|TWO_SIDED|95.0|-444.8|-33.8|||Bayesian 4-parameter Emax model.|||The Bayesian 4-parameter Emax model was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of \>=240 dyne\*s\*m\^2/cm\^5 from placebo. The predicted means and SD were the posterior means and SD from the Bayesian analysis.||-33.8|-444.8|0.485
92284233|NCT02087904|184472231|SUPERIORITY||LS Mean Difference|-0.03||||0.52|TWO_SIDED|95.0|-0.11|0.056||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.056|-0.11|0.52
92178929|NCT03952520|184254166|SUPERIORITY||Risk Difference (RD)|2.0|||||TWO_SIDED|95.0|2.0|2.1|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||2.1|2.0|
92178930|NCT03952520|184254168|SUPERIORITY||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||0.4|-0.2|
92178931|NCT03952520|184254169|SUPERIORITY||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-3.1|2.0|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||2.0|-3.1|
92178932|NCT03952520|184254170|SUPERIORITY||Prevalence Difference|15.8|||||TWO_SIDED|95.0|5.0|26.5|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||26.5|5.0|
92178933|NCT03952520|184254171|SUPERIORITY||Prevalence Difference|1.6|||||TWO_SIDED|95.0|-6.9|10.0|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||10.0|-6.9|
92284234|NCT02087904|184472231|SUPERIORITY||LS Mean Difference|0.06||||0.159|TWO_SIDED|95.0|-0.023|0.139||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.139|-0.023|0.159
92178934|NCT03952520|184254173|SUPERIORITY||Prevalence Difference|6.2|||||TWO_SIDED|95.0|-1.5|13.8|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||13.8|-1.5|
92257397|NCT00853112|184417574|SUPERIORITY_OR_OTHER||Predicted Mean Difference|-327.9|STANDARD_DEVIATION|92.41||0.81|TWO_SIDED|95.0|-492.9|-148.0|||Bayesian 4-parameter Emax model.|||Change over 4 hours post-dose: The Bayesian 4-parameter Emax model was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of \>=240 dyne\*s\*m\^2/cm\^5 from placebo. The predicted means and SD were the posterior means and SD from the Bayesian analysis.||-148.0|-492.9|0.810
92257398|NCT00853112|184417574|SUPERIORITY_OR_OTHER||Predicted Mean Difference|-379.4|STANDARD_DEVIATION|73.61||0.974|TWO_SIDED|95.0|-520.6|-238.8|||Bayesian 4-parameter Emax model|||Change over 4 hours post-dose: The Bayesian 4-parameter Emax model was used for analysis. Posterior distribution was calculated and was used to calculate a probability (presented as p value) that the dose gives a difference of \>=240 dyne\*s\*m\^2/cm\^5 from placebo. The predicted means and SD were the posterior means and SD from the Bayesian analysis.||-238.8|-520.6|0.974
92257399|NCT00853112|184417575|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-195.3|STANDARD_ERROR_OF_MEAN|207.38||0.354|TWO_SIDED|95.0|-618.8|228.3|||ANCOVA|||GR over 4 hours, PVRI: The analysis was performed using Analysis of Covariance (ANCOVA) with baseline fitted as a covariate.||228.3|-618.8|0.354
92257400|NCT00853112|184417575|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-34.1|STANDARD_ERROR_OF_MEAN|190.99||0.86|TWO_SIDED|95.0|-424.1|356.0|||ANCOVA|||GR over 4 hours, PVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||356.0|-424.1|0.860
92257401|NCT00853112|184417575|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-435.7|STANDARD_ERROR_OF_MEAN|195.94||0.034|TWO_SIDED|95.0|-835.9|-35.6|||ANCOVA|||GR over 4 hours, PVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||-35.6|-835.9|0.034
92257402|NCT00853112|184417575|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-334.7|STANDARD_ERROR_OF_MEAN|201.74||0.107|TWO_SIDED|95.0|-746.7|77.3|||ANCOVA|||GR over 4 hours, PVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||77.3|-746.7|0.107
92257403|NCT00853112|184417575|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-278.0|STANDARD_ERROR_OF_MEAN|200.89||0.177|TWO_SIDED|95.0|-688.3|132.2|||ANCOVA|||GR over 4 hours, PVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||132.2|-688.3|0.177
92257404|NCT00853112|184417575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.1|STANDARD_ERROR_OF_MEAN|315.91||0.873|TWO_SIDED|95.0|-594.1|696.3|||ANCOVA|||GR over 4 hours, SVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||696.3|-594.1|0.873
92257405|NCT00853112|184417575|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|75.2|STANDARD_ERROR_OF_MEAN|303.08||0.806|TWO_SIDED|95.0|-543.8|694.1|||ANCOVA|||GR over 4 hours, SVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||694.1|-543.8|0.806
92257406|NCT00853112|184417575|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-262.8|STANDARD_ERROR_OF_MEAN|301.1||0.39|TWO_SIDED|95.0|-877.8|352.1|||ANCOVA|||GR over 4 hours, SVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||352.1|-877.8|0.390
92257407|NCT00853112|184417575|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-329.4|STANDARD_ERROR_OF_MEAN|302.97||0.286|TWO_SIDED|95.0|-948.1|289.4|||ANCOVA|||GR over 4 hours, SVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||289.4|-948.1|0.286
92257408|NCT00853112|184417575|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-62.7|STANDARD_ERROR_OF_MEAN|314.15||0.843|TWO_SIDED|95.0|-704.3|578.9|||ANCOVA|||GR over 4 hours, SVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||578.9|-704.3|0.843
92257409|NCT00853112|184417576|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|322.8||0.999|TWO_SIDED|95.0|-659.7|658.8|||ANCOVA|||The analysis was performed using ANCOVA with baseline fitted as a covariate.||658.8|-659.7|0.999
92257410|NCT00853112|184417576|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|72.2|STANDARD_ERROR_OF_MEAN|309.69||0.817|TWO_SIDED|95.0|-560.2|704.7|||ANCOVA|||The analysis was performed using ANCOVA with baseline fitted as a covariate.||704.7|-560.2|0.817
92257411|NCT00853112|184417576|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-82.6|STANDARD_ERROR_OF_MEAN|307.67||0.79|TWO_SIDED|95.0|-711.0|545.7|||ANCOVA|||The analysis was performed using ANCOVA with baseline fitted as a covariate.||545.7|-711.0|0.790
92257412|NCT00853112|184417576|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-325.6|STANDARD_ERROR_OF_MEAN|309.58||0.301|TWO_SIDED|95.0|-957.8|306.7|||ANCOVA|||The analysis was performed using ANCOVA with baseline fitted as a covariate.||306.7|-957.8|0.301
92257413|NCT00853112|184417576|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.2|STANDARD_ERROR_OF_MEAN|321.0||0.85|TWO_SIDED|95.0|-716.8|594.4|||ANCOVA|||The analysis was performed using ANCOVA with baseline fitted as a covariate.||594.4|-716.8|0.850
92257414|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-269.32|STANDARD_ERROR_OF_MEAN|252.93||0.295|TWO_SIDED|95.0|-785.39|246.76|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||246.76|-785.39|0.295
92257415|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-97.65|STANDARD_ERROR_OF_MEAN|234.55||0.68|TWO_SIDED|95.0|-577.02|381.72|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||381.72|-577.02|0.680
92257416|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-376.61|STANDARD_ERROR_OF_MEAN|241.06||0.129|TWO_SIDED|95.0|-869.53|116.31|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||116.31|-869.53|0.129
92257417|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-342.29|STANDARD_ERROR_OF_MEAN|247.07||0.176|TWO_SIDED|95.0|-846.9|162.32|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||162.32|-846.90|0.176
92257418|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-316.86|STANDARD_ERROR_OF_MEAN|261.58||0.235|TWO_SIDED|95.0|-850.9|217.17|||Longitudinal analysis|||Hour 1: Longitudinal analysis was used to analyze p-value and included baseline as a covariate.||217.17|-850.90|0.235
92257419|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-198.06|STANDARD_ERROR_OF_MEAN|247.62||0.43|TWO_SIDED|95.0|-705.04|308.91|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||308.91|-705.04|0.430
92257420|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|37.9|STANDARD_ERROR_OF_MEAN|229.23||0.87|TWO_SIDED|95.0|-432.23|508.04|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||508.04|-432.23|0.870
92257421|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-114.06|STANDARD_ERROR_OF_MEAN|244.95||0.645|TWO_SIDED|95.0|-614.57|386.45|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||386.45|-614.57|0.645
92178935|NCT03635567|184254175|OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.47|0.71||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (hazard ratio \[HR\]) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.71|0.47|<0.0001
92178936|NCT03635567|184254176|OTHER||Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.5|0.74||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.74|0.50|<0.0001
92178937|NCT03635567|184254177|OTHER||Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.68||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.68|0.40|<0.0001
92257422|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-299.6|STANDARD_ERROR_OF_MEAN|241.63||0.225|TWO_SIDED|95.0|-794.81|195.61|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||195.61|-794.81|0.225
92257423|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-332.25|STANDARD_ERROR_OF_MEAN|255.93||0.205|TWO_SIDED|95.0|-856.55|192.05|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||192.05|-856.55|0.205
92257424|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-86.72|STANDARD_ERROR_OF_MEAN|263.63||0.745|TWO_SIDED|95.0|-625.87|452.42|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||452.42|-625.87|0.745
92257425|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|18.0|STANDARD_ERROR_OF_MEAN|245.25||0.942|TWO_SIDED|95.0|-484.46|520.47|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||520.47|-484.46|0.942
92284235|NCT02087904|184472232|SUPERIORITY||LS Mean Difference|0.22||||0.897|TWO_SIDED|95.0|-3.193|3.642||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||3.642|-3.193|0.897
92257426|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-265.94|STANDARD_ERROR_OF_MEAN|259.53||0.314|TWO_SIDED|95.0|-796.15|264.28|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||264.28|-796.15|0.314
92257427|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-275.35|STANDARD_ERROR_OF_MEAN|258.01||0.295|TWO_SIDED|95.0|-803.57|252.88|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||252.88|-803.57|0.295
92257428|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-326.55|STANDARD_ERROR_OF_MEAN|272.96||0.241|TWO_SIDED|95.0|-885.12|232.02|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||232.02|-885.12|0.241
92257429|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-145.71|STANDARD_ERROR_OF_MEAN|218.5||0.51|TWO_SIDED|95.0|-592.24|300.83|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||300.83|-592.24|0.510
92257430|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|77.96|STANDARD_ERROR_OF_MEAN|199.85||0.699|TWO_SIDED|95.0|-330.7|486.63|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||486.63|-330.70|0.699
92257431|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-341.91|STANDARD_ERROR_OF_MEAN|204.65||0.106|TWO_SIDED|95.0|-760.45|76.64|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||76.64|-760.45|0.106
92257432|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-289.41|STANDARD_ERROR_OF_MEAN|211.69||0.182|TWO_SIDED|95.0|-722.17|143.35|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||143.35|-722.17|0.182
92257433|NCT00853112|184417577|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-256.6|STANDARD_ERROR_OF_MEAN|224.88||0.263|TWO_SIDED|95.0|-716.26|203.06|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||203.06|-716.26|0.263
92257434|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-328.1|STANDARD_ERROR_OF_MEAN|385.78||0.401|TWO_SIDED|95.0|-1114.11|457.92|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||457.92|-1114.11|0.401
92257435|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-164.96|STANDARD_ERROR_OF_MEAN|370.54||0.659|TWO_SIDED|95.0|-920.05|590.12|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||590.12|-920.05|0.659
92284236|NCT02087904|184472232|SUPERIORITY||LS Mean Difference|-1.07||||0.542|TWO_SIDED|95.0|-4.515|2.377||P-value for test of difference between ABT-981 100 dose group and Placebo at each post-baseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||2.377|-4.515|0.542
92257436|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-287.08|STANDARD_ERROR_OF_MEAN|372.6||0.447|TWO_SIDED|95.0|-1047.59|473.42|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||473.42|-1047.59|0.447
92257437|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-457.16|STANDARD_ERROR_OF_MEAN|374.26||0.231|TWO_SIDED|95.0|-1220.86|306.53|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||306.53|-1220.86|0.231
92178938|NCT03635567|184254178|OTHER||Hazard Ratio (HR)|0.6|||<|0.0001|TWO_SIDED|95.0|0.49|0.74||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.74|0.49|<0.0001
92178939|NCT03635567|184254179|OTHER||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.52|0.77||No formal hypothesis testing performed; nominal p-value based on log-rank test provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.77|0.52|<0.0001
92178940|NCT03635567|184254180|OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.44|0.78||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.78|0.44|<0.0001
92178941|NCT03635567|184254181|OTHER||Difference in Percentage|14.9||||0.0001|TWO_SIDED|95.0|7.4|22.3||No formal hypothesis testing performed; nominal p-value provided for treatment comparison|Miettinen & Nurminen method|||Treatment comparison was based on Miettinen \& Nurminen method stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||22.3|7.4|0.0001
92178942|NCT03635567|184254184|OTHER||Hazard Ratio (HR)|0.6|||<|0.0001|TWO_SIDED|95.0|0.49|0.74||No formal hypothesis testing performed; nominal p-value provided for treatment comparison|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.74|0.49|<0.0001
92178943|NCT05157841|184254190|SUPERIORITY|A one-sided hypothesis test was performed at alpha=0.025 level of significance comparing EXPAREL and bupivacaine HCI|Mean Difference (Final Values)|-164.0|STANDARD_ERROR_OF_MEAN|27.74|<|1e-05|TWO_SIDED|95.0|-218.3|-109.6|||ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||The superiority of EXPAREL to bupivacaine hydrochloric acid (HCI) was evaluated using the Efficacy Analysis Set.||-109.6|-218.3|<0.00001
92178944|NCT05157841|184254191|SUPERIORITY|A one-sided hypothesis test was performed at alpha=0.025 level of significance comparing EXPAREL and bupivacaine HCI|Least square mean difference|0.39|||<|1e-05|TWO_SIDED|95.0|0.28|0.55|||ANCOVA|||The superiority of EXPAREL to bupivacaine hydrochloric acid (HCI) was evaluated using the Efficacy Analysis Set.||0.55|0.28|<0.00001
92257438|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-75.24|STANDARD_ERROR_OF_MEAN|384.2||0.846|TWO_SIDED|95.0|-858.19|707.71|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||707.71|-858.19|0.846
92257439|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-115.64|STANDARD_ERROR_OF_MEAN|357.2||0.748|TWO_SIDED|95.0|-844.24|612.96|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||612.96|-844.24|0.748
92257440|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.87|STANDARD_ERROR_OF_MEAN|342.91||0.993|TWO_SIDED|95.0|-702.41|696.67|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||696.67|-702.41|0.993
92257441|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|174.2|STANDARD_ERROR_OF_MEAN|342.93||0.615|TWO_SIDED|95.0|-526.41|874.81|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||874.81|-526.41|0.615
92178945|NCT05157841|184254192|SUPERIORITY||Odds Ratio (OR)|5.04||||0.0003|TWO_SIDED|95.0|2.01|12.62|||ANCOVA|||||12.62|2.01|0.0003
92257442|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-494.91|STANDARD_ERROR_OF_MEAN|344.72||0.161|TWO_SIDED|95.0|-1199.04|209.21|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||209.21|-1199.04|0.161
92257443|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-134.48|STANDARD_ERROR_OF_MEAN|355.5||0.708|TWO_SIDED|95.0|-859.74|590.77|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||590.77|-859.74|0.708
92257444|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|47.61|STANDARD_ERROR_OF_MEAN|365.43||0.897|TWO_SIDED|95.0|-697.56|792.79|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||792.79|-697.56|0.897
92257445|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|98.42|STANDARD_ERROR_OF_MEAN|350.87||0.781|TWO_SIDED|95.0|-617.15|813.99|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||813.99|-617.15|0.781
92257446|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-28.31|STANDARD_ERROR_OF_MEAN|355.47||0.937|TWO_SIDED|95.0|-753.46|696.83|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||696.83|-753.46|0.937
92257447|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-369.57|STANDARD_ERROR_OF_MEAN|353.25||0.304|TWO_SIDED|95.0|-1090.86|351.72|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||351.72|-1090.86|0.304
92257448|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-185.64|STANDARD_ERROR_OF_MEAN|363.77||0.613|TWO_SIDED|95.0|-927.54|556.27|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||556.27|-927.54|0.613
92178946|NCT05157841|184254193|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0089|TWO_SIDED|95.0|0.45|0.93|||Cox proportional hazards model|Cox proportional hazards model with treatment as main effect and site as categorical and age as continuous covariates.||||0.93|0.45|0.0089
92178947|NCT05157841|184254194|SUPERIORITY||Least square mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.44||0.0296|TWO_SIDED|95.0|-1.7|0.0||Worst pain 0-24 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariate of age.||||0.0|-1.7|0.0296
92178948|NCT05157841|184254194|SUPERIORITY||Least square mean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.4|<|1e-05|TWO_SIDED|95.0|-3.6|-2.1||Worst pain 24-48 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-2.1|-3.6|<0.00001
92178949|NCT05157841|184254194|SUPERIORITY||Least square mean difference|-3.3|STANDARD_ERROR_OF_MEAN|0.41|<|1e-05|TWO_SIDED|95.0|-4.1|-2.5||Worst pain 48-72 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-2.5|-4.1|<0.00001
92178950|NCT05157841|184254194|SUPERIORITY||Least square mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.43|<|1e-05|TWO_SIDED|95.0|-3.0|-1.3||Worst pain 72-96 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-1.3|-3.0|<0.00001
92178951|NCT05157841|184254194|SUPERIORITY||Least square mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.36||0.3419|TWO_SIDED|95.0|-0.9|0.6||Average pain 0-24 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.6|-0.9|0.3419
92178952|NCT05157841|184254194|SUPERIORITY||Least square mean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.31|<|1e-05|TWO_SIDED|95.0|-2.5|-1.3||Average pain 24-48 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-1.3|-2.5|<0.00001
92178953|NCT05157841|184254194|SUPERIORITY||Least square mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.31|<|1e-05|TWO_SIDED|95.0|-2.8|-1.6||Average pain 48-72 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-1.6|-2.8|<0.00001
92178954|NCT05157841|184254194|SUPERIORITY||Least square mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.31|<|1e-05|TWO_SIDED|95.0|-2.1|-0.9||Average pain 72-96 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-0.9|-2.1|<0.00001
92178955|NCT00624442|184254200|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|1.0||||0.8842|TWO_SIDED|95.0|-7.0|8.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||8|-7|0.8842
92178956|NCT00624442|184254200|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|18.0|||<|0.0001|TWO_SIDED|95.0|10.0|27.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||27|10|<0.0001
92178957|NCT00624442|184254200|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|47.0|||<|0.0001||95.0|38.0|56.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||56|38|<0.0001
92178958|NCT00624442|184254200|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|58.0|||<|0.0001|TWO_SIDED|95.0|46.0|70.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||70|46|<0.0001
92178959|NCT00624442|184254200|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|59.0|||<|0.0001|TWO_SIDED|95.0|47.0|72.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||72|47|<0.0001
92178960|NCT00624442|184254200|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|80.0|||<|0.0001|TWO_SIDED|95.0|71.0|89.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||89|71|<0.0001
92178961|NCT00624442|184254200|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis based on the following model: Change from baseline = Concentration + Baseline + Error, treating patients as random effect||"All available concentration data are used in the model as a continuous variable.~p-value based on individual plasma concentration of CK-1827452 vs. corresponding systolic ejection time PD assessment (not binned based on plasma concentration)"||||<0.0001
92178962|NCT00624442|184254201|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|1.0||||0.3665|TWO_SIDED|95.0|-1.0|2.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||2|-1|0.3665
92284237|NCT02087904|184472232|SUPERIORITY||LS Mean Difference|-1.52||||0.385|TWO_SIDED|95.0|-4.95|1.916||P-value for test of difference between ABT-981 200 dose group and Placebo at each post-baseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||1.916|-4.95|0.385
92178963|NCT00624442|184254201|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|1.0|||<|0.0357|TWO_SIDED|95.0|0.0|3.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||3|0|<0.0357
92257449|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|265.51|STANDARD_ERROR_OF_MEAN|324.88||0.42|TWO_SIDED|95.0|-397.45|928.48|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||928.48|-397.45|0.420
92257450|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|240.17|STANDARD_ERROR_OF_MEAN|311.63||0.447|TWO_SIDED|95.0|-395.81|876.14|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||876.14|-395.81|0.447
92257451|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-176.74|STANDARD_ERROR_OF_MEAN|309.11||0.572|TWO_SIDED|95.0|-808.1|454.63|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||454.63|-808.10|0.572
92257452|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.96|STANDARD_ERROR_OF_MEAN|311.11||0.929|TWO_SIDED|95.0|-663.31|607.38|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||607.38|-663.31|0.929
92257453|NCT00853112|184417578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|29.58|STANDARD_ERROR_OF_MEAN|323.01||0.928|TWO_SIDED|95.0|-629.62|688.79|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||688.79|-629.62|0.928
92257454|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.29||0.412|TWO_SIDED|95.0|-0.35|0.83|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.83|-0.35|0.412
92257455|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.28||0.999|TWO_SIDED|95.0|-0.58|0.58|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.58|-0.58|0.999
92257456|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.28||0.535|TWO_SIDED|95.0|-0.39|0.74|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.74|-0.39|0.535
92257457|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.28||0.128|TWO_SIDED|95.0|-0.13|1.01|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||1.01|-0.13|0.128
92257458|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.29||0.823|TWO_SIDED|95.0|-0.67|0.53|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.53|-0.67|0.823
92257459|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.34||0.396|TWO_SIDED|95.0|-0.4|0.99|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.99|-0.40|0.396
92257460|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.33||0.899|TWO_SIDED|95.0|-0.63|0.72|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.72|-0.63|0.899
92257461|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.33||0.928|TWO_SIDED|95.0|-0.7|0.64|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.64|-0.70|0.928
92257462|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.33||0.203|TWO_SIDED|95.0|-0.25|1.11|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||1.11|-0.25|0.203
92257463|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.34||0.772|TWO_SIDED|95.0|-0.6|0.8|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.80|-0.60|0.772
92257464|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.29||0.771|TWO_SIDED|95.0|-0.52|0.69|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.69|-0.52|0.771
92257465|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.29||0.572|TWO_SIDED|95.0|-0.75|0.42|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.42|-0.75|0.572
92257466|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.29||0.966|TWO_SIDED|95.0|-0.58|0.6|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.60|-0.58|0.966
92257467|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.28||0.157|TWO_SIDED|95.0|-0.17|1.0|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||1.00|-0.17|0.157
92257468|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.3||0.546|TWO_SIDED|95.0|-0.43|0.79|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.79|-0.43|0.546
92257469|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.28||0.818|TWO_SIDED|95.0|-0.51|0.64|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.64|-0.51|0.818
92257470|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.28||0.603|TWO_SIDED|95.0|-0.71|0.42|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.42|-0.71|0.603
92178964|NCT00624442|184254201|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|3.0||||0.0004|TWO_SIDED|95.0|1.0|5.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||5|1|0.0004
92178965|NCT00624442|184254201|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|3.0||||0.0086|TWO_SIDED|95.0|1.0|4.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||4|1|0.0086
92178966|NCT00624442|184254201|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|2.0||||0.032|TWO_SIDED|95.0|0.0|5.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||5|0|0.032
92178967|NCT00624442|184254201|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|5.0|||<|0.0001|TWO_SIDED|95.0|3.0|6.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||6|3|<0.0001
92178968|NCT00624442|184254201|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis based on the following model: Change from baseline = Concentration + Baseline + Error, treating patients as random effect||"All available concentration data are used in the model as a continuous variable.~p-value based on individual plasma concentration of CK-1827452 vs. corresponding fractional shortening PD assessment (not binned based on plasma concentration)"||||<0.0001
92178969|NCT04243759|184254239|SUPERIORITY|||||||0.97|||||||ANOVA|||||||0.97
92257471|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.27||0.495|TWO_SIDED|95.0|-0.37|0.74|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.74|-0.37|0.495
92257472|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.27||0.375|TWO_SIDED|95.0|-0.31|0.8|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.80|-0.31|0.375
92257473|NCT00853112|184417579|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.29||0.392|TWO_SIDED|95.0|-0.34|0.84|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.84|-0.34|0.392
92178970|NCT04243759|184254240|SUPERIORITY||Mean Difference (Final Values)|0.36|STANDARD_DEVIATION|2.09||0.232|TWO_SIDED|95.0|-0.24|0.95|||t-test, 2 sided|||Within subjects comparison of drinks per drinking day with full intervention app access versus daily assessment via the app only||0.95|-0.24|.232
92178971|NCT04757753|184254241|NON_INFERIORITY|"πN = 2-year successful treatment rate of PA1704 πR = 2-year successful treatment rate of BioRoot™ RCS Δ = πN - πR ΔL = non-inferiority margin fixed to 13% or 0.13~Hypotheses are :~H0 : Δ ≤ -ΔL H1 : Δ \> -ΔL The χ2 of Dunnett \& Gent is used to assess the non-inferiority"|Mean Difference (Final Values)|0.006||||0.03|TWO_SIDED|90.0|-0.0074|0.0087||A priori threshold for statistical significance was \< 0.05|Chi-squared, Corrected|||The statistical analysis was done on the proportion difference of the treatment efficacy, defined on loose criteria, at 24 months, in PP population.||0.0087|-0.0074|0.03
92182813|NCT02609048|184264696|SUPERIORITY||Difference in LSM|2.9|STANDARD_ERROR_OF_MEAN|1.73||0.1035|TWO_SIDED|95.0|-0.6|6.5||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Social Domain Score||6.5|-0.6|0.1035
92182814|NCT02609048|184264696|SUPERIORITY||Difference in LSM|0.4|STANDARD_ERROR_OF_MEAN|0.96||0.6967|TWO_SIDED|95.0|-1.6|2.4||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Emotional Function Domain Score||2.4|-1.6|0.6967
92257474|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|3.75||0.21|TWO_SIDED|95.0|-12.47|2.86|||Longitudinal analysis|||mPAP at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||2.86|-12.47|0.210
92257475|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.47|STANDARD_ERROR_OF_MEAN|3.61||0.225|TWO_SIDED|95.0|-11.84|2.9|||Longitudinal analysis|||mPAP at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||2.90|-11.84|0.225
92257476|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.67|STANDARD_ERROR_OF_MEAN|3.73||0.332|TWO_SIDED|95.0|-11.28|3.93|||Longitudinal analysis|||mPAP at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||3.93|-11.28|0.332
92257477|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|3.76||0.714|TWO_SIDED|95.0|-9.06|6.28|||Longitudinal analysis|||mPAP at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||6.28|-9.06|0.714
92257478|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.01|STANDARD_ERROR_OF_MEAN|3.73||0.04|TWO_SIDED|95.0|-15.63|-0.39|||Longitudinal analysis|||mPAP at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||-0.39|-15.63|0.040
92257479|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.14|STANDARD_ERROR_OF_MEAN|3.37||0.079|TWO_SIDED|95.0|-13.02|0.75|||Longitudinal analysis|||mPAP at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.75|-13.02|0.079
92257480|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.85|STANDARD_ERROR_OF_MEAN|3.24||0.573|TWO_SIDED|95.0|-8.46|4.77|||Longitudinal analysis|||mPAP at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||4.77|-8.46|0.573
92257481|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.67|STANDARD_ERROR_OF_MEAN|3.34||0.28|TWO_SIDED|95.0|-10.5|3.15|||Longitudinal analysis|||mPAP at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||3.15|-10.50|0.280
92257482|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|3.38||0.684|TWO_SIDED|95.0|-8.28|5.51|||Longitudinal analysis|||mPAP at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||5.51|-8.28|0.684
92257483|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.17|STANDARD_ERROR_OF_MEAN|3.35||0.021|TWO_SIDED|95.0|-15.01|-1.34|||Longitudinal analysis|||mPAP at Hour 2: Longitudinal analysis was used to analyze p-value and included baseline as a covariate.||-1.34|-15.01|0.021
92257484|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|3.7||0.727|TWO_SIDED|95.0|-8.86|6.25|||Longitudinal analysis|||mPAP at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||6.25|-8.86|0.727
92257485|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.85|STANDARD_ERROR_OF_MEAN|3.56||0.183|TWO_SIDED|95.0|-12.12|2.42|||Longitudinal analysis|||mPAP at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||2.42|-12.12|0.183
92257486|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.01|STANDARD_ERROR_OF_MEAN|3.67||0.112|TWO_SIDED|95.0|-13.51|1.49|||Longitudinal analysis|||mPAP at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||1.49|-13.51|0.112
92182815|NCT02609048|184264696|SUPERIORITY||Difference in LSM|0.4|STANDARD_ERROR_OF_MEAN|0.85||0.6164|TWO_SIDED|95.0|-1.3|2.2||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Emotional Function Domain Score||2.2|-1.3|0.6164
92257487|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|3.71||0.928|TWO_SIDED|95.0|-7.91|7.23|||Longitudinal analysis|||mPAP at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||7.23|-7.91|0.928
92257488|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.01|STANDARD_ERROR_OF_MEAN|3.68||0.02|TWO_SIDED|95.0|-16.52|-1.5|||Longitudinal analysis|||mPAP at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||-1.50|-16.52|0.020
92257489|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|3.79||0.136|TWO_SIDED|95.0|-13.55|1.94|||Longitudinal analysis|||mPAP at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||1.94|-13.55|0.136
92257490|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.82|STANDARD_ERROR_OF_MEAN|3.65||0.303|TWO_SIDED|95.0|-11.27|3.63|||Longitudinal analysis|||mPAP at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||3.63|-11.27|0.303
92257491|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.17|STANDARD_ERROR_OF_MEAN|3.77||0.18|TWO_SIDED|95.0|-12.87|2.52|||Longitudinal analysis|||mPAP at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||2.52|-12.87|0.180
92257492|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.56|STANDARD_ERROR_OF_MEAN|3.8||0.506|TWO_SIDED|95.0|-10.31|5.2|||Longitudinal analysis|||mPAP at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||5.20|-10.31|0.506
92257493|NCT00853112|184417580|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.84|STANDARD_ERROR_OF_MEAN|3.77||0.026|TWO_SIDED|95.0|-16.54|-1.14|||Longitudinal analysis|||mPAP at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||-1.14|-16.54|0.026
92257494|NCT01553591|184417588|SUPERIORITY|||||||0.014||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||0.014
92257495|NCT01553591|184417588|SUPERIORITY|||||||0.004||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||0.004
92257496|NCT01553591|184417589|SUPERIORITY|||||||0.112||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||0.112
92257497|NCT01553591|184417589|SUPERIORITY||||||<|0.001||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||<0.001
92257498|NCT02477800|184417603|SUPERIORITY||Difference from Placebo|0.11||||0.225|TWO_SIDED|95.0|-0.469|0.403|||MMRM Model|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in CDR-SB as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline CDR-SB, baseline CDR-SB by visit interaction, baseline MMSE, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.403|-0.469|0.2250
92178972|NCT03816397|184254274|SUPERIORITY|A sample size of 118 subjects (59 in each group) provides 88% power to detect a hazard ratio of 2.0 for the time to treatment failure comparing the group randomized to discontinue adalimumab to the group randomized to continue using adalimumab, assuming a median time until treatment failure of 10 weeks in the group that discontinues adalimumab (Arm 1) and of 20 weeks in the group that continues on adalimumab (Arm 2), an equal allocation between groups, and a 10% total loss to follow-up.|Hazard Ratio (HR)|8.7|||<|0.0001|TWO_SIDED|95.0|3.6|21.2||A priori threshold for statistical significance was \<0.05.|Log Rank||For the HR, the numerator is the placebo group (stop adalimumab) and the denominator is the adalimumab group (continue adalimumab).|A Cox proportional hazards regression was used to compare time to treatment failure between the adalimumab and placebo groups up to the primary endpoint of 48 weeks, with country and conventional DMARD use included as fixed effects in the model. The null hypothesis was an hazard ratio (HR) of 1. Hypothesis testing was based on a permutation test of the log hazard ratio (100,000 replicates). The model was checked for the assumption of proportional hazards by assessing Schoenfeld residuals.||21.2|3.6|<0.0001
92178973|NCT04679389|184254349|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
92178974|NCT04679389|184254350|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.48
92178975|NCT04679389|184254351|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.48
92178976|NCT04679389|184254352|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92178977|NCT04679389|184254355|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||||||0.31
92178978|NCT04679389|184254356|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92178979|NCT02777593|184254357|OTHER|Performance goal tested using Exact method calculation to estimate the 95% one-sided lower confidence level (95% LCL) on the proportion of participants with primary endpoint success. If the 95% LCL exceeded 0.64, then the the null hypothesis was to be rejected and the PG was met.|95% Exact Lower Confidence Limit|0.751|||||ONE_SIDED|||||||||"Primary endpoint success was defined as the proportion of analysis-eligible participants without a primary endpoint event and with 12-Month imaging performed.~Results were tested against a performance goal (PG) of 0.64 (i.e. 64%), derived from historical GORE TAG® and Conformable TAG® data.~Additionally, using a one-sided alpha of 0.05 and Exact Test, minimum power of 80%, the sample needed was 70 patients. With attrition, 85 patients were required."||||
92178980|NCT05954546|184254358|OTHER||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.62|1.72|||||Hazard ratio (HR) was estimated using multivariable Cox proportional hazard models.|Statistical analysis data is presented for Encorafenib+Binimetinib (RWD) relative to Encorafenib+Binimetinib (CTD) (reference).||1.72|0.62|
92178981|NCT03904576|184254365|OTHER||Difference of least squares means (T-R)|-7.305|STANDARD_ERROR_OF_MEAN|2.082|||TWO_SIDED|90.0|-10.949|-3.661||||||Mixed effects model including effects for 'treatment', 'period' and 'subject' as well as covariates 'period baseline' and 'subject baseline'.||-3.661|-10.949|
92178982|NCT03904576|184254365|OTHER||Difference in %|-24.396|||||||||||||Difference of least squares means in % (ratio to Placebo) (T-R)/R\*100%|Mixed effects model including effects for 'treatment', 'period' and 'subject' as well as covariates 'period baseline' and 'subject baseline'.||||
92178983|NCT04881110|184254366|SUPERIORITY||Mean Difference (Final Values)|11.2|||<|0.001|TWO_SIDED|95.0|8.0|14.5|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|14.5|8.0|<0.001
92178984|NCT04881110|184254366|SUPERIORITY||Risk Ratio (RR)|1.91|||<|0.001|TWO_SIDED|95.0|1.26|2.9|||Chi-squared||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|2.90|1.26|<0.001
92178985|NCT04881110|184254367|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.06|TWO_SIDED|95.0|-0.8|0.01|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|0.01|-0.8|0.06
92178986|NCT04881110|184254368|SUPERIORITY||Mean Difference (Final Values)|-3.4||||0.52|TWO_SIDED|95.0|-14.3|7.4|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|7.4|-14.3|0.52
92178987|NCT04881110|184254369|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.33|TWO_SIDED|95.0|-3.6|1.2|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|1.2|-3.6|0.33
92284238|NCT02087904|184472233|SUPERIORITY||LS Mean Difference|-0.08||||0.384|TWO_SIDED|95.0|-0.249|0.096||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.096|-0.249|0.384
92182816|NCT02609048|184264696|SUPERIORITY||Difference in LSM|-0.1|STANDARD_ERROR_OF_MEAN|0.93||0.9548|TWO_SIDED|95.0|-2.0|1.9|||ANCOVA|||Emotional Function Domain Score||1.9|-2.0|0.9548
92257499|NCT02477800|184417603|SUPERIORITY||Difference from late start group|0.03||||0.833|TWO_SIDED|95.0|-0.262|0.326|||MMRM Model|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in CDR-SB as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline CDR-SB, baseline CDR-SB by visit interaction, baseline MMSE, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.326|-0.262|0.8330
92284239|NCT02087904|184472233|SUPERIORITY||LS Mean Difference|-0.15||||0.095|TWO_SIDED|95.0|-0.324|0.026||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.026|-0.324|0.095
92257500|NCT02477800|184417604|SUPERIORITY||Difference from Placebo|0.2||||0.4795|TWO_SIDED|95.0|-0.35|0.74|||MMRM Model|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MMSE as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline MMSE, baseline MMSE by visit interaction, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.74|-0.35|0.4795
92178988|NCT04881110|184254370|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.1|TWO_SIDED|95.0|-1.7|0.1|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|0.1|-1.7|0.10
92257501|NCT02477800|184417604|SUPERIORITY||Difference from Placebo|-0.1||||0.8106|TWO_SIDED|95.0|-0.62|0.49|||MMRM Model|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MMSE as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline MMSE, baseline MMSE by visit interaction, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.49|-0.62|0.8106
92257502|NCT02477800|184417605|SUPERIORITY||Difference from Placebo|-0.583||||0.2536|TWO_SIDED|95.0|-1.5835|0.4181|||MMRM Model|||Adjusted mean for each treatment group (Placebo,BIIB037 Low Dose,BIIB037 High Dose),difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADAS-Cog 13 as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction,baseline ADAS-Cog 13,baseline ADAS-Cog 13 by visit interaction,baseline MMSE,AD symptomatic medication use at baseline,region,and laboratory ApoE status.||0.4181|-1.5835|0.2536
92257503|NCT02477800|184417605|SUPERIORITY||Difference from Placebo|-0.588||||0.2578|TWO_SIDED|95.0|-1.6067|0.4309|||MMRM Model|||Adjusted mean for each treatment group (Placebo,BIIB037 Low Dose,BIIB037 High Dose),difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADAS-Cog 13 as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction,baseline ADAS-Cog 13,baseline ADAS-Cog 13 by visit interaction,baseline MMSE,AD symptomatic medication use at baseline,region,and laboratory ApoE status.||0.4309|-1.6067|0.2578
92257504|NCT02477800|184417606|SUPERIORITY||Difference from Placebo|0.7||||0.1225|TWO_SIDED|95.0|-0.19|1.64|||MMRM Model|||Adjusted mean for each group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo,95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADCS-ADL-MCI as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction, baseline ADCS-ADL-MCI, baseline ADCS-ADL-MCI by visit interaction, baseline MMSE AD symptomatic medication use at baseline,region, and laboratory ApoE status.||1.64|-0.19|0.1225
92284240|NCT02087904|184472233|SUPERIORITY||LS Mean Difference|-0.14||||0.106|TWO_SIDED|95.0|-0.314|0.03||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.03|-0.314|0.106
92257505|NCT02477800|184417606|SUPERIORITY||Difference from late start group|0.7||||0.1506|TWO_SIDED|95.0|-0.25|1.61|||MMRM Model|||Adjusted mean for each group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo,95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADCS-ADL-MCI as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction, baseline ADCS-ADL-MCI, baseline ADCS-ADL-MCI by visit interaction, baseline MMSE AD symptomatic medication use at baseline,region, and laboratory ApoE status.||1.61|-0.25|0.1506
92182817|NCT02609048|184264696|SUPERIORITY||Difference in LSM|-0.2|STANDARD_ERROR_OF_MEAN|1.04||0.8286|TWO_SIDED|95.0|-2.4|1.9||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Itch Domain Score||1.9|-2.4|0.8286
92257506|NCT03685643|184417616|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92257507|NCT03685643|184417617|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92284241|NCT02087904|184472234|SUPERIORITY||LS Mean Difference|-1.1||||0.818|TWO_SIDED|95.0|-10.22|8.08||P-value for test of difference between ABT-981 25 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||8.08|-10.22|0.818
92284242|NCT02087904|184472234|SUPERIORITY||LS Mean Difference|-7.6||||0.109|TWO_SIDED|95.0|-16.83|1.69||P-value for test of difference between ABT-981 100 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||1.69|-16.83|0.109
92257508|NCT03685643|184417618|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
92284243|NCT02087904|184472234|SUPERIORITY||LS Mean Difference|-3.4||||0.465|TWO_SIDED|95.0|-12.58|5.76||P-value for test of difference between ABT-981 200 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||5.76|-12.58|0.465
92257509|NCT00423592|184417626|SUPERIORITY_OR_OTHER||Proportion|0.0|STANDARD_DEVIATION|0.0||0.01|TWO_SIDED|95.0|0.0|9.7|||Exact binomial test|A 1-sample test for a binomial proportion was performed.||Sample size: 30 participants; 80% power to rule out 50% recurrence rate of serum ALT/AST abnormalities following ambrisentan treatment (assumes 25% recurrence rate); 99% power to rule out 75% recurrence rate (assumes 37.5% recurrence rate). H\_0 = proportion of subjects experiencing primary endpoint at 12% vs 1-sided alternative of \< 12%. P-value from exact binomial test. Summary statistics included the estimated proportion, 95% confidence interval (CI), and the p-value of the hypothesis test.||9.7|0.0|0.01
92257510|NCT00423592|184417629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.4|STANDARD_DEVIATION|49.6||0.009|TWO_SIDED|95.0|6.3|40.4|||t-test, 2 sided|||Hypothesis testing and descriptive statistics were carried out on the last-observation-carried-forward (LOCF) 6-minute walk distance change from baseline.||40.4|6.3|0.009
92257511|NCT00423592|184417630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|1.51||0.046|TWO_SIDED|95.0|-1.0|0.0|||t-test, 2 sided|||Hypothesis testing and descriptive statistics were carried out on the last-observation-carried-forward (LOCF) Borg dyspnea index change from baseline.||0.0|-1.0|0.046
92257512|NCT00423592|184417632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6|STANDARD_DEVIATION|6.44||0.001|TWO_SIDED|95.0|2.1|7.1|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||7.1|2.1|0.001
92257513|NCT00423592|184417633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4|STANDARD_DEVIATION|8.98||0.059|TWO_SIDED|95.0|-0.1|6.8|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||6.8|-0.1|0.059
92257514|NCT00423592|184417634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4|STANDARD_DEVIATION|6.86||0.002|TWO_SIDED|95.0|1.7|7.0|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||7.0|1.7|0.002
92284244|NCT02087904|184472235|SUPERIORITY||LS Mean Difference|-2.1||||0.666|TWO_SIDED|95.0|-11.76|7.52||P-value for test of difference between ABT-981 25 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||7.52|-11.76|0.666
92178989|NCT04881110|184254371|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.81|TWO_SIDED|95.0|-2.8|3.5|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|3.5|-2.8|0.81
92257515|NCT00423592|184417635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.2|STANDARD_DEVIATION|10.56||0.001|TWO_SIDED|95.0|3.1|11.3|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||11.3|3.1|0.001
92257516|NCT00423592|184417636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_DEVIATION|6.4||0.017|TWO_SIDED|95.0|0.6|5.6|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||5.6|0.6|0.017
92257517|NCT00423592|184417637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|7.45||0.046|TWO_SIDED|95.0|0.1|5.8|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||5.8|0.1|0.046
92257518|NCT00423592|184417638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|STANDARD_DEVIATION|7.23||0.003|TWO_SIDED|95.0|1.7|7.3|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||7.3|1.7|0.003
92257519|NCT00423592|184417639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|STANDARD_DEVIATION|9.41||0.059|TWO_SIDED|95.0|-0.1|7.2|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||7.2|-0.1|0.059
92284245|NCT02087904|184472235|SUPERIORITY||LS Mean Difference|-9.2||||0.065|TWO_SIDED|95.0|-18.95|0.56||P-value for test of difference between ABT-981 100 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.56|-18.95|0.065
92257520|NCT00423592|184417640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|STANDARD_DEVIATION|13.96||0.152|TWO_SIDED|95.0|-1.5|9.3|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||9.3|-1.5|0.152
92257521|NCT00423592|184417641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|STANDARD_DEVIATION|5.78||0.001|TWO_SIDED|95.0|1.7|6.2|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||6.2|1.7|0.001
92257522|NCT00062647|184417642|NON_INFERIORITY_OR_EQUIVALENCE|No margin was justified owing to the exploratory nature of the investigation.|Risk Difference (RD)|1.0||||||95.0|-35.5|31.9|||the difference in the 2 eradication rate|Statistical testing was limited to interval estimation (95% CI) of the difference in the 2 eradication rates using the method of Agresti and Caffo.||||31.9|-35.5|
92178990|NCT04881110|184254372|SUPERIORITY||Mean Difference (Final Values)|-0.003||||0.99|TWO_SIDED|95.0|-5.8|5.8|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|5.8|-5.8|0.99
92178991|NCT04881110|184254373|SUPERIORITY||Mean Difference (Final Values)|-4.8||||0.72|TWO_SIDED|95.0|-32.6|22.9|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|22.9|-32.6|0.72
92178992|NCT04881110|184254374|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.02|TWO_SIDED|95.0|-0.7|-0.07|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|-0.07|-0.7|0.02
92257523|NCT00255008|184417652|SUPERIORITY_OR_OTHER||Proportion of patients (%)|80.0||||||95.0|28.36|99.49||||||||99.49|28.36|
92257524|NCT00255008|184417652|SUPERIORITY_OR_OTHER||Proportion of patients (%)|76.47||||||95.0|50.1|93.19||||||||93.19|50.10|
92257525|NCT00255008|184417652|SUPERIORITY_OR_OTHER||Proportion of patients (%)|87.5||||||95.0|47.35|99.48||||||||99.48|47.35|
92178993|NCT04881110|184254375|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.12|TWO_SIDED|95.0|-0.04|0.3|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|0.3|-0.04|0.12
92178994|NCT04881110|184254376|SUPERIORITY||Mean Difference (Final Values)|-3.09||||0.25|TWO_SIDED|95.0|-8.5|2.3|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|2.3|-8.5|0.25
92182818|NCT02609048|184264696|SUPERIORITY||Difference in LSM|4.2|STANDARD_ERROR_OF_MEAN|1.74||0.0226|TWO_SIDED|95.0|0.6|7.8||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Fatigue Domain Score||7.8|0.6|0.0226
92257526|NCT03296072|184417661|OTHER||Difference of Least Square mean|7.69|||<|0.0001|TWO_SIDED|95.0|5.18|10.19|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||10.19|5.18|<.0001
92257527|NCT03296072|184417662|OTHER||Difference of Least Square mean|33.29|||<|0.0001|TWO_SIDED|95.0|28.89|37.68|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||37.68|28.89|<.0001
92257528|NCT03296072|184417663|OTHER||Difference of Least Square mean|1.81|||<|0.0001|TWO_SIDED|95.0|1.59|2.04|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||2.04|1.59|<.0001
92257529|NCT03296072|184417664|OTHER||Difference of Least Square mean|7.57|||<|0.0001|TWO_SIDED|95.0|5.07|11.07|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||11.07|5.07|<.0001
92257530|NCT03296072|184417665|OTHER||Difference of Least Square mean|10.98|||<|0.0001|TWO_SIDED|95.0|6.58|15.37|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||15.37|6.58|<.0001
92257531|NCT03296072|184417666|OTHER||Difference of Least Square mean|0.97|||<|0.0001|TWO_SIDED|95.0|0.75|1.2|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||1.20|0.75|<.0001
92257532|NCT02583360|184417667|SUPERIORITY|||||||0.008|||||||Chi-squared|||||||0.008
92257533|NCT02583360|184417668|SUPERIORITY|||||||0.907|||||||t-test, 2 sided|||||||0.907
92257534|NCT02583360|184417669|SUPERIORITY|||||||0.592|||||||t-test, 2 sided|||||||0.592
92257535|NCT01682759|184417687|NON_INFERIORITY_OR_EQUIVALENCE|Omarigliptin was considered non-inferior to glimepiride if the upper bound of the two-sided 95% confidence interval (CI) of the between-treatment difference in least-squares (LS) means for change from baseline in A1C at Week 54 (omarigliptin vs. glimepiride) was lower than 0.35%.|Difference in the least squares means|0.18|||||TWO_SIDED|95.0|0.06|0.3|||||Constrained longitudinal data analysis (cLDA) model including terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups.|||0.30|0.06|
92257536|NCT01682759|184417688|SUPERIORITY_OR_OTHER||Difference in percentages|-6.9|||||TWO_SIDED|95.0|-13.9|0.1|||||Miettinen \& Nurminen method; the 95% CI was computed only for those endpoints with at least 4 participants having events in one or more treatment groups.|||0.1|-13.9|
92257537|NCT01682759|184417689|SUPERIORITY_OR_OTHER||Difference in percentages|1.1|||||TWO_SIDED|95.0|-1.6|3.8|||||Miettinen \& Nurminen method; the 95% CI was computed only for those endpoints with at least 4 participants having events in one or more treatment groups.|||3.8|-1.6|
92284246|NCT02087904|184472235|SUPERIORITY||LS Mean Difference|-7.2||||0.145|TWO_SIDED|95.0|-16.84|2.49||P-value for test of difference between ABT-981 200 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||2.49|-16.84|0.145
92284247|NCT02087904|184472236|SUPERIORITY||LS Mean Difference|-3.2||||0.558|TWO_SIDED|95.0|-14.03|7.59||P-value for test of difference between ABT-981 25 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||7.59|-14.03|0.558
92284248|NCT02087904|184472236|SUPERIORITY||LS Mean Difference|-5.8||||0.295|TWO_SIDED|95.0|-16.77|5.11||P-value for test of difference between ABT-981 100 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||5.11|-16.77|0.295
92284249|NCT02087904|184472236|SUPERIORITY||LS Mean Difference|-6.8||||0.218|TWO_SIDED|95.0|-17.63|4.04||P-value for test of difference between ABT-981 200 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||4.04|-17.63|0.218
92284250|NCT02087904|184472237|SUPERIORITY||LS Mean Difference|-0.6||||0.664|TWO_SIDED|95.0|-3.58|2.28||P-value for test of difference between ABT-981 25 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||2.28|-3.58|0.664
92284251|NCT02087904|184472237|SUPERIORITY||LS Mean Difference|-2.7||||0.075|TWO_SIDED|95.0|-5.67|0.28||P-value for test of difference between ABT-981 100 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.28|-5.67|0.075
92257538|NCT01682759|184417690|SUPERIORITY_OR_OTHER||Difference in the least squares means|5.6|||||TWO_SIDED|95.0|0.1|11.2|||||cLDA model including terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups|||11.2|0.1|
92257539|NCT01682759|184417691|SUPERIORITY_OR_OTHER||Between-group Rate Difference (%)|-3.7|||||TWO_SIDED|95.0|-10.6|3.3|||||Between-group CIs are calculated via Miettinen \& Nurminen method.|A1C \<6.5%||3.3|-10.6|
92257540|NCT01682759|184417692|SUPERIORITY_OR_OTHER||Difference in percentages|-21.3|||<|0.001|TWO_SIDED|95.0|-26.5|-16.4|||Difference in percentages||Miettinen \& Nurminen method; the 95% CI was computed only for those endpoints with at least 4 participants having events in one or more treatment groups.|||-16.4|-26.5|<0.001
92178995|NCT04881110|184254377|SUPERIORITY||Mean Difference (Final Values)|87.4|||<|0.001|TWO_SIDED|95.0|59.9|115.1|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|115.1|59.9|<0.001
92178996|NCT04881110|184254378|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.18|TWO_SIDED|95.0|-0.09|0.01|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|0.01|-0.09|0.18
92178997|NCT04881110|184254379|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.06|TWO_SIDED|95.0|-0.6|18.1|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|18.1|-0.6|0.06
92178998|NCT04881110|184254380|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.06|TWO_SIDED|95.0|-0.09|2.6|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|2.6|-0.09|0.06
92178999|NCT04881110|184254382|SUPERIORITY||Mean Difference (Final Values)|25.1|||<|0.001|TWO_SIDED|95.0|21.8|28.3|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|28.3|21.8|<0.001
92179000|NCT05215054|184254383|NON_INFERIORITY|Non-inferiority will be demonstrated if the upper limit of the two-sided 95%CI of the difference of changes from baseline between test device and control is inferior or equal to 0.5.||||||||||||||||Difference of changes from baseline in WSRS score for Gana V versus Sculptra|Non-inferiority will be demonstrated if the upper limit of the two-sided 95%CI of the difference of changes from baseline between test device and control is inferior or equal to 0.5.To assess assay sensitivity, the proportion of responders with Gana V®, defined as improvement of ≥1-grade in the WSRS when compared to D0 pre-injection must be ≥50% at the 6 months visit after baseline.|||
92179001|NCT02933489|184254395|EQUIVALENCE|H0: DBT = AB-MR|Wald interval with Bonett-Price Laplace|0.007||||0.002|TWO_SIDED|95.0|0.0022|0.0116|||McNemar||"Wald interval with Bonett-Price Laplace, described in :~Fagerland MW, Lydersen S, Laake P. Recommended tests and confidence intervals for paired binomial proportions. Statist. Med. 2014; 33:2850-75."|The proportion of participants who had an invasive cancer, verified by pathology, detected by each modality (the invasive cancer detection rates) will be made using exact McNemar's test.||0.0116|0.0022|0.002
92179002|NCT02933489|184254396|EQUIVALENCE|PPV DBT = PPV AB-MR||||||0.15||||||"Generalized estimating equation (GEE) regression with the p-value from the resulting score test.~5 secondary comparisons were planned: alpha level of 0.05/5 = 0.01 for p-value significance"|Leisenring|Leisenring W, Alonzo T, Pepe MS. Comparisons of predictive values of binary medical diagnostic tests for paired designs. Biometrics. 2000;56:345-351||Positive Predictive Value (PPV)||||0.15
92179003|NCT02933489|184254397|EQUIVALENCE|H0: DBT short term follow-up rate = AB-MR short term follow-up rate|||||<|0.0001||||||To adjust for multiplicity, using the Bonferroni correction, secondary comparisons are compared against an adjusted alpha level of 0.05/5=0.01 corresponding to the 5 secondary comparisons outlined in the Statistical Analysis Plan (SAP)|McNemar|exact p-value||The exact p-value from McNemar's test is reported for for comparing the DBT against the AB-MR short term follow-up rates||||<0.0001
92179004|NCT02933489|184254397|EQUIVALENCE|H0: DBT additional imaging rate =AB-MR additional imaging rate||||||0.02||||||To adjust for multiplicity, using the Bonferroni correction, secondary comparisons are compared against an adjusted alpha level of 0.05/5 = 0.01, corresponding to the 5 secondary comparisons outlined in the SAP|McNemar|exact p-values||The exact p-value from McNemar's test is reported for for comparing the DBT against the AB-MR additional imaging rates||||0.02
92257541|NCT01682759|184417693|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.9|||<|0.001|TWO_SIDED|95.0|-2.5|-1.4|||Difference in the least squares means||cLDA model including terms for treatment, time, and the interaction of time by treatment with the constraint that the mean baseline is the same for all treatment groups.|||-1.4|-2.5|<0.001
92257542|NCT01682759|184417694|SUPERIORITY_OR_OTHER||Between-group Rate Difference|-10.3|||||TWO_SIDED|95.0|-17.8|-2.8|||||Between-group CIs are calculated via Miettinen \& Nurminen method.|A1C \< 7.0%||-2.8|-17.8|
92257543|NCT01855919|184417698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0026|TWO_SIDED|95.0|-0.77|-0.16|||Mixed Models Analysis|||||-0.16|-0.77|0.0026
92257544|NCT01855919|184417699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.0026|TWO_SIDED|95.0|-0.48|-0.1|||Mixed Models Analysis|||||-0.10|-0.48|0.0026
92257545|NCT01855919|184417700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.0439|TWO_SIDED|95.0|-1.25|-0.02|||ANCOVA|||||-0.02|-1.25|0.0439
92257546|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.3||||0.101|TWO_SIDED|95.0|-0.66|0.06||p-value is for worst pain|Mixed Models Analysis|||||0.06|-0.66|0.1010
92257547|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0009|TWO_SIDED|95.0|-0.79|-0.21||p-value is for least pain|Mixed Models Analysis|||||-0.21|-0.79|0.0009
92179005|NCT02933489|184254398|EQUIVALENCE|Sensitivity DBT = Sensitivity AB-MR||||||0.001||||||The comparison of the sensitivity of AB-MR and DBT uses a two-sided exact McNemar's test to account for the paired design 5 secondary comparisons were planned: alpha level of 0.05/5 = 0.01 for p-value significance|McNemar|||||||0.001
92179006|NCT02933489|184254398|EQUIVALENCE|Specificity DBT = Specificity AB-MR|||||<|0.001||||||The comparison of the Specificity of AB-MR and DBT uses a two-sided exact McNemar's test to account for the paired design 5 secondary comparisons were planned: alpha level of 0.05/5 = 0.01 for p-value significance|McNemar|||||||<0.001
92257548|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.023|TWO_SIDED|95.0|-0.74|-0.05||p-value is for Pain Right Now|Mixed Models Analysis|||||-0.05|-0.74|0.0230
92257549|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.0874|TWO_SIDED|95.0|-0.66|0.05||p-value is for General Activity|Mixed Models Analysis|||||0.05|-0.66|0.0874
92257550|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.0436|TWO_SIDED|95.0|-0.63|-0.01||p-value is for Mood|Mixed Models Analysis|||||-0.01|-0.63|0.0436
92257551|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.3902|TWO_SIDED|95.0|-0.45|0.18||p-value is for Walking Ability|Mixed Models Analysis|||||0.18|-0.45|0.3902
92257552|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.991|TWO_SIDED|95.0|-0.33|0.33||p-value is for Normal Work|Mixed Models Analysis|||||0.33|-0.33|0.9910
92257553|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.7848|TWO_SIDED|95.0|-0.3|0.23||p-value is for Relationship People|Mixed Models Analysis|||||0.23|-0.30|0.7848
92257554|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9424|TWO_SIDED|95.0|-0.32|0.3||p-value is for Sleep|Mixed Models Analysis|||||0.30|-0.32|0.9424
92257555|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.7932|TWO_SIDED|95.0|-0.35|0.27||p-value is for Enjoyment of Life|Mixed Models Analysis|||||0.27|-0.35|0.7932
92257556|NCT01855919|184417701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.3761|TWO_SIDED|95.0|-0.4|0.15||p-value is for Average of 7 Items|Mixed Models Analysis|||||0.15|-0.40|0.3761
92257557|NCT01855919|184417702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0049|TWO_SIDED|95.0|-0.71|-0.13||p-value is for Average Pain|Mixed Models Analysis|||||-0.13|-0.71|0.0049
92257558|NCT01855919|184417702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0442|TWO_SIDED|95.0|-0.69|-0.01||p-value is for Worst pain|Mixed Models Analysis|||||-0.01|-0.69|0.0442
92257559|NCT01855919|184417703|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.31||||0.0003|TWO_SIDED|95.0|1.13|1.53||p-value is for ≥30%|Mantel Haenszel|||||1.53|1.13|0.0003
92257560|NCT01855919|184417703|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.43||||0.0003|TWO_SIDED|95.0|1.18|1.75||p-value is for ≥50%|Mantel Haenszel|||||1.75|1.18|0.0003
92257561|NCT01855919|184417704|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.33||||0.0012|TWO_SIDED|95.0|1.12|1.58|||Mantel Haenszel|||||1.58|1.12|0.0012
92257562|NCT01855919|184417705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.0019|TWO_SIDED|95.0|-0.46|-0.1|||Mixed Models Analysis|||||-0.10|-0.46|0.0019
92257563|NCT01855919|184417706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.3012|TWO_SIDED|95.0|-1.03|0.32|||ANCOVA|||||0.32|-1.03|0.3012
92257564|NCT01855919|184417707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27||||0.2581|TWO_SIDED|95.0|-0.93|3.47||p-value for Physical Functioning|ANCOVA|||||3.47|-0.93|0.2581
92284252|NCT02087904|184472237|SUPERIORITY||LS Mean Difference|-2.4||||0.107|TWO_SIDED|95.0|-5.33|0.52||P-value for test of difference between ABT-981 200 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.52|-5.33|0.107
92257565|NCT01855919|184417707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.7208|TWO_SIDED|95.0|-2.62|3.79||p-value for Role (Physical)|ANCOVA|||||3.79|-2.62|0.7208
92257566|NCT01855919|184417707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.55||||0.2487|TWO_SIDED|95.0|-1.09|4.19||p-value for Bodily Pain|ANCOVA|||||4.19|-1.09|0.2487
92257567|NCT01855919|184417707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.94||||0.0151|TWO_SIDED|95.0|0.57|5.31||p-value for General Health|ANCOVA|||||5.31|0.57|0.0151
92257568|NCT01855919|184417707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.16||||0.4|TWO_SIDED|95.0|-1.54|3.85||p-value for Vitality|ANCOVA|||||3.85|-1.54|0.4000
92284253|NCT02087904|184472238|SUPERIORITY||LS Mean Difference|0.5||||0.5|TWO_SIDED|95.0|-4.26|2.08||P-value for test of difference between ABT-981 25 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||2.08|-4.26|0.5
92257569|NCT01855919|184417707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63||||0.2529|TWO_SIDED|95.0|-1.17|4.43||p-value for Social Functioning|ANCOVA|||||4.43|-1.17|0.2529
92257570|NCT01855919|184417707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.8042|TWO_SIDED|95.0|-3.55|2.75||p-value for Role(Emotional)|ANCOVA|||||2.75|-3.55|0.8042
92257571|NCT01855919|184417707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.21||||0.0058|TWO_SIDED|95.0|0.94|5.48||p-value is for Mental Health|ANCOVA|||||5.48|0.94|0.0058
92257572|NCT01855919|184417708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.5237|TWO_SIDED|95.0|-0.02|0.03|||ANCOVA|||||0.03|-0.02|0.5237
92257573|NCT01855919|184417709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.046|TWO_SIDED|95.0|-0.05|0.0||p-value for Work time missed|ANCOVA|||||0.00|-0.05|0.0460
92257574|NCT01855919|184417709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.0753|TWO_SIDED|95.0|-0.08|0.0||p-value for Impairment at work|ANCOVA|||||0.00|-0.08|0.0753
92257575|NCT01855919|184417709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.0795|TWO_SIDED|95.0|-0.08|0.0||p-value for Work productivity loss|ANCOVA|||||0.00|-0.08|0.0795
92257576|NCT01855919|184417709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.1466|TWO_SIDED|95.0|-0.06|0.01||p-value for Work activity impairment|ANCOVA|||||0.01|-0.06|0.1466
92257577|NCT02043704|184417712|EQUIVALENCE|The null hypothesis is that there is no difference in the pain scores between the groups.||||||0.328||||||The p-value was not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|There were no adjustments.||The comparison was analyzed using the Mann-Whitney U test.||||0.328
92284254|NCT02087904|184472238|SUPERIORITY||LS Mean Difference|-2.2||||0.186|TWO_SIDED|95.0|-5.39|1.05||P-value for test of difference between ABT-981 100 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||1.05|-5.39|0.186
92257578|NCT03958149|184417727|SUPERIORITY||||||<|0.001|||||||Independent t-test|||||||<0.001
92257579|NCT03958149|184417728|SUPERIORITY||||||<|0.05|||||||Factorial Mixed ANOVA|||||||<0.05
92257580|NCT03793010|184417735|SUPERIORITY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|95.0|-1.2|1.81||||||||1.81|-1.20|
92257581|NCT03793010|184417736|SUPERIORITY||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-1.05|2.24||||||||2.24|-1.05|
92257582|NCT03793010|184417737|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.0|0.9||||||||0.9|-1.0|
92265365|NCT00694070|184432423|NON_INFERIORITY_OR_EQUIVALENCE|"The null and alternative hypotheses for these tests will have the form:~Ho: Pr{Success} \< Po vs. Ha: Pr{Success} ≥ Po. Critical values for numbers of successes were computed to give approximately a 90% chance of rejecting Ho in favor of the alternative (non-inferiority) if the true probability of success is at least Po. For Po = 95%, with n=51, critical number is 47. With this critical value and sample size, the power to reject Ho is approximately 88.96%."||||||0.0309|||||||Exact binomial test|||||||0.0309
92284255|NCT02087904|184472238|SUPERIORITY||LS Mean Difference|-2.3||||0.157|TWO_SIDED|95.0|-5.46|0.88||P-value for test of difference between ABT-981 200 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.88|-5.46|0.157
92284256|NCT02087904|184472239|SUPERIORITY||LS Mean Difference|0.2||||0.319|TWO_SIDED|95.0|-0.23|0.69||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.69|-0.23|0.319
92284257|NCT02087904|184472239|SUPERIORITY||LS Mean Difference|-0.1||||0.564|TWO_SIDED|95.0|-0.6|0.33||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.33|-0.6|0.564
92284258|NCT02087904|184472239|SUPERIORITY||LS Mean Difference|0.0||||0.966|TWO_SIDED|95.0|-0.45|0.47||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.47|-0.45|0.966
92265366|NCT00694070|184432424|NON_INFERIORITY_OR_EQUIVALENCE|"The null and alternative hypotheses for these tests will have the form:~Ho: Pr{Success} \< Po vs. Ha: Pr{Success} ≥ Po. Critical values for numbers of successes were computed to give approximately a 90% chance of rejecting Ho in favor of the alternative (non-inferiority) if the true probability of success is at least Po. For Po = 90%, with n=51, critical number is 43. With this critical value and sample size, the power to reject Ho is approximately 93.57%."||||||0.0309|||||||Exact binomial test|||||||0.0309
92284259|NCT02087904|184472240|SUPERIORITY||LS Mean Difference|0.1||||0.602|TWO_SIDED|95.0|-0.41|0.7||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.7|-0.41|0.602
92284260|NCT02087904|184472240|SUPERIORITY||LS Mean Difference|0.0||||0.953|TWO_SIDED|95.0|-0.55|0.58||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.58|-0.55|0.953
92265367|NCT04988035|184432428|SUPERIORITY||Odds Ratio (OR)|0.64||||0.09|TWO_SIDED|95.0|0.38|1.07|||Proportional odds model||Odds ratio greater than 1 favors Remdesivir plus Danicopan.|Includes all ordinal score categories. Odds ratio of a better clinical status score, confidence interval and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using multiple imputation (MI) for participants lost to follow-up before Day 8 while hospitalized, in hospice, long term acute care, or transferred to other hospital while those participants lost to follow-up after discharge to home are assigned a score of 2.||1.07|0.38|0.090
92284261|NCT02087904|184472240|SUPERIORITY||LS Mean Difference|-0.1||||0.83|TWO_SIDED|95.0|-0.61|0.49||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.49|-0.61|0.83
92284262|NCT02087904|184472241|SUPERIORITY||LS Mean Difference|0.7||||0.804|TWO_SIDED|95.0|-4.91|6.33||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||6.33|-4.91|0.804
92265368|NCT04988035|184432429|SUPERIORITY||Odds Ratio (OR)|0.69||||0.358|TWO_SIDED|95.0|0.31|1.53|||Regression, Logistic|||Odds ratio, confidence interval, and p-value estimated from a logistic regression model adjusted for baseline dexamethasone use, baseline ordinal score, age, and baseline C-Reactive Protein (CRP).|Odds ratio greater than 1 favors Remdesivir plus Danicopan|1.53|0.31|0.358
92265369|NCT04988035|184432430|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.014|TWO_SIDED|95.0|0.46|0.92|||Regression, Cox||HR greater than 1 favors Remdesivir plus Danicopan.|Hazard ratio, confidence interval, and p-value estimated from a Cox model adjusted for baseline steroid use and baseline ordinal score.||0.92|0.46|0.014
92284263|NCT02087904|184472241|SUPERIORITY||LS Mean Difference|-1.1||||0.699|TWO_SIDED|95.0|-6.9|4.63||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||4.63|-6.9|0.699
92257583|NCT04806165|184417753|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|-0.26|STANDARD_ERROR_OF_MEAN|0.26||0.309|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis explores the effect of the motivational interviewing (MI) component on rates of treatment receipt over the entire study period. Results will help determine the proportional increase in odds of treatment seeking corresponding to receiving each chatbot component. Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.309
92257584|NCT04806165|184417753|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|0.34|STANDARD_ERROR_OF_MEAN|0.26||0.19|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis explores the effect of the personalized recommendation (PR) component on rates of treatment receipt over the entire study period. Results will help determine the proportional increase in odds of treatment seeking corresponding to receiving each chatbot component. Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.190
92257585|NCT04806165|184417753|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.69|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis explores the effect of the psychoeducation (PE) component on rates of treatment receipt over the entire study period. Results will help determine the proportional increase in odds of treatment seeking corresponding to receiving each chatbot component. Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.690
92257586|NCT04806165|184417753|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|0.54|STANDARD_ERROR_OF_MEAN|0.26||0.038|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis explores the effect of the repeated administration (RA) component on rates of treatment receipt over the entire study period. Results will help determine the proportional increase in odds of treatment seeking corresponding to receiving each chatbot component. Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||0.038
92284264|NCT02087904|184472241|SUPERIORITY||LS Mean Difference|1.4||||0.636|TWO_SIDED|95.0|-4.37|7.14||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||7.14|-4.37|0.636
92284265|NCT02087904|184472241|SUPERIORITY||LS Mean Difference|0.9||||0.756|TWO_SIDED|95.0|-4.91|6.76||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||6.76|-4.91|0.756
92284266|NCT02087904|184472241|SUPERIORITY||LS Mean Difference|-5.6||||0.068|TWO_SIDED|95.0|-11.55|0.42||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||0.42|-11.55|0.068
92284267|NCT02087904|184472241|SUPERIORITY||LS Mean Difference|-1.4||||0.649|TWO_SIDED|95.0|-7.34|4.58||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||4.58|-7.34|0.649
92284268|NCT02087904|184472242|SUPERIORITY||LS Mean Difference|-1.0||||0.75|TWO_SIDED|95.0|-7.14|5.14||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||5.14|-7.14|0.75
92257587|NCT04806165|184417753|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.735|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis provides results on the 2 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on treatment receipt, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on). Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.735
92257588|NCT04806165|184417753|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|-0.91|STANDARD_ERROR_OF_MEAN|0.27||0.001|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis provides results on the 6 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on treatment receipt, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on). Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.001
92257589|NCT04806165|184417753|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|-0.73|STANDARD_ERROR_OF_MEAN|0.3||0.014|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis provides results on the 14 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on treatment receipt, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on). Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.014
92257590|NCT04806165|184417754|SUPERIORITY|Gender, age, and race were included as auxiliary variables to improve imputation quality. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. For sensitivity analysis, models were run again using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.53||||0.25|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|||Analyses were conducted to determine the effects of each of the four chatbot components on secondary outcomes. This analysis in particular explores the effects of the motivational interviewing component (MI) on participant willingness to seek psychotherapy for concerns their disordered weight and shape behaviors and thoughts since engagement with the intervention. Linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||||0.25
92257591|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.36||||0.44|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the effects of each of the four chatbot components on willingness to seek psychotherapy. This analysis in particular explores the effects of the psychoeducation component (PE) on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||0.44
92265370|NCT04988035|184432431|SUPERIORITY||Odds Ratio (OR)|0.7||||0.177|TWO_SIDED|95.0|0.42|1.17|||Proportional odds model||Odds ratio above 1 favors Remdesivir plus Danicopan.|Includes all ordinal score categories. OR of a better clinical status score, confidence interval, and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using last observation carried forward for participants lost to follow-up before Day 15 while hospitalized, in hospice, long term acute care, or transferred to other hospital. Participants lost to follow-up before Day 15 after discharge are given a score of 2.||1.17|0.42|0.177
92257592|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.25||||0.44|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the effects of each of the four chatbot components on willingness to seek psychotherapy. This analysis in particular explores the effects of the personalized recommendation component (PR) on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||0.44
92257593|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.29||||0.53|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the effects of each of the four chatbot components on willingness to seek psychotherapy. This analysis in particular explores the effects of the repeated administration component (RA) on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||0.53
92257594|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.53||||0.07|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis provides results on the 2 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on willingness to seek psychotherapy, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on).||||0.07
92179007|NCT04780581|184254411|EQUIVALENCE|log-rank statistic test.|Odds Ratio (OR)|1.0||||0.984|TWO_SIDED|95.0|0.2|5.1|||Log Rank|||Null hypothesis of equal survival curves. Estimates of rate and risk ratios are shown with 95% confidence intervals. All the p-values are 2-sided and shown without adjustment for multiple testing, and p \< 0.05 was considered statistically significant. The analyses were performed using IBM SPSS Statistics for Windows, Version 26.0 (Armonk, NY, USA: IBM Corp.).||5.1|0.2|0.984
92257595|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-1.06||||0.01|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis provides results on the 6 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on willingness to seek psychotherapy, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on).||||0.01
92257596|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.85||||0.042|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis provides results on the 14 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on willingness to seek psychotherapy, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on).||||0.042
92179008|NCT04780581|184254411|EQUIVALENCE|Log-rank method|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-8.8|9.1||||||||9.1|-8.8|
92179009|NCT04780581|184254412|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|1.1||||0.833|TWO_SIDED|95.0|0.4|3.0|||Chi-squared|||||3.0|0.4|0.833
92179010|NCT04780581|184254412|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|-1.4|||||TWO_SIDED|95.0|-14.2|11.5||||||||11.5|-14.2|
92179011|NCT04780581|184254413|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|1.5||||0.661|TWO_SIDED|95.0|0.2|9.3|||Chi-squared|||non-invasive mechanical ventilation||9.3|0.2|0.661
92179012|NCT04780581|184254413|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|1.5|||||TWO_SIDED|95.0|-10.2|6.9||||||non-invasive mechanical ventilation||6.9|-10.2|
92179013|NCT04780581|184254413|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|0.7||||0.549|TWO_SIDED|95.0|0.2|2.2|||Chi-squared|||high-flow oxygen requirements||2.2|0.2|0.549
92257597|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.08||||0.89|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 2-week time since engagement with the intervention and the motivational interviewing (MI) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.89
92179014|NCT04780581|184254413|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|3.4|||||TWO_SIDED|95.0|-8.2|15.1||||||high-flow oxygen requirements||15.1|-8.2|
92179015|NCT04780581|184254413|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|1.1||||0.809|TWO_SIDED|95.0|0.4|3.3|||Chi-squared|||Invasive mechanical ventilation or intubation requirements analysis||3.3|0.4|0.809
92179016|NCT04780581|184254413|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-13.0|11.1||||||Invasive mechanical ventilation or intubation requirements analysis||11.1|-13.0|
92179017|NCT04780581|184254414|EQUIVALENCE|T-test|Risk Difference (RD)|-0.3||||0.908|TWO_SIDED|95.0|-5.0|5.0|||t-test, 1 sided|||||5|-5|0.908
92179018|NCT04780581|184254415|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|0.8||||0.758|TWO_SIDED|95.0|0.3|2.5|||Chi-squared|||Secondary infections||2.5|0.3|0.758
92179019|NCT04780581|184254415|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|1.8|||||TWO_SIDED|95.0|-10.1|13.7||||||Secondary infections||13.7|-10.1|
92179020|NCT04780581|184254415|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|4.2||||0.007|TWO_SIDED|95.0|1.4|12.3|||Chi-squared|||Hyperglycaemia||12.3|1.4|0.007
92179021|NCT04780581|184254415|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|-18.9|||||TWO_SIDED|95.0|-31.8|-5.6||||||Hyperglycaemia||-5.6|-31.8|
92179022|NCT04780581|184254415|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|-1.6||||0.319|TWO_SIDED|95.0|-8.5|4.4|||Chi-squared|||Psychotic states||4.4|-8.5|0.319
92284269|NCT02087904|184472242|SUPERIORITY||LS Mean Difference|-2.6||||0.409|TWO_SIDED|95.0|-8.82|3.6||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||3.6|-8.82|0.409
92179023|NCT04780581|184254416|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|1.0||||0.962|TWO_SIDED|95.0|0.4|2.3|||Chi-squared|||||2.3|0.4|0.962
92179024|NCT04780581|184254416|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-14.2|14.9||||||||14.9|-14.2|
92179025|NCT03734029|184254424|SUPERIORITY||Cox Proportional Hazard|0.5085|||<|0.0001|TWO_SIDED|95.0|0.4012|0.6444||Two-sided p-value from stratified log-rank test, Hazard ratio and 95% CI from stratified Cox proportional hazards model using stratification factors: HER2 status, number of prior lines of chemotherapy, hormone Receptor/CDK status, as defined by IXRS.|Log Rank|||||0.6444|0.4012|<0.0001
92179026|NCT02720068|184254463|OTHER|Difference in Percentage|Mean Difference (Final Values)|7.5|||||TWO_SIDED|95.0|-7.3|22.9|||||Confidence interval based on Miettinen \& Nurminen method|||22.9|-7.3|
92179027|NCT04664881|184254506|SUPERIORITY|||||||0.71|||||||Chi-squared, Corrected|||||||0.71
92179028|NCT04664881|184254507|SUPERIORITY|||||||0.99|||||||Chi-squared, Corrected|||Cardiovascular Death||||0.99
92179029|NCT04664881|184254507|SUPERIORITY|||||||0.36|||||||Chi-squared, Corrected|||Hospitalization for Myocardial Infarction||||0.36
92179030|NCT04664881|184254507|SUPERIORITY|||||||0.13|||||||Chi-squared, Corrected|||Arrhythmias||||0.13
92179031|NCT04664881|184254507|SUPERIORITY|||||||0.99|||||||Chi-squared, Corrected|||Cardiac Arrest||||0.99
92179032|NCT04868656|184254511|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.15|TWO_SIDED|95.0|-5.0|0.8|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); adjusted length of stay (greater than or equal to 4.7 days versus less than 4.7 days); prior implementation of STRIDE (yes vs. no).||0.8|-5.0|0.15
92179033|NCT04868656|184254512|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.34|TWO_SIDED|95.0|-6.0|16.6|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); adjusted length of stay (greater than or equal to 4.7 days versus less than 4.7 days); prior implementation of STRIDE (yes vs. no).||16.6|-6.0|0.34
92179034|NCT04868656|184254513|SUPERIORITY||Odds Ratio (OR)|0.6||||0.23|TWO_SIDED|95.0|0.1|2.5|||Regression, Logistic|||Model includes the arm indicator variable only; model does not include stratification variables due to potential for overfitting.||2.5|0.1|0.23
92179035|NCT06603766|184254555|SUPERIORITY|||||||0.83|||||||Chi-squared|||||||0.83
92179036|NCT06603766|184254556|SUPERIORITY|||||||0.46|||||||Chi-squared|||||||0.46
92179037|NCT06603766|184254557|SUPERIORITY|||||||0.008|||||||Chi-squared|||||||0.008
92179038|NCT06603766|184254558|SUPERIORITY|||||||0.032|||||||Chi-squared|||||||0.032
92179039|NCT06603766|184254559|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92179040|NCT06603766|184254560|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92179041|NCT04496752|184254561|EQUIVALENCE|Weighted Cohen's kappa statistics were computed between DCTClock-pen and MMSE, and between DCTClock-tablet and MMSE. A TOST (two one-sided test) of equivalence was planned, with a difference in kappa of 0.2 specified a priori as significant.|Difference in Cohen's Kappa|0.07|||||TWO_SIDED|90.0|-0.05|0.19|||||The difference is Cohen's kappa is (tablet - pen). The confidence interval is estimated with a nonparametric bootstrap (5000 samples).|||0.19|-0.05|
92257598|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.34||||0.69|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 6-week time since engagement with the intervention and the motivational interviewing (MI) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.69
92257599|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.69||||0.4|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 14-week time since engagement with the intervention and the motivational interviewing (MI) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.40
92257600|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.35||||0.55|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 2-week time since engagement with the intervention and the psychoeducation (PE) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.55
92257601|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.88||||0.32|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 6-week time since engagement with the intervention and the psychoeducation (PE) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.32
92284270|NCT02087904|184472242|SUPERIORITY||LS Mean Difference|-3.0||||0.338|TWO_SIDED|95.0|-9.24|3.18||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||3.18|-9.24|0.338
92284271|NCT02087904|184472242|SUPERIORITY||LS Mean Difference|0.7||||0.817|TWO_SIDED|95.0|-5.59|7.08||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||7.08|-5.59|0.817
92284272|NCT02087904|184472242|SUPERIORITY||LS Mean Difference|-2.0||||0.544|TWO_SIDED|95.0|-8.37|4.43||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||4.43|-8.37|0.544
92257602|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.37||||0.63|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 14-week time since engagement with the intervention and the psychoeducation (PE) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.63
92257603|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.08||||0.9|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 2-week time since engagement with the intervention and the personalized recommendation (PR) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.90
92284273|NCT02087904|184472242|SUPERIORITY||LS Mean Difference|-2.5||||0.437|TWO_SIDED|95.0|-8.91|3.86||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||3.86|-8.91|0.437
92284274|NCT02087904|184472243|SUPERIORITY||LS Mean Difference|-2.2||||0.545|TWO_SIDED|95.0|-9.31|4.92||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||4.92|-9.31|0.545
92284275|NCT02087904|184472243|SUPERIORITY||LS Mean Difference|-0.4||||0.909|TWO_SIDED|95.0|-7.65|6.81||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||6.81|-7.65|0.909
92284276|NCT02087904|184472243|SUPERIORITY||LS Mean Difference|-4.0||||0.278|TWO_SIDED|95.0|-11.23|3.25||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||3.25|-11.23|0.278
92284277|NCT02087904|184472243|SUPERIORITY||LS Mean Difference|-1.2||||0.732|TWO_SIDED|95.0|-8.42|5.92||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||5.92|-8.42|0.732
92284278|NCT02087904|184472243|SUPERIORITY||LS Mean Difference|-4.6||||0.216|TWO_SIDED|95.0|-11.86|2.69||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||2.69|-11.86|0.216
92284279|NCT02087904|184472243|SUPERIORITY||LS Mean Difference|-9.2||||0.014|TWO_SIDED|95.0|-16.42|-1.88||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||-1.88|-16.42|0.014
92284280|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|0.0||||0.874|TWO_SIDED|95.0|-0.56|0.66||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.66|-0.56|0.874
92284281|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|-0.2||||0.451|TWO_SIDED|95.0|-0.86|0.38||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.38|-0.86|0.451
92284282|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|0.3||||0.331|TWO_SIDED|95.0|-0.31|0.93||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.93|-0.31|0.331
92284283|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|0.0||||0.932|TWO_SIDED|95.0|-0.73|0.67||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.67|-0.73|0.932
92284284|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|-0.3||||0.344|TWO_SIDED|95.0|-1.07|0.37||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.37|-1.07|0.344
92284285|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|0.3||||0.489|TWO_SIDED|95.0|-0.47|0.97||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.97|-0.47|0.489
92179042|NCT05785130|184254570|SUPERIORITY|T0|Mean Difference (Final Values)|-25.07||||0.74|TWO_SIDED|||||T0|t-test, 2 sided|||It was calculated that 58 participants were randomized in a 1:1 between two arms on baseline, the first intervention day(T1), the third intervention day(T2), and follow up two days later after intervention (T3) . Sample size was determoned using G-power repeated measures, between factors(α = 0.05, power = 0.8). Assumption a discontinution rate of 10%.||||0.74
92257604|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.95||||0.27|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 6-week time since engagement with the intervention and the personalized recommendation (PR) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.27
92179043|NCT05785130|184254570|SUPERIORITY||Median Difference (Final Values)|133.57||||0.75|TWO_SIDED|||||T1|t-test, 2 sided|||It was calculated that 58 participants were randomized in a 1:1 between two arms on baseline, the first intervention day(T1), the third intervention day(T2), and follow up two days later after intervention (T3) . Sample size was determoned using G-power repeated measures, between factors(α = 0.05, power = 0.8). Assumption a discontinution rate of 10%.||||0.75
92179044|NCT05785130|184254570|SUPERIORITY|T|Median Difference (Final Values)|235.93|||<|0.01|TWO_SIDED|||||T2|t-test, 2 sided|||It was calculated that 58 participants were randomized in a 1:1 between two arms on baseline, the first intervention day(T1), the third intervention day(T2), and follow up two days later after intervention (T3) . Sample size was determoned using G-power repeated measures, between factors(α = 0.05, power = 0.8). Assumption a discontinution rate of 10%.||||<0.01
92179045|NCT05785130|184254570|SUPERIORITY|T3|Median Difference (Final Values)|214.18|||<|0.01|TWO_SIDED|||||T3|t-test, 2 sided|||It was calculated that 58 participants were randomized in a 1:1 between two arms on baseline, the first intervention day(T1), the third intervention day(T2), and follow up two days later after intervention (T3) . Sample size was determoned using G-power repeated measures, between factors(α = 0.05, power = 0.8). Assumption a discontinution rate of 10%.||||<0.01
92179046|NCT03351998|184254571|SUPERIORITY||Mean Difference (Net)|36.02|STANDARD_DEVIATION|365.55||0.6051|TWO_SIDED||||||signed rank test|This is within group 12 month change.||||||0.6051
92179047|NCT03351998|184254571|SUPERIORITY||Mean Difference (Net)|31.89|STANDARD_DEVIATION|213.0||0.9434|TWO_SIDED||||||signed rank test|This is within group 12 month change.||||||0.9434
92179048|NCT03351998|184254571|SUPERIORITY||Mean Difference (Net)|-3.39|STANDARD_DEVIATION|179.54||0.9408|TWO_SIDED||||||t-test, 2 sided|This is within group 12 month change.||||||0.9408
92179049|NCT03351998|184254572|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|0.23||0.7458|TWO_SIDED||||||t-test, 2 sided|This is within group 12 month change.||||||0.7458
92179050|NCT03351998|184254572|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_DEVIATION|0.16||0.4056|TWO_SIDED||||||t-test, 2 sided|This is within group 12 month change.||||||0.4056
92179051|NCT03351998|184254572|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_DEVIATION|0.18||0.1932|TWO_SIDED||||||t-test, 2 sided|This is within group 12 month change.||||||0.1932
92284286|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|0.2||||0.498|TWO_SIDED|95.0|-0.42|0.85||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.85|-0.42|0.498
92179052|NCT02624050|184254576|SUPERIORITY||Risk Ratio (RR)|1.0||||0.01|TWO_SIDED|||||Threshold for significance was p\<0.05.|log-binomial regression|||||||0.01
92179053|NCT02624050|184254577|SUPERIORITY||Risk Ratio (RR)|1.0||||0.37|TWO_SIDED|||||Threshold of significance was \<0.05|log binomial regression|||||||0.37
92179054|NCT02624050|184254582|SUPERIORITY|||||||0.277||||||"Because the data were skewed, the natural logarithmic transformation was used prior to analysis for inference.~Threshold for statistical significance was \<0.05"|Ratio of Geometric Means|This p-value is for 15 min after induction of anesthesia||||||0.277
92179055|NCT03547271|184254587|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) was \>1/1.5 for all 4 serogroups.|GMT ratio|0.69|||||TWO_SIDED|95.0|0.565|0.842|||||95% CI of the GMT ratio was calculated using a normal approximation of log-transformed titers.|Statistical analysis for Serogroup A||0.842|0.565|
92179056|NCT03547271|184254587|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>1/1.5 for all 4 serogroups.|GMT ratio|4.73|||||TWO_SIDED|95.0|4.0|5.58|||||95% CI of the GMT ratio was calculated using a normal approximation of log-transformed titers.|Statistical analysis for Serogroup C||5.58|4.00|
92179057|NCT03547271|184254587|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>1/1.5 for all 4 serogroups.|Slope|1.54|||||TWO_SIDED|95.0|1.33|1.78|||||95% CI of the GMT ratio was calculated using a normal approximation of log-transformed titers.|Statistical analysis for Serogroup W||1.78|1.33|
92179058|NCT03547271|184254587|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>1/1.5 for all 4 serogroups.|GMT ratio|1.78|||||TWO_SIDED|95.0|1.55|2.04|||||95% CI of the GMT ratio was calculated using a normal approximation of log-transformed titers.|Statistical analysis for Serogroup Y||2.04|1.55|
92179059|NCT03547271|184254588|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups.|Difference in percentage of participants|-12.2|||||TWO_SIDED|95.0|-17.74|-6.56|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|Statistical analysis for Serogroup A||-6.56|-17.74|
92179060|NCT03547271|184254588|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups.|Difference in percentage of participants|6.89|||||TWO_SIDED|95.0|4.44|9.62|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|Statistical analysis for Serogroup C||9.62|4.44|
92179061|NCT03547271|184254588|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups.|Difference in percentage of participants|2.07|||||TWO_SIDED|95.0|-0.49|4.7|||||95% CI of the difference was calculated from the Wilson score method without continuity correction|Statistical analysis for Serogroup W||4.70|-0.49|
92179062|NCT03547271|184254588|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups.|Difference in percentage of participants|3.01|||||TWO_SIDED|95.0|0.34|5.77|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|Statistical analysis for Serogroup Y||5.77|0.34|
92179063|NCT04835363|184254605|SUPERIORITY|||||||0.029|||||||ANOVA|||||||0.029
92179064|NCT04835363|184254606|SUPERIORITY|||||||0.148|||||||ANOVA|||||||0.148
92179065|NCT04835363|184254607|SUPERIORITY|||||||0.012|||||||ANOVA|||||||0.012
92179066|NCT04835363|184254608|SUPERIORITY|||||||0.078|||||||ANOVA|||||||0.078
92179067|NCT04835363|184254609|SUPERIORITY|||||||0.011|||||||ANOVA|||||||0.011
92179068|NCT04835363|184254610|SUPERIORITY|||||||0.797|||||||ANOVA|||||||0.797
92179069|NCT04835363|184254611|SUPERIORITY|||||||0.358|||||||ANOVA|||||||0.358
92257605|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.67||||0.42|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 14-week time since engagement with the intervention and the personalized recommendation (PR) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.42
92257606|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|1.23||||0.04|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 2-week time since engagement with the intervention and the repeated administration (RA) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.04
92257607|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|1.22||||0.16|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Multilevel Models|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 6-week time since engagement with the intervention and the repeated administration (RA) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.16
92257608|NCT04806165|184417754|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.01||||0.99|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 14-week time since engagement with the intervention and the repeated administration (RA) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.99
92284287|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|0.2||||0.637|TWO_SIDED|95.0|-0.8|0.49||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.49|-0.8|0.637
92284288|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|0.3||||0.367|TWO_SIDED|95.0|-0.35|0.94||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.94|-0.35|0.367
92284289|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|0.1||||0.67|TWO_SIDED|95.0|-0.51|0.79||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.79|-0.51|0.67
92284290|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|-0.1||||0.776|TWO_SIDED|95.0|-0.76|0.57||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.57|-0.76|0.776
92284291|NCT02087904|184472244|SUPERIORITY||LS Mean Difference|0.3||||0.387|TWO_SIDED|95.0|-0.37|0.96||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.96|-0.37|0.387
92179070|NCT04835363|184254612|SUPERIORITY|||||||0.055|||||||ANOVA|||||||0.055
92179071|NCT04835363|184254613|SUPERIORITY|||||||0.496|||||||ANOVA|||||||0.496
92265371|NCT04988035|184432432|SUPERIORITY||Odds Ratio (OR)|0.81||||0.427|TWO_SIDED|95.0|0.48|1.36|||Proportional odds model|||Includes all ordinal score categories. OR of a better clinical status score, confidence interval, and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using last observation carried forward for participants lost to follow-up before Day 29 while hospitalized, in hospice, long term acute care, or transferred to other hospital. Participants lost to follow-up before Day 29 after discharge are given a score of 2.|Odds ratio above 1 favors Remdesivir plus Danicopan.|1.36|0.48|0.427
92179072|NCT04835363|184254614|SUPERIORITY|||||||0.241|||||||ANOVA|||||||0.241
92179073|NCT04835363|184254615|SUPERIORITY|||||||0.004|||||||ANOVA|||||||0.004
92179074|NCT04835363|184254616|SUPERIORITY|||||||0.019|||||||ANOVA|||||||0.019
92179075|NCT04835363|184254617|SUPERIORITY|||||||0.141|||||||ANOVA|||ENGAGEMENT STRATEGIES||||0.141
92179076|NCT04835363|184254617|SUPERIORITY|||||||0.496|||||||ANOVA|||DISENGAGEMENT STRATEGIES||||0.496
92179077|NCT01992913|184254641|SUPERIORITY||||||<|0.05||||||"Fisher's exact Test, right-sided probability based on a directional hypothesis."|Fisher Exact|||We conducted a 2 X 2 chi-square analysis of differences in proportion.||||<.05
92179078|NCT01992913|184254641|SUPERIORITY||Odds Ratio (OR)|2.65|||<|0.06|TWO_SIDED|95.0|0.97|7.13|||Chi-squared|ChiSq = 3.6562, df = 1|OR, iCBT / TAU in job attainment|Chis Sq: group (iCBT/TAU) X Job attained (Yes/No)||7.13|0.97|<.06
92179079|NCT01992913|184254642|SUPERIORITY|A mixed effects logistic regression model was conducted on a binary work variable, with a random intercept, using the baseline measure as a binary covariate.|Odds Ratio, log|-0.9|STANDARD_ERROR_OF_MEAN|0.91|<|0.33|TWO_SIDED|95.0|-2.67|0.89|||Mixed Models Analysis|df (1, 30) for the group X assessment interaction, adjusting for baseline differences in hours worked at the start of the intervention.||Compare the groups on proportions in employment at the 6 month assessment points.||.89|-2.67|<0.33
92179080|NCT01992913|184254642|SUPERIORITY|A mixed effects logistic regression model was conducted on a binary work variable, with a random intercept, using the baseline measure as a binary covariate.|Odds Ratio, log|0.52|STANDARD_ERROR_OF_MEAN|0.85|<|0.54|TWO_SIDED|95.0|-1.14|2.19|||Mixed Models Analysis|F (1, 130) = 1.0, p\<0.37, for the group X assessment interaction, adjusting for baseline differences in hours worked at the start of the intervention.||Compare the groups on proportions in employment at the 12 month assessment points.||2.19|-1.14|<.54
92179081|NCT01992913|184254642|SUPERIORITY|A mixed effects logistic regression model was conducted on a binary work variable, with a random intercept, using the baseline measure as a binary covariate.|Odds Ratio, log|0.31|STANDARD_ERROR_OF_MEAN|0.83|<|0.71|TWO_SIDED|95.0|-1.32|1.73|||Mixed Models Analysis|F (1, 130) = 1.0, p\<0.37, for the group X assessment interaction, adjusting for baseline differences in hours worked at the start of the intervention.||Compare the groups on proportions in employment at the 18 month assessment point.||1.73|-1.32|<0.71
92179082|NCT01992913|184254644|SUPERIORITY|This is mixed model analysis of the group X assessment interaction. This analysis is the test of mean differences in level of functioning at the baseline assessment.|Mean Difference (Final Values)|-5.03|STANDARD_ERROR_OF_MEAN|3.82|<|0.19|TWO_SIDED||||||Fisher Exact|df (1, 114)||||||<0.19
92179083|NCT01992913|184254644|SUPERIORITY|This is mixed model analysis of the group X assessment interaction. This analysis is the test of mean differences in level of functioning at the 6 month assessment.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|4.42|<|0.99|TWO_SIDED||||||Fisher Exact|df (1, 114)||||||<0.99
92179084|NCT01992913|184254644|SUPERIORITY|This is mixed model analysis of the group X assessment interaction. This analysis is the test of mean differences in level of functioning at the 12 month assessment.|Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|4.54|<|0.94|TWO_SIDED||||||Fisher Exact|df (1, 114)||||||<0.94
92179085|NCT01992913|184254644|SUPERIORITY|This is mixed model analysis of the group X assessment interaction. This analysis is the test of mean differences in level of functioning at the baseline assessment.|Mean Difference (Final Values)|-6.67|STANDARD_ERROR_OF_MEAN|4.52|<|0.14|TWO_SIDED||||||Fisher Exact|df (1, 114)||||||<0.14
92179086|NCT05485935|184254773|SUPERIORITY||Mean Difference (Final Values)|45.94||||0.001|TWO_SIDED|95.0|19.24|72.64||The pass criteria were based on results analysing the 2 primary endpoints in a hierarchical fashion: rejecting the H0 on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||72.64|19.24|0.001
92284292|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|-0.2||||0.661|TWO_SIDED|95.0|-0.86|0.54||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.54|-0.86|0.661
92284293|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|-0.6||||0.122|TWO_SIDED|95.0|-1.26|0.15||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.15|-1.26|0.122
92179087|NCT05485935|184254774|SUPERIORITY|The pass criteria were based on the results analysing the two primary endpoints in a hierarchical fashion: rejecting the null hypothesis on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Risk Ratio (RR)|0.15|||<|0.001|TWO_SIDED|95.0|0.07|0.35|||Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||0.35|0.07|<0.001
92179088|NCT05485935|184254775|SUPERIORITY|The pass criteria were based on the results analysing the two primary endpoints in a hierarchical fashion: rejecting the null hypothesis on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Risk Ratio (RR)|0.13|||<|0.001|TWO_SIDED|95.0|0.04|0.4|||Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||0.40|0.04|<0.001
92179089|NCT05485935|184254776|SUPERIORITY|The pass criteria were based on the results analysing the two primary endpoints in a hierarchical fashion: rejecting the null hypothesis on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Mean Difference (Final Values)|28.5||||0.004|TWO_SIDED|95.0|9.5|47.6|||Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||47.6|9.5|0.004
92179090|NCT04093869|184254779|SUPERIORITY||Mean Difference (Net)|4.1|STANDARD_ERROR_OF_MEAN|5.1||0.4|TWO_SIDED|95.0|-6.0|14.0||Not adjusted for multiple comparisons. Full alpha of 0.05 was allocated to this as the sole primary outcome.|Regression, Linear||A negative mean difference would represent a better outcome in the CSTEX arm compared to the SOC-ED arm.|||14|-6|0.40
92179091|NCT04093869|184254780|SUPERIORITY||Mean Difference (Net)|20.7|STANDARD_ERROR_OF_MEAN|32.6|||TWO_SIDED|95.0|-44.0|85.0|||||A positive value for the estimate represents a greater distance walked for the CSTEX arm compared to the SOC-ED arm.|||85|-44|
92179092|NCT04093869|184254781|SUPERIORITY||Median Difference (Net)|-316.0|STANDARD_ERROR_OF_MEAN|336.0|||TWO_SIDED|95.0|-979.0|346.0|||||A positive value for the estimate would represent more steps per day for the CSTEX arm compared to the SOC-ED arm.|||346|-979|
92265372|NCT04988035|184432467|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.109|TWO_SIDED|95.0|0.56|1.06|||Regression, Cox||HR greater than 1 favors Remdesivir plus Danicopan.|||1.06|0.56|0.109
92284294|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|-0.2||||0.507|TWO_SIDED|95.0|-0.94|0.47||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.47|-0.94|0.507
92284295|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|-0.1||||0.892|TWO_SIDED|95.0|-0.85|0.74||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.74|-0.85|0.892
92284296|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|-0.3||||0.433|TWO_SIDED|95.0|-1.12|0.48||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.48|-1.12|0.433
92179093|NCT04093869|184254782|SUPERIORITY||Mean Difference (Net)|14.7|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|95.0|-5.0|34.0||||||||34|-5|
92179094|NCT04093869|184254783|SUPERIORITY||Mean Difference (Net)|0.0034|STANDARD_ERROR_OF_MEAN|0.055|||TWO_SIDED|95.0|-0.1|0.11|||||A negative value for the estimate would represent a better QOL survey score for the CSTEX arm compared to the SOC-ED arm.|||0.11|-0.1|
92179095|NCT04093869|184254784|SUPERIORITY||Mean Difference (Net)|0.041|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.22|0.3|||||A negative value for the estimate would represent a better Frailty index score for the CSTEX arm compared to the SOC-ED arm.|||0.30|-0.22|
92179096|NCT04093869|184254785|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.2|0.17||||||||0.17|-0.20|
92179097|NCT04093869|184254786|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|95.0|-0.13|0.1||||||||0.10|-0.13|
92179098|NCT04093869|184254787|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.12|0.07||||||||0.07|-0.12|
92179099|NCT04093869|184254788|SUPERIORITY||Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-0.83|1.6|||||A positive value for the estimate represents better self-efficacy for the CSTEX arm compared to the SOC-ED arm.|||1.60|-0.83|
92265373|NCT04988035|184432468|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.036|TWO_SIDED|95.0|0.51|0.98|||Regression, Cox||||HR greater than 1 favors Remdesivir plus Danicopan.|0.98|0.51|0.036
92265374|NCT04246593|184432529|OTHER|We used generalized linear mixed model (GLMM) with random intercept to control for clustering within sites. In order to further explore the intervention effect, we fit GLMMs that adjust for (1) baseline dietary intake and (2) race and baseline income.|Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.52||0.84|TWO_SIDED|||||P-value calculated for the mean difference between the user and non-user groups.|GLMM|||||||0.84
92265375|NCT04246593|184432530|OTHER|We used generalized linear mixed model (GLMM) with random intercept to control for clustering within sites.|Median Difference (Net)|-0.59|STANDARD_ERROR_OF_MEAN|1.15||0.61|TWO_SIDED|||||P-value calculated for the mean difference between change in BMI for intervention and control groups.|GLMM|||||||0.61
92284297|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|0.0||||0.92|TWO_SIDED|95.0|-0.84|0.76||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.76|-0.84|0.92
92284298|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|0.0||||0.957|TWO_SIDED|95.0|-0.68|0.71||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.71|-0.68|0.957
92284299|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|-0.4||||0.222|TWO_SIDED|95.0|-1.13|0.26||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.26|-1.13|0.222
92284300|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|-0.4||||0.209|TWO_SIDED|95.0|-1.15|0.25||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.25|-1.15|0.209
92179100|NCT03990883|184254794|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|0.37|||<|0.0001|TWO_SIDED|95.0|-2.96|3.7|||McNemar|||||3.7|-2.96|<0.0001
92179101|NCT03990883|184254795|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|0.0|||<|0.0001|TWO_SIDED|95.0|-3.71|3.71||The threshold for statistical significance is 0.025. A hierarchical approach is used and results are confirmative if all tests previously performed within the hierarchy achieve significance at a one-sided significance level of 0.025.|McNemar|||||3.71|-3.71|<0.0001
92179102|NCT03990883|184254796|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|-2.96||||0.025|TWO_SIDED|95.0|-9.99|4.07||The threshold for statistical significance is 0.025. A hierarchical approach is used and results are confirmative if all tests previously performed within the hierarchy achieve significance at a one-sided significance level of 0.025.|McNemar|||||4.07|-9.99|0.025
92179103|NCT03990883|184254797|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|-0.45||||0.009|TWO_SIDED|95.0|-8.42|7.52||The threshold for statistical significance is 0.025. A hierarchical approach is used and results are confirmative if all tests previously performed within the hierarchy achieve significance at a one-sided significance level of 0.025.|McNemar|||||7.52|-8.42|0.009
92179104|NCT03990883|184254798|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|-0.37|||<|0.0001|TWO_SIDED|95.0|-3.85|3.11||The threshold for statistical significance is 0.025. A hierarchical approach is used and results are confirmative if all tests previously performed within the hierarchy achieve significance at a one-sided significance level of 0.025.|McNemar|||||3.11|-3.85|<0.0001
92179105|NCT03990883|184254799|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|-0.45|||<|0.0001|TWO_SIDED|95.0|-4.05|3.16||The threshold for statistical significance is 0.025. A hierarchical approach is used and results are confirmative if all tests previously performed within the hierarchy achieve significance at a one-sided significance level of 0.025.|McNemar|||||3.16|-4.05|<0.0001
92179106|NCT03662022|184254859|SUPERIORITY||incidence rate ratio|0.95|||<|0.017|TWO_SIDED|98.3|0.4|2.23||The significance level was determined at 0.017, to account for the fact that we made three comparisons, thus conclusions can be drawn by examining if the 98.3% CI for the incidence rate ratio (IRR) contains the critical value of 1.|Mixed Models Analysis|||||2.23|0.40|<0.017
92179107|NCT03662022|184254859|SUPERIORITY||incidence rate ratio|0.8||||0.017|TWO_SIDED|98.3|0.34|1.87|||Mixed Models Analysis|||||1.87|0.34|0.017
92179108|NCT03662022|184254859|SUPERIORITY||incidence rate ratio|0.58|||<|0.017|TWO_SIDED|98.3|0.22|1.56|||Mixed Models Analysis|||||1.56|0.22|<0.017
92179109|NCT05275556|184254860|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.0002|TWO_SIDED|95.0|0.07|0.23||Threshold for significance is 0.025.|Poisson Regression|||||0.23|0.07|0.0002
92179110|NCT05275556|184254861|NON_INFERIORITY|Non-inferiority margin is -10%.|Mean Difference (Final Values)|-0.06||||0.09|TWO_SIDED|95.0|-0.15|0.03||Threshold for significance is 0.025.|Resampling based|||||0.03|-0.15|0.09
92179111|NCT05275556|184254862|SUPERIORITY||Difference in percentage|5.5||||0.031|TWO_SIDED|95.0|-0.3|11.2|||Cochran-Mantel-Haenszel|Threshold for significance is 0.025.||||11.2|-0.3|0.031
92179112|NCT05275556|184254863|OTHER||rate|0.58|||||TWO_SIDED|||||||||||||
92179113|NCT05275556|184254864|OTHER|2 sided test for differences between arms|Mean Difference (Final Values)|0.58||||0.169|TWO_SIDED||||||Permutation test|||||||0.169
92179114|NCT05275556|184254865|OTHER||||||||||||||||||Descriptive analysis: 52.4 in Colonoscopy (Standard of Care), 59.6 in CAD-e Device|||
92284301|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|0.1||||0.813|TWO_SIDED|95.0|-0.62|0.79||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.79|-0.62|0.813
92284302|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|-0.5||||0.135|TWO_SIDED|95.0|-1.25|0.17||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.17|-1.25|0.135
92179115|NCT05275556|184254866|SUPERIORITY||Mean Difference (Net)|4.6||||0.0578|TWO_SIDED|95.0|-0.2|9.4||Nominal p-value.|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||9.4|-0.2|0.0578
92179116|NCT05275556|184254867|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.7813|TWO_SIDED|95.0|-1.5|2.0||Nominal p-value|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||2.0|-1.5|0.7813
92179117|NCT05275556|184254868|SUPERIORITY||Least-squares means|0.11|||||TWO_SIDED|95.0|0.05|0.17||||||||0.17|0.05|
92179118|NCT05275556|184254869|SUPERIORITY||Mean Difference (Final Values)|8.3||||0.0004|TWO_SIDED|95.0|3.7|12.9||Nominal p-value|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||12.9|3.7|0.0004
92179119|NCT05275556|184254870|SUPERIORITY||Mean Difference (Final Values)|4.1||||0.1185|TWO_SIDED|95.0|-1.0|9.1||Nominal p-value|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||9.1|-1|0.1185
92179120|NCT05275556|184254871|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.0752|TWO_SIDED|95.0|-0.4|9.2||nominal p-value|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||9.2|-0.4|0.0752
92179121|NCT05275556|184254873|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.8194|TWO_SIDED|95.0|-3.2|2.6||Nominal p-value|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||2.6|-3.2|0.8194
92179122|NCT05275556|184254874|OTHER|Test for difference|Incidence Rate Ratio|1.39||||0.0008|TWO_SIDED|95.0|1.14|1.69||Nominal p-value|Exact poisson|||||1.69|1.14|0.0008
92179123|NCT02360371|184254913|SUPERIORITY|||||||0.567|||||||Mixed methods|||||||0.567
92179124|NCT02360371|184254914|SUPERIORITY|||||||0.805|||||||Mixed Model|||||||0.805
92179125|NCT01499368|184254923|NON_INFERIORITY|Non-inferiority: The Lower limit is not lower than -15%||||||0.05|||||||Chi-squared|||||||0.05
92179126|NCT01499368|184254924|NON_INFERIORITY|Non-Inferiority||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test||||||0.05
92179127|NCT01527188|184254938|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-198.18||||0.0427|TWO_SIDED|95.0|-389.82|-6.55|||ANCOVA|||||-6.55|-389.82|0.0427
92284303|NCT02087904|184472245|SUPERIORITY||LS Mean Difference|-0.1||||0.679|TWO_SIDED|95.0|-0.85|0.57||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.57|-0.85|0.679
92179128|NCT01527188|184254938|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-171.82||||0.0793||95.0|-363.87|20.24|||ANCOVA|||||20.24|-363.87|0.0793
92179129|NCT01527188|184254938|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-118.43|||||TWO_SIDED|95.0|-305.9|69.04|||ANCOVA|||The statistical test is not applicable due to the step-down approach performed to address the multiplicity issue.||69.04|-305.90|
92179130|NCT01527188|184254939|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-125.61||||0.0323||95.0|-240.53|-10.69|||ANCOVA|||||-10.69|-240.53|0.0323
92179131|NCT01527188|184254939|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-122.23||||0.0376||95.0|-237.38|-7.08|||ANCOVA|||||-7.08|-237.38|0.0376
92179132|NCT01527188|184254939|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-91.18||||0.1119||95.0|-203.74|21.38|||ANCOVA|||||21.38|-203.74|0.1119
92182819|NCT02609048|184264696|SUPERIORITY||Difference in LSM|-2.6|STANDARD_ERROR_OF_MEAN|1.92||0.1861|TWO_SIDED|95.0|-6.6|1.4||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Fatigue Domain Score||1.4|-6.6|0.1861
92182820|NCT02609048|184264696|SUPERIORITY||Difference in LSM|1.6|STANDARD_ERROR_OF_MEAN|1.96||0.4159|TWO_SIDED|95.0|-2.4|5.7||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Fatigue Domain Score||5.7|-2.4|0.4159
92182821|NCT02609048|184264696|SUPERIORITY||Difference in LSM|0.7|STANDARD_ERROR_OF_MEAN|0.93||0.4848|TWO_SIDED|95.0|-1.3|2.6||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Itch Domain Score||2.6|-1.3|0.4848
92284304|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|0.0||||0.978|TWO_SIDED|95.0|-0.76|0.79||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.79|-0.76|0.978
92182822|NCT02609048|184264696|SUPERIORITY||Difference in LSM|-0.9|STANDARD_ERROR_OF_MEAN|1.05||0.4048|TWO_SIDED|95.0|-3.1|1.3||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Itch Domain Score||1.3|-3.1|0.4048
92182823|NCT02609048|184264696|SUPERIORITY||Difference in LSM|2.6|STANDARD_ERROR_OF_MEAN|1.0||0.0141|TWO_SIDED|95.0|0.6|4.7||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Symptoms Domain Score||4.7|0.6|0.0141
92182824|NCT02609048|184264696|SUPERIORITY||Difference in LSM|2.4|STANDARD_ERROR_OF_MEAN|0.9||0.0138|TWO_SIDED|95.0|0.5|4.2||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Symptoms Domain Score||4.2|0.5|0.0138
92179133|NCT04518943|184254968|SUPERIORITY||Mean Difference (Net)|-634.0||||0.418|TWO_SIDED|90.0|-1924.0|655.0|||linear mixed model|||This is the results of financial vs non-financial reward factor at week 12. It compares change in steps from baseline to week 12 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignment, linear week with a spline at week 12, and interactions between factors and weeks.||655|-1924|0.418
92179134|NCT04518943|184254968|SUPERIORITY||Mean Difference (Net)|-1697.0||||0.033|TWO_SIDED|90.0|-3000.0|-385.0|||Mixed Models Analysis||Positive values represent a positive effect of lottery based rewards compared to loss-based rewards.|This is the results of lottery vs loss-framed reward factor at week 12. It compares change in steps from baseline to week 12 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||-385|-3000|0.033
92179135|NCT04518943|184254968|SUPERIORITY||Mean Difference (Net)|820.0||||0.248|TWO_SIDED|90.0|-347.0|1988.0|||Mixed Models Analysis|||This is the results of precommitment (PC) vs no PC factor at week 12. It compares change in steps from baseline to week 12 between subjects randomized to receive a request for PC compared to those who received no request. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||1988|-347|0.248
92179136|NCT04518943|184254968|SUPERIORITY||Mean Difference (Net)|1121.0||||0.125|TWO_SIDED|90.0|82.0|2323.0|||Mixed Models Analysis|||This is the results of advice vs no advice factor at week 12. It compares change in steps from baseline to week 12 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.|Positive values represent a positive effect of requests for advice on steps compared to no request for advice.|2323|82|0.125
92179137|NCT04518943|184254969|SUPERIORITY||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.53||0.739|TWO_SIDED|90.0|-1.05|0.7|||Regression, Linear|||This is the results of financial vs non-financial reward factor at week 12. It compares change in efficacy from baseline to week 12 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.|Positive values represent a positive effect of financial rewards compared to non-financial rewards.|0.70|-1.05|0.739
92179138|NCT04518943|184254969|SUPERIORITY||Mean Difference (Net)|-0.51||||0.347|TWO_SIDED|90.0|-1.42|0.39|||Mixed Models Analysis||Positive values represent a positive effect of financial rewards compared to non-financial rewards.|This is the results of financial vs non-financial reward factor at week 24. It compares change in efficacy from baseline to week 24 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.39|-1.42|0.347
92179139|NCT04518943|184254969|SUPERIORITY||Mean Difference (Net)|0.61||||0.293|TWO_SIDED|90.0|-0.35|1.57|||Mixed Models Analysis||Positive values represent a positive effect of lottery-based rewards compared to loss-based rewards.|This is the results of lottery vs loss-framed reward factor at week 12. It compares change in efficacy from baseline to week 12 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||1.57|-0.35|0.293
92265376|NCT04246593|184432531|OTHER|We used generalized linear mixed model (GLMM) with random intercept to control for clustering within sites.|Mean Difference (Net)|-28.02|STANDARD_ERROR_OF_MEAN|43.31||0.53|TWO_SIDED|||||P-value calculated for the mean difference in change scores between the intervention and control groups.|GLMM|||||||0.53
92284305|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|0.0||||0.925|TWO_SIDED|95.0|-0.75|0.82||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.82|-0.75|0.925
92179140|NCT04518943|184254969|SUPERIORITY||Mean Difference (Net)|0.31||||0.599|TWO_SIDED|90.0|-0.67|1.3|||Mixed Models Analysis||Positive values represent a positive effect of lottery-based rewards compared to loss-based rewards.|This is the results of lottery vs loss-framed reward factor at week 24. It compares efficacy at week 24 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||1.30|-0.67|0.599
92265377|NCT04246593|184432532|OTHER|We used generalized linear mixed model (GLMM) with random intercept to control for clustering within sites.|Mean Difference (Net)|-0.53|STANDARD_ERROR_OF_MEAN|1.65||0.75|TWO_SIDED|||||The p-value applies to the mean difference in mean self-efficacy change scores between the intervention and control groups.|GLMM|||||||0.75
92284306|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|-0.2||||0.659|TWO_SIDED|95.0|-0.96|0.61||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.61|-0.96|0.659
92284307|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|-0.2||||0.633|TWO_SIDED|95.0|-1.1|0.67||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.67|-1.1|0.633
92179141|NCT04518943|184254969|SUPERIORITY||Mean Difference (Net)|1.49||||0.007|TWO_SIDED|90.0|0.58|2.4|||Regression, Linear|||This is the results of precommitment (PC) vs no PC factor at week 12. It compares efficacy at week 12 between subjects randomized to receive a request for PC to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||2.40|0.58|0.007
92179142|NCT04518943|184254969|SUPERIORITY||Mean Difference (Net)|1.78||||0.002|TWO_SIDED|90.0|0.86|2.7|||Regression, Linear|||This is the results of precommitment (PC) vs no PC factor at week 24. It compares efficacy at week 24 between subjects randomized to receive a request for PC compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||2.70|0.86|0.002
92179143|NCT04518943|184254969|SUPERIORITY||Mean Difference (Net)|1.02||||0.068|TWO_SIDED|90.0|0.1|1.94|||Regression, Linear|||This is the results of advice vs no-advice factor at week 12. It compares efficacy at week 12 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||1.94|0.10|0.068
92179144|NCT04518943|184254969|SUPERIORITY||Mean Difference (Net)|0.19||||0.74|TWO_SIDED|90.0|-0.76|1.14|||Regression, Linear|||This is the results of advice vs no-advice factor at week 24. It compares efficacy at week 24 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||1.14|-0.76|0.740
92179145|NCT04518943|184254970|SUPERIORITY||Mean Difference (Net)|0.14||||0.481|TWO_SIDED|90.0|-0.19|0.47|||Regression, Linear|||This is the results of financial vs non-financial reward factor at week 12. It compares intrinsic motivation in week 12 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator..||0.47|-0.19|0.481
92179146|NCT04518943|184254970|SUPERIORITY||Mean Difference (Net)|0.18||||0.388|TWO_SIDED|90.0|-0.16|0.52|||Regression, Linear|||This is the results of financial vs non-financial reward factor at week 24. It compares intrinsic motivation in week 24 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.52|-0.16|0.388
92179147|NCT04518943|184254970|SUPERIORITY||Mean Difference (Net)|-0.02||||0.926|TWO_SIDED|90.0|-0.38|0.34|||Regression, Linear|||This is the results of lottery vs loss-framed reward factor at week 12. It compares intrinsic motivation at week 12 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.34|-0.38|0.926
92179148|NCT04518943|184254970|SUPERIORITY||Mean Difference (Net)|-0.17||||0.446|TWO_SIDED|90.0|-0.54|0.2|||Regression, Linear|||This is the results of lottery vs loss-framed reward factor at week 24. It compares intrinsic motivation at week 24 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.20|-0.54|0.446
92179149|NCT04518943|184254970|SUPERIORITY||Mean Difference (Net)|0.08||||0.711|TWO_SIDED|90.0|-0.27|0.42|||Regression, Linear|||This is the results of precommitment (PC) vs no PC factor at week 12. It compares intrinsic motivation at week 12 between subjects randomized to receive a request for PC to compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.42|-0.27|0.711
92179150|NCT04518943|184254970|SUPERIORITY||Mean Difference (Net)|-0.2||||0.345|TWO_SIDED|90.0|-0.55|0.15|||Regression, Linear|||This is the results of precommitment (PC) vs no PC factor at week 24. It compares efficacy at week 24 between subjects randomized to receive a request for PC to compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.15|-0.55|0.345
92179151|NCT04518943|184254970|SUPERIORITY||Mean Difference (Net)|0.02||||0.928|TWO_SIDED|90.0|-0.33|0.36|||Regression, Linear|||This is the results of advice vs no-advice factor at week 12. It compares intrinsic motivation at week 12 between subjects randomized to receive a request for advice compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.36|-0.33|0.928
92265378|NCT04246593|184432533|OTHER|We used generalized linear mixed model (GLMM) with random intercept to control for clustering within sites.|Mean Difference (Net)|-0.56|STANDARD_ERROR_OF_MEAN|1.13||0.63|TWO_SIDED|||||P-value applies to the mean difference in mean total barriers score change between the intervention and control groups.|GLMM|||||||0.63
92265379|NCT00635362|184432535|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35|TWO_SIDED||||||Fisher Exact|||||||0.35
92265380|NCT00635362|184432536|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED||||||Fisher Exact|||||||0.04
92265381|NCT00635362|184432537|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED|0.0|||||Fisher Exact|||||||1.000
92265382|NCT00635362|184432538|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED|0.0|||||Fisher Exact|||||||0.37
92179152|NCT04518943|184254970|SUPERIORITY||Mean Difference (Net)|-0.19||||0.372|TWO_SIDED|90.0|-0.55|0.16|||Regression, Linear|||This is the results of advice vs no-advice factor at week 24. It compares intrinsic motivation at week 24 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.16|-0.55|0.372
92179153|NCT04518943|184254971|SUPERIORITY||Mean Difference (Net)|0.35||||0.767|TWO_SIDED|90.0|-1.6|2.3|||Regression, Linear|||This is the results of financial vs non-financial reward factor at week 12. It compares phq8 mental health scores in week 12 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||2.3|-1.60|0.767
92179154|NCT04518943|184254971|SUPERIORITY||Mean Difference (Net)|0.78||||0.5|TWO_SIDED|90.0|-1.12|2.69|||Regression, Linear|||This is the results of financial vs non-financial reward factor at week 24. It compares phq8 mental health scores in week 24 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||2.69|-1.12|0.500
92179155|NCT04518943|184254971|SUPERIORITY||Mean Difference (Net)|0.59||||0.631|TWO_SIDED|90.0|-1.43|2.61|||Regression, Linear|||This is the results of lottery vs loss-framed reward factor at week 12. It compares phq8 mental health scores at week 12 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24, and interactions between factors and weeks.||2.61|-1.43|0.631
92179156|NCT04518943|184254971|SUPERIORITY||Mean Difference (Net)|-0.62||||0.62|TWO_SIDED|90.0|-2.69|1.44|||Regression, Linear|||This is the results of lottery vs loss-framed reward factor at week 24. It compares phq8 mental health scores at week 24 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24, and interactions between factors and weeks.||1.44|-2.69|0.620
92179157|NCT04518943|184254971|SUPERIORITY||Mean Difference (Net)|0.17||||0.886|TWO_SIDED|90.0|-1.77|2.12|||Regression, Linear|||This is the results of pre-commitment (PC) vs no PC factor at week 12. It compares phq8 mental health scores at week 12 between subjects randomized to receive a request for PC to compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||2.12|-1.77|0.886
92179158|NCT04518943|184254971|SUPERIORITY||Mean Difference (Net)|-0.07||||0.95|TWO_SIDED|-2.03|-2.03|1.88|||Regression, Linear|||This is the results of precommitment (PC) vs no PC factor at week 24. It compares phq8 mental health scores at week 24 between subjects randomized to receive a request for PC to compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||1.88|-2.03|0.950
92179159|NCT04518943|184254971|SUPERIORITY||Mean Difference (Net)|-1.45||||0.248|TWO_SIDED|90.0|-3.51|0.61|||Regression, Linear|||This is the results of advice vs no-advice factor at week 12. It compares phq mental health scores at week 12 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.61|-3.51|0.248
92179160|NCT04518943|184254971|SUPERIORITY||Mean Difference (Net)|-1.23||||0.317|TWO_SIDED|90.0|-3.25|0.79|||Regression, Linear|||This is the results of advice vs no-advice factor at week 24. It compares phq mental health scores at week 24 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.79|-3.25|0.317
92179161|NCT04518943|184254972|SUPERIORITY||Mean Difference (Net)|-35.0||||0.972|TWO_SIDED|90.0|-1685.0|1616.0|||Mixed Models Analysis|||This is the results of financial vs non-financial reward factor at week 24. It compares change in steps from baseline to week 24 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||1616|-1685|0.972
92179162|NCT04518943|184254972|SUPERIORITY||Mean Difference (Net)|-2428.0||||0.019|TWO_SIDED|90.0|-4134.0|-722.0|||Mixed Models Analysis||Positive values represent a positive effect of lottery-based rewards compared to loss-based rewards.|This is the results of lottery vs loss-framed reward factor at week 24. It compares change in steps from baseline to week 24 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||-722|-4134|0.019
92265383|NCT00635362|184432539|SUPERIORITY_OR_OTHER_LEGACY|||||||1||0.0|||||Fisher Exact|||||||1.00
92265384|NCT00620191|184432540|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.7|STANDARD_DEVIATION|1.92||0.05|TWO_SIDED||||||t-test, 2 sided||The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.05
92265385|NCT00620191|184432540|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.1|STANDARD_DEVIATION|1.36||0.05|TWO_SIDED||||||ANCOVA|adjusted for baseline ADAS-Cog value|The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.05
92257609|NCT04806165|184417755|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.07|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||We computed both unstandardized (B) and standardized (ß) coefficients to indicate effect sizes. As suggested by Fey et al. (2023), we interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the time effect of attitudinal changes over the 14 week course of the study, regardless of the combination of components participants were assigned (ie., component turned off or on). Results will help determine whether mean participant attitudes toward change for concerns related to their eating, weight, and/or shape concerns varied based on the time elapsed since engagement with the intervention (ie., do attitudinal changes post-inntervention endure over time?).||||<.001
92257610|NCT04806165|184417755|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.06|STANDARD_ERROR_OF_MEAN|0.03||0.026|TWO_SIDED|||||We computed both unstandardized (B) and standardized (ß) coefficients to indicate effect sizes. As suggested by Fey et al. (2023), we interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the interaction effects of time since intervention and each of the four chatbot components. This analysis explores the interaction effects of time and the motivational interviewing (MI) component on participant attitudes toward change for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||.026
92257611|NCT04806165|184417755|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.465|TWO_SIDED|||||We computed both unstandardized (B) and standardized (ß) coefficients to indicate effect sizes. As suggested by Fey et al. (2023), we interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the interaction effects of time since intervention and each of the four chatbot components. This analysis explores the interaction effects of time and the personalized recommendation (PR) component on participant attitudes toward change for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||.465
92257612|NCT04806165|184417755|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.536|TWO_SIDED|||||We computed both unstandardized (B) and standardized (ß) coefficients to indicate effect sizes. As suggested by Fey et al. (2023), we interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the interaction effects of time since intervention and each of the four chatbot components. This analysis explores the interaction effects of time and the psychoeducation (PE) component on participant attitudes toward change for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||.536
92265386|NCT00620191|184432541|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.98|STANDARD_DEVIATION|1.01||0.06|TWO_SIDED||||||t-test, 2 sided||The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.06
92265387|NCT00620191|184432541|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_DEVIATION|0.91||0.34|TWO_SIDED||||||ANCOVA|adjusted for baseline ADAS-Cog score.|The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.34
92182825|NCT02609048|184264696|SUPERIORITY||Difference in LSM|0.3|STANDARD_ERROR_OF_MEAN|0.98||0.7911|TWO_SIDED|95.0|-1.8|2.3||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Symptoms Domain Score||2.3|-1.8|0.7911
92265388|NCT00620191|184432542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.0|STANDARD_DEVIATION|2.14||0.36|TWO_SIDED||||||t-test, 2 sided||The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.36
92265389|NCT00620191|184432543|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.09|STANDARD_DEVIATION|4.73||0.34|TWO_SIDED||||||t-test, 2 sided||The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.34
92265390|NCT00674440|184432581|OTHER||Sensitivity|93.0|||||TWO_SIDED|95.0|80.9|98.5||||||||98.5|80.9|
92265391|NCT00674440|184432581|OTHER||Specifity|88.5|||||TWO_SIDED|95.0|76.6|95.6||||||||95.6|76.6|
92265392|NCT05510297|184432612|SUPERIORITY||Median Difference (Net)|7.0||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.007
92265393|NCT05510297|184432613|SUPERIORITY||Mean Difference (Final Values)|2653.16|STANDARD_DEVIATION|5110.86||0.074|TWO_SIDED|95.0|-297.76522|5604.07522||a priori threshold for statistical significance=0.05 for 2-sided t-test; no adjustments for multiple comparisons made; data were checked for normality using the Shapiro-Wilk test where p\>0.05 was interpreted as likely normal distribution.|t-test, 2 sided|||||5604.07522|-297.76522|0.074
92257613|NCT04806165|184417755|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.049|TWO_SIDED|||||We computed both unstandardized (B) and standardized (ß) coefficients to indicate effect sizes. As suggested by Fey et al. (2023), we interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the interaction effects of time since intervention and each of the four chatbot components. This analysis explores the interaction effects of time and the repeated administration (RA) component on participant attitudes toward change for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||.049
92257614|NCT02059174|184417761|NON_INFERIORITY_OR_EQUIVALENCE|A frailty model was used with effects for treatment, period and sequence and a random effect for participant. A value of 1.00 for the hazard ratio corresponds to no difference between treatments.|Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.72|1.59|||||ratio (MK-1293 / EU-Approved Lantus)|Because numerous participants did not achieve End of Action within the 30-hour clamp timeframe, the pre-specified hypothesis of similarity with regard to mean DOA could not be tested and a survival analysis approach was undertaken. The hazard rate is a measure of the instantaneous risk of reaching End of Action at time t given End of Action has not been met up until time t, with the hazard ratio being an estimate of the relative difference in hazard rates between treatments.||1.59|0.72|
92257615|NCT02059174|184417762|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria calculated via Fieller's Theorem was 95% confidence interval for arithmetic mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Ratio of Arithmetic Means|0.95|||||TWO_SIDED|95.0|0.88|1.01|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.01|0.88|
92257616|NCT02059174|184417763|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria calculated via Fieller's Theorem was 95% confidence interval for arithmetic mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Ratio of Arithmetic Means|0.9|||||TWO_SIDED|95.0|0.81|0.99|||||Ratio (MK-1293 / EU-Approved Lantus)|||0.99|0.81|
92257617|NCT02059174|184417764|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria calculated via Fieller's Theorem was 95% confidence interval for arithmetic mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Ratio of Arithmetic Means|0.99|||||TWO_SIDED|95.0|0.92|1.06|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.06|0.92|
92257618|NCT02059174|184417765|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria calculated via Fieller's Theorem was 95% confidence interval for arithmetic mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Ratio of Arithmetic Means|0.96|||||TWO_SIDED|95.0|0.91|1.02|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.02|0.91|
92257619|NCT02059174|184417766|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria was 90% confidence interval for geometric mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.91|1.02|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.02|0.91|
92284308|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|-0.3||||0.46|TWO_SIDED|95.0|-1.23|0.56||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.56|-1.23|0.46
92257620|NCT02059174|184417767|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria was 90% confidence interval for geometric mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.93|1.03|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.03|0.93|
92257621|NCT02059174|184417768|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria was 90% confidence interval for geometric mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Geometric Mean Ratio|0.92|||||TWO_SIDED|90.0|0.86|0.97|||||Ratio (MK-1293 / EU-Approved Lantus)|||0.97|0.86|
92257622|NCT02059174|184417769|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria was 90% confidence interval for geometric mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Geometric Mean Ratio|1.0|||||TWO_SIDED|90.0|0.95|1.04|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.04|0.95|
92257623|NCT01196936|184417778|SUPERIORITY|||||||0.05||||||The calculated p-value is 0.05.|Mixed Models Analysis|||||||0.05
92257624|NCT01196936|184417779|SUPERIORITY|||||||0.0266|||||||Mixed Models Analysis|||||||0.0266
92257625|NCT01196936|184417780|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
92257626|NCT01196936|184417781|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92257627|NCT01196936|184417782|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
92257628|NCT01196936|184417783|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||> 0.05
92257629|NCT01196936|184417784|SUPERIORITY|||||||0.071|||||||Mixed Models Analysis|||||||0.071
92257630|NCT01196936|184417785|SUPERIORITY|||||||0.739|||||||Mixed Models Analysis|||||||0.739
92257631|NCT01196936|184417786|SUPERIORITY|||||||0.8315|||||||Mixed Models Analysis|||||||0.8315
92257632|NCT03229538|184417787|OTHER||Adjusted Odds Ratio|0.86||||0.14|TWO_SIDED|95.0|0.71|1.05|||Regression, Logistic|||||1.05|0.71|0.14
92257633|NCT03229538|184417787|OTHER||Percent Difference|-0.8|||||TWO_SIDED|95.0|-2.6|0.9|||||Difference = Methylprednisolone - Placebo|Rank = 97||0.9|-2.6|
92257634|NCT03229538|184417787|OTHER||Percent Difference|-1.5|||||TWO_SIDED|95.0|-3.5|0.5|||||Difference = Methylprednisolone - Placebo|Rank \> or = 96||0.5|-3.5|
92257635|NCT03229538|184417787|OTHER||Percent Difference|-2.2|||||TWO_SIDED|95.0|-4.4|0.1|||||Difference = Methylprednisolone - Placebo|Rank \> or = 95||0.1|-4.4|
92257636|NCT03229538|184417787|OTHER||Percent Difference|-0.8|||||TWO_SIDED|95.0|-4.3|2.7|||||Difference = Methylprednisolone - Placebo|Rank \> or = 94||2.7|-4.3|
92257637|NCT03229538|184417787|OTHER||Percent Difference|-3.8|||||TWO_SIDED|95.0|-7.8|0.2|||||Difference = Methylprednisolone - Placebo|Rank \> or = 93||0.2|-7.8|
92257638|NCT03229538|184417787|OTHER||Percent Difference|-3.4|||||TWO_SIDED|95.0|-7.8|0.9|||||Difference = Methylprednisolone - Placebo|Rank \> or = 92||0.9|-7.8|
92257639|NCT03229538|184417787|OTHER||Percent Difference|-3.1|||||TWO_SIDED|95.0|-7.5|1.3|||||Difference = Methylprednisolone - Placebo|Rank \> or = 91||1.3|-7.5|
92257640|NCT03229538|184417788|SUPERIORITY|It was estimated that 1200 patients (600 per trial group) would provide the trial with more than 90% power to detect superiority of methylprednisolone.|Adjusted Odds Ratio|0.74||||0.428|TWO_SIDED|95.0|0.34|1.57|||Regression, Logistic|||||1.57|0.34|0.428
92257641|NCT03229538|184417789|SUPERIORITY|It was estimated that 1200 patients (600 per trial group) would provide the trial with more than 90% power to detect superiority of methylprednisolone.|Adjusted Odds Ratio|0.83||||0.228|TWO_SIDED|95.0|0.61|1.13|||Regression, Logistic|||||1.13|0.61|0.228
92257642|NCT03229538|184417790|SUPERIORITY|It was estimated that 1200 patients (600 per trial group) would provide the trial with more than 90% power to detect superiority of methylprednisolone over placebo.|Percent Difference|-1.8|||||TWO_SIDED|95.0|-4.0|0.4||||||||0.4|-4.0|
92257643|NCT03229538|184417791|SUPERIORITY|It was estimated that 1200 patients (600 per trial group) would provide the trial with more than 90% power to detect superiority of methylprednisolone over placebo.|Adjusted Odds Ratio|0.79||||0.309|TWO_SIDED|95.0|0.5|1.25|||Regression, Logistic|||||1.25|0.50|0.309
92257644|NCT03229538|184417792|SUPERIORITY|It was estimated that 1200 patients (600 per trial group) would provide the trial with more than 90% power to detect superiority of methylprednisolone over placebo.|Adjusted Odds Ratio|0.91||||0.723|TWO_SIDED|95.0|0.52|1.57|||Regression, Logistic|||||1.57|0.52|0.723
92284309|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|-0.2||||0.663|TWO_SIDED|95.0|-1.1|0.7||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.7|-1.1|0.663
92284310|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|-0.1||||0.696|TWO_SIDED|95.0|-0.89|0.59||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.59|-0.89|0.696
92284311|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|-0.4||||0.278|TWO_SIDED|95.0|-1.16|0.34||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.34|-1.16|0.278
92284312|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|-0.4||||0.357|TWO_SIDED|95.0|-1.1|0.4||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.4|-1.1|0.357
92183115|NCT02434328|184264741|OTHER||Difference in proportions|-2.0|||||TWO_SIDED|95.0|-6.2|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||2.2|-6.2|
92257645|NCT03229538|184417794|SUPERIORITY||Adjusted Odds Ratio|0.86||||0.256|TWO_SIDED|95.0|0.67|1.11|||Regression, Logistic|||||1.11|0.67|0.256
92257646|NCT00416572|184417808|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||> 0.05
92257647|NCT00416572|184417808|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||>0.05
92257648|NCT00416572|184417808|SUPERIORITY_OR_OTHER||standardized beta|-0.12|||=|0.08|TWO_SIDED||||||Regression, Linear|||Comparison between education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||=0.08
92257649|NCT00416572|184417808|SUPERIORITY_OR_OTHER||standardized beta|-0.23|||<|0.001|TWO_SIDED||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||<0.001
92257650|NCT00416572|184417809|SUPERIORITY_OR_OTHER||||||>|0.5|||||||Regression, Linear|||Comparison between education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||>0.50
92257651|NCT00416572|184417809|SUPERIORITY_OR_OTHER||Standardized beta|0.14|||=|0.04|TWO_SIDED||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||=0.04
92257652|NCT00416572|184417809|SUPERIORITY_OR_OTHER||Standardized beta|0.25|||<|0.001|TWO_SIDED||||||Regression, Linear|||Comparison between the education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||<0.001
92284313|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|-0.1||||0.761|TWO_SIDED|95.0|-0.87|0.64||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.64|-0.87|0.761
92284314|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|-0.5||||0.218|TWO_SIDED|95.0|-1.02|0.51||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.51|-1.02|0.218
92179163|NCT04518943|184254972|SUPERIORITY||Mean Difference (Net)|418.0||||0.627|TWO_SIDED|90.0|-999.0|1836.0|||Mixed Models Analysis|||This is the results of precommitment (PC) vs no PC factor at week 24. It compares change in steps from baseline to week 24 between subjects randomized to receive a request for PC compared to those who received no request. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||1836|-999|0.627
92257653|NCT00416572|184417809|SUPERIORITY_OR_OTHER||Standardized beta|0.15|||=|0.02|TWO_SIDED||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||=0.02
92257654|NCT00416572|184417810|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome||||>.05
92179164|NCT04518943|184254972|SUPERIORITY||Mean Difference (Net)|195.0||||0.842|TWO_SIDED|90.0|-1417.0|1807.0|||Mixed Models Analysis|||This is the results of advice vs no advice factor at week 24. It compares change in steps from baseline to week 24 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||1807|-1417|0.842
92179165|NCT06408870|184254979|OTHER||Ratio of adjusted geometric means [%]|103.88|||||TWO_SIDED|90.0|101.08|106.75|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual pair geometric coefficient of variation (gCV) \[%\] = 9.0."|The statistical model applied was an analysis of variance (ANOVA), with 'subjects within sequence' as a random effect and 'sequence,' 'period,' and 'treatment' as fixed effects.||106.75|101.08|
92179166|NCT06408870|184254980|OTHER||Ratio of adjusted geometric means [%]|105.32|||||TWO_SIDED|90.0|100.83|110.01|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual pair geometric coefficient of variation (gCV) \[%\] = 14.5."|The statistical model applied was an analysis of variance (ANOVA), with 'subjects within sequence' as a random effect and 'sequence,' 'period,' and 'treatment' as fixed effects.||110.01|100.83|
92257655|NCT00416572|184417810|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||>0.05
92257656|NCT00416572|184417810|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||>0.05
92257657|NCT00416572|184417810|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||>0.05
92265394|NCT05510297|184432614|SUPERIORITY|a priori threshold for statistical significance=0.05 for 2-sided t-test; no adjustments for multiple comparisons made;|Mean Difference (Net)|4.44067|STANDARD_DEVIATION|41.59009||0.685|TWO_SIDED|95.0|-18.59116|27.47249|||t-test, 2 sided|||||27.47249|-18.59116|0.685
92265395|NCT05510297|184432615|SUPERIORITY||Mean Difference (Net)|-0.51267|STANDARD_DEVIATION|1.44656||0.191|TWO_SIDED|95.0|-1.31374|0.28841|||t-test, 2 sided|||||0.28841|-1.31374|0.191
92265396|NCT05510297|184432616|SUPERIORITY||Mean Difference (Net)|-0.45|STANDARD_DEVIATION|1.35026||0.218|TWO_SIDED|95.0|-1.19775|0.29775|||t-test, 2 sided|||||0.29775|-1.19775|0.218
92265397|NCT05510297|184432617|SUPERIORITY||Mean Difference (Net)|-0.924|STANDARD_DEVIATION|2.19396||0.125|TWO_SIDED|95.0|-2.13898|0.29098|||t-test, 2 sided|||||0.29098|-2.13898|0.125
92179167|NCT06408870|184254981|OTHER||Ratio of adjusted geometric means [%]|103.76|||||TWO_SIDED|90.0|100.95|106.65|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual pair geometric coefficient of variation (gCV) \[%\] = 9.1."|The statistical model applied was an analysis of variance (ANOVA), with 'subjects within sequence' as a random effect and 'sequence,' 'period,' and 'treatment' as fixed effects.||106.65|100.95|
92179168|NCT04174170|184254992|SUPERIORITY||Treatment Difference|1.03||||0.5165|TWO_SIDED|95.0|-2.09|4.16|||MMRM|||||4.16|-2.09|0.5165
92179169|NCT04174170|184254992|SUPERIORITY||Treatment Difference|-0.71||||0.6593|TWO_SIDED|95.0|-3.88|2.46|||MMRM|||||2.46|-3.88|0.6593
92179170|NCT04174170|184254993|SUPERIORITY||Treatment Difference|0.03||||0.8215|TWO_SIDED|95.0|-0.25|0.31||MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|MMRM|||||0.31|-0.25|0.8215
92257658|NCT00290355|184417811|OTHER||Hazard Ratio (HR)|0.74||||0.256|TWO_SIDED|95.0|0.44|1.24||Two-sided p value from Cox regression model adjusted for covariate(s) node/squam/stage to test the null hypothesis was: the distribution of time to recurrences was the same in each group (H0 = \[HR=1\]).|Regression, Cox|The p value by log rank test was 0.1995. Criterion for evaluation of the objective: one sided p-value \< 10%||Hazard ratio of GSK 249553 study product.||1.24|0.44|0.256
92257659|NCT03345849|184417830|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and European Union/European Medicines Agency regulatory purposes.|Adjusted Response Rate Difference|20.8|||<|0.0001|TWO_SIDED|95.0|12.7|28.8|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|Comparison of the upadacitinib group and placebo group was performed using the Cochran Mantel-Haenszel (CMH) test adjusting for stratification factors (baseline steroid use \[Yes, No\], endoscopic disease severity \[SES-CD \< 15, ≥ 15\] and number of prior biologics with prior inadequate response or intolerance \[0, 1, \> 1\]).||28.8|12.7|<0.0001
92284315|NCT02087904|184472246|SUPERIORITY||LS Mean Difference|-0.3||||0.513|TWO_SIDED|95.0|-1.02|0.51||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.51|-1.02|0.513
92179171|NCT04174170|184254993|SUPERIORITY||Treatment Difference|-0.03||||0.8584|TWO_SIDED|95.0|-0.31|0.26||MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|MMRM|||||0.26|-0.31|0.8584
92284316|NCT02087904|184472247|SUPERIORITY||LS Mean Difference|0.1||||0.728|TWO_SIDED|95.0|-0.52|0.75||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.75|-0.52|0.728
92284317|NCT02087904|184472247|SUPERIORITY||LS Mean Difference|-0.4||||0.219|TWO_SIDED|95.0|-1.06|0.24||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.24|-1.06|0.219
92179172|NCT04174170|184254994|SUPERIORITY||Treatment Difference|-4.16||||0.2331|TWO_SIDED|95.0|-11.0|2.69||MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|MMRM|||||2.69|-11.00|0.2331
92179173|NCT04174170|184254994|SUPERIORITY||Treatment Difference|-8.83||||0.0134|TWO_SIDED|95.0|-15.82|-1.85||MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|MMRM|||||-1.85|-15.82|0.0134
92179174|NCT00412607|184255127|SUPERIORITY_OR_OTHER_LEGACY||Percentage of mortality|13.3|||||ONE_SIDED|95.0||17.5|||Fisher Exact||The 95% confidence interval is a one-sided with upper confidence level = 17.5% computed using the exact binomial test.|"Assumptions for sample size calculation: 10% attrition rate, Type I error of 0.05, anticipated 12-month mortality rate is 0.19, a region of indifference of 0.07, power of 0.8; the required sample size is 249 per nQuery Exact test for single proportion method.~The null hypothesis is that the 12-month mortality rate is greater than or equal to 0.26; the alternative is that the rate is less than 0.26. This hypothesis is evaluated with one-sided exact binomial test at α= 0.05."||17.5||
92179175|NCT04675034|184255137|SUPERIORITY||Combined estimate for LS mean|-0.15|STANDARD_ERROR_OF_MEAN|0.416||0.36|TWO_SIDED|95.0|-0.968|0.67|||ANCOVA|Least Square (LS) mean and treatment group difference with associated 95% confidence intervals (CIs) are modelled using ANCOVA on imputed data.||||0.670|-0.968|0.360
92284318|NCT02087904|184472247|SUPERIORITY||LS Mean Difference|-0.1||||0.673|TWO_SIDED|95.0|-0.79|0.51||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.51|-0.79|0.673
92257660|NCT03345849|184417831|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|28.7|||<|0.0001|TWO_SIDED|95.0|20.9|36.4|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||36.4|20.9|<0.0001
92265398|NCT05510297|184432618|SUPERIORITY||Mean Difference (Net)|0.00133|STANDARD_DEVIATION|0.10148||0.96|TWO_SIDED|95.0|-0.05486|0.5753|||t-test, 2 sided|||||0.5753|-0.05486|0.960
92265399|NCT05510297|184432622|SUPERIORITY||Mean Difference (Net)|-0.622|STANDARD_DEVIATION|1.6553||0.168|TWO_SIDED|95.0|-1.53867|0.29467|||t-test, 2 sided|||||0.29467|-1.53867|0.168
92265400|NCT04409262|184432623|SUPERIORITY||Hazard Ratio (HR)|0.965||||0.7414|TWO_SIDED|95.0|0.78|1.19|||Log Rank|||||1.19|0.78|0.7414
92265401|NCT04409262|184432624|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.8993|TWO_SIDED|95.0|0.72|1.34|||Log Rank|||||1.34|0.72|0.8993
92265402|NCT04409262|184432625|SUPERIORITY||Odds Ratio (OR)|1.05||||0.7648|TWO_SIDED|95.0|0.77|1.44|||Regression, Logistic|||||1.44|0.77|0.7648
92179176|NCT04675034|184255137|SUPERIORITY||Combined estimate for LS mean|-0.8|STANDARD_ERROR_OF_MEAN|0.418||0.029|TWO_SIDED|95.0|-1.619|0.027|||ANCOVA|Least Square mean and treatment group difference with associated 95% CIs are modelled using ANCOVA on imputed data.||||0.027|-1.619|0.029
92179177|NCT04675034|184255137|SUPERIORITY||Combined estimate for LS mean|-0.8|STANDARD_ERROR_OF_MEAN|0.413||0.026|TWO_SIDED|95.0|-1.618|0.009|||ANCOVA|Least Square mean and treatment group difference with associated 95% CIs are modelled using ANCOVA on imputed data.||||0.009|-1.618|0.026
92179178|NCT04675034|184255137|SUPERIORITY||Combined estimate for LS mean|-0.59|STANDARD_ERROR_OF_MEAN|0.424||0.083|TWO_SIDED|95.0|-1.423|0.245|||ANCOVA|Least Square mean and treatment group difference with associated 95% CIs are modelled using ANCOVA on imputed data.||||0.245|-1.423|0.083
92179179|NCT04024059|184255176|SUPERIORITY||Odds Ratio (OR)|1.737|||=|0.22|TWO_SIDED|95.0|0.719|4.195|||Regression, Logistic|||||4.195|0.719|=0.22
92179180|NCT04024059|184255176|SUPERIORITY||Odds Ratio (OR)|1.035|||=|0.938|TWO_SIDED|95.0|0.435|2.461|||Regression, Logistic|||||2.461|0.435|=0.938
92179181|NCT04024059|184255177|SUPERIORITY||Odds Ratio (OR)|1.783|||=|0.202|TWO_SIDED|95.0|0.733|4.336|||Regression, Logistic|||||4.336|0.733|=0.202
92179182|NCT04024059|184255177|SUPERIORITY||Odds Ratio (OR)|1.38|||=|0.474|TWO_SIDED|95.0|0.571|3.336|||Regression, Logistic|||||3.336|0.571|=.474
92179183|NCT04024059|184255178|SUPERIORITY||Odds Ratio (OR)|0.669|||=|0.328|TWO_SIDED|95.0|0.299|1.497|||Regression, Logistic|||||1.497|0.299|=0.328
92179184|NCT04024059|184255178|SUPERIORITY||Odds Ratio (OR)|0.724|||=|0.435|TWO_SIDED|95.0|0.322|1.627|||Regression, Logistic|||||1.627|0.322|=0.435
92179185|NCT03512301|184255215|OTHER||Accuracy|0.6587|||||TWO_SIDED|95.0|0.569|0.7408||||||||0.7408|0.5690|
92179186|NCT03512301|184255215|OTHER||Sensitivity|0.8736|||||TWO_SIDED|||||||||||||
92179187|NCT03512301|184255215|OTHER||Specificity|0.4872|||||TWO_SIDED|||||||||||||
92179188|NCT03512301|184255215|OTHER||Positive Predictive Value|0.7917|||||TWO_SIDED|||||||||||||
92179189|NCT03512301|184255215|OTHER||Negative Predictive Value|0.6333|||||TWO_SIDED|||||||||||||
92179190|NCT03512301|184255215|OTHER||Sensitivity|0.1212|||||TWO_SIDED|||||||||||||
92257661|NCT03345849|184417832|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|33.0|||<|0.0001|TWO_SIDED|95.0|26.2|39.9|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||39.9|26.2|<0.0001
92265403|NCT04409262|184432626|SUPERIORITY||Hazard Ratio (HR)|0.948||||0.7867|TWO_SIDED|95.0|0.65|1.39|||Log Rank|||||1.39|0.65|0.7867
92179191|NCT03512301|184255215|OTHER||Specificity|0.9032|||||TWO_SIDED|||||||||||||
92179192|NCT03512301|184255215|OTHER||Positive Predictive Value|0.3077|||||TWO_SIDED|||||||||||||
92179193|NCT03512301|184255215|OTHER||Negative Predictive Value|0.7434|||||TWO_SIDED|||||||||||||
92179194|NCT03512301|184255215|OTHER||Sensitivity|0.5|||||TWO_SIDED|||||||||||||
92179195|NCT03512301|184255215|OTHER||Specificity|0.8833|||||TWO_SIDED|||||||||||||
92179196|NCT03512301|184255215|OTHER||Positive Predictive Value|0.1765|||||TWO_SIDED|||||||||||||
92179197|NCT03512301|184255215|OTHER||Negative Predictive Value|0.9725|||||TWO_SIDED|||||||||||||
92179198|NCT03512301|184255215|OTHER||Quadratic Weighted Kappa|0.4446|||||TWO_SIDED|95.0|0.2791|0.6101||||||||0.6101|0.2791|
92179199|NCT03512301|184255216|OTHER|Linear Regression. Power calculations for linear regression between CAMCI and MoCA were found to be sufficiently powered with a Pearson's R of at least 0.3 at 80% power and that equated to a test-set size of 98.|Pearson Correlation|0.5073|||||TWO_SIDED|95.0|0.3892|0.6091|||||Linear Regression Equation: \[CAMCI Score\] = -5.42 + 1.40 X \[MoCA Score\]|||0.6091|0.3892|
92179200|NCT03512301|184255216|OTHER||Accuracy|0.5556|||||TWO_SIDED|95.0|0.4644|0.644||||||||0.6440|0.4644|
92179201|NCT03512301|184255216|OTHER||Sensitivity|0.9747|||||TWO_SIDED|||||||||||||
92179202|NCT03512301|184255216|OTHER||Specificity|0.3913|||||TWO_SIDED|||||||||||||
92179203|NCT03512301|184255216|OTHER||Positive Predictive Value|0.5625|||||TWO_SIDED|||||||||||||
92179204|NCT03512301|184255216|OTHER||Negative Predictive Value|0.9|||||TWO_SIDED|||||||||||||
92179205|NCT03512301|184255216|OTHER||Sensitivity|0.1905|||||TWO_SIDED|||||||||||||
92179206|NCT03512301|184255216|OTHER||Specificity|0.9841|||||TWO_SIDED|||||||||||||
92179207|NCT03512301|184255216|OTHER||Positive Predictive Value|0.9231|||||TWO_SIDED|||||||||||||
92179208|NCT03512301|184255216|OTHER||Negative Predictive Value|0.5487|||||TWO_SIDED|||||||||||||
92179209|NCT03512301|184255216|OTHER||Sensitivity|0.6667|||||TWO_SIDED|||||||||||||
92179210|NCT03512301|184255216|OTHER||Specificity|0.8917|||||TWO_SIDED|||||||||||||
92179211|NCT03512301|184255216|OTHER||Positive Predictive Value|0.2353|||||TWO_SIDED|||||||||||||
92179212|NCT03512301|184255216|OTHER||Negative Predictive Value|0.9817|||||TWO_SIDED|||||||||||||
92179213|NCT03512301|184255216|OTHER||Quadratic Weighted Kappa|0.3931|||||TWO_SIDED|95.0|0.2401|0.5461||||||||0.5461|0.2401|
92179214|NCT04602611|184255235|SUPERIORITY||Coefficient of negative binomial model|0.0547||||0.8|TWO_SIDED|95.0|-0.368|0.4773||The a priori threshold for statistical significance was 0.025.|Regression, Negative binomial|Model was estimated without adjustments (sole covariate was treatment; coefficient was the estimated treatment effect) using 180 degrees of freedom.|The estimated coefficient was associated with Oncology Nurse Navigation with reference to Standard of Care.|The study was designed with co-primary objectives evaluating acute care utilization (ACU) and 6-month OS rate. Power/sample size were calculated based on the OS objective. The overall type I error rate was alpha=0.05; the co-primary objectives were powered at the 2-sided alpha=0.025 significance level. Three hundred evaluable subjects would have provided \>=93% power to detect a 20% reduction in ACU (assuming there were 6 ACUs per year in SOC arm). The study did not achieve targeted enrollment.||0.4773|-0.3680|0.80
92182826|NCT02434328|184264717|NON_INFERIORITY|The noninferiority margin was 4 letters.|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|-2.4|1.0||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.0|-2.4|<0.0001
92265404|NCT04409262|184432627|SUPERIORITY||Hazard Ratio (HR)|0.882||||0.4602|TWO_SIDED|95.0|0.63|1.23|||Log Rank|||||1.23|0.63|0.4602
92179215|NCT04602611|184255236|SUPERIORITY|||||||0.88||||||The a priori threshold for statistical significance was 0.025.|Fisher Exact|No adjustments were made in this analysis.||The study was designed with co-primary objectives evaluating acute care utilization (ACU) and 6-month OS rate. Power/sample size were calculated based on the OS objective. The overall type I error rate was alpha=0.05; the co-primary objectives were powered at the 2-sided alpha=0.025 significance level. Three hundred evaluable subjects would have provided \>=93% power to detect a 20% reduction in ACU (assuming there were 6 ACUs per year in SOC arm). The study did not achieve targeted enrollment.|The proportions of evaluable subjects surviving at 6 months were analyzed in a 2x2 contingency table using Fisher's Exact test. In the SOC arm, 52/87(60%) evaluable subjects were alive at 6 months and 35/87 (40%) were not. In the ONN + SOC arm, 58/95 (61%) evaluable subjects were alive at 6 months and 37/95 (39%) were not. The p-value estimated using Fisher's Exact test on this 2x2 contingency table was p=0.88.|||0.88
92179216|NCT04602611|184255237|SUPERIORITY|||||||0.74||||||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Fisher Exact|No adjustments were made in this analysis.|||The proportions of evaluable subjects surviving at 12 months were analyzed in a 2x2 contingency table using Fisher's Exact test. In the SOC arm, 23/87(26%) evaluable subjects were alive at 12 months and 64/87(74%) were not. In the ONN + SOC arm, 28/95 (29%) evaluable subjects were alive at 6 months and 67/95 (71%) were not. The p-value estimated using Fisher's Exact test on this 2x2 contingency table was p=0.74.|||0.74
92179217|NCT04602611|184255238|SUPERIORITY||Coefficient of negative binomial model|0.1574||||0.57|TWO_SIDED|95.0|-0.3905|0.7054||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Regression, Negative binomial|Model was estimated without adjustments (sole covariate was treatment; coefficient was the estimated treatment effect) using 180 degrees of freedom.|The estimated coefficient was associated with Oncology Nurse Navigation with reference to Standard of Care.|||0.7054|-0.3905|0.57
92179218|NCT04602611|184255239|SUPERIORITY||Hazard Ratio (HR)|0.864||||0.45|TWO_SIDED|95.0|0.57|1.309||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Log Rank|Unadjusted log-rank test|The estimated hazard ratio was associated with Oncology Nurse Navigation with reference to Standard of Care; the model was estimated without adjustments (the sole covariate was treatment).|||1.309|0.570|0.45
92179219|NCT04602611|184255240|SUPERIORITY||Coefficient of negative binomial model|-0.4194||||0.21|TWO_SIDED|95.0|-1.0763|0.2374||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Regression, Negative binomial|Model was estimated without adjustments (sole covariate was treatment; coefficient was the estimated treatment effect) using 180 degrees of freedom.|The estimated coefficient was associated with Oncology Nurse Navigation with reference to Standard of Care.|||0.2374|-1.0763|0.21
92265405|NCT04409262|184432628|SUPERIORITY||Hazard Ratio (HR)|0.982||||0.8664|TWO_SIDED|95.0|0.8|1.21|||Log Rank|||||1.21|0.80|0.8664
92265406|NCT04409262|184432629|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9569|TWO_SIDED|95.0|0.75|1.35|||Regression, Logistic|||||1.35|0.75|0.9569
92265407|NCT04409262|184432630|SUPERIORITY||Odds Ratio (OR)|1.09||||0.6331|TWO_SIDED|95.0|0.78|1.52|||Regression, Logistic|||||1.52|0.78|0.6331
92265408|NCT04409262|184432631|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9622|TWO_SIDED|95.0|0.7|1.4|||Regression, Logistic|||||1.40|0.70|0.9622
92265409|NCT04409262|184432632|SUPERIORITY||Odds Ratio (OR)|1.14||||0.485|TWO_SIDED|95.0|0.79|1.64|||Regression, Logistic|||||1.64|0.79|0.4850
92265410|NCT04409262|184432633|SUPERIORITY||Weighted % difference|-2.2||||0.5915|TWO_SIDED|95.0|-10.2|5.9|||Cochran-Mantel-Haenszel|||Day 28||5.9|-10.2|0.5915
92265411|NCT04409262|184432633|SUPERIORITY||Weighted % difference|-2.5||||0.5494|TWO_SIDED|95.0|-10.5|5.6|||Cochran-Mantel-Haenszel|||Day 60||5.6|-10.5|0.5494
92265412|NCT04409262|184432634|SUPERIORITY||Weighted % difference|-14.1||||0.259|TWO_SIDED|95.0|-37.4|9.2|||Cochran-Mantel-Haenszel|||Day 28||9.2|-37.4|0.2590
92265413|NCT04409262|184432634|SUPERIORITY||Weighted % difference|-14.6||||0.229|TWO_SIDED|95.0|-37.0|7.8|||Cochran-Mantel-Haenszel|||Day 60||7.8|-37.0|0.2290
92265414|NCT04409262|184432635|SUPERIORITY||Mean Difference (Final Values)|3.1125||||0.2434|TWO_SIDED|95.0|-2.16|8.38|||Regression, Linear|||||8.38|-2.16|0.2434
92265415|NCT04409262|184432636|SUPERIORITY||Weighted % difference|0.6||||0.8222|TWO_SIDED|95.0|-4.4|5.6|||Cochran-Mantel-Haenszel|||Day 14||5.6|-4.4|0.8222
92265416|NCT04409262|184432636|SUPERIORITY||Weighted % difference|-1.3||||0.6944|TWO_SIDED|95.0|-7.8|5.2|||Cochran-Mantel-Haenszel|||Day 28||5.2|-7.8|0.6944
92265417|NCT04409262|184432636|SUPERIORITY||Weighted % difference|-3.0||||0.3919|TWO_SIDED|95.0|-10.1|4.0|||Cochran-Mantel-Haenszel|||Day 60||4.0|-10.1|0.3919
92265418|NCT04409262|184432637|SUPERIORITY||Hazard Ratio (HR)|0.957||||0.6778|TWO_SIDED|95.0|0.78|1.18|||Log Rank|||||1.18|0.78|0.6778
92265419|NCT04409262|184432638|SUPERIORITY||Weighted % difference|-0.9||||0.7692|TWO_SIDED|95.0|-8.7|6.8|||Cochran-Mantel-Haenszel|||||6.8|-8.7|0.7692
92257662|NCT03345849|184417833|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|21.8|||<|0.0001|TWO_SIDED|95.0|15.8|27.8|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||27.8|15.8|<0.0001
92265420|NCT04409262|184432639|SUPERIORITY||Weighted % difference|-0.3||||0.9334|TWO_SIDED|95.0|-7.8|7.2|||Cochran-Mantel-Haenszel|||||7.2|-7.8|0.9334
92265421|NCT00948896|184432646|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Negative Binomial Regression|||Null Hypothesis: Within HIV-unexposed participants, there is no difference in the incidence of all grade 3-4 adverse events per PYAR between the control arm and the monthly DP arm.||||<0.0001
92179220|NCT04602611|184255241|SUPERIORITY||Odds Ratio (OR)|3.28|||<|0.01|TWO_SIDED|95.0|1.75|6.15||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Regression, Logistic|Model was estimated without adjustments (the sole covariate was treatment).|The estimated odds ratio was associated with Oncology Nurse Navigation with reference to Standard of Care.|||6.15|1.75|<0.01
92179221|NCT04602611|184255242|SUPERIORITY||Slope|-2.6939||||0.11|TWO_SIDED|95.0|-5.9538|0.5659||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Regression, Linear|Model was estimated without adjustments (sole covariate was treatment; slope was the estimated treatment effect) using 180 degrees of freedom.|The estimated slope was associated with Oncology Nurse Navigation with reference to Standard of Care.|||0.5659|-5.9538|0.11
92179222|NCT04602611|184255243|SUPERIORITY||Slope|0.1197||||0.09|TWO_SIDED|95.0|-0.0315|0.4378||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Regression, Linear|This univariate model was not adjusted for other covariates; this model was estimated using 84 degrees of freedom.|The estimated slope was associated with Oncology Nurse Navigation with reference to Standard of Care.|||0.4378|-0.0315|0.09
92179223|NCT03839446|184255280|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.777|TWO_SIDED|95.0|0.18|3.65|||Regression, Cox||Intermediate / Favorable vs Poor|Cytogenetic status||3.65|0.18|0.777
92179224|NCT03839446|184255280|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.2|TWO_SIDED|95.0|0.96|1.01|||Regression, Cox|||Percent of blasts present in the bone marrow.||1.01|0.96|0.200
92257663|NCT03345849|184417834|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints. This endpoint was a ranked key secondary endpoint for US/FDA regulatory purposes.|Adjusted Response Rate Difference|27.7|||<|0.0001|TWO_SIDED|95.0|15.7|39.8|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors endoscopic disease severity and number of prior failed biologic therapies.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors endoscopic disease severity and number of prior biologic failed.|||39.8|15.7|<0.0001
92257664|NCT03345849|184417835|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Least Squares (LS) Mean Difference|6.3|STANDARD_ERROR_OF_MEAN|1.05|<|0.0001|TWO_SIDED|95.0|4.2|8.3|||Mixed-effect Model Repeated Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, stratification factors, and Baseline value as covariate.||||8.3|4.2|<0.0001
92265422|NCT00948896|184432646|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Monthly DP arm compared to No chemoprevention arm|Negative Binomial Regression|||Null Hypothesis: Within HIV-unexposed participants, there is no difference in the incidence of elevated temperature adverse events per PYAR between the control arm and the monthly DP arm.||||<0.01
92179225|NCT03839446|184255280|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.014|TWO_SIDED|95.0|0.94|0.99|||Regression, Cox|||% CD33 expression in leukemia blasts||0.99|0.94|0.014
92179226|NCT03839446|184255281|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.801|TWO_SIDED|95.0|0.17|3.86|||Regression, Cox||Intermediate / Favorable vs Poor|Cytogenetic status||3.86|0.17|0.801
92179227|NCT03839446|184255281|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.168|TWO_SIDED|95.0|0.95|1.01|||Regression, Cox|||% bone marrow blasts||1.01|0.95|0.168
92179228|NCT03839446|184255281|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.015|TWO_SIDED|95.0|0.94|0.99|||Regression, Cox|||% CD33 expression in leukemia blasts||0.99|0.94|0.015
92265423|NCT00948896|184432646|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Monthly DP arm compared to No chemoprevention arm|Negative Binomial Regression|||Null Hypothesis: Within HIV-unexposed participants, there is no difference in the incidence of anemia adverse events per PYAR between the control arm and the monthly DP arm.||||<0.01
92265424|NCT00948896|184432646|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Monthly DP arm compared to No chemoprevention arm|Negative Binomial Regression|||Null Hypothesis: Within HIV-unexposed participants, there is no difference in the incidence of thrombocytopenia adverse events per PYAR between the control arm and the monthly DP arm.||||<0.05
92179229|NCT03142009|184255292|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.021|TWO_SIDED|95.0|-0.45|-0.04|||Mixed Models Analysis|||||-.04|-.45|.021
92179230|NCT03142009|184255293|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.075|TWO_SIDED|95.0|-0.01|0.15|||Mixed Models Analysis|||||0.15|-.01|.075
92179231|NCT04319887|184255294|OTHER||||||||||||||||||statistical analysis section may be deleted|||
92257665|NCT03345849|184417836|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|LS Mean Difference|21.842|STANDARD_ERROR_OF_MEAN|3.1933|<|0.0001|TWO_SIDED|95.0|15.566|28.118|||Mixed-effect Model Repeated Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, stratification factors, and Baseline value as covariate.||||28.118|15.566|<0.0001
92257666|NCT03345849|184417837|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|11.7||||0.0022|TWO_SIDED|95.0|4.2|19.2|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||19.2|4.2|0.0022
92265425|NCT00948896|184432646|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Monthly DP arm compared with no chemoprevention arm.|Negative Binomial Regression|||Null Hypothesis: Within HIV-exposed participants, there is no difference in the incidence of all grade 3-4 adverse events per PYAR between the control arm and the monthly DP arm.||||<0.05
92265426|NCT00948896|184432646|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Monthly DP arm compared with no chemoprevention arm.|Negative Binomial Regression|||Null Hypothesis: Within HIV-exposed participants, there is no difference in the incidence of anemia adverse events per PYAR between the control arm and the monthly DP arm||||<0.05
92265427|NCT00948896|184432646|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Monthly DP arm compared with the no chemoprevention arm.|Negative Binomial Regression|||Null Hypothesis: Within HIV-exposed participants, there is no difference in the incidence of elevated temperature adverse events per PYAR between the control arm and the monthly DP arm||||<0.05
92179232|NCT03982186|184255304|SUPERIORITY||Difference of proportions|-2.3|||=|0.848|TWO_SIDED|90.0|-5.97|1.38|||Mantel Haenszel|||||1.38|-5.97|= 0.848
92257667|NCT03345849|184417838|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|19.8|||<|0.0001|TWO_SIDED|95.0|11.3|28.4|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||28.4|11.3|<0.0001
92265428|NCT00948896|184432646|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Daily TS arm compare with the no chemoprevention arm.|Negative Binomial Regression|||Null Hypothesis: Within HIV-exposed participants, there is no difference in the incidence of anemia adverse events per PYAR between the control arm and the daily TS arm||||<0.01
92179233|NCT03982186|184255304|SUPERIORITY||Difference of proportions|7.4|||=|0.027|TWO_SIDED|90.0|1.07|13.68|||Mantel Haenszel|||||13.68|1.07|= 0.027
92257668|NCT03345849|184417839|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints. This endpoint was a ranked key secondary endpoint for US/FDA regulatory purposes.|Adjusted Response Rate Difference|10.8||||0.0071|TWO_SIDED|95.0|2.9|18.6|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||18.6|2.9|0.0071
92179234|NCT03982186|184255304|SUPERIORITY||Difference of proportions|9.1|||=|0.917|TWO_SIDED|90.0|4.16|14.07|||Mantel Haenszel|||||14.07|4.16|= 0.917
92179235|NCT03982186|184255304|SUPERIORITY||Difference of proportions|-6.7|||=|0.917|TWO_SIDED|90.0|-14.67|1.25|||Mantel Haenszel|||||1.25|-14.67|= 0.917
92179236|NCT04039113|184255377|SUPERIORITY||Rate Ratio|0.83||||0.1042|TWO_SIDED|90.0|0.64|1.06||1-sided p-value|Negative Binomial|||||1.06|0.64|0.1042
92179237|NCT04039113|184255377|SUPERIORITY||Rate Ratio|0.83||||0.2085|TWO_SIDED|95.0|0.61|1.11||2-sided p-value|Negative Binomial|||||1.11|0.61|0.2085
92179238|NCT00353496|184255389|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47|||<|0.001|TWO_SIDED|95.0|0.3|0.73||No p-value adjustment for multiple comparisons.|Log Rank|The log rank test was stratified according to progression status at baseline and prior therapy.||||0.73|0.30|<0.001
92179239|NCT02502266|184255504|SUPERIORITY||Hazard Ratio (HR)|0.649|||||TWO_SIDED|95.0|0.424|0.995|||||The hazard ratio estimate compares Cediranib and Olaparib to chemotherapy. If Cediranib and Olaparib is superior, the hazard ratio is \<1.0.|Experimental regimens with at least a 17% reduction in the estimated PFS event rate (compared to standard chemotherapy) (HR estimate \< 0.83) were recommended for further evaluation in the phase III trial.||0.995|0.424|
92179240|NCT02502266|184255504|SUPERIORITY||Hazard Ratio (HR)|0.832|||||TWO_SIDED|95.0|0.539|1.284|||||The hazard ratio estimate compares Cediranib to chemotherapy. If Cediranib is superior, the hazard ratio is \<1.0.|Experimental regimens with at least a 17% reduction in the estimated PFS event rate (compared to standard chemotherapy) (HR estimate \< 0.83) were recommended for further evaluation in the phase III trial.||1.284|0.539|
92179241|NCT02502266|184255504|SUPERIORITY||Hazard Ratio (HR)|1.149|||||TWO_SIDED|95.0|0.745|1.773|||||The hazard ratio estimate compares Olaparib to chemotherapy. If Olaparib is superior, the hazard ratio is \<1.0.|Experimental regimens with at least a 17% reduction in the estimated PFS event rate (compared to standard chemotherapy) (HR estimate \< 0.83) were recommended for further evaluation in the phase III trial.||1.773|0.745|
92179242|NCT02502266|184255505|SUPERIORITY||Hazard Ratio (HR)|0.796||||0.145|TWO_SIDED|98.0|0.597|1.06||The log rank test was stratified by the factors provided at randomization|Log Rank||The hazard ratio estimate compares Cediranib and Olaparib to chemotherapy. If Cediranib and Olaparib is superior, the hazard ratio is \<1.0.|Arm IV was suspended for futility at the end of Phase 2 analysis, so was not analyzed at the final analysis.||1.060|0.597|0.145
92179243|NCT02502266|184255505|SUPERIORITY||Hazard Ratio (HR)|0.972||||1|TWO_SIDED|98.0|0.726|1.0|||Log Rank|The log rank test was stratified by the factors provided at randomization.|The hazard ratio estimate compares Cediranib to chemotherapy. If Cediranib is superior, the hazard ratio is \<1.0.|Arm IV was suspended for futility at the end of Phase 2 analysis, so was not analyzed at the final analysis.||1.00|0.726|1.0
92179244|NCT02502266|184255506|SUPERIORITY||Hazard Ratio (HR)|1.027|||||TWO_SIDED|98.0|0.771|1.368||No p-values are provided because testing each of these null hypotheses was conditioned on first rejecting hypothesis concerning PFS.|||The hazard ratio estimate compares Cediranib and Olaparib to chemotherapy. If Cediranib and Olaparib is superior, the hazard ratio is \<1.0.|Arm IV was suspended for futility at the end of Phase 2 analysis, so was not analyzed at the final analysis.||1.368|0.771|
92183116|NCT02434328|184264741|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.5|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||5.1|-2.5|
92257669|NCT03345849|184417840|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Response Rate Difference|-1.4||||0.4494|TWO_SIDED|95.0|-5.2|2.4|||Chi-squared||Response rate difference = Upadacitinib - Placebo|||2.4|-5.2|0.4494
92257670|NCT03345849|184417841|OTHER|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|9.0||||0.1044|TWO_SIDED|95.0|-1.9|19.9|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||19.9|-1.9|0.1044
92257671|NCT03345849|184417842|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Adjusted Response Rate Difference|21.2|||<|0.0001|TWO_SIDED|95.0|14.3|28.2|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||28.2|14.3|<0.0001
92284319|NCT02087904|184472248|SUPERIORITY||LS Mean Difference|0.0||||0.984|TWO_SIDED|95.0|-0.73|0.71||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.71|-0.73|0.984
92257672|NCT03345849|184417843|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Adjusted Response Rate Difference|32.6|||<|0.0001|TWO_SIDED|95.0|21.5|43.7|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||43.7|21.5|<0.0001
92257673|NCT02511106|184417844|SUPERIORITY||Hazard Ratio (HR)|0.23|||<|0.0001|TWO_SIDED|95.0|0.18|0.3|||Log Rank|Determined using a log rank test stratified by stage, race and mutation type.|A hazard ratio \<1 favours AZD9291.|||0.30|0.18|<0.0001
92257674|NCT02511106|184417845|SUPERIORITY||Hazard Ratio (HR)|0.27|||<|0.0001|TWO_SIDED|95.0|0.21|0.34|||Log Rank|Determined using a log rank test stratified by stage, race and mutation type.|A hazard ratio \<1 favours AZD9291.|||0.34|0.21|<0.0001
92257675|NCT02511106|184417848|SUPERIORITY||Hazard Ratio (HR)|0.4913||||0.0004|TWO_SIDED|95.03|0.3307|0.7299|||Log Rank|Determined using a log rank test stratified by stage, race and mutation type.|A hazard ratio \<1 favours AZD9291.|||0.7299|0.3307|0.0004
92257676|NCT02511106|184417849|SUPERIORITY||Hazard Ratio (HR)|0.4912|||<|0.0001|TWO_SIDED|95.03|0.3439|0.7017|||Log Rank|Determined using a log rank test stratified by stage, race and mutation type.|A hazard ratio \<1 favours AZD9291.|||0.7017|0.3439|<0.0001
92179245|NCT02502266|184255506|OTHER|No p-values are provided because testing each of these null hypotheses was conditioned on first rejecting hypothesis concerning PFS.|Hazard Ratio (HR)|1.06|||||TWO_SIDED|98.0|0.795|1.413||No p-values are provided because testing each of these null hypotheses was conditioned on first rejecting hypothesis concerning PFS.|||The hazard ratio estimate compares Cediranib to chemotherapy. If Cediranib is superior, the hazard ratio is \<1.0.|Arm IV was suspended for futility at the end of Phase 2 analysis, so was not analyzed at the final analysis.||1.413|0.795|
92179246|NCT02231749|184255571|SUPERIORITY||Stratified Difference|16.0|||<|0.0001|TWO_SIDED|95.0|9.8|22.2|||DerSimonian and Laird Test|||||22.2|9.8|<0.0001
92179247|NCT02231749|184255572|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|99.8|0.44|0.89|||Log Rank|||||0.89|0.44|<0.0001
92179248|NCT02231749|184255573|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0331|TWO_SIDED|99.1|0.64|1.05|||Log Rank|||||1.05|0.64|0.0331
92179249|NCT02231749|184255574|SUPERIORITY||Stratified Difference|7.2||||0.0191|TWO_SIDED|95.0|1.8|12.7|||DerSimonian and Laird Test|||||12.7|1.8|0.0191
92179250|NCT02231749|184255575|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0003|TWO_SIDED|99.8|0.49|0.95|||Log Rank|||||0.95|0.49|0.0003
92179251|NCT02231749|184255576|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.8498|TWO_SIDED|99.1|0.79|1.23|||Log Rank|||||1.23|0.79|0.8498
92179252|NCT05030584|184255578|SUPERIORITY||Difference in LS-means|-1.55|||<|0.0001|TWO_SIDED|95.0|-2.04|-1.05||The type I error rate was controlled at a one-sided α=0.025 level.|Mixed model repeated measures (MMRM)|||"For category Change from baseline."||-1.05|-2.04|<0.0001
92179253|NCT02532621|184255598|NON_INFERIORITY|"Cumulative patency at 6 months was evaluated using the estimated patency from a Kaplan Meier survival analysis. The test statistic took the following form:~Z-test statistic = (P - 0.75) / SE (P) Where, (P) represents the Kaplan Meier estimate of cumulative patency at 6 months, and the standard error SE (P) is estimated using the method of Peto et al (1977)."|Cumulative patency|92.1|||<|0.001|ONE_SIDED|95.0||||A one-sided p-value of 0.025 was considered evidence of statistical significance for the primary study endpoint.|one-sided binomial exact test|||"The primary endpoint was evaluated by comparison with a performance goal of 75% that was determined from medical literature.~The sample size of 158 patients was estimated as follows:~* Kaplan-Meier estimate of cumulative patency rate at 6 months (exact binomial estimation for sample size)~* Type I error (alpha): 0.025 (one-sided)~* 80% Statistical power~* 8% Lost-to-follow up rate"||||<0.001
92179254|NCT00709956|184255629|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-1.5||||0.7883|TWO_SIDED|95.0|-12.3|9.4||If the primary endpoint reaches significance, treatment effect of the secondary endpoint is determined at a 2-sided nominal of 0.05. Since hierarchy of the endpoints to be tested has been predefined, no correction for multiple testing will be applied|Generalized linear model|Subject (sequence), treatment, and period as fixed effect||With a sample size of at least 63 patients and based on the assumptions on the primary endpoint (normal distribution, SD of the difference of 30 m) the study was designed to detect a significant treatment effect with 90% power, assuming a difference exceeding 12.5 m between the mean values of the 6MWD following the iloprost power 15 treatment and the one following the placebo treatment.||9.4|-12.3|0.7883
92179255|NCT04079517|184255632|NON_INFERIORITY|Comparing mean difference in symptom score (95% confidence intervals). Post hoc analysis. Not powered, but to give an indication of differences between standard dose (20mg) and the non-approved dose (10mg).|Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|||||||Post hoc analysis. Not powered, but to give an indication on differences in symptom score between standard dose (20mg) and the non-approved dose (10mg).||Post hoc analysis. Not powered, but to give an indication on differences between standard dose (20mg) and the non-approved dose (10mg).|||
92179256|NCT04940624|184255633|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-15.64|||=|0.061|TWO_SIDED|95.0|-31.3|0.24||The p-value was calculated by Rank Analysis of Covariance (ANCOVA) model using treatment group, age stratum (≤6 years, \>6 years), and rank of Baseline seizure frequency per 28 days as predictors.|ANCOVA||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% confidence interval (CI) were based on the Hodges-Lehmann estimation.|||0.24|-31.30|=0.061
92179257|NCT04940624|184255634|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-14.29|||=|0.089|TWO_SIDED|95.0|-30.51|1.53||The p-value was calculated by the Rank ANCOVA model using treatment group, age stratum (≤6 years, \>6 years), and rank of baseline seizure frequency per 28 days as predictors.|ANCOVA||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI were based on the Hodges-Lehmann estimation.|||1.53|-30.51|=0.089
92179258|NCT04940624|184255635|SUPERIORITY||Odds Ratio (OR)|3.22|||=|0.01|TWO_SIDED|95.0|1.3|7.96|||Cochran-Mantel-Haenszel|The p-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by age stratum (≤6 years, \>6 years).||||7.96|1.30|=0.010
92179259|NCT04940624|184255636|SUPERIORITY||Odds Ratio (OR)|3.59|||=|0.008|TWO_SIDED|95.0|1.36|9.49|||Cochran-Mantel-Haenszel|The p-value was based on CMH test stratified by age stratum (≤6 years, \>6 years).||||9.49|1.36|=0.008
92179260|NCT04940624|184255638|SUPERIORITY||Odds Ratio (OR)|2.51|||=|0.004|TWO_SIDED|95.0|1.33|4.72|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||||4.72|1.33|=0.004
92179261|NCT04940624|184255639|SUPERIORITY||Odds Ratio (OR)|2.58|||=|0.003|TWO_SIDED|95.0|1.37|4.87|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||||4.87|1.37|=0.003
92257677|NCT00723489|184417883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.86|TWO_SIDED|95.0|-0.3|0.2||P-value is not adjusted for multiple comparisons.|ANOVA||Mean (AD) - Mean (Non-AD)|||0.2|-0.3|0.86
92179262|NCT04940624|184255640|SUPERIORITY||Odds Ratio (OR)|1.12|||=|0.741|TWO_SIDED|95.0|0.56|2.26|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||Alertness||2.26|0.56|=0.741
92257678|NCT00723489|184417884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.86|TWO_SIDED|95.0|-0.2|0.2||P-value is not adjusted for multiple comparisons.|ANOVA||Mean (AD) - Mean (Non-AD)|||0.2|-0.2|0.86
92257679|NCT00723489|184417885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.1|TWO_SIDED|95.0|-0.5|0.05||P-value is not adjusted for multiple comparisons.|ANOVA||Mean (AD) - Mean (Non-AD)|||0.05|-0.5|0.10
92257680|NCT00723489|184417886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.66|TWO_SIDED|95.0|-0.2|0.3||P-value is not adjusted for multiple comparisons.|ANOVA||Mean (AD) - Mean (Non-AD)|||0.3|-0.2|0.66
92257681|NCT00723489|184417887|SUPERIORITY_OR_OTHER|||||||0.24||||||P-value is not adjusted for multiple comparisons.|Fisher Exact|||||||0.24
92257682|NCT00723489|184417888|SUPERIORITY_OR_OTHER|||||||0.43||||||P-value is not adjusted for multiple comparisons.|Fisher Exact|||||||0.43
92257683|NCT00723489|184417889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values) Day 30|0.1||||0.48|TWO_SIDED|95.0|-0.1|0.3||P-value is not adjusted for multiple comparisons.|Mixed Models Analysis||Mean (AD) - Mean (Non-AD)|This analysis excludes 1 SC-(AD) participant who did not seroconvert. Only participants who had peripheral blood T-cell samples collected from Day 0 to Day 30 as specified in the Outcome Measure Time Frame were included in analysis (1 SC -(Non-AD) participant was excluded). T-cell data from 3 SC-(Non-AD) and 1 SC-(AD) participant was excluded due to problems with sample processing||0.3|-0.1|0.48
92257684|NCT00723489|184417890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values) Day 30|-0.3||||0.036|TWO_SIDED|95.0|-0.5|-0.02||P-value is not adjusted for multiple comparisons.|Mixed Models Analysis||Mean (AD) - Mean (Non-AD)|Participants who did not seroconvert were excluded from this analysis (2 TC-(AD) and 5 TC-(Non-AD)). T-cell data from 4 TC-(AD) and 3 TC-(Non-AD) subjects was excluded due to problems with sample processing||-0.02|-0.5|0.036
92284320|NCT02087904|184472248|SUPERIORITY||LS Mean Difference|-0.5||||0.145|TWO_SIDED|95.0|-1.26|0.19||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.19|-1.26|0.145
92179263|NCT04940624|184255640|SUPERIORITY||Odds Ratio (OR)|1.04|||=|0.901|TWO_SIDED|95.0|0.54|2.02|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||Communication||2.02|0.54|=0.901
92284321|NCT02087904|184472248|SUPERIORITY||LS Mean Difference|-0.2||||0.527|TWO_SIDED|95.0|-0.96|0.49||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.49|-0.96|0.527
92284322|NCT02087904|184472249|SUPERIORITY||LS Mean Difference|0.1||||0.836|TWO_SIDED|95.0|-0.71|0.87||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.87|-0.71|0.836
92284323|NCT02087904|184472249|SUPERIORITY||LS Mean Difference|-0.1||||0.738|TWO_SIDED|95.0|-0.94|0.66||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.66|-0.94|0.738
92257685|NCT00723489|184417891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values) Day 30|0.04||||0.82|TWO_SIDED|95.0|-0.3|0.4||P-value is not adjusted for multiple comparisons.|Mixed Models Analysis||Mean (AD) - Mean (Non-AD)|This analysis excludes 1 SC-(AD) participant who did not seroconvert. Only participants who had peripheral blood T-cell samples collected from Day 0 to Day 30 as specified in the Outcome Measure Time Frame were included in analysis (1 SC -(Non-AD) participant was excluded). T-cell data from 3 SC-(Non-AD) and 1 SC-(AD) participant was excluded due to problems with sample processing||0.4|-0.3|0.82
92284324|NCT02087904|184472249|SUPERIORITY||LS Mean Difference|-0.4||||0.3|TWO_SIDED|95.0|-1.22|0.38||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.38|-1.22|0.3
92257686|NCT00723489|184417892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values) Day 30|-0.4||||0.045|TWO_SIDED|95.0|-0.7|-0.01||P-value is not adjusted for multiple comparisons.|Mixed Models Analysis||Mean (AD) - Mean (Non-AD)|Participants who did not seroconvert were excluded from this analysis (2 TC-(AD) and 5 TC-(Non-AD)). T-cell data from 4 TC-(AD) and 3 TC-(Non-AD) subjects was excluded due to problems with sample processing||-0.01|-0.7|0.045
92257687|NCT02274311|184417894|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"Measures of central tendency (mean) and variability (range and/or SD) were used to describe numeric variables. Paired Student's t test was used to verify the mean differences between dependent normally distributed variables. Wilcoxon sign test was performed to non-normally distributed dependent variables.~Asignificance level of 5%was adopted for all statistical tests (P \<.05)."||||< 0.05
92257688|NCT03233308|184417916|OTHER|||||||0.001|||||||t-test, 1 sided|||Mean Change from Baseline||||0.0010
92257689|NCT03233308|184417917|OTHER|||||||0.0003|||||||t-test, 1 sided|||Mean change from baseline (percent difference from baseline)||||0.0003
92284325|NCT02087904|184472250|SUPERIORITY||LS Mean Difference|0.5||||0.992|TWO_SIDED|95.0|-101.59|102.62||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||102.62|-101.59|0.992
92284326|NCT02087904|184472250|SUPERIORITY||LS Mean Difference|3.6||||0.948|TWO_SIDED|95.0|-103.95|111.1||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||111.10|-103.95|0.948
92284327|NCT02087904|184472250|SUPERIORITY||LS Mean Difference|-33.1||||0.523|TWO_SIDED|95.0|-134.76|68.65||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||68.65|-134.76|0.523
92284328|NCT02087904|184472250|SUPERIORITY||LS Mean Difference|4.2||||0.799|TWO_SIDED|95.0|-28.47|36.95||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||36.95|-28.47|0.799
92284329|NCT02087904|184472250|SUPERIORITY||LS Mean Difference|9.0||||0.609|TWO_SIDED|95.0|-25.62|43.64||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||43.64|-25.62|0.609
92284330|NCT02087904|184472250|SUPERIORITY||LS Mean Difference|1.6||||0.923|TWO_SIDED|95.0|-30.97|34.19||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||34.19|-30.97|0.923
92284331|NCT02087904|184472250|SUPERIORITY||LS Mean Difference|2.1||||0.937|TWO_SIDED|95.0|-49.88|54.08||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||54.08|-49.88|0.937
92284332|NCT02087904|184472250|SUPERIORITY||LS Mean Difference|4.1||||0.882|TWO_SIDED|95.0|-50.68|58.95||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||58.95|-50.68|0.882
92284333|NCT02087904|184472250|SUPERIORITY||LS Mean Difference|13.8||||0.602|TWO_SIDED|95.0|-38.05|65.55||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||65.55|-38.05|0.602
92257690|NCT03233308|184417918|OTHER|||||||0.0687|||||||t-test, 1 sided|||Mean change from baseline -EVP||||0.0687
92257691|NCT03233308|184417918|OTHER||||||<|0.0001|||||||t-test, 1 sided|||Mean change from baseline -IOP||||<0.0001
92284334|NCT02087904|184472251|SUPERIORITY||LS Mean Difference|-41.7||||0.554|TWO_SIDED|95.0|-180.49|97.04||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||97.04|-180.49|0.554
92284335|NCT02087904|184472251|SUPERIORITY||LS Mean Difference|2.7||||0.97|TWO_SIDED|95.0|-140.86|146.31||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||146.31|-140.86|0.97
92284336|NCT02087904|184472251|SUPERIORITY||LS Mean Difference|-26.1||||0.713|TWO_SIDED|95.0|-165.47|113.32||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||113.32|-165.47|0.713
92257692|NCT03233308|184417919|OTHER|||||||0.0087|||||||t-test, 1 sided|||Mean change from baseline (percent difference from baseline) -EVP||||0.0087
92257693|NCT03233308|184417919|OTHER||||||<|0.0001|||||||t-test, 1 sided|||Mean change from baseline (percent difference from baseline)- IOP||||<0.0001
92257694|NCT01955005|184417972|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||This was a 2x2 comparison using Fisher's exact due to low expected cell count. Fisher's exact p\<0.001||||<0.001
92257695|NCT01955005|184417973|SUPERIORITY_OR_OTHER||Z score|568.5||||0.73|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.73
92257696|NCT01955005|184417974|SUPERIORITY_OR_OTHER||Table Probability|0.0142||||0.02|TWO_SIDED||||||Fisher's Exact|||||||0.02
92257697|NCT01828567|184417975|OTHER|A logistic regression model was used. The null hypothesis is that there is no difference in improvement prevention program enrollment between the usual care and intervention arms by month 6.|Odds Ratio (OR)|2.54|||<|0.0001|TWO_SIDED|95.0|1.66|3.89|||Regression, Logistic|||The first primary outcome is the cumulative enrollment in prevention programs over the six months of follow up. This will be assessed via self-report at months 1 and 6. As defined by the eligibility criteria, all patients will have a value of 0 at baseline.||3.89|1.66|<.0001
92179264|NCT04940624|184255640|SUPERIORITY||Odds Ratio (OR)|1.15|||=|0.693|TWO_SIDED|95.0|0.58|2.28|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||Disruptive Behaviors||2.28|0.58|=0.693
92179265|NCT04940624|184255641|SUPERIORITY||Least Square Mean Difference|-3.03|||=|0.189|TWO_SIDED|95.0|-7.59|1.52||P-value was based on MMRM analysis with change from baseline as outcome and baseline score as fixed continuous effect; treatment group, age stratum, analysis visit, and analysis visit by treatment group interaction as fixed categorical effects.|MMRM|||||1.52|-7.59|=0.189
92257698|NCT01828567|184417977|OTHER||Mean Difference (Final Values)|1.5||||0.204|TWO_SIDED|95.0|-0.8|3.7||A general linear model with an unstructured covariance matrix to take into account the within-patient correlation between repeated measures over time.|Repeated Measures|This model assumes the groups have equal baseline means.|We estimate the parameters in the model using the SAS procedure MIXED (SAS Version 9.4, Cary, NC). The null hypothesis is that there is no difference in improvement in PAM scores between the usual care and intervention arms at 1 month.|For the primary hypothesis we will be examining the effect during the 1-month long intervention delivery period.||3.7|-0.8|0.204
92257699|NCT01828567|184417978|EQUIVALENCE|This model assumes the groups have equal baseline means, which is appropriate for a randomized controlled trial and is equivalent in efficiency to an ANCOVA model.|Mean Difference (Final Values)|2.5||||0.03|TWO_SIDED|95.0|0.2|4.7||A general Linear model with an unstructured covariance matrix to take into account the within-patient correlation between repeated measures over time. For the primary hypothesis we will be assessing sustainability at 6 months.|Repeated Measures|This model assumes the groups have equal baseline means.|We estimate the parameters in the model using the SAS procedure MIXED (SAS Version 9.4, Cary, NC). The null hypothesis is that there is no difference in improvement in PAM scores between the usual care and intervention arms at 6 month.|||4.7|0.2|0.030
92179266|NCT04940624|184255642|SUPERIORITY||Odds Ratio (OR)|3.65|||<|0.001|TWO_SIDED|95.0|1.87|7.13|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||||7.13|1.87|<0.001
92179267|NCT04940624|184255643|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-9.97|||=|0.565|TWO_SIDED|95.0|-29.01|7.87|||ANCOVA|The Rank ANCOVA model used treatment group, age stratum (≤6 years, \>6 years), and rank of Baseline seizure frequency per 28 days as predictors.|The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI were based on the Hodges-Lehmann estimation.|||7.87|-29.01|=0.565
92179268|NCT04940624|184255644|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-8.13|||=|0.637|TWO_SIDED|94.0|-26.31|10.13|||ANCOVA|The Rank ANCOVA model used treatment group, age stratum (≤6 years, \>6 years), and rank of Baseline seizure frequency per 28 days as predictors.|The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI were based on the Hodges-Lehmann estimation.|||10.13|-26.31|=0.637
92257700|NCT01828567|184417980|EQUIVALENCE|This model assumes the groups have equal baseline means|Mean Difference (Final Values)|0.7||||0.33|TWO_SIDED|95.0|-0.7|2.2|||Repeated Measures|A general linear model with an unstructured covariance matrix to take into account the within-patient correlation between repeated measures over time.|We estimate the parameters in the model using the SAS procedure MIXED (SAS Version 9.4, Cary, NC). The null hypothesis is that there is no difference in improvement in FRS scores between the usual care and intervention arms at 6 month.|Our secondary outcome of interest is the Framingham Risk Score, measured at baseline and month 6.||2.2|-0.7|0.330
92257701|NCT01099761|184417985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|TWO_SIDED||||||ANCOVA|||||||0.023
92257702|NCT01099761|184417985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|TWO_SIDED||||||ANCOVA|||||||0.012
92257703|NCT01099761|184417985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.435|TWO_SIDED||||||ANCOVA|||||||0.435
92257704|NCT01099761|184417986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|TWO_SIDED||||||ANCOVA|||||||0.039
92284337|NCT02087904|184472251|SUPERIORITY||LS Mean Difference|-25.1||||0.272|TWO_SIDED|95.0|-70.12|19.88||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||19.88|-70.12|0.272
92179269|NCT04940624|184255645|SUPERIORITY||Least Square Mean Difference|0.79|||||TWO_SIDED|95.0|-3.81|5.4|||||A linear model with treatment group and age stratum as factors and baseline percentage as a covariate was used for analysis.|||5.40|-3.81|
92179270|NCT04940624|184255646|SUPERIORITY||Least Square Mean Difference|5.6|||||TWO_SIDED|95.0|0.1|11.2||||||||11.2|0.1|
92179271|NCT04940624|184255647|SUPERIORITY||Least Square Mean Difference|-1.1|||||TWO_SIDED|95.0|-3.1|1.0|||||Least square mean difference was estimated using a linear model with treatment group and age stratum as factors.|||1.0|-3.1|
92179272|NCT04479787|184255648|OTHER||||||<|0.0001|||||||Two-sided Z-Test|||||||<0.0001
92257705|NCT03325010|184417993|SUPERIORITY||Mean Difference (Net)|-2.1|STANDARD_ERROR_OF_MEAN|1.5||0.1768|TWO_SIDED|95.0|-5.2|1.0||Nominal p-value is considered statistically significant if less than 0.05. To control for multiplicity, comparisons were tested sequentially.|Mixed Models Analysis|||||1.0|-5.2|0.1768
92257706|NCT03325010|184417994|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1095|TWO_SIDED|95.0|-0.6|0.1||To control for multiplicity, comparisons were tested sequentially. Nominal p-value for this outcome measure would only be evaluated for statistical significance if the primary outcome measure was statistically significant.|Mixed Models Analysis|||||0.1|-0.6|0.1095
92257707|NCT03325010|184417995|SUPERIORITY||Risk Difference (RD)|3.0||||0.819|TWO_SIDED|||||To control for multiplicity, comparisons were tested sequentially. Nominal p-value for this outcome measure would only be evaluated for statistical significance if the primary and preceding secondary outcome measures were statistically significant.|Cochran-Mantel-Haenszel|Stratified by baseline weight group (\<50 kg, ≥50 kg).||||||0.8190
92257708|NCT03325010|184417996|SUPERIORITY||Risk Difference (RD)|33.6||||0.0008|TWO_SIDED|||||To control for multiplicity, comparisons were tested sequentially. Nominal p-value for this outcome measure would only be evaluated for statistical significance if the primary and preceding secondary outcome measures were statistically significant.|Cochran-Mantel-Haenszel|Stratified by baseline weight group (\<50 kg, ≥50 kg)||||||0.0008
92257709|NCT02614261|184417997|SUPERIORITY||LSMean Difference|-2.09|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-2.92|-1.26|||Mixed Models Analysis|||||-1.26|-2.92|<.001
92257710|NCT02614261|184417997|SUPERIORITY||LSMean Difference|-1.88|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-2.71|-1.05|||Mixed Models Analysis|||||-1.05|-2.71|<.001
92257711|NCT02614261|184417998|SUPERIORITY||Odds Ratio (OR)|1.623||||0.004|TWO_SIDED|95.0|1.167|2.256|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥50%,||2.256|1.167|.004
92257712|NCT02614261|184417998|SUPERIORITY||Odds Ratio (OR)|1.788|||<|0.001|TWO_SIDED|95.0|1.291|2.474|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥50%||2.474|1.291|<.001
92284338|NCT02087904|184472251|SUPERIORITY||LS Mean Difference|11.1||||0.64|TWO_SIDED|95.0|-35.63|57.8||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||57.8|-35.63|0.64
92284339|NCT02087904|184472251|SUPERIORITY||LS Mean Difference|-11.8||||0.608|TWO_SIDED|95.0|-56.94|33.38||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||33.38|-56.94|0.608
92284340|NCT02087904|184472251|SUPERIORITY||LS Mean Difference|-40.3||||0.319|TWO_SIDED|95.0|-119.88|39.3||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||39.3|-119.88|0.319
92284341|NCT02087904|184472251|SUPERIORITY||LS Mean Difference|24.4||||0.56|TWO_SIDED|95.0|-58.05|106.91||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||106.91|-58.05|0.56
92179273|NCT04479787|184255649|OTHER||||||<|0.0001|||||||Two-sided Z-Test|||||||< 0.0001
92257713|NCT02614261|184417998|SUPERIORITY||Odds Ratio (OR)|1.498||||0.102|TWO_SIDED|95.0|0.923|2.43|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥75%||2.430|0.923|.102
92257714|NCT02614261|184417998|SUPERIORITY||Odds Ratio (OR)|1.819||||0.011|TWO_SIDED|95.0|1.146|2.888|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥75%||2.888|1.146|.011
92257715|NCT02614261|184417998|SUPERIORITY||Odds Ratio (OR)|0.761||||0.729|TWO_SIDED|95.0|0.163|3.563|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥100%||3.563|0.163|0.729
92257716|NCT02614261|184417998|SUPERIORITY||Odds Ratio (OR)|1.897||||0.276|TWO_SIDED|95.0|0.6|5.998|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥100%||5.998|0.600|.276
92257717|NCT02614261|184417999|SUPERIORITY||LSMean Difference|5.06|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|2.12|7.99|||Mixed Models Analysis|||||7.99|2.12|<.001
92257718|NCT02614261|184417999|SUPERIORITY||LSMean Difference|6.29|STANDARD_ERROR_OF_MEAN|1.66|<|0.001|TWO_SIDED|95.0|3.03|9.55|||Mixed Models Analysis|||||9.55|3.03|<.001
92284342|NCT02087904|184472251|SUPERIORITY||LS Mean Difference|-28.1||||0.489|TWO_SIDED|95.0|-107.97|51.82||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||51.82|-107.97|0.489
92284343|NCT02087904|184472252|SUPERIORITY||LS Mean Difference|0.0||||0.972|TWO_SIDED|95.0|-0.015|0.015||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.015|-0.015|0.972
92179274|NCT04479787|184255650|OTHER||||||<|0.0001|||||||Two-sample t-test.|||||||<0.0001
92179275|NCT04479787|184255651|OTHER||||||<|0.0001|||||||Two-sample t-test.|||||||<0.0001
92179276|NCT04479787|184255652|OTHER||||||<|0.0001|||||||Two-sided Z-Test|||||||<0.0001
92179277|NCT04479787|184255653|OTHER||||||<|0.0001|||||||Two-sided Z-Test|||||||<0.0001
92257719|NCT02614261|184418000|SUPERIORITY||LSMean Difference|-2.51|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-3.27|-1.76|||Mixed Models Analysis|||||-1.76|-3.27|<.001
92257720|NCT02614261|184418000|SUPERIORITY||LSMean Difference|-2.01|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-2.77|-1.26|||Mixed Models Analysis|||||-1.26|-2.77|<.001
92257721|NCT02614261|184418001|SUPERIORITY||LSMean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.1||0.181|TWO_SIDED|95.0|-0.34|0.06|||Mixed Models Analysis|||||0.06|-0.34|.181
92257722|NCT02614261|184418001|SUPERIORITY||LSMean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.1||0.006|TWO_SIDED|95.0|-0.48|-0.08|||Mixed Models Analysis|||||-0.08|-0.48|.006
92179278|NCT04479787|184255654|OTHER||||||<|0.0001|||||||Two-sample t-test.|||||||<0.0001
92179279|NCT04479787|184255655|OTHER||||||<|0.0001|||||||Two-sample t-test.|||||||<0.0001
92179280|NCT05648890|184255656|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation between MMSE and TEGEST test before operation.||||<0.0001
92179281|NCT05648890|184255657|OTHER|Spearman's ran correlation coefficient was used .|||||<|0.001|||||||Spearman's ran correlation coefficient|Spearman's ran correlation coefficient was used for correlation between two quantities.||Correlation between MMSE and TEGEST after operation||||< .001
92179282|NCT05648890|184255658|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation between TEGEST and Clock drawing test before operation.|Spearman's rank correlation coefficient was used.|||<0.0001
92179283|NCT05648890|184255659|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.001|||||||Spearman's rank correlation coefficient|||Correlation between TEGEST and clock drawing test after operation.||||<0.001
92179284|NCT05648890|184255660|OTHER|Spearman's rank correlation coefficient.|||||<|0.001|||||||Spearman's rank correlation coefficien|||Correlation between MMSE and Clock drawing test before operation.||||<0.001
92179285|NCT05648890|184255660|OTHER|Mann-Whitney U test before operation.||||||0.023|||||||Wilcoxon (Mann-Whitney)|||Clock drawing before operation.||||0.023
92257723|NCT02614261|184418002|SUPERIORITY||LSMean Difference|-22.71|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|-31.74|-13.69|||Mixed Models Analysis|||||-13.69|-31.74|<.001
92257724|NCT02614261|184418002|SUPERIORITY||LSMean Difference|-18.09|STANDARD_ERROR_OF_MEAN|4.58|<|0.001|TWO_SIDED|95.0|-27.09|-9.09|||Mixed Models Analysis|||||-9.09|-27.09|<.001
92257725|NCT02614261|184418003|SUPERIORITY||LSMean Difference|-8.74|STANDARD_ERROR_OF_MEAN|3.9||0.025|TWO_SIDED|95.0|-16.39|-1.08|||ANCOVA|||||-1.08|-16.39|.025
92179286|NCT05648890|184255661|OTHER|Spearman's rank correlation coefficient|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation between Clock drawing test and MMSE after operation.||||<0.0001
92257726|NCT02614261|184418003|SUPERIORITY||LSMean Difference|-5.49|STANDARD_ERROR_OF_MEAN|3.88||0.157|TWO_SIDED|95.0|-13.1|2.12|||ANCOVA|||||2.12|-13.10|.157
92257727|NCT02614261|184418004|SUPERIORITY|||||||0.263|||||||Cochran-Mantel-Haenszel|||||||.263
92257728|NCT02614261|184418004|SUPERIORITY|||||||0.29|||||||Cochran-Mantel-Haenszel|||||||.290
92257729|NCT00113555|184418024|SUPERIORITY||Mean Difference (Net)|-1.16|STANDARD_DEVIATION|1.05|<|0.001|TWO_SIDED|95.0|-1.325|-1.003|||Wilcoxon (Mann-Whitney)|||Wilcoxon's matched pairs signed ranks test was used to determine the significance of differences between scores at follow-up compared to pre-implant.||-1.003|-1.325|<0.001
92179287|NCT05648890|184255662|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation of Clinical frailty scale with MMSE before operation.||||<0.0001
92179288|NCT05648890|184255662|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation of Clinical frailty scale with TEGEST before operation.||||<0.0001
92179289|NCT05648890|184255662|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation of Clinical frailty scale with Clock drawing test before operation.||||<0.0001
92179290|NCT05648890|184255663|OTHER|Mann-Whitney U test.||||||0.562|||||||Wilcoxon (Mann-Whitney)|||Respondents living at a house or in apartment and relationships with Clinical frailty scale.||||.562
92179291|NCT05648890|184255664|OTHER|Mann-Whitney test was used.||||||0.129|||||||Wilcoxon (Mann-Whitney)|||Respondents living with with family or alone and relationship with Clinical frailty scale.||||0.129
92179292|NCT05648890|184255665|OTHER|Mann-Whintney test was used.||||||0.019|||||||Wilcoxon (Mann-Whitney)|||Relationship between respondents living at home with stairs and respondents living at home with an elevator and Clinical frailty scale.||||0.019
92257730|NCT04474366|184418033|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||||||0.72
92257731|NCT01700140|184418043|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0000
92179293|NCT05550636|184255666|OTHER||adjusted gMean Ratio (%)|92.3|||||TWO_SIDED|90.0|79.3|107.4|||||Adjusted gMean ratio of test/reference (T/R). Intra-individual geometric coefficient of variation (gCV) = 23.9%|The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoint was logtransformed (natural logarithm) prior to fitting the ANOVA model. This model includes effects accounting for the sources of variation: treatment. The effect 'subjects' is considered as random, whereas the treatment effect is considered as fixed. Quantities were then back-transformed to the original scale to provide the point estimate and 90% confidence interval.||107.4|79.3|
92179294|NCT05550636|184255667|OTHER||adjusted gmean Ratio (%)|78.0|||||TWO_SIDED|90.0|68.9|88.2|||||Adjusted gMean ratio of test/reference (T/R). Intra-individual geometric coefficient of variation (gCV) = 19.4%|The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoint was logtransformed (natural logarithm) prior to fitting the ANOVA model. This model includes effects accounting for the sources of variation: treatment. The effect 'subjects' is considered as random, whereas the treatment effect is considered as fixed. Quantities were then back-transformed to the original scale to provide the point estimate and 90% confidence interval.||88.2|68.9|
92257732|NCT01700140|184418043|SUPERIORITY_OR_OTHER|||||||0.2284|||||||Fisher Exact|||||||0.2284
92257733|NCT01700140|184418043|SUPERIORITY_OR_OTHER|||||||0.2549|||||||Cochran-Armitage test|||||||0.2549
92257734|NCT01700140|184418044|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92257735|NCT01700140|184418044|SUPERIORITY_OR_OTHER|||||||0.1527|||||||Fisher Exact|||||||0.1527
92257736|NCT01700140|184418044|SUPERIORITY_OR_OTHER|||||||0.1864|||||||Cochran-Armitage test|||||||0.1864
92257737|NCT01700140|184418045|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.918||||0.8361|TWO_SIDED|95.0|0.266|3.172|||Generalized Wilcoxon test|||||3.172|0.266|0.8361
92257738|NCT01700140|184418045|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.423||||0.0724|TWO_SIDED|95.0|0.144|1.237|||Generalized Wilcoxon test|||||1.237|0.144|0.0724
92257739|NCT01700140|184418046|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.213||||0.6466|TWO_SIDED|95.0|0.616|2.388|||Generalized Wilcoxon test|||||2.388|0.616|0.6466
92257740|NCT01700140|184418046|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.828||||0.2701|TWO_SIDED|95.0|0.566|1.21|||Generalized Wilcoxon test|||||1.210|0.566|0.2701
92257741|NCT01700140|184418047|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the first irradiation||||1.0000
92257742|NCT01700140|184418047|SUPERIORITY_OR_OTHER|||||||0.1051|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the first irradiation||||0.1051
92257743|NCT01700140|184418047|SUPERIORITY_OR_OTHER|||||||0.4856|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the second irradiation||||0.4856
92257744|NCT01700140|184418047|SUPERIORITY_OR_OTHER|||||||0.1047|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the second irradiation||||0.1047
92257745|NCT01700140|184418047|SUPERIORITY_OR_OTHER|||||||0.1617|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the third irradiation||||0.1617
92257746|NCT01700140|184418047|SUPERIORITY_OR_OTHER|||||||0.3099|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the third irradiation||||0.3099
92257747|NCT01700140|184418048|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the first irradiation||||1.0000
92257748|NCT01700140|184418048|SUPERIORITY_OR_OTHER|||||||0.1051|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the first irradiation||||0.1051
92257749|NCT01700140|184418048|SUPERIORITY_OR_OTHER|||||||0.6761|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the second irradiation||||0.6761
92257750|NCT01700140|184418048|SUPERIORITY_OR_OTHER|||||||0.3513|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the second irradiation||||0.3513
92257751|NCT01700140|184418048|SUPERIORITY_OR_OTHER|||||||0.206|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the third irradiation||||0.2060
92257752|NCT01700140|184418048|SUPERIORITY_OR_OTHER|||||||0.0511|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the third irradiation||||0.0511
92257753|NCT00864123|184418170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0|STANDARD_DEVIATION|6.3|<|0.05||95.0|||||ANOVA|||Data were analyzed with separate 2 (site: Florida, MGH) by 2 (condition: CBT+DCS, CBT+Placebo) by 3 (time: pre-treatment, mid-treatment, post-treatment; Dependent variables: CY-BOCS Total Score) fixed-effects linear regression with time as the repeated measure. Cohen's d was used to examine the magnitude of treatment effects.||||<0.05
92257754|NCT00864123|184418171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|1.1|<|0.05|TWO_SIDED|95.0|||||ANOVA|||Data were analyzed with separate 2 (site: Florida, MGH) by 2 (condition: CBT+DCS, CBT+Placebo) by 3 (time: pre-treatment, mid-treatment, post-treatment; Dependent variables: CGI-Severity) fixed-effects linear regression with time as the repeated measure. Cohen's d was used to examine the magnitude of treatment effects.||||<0.05
92257755|NCT03455530|184418189|SUPERIORITY||Mean Difference (Final Values)|0.73|||||TWO_SIDED|95.0|0.45|1.19|||Mixed Models Analysis||Ratio based on the mean difference from the log scale.|||1.19|0.45|
92257756|NCT03455530|184418189|SUPERIORITY||Mean Difference (Final Values)|1.34|||||TWO_SIDED|95.0|0.55|3.24|||Mixed Models Analysis||Ratio based on the mean difference from the log scale.|||3.24|0.55|
92257757|NCT00908895|184418212|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|70.0|STANDARD_DEVIATION|25.0|<|0.05||95.0|||||Chi-squared|||We assess that 15% is a significative strength difference. According to a 80% study power, a SD at 25% and a 20% lost to follow-up, we found 118 patients for the all study.||||<0.05
92257758|NCT00908895|184418213|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|90.0|STANDARD_DEVIATION|10.0|<|0.05||95.0|80.0|100.0|||Chi-squared|||||100|80|<0.05
92257759|NCT03350724|184418220|SUPERIORITY|||||||0.039||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.039
92257760|NCT03350724|184418221|SUPERIORITY|||||||0.037||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.037
92257761|NCT03350724|184418222|SUPERIORITY|||||||0.032|||||||Z-Test for Two Population Proportions|||||||0.032
92257762|NCT03350724|184418223|SUPERIORITY|||||||0.171||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.171
92257763|NCT03350724|184418224|SUPERIORITY|||||||0.484||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.484
92257764|NCT03350724|184418225|SUPERIORITY|||||||0.368||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.368
92257765|NCT03350724|184418226|SUPERIORITY|||||||0.308||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.308
92257766|NCT03350724|184418227|SUPERIORITY|||||||0.999||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.999
92257767|NCT03350724|184418228|SUPERIORITY|||||||0.015||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.015
92257768|NCT03350724|184418229|SUPERIORITY|||||||0.021||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.021
92257769|NCT03350724|184418230|SUPERIORITY|||||||0.035||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.035
92257770|NCT03350724|184418231|SUPERIORITY|||||||0.444||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.444
92257771|NCT03350724|184418232|SUPERIORITY|||||||0.765||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.765
92257772|NCT03350724|184418233|SUPERIORITY|||||||0.941||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.941
92257773|NCT03350724|184418234|SUPERIORITY|||||||0.421||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.421
92257774|NCT03350724|184418235|SUPERIORITY|||||||0.357||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.357
92257775|NCT03350724|184418236|SUPERIORITY|||||||0.22||||||Unadjusted p-value|Paired t-Test|Unadjusted p-value||||||0.22
92257776|NCT03350724|184418237|SUPERIORITY|||||||0.882||||||Unadjusted p-value|Paired t-Test|Unadjusted p-value||||||0.882
92257777|NCT03350724|184418238|SUPERIORITY|||||||0.64||||||Unadjusted p-value|Paired t-Test|Unadjusted p-value||||||0.64
92257778|NCT03350724|184418239|SUPERIORITY|||||||0.967||||||Unadjusted p-value|Paired t-Test|Unadjusted p-value||||||0.967
92257779|NCT03350724|184418240|SUPERIORITY|||||||0.375||||||Unadjusted p-value|Paired t-Test|Unadjusted p-value||||||0.375
92257780|NCT04221945|184418253|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0004|TWO_SIDED|95.0|0.59|0.87||One sided p-value|Log Rank|Stratified by planned type of external beam radiation therapy (EBRT), stage at screening, and planned total radiotherapy dose.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||0.87|0.59|0.0004
92183117|NCT02434328|184264741|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-5.9|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||3.1|-5.9|
92257781|NCT04221945|184418254|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0076|TWO_SIDED|95.0|0.57|0.94||One sided p-value|Log Rank|Stratified by planned type of external beam radiation therapy (EBRT), stage at screening, and planned total radiotherapy dose.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||0.94|0.57|0.0076
92257782|NCT04221945|184418255|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0011|TWO_SIDED|95.0|0.58|0.89||One-sided p-value|Log Rank|Stratified by planned type of EBRT, stage at screening, and planned total radiotherapy dose.|Based on Cox regression model with Efron's method of tie handling|||0.89|0.58|0.0011
92257783|NCT04221945|184418256|OTHER||Difference in Survival Rate|10.9|||||TWO_SIDED|95.0|5.1|16.7|||||Pembrolizumab minus Placebo|||16.7|5.1|
92257784|NCT04221945|184418257|OTHER||Difference in Survival Rate|7.9|||||TWO_SIDED|95.0|2.3|13.5|||||Pembrolizumab minus Placebo|||13.5|2.3|
92257785|NCT04221945|184418258|OTHER||Difference in Survival Rate|7.4|||||TWO_SIDED|95.0|2.3|12.5|||||Pembrolizumab minus Placebo|||12.5|2.3|
92257786|NCT04221945|184418259|OTHER||Difference in Percentage|3.3||||0.1307|TWO_SIDED|95.0|-2.5|9.1|||One-sided p-value for testing||Pembrolizumab minus Placebo||Miettinen \& Nurminen method stratified by planned type of EBRT, Stage at screening and planned total radiotherapy dose.|9.1|-2.5|0.1307
92257787|NCT04221945|184418260|OTHER||Difference in Percentage|0.7||||0.4082|TWO_SIDED|95.0|-5.2|6.7|||One-sided p-value for testing||Pembrolizumab minus Placebo||Miettinen \& Nurminen method stratified by planned type of EBRT, Stage at screening and planned total radiotherapy dose.|6.7|-5.2|0.4082
92257788|NCT04221945|184418261|OTHER||Difference in Percentage|3.6||||0.0496|TWO_SIDED|95.0|-0.7|7.9|||One-sided p-value for testing.||Pembrolizumab minus Placebo||Miettinen \& Nurminen method stratified by planned type of EBRT, Stage at screening and planned total radiotherapy dose.|7.9|-0.7|0.0496
92257789|NCT04221945|184418262|OTHER||Difference in Percentage|2.2||||0.1244|TWO_SIDED|95.0|-1.5|5.9|||One-sided p-value for testing.||Pembrolizumab minus Placebo||Miettinen \& Nurminen method stratified by planned type of EBRT, Stage at screening and planned total radiotherapy dose.|5.9|-1.5|0.1244
92257790|NCT04221945|184418263|OTHER||Hazard Ratio (HR)|0.73||||0.001|TWO_SIDED|95.0|0.59|0.89||One-sided p-value|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||0.89|0.59|0.0010
92257791|NCT04221945|184418264|OTHER||Hazard Ratio (HR)|0.72||||0.0016|TWO_SIDED|95.0|0.58|0.9||One-sided p-value|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||0.90|0.58|0.0016
92257792|NCT04221945|184418265|OTHER||Hazard Ratio (HR)|0.73||||0.0083|TWO_SIDED|95.0|0.56|0.95||One-sided p-value|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||0.95|0.56|0.0083
92257793|NCT04221945|184418266|OTHER||Hazard Ratio (HR)|0.69||||0.0015|TWO_SIDED|95.0|0.54|0.88||One-sided p-value|Log Rank|Stratified by planned type of external beam radiation therapy (EBRT), stage at screening, and planned total radiotherapy dose.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||0.88|0.54|0.0015
92257794|NCT04221945|184418267|OTHER||Difference LS Means|0.07||||0.9593|TWO_SIDED|95.0|-2.66|2.8|||cLDA model||Pembrolizumab minus placebo||Based on a cLDA model with the patient-reported outcome (PRO) scores as the response variable with covariates for treatment by study visit interaction, and stratified by planned type of EBRT.|2.80|-2.66|0.9593
92257795|NCT04221945|184418268|OTHER||Difference LS Means|0.68||||0.5145|TWO_SIDED|95.0|-1.36|2.71|||cLDA model||Pembrolizumab minus placebo||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratified by planned type of EBRT.|2.71|-1.36|0.5145
92257796|NCT04221945|184418269|OTHER||Difference LS Means|0.75||||0.2953|TWO_SIDED|95.0|-0.65|2.15|||cLDA model||Pembrolizumab minus placebo||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratified by planned type of EBRT.|2.15|-0.65|0.2953
92257797|NCT05740566|184418331|SUPERIORITY||Hazard Ratio (HR)|0.599|||<|0.001|TWO_SIDED|95.0|0.468|0.768||P-value is calculated using a stratified log-rank test.|Stratified log-rank test||Hazard ratios and 95% CIs are estimated using a stratified Cox proportional hazards model; a hazard ratio \<1.0 indicates a better survival of tarlatamab arm.|||0.768|0.468|<0.001
92257798|NCT06210035|184418375|SUPERIORITY||F test|6.21||||0.003|TWO_SIDED||||||ANOVA|||||||0.003
92257799|NCT06210035|184418376|SUPERIORITY||F test|0.78||||0.46|TWO_SIDED||||||ANOVA|||||||0.460
92257800|NCT06210035|184418377|SUPERIORITY||F test|2.13||||0.127|TWO_SIDED||||||ANOVA|||||||0.127
92257801|NCT06210035|184418378|SUPERIORITY||F test|0.004||||0.952|TWO_SIDED||||||ANOVA|||||||0.952
92257802|NCT01029691|184418380|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||unadjusted systolic blood pressure at baseline between groups||||0.45
92257803|NCT01029691|184418380|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||Unadjusted diastolic blood pressure at baseline between groups||||0.66
92257804|NCT01029691|184418380|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||Unadjusted systolic blood pressure at week 1||||0.61
92257805|NCT01029691|184418380|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Unadjusted diastolic blood pressure at week 1||||0.75
92257806|NCT01029691|184418381|SUPERIORITY|||||||0.085|||||||Chi-squared|||||||0.085
92257807|NCT01029691|184418382|SUPERIORITY|||||||0.012||||||Unadjusted|t-test, 2 sided|||||||0.012
92257808|NCT01029691|184418386|SUPERIORITY|||||||0.4|||||||Fisher Exact|||||||0.4
92257809|NCT05492877|184418412|SUPERIORITY||Hazard Ratio (HR)|1.071||||0.599|TWO_SIDED|90.0|0.869|1.32|||Regression, Cox||||The p-value was based on a 2-sided log rank test stratified by region|1.320|0.869|0.599
92257810|NCT05492877|184418415|SUPERIORITY||Hazard Ratio (HR)|1.234|||||TWO_SIDED|90.0|0.882|1.726|||Regression, Cox|||||1.726|0.882|
92284344|NCT02087904|184472252|SUPERIORITY||LS Mean Difference|-0.001||||0.929|TWO_SIDED|95.0|-0.017|0.015||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.015|-0.017|0.929
92257811|NCT03737318|184418454|SUPERIORITY||Treatment × Time interaction (β)|106.41|STANDARD_ERROR_OF_MEAN|22.11|<|0.0001|TWO_SIDED|95.0|63.06|149.76||Two-sided test of the treatment × time interaction. Alpha = 0.05.|Regression, Linear||Sign convention: A more positive β indicates a more positive Session 1→3 slope in the traditional treatment group relative to the biofeedback group (reference level).|Following our preregistered statistical analysis plan, the visual-acoustic and ultrasound biofeedback groups were pooled for comparison of biofeedback versus traditional treatment.||149.76|63.06|< .0001
92257812|NCT03737318|184418455|SUPERIORITY||Treatment × Time (linear) interaction (β|-3.12|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|-4.85|-1.4||Two-sided test of the treatment × time interaction. Alpha = 0.05.|Regression, Linear|Test of treatment × time (Pre, Post) interaction.|Sign convention: Negative β indicates a smaller linear time slope in the traditional treatment group relative to the biofeedback group (reference level)|Following our preregistered statistical analysis plan, the visual-acoustic and ultrasound biofeedback groups were pooled for comparison of biofeedback versus traditional treatment.||-1.40|-4.85|< .001
92257813|NCT03737318|184418456|SUPERIORITY||Treatment × Time linear interaction (β)|0.0147|STANDARD_ERROR_OF_MEAN|0.0594||0.8|TWO_SIDED|95.0|-0.1|0.13||Two-sided test of the treatment × time interaction. Alpha = 0.05.|Regression, Linear|Test of treatment (Traditional vs biofeedback) × linear time.|Sign convention: positive β indicates a larger linear time slope in the traditional group relative to the biofeedback group (reference level)|Following our preregistered statistical analysis plan, the visual-acoustic and ultrasound biofeedback groups were pooled for comparison of biofeedback versus traditional treatment.||0.13|-0.10|.80
92257814|NCT01603628|184418492|SUPERIORITY||Least Squares (LS) Mean Difference|-0.26||||0.01|TWO_SIDED|95.0|-0.453|-0.063||MMRM including baseline MAS-B ankle score (knee extended) as a covariate and factors of age, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure where age is represented by stratification categories.|Mixed Model Repeated Measures|||||-0.063|-0.453|0.010
92257815|NCT01603628|184418492|SUPERIORITY||LS Mean Difference|-0.21||||0.033|TWO_SIDED|95.0|-0.405|-0.018||MMRM including baseline MAS-B ankle score (knee extended) as a covariate and factors of age, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure where age is represented by stratification categories.|Mixed Model Repeated Measures|||||-0.018|-0.405|0.033
92257816|NCT01603628|184418493|SUPERIORITY||LS Mean Difference|0.29||||0.023|TWO_SIDED|95.0|0.04|0.532||MMRM including baseline MAS-B ankle score (knee extended) as a covariate and factors of age, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure where age is represented by stratification categories.|Mixed Model Repeated Measures|||||0.532|0.040|0.023
92257817|NCT01603628|184418493|SUPERIORITY||LS Mean Difference|0.13||||0.299|TWO_SIDED|95.0|-0.115|0.374||MMRM including baseline MAS-B ankle score (knee extended) as a covariate and factors of age, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure where age is represented by stratification categories.|Mixed Model Repeated Measures|||||0.374|-0.115|0.299
92257818|NCT01603628|184418494|SUPERIORITY||LS Mean Difference|0.41||||0.005|TWO_SIDED|95.0|0.126|0.704||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 8, Active Goal||0.704|0.126|0.005
92257819|NCT01603628|184418494|SUPERIORITY||LS Mean Difference|0.29||||0.047|TWO_SIDED|95.0|0.004|0.573||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 8, Active Goal||0.573|0.004|0.047
92257820|NCT01603628|184418494|SUPERIORITY||LS Mean Difference|0.45||||0.004|TWO_SIDED|95.0|0.145|0.756||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 8, Passive Goal||0.756|0.145|0.004
92179295|NCT05550636|184255668|OTHER||adjusted gmean Ratio (%)|89.8|||||TWO_SIDED|90.0|76.9|104.9|||||Adjusted gMean ratio of test/reference (T/R). Intra-individual geometric coefficient of variation (gCV) = 24.4|The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoint was logtransformed (natural logarithm) prior to fitting the ANOVA model. This model includes effects accounting for the sources of variation: treatment. The effect 'subjects' is considered as random, whereas the treatment effect is considered as fixed. Quantities were then back-transformed to the original scale to provide the point estimate and 90% confidence interval.||104.9|76.9|
92257821|NCT01603628|184418494|SUPERIORITY||LS Mean Difference|0.44||||0.004|TWO_SIDED|95.0|0.141|0.74||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 8, Passive Goal||0.740|0.141|0.004
92257822|NCT01603628|184418494|SUPERIORITY||LS Mean Difference|0.49||||0.001|TWO_SIDED|95.0|0.191|0.797||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 12, Active Goal||0.797|0.191|0.001
92284345|NCT02087904|184472252|SUPERIORITY||LS Mean Difference|-0.005||||0.543|TWO_SIDED|95.0|-0.02|0.01||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.01|-0.02|0.543
92284346|NCT02087904|184472252|SUPERIORITY||LS Mean Difference|0.008||||0.752|TWO_SIDED|95.0|-0.043|0.059||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.059|-0.043|0.752
92284347|NCT02087904|184472252|SUPERIORITY||LS Mean Difference|0.011||||0.691|TWO_SIDED|95.0|-0.042|0.064||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.064|-0.042|0.691
92257823|NCT01603628|184418494|SUPERIORITY||LS Mean Difference|0.22||||0.153|TWO_SIDED|95.0|-0.081|0.541||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 12, Active Goal||0.541|-0.081|0.153
92257824|NCT01603628|184418494|SUPERIORITY||LS Mean Difference|0.41||||0.01|TWO_SIDED|95.0|0.1|0.711||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 12, Passive Goal||0.711|0.100|0.010
92257825|NCT01603628|184418494|SUPERIORITY||LS Mean Difference|0.27||||0.078|TWO_SIDED|95.0|-0.031|0.571||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 12, Passive Goal||0.571|-0.031|0.078
92284348|NCT02087904|184472252|SUPERIORITY||LS Mean Difference|0.01||||0.71|TWO_SIDED|95.0|-0.041|0.06||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.06|-0.041|0.71
92257826|NCT01603628|184418495|SUPERIORITY||LS Mean Difference|-1.99||||0.158|TWO_SIDED|95.0|-4.768|0.779||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2||0.779|-4.768|0.158
92257827|NCT01603628|184418495|SUPERIORITY||LS Mean Difference|-3.25||||0.02|TWO_SIDED|95.0|-5.974|-0.524||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2||-0.524|-5.974|0.020
92257828|NCT01603628|184418495|SUPERIORITY||LS Mean Difference|-1.42||||0.363|TWO_SIDED|95.0|-4.489|1.648||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4||1.648|-4.489|0.363
92257829|NCT01603628|184418495|SUPERIORITY||LS Mean Difference|-2.11||||0.171|TWO_SIDED|95.0|-5.127|0.914||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4||0.914|-5.127|0.171
92257830|NCT01603628|184418495|SUPERIORITY||LS Mean Difference|-3.33||||0.02|TWO_SIDED|95.0|-6.143|-0.525||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6||-0.525|-6.143|0.020
92257831|NCT01603628|184418495|SUPERIORITY||LS Mean Difference|-3.92||||0.006|TWO_SIDED|95.0|-6.688|-1.148||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6||-1.148|-6.688|0.006
92257832|NCT01603628|184418495|SUPERIORITY||LS Mean Difference|-2.07||||0.254|TWO_SIDED|95.0|-5.621|1.491||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8||1.491|-5.621|0.254
92257833|NCT01603628|184418495|SUPERIORITY||LS Mean Difference|-2.46||||0.165|TWO_SIDED|95.0|-5.935|1.014||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8||1.014|-5.935|0.165
92257834|NCT01603628|184418495|SUPERIORITY||LS Mean Difference|-2.61||||0.078|TWO_SIDED|95.0|-5.517|0.296||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12||0.296|-5.517|0.078
92257835|NCT01603628|184418495|SUPERIORITY||LS Mean Difference|-1.09||||0.451|TWO_SIDED|95.0|-3.944|1.758||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12||1.758|-3.944|0.451
92257836|NCT01200758|184418508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior Ctrough in SC formulation was demonstrated, if the lower bound of 90% confidence interval (CI) was above 0.8.|Geometric mean ratio|1.62|||||TWO_SIDED|90.0|1.36|1.94|||||Geometric mean ratio adjusted for tumor load at baseline.|||1.94|1.36|
92257837|NCT01200758|184418509|SUPERIORITY_OR_OTHER||Difference in response rates|-4.82||||0.2835|TWO_SIDED|95.0|-14.0|4.4|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||4.4|-14.0|0.2835
92257838|NCT01200758|184418509|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.38|1.33||||||||1.33|0.38|
92284349|NCT02087904|184472252|SUPERIORITY||LS Mean Difference|0.0||||0.965|TWO_SIDED|95.0|-0.019|0.02||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.02|-0.019|0.965
92257839|NCT01200758|184418510|SUPERIORITY_OR_OTHER||Difference in response rates|7.66||||0.2047|TWO_SIDED|95.0|-5.0|20.3|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||20.3|-5.0|0.2047
92257840|NCT01200758|184418510|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.97|||||TWO_SIDED|95.0|0.68|5.71||||||||5.71|0.68|
92257841|NCT01200758|184418511|SUPERIORITY_OR_OTHER||Difference in response rates|-0.49||||0.8911|TWO_SIDED|95.0|-7.7|6.8|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson.|||6.8|-7.7|0.8911
92257842|NCT01200758|184418511|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.56|1.65||||||||1.65|0.56|
92257843|NCT01200758|184418512|SUPERIORITY_OR_OTHER||Difference in CRR|17.86||||0.0335|TWO_SIDED|95.0|0.8|35.0|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||35.0|0.8|0.0335
92257844|NCT01200758|184418512|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.25|||||TWO_SIDED|95.0|1.06|4.78||||||||4.78|1.06|
92257845|NCT01200758|184418513|SUPERIORITY_OR_OTHER||Difference in response rates|-6.58||||0.2331|TWO_SIDED|95.0|-17.8|4.6|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||4.6|-17.8|0.2331
92257846|NCT01200758|184418513|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.44|1.22||||||||1.22|0.44|
92257847|NCT01200758|184418514|SUPERIORITY_OR_OTHER||Difference in response rates|0.49||||0.9157|TWO_SIDED|95.0|-8.8|9.8|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||9.8|-8.8|0.9157
92257848|NCT01200758|184418514|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.66|1.51||||||||1.51|0.66|
92257849|NCT01200758|184418515|SUPERIORITY_OR_OTHER||Difference in response rates|-7.28||||0.1715|TWO_SIDED|95.0|-18.0|3.5|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||3.5|-18.0|0.1715
92179296|NCT06393127|184255759|OTHER||Ratio of adjusted geometric means [%]|105.03|||||TWO_SIDED|90.0|99.07|111.36|||||Ratio \[%\] = (adjusted geometric mean of T / adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 18.8|"Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: subjects within sequences as random effect, sequence, period and treatment as fixed effects. These quantities were then back-transformed to the original scale."||111.36|99.07|
92179297|NCT06393127|184255760|OTHER||Ratio of adjusted geometric means [%]|113.32|||||TWO_SIDED|90.0|102.7|125.05|||||Ratio \[%\] = (adjusted geometric mean of T / adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 32.8|"Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: subjects within sequences as random effect, sequence, period and treatment as fixed effects. These quantities were then back-transformed to the original scale."||125.05|102.70|
92179298|NCT06393127|184255761|OTHER||Ratio of adjusted geometric means [%]|104.95|||||TWO_SIDED|90.0|99.1|111.14|||||Ratio \[%\] = (adjusted geometric mean of T / adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 18.5|"Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: subjects within sequences as random effect, sequence, period and treatment as fixed effects. These quantities were then back-transformed to the original scale."||111.14|99.10|
92179299|NCT02446600|184255762|SUPERIORITY||Hazard Ratio (HR)|0.856||||0.077|TWO_SIDED|95.0|0.663|1.105||The p-value is one-sided. Per the protocol, the statistical significance threshold was \<0.025. Type 1 error was controlled using hierarchical testing strategy.|Log Rank|The log rank test was stratified by the minimization factors provided at randomization|The hazard ratio estimate compares olaparib+cedirinib to chemotherapy. If olaparib+cedirinib is superior, the hazard ratio is \<1.0.|Arm II was suspended for futility at the interim analysis so was not analyzed at the final analysis.||1.105|0.663|0.077
92257850|NCT01200758|184418515|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.52|1.22||||||||1.22|0.52|
92257851|NCT01200758|184418516|SUPERIORITY_OR_OTHER||Difference in response rates|-0.18||||0.9671|TWO_SIDED|95.0|-9.2|8.8|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||8.8|-9.2|0.9671
92257852|NCT01200758|184418516|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.6|1.64||||||||1.64|0.60|
92257853|NCT01200758|184418518|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.5526|TWO_SIDED|95.0|0.64|1.26|||Wald test|||||1.26|0.64|0.5526
92257854|NCT01200758|184418520|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.9115|TWO_SIDED|95.0|0.71|1.36|||Wald test|||||1.36|0.71|0.9115
92257855|NCT01200758|184418523|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.38|||||TWO_SIDED|90.0|1.24|1.53||||||The ratio of observed rituximab serum was determined as AUC SC/AUC IV during Cycle 7 of induction treatment.||1.53|1.24|
92179300|NCT00357682|184255773|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.24||||0.068|TWO_SIDED|95.0|0.98|1.57|||Accelerated Failure Time|||Accelerated Failure Time (AFT) analysis comparing time to primary event in low dose PPI (20mg) patients to high dose PPI (80mg) patients. Included in AFT model are stratification factors (Barrett's length, age group and presence of baseline intestinal metaplasia) and aspirin randomisation group.||1.57|0.98|0.068
92179301|NCT00357682|184255773|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.27||||0.037|TWO_SIDED|95.0|1.01|1.58|||Accelerated Failure Time|||Accelerated Failure Time (AFT) analysis comparing time to primary event in aspirin patients to non-aspirin patients. Included in AFT model are stratification factors (Barrett's length, age group and presence of baseline intestinal metaplasia) and PPI randomisation group.||1.58|1.01|0.037
92179302|NCT00357682|184255774|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.36||||0.039|TWO_SIDED|95.0|1.01|1.82|||Accelerated Failure Time|||All recordings of death, regardless of the cause are used in this analysis and both PPI groups are compared.||1.82|1.01|0.039
92257856|NCT01200758|184418524|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.941|||||TWO_SIDED|95.0|0.872|1.015||||||||1.015|0.872|
92257857|NCT01928186|184418626|OTHER|||||||0.51|||||||Fisher Exact|the mid-P adjustment to Fisher's exact test||Association between response assessed by Ki-67 protein staining (i.e. \< 10% positive cells in the surgical sample) and by the influx constant Ki decline (i.e. 30 % or larger decline between the baseline and post-therapy FLT PET) was analyzed using the mid-P adjustment to Fisher's exact test.||||0.51
92257858|NCT04540627|184418640|SUPERIORITY|||||||0.5802|||||||Wilcoxon (Mann-Whitney)|||||||0.5802
92257859|NCT04540627|184418641|SUPERIORITY|||||||0.4868|||||||Wilcoxon (Mann-Whitney)|||||||0.4868
92257860|NCT04540627|184418642|SUPERIORITY|||||||0.2681|||||||Wilcoxon (Mann-Whitney)|||||||0.2681
92257861|NCT04540627|184418643|SUPERIORITY|||||||0.2431|||||||Wilcoxon (Mann-Whitney)|||||||0.2431
92257862|NCT04540627|184418648|SUPERIORITY|||||||0.4868|||||||Wilcoxon (Mann-Whitney)|||||||0.4868
92257863|NCT04540627|184418650|SUPERIORITY|||||||0.0403|||||||Wilcoxon (Mann-Whitney)|||||||0.0403
92257864|NCT00211536|184418696|NON_INFERIORITY_OR_EQUIVALENCE|For the average A1C, the goal was to show non-inferiority of MIP compared to SC. The minimal clinically relevant increase in A1C (%) was set at 0.50%. The between-subjects standard deviation of A1C was assumed to be 1.0% based on previous studies.|Least square means|0.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|ONE_SIDED|95.0||0.5|||Mixed Models Analysis|Repeated measures analysis of variance, adjusting for baseline A1C using SAS Proc Mixed to compare A1C trends over time between the treatment groups||Sample size calculations were performed on the primary endpoint: the average glycosylated hemoglobin (A1C). Sample size was estimated using a two-sample, one-sided t-test with a significance level of 0.05. The projected sample size of 50 subjects per treatment group provides 79% power to reject the null hypothesis in favor of the alternative hypothesis that the average A1C in both the MIP and SC groups are equivalent, assuming an effect size of 0.50% and a standard deviation of 1.0%.||0.5||<0.05
92257865|NCT00805194|184418727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0019|TWO_SIDED|95.0|0.68|0.92|||Regression, Cox||Hazard Ratio (HR) below 1 favors nintedanib|HR, Confidence Interval (CI) and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)||0.92|0.68|0.0019
92257866|NCT00805194|184418728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.0073|TWO_SIDED|95.0|0.6|0.92||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs 1 - one pat. had 2), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||"The overall alpha level followed a Lan-DeMets spending function with O'Brien-Fleming shape parameter to preserve an overall 2-sided alpha level of 0.05.~HR below 1 favors nintedanib"|"Hierarchical testing was tested in a fixed sequence of statistical hypotheses in (1) patients with adenocarcinoma and \<9 months since start of first-line therapy, (2) patients with adenocarcinoma, and (3) all patients. Each hypothesis could be only tested at the pre-specified alpha level if the previous null hypothesis in the testing sequence had been rejected.~Overall survival for patients with adenocarcinoma and \<9 months since start of first line therapy."||0.92|0.60|0.0073
92257867|NCT00805194|184418728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0359|TWO_SIDED|95.0|0.7|0.99||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs 1 - one pat. had 2), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||"The overall alpha level followed a Lan-DeMets spending function with O'Brien-Fleming shape parameter to preserve an overall 2-sided alpha level of 0.05.~HR below 1 favors nintedanib"|"Hierarchical testing was tested in a fixed sequence of statistical hypotheses in (1) patients with adenocarcinoma and \<9 months since start of first-line therapy, (2) patients with adenocarcinoma, and (3) all patients. Each hypothesis could be only tested at the pre-specified alpha level if the previous null hypothesis in the testing sequence had been rejected.~Overall survival for patients with adenocarcinoma."||0.99|0.70|0.0359
92257868|NCT00805194|184418728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.272|TWO_SIDED|95.0|0.83|1.05||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs 1 - one pat. had 2), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||The overall alpha level followed a Lan-DeMets spending function with O'Brien-Fleming shape parameter to preserve an overall 2-sided alpha level of 0.05. HR below 1 favors nintedanib|"Hierarchical testing was tested in a fixed sequence of statistical hypotheses in (1) patients with adenocarcinoma and \<9 months since start of first-line therapy, (2) patients with adenocarcinoma, and (3) all patients. Each hypothesis could be only tested at the pre-specified alpha level if the previous null hypothesis in the testing sequence had been rejected.~Overall survival for all patients."||1.05|0.83|0.2720
92257869|NCT00805194|184418729|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.007|TWO_SIDED|95.0|0.75|0.96||HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|||0.96|0.75|0.0070
92257870|NCT00805194|184418730|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0012|TWO_SIDED|95.0|0.73|0.93||HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|||0.93|0.73|0.0012
92257871|NCT00805194|184418731|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.3067|TWO_SIDED|95.0|0.76|2.39||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the central independent review||2.39|0.76|0.3067
92257872|NCT00805194|184418731|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.0761|TWO_SIDED|95.0|0.96|2.08||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the investigator's assessment||2.08|0.96|0.0761
92257873|NCT00805194|184418734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68|||<|0.0001|TWO_SIDED|95.0|1.35|2.09||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the central independent review||2.09|1.35|<0.0001
92284350|NCT02087904|184472252|SUPERIORITY||LS Mean Difference|-0.002||||0.885|TWO_SIDED|95.0|-0.022|0.019||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.019|-0.022|0.885
92284351|NCT02087904|184472252|SUPERIORITY||LS Mean Difference|0.001||||0.887|TWO_SIDED|95.0|-0.018|0.021||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.021|-0.018|0.887
92284352|NCT02087904|184472253|SUPERIORITY||LS Mean Difference|-0.005||||0.619|TWO_SIDED|95.0|-0.024|0.014||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.014|-0.024|0.619
92257874|NCT00805194|184418734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64|||<|0.0001|TWO_SIDED|95.0|1.31|2.05||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on investigator's assessment||2.05|1.31|<0.0001
92257875|NCT00805194|184418736|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value generated from ANOVA model adjusted for baseline ECOG PS (0 vs. 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|ANOVA|||Analysis based on the central independent review||||<0.0001
92257876|NCT00805194|184418736|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value generated from ANOVA model adjusted for baseline ECOG PS (0 vs. 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|ANOVA|||Analysis based on the investigator's assessment||||<0.0001
92284353|NCT02087904|184472253|SUPERIORITY||LS Mean Difference|-0.001||||0.952|TWO_SIDED|95.0|-0.02|0.019||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.019|-0.02|0.952
92284354|NCT02087904|184472253|SUPERIORITY||LS Mean Difference|-0.003||||0.765|TWO_SIDED|95.0|-0.022|0.016||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.016|-0.022|0.765
92257877|NCT00805194|184418737|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.7282|TWO_SIDED|95.0|0.87|1.21||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs 1 - one pat.had 2), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|||1.21|0.87|0.7282
92257878|NCT00805194|184418738|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.1858|TWO_SIDED|95.0|0.77|1.05||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>=1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of cough||1.05|0.77|0.1858
92257879|NCT00805194|184418738|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.5203|TWO_SIDED|95.0|0.91|1.2||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>=1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of dyspnoea||1.20|0.91|0.5203
92179303|NCT00357682|184255774|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.25||||0.159|TWO_SIDED|95.0|0.92|1.7|||Accelerated Failure Time|||There are 163 deaths in the aspirin comparison with all-cause mortality as the endpoint. Median follow-up is 8.9 years IQR: (8.2 , 10.0) Range: (0 , 11.5)||1.70|0.92|0.159
92284355|NCT02087904|184472253|SUPERIORITY||LS Mean Difference|-0.04||||0.258|TWO_SIDED|95.0|-0.11|0.03||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.03|-0.11|0.258
92257880|NCT00805194|184418738|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.4373|TWO_SIDED|95.0|0.82|1.09||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>= 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of pain||1.09|0.82|0.4373
92257881|NCT02530281|184418779|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92257882|NCT02530281|184418780|OTHER||||||=|0.065|||||||ANCOVA|Ranked ANCOVA||||||=0.065
92257883|NCT02530281|184418781|OTHER||||||=|0.065|||||||ANCOVA|Ranked ANCOVA||||||=0.065
92257884|NCT02530281|184418782|OTHER||||||=|0.001|||||||ANCOVA|Ranked ANCOVA||||||=0.001
92257885|NCT02530281|184418783|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92179304|NCT00357682|184255775|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.04||||0.864|TWO_SIDED|95.0|0.67|1.61|||Accelerated Failure Time|||There are 81 diagnoses in the PPI dose comparison with adenocarcinoma oesophageal cancer as the endpoint. Median follow-up is 8.7 years IQR: (8.1 , 9.9)||1.61|0.67|0.864
92257886|NCT02530281|184418784|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92257887|NCT00535236|184418788|OTHER||||||<|0.001||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the GMFR in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjusted for prevaccination values||||||<0.001
92257888|NCT00535236|184418788|OTHER|||||||0.003||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the GMFR in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjusted for prevaccination values||||||0.003
92257889|NCT00535236|184418788|OTHER|||||||0.017||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the GMFR in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjusted for prevaccination values||||||0.017
92179305|NCT00357682|184255775|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.02||||0.921|TWO_SIDED|95.0|0.64|1.64|||Accelerated Failure Time|||There are 70 diagnoses of adenocarcinoma in the aspirin comparison. Median follow-up is 8.8 years, IQR: (8.1 , 10), Range: (0 , 11.5)||1.64|0.64|0.921
92179306|NCT00357682|184255776|SUPERIORITY|5% significance level is considered statistically significant.|Time Ratio|1.36||||0.119|TWO_SIDED|95.0|0.92|2.02|||Accelerated Failure Time|||There are 103 such diagnoses in the PPI dose comparison. Median follow-up is 8.7 years IQR: (8.1 , 9.9) Range: (0 , 11.48)||2.02|0.92|0.119
92179307|NCT00357682|184255776|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.51||||0.053|TWO_SIDED|95.0|1.0|2.29|||Accelerated Failure Time|||There are a total of 92 conversions to HGD in the aspirin comparison. Median follow-up is 8.8 years IQR (8.1 , 10.0) Range (0 , 11.5)||2.29|1.00|0.053
92179308|NCT04098575|184255884|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92179309|NCT04098575|184255885|OTHER|||||||0.835|||||||Chi-squared|||||||0.835
92179310|NCT04098575|184255886|OTHER||||||<|0.001|||||||Chi-squared|||Antihypertensive drugs||||<0.001
92257890|NCT00535236|184418789|OTHER||||||<|0.001||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the GMFR in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjustied for prevaccination values||||||<0.001
92257891|NCT00535236|184418789|OTHER|||||||0.004||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the geometric mean fold rise (GMFR) in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjusted for prevaccination values||||||0.004
92257892|NCT00535236|184418789|OTHER|||||||0.026||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the geometric mean fold rise (GMFR) in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjusted for prevaccination values||||||0.026
92284356|NCT02087904|184472253|SUPERIORITY||LS Mean Difference|0.023||||0.535|TWO_SIDED|95.0|-0.049|0.094||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.094|-0.049|0.535
92284357|NCT02087904|184472253|SUPERIORITY||LS Mean Difference|-0.006||||0.866|TWO_SIDED|95.0|-0.076|0.064||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.064|-0.076|0.866
92257893|NCT00535236|184418790|OTHER||Difference in Percentages|12.5|||||TWO_SIDED|95.0|-21.7|35.3|||||V212 minus placebo = Difference|||35.3|-21.7|
92257894|NCT00535236|184418790|OTHER||Difference in Percentages|10.0|||||TWO_SIDED|95.0|-15.1|42.9|||||V212 minus placebo = Difference|||42.9|-15.1|
92284358|NCT02087904|184472253|SUPERIORITY||LS Mean Difference|-0.012||||0.413|TWO_SIDED|95.0|-0.041|0.017||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.017|-0.041|0.413
92179311|NCT04098575|184255886|OTHER||||||<|0.001|||||||Chi-squared|||Lipid-lowering agents||||<0.001
92179312|NCT04098575|184255886|OTHER||||||<|0.001|||||||Chi-squared|||Antiplatelet, anticoagulant drugs||||<0.001
92179313|NCT04098575|184255886|OTHER||||||<|0.001|||||||Chi-squared|||Glucose-lowering therapies||||<0.001
92179314|NCT04098575|184255887|OTHER||||||<|0.001|||||||Chi-squared|||Group: \< 65||||<0.001
92179315|NCT04098575|184255887|OTHER|||||||0.001|||||||Chi-squared|||Group: 65 ≤ 75||||0.001
92179316|NCT04098575|184255887|OTHER||||||<|0.001|||||||Chi-squared|||Group: 75 - 80||||<0.001
92179317|NCT04098575|184255887|OTHER||||||<|0.002|||||||Chi-squared|||Group: \> 80||||<0.002
92179318|NCT04098575|184255888|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92179319|NCT04098575|184255889|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
92179320|NCT04098575|184255890|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
92179321|NCT04098575|184255891|OTHER|||||||0.475|||||||Wilcoxon rank sum test|||||||0.475
92179322|NCT04098575|184255892|OTHER|||||||0.475|||||||Wilcoxon rank sum test|||||||0.475
92179323|NCT04098575|184255893|OTHER||||||<|0.001|||||||Chi-squared|||Insulin||||<0.001
92179324|NCT04098575|184255893|OTHER||||||<|0.001|||||||Chi-squared|||Metformin||||<0.001
92179325|NCT04098575|184255893|OTHER|||||||0.157|||||||Chi-squared|||Acarbose||||0.157
92179326|NCT04098575|184255893|OTHER||||||<|0.001|||||||Chi-squared|||Sulfonylurea||||<0.001
92179327|NCT04098575|184255893|OTHER|||||||0.071|||||||Chi-squared|||Dipeptidyl peptidase-4 (DPP-4) inhibitors||||0.071
92179328|NCT04098575|184255893|OTHER|||||||0.317|||||||Chi-squared|||Glucagon-like peptide-1 (GLP-1) agonists||||0.317
92179329|NCT04098575|184255893|OTHER||||||<|0.001|||||||Chi-squared|||Sodium-glucose transport protein-2 (SGLT2) inhibitors other than empagliflozin||||<0.001
92179330|NCT04098575|184255894|OTHER||||||<|0.002|||||||Chi-squared|||||||<0.002
92179331|NCT04098575|184255897|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.000
92179332|NCT02567435|184255928|SUPERIORITY||3-Year EFS|65.8||||0.44|TWO_SIDED||||||Log Rank|||||||0.44
92179333|NCT02567435|184255929|SUPERIORITY||3-Year OS|78.2||||0.56|TWO_SIDED||||||Log Rank|||||||0.56
92179334|NCT02166463|184255934|SUPERIORITY|||||||0.0001|||||||Log Rank|Used a one-sided log-rank test between 2 arms||Assuming a 3-year EFS of 82% (5-year EFS of 78.4%, long term EFS of 76%) for standard arm, the study will have approximately 86% power for detecting an 8% improvement in 3-year EFS in the Bv-AVEPC arm (3-year EFS of 90%, 5-year EFS of 88.0%, long term EFS of 86.7%) in log rank test.||||0.0001
92179335|NCT04955431|184256075|OTHER|We performed a 2-way Repeated Measures ANOVA to compare changes in blood IL-6 levels from baseline to post simulated firefighting on control days (Normal Sleep) and experimental days (Sleep Restriction).|||||<|0.05|||||||ANOVA|||||||<0.05
92179336|NCT04955431|184256076|OTHER|RM-ANOVA|||||>|0.05|||||||ANOVA|||||||>0.05
92257895|NCT00535236|184418790|OTHER||Difference in Percentages|1.8|||||TWO_SIDED|95.0|-20.4|15.7|||||V212 minus placebo = Difference|||15.7|-20.4|
92257896|NCT00535236|184418790|OTHER||Difference in Percentages|14.4|||||TWO_SIDED|95.0|-6.5|27.6|||||V212 minus placebo = Difference|||27.6|-6.5|
92257897|NCT00535236|184418790|OTHER||Difference in Percentages|3.3|||||TWO_SIDED|95.0|-18.1|17.0|||||V212 minus placebo = Difference|||17.0|-18.1|
92257898|NCT00535236|184418791|OTHER||Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-31.7|16.5|||Asymptotic method||V212 minus placebo = Difference|||16.5|-31.7|>0.999
92257899|NCT00535236|184418791|OTHER||Difference in Percentages|10.0||||0.302|TWO_SIDED|95.0|-18.8|23.2|||Asymptotic method||V212 minus placebo = Difference|||23.2|-18.8|0.302
92257900|NCT00535236|184418791|OTHER||Difference in Percentages|31.6||||0.009|TWO_SIDED|95.0|9.7|46.2|||Asymptotic method||V212 minus placebo = Difference|||46.2|9.7|0.009
92257901|NCT00535236|184418791|OTHER||Difference in Percentages|22.6||||0.041|TWO_SIDED|95.0|1.3|36.6|||Asymptotic method||V212 minus placebo = Difference|||36.6|1.3|0.041
92284359|NCT02087904|184472253|SUPERIORITY||LS Mean Difference|0.012||||0.445|TWO_SIDED|95.0|-0.018|0.042||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.042|-0.018|0.445
92179337|NCT06415045|184256077|OTHER||Ratios of adjusted geometric means [%]|115.21|||||TWO_SIDED|90.0|106.55|124.58|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 13.5|Relative bioavailability of Nerandomilast administered in fed state (Test) compared with Nerandomilast administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||124.58|106.55|
92179338|NCT06415045|184256078|OTHER||Ratios of adjusted geometric means [%]|85.82|||||TWO_SIDED|90.0|68.8|107.06|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 39.4|Relative bioavailability of Nerandomilast administered in fed state (Test) compared with Nerandomilast administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||107.06|68.80|
92257902|NCT00535236|184418791|OTHER||Difference in Percentages|-11.7||||0.064|TWO_SIDED|95.0|-33.2|0.6|||Asymptotic method||V212 minus placebo = Difference|||0.6|-33.2|0.064
92257903|NCT00535236|184418792|OTHER||Difference in Percentages|-5.0||||0.556|TWO_SIDED|95.0|-36.3|9.5|||Asymptotic method||V212 minus placebo = Difference|||9.5|-36.3|0.556
92257904|NCT00535236|184418792|OTHER||Difference in Percentages|2.5||||0.617|TWO_SIDED|95.0|-25.8|13.0|||Asymptotic method||V212 minus placebo = Difference|||13.0|-25.8|0.617
92257905|NCT00535236|184418792|OTHER||Difference in Percentages|3.5||||0.411|TWO_SIDED|95.0|-13.7|12.0|||Asymptotic method||V212 minus placebo = Difference|||12.0|-13.7|0.411
92257906|NCT00535236|184418792|OTHER||Difference in Percentages|4.9||||0.328|TWO_SIDED|95.0|-12.3|13.6|||Asymptotic method||V212 minus placebo = Difference|||13.6|-12.3|0.328
92284360|NCT02087904|184472253|SUPERIORITY||LS Mean Difference|-0.003||||0.835|TWO_SIDED|95.0|-0.032|0.026||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.026|-0.032|0.835
92284361|NCT02087904|184472254|SUPERIORITY||Response Rate Difference|7.0||||0.311|TWO_SIDED|95.0|-7.3|21.4||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||21.4|-7.3|0.311
92257907|NCT00535236|184418792|OTHER||Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-19.2|10.0|||Asymptotic method||V212 minus placebo = Difference|||10.0|-19.2|>0.999
92257908|NCT00535236|184418793|OTHER||Difference in Percentages|10.5||||0.552|TWO_SIDED|95.0|-21.3|41.8|||Asymptotic method||V212 minus placebo = Difference|||41.8|-21.3|0.552
92257909|NCT00535236|184418793|OTHER||Difference in Percentages|6.7||||0.696|TWO_SIDED|95.0|-22.5|39.4|||Asymptotic method||V212 minus placebo = Difference|||39.4|-22.5|0.696
92284362|NCT02087904|184472254|SUPERIORITY||Response Rate Difference|5.5||||0.435|TWO_SIDED|95.0|-8.9|19.9||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||19.9|-8.9|0.435
92179339|NCT06415045|184256079|OTHER||Ratios of adjusted geometric means [%]|115.07|||||TWO_SIDED|90.0|106.38|124.46|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 13.5|Relative bioavailability of Nerandomilast administered in fed state (Test) compared with Nerandomilast administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||124.46|106.38|
92257910|NCT00535236|184418793|OTHER||Difference in Percentages|7.5||||0.221|TWO_SIDED|95.0|-9.8|18.0|||Asymptotic method||V212 minus placebo = Difference|||18.0|-9.8|0.221
92257911|NCT00535236|184418793|OTHER||Difference in Percentages|6.8||||0.402|TWO_SIDED|95.0|-13.7|19.1|||Asymptotic method||V212 minus placebo = Difference|||19.1|-13.7|0.402
92257912|NCT00535236|184418793|OTHER||Difference in Percentages|3.8||||0.679|TWO_SIDED|95.0|-18.5|18.2|||Asymptotic method||V212 minus placebo = Difference|||18.2|-18.5|0.679
92257913|NCT04167514|184418817|SUPERIORITY||Odds Ratio (OR)|1.92||||0.034|TWO_SIDED|95.0|0.954|3.866|||One-sided Wald|One-sided Wald test of superior odds of overall response under AAT treatment compared to placebo.Threshold of significance at \<0.025.|Wald CIs|||3.866|0.954|0.034
92257914|NCT01766401|184418997|SUPERIORITY||Least Squares Mean Difference|-1.5||||0.0438|TWO_SIDED|95.0|-2.96|-0.04|||MMRM|||||-0.04|-2.96|0.0438
92257915|NCT01766401|184418998|SUPERIORITY||Least Squares Mean Difference|-1.41||||0.0868|TWO_SIDED|95.0|-3.02|0.2|||MMRM|||||0.20|-3.02|0.0868
92257916|NCT00886587|184418999|SUPERIORITY_OR_OTHER||Estimated Mean Difference|0.04||||0.9416|TWO_SIDED|95.0|-1.09|1.17||The significance threshold level was 0.05 (two-sided).|Repeated measures ANCOVA|Treatment, visit number, and treatment-visit number interaction term as factors, with baseline score and age as covariates.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.17|-1.09|0.9416
92257917|NCT00886587|184419000|SUPERIORITY_OR_OTHER||Estimated Mean Difference|0.35||||0.5431|TWO_SIDED|95.0|-0.78|1.48||The significance level threshold level was 0.05 (two-sided).|Repeated measures ANCOVA|Treatment, visit number, and treatment-visit number interaction term as factors, with baseline score and age as covariates.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.48|-0.78|0.5431
92257918|NCT00886587|184419001|SUPERIORITY_OR_OTHER||Estimated Mean Difference|-0.06||||0.788|TWO_SIDED|95.0|-0.47|0.36||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment as a factor, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.36|-0.47|0.788
92257919|NCT00886587|184419002|SUPERIORITY_OR_OTHER||Estimated Mean Difference|0.03||||0.9508|TWO_SIDED|95.0|-0.9|0.96||The significance threshold level was 0.05 (two-sided).|Repeated measures ANCOVA|Treatment, visit number, and treatment-visit number interaction term as factors, with baseline score and age as covariates.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.96|-0.90|0.9508
92257920|NCT01523613|184419003|SUPERIORITY|||||||0.262|||||||Fisher Exact|||||||0.262
92257921|NCT01523613|184419004|SUPERIORITY|||||||0.523|||||||Fisher Exact|||||||0.523
92257922|NCT01523613|184419005|SUPERIORITY|||||||0.1|||||||Fisher Exact|||||||0.100
92257923|NCT01108068|184419006|EQUIVALENCE|Continuous variables were expressed as means ± SD or median (range). Group differences in pQCT Z-scores according to genotype T-test was used to compare differences at baseline between affecteds and unaffecteds||||||0.0003|||||||t-test, 1 sided|Differences in the two groups were assessed using Student's t-test or the rank-sum test if skewed.||Cortical area Z-score||||0.0003
92257924|NCT01108068|184419006|EQUIVALENCE|Continuous variables were expressed as means ± SD or median (range). Group differences in pQCT Z-scores according to genotype||||||0.001|||||||t-test, 1 sided|Differences in the two groups were assessed using Student's t-test or the rank-sum test if skewed.||Periosteal circumference Z-score||||0.001
92257925|NCT00696774|184419017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.005|TWO_SIDED|95.0|-1.12|-0.2|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-0.20|-1.12|0.005
92257926|NCT00696774|184419019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.85|||||TWO_SIDED|95.0|-7.34|-4.36|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-4.36|-7.34|
92257927|NCT00696774|184419020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.47|||||TWO_SIDED|95.0|-3.13|-1.81|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-1.81|-3.13|
92257928|NCT00696774|184419021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.29|||||TWO_SIDED|95.0|-4.1|-2.48|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-2.48|-4.10|
92257929|NCT00696774|184419022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.22|||||TWO_SIDED|95.0|-2.89|-1.54|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-1.54|-2.89|
92257930|NCT00696774|184419023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88|||||TWO_SIDED|95.0|-2.45|-1.3|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-1.30|-2.45|
92182827|NCT02434328|184264718|NON_INFERIORITY|The non-inferiority margin was 4 letters.|Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.82||0.0003|TWO_SIDED|95.0|-2.8|0.5||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||0.5|-2.8|0.0003
92257931|NCT00696774|184419024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|||||TWO_SIDED|95.0|-1.31|-0.63|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-0.63|-1.31|
92257932|NCT00696774|184419025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.42|||||TWO_SIDED|95.0|-6.04|-2.8|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-2.80|-6.04|
92257933|NCT00696774|184419026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13|||||TWO_SIDED|95.0|-1.42|-0.84|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-0.84|-1.42|
92257934|NCT00696774|184419027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||||TWO_SIDED|95.0|-1.08|-0.24|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-0.24|-1.08|
92257935|NCT00696774|184419028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|||||TWO_SIDED|95.0|-0.81|-0.18|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-0.18|-0.81|
92257936|NCT00696774|184419029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81|||||TWO_SIDED|95.0|-0.99|2.6|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 4||2.60|-0.99|
92257937|NCT00696774|184419029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.36|||||TWO_SIDED|95.0|-0.69|3.42|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 8||3.42|-0.69|
92257938|NCT00696774|184419030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.05|||||TWO_SIDED|95.0|10.63|19.47|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 4||19.47|10.63|
92257939|NCT00696774|184419030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.48|||||TWO_SIDED|95.0|4.72|16.24|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 8||16.24|4.72|
92257940|NCT00696774|184419031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.88|||||TWO_SIDED|95.0|-7.75|-4.02|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 4||-4.02|-7.75|
92257941|NCT00696774|184419031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.59|||||TWO_SIDED|95.0|-6.65|-2.54|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 8||-2.54|-6.65|
92257942|NCT00033293|184419034|OTHER||Chi-squared test statistic|8.125||||0.0044|TWO_SIDED|95.0||||No adjustments for multiple comparisons.|Chi-squared|A two-way test with a null hypothesis of no association, using SAS 9.4.||"The 5 categories of OMA ratings are: stance, gait, arm \& hand function, opsoclonus, \& mood/behavior. For each category, a patient's response will be based on a comparison of the baseline evaluation to the best of 3 time points: 2 months, 6 months \& 1 year. If a patient crosses over to the IVIG arm or switches to ACTH at any time, the patient will be considered a non-responder. The proportion of responders from the 2 treatment arms were compared using a chi-squared test."||||0.0044
92257943|NCT00033293|184419035|OTHER||Mean Difference (Net)|60.1979||||0.0919|ONE_SIDED||||||t-test, 1 sided|||The two samples from the respective treatment arms were compared using a one-sided t-test with a significance level of .05.||||0.0919
92257944|NCT00033293|184419036|OTHER|The two samples from the respective treatment arms were compared using a one-sided t-test with a significance level of .05.|Mean Difference (Net)|16.75||||0.2364|ONE_SIDED||||||t-test, 1 sided|||||||0.2364
92257945|NCT00935701|184419042|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Restless-Impulsive subscale||||0.01
92257946|NCT00935701|184419042|SUPERIORITY_OR_OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Emotional Lability subscale||||0.09
92257947|NCT00935701|184419042|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Global Index Total||||0.02
92257948|NCT00935701|184419042|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on DSM-IV Inattentive subscale||||0.01
92257949|NCT00935701|184419042|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on DSM-IV Hyperactive-Impulsive subscale||||0.03
92257950|NCT00935701|184419042|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on DSM-IV Total||||0.01
92257951|NCT00935701|184419043|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Bedtime Resistance subscale||||0.08
92284363|NCT02087904|184472254|SUPERIORITY||Response Rate Difference|5.5||||0.435|TWO_SIDED|95.0|-8.9|19.9||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||19.9|-8.9|0.435
92257952|NCT00935701|184419043|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Sleep Onset Delay subscale||||0.03
92257953|NCT00935701|184419043|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Sleep Duration subscale||||0.82
92257954|NCT00935701|184419043|SUPERIORITY_OR_OTHER|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Sleep Anxiety subscale||||0.58
92257955|NCT00935701|184419043|SUPERIORITY_OR_OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Night Wakings subscale||||0.66
92257956|NCT00935701|184419043|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Parasomnias subscale||||0.18
92257957|NCT00935701|184419043|SUPERIORITY_OR_OTHER|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Daytime Sleepiness subscale||||0.31
92179340|NCT02112916|184256091|SUPERIORITY||Hazard Ratio (HR)|0.782||||0.074|TWO_SIDED|95.0|0.561|1.091|||Log Rank||Hazard ratio = hazard rate for Arm B/hazard rate for Arm A|To compare the EFS of the randomized patients (T-ALL+T-LLy) on Arm A vs Arm B. Study was designed to accrue 1200 eligible, evaluable randomized patients (to provide 90.5% power to detect an improvement in 4-year EFS from 85% to 90% with an alpha of 0.05 (one-sided log-rank test) (Hazard Ratio (HR)=0.6483). Study was closed to accrual early due to results from AALL0434 for nelarabine.||1.091|0.561|0.074
92179341|NCT00391443|184256140|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.211|TWO_SIDED|95.0|0.658|1.097|||Log Rank|||||1.097|0.658|0.2110
92179342|NCT00391443|184256141|SUPERIORITY_OR_OTHER_LEGACY||Relative risk reduction|0.17||||0.2542|TWO_SIDED|95.0|-0.13|0.39|||Fisher Exact|||||0.39|-0.13|0.2542
92179343|NCT03373916|184256191|OTHER|||||||0.58|||||||Chi-squared|||||||0.58
92179344|NCT03373916|184256192|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
92179345|NCT03373916|184256193|OTHER|||||||0.18|||||||Chi-squared|||||||0.18
92179346|NCT03373916|184256194|OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
92179347|NCT03373916|184256195|OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.35
92179348|NCT01260896|184256266|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.84|||||TWO_SIDED|90.0|100.54|113.54|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||113.54|100.54|
92179349|NCT01260896|184256267|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.34|||||TWO_SIDED|90.0|100.37|110.55|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||110.55|100.37|
92182828|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-2.0|0.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4||0.0|-2.0|
92257958|NCT00935701|184419043|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Total Disturbance||||0.07
92257959|NCT00935701|184419044|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Child Domain Total||||0.04
92257960|NCT00935701|184419044|SUPERIORITY_OR_OTHER|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Parent Domain Total||||0.31
92257961|NCT00935701|184419044|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Total Stress||||0.07
92257962|NCT01930487|184419061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.037|STANDARD_ERROR_OF_MEAN|0.011||0.0016|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0016
92257963|NCT01930487|184419062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.025|STANDARD_ERROR_OF_MEAN|0.011||0.0249|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0249
92257964|NCT01930487|184419063|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|1.3||0.9147|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.9147
92257965|NCT01930487|184419064|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.67|STANDARD_ERROR_OF_MEAN|0.59||0.007|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0070
92257966|NCT01930487|184419065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.97|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED||||||paired t-test, 2-sidede||dietary supplement with antioxidants - placebo|||||<0.0001
92257967|NCT01930487|184419066|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|0.23||0.0476|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0476
92257968|NCT01930487|184419067|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|0.21||0.0352|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0352
92257969|NCT01930487|184419068|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|0.21||0.0208|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0208
92257970|NCT01930487|184419069|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.38|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||<0.0001
92257971|NCT01930487|184419070|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.07||0.0024|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0024
92257972|NCT01930487|184419071|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.07||0.0081|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0081
92257973|NCT01930487|184419072|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.008||0.8191|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.8191
92257974|NCT01930487|184419073|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.018|STANDARD_ERROR_OF_MEAN|0.009||0.0482|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0482
92257975|NCT01930487|184419074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.019|STANDARD_ERROR_OF_MEAN|0.023||0.023|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0230
92257976|NCT01930487|184419075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.013|STANDARD_ERROR_OF_MEAN|0.008||0.1202|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.1202
92257977|NCT01930487|184419076|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.55|STANDARD_ERROR_OF_MEAN|0.83||0.0063|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0063
92257978|NCT01930487|184419077|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|0.8||0.3347|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.3347
92179350|NCT01260896|184256268|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.12|||||TWO_SIDED|90.0|97.8|108.73|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.73|97.80|
92257979|NCT01930487|184419078|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.02|STANDARD_ERROR_OF_MEAN|0.35||0.0094|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0094
92257980|NCT01930487|184419079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.92|STANDARD_ERROR_OF_MEAN|0.24||0.0009|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0009
92257981|NCT01930487|184419080|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.02|STANDARD_ERROR_OF_MEAN|0.34||0.0067|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0067
92257982|NCT01930487|184419081|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.25||0.6938|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.6938
92284364|NCT02087904|184472255|SUPERIORITY||Response Rate Difference|2.4||||0.744|TWO_SIDED|95.0|-11.9|16.8||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||16.8|-11.9|0.744
92182829|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-2.2|0.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||0.2|-2.2|
92257983|NCT01930487|184419082|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|0.3||0.0805|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0805
92257984|NCT01930487|184419083|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.29||0.2451|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.2451
92257985|NCT01930487|184419084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.78|STANDARD_ERROR_OF_MEAN|0.34||0.0323|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0323
92257986|NCT01930487|184419085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.26||0.344|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.3440
92179351|NCT01260896|184256269|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|114.21|||||TWO_SIDED|90.0|109.29|119.35|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||119.35|109.29|
92179352|NCT01260896|184256270|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|108.26|||||TWO_SIDED|90.0|104.84|111.79|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||111.79|104.84|
92179353|NCT01260896|184256271|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.75|||||TWO_SIDED|90.0|92.92|102.85|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.85|92.92|
92179354|NCT02879318|184256319|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.72|TWO_SIDED|90.0|0.71|1.25||a priori threshold for statistical significance was 0.1.|Log Rank|stratified by ECOG performance status and prior adjuvant therapy.||||1.25|0.71|0.72
92179355|NCT02879318|184256320|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.91|TWO_SIDED|90.0|0.75|1.29|||Log Rank|||||1.29|0.75|0.91
92179356|NCT02879318|184256321|SUPERIORITY||Odds Ratio (OR)|1.49||||0.28|TWO_SIDED|90.0|0.81|2.72|||Cochran-Mantel-Haenszel|stratified by ECOG performance status and prior adjuvant chemotherapy||||2.72|0.81|0.28
92179357|NCT02382003|184256322|SUPERIORITY||Mean Difference (Net)|10.73||||0.005|TWO_SIDED|||||=Positive\~No-training, 0.030=Positive\~50/50 training, 0.833=50/50\~No-training Alpha = .05|Likelihood Ratio Tests|2=df Positive\~No-training, 2=df Positive\~50/50 training, 2=df 50/50\~No-training|=Positive\~No-training, 7.053=Positive\~50/50 training, 0.366=50/50\~No-training|Effect of CBM-I condition: The main effect of CBM-I was represented by three binary variables in the main effect models (Positive vs. No-training control; 50/50 vs. No- training control; Positive vs. 50/50). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.005
92179358|NCT02382003|184256322|SUPERIORITY||Mean Difference (Net)|0.449||||0.799|TWO_SIDED|||||=Neutral\~Anxiety prime Alpha = .05|Likelihood Ratio Tests|2=df Neutral\~Anxiety prime|=Neutral\~Anxiety prime|Effect of Imagery Prime Type: The main effect of imagery prime was represented by one binary variable (neutral vs. anxiety imagery). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.799
92179359|NCT02382003|184256322|SUPERIORITY||Mean Difference (Net)|9.085||||0.011|TWO_SIDED|||||=No-train+Neut\~Pos+Anx, 0.026=No-train+Neut\~Pos+Neut, 0.094=No-train+Anx\~Pos+Anx, 0.170=No-train+Anx\~Pos+Neut, No-train(all)\~50/50(all)≥ 0.136|Likelihood Ratio Tests|2=all df|=No-train+Neut\~Pos+Anx, 7.328=No-train+Neut\~Pos+Neut, 4.722=No-train+Anx\~Pos+Anx, 3.547=No-train+Anx\~Pos+Neut, No-train(all)\~50/50(all)≤3.988|Effect of CBM-I condition and Imagery Prime Type interaction: Each cell of the interaction was represented by one of 5 binary variables, set to 1 if a participant was in that group, and 0 otherwise; the sixth group (No-training + neutral prime) was considered a reference group, and was represented by all variables being 0. Due to high attrition, latent growth curve modeling was used instead of the planned approach. Because omnibus tests were not run, results for all comparisons are listed below.||||0.011
92179360|NCT02382003|184256323|SUPERIORITY||Mean Difference (Net)|11.551||||0.003|TWO_SIDED|||||"=Positive\~No-training, 0.130=Positive\~50/50 training, 0.269=50/50\~No-training~Alpha = .05"|Likelihood Ratio Tests|2=Positive\~No-training, 2=Positive\~50/50 training, 2=50/50\~No-training|=Positive\~No-training, 4.075=Positive\~50/50 training, 2.630=50/50\~No-training|Effect of CBM-I condition: The main effect of CBM-I was represented by three binary variables in the main effect models (Positive vs. No-training control; 50/50 vs. No- training control; Positive vs. 50/50). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.003
92179361|NCT02382003|184256323|SUPERIORITY||Mean Difference (Net)|3.933||||0.14|TWO_SIDED|||||Alpha = .05|Likelihood Ratio Tests|2=df Neutral\~Anxiety prime||Effect of Imagery Prime Type: The main effect of imagery prime was represented by one binary variable (neutral vs. anxiety imagery). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.140
92182830|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|-2.4|0.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||0.4|-2.4|
92257987|NCT01930487|184419086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.13||0.0119|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0119
92257988|NCT01930487|184419087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||<0.0001
92257989|NCT01930487|184419088|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.32|STANDARD_ERROR_OF_MEAN|0.12||0.0137|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0137
92257990|NCT01930487|184419089|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.09||0.0866|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0866
92182831|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-2.3|0.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||0.6|-2.3|
92257991|NCT01930487|184419090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|STANDARD_ERROR_OF_MEAN|0.12||0.0656|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0656
92257992|NCT01930487|184419091|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19|STANDARD_ERROR_OF_MEAN|0.09||0.0626|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0626
92257993|NCT01930487|184419092|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.003|STANDARD_ERROR_OF_MEAN|0.013||0.81|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.8100
92257994|NCT01930487|184419093|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.001|STANDARD_ERROR_OF_MEAN|0.01||0.9556|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.9556
92182832|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-3.0|0.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||0.0|-3.0|
92257995|NCT01930487|184419094|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.015|STANDARD_ERROR_OF_MEAN|0.015||0.3414|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.3414
92257996|NCT01930487|184419095|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.021|STANDARD_ERROR_OF_MEAN|0.009||0.033|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0330
92257997|NCT01930487|184419096|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.3326|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.3326
92257998|NCT01930487|184419097|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.027|STANDARD_ERROR_OF_MEAN|0.012||0.0348|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0348
92257999|NCT01930487|184419098|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.016|STANDARD_ERROR_OF_MEAN|0.012||0.2089|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.2089
92258000|NCT01930487|184419099|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.012||0.3738|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.3738
92258001|NCT01930487|184419100|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|1.7||0.447|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.4470
92258002|NCT01930487|184419101|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|2.1||0.6382|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.6382
92258003|NCT01930487|184419102|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.012||0.0026|TWO_SIDED||||||paird t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0026
92258004|NCT01930487|184419103|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.018||0.1045|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.1045
92284365|NCT02087904|184472255|SUPERIORITY||Response Rate Difference|4.3||||0.581|TWO_SIDED|95.0|-10.1|18.7||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||18.7|-10.1|0.581
92258005|NCT01930487|184419104|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.005|STANDARD_ERROR_OF_MEAN|0.013||0.6941|TWO_SIDED||||||paired t-test||dietary supplement with antioxidants - placebo|||||0.6941
92258006|NCT01930487|184419105|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.046|STANDARD_ERROR_OF_MEAN|0.017||0.0138|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0138
92258007|NCT02711553|184419106|SUPERIORITY||Hazard Ratio (HR)|1.123||||0.4821|TWO_SIDED|80.0|0.904|1.395||p-value is 2-sided.|Log Rank|Stratified by geographical region, pathological diagnosis, metastatic disease.|Stratified by geographical region, pathological diagnosis, metastatic disease.|||1.395|0.904|0.4821
92258008|NCT02711553|184419106|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.6417|TWO_SIDED|80.0|0.734|1.153||p-value is 2-sided.|Log Rank|Stratified by geographical region, pathological diagnosis, metastatic disease.|Stratified by geographical region, pathological diagnosis, metastatic disease.|||1.153|0.734|0.6417
92258009|NCT02711553|184419107|SUPERIORITY||Hazard Ratio (HR)|1.336||||0.087|TWO_SIDED|95.0|0.959|1.862|||Log Rank|Stratified by geographical region, pathological diagnosis, metastatic disease.|Stratified by geographical region, pathological diagnosis, metastatic disease.|||1.862|0.959|0.0870
92258010|NCT02711553|184419107|SUPERIORITY||Hazard Ratio (HR)|0.948||||0.7599|TWO_SIDED|95.0|0.669|1.342|||Log Rank|Stratified by geographical region, pathological diagnosis, metastatic disease.|Stratified by geographical region, pathological diagnosis, metastatic disease.|||1.342|0.669|0.7599
92284366|NCT02087904|184472255|SUPERIORITY||Response Rate Difference|10.4||||0.146|TWO_SIDED|95.0|-3.5|24.3||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||24.3|-3.5|0.146
92258011|NCT02711553|184419108|SUPERIORITY||Odds Ratio (OR)|1.0||||0.878|TWO_SIDED|95.0|0.6|1.9|||Exact Cochran-Mantel-Haenszel|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|||1.9|0.6|0.878
92258012|NCT02711553|184419108|SUPERIORITY||Odds Ratio (OR)|0.5||||0.023|TWO_SIDED|95.0|0.2|0.9|||Exact Cochran-Mantel-Haenszel|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|||0.9|0.2|0.023
92258013|NCT02711553|184419109|SUPERIORITY||Odds Ratio (OR)|1.2||||0.68|TWO_SIDED|95.0|0.6|2.4|||Exact Cochran-Mantel-Haenszel|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|||2.4|0.6|0.680
92258014|NCT02711553|184419109|SUPERIORITY||Odds Ratio (OR)|1.3||||0.499|TWO_SIDED|95.0|0.6|2.6|||Exact Cochran-Mantel-Haenszel|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|||2.6|0.6|0.499
92182833|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.79|||TWO_SIDED|95.0|-2.5|0.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||0.6|-2.5|
92182834|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-2.7|0.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||0.5|-2.7|
92258015|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.6||0.069|TWO_SIDED|95.0|-2.28|0.09||p-values are from Type 3 sums of squares mixed model repeated measures (MMRM) Model.|MMRM Model|Least Squares (LS) Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||PWB||0.09|-2.28|0.069
92258016|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.6||0.042|TWO_SIDED|95.0|-2.42|-0.04||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||PWB||-0.04|-2.42|0.042
92258017|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.51||0.112|TWO_SIDED|95.0|-1.83|0.19||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||SWB||0.19|-1.83|0.112
92179362|NCT02382003|184256323|SUPERIORITY||Mean Difference (Net)|6.018||||0.049|TWO_SIDED|||||=No-train+Neut\~Pos+Anx,0.049=No-train+Neut\~Pos+Neut,Positive(all)\~No-train+Anx≥0.198,50/50(all)\~No-train+Anx≥0.104,0.014=No-train+Neut\~50/50+Neut,0.627=No-train+Neut\~50/50+Anx,0.021=Pos+Anx\~50/50+Anx,0.764=Pos+Anx\~50/50+Neut,Pos+Neut\~50/50(all)≥0.067|Likelihood Ratio Tests|2=all df|=No-train+Neut\~Pos+Anx,6.041=No-train+Neut\~Pos+Neut,Positive(all)\~No-train+Anx≤3.240,50/50(all)\~No-train+Anx≤4.534,8.525=No-train+Neut\~50/50+Neut,0.933=No-train+Neut\~50/50+Anx,7.686=Pos+Anx\~50/50+Anx,0.537=Pos+Anx\~50/50+Neut,Pos+Neut\~50/50(all)≤5.395|Effect of CBM-I condition and Imagery Prime Type interaction: Each cell of the interaction was represented by one of 5 binary variables, set to 1 if a participant was in that group, and 0 otherwise; the sixth group (No-training + neutral prime) was considered a reference group, and was represented by all variables being 0. Due to high attrition, latent growth curve modeling was used instead of the planned approach. Because omnibus tests were not run, results for all comparisons are listed below.||||0.049
92179363|NCT02382003|184256324|SUPERIORITY||Mean Difference (Net)|17.42|||<|0.001|TWO_SIDED|||||=Positive\~No-training, Positive\~50/50 training\<0.001, 0.124=50/50\~No-training Alpha = .05|Likelihood Ratio Tests|2=df Positive\~No-training, 2=df Positive\~50/50 training, 2=df 50/50\~No-training|=Positive\~No-training, 31.921=Positive\~50/50 training, 4.175=50/50\~No-training|Effect of CBM-I condition: The main effect of CBM-I was represented by three binary variables in the main effect models (Positive vs. No-training control; 50/50 vs. No- training control; Positive vs. 50/50). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||<0.001
92179364|NCT02382003|184256324|SUPERIORITY||Mean Difference (Net)|0.634||||0.728|TWO_SIDED|||||=Neutral\~Anxiety prime Alpha = .05|Likelihood Ratio Tests|2=df Neutral\~Anxiety prime|=Neutral\~Anxiety prime|Effect of Imagery Prime Type: The main effect of imagery prime was represented by one binary variable (neutral vs. anxiety imagery). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.728
92179365|NCT02382003|184256324|SUPERIORITY||Mean Difference (Net)|15.034|||<|0.001|TWO_SIDED|||||=Pos+Anx\~No-train+Neut, 0.026=Pos+Anx\~No-train+Anx, 0.002=Pos+Neut\~No-train+Neut, 0.091=Pos+Neut\~No-train+Anx, 50/50(all)\~No-train(all)≥ 0.081, Positive(all)\~50/50(all)\< 0.001|Likelihood Ratio Tests|2=all df|=Pos+Anx\~No-train+Neut, 7.306=Pos+Anx\~No-train+Anx, 12.672=Pos+Neut\~No-train+Neut, 4.802=Pos+Neut\~No-train+Anx, 50/50(all)\~No-train(all)≤5.037, Positive(all)\~50/50(all)≥16.239|Effect of CBM-I condition and Imagery Prime Type interaction: Each cell of the interaction was represented by one of 5 binary variables, set to 1 if a participant was in that group, and 0 otherwise; the sixth group (No-training + neutral prime) was considered a reference group, and was represented by all variables being 0. Due to high attrition, latent growth curve modeling was used instead of the planned approach. Because omnibus tests were not run, results for all comparisons are listed below.||||<0.001
92179366|NCT02382003|184256325|SUPERIORITY||Mean Difference (Net)|13.924|||<|0.001|TWO_SIDED|||||=Positive\~No-training, Positive\~50/50 training\< 0.001, 0.100=50/50\~No-training Alpha = .05|Likelihood Ratio Tests|2=df Positive\~No-training, 2=df Positive\~50/50 training, 2=df 50/50\~No-training|=Positive\~No-training, 15.288=Positive\~50/50 training, 4.605=50/50\~No-training|Effect of CBM-I condition: The main effect of CBM-I was represented by three binary variables in the main effect models (Positive vs. No-training control; 50/50 vs. No- training control; Positive vs. 50/50). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||< 0.001
92258018|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.51||0.505|TWO_SIDED|95.0|-1.35|0.67||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||SWB||0.67|-1.35|0.505
92258019|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.44||0.116|TWO_SIDED|95.0|-1.56|0.17||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||EWB||0.17|-1.56|0.116
92258020|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.45||0.521|TWO_SIDED|95.0|-1.16|0.59||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||EWB||0.59|-1.16|0.521
92258021|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.62||0.008|TWO_SIDED|95.0|-2.87|-0.44||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||FWB||-0.44|-2.87|0.008
92258022|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.62||0.335|TWO_SIDED|95.0|-1.82|0.62||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||FWB||0.62|-1.82|0.335
92258023|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|0.89||0.001|TWO_SIDED|95.0|-4.69|-1.18||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||HCS||-1.18|-4.69|0.001
92258024|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.89||0.068|TWO_SIDED|95.0|-3.4|0.12||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||HCS||0.12|-3.40|0.068
92258025|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.52||0.051|TWO_SIDED|95.0|-2.04|0.0||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||FACT-Hep||0.00|-2.04|0.051
92179367|NCT02382003|184256325|SUPERIORITY||Mean Difference (Net)|4.011||||0.135|TWO_SIDED|||||=Neutral\~Anxiety prime Alpha = .05|Likelihood Ratio Tests|2=df Neutral\~Anxiety prime|=Neutral\~Anxiety prime|Effect of Imagery Prime Type: The main effect of imagery prime was represented by one binary variable (neutral vs. anxiety imagery). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.135
92179368|NCT02382003|184256325|SUPERIORITY||Mean Difference (Net)|9.402||||0.009|TWO_SIDED|||||=Pos+Anx\~No-train+Neut, Pos+Anx\~No-train+Anx\<0.048, Pos+Neut\~No-train+Neut\<0.001, 0.055=Pos+Neut\~No-train+Anx, 50/50(all)\~No-train+Anx≥0.139, 0.034=No-train+Neut\~50/50+Neut, 0.340=No-train+Neut\~50/50+Anx, Pos(all)\~50/50(all)≥ 0.087|Likelihood Ratio Tests|2=all df|=Pos+Anx\~No-train+Neut, 6.076=Pos+Anx\~No-train+Anx, 14.525=Pos+Neut\~No-train+Neut, 5.811=Pos+Neut\~No-train+Anx, 50/50(all)\~No-train+Anx≤3.950, 6.770=No-train+Neut\~50/50+Neut, 2.158=No-train+Neut\~50/50+Anx, Pos(all)\~50/50(all)≤4.876|Effect of CBM-I condition and Imagery Prime Type interaction: Each cell of the interaction was represented by one of 5 binary variables, set to 1 if a participant was in that group, and 0 otherwise; the sixth group (No-training + neutral prime) was considered a reference group, and was represented by all variables being 0. Due to high attrition, latent growth curve modeling was used instead of the planned approach. Because omnibus tests were not run, results for all comparisons are listed below.||||0.009
92179369|NCT05934292|184256330|OTHER||Geometric Mean Ratio|1.5|||||TWO_SIDED|90.0|0.98|2.31|||||Geometric mean ratio (GMR) and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||2.31|0.98|
92179370|NCT05934292|184256330|OTHER||Geometric Mean Ratio|1.14|||||TWO_SIDED|90.0|0.74|1.74|||Geometric Mean Ratio||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||1.74|0.74|
92179371|NCT05934292|184256330|OTHER||Geometric Mean Ratio|1.75|||||TWO_SIDED|90.0|1.1|2.78|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Pre-Hemodialysis/ Panel D-Healthy Controls|||2.78|1.10|
92179372|NCT05934292|184256330|OTHER||Geometric Mean Ratio|1.17|||||TWO_SIDED|90.0|0.77|1.77|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Post-Hemodialysis/ Panel D-Healthy Controls|||1.77|0.77|
92179373|NCT05934292|184256331|OTHER||Geometric Mean Ratio|1.61|||||TWO_SIDED|90.0|1.05|2.46|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||2.46|1.05|
92179374|NCT05934292|184256331|OTHER||Geometric Mean ratio|0.79|||||TWO_SIDED|90.0|0.37|1.72|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||1.72|0.37|
92258026|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.52||0.212|TWO_SIDED|95.0|-1.68|0.38||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||FACT-Hep||0.38|-1.68|0.212
92258027|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-5.67|STANDARD_ERROR_OF_MEAN|1.84||0.002|TWO_SIDED|95.0|-9.3|-2.04||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||TOI||-2.04|-9.30|0.002
92179375|NCT05934292|184256331|OTHER||Geometric Mean Ratio|1.42|||||TWO_SIDED|90.0|0.8|2.54|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Pre-Hemodialysis/ Panel D-Healthy Controls|||2.54|0.80|
92179376|NCT05934292|184256331|OTHER||Geometric Mean Ratio|1.18|||||TWO_SIDED|90.0|0.78|1.78|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Post-Hemodialysis/ Panel D-Healthy Controls|||1.78|0.78|
92179377|NCT05934292|184256332|OTHER||Geometric Mean Ratio|0.98|||||TWO_SIDED|90.0|0.71|1.37|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls.|||1.37|0.71|
92258028|NCT02711553|184419113|SUPERIORITY||LS Mean Difference|-3.42|STANDARD_ERROR_OF_MEAN|1.85||0.066|TWO_SIDED|95.0|-7.07|0.22||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||TOI||0.22|-7.07|0.066
92258029|NCT00679380|184419143|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|3.8||||0.2876|TWO_SIDED|95.0|-3.0|10.5|||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|All p-values were based on the Chi-square test; comparisons of budesonide MMX and placebo were conducted at the α = 0.025 level of significance and the comparison of Entocort EC and placebo were conducted at the α = 0.05 level of significance. The study was not powered to show statistical significance for Entocort EC versus budesonide MMX.||10.5|-3.0|0.2876
92179378|NCT05934292|184256332|OTHER||Geometric Mean Ratio|0.6|||||TWO_SIDED|90.0|0.34|1.04|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls.|||1.04|0.34|
92179379|NCT05934292|184256332|OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|90.0|0.64|1.27|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Pre-Hemodialysis/ Panel D-Healthy Controls.|||1.27|0.64|
92284367|NCT02087904|184472256|SUPERIORITY||Response Rate Difference|-1.3||||0.824|TWO_SIDED|95.0|-14.9|12.4||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||12.4|-14.9|0.824
92179380|NCT05934292|184256332|OTHER||Geometric Mean Ratio|1.18|||||TWO_SIDED|90.0|0.78|1.78|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Post-Hemodialysis/ Panel D-Healthy Controls.|||1.78|0.78|
92258030|NCT00679380|184419143|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|12.9||||0.0047|TWO_SIDED|95.0|4.6|21.3|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||21.3|4.6|0.0047
92258031|NCT00679380|184419143|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|8.1||||0.0481|TWO_SIDED|95.0|0.4|15.9|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||15.9|0.4|0.0481
92258032|NCT00679380|184419144|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|-8.0||||0.2174|TWO_SIDED|95.0|-20.8||||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|Clinical improvement and endoscopic improvement were analyzed hierarchically. If at least one primary endpoint comparison was statistically significant, clinical improvement was to be compared between each budesonide MMX group and placebo at the α = 0.025 level of significance. If at least one comparison of clinical improvement was statistically significant, endoscopic improvement was to be compared between each budesonide MMX dose group and placebo at the α = 0.025 level of significance.||4.|-20.8|0.2174
92258033|NCT00679380|184419144|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|8.5||||0.2215|TWO_SIDED|95.0|-5.0|22.0|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||22.0|-5.0|0.2215
92258034|NCT00679380|184419144|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|-0.7||||0.9185|TWO_SIDED|95.0|-14.1|12.7|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||12.7|-14.1|0.9185
92258035|NCT00679380|184419145|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|5.4||||0.4293|TWO_SIDED|95.0|-8.0|18.8|||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|As per the hierarchical testing procedure for secondary endpoints, because clinical improvement was not statistically significant in the ITT population, formal statistical comparisons for endoscopic improvement between the 2 budesonide MMX groups and placebo were not conducted. The statistical comparison between the Entocort EC and placebo groups is shown here.||18.8|-8.0|0.4293
92284368|NCT02087904|184472256|SUPERIORITY||Response Rate Difference|0.8||||0.964|TWO_SIDED|95.0|-12.8|14.5||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||14.5|-12.8|0.964
92284369|NCT02087904|184472256|SUPERIORITY||Response Rate Difference|2.1||||0.763|TWO_SIDED|95.0|-11.3|15.6||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||15.6|-11.3|0.763
92284370|NCT01973348|184472257|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 12 subjects per group has been shown to be effective for estimating within-group means and variances when little prior data is available.(Julius, 2005) Based on collected data from 34 subjects and effective size difference of 0.1, we reestimate this study as a noninferiority trial with continuous outcome and power calculated as approximately 80%.||||||0.88|||||||t-test, 1 sided|||||||0.88
92258036|NCT00678249|184419158|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92258037|NCT04337203|184419169|OTHER|Feasibility study and calculated confidence interval.||||||0.54|||||||Independent samples proportions test|||||||0.54
92258038|NCT03049852|184419209|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92258039|NCT03049852|184419211|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.007|TWO_SIDED||||||ANOVA|||||||0.007
92258040|NCT02141854|184419212|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.179||||0.0009|TWO_SIDED|95.0|0.074|0.285||Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the first in the sequence.||0.285|0.074|0.0009
92258041|NCT02141854|184419212|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.182||||0.001|TWO_SIDED|95.0|0.074|0.291||Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the second in the sequence.||0.291|0.074|0.0010
92284371|NCT00669864|184472369|SUPERIORITY_OR_OTHER||Estimated mean|-1.303|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|-1.414|-1.192||A significant mean HbA1c decrease was to be declared if H0 is rejected at a significance level of 2.5%.|t-test, 1 sided|||The null hypothesis (H0): HbA1c after 16 weeks - HbA1c at baseline ≥ 0% against the alternative hypothesis (H1): HbA1c after 16 weeks - HbA1c at baseline \< 0%. If H0 rejected at a significance level of 2.5%, declare a significant mean HbA1c decrease||-1.192|-1.414|<0.0001
92284372|NCT01941030|184472381|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.022|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty reduction of calcium out of lumen gain.||||0.0220
92258042|NCT02141854|184419212|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.326||||0|TWO_SIDED|95.0|0.221|0.431||Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the third in the sequence.||0.431|0.221|0.0000
92179381|NCT05934292|184256335|OTHER||Geometric Mean Ratio|0.67|||||TWO_SIDED|90.0|0.43|1.02|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||1.02|0.43|
92179382|NCT05934292|184256335|OTHER||Geometric Mean Ratio|0.88|||||TWO_SIDED|90.0|0.58|1.35|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||1.35|0.58|
92179383|NCT05934292|184256335|OTHER||Geomtric Mean ratio|0.57|||||TWO_SIDED|90.0|0.36|0.91|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Pre-Hemodialysis/ Panel D-Healthy Controls|||0.91|0.36|
92179384|NCT05934292|184256335|OTHER||Geomtric Mean Ratio|0.86|||||TWO_SIDED|90.0|0.57|1.29|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Post-Hemodialysis/ Panel D-Healthy Controls|||1.29|0.57|
92258043|NCT02141854|184419212|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.322||||0|TWO_SIDED|95.0|0.212|0.432||Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the fourth in the sequence.||0.432|0.212|0.0000
92179385|NCT05934292|184256336|OTHER||Geometric Mean Ratio|1.18|||||TWO_SIDED|90.0|0.83|1.67|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||1.67|0.83|
92179386|NCT05934292|184256336|OTHER||Geometric Mean ratio|1.08|||||TWO_SIDED|90.0|0.78|1.5|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||1.50|0.78|
92179387|NCT05934292|184256336|OTHER||Geometric Mean Ratio|0.66|||||TWO_SIDED|90.0|0.5|0.89|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Pre-Hemodialysis/ Panel D-Healthy Controls|||0.89|0.50|
92179388|NCT05934292|184256336|OTHER||Geometric Mean Ratio|1.4|||||TWO_SIDED|90.0|1.0|1.97|||||GMR and 90% CI for AUC0-inf were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Post-Hemodialysis/ Panel D-Healthy Controls|||1.97|1.00|
92179389|NCT05934292|184256341|OTHER||Geometric Mean Ratio|0.32|||||TWO_SIDED|90.0|0.14|0.74|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||0.74|0.14|
92179390|NCT05934292|184256341|OTHER||Geometric Mean Ratio|0.09|||||TWO_SIDED|90.0|0.04|0.22|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||0.22|0.04|
92284373|NCT01941030|184472382|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.6228|||||||t-test, 2 sided|||Null hypothesis: no difference in populations for post-balloon angioplasty minimum lumen area stenosis.||||0.6228
92179391|NCT05934292|184256342|OTHER||Geometric Mean Ratio|0.32|||||TWO_SIDED|90.0|0.14|0.74|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||0.74|0.14|
92179392|NCT05934292|184256342|OTHER||Geometric Mean Ratio|0.09|||||TWO_SIDED|90.0|0.04|0.22|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||0.22|0.04|
92179393|NCT05934292|184256343|OTHER||Geometric Mean Ratio|0.29|||||TWO_SIDED|90.0|0.16|0.55|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||0.55|0.16|
92179394|NCT05934292|184256343|OTHER||Geometric Mean Ratio|0.14|||||TWO_SIDED|90.0|0.06|0.36|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||0.36|0.06|
92179395|NCT02890355|184256347|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.28|TWO_SIDED|95.0|0.85|1.78||a priori threshold for statistical significance, one sided p=0.02|Log Rank|||||1.78|0.85|0.28
92179396|NCT02890355|184256349|SUPERIORITY||Hazard Ratio (HR)|1.39||||0.09|TWO_SIDED|95.0|0.96|2.02|||Log Rank|||||2.02|0.96|0.09
92179397|NCT03391466|184256365|SUPERIORITY|One-sided p-value based on log-rank test stratified by response to first-line therapy and second-line age-adjusted International Prognostic Index (IPI) as data collected on case report forms.|Hazard Ratio (HR)|0.398|||<|0.0001|TWO_SIDED|95.0|0.308|0.514||Stratified (randomization factors) log-rank p-value.|Log Rank|Stratified (randomization stratification factors) log-rank test.|Hazard ratio (95% confidence interval (CI)), stratified using randomization stratification factors.|||0.514|0.308|<0.0001
92179398|NCT03391466|184256366|SUPERIORITY|One-sided p-value based on Cochran-Mantel-Haenszel (CMH) test, one-sided tailed test, stratified by response to first-line therapy and second-line age-adjusted International Prognostic Index (IPI) as data collected on case report forms.|Difference in ORR|33.1|||<|0.0001|TWO_SIDED|95.0|23.2|42.1||Stratified (randomization factor) CMH test p-value.|Cochran-Mantel-Haenszel|Stratified (randomization factor) CMH test.|95% CI for the difference in ORR was from Wilson's score method with continuity correction.|||42.1|23.2|<0.0001
92258044|NCT02141854|184419213|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.276||||0|TWO_SIDED|95.0|0.191|0.361||Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the fifth in the sequence.||0.361|0.191|0.0000
92258045|NCT02141854|184419213|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.274||||0|TWO_SIDED|95.0|0.189|0.36||Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the sixth in the sequence.||0.360|0.189|0.0000
92258046|NCT02141854|184419213|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.183||||0|TWO_SIDED|95.0|0.098|0.268||Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the seventh in the sequence.||0.268|0.098|0.0000
92258047|NCT02141854|184419213|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.123||||0.0047|TWO_SIDED|95.0|0.038|0.208||Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the eighth in the sequence.||0.208|0.038|0.0047
92258048|NCT02141854|184419214|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|18.45||||0|TWO_SIDED|95.0|11.751|25.15||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||25.150|11.751|0.0000
92284374|NCT01941030|184472383|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.4528|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty plaque area.||||0.4528
92284375|NCT01941030|184472384|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.3573|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty dense calcium area.||||0.3573
92179399|NCT03391466|184256367|SUPERIORITY|One-sided p-value based on log-rank test stratified by response to first-line therapy and second-line age-adjusted IPI as data collected on case report forms.|Hazard Ratio (HR)|0.73||||0.027|TWO_SIDED|95.0|0.53|1.007||Stratified log-rank (randomization factor) p-value.|Log Rank|Stratified (randomization factor) log-rank test.|Stratified Cox regression models were used to estimate hazard ratio and 2-sided CIs for axicabtagene ciloleucel relative to standard of care therapy. The Breslow method was used to handle the ties for the Cox regression models.||The Rho family spending function with parameter (Rho = 6) was used to allocate alpha between the interim and primary OS analysis. Given that fewer than the anticipated 210 events were observed at the data cutoff date for the primary OS analysis (25 January 2023), the efficacy boundary for the primary OS analysis was recalculated using the Rho family spending function based on the actual observed event numbers (177 deaths) resulting in an efficacy boundary at 1-sided significance level of 0.0249.|1.007|0.530|0.027
92179400|NCT03391466|184256368|SUPERIORITY|One-sided p-value based on log-rank test stratified by response to first-line therapy and second-line age-adjusted IPI as data collected on case report forms.|Hazard Ratio (HR)|0.736||||0.0695|TWO_SIDED|95.0|0.488|1.108||Stratified (randomization stratification factors) log-rank test.|Log Rank||Stratified Cox regression models were used to estimate hazard ratio and 2-sided 95% CIs for axicabtagene ciloleucel relative to standard of care.|||1.108|0.488|0.0695
92179401|NCT03391466|184256369|SUPERIORITY||Hazard Ratio (HR)|0.376|||<|0.0001|TWO_SIDED|95.0|0.29|0.487||One-sided p-value based on log-rank test stratified by response to first-line therapy and second-line age-adjusted IPI as data collected on case report forms.|Log Rank|Stratified (randomization stratification factors) log-rank test.|Stratified Cox regression models were used to estimate hazard ratio and 2-sided 95% CIs for axicabtagene ciloleucel relative to standard of care therapy. The Breslow method was used to handle the ties for the Cox regression models.|||0.487|0.290|<0.0001
92179402|NCT03391466|184256370|SUPERIORITY||Hazard Ratio (HR)|0.422|||||TWO_SIDED|95.0|0.327|0.545|||||Stratified Cox regression models were used to estimate hazard ratio and 2-sided 95% CIs for axicabtagene ciloleucel relative to standard of care therapy. The Breslow method was used to handle the ties for the Cox regression models.|||0.545|0.327|
92258049|NCT02141854|184419214|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|16.718||||0|TWO_SIDED|95.0|9.988|23.449||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||23.449|9.988|0.0000
92258050|NCT02141854|184419214|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|31.221||||0|TWO_SIDED|95.0|24.513|37.93||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||37.930|24.513|0.0000
92258051|NCT02141854|184419214|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|29.597||||0|TWO_SIDED|95.0|22.839|36.354||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||36.354|22.839|0.0000
92258052|NCT02141854|184419214|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|12.771||||0.0002|TWO_SIDED|95.0|6.179|19.363||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||19.363|6.179|0.0002
92179403|NCT03391466|184256371|SUPERIORITY||Hazard Ratio (HR)|0.506|||||TWO_SIDED|95.0|0.383|0.669|||||Stratified Cox regression models were used to estimate hazard ratio and 2-sided 95% CIs for axicabtagene ciloleucel relative to standard of care therapy. The Breslow method was used to handle the ties for the Cox regression models.|||0.669|0.383|
92258053|NCT02141854|184419214|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|12.879||||0.0002|TWO_SIDED|95.0|6.216|19.541||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||19.541|6.216|0.0002
92258054|NCT02141854|184419214|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|11.146||||0.001|TWO_SIDED|95.0|4.511|17.782||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||17.782|4.511|0.0010
92258055|NCT02141854|184419215|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.156||||0.001|TWO_SIDED|95.0|-0.248|-0.063||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.063|-0.248|0.0010
92179404|NCT03391466|184256372|SUPERIORITY||Hazard Ratio (HR)|0.412|||||TWO_SIDED|95.0|0.318|0.532|||||Stratified Cox regression models were used to estimate hazard ratio and 2-sided 95% CIs for axicabtagene ciloleucel relative to standard of care therapy. The Breslow method was used to handle the ties for the Cox regression models.|||0.532|0.318|
92179405|NCT03391466|184256373|SUPERIORITY||Mixed Model with Repeated Measures|18.1|||<|0.0001|TWO_SIDED|95.0|12.3|23.9||False Discovery Rate Methodology|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 100.||23.9|12.3|<0.0001
92179406|NCT03391466|184256373|SUPERIORITY||Mixed Model with Repeated Measures|9.8||||0.0124|TWO_SIDED|95.0|2.6|17.0||False Discovery Rate Methodology|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 150.||17.0|2.6|0.0124
92179407|NCT03391466|184256373|SUPERIORITY||Mixed Model with Repeated Measures|4.4||||0.2655|TWO_SIDED|95.0|-3.3|12.0||False Discovery Rate Methodology|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Month 9.||12.0|-3.3|0.2655
92179408|NCT03391466|184256374|SUPERIORITY||Mixed Model with Repeated Measures|13.1|||<|0.0001|TWO_SIDED|95.0|8.0|18.2||False Discovery Rate Methodology.|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 100.||18.2|8.0|<0.0001
92179409|NCT03391466|184256374|SUPERIORITY||Mixed Model with Repeated Measures|5.1||||0.1253|TWO_SIDED|95.0|-0.9|11.0||False Discovery Rate Methodology.|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 150.||11.0|-0.9|0.1253
92179410|NCT03391466|184256375|SUPERIORITY||Mixed Model with Repeated Measures|0.081||||0.0112|TWO_SIDED|95.0|0.024|0.138||False Discovery Rate Methodology.|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 100.||0.138|0.024|0.0112
92258056|NCT02141854|184419215|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.195||||0|TWO_SIDED|95.0|-0.288|-0.102||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.102|-0.288|0.0000
92258057|NCT02141854|184419215|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.304||||0|TWO_SIDED|95.0|-0.397|-0.212||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.212|-0.397|0.0000
92258058|NCT02141854|184419215|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.277||||0|TWO_SIDED|95.0|-0.37|-0.184||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.184|-0.370|0.0000
92258059|NCT02141854|184419215|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.149||||0.0014|TWO_SIDED|95.0|-0.239|-0.058||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.058|-0.239|0.0014
92179411|NCT03391466|184256375|SUPERIORITY||Mixed Model with Repeated Measures|0.028||||0.3703|TWO_SIDED|95.0|-0.034|0.091||False Discovery Rate Methodology.|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 150.||0.091|-0.034|0.3703
92258060|NCT02141854|184419215|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.082||||0.0818|TWO_SIDED|95.0|-0.174|0.01||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.010|-0.174|0.0818
92179412|NCT03391466|184256376|SUPERIORITY||Mixed Model with Repeated Measures|13.7|||<|0.0001|TWO_SIDED|95.0|8.5|18.8||False Discovery Rate Methodology|Mixed Model with Repeated Measures|Mixed Model with Repeated Measures Differences in Change from Baseline.||Difference in mean change of scores from Baseline at Day 100.||18.8|8.5|<0.0001
92179413|NCT03391466|184256376|SUPERIORITY||Mixed Model with Repeated Measures|11.3||||0.0004|TWO_SIDED|95.0|5.4|17.1||False Discovery Rate Methodology|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 150.||17.1|5.4|0.0004
92179414|NCT03391466|184256376|SUPERIORITY||Mixed Model with Repeated Measures|3.8||||0.2549|TWO_SIDED|95.0|-2.3|10.0||False Discovery Rate Methodology.|Mixed Model with Repeated Measures|Mixed Model with Repeated Measures Differences in Change from Baseline.||Difference in mean change of scores from Baseline at Month 9.||10.0|-2.3|0.2549
92179415|NCT00220805|184256387|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|95.0|||||ANOVA|||The primary efficacy comparison for the change in LogMAR from baseline to endpoint was a two-way analysis of variance (ANOVA) with treatment group and center as fixed factors (main effect model).||||0.49
92179416|NCT00220805|184256388|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED|||||Adjusted for centers (including a Breslow-Day test for homogeneity of odd ratios across centers)|Cochran-Mantel-Haenszel|||||||0.76
92179417|NCT00220805|184256389|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Cochran-Mantel-Haenszel|Adjusted for centers (including a Breslow-Day test for homogeneity of odd ratios across centers)||||||0.13
92179418|NCT00220805|184256390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9|TWO_SIDED|95.0|-0.21|0.19|||ANOVA|||||0.19|-0.21|0.90
92179419|NCT00220805|184256392|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Cochran-Mantel-Haenszel|Adjusted to centers||||||0.74
92179420|NCT00692913|184256398|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.2|||<|0.001||95.0|0.12|0.35|||Regression, Logistic|The logistic regression model was adjusted by baseline 25-hydroxyvitamin D (25(OH)D) level stratum, age, and region.||||0.35|0.12|<0.001
92179421|NCT00692913|184256399|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares means|-9.7|||<|0.001||95.0|-14.49|-4.93|||Longitudinal Data Analysis Model|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.||||-4.93|-14.49|<0.001
92258061|NCT02141854|184419215|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.121||||0.0094|TWO_SIDED|95.0|-0.213|-0.03||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.030|-0.213|0.0094
92258062|NCT02141854|184419216|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.702||||0|TWO_SIDED|95.0|-1.001|-0.403||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.403|-1.001|0.0000
92258063|NCT02141854|184419216|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.607||||0.0001|TWO_SIDED|95.0|-0.908|-0.307||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.307|-0.908|0.0001
92179422|NCT00692913|184256400|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares mean|-7.07|||<|0.001||95.0|-10.95|-3.2|||Longitudinal Data Analysis Model|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.||||-3.20|-10.95|<0.001
92179423|NCT00692913|184256401|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.21|||<|0.001||95.0|0.13|0.35|||Regression, Logistic|The logistic regression model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.||||0.35|0.13|<0.001
92179424|NCT00692913|184256402|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.01||||0.047||95.0|0.01|2.0|||Traditional Longitudinal data analysis|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.|FOSAVANCE minus Referred-Care. Analysis was for Lumbar Spine.|||2.00|0.01|0.047
92179425|NCT00692913|184256402|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.82||||0.035||95.0|0.06|1.58|||Traditional Longitudinal data analysis|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.|FOSAVANCE minus Referred-Care. Analysis was for Total Hip.|||1.58|0.06|0.035
92179426|NCT00692913|184256403|SUPERIORITY_OR_OTHER_LEGACY||Difference of falls (falls/patient-year)|0.03|STANDARD_ERROR_OF_MEAN|0.08||0.675||95.0|-0.12|0.19|||Zero-Inflated Poisson Regression|Adjusted by the terms for treatment, baseline 25(OH) D level stratum, age, and region and offset variable of log (total patient-years in the study).||||0.19|-0.12|0.675
92179427|NCT00692913|184256404|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-8.35||||0.001||95.0|-13.19|-3.54|||Longitudinal Data Analysis Model|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.||||-3.54|-13.19|0.001
92179428|NCT00692913|184256405|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-8.07|||<|0.001||95.0|-11.94|-4.21|||Longitudinal Data Analysis Model|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.||||-4.21|-11.94|<0.001
92179429|NCT05288348|184256479|SUPERIORITY||Mean Difference (Final Values)|2.57||||0.56|TWO_SIDED|95.0|-6.19|11.33||unadjusted|Mixed Models Analysis|Mixed methods ANOVA||||11.33|-6.19|0.56
92179430|NCT05288348|184256479|SUPERIORITY||Mean Difference (Final Values)|-0.51||||0.92|TWO_SIDED|95.0|-10.5|9.48|||Mixed Models Analysis|Mixed methods ANOVA||Adjusted for age, sex, respiratory rate and injury type||9.48|-10.5|0.92
92258064|NCT02141854|184419216|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-1.066||||0|TWO_SIDED|95.0|-1.365|-0.766||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.766|-1.365|0.0000
92258065|NCT02141854|184419216|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.989||||0|TWO_SIDED|95.0|-1.291|-0.686||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.686|-1.291|0.0000
92284376|NCT01941030|184472385|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.6073|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty necrotic core area.||||0.6073
92284377|NCT01941030|184472386|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.2149|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty fibrous plaque area.||||0.2149
92179431|NCT05288348|184256480|SUPERIORITY||Mean Difference (Final Values)|-7.14||||0.18|TWO_SIDED|95.0|-17.66|3.37|||Mixed Models Analysis|Mixed effects ANOVA||VNRS @ 60min||3.37|-17.66|0.18
92179432|NCT05288348|184256480|SUPERIORITY||Median Difference (Final Values)|2.92||||0.63|TWO_SIDED|95.0|-9.3|15.1|||Mixed Models Analysis|Mixed effects ANOVA||VNRS @ 60 min Adjusted for sex and injury type||15.10|-9.30|0.63
92179433|NCT05288348|184256480|SUPERIORITY||Mean Difference (Final Values)|-10.59||||0.08|TWO_SIDED|95.0|-22.39|1.21||Unadjusted|Mixed Models Analysis|||VNRS @ 90 min||1.21|-22.39|0.08
92179434|NCT05288348|184256480|SUPERIORITY||Mean Difference (Final Values)|7.36||||0.28|TWO_SIDED|95.0|-6.13|20.8|||Mixed Models Analysis|Mixed Method ANOVA|Adjusted for ISS|VNRS @90min adjusted||20.80|-6.13|0.28
92179435|NCT05288348|184256480|SUPERIORITY||Mean Difference (Final Values)|-9.52||||0.18|TWO_SIDED|95.0|-23.6|4.56|||Mixed Models Analysis|||VNRS @ 120 min||4.56|-23.60|0.18
92179436|NCT05288348|184256480|SUPERIORITY||Mean Difference (Final Values)|-5.24||||0.5|TWO_SIDED|95.0|-20.7|10.2|||Mixed Models Analysis|Mixed Method ANOVA||VNRS @ 120min adjusted for sex, HR, RR, and injury type||10.20|-20.70|0.50
92179437|NCT05288348|184256481|SUPERIORITY|||||||0.005||||||PGA @ 30 min|Chi-squared|||||||0.005
92179438|NCT05288348|184256482|SUPERIORITY||Odds Ratio (OR)|1.45||||0.39|TWO_SIDED|95.0|-4.77|1.89|||General Addative Model|||"SPID 30~last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value"||1.89|-4.77|0.39
92179439|NCT05288348|184256482|SUPERIORITY||Odds Ratio (OR)|1.72||||0.29|TWO_SIDED|95.0|-1.5|4.95|||General Additive Model|||"SPID 30, Adjusted Analysis~last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value"||4.95|-1.50|0.29
92179440|NCT05288348|184256482|SUPERIORITY||Odds Ratio (OR)|0.08||||0.98|TWO_SIDED|95.0|-6.63|6.47|||Generalized Additive Model|||SPID @ 60min last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value||6.47|-6.63|0.98
92179441|NCT05288348|184256482|SUPERIORITY||Odds Ratio (OR)|0.61||||0.85|TWO_SIDED|95.0|-5.76|6.98|||Generalized Additive Model|||"SPID 60 Adjusted~Last observed carried forward to address missingness"||6.98|-5.76|0.85
92179442|NCT05288348|184256482|SUPERIORITY||Odds Ratio (OR)|-1.26||||0.8|TWO_SIDED|95.0|-8.75|11.28|||Generalized Additive Model|||SPID @ 90 mn last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value||11.28|-8.75|0.8
92179443|NCT05288348|184256482|SUPERIORITY||Odds Ratio (OR)|-0.44||||0.92|TWO_SIDED|95.0|-10.2|9.92|||Generalized Additive Model|||"SPID 90 min Adjusted~last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value"||9.92|-10.2|0.92
92179444|NCT05288348|184256482|SUPERIORITY||Odds Ratio (OR)|-3.18||||0.64|TWO_SIDED|95.0|-10.45|16.9|||Generalized Additive Model|||SPID @ 120 min last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value||16.90|-10.45|0.64
92179445|NCT05288348|184256482|SUPERIORITY||Odds Ratio (OR)|-2.15||||0.75|TWO_SIDED|95.0|-15.6|11.3|||Generalized Additive Model|||"SPID 120 Adjusted~last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value"||11.30|-15.60|0.75
92179446|NCT05288348|184256483|SUPERIORITY||z statistic|0.46||||0.64|TWO_SIDED|95.0|-1.96|1.96|||two sided test of proportion|||||1.96|-1.96|0.64
92179447|NCT05288348|184256484|SUPERIORITY||Odds Ratio (OR)|-0.22||||0.61|TWO_SIDED|95.0|-1.11|0.66|||General Additive Models|||||0.66|-1.11|0.61
92179448|NCT05288348|184256484|SUPERIORITY||Odds Ratio (OR)|-0.28||||0.54|TWO_SIDED|95.0|-1.23|0.65|||General Additive Model|||6 item screener adjusted analysis||0.65|-1.23|0.54
92179449|NCT05288348|184256485|SUPERIORITY||Odds Ratio (OR)|2.35||||0.009|TWO_SIDED|95.0|1.24|4.46|||Ordinal Polytomous Logisitic Regression|||Healthcare Professional Global Assessment of method of pain control at 30 min.||4.46|1.24|0.009
92179450|NCT05288348|184256485|SUPERIORITY||Odds Ratio (OR)|2.24||||0.01|TWO_SIDED|95.0|1.18|4.29|||Ordinal polytomous logistic regression|||Healthcare Professional Global Assessment of method of pain control at 30 min. adjusted for ISS and Race||4.29|1.18|0.01
92179451|NCT05288348|184256486|SUPERIORITY||Odds Ratio (OR)|0.97||||0.96|TWO_SIDED|95.0|0.22|4.26|||Regression, Logistic|||||4.26|0.22|0.96
92179452|NCT05288348|184256486|SUPERIORITY||Odds Ratio (OR)|0.94|||||TWO_SIDED|95.0|0.17|5.04|||||Adjusted for age, sex and SpO2|||5.04|0.17|
92179453|NCT05288348|184256487|SUPERIORITY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.04|24.92||||||||24.92|0.04|
92179454|NCT05288348|184256487|SUPERIORITY||Odds Ratio (OR)|0.2|||||TWO_SIDED|95.0|0.0|14.28|||||Adjusted for Heart Rate and Injury Severity Score|||14.28|0|
92179455|NCT05288348|184256488|SUPERIORITY||Odds Ratio (OR)|1.67|||||TWO_SIDED|95.0|0.39|8.37||||||||8.37|0.39|
92179456|NCT05288348|184256488|SUPERIORITY||Odds Ratio (OR)|1.68|||||TWO_SIDED|95.0|0.39|8.6|||||Adjusted for SpO2|||8.60|0.39|
92179457|NCT05288348|184256490|SUPERIORITY||Odds Ratio (OR)|0.48|||||TWO_SIDED|95.0|0.02|5.12||||||||5.12|0.02|
92258066|NCT02141854|184419216|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.364||||0.016|TWO_SIDED|95.0|-0.659|-0.068||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.068|-0.659|0.0160
92258067|NCT02141854|184419216|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.382||||0.0124|TWO_SIDED|95.0|-0.681|-0.083||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.083|-0.681|0.0124
92258068|NCT02141854|184419216|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.287||||0.0588|TWO_SIDED|95.0|-0.584|0.011||Significance level of 0.05.|Wilcoxon (Mann-Whitney)|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.011|-0.584|0.0588
92258069|NCT02141854|184419217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||Significance level of 0.05.|Log Rank|||||||0.0001
92179458|NCT05288348|184256490|SUPERIORITY||Odds Ratio (OR)|0.41|||||TWO_SIDED|95.0|0.02|4.56|||||Adjusted for heart rate|||4.56|0.02|
92179459|NCT05288348|184256491|SUPERIORITY||difference of proportion|0.135|||>|0.99|TWO_SIDED||||||Chi-squared|||||||>0.99
92179460|NCT05288348|184256492|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.9|TWO_SIDED|95.0|0.69|1.61|||Regression, Cox|||||1.61|0.69|0.90
92179461|NCT05288348|184256492|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.48|TWO_SIDED|95.0|0.75|1.81|||Regression, Cox|||Adjusted for Race and ISS||1.81|0.75|0.48
92179462|NCT05288348|184256494|SUPERIORITY||Odds Ratio (OR)|0.0||||0.99|TWO_SIDED|95.0|-0.15|0.15|||Non parametric General Addative Model|||||0.15|-0.15|0.99
92179463|NCT05288348|184256494|SUPERIORITY||Odds Ratio (OR)|0.01||||0.96|TWO_SIDED|95.0|-0.16|0.15|||Non Parametric General Additive Model|||Adjusted||0.15|-0.16|0.96
92179464|NCT05288348|184256495|SUPERIORITY||Odds Ratio (OR)|0.01||||0.84|TWO_SIDED|95.0|-0.17|0.16|||Non Parametric General Additive Model|||||0.16|-0.17|0.84
92179465|NCT05288348|184256495|SUPERIORITY||Odds Ratio (OR)|0.02||||0.84|TWO_SIDED|95.0|-0.19|0.16|||Non Parametric Generalized Additive Mode|||Adjusted||0.16|-0.19|0.84
92179466|NCT05288348|184256496|SUPERIORITY||Odds Ratio (OR)|0.02||||0.81|TWO_SIDED|95.0|-0.17|0.22|||Non Parametric Generalized Additive Mode|||||0.22|-0.17|0.81
92179467|NCT05288348|184256496|SUPERIORITY||Odds Ratio (OR)|0.01||||0.91|TWO_SIDED|95.0|-0.2|0.22|||Non Parametric Generalized Additive Mode|||Adjusted||0.22|-0.20|0.91
92179468|NCT05288348|184256497|SUPERIORITY||Odds Ratio (OR)|0.03||||0.74|TWO_SIDED|95.0|-0.25|0.18|||Non Parametric Generalized Additive Mode|||||0.18|-0.25|0.74
92179469|NCT05288348|184256497|SUPERIORITY||Odds Ratio (OR)|0.05||||0.63|TWO_SIDED|95.0|-0.3|0.18|||Non Parametric Generalized Additive Mode|||Adjusted||0.18|-0.30|0.63
92179470|NCT00003222|184256516|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||Chi-squared|||This is a test for differences between the response rates of the two arms. The null hypothesis is that the arms have equal response rates and the alternative hypothesis is that they are different.||||0.13
92179471|NCT00003222|184256517|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||This is a test for differences between the response rates of the two arms. The null hypothesis is that the arms have equal response rates and the alternative hypothesis is that they are different.||||0.004
92179472|NCT05714059|184256625|NON_INFERIORITY|The overall mean change in HbA1c, from baseline to end of 3-month study period was estimated and compared by a non-inferiority test to the threshold of -0.38% with a margin of 0.4%.|Mean difference from baseline to exit|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint|||-0.3|-0.6|<0.001
92179473|NCT05714059|184256625|NON_INFERIORITY|The overall mean change in HbA1c from baseline to end of 3-month study period was estimated and compared by a non-inferiority test to the threshold of -0.50% with a margin of 0.4%. A significance level of 0.025 (one-sided) was used|Mean difference from baseline to exit|-0.7|||<|0.001|TWO_SIDED|95.0|-0.8|-0.6|||t-test, 1 sided||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint|||-0.6|-0.8|<0.001
92179474|NCT05714059|184256626|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL) was estimated and compared by a non-inferiority test to the threshold of 65.3% with a margin of 7.5%.|Mean value (Final Values)|71.4|||<|0.001|TWO_SIDED|95.0|69.5|73.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||73.3|69.5|<0.001
92258070|NCT02141854|184419217|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Significance level of 0.05.|Log Rank|||||||<.0001
92179475|NCT05714059|184256626|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL) was estimated and compared by a non-inferiority test to the threshold of 73.7% with a margin of 7.5%.|Mean value (Final Values)|80.2|||<|0.001|TWO_SIDED|95.0|78.7|81.8|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||81.8|78.7|<0.001
92179476|NCT05714059|184256627|NON_INFERIORITY|The mean % time in hypoglycemia (\< 54 mg/dL) was estimated and compared by a non-inferiority test to the threshold of 0.71% with a margin of 2%.|Mean value (Final Values)|0.4|||<|0.001|TWO_SIDED|95.0|0.3|0.4|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL) from last 6-7 weeks of 3 month study period was estimated for this endpoint.|||0.4|0.3|<0.001
92179477|NCT05714059|184256627|NON_INFERIORITY|The mean % time in hypoglycemia (\< 54 mg/dL) was estimated and compared by a non-inferiority test to the threshold of 0.86% with a margin of 2%.|Mean value (Final Values)|0.2|||<|0.001|TWO_SIDED|95.0|0.1|0.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL) were summarized from last 6-7 weeks of 3 month study period for this endpoint|||0.3|0.1|<0.001
92179478|NCT05714059|184256628|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL) was estimated and compared to a threshold of 65.3% by a simple superiority test|Mean value (Final Values)|71.4|||<|0.001|TWO_SIDED|95.0|69.5|73.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||73.3|69.5|<0.001
92179479|NCT05714059|184256628|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL) was estimated and compared to a threshold of 73.7% by a simple superiority test|Mean value (Final Values)|80.2|||<|0.001|TWO_SIDED|95.0|78.7|81.8|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||81.8|78.7|<0.001
92179480|NCT04899674|184256629|OTHER||Ratio of gMeans [%]|94.6|||||TWO_SIDED|90.0|86.3|103.8|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of BI 1358894 + bupropion)/(gMean of bupropion alone). Intra-individual geometric coefficient of variation (gCV \[%\])=13.9."|The statistical model used for the analysis of the primary endpoints was an Analysis of Variance (ANOVA) model. The model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||103.8|86.3|
92179481|NCT04899674|184256630|OTHER||Ratio of gMeans[%]|90.7|||||TWO_SIDED|90.0|74.3|110.7|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of BI 1358894 + bupropion)/(gMean of bupropion alone).~Intra-individual geometric coefficient of variation (gCV \[%\])=31.5."|The statistical model used for the analysis of the primary endpoints was an Analysis of Variance (ANOVA) model. The model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||110.7|74.3|
92179482|NCT04899674|184256631|OTHER||Ratio of gMeans [%]|95.1|||||TWO_SIDED|90.0|86.7|104.3|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of BI 1358894 + bupropion)/(gMean of bupropion alone).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])=13.9."|The statistical model used for the analysis of the primary endpoints was an Analysis of Variance (ANOVA). The model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||104.3|86.7|
92179483|NCT03593356|184256635|SUPERIORITY||Slope|-0.427|STANDARD_ERROR_OF_MEAN|1.179||0.717|TWO_SIDED|||||We use OLS regression with site fixed effects and baseline covariates. We report unadjusted p-values.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.717
92179484|NCT03593356|184256638|SUPERIORITY||Slope|-0.012|STANDARD_ERROR_OF_MEAN|0.043||0.784|TWO_SIDED|||||We reported the Westfall-Young adjusted p-value, using OLS regression with site fixed effects and baseline covariates. The unadjusted p-value was 0.789.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.784
92179485|NCT03593356|184256639|SUPERIORITY||Slope|0.578|STANDARD_ERROR_OF_MEAN|0.807||0.474|TWO_SIDED|||||We use OLS regression with site fixed effects and baseline covariates. We report unadjusted p-values.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.474
92179486|NCT03593356|184256646|SUPERIORITY||Slope|0.234|STANDARD_ERROR_OF_MEAN|0.882||0.871|TWO_SIDED|||||We reported the Westfall-Young adjusted p-value, using OLS regression with site fixed effects and baseline covariates. The unadjusted p-value was 0.791.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.871
92179487|NCT03593356|184256647|SUPERIORITY||Slope|0.021|STANDARD_ERROR_OF_MEAN|0.046||0.871|TWO_SIDED|||||We reported the Westfall-Young adjusted p-value, using OLS regression with site fixed effects and baseline covariates. The unadjusted p-value was 0.646.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.871
92179488|NCT03593356|184256648|SUPERIORITY||Slope|0.139|STANDARD_ERROR_OF_MEAN|0.86||0.872|TWO_SIDED|||||We use OLS regression with site fixed effects and baseline covariates. We report unadjusted p-values.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.872
92179489|NCT03593356|184256651|SUPERIORITY||Slope|0.133|STANDARD_ERROR_OF_MEAN|0.1||0.184|TWO_SIDED|||||We use OLS regression with site fixed effects and baseline covariates. We report unadjusted p-values.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.184
92258071|NCT02141854|184419217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||||||Significance level of 0.05.|Log Rank|||||||0.0003
92258072|NCT02141854|184419217|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Significance level of 0.05.|Log Rank|||||||<.0001
92258073|NCT02141854|184419217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7203||||||Significance level of 0.05.|Log Rank|||||||0.7203
92258074|NCT02141854|184419217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.996||||||Significance level of 0.05.|Log Rank|||||||0.9960
92258075|NCT02141854|184419217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.325||||||Significance level of 0.05.|Log Rank|||||||0.3250
92182835|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.81|||TWO_SIDED|95.0|-2.5|0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||0.7|-2.5|
92258076|NCT02141854|184419218|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.473||||0|TWO_SIDED|95.0|0.269|0.677||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.677|0.269|0.0000
92258077|NCT02141854|184419218|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.428||||0|TWO_SIDED|95.0|0.224|0.632||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.632|0.224|0.0000
92258078|NCT02141854|184419218|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.623||||0|TWO_SIDED|95.0|0.418|0.828||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.828|0.418|0.0000
92258079|NCT02141854|184419218|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.681||||0|TWO_SIDED|95.0|0.478|0.885||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.885|0.478|0.0000
92179490|NCT03593356|184256654|SUPERIORITY||Slope|0.138|STANDARD_ERROR_OF_MEAN|0.173||0.415|TWO_SIDED|||||We reported the Westfall-Young adjusted p-value, using OLS regression with site fixed effects and baseline covariates. The unadjusted p-value was 0.427.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.415
92258080|NCT02141854|184419218|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.15||||0.149|TWO_SIDED|95.0|-0.054|0.354||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.354|-0.054|0.1490
92258081|NCT02141854|184419218|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.253||||0.0143|TWO_SIDED|95.0|0.051|0.455||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.455|0.051|0.0143
92258082|NCT02141854|184419218|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.209||||0.0435|TWO_SIDED|95.0|0.006|0.411||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.411|0.006|0.0435
92179491|NCT03593356|184256655|SUPERIORITY||Slope|0.086|STANDARD_ERROR_OF_MEAN|0.14||0.567|TWO_SIDED|||||We reported the Westfall-Young adjusted p-value, using OLS regression with site fixed effects and baseline covariates. The unadjusted p-value was 0.541.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.567
92179492|NCT02379351|184256890|OTHER|This pilot study is primarily descriptive statistics||||||0.1|||||||Chi-squared|Data analysis will use mostly descriptive statistics - parametric and nonparametric statistics will be used as indicated (Chi-squared)||||||.1
92258083|NCT01868594|184419221|SUPERIORITY|||||||0.019||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.019
92258084|NCT01868594|184419222|SUPERIORITY|||||||0.0432||||||"The p-value associated with treatment factor of changes from baseline to Week 4, 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.0432
92258085|NCT01868594|184419223|SUPERIORITY|||||||0.7344||||||"The p-value associated with treatment factor of changes from baseline to Week 4, 8, 12, 18, 24, 30 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.7344
92258086|NCT01868594|184419224|SUPERIORITY|||||||0.278||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of Total cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.2780
92258087|NCT01868594|184419224|SUPERIORITY|||||||0.8114||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of HDL cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.8114
92258088|NCT01868594|184419224|SUPERIORITY|||||||0.1619||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of LDL cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.1619
92258089|NCT01868594|184419224|SUPERIORITY|||||||0.0764||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of Triglycerides changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.0764
92258090|NCT01868594|184419225|SUPERIORITY|||||||0.3107||||||The p-value associated with comparison of changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||Analysis of basal insulin changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.||||0.3107
92258091|NCT01868594|184419225|SUPERIORITY|||||||0.5236||||||The p-value associated with comparison of changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||Analysis of prandial insulin changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.||||0.5236
92258092|NCT01868594|184419225|SUPERIORITY|||||||0.3847||||||The p-value associated with comparison of changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||Analysis of total daily dose insulin changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.||||0.3847
92258093|NCT01868594|184419226|SUPERIORITY|||||||0.6716|||||||t-test, 2 sided|||||||0.6716
92179493|NCT02379351|184256891|NON_INFERIORITY|Likert Scale of Provider Satisfaction|||||<|0.01|||||||Chi-squared|Data analysis will use mostly descriptive statistics: parametric and nonparametric statistics will be used as indicated.|||Likert Scale of Provider Satisfaction|||<0.01
92179494|NCT04977583|184256926|SUPERIORITY||Odds Ratio (OR)|1.138|STANDARD_ERROR_OF_MEAN|0.2625||0.6243|TWO_SIDED|95.0|0.679|1.904|||Mixed Models Analysis|||This test is comparing Arm 1 (screening) to Arm 2 (awareness)||1.904|0.679|0.6243
92179495|NCT04977583|184256926|SUPERIORITY||Odds Ratio (OR)|1.497|STANDARD_ERROR_OF_MEAN|0.2553||0.1146|TWO_SIDED|95.0|0.908|2.469|||Mixed Models Analysis|||This test compares Arm 1 (screening) to arm 3 (assistance)||2.469|0.908|0.1146
92179496|NCT04977583|184256927|SUPERIORITY||Risk Ratio (RR)|0.963|STANDARD_ERROR_OF_MEAN|0.2078||0.856|TWO_SIDED|95.0|0.641|1.447|||Poisson|We used total needs as an offset||This test is comparing Arm 1 (screening) to Arm 2 (awareness)||1.447|0.641|0.856
92179497|NCT04977583|184256927|SUPERIORITY||Risk Ratio (RR)|1.136|STANDARD_ERROR_OF_MEAN|0.1999||0.5248|TWO_SIDED|95.0|0.768|1.681|||Poisson|||This test is comparing Arm 1 (screening) to Arm 3 (assistance)||1.681|0.768|0.5248
92258094|NCT01868594|184419227|SUPERIORITY|||||||0.2484||||||The p-value associated with comparison of Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||Analysis of total Treatment Satisfaction score at Week 36 endpoint between Subetta and Placebo treatment groups.||||0.2484
92258095|NCT01868594|184419227|SUPERIORITY|||||||0.761||||||The p-value associated with comparison of Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||"Analysis of Perceived Hyperglycaemia question at Week 36 endpoint between Subetta and Placebo treatment groups."||||0.7610
92258096|NCT01868594|184419227|SUPERIORITY|||||||0.3714||||||The p-value associated with comparison of Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||"Analysis of Perceived Hypoglycemia question at Week 36 endpoint between Subetta and Placebo treatment groups."||||0.3714
92258097|NCT03399786|184419228|SUPERIORITY||Least Squares (LS) Mean Difference|-49.0|STANDARD_ERROR_OF_MEAN|8.0|<|0.0001|TWO_SIDED|95.0|-65.0|-33.1|||Mixed-effect Model Repeat Measure (MMRM)|||Confidence interval (CI) with p-value was based on-treatment group difference of least squares (LS) means using mixed-effect model repeat measurement (MMRM), randomization strata, treatment/strata/baseline value-by-time point interaction and continuous fixed covariates of baseline calculated LDL-C value.||-33.1|-65.0|< 0.0001
92179498|NCT04977583|184256928|SUPERIORITY||Odds Ratio (OR)|0.866|STANDARD_ERROR_OF_MEAN|0.22||0.5582|TWO_SIDED|95.0|0.536|1.4|||Regression, Logistic|||This is Arm 1 compared to Arm 2||1.400|0.536|.5582
92179499|NCT04977583|184256928|SUPERIORITY||Odds Ratio (OR)|0.854|STANDARD_ERROR_OF_MEAN|0.217||0.5196|TWO_SIDED|95.0|0.528|1.381|||Regression, Logistic|||This is Arm 1 compared to Arm 3||1.381|0.528|0.5196
92179500|NCT04977583|184256929|SUPERIORITY||Odds Ratio (OR)|1.42|STANDARD_ERROR_OF_MEAN|0.2794||0.2105|TWO_SIDED|95.0|0.821|2.454|||ANOVA|||This is arm 1 compared to arm 2||2.454|0.821|0.2105
92258098|NCT03399786|184419229|SUPERIORITY||Least Squares (LS) Mean Difference|-36.9|STANDARD_ERROR_OF_MEAN|5.9|<|0.0001|TWO_SIDED|95.0|-48.6|-25.2|||Mixed-effect Model Repeat Measure (MMRM)|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. CI with p-value was based on-treatment group difference of LS means using MMRM, randomization strata, treatment/strata/baseline value-by-time point interaction and continuous fixed covariates of baseline calculated Apo B value.||-25.2|-48.6|< 0.0001
92258099|NCT03399786|184419230|SUPERIORITY||Least Squares (LS) Mean Difference|-51.7|STANDARD_ERROR_OF_MEAN|6.6|<|0.0001|TWO_SIDED|95.0|-64.8|-38.5|||Mixed-effect Model Repeat Measure (MMRM)|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. CI with p-value was based on-treatment group difference of LS means using MMRM, randomization strata, treatment/strata/baseline value-by-time point interaction and continuous fixed covariates of baseline calculated non-HDL-C value.||-38.5|-64.8|< 0.0001
92258100|NCT03399786|184419231|SUPERIORITY||Least Squares (LS) Mean Difference|-48.4|STANDARD_ERROR_OF_MEAN|5.1|<|0.0001|TWO_SIDED|95.0|-58.7|-38.1|||Mixed-effect Model Repeat Measure (MMRM)|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. CI with p-value was based on-treatment group difference of LS means using MMRM, randomization strata, treatment/strata/baseline value-by-time point interaction and continuous fixed covariates of baseline calculated TC value.||-38.1|-58.7|< 0.0001
92258101|NCT03399786|184419232|SUPERIORITY|A 2-step multiple imputation method addressed missing values (seeds = 1629 \& 9261 with number of imputations = 100 in first and number of imputation=1 in second step).|Odds Ratio (OR)|25.2|||<|0.0001|TWO_SIDED|95.0|5.7|110.5|||Logistic Regression Models Analyses|||A 2-sided hierarchical testing procedure was used for secondary endpoints in pre-specified order to control type I error.Testing sequence continued only when previous endpoint was statistically significant at 0.05.Multiple imputation addressed missing data at week 24.Combined estimate for odds ratio obtained by Rubin's formulae.Logistic regression models stratified by randomized strata include fixed categorical effect of treatment group \& continuous fixed covariate of baseline calculated LDL-C.||110.5|5.7|< 0.0001
92179501|NCT04977583|184256929|SUPERIORITY||Odds Ratio (OR)|0.7944|STANDARD_ERROR_OF_MEAN|0.2816||0.4143|TWO_SIDED|95.0|0.4574|1.379|||ANOVA|||This is arm 1 compared to arm 3||1.379|0.4574|.4143
92179502|NCT04977583|184256930|SUPERIORITY||Odds Ratio (OR)|0.9995|STANDARD_ERROR_OF_MEAN|0.0171||0.9775|TWO_SIDED|95.0|0.9665|1.0336|||ANOVA|||This arm 1 compared to arm 2||1.0336|0.9665|0.9775
92179503|NCT04977583|184256930|SUPERIORITY||Odds Ratio (OR)|1.017|STANDARD_ERROR_OF_MEAN|0.0176||0.3194|TWO_SIDED|95.0|0.9832|1.0534|||ANOVA|||This arm 1 compared to arm 3||1.0534|0.9832|0.3194
92179504|NCT04977583|184256931|SUPERIORITY||Odds Ratio (OR)|1.0284|STANDARD_ERROR_OF_MEAN|0.1613||0.8623|TWO_SIDED|95.0|0.7497|1.4107|||ANOVA|||This is arm 1 compared to arm 2||1.4107|0.7497|0.8623
92179505|NCT04977583|184256931|SUPERIORITY||Odds Ratio (OR)|1.3701|STANDARD_ERROR_OF_MEAN|0.1626||0.0534|TWO_SIDED|95.0|0.9962|1.8844|||ANOVA|||This is arm 1 compared to arm 3||1.8844|0.9962|0.0534
92179506|NCT04977583|184256932|SUPERIORITY||Odds Ratio (OR)|2.298|STANDARD_ERROR_OF_MEAN|1.464||0.5701|TWO_SIDED|95.0|0.1304|40.5121|||ANOVA|||This is arm 1 compared to arm 2||40.5121|0.1304|0.5701
92179507|NCT04977583|184256932|SUPERIORITY||Odds Ratio (OR)|4.56|STANDARD_ERROR_OF_MEAN|1.467||0.3016|TWO_SIDED|95.0|0.2571|80.8746|||ANOVA|||This is arm 1 compared to arm 3||80.8746|0.2571|0.3016
92179508|NCT04977583|184256933|SUPERIORITY||Odds Ratio (OR)|1.522|STANDARD_ERROR_OF_MEAN|0.2438||0.087|TWO_SIDED|95.0|0.944|2.454|||ANOVA|||This is arm 1 compared to arm 2||2.454|0.944|0.0870
92179509|NCT04977583|184256933|SUPERIORITY||Odds Ratio (OR)|1.85|STANDARD_ERROR_OF_MEAN|0.2897||0.0354|TWO_SIDED|95.0|1.048|3.264|||ANOVA|||This is arm 1 compared to arm 3||3.264|1.048|0.0354
92258102|NCT03399786|184419233|SUPERIORITY|A 2-step multiple imputation method addressed missing values (seeds = 1629 \& 9261 with number of imputations = 100 in first and number of imputation=1 in second step).|Odds Ratio (OR)|24.2|||=|0.0028|TWO_SIDED|95.0|3.0|195.6|||Logistic Regression Models Analyses|||A 2-sided hierarchical testing procedure was used for secondary endpoints in pre-specified order to control type I error.Testing sequence continued only when previous endpoint was statistically significant at 0.05.Multiple imputation addressed missing data at week 24.Combined estimate for odds ratio obtained by Rubin's formulae.Logistic regression models stratified by randomized strata include fixed categorical effect of treatment group \& continuous fixed covariate of baseline calculated LDL-C.||195.6|3.0|= 0.0028
92258103|NCT03399786|184419234|SUPERIORITY||Least Squares (LS) Mean Difference|-132.1|STANDARD_ERROR_OF_MEAN|21.5|<|0.0001|TWO_SIDED|95.0|-175.3|-88.9|||Mixed-effect Model Repeat Measure (MMRM)|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. CI with p-value was based on-treatment group difference of LS means using MMRM, randomization strata, treatment/strata/baseline value-by-time point interaction and continuous fixed covariates of baseline calculated LDL-C value.||-88.9|-175.3|< 0.0001
92258104|NCT03399786|184419235|SUPERIORITY|A 2-step multiple imputation method addressed missing values (seeds = 1629 \& 9261 with number of imputations = 100 in first and number of imputation=1 in second step).|Odds Ratio (OR)|0.1|||=|0.0845|TWO_SIDED|95.0|0.0|1.3|||Logistic Regression Models Analyses|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Combined estimate for odds ratio was obtained by using Rubin's formulae. Logistic regression models stratified the fixed categorical effect of treatment group and the continuous fixed covariate of baseline calculated LDL-C value.||1.3|0|= 0.0845
92258105|NCT03399786|184419236|SUPERIORITY|A 2-step multiple imputation method addressed missing values (seeds = 1629 \& 9261 with number of imputations = 100 in first and number of imputation=1 in second step).|Odds Ratio (OR)|5.7|||=|0.0203|TWO_SIDED|95.0|1.3|24.9||The p-value is nominal for descriptive purpose only due to statistical hypothesis testing terminated previously.|Logistic Regression Models Analyses|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Combined estimate for odds ratio was obtained by using Rubin's formulae. Logistic regression models stratified the fixed categorical effect of treatment group and the continuous fixed covariate of baseline calculated LDL-C value.||24.9|1.3|= 0.0203
92258106|NCT03399786|184419237|SUPERIORITY|A 2-step multiple imputation method addressed missing values (seeds = 1629 \& 9261 with number of imputations = 100 in first and number of imputation=1 in second step).|Odds Ratio (OR)|0.1|||=|0.0004|TWO_SIDED|95.0|0.0|0.3||The p-value is nominal for descriptive purpose only due to statistical hypothesis testing terminated previously.|Logistic Regression Models Analysis|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Combined estimate for odds ratio was obtained by using Rubin's formulae. Logistic regression models stratified the fixed categorical effect of treatment group and the continuous fixed covariate of baseline calculated LDL-C value.||0.3|0.0|= 0.0004
92265429|NCT00948896|184432648|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|7.0||||0.57|TWO_SIDED|95.0|-19.0|28.0|||Negative Binomial Regression||The no chemoprevention arm is the reference group.|The sample size was calculated to detect at least a 32% lower incidence of malaria in the DP arm compared to that in the TS arm. We assumed that the incidence of malaria would be 1.85 episodes per person-year with TS chemoprevention based on a prior cohort study in the same area, and thus we calculated that we would need to enroll 100 participants in each arm to detect our targeted protective efficacy with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||28|-19|0.57
92179510|NCT04977583|184256934|SUPERIORITY||Odds Ratio (OR)|0.618|STANDARD_ERROR_OF_MEAN|0.333||0.3063|TWO_SIDED|95.0|0.246|1.553|||ANOVA|||This is arm 1 compared to arm 2||1.553|0.246|0.3063
92265430|NCT00948896|184432648|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|28.0||||0.01|TWO_SIDED|95.0|7.0|44.0|||Negative Binomial Regression||The no chemoprevention arm is the reference arm.|The sample size was calculated to detect at least a 32% lower incidence of malaria in the DP arm compared to that in the TS arm. We assumed that the incidence of malaria would be 1.85 episodes per person-year with TS chemoprevention based on a prior cohort study in the same area, and thus we calculated that we would need to enroll 100 participants in each arm to detect our targeted protective efficacy with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||44|7|0.01
92284378|NCT01941030|184472387|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.0579|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty fibrofatty plaque area.||||0.0579
92258107|NCT04566445|184419260|SUPERIORITY||LS Mean Difference|0.062|STANDARD_ERROR_OF_MEAN|0.0901|||TWO_SIDED|90.0|-0.087|0.211|||mixed model repeated measures|||Week 12||0.211|-0.087|
92179511|NCT04977583|184256934|SUPERIORITY||Odds Ratio (OR)|0.679|STANDARD_ERROR_OF_MEAN|0.3946||0.4378|TWO_SIDED|95.0|0.256|1.803|||ANOVA|||This is arm 1 compared to arm 3||1.803|.256|.4378
92179512|NCT04977583|184256935|SUPERIORITY||Odds Ratio (OR)|0.5083|STANDARD_ERROR_OF_MEAN|0.8265||0.4134|TWO_SIDED|95.0|0.1006|2.5687|||ANOVA|||This is arm 1 compared to arm 2||2.5687|0.1006|0.4134
92258108|NCT04566445|184419260|SUPERIORITY||LS Mean Difference|0.084|STANDARD_ERROR_OF_MEAN|0.091|||TWO_SIDED|90.0|-0.066|0.234|||mixed model repeated measures|||Week 12||0.234|-0.066|
92258109|NCT04566445|184419260|SUPERIORITY||LS Mean Difference|0.096|STANDARD_ERROR_OF_MEAN|0.1198|||TWO_SIDED|90.0|-0.102|0.294|||mixed model repeated measures|||Week 24||0.294|-0.102|
92258110|NCT04566445|184419260|SUPERIORITY||LS Mean Difference|0.205|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|90.0|0.007|0.404|||mixed model repeated measures|||Week 24||0.404|0.007|
92258111|NCT04566445|184419260|SUPERIORITY||LS Mean Difference|0.197|STANDARD_ERROR_OF_MEAN|0.2135|||TWO_SIDED|90.0|-0.155|0.55|||mixed model repeated measures|||Week 36||0.550|-0.155|
92258112|NCT04566445|184419260|SUPERIORITY||LS Mean Difference|0.423|STANDARD_ERROR_OF_MEAN|0.2152|||TWO_SIDED|90.0|0.068|0.779|||mixed model repeated measures|||Week 36||0.779|0.068|
92258113|NCT04566445|184419260|SUPERIORITY||LS Mean Difference|0.052|STANDARD_ERROR_OF_MEAN|0.2644|||TWO_SIDED|90.0|-0.385|0.489|||mixed model repeated measures|||Week 48||0.489|-0.385|
92179513|NCT04977583|184256935|SUPERIORITY||Odds Ratio (OR)|1.819|STANDARD_ERROR_OF_MEAN|0.8283||0.4705|TWO_SIDED|95.0|0.3588|9.223|||ANOVA|||This is arm 1 compared to arm 3||9.2230|0.3588|0.4705
92258114|NCT04566445|184419260|SUPERIORITY||LS Mean Difference|0.488|STANDARD_ERROR_OF_MEAN|0.2662|||TWO_SIDED|90.0|0.049|0.928|||mixed model repeated measures|||Week 48||0.928|0.049|
92258115|NCT04566445|184419260|SUPERIORITY||LS Mean Difference|0.307|STANDARD_ERROR_OF_MEAN|0.3361|||TWO_SIDED|90.0|-0.248|0.862|||mixed model repeated measures|||Week 72||0.862|-0.248|
92258116|NCT04566445|184419260|SUPERIORITY||LS Mean Difference|0.503|STANDARD_ERROR_OF_MEAN|0.3392|||TWO_SIDED|90.0|-0.058|1.063|||mixed model repeated measures|||Week 72||1.063|-0.058|
92258117|NCT04566445|184419261|SUPERIORITY||LS Mean Difference|0.645|STANDARD_ERROR_OF_MEAN|0.4527|||TWO_SIDED|90.0|-0.103|1.393|||mixed model repeated measures|||Week 96||1.393|-0.103|
92258118|NCT04566445|184419261|SUPERIORITY||LS Mean Difference|0.838|STANDARD_ERROR_OF_MEAN|0.4577|||TWO_SIDED|90.0|0.081|1.594|||mixed model repeated measures|||Week 96||1.594|0.081|
92258119|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|90.0|-2.6|1.7|||mixed model repeated measures|||Week 12||1.7|-2.6|
92258120|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-4.0|0.4|||mixed model repeated measures|||Week 12||0.4|-4.0|
92258121|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-4.1|0.8|||mixed model repeated measures|||Week 24||0.8|-4.1|
92258122|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|1.49|||TWO_SIDED|90.0|-7.7|-2.8|||mixed model repeated measures|||Week 24||-2.8|-7.7|
92258123|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.81|||TWO_SIDED|90.0|-2.5|3.5|||mixed model repeated measures|||Week 36||3.5|-2.5|
92258124|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|-4.7|STANDARD_ERROR_OF_MEAN|1.8|||TWO_SIDED|90.0|-7.7|-1.7|||mixed model repeated measures|||Week 36||-1.7|-7.7|
92258125|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|2.14|||TWO_SIDED|90.0|-0.9|6.1|||mixed model repeated measures|||Week 48||6.1|-0.9|
92258126|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|90.0|-5.6|1.4|||mixed model repeated measures|||Week 48||1.4|-5.6|
92258127|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|2.24|||TWO_SIDED|90.0|1.0|8.4|||mixed model repeated measures|||Week 72||8.4|1.0|
92258128|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.2|||TWO_SIDED|90.0|-2.8|4.5|||mixed model repeated measures|||Week 72||4.5|-2.8|
92258129|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|90.0|2.7|11.6|||mixed model repeated measures|||Week 96||11.6|2.7|
92258130|NCT04566445|184419266|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|2.68|||TWO_SIDED|90.0|-1.8|7.1|||mixed model repeated measures|||Week 96||7.1|-1.8|
92258131|NCT04453722|184419271|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-0.1||||0.12|TWO_SIDED|95.0|-0.4|0.0|||Wilcoxon (Mann-Whitney)|||variable: In hospital TWA SpO2 \<90% (%)||0|-0.4|0.120
92258132|NCT04453722|184419271|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test|Median Difference (Final Values)|-407.0||||0.349|TWO_SIDED|95.0|-1816.0|208.0|||Wilcoxon (Mann-Whitney)|||variable: In hospital AUC SpO2 \<90% (% \* min)||208|-1816|0.349
92258133|NCT04453722|184419271|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-0.1||||0.307|TWO_SIDED|95.0|-0.2|0.0|||Wilcoxon (Mann-Whitney)|||variable: Post-discharge TWA SpO2 \<90% (%)||0|-0.2|0.307
92258134|NCT04453722|184419271|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-35.0||||0.431|TWO_SIDED|95.0|-195.0|67.0|||Wilcoxon (Mann-Whitney)|||variable: Post-discharge AUC SpO2 \<90% (% \* min)||67|-195|0.431
92258135|NCT04453722|184419272|SUPERIORITY||Risk Ratio (RR)|0.96|||>|0.99|TWO_SIDED|95.0|0.22|4.27|||Fisher Exact|||variable: In hospital Any event, N (%)c||4.27|0.22|>0.99
92179514|NCT04977583|184256936|SUPERIORITY||Odds Ratio (OR)|1.765|STANDARD_ERROR_OF_MEAN|0.2684||0.0347|TWO_SIDED|95.0|1.044|2.987|||Mixed Models Analysis||This analysis is arm 1 compared to arm 3. Arm 3 is the numerator and arm 1 is the denominator.|||2.987|1.044|0.0347
92179515|NCT04977583|184256937|SUPERIORITY||Odds Ratio (OR)|1.734|STANDARD_ERROR_OF_MEAN|0.3489||0.116|TWO_SIDED|95.0|0.875|3.436|||Mixed Models Analysis||This analysis compares arm 1 to arm 2. Arm 2 is the numerator and Arm 1 is the denominator|||3.436|0.875|0.1160
92258136|NCT04453722|184419272|SUPERIORITY||Risk Ratio (RR)|1.0|||>|0.99|TWO_SIDED|95.0|0.35|2.9|||Chi-squared|||variable: Post-discharge Any event, N (%)||2.90|0.35|>0.99
92258137|NCT04453722|184419273|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-6.0||||0.354|TWO_SIDED|95.0|-26.0|4.0|||Wilcoxon (Mann-Whitney)|||variable: In hospital Number||4.0|-26.0|0.354
92258138|NCT04453722|184419273|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-46.1||||0.133|TWO_SIDED|95.0|-274.0|5.1|||Wilcoxon (Mann-Whitney)|||variable: In hospital Total duration (min)||5.1|-274|0.133
92258139|NCT04453722|184419273|SUPERIORITY||Median Difference (Final Values)|-24.1||||0.075|TWO_SIDED|95.0|-213.0|0.1|||Wilcoxon (Mann-Whitney)|||variable: In hospital Duration \>2 min (min)||0.1|-213|0.075
92258140|NCT04453722|184419273|SUPERIORITY||Median Difference (Final Values)|-2.0||||0.009|TWO_SIDED|95.0|-4.5|-0.4|||Wilcoxon (Mann-Whitney)|||variable: In hospital Mean duration-all patients (min)||-0.4|-4.5|0.009
92258141|NCT04453722|184419273|SUPERIORITY||Median Difference (Final Values)|-2.2||||0.001|TWO_SIDED|95.0|-4.7|-0.7|||Wilcoxon (Mann-Whitney)|||variable: in hospital mean duration for events in those with any events (min)||-0.7|-4.7|0.001
92258142|NCT04453722|184419273|SUPERIORITY||Median Difference (Final Values)|0.0||||0.584|TWO_SIDED|95.0|-4.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: post-discharge number||1.0|-4.0|0.584
92258143|NCT04453722|184419273|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-1.3||||0.556|TWO_SIDED|95.0|-18.6|3.3|||Wilcoxon (Mann-Whitney)|||variable: Post-discharge duration (min)||3.3|-18.6|0.556
92179516|NCT04977583|184256937|SUPERIORITY||Odds Ratio (OR)|2.376|STANDARD_ERROR_OF_MEAN|0.3475||0.0134|TWO_SIDED|95.0|1.202|4.695|||Mixed Models Analysis|||||4.695|1.202|0.0134
92179517|NCT04977583|184256938|SUPERIORITY||Odds Ratio (OR)|5.006|STANDARD_ERROR_OF_MEAN|0.617||0.0094|TWO_SIDED|95.0|1.512|16.57|||Mixed Models Analysis||This analysis is arm 1 compared to compared to arm 3. Arm 3 is the numerator and arm 1 is denominator.|||16.570|1.512|0.0094
92179518|NCT04977583|184256938|SUPERIORITY||Odds Ratio (OR)|1.875|STANDARD_ERROR_OF_MEAN|0.6532||0.3377|TWO_SIDED|95.0|0.521|6.746|||Mixed Models Analysis||This is a comparison of arm 1 and arm 2. Arm 2 is the numerator and arm 1 is the denominator.|||6.746|0.521|0.3377
92179519|NCT00979459|184256941|NON_INFERIORITY_OR_EQUIVALENCE|Administration of a single dose of two 40 mg MK-1006 FCT is similar to a single dose of four 20 mg MK-1006 DFC will be satisfied if the 90% confidence interval for the AUC(0 to infinity) geometric mean ratio (FCT/DCF) is contained within (0.70, 1.43).|Geometric mean ratio|0.93|||||TWO_SIDED|90.0|0.86|0.99||||||||0.99|0.86|
92179520|NCT00979459|184256942|NON_INFERIORITY_OR_EQUIVALENCE|Administration of a single dose of two 40 mg MK-1006 FCT is similar to a single dose of four 20 mg MK-1006 DFC will be satisfied if the 90% confidence interval for the Cmax geometric mean ratio (FCT/DCF) is contained within (0.70, 1.43).|Geometric mean ratio|1.07|||||TWO_SIDED|90.0|0.92|1.24||||||||1.24|0.92|
92179521|NCT00786864|184256976|SUPERIORITY_OR_OTHER||||||p=|0||95.0|||||ANCOVA|||||||p=0.001
92258144|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|1.0||||0.096|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||variable: Degree of disturbing daily life except sleep (at the day of discharge)||2.0|0.0|0.096
92179522|NCT00786864|184256977|SUPERIORITY_OR_OTHER||||||p<|0||95.0|||||ANCOVA|||||||p<0.001
92179523|NCT00786864|184256978|SUPERIORITY_OR_OTHER||||||p<|0||95.0|||||ANCOVA|||||||p<0.001
92179524|NCT00786864|184256979|SUPERIORITY_OR_OTHER||||||p<|0||95.0|||||ANCOVA|||||||p<0.01
92179525|NCT02422615|184256980|SUPERIORITY||Cox Proportional Hazard|0.593||||4.1e-07|TWO_SIDED|95.0|0.48|0.732|||Log Rank|||||0.732|0.480|0.00000041
92179526|NCT02422615|184256981|SUPERIORITY||Cox Proportional Hazard|0.724||||0.00455|TWO_SIDED|95.0|0.568|0.924|||Log Rank|||||0.924|0.568|0.00455
92179527|NCT02422615|184256982|SUPERIORITY||Cox Proportional Hazard|0.492|||||TWO_SIDED|95.0|0.345|0.703||||||||0.703|0.345|
92258145|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.205|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||variable: Degree of disturbing sleep (at the day of discharge)||2.0|0.0|0.205
92258146|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.839|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: comfortable to wear (at the day of discharge)||0.0|-1.0|0.839
92284379|NCT01941030|184472388|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.076|||||||t-test, 2 sided|||Null hypothesis: no difference in populations for post-final balloon FFR value with 600 mcg adenosine.||||0.076
92258147|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.621|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Tolerable to audible alert (at the day of discharge)||0.0|0.0|0.621
92179528|NCT01288443|184256993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤ 0.05.|ANCOVA|||"Each treatment group was compared to placebo using ANCOVA-derived contrasts.~A hierarchical testing procedure was applied to ensure strong control of overall Type-I error rate at 0.05 level. Order was following:~1. Alirocumab 150 mg Q2W versus placebo~2. Alirocumab 300 mg Q4W versus placebo~3. Alirocumab 100 mg Q2W versus placebo~4. Alirocumab 200 mg Q4W versus placebo~5. Alirocumab 50 mg Q2W versus placebo~Testing continued only when high-order test was statistically significant at 5% level"||||<0.0001
92179529|NCT01288443|184256993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤ 0.05.|ANCOVA|||||||<0.0001
92179530|NCT01288443|184256993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤ 0.05.|ANCOVA|||||||<0.0001
92179531|NCT01288443|184256993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤ 0.05.|ANCOVA|||||||<0.0001
92179532|NCT01288443|184256993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤ 0.05.|ANCOVA|||||||<0.0001
92179533|NCT04327843|184257005|OTHER|This is a prospective study with a repeated measures design.||||||0.001||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed||||||0.001
92179534|NCT04327843|184257006|OTHER|This is a prospective study with a repeated measures design.||||||0.43||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.43
92179535|NCT04327843|184257007|OTHER|This is a prospective study with a repeated measures design.||||||0.07||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.07
92179536|NCT04327843|184257008|OTHER|This is a prospective study with a repeated measures design.||||||0.1||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.10
92179537|NCT04327843|184257009|OTHER|This is a prospective study with a repeated measures design.||||||0.75||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.75
92179538|NCT04327843|184257010|OTHER|This is a prospective study with a repeated measures design.||||||1||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||1.00
92179539|NCT04327843|184257012|OTHER|This is a prospective study with a repeated measures design.||||||0.75||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.75
92284380|NCT01941030|184472388|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.205|||||||t-test, 2 sided|||Null hypothesis: no difference in populations for post-final balloon FFR value with 1200 mcg adenosine.||||0.205
92284381|NCT04448678|184472392|OTHER|||||||0.0401|||||||t-test, 2 sided|||||||0.0401
92284382|NCT04448678|184472393|OTHER|||||||0.0049|||||||t-test, 2 sided|||||||0.0049
92284383|NCT04448678|184472394|OTHER|||||||0.297|||||||t-test, 2 sided|||||||0.297
92258148|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.898|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Tolerable to tactile alert||1.0|-1.0|0.898
92258149|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.654|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: easily cleaned/disinfected (at the day of discharge)||0.0|0.0|0.654
92258150|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.929|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: adequate battery life (at the day of discharge)||1.0|-1.0|0.929
92258151|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.2|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Satisfy with the electrode patch (at the day of discharge)||0.0|-1.0|0.200
92179540|NCT04327843|184257013|OTHER|This is a prospective study with a repeated measures design.||||||0.14||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.14
92258152|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.987|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Willing to use after study (at the day of discharge)||0.0|0.0|0.987
92258153|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.581|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Disturb IV line (at the day of discharge)||0.0|-1.0|0.581
92258154|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|1.0||||0.18|TWO_SIDED|95.0|0.0|3.0|||Wilcoxon (Mann-Whitney)|||variable: Degree of disturbing daily life except sleep (after 24 hours of discharge)||3.0|0.0|0.180
92258155|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|1.0||||0.171|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||variable: degree of distributing sleep (after 24 hours of discharge)||2.0|0.0|0.171
92258156|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.074|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Tolerable to audible alert (after 24 hours of discharge)||0.0|-1.0|0.074
92258157|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.414|TWO_SIDED|95.0|-2.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Tolerable to tactile alert (after 24 hours of discharge)||1.0|-2.0|0.414
92258158|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.506|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Easily cleaned/disinfected (after 24 hours of discharge)||0.0|0.0|0.506
92258159|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.747|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Adequate battery life (after 24 hours of discharge)||0.0|-1.0|0.747
92258160|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|-1.0||||0.023|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: satisfy with the electrode patch (after 24 hours of discharge)||0.0|-2.0|0.023
92258161|NCT04453722|184419276|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.023|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Willing to use after study (after 24 hours of discharge)||0.0|-1.0|0.023
92258162|NCT04453722|184419277|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.73|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||Degree of disturbing routine work||0.0|-1.0|0.73
92258163|NCT04453722|184419277|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.097|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||Easily cleaned/disinfected||1.0|0.0|0.097
92258164|NCT04453722|184419277|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|1.0||||0.02|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Adequate battery life||1.0|0.0|0.02
92258165|NCT04453722|184419277|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.037|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Satisfy with the electrode patch||1.0|0.0|0.037
92258166|NCT04453722|184419277|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.482|TWO_SIDED|95.0|-2.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Tolerable to audible alert||1.0|-2.0|0.482
92258167|NCT04453722|184419277|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.031|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Willing to use after study||1.0|0.0|0.031
92179541|NCT01617369|184257017|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||Paired t-test performed. Null hypothesis is that no difference in clearance 30 min and 4 hr after HS inhalation exists||||<.05
92179542|NCT00945321|184257026|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|0.93||||0.001|TWO_SIDED|95.0|0.84|1.02||Hochberg's step-up procedure was applied to preserve the overall alpha level for the primary hypothesis that involved comparison at two oral dose levels.|two one-sided tests|The P-value obtained was the maximum of two P-values from two one-sided tests (GMR (Oral/IV) ≤0.80 vs. GMR\>0.80 and GMR≥1.25 vs. GMR\<1.25).||||1.02|0.84|0.001
92179543|NCT00945321|184257026|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.96|1.15||Hochberg's step-up procedure was applied to preserve the overall alpha level for the primary hypothesis that involved comparison at two oral dose levels|two one-sided tests|The P-value obtained was the maximum of two P-values from two one-sided tests (GMR (Oral/IV) ≤0.80 vs. GMR\>0.80 and GMR≥1.25 vs. GMR\<1.25).||||1.15|0.96|<0.001
92179544|NCT00945321|184257026|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.47|||||TWO_SIDED|90.0|1.23|1.76||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.76|1.23|
92179545|NCT00945321|184257026|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.08|||||TWO_SIDED|90.0|0.88|1.32||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.32|0.88|
92179546|NCT00945321|184257026|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.22|||||TWO_SIDED|90.0|1.01|1.46||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.46|1.01|
92179547|NCT00945321|184257026|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.43|||||TWO_SIDED|90.0|1.16|1.75||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.75|1.16|
92179548|NCT00945321|184257027|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.33|||||TWO_SIDED|90.0|1.13|1.56||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.56|1.13|
92179549|NCT00945321|184257027|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.04|||||TWO_SIDED|95.0|0.86|1.25||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.25|0.86|
92179550|NCT00945321|184257027|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.14|||||TWO_SIDED|90.0|0.96|1.34||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.34|0.96|
92179551|NCT00945321|184257027|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.4|||||TWO_SIDED|90.0|1.16|1.68||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.68|1.16|
92179552|NCT02438137|184257028|SUPERIORITY|In multiple linear regression models, the effect of DMF treatment on mean RDI change (beta-coefficient) was -11.3 respiratory events per hour (p=0.0124).|beta-coefficient for treatment effect|-11.3|STANDARD_ERROR_OF_MEAN|4.3||0.0124|TWO_SIDED||||||Regression, Linear|||Multiple linear regression models were used to calculate treatment effect (DMF or placebo) on mean RDI change, controlling for change in age, gender, BMI, time spent in supine sleep, and time spent in REM sleep.|A mixed effects model, which treated RDI as a repeated measure and used individual ID as random effect, adjusted for age, gender, BMI, time spent in supine sleep, was also conducted. In this model, the effect of DMF compared to placebo, controlling for all other covariates, is a 28% decrease in Month 4 RDI (p=0.033).|||0.0124
92258168|NCT04453722|184419277|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.947|TWO_SIDED|95.0|0.0|1.0||variable: Patients' complaint about the device|Wilcoxon (Mann-Whitney)|||variable: Patients' complaint about the device||1.0|0.0|0.947
92258169|NCT04453722|184419277|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.324|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Disturb IV line||0.0|0.0|0.324
92179553|NCT00195403|184257031|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from baseline in PGA at Month 3 was evaluated using paired t-test.||||<0.0001
92179554|NCT00195403|184257032|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from baseline in number of joints with tenderness, pain, and limitation of motion or swelling at Month 3 were evaluated using paired t-test.||||<0.0001
92179555|NCT05495945|184257076|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||||||0.62
92179556|NCT05495945|184257077|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
92179557|NCT05495945|184257078|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.20
92179558|NCT05495945|184257079|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92179559|NCT05155306|184257083|OTHER||Geometric mean ratio [%]|89.1|||||TWO_SIDED|90.0|79.5|99.7|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.067.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||99.7|79.5|
92258170|NCT00137267|184419278|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92258171|NCT00137267|184419279|SUPERIORITY_OR_OTHER|||||||0.152|TWO_SIDED||||||Chi-squared|||||||0.152
92284384|NCT04166032|184472405|OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.210
92258172|NCT02061540|184419304|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.841|STANDARD_ERROR_OF_MEAN|6.0373||0.0043|TWO_SIDED|95.0|-27.251|-2.432|||Wilcoxon's signed rank test|||Analysis was performed to compare baseline and endpoint data.||-2.432|-27.251|0.0043
92182836|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|95.0|-2.9|0.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||0.4|-2.9|
92258173|NCT01948518|184419309|SUPERIORITY_OR_OTHER||||||=|0.3|TWO_SIDED||||||t-test, 2 sided|||Assuming 15% change in absolute value of DLCO representing a significant clinical difference and a standard deviation of 17.4% in normal nonsmoking individuals \[Miller A, Thornton JC, Warshaw R, et al. Am Rev Respir Dis. 1983;127 (suppl 3):270-277.\], 13 subjects needed to be studied to reject the null hypothesis when there is no significant difference between DLCO measurements before and after sildenafil, with power 0.8 and type I error probability 0.05 (SAS 9.2, SAS Institute Inc., Cary, NC)||||=0.30
92258174|NCT01948518|184419310|SUPERIORITY_OR_OTHER||||||=|0.63|||||||t-test, 2 sided|||The average 6 minute walk distance at baseline was 1195±407 feet. After oral administration of sildenafil, 6 minute walk distance was 1214±383 feet (p=0.63).||||=0.63
92258175|NCT00958191|184419376|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in HHS from pre-op to 1 year||||<0.0001
92258176|NCT00958191|184419376|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in HHS from pre-op to 3 years||||<0.0001
92258177|NCT00958191|184419376|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change in HHS from pre-op to 5 years||||<0.0001
92258178|NCT00958191|184419377|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip Pain Score from pre-op to 1 year||||<0.0001
92258179|NCT00958191|184419377|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip Pain Score from pre-op to 3 years||||<0.0001
92258180|NCT00958191|184419377|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip Pain Score from pre-op to 5 years||||<0.0001
92284385|NCT02781727|184472406|NON_INFERIORITY|Non-inferiority comparison with a non-inferiority margin of 2 cm/year, followed by a test of superiority if non-inferiority is established.||||||0.0088||||||P-value is based on a test of superiority|ANCOVA with multiple imputation|two-sided||ANCOVA model with multiple imputation. For each imputed data set, an ANCOVA model with by visit AHV as the dependent variable; treatment and gender as factors; and baseline age, baseline peak GH levels (log transformed) at stimulation test, and baseline height SDS - average parental height SDS as covariates were fitted.||||0.0088
92258181|NCT00958191|184419378|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip ROM score from pre-op to 1 year||||<0.0001
92258182|NCT00958191|184419378|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip ROM score from pre-op to 3 years||||<0.0001
92258183|NCT00958191|184419378|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip ROM score from pre-op to 5 years||||<0.0001
92258184|NCT00958191|184419379|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in SF-12 Phyiscal Component Score from preop to 1 year||||<0.0001
92258185|NCT00958191|184419379|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change in SF-12 Phyiscal Component Score from preop to 3 year||||<0.0001
92258186|NCT00958191|184419379|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in SF-12 Phyiscal Component Score from preop to 5 year||||<0.0001
92258187|NCT00958191|184419379|SUPERIORITY_OR_OTHER|||||||0.0242|||||||Sign test|||Change in SF-12 Mental Component Score from preop to 1 year||||0.0242
92258188|NCT00958191|184419379|SUPERIORITY_OR_OTHER|||||||0.0247|||||||Sign test|||Change in SF-12 Mental Component Score from preop to 3 year||||0.0247
92284386|NCT00113425|184472412|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|95.0|||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in papule acne lesions for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.01
92179560|NCT05155306|184257083|OTHER||Geometric mean ratio [%]|98.1|||||TWO_SIDED|90.0|94.4|101.9|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.022.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||101.9|94.4|
92179561|NCT05155306|184257083|OTHER||Geometric mean ratio [%]|202.4|||||TWO_SIDED|90.0|180.1|227.5|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.069.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||227.5|180.1|
92179562|NCT05155306|184257083|OTHER||Geometric mean ratio [%]|173.8|||||TWO_SIDED|90.0|158.3|190.8|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.055.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||190.8|158.3|
92179563|NCT05155306|184257084|OTHER||Geometric mean ratio [%]|83.0|||||TWO_SIDED|90.0|69.6|99.0|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.106.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||99.0|69.6|
92179564|NCT05155306|184257084|OTHER||Geometric mean ratio [%]|99.7|||||TWO_SIDED|90.0|88.7|112.0|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.070.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||112.0|88.7|
92179565|NCT05155306|184257084|OTHER||Geometric mean ratio [%]|153.6|||||TWO_SIDED|90.0|126.0|187.3|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.121.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||187.3|126.0|
92179566|NCT05155306|184257084|OTHER||Geometric mean ratio [%]|121.4|||||TWO_SIDED|90.0|99.6|147.8|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.120.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||147.8|99.6|
92179567|NCT05155306|184257085|OTHER||Geometric mean ratio [%]|89.9|||||TWO_SIDED|90.0|80.4|100.4|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.066.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||100.4|80.4|
92179568|NCT05155306|184257085|OTHER||Geometric mean ratio [%]|100.4|||||TWO_SIDED|90.0|96.8|104.1|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.021.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.1|96.8|
92179569|NCT05155306|184257085|OTHER||Geometric mean ratio [%]|202.6|||||TWO_SIDED|90.0|179.6|228.5|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.072.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||228.5|179.6|
92179570|NCT05155306|184257085|OTHER||Geometric mean ratio [%]|172.3|||||TWO_SIDED|90.0|158.2|187.7|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.050.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||187.7|158.2|
92179571|NCT04121741|184257086|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.42||0.864|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for FMD% (singing video intervention compared to control) is shown. Estimates of FMD% for singing coach intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.864
92182837|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|-2.9|0.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||0.5|-2.9|
92258189|NCT00958191|184419379|SUPERIORITY_OR_OTHER|||||||0.1372|||||||Sign test|||Change in SF-12 Mental Component Score from preop to 5 year||||0.1372
92258190|NCT00958191|184419380|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in LEAS Score from preop to 1 year||||<0.0001
92258191|NCT00958191|184419380|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in LEAS Score from preop to 3 year||||<0.0001
92182838|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|95.0|-3.2|0.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||0.1|-3.2|
92258192|NCT00958191|184419380|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change in LEAS Score from preop to 5 year||||<0.0001
92258193|NCT01642004|184419382|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59||||0.0002|TWO_SIDED|96.85|0.43|0.81||Stratified by region (US/Canada, Rest Of World (ROW), Europe) and prior treatment regimen (Paclitaxel, Another agent) as entered in the Interactive Voice Response System (IVRS).|Log Rank||Stratified Cox proportional hazard model. HR = Nivolumab over Docetaxel|||0.81|0.43|0.0002
92258194|NCT00598806|184419396|SUPERIORITY||Odds Ratio (OR)|0.76||||0.1094|TWO_SIDED|95.0|0.55|1.06|||Cochran-Mantel-Haenszel|||||1.06|0.55|0.1094
92258195|NCT00598806|184419397|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.1038|TWO_SIDED|95.0|0.63|1.04|||Log Rank|||||1.04|0.63|0.1038
92258196|NCT01714336|184419445|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Regression, Logistic|||||||0.75
92258197|NCT02724111|184419460|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92258198|NCT02724111|184419461|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92258199|NCT02724111|184419462|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92258200|NCT02724111|184419463|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92258201|NCT02724111|184419464|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92258202|NCT02724111|184419465|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92258203|NCT02724111|184419466|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
92258204|NCT02724111|184419467|SUPERIORITY|||||||0.202|||||||Chi-squared|||||||0.202
92258205|NCT02996500|184419468|SUPERIORITY||Mean Difference (Net)|-7.83||||0.005|TWO_SIDED|95.0|-13.73|-1.97|||ANCOVA|Bayesian analysis of covariance (ANCOVA) modeling framework was used with baseline SDAI score as a covariate.||The confidence interval was credible interval in this analysis.||-1.97|-13.73|0.0050
92258206|NCT02996500|184419468|SUPERIORITY||Mean Difference (Net)|-8.96|||<|0.001|TWO_SIDED|95.0|-14.37|-3.66|||ANCOVA|Bayesian analysis of covariance (ANCOVA) modeling framework was used with baseline SDAI score as a covariate.||The confidence interval was credible interval in this analysis.||-3.66|-14.37|<0.001
92258207|NCT02996500|184419468|SUPERIORITY||Median Difference (Net)|-10.89|||<|0.001|TWO_SIDED|95.0|-16.36|-5.63|||ANCOVA|Bayesian analysis of covariance (ANCOVA) modeling framework was used with baseline SDAI score as a covariate.||The confidence interval was credible interval in this analysis.||-5.63|-16.36|<0.001
92258208|NCT02996500|184419468|SUPERIORITY||Mean Difference (Net)|-11.29|||<|0.001|TWO_SIDED|95.0|-16.62|-5.92|||ANCOVA|Bayesian analysis of covariance (ANCOVA) modeling framework was used with baseline SDAI score as a covariate.||The confidence interval was credible interval in this analysis.||-5.92|-16.62|<0.001
92258209|NCT00835276|184419523|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|87.96||||||90.0|80.15|96.53|||||To establish bioequivalence, the mean values for the test product differ by no more than 20% from the respective mean values for the reference listed product.|||96.53|80.15|
92182839|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|95.0|-2.4|1.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||1.0|-2.4|
92258210|NCT00835276|184419524|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|91.47||||||90.0|85.15|98.26|||||To establish bioequivalence, the mean values for the test product differ by no more that 20% from the repective mean values for the reference listed product.|||98.26|85.15|
92258211|NCT00835276|184419525|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|91.47||||||90.0|85.32|98.07|||||To establish bioequivalence, the mean values for the test product differ by no more than 20% from the respective mean values for the reference listed product.|||98.07|85.32|
92258212|NCT02332876|184419548|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92258213|NCT02402881|184419549|OTHER||Odds Ratio (OR)|1.0|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|We used generalized linear mixed-effects models with multiple outputation reiterated 1000 times to bootstrap the 95% CIs and the P values.||Our primary outcome was the proportion of non-administered doses of prescribed pharmacologic VTE prophylaxis. We compared rates of VTE prophylaxis non-administration pre-post-intervention. For estimating conditional odds ratios (ORs) and their 95% confidence intervals (CIs), the binomial family and a logit link were used; for estimating the conditional proportions, the Poisson family and a log link were used.||||<0.05
92258214|NCT02402881|184419550|OTHER||Odds Ratio (OR)|1.0|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|We used generalized linear mixed-effects models with multiple outputation reiterated 1000 times to bootstrap the 95% CIs and the P values.||Our secondary outcome was the proportion of VTE events. We compared rates of VTE prophylaxis nonadministration pre-post-intervention. For estimating conditional odds ratios (ORs) and their 95% CIs, the binomial family and a logit link were used; for estimating the conditional proportions, the Poisson family and a log link were used.||||<0.05
92258215|NCT01369069|184419556|SUPERIORITY||Risk Ratio (RR)|0.97||||0.55|TWO_SIDED|95.0|0.87|1.08||The a priori threshold for statistical significance was 0.05.|Regression, Logistic||Adjusted for baseline NIHSS strata (3-7, 8-14, 15-22) and thrombolysis use (Yes/No; includes both IV and IA therapies). Multiple imputation was used for missing data.|It was hypothesized that intensive blood glucose control would be efficacious and safe in acute ischemic stroke patients compared to standard glucose control.||1.08|0.87|0.55
92258216|NCT01369069|184419557|SUPERIORITY||Risk Difference (RD)|2.58|||<|0.001|TWO_SIDED|95.0|1.29|3.87|||Fisher Exact||The data of the estimation parameter and the confidence intervals were presented as percentages.|||3.87|1.29|<0.001
92258217|NCT01369069|184419558|SUPERIORITY||Risk Difference (RD)|-1.07||||0.77|TWO_SIDED|95.0|-8.33|6.2|||Chi-squared||The data of the estimation parameter and the confidence intervals were presented as percentages.|||6.20|-8.33|0.77
92258218|NCT01369069|184419559|SUPERIORITY||Risk Difference (RD)|0.48||||0.88|TWO_SIDED|95.0|-5.79|6.75|||Chi-squared||The data of the estimation parameter and the confidence intervals were presented as percentages.|||6.75|-5.79|0.88
92258219|NCT01369069|184419560|SUPERIORITY||Median Difference (Final Values)|0.06||||0.74|TWO_SIDED|95.0|-0.13|0.25|||Wilcoxon (Mann-Whitney)|||||0.25|-0.13|0.74
92258220|NCT01369069|184419561|SUPERIORITY||Risk Ratio (RR)|0.82||||0.24|TWO_SIDED|95.0|0.58|1.15|||Chi-squared|||||1.15|0.58|0.24
92182840|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-2.5|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||1.1|-2.5|
92258221|NCT02573012|184419562|SUPERIORITY||Least Square Means|0.613||||0.001|TWO_SIDED|95.0|0.346|0.879|||ANCOVA|||||0.879|0.346|0.001
92258222|NCT02573012|184419563|SUPERIORITY||Odds Ratio (OR)|0.5||||0.018|TWO_SIDED|95.0|0.285|0.889|||Regression, Logistic|||||0.889|0.285|0.018
92258223|NCT02573012|184419563|SUPERIORITY||Relative Risk|0.833||||0.021|TWO_SIDED|95.0|0.714|0.972|||Cochran-Mantel-Haenszel|||||0.972|0.714|0.021
92258224|NCT02573012|184419564|SUPERIORITY||Least Square Mean|2.342||||0.006|TWO_SIDED|95.0|0.661|4.023|||ANCOVA|||||4.023|0.661|0.006
92258225|NCT02573012|184419584|SUPERIORITY||Least Square Means|2.264||||0.009||95.0|0.574|3.953|||ANCOVA|||||3.953|0.574|0.009
92258226|NCT02253173|184419638|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258227|NCT02253173|184419638|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258228|NCT02253173|184419638|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258229|NCT02253173|184419639|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258230|NCT02253173|184419639|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258231|NCT02253173|184419639|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258232|NCT02253173|184419640|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258233|NCT02253173|184419640|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258234|NCT02253173|184419640|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258235|NCT02253173|184419641|SUPERIORITY_OR_OTHER|||||||0.0149|||||||Mixed Models Analysis|||||||0.0149
92258236|NCT02253173|184419641|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258237|NCT02253173|184419641|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258238|NCT02253173|184419642|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258239|NCT02253173|184419642|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258240|NCT02253173|184419642|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258241|NCT02253173|184419643|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258242|NCT02253173|184419643|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258243|NCT02253173|184419643|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258244|NCT02253173|184419644|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258245|NCT02253173|184419644|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258246|NCT02253173|184419644|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258247|NCT02253173|184419645|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92179572|NCT04121741|184257086|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.42||0.913|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for FMD% (singing coach intervention compared to control) is shown. Estimates of FMD% for singing video intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.913
92179573|NCT04121741|184257087|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.13||0.29|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for RHI (singing video intervention compared to control) is shown. Estimates of RHI for singing coach intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.290
92179574|NCT04121741|184257087|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.12||0.462|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for RHI (singing coach intervention compared to control) is shown. Estimates of RHI for singing video intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.462
92179575|NCT04121741|184257088|SUPERIORITY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.19||0.005|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for fRHI (singing video intervention compared to control) is shown. Estimates of fRHI for singing coach intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.005
92179576|NCT04121741|184257088|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.18||0.57|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for fRHI (singing coach intervention compared to control) is shown. Estimates of fRHI for singing video intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.570
92179577|NCT01084863|184257098|EQUIVALENCE|Pharmacokinetic equivalence was predefined based on acceptance criteria, 80% to 125%.|Geometric Mean Ratio|104.57|||||TWO_SIDED|90.0|93.64|116.78||||||||116.78|93.64|
92179578|NCT03473223|184257142|SUPERIORITY||Hazard Ratio (HR)|0.925||||0.121|TWO_SIDED|95.0|0.8126|1.0538||1-sided p-value.|Cox proportional hazards regression|||||1.0538|0.8126|0.121
92179579|NCT03473223|184257143|SUPERIORITY||Rate ratio|0.971||||0.341|TWO_SIDED|95.0|0.8442|1.1171||1-sided p-value|Negative binomial regression model|||||1.1171|0.8442|0.341
92258248|NCT02253173|184419645|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258249|NCT02253173|184419645|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92179580|NCT03473223|184257144|SUPERIORITY||Hazard Ratio (HR)|0.907||||0.038|TWO_SIDED|95.0|0.8132|1.0106||1-sided p-value.|Cox proportional hazards regression|||||1.0106|0.8132|0.038
92179581|NCT03473223|184257145|SUPERIORITY||Hazard Ratio (HR)|0.933||||0.069|TWO_SIDED|95.0|0.8511|1.0224||1-sided p-value.|Cox proportional hazards regression|||||1.0224|0.8511|0.069
92179582|NCT03473223|184257146|SUPERIORITY||Hazard Ratio (HR)|0.827||||0.074|TWO_SIDED|95.0|0.6399|1.0695||1-sided p-value.|Cox proportional hazards regression|||||1.0695|0.6399|0.074
92258250|NCT02253173|184419646|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258251|NCT02253173|184419646|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258252|NCT02253173|184419646|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258253|NCT02253173|184419647|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258254|NCT02253173|184419647|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258255|NCT02253173|184419647|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258256|NCT02253173|184419648|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258257|NCT02253173|184419648|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258258|NCT02253173|184419648|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258259|NCT02253173|184419649|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258260|NCT02253173|184419649|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258261|NCT02253173|184419649|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92179583|NCT03473223|184257147|SUPERIORITY||Hazard Ratio (HR)|0.909||||0.113|TWO_SIDED|95.0|0.7801|1.0603||1-sided p-value.|Cox proportional hazards regression|||||1.0603|0.7801|0.113
92179584|NCT03473223|184257148|SUPERIORITY||Hazard Ratio (HR)|1.153||||0.767|TWO_SIDED|95.0|0.7867|1.6886||1-sided p-value.|Cox proportional hazards regression|||||1.6886|0.7867|0.767
92179585|NCT02549352|184257184|SUPERIORITY||Ratio of clearance rates|7.83|||<|0.001|TWO_SIDED|95.0|2.58|23.71|||Mantel Haenszel||Mantel-Haenszel estimate (0.037% relative to vehicle), adjusted for pooled sites.|||23.71|2.58|<0.001
92179586|NCT02549352|184257185|SUPERIORITY||Ratio of clearance rates|5.91|||<|0.001|TWO_SIDED|95.0|3.32|10.51|||Mantel Haenszel||Mantel-Haenszel estimate (0.037% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||10.51|3.32|<0.001
92179587|NCT02549352|184257186|SUPERIORITY||Ratio of clearance rates|7.59|||<|0.001|TWO_SIDED|95.0|3.7|15.61|||Mantel Haenszel||Mantel-Haenszel estimate (0.037% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||15.61|3.70|<0.001
92179588|NCT02549352|184257187|SUPERIORITY||Week 8 AK count ratio|0.3|||<|0.001|TWO_SIDED|95.0|0.25|0.36||Negative binominal regression with treatment group and pooled site as factors and log baseline count as offset variable.|Mantel Haenszel||0.037% relative to vehicle.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||0.36|0.25|<0.001
92179589|NCT03614663|184257225|SUPERIORITY|||||||0.321|||||||MMRM - Mixed model for repeated measures|||||||0.321
92179590|NCT03614663|184257226|SUPERIORITY|||||||0.149|||||||MMRM - Mixed model for repeated measures|||||||0.149
92179591|NCT03614663|184257227|SUPERIORITY|||||||0.607|||||||MMRM - Mixed model for repeated measures|||||||0.607
92179592|NCT03614663|184257228|SUPERIORITY|||||||0.426|||||||ANOVA|||||||0.426
92258262|NCT02253173|184419650|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258263|NCT02253173|184419650|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258264|NCT02253173|184419650|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92179593|NCT03614663|184257229|SUPERIORITY|||||||0.02|||||||MMRM - Mixed model for repeated measures|||||||0.02
92179594|NCT03614663|184257230|SUPERIORITY|||||||0.091|||||||MMRM - Mixed model for repeated measures|||||||0.091
92179595|NCT03614663|184257231|SUPERIORITY|||||||0.135|||||||MMRM - Mixed model for repeated measures|||||||0.135
92179596|NCT03614663|184257232|SUPERIORITY|||||||0.056|||||||MMRM - Mixed model for repeated measures|||||||0.056
92258265|NCT02253173|184419651|SUPERIORITY_OR_OTHER|||||||0.026|||||||Mixed Models Analysis|||||||0.0260
92258266|NCT02253173|184419651|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Mixed Models Analysis|||||||0.0019
92258267|NCT02253173|184419651|SUPERIORITY_OR_OTHER|||||||0.0105|||||||Mixed Models Analysis|||||||0.0105
92258268|NCT02253173|184419652|SUPERIORITY_OR_OTHER|||||||0.0069|||||||Mixed Models Analysis|||||||0.0069
92258269|NCT02253173|184419652|SUPERIORITY_OR_OTHER|||||||0.0009|||||||Mixed Models Analysis|||||||0.0009
92258270|NCT02253173|184419652|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258271|NCT02253173|184419653|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Mixed Models Analysis|||||||0.0003
92258272|NCT02253173|184419653|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258273|NCT02253173|184419653|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92182841|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-2.5|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||1.1|-2.5|
92258274|NCT02253173|184419654|SUPERIORITY_OR_OTHER|||||||0.1269|||||||Mixed Models Analysis|||||||0.1269
92258275|NCT02253173|184419654|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Mixed Models Analysis|||||||0.0019
92258276|NCT02253173|184419654|SUPERIORITY_OR_OTHER|||||||0.0082|||||||Mixed Models Analysis|||||||0.0082
92258277|NCT02253173|184419655|SUPERIORITY_OR_OTHER|||||||0.0094|||||||Mixed Models Analysis|||||||0.0094
92258278|NCT02253173|184419655|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
92258279|NCT02253173|184419655|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Mixed Models Analysis|||||||0.0005
92258280|NCT02253173|184419656|SUPERIORITY_OR_OTHER|||||||0.0128|||||||Mixed Models Analysis|||||||0.0128
92258281|NCT02253173|184419656|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258282|NCT02253173|184419656|SUPERIORITY_OR_OTHER|||||||0.0008|||||||Mixed Models Analysis|||||||0.0008
92258283|NCT02253173|184419657|SUPERIORITY_OR_OTHER|||||||0.0014|||||||Mixed Models Analysis|||||||0.0014
92258284|NCT02253173|184419657|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258285|NCT02253173|184419657|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258286|NCT02253173|184419658|SUPERIORITY_OR_OTHER|||||||0.9616|||||||Mixed Models Analysis|||||||0.9616
92258287|NCT02253173|184419658|SUPERIORITY_OR_OTHER|||||||0.2439|||||||Mixed Models Analysis|||||||0.2439
92258288|NCT02253173|184419658|SUPERIORITY_OR_OTHER|||||||0.6518|||||||Mixed Models Analysis|||||||0.6518
92258289|NCT02253173|184419659|SUPERIORITY_OR_OTHER|||||||0.7829|||||||Mixed Models Analysis|||||||0.7829
92258290|NCT02253173|184419659|SUPERIORITY_OR_OTHER|||||||0.2328|||||||Mixed Models Analysis|||||||0.2328
92258291|NCT02253173|184419659|SUPERIORITY_OR_OTHER|||||||0.4118|||||||Mixed Models Analysis|||||||0.4118
92258292|NCT02253173|184419660|SUPERIORITY_OR_OTHER|||||||0.0639|||||||Mixed Models Analysis|||||||0.0639
92258293|NCT02253173|184419660|SUPERIORITY_OR_OTHER|||||||0.0356|||||||Mixed Models Analysis|||||||0.0356
92258294|NCT02253173|184419660|SUPERIORITY_OR_OTHER|||||||0.0914|||||||Mixed Models Analysis|||||||0.0914
92258295|NCT02253173|184419661|SUPERIORITY_OR_OTHER|||||||0.0503|||||||Mixed Models Analysis|||||||0.0503
92258296|NCT02253173|184419661|SUPERIORITY_OR_OTHER|||||||0.0055|||||||Mixed Models Analysis|||||||0.0055
92258297|NCT02253173|184419661|SUPERIORITY_OR_OTHER|||||||0.0263|||||||Mixed Models Analysis|||||||0.0263
92284387|NCT00113425|184472413|SUPERIORITY_OR_OTHER|||||||0.43|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in pustule acne lesions for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.43
92284388|NCT00113425|184472414|SUPERIORITY_OR_OTHER|||||||0.79|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in cysts for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.79
92258298|NCT02253173|184419662|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258299|NCT02253173|184419662|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258300|NCT02253173|184419662|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258301|NCT02253173|184419663|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258302|NCT02253173|184419663|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258303|NCT02253173|184419663|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258304|NCT02253173|184419664|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258305|NCT02253173|184419664|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258306|NCT02253173|184419664|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258307|NCT02253173|184419665|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258308|NCT02253173|184419665|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258309|NCT02253173|184419665|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258310|NCT02253173|184419666|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258311|NCT02253173|184419666|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258312|NCT02253173|184419666|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258313|NCT02253173|184419667|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258314|NCT02253173|184419667|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258315|NCT02253173|184419667|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258316|NCT02253173|184419668|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258317|NCT02253173|184419668|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258318|NCT02253173|184419668|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258319|NCT02253173|184419669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258320|NCT02253173|184419669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258321|NCT02253173|184419669|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258322|NCT02253173|184419670|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258323|NCT02253173|184419670|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258324|NCT02253173|184419670|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258325|NCT02253173|184419671|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258326|NCT02253173|184419671|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258327|NCT02253173|184419671|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258328|NCT02253173|184419672|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258329|NCT02253173|184419672|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258330|NCT02253173|184419672|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258331|NCT02253173|184419673|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258332|NCT02253173|184419673|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258333|NCT02253173|184419673|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258334|NCT02253173|184419674|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Mixed Models Analysis|||||||0.0004
92258335|NCT02253173|184419674|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258336|NCT02253173|184419674|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92284389|NCT00113425|184472415|SUPERIORITY_OR_OTHER|||||||0.1|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in closed comedones for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.10
92284390|NCT00113425|184472416|SUPERIORITY_OR_OTHER|||||||0.73|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in open comedones for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.73
92258337|NCT02253173|184419675|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
92258338|NCT02253173|184419675|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258339|NCT02253173|184419675|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258340|NCT02253173|184419676|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258341|NCT02253173|184419676|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258342|NCT02253173|184419676|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92179597|NCT05274321|184257237|NON_INFERIORITY|The noninferiority margin was determined by taking 10% of the standard of care change score. Noninferiority was determined for each outcome if the noninferiority margin did not overlap with the regression coefficient's 95% confidence interval.||||||0.22||||||Wald P values were calculated by testing whether the regression coefficient met or exceeded the noninferiority margin.|Regression, Linear|The threshold for significance is 0.0167.||Absolute between-eye differences were calculated for each participant by subtracting the standard of care (SOC) change score from the Nanodropper change score. The confidence interval (CI) is 95%.||||0.22
92179598|NCT05274321|184257238|NON_INFERIORITY|The noninferiority margin was determined by taking 10% of the standard of care change score. Noninferiority was determined for each outcome if the noninferiority margin did not overlap with the regression coefficient's 95% confidence interval. .||||||0.02||||||Wald P values were calculated by testing whether the regression coefficient met or exceeded the noninferiority margin.|Regression, Linear|The threshold for significance is 0.0167.||Absolute between-eye differences were calculated for each participant by subtracting the standard of care (SOC) change score from the Nanodropper change score. The confidence interval (CI) is 95%.||||0.02
92179599|NCT05274321|184257239|NON_INFERIORITY|The noninferiority margin was determined by taking 10% of the standard of care change score. Noninferiority was determined for each outcome if the noninferiority margin did not overlap with the regression coefficient's 95% confidence interval.||||||0.03||||||Wald P values were calculated by testing whether the regression coefficient met or exceeded the noninferiority margin.|Regression, Linear|The threshold for significance is 0.0167.||Absolute between-eye differences were calculated for each participant by subtracting the standard of care (SOC) change score from the Nanodropper change score. The confidence interval (CI) is 95%.||||0.03
92179600|NCT05274321|184257240|NON_INFERIORITY|The noninferiority margin was determined by taking 10% of the standard of care change score. Noninferiority was determined for each outcome if the noninferiority margin did not overlap with the regression coefficient's 95% confidence interval.||||||0.25||||||Wald P values were calculated by testing whether the regression coefficient met or exceeded the noninferiority margin.|Regression, Linear|The threshold for significance is 0.0167.||Absolute between-eye differences were calculated for each participant by subtracting the standard of care (SOC) change score from the Nanodropper change score. The confidence interval (CI) is 95%.||||0.25
92179601|NCT01105975|184257265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|78.5|||<|0.001|TWO_SIDED|90.0|64.9|92.1|||mixed model repeated measures (MMRM)|||||92.1|64.9|<0.001
92258343|NCT02253173|184419677|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258344|NCT02253173|184419677|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92179602|NCT01105975|184257266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9||||0.002|TWO_SIDED|90.0|-21.2|-6.7|||mixed model repeated measures (MMRM)|||||-6.7|-21.2|0.002
92179603|NCT01105975|184257267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|56.7|||<|0.001|TWO_SIDED|90.0|43.6|69.8|||mixed model repeated measures (MMRM)|||||69.8|43.6|<0.001
92179604|NCT01105975|184257267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|97.6|||<|0.001||90.0|84.5|110.8|||mixed model repeated measures (MMRM)|||||110.8|84.5|<0.001
92179605|NCT01105975|184257267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|131.9|||<|0.001|TWO_SIDED|90.0|118.5|145.2|||mixed model repeated measures (MMRM)|||||145.2|118.5|<0.001
92258345|NCT02253173|184419677|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92258346|NCT02253173|184419678|SUPERIORITY_OR_OTHER|||||||0.9075|||||||ANCOVA|||||||0.9075
92258347|NCT02253173|184419678|SUPERIORITY_OR_OTHER|||||||0.0492|||||||ANCOVA|||||||0.0492
92258348|NCT02253173|184419678|SUPERIORITY_OR_OTHER|||||||0.0019|||||||ANCOVA|||||||0.0019
92258349|NCT02253173|184419679|SUPERIORITY_OR_OTHER|||||||0.9719|||||||ANCOVA|||||||0.9719
92258350|NCT02253173|184419679|SUPERIORITY_OR_OTHER|||||||0.0614|||||||ANCOVA|||||||0.0614
92258351|NCT02253173|184419679|SUPERIORITY_OR_OTHER|||||||0.0085|||||||ANCOVA|||||||0.0085
92258352|NCT02253173|184419680|SUPERIORITY_OR_OTHER|||||||0.9999|||||||ANCOVA|||||||0.9999
92258353|NCT02253173|184419680|SUPERIORITY_OR_OTHER|||||||0.2855|||||||ANCOVA|||||||0.2855
92258354|NCT02253173|184419680|SUPERIORITY_OR_OTHER|||||||0.1189|||||||ANCOVA|||||||0.1189
92258355|NCT02253173|184419681|SUPERIORITY_OR_OTHER|||||||0.4162|||||||ANCOVA|||||||0.4162
92258356|NCT02253173|184419681|SUPERIORITY_OR_OTHER|||||||0.0013|||||||ANCOVA|||||||0.0013
92258357|NCT02253173|184419681|SUPERIORITY_OR_OTHER|||||||0.0003|||||||ANCOVA|||||||0.0003
92258358|NCT02253173|184419682|SUPERIORITY_OR_OTHER|||||||0.9929|||||||ANCOVA|||||||0.9929
92258359|NCT02253173|184419682|SUPERIORITY_OR_OTHER|||||||0.9634|||||||ANCOVA|||||||0.9634
92258360|NCT02253173|184419682|SUPERIORITY_OR_OTHER|||||||0.0898|||||||ANCOVA|||||||0.0898
92258361|NCT02253173|184419683|SUPERIORITY_OR_OTHER|||||||0.5146|||||||ANCOVA|||||||0.5146
92258362|NCT02253173|184419683|SUPERIORITY_OR_OTHER|||||||0.0099|||||||ANCOVA|||||||0.0099
92258363|NCT02253173|184419683|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANCOVA|||||||0.0150
92258364|NCT02253173|184419684|SUPERIORITY_OR_OTHER|||||||0.9039|||||||ANCOVA|||||||0.9039
92258365|NCT02253173|184419684|SUPERIORITY_OR_OTHER|||||||0.3751|||||||ANCOVA|||||||0.3751
92258366|NCT02253173|184419684|SUPERIORITY_OR_OTHER|||||||0.0073|||||||ANCOVA|||||||0.0073
92284391|NCT00113425|184472417|SUPERIORITY_OR_OTHER|||||||0.02|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in erythematous macules for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.02
92258367|NCT02545049|184419688|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.0264|TWO_SIDED|95.0|0.76|0.98||A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||0.98|0.76|0.0264
92258368|NCT02545049|184419689|SUPERIORITY|If the treatment effect of the 40% renal composite endpoint was not significant, all other endpoints (i.e. all-cause hospitalization, all-cause mortality, change in UACR from baseline to Month 4, and 57% renal composite endpoint) would be tested in an exploratory manner.|Hazard Ratio (HR)|0.87||||0.0689|TWO_SIDED|95.0|0.76|1.01||A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||1.01|0.76|0.0689
92258369|NCT02545049|184419690|SUPERIORITY|If the treatment effect of the 40% renal composite endpoint was not significant, all other endpoints (i.e. all-cause hospitalization, all-cause mortality, change in UACR from baseline to Month 4, and 57% renal composite endpoint) would be tested in an exploratory manner.|Hazard Ratio (HR)|0.97||||0.3558|TWO_SIDED|95.0|0.9|1.04||A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||1.04|0.90|0.3558
92258370|NCT02545049|184419691|SUPERIORITY|If the treatment effect of the 40% renal composite endpoint was not significant, all other endpoints (i.e. all-cause hospitalization, all-cause mortality, change in UACR from baseline to Month 4, and 57% renal composite endpoint) would be tested in an exploratory manner.|Hazard Ratio (HR)|0.89||||0.1337|TWO_SIDED|95.0|0.77|1.04||A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||1.04|0.77|0.1337
92179606|NCT01105975|184257268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6|||<|0.001|TWO_SIDED|90.0|-24.6|-10.5|||mixed model repeated measures (MMRM)|||||-10.5|-24.6|<0.001
92179607|NCT01105975|184257268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.2|||<|0.001|TWO_SIDED|90.0|-33.2|-19.2|||mixed model repeated measures (MMRM)|||||-19.2|-33.2|<0.001
92258371|NCT02545049|184419692|SUPERIORITY|If the treatment effect of the 40% renal composite endpoint was not significant, all other endpoints (i.e. all-cause hospitalization, all-cause mortality, change in UACR from baseline to Month 4, and 57% renal composite endpoint) would be tested in an exploratory manner.|Ratio of least squares means|0.676|||<|0.0001|TWO_SIDED|95.0|0.65|0.704||P-value from F-test of equal means between the treatment groups. A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|ANCOVA|||||0.704|0.650|<0.0001
92258372|NCT02545049|184419693|SUPERIORITY|If the treatment effect of the 40% renal composite endpoint was not significant, all other endpoints (i.e. all-cause hospitalization, all-cause mortality, change in UACR from baseline to Month 4, and 57% renal composite endpoint) would be tested in an exploratory manner.|Hazard Ratio (HR)|0.77||||0.0406|TWO_SIDED|95.0|0.6|0.99||A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||0.99|0.60|0.0406
92179608|NCT01105975|184257268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.8|||<|0.001|TWO_SIDED|90.0|-47.0|-32.7|||mixed model repeated measures (MMRM)|||||-32.7|-47.0|<0.001
92179609|NCT01105975|184257269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|79.3|||<|0.001||90.0|66.2|92.4|||mixed model repeated measures (MMRM)|||||92.4|66.2|<0.001
92179610|NCT01105975|184257269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|88.5|||<|0.001|TWO_SIDED|90.0|75.2|101.8|||mixed model repeated measures (MMRM)|||||101.8|75.2|<0.001
92179611|NCT01105975|184257270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.2||||0.009|TWO_SIDED|90.0|-18.3|-4.2|||mixed model repeated measures (MMRM)|||||-4.2|-18.3|0.009
92179612|NCT01105975|184257270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.5||||0.002|TWO_SIDED|90.0|-20.6|-6.4|||mixed model repeated measures (MMRM)|||||-6.4|-20.6|0.002
92179613|NCT04868617|184257282|SUPERIORITY||Mean Difference (Final Values)|-0.2|||=|0.015|TWO_SIDED|95.0|-0.3|-0.03|||Mixed Models Analysis|||||-0.03|-0.3|=0.015
92179614|NCT04868617|184257283|SUPERIORITY||Mean Difference (Final Values)|-0.8|||=|0.035|TWO_SIDED|95.0|-1.5|-0.1|||Mixed Models Analysis|||||-0.1|-1.5|=0.035
92179615|NCT05441449|184257284|SUPERIORITY|||||||0.002|||||||ANOVA|||||||0.002
92258373|NCT04191096|184419704|OTHER||Hazard Ratio (HR)|1.2||||0.9467|TWO_SIDED|95.0|0.96|1.49||A one-sided p-value was calculated using the log-rank test stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No).|||1.49|0.96|0.9467
92179616|NCT05441449|184257284|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92179617|NCT05441449|184257284|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92179618|NCT05441449|184257285|SUPERIORITY|||||||0.043|||||||ANOVA|||||||0.043
92179619|NCT05441449|184257285|SUPERIORITY|||||||0.281|||||||ANOVA|||||||0.281
92179620|NCT05441449|184257285|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92179621|NCT05441449|184257286|SUPERIORITY|||||||0.352|||||||ANOVA|||||||0.352
92258374|NCT04191096|184419705|OTHER||Hazard Ratio (HR)|1.16||||0.85122|TWO_SIDED|95.0|0.88|1.53||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.53|0.88|0.85122
92179622|NCT05441449|184257286|SUPERIORITY|||||||0.001|||||||ANOVA|||||||0.001
92258375|NCT04191096|184419706|OTHER||Hazard Ratio (HR)|1.24||||0.97907|TWO_SIDED|95.0|1.01|1.54||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.54|1.01|0.97907
92284392|NCT00113425|184472418|SUPERIORITY_OR_OTHER|||||||0.003|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in acne severity for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.003
92179623|NCT05441449|184257287|SUPERIORITY|||||||0.374|||||||ANOVA|||||||0.374
92179624|NCT05441449|184257287|SUPERIORITY|||||||0.045|||||||ANOVA|||||||0.045
92179625|NCT05441449|184257287|SUPERIORITY|||||||0.196|||||||ANOVA|||||||0.196
92179626|NCT04612244|184257311|NON_INFERIORITY|"PT will be deemed to be non-inferior to PC if it can be established that the posterior probability Pr(HA \| data) \> Ψeff, where Ψeff is a pre-specified threshold value that controls the one-sided type I error rate (under simulation) at level 0.05. In the absence of missing data, the posterior distributions for PT and PC would be conjugate Beta distributions."||||||0.05|||||||t-test, 1 sided|||"The primary effectiveness endpoint for this study is Treatment Success, which will be analyzed as a test of non-inferiority of the event rate at 12 months using a noninferiority margin of 15%.~The null and alternative hypotheses are:~H0: PT ≤ PC - 0.15 versus HA: PT \> PC - 0.15 where PT is the Treatment Success rate at 12 months in the Pulsed Field Group and PC is the Treatment Success rate at 12 months in the Thermal (Control) Group."||||0.05
92179627|NCT04612244|184257313|SUPERIORITY|"The null and alternative hypotheses are provided below. H0: PT ≤ PC versus HA: PT \> PC where PT is the Treatment Success rate at 12 months in the Pulsed Field Group, and PC is the Treatment Success rate at 12 months in the Thermal Group.~Modeling will be identical primary endpoint and superiority concluded if the posterior probability Pr(HA \| data) \> Ψeff, sup, where the threshold Ψeff,sup is a pre-specified threshold value that controls the one-sided type I error rate at level 0.025."|Median Difference (Final Values)|0.708||||0.025|ONE_SIDED|97.5|||||t-test, 1 sided|||The secondary effectiveness endpoint for the ADVENT Trial is Treatment Superiority uses the same definition as the primary effectiveness endpoint for Treatment Success, but the test is for superiority between MITT subjects in the PFA and Thermal Groups.||||0.025
92179628|NCT03260569|184257316|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92179629|NCT03777657|184257351|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0056|TWO_SIDED|95.0|0.59|0.94||The superiority boundary at the primary overall survival analysis was predefined using the O'Brien-Fleming boundary approximated using the Hwang-Shih-DeCani spending function at 0.0092.|One-sided Log Rank Test|One-Sided Log-Rank Test stratified by regions (Asia versus Europe/North America) and presence of peritoneal metastasis (yes vs no).|The stratified hazard ratio and two-sided 95% confidence interval were estimated using a Cox proportional hazard regression model, including treatment arm as a covariate, and region and presence of peritoneal metastasis as strata.|||0.94|0.59|0.0056
92179630|NCT03777657|184257352|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0011|TWO_SIDED|95.0|0.7|0.92||The one sided P value boundary for superiority of overall survival in all randomized participants at final analysis was 0.0226 based on 776 actual observed deaths.|One-Sided Log-Rank Test|One-Sided Log-Rank test stratified by region (Asia vs Europe/North America), PD-L1 expression (\<5% vs ≥5%), and presence of peritoneal metastasis.|The stratified hazard ratio and two-sided 95% confidence interval were estimated using a Cox proportional hazard regression model, including treatment arm as a covariate, and region, PD-L1 expression, and presence of peritoneal metastasis as strata.|||0.92|0.70|0.0011
92179631|NCT03777657|184257353|OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.56|0.83|||||The stratified hazard ratio and two-sided 95% confidence interval were estimated using a Cox proportional hazard regression model, including treatment arm as a covariate, and region and presence of peritoneal metastasis as strata.|||0.83|0.56|
92179632|NCT03777657|184257354|OTHER||Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|1.03|2.04|||||Odds ratio between arms weas calculated using the Cochran-Mantel-Haenszel method, stratified by regions (Asia versus Europe/North America) and presence of peritoneal metastasis.|||2.04|1.03|
92179633|NCT03777657|184257355|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.67|0.9|||||The stratified hazard ratio and two-sided 95% confidence interval were estimated using a Cox proportional hazard regression model, including treatment arm as a covariate, and region, PD-L1 expression, and presence of peritoneal metastasis as strata.|||0.90|0.67|
92179634|NCT03777657|184257356|OTHER||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|1.03|1.72|||||Odds ratio between arms were calculated using the Cochran-Mantel-Haenszel method, stratified by regions (Asia versus Europe/North America), PD-L1 expression and presence of peritoneal metastasis.|||1.72|1.03|
92179635|NCT03777657|184257359|OTHER||Least Squares (LS) Mean Difference|1.8|||||TWO_SIDED|95.0|-0.33|3.94|||||Mixed effect model analysis with QLQ-C30 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in Global Health Status/QoL at Cycle 4||3.94|-0.33|
92179636|NCT03777657|184257359|OTHER||LS Mean Difference|2.52|||||TWO_SIDED|95.0|0.29|4.74|||||Mixed effect model analysis with QLQ-C30 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in Global Health Status/QoL at Cycle 6||4.74|0.29|
92179637|NCT03777657|184257359|OTHER||LS Mean Difference|1.44|||||TWO_SIDED|95.0|-0.27|3.16||||||Analysis of Change from Baseline in Physical Functioning at Cycle 4||3.16|-0.27|
92179638|NCT03777657|184257359|OTHER||LS Mean Difference|2.46|||||TWO_SIDED|95.0|0.49|4.43|||||Mixed effect model analysis with QLQ-C30 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in Physical Functioning at Cycle 6||4.43|0.49|
92179639|NCT03777657|184257360|OTHER||LS Mean Difference|-1.32|||||TWO_SIDED|95.0|-3.79|1.15|||||Mixed effect model analysis with QLQ-C30 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in Fatigue at Cycle 4||1.15|-3.79|
92179640|NCT03777657|184257360|OTHER||LS Mean Difference|-3.01|||||TWO_SIDED|95.0|-5.78|-0.24|||||Mixed effect model analysis with QLQ-C30 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in Fatigue at Cycle 6||-0.24|-5.78|
92179641|NCT03777657|184257361|OTHER||LS Mean Difference|-1.11|||||TWO_SIDED|95.0|-2.53|0.31|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Index-Score at Cycle 4||0.31|-2.53|
92179642|NCT03777657|184257361|OTHER||LS Mean Difference|-1.62|||||TWO_SIDED|95.0|-3.12|-0.12|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Index-Score at Cycle 6||-0.12|-3.12|
92179643|NCT03777657|184257361|OTHER||LS Mean Difference|-1.51|||||TWO_SIDED|95.0|-3.13|0.11|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Dysphagia/Odynophagia Scale at Cycle 4||0.11|-3.13|
92179644|NCT03777657|184257361|OTHER||LS Mean Difference|-0.77|||||TWO_SIDED|95.0|-2.31|0.76|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Dysphagia/Odynophagia Scale at Cycle 6||0.76|-2.31|
92179645|NCT03777657|184257361|OTHER||LS Mean Difference|-2.23|||||TWO_SIDED|95.0|-4.26|-0.2|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Pain/Discomfort Scale at Cycle 4||-0.20|-4.26|
92179646|NCT03777657|184257361|OTHER||LS Mean Difference|-1.88|||||TWO_SIDED|95.0|-4.03|0.27|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Pain/Discomfort Scale at Cycle 6||0.27|-4.03|
92179647|NCT03777657|184257361|OTHER||LS Mean Difference|-0.93|||||TWO_SIDED|95.0|-2.85|0.99|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Dietary Restrictions Scale at Cycle 4||0.99|-2.85|
92179648|NCT03777657|184257361|OTHER||LS Mean Difference|-1.32|||||TWO_SIDED|95.0|-3.42|0.77|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Dietary Restrictions Scale at Cycle 6||0.77|-3.42|
92179649|NCT03777657|184257361|OTHER||LS Mean Difference|-1.59|||||TWO_SIDED|95.0|-3.28|0.09|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Upper Gastro-Intestinal Symptoms at Cycle 4||0.09|-3.28|
92179650|NCT03777657|184257361|OTHER||LS Mean Difference|-1.74|||||TWO_SIDED|95.0|-3.55|0.06|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Upper Gastro-Intestinal Symptoms at Cycle 6||0.06|-3.55|
92179651|NCT02760654|184257416|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92179652|NCT02760654|184257417|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92179653|NCT02760654|184257418|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92179654|NCT02760654|184257419|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92179655|NCT02760654|184257420|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92179656|NCT02760654|184257421|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92258376|NCT04191096|184419707|OTHER||Hazard Ratio (HR)|0.89||||0.27202|TWO_SIDED|95.0|0.61|1.3||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.30|0.61|0.27202
92258377|NCT04191096|184419708|OTHER||Hazard Ratio (HR)|0.92||||0.2972|TWO_SIDED|95.0|0.69|1.23||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.23|0.69|0.2972
92258378|NCT04191096|184419709|OTHER||Hazard Ratio (HR)|1.07||||0.6863|TWO_SIDED|95.0|0.81|1.41||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.41|0.81|0.6863
92284393|NCT00113425|184472419|SUPERIORITY_OR_OTHER|||||||0.62|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in papule acne lesions for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.62
92179657|NCT02760654|184257422|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92179658|NCT02760654|184257423|EQUIVALENCE|Descriptive statistics (Mean, SD) were calculated for the 7 items of the Adapted Acceptability E-Scale|Calculated Mean and Standard Deviation|0.05|||||TWO_SIDED|||||||||||||
92179659|NCT02760654|184257424|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92179660|NCT02760654|184257425|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92179661|NCT01574716|184257426|SUPERIORITY||Hazard Ratio (HR)|1.08|||=|0.6562|TWO_SIDED|95.0|0.77|1.5|||Log Rank|Two-sided log-rank test|Based on Cox PH model|||1.50|0.77|= 0.6562
92179662|NCT01574716|184257427|SUPERIORITY||Hazard Ratio (HR)|1.13|||=|0.4469|TWO_SIDED|95.0|0.82|1.57|||Log Rank|Two-sided log-rank test|Based on Cox PH model|||1.57|0.82|=0.4469
92179663|NCT01574716|184257428|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.3153|TWO_SIDED|95.0|0.82|1.83|||Log Rank|Two-sided log-rank test|Based on Cox PH model|||1.83|0.82|0.3153
92179664|NCT01574716|184257429|SUPERIORITY||Difference|-0.6|||=|1|TWO_SIDED|95.0|-12.0|10.9|||Log Rank|Two-sided log-rank test|Based on Cox PH model|Difference equal to (=) (MORAb 8.0 mg/kg + Gemcitabine/Docetaxel) minus (Placebo + Gemcitabine/Docetaxel). Confidence interval based on a normal approximation to the binomial distribution.||10.9|-12.0|= 1.000
92179665|NCT02502526|184257463|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<.001
92179666|NCT02502526|184257464|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<.001
92179667|NCT02502526|184257464|SUPERIORITY|||||||0.605|||||||ANCOVA|||||||0.605
92179668|NCT02502526|184257465|SUPERIORITY|||||||0.52|||||||ANCOVA|||||||0.520
92179669|NCT02502526|184257465|SUPERIORITY|||||||0.817|||||||ANCOVA|||||||0.817
92179670|NCT01074294|184257474|SUPERIORITY||Mean Difference (Final Values)|0.69||||0.5845|TWO_SIDED|95.0|-1.8|3.19||The p-value was derived using MMRM method with treatment, trial center, visit week, and treatment by visit week interaction as class effects and Week 5 value as covariate.|Mixed Models Analysis||The difference between Least Squares (LS) means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||3.19|-1.80|0.5845
92179671|NCT01074294|184257475|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.8832|TWO_SIDED|95.0|-1.37|1.18||The p-value was derived using ANCOVA model with treatment and trial center as main effects and Week 5 value as covariate.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||1.18|-1.37|0.8832
92179672|NCT01074294|184257476|SUPERIORITY||Mean Difference (Final Values)|0.57||||0.3864|TWO_SIDED|95.0|-0.72|1.86||The p-value was derived using MMRM method with treatment, trial center, visit week, and treatment by visit week interaction as class effects and Week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||1.86|-0.72|0.3864
92179673|NCT01074294|184257477|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.0061|TWO_SIDED|95.0|0.1|0.58||The p value was derived using MMRM method with treatment, trial center, visit week, and treatment by visit week interaction as class effects and Week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.58|0.10|0.0061
92179674|NCT01074294|184257478|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.6932|TWO_SIDED|95.0|-1.64|2.46||The p-value was derived from ANCOVA model, with treatment and trial center as main effects and Week 5 value as covariate.|ANCOVA||This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||2.46|-1.64|0.6932
92179675|NCT01074294|184257479|SUPERIORITY||Mean Difference (Final Values)|0.81||||0.2781|TWO_SIDED|95.0|-0.66|2.28||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||2.28|-0.66|0.2781
92179676|NCT01074294|184257479|SUPERIORITY||Mean Difference (Final Values)|0.67||||0.4673|TWO_SIDED|95.0|-1.15|2.49||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||2.49|-1.15|0.4673
92179677|NCT01074294|184257479|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.5719|TWO_SIDED|95.0|-1.54|2.79||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||2.79|-1.54|0.5719
92179678|NCT01074294|184257479|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.6262|TWO_SIDED|95.0|-1.7|2.83||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||2.83|-1.70|0.6262
92179679|NCT01074294|184257479|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.2638|TWO_SIDED|95.0|-1.06|3.87||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||3.87|-1.06|0.2638
92179680|NCT01074294|184257480|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.3804|TWO_SIDED|95.0|-0.52|1.37||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.37|-0.52|0.3804
92179681|NCT01074294|184257480|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.6422|TWO_SIDED|95.0|-0.86|1.39||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.39|-0.86|0.6422
92179682|NCT01074294|184257480|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.6707|TWO_SIDED|95.0|-1.0|1.55||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.55|-1.00|0.6707
92179683|NCT01074294|184257480|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.6638|TWO_SIDED|95.0|-1.04|1.64||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.64|-1.04|0.6638
92179684|NCT01074294|184257480|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.2252|TWO_SIDED|95.0|-0.56|2.36||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||2.36|-0.56|0.2252
92179685|NCT01074294|184257480|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.697|TWO_SIDED|95.0|-1.14|1.7||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.70|-1.14|0.6970
92179686|NCT01074294|184257481|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.6008|TWO_SIDED|95.0|-0.64|1.11||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.11|-0.64|0.6008
92179687|NCT01074294|184257481|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.5859|TWO_SIDED|95.0|-0.72|1.27||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.27|-0.72|0.5859
92182842|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.93|||TWO_SIDED|95.0|-2.7|1.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||1.0|-2.7|
92258379|NCT04191096|184419710|OTHER||Hazard Ratio (HR)|1.15||||0.9235|TWO_SIDED|95.0|0.95|1.39||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.39|0.95|0.9235
92258380|NCT04191096|184419711|OTHER||Hazard Ratio (HR)|1.16||||0.8801|TWO_SIDED|95.0|0.9|1.5||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No).|||1.50|0.90|0.8801
92258381|NCT04191096|184419712|OTHER||Percent Difference|-2.7||||0.9576|TWO_SIDED|95.0|-5.8|0.4||One-sided p-value based on Miettinen \& Nurminen method stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No) with small strata.|Miettinen & Nurminen method||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No).|||0.4|-5.8|0.9576
92258382|NCT04191096|184419713|OTHER||Percent difference|-0.8||||0.6053|TWO_SIDED|95.0|-6.3|4.8||One-sided p-value based on Miettinen \& Nurminen method stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No) with small strata.|Miettinen & Nurminen||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||4.8|-6.3|0.6053
92179688|NCT01074294|184257481|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.7406|TWO_SIDED|95.0|-0.96|1.34||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.34|-0.96|0.7406
92258383|NCT04191096|184419714|OTHER||Percent difference|-5.6||||0.9105|TWO_SIDED|95.0|-13.7|2.6||One-sided p-value based on Miettinen \& Nurminen method stratified prior docataxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No) with small strata.|Miettinen & Nurminen||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method stratified by prior docataxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||2.6|-13.7|0.9105
92258384|NCT02598661|184419726|SUPERIORITY||Percentage Difference|24.8|||<|0.001|TWO_SIDED|95.0|9.9|36.89||The p-value was calculated based on Cochran-Mantel-Haenszel (CMH) controlling for prior RBC transfusion burden (≤6 versus\[vs.\]\>6 units RBC) \& international prognostic scoring system (IPSS) risk group (low vs. intermediate-1) applied to randomization.|Cochran-Mantel-Haenszel||The 95% CI was calculated based on the Wilson Score method.|||36.89|9.90|<0.001
92258385|NCT02598661|184419728|SUPERIORITY||Percentage Difference|24.6|||<|0.001|TWO_SIDED|95.0|12.64|34.18||The p-value was calculated based on CMH controlling for prior RBC transfusion burden (≤6 vs. \>6 units RBC) and IPSS risk group (low vs. intermediate-1) applied to randomization.|Cochran-Mantel-Haenszel||The 95% CI was calculated based on the Wilson Score method.|||34.18|12.64|<0.001
92284394|NCT00113425|184472420|SUPERIORITY_OR_OTHER|||||||0.85|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in pustule acne lesions for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.85
92258386|NCT02598661|184419731|SUPERIORITY||Hazard Ratio (HR)|0.25|||<|0.001|TWO_SIDED|95.0|0.105|0.586||The p-value (2-sided) was calculated using the stratified log-rank test for superiority of imetelstat sodium versus placebo in hazard ratio.|Log Rank||Hazard ratio and 95% CI were calculated using the Cox proportional hazard model, stratified by prior RBC transfusion burden (≤ 6 vs. \> 6 units RBC) and IPSS risk group (low vs. intermediate-1), with treatment as the only covariate.|||0.586|0.105|<0.001
92258387|NCT02598661|184419732|SUPERIORITY||Percentage Difference|11.9||||0.112|TWO_SIDED|95.0|-4.1|27.56||The p-value was calculated based on CMH controlling for prior RBC transfusion burden (≤ 6 vs. \> 6 units RBC) and IPSS risk group (low vs. intermediate-1) applied to randomization.|Cochran-Mantel-Haenszel||95% CI was calculated based on the Wilson Score Method.|||27.56|-4.10|0.112
92258388|NCT02598661|184419735|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.949|TWO_SIDED|95.0|0.526|1.823||P value (two-sided) for superiority of imetelstat sodium versus placebo in hazard ratio was calculated using stratified log-rank test.|Log Rank||Hazard ratio and 95% CI were calculated from the Cox proportional hazard model, stratified by prior RBC transfusion burden (≤6 vs. \>6 units RBC) and IPSS risk group (low vs. intermediate-1), with treatment as the only covariate.|||1.823|0.526|0.949
92258389|NCT00003389|184419767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32|TWO_SIDED||||||Log Rank|Stratified log rank test was performed.||||||0.32
92258390|NCT00003389|184419768|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86|TWO_SIDED||||||Log Rank|Stratified log rank test was performed.||||||0.86
92258391|NCT01901809|184419771|SUPERIORITY||Mean Difference (Net)|11.4|STANDARD_ERROR_OF_MEAN|4.7||0.018|TWO_SIDED|95.0|2.0|20.8|||t-test, 2 sided|||||20.8|2.0|0.018
92258392|NCT01901809|184419772|SUPERIORITY||Mean Difference (Net)|-4.8|STANDARD_ERROR_OF_MEAN|4.8||0.33|TWO_SIDED|95.0|-14.4|4.9|||t-test, 2 sided|||||4.9|-14.4|0.33
92258393|NCT02776904|184419773|OTHER|||||||0.0003||||||Adjustment with Tukey-Kramer|ANOVA|3 DF||Repeated measures ANOVA compared pre-season scores to post-season, end of the school year and pre-season year 2 for Visual Memory||||0.0003
92258394|NCT02776904|184419773|OTHER|||||||0.0281||||||Adjusted for multiple comparisons using Tukey-Kramer|ANOVA|DF 3||Repeated measures ANOVA compared pre-season scores to post-season, end of the school year and pre-season year 2 for Verbal memory||||0.0281
92258395|NCT02776904|184419773|OTHER|||||||0.0035||||||Adjusted for multiple comparisons|ANOVA|DF 3||Repeated measures ANOVA compared pre-season scores to post-season, end of the school year and pre-season year 2 for Visual Motor composite||||0.0035
92258396|NCT02776904|184419774|OTHER|||||||0.2637||||||Adjusted for multiple comparisons using Tukey-Kramer|ANOVA|||Repeated measures ANOVA compared pre-season scores to post-season, end of the school year and pre-season year 2 for Reaction Time||||0.2637
92179689|NCT01074294|184257481|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.8568|TWO_SIDED|95.0|-1.14|1.37||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.37|-1.14|0.8568
92258397|NCT02776904|184419775|OTHER||||||<|0.001||||||Used Tukey's Adjustment|ANOVA|||Descriptive analysis, including means and standard deviations was used to summarize all participant data. Velocity was normalized to leg length. Normality was tested and assumed for all measured gait parameters for healthy athletes. A two-way repeated measure analyses of variance (ANOVA) was used to explore the impact of walk status and sex on gait velocity for healthy athletes. Adjusted using Tukey's post hoc method for the pairwise comparisons (0.05 threshold for significance)||||<0.001
92258398|NCT02776904|184419776|OTHER|Normality was tested and assumed for all measured gait parameters. A two-way repeated measure analyses of variance (ANOVA) was used to explore the impact of walk status and sex on gait parameters of step length. Adjusted using Tukey's post hoc method for the pairwise comparisons (0.05 threshold for significance).|||||<|0.0001|||||||ANOVA|Tukey's post hoc method for the pair wise comparisons between walk status and sex for step length.||||||< 0.0001
92258399|NCT02776904|184419777|OTHER|Normality was tested and assumed for all measured gait parameters. A two-way repeated measure analyses of variance (ANOVA) was used to explore the impact of walk status and sex on percent of gait cycle in DLS.|||||<|0.0001|||||||ANOVA|Tukey's post hoc method for the pairwise comparisons with p\<.05.||||||< 0.0001
92258400|NCT02776904|184419778|OTHER|Normality was tested and assumed for all measured gait parameters. A two-way repeated measure analyses of variance (ANOVA) was used to explore the impact of walk status and sex on percent of gait cycle in SLS.|||||<|0.0001|||||||ANOVA|Tukey's post hoc method for pairwise comparison between walk status and sex for %GC in SLS.||||||< 0.0001
92258401|NCT02776904|184419779|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92258402|NCT02776904|184419780|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92258403|NCT02776904|184419781|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92258404|NCT00935766|184419783|SUPERIORITY_OR_OTHER|||||||0.21|||||||Mixed Models Analysis|||||||0.21
92258405|NCT00935766|184419784|SUPERIORITY_OR_OTHER|||||||0.08|||||||Mixed Models Analysis|||||||0.08
92258406|NCT00935766|184419785|SUPERIORITY_OR_OTHER|||||||0.36|||||||Mixed Models Analysis|||||||0.36
92258407|NCT02723019|184419829|SUPERIORITY|||||||0.01|||||||Regression, Logistic|||Analyzed using logistic regression analysis||||0.01
92258408|NCT02723019|184419830|SUPERIORITY|||||||0.19|||||||Regression, Logistic|||||||0.19
92258409|NCT02723019|184419831|SUPERIORITY|||||||0.73||||||P-value is for the time by group interaction effect, testing the difference in rate of change between the Intervention and Control groups from baseline to 6 months post baseline|multilevel model analysis, random interc|||multilevel model analysis, random intercepts and slopes, appropriate link function for outcome, full maximum likelihood estimation||||0.73
92258410|NCT02723019|184419832|SUPERIORITY|||||||0.28||||||P-value is for the time by group interaction effect, testing the difference in rate of change between the Intervention and Control groups from baseline to 6 months post baseline|multilevel model analysis, random interc|||multilevel model analysis, random intercepts and slopes, appropriate link function for outcome, full maximum likelihood estimation||||0.28
92258411|NCT02723019|184419833|SUPERIORITY|||||||0.71||||||P-value is for the time by group interaction effect, testing the difference in rate of change between the Intervention and Control groups from baseline to 6 months post baseline|multilevel model analysis, random interc|||multilevel model analysis, random intercepts and slopes, appropriate link function for outcome, full maximum likelihood estimation||||0.71
92258412|NCT02723019|184419834|SUPERIORITY|||||||0.42|||||||negative binomial regression model analy|||negative binomial regression model analysis||||0.42
92258413|NCT00779116|184419932|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Statistical tests were performed atthe significance level of 5%, without multiplicity adjustment.|Mainland-Gart Test|The p-value was derived from Mainland-Gart Test applied to a 2 (treatment sequence) by 2 (preferred period) contingency table.||The Mainland-Gart test was applied to the preference rates in the subjects who showed a preference, to assess the difference in preference rates between RediTab and Zyrtec.||||<0.0001
92258414|NCT00170846|184419937|SUPERIORITY_OR_OTHER||Difference in LS means|1.1241||||0.6332|TWO_SIDED|95.0|-3.5077|5.7559|||ANCOVA|||||5.7559|-3.5077|0.6332
92258415|NCT00170846|184419937|SUPERIORITY_OR_OTHER||Difference in LS means|0.5933||||0.7943|TWO_SIDED|95.0|-3.8815|5.0682|||ANCOVA|||||5.0682|-3.8815|0.7943
92258416|NCT01021553|184419940|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.16||||0.4959|TWO_SIDED|95.0|0.75|1.79|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||1.79|0.75|0.4959
92258417|NCT01021553|184419940|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.11||||0.6161|TWO_SIDED|95.0|0.74|1.65|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||1.65|0.74|0.6161
92258418|NCT01021553|184419940|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.13||||0.4971|TWO_SIDED|95.0|0.79|1.61|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||1.61|0.79|0.4971
92258419|NCT01021553|184419941|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.03||||0.9037|TWO_SIDED|95.0|0.67|1.58|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Week 0 to 4||1.58|0.67|0.9037
92258420|NCT01021553|184419941|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.0||||0.9939|TWO_SIDED|95.0|0.67|1.48|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Week 0 to 4||1.48|0.67|0.9939
92258421|NCT01021553|184419941|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.01||||0.9541|TWO_SIDED|95.0|0.71|1.43|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Weeks 0-4||1.43|0.71|0.9541
92258422|NCT01021553|184419941|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.33||||0.2798|TWO_SIDED|95.0|0.79|2.24|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Weeks 4-8||2.24|0.79|0.2798
92258423|NCT01021553|184419941|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.09||||0.7255|TWO_SIDED|95.0|0.68|1.75|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Weeks 4-8||1.75|0.68|0.7255
92258424|NCT01021553|184419941|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.18||||0.4347|TWO_SIDED|95.0|0.77|1.8|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Weeks 4-8||1.80|0.77|0.4347
92258425|NCT01021553|184419942|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.14||||0.6583|TWO_SIDED|95.0|0.63|2.05|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||2.05|0.63|0.6583
92258426|NCT01021553|184419942|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|0.96||||0.879|TWO_SIDED|95.0|0.56|1.65|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||1.65|0.56|0.8790
92258427|NCT01021553|184419942|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.03||||0.8971|TWO_SIDED|95.0|0.64|1.67|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||1.67|0.64|0.8971
92258428|NCT01021553|184419945|SUPERIORITY_OR_OTHER||Ratio of treatments|2.91|||||TWO_SIDED|90.0|2.43|3.48|||||For AUC (0-inf)|||3.48|2.43|
92258429|NCT01021553|184419945|SUPERIORITY_OR_OTHER||Ratio of treatments|2.98|||||TWO_SIDED|90.0|2.51|3.54||||||||3.54|2.51|
92258430|NCT01021553|184419946|SUPERIORITY_OR_OTHER||Ratio of treatments|3.63|||||TWO_SIDED|90.0|2.95|4.47||||||||4.47|2.95|
92258431|NCT01469637|184420002|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean ratio|1.15|||||TWO_SIDED|90.0|1.12|1.18|||ANOVA|||||1.18|1.12|
92258432|NCT01469637|184420003|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean Ratio|1.12|||||TWO_SIDED|90.0|1.09|1.15|||ANOVA|||||1.15|1.09|
92258433|NCT04716010|184420023|SUPERIORITY|||||||0.002||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||0.002
92258434|NCT04716010|184420023|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
92258435|NCT04716010|184420023|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
92258436|NCT04716010|184420023|SUPERIORITY|||||||0.024||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||0.024
92258437|NCT04716010|184420023|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
92258438|NCT04716010|184420023|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
92258439|NCT04716010|184420024|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||0.001
92258440|NCT04716010|184420024|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
92258441|NCT04716010|184420024|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
92258442|NCT04716010|184420024|SUPERIORITY|||||||0.022||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||0.022
92258443|NCT04716010|184420024|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
92258444|NCT04716010|184420024|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
92258445|NCT04716010|184420025|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \>0.05|Regression, Linear|||||||>0.05
92258446|NCT04716010|184420025|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258447|NCT04716010|184420025|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92179690|NCT01074294|184257481|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.6044|TWO_SIDED|95.0|-0.96|1.64||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||1.64|-0.96|0.6044
92179691|NCT01074294|184257481|SUPERIORITY||Mean Difference (Final Values)|0.29||||0.6772|TWO_SIDED|95.0|-1.08|1.66||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.66|-1.08|0.6772
92179692|NCT01074294|184257482|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.7881|TWO_SIDED|95.0|-0.87|1.15||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.15|-0.87|0.7881
92179693|NCT01074294|184257482|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.8841|TWO_SIDED|95.0|-1.38|1.19||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.19|-1.38|0.8841
92258448|NCT04716010|184420025|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258449|NCT04716010|184420025|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258450|NCT04716010|184420025|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258451|NCT04716010|184420026|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258452|NCT04716010|184420026|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92182843|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.95|||TWO_SIDED|95.0|-2.5|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||1.2|-2.5|
92258453|NCT04716010|184420026|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258454|NCT04716010|184420026|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258455|NCT04716010|184420026|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258456|NCT04716010|184420026|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258457|NCT04716010|184420027|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258458|NCT04716010|184420027|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258459|NCT04716010|184420027|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258460|NCT04716010|184420027|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258461|NCT04716010|184420027|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258462|NCT04716010|184420027|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258463|NCT04716010|184420028|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92179694|NCT01074294|184257482|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.7589|TWO_SIDED|95.0|-1.61|1.17||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.17|-1.61|0.7589
92179695|NCT01074294|184257482|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.5375|TWO_SIDED|95.0|-1.01|1.93||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.93|-1.01|0.5375
92182844|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-2.5|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||1.2|-2.5|
92258464|NCT04716010|184420028|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258465|NCT04716010|184420028|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92284395|NCT00113425|184472421|SUPERIORITY_OR_OTHER|||||||0.49|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in cysts for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.49
92284396|NCT00113425|184472422|SUPERIORITY_OR_OTHER|||||||0.21|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in closed comedones for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.21
92258466|NCT04716010|184420028|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258467|NCT04716010|184420028|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258468|NCT04716010|184420028|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
92258469|NCT04716010|184420029|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258470|NCT04716010|184420029|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258471|NCT04716010|184420029|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258472|NCT04716010|184420029|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258473|NCT04716010|184420029|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92284397|NCT00113425|184472423|SUPERIORITY_OR_OTHER|||||||0.27|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in open comedones for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.27
92258474|NCT04716010|184420029|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258475|NCT04716010|184420030|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258476|NCT04716010|184420030|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258477|NCT04716010|184420030|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258478|NCT04716010|184420030|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258479|NCT04716010|184420030|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258480|NCT04716010|184420030|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92179696|NCT01074294|184257482|SUPERIORITY||Mean Difference (Final Values)|0.58||||0.4456|TWO_SIDED|95.0|-0.92|2.08||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||2.08|-0.92|0.4456
92258481|NCT04716010|184420031|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258482|NCT04716010|184420031|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258483|NCT04716010|184420031|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258484|NCT04716010|184420031|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258485|NCT04716010|184420031|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258486|NCT04716010|184420031|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258487|NCT04716010|184420032|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258488|NCT04716010|184420032|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258489|NCT04716010|184420032|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258490|NCT04716010|184420032|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258491|NCT04716010|184420032|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258492|NCT04716010|184420032|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258493|NCT04716010|184420033|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258494|NCT04716010|184420033|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258495|NCT04716010|184420033|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258496|NCT04716010|184420033|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258497|NCT04716010|184420033|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258498|NCT04716010|184420033|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258499|NCT04716010|184420034|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258500|NCT04716010|184420034|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258501|NCT04716010|184420034|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258502|NCT04716010|184420034|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258503|NCT04716010|184420034|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258504|NCT04716010|184420034|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258505|NCT04716010|184420035|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258506|NCT04716010|184420035|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258507|NCT04716010|184420035|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258508|NCT04716010|184420035|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258509|NCT04716010|184420035|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258510|NCT04716010|184420035|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258511|NCT04716010|184420036|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258512|NCT04716010|184420036|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258513|NCT04716010|184420036|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258514|NCT04716010|184420036|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258515|NCT04716010|184420036|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258516|NCT04716010|184420036|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258517|NCT04716010|184420037|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258518|NCT04716010|184420037|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92182845|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|-2.8|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||1.1|-2.8|
92258519|NCT04716010|184420037|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258520|NCT04716010|184420037|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258521|NCT04716010|184420037|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92179697|NCT01074294|184257482|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.667|TWO_SIDED|95.0|-1.21|1.89||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.89|-1.21|0.6670
92179698|NCT01074294|184257483|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.9708|TWO_SIDED|95.0|-0.97|1.01||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.01|-0.97|0.9708
92179699|NCT01074294|184257483|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.397|TWO_SIDED|95.0|-0.65|1.63||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.63|-0.65|0.3970
92179700|NCT01074294|184257484|SUPERIORITY||Risk Ratio (RR)|1.01||||0.9568|TWO_SIDED|95.0|0.68|1.5||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Falling Asleep: Week 7||1.50|0.68|0.9568
92179701|NCT01074294|184257484|SUPERIORITY||Risk Ratio (RR)|0.91||||0.6308|TWO_SIDED|95.0|0.63|1.31||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Falling Asleep: Week 9||1.31|0.63|0.6308
92179702|NCT01074294|184257484|SUPERIORITY||Risk Ratio (RR)|0.92||||0.6698|TWO_SIDED|95.0|0.64|1.32||The p-value was derived from CMH general association test controlling for study center|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Falling Asleep: Week 11||1.32|0.64|0.6698
92179703|NCT01074294|184257484|SUPERIORITY||Risk Ratio (RR)|0.76||||0.2012|TWO_SIDED|95.0|0.5|1.15||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Staying Asleep: Week 7||1.15|0.50|0.2012
92179704|NCT01074294|184257484|SUPERIORITY||Risk Ratio (RR)|0.78||||0.2365|TWO_SIDED|95.0|0.52|1.16||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Staying Asleep: Week 9||1.16|0.52|0.2365
92179705|NCT01074294|184257484|SUPERIORITY||Risk Ratio (RR)|0.65||||0.0312|TWO_SIDED|95.0|0.44|0.96||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Staying Asleep: Week 11||0.96|0.44|0.0312
92179706|NCT01074294|184257484|SUPERIORITY||Risk Ratio (RR)|1.12||||0.6408|TWO_SIDED|95.0|0.69|1.81||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Waking Up Too Early: Week 7||1.81|0.69|0.6408
92179707|NCT01074294|184257484|SUPERIORITY||Risk Ratio (RR)|1.24||||0.3467|TWO_SIDED|95.0|0.79|1.96||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Waking Up Too Early: Week 9||1.96|0.79|0.3467
92179708|NCT01074294|184257484|SUPERIORITY||Risk Ratio (RR)|1.02||||0.9437|TWO_SIDED|95.0|0.65|1.59||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Waking Up Too Early: Week 11||1.59|0.65|0.9437
92179709|NCT01074294|184257485|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.6357|TWO_SIDED|95.0|-1.3|2.12||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||2.12|-1.30|0.6357
92179710|NCT01074294|184257485|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.6536|TWO_SIDED|95.0|-1.56|2.48||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||2.48|-1.56|0.6536
92258522|NCT04716010|184420037|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258523|NCT04716010|184420038|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258524|NCT04716010|184420038|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258525|NCT04716010|184420038|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258526|NCT04716010|184420038|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258527|NCT04716010|184420038|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258528|NCT04716010|184420038|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258529|NCT04716010|184420039|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258530|NCT04716010|184420039|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258531|NCT04716010|184420039|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258532|NCT04716010|184420039|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92284398|NCT00113425|184472424|SUPERIORITY_OR_OTHER|||||||0.04|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in erythematous macules for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.04
92258533|NCT04716010|184420039|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258534|NCT04716010|184420039|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258535|NCT04716010|184420040|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258536|NCT04716010|184420040|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258537|NCT04716010|184420040|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258538|NCT04716010|184420040|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258539|NCT04716010|184420040|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258540|NCT04716010|184420040|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258541|NCT04716010|184420041|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258542|NCT04716010|184420041|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258543|NCT04716010|184420041|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258544|NCT04716010|184420041|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258545|NCT04716010|184420041|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258546|NCT04716010|184420041|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258547|NCT04716010|184420042|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258548|NCT04716010|184420042|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258549|NCT04716010|184420042|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258550|NCT04716010|184420042|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92258551|NCT04716010|184420042|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
92258552|NCT04716010|184420042|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
92284399|NCT00113425|184472425|SUPERIORITY_OR_OTHER|||||||0.01|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in acne severity for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.01
92179711|NCT01074294|184257485|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.9475|TWO_SIDED|95.0|-2.2|2.06||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||2.06|-2.20|0.9475
92284400|NCT01569152|184472453|SUPERIORITY_OR_OTHER||Difference of percentages|43.9|||<|0.001|TWO_SIDED|95.0|24.52|63.28|||Cochran-Mantel-Haenszel|||||63.28|24.52|<0.001
92284401|NCT01569152|184472454|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.98|||<|0.001|TWO_SIDED|95.0|-1.53|-0.43|||Constrained Longitudinal Data Analysis|||||-0.43|-1.53|<0.001
92284402|NCT01569152|184472455|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.11|||<|0.001|TWO_SIDED|95.0|-1.62|-0.6|||Constrained Longitudinal Data Analysis|||||-0.60|-1.62|<0.001
92258553|NCT00572728|184420045|SUPERIORITY_OR_OTHER||AUC|0.68|STANDARD_ERROR_OF_MEAN|0.1||0.046|ONE_SIDED|95.0||0.83||The Delong method was used to test if the observed AUC was significantly different than 0.5 with the one-sided p value DeLong ER, DeLong DM, Clarke-Pearson DL, Biometrics (1988)|Delong method|one-sided p-value|"percent change in SUVmax was computed as: %ΔSUVmax = 100\*(FLT1-FLT2)/FLT1 a 90% 2-sided confidence interval was constructed from 2000 Bootstrapping estimates from which the 1-sided 95% CI was derived.~Hanley SE(AUC) reported."|"A receiver operating characteristic (ROC) analysis was performed to assess the significance of the Area Under the Curve (AUC) under the Null Hypothesis with a one sided alpha=0.05 (95% one-sided CL):~H0: AUC = 0.50 (no difference from guessing) given the alternative hypothesis: Ha:AUC \>= 0.75 AUC = ROC(%ΔSUVmax\| path response) where percent change (%ΔSUVmax ) was defined as (SUVmax at FLT1 -SUVmax at FLT2)/SUVmax at FLT1 x 100"||.83||0.046
92258554|NCT00572728|184420046|SUPERIORITY_OR_OTHER||spearman correlation|0.35||||0.002|TWO_SIDED|95.0|0.13|0.54|||spearman correlation method||This estimate uses the Fisher's z Transformation to adjust for bias in the Spearman Correlation Statistic|H0: ρ = 0; that is, there is no correlation between SUVmax @ FLT-1 and Ki-67 LI a Fisher's z Transformation was applied to adjust for bias in the Spearman Correlation Statistic||0.54|0.13|0.002
92258555|NCT00572728|184420047|SUPERIORITY_OR_OTHER||Spearman Correlation|0.67|||<|0.0001|TWO_SIDED|95.0|0.47|0.81|||Spearman Correlation method|we use Fisher's z Transformation to adjust for bias in the Spearman Correlation Statistic|this estimate uses the Fisher's z Transformation to adjust for bias in the Spearman Correlation Statistic|H0: ρ = 0; that is, there is no correlation between SUVmax @ FLT-3 and Ki-67 LI||0.81|0.47|<0.0001
92258556|NCT00572728|184420048|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|two-sided exact p value from Wilcoxon two-sample test||"H0: Mean SUVmax (RCB 0,I) = Mean SUVmax (RCB II,III) After dichotomization, Wilcoxon two-sample test was used to compare uptake values between RCB groups.~In other words, we are comparing the means (of SUVmax) @ FLT1 between the RCB 0,I and the RCB II,III groups.."||||0.66
92284403|NCT01569152|184472456|SUPERIORITY_OR_OTHER||Difference in percentages|14.63||||0.044|TWO_SIDED|95.0|0.83|28.44|||Cochran-Mantel-Haenszel|||||28.44|0.83|0.044
92179712|NCT01074294|184257485|SUPERIORITY||Mean Difference (Final Values)|0.99||||0.3973|TWO_SIDED|95.0|-1.31|3.29||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||3.29|-1.31|0.3973
92258557|NCT00572728|184420049|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|\*two-sided exact p value from Wilcoxon two-sample test||H0: SUVmax (RCB 0,I) = SUVmax (RCB II,III) in other words, we are comparing the SUVmax @ FLT2 between the RCB 0,I and the RCB II,III groups.||||0.86
92258558|NCT00572728|184420050|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|two-sided exact p value from Wilcoxon two-sample test||H0: SUVmax (RCB 0,I) = SUVmax (RCB II,III) in other words, we are comparing the SUVmax @ FLT3 between the RCB 0,I and the RCB II,III groups.||||0.010
92284404|NCT01569152|184472459|SUPERIORITY_OR_OTHER||Difference in percentages|31.71||||0.004|TWO_SIDED|95.0|11.29|52.13|||Cochran-Mantel-Haenszel|||||52.13|11.29|0.004
92258559|NCT00572728|184420050|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.013|TWO_SIDED|95.0|0.76|0.97|||Regression, Logistic|||H0: %SUVmax FLT1-FLT3 (RCB 0,I) = %SUVmax FLT1-FLT3 (RCB II,III) A logistic regression model is used to determine if a larger percent change in SUVmax is associated with (RCB 0,I); the null hypothesis assumes that there is no association.||0.97|0.76|0.013
92258560|NCT00572728|184420051|SUPERIORITY_OR_OTHER||AUC|0.83|||<|0.001|TWO_SIDED|90.0|0.72|0.94||Delong 1-sided p-value (alpha=0.05)|Delong Method|The Delong-Delong Clark-Pearson method using modified U-statistics was used to evaluate the AUC||"ROC analysis was used to compute the AUC and evaluate if %ΔSUVmax FLT1-FLT3 is predictive of pCR with alpha=0.05.~The Null Hypothesis assumes that the P(%ΔSUVmax FLT1-FLT3\|pCR)= 1 - P(%ΔSUVmax FLT1-FLT3\|non-pCR) that is: H0: AUC =0.5 (guessing)"||.94|.72|<0.001
92258561|NCT00572728|184420052|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Kruskal-Wallis|two-sided p value from Kruskal-Wallis one-way ANOVA||"Kruskal-Wallis one-way ANOVA was used to test whether there was a difference in %SUVmax (FLT1-FLT2) among LN statuses.~H0: no difference between the 3 LN status."||||0.86
92258562|NCT00572728|184420053|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||two-sided p value from Kruskal-Wallis one-way ANOVA|Kruskal-Wallis|||||||0.67
92258563|NCT01833806|184420056|SUPERIORITY||Proportion Difference|0.78|||=|0.01|TWO_SIDED|95.0|0.58|0.98|||Binomial|||The alternative hypothesis test was that the proportion of Responders would be greater than the proportion of subjects experiencing pain progression. This PAS was powered to enroll 70 subjects based on the pivotal trial proportion of 18:8 (Responders:Pain progression). The study was closed at an enrollment of 32 subjects.||0.98|0.58|= 0.01
92258564|NCT00415623|184420080|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.7|||<|0.001||95.0|-9.0|-4.4|||ANCOVA|||The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). ANCOVA models with the trough SBP at baseline, body weight, and age as covariates, and the treatment group and study site as factors was used. The test was performed with a significance level of 0.05 (two-sided).||-4.4|-9.0|<0.001
92258565|NCT00415623|184420081|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|||<|0.001||95.0|-5.7|-2.5|||ANCOVA|||The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). ANCOVA models with the trough DBP at baseline, body weight, and age as covariates, and the treatment group and study site as factors was used. The test was performed with a significance level of 0.05 (two-sided).||-2.5|-5.7|<0.001
92258566|NCT00415623|184420082|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.1|||<|0.001||95.0|-9.1|-5.1|||ANCOVA|||The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). ANCOVA models with the trough SBP at baseline, body weight, and age as covariates, and the treatment group and study site as factors was used. The test was performed with a significance level of 0.05 (two-sided).||-5.1|-9.1|<0.001
92258567|NCT00415623|184420083|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.0|||<|0.001||95.0|-5.4|-2.6|||ANCOVA|||The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). ANCOVA models with the trough DBP at baseline, body weight, and age as covariates, and the treatment group and study site as factors was used. The test was performed with a significance level of 0.05 (two-sided).||-2.6|-5.4|<0.001
92284405|NCT01569152|184472460|SUPERIORITY_OR_OTHER||Difference in percentages|29.27||||0.007|TWO_SIDED|95.0|8.9|49.63|||Cochran-Mantel-Haenszel|||||49.63|8.90|0.007
92284406|NCT01569152|184472461|SUPERIORITY_OR_OTHER||Difference in percentages|9.76||||0.039|TWO_SIDED|95.0|0.67|18.84|||Cochran-Mantel-Haenszel|||||18.84|0.67|0.039
92258568|NCT00415623|184420084|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.33||||0.002||95.0|1.36|3.99|||Regression, Logistic|||Proportions of participants (responder rates) were used for the statistical analyses. The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). The test was conducted based on a logistic regression model with baseline SBP value and body weight as covariates, and treatment group and age (\<=64, \>=65) as a factor. The significance level was 0.05 (two-sided).||3.99|1.36|0.002
92258569|NCT00415623|184420085|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.46|||<|0.001||95.0|2.28|8.74|||Regression, Logistic|||Proportions of participants (responder rates) were used for the statistical analyses. The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). The test was conducted based on a logistic regression model with baseline SBP value and body weight as covariates, and treatment group and age (\<=64, \>=65) as a factor. The significance level was 0.05 (two-sided).||8.74|2.28|<0.001
92258570|NCT00415623|184420086|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.55||||0.001||95.0|1.5|4.36|||Regression, Logistic|||Proportions of participants (responder rates) were used for the statistical analyses. The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). The test was conducted based on a logistic regression model with baseline SBP value and body weight as covariates, and treatment group and age (\<=64, \>=65) as a factor. The significance level was 0.05 (two-sided).||4.36|1.50|0.001
92258571|NCT00415623|184420087|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.16|||<|0.001||95.0|2.12|8.19|||Regression, Logistic|||Proportions of participants (responder rates) were used for the statistical analyses. The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). The test was conducted based on a logistic regression model with baseline SBP value and body weight as covariates, and treatment group and age (\<=64, \>=65) as a factor. The significance level was 0.05 (two-sided).||8.19|2.12|<0.001
92284407|NCT01569152|184472462|SUPERIORITY_OR_OTHER||Difference in percentages|12.2||||0.018|TWO_SIDED|95.0|2.18|22.21|||Cochran-Mantel-Haenszel|||||22.21|2.18|0.018
92284408|NCT01569152|184472465|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.75||||0.028|TWO_SIDED|95.0|-8.99|-0.52|||Constrained Longitudinal Data Analysis|||||-0.52|-8.99|0.028
92284409|NCT01569152|184472466|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.65||||0.11|TWO_SIDED|95.0|-5.91|0.62|||Constrained Longitudinal Data Analysis|||||0.62|-5.91|0.110
92258572|NCT01708915|184420107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.362|STANDARD_ERROR_OF_MEAN|0.171|<|0.0001|TWO_SIDED|95.0|-1.699|-1.025||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||-1.025|-1.699|<0.0001
92258573|NCT01708915|184420107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.983|STANDARD_ERROR_OF_MEAN|0.173|<|0.0001|TWO_SIDED|95.0|-1.324|-0.642||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||-0.642|-1.324|<0.0001
92258574|NCT01708915|184420107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.158|STANDARD_ERROR_OF_MEAN|0.195||0.4171||95.0|-0.541|0.225||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||0.225|-0.541|0.4171
92258575|NCT01708915|184420108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.049|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|-1.305|-0.793||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||-0.793|-1.305|<0.0001
92258576|NCT01708915|184420108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.731|STANDARD_ERROR_OF_MEAN|0.138|<|0.0001||95.0|-1.003|-0.459||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||-0.459|-1.003|<0.0001
92258577|NCT01708915|184420108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.058|STANDARD_ERROR_OF_MEAN|0.152||0.7037||95.0|-0.356|0.241||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||0.241|-0.356|0.7037
92258578|NCT01708915|184420109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.655|STANDARD_ERROR_OF_MEAN|0.208|<|0.0001||95.0|-2.064|-1.247|||ANCOVA|The statistical model included baseline PI, centre, and treatment.||||-1.247|-2.064|<0.0001
92258579|NCT01708915|184420109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.169|STANDARD_ERROR_OF_MEAN|0.209|<|0.0001||95.0|-1.578|-0.759|||ANCOVA|The statistical model included baseline PI, centre, and treatment.||||-0.759|-1.578|<0.0001
92258580|NCT01708915|184420109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.466|STANDARD_ERROR_OF_MEAN|0.209||0.0259||95.0|-0.875|-0.056|||ANCOVA|The statistical model included baseline PI, centre, and treatment.||||-0.056|-0.875|0.0259
92258581|NCT01708915|184420110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.385|||<|0.0001||95.0|4.943|11.032|||Regression, Logistic|The logistic regression model included baseline PI, centre, and treatment.|Odds Ratio was calculated by Nicoboxil/Nonivamide : Placebo. Odds ratios \> 1 favour Nicoboxil/Nonivamide.|||11.032|4.943|<0.0001
92258582|NCT01708915|184420110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.62|||<|0.0001||95.0|2.469|5.308|||Regression, Logistic|The logistic regression model included baseline PI, centre, and treatment.|Odds Ratio was calculated by Nicoboxil/Nonivamide : Nicoboxil. Odds ratios \> 1 favour Nicoboxil/Nonivamide.|||5.308|2.469|<0.0001
92258583|NCT01708915|184420110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.594||||0.0129||95.0|1.104|2.303|||Regression, Logistic|The logistic regression model included baseline PI, centre, and treatment.|Odds Ratio was calculated by Nicoboxil/Nonivamide : Nonivamide. Odds ratios \> 1 favour Nicoboxil/Nonivamide.|||2.303|1.104|0.0129
92258584|NCT02313506|184420136|SUPERIORITY||Mean Difference (Net)|-31.1||||0.02|TWO_SIDED|95.0|-56.6|-5.7||No adjustment was made for multiple comparisons because Type II error is a greater concern than Type I error in feasibility studies.|ANCOVA|||ANCOVA was performed to evaluate the effect of the group type on the outcome measures after adjusting for blocking and baseline (T0). We assessed 3 planned contrasts of changes in outcome measures over time. Contrast 1 compared T0-T1 between the 2 groups to determine if the intervention was superior to the control.||-5.7|-56.6|0.02
92284410|NCT01569152|184472467|SUPERIORITY_OR_OTHER||Difference in least squares means|-10.56||||0.002|TWO_SIDED|95.0|-16.97|-4.15|||Constrained Longitudinal Data Analysis|||||-4.15|-16.97|0.002
92284411|NCT01569152|184472470|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.84|||<|0.001|TWO_SIDED|95.0|-29.98|-11.71|||Constrained Longitudinal Data Analysis|||||-11.71|-29.98|<0.001
92284412|NCT01569152|184472471|SUPERIORITY_OR_OTHER||Difference in least squares means|-19.48|||<|0.001|TWO_SIDED|95.0|-29.69|-9.28|||Constrained Longitudinal Data Analysis|||||-9.28|-29.69|<0.001
92284413|NCT01569152|184472472|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.69|||<|0.001|TWO_SIDED|95.0|-31.29|-10.09|||Constrained Longitudinal Data Analysis|||||-10.09|-31.29|<0.001
92284414|NCT01569152|184472473|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.62|||<|0.001|TWO_SIDED|95.0|-0.84|-0.4|||Constrained Longitudinal Data Analysis|||||-0.40|-0.84|< 0.001
92179713|NCT01074294|184257485|SUPERIORITY||Mean Difference (Final Values)|1.47||||0.2336|TWO_SIDED|95.0|-0.96|3.91||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||3.91|-0.96|0.2336
92179714|NCT01074294|184257485|SUPERIORITY||Mean Difference (Final Values)|0.95||||0.4553|TWO_SIDED|95.0|-1.55|3.44||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||3.44|-1.55|0.4553
92179715|NCT01074294|184257486|SUPERIORITY||Mean Difference (Final Values)|0.29||||0.5647|TWO_SIDED|95.0|-0.7|1.27||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.27|-0.70|0.5647
92179716|NCT01074294|184257486|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.9739|TWO_SIDED|95.0|-1.15|1.12||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.12|-1.15|0.9739
92179717|NCT01074294|184257486|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.8077|TWO_SIDED|95.0|-1.4|1.09||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.09|-1.40|0.8077
92284415|NCT01569152|184472474|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.59||||0.007|TWO_SIDED|95.0|-2.73|-0.45|||Constrained Longitudinal Data Analysis|||||-0.45|-2.73|0.007
92284416|NCT01569152|184472475|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.9||||0.315|TWO_SIDED|95.0|-14.54|4.74|||Constrained Longitudinal Data Analysis|||||4.74|-14.54|0.315
92179718|NCT01074294|184257486|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.6119|TWO_SIDED|95.0|-0.98|1.65||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.65|-0.98|0.6119
92179719|NCT01074294|184257486|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.5513|TWO_SIDED|95.0|-0.94|1.76||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||1.76|-0.94|0.5513
92179720|NCT01074294|184257486|SUPERIORITY||Mean Difference (Final Values)|0.57||||0.4185|TWO_SIDED|95.0|-0.81|1.95||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.95|-0.81|0.4185
92179721|NCT01074294|184257487|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.7556|TWO_SIDED|95.0|-0.8|1.09||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.09|-0.80|0.7556
92179722|NCT01074294|184257487|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.371|TWO_SIDED|95.0|-0.6|1.59||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.59|-0.60|0.3710
92179723|NCT01074294|184257487|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.8464|TWO_SIDED|95.0|-0.99|1.21||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.21|-0.99|0.8464
92179724|NCT01074294|184257487|SUPERIORITY||Mean Difference (Final Values)|0.69||||0.2664|TWO_SIDED|95.0|-0.53|1.91||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.91|-0.53|0.2664
92179725|NCT01074294|184257487|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.0876|TWO_SIDED|95.0|-0.17|2.42||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||2.42|-0.17|0.0876
92179726|NCT01074294|184257487|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.5119|TWO_SIDED|95.0|-0.89|1.77||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.77|-0.89|0.5119
92179727|NCT01074294|184257488|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.8986|TWO_SIDED|95.0|-1.03|1.18||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.18|-1.03|0.8986
92179728|NCT01074294|184257488|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.685|TWO_SIDED|95.0|-1.02|1.55||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.55|-1.02|0.6850
92179729|NCT01074294|184257488|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.7108|TWO_SIDED|95.0|-1.61|1.1||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.10|-1.61|0.7108
92179730|NCT01074294|184257488|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.9236|TWO_SIDED|95.0|-1.5|1.36||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.36|-1.50|0.9236
92179731|NCT01074294|184257488|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.8576|TWO_SIDED|95.0|-1.35|1.61||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||1.61|-1.35|0.8576
92258585|NCT02313506|184420136|SUPERIORITY||Mean Difference (Net)|4.6||||0.71|TWO_SIDED|95.0|-19.6|28.9|||ANCOVA|||ANCOVA was performed to evaluate the effect of the group type on the outcome measures after adjusting for blocking and baseline (T0). We assessed 3 planned contrasts of changes in outcome measures over time. Contrast 2 compared T0-T1 in the immediate group against T1-T2 in the delayed group.||28.9|-19.6|0.71
92258586|NCT02313506|184420136|SUPERIORITY||Mean Difference (Net)|-11.0||||0.29|TWO_SIDED|95.0|-31.1|9.1|||ANCOVA|||ANCOVA was performed to evaluate the effect of the group type on the outcome measures after adjusting for blocking and baseline (T0). We assessed 3 planned contrasts of changes in outcome measures over time. Contrast 3 compared T0-T1 in the immediate group against T0-T2 in the delayed group.||9.1|-31.1|0.29
92258587|NCT03860181|184420178|EQUIVALENCE|The statistical significance's p-value was set at 0.05. For Surgeon 1's differences, they were calculated as patient POSAS score - surgeon POSAS score, with a negative difference signifying that the patients thought more highly of the scars than the physicians since lower POSAS scores are more favorable.||||||0.896|||||||Wilcoxon (Mann-Whitney)|Mann-Whitney U = 215||||||0.896
92258588|NCT03860181|184420178|EQUIVALENCE|The statistical significance's p-value was set at 0.05. For Surgeon 2's differences, they were calculated as patient POSAS score - surgeon POSAS score, with a negative difference signifying that the patients thought more highly of the scars than the physicians since lower POSAS scores are more favorable.||||||0.612|||||||Wilcoxon (Mann-Whitney)|Mann-Whitney U = 210||||||0.612
92258589|NCT02422186|184420235|SUPERIORITY||Difference of Least Square (LS) Means|-3.6|||=|0.059|TWO_SIDED|95.0|-7.2|0.07|||Mixed Model for Repeated Measures|||||0.07|-7.20|=0.059
92258590|NCT02422186|184420236|OTHER||Least Square (LS) Mean Difference|-3.6|||=|0.052|TWO_SIDED|95.0|-7.16|-0.03|||ANCOVA|||||-0.03|-7.16|=0.052
92258591|NCT05281094|184420243|SUPERIORITY||Vaccine Efficacy|12.98|||||TWO_SIDED|95.0|-52.51|50.35|||||. Vaccine efficacy is demonstrated if the lower limit of the 95.0% CI is above 0%.|VE is defined 100% \[1- (λV/λC)\], where λV and λC denote the hazard rates for the HIL-214 and placebo arms respectively, obtained via a stratified Cox proportional hazards model, using Efron's method for handling ties. The model includes a term for vaccine group and was stratified by country, whereby the United States, Dominican Republic, and Puerto Rico were considered one country. The 95% confidence interval as calculated by subtracting the confidence limits of hazard ratio from 1.||50.35|-52.51|
92284417|NCT01569152|184472477|SUPERIORITY_OR_OTHER||Difference in percentages|31.71|||<|0.001|TWO_SIDED|95.0|15.56|47.86|||Cochran-Mantel-Haenszel|||||47.86|15.56|<0.001
92258592|NCT05281094|184420244|SUPERIORITY||Vaccine Efficacy|17.02|||||TWO_SIDED|95.0|-24.52|44.7|||||Vaccine efficacy is demonstrated if the lower limit of the 95.0% CI is above 0%.|VE is defined 100% \[1- (λV/λC)\], where λV and λC denote the hazard rates for the HIL-214 and placebo arms respectively, obtained via a stratified Cox proportional hazards model, using Efron's method for handling ties. The model includes a term for vaccine group and was stratified by country, whereby the United States, Dominican Republic, and Puerto Rico were considered one country. The 95% confidence interval as calculated by subtracting the confidence limits of hazard ratio from 1||44.70|-24.52|
92258593|NCT05281094|184420245|SUPERIORITY||Vaccine Efficacy|13.91|||||TWO_SIDED|95.0|-34.7|44.98|||||Vaccine efficacy is demonstrated if the lower limit of the 95.0% CI is above 0%.|VE is defined 100% \[1- (λV/λC)\], where λV and λC denote the hazard rates for the HIL-214 and placebo arms respectively, obtained via a stratified Cox proportional hazards model, using Efron's method for handling ties. The model includes a term for vaccine group and was stratified by country, whereby the United States, Dominican Republic, and Puerto Rico were considered one country. The 95% confidence interval as calculated by subtracting the confidence limits of hazard ratio from 1.||44.98|-34.70|
92258594|NCT05281094|184420246|SUPERIORITY||Vaccine Efficacy|-6.37|||||TWO_SIDED|95.0|-45.04|22.0|||||Vaccine efficacy is demonstrated if the lower limit of the 95.0% CI is above 0%.|VE is defined 100% \[1- (λV/λC)\], where λV and λC denote the hazard rates for the HIL-214 and placebo arms respectively, obtained via a stratified Cox proportional hazards model, using Efron's method for handling ties. The model includes a term for vaccine group and was stratified by country, whereby the United States, Dominican Republic, and Puerto Rico were considered one country. The 95% confidence interval as calculated by subtracting the confidence limits of hazard ratio from 1.||22.00|-45.04|
92258595|NCT04223778|184420274|NON_INFERIORITY|Doravirine/Islatravir (DOR/ISL) - Baseline Antiretroviral Therapy (ART). Non-inferiority was concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI was less than 4 percentage points.|Estimated Difference|-1.49|||<|0.001|TWO_SIDED|95.0|-3.44|-0.34|||Miettinen and Nurminen|The Miettinen and Nurminen method was stratified by corrected baseline ART regimen with Cochran-Mantel-Haenszel (CMH) weights.||||-0.34|-3.44|<.001
92284418|NCT01523899|184472481|SUPERIORITY||Mean Difference (Final Values)|0.145|||||TWO_SIDED|95.0||||Pearson chi squared, Fisher exact, 2 sample t-tests||||||||
92258596|NCT04223778|184420275|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|9.8|||||TWO_SIDED|95.0|3.3|16.3|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||16.3|3.3|
92258597|NCT04223778|184420276|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|1.8|||||TWO_SIDED|95.0|0.2|4.0|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||4.0|0.2|
92258598|NCT04223778|184420277|OTHER|Doravirine/Islatravir (DOR/ISL)- Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.3|||||TWO_SIDED|95.0|-3.28|3.9|||||The Miettinen and Nurminen method was stratified by corrected baseline ART regimen with Cochran-Mantel-Haenszel (CMH) weights.|HIV-1 RNA \<40 copies/mL||3.90|-3.28|
92258599|NCT04223778|184420277|OTHER|Doravirine/Islatravir (DOR/ISL)- Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.89|||||TWO_SIDED|95.0|-2.58|4.43|||||The Miettinen and Nurminen method was stratified by corrected baseline ART regimen with Cochran-Mantel-Haenszel (CMH) weights.|HIV-1 RNA \<50 copies/mL||4.43|-2.58|
92284419|NCT01523899|184472482|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
92284420|NCT00743197|184472487|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|0|Other|0.0|STANDARD_DEVIATION|0.0||||||||0||||0||||
92182846|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|-2.5|1.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||1.4|-2.5|
92258600|NCT04223778|184420280|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-8.9|||||TWO_SIDED|95.0|-13.4|-4.5|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||-4.5|-13.4|
92258601|NCT04223778|184420285|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-19.75|||||TWO_SIDED|95.0|-33.07|-6.44|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|Fasting Cholesterol||-6.44|-33.07|
92258602|NCT04223778|184420285|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-1.35|||||TWO_SIDED|95.0|-6.55|3.84|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|Fasting HDL Cholesterol||3.84|-6.55|
92258603|NCT04223778|184420285|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-13.94|||||TWO_SIDED|95.0|-24.69|-3.2|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|Fasting LDL Cholesterol||-3.20|-24.69|
92258604|NCT04223778|184420285|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-17.74|||||TWO_SIDED|95.0|-30.02|-5.46|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|Fasting Non-HDL Cholesterol||-5.46|-30.02|
92258605|NCT04223778|184420285|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-21.28|||||TWO_SIDED|95.0|-45.51|2.96|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|Fasting Triglycerides||2.96|-45.51|
92258606|NCT04223778|184420286|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-4.17|||||TWO_SIDED|95.0|-10.43|2.09|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Cholesterol||2.09|-10.43|
92258607|NCT04223778|184420286|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.81|||||TWO_SIDED|95.0|-1.46|3.09|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting HDL Cholesterol||3.09|-1.46|
92179732|NCT01074294|184257488|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.8483|TWO_SIDED|95.0|-1.67|1.37||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.37|-1.67|0.8483
92182847|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-2.1|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||1.8|-2.1|
92258608|NCT04223778|184420286|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-3.87|||||TWO_SIDED|95.0|-9.47|1.74|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting LDL Cholesterol||1.74|-9.47|
92258609|NCT04223778|184420286|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-4.92|||||TWO_SIDED|95.0|-11.21|1.38|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Non-HDL Cholesterol||1.38|-11.21|
92258610|NCT04223778|184420286|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|1.65|||||TWO_SIDED|95.0|-16.14|19.43|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Triglycerides||19.43|-16.14|
92258611|NCT04223778|184420287|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|1.05|||||TWO_SIDED|95.0|-7.6|9.7|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Cholesterol||9.70|-7.60|
92258612|NCT04223778|184420287|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-3.16|||||TWO_SIDED|95.0|-6.37|0.05|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting HDL Cholesterol||0.05|-6.37|
92258613|NCT04223778|184420287|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|4.38|||||TWO_SIDED|95.0|-2.27|11.03|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting LDL Cholesterol||11.03|-2.27|
92258614|NCT04223778|184420287|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|3.63|||||TWO_SIDED|95.0|-3.93|11.19|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Non-HDL Cholesterol||11.19|-3.93|
92258615|NCT04223778|184420287|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-1.79|||||TWO_SIDED|95.0|-15.89|12.31|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Triglycerides||12.31|-15.89|
92258616|NCT04223778|184420288|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-18.41|||||TWO_SIDED|95.0|-32.05|-4.76|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Cholesterol||-4.76|-32.05|
92258617|NCT04223778|184420288|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.01|||||TWO_SIDED|95.0|-5.06|5.08|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting HDL Cholesterol||5.08|-5.06|
92258618|NCT04223778|184420288|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-14.12|||||TWO_SIDED|95.0|-25.81|-2.43|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting LDL Cholesterol||-2.43|-25.81|
92258619|NCT04223778|184420288|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-18.23|||||TWO_SIDED|95.0|-30.45|-6.0|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Non-HDL Cholesterol||-6.00|-30.45|
92258620|NCT04223778|184420288|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-27.79|||||TWO_SIDED|95.0|-51.08|-4.49|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Triglycerides||-4.49|-51.08|
92258621|NCT04223778|184420288|SUPERIORITY|Treatment Difference vs Baseline ART. Superiority will be concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI is less than 0 percentage points.|Mean Difference (Net)|-14.12||||0.0094|TWO_SIDED|95.0|-27.56|-0.68||The significance level in ANCOVA model was 0.02497/2=0.012485. The p-value is statistically significant if it is \<0.02497/2=0.012485.|ANCOVA|||Fasting LDL Cholesterol - Multiplicity Adjusted|The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|-0.68|-27.56|0.0094
92258622|NCT04223778|184420288|SUPERIORITY|Treatment Difference vs Baseline ART. Superiority will be concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI is less than 0 percentage points.|Mean Difference (Net)|-18.23||||0.0021|TWO_SIDED|95.0|-32.28|-4.17||The significance level in ANCOVA model was 0.02497/2=0.012485. The p-value is statistically significant if it is \<0.02497/2=0.012485.|ANCOVA|||Fasting Non-HDL Cholesterol - Multiplicity Adjusted|The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|-4.17|-32.28|0.0021
92258623|NCT04223778|184420289|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-0.04|||||TWO_SIDED|95.0|-6.26|6.18|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Cholesterol||6.18|-6.26|
92258624|NCT04223778|184420289|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.35|||||TWO_SIDED|95.0|-1.84|2.54|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting HDL Cholesterol||2.54|-1.84|
92258625|NCT04223778|184420289|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.64|||||TWO_SIDED|95.0|-4.83|6.11|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting LDL Cholesterol||6.11|-4.83|
92258626|NCT04223778|184420289|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-0.49|||||TWO_SIDED|95.0|-6.81|5.83|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Non-HDL Cholesterol||5.83|-6.81|
92258627|NCT04223778|184420289|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-5.45|||||TWO_SIDED|95.0|-20.46|9.57|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Triglycerides||9.57|-20.46|
92258628|NCT04223778|184420289|SUPERIORITY|Treatment Difference vs Baseline ART. Superiority will be concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI is less than 0 percentage points.|Mean Difference (Net)|0.64||||0.4093|TWO_SIDED|95.0|-5.63|6.9||The significance level in ANCOVA model was 0.02497/2=0.012485. The p-value is statistically significant if it is \<0.02497/2=0.012485.|ANCOVA|||Fasting LDL Cholesterol - Multiplicity Adjusted|The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|6.90|-5.63|0.4093
92258629|NCT04223778|184420289|SUPERIORITY|Treatment Difference vs Baseline ART. Superiority will be concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI is less than 0 percentage points.|Mean Difference (Net)|-0.49||||0.4397|TWO_SIDED|95.0|-7.72|6.75||The significance level in ANCOVA model was 0.02497/2=0.012485. The p-value is statistically significant if it is \<0.02497/2=0.012485.|ANCOVA|||Fasting Non-HDL Cholesterol - Multiplicity Adjusted|The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|6.75|-7.72|0.4397
92258630|NCT04223778|184420290|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|2.31|||||TWO_SIDED|95.0|-5.54|10.17|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Cholesterol||10.17|-5.54|
92258631|NCT04223778|184420290|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-2.52|||||TWO_SIDED|95.0|-5.69|0.65|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting HDL Cholesterol||0.65|-5.69|
92258632|NCT04223778|184420290|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|2.34|||||TWO_SIDED|95.0|-3.73|8.42|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting LDL Cholesterol||8.42|-3.73|
92258633|NCT04223778|184420290|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|3.97|||||TWO_SIDED|95.0|-2.63|10.56|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Non-HDL Cholesterol||10.56|-2.63|
92258634|NCT04223778|184420290|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|10.5|||||TWO_SIDED|95.0|-3.97|24.96|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Triglycerides||24.96|-3.97|
92258635|NCT04223778|184420291|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.44|||||TWO_SIDED|95.0|-0.59|1.46|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|||1.46|-0.59|
92258636|NCT05325333|184420296|SUPERIORITY|Word form recall accuracy (number of words correctly recalled) on Expanding and Standard retrieval schedules at 5 mins for children with DLD||||||0.567|||||||LSD test|||||||0.567
92258637|NCT05325333|184420296|SUPERIORITY|Word form recall accuracy (number of words correctly recalled) on Expanding and Standard retrieval schedules at 5 mins for children with TD||||||0.003|||||||LSD test|||||||0.003
92258638|NCT05325333|184420297|SUPERIORITY|Word form recall accuracy (number of words correctly recalled) on Expanding and Standard retrieval schedules at one week for children with DLD||||||0.187|||||||LSD test|||||||0.187
92258639|NCT05325333|184420297|SUPERIORITY|Word form recall accuracy (number of words correctly recalled) on Expanding and Standard retrieval schedules at one week for children with TD||||||0.256|||||||LSD test|||||||0.256
92258640|NCT05325333|184420298|SUPERIORITY|Word meaning recall accuracy (number of semantic associations correctly recalled) on Expanding and Standard Retrieval Schedules at 5 Mins for DLD||||||0.747|||||||LSD test|||||||0.747
92258641|NCT05325333|184420298|SUPERIORITY|Word meaning recall accuracy (number of semantic associations correctly recalled) on Expanding and Standard Retrieval Schedules at 5 Mins for TD||||||0.031|||||||LSD test|||||||0.031
92258642|NCT05325333|184420299|SUPERIORITY|Word meaning recall accuracy (number of semantic associations correctly recalled) on Expanding and Standard Retrieval Schedules at one week for DLD||||||0.061|||||||LSD test|||||||0.061
92258643|NCT05325333|184420299|SUPERIORITY|Word meaning recall accuracy (number of semantic associations correctly recalled) on Expanding and Standard Retrieval Schedules at one week for TD||||||0.747|||||||LSD test|||||||0.747
92179733|NCT01074294|184257489|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.6976|TWO_SIDED|95.0|-0.22|0.15||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||0.15|-0.22|0.6976
92258644|NCT05325333|184420300|SUPERIORITY|Word recognition (number of words accurately identified) on Expanding condition and Standard Retrieval Schedules for DLD||||||0.026|||||||LSD test|||||||0.026
92258645|NCT05325333|184420300|SUPERIORITY|Word recognition (number of words accurately identified) on Expanding condition and Standard Retrieval Schedules for TD||||||0.72|||||||LSD test|||||||0.720
92258646|NCT05325333|184420301|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<.0001
92258647|NCT05325333|184420302|SUPERIORITY|||||||0.673|||||||t-test, 2 sided|||||||0.673
92258648|NCT01265719|184420336|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.2||0.1126|TWO_SIDED|95.0|-0.09|0.74|||ANCOVA||Change from baseline to last available observation in BCVA was analyzed using an ANCOVA model with fixed effect for treatment group with baseline BCVA value as covariate.|\<5 years||0.74|-0.09|0.1126
92258649|NCT01265719|184420336|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.04||0.484|TWO_SIDED|95.0|-0.12|0.06|||ANCOVA||Change from baseline to last available observation in BCVA was analyzed using an ANCOVA model with fixed effect for treatment group with baseline BCVA value as covariate.|5 to \<18 years||0.06|-0.12|0.4840
92258650|NCT01265719|184420338|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.3||0.902|TWO_SIDED|95.0|-0.63|0.56|||ANCOVA||Change from baseline to last available observation in HCD was analyzed using an ANCOVA model with fixed effect for treatment group with baseline HCD value as covariate.|\<5 years||0.56|-0.63|0.9020
92258651|NCT01265719|184420338|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.2||0.8826|TWO_SIDED|95.0|-0.37|0.43|||ANCOVA||Change from baseline to last available observation in HCD was analyzed using an ANCOVA model with fixed effect for treatment group with baseline HCD value as covariate.|5 to \<18 years||0.43|-0.37|0.8826
92258652|NCT01265719|184420339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.62|STANDARD_ERROR_OF_MEAN|1.25||0.2003|TWO_SIDED|95.0|-4.13|0.89|||ANCOVA||Change from baseline to last available observation in IOP was analyzed using an ANCOVA model with fixed effect for treatment group with baseline IOP value as covariate.|\<5 years||0.89|-4.13|0.2003
92258653|NCT01265719|184420339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.75||0.894|TWO_SIDED|95.0|-1.59|1.39|||ANCOVA||Change from baseline to last available observation in IOP was analyzed using an ANCOVA model with fixed effect for treatment group with baseline IOP value as covariate.|5 to \<18 years (IOP \<21mmHg at Baseline)||1.39|-1.59|0.8940
92258654|NCT01265719|184420339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-6.66|STANDARD_ERROR_OF_MEAN|2.41||0.0184|TWO_SIDED|95.0|-11.95|-1.36|||ANCOVA|The results were interpreted with caution because of the very small sample size of non-PG treatment group (n=4).|Change from baseline to last available observation in IOP was analyzed using an ANCOVA model with fixed effect for treatment group with baseline IOP value as covariate.|5 to \<18 years (IOP ≥21mmHg at Baseline)||-1.36|-11.95|0.0184
92258655|NCT01265719|184420340|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.0|||>|0.999|TWO_SIDED|95.0|-13.97|15.9|||Fisher Exact|||||15.90|-13.97|>0.999
92258656|NCT01265719|184420341|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-0.4|||>|0.999|TWO_SIDED|95.0|-15.32|14.55|||Fisher Exact|||||14.55|-15.32|>0.999
92284421|NCT01710657|184472506|SUPERIORITY_OR_OTHER||% Reduction over Placebo|39.6|||<|0.001|TWO_SIDED|95.0|30.5|47.6||Significant at the 0.05 level. This testing procedure is considered a closed testing procedure and no adjustment of the significance level was necessary.|ANCOVA|||"To avoid inflation of Type I error, hypothesis testing followed predefined hierarchical procedure starting LCM 400 mg/day treatment group versus the placebo group.~If the test was not statistically significant, the procedure stopped and no Groups were declared different from placebo. If the test was statistically significant, the treatment group was considered different from placebo and the procedure continued with the LCM 200 mg/day treatment group."||47.6|30.5|<0.001
92258657|NCT01265719|184420342|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.2|||>|0.999|TWO_SIDED|95.0|-13.78|16.09|||Fisher Exact|||||16.09|-13.78|>0.999
92258658|NCT01265719|184420344|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.6||||0.6414|TWO_SIDED|95.0|-13.39|16.48|||Fisher Exact|||||16.48|-13.39|0.6414
92258659|NCT01265719|184420345|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.61|STANDARD_ERROR_OF_MEAN|0.52||0.2437|TWO_SIDED|95.0|-0.43|1.65|||ANCOVA||Change from baseline to last available observation in longest lash length (LLL) was analyzed using an ANCOVA model with fixed effect for treatment group with baseline LLL value as covariate.|\<5 years||1.65|-0.43|0.2437
92258660|NCT01265719|184420345|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.32||0.5199|TWO_SIDED|95.0|-0.85|0.43|||ANCOVA||Change from baseline to last available observation in LLL was analyzed using an ANCOVA model with fixed effect for treatment group with baseline LLL value as covariate.|5 to \<18 years||0.43|-0.85|0.5199
92258661|NCT01265719|184420346|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-2.68|STANDARD_ERROR_OF_MEAN|15.54||0.8643|TWO_SIDED|95.0|-34.3|28.94|||ANCOVA||Change from baseline to last available observation in corneal thickness was analyzed using an ANCOVA model with fixed effect for treatment group with baseline corneal thickness value as covariate.|\<5 years||28.94|-34.30|0.8643
92258662|NCT01265719|184420346|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.87|STANDARD_ERROR_OF_MEAN|4.87||0.8591|TWO_SIDED|95.0|-10.54|8.8|||ANCOVA||Change from baseline to last available observation in corneal thickness was analyzed using an ANCOVA model with fixed effect for treatment group with baseline corneal thickness value as covariate.|5 to \<18 years||8.80|-10.54|0.8591
92258663|NCT01265719|184420347|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.5||||0.2413|TWO_SIDED|95.0|-10.49|19.36|||Fisher Exact|||||19.36|-10.49|0.2413
92258664|NCT02442765|184420350|SUPERIORITY||Least Squares Mean Difference|-4.0|||=|0.021|TWO_SIDED|95.0|-7.4|-0.6||MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use. Unstructured variance-covariance was used.|mixed model repeated measures (MMRM)|||||-0.6|-7.4|=0.021
92258665|NCT02442765|184420350|SUPERIORITY||Least Squares Mean Difference|-0.6|||=|0.731|TWO_SIDED|95.0|-3.9|2.7||MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use. Unstructured variance-covariance was used.|MMRM|||||2.7|-3.9|=0.731
92258666|NCT02442765|184420350|SUPERIORITY||Least Squares Mean Difference|-3.5|||=|0.157|TWO_SIDED|95.0|-8.4|1.4||MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use. Unstructured variance-covariance was used.|MMRM|||||1.4|-8.4|=0.157
92258667|NCT02442765|184420350|SUPERIORITY||Least Squares Mean Difference|-3.6|||=|0.15|TWO_SIDED|95.0|-8.4|1.3||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.3|-8.4|=0.150
92258668|NCT02442765|184420350|SUPERIORITY||MMRM weighted z-statistic|-2.65|||=|0.008|TWO_SIDED|||||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|Sequential Parallel Comparison Design (SPCD) was used with weight = 0.6 for Stage 1 and 0.4 for Stage 2.||||||=0.008
92258669|NCT02442765|184420350|SUPERIORITY||MMRM weighted z-statistic|-1.26|||=|0.208|TWO_SIDED|||||MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use. Unstructured variance-covariance was used.|MMRM|SPCD was used with weight = 0.6 for Stage 1 and 0.4 for Stage 2.||||||=0.208
92258670|NCT02442765|184420351|SUPERIORITY||Least Squares Mean Difference|-0.1||||0.331|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.331
92258671|NCT02442765|184420351|SUPERIORITY||Least Squares Mean Difference|-0.1||||0.4|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||||0.2|-0.4|0.400
92258672|NCT02442765|184420351|SUPERIORITY||Least Squares Mean Difference|-0.6||||0.014|TWO_SIDED|95.0|-1.1|-0.1|||ANCOVA|||||-0.1|-1.1|0.014
92258673|NCT02442765|184420351|SUPERIORITY||Least Squares Mean Difference|-0.4||||0.145|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|0.145
92284422|NCT01710657|184472506|SUPERIORITY_OR_OTHER||% Reduction over Placebo|29.4|||<|0.001|TWO_SIDED|95.0|18.7|38.7||Significant at the 0.05 level. This testing procedure is considered a closed testing procedure and no adjustment of the significance level was necessary.|ANCOVA|||"To avoid inflation of Type I error, hypothesis testing followed predefined hierarchical procedure starting LCM 400 mg/day treatment group versus the placebo group.~If the test was not statistically significant, the procedure stopped and no Groups were declared different from placebo. If the test was statistically significant, the treatment group was considered different from placebo and the procedure continued with the LCM 200 mg/day treatment group."||38.7|18.7|< 0.001
92284423|NCT01297348|184472547|SUPERIORITY_OR_OTHER||Incidence rate ratio|2.01|||||TWO_SIDED|95.0|1.23|3.29||||||Incidence rate ratio (Lybrel/EE-20) along with corresponding 95 percent (%) confidence interval (CI) was reported for current users.||3.29|1.23|
92258674|NCT02442765|184420351|SUPERIORITY||SPCD OLS weighted z-statistic|-2.51||||0.012|TWO_SIDED||||||ANCOVA||OLS = ordinary least squares|||||0.012
92258675|NCT02442765|184420351|SUPERIORITY||SPCD OLS weighted z-statistic|-1.66||||0.097|TWO_SIDED||||||ANCOVA|||||||0.097
92258676|NCT02442765|184420352|SUPERIORITY||Least Squares Mean Difference|-0.5|||=|0.182|TWO_SIDED|95.0|-1.3|0.2||MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use. Unstructured variance-covariance was used.|MMRM|SPCD was used with weight = 0.6 for Stage 1 and 0.4 for Stage 2.||||0.2|-1.3|=0.182
92258677|NCT02442765|184420352|SUPERIORITY||Least Squares Mean Difference|-0.3|||=|0.39|TWO_SIDED|95.0|-1.1|0.4||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.4|-1.1|=0.390
92258678|NCT02442765|184420352|SUPERIORITY||Least Squares Mean Difference|0.5|||=|0.462|TWO_SIDED|95.0|-0.8|1.7||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.7|-0.8|=0.462
92258679|NCT02442765|184420352|SUPERIORITY||Least Squares Mean Difference|0.4|||=|0.528|TWO_SIDED|95.0|-0.8|1.6||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.6|-0.8|=0.528
92258680|NCT02442765|184420352|SUPERIORITY||MMRM weighted z-statistic|-0.39|||=|0.695|TWO_SIDED|||||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, Baseline (BL), BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|ANCOVA|||||||=0.695
92258681|NCT02442765|184420352|SUPERIORITY||MMRM weighted z-statistic|-0.12|||=|0.904|TWO_SIDED|||||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, Baseline (BL), BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|ANCOVA|||||||=0.904
92258682|NCT02442765|184420353|SUPERIORITY||Least Squares Mean Difference|-1.2|||=|0.247|TWO_SIDED|95.0|-3.2|0.8||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.8|-3.2|=0.247
92258683|NCT02442765|184420353|SUPERIORITY||Least Squares Mean Difference|-0.4|||=|0.721|TWO_SIDED|95.0|-2.3|1.6||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.6|-2.3|=0.721
92258684|NCT02442765|184420353|SUPERIORITY||Least Squares Mean Difference|-1.2|||=|0.419|TWO_SIDED|95.0|-4.3|1.8||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.8|-4.3|=0.419
92258685|NCT02442765|184420353|SUPERIORITY||Least Squares Mean Difference|0.9|||=|0.534|TWO_SIDED|95.0|-2.0|3.9||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||3.9|-2.0|=0.534
92258686|NCT02442765|184420353|SUPERIORITY||MMRM weighted z-statistic|-1.4|||=|0.163|TWO_SIDED||||||ANCOVA|||||||=0.163
92258687|NCT02442765|184420353|SUPERIORITY||MMRM weighted z-statistic|0.19|||=|0.851|TWO_SIDED||||||ANCOVA|||||||=0.851
92258688|NCT02442765|184420354|SUPERIORITY||Least Squares Mean Difference|-0.6|||=|0.146|TWO_SIDED|95.0|-1.4|0.2||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.2|-1.4|=0.146
92258689|NCT02442765|184420354|SUPERIORITY||Least Squares Mean Difference|0.3|||=|0.399|TWO_SIDED|95.0|-0.4|1.1||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.1|-0.4|=0.399
92258690|NCT02442765|184420354|SUPERIORITY||Least Squares Mean Difference|0.7|||=|0.283|TWO_SIDED|95.0|-0.6|2.0||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||2.0|-0.6|=0.283
92258691|NCT02442765|184420354|SUPERIORITY||Least Squares Mean Difference|1.2|||=|0.065|TWO_SIDED|95.0|-0.1|2.5||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||2.5|-0.1|=0.065
92258692|NCT02442765|184420354|SUPERIORITY||MMRM weighted z-statistic|-0.22|||=|0.829|TWO_SIDED||||||ANCOVA|||||||=0.829
92258693|NCT02442765|184420354|SUPERIORITY||MMRM weighted z-statistic|1.94|||=|0.052|TWO_SIDED||||||ANCOVA|||||||=0.052
92258694|NCT02442765|184420355|SUPERIORITY||Least Squares Mean Difference|-0.7|||=|0.53|TWO_SIDED|95.0|-2.7|1.4|||ANCOVA|||||1.4|-2.7|=0.530
92258695|NCT02442765|184420355|SUPERIORITY||Least Squares Mean Difference|-1.0|||=|0.326|TWO_SIDED|95.0|-3.1|1.0|||ANCOVA|||||1.0|-3.1|=0.326
92258696|NCT02442765|184420355|SUPERIORITY||Least Squares Mean Difference|2.5|||=|0.135|TWO_SIDED|95.0|-0.8|5.9|||ANCOVA|||||5.9|-0.8|=0.135
92284424|NCT01297348|184472547|SUPERIORITY_OR_OTHER||Incidence rate ratio|2.99|||||TWO_SIDED|95.0|0.39|22.8||||||Incidence rate ratio (Lybrel/EE-20) along with corresponding 95% CI was reported for past users.||22.80|0.39|
92284425|NCT01297348|184472547|SUPERIORITY_OR_OTHER||Incidence rate ratio|3.49|||||TWO_SIDED|95.0|2.02|6.02||||||Incidence rate ratio (Lybrel/Levo-20) along with corresponding 95% CI was reported for current users.||6.02|2.02|
92284426|NCT01297348|184472547|SUPERIORITY_OR_OTHER||Incidence rate ratio|3.07|||||TWO_SIDED|95.0|0.34|27.47||||||Incidence rate ratio (Lybrel/Levo-20) along with corresponding 95% CI was reported for past users.||27.47|0.34|
92284427|NCT01297348|184472548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51|||||TWO_SIDED|95.0|0.85|2.67||||||Current user, case and matched control: Odds ratio (Lybrel/EE-20) and 95% CI were estimated using conditional logistic regression, conditional on matching factors (age, calendar time, exposure status and database).||2.67|0.85|
92284428|NCT01297348|184472548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.53|||||TWO_SIDED|95.0|0.98|6.54||||||Current user, case and matched control: Odds ratio (Lybrel/Levo-20) and 95% CI were estimated using conditional logistic regression, conditional on matching factors (age, calendar time, exposure status and database).||6.54|0.98|
92284429|NCT02495857|184472549|SUPERIORITY||Mean Difference (Net)|36.18|||||TWO_SIDED|95.0|10.25|62.11||||||||62.11|10.25|
92179734|NCT01074294|184257489|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.6986|TWO_SIDED|95.0|-0.25|0.17||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||0.17|-0.25|0.6986
92258697|NCT02442765|184420355|SUPERIORITY||Least Squares Mean Difference|0.2|||=|0.895|TWO_SIDED|95.0|-3.1|3.5|||ANCOVA|||||3.5|-3.1|=0.895
92258698|NCT02442765|184420355|SUPERIORITY||SPCD OLS weighted Z-statistic|0.67|||=|0.502|TWO_SIDED||||||ANCOVA|||||||=0.502
92258699|NCT02442765|184420355|SUPERIORITY||SPCD OLS weighted Z-statistic|-0.58|||=|0.564|TWO_SIDED||||||ANCOVA|||||||=0.564
92258700|NCT02442765|184420356|SUPERIORITY||Least Squares Mean Difference|-0.8|||=|0.061|TWO_SIDED|95.0|-1.6|0.0||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.0|-1.6|=0.061
92258701|NCT02442765|184420356|SUPERIORITY||Least Squares Mean Difference|-0.3|||=|0.4|TWO_SIDED|95.0|-1.1|0.5||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.5|-1.1|=0.400
92258702|NCT02442765|184420356|SUPERIORITY||Least Squares Mean Difference|-1.1|||=|0.115|TWO_SIDED|95.0|-2.4|0.3||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.3|-2.4|=0.115
92258703|NCT02442765|184420356|SUPERIORITY||Least Squares Mean Difference|-0.8|||=|0.264|TWO_SIDED|95.0|-2.1|0.6||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.6|-2.1|=0.264
92258704|NCT02442765|184420356|SUPERIORITY||MMRM weighted z-statistic|-2.44|||=|0.015|TWO_SIDED||||||ANCOVA|||||||=0.015
92258705|NCT02442765|184420356|SUPERIORITY||MMRM weighted z-statistic|-1.4|||=|0.163|TWO_SIDED||||||ANCOVA|||||||=0.163
92258706|NCT02442765|184420357|SUPERIORITY||Least Squares Mean Difference|-3.9|||=|0.05|TWO_SIDED|95.0|-7.8|0.0||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||-0.0|-7.8|=0.050
92258707|NCT02442765|184420357|SUPERIORITY||Least Squares Mean Difference|-1.6|||=|0.412|TWO_SIDED|95.0|-5.4|2.2||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||2.2|-5.4|=0.412
92284430|NCT02495857|184472550|SUPERIORITY||Mean Difference (Net)|36.19|||||TWO_SIDED|95.0|10.25|62.11||||||||62.11|10.25|
92284431|NCT02495857|184472551|EQUIVALENCE|From baseline to week 26 visit, change in the WOMAC stiffness score was evaluated.|Mean Difference (Net)|5.63|||||TWO_SIDED|95.0|-13.61|8.49||||||||8.49|-13.61|
92284432|NCT01375660|184472593|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||ANOVA|||||||0.026
92284433|NCT01375660|184472594|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||ANOVA|||||||0.6
92284434|NCT01375660|184472595|SUPERIORITY_OR_OTHER|||||||0.389|TWO_SIDED||||||ANOVA|||||||0.389
92284435|NCT01375660|184472596|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED|||||P Value for Insulinogenic Index-30 = 0.34|ANOVA|||||||0.34
92284436|NCT01375660|184472597|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||ANOVA|||||||0.22
92284437|NCT01375660|184472598|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Chi-squared|||||||0.13
92284438|NCT01375660|184472599|SUPERIORITY_OR_OTHER|||||||0.869|TWO_SIDED||||||Chi-squared|||||||0.869
92284439|NCT02058498|184472601|SUPERIORITY_OR_OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92284440|NCT04605094|184472603|OTHER||Difference in response rate|-8.62||||0.08|TWO_SIDED|95.0|-17.94|0.71|||Regression, Logistic|||"Treatment difference in IGA responders~Estimates were from a logistic regression model that included treatment group, age as recorded on electronic case report form (eCRF) at screening (\>=12 to \<18 years; \>=18 years), blood eosinophils as recorded on eCRF at screening (\<300 cells/microliters \[μL\]; \>=300 cells/μL) and baseline value of IGA score."||0.71|-17.94|0.080
92284441|NCT04605094|184472604|OTHER||Difference in response rate|-5.15||||0.384|TWO_SIDED|95.0|-16.67|6.36|||Regression, Logistic|||"Treatment difference in EASI-75 responders~Estimates were from a logistic regression model that included treatment group, age as recorded on eCRF at screening (\>=12 to \< 18 years; \>=18 years), blood eosinophils as recorded on eCRF at screening (\<300 cells/μL; \>=300 cells/μL) and baseline EASI total score."||6.36|-16.67|0.384
92284442|NCT04605094|184472605|OTHER||Difference in response rate|-8.18||||0.078|TWO_SIDED|95.0|-16.94|0.59|||Regression, Logistic|||"Treatment difference in EASI-90 responders~Estimates were from a logistic regression model that included treatment group, age as recorded on eCRF at screening (\>=12 to \< 18 years; \>=18 years), blood eosinophils as recorded on eCRF at screening (\<300 cells/μL; \>=300 cells/μL) and baseline EASI total score."||0.59|-16.94|0.078
92284443|NCT04605094|184472606|OTHER||Difference in response rate|0.69||||0.889|TWO_SIDED|95.0|-8.93|10.32|||Regression, Logistic|||"Treatment difference in Peak Pruritus NRS~Estimates were from a logistic regression model that included treatment group, age as recorded on eCRF at screening (\>=12 to \< 18 years; \>=18 years), blood eosinophils as recorded on eCRF at screening (\<300 cells/μL; \>=300 cells/μL) and baseline Peak Pruritus score."||10.32|-8.93|0.889
92284444|NCT02724462|184472607|SUPERIORITY||Odds Ratio (OR)|1.49|||<|0.001|TWO_SIDED|95.0|1.22|1.83|||Regression, Logistic|||||1.83|1.22|<.001
92284445|NCT02724462|184472608|SUPERIORITY||Odds Ratio (OR)|1.4||||0.001|TWO_SIDED|95.0|1.14|1.71|||Regression, Logistic|||||1.71|1.14|.001
92284446|NCT02589808|184472624|OTHER|||||||0.0005|||||||Kappa|||||||0.0005
92284447|NCT01969747|184472652|SUPERIORITY_OR_OTHER||Adjusted mean|76.09|STANDARD_ERROR_OF_MEAN|8.77|<|0.0001|TWO_SIDED|95.0|58.6|93.59|||ANCOVA||The model includes baseline UGE as linear covariate(s) and treatment as fixed effect(s).|Comparison of Empagliflozin 2.5 mg with Placebo||93.59|58.60|<0.0001
92179735|NCT01074294|184257489|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.6507|TWO_SIDED|95.0|-0.3|0.19||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||0.19|-0.30|0.6507
92179736|NCT01074294|184257489|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.655|TWO_SIDED|95.0|-0.32|0.2||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||0.20|-0.32|0.6550
92179737|NCT01074294|184257489|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.3959|TWO_SIDED|95.0|-0.15|0.38||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||0.38|-0.15|0.3959
92179738|NCT01074294|184257489|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.6763|TWO_SIDED|95.0|-0.23|0.35||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||0.35|-0.23|0.6763
92179739|NCT01074294|184257490|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.4089|TWO_SIDED|95.0|-0.37|0.91||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.91|-0.37|0.4089
92179740|NCT01074294|184257491|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.2331|TWO_SIDED|95.0|-0.8|0.2||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||Week 11 data is included here. The planned sample size of 225 participants (150 in brexipiprazole arm and 75 in the placebo arm) yielded at least 80% power to detect effects at a 2-tailed significance level of 0.05 using a two-sided z-test.|||0.20|-0.80|0.2331
92258708|NCT02442765|184420357|SUPERIORITY||Least Squares Mean Difference|-1.0|||=|0.775|TWO_SIDED|95.0|-7.8|5.8||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||5.8|-7.8|=0.775
92179741|NCT01074294|184257492|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.067|TWO_SIDED|95.0|-0.01|0.0||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.00|-0.01|0.0670
92258709|NCT02442765|184420357|SUPERIORITY||Least Squares Mean Difference|3.3|||=|0.333|TWO_SIDED|95.0|-3.5|10.1||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||10.1|-3.5|=0.333
92258710|NCT02442765|184420357|SUPERIORITY||MMRM weighted z-statistic|-1.5|||=|0.133|TWO_SIDED||||||ANCOVA|||||||=0.133
92258711|NCT02442765|184420357|SUPERIORITY||MMRM weighted z-statistic|0.22|||=|0.829|TWO_SIDED||||||ANCOVA|||||||=0.829
92258712|NCT02442765|184420358|SUPERIORITY||Least Squares Mean Difference|-0.2|||=|0.118|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|=0.118
92258713|NCT02442765|184420358|SUPERIORITY||Least Squares Mean Difference|-0.1|||=|0.191|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|=0.191
92179742|NCT01074294|184257493|SUPERIORITY||Mean Difference (Final Values)|-14.3||||0.0849|TWO_SIDED|95.0|-30.5|1.98||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||1.98|-30.5|0.0849
92179743|NCT01074294|184257494|SUPERIORITY||Mean Difference (Final Values)|-0.46||||0.7663|TWO_SIDED|95.0|-3.52|2.6||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||2.60|-3.52|0.7663
92179744|NCT01074294|184257495|SUPERIORITY||Mean Difference (Final Values)|17.51||||0.0298|TWO_SIDED|95.0|1.73|33.29||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||33.29|1.73|0.0298
92179745|NCT01074294|184257496|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.2563|TWO_SIDED|95.0|-0.05|0.01||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.01|-0.05|0.2563
92258714|NCT02442765|184420358|SUPERIORITY||Least Squares Mean Difference|-0.2|||=|0.225|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|=0.225
92258715|NCT02442765|184420358|SUPERIORITY||Least Squares Mean Difference|-0.2|||=|0.227|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|=0.227
92258716|NCT02442765|184420358|SUPERIORITY||SPCD OLS weighted z-statistic|-1.97|||=|0.049|TWO_SIDED||||||ANCOVA|||||||=0.049
92258717|NCT02442765|184420358|SUPERIORITY||SPCD OLS weighted z-statistic|-1.78|||=|0.075|TWO_SIDED||||||ANCOVA|||||||=0.075
92258718|NCT02442765|184420359|SUPERIORITY||Least Squares Mean Difference|-0.1|||=|0.364|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|=0.364
92179746|NCT01074294|184257497|SUPERIORITY||Mean Difference (Final Values)|-5.67||||0.6644|TWO_SIDED|95.0|-31.4|20.06||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||20.06|-31.4|0.6644
92284448|NCT01969747|184472652|SUPERIORITY_OR_OTHER||Adjusted mean|106.39|STANDARD_ERROR_OF_MEAN|8.85|<|0.0001|TWO_SIDED|95.0|88.73|124.05|||ANCOVA||The model includes baseline UGE as linear covariate(s) and treatment as fixed effect(s).|Comparison of Empagliflozin 10 mg with Placebo||124.05|88.73|<0.0001
92179747|NCT01074294|184257498|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.8418|TWO_SIDED|95.0|-0.56|0.45||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.45|-0.56|0.8418
92179748|NCT01074294|184257499|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.2513|TWO_SIDED|95.0|-0.69|0.18||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.18|-0.69|0.2513
92179749|NCT01074294|184257500|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.7037|TWO_SIDED|95.0|-0.48|0.71||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.71|-0.48|0.7037
92179750|NCT01074294|184257501|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.7572|TWO_SIDED|95.0|-0.17|0.23||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||0.23|-0.17|0.7572
92179751|NCT01074294|184257501|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.6132|TWO_SIDED|95.0|-0.28|0.17||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||0.17|-0.28|0.6132
92179752|NCT01074294|184257501|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.9312|TWO_SIDED|95.0|-0.25|0.27||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||0.27|-0.25|0.9312
92179753|NCT01074294|184257501|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.8073|TWO_SIDED|95.0|-0.3|0.24||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||0.24|-0.30|0.8073
92179754|NCT01074294|184257501|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.9168|TWO_SIDED|95.0|-0.26|0.29||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||0.29|-0.26|0.9168
92179755|NCT01074294|184257501|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.7432|TWO_SIDED|95.0|-0.34|0.25||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||0.25|-0.34|0.7432
92258719|NCT02442765|184420359|SUPERIORITY||Least Squares Mean Difference|-0.1|||=|0.427|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||||0.2|-0.4|=0.427
92179756|NCT01074294|184257502|SUPERIORITY||Risk Ratio (RR)|1.2||||0.6014|TWO_SIDED|95.0|0.6|2.42||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||2.42|0.60|0.6014
92179757|NCT01074294|184257502|SUPERIORITY||Risk Ratio (RR)|1.02||||0.9225|TWO_SIDED|95.0|0.64|1.63||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||1.63|0.64|0.9225
92179758|NCT01074294|184257502|SUPERIORITY||Risk Ratio (RR)|0.86||||0.4803|TWO_SIDED|95.0|0.58|1.3||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||1.30|0.58|0.4803
92179759|NCT01074294|184257502|SUPERIORITY||Risk Ratio (RR)|0.91||||0.5876|TWO_SIDED|95.0|0.65|1.27||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||1.27|0.65|0.5876
92179760|NCT01074294|184257502|SUPERIORITY||Risk Ratio (RR)|0.87||||0.3727|TWO_SIDED|95.0|0.64|1.18||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||1.18|0.64|0.3727
92258720|NCT02442765|184420359|SUPERIORITY||Least Squares Mean Difference|-0.4|||=|0.098|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|=0.098
92258721|NCT02442765|184420359|SUPERIORITY||Least Squares Mean Difference|-0.3|||=|0.168|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||||0.1|-0.8|=0.168
92258722|NCT02442765|184420359|SUPERIORITY||SPCD OLS weighted z-statistic|-1.86|||=|0.063|TWO_SIDED||||||ANCOVA|||||||=0.063
92258723|NCT02442765|184420359|SUPERIORITY||SPCD OLS weighted z-statistic|-1.57|||=|0.115|TWO_SIDED||||||ANCOVA|||||||=0.115
92258724|NCT02442765|184420360|SUPERIORITY||Least Squares Mean Difference|-0.4|||=|0.014|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|||||-0.1|-0.6|=0.014
92258725|NCT02442765|184420360|SUPERIORITY||Least Squares Mean Difference|-0.2|||=|0.111|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|=0.111
92258726|NCT02442765|184420360|SUPERIORITY||Least Squares Mean Difference|-0.5|||=|0.062|TWO_SIDED|95.0|-1.1|0.0|||ANCOVA|||||0.0|-1.1|=0.062
92258727|NCT02442765|184420360|SUPERIORITY||Least Squares Mean Difference|-0.3|||=|0.305|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||||0.3|-0.8|=0.305
92258728|NCT02442765|184420360|SUPERIORITY||SPCD OLS weighted z-statistic|-3.01|||=|0.003|TWO_SIDED||||||ANCOVA|||||||=0.003
92258729|NCT02442765|184420360|SUPERIORITY||SPCD OLS weighted z-statistic|-1.79|||=|0.073|TWO_SIDED||||||ANCOVA|||||||=0.073
92258730|NCT02442765|184420361|SUPERIORITY||Least Squares Mean Difference|0.1|||=|0.909|TWO_SIDED|95.0|-2.2|2.5|||ANCOVA|||||2.5|-2.2|=0.909
92258731|NCT02442765|184420361|SUPERIORITY||Least Squares Mean Difference|1.4|||=|0.226|TWO_SIDED|95.0|-0.9|3.8|||ANCOVA|||||3.8|-0.9|=0.226
92258732|NCT02442765|184420361|SUPERIORITY||Least Squares Mean Difference|2.1|||=|0.405|TWO_SIDED|95.0|-2.9|7.1|||ANCOVA|||||7.1|-2.9|=0.405
92258733|NCT02442765|184420361|SUPERIORITY||Least Squares Mean Difference|-0.9|||=|0.714|TWO_SIDED|95.0|-5.8|4.0|||ANCOVA|||||4.0|-5.8|=0.714
92258734|NCT02442765|184420361|SUPERIORITY||SPCD OLS weighted z-statistic|0.75|||=|0.456|TWO_SIDED||||||ANCOVA|||||||=0.456
92258735|NCT02442765|184420361|SUPERIORITY||SPCD OLS weighted z-statistic|0.42|||=|0.678|TWO_SIDED||||||ANCOVA|||||||=0.678
92258736|NCT02442765|184420362|SUPERIORITY||Least Squares Mean Difference|-0.4|||=|0.278|TWO_SIDED|95.0|-1.1|0.3|||ANCOVA|||||0.3|-1.1|=0.278
92258737|NCT02442765|184420362|SUPERIORITY||Least Squares Mean Difference|-0.1|||=|0.817|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|||||0.6|-0.8|=0.817
92258738|NCT02442765|184420362|SUPERIORITY||Least Squares Mean Difference|-0.4|||=|0.5|TWO_SIDED|95.0|-1.4|0.7|||ANCOVA|||||0.7|-1.4|=0.500
92258739|NCT02442765|184420362|SUPERIORITY||Least Squares Mean Difference|0.1|||=|0.795|TWO_SIDED|95.0|-0.9|1.2|||ANCOVA|||||1.2|-0.9|=0.795
92258740|NCT02442765|184420362|SUPERIORITY||SPCD OLS weighted z-statistic|-1.25|||=|0.213|TWO_SIDED||||||ANCOVA|||||||=0.213
92258741|NCT02442765|184420362|SUPERIORITY||SPCD OLS weighted z-statistic|0.02|||=|0.985|TWO_SIDED||||||ANCOVA|||||||=0.985
92258742|NCT02442765|184420364|SUPERIORITY||Least Squares Mean Difference|-1.6|||=|0.018|TWO_SIDED|95.0|-2.9|-0.3|||ANCOVA|||||-0.3|-2.9|=0.018
92258743|NCT02442765|184420364|SUPERIORITY||Least Squares Mean Difference|0.0|||=|0.956|TWO_SIDED|95.0|-1.3|1.3|||ANCOVA|||||1.3|-1.3|=0.956
92258744|NCT02442765|184420364|SUPERIORITY||Least Squares Mean Difference|1.1|||=|0.451|TWO_SIDED|95.0|-1.8|4.0|||ANCOVA|||||4.0|-1.8|=0.451
92258745|NCT02442765|184420364|SUPERIORITY||Least Squares Mean Difference|0.9|||=|0.519|TWO_SIDED|95.0|-1.9|3.7|||ANCOVA|||||3.7|-1.9|=0.519
92258746|NCT02442765|184420364|SUPERIORITY||SPCD OLS weighted z-statistic|-0.72|||=|0.471|TWO_SIDED||||||ANCOVA|||||||=0.471
92258747|NCT02442765|184420364|SUPERIORITY||SPCD OLS weighted z-statistic|0.5|||=|0.618|TWO_SIDED||||||ANCOVA|||||||=0.618
92258748|NCT01693562|184420405|EQUIVALENCE|Other||||||0.016|||||||Regression, Cox|||||||0.016
92258749|NCT01693562|184420406|EQUIVALENCE|Other||||||0.0046|||||||Regression, Cox|||||||0.0046
92258750|NCT05466240|184420407|EQUIVALENCE|For each post-baseline collection time point, treatment difference and p-value comparing the mean change in viral load from baseline between treatment arms from an analysis of covariance model with covariate baseline viral load.|||||<|0.95|||||||ANCOVA|||||||<0.95
92258751|NCT02759939|184420410|SUPERIORITY||Odds Ratio (OR)|1.23||||0.8|TWO_SIDED|||||Adjusted for multiple comparisons using the Scheffe method|See below|Random effects logistic regression with a random intercept for clinic and adjustment for participant characteristics that differed across trial arms||||||0.80
92258752|NCT02759939|184420410|SUPERIORITY||Odds Ratio (OR)|1.47||||0.32|TWO_SIDED|||||Adjusted for multiple comparisons using the Scheffe method|See below|Random effects logistic regression with a random intercept for clinic and adjustment for participant characteristics that differed across trial arms||||||0.32
92258753|NCT02759939|184420410|SUPERIORITY||Odds Ratio (OR)|0.95||||0.99|TWO_SIDED|||||Adjusted for multiple comparisons using the Scheffe method|See below|Random effects logistic regression with a random intercept for clinic and adjustment for participant characteristics that differed across trial arms||||||0.99
92258754|NCT02759939|184420410|SUPERIORITY||Odds Ratio (OR)|0.8||||0.72|TWO_SIDED|||||Adjusted for multiple comparisons using the Scheffe method|See below|Random effects logistic regression with a random intercept for clinic and adjustment for participant characteristics that differed across trial arms||||||0.72
92284449|NCT01969747|184472652|SUPERIORITY_OR_OTHER||Adjusted mean|104.81|STANDARD_ERROR_OF_MEAN|8.99|<|0.0001|TWO_SIDED|95.0|86.88|122.74|||ANCOVA||The model includes baseline UGE as linear covariate(s) and treatment as fixed effect(s).|Comparison of Empagliflozin 25 mg with Placebo||122.74|86.88|<0.0001
92284450|NCT04000815|184472653|OTHER||||||<|0.017||||||p-value is adjusted for multiple comparisons|Kruskal-Wallis|||||||<0.017
92258755|NCT04735432|184420431|NON_INFERIORITY|This was a phase 3, multicenter, randomized, open-label, parallel-group, 12-week study to evaluate the noninferiority of the pharmacodynamic effect of efgartigimod PH20 SC 1000 mg compared with efgartigimod IV 10 mg/kg in patients with generalized myasthenia gravis.|LS mean difference|-4.2|STANDARD_ERROR_OF_MEAN|1.782|<|0.0001|TWO_SIDED|95.0|-7.73|-0.66|||ANCOVA|||The primary endpoint was analyzed using an ANCOVA model with treatment as a factor and total IgG levels at baseline as a covariate. The NI evaluation was based on a percent reduction from baseline in total IgG levels at day 29 (week 4) using an NI margin of 10%. Only the results for mITT analysis set are entered.||-0.66|-7.73|< 0.0001
92258756|NCT04657003|184420481|SUPERIORITY||LSMean Mean Difference (Net)|-10.1|||<|0.001|TWO_SIDED|95.0|-11.5|-8.8|||Mixed Models Analysis|||||-8.8|-11.5|<0.001
92258757|NCT04657003|184420481|SUPERIORITY||LSMean Mean Difference (Net)|-12.4|||<|0.001|TWO_SIDED|95.0|-13.7|-11.0|||Mixed Models Analysis|||||-11.0|-13.7|<0.001
92258758|NCT04657003|184420482|SUPERIORITY||Odds Ratio (OR)|10.75|||<|0.001|TWO_SIDED|95.0|7.3|15.84|||Regression, Logistic|||||15.84|7.30|<0.001
92258759|NCT04657003|184420482|SUPERIORITY||Odds Ratio (OR)|15.28|||<|0.001|TWO_SIDED|95.0|10.08|23.14|||Regression, Logistic|||||23.14|10.08|<0.001
92258760|NCT04657003|184420483|SUPERIORITY||Odds Ratio (OR)|20.94|||<|0.001|TWO_SIDED|95.0|13.06|33.58|||Regression, Logistic|||||33.58|13.06|<0.001
92258761|NCT04657003|184420483|SUPERIORITY||Odds Ratio (OR)|27.5|||<|0.001|TWO_SIDED|95.0|17.04|44.39|||Regression, Logistic|||||44.39|17.04|<0.001
92258762|NCT04657003|184420484|SUPERIORITY||Odds Ratio (OR)|28.38|||<|0.001|TWO_SIDED|95.0|13.81|58.31|||Regression, Logistic|||||58.31|13.81|<0.001
92258763|NCT04657003|184420484|SUPERIORITY||Odds Ratio (OR)|43.6|||<|0.001|TWO_SIDED|95.0|21.2|89.67|||Regression, Logistic|||||89.67|21.20|<0.001
92258764|NCT04657003|184420485|SUPERIORITY||Odds Ratio (OR)|28.54|||<|0.001|TWO_SIDED|95.0|9.73|83.73|||Regression, Logistic|||||83.73|9.73|<0.001
92258765|NCT04657003|184420485|SUPERIORITY||Odds Ratio (OR)|49.68|||<|0.001|TWO_SIDED|95.0|17.03|144.94|||Regression, Logistic|||||144.94|17.03|<0.001
92258766|NCT04657003|184420486|SUPERIORITY||LSMean Mean Difference (Net)|-10.3|||<|0.001|TWO_SIDED|95.0|-11.7|-8.8|||Mixed Models Analysis|||||-8.8|-11.7|<0.001
92258767|NCT04657003|184420486|SUPERIORITY||LSMean Mean Difference (Net)|-12.4|||<|0.001|TWO_SIDED|95.0|-13.8|-11.0|||Mixed Models Analysis|||||-11.0|-13.8|<0.001
92179761|NCT01074294|184257502|SUPERIORITY||Risk Ratio (RR)|0.93||||0.6265|TWO_SIDED|95.0|0.71|1.23||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||1.23|0.71|0.6265
92258768|NCT04657003|184420487|SUPERIORITY||LSMean Mean Difference (Net)|-3.7|||<|0.001|TWO_SIDED|95.0|-4.2|-3.2|||Mixed Models Analysis|||||-3.2|-4.2|<0.001
92258769|NCT04657003|184420487|SUPERIORITY||LSMean Mean Difference (Net)|-4.5|||<|0.001|TWO_SIDED|95.0|-5.0|-4.0|||Mixed Models Analysis|||||-4.0|-5.0|<0.001
92258770|NCT04657003|184420488|SUPERIORITY||LSMean Mean Difference (Net)|-1.97|||<|0.001|TWO_SIDED|95.0|-2.15|-1.8|||Mixed Models Analysis|||||-1.80|-2.15|<0.001
92258771|NCT04657003|184420488|SUPERIORITY||LSMean Mean Difference (Net)|-2.06|||<|0.001|TWO_SIDED|95.0|-2.24|-1.88|||Mixed Models Analysis|||||-1.88|-2.24|<0.001
92258772|NCT04657003|184420489|SUPERIORITY||Odds Ratio (OR)|28.01|||<|0.001|TWO_SIDED|95.0|17.21|45.59|||Regression, Logistic|||||45.59|17.21|<0.001
92258773|NCT04657003|184420489|SUPERIORITY||Odds Ratio (OR)|34.19|||<|0.001|TWO_SIDED|95.0|20.27|57.67|||Regression, Logistic|||||57.67|20.27|<0.001
92258774|NCT04657003|184420490|SUPERIORITY||Odds Ratio (OR)|42.11|||<|0.001|TWO_SIDED|95.0|25.61|69.26|||Regression, Logistic|||||69.26|25.61|<0.001
92284451|NCT04000815|184472654|OTHER||||||<|0.05|||||||Bi-variate correlation analysis|Bi-variate correlation analyses were performed in groups 1 and 2 between serum CNP and FSH and between serum CNP and LH using Spearman test.||||||<0.05
92284452|NCT04000815|184472655|OTHER||||||<|0.05|||||||Bi-variate correlation|Spearman test was applied.||||||<0.05
92258775|NCT04657003|184420490|SUPERIORITY||Odds Ratio (OR)|58.67|||<|0.001|TWO_SIDED|95.0|34.29|100.37|||Regression, Logistic|||||100.37|34.29|<0.001
92258776|NCT04657003|184420491|SUPERIORITY||Odds Ratio (OR)|42.55|||<|0.001|TWO_SIDED|95.0|20.46|88.5|||Regression, Logistic|||||88.50|20.46|<0.001
92258777|NCT04657003|184420491|SUPERIORITY||Odds Ratio (OR)|54.3|||<|0.001|TWO_SIDED|95.0|26.0|113.38|||Regression, Logistic|||||113.38|26.00|<0.001
92258778|NCT04657003|184420492|SUPERIORITY||LSMean Mean Difference (Net)|-46.79|||<|0.001|TWO_SIDED|95.0|-52.67|-40.91|||Mixed Models Analysis|||||-40.91|-52.67|<0.001
92258779|NCT04657003|184420492|SUPERIORITY||LSMean Mean Difference (Net)|-49.25|||<|0.001|TWO_SIDED|95.0|-55.18|-43.33|||Mixed Models Analysis|||||-43.33|-55.18|<0.001
92258780|NCT04657003|184420493|SUPERIORITY||LSMean Mean Difference (Net)|-7.8|||<|0.001|TWO_SIDED|95.0|-9.2|-6.4|||Mixed Models Analysis|||||-6.4|-9.2|<0.001
92258781|NCT04657003|184420493|SUPERIORITY||LSMean Mean Difference (Net)|-10.4|||<|0.001|TWO_SIDED|95.0|-11.8|-8.9|||Mixed Models Analysis|||||-8.9|-11.8|<0.001
92258782|NCT04657003|184420494|SUPERIORITY||Estimate Difference|-4.61|||<|0.001|TWO_SIDED|95.0|-7.11|-2.03|||Mixed Models Analysis|||||-2.03|-7.11|<0.001
92258783|NCT04657003|184420495|SUPERIORITY||Estimate Difference|-3.36||||0.112|TWO_SIDED|95.0|-7.36|0.81|||Mixed Models Analysis|||||0.81|-7.36|0.112
92258784|NCT04657003|184420496|SUPERIORITY||Estimate Difference|7.02|||<|0.001|TWO_SIDED|95.0|4.4|9.71|||Mixed Models Analysis|||||9.71|4.40|<0.001
92258785|NCT04657003|184420497|SUPERIORITY||Estimate Difference|-23.3|||<|0.001|TWO_SIDED|95.0|-27.5|-18.9|||Mixed Models Analysis|||||-18.9|-27.5|<0.001
92258786|NCT04657003|184420498|SUPERIORITY||Estimate Difference|-24.2|||<|0.001|TWO_SIDED|95.0|-28.6|-19.6|||Mixed Models Analysis|||||-19.6|-28.6|<0.001
92258787|NCT04657003|184420499|SUPERIORITY||Estimate Difference|-8.74|||<|0.001|TWO_SIDED|95.0|-12.04|-5.32|||Mixed Models Analysis|||||-5.32|-12.04|<0.001
92258788|NCT04657003|184420500|SUPERIORITY||Estimate Difference|-23.61|||<|0.001|TWO_SIDED|95.0|-28.62|-18.24|||Mixed Models Analysis|||||-18.24|-28.62|<0.001
92258789|NCT04657003|184420501|SUPERIORITY||LSMean Mean Difference (Net)|-6.2|||<|0.001|TWO_SIDED|95.0|-8.0|-4.4|||Mixed Models Analysis|||||-4.4|-8.0|<0.001
92258790|NCT04657003|184420502|SUPERIORITY||LSMean Mean Difference (Net)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.5|-1.3|||Mixed Models Analysis|||||-1.3|-3.5|<0.001
92179762|NCT01074294|184257503|SUPERIORITY||Risk Ratio (RR)|1.1||||0.8586|TWO_SIDED|95.0|0.4|3.03||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||3.03|0.40|0.8586
92179763|NCT01074294|184257503|SUPERIORITY||Risk Ratio (RR)|0.95||||0.8984|TWO_SIDED|95.0|0.46|1.99||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||1.99|0.46|0.8984
92179764|NCT01074294|184257503|SUPERIORITY||Risk Ratio (RR)|0.99||||0.9778|TWO_SIDED|95.0|0.57|1.74||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||1.74|0.57|0.9778
92179765|NCT01074294|184257503|SUPERIORITY||Risk Ratio (RR)|0.92||||0.7315|TWO_SIDED|95.0|0.56|1.5||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||1.50|0.56|0.7315
92179766|NCT01074294|184257503|SUPERIORITY||Risk Ratio (RR)|0.9||||0.6518|TWO_SIDED|95.0|0.57|1.42||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||1.42|0.57|0.6518
92179767|NCT01074294|184257503|SUPERIORITY||Risk Ratio (RR)|0.82||||0.3472|TWO_SIDED|95.0|0.55|1.23||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||1.23|0.55|0.3472
92179768|NCT01074294|184257504|SUPERIORITY||Risk Ratio (RR)|0.98||||0.9577|TWO_SIDED|95.0|0.44|2.16||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||2.16|0.44|0.9577
92258791|NCT04657003|184420503|SUPERIORITY||Estimate Difference|-17.6|||<|0.001|TWO_SIDED|95.0|-25.5|-8.9|||Mixed Models Analysis|||||-8.9|-25.5|<0.001
92258792|NCT04657003|184420503|SUPERIORITY||Estimate Difference|-30.2|||<|0.001|TWO_SIDED|95.0|-37.0|-22.7|||Mixed Models Analysis|||||-22.7|-37.0|<0.001
92258793|NCT04657003|184420504|SUPERIORITY||LSMean Mean Difference (Net)|1.8||||0.001|TWO_SIDED|95.0|0.7|2.9|||ANCOVA|||||2.9|0.7|0.001
92179769|NCT01074294|184257504|SUPERIORITY||Risk Ratio (RR)|1.19||||0.5864|TWO_SIDED|95.0|0.63|2.27||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||2.27|0.63|0.5864
92179770|NCT01074294|184257504|SUPERIORITY||Risk Ratio (RR)|0.96||||0.8723|TWO_SIDED|95.0|0.57|1.6||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||1.60|0.57|0.8723
92179771|NCT01074294|184257504|SUPERIORITY||Risk Ratio (RR)|1.0||||0.9872|TWO_SIDED|95.0|0.65|1.52||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||1.52|0.65|0.9872
92179772|NCT01074294|184257504|SUPERIORITY||Risk Ratio (RR)|0.8||||0.3171|TWO_SIDED|95.0|0.52|1.23||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||1.23|0.52|0.3171
92179773|NCT01074294|184257504|SUPERIORITY||Risk Ratio (RR)|0.87||||0.4782|TWO_SIDED|95.0|0.6|1.27||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||1.27|0.60|0.4782
92258794|NCT04657003|184420504|SUPERIORITY||LSMean Mean Difference (Net)|2.3|||<|0.001|TWO_SIDED|95.0|1.1|3.4|||ANCOVA|||||3.4|1.1|<0.001
92258795|NCT04657003|184420505|SUPERIORITY||LSMean Difference (Net)|6.9|||<|0.001|TWO_SIDED|95.0|4.1|9.7|||ANCOVA|||||9.7|4.1|<0.001
92284453|NCT04000815|184472656|OTHER||||||<|0.05|||||||Bi-variate correlation analyses|Bi-variate correlation analyses were performed for all subjects in groups 1 and 2 between serum CNP and E2 using Spearman test.||||||<0.05
92179774|NCT01074294|184257505|SUPERIORITY||Risk Ratio (RR)|1.19||||0.7232|TWO_SIDED|95.0|0.45|3.19||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||3.19|0.45|0.7232
92182848|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-2.9|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||1.1|-2.9|
92258796|NCT04657003|184420505|SUPERIORITY||LSMean Difference (Net)|7.8|||<|0.001|TWO_SIDED|95.0|5.0|10.7|||ANCOVA|||||10.7|5.0|<0.001
92258797|NCT02987205|184420533|NON_INFERIORITY|If the upper bound of this 95% CI was less than the prespecified non-inferiority limit of 0.50, the Test product would be claimed to be non-inferior to the Comparator product.||||||0.013||||||Wilcoxon matched-pairs signed rank test|Wilcoxon (Mann-Whitney)|||||||0.0130
92258798|NCT00848172|184420566|SUPERIORITY_OR_OTHER||||||=|0.345||95.0|||||Mixed Models Analysis|||||||=0.345
92258799|NCT00848172|184420567|SUPERIORITY_OR_OTHER||||||=|0.031||95.0|||||Mixed Models Analysis|||||||=0.031
92258800|NCT05306964|184420570|OTHER|||||||0.5|||||||GLMM|||||||0.5
92258801|NCT05306964|184420571|OTHER|||||||0.4|||||||GLMM|||||||0.4
92258802|NCT05306964|184420572|OTHER|||||||0.5|||||||GLMM|||||||0.5
92258803|NCT05306964|184420573|OTHER|||||||0.3|||||||GLMM|||||||0.3
92258804|NCT05306964|184420574|OTHER|||||||0.4|||||||GLMM|||||||0.4
92258805|NCT05306964|184420575|OTHER|||||||0.5|||||||GLMM|||||||0.5
92258806|NCT05306964|184420576|OTHER|||||||0.3|||||||GLMM|||||||0.3
92258807|NCT05306964|184420577|OTHER|||||||0.3|||||||GLMM|||||||0.3
92258808|NCT05306964|184420578|OTHER|||||||0.7|||||||GLMM|||||||0.7
92258809|NCT05306964|184420579|OTHER|||||||0.2|||||||GLMM|||||||0.2
92258810|NCT05306964|184420580|OTHER|||||||0.02|||||||GLMM|||||||0.02
92258811|NCT05306964|184420581|OTHER|||||||0.2|||||||GLMM|||||||0.2
92258812|NCT05306964|184420582|OTHER|||||||0.7|||||||GLMM|||||||0.7
92258813|NCT05306964|184420583|OTHER|||||||0.1|||||||GLMM|||||||0.1
92258814|NCT05306964|184420584|OTHER|||||||0.2|||||||GLMM|||||||0.2
92258815|NCT05306964|184420585|OTHER||||||<|0.001|||||||GLMM|||||||<0.001
92258816|NCT05306964|184420586|OTHER|||||||0|||||||GLMM|||||||0
92258817|NCT05306964|184420587|OTHER|||||||0.5|||||||GLMM|||||||0.5
92258818|NCT05306964|184420588|OTHER|||||||0.9|||||||GLMM|||||||0.9
92258819|NCT05306964|184420589|OTHER|||||||0.8|||||||GLMM|||||||0.8
92258820|NCT05306964|184420590|OTHER|||||||0|||||||GLMM|||||||0
92258821|NCT05306964|184420591|OTHER|||||||0|||||||GLMM|||||||0
92258822|NCT05306964|184420592|OTHER|||||||0.2|||||||GLMM|||||||0.2
92258823|NCT05306964|184420593|OTHER|||||||0|||||||GLMM|||||||0
92258824|NCT05306964|184420594|OTHER|||||||0.9|||||||GLMM|||||||0.9
92258825|NCT05306964|184420595|OTHER|||||||0|||||||GLMM|||||||0
92258826|NCT05306964|184420596|OTHER|||||||0.9|||||||GLMM|||||||0.9
92258827|NCT05306964|184420597|OTHER|||||||0|||||||GLMM|||||||0
92258828|NCT05306964|184420598|OTHER|||||||0|||||||GLMM|||||||0
92258829|NCT05306964|184420599|OTHER|||||||0|||||||GLMM|||||||0
92258830|NCT05306964|184420600|OTHER|||||||0.5|||||||GLMM|||||||0.5
92258831|NCT05306964|184420601|OTHER|||||||0.2|||||||GLMM|||||||0.2
92258832|NCT05306964|184420602|OTHER|||||||0.3|||||||GLMM|||||||0.3
92258833|NCT00750867|184420639|SUPERIORITY_OR_OTHER|||||||0.0128||||||The P-Value was obtained by comparing the UMSARS-I scores at final visit and at baseline.|ANOVA|||||||0.0128
92258834|NCT00750867|184420639|SUPERIORITY_OR_OTHER|||||||0.025||||||The P-Value was obtained by comparing the UMSARS-II scores at final visit and at baseline.|ANOVA|||||||0.025
92258835|NCT04652102|184420640|SUPERIORITY||Proportion|0.364|||||TWO_SIDED|95.826|0.299|0.433|||||Derived from an exact 2-sided 95.826% Pearson-Clopper confidence interval (CI) on proportion of cases coming from the CVnCoV group among all cases.|Proportion of cases coming from the CVnCoV group among all cases.||0.433|0.299|
92258836|NCT04652102|184420640|OTHER||Vaccine Efficacy|48.2||||0.016|TWO_SIDED|95.826|31.0|61.4||1-sided p-value from the exact binomial test on proportion of cases coming from the CVnCoV group among all cases (equivalent to a test on VE with H0: VE ≤30%). Statistically significant if lower than 0.02087.|Exact Binomial Test||2-sided 95.826% CI on VE, derived from the exact 2-sided 95.826% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|Vaccine efficacy (VE) calculated as VE = 1 - p/(1-p) \*1/r where p represents the proportion of cases coming from the CVnCoV group among all cases and r represents the ratio of total follow-up time of subjects in the CVnCoV group over the total follow-up time of subjects in the placebo group.||61.4|31.0|0.01600
92258837|NCT04652102|184420652|SUPERIORITY||Proportion|0.245|||||TWO_SIDED|95.0|0.133|0.389|||||Derived from an exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|Proportion of cases coming from the CVnCoV group among all cases.||0.389|0.133|
92258838|NCT04652102|184420652|SUPERIORITY||Vaccine Efficacy|70.7|||||TWO_SIDED|95.0|42.5|86.1|||||2-sided 95% CI on VE, derived from the exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|VE calculated as VE = 1 - p/(1-p) \*1/r where p represents the proportion of cases coming from the CVnCoV group among all cases and r represents the ratio of total follow-up time of subjects in the CVnCoV group over the total follow-up time of subjects in the placebo group.||86.1|42.5|
92258839|NCT04652102|184420653|SUPERIORITY||Proportion|0.286|||||TWO_SIDED|95.0|0.084|0.581|||||Derived from an exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|Proportion of cases coming from the CVnCoV group among all cases.||0.581|0.084|
92258840|NCT04652102|184420653|SUPERIORITY||Vaccine Efficacy|63.8|||||TWO_SIDED|95.0|-25.5|91.7|||||2-sided 95% CI on VE, derived from the exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|VE calculated as VE = 1 - p/(1-p) \*1/r where p represents the proportion of cases coming from the CVnCoV group among all cases and r represents the ratio of total follow-up time of subjects in the CVnCoV group over the total follow-up time of subjects in the placebo group.||91.7|-25.5|
92258841|NCT04652102|184420654|SUPERIORITY||Proportion|0.341|||||TWO_SIDED|95.0|0.242|0.452|||||Derived from an exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|Proportion of cases coming from the CVnCoV group among all cases.||0.452|0.242|
92258842|NCT04652102|184420654|SUPERIORITY||Vaccine Efficacy|53.2|||||TWO_SIDED|95.0|25.4|71.2|||||2-sided 95% CI on VE, derived from the exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|VE calculated as VE = 1 - p/(1-p) \*1/r where p represents the proportion of cases coming from the CVnCoV group among all cases and r represents the ratio of total follow-up time of subjects in the CVnCoV group over the total follow-up time of subjects in the placebo group.||71.2|25.4|
92258843|NCT04652102|184420655|SUPERIORITY||Proportion|0.571|||||TWO_SIDED|95.0|0.34|0.782|||||Derived from an exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|Proportion of cases coming from the CVnCoV group among all cases.||0.782|0.340|
92258844|NCT04652102|184420655|SUPERIORITY||Vaccine Efficacy|-11.8|||||TWO_SIDED|95.0|-200.5|56.7|||||2-sided 95% CI on VE, derived from the exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|VE calculated as VE = 1 - p/(1-p) \*1/r where p represents the proportion of cases coming from the CVnCoV group among all cases and r represents the ratio of total follow-up time of subjects in the CVnCoV group over the total follow-up time of subjects in the placebo group.||56.7|-200.5|
92258845|NCT01756833|184420686|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.035||0.71|TWO_SIDED|95.0|-0.07|0.07||Two prespecified interim analyses for efficacy performed when 1/3 \& 2/3 of primary outcome available, significance level, 1-sided, alpha=.0005. Final analysis 1-sided, alpha=.024. Futility analysis performed when \~2/3 primary outcome was available.|ANCOVA on normal scores|||"Null hypothesis: normal score of MTD at follow-up adjusted for baseline and gender in doxycycline assigned patients - normal score of MTD at follow-up adjusted for baseline and gender in placebo assigned patients = 0.~Sample size: The criterion (alpha) set for statistical significance was 1-sided .025; use of this level means that the inference from the test result will be the same as the inference from 2-sided testing at the .05 significance level."|For the primary analysis, diameters at baseline were ranked from smallest to largest (ranks 1-254). At the 2-year follow-up, ranks 1 through 225 were assigned to the diameters of surviving patients with no aneurysm repair (with missing values estimated by multiple imputation), ranks 226 through 247 were assigned to surviving patients who underwent aneurysm repair (in order of longest to shortest time from randomization to repair), and ranks 248 through 254 were assigned to patients who died (in order of longest to shortest time from randomization to death). Each rank was converted to a normal score corresponding to the value on the standard normal curve (z score) of its percentile among all 254 ranks. The primary analysis was based on linear regression of the change in normal scores from baseline to 2 years. Independent variables were baseline normal score, sex, and a dichotomous variable for the randomly assigned treatment group (0 for placebo, 1 for doxycycline).|0.07|-0.07|0.71
92258846|NCT00808132|184420702|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|1.51|||<|0.001|TWO_SIDED|95.0|0.822|2.201|||ANCOVA|||Analysis of covariance (ANCOVA) model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||2.201|0.822|<0.001
92258847|NCT00808132|184420702|SUPERIORITY_OR_OTHER||LS Mean Difference|1.87|||<|0.001|TWO_SIDED|95.0|1.209|2.533|||ANCOVA|||ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||2.533|1.209|<0.001
92258848|NCT00808132|184420703|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.017|TWO_SIDED|95.0|0.139|1.47|||ANCOVA|||ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||1.470|0.139|0.017
92258849|NCT00808132|184420703|SUPERIORITY_OR_OTHER||LS Mean Difference|1.19|||<|0.001|TWO_SIDED|95.0|0.556|1.83|||ANCOVA|||ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||1.830|0.556|<0.001
92258850|NCT00808132|184420704|SUPERIORITY_OR_OTHER||LS Mean Difference|1.32|||<|0.001|TWO_SIDED|95.0|0.901|1.742|||ANCOVA|||Month 6: ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||1.742|0.901|<0.001
92258851|NCT00808132|184420704|SUPERIORITY_OR_OTHER||LS Mean Difference|1.21|||<|0.001|TWO_SIDED|95.0|0.756|1.671|||ANCOVA|||Month 12: ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||1.671|0.756|<0.001
92258852|NCT00808132|184420704|SUPERIORITY_OR_OTHER||LS Mean Difference|1.56|||<|0.001|TWO_SIDED|95.0|1.152|1.962|||ANCOVA|||Month 6: ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||1.962|1.152|<0.001
92258853|NCT00808132|184420704|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|||<|0.001|TWO_SIDED|95.0|1.164|2.044|||ANCOVA|||Month 12: ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||2.044|1.164|<0.001
92258854|NCT00808132|184420705|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED||||||Fisher Exact|||||||0.138
92258855|NCT00808132|184420705|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
92258856|NCT00808132|184420705|SUPERIORITY_OR_OTHER|||||||0.765|TWO_SIDED||||||Fisher Exact|||||||0.765
92258857|NCT00808132|184420705|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
92258858|NCT00808132|184420705|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
92284454|NCT00377260|184472699|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of clinical treatment failures by the on-therapy visit.||||< .001
92284455|NCT00377260|184472700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of clinical failures by the end of therapy.||||< .001
92258859|NCT00808132|184420706|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.832|TWO_SIDED|95.0|-0.632|0.509|||ANCOVA|||ANCOVA model was used with treatment and region as factors and baseline as a covariate.||0.509|-0.632|0.832
92258860|NCT00808132|184420706|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13||||0.651|TWO_SIDED|95.0|-0.696|0.436|||ANCOVA|||ANCOVA model was used with treatment and region as factors and baseline as a covariate.||0.436|-0.696|0.651
92258861|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258862|NCT00808132|184420707|SUPERIORITY_OR_OTHER|||||||0.0074|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0074
92258863|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258864|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258865|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258866|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258867|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258868|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258869|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258870|NCT00808132|184420707|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0016
92258871|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258872|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258873|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258874|NCT00808132|184420707|SUPERIORITY_OR_OTHER|||||||0.1058|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.1058
92258875|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258876|NCT00808132|184420707|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0024
92179775|NCT01074294|184257505|SUPERIORITY||Risk Ratio (RR)|0.99||||0.986|TWO_SIDED|95.0|0.46|2.13||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||2.13|0.46|0.9860
92258877|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258878|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258879|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258880|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258881|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258882|NCT00808132|184420707|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0012
92258883|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258884|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258885|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258886|NCT00808132|184420707|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0029
92258887|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258888|NCT00808132|184420707|SUPERIORITY_OR_OTHER|||||||0.0046|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0046
92258889|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258890|NCT00808132|184420707|SUPERIORITY_OR_OTHER|||||||0.0043|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0043
92258891|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258892|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258893|NCT00808132|184420707|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0016
92258894|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258895|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258896|NCT00808132|184420707|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
92258897|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.546|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 1-4: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.546
92179776|NCT01074294|184257505|SUPERIORITY||Risk Ratio (RR)|1.01||||0.9858|TWO_SIDED|95.0|0.52|1.95||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||1.95|0.52|0.9858
92179777|NCT01074294|184257505|SUPERIORITY||Risk Ratio (RR)|1.02||||0.9466|TWO_SIDED|95.0|0.58|1.78||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||1.78|0.58|0.9466
92179778|NCT01074294|184257505|SUPERIORITY||Risk Ratio (RR)|1.12||||0.6962|TWO_SIDED|95.0|0.63|2.0||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||2.00|0.63|0.6962
92179779|NCT01074294|184257505|SUPERIORITY||Risk Ratio (RR)|0.93||||0.7637|TWO_SIDED|95.0|0.57|1.51||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||1.51|0.57|0.7637
92258898|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.821|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 5-8: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.821
92258899|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.698|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 9-12: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.698
92179780|NCT01074294|184257506|SUPERIORITY||Risk Ratio (RR)|1.3||||0.3631|TWO_SIDED|95.0|0.73|2.33||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||2.33|0.73|0.3631
92179781|NCT01074294|184257506|SUPERIORITY||Risk Ratio (RR)|1.35||||0.2786|TWO_SIDED|95.0|0.78|2.35||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||2.35|0.78|0.2786
92258900|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.446|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 13-16: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.446
92258901|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.892|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 17-20: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.892
92258902|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 21-24: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.810
92284456|NCT00377260|184472701|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the symptom burden as measured by the respective mean scores over time.||||.02
92284457|NCT00377260|184472702|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of children who develop worsening symptoms within the first 3 days of treatment.||||.24
92179782|NCT01074294|184257506|SUPERIORITY||Risk Ratio (RR)|1.08||||0.7062|TWO_SIDED|95.0|0.72|1.62||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||1.62|0.72|0.7062
92179783|NCT01074294|184257506|SUPERIORITY||Risk Ratio (RR)|0.95||||0.7844|TWO_SIDED|95.0|0.67|1.35||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||1.35|0.67|0.7844
92258903|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.473|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 25-28: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.473
92258904|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 29-32: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.030
92258905|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.453|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 33-36: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.453
92258906|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.391|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 37-40: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.391
92258907|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.407|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 41-44: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.407
92258908|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.644|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 45-48: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.644
92258909|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.666|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 49-52: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.666
92258910|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.641|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 1-4: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.641
92258911|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.361|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 5-8: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.361
92258912|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 9-12: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.100
92258913|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.142|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 13-16: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.142
92258914|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.906|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 17-20: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.906
92258915|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.798|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 21-24: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.798
92258916|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.258|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 25-28: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.258
92258917|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.058|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 29-32: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.058
92258918|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 33-36: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.230
92179784|NCT01074294|184257506|SUPERIORITY||Risk Ratio (RR)|1.07||||0.694|TWO_SIDED|95.0|0.77|1.48||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||1.48|0.77|0.6940
92179785|NCT01074294|184257506|SUPERIORITY||Risk Ratio (RR)|1.03||||0.8697|TWO_SIDED|95.0|0.76|1.39||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||1.39|0.76|0.8697
92258919|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 37-40: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.360
92258920|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.892|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 41-44: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.892
92258921|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.912|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 45-48: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.912
92258922|NCT00808132|184420709|SUPERIORITY_OR_OTHER|||||||0.791|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 49-52: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.791
92258923|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.93||||0.253|TWO_SIDED|95.0|-7.96|2.1|||ANCOVA|||Sleep disturbance: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||2.10|-7.96|0.253
92258924|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.84||||0.127|TWO_SIDED|95.0|-8.78|1.1|||ANCOVA|||Sleep disturbance: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.10|-8.78|0.127
92258925|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.15||||0.18|TWO_SIDED|95.0|-7.76|1.46|||ANCOVA|||Snoring: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.46|-7.76|0.180
92258926|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.67||||0.247|TWO_SIDED|95.0|-7.19|1.85|||ANOVA|||Snoring: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.85|-7.19|0.247
92179786|NCT00112359|184257507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.98||||0.0006|TWO_SIDED|95.0|3.5|12.47||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, baseline CFQ-R RSS, and disease severity (FEV1 \>50% or \<=50% pred.). Treatment differences: AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in CFQ-R RSS score at Day 14.||12.47|3.50|0.0006
92258927|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.63||||0.726|TWO_SIDED|95.0|-4.15|2.9|||ANCOVA|||ASoB: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||2.90|-4.15|0.726
92258928|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.17||||0.218|TWO_SIDED|95.0|-5.63|1.29|||ANCOVA|||ASoB: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.29|-5.63|0.218
92258929|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01||||0.996|TWO_SIDED|95.0|-3.85|3.87|||ANCOVA|||Somnolence: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||3.87|-3.85|0.996
92258930|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean DIfference|0.83||||0.665|TWO_SIDED|95.0|-2.94|4.6|||ANCOVA|||Somnolence: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||4.60|-2.94|0.665
92258931|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|2.76||||0.368|TWO_SIDED|95.0|-3.26|8.78|||ANOVA|||Sleep adequacy: Month 3, ANCOVA model was used with treatment and region as factors and baseline as a covariate.||8.78|-3.26|0.368
92258932|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|2.84||||0.345|TWO_SIDED|95.0|-3.07|8.75|||ANCOVA|||Sleep adequacy: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||8.75|-3.07|0.345
92258933|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.35||||0.482|TWO_SIDED|95.0|-5.12|2.42|||ANCOVA|||Sleep problem index I: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||2.42|-5.12|0.482
92258934|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean DIfference|-2.15||||0.254|TWO_SIDED|95.0|-5.86|1.55|||ANCOVA|||Sleep problem index I: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.55|-5.86|0.254
92258935|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.97||||0.308|TWO_SIDED|95.0|-5.76|1.82|||ANCOVA|||Sleep problem index II: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.82|-5.76|0.308
92258936|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.48||||0.19|TWO_SIDED|95.0|-6.2|1.23|||ANCOVA|||Sleep problem index II: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.23|-6.20|0.190
92258937|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.55|TWO_SIDED|95.0|-0.32|0.17|||ANCOVA|||Sleep quantity: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||0.17|-0.32|0.550
92258938|NCT00808132|184420710|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.477|TWO_SIDED|95.0|-0.15|0.32|||ANCOVA|||Sleep quantity: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||0.32|-0.15|0.477
92258939|NCT00808132|184420712|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||Vasomotor function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||<0.001
92258940|NCT00808132|184420712|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||Vasomotor function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||<0.001
92258941|NCT00808132|184420712|SUPERIORITY_OR_OTHER|||||||0.68|||||||ANCOVA|||Psychosocial function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.680
92258942|NCT00808132|184420712|SUPERIORITY_OR_OTHER|||||||0.493|||||||ANCOVA|||Psychosocial function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.493
92258943|NCT00808132|184420712|SUPERIORITY_OR_OTHER|||||||0.698|||||||ANCOVA|||Physical function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.698
92258944|NCT00808132|184420712|SUPERIORITY_OR_OTHER|||||||0.055|||||||ANCOVA|||Physical function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.055
92258945|NCT00808132|184420712|SUPERIORITY_OR_OTHER|||||||0.428|||||||ANCOVA|||Sexual function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.428
92258946|NCT00808132|184420712|SUPERIORITY_OR_OTHER|||||||0.071|||||||ANCOVA|||Sexual function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.071
92258947|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.624|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||0.624
92258948|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.868|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||0.868
92258949|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.087|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||0.087
92258950|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.425|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||0.425
92258951|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.307|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||0.307
92258952|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.689|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||0.689
92258953|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.285|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||0.285
92258954|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||1.000
92258955|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.065|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||0.065
92258956|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||0.014
92258957|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||1.000
92258958|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.226|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||0.226
92258959|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||1.000
92258960|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258961|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258962|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258963|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258964|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258965|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258966|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258967|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258968|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258969|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258970|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258971|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258972|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258973|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.317|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||0.317
92258974|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.531|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||0.531
92258975|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||0.610
92258976|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.848|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||0.848
92258977|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.551|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||0.551
92258978|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||0.300
92258979|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.299|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||0.299
92258980|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||1.000
92179787|NCT00112359|184257508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.33||||0.0154|TWO_SIDED|95.0|1.22|11.43||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, baseline CFQ-R RSS, and disease severity (FEV1 \>50% or \<=50% pred.). Treatment differences: AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in CFQ-R RSS score at Day 42.||11.43|1.22|0.0154
92179788|NCT00112359|184257511|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.294|||<|0.0001|TWO_SIDED|95.0|6.288|14.299||Analysis based on two-sided test with an 0.025 a priori threshold for statistical significance as part of the methods used to control the family-wise type 1 error.|ANCOVA|ANCOVA model included treatment, disease severity (FEV1 \>50% or \<=50% pred.), and Day 0 FEV1. Treatment differences: AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in percent change in FEV1 at Day 28.||14.299|6.288|<0.0001
92179789|NCT00112359|184257512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.453|||<|0.0001|TWO_SIDED|95.0|-2.115|-0.791||Analysis based on 2-sided test with an 0.025 a priori threshold for statistical significance as part of methods used to control family-wise type 1 error.|ANCOVA|ANCOVA model included terms for treatment and disease severity (FEV1 \>50% or \<=50% pred.). Treatment differences calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change in log10 PA CFUs in sputum at Day 28.||-0.791|-2.115|< 0.0001
92179790|NCT00112359|184257513|SUPERIORITY_OR_OTHER|||||||0.2364||95.0||||Analysis based on 2-sided test with an 0.025 a priori threshold for statistical significance as part of methods used to control family-wise type 1 error.|Fisher Exact|Comparison by treatment for proportion of subjects using additional (nonprotocol-specified) antipseudomonal antibiotics at least once during study.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in number of participants using additional (nonprotocol-specified) antipseudomonal antibiotics during study.||||0.2364
92179791|NCT00112359|184257514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.71||||0.0005|TWO_SIDED|95.0|4.31|15.11||"Primary endpoint analysis based on 2-sided test with an 0.05 a priori threshold for statistical significance.~A gate-keeping procedure to control family-wise Type 1 error was established a priori for primary and key secondary endpoints."|ANCOVA|ANCOVA model includes treatment, baseline CFQ-R RSS, and disease severity (FEV1 \>50% or \<=50% pred.). Treatment differences: AZLI-placebo.||"Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in CFQ-R RSS score at Day 28.~A sample size of 70 participants per treatment group provided approximately 77% power to detect an 8-point difference in CFQ-R RSS score between treatment groups, assuming a standard deviation (SD) of 20 and a Type I error rate of 0.05."||15.11|4.31|0.0005
92179792|NCT00112359|184257515|SUPERIORITY_OR_OTHER|||||||0.064||0.0||||No adjustments were made for multiple comparisons.|Fisher Exact|Comparison by treatment group for proportion of participants hospitalized at least once between Day 0 and Day 42 (or 14 days after last study dose).||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in number of participants hospitalized at least once during the study.||||0.0640
92179793|NCT01500200|184257517|SUPERIORITY|||||||0.014||||||Hypothesis tests were two-sided with an alpha of 0.5.|Mixed Models Analysis|ALKS 5461 was compared to PBO using stage-specific MMRM for change from Baseline. Model-derived estimates were combined using pre-specified weights.||Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified weights (0.6/0.4 for Stage 1/Stage 2). Within each stage ALKS 5461 2mg/2mg was compared to placebo (i.e., ALKS 5461 2mg/2mg S1 vs Placebo S1; and ALKS 5461 2mg/2mg S2 vs Placebo S2.||||0.014
92258981|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||0.660
92284458|NCT00377260|184472703|SUPERIORITY_OR_OTHER|||||||0.35||95.0||||A weighted regression model was used with weights equal to the number of days information regarding analgesic use was reported by the parents.|Regression, Linear|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the average number of doses of analgesic medication administered by parents.||||.35
92179794|NCT01500200|184257517|SUPERIORITY|||||||0.699||||||Hypothesis tests were two-sided with an alpha of 0.05.|Mixed Models Analysis|ALKS 5461 was compared to PBO using stage-specific MMRM for change from Baseline. Model-derived estimates were combined using pre-specified weights.||Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified weights (0.6/0.4 for Stage 1/Stage 2). Within each stage ALKS 5461 8mg/8mg was compared to placebo (i.e., ALKS 5461 8mg/8mg S1 vs Placebo S1; and ALKS 5461 8mg/8mg S2 vs Placebo S2.||||0.699
92179795|NCT00312208|184257521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.978||95.0|0.86|1.16||Cumulative incidence functions in each treatment group were calculated using non-parametric Kaplan-Meier estimates.|Log Rank|||||1.16|0.86|0.978
92179796|NCT00312208|184257522|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.371||95.0|0.75|1.11||Cumulative incidences calculated in each group using non-parametric Kaplan-Meier estimates.|Log Rank|||||1.11|0.75|0.371
92179797|NCT03066609|184257529|SUPERIORITY||Odds Ratio (OR)|153.94|||<|0.0001|TWO_SIDED|95.0|54.02|438.67|||Regression, Logistic|||PASI 75||438.67|54.02|<0.0001
92258982|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.199|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||0.199
92179798|NCT03066609|184257529|SUPERIORITY||Odds Ratio (OR)|557.98|||<|0.0001|TWO_SIDED|95.0|187.2|1663.4|||Regression, Logistic|||PASI 75||1663.4|187.2|<0.0001
92258983|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||0.770
92258984|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||1.000
92258985|NCT00808132|184420713|SUPERIORITY_OR_OTHER|||||||0.769|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||0.769
92258986|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||< 0.001
92179799|NCT03066609|184257530|SUPERIORITY||Odds Ratio (OR)|75.82|||<|0.0001|TWO_SIDED|95.0|25.81|222.72|||Regression, Logistic|||IGA||222.72|25.81|<0.0001
92258987|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||< 0.001
92179800|NCT03066609|184257530|SUPERIORITY||Odds Ratio (OR)|149.71|||<|0.0001|TWO_SIDED|95.0|51.83|432.42|||Regression, Logistic|||IGA||432.42|51.83|<0.0001
92179801|NCT03066609|184257531|SUPERIORITY||Odds Ratio (OR)|114.85|||<|0.0001|TWO_SIDED|95.0|26.94|489.59|||Regression, Logistic|||PASI 90||489.59|26.94|<0.0001
92258988|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258989|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||< 0.001
92179802|NCT03066609|184257531|SUPERIORITY||Odds Ratio (OR)|246.12|||<|0.0001|TWO_SIDED|95.0|58.41|1037.1|||Regression, Logistic|||PASI 90||1037.1|58.41|<0.0001
92179803|NCT01324310|184257549|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Geometric Mean|124.4|||||TWO_SIDED|90.0|110.2|140.5|||ANOVA||"Geometric means ratio (Romidepsin + Ketoconazole/Romidepsin) and 90% CI of the ratio of geometric means are from an ANOVA model with treatment as fixed effect and subject as random effect on the natural log transformed PK values."|||140.5|110.2|
92179804|NCT01324310|184257550|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|123.7|||||TWO_SIDED|90.0|109.6|139.6|||ANOVA|||||139.6|109.6|
92179805|NCT01324310|184257551|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|124.6|||||TWO_SIDED|90.0|109.0|142.4|||ANOVA|||||142.4|109.0|
92179806|NCT01324310|184257552|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|109.5|||||TWO_SIDED|90.0|94.9|126.4|||ANOVA|||||126.4|94.9|
92179807|NCT01324310|184257553|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.7422|TWO_SIDED|90.0|-0.485|0.095|||Wilcoxon signed- rank|||"Note: The median, median difference (romidepsin + ketoconazole minus romidepsin) and 90% CI of the median difference are from Hodges-Lehmann Estimate. The P-value is from Wilcoxon signed-rank test."||0.095|-0.485|0.7422
92179808|NCT03170882|184257558|SUPERIORITY||Hazard Ratio (HR)|0.847|||=|0.477|TWO_SIDED|95.0|0.535|1.341|||Log Rank||HR obtained by unadjusted Cox's proportional hazard regression model stratified by age,international staging system(ISS),prior lines of therapy. HR\<1 was deemed to indicate better PFS in Ixazomib+Dexamethasone arm over Pomalidomide+Dexamethasone arm.|||1.341|0.535|=0.477
92258990|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258991|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||< 0.001
92179809|NCT03170882|184257559|SUPERIORITY||Hazard Ratio (HR)|1.427|||=|0.265|TWO_SIDED|95.0|0.761|2.677|||Log Rank||HR obtained by unadjusted Cox's proportional hazard regression model stratified by age, ISS and prior lines of therapy. HR \<1 was deemed to indicate longer survival time in Ixazomib + Dexamethasone arm as compared to Pomalidomide + Dexamethasone arm.|||2.677|0.761|=0.265
92258992|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258993|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258994|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||< 0.001
92284459|NCT00377260|184472704|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with protocol-defined diarrhea.||||.04
92284460|NCT00377260|184472704|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with diaper dermatitis.||||<.01
92179810|NCT03170882|184257560|SUPERIORITY||Odds Ratio (OR)|0.9|||=|0.634|TWO_SIDED|95.0|0.43|1.9|||Cochran-Mantel-Haenszel||OR was based on logistic regression model with treatment group as categorical predictor variable and age, ISS and prior lines of therapy. OR \>1 was deemed to indicate better response in Ixazomib+Dexamethasone arm over Pomalidomide+Dexamethasone arm.|||1.90|0.43|=0.634
92179811|NCT03170882|184257562|SUPERIORITY||Hazard Ratio (HR)|0.556|||||TWO_SIDED|95.0|0.288|1.073|||||HR was obtained by unadjusted Cox's proportional hazard regression model stratified by age, ISS, prior lines of therapy. HR \>1 was deemed to indicate quicker response time in Ixazomib + Dexamethasone arm over Pomalidomide + Dexamethasone arm.|||1.073|0.288|
92179812|NCT03170882|184257563|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.459|TWO_SIDED|95.0|0.506|1.361|||Log Rank||HR: obtained by unadjusted Cox's proportional hazard regression model stratified by age,ISS,prior lines of therapy. HR\<1 was deemed to indicate better disease progression prevention in Ixazomib+Dexamethasone arm over Pomalidomide+Dexamethasone arm.|||1.361|0.506|=0.459
92179813|NCT03213457|184257571|SUPERIORITY||Odds Ratio (OR)|5.51|||<|0.001|TWO_SIDED|95.0|3.711|8.176||P-value for test of difference is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||8.176|3.711|< 0.001
92179814|NCT03213457|184257571|SUPERIORITY||Odds Ratio (OR)|4.33|||<|0.001|TWO_SIDED|95.0|2.968|6.331||P-value for test of difference is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 12||6.331|2.968|< 0.001
92179815|NCT03213457|184257572|SUPERIORITY||Odds Ratio (OR)|1.82|||<|0.001|TWO_SIDED|95.0|1.275|2.605||P-value for test of difference is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||2.605|1.275|< 0.001
92258995|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258996|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258997|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258998|NCT00808132|184420713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||< 0.001
92258999|NCT01045551|184420745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.98|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05.|t-test, 2 sided|||||||0.98
92259000|NCT01045551|184420746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09|STANDARD_DEVIATION|0.9024|||TWO_SIDED|||||||||||||
92259001|NCT01846208|184420750|SUPERIORITY||Risk Difference (RD)|32.4||||0.009|TWO_SIDED|95.0|8.9|55.8|||Barnard's Exact Test|||% participants passed Year 2 SU OFC: Baked vs. Egg OIT-Randomized||55.8|8.9|0.009
92259002|NCT01846208|184420750|SUPERIORITY||Risk Difference (RD)|25.5||||0.031|TWO_SIDED|95.0|2.0|49.1|||Barnard's Exact Test|||% participants passed Year 2 SU OFC: Egg OIT-Randomized vs. Egg OIT-Assigned||49.1|2.0|0.031
92284461|NCT00377260|184472704|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with oral thrush.||||.07
92179816|NCT03213457|184257572|SUPERIORITY||Odds Ratio (OR)|1.63||||0.007|TWO_SIDED|95.0|1.146|2.326||P-value for test of difference is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 12||2.326|1.146|0.007
92179817|NCT03213457|184257573|SUPERIORITY||Least Squares (LS) Mean of Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.094|<|0.001|TWO_SIDED|95.0|-1.18|-0.809||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|mixed model repeated measures (MMRM)|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.809|-1.180|< 0.001
92179818|NCT03213457|184257574|SUPERIORITY||LS Mean of Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.088|<|0.001|TWO_SIDED|95.0|-1.19|-0.845||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.845|-1.190|< 0.001
92179819|NCT03213457|184257575|SUPERIORITY||LS Mean of Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.085|<|0.001|TWO_SIDED|95.0|-1.156|-0.823||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.823|-1.156|< 0.001
92179820|NCT03213457|184257576|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.073||0.002|TWO_SIDED|95.0|-0.367|-0.08||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.080|-0.367|0.002
92179821|NCT03213457|184257577|SUPERIORITY||LS Mean of Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.062|<|0.001|TWO_SIDED|95.0|-0.329|-0.085||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.085|-0.329|< 0.001
92179822|NCT03213457|184257578|SUPERIORITY||LS Mean of Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.056||0.004|TWO_SIDED|95.0|-0.27|-0.05||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.050|-0.270|0.004
92179823|NCT03213457|184257579|SUPERIORITY||LS Mean of Difference|-2.51|STANDARD_ERROR_OF_MEAN|0.9||0.005|TWO_SIDED|95.0|-4.283|-0.746||P-value for test of difference at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.746|-4.283|0.005
92182849|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-2.6|1.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||1.3|-2.6|
92284462|NCT00377260|184472704|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with vomiting.||||>.99
92259003|NCT01846208|184420751|SUPERIORITY||Risk Difference (RD)|64.7|||<|0.0001|TWO_SIDED|95.0|43.9|85.6|||Barnard's Exact Test|||% participants desensitized to \>=4444 mg at Year 2 OFC: Baked vs. Egg OIT-Randomized||85.6|43.9|<0.0001
92259004|NCT01846208|184420751|SUPERIORITY||Risk Difference (RD)|17.7||||0.151|TWO_SIDED|95.0|-2.3|37.7|||Barnard's Exact Test|||% participants desensitized to \>=4444 mg at Year 2 OFC: Egg OIT-Randomized vs. Egg OIT-Assigned||37.7|-2.3|0.151
92259005|NCT01846208|184420751|SUPERIORITY||Risk Difference (RD)|44.3||||0.002|TWO_SIDED|95.0|19.4|69.2|||Barnard's Exact Test|||% participants desensitized to \>=4444 mg at Year 1 OFC: Baked vs. Egg OIT-Randomized||69.2|19.4|0.002
92259006|NCT01846208|184420751|SUPERIORITY||Risk Difference (RD)|17.5||||0.181|TWO_SIDED|95.0|-6.3|41.3|||Barnard's Exact Test|||% participants desensitized to \>=4444 mg at Year 1 OFC: Egg OIT-Randomized vs. Egg OIT-Assigned||41.3|-6.3|0.181
92259007|NCT01846208|184420753|SUPERIORITY||Risk Difference (RD)|-50.2||||0.003|TWO_SIDED|95.0|-78.4|-21.9|||Barnard's Exact Test|||% participants with unrestricted consumption of unbaked (concentrated) egg 3 years after randomization: Baked vs. Egg OIT-Randomized||-21.9|-78.4|0.003
92259008|NCT01846208|184420753|SUPERIORITY||Risk Difference (RD)|33.7||||0.023|TWO_SIDED|95.0|7.2|60.1|||Barnard's Exact Test|||% participants with unrestricted consumption of unbaked (concentrated) egg 3 years after randomization: Egg OIT-Randomized vs. Egg OIT-Assigned||60.1|7.2|0.023
92259009|NCT00369928|184420760|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.88||||0.982|TWO_SIDED|80.0|0.56|1.38|||Cochran-Mantel-Haenszel|||||1.38|0.56|0.982
92284463|NCT00377260|184472704|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with rash.||||>.99
92182850|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|95.0|-2.4|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||1.6|-2.4|
92259010|NCT00369928|184420760|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.79||||0.666|TWO_SIDED|80.0|0.5|1.25|||Cochran-Mantel-Haenszel|||||1.25|0.50|0.666
92259011|NCT00281528|184420769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4476||95.0||||Group comparison was performed between group 260 mg/m\^2 ABI-007 every 3 weeks and group 130 mg/m\^2 ABI-007 weekly, as based on amended protocol, no type I error adjustment for multiplicity; a priori threshold for statistical significance is 0.05.|Cochran-Mantel-Haenszel|Stratified by study site||||||0.4476
92259012|NCT02871570|184420787|OTHER||ratio|0.7789|||||TWO_SIDED|90.0|0.6514|0.9313|||||Moderate hepatic impairment group represents the numerator, and normal hepatic function group represents the denominator.|||0.9313|0.6514|
92259013|NCT02871570|184420788|OTHER||ratio|0.7776|||||TWO_SIDED|90.0|0.6493|0.9311|||||Moderate hepatic impairment group represents the numerator, and normal hepatic function group represents the denominator.|||0.9311|0.6493|
92259014|NCT02871570|184420789|OTHER||ratio|1.2844|||||TWO_SIDED|90.0|1.0732|1.5372|||||Moderate hepatic impairment group represents the numerator, and normal hepatic function group represents the denominator.|||1.5372|1.0732|
92259015|NCT02871570|184420790|OTHER||ratio|0.7945|||||TWO_SIDED|90.0|0.5955|1.0599|||||Moderate hepatic impairment group represents the numerator, and normal hepatic function group represents the denominator.|||1.0599|0.5955|
92259016|NCT01225211|184420805|SUPERIORITY_OR_OTHER||LS Mean difference|-2.679||||0.267|TWO_SIDED|95.0|-7.484|2.125|||ANCOVA|||||2.125|-7.484|0.267
92259017|NCT01225211|184420805|SUPERIORITY_OR_OTHER||LS Mean difference|-9.676|||<|0.001|TWO_SIDED|95.0|-14.801|-4.551|||ANCOVA|||||-4.551|-14.801|<0.001
92179824|NCT03213457|184257580|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.098||0.284|TWO_SIDED|95.0|-0.298|0.088||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||0.088|-0.298|0.284
92179825|NCT03213457|184257581|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.092||0.286|TWO_SIDED|95.0|-0.279|0.083||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||0.083|-0.279|0.286
92179826|NCT03213457|184257582|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.079||0.005|TWO_SIDED|95.0|-0.375|-0.066||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.066|-0.375|0.005
92179827|NCT03213457|184257583|SUPERIORITY||LS Mean of Difference|-2.49|STANDARD_ERROR_OF_MEAN|1.158||0.032|TWO_SIDED|95.0|-4.773|-0.216||P-value for test of difference at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.216|-4.773|0.032
92179828|NCT03213457|184257584|SUPERIORITY||LS Mean of Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.322|<|0.001|TWO_SIDED|95.0|-1.774|-0.508||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.508|-1.774|< 0.001
92179829|NCT03213457|184257585|SUPERIORITY||LS Mean of Difference|-1.38|STANDARD_ERROR_OF_MEAN|0.303|<|0.001|TWO_SIDED|95.0|-1.978|-0.788||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.788|-1.978|< 0.001
92179830|NCT03213457|184257586|SUPERIORITY||LS Mean of Difference|-1.46|STANDARD_ERROR_OF_MEAN|0.276|<|0.001|TWO_SIDED|95.0|-2.002|-0.915||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.915|-2.002|< 0.001
92179831|NCT00747565|184257639|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|||ETDRS line scores used for statistical comparisons with mean Snellen values reported above.||||<0.0001
92259018|NCT01225211|184420806|SUPERIORITY_OR_OTHER||LS Mean difference|-1.306||||0.68|TWO_SIDED|95.0|-7.565|4.953|||ANCOVA|||||4.953|-7.565|0.680
92259019|NCT01225211|184420806|SUPERIORITY_OR_OTHER||LS Mean difference|-2.67||||0.409|TWO_SIDED|95.0|-9.053|3.712|||ANCOVA|||||3.712|-9.053|0.409
92259020|NCT01225211|184420806|SUPERIORITY_OR_OTHER||LS Mean difference|-4.526||||0.161|TWO_SIDED|95.0|-10.888|1.835|||ANCOVA|||||1.835|-10.888|0.161
92259021|NCT01225211|184420806|SUPERIORITY_OR_OTHER||LS Mean difference|-2.867||||0.396|TWO_SIDED|95.0|-9.543|3.81|||ANCOVA|||||3.810|-9.543|0.396
92259022|NCT01225211|184420806|SUPERIORITY_OR_OTHER||LS Mean difference|-3.78||||0.365|TWO_SIDED|95.0|-12.028|4.467|||ANCOVA|||||4.467|-12.028|0.365
92259023|NCT01225211|184420807|SUPERIORITY_OR_OTHER||LS Mean difference|0.6||||0.5978|TWO_SIDED|95.0|-1.66|2.86|||Mixed Model Repeated Measure (MMRM)|||||2.86|-1.66|0.5978
92284464|NCT00377260|184472704|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with mastoiditis.||||.99
92259024|NCT00537810|184420862|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Chi-squared|df=3||Post-treatment||||0.60
92259025|NCT00537810|184420862|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|||||||Chi-squared|df=3||6 month follow up||||0.13
92259026|NCT00537810|184420862|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Chi-squared|df=3||12 month follow up||||0.29
92179832|NCT00712179|184257674|SUPERIORITY_OR_OTHER|||||||0.981|||||||Mixed Models Analysis|||Null Hypothesis: Walking at different speeds with 15% body weight support will have no effect on EMG pattern.||||0.981
92259027|NCT00410514|184420864|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was -3 mL/sec for Qmax. Mirabegron was considered non-inferior to placebo for Qmax if the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was greater than -3 mL/sec.|LS Mean Difference|0.4|||||TWO_SIDED|95.0|-0.63|1.42|||ANCOVA||Treatment groups were compared using ANCOVA with pooled center and treatment as factors and the baseline value as a covariate. Centers with less than 12 patients were pooled before the analysis.|The study was designed to show non-inferiority of mirabegron compared to placebo for both primary outcome measures. The comparison between mirabegron 50 mg and placebo was conducted first. If non-inferiority was demonstrated in this comparison, mirabegron 100 mg was compared to placebo. However, if the first comparison did not demonstrate non-inferiority, no further comparison was made. This procedure maintained the overall type I error of one-sided 2.5%.||1.42|-0.63|
92179833|NCT00712179|184257674|SUPERIORITY_OR_OTHER|||||||0.84|||||||Mixed Models Analysis|||Null Hypothesis: Walking at self selected speed at 0%, 15% and 30% of body weight support will have no effect on EMG pattern||||0.84
92179834|NCT00712179|184257674|SUPERIORITY_OR_OTHER|||||||0.16|||||||Mixed Models Analysis|||Null Hypothesis: Walking at different speeds with 30% body weight support will have no effect on EMG pattern.||||0.16
92179835|NCT00712179|184257674|SUPERIORITY_OR_OTHER|||||||0.073|||||||Mixed Models Analysis|||Null Hypothesis: Walking at fastest comfortable speeds with different amount of body weight supports will not affect the EMG pattern.||||0.073
92179836|NCT00712179|184257674|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Null Hypothesis: Modification of non-paretic leg loading and movement by the therapist will have no effect on EMG pattern of paretic leg.||||<0.001
92284465|NCT00377260|184472704|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with perforation of their tympanic membrane.||||.08
92284466|NCT00377260|184472705|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with at least one AOM pathogen present.||||.002
92284467|NCT00377260|184472705|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Streptococcus pneumoniae present.||||<.001
92179837|NCT00712179|184257674|SUPERIORITY_OR_OTHER|||||||0.94|||||||Mixed Models Analysis|||Null Hypothesis: Modification of paretic leg loading and movement by the therapist will have significant effect on EMG pattern of non-paretic leg.||||0.94
92179838|NCT01128595|184257684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.515|||||TWO_SIDED|95.0|0.33|0.701||||||||0.701|0.330|
92179839|NCT01128595|184257684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.543|||||TWO_SIDED|95.0|0.355|0.73||||||||0.730|0.355|
92179840|NCT01128595|184257684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.195|||||TWO_SIDED|95.0|0.001|0.388||||||||0.388|0.001|
92179841|NCT01128595|184257684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.027|||||TWO_SIDED|95.0|-0.198|0.143||||||||0.143|-0.198|
92179842|NCT01128595|184257684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32|||||TWO_SIDED|95.0|0.14|0.501||||||||0.501|0.140|
92179843|NCT01128595|184257687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.484|||||TWO_SIDED|95.0|0.332|0.636||||||||0.636|0.332|
92259028|NCT00410514|184420864|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was -3 mL/sec for Qmax. Mirabegron was considered non-inferior to placebo for Qmax if the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was greater than -3 mL/sec.|LS Mean Difference|0.62|||||TWO_SIDED|95.0|-0.43|1.68|||ANCOVA||Treatment groups were compared using ANCOVA with pooled center and treatment as factors and the baseline value as a covariate. Centers with less than 12 patients were pooled before the analysis.|The study was designed to show non-inferiority of mirabegron compared to placebo for both primary outcome measures. The comparison between mirabegron 50 mg and placebo was conducted first. If non-inferiority was demonstrated in this comparison, mirabegron 100 mg was compared to placebo. However, if the first comparison did not demonstrate non-inferiority, no further comparison was made. This procedure maintained the overall type I error of one-sided 2.5%.||1.68|-0.43|
92284468|NCT00377260|184472705|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Haemophilus influenzae present.||||.85
92284469|NCT00377260|184472705|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Moraxella catarrhalis present.||||<.001
92179844|NCT01128595|184257687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.484|||||TWO_SIDED|95.0|0.33|0.638||||||||0.638|0.330|
92179845|NCT01128595|184257687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.168|||||TWO_SIDED|95.0|0.009|0.327||||||||0.327|0.009|
92179846|NCT01128595|184257687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.14|0.14||||||||0.140|-0.140|
92179847|NCT01128595|184257687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.316|||||TWO_SIDED|95.0|0.168|0.464||||||||0.464|0.168|
92179848|NCT01128595|184257688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212|||||TWO_SIDED|95.0|0.031|0.393||||||||0.393|0.031|
92179849|NCT01128595|184257688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.341|||||TWO_SIDED|95.0|0.147|0.536||||||||0.536|0.147|
92179850|NCT01128595|184257688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.477|||||TWO_SIDED|95.0|0.282|0.672||||||||0.672|0.282|
92179851|NCT01128595|184257688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|||||TWO_SIDED|95.0|0.066|0.463||||||||0.463|0.066|
92284470|NCT00377260|184472705|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Streptococcus pyogenes present.||||.28
92284471|NCT00377260|184472706|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of children colonized with penicillin-susceptible Streptococcus pneumoniae.||||< .001
92179852|NCT01128595|184257688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|||||TWO_SIDED|95.0|-0.072|0.343||||||||0.343|-0.072|
92179853|NCT01128595|184257689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|||||TWO_SIDED|95.0|-0.037|0.215||||||||0.215|-0.037|
92179854|NCT01128595|184257689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.236|||||TWO_SIDED|95.0|0.101|0.371||||||||0.371|0.101|
92179855|NCT01128595|184257689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.263|||||TWO_SIDED|95.0|0.127|0.398||||||||0.398|0.127|
92179856|NCT01128595|184257689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|||||TWO_SIDED|95.0|0.036|0.312||||||||0.312|0.036|
92179857|NCT01128595|184257689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026|||||TWO_SIDED|95.0|-0.118|0.171||||||||0.171|-0.118|
92179858|NCT00366249|184257702|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis tested for non-inferiority. Non-inferiority margin is -10%.|Mehrotra and Railker|-5.5||||||95.0|-11.0|0.1|||||Adjusted for Perfusion, Extent, Depth/tissue loss, Infection, and Sensation (PEDIS) score|Analysis provided for Cure||0.1|-11.0|
92179859|NCT00366249|184257704|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis tested for non-inferiority. Non-inferiority margin is -10%.|Mehrotra and Railkar|-6.7||||||95.0|-12.3|-1.1|||||Adjusted for PEDIS score|Analysis provided for Cure||-1.1|-12.3|
92179860|NCT00366249|184257706|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis tested for non-inferiority. Non-inferiority margin is -10%.|Mehrotra and Railkar|-6.3||||||95.0|-13.6|1.0|||||Adjusted for PEDIS score|||1.0|-13.6|
92179861|NCT00246805|184257711|SUPERIORITY_OR_OTHER||Proportions|48.0|||<|0.0001|TWO_SIDED|95.0|36.0|61.0|||Z-test for proportions|||VRS ON vs. VRS OFF||61|36|<0.0001
92179862|NCT04191824|184257732|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.7769|TWO_SIDED|95.0|-2.7|2.1||In order to maintain an overall alpha of 0.05 and account for two interim analyses, a two-sided alpha of 0.0492 was used for assessing the statistical significance in the final analysis of this primary endpoint.|t-test, 2 sided|||||2.1|-2.7|0.7769
92179863|NCT04191824|184257733|SUPERIORITY||Risk Difference (RD)|0.106|||<|0.0001|TWO_SIDED|95.0|0.061|0.151|||Chi-squared|||||0.151|0.061|<0.0001
92179864|NCT04191824|184257734|SUPERIORITY||Risk Difference (RD)|0.057||||0.0753|TWO_SIDED|95.0|-0.006|0.12|||Chi-squared|||||0.120|-0.006|0.0753
92179865|NCT04191824|184257735|SUPERIORITY||Risk Difference (RD)|0.002||||0.8044|TWO_SIDED|95.0|-0.013|0.016|||Chi-squared|||||0.016|-0.013|0.8044
92179866|NCT04191824|184257736|SUPERIORITY||Risk Difference (RD)|-0.052||||0.057|TWO_SIDED|95.0|-0.105|0.002|||Chi-squared|||||0.002|-0.105|0.0570
92179867|NCT04191824|184257737|SUPERIORITY||Risk Difference (RD)|0.045||||0.0012|TWO_SIDED|95.0|0.018|0.072|||Chi-squared|||||0.072|0.018|0.0012
92179868|NCT04191824|184257738|SUPERIORITY||Risk Difference (RD)|-0.006||||0.8483|TWO_SIDED|95.0|-0.066|0.055|||Chi-squared|||||0.055|-0.066|0.8483
92179869|NCT01371994|184257748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1745|TWO_SIDED||||||Log Rank|Based on a Log-rank test stratified by (pooled) center and Baseline daily pad usage (≤ 3 and \> 3).||The treatment difference in the primary efficacy variable was tested using a log-rank test stratified by (pooled) center and by Baseline daily pad usage (≤3 and \>3) at a 2-sided significance level of 0.05.||||0.1745
92259029|NCT00410514|184420866|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 15 cmH2O for PdetQmax. Mirabegron was considered non-inferior to placebo for PdetQmax if the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was less than 15 cmH2O.|LS Mean Difference|-5.94|||||TWO_SIDED|95.0|-13.98|2.09|||ANCOVA||Treatment groups were compared using ANCOVA with pooled center and treatment as factors and the baseline value as a covariate. Centers with less than 12 patients were pooled before the analysis.|The study was designed to show non-inferiority of mirabegron compared to placebo for both primary outcome measures. The comparison between mirabegron 50 mg and placebo was conducted first. If non-inferiority was demonstrated in this comparison, mirabegron 100 mg was compared to placebo. However, if the first comparison did not demonstrate non-inferiority, no further comparison was made. This procedure maintained the overall type I error of one-sided 2.5%.||2.09|-13.98|
92259030|NCT00410514|184420866|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 15 cmH2O for PdetQmax. Mirabegron was considered non-inferior to placebo for PdetQmax if the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was less than 15 cmH2O.|LS Mean Difference|-1.39|||||TWO_SIDED|95.0|-9.73|6.96|||ANCOVA||Treatment groups were compared using ANCOVA with pooled center and treatment as factors and the baseline value as a covariate. Centers with less than 12 patients were pooled before the analysis.|The study was designed to show non-inferiority of mirabegron compared to placebo for both primary outcome measures. The comparison between mirabegron 50 mg and placebo was conducted first. If non-inferiority was demonstrated in this comparison, mirabegron 100 mg was compared to placebo. However, if the first comparison did not demonstrate non-inferiority, no further comparison was made. This procedure maintained the overall type I error of one-sided 2.5%.||6.96|-9.73|
92259031|NCT02449915|184420884|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
92259032|NCT01436357|184420885|SUPERIORITY||Hazard Ratio (HR)|1.529||||0.317|TWO_SIDED|95.0|0.661|3.535|||Regression, Cox|||||3.535|0.661|0.317
92179870|NCT01371994|184257749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4833|||||||Cochran-Mantel-Haenszel|Cochran-Mental-Haenszel test stratified by (pooled) center||Comparison at Week 4||||0.4833
92179871|NCT01371994|184257749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5761|||||||Cochran-Mantel-Haenszel|Cochran-Mental-Haenszel test stratified by (pooled) center||Comparison at Week 8||||0.5761
92179872|NCT01371994|184257749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0592|||||||Cochran-Mantel-Haenszel|Cochran-Mental-Haenszel test stratified by (pooled) center||Comparison at Week 12||||0.0592
92179873|NCT01371994|184257749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|||||||Cochran-Mantel-Haenszel|Cochran-Mental-Haenszel test stratified by (pooled) center||Comparison of end of treatment analysis||||0.0390
92259033|NCT01436357|184420886|SUPERIORITY||Risk Difference (RD)|0.08||||0.029|TWO_SIDED|95.0|-0.01|0.16|||Fisher Exact|||||0.16|-0.01|0.029
92259034|NCT01436357|184420887|SUPERIORITY||Risk Difference (RD)|0.1||||0.015|TWO_SIDED|95.0|0.01|0.2|||Fisher Exact|||||0.20|0.01|0.015
92259035|NCT01436357|184420888|SUPERIORITY||Risk Difference (RD)|0.0||||0|TWO_SIDED||||||Fisher Exact|||||||0.00
92284472|NCT00377260|184472707|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with at least one AOM pathogen present.||||.10
92179874|NCT01371994|184257751|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.3604|TWO_SIDED|95.0|-0.14|0.38|||ANCOVA|Based on an analysis of variance model including treatment and (pooled) center as fixed factors.||Comparison at Week 4||0.38|-0.14|0.3604
92179875|NCT01371994|184257751|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.2|STANDARD_ERROR_OF_MEAN|0.14||0.0761|TWO_SIDED|95.0|-0.03|0.52|||ANCOVA|Based on an analysis of variance model including treatment and (pooled) center as fixed factors.||Comparison at Week 8||0.52|-0.03|0.0761
92179876|NCT01371994|184257751|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.4|STANDARD_ERROR_OF_MEAN|0.15||0.0149|TWO_SIDED|95.0|0.07|0.64|||ANCOVA|Based on an analysis of variance model including treatment and (pooled) center as fixed factors.||Comparison at Week 12||0.64|0.07|0.0149
92179877|NCT01371994|184257751|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0325|TWO_SIDED|95.0|0.02|0.52|||ANCOVA|Based on an analysis of variance model including treatment and (pooled) center as fixed factors.||Comparison of end of treatment analysis||0.52|0.02|0.0325
92179878|NCT01371994|184257753|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.3|STANDARD_ERROR_OF_MEAN|0.46||0.5186|TWO_SIDED|95.0|-0.6|1.19|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||1.19|-0.60|0.5186
92179879|NCT01371994|184257753|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.3|STANDARD_ERROR_OF_MEAN|0.43||0.4521|TWO_SIDED|95.0|-0.52|1.17|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||1.17|-0.52|0.4521
92179880|NCT01371994|184257755|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1493|TWO_SIDED|95.0|-0.07|0.47|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||0.47|-0.07|0.1493
92259036|NCT01436357|184420890|SUPERIORITY||Risk Difference (RD)|0.01||||0.499|TWO_SIDED|95.0|-0.08|0.1|||Fisher Exact|||||0.10|-0.08|0.499
92259037|NCT01021293|184420910|NON_INFERIORITY|Non-inferiority of Poliorix™ vaccine as compared to OPV vaccine in terms of the immune response to poliovirus type 1 one month after the third vaccine dose. Non-inferiority in terms of immunogenicity to poliovirus antigens was demonstrated if the upper limit of the 95% confidence interval (CI) on the group difference \[Control Group minus Poliorix Group\] in the percentage of seroprotected subjects|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.28|1.24||||||Non-inferiority of Poliorix™ as compared to OPV||1.24|-1.28|
92284473|NCT00377260|184472707|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Streptococcus pneumoniae present.||||.03
92284474|NCT00377260|184472707|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Haemophilus influenzae present.||||.96
92259038|NCT01021293|184420910|NON_INFERIORITY|Non-inferiority of Poliorix™ vaccine as compared to OPV vaccine in terms of the immune response to poliovirus type 2 one month after the third vaccine dose. Non-inferiority in terms of immunogenicity to poliovirus antigens was demonstrated if the upper limit of the 95% confidence interval (CI) on the group difference \[Control Group minus Poliorix Group\] in the percentage of seroprotected subjects|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.28|1.24||||||Non-inferiority of Poliorix™ as compared to OPV||1.24|-1.28|
92284475|NCT00377260|184472707|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Moraxella catarrhalis present.||||.79
92179881|NCT01371994|184257755|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1499|TWO_SIDED|95.0|-0.07|0.44|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||0.44|-0.07|0.1499
92179882|NCT01371994|184257757|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.5|STANDARD_ERROR_OF_MEAN|0.35||0.1279|TWO_SIDED|95.0|-0.16|1.23|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||1.23|-0.16|0.1279
92179883|NCT01371994|184257757|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.6|STANDARD_ERROR_OF_MEAN|0.34||0.1038|TWO_SIDED|95.0|-0.11|1.23|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||1.23|-0.11|0.1038
92284476|NCT00377260|184472707|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Streptococcus pyogenes present.||||.98
92179884|NCT01371994|184257759|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.98||0.8876|TWO_SIDED|95.0|-4.19|3.63|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||3.63|-4.19|0.8876
92179885|NCT01371994|184257759|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-2.4|STANDARD_ERROR_OF_MEAN|2.86||0.395|TWO_SIDED|95.0|-8.1|3.21|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||3.21|-8.10|0.3950
92259039|NCT01021293|184420910|NON_INFERIORITY|Non-inferiority of Poliorix™ vaccine as compared to OPV vaccine in terms of the immune response to poliovirus type 3 one month after the third vaccine dose. Non-inferiority in terms of immunogenicity to poliovirus antigens was demonstrated if the upper limit of the 95% confidence interval (CI) on the group difference \[Control Group minus Poliorix Group\] in the percentage of seroprotected subjects|Difference in seroprotection rate|-1.69|||||TWO_SIDED|95.0|-3.9|-0.44||||||Non-inferiority of Poliorix™ as compared to OPV||-0.44|-3.9|
92259040|NCT00303602|184420929|SUPERIORITY_OR_OTHER|||||||0.428||95.0||||P-value for Week 2 Change from Baseline. There was no adjustment for multiple comparisons.|Mixed Models Analysis|||||||0.428
92259041|NCT00303602|184420929|SUPERIORITY_OR_OTHER|||||||0.859||95.0||||P-value for Week 4 Change from Baseline. There was no adjustment for multiple comparisons.|Mixed Models Analysis|||||||0.859
92259042|NCT00303602|184420929|SUPERIORITY_OR_OTHER|||||||0.885||95.0||||P-value for Week 8 Change from Baseline. There was no adjustment for multiple comparisons.|Mixed Models Analysis|||||||0.885
92259043|NCT00303602|184420929|SUPERIORITY_OR_OTHER|||||||0.784||95.0||||P-value for Week 12 Change from Baseline. There was no adjustment for multiple comparisons.|Mixed Models Analysis|||||||0.784
92284477|NCT00377260|184472708|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of children colonized with penicillin-susceptible Streptococcus pneumoniae.||||.04
92284478|NCT00377260|184472709|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the probability of middle ear effusion at the on-therapy visit.||||.03
92259044|NCT00303602|184420929|SUPERIORITY_OR_OTHER|||||||0.465||95.0||||P-value for Week 16 Change from Baseline. There was no adjustment for multiple comparisons|Mixed Models Analysis|||||||0.465
92259045|NCT00303602|184420930|SUPERIORITY_OR_OTHER||Least Square Mean Change Difference|-0.19||||0.442||95.0|-0.67|0.3|||ANCOVA||Change = Endpoint minus baseline|||0.30|-0.67|0.442
92259046|NCT00303602|184420931|SUPERIORITY_OR_OTHER||Least Square Mean Change Difference|-0.32||||0.328||95.0|-0.95|0.32|||ANCOVA||Change = Endpoint minus baseline|||0.32|-0.95|0.328
92259047|NCT00303602|184420932|SUPERIORITY_OR_OTHER|||||||0.385||95.0|||||Mixed Models Analysis|||||||0.385
92259048|NCT00303602|184420933|SUPERIORITY_OR_OTHER||Least Square Mean Change Difference|0.1||||0.914||95.0|-1.65|1.84|||ANCOVA||Change = endpoint minus baseline|||1.84|-1.65|0.914
92259049|NCT00303602|184420934|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||Up to Week 16 p-value|Fisher Exact|||||||0.325
92284479|NCT00377260|184472710|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the probability of middle ear effusion at the end-of-therapy visit.||||.006
92284480|NCT00377260|184472711|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||The analysis was ITT. The number of participants equals the number of children for which at least one ear has an interpretable tympanogram at the follow-up visit.||||.04
92284481|NCT00377260|184472712|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding visits to primary care provider.||||.20
92284482|NCT00377260|184472713|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding visits to emergency room||||.90
92259050|NCT00303602|184420936|SUPERIORITY_OR_OTHER|||||||0.344||95.0|||||Mixed Models Analysis|||||||0.344
92259051|NCT00303602|184420937|SUPERIORITY_OR_OTHER|||||||0.708||95.0||||Systolic Blood Pressure Change to Endpoint p-value|Rank-Sum Test|||||||0.708
92259052|NCT00303602|184420937|SUPERIORITY_OR_OTHER|||||||0.453||95.0||||Diastolic Blood Pressure Change to Endpoint p-value|Rank-Sum Test|||||||0.453
92259053|NCT00303602|184420938|SUPERIORITY_OR_OTHER|||||||0.187||95.0||||Total Cholesterol Change to Endpoint p-value|Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.187
92259054|NCT00303602|184420938|SUPERIORITY_OR_OTHER|||||||0.163||95.0||||High-Density Lipoprotein Cholesterol Change to Endpoint p-value|Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.163
92284483|NCT00377260|184472714|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.14||95.0|||||Regression, Cox|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.|The Amoxicillin-Clavulanate arm represents the numerator and the Placebo arm represents the denominator.|Null hypothesis: There is no difference between the two groups regarding the time to resolution of symptoms where resolution is defined as AOM-SOS score \<=1.||||.14
92179886|NCT01371994|184257761|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|2.0|STANDARD_ERROR_OF_MEAN|2.43||0.4126|TWO_SIDED|95.0|-2.82|6.81|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||6.81|-2.82|0.4126
92179887|NCT01371994|184257761|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.0|STANDARD_ERROR_OF_MEAN|2.47||0.6959|TWO_SIDED|95.0|-3.92|5.85|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||5.85|-3.92|0.6959
92179888|NCT01371994|184257763|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|3.3|STANDARD_ERROR_OF_MEAN|2.81||0.2402|TWO_SIDED|95.0|-2.26|8.91|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||8.91|-2.26|0.2402
92179889|NCT01371994|184257763|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.1|STANDARD_ERROR_OF_MEAN|2.83||0.698|TWO_SIDED|95.0|-4.5|6.7|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||6.70|-4.50|0.6980
92179890|NCT01371994|184257765|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|2.0|STANDARD_ERROR_OF_MEAN|2.46||0.4067|TWO_SIDED|95.0|-2.8|6.89|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||6.89|-2.80|0.4067
92179891|NCT01371994|184257765|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.4|STANDARD_ERROR_OF_MEAN|2.36||0.8507|TWO_SIDED|95.0|-4.21|5.1|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||5.10|-4.21|0.8507
92259055|NCT00303602|184420938|SUPERIORITY_OR_OTHER|||||||0.323||95.0||||Low-Density Lipoprotein Cholesterol Change to Endpoint p-value|Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.323
92179892|NCT01371994|184257766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27|||||||Log Rank|Based on a Log-rank test stratified by (pooled) center.||||||0.2700
92179893|NCT01830595|184257770|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
92259056|NCT00303602|184420938|SUPERIORITY_OR_OTHER|||||||0.581||95.0||||Triglycerides Change to Endpoint p-value|Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.581
92259057|NCT00303602|184420939|SUPERIORITY_OR_OTHER|||||||0.227||95.0|||||Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.227
92259058|NCT00303602|184420940|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.020
92259059|NCT00303602|184420941|SUPERIORITY_OR_OTHER|||||||0.834||95.0|||||Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.834
92179894|NCT01830595|184257772|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
92179895|NCT01830595|184257773|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.10
92179896|NCT03280030|184257790|OTHER|Success criteria is considered based on point estimated Hazard ratio|Hazard Ratio, log|1.326|||||TWO_SIDED|95.0|0.624|2.818||||||||2.818|0.624|
92179897|NCT01983683|184257816|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%|Difference between 2 proportions|-4.7|||||TWO_SIDED|95.0|-10.7|1.3|||||CI for the difference between two proportions are estimated using the Wilson's score method|||1.3|-10.7|
92179898|NCT01983683|184257816|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%|Difference between 2 proportions|-3.6|||||TWO_SIDED|95.0|-9.6|2.3|||||CI for the difference between two proportions are estimated using the Wilson's score method|Sensitivity analysis with imputation for a single day with missing UBM data between one day before end-of-treatment (EOT) and 2 days after EOT||2.3|-9.6|
92179899|NCT01983683|184257817|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%|Difference between 2 proportions|-4.9|||||TWO_SIDED|95.0|-10.4|0.6|||||CI for the difference between two proportions are estimated using the Wilson' score method|||0.6|-10.4|
92179900|NCT01983683|184257818|SUPERIORITY|Superiority of cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above zero|Difference between 2 proportions|1.7|||||TWO_SIDED|95.0|-6.1|9.4|||||CI for the difference between two proportions are estimated using the Wilson's score method|||9.4|-6.1|
92179901|NCT01983683|184257819|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7794|TWO_SIDED|95.0|0.86|1.24||two-sided p-value (alpha 5%) based on log-rank test stratified by first occurrence / first recurrence and geographical region.|Log Rank|||||1.24|0.86|0.7794
92259060|NCT00303602|184420942|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals on this regression in CMH test.||||||0.022
92259061|NCT00303602|184420943|SUPERIORITY_OR_OTHER|||||||0.515||95.0||||Endpoint Metabolic Syndrome p-value|Fisher Exact|||||||0.515
92259062|NCT00303602|184420944|SUPERIORITY_OR_OTHER|||||||0.118||95.0|||||Mixed Models Analysis|||||||0.118
92259063|NCT00303602|184420945|SUPERIORITY_OR_OTHER|||||||0.161||95.0|||||Mixed Models Analysis|||||||0.161
92259064|NCT00303602|184420946|SUPERIORITY_OR_OTHER|||||||0.229||95.0|||||Mixed Models Analysis|||||||0.229
92259065|NCT01491802|184420967|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.090
92259066|NCT01491802|184420968|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.680
92284484|NCT00377260|184472715|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.37||||0.04||95.0|||||Regression, Cox|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.|The Amoxicillin-Clavulanate arm represents the numerator and the Placebo arm represents the denominator.|Null hypothesis: There is no difference between the two groups regarding the time to resolution of symptoms where resolution is defined as AOM-SOS score \<=1 on two consecutive occasions.||||.04
92284485|NCT00377260|184472716|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Generalized estimating equations|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the number of antibiotic prescriptions, exclusive of the blinded study medication.||||<.001
92259067|NCT01491802|184420969|SUPERIORITY|||||||0.197|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.197
92259068|NCT01491802|184420970|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.006
92259069|NCT01491802|184420971|SUPERIORITY|||||||0.044|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.044
92259070|NCT01491802|184420972|SUPERIORITY|||||||0.573|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.573
92259071|NCT01491802|184420973|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.960
92259072|NCT01491802|184420974|SUPERIORITY|||||||0.944|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.944
92259073|NCT01491802|184420975|SUPERIORITY|||||||0.028|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.028
92259074|NCT03993314|184420977|SUPERIORITY|||||||0.757||||||Two-sided p-value|Farrington-Manning (Score) test|||Exact Farrington-Manning (Score) test of the null hypothesis that there is no difference between the proportion of patients achieving a level of numbness of T6 or higher between the two groups.||||0.757
92259075|NCT03993314|184420978|SUPERIORITY|||||||0.186||||||Two-sided p-value|Wilcoxon (Mann-Whitney)|Test performed was an exact test; no continuity correction was used.||Exact Wilcoxon test of the null hypothesis that there is no difference between the median level of numbness between the two groups.||||0.186
92259076|NCT03993314|184420979|SUPERIORITY|||||||0.132||||||Two-sided p-value|Farrington-Manning (Score) test|||Exact Farrington-Manning (Score) test of the null hypothesis that there is no difference between the proportion of patients requiring epidural activation between the two groups.||||0.132
92259077|NCT03993314|184420980|SUPERIORITY|||||||0.833||||||Two-sided p-value|Farrington-Manning (Score) test|||Exact Farrington-Manning (Score) test of the null hypothesis that there is no difference between the proportion of patients requiring supplemental IV sedation or general anesthesia between the two groups.||||0.833
92259078|NCT03993314|184420981|SUPERIORITY|||||||0.004||||||Two-sided p-value|Wilcoxon (Mann-Whitney)|Test performed was an exact test; no continuity correction was used.||Exact Wilcoxon test of the null hypothesis that there is no difference between the median modified Bromage score between the two groups.||||0.004
92259079|NCT03993314|184420982|SUPERIORITY|||||||0.674||||||Two-sided p-value|Wilcoxon (Mann-Whitney)|Test performed was an exact test; no continuity correction was used.||Exact Wilcoxon test of the null hypothesis that there is no difference between the median modified Bromage score between the two groups.||||0.674
92259080|NCT03993314|184420983|SUPERIORITY|||||||0.196|||||||Log Rank|||Log-rank test of the null hypothesis that there is no difference in the time to discharge from the Post Anesthesia Care Unit (PACU) between the two groups.||||0.196
92259081|NCT01005966|184420988|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.01||||0.2117|TWO_SIDED|95.0|-7.75|1.73||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|Analysis of variance (ANOVA) based on a mixed model with the factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for NaF toothpaste and AmF toothpaste to be equal with respect to enamel remineralization potential.||1.73|-7.75|0.2117
92284486|NCT00377260|184472717|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the visits at which family member reported missing work, i.e. number of such visits / total number of follow-up assessment visits.||||.93
92259082|NCT01005966|184420989|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.96||||0.0002|TWO_SIDED|95.0|4.27|13.66||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel remineralization potential.||13.66|4.27|0.0002
92259083|NCT01005966|184420989|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.57||||0.0557||95.0|-0.11|9.24||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and Na MFP/NaF toothpaste (1450ppmF) to be equal with respect to enamel remineralization potential.||9.24|-0.11|0.0557
92259084|NCT01005966|184420989|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|23.55|||<|0.0001|TWO_SIDED|95.0|18.86|28.24||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel remineralization potential.||28.24|18.86|<0.0001
92284487|NCT00377260|184472718|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the visits at which family member reported making special daycare arrangements, i.e. number of such visits / total number of follow-up assessment visits.||||.66
92284488|NCT00377260|184472719|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Regression, Linear|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the groups regarding the mean parental satisfaction score at the on-therapy visit.||||.71
92179902|NCT01983683|184257820|SUPERIORITY||Least Square Mean difference|-0.044||||0.6871|TWO_SIDED|95.0|-0.26|0.17||Two-sided 5% alpha level was used|ANOVA|ANOVA model for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12.|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the diarrhea domain scores||0.17|-0.26|0.6871
92259085|NCT01005966|184420989|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.4||||0.0625|TWO_SIDED|95.0|-0.23|9.03||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the Na MFP/NaF toothpaste (1450ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel remineralization potential.||9.03|-0.23|0.0625
92259086|NCT01005966|184420989|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|18.99|||<|0.0001|TWO_SIDED|95.0|14.36|23.61||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the Na MFP/NaF toothpaste (1450ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel remineralization potential.||23.61|14.36|<0.0001
92259087|NCT01005966|184420989|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|14.59|||<|0.0001|TWO_SIDED|95.0|9.95|19.23||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (675ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel remineralization potential.||19.23|9.95|<0.0001
92179903|NCT01983683|184257820|SUPERIORITY||Least Square Mean difference|0.025||||0.7833|TWO_SIDED|95.0|-0.15|0.2||Two-sided 5% alpha level was used|ANOVA|ANOVA model for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12.|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the abdominal symptoms domain scores||0.20|-0.15|0.7833
92179904|NCT01983683|184257820|SUPERIORITY||Least Square Mean difference|0.061||||0.4145|TWO_SIDED|95.0|-0.09|0.21||Two-sided 5% alpha level was used|ANOVA|ANOVA model for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12.|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the other symptoms domain scores||0.21|-0.09|0.4145
92259088|NCT01005966|184420989|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.58||||0.0017|TWO_SIDED|95.0|2.88|12.27||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the AmF toothpaste (1400ppmF) and Na MFP/NaF toothpaste (1450ppmF) to be equal with respect to enamel remineralization potential.||12.27|2.88|0.0017
92284489|NCT00377260|184472720|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Regression, Linear|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the groups regarding the mean parental satisfaction score at the end-of-therapy visit.||||.04
92284490|NCT00377260|184472721|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Regression, Linear|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the groups regarding the mean parental satisfaction score at the follow-visit visit.||||.005
92284491|NCT00377260|184472722|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Regression, Linear|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the mean weighted average acute otitis media - severity of symptom (AOM-SOS) score (symptom burden), post-enrollment, over the first 7 days of therapy.||||.01
92284492|NCT01391793|184472754|SUPERIORITY|||||||0.16|||||||Regression, Logistic|The p-value is adjusted for the stratification variable, duration of fever, and for age at baseline (\<24 months, \>=24 months).||Null hypothesis: There is no difference between the two treatment arms regarding the proportion of children with renal scarring at the outcome DMSA renal scan.||||0.16
92284493|NCT01391793|184472755|SUPERIORITY|||||||0.25|||||||Test of equality - 2 Poisson parameters|The method used is a conditional test.||Null hypothesis: There is no difference between the two treatment arms regarding the proportion of children with severe renal scarring at the outcome DMSA renal scan.||||0.25
92284494|NCT01391793|184472756|SUPERIORITY|||||||0.07|||||||Generalized estimating equations|The p-value is adjusted for the stratification variable, duration of fever, and for age at baseline (\<24 months, \>=24 months).||Null hypothesis: There is no difference between the two treatment arms regarding the mean proportion of children with renal scarring at the outcome DMSA scan taken across the 3 radiologists.||||0.07
92284495|NCT01015625|184472757|SUPERIORITY|A two-sided significance level of 5% was used.|Cox Proportional Hazard|1.77||||0.042|TWO_SIDED|95.0|1.01|3.09|||Log Rank||From the Cox Proportional hazard model with surgery vs no surgery fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter overall survival time for surgery relative to no surgery.|To determine the effect of local therapy (surgery, Arm A) compared to systemic therapy only (Arm B) in synchronous metastasized breast cancer patients in terms of overall survival. Overall survival is defined as the time from randomization to death from any cause. Participants last known to be alive were censored at their last contact date or at the data cut-off date whichever came first.||3.09|1.01|0.042
92179905|NCT01983683|184257821|OTHER||Difference between 2 proportions|-1.1|||||TWO_SIDED|95.0|-6.5|4.2|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||4.2|-6.5|
92287090|NCT03086460|184479319|SUPERIORITY||Mean Difference (Final Values)|0.136|||<|0.001|TWO_SIDED|95.0|0.065|0.207|||ANCOVA|||"Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. CIs and p-values for CHF 1531 pMDI vs Placebo are adjusted for multiplicity (parametric simulation method by Edwards and Berry). Subjects receiving the same treatment in more than one period are included in the model with only data for the instance of each treatment, which occurred after the randomization error."||0.207|0.065|<0.001
92179906|NCT01983683|184257822|OTHER||Difference between 2 proportions|-1.6|||||TWO_SIDED|95.0|-6.5|3.3|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||3.3|-6.5|
92179907|NCT01983683|184257823|OTHER||Difference between 2 proportions|8.8|||||TWO_SIDED|95.0|1.1|16.4|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||16.4|1.1|
92259089|NCT01005966|184420989|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.97|||<|0.0001|TWO_SIDED|95.0|7.31|16.64||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for AmF toothpaste (1400ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel remineralization potential.||16.64|7.31|<0.0001
92287091|NCT03086460|184479319|SUPERIORITY||Mean Difference (Final Values)|0.186|||<|0.001|TWO_SIDED|95.0|0.113|0.258|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.258|0.113|<0.001
92259090|NCT01005966|184420989|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|26.56|||<|0.0001|TWO_SIDED|95.0|21.88|31.24||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for AmF toothpaste (1400ppmF) and placebo toothpaste (0ppmF) to be equal with respect to enamel remineralization potential.||31.24|21.88|<0.0001
92259091|NCT01005966|184420990|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|37.24||||0.7912|TWO_SIDED|95.0|-239.62|314.09||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and AmF toothpaste (1400ppmF) to be equal with respect to enamel fluoride uptake potential.||314.09|-239.62|0.7912
92259092|NCT01005966|184420990|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|532.61||||0.0002|TWO_SIDED|95.0|259.06|806.16||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and Na MFP/NaF toothpaste (1450ppmF) to be equal with respect to enamel fluoride uptake potential.||806.16|259.06|0.0002
92287092|NCT03086460|184479319|SUPERIORITY||Mean Difference (Final Values)|0.165|||<|0.001|TWO_SIDED|95.0|0.092|0.238|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.238|0.092|<0.001
92259093|NCT01005966|184420990|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|692.91|||<|0.0001|TWO_SIDED|95.0|418.73|967.09||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel fluoride uptake potential.||967.09|418.73|<0.0001
92259094|NCT01005966|184420990|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1879.4|||<|0.0001|TWO_SIDED|95.0|1605.75|2153.04||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel fluoride uptake potential.||2153.04|1605.75|<0.0001
92259095|NCT01005966|184420990|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|495.38||||0.0005|TWO_SIDED|95.0|221.09|769.66||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for AmF toothpaste (1400ppmF) and Na MFP/ NaF toothpaste (1450ppmF) and to be equal with respect to enamel fluoride uptake potential.||769.66|221.09|0.0005
92259096|NCT01005966|184420990|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|655.67|||<|0.0001|TWO_SIDED|95.0|382.41|928.93||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for AmF toothpaste (1400ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel fluoride uptake potential.||928.93|382.41|<0.0001
92259097|NCT01005966|184420990|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1842.16|||<|0.0001|TWO_SIDED|95.0|1568.73|2115.6||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for AmF toothpaste (1400ppmF) and placebo toothpaste (0ppmF) to be equal with respect to enamel fluoride uptake potential.||2115.60|1568.73|<0.0001
92259098|NCT01005966|184420990|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|160.3||||0.2448|TWO_SIDED|95.0|-110.58|431.18||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the Na MFP/NaF toothpaste (1450ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel fluoride uptake potential.||431.18|-110.58|0.2448
92259099|NCT01005966|184420990|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1346.79|||<|0.0001|TWO_SIDED|95.0|1076.46|1617.11||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the Na MFP/NaF toothpaste (1450ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel fluoride uptake potential.||1617.11|1076.46|<0.0001
92259100|NCT01005966|184420990|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1186.49|||<|0.0001|TWO_SIDED|95.0|915.38|1457.6||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (675ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel fluoride uptake potential.||1457.60|915.38|<0.0001
92259101|NCT01347931|184420991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_DEVIATION|7.0|<|0.05|TWO_SIDED|95.0|2.0|10.0|||t-test, 2 sided|||A sample size of 26 patient pairs was determined based on the assumption of a true treatment difference in mean ADL endurance time of 4 ± 7 minutes using a two-tailed, paired t test (α=0.05, power=0.80).||10|2|<0.05
92284496|NCT01015625|184472758|SUPERIORITY|A two-sided significance level of 5% was used.|Cox Proportional Hazard|1.45||||0.147|TWO_SIDED|95.0|0.87|2.42|||Log Rank||From the Cox Proportional hazard model with surgery vs no surgery fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter time to distant progression for surgery relative to no surgery.|To determine the effect of local therapy (surgery) compared to systemic therapy only in synchronous metastasized breast cancer patients in terms of time from randomization to distant progression. Distant progression is defined as detection of new lesions or progression of existing metastases in locations different then breast. Participants last known to be alive without a distant progression were censored at their last contact date or at the data cut-off date whichever came first.||2.42|0.87|0.147
92287093|NCT03086460|184479319|SUPERIORITY||Mean Difference (Final Values)|0.185|||<|0.001|TWO_SIDED|95.0|0.118|0.252|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.252|0.118|<0.001
92259102|NCT01347931|184420992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|4.0|<|0.05|TWO_SIDED|95.0|1.0|7.0|||t-test, 2 sided|||Two-tailed t test||7|1|<0.05
92259103|NCT04607291|184420997|OTHER|A logistic regression model was used to identify factors associated with screening.|||||||||||||||||"A logistic regression model was used to identify factors associated with screening. A stepwise selection procedure (alpha entry and alpha exit = 0.15) was used to determine what factors were included in the model. Overall performance is assessed using the AUC.~Factors included in the model: sex, stool test recommended by physician, know where to get stool test, fear of colonoscopy index score, ABR - afraid score, and knowledge that colonoscopy can reduce worry.~AUC: 0.71"|||
92259104|NCT04607291|184420998|OTHER|A logistic regression model was used to identify characteristics associated with high intent of getting a Fit test.||||||||||||||||Evaluating factors associated with high intent of getting a Fit test.|"A logistic regression model was used to identify factors associated with high intent of getting a fit test. A stepwise selection procedure (alpha entry and alpha exit = 0.15) was used to determine what factors were included in the model. Overall performance is assessed using the AUC.~Factors included in the model: sex, race, stool test or colonoscopy recommended by physician, know where to get stool test, CBPR score, and barriers to screening score.~AUC: 0.80"|||
92259105|NCT00626327|184420999|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM+MMRV group was considered non-inferior to that of MMRV group if the lower limit of the two-sided 95% CI of the difference in the percentage of subjects with seroconversion for measles was greater than -5%, at 6 weeks after MMRV vaccination.|Difference % (MenACWY-CRM+MMRV-MMRV)|-1.0|||||TWO_SIDED|95.0|-3.4|0.5||||||Non-inferiority of immune response to measles following one dose of MMRV administered concomitantly with MenACWY-CRM as compared to MMRV given alone.||0.5|-3.4|
92259106|NCT00626327|184420999|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM+MMRV group was considered non-inferior to that of MMRV group if the lower limit of the two-sided 95% CI of the difference in the percentage of subjects with seroconversion for mumps was greater than -5%, at 6 weeks after MMRV vaccination.|Difference % (MenACWY-CRM+MMRV - MMRV )|1.0|||||TWO_SIDED|95.0|-1.0|3.7||||||Non-inferiority of immune response to mumps following one dose of MMRV administered concomitantly with MenACWY-CRM as compared to MMRV administered alone.||3.7|-1|
92259107|NCT00626327|184420999|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM+MMRV group was considered non-inferior to that of MMRV group if the lower limit of the two-sided 95% CI of the difference in the percentage of subjects with seroconversion for rubella was greater than -5%, at 6 weeks after MMRV vaccination.|Difference% (MenACWY-CRM+MMRV-MMRV)|-2.0|||||TWO_SIDED|95.0|-4.5|0.8||||||Non-inferiority of immune response to rubella following one dose of MMRV administered concomitantly with MenACWY-CRM as compared to MMRV administered alone.||0.8|-4.5|
92259108|NCT00626327|184420999|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM+MMRV group was considered non-inferior to that of MMRV group if the lower limit of the two-sided 95% CI of the difference in the percentage of subjects with seroprotection for varicella was greater than -10%, at 6 weeks after MMRV vaccination.|Difference% (MenACWY-CRM+MMRV-MMRV)|-1.0|||||TWO_SIDED|95.0|-3.9|1.2||||||Non-inferiority of immune response to varicella following one dose of MMRV administered concomitantly with MenACWY-CRM as compared to MMRV administered alone.||1.2|-3.9|
92259109|NCT00626327|184421000|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM + MMRV group was considered non-inferior to that of MenACWY-CRM group if the lower limit of the two-sided 95% CI around the difference of the percentage of subjects with hSBA ≥1:8 at 6 weeks after the second dose of MenACWY-CRM given to 12 month old toddlers was greater than -10% for each serogroup.|Difference% (MenACWY-CRM+MMRV-MenACWY)|0.0|||||TWO_SIDED|95.0|-4.7|4.5||||||Non-inferiority of immune response of MenACWY-CRM against serogroup A when concomitantly administered with MMRV vaccine as compared to MenACWY-CRM vaccine given alone.||4.5|-4.7|
92259110|NCT00626327|184421000|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM + MMRV group was considered non-inferior to that of MenACWY-CRM group if the lower limit of the two-sided 95% CI around the difference of the percentage of subjects with hSBA ≥1:8 at 6 weeks after the second dose of MenACWY-CRM given to 12 month old toddlers was greater than -10% for each serogroup.|Difference% (MenACWY-CRM+MMRV-MenACWY)|0.0|||||TWO_SIDED|95.0|-1.8|1.9||||||Non-inferiority of immune response of MenACWY-CRM against serogroup C when concomitantly administered with MMRV vaccine as compared to MenACWY-CRM vaccine given alone.||1.9|-1.8|
92259111|NCT00626327|184421000|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM + MMRV group was considered non-inferior to that of MenACWY-CRM group if the lower limit of the two-sided 95% CI around the difference of the percentage of subjects with hSBA ≥1:8 at 6 weeks after the second dose of MenACWY-CRM given to 12 month old toddlers was greater than -10% for each serogroup.|Difference% (MenACWY-CRM+MMRV-MenACWY)|1.0|||||TWO_SIDED|95.0|-1.3|3.9||||||Non-inferiority of immune response of MenACWY-CRM against serogroup W-135 when concomitantly administered with MMRV vaccine as compared to MenACWY vaccine given alone.||3.9|-1.3|
92259112|NCT00626327|184421000|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM + MMRV group was considered non-inferior to that of MenACWY-CRM group if the lower limit of the two-sided 95% CI around the difference of the percentage of subjects with hSBA ≥1:8 at 6 weeks after the second dose of MenACWY-CRM given to 12 month old toddlers was greater than -10% for each serogroup.|Difference% (MenACWY-CRM+MMRV-MenACWY)|2.0|||||TWO_SIDED|95.0|-1.9|5.3||||||Non-inferiority of immune response of MenACWY-CRM against serogroup Y when concomitantly administered with MMRV vaccine as compared to MenACWY-CRM vaccine given alone.||5.3|-1.9|
92259113|NCT00626327|184421005|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MMRV+MenACWY group was considered non-inferior to that of MMRV group if the lower limit of the two-sided 95% CI of the difference in the percentages of subjects with seroconversion for varicella was greater than -10%.|Difference% (MenACWY-CRM+MMRV- MMRV)|-1.0|||||TWO_SIDED|95.0|-2.4|0.8||||||Non-inferiority of anti-varicella response following one dose of MMRV when administered concomitantly with MenACWY vaccine as compared to MMRV administered alone.||0.8|-2.4|
92259114|NCT03347279|184421014|SUPERIORITY||Rate Ratio|0.44|||<|0.001|TWO_SIDED|95.0|0.37|0.53|||Negative Binomial|||||0.53|0.37|<0.001
92259115|NCT03347279|184421015|SUPERIORITY||Rate Ratio|0.59|||<|0.001|TWO_SIDED|95.0|0.46|0.75|||Negative Binomial|||||0.75|0.46|<0.001
92259116|NCT03347279|184421016|SUPERIORITY||Least Squares (LS) Mean Difference|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.18|||Mixed Models Analysis|||||0.18|0.08|<0.001
92259117|NCT03347279|184421017|SUPERIORITY||LS Means Difference|0.33|||<|0.001|TWO_SIDED|95.0|0.2|0.47|||Mixed Models Analysis|||||0.47|0.2|<0.001
92259118|NCT03347279|184421018|SUPERIORITY||LS Means Difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.46|-0.2|||Mixed Models Analysis|||||-0.2|-0.46|<0.001
92259119|NCT03347279|184421019|SUPERIORITY||LS Means Difference|-0.11||||0.004|TWO_SIDED|95.0|-0.19|-0.04|||Mixed Models Analysis|||||-0.04|-0.19|0.004
92259120|NCT04880642|184421045|SUPERIORITY|"The null hypothesis was that the there was no difference in survival up to Day 60 between the two groups and was to be rejected in favour of the alternative hypothesis i.e. a difference in survival up to Day 60 between the two groups excisted.~The overall 2-sided significance level of 5% was applied to the primary endpoint."|Hazard Ratio (HR)|0.98||||0.949|TWO_SIDED|95.0|0.4|2.36|||Log Rank|||||2.36|0.40|0.949
92259121|NCT04880642|184421046|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.301|TWO_SIDED|95.0|0.91|1.52|||Log Rank|||||1.52|0.91|0.301
92259122|NCT04880642|184421047|SUPERIORITY||Median Difference (Final Values)|0.0||||0.425|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-1|0.425
92259123|NCT04880642|184421048|SUPERIORITY||Risk Difference (RD)|-1.7|STANDARD_ERROR_OF_MEAN|3.91||0.671|TWO_SIDED|95.0|-9.3|6.0|||Regression, Logistic|||||6.0|-9.3|0.671
92259124|NCT04880642|184421049|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|5.62||0.948|TWO_SIDED|95.0|-11.4|10.6|||Regression, Logistic|||||10.6|-11.4|0.948
92259125|NCT00394654|184421100|SUPERIORITY_OR_OTHER|||||||0.168|||||||Univariate 2-sample t-test|||||||0.168
92259126|NCT00394654|184421101|SUPERIORITY_OR_OTHER|||||||0.254|||||||Univariate 2-sample t-test|||||||0.254
92259127|NCT00394654|184421102|SUPERIORITY_OR_OTHER|||||||0.677|||||||Univariate 2-sample t-test|||||||0.677
92259128|NCT00394654|184421103|SUPERIORITY_OR_OTHER|||||||0.318|||||||Univariate 2-sample t-test|||||||0.318
92259129|NCT00394654|184421104|SUPERIORITY_OR_OTHER|||||||0.798|||||||Univariate 2-sample t-test|||||||0.798
92259130|NCT00394654|184421105|SUPERIORITY_OR_OTHER|||||||0.766|||||||Univariate 2-sample t-test|||||||0.766
92259131|NCT03442595|184421129|OTHER|test of difference in change of A1C between the two groups|||||<|0.001|||||||t-test, 2 sided|||The study was powered to detect a difference of 0.5% in the change in A1C with SD = 2 with 80\& at alopha = 0.;05 with a sample size of 128 in each group (paired t-test). The study reaches 100% power to detect this observed difference with an alpha level of 0.01.||||<0.001
92259132|NCT03018340|184421157|SUPERIORITY||Difference in weighted MMRM LSMs|-1.7|STANDARD_ERROR_OF_MEAN|0.85||0.039|TWO_SIDED|95.0|-3.4|-0.1|||Mixed Models Analysis|||This is the primary statistical comparison for Stage 1 and Stage 2 combined.||-0.1|-3.4|0.0390
92259133|NCT03018340|184421157|SUPERIORITY||Difference in MMRM LSMs|-4.0|STANDARD_ERROR_OF_MEAN|1.09||0.0003|TWO_SIDED|95.0|-6.1|-1.9|||Mixed Models Analysis|||||-1.9|-6.1|0.0003
92259134|NCT03018340|184421157|SUPERIORITY||Difference in MMRM LSMs|0.5|STANDARD_ERROR_OF_MEAN|1.3||0.694|TWO_SIDED|95.0|-2.1|3.1|||Mixed Models Analysis|||||3.1|-2.1|0.6940
92259135|NCT02364999|184421185|EQUIVALENCE|Calculated based on 2-sided Miettinen and Nurminen method without strata for risk difference for confirmed response. EU equivalence margins (95% CI in -13% to 13%).|Risk Difference (RD)|0.6531|||||TWO_SIDED|95.0|-6.608|7.9082|||||PF-06439535 vs Bevacizumab-EU|||7.9082|-6.6080|
92259136|NCT02364999|184421185|EQUIVALENCE|Calculated based on 2-sided Miettinen and Nurminen method without strata for risk ratio for confirmed response. US equivalence margins (90% CI in 0.73 to 1.37).|Risk Ratio (RR)|1.0146|||||TWO_SIDED|90.0|0.8856|1.1625|||||PF-06439535 vs Bevacizumab-EU|||1.1625|0.8856|
92259137|NCT02364999|184421185|EQUIVALENCE|Calculated based on 2-sided Miettinen and Nurminen method without strata for risk ratio for confirmed response. Japan equivalence margins (95% CI in 0.729 to 1.371).|Risk Ratio (RR)|1.0146|||||TWO_SIDED|95.0|0.8628|1.1933|||||PF-06439535 vs Bevacizumab-EU|||1.1933|0.8628|
92259138|NCT02364999|184421188|OTHER|Hazard ratio of PF-06439535 versus Bevacizumab-EU; a hazard ratio =1 indicated no difference in progressive disease(PD)/death between 2 reporting groups; \>1 indicated an increase in PD/death in PF-06439535; \<1 indicated an increase in PD/death in bevacizumab-EU.|Hazard Ratio (HR)|0.8||||0.1077|TWO_SIDED|95.0|0.608|1.051|||Log Rank|Stratified by smoking, sex and region.||||1.051|0.608|0.1077
92284497|NCT01015625|184472759|SUPERIORITY|A two-sided significance level of 5% was used.|Cox Proportional Hazard|0.95||||0.89|TWO_SIDED|95.0|0.45|2.02|||Log Rank||From the Cox Proportional hazard model with surgery vs no surgery fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter time to local progression for surgery relative to no surgery.|To determine the effect of local therapy (surgery) compared to systemic therapy only in synchronous metastasized breast cancer patients in terms of time from randomization to local progression. Local progression is defined as recurrence in breast with localization mamma, chest wall or axilla. Participants last known to be alive, who did not experience a local progression were censored at their last contact date or at the data cut-off date whichever came first.||2.02|0.45|0.890
92179908|NCT01983683|184257824|SUPERIORITY|Sensitivity analysis|Difference between 2 proportions|2.7|||||TWO_SIDED|95.0|-5.5|10.9|||||CI for the difference between two proportions are estimated using the Wilson's score method|||10.9|-5.5|
92179909|NCT03400150|184257827|OTHER|||||||0.025|TWO_SIDED|95.0|||||Farrington-Manning|||||||0.025
92259139|NCT02364999|184421189|OTHER|Hazard ratio of PF-06439535 versus Bevacizumab-EU; a hazard ratio =1 indicated no difference in progressive disease(PD)/death between 2 reporting groups; \>1 indicated an increase in PD/death in PF-06439535; \<1 indicated an increase in PD/death in bevacizumab-EU.|Hazard Ratio (HR)|0.931||||0.4492||95.0|0.777|1.116|||Log Rank|Stratified by smoking, sex and region.||||1.116|0.777|0.4492
92259140|NCT02364999|184421190|OTHER|Hazard ratio of PF-06439535 versus Bevacizumab-EU; a hazard ratio =1 indicated no difference in progressive disease(PD)/death between 2 reporting groups; \>1 indicated an increase in PD/death in PF-06439535; \<1 indicated an increase in PD/death in bevacizumab-EU.|Hazard Ratio (HR)|0.918||||0.4726|TWO_SIDED|95.0|0.729|1.157|||Log Rank|Stratified by smoking, sex and region.||||1.157|0.729|0.4726
92259141|NCT01234337|184421196|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.973|||=|0.405618|TWO_SIDED|95.0|0.779|1.217||One-sided p-value from log rank test (stratified per randomization as in interactive voice response system \[IVRS\]).|Log Rank|||PFS was compared using a stratified log-rank test with a one-sided alpha of 0.005, stratified by region, hormone receptor status, number of previous chemotherapies for metastatic disease. The hazard ratio (sorafenib + capecitabine / placebo + capecitabine) and its 95 percent (%) CIs were calculated using the Cox model, stratified by the above factors. A Hazard ratio of less than (\<) 1 indicates superiority of Sorafenib + Capecitabine over Placebo + Capecitabine.||1.217|0.779|=0.405618
92259142|NCT01234337|184421197|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.195|||=|0.930088|TWO_SIDED|95.0|0.943|1.513||One-sided p-value from log rank test (stratified per randomization as in IVRS). OS was compared using a stratified log-rank test, stratified by region, hormone receptor status, number of previous chemotherapies for metastatic disease.|Log Rank||The hazard ratio (sorafenib + capecitabine / placebo + capecitabine) and its 95% CIs were calculated using the Cox model, stratified by randomization factors.|At the time of PFS final analysis, it was OS interim analysis (IA) with 285 total death events. According to protocol specified O'Brien-Fleming type alpha spending function and 285 death events at IA, the prespecified alpha for this analysis was 0.0075 (one-sided). A Hazard ratio \< 1 indicates superiority of Sorafenib+Capecitabine over Placebo+Capecitabine.||1.513|0.943|=0.930088
92259143|NCT01234337|184421198|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91|||=|0.2105|TWO_SIDED|95.0|0.723|1.146||One-sided p-value from log rank test (stratified per randomization as in IVRS).|Log Rank||The hazard ratio (sorafenib + capecitabine / placebo + capecitabine) and its 95% CIs were calculated using the Cox model, stratified by the above factors.|TTP was compared using a stratified log-rank test with a one-sided alpha of 0.025, stratified by region, hormone receptor status, number of previous chemotherapies for metastatic disease. A Hazard ratio \<1 indicates superiority of Sorafenib+Capecitabine over Placebo+Capecitabine.||1.146|0.723|=0.2105
92259144|NCT01234337|184421199|SUPERIORITY_OR_OTHER||Percent Difference|1.93|||=|0.257412|TWO_SIDED|95.0|-3.9|7.77||One-sided p-value from Cochran Mantel-Haenszel test (stratified per randomization as in IVRS)|Cochran-Mantel-Haenszel|||ORR and 95% CI based on Cochran Mantel-Haenszel Test stratified by region, hormone receptor status, number of previous chemotherapies for metastatic disease. Difference = (Placebo + Capecitabine) - (Sorafenib + Capecitabine).||7.77|-3.9|=0.257412
92284498|NCT01212874|184472792|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.21
92179910|NCT02278185|184257885|SUPERIORITY|||||||0.46|||||||Chi-squared|||The difference between metabolic syndrome and treatment were evaluated with the Chi-square test|This study did not meet it's target accrual goal and thus is underpowered to detect a statistically significant difference between the two groups.|||0.46
92182851|NCT02434328|184264723|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.5|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||1.6|-2.5|
92259145|NCT01234337|184421200|SUPERIORITY_OR_OTHER||Percent Difference|-2.34|||=|0.284674|TWO_SIDED|95.0|-10.4|5.72||One-sided p-value from Cochran-Mantel-Haenszel test (stratified per randomization as in IVRS).|Cochran-Mantel-Haenszel|||"DCR and 95% CI based on general association Cochran-Mantel-Haenszel statistic with one-sided alpha of 0.025 stratified by number of prior chemotherapies for metastatic disease, hormone receptor status, and region. Difference = Placebo + Capecitabine - Sorafenib + Capecitabine."||5.72|-10.4|=0.284674
92259146|NCT01234337|184421202|SUPERIORITY_OR_OTHER||LSM Difference|-0.441|||||TWO_SIDED|95.0|-0.967|0.086||||||Estimate of Difference (least squares mean \[LSM\] difference) = (Sorafenib + Capecitabine) - (Placebo + Capecitabine). The difference between the two treatment groups was evaluated with an analysis of covariance model using the baseline score and the same stratification factors as used for randomization (IVRS) as covariates.||0.086|-0.967|
92259147|NCT01234337|184421203|SUPERIORITY_OR_OTHER||LSM Difference|-0.025|||||TWO_SIDED|95.0|-0.053|0.002||||||Estimate of Difference (least squares mean \[LSM\] difference) = (Sorafenib + Capecitabine) - (Placebo + Capecitabine). The difference between the two treatment groups was evaluated with an analysis of covariance model using the baseline score and the same stratification factors as used for randomization (IVRS) as covariates.||0.002|-0.053|
92259148|NCT01234337|184421204|SUPERIORITY_OR_OTHER||LSM Difference|-1.696|||||TWO_SIDED|95.0|-3.619|0.227||||||Estimate of Difference (least squares mean \[LSM\] difference) = (Sorafenib + Capecitabine) - (Placebo + Capecitabine). The difference between the two treatment groups was evaluated with an analysis of covariance model using the baseline score and the same stratification factors as used for randomization (IVRS) as covariates.||0.227|-3.619|
92259149|NCT01234337|184421205|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.14|||||TWO_SIDED|90.0|0.92|1.4||||||Statistical analysis for Cmax: 5-fluorouracil||1.40|0.92|
92284499|NCT01212874|184472793|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
92259150|NCT01234337|184421205|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.29|||||TWO_SIDED|90.0|1.07|1.56||||||Statistical analysis for Cmax: Capecitabine||1.56|1.07|
92259151|NCT01234337|184421206|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.11|||||TWO_SIDED|90.0|0.95|1.3||||||Statistical analysis for AUC(0-tlast): 5-fluorouracil||1.30|0.95|
92259152|NCT01234337|184421206|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.39|||||TWO_SIDED|90.0|1.22|1.58||||||Statistical analysis for AUC(0-tlast): Capecitabine||1.58|1.22|
92259153|NCT02815982|184421256|SUPERIORITY||Mean Difference (Final Values)|-8.7|||<|0.05|TWO_SIDED|95.0|-14.6|-2.7|||t-test, 2 sided|||||-2.7|-14.6|<.05
92284500|NCT00105196|184472822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.73|||<|0.001||95.0|-5.44|-2.02|||t-test, 2 sided|||The sample size for the study was based on the primary outcome measure. The study was powered at 90% to detect a treatment difference between adjunctive aripiprazole and adjunctive placebo of 3.75, assuming a standard deviation of 10.5 and a two-sided alpha level of 0.05. The null-hypothesis was the lack of a treatment difference.||-2.02|-5.44|<0.001
92284501|NCT00105196|184472823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.075||95.0|-0.88|0.04|||t-test, 2 sided|||To protect the overall (primary and key secondary efficacy analysis) alpha level of 0.05, for this key secondary endpoint a hierarchical testing procedure was followed such that formal testing would take place conditional on the primary efficacy analysis showing a statistically significant difference.||0.04|-0.88|0.075
92179911|NCT02278185|184257885|SUPERIORITY|||||||0.46|||||||Chi-squared|||Cohort characteristics for Metabolic Syndrome were summarized by event and arm using counts and percentages for categorical variables and the mean, standard deviation, median, and quartiles for continuous variables. The difference between metabolic syndrome and treatment were evaluated with the Chi-square test. P-values are reported based on a null hypothesis of no difference against a two-sided alternative. Analyses were performed using SAS 9.4 (SAS Inst|Cohort characteristics for Metabolic Syndrome, the SPPB, the SHIM/FACT-P, and PSA were summarized by event and arm using counts and percentages for categorical variables and the mean, standard deviation, median, and quartiles for continuous variables. The difference between metabolic syndrome and treatment were evaluated with the Chi-square test. The Wilcoxon signed-rank test was utilized to examine the difference between Month 1 and Month 12 SPPB scores. The Wilcoxon rank-sum test was used to assess the difference of SHIM/FACT-P scores and PSA between arms. These tests were chosen to account for the non-normal distributions of the continuous variables. The difference between PSA progression between arms was examined using the Fisher Exact Test. A heat map of scores ordered by the highest average score was also created. P-values are reported based on a null hypothesis of no difference against a two-sided alternative. Analyses were performed using SAS 9.4 (SAS Inst|||0.46
92179912|NCT02278185|184257896|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||The results are presented in the following format: N Mean (Std Dev) Median (Q1, Q3). In all cases (Overall, Arm 1, and Arm 2) we fail to reject the null hypothesis that the samples come from the same population of scores at Month 1 versus Month 12 at the 0.05 significance level.||||0.5
92179913|NCT02722434|184257920|SUPERIORITY|||||||0.1228|||||||Chi-squared|||||||0.1228
92179914|NCT02722434|184257921|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
92179915|NCT02722434|184257922|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Sensory Subscale||||0.79
92179916|NCT02722434|184257922|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||Motor Subscale||||0.43
92179917|NCT02722434|184257922|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||Autonomic Subscale||||0.97
92179918|NCT00336505|184258008|NON_INFERIORITY_OR_EQUIVALENCE|Delta will be determined by the highest clinical cure-rate between the Cethromycin treatment group and the Clarithromycin treatment group, as follows: Greater than or equal to 90%, delta = -10%; Greater than or equal to 80% and less than 90%, delta = -15%, Greater than or equal to 70% and less than 80%, -20%)|Mean Difference (Net)|2.0||||0.5667|TWO_SIDED|95.0|-4.8|8.9|||Fisher Exact|||The rate of clinical cure in each treatment group was calculated (number of cures/number of patient eligible for analysis). Non-inferiority will be demonstrated when the lower limit of the two-sided 95% confidence interval for the difference in the clinical cure rate at the Test-of-Cure visit between treatment groups (Cethromycin -Clarithromycin) is greater than delta, and includes zero, for both Per-Protocol (PP) and Intent-to-Treat (ITT) analyses.||8.9|-4.8|0.5667
92179919|NCT00336505|184258010|NON_INFERIORITY_OR_EQUIVALENCE|Delta will be determined by the highest clinical cure-rate between the Cethromycin treatment group and the Clarithromycin treatment group, as follows: Greater than or equal to 90%, delta = -10%; Greater than or equal to 80% and less than 90%, delta = -15%, Greater than or equal to 70% and less than 80%, -20%)|Mean Difference (Net)|0.3|||>|0.9999||95.0|-4.5|5.1|||Fisher Exact|||The rate of clinical cure in each treatment group was calculated (number of cures/number of patient eligible for analysis). Non-inferiority will be demonstrated when the lower limit of the two-sided 95% confidence interval for the difference in the clinical cure rate at the Test-of-Cure visit between treatment groups (Cethromycin -Clarithromycin) is greater than delta, and includes zero, for both Per-Protocol (PP) and Intent-to-Treat (ITT) analyses.||5.1|-4.5|>0.9999
92179920|NCT01185600|184258033|SUPERIORITY_OR_OTHER|||||||0.142|||||||Fisher Exact|||||||0.142
92284502|NCT00105196|184472824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.052||95.0|-1.06|0.0||No adjustment for multiple comparisons was implemented for this secondary endpoint.|t-test, 2 sided|||||0.00|-1.06|0.052
92179921|NCT01185600|184258034|SUPERIORITY_OR_OTHER|||||||0.0391|||||||Fisher Exact|||||||0.0391
92179922|NCT01185600|184258035|SUPERIORITY_OR_OTHER|||||||0.372|||||||Fisher Exact|||||||0.372
92179923|NCT01185600|184258036|SUPERIORITY_OR_OTHER|||||||0.1007|||||||t-test, 2 sided|||||||0.1007
92179924|NCT01185600|184258037|SUPERIORITY_OR_OTHER|||||||0.0964|||||||t-test, 2 sided|||||||0.0964
92179925|NCT01185600|184258038|SUPERIORITY_OR_OTHER|||||||0.1739|||||||t-test, 2 sided|||||||0.1739
92179926|NCT01185600|184258039|SUPERIORITY_OR_OTHER|||||||0.7205|||||||t-test, 1 sided|||||||0.7205
92179927|NCT01185600|184258040|SUPERIORITY_OR_OTHER||Negative Binomial|1.64||||0.0176|TWO_SIDED|95.0|1.06|2.55|||t-test, 2 sided||"Using Negative Binomial Regression the following ratio and corresponding 95% CI were obtained:~(# of AE's, Unwashed Group / (# of AE's, Washed Group) = 1.64 95% C.I. = \[1.06 - 2.55\]"|||2.55|1.06|0.0176
92179928|NCT05405244|184258041|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||Snack intake||||0.45
92179929|NCT05405244|184258041|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Milkshake intake||||0.28
92179930|NCT05405244|184258042|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||Pleasantness||||0.89
92179931|NCT05405244|184258042|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Desire to consume||||<0.001
92179932|NCT03455985|184258063|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.4||0.09|TWO_SIDED||||||Regression, Linear|||||||0.09
92179933|NCT03455985|184258064|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.2|TWO_SIDED||||||Regression, Linear|||||||0.20
92179934|NCT03455985|184258065|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
92179935|NCT03455985|184258066|SUPERIORITY||Mean Difference (Final Values)|-26.5|STANDARD_ERROR_OF_MEAN|30.3||0.39|TWO_SIDED||||||Regression, Linear|||||||0.39
92179936|NCT00754065|184258067|SUPERIORITY_OR_OTHER_LEGACY||F-statistic|9.3218||||0.0024||||||Comparison of EV/DNG vs. EE/NGM|ANOVA|||2-way ANOVA model with treatment and pain strata (headache and pelvic pain) as factors||||0.0024
92179937|NCT04353492|184258186|OTHER|tested by a lower tailed test at 0.05 significance level|||||<|0.0001|||||||negative binomial regresion|||The null hypothesis (H0): ARR \>= 0.18||||<0.0001
92284503|NCT00105196|184472825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.037||95.0|-1.1|-0.03||No adjustment for multiple comparisons was implemented for this secondary endpoint.|t-test, 2 sided|||||-0.03|-1.10|0.037
92284504|NCT00105196|184472826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.792||95.0|-0.67|0.51||No adjustment for multiple comparisons was implemented for this secondary endpoint.|t-test, 2 sided|||||0.51|-0.67|0.792
92259154|NCT02815982|184421257|SUPERIORITY||Mean Difference (Final Values)|35.6|||<|0.001|TWO_SIDED|95.0|-559.0|630.2||p value was the actual signficance level|t-test, 2 sided|||We compared Post-intervention scores||630.2|-559.0|<.001
92259155|NCT02815982|184421258|SUPERIORITY||Mean Difference (Final Values)|0.47|||<|0.001|TWO_SIDED|95.0|-2.3|3.3||controlling for caregiver BMI at baseline and PCS BMI percentile at baseline|t-test, 2 sided|||We compared Post-intervention BMI||3.3|-2.3|<.001
92259156|NCT02815982|184421259|SUPERIORITY||Mean Difference (Final Values)|-0.12|||<|0.03|TWO_SIDED|95.0|-5.4|5.2||p \< .05 was the threshold|t-test, 2 sided|||We compared Post-intervention scores||5.2|-5.4|<.03
92259157|NCT02815982|184421260|SUPERIORITY||Mean Difference (Final Values)|3.5|||<|0.09|TWO_SIDED|95.0|-4.3|11.3||p \< .05 was threshold|t-test, 2 sided|||||11.3|-4.3|<.09
92259158|NCT02815982|184421261|SUPERIORITY||Mean Difference (Final Values)|-328.6|||<|0.08|TWO_SIDED|95.0|-2868.4|2211.2||p \< .05 threshold,|t-test, 2 sided|||We compared Post-intervention scores||2211.2|-2868.4|<.08
92259159|NCT02815982|184421262|SUPERIORITY||Mean Difference (Final Values)|0.06|||<|0.0001|TWO_SIDED|95.0|0.01|0.11||threshold set at p \< .05|t-test, 2 sided|||We compared Post-intervention scores||.11|.01|<.0001
92284505|NCT00105196|184472827|SUPERIORITY_OR_OTHER||Ratio of response|1.74|||<|0.001||95.0|1.31|2.32||No adjustment for multiple comparisons was implemented for this secondary endpoint.|CMH General Association Test||aripiprazole/placebo|||2.32|1.31|<0.001
92259160|NCT02815982|184421263|SUPERIORITY||Mean Difference (Final Values)|-2.85|||<|0.001|TWO_SIDED|95.0|-11.3|5.65||threshold set at p \< .05|t-test, 2 sided|||We compared Post-intervention scores||5.65|-11.3|<.001
92259161|NCT02815982|184421264|SUPERIORITY||Mean Difference (Final Values)|0.01|||<|0.001|TWO_SIDED|95.0|-0.04|0.06||threshold p \< .05|t-test, 2 sided|||We compared Post-intervention scores||.06|-.04|<.001
92259162|NCT02815982|184421265|SUPERIORITY||Mean Difference (Final Values)|-348.9|||<|0.12|TWO_SIDED|95.0|-2762.5|2064.8||p \< .05 was the threshold|t-test, 2 sided|||We compared Post-intervention scores||2064.8|-2762.5|<.12
92259163|NCT02584660|184421276|SUPERIORITY||Mean difference|-1.202|||<|0.0001|TWO_SIDED|95.0|-1.73|-0.674|||t-test|||||-0.674|-1.730|<.0001
92259164|NCT00461552|184421282|SUPERIORITY|||||||0.84||||||Treatment time month interaction|Mixed Models Analysis|||||||0.84
92259165|NCT00461552|184421283|OTHER|||||||0.4||||||Treatment time month interaction|Mixed Models Analysis|||||||0.4
92259166|NCT00374452|184421284|OTHER||||||>|0.1|||||||Mixed Models Analysis|||We compared the mean percentages of events per clinician between study arms, using mixed model regression adjusting for medical center, clinic type (community-based clinic vs not), clinician discipline (MD vs non-MD), presence of pharmacist in the clinic, and mean age of clinician's panels of patients as fixed effects, and clinic as a random effect to account for clustering of clinicians within clinics.||||>0.1
92259167|NCT04623255|184421314|SUPERIORITY|||||||0.16|||||||Chi-squared|||The primary analysis will involve a comparison of the binary outcome '50% reduction in at least two inflammation markers' between the PEX and Standard of Care (control) trial arms using a chi-squared test. The risk difference (and ratio) will be estimated with a 95% confidence interval.||||0.16
92259168|NCT04623255|184421315|SUPERIORITY|||||||0.606|TWO_SIDED|95.0|||||Chi-squared|||The primary analysis will involve a comparison of the binary outcome '50% reduction in inflammation marker CRP' between the PEX and Standard of Care (control) trial arms using a chi-squared test. The risk difference (and ratio) will be estimated with a 95% confidence interval.||||0.606
92259169|NCT04623255|184421316|SUPERIORITY|||||||0.245|||||||Chi-squared|||The primary analysis will involve a comparison of the binary outcome '50% reduction in inflammation marker D-Dimer' between the PEX and Standard of Care (control) trial arms using a chi-squared test. The risk difference (and ratio) will be estimated with a 95% confidence interval.||||0.245
92259170|NCT04623255|184421317|SUPERIORITY|||||||0.653|||||||Chi-squared|||The primary analysis will involve a comparison of the binary outcome '50% reduction in inflammation marker LDH' between the PEX and Standard of Care (control) trial arms using a chi-squared test. The risk difference (and ratio) will be estimated with a 95% confidence interval.||||0.653
92259171|NCT01040728|184421351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.197|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.163|0.231|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.231|0.163|<0.0001
92259172|NCT01040728|184421351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.221|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.186|0.255|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.255|0.186|<0.0001
92259173|NCT01040728|184421351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.221|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.187|0.255|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.255|0.187|<0.0001
92259174|NCT01040728|184421352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.153|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.117|0.188|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.188|0.117|<0.0001
92259175|NCT01040728|184421352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.134|0.205|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.205|0.134|<0.0001
92259176|NCT01040728|184421352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.128|0.199|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.199|0.128|<0.0001
92284506|NCT00105196|184472828|SUPERIORITY_OR_OTHER||Ratio of response|1.43|||<|0.001||95.0|1.17|1.74||No adjustment for multiple comparisons was implemented for this secondary endpoint.|ANCOVA||aripiprazole/placebo|||1.74|1.17|<0.001
92284507|NCT00105196|184472829|SUPERIORITY_OR_OTHER||Ratio of remission|1.95|||<|0.001||95.0|1.36|2.8||No adjustment for multiple comparisons was implemented for this secondary endpoint.|CMH General Association Test||aripiprazole/placebo|||2.80|1.36|<0.001
92259177|NCT01040728|184421353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.141|0.208|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.208|0.141|<0.0001
92284508|NCT00615069|184472862|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|95.0|||||Log Rank|||Log-rank test of freedom from major adverse events through 1 year, 31 mm GORE EXCLUDER® Test Subjects vs historical open surgical control Subjects.||||0.003
92284509|NCT00615069|184472863|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.241|||||TWO_SIDED|95.0|0.428|3.603||||||Estimation of Hazard ratio of the 31 mm GORE EXCLUDER® Test Subjects vs original GORE EXCLUDER® AAA Endoprosthesis Subjects (original PMA subjects) using Cox Regression, not a powered analysis.||3.603|0.428|
92284510|NCT00259012|184472871|SUPERIORITY_OR_OTHER|||||||0.087|||||||t-test, 2 sided|paired||Within group comparison between steady state and baseline||||0.087
92284511|NCT00259012|184472871|SUPERIORITY_OR_OTHER|||||||0.019|||||||t-test, 2 sided|paired||Within group comparison between steady state and baseline||||0.019
92179938|NCT00857766|184258209|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.42||||0.065||95.0|-0.88|0.03|||ANCOVA||LS mean difference is calculated as FSC 250/50 minus Placebo and is adjusted for treatment, investigator, sex, smoking status, age, body mass index (BMI), waist circumference, treatment by sex interaction, age by BMI interaction, and baseline value.|||0.03|-0.88|0.065
92179939|NCT00857766|184258210|SUPERIORITY_OR_OTHER||Least squares analysis|-0.6|STANDARD_ERROR_OF_MEAN|0.86||0.469||95.0|-2.3|1.1|||ANCOVA|||||1.1|-2.3|0.469
92259178|NCT01040728|184421353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.157|0.225|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.225|0.157|<0.0001
92284512|NCT00259012|184472872|SUPERIORITY_OR_OTHER|||||||0.255|||||||t-test, 2 sided|paired||Within group comparison between steady state and baseline||||0.255
92284513|NCT00259012|184472872|SUPERIORITY_OR_OTHER|||||||0.031|||||||t-test, 2 sided|paired||Within group comparison between steady state and baseline.||||0.031
92284514|NCT00259012|184472873|SUPERIORITY_OR_OTHER|||||||0.099|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.099
92284515|NCT00259012|184472873|SUPERIORITY_OR_OTHER|||||||0.016|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.016
92284516|NCT00259012|184472874|SUPERIORITY_OR_OTHER|||||||0.347|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.347
92284517|NCT00259012|184472874|SUPERIORITY_OR_OTHER|||||||0.012|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.012
92284518|NCT00259012|184472875|SUPERIORITY_OR_OTHER|||||||0.339|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.339
92284519|NCT00259012|184472875|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.003
92284520|NCT00259012|184472876|SUPERIORITY_OR_OTHER|||||||0.982|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.982
92179940|NCT00857766|184258211|SUPERIORITY_OR_OTHER||Least squares analysis|127.0|STANDARD_ERROR_OF_MEAN|35.5|<|0.001||95.0|57.0|197.0|||ANCOVA|||||197|57|<0.001
92179941|NCT01988402|184258212|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.5
92284521|NCT00259012|184472876|SUPERIORITY_OR_OTHER|||||||0.534|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.534
92284522|NCT00259012|184472877|SUPERIORITY_OR_OTHER|||||||0.166|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.166
92259179|NCT01040728|184421353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.159|0.226|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.226|0.159|<0.0001
92259180|NCT01040728|184421354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.181|0.248|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.248|0.181|<0.0001
92284523|NCT00259012|184472877|SUPERIORITY_OR_OTHER|||||||0.119|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.119
92284524|NCT00259012|184472878|SUPERIORITY_OR_OTHER|||||||0.387|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.387
92259181|NCT01040728|184421354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.205|0.272|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.272|0.205|<0.0001
92259182|NCT01040728|184421354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.119|0.185|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.185|0.119|<0.0001
92259183|NCT01040728|184421355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.178|0.251|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.251|0.178|<0.0001
92259184|NCT01040728|184421355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.245|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.208|0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.282|0.208|<0.0001
92284525|NCT00259012|184472878|SUPERIORITY_OR_OTHER|||||||0.021|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.021
92284526|NCT02495467|184472885|SUPERIORITY||Mean Difference (Final Values)|1.03||||0.0132|TWO_SIDED|95.0|0.22|1.84|||Mixed Models Analysis|||||1.84|0.22|0.0132
92284527|NCT02495467|184472886|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.0122|TWO_SIDED|95.0|0.09|0.73|||Mixed Models Analysis|||||0.73|0.09|0.0122
92284528|NCT02495467|184472887|SUPERIORITY||Mean Difference (Final Values)|0.39|||<|0.0001|TWO_SIDED|95.0|0.21|0.57|||Mixed Models Analysis|||||0.57|0.21|<0.0001
92284529|NCT02495467|184472888|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.0055|TWO_SIDED|95.0|0.12|0.69|||Mixed Models Analysis|||||0.69|0.12|0.0055
92284530|NCT02495467|184472889|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.001|TWO_SIDED|95.0|0.2|0.76|||Mixed Models Analysis|||||0.76|0.20|0.001
92284531|NCT02495467|184472890|SUPERIORITY||Means ratio|0.995||||0.7999|TWO_SIDED|95.0|0.96|1.032|||Generalized Linear Mixed Model|||||1.032|0.960|0.7999
92179942|NCT01961609|184258216|SUPERIORITY_OR_OTHER||Percentage|65.3|||<|0.0001|TWO_SIDED|99.375|52.4|76.7|||two-sided binomial exact test||A Bonferroni adjustment adjusting for 8 analyses have been applied.|||76.7|52.4|<0.0001
92182852|NCT02434328|184264724|OTHER|Treatment difference|Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.4|0.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 48||0.3|-2.4|
92284532|NCT02495467|184472891|SUPERIORITY||Means ratio|0.989||||0.6746|TWO_SIDED|95.0|0.937|1.043|||Generalized Linear Mixed Model|||||1.043|0.937|0.6746
92284533|NCT02495467|184472892|SUPERIORITY||Means ratio|1.075||||0.0959|TWO_SIDED|95.0|0.987|1.17|||Generalized Linear Mixed Model|||||1.170|0.987|0.0959
92284534|NCT02495467|184472893|SUPERIORITY||Means ratio|1.522|||<|0.0001|TWO_SIDED|95.0|1.267|1.829|||Generalized Linear Mixed Model|||||1.829|1.267|<0.0001
92284535|NCT02495467|184472894|SUPERIORITY||Means ratio|1.32||||0.0005|TWO_SIDED|95.0|1.128|1.545|||Generalized Linear Mixed Model|||||1.545|1.128|0.0005
92284536|NCT02495467|184472895|SUPERIORITY||||||<|0.0001|||||||Prescott Test (Exact)|||||||<0.0001
92284537|NCT02495467|184472896|SUPERIORITY|||||||0.0003|||||||Prescott Test (Exact)|||||||0.0003
92259185|NCT01040728|184421355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.199|0.271|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.271|0.199|<0.0001
92259186|NCT01040728|184421356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.237|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.201|0.273|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.273|0.201|<0.0001
92259187|NCT01040728|184421356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.266|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.23|0.302|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.302|0.230|<0.0001
92259188|NCT01040728|184421356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.138|0.211|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.211|0.138|<0.0001
92259189|NCT01040728|184421357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.208|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.169|0.246|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.246|0.169|<0.0001
92284538|NCT00834756|184472897|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|96.0||||||90.0|87.96|104.78|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.78|87.96|
92284539|NCT00834756|184472898|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|98.63||||||90.0|92.34|105.35|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.35|92.34|
92284540|NCT00834756|184472899|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.37||||||90.0|93.95|107.21|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||107.21|93.95|
92179943|NCT00571649|184258258|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.771||||0.0211||95.0|0.618|0.962||Hochberg procedure: A 2-sided p-value of less than 0.05 would be considered significant, if the 1-sided p-value of the other primary efficacy outcome measure was less than 0.025, elsewise a p-value of less than 0.025 would be considered significant.|Cochran-Mantel-Haenszel|Weighted relative risks were calculated using asymptotic methods, with weights based upon sample sizes per strata (geographic region).||A sample size of 2876 valid patients per group was estimated to obtain a joint power of at least 90% for both primary endpoints (91.4% for superiority) with 4% event rate at day 35 for comparator and 40% relative risk reduction.||0.962|0.618|0.0211
92284541|NCT03611608|184472961|SUPERIORITY||Mean Difference (Final Values)|263.54|||<|0.001|ONE_SIDED|90.0|207.86||||t-test, 1 sided||||||207.86|<0.001
92259190|NCT01040728|184421357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.243|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.205|0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.282|0.205|<0.0001
92259191|NCT01040728|184421357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.244|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.205|0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.282|0.205|<0.0001
92259192|NCT01040728|184421358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.097|0.171|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.171|0.097|<0.0001
92259193|NCT01040728|184421358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.105|0.181|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.181|0.105|<0.0001
92259194|NCT01040728|184421358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.12|0.195|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.195|0.120|<0.0001
92259195|NCT01040728|184421359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.276|0.384|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.384|0.276|<0.0001
92259196|NCT01040728|184421359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.326|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.272|0.381|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.381|0.272|<0.0001
92259197|NCT01040728|184421359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.316|0.424|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.424|0.316|<0.0001
92259198|NCT01040728|184421360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.214|0.342|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.342|0.214|<0.0001
92259199|NCT01040728|184421360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.264|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.2|0.329|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.329|0.200|<0.0001
92179944|NCT00571649|184258259|NON_INFERIORITY_OR_EQUIVALENCE|Rivaroxaban would be considered at least as effective as the comparator if the upper limit of the CI (Confidence Interval) was less than 1.5|Risk Ratio (RR)|0.968||||0.0025||95.0|0.713|1.314||Hochberg procedure: A 1-sided p-value of less than 0.025 would be considered significant, if the 2-sided p-value of the other primary efficacy outcome measure was less than 0.05, elsewise a p-value of less than 0.0125 would be considered significant.|Cochran-Mantel-Haenszel|Weighted relative risks were calculated using asymptotic methods, with weights based upon sample sizes per strata (geographic region).||A sample size of 2876 valid patients per group was estimated to obtain a joint power of at least 90% for both primary endpoints (98.6% power for non-inferiority) with 1.8% event rate at day 10 for comparator and 35% relative risk reduction.||1.314|0.713|0.0025
92179945|NCT00571649|184258260|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.931||||0.3758||95.0|0.795|1.091||Test hierarchy: A p-value of less than 0.05 would be considered significant, if the tests for the two primary efficacy outcome measures were significant.|Cochran-Mantel-Haenszel|Weighted relative risks were calculated using asymptotic methods, with weights based upon sample sizes per strata (geographic region).||||1.091|0.795|0.3758
92179946|NCT00571649|184258261|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.991||||0.9473||95.0|0.753|1.304||"Test hierarchy: A p-value of less than 0.05 would be considered significant, if the tests for the 2 primary efficacy outcomes and for Composite endpoint of VTE (any DVT, non fatal PE) and all-cause mortality up to Day 35 + 6 days were significant."|Cochran-Mantel-Haenszel|Weighted relative risks were calculated using asymptotic methods, with weights based upon sample sizes per strata (geographic region).||||1.304|0.753|0.9473
92179947|NCT00571649|184258270|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.455|||<|0.0001|TWO_SIDED|95.0|1.854|3.251||2-sided p-value. No adjustment for multiple testing.|Cochran-Mantel-Haenszel|Weighted relative risks were calculated using asymptotic methods, with weights based upon sample sizes per strata (geographic region).||There was no sample size estimation as this was not planed as confirmatory analysis||3.251|1.854|<0.0001
92179948|NCT00571649|184258271|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.272|||<|0.0001|TWO_SIDED|95.0|1.628|3.171||2-sided p-value. No adjustment for multiple testing.|Cochran-Mantel-Haenszel|||There was no sample size estimation as this was not planed as confirmatory analysis||3.171|1.628|<0.0001
92179949|NCT02397096|184258279|NON_INFERIORITY|Doravirine/Lamivudine/Tenofovir Disoproxil Fumarate (DOR/3TC/TDF) once daily (QD) ISG is concluded to be non-inferior to baseline regimen DSG if the lower bound of the 95% CI for the difference in percent response is above -8 percentage points.|Treatment Difference|-3.784|||||TWO_SIDED|95.0|-7.877|0.31|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.||Superiority of an immediate switch to DOR/3TC/TDF over continuation of the baseline regimen was defined by a lower bound of the two-sided 95% CI for the difference in response rates being greater than zero (contingent upon satisfying the multiplicity criteria).|0.310|-7.877|
92179950|NCT02397096|184258280|OTHER||Treatment Difference|-14.65|||<|0.0001|TWO_SIDED|95.0|-18.92|-10.38|||ANCOVA||95% CIs and 2-sided p-values were calculated from an ANCOVA model with terms for baseline lipid level, use of lipid-lowering therapy at Study Day 1 and treatment.|||-10.38|-18.92|<0.0001
92179951|NCT02397096|184258281|OTHER||Treatment Difference|-23.03|||<|0.0001|TWO_SIDED|95.0|-28.0|-18.05|||ANCOVA||95% CIs and 2-sided p-values were calculated from an ANCOVA model with terms for baseline lipid level, use of lipid-lowering therapy at Study Day 1 and treatment.|||-18.05|-28.00|<0.0001
92179952|NCT02397096|184258282|NON_INFERIORITY|DOR/3TC/TDF QD ISG is concluded to be non-inferior to baseline regimen DSG if the lower bound of the 95% CI for the difference in percent response is above -8 percentage points.|Treatment Difference|-0.877|||||TWO_SIDED|95.0|-4.706|2.952|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.||Superiority of an immediate switch to DOR/3TC/TDF over continuation of the baseline regimen was defined by a lower bound of the two-sided 95% CI for the difference in response rates being greater than zero (contingent upon satisfying the multiplicity criteria).|2.952|-4.706|
92179953|NCT02397096|184258283|OTHER||Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-31.6|23.5|||||95% CIs were calculated based on t-distribution.|||23.5|-31.6|
92179954|NCT02397096|184258284|SUPERIORITY||Mean Difference (Final Values)|-12.8|||||TWO_SIDED|95.0|-41.1|15.4|||||95% Confidence Intervals were based on t-distribution.|||15.4|-41.1|
92284542|NCT04625114|184472964|SUPERIORITY||Mean Difference (Final Values)|1.183||||0.511|TWO_SIDED||||||Mixed Models Analysis|||||||0.511
92179955|NCT02397096|184258285|OTHER||Treatment Difference|-3.556|||||TWO_SIDED|95.0|-7.977|0.864|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||0.864|-7.977|
92179956|NCT02397096|184258286|OTHER||Treatment Difference|-0.427|||||TWO_SIDED|95.0|-4.591|3.738|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||3.738|-4.591|
92179957|NCT02397096|184258287|NON_INFERIORITY|DOR/3TC/TDF QD ISG is concluded to be non-inferior to baseline regimen DSG if the lower bound of the 95% CI for the difference in percent response is above -4 percentage points.|Treatment Difference|-0.232|||||TWO_SIDED|95.0|-2.529|2.064|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||2.064|-2.529|
92182853|NCT02434328|184264724|OTHER|Treatment difference|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|-2.4|0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 96||0.7|-2.4|
92284543|NCT04625114|184472965|SUPERIORITY||Cox Proportional Hazard|0.965||||0.921|TWO_SIDED|95.0|0.48|1.942|||Regression, Cox|||||1.942|0.480|0.921
92179958|NCT03275285|184258299|SUPERIORITY|For PFS, the nominal significance levels at primary analysis was determined using alpha-spending function in order to control overall 1-sided type 1 error at 2.5%. The 1-sided nominal significance level to declare overwhelming efficacy at primary analysis (103 PFS events) was 0.005. Because the median PFS was not reached at the primary analysis, it was described at the final analysis.|Hazard Ratio (HR)|0.531||||0.0007|TWO_SIDED|99.0|0.318|0.889||One-sided p-value based on Stratified log-rank test. Threshold for statistical significance at 0.005.|Stratified Log-Rank test|Stratified on number of prior lines of therapy (1 vs \>1) \& revised international staging system stage (I/II vs III vs not classified) as per IRT.|Hazard Ratio was stratified on number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|Statistical analysis for comparison of PFS between the Kd and IKd arms based on primary analysis.||0.889|0.318|0.0007
92179959|NCT03275285|184258300|SUPERIORITY|The 1-sided nominal significance level to declare overwhelming efficacy at primary analysis was 0.004. Because the median PFS was not reached at the primary analysis, it was described at the final analysis.|Hazard Ratio (HR)|0.548||||0.0016|TWO_SIDED|99.2|0.317|0.948||One-sided p-value based on Stratified log-rank test. Threshold for statistical significance at 0.004.|Stratified Log-Rank test|Stratified on number of prior lines of therapy (1 vs \>1) \& revised international staging system stage (I/II vs III vs not classified) as per IRT.|Hazard Ratio was stratified on number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|Statistical analysis for comparison of PFS between the Kd and IKd arm based on primary analysis.||0.948|0.317|0.0016
92179960|NCT03275285|184258301|SUPERIORITY||Hazard Ratio (HR)|0.576|||||TWO_SIDED|95.4|0.418|0.792|||||Hazard Ratio was stratified on number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|||0.792|0.418|
92179961|NCT03275285|184258302|SUPERIORITY||Hazard Ratio (HR)|0.594|||||TWO_SIDED|95.4|0.424|0.832|||||Hazard Ratio was stratified on number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|||0.832|0.424|
92259200|NCT01040728|184421360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.238|0.366|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.366|0.238|<0.0001
92259201|NCT01040728|184421361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.304|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.244|0.363|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.363|0.244|<0.0001
92284544|NCT05327491|184473007|EQUIVALENCE|It was concluded that the test treatment is bioequivalent to the reference treatment if the 90% CI for the ratio of Geometric Least Squares Mean (GLSM) was completely contained within the predefined interval of (0.8000, 1.2500).|Ratio of GLSM|0.962|||||TWO_SIDED|90.0|0.88|1.053||||||||1.053|0.880|
92179962|NCT03275285|184258303|SUPERIORITY|A closed test procedure was used to control the Type I error rate from the primary efficacy endpoints sequentially through the secondary efficacy endpoints. No further testing would be performed unless the significance level had been reached on PFS and testing on subsequent endpoints were continued only if the null hypothesis for the previously tested endpoint was rejected.||||||0.193||||||One-sided p-value based on Stratified Cochran-Mantel-Haenszel test. Threshold for statistical significance level at 0.025.|Cochran-Mantel-Haenszel|One sided p-value was stratified based on randomization factors according to IRT.||Statistical analysis for comparison of Overall Response between the Kd and IKd arms based on primary analysis.||||0.1930
92179963|NCT03275285|184258310|SUPERIORITY||Stratified Hazard Ratio|0.425|||||TWO_SIDED|95.0|0.269|0.672|||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|||0.672|0.269|
92179964|NCT03275285|184258311|SUPERIORITY||Stratified Hazard Ratio|0.495|||||TWO_SIDED|95.0|0.324|0.757|||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|||0.757|0.324|
92179965|NCT03275285|184258312|SUPERIORITY||Stratified Hazard Ratio|1.143|||||TWO_SIDED|95.0|0.888|1.471|||||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|1.471|0.888|
92179966|NCT03275285|184258313|SUPERIORITY||Stratified Hazard Ratio|0.955|||||TWO_SIDED|95.0|0.74|1.233|||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|||1.233|0.740|
92284545|NCT05327491|184473008|EQUIVALENCE|It was concluded that the test treatment is bioequivalent to the reference treatment if the 90% CI for the ratio of Geometric Least Squares Mean (GLSM) was completely contained within the predefined interval of (0.8000, 1.2500).|Ratio of GLSM|0.968|||||TWO_SIDED|90.0|0.907|1.033||||||||1.033|0.907|
92284546|NCT05327491|184473009|EQUIVALENCE|It was concluded that the test treatment is bioequivalent to the reference treatment if the 90% CI for the ratio of Geometric Least Squares Mean (GLSM) was completely contained within the predefined interval of (0.8000, 1.2500).|Ratio of GLSM|0.967|||||TWO_SIDED|90.0|0.908|1.029||||||||1.029|0.908|
92284547|NCT00819507|184473093|SUPERIORITY||Mean Difference (Final Values)|6.01|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92179967|NCT03275285|184258314|SUPERIORITY|\[Not specified\]|[Stratified Hazard Ratio]|0.683|||||TWO_SIDED|95.0|0.496|0.941|||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|\[Not specified\]||0.941|0.496|
92179968|NCT03275285|184258315|SUPERIORITY|\[Not specified\]|Stratified Hazard Ratio|0.663|||||TWO_SIDED|95.0|0.491|0.895|||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|\[Not specified\]||0.895|0.491|
92259202|NCT01040728|184421361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.283|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.222|0.343|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.343|0.222|<0.0001
92259203|NCT01040728|184421361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.335|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.275|0.395|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.395|0.275|<0.0001
92284548|NCT00819507|184473094|SUPERIORITY||Median Difference (Final Values)|14.35|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92284549|NCT00986245|184473117|NON_INFERIORITY_OR_EQUIVALENCE|80% power|Mean Difference (Net)|0.4|||<|0.05|||||||Sign test|||The UPDRS-part3 was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test.||||<0.05
92284550|NCT00986245|184473118|NON_INFERIORITY_OR_EQUIVALENCE|80% power|Mean Difference (Net)|0.0|||<|0.05|||||||Sign test|||The Hoehn and Yahr stage was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test.||||<0.05
92182854|NCT02434328|184264725|OTHER|Treatment difference|Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-2.5|0.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12 to Week 48||0.4|-2.5|
92179969|NCT00115934|184258338|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-10.1||||0.013||95.0|-17.8|-2.4|||Fisher Exact||The risk difference is defined as the percent of subjects with events in the RVPAS group minus the percent of subjects with events in the MBTS group.|The original sample size of 456 was based on 85% power, with a two-sided, two sample test of proportions (anticipating 28% MBTS subjects with events, 16% RVPAS subjects with events), and an alpha of 0.05. The critical p-value was 0.044 because four interim analyses were performed. The target trial size was increased from 466 to 554 to account for crossovers. The stopping boundary was crossed at the 4th interim look; however, the trial was not halted, because all subjects were enrolled.||-2.4|-17.8|0.013
92179970|NCT00115934|184258339|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06||95.0|||||Log Rank|||||||0.06
92179971|NCT00115934|184258340|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.09
92179972|NCT00115934|184258341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.009
92179973|NCT00115934|184258342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.07
92179974|NCT00115934|184258343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.001
92179975|NCT00115934|184258344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank-sum test||||0.004
92179976|NCT00115934|184258345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.10
92179977|NCT00115934|184258346|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92179978|NCT00115934|184258347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07||95.0|||||t-test, 2 sided|||||||0.07
92179979|NCT00115934|184258348|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97||95.0|||||t-test, 2 sided|||||||0.97
92179980|NCT00115934|184258349|SUPERIORITY_OR_OTHER_LEGACY|||||||0.54||95.0|||||t-test, 2 sided|||||||0.54
92179981|NCT00115934|184258350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92179982|NCT00115934|184258351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0|||||Poisson regression|The offset parameter used in the poisson regression was the log of the number of patients in each treatment arm.||||||0.003
92179983|NCT00115934|184258352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||95.0|||||Poisson Regression|The offset parameter used in this analysis was the log of the number of patients per treatment arm.||||||0.20
92179984|NCT00115934|184258353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||Poisson Regression|The offset parameter used in this analysis was the log of the number of patients per treatment arm.||||||0.002
92179985|NCT00115934|184258354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||Poisson regression|The offset parameter used in this analysis was the log of the number of patients per treatment arm.||||||0.03
92179986|NCT04440228|184258382|SUPERIORITY|||||||0.088||||||Assumptions of ANOVA were violated, so we conducted a Related-Samples Friedman's Two-Way Analysis of Variance by Ranks|ANOVA|F=6.54, df=3||Repeated measures ANOVA examining change over time across the three partner school districts.||||0.088
92179987|NCT04440228|184258383|SUPERIORITY||Mean Difference (Final Values)|0.204|||<|0.05|TWO_SIDED|95.0|0.036|0.373|||Regression, Linear|||We conducted paired t-tests to evaluate simple pre-to-post changes in the primary outcome measures. We fitted linear mixed-effects regression models for each outcome variable, specifying random intercepts for participant ID to account for repeated measures and within-individual clustering. The core model included a binary post-training indicator as the primary predictor, along with the baseline value of the corresponding outcome as a covariate.||0.373|0.036|<0.05
92179988|NCT04440228|184258384|SUPERIORITY||Mean Difference (Final Values)|0.078||||0.277|TWO_SIDED|95.0|-0.064|0.219|||Regression, Linear|||We conducted paired t-tests to evaluate simple pre-to-post changes in the primary outcome measures. We fitted linear mixed-effects regression models for each outcome variable, specifying random intercepts for participant ID to account for repeated measures and within-individual clustering. The core model included a binary post-training indicator as the primary predictor, along with the baseline value of the corresponding outcome as a covariate.||0.219|-0.064|.277
92182855|NCT02434328|184264725|OTHER|Treatment difference|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-2.4|0.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.||Week 12 to Week 96|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|0.8|-2.4|
92179989|NCT04440228|184258385|SUPERIORITY||Mean Difference (Final Values)|0.002||||0.996|TWO_SIDED|95.0|-0.082|0.083|||Regression, Linear|||We conducted paired t-tests to evaluate simple pre-to-post changes in the primary outcome measures. We fitted linear mixed-effects regression models for each outcome variable, specifying random intercepts for participant ID to account for repeated measures and within-individual clustering. The core model included a binary post-training indicator as the primary predictor, along with the baseline value of the corresponding outcome as a covariate.||0.083|-0.082|0.996
92179990|NCT04503681|184258403|SUPERIORITY||Median Difference (Final Values)|0.0||||0.473|TWO_SIDED|95.0|-1.1|1.1|||Wilcoxon (Mann-Whitney)|||||1.1|-1.1|0.473
92179991|NCT04503681|184258404|SUPERIORITY||Median Difference (Final Values)|0.0||||0.338|TWO_SIDED|95.0|-0.8|0.8|||Wilcoxon (Mann-Whitney)|||||0.8|-0.8|0.338
92259204|NCT01040728|184421362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.309|0.43|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.430|0.309|<0.0001
92259205|NCT01040728|184421362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.366|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.306|0.426|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.426|0.306|<0.0001
92259206|NCT01040728|184421362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.202|0.322|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.322|0.202|<0.0001
92259207|NCT01040728|184421363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.344|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.287|0.401|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.401|0.287|<0.0001
92259208|NCT01040728|184421363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.353|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.296|0.411|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.411|0.296|<0.0001
92284551|NCT00986245|184473119|NON_INFERIORITY_OR_EQUIVALENCE|80% power|Mean Difference (Net)|0.3|||<|0.05|||||||Sign test|||"The Overall quality of sleep was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test."||||<0.05
92284552|NCT00986245|184473120|NON_INFERIORITY_OR_EQUIVALENCE|80% power|Mean Difference (Net)|0.2|||<|0.05|||||||Sign test|||"The Nocturnal off-symptoms was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test."||||<0.05
92179992|NCT03442777|184258448|SUPERIORITY||Risk Ratio (RR)|0.64||||0.04|TWO_SIDED|95.0|0.41|0.99||controlled for type of ward (ICU/Non-ICU)|Cochran-Mantel-Haenszel|||||0.99|0.41|0.04
92179993|NCT02866942|184258452|OTHER|||||||0.26|||||||McNemar|||||||0.26
92179994|NCT00372775|184258457|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|1.6|||||TWO_SIDED|95.0|0.0|8.8|||||Two-Sided Confidence Interval (CI) from Exact Method using the F Distribution|||8.8|0.0|
92259209|NCT01040728|184421363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.314|0.427|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.427|0.314|<0.0001
92259210|NCT01040728|184421364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.334|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.272|0.396|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.396|0.272|<0.0001
92259211|NCT01040728|184421364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.346|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.283|0.408|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.408|0.283|<0.0001
92259212|NCT01040728|184421364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.378|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.316|0.44|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.440|0.316|<0.0001
92259213|NCT01040728|184421365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.244|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.179|0.309|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.309|0.179|<0.0001
92259214|NCT01040728|184421365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.216|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.15|0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.282|0.150|<0.0001
92259215|NCT01040728|184421365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.256|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.191|0.321|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.321|0.191|<0.0001
92259216|NCT01855867|184421373|SUPERIORITY|Statistical significance was determined at the alpha 0.05 level. The study regimen completion rates of participants in the current study taking a fixed dose once daily combination of elvitegravir/cobicistat/TDF/FTC were compared to historical controls who used PEP regimens consisting of TDF/FTC daily and raltegravir twice daily, or earlier regimens of twice daily zidovudine (AZT)/lamivudine (3TC) and a protease inhibitor, using chi-square tests for independence.|chi square||||<|0.05||||||Reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|Chi-squared|||using historical controls||||<0.05
92284553|NCT00986245|184473121|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|||<|0.05||||||80% power|Sign test|||"The Early morning off symptoms was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test."||||<0.05
92284554|NCT00986245|184473122|NON_INFERIORITY_OR_EQUIVALENCE|80% power|Mean Difference (Final Values)|0.1|||<|0.05|||||||Sign test|||"The Epworth sleep scale was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test."||||<0.05
92284555|NCT00986245|184473123|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|||<|0.05|||||||Sign test|||||||<0.05
92259217|NCT00542425|184421375|SUPERIORITY_OR_OTHER||||||<|0.001||0.0|||||ANOVA|||Study size provided 95 percent power to detect a difference in means of 114 (ng/mL) for PINP endpoint between BA058 (SD=147.5) and placebo (SD=34.5). Study size was based on Bauer 2006 data and utilized a 2-tailed 2-sample t-test with a significance level of alpha=0.01 with a Bonferonni adjustment for multiple testing. It included a 10 percent adjustment for within study dropouts over 6 months and a 15 percent adjustment to maintain adequate power for a per protocol analysis of key endpoints.||||<0.001
92287094|NCT03086460|184479319|SUPERIORITY||Mean Difference (Final Values)|0.176|||<|0.001|TWO_SIDED|95.0|0.121|0.231|||ANCOVA|||"Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. Subjects receiving the same treatment in more than one period are included in the model with only data for the instance of each treatment which occurred after the randomization error."||0.231|0.121|<0.001
92179995|NCT00372775|184258459|SUPERIORITY_OR_OTHER||ORR (percent)|4.3|||||TWO_SIDED|95.0|0.1|21.9|||||Two-Sided CI from Exact Method using the F Distribution|||21.9|0.1|
92179996|NCT00372775|184258462|SUPERIORITY_OR_OTHER||Percentage|23.4|||||TWO_SIDED|95.0|14.0|34.3|||||Probability of survival along with the corresponding 2-sided confidence interval for the log \[-log(one-year survival rate)\] calculated using a normal approximation and then back transformed to give a confidence interval for the one-year survival|||34.3|14.0|
92259218|NCT00542425|184421375|SUPERIORITY_OR_OTHER||||||<|0.001||0.0|||||ANOVA|||Study size provided 95 percent power to detect a difference in means of 114 (ng/mL) for PINP endpoint between BA058 (SD=147.5) and placebo (SD=34.5). Study size was based on Bauer 2006 data and utilized a 2-tailed 2-sample t-test with a significance level of alpha=0.01 with a Bonferonni adjustment for multiple testing. It included a 10 percent adjustment for within study dropouts over 6 months and a 15 percent adjustment to maintain adequate power for a per protocol analysis of key endpoints.||||<0.001
92259219|NCT00542425|184421376|SUPERIORITY_OR_OTHER||||||<|0.001||0.0|||||ANOVA|||For the BMD endpoint, the planned study size has 80 percent power with alpha=0.02 to detect a difference in mean change from baseline of 3.0 (percent) in BMD for the BA058 group and the BA058 Placebo group using an assumed SD of 3.5-4.0. The estimates for SD are based upon results of lumbar spine BMD presented by Body 2002.||||<0.001
92284556|NCT00854308|184473140|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.086||||0.6873|TWO_SIDED|95.0|0.727|1.622|||Log Rank||The hazard ratio was estimated using Cox Regression and was stratified for smoking status, Eastern Cooperative Oncology Group (ECOG) performance status and histology. The hazard ratio is relative to Placebo + Erlotinib.|The null hypothesis is that there is no difference in PFS between MetMab + Erlotinib and Placebo + Erlotinib. The alternate hypothesis is that MetMab + Erlotinib would have prolonged PFS compared with Placebo + Erlotinib.||1.622|0.727|0.6873
92284557|NCT00854308|184473141|SUPERIORITY_OR_OTHER|||||||0.7101||95.0||||P-value was stratified for smoking status, ECOG performance status and histology.|Cochran-Mantel-Haenszel|||The null hypothesis is that there is no difference in Objective Response between MetMab + Erlotinib and Placebo + Erlotinib. The alternate hypothesis is that MetMab + Erlotinib would have better Objective Response compared with Placebo + Erlotinib.||||0.7101
92284558|NCT00854308|184473142|SUPERIORITY_OR_OTHER|||||||0.3671||95.0||||P-value was stratified for smoking status, ECOG performance status and histology.|Cochran-Mantel-Haenszel|||The null hypothesis is that there is no difference in Objective Response between MetMab + Erlotinib and Placebo + Erlotinib. The alternate hypothesis is that MetMab + Erlotinib would have better Objective Response compared with Placebo + Erlotinib||||0.3671
92259220|NCT00542425|184421376|SUPERIORITY_OR_OTHER||||||<|0.001||0.0|||||ANOVA|||For the BMD endpoint, the planned study size has 80 percent power with alpha=0.02 to detect a difference in mean change from baseline of 3.0 (percent) in BMD for the BA058 group and the BA058 Placebo group using an assumed SD of 3.5-4.0. The estimates for SD are based upon results of lumbar spine BMD presented by Body 2002.||||<0.001
92259221|NCT01424306|184421380|OTHER|||||||0.403||||||P value for the time x diet interaction reflects overall comparison of 3 dietary phases by RM-ANOVA|RM-ANOVA|||RM-ANOVA||||0.403
92259222|NCT01424306|184421381|OTHER|RM-ANOVA||||||0.933||||||P-diet: reflects an overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.933
92259223|NCT01424306|184421382|OTHER|RM-ANOVA||||||0.196||||||P-diet: reflects an overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.196
92259224|NCT01424306|184421383|OTHER|RM-ANOVA||||||0.88||||||Reflects an overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.880
92259225|NCT01424306|184421384|OTHER|RM-ANOVA|||||<|0.001||||||P-value reflects an overall comparison of the 3 dietary phases by RM-ANOVA|Repeated measures ANOVA|||||||<0.001
92259226|NCT01424306|184421385|OTHER|RM-ANOVA||||||0.366||||||P-value reflects an overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.366
92179997|NCT01561300|184258473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.09|TWO_SIDED|95.0|-2.16|0.17|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Tea-placebo|Null hypothesis: no difference between Tea and Control.||0.17|-2.16|0.09
92179998|NCT01561300|184258474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.7|TWO_SIDED|95.0|-2.44|1.66|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Tea- Control|Null hypothesis: no difference between Tea and Control.||1.66|-2.44|0.70
92179999|NCT01561300|184258475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.66|TWO_SIDED|95.0|-1.15|0.75||Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Mixed Models Analysis||Tea-placebo|Null hypothesis: no difference between Tea and Control.||0.75|-1.15|0.66
92180000|NCT00724126|184258519|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||Regression, Logistic|The p-value was obtained from a logistic regression model with fixed effects for treatment arm and analysis center.||||||0.03
92180001|NCT00724126|184258520|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Regression, Logistic|The p-value was obtained from a logistic regression model with fixed effects for treatment arm and analysis center.||||||0.02
92180002|NCT03577106|184258546|OTHER||||||<|0.005||||||t(20)=3.3, p\<0.005|paired t-test|||Mean difference using a paired t-test||||<0.005
92180003|NCT03601715|184258558|SUPERIORITY||||||<|0.05||||||Bonferroni post-hoc tests.|ANOVA|||Based on a pilot test with eight subjects, we calculated that we would need 18 subjects to give 90% power to detect the most efficient arrangement with a α level of .05. Considering losses to follow up , we increased the sample size by 10%.|Effect size was calculated through partial eta squared and correlated using Cohen index (.1 to .3 as small, .3 to .5 as medium, and over .5 as large).|||<0.05
92180004|NCT03601715|184258559|SUPERIORITY||||||<|0.05||||||Bonferroni post-hoc tests.|ANOVA|||Based on a pilot test with eight subjects, we calculated that we would need 18 subjects to give 90% power to detect the most efficient arrangement with a α level of .05. Considering losses to follow up , we increased the sample size by 10%.|Effect size was calculated through partial eta squared and correlated using Cohen index (.1 to .3 as small, .3 to .5 as medium, and over .5 as large).|||<0.05
92180005|NCT03601715|184258560|SUPERIORITY||||||<|0.05||||||Bonferroni post-hoc tests.|ANOVA|||Based on a pilot test with eight subjects, we calculated that we would need 18 subjects to give 90% power to detect the most efficient arrangement with a α level of .05. Considering losses to follow up , we increased the sample size by 10%.|Effect size was calculated through partial eta squared and correlated using Cohen index (.1 to .3 as small, .3 to .5 as medium, and over .5 as large).|||<0.05
92180006|NCT01478594|184258564|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.091||||0.706|TWO_SIDED|95.0|0.693|1.718|||Log Rank|Stratification factors were LDH status (\< 1.5 x ULN or ≥ 1.5 x ULN), origin of cancer (rectal or colon) and number of metastatic sites (1 or ≥ 2).|HR presented for the stratified analysis, which was based on the Cox proportional hazards model. Assuming proportional hazards, an HR \< 1 indicates a reduction in the HR in favor of tivozanib.|An interim futility analysis was to be performed when approximately 83 PFS events (50% of the total PFS events) were observed. The Lans DeMets beta spending function with an O'Brien-Fleming boundary was used to derive the futility boundary. If the hazard ratio (HR) for PFS was greater than 1.0581, enrollment was to be stopped. With this futility stopping rule, the adjusted study power was 78.6%.||1.718|0.693|0.706
92259227|NCT01424306|184421386|OTHER|RM-ANOVA||||||0.387||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.387
92284559|NCT00854308|184473143|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.529||||0.0418|TWO_SIDED|95.0|0.284|0.986|||Log Rank||The hazard ratio was estimated using Cox Regression and was stratified for smoking status, ECOG performance status and histology. The hazard ratio is relative to Placebo + Erlotinib.|The null hypothesis is that there is no difference in PFS between MetMab + Erlotinib and Placebo + Erlotinib. The alternate hypothesis is that MetMab + Erlotinib would have prolonged PFS compared with Placebo + Erlotinib.||0.986|0.284|0.0418
92284560|NCT01390844|184473145|SUPERIORITY_OR_OTHER||Difference in Percentage|34.63|||<|0.0001|TWO_SIDED|95.0|20.24|47.18|||Miettinen and Numinen|||Between-Group Comparison||47.18|20.24|<0.0001
92180007|NCT01478594|184258566|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.116||||0.754|TWO_SIDED|95.0|0.561|2.218|||Log Rank|Stratification factors were LDH status (\< 1.5 x ULN or ≥ 1.5 x ULN), origin of cancer (rectal or colon) and number of metastatic sites (1 or ≥ 2).|HR presented for the stratified analysis, which was based on the Cox proportional hazards model. Assuming proportional hazards, an HR \< 1 indicates a reduction in the HR in favor of tivozanib.|||2.218|0.561|0.754
92180008|NCT01478594|184258567|SUPERIORITY_OR_OTHER|||||||0.718|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratification factors were LDH status (\< 1.5 x ULN or ≥ 1.5 x ULN), origin of cancer (rectal or colon) and number of metastatic sites (1 or ≥ 2).||||||0.718
92180009|NCT01478594|184258568|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.389||||0.437|TWO_SIDED|95.0|0.604|3.194|||Log Rank|Stratification factors were LDH status (\< 1.5 x ULN or ≥ 1.5 x ULN), origin of cancer (rectal or colon) and number of metastatic sites (1 or ≥ 2).|HR presented for the stratified analysis, which was based on the Cox proportional hazards model. Assuming proportional hazards, an HR \< 1 indicates a reduction in the HR in favor of tivozanib.|||3.194|0.604|0.437
92259228|NCT01424306|184421387|OTHER|RM-ANOVA||||||0.476||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.476
92259229|NCT01424306|184421388|OTHER|RM-ANOVA||||||0.596||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.596
92259230|NCT01424306|184421389|OTHER|RM-ANOVA||||||0.492||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.492
92259231|NCT01424306|184421390|OTHER|RM-ANOVA||||||0.149||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.149
92259232|NCT01424306|184421391|OTHER|RM-ANOVA||||||0.056||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.056
92259233|NCT01424306|184421392|OTHER|RM-ANOVA||||||0.52||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.520
92259234|NCT02096471|184421401|SUPERIORITY|Single group study. Change in Pain from Baseline amongst those with a tumor response|Mean Difference (Final Values)|1.38|STANDARD_ERROR_OF_MEAN|0.84||0.11|TWO_SIDED||||||t-test, 2 sided|Descriptive analysis only||Single group change from baseline||||0.11
92284561|NCT01390844|184473146|SUPERIORITY_OR_OTHER||Difference in Percentage|33.83||||0.0063|TWO_SIDED|95.0|10.15|52.18|||Miettinen and Numinen|||Between-Group Comparison||52.18|10.15|0.0063
92180010|NCT01478594|184258569|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.006||||0.967|TWO_SIDED|95.0|0.746|1.358|||Log Rank|Stratification factors were LDH status (\< 1.5 x ULN or ≥ 1.5 x ULN), origin of cancer (rectal or colon) and number of metastatic sites (1 or ≥ 2).|HR presented for the stratified analysis, which was based on the Cox proportional hazards model. Assuming proportional hazards, an HR \< 1 indicates a reduction in the HR in favor of tivozanib.|||1.358|0.746|0.967
92259235|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Pain from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|0.8||0.01|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.01
92180011|NCT01478594|184258572|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.331|||||TWO_SIDED|95.0|0.746|2.375|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.375|0.746|
92259236|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Pain from Baseline amongst those with a Tumor Response|Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.66||0.18|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.18
92180012|NCT01478594|184258572|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.575|||||TWO_SIDED|95.0|0.285|1.16|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.160|0.285|
92259237|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life (QOL) from Baseline amongst those with a Tumor Response|Mean Difference (Final Values)|-3.77|STANDARD_ERROR_OF_MEAN|3.6||0.3|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.30
92259238|NCT02096471|184421401|SUPERIORITY|Single Group Study Change in Quality of Life from Baseline amongst those with a Tumor Response|Mean Difference (Final Values)|-3.55|STANDARD_ERROR_OF_MEAN|6.87||0.61|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.61
92259239|NCT02096471|184421401|SUPERIORITY|Single Group Study Change in Baseline amongst those with a Tumor Response|Mean Difference (Final Values)|-13.06|STANDARD_ERROR_OF_MEAN|8.29||0.12|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.12
92259240|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-12.98|STANDARD_ERROR_OF_MEAN|6.35||0.05|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only.||Single Group Change from Baseline||||0.05
92284562|NCT01390844|184473147|SUPERIORITY_OR_OTHER||Difference in Percentage|35.05|||<|0.0001|TWO_SIDED|95.0|20.51|47.72|||Miettinen and Numinen|||Between-Group Comparison||47.72|20.51|<0.0001
92284563|NCT01390844|184473148|SUPERIORITY_OR_OTHER||Difference in Percentage|33.18||||0.0086|TWO_SIDED|95.0|8.96|51.83|||Miettinen and Numinen|||Between-Group Comparison||51.83|8.96|0.0086
92284564|NCT01390844|184473149|SUPERIORITY_OR_OTHER||Difference in Percentage|29.08|||<|0.001|TWO_SIDED|95.0|15.26|42.22|||Miettinen and Nurminen|||Between-Group Comparison||42.22|15.26|<0.001
92284565|NCT01390844|184473150|SUPERIORITY_OR_OTHER||Difference in Percentage|36.13||||0.004|TWO_SIDED|95.0|12.12|55.01|||Mittienen and Nurminen|||Between-Group Comparison||55.01|12.12|0.004
92180013|NCT01478594|184258573|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.608|||||TWO_SIDED|95.0|0.635|4.073|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||4.073|0.635|
92259241|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|6.66|STANDARD_ERROR_OF_MEAN|5.05||0.19|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.19
92259242|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-2.34|STANDARD_ERROR_OF_MEAN|6.46||0.72|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.72
92259243|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-6.24|STANDARD_ERROR_OF_MEAN|6.74||0.36|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.36
92259244|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|6.37||0.98|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.98
92259245|NCT02096471|184421401|SUPERIORITY|Single Group Study. change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|7.99||0.93|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.93
92259246|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-10.97|STANDARD_ERROR_OF_MEAN|8.16||0.19|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.19
92259247|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-3.74|STANDARD_ERROR_OF_MEAN|6.58||0.57|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.57
92259248|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-4.21|STANDARD_ERROR_OF_MEAN|5.51||0.45|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.45
92259249|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-6.27|STANDARD_ERROR_OF_MEAN|5.72||0.28|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.28
92259250|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|8.52||0.93|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.93
92259251|NCT02096471|184421401|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|7.53||0.89|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.89
92284566|NCT03221374|184473176|OTHER|Linear mixed effect model to test the overall BCI learning between MBSR and control groups||||||0.003||||||The threshold for statistical analysis was p = 0.05.|Mixed Models Analysis|||||||0.003
92284567|NCT03221374|184473176|EQUIVALENCE|This independent t-test will test if the two groups (MBSR, control) exhibit a statistically significant difference in terms of BCI performance from baseline.|Mean Difference (Net)|8.98||||0.024|TWO_SIDED|||||The threshold for statistical analysis was p = 0.05|t-test, 2 sided||The difference between BCI performance improvement in MBSR cohort and control cohort.|||||0.024
92284568|NCT03221374|184473177|EQUIVALENCE|This WRS test will determine if the MBSR group breath counting accuracy was significantly greater than the postintervention levels of controls.|Mean Difference (Net)|15.4|||<|0.001|TWO_SIDED|||||The threshold for statistical analysis was p = 0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
92259252|NCT02590406|184421409|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||ANOVA|||We calculated our sample size using data from EPO2: PV study (Couture: simultaneous submitted manuscript), where we found a difference in the FRC of 21% between reverse Trendelenburg with non-invasive positive pressure ventilation and beach chair position without positive pressure ventilation. Assuming there would be a difference of 21% in the apnea time, with a type I error of 5% and power of 80%, a total of 17 patients by group was needed.||||0.005
92259253|NCT02590406|184421410|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92259254|NCT02590406|184421411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||ANOVA|||||||0.0003
92259255|NCT02590406|184421412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||ANOVA|||||||0.9
92284569|NCT03221374|184473178|EQUIVALENCE|The null hypothesis is that the FMI scores of the two groups have equal medians.|Mean Difference (Final Values)|7.9|||<|0.01|TWO_SIDED|||||significant if p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.01
92284570|NCT03221374|184473178|EQUIVALENCE|The null hypothesis is that the MAAS scores of the two groups have equal medians.|Mean Difference (Final Values)|0.69|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92284571|NCT03221374|184473178|OTHER|This statistical test is about the correlation between baseline up-down BCI performance and the FMI score. A linear regression model is used to test if the slope is non-zero.|correlation coefficient|0.42|||<|0.05|TWO_SIDED|||||significant if p\<0.05|Regression, Linear|||||||<0.05
92284572|NCT03221374|184473178|OTHER|This statistical test is about the correlation between baseline up-down BCI performance and the MAAS score. A linear regression model is used to test if the slope is non-zero.|correlation coefficient|0.41|||<|0.05|TWO_SIDED||||||Regression, Linear|||||||<0.05
92284573|NCT02597101|184473199|OTHER|REML mixed model|REML mixed model|0.05|||<|0.05|TWO_SIDED|||||Using REML mixed model analysis, differences between study arms resulting in a p\<0.05 would represent statistically-significant differences.|REML mixed model|||The primary efficacy endpoint is the improvement of insulin sensitivity by 40% or greater at 6 months compared to baseline, assessed by the hyperinsulinemic-euglycemic clamp method.||||<0.05
92284574|NCT03693430|184473212|SUPERIORITY|Week 104 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline body weight as covariate. Missing observations were multiple (x1000) imputed from retrieved subjects of the same randomised treatment arm.|Treatment difference|-12.55|||<|0.0001|TWO_SIDED|95.0|-15.33|-9.77|||ANCOVA|||Treatment policy estimand||-9.77|-15.33|<.0001
92259256|NCT02590406|184421413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||ANOVA|||||||0.03
92259257|NCT00631969|184421415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.109|||<|0.0001||95.0|-8.562|-5.6561|||ANCOVA|||Power adjustment for 3 primary efficacy variables (3 variables have to be significant in favor of Vardenafil to conclude efficacy). Statistical analysis applies to the total population.||-5.6561|-8.562|< 0.0001
92259258|NCT00631969|184421416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.027|||<|0.0001||95.0|-35.519|-22.534|||ANCOVA|||Statistical analysis applies to the total population.||-22.534|-35.519|< 0.0001
92259259|NCT00631969|184421417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-38.193|||<|0.0001||95.0|-45.021|-31.366|||ANCOVA|||Statistical analysis applies to the total population.||-31.366|-45.021|< 0.0001
92259260|NCT00631969|184421418|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel|34.778|||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) adjusted for age group and pooled center.||Statistical analysis applies to the total population.||||<0.0001
92259261|NCT00631969|184421419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.503|||<|0.0001||95.0|-22.424|-10.764|||ANCOVA|||Statistical analysis applies to the total population.||-10.764|-22.424|< 0.0001
92259262|NCT00631969|184421420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-38.167|||<|0.0001||95.0|-45.261|-31.073|||ANCOVA|||Statistical analysis applies to the total population.||-31.073|-45.261|< 0.0001
92259263|NCT00631969|184421421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.555|||<|0.0001||95.0|-43.645|-29.465|||ANCOVA|||Statistical analysis applies to the total population.||-29.465|-43.645|< 0.0001
92259264|NCT00631969|184421422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.193|||<|0.0001||95.0|-31.562|-18.824|||ANCOVA|||Statistical analysis applies to the total population.||-18.824|-31.562|< 0.0001
92259265|NCT00631969|184421424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.703|||<|0.0001||95.0|-30.067|-19.34|||ANCOVA|||Statistical analysis applies to the total population.||-19.340|-30.067|< 0.0001
92259266|NCT00631969|184421425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.496|||<|0.0001||95.0|-34.865|-24.128|||ANCOVA|||Statistical analysis applies to the total population.||-24.128|-34.865|< 0.0001
92259267|NCT00631969|184421426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.775|||<|0.0001||95.0|-33.155|-22.394|||ANCOVA|||Statistical analysis applies to the total population.||-22.394|-33.155|< 0.0001
92259268|NCT00631969|184421427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.326|||<|0.0001||95.0|-29.062|-17.598|||ANCOVA|||Statistical analysis applies to the total population.||-17.598|-29.062|< 0.0001
92259269|NCT00631969|184421428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.384|||<|0.0001||95.0|-28.594|-18.175|||ANCOVA|||Statistical analysis applies to the total population.||-18.175|-28.594|< 0.0001
92259270|NCT00631969|184421429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.076|||<|0.0001||95.0|-38.745|-27.407|||ANCOVA|||Statistical analysis applies to the total population.||-27.407|-38.745|< 0.0001
92259271|NCT00631969|184421430|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel|74.449|||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) adjusted for pooled centers and age group.||Statistical analysis applies to the total population.||||<0.0001
92284575|NCT03693430|184473212|SUPERIORITY|All responses prior to first discontinuation of treatment (or initiation of other anti-obesity medication or bariatric surgery) were included in a mixed model for repeated measurements with randomised treatment as factor and baseline body weight as covariate, all nested within visit.|Treatment difference|-16.05|||<|0.0001|TWO_SIDED|95.0|-18.64|-13.45|||MMRM (Mixed model repeated measurement)|||Hypothetical estimand||-13.45|-18.64|<0.0001
92284576|NCT03693430|184473213|SUPERIORITY||Odds Ratio (OR)|4.99|||<|0.0001|TWO_SIDED|95.0|2.95|8.42|||Regression, Logistic|||Treatment policy estimand||8.42|2.95|<0.0001
92180014|NCT01478594|184258573|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.755|||||TWO_SIDED|95.0|0.375|1.521|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.521|0.375|
92259272|NCT00631969|184421431|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of Vardenafil exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.|Point estimate of ratio|117.42||||||90.0|79.59|173.23||||||Point estimate and 90% confidence interval of ratio (patients aged ≥ 65 years / patients aged \< 65 years) were calculated.||173.23|79.59|
92259273|NCT00631969|184421431|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of Vardenafil exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.||||||0.7064||95.0|||||Regression, Linear|||A linear regression line is fitted to the logarithm of AUC. Test of the hypothesis of a zero slope using the two-sided t-test at α = 0.05.||||0.7064
92259274|NCT00631969|184421432|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of Vardenafil exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.|Point estimate of ratio|133.07||||||90.0|87.46|202.46||||||Point estimate and 90% confidence interval of ratio (patients aged ≥ 65 years / patients aged \< 65 years) were calculated.||202.46|87.46|
92180015|NCT01478594|184258574|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.877|||||TWO_SIDED|95.0|0.366|2.1|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.100|0.366|
92259275|NCT00631969|184421432|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of Vardenafil exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.||||||0.8749||95.0|||||Regression, Linear|||A linear regression line is fitted to the logarithm of Cmax. Test of the hypothesis of a zero slope using the two-sided t-test at α=0.05.||||0.8749
92259276|NCT00631969|184421433|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of metabolite M-1 exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.|Point estimate of ratio|125.28||||||90.0|73.65|213.11||||||Point estimate and 90% confidence interval of ratio (patients aged ≥ 65 years/ patients aged \< 65 years) were calculated.||213.11|73.65|
92259277|NCT00631969|184421433|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of metabolite M-1 exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.||||||0.7375||95.0|||||Regression, Linear|||A linear regression line is fitted to the logarithm of AUC. Test of the hypothesis of a zero slope using the two-sided t-test at α=0.05.||||0.7375
92259278|NCT00631969|184421434|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of metabolite M-1 exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.|Point estimate of ratio|123.84||||||90.0|80.12|191.42||||||Point estimate and 90% confidence interval of ratio (patients aged ≥ 65 years / patients aged \< 65 years) were calculated.||191.42|80.12|
92284577|NCT03693430|184473213|SUPERIORITY||Odds Ratio (OR)|18.06|||<|0.0001|TWO_SIDED|95.0|10.04|32.49|||MMRM|||Hypothetical estimand||32.49|10.04|<0.0001
92284578|NCT02079766|184473249|OTHER|||||||0.2959||||||No adjustments for multiple comparisons or multiplicity were made for this study. No a priori threshold for significance was chosen.|Fisher Exact|||Evaluated the association between the overall brain uptake and the study group||||0.2959
92284579|NCT02079766|184473250|OTHER|||||||0.5163||||||No adjustments for multiple comparisons or multiplicity were made for this study. No a priori threshold for significance was chosen.|ANOVA|MMSE score as the response variable and flortaucipir uptake score (4 levels) as the fixed effect||Measured differences in clinical presentation using MMSE between subjects with no visual flortaucipir uptake, and those with mild uptake.||||0.5163
92180016|NCT01478594|184258574|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.275|||||TWO_SIDED|95.0|0.614|2.646|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.646|0.614|
92259279|NCT00631969|184421434|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of metabolite M-1 exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.||||||0.394||95.0|||||Regression, Linear|||A linear regression line is fitted to the logarithm of Cmax. Test of the hypothesis of a zero slope using the two-sided t-test at α = 0.05.||||0.3940
92259280|NCT01084096|184421435|SUPERIORITY|Trial powered to detect a 30% reduction in 28-d NM among \<5th %tile for birth weight infants. We used an intention-to-treat approach, with a model-based adaptation of the permutation test. We fitted an individual-level linear model with 28-d NM by site and randomization strata, nested within site, and computed the residual for each individual and mean cluster-level residuals. Next, we used an ANOVA model to test for trt differences between mean residuals for intervention and control clusters.|Risk Ratio (RR)|0.96||||0.65|TWO_SIDED|95.0|0.87|1.06|||t-test, 2 sided|Cluster-level with 62 degrees of freedom \[101 clusters-37 strata-2 treatment groups\].|Calculated from generalized linear models accounting for the cluster-level variance and adjusted for randomization strata. Each stratum corresponds to 2-4 clusters within the site with equal distribution to treatment and control arms.|||1.06|0.87|0.65
92180017|NCT01478594|184258575|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.721|||||TWO_SIDED|95.0|0.345|1.507|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.507|0.345|
92180018|NCT01478594|184258575|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.597|||||TWO_SIDED|95.0|0.672|3.795|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.795|0.672|
92180019|NCT01478594|184258576|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.627|||||TWO_SIDED|95.0|0.58|4.564|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||4.564|0.580|
92180020|NCT01478594|184258576|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.779|||||TWO_SIDED|95.0|0.397|1.531|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.531|0.397|
92180021|NCT01478594|184258577|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.946|||||TWO_SIDED|95.0|0.636|5.956|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||5.956|0.636|
92180022|NCT01478594|184258577|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.806|||||TWO_SIDED|95.0|0.422|1.538|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.538|0.422|
92180023|NCT01478594|184258578|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.776|||||TWO_SIDED|95.0|0.303|1.991|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.991|0.303|
92259281|NCT01084096|184421436|SUPERIORITY||Risk Difference (RD)|0.3546|||<|0.0001|TWO_SIDED|95.0|0.3299|0.3792|||Cochran-Mantel-Haenszel|P-values were calculated from Cochran-Mantel-Haenszel test controlling for randomization strata.|Risk difference represents risk in the intervention clusters minus the risk in the control clusters.|The trial was powered to detect a 30% reduction in 28-day neonatal mortality among infants born at less than the 5th percentile of birth weight, based on previous research and an expected increase from 10% to 50% in the use of antenatal corticosteroids among women at risk of preterm birth in the intervention group.||0.3792|0.3299|<0.0001
92259282|NCT01084096|184421437|OTHER|Descriptive analysis.|Odds Ratio (OR)|1.45|||<|0.0001|TWO_SIDED|95.0|1.33|1.58||P-values were calculated from Cochran-Mantel-Haenszel test controlling for randomization strata.|Cochran-Mantel-Haenszel|||||1.58|1.33|<0.0001
92180024|NCT01478594|184258578|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.241|||||TWO_SIDED|95.0|0.615|2.501|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.501|0.615|
92259283|NCT01084096|184421439|SUPERIORITY||Risk Ratio (RR)|1.12||||0.0127|TWO_SIDED|95.0|1.02|1.22||P-value calculated from a generalized linear model with generalized estimating equations to estimate parameters while controlling for cluster correlations. Model-generated p value was adjusted for randomization strata.|Generalized linear model with GEE||Relative risk calculated from a generalized linear model with generalized estimating equations to estimate parameters while controlling for cluster correlations. Model-generated measure of risk was adjusted for randomization strata.|||1.22|1.02|0.0127
92180025|NCT01478594|184258579|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.343|2.63|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.630|0.343|
92180026|NCT01478594|184258579|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.983|||||TWO_SIDED|95.0|0.503|1.918|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.918|0.503|
92180027|NCT01478594|184258580|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.226|||||TWO_SIDED|95.0|0.468|3.214|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.214|0.468|
92180028|NCT01478594|184258580|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.232|||||TWO_SIDED|95.0|0.447|3.396|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.396|0.447|
92180029|NCT01478594|184258581|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.803|||||TWO_SIDED|95.0|0.307|2.1|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.100|0.307|
92180030|NCT01478594|184258581|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.505|||||TWO_SIDED|95.0|0.585|3.873|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.873|0.585|
92180031|NCT01478594|184258582|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.921|||||TWO_SIDED|95.0|0.356|2.385|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.385|0.356|
92284580|NCT02373098|184473255|OTHER|||||||0|||||||Wilcoxon (Mann-Whitney)|||CCL5=RANTES||||0.000
92284581|NCT02373098|184473255|OTHER|||||||0.035|||||||Wilcoxon (Mann-Whitney)|||IL17A||||0.035
92284582|NCT02373098|184473255|OTHER|||||||0.911|||||||Wilcoxon (Mann-Whitney)|||CXCL13||||0.911
92284583|NCT02373098|184473255|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||IL6||||1.000
92284584|NCT02373098|184473255|OTHER|||||||0.934|||||||Wilcoxon (Mann-Whitney)|||IL8||||0.934
92259284|NCT01084096|184421440|OTHER|Descriptive analysis.|Risk Ratio (RR)|1.11||||0.0181|TWO_SIDED|95.0|1.02|1.22||P-value calculated from a generalized linear model with generalized estimating equations to estimate parameters while controlling for cluster correlations. Model-generated p value was adjusted for randomization strata.|Generalized linear model with GEE||Relative risk calculated from a generalized linear model with generalized estimating equations to estimate parameters while controlling for cluster correlations. Model-generated measure of risk was adjusted for randomization strata.|||1.22|1.02|0.0181
92259285|NCT01451203|184421478|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann point estimate of shift|0.0|||<|0.001|TWO_SIDED|95.0|0.0|0.0||The ANCOVA on the ranks with treatment as factors and Baseline rank as covariate was used.|ANCOVA|||The mTSS was analyzed using LINEAR for the imputation of missing data at Week 52.The primary Week 52 analysis assessed whether treatment up to Week 52 with the CZP group was superior to the placebo group in mTSS at Week 52. The 2-sided null and alternative hypotheses were: H0: πC = πM Ha: πC ≠ πM where πC represented subjects in the CZP group at Week 52 and πM represented subjects in the placebo group at Week 52.||0.00|0.00|<0.001
92284585|NCT02373098|184473255|OTHER|||||||0.727|||||||Wilcoxon (Mann-Whitney)|||IL13||||0.727
92284586|NCT02373098|184473255|OTHER|||||||0.179|||||||Wilcoxon (Mann-Whitney)|||IL23||||0.179
92284587|NCT02373098|184473255|OTHER|||||||0.208|||||||Wilcoxon (Mann-Whitney)|||VLA4||||0.208
92284588|NCT02373098|184473255|OTHER|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||CXCL10=IP-10 (CXCR3 ligand)||||0.730
92259286|NCT01451203|184421479|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman point estimate of shift|0.0||||0.003|TWO_SIDED|95.0|0.0|0.0|||ANCOVA|The ANCOVA on the ranks with treatment as factors and Baseline rank as covariate was used.||The mTSS was analyzed using LINEAR for the imputation of missing data at Week 24.||0.00|0.00|0.003
92259287|NCT01451203|184421480|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92180032|NCT01478594|184258582|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22|||||TWO_SIDED|95.0|0.462|3.22|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.220|0.462|
92259288|NCT01451203|184421481|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92259289|NCT01451203|184421482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Fisher Exact|||||||0.002
92265431|NCT00948896|184432648|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|58.0|||<|0.001|TWO_SIDED|95.0|45.0|67.0|||Negative Binomial Regression||The no chemoprevention arm is the reference arm.|The sample size was calculated to detect at least a 32% lower incidence of malaria in the DP arm compared to that in the TS arm. We assumed that the incidence of malaria would be 1.85 episodes per person-year with TS chemoprevention based on a prior cohort study in the same area, and thus we calculated that we would need to enroll 100 participants in each arm to detect our targeted protective efficacy with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||67|45|<0.001
92284589|NCT02373098|184473255|OTHER|||||||0.725|||||||Wilcoxon (Mann-Whitney)|||CCL2=MCP-1||||0.725
92284590|NCT02373098|184473255|OTHER|||||||0.057|||||||Wilcoxon (Mann-Whitney)|||IL4||||0.057
92284591|NCT02373098|184473255|OTHER|||||||0.724|||||||Wilcoxon (Mann-Whitney)|||TNF alpha||||0.724
92284592|NCT02373098|184473255|OTHER|||||||0.662|||||||Wilcoxon (Mann-Whitney)|||IL22||||0.662
92180033|NCT01478594|184258583|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.915|||||TWO_SIDED|95.0|0.334|2.512|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.512|0.334|
92180034|NCT01478594|184258583|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.384|||||TWO_SIDED|95.0|0.554|3.455|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.455|0.554|
92180035|NCT01478594|184258584|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.538|||||TWO_SIDED|95.0|0.548|4.32|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||4.320|0.548|
92180036|NCT01478594|184258584|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.744|||||TWO_SIDED|95.0|0.299|1.85|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.850|0.299|
92180037|NCT01970007|184258595|OTHER||Freedom from MAE rate (%)|96.7|||<|0.0001|TWO_SIDED|95.0|93.5|98.6|||One-sided Exact binomial test||One-sided Exact binomial test|||98.6|93.5|<0.0001
92180038|NCT01970007|184258596|OTHER||12-month quantitative patency rate (%)|89.9|||<|0.0001|TWO_SIDED|95.0|85.1|93.4|||Binomial test for one proportion||Binomial test for one proportion|||93.4|85.1|<0.0001
92180039|NCT01970007|184258597|OTHER||Change from Baseline Mean|-3.0|||<|0.0001|TWO_SIDED|95.0|-3.5|-2.6||P-value is adjusted for multiplicity|paired t-test|A paired t-test with p-values adjusted for multiple comparisons using the Holm's procedure to control for a family-wise Type I error rate of 0.05.||||-2.6|-3.5|<0.0001
92259290|NCT01249404|184421488|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|-0.1|||=|0.2859|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA||LS Means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, BTX treatment status at baseline and centre as covariates.|The least squares mean change from baseline to Week 4 for MAS in the Dysport® 1000 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect analysis of covariance (ANCOVA) model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||0.1|-0.3|=0.2859
92259291|NCT01249404|184421488|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|||=|0.0091|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA||LS Means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, BTX treatment status at baseline and centre as covariates.|The least squares mean change from baseline to Week 4 for MAS in the Dysport® 1500 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect ANCOVA model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||-0.1|-0.5|=0.0091
92259292|NCT01249404|184421489|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.3|||=|0.064|TWO_SIDED|95.0|0.0|0.5|||ANCOVA||LS means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on visit results with treatment, BTX treatment status at baseline and centre as covariates.|The mean PGA at Week 4 in the Dysport® 1000 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect ANCOVA model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||0.5|-0.0|=0.0640
92284593|NCT02373098|184473256|OTHER|||||||0.256|||||||Wilcoxon (Mann-Whitney)|||CD3 abs||||0.256
92284594|NCT02373098|184473256|OTHER|||||||0.587|||||||Wilcoxon (Mann-Whitney)|||CD19 abs||||0.587
92180040|NCT01970007|184258598|OTHER||Change from Baseline Mean|-4.2|||<|0.0001|TWO_SIDED|95.0|-4.7|-3.7||p-value is adjusted for multiplicity.|pair t-test|A paired t-test with p-values adjusted for multiple comparisons using the Holm's procedure to control for a family-wise Type I error rate of 0.05||||-3.7|-4.7|<0.0001
92180041|NCT05230433|184258604|OTHER||Percent Consumed|86.0||||0.15|TWO_SIDED|||||p-value was not adjusted for multiple comparisons|Chi-squared|||High fat agents were weighed pre- and post- providing the shake to the participant. All containers were tared to take into account straw, lid, and glass weight. Percentage of high-fat challenge consumed was calculated by post-shake weight / pre-shake weight. 13 out of 15 partcipants drank \>75% of the shake.||||0.15
92180042|NCT05230433|184258605|OTHER|No test vs. control groups.||||||0.65||||||This p-value is not adjusted for multiple comparisons.|Pearson Correlation|||Fold change from 60 to 180 minutes of average medium chain acylcarnitine was calculated for each participant. Pearson correlation between BMI percentile and fold change was calculated.|Pearson Correlation between both secondary outcomes reported: BMI percentile and fold change between acylcarnitine at 60 minutes and 180 minutes post the high fat challenge.|||0.65
92180043|NCT04250194|184258608|NON_INFERIORITY|The noninferiority margin was 10%.|absolute difference in percentage points|5.4||||0.003|TWO_SIDED|95.0|-6.5|17.2||The threshold for statistical significance was p = 0.05. The p value was not adjusted for multiple comparisons.|One-sided two-sample z-test||Difference in diagnostic accuracy = navigational bronchoscopy % - transthoracic biopsy %|||17.2|-6.5|0.003
92180044|NCT03500549|184258628|SUPERIORITY|The primary endpoint analysis was a between-treatment-group comparison using a mixed effect model for repeated measures (MMRM). The difference between pegcetacoplan and eculizumab LS mean Hb changes from Baseline at Week 16 was calculated along with its 2-sided 95% confidence interval (CI) and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|3.84|||<|0.0001|TWO_SIDED|95.0|2.33|5.34||Superiority was tested at the 5% level. MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||5.34|2.33|<0.0001
92182856|NCT02434328|184264726|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-2.5|1.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.4|-2.5|
92284595|NCT02373098|184473256|OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||NK abs||||0.300
92284596|NCT02373098|184473256|OTHER|||||||0.096|||||||Wilcoxon (Mann-Whitney)|||NKT abs||||0.096
92259293|NCT01249404|184421489|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.3|||=|0.0665|TWO_SIDED|95.0|0.0|0.5|||ANCOVA||LS means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on visit results with treatment, BTX treatment status at baseline and centre as covariates.|The mean PGA at Week 4 in the Dysport® 1500 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect ANCOVA model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||0.5|-0.0|=0.0665
92259294|NCT01249404|184421489|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.2||||0.0466|TWO_SIDED||||||ANCOVA on rank PGA scores||LS means for each treatment group and treatment comparisons and the p-values are obtained from an analysis of variance on visit results based on ranked values with treatment, BTX treatment status at baseline and centre as explanatory variables.|The LS mean rank values were back transformed to the original scale to give ranked PGA scores in an attempt to better normalise the data and restore power.||||0.0466
92259295|NCT01249404|184421489|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.2||||0.0406|TWO_SIDED||||||ANCOVA on rank PGA scores||LS means for each treatment group and treatment comparisons and the p-values are obtained from an analysis of variance on visit results based on ranked values with treatment, BTX treatment status at baseline and centre as explanatory variables.|The LS mean rank values were back transformed to the original scale to give ranked PGA scores in an attempt to better normalise the data and restore power.||||0.0406
92284597|NCT02373098|184473256|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Hi CD16CD56 abs||||0.270
92284598|NCT02373098|184473256|OTHER|||||||0.902|||||||Wilcoxon (Mann-Whitney)|||CD4CD25||||0.902
92284599|NCT02373098|184473256|OTHER|||||||0.283|||||||Wilcoxon (Mann-Whitney)|||Hi CD4CD25||||0.283
92284600|NCT02373098|184473259|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||CD3 %||||0.017
92284601|NCT02373098|184473259|OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||CD19 %||||0.300
92284602|NCT02373098|184473259|OTHER|||||||0.657|||||||Wilcoxon (Mann-Whitney)|||NK %||||0.657
92180045|NCT03500549|184258629|NON_INFERIORITY|Analysis was based on prespecified non-inferiority margins (NIM) and non-inferiority was achieved if the lower confidence limit or upper confidence limit of the 95% CI of the treatment difference met the prespecified NIM of -20%. Stratified Cochran-Mantel Haenszel (CMH) chi-square test was used for treatment comparison and the 95% CI for difference in percentage between treatments is constructed using the stratified (Miettinen-Nurminen) method.|Risk Difference (RD)|0.6253|||<|0.0001|TWO_SIDED|95.0|0.483|0.7677||Non-inferiority was tested at the 2.5% level.|Miettinen-Nurminen|||||0.7677|0.4830|<0.0001
92265432|NCT00948896|184432649|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|9.0||||0.065|TWO_SIDED|95.0|-35.0|38.0|||Negative Binomial Regression||The no chemoprevention arm is the reference arm.|We assumed that the incidence of malaria would be 1.85 episodes per person year with TS based on a prior cohort study in the same area, and thus, that we would need to enroll 50 participants in each arm to detect a reduction in the incidence of malaria in either the monthly SP or DP arms (two-sided significance level 0.05) compared with the daily TS arm of 48% or greater with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||38|-35|0.065
92284603|NCT02373098|184473259|OTHER|||||||0.439|||||||Wilcoxon (Mann-Whitney)|||NKT %||||0.439
92284604|NCT02373098|184473259|OTHER|||||||0.449|||||||Wilcoxon (Mann-Whitney)|||Hi CD16CD56 %||||0.449
92180046|NCT03500549|184258630|NON_INFERIORITY|Analysis was based on prespecified NIM and non-inferiority was achieved if the lower confidence limit or upper confidence limit of the 95% CI of the treatment difference met the prespecified NIM of 10.|LS mean difference|-163.61|||<|0.0001|TWO_SIDED|95.0|-189.91|-137.3||Non-inferiority was tested at the 2.5% level. MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||-137.30|-189.91|<0.0001
92284605|NCT02373098|184473259|OTHER|||||||0.356|||||||Wilcoxon (Mann-Whitney)|||CD3CD4||||0.356
92284606|NCT02373098|184473259|OTHER|||||||0.787|||||||Wilcoxon (Mann-Whitney)|||CD3CD8||||0.787
92284607|NCT02373098|184473259|OTHER|||||||0.121|||||||Wilcoxon (Mann-Whitney)|||CD3CD4||||0.121
92182857|NCT02434328|184264727|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-5.1|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||2.9|-5.1|
92180047|NCT03500549|184258631|NON_INFERIORITY|Analysis was based on prespecified NIM and non-inferiority was achieved if the lower confidence limit or upper confidence limit of the 95% CI of the treatment difference met the prespecified NIM of 20.|LS mean difference|-4.63||||0.9557|TWO_SIDED|95.0|-181.3|172.04||Non-inferiority was tested at the 2.5% level. MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||172.04|-181.30|0.9557
92180048|NCT03500549|184258632|OTHER|Non-inferiority was not assessed because of the prespecified hierarchical testing. Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|11.87||||0.0005|TWO_SIDED|95.0|5.49|18.25||MRMM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||18.25|5.49|0.0005
92180049|NCT03500549|184258633|OTHER|Stratified CMH chi-square test was used for treatment comparison and the 95% CI for difference in percentage between treatments is constructed using the stratified Miettinen-Nurminen method.|Difference in percentage|0.6745|||||TWO_SIDED|95.0|0.5452|0.8039|||||The difference in percentage and 95% CI is calculated based on stratified Miettinen-Nurminen method stratified by randomization factor so it it is not a direct difference of two reporting groups.|||0.8039|0.5452|
92180050|NCT03500549|184258634|OTHER|Stratified CMH chi-square test was used for treatment comparison and the 95% CI for difference in percentage between treatments is constructed using the stratified Miettinen-Nurminen method.|Difference in percentage|0.6639|||||TWO_SIDED|95.0|0.5309|0.7968|||||The difference in percentage and 95% CI is calculated based on stratified Miettinen-Nurminen method stratified by randomization factor so it it is not a direct difference of two reporting groups.|||0.7968|0.5309|
92180051|NCT03500549|184258635|OTHER|Stratified CMH chi-square test was used for treatment comparison and the 95% CI for difference in percentage between treatments is constructed using the stratified Miettinen-Nurminen method.|Difference in percentage|0.3043|||||TWO_SIDED|95.0|0.1493|0.4593|||||The difference in percentage and 95% CI is calculated based on stratified Miettinen-Nurminen method stratified by randomization factor so it it is not a direct difference of two reporting groups.|||0.4593|0.1493|
92180052|NCT03500549|184258636|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-21.93||||0.0002|TWO_SIDED|95.0|-32.49|-11.36||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||-11.36|-32.49|0.0002
92180053|NCT03500549|184258637|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-0.14||||0.0369|TWO_SIDED|95.0|-0.28|-0.01||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||-0.01|-0.28|0.0369
92180054|NCT03500549|184258638|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|59.1||||0.0069|TWO_SIDED|95.0|16.88|101.32||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||101.32|16.88|0.0069
92259296|NCT01249404|184421490|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|||=|0.7247|TWO_SIDED|95.0|-0.02|0.03|||ANCOVA||LS Means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, BTX treatment status at baseline and centre as covariates.|The least squares mean change from baseline to Week 4 for barefoot comfortable walking speed in the Dysport® 1000 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect analysis of covariance (ANCOVA) model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||0.03|-0.02|=0.7247
92180055|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|18.62||||0.0486|TWO_SIDED|95.0|0.12|37.13||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Global Health Status/QoL: Difference in LS mean||37.13|0.12|0.0486
92284608|NCT02373098|184473259|OTHER|||||||0.209|||||||Wilcoxon (Mann-Whitney)|||CD3CD8||||0.209
92180056|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|12.86||||0.0023|TWO_SIDED|95.0|4.86|20.86||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Functional Scales - Physical functioning: Difference in LS mean||20.86|4.86|0.0023
92284609|NCT02373098|184473259|OTHER|||||||0.069|||||||Wilcoxon (Mann-Whitney)|||CD4+IFNg+ (in CD4+)||||0.069
92284610|NCT02373098|184473259|OTHER|||||||0.402|||||||Wilcoxon (Mann-Whitney)|||CD4+IL17+ (in CD4+)||||0.402
92284611|NCT02373098|184473259|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||CD8+IFNg+ (in CD8+)||||0.017
92259297|NCT01249404|184421490|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|||=|0.7266|TWO_SIDED|95.0|-0.03|0.02|||ANCOVA||LS Means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, BTX treatment status at baseline and centre as covariates.|The least squares mean change from baseline to Week 4 for barefoot comfortable walking speed in the Dysport® 1500 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect ANCOVA model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||0.02|-0.03|=0.7266
92259298|NCT01749930|184421528|NON_INFERIORITY|The 2 treatments were compared for each time point by visit. LS mean of each treatment group, the difference in the LS mean, and the 2-sided 95% CI for the difference were obtained. Noninferiority could be claimed if the upper limit of the CIs \<1.5 mmHg at all time points of each visit and \<1.00 mmHg for at least 5 out of the 9 time points. If noninferiority was determined, superiority at each time point could be claimed if the upper limit of the 95% CI\<0 mmHg at all time points of each visit.||||||0.216||||||The ANCOVA results for the comparison of LS means of mean IOP between treatment groups demonstrated noninferiority of BOL-303259-X to timolol. Superiority of BOL-303259-X to timolol was demonstrated at 8 of 9 time points (exception at 8 am Week 2).|ANCOVA|||||||0.216
92259299|NCT01749930|184421529|OTHER|||||||0.084|||||||Chi-squared|||||||0.084
92259300|NCT01749930|184421530|OTHER|||||||0.007|||||||Chi-squared|||||||0.007
92259301|NCT01749930|184421531|OTHER||||||||||||||||||No statistical analysis was performed on these proportions|||
92259302|NCT00945945|184421532|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.34||||0.105|TWO_SIDED|95.0|-0.07|0.75||P-value for Change from Baseline to Endpoint (BOCF).|ANCOVA|Main Effect Model: Change = Treatment + Pooled Investigator + Baseline (Type III sums of squares).|Least Squares Mean Difference = DLX30-PLA minus PLA-DLX60.|||0.75|-0.07|0.105
92259303|NCT01716585|184421556|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic HCV treatment-naive subjects administered telaprevir plus peginterferon (pegIFN)/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 70% to achieve noninferiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV, and the LCB of the 95% CI must have exceeded 80% to achieve superiority.|Percentage of Participants with SVR12|96.4|||||TWO_SIDED|95.0|94.7|98.1|||||In order to control the Type I error rate at 0.05, a fixed-sequence testing procedure was used to proceed through the primary and first 3 secondary efficacy endpoints in the order numbered below.|With a sample size of 450 subjects and assuming that 92% of the subjects in Arm A will achieve SVR12, this study has greater than 90% power to demonstrate non-inferiority with a 2-sided 95% lower confidence bound greater than 70% and greater than 90% power to demonstrate superiority with a 2-sided 95% lower confidence bound greater than 80% (based on the normal approximation of a single binomial proportion). 95% CI calculated using the normal approximation to the binomial distribution.||98.1|94.7|
92284612|NCT02373098|184473259|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||CD8+IL17+ (in CD8+)||||0.017
92259304|NCT01716585|184421557|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||In order to control the Type I error rate at 0.05, a fixed-sequence testing procedure will be used to proceed through the primary and first 3 secondary efficacy endpoints in the order numbered below.|Fisher Exact|||||||< 0.001
92284613|NCT02373098|184473259|OTHER|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||IFNg+ (in CD4+CD25+)||||0.026
92284614|NCT02373098|184473259|OTHER|||||||0.168|||||||Wilcoxon (Mann-Whitney)|||IL17+ (in CD4+CD25+)||||0.168
92284615|NCT02373098|184473259|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||CD4+IL10+ (in CD4+)||||0.004
92284616|NCT02373098|184473259|OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||CD4+IL4+ (in CD4+)||||0.013
92284617|NCT02373098|184473259|OTHER|||||||0.171|||||||Wilcoxon (Mann-Whitney)|||CD4-CD8-IL4+ (in CD4-CD8-)||||0.171
92284618|NCT02373098|184473259|OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||CD8+IL10+ (in CD8+)||||0.013
92180057|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|24.43||||0.0027|TWO_SIDED|95.0|8.84|40.01||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Functional Scales - Role functioning: Difference in LS mean||40.01|8.84|0.0027
92180058|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|4.11||||0.6013|TWO_SIDED|95.0|-11.58|19.8||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Functional Scales - Emotional functioning: Difference in LS mean||19.80|-11.58|0.6013
92180059|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|9.56||||0.1792|TWO_SIDED|95.0|-4.52|23.64||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Functional Scales - Cognitive functioning: Difference in LS mean||23.64|-4.52|0.1792
92180060|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|11.27||||0.1039|TWO_SIDED|95.0|-2.38|24.92||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Functional Scales - Social functioning: Difference in LS mean||24.92|-2.38|0.1039
92180061|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-20.74||||0.0062|TWO_SIDED|95.0|-35.29|-6.19||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Fatigue: Difference in LS mean||-6.19|-35.29|0.0062
92180062|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-0.01||||0.9975|TWO_SIDED|95.0|-8.38|8.35||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Nausea and vomiting: Difference in LS mean||8.35|-8.38|0.9975
92259305|NCT01716585|184421558|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic HCV treatment-naive subjects of the appropriate HCV genotype 1 subtype administered telaprevir plus pegIFN/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 75% to achieve superiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV.|Percentage of Participants with SVR12|95.7|||||TWO_SIDED|95.0|93.4|97.9||In order to control the Type I error rate at 0.05, a fixed-sequence testing procedure will be used to proceed through the primary and first 3 secondary efficacy endpoints in the order numbered below.|||95% CI calculated using the normal approximation to the binomial distribution.|||97.9|93.4|
92284619|NCT02373098|184473259|OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||CD8+IL4+ (in CD8+)||||0.013
92284620|NCT02373098|184473259|OTHER|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||IL10+ (in CD4+CD25+)||||0.007
92180063|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-2.76||||0.7554|TWO_SIDED|95.0|-20.36|14.85||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Pain: Difference in LS mean||14.85|-20.36|0.7554
92284621|NCT02373098|184473259|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||IL4+ (in CD4+CD25+)||||0.001
92284622|NCT02373098|184473259|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||CD4+TNFa+ (in CD4+)||||0.002
92284623|NCT02373098|184473259|OTHER|||||||0.107|||||||Wilcoxon (Mann-Whitney)|||CD4+IL9+ (in CD4+)||||0.107
92284624|NCT02373098|184473259|OTHER|||||||0|||||||Wilcoxon (Mann-Whitney)|||CD8+TNFa+ (in CD8+)||||0.000
92284625|NCT02373098|184473259|OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||CD8+IL9+ (in CD8+)||||0.022
92284626|NCT02373098|184473259|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||TNFa+ (in CD4+CD25+)||||0.001
92284627|NCT02373098|184473259|OTHER|||||||0.127|||||||Wilcoxon (Mann-Whitney)|||IL9+ (in CD4+CD25+)||||0.127
92284628|NCT03252353|184473262|SUPERIORITY|||||||0.0079|||||||Regression, Logistic|The adjusted proportion of responders is 58.16 for Octreotide Capsule Treatment Group vs. 19.42 for the Placebo||The proportion of \[IGF-1/GH\] responders was compared between treatment groups using an exact logistic regression model with categorical covariates for treatment group, prior SRL dose, and baseline \[IGF-1/GH\] level||||0.0079
92284629|NCT03252353|184473263|SUPERIORITY|||||||0.0007|||||||Regression, Logistic|The adjusted proportion of responders is 77.66 for Octreotide Capsule Treatment Group vs. 30.40 for the Placebo||The proportion of \[IGF-1/GH\] responders was compared between treatment groups using an exact logistic regression model with categorical covariates for treatment group, prior SRL dose, and baseline \[IGF-1/GH\] level||||0.0007
92284630|NCT03252353|184473264|SUPERIORITY|||||||0.0029|||||||Fisher Exact|||||||0.0029
92284631|NCT01918800|184473271|SUPERIORITY_OR_OTHER|||||||0.64||||||No adjustment for multiple comparisons. A priori threshold for clinical significance was 7 point improvement.|paired t test|||||||.64
92259306|NCT01716585|184421559|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic HCV treatment-naive subjects of the appropriate HCV genotype 1 subtype administered telaprevir plus pegIFN/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 84% to achieve superiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV.|Percentage of Participants with SVR12|98.0|||||TWO_SIDED|95.0|95.8|100.0|||||95% CI calculated using the normal approximation to the binomial distribution.|||100.0|95.8|
92259307|NCT00125138|184421567|SUPERIORITY_OR_OTHER||Difference of LS Mean|0.1||||0.5177|TWO_SIDED|95.0|-6.3|6.6||One-sided pairwise p-value comparing each active treatment to placebo.|ANCOVA|One-way ANCOVA: Treatment, country, and baseline anti-psychotic medication status (recent or distant) as factors; baseline measurement as a covariate||The null hypothesis for each endpoint is that each melperone dose has the same mean as placebo; the alternative hypothesis is that at least one dose is more efficacious than placebo. Only subjects with both a baseline and Day 43 (end of Maintenance Phase) value are included.||6.6|-6.3|0.5177
92284632|NCT01918800|184473272|SUPERIORITY_OR_OTHER|||||||0.04||||||No adjustments for multiple comparisons.|paired t test|||||||0.04
92284633|NCT01918800|184473273|SUPERIORITY_OR_OTHER|||||||0.35||||||No adjustment for multiple comparisons|Paired t test|||||||0.35
92180064|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-14.57||||0.062|TWO_SIDED|95.0|-29.9|0.76||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Dyspnoea: Difference in LS mean||0.76|-29.90|0.0620
92180065|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|0.32||||0.9686|TWO_SIDED|95.0|-15.67|16.3||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Insomnia: Difference in LS mean||16.30|-15.67|0.9686
92180066|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-7.95||||0.3002|TWO_SIDED|95.0|-23.23|7.33||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Appetite loss: Difference in LS mean||7.33|-23.23|0.3002
92182858|NCT02434328|184264727|OTHER||Difference in proportions|-4.3|||||TWO_SIDED|95.0|-9.5|1.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.0|-9.5|
92284634|NCT01918800|184473274|SUPERIORITY|||||||0.8||||||The p value in this case is for the SF-36 Physical|Wilcoxon (Mann-Whitney)|||||||0.8
92284635|NCT01918800|184473274|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||The p value in this case refers to the SF-36 Mental||||.09
92284636|NCT01918800|184473275|SUPERIORITY_OR_OTHER|||||||0.521||||||This p value applies to the RAPA Cardiovascular|Wilcoxon (Mann-Whitney)|||||||0.521
92284637|NCT01918800|184473275|SUPERIORITY|||||||0.4199|||||||Wilcoxon (Mann-Whitney)|||This p values is for the RAPA Strength||||0.4199
92284638|NCT01918800|184473275|SUPERIORITY|||||||0.854|||||||Wilcoxon (Mann-Whitney)|||||||0.854
92182859|NCT02434328|184264727|OTHER||Difference in proportions|-5.0|||||TWO_SIDED|95.0|-10.5|0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||0.3|-10.5|
92182860|NCT02434328|184264727|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-8.4|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||3.7|-8.4|
92259308|NCT00125138|184421567|SUPERIORITY_OR_OTHER||Difference of LS mean|-2.9||||0.1519|TWO_SIDED|95.0|-8.5|2.7||One-sided pairwise p-value comparing each active treatment to placebo.|ANCOVA|One-way ANCOVA: Treatment, country, and baseline anti-psychotic medication status (recent or distant) as factors; baseline measurement as a covariate.||The null hypothesis for each endpoint is that each melperone dose has the same mean as placebo; the alternative hypothesis hypothesis is that at least one dose is more efficacious than placebo. Only subjects with both a baseline and Day 43 (end of Maintenance Phase) value are included.||2.7|-8.5|0.1519
92259309|NCT00125138|184421567|SUPERIORITY_OR_OTHER||Difference of LS mean|0.3||||0.5406|TWO_SIDED|95.0|-5.2|5.8||One-sided pairwise p-value comparing each active treatment to placebo.|ANCOVA|One-way ANCOVA: Treatment, country, and baseline anti-psychotic medication status (recent or distant) as factors; baseline measurement as a covariate.||The null hypothesis for each endpoint is that each melperone dose has the same mean as placebo; the alternative hypothesis is that at least one dose is more efficacious than placebo. Only subjects with both a baseline and Day 43 (end of Maintenance Phase) value are included.||5.8|-5.2|0.5406
92259310|NCT00125138|184421568|SUPERIORITY_OR_OTHER|||||||0.9212||95.0||||Overall p-value using a one-way ANCOVA.|ANCOVA|One-way ANCOVA: Treatment, country, and baseline anti-psychotic medication status (recent or distant) as factors; baseline measurement as a covariate.||Only subjects with both a baseline and a post-baseline value are included.||||0.9212
92259311|NCT03798366|184421578|SUPERIORITY||Least square (LS) mean difference|-0.5|STANDARD_ERROR_OF_MEAN|1.29||0.6757|TWO_SIDED|95.0|-3.1|2.0|||Mixed Models Analysis||A negative difference indicates a greater improvement in the GLPG1690 treatment group.|Results were estimated using a mixed-effect model repeated measure using treatment and visit as fixed effects, baseline mRSS score and country as covariates, treatment-visit as interaction terms, and participant as a random effect. The variance-covariance matrix used in the model was compound symmetric.||2.0|-3.1|0.6757
92259312|NCT03798366|184421579|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|1.31||0.6079|TWO_SIDED|95.0|-3.3|1.9|||Mixed Models Analysis||A negative difference indicates a greater improvement in the GLPG1690 treatment group.|Results were estimated using a mixed-effect model repeated measure using treatment and visit as fixed effects, baseline mRSS score and country as covariates, treatment-visit as interaction terms, and participant as a random effect. The variance-covariance matrix used in the model was compound symmetric.||1.9|-3.3|0.6079
92259313|NCT03798366|184421580|SUPERIORITY||LS mean difference|-2.1|STANDARD_ERROR_OF_MEAN|1.35||0.1298|TWO_SIDED|95.0|-4.8|0.6|||Mixed Models Analysis||A negative difference indicates a greater improvement in the GLPG1690 treatment group.|Results were estimated using a mixed-effect model repeated measure using treatment and visit as fixed effects, baseline mRSS score and country as covariates, treatment-visit as interaction terms, and participant as a random effect. The variance-covariance matrix used in the model was compound symmetric.||0.6|-4.8|0.1298
92259314|NCT03798366|184421581|SUPERIORITY||LS mean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.36||0.0411|TWO_SIDED|95.0|-5.6|-0.1|||Mixed Models Analysis||A negative difference indicates a greater improvement in the GLPG1690 treatment group.|Results were estimated using a mixed-effect model repeated measure using treatment and visit as fixed effects, baseline mRSS score and country as covariates, treatment-visit as interaction terms, and participant as a random effect. The variance-covariance matrix used in the model was compound symmetric.||-0.1|-5.6|0.0411
92259315|NCT01117428|184421584|EQUIVALENCE|Differences between Parts E and F in terms of Best Overall Response evaluated from screening until disease progression.||||||0.6645||||||No adjustment, 5% significance level|Fisher Exact|||||||0.6645
92259316|NCT00474539|184421587|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for immune response induced by NeisVac-C was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) greater than (\>) -10%.|Difference|-0.5||||||95.0|-3.3|2.0||||||For Meningococcal C the difference in percentages between the two groups (13vPnC - 7vPnC) at \>=1:8 titer was calculated||2.0|-3.3|
92259317|NCT00474539|184421590|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for or immune response induced by NeisVac-C was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.86||||||95.0|0.69|1.08||||||For Meningococcal C the GMT ratio (13vPnC/7vPnC) was calculated||1.08|0.69|
92259318|NCT00474539|184421590|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for or immune response induced by NeisVac-C was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.23||||||95.0|0.97|1.55||||||For Meningococcal C the GMT ratio (13vPnC/7vPnC) was calculated||1.55|0.97|
92284639|NCT01918800|184473276|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
92284640|NCT01918800|184473277|SUPERIORITY_OR_OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
92284641|NCT03018249|184473278|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
92284642|NCT03018249|184473279|SUPERIORITY||Mean Difference (Final Values)|2.7|||||TWO_SIDED|95.0|-25.0|30.0||||||||30|-25|
92284643|NCT03018249|184473280|SUPERIORITY||Mean Difference (Final Values)|21.8|||||TWO_SIDED|95.0|-16.7|45.3||||||||45.3|-16.7|
92284644|NCT03966365|184473304|OTHER|||||||0.706|||||||Wilcoxon (Mann-Whitney)|||||||0.706
92284645|NCT03966365|184473305|OTHER|||||||0.622|||||||Wilcoxon (Mann-Whitney)|||||||0.622
92284646|NCT03966365|184473306|OTHER|||||||0.081|||||||Chi-squared, Corrected|||Green lissamine treatment groups||||0.081
92284647|NCT03966365|184473306|OTHER|||||||0.49|||||||Chi-squared, Corrected|||Fluorescein treatment groups||||0.490
92284648|NCT03966365|184473307|OTHER|||||||0.253|||||||Wilcoxon (Mann-Whitney)|||||||0.253
92284649|NCT03966365|184473308|OTHER|||||||0.031|||||||Chi-squared, Corrected|||||||0.031
92180067|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|1.79||||0.8374|TWO_SIDED|95.0|-15.7|19.29||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Constipation: Difference in LS mean||19.29|-15.70|0.8374
92180068|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-1.38||||0.8775|TWO_SIDED|95.0|-19.28|16.52||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Diarrhoea: Difference in LS mean||16.52|-19.28|0.8775
92259319|NCT00474539|184421591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.6||||||95.0|-3.5|2.0||||||For diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.10 IU/mL threshold was calculated||2.0|-3.5|
92182861|NCT02434328|184264727|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-8.8|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.8|-8.8|
92284650|NCT03966365|184473310|OTHER|||||||0.651|||||||Wilcoxon (Mann-Whitney)|||||||0.651
92259320|NCT00474539|184421591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.9|1.7||||||For diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.01 IU/mL threshold was calculated||1.7|-1.9|
92259321|NCT00474539|184421591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.2||||||95.0|-4.4|4.0||||||For tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.10 IU/mL threshold was calculated||4.0|-4.4|
92259322|NCT00474539|184421591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-2.1|2.0||||||For tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.01 IU/mL threshold was calculated||2.0|-2.1|
92259323|NCT00474539|184421591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Ratio|0.0||||||95.0|-2.2|2.2||||||For diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.10 IU/mL threshold was calculated||2.2|-2.2|
92284651|NCT00323193|184473323|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||ANOVA|||||||.720
92180069|NCT03500549|184258639|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-7.4||||0.3066|TWO_SIDED|95.0|-21.76|6.95||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Financial difficulties: Difference in LS mean||6.95|-21.76|0.3066
92180070|NCT03500549|184258640|OTHER|Wilcoxon rank-sum test P-value for the comparison between treatments is based on median using stratified non-parametric analysis. The 95% CI is constructed using Hodges-Lehmann Estimation of Location Shift.|Median Difference (Final Values)|3.0|||<|0.0001|TWO_SIDED|95.0|2.0|4.0|||Wilcoxon rank-sum test|||||4.0|2.0|<0.0001
92180071|NCT06688357|184258666|SUPERIORITY||Cohen's d|0.99||||0.077|TWO_SIDED|||||t (13) = 1.920. Only 1 comparison with 2 means, thus no adjustment necessary|t-test, 2 sided|||Independent sample t-test conducted to examine difference in pre-post intervention change scores for the active vs sham intervention groups. Cohen's d was calculated to determine effect size.||||.077
92180072|NCT06688357|184258667|SUPERIORITY||Cohen's D|0.779||||0.159|TWO_SIDED|||||t(13) = 1.504; only 1 comparison of 2 values, thus no adjustment is necessary|t-test, 2 sided|||independent sample t-test; Cohen's d effect size||||.159
92180073|NCT06688357|184258668|SUPERIORITY||Cohen's D|0.356||||0.503|TWO_SIDED|||||t (13) = 0.688; only 1 comparison, adjustment not necessary|t-test, 2 sided|df = 13||independent samples t-test, cohen's d effect size||||.503
92180074|NCT06688357|184258669|SUPERIORITY||Cohen's D|-0.922||||0.08|TWO_SIDED|||||t(13) = 1.893; only one comparison of 2 scores, thus no adjustment for multiple comparisons was necessary|t-test, 2 sided|df = 13||Independent sample t-test used to examine pre-post intervention change scores in active vs sham groups; Cohen's d was calculated to estimate effect size||||0.08
92180075|NCT06688357|184258670|SUPERIORITY||Cohen's D|0.793||||0.149|TWO_SIDED|||||t (13) = 1.533; only 1 comparison, no adjustment necessary|t-test, 2 sided|||independent sample t-test, Cohen d effect size||||.149
92180076|NCT06688357|184258671|SUPERIORITY||Cohen's D|0.905||||0.104|TWO_SIDED|||||t(13) = 1.749; only 1 comparison with 2 values, thus no adjustment for multiple comparisons|t-test, 2 sided|df = 13||independent sample t-test was used to examine difference in Post-Pre intervention change in the Active vs the Sham groups; Effect size was estimated using Cohen's d.||||.104
92180077|NCT06688357|184258672|SUPERIORITY||Cohen's D|-0.267||||0.614|TWO_SIDED|||||t(13) = -.516; only 1 comparison of 2 means, no adjustment needed|t-test, 2 sided|||independent sample t-tests examining Post-Baseline differences for the Active vs the Sham groups; Effect size computed using Cohen's d score||||.614
92180078|NCT06688357|184258673|SUPERIORITY||Cohen's D|0.652||||0.23|TWO_SIDED|||||t(13) = -1.260; only 1 comparison of 2 values, no need for adjustment|t-test, 2 sided|||independent samples t-test, effect size computation (cohen's d)||||.230
92180079|NCT00227266|184258695|SUPERIORITY_OR_OTHER_LEGACY||Spearman's correlation|0.93|||<|0.001|||||||Spearman's correlation|||MHFMS-Extend was not normally distributed at p=0.048. Test-retest reliability of MHFMS-Extend measurements from the first (S1) to the second (S2) screening visit was analyzed using Spearman's correlation.||||<0.001
92180080|NCT05890794|184258743|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|40.85||||0.0005|TWO_SIDED|95.0|22.842|58.858||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in relative maximum change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for PPi.||58.858|22.842|0.0005
92180081|NCT05890794|184258743|OTHER|The difference between LS Means of change from baseline between dose groups was calculated. The analysis was performed using an MMRM model with fixed effects for baseline value, dose group, timepoint, interaction between dose group and timepoint, as well as random effects for patient and error|Difference in LS Means|-11.17|STANDARD_ERROR_OF_MEAN|2.681|<|0.0001|TWO_SIDED|95.0|-16.52|-5.82||Significant test: 2-sided; significance level 5%.|Mixed Models Analysis|||Analysis of the difference in relative maximum change from baseline (LS Means) between dose groups of ilofotase alfa by a mixed model repeated measures (MMRM) analysis for PPi.||-5.82|-16.52|<0.0001
92180082|NCT05890794|184258744|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|30.89|||<|0.0001|TWO_SIDED|95.0|20.831|40.941||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in relative maximum change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for PLP.||40.941|20.831|<0.0001
92180083|NCT05890794|184258744|OTHER|The difference between LS Means of change from baseline between dose groups was calculated. The analysis was performed using an MMRM model with fixed effects for baseline value, dose group, timepoint, interaction between dose group and timepoint, as well as random effects for patient and error.|Difference in LS Means|-22.51|STANDARD_ERROR_OF_MEAN|6.289||0.0024|TWO_SIDED|95.0|-35.81|-9.2||Significant test: two-sided; significance level 5%.|Mixed Models Analysis|||Analysis of the difference in relative maximum change from baseline (LS Means) between dose groups of ilofotase alfa by an MMRM analysis for PLP.||-9.20|-35.81|0.0024
92284652|NCT00323193|184473324|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||ANOVA|||||||.710
92180084|NCT05890794|184258745|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|-4335.66||||0.0019|TWO_SIDED|95.0|-6652.753|-2018.576||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in relative maximum change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for ALP activity.||-2018.576|-6652.753|0.0019
92259324|NCT00474539|184421591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Ratio|0.0||||||95.0|-2.2|2.2||||||For diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.01 IU/mL threshold was calculated||2.2|-2.2|
92259325|NCT00474539|184421591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Ratio|0.0||||||95.0|-2.3|2.2||||||For tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.10 IU/mL threshold was calculated||2.2|-2.3|
92259326|NCT00474539|184421591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Ratio|0.0||||||95.0|-2.3|2.2||||||For tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.01 IU/mL threshold was calculated||2.2|-2.3|
92259327|NCT00474539|184421592|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.86||||||95.0|0.72|1.03||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||1.03|0.72|
92259328|NCT00474539|184421592|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.91||||||95.0|0.74|1.12||||||For tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.12|0.74|
92259329|NCT00474539|184421592|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.93||||||95.0|0.78|1.1||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||1.10|0.78|
92180085|NCT05890794|184258746|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|23.25||||0.0693|TWO_SIDED|95.0|-2.319|48.812||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in relative maximum change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for urine PEA.||48.812|-2.319|0.0693
92182862|NCT02434328|184264727|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-5.2|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||6.7|-5.2|
92259330|NCT00474539|184421592|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0||||||95.0|0.81|1.24||||||For tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.24|0.81|
92259331|NCT00474539|184421595|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for immune response induced by NeisVac-C was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.6||||||95.0|-1.7|3.2||||||For Meningococcal C the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥ 1:8 titer was calculated.||3.2|-1.7|
92259332|NCT00242710|184421626|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|2.37|||<|0.001|TWO_SIDED|95.0|1.56|3.18|||ANCOVA|||An analysis of covariance (ANCOVA) model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||3.18|1.56|<0.001
92259333|NCT00242710|184421626|SUPERIORITY_OR_OTHER||LS Mean Difference|2.36|||<|0.001|TWO_SIDED|95.0|1.56|3.17|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||3.17|1.56|<0.001
92259334|NCT00242710|184421626|SUPERIORITY_OR_OTHER||LS Mean Difference|3.78|||<|0.001|TWO_SIDED|95.0|2.81|4.76|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||4.76|2.81|<0.001
92259335|NCT00242710|184421628|SUPERIORITY_OR_OTHER||LS Mean Difference|1.61|||<|0.001|TWO_SIDED|95.0|0.97|2.24|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||2.24|0.97|<0.001
92259336|NCT00242710|184421628|SUPERIORITY_OR_OTHER||LS Mean Difference|1.82|||<|0.001|TWO_SIDED|95.0|1.19|2.46|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||2.46|1.19|<0.001
92259337|NCT00242710|184421628|SUPERIORITY_OR_OTHER||LS Mean Difference|2.46|||<|0.001|TWO_SIDED|95.0|1.69|3.23|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||3.23|1.69|<0.001
92259338|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66||||0.373|TWO_SIDED|95.0|-0.8|2.12|||ANCOVA|||Week 1-4: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.12|-0.80|0.373
92180086|NCT05890794|184258746|OTHER|The difference between LS Means of change from baseline between dose groups was calculated. The analysis was performed using an MMRM model with fixed effects for baseline value, dose group, timepoint, interaction between dose group and timepoint, as well as random effects for patient and error.|Difference in LS Means|-8.76|STANDARD_ERROR_OF_MEAN|22.986||0.7086|TWO_SIDED|95.0|-57.88|40.35||Significant test: 2-sided; significance level 5%.|Mixed Models Analysis|||Analysis of the difference in relative maximum change from baseline (LS Means) between dose groups of ilofotase alfa by an MMRM analysis for urine PEA.||40.35|-57.88|0.7086
92180087|NCT05890794|184258747|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|187.43||||0.0199|TWO_SIDED|95.0|36.516|338.344||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in relative maximum change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for PL.||338.344|36.516|0.0199
92180088|NCT05890794|184258747|OTHER|The difference between LS Means of change from baseline between dose groups was calculated. The analysis was performed using an MMRM model with fixed effects for baseline value, dose group, timepoint, interaction between dose group and timepoint, as well as random effects for patient and error.|Difference in LS Means|-12.51|STANDARD_ERROR_OF_MEAN|9.767||0.2034|TWO_SIDED|95.0|-31.92|6.89||Significant test: 2-sided; significance level 5%|Mixed Models Analysis|||Analysis of the difference in relative maximum change from baseline (LS Means) between dose groups of ilofotase alfa by an MMRM analysis for PL.||6.89|-31.92|0.2034
92180089|NCT05890794|184258748|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|-0.89||||0.5195|TWO_SIDED|95.0|-3.868|2.084||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in fold change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for PL/PLP ratio.||2.084|-3.868|0.5195
92180090|NCT05890794|184258748|OTHER|The difference between LS Means of fold change from baseline between dose groups was calculated. The analysis was performed using an MMRM model with fixed effects for baseline value, dose group, timepoint, interaction between dose group and timepoint, as well as random effects for patient and error.|Difference in LS Means|1.01|STANDARD_ERROR_OF_MEAN|0.161|<|0.0001|TWO_SIDED|95.0|0.69|1.33||Significant test: 2-sided; significance level 5%.|Mixed Models Analysis|||Analysis of the difference in fold change form baseline (LS Means) between dose levels of ilofotase alfa by an MMRM analysis for PL/PLP ratio.||1.33|0.69|<0.0001
92180091|NCT04538352|184258750|OTHER|p value of contrast difference compared from MDI to Semaglutide group at specific time point, testing whether contrast difference is equal to 0, which means there is no difference between two groups. The determination of statistical significance was made using Bonferroni-adjusted p-value, setting the significance threshold at 0.01 after multiplicity correction.||||||0.009||||||p value is adjusted for the multiple comparison. The significance threshold is set to 0.01.|Bonferroni-adjusted p-value|||"Linear mixed effect model was conducted for each endpoint to assess mean change at each time point, with time, treatment groups, the interaction of treatment groups and time, and baseline variables included and adjusted in each model.~Mean change difference between patients with MDI and those with Semaglutide (MDI - Semaglutide)"||||0.009
92180092|NCT04538352|184258751|OTHER|p value of contrast difference compared from MDI to Semaglutide group at specific time point, testing whether contrast difference is equal to 0, which means there is no difference between two groups. The determination of statistical significance was made using Bonferroni-adjusted p-value, setting the significance threshold at 0.01 after multiplicity correction.|||||<|0.001||||||p value is adjusted for the multiple comparison. The significance threshold is set to 0.01.|Bonferroni-adjusted p-value|||"Linear mixed effect model was conducted for each endpoint to assess mean change at each time point, with time, treatment groups, the interaction of treatment groups and time, and baseline variables included and adjusted in each model.~Mean change difference between patients with MDI and those with Semaglutide (MDI - Semaglutide)"||||<0.001
92180093|NCT02347332|184258846|SUPERIORITY|||||||0.8329|TWO_SIDED|95.0||||Threshold significance value p\<0.05|Log Rank|||||||0.8329
92180094|NCT02347332|184258847|SUPERIORITY|||||||0.3576|TWO_SIDED|95.0||||Threshold significance value p\<0.05|Log Rank|||||||0.3576
92180095|NCT02347332|184258848|SUPERIORITY|||||||0.467|TWO_SIDED|95.0||||Threshold significance value p\<0.05|Log Rank|||||||0.467
92180096|NCT02347332|184258849|SUPERIORITY|||||||0.243|TWO_SIDED|95.0||||Threshold significance value p\<0.05|Log Rank|||||||0.243
92180097|NCT02347332|184258850|SUPERIORITY|||||||0.6289|TWO_SIDED|95.0||||Threshold significance value p\<0.05|Log Rank|||||||0.6289
92180098|NCT01759862|184258911|SUPERIORITY|Our calculations showed that by enrolling 50 patients we will be able to detect a 25cc/min absolute difference in eGFR between the two arms with power above 80%, and a two-sided Type I probability error of \<0.05.||||||0.32|||||||t-test, 2 sided|||Intention to treat analysis||||0.32
92180099|NCT01759862|184258912|SUPERIORITY|Enrolling 25 patients in each group will allow us to detect a difference of 200ng/mg cr in urinary NGAL levels between the two groups with a power of 80% and a two-sided type I probability error of 0.05.||||||0.95|||||||Kruskal-Wallis|||||||0.95
92180100|NCT01759862|184258913|SUPERIORITY|||||||0.67|||||||Chi-squared|||||||0.67
92259339|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35||||0.738|TWO_SIDED|95.0|-1.7|2.4|||ANCOVA|||Week 5-8: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.40|-1.70|0.738
92259340|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.65||||0.539|TWO_SIDED|95.0|-1.41|2.71|||ANCOVA|||Week 9-12: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.71|-1.41|0.539
92259341|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09||||0.233|TWO_SIDED|95.0|-0.71|2.9|||ANCOVA|||Week 13-16: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.90|-0.71|0.233
92259342|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.605|TWO_SIDED|95.0|-1.39|2.39|||ANCOVA|||Week 17-20: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.39|-1.39|0.605
92259343|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|1.23||||0.305|TWO_SIDED|95.0|-1.12|3.57|||ANCOVA|||Week 21-24: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.57|-1.12|0.305
92180101|NCT01499849|184258921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9|||<|0.001|TWO_SIDED|95.0|1.3|2.7||To control for multiplicity, analyses were performed hierarchically. For the CR delayed the threshold for statistical significance was 0.05; no further adjustment for multiplicity were required for the primary endpoint.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.7|1.3|<0.001
92180102|NCT01499849|184258922|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.005|TWO_SIDED|95.0|1.2|2.8||To control for multiplicity, analyses were performed hierarchically. CR-acute was tested only if the result for the primary endpoint, CR delayed, was statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.8|1.2|0.005
92180103|NCT01499849|184258923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.001|TWO_SIDED|95.0|1.3|2.6||To control for multiplicity, analyses were performed hierarchically. CR overall was tested only if both CR delayed and CR acute were statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.6|1.3|0.001
92180104|NCT02646618|184258925|NON_INFERIORITY|We set δ=2% as a relative margin to the 5% weight loss as clinically meaningful cut point and because 2% is not so small a difference in average weight loss between study conditions that we would have to recruit a prohibitively large sample.|Mean Difference (Net)|2.0||||0.0038|TWO_SIDED|95.0|0.6|3.3|||Mixed Models Analysis|||||3.3|0.6|0.0038
92180105|NCT02646618|184258926|NON_INFERIORITY|We set δ=2% as a relative margin to the 5% weight loss as clinically meaningful cut point and because 2% is not so small a difference in average weight loss between study conditions that we would have to recruit a prohibitively large sample.|Mean Difference (Net)|1.2||||0.1485|TWO_SIDED|95.0|-0.4|2.8|||Mixed Models Analysis|||||2.8|-0.4|0.1485
92180106|NCT02646618|184258928|SUPERIORITY|||||||0.248|||||||t-test, 2 sided|||||||0.2480
92180107|NCT02646618|184258933|NON_INFERIORITY|For secondary noninferiority outcomes, we used 90% power to calculate noninferiority margins given N=131 per arm, setting alpha=.05 and using observed SDs from the literature. For change in energy (kcal/day) intake, the study is powered at 90% to detect whether the Get Social condition is not inferior to the Traditional condition with a noninferiority margin of 182 kcal/day (SD=500 kcal/day)|Mean Difference (Net)|93.0||||0.2025|TWO_SIDED|95.0|-50.0|237.0|||Mixed Models Analysis|||||237|-50|0.2025
92180108|NCT02646618|184258934|NON_INFERIORITY|For secondary noninferiority outcomes, we used 90% power to calculate noninferiority margins given N=131 per arm, setting alpha=.05 and using observed SDs from the literature. For change in energy (kcal/day) intake, the study is powered at 90% to detect whether the Get Social condition is not inferior to the Traditional condition with a noninferiority margin of 182 kcal/day (SD=500 kcal/day)|Mean Difference (Net)|-75.0||||0.3323|TWO_SIDED|95.0|-226.0|77.0|||Mixed Models Analysis|||||77|-226|0.3323
92180109|NCT02646618|184258936|NON_INFERIORITY|For secondary noninferiority outcomes, we used 90% power to calculate noninferiority margins given N=131 per arm, setting alpha=.05 and using observed SDs from the literature. For change in moderate to vigorous intensity physical activity minutes per day at 12 months, the noninferiority margin is 9.2 min/day(SD=25 min/day). However, we could not analyze the data in that manner and used the test described above.||||||0.3905|||||||Generalized estimating equation|||We examined the proportion of participants engaging in 150+ minutes/week of moderate/vigorous intensity physical activity (MVPA) using generalized estimating equations with a logit link function and incorporating repeated measures over time. For participants missing MVPA at either follow-up timepoint, we used a baseline observation carried forward approach to impute their activity level (150+ vs \<150 MVPA mins/week) at that timepoint.||||0.3905
92180110|NCT02646618|184258937|NON_INFERIORITY|For secondary noninferiority outcomes, we used 90% power to calculate noninferiority margins given N=131 per arm, setting alpha=.05 and using observed SDs from the literature. For change in moderate to vigorous intensity physical activity minutes per day at 12 months, the noninferiority margin is 9.2 min/day(SD=25 min/day). However, we could not analyze the data in that manner and used the test described above.||||||0.4741|||||||Generalized estimating equation|||We examined the proportion of participants engaging in 150+ minutes/week of moderate/vigorous intensity physical activity (MVPA) using generalized estimating equations with a logit link function and incorporating repeated measures over time. For participants missing MVPA at either follow-up timepoint, we used a baseline observation carried forward approach to impute their activity level (150+ vs \<150 MVPA mins/week) at that timepoint.||||0.4741
92180111|NCT03885232|184258973|SUPERIORITY|We applied a mixed zero-inflated beta regression model that included a fixed binary factor for treatment arm, a random effect for clinic to account for correlation within clinics, and unbalanced parent demographics across study arms.|Incidence Rate Ratio (IRR)|1.04||||0.9|TWO_SIDED|95.0|0.68|1.6|||Generalized linear mixed effects regress|Generalized linear mixed effects regression models||||1.60|0.68|0.9
92259344|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|1.22||||0.299|TWO_SIDED|95.0|-1.08|3.52|||ANCOVA|||Week 25-28: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.52|-1.08|0.299
92259345|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|1.62||||0.092|TWO_SIDED|95.0|-0.27|3.51|||ANCOVA|||Week 29-32: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.51|-0.27|0.092
92259346|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|1.55||||0.08|TWO_SIDED|95.0|-0.18|3.29|||ANCOVA|||Week 33-36: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.29|-0.18|0.080
92180112|NCT03885232|184258974|SUPERIORITY||Other|1.0|||<|0.05|TWO_SIDED||||||Chi-squared|||Calculated individual survey means for vaccine hesitant parents who participated in the survey. Survey consisted of 15 questions with a 7-point Likert scale. We then created a dichotomous variable where 1 = mean \> or equal to 6; 0 = mean \< 6.||||<0.05
92180113|NCT03885232|184258975|SUPERIORITY||Odds Ratio (OR)|1.92|||<|0.05|TWO_SIDED|95.0|0.66|5.64|||Generalized linear mixed effects regress|Adjusted for: study arm, study period (pre vs. post), years in practice, provider type, interaction between study arm and study period||"1. Ho: No difference in the proportion of clinicians using presumptive and Motivational Interviewing techniques between intervention and control.~2. Ho: No difference in the proportion of clinicians time spent talking to vaccine hesitant parents between intervention and control."||5.64|0.66|<0.05
92180114|NCT00918203|184258994|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.2133|TWO_SIDED|95.0|0.86|1.93|||Log Rank|||||1.93|0.86|0.2133
92180115|NCT00918203|184258997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.8731|TWO_SIDED|95.0|0.68|1.57|||Log Rank|||||1.57|0.68|0.8731
92259347|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|1.04||||0.279|TWO_SIDED|95.0|-0.85|2.92|||ANCOVA|||Week 37-40: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.92|-0.85|0.279
92259348|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|1.13||||0.26|TWO_SIDED|95.0|-0.84|3.11|||ANCOVA|||Week 41-44: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.11|-0.84|0.260
92259349|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51||||0.618|TWO_SIDED|95.0|-1.5|2.52|||ANCOVA|||Week 45-48: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.52|-1.50|0.618
92259350|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.41||||0.81|TWO_SIDED|95.0|-3.78|2.96|||ANCOVA|||Week 49-52: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.96|-3.78|0.810
92180116|NCT00918203|184258998|SUPERIORITY_OR_OTHER|||||||0.4721|||||||Fisher Exact|||||||0.4721
92180117|NCT04066075|184259007|SUPERIORITY|||||||0.73||||||The p-value represents the difference between telerehabilitation and usual care.|Multilevel linear regression model|||Multilevel modeling in linear regression analyses accounted for within-patient correlations for the 3 assessments at baseline, 1-month and 4-months. Rasch analysis using the method of successive dichotomizations was applied to estimate person measures. Power calculation: a matched pairs t-test revealed 18 subjects per group would detect a within-subject mean improvement of 0.14-logits with 0.17-logits standard deviation for the differences, 0.80 power and 0.05 type 1 error probability.||||0.73
92180118|NCT05601882|184259034|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|11.0|||<|0.0001|TWO_SIDED|95.0|6.6|15.5|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||15.5|6.6|<0.0001
92180119|NCT05601882|184259035|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|18.4|||<|0.0001|TWO_SIDED|95.0|12.5|24.2|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||24.2|12.5|<0.0001
92180120|NCT05601882|184259036|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|14.7|||<|0.0001|TWO_SIDED|95.0|9.4|20.0|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||20.0|9.4|<0.0001
92180121|NCT05601882|184259037|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|16.6|||<|0.0001|TWO_SIDED|95.0|10.2|23.0|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||23.0|10.2|<0.0001
92180122|NCT05601882|184259038|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|13.2|||<|0.0001|TWO_SIDED|95.0|9.6|16.9|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||16.9|9.6|<0.0001
92180123|NCT05601882|184259039|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|6.4|||<|0.0001|TWO_SIDED|95.0|3.8|9.1|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||9.1|3.8|<0.0001
92259351|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.654|TWO_SIDED|95.0|-1.14|1.81|||ANCOVA|||Week 1-4: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.81|-1.14|0.654
92180124|NCT05601882|184259040|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|14.1|||<|0.0001|TWO_SIDED|95.0|9.4|18.8|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||18.8|9.4|<0.0001
92180125|NCT05601882|184259041|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|18.6|||<|0.0001|TWO_SIDED|95.0|13.9|23.3|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||23.3|13.9|<0.0001
92180126|NCT05601882|184259042|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|9.3|||<|0.0001|TWO_SIDED|95.0|5.4|13.1|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||13.1|5.4|<0.0001
92259352|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.834|TWO_SIDED|95.0|-1.84|2.28|||ANCOVA|||Week 5-8: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.28|-1.84|0.834
92180127|NCT05501600|184259086|SUPERIORITY|||||||0.004|||||||Regression, Linear|||||||0.004
92180128|NCT05501600|184259087|SUPERIORITY|||||||0.081616|||||||t-test, 2 sided|||||||0.081616
92180129|NCT00650078|184259091|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.25||||0.001|TWO_SIDED|95.0|1.39|3.64||The p-value was based on logistic regression with treatment, geographic region, gender, and median age class as factors.|Regression, Logistic|||||3.64|1.39|0.0010
92180130|NCT00650078|184259092|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-19.6||||0.0015|TWO_SIDED|95.0|-31.7|-6.1||Wilcoxon Rank Sum Test p-value|Hodges-Lehman method|The difference between the treatment groups was assessed using the median and the 95% CI of the median computed using the Hodges Lehmann method.||||-6.1|-31.7|0.0015
92180131|NCT03301467|184259093|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.967|TWO_SIDED|95.0|-1.9|1.8|||ANCOVA|||||1.8|-1.9|0.9670
92259353|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34||||0.744|TWO_SIDED|95.0|-2.41|1.72|||ANCOVA|||Week 9-12: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.72|-2.41|0.744
92284653|NCT03929367|184473484|OTHER|Modeling of change of plasma oxytocin concentration over time using nonlinear canonical compartment model.|Bayesian information criterion|2.0|||||TWO_SIDED|||||||||||||
92180132|NCT03301467|184259094|SUPERIORITY||Mean Difference (Final Values)|1.02||||0.3083|TWO_SIDED||||||Van Elteren's Test||"Test for normality showed that mean change and mean percent change were not normally distributed. As per SAP, Van Elteren's test was then applied to test mean percent change.~SAP=Statistical Analysis Protocol"|||||0.3083
92180133|NCT03301467|184259095|SUPERIORITY|||||||0.4591|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi square general association statistic||||||0.4591
92180134|NCT03301467|184259096|SUPERIORITY|||||||0.3106|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi square general association statistic||||||0.3106
92180135|NCT03301467|184259097|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.3368|TWO_SIDED|95.0|-1.5|0.5|||ANCOVA|||||0.5|-1.5|0.3368
92180136|NCT03301467|184259098|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.0401|TWO_SIDED|95.0|-1.7|0.0|||ANCOVA|||||-0.0|-1.7|0.0401
92180137|NCT03301467|184259099|SUPERIORITY||Mean Difference (Final Values)|10.84||||0.0534|TWO_SIDED|95.0|-0.16|21.85|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||||21.85|-0.16|0.0534
92180138|NCT03301467|184259100|SUPERIORITY||Mean Difference (Final Values)|10.67||||0.0221|TWO_SIDED|95.0|1.56|19.78|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||||19.78|1.56|0.0221
92259354|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.909|TWO_SIDED|95.0|-1.7|1.91|||ANCOVA|||Week 13-16: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.91|-1.70|0.909
92259355|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.963|TWO_SIDED|95.0|-1.94|1.85|||ANCOVA|||Week 17-20: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.85|-1.94|0.963
92259356|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59||||0.625|TWO_SIDED|95.0|-1.77|2.94|||ANCOVA|||Week 21-24: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.94|-1.77|0.625
92284654|NCT03929367|184473495|SUPERIORITY|Light touch detection frequency was compared over time in comparison to baseline using a one way analysis of variance for repeated measures. A power analysis was not performed for this secondary outcome measure.||||||0.89||||||No effect|ANOVA|||||||.89
92284655|NCT03929367|184473502|SUPERIORITY|Sustained heat score at the end of each 5 minute session was compared to baseline across time using a one-way analysis of variance for repeated measures. Power analysis was not performed for this secondary outcome measure.||||||0.014|||||||ANOVA|||||||0.014
92180139|NCT03301467|184259101|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.2638|TWO_SIDED|95.0|-3.08|11.08|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||||11.08|-3.08|0.2638
92180140|NCT03301467|184259102|SUPERIORITY||Mean Difference (Final Values)|3.82||||0.2069|TWO_SIDED|95.0|-2.14|9.77|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||||9.77|-2.14|0.2069
92180141|NCT03301467|184259103|SUPERIORITY||LSM UPCR Ratio|0.98||||0.9284|TWO_SIDED|95.0|0.67|1.45|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.|LSM UPCR Ratio Week 26 vs Baseline, Avacopan:Placebo|||1.45|0.67|0.9284
92180142|NCT03301467|184259104|SUPERIORITY||LSM UPCR Ratio|0.86||||0.3778|TWO_SIDED|95.0|0.6|1.21|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.|LSM UPCR Ratio Week 26 vs Baseline, Avacopan:Placebo|||1.21|0.60|0.3778
92180143|NCT03301467|184259105|SUPERIORITY||LSM MCP-1 Ratio|0.76||||0.081|TWO_SIDED|95.0|0.55|1.04|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.|LSM MCP-1 Ratio Week 26 vs Baseline, Avacopan:Placebo|||1.04|0.55|0.0810
92180144|NCT03301467|184259106|SUPERIORITY||LSM MCP-1 Ratio|0.87||||0.3233|TWO_SIDED|95.0|0.66|1.15|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.|LSM MCP-1 Ratio Week 26 vs Baseline, Avacopan:Placebo|||1.15|0.66|0.3233
92259357|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.947|TWO_SIDED|95.0|-2.39|2.23|||ANCOVA|||Week 25-28: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.23|-2.39|0.947
92259358|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.64||||0.505|TWO_SIDED|95.0|-1.25|2.53|||ANCOVA|||Week 29-32: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.53|-1.25|0.505
92180145|NCT03301467|184259107|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.6025|TWO_SIDED|95.0|-4.6|7.9|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||EQ-5D-5L VAS Score||7.9|-4.6|0.6025
92284656|NCT00515203|184473521|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Cochran-Mantel-Haenszel|||||||0.0019
92284657|NCT00515203|184473522|SUPERIORITY_OR_OTHER|||||||0.3651|||||||Cochran-Mantel-Haenszel|||||||0.3651
92180146|NCT03301467|184259107|SUPERIORITY||Mean Difference (Final Values)|-0.0422||||0.1797|TWO_SIDED|95.0|-0.1043|0.0198|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||EQ-5D-5L Index Score||0.0198|-0.1043|0.1797
92180147|NCT03301467|184259108|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.4898|TWO_SIDED|95.0|-7.9|3.8|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||EQ-5D-5L VAS Score||3.8|-7.9|0.4898
92180148|NCT03301467|184259108|SUPERIORITY||Mean Difference (Final Values)|-0.0199||||0.4826|TWO_SIDED|95.0|-0.0757|0.036|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||EQ-5D-5L Index Score||0.0360|-0.0757|0.4826
92180149|NCT03301467|184259109|SUPERIORITY||Mean Difference (Final Values)|0.4019||||0.8161|TWO_SIDED|95.0|-3.0402|3.844|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||SF-36v2: Physical Component Score||3.8440|-3.0402|0.8161
92180150|NCT03301467|184259109|SUPERIORITY||Mean Difference (Final Values)|0.0052||||0.9982|TWO_SIDED|95.0|-4.5994|4.6099|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||SF-36v2: Mental Component Score||4.6099|-4.5994|0.9982
92180151|NCT03301467|184259110|SUPERIORITY||Mean Difference (Final Values)|-0.1518||||0.9242|TWO_SIDED|95.0|-3.3192|3.0156|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||SF-36v2: Physical Component Score||3.0156|-3.3192|0.9242
92180152|NCT03301467|184259110|SUPERIORITY||Mean Difference (Final Values)|1.0283||||0.6534|TWO_SIDED|95.0|-3.4972|5.5537|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||SF-36v2: Mental Component Score||5.5537|-3.4972|0.6534
92180153|NCT02798471|184259113|NON_INFERIORITY|The edoxaban-to-comparator hazard ratio will be computed with 95% confidence interval (CI) (two-sided) based on this model. Edoxaban will be considered non-inferior to comparator if the upper limit of the 95% CI is ≤1.5.|Hazard Ratio (HR)|1.01||||0.9694|TWO_SIDED|95.0|0.594|1.719|||Regression, Cox|||Statistical analysis for the composite primary efficacy endpoint||1.719|0.594|0.9694
92284658|NCT00515203|184473523|SUPERIORITY_OR_OTHER|||||||0.0008|||||||Fisher Exact|||||||0.0008
92180154|NCT03367156|184259129|OTHER||Mean Difference (Final Values)|0.0||||0.48|TWO_SIDED|95.0|-0.8|0.7|||Linear Model|||||0.7|-0.8|0.48
92180155|NCT03367156|184259130|OTHER||Mean Difference (Final Values)|0.2|||>|0.99|TWO_SIDED|95.0|-0.7|1.0|||Linear Model|||||1|-0.7|>0.99
92180156|NCT03367156|184259131|OTHER||Mean Difference (Final Values)|0.4||||0.97|TWO_SIDED|95.0|-0.7|1.6|||Linear Model|||||1.6|-0.7|0.97
92180157|NCT03367156|184259132|OTHER||Mean Difference (Final Values)|0.1||||0.78|TWO_SIDED|95.0|-0.8|1.0|||Linear Model|||||1.0|-0.8|0.78
92180158|NCT03367156|184259133|OTHER||Mean Difference (Final Values)|-0.5||||0.93|TWO_SIDED|95.0|-10.6|9.6|||Linear Model|||||9.6|-10.6|0.93
92180159|NCT03367156|184259134|OTHER||Mean Difference (Final Values)|0.6||||0.93|TWO_SIDED|95.0|-0.6|1.8|||Linear Model|||||1.8|-0.6|0.93
92180160|NCT03367156|184259135|OTHER||Mean Difference (Final Values)|0.1||||0.82|TWO_SIDED|95.0|-0.9|1.1|||Linear Model|||||1.1|-0.9|0.82
92180161|NCT03367156|184259136|OTHER||Mean Difference (Final Values)|-5.5||||0.38|TWO_SIDED|95.0|-17.9|6.9|||Linear Model|||||6.9|-17.9|0.38
92180162|NCT03762850|184259137|OTHER||Geometric Mean Ratio|0.59|||<|0.0001|TWO_SIDED|95.0|0.51|0.69|||Mixed Models Analysis|||||0.69|0.51|<0.0001
92180163|NCT03762850|184259138|OTHER||Slope difference|1.0|STANDARD_ERROR_OF_MEAN|0.5||0.0582|TWO_SIDED|95.0|-0.03|1.94|||Mixed Models Analysis|||||1.94|-0.03|0.0582
92180164|NCT03762850|184259139|OTHER||Slope difference|1.1|STANDARD_ERROR_OF_MEAN|0.52||0.0369|TWO_SIDED|95.0|0.07|2.12|||Mixed Models Analysis|||||2.12|0.07|0.0369
92180165|NCT00092534|184259146|SUPERIORITY_OR_OTHER_LEGACY||Percent relative risk reduction|96.6||||||95.0|88.2|99.6|||||Confidence Interval (CI) based on binomial tail probabilities and not from a dispersion parameter|||99.6|88.2|
92180166|NCT03244800|184259225|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92180167|NCT03244800|184259226|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
92180168|NCT03244800|184259227|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92180169|NCT03244800|184259228|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92180170|NCT03244800|184259229|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
92180171|NCT03244800|184259230|SUPERIORITY||Odds Ratio (OR)|10.76||||0.04|TWO_SIDED|90.0|1.61|72.03|||Regression, Logistic|||||72.03|1.61|0.040
92180172|NCT02195232|184259287|OTHER|||||||0.92|||||||t-test, 2 sided|||||||0.92
92284659|NCT00515203|184473524|SUPERIORITY_OR_OTHER|||||||0.0008|||||||Fisher Exact|||||||0.0008
92284660|NCT00515203|184473525|SUPERIORITY_OR_OTHER|||||||0.2098|||||||Fisher Exact|||||||0.2098
92259359|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51||||0.564|TWO_SIDED|95.0|-1.23|2.25|||ANCOVA|||Week 33-36: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.25|-1.23|0.564
92259360|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32||||0.739|TWO_SIDED|95.0|-2.21|1.57|||ANCOVA|||Week 37-40: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.57|-2.21|0.739
92259361|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.766|TWO_SIDED|95.0|-2.27|1.67|||ANCOVA|||Week 41-44: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.67|-2.27|0.766
92259362|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.931|TWO_SIDED|95.0|-1.92|2.1|||ANCOVA|||Week 45-48: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.10|-1.92|0.931
92259363|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19||||0.911|TWO_SIDED|95.0|-3.17|3.56|||ANCOVA|||Week 49-52: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.56|-3.17|0.911
92259364|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|2.61||||0.003|TWO_SIDED|95.0|0.92|4.3|||ANCOVA|||Week 1-4: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||4.30|0.92|0.003
92259365|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|4.18|||<|0.001|TWO_SIDED|95.0|1.79|6.58|||ANCOVA|||Week 5-8: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||6.58|1.79|<0.001
92259366|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|3.45||||0.005|TWO_SIDED|95.0|1.03|5.86|||ANCOVA|||Week 9-12: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||5.86|1.03|0.005
92259367|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|3.15||||0.004|TWO_SIDED|95.0|1.01|5.3|||ANCOVA|||Week 13-16: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||5.30|1.01|0.004
92259368|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|2.61||||0.023|TWO_SIDED|95.0|0.36|4.87|||ANCOVA|||Week 17-20: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||4.87|0.36|0.023
92259369|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|3.75||||0.008|TWO_SIDED|95.0|0.96|6.54|||ANCOVA|||Week 21-24: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||6.54|0.96|0.008
92259370|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|3.52||||0.012|TWO_SIDED|95.0|0.78|6.26|||ANCOVA|||Week 25-28: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||6.26|0.78|0.012
92259371|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|3.81|||<|0.001|TWO_SIDED|95.0|1.55|6.07|||ANCOVA|||Week 29-32: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||6.07|1.55|<0.001
92259372|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|3.75|||<|0.001|TWO_SIDED|95.0|1.68|5.83|||ANCOVA|||Week 33-36: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||5.83|1.68|<0.001
92259373|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3||||0.004|TWO_SIDED|95.0|1.05|5.54|||ANCOVA|||Week 37-40: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||5.54|1.05|0.004
92259374|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|1.63||||0.175|TWO_SIDED|95.0|-0.73|3.99|||ANCOVA|||Week 41-44: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.99|-0.73|0.175
92259375|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|1.35||||0.27|TWO_SIDED|95.0|-1.05|3.75|||ANCOVA|||Week 45-48: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.75|-1.05|0.270
92259376|NCT00242710|184421629|SUPERIORITY_OR_OTHER||LS Mean Difference|3.78||||0.077|TWO_SIDED|95.0|-0.41|7.97|||ANCOVA|||Week 49-52: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||7.97|-0.41|0.077
92259377|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.826|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||0.826
92259378|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.534|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||0.534
92259379|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||1.000
92259380|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.516|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||0.516
92259381|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.446|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||0.446
92259382|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.218|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||0.218
92259383|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||1.000
92259384|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||1.000
92259385|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.733|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||0.733
92259386|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.736|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||0.736
92259387|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.449|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||0.449
92259388|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.489|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||0.489
92180173|NCT00622700|184259295|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.574||||0.0087|TWO_SIDED|95.0|0.379|0.869||P value was derived using Wald chi-squared test in the Cox proportional hazard model.|Wald chi-squared|||A step-down hierarchical testing procedure, starting with the test of teriflunomide 14 mg versus placebo was used. Time to conversion to CDMS was analyzed using the Cox proportional hazard model with treatment, region, and baseline monofocal/multifocal status as covariates.||0.869|0.379|0.0087
92180174|NCT00622700|184259295|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.628||||0.0271|TWO_SIDED|95.0|0.416|0.949||P value was derived using Wald chi-squared test in the Cox proportional hazard model.|Wald chi-squared|||A step-down hierarchical testing procedure was used. The second step was the test of teriflunomide 7 mg versus placebo for time to conversion to CDMS. Time to conversion to CDMS was analyzed using the Cox proportional hazard model with treatment, region, and baseline monofocal/multifocal status as covariates.||0.949|0.416|0.0271
92180175|NCT00622700|184259296|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.651||||0.0003|TWO_SIDED|95.0|0.515|0.822||P value was derived using Wald chi-squared test in the Cox proportional hazard model.|Wald chi-squared|||A step-down hierarchical testing procedure was used. The third step was the test of teriflunomide 14 mg versus placebo for time to conversion to DMS. This was analyzed using the Cox proportional hazard model with treatment, region, and baseline monofocal/multifocal status as covariates.||0.822|0.515|0.0003
92180176|NCT00622700|184259296|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.686||||0.002|TWO_SIDED|95.0|0.54|0.871||P value was derived using Wald chi-squared test in the Cox proportional hazard model.|Wald chi-squared|||A step-down hierarchical testing procedure was used. The fourth step was the test of teriflunomide 7 mg versus placebo for time to conversion to DMS. This was analyzed using the Cox proportional hazard model with treatment, region, and baseline monofocal/multifocal status as covariates.||0.871|0.540|0.0020
92259389|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.163|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||0.163
92259390|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.813|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||0.813
92180177|NCT03611556|184259316|SUPERIORITY||Rate difference|-8.0||||0.3614|TWO_SIDED|95.0|-27.6|12.1||Nominal P-value for comparison of treatment groups obtained from Cochran-Mantel-Haenszel-test was stratified by cluster of differentiation 73 (CD73) level.|Cochran-Mantel-Haenszel||||80% Confidence Interval 2-Sided: -20.9 to 5.2|12.1|-27.6|0.3614
92180178|NCT03611556|184259316|SUPERIORITY||Rate difference|3.8||||0.6503|TWO_SIDED|95.0|-13.2|20.7||Nominal P-value for comparison of treatment groups obtained from Cochran-Mantel-Haenszel-test was stratified by CD73 level.|Cochran-Mantel-Haenszel||||80% Confidence Interval 2-Sided: -7.4 to 15.0|20.7|-13.2|0.6503
92180179|NCT03611556|184259323|SUPERIORITY||Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|0.79|1.983|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model stratified by CD73 level with ties handled by the Efron method.|||1.983|0.790|
92259391|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.777|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||0.777
92259392|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.448|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||0.448
92259393|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.507|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||0.507
92259394|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.669|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||0.669
92259395|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.281|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||0.281
92180180|NCT03611556|184259323|SUPERIORITY||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.498|1.131|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model stratified by CD73 level with ties handled by the Efron method.|||1.131|0.498|
92180181|NCT03611556|184259325|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.726|1.837|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model stratified by CD73 level with ties handled by the Efron method.|||1.837|0.726|
92180182|NCT03611556|184259325|SUPERIORITY||Hazard Ratio (HR)|0.719|||||TWO_SIDED|95.0|0.468|1.105|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model stratified by CD73 level with ties handled by the Efron method.|||1.105|0.468|
92180183|NCT03611556|184259329|SUPERIORITY||Rate difference|-1.7|||||TWO_SIDED|95.0|-25.2|21.9||||||||21.9|-25.2|
92180184|NCT03611556|184259329|SUPERIORITY||Rate difference|7.5|||||TWO_SIDED|95.0|-12.6|27.0||||||||27.0|-12.6|
92180185|NCT03611556|184259329|SUPERIORITY||Rate difference|-25.6|||||TWO_SIDED|95.0|-58.3|13.9||||||||13.9|-58.3|
92259396|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.689|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||0.689
92259397|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.437|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||0.437
92180186|NCT03611556|184259329|SUPERIORITY||Rate difference|-6.9|||||TWO_SIDED|95.0|-39.1|26.6||||||||26.6|-39.1|
92180187|NCT03611556|184259330|SUPERIORITY||Hazard Ratio (HR)|1.173|||||TWO_SIDED|95.0|0.676|1.985|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||1.985|0.676|
92259398|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||1.000
92259399|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||1.000
92180188|NCT03611556|184259330|SUPERIORITY||Hazard Ratio (HR)|0.605|||||TWO_SIDED|95.0|0.377|0.968|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||0.968|0.377|
92180189|NCT03611556|184259330|SUPERIORITY||Hazard Ratio (HR)|1.549|||||TWO_SIDED|95.0|0.622|3.917|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||3.917|0.622|
92180190|NCT03611556|184259330|SUPERIORITY||Hazard Ratio (HR)|1.472|||||TWO_SIDED|95.0|0.638|3.576|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||3.576|0.638|
92180191|NCT03611556|184259332|SUPERIORITY||Hazard Ratio (HR)|1.004|||||TWO_SIDED|95.0|0.584|1.693|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||1.693|0.584|
92180192|NCT03611556|184259332|SUPERIORITY||Hazard Ratio (HR)|0.598|||||TWO_SIDED|95.0|0.366|0.973|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||0.973|0.366|
92180193|NCT03611556|184259332|SUPERIORITY||Hazard Ratio (HR)|1.933|||||TWO_SIDED|95.0|0.716|5.437|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||5.437|0.716|
92180194|NCT03611556|184259332|SUPERIORITY||Hazard Ratio (HR)|1.374|||||TWO_SIDED|95.0|0.55|3.707|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||3.707|0.550|
92180195|NCT04027439|184259343|OTHER||Contrast Ratio|1.186|||<|0.0001|TWO_SIDED|95.0|1.138|1.235|||ANCOVA|||||1.235|1.138|<0.0001
92180196|NCT04027439|184259343|OTHER||Contrast Ratio|1.134|||<|0.0001|TWO_SIDED|95.0|1.088|1.181|||ANCOVA|||||1.181|1.088|<0.0001
92259400|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.227|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||0.227
92259401|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.758|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||0.758
92259402|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.554|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||0.554
92180197|NCT04027439|184259343|OTHER||Contrast Ratio|1.134|||<|0.0001|TWO_SIDED|95.0|1.089|1.181|||ANCOVA|||||1.181|1.089|<0.0001
92180198|NCT04027439|184259343|OTHER||Contrast Ratio|1.084||||0.0001|TWO_SIDED|95.0|1.041|1.128|||ANCOVA|||||1.128|1.041|0.0001
92259403|NCT00242710|184421630|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||<0.001
92259404|NCT00242710|184421630|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||<0.001
92259405|NCT00242710|184421630|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||<0.001
92259406|NCT00242710|184421630|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||<0.001
92259407|NCT00242710|184421630|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||<0.001
92259408|NCT00242710|184421630|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||<0.001
92259409|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||0.008
92259410|NCT00242710|184421630|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||<0.001
92259411|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||0.005
92180199|NCT04027439|184259344|OTHER||Contrast Ratio|1.228||||0.0004|TWO_SIDED|95.0|1.105|1.365|||ANCOVA|||||1.365|1.105|0.0004
92180200|NCT04027439|184259344|OTHER||Contrast Ratio|1.228||||0.0004|TWO_SIDED|95.0|1.104|1.365|||ANCOVA|||||1.365|1.104|0.0004
92180201|NCT04027439|184259344|OTHER||Contrast Ratio|1.196||||0.0012|TWO_SIDED|95.0|1.08|1.326|||ANCOVA|||||1.326|1.080|0.0012
92180202|NCT04027439|184259344|OTHER||Contrast Ratio|1.121||||0.0348|TWO_SIDED|95.0|1.009|1.246|||ANCOVA|||||1.246|1.009|0.0348
92180203|NCT04027439|184259344|OTHER||Contrast Ratio|1.055||||0.3106|TWO_SIDED|95.0|0.949|1.172|||ANCOVA|||||1.172|0.949|0.3106
92180204|NCT04027439|184259345|OTHER||Contrast Ratio|1.154||||0.0208|TWO_SIDED|95.0|1.024|1.301|||ANCOVA|||||1.301|1.024|0.0208
92180205|NCT04027439|184259345|OTHER||Contrast Ratio|1.2||||0.0041|TWO_SIDED|95.0|1.064|1.353|||ANCOVA|||||1.353|1.064|0.0041
92180206|NCT04027439|184259345|OTHER||Contrast Ratio|1.167||||0.0108|TWO_SIDED|95.0|1.039|1.311|||ANCOVA|||||1.311|1.039|0.0108
92180207|NCT04027439|184259345|OTHER||Contrast Ratio|1.087||||0.1641|TWO_SIDED|95.0|0.965|1.225|||ANCOVA|||||1.225|0.965|0.1641
92259412|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||0.008
92180208|NCT04027439|184259346|OTHER||Contrast Ratio|1.229||||0.0005|TWO_SIDED|95.0|1.102|1.369|||ANCOVA|||||1.369|1.102|0.0005
92180209|NCT04027439|184259346|OTHER||Contrast Ratio|1.231||||0.0005|TWO_SIDED|95.0|1.104|1.372|||ANCOVA|||||1.372|1.104|0.0005
92180210|NCT04027439|184259346|OTHER||Contrast Ratio|1.188||||0.0022|TWO_SIDED|95.0|1.07|1.32|||ANCOVA|||||1.320|1.070|0.0022
92259413|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.062|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||0.062
92180211|NCT04027439|184259346|OTHER||Contrast Ratio|1.106||||0.0658|TWO_SIDED|95.0|0.993|1.233|||ANCOVA|||||1.233|0.993|0.0658
92180212|NCT04027439|184259354|OTHER||Contrast Ratio|1.183|||<|0.0001|TWO_SIDED|95.0|1.134|1.234|||ANCOVA|||||1.234|1.134|<0.0001
92180213|NCT04027439|184259354|OTHER||Contrast Ratio|1.14|||<|0.0001|TWO_SIDED|95.0|1.092|1.19|||ANCOVA|||||1.190|1.092|<0.0001
92180214|NCT04027439|184259354|OTHER||Contrast Ratio|1.131|||<|0.0001|TWO_SIDED|95.0|1.084|1.18|||ANCOVA|||||1.180|1.084|<0.0001
92180215|NCT04027439|184259354|OTHER||Contrast Ratio|1.08||||0.0004|TWO_SIDED|95.0|1.036|1.126|||ANCOVA|||||1.126|1.036|0.0004
92180216|NCT04027439|184259355|OTHER||Contrast Ratio|1.123|||<|0.0001|TWO_SIDED|95.0|1.078|1.169|||ANCOVA|||||1.169|1.078|<0.0001
92180217|NCT04027439|184259355|OTHER||Contrast Ratio|1.078||||0.0004|TWO_SIDED|95.0|1.035|1.122|||ANCOVA|||||1.122|1.035|0.0004
92180218|NCT04027439|184259355|OTHER||Contrast Ratio|1.081||||0.0002|TWO_SIDED|95.0|1.039|1.125|||ANCOVA|||||1.125|1.039|0.0002
92180219|NCT04027439|184259355|OTHER||Contrast Ratio|1.041||||0.0437|TWO_SIDED|95.0|1.001|1.083|||ANCOVA|||||1.083|1.001|0.0437
92180220|NCT04027439|184259356|OTHER||Contrast Ratio|1.087||||0.0006|TWO_SIDED|95.0|1.038|1.139|||ANCOVA|||||1.139|1.038|0.0006
92180221|NCT04027439|184259356|OTHER||Contrast Ratio|1.083||||0.001|TWO_SIDED|95.0|1.034|1.135|||ANCOVA|||||1.135|1.034|0.0010
92180222|NCT04027439|184259356|OTHER||Contrast Ratio|1.096||||0.0002|TWO_SIDED|95.0|1.047|1.149|||ANCOVA|||||1.149|1.047|0.0002
92180223|NCT04027439|184259356|OTHER||Contrast Ratio|1.039||||0.0971|TWO_SIDED|95.0|0.993|1.088|||ANCOVA|||||1.088|0.993|0.0971
92180224|NCT04027439|184259357|OTHER||Contrast Ratio|1.145|||<|0.0001|TWO_SIDED|95.0|1.106|1.185|||ANCOVA|||||1.185|1.106|<0.0001
92180225|NCT04027439|184259357|OTHER||Contrast Ratio|1.148|||<|0.0001|TWO_SIDED|95.0|1.109|1.189|||ANCOVA|||||1.189|1.109|<0.0001
92180226|NCT04027439|184259357|OTHER||Contrast Ratio|1.099|||<|0.0001|TWO_SIDED|95.0|1.062|1.137|||ANCOVA|||||1.137|1.062|<0.0001
92180227|NCT04027439|184259357|OTHER||Contrast Ratio|1.088|||<|0.0001|TWO_SIDED|95.0|1.052|1.126|||ANCOVA|||||1.126|1.052|<0.0001
92180228|NCT04027439|184259358|OTHER||Contrast Ratio|1.15|||<|0.0001|TWO_SIDED|95.0|1.113|1.189|||ANCOVA|||||1.189|1.113|<0.0001
92180229|NCT04027439|184259358|OTHER||Contrast Ratio|1.146|||<|0.0001|TWO_SIDED|95.0|1.109|1.185|||ANCOVA|||||1.185|1.109|<0.0001
92180230|NCT04027439|184259358|OTHER||Contrast Ratio|1.107|||<|0.0001|TWO_SIDED|95.0|1.071|1.144|||ANCOVA|||||1.144|1.071|<0.0001
92180231|NCT04027439|184259358|OTHER||Contrast Ratio|1.094|||<|0.0001|TWO_SIDED|95.0|1.059|1.13|||ANCOVA|||||1.130|1.059|<0.0001
92180232|NCT04027439|184259359|OTHER||Contrast Ratio|1.103|||<|0.0001|TWO_SIDED|95.0|1.066|1.141|||ANCOVA|||||1.141|1.066|<0.0001
92180233|NCT04027439|184259359|OTHER||Contrast Ratio|1.078|||<|0.0001|TWO_SIDED|95.0|1.042|1.116|||ANCOVA|||||1.116|1.042|<0.0001
92180234|NCT04027439|184259359|OTHER||Contrast Ratio|1.067||||0.0002|TWO_SIDED|95.0|1.032|1.104|||ANCOVA|||||1.104|1.032|0.0002
92180235|NCT04027439|184259359|OTHER||Contrast Ratio|1.048||||0.0066|TWO_SIDED|95.0|1.013|1.084|||ANCOVA|||||1.084|1.013|0.0066
92180236|NCT04035447|184259404|SUPERIORITY|||||||0.519|||||||t-test, 2 sided|||Satisfaction with Therapy (ST)||||0.519
92180237|NCT04035447|184259404|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||Satisfaction with Therapist (SWT)||||0.150
92180238|NCT04035447|184259404|SUPERIORITY|||||||0.309|||||||t-test, 2 sided|||Global Improvement (Item 13)||||0.309
92180239|NCT04035447|184259406|SUPERIORITY|||||||0.696|||||||t-test, 2 sided|||||||0.696
92180240|NCT04035447|184259407|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.350
92180241|NCT04035447|184259408|SUPERIORITY|||||||0.274|||||||Fisher Exact|||Outcomes were compared at post-intervention visit: 3-month (A2) for intervention participants, 9-month (A4) for waitlist control participants.||||0.274
92180242|NCT04035447|184259409|SUPERIORITY|||||||0.6|||||||Fisher Exact|||Outcomes were compared at post-intervention visit: 3-month (A2) for intervention participants, 9-month (A4) for waitlist control participants.||||0.600
92259414|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||0.007
92259415|NCT00242710|184421630|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||0.029
92259416|NCT00242710|184421632|SUPERIORITY_OR_OTHER||LS Mean Difference|3.25|||<|0.001|TWO_SIDED|95.0|1.92|4.58|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||4.58|1.92|<0.001
92259417|NCT00242710|184421632|SUPERIORITY_OR_OTHER||LS Mean Difference|3.14|||<|0.001|TWO_SIDED|95.0|1.83|4.46|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||4.46|1.83|<0.001
92180243|NCT04035447|184259410|SUPERIORITY||Mean Difference (Net)|1.5|STANDARD_DEVIATION|8.4||0.1848|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of 0.18||||||0.1848
92180244|NCT04035447|184259411|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_DEVIATION|8.4||0.6153|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of 0.07||||||0.6153
92180245|NCT04035447|184259412|SUPERIORITY||Mean Difference (Net)|4.6|STANDARD_DEVIATION|16.1||0.0563|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of 0.28||||||0.0563
92180246|NCT04035447|184259413|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_DEVIATION|1.8||0.0265|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of 0.31||||||0.0265
92180247|NCT04035447|184259413|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_DEVIATION|2.6||0.2084|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of 0.18||||||0.2084
92180248|NCT04035447|184259414|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_DEVIATION|9.4||0.3512|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of -0.13||||||0.3512
92180249|NCT05966155|184259436|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.677|TWO_SIDED|95.0|-1.54|1.0|||t-test, 2 sided|||||1.00|-1.54|0.677
92180250|NCT05966155|184259437|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.1264|TWO_SIDED|95.0|-1.4|0.2|||t-test, 2 sided|||||0.2|-1.4|0.1264
92180251|NCT05966155|184259438|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.3692|TWO_SIDED|95.0|-0.4|1.1|||t-test, 2 sided||The by-group means and the estimated mean difference are independently rounded to the nearest tenth. As a result, the mean difference it not exactly equivalent to the difference in the two reported means.|||1.1|-0.4|0.3692
92180252|NCT05966155|184259439|SUPERIORITY|||||||0.8492|||||||Chi-squared|||||||0.8492
92180253|NCT05966155|184259440|SUPERIORITY|||||||0.0246|||||||Chi-squared|||||||0.0246
92180254|NCT05966155|184259441|SUPERIORITY|||||||0.0111|||||||Chi-squared|||||||0.0111
92180255|NCT05966155|184259442|SUPERIORITY|||||||0.0776|||||||Chi-squared|||||||0.0776
92180256|NCT05966155|184259443|SUPERIORITY|||||||0.0014|||||||Chi-squared|||||||0.0014
92259418|NCT00242710|184421632|SUPERIORITY_OR_OTHER||LS Mean Difference|4.68|||<|0.001|TWO_SIDED|95.0|3.13|6.23|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||6.23|3.13|<0.001
92180257|NCT00174252|184259534|SUPERIORITY_OR_OTHER||Percentage|86.0|||||TWO_SIDED|95.0|74.2|93.7|||||95% CI was estimated using the F-distribution.|"Applies to no."||93.7|74.2|
92180258|NCT00174252|184259534|SUPERIORITY_OR_OTHER||Percentage|14.0||||||95.0|6.3|25.8|||||95% confidence interval (CI) was estimated using the F-distribution.|"Applies to yes."||25.8|6.3|
92180259|NCT00174252|184259548|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35||||0.002||95.0|||||ANCOVA|Adjusted for height SD at baseline.||||||0.002
92180260|NCT00174252|184259549|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35||||0.023||95.0||||Bilateral test multiple comparison threshold for statistical significance = 0.05|ANCOVA|Adjusted for height SD at baseline.||||||0.023
92180261|NCT00174252|184259550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.708||95.0|||||ANCOVA|Adjusted for height SD at baseline.||||||0.708
92180262|NCT00174252|184259551|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.325||95.0|||||ANCOVA|Adjusted for height SD at baseline.||||||0.325
92180263|NCT05509816|184259561|SUPERIORITY||Ratio of Geometric least squares mean|0.929|||||TWO_SIDED|90.0|0.849|1.02|||Mixed Models Analysis||The least square means (LSMs) and differences in LSMs were back transformed to produce the geometric least square means (GLSMs) and ratio between GLSMs. These were reported along with the 90% confidence interval (CI) for the ratio.|A mixed effects model was used to estimate drug-drug interaction using the Model: Log(PK) = Treatment + Participant + Random Error, where Participant is fitted as a random effect.||1.02|0.849|
92180264|NCT05509816|184259562|SUPERIORITY||Ratio of Geometric least squares mean|1.07|||||TWO_SIDED|90.0|0.989|1.16|||Mixed Models Analysis||The LSMs and differences in LSMs were back transformed to produce the GLSMs and ratio between GLSMs. These were reported along with the 90% CI for the ratio.|A mixed effects model was used to estimate drug-drug interaction using the Model: Log(PK) = Treatment + Participant + Random Error, where Participant is fitted as a random effect.||1.16|0.989|
92180265|NCT05509816|184259563|SUPERIORITY||Ratio of Geometric least squares mean|0.821|||||TWO_SIDED|90.0|0.777|0.868|||Mixed Models Analysis|||A mixed effects model was used to estimate drug-drug interaction using the Model: Log(PK) = Treatment + Participant + Random Error, where Participant is fitted as a random effect.||0.868|0.777|
92180266|NCT05509816|184259564|SUPERIORITY||Ratio of Geometric least squares mean|0.964|||||TWO_SIDED|90.0|0.828|1.12|||Mixed Models Analysis|||A mixed effects model was used to estimate drug-drug interaction using the Model: Log(PK) = Treatment + Participant + Random Error, where Participant is fitted as a random effect.||1.12|0.828|
92180267|NCT00979121|184259593|SUPERIORITY_OR_OTHER||difference in % of pts alive at 60 days|4.0||||0.21|TWO_SIDED|95.0|-2.3|10.2||The monitoring boundaries were designed to have a low probability of stopping for futility before 750 patients. The maximum sample size was 1000 patients. Efficacy stopping was based on mortality; futility stopping was based on mortality and VFDs.|Proc lifetest|Proc lifetest was used to calculate mortality mean and variance due to one subject lost to follow up who was censored.||Hospital mortality to day 60 was estimated using the Kaplan Meier estimate, with patients discharged home before day 60 considered alive at day 60. The analysis was stratified by co-enrolled treatment assignments for 81 patients also enrolled in a randomized clinical trial of two different nutritional strategies. A maximum of 1000 patients were to be enrolled, providing a 92% probability of rejecting the null hypothesis for the effect on mortality if a true difference in mortality was 9%.||10.2|-2.3|0.21
92180268|NCT00979121|184259594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.96||95.0|-1.6|1.5|||ANCOVA|||Ventilator, ICU free, and organ failure free days were analyzed by analysis of variance, utilizing treatment assignment where applicable.||1.5|-1.6|0.96
92259419|NCT00242710|184421633|SUPERIORITY_OR_OTHER||LS Mean Difference|1.83|||<|0.001|TWO_SIDED|95.0|0.8|2.87|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||2.87|0.80|<0.001
92259420|NCT00242710|184421633|SUPERIORITY_OR_OTHER||LS Mean Difference|1.94|||<|0.001|TWO_SIDED|95.0|0.92|2.97|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||2.97|0.92|<0.001
92180269|NCT02130557|184259634|SUPERIORITY||Odds Ratio (OR)|1.547||||0.01|TWO_SIDED|95.0|1.072|2.233||1-sided p-value based on CMH test for general association between treatment and response with stratification by sokal risk group (low, intermediate, high) and region (1-3) at time of randomization. Statistical significance threshold: 1-sided 0.025.|Cochran-Mantel-Haenszel||95% Confidence Interval (CI) for the odds ratio adjusted for sokal risk group and region are based on Mantel-Haenszel confidence limits.|A total sample size of 500 Ph+ participants is required for the study to provide \>= 90% power to detect at least 15% difference (assuming 25% in the imatinib vs 40% in the bosutinib arm) in the MMR rates at 12 months (48 weeks) with a 1-sided alpha of 2.5%, and 2 interim futility analyses at 33% and 66% of patients with adequate follow-up with early stopping for futility only (non-binding, O'Brien-Fleming analog beta spending function).||2.233|1.072|0.0100
92180270|NCT02130557|184259635|SUPERIORITY||Odds Ratio (OR)|1.418||||0.0303|TWO_SIDED|95.0|0.986|2.037||1-sided p-value based on CMH test for general association between treatment and response with stratification by sokal risk group (low, intermediate, high) and region (1-3) at time of randomization. Statistical significance threshold: 1-sided 0.0125.|Cochran-Mantel-Haenszel||95% CI for the odds ratio adjusted for sokal risk group and region are based on Mantel-Haenszel confidence limits.|If the primary analysis was significant, each member of the short-term family (CCyR by Month 12, MMR by Month 18) was tested via Bonferroni's procedure at the 1-sided level of 0.0125.||2.037|0.986|0.0303
92180271|NCT02130557|184259636|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.49|2.44|||||Hazard ratio (95% CIs) are based on the treatment effect (Bosutinib compared with Imatinib) in a stratified (by Sokal risk group at randomization and region) Cox proportional hazards model for the hazard of the respective event.|The medians have not been reached in either arm, as such, the premature estimated hazard ratio is provided.||2.44|0.49|
92180272|NCT02130557|184259637|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0037|TWO_SIDED|95.0|1.16|2.61||1-sided p-value based on CMH test for general association between treatment and response with stratification by sokal risk group (low, intermediate, high) and region (1-3) at time of randomization. Statistical significance threshold: 1-sided 0.0125.|Cochran-Mantel-Haenszel||95% CI for the odds ratio adjusted for sokal risk group and region are based on Mantel-Haenszel confidence limits.|If the primary analysis was significant, each member of the short-term family (CCyR by Month 12, MMR by Month 18) was tested via Bonferroni's procedure at the 1-sided level of 0.0125.||2.610|1.160|0.0037
92180273|NCT02130557|184259638|SUPERIORITY||Hazard Ratio (HR)|0.39|||||TWO_SIDED|95.0|0.14|1.13|||||Hazard ratio (95% CIs) are based on the treatment effect (Bosutinib compared with Imatinib) in a stratified (by Sokal risk group at randomization and region) Cox proportional hazards model for the hazard of the respective event.|The medians have not been reached in either arm, as such, the premature estimated hazard ratio is provided.||1.13|0.14|
92180274|NCT02130557|184259639|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.0749|TWO_SIDED|95.0|0.35|1.17||1-sided p-value based on Gray's test for comparing cumulative incidence function between treatment arms stratified by sokal risk group (low, intermediate, high) and region (1-3). Statistical significance threshold: 1-sided 0.0125.|Gray's test||The hazard ratio (95% CIs) are based on the proportional subdistribution hazards model stratified by Sokal risk group and region.|If each member of the short-term family (CCyR by Month 12, MMR by Month 18) was significant, EFS and OS were tested sequentially via the Holm's testing procedure at the 1-sided family wise level of 0.025. If one member of the short-term family was significant, EFS and OS were tested sequentially at 1-sided 0.0125.||1.17|0.35|0.0749
92180275|NCT02130557|184259640|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.2827|TWO_SIDED|95.0|0.37|1.73||1-sided p-value based on log-rank test for comparing survival curves between treatment arms stratified by sokal risk group and region. OS was not tested as EFS was not significant.|Log Rank||The hazard ratio (95% CIs) are based on the treatment effect (Bosutinib compared with Imatinib) in a stratified (by Sokal risk group at randomization and region) Cox proportional hazards model for the hazard of the respective event.|If each member of the short-term family (CCyR by Month 12, MMR by Month 18) was significant, EFS and OS were tested sequentially via the Holm's testing procedure at the 1-sided family wise level of 0.025. If one member of the short-term family was significant, EFS and OS were tested sequentially at 1-sided 0.0125.||1.73|0.37|0.2827
92180276|NCT01532999|184259650|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks. Data structure involved repeated measures over time nested within participant, who in turn, was nested within a therapy group. Models included a random intercept, a random slope, and fixed effects for treatment condition, time, and the stratification variable (site). Rejection of the null hypothesis of no treatment effect if this interaction was statistically significant (two-tailed α = .05).||||0.5
92180277|NCT01532999|184259651|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks.||||0.57
92180278|NCT01532999|184259653|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks.||||0.4
92180279|NCT01532999|184259654|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks.||||0.8
92180280|NCT01532999|184259655|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks.||||0.4
92180281|NCT01532999|184259656|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks.||||0.35
92259421|NCT00242710|184421633|SUPERIORITY_OR_OTHER||LS Mean Difference|2.38|||<|0.001|TWO_SIDED|95.0|1.17|3.59|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||3.59|1.17|<0.001
92259422|NCT02177942|184421645|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.6931|TWO_SIDED|95.0|-0.2|0.13|||ANCOVA||Difference is test treatment minus control treatment such that a positive difference favours the test treatment.|||0.13|-0.20|0.6931
92259423|NCT00702949|184421660|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||t-test, 2 sided|||Comparing the median numerical change from baseline on hot flash score for Pregabalin 150 Mg with the Placebo.||||0.007
92259424|NCT00702949|184421663|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||Comparing the median numerical change from baseline on hot flash score for Pregabalin 75 Mg with the Placebo.||||0.002
92180282|NCT01532999|184259657|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Regression, Logistic|||Mixed effects logistic regression analysis.||||0.3
92180283|NCT01532999|184259658|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||Regression, Logistic|||Mixed effects logistic regression analysis.||||0.7
92259425|NCT00702949|184421664|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||t-test, 2 sided|||Comparing the median percent change from baseline on hot flash score for Pregabalin 75 Mg with the Placebo.||||0.009
92259426|NCT00702949|184421666|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||t-test, 2 sided|||Comparing the median percent change from baseline on hot flash score for Pregabalin 150 Mg with the Placebo.||||0.007
92259427|NCT00598585|184421668|SUPERIORITY|unpaired test, the threshold for statistical significance was p= 0.05|||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
92180284|NCT03333109|184259673|SUPERIORITY||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|0.34||0.002|TWO_SIDED|95.0|-1.77|-0.42|||Mixed Models Analysis|||||-0.42|-1.77|0.002
92180285|NCT03333109|184259673|SUPERIORITY||Median Difference (Final Values)|-1.69|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-2.45|-0.93|||Mixed Models Analysis|||||-0.93|-2.45|<0.001
92180286|NCT03333109|184259674|SUPERIORITY||Odds Ratio (OR)|1.52||||0.007|TWO_SIDED|95.0|1.12|2.07|||Cochran-Mantel-Haenszel|Haenszel (CMH) test adjusted for stratification factor after missing data were imputed as non-response (NRI).||||2.07|1.12|0.007
92180287|NCT03333109|184259674|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.001|TWO_SIDED|95.0|1.55|3.15|||Cochran-Mantel-Haenszel|Haenszel (CMH) test adjusted for stratification factor after missing data were imputed as non-response (NRI).||||3.15|1.55|<0.001
92180288|NCT03333109|184259675|SUPERIORITY||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-2.07|-0.64|||Mixed Models Analysis|||||-0.64|-2.07|<0.001
92180289|NCT03333109|184259675|SUPERIORITY||Mean Difference (Net)|-1.9|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.71|-1.09|||Mixed Models Analysis|||||-1.09|-2.71|<0.001
92180290|NCT03333109|184259676|SUPERIORITY||Mean Difference (Final Values)|-1.77|STANDARD_ERROR_OF_MEAN|0.62||0.004|TWO_SIDED|95.0|-2.99|-0.56|||Mixed Models Analysis|||||-0.56|-2.99|0.004
92180291|NCT03333109|184259676|SUPERIORITY||Mean Difference (Final Values)|-2.71|STANDARD_ERROR_OF_MEAN|0.69|<|0.001|TWO_SIDED|95.0|-4.07|-1.36|||Mixed Models Analysis|||||-1.36|-4.07|<0.001
92180292|NCT01447706|184259679|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.37||||0.007|TWO_SIDED|95.0|0.18|0.76|||Log Rank|||||0.76|0.18|0.007
92180293|NCT01447706|184259679|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8||||0.023|TWO_SIDED|95.0|1.08|2.98|||Log Rank|||||2.98|1.08|0.023
92180294|NCT02678689|184259689|SUPERIORITY|The two-sample T-test with unequal variance was conducted at a significance level of 0.05|||||<|0.0001|||||||t-test, unequal variance|||||||< 0.0001
92180295|NCT02678689|184259690|SUPERIORITY||Hazard Ratio (HR)|0.091|||<|0.0001|TWO_SIDED|95.0|0.021|0.393|||Cox Model Wald Test||Hazard ratio is based on Cox proportional hazards model with a factor of study group|||0.393|0.021|<.0001
92180296|NCT02678689|184259691|SUPERIORITY||Hazard Ratio (HR)|0.0||||0.0032|TWO_SIDED|95.0|0.0|0.0|||Cox Model Wald Test||Hazard ratio is based on Cox proportional hazards model with a factor of study group|||0.000|0.000|0.0032
92180297|NCT02678689|184259692|SUPERIORITY||||||<|0.0001|||||||t-test, unequal variance|||||||<.0001
92180298|NCT02678689|184259693|SUPERIORITY||||||<|0.0001|||||||t-test, unequal variance|||||||<.0001
92180299|NCT02678689|184259694|SUPERIORITY||Hazard Ratio (HR)|0.209||||0.0081|TWO_SIDED|95.0|0.059|0.735|||Cox Model Wald Test|The p value is a test that the hazard ratio equal to 1.|"Hazard ratio is based on Cox proportional hazards model with a factor of study group.~Hazard Ratio (HR) 190-203 vs DEM-CHILD."|||0.735|0.059|0.0081
92180300|NCT01958021|184259710|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.556||||3.29e-06|TWO_SIDED|95.0|0.429|0.72|||Log Rank|||||0.720|0.429|0.00000329
92180301|NCT01958021|184259711|SUPERIORITY||Hazard Ratio (HR)|0.765||||0.004|TWO_SIDED|95.0|0.628|0.932|||Log Rank|||||0.932|0.628|0.004
92180302|NCT01958021|184259712|SUPERIORITY_OR_OTHER_LEGACY|||||||0.000155|||||||Cochran-Mantel-Haenszel|||||||0.000155
92180303|NCT01958021|184259713|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Cochran-Mantel-Haenszel|||||||0.018
92259428|NCT01795716|184421671|NON_INFERIORITY_OR_EQUIVALENCE|The 90%CIs of the test/reference ratios for AUC0-∞ and Cmax were determined. Log-transformed data were used in the analysis. Following international guidelines (including those of the SFDA), the test and reference for mutations were considered bioequivalent if the 90% CIs of the test/reference ratios of AUC was within range of 0.80 to 1.25 and Cmax was within 0.70 to 1.43.|||||<|0.05|TWO_SIDED||||||ANOVA|||The 90% confidence intervals of the test/reference ratios for AUC0-∞ and Cmax were determined. Log-transformed data were used in the analysis. Following international guidelines (including those of the SFDA), the test and reference for mutations were considered bioequivalent if the 90% CIs of the test/reference ratios of AUC was within range of 0.80 to 1.25 and Cmax was within 0.70 to 1.43.||||<0.05
92259429|NCT00135694|184421672|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-13.0|||||TWO_SIDED|90.0|-35.0|10.0||||||||10|-35|
92259430|NCT00135694|184421678|SUPERIORITY_OR_OTHER|||||||0.0183|||||||ANCOVA|Adjusted for immunosuppression dose the subject was receiving at the time of randomization.||||||0.0183
92180304|NCT00490139|184259718|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.048|TWO_SIDED|95.0|0.71|1.0|||Log Rank|Stratification was by chemotherapy timing, hormone receptor status, and axillary lymph node status.|The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.00|0.71|0.048
92259431|NCT00135694|184421679|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Adjusted for immunosuppression dose the subject was receiving at the time of randomization.||||||<0.0001
92259432|NCT00998985|184421687|SUPERIORITY_OR_OTHER||Least Squares Mean (LSM) Difference|3.46|||||TWO_SIDED|90.0|2.89|4.03|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||4.03|2.89|
92259433|NCT00998985|184421687|SUPERIORITY_OR_OTHER||LSM Difference|4.68|||||TWO_SIDED|90.0|4.11|5.25|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.25|4.11|
92180305|NCT00490139|184259718|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96||||0.61|TWO_SIDED|95.0|0.81|1.13|||Log Rank|Stratification was by chemotherapy timing, hormone receptor status, and axillary lymph node status.|The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.13|0.81|0.610
92180306|NCT00490139|184259719|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.887|||||TWO_SIDED|95.0|0.77|1.02|||||The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.02|0.77|
92180307|NCT00490139|184259719|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.914|||||TWO_SIDED|95.0|0.8|1.05|||||The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.05|0.80|
92259434|NCT00998985|184421687|SUPERIORITY_OR_OTHER||LSM Difference|4.87|||||TWO_SIDED|90.0|4.3|5.44|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.44|4.30|
92284661|NCT01874951|184473538|NON_INFERIORITY_OR_EQUIVALENCE|An initial power analysis at the time of protocol development suggested that with 6 patients in each treatment group, we could expect a 79% chance of achieving significance (2-sided p \< 0.05) if the true response rate to low-dose naltrexone (LDN) was 80% and the true placebo response rate was 20%.||||||0.55||||||Threshold of statistical significance is 0.05.|Chi-squared|Chi-squared value was 1.5.||Response rates were based on attaining a reduction in the HAM-D-17 scale of 50% or greater compared to baseline. We hypothesized that naltrexone would produce a significantly greater response rate than placebo.||||0.55
92284662|NCT01706536|184473546|SUPERIORITY||Least Squares Mean (SE)|0.1168|STANDARD_ERROR_OF_MEAN|0.04055||0.0043|TWO_SIDED|95.0|0.0369|0.1966|||Least squares mean (SE)|In order to control for Type I error rate, a gate keeping methodology was used.||A sample size of 45 subjects per treatment arm provides approximately 80% power to detect a 0.12 L treatment difference in mean change in trough FEV1 between an active arm and the placebo arm at a significance level of 0.05 using a 2-group t-test and assumes a standard deviation for change in trough FEV1 of 200. Assuming a 20% discontinuation rate, approximately 55 subjects were enrolled into each treatment arm.||0.1966|0.0369|0.0043
92284663|NCT01706536|184473546|SUPERIORITY||Least Squares Mean (SE)|0.1284|STANDARD_ERROR_OF_MEAN|0.04089||0.0019|TWO_SIDED|95.0|0.0479|0.2089||In order to control for Type I error rate, a gate keeping methodology was used|Least squares mean (SE)|||A sample size of 45 subjects per treatment arm provides approximately 80% power to detect a 0.12 L treatment difference in mean change in trough FEV1 between an active arm and the placebo arm at a significance level of 0.05 using a 2-group t-test and assumes a standard deviation for change in trough FEV1 of 200. Assuming a 20% discontinuation rate, approximately 55 subjects were enrolled into each treatment arm.||0.2089|0.0479|0.0019
92284664|NCT01706536|184473546|SUPERIORITY||Least Squares Mean (SE)|0.1462|STANDARD_ERROR_OF_MEAN|0.04037||0.0004|TWO_SIDED|95.0|0.0667|0.2257||in order to control for Type 1 error rate, a gate keeping methodology was used|Least squares mean (SE)|||A sample size of 45 subjects per treatment arm provides approximately 80% power to detect a 0.12 L treatment difference in mean change in trough FEV1 between an active arm and the placebo arm at a significance level of 0.05 using a 2-group t-test and assumes a standard deviation for change in trough FEV1 of 200. Assuming a 20% discontinuation rate, approximately 55 subjects were enrolled into each treatment arm.||0.2257|0.0667|0.0004
92284665|NCT01706536|184473546|SUPERIORITY||Least Squares Mean (SE)|0.177|STANDARD_ERROR_OF_MEAN|0.03953|<|0.0001|TWO_SIDED|95.0|0.0992|0.2548||in order to control for type I error rate, a gate keeping methodology was used|Least squares mean (SE)|||A sample size of 45 subjects per treatment arm provides approximately 80% power to detect a 0.12 L treatment difference in mean change in trough FEV1 between an active arm and the placebo arm at a significance level of 0.05 using a 2-group t-test and assumes a standard deviation for change in trough FEV1 of 200. Assuming a 20% discontinuation rate, approximately 55 subjects were enrolled into each treatment arm.||0.2548|0.0992|<0.0001
92284666|NCT04753437|184473560|EQUIVALENCE|Results were based on analysis of variance model with treatment as a fixed effect.|Geometric Least Squares (LS) Mean Ratio|1.3|||||TWO_SIDED|90.0|0.94|1.81||||||||1.81|0.94|
92284667|NCT04753437|184473561|EQUIVALENCE|Results were based on analysis of variance model with treatment as a fixed effect.|Geometric LS Mean Ratio|1.07|||||TWO_SIDED|90.0|0.82|1.4||||||||1.40|0.82|
92284668|NCT03567174|184473599|SUPERIORITY||Mean Difference (Net)|-0.306||||0.125|TWO_SIDED|95.0|-0.697|0.085|||Mixed Models Analysis|||||0.085|-0.697|0.125
92259435|NCT00998985|184421687|SUPERIORITY_OR_OTHER||LSM Difference|4.35|||||TWO_SIDED|90.0|3.78|4.92|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||4.92|3.78|
92259436|NCT00998985|184421687|SUPERIORITY_OR_OTHER||LSM Difference|5.15|||||TWO_SIDED|90.0|4.58|5.72|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.72|4.58|
92259437|NCT00998985|184421687|SUPERIORITY_OR_OTHER||LSM Difference|4.76|||||TWO_SIDED|90.0|4.19|5.33|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.33|4.19|
92259438|NCT00998985|184421687|SUPERIORITY_OR_OTHER||LSM Difference|4.93|||||TWO_SIDED|90.0|4.36|5.5|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.50|4.36|
92259439|NCT00998985|184421687|SUPERIORITY_OR_OTHER||LSM Difference|5.34|||||TWO_SIDED|90.0|4.93|5.74|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.74|4.93|
92259440|NCT00998985|184421688|SUPERIORITY_OR_OTHER||LSM Difference|2.25|||||TWO_SIDED|90.0|1.7|2.81|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT3 viral load by at least 2 log10||2.81|1.70|
92259441|NCT00998985|184421688|SUPERIORITY_OR_OTHER||LSM Difference|2.94|||||TWO_SIDED|90.0|2.38|3.49|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT3 viral load by at least 2 log10||3.49|2.38|
92259442|NCT00998985|184421688|SUPERIORITY_OR_OTHER||LSM Difference|3.84|||||TWO_SIDED|90.0|3.29|4.4|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT3 viral load by at least 2 log10||4.40|3.29|
92284669|NCT03497897|184473624|OTHER|The effects included in the model are: log transformed baseline inflammatory facial lesion count, treatment group, visit, treatment group by visit interaction, log transformed baseline inflammatory facial lesion count by visit interaction and type of center.|Posterior geometric mean ratio|0.93|||||TWO_SIDED|90.0|0.64|1.34|||Bayesian analysis|Bayesian mixed effect model with repeated measures|90% credible intervals are reported on the geometric means ratio|||1.34|0.64|
92284670|NCT03497897|184473624|OTHER|The effects included in the model are: log transformed baseline inflammatory facial lesion count, treatment group, visit, treatment group by visit interaction, log transformed baseline inflammatory facial lesion count by visit interaction and type of center.|P(Geometric Mean Ratio<1)|0.637|||||||||||Bayesian analysis|Bayesian mixed effect model with repeated measures|Posterior probability on geometric mean ratio is reported.|||||
92259443|NCT00998985|184421688|SUPERIORITY_OR_OTHER||LSM difference|4.98|||||TWO_SIDED|90.0|4.42|5.53|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT3 viral load by at least 2 log10||5.53|4.42|
92259444|NCT00998985|184421688|SUPERIORITY_OR_OTHER||LSM difference|4.21|||||TWO_SIDED|90.0|3.6|4.81|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT3 viral load by at least 2 log10||4.81|3.60|
92259445|NCT01601873|184421689|SUPERIORITY|||||||0.884|||||||Wilcoxon (Mann-Whitney)|||||||0.884
92259446|NCT01601873|184421690|SUPERIORITY|||||||0.946|||||||Wilcoxon (Mann-Whitney)|||||||0.946
92259447|NCT01601873|184421691|SUPERIORITY|||||||0.294|||||||Wilcoxon (Mann-Whitney)|||||||0.294
92259448|NCT01601873|184421692|SUPERIORITY|||||||0.538|||||||Log Rank|||||||0.538
92259449|NCT01601873|184421693|SUPERIORITY|||||||0.786|||||||Log Rank|||||||0.786
92180308|NCT00490139|184259720|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.078|TWO_SIDED|95.0|0.62|1.03|||Log Rank|Stratification was by chemotherapy timing, hormone receptor status, and axillary lymph node status.|The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.03|0.62|0.078
92259450|NCT01601873|184421694|SUPERIORITY|||||||0.185|||||||Log Rank|||||||0.185
92180309|NCT00490139|184259720|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.433|TWO_SIDED|95.0|0.71|1.16|||Log Rank|Stratification was by chemotherapy timing, hormone receptor status, and axillary lymph node status.|The estimate of the treatment hazard ratio (tras followed by lap versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.16|0.71|0.433
92180310|NCT00490139|184259721|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.853|||||TWO_SIDED|95.0|0.7|1.03|||||The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.03|0.70|
92180311|NCT00490139|184259721|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.863|||||TWO_SIDED|95.0|0.71|1.04|||||The estimate of the treatment hazard ratio (tras followed by lap versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.04|0.71|
92180312|NCT00490139|184259722|SUPERIORITY_OR_OTHER_LEGACY|Time to recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.811|||||TWO_SIDED|95.0|0.68|0.96||||||||0.96|0.68|
92180313|NCT00490139|184259722|SUPERIORITY_OR_OTHER_LEGACY|Time to recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.79|1.1||||||||1.10|0.79|
92180314|NCT00490139|184259723|SUPERIORITY_OR_OTHER_LEGACY|Time to distant recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.852|||||TWO_SIDED|95.0|0.71|1.02||||||||1.02|0.71|
92180315|NCT00490139|184259723|SUPERIORITY_OR_OTHER_LEGACY|Time to distant recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.968|||||TWO_SIDED|95.0|0.81|1.16||||||||1.16|0.81|
92180316|NCT00490139|184259724|SUPERIORITY_OR_OTHER_LEGACY|Time to CNS recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.986|||||TWO_SIDED|95.0|0.74|1.31||||||||1.31|0.74|
92180317|NCT00490139|184259724|SUPERIORITY_OR_OTHER_LEGACY|Time to CNS recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.74|1.31||||||||1.31|0.74|
92180318|NCT04640974|184259727|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
92180319|NCT04640974|184259728|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
92180320|NCT04640974|184259729|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
92180321|NCT03801148|184259747|EQUIVALENCE|Natural log (ln)-transformed-Cmax, was analyzed using an analysis of variance (ANOVA) model to assess the relative bioavailability of dexlansoprazole 30 mg capsule manufactured at TOB compared with dexlansoprazole 30 mg capsule manufactured at TPC. Geometric least square mean (LSM) ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed Cmax.|Geometric LSM ratio|0.98|||||TWO_SIDED|90.0|0.9171|1.0473||||||||1.0473|0.9171|
92259451|NCT01401101|184421701|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED|95.0||||Jointly modeled outcomes at the 3 waves by time, condition, and timeXcondition, to allow for different effects at 6 and 12 mos; controlled for interview mode (phone vs. in-person); used random effects to account for correlations wi/in site \& patient.|Regression, Linear|||Intent-to-treat (ITT) analysis using the linear mixed-method model to estimate the difference between the PCM and TAU conditions||||0.97
92259452|NCT01401101|184421702|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED|95.0|||||Regression, Linear|||Intent-to-treat (ITT) analysis using the linear mixed-method model to estimate the difference between the PCM and TAU conditions||||0.54
92259453|NCT01401101|184421703|SUPERIORITY_OR_OTHER|||||||0.33||||||Jointly modeled outcomes at the 3 waves by time, condition, and timeXcondition, to allow for different effects at 6 and 12 mos; controlled for interview mode (phone vs. in-person); using random effects to control for correlations w/in site \& patient.|Regression, Linear|||Intent-to-treat (ITT) analysis using the linear mixed-method model to estimate the difference between the PCM and TAU conditions||||0.33
92259454|NCT01610414|184421704|SUPERIORITY|Criterion: The lower limit (LL) of the 95% confidence interval (CI) for overall HZ vaccine efficacy was above 0%.|Vaccine efficacy|68.17|||<|0.0001|TWO_SIDED|95.0|55.56|77.53|||Poisson method|||Vaccine efficacy (VE) was evaluated in the prevention of Herpes Zoster (HZ) in autologous haematopoietic stem cell transplant (HCT) recipients 18 years of agee and older.||77.53|55.56|<0.0001
92259455|NCT00472043|184421745|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||||<0.001
92259456|NCT04957745|184421752|OTHER||||||<|0.01||||||"Null hypothesis is that there is no difference in Percentage of Total Viewing Time that Peripheral Target is Perceived across visual confusion conditions."|ANOVA|||"Effect of visual confusion conditions (binocular, unilateral monocular, and bilateral monocular visual confusions) on Percentage of Total Viewing Time Peripheral Target is Perceived is analyzed by repeated measure (within-subject) ANOVA. The test was performed with a significance level of 0.05."||||<0.01
92259457|NCT02483611|184421773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|149.0|STANDARD_DEVIATION|46.07||0.9651|TWO_SIDED|95.0|88.0|235.0|||ANOVA|||||235|88|0.9651
92259458|NCT02483611|184421773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|145.3|STANDARD_DEVIATION|42.48||0.9651|TWO_SIDED|95.0|78.0|244.0|||ANOVA|||||244|78|0.9651
92259459|NCT02483611|184421773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|147.8|STANDARD_DEVIATION|29.75||0.9651|TWO_SIDED|95.0|105.0|200.0|||ANOVA|||The sample size was calculated with a power of 80% to detect differences of 20% in the timing of clinical onset and the duration of NMB. The pharmacodynamic (latency, clinical duration, recovery rate and total duration) and hemodynamic variables (mean arterial pressure (MAP) and HR) were compared between the groups via analysis of variance (ANOVA) followed by the Tukey post-hoc test. The significance level was set at 5%.||200|105|0.9651
92259460|NCT02483611|184421774|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|82.68|||<|0.0001|TWO_SIDED|95.0|72.62|99.27|||Kruskal-Wallis|||||99.27|72.62|<0.0001
92180322|NCT03801148|184259747|EQUIVALENCE|ln-transformed-Cmax, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 60 mg capsule manufactured at TOB compared with dexlansoprazole 60 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed Cmax.|Geometric LSM ratio|1.0737|||||TWO_SIDED|90.0|1.0025|1.1501||||||||1.1501|1.0025|
92259461|NCT02483611|184421774|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|86.33|||<|0.0001|TWO_SIDED|95.0|71.78|140.6|||Kruskal-Wallis|||||140.60|71.78|<0.0001
92259462|NCT02483611|184421774|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|64.8|||<|0.0001|TWO_SIDED|95.0|40.5|92.9|||Kruskal-Wallis|||||92.90|40.50|<0.0001
92259463|NCT02483611|184421775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.08|STANDARD_DEVIATION|6.49||0.0015|TWO_SIDED|95.0|12.0|32.25|||ANOVA|||||32.25|12.00|0.0015
92259464|NCT02483611|184421775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.26|STANDARD_DEVIATION|7.69||0.0015|TWO_SIDED|95.0|10.5|39.83|||ANOVA|||||39.83|10.50|0.0015
92284671|NCT03497897|184473624|OTHER|The effects included in the model are: log transformed baseline inflammatory facial lesion count, treatment group, visit, treatment group by visit interaction, log transformed baseline inflammatory facial lesion count by visit interaction and type of center.|P(Geometric Mean Ratio<0.75)|0.171|||||||||||Bayesian analysis|Bayesian mixed effect model with repeated measures|Posterior probability on geometric mean ratio is reported.|||||
92259465|NCT02483611|184421775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.53|STANDARD_DEVIATION|1.52||0.0015|TWO_SIDED|95.0|11.0|16.5|||ANOVA|||||16.50|11.00|0.0015
92259466|NCT02483611|184421776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.97|STANDARD_DEVIATION|6.77||0.0003|TWO_SIDED|95.0|19.5|41.5|||ANOVA|||||41.50|19.50|0.0003
92259467|NCT02483611|184421776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.81|STANDARD_DEVIATION|10.97||0.0003|TWO_SIDED|95.0|18.5|49.5|||ANOVA|||||49.50|18.50|0.0003
92259468|NCT02483611|184421776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.51|STANDARD_DEVIATION|3.28||0.0003|TWO_SIDED|95.0|17.5|30.05|||ANOVA|||||30.05|17.50|0.0003
92259469|NCT02483611|184421777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|113.2|STANDARD_DEVIATION|12.16|<|0.0001|TWO_SIDED|95.0|94.87|136.8|||ANOVA|||||136.80|94.87|<0.0001
92259470|NCT02483611|184421777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|120.1|STANDARD_DEVIATION|18.2|<|0.0001|TWO_SIDED|95.0|95.82|163.3|||ANOVA|||||163.30|95.82|<0.0001
92259471|NCT02483611|184421777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|88.19|STANDARD_DEVIATION|16.34|<|0.0001|TWO_SIDED|95.0|58.0|125.2|||ANOVA|||||125.20|58|<0.0001
92259472|NCT02483611|184421778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|120.2|STANDARD_DEVIATION|10.88|<|0.0001|TWO_SIDED|95.0|106.3|140.2|||ANOVA|||||140.20|106.30|<0.0001
92259473|NCT02483611|184421778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|126.7|STANDARD_DEVIATION|14.19|<|0.0001|TWO_SIDED|95.0|106.5|149.4|||ANOVA|||||149.40|106.50|<0.0001
92259474|NCT02483611|184421778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|90.03|STANDARD_DEVIATION|12.78|<|0.0001|TWO_SIDED|95.0|71.75|116.4|||ANOVA|||||116.40|71.75|<0.0001
92259475|NCT02483611|184421779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|94.63|STANDARD_DEVIATION|10.18||0.0527|TWO_SIDED|95.0|70.0|112.0|||ANOVA|||||112.00|70.00|0.0527
92259476|NCT02483611|184421779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|88.75|STANDARD_DEVIATION|10.05||0.0527|TWO_SIDED|95.0|65.0|104.0|||ANOVA|||||104.00|65.00|0.0527
92259477|NCT02483611|184421779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|100.1|STANDARD_DEVIATION|16.62||0.0527|TWO_SIDED|95.0|70.0|140.0|||ANOVA|||||140.00|70.00|0.0527
92259478|NCT02483611|184421780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|87.63|STANDARD_DEVIATION|12.1||0.1996|TWO_SIDED|95.0|60.0|110.0|||ANOVA|||||110.00|60.00|0.1996
92259479|NCT02483611|184421780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|84.69|STANDARD_DEVIATION|11.38||0.1996|TWO_SIDED|95.0|67.0|109.0|||ANOVA|||||109.00|67.00|0.1996
92259480|NCT02483611|184421780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|92.47|STANDARD_DEVIATION|12.3||0.1996|TWO_SIDED|95.0|73.0|112.0|||ANOVA|||||112.00|73.00|0.1996
92259481|NCT02483611|184421781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|75.88|STANDARD_DEVIATION|11.95||0.7145|TWO_SIDED|95.0|58.0|107.0|||ANOVA|||||107.00|58.00|0.7145
92259482|NCT02483611|184421781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.88|STANDARD_DEVIATION|9.8||0.7145|TWO_SIDED|95.0|59.0|97.0|||ANOVA|||||97.00|59.00|0.7145
92259483|NCT02483611|184421781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|76.73|STANDARD_DEVIATION|7.48||0.7145|TWO_SIDED|95.0|58.0|86.0|||ANOVA|||||86.00|58.00|0.7145
92259484|NCT02483611|184421782|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|69.0||||0.113|TWO_SIDED|95.0|57.0|96.0|||Kruskal-Wallis|||||96.00|57.00|0.1130
92259485|NCT02483611|184421782|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|63.0||||0.113|TWO_SIDED|95.0|55.0|84.0|||Kruskal-Wallis|||||84.00|55.00|0.1130
92259486|NCT02483611|184421782|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|74.0||||0.113|TWO_SIDED|95.0|59.0|83.0|||Kruskal-Wallis|||||83.00|59.00|0.1130
92259487|NCT02483611|184421783|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|62.5||||0.0731|TWO_SIDED|95.0|58.0|98.0|||Kruskal-Wallis|||||98.00|58.00|0.0731
92180323|NCT03801148|184259748|EQUIVALENCE|ln-transformed- AUClast, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 30 mg capsule manufactured at TOB compared with dexlansoprazole 30 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUClast.|Geometric LSM ratio|1.0455|||||TWO_SIDED|90.0|1.007|1.0855||||||||1.0855|1.0070|
92180324|NCT03801148|184259748|EQUIVALENCE|ln-transformed- AUClast, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 60 mg capsule manufactured at TOB compared with dexlansoprazole 60 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUClast.|Geometric LSM ratio|1.061|||||TWO_SIDED|90.0|1.0192|1.1046||||||||1.1046|1.0192|
92180325|NCT03801148|184259749|EQUIVALENCE|ln-transformed- AUC0\_infobs, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 30 mg capsule manufactured at TOB compared with dexlansoprazole 30 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUC0\_infobs.|Geometric LSM ratio|1.0553|||||TWO_SIDED|90.0|1.0186|1.0933||||||||1.0933|1.0186|
92180326|NCT03801148|184259749|EQUIVALENCE|ln-transformed- AUC0\_infobs, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 60 mg capsule manufactured at TOB compared with dexlansoprazole 60 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUC0\_infobs.|GMR|1.0468|||||TWO_SIDED|90.0|1.0027|1.0929||||||||1.0929|1.0027|
92259488|NCT02483611|184421783|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|61.5||||0.0731|TWO_SIDED|95.0|55.0|74.0|||Kruskal-Wallis|||||74.00|55.00|0.0731
92259489|NCT02483611|184421783|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|67.0||||0.0731|TWO_SIDED|95.0|56.0|85.0|||Kruskal-Wallis|||||85.00|56.00|0.0731
92259490|NCT02483611|184421784|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|64.5||||0.1002|TWO_SIDED|95.0|60.0|85.0|||Kruskal-Wallis|||||85.00|60.00|0.1002
92259491|NCT02483611|184421784|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|64.0||||0.1002|TWO_SIDED|95.0|56.0|74.0|||Kruskal-Wallis|||||74.00|56.00|0.1002
92259492|NCT02483611|184421784|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|69.0||||0.1002|TWO_SIDED|95.0|60.0|90.0|||Kruskal-Wallis|||||90.00|60.00|0.1002
92284672|NCT00723528|184473625|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Fisher's exact test (using Holm's method)|Fisher Exact|||||||<0.0001
92180327|NCT03801148|184259750|EQUIVALENCE|ln-transformed- AUC0\_infpred, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 30 mg capsule manufactured at TOB compared with dexlansoprazole 30 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUC0\_infpred.|Geometric LSM ratio|1.0555|||||TWO_SIDED|90.0|1.0188|1.0935||||||||1.0935|1.0188|
92284673|NCT00723528|184473626|SUPERIORITY_OR_OTHER||||||<|0.0001||||||2-sample t-test (using Holm's method)|t-test, 2 sided|||||||<0.0001
92180328|NCT03801148|184259750|EQUIVALENCE|ln-transformed- AUC0\_infpred, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 60 mg capsule manufactured at TOB compared with dexlansoprazole 60 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUC0\_infpred.|Geometric LSM ratio|1.0472|||||TWO_SIDED|90.0|1.0029|1.0934||||||||1.0934|1.0029|
92259493|NCT02483611|184421785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|79.94|STANDARD_DEVIATION|15.79||0.4338|TWO_SIDED|95.0|52.0|109.0|||ANOVA|||||109.00|52.00|0.4338
92259494|NCT02483611|184421785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|77.25|STANDARD_DEVIATION|12.13||0.4338|TWO_SIDED|95.0|55.0|95.0|||ANOVA|||||95.00|55.00|0.4338
92259495|NCT02483611|184421785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.67|STANDARD_DEVIATION|11.82||0.4338|TWO_SIDED|95.0|55.0|92.0|||ANOVA|||||92.00|55.00|0.4338
92259496|NCT02483611|184421786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|74.69|STANDARD_DEVIATION|11.76||0.9167|TWO_SIDED|95.0|57.0|99.0|||ANOVA|||||99.00|57.00|0.9167
92259497|NCT02483611|184421786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.69|STANDARD_DEVIATION|11.18||0.9167|TWO_SIDED|95.0|51.0|96.0|||ANOVA|||||96.00|51.00|0.9167
92259498|NCT02483611|184421786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|75.4|STANDARD_DEVIATION|11.54||0.9167|TWO_SIDED|95.0|53.0|90.0|||ANOVA|||||90.00|53.00|0.9167
92259499|NCT02483611|184421787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|72.94|STANDARD_DEVIATION|10.96||0.8067|TWO_SIDED|95.0|58.0|92.0|||ANOVA|||||92.00|58.00|0.8067
92259500|NCT02483611|184421787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|74.19|STANDARD_DEVIATION|8.65||0.8067|TWO_SIDED|95.0|57.0|86.0|||ANOVA|||||86.00|57.00|0.8067
92259501|NCT02483611|184421787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|75.4|STANDARD_DEVIATION|11.54||0.8067|TWO_SIDED|95.0|53.0|90.0|||ANOVA|||||90.00|53.00|0.8067
92284674|NCT00723528|184473636|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Fisher's exact test (using Holm's method)|Fisher Exact|||||||<0.0001
92284675|NCT02627924|184473638|OTHER||||||<|0.0001|||||||Paired t-test|The mean change was tested with a paired t-test without adjusting for baseline disease severity.||||||<0.0001
92284676|NCT02627924|184473639|OTHER||||||<|0.0001|||||||Paired t-test|The mean change was tested with a paired t-test without adjusting for baseline disease severity.||||||<0.0001
92180329|NCT06212752|184259752|NON_INFERIORITY|Non-inferiority margin is 0.8.|Geometric Mean Ratio (GMR)|1.1|||||TWO_SIDED|95.0|0.95|1.27|||||GMR and associated 96% confidence interval (Cl) were calculated using the Welch's t test. GMR was calculated as geometric mean (GM) of Pembrolizumab Formulated with Berahyaluronidase Alfa to GM of Pembrolizumab.|||1.27|0.95|
92180330|NCT06212752|184259753|NON_INFERIORITY|Non-inferiority margin is 0.8.|GMR|1.46|||||TWO_SIDED|95.0|1.14|1.88|||||GMR and associated 95% CI were calculated using the Welch's t test. GMR was calculated as geometric mean (GM) of Pembrolizumab Formulated with Berahyaluronidase Alfa to GM of Pembrolizumab.|||1.88|1.14|
92180331|NCT04162210|184259764|OTHER||Stratified Hazard Ratio (HR)|1.03||||0.558|TWO_SIDED|95.0|0.72|1.47|||Log Rank|One-sided p-value from stratified log-rank test were adjusted for previous treatment with anti-CD38, ISS staging and number of prior lines of therapy.|HR was estimated using the Cox Proportional Hazards. HR stratified log-rank test were adjusted for previous treatment with anti-CD38, international staging system (ISS) staging and number of prior lines of therapy.|||1.47|0.72|0.558
92180332|NCT02941549|184259799|SUPERIORITY||LS Mean Difference|-6.9||||0.5946|TWO_SIDED|95.0|-34.5|20.7|||ANCOVA|||||20.7|-34.5|0.5946
92180333|NCT02941549|184259799|SUPERIORITY||LS Mean Difference|-10.1||||0.7309|TWO_SIDED|95.0|-36.9|16.8|||ANCOVA|||||16.8|-36.9|0.7309
92180334|NCT02941549|184259800|SUPERIORITY||LS Mean Difference|-1.308||||0.0763|TWO_SIDED|95.0|-2.11|-0.51|||ANCOVA|||||-0.51|-2.11|0.0763
92180335|NCT02941549|184259800|SUPERIORITY||LS Mean Difference|-0.727||||0.0058|TWO_SIDED|95.0|-1.554|0.1|||ANCOVA|||||0.100|-1.554|0.0058
92180336|NCT03983434|184259820|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.62|||||||Kruskal-Wallis|||||||.62
92180337|NCT03983434|184259821|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.17|||||||Kruskal-Wallis|||||||0.17
92259502|NCT02483611|184421788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|71.94|STANDARD_DEVIATION|10.87||0.1015|TWO_SIDED|95.0|57.0|93.0|||ANOVA|||||93.00|57.00|0.1015
92180338|NCT03983434|184259822|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.17|||||||Kruskal-Wallis|||||||0.17
92180339|NCT03983434|184259823|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.079|||||||Kruskal-Wallis|||||||0.079
92180340|NCT03983434|184259824|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.47|||||||Kruskal-Wallis|||||||0.47
92259503|NCT02483611|184421788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|72.25|STANDARD_DEVIATION|9.78||0.1015|TWO_SIDED|95.0|52.0|89.0|||ANOVA|||||89.00|52.00|0.1015
92180341|NCT03983434|184259826|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.03|||||||Kruskal-Wallis|||||||0.03
92180342|NCT03983434|184259827|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.14|||||||Kruskal-Wallis|||||||0.14
92180343|NCT03983434|184259828|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.074|||||||Kruskal-Wallis|||||||0.074
92180344|NCT03983434|184259829|OTHER|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92180345|NCT03983434|184259830|OTHER|||||||0.17|||||||Kruskal-Wallis|||||||0.17
92180346|NCT03983434|184259831|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.98|||||||Kruskal-Wallis|||||||0.98
92180347|NCT01536093|184259832|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
92180348|NCT01536093|184259833|SUPERIORITY_OR_OTHER|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||||||0.043
92180349|NCT01536093|184259834|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
92180350|NCT01536093|184259835|SUPERIORITY_OR_OTHER|||||||0.038|||||||Wilcoxon (Mann-Whitney)|||||||0.038
92180351|NCT01536093|184259836|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.010
92180352|NCT01536093|184259837|SUPERIORITY_OR_OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
92180353|NCT00811941|184259872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|0.62||0.16|TWO_SIDED|95.0|-2.1|0.35|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 110 participants in the placebo group and 320 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. Null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-13); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||0.35|-2.10|0.160
92180354|NCT00811941|184259873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47|STANDARD_ERROR_OF_MEAN|2.9||0.232|TWO_SIDED|95.0|-9.17|2.23|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 110 participants in the placebo group and 320 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. The null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-13); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||2.23|-9.17|0.232
92259504|NCT02483611|184421788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.07|STANDARD_DEVIATION|10.01||0.1015|TWO_SIDED|95.0|44.0|81.0|||ANOVA|||||81.00|44.00|0.1015
92259505|NCT02483611|184421789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|67.56|STANDARD_DEVIATION|10.05||0.3423|TWO_SIDED|95.0|56.0|92.0|||ANOVA|||||92.00|56.00|0.3423
92259506|NCT02483611|184421789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.31|STANDARD_DEVIATION|7.73||0.3423|TWO_SIDED|95.0|57.0|83.0|||ANOVA|||||83.00|57.00|0.3423
92259507|NCT02483611|184421789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.27|STANDARD_DEVIATION|10.81||0.3423|TWO_SIDED|95.0|41.0|81.0|||ANOVA|||||81.00|41.00|0.3423
92259508|NCT02483611|184421790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|66.5|STANDARD_DEVIATION|10.11||0.6817|TWO_SIDED|95.0|53.0|92.0|||ANOVA|||||92.00|53.00|0.6817
92180355|NCT00811941|184259874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.689|TWO_SIDED|95.0|0.59|1.41|||Adjusted Odds Ratio (OR) response|||The analysis of RSDRL used a logistic regression (LREG) model, with country, sex, Baseline DRL, and treatment as fixed effects, and missing values were imputed using individual-patient predicted values of TAC derived from the MMRM model.||1.41|0.59|0.689
92259509|NCT02483611|184421790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|68.19|STANDARD_DEVIATION|8.4||0.6817|TWO_SIDED|95.0|54.0|82.0|||ANOVA|||||82.00|54.00|0.6817
92180356|NCT00811941|184259875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.09||0.046|TWO_SIDED|95.0|-0.37|0.0|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 104 participants in the placebo group and 306 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model; an unstructured covariance matrix was used.||-0.00|-0.37|0.046
92180357|NCT00811941|184259876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.11||0.217|TWO_SIDED|95.0|-0.36|0.08|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 104 participants in the placebo group and 306 participants in the nalmefene group.|MMRM model with the Baseline CGI-S score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline CGI-S score-by-time and treatment by- time interactions were also included in the model. An unstructured covariance matrix was used.||0.08|-0.36|0.217
92180358|NCT00811941|184259877|SUPERIORITY_OR_OTHER||Ratio to placebo|0.93||||0.273|TWO_SIDED|95.0|0.83|1.05|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 108 participants in the placebo group and 319 participants in the nalmefene group.|Log-transformed GGT values were analysed using an MMRM model with the logtransformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time interaction and treatment-by-time interaction were included in the model. An unstructured covariance matrix was used.||1.05|0.83|0.273
92180359|NCT00811941|184259878|SUPERIORITY_OR_OTHER||Ratio to placebo|0.99||||0.916|TWO_SIDED|95.0|0.9|1.1|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 108 participants in the placebo group and 318 participants in the nalmefene group.|Log-transformed ALAT values were analysed using an MMRM model with the logtransformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time and treatment-by-time interactions were included in the model. An unstructured covariance matrix was used.||1.10|0.90|0.916
92180360|NCT00811941|184259879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.57|STANDARD_ERROR_OF_MEAN|0.65||0.017|TWO_SIDED|95.0|-2.85|-0.29|||Adjusted change from Baseline - Month 13||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 97 participants in the placebo group and 258 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-13); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used.||-0.29|-2.85|0.017
92180361|NCT00811941|184259880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.47|STANDARD_ERROR_OF_MEAN|3.07||0.036|TWO_SIDED|95.0|-12.53|-0.42|||Adjusted change from Baseline - Month 13||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 97 participants in the placebo group and 258 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-13); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used.||-0.42|-12.53|0.036
92259510|NCT02483611|184421790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.13|STANDARD_DEVIATION|10.5||0.6817|TWO_SIDED|95.0|47.0|81.0|||ANOVA|||||81.00|47.00|0.6817
92259511|NCT02483611|184421791|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.0||||0.0937|TWO_SIDED|95.0|58.0|80.0|||Kruskal-Wallis|||||80.00|58.00|0.0937
92259512|NCT02483611|184421791|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|61.5||||0.0937|TWO_SIDED|95.0|56.0|90.0|||Kruskal-Wallis|||||90.00|56.00|0.0937
92259513|NCT02483611|184421791|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|69.0||||0.0937|TWO_SIDED|95.0|58.0|87.0|||Kruskal-Wallis|||||87.00|58.00|0.0937
92259514|NCT02483611|184421792|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.5||||0.1406|TWO_SIDED|95.0|60.0|88.0|||Kruskal-Wallis|||||88.00|60.00|0.1406
92259515|NCT02483611|184421792|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|63.5||||0.1406|TWO_SIDED|95.0|55.0|86.0|||Kruskal-Wallis|||||86.00|55.00|0.1406
92259516|NCT02483611|184421792|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|68.0||||0.1406|TWO_SIDED|95.0|55.0|84.0|||Kruskal-Wallis|||||84.00|55.00|0.1406
92259517|NCT02483611|184421793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.25|STANDARD_DEVIATION|6.74||0.0504|TWO_SIDED|95.0|60.0|81.0|||ANOVA|||||81.00|60.00|0.0504
92284677|NCT02627924|184473641|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Physical Component Score at Week 12||||<0.0001
92259518|NCT02483611|184421793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|63.0|STANDARD_DEVIATION|7.62||0.0504|TWO_SIDED|95.0|49.0|79.0|||ANOVA|||||79.00|49.00|0.0504
92259519|NCT02483611|184421793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.0|STANDARD_DEVIATION|7.56||0.0504|TWO_SIDED|95.0|58.0|84.0|||ANOVA|||||84.00|58.00|0.0504
92259520|NCT02483611|184421794|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|68.0||||0.0205|TWO_SIDED|95.0|60.0|93.0|||Kruskal-Wallis|||||93.00|60.00|0.0205
92259521|NCT02483611|184421794|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|62.0||||0.0205|TWO_SIDED|95.0|54.0|72.0|||Kruskal-Wallis|||||72.00|54.00|0.0205
92259522|NCT02483611|184421794|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.0||||0.0205|TWO_SIDED|95.0|59.0|75.0|||Kruskal-Wallis|||||75.00|59.00|0.0205
92259523|NCT02483611|184421795|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|68.0||||0.3004|TWO_SIDED|95.0|58.0|86.0|||Kruskal-Wallis|||||86.00|58.00|0.3004
92259524|NCT02483611|184421795|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.0||||0.3004|TWO_SIDED|95.0|56.0|78.0|||Kruskal-Wallis|||||78.00|56.00|0.3004
92284678|NCT02627924|184473641|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Physical Component Score at Week 24||||<0.0001
92180362|NCT00811941|184259881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.976|TWO_SIDED|95.0|0.67|1.52|||Adjusted Odds Ratio (OR) response|||The analysis of RSDRL used a logistic regression (LREG) model, with country, sex, Baseline DRL, and treatment as fixed effects, and missing values were imputed using individual-patient predicted values of TAC derived from the MMRM model.||1.52|0.67|0.976
92180363|NCT00811941|184259882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.056|TWO_SIDED|95.0|-0.44|0.01|||Adjusted change from Baseline to Week 52||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 95 participants in the placebo group and 258 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model; an unstructured covariance matrix was used.||0.01|-0.44|0.056
92180364|NCT00811941|184259883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.12||0.029||95.0|-0.5|-0.03|||Adjusted change from Baseline to Week 52||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 95 participants in the placebo group and 258 participants in the nalmefene group.|MMRM model with the Baseline CGI-S score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline CGI-S score-by-time and treatment by- time interactions were also included in the model. An unstructured covariance matrix was used.||-0.03|-0.50|0.029
92180365|NCT00811941|184259884|SUPERIORITY_OR_OTHER||Ratio to placebo|0.78||||0.001|TWO_SIDED|95.0|0.67|0.9|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 98 participants in the placebo group and 259 participants in the nalmefene group.|Log-transformed GGT values were analysed using an MMRM model with the logtransformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time interaction and treatment-by-time interaction were included in the model. An unstructured covariance matrix was used.||0.90|0.67|0.001
92180366|NCT00811941|184259885|SUPERIORITY_OR_OTHER||Ratio to placebo|0.88||||0.037|TWO_SIDED|95.0|0.79|0.99|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 97 participants in the placebo group and 259 participants in the nalmefene group.|Log-transformed GGT values were analysed using an MMRM model with the logtransformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time interaction and treatment-by-time interaction were included in the model. An unstructured covariance matrix was used.||0.99|0.79|0.037
92180367|NCT03802994|184259890|EQUIVALENCE|Differences between groups were compared using the paired t test|||||<|0.05|TWO_SIDED|80.0|||||t-test, 2 sided|||Differences between groups were compared using the paired t test||||<0.05
92180368|NCT03802994|184259890|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92180369|NCT03802994|184259890|SUPERIORITY||||||<|0.05|TWO_SIDED|80.0|||||t-test, 2 sided|||||||<0.05
92259525|NCT02483611|184421795|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|69.0||||0.3004|TWO_SIDED|95.0|62.0|81.0|||Kruskal-Wallis|||||81.00|62.00|0.3004
92284679|NCT02627924|184473641|OTHER|||||||0.0001|||||||Paired t-test|||Change From Baseline in Mental Component Score at Week 12||||0.0001
92180370|NCT03802994|184259891|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92180371|NCT03802994|184259891|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92180372|NCT03802994|184259892|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92180373|NCT03802994|184259893|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92180374|NCT02029235|184259952|OTHER|||||||0.24|||||||t-test, 2 sided|||"Null hypothesis: No difference between groups~Power analysis: A sample size of 16 in each group had an 80% power to detect a difference in means of 10 mm."||||0.24
92180375|NCT02029235|184259953|OTHER|||||||0.06|||||||t-test, 2 sided|||Null hypothesis: No difference between groups||||0.06
92180376|NCT04057820|184259985|SUPERIORITY||Incidence rate ratio (IRR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.46|0.65|||Mixed Models Analysis|The model adjusted for study design (i.e., fixed time effect and random site effect) and randomization scheme stratification indicator.||||0.65|0.46|<0.0001
92180377|NCT04057820|184259986|SUPERIORITY||Risk Ratio (RR)|0.38|||<|0.0001|TWO_SIDED|95.0|0.3|0.47|||Mixed-effect Poisson w/ robust err var|The model adjusted for study design (i.e., fixed time effect and random site effect) and randomization scheme stratification indicator.||||0.47|0.30|<0.0001
92180378|NCT04057820|184259987|SUPERIORITY||Mean Difference (Final Values)|2.3|||||TWO_SIDED|95.0|-0.4|4.9||||||||4.9|-0.4|
92180379|NCT04057820|184259988|SUPERIORITY||Mean Difference (Final Values)|23.0|||||TWO_SIDED|95.0|8.1|37.9||||||||37.9|8.1|
92259526|NCT02483611|184421796|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|64.0||||0.0178|TWO_SIDED|95.0|60.0|84.0|||Kruskal-Wallis|||||84.00|60.00|0.0178
92259527|NCT02483611|184421796|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|64.5||||0.0178|TWO_SIDED|95.0|51.0|75.0|||Kruskal-Wallis|||||75.00|51.00|0.0178
92259528|NCT02483611|184421796|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|72.0||||0.0178|TWO_SIDED|95.0|61.0|91.0|||Kruskal-Wallis|||||91.00|61.00|0.0178
92259529|NCT02483611|184421797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|68.67|STANDARD_DEVIATION|8.51||0.8746|TWO_SIDED|95.0|51.0|99.0|||ANOVA|||||99.00|51.00|0.8746
92284680|NCT02627924|184473641|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Mental Component Score at Week 24||||<0.0001
92284681|NCT02627924|184473642|OTHER||||||<|0.0001|||||||Paired t-test|||Change from Baseline in EQ-5D-3L at 12 weeks||||<0.0001
92259530|NCT02483611|184421797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.38|STANDARD_DEVIATION|6.96||0.8746|TWO_SIDED|95.0|56.0|82.0|||ANOVA|||||82.00|56.00|0.8746
92259531|NCT02483611|184421797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.4|STANDARD_DEVIATION|7.94||0.8746|TWO_SIDED|95.0|54.0|80.0|||ANOVA|||||80.00|54.00|0.8746
92259532|NCT02483611|184421798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|67.44|STANDARD_DEVIATION|10.95||0.4195|TWO_SIDED|95.0|47.0|92.0|||ANOVA|||||92.00|47.00|0.4195
92259533|NCT02483611|184421798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|68.38|STANDARD_DEVIATION|9.28||0.4195|TWO_SIDED|95.0|53.0|80.0|||ANOVA|||||80.00|53.00|0.4195
92180380|NCT04057820|184259989|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.37|1.76||||||||1.76|0.37|
92180381|NCT04057820|184259990|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.3|1.0|||Mixed Models Analysis|||||1.0|-0.3|
92259534|NCT02483611|184421798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.0|STANDARD_DEVIATION|8.23||0.4195|TWO_SIDED|95.0|52.0|80.0|||ANOVA|||||80.00|52.00|0.4195
92259535|NCT02483611|184421799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.75|STANDARD_DEVIATION|11.52||0.5796|TWO_SIDED|95.0|47.0|93.0|||ANOVA|||||93.00|47.00|0.5796
92259536|NCT02483611|184421799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.75|STANDARD_DEVIATION|10.19||0.5796|TWO_SIDED|95.0|48.0|79.0|||ANOVA|||||79.00|48.00|0.5796
92259537|NCT02483611|184421799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|62.33|STANDARD_DEVIATION|9.26||0.5796|TWO_SIDED|95.0|50.0|79.0|||ANOVA|||||79.00|50.00|0.5796
92259538|NCT02483611|184421800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|66.19|STANDARD_DEVIATION|12.82||0.5351|TWO_SIDED|95.0|45.0|92.0|||ANOVA|||||92.00|45.00|0.5351
92259539|NCT02483611|184421800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.31|STANDARD_DEVIATION|10.87||0.5351|TWO_SIDED|95.0|47.0|82.0|||ANOVA|||||82.00|47.00|0.5351
92259540|NCT02483611|184421800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|61.93|STANDARD_DEVIATION|9.0||0.5351|TWO_SIDED|95.0|51.0|79.0|||ANOVA|||||79.00|51.00|0.5351
92259541|NCT02483611|184421801|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.5||||0.4988|TWO_SIDED|95.0|42.0|92.0|||Kruskal-Wallis|||||92.00|42.00|0.4988
92259542|NCT02483611|184421801|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|63.0||||0.4988|TWO_SIDED|95.0|50.0|85.0|||Kruskal-Wallis|||||85.00|50.00|0.4988
92259543|NCT02483611|184421801|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|58.0||||0.4988|TWO_SIDED|95.0|51.0|80.0|||Kruskal-Wallis|||||80.00|51.00|0.4988
92259544|NCT02483611|184421802|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.0||||0.7723|TWO_SIDED|95.0|43.0|89.0|||Kruskal-Wallis|||||89.00|43.00|0.7723
92259545|NCT02483611|184421802|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|61.0||||0.7723|TWO_SIDED|95.0|51.0|82.0|||Kruskal-Wallis|||||82.00|51.00|0.7723
92259546|NCT02483611|184421802|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|61.0||||0.7723|TWO_SIDED|95.0|50.0|78.0|||Kruskal-Wallis|||||78.00|50.00|0.7723
92259547|NCT02608892|184421803|SUPERIORITY|Use of pain management during newborn screening was described using frequency and proportion and expressed as an absolute difference in proportions with 95% confidence interval.|Absolute difference in proportions|-7.4|||||TWO_SIDED|95.0|-26.2|11.5||||||||11.5|-26.2|
92259548|NCT00957723|184421820|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change from pre-op to 1 year, 2 year and 5 year||||<0.0001
92180382|NCT04057820|184259991|SUPERIORITY||Risk Ratio (RR)|1.94|||||TWO_SIDED|95.0|0.94|3.99||||||||3.99|0.94|
92180383|NCT04057820|184259992|SUPERIORITY||Risk Ratio (RR)|1.68|||||TWO_SIDED|95.0|1.13|2.48||||||||2.48|1.13|
92180384|NCT04057820|184259993|SUPERIORITY||Incidence ratio ratio (IRR)|0.56|||||TWO_SIDED|95.0|0.49|0.64|||Mixed Models Analysis|The model adjusted for study design (i.e., fixed time effect and random site effect) and randomization scheme stratification indicator.||||0.64|0.49|
92180385|NCT04057820|184259995|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|0.71|1.47||||||||1.47|0.71|
92180386|NCT03211247|184260032|OTHER||Proportion difference|33.4|||<|0.001|TWO_SIDED|95.0|22.36|44.49|||Wald test||The 2-sided Farrington-Manning 95% confidence interval for the difference in response rates was calculated.|Analysis of the difference in response rates between DBV712 250 μg group and Placebo group and 2-sided Farrington-Manning 95% confidence interval (CI). P-value was obtained from a 2-sided 5% test to evaluate the null hypothesis of no difference in response rates between treatment groups using the Wald method. Clinical relevance was evaluated based on the lower bound of the Farrignton-Manning 95% CI of the difference in response rates ≥15%.||44.49|22.36|<0.001
92180387|NCT02415127|184260038|SUPERIORITY|||||||0.5442||||||From a repeated-measures ANCOVA with fixed effects of treatment, visit, and treatment\*visit with baseline score and investigative site as covariates using an unstructured covariance matrix, testing ACTIMMUNE® vs placebo.|ANCOVA|||The primary and secondary efficacy endpoints were tested in a hierarchical manner. Each endpoint was tested in sequential order and the current endpoint must have shown statistical significance (p \< 0.05) prior to performing testing the next endpoint. The primary endpoint, FARS-mNeuro, was to be tested first, followed by the key secondary endpoint, ADL, followed by the other secondary endpoints, T25FW, FARS-mNeuro responder rate, and FARStot.||||0.5442
92180388|NCT05120856|184260049|SUPERIORITY||Slope|-1.106369|STANDARD_ERROR_OF_MEAN|0.4985347||0.026|TWO_SIDED|95.0|-2.083479|-0.129259||This is the p value for the overall group x time interaction.|Mixed Models Analysis|The model compared groups' change across all time points Time was coded as a continuous variable (i.e., 0, 4, 8, and 16).|This is the effect estimate for the group x time interaction.|||-0.129259|-2.083479|.026
92259549|NCT00957723|184421821|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change from pre-op to 1, 2, and 5 year||||<0.0001
92259550|NCT00957723|184421823|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||SF36 Physical Component Score change from preop to 1 year||||<0.0001
92284682|NCT02627924|184473642|OTHER||||||<|0.0001|||||||Paired t-test|||Change from Baseline in EQ-5D-3L at 24 weeks||||<0.0001
92180389|NCT05120856|184260049|SUPERIORITY||Mean Difference (Final Values)|5.025|STANDARD_ERROR_OF_MEAN|8.737||0.565|TWO_SIDED|95.0|-12.098|22.149|||t-test, 2 sided|||planned between-group post-hoc comparison at 4-week follow-up||22.149|-12.098|.565
92180390|NCT05120856|184260049|SUPERIORITY||Mean Difference (Final Values)|-3.349|STANDARD_ERROR_OF_MEAN|8.891||0.706|TWO_SIDED|95.0|-20.774|14.077|||t-test, 2 sided|||Planned post-hoc comparison between groups at 8-week follow-up||14.077|-20.774|.706
92259551|NCT00957723|184421823|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Sign test|||SF36 Mental Component Score change from preop to 1 year||||0.0002
92259552|NCT00957723|184421823|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF36 Physical Component Score change from preop to 2 years||||<0.0001
92259553|NCT00957723|184421823|SUPERIORITY_OR_OTHER|||||||0.0177|||||||Sign test|||SF36 Mental Component Score change from preop to 2 years||||0.0177
92259554|NCT00957723|184421823|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF36 Physical Component Score change from preop to 3 year||||<0.0001
92259555|NCT00957723|184421823|SUPERIORITY_OR_OTHER|||||||0.0393|||||||Sign test|||SF36 Mental Component Score change from preop to 3 year||||0.0393
92259556|NCT00957723|184421823|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF36 Physical Component Score change from preop to 4 year||||<0.0001
92284683|NCT02627924|184473643|OTHER|||||||0.0098|||||||Paired t-test|||Change From Baseline in Overall Work Impairment at Week 12||||0.0098
92284684|NCT02627924|184473643|OTHER|||||||0.0015|||||||Paired t-test|||Change From Baseline in Overall Work Impairment at Week 24||||0.0015
92284685|NCT02627924|184473643|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Activity Impairment at Week 12||||<0.0001
92180391|NCT05120856|184260049|SUPERIORITY||Mean Difference (Final Values)|-6.921|STANDARD_ERROR_OF_MEAN|9.394||0.461|TWO_SIDED|95.0|-25.332|11.491|||t-test, 2 sided|||Planned post-hoc comparison between groups at 16-week follow-up||11.491|-25.332|.461
92180392|NCT05120856|184260049|SUPERIORITY||Slope|-1.0838|STANDARD_ERROR_OF_MEAN|0.4798||0.0252|TWO_SIDED|95.0|-2.0229626|-0.1419329||This is the p value for the group x time interaction|Mixed Models Analysis|||In an additional sensitivity analysis, past-week alcohol use data was excluded if a participant reported having been in residential/inpatient treatment where they could not access alcohol for the whole of the past week at the time of follow-up. This resulted in data for one participant in the ApBM group being excluded at week 8, and 1 control being excluded at week 16.||-0.1419329|-2.0229626|.0252
92180393|NCT05120856|184260050|SUPERIORITY||Slope|-0.016|STANDARD_ERROR_OF_MEAN|0.033||0.633|TWO_SIDED|95.0|-0.08|0.05||This is the p value for the time x group interaction.|Mixed Models Analysis|||This is the test for the overall CEQ-F scores||0.05|-0.08|.633
92180394|NCT05120856|184260050|SUPERIORITY||Slope|-0.033|STANDARD_ERROR_OF_MEAN|0.041||0.411|TWO_SIDED|95.0|-0.11|0.05||This is for the time x group interaction for the intensity subscale|Mixed Models Analysis|||This is for the test of the CEQ-F Intensity subscale score||0.05|-0.11|.411
92180395|NCT05120856|184260050|SUPERIORITY||Slope|-0.009|STANDARD_ERROR_OF_MEAN|0.036||0.808|TWO_SIDED|95.0|-0.08|0.06||p value for the time x group interaction for Imagery subscale|Mixed Models Analysis|||Analysis of CEQ-F Imagery subscale score||0.06|-0.08|.808
92180396|NCT05120856|184260050|SUPERIORITY||Slope|-0.006|STANDARD_ERROR_OF_MEAN|0.041||0.886|TWO_SIDED|95.0|-0.09|0.08||This is the p value for the time x group interaction for the Intrusiveness subscale score|Mixed Models Analysis|||This is for the analysis of the CEQ-F Intrusiveness subscale score||0.08|-0.09|.886
92180397|NCT05120856|184260051|SUPERIORITY||Slope|0.083|STANDARD_ERROR_OF_MEAN|0.066||0.207|TWO_SIDED|95.0|-0.046|0.212||This is the p value for the time x group interaction|Mixed Models Analysis|||||0.212|-0.046|.207
92180398|NCT05120856|184260052|SUPERIORITY||Slope|-0.026|STANDARD_ERROR_OF_MEAN|0.166||0.876|TWO_SIDED|95.0|-0.352|0.3||This is the p value for the group x time interaction.|Mixed Models Analysis|||||0.300|-0.352|.876
92180399|NCT05120856|184260053|SUPERIORITY||Slope|-0.069|STANDARD_ERROR_OF_MEAN|0.037||0.064|TWO_SIDED|95.0|-0.142|0.004||This is the p value for the group x time interaction|Mixed Models Analysis|||||0.004|-0.142|.064
92180400|NCT05120856|184260054|SUPERIORITY||Slope|-0.059|STANDARD_ERROR_OF_MEAN|0.143||0.679|TWO_SIDED|95.0|-0.338|0.22||This is the p value for the group x time interaction|Mixed Models Analysis|||||0.220|-0.338|.679
92180401|NCT05120856|184260056|SUPERIORITY||Slope|0.072|STANDARD_ERROR_OF_MEAN|0.086||0.403|TWO_SIDED|95.0|-0.097|0.24||This is the p value for the group x time interaction|Mixed Models Analysis|||||0.240|-0.097|.403
92180402|NCT05120856|184260057|SUPERIORITY||Slope|-0.052|STANDARD_ERROR_OF_MEAN|0.037||0.161|TWO_SIDED|95.0|-0.126|0.021||This is the p value for the group x time interaction|Mixed Models Analysis|||Linear mixed-effects model analysis of psychological well-being ratings.||0.021|-0.126|.161
92259557|NCT00957723|184421823|SUPERIORITY_OR_OTHER|||||||0.4905|||||||t-test, 2 sided|||SF36 Mental Component Score change from preop to 4 year||||0.4905
92180403|NCT05120856|184260057|SUPERIORITY||Slope|-0.029|STANDARD_ERROR_OF_MEAN|0.036||0.425|TWO_SIDED|95.0|-0.099|0.042||This is the p value for the group x time interaction|Mixed Models Analysis|||Linear mixed-effects model analysis of physical well-being ratings||0.042|-0.099|.425
92180404|NCT05120856|184260057|SUPERIORITY||Slope|-0.039|STANDARD_ERROR_OF_MEAN|0.034||0.247|TWO_SIDED|95.0|-0.106|0.027||This is the p value for the group x time interaction|Mixed Models Analysis|||Linear mixed-effects model analysis of quality of life ratings||0.027|-0.106|.247
92180405|NCT05120856|184260058|SUPERIORITY||Slope|3.645|STANDARD_ERROR_OF_MEAN|10.369||0.725|TWO_SIDED|95.0|-16.68|23.97||This is the p value for the group x time interaction|Mixed Models Analysis|||||23.97|-16.68|.725
92180406|NCT05630833|184260097|OTHER||Lower 10th percentile (%)|48.2|||||||||||||Lower 10th percentile of therapeutic successes was calculated from the predictive distribution.|As defined in Statistical Analysis Plan, consistency with the global studies is demonstrated if the success criterion for gepotidacin is set to require a therapeutic response rate greater than lower 10th percentile value of the predictive distribution.||||
92180407|NCT03044158|184260137|SUPERIORITY||Rate Ratio (adjusted)|1.56|||||TWO_SIDED|95.0|1.21|2.01||||||||2.01|1.21|
92180408|NCT03044158|184260138|SUPERIORITY||Rate Ratio (adjusted)|1.28|||||TWO_SIDED|95.0|0.99|1.66||||||||1.66|0.99|
92180409|NCT03044158|184260139|SUPERIORITY||Geometric Mean Ratio (adjusted)|0.49|||||TWO_SIDED|95.0|0.39|0.62||||||||0.62|0.39|
92180410|NCT03044158|184260140|SUPERIORITY||Rate Ratio (adjusted)|1.48|||||TWO_SIDED|95.0|1.04|2.12||||||||2.12|1.04|
92180411|NCT03044158|184260141|SUPERIORITY||Geometric Mean Ratio (adjusted)|0.35|||||TWO_SIDED|95.0|0.21|0.56||||||||0.56|0.21|
92180412|NCT03044158|184260142|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.44|1.35||||||||1.35|0.44|
92259558|NCT00957723|184421823|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF36 Physical Component Score change from preop to 5 year||||<0.0001
92259559|NCT00957723|184421823|SUPERIORITY_OR_OTHER|||||||0.0037|||||||Sign test|||SF36 Mental Component Score change from preop to 5 year||||0.0037
92259560|NCT00957723|184421825|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||LEAS score change from preop to 1, 2, 3, 4, and 5 years||||<0.0001
92284686|NCT02627924|184473643|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Activity Impairment at Week 24||||<0.0001
92287095|NCT03086460|184479319|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.088|TWO_SIDED|95.0|-0.008|0.108|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. Subjects receiving the same treatment in more than one period are included in the model with only data for the instance of each treatment which occurred after the randomization error."||0.108|-0.008|0.088
92180413|NCT05485805|184260201|OTHER||Geometric LS means|-5.95|||=|0.004|TWO_SIDED|95.0|-9.946|-1.954|||ANCOVA|||||-1.954|-9.946|= 0.004
92284687|NCT03979079|184473660|OTHER||Hazard Ratio (HR)|0.21|||||TWO_SIDED|95.0|0.14|0.3||Estimation was performed using a Bayesian approach. As such, p-values are not estimated.|Two-stage model.||||Two-stage model within a Bayesian framework to assess the role of the prostate-specific antigens profile on clinical failure while accounting for a secondary treatment prescribed by indication. Prostatespecific antigens modeled using a hierarchical piecewise linear trajectory with a random changepoint. Residual prostate-specific antigens variability was expressed as a function of prostate-specific antigens concentration. Covariates in the survival model included hormone therapy, baseline characteristics, and individual predictions of the prostate-specific antigens nadir and timing and prostate-specific antigens slopes before and after the nadir as provided by the longitudinal process.|0.30|0.14|
92284688|NCT00667095|184473665|SUPERIORITY_OR_OTHER|||||||0.024|||||||t-test, 2 sided|||Change from baseline to 1 month.||||0.024
92180414|NCT05485805|184260201|OTHER||Geometric LS means|6.161|||=|0.003|TWO_SIDED|95.0|2.161|10.161|||ANCOVA|||||10.161|2.161|= 0.003
92259561|NCT00877890|184421829|NON_INFERIORITY_OR_EQUIVALENCE|The choice of a 0.4% noninferiority margin was resulted from the considerations of expected clinical benefit of BYETTA in this study based on clinical data evaluating exenatide once weekly and BYETTA, regulatory guidance, published literature, and statistical considerations.|Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.138|<|0.0001|TWO_SIDED|95.0|-0.94|-0.39|||ANOVA|Analysis of variance (ANOVA) model includes treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors.||Superiority of exenatide once weekly to BYETTA if the upper limit of the 2-sided 95% CI for treatment difference (exenatide once weekly minus BYETTA) is \<0; noninferiority if this upper limit is \<0.4%. Power: Assuming 15% dropout rate with 206 subjects will complete the study. This sample size would provide 90% power for non-inferiority test with assumption of greater reduction (0.1%) in exenatide once weekly and a common standard deviation of 1.1%.||-0.39|-0.94|<.0001
92284689|NCT00667095|184473665|SUPERIORITY_OR_OTHER|||||||0.036|||||||t-test, 2 sided|||Change from baseline to 3 months.||||0.036
92284690|NCT00667095|184473666|SUPERIORITY_OR_OTHER|||||||0.051|||||||t-test, 2 sided|||Change from baseline to 1 month.||||0.051
92284691|NCT00667095|184473666|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 2 sided|||Change from baseline to 3 months.||||0.12
92180415|NCT05485805|184260201|OTHER||Geometric LS means|25.936|||<|0.001|TWO_SIDED|95.0|20.317|31.556|||ANCOVA|||||31.556|20.317|< 0.001
92284692|NCT00667095|184473667|SUPERIORITY_OR_OTHER|||||||0.42|||||||t-test, 2 sided|||Change from baseline to 1 month.||||0.42
92284693|NCT00667095|184473667|SUPERIORITY_OR_OTHER|||||||0.15|||||||t-test, 2 sided|||Change from baseline to 3 months.||||0.15
92284694|NCT00667095|184473668|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||Change from baseline to 1 month||||0.18
92180416|NCT05485805|184260201|OTHER||Geometric LS means|-3.476|||=|0.325|TWO_SIDED|95.0|-10.41|3.457|||ANCOVA|||||3.457|-10.41|= 0.325
92284695|NCT00667095|184473668|SUPERIORITY_OR_OTHER|||||||0.77|||||||t-test, 2 sided|||Change from baseline to 3 months.||||0.77
92284696|NCT00667095|184473669|SUPERIORITY_OR_OTHER|||||||0.67|||||||t-test, 2 sided|||Change from baseline to one month||||0.67
92284697|NCT00667095|184473669|SUPERIORITY_OR_OTHER|||||||0.2|||||||t-test, 2 sided|||Change from baseline to 3 months.||||0.20
92259562|NCT00877890|184421830|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Multiplicity adjustment using Hochberg procedure for the 3 key secondary endpoints (i.e., percent to achieving HbA1c goal of \<7%, change in fasting glucose, and percent of achieving fasting plasma glucose goal of \<=126 mg/dL) was performed.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target value of \<7% at Week 24 were compared between treatments using a Cochran-Mantel-Haenszel (CMH) test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving HbA1c target. Power: based on the primary measurement.||||<.0001
92284698|NCT00667095|184473670|SUPERIORITY_OR_OTHER|||||||0.31|||||||t-test, 2 sided|||Change between baseline and one month||||0.31
92284699|NCT00667095|184473670|SUPERIORITY_OR_OTHER|||||||0.038|||||||t-test, 2 sided|||Change between baseline and 3 months||||0.038
92180417|NCT05485805|184260201|OTHER||Geometric LS means|0.211|||=|0.918|TWO_SIDED|95.0|-3.798|4.22|||ANCOVA|||||4.22|-3.798|= 0.918
92180418|NCT05485805|184260201|OTHER||Geometric LS means|32.097|||<|0.001|TWO_SIDED|95.0|26.484|37.71|||ANCOVA|||||37.71|26.484|< 0.001
92180419|NCT05485805|184260201|OTHER||Geometric LS means|22.46|||<|0.001|TWO_SIDED|95.0|16.753|28.166|||ANCOVA|||||28.166|16.753|< 0.001
92180420|NCT05485805|184260201|OTHER||Geometric LS means|26.147|||<|0.001|TWO_SIDED|95.0|20.529|31.765|||ANCOVA|||||31.765|20.529|< 0.001
92180421|NCT05485805|184260201|OTHER||Geometric LS means|28.62|||<|0.001|TWO_SIDED|95.0|22.921|34.32|||ANCOVA|||||34.32|22.921|< 0.001
92180422|NCT05485805|184260201|OTHER||Geometric LS means|22.671|||<|0.001|TWO_SIDED|95.0|16.966|28.375|||ANCOVA|||||28.375|16.966|< 0.001
92180423|NCT05485805|184260202|OTHER||Geometric LS means|-1.602|||<|0.001|TWO_SIDED|95.0|-2.548|-0.656|||ANCOVA|||0-2 hours post-dose||-0.656|-2.548|< 0.001
92180424|NCT05485805|184260202|OTHER||Geometric LS means|0.976|||=|0.043|TWO_SIDED|95.0|0.029|1.923|||ANCOVA|||0-2 hours post-dose||1.923|0.029|= 0.043
92180425|NCT05485805|184260202|OTHER||Geometric LS means|6.097|||<|0.001|TWO_SIDED|95.0|4.766|7.427|||ANCOVA|||0-2 hours post-dose||7.427|4.766|< 0.001
92180426|NCT05485805|184260202|OTHER||Geometric LS means|0.31|||=|0.711|TWO_SIDED|95.0|-1.332|1.951|||ANCOVA|||0-2 hours post-dose||1.951|-1.332|= 0.711
92180427|NCT05485805|184260202|OTHER||Geometric LS means|-0.626|||=|0.196|TWO_SIDED|95.0|-1.575|0.323|||ANCOVA|||0-2 hours post-dose||0.323|-1.575|= 0.196
92180428|NCT05485805|184260202|OTHER||Geometric LS means|7.073|||<|0.001|TWO_SIDED|95.0|5.744|8.402|||ANCOVA|||0-2 hours post-dose||8.402|5.744|< 0.001
92180429|NCT05485805|184260202|OTHER||Geometric LS means|6.406|||<|0.001|TWO_SIDED|95.0|5.055|7.757|||ANCOVA|||0-2 hours post-dose||7.757|5.055|< 0.001
92180430|NCT05485805|184260202|OTHER||Geometric LS means|5.471|||<|0.001|TWO_SIDED|95.0|4.141|6.801|||ANCOVA|||0-2 hours post-dose||6.801|4.141|< 0.001
92180431|NCT05485805|184260202|OTHER||Geometric LS means|7.383|||<|0.001|TWO_SIDED|95.0|6.033|8.732|||ANCOVA|||0-2 hours post-dose||8.732|6.033|< 0.001
92259563|NCT00877890|184421831|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target values of \<=6.5% at Week 24 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving HbA1c target. Power: based on the primary measurement.||||<.0001
92259564|NCT00877890|184421832|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.4|STANDARD_ERROR_OF_MEAN|5.57||0.0006|TWO_SIDED|95.0|-31.4|-9.5||Multiplicity adjustment using Hochberg procedure for the 3 key secondary endpoints (i.e., percent to achieving HbA1c goal of \<7%, change in fasting glucose, and percent of achieving fasting plasma glucose goal of \<=126 mg/dL) was performed.|ANCOVA|||Analysis: Change in fasting plasma glucose from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the fasting plasma glucose as a covariate. Null hypothesis: no difference between treatments in change from baseline fasting plasma glucose. Power: based on the primary measurement.||-9.5|-31.4|0.0006
92284700|NCT01520909|184473671|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.96|||<|0.001|TWO_SIDED|95.0|2.29|140.93|||Cochran-Mantel-Haenszel|The proportion of participants achieving platelet counts \>=50 Gi/L for those participants receiving eltrombopag versus placebo was compared.||Indicated significance at the 5% (two-sided) level of significance||140.93|2.29|<0.001
92284701|NCT01520909|184473672|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|25.33|||<|0.001|TWO_SIDED|95.0|8.15|78.73|||Repeated measures model for binary data|Repeated measures model for binary data using Generalized linear mixed model||||78.73|8.15|<0.001
92180432|NCT05485805|184260202|OTHER||Geometric LS means|5.78|||<|0.001|TWO_SIDED|95.0|4.43|7.131|||ANCOVA|||0-2 hours post-dose||7.131|4.43|< 0.001
92180433|NCT05485805|184260203|OTHER||Geometric LS means|-0.586|||<|0.001|TWO_SIDED|95.0|-0.903|-0.269|||ANCOVA|||0-2 hours post-dose||-0.269|-0.903|< 0.001
92180434|NCT05485805|184260203|OTHER||Geometric LS means|0.454|||=|0.005|TWO_SIDED|95.0|0.136|0.771|||ANCOVA|||0-2 hours post-dose||0.771|0.136|= 0.005
92180435|NCT05485805|184260203|OTHER||Geometric LS means|2.369|||<|0.001|TWO_SIDED|95.0|1.923|2.815|||ANCOVA|||0-2 hours post-dose||2.815|1.923|< 0.001
92180436|NCT05485805|184260203|OTHER||Geometric LS means|-0.169|||=|0.548|TWO_SIDED|95.0|-0.719|0.382|||ANCOVA|||0-2 hours post-dose||0.382|-0.719|= 0.548
92180437|NCT05485805|184260203|OTHER||Geometric LS means|-0.132|||=|0.415|TWO_SIDED|95.0|-0.451|0.186|||ANCOVA|||0-2 hours post-dose||0.186|-0.451|= 0.415
92180438|NCT05485805|184260203|OTHER||Geometric LS means|2.823|||<|0.001|TWO_SIDED|95.0|2.377|3.268|||ANCOVA|||0-2 hours post-dose||3.268|2.377|< 0.001
92180439|NCT05485805|184260203|OTHER||Geometric LS means|2.201|||<|0.001|TWO_SIDED|95.0|1.748|2.654|||ANCOVA|||0-2 hours post-dose||2.654|1.748|< 0.001
92180440|NCT05485805|184260203|OTHER||Geometric LS means|2.237|||<|0.001|TWO_SIDED|95.0|1.791|2.683|||ANCOVA|||0-2 hours post-dose||2.683|1.791|< 0.001
92284702|NCT00840099|184473715|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of Means x 100|100.91||||||90.0|95.82|106.26|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.26|95.82|
92284703|NCT00840099|184473716|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|102.79||||||90.0|100.69|104.94|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.94|100.69|
92180441|NCT05485805|184260203|OTHER||Geometric LS means|2.654|||<|0.001|TWO_SIDED|95.0|2.202|3.106|||ANCOVA|||0-2 hours post-dose||3.106|2.202|< 0.001
92180442|NCT05485805|184260203|OTHER||Geometric LS means|2.068|||<|0.001|TWO_SIDED|95.0|1.615|2.521|||ANCOVA|||0-2 hours post-dose||2.521|1.615|< 0.001
92180443|NCT05485805|184260203|OTHER||Geometric LS means|-1.338|||<|0.001|TWO_SIDED|95.0|-2.133|-0.542|||ANCOVA|||0-4 hours post-dose||-0.542|-2.133|< 0.001
92180444|NCT05485805|184260203|OTHER||Geometric LS means|1.016|||=|0.012|TWO_SIDED|95.0|0.22|1.813|||ANCOVA|||0-4 hours post-dose||1.813|0.22|= 0.012
92180445|NCT05485805|184260203|OTHER||Geometric LS means|5.982|||<|0.001|TWO_SIDED|95.0|4.864|7.101|||ANCOVA|||0-4 hours post-dose||7.101|4.864|< 0.001
92180446|NCT05485805|184260203|OTHER||Geometric LS means|-1.048|||=|0.136|TWO_SIDED|95.0|-2.428|0.332|||ANCOVA|||0-4 hours post-dose||0.332|-2.428|= 0.136
92180447|NCT05485805|184260203|OTHER||Geometric LS means|-0.321|||=|0.43|TWO_SIDED|95.0|-1.119|0.477|||ANCOVA|||0-4 hours post-dose||0.477|-1.119|= 0.43
92180448|NCT05485805|184260203|OTHER||Geometric LS means|6.999|||<|0.001|TWO_SIDED|95.0|5.881|8.116|||ANCOVA|||0-4 hours post-dose||8.116|5.881|< 0.001
92180449|NCT05485805|184260203|OTHER||Geometric LS means|4.934|||<|0.001|TWO_SIDED|95.0|3.798|6.07|||ANCOVA|||0-4 hours post-dose||6.07|3.798|< 0.001
92180450|NCT05485805|184260203|OTHER||Geometric LS means|5.661|||<|0.001|TWO_SIDED|95.0|4.543|6.779|||ANCOVA|||0-4 hours post-dose||6.779|4.543|< 0.001
92180451|NCT05485805|184260203|OTHER||Geometric LS means|5.951|||<|0.001|TWO_SIDED|95.0|4.816|7.085|||ANCOVA|||0-4 hours post-dose||7.085|4.816|< 0.001
92180452|NCT05485805|184260203|OTHER||Geometric LS means|4.613|||<|0.001|TWO_SIDED|95.0|3.478|5.749|||ANCOVA|||0-4 hours post-dose||5.749|3.478|< 0.001
92259565|NCT00877890|184421833|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED|||||Multiplicity adjustment using Hochberg procedure for the 3 key secondary endpoints (i.e., percent to achieving HbA1c goal of \<7%, change in fasting glucose, and percent of achieving fasting plasma glucose goal of \<=126 mg/dL) was performed.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving fasting plasma glucose target of \<=126 mg/dL at Week 24 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving fasting plasma glucose target. Power: based on the primary measurement.||||0.0008
92180453|NCT05485805|184260203|OTHER||Geometric LS means|-1.963|||=|0.003|TWO_SIDED|95.0|-3.254|-0.673|||ANCOVA|||0-6 hours post-dose||-0.673|-3.254|= 0.003
92259566|NCT00877890|184421834|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.487||0.0514|TWO_SIDED|95.0|-1.91|0.01|||ANCOVA|||Analysis: Change in body weight from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the body weight as a covariate. Null hypothesis: no difference between treatments in change from baseline body weight. Power: based on the primary measurement.||0.01|-1.91|0.0514
92180454|NCT05485805|184260203|OTHER||Geometric LS means|1.641|||=|0.013|TWO_SIDED|95.0|0.35|2.933|||ANCOVA|||0-6 hours post-dose||2.933|0.35|= 0.013
92284704|NCT00840099|184473717|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|102.75||||||90.0|100.62|104.93|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.93|100.62|
92259567|NCT00877890|184421835|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.5||0.2367|TWO_SIDED|95.0|-4.7|1.2|||ANCOVA|||Analysis: Change in systolic blood pressure from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the systolic blood pressure as a covariate. Null hypothesis: no difference between treatments in change from baseline systolic blood pressure. Power: based on the primary measurement.||1.2|-4.7|0.2367
92259568|NCT00877890|184421836|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.98||0.7717|TWO_SIDED|95.0|-1.7|2.2|||ANCOVA|||Analysis: Change in diastolic blood pressure from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the diastolic blood pressure as a covariate. Null hypothesis: no difference between treatments in change from baseline diastolic blood pressure. Power: based on the primary measurement.||2.2|-1.7|0.7717
92259569|NCT00877890|184421837|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|3.5|<|0.0001|TWO_SIDED|95.0|-22.9|-9.1|||ANCOVA|||Analysis: Change in total cholesterol from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the total cholesterol as a covariate. Null hypothesis: no difference between treatments in change from baseline total cholesterol. Power: based on the primary measurement.||-9.1|-22.9|<.0001
92180455|NCT05485805|184260203|OTHER||Geometric LS means|9.191|||<|0.001|TWO_SIDED|95.0|7.377|11.006|||ANCOVA|||0-6 hours post-dose||11.006|7.377|< 0.001
92259570|NCT00877890|184421838|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.8||0.1251|TWO_SIDED|95.0|-2.8|0.3|||ANCOVA|||Analysis: Change in HDL from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the HDL as a covariate. Null hypothesis: no difference between treatments in change from baseline HDL. Power: based on the primary measurement.||0.3|-2.8|0.1251
92259571|NCT00877890|184421839|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|0.95|STANDARD_ERROR_OF_MEAN|0.043||0.2558|TWO_SIDED|95.0|0.87|1.04|||ANCOVA|||Analysis: Triglycerides data were logarithm-transformed and the change at Week 30 to baseline (Day 1) , expressed as the ratio, was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the triglycerides as a covariate. Null hypothesis: no difference between treatments in change from baseline triglycerides. Power: based on the primary measurement.||1.04|0.87|0.2558
92259572|NCT04396106|184421845|OTHER|||||||0.721|||||||Cochran-Mantel-Haenszel|||||||0.721
92259573|NCT02698176|184421853|OTHER||Estimation of DLT Rate|0.25|||||TWO_SIDED|80.0|0.121|0.418|||||Point estimate and 2-sided 80% Bayesian credible interval for DLT rate estimated for the total number of participants from all 3 cohorts (CRPC+NMC+TNBC) that were evaluable for DLT analysis based on a non-informative prior distribution of Beta (1,1).|||0.418|0.121|
92180456|NCT05485805|184260203|OTHER||Geometric LS means|-1.642|||=|0.15|TWO_SIDED|95.0|-3.881|0.597|||ANCOVA|||0-6 hours post-dose||0.597|-3.881|= 0.15
92180457|NCT05485805|184260203|OTHER||Geometric LS means|-0.322|||=|0.625|TWO_SIDED|95.0|-1.617|0.972|||ANCOVA|||0-6 hours post-dose||0.972|-1.617|= 0.625
92180458|NCT05485805|184260203|OTHER||Geometric LS means|10.833|||<|0.001|TWO_SIDED|95.0|9.02|12.645|||ANCOVA|||0-6 hours post-dose||12.645|9.02|< 0.001
92259574|NCT02985684|184421872|OTHER|Acceptable performance: favorably exclude PG=0.88 with 95% confidence. Expected 6-month closure success proportion = 0.98. Acceptable performance margin = 0.10. PG = 0.98 - 0.10 = 0.88.|Binomial proportion|1.0|||<|0.0001|ONE_SIDED|95.0|0.974|||A priori 1-sided alpha = 0.05. If test rejects H0, then test primary outcome 2 (clinical success) at 1-sided alpha = 0.05; otherwise testing stops with failure to reject both primary outcome null hypotheses.|Binomial test (exact)||Exact 1-sided confidence interval lower bound from Clopper-Pearson method.|"Test null hypothesis of equal or lesser proportion with 6-month closure success compared to a performance goal (PG).~H0: P ≤ 0.88 vs H1: P \> 0.88, where P is the true proportion of subjects with 6-month closure success and 0.88 is the PG derived from clinical study outcomes for devices indicated for ASD closure.~N=103 subjects provide ≥95% power to exclude PG with 95% confidence if P=0.98 under H1."|||0.974|<0.0001
92259575|NCT02985684|184421873|OTHER|Acceptable performance: favorably exclude PG=0.76 with 95% confidence. Expected 6-month clinical success proportion = 0.88. Acceptable performance margin = 0.12. PG = 0.88 - 0.12 = 0.76.|Binomial proportion|0.9|||<|0.0001|ONE_SIDED|95.0|0.843|||A priori 1-sided alpha = 0.05. If test of primary outcome 1 rejects H0, then test at 1-sided alpha = 0.05; otherwise no testing of this primary outcome and failure to reject null hypothesis.|Binomial test (exact)||Exact 1-sided confidence interval lower bound from Clopper-Pearson method.|"Test null hypothesis of equal or lesser proportion with 6-month clinical success compared to a performance goal (PG).~H0: P ≤ 0.76 vs H1: P \> 0.76, where P is the true proportion of subjects with 6-month clinical success and 0.76 is the PG derived from clinical study outcomes for devices indicated for ASD closure.~N=112 subjects provide 95% power to exclude PG with 95% confidence if P=0.88 under H1."|||0.843|<0.0001
92284705|NCT00840099|184473718|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the Mean x 100|100.47||||||90.0|93.28|108.2|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||108.20|93.28|
92284706|NCT00840099|184473719|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Ratio of the mean|104.15||||||90.0|96.35|112.58|||||Bioequivalence is established when 80% Confidence Interval falls within 80 - 125|||112.58|96.35|
92180459|NCT05485805|184260203|OTHER||Geometric LS means|7.55|||<|0.001|TWO_SIDED|95.0|5.707|9.392|||ANCOVA|||0-6 hours post-dose||9.392|5.707|< 0.001
92180460|NCT05485805|184260203|OTHER||Geometric LS means|8.869|||<|0.001|TWO_SIDED|95.0|7.055|10.683|||ANCOVA|||0-6 hours post-dose||10.683|7.055|< 0.001
92180461|NCT05485805|184260203|OTHER||Geometric LS means|9.191|||<|0.001|TWO_SIDED|95.0|7.351|11.031|||ANCOVA|||0-6 hours post-dose||11.031|7.351|< 0.001
92284707|NCT00840099|184473720|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|104.06||||||90.0|95.85|112.97|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||112.97|95.85|
92284708|NCT02163837|184473754|SUPERIORITY|the study was exploratory, the number of patients included was not calculated|||||<|0.05|||||||McNemar|||Mc Nemar symetry test for repeated measures and paired t-tests as appropriated||||<0.05
92284709|NCT01171989|184473755|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: the upper limit of Standardised asymptotic 95% confidence interval lower or equal to 10%|Difference in percentage|0.0|||||TWO_SIDED|95.0|-3.27|2.84||||||Difference in percentage anti-PRP ≥ 0.15 μg/mL||2.84|-3.27|
92259576|NCT03479203|184421901|OTHER|T-Test followed by Bonferroni post-hoc analysis.|Mean Difference (Final Values)|1.96|STANDARD_DEVIATION|1.5||0.05|TWO_SIDED|95.0|1.0|6.0|||t-test, 2 sided|||"Blood assessed for C-reactive protein (CRP), soluble intercellular adhesion molecule (sICAM), the high mobility group box-1 (HMGB1), the NLRP3 inflammasome, and nitrates (NOx for nitric oxide) pre- and post-vaping. CRP, sICAM HMGB1 and NLRP3 is in ng/ml blood and NOx is in nanomol/ml. These numbers were weighted to obtain an inflammation index in blood. This index represents the fold increase over pre-vaping values."||6|1|0.05
92180462|NCT05485805|184260203|OTHER||Geometric LS means|7.228|||<|0.001|TWO_SIDED|95.0|5.386|9.07|||ANCOVA|||0-6 hours post-dose||9.07|5.386|< 0.001
92180463|NCT05485805|184260203|OTHER||Geometric LS means|-2.398|||=|0.009|TWO_SIDED|95.0|-4.185|-0.61|||ANCOVA|||0-8 hours post-dose||-0.61|-4.185|= 0.009
92259577|NCT03419741|184421910|OTHER|We plan to enroll 20 participants within one year. Eleven participants were enrolled. 11/20 = 55% completed the number of enrollment.|%|11.0|||||TWO_SIDED||||||percentage|||||||
92259578|NCT00836342|184421940|SUPERIORITY_OR_OTHER|||||||0.31|||||||t-test, 2 sided|||Null hypothesis: There is no difference in mean carotenoid levels between subjects with a history of squamous cell carcinom and control subjects.||||0.31
92259579|NCT00836342|184421941|SUPERIORITY_OR_OTHER|||||||0.49|||||||t-test, 2 sided|||||||0.49
92259580|NCT00836342|184421942|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||t-test, 2 sided|||||||0.09
92259581|NCT04853368|184421958|SUPERIORITY||LS Mean of Difference|2.6|STANDARD_ERROR_OF_MEAN|0.84||0.002|TWO_SIDED|90.0|1.22|4.04||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|Primary analysis of ppFEV1 using MMRM excludes data inconsistent with baseline in terms of the timing of bronchodilator or airway clearance regimen.||||4.04|1.22|0.002
92259582|NCT04853368|184421958|SUPERIORITY||LS Mean of Difference|1.3|STANDARD_ERROR_OF_MEAN|1.92||0.254|TWO_SIDED|90.0|-2.07|4.67||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|Primary analysis of ppFEV1 using MMRM excludes data inconsistent with baseline in terms of the timing of bronchodilator or airway clearance regimen.||||4.67|-2.07|0.254
92180464|NCT05485805|184260203|OTHER||Geometric LS means|2.4|||=|0.009|TWO_SIDED|95.0|0.61|4.189|||ANCOVA|||0-8 hours post-dose||4.189|0.61|= 0.009
92180465|NCT05485805|184260203|OTHER||Geometric LS means|11.898|||<|0.001|TWO_SIDED|95.0|9.384|14.412|||ANCOVA|||0-8 hours post-dose||14.412|9.384|< 0.001
92259583|NCT04853368|184421958|SUPERIORITY||LS Mean of Difference|0.9||||0.402|TWO_SIDED|90.0|-5.07|6.77||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|Primary analysis of ppFEV1 using MMRM excludes data inconsistent with baseline in terms of the timing of bronchodilator or airway clearance regimen.||||6.77|-5.07|0.402
92259584|NCT04853368|184421960|SUPERIORITY||LS Mean of Difference|5.5|STANDARD_ERROR_OF_MEAN|2.63||0.022|TWO_SIDED|90.0|1.07|9.92||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||9.92|1.07|0.022
92259585|NCT04853368|184421960|SUPERIORITY||LS Mean of Difference|-14.1||||0.043|TWO_SIDED|90.0|-27.59|-0.62||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||-0.62|-27.59|0.043
92259586|NCT04853368|184421961|SUPERIORITY||LS Mean of Difference|0.14|STANDARD_ERROR_OF_MEAN|0.047||0.003|TWO_SIDED|90.0|0.059|0.219||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||0.219|0.059|0.003
92259587|NCT04853368|184421961|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.089||0.475|TWO_SIDED|90.0|-0.162|0.15||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||0.150|-0.162|0.475
92259588|NCT04853368|184421961|SUPERIORITY||LS Mean of Difference|-0.06||||0.352|TWO_SIDED|90.0|-0.332|0.212||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||Cohort 2: Difference between Triple Therapy and Placebo||0.212|-0.332|0.352
92284710|NCT01171989|184473756|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: the upper limit of Standardised asymptotic 95% confidence interval lower or equal to 10%|Difference in percentage|0.0|||||TWO_SIDED|95.0|-3.27|2.86||||||Difference between groups for rSBA-MenC ≥1:8||2.86|-3.27|
92284711|NCT01171989|184473756|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: the upper limit of Standardised asymptotic 95% confidence interval lower or equal to 10%|Difference in percentage|0.0|||||TWO_SIDED|95.0|-3.02|2.86||||||Difference between groups for rSBA-MenC ≥1:8||2.86|-3.02|
92284712|NCT03553823|184473825|SUPERIORITY||Difference secukinumab vs guselkumab|20.0||||0.1715|TWO_SIDED|95.0|-13.3|50.3|||Fisher Exact|The statistical model was the Fisher's exact test for the difference in proportions.||"Proportion of subjects whose plaque achieves clear or almost clear status (TCS = 0-2)"||50.3|-13.3|0.1715
92284713|NCT00813293|184473859|SUPERIORITY|||||||0.794|||||||Wilcoxon (Mann-Whitney)|||Assuming the two trial arms were independent, the standard deviation was 0.5cm for both arms and a sample size of 16 evaluable patients (8 per arm), the study had an 84% power at a 5% (two-sided) significance level to detect 0.8cm difference in ablation zone size. In order to allow a 20% drop-out rate, a total of 20 subjects were accrued.||||.794
92259589|NCT04853368|184421962|SUPERIORITY||LS Mean of Difference|0.089|STANDARD_ERROR_OF_MEAN|0.0403||0.017|TWO_SIDED|90.0|0.0209|0.1568||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||0.1568|0.0209|0.017
92259590|NCT04853368|184421962|SUPERIORITY||LS Mean of Difference|0.103|STANDARD_ERROR_OF_MEAN|0.1033||0.169|TWO_SIDED|90.0|-0.1814|0.288||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||0.2880|-0.1814|0.169
92259591|NCT04853368|184421962|SUPERIORITY||Mean Difference (Final Values)|0.136||||0.23|TWO_SIDED|90.0|-0.1809|0.4527||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||0.4527|-0.1809|0.230
92259592|NCT04853368|184421963|SUPERIORITY||LS Mean of Difference|4.4||||0.002|TWO_SIDED|90.0|2.04|6.78||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||6.78|2.04|0.002
92259593|NCT04853368|184421963|SUPERIORITY||LS Mean of Difference|1.3||||0.35|TWO_SIDED|90.0|-4.42|6.97||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||6.97|-4.42|0.350
92259594|NCT04853368|184421963|SUPERIORITY||LS Mean of Difference|1.3||||0.412|TWO_SIDED|90.0|-8.75|11.34||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||11.34|-8.75|0.412
92259595|NCT04853368|184421964|SUPERIORITY||LS Mean of Difference|4.36|||<|0.001|TWO_SIDED|90.0|2.19|6.524||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||6.524|2.190|<0.001
92259596|NCT04853368|184421964|SUPERIORITY||LS Mean of Difference|-0.59||||0.396|TWO_SIDED|90.0|-4.449|3.268||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||3.268|-4.449|0.396
92259597|NCT04853368|184421964|SUPERIORITY||LS Mean of Difference|-2.0||||0.305|TWO_SIDED|90.0|-8.724|4.732||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||4.732|-8.724|0.305
92259598|NCT04853368|184421965|SUPERIORITY||LS Mean of Difference|6.475||||0.018|TWO_SIDED|90.0|1.4443|11.5056||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||11.5056|1.4443|0.018
92259599|NCT04853368|184421965|SUPERIORITY||LS Mean of Difference|6.019||||0.214|TWO_SIDED|90.0|-7.1464|19.1844||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||19.1844|-7.1464|0.214
92259600|NCT04853368|184421965|SUPERIORITY||LS Mean of Difference|7.29||||0.286|TWO_SIDED|90.0|-15.186|29.766||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||29.7660|-15.1860|0.286
92259601|NCT04853368|184421966|SUPERIORITY||LS Mean of Difference|5.6||||0.057|TWO_SIDED|90.0|-0.26|11.37||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||11.37|-0.26|0.057
92259602|NCT04853368|184421966|SUPERIORITY||LS Mean of Difference|8.6||||0.088|TWO_SIDED|90.0|-2.18|19.4||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||19.40|-2.18|0.088
92259603|NCT04853368|184421966|SUPERIORITY||LS Mean of Difference|11.2||||0.142|TWO_SIDED|90.0|-6.9|29.25||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|Note: The LS mean is estimated using the linear regression on the change in CFQ-R from baseline to day 29.||||29.25|-6.90|0.142
92259604|NCT04495166|184421972|SUPERIORITY|||||||0.757||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||The sample size was calculated based on an effect size of 0.65 on depression, which is based on a previous meta-analysis (Sockol et al., 2011). Sample size calculation considered a difference in means between two independent groups, probability of type I error of 5%, statistical power of 80%, a two-tailed test, and a dropout rate of 15%.||||0.757
92259605|NCT04495166|184421973|SUPERIORITY|||||||0.91||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.910
92259606|NCT04495166|184421975|SUPERIORITY|||||||0.442||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.442
92259607|NCT04495166|184421976|SUPERIORITY|||||||0.223||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.223
92259608|NCT04495166|184421977|SUPERIORITY|||||||0.54||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.540
92259609|NCT04495166|184421978|SUPERIORITY|||||||0.901||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.901
92259610|NCT04495166|184421979|SUPERIORITY|||||||0.748||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.748
92259611|NCT00041119|184421989|SUPERIORITY|If the 5-year DFS for 4 cycles is 84.7% then a decrease of 23% in hazard rate for 6 cycles corresponds to an increase in 5-year DFS to 88%. Assuming a 2-sided significance level of 0.05, there is 90.9% power to detect such an increase at the final analysis conducted 6.4 years after study activation.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.84|1.28||||||The null hypothesis is that the hazards of both 6 and 4 cycle regimens are equal. The alternative hypothesis is a hazard ratio of 0.77, corresponding to a decrease of 23% in hazard due to longer duration of chemotherapy.||1.28|0.84|
92259612|NCT00041119|184421990|EQUIVALENCE|For T to be considered equivalent to the standard CA, a confidence interval of the hazard ratio of T to CA should be wholly to the left of 1.3, corresponding to a 30% increase in hazard rate. If the 5-year DFS for CA is 88% then an increase of 30% in hazard rate for T corresponds to 5-year DFS of 84.7%. The null hypothesis is that the hazard ratio of T to CA exceeds 1.3. The alternative hypothesis is that the two hazard rates are equivalent.|Hazard Ratio (HR)|1.26|||||ONE_SIDED|95.0||1.48||||||||1.48||
92180466|NCT05485805|184260203|OTHER||Geometric LS means|-2.225|||=|0.159|TWO_SIDED|95.0|-5.327|0.877|||ANCOVA|||0-8 hours post-dose||0.877|-5.327|= 0.159
92180467|NCT05485805|184260203|OTHER||Geometric LS means|0.002|||=|0.998|TWO_SIDED|95.0|-1.792|1.795|||ANCOVA|||0-8 hours post-dose||1.795|-1.792|= 0.998
92180468|NCT05485805|184260203|OTHER||Geometric LS means|14.298|||<|0.001|TWO_SIDED|95.0|11.787|16.809|||ANCOVA|||0-8 hours post-dose||16.809|11.787|< 0.001
92180469|NCT05485805|184260203|OTHER||Geometric LS means|9.673|||<|0.001|TWO_SIDED|95.0|7.12|12.226|||ANCOVA|||0-8 hours post-dose||12.226|7.12|< 0.001
92259613|NCT00041119|184421991|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were designed to detect effects in the marginal distributions of the two study factors, agent and length, and assume no interaction between the two factors. Calculations also assume exponential DFS and a total of 4556 treated patients accrued over 29 months and followed for four years after accrual termination for a total study time of 6.4 years. We assume the 5-year DFS of CA therapy is 88% and 84.7% for T. These assumptions are based upon results of SWOG 8897.|Hazard Ratio (HR)|1.27|||||ONE_SIDED|95.0||1.56||||||||1.56||
92259614|NCT00041119|184421995|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were designed to detect effects in the marginal distributions of the two study factors, agent and length, and assume no interaction between the two factors. Calculations also assume exponential DFS and a total of 4556 treated patients accrued over 29 months and followed for four years after accrual termination for a total study time of 6.4 years.|Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.84|1.49||||||||1.49|.84|
92259615|NCT01258738|184421996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.64||||0.0062|TWO_SIDED|95.0|5.36|27.92||P-value \<0.05 was required to declare statistical significance.|Cochran-Mantel-Haenszel|||"The null hypothesis was that the efficacy of etanercept was not different from placebo as measured by the proportion of subjects achieving an ASAS 40 response after 12 weeks of treatment. The alternative hypothesis was that the efficacy of etanercept was different from placebo.~The primary endpoint was tested at 2-sided alpha = 0.05 significance level. Comparative analysis was carried out for Week 12 data only."||27.92|5.36|0.0062
92284714|NCT02794974|184473864|SUPERIORITY|||||||0.236|||||||Fisher Exact|||||||0.236
92180470|NCT05485805|184260203|OTHER||Geometric LS means|11.9|||<|0.001|TWO_SIDED|95.0|9.387|14.413|||ANCOVA|||0-8 hours post-dose||14.413|9.387|< 0.001
92180471|NCT05485805|184260203|OTHER||Geometric LS means|12.073|||<|0.001|TWO_SIDED|95.0|9.523|14.623|||ANCOVA|||0-8 hours post-dose||14.623|9.523|< 0.001
92180472|NCT05485805|184260203|OTHER||Geometric LS means|9.675|||<|0.001|TWO_SIDED|95.0|7.123|12.227|||ANCOVA|||0-8 hours post-dose||12.227|7.123|< 0.001
92259616|NCT01258738|184421997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.46||||0.0059|TWO_SIDED|95.0|3.69|19.24|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||19.24|3.69|0.0059
92180473|NCT05485805|184260203|OTHER||Geometric LS means|-2.949|||=|0.043|TWO_SIDED|95.0|-5.803|-0.095|||ANCOVA|||0-12 hours post-dose||-0.095|-5.803|= 0.043
92180474|NCT05485805|184260203|OTHER||Geometric LS means|3.694|||=|0.011|TWO_SIDED|95.0|0.837|6.55|||ANCOVA|||0-12 hours post-dose||6.55|0.837|= 0.011
92180475|NCT05485805|184260203|OTHER||Geometric LS means|16.504|||<|0.001|TWO_SIDED|95.0|12.49|20.517|||ANCOVA|||0-12 hours post-dose||20.517|12.49|< 0.001
92180476|NCT05485805|184260203|OTHER||Geometric LS means|-3.437|||=|0.173|TWO_SIDED|95.0|-8.389|1.515|||ANCOVA|||0-12 hours post-dose||1.515|-8.389|= 0.173
92180477|NCT05485805|184260203|OTHER||Geometric LS means|0.744|||=|0.61|TWO_SIDED|95.0|-2.119|3.608|||ANCOVA|||0-12 hours post-dose||3.608|-2.119|= 0.61
92180478|NCT05485805|184260203|OTHER||Geometric LS means|20.197|||<|0.001|TWO_SIDED|95.0|16.189|24.206|||ANCOVA|||0-12 hours post-dose||24.206|16.189|< 0.001
92284715|NCT02794974|184473865|SUPERIORITY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
92284716|NCT02794974|184473866|SUPERIORITY||Odds Ratio|4.5||||0.209|TWO_SIDED|95.0|0.63|32.2|||Odds Ratio|||||32.2|0.63|0.209
92284717|NCT02794974|184473867|SUPERIORITY||Odds Ratio|2.5||||0.44|TWO_SIDED|95.0|0.49|12.77|||Odds Ratio|||||12.77|0.49|0.44
92284718|NCT02794974|184473868|SUPERIORITY||Odds Ratio|1.88||||0.695|TWO_SIDED|95.0|0.37|9.45|||Odds Ratio|||||9.45|0.37|0.695
92284719|NCT02870920|184473869|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.07|TWO_SIDED|90.0|0.54|0.97|||Log Rank|||||0.97|0.54|0.07
92284720|NCT02870920|184473870|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.97|TWO_SIDED|90.0|0.76|1.34|||Log Rank|||||1.34|0.76|0.97
92180479|NCT05485805|184260203|OTHER||Geometric LS means|13.067|||<|0.001|TWO_SIDED|95.0|8.992|17.143|||ANCOVA|||0-12 hours post-dose||17.143|8.992|< 0.001
92180480|NCT05485805|184260203|OTHER||Geometric LS means|17.248|||<|0.001|TWO_SIDED|95.0|13.236|21.261|||ANCOVA|||0-12 hours post-dose||21.261|13.236|< 0.001
92180481|NCT05485805|184260203|OTHER||Geometric LS means|16.761|||<|0.001|TWO_SIDED|95.0|12.69|20.831|||ANCOVA|||0-12 hours post-dose||20.831|12.69|< 0.001
92180482|NCT05485805|184260203|OTHER||Geometric LS means|13.812|||<|0.001|TWO_SIDED|95.0|9.738|17.886|||ANCOVA|||0-12 hours post-dose||17.886|9.738|< 0.001
92180483|NCT05485805|184260203|OTHER||Geometric LS means|-2.312|||=|0.473|TWO_SIDED|95.0|-8.635|4.011|||ANCOVA|||0-24 hours post-dose||4.011|-8.635|= 0.473
92180484|NCT05485805|184260203|OTHER||Geometric LS means|27.08|||<|0.001|TWO_SIDED|95.0|18.188|35.973|||ANCOVA|||0-24 hours post-dose||35.973|18.188|< 0.001
92259617|NCT01258738|184421997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.19||||0.3786|TWO_SIDED|95.0|-4.98|15.35|||Cochran-Mantel-Haenszel|||"Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made.~Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4"||15.35|-4.98|0.3786
92259618|NCT01258738|184421997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.83||||0.0304|TWO_SIDED|95.0|1.79|23.87|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||23.87|1.79|0.0304
92259619|NCT01258738|184421997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.52||||0.0023|TWO_SIDED|95.0|7.29|29.75|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||29.75|7.29|0.0023
92259620|NCT01258738|184421998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.44||||0.0189|TWO_SIDED|95.0|3.2|25.68|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||25.68|3.20|0.0189
92259621|NCT01258738|184421998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.29||||0.0983|TWO_SIDED|95.0|-2.17|22.75|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||22.75|-2.17|0.0983
92259622|NCT01258738|184421998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.61||||0.0867|TWO_SIDED|95.0|-2.63|23.84|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||23.84|-2.63|0.0867
92259623|NCT01258738|184421998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.27||||0.0195|TWO_SIDED|95.0|3.1|29.43|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||29.43|3.10|0.0195
92259624|NCT01258738|184421999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.63|||<|0.0001|TWO_SIDED|95.0|11.85|33.41|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||33.41|11.85|<0.0001
92284721|NCT00533273|184473872|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<.001
92284722|NCT00533273|184473873|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<.001
92284723|NCT00533273|184473874|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
92284724|NCT00533273|184473875|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
92284725|NCT00533273|184473877|SUPERIORITY|||||||0.014|||||||Cochran-Mantel-Haenszel|||||||.014
92284726|NCT00533273|184473878|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<.0001
92180485|NCT05485805|184260203|OTHER||Geometric LS means|-6.928|||=|0.215|TWO_SIDED|95.0|-17.9|4.044|||ANCOVA|||0-24 hours post-dose||4.044|-17.9|= 0.215
92180486|NCT05485805|184260203|OTHER||Geometric LS means|2.468|||=|0.445|TWO_SIDED|95.0|-3.876|8.813|||ANCOVA|||0-24 hours post-dose||8.813|-3.876|= 0.445
92180487|NCT05485805|184260203|OTHER||Geometric LS means|20.152|||<|0.001|TWO_SIDED|95.0|11.122|29.183|||ANCOVA|||0-24 hours post-dose||29.183|11.122|< 0.001
92180488|NCT05485805|184260203|OTHER||Geometric LS means|24.933|||<|0.001|TWO_SIDED|95.0|15.914|33.952|||ANCOVA|||0-24 hours post-dose||33.952|15.914|< 0.001
92180489|NCT05485805|184260203|OTHER||Geometric LS means|22.621|||<|0.001|TWO_SIDED|95.0|13.594|31.648|||ANCOVA|||0-24 hours post-dose||31.648|13.594|< 0.001
92180490|NCT05485805|184260204|OTHER||||||=|0.963|||||||ANCOVA|||||||= 0.963
92180491|NCT05485805|184260204|OTHER||||||=|0.118|||||||ANCOVA|||||||= 0.118
92180492|NCT05485805|184260204|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180493|NCT05485805|184260204|OTHER||||||=|0.244|||||||ANCOVA|||||||= 0.244
92180494|NCT05485805|184260204|OTHER||||||=|0.139|||||||ANCOVA|||||||= 0.139
92180495|NCT05485805|184260204|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180496|NCT05485805|184260204|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180497|NCT05485805|184260204|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180498|NCT05485805|184260204|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180499|NCT05485805|184260204|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180500|NCT05485805|184260206|OTHER||||||=|0.647|||||||ANCOVA|||||||= 0.647
92180501|NCT05485805|184260206|OTHER||||||=|0.714|||||||ANCOVA|||||||= 0.714
92180502|NCT05485805|184260206|OTHER||||||=|0.065|||||||ANCOVA|||||||= 0.065
92180503|NCT05485805|184260206|OTHER||||||=|0.742|||||||ANCOVA|||||||= 0.742
92180504|NCT05485805|184260206|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180505|NCT05485805|184260206|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180506|NCT05485805|184260206|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92284727|NCT00533273|184473879|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
92180507|NCT05485805|184260206|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180508|NCT05485805|184260206|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180509|NCT05485805|184260207|OTHER||||||=|0.162|||||||ANCOVA|||||||= 0.162
92180510|NCT05485805|184260207|OTHER||||||=|0.319|||||||ANCOVA|||||||= 0.319
92180511|NCT05485805|184260207|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180512|NCT05485805|184260207|OTHER||||||=|0.343|||||||ANCOVA|||||||= 0.343
92180513|NCT05485805|184260207|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180514|NCT05485805|184260207|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180515|NCT05485805|184260207|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180516|NCT05485805|184260207|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180517|NCT05485805|184260207|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180518|NCT05485805|184260208|OTHER||||||=|0.162|||||||ANCOVA|||||||= 0.162
92180519|NCT05485805|184260208|OTHER||||||=|0.319|||||||ANCOVA|||||||= 0.319
92284728|NCT00533273|184473880|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
92180520|NCT05485805|184260208|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180521|NCT05485805|184260208|OTHER||||||=|0.343|||||||ANCOVA|||||||= 0.343
92180522|NCT05485805|184260208|OTHER||||||=|0.772|||||||ANCOVA|||||||= 0.772
92180523|NCT05485805|184260208|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180524|NCT05485805|184260208|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180525|NCT05485805|184260208|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180526|NCT05485805|184260208|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180527|NCT05485805|184260208|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92180528|NCT05485805|184260211|OTHER||geometric LS mean square|-0.14|||=|0.334|TWO_SIDED|95.0|-0.44|0.15|||ANCOVA|||||0.15|-0.44|= 0.334
92180529|NCT05485805|184260211|OTHER||geometric LS mean square|0.04|||=|0.783|TWO_SIDED|95.0|-0.25|0.33|||ANCOVA|||||0.33|-0.25|= 0.783
92180530|NCT05485805|184260211|OTHER||geometric LS mean square|-0.08|||=|0.687|TWO_SIDED|95.0|-0.5|0.33|||ANCOVA|||||0.33|-0.5|= 0.687
92180531|NCT05485805|184260211|OTHER||geometric LS mean square|-0.02|||=|0.927|TWO_SIDED|95.0|-0.53|0.49|||ANCOVA|||||0.49|-0.53|= 0.927
92180532|NCT05485805|184260211|OTHER||geometric LS mean square|-0.1|||=|0.492|TWO_SIDED|95.0|-0.4|0.19|||ANCOVA|||||0.19|-0.4|= 0.492
92180533|NCT05485805|184260211|OTHER||geometric LS mean square|-0.04|||=|0.836|TWO_SIDED|95.0|-0.46|0.37|||ANCOVA|||||0.37|-0.46|= 0.836
92180534|NCT05485805|184260211|OTHER||geometric LS mean square|-0.11|||=|0.611|TWO_SIDED|95.0|-0.53|0.31|||ANCOVA|||||0.31|-0.53|= 0.611
92180535|NCT05485805|184260211|OTHER||geometric LS mean square|-0.19|||=|0.371|TWO_SIDED|95.0|-0.6|0.22|||ANCOVA|||||0.22|-0.6|= 0.371
92180536|NCT05485805|184260211|OTHER||geometric LS mean square|-0.07|||=|0.752|TWO_SIDED|95.0|-0.49|0.35|||ANCOVA|||||0.35|-0.49|= 0.752
92180537|NCT05485805|184260211|OTHER||geometric LS mean square|-0.21|||=|0.321|TWO_SIDED|95.0|-0.63|0.21|||ANCOVA|||||0.21|-0.63|= 0.321
92180538|NCT04218357|184260219|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||GEE|Generalized Estimating Equation with standard errors, and an unstructured correlation matrix with medication and time as within-subject factors.||All outcomes were assessed in real-time in the laboratory testing probenecid compared to placebo condition during the alcohol administration procedure.||||0.05
92180539|NCT05048394|184260267|EQUIVALENCE|Equivalence is defined as a difference of 0.|||||<|0.001||||||Threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92180540|NCT05048394|184260268|EQUIVALENCE|Equivalence is defined as a difference of 0.||||||0.14||||||Threshold for significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||||||0.14
92180541|NCT05037513|184260272|SUPERIORITY||Odds Ratio (OR)|7.06|||<|0.05|TWO_SIDED|95.0|0.8|62.2|||Regression, Logistic|||||62.2|0.8|<0.05
92180542|NCT05037513|184260273|SUPERIORITY||Odds Ratio (OR)|7.06|||<|0.05|TWO_SIDED|95.0|0.8|62.2|||Regression, Logistic|||||62.2|0.8|<0.05
92180543|NCT06140290|184260310|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the reference treatment, while Etrasimod 2mg (Treatment G) without practice session was the test treatment.|Ratio of Adjusted Geometric Means|108.32|||||TWO_SIDED|90.0|101.2|115.94|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using a mixed effect model, with treatment as a fixed effect and participant as a random effect.||115.94|101.20|
92180544|NCT06140290|184260311|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the reference treatment, while Etrasimod 2mg (Treatment G) without practice session was the test treatment.|Ratio of Adjusted Geometric Means|120.41|||||TWO_SIDED|90.0|108.02|134.22|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using a mixed effect model, with treatment as a fixed effect and participant as a random effect.||134.22|108.02|
92284729|NCT00454909|184473891|SUPERIORITY||Difference in percentage|11.2|||||TWO_SIDED|95.0|3.87|19.18||||||Evaluation of the immunogenicity induced by Nimenrix™ conjugate vaccine as compared to Menactra® vaccine in terms of percentage of subjects with serum bactericidal assay using human complement against N. meningitidis serogroup A (hSBA-MenA) antibody titers ≥ 1:8 one month after vaccination.||19.18|3.87|
92180545|NCT06140290|184260312|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the reference treatment, while Etrasimod 2mg (Treatment G) without practice session was the test treatment.|Ratio of Adjusted Geometric Means|115.29|||||TWO_SIDED|90.0|105.17|126.38|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using a mixed effect model, with treatment as a fixed effect and participant as a random effect.||126.38|105.17|
92180546|NCT06140290|184260313|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the reference treatment, while Etrasimod 2mg (Treatment G) without practice session was the test treatment.|Ratio of Adjusted Geometric Means|106.75|||||TWO_SIDED|90.0|99.33|114.73|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using a mixed effect model, with treatment as a fixed effect and participant as a random effect.||114.73|99.33|
92180547|NCT06140290|184260314|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|91.8|||||TWO_SIDED|90.0|77.76|108.38|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA (Analysis of variance) model with treatment as a fixed effect.||108.38|77.76|
92180548|NCT06140290|184260314|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment G) without practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|102.71|||||TWO_SIDED|90.0|86.33|122.19|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||122.19|86.33|
92180549|NCT06140290|184260315|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|86.34|||||TWO_SIDED|90.0|69.42|107.37|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||107.37|69.42|
92180550|NCT06140290|184260315|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment G) without practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|97.98|||||TWO_SIDED|90.0|76.99|124.7|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||124.70|76.99|
92180551|NCT06140290|184260316|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|88.72|||||TWO_SIDED|90.0|73.1|107.68|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||107.68|73.10|
92180552|NCT06140290|184260316|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment G) without practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|97.54|||||TWO_SIDED|90.0|78.74|120.83|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||120.83|78.74|
92284730|NCT00454909|184473891|SUPERIORITY||Difference in percentage|-2.77|||||TWO_SIDED|95.0|-5.08|0.4||||||Evaluation of the immunogenicity induced by Nimenrix™ conjugate vaccine as compared to Menactra® vaccine in terms of percentage of subjects with serum bactericidal assay using human complement against N. meningitidis serogroup C (hSBA-MenC) antibody titers ≥ 1:8 one month after vaccination.||0.40|-5.08|
92284731|NCT00454909|184473891|SUPERIORITY||Difference in percentage|14.93|||||TWO_SIDED|95.0|8.24|22.71||||||Evaluation of the immunogenicity induced by Nimenrix™ conjugate vaccine as compared to Menactra® vaccine in terms of percentage of subjects with serum bactericidal assay using human complement against N. meningitidis serogroup W-135 (hSBA-MenW -135) antibody titers ≥ 1:8 one month after vaccination.||22.71|8.24|
92182863|NCT02434328|184264727|OTHER||Difference in proportions|-3.7|||||TWO_SIDED|95.0|-9.9|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.3|-9.9|
92259625|NCT01258738|184421999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.83||||0.0021|TWO_SIDED|95.0|5.09|20.57|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||20.57|5.09|0.0021
92259626|NCT01258738|184421999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.89||||0.002|TWO_SIDED|95.0|5.18|24.6|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||24.60|5.18|0.0020
92259627|NCT01258738|184421999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.79|||<|0.0001|TWO_SIDED|95.0|10.92|32.67|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||32.67|10.92|<0.0001
92259628|NCT01258738|184422000|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259629|NCT01258738|184422000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.74|-0.34|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.34|-0.74|<0.001
92284732|NCT00454909|184473891|SUPERIORITY||Difference in percentage|13.4|||||TWO_SIDED|95.0|7.9|20.1||||||Evaluation of the immunogenicity induced by Nimenrix™ conjugate vaccine as compared to Menactra® vaccine in terms of percentage of subjects with serum bactericidal assay using human complement against N. meningitidis serogroup Y (hSBA-MenY) antibody titers ≥ 1:8 one month after vaccination.||20.10|7.90|
92259630|NCT01258738|184422000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|||<|0.001|TWO_SIDED|95.0|-0.81|-0.41|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.41|-0.81|<0.001
92259631|NCT01258738|184422000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|||<|0.001|TWO_SIDED|95.0|-0.85|-0.37|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.37|-0.85|<0.001
92259632|NCT01258738|184422001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.84||||0.0209|TWO_SIDED|95.0|2.58|23.09|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||23.09|2.58|0.0209
92259633|NCT01258738|184422001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.65||||0.0179|TWO_SIDED|95.0|1.82|15.48|||Cochran-Mantel-Haenszel|||"Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only.~Week 2"||15.48|1.82|0.0179
92259634|NCT01258738|184422001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.81||||0.0611|TWO_SIDED|95.0|-0.03|13.65|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||13.65|-0.03|0.0611
92259635|NCT01258738|184422001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.73||||0.0141|TWO_SIDED|95.0|3.14|22.32|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||22.32|3.14|0.0141
92259636|NCT01258738|184422001|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92287096|NCT03086460|184479319|SUPERIORITY||Mean Difference (Final Values)|0.029||||0.323|TWO_SIDED|95.0|-0.029|0.088|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.088|-0.029|0.323
92259637|NCT01258738|184422002|SUPERIORITY_OR_OTHER|||||||0.0022|TWO_SIDED||||||Log Rank|||"Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made.~Comparative analysis was carried out for Week 12 data only."||||0.0022
92259638|NCT01258738|184422003|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259639|NCT01258738|184422003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.0156|TWO_SIDED|95.0|-1.26|-0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.13|-1.26|0.0156
92259640|NCT01258738|184422003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0111|TWO_SIDED|95.0|-1.06|-0.14|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.14|-1.06|0.0111
92259641|NCT01258738|184422003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0936|TWO_SIDED|95.0|-0.91|0.07|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.07|-0.91|0.0936
92259642|NCT01258738|184422003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.2678|TWO_SIDED|95.0|-0.81|0.23|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.23|-0.81|0.2678
92259643|NCT01258738|184422004|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results included unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259644|NCT01258738|184422004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.0102|TWO_SIDED|95.0|-1.4|-0.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.19|-1.40|0.0102
92284733|NCT02549092|184473914|SUPERIORITY||Least Squares (LS) Mean of Difference|-8.21|STANDARD_ERROR_OF_MEAN|9.91||0.41|TWO_SIDED|95.0|-27.98|11.55||P value is from the mixed model repeated measures (MMRM) with the model: change from Baseline=treatment, country, visit, Baseline, treatment-by-visit, and Baseline-by-visit. Unstructured variance-covariance structure was used in the MMRM analysis.|mixed model repeated measures|Adjusted for multiplicity using the Hochberg procedure to control the family-wise error rate at a pre-specified significance level (alpha = 0.05).|Difference of LCIG - OMT|||11.55|-27.98|0.410
92259645|NCT01258738|184422004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.0007|TWO_SIDED|95.0|-1.44|-0.39|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.39|-1.44|0.0007
92259646|NCT01258738|184422004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.0057|TWO_SIDED|95.0|-1.35|-0.23|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.23|-1.35|0.0057
92259647|NCT01258738|184422004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.0077|TWO_SIDED|95.0|-1.44|-0.22|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.22|-1.44|0.0077
92259648|NCT01258738|184422005|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259649|NCT01258738|184422005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93||||0.0091|TWO_SIDED|95.0|-1.62|-0.23|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.23|-1.62|0.0091
92287097|NCT03086460|184479319|SUPERIORITY||Mean Difference (Final Values)|0.049||||0.073|TWO_SIDED|95.0|-0.005|0.103|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.103|-0.005|0.073
92259650|NCT01258738|184422005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.0097|TWO_SIDED|95.0|-1.38|-0.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.19|-1.38|0.0097
92259651|NCT01258738|184422005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.0101|TWO_SIDED|95.0|-1.45|-0.2|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.20|-1.45|0.0101
92259652|NCT01258738|184422005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97||||0.0031|TWO_SIDED|95.0|-1.61|-0.33|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.33|-1.61|0.0031
92180553|NCT06140290|184260317|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|94.14|||||TWO_SIDED|90.0|79.01|112.17|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||112.17|79.01|
92180554|NCT06140290|184260317|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment G) without practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|103.36|||||TWO_SIDED|90.0|86.04|124.16|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||124.16|86.04|
92180555|NCT02036970|184260326|SUPERIORITY||Mean Difference (Net)|-1.74||||0.8133|TWO_SIDED|95.0|-16.22|12.74||The p-value comparison is for the difference in the change in 6WMD from baseline at Week 16 for bardoxolone methyl relative to placebo in participants with pulmonary arterial hypertension (PAH).|Mixed Models Analysis||Mean difference (Net) = Bardoxolone methyl - Placebo.|Overall treatment effect in participants with PAH. Mean overall treatment effect across all visits for change from baseline in 6MWD was estimated and compared with placebo through 16 weeks of treatment using mixed-model repeated measures (MMRM), with treatment group, visit, and the interaction between treatment and visit as fixed factors. A compound symmetry covariance matrix was assumed. Data from Wks 4, 8, 12, and 16 used in the model with the change from baseline at Wk16 as primary endpoint.||12.74|-16.22|0.8133
92180556|NCT02036970|184260326|SUPERIORITY||Mean Difference (Net)|-3.17||||0.759|TWO_SIDED|95.0|-23.54|17.2||The p-value comparison is for the difference in the change in 6WMD from baseline at Week 16 for bardoxolone methyl relative to placebo in participants with pulmonary hypertension (PH)|Mixed Models Analysis||Mean difference (Net) = Bardoxolone methyl - Placebo.|Overall treatment effect in participants with PH. Mean overall treatment effect across all visits for change from baseline in 6MWD was estimated \& compared with placebo through 16 wks of treatment using mixed-model repeated measures (MMRM), with treatment group, visit, and the interaction between treatment \& visit as fixed factors. Compound symmetry covariance matrix was assumed. Data from Wks 4, 8, 12, and 16 were used in the model with the change from baseline at Wk 16 as the primary endpoint||17.20|-23.54|0.759
92180557|NCT02298842|184260327|NON_INFERIORITY|The sample size of 60 was chosen to meet the FDA pH requirements that the lower 95% confidence limit on the proportion of platelet test units with pH\> 6.2 will be at least 95%. This will be achieved if zero failures (pH\<=6.2) is seen.|Simple sample proportion|100.0|STANDARD_DEVIATION|0.0|||ONE_SIDED|95.0|95.1||||Exact Binomial Confidence Interval||Estimated proportion is 100%. Hence standard deviation is estimated as 0.|"A success is defined as pH22°C at Day 5 and Day 7 being at least 6.2. A one-sided 95% lower confidence limit will be used to assess the proportion of successes at Day 5 and Day 7. If the lower limit of the one-sided 95% confidence interval exceeds 0.95, the Test product will meet the FDA acceptance criteria."|||95.1|
92180558|NCT02298842|184260328|NON_INFERIORITY|The sample size of 60 was chosen to meet the FDA pH requirements that the lower 95% confidence limit on the proportion of platelet test units with pH\> 6.2 will be at least 95%. This will be achieved if zero failures (pH\<=6.2) is seen.|Simple sample proportion|100.0|STANDARD_DEVIATION|0.0|||ONE_SIDED|95.0|95.1||||Exact Bionomial Confidence Interval||Estimated proportion is 100%. Hence standard deviation is estimated as 0.|"A success is defined as pH22°C at Day 5 and Day 7 being at least 6.2. A one-sided 95% lower confidence limit will be used to assess the proportion of successes at Day 5 and Day 7. If the lower limit of the one-sided 95% confidence interval exceeds 0.95, the Test product will meet the FDA acceptance criteria."|||95.1|
92180559|NCT02298842|184260329|NON_INFERIORITY|If the 97.5% upper limit of the confidence interval is less than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|15.099|STANDARD_DEVIATION|5.6367|||ONE_SIDED|97.5||16.738|||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that P-selectin's mean difference, Test - 1.25 \* Control, is greater than or equal to 0, and the alternative is that the mean difference is less than 0.||16.738||
92180560|NCT02298842|184260330|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Median Difference (Final Values)|-0.418|STANDARD_DEVIATION|4.5531|||ONE_SIDED|97.5|-1.544||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that ESC's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||-1.544|
92284734|NCT02549092|184473915|SUPERIORITY||LS Mean of Difference|1.57|STANDARD_ERROR_OF_MEAN|2.37||0.509|TWO_SIDED|95.0|-3.16|6.3||The P value is from the MMRM with the model: change from Baseline = treatment, country, visit, Baseline, treatment-by-visit, and Baseline-by-visit. The unstructured variance-covariance structure was used in the MMRM analysis.|mixed model repeated measures|Adjusted for multiplicity using the Hochberg procedure to control the family-wise error rate at a pre-specified significance level (alpha = 0.05).|Difference of LCIG - OMT|||6.30|-3.16|0.509
92287098|NCT03086460|184479319|SUPERIORITY||Mean Difference (Final Values)|-0.021||||0.489|TWO_SIDED|95.0|-0.08|0.039|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.039|-0.080|0.489
92284735|NCT02549092|184473916|SUPERIORITY||LS mean difference|-3.81|STANDARD_ERROR_OF_MEAN|3.59||0.291|TWO_SIDED|95.0|-10.96|3.34||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Statistical significance for the 3 key secondary efficacy endpoints (PDQ-8 index score, CGI-C score, and UPDRS Part II) could only be evaluated using the Hochberg procedure for multiplicity control if both primary endpoints had been statistically significant after multiplicity adjustment.||3.34|-10.96|0.291
92287099|NCT03086460|184479319|SUPERIORITY||Median Difference (Final Values)|-0.001||||0.978|TWO_SIDED|95.0|-0.057|0.056|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.056|-0.057|0.978
92180561|NCT02298842|184260331|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|-0.667|STANDARD_DEVIATION|6.7882|||ONE_SIDED|97.5|-2.499||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that HSR's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||-2.499|
92180562|NCT02298842|184260332|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|46.1|STANDARD_DEVIATION|23.056|||ONE_SIDED|97.5|40.02||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that Morphology's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||40.020|
92180563|NCT02298842|184260333|NON_INFERIORITY|Lower value is considered to indicate better platelet quality. If the 97.5% upper limit of the confidence interval is less than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|12.314|STANDARD_DEVIATION|6.0422|||ONE_SIDED|97.5||13.981|||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that P-selection's mean difference, Test - 1.25 \* Control, is greater or equal to 0, and the alternative is that the mean difference is less than 0.||13.981||
92180564|NCT02298842|184260334|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|-3.042|STANDARD_DEVIATION|5.422|||ONE_SIDED|97.5|-4.407||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that ESC's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||-4.407|
92180565|NCT02298842|184260335|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|-2.389|STANDARD_DEVIATION|9.0544|||ONE_SIDED|97.5|-4.915||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that HSR's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||-4.915|
92182864|NCT02434328|184264727|OTHER||Difference in proportions|-3.6|||||TWO_SIDED|95.0|-10.5|2.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||2.7|-10.5|
92259653|NCT01258738|184422006|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92287100|NCT03086460|184479319|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.484|TWO_SIDED|95.0|-0.037|0.077|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.077|-0.037|0.484
92259654|NCT01258738|184422006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.0064|TWO_SIDED|95.0|-1.49|-0.25|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.25|-1.49|0.0064
92259655|NCT01258738|184422006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0407|TWO_SIDED|95.0|-1.12|-0.02|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.02|-1.12|0.0407
92259656|NCT01258738|184422006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.0349|TWO_SIDED|95.0|-1.24|-0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.05|-1.24|0.0349
92259657|NCT01258738|184422006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.0021|TWO_SIDED|95.0|-1.65|-0.37|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.37|-1.65|0.0021
92259658|NCT01258738|184422007|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259659|NCT01258738|184422007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0164|TWO_SIDED|95.0|-1.04|-0.11|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.11|-1.04|0.0164
92259660|NCT01258738|184422007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.0095|TWO_SIDED|95.0|-0.95|-0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.13|-0.95|0.0095
92259661|NCT01258738|184422007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0127|TWO_SIDED|95.0|-0.99|-0.12|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.12|-0.99|0.0127
92259662|NCT01258738|184422007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0166|TWO_SIDED|95.0|-0.99|-0.1|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.10|-0.99|0.0166
92259663|NCT01258738|184422008|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92284736|NCT02549092|184473917|SUPERIORITY||LS Mean of Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.84|-1.82||Analysis of covariance (ANCOVA) model: FINAL = treatment, country.|ANCOVA||Difference of LCIG - OMT|Statistical significance for the 3 key secondary efficacy endpoints (PDQ-8 index score, CGI-C score, and UPDRS Part II) could only be evaluated using the Hochberg procedure for multiplicity control if both primary endpoints had been statistically significant after multiplicity adjustment.||-1.82|-2.84|< 0.001
92259664|NCT01258738|184422008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.0029|TWO_SIDED|95.0|-1.28|-0.27|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.27|-1.28|0.0029
92180566|NCT02298842|184260336|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|43.8|STANDARD_DEVIATION|26.05|||ONE_SIDED|97.5|36.821||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that Morphology's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||36.821|
92259665|NCT01258738|184422008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.0147|TWO_SIDED|95.0|-1.21|-0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.13|-1.21|0.0147
92259666|NCT01258738|184422008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.0056|TWO_SIDED|95.0|-1.28|-0.22|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.22|-1.28|0.0056
92259667|NCT01258738|184422008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95||||0.001|TWO_SIDED|95.0|-1.52|-0.39|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.39|-1.52|0.0010
92259668|NCT01258738|184422009|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259669|NCT01258738|184422009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.0173|TWO_SIDED|95.0|-1.19|-0.12|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.12|-1.19|0.0173
92259670|NCT01258738|184422009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.1618|TWO_SIDED|95.0|-0.97|0.16|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.16|-0.97|0.1618
92259671|NCT01258738|184422009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.0153|TWO_SIDED|95.0|-1.25|-0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.13|-1.25|0.0153
92259672|NCT01258738|184422009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0866|TWO_SIDED|95.0|-1.05|0.07|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.07|-1.05|0.0866
92259673|NCT01258738|184422010|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92284737|NCT02549092|184473918|SUPERIORITY||LS mean difference|-2.79|STANDARD_ERROR_OF_MEAN|0.99||0.006|TWO_SIDED|95.0|-4.77|-0.81||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Statistical significance for the 3 key secondary efficacy endpoints (PDQ-8 index score, CGI-C score, and UPDRS Part II) could only be evaluated using the Hochberg procedure for multiplicity control if both primary endpoints had been statistically significant after multiplicity adjustment.||-0.81|-4.77|0.006
92284738|NCT02549092|184473919|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.99||0.933|TWO_SIDED|95.0|-1.89|2.06||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Cardiovascular including falls||2.06|-1.89|0.933
92259674|NCT01258738|184422010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.1413|TWO_SIDED|95.0|-0.95|0.14|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.14|-0.95|0.1413
92284739|NCT02549092|184473919|SUPERIORITY||LS mean difference|1.05|STANDARD_ERROR_OF_MEAN|2.35||0.655|TWO_SIDED|95.0|-3.63|5.74||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Sleep/fatigue||5.74|-3.63|0.655
92259675|NCT01258738|184422010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0284|TWO_SIDED|95.0|-1.14|-0.06|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.06|-1.14|0.0284
92259676|NCT01258738|184422010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.0659|TWO_SIDED|95.0|-1.07|0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.03|-1.07|0.0659
92259677|NCT01258738|184422010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72||||0.0098|TWO_SIDED|95.0|-1.26|-0.18|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.18|-1.26|0.0098
92259678|NCT01258738|184422011|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259679|NCT01258738|184422011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.0037|TWO_SIDED|95.0|-1.26|-0.25|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.25|-1.26|0.0037
92259680|NCT01258738|184422011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.0044|TWO_SIDED|95.0|-1.35|-0.25|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.25|-1.35|0.0044
92259681|NCT01258738|184422011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.0104|TWO_SIDED|95.0|-1.26|-0.17|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.17|-1.26|0.0104
92259682|NCT01258738|184422011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.006|TWO_SIDED|95.0|-1.33|-0.22|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.22|-1.33|0.0060
92284740|NCT02549092|184473919|SUPERIORITY||LS mean difference|-1.85|STANDARD_ERROR_OF_MEAN|3.67||0.616|TWO_SIDED|95.0|-9.18|5.48||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Mood/cognition||5.48|-9.18|0.616
92259683|NCT01258738|184422012|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92284741|NCT02549092|184473919|SUPERIORITY||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|0.84||0.645|TWO_SIDED|95.0|-1.3|2.08||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Perceptual problems/hallucinations||2.08|-1.30|0.645
92284742|NCT02549092|184473919|SUPERIORITY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|2.04||0.645|TWO_SIDED|95.0|-5.03|3.14||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Attention/memory||3.14|-5.03|0.645
92284743|NCT02549092|184473919|SUPERIORITY||LS mean difference|-2.58|STANDARD_ERROR_OF_MEAN|1.34||0.058|TWO_SIDED|95.0|-5.25|0.09||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Gastrointestinal tract||0.09|-5.25|0.058
92259684|NCT01258738|184422012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.2268|TWO_SIDED|95.0|-0.8|0.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.19|-0.80|0.2268
92259685|NCT01258738|184422012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.1145|TWO_SIDED|95.0|-0.93|0.1|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.10|-0.93|0.1145
92259686|NCT01258738|184422012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0512|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.00|-1.00|0.0512
92259687|NCT01258738|184422012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.0509|TWO_SIDED|95.0|-1.02|0.0|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.00|-1.02|0.0509
92259688|NCT01258738|184422013|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92284744|NCT02549092|184473919|SUPERIORITY||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|2.17||0.588|TWO_SIDED|95.0|-5.52|3.15||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Urinary||3.15|-5.52|0.588
92259689|NCT01258738|184422013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.243|TWO_SIDED|95.0|-0.79|0.2|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.20|-0.79|0.2430
92259690|NCT01258738|184422013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.0384|TWO_SIDED|95.0|-1.09|-0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.03|-1.09|0.0384
92259691|NCT01258738|184422013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.0797|TWO_SIDED|95.0|-1.03|0.06|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.06|-1.03|0.0797
92259692|NCT01258738|184422013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.2186|TWO_SIDED|95.0|-0.9|0.21|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.21|-0.90|0.2186
92259693|NCT01258738|184422014|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259694|NCT01258738|184422014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.141|TWO_SIDED|95.0|-0.96|0.14|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.14|-0.96|0.1410
92259695|NCT01258738|184422014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.2299|TWO_SIDED|95.0|-0.88|0.21|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.21|-0.88|0.2299
92259696|NCT01258738|184422014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.3221|TWO_SIDED|95.0|-0.87|0.29|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.29|-0.87|0.3221
92259697|NCT01258738|184422014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.1891|TWO_SIDED|95.0|-0.99|0.2|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.20|-0.99|0.1891
92259698|NCT01258738|184422015|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259699|NCT01258738|184422015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.108|TWO_SIDED|95.0|-0.9|0.09|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.09|-0.90|0.1080
92259700|NCT01258738|184422015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.0389|TWO_SIDED|95.0|-1.06|-0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.03|-1.06|0.0389
92259701|NCT01258738|184422015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.1181|TWO_SIDED|95.0|-0.98|0.11|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.11|-0.98|0.1181
92259702|NCT01258738|184422015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.2271|TWO_SIDED|95.0|-0.94|0.22|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.22|-0.94|0.2271
92259703|NCT01258738|184422016|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259704|NCT01258738|184422016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.0044|TWO_SIDED|95.0|-1.27|-0.24|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.24|-1.27|0.0044
92284745|NCT02549092|184473919|SUPERIORITY||LS mean difference|-0.78|STANDARD_ERROR_OF_MEAN|1.05||0.464|TWO_SIDED|95.0|-2.88|1.33||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Sexual function||1.33|-2.88|0.464
92259705|NCT01258738|184422016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0455|TWO_SIDED|95.0|-1.09|-0.01|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.01|-1.09|0.0455
92259706|NCT01258738|184422016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.175|TWO_SIDED|95.0|-0.91|0.17|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.17|-0.91|0.1750
92259707|NCT01258738|184422016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.0379|TWO_SIDED|95.0|-1.12|-0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.03|-1.12|0.0379
92259708|NCT01258738|184422017|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259709|NCT01258738|184422017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0826|TWO_SIDED|95.0|-0.98|0.06|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.06|-0.98|0.0826
92259710|NCT01258738|184422017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.1538|TWO_SIDED|95.0|-0.96|0.15|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.15|-0.96|0.1538
92284746|NCT02549092|184473919|SUPERIORITY||LS mean difference|-1.29|STANDARD_ERROR_OF_MEAN|1.76||0.468|TWO_SIDED|95.0|-4.8|2.23||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Miscellaneous||2.23|-4.80|0.468
92259711|NCT01258738|184422017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0728|TWO_SIDED|95.0|-1.04|0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.05|-1.04|0.0728
92180567|NCT02232737|184260379|SUPERIORITY||Mean Difference (Net)|-5.33|STANDARD_ERROR_OF_MEAN|1.06|<|0.0001|TWO_SIDED|95.0|-7.41|-3.26||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANCOVA||Group difference = 0.12 mg nicotine - 0.8 mg nicotine|The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 4.52 CPD between the 0.8 mg and 0.12 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.||-3.26|-7.41|<0.0001
92180568|NCT02232737|184260379|SUPERIORITY||Mean Difference (Net)|-7.54|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-9.51|-5.57||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANCOVA||Group difference = 0.03 mg nicotine - 0.8 mg nicotine|The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 4.52 CPD between the 0.8 mg and 0.12 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.||-5.57|-9.51|<0.0001
92180569|NCT03849937|184260380|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92180570|NCT03849937|184260380|SUPERIORITY|||||||0.091||||||Time 1 to Time 2|t-test, 2 sided|||||||.091
92180571|NCT03849937|184260380|SUPERIORITY||||||<|0.001||||||Time 2 to Time 3|t-test, 2 sided|||||||<.001
92180572|NCT03849937|184260381|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Effective Communication||||<.001
92180573|NCT03849937|184260381|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Appropriate Communication||||<.001
92180574|NCT03849937|184260381|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Recognizes elderspeak||||<.001
92180575|NCT03849937|184260381|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Recognizes person-centered communication||||<.001
92180576|NCT00065182|184260442|SUPERIORITY||Hazard Ratio (HR)|1.007||||0.946|TWO_SIDED|95.0|0.813|1.248|||Log Rank||Unadjusted hazard ratio.|||1.248|0.813|0.9460
92180577|NCT00065182|184260442|SUPERIORITY||Hazard Ratio (HR)|0.977|||||TWO_SIDED|95.0|0.788|1.21|||||Adjusted hazard ratio.|||1.210|0.788|
92180578|NCT02568215|184260467|OTHER||Prevention Efficacy (PE)|8.8||||0.7|TWO_SIDED|95.0|-45.1|42.6||The threshold for statistical significance was p = 0.05.|wald|||The primary PE analysis tests the null hypothesis PE equal to zero versus the alternative hypothesis PE not equal to zero using a 2-sided alpha equal 0.05 level Wald test of the equality of log cumulative hazard functions at the week 80 visit for the pooled VRC01 group versus the placebo group.||42.6|-45.1|0.70
92180579|NCT02568215|184260467|OTHER||Prevention Efficacy (PE)|-9.3|||||TWO_SIDED|95.0|-85.3|35.5||||||A secondary analysis assesses the overall PE of the low-dose VRC01 group versus the placebo group.||35.5|-85.3|
92180580|NCT02568215|184260467|OTHER||Prevention Efficacy (PE)|27.0|||||TWO_SIDED|95.0|-30.7|59.3||||||A secondary analysis assesses the overall PE of the high-dose VRC01 group versus the placebo group.||59.3|-30.7|
92180581|NCT02568215|184260469|OTHER||Prevention Efficacy (PE)|78.6|||||TWO_SIDED|95.0|17.3|94.4||||||PE against IC80 of least sensitive variant less than 1||94.4|17.3|
92180582|NCT02568215|184260469|OTHER||Prevention Efficacy (PE)|7.4|||||TWO_SIDED|95.0|-187.5|70.2||||||PE against IC80 of least sensitive variant 1-3||70.2|-187.5|
92180583|NCT02568215|184260469|OTHER||Prevention Efficacy (PE)|-1.9|||||TWO_SIDED|95.0|-83.1|43.3||||||PE against IC80 of least sensitive variant \> 3||43.3|-83.1|
92180584|NCT04732000|184260492|OTHER||Median Difference (Final Values)|-0.1373||||0.549|TWO_SIDED|||||The a priori threshold for statistical significance is \< 0.05.|Mann Whitney test, 2-sided|||||||0.5490
92180585|NCT05580003|184260525|OTHER||Ratio of Adjusted Geometric Means|101.29|||||TWO_SIDED|90.0|95.71|107.18|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|AUCinf||107.18|95.71|
92180586|NCT05580003|184260525|OTHER||Ratio of Adjusted Geometric Means|102.74|||||TWO_SIDED|90.0|97.28|108.5|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|AUCinf||108.50|97.28|
92259712|NCT01258738|184422017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.0975|TWO_SIDED|95.0|-0.99|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.08|-0.99|0.0975
92259713|NCT01258738|184422018|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259714|NCT01258738|184422018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.0186|TWO_SIDED|95.0|-1.18|-0.11|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.11|-1.18|0.0186
92259715|NCT01258738|184422018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0106|TWO_SIDED|95.0|-1.01|-0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.13|-1.01|0.0106
92259716|NCT01258738|184422018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0048|TWO_SIDED|95.0|-1.11|-0.2|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.20|-1.11|0.0048
92259717|NCT01258738|184422018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.0016|TWO_SIDED|95.0|-1.31|-0.31|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.31|-1.31|0.0016
92259718|NCT01258738|184422019|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259719|NCT01258738|184422019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.0058|TWO_SIDED|95.0|-1.37|-0.24|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.24|-1.37|0.0058
92259720|NCT01258738|184422019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.0064|TWO_SIDED|95.0|-1.42|-0.24|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.24|-1.42|0.0064
92180587|NCT05580003|184260525|OTHER||Ratio of Adjusted Geometric Means|97.83|||||TWO_SIDED|90.0|91.32|104.8|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|AUClast||104.80|91.32|
92259721|NCT01258738|184422019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.23||||0.0002|TWO_SIDED|95.0|-1.85|-0.6|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.60|-1.85|0.0002
92259722|NCT01258738|184422019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.0134|TWO_SIDED|95.0|-1.49|-0.17|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.17|-1.49|0.0134
92259723|NCT01258738|184422020|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259724|NCT01258738|184422020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0316|TWO_SIDED|95.0|-1.09|-0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.05|-1.09|0.0316
92259725|NCT01258738|184422020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.0973|TWO_SIDED|95.0|-0.99|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.08|-0.99|0.0973
92259726|NCT01258738|184422020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.0216|TWO_SIDED|95.0|-1.27|-0.1|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.10|-1.27|0.0216
92284747|NCT02549092|184473920|SUPERIORITY||LS Mean of Difference|-0.58|STANDARD_ERROR_OF_MEAN|1.26||0.643|TWO_SIDED|95.0|-3.09|1.92||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Motor symptoms at night||1.92|-3.09|0.643
92180588|NCT05580003|184260525|OTHER||Ratio of Adjusted Geometric Means|102.41|||||TWO_SIDED|90.0|95.6|109.7|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|AUClast||109.70|95.60|
92180589|NCT05580003|184260526|OTHER||Ratio of Adjusted Geometric Means|67.18|||||TWO_SIDED|90.0|58.13|77.65|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|||77.65|58.13|
92180590|NCT05580003|184260526|OTHER||Ratio of Adjusted Geometric Means|74.12|||||TWO_SIDED|90.0|64.14|85.67|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|||85.67|64.14|
92180591|NCT05580003|184260562|OTHER||Ratio of Adjusted Geometric Means|72.87|||||TWO_SIDED|90.0|60.98|87.09|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|AUCinf||87.09|60.98|
92180592|NCT05580003|184260562|OTHER||Ratio of Adjusted Geometric Means|76.45|||||TWO_SIDED|90.0|68.35|85.52|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|AUCinf||85.52|68.35|
92180593|NCT05580003|184260562|OTHER||Ratio of Adjusted Geometric Means|73.52|||||TWO_SIDED|90.0|65.7|82.27|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|AUClast||82.27|65.70|
92180594|NCT05580003|184260562|OTHER||Ratio of Adjusted Geometric Means|75.16|||||TWO_SIDED|90.0|66.36|85.13|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|AUClast||85.13|66.36|
92180595|NCT05580003|184260563|OTHER||Ratio of Adjusted Geometric Means|76.72|||||TWO_SIDED|90.0|60.21|97.75|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|||97.75|60.21|
92180596|NCT05580003|184260563|OTHER||Ratio of Adjusted Geometric Means|70.92|||||TWO_SIDED|90.0|53.7|93.67|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|||93.67|53.70|
92180597|NCT02392234|184260616|SUPERIORITY||Least Squares (LS) Mean Difference|4.7|||<|0.0001|TWO_SIDED|95.0|3.7|5.8|||Linear Mixed Effects Model|||||5.8|3.7|< 0.0001
92180598|NCT02392234|184260616|SUPERIORITY||LS Mean Difference|6.8|||<|0.0001|TWO_SIDED|95.0|5.7|7.8|||Linear Mixed Effects Model|||||7.8|5.7|< 0.0001
92180599|NCT02392234|184260617|SUPERIORITY||LS Mean Difference|9.7|||<|0.0001|TWO_SIDED|95.0|7.2|12.2|||Linear Mixed Effects Model|||||12.2|7.2|<0.0001
92180600|NCT02392234|184260617|SUPERIORITY||LS Mean Difference|11.1|||<|0.0001|TWO_SIDED|95.0|8.7|13.6|||Linear Mixed Effects Model|||||13.6|8.7|<0.0001
92180601|NCT02392234|184260619|SUPERIORITY||LS Mean Difference|8.1|||<|0.0001|TWO_SIDED|95.0|6.3|9.9|||Linear Mixed Effects Model|||||9.9|6.3|<0.0001
92180602|NCT02392234|184260619|SUPERIORITY||LS Mean Difference|11.4|||<|0.0001|TWO_SIDED|95.0|9.6|13.2|||Linear Mixed Effects Model|||||13.2|9.6|<0.0001
92180603|NCT02392234|184260620|SUPERIORITY||LS Mean Difference|-4.5|||<|0.0001|TWO_SIDED|95.0|-6.7|-2.3|||Linear Mixed Effects Model|||||-2.3|-6.7|<0.0001
92180604|NCT02392234|184260620|SUPERIORITY||LS Mean Difference|-9.5|||<|0.0001|TWO_SIDED|95.0|-11.7|-7.3|||Linear Mixed Effects Model|||||-7.3|-11.7|<0.0001
92180605|NCT03509909|184260652|SUPERIORITY|||||||0.74|||||||Mixed Models Analysis|||||||0.74
92180606|NCT03683576|184260660|SUPERIORITY||Odds Ratio (OR)|0.674||||0.1425|TWO_SIDED|95.0|0.398|1.142|||Regression, Logistic||GB001 20 mg vs. Placebo|||1.142|0.398|0.1425
92180607|NCT03683576|184260660|SUPERIORITY||Odds Ratio (OR)|0.677||||0.1482|TWO_SIDED|95.0|0.399|1.149|||Regression, Logistic||GB001 40 mg vs. Placebo|||1.149|0.399|0.1482
92180608|NCT03683576|184260660|SUPERIORITY||Odds Ratio (OR)|0.651||||0.1086|TWO_SIDED|95.0|0.385|1.1|||Regression, Logistic||GB001 60 mg vs. Placebo|||1.100|0.385|0.1086
92180609|NCT03683576|184260661|SUPERIORITY||Mean Difference (Net)|-0.15||||0.1647|TWO_SIDED|95.0|-0.36|0.06|||ANCOVA||GB001 20 mg vs. Placebo|||0.06|-0.36|0.1647
92180610|NCT03683576|184260661|SUPERIORITY||Mean Difference (Net)|-0.15||||0.1737|TWO_SIDED|95.0|-0.37|0.07|||ANCOVA||GB001 40 mg vs. Placebo|||0.07|-0.37|0.1737
92180611|NCT03683576|184260661|SUPERIORITY||Mean Difference (Net)|-0.19||||0.0879|TWO_SIDED|95.0|-0.4|0.03|||ANCOVA||GB001 60 mg vs. Placebo|||0.03|-0.40|0.0879
92180612|NCT03683576|184260662|SUPERIORITY||Mean Difference (Net)|0.016||||0.7718|TWO_SIDED|95.0|-0.091|0.123|||ANCOVA||GB001 20 mg vs. Placebo|||0.123|-0.091|0.7718
92180613|NCT03683576|184260662|SUPERIORITY||Mean Difference (Net)|0.041||||0.4562|TWO_SIDED|95.0|-0.067|0.149|||ANCOVA||GB001 40 mg vs. Placebo|||0.149|-0.067|0.4562
92180614|NCT03683576|184260662|SUPERIORITY||Mean Difference (Net)|0.075||||0.1631|TWO_SIDED|95.0|-0.03|0.18|||ANCOVA||GB001 60 mg vs. Placebo|||0.180|-0.030|0.1631
92180615|NCT03683576|184260663|SUPERIORITY||Hazard Ratio (HR)|0.719||||0.0466|TWO_SIDED|95.0|0.519|0.995|||Regression, Cox||GB001 20 mg vs. Placebo|||0.995|0.519|0.0466
92180616|NCT03683576|184260663|SUPERIORITY||Hazard Ratio (HR)|0.773||||0.1222|TWO_SIDED|95.0|0.558|1.071|||Regression, Cox||GB001 40 mg vs. Placebo|||1.071|0.558|0.1222
92180617|NCT03683576|184260663|SUPERIORITY||Hazard Ratio (HR)|0.698||||0.0304|TWO_SIDED|95.0|0.505|0.967|||Regression, Cox||GB001 60 mg vs. Placebo|||0.967|0.505|0.0304
92180618|NCT03683576|184260664|SUPERIORITY||Rate ratio|0.797||||0.3382|TWO_SIDED|95.0|0.501|1.268|||Negative binomial regression model||GB001 20 mg vs. Placebo|||1.268|0.501|0.3382
92180619|NCT03683576|184260664|SUPERIORITY||Rate ratio|0.748||||0.2248|TWO_SIDED|95.0|0.469|1.195|||Negative binomial regression model||GB001 40 mg vs. Placebo|||1.195|0.469|0.2248
92180620|NCT03683576|184260664|SUPERIORITY||Rate ratio|0.889||||0.609|TWO_SIDED|95.0|0.565|1.397|||Negative binomial regression model||GB001 60 mg vs. Placebo|||1.397|0.565|0.6090
92180621|NCT03683576|184260665|SUPERIORITY||Mean Difference (Net)|-0.023||||0.6645|TWO_SIDED|95.0|-0.127|0.081|||ANCOVA||GB001 20 mg vs. Placebo|||0.081|-0.127|0.6645
92180622|NCT03683576|184260665|SUPERIORITY||Mean Difference (Net)|0.035||||0.5288|TWO_SIDED|95.0|-0.074|0.144|||ANCOVA||GB001 40 mg vs. Placebo|||0.144|-0.074|0.5288
92180623|NCT03683576|184260665|SUPERIORITY||Mean Difference (Net)|0.079||||0.1362|TWO_SIDED|95.0|-0.025|0.182|||ANCOVA||GB001 60 mg vs. Placebo|||0.182|-0.025|0.1362
92284748|NCT02549092|184473920|SUPERIORITY||LS Mean of Difference|0.24|STANDARD_ERROR_OF_MEAN|0.82||0.769|TWO_SIDED|95.0|-1.39|1.87||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|PD symptoms at night||1.87|-1.39|0.769
92180624|NCT03683576|184260666|SUPERIORITY||Mean Difference (Net)|6.122||||0.3957|TWO_SIDED|95.0|-8.007|20.251|||ANCOVA||GB001 20 mg vs. Placebo|||20.251|-8.007|0.3957
92180625|NCT03683576|184260666|SUPERIORITY||Mean Difference (Net)|13.948||||0.0598|TWO_SIDED|95.0|-0.578|28.474|||ANCOVA||GB001 40 mg vs. Placebo|||28.474|-0.578|0.0598
92180626|NCT03683576|184260666|SUPERIORITY||Mean Difference (Net)|5.588||||0.4376|TWO_SIDED|95.0|-8.522|19.698|||ANCOVA||GB001 60 mg vs. Placebo|||19.698|-8.522|0.4376
92180627|NCT02350634|184260676|OTHER||Correlation coefficient|0.429|||<|0.001|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||<0.001
92284749|NCT02549092|184473920|SUPERIORITY||LS Mean of Difference|1.99|STANDARD_ERROR_OF_MEAN|0.84||0.02|TWO_SIDED|95.0|0.32|3.66||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Disturbed sleep||3.66|0.32|0.020
92180628|NCT02350634|184260677|OTHER||Correlation coefficient|0.681|||<|0.001|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||<0.001
92180629|NCT02350634|184260678|OTHER||Correlation coefficient|0.644||||0.00278|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||0.00278
92259727|NCT01258738|184422020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.2425|TWO_SIDED|95.0|-1.03|0.26|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.26|-1.03|0.2425
92259728|NCT01258738|184422021|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259729|NCT01258738|184422021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.2688|TWO_SIDED|95.0|-0.92|0.26|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.26|-0.92|0.2688
92259730|NCT01258738|184422021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.0866|TWO_SIDED|95.0|-1.17|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.08|-1.17|0.0866
92259731|NCT01258738|184422021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.0277|TWO_SIDED|95.0|-1.34|-0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.08|-1.34|0.0277
92259732|NCT01258738|184422021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.239|TWO_SIDED|95.0|-1.04|0.26|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.26|-1.04|0.2390
92259733|NCT01258738|184422022|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92284750|NCT02549092|184473921|SUPERIORITY||LS Mean of Difference|0.19|STANDARD_ERROR_OF_MEAN|0.46||0.672|TWO_SIDED|95.0|-0.72|1.1||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Part I score||1.10|-0.72|0.672
92284751|NCT02549092|184473921|SUPERIORITY||LS Mean of Difference|-2.22|STANDARD_ERROR_OF_MEAN|2.13||0.302|TWO_SIDED|95.0|-6.47|2.04||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Part III score||2.04|-6.47|0.302
92180630|NCT02350634|184260679|OTHER||Correlation coefficient|0.437||||0.12|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||0.12
92284752|NCT02549092|184473921|SUPERIORITY||LS Mean of Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.61||0.007|TWO_SIDED|95.0|-2.91|-0.48||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Part IV score||-0.48|-2.91|0.007
92180631|NCT02350634|184260680|OTHER||Correlation coefficient|0.324||||0.0712|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||0.0712
92180632|NCT02350634|184260681|OTHER||Correlation coefficient|0.564||||0.0958|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||0.0958
92180633|NCT02350634|184260682|OTHER||Correlation coefficient|-0.189||||0.558|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||0.558
92180634|NCT02823028|184260698|SUPERIORITY||Odds Ratio (OR)|0.931||||0.779|TWO_SIDED||||||Chi-squared|||||||.779
92259734|NCT01258738|184422022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0928|TWO_SIDED|95.0|-1.0|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.08|-1.00|0.0928
92259735|NCT01258738|184422022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.0139|TWO_SIDED|95.0|-1.27|-0.15|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.15|-1.27|0.0139
92259736|NCT01258738|184422022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.0017|TWO_SIDED|95.0|-1.53|-0.36|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.36|-1.53|0.0017
92259737|NCT01258738|184422022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||0.0008|TWO_SIDED|95.0|-1.61|-0.43|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.43|-1.61|0.0008
92259738|NCT01258738|184422023|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259739|NCT01258738|184422023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.4559|TWO_SIDED|95.0|-0.84|0.38|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.38|-0.84|0.4559
92259740|NCT01258738|184422023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0345|TWO_SIDED|95.0|-1.28|-0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.05|-1.28|0.0345
92259741|NCT01258738|184422023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.034|TWO_SIDED|95.0|-1.3|-0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.05|-1.30|0.0340
92259742|NCT01258738|184422023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0634|TWO_SIDED|95.0|-1.24|0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.03|-1.24|0.0634
92259743|NCT01258738|184422024|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259744|NCT01258738|184422024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.0007|TWO_SIDED|95.0|-1.56|-0.43|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.43|-1.56|0.0007
92259745|NCT01258738|184422024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.0073|TWO_SIDED|95.0|-1.39|-0.22|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.22|-1.39|0.0073
92259746|NCT01258738|184422024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.0094|TWO_SIDED|95.0|-1.48|-0.21|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.21|-1.48|0.0094
92259747|NCT01258738|184422024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.012|TWO_SIDED|95.0|-1.54|-0.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.19|-1.54|0.0120
92284753|NCT02549092|184473922|SUPERIORITY||LS Mean of Difference|-1.54|STANDARD_ERROR_OF_MEAN|1.5||0.307|TWO_SIDED|95.0|-4.52|1.44||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|||1.44|-4.52|0.307
92284754|NCT02549092|184473923|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.46||0.868|TWO_SIDED|95.0|-0.99|0.84||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|||0.84|-0.99|0.868
92284755|NCT02549092|184473924|SUPERIORITY||LS Mean of Difference|-1.14|STANDARD_ERROR_OF_MEAN|3.28||0.728|TWO_SIDED|95.0|-7.68|5.39||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Total score||5.39|-7.68|0.728
92284756|NCT02549092|184473924|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.71||0.916|TWO_SIDED|95.0|-1.5|1.35||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Musculoskeletal pain score||1.35|-1.50|0.916
92180635|NCT00859781|184260699|SUPERIORITY||proportion difference|0.26||||0.08|TWO_SIDED|95.0|0.008|0.52|||Fisher Exact||Direction = 177Lu-J591 + Ketoconazole proportion free of radiographically evident metastases minus 111ln-J591 + Ketoconazole proportion free of radiographically evident metastases.|||0.52|0.008|0.08
92284757|NCT02549092|184473924|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.68||0.919|TWO_SIDED|95.0|-1.28|1.42||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Chronic pain score||1.42|-1.28|0.919
92259748|NCT01258738|184422025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.96||||0.0029|TWO_SIDED|95.0|7.54|32.37|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||32.37|7.54|0.0029
92259749|NCT01258738|184422025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.59||||0.01|TWO_SIDED|95.0|3.18|19.99|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||19.99|3.18|0.0100
92259750|NCT01258738|184422025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.75||||0.012|TWO_SIDED|95.0|3.62|23.89|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||23.89|3.62|0.0120
92259751|NCT01258738|184422025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.12||||0.0213|TWO_SIDED|95.0|3.04|27.2|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||27.20|3.04|0.0213
92259752|NCT01258738|184422026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.88||||0.2755|TWO_SIDED|95.0|-5.15|20.92|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||20.92|-5.15|0.2755
92259753|NCT01258738|184422026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.57||||0.195|TWO_SIDED|95.0|-4.39|21.54|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||21.54|-4.39|0.1950
92259754|NCT01258738|184422026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.99||||0.0278|TWO_SIDED|95.0|0.72|27.26|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||27.26|0.72|0.0278
92259755|NCT01258738|184422026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.29||||0.0174|TWO_SIDED|95.0|2.28|28.3|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||28.30|2.28|0.0174
92259756|NCT01258738|184422027|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259757|NCT01258738|184422027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.0201|TWO_SIDED|95.0|-0.99|-0.09|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4 and 12 data only. Week 4||-0.09|-0.99|0.0201
92259758|NCT01258738|184422027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0558|TWO_SIDED|95.0|-1.02|0.01|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4 and 12 data only. Week 12||0.01|-1.02|0.0558
92259759|NCT01258738|184422028|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259760|NCT01258738|184422028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.6741|TWO_SIDED|95.0|-0.18|0.28|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.28|-0.18|0.6741
92259761|NCT01258738|184422028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3896|TWO_SIDED|95.0|-0.33|0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.13|-0.33|0.3896
92259762|NCT01258738|184422028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.7468|TWO_SIDED|95.0|-0.22|0.31|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.31|-0.22|0.7468
92259763|NCT01258738|184422028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.6871|TWO_SIDED|95.0|-0.35|0.23|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.23|-0.35|0.6871
92259764|NCT01258738|184422029|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259765|NCT01258738|184422029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.4332|TWO_SIDED|95.0|-0.57|1.32|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||1.32|-0.57|0.4332
92259766|NCT01258738|184422029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9947|TWO_SIDED|95.0|-0.98|0.98|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.98|-0.98|0.9947
92259767|NCT01258738|184422029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74||||0.1558|TWO_SIDED|95.0|-0.28|1.75|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||1.75|-0.28|0.1558
92180636|NCT02307682|184260701|NON_INFERIORITY|The non-inferiority margin was 4 letters.|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.98||0.0003|TWO_SIDED|95.0|-2.5|1.3||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|||1.3|-2.5|0.0003
92180637|NCT02307682|184260701|NON_INFERIORITY|The non-inferiority margin was 4 letters.|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-2.1|1.8||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.8|-2.1|<0.0001
92180638|NCT02307682|184260702|NON_INFERIORITY|The non-inferiority margin was 4 letters.|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.95||0.0001|TWO_SIDED|95.0|-2.4|1.3||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|||1.3|-2.4|0.0001
92180639|NCT02307682|184260702|NON_INFERIORITY|The non-inferiority margin was 4 letters.|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.96|<|0.0001|TWO_SIDED|95.0|-1.9|1.9||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.9|-1.9|<0.0001
92180640|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-1.4|0.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4||0.9|-1.4|
92180641|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.64|||TWO_SIDED|95.0|-1.4|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.1|-1.4|
92180642|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|-1.4|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 8||1.2|-1.4|
92180643|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-1.7|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||1.2|-1.7|
92180644|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-1.8|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12||1.2|-1.8|
92180645|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|95.0|-1.5|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||1.6|-1.5|
92180646|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-1.8|1.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 16||1.5|-1.8|
92180647|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-1.1|2.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||2.1|-1.1|
92180648|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|-2.2|1.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 20||1.0|-2.2|
92180649|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|95.0|-2.2|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||1.2|-2.2|
92180650|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-2.1|1.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 24||1.3|-2.1|
92180651|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-1.9|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||1.6|-1.9|
92180652|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-1.9|1.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 28||1.7|-1.9|
92180653|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-1.4|2.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||2.2|-1.4|
92180654|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|95.0|-2.4|1.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 32||1.3|-2.4|
92180655|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|95.0|-1.2|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||2.5|-1.2|
92180656|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|95.0|-2.9|0.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 36||0.8|-2.9|
92180657|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.95|||TWO_SIDED|95.0|-2.1|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||1.6|-2.1|
92180658|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|-2.2|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 40||1.6|-2.2|
92180659|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-1.9|2.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||2.1|-1.9|
92180660|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-2.1|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 44||1.9|-2.1|
92180661|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-1.8|2.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||2.2|-1.8|
92180662|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|-2.5|1.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 48||1.3|-2.5|
92180663|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-2.1|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||1.8|-2.1|
92180664|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-2.2|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 52||1.8|-2.2|
92180665|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.2|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||1.9|-2.2|
92180666|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-2.5|1.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 56||1.5|-2.5|
92180667|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-2.7|1.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||1.4|-2.7|
92180668|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-2.1|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 60||1.9|-2.1|
92180669|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.2|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||1.9|-2.2|
92259768|NCT01258738|184422029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21||||0.0488|TWO_SIDED|95.0|0.03|2.39|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||2.39|0.03|0.0488
92259769|NCT01258738|184422030|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92180670|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.3|1.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 64||1.7|-2.3|
92259770|NCT01258738|184422030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.7645|TWO_SIDED|95.0|-2.06|2.8|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||2.80|-2.06|0.7645
92259771|NCT01258738|184422030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03||||0.4178|TWO_SIDED|95.0|-1.48|3.55|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||3.55|-1.48|0.4178
92284758|NCT02549092|184473924|SUPERIORITY||LS Mean of Difference|0.63|STANDARD_ERROR_OF_MEAN|1.53||0.68|TWO_SIDED|95.0|-2.42|3.68||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Fluctuation related pain score||3.68|-2.42|0.680
92180671|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|95.0|-2.2|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||1.9|-2.2|
92180672|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.1|2.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 68||2.0|-2.1|
92180673|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|95.0|-2.2|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||1.9|-2.2|
92180674|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|95.0|-2.0|2.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 72||2.3|-2.0|
92180675|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|95.0|-2.4|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||1.8|-2.4|
92259772|NCT01258738|184422030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06||||0.443|TWO_SIDED|95.0|-1.67|3.79|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||3.79|-1.67|0.4430
92180676|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|95.0|-1.8|2.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 76||2.4|-1.8|
92180677|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-2.1|2.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||2.1|-2.1|
92259773|NCT01258738|184422030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.39||||0.1095|TWO_SIDED|95.0|-0.54|5.31|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||5.31|-0.54|0.1095
92259774|NCT01258738|184422031|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259775|NCT01258738|184422031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9504|TWO_SIDED|95.0|-0.46|0.49|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.49|-0.46|0.9504
92259776|NCT01258738|184422031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.4971|TWO_SIDED|95.0|-0.7|0.34|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.34|-0.70|0.4971
92259777|NCT01258738|184422031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.8999|TWO_SIDED|95.0|-0.47|0.54|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.54|-0.47|0.8999
92259778|NCT01258738|184422031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9712|TWO_SIDED|95.0|-0.6|0.62|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.62|-0.60|0.9712
92259779|NCT01258738|184422032|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259780|NCT01258738|184422032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.4556|TWO_SIDED|95.0|-1.46|3.24|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||3.24|-1.46|0.4556
92259781|NCT01258738|184422032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.85||||0.0543|TWO_SIDED|95.0|-0.05|5.75|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||5.75|-0.05|0.0543
92284759|NCT02549092|184473924|SUPERIORITY||LS Mean of Difference|-0.37|STANDARD_ERROR_OF_MEAN|1.24||0.767|TWO_SIDED|95.0|-2.83|2.09||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Nocturnal pain score||2.09|-2.83|0.767
92284760|NCT02549092|184473924|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.51||0.804|TWO_SIDED|95.0|-1.15|0.9||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Orofacial pain score||0.90|-1.15|0.804
92284761|NCT02549092|184473924|SUPERIORITY||LS Mean of Difference|-1.81|STANDARD_ERROR_OF_MEAN|0.79||0.025|TWO_SIDED|95.0|-3.38|-0.23||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Discoloration and edema score||-0.23|-3.38|0.025
92259782|NCT01258738|184422032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.26||||0.1754|TWO_SIDED|95.0|-1.02|5.53|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||5.53|-1.02|0.1754
92259783|NCT01258738|184422032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.45||||0.3985|TWO_SIDED|95.0|-1.93|4.82|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||4.82|-1.93|0.3985
92259784|NCT01258738|184422033|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259785|NCT01258738|184422033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.2823|TWO_SIDED|95.0|-0.18|0.62|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.62|-0.18|0.2823
92259786|NCT01258738|184422033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.4029|TWO_SIDED|95.0|-0.23|0.58|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.58|-0.23|0.4029
92284762|NCT02549092|184473924|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.47||0.93|TWO_SIDED|95.0|-0.99|0.9||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Radicular pain score||0.90|-0.99|0.930
92284763|NCT02549092|184473925|SUPERIORITY||LS Mean of Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.89|-1.87||ANCOVA model: FINAL = treatment, country.|ANCOVA||Difference of LCIG - OMT|||-1.87|-2.89|< 0.001
92259787|NCT01258738|184422033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.511|TWO_SIDED|95.0|-0.25|0.51|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.51|-0.25|0.5110
92259788|NCT01258738|184422033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.5844|TWO_SIDED|95.0|-0.32|0.56|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.56|-0.32|0.5844
92259789|NCT01258738|184422034|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Most within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259790|NCT01258738|184422034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.0129|TWO_SIDED|95.0|-0.95|-0.11|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.11|-0.95|0.0129
92180678|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|95.0|-1.5|2.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 80||2.7|-1.5|
92180679|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|95.0|-1.4|2.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||2.8|-1.4|
92180680|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|95.0|-1.5|2.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 84||2.7|-1.5|
92180681|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-1.8|2.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||2.4|-1.8|
92180682|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|-1.8|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 88||2.5|-1.8|
92180683|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|-1.9|2.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||2.4|-1.9|
92180684|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|-1.9|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 92||2.5|-1.9|
92180685|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|-1.8|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||2.5|-1.8|
92180686|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.12|||TWO_SIDED|95.0|-1.9|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 96||2.5|-1.9|
92180687|NCT02307682|184260707|OTHER|Treatment difference|Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|-1.6|2.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||2.7|-1.6|
92259791|NCT01258738|184422034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.6003|TWO_SIDED|95.0|-0.61|0.35|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.35|-0.61|0.6003
92180688|NCT02307682|184260708|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-1.9|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4 to Week 48||1.1|-1.9|
92259792|NCT01258738|184422034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0911|TWO_SIDED|95.0|-0.89|0.07|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.07|-0.89|0.0911
92259793|NCT01258738|184422034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.3144|TWO_SIDED|95.0|-0.73|0.24|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.24|-0.73|0.3144
92180689|NCT02307682|184260708|OTHER|Treatment difference|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|95.0|-1.5|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 48||1.6|-1.5|
92259794|NCT01258738|184422035|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Most within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92259795|NCT01258738|184422035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.6476|TWO_SIDED|95.0|-0.46|0.29|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12, data only. Week 2||0.29|-0.46|0.6476
92259796|NCT01258738|184422035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9777|TWO_SIDED|95.0|-0.4|0.39|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12, data only. Week 4||0.39|-0.40|0.9777
92259797|NCT01258738|184422035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.4453|TWO_SIDED|95.0|-0.28|0.65|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12, data only. Week 8||0.65|-0.28|0.4453
92180690|NCT02307682|184260708|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-1.8|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4 to Week 96||1.6|-1.8|
92259798|NCT01258738|184422035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.5782|TWO_SIDED|95.0|-0.33|0.6|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12, data only. Week 12||0.60|-0.33|0.5782
92180691|NCT02307682|184260708|OTHER|Treatment difference|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-1.7|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 96||1.8|-1.7|
92180692|NCT02307682|184260709|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|-2.0|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12 to Week 48||1.2|-2.0|
92180693|NCT02307682|184260709|OTHER|Treatment difference|Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|-1.6|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12 to Week 48||1.8|-1.6|
92180694|NCT02307682|184260709|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-1.9|1.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12 to Week 96||1.7|-1.9|
92259799|NCT01258738|184422036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.0414|TWO_SIDED|95.0|-1.88|-0.04|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 12 data only.||-0.04|-1.88|0.0414
92259800|NCT01258738|184422037|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259801|NCT01258738|184422037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.93|||<|0.001|TWO_SIDED|95.0|-4.16|-1.7|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 12 data only.||-1.70|-4.16|<0.001
92259802|NCT01258738|184422038|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259803|NCT01258738|184422038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.0414|TWO_SIDED|95.0|-1.88|-0.04|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 12 data only.||-0.04|-1.88|0.0414
92259804|NCT01258738|184422039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.0132|TWO_SIDED|95.0|-0.72|-0.08|||ANCOVA|||"Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made.~Comparative analysis was carried out for Week 12 data only."||-0.08|-0.72|0.0132
92259805|NCT01258738|184422040|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259806|NCT01258738|184422040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.2438|TWO_SIDED|95.0|-0.52|0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.13|-0.52|0.2438
92259807|NCT01258738|184422040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.1958|TWO_SIDED|95.0|-0.42|0.09|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.09|-0.42|0.1958
92259808|NCT01258738|184422040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.1624|TWO_SIDED|95.0|-0.46|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.08|-0.46|0.1624
92259809|NCT01258738|184422040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.0091|TWO_SIDED|95.0|-0.54|-0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.08|-0.54|0.0091
92259810|NCT01258738|184422041|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259811|NCT01258738|184422041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.0836|TWO_SIDED|95.0|-1.32|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.08|-1.32|0.0836
92259812|NCT01258738|184422041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.5402|TWO_SIDED|95.0|-1.02|0.54|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.54|-1.02|0.5402
92284764|NCT00910663|184473926|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|97.01||||||90.0|90.01|104.55|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.55|90.01|
92284765|NCT00910663|184473927|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|102.81||||||90.0|100.23|105.45|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.45|100.23|
92259813|NCT01258738|184422041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.8167|TWO_SIDED|95.0|-0.69|0.87|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.87|-0.69|0.8167
92259814|NCT01258738|184422041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9891|TWO_SIDED|95.0|-0.72|0.73|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.73|-0.72|0.9891
92259815|NCT01258738|184422042|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259816|NCT01258738|184422042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.6148|TWO_SIDED|95.0|-0.08|0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.05|-0.08|0.6148
92284766|NCT00910663|184473928|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|103.35||||||90.0|100.51|106.27|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.27|100.51|
92284767|NCT01376167|184473934|SUPERIORITY||Hazard Ratio (HR)|0.299|||<|0.001|TWO_SIDED|95.0|0.222|0.404||The Cox proportional hazards model was fitted with region and treatment as covariates.|Cox Proportional Hazards Model||A hazard ratio\<1 indicated a lower chance of relapse compared to CQ only.|||0.404|0.222|<0.001
92259817|NCT01258738|184422042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.2547|TWO_SIDED|95.0|-0.11|0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.03|-0.11|0.2547
92259818|NCT01258738|184422042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.1208|TWO_SIDED|95.0|-0.08|0.01|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.01|-0.08|0.1208
92284768|NCT01376167|184473934|SUPERIORITY||Hazard Ratio (HR)|0.262|||<|0.001|TWO_SIDED|95.0|0.178|0.387||The Cox proportional hazards model was fitted with region and treatment as covariates.|Cox Proportional Hazards Model||A hazard ratio\<1 indicated a lower chance of relapse compared to CQ only.|||0.387|0.178|<0.001
92284769|NCT01376167|184473934|SUPERIORITY||Odds Ratio (OR)|0.241|||<|0.001|TWO_SIDED|95.0|0.152|0.382||Logistic regression model was fitted with region and treatment as covariates. Participants with a zero P vivax asexual parasite count at Baseline were excluded from the analysis.|Regression, Logistic||Odds ratios \< 1 suggested a smaller chance of recurrence compared to CQ Only.|||0.382|0.152|<0.001
92259819|NCT01258738|184422042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.8291|TWO_SIDED|95.0|-0.13|0.17|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.17|-0.13|0.8291
92259820|NCT01258738|184422043|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259821|NCT01258738|184422043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.3536|TWO_SIDED|95.0|-0.64|0.23|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.23|-0.64|0.3536
92284770|NCT01376167|184473934|SUPERIORITY||Odds Ratio (OR)|0.198|||<|0.001|TWO_SIDED|95.0|0.117|0.335||Logistic regression model was fitted with region and treatment as covariates. Participants with a zero P vivax asexual parasite count at Baseline were excluded from the analysis.|Regression, Logistic||Odds ratios \< 1 suggested a smaller chance of recurrence compared to CQ Only.|||0.335|0.117|<0.001
92180695|NCT02307682|184260709|OTHER|Treatment difference|Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-1.7|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12 to Week 96||1.9|-1.7|
92259822|NCT01258738|184422043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0769|TWO_SIDED|95.0|-0.97|0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.05|-0.97|0.0769
92259823|NCT01258738|184422043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.4698|TWO_SIDED|95.0|-0.7|0.33|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.33|-0.70|0.4698
92259824|NCT01258738|184422043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.0167|TWO_SIDED|95.0|-1.19|-0.12|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.12|-1.19|0.0167
92259825|NCT01258738|184422044|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Most within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
92284771|NCT01376167|184473935|SUPERIORITY||Hazard Ratio (HR)|0.271|||<|0.001|TWO_SIDED|95.0|0.195|0.376||The Cox proportional hazards model was fitted with region and treatment as covariates.|Cox Proportional Hazards Model||A hazard ratio\<1 indicated a lower chance of relapse compared to CQ only.|||0.376|0.195|<0.001
92180696|NCT02307682|184260710|OTHER|Treatment difference|Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|95.0|-1.7|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|||2.5|-1.7|
92180697|NCT02307682|184260710|OTHER|Treatment difference|Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-1.7|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||2.5|-1.7|
92259826|NCT01258738|184422044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.02|||<|0.0001|TWO_SIDED|95.0|-4.39|-1.66|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-1.66|-4.39|<0.0001
92259827|NCT01258738|184422044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.86||||0.0008|TWO_SIDED|95.0|-6.09|-1.62|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-1.62|-6.09|0.0008
92259828|NCT01258738|184422044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.04||||0.0143|TWO_SIDED|95.0|-5.47|-0.61|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.61|-5.47|0.0143
92259829|NCT01258738|184422044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12||||0.0038|TWO_SIDED|95.0|-5.23|-1.02|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-1.02|-5.23|0.0038
92259830|NCT01258738|184422045|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test||||<0.001
92180698|NCT02307682|184260711|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-4.2|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||4.2|-4.2|
92259831|NCT01258738|184422045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.71|||<|0.0001|TWO_SIDED|95.0|-10.85|-4.58|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-4.58|-10.85|<0.0001
92259832|NCT01258738|184422045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.12|||<|0.0001|TWO_SIDED|95.0|-9.16|-3.09|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-3.09|-9.16|<0.0001
92259833|NCT01258738|184422045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.78||||0.0009|TWO_SIDED|95.0|-9.15|-2.41|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-2.41|-9.15|0.0009
92259834|NCT01258738|184422045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.03|||<|0.0001|TWO_SIDED|95.0|-10.34|-3.73|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-3.73|-10.34|<0.0001
92259835|NCT01258738|184422046|SUPERIORITY_OR_OTHER|||||||0.037|||||||t-test, 2 sided|||With the exception of change from Baseline in the placebo group at Week 12, within group comparisons to baseline for all other treatment groups and time points were \<0.001, from paired t-test.||||0.0370
92259836|NCT01258738|184422046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9965|TWO_SIDED|95.0|-4.39|4.37|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 4||4.37|-4.39|0.9965
92259837|NCT01258738|184422046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.61||||0.197|TWO_SIDED|95.0|-1.89|9.1|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 8||9.10|-1.89|0.1970
92259838|NCT01258738|184422046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.07||||0.0394|TWO_SIDED|95.0|0.3|11.84|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 12||11.84|0.30|0.0394
92259839|NCT01258738|184422047|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.01 at Week 12 and \<0.001 thereafter, from paired t-test.||||<0.01
92259840|NCT01258738|184422047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.1341|TWO_SIDED|95.0|-0.02|0.21|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 4||0.21|-0.02|0.1341
92259841|NCT01258738|184422047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.0447|TWO_SIDED|95.0|0.0|0.14|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 8||0.14|0.00|0.0447
92259842|NCT01258738|184422047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.1345|TWO_SIDED|95.0|-0.02|0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 12||0.13|-0.02|0.1345
92259843|NCT01258738|184422048|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259844|NCT01258738|184422048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.31||||0.1035|TWO_SIDED|95.0|-0.27|2.9|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||2.90|-0.27|0.1035
92259845|NCT01258738|184422048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.38||||0.0134|TWO_SIDED|95.0|0.5|4.26|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||4.26|0.50|0.0134
92259846|NCT01258738|184422049|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.05, from paired t-test.||||<0.05
92259847|NCT01258738|184422049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.18||||0.252|TWO_SIDED|95.0|-0.84|3.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||3.19|-0.84|0.2520
92259848|NCT01258738|184422049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.4981|TWO_SIDED|95.0|-1.63|3.34|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||3.34|-1.63|0.4981
92259849|NCT01258738|184422050|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259850|NCT01258738|184422050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.4621|TWO_SIDED|95.0|-0.9|0.41|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||0.41|-0.90|0.4621
92259851|NCT01258738|184422050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.3842|TWO_SIDED|95.0|-1.28|0.5|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||0.50|-1.28|0.3842
92259852|NCT01258738|184422051|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259853|NCT01258738|184422051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.6357|TWO_SIDED|95.0|-0.52|0.86|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||0.86|-0.52|0.6357
92284772|NCT01376167|184473935|SUPERIORITY||Hazard Ratio (HR)|0.255|||<|0.001|TWO_SIDED|95.0|0.167|0.39||The Cox proportional hazards model was fitted with region and treatment as covariates.|Cox Proportional Hazards Model||A hazard ratio\<1 indicated a lower chance of relapse compared to CQ only.|||0.390|0.167|<0.001
92284773|NCT02193165|184473961|SUPERIORITY_OR_OTHER|||||||0.434|TWO_SIDED||||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. Baseline groups are balanced and baseline scores for each intervention group should not be significantly different. Significance will be determined by p\<0.5||||0.434
92259854|NCT01258738|184422051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.2439|TWO_SIDED|95.0|-1.39|0.36|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||0.36|-1.39|0.2439
92180699|NCT02307682|184260711|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-2.8|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||5.8|-2.8|
92259855|NCT01258738|184422052|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259856|NCT01258738|184422052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.3286|TWO_SIDED|95.0|-1.55|0.52|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Descriptive analysis was carried out for Week 12 data only.||0.52|-1.55|0.3286
92259857|NCT01258738|184422053|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259858|NCT01258738|184422053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.1829|TWO_SIDED|95.0|-1.93|0.37|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 12 data only.||0.37|-1.93|0.1829
92259859|NCT01258738|184422054|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.05, from paired t-test.||||<0.05
92259860|NCT01258738|184422054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.37||||0.5226|TWO_SIDED|95.0|-4.95|9.68|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||9.68|-4.95|0.5226
92259861|NCT01258738|184422054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.62||||0.6232|TWO_SIDED|95.0|-4.9|8.14|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||8.14|-4.90|0.6232
92259862|NCT01258738|184422054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.52||||0.3877|TWO_SIDED|95.0|-4.53|11.57|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||11.57|-4.53|0.3877
92259863|NCT01258738|184422054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.74||||0.2402|TWO_SIDED|95.0|-3.22|12.69|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||12.69|-3.22|0.2402
92259864|NCT01258738|184422055|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001 at Week 16 and thereafter, from paired t-test.||||<0.001
92259865|NCT01258738|184422055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.19||||0.0193|TWO_SIDED|95.0|-16.85|-1.52|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-1.52|-16.85|0.0193
92259866|NCT01258738|184422055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.08||||0.173|TWO_SIDED|95.0|-12.41|2.26|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||2.26|-12.41|0.1730
92259867|NCT01258738|184422055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.26||||0.1224|TWO_SIDED|95.0|-14.23|1.71|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||1.71|-14.23|0.1224
92259868|NCT01258738|184422055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.14||||0.0461|TWO_SIDED|95.0|-18.11|-0.16|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.16|-18.11|0.0461
92259869|NCT01258738|184422056|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259870|NCT01258738|184422056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.97||||0.0372|TWO_SIDED|95.0|-11.58|-0.36|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.36|-11.58|0.0372
92259871|NCT01258738|184422056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.2126|TWO_SIDED|95.0|-7.98|1.79|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||1.79|-7.98|0.2126
92259872|NCT01258738|184422056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.66||||0.033|TWO_SIDED|95.0|-12.79|-0.54|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.54|-12.79|0.0330
92259873|NCT01258738|184422056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.85||||0.0397|TWO_SIDED|95.0|-13.38|-0.33|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.33|-13.38|0.0397
92259874|NCT01258738|184422057|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001 at Week 16 and at Week 32 and thereafter, from paired t test.||||<0.001
92259875|NCT01258738|184422057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.29||||0.0382|TWO_SIDED|95.0|-16.12|-0.46|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.46|-16.12|0.0382
92259876|NCT01258738|184422057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.25||||0.1648|TWO_SIDED|95.0|-12.69|2.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||2.19|-12.69|0.1648
92259877|NCT01258738|184422057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.98||||0.1476|TWO_SIDED|95.0|-14.11|2.15|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||2.15|-14.11|0.1476
92259878|NCT01258738|184422057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.68||||0.0687|TWO_SIDED|95.0|-18.03|0.68|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.68|-18.03|0.0687
92259879|NCT01258738|184422058|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259880|NCT01258738|184422058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.2578|TWO_SIDED|95.0|-1.21|0.33|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||0.33|-1.21|0.2578
92259881|NCT01258738|184422058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.4334|TWO_SIDED|95.0|-1.21|0.52|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||0.52|-1.21|0.4334
92259882|NCT01258738|184422059|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
92259883|NCT01258738|184422059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.3554|TWO_SIDED|95.0|-4.7|1.7|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||1.70|-4.70|0.3554
92259884|NCT01258738|184422059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.91||||0.335|TWO_SIDED|95.0|-5.82|1.99|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||1.99|-5.82|0.3350
92259885|NCT01258738|184422060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.41||||14.41|TWO_SIDED|95.0|0.04|28.78|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Descriptive analysis was carried out for Week 12 data only.||28.78|0.04|14.41
92259886|NCT01258738|184422061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.03||||0.1285|TWO_SIDED|95.0|-2.51|24.56|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Descriptive analysis was carried out for Week 12 data only.||24.56|-2.51|0.1285
92180700|NCT02307682|184260711|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-4.4|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||5.9|-4.4|
92259887|NCT01722552|184422065|EQUIVALENCE|The margin for non-equivalence was 25 percentage points.|Risk Ratio (RR)|1.59|||<|0.05|TWO_SIDED|95.0|1.21|2.1|||Chi-squared|||The primary analysis was by intent to treat (ITT). This included data for all randomized subjects, with post-intervention adherence measured by the last 30 days of available data; adherence over the entire 6-month intervention period was measured using all available post-intervention data. Our sample size was designed to detect a 25 percentage point difference in proportion achieving optimal adherence post-intervention.||2.1|1.21|<0.05
92259888|NCT00568399|184422066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.2|STANDARD_DEVIATION|0.987||0.001|TWO_SIDED|95.0||||Coronary calcium score after treatment compared to baseline|Wilcoxon (Mann-Whitney)|||This was a pilot study without a control group. There were no power calculations (see manuscript).||||0.001
92259889|NCT00724594|184422073|OTHER|||||||0.9||||||not significant|t-test, 2 sided|||Term infant cohort : NAC vs control H0= there will be no difference in resistive index in Middle Cerebral Artery after N-acetylcysteine or saline in the term cohort.||||0.9
92259890|NCT00724594|184422073|OTHER|||||||0.9|||||||t-test, 2 sided|||Preterm infant cohort: NAC vs control H0= there will be no difference in resisitive index in MCA after N-acetylcysteine or saline in preterm cohort||||0.9
92259891|NCT00724594|184422074|OTHER|||||||0.9||||||not significant|t-test, 2 sided|||Maternal cohort: NAC versus control l H0= PT will not be different in mothers after NAC or saline||||0.9
92259892|NCT00724594|184422074|OTHER|||||||0.9|||||||t-test, 2 sided|||Infant cohort: NAC versus control H0= prothrombin time will not be different in the infants after NAC or saline||||0.9
92259893|NCT00724594|184422075|OTHER|||||||0.072|||||||t-test, 2 sided|||correcting for gestational age at birth||||0.072
92180701|NCT02307682|184260711|OTHER||Difference in proportions|4.2|||||TWO_SIDED|95.0|-1.2|10.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||10.0|-1.2|
92180702|NCT02307682|184260711|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-5.9|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||5.9|-5.9|
92180703|NCT02307682|184260711|OTHER||Difference in proportions|4.9|||||TWO_SIDED|95.0|-0.5|11.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||11.0|-0.5|
92180704|NCT02307682|184260711|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-3.7|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||8.0|-3.7|
92259894|NCT00724594|184422076|OTHER|||||||0.014|||||||t-test, 2 sided|||||||0.014
92259895|NCT00405756|184422081|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.395|||<|0.001|TWO_SIDED|95.0|0.278|0.56||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||0.560|0.278|<0.001
92259896|NCT00405756|184422081|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.494|||<|0.001|TWO_SIDED|95.0|0.347|0.702||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||0.702|0.347|<0.001
92259897|NCT00405756|184422081|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.796||||0.134|TWO_SIDED|95.0|0.589|1.075||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||1.075|0.589|0.134
92259898|NCT00405756|184422082|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34|||<|0.001|TWO_SIDED|95.0|0.214|0.541|||Log Rank|P-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.||||0.541|0.214|<0.001
92284774|NCT02193165|184473962|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline. Significant differences between groups determined by P\<0.05||||<0.001
92180705|NCT02307682|184260711|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-3.8|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||8.3|-3.8|
92180706|NCT02307682|184260711|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-5.9|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||6.1|-5.9|
92180707|NCT02307682|184260711|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-2.4|9.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||9.9|-2.4|
92180708|NCT02307682|184260711|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-4.2|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||7.3|-4.2|
92180709|NCT02307682|184260711|OTHER||Difference in proportions|7.2|||||TWO_SIDED|95.0|0.8|13.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||13.4|0.8|
92259899|NCT00405756|184422084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.337|||<|0.001|TWO_SIDED|95.0|0.231|0.493||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||0.493|0.231|<0.001
92259900|NCT00405756|184422084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.414|||<|0.001|TWO_SIDED|95.0|0.284|0.603||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||0.603|0.284|<0.001
92259901|NCT00405756|184422084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.826||||0.223|TWO_SIDED|95.0|0.606|1.125||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||1.125|0.606|0.223
92259902|NCT00405756|184422085|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value calculation excludes the category - Response not evaluable (NE)|Wilcoxon (Mann-Whitney)|||||||<0.001
92259903|NCT00405756|184422085|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value calculation excludes the category - Response not evaluable (NE)|Wilcoxon (Mann-Whitney)|||||||0.009
92259904|NCT00405756|184422085|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value calculation excludes the category - Response not evaluable (NE)|Wilcoxon (Mann-Whitney)|||||||0.003
92259905|NCT00405756|184422085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.34|||<|0.001|TWO_SIDED|95.0|2.04|5.47|||Fisher Exact|||Based on dichotomized response: 1) CR or PR 2) SD or PD or NE||5.47|2.04|<0.001
92259906|NCT00405756|184422085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.096|TWO_SIDED|95.0|0.95|2.62|||Fisher Exact|||Based on dichotomized response: 1) CR or PR 2) SD or PD or NE||2.62|0.95|0.096
92259907|NCT00405756|184422085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.12||||0.002|TWO_SIDED|95.0|1.33|3.37|||Fisher Exact|||Based on dichotomized response: 1) CR or PR 2) SD or PD or NE||3.37|1.33|0.002
92259908|NCT00405756|184422087|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.348|||<|0.001|TWO_SIDED|95.0|0.228|0.531||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||0.531|0.228|<0.001
92259909|NCT00405756|184422087|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.419|||<|0.001|TWO_SIDED|95.0|0.281|0.623||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||0.623|0.281|<0.001
92284775|NCT02193165|184473963|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline. Significant differences between groups will be determined at P\<0.05||||<0.001
92259910|NCT00405756|184422087|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.825||||0.302|TWO_SIDED|95.0|0.571|1.191||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||1.191|0.571|0.302
92259911|NCT00405756|184422088|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.404|||<|0.001|TWO_SIDED|95.0|0.296|0.553||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||0.553|0.296|<0.001
92259912|NCT00405756|184422088|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.499|||<|0.001|TWO_SIDED|95.0|0.363|0.688||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||0.688|0.363|<0.001
92259913|NCT00405756|184422088|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.827||||0.169|TWO_SIDED|95.0|0.63|1.085||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||1.085|0.630|0.169
92259914|NCT00286156|184422122|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Pairwise comparisons adjusted for multiple testing (Tukey)|ANOVA|||Null hypothesis: no difference between groups in iGFR||||<0.01
92259915|NCT01051856|184422140|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35|TWO_SIDED||||||Chi-squared|||||||0.35
92180710|NCT02307682|184260711|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-4.3|8.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||8.5|-4.3|
92180711|NCT02307682|184260711|OTHER||Difference in proportions|3.2|||||TWO_SIDED|95.0|-3.4|9.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||9.4|-3.4|
92180712|NCT02307682|184260711|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-5.0|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||7.2|-5.0|
92180713|NCT02307682|184260711|OTHER||Difference in proportions|7.9|||||TWO_SIDED|95.0|1.5|14.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||14.4|1.5|
92180714|NCT02307682|184260711|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-5.4|7.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||7.0|-5.4|
92180715|NCT02307682|184260711|OTHER||Difference in proportions|8.1|||||TWO_SIDED|95.0|2.1|14.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||14.5|2.1|
92180716|NCT02307682|184260711|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-4.4|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||8.1|-4.4|
92180717|NCT02307682|184260711|OTHER||Difference in proportions|8.3|||||TWO_SIDED|95.0|2.0|15.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||15.1|2.0|
92180718|NCT02307682|184260711|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-5.2|7.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||7.1|-5.2|
92180719|NCT02307682|184260711|OTHER||Difference in proportions|7.6|||||TWO_SIDED|95.0|0.7|13.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||13.8|0.7|
92180720|NCT02307682|184260711|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-6.8|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.1|-6.8|
92259916|NCT02176226|184422142|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92259917|NCT02176226|184422143|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92259918|NCT03894501|184422161|SUPERIORITY|||||||0.048|||||||ANOVA|||||||.048
92259919|NCT03894501|184422162|SUPERIORITY|||||||0.037|||||||ANCOVA|||||||.037
92259920|NCT03894501|184422163|SUPERIORITY|||||||0.024|||||||ANCOVA|||||||.024
92259921|NCT03894501|184422164|SUPERIORITY|||||||0.005|||||||ANCOVA|||||||.005
92259922|NCT03894501|184422165|SUPERIORITY|||||||0.013|||||||ANOVA|||||||.013
92259923|NCT03894501|184422166|SUPERIORITY|||||||0.035|||||||ANOVA|||||||.035
92259924|NCT01072500|184422201|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.03|TWO_SIDED|95.0|0.69|0.98|||Regression, Cox|To compare interventions, we used a likelihood ratio test from a Cox regression model, stratified by field center and sex.||||0.98|0.69|0.03
92259925|NCT01072500|184422202|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.006|TWO_SIDED|95.0|0.57|0.91|||Regression, Cox|||||0.91|0.57|0.006
92180721|NCT02307682|184260711|OTHER||Difference in proportions|8.2|||||TWO_SIDED|95.0|2.2|15.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||15.0|2.2|
92180722|NCT02307682|184260711|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-3.9|9.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||9.2|-3.9|
92180723|NCT02307682|184260711|OTHER||Difference in proportions|4.8|||||TWO_SIDED|95.0|-1.5|11.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||11.4|-1.5|
92180724|NCT02307682|184260711|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-5.9|7.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||7.1|-5.9|
92180725|NCT02307682|184260711|OTHER||Difference in proportions|3.0|||||TWO_SIDED|95.0|-3.1|9.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||9.7|-3.1|
92180726|NCT02307682|184260711|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-6.5|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||6.5|-6.5|
92180727|NCT02307682|184260711|OTHER||Difference in proportions|4.9|||||TWO_SIDED|95.0|-1.3|11.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||11.4|-1.3|
92180728|NCT02307682|184260711|OTHER||Difference in proportions|3.7|||||TWO_SIDED|95.0|-2.9|10.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||10.2|-2.9|
92259926|NCT01412333|184422222|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.532|||<|0.0001|TWO_SIDED|95.0|0.397|0.714|||Negative Binomial Model||Rate ratio was calculated as Ocrelizumab ARR/Interferon beta-1a 44 mcg SC ARR.|Adjusted by Geographical Region (US vs. Rest of World) and baseline EDSS (\<4.0 vs. \>=4.0).||0.714|0.397|< 0.0001
92259927|NCT01412333|184422223|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||=|0.0169|TWO_SIDED|95.0|0.42|0.92|||Log Rank|||Time to onset of CDP at week 12||0.92|0.42|= 0.0169
92259928|NCT01412333|184422224|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.051|||<|0.0001||95.0|0.029|0.089|||Negative Binomial Model||Adjusted by baseline T1 Gd lesion (present or not), baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.089|0.029|< 0.0001
92259929|NCT01412333|184422225|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.171|||<|0.0001||95.0|0.13|0.225|||Negative Binomial Model||Adjusted by baseline T2 lesion count, baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.225|0.130|< 0.0001
92259930|NCT01412333|184422226|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (stratified)|1.14|||=|0.4019|TWO_SIDED|95.0|0.84|1.56|||CMH Chi-Squared test (stratified)|Stratified by Geographical Region (US vs. Rest of World) and baseline EDSS (\<4.0 vs. \>=4.0).||||1.56|0.84|= 0.4019
92259931|NCT01412333|184422227|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||=|0.037|TWO_SIDED|95.0|0.4|0.98|||Log Rank|||Time to onset of CDP at week 24||0.98|0.40|= 0.037
92259932|NCT01412333|184422228|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.357|||<|0.0001||95.0|0.272|0.47|||Negative Binomial Model||Adjusted by baseline T1-hypointense lesion count, baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.47|0.272|< 0.0001
92259933|NCT01412333|184422229|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.107|STANDARD_ERROR_OF_MEAN|0.037|=|0.004|TWO_SIDED|95.0|0.034|0.18|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix.|Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||0.180|0.034|= 0.004
92180729|NCT02307682|184260711|OTHER||Difference in proportions|5.8|||||TWO_SIDED|95.0|-0.4|12.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||12.3|-0.4|
92259934|NCT01412333|184422230|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.112|STANDARD_ERROR_OF_MEAN|0.066|=|0.09|TWO_SIDED|95.0|-0.018|0.241|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix.|Difference in the rate of brain volume loss: 14.9%. Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||0.241|-0.018|= 0.09
92259935|NCT01412333|184422231|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|1.159|STANDARD_ERROR_OF_MEAN|0.564|=|0.0404|TWO_SIDED|95.0|0.051|2.268|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures using unstructured covariance matrix.|Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||2.268|0.051|= 0.0404
92259936|NCT01412333|184422232|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (stratified)|1.81|||<|0.0001|TWO_SIDED|95.0|1.41|2.32|||CMH Chi-Squared test (stratified)|Analyzed using CMH test, stratified by Geographical Region (US vs. rest-of-world) and baseline EDSS (\<4.0 vs. \>=4.0).||||2.32|1.41|< 0.0001
92259937|NCT01038635|184422257|SUPERIORITY_OR_OTHER||Maximal tolerated dose|75.0|||||TWO_SIDED||||||||Maximal tolerated dose not reached as no dose limiting toxicity documented. MTD considered to be last dose level.|||||
92259938|NCT04542525|184422266|SUPERIORITY||||||<|0.0001|||||||Exact Test of Binomial Proportion||||P-value is provided from exact test of binomial proportion (one-sided alpha = 2.5%) comparing PanOptix Toric Trifocal IOL Model TFNT20 with historical threshold 29.2 % (rate calculated for a non-toric IOL in Japanese study patients that would qualify for a T2 lens using the same toric calculator).|||<0.0001
92259939|NCT00203294|184422367|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Separate models were fit to the change scores for headache pain, nausea and vomiting, photophobia, phonophobia, and neck pain.|Fisher Exact|||Fisher's exact test was used to compare nominal variables between groups. The Wilcoxon rank-sum test was used to compare interval and ordinal variables between groups.||||<0.01
92259940|NCT00203294|184422367|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Fisher Exact|Wilcoxon rank-sum test was used to compare interval and ordinal variables between groups.||Fisher's exact test was used to compare nominal variables between groups.||||<0.01
92259941|NCT01566981|184422371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6925|STANDARD_DEVIATION|1.4708||0.005|TWO_SIDED|95.0|0.2221|1.1629|||t-test, 2 sided|without adjustments, df=39||"Null hypothesis was that Information and Communication Technology (ICT) supported diabetes care could have significant impact on reduction of baseline glycated hemoglobin (EHbA1c) after 1 year follow-up.~The sample in intervention group was normally distributed, so observed power (two-tailed hypothesis) was 0.45, for Cohen's d= 0.6 and alpha level =0.05"||1.1629|0.2221|0.005
92259942|NCT03062605|184422379|OTHER|Inequality test||||||0.35||||||Significant at p \< 0.05|McNemar|||Strep Mutans, Baseline-12 Weeks||||0.35
92259943|NCT03062605|184422379|OTHER|Inequality test||||||0.29||||||Significant at p\<0.05|McNemar|||Strep Mutans, Baseline-12 Weeks||||0.29
92259944|NCT03062605|184422379|OTHER|Inequality test||||||0.09||||||Significant at p \< 0.05|McNemar|||Lactobacillus, Baseline-12 Weeks||||0.09
92259945|NCT03062605|184422379|OTHER|Inequality test||||||0.13||||||Significant at p \< 0.05|McNemar|||Lactobacillus, Baseline-12 Weeks||||0.13
92259946|NCT01009333|184422385|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Mixed Models Analysis|||||||0.008
92259947|NCT01009333|184422386|SUPERIORITY_OR_OTHER|||||||0.589||95.0|||||Mixed Models Analysis|||||||0.589
92259948|NCT01009333|184422387|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|||||||0.04
92259949|NCT01948791|184422388|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% confidence interval of the mean difference between the baseline score and post-baseline score falls on the left of MeanP-MeanB+1.40, the post-baseline noninferiority to baseline can be concluded. If the upper limit of the 95% confidence interval of the mean difference between the baseline score and post-baseline score falls on the left of 0, superiority can be concluded.|||||<|0.001|||||||t-test, 1 sided|||The hypothesis to test the non-inferiority of post-baseline change in ADAS-Cog from baseline was: H0: μP - μB ≥ 1.40, Ha: μP - μB \< 1.40 where μP and μB are the ADAS-Cog score (actual) at 16 weeks of Rivastigmine treatment and the baseline ADAS-Cog score (actual), respectively.||||<0.001
92259950|NCT01809327|184422409|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.099||0.001|TWO_SIDED|95.0|-0.657|-0.269|||Mixed Model for Repeated Measures (MMRM)|||||-0.269|-0.657|0.001
92259951|NCT01809327|184422409|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.099||0.001|TWO_SIDED|95.0|-0.67|-0.28|||Mixed Model for Repeated Measures (MMRM)|||||-0.280|-0.670|0.001
92259952|NCT01809327|184422409|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.099||0.001|TWO_SIDED|95.0|-0.594|-0.207|||Mixed Model for Repeated Measures (MMRM)|||||-0.207|-0.594|0.001
92180730|NCT02307682|184260711|OTHER||Difference in proportions|2.4|||||TWO_SIDED|95.0|-4.2|9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||9.0|-4.2|
92259953|NCT01809327|184422409|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.099||0.001|TWO_SIDED|95.0|-0.557|-0.169|||Mixed Model for Repeated Measures (MMRM)|||||-0.169|-0.557|0.001
92259954|NCT01809327|184422409|NON_INFERIORITY_OR_EQUIVALENCE|P value corresponds to a comparison that canagliflozin is noninferior to Metformin XR by a margin of 0.35%.|Least-Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.258|0.133|||Mixed Model for Repeated Measures (MMRM)|||||0.133|-0.258|0.001
92259955|NCT01809327|184422409|NON_INFERIORITY_OR_EQUIVALENCE|P value corresponds to a comparison that canagliflozin is noninferior to Metformin XR by a margin of 0.35%.|Least-Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.099||0.001|TWO_SIDED|95.0|-0.307|0.082|||Mixed Model for Repeated Measures (MMRM)|||||0.082|-0.307|0.001
92259956|NCT01809327|184422410|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.4||0.016|TWO_SIDED|95.0|-1.6|-0.2|||Mixed Model for Repeated Measures (MMRM)|||||-0.2|-1.6|0.016
92259957|NCT01809327|184422410|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.4||0.002|TWO_SIDED|95.0|-2.6|-1.1|||Mixed Model for Repeated Measures (MMRM)|||||-1.1|-2.6|0.002
92259958|NCT01809327|184422410|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.1|-0.6|||Mixed Model for Repeated Measures (MMRM)|||||-0.6|-2.1|0.001
92259959|NCT01809327|184422410|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.9|-1.4|||Mixed Model for Repeated Measures (MMRM)|||||-1.4|-2.9|0.001
92284776|NCT02193165|184473964|SUPERIORITY_OR_OTHER|||||||0.816|TWO_SIDED||||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups. Differences will be noted at P\<0.05. Baseline groups are balanced and baseline scores for each intervention group should not be significantly different||||0.816
92284777|NCT02193165|184473965|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline. Significant differences between intervention groups will be determined @ P\<0.05||||<0.001
92284778|NCT02193165|184473966|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline. Significant differences between intervention groups will be determined @ P\<0.05||||<0.001
92284779|NCT00678639|184473968|SUPERIORITY_OR_OTHER||Median cost difference|588.0|||||TWO_SIDED|95.0|336.0|811.0|||Hodges-Lehmann (median cost difference)|Distribution-free 95% CIs calculated using the method of Moses.|Results favored a reduced cost in the OU-CMR group.|H0: The median costs are not different among the study groups. HA: The median cost is different among groups. Power calculation was based on detecting a mean cost difference of $2000. Data was found to be non-normally distributed and therefore nonparametric comparisons were implemented.||811|336|
92284780|NCT00678639|184473969|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||"H0: There is no difference in correct cardiovascular admission decisions among groups.~Ha: A difference exists among study groups. Sample size was based upon 47 analyzable participants per study arm were required to provide 88% power to detect a 30% difference in the outcome."||||<0.001
92284781|NCT01546545|184473983|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No power calculation was performed. This was the first pilot and feasibility study. This data will be used to power future studies.||||||0.02|||||||t-test, 2 sided|||||||0.02
92259960|NCT01809327|184422411|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.027|TWO_SIDED|95.0|1.06|2.37|||Generalized Linear Mixed Model|||||2.37|1.06|0.027
92284782|NCT01546545|184473984|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No power calculation was performed. This was a pilot and feasibility study.||||||0.02|||||||t-test, 2 sided|||||||0.02
92284783|NCT01214850|184473985|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.185||||0.3828|TWO_SIDED|95.0|0.809|1.737|||Regression, Logistic|||Vaccine Group Odds Ratios for carriage of virulent ST strain of N. meningitidis group B in 4CMenB group as compared to the control group at 1 month after receiving the 2nd rMenB+OMV NZ vaccination||1.737|0.809|0.3828
92284784|NCT01214850|184473986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.555|1.273|||Regression, Logistic|||Vaccine Group Odds Ratios for carriage of combined N. meningitidis serogroups A, C, W, Y in the MenACWY-CRM group compared to Control group at 1 month after receiving 1 injection of MenACWY vaccine||1.273|0.555|
92180731|NCT02307682|184260711|OTHER||Difference in proportions|5.6|||||TWO_SIDED|95.0|-0.2|11.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||11.9|-0.2|
92284785|NCT05615935|184474020|SUPERIORITY||Adjusted Mean Difference (ANCOVA)|2.07|||<|0.001|TWO_SIDED|||||The p-value is adjusted for multiple comparisons using the Bonferroni correction, with a significance threshold of 0.05.|ANCOVA|||Using G\*Power 3.1, the required sample size for ANCOVA with two groups was estimated with a significance level of 0.05, statistical power of 0.80, and an effect size of 0.35, based on Cohen's guidelines for a medium-to-large effect commonly applied in behavioral research (Cohen, 1988). Assuming up to two covariates, a minimum of 67 participants was required. Accounting for a 10% attrition rate, the final target was set at 74 participants.||||<0.001
92284786|NCT05615935|184474021|SUPERIORITY||Adjusted Mean Difference (ANCOVA)|4.58||||0.15|TWO_SIDED|||||The p-value is adjusted for multiple comparisons using the Bonferroni correction, with a significance threshold of 0.05.|ANCOVA|||||||0.15
92284787|NCT05615935|184474021|SUPERIORITY||Median Difference (Final Values)|-2.64|STANDARD_DEVIATION|6.35||0.02|TWO_SIDED|||||The p-value is adjusted for multiple comparisons using the Bonferroni correction, with a significance threshold of 0.05.|t-test, 2 sided|||||||0.02
92284788|NCT02567968|184474031|SUPERIORITY|||||||0.002|||||||paired t-test|||||||0.002
92259961|NCT01809327|184422411|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21||||0.016|TWO_SIDED|95.0|1.46|3.33|||Generalized Linear Mixed Model|||||3.33|1.46|0.016
92259962|NCT01809327|184422412|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.91|STANDARD_ERROR_OF_MEAN|0.882||0.06|TWO_SIDED|95.0|-3.641|-0.182|||Mixed Model for Repeated Measures (MMRM)|||||-0.182|-3.641|0.060
92259963|NCT01809327|184422412|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.889||0.147|TWO_SIDED|95.0|-3.058|0.431|||Mixed Model for Repeated Measures (MMRM)|||||0.431|-3.058|0.147
92259964|NCT01809327|184422413|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|2.1||0.147|TWO_SIDED|95.0|1.2|9.5|||ANCOVA|||||9.5|1.2|0.147
92259965|NCT01809327|184422413|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|4.3|STANDARD_ERROR_OF_MEAN|2.1||0.147|TWO_SIDED|95.0|0.2|8.5|||ANCOVA|||||8.5|0.2|0.147
92259966|NCT01809327|184422414|SUPERIORITY_OR_OTHER||Hodges-Lehman Estimate|-3.7||||0.608|TWO_SIDED|95.0|-11.1|3.4|||Wilcoxon (Mann-Whitney)|||||3.4|-11.1|0.608
92259967|NCT01809327|184422414|SUPERIORITY_OR_OTHER||Hodges-Lehman Estimate|1.3||||0.806|TWO_SIDED|95.0|-7.3|10.0|||Wilcoxon (Mann-Whitney)|||||10.0|-7.3|0.806
92259968|NCT00852761|184422444|SUPERIORITY_OR_OTHER|||||||0.7298||95.0||||This is the result for the Day 3 analysis.|Chi-squared|||||||0.7298
92259969|NCT00852761|184422444|SUPERIORITY_OR_OTHER|||||||1||||||This is the result for the Day 8 analysis.|Chi-squared|||||||1.0000
92259970|NCT00852761|184422445|SUPERIORITY_OR_OTHER|||||||0.7298||95.0||||This is the result for the Day 3 analysis.|Chi-squared|||||||0.7298
92259971|NCT00852761|184422445|SUPERIORITY_OR_OTHER|||||||0.006||||||This is the result for the Day 8 analysis.|Chi-squared|||||||0.0060
92259972|NCT00852761|184422445|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||This is the result for the Day 15 analysis.|Chi-squared|||||||0.0060
92259973|NCT00852761|184422446|SUPERIORITY_OR_OTHER|||||||0.0332||||||Data apply to Day 15.|Chi-squared|||||||0.0332
92259974|NCT00852761|184422448|SUPERIORITY_OR_OTHER|||||||0.3101||95.0||||This is the result for the Day 3 analysis.|Chi-squared|||||||0.3101
92259975|NCT00852761|184422448|SUPERIORITY_OR_OTHER|||||||0.7242||95.0||||This is the result for the Day 8 analysis.|Chi-squared|||||||0.7242
92284789|NCT00048581|184474040|SUPERIORITY_OR_OTHER||Est. Weighted. Diff: Day 169 ACR 20|30.8|||<|0.001|TWO_SIDED|95.0|20.6|41.1||The a priori threshold for statistical significance was 5%. ACR 20 RR at 6 mos for PLA was expected to be \~25%. A sample of 256 in the ABA arm and 128 in PLA arm will yield a 96% power to detect a difference of 20% in ACR 20 at 5% significance level.|Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|The first coprimary endpoint efficacy analysis tested for differences in ACR 20 response rate (RR) between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving placebo plus background DMARDs on Day 169. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||41.1|20.6|<0.001
92180732|NCT02307682|184260711|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-3.0|9.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||9.9|-3.0|
92259976|NCT00852761|184422448|SUPERIORITY_OR_OTHER|||||||0.0135||||||This is the p value for day 15|Chi-squared|||||||0.0135
92259977|NCT00852761|184422450|SUPERIORITY_OR_OTHER|||||||0.1449||||||P value at day 15.|Chi-squared|||||||0.1449
92259978|NCT00852761|184422450|SUPERIORITY_OR_OTHER|||||||0.1634||||||P value at day 3.|Chi-squared|||||||0.1634
92259979|NCT00852761|184422450|SUPERIORITY_OR_OTHER|||||||0.5454||||||P value at day 8.|Chi-squared|||||||0.5454
92259980|NCT00852761|184422451|SUPERIORITY_OR_OTHER|||||||0.6715||||||This is the p value for day 15.|Chi-squared|||||||0.6715
92259981|NCT00852761|184422451|SUPERIORITY_OR_OTHER|||||||0.7242||||||This is the p value for day 8.|Chi-squared|||||||0.7242
92259982|NCT00852761|184422451|SUPERIORITY_OR_OTHER|||||||0.6715||||||This is the p value for day 3.|Chi-squared|||||||0.6715
92259983|NCT00852761|184422452|SUPERIORITY_OR_OTHER|||||||0.4858||||||P value on day 8.|Chi-squared|||||||0.4858
92259984|NCT00852761|184422452|SUPERIORITY_OR_OTHER|||||||0.3001||||||P value on day 15.|Chi-squared|||||||0.3001
92259985|NCT00784225|184422482|SUPERIORITY||Cox Proportional Hazard|0.75||||0.52|TWO_SIDED|95.0|0.32|1.79|||Regression, Cox|||Statistical analysis for number of participants with visually significant AMD in SEE sites during pill-taking for selenium||1.79|0.32|0.52
92259986|NCT00784225|184422482|SUPERIORITY||Cox Proportional Hazard|0.75||||0.51|TWO_SIDED|95.0|0.31|1.77|||Regression, Cox|||Statistical analysis for number of participants with visually significant AMD in SEE sites during pill-taking for vitamin E||1.77|0.31|0.51
92259987|NCT00784225|184422483|SUPERIORITY||Cox Proportional Hazard|0.91||||0.37|TWO_SIDED|95.0|0.75|1.11|||Regression, Cox|||||1.11|0.75|0.37
92259988|NCT00784225|184422483|SUPERIORITY||Cox Proportional Hazard|1.02||||0.81|TWO_SIDED|95.0|0.84|1.25|||Regression, Cox|||||1.25|0.84|0.81
92259989|NCT00784225|184422484|SUPERIORITY||Cox Proportional Hazard|2.5||||0.12|TWO_SIDED|95.0|0.79|7.98|||Regression, Cox|||Statistical analysis for number of participants with advanced AMD in SEE sites during pill-taking for selenium||7.98|0.79|0.12
92259990|NCT00784225|184422484|SUPERIORITY||Cox Proportional Hazard|0.99||||0.98|TWO_SIDED|95.0|0.35|2.82|||Regression, Cox|||Statistical analysis for number of participants with advanced AMD in SEE sites during pill-taking for vitamin E||2.82|0.35|0.98
92259991|NCT00784225|184422485|SUPERIORITY||Cox Proportional Hazard|0.84||||0.19|TWO_SIDED|95.0|0.64|1.09|||Regression, Cox|||||1.09|0.64|0.19
92259992|NCT00784225|184422485|SUPERIORITY||Cox Proportional Hazard|1.08||||0.58|TWO_SIDED|95.0|0.83|1.41|||Regression, Cox|||||1.41|0.83|0.58
92259993|NCT02551874|184422486|NON_INFERIORITY|Noninferiority was defined by upper bound of 95% CI \<0.3%|Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.085||0.118|TWO_SIDED|95.0|-0.3|0.03||Superiority|Mixed Models Analysis|Adjusted for treatment, baseline HbA1c, randomization stratification factor, visit, treatment-by-visit, and baseline HbA1c-by-visit.||||0.03|-0.30|0.118
92259994|NCT02551874|184422487|SUPERIORITY||Mean Difference (Final Values)|-3.64|STANDARD_ERROR_OF_MEAN|0.282|<|0.001|TWO_SIDED|95.0|-4.2|-3.09|||Mixed Models Analysis|Adjusted for treatment, baseline body weight, randomization stratification factor, visit, treatment-by-visit, and baseline body weight-by-visit.||||-3.09|-4.20|<0.001
92259995|NCT02551874|184422488|SUPERIORITY||Odds Ratio (OR)|0.4|||<|0.001|TWO_SIDED|95.0|0.3|0.62|||Regression, Logistic|Adjusted for baseline HbA1c and randomization stratification factor (background medication of metformin with or without SU).||||0.62|0.30|<0.001
92259996|NCT02551874|184422489|SUPERIORITY||Odds Ratio (OR)|1.8||||0.008|TWO_SIDED|95.0|1.16|2.67|||Regression, Logistic|||||2.67|1.16|0.008
92259997|NCT02551874|184422490|NON_INFERIORITY|Noninferiority was defined by lower bound of 95% CI \>-10%.|Adjusted Percent Difference|-0.4|||||TWO_SIDED|95.0|-7.42|6.54||||||||6.54|-7.42|
92284790|NCT00048581|184474041|SUPERIORITY_OR_OTHER||Est. of Weighted Diff: Day 169 HAQ|24.0|||<|0.001|TWO_SIDED|95.0|13.8|34.2||If the ACR20 analysis was not significant (5% level), then the comparison for HAQ response was not undertaken. If ACR20 comparison was significant (5% level), then CMH Chi-square test compared HAQ response between groups (5% level).|Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|All comparisons of changes from baseline and construction of confidence intervals for continuous measures were based on an ANCOVA model with treatment as the main factor and baseline value as covariate.|The two primary efficacy analyses tested first for differences in ACR 20 followed by testing HAQ response rates between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs on Day 169. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||34.2|13.8|<0.001
92259998|NCT02551874|184422491|NON_INFERIORITY|Noninferiority was defined by upper bound of 95% CI \<12 mg/dL.|Mean Difference (Final Values)|-19.99|STANDARD_ERROR_OF_MEAN|3.55|<|0.0001|TWO_SIDED|95.0|-26.98|-13.0|||Mixed Models Analysis|Adjusted for treatment, baseline measurement, randomization stratification factor, visit, treatment-by-visit, and baseline-by-visit.||||-13.00|-26.98|<0.0001
92259999|NCT02528643|184422507|SUPERIORITY||Hazard Ratio (HR)|1.146||||0.248|TWO_SIDED|95.0|0.774|1.696||One-sided p-value.|Log Rank||Calculated using a Cox proportional hazard model, stratified by geographic region and ECOG performance status. Hazard ratio \< 1 indicated a reduction in hazard rate in favor of enzalutamide group.|Stratified Analysis. The null hypothesis was stated as: OS distributions of the 2 arms are equivalent. The alternative hypothesis was stated as: OS is prolonged in enzalutamide arm. The null hypothesis was tested using a stratified one-sided log-rank test at the 0.10 level. Stratification factors were ECOG performance status and region from eCRF.||1.696|0.774|0.248
92260000|NCT02528643|184422507|SUPERIORITY||Hazard Ratio (HR)|1.142||||0.252|TWO_SIDED|95.0|0.773|1.688||One-sided p-value.|Log Rank||Calculated using a Cox proportional hazard model. Hazard ratio \< 1 indicated a reduction in hazard rate in favor of enzalutamide group.|Unstratified Analysis. The null hypothesis was stated as: OS distributions of the 2 arms are equivalent. The alternative hypothesis was stated as: OS is prolonged in enzalutamide arm. The null hypothesis was tested using a one-sided log-rank test at the 0.10 level.||1.688|0.773|0.252
92260001|NCT02528643|184422512|SUPERIORITY||Hazard Ratio (HR)|1.039||||0.396|TWO_SIDED|95.0|0.732|1.474||One-sided p-value.|Log Rank||Calculated using a Cox proportional hazard model, stratified by ECOG performance status and region. Hazard ratio \< 1 indicated a reduction in hazard rate in favor of enzalutamide group.|Stratified Analysis. The null hypothesis was stated as: PFS distributions of the 2 arms are equivalent. The alternative hypothesis was stated as: PFS is prolonged in enzalutamide arm. The null hypothesis was tested using a stratified one-sided log-rank test at the 0.10 level. Stratification factors were ECOG performance status and region from eCRF.||1.474|0.732|0.396
92284791|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 15 ACR 20|12.3||||0.001|TWO_SIDED|95.0|4.6|20.0|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||20.0|4.6|0.001
92284792|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 15 ACR 50|2.3||||0.001|TWO_SIDED|95.0|-0.8|5.5|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||5.5|-0.8|0.001
92260002|NCT02528643|184422512|SUPERIORITY||Hazard Ratio (HR)|0.959||||0.586|TWO_SIDED|95.0|0.684|1.345||One-sided p-value.|Log Rank||Calculated using a Cox proportional hazard model. Hazard ratio \< 1 indicated a reduction in hazard rate in favor of enzalutamide group.|Unstratified Analysis. The null hypothesis was stated as: PFS distributions of the 2 arms are equivalent. The alternative hypothesis was stated as: PFS is prolonged in enzalutamide arm. The null hypothesis was tested using a one-sided log-rank test at the 0.10 level.||1.345|0.684|0.586
92260003|NCT02058940|184422527|OTHER|||||||0.2|||||||Spearman's Correlation Coefficient|||||||0.2
92260004|NCT03287960|184422607|OTHER|Two-sided confidence interval obtained using Clopper-Pearson method and one-sided p-value obtained from exact binomial test, testing that at least 5% of participants in the population of interest will achieve 10% weight loss.||||||0.0001|||||||Clopper-Pearson method|||||||0.0001
92260005|NCT03287960|184422608|OTHER|Two-sided confidence interval (CI) obtained using Clopper-Pearson method and one-sided p-value obtained from exact binomial test, testing that at least 5% of patients in the population of interest would achieve 10% weight loss.|||||<|0.0001|||||||Clopper-Pearson method|||||||<0.0001
92284793|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 15 ACR 70|0.8||||0.784|TWO_SIDED|95.0|-1.3|2.9|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||2.9|-1.3|0.784
92284794|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 29 ACR 20|14.0||||0.005|TWO_SIDED|95.0|4.0|24.0|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||24.0|4.0|0.005
92260006|NCT03287960|184422609|OTHER|Model based summary statistics from longitudinal mixed analysis of variance (ANOVA) model with fixed effect for visit, baseline body weight and random effect for participant, one sided p-value from model.|Least Squares Mean|-12.37|||<|0.0001|TWO_SIDED|90.0|-15.08|-9.66|||ANOVA|Longitudinal mixed ANOVA||||-9.66|-15.08|<.0001
92260007|NCT03287960|184422610|OTHER|Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for week, baseline daily hunger score and random effect for participant, one sided p-value from model.|Least Squares Mean|-42.69|||<|0.0001|TWO_SIDED|90.0|-56.35|-29.02|||ANOVA|Longitudinal mixed analysis of variance (ANOVA) model||||-29.02|-56.35|<.0001
92260008|NCT03287960|184422611|OTHER|Two-sided CI obtained using Clopper-Pearson method and one-sided p-value obtained from exact binomial test, testing that ≥5 % of participants in the population of interest would achieve ≥25 % improvement in daily hunger score.|||||<|0.0001|||||||Clopper-Pearson method|||||||<.0001
92260009|NCT03287960|184422612|OTHER|Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for visit, baseline waist circumference and random effect for participant, one sided p-value from model.|Least Squares Mean|-8.9||||0.0031|TWO_SIDED|90.0|-14.1|-3.61|||ANOVA|Longitudinal mixed ANOVA||||-3.61|-14.10|0.0031
92260010|NCT03287960|184422615|OTHER|Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for week, baseline BMI and random effect for participant, one sided p-value from model.|Least Squares Mean|-14.0|||<|0.0001|TWO_SIDED|90.0|-16.8|-11.2|||ANOVA|Longitudinal mixed ANOVA model||||-11.20|-16.80|<.0001
92260011|NCT00656136|184422627|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.077||||0.7428|TWO_SIDED|95.0|0.862|1.346||P-value is one-sided (afatinib vs placebo) log rank test stratified by gender and baseline ECOG score (0,1 vs 2)|Regression, Cox|Model stratified by gender and baseline ECOG score (0,1 vs 2)||Primary analysis was performed after 358 deaths were observed among randomized patients. The data cut-off date for the primary analysis was 08 July 2010.||1.346|0.862|0.7428
92260012|NCT00656136|184422627|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.976||||0.3955|TWO_SIDED|95.0|0.814|1.17||P-value is one-sided (afatinib vs placebo) log rank test stratified by gender and baseline ECOG score (0,1 vs 2)|Regression, Cox|Model stratified by gender and baseline ECOG score (0,1 vs 2)||Final analysis was performed after 526 deaths were observed among randomized patients. The data cut-off date for the final analysis was 04 October 2013.||1.170|0.814|0.3955
92260013|NCT00656136|184422628|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.381|||<|0.0001|TWO_SIDED|95.0|0.306|0.475||P-value is one-sided (afatinib vs placebo) log rank test stratified by gender and baseline ECOG score (0,1 vs 2)|Regression, Cox|Model stratified by gender and baseline ECOG score (0,1 vs 2)||||0.475|0.306|<0.0001
92180733|NCT02307682|184260711|OTHER||Difference in proportions|5.1|||||TWO_SIDED|95.0|-1.1|11.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||11.4|-1.1|
92180734|NCT02307682|184260711|OTHER||Difference in proportions|6.0|||||TWO_SIDED|95.0|-1.5|12.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||12.8|-1.5|
92180735|NCT02307682|184260711|OTHER||Difference in proportions|5.0|||||TWO_SIDED|95.0|-1.0|11.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||11.6|-1.0|
92180736|NCT02307682|184260711|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-5.1|8.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||8.6|-5.1|
92180737|NCT02307682|184260711|OTHER||Difference in proportions|8.8|||||TWO_SIDED|95.0|2.7|15.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||15.4|2.7|
92180738|NCT02307682|184260711|OTHER||Difference in proportions|3.3|||||TWO_SIDED|95.0|-3.7|9.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||9.4|-3.7|
92180739|NCT02307682|184260711|OTHER||Difference in proportions|4.2|||||TWO_SIDED|95.0|-2.2|10.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||10.3|-2.2|
92180740|NCT02307682|184260711|OTHER||Difference in proportions|4.1|||||TWO_SIDED|95.0|-3.0|10.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||10.9|-3.0|
92180741|NCT02307682|184260711|OTHER||Difference in proportions|8.0|||||TWO_SIDED|95.0|1.9|14.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||14.6|1.9|
92260014|NCT00656136|184422629|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|15.61||||0.0071|TWO_SIDED|95.0|2.1|115.0||P-value is derived from logistic regression model adjusted for stratification factors, gender and baseline ECOG score (0, 1 vs 2)|Regression, Logistic|Model stratified by gender and baseline ECOG score (0,1 vs 2)||||115|2.1|0.0071
92260015|NCT00266799|184422658|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority was tested using the upper limit of the 95% CI for the hazard ratio as quantitative estimate of the minimum effect of PLD relative to capecitabine. Margin for non-inferiority was set to 1.143, reflecting an acceptable difference in TTP of 0.75 months assuming an expected median TTP of up to 6 months with the comparator. If the estimate was below margin, PLD was to be considered non-inferior to capecitabine assuming sufficient sensitivity to detect the drug effects of~interest."|Hazard Ratio (HR)|1.08||||0.6686|TWO_SIDED|95.0|0.76|1.54|||Log Rank|||By Investigator Assessment of ITT Population||1.54|0.76|0.6686
92260016|NCT00266799|184422658|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority was tested using the upper limit of the 95% CI for the hazard ratio as quantitative estimate of the minimum effect of PLD relative to capecitabine. Margin for non-inferiority was set to 1.143, reflecting an acceptable difference in TTP of 0.75 months assuming an expected median TTP of up to 6 months with the comparator. If the estimate was below margin, PLD was to be considered non-inferior to capecitabine assuming sufficient sensitivity to detect the drug effects of~interest."|Hazard Ratio (HR)|1.15||||0.4472|TWO_SIDED|95.0|0.8|1.65|||Log Rank|||By RECIST Criteria of ITT Population||1.65|0.80|0.4472
92260017|NCT00266799|184422658|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.5508|TWO_SIDED|95.0|0.74|1.77|||Log Rank|||By Investigator Assessment of TTP Population||1.77|0.74|0.5508
92260018|NCT00266799|184422658|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.4088|TWO_SIDED|95.0|0.77|1.89|||Log Rank|||By RECIST Criteria of TTP Population||1.89|0.77|0.4088
92284795|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 29 ACR 50|5.6||||0.06|TWO_SIDED|95.0|-0.2|11.4|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||11.4|-0.2|0.06
92180742|NCT02307682|184260711|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-5.1|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||8.3|-5.1|
92180743|NCT02307682|184260711|OTHER||Difference in proportions|5.9|||||TWO_SIDED|95.0|0.0|12.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||12.5|-0.0|
92260019|NCT00266799|184422659|SUPERIORITY_OR_OTHER|||||||0.1726||95.0|||||Chi-squared|||By Investigator Assessment||||0.1726
92260020|NCT00266799|184422659|SUPERIORITY_OR_OTHER|||||||0.6541||95.0|||||Chi-squared|||By RECIST Criteria||||0.6541
92260021|NCT00266799|184422660|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.5265|TWO_SIDED|95.0|0.79|1.58|||Log Rank|||||1.58|0.79|0.5265
92260022|NCT00266799|184422661|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.0841||95.0|||||Log Rank|p-value also given for Hazard Ratio||||||0.0841
92260023|NCT00247962|184422663|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.99|||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92260024|NCT00247962|184422664|SUPERIORITY_OR_OTHER|||||||0.719|||||||ANCOVA|||baseline||||0.719
92260025|NCT00247962|184422664|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANCOVA|||week 16||||0.010
92260026|NCT03525613|184422668|SUPERIORITY||LS Mean Difference|-0.4114||||0.0004|TWO_SIDED|95.0|-0.6397|-0.1831|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + presence of choroidal neovascularization (CNV) in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area × analysis visit.||-0.1831|-0.6397|0.0004
92260027|NCT03525613|184422668|SUPERIORITY||LS Mean Difference|-0.318||||0.0055|TWO_SIDED|95.0|-0.5423|-0.0937|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area × analysis visit.||-0.0937|-0.5423|0.0055
92260028|NCT03525613|184422669|SUPERIORITY||LS Mean Difference|-0.9015|||<|0.0001|TWO_SIDED|95.0|-1.3026|-0.5004|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + baseline presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) × analysis visit.||-0.5004|-1.3026|<0.0001
92260029|NCT03525613|184422669|SUPERIORITY||LS Mean Difference|-0.7426||||0.0002|TWO_SIDED|95.0|-1.1282|-0.357|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + baseline presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) × analysis visit.||-0.3570|-1.1282|0.0002
92260030|NCT03525613|184422670|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.2234||||0.0007|TWO_SIDED|95.0|-0.3522|-0.0946|||MMRM model|||Estimates for Baseline to Month 6: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0946|-0.3522|0.0007
92260031|NCT03525613|184422670|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1618||||0.0116|TWO_SIDED|95.0|-0.2874|-0.0361|||MMRM model|||Estimates for Baseline to Month 6: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0361|-0.2874|0.0116
92260032|NCT03525613|184422670|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1862||||0.0181|TWO_SIDED|95.0|-0.3406|-0.0318|||MMRM model|||Estimates for Month 6 to Month 12: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0318|-0.3406|0.0181
92284796|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 29 ACR 70|1.6||||0.473|TWO_SIDED|95.0|-1.8|4.9|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||4.9|-1.8|0.473
92260033|NCT03525613|184422670|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1526||||0.0467|TWO_SIDED|95.0|-0.303|-0.0023|||MMRM model|||Estimates for Month 6 to Month 12: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0023|-0.3030|0.0467
92265433|NCT00948896|184432649|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|49.0||||0.001|TWO_SIDED|95.0|23.0|66.0||Adjusted for age at randomization and incidence of malaria prior to randomization.|Negative Binomial Regression||Adjusted for age at randomization and incidence of malaria prior to randomization. The no chemoprevention arm is the reference arm.|We assumed that the incidence of malaria would be 1.85 episodes per person year with TS based on a prior cohort study in the same area, and thus, that we would need to enroll 50 participants in each arm to detect a reduction in the incidence of malaria in either the monthly SP or DP arms (two-sided significance level 0.05) compared with the daily TS arm of 48% or greater with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||66|23|0.001
92180744|NCT02307682|184260711|OTHER||Difference in proportions|5.5|||||TWO_SIDED|95.0|-1.2|12.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||12.3|-1.2|
92260034|NCT03525613|184422670|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.2265||||0.0019|TWO_SIDED|95.0|-0.3696|-0.0834|||MMRM model|||Estimates for Month 12 to Month 18: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0834|-0.3696|0.0019
92260035|NCT03525613|184422670|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1586||||0.0288|TWO_SIDED|95.0|-0.3009|-0.0164|||MMRM model|||Estimates for Month 12 to Month 18: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0164|-0.3009|0.0288
92260036|NCT03525613|184422670|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.2341||||0.008|TWO_SIDED|95.0|-0.4071|-0.0611|||MMRM model|||Estimates for Month 18 to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0611|-0.4071|0.0080
92260037|NCT03525613|184422670|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.2459||||0.0007|TWO_SIDED|95.0|-0.3886|-0.1031|||MMRM model|||Estimates for Month 18 to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.1031|-0.3886|0.0007
92260038|NCT03525613|184422670|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.8702|||<|0.0001|TWO_SIDED|95.0|-1.274|-0.4664|||MMRM model|||Estimates for Baseline to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.4664|-1.2740|<0.0001
92260039|NCT03525613|184422670|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.7189||||0.0003|TWO_SIDED|95.0|-1.1039|-0.3339|||MMRM model|||Estimates for Baseline to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.3339|-1.1039|0.0003
92260040|NCT02120469|184422680|OTHER||||||||||||||||||Dose level B1 (eribulin 1.1 mg/m2 days 1 and 8 every 3 weeks with everolimus 5 mg daily) was defined as the highest dose with acceptable toxicity (RP2D).|||
92260041|NCT01012037|184422686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.97|-0.52|||ANCOVA|||Linagliptin 2.5mg bid versus Placebo||-0.52|-0.97|<0.0001
92284797|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 57 ACR 20|22.0|||<|0.001|TWO_SIDED|95.0|11.3|32.8|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||32.8|11.3|<0.001
92180745|NCT02307682|184260711|OTHER||Difference in proportions|7.2|||||TWO_SIDED|95.0|1.4|13.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||13.8|1.4|
92260042|NCT01012037|184422686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-1.02|-0.58|||ANCOVA|||Linagliptin 5mg qd versus Placebo||-0.58|-1.02|<0.0001
92260043|NCT01012037|184422686|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin was +0.35|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.07||||95.0|-0.07|0.19|||ANCOVA|||Linagliptin 2.5mg bid versus Linagliptin 5mg qd||0.19|-0.07|
92260044|NCT01012037|184422687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.83|-0.48|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Placebo||-0.48|-0.83|<0.0001
92260045|NCT01012037|184422687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.84|-0.49|||Mixed Models Analysis|||Linagliptin 5mg qd versus Placebo||-0.49|-0.84|<0.0001
92260046|NCT01012037|184422687|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin was +0.35|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.05||||95.0|-0.1|0.1|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Linagliptin 5mg qd||0.10|-0.10|
92260047|NCT01012037|184422688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001||95.0|-1.0|-0.54|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Placebo||-0.54|-1.00|<0.0001
92260048|NCT01012037|184422688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001||95.0|-1.05|-0.59|||Mixed Models Analysis|||Linagliptin 5mg qd versus Placebo||-0.59|-1.05|<0.0001
92284798|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 57 ACR 50|6.5||||0.076|TWO_SIDED|95.0|-0.6|13.7|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||13.7|-0.6|0.076
92260049|NCT01012037|184422688|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin was +0.35|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.07||||95.0|-0.08|0.18|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Linagliptin 5mg qd||0.18|-0.08|
92260050|NCT01012037|184422689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|STANDARD_ERROR_OF_MEAN|4.6||0.0029||95.0|-22.7|-4.7|||ANCOVA|||Linagliptin 2.5mg bid versus Placebo||-4.7|-22.7|0.0029
92260051|NCT01012037|184422689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|STANDARD_ERROR_OF_MEAN|4.6||0.0001||95.0|-26.7|-8.8|||ANCOVA|||Linagliptin 5 mg qd versus Placebo||-8.8|-26.7|0.0001
92260052|NCT01012037|184422689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1|STANDARD_ERROR_OF_MEAN|2.6||||95.0|-1.0|9.2|||ANCOVA||No non-inferiority margin was pre-defined for FPG|Linagliptin 2.5mg bid versus Linagliptin 5mg qd||9.2|-1.0|
92260053|NCT01012037|184422690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.6|STANDARD_ERROR_OF_MEAN|4.4||0.0002||95.0|-25.3|-7.8|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Placebo||-7.8|-25.3|0.0002
92260054|NCT01012037|184422690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.9|STANDARD_ERROR_OF_MEAN|4.4|<|0.0001||95.0|-27.6|-10.2|||Mixed Models Analysis|||Linagliptin 5mg qd versus Placebo||-10.2|-27.6|<0.0001
92260055|NCT01012037|184422690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|2.5||||95.0|-2.6|7.3|||Mixed Models Analysis||No non-inferiority margin was pre-defined for FPG|Linagliptin 2.5mg bid versus Linagliptin 5mg qd||7.3|-2.6|
92260056|NCT01012037|184422691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.0|STANDARD_ERROR_OF_MEAN|5.4||0.0653||95.0|-20.6|0.6|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Placebo||0.6|-20.6|0.0653
92260057|NCT01012037|184422691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|STANDARD_ERROR_OF_MEAN|5.4||0.0047||95.0|-25.8|-4.7|||Mixed Models Analysis|||Linagliptin 5mg qd versus Placebo||-4.7|-25.8|0.0047
92260058|NCT01012037|184422691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3|STANDARD_ERROR_OF_MEAN|3.0||||95.0|-0.7|11.3|||Mixed Models Analysis||No non-inferiority margin was pre-defined for FPG|Linagliptin 2.5mg bid versus Linagliptin 5mg qd||11.3|-0.7|
92260059|NCT02237898|184422700|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
92260060|NCT02176005|184422708|OTHER||Contrast (B/A)|0.0093|||<|1e-06|TWO_SIDED|95.0|0.006|0.0144|||General linear model|||||0.0144|0.0060|<.000001
92260061|NCT02176005|184422709|OTHER||Contrast (B/A)|0.0096|||<|1e-06|TWO_SIDED|95.0|0.0061|0.0151|||General linear model|||||0.0151|0.0061|<.000001
92260062|NCT02176005|184422710|OTHER||Contrast (B/A)|0.9811||||0.806|TWO_SIDED|95.0|0.8608|1.1182|||General linear model|||||1.1182|0.8608|0.806
92260063|NCT02176005|184422711|OTHER||Contrast (B/A)|0.8785||||0.139|TWO_SIDED|95.0|0.76|1.0155|||General linear model|||||1.0155|0.7600|0.139
92260064|NCT02176005|184422712|OTHER||Contrast (B/A)|1.1763||||0.104|TWO_SIDED|95.0|0.9982|1.3861|||General linear model|||||1.3861|0.9982|0.104
92260065|NCT02176005|184422713|OTHER||Contrast (B/A)|0.9391||||0.519|TWO_SIDED|95.0|0.7969|1.1066|||General linear model|||||1.1066|0.7969|0.519
92260066|NCT01628718|184422752|NON_INFERIORITY|The NI margin for CAPS-IV scores was established a priori, based on a calculation of a reliable difference from baseline to posttreatment CAPS-IV scores from a previous trial (10 points). If the 95% confidence interval (CI) around the estimate does not contain the NI margin, we can reject the null hypothesis and accept the alternative hypothesis. .|Mean Difference (Final Values)|0.33||||0.05|TWO_SIDED|95.0|-10.1|9.44||one-tailed|Regression, Linear||Mean difference is the difference in mean CAPS-IV change scores (pre-post) between AD and CPT-C.|Null hypothesis: AD is inferior to CPT Alternative hypothesis: AD is non-inferior to CPT-C||9.44|-10.10|.05
92260067|NCT01981096|184422753|SUPERIORITY|||||||0.011||||||The a priori threshold was alpha = .05.|ANCOVA|Adjusted for age and baseline pain levels||This analysis represents the between group comparisons (i.e., FIT Teens vs. CBT) from baseline assessment to the 3-month follow-up, the primary endpoint of the trial.||||.011
92260068|NCT01981096|184422754|SUPERIORITY|||||||0.055||||||The a priori threshold was alpha = .05.|ANCOVA|Adjusted for age and baseline pain levels||This analysis represents the between group comparisons (i.e., FIT Teens vs. CBT) from baseline assessment to the 3-month follow-up, the primary endpoint of the trial.||||.055
92260069|NCT02140762|184422784|SUPERIORITY_OR_OTHER||Vaccine Effectiveness|67.0|||<|0.0001|TWO_SIDED|95.0|65.0|69.0|||Generalized Linear Model||VE is based on the relative risk (RR). The Poisson Distribution and Log Link options were used in the generalized linear model to compute the log10 RR and the corresponding confidence interval. Fixed effects: treatment group, strain (and center).|H0 (Null Hypothesis): Vaccine Effectiveness (VE) ≤10%. If the lower limit of the 95% CI for VE is \> 10% the null hypothesis is to be rejected and effectiveness declared. The VE at 1 month after the 2nd injection for each strain is defined as \[1-(% of subjects without bactericidal activity at 1:4 dilution in MenABCWY group / % of subjects without bactericidal activity at 1:4 dilution in MenACWY group)\]x100. The combined VE across all strains will be computed by mean of a generalized linear model.||69|65|<0.0001
92260070|NCT02140762|184422784|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|4.6|||||TWO_SIDED||||||Generalized Linear Model|||vaccine effectiveness\<10% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity strains in ABCWY)/(% of not killed strains/without bactericidal activity strains in ACWY)\*100\].||||
92260071|NCT02140762|184422784|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|12.7|||||TWO_SIDED||||||generalized linear model.|||Vaccine effectiveness \<30% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity strains in ABCWY)/(% of not killed strains/without bactericidal activity strains in ACWY)\*100\].||||
92260072|NCT02140762|184422784|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|18.2|||||TWO_SIDED|||||||||Vaccine effectiveness\<60% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity strains in ABCWY)/(% of not killed strains/without bactericidal activity strains in ACWY)\*100\].||||
92260073|NCT02140762|184422784|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|59.1|||||TWO_SIDED|||||||||Vaccine effectiveness \<100% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity strains in ABCWY)/(% of not killed strains/without bactericidal activity strains in ACWY)\*100\].||||
92260074|NCT02140762|184422785|SUPERIORITY_OR_OTHER||Vaccine effectiveness|44.0|||<|0.0001|TWO_SIDED|95.0|41.0|47.0|||General Linear Model (GLM)||VE is based on the relative risk (RR). The POISSON DISTRIBUTION and LOG LINK options was used in the generalized linear model to compute the log10 RR and the corresponding confidence interval. Fixed effects: treatment group, strain (and center).|H0 (Null Hypothesis): Vaccine Effectiveness (VE) ≤10%. If the LL of the 95% CI for VE is \> 10% the null hypothesis is to be rejected and effectiveness declared. The VE at 4 months after the second injection for each strain is defined as \[1 - (% of subjects without bactericidal activity at 1:4 dilution in MenABCWY group / % of subjects without bactericidal activity at 1:4 dilution in MenACWY group)\] x 100.The combined VE across all strains will be computed by mean of a generalized linear model.||47|41|< 0.0001
92284799|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 57 ACR 70|5.1||||0.019|TWO_SIDED|95.0|0.7|9.4|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||9.4|0.7|0.019
92260075|NCT02140762|184422785|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|9.1|||||TWO_SIDED|||||||||Vaccine effectiveness\<10% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:4 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92260076|NCT02140762|184422785|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|22.7|||||TWO_SIDED|||||||||Vaccine effectiveness\<30% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:4 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92260077|NCT02140762|184422785|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|19.1|||||TWO_SIDED|||||||||Vaccine effectiveness\<60% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:4 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92260078|NCT02140762|184422785|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|38.2|||||TWO_SIDED|||||||||Vaccine effectiveness\<100% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:4 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92284800|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 85 ACR 20|28.0|||<|0.001|TWO_SIDED|95.0|17.4|38.7|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||38.7|17.4|<0.001
92260079|NCT02140762|184422786|SUPERIORITY_OR_OTHER||Vaccine Effectiveness|46.0|||<|0.0001|TWO_SIDED|95.0|43.0|49.0|||Generalized Linear Model||VE is based on the relative risk (RR).The Poisson Distribution and Log Link options were used in the generalized linear model to compute the log10 RR and the corresponding confidence interval. Fixed effects:treatment group, strain (and center).|H0 (Null Hypothesis): Vaccine Effectiveness (VE) ≤ 10%. If the lower limit of the 95% CI for VE is \>10% the null hypothesis is to be rejected and effectiveness declared. The VE at 1 month after the 2nd injection for each strain is defined as \[1-(% of subjects without bactericidal activity at 1:8 dilution in MenABCWY group / % of subjects without bactericidal activity at 1:8 dilution in MenACWY group)\]x100. The combined VE across all strains will be computed by mean of a generalized linear model.||49|43|<0.0001
92180746|NCT02307682|184260712|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-4.3|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||6.9|-4.3|
92180747|NCT02307682|184260712|OTHER||Difference in proportions|6.3|||||TWO_SIDED|95.0|0.6|12.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||12.2|0.6|
92180748|NCT02307682|184260712|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-6.6|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||6.7|-6.6|
92180749|NCT02307682|184260712|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-4.7|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||8.0|-4.7|
92180750|NCT02307682|184260712|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-6.2|7.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||7.1|-6.2|
92180751|NCT02307682|184260712|OTHER||Difference in proportions|6.0|||||TWO_SIDED|95.0|-0.8|12.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||12.7|-0.8|
92287101|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|0.107|||<|0.001|TWO_SIDED|95.0|0.048|0.166|||ANCOVA|||"Comparison groups:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment and period as fixed effects, subject as random effect, baseline FEV1 value as covariate. CIs and p-values for CHF 1531 pMDI vs Placebo are adjusted for multiplicity (parametric simulation method by Edwards and Berry). Patients receiving the same treatment during two periods are considered twice in the ANCOVA model (once for each period attended)."||0.166|0.048|<0.001
92180752|NCT02307682|184260712|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-6.0|7.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||7.7|-6.0|
92180753|NCT02307682|184260712|OTHER||Difference in proportions|5.6|||||TWO_SIDED|95.0|-1.5|12.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||12.2|-1.5|
92180754|NCT02307682|184260712|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-6.5|7.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||7.0|-6.5|
92180755|NCT02307682|184260712|OTHER||Difference in proportions|5.2|||||TWO_SIDED|95.0|-1.8|12.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||12.2|-1.8|
92180756|NCT02307682|184260712|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-4.0|9.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||9.5|-4.0|
92180757|NCT02307682|184260712|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-3.5|11.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||11.3|-3.5|
92180758|NCT02307682|184260712|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-5.9|8.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||8.2|-5.9|
92180759|NCT02307682|184260712|OTHER||Difference in proportions|3.9|||||TWO_SIDED|95.0|-3.4|11.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||11.2|-3.4|
92180760|NCT02307682|184260712|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-8.2|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||5.9|-8.2|
92260080|NCT02140762|184422786|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|25.5|||||TWO_SIDED|||||||||Vaccine effectiveness\<10% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92287102|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|0.157|||<|0.001|TWO_SIDED|95.0|0.096|0.217|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.217|0.096|<0.001
92260081|NCT02140762|184422786|OTHER|For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].|Vaccine Effectiveness|19.1|||||TWO_SIDED|||||||||Vaccine effectiveness\<30%||||
92260082|NCT02140762|184422786|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|10.9|||||TWO_SIDED|||||||||Vaccine effectiveness\<60% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92287103|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|0.133|||<|0.001|TWO_SIDED|95.0|0.073|0.193|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.193|0.073|<0.001
92260083|NCT02140762|184422786|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|40.9|||||TWO_SIDED|||||||||Vaccine effectiveness\<100% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92260084|NCT02140762|184422787|SUPERIORITY_OR_OTHER||Vaccine Effectiveness|20.0|||<|0.0001|TWO_SIDED|95.0|16.0|23.0||VE is based on the relative risk (RR). The POISSON DISTRIBUTION and LOG LINK options was used in the generalized linear model to compute the log10 RR and the corresponding confidence interval. Fixed effects: treatment group, strain (and center).|Generalized Linear Model||VE is based on the relative risk (RR). The POISSON DISTRIBUTION and LOG LINK options was used in the generalized linear model to compute the log10 RR and the corresponding confidence interval. Fixed effects: treatment group, strain (and center).|H0 (Null Hypothesis): Vaccine Effectiveness (VE) ≤10%. If the lower limit of 95% CI for VE is \> 10% the null hypothesis is to be rejected and effectiveness declared. The VE at 4 months after the 2nd injection for each strain is defined as \[1 - (% of subjects without bactericidal activity at 1:8 dilution in MenABCWY group/% of subjects without bactericidal activity at 1:8 dilution in MenACWY group)\] x 100. The combined VE across all strains was computed by mean of a generalized linear model.||23|16|< 0.0001
92260085|NCT02140762|184422787|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|36.4|||||TWO_SIDED|||||||||Vaccine effectiveness\<10% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92260086|NCT02140762|184422787|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|15.5|||||TWO_SIDED|||||||||Vaccine effectiveness\<30% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92260087|NCT02140762|184422787|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|20.9|||||TWO_SIDED|||||||||Vaccine effectiveness\<60% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92260088|NCT02140762|184422787|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|11.8|||||TWO_SIDED|||||||||Vaccine effectiveness\<100% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
92260089|NCT01899729|184422812|OTHER|Used mixed effects model||||||0.06|||||||Mixed Models Analysis|||||||0.06
92260090|NCT01454531|184422816|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Paired values|t-test, 2 sided|||The null hypothesis is no changes in IgE-blocking factor values from visit 1 (baseline) to visit 6 (end of treatment) versus the alternative hypothesis of change in IgE-blocking factor values||||<0.001
92260091|NCT01454531|184422817|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Paired samples|t-test, 2 sided|||The null hypothesis is no changes in Phleum specific IgG4 values from visit 1 (baseline) to visit 6 (end of treatment) versus the alternative hypothesis of change in Phleum specific IgG4 values||||<0.001
92260092|NCT01454531|184422818|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Parallel Line Assay|||Parallel Line Assay is based on the construction of two dose-response regression lines obtained plotting the allergen concentration used to prick test the subjects against the wheal size obtained. ANOVA allows to check for regression, linearity and parallelism. A common slope and y-intercepts are calculated. The CTI is the exponentiation of the difference between y-intercepts divided by the common slope. (Finney D.J., Statistical Method in Biological Assay, 1978).||||<0.01
92260093|NCT01711359|184422822|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority is concluded if the lower bound of the 95% CI for the difference in response rate is \>-12%|Newcombe-Wilson method|14.8|||||TWO_SIDED|95.0|5.5|24.1|||||Estimation Parameter: Newcombe-Wilson method without continuity correction for difference in the response rate (Baricitinib minus Methotrexate).|||24.1|5.5|
92260094|NCT01385098|184422846|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
92260095|NCT01385098|184422847|SUPERIORITY_OR_OTHER|||||||0.013||||||Change from preoperative to 12 weeks|Wilcoxon (Mann-Whitney)|||||||0.013
92260096|NCT01385098|184422847|SUPERIORITY_OR_OTHER|||||||0.01||||||Change from preoperative to 12 weeks|Wilcoxon (Mann-Whitney)|||||||0.010
92260097|NCT03756285|184422865|SUPERIORITY||Least Square Means Ratio|0.25|||<|0.001|TWO_SIDED|95.0|0.12|0.52|||Mixed Models Analysis|Covariates: atrial fibrillation status at randomization, baseline value, treatment, visit, and treatment\*visit.||||0.52|0.12|<0.001
92180761|NCT02307682|184260712|OTHER||Difference in proportions|3.6|||||TWO_SIDED|95.0|-3.2|10.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||10.5|-3.2|
92180762|NCT02307682|184260712|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-7.3|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||6.8|-7.3|
92180763|NCT02307682|184260712|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-5.2|8.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||8.6|-5.2|
92180764|NCT02307682|184260712|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-7.8|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||6.6|-7.8|
92260098|NCT03756285|184422866|SUPERIORITY||Least Square Means Ratio|0.97||||0.568|ONE_SIDED|95.0|0.74||||ANCOVA|Covariates: atrial fibrillation status at randomization, baseline value, treatment|||||0.74|0.568
92260099|NCT03756285|184422867|SUPERIORITY||Mean Difference (Final Values)|21.8||||0.407|TWO_SIDED|95.0|-30.5|74.1|||Mixed Models Analysis|Covariates: atrial fibrillation status at randomization, baseline value, treatment, visit, and treatment\*visit.||||74.1|-30.5|0.407
92260100|NCT05315297|184422890|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
92260101|NCT05315297|184422891|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92260102|NCT05315297|184422892|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
92260103|NCT05315297|184422893|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||0.59
92260104|NCT05315297|184422894|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
92180765|NCT02307682|184260712|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-4.8|10.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||10.0|-4.8|
92180766|NCT02307682|184260712|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-4.4|9.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||9.2|-4.4|
92180767|NCT02307682|184260712|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-7.1|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||7.2|-7.1|
92180768|NCT02307682|184260712|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-7.9|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.2|-7.9|
92180769|NCT02307682|184260712|OTHER||Difference in proportions|2.4|||||TWO_SIDED|95.0|-4.5|9.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||9.2|-4.5|
92180770|NCT02307682|184260712|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-6.8|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||8.1|-6.8|
92260105|NCT05315297|184422895|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
92260106|NCT00711009|184422896|NON_INFERIORITY_OR_EQUIVALENCE|The exact 95% confidence interval for the difference in response rates (LPV/r + RAL minus LPV/r + FTC/TDF) was used to assess non-inferiority. The LPV/r+RAL arm was considered non-inferior to the LPV/r+FTC/TDF arm because the lower limit of the confidence interval was \>/= -20%. Because the LPV/r+RAL arm was considered non-inferior based on the 20% margin, the results were assessed on a more rigorous 12% margin (-12%), as prespecified.|Diff. in Percentage of Subj. Responding|-1.6||||0.85|TWO_SIDED|95.0|-12.0|8.8|||exact binomial method|||The null hypothesis was that the response rate for the LPV/r + RAL arm was more than 20% lower than the response rate for the LPV/r + FTC/TDF arm. The planned sample size of 100 participants per treatment group provided 90% power to conclude that the LPV/r + RAL arm was non-inferior to the control arm, based on a non-inferiority margin of -20% (with a type I error rate of 0.05).||8.8|-12.0|0.850
92180771|NCT02307682|184260712|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-5.8|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||8.4|-5.8|
92260107|NCT02534324|184422979|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Chi-squared|||||||0.49
92260108|NCT02534324|184422980|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||t-test, 2 sided|||||||0.15
92260109|NCT01138995|184422981|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Fisher's combination test|Between group difference for entire sample||||||0.75
92260110|NCT01138995|184422982|SUPERIORITY_OR_OTHER||||||<|0.022|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.022
92260111|NCT01138995|184422983|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92180772|NCT02307682|184260712|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-6.1|8.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||8.2|-6.1|
92180773|NCT02307682|184260712|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-8.6|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||5.6|-8.6|
92180774|NCT02307682|184260712|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-7.0|7.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||7.1|-7.0|
92180775|NCT02307682|184260712|OTHER||Difference in proportions|3.4|||||TWO_SIDED|95.0|-3.5|11.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||11.0|-3.5|
92180776|NCT02307682|184260712|OTHER||Difference in proportions|4.0|||||TWO_SIDED|95.0|-3.0|10.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||10.8|-3.0|
92180777|NCT02307682|184260712|OTHER||Difference in proportions|5.5|||||TWO_SIDED|95.0|-1.4|13.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||13.0|-1.4|
92287104|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.001|TWO_SIDED|95.0|0.103|0.217|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.217|0.103|<0.001
92260112|NCT01432236|184423025|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61||||0.0001|TWO_SIDED|95.0|-0.91|-0.31||Primary analysis was two-sided and performed at the 0.05 significance level.|Mixed Models Analysis|Satterthwaite's approximation was used to estimate denominator degrees of freedom.||Analysis was done using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.31|-0.91|0.0001
92260113|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.6|||<|0.0001|TWO_SIDED|95.0|-9.33|-3.87||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the FIQ total score. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-3.87|-9.33|<0.0001
92260114|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.42||||0.0078|TWO_SIDED|95.0|-0.74|-0.11||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for parameter 'physical impairment'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.11|-0.74|0.0078
92260115|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85||||0.0014|TWO_SIDED|95.0|-1.36|-0.33||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'feel good'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.33|-1.36|0.0014
92260116|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59||||0.005|TWO_SIDED|95.0|-1.01|-0.18||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above for parameter 'work missed'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.18|-1.01|0.0050
92260117|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75||||0.0002|TWO_SIDED|95.0|-1.14|-0.36||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'do work'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.36|-1.14|0.0002
92260118|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64||||0.0006|TWO_SIDED|95.0|-1.0|-0.28||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'pain'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.28|-1.00|0.0006
92260119|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44||||0.0315|TWO_SIDED|95.0|-0.85|-0.04||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'fatigue'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.04|-0.85|0.0315
92260120|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.76||||0.0003|TWO_SIDED|95.0|-1.17|-0.35||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'rested'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.35|-1.17|0.0003
92260121|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71||||0.0007|TWO_SIDED|95.0|-1.11|-0.31||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'stiffness'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.31|-1.11|0.0007
92180778|NCT02307682|184260712|OTHER||Difference in proportions|2.7|||||TWO_SIDED|95.0|-4.1|9.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||9.5|-4.1|
92260122|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55||||0.0048|TWO_SIDED|95.0|-0.93|-0.17||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'anxiety'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.17|-0.93|0.0048
92260123|NCT01432236|184423027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.32|-0.53||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'depression'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.53|-1.32|<0.0001
92260124|NCT01432236|184423028|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0637|TWO_SIDED|||||This analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Cochran-Mantel-Haenszel|||The PGIC variable was analyzed using Cochran Mantel-Haenszel (CMH) test with modified ridit transformation.||||0.0637
92260125|NCT01432236|184423029|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116|TWO_SIDED|||||This analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Cochran-Mantel-Haenszel|||The PGIC variable was analyzed using CMH test with modified ridit transformation.||||0.1160
92180779|NCT02307682|184260712|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-4.8|9.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||9.7|-4.8|
92260126|NCT01432236|184423030|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007|TWO_SIDED|||||This secondary analyses was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Regression, Logistic|||Statistical analysis presented above is for 30% responders. Analysis was conducted using a logistic regression model using sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors. Logit link transformation was used for the model.||||0.0007
92260127|NCT01432236|184423030|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0205|TWO_SIDED|||||This secondary analyses was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Regression, Logistic|||Statistical analysis presented above is for 50% responders. Analysis was conducted using a logistic regression model using sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors. Logit link transformation was used for the model.||||0.0205
92260128|NCT01432236|184423031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|||<|0.0001|TWO_SIDED|95.0|0.31|0.84||This was done using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-subject error as random factors.||0.84|0.31|<0.0001
92260129|NCT01432236|184423032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.81||||0.0018|TWO_SIDED|95.0|-12.66|-2.96||This was done using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-2.96|-12.66|0.0018
92260130|NCT01432236|184423033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.8||||0.0117|TWO_SIDED|95.0|-10.29|-1.31||This was done using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors||-1.31|-10.29|0.0117
92260131|NCT01432236|184423034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.35||||0.0511|TWO_SIDED|95.0|-0.04|16.74||This was done using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||16.74|-0.04|0.0511
92260132|NCT01432236|184423035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13||||0.1139|TWO_SIDED|95.0|-0.29|0.03||This was done using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors. Analyzed as a count variable using a generalized linear model assuming a Poisson distribution and utilizing a log link transformation.||0.03|-0.29|0.1139
92284801|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 85 ACR 50|12.0||||0.002|TWO_SIDED|95.0|4.1|19.8|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||19.8|4.1|0.002
92287105|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|0.147|||<|0.001|TWO_SIDED|95.0|0.102|0.192|||ANCOVA|||"Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment and period as fixed effects, subject as random effect, baseline FEV1 value as covariate. Patients receiving the same treatment during two periods are considered twice in the ANCOVA model (once for each period attended)."||0.192|0.102|<0.001
92260133|NCT01432236|184423037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.95|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.5||Two-sided test with α=0.05 was used. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analysis presented in the above table is for HADS-A (anxiety). Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.50|-1.40|<0.0001
92260134|NCT01432236|184423037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.88||||0.0005|TWO_SIDED|95.0|-1.37|-0.39||Two-sided test with α=0.05 was used. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analysis presented in the above table is for HADS-D (depression). Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and subject within sequence and within-subject error as random factors.||-0.39|-1.37|0.0005
92260135|NCT01432236|184423039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.3854|TWO_SIDED|95.0|-0.02|0.06||Two-sided test with α=0.05 was used. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||0.06|-0.02|0.3854
92260136|NCT01432236|184423041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.55||||0.0085|TWO_SIDED|95.0|0.14|0.97||Two-sided test with α=0.05 was used. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||0.97|0.14|0.0085
92260137|NCT05064449|184423047|OTHER||Geometric Mean Ratio (%)|116.59|||||TWO_SIDED|90.0|91.3|148.9|||||GMR (%) was calculated as 100\*(Soticlestat + Itraconazole / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90 percent (%) confidence intervals (CIs) for the geometric mean ratio (GMR) of Cmax for soticlestat with versus without itraconazole were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed Cmax.||148.90|91.30|
92260138|NCT05064449|184423048|OTHER||Geometric Mean Ratio (%)|107.31|||||TWO_SIDED|90.0|88.02|130.83|||||GMR (%) was calculated as 100\*(Soticlestat + Mefenamic Acid / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90% CIs for the GMR of Cmax for soticlestat with versus without mefenamic acid were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed Cmax.||130.83|88.02|
92260139|NCT05064449|184423049|OTHER||Geometric Mean Ratio (%)|123.96|||||TWO_SIDED|90.0|106.21|144.68|||||GMR (%) was calculated as 100\*(Soticlestat + Itraconazole / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90% CIs for the GMR of AUC∞ for soticlestat with versus without itraconazole were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed AUC∞.||144.68|106.21|
92180780|NCT02307682|184260712|OTHER||Difference in proportions|5.2|||||TWO_SIDED|95.0|-1.6|12.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||12.3|-1.6|
92180781|NCT02307682|184260712|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-5.4|8.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||8.6|-5.4|
92180782|NCT02307682|184260712|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-4.8|9.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||9.4|-4.8|
92180783|NCT02307682|184260712|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-5.0|8.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||8.2|-5.0|
92180784|NCT02307682|184260712|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-6.9|7.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||7.4|-6.9|
92180785|NCT02307682|184260712|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-5.1|8.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||8.5|-5.1|
92180786|NCT02307682|184260712|OTHER||Difference in proportions|3.0|||||TWO_SIDED|95.0|-3.9|10.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||10.1|-3.9|
92180787|NCT02307682|184260712|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-5.0|9.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||9.1|-5.0|
92180788|NCT02307682|184260712|OTHER||Difference in proportions|4.6|||||TWO_SIDED|95.0|-2.5|11.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||11.8|-2.5|
92180789|NCT02307682|184260712|OTHER||Difference in proportions|3.3|||||TWO_SIDED|95.0|-3.4|10.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||10.6|-3.4|
92180790|NCT02307682|184260712|OTHER||Difference in proportions|5.1|||||TWO_SIDED|95.0|-1.6|12.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||12.2|-1.6|
92180791|NCT02307682|184260712|OTHER||Difference in proportions|3.9|||||TWO_SIDED|95.0|-3.0|11.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||11.2|-3.0|
92180792|NCT02307682|184260712|OTHER||Difference in proportions|5.6|||||TWO_SIDED|95.0|-1.9|12.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||12.7|-1.9|
92180793|NCT02307682|184260712|OTHER||Difference in proportions|5.7|||||TWO_SIDED|95.0|-1.0|12.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||12.6|-1.0|
92180794|NCT02307682|184260713|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-7.7|6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||6.0|-7.7|
92180795|NCT02307682|184260713|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-5.3|8.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||8.7|-5.3|
92180796|NCT02307682|184260713|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-7.4|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||6.8|-7.4|
92180797|NCT02307682|184260713|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-8.9|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||5.3|-8.9|
92260140|NCT05064449|184423050|OTHER||Geometric Mean Ratio (%)|100.57|||||TWO_SIDED|90.0|86.17|117.38|||||GMR (%) was calculated as 100\*(Soticlestat + Mefenamic Acid / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90% CIs for the GMR of AUC∞ for soticlestat with versus without mefenamic acid were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed AUC∞.||117.38|86.17|
92260141|NCT05064449|184423051|OTHER||Geometric Mean Ratio (%)|121.97|||||TWO_SIDED|90.0|103.47|143.79|||||GMR (%) was calculated as 100\*(Soticlestat + Itraconazole / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90% CIs for the GMR of AUClast for soticlestat with versus without itraconazole were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed AUClast.||143.79|103.47|
92260142|NCT05064449|184423052|OTHER||Geometric Mean Ratio (%)|107.38|||||TWO_SIDED|90.0|91.68|125.77|||||GMR (%) was calculated as 100\*(Soticlestat + Mefenamic Acid / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90% CIs for the GMR of AUClast for soticlestat with versus without mefenamic acid were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed AUClast.||125.77|91.68|
92260143|NCT05064449|184423053|OTHER||Median Difference (Final Values)|0.003|||=|0.2305|TWO_SIDED|90.0|-0.001|0.126|||Wilcoxon Signed Rank Test||Difference was calculated as (Soticlestat + Itraconazole) - Soticlestat Alone. The difference of medians (treatment effect) and the corresponding 90% CI was estimated using the Hodges-Lehmann method and Walsh Averages.|||0.126|-0.001|=0.2305
92180798|NCT02307682|184260713|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-8.1|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||5.9|-8.1|
92180799|NCT02307682|184260713|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-4.8|8.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||8.8|-4.8|
92180800|NCT02307682|184260713|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-9.8|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||4.7|-9.8|
92180801|NCT02307682|184260713|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-5.3|8.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||8.6|-5.3|
92180802|NCT02307682|184260713|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-9.7|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||3.6|-9.7|
92180803|NCT02307682|184260713|OTHER||Difference in proportions|-4.1|||||TWO_SIDED|95.0|-11.4|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||3.3|-11.4|
92180804|NCT02307682|184260713|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-7.6|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||6.1|-7.6|
92180805|NCT02307682|184260713|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-4.4|10.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||10.0|-4.4|
92180806|NCT02307682|184260713|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-7.2|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||6.9|-7.2|
92180807|NCT02307682|184260713|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-6.3|7.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||7.8|-6.3|
92180808|NCT02307682|184260713|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-4.7|9.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||9.2|-4.7|
92180809|NCT02307682|184260713|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|-3.9|10.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||10.3|-3.9|
92180810|NCT02307682|184260713|OTHER||Difference in proportions|-6.0|||||TWO_SIDED|95.0|-12.6|1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||1.3|-12.6|
92260144|NCT05064449|184423054|OTHER||Median Difference (Final Values)|-0.096|||=|0.583|TWO_SIDED|90.0|-0.128|0.018|||Wilcoxon Signed Rank Test||Difference was calculated as (Soticlestat + Mefenamic Acid) - Soticlestat Alone. The difference of medians (treatment effect) and the corresponding 90% was estimated using the Hodges-Lehmann method and Walsh Averages.|||0.018|-0.128|=0.5830
92180811|NCT02307682|184260713|OTHER||Difference in proportions|-5.4|||||TWO_SIDED|95.0|-12.7|1.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||1.9|-12.7|
92260145|NCT04450394|184423068|NON_INFERIORITY|The non-inferiority margin is 0.4%. Non-inferiority is achieved if the upper limit of the 90% Confidence Interval is below 0.4.|LS Mean Difference|0.06|||||TWO_SIDED|90.0|-0.11|0.24||||||||0.24|-0.11|
92260146|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.596||||0.0045|TWO_SIDED|95.0|1.704|18.378|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (ASIAN vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week \[Wk\] 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||18.378|1.704|0.0045
92180812|NCT02307682|184260713|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-8.1|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||5.6|-8.1|
92180813|NCT02307682|184260713|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-6.2|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||7.9|-6.2|
92180814|NCT02307682|184260713|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-9.6|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||3.9|-9.6|
92180815|NCT02307682|184260713|OTHER||Difference in proportions|-2.0|||||TWO_SIDED|95.0|-9.1|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||5.4|-9.1|
92180816|NCT02307682|184260713|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-11.1|2.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||2.1|-11.1|
92260147|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.989||||0.9755|TWO_SIDED|95.0|0.497|1.967|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (BLACK vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.967|0.497|0.9755
92260148|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.743||||0.4786|TWO_SIDED|95.0|0.327|1.688|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (HISPANIC vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.688|0.327|0.4786
92180817|NCT02307682|184260713|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-10.4|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||3.5|-10.4|
92180818|NCT02307682|184260713|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-8.0|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||5.7|-8.0|
92180819|NCT02307682|184260713|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-9.7|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.8|-9.7|
92180820|NCT02307682|184260713|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-5.5|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||7.9|-5.5|
92180821|NCT02307682|184260713|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-7.2|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.5|-7.2|
92180822|NCT02307682|184260713|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-5.8|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||8.4|-5.8|
92180823|NCT02307682|184260713|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-7.2|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||6.9|-7.2|
92260149|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.38||||0.014|TWO_SIDED|95.0|1.405|20.597|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (OTHER vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||20.597|1.405|0.0140
92284802|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 85 ACR 70|5.1||||0.033|TWO_SIDED|95.0|0.4|9.8|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||9.8|0.4|0.033
92180824|NCT02307682|184260713|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-7.9|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.5|-7.9|
92260150|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.078|||<|0.0001|TWO_SIDED|95.0|1.062|1.094|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.094|1.062|<0.0001
92260151|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.136||||0.0035|TWO_SIDED|95.0|1.819|20.701|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (ASIAN vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||20.701|1.819|0.0035
92260152|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.903||||0.7821|TWO_SIDED|95.0|0.439|1.857|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (BLACK vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.857|0.439|0.7821
92180825|NCT02307682|184260713|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-6.6|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||7.9|-6.6|
92180826|NCT02307682|184260713|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-9.4|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||5.2|-9.4|
92180827|NCT02307682|184260713|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-10.0|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.0|-10.0|
92260153|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.4846|TWO_SIDED|95.0|0.317|1.723|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (HISPANIC vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.723|0.317|0.4846
92260154|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.424||||0.017|TWO_SIDED|95.0|1.353|21.749|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (OTHER vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||21.749|1.353|0.0170
92260155|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.695||||0.0125|TWO_SIDED|95.0|0.523|0.925|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.925|0.523|0.0125
92260156|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.472||||0.0139|TWO_SIDED|95.0|1.288|9.357|||Regression, Logistic|||The statistical analysis is presented for average number of drinks per week (1 vs 0). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||9.357|1.288|0.0139
92260157|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.179||||0.6327|TWO_SIDED|95.0|0.601|2.311|||Regression, Logistic|||The statistical analysis is presented for average number of drinks per week (\> 1 vs 0). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.311|0.601|0.6327
92260158|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.061|||<|0.0001|TWO_SIDED|95.0|1.042|1.08|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.080|1.042|<0.0001
92180828|NCT02307682|184260713|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-6.2|8.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||8.2|-6.2|
92260159|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.185||||0.0033|TWO_SIDED|95.0|1.058|1.326|||Regression, Logistic|||The statistical analysis is presented for Cumulative PEG-IFN alfa-2a dose per 1000 ug. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.326|1.058|0.0033
92180829|NCT02307682|184260713|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-5.5|9.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||9.3|-5.5|
92180830|NCT02307682|184260713|OTHER||Difference in proportions|2.4|||||TWO_SIDED|95.0|-5.1|9.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||9.6|-5.1|
92180831|NCT02307682|184260713|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-5.0|8.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||8.9|-5.0|
92180832|NCT02307682|184260713|OTHER||Difference in proportions|3.2|||||TWO_SIDED|95.0|-3.9|10.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||10.3|-3.9|
92180833|NCT02307682|184260713|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-6.1|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||8.1|-6.1|
92180834|NCT02307682|184260713|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-5.1|8.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||8.9|-5.1|
92180835|NCT02307682|184260713|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-5.9|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||8.4|-5.9|
92180836|NCT02307682|184260713|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-8.5|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||5.8|-8.5|
92180837|NCT02307682|184260713|OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-9.7|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.7|-9.7|
92180838|NCT02307682|184260713|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-7.9|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||6.5|-7.9|
92180839|NCT02307682|184260713|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-9.1|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||5.5|-9.1|
92180840|NCT02307682|184260713|OTHER||Difference in proportions|4.6|||||TWO_SIDED|95.0|-2.9|11.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||11.2|-2.9|
92180841|NCT02307682|184260713|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-6.6|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||8.0|-6.6|
92180842|NCT02307682|184260714|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-1.4|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||2.2|-1.4|
92180843|NCT02307682|184260714|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-0.5|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||4.0|-0.5|
92180844|NCT02307682|184260714|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-2.6|1.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.5|-2.6|
92180845|NCT02307682|184260714|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-1.7|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.9|-1.7|
92180846|NCT02307682|184260714|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-3.3|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.2|-3.3|
92180847|NCT02307682|184260714|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-3.2|2.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.7|-3.2|
92180848|NCT02307682|184260714|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-3.0|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||2.4|-3.0|
92180849|NCT02307682|184260714|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-2.4|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||3.1|-2.4|
92180850|NCT02307682|184260714|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-2.2|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.4|-2.2|
92180851|NCT02307682|184260714|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-0.3|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||5.3|-0.3|
92180852|NCT02307682|184260714|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-2.6|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.2|-2.6|
92180853|NCT02307682|184260714|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-1.8|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||4.6|-1.8|
92180854|NCT02307682|184260714|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-2.9|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||3.3|-2.9|
92180855|NCT02307682|184260714|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.3|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||4.6|-2.3|
92180856|NCT02307682|184260714|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-2.0|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.1|-2.0|
92180857|NCT02307682|184260714|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-1.0|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||5.7|-1.0|
92180858|NCT02307682|184260714|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-1.5|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||4.4|-1.5|
92180859|NCT02307682|184260714|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|0.0|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||6.5|0.0|
92180860|NCT02307682|184260714|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.1|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||3.9|-2.1|
92180861|NCT02307682|184260714|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-0.7|6.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||6.3|-0.7|
92180862|NCT02307682|184260714|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.2|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.2|-2.2|
92180863|NCT02307682|184260714|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-1.4|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||5.2|-1.4|
92180864|NCT02307682|184260714|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-3.2|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||3.9|-3.2|
92180865|NCT02307682|184260714|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.7|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||4.3|-2.7|
92180866|NCT02307682|184260714|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-3.3|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.0|-3.3|
92180867|NCT02307682|184260714|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-2.5|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.8|-2.5|
92180868|NCT02307682|184260714|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.4|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||4.6|-2.4|
92180869|NCT02307682|184260714|OTHER||Difference in proportions|2.6|||||TWO_SIDED|95.0|-1.5|6.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.3|-1.5|
92260160|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.227|||<|0.0001|TWO_SIDED|95.0|1.151|1.308|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.308|1.151|<0.0001
92260161|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.814||||0.0289|TWO_SIDED|95.0|0.676|0.979|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, 1st 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.979|0.676|0.0289
92260162|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.276|||<|0.0001|TWO_SIDED|95.0|1.177|1.383|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.383|1.177|<0.0001
92260163|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.894||||0.0099|TWO_SIDED|95.0|0.821|0.973|||Regression, Logistic|||The statistical analysis is presented for Cumulative ribavirin dose per 10000 mg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.973|0.821|0.0099
92284803|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 113 ACR 20|25.9|||<|0.001|TWO_SIDED|95.0|15.1|36.8|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)||Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||36.8|15.1|<0.001
92180870|NCT02307682|184260714|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-3.5|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.6|-3.5|
92287106|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.041|TWO_SIDED|95.0|0.002|0.098|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Analysis of covariance model: treatment and period as fixed effects, subject as random effect, baseline FEV1 value as covariate. Patients receiving the same treatment during two periods are considered twice in the ANCOVA model (once for each period attended)."||0.098|0.002|0.041
92180871|NCT02307682|184260714|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.9|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||4.9|-2.9|
92180872|NCT02307682|184260714|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-2.4|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.1|-2.4|
92180873|NCT02307682|184260714|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-1.3|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||6.7|-1.3|
92180874|NCT02307682|184260714|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-3.1|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.5|-3.1|
92260164|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.945||||0.0058|TWO_SIDED|95.0|1.213|3.12|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.120|1.213|0.0058
92260165|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.262|||<|0.0001|TWO_SIDED|95.0|1.154|1.38|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.380|1.154|<0.0001
92260166|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.945||||0.0058|TWO_SIDED|95.0|1.213|3.12|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.120|1.213|0.0058
92260167|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.262|||<|0.0001|TWO_SIDED|95.0|1.154|1.38|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.380|1.154|<0.0001
92260168|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.615||||0.0205|TWO_SIDED|95.0|1.219|10.721|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (ASIAN vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||10.721|1.219|0.0205
92260169|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.981||||0.9557|TWO_SIDED|95.0|0.506|1.903|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (BLACK vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.903|0.506|0.9557
92260170|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.599||||0.2|TWO_SIDED|95.0|0.273|1.312|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (HISPANIC vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.312|0.273|0.2000
92260171|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.684||||0.0437|TWO_SIDED|95.0|1.037|13.083|||Regression, Logistic|||The statistical analysis is presented for (OTHER vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||13.083|1.037|0.0437
92260172|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|134.6|||<|0.0001|TWO_SIDED|95.0|17.956|1009.0|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (RVR vs NO RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1009.0|17.956|<0.0001
92260173|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|77.905|||<|0.0001|TWO_SIDED|95.0|10.521|576.85|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (cEVR vs NO RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||576.85|10.521|<0.0001
92260174|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.527||||0.0105|TWO_SIDED|95.0|1.872|112.73|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (pEVR vs NO RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||112.73|1.872|0.0105
92260175|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.563||||0.0041|TWO_SIDED|95.0|1.152|2.12|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.120|1.152|0.0041
92260176|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.557|||<|0.0001|TWO_SIDED|95.0|2.405|12.838|||Regression, Logistic|||The statistical analysis is presented for On-treatment response, combined (RVR vs NO RVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||12.838|2.405|<0.0001
92260177|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.822||||0.0037|TWO_SIDED|95.0|1.216|2.732|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.732|1.216|0.0037
92284804|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 113 ACR 50|14.2|||<|0.001|TWO_SIDED|95.0|6.6|21.9|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||21.9|6.6|<0.001
92284805|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 113 ACR 70|7.8||||0.002|TWO_SIDED|95.0|2.6|13.0|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||13.0|2.6|0.002
92284806|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 141 ACR 20|35.5|||<|0.001|TWO_SIDED|95.0|24.6|46.5|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||46.5|24.6|<0.001
92284807|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 141 ACR 50|20.9|||<|0.001|TWO_SIDED|95.0|12.2|29.5|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||29.5|12.2|<0.001
92284808|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 141 ACR 70|10.2|||<|0.001|TWO_SIDED|95.0|4.4|16.0|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||16.0|4.4|<0.001
92287107|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|0.026||||0.275|TWO_SIDED|95.0|-0.021|0.073|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.073|-0.021|0.275
92284809|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 169 ACR 20|30.8|||<|0.001|TWO_SIDED|95.0|20.0|41.7|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||41.7|20.0|<0.001
92284810|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 169 ACR 50|16.6|||<|0.001|TWO_SIDED|95.0|8.6|24.5|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||24.5|8.6|<0.001
92284811|NCT00048581|184474042|SUPERIORITY_OR_OTHER||Est. of Diff: Day 169 ACR 70|8.7||||0.003|TWO_SIDED|95.0|2.7|14.6|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||14.6|2.7|0.003
92284812|NCT00048581|184474063|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 PCS|3.63|||<|0.001|TWO_SIDED|95.0|1.89|5.38|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||5.38|1.89|<0.001
92284813|NCT00048581|184474063|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 MCS|2.57||||0.017|TWO_SIDED|95.0|0.47|4.67|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||4.67|0.47|0.017
92284814|NCT00048581|184474063|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Physical Function|1.7||||0.052|TWO_SIDED|95.0|-0.01|3.41|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||3.41|-0.01|0.052
92284815|NCT00048581|184474063|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Role-Physical|3.01||||0.007|TWO_SIDED|95.0|0.83|5.19|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||5.19|0.83|0.007
92284816|NCT00048581|184474063|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Bodily Pain|5.62|||<|0.001|TWO_SIDED|95.0|3.77|7.47|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||7.47|3.77|<0.001
92287108|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|0.053||||0.021|TWO_SIDED|95.0|0.008|0.098|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.098|0.008|0.021
92287109|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|-0.024||||0.35|TWO_SIDED|95.0|-0.073|0.026|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.026|-0.073|0.350
92180875|NCT02307682|184260714|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.9|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.9|-2.9|
92180876|NCT02307682|184260714|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.6|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.7|-2.6|
92180877|NCT02307682|184260714|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-2.7|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||5.3|-2.7|
92180878|NCT02307682|184260714|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.1|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.2|-3.1|
92260178|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.342|||<|0.0001|TWO_SIDED|95.0|3.977|32.347|||Regression, Logistic|||The statistical analysis is presented for On-treatment response, combined (RVR vs NO RVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||32.347|3.977|<0.0001
92260179|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.112|||<|0.0001|TWO_SIDED|95.0|1.068|1.158|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||1.158|1.068|<0.0001
92260180|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.112|||<|0.0001|TWO_SIDED|95.0|1.068|1.158|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||1.158|1.068|<0.0001
92260181|NCT01066819|184423074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.921||||0.0035|TWO_SIDED|95.0|1.686|14.362|||Regression, Logistic|||The statistical analysis is presented for On-treatment response, combined (RVR vs NO RVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||14.362|1.686|0.0035
92284817|NCT00048581|184474063|SUPERIORITY_OR_OTHER||Adj Diff: General Health|2.51||||0.001|TWO_SIDED|95.0|0.99|4.02|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||4.02|0.99|0.001
92180879|NCT02307682|184260714|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-2.1|6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||6.0|-2.1|
92180880|NCT02307682|184260714|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-4.8|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.1|-4.8|
92260182|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.441||||0.0162|TWO_SIDED|95.0|0.226|0.859|||Regression, Logistic|||The statistical analysis is presented for Sex (MALE vs FEMALE). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.859|0.226|0.0162
92260183|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.745||||0.0156|TWO_SIDED|95.0|1.111|2.741|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.741|1.111|0.0156
92284818|NCT00048581|184474063|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Vitality|3.17||||0.001|TWO_SIDED|95.0|1.24|5.1|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||5.10|1.24|0.001
92284819|NCT00048581|184474063|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Social Functioning|4.69|||<|0.001|TWO_SIDED|95.0|2.59|6.79|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||6.79|2.59|<0.001
92284820|NCT00048581|184474063|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Role Emotional|0.97||||0.494|TWO_SIDED|95.0|-1.82|3.77|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||3.77|-1.82|0.494
92284821|NCT00048581|184474063|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Mental Health|2.59||||0.009|TWO_SIDED|95.0|0.65|4.54|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||4.54|0.65|0.009
92284822|NCT00048581|184474065|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 PCS|5.46|||<|0.001|TWO_SIDED|95.0|3.64|7.29|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||7.29|3.64|<0.001
92284823|NCT00048581|184474065|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 MCS|3.04||||0.005|TWO_SIDED|95.0|0.91|5.17|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||5.17|0.91|0.005
92284824|NCT00048581|184474065|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Physical Function|4.03|||<|0.001|TWO_SIDED|95.0|2.08|5.98|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||5.98|2.08|<0.001
92284825|NCT00048581|184474065|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Role-Physical|5.22|||<|0.001|TWO_SIDED|95.0|3.1|7.35|||ANCOVA|||||7.35|3.10|<0.001
92284826|NCT00048581|184474065|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Bodily Pain|6.24|||<|0.001|TWO_SIDED|95.0|4.37|8.11|||ANCOVA|||||8.11|4.37|<0.001
92284827|NCT00048581|184474065|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 General Health|3.27|||<|0.001|TWO_SIDED|95.0|1.64|4.9|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||4.90|1.64|<0.001
92284828|NCT00048581|184474065|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Vitality|4.78|||<|0.001|TWO_SIDED|95.0|2.76|6.79|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||6.79|2.76|<0.001
92287110|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|0.003||||0.886|TWO_SIDED|95.0|-0.044|0.051|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.051|-0.044|0.886
92260184|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.372||||0.1075|TWO_SIDED|95.0|0.829|6.789|||Regression, Logistic|||The statistical analysis is presented for Alanine Aminotransferase (ALT) ratio at BL (\<=1 vs \> 3). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.789|0.829|0.1075
92260185|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.906||||0.8518|TWO_SIDED|95.0|0.321|2.559|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\> 1 - 3 vs \> 3). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.559|0.321|0.8518
92180881|NCT02307682|184260714|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-4.6|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.9|-4.6|
92287111|NCT03086460|184479320|SUPERIORITY||Mean Difference (Final Values)|0.027||||0.254|TWO_SIDED|95.0|-0.02|0.074|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.074|-0.020|0.254
92260186|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.969||||0.0012|TWO_SIDED|95.0|0.951|0.988|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.988|0.951|0.0012
92260187|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.441||||0.0162|TWO_SIDED|95.0|0.226|0.859|||Regression, Logistic|||The statistical analysis is presented for Sex (MALE vs FEMALE). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.859|0.226|0.0162
92180882|NCT02307682|184260714|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-2.6|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||5.4|-2.6|
92180883|NCT02307682|184260714|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.7|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.4|-3.7|
92180884|NCT02307682|184260714|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.7|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.4|-3.7|
92180885|NCT02307682|184260714|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-4.1|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.2|-4.1|
92180886|NCT02307682|184260714|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-2.2|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||5.5|-2.2|
92260188|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.745||||0.0156|TWO_SIDED|95.0|1.111|2.741|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.741|1.111|0.0156
92260189|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.372||||0.1075|TWO_SIDED|95.0|0.829|6.789|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\<=1 vs \> 3). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.789|0.829|0.1075
92260190|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.906||||0.8518|TWO_SIDED|95.0|0.321|2.559|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\> 1 - 3 vs \> 3). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.559|0.321|0.8518
92260191|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.969||||0.0012|TWO_SIDED|95.0|0.951|0.988|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.988|0.951|0.0012
92260192|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.848||||0.0017|TWO_SIDED|95.0|0.765|0.94|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.940|0.765|0.0017
92260193|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.848||||0.0017|TWO_SIDED|95.0|0.765|0.94|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.940|0.765|0.0017
92180887|NCT02307682|184260714|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-3.0|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||5.1|-3.0|
92180888|NCT02307682|184260714|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.9|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.9|-2.9|
92180889|NCT02307682|184260714|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-3.6|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.6|-3.6|
92180890|NCT02307682|184260715|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-3.7|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||2.2|-3.7|
92180891|NCT02307682|184260715|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-2.6|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.4|-2.6|
92180892|NCT02307682|184260715|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-3.3|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.3|-3.3|
92260194|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.401||||0.0071|TWO_SIDED|95.0|0.206|0.78|||Regression, Logistic|||The statistical analysis is presented for Sex (MALE vs FEMALE). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.780|0.206|0.0071
92260195|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.016||||0.0006|TWO_SIDED|95.0|0.001|0.169|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (RVR vs NO RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.169|0.001|0.0006
92260196|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.076||||0.0255|TWO_SIDED|95.0|0.008|0.729|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (cEVR vs NO RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.729|0.008|0.0255
92260197|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.184||||0.1501|TWO_SIDED|95.0|0.018|1.845|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (pEVR vs NO RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.845|0.018|0.1501
92260198|NCT01066819|184423091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.25|||<|0.0001|TWO_SIDED|95.0|6.729|110.35|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (cEVR vs RVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||110.35|6.729|<0.0001
92260199|NCT02194699|184423094|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate ratio|0.84||||0.4656|TWO_SIDED|95.0|0.53|1.34|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|"Comparison of AAER (rate ratio): Biomarker positive population; Tralo 300 mg Q2W vs placebo.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term was included in the analysis model."||1.34|0.53|0.4656
92260200|NCT02194699|184423094|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate ratio|1.13||||0.4126|TWO_SIDED|95.0|0.85|1.5|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|"Comparison of AAER (rate ratio): Biomarker negative population; Tralo 300 mg Q2W vs placebo.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term was included in the analysis model."||1.50|0.85|0.4126
92260201|NCT02194699|184423094|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate reduction|15.83||||0.4656|TWO_SIDED|95.0|-33.71|47.01|||Negative binominal||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|"Comparison of AAER (rate reduction): Biomarker positive population; Tralo 300 mg Q2W vs placebo.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term was included in the analysis model."||47.01|-33.71|0.4656
92260202|NCT02194699|184423094|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate ratio|1.03||||0.8027|TWO_SIDED|95.0|0.81|1.31|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate ratio): FAS population; Tralo 300 mg Q2W vs placebo.||1.31|0.81|0.8027
92260203|NCT02194699|184423094|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate reduction|-3.14||||0.8027|TWO_SIDED|95.0|-31.46|19.08|||Negative binominal||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate reduction): FAS population; Tralo 300 mg Q2W vs placebo.||19.08|-31.46|0.8027
92260204|NCT02194699|184423095|SUPERIORITY||Least square (LS) Mean difference|1.86||||0.6033|TWO_SIDED|95.0|-5.16|8.88|||Repeated measures analysis||Fixed categorical effects of treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of % change from baseline in pre-dose/pre-BD FEV1 at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~Restricted maximum likelihood (REML) based repeated measures analysis on patients with a baseline pre-dose/pre-BD FEV1 assessment.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||8.88|-5.16|0.6033
92180893|NCT02307682|184260715|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-3.0|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.9|-3.0|
92260205|NCT02194699|184423095|SUPERIORITY||LS Mean difference|3.37||||0.1276|TWO_SIDED|95.0|-0.97|7.7|||Repeated measures analysis||Fixed categorical effects of treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of % change from baseline in pre-dose/pre-BD FEV1 at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis on patients with a baseline pre-dose/pre-BD FEV1 assessment.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||7.70|-0.97|0.1276
92260206|NCT02194699|184423095|SUPERIORITY||LS Mean difference|2.95||||0.1164|TWO_SIDED|95.0|-0.73|6.62|||Repeated measures analysis||Fixed categorical effects of treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of % change from baseline in pre-dose/pre-BD FEV1 at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis on patients with a baseline pre-dose/pre-BD FEV1 assessment||6.62|-0.73|0.1164
92260207|NCT02194699|184423096|SUPERIORITY||LS Mean difference|-0.2||||0.1456|TWO_SIDED|95.0|-0.47|0.07|||Repeated measures analysis||Fixed categorical effects of baseline asthma symptom score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in total asthma symptom score at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.07|-0.47|0.1456
92260208|NCT02194699|184423096|SUPERIORITY||LS Mean difference|0.04||||0.6548|TWO_SIDED|95.0|-0.13|0.2|||Repeated measures analysis||Fixed categorical effects of baseline asthma symptom score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in total asthma symptom score at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.20|-0.13|0.6548
92180894|NCT02307682|184260715|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-4.6|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.4|-4.6|
92180895|NCT02307682|184260715|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-3.5|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||3.6|-3.5|
92284829|NCT00048581|184474065|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Social Functioning|4.92|||<|0.001|TWO_SIDED|95.0|2.71|7.12|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||7.12|2.71|<0.001
92180896|NCT02307682|184260715|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-4.2|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||2.9|-4.2|
92180897|NCT02307682|184260715|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-5.0|2.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||2.0|-5.0|
92180898|NCT02307682|184260715|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-4.1|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.4|-4.1|
92260209|NCT02194699|184423096|SUPERIORITY||LS Mean difference|-0.04||||0.5763|TWO_SIDED|95.0|-0.18|0.1|||Repeated measures analysis||Fixed categorical effects of baseline asthma symptom score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of mean change from baseline in total asthma symptom score at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||0.10|-0.18|0.5763
92180899|NCT02307682|184260715|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.3|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||4.7|-2.3|
92180900|NCT02307682|184260715|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-3.9|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.1|-3.9|
92180901|NCT02307682|184260715|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-1.8|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||6.2|-1.8|
92180902|NCT02307682|184260715|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-3.5|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||4.7|-3.5|
92180903|NCT02307682|184260715|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.6|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||4.4|-3.6|
92180904|NCT02307682|184260715|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.2|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.6|-3.2|
92180905|NCT02307682|184260715|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.2|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.5|-3.2|
92180906|NCT02307682|184260715|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.6|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||5.3|-2.6|
92180907|NCT02307682|184260715|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-2.1|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||5.9|-2.1|
92284830|NCT00048581|184474065|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Role Emotional|3.54||||0.013|TWO_SIDED|95.0|0.74|6.33|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||6.33|0.74|0.013
92180908|NCT02307682|184260715|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-4.3|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||3.9|-4.3|
92180909|NCT02307682|184260715|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-3.6|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||4.8|-3.6|
92180910|NCT02307682|184260715|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.7|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.8|-3.7|
92260210|NCT02194699|184423097|SUPERIORITY||LS Mean difference|0.27||||0.0874|TWO_SIDED|95.0|-0.04|0.57|||Repeated measures analysis||Fixed categorical effects of baseline AQLQ(S)+12 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for AQLQ(S)+12 at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.57|-0.04|0.0874
92260211|NCT02194699|184423097|SUPERIORITY||LS Mean difference|-0.01||||0.9083|TWO_SIDED|95.0|-0.2|0.17|||Repeated measures analysis||Fixed categorical effects of baseline AQLQ(S)+12 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for AQLQ(S)+12 at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.17|-0.20|0.9083
92260212|NCT02194699|184423097|SUPERIORITY||LS Mean difference|0.06||||0.4506|TWO_SIDED|95.0|-0.1|0.22|||Repeated measures analysis||Fixed categorical effects of baseline AQLQ(S)+12 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of change in mean score from baseline for AQLQ(S)+12 at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||0.22|-0.10|0.4506
92260213|NCT02194699|184423098|SUPERIORITY||LS Mean difference|-0.27||||0.04|TWO_SIDED|95.0|-0.53|-0.01|||Repeated measures analysis||Fixed categorical effects of baseline ACQ-6 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for ACQ-6 at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||-0.01|-0.53|0.0400
92260214|NCT02194699|184423098|SUPERIORITY||LS Mean difference|0.0||||0.9735|TWO_SIDED|95.0|-0.16|0.16|||Repeated measures analysis||Fixed categorical effects of baseline ACQ-6 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for ACQ-6 at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.16|-0.16|0.9735
92284831|NCT00048581|184474065|SUPERIORITY_OR_OTHER||Adj Diff: Mental Health|2.7||||0.006|TWO_SIDED|95.0|0.79|4.6|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||4.60|0.79|0.006
92180911|NCT02307682|184260715|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-3.7|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.7|-3.7|
92260215|NCT02194699|184423098|SUPERIORITY||LS Mean difference|-0.08||||0.2432|TWO_SIDED|95.0|-0.21|0.05|||Repeated measures analysis||Fixed categorical effects of baseline ACQ-6 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of change in mean score from baseline for ACQ-6 at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||0.05|-0.21|0.2432
92260216|NCT02194699|184423099|SUPERIORITY||Rate ratio|0.39||||0.0576|TWO_SIDED|95.0|0.15|1.03|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations resulting in hospitalisation or ER treatment (yes/no) in the year before the study.|"Comparison of AAER associated with an ER/UC visit or hospitalisation: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term was included in the analysis model."||1.03|0.15|0.0576
92260217|NCT02194699|184423099|SUPERIORITY||Rate ratio|0.83||||0.5249|TWO_SIDED|95.0|0.46|1.48|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations resulting in hospitalisation or ER treatment (yes/no) in the year before the study.|"Comparison of AAER associated with an ER/UC visit or hospitalisation: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term was included in the analysis model."||1.48|0.46|0.5249
92260218|NCT02194699|184423099|SUPERIORITY||Rate ratio|0.67||||0.1155|TWO_SIDED|95.0|0.41|1.1|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations resulting in hospitalisation or ER treatment (yes/no) in the year before the study.|Comparison of AAER associated with an ER/UC visit or hospitalisation: FAS population; Tralo 300 mg Q2W vs placebo.||1.10|0.41|0.1155
92260219|NCT02194699|184423101|SUPERIORITY||LS Mean difference|-0.95||||0.036|TWO_SIDED|95.0|-1.85|-0.06|||Repeated measures analysis||Fixed categorical effects of baseline rescue medication use, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in rescue medication use at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||-0.06|-1.85|0.0360
92260220|NCT02194699|184423101|SUPERIORITY||LS Mean difference|0.15||||0.5864|TWO_SIDED|95.0|-0.4|0.7|||Repeated measures analysis||Fixed categorical effects of baseline rescue medication use, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in rescue medication use at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.70|-0.40|0.5864
92260221|NCT02194699|184423101|SUPERIORITY||LS Mean difference|-0.17||||0.4689|TWO_SIDED|95.0|-0.63|0.29|||Repeated measures analysis||Fixed categorical effects of baseline rescue medication use, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of mean change from baseline in rescue medication use at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||0.29|-0.63|0.4689
92287112|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.114|||<|0.001|TWO_SIDED|95.0|0.06|0.169|||ANCOVA|||"Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.169|0.060|<0.001
92180912|NCT02307682|184260715|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-2.2|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.1|-2.2|
92180913|NCT02307682|184260715|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-2.9|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||5.3|-2.9|
92180914|NCT02307682|184260715|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.5|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.8|-3.5|
92260222|NCT02194699|184423102|SUPERIORITY||LS Mean difference|6.15||||0.5094|TWO_SIDED|95.0|-12.13|24.43|||Repeated measures analysis||Fixed categorical effects of baseline PEF (morning), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in morning PEF at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||24.43|-12.13|0.5094
92260223|NCT02194699|184423102|SUPERIORITY||LS Mean difference|3.02||||0.5984|TWO_SIDED|95.0|-8.22|14.26|||Repeated measures analysis||Fixed categorical effects of baseline PEF (morning), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in morning PEF at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||14.26|-8.22|0.5984
92284832|NCT00048581|184474067|SUPERIORITY_OR_OTHER||Adj M Chg from BL: HAQ-DI|-0.34|||<|0.001|TWO_SIDED|95.0|-0.44|-0.23|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline = Adj M Chg From BL||-0.23|-0.44|<0.001
92180915|NCT02307682|184260715|OTHER||Difference in proportions|3.0|||||TWO_SIDED|95.0|-1.6|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||7.3|-1.6|
92180916|NCT02307682|184260715|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-2.3|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.2|-2.3|
92180917|NCT02307682|184260715|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-2.2|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.7|-2.2|
92180918|NCT02307682|184260715|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-4.8|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.8|-4.8|
92180919|NCT02307682|184260715|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-3.8|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||5.9|-3.8|
92180920|NCT02307682|184260715|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-3.1|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.7|-3.1|
92180921|NCT02307682|184260715|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-2.8|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||6.4|-2.8|
92180922|NCT02307682|184260715|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-3.4|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||5.2|-3.4|
92180923|NCT02307682|184260715|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-2.8|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||6.6|-2.8|
92260224|NCT02194699|184423102|SUPERIORITY||LS Mean difference|7.84||||0.3971|TWO_SIDED|95.0|-10.32|26.0|||Repeated measures analysis||Model included fixed categorical effects of baseline PEF (evening), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as fixed covariate.|"Comparison of mean change from baseline in evening PEF at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||26.00|-10.32|0.3971
92284833|NCT00048581|184474067|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Dressing and Grooming|-0.32|||<|0.001|TWO_SIDED|95.0|-0.49|-0.14|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg From BL||-0.14|-0.49|<0.001
92180924|NCT02307682|184260715|OTHER||Difference in proportions|-1.9|||||TWO_SIDED|95.0|-6.6|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||2.5|-6.6|
92180925|NCT02307682|184260715|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-6.1|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||3.8|-6.1|
92180926|NCT02307682|184260715|OTHER||Difference in proportions|-1.1|||||TWO_SIDED|95.0|-5.6|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||3.1|-5.6|
92180927|NCT02307682|184260715|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-2.9|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||6.9|-2.9|
92180928|NCT02307682|184260715|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-5.8|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.1|-5.8|
92180929|NCT02307682|184260715|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-3.2|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.5|-3.2|
92180930|NCT02307682|184260715|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-4.2|5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||5.0|-4.2|
92180931|NCT02307682|184260715|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-3.2|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||6.7|-3.2|
92180932|NCT02307682|184260715|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-5.8|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.2|-5.8|
92180933|NCT02307682|184260715|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-5.2|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.6|-5.2|
92260225|NCT02194699|184423102|SUPERIORITY||LS Mean difference|3.59||||0.531|TWO_SIDED|95.0|-7.65|14.83|||Repeated measures analysis||Model included fixed categorical effects of baseline PEF (evening), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as fixed covariate.|"Comparison of mean change from baseline in evening PEF at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||14.83|-7.65|0.5310
92260226|NCT02194699|184423102|SUPERIORITY||LS Mean difference|3.46||||0.4764|TWO_SIDED|95.0|-6.06|12.97|||Repeated measures analysis||Model included fixed categorical effects of baseline PEF (morning), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as fixed covariate.|Comparison of mean change from baseline in morning PEF at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||12.97|-6.06|0.4764
92260227|NCT02194699|184423102|SUPERIORITY||LS Mean difference|3.88||||0.4221|TWO_SIDED|95.0|-5.6|13.37|||Repeated measures analysis||Model included fixed categorical effects of baseline PEF (evening), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as fixed covariate.|Comparison of mean change from baseline in evening PEF at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||13.37|-5.60|0.4221
92260228|NCT02194699|184423103|SUPERIORITY||LS Mean difference|-5.04||||0.1099|TWO_SIDED|95.0|-11.21|1.14|||Repeated measures analysis||Fixed categorical effects of baseline number (%) of awakenings, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in number (%) of awakenings at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||1.14|-11.21|0.1099
92260229|NCT02194699|184423103|SUPERIORITY||LS Mean difference|0.46||||0.8112|TWO_SIDED|95.0|-3.33|4.25|||Repeated measures analysis||Fixed categorical effects of baseline number (%) of awakenings, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in number (%) of awakenings at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||4.25|-3.33|0.8112
92180934|NCT02307682|184260715|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-5.5|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||4.1|-5.5|
92180935|NCT02307682|184260715|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-5.3|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||4.4|-5.3|
92260230|NCT02194699|184423103|SUPERIORITY||LS Mean difference|-1.19||||0.4645|TWO_SIDED|95.0|-4.4|2.01|||Repeated measures analysis||Fixed categorical effects of baseline number (%) of awakenings, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of mean change from baseline in number (%) of awakenings at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||2.01|-4.40|0.4645
92260231|NCT02194699|184423104|SUPERIORITY||Odds Ratio (OR)|0.77||||0.344|TWO_SIDED|95.0|0.44|1.33|||Cochran-Mantel-Haenszel||The estimate of each odds ratio was obtained from a Cochran-Mantel-Haenszel test controlling for geographical region, age group and periostin group at baseline.|Comparison of number of patients with ≥ 1 asthma exacerbations up to Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.||1.33|0.44|0.3440
92260232|NCT02194699|184423104|SUPERIORITY||Odds Ratio (OR)|1.05||||0.7768|TWO_SIDED|95.0|0.75|1.46|||Cochran-Mantel-Haenszel||The estimate of each odds ratio was obtained from a Cochran-Mantel-Haenszel test controlling for geographical region, age group and periostin group at baseline.|Comparison of number of patients with ≥ 1 asthma exacerbations up to Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.||1.46|0.75|0.7768
92260233|NCT02194699|184423104|SUPERIORITY||Odds Ratio (OR)|0.91||||0.5276|TWO_SIDED|95.0|0.69|1.21|||Cochran-Mantel-Haenszel||The estimate of each odds ratio was obtained from a Cochran-Mantel-Haenszel test controlling for geographical region, age group and periostin group at baseline.|Comparison of number of patients with ≥ 1 asthma exacerbations up to Week 52: FAS population; Tralo 300 mg Q2W vs placebo.||1.21|0.69|0.5276
92260234|NCT01192139|184423116|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of saxagliptin|Ratio of Geometric Least Squares Means|1.039|||||TWO_SIDED|90.0|1.011|1.068|||||Ratio=Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of a saxagliptin tablet and a metformin XR tablet under fed conditions, then 24 subjects would have provided 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 94% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||1.068|1.011|
92260235|NCT01192139|184423116|NON_INFERIORITY_OR_EQUIVALENCE|Lack of food effect was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within (80%, 125%) for both Cmax and AUC(INF) of saxagliptin and metformin.|Ratio of Least Squares Means|1.078|||||TWO_SIDED|90.0|1.049|1.108|||||Ratio=Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||1.108|1.049|
92284834|NCT00048581|184474067|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Arising|-0.32|||<|0.001|TWO_SIDED|95.0|-0.47|-0.16|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg From BL||-0.16|-0.47|<0.001
92180936|NCT02307682|184260715|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-5.7|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.4|-5.7|
92260236|NCT01192139|184423116|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|104.65||||||95.0||||||||Geometric least squares means for treatment A||||
92284835|NCT00048581|184474067|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Eating|-0.48|||<|0.001|TWO_SIDED|95.0|-0.65|-0.3|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline = Adj M Chg From BL||-0.30|-0.65|<0.001
92180937|NCT02307682|184260715|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-3.4|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||7.3|-3.4|
92260237|NCT01192139|184423116|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|108.74||||||95.0||||||||Geometric least squares means for treatment B||||
92260238|NCT01192139|184423116|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|100.84||||||95.0||||||||Geometric least squares mean for treatment C||||
92260239|NCT01192139|184423118|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Mean|1.039|||||TWO_SIDED|90.0|1.011|1.068|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|||1.068|1.011|
92260240|NCT01192139|184423118|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.08|||||TWO_SIDED|90.0|1.051|1.11|||||Ratio=Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||1.110|1.051|
92260241|NCT01192139|184423118|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|102.84||||||95.0||||||||Geometric least squares mean for treatment A||||
92260242|NCT01192139|184423118|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|106.89||||||95.0||||||||Geometric least squares mean for treatment B||||
92260243|NCT01192139|184423118|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|98.99||||||95.0||||||||Geometric least squares mean for treatment C||||
92260244|NCT01192139|184423119|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of saxagliptin.|Ratio of Geometric Least Squares Means|1.021|||||TWO_SIDED|90.0|0.94|1.109|||||Ratio=Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of a saxagliptin tablet and a metformin XR tablet under fed conditions, then 24 subjects would have provided 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 94% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||1.109|0.940|
92260245|NCT01192139|184423119|NON_INFERIORITY_OR_EQUIVALENCE|Lack of food effect was concluded if the fed to fasted ratios of geometric means were entirely contained within (80%, 125%) for both Cmax and AUC(INF) of saxagliptin.|Ratio of Geometric Least Squares Means|0.949|||||TWO_SIDED|90.0|0.873|1.031|||||Ratio = Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||1.031|0.873|
92260246|NCT01192139|184423119|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|25.68||||||95.0||||||||Geometric least squares mean for treatment A||||
92180938|NCT02307682|184260716|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-2.4|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||5.5|-2.4|
92180939|NCT02307682|184260716|OTHER||Difference in proportions|2.4|||||TWO_SIDED|95.0|-1.8|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||6.8|-1.8|
92180940|NCT02307682|184260716|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-4.1|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||3.8|-4.1|
92180941|NCT02307682|184260716|OTHER||Difference in proportions|2.7|||||TWO_SIDED|95.0|-1.7|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||6.8|-1.7|
92260247|NCT01192139|184423119|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|26.21||||||95.0||||||||Geometric least squares mean for treatment B||||
92260248|NCT01192139|184423119|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|27.63||||||95.0||||||||Geometric least squares mean for treatment C||||
92260249|NCT01192139|184423128|NON_INFERIORITY_OR_EQUIVALENCE|BE concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within (80%, 125%) for both Cmax and AUC(INF) of saxagliptin and metformin.|Ratio of Least Squares Geometric Means|0.915|||||TWO_SIDED|90.0|0.836|1.002|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of a saxagliptin tablet and a metformin XR tablet under fed conditions, then 24 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 96% and 97% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||1.002|0.836|
92260250|NCT01192139|184423128|NON_INFERIORITY_OR_EQUIVALENCE|lack of food effect concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within (80%, 125%) for both Cmax and AUC(INF) of saxagliptin and metformin.|Ratio of Geometric LS Mean and 90% CI|1.01|||||TWO_SIDED|90.0|0.918|1.111|||||Ratio = Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||1.111|0.918|
92260251|NCT01192139|184423128|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|5542.2||||||95.0||||||||Geometric least squares means for treatment A||||
92260252|NCT01192139|184423128|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|5072.9||||||95.0||||||||Geometric least squares mean for treatment B||||
92180942|NCT02307682|184260716|OTHER||Difference in proportions|1.8|||||TWO_SIDED|95.0|-2.3|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||6.5|-2.3|
92260253|NCT01192139|184423128|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|5023.3||||||95.0||||||||Geometric least squares mean for treatment C||||
92260254|NCT01192139|184423129|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Mean|0.92|||||TWO_SIDED|90.0|0.854|0.992|||||Ratio=Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|||0.992|0.854|
92260255|NCT01192139|184423129|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.025|||||TWO_SIDED|95.0|0.951|1.105|||||Ratio=Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||1.105|0.951|
92260256|NCT01192139|184423129|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|5287.1||||||95.0||||||||Geometric least squares means for treatment A||||
92260257|NCT01192139|184423129|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|4866.2||||||95.0||||||||Geometric least squares mean for treatment B||||
92260258|NCT01192139|184423129|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|4746.8||||||95.0||||||||Geometric least squares means for treatment C||||
92180943|NCT02307682|184260716|OTHER||Difference in proportions|3.4|||||TWO_SIDED|95.0|-0.9|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||7.9|-0.9|
92260259|NCT01192139|184423130|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of metformin.|Ratio of Geometric Least Squares Means|0.933|||||TWO_SIDED|95.0|0.865|1.007|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of a metformin XR tablet under fed conditions, then 24 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 96% and 97% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||1.007|0.865|
92260260|NCT01192139|184423130|NON_INFERIORITY_OR_EQUIVALENCE|Lack of food effect was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within (80%, 125%) for both Cmax and AUC(inf) of saxagliptin and metformin.|Ratio of Geometric Least Squares Means|0.898|||||TWO_SIDED|90.0|0.832|0.969|||||Ration = Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||0.969|0.832|
92260261|NCT01192139|184423130|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|608.41||||||95.0||||||||Geometric least squares mean for treatment A||||
92260262|NCT01192139|184423130|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|567.85||||||95.0||||||||Geometric least squares mean for treatment B||||
92260263|NCT01192139|184423130|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|632.39||||||95.0||||||||Geometric least squares mean for treatment C||||
92180944|NCT02307682|184260716|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-5.4|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||4.0|-5.4|
92180945|NCT02307682|184260716|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-6.2|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||3.2|-6.2|
92180946|NCT02307682|184260716|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-5.4|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||3.3|-5.4|
92180947|NCT02307682|184260716|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-2.9|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||6.4|-2.9|
92180948|NCT02307682|184260716|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-5.2|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.9|-5.2|
92180949|NCT02307682|184260716|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-1.4|8.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||8.8|-1.4|
92260264|NCT03812224|184423138|SUPERIORITY||LS Mean Difference|-1.62|||<|0.001||95.0|-2.52|-0.73|||Generalized Linear Mixed Model|||The primary endpoint was analyzed using a generalized linear mixed model which includes treatment, visit, treatment-by-visit interaction, stratification factors of migraine type and prior migraine preventive treatment status, and baseline value as covariates and assumes a first-order auto regression covariance structure.||-0.73|-2.52|<0.001
92180950|NCT02307682|184260716|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-6.8|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.3|-6.8|
92180951|NCT02307682|184260716|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-4.7|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||5.8|-4.7|
92180952|NCT02307682|184260716|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-5.0|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.4|-5.0|
92260265|NCT03812224|184423139|SUPERIORITY||Odds Ratio (OR)|2.33||||0.005|TWO_SIDED|95.0|1.29|4.23|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test, stratified by stratification factors of migraine type and prior migraine preventive treatment status.||||4.23|1.29|0.005
92260266|NCT03812224|184423140|SUPERIORITY||LS Mean Difference|-1.47|||<|0.001||95.0|-2.24|-0.71|||Generalized Linear Mixed Model|||Analysis utilizes a generalized linear mixed model which includes treatment, visit, treatment-by-visit interaction, stratification factors of migraine type (episodic migraine or chronic migraine) and prior migraine preventive treatment status (ever used or never used), and baseline value as covariates and assumes a first-order auto regression covariance structure.||-0.71|-2.24|<0.001
92260267|NCT02600715|184423141|EQUIVALENCE|Test for differences in continuous variables.||||||0.94||||||Two-sided alpha of 0.05 was used to determine statistical significance.|Kruskal-Wallis|||||||0.94
92260268|NCT00612573|184423161|SUPERIORITY_OR_OTHER||Mean Change from Baseline|-0.75|STANDARD_DEVIATION|0.85||0.779|TWO_SIDED|95.0|-14.8|10.3|||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||10.3|-14.8|0.779
92260269|NCT00612573|184423161|SUPERIORITY_OR_OTHER||Mean Change from Baseline|-0.69|STANDARD_DEVIATION|0.9||0.983|TWO_SIDED|95.0|-13.7|11.7|||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||11.7|-13.7|0.983
92260270|NCT00612573|184423161|SUPERIORITY_OR_OTHER||Mean Change from Baseline|-0.92|STANDARD_DEVIATION|0.97||0.087|TWO_SIDED|95.0|-1.5|27.3|||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||27.3|-1.5|0.087
92260271|NCT00612573|184423162|SUPERIORITY_OR_OTHER|||||||0.807||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.807
92180953|NCT02307682|184260716|OTHER||Difference in proportions|-1.1|||||TWO_SIDED|95.0|-6.1|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.0|-6.1|
92180954|NCT02307682|184260716|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-1.8|7.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||7.7|-1.8|
92180955|NCT02307682|184260716|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-2.7|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||6.8|-2.7|
92180956|NCT02307682|184260716|OTHER||Difference in proportions|-1.1|||||TWO_SIDED|95.0|-5.9|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||4.0|-5.9|
92260272|NCT00612573|184423162|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.075
92260273|NCT00612573|184423162|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.039
92180957|NCT02307682|184260716|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-4.7|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||4.9|-4.7|
92180958|NCT02307682|184260716|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-5.7|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.5|-5.7|
92180959|NCT02307682|184260716|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-6.5|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||3.3|-6.5|
92260274|NCT00612573|184423163|SUPERIORITY_OR_OTHER|||||||0.212||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.212
92260275|NCT00612573|184423163|SUPERIORITY_OR_OTHER|||||||0.505||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.505
92260276|NCT00612573|184423163|SUPERIORITY_OR_OTHER|||||||0.399||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.399
92260277|NCT00612573|184423164|SUPERIORITY_OR_OTHER|||||||0.276||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.276
92260278|NCT00612573|184423164|SUPERIORITY_OR_OTHER|||||||0.231||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.231
92260279|NCT00612573|184423164|SUPERIORITY_OR_OTHER|||||||0.081||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.081
92260280|NCT02516605|184423181|OTHER||adjusted fold change from baseline|0.86||||0.293|TWO_SIDED|90.0|0.68|1.09|||ANCOVA|||||1.09|0.68|0.293
92260281|NCT02516605|184423181|OTHER||adjusted fold change from baseline|0.47|||<|0.001|TWO_SIDED|90.0|0.37|0.6|||ANCOVA|||||0.60|0.37|<0.001
92260282|NCT02516605|184423181|OTHER||adjusted fold change from baseline|0.32|||<|0.001|TWO_SIDED|90.0|0.26|0.4|||ANCOVA|||||0.40|0.26|<.001
92260283|NCT02516605|184423181|OTHER||adjusted fold change from baseline|0.36|||<|0.001|TWO_SIDED|90.0|0.27|0.47|||ANCOVA|||||0.47|0.27|<.001
92260284|NCT02516605|184423191|OTHER||Median difference from baseline|1.0||||0.898|TWO_SIDED|90.0|-7.0|6.0|||Wilcoxon rank-sum test|Day 28||||6.0|-7.0|0.898
92260285|NCT02516605|184423191|OTHER||Median difference from baseline|2.0||||0.593|TWO_SIDED|90.0|-4.0|10.0|||Wilcoxon rank-sum test|Day 56||||10.0|-4.0|0.593
92260286|NCT02516605|184423191|OTHER||Median difference from baseline|-3.0||||0.509|TWO_SIDED|90.0|-11.0|4.0|||Wilcoxon rank-sum test|Day 84||||4.0|-11.0|0.509
92260287|NCT02516605|184423191|OTHER||Median difference from baseline|1.5||||0.591|TWO_SIDED|90.0|-5.0|7.0|||Wilcoxon rank-sum test|Day 28||||7.0|-5.0|0.591
92260288|NCT02516605|184423191|OTHER||Median difference from baseline|-2.0||||0.702|TWO_SIDED|90.0|-12.0|4.0|||Wilcoxon rank-sum test|Day 56||||4.0|-12.0|0.702
92260289|NCT02516605|184423191|OTHER||Median difference from baseline|-1.0||||0.838|TWO_SIDED|90.0|-10.0|8.0|||Wilcoxon rank-sum test|Day 84||||8.0|-10.0|0.838
92260290|NCT02516605|184423191|OTHER||Median difference from baseline|4.0||||0.297|TWO_SIDED|90.0|-3.0|8.0|||Wilcoxon rank-sum test|Day 28||||8.0|-3.0|0.297
92260291|NCT02516605|184423191|OTHER||Median difference from baseline|-6.0||||0.236|TWO_SIDED|90.0|-14.0|1.0|||Wilcoxon rank-sum test|Day 56||||1.0|-14.0|0.236
92260292|NCT02516605|184423191|OTHER||Median difference from baseline|-6.5||||0.192|TWO_SIDED|90.0|-15.0|1.0|||Wilcoxon rank-sum test|Day 84||||1.0|-15.0|0.192
92260293|NCT02516605|184423191|OTHER||Median difference from baseline|2.0||||0.605|TWO_SIDED|90.0|-2.0|9.0|||Wilcoxon rank-sum test|Day 28||||9.0|-2.0|0.605
92260294|NCT02516605|184423191|OTHER||Median difference from baseline|-11.0||||0.037|TWO_SIDED|90.0|-21.0|-1.0|||Wilcoxon rank-sum test|Day 56||||-1.0|-21.0|0.037
92284836|NCT00048581|184474067|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Walking|-0.26||||0.003|TWO_SIDED|95.0|-0.44|-0.09|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg from BL||-0.09|-0.44|0.003
92284837|NCT00048581|184474067|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Hygiene|-0.22||||0.01|TWO_SIDED|95.0|-0.39|-0.05|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg from BL||-0.05|-0.39|0.010
92260295|NCT02516605|184423191|OTHER||Median difference from baseline|-3.5||||0.397|TWO_SIDED|90.0|-11.0|3.0|||Wilcoxon rank-sum test|Day 84||||3.0|-11.0|0.397
92260296|NCT02516605|184423192|OTHER||Median difference from baseline|1.0||||0.342|TWO_SIDED|90.0|-1.0|2.0|||Wilcoxon rank-sum test|Day 28||||2.0|-1.0|0.342
92260297|NCT02516605|184423192|OTHER||Median difference from baseline|0.0||||0.699|TWO_SIDED|90.0|-1.0|2.0|||Wilcoxon rank-sum test|Day 56||||2.0|-1.0|0.699
92260298|NCT02516605|184423192|OTHER||Median difference from baseline|-1.0||||0.377|TWO_SIDED|90.0|-3.0|0.0|||Wilcoxon rank-sum test|Day 84||||0.0|-3.0|0.377
92260299|NCT02516605|184423192|OTHER||Median difference from baseline|1.0||||0.132|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon rank-sum test|Day 28||||2.0|0.0|0.132
92260300|NCT02516605|184423192|OTHER||Median difference from baseline|1.0||||0.292|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon rank-sum test|Day 56||||2.0|0.0|0.292
92260301|NCT02516605|184423192|OTHER||Median difference from baseline|0.0||||0.979|TWO_SIDED|90.0|-2.0|1.0|||Wilcoxon rank-sum test|Day 84||||1.0|-2.0|0.979
92260302|NCT02516605|184423192|OTHER||Median difference from baseline|2.0||||0.102|TWO_SIDED|90.0|0.0|4.0|||Wilcoxon rank-sum test|Day 28||||4.0|0.0|0.102
92260303|NCT02516605|184423192|OTHER||Median difference from baseline|0.0||||0.717|TWO_SIDED|90.0|-1.0|2.0|||Wilcoxon rank-sum test|Day 56||||2.0|-1.0|0.717
92260304|NCT02516605|184423192|OTHER||Median difference|0.0||||1|TWO_SIDED|90.0|-2.0|1.0|||Wilcoxon rank-sum test|Day 84||||1.0|-2.0|1.000
92260305|NCT02516605|184423192|OTHER||Median difference from baseline|2.0||||0.142|TWO_SIDED|90.0|0.0|5.0|||Wilcoxon rank-sum test|Day 28||||5.0|0.0|0.142
92260306|NCT02516605|184423192|OTHER||Median difference from baseline|0.0||||0.975|TWO_SIDED|90.0|-1.0|1.0|||Wilcoxon rank-sum test|Day 56||||1.0|-1.0|0.975
92260307|NCT02516605|184423192|OTHER||Median difference from baseline|0.0||||0.602|TWO_SIDED|90.0|-2.0|1.0|||Wilcoxon rank-sum test|Day 84||||1.0|-2.0|0.602
92260308|NCT02516605|184423193|OTHER||Mean difference from baseline|-2.78|STANDARD_ERROR_OF_MEAN|8.436||0.743|TWO_SIDED|90.0|-16.91|11.34|||ANCOVA|Day 7||||11.34|-16.91|0.743
92260309|NCT02516605|184423193|OTHER||Median difference from baseline|-14.07|STANDARD_ERROR_OF_MEAN|8.229||0.093|TWO_SIDED|90.0|-27.85|-0.28|||ANCOVA|Day 14||||-0.28|-27.85|0.093
92260310|NCT02516605|184423193|OTHER||Median difference from baseline|7.78|STANDARD_ERROR_OF_MEAN|8.71||0.376|TWO_SIDED|90.0|-6.81|22.38|||ANCOVA|Day 21||||22.38|-6.81|0.376
92260311|NCT02516605|184423193|OTHER||Median difference from baseline|7.03|STANDARD_ERROR_OF_MEAN|9.187||0.448|TWO_SIDED|90.0|-8.36|22.43|||ANCOVA|Day 28||||22.43|-8.36|0.448
92260312|NCT02516605|184423193|OTHER||Median difference from baseline|-15.25|STANDARD_ERROR_OF_MEAN|7.192||0.039|TWO_SIDED|90.0|-27.3|-3.19|||ANCOVA|Day 56||||-3.19|-27.30|0.039
92260313|NCT02516605|184423193|OTHER||Median difference from baseline|-16.93|STANDARD_ERROR_OF_MEAN|8.592||0.054|TWO_SIDED|90.0|-31.31|-2.54|||ANCOVA|Day 84||||-2.54|-31.31|0.054
92260314|NCT02516605|184423193|OTHER||Median difference from baseline|11.34|STANDARD_ERROR_OF_MEAN|8.434||0.185|TWO_SIDED|90.0|-2.78|25.46|||ANCOVA|Day 7||||25.46|-2.78|0.185
92260315|NCT02516605|184423193|OTHER||Median difference from baseline|7.74|STANDARD_ERROR_OF_MEAN|8.226||0.351|TWO_SIDED|90.0|-6.05|21.52|||ANCOVA|Day 14||||21.52|-6.05|0.351
92260316|NCT02516605|184423193|OTHER||Median difference from baseline|16.79|STANDARD_ERROR_OF_MEAN|8.707||0.059|TWO_SIDED|90.0|2.2|31.38|||ANCOVA|day 21||||31.38|2.20|0.059
92260317|NCT02516605|184423193|OTHER||Median difference from baseline|14.05|STANDARD_ERROR_OF_MEAN|9.184||0.132|TWO_SIDED|90.0|-1.35|29.44|||ANCOVA|Day 28||||29.44|-1.35|0.132
92260318|NCT02516605|184423193|OTHER||Median difference from baseline|-1.75|STANDARD_ERROR_OF_MEAN|7.19||0.809|TWO_SIDED|90.0|-13.8|10.31|||ANCOVA|Day 56||||10.31|-13.80|0.809
92260319|NCT02516605|184423193|OTHER||Median difference from baseline|-10.9|STANDARD_ERROR_OF_MEAN|8.59||0.21|TWO_SIDED|90.0|-25.29|3.48|||ANCOVA|Day 84||||3.48|-25.29|0.210
92180960|NCT02307682|184260716|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-2.7|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.9|-2.7|
92180961|NCT02307682|184260716|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-4.3|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||5.4|-4.3|
92180962|NCT02307682|184260716|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-4.6|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||5.3|-4.6|
92180963|NCT02307682|184260716|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-3.9|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||6.6|-3.9|
92180964|NCT02307682|184260716|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-4.0|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.1|-4.0|
92260320|NCT02516605|184423193|OTHER||Median difference from baseline|13.92|STANDARD_ERROR_OF_MEAN|7.963||0.086||90.0|0.58|27.25|||ANCOVA|day 7||||27.25|0.58|0.086
92180965|NCT02307682|184260716|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-3.8|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.2|-3.8|
92180966|NCT02307682|184260716|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-4.5|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||5.6|-4.5|
92180967|NCT02307682|184260716|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-3.8|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||6.8|-3.8|
92180968|NCT02307682|184260716|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-2.9|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||7.3|-2.9|
92180969|NCT02307682|184260716|OTHER||Difference in proportions|2.9|||||TWO_SIDED|95.0|-2.8|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||7.9|-2.8|
92180970|NCT02307682|184260716|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-5.5|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.5|-5.5|
92260321|NCT02516605|184423193|OTHER||Median difference from baseline|0.48|STANDARD_ERROR_OF_MEAN|7.787||0.951|TWO_SIDED|90.0|-12.57|13.53|||ANCOVA|Day 14||||13.53|-12.57|0.951
92260322|NCT02516605|184423193|OTHER||Median difference from baseline|5.02|STANDARD_ERROR_OF_MEAN|8.244||0.545|TWO_SIDED|90.0|-8.79|18.83|||ANCOVA|day 21||||18.83|-8.79|0.545
92260323|NCT02516605|184423193|OTHER||Median difference from baseline|0.19|STANDARD_ERROR_OF_MEAN|8.697||0.982|TWO_SIDED|90.0|-14.38|14.77|||ANCOVA|Day 28||||14.77|-14.38|0.982
92260324|NCT02516605|184423193|OTHER||Median difference from baseline|-13.82|STANDARD_ERROR_OF_MEAN|6.797||0.047|TWO_SIDED|90.0|-25.21|-2.43|||ANCOVA|day 56||||-2.43|-25.21|0.047
92260325|NCT02516605|184423193|OTHER||Median difference from baseline|-18.23|STANDARD_ERROR_OF_MEAN|8.11||0.029|TWO_SIDED|90.0|-31.81|-4.64|||ANCOVA|Day 84||||-4.64|-31.81|0.029
92260326|NCT02516605|184423193|OTHER||Median difference from baseline|26.7|STANDARD_ERROR_OF_MEAN|8.799||0.004|TWO_SIDED|90.0|11.97|41.44|||ANCOVA|Day 7||||41.44|11.97|0.004
92260327|NCT02516605|184423193|OTHER||Median difference from baseline|8.17|STANDARD_ERROR_OF_MEAN|9.032||0.37|TWO_SIDED|90.0|-6.96|23.29|||ANCOVA|Day 14||||23.29|-6.96|0.370
92260328|NCT02516605|184423193|OTHER||Median difference from baseline|5.9|STANDARD_ERROR_OF_MEAN|10.014||0.558|TWO_SIDED|90.0|-10.86|22.66|||ANCOVA|Day 21||||22.66|-10.86|0.558
92260329|NCT02516605|184423193|OTHER||Median difference from baseline|8.91|STANDARD_ERROR_OF_MEAN|10.911||0.418|TWO_SIDED|90.0|-9.34|27.15|||ANCOVA|Day 28||||27.15|-9.34|0.418
92260330|NCT02516605|184423193|OTHER||Median difference from baseline|-11.08|STANDARD_ERROR_OF_MEAN|7.69||0.156|TWO_SIDED|90.0|-23.95|1.8|||ANCOVA|Day 56||||1.80|-23.95|0.156
92260331|NCT02516605|184423193|OTHER||Median difference from baseline|-16.93|STANDARD_ERROR_OF_MEAN|8.961||0.064|TWO_SIDED|90.0|-31.94|-1.92|||ANCOVA|Day 84||||-1.92|-31.94|0.064
92260332|NCT02643420|184423194|NON_INFERIORITY|The margin of non-inferiority to be used in the study is 0.62 day. The non-inferiority of SPI-2012 to Pegfilgrastim was declared if the upper bound of 95% confidence interval (CI) of the difference in mean DSN between the treatment arms was \<0.62 days.|Mean Difference (Final Values)|-0.148|||<|0.0001|TWO_SIDED|95.0|-0.266|-0.031|||t-statistics|The p-values are based on the calculated t-statistics from the bootstrapped sample mean and standard deviation.||||-0.031|-0.266|<0.0001
92260333|NCT02643420|184423195|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.685|TWO_SIDED|95.0|-1.43|0.94|||Negative binomial regression|||||0.94|-1.43|0.685
92260334|NCT02643420|184423196|SUPERIORITY||Median Difference (Final Values)|1.2||||0.155|TWO_SIDED|95.0|0.93|1.56|||Asymptotic normality assumption|P-value was obtained based upon asymptotic normality assumption on the log10 transformed data.||||1.56|0.93|0.155
92260335|NCT02643420|184423197|SUPERIORITY||Percent Difference|1.1||||0.435|TWO_SIDED|95.0|-8.6|10.8|||Fisher Exact|||||10.8|-8.6|0.435
92260336|NCT02643420|184423198|NON_INFERIORITY|The margin of non-inferiority to be used in the study is 0.62 day. The non-inferiority of SPI-2012 to Pegfilgrastim was declared if the upper bound of 95% CI of the difference in mean DSN between the treatment arms was \<0.62 days.|Mean Difference (Final Values)|0.042|||<|0.0001|TWO_SIDED|95.0|-0.032|0.116|||t-statistics|||DSN in Cycle 2||0.116|-0.032|<0.0001
92260337|NCT02643420|184423198|NON_INFERIORITY|The margin of non-inferiority to be used in the study is 0.62 day. The non-inferiority of SPI-2012 to Pegfilgrastim was declared if the upper bound of 95% CI of the difference in mean DSN between the treatment arms was \<0.62 days.|Mean Difference (Final Values)|0.026|||<|0.0001|TWO_SIDED|95.0|-0.032|0.085|||t-statistics|||DSN in Cycle 3||0.085|-0.032|<0.0001
92260338|NCT02643420|184423198|NON_INFERIORITY|The margin of non-inferiority to be used in the study is 0.62 day. The non-inferiority of SPI-2012 to Pegfilgrastim was declared if the upper bound of 95% CI of the difference in mean DSN between the treatment arms was \<0.62 days.|Mean Difference (Final Values)|0.027|||<|0.0001|TWO_SIDED|95.0|-0.036|0.089|||t-statistics|||DSN in Cycle 4||0.089|-0.036|<0.0001
92260339|NCT02643420|184423199|SUPERIORITY||Percent Difference|0.3||||1|TWO_SIDED|95.0|-9.5|10.0|||Fisher Exact|||||10.0|-9.5|1.000
92260340|NCT02643420|184423200|SUPERIORITY||Percent Difference|0.0||||1|TWO_SIDED|95.0|-9.7|9.8|||Fisher Exact|||FN in Cycle 2||9.8|-9.7|1.000
92260341|NCT02643420|184423200|SUPERIORITY||Percent Difference|1.6||||0.201|TWO_SIDED|95.0|-8.2|11.3|||Fisher Exact|||FN in Cycle 3||11.3|-8.2|0.201
92260342|NCT02643420|184423200|SUPERIORITY||Percent Difference|1.0||||0.232|TWO_SIDED|95.0|-8.7|10.8|||Fisher Exact|||FN in Cycle 4||10.8|-8.7|0.232
92284838|NCT00048581|184474067|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Reaching|-0.43|||<|0.001|TWO_SIDED|95.0|-0.61|-0.25|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg from BL||-0.25|-0.61|<0.001
92284839|NCT00048581|184474067|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Gripping|-0.32|||<|0.001|TWO_SIDED|95.0|-0.49|-0.15|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg from BL||-0.15|-0.49|<0.001
92260343|NCT02127970|184423203|NON_INFERIORITY|The non-inferiority hypothesis test was to be a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the 95% CI for the difference in responder rates is greater than -10%, then the single-dose dalbavancin regimen was to be declared non-inferior to the two dose dalbavancin regimen.|Difference|-2.9|||||TWO_SIDED|95.0|-8.5|2.8|||||For the difference in clinical responder rates (single-dose group minus two dose group), the 95% CI was calculated using the Miettinen and Nurminen method without adjustment.|||2.8|-8.5|
92260344|NCT00721136|184423303|OTHER|||||||||||||||||Continuous variables were expressed as mean ± standard deviation and analyzed using Student's t-test and Mann-Whitney U-test in cases of nonparametric distribution. Categorical variables were expressed as numbers or percentages and analyzed with two-tailed Fisher's exact test or χ2-test as appropriate. Data were analyzed on an intention-to-treat basis using STATA 10.1 (College Station, TX). A two-tailed alpha of 0.05 was considered statistically significant.|Continuous variables were expressed as mean ± standard deviation and analyzed using Student's t-test and Mann-Whitney U-test in cases of nonparametric distribution. Categorical variables were expressed as numbers or percentages and analyzed with two-tailed Fisher's exact test or χ2-test as appropriate. Data were analyzed on an intention-to-treat basis using STATA 10.1 (College Station, TX). A two-tailed alpha of 0.05 was considered statistically significant.|||
92260345|NCT00732199|184423306|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||T- test was conducted to compare the 2 groups.||||<0.05
92260346|NCT00732199|184423307|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|Compares control vs hypoxia trials vs recovery post-hypoxia||||||<0.05
92260347|NCT00732199|184423308|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92260348|NCT00732199|184423309|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92180971|NCT02307682|184260716|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-5.1|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||5.3|-5.1|
92180972|NCT02307682|184260716|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-4.3|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||6.7|-4.3|
92180973|NCT02307682|184260716|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-5.2|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||5.6|-5.2|
92180974|NCT02307682|184260716|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-4.6|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||6.4|-4.6|
92180975|NCT02307682|184260716|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-4.7|6.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||6.3|-4.7|
92180976|NCT02307682|184260716|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-4.8|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.2|-4.8|
92260349|NCT02607865|184423363|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand). A value of 0.3% (the non-inferiority margin) was added to imputed values at week 26 for the oral semaglutide treatment arm only.|Mean treatment difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.4||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|Pattern mixture model||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.4|-0.6|< 0.0001
92265434|NCT00948896|184432649|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|69.0|||<|0.001|TWO_SIDED|95.0|53.0|80.0||Adjusted for age at randomization and incidence of malaria prior to randomization.|Negative Binomial Regression||Adjusted for age at randomization and incidence of malaria prior to randomization. The no chemoprevention arm is the reference arm.|We assumed that the incidence of malaria would be 1.85 episodes per person year with TS based on a prior cohort study in the same area, and thus, that we would need to enroll 50 participants in each arm to detect a reduction in the incidence of malaria in either the monthly SP or DP arms (two-sided significance level 0.05) compared with the daily TS arm of 48% or greater with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||80|53|<0.001
92180977|NCT02307682|184260716|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-4.8|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.2|-4.8|
92180978|NCT02307682|184260716|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-3.1|7.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||7.7|-3.1|
92180979|NCT02307682|184260716|OTHER||Difference in proportions|3.3|||||TWO_SIDED|95.0|-2.9|8.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||8.7|-2.9|
92180980|NCT02307682|184260716|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-4.5|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||6.4|-4.5|
92180981|NCT02307682|184260716|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-4.6|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||6.4|-4.6|
92180982|NCT02307682|184260716|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-4.5|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||6.9|-4.5|
92180983|NCT02307682|184260716|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-4.5|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||6.4|-4.5|
92180984|NCT02307682|184260716|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-3.1|8.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||8.7|-3.1|
92180985|NCT02307682|184260716|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-4.7|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||7.2|-4.7|
92260350|NCT02607865|184423363|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.4||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.4|-0.6|< 0.0001
92180986|NCT02307682|184260717|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-7.7|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.5|-7.7|
92180987|NCT02307682|184260717|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-8.5|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||2.8|-8.5|
92260351|NCT02607865|184423363|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand). A value of 0.3% (the non-inferiority margin) was added to imputed values at week 26 for the oral semaglutide treatment arm only.|Mean treatment difference|-0.2|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.1||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|Pattern mixture model||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.1|-0.4|< 0.0001
92260352|NCT02607865|184423363|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.1|-0.4|< 0.0001
92260353|NCT02607865|184423363|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand). A value of 0.3% (the non-inferiority margin) was added to imputed values at week 26 for the oral semaglutide treatment arm only.|Mean treatment difference|0.2|||=|0.0856|TWO_SIDED|95.0|0.1|0.3||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|Pattern mixture model||Oral semaglutide 3 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.3|0.1|= 0.0856
92265435|NCT01590810|184432668|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|1.15||0.503|TWO_SIDED|95.0|-1.59|3.15|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.15|-1.59|0.503
92265436|NCT01590810|184432668|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-2.86|-1.55|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-1.55|-2.86|<0.0001
92265437|NCT01590810|184432668|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.23|STANDARD_ERROR_OF_MEAN|0.92|<|0.0001|TWO_SIDED|95.0|-10.13|-6.34|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.34|-10.13|<0.0001
92265438|NCT01590810|184432668|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.84|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-9.1|-4.58|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-4.58|-9.10|<0.0001
92265439|NCT01590810|184432668|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.41|STANDARD_ERROR_OF_MEAN|1.21|<|0.0001|TWO_SIDED|95.0|-12.89|-7.92|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.92|-12.89|<0.0001
92180988|NCT02307682|184260717|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-8.9|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.6|-8.9|
92180989|NCT02307682|184260717|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-7.7|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||3.6|-7.7|
92180990|NCT02307682|184260717|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-8.9|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.4|-8.9|
92180991|NCT02307682|184260717|OTHER||Difference in proportions|-4.0|||||TWO_SIDED|95.0|-10.0|2.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.0|-10.0|
92180992|NCT02307682|184260717|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-6.3|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||5.5|-6.3|
92180993|NCT02307682|184260717|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-6.2|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||6.4|-6.2|
92180994|NCT02307682|184260717|OTHER||Difference in proportions|-4.0|||||TWO_SIDED|95.0|-10.4|2.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.0|-10.4|
92260354|NCT02607865|184423363|SUPERIORITY|This hypothesis was not controlled for multiplicity, since the non-inferiority test of change in HbA1c for oral semaglutide 3 mg versus sitagliptin 100 mg could not be confirmed. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|0.2|||=|0.008|TWO_SIDED|95.0|0.0|0.3||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 3 mg - Sitagliptin 100 mg. If the mean treatment difference is non-negative, the superiority hypothesis of oral semaglutide 3 mg vs sitagliptin 100 mg will never be confirmed irrespective of the observed two-sided p-value.|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.3|0.0|= 0.0080
92180995|NCT02307682|184260717|OTHER||Difference in proportions|-3.4|||||TWO_SIDED|95.0|-9.4|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.8|-9.4|
92180996|NCT02307682|184260717|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-4.6|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||6.9|-4.6|
92180997|NCT02307682|184260717|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-6.6|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||5.7|-6.6|
92180998|NCT02307682|184260717|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-6.5|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||5.7|-6.5|
92180999|NCT02307682|184260717|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-4.9|7.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||7.4|-4.9|
92181000|NCT02307682|184260717|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-3.9|7.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||7.5|-3.9|
92181001|NCT02307682|184260717|OTHER||Difference in proportions|5.1|||||TWO_SIDED|95.0|-1.0|11.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||11.5|-1.0|
92181002|NCT02307682|184260717|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.5|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||3.4|-8.5|
92181003|NCT02307682|184260717|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-6.0|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||6.4|-6.0|
92181004|NCT02307682|184260717|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-5.2|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||6.4|-5.2|
92181005|NCT02307682|184260717|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-7.4|5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||5.0|-7.4|
92181006|NCT02307682|184260717|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.8|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||3.5|-8.8|
92260355|NCT02607865|184423363|NON_INFERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.5||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|MMRM||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.5|-0.7|<0.0001
92265440|NCT01590810|184432669|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.89|STANDARD_ERROR_OF_MEAN|1.4||0.052|TWO_SIDED|95.0|-5.79|0.02|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.02|-5.79|0.052
92265441|NCT01590810|184432669|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.46|STANDARD_ERROR_OF_MEAN|1.95||0.01|TWO_SIDED|95.0|-9.49|-1.43|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-1.43|-9.49|0.010
92265442|NCT01590810|184432669|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.49|STANDARD_ERROR_OF_MEAN|2.27|<|0.001|TWO_SIDED|95.0|-14.2|-4.79|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-4.79|-14.20|<0.001
92181007|NCT02307682|184260717|OTHER||Difference in proportions|-2.2|||||TWO_SIDED|95.0|-8.4|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.2|-8.4|
92181008|NCT02307682|184260717|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-9.5|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||2.3|-9.5|
92181009|NCT02307682|184260717|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.6|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||3.6|-8.6|
92181010|NCT02307682|184260717|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.8|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||3.2|-8.8|
92181011|NCT02307682|184260717|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-6.8|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||6.1|-6.8|
92181012|NCT02307682|184260717|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-5.9|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.1|-5.9|
92260356|NCT02607865|184423363|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.5||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.5|-0.7|<0.0001
92260357|NCT02607865|184423363|NON_INFERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.2||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|MMRM||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.2|-0.4|<0.0001
92265443|NCT01590810|184432669|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.02|STANDARD_ERROR_OF_MEAN|2.17|<|0.0001|TWO_SIDED|95.0|-16.51|-7.52|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.52|-16.51|<0.0001
92265444|NCT01590810|184432669|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.73|STANDARD_ERROR_OF_MEAN|1.55|<|0.0001|TWO_SIDED|95.0|-12.93|-6.53|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.53|-12.93|<0.0001
92181013|NCT02307682|184260717|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-6.6|6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.0|-6.6|
92181014|NCT02307682|184260717|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-5.7|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||6.4|-5.7|
92181015|NCT02307682|184260717|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-9.0|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.1|-9.0|
92181016|NCT02307682|184260717|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-7.2|5.5||Hypothesis testing not pre-specified.|Regression, Logistic|||Week 64||5.5|-7.2|
92181017|NCT02307682|184260717|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-6.6|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.7|-6.6|
92181018|NCT02307682|184260717|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-4.3|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||8.3|-4.3|
92260358|NCT02607865|184423363|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.2||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.2|-0.4|<0.0001
92181019|NCT02307682|184260717|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-6.3|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||6.1|-6.3|
92181020|NCT02307682|184260717|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-7.2|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||5.6|-7.2|
92181021|NCT02307682|184260717|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-8.5|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.3|-8.5|
92181022|NCT02307682|184260717|OTHER||Difference in proportions|4.0|||||TWO_SIDED|95.0|-2.4|10.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||10.2|-2.4|
92181023|NCT02307682|184260717|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-5.1|7.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||7.8|-5.1|
92181024|NCT02307682|184260717|OTHER||Difference in proportions|3.9|||||TWO_SIDED|95.0|-2.5|9.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||9.6|-2.5|
92181025|NCT02307682|184260717|OTHER||Difference in proportions|2.4|||||TWO_SIDED|95.0|-3.5|9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||9.0|-3.5|
92181026|NCT02307682|184260717|OTHER||Difference in proportions|3.3|||||TWO_SIDED|95.0|-3.0|9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||9.0|-3.0|
92181027|NCT02307682|184260717|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-5.8|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||6.4|-5.8|
92181028|NCT02307682|184260717|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-6.6|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||6.5|-6.6|
92181029|NCT02307682|184260717|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-6.0|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||6.1|-6.0|
92260359|NCT02607865|184423363|NON_INFERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|0.2|||=|0.3851|TWO_SIDED|95.0|0.1|0.4||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|MMRM||Oral semaglutide 3 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.4|0.1|=0.3851
92181030|NCT02307682|184260717|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-2.8|9.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||9.5|-2.8|
92181031|NCT02307682|184260717|OTHER||Difference in proportions|1.8|||||TWO_SIDED|95.0|-4.3|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||8.0|-4.3|
92260360|NCT02607865|184423363|OTHER|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|0.2|||<|0.0001|TWO_SIDED|95.0|0.1|0.4||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 3 mg - Sitagliptin 100 mg. If the mean treatment difference is non-negative, the superiority hypothesis of oral semaglutide 3 mg vs sitagliptin 100 mg will never be confirmed irrespective of the observed two-sided p-value.|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.4|0.1|<0.0001
92260361|NCT02607865|184423364|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.0|-2.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-2.0|-3.0|< 0.0001
92265445|NCT01590810|184432670|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|5.61||0.48|TWO_SIDED|95.0|-16.44|8.25|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||8.25|-16.44|0.480
92181032|NCT02307682|184260717|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-4.7|7.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||7.8|-4.7|
92265446|NCT01590810|184432670|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.79|STANDARD_ERROR_OF_MEAN|5.72||0.086|TWO_SIDED|95.0|-23.37|1.79|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.79|-23.37|0.086
92265447|NCT01590810|184432670|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.51|STANDARD_ERROR_OF_MEAN|5.15||0.006|TWO_SIDED|95.0|-28.85|-6.18|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.18|-28.85|0.006
92265448|NCT01590810|184432671|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.21|STANDARD_ERROR_OF_MEAN|1.74|<|0.0001|TWO_SIDED|95.0|-16.84|-9.59|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-9.59|-16.84|<0.0001
92265449|NCT01590810|184432671|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.2|STANDARD_ERROR_OF_MEAN|1.8|<|0.0001|TWO_SIDED|95.0|-13.94|-6.45|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.45|-13.94|<0.0001
92265450|NCT01590810|184432671|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.82|STANDARD_ERROR_OF_MEAN|1.74|<|0.0001|TWO_SIDED|95.0|-16.45|-9.19|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-9.19|-16.45|<0.0001
92265451|NCT01590810|184432671|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.84|STANDARD_ERROR_OF_MEAN|1.75|<|0.0001|TWO_SIDED|95.0|-16.49|-9.19|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-9.19|-16.49|<0.0001
92265452|NCT01590810|184432672|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.31|STANDARD_ERROR_OF_MEAN|1.18||0.061|TWO_SIDED|95.0|-4.73|0.11|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.11|-4.73|0.061
92181033|NCT02307682|184260717|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-3.8|9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||9.0|-3.8|
92181034|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-24.2|8.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4||8.4|-24.2|
92181035|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-16.5|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-31.9|-1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4||-1.1|-31.9|
92181036|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-13.7|STANDARD_ERROR_OF_MEAN|8.51|||TWO_SIDED|95.0|-30.4|3.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 8||3.0|-30.4|
92181037|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-19.0|STANDARD_ERROR_OF_MEAN|8.16|||TWO_SIDED|95.0|-35.0|-2.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||-2.9|-35.0|
92181038|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-19.7|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-36.3|-3.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12||-3.1|-36.3|
92181039|NCT02307682|184260718|OTHER||Least Squares Mean Difference|-24.5|STANDARD_ERROR_OF_MEAN|8.24|||TWO_SIDED|95.0|-40.7|-8.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||-8.3|-40.7|
92260362|NCT02607865|184423364|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.1|-2.0|< 0.0001
92265453|NCT01590810|184432672|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.23|STANDARD_ERROR_OF_MEAN|0.86||0.016|TWO_SIDED|95.0|-4.0|-0.45|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.45|-4.00|0.016
92181040|NCT02307682|184260718|SUPERIORITY||Least Squares Mean Difference|-19.9|STANDARD_ERROR_OF_MEAN|9.24||0.0159|TWO_SIDED|95.0|-38.0|-1.7||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 16||-1.7|-38.0|0.0159
92181041|NCT02307682|184260718|SUPERIORITY||Least Squares Mean Difference|-27.8|STANDARD_ERROR_OF_MEAN|8.8||0.0008|TWO_SIDED|95.0|-45.1|-10.5||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||-10.5|-45.1|0.0008
92181042|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|8.69|||TWO_SIDED|95.0|-11.8|22.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 20||22.3|-11.8|
92181043|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|8.8|||TWO_SIDED|95.0|-14.1|20.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||20.5|-14.1|
92181044|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-25.8|STANDARD_ERROR_OF_MEAN|9.44|||TWO_SIDED|95.0|-44.3|-7.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 24||-7.2|-44.3|
92181045|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-29.6|STANDARD_ERROR_OF_MEAN|9.13|||TWO_SIDED|95.0|-47.5|-11.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||-11.6|-47.5|
92181046|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-11.6|STANDARD_ERROR_OF_MEAN|8.96|||TWO_SIDED|95.0|-29.2|5.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 28||5.9|-29.2|
92265454|NCT01590810|184432672|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.62|STANDARD_ERROR_OF_MEAN|1.36|<|0.0001|TWO_SIDED|95.0|-14.42|-8.82|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-8.82|-14.42|<0.0001
92265455|NCT01590810|184432672|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.15|STANDARD_ERROR_OF_MEAN|1.55|<|0.0001|TWO_SIDED|95.0|-11.34|-4.96|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-4.96|-11.34|<0.0001
92260363|NCT02607865|184423364|SUPERIORITY|This hypothesis was not controlled for multiplicity, since the non-inferiority test of change in HbA1c for oral semaglutide 3 mg versus sitagliptin 100 mg could not be confirmed. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.6|||=|0.0185|TWO_SIDED|95.0|-1.1|-0.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 3 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.1|-1.1|= 0.0185
92260364|NCT02607865|184423364|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.1|-2.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-2.1|-3.1|<0.0001
92260365|NCT02607865|184423364|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.1|-2.0|<0.0001
92260366|NCT02607865|184423364|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|type Mean treatment difference|-0.5|||=|0.0257|TWO_SIDED|95.0|-1.0|-0.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 3 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.1|-1.0|=0.0257
92260367|NCT02607865|184423385|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.34|||=|0.0063|TWO_SIDED|95.0|1.09|1.65||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 3 mg / Sitagliptin 100 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.65|1.09|=0.0063
92260368|NCT02607865|184423385|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.77|||=|0.0221|TWO_SIDED|95.0|0.61|0.96||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 7 mg / Sitagliptin 100 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.96|0.61|=0.0221
92260369|NCT02607865|184423385|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.41|0.68||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Sitagliptin 100 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.68|0.41|<0.0001
92260370|NCT02607865|184423386|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.33|||=|0.016|TWO_SIDED|95.0|1.05|1.68||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 3 mg / Sitagliptin 100 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.68|1.05|=0.0160
92260371|NCT02607865|184423386|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.66|||=|0.0022|TWO_SIDED|95.0|0.51|0.86||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 7 mg / Sitagliptin 100 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.86|0.51|=0.0022
92260372|NCT02607865|184423386|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.22|0.43||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Sitagliptin 100 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.43|0.22|<0.0001
92260373|NCT03427528|184423407|OTHER|To assess paternal and maternal outcomes on the BDI-II we conducted a series of paired t-tests with Bonferroni correction for multiple comparisons. T-tests compared baseline scores on each outcome to 3-month follow-up scores, with separate t-tests conducted to examine changes between baseline and 6-month follow-up. We used a Cohen's d statistic to indicate effect sizes for our BDI-II.|||||<|0.05|||||||Paired T-test|||We used a single group longitudinal pre-post design to evaluate study outcomes||||<0.05
92260374|NCT03427528|184423408|OTHER|To assess paternal and maternal outcomes on the GAD-7, we conducted a series of paired t-tests with Bonferroni correction for multiple comparisons. T-tests compared baseline scores on each outcome to 3-month follow-up scores, with separate t-tests conducted to examine changes between baseline and 6-month follow-up. We used a Cohen's d statistic to indicate effect sizes for our outcomes.|||||>|0.05|||||||Paired T-test|||We used a single group longitudinal pre-post design to evaluate study outcomes||||>0.05
92260375|NCT03427528|184423409|OTHER|To assess paternal and maternal outcomes on the PSS-10, we conducted a series of paired t-tests with Bonferroni correction for multiple comparisons. T-tests compared baseline scores on each outcome to 3-month follow-up scores, with separate t-tests conducted to examine changes between baseline and 6-month follow-up. We used a Cohen's d statistic to indicate effect sizes for our PSS-10 outcomes.|||||<|0.05|||||||Paired T-test|||We used a single group longitudinal pre-post design to evaluate study outcomes||||<0.05
92260376|NCT03427528|184423409|OTHER|To assess paternal and maternal outcomes on the PSS-10 we conducted a series of paired t-tests with Bonferroni correction for multiple comparisons. T-tests compared baseline scores on each outcome to 3-month follow-up scores, with separate t-tests conducted to examine changes between baseline and 6-month follow-up. We used a Cohen's d statistic to indicate effect sizes for our PSS-10 outcomes.|||||<|0.05|||||||Paired T-test|||We used a single group longitudinal pre-post design to evaluate study outcomes||||<0.05
92260377|NCT03427528|184423410|OTHER||||||>|0.05|||||||t-test, 2 sided|||We used a single group longitudinal pre-post design to evaluate study outcomes||||>0.05
92260378|NCT01351415|184423413|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.84||||0.1044|TWO_SIDED|90.0|0.71|1.0|||Stratified Log-Rank test|||The stratification factors for Log-Rank test and Hazard Ratio (HR) are the type of planned 2nd-line SoC treatment, the number of cycles of bevacizumab maintenance treatment prior to first PD and smoking status.||1.00|0.71|0.1044
92260379|NCT01351415|184423414|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.83||||0.0573|TWO_SIDED|90.0|0.7|0.98|||Stratified Log-Rank test|||PFS 2: The stratification factors for Log-Rank test are the type of planned 2nd-line SoC treatment, the number of cycles of bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.98|0.70|0.0573
92260380|NCT01351415|184423414|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.63||||0.0045|TWO_SIDED|90.0|0.49|0.83|||Stratified Log-Rank test|||PFS 3: The stratification factors for Log-Rank test are the type of planned 2nd-line SoC treatment, the number of cycles of bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.83|0.49|0.0045
92260381|NCT01351415|184423415|SUPERIORITY_OR_OTHER||Estimated difference in response rate|0.0237||||0.081|TWO_SIDED|90.0|-0.0156|0.063|||Stratified Cochran-Mantel-Haenszel test|||The stratification factors for Cochran-Mantel-Haenszel test are the type of planned 2nd-line SoC treatment, the number of cycles of Bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.0630|-0.0156|0.0810
92260382|NCT01351415|184423416|SUPERIORITY_OR_OTHER||Estimated difference in Disease Control|0.0326||||0.0218|TWO_SIDED|90.0|-0.0288|0.094|||Stratified Cochran-Mantel-Haenszel test|||The stratification factors for Cochran-Mantel-Haenszel test are the type of planned 2nd-line SoC treatment, the number of cycles of Bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.0940|-0.0288|0.0218
92260383|NCT01351415|184423417|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.29||||0.06|TWO_SIDED|90.0|0.09|0.9|||Stratified Log-Rank test|||The stratification factors for Log-Rank test are the type of planned 2nd-line SoC treatment, the number of cycles of Bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.90|0.09|0.0600
92260384|NCT01351415|184423419|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.79||||0.0311|TWO_SIDED|90.0|0.65|0.95|||Stratified Log-Rank test|||TTP2: The stratification factors for Log-Rank test are the type of planned 2nd-line SoC treatment, the number of cycles of Bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.95|0.65|0.0311
92181047|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-12.1|STANDARD_ERROR_OF_MEAN|8.98|||TWO_SIDED|95.0|-29.8|5.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||5.5|-29.8|
92260385|NCT01351415|184423419|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.69||||0.0326|TWO_SIDED|90.0|0.52|0.92|||Stratified Log-Rank test|||TTP3: The stratification factors for Log-Rank test are the type of planned 2nd-line SoC treatment, the number of cycles of Bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.92|0.52|0.0326
92265456|NCT01590810|184432672|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.78|STANDARD_ERROR_OF_MEAN|1.96|<|0.0001|TWO_SIDED|95.0|-20.81|-12.75|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-12.75|-20.81|<0.0001
92260386|NCT02274766|184423546|SUPERIORITY||Least Squares Mean Difference|-14.4|STANDARD_ERROR_OF_MEAN|3.03|<|0.0001|TWO_SIDED|95.0|-20.4|-8.3|||Linear Mixed Model w/ Repeated Measures|Change from baseline is a dependent variable; the baseline value is a continuous covariate||32 subjects per treatment arm provided 90% power using a 2-sided test at 5% significance.||-8.3|-20.4|<0.0001
92260387|NCT02274766|184423547|SUPERIORITY||Least Squares Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|0.775||0.0168|TWO_SIDED|95.0|0.35|3.45||Change from Baseline in ON time without troublesome dyskinesia.|Linear Mixed Model w/ Repeated Measures|||||3.45|0.35|0.0168
92260388|NCT02274766|184423547|SUPERIORITY||Least Squares Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.648||0.0853|TWO_SIDED|95.0|-2.42|0.16||Change from Baseline in ON time with troublesome dyskinesia.|Linear Mixed Model w/ Repeated Measures|||||0.16|-2.42|0.0853
92260389|NCT02274766|184423547|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.461||0.0199|TWO_SIDED|95.0|-2.02|-0.18||Change from Baseline in OFF time.|Linear Mixed Model w/ Repeated Measures|||||-0.18|-2.02|0.0199
92260390|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.9||||0.599|TWO_SIDED|95.0|0.39|2.07||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 100ug/placebo for day 7.|||2.07|0.39|0.599
92260391|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.07||||0.442|TWO_SIDED|95.0|0.43|2.59||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 100ug/placebo for day 14.|||2.59|0.43|0.442
92284840|NCT00048581|184474067|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Activities|-0.4|||<|0.001|TWO_SIDED|95.0|-0.58|-0.22|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg from BL||-0.22|-0.58|<0.001
92284841|NCT00855738|184474191|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 3: p-value versus baseline.||||<0.0001
92284842|NCT00855738|184474191|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 6: p-value versus baseline.||||<0.0001
92260392|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.68||||0.823|TWO_SIDED|95.0|0.3|1.57||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 200ug/placebo for day 7.|||1.57|0.30|0.823
92260393|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.81||||0.69|TWO_SIDED|95.0|0.33|1.97||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 200ug/placebo for day 14.|||1.97|0.33|0.690
92260394|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.75||||0.764|TWO_SIDED|95.0|0.33|1.71||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 500ug/placebo for day 7.|||1.71|0.33|0.764
92260395|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.64||||0.841|TWO_SIDED|95.0|0.27|1.56||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 500ug/placebo for day 14.|||1.56|0.27|0.841
92284843|NCT00855738|184474192|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 3 \>=25% reduction: p-value versus baseline.||||<0.0001
92284844|NCT00855738|184474192|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 3 \>=75% reduction: p-value versus baseline.||||<0.0001
92284845|NCT00855738|184474192|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 6: \>=25% reduction: p-value versus baseline.||||<0.0001
92284846|NCT00855738|184474192|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 6: \>=75% reduction: p-value versus baseline.||||<0.0001
92284847|NCT00855738|184474193|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0039|TWO_SIDED||||||McNemar|||Month 3: p-value versus baseline.||||0.0039
92284848|NCT00855738|184474193|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 6: p-value versus baseline.||||<0.0001
92284849|NCT00855738|184474194|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92284850|NCT00855738|184474205|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1797|TWO_SIDED||||||t-test, 2 sided|||Depression domain: P-value vs baseline.||||0.1797
92284851|NCT00855738|184474205|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0433|TWO_SIDED||||||t-test, 2 sided|||Anxiety domain: P-value vs baseline.||||0.0433
92284852|NCT00855738|184474206|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8284|TWO_SIDED||||||t-test, 2 sided|||Energy: p-value versus baseline.||||0.8284
92284853|NCT00855738|184474206|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6299|TWO_SIDED||||||t-test, 2 sided|||Emotions (mood): p-value versus baseline.||||0.6299
92284854|NCT00855738|184474206|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6162|TWO_SIDED||||||t-test, 2 sided|||Daily activities: p-value versus baseline.||||0.6162
92284855|NCT00855738|184474206|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5609|TWO_SIDED||||||t-test, 2 sided|||Mental function: p-value versus baseline.||||0.5609
92260396|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.81||||0.702|TWO_SIDED|95.0|0.35|1.81||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7.This is the baseline corrected ratio of 100ug/placebo for day 7.|||1.81|0.35|0.702
92260397|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.91||||0.578|TWO_SIDED|95.0|0.33|2.47||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 100ug/placebo for day 14.|||2.47|0.33|0.578
92260398|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.71||||0.783|TWO_SIDED|95.0|0.29|1.7||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7. This is the baseline corrected ratio of 200ug/placebo for day 7.|||1.70|0.29|0.783
92260399|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.64||||0.797|TWO_SIDED|95.0|0.22|1.87||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 200ug/placebo for day 14.|||1.87|0.22|0.797
92260400|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.58||||0.919|TWO_SIDED|95.0|0.27|1.26||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7. This is the baseline corrected ratio of 500ug/placebo for day 7.|||1.26|0.27|0.919
92260401|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.55||||0.892|TWO_SIDED|95.0|0.21|1.43||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 500ug/placebo for day 14.|||1.43|0.21|0.892
92284856|NCT00855738|184474206|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4635|TWO_SIDED||||||t-test, 2 sided|||Medication effects (physical/ mental): p-value versus baseline.||||0.4635
92284857|NCT00855738|184474206|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Worry about seizures (impact of seizures): p-value versus baseline.||||<0.0001
92284858|NCT00855738|184474206|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0258|TWO_SIDED||||||t-test, 2 sided|||Overall quality of life: p-value versus baseline.||||0.0258
92260402|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.47||||0.86|TWO_SIDED|95.0|0.11|1.93||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 100ug/placebo for day 7.|||1.93|0.11|0.860
92260403|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.05||||0.463|TWO_SIDED|95.0|0.38|2.86||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 100ug/placebo for day 14.|||2.86|0.38|0.463
92260404|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.35||||0.932|TWO_SIDED|95.0|0.09|1.42||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 200ug/placebo for day 7.|||1.42|0.09|0.932
92260405|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.43||||0.952|TWO_SIDED|95.0|0.16|1.17||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 200ug/placebo for day 14.|||1.17|0.16|0.952
92260406|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.46||||0.873|TWO_SIDED|95.0|0.12|1.81||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 500ug/placebo for day 7.|||1.81|0.12|0.873
92260407|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.43||||0.953|TWO_SIDED|95.0|0.16|1.16||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 500ug/placebo for day 14.|||1.16|0.16|0.953
92284859|NCT00855738|184474207|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7822|TWO_SIDED||||||t-test, 2 sided|||Month 3: p-value versus baseline.||||0.7822
92284860|NCT00855738|184474207|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4471|TWO_SIDED||||||t-test, 2 sided|||Month 6: p-value versus baseline.||||0.4471
92181048|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-20.1|STANDARD_ERROR_OF_MEAN|9.91|||TWO_SIDED|95.0|-39.6|-0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 32||-0.7|-39.6|
92260408|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio9|1.26||||0.281|TWO_SIDED|95.0|0.56|2.82||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 700ug/placebo for day 7.|||2.82|0.56|0.281
92181049|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-23.2|STANDARD_ERROR_OF_MEAN|9.64|||TWO_SIDED|95.0|-42.1|-4.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||-4.2|-42.1|
92260409|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.0||||0.5|TWO_SIDED|95.0|0.42|2.35||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 700ug/placebo for day 14.|||2.35|0.42|0.500
92260410|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.76||||0.744|TWO_SIDED|95.0|0.32|1.77||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 1000ug/placebo for day 7.|||1.77|0.32|0.744
92260411|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.21||||0.334|TWO_SIDED|95.0|0.49|3.04||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 1000ug/placebo for day 14.|||3.04|0.49|0.334
92265457|NCT01590810|184432673|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.95|STANDARD_ERROR_OF_MEAN|1.26||0.029|TWO_SIDED|95.0|-5.56|-0.34|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.34|-5.56|0.029
92260412|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.81||||0.698|TWO_SIDED|95.0|0.35|1.85||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 2000ug/placebo for day 7.|||1.85|0.35|0.698
92260413|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.18||||0.353|TWO_SIDED|95.0|0.48|2.88||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 2000ug/placebo for day 14.|||2.88|0.48|0.353
92260414|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio9|1.01||||0.489|TWO_SIDED|95.0|0.45|2.26||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7. This is the baseline corrected ratio of 700ug/placebo for day 7.|||2.26|0.45|0.489
92260415|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.46||||0.94|TWO_SIDED|95.0|0.17|1.23||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 700ug/placebo for day 14.|||1.23|0.17|0.940
92260416|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.01||||0.495|TWO_SIDED|95.0|0.42|2.4||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7. This is the baseline corrected ratio of 1000ug/placebo for day 7.|||2.40|0.42|0.495
92260417|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.82||||0.647|TWO_SIDED|95.0|0.28|2.37||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 1000ug/placebo for day 14.|||2.37|0.28|0.647
92260418|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.87||||0.646|TWO_SIDED|95.0|0.4|1.86||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7. This is the baseline corrected ratio of 2000ug/placebo for day 7.|||1.86|0.40|0.646
92260419|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.74||||0.741|TWO_SIDED|95.0|0.29|1.9||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 2000ug/placebo for day 14.|||1.90|0.29|0.741
92260420|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio9|2.18||||0.109|TWO_SIDED|95.0|0.62|7.95||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 700ug/placebo for day 7.|||7.95|0.62|0.109
92260421|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.37||||0.24|TWO_SIDED|95.0|0.55|3.45||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 700ug/placebo for day 14.|||3.45|0.55|0.240
92260422|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.1||||0.447|TWO_SIDED|95.0|0.27|4.44||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 1000ug/placebo for day 7.|||4.44|0.27|0.447
92260423|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.03||||0.472|TWO_SIDED|95.0|0.39|2.74||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 1000ug/placebo for day 14.|||2.74|0.39|0.472
92260424|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.78||||0.698|TWO_SIDED|95.0|0.21|2.9||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 2000ug/placebo for day 7.|||2.90|0.21|0.698
92260425|NCT02130635|184423562|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.53||||0.911|TWO_SIDED|95.0|0.21|1.37||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 2000ug/placebo for day 14.|||1.37|0.21|0.911
92260426|NCT02055976|184423614|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-49.838|STANDARD_ERROR_OF_MEAN|3.775|<|0.001|TWO_SIDED|95.0|-57.335|-42.34|||Mixed Models Analysis|One-sided p-value (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the mixed-effect model for repeated measures (MMRM) model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-42.340|-57.335|<0.001
92265458|NCT01590810|184432673|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.76|STANDARD_ERROR_OF_MEAN|2.19||0.005|TWO_SIDED|95.0|-11.29|-2.22|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.22|-11.29|0.005
92260427|NCT02055976|184423614|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-66.754|STANDARD_ERROR_OF_MEAN|3.912|<|0.001|TWO_SIDED|95.0|-74.523|-58.986|||Mixed Models Analysis|One-sided p-value (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-58.986|-74.523|<0.001
92260428|NCT02055976|184423614|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-71.534|STANDARD_ERROR_OF_MEAN|3.903|<|0.001|TWO_SIDED|95.0|-79.284|-63.784|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-63.784|-79.284|<0.001
92260429|NCT02055976|184423614|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-47.531|STANDARD_ERROR_OF_MEAN|4.016|<|0.001|TWO_SIDED|95.0|-55.511|-39.551|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-39.551|-55.511|<0.001
92260430|NCT02055976|184423614|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-62.624|STANDARD_ERROR_OF_MEAN|3.993|<|0.001|TWO_SIDED|95.0|-70.557|-54.691|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.691|-70.557|<0.001
92260431|NCT02055976|184423614|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-64.268|STANDARD_ERROR_OF_MEAN|3.955|<|0.001|TWO_SIDED|95.0|-72.128|-56.409|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-56.409|-72.128|<0.001
92260432|NCT02055976|184423615|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-42.293|STANDARD_ERROR_OF_MEAN|3.587|<|0.001|TWO_SIDED|95.0|-49.417|-35.168|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the mixed-effect model for repeated measures (MMRM) model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-35.168|-49.417|<0.001
92260433|NCT02055976|184423615|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.262|STANDARD_ERROR_OF_MEAN|3.696|<|0.001|TWO_SIDED|95.0|-63.603|-48.921|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.921|-63.603|<0.001
92260434|NCT02055976|184423615|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.384|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-68.733|-54.035|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.035|-68.733|<0.001
92260435|NCT02055976|184423615|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-47.578|STANDARD_ERROR_OF_MEAN|4.273|<|0.001|TWO_SIDED|95.0|-56.067|-39.088|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-39.088|-56.067|<0.001
92260436|NCT02055976|184423615|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-63.346|STANDARD_ERROR_OF_MEAN|4.244|<|0.001|TWO_SIDED|95.0|-71.776|-54.915|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.915|-71.776|<0.001
92284861|NCT00855738|184474208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2452|TWO_SIDED||||||t-test, 2 sided|||Sleep disturbance: p-value versus baseline.||||0.2452
92284862|NCT00855738|184474208|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||t-test, 2 sided|||Snoring: p-value verus baseline.||||1.0000
92260437|NCT02055976|184423615|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-66.691|STANDARD_ERROR_OF_MEAN|4.226|<|0.001|TWO_SIDED|95.0|-75.088|-58.295|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-58.295|-75.088|<0.001
92260438|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-67.254|STANDARD_ERROR_OF_MEAN|4.785|<|0.001|TWO_SIDED|95.0|-76.757|-57.752|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-57.752|-76.757|<0.001
92260439|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-87.122|STANDARD_ERROR_OF_MEAN|4.959|<|0.001|TWO_SIDED|95.0|-96.969|-77.275|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-77.275|-96.969|<0.001
92260440|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-93.327|STANDARD_ERROR_OF_MEAN|4.949|<|0.001|TWO_SIDED|95.0|-103.153|-83.501|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-83.501|-103.153|<0.001
92260441|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-71.724|STANDARD_ERROR_OF_MEAN|6.243|<|0.001|TWO_SIDED|95.0|-84.128|-59.321|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-59.321|-84.128|<0.001
92260442|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-96.206|STANDARD_ERROR_OF_MEAN|6.209|<|0.001|TWO_SIDED|95.0|-108.541|-83.872|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-83.872|-108.541|<0.001
92260443|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-98.533|STANDARD_ERROR_OF_MEAN|6.145|<|0.001|TWO_SIDED|95.0|-110.743|-86.323|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-86.323|-110.743|<0.001
92260444|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.225|STANDARD_ERROR_OF_MEAN|4.736|<|0.001|TWO_SIDED|95.0|-65.63|-46.819|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-46.819|-65.630|<0.001
92260445|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-73.813|STANDARD_ERROR_OF_MEAN|4.881|<|0.001|TWO_SIDED|95.0|-83.507|-64.119|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-64.119|-83.507|<0.001
92260446|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-81.239|STANDARD_ERROR_OF_MEAN|4.885|<|0.001|TWO_SIDED|95.0|-90.939|-71.538|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-71.538|-90.939|<0.001
92260447|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-72.573|STANDARD_ERROR_OF_MEAN|5.983|<|0.001|TWO_SIDED|95.0|-84.461|-60.684|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-60.684|-84.461|<0.001
92260448|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-96.222|STANDARD_ERROR_OF_MEAN|5.948|<|0.001|TWO_SIDED|95.0|-108.039|-84.405|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-84.405|-108.039|<0.001
92181050|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|9.24|||TWO_SIDED|95.0|-35.5|0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 36||0.7|-35.5|
92260449|NCT02055976|184423617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-102.184|STANDARD_ERROR_OF_MEAN|5.919|<|0.001|TWO_SIDED|95.0|-113.945|-90.424|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-90.424|-113.945|<0.001
92260450|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-69.537|STANDARD_ERROR_OF_MEAN|5.721|<|0.001|TWO_SIDED|95.0|-80.9|-58.175|||Mixed Models Analysis|One-sided p-value (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-58.175|-80.900|<0.001
92265459|NCT01590810|184432673|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.48|STANDARD_ERROR_OF_MEAN|3.16|<|0.001|TWO_SIDED|95.0|-20.03|-6.93|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.93|-20.03|<0.001
92265460|NCT01590810|184432673|SUPERIORITY_OR_OTHER||LS Mean Difference|-18.33|STANDARD_ERROR_OF_MEAN|1.76|<|0.0001|TWO_SIDED|95.0|-21.98|-14.68|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-14.68|-21.98|<0.0001
92260451|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-86.446|STANDARD_ERROR_OF_MEAN|5.855|<|0.001|TWO_SIDED|95.0|-98.074|-74.818|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-74.818|-98.074|<0.001
92260452|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-98.273|STANDARD_ERROR_OF_MEAN|5.898|<|0.001|TWO_SIDED|95.0|-109.983|-86.563|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-86.563|-109.983|<0.001
92260453|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-71.435|STANDARD_ERROR_OF_MEAN|7.209|<|0.001|TWO_SIDED|95.0|-85.757|-57.112|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-57.112|-85.757|<0.001
92260454|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-94.959|STANDARD_ERROR_OF_MEAN|7.236|<|0.001|TWO_SIDED|95.0|-109.333|-80.585|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-80.585|-109.333|<0.001
92260455|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-98.519|STANDARD_ERROR_OF_MEAN|7.15|<|0.001|TWO_SIDED|95.0|-112.727|-84.311|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-84.311|-112.727|<0.001
92260456|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-55.191|STANDARD_ERROR_OF_MEAN|5.741|<|0.001|TWO_SIDED|95.0|-66.592|-43.791|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-43.791|-66.592|<0.001
92260457|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-72.211|STANDARD_ERROR_OF_MEAN|5.848|<|0.001|TWO_SIDED|95.0|-83.825|-60.597|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-60.597|-83.825|<0.001
92284863|NCT00855738|184474208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4253|TWO_SIDED||||||t-test, 2 sided|||Awake short of breath: p-value versus baseline.||||0.4253
92181051|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-19.6|STANDARD_ERROR_OF_MEAN|9.14|||TWO_SIDED|95.0|-37.6|-1.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||-1.7|-37.6|
92260458|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-83.065|STANDARD_ERROR_OF_MEAN|5.913|<|0.001|TWO_SIDED|95.0|-94.807|-71.323|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-71.323|-94.807|<0.001
92260459|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-73.879|STANDARD_ERROR_OF_MEAN|6.678|<|0.001|TWO_SIDED|95.0|-87.147|-60.612|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-60.612|-87.147|<0.001
92260460|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-95.428|STANDARD_ERROR_OF_MEAN|6.697||0.001|TWO_SIDED|95.0|-108.732|-82.124|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-82.124|-108.732|0.001
92265461|NCT01590810|184432673|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.24|STANDARD_ERROR_OF_MEAN|1.96|<|0.0001|TWO_SIDED|95.0|-20.29|-12.19|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-12.19|-20.29|<0.0001
92265462|NCT01590810|184432674|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.59|STANDARD_ERROR_OF_MEAN|2.51||0.539|TWO_SIDED|95.0|-7.12|3.93|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.93|-7.12|0.539
92260461|NCT02055976|184423619|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-104.859|STANDARD_ERROR_OF_MEAN|6.654|<|0.001|TWO_SIDED|95.0|-118.079|-91.639|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-91.639|-118.079|<0.001
92260462|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-31.642|STANDARD_ERROR_OF_MEAN|2.717|<|0.001|TWO_SIDED|95.0|-37.039|-26.246|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-26.246|-37.039|<0.001
92265463|NCT01590810|184432674|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.36|STANDARD_ERROR_OF_MEAN|3.12||0.113|TWO_SIDED|95.0|-12.23|1.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.50|-12.23|0.113
92260463|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-39.88|STANDARD_ERROR_OF_MEAN|2.781|<|0.001|TWO_SIDED|95.0|-45.403|-34.358|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-34.358|-45.403|<0.001
92260464|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-45.889|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-51.45|-40.329|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-40.329|-51.450|<0.001
92260465|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-30.137|STANDARD_ERROR_OF_MEAN|3.006|<|0.001|TWO_SIDED|95.0|-36.11|-24.164|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-24.164|-36.110|<0.001
92260466|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-39.525|STANDARD_ERROR_OF_MEAN|3.018|<|0.001|TWO_SIDED|95.0|-45.52|-33.531|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-33.531|-45.520|<0.001
92260467|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-41.372|STANDARD_ERROR_OF_MEAN|2.983|<|0.001|TWO_SIDED|95.0|-47.299|-35.445|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-35.445|-47.299|<0.001
92260468|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.374|STANDARD_ERROR_OF_MEAN|2.69|<|0.001|TWO_SIDED|95.0|-30.717|-20.032|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-20.032|-30.717|<0.001
92260469|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-33.49|STANDARD_ERROR_OF_MEAN|2.741|<|0.001|TWO_SIDED|95.0|-38.934|-28.047|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-28.047|-38.934|<0.001
92260470|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-38.76|STANDARD_ERROR_OF_MEAN|2.77|<|0.001|TWO_SIDED|95.0|-44.262|-33.258|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-33.258|-44.262|<0.001
92260471|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-30.847|STANDARD_ERROR_OF_MEAN|2.879|<|0.001|TWO_SIDED|95.0|-36.568|-25.127|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-25.127|-36.568|<0.001
92260472|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.019|STANDARD_ERROR_OF_MEAN|2.887|<|0.001|TWO_SIDED|95.0|-45.754|-34.285|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-34.285|-45.754|<0.001
92260473|NCT02055976|184423620|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-43.947|STANDARD_ERROR_OF_MEAN|2.869|<|0.001|TWO_SIDED|95.0|-49.647|-38.247|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-38.247|-49.647|<0.001
92284864|NCT00855738|184474208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0572|TWO_SIDED||||||t-test, 2 sided|||Quantity: p-value versus baseline.||||0.0572
92260474|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-41.118|STANDARD_ERROR_OF_MEAN|3.344|<|0.001|TWO_SIDED|95.0|-47.76|-34.476|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-34.476|-47.760|<0.001
92265464|NCT01590810|184432674|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.3|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|-19.69|-8.91|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-8.91|-19.69|<0.001
92265465|NCT01590810|184432675|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.36|STANDARD_ERROR_OF_MEAN|1.56|<|0.0001|TWO_SIDED|95.0|-15.62|-9.11|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-9.11|-15.62|<0.0001
92181052|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-27.3|STANDARD_ERROR_OF_MEAN|9.83|||TWO_SIDED|95.0|-46.6|-8.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 40||-8.0|-46.6|
92181053|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-29.5|STANDARD_ERROR_OF_MEAN|9.5|||TWO_SIDED|95.0|-48.2|-10.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||-10.9|-48.2|
92181054|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-9.3|STANDARD_ERROR_OF_MEAN|9.27|||TWO_SIDED|95.0|-27.5|8.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 44||8.9|-27.5|
92181055|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-11.4|STANDARD_ERROR_OF_MEAN|9.64|||TWO_SIDED|95.0|-30.3|7.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||7.5|-30.3|
92181056|NCT02307682|184260718|SUPERIORITY||Least Squares Mean Difference|-23.9|STANDARD_ERROR_OF_MEAN|9.79||0.0075|TWO_SIDED|95.0|-43.1|-4.6||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 48||-4.6|-43.1|0.0075
92181057|NCT02307682|184260718|SUPERIORITY||Least Squares Mean Difference|-29.0|STANDARD_ERROR_OF_MEAN|9.47||0.0012|TWO_SIDED|95.0|-47.6|-10.4||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||-10.4|-47.6|0.0012
92181058|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-15.6|STANDARD_ERROR_OF_MEAN|9.17|||TWO_SIDED|95.0|-33.6|2.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 52||2.4|-33.6|
92181059|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-15.1|STANDARD_ERROR_OF_MEAN|9.35|||TWO_SIDED|95.0|-33.4|3.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||3.3|-33.4|
92181060|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-20.0|STANDARD_ERROR_OF_MEAN|9.62|||TWO_SIDED|95.0|-38.9|-1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 56||-1.1|-38.9|
92181061|NCT02307682|184260718|OTHER||Least Squares Mean Difference|-20.0|STANDARD_ERROR_OF_MEAN|9.86|||TWO_SIDED|95.0|-39.4|-0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||-0.7|-39.4|
92181062|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-18.8|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|95.0|-37.0|-0.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 60||-0.5|-37.0|
92181063|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-12.7|STANDARD_ERROR_OF_MEAN|9.56|||TWO_SIDED|95.0|-31.4|6.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||6.1|-31.4|
92181064|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-27.2|STANDARD_ERROR_OF_MEAN|9.96|||TWO_SIDED|95.0|-46.7|-7.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 64||-7.6|-46.7|
92181065|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-22.5|STANDARD_ERROR_OF_MEAN|9.73|||TWO_SIDED|95.0|-41.6|-3.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||-3.4|-41.6|
92260475|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-54.787|STANDARD_ERROR_OF_MEAN|3.402|<|0.001|TWO_SIDED|95.0|-61.543|-48.032|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.032|-61.543|<0.001
92260476|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-60.549|STANDARD_ERROR_OF_MEAN|3.453|<|0.001|TWO_SIDED|95.0|-67.403|-53.694|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-53.694|-67.403|<0.001
92260477|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-36.589|STANDARD_ERROR_OF_MEAN|3.73|<|0.001|TWO_SIDED|95.0|-43.999|-29.178|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-29.178|-43.999|<0.001
92265466|NCT01590810|184432675|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.58|STANDARD_ERROR_OF_MEAN|1.51|<|0.0001|TWO_SIDED|95.0|-13.74|-7.42|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.42|-13.74|<0.0001
92265467|NCT01590810|184432675|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.63|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-16.12|-11.13|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-11.13|-16.12|<0.0001
92181066|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-14.9|STANDARD_ERROR_OF_MEAN|9.6|||TWO_SIDED|95.0|-33.8|3.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 68||3.9|-33.8|
92181067|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-13.2|STANDARD_ERROR_OF_MEAN|9.88|||TWO_SIDED|95.0|-32.6|6.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||6.2|-32.6|
92181068|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-29.9|STANDARD_ERROR_OF_MEAN|9.89|||TWO_SIDED|95.0|-49.3|-10.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 72||-10.5|-49.3|
92181069|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-26.4|STANDARD_ERROR_OF_MEAN|9.99|||TWO_SIDED|95.0|-46.0|-6.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||-6.8|-46.0|
92181070|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-19.3|STANDARD_ERROR_OF_MEAN|9.62|||TWO_SIDED|95.0|-38.2|-0.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 76||-0.4|-38.2|
92181071|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-15.7|STANDARD_ERROR_OF_MEAN|9.84|||TWO_SIDED|95.0|-35.0|3.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||3.7|-35.0|
92181072|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-24.8|STANDARD_ERROR_OF_MEAN|10.34|||TWO_SIDED|95.0|-45.0|-4.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 80||-4.5|-45.0|
92181073|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-23.7|STANDARD_ERROR_OF_MEAN|10.32|||TWO_SIDED|95.0|-43.9|-3.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||-3.4|-43.9|
92181074|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|9.65|||TWO_SIDED|95.0|-38.4|-0.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 84||-0.5|-38.4|
92181075|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-11.8|STANDARD_ERROR_OF_MEAN|10.05|||TWO_SIDED|95.0|-31.5|8.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||8.0|-31.5|
92181076|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-27.3|STANDARD_ERROR_OF_MEAN|10.16|||TWO_SIDED|95.0|-47.3|-7.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 88||-7.4|-47.3|
92260478|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-54.683|STANDARD_ERROR_OF_MEAN|3.734|<|0.001|TWO_SIDED|95.0|-62.102|-47.265|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-47.265|-62.102|<0.001
92260479|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.517|STANDARD_ERROR_OF_MEAN|3.688|<|0.001|TWO_SIDED|95.0|-63.845|-49.189|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-49.189|-63.845|<0.001
92260480|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-33.262|STANDARD_ERROR_OF_MEAN|3.196|<|0.001|TWO_SIDED|95.0|-39.608|-26.915|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-26.915|-39.608|<0.001
92181077|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-24.2|STANDARD_ERROR_OF_MEAN|10.22|||TWO_SIDED|95.0|-44.3|-4.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||-4.2|-44.3|
92181078|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-15.1|STANDARD_ERROR_OF_MEAN|9.7|||TWO_SIDED|95.0|-34.2|3.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 92||3.9|-34.2|
92181079|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-12.5|STANDARD_ERROR_OF_MEAN|9.99|||TWO_SIDED|95.0|-32.1|7.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||7.1|-32.1|
92181080|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-30.9|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|95.0|-50.6|-11.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 96||-11.3|-50.6|
92284865|NCT00855738|184474208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0625|TWO_SIDED||||||t-test, 2 sided|||Adequacy: p-value versus baseline.||||0.0625
92260481|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-45.956|STANDARD_ERROR_OF_MEAN|3.239|<|0.001|TWO_SIDED|95.0|-52.388|-39.523|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-39.523|-52.388|<0.001
92260482|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-51.5|STANDARD_ERROR_OF_MEAN|3.305|<|0.001|TWO_SIDED|95.0|-58.063|-44.937|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-44.937|-58.063|<0.001
92260483|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.474|STANDARD_ERROR_OF_MEAN|3.547|<|0.001|TWO_SIDED|95.0|-47.523|-33.426|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-33.426|-47.523|<0.001
92260484|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-54.634|STANDARD_ERROR_OF_MEAN|3.549|<|0.001|TWO_SIDED|95.0|-61.685|-47.583|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-47.583|-61.685|<0.001
92260485|NCT02055976|184423622|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-59.608|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|95.0|-66.602|-52.614|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-52.614|-66.602|<0.001
92260486|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-43.265|STANDARD_ERROR_OF_MEAN|3.566|<|0.001|TWO_SIDED|95.0|-50.347|-36.183|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-36.183|-50.347|<0.001
92260487|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-57.962|STANDARD_ERROR_OF_MEAN|3.628|<|0.001|TWO_SIDED|95.0|-65.167|-50.758|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-50.758|-65.167|<0.001
92260488|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-64.729|STANDARD_ERROR_OF_MEAN|3.682|<|0.001|TWO_SIDED|95.0|-72.039|-57.419|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-57.419|-72.039|<0.001
92260489|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-36.428|STANDARD_ERROR_OF_MEAN|3.535|<|0.001|TWO_SIDED|95.0|-43.451|-29.405|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-29.405|-43.451|<0.001
92260490|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-53.296|STANDARD_ERROR_OF_MEAN|3.538|<|0.001|TWO_SIDED|95.0|-60.325|-46.267|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-46.267|-60.325|<0.001
92181081|NCT02307682|184260718|OTHER|Treatment difference|Least Squares Mean Difference|-26.0|STANDARD_ERROR_OF_MEAN|10.28|||TWO_SIDED|95.0|-46.2|-5.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||-5.9|-46.2|
92181082|NCT02307682|184260719|SUPERIORITY||Least Squares Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|9.29||0.0183|TWO_SIDED|95.0|-37.7|-1.2||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|||-1.2|-37.7|0.0183
92181083|NCT02307682|184260719|SUPERIORITY||Least Squares Mean Difference|-22.4|STANDARD_ERROR_OF_MEAN|9.19||0.0075|TWO_SIDED|95.0|-40.4|-4.4||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||-4.4|-40.4|0.0075
92260491|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-55.489|STANDARD_ERROR_OF_MEAN|3.496|<|0.001|TWO_SIDED|95.0|-62.436|-48.542|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.542|-62.436|<0.001
92265468|NCT01590810|184432675|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.96|STANDARD_ERROR_OF_MEAN|1.38|<|0.0001|TWO_SIDED|95.0|-15.85|-10.08|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-10.08|-15.85|<0.0001
92265469|NCT01590810|184432676|SUPERIORITY_OR_OTHER||LS Mean Difference|1.05|STANDARD_ERROR_OF_MEAN|0.75||0.175|TWO_SIDED|95.0|-0.5|2.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.60|-0.50|0.175
92265470|NCT01590810|184432676|SUPERIORITY_OR_OTHER||LS Mean Difference|2.18|STANDARD_ERROR_OF_MEAN|1.18||0.076|TWO_SIDED|95.0|-0.25|4.61|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||4.61|-0.25|0.076
92260492|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-35.288|STANDARD_ERROR_OF_MEAN|3.41|<|0.001|TWO_SIDED|95.0|-42.059|-28.516|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-28.516|-42.059|<0.001
92260493|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-48.845|STANDARD_ERROR_OF_MEAN|3.456|<|0.001|TWO_SIDED|95.0|-55.709|-41.982|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-41.982|-55.709|<0.001
92260494|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-55.114|STANDARD_ERROR_OF_MEAN|3.526|<|0.001|TWO_SIDED|95.0|-62.116|-48.112|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.112|-62.116|<0.001
92260495|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.045|STANDARD_ERROR_OF_MEAN|3.56|<|0.001|TWO_SIDED|95.0|-47.118|-32.971|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-32.971|-47.118|<0.001
92260496|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-53.81|STANDARD_ERROR_OF_MEAN|3.56|<|0.001|TWO_SIDED|95.0|-60.883|-46.737|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-46.737|-60.883|<0.001
92260497|NCT02055976|184423623|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-58.62|STANDARD_ERROR_OF_MEAN|3.533|<|0.001|TWO_SIDED|95.0|-65.64|-51.6|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-51.600|-65.640|<0.001
92260498|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.896|STANDARD_ERROR_OF_MEAN|2.643|<|0.001|TWO_SIDED|95.0|3.646|14.145|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.145|3.646|<0.001
92260499|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|15.429|STANDARD_ERROR_OF_MEAN|2.662|<|0.001|TWO_SIDED|95.0|10.141|20.717|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||20.717|10.141|<0.001
92260500|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|12.321|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|6.959|17.683|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||17.683|6.959|<0.001
92260501|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.804|STANDARD_ERROR_OF_MEAN|3.041||0.014|TWO_SIDED|95.0|0.761|12.847|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||12.847|0.761|0.014
92260502|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.565|STANDARD_ERROR_OF_MEAN|3.023|<|0.001|TWO_SIDED|95.0|4.556|16.573|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||16.573|4.556|<0.001
92260503|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|12.895|STANDARD_ERROR_OF_MEAN|2.969|<|0.001|TWO_SIDED|95.0|6.993|18.796|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||18.796|6.993|<0.001
92260504|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.644|STANDARD_ERROR_OF_MEAN|3.266||0.005|TWO_SIDED|95.0|2.157|15.13|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||15.130|2.157|0.005
92265471|NCT01590810|184432676|SUPERIORITY_OR_OTHER||LS Mean Difference|2.18|STANDARD_ERROR_OF_MEAN|0.55||0.001|TWO_SIDED|95.0|1.04|3.32|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.32|1.04|0.001
92284866|NCT00855738|184474208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.554|TWO_SIDED||||||t-test, 2 sided|||Somnolence: p-value versus baseline.||||0.5540
92260505|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|14.708|STANDARD_ERROR_OF_MEAN|3.272|<|0.001|TWO_SIDED|95.0|8.208|21.208|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||21.208|8.208|<0.001
92260506|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.168|STANDARD_ERROR_OF_MEAN|3.317|<|0.001|TWO_SIDED|95.0|4.58|17.757|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||17.757|4.580|<0.001
92260507|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.132|STANDARD_ERROR_OF_MEAN|2.609||0.001|TWO_SIDED|95.0|2.947|13.316|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||13.316|2.947|0.001
92260508|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.23|STANDARD_ERROR_OF_MEAN|2.592|<|0.001|TWO_SIDED|95.0|5.079|15.381|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||15.381|5.079|<0.001
92265472|NCT01590810|184432676|SUPERIORITY_OR_OTHER||LS Mean Difference|5.64|STANDARD_ERROR_OF_MEAN|1.22|<|0.0001|TWO_SIDED|95.0|3.14|8.15|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||8.15|3.14|<0.0001
92265473|NCT01590810|184432676|SUPERIORITY_OR_OTHER||LS Mean Difference|2.15|STANDARD_ERROR_OF_MEAN|0.74||0.008|TWO_SIDED|95.0|0.63|3.67|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.67|0.63|0.008
92265474|NCT01590810|184432677|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.39||0.557|TWO_SIDED|95.0|-3.7|2.05|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.05|-3.70|0.557
92260509|NCT02055976|184423625|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.767|STANDARD_ERROR_OF_MEAN|2.565||0.014|TWO_SIDED|95.0|0.67|10.864|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.864|0.670|0.014
92260510|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.079|STANDARD_ERROR_OF_MEAN|1.905|<|0.001|TWO_SIDED|95.0|2.296|9.863|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.863|2.296|<0.001
92181084|NCT02307682|184260720|OTHER|Treatment difference|Least Squares Mean Difference|-23.2|STANDARD_ERROR_OF_MEAN|9.76|||TWO_SIDED|95.0|-42.4|-4.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|||-4.1|-42.4|
92260511|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.786|STANDARD_ERROR_OF_MEAN|1.918|<|0.001|TWO_SIDED|95.0|6.976|14.597|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.597|6.976|<0.001
92260512|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.069|STANDARD_ERROR_OF_MEAN|1.945|<|0.001|TWO_SIDED|95.0|5.206|12.932|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||12.932|5.206|<0.001
92260513|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.859|STANDARD_ERROR_OF_MEAN|2.173||0.014|TWO_SIDED|95.0|0.541|9.178|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.178|0.541|0.014
92260514|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.331|STANDARD_ERROR_OF_MEAN|2.161|<|0.001|TWO_SIDED|95.0|3.037|11.624|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||11.624|3.037|<0.001
92284867|NCT00855738|184474208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4204|TWO_SIDED||||||t-test, 2 sided|||Sleep problems (summary 6): p-value versus baseline.||||0.4204
92181085|NCT02307682|184260720|OTHER|Treatment difference|Least Squares Mean Difference|-18.6|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|95.0|-38.3|1.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.0|-38.3|
92181086|NCT02307682|184260721|OTHER|Treatment difference|Least Squares Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|8.5|||TWO_SIDED|95.0|-32.6|0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4 to Week 48||0.7|-32.6|
92181087|NCT02307682|184260721|OTHER|Treatment difference|Least Squares Mean Difference|-19.9|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-36.5|-3.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 48||-3.3|-36.5|
92265475|NCT01590810|184432677|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|1.05||0.175|TWO_SIDED|95.0|-3.65|0.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.70|-3.65|0.175
92260515|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.075|STANDARD_ERROR_OF_MEAN|2.122|<|0.001|TWO_SIDED|95.0|4.856|13.293|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||13.293|4.856|<0.001
92260516|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.936|STANDARD_ERROR_OF_MEAN|2.266||0.005|TWO_SIDED|95.0|1.435|10.437|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.437|1.435|0.005
92260517|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.213|STANDARD_ERROR_OF_MEAN|2.271|<|0.001|TWO_SIDED|95.0|5.702|14.724|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.724|5.702|<0.001
92260518|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.056|STANDARD_ERROR_OF_MEAN|2.302|<|0.001|TWO_SIDED|95.0|3.484|12.629|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||12.629|3.484|<0.001
92260519|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.846|STANDARD_ERROR_OF_MEAN|1.778|<|0.001|TWO_SIDED|95.0|2.312|9.38|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.380|2.312|<0.001
92260520|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.91|STANDARD_ERROR_OF_MEAN|1.766|<|0.001|TWO_SIDED|95.0|3.4|10.421|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.421|3.400|<0.001
92260521|NCT02055976|184423626|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.168|STANDARD_ERROR_OF_MEAN|1.748||0.01|TWO_SIDED|95.0|0.693|7.642|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.642|0.693|0.010
92260522|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.7208|STANDARD_ERROR_OF_MEAN|0.6289||0.127|TWO_SIDED|95.0|-0.5283|1.97|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.9700|-0.5283|0.127
92260523|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.0574|STANDARD_ERROR_OF_MEAN|0.6461||0.053|TWO_SIDED|95.0|-0.2259|2.3406|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.3406|-0.2259|0.053
92260524|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.2445|STANDARD_ERROR_OF_MEAN|0.6511||0.354|TWO_SIDED|95.0|-1.0486|1.5375|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.5375|-1.0486|0.354
92260525|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.8055|STANDARD_ERROR_OF_MEAN|0.8615||0.176|TWO_SIDED|95.0|-0.9066|2.5177|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.5177|-0.9066|0.176
92284868|NCT00855738|184474208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4869|TWO_SIDED||||||t-test, 2 sided|||Sleep problems (summary 9): p-value versus baseline.||||0.4869
92284869|NCT00855738|184474209|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0863|TWO_SIDED||||||McNemar|||Month 6: p-value versus baseline.||||0.0863
92284870|NCT00855738|184474210|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0226|TWO_SIDED||||||t-test, 2 sided|||Number of visits to a specialist because of epilepsy: p-value versus baseline.||||0.0226
92284871|NCT00855738|184474210|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017|TWO_SIDED||||||t-test, 2 sided|||Number of visits to the emergency room because of epilepsy: p-value versus baseline.||||0.0017
92260526|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.0071|STANDARD_ERROR_OF_MEAN|0.8641||0.011|TWO_SIDED|95.0|0.2899|3.7242|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.7242|0.2899|0.011
92260527|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.7116|STANDARD_ERROR_OF_MEAN|0.852||0.024|TWO_SIDED|95.0|0.0184|3.4049|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.4049|0.0184|0.024
92260528|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.8585|STANDARD_ERROR_OF_MEAN|0.7844||0.138|TWO_SIDED|95.0|-0.6992|2.4163|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.4163|-0.6992|0.138
92260529|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.8807|STANDARD_ERROR_OF_MEAN|0.799||0.137|TWO_SIDED|95.0|-0.7064|2.4678|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.4678|-0.7064|0.137
92260530|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.2624|STANDARD_ERROR_OF_MEAN|0.8053||0.373|TWO_SIDED|95.0|-1.337|1.8618|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.8618|-1.3370|0.373
92260531|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.3239|STANDARD_ERROR_OF_MEAN|0.7472||0.333|TWO_SIDED|95.0|-1.1611|1.8089|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.8089|-1.1611|0.333
92284872|NCT00855738|184474211|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3141|TWO_SIDED||||||t-test, 2 sided|||P-value versus baseline.||||0.3141
92181088|NCT02307682|184260721|OTHER|Treatment difference|Least Squares Mean Difference|-18.9|STANDARD_ERROR_OF_MEAN|8.87|||TWO_SIDED|95.0|-36.4|-1.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4 to Week 96||-1.5|-36.4|
92181089|NCT02307682|184260721|OTHER|Treatment difference|Least Squares Mean Difference|-19.3|STANDARD_ERROR_OF_MEAN|8.93|||TWO_SIDED|95.0|-36.9|-1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 96||-1.8|-36.9|
92260532|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.9322|STANDARD_ERROR_OF_MEAN|0.7488||0.006|TWO_SIDED|95.0|0.4441|3.4203|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.4203|0.4441|0.006
92284873|NCT00855738|184474212|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0708|TWO_SIDED||||||t-test, 2 sided|||Cessation of usual occupation: p-value versus baseline.||||0.0708
92284874|NCT00855738|184474212|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||t-test, 2 sided|||Requirement of informal caregiver: p-value versus baseline.||||1.0000
92284875|NCT00855738|184474212|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||t-test, 2 sided|||Required admission to ICU: p-value versus baseline.||||1.0000
92260533|NCT02055976|184423628|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.834|STANDARD_ERROR_OF_MEAN|0.7442||0.133|TWO_SIDED|95.0|-0.6451|2.313|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.3130|-0.6451|0.133
92260534|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.0813|STANDARD_ERROR_OF_MEAN|2.0411||0.155|TWO_SIDED|95.0|-1.973|6.1356|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||6.1356|-1.9730|0.155
92260535|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.2608|STANDARD_ERROR_OF_MEAN|2.0965||0.062|TWO_SIDED|95.0|-0.9035|7.425|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.4250|-0.9035|0.062
92260536|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.8224|STANDARD_ERROR_OF_MEAN|2.1126||0.349|TWO_SIDED|95.0|-3.3733|5.0182|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||5.0182|-3.3733|0.349
92181090|NCT02307682|184260722|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|-0.8|0.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12||0.1|-0.8|
92260537|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.3254|STANDARD_ERROR_OF_MEAN|2.7702||0.202|TWO_SIDED|95.0|-3.1801|7.831|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.8310|-3.1801|0.202
92260538|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.1048|STANDARD_ERROR_OF_MEAN|2.7784||0.015|TWO_SIDED|95.0|0.5833|11.6263|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||11.6263|0.5833|0.015
92260539|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.2393|STANDARD_ERROR_OF_MEAN|2.7396||0.03|TWO_SIDED|95.0|-0.2058|10.6845|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.6845|-0.2058|0.030
92265476|NCT01590810|184432677|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|1.52||0.951|TWO_SIDED|95.0|-3.04|3.23|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.23|-3.04|0.951
92265477|NCT01590810|184432677|SUPERIORITY_OR_OTHER||LS Mean Difference|2.61|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|1.34|3.88|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.88|1.34|<0.001
92265478|NCT01590810|184432677|SUPERIORITY_OR_OTHER||LS Mean Difference|4.62|STANDARD_ERROR_OF_MEAN|0.78|<|0.0001|TWO_SIDED|95.0|3.0|6.24|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||6.24|3.00|<0.0001
92181091|NCT02307682|184260722|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-1.0|-0.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||-0.2|-1.0|
92181092|NCT02307682|184260722|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-1.1|-0.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 48||-0.2|-1.1|
92181093|NCT02307682|184260722|OTHER|Treatment difference|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.9|0.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||0.0|-0.9|
92181094|NCT02307682|184260722|OTHER|Treatment difference|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-1.3|-0.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 96||-0.3|-1.3|
92181095|NCT02307682|184260722|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|-1.1|-0.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||-0.3|-1.1|
92265479|NCT01590810|184432678|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.45|STANDARD_ERROR_OF_MEAN|1.16||0.241|TWO_SIDED|95.0|-4.01|1.12|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.12|-4.01|0.241
92260540|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.1827|STANDARD_ERROR_OF_MEAN|2.4251||0.185|TWO_SIDED|95.0|-2.6334|6.9988|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||6.9988|-2.6334|0.185
92260541|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.1376|STANDARD_ERROR_OF_MEAN|2.4716||0.195|TWO_SIDED|95.0|-2.7718|7.0469|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.0469|-2.7718|0.195
92260542|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.3113|STANDARD_ERROR_OF_MEAN|2.4909||0.45|TWO_SIDED|95.0|-4.6358|5.2584|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||5.2584|-4.6358|0.450
92260543|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.6078|STANDARD_ERROR_OF_MEAN|2.3322||0.397|TWO_SIDED|95.0|-4.0274|5.2431|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||5.2431|-4.0274|0.397
92260544|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.7096|STANDARD_ERROR_OF_MEAN|2.3367||0.008|TWO_SIDED|95.0|1.0659|10.3532|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.3532|1.0659|0.008
92260545|NCT02055976|184423629|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.4558|STANDARD_ERROR_OF_MEAN|2.323||0.147|TWO_SIDED|95.0|-2.1608|7.0724|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.0724|-2.1608|0.147
92260546|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.9203|STANDARD_ERROR_OF_MEAN|1.3242|<|0.001|TWO_SIDED|95.0|-7.5504|-2.2901|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.2901|-7.5504|<0.001
92260547|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.1983|STANDARD_ERROR_OF_MEAN|1.3462|<|0.001|TWO_SIDED|95.0|-9.8718|-4.5249|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-4.5249|-9.8718|<0.001
92260548|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.3118|STANDARD_ERROR_OF_MEAN|1.3505|<|0.001|TWO_SIDED|95.0|-9.9935|-4.6301|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-4.6301|-9.9935|<0.001
92260549|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.0629|STANDARD_ERROR_OF_MEAN|1.032||0.002|TWO_SIDED|95.0|-5.1132|-1.0125|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.0125|-5.1132|0.002
92265480|NCT01590810|184432678|SUPERIORITY_OR_OTHER||LS Mean Difference|0.92|STANDARD_ERROR_OF_MEAN|2.07||0.664|TWO_SIDED|95.0|-3.63|5.48|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||5.48|-3.63|0.664
92265481|NCT01590810|184432678|SUPERIORITY_OR_OTHER||LS Mean Difference|3.65|STANDARD_ERROR_OF_MEAN|2.13||0.114|TWO_SIDED|95.0|-1.03|8.33|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||8.33|-1.03|0.114
92265482|NCT01590810|184432679|SUPERIORITY_OR_OTHER||LS Mean Difference|4.42|STANDARD_ERROR_OF_MEAN|4.98||0.385|TWO_SIDED|95.0|-5.96|14.81|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||14.81|-5.96|0.385
92265483|NCT01590810|184432679|SUPERIORITY_OR_OTHER||LS Mean Difference|4.58|STANDARD_ERROR_OF_MEAN|5.15||0.385|TWO_SIDED|95.0|-6.16|15.32|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||15.32|-6.16|0.385
92265484|NCT01590810|184432679|SUPERIORITY_OR_OTHER||LS Mean Difference|5.15|STANDARD_ERROR_OF_MEAN|4.6||0.276|TWO_SIDED|95.0|-4.44|14.74|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||14.74|-4.44|0.276
92265485|NCT01590810|184432679|SUPERIORITY_OR_OTHER||LS Mean Difference|9.5|STANDARD_ERROR_OF_MEAN|4.94||0.069|TWO_SIDED|95.0|-0.81|19.81|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||19.81|-0.81|0.069
92265486|NCT01590810|184432680|SUPERIORITY_OR_OTHER||LS Mean Difference|0.97|STANDARD_ERROR_OF_MEAN|1.09||0.383|TWO_SIDED|95.0|-1.28|3.22|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.22|-1.28|0.383
92284876|NCT00154102|184474255|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.853||||0.0479|TWO_SIDED|95.0|0.728|1.0|||Stratified log rank|Kaplan-Meier method was used to estimate median PFS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The study was planned with 633 progression events, in order to provide 80% power to test the null hypothesis of no difference in PFS time between treatment groups, assuming a hazard ratio (HR) of 0.8 of cetuximab + chemotherapy (CTX) over CTX alone. Significance level was fixed at 5%. The two-sided stratified log-rank test was employed, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and Karnovsky Performance Scale (KPS):\<80 vs. ≥80)||1.000|0.728|0.0479
92260550|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.6209|STANDARD_ERROR_OF_MEAN|1.0367|<|0.001|TWO_SIDED|95.0|-5.6804|-1.5614|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.5614|-5.6804|<0.001
92260551|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.1778|STANDARD_ERROR_OF_MEAN|1.0269|<|0.001|TWO_SIDED|95.0|-6.2184|-2.1372|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.1372|-6.2184|<0.001
92260552|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.2914|STANDARD_ERROR_OF_MEAN|1.2954||0.006|TWO_SIDED|95.0|-5.8649|-0.7178|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.7178|-5.8649|0.006
92260553|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.3569|STANDARD_ERROR_OF_MEAN|1.3157|<|0.001|TWO_SIDED|95.0|-8.9706|-3.7432|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-3.7432|-8.9706|<0.001
92260554|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.3962|STANDARD_ERROR_OF_MEAN|1.3233|<|0.001|TWO_SIDED|95.0|-9.0247|-3.7677|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-3.7677|-9.0247|<0.001
92181096|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|5.31|||TWO_SIDED|95.0|-3.3|17.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4||17.5|-3.3|
92260555|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.9228|STANDARD_ERROR_OF_MEAN|0.9199|<|0.001|TWO_SIDED|95.0|-5.7506|-2.095|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.0950|-5.7506|<0.001
92260556|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.7094|STANDARD_ERROR_OF_MEAN|0.9244|<|0.001|TWO_SIDED|95.0|-6.5459|-2.8729|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.8729|-6.5459|<0.001
92260557|NCT02055976|184423631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.4374|STANDARD_ERROR_OF_MEAN|0.9187|<|0.001|TWO_SIDED|95.0|-6.263|-2.6118|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.6118|-6.2630|<0.001
92260558|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.4492|STANDARD_ERROR_OF_MEAN|10.2401||0.004|TWO_SIDED|95.0|-47.7872|-7.1112|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-7.1112|-47.7872|0.004
92260559|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.5908|STANDARD_ERROR_OF_MEAN|10.4568|<|0.001|TWO_SIDED|95.0|-61.3577|-19.824|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-19.8240|-61.3577|<0.001
92260560|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.163|STANDARD_ERROR_OF_MEAN|10.5402||0.006|TWO_SIDED|95.0|-48.0927|-6.2332|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-6.2332|-48.0927|0.006
92260561|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-24.1677|STANDARD_ERROR_OF_MEAN|8.8755||0.004|TWO_SIDED|95.0|-41.8023|-6.5332|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-6.5332|-41.8023|0.004
92260562|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-19.2255|STANDARD_ERROR_OF_MEAN|8.9203||0.017|TWO_SIDED|95.0|-36.9471|-1.5038|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.5038|-36.9471|0.017
92284877|NCT00154102|184474256|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.696||||0.0012|TWO_SIDED|95.0|0.558|0.867|||Stratified log rank|Kaplan-Meier method was used to estimate median PFS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The two-sided stratified log-rank test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||0.867|0.558|0.0012
92260563|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-26.5155|STANDARD_ERROR_OF_MEAN|8.8387||0.002|TWO_SIDED|95.0|-44.0795|-8.9515|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-8.9515|-44.0795|0.002
92260564|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-18.3898|STANDARD_ERROR_OF_MEAN|5.1768|<|0.001|TWO_SIDED|95.0|-28.6698|-8.1097|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-8.1097|-28.6698|<0.001
92260565|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-36.7882|STANDARD_ERROR_OF_MEAN|5.264|<|0.001|TWO_SIDED|95.0|-47.2423|-26.3341|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-26.3341|-47.2423|<0.001
92260566|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-36.8453|STANDARD_ERROR_OF_MEAN|5.3084|<|0.001|TWO_SIDED|95.0|-47.3864|-26.3041|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-26.3041|-47.3864|<0.001
92260567|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-32.9411|STANDARD_ERROR_OF_MEAN|7.8656|<|0.001|TWO_SIDED|95.0|-48.5748|-17.3075|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-17.3075|-48.5748|<0.001
92260568|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-31.3176|STANDARD_ERROR_OF_MEAN|7.9032|<|0.001|TWO_SIDED|95.0|-47.0238|-15.6114|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-15.6114|-47.0238|<0.001
92260569|NCT02055976|184423632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-32.847|STANDARD_ERROR_OF_MEAN|7.8576|<|0.001|TWO_SIDED|95.0|-48.465|-17.2289|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-17.2289|-48.4650|<0.001
92260570|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.663|STANDARD_ERROR_OF_MEAN|1.431|<|0.001|TWO_SIDED|95.0|4.82|10.506|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.506|4.820|<0.001
92260571|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.29|STANDARD_ERROR_OF_MEAN|1.46|<|0.001|TWO_SIDED|95.0|6.389|12.19|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||12.190|6.389|<0.001
92260572|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.255|STANDARD_ERROR_OF_MEAN|1.47|<|0.001|TWO_SIDED|95.0|4.336|10.175|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.175|4.336|<0.001
92260573|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.228|STANDARD_ERROR_OF_MEAN|1.806||0.11|TWO_SIDED|95.0|-1.361|5.818|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||5.818|-1.361|0.110
92260574|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.578|STANDARD_ERROR_OF_MEAN|1.815||0.001|TWO_SIDED|95.0|1.972|9.185|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.185|1.972|0.001
92260575|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.712|STANDARD_ERROR_OF_MEAN|1.789||0.005|TWO_SIDED|95.0|1.156|8.268|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||8.268|1.156|0.005
92260576|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.888|STANDARD_ERROR_OF_MEAN|2.035||0.002|TWO_SIDED|95.0|1.844|9.932|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.932|1.844|0.002
92260577|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.251|STANDARD_ERROR_OF_MEAN|2.062|<|0.001|TWO_SIDED|95.0|5.153|13.349|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||13.349|5.153|<0.001
92260578|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.264|STANDARD_ERROR_OF_MEAN|2.072||0.006|TWO_SIDED|95.0|1.147|9.38|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.380|1.147|0.006
92260579|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.065|STANDARD_ERROR_OF_MEAN|1.843||0.004|TWO_SIDED|95.0|1.402|8.728|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||8.728|1.402|0.004
92260580|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.096|STANDARD_ERROR_OF_MEAN|1.853||0.004|TWO_SIDED|95.0|1.413|8.78|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||8.780|1.413|0.004
92260581|NCT02055976|184423634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.301|STANDARD_ERROR_OF_MEAN|1.832||0.011|TWO_SIDED|95.0|0.658|7.943|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.943|0.658|0.011
92260582|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|13.389|STANDARD_ERROR_OF_MEAN|2.525|<|0.001|TWO_SIDED|95.0|8.373|18.405|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||18.405|8.373|<0.001
92260583|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|16.546|STANDARD_ERROR_OF_MEAN|2.576|<|0.001|TWO_SIDED|95.0|11.43|21.663|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||21.663|11.430|<0.001
92260584|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|13.288|STANDARD_ERROR_OF_MEAN|2.593|<|0.001|TWO_SIDED|95.0|8.137|18.438|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||18.438|8.137|<0.001
92260585|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.112|STANDARD_ERROR_OF_MEAN|2.909||0.081|TWO_SIDED|95.0|-1.671|9.895|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.895|-1.671|0.081
92284878|NCT00154102|184474257|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.171||||0.2648|TWO_SIDED|95.0|0.887|1.544|||Stratified log rank|Kaplan-Meier method was used to estimate median PFS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The two-sided stratified log-rank test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||1.544|0.887|0.2648
92260586|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.56|STANDARD_ERROR_OF_MEAN|2.927|<|0.001|TWO_SIDED|95.0|3.743|15.377|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||15.377|3.743|<0.001
92260587|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.826|STANDARD_ERROR_OF_MEAN|2.878|<|0.001|TWO_SIDED|95.0|4.103|15.548|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||15.548|4.103|<0.001
92260588|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.004|STANDARD_ERROR_OF_MEAN|3.326||0.002|TWO_SIDED|95.0|3.395|16.612|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||16.612|3.395|0.002
92260589|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|16.252|STANDARD_ERROR_OF_MEAN|3.367|<|0.001|TWO_SIDED|95.0|9.56|22.943|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||22.943|9.560|<0.001
92260590|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.571|STANDARD_ERROR_OF_MEAN|3.384||0.003|TWO_SIDED|95.0|2.847|16.295|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||16.295|2.847|0.003
92260591|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.029|STANDARD_ERROR_OF_MEAN|2.858||0.001|TWO_SIDED|95.0|3.348|14.71|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.710|3.348|0.001
92260592|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.543|STANDARD_ERROR_OF_MEAN|2.876||0.002|TWO_SIDED|95.0|2.827|14.26|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.260|2.827|0.002
92260593|NCT02055976|184423635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.898|STANDARD_ERROR_OF_MEAN|2.84||0.001|TWO_SIDED|95.0|3.252|14.544|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.544|3.252|0.001
92260594|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.462|STANDARD_ERROR_OF_MEAN|1.434|<|0.001|TWO_SIDED|95.0|-10.311|-4.614|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-4.614|-10.311|<0.001
92260595|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.693|STANDARD_ERROR_OF_MEAN|1.469|<|0.001|TWO_SIDED|95.0|-9.61|-3.776|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-3.776|-9.610|<0.001
92284879|NCT00154102|184474258|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.878||||0.0419|TWO_SIDED|95.0|0.774|0.995|||Stratified log rank|Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The two-sided stratified log-rank test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||0.995|0.774|0.0419
92284880|NCT00154102|184474259|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.796||||0.0093|TWO_SIDED|95.0|0.67|0.946|||Stratified log rank|Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The two-sided stratified log-rank test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||0.946|0.670|0.0093
92284881|NCT00154102|184474260|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.035||||0.7549|TWO_SIDED|95.0|0.834|1.284|||Stratified log rank|Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The two-sided stratified log-rank test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||1.284|0.834|0.7549
92284882|NCT00154102|184474261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.0038|TWO_SIDED|95.0|1.12|1.77|||Stratified cochran-mantel haenszel test|||The two-sided stratified Cochran-Mantel-Haenszel (CMH) test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||1.77|1.12|0.0038
92260596|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.755|STANDARD_ERROR_OF_MEAN|1.479|<|0.001|TWO_SIDED|95.0|-11.692|-5.817|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-5.817|-11.692|<0.001
92284883|NCT00154102|184474262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.069|||<|0.0001|TWO_SIDED|95.0|1.515|2.826|||Cochran-Mantel-Haenszel|||The two-sided stratified Cochran-Mantel-Haenszel (CMH) test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||2.826|1.515|<0.0001
92284884|NCT00154102|184474263|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.822||||0.3475|TWO_SIDED|95.0|0.544|1.242|||Cochran-Mantel-Haenszel|||The two-sided stratified Cochran-Mantel-Haenszel (CMH) test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||1.242|0.544|0.3475
92260597|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.072|STANDARD_ERROR_OF_MEAN|1.773||0.484|TWO_SIDED|95.0|-3.596|3.451|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.451|-3.596|0.484
92260598|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.701|STANDARD_ERROR_OF_MEAN|1.793||0.173|TWO_SIDED|95.0|-5.264|1.862|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.862|-5.264|0.173
92260599|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.953|STANDARD_ERROR_OF_MEAN|1.761||0.135|TWO_SIDED|95.0|-5.452|1.546|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.546|-5.452|0.135
92260600|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.447|STANDARD_ERROR_OF_MEAN|2.406||0.034|TWO_SIDED|95.0|-9.23|0.335|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||0.335|-9.230|0.034
92260601|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.764|STANDARD_ERROR_OF_MEAN|2.442||0.003|TWO_SIDED|95.0|-11.617|-1.91|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.910|-11.617|0.003
92260602|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.951|STANDARD_ERROR_OF_MEAN|2.458||0.009|TWO_SIDED|95.0|-10.836|-1.066|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.066|-10.836|0.009
92260603|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.07|STANDARD_ERROR_OF_MEAN|1.915||0.056|TWO_SIDED|95.0|-6.876|0.736|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||0.736|-6.876|0.056
92260604|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.557|STANDARD_ERROR_OF_MEAN|1.937||0.095|TWO_SIDED|95.0|-6.408|1.293|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.293|-6.408|0.095
92260605|NCT02055976|184423637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.271|STANDARD_ERROR_OF_MEAN|1.913||0.004|TWO_SIDED|95.0|-9.074|-1.469|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.469|-9.074|0.004
92260606|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-31.88|STANDARD_ERROR_OF_MEAN|7.071|<|0.001|TWO_SIDED|95.0|-45.925|-17.836|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-17.836|-45.925|<0.001
92260607|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-29.187|STANDARD_ERROR_OF_MEAN|7.242|<|0.001|TWO_SIDED|95.0|-43.571|-14.803|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-14.803|-43.571|<0.001
92260608|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-39.657|STANDARD_ERROR_OF_MEAN|7.29|<|0.001|TWO_SIDED|95.0|-54.136|-25.178|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-25.178|-54.136|<0.001
92260609|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.681|STANDARD_ERROR_OF_MEAN|13.601||0.366|TWO_SIDED|95.0|-31.713|22.35|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||22.350|-31.713|0.366
92260610|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.227|STANDARD_ERROR_OF_MEAN|13.586||0.773|TWO_SIDED|95.0|-16.774|37.228|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||37.228|-16.774|0.773
92260611|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.646|STANDARD_ERROR_OF_MEAN|13.362||0.422|TWO_SIDED|95.0|-29.206|23.915|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||23.915|-29.206|0.422
92260612|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-12.911|STANDARD_ERROR_OF_MEAN|10.309||0.107|TWO_SIDED|95.0|-33.411|7.589|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.589|-33.411|0.107
92260613|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-23.119|STANDARD_ERROR_OF_MEAN|10.461||0.015|TWO_SIDED|95.0|-43.923|-2.315|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.315|-43.923|0.015
92260614|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.159|STANDARD_ERROR_OF_MEAN|10.535||0.054|TWO_SIDED|95.0|-38.108|3.789|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.789|-38.108|0.054
92284885|NCT00154102|184474264|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.6004|TWO_SIDED|95.0|0.67|1.26|||Stratified cochran-mantel haenszel test|||The two-sided stratified Cochran-Mantel-Haenszel (CMH) test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||1.26|0.67|0.6004
92260615|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-24.416|STANDARD_ERROR_OF_MEAN|12.718||0.029|TWO_SIDED|95.0|-49.696|0.865|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||0.865|-49.696|0.029
92260616|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.287|STANDARD_ERROR_OF_MEAN|12.705||0.311|TWO_SIDED|95.0|-31.541|18.968|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||18.968|-31.541|0.311
92260617|NCT02055976|184423638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-32.443|STANDARD_ERROR_OF_MEAN|12.555||0.006|TWO_SIDED|95.0|-57.4|-7.485|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-7.485|-57.400|0.006
92260618|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-35.967|STANDARD_ERROR_OF_MEAN|10.822|<|0.001|TWO_SIDED|95.0|-57.463|-14.472|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-14.472|-57.463|<0.001
92260619|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-29.186|STANDARD_ERROR_OF_MEAN|11.044||0.005|TWO_SIDED|95.0|-51.123|-7.249|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-7.249|-51.123|0.005
92284886|NCT00154102|184474266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.02||||0.002|TWO_SIDED|95.0|1.45|6.27|||Cochran-Mantel-Haenszel|||||6.27|1.45|0.002
92284887|NCT02158936|184474270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.37||||1|TWO_SIDED|95.0|0.21|0.65||One sided p value|Cochran-Mantel-Haenszel|Stratified by Interactive Voice Response System (IVRS) stratification factors||||0.65|0.21|1.000
92260620|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.01|STANDARD_ERROR_OF_MEAN|11.16|<|0.001|TWO_SIDED|95.0|-62.175|-17.845|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-17.845|-62.175|<0.001
92260621|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.17|STANDARD_ERROR_OF_MEAN|10.906||0.614|TWO_SIDED|95.0|-18.502|24.842|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||24.842|-18.502|0.614
92260622|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.563|STANDARD_ERROR_OF_MEAN|11.067||0.221|TWO_SIDED|95.0|-30.554|13.427|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||13.427|-30.554|0.221
92260623|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.649|STANDARD_ERROR_OF_MEAN|10.933||0.303|TWO_SIDED|95.0|-27.376|16.079|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||16.079|-27.376|0.303
92260624|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-22.003|STANDARD_ERROR_OF_MEAN|14.53||0.067|TWO_SIDED|95.0|-50.882|6.875|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||6.875|-50.882|0.067
92260625|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-41.761|STANDARD_ERROR_OF_MEAN|14.676||0.003|TWO_SIDED|95.0|-70.934|-12.588|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-12.588|-70.934|0.003
92260626|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-34.933|STANDARD_ERROR_OF_MEAN|14.832||0.01|TWO_SIDED|95.0|-64.41|-5.456|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-5.456|-64.410|0.010
92260627|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.978|STANDARD_ERROR_OF_MEAN|11.725||0.064|TWO_SIDED|95.0|-41.282|5.326|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||5.326|-41.282|0.064
92260628|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.654|STANDARD_ERROR_OF_MEAN|11.903||0.318|TWO_SIDED|95.0|-29.311|18.004|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||18.004|-29.311|0.318
92260629|NCT02055976|184423640|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-19.435|STANDARD_ERROR_OF_MEAN|11.807||0.052|TWO_SIDED|95.0|-42.902|4.032|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||4.032|-42.902|0.052
92284888|NCT02158936|184474271|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.42||||0.164|TWO_SIDED|95.0|0.97|2.08|||Log Rank|||Confidence Intervals estimated using the Brookmeyer-Crowley method. Hazard ratios are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower risk with eltrombopag compared with Placebo. Log-rank test stratified by IVRS stratification factors||2.08|0.97|0.164
92260630|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.974|STANDARD_ERROR_OF_MEAN|7.674|<|0.001|TWO_SIDED|95.0|-41.217|-10.731|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-10.731|-41.217|<0.001
92260631|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-21.11|STANDARD_ERROR_OF_MEAN|7.831||0.004|TWO_SIDED|95.0|-36.665|-5.555|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-5.555|-36.665|0.004
92284889|NCT02158936|184474288|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.31|||||TWO_SIDED|90.0|0.99|1.74|||ANOVA|||||1.74|0.990|
92284890|NCT02158936|184474289|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.39|||||TWO_SIDED|90.0|0.97|1.99|||ANOVA|||||1.99|0.970|
92260632|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-31.034|STANDARD_ERROR_OF_MEAN|7.917|<|0.001|TWO_SIDED|95.0|-46.758|-15.31|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-15.310|-46.758|<0.001
92260633|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.034|STANDARD_ERROR_OF_MEAN|9.553||0.799|TWO_SIDED|95.0|-10.948|27.015|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||27.015|-10.948|0.799
92260634|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.511|STANDARD_ERROR_OF_MEAN|9.682||0.398|TWO_SIDED|95.0|-21.748|16.727|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||16.727|-21.748|0.398
92260635|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.369|STANDARD_ERROR_OF_MEAN|9.58||0.515|TWO_SIDED|95.0|-18.668|19.407|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||19.407|-18.668|0.515
92260636|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-10.056|STANDARD_ERROR_OF_MEAN|8.801||0.128|TWO_SIDED|95.0|-27.549|7.437|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.437|-27.549|0.128
92260637|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-24.352|STANDARD_ERROR_OF_MEAN|8.882||0.004|TWO_SIDED|95.0|-42.008|-6.695|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-6.695|-42.008|0.004
92260638|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.994|STANDARD_ERROR_OF_MEAN|8.987||0.049|TWO_SIDED|95.0|-32.858|2.87|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.870|-32.858|0.049
92284891|NCT01149473|184474290|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|109.0|||||TWO_SIDED|90.0|98.1|120.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||120|98.1|
92284892|NCT01149473|184474291|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.0|||||TWO_SIDED|90.0|98.8|106.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||106|98.8|
92181097|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|5.37|||TWO_SIDED|95.0|-10.2|10.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4||10.9|-10.2|
92181098|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|5.35|||TWO_SIDED|95.0|-8.4|12.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 8||12.6|-8.4|
92260639|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-13.83|STANDARD_ERROR_OF_MEAN|9.326||0.071|TWO_SIDED|95.0|-32.368|4.709|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||4.709|-32.368|0.071
92260640|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.378|STANDARD_ERROR_OF_MEAN|9.464||0.361|TWO_SIDED|95.0|-22.191|15.435|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||15.435|-22.191|0.361
92260641|NCT02055976|184423641|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-15.035|STANDARD_ERROR_OF_MEAN|9.389||0.056|TWO_SIDED|95.0|-33.698|3.629|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.629|-33.698|0.056
92260642|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-76.189|STANDARD_ERROR_OF_MEAN|5.431|<|0.001|TWO_SIDED|95.0|-86.975|-65.403|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-65.403|-86.975|<0.001
92260643|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-95.205|STANDARD_ERROR_OF_MEAN|5.556|<|0.001|TWO_SIDED|95.0|-106.238|-84.172|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-84.172|-106.238|<0.001
92260644|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-106.077|STANDARD_ERROR_OF_MEAN|5.622|<|0.001|TWO_SIDED|95.0|-117.239|-94.915|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-94.915|-117.239|<0.001
92260645|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-71.234|STANDARD_ERROR_OF_MEAN|6.622|<|0.001|TWO_SIDED|95.0|-84.39|-58.077|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-58.077|-84.390|<0.001
92260646|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-100.638|STANDARD_ERROR_OF_MEAN|6.609|<|0.001|TWO_SIDED|95.0|-113.768|-87.508|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-87.508|-113.768|<0.001
92260647|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-103.386|STANDARD_ERROR_OF_MEAN|6.525|<|0.001|TWO_SIDED|95.0|-116.353|-90.42|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-90.420|-116.353|<0.001
92260648|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.124|STANDARD_ERROR_OF_MEAN|5.382|<|0.001|TWO_SIDED|95.0|-71.813|-50.435|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-50.435|-71.813|<0.001
92260649|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-81.837|STANDARD_ERROR_OF_MEAN|5.48|<|0.001|TWO_SIDED|95.0|-92.721|-70.954|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-70.954|-92.721|<0.001
92260650|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-89.683|STANDARD_ERROR_OF_MEAN|5.567|<|0.001|TWO_SIDED|95.0|-100.74|-78.627|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-78.627|-100.740|<0.001
92260651|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-76.747|STANDARD_ERROR_OF_MEAN|6.118|<|0.001|TWO_SIDED|95.0|-88.902|-64.593|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-64.593|-88.902|<0.001
92260652|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-100.666|STANDARD_ERROR_OF_MEAN|6.098|<|0.001|TWO_SIDED|95.0|-112.781|-88.551|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-88.551|-112.781|<0.001
92260653|NCT02055976|184423643|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-109.49|STANDARD_ERROR_OF_MEAN|6.054|<|0.001|TWO_SIDED|95.0|-121.519|-97.462|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-97.462|-121.519|<0.001
92260654|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-46.772|STANDARD_ERROR_OF_MEAN|3.473|<|0.001|TWO_SIDED|95.0|-53.671|-39.874|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-39.874|-53.671|<0.001
92260655|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-59.2|STANDARD_ERROR_OF_MEAN|3.554|<|0.001|TWO_SIDED|95.0|-66.257|-52.143|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-52.143|-66.257|<0.001
92260656|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-66.868|STANDARD_ERROR_OF_MEAN|3.595|<|0.001|TWO_SIDED|95.0|-74.007|-59.73|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-59.730|-74.007|<0.001
92260657|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.051|STANDARD_ERROR_OF_MEAN|3.595|<|0.001|TWO_SIDED|95.0|-47.195|-32.908|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-32.908|-47.195|<0.001
92260658|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.009|STANDARD_ERROR_OF_MEAN|3.587|<|0.001|TWO_SIDED|95.0|-63.135|-48.882|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.882|-63.135|<0.001
92260659|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-57.576|STANDARD_ERROR_OF_MEAN|3.544|<|0.001|TWO_SIDED|95.0|-64.618|-50.533|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-50.533|-64.618|<0.001
92260660|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-37.991|STANDARD_ERROR_OF_MEAN|3.389|<|0.001|TWO_SIDED|95.0|-44.721|-31.26|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-31.260|-44.721|<0.001
92260661|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-50.856|STANDARD_ERROR_OF_MEAN|3.451|<|0.001|TWO_SIDED|95.0|-57.709|-44.002|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-44.002|-57.709|<0.001
92260662|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.354|STANDARD_ERROR_OF_MEAN|3.505|<|0.001|TWO_SIDED|95.0|-63.315|-49.393|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-49.393|-63.315|<0.001
92260663|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-43.172|STANDARD_ERROR_OF_MEAN|3.647|<|0.001|TWO_SIDED|95.0|-50.417|-35.926|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-35.926|-50.417|<0.001
92260664|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.698|STANDARD_ERROR_OF_MEAN|3.633|<|0.001|TWO_SIDED|95.0|-63.916|-49.48|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-49.480|-63.916|<0.001
92260665|NCT02055976|184423644|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.305|STANDARD_ERROR_OF_MEAN|3.609|<|0.001|TWO_SIDED|95.0|-68.477|-54.134|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.134|-68.477|<0.001
92260666|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.69928|STANDARD_ERROR_OF_MEAN|0.13216|<|0.001|TWO_SIDED|95.0|-1.96175|-1.43682|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.43682|-1.96175|<0.001
92260667|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.07922|STANDARD_ERROR_OF_MEAN|0.13446|<|0.001|TWO_SIDED|95.0|-2.34622|-1.81223|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.81223|-2.34622|<0.001
92260668|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.23886|STANDARD_ERROR_OF_MEAN|0.13553|<|0.001|TWO_SIDED|95.0|-2.50795|-1.96978|||Mixed Models Analysis|||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.96978|-2.50795|<0.001
92260669|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.43281|STANDARD_ERROR_OF_MEAN|0.16311|<|0.001|TWO_SIDED|95.0|-1.75689|-1.10872|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.10872|-1.75689|<0.001
92284893|NCT01149473|184474292|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|101.0|||||TWO_SIDED|90.0|98.6|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104|98.6|
92260670|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.01501|STANDARD_ERROR_OF_MEAN|0.16217|<|0.001|TWO_SIDED|95.0|-2.33718|-1.69283|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.69283|-2.33718|<0.001
92260671|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.11359|STANDARD_ERROR_OF_MEAN|0.16038|<|0.001|TWO_SIDED|95.0|-2.4323|-1.79489|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.79489|-2.43230|<0.001
92265487|NCT01590810|184432680|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.75|STANDARD_ERROR_OF_MEAN|0.51||0.002|TWO_SIDED|95.0|-2.79|-0.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.70|-2.79|0.002
92260672|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.35298|STANDARD_ERROR_OF_MEAN|0.13609|<|0.001|TWO_SIDED|95.0|-1.62324|-1.08271|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.08271|-1.62324|<0.001
92260673|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.79615|STANDARD_ERROR_OF_MEAN|0.1379|<|0.001|TWO_SIDED|95.0|-2.07001|-1.52229|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.52229|-2.07001|<0.001
92260674|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.86921|STANDARD_ERROR_OF_MEAN|0.13927|<|0.001|TWO_SIDED|95.0|-2.14575|-1.59266|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.59266|-2.14575|<0.001
92260675|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.57311|STANDARD_ERROR_OF_MEAN|0.14333|<|0.001|TWO_SIDED|95.0|-1.85788|-1.28834|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.28834|-1.85788|<0.001
92260676|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.00256|STANDARD_ERROR_OF_MEAN|0.14228|<|0.001|TWO_SIDED|95.0|-2.28521|-1.7199|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.71990|-2.28521|<0.001
92260677|NCT02055976|184423646|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.20298|STANDARD_ERROR_OF_MEAN|0.14142|<|0.001|TWO_SIDED|95.0|-2.48399|-1.92197|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.92197|-2.48399|<0.001
92260678|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-41.92915|STANDARD_ERROR_OF_MEAN|2.83037|<|0.001|TWO_SIDED|95.0|-47.55052|-36.30778|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-36.30778|-47.55052|<0.001
92260679|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-51.08604|STANDARD_ERROR_OF_MEAN|2.88356|<|0.001|TWO_SIDED|95.0|-56.81235|-45.35973|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-45.35973|-56.81235|<0.001
92260680|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-55.516|STANDARD_ERROR_OF_MEAN|2.91014|<|0.001|TWO_SIDED|95.0|-61.29424|-49.73777|||Mixed Models Analysis|||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-49.73777|-61.29424|<0.001
92260681|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-33.30375|STANDARD_ERROR_OF_MEAN|3.07498|<|0.001|TWO_SIDED|95.0|-39.41376|-27.19373|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-27.19373|-39.41376|<0.001
92265488|NCT01590810|184432680|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.11|STANDARD_ERROR_OF_MEAN|0.96|<|0.0001|TWO_SIDED|95.0|-10.08|-6.14|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.14|-10.08|<0.0001
92260682|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-47.8521|STANDARD_ERROR_OF_MEAN|3.05746|<|0.001|TWO_SIDED|95.0|-53.92668|-41.77751|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-41.77751|-53.92668|<0.001
92260683|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-48.65686|STANDARD_ERROR_OF_MEAN|3.02097|<|0.001|TWO_SIDED|95.0|-54.6606|-42.65313|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-42.65313|-54.66060|<0.001
92260684|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-33.5292|STANDARD_ERROR_OF_MEAN|2.96599|<|0.001|TWO_SIDED|95.0|-39.42015|-27.63826|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-27.63826|-39.42015|<0.001
92260685|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-43.8568|STANDARD_ERROR_OF_MEAN|3.00531|<|0.001|TWO_SIDED|95.0|-49.82617|-37.88744|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-37.88744|-49.82617|<0.001
92260686|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-46.36865|STANDARD_ERROR_OF_MEAN|3.03981|<|0.001|TWO_SIDED|95.0|-52.40589|-40.33142|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-40.33142|-52.40589|<0.001
92260687|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-38.06019|STANDARD_ERROR_OF_MEAN|3.1361|<|0.001|TWO_SIDED|95.0|-44.29176|-31.82863|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-31.82863|-44.29176|<0.001
92260688|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-48.57807|STANDARD_ERROR_OF_MEAN|3.1135|<|0.001|TWO_SIDED|95.0|-54.76397|-42.39217|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-42.39217|-54.76397|<0.001
92260689|NCT02055976|184423647|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-51.87214|STANDARD_ERROR_OF_MEAN|3.09363|<|0.001|TWO_SIDED|95.0|-58.01968|-45.7246|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-45.72460|-58.01968|<0.001
92260690|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.33157|STANDARD_ERROR_OF_MEAN|0.02639|<|0.001|TWO_SIDED|95.0|-0.38399|-0.27916|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.27916|-0.38399|<0.001
92260691|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.44402|STANDARD_ERROR_OF_MEAN|0.02682|<|0.001|TWO_SIDED|95.0|-0.49727|-0.39077|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.39077|-0.49727|<0.001
92260692|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.48314|STANDARD_ERROR_OF_MEAN|0.02698|<|0.001|TWO_SIDED|95.0|-0.53671|-0.42956|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.42956|-0.53671|<0.001
92260693|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.30542|STANDARD_ERROR_OF_MEAN|0.0323|<|0.001|TWO_SIDED|95.0|-0.3696|-0.24124|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.24124|-0.36960|<0.001
92260694|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.44143|STANDARD_ERROR_OF_MEAN|0.03183|<|0.001|TWO_SIDED|95.0|-0.50466|-0.37821|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.37821|-0.50466|<0.001
92265489|NCT01590810|184432680|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|1.58|<|0.001|TWO_SIDED|95.0|-9.74|-3.25|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.25|-9.74|<0.001
92265490|NCT01590810|184432680|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.31|STANDARD_ERROR_OF_MEAN|1.23|<|0.0001|TWO_SIDED|95.0|-12.84|-7.78|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.78|-12.84|<0.0001
92260695|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.46235|STANDARD_ERROR_OF_MEAN|0.03148|<|0.001|TWO_SIDED|95.0|-0.52491|-0.3998|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.39980|-0.52491|<0.001
92260696|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26949|STANDARD_ERROR_OF_MEAN|0.02615|<|0.001|TWO_SIDED|95.0|-0.32142|-0.21755|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.21755|-0.32142|<0.001
92265491|NCT01590810|184432681|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.07|STANDARD_ERROR_OF_MEAN|1.62||0.216|TWO_SIDED|95.0|-5.43|1.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.30|-5.43|0.216
92260697|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.37493|STANDARD_ERROR_OF_MEAN|0.02649|<|0.001|TWO_SIDED|95.0|-0.42754|-0.32231|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.32231|-0.42754|<0.001
92260698|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.41199|STANDARD_ERROR_OF_MEAN|0.02676|<|0.001|TWO_SIDED|95.0|-0.46512|-0.35886|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.35886|-0.46512|<0.001
92265492|NCT01590810|184432681|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|2.27||0.046|TWO_SIDED|95.0|-9.51|-0.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.10|-9.51|0.046
92260699|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.31806|STANDARD_ERROR_OF_MEAN|0.02979|<|0.001|TWO_SIDED|95.0|-0.37723|-0.25888|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.25888|-0.37723|<0.001
92260700|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.42583|STANDARD_ERROR_OF_MEAN|0.02932|<|0.001|TWO_SIDED|95.0|-0.48409|-0.36758|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.36758|-0.48409|<0.001
92260701|NCT02055976|184423649|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.45501|STANDARD_ERROR_OF_MEAN|0.02912|<|0.001|TWO_SIDED|95.0|-0.51287|-0.39715|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.39715|-0.51287|<0.001
92260702|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-49.42411|STANDARD_ERROR_OF_MEAN|3.72907|<|0.001|TWO_SIDED|95.0|-56.83019|-42.01803|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-42.01803|-56.83019|<0.001
92260703|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-66.63383|STANDARD_ERROR_OF_MEAN|3.7905|<|0.001|TWO_SIDED|95.0|-74.16086|-59.10681|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-59.10681|-74.16086|<0.001
92260704|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-71.72901|STANDARD_ERROR_OF_MEAN|3.81541|<|0.001|TWO_SIDED|95.0|-79.30431|-64.15371|||Mixed Models Analysis|||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-64.15371|-79.30431|<0.001
92260705|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-43.56596|STANDARD_ERROR_OF_MEAN|3.92236|<|0.001|TWO_SIDED|95.0|-51.35899|-35.77293|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-35.77293|-51.35899|<0.001
92260706|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-62.34926|STANDARD_ERROR_OF_MEAN|3.86432|<|0.001|TWO_SIDED|95.0|-70.02607|-54.67245|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.67245|-70.02607|<0.001
92260707|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-65.06617|STANDARD_ERROR_OF_MEAN|3.82052|<|0.001|TWO_SIDED|95.0|-72.65818|-57.47415|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-57.47415|-72.65818|<0.001
92260708|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.52435|STANDARD_ERROR_OF_MEAN|3.66973|<|0.001|TWO_SIDED|95.0|-47.81299|-33.23571|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-33.23571|-47.81299|<0.001
92260709|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.14495|STANDARD_ERROR_OF_MEAN|3.71641|<|0.001|TWO_SIDED|95.0|-63.52668|-48.76322|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.76322|-63.52668|<0.001
92260710|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.5637|STANDARD_ERROR_OF_MEAN|3.7569|<|0.001|TWO_SIDED|95.0|-69.0251|-54.1023|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.10230|-69.02510|<0.001
92260711|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-46.34109|STANDARD_ERROR_OF_MEAN|4.16385|<|0.001|TWO_SIDED|95.0|-54.61427|-38.06792|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-38.06792|-54.61427|<0.001
92260712|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.3789|STANDARD_ERROR_OF_MEAN|4.09957|<|0.001|TWO_SIDED|95.0|-69.52338|-53.23443|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-53.23443|-69.52338|<0.001
92284894|NCT01149473|184474293|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.0|||||TWO_SIDED|90.0|98.8|108.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108|98.8|
92265493|NCT01590810|184432681|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.93|STANDARD_ERROR_OF_MEAN|2.5||0.002|TWO_SIDED|95.0|-14.1|-3.76|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.76|-14.10|0.002
92265494|NCT01590810|184432681|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.16|STANDARD_ERROR_OF_MEAN|2.65|<|0.001|TWO_SIDED|95.0|-16.64|-5.68|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.68|-16.64|<0.001
92260713|NCT02055976|184423650|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-64.67274|STANDARD_ERROR_OF_MEAN|4.06866|<|0.001|TWO_SIDED|95.0|-72.75728|-56.5882|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-56.58820|-72.75728|<0.001
92260714|NCT02504424|184423662|OTHER||percent of breasts successfully exchange|100.0|||||ONE_SIDED|||||||||Treatment Success includes all breasts which were exchanged successfully in the Per Protocol Cohort, excluding non-device related failures. The Treatment Success Rate per breast is 100% (80/80). Note: Denominator = 80 (86 implanted breasts - 6 breasts). Failed exchange = 4 breasts (non-device related) \& Missing = 2 breasts (patient non-compliant w/study and withdrew consent after treatment).||||
92260715|NCT02504424|184423662|OTHER||% breasts successfully exchanged|100.0|||||ONE_SIDED|||||||||Sensitivity Analysis (Best / Worst Case): Treatment Success by subject for the Per Protocol cohort includes all failures (excluding non-device related failures). The best case analysis considers success if the subject has at least one breast successfully reconstructed, and the worst case analysis considers it a failure if at least one breast has failed. The treatment success by subject is 100% for both best and worst case analysis.||||
92260716|NCT02504424|184423663|OTHER||% breasts successfully exchanged|95.2|||||ONE_SIDED|||||||||Secondary analysis is repeated including all breasts in the PP cohort (including non-device related failures). The Treatment Success Rate by breast, based on the Per Protocol cohort, including all cause failures, is 95.2% (80/84). One subject (2 breasts) are not included in analysis as subject withdrew from the study prior to exchange of her expanders.||||
92260717|NCT04259749|184423675|OTHER||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.58|3.4|||||Adjusted for age, education, lifetime use of tobacco products.|||3.40|0.58|
92260718|NCT04259749|184423675|OTHER||Odds Ratio (OR)|2.28|||||TWO_SIDED|95.0|0.92|5.63|||||Adjusted for age, education, and lifetime use of tobacco products|||5.63|0.92|
92260719|NCT04259749|184423676|OTHER||Odds Ratio (OR)|1.58|||||TWO_SIDED|95.0|0.61|4.07|||||Adjusted for age, education, and lifetime use of tobacco products|||4.07|0.61|
92260720|NCT04259749|184423676|OTHER||Odds Ratio (OR)|3.45|||||TWO_SIDED|95.0|1.32|9.02|||||Adjusted for age, education, and lifetime use of tobacco products|||9.02|1.32|
92260721|NCT04259749|184423677|OTHER||Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|0.59|3.68|||||Adjusted for age, education, and lifetime use of tobacco|||3.68|.59|
92260722|NCT04259749|184423677|OTHER||Odds Ratio (OR)|2.6|||||TWO_SIDED|95.0|1.05|6.42|||||Adjusted for age, education, and lifetime use of tobacco products.|||6.42|1.05|
92260723|NCT04259749|184423678|OTHER||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.47|2.49|||||Adjusted for age, education, and lifetime use of tobacco|||2.49|.47|
92260724|NCT04259749|184423678|OTHER||Odds Ratio (OR)|1.43|||||TWO_SIDED|95.0|0.62|3.31|||||Adjusted for age, education, and lifetime use of tobacco products|||3.31|.62|
92260725|NCT04259749|184423679|OTHER||Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|0.72|4.14|||||Adjusted for age, education, and lifetime use of tobacco products|||4.14|.72|
92260726|NCT04259749|184423679|OTHER||Odds Ratio (OR)|2.03|||||TWO_SIDED|95.0|0.83|4.95|||||Adjusted for age, education, and lifetime use of tobacco products.|||4.95|.83|
92260727|NCT04259749|184423680|OTHER||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.4|3.18|||||Adjusted for age, education, and lifetime tobacco use|||3.18|.40|
92284895|NCT01149473|184474294|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.7|||||TWO_SIDED|95.0|98.6|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101|98.6|
92181099|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|5.52|||TWO_SIDED|95.0|-12.5|9.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||9.2|-12.5|
92260728|NCT04259749|184423680|OTHER||Odds Ratio (OR)|2.04|||||TWO_SIDED|95.0|0.73|5.71|||||Adjusted for age, education, and lifetime tobacco use|||5.71|.73|
92260729|NCT04259749|184423681|OTHER||Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|0.66|4.75|||||Adjusted for age, education, and lifetime tobacco use|||4.75|.66|
92260730|NCT04259749|184423681|OTHER||Odds Ratio (OR)|3.06|||||TWO_SIDED|95.0|1.13|8.29|||||Adjusted for age, education, and lifetime use of tobacco|||8.29|1.13|
92260731|NCT04259749|184423682|OTHER||Odds Ratio (OR)|1.38|||||TWO_SIDED|95.0|0.51|3.7|||||Adjusted for age, education, and lifetime tobacco use|||3.70|.51|
92260732|NCT04259749|184423682|OTHER||Odds Ratio (OR)|2.32|||||TWO_SIDED|95.0|0.85|6.31|||||Adjusted for age, education, and lifetime tobacco use|||6.31|.85|
92260733|NCT04259749|184423683|OTHER||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.29|4.26|||||Adjusted for age, education, and lifetime tobacco use|||4.26|.29|
92260734|NCT04259749|184423683|OTHER||Odds Ratio (OR)|2.0|||||TWO_SIDED|95.0|0.57|7.06|||||Adjusted for age, education, and lifetime tobacco use|||7.06|.57|
92260735|NCT04259749|184423684|OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.33|3.31|||||Adjusted for age, education, and lifetime tobacco use|||3.31|.33|
92260736|NCT04259749|184423684|OTHER||Odds Ratio (OR)|2.43|||||TWO_SIDED|0.95|0.83|7.13|||||Adjusted for age, education, and lifetime tobacco use|||7.13|.83|
92260737|NCT04259749|184423685|OTHER||Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|0.72|4.14|||||Adjusted for age, education, and lifetime tobacco use|||4.14|.72|
92260738|NCT04259749|184423685|OTHER||Odds Ratio (OR)|2.03|||||TWO_SIDED|95.0|0.83|4.95|||||Adjusted for age, education, and lifetime tobacco use|||4.95|.83|
92260739|NCT03922945|184423694|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92260740|NCT03922945|184423695|SUPERIORITY||||||<|0.0017|||||||Cochran-Mantel-Haenszel|||||||<0.0017
92260741|NCT03922945|184423702|SUPERIORITY|||||||0.7465|||||||Mixed Models Analysis|||||||0.7465
92265495|NCT01590810|184432681|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.25|STANDARD_ERROR_OF_MEAN|1.67|<|0.0001|TWO_SIDED|95.0|-12.7|-5.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.80|-12.70|<0.0001
92265496|NCT01590810|184432682|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.27|STANDARD_ERROR_OF_MEAN|4.65||0.635|TWO_SIDED|95.0|-12.5|7.96|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.96|-12.50|0.635
92260742|NCT00313716|184423705|SUPERIORITY_OR_OTHER|||||||0.01||||||"H0: Proportion of participants expected to have a favorable GOS outcome in the Epo2 group - in Placebo group is \>= 0.2.~H1: Proportion in Epo2 group - in Placebo group \< 0.2"|Futility analysis|||The primary analysis plan was a futility trial of the Epo 2 regimen arm. We hypothesized that 30% of subjects in the placebo group would have a favorable outcome at six months and there would be no interaction between the Epo and the transfusion threshold groups. Using a one-sided alpha of 0.15, a sample size of 62 subjects in the Epo 2 regimen group and 100 subjects in the placebo group provided 91% power to test the futility hypothesis.||||.01
92260743|NCT00313716|184423705|SUPERIORITY_OR_OTHER|||||||0.13||||||"H0: Proportion of participants expected to have a favorable GOS outcome in the Epo1 group - in Placebo group is \>= 0.2.~H1: Proportion in Epo1 group - in Placebo group \< 0.2"|Futility analysis|||The primary analysis plan was a futility trial of the Epo 1 regimen arm. We hypothesized that 30% of subjects in the placebo group would have a favorable outcome at six months and there would be no interaction between the Epo and the transfusion threshold groups.||||0.13
92260744|NCT00313716|184423705|SUPERIORITY_OR_OTHER|||||||0.34|||||||2-sample test of proportions|||We hypothesized that 40% of the patients in the TT7 group would have a favorable GOS score and that there would be no interaction between the Epo and TT groups. Assuming a 2-sided test with an alpha level of 0.05, we estimated that a sample size of 200 patients would provide 80% power to detect a 20% absolute increase in the GOS score for the TT10 group.||||.34
92260745|NCT00313716|184423706|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||.06
92260746|NCT00313716|184423707|SUPERIORITY_OR_OTHER|||||||0.25|||||||Log Rank|||||||.25
92260747|NCT00313716|184423707|SUPERIORITY_OR_OTHER|||||||0.75|||||||Log Rank|||||||.75
92260748|NCT00313716|184423707|SUPERIORITY_OR_OTHER|||||||0.72|||||||Log Rank|||||||.72
92260749|NCT00313716|184423708|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.79||||0.08|TWO_SIDED|95.0|0.93|3.45|||Regression, Cox|||||3.45|.93|.08
92260750|NCT00313716|184423709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.26|TWO_SIDED|95.0|-0.22|0.05|||2-sample test - equality of proportions|||||.05|-.22|.26
92260751|NCT03521089|184423735|SUPERIORITY|||||||0.0039|||||||ANCOVA|||||||0.0039
92260752|NCT03521089|184423735|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92260753|NCT03521089|184423735|SUPERIORITY|||||||0.0156|||||||Wilcoxon (Mann-Whitney)|||||||0.0156
92260754|NCT03521089|184423736|SUPERIORITY|||||||0.9674|||||||ANCOVA|||||||0.9674
92260755|NCT03521089|184423736|SUPERIORITY|||||||0.0938|||||||Wilcoxon (Mann-Whitney)|||||||0.0938
92260756|NCT03521089|184423736|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.2500
92260757|NCT03521089|184423737|SUPERIORITY|||||||0.0067|||||||ANCOVA|||||||0.0067
92260758|NCT03521089|184423737|SUPERIORITY|||||||0.0313|||||||Wilcoxon (Mann-Whitney)|||||||0.0313
92260759|NCT03521089|184423737|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.7500
92260760|NCT03521089|184423738|SUPERIORITY|||||||0.3069|||||||ANCOVA|||||||0.3069
92260761|NCT03521089|184423738|SUPERIORITY|||||||0.1875|||||||Wilcoxon (Mann-Whitney)|||||||0.1875
92260762|NCT03521089|184423738|SUPERIORITY|||||||0.7188|||||||Wilcoxon (Mann-Whitney)|||||||0.7188
92260763|NCT03521089|184423739|SUPERIORITY|||||||0.2609|||||||ANCOVA|||||||0.2609
92260764|NCT03521089|184423739|SUPERIORITY|||||||0.0313|||||||Wilcoxon (Mann-Whitney)|||||||0.0313
92260765|NCT03521089|184423739|SUPERIORITY|||||||0.0156|||||||Wilcoxon (Mann-Whitney)|||||||0.0156
92260766|NCT03521089|184423740|SUPERIORITY|||||||0.6951|||||||ANCOVA|||||||0.6951
92260767|NCT03521089|184423740|SUPERIORITY|||||||0.0938|||||||Wilcoxon (Mann-Whitney)|||||||0.0938
92260768|NCT03521089|184423740|SUPERIORITY|||||||0.0938|||||||Wilcoxon (Mann-Whitney)|||||||0.0938
92260769|NCT03521089|184423741|SUPERIORITY|||||||0.3592|||||||ANCOVA|||||||0.3592
92260770|NCT03521089|184423741|SUPERIORITY|||||||0.0625|||||||Wilcoxon (Mann-Whitney)|||||||0.0625
92260771|NCT03521089|184423741|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
92260772|NCT00772031|184423772|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.97||0.77|TWO_SIDED|95.0|-1.8|2.4|||ANCOVA|covariate adjustments: study site, baseline mod-to-sev 28-day headache-rate, topiramate use, medication overuse, and anti-depressive medications use.|Topiramate plus placebo mean reduction minus topiramate plus propranolol reduction|The study was designed to enroll 250 subjects to provide at least 90% power to detect a 3-day difference and 87% power to detect a 2.5-day difference in 28-day moderate-to-severe headache rate reductions at six months, assuming a type I error rate of 0.05, a two-sided test, a 10% loss to follow-up and a standard deviation of within-person change in days with headache of six.||2.4|-1.8|0.77
92260773|NCT00772031|184423773|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44|||||TWO_SIDED|95.0|0.75|2.78||||||||2.78|0.75|
92260774|NCT00772031|184423774|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||||95.0|0.5|2.02||||||||2.02|0.50|
92260775|NCT00772031|184423776|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28|STANDARD_DEVIATION|3.75||0.91||95.0|||||ANCOVA|||||||0.91
92260776|NCT03474380|184423790|SUPERIORITY|A generalized linear mixed model (GLMM) with a negative binomial distribution and a log link was fit including a time-varying indicator for when iHI-FIVES program launched, fixed effects for time (indicator variables for each of the time periods) and site. The final model was adjusted for Veteran characteristics, including age, gender, race, marital status, service connection, rural status, and chronic disease burden concurrence score (Nosos).|rate ratio (RR)|0.58||||0.091|TWO_SIDED|95.0|0.31|1.09|||generalized linear mixed model (GLMM)||Rate ratio, rate of days not in the community in 6 month intervals in intervention versus usual care.|Days not at home in 6 month intervals.||1.09|0.31|0.091
92181100|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|5.38|||TWO_SIDED|95.0|-11.2|10.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12||10.0|-11.2|
92284896|NCT01149473|184474295|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.7|||||TWO_SIDED|90.0|98.7|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101|98.7|
92260777|NCT03474380|184423791|SUPERIORITY|A generalized linear mixed model (GLMM) was fit including a time-varying indicator for when iHI-FIVES program launched, fixed effects for time (indicator variables for each of the time periods), site, and indicator for the time point of the survey, and an indicator for the interaction of the time point of the survey with the time-varying indicator for treatment. The final model was adjusted for caregiver characteristics.|Mean Difference (Net)|0.0||||0.98|TWO_SIDED|95.0|-0.7|0.8|||Mixed Models Analysis||This is the estimated mean difference from baseline to 3 months between usual care and intervention.|||0.8|-0.7|0.98
92265497|NCT01590810|184432682|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.18|STANDARD_ERROR_OF_MEAN|5.18||0.143|TWO_SIDED|95.0|-19.58|3.22|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.22|-19.58|0.143
92265498|NCT01590810|184432682|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.51|STANDARD_ERROR_OF_MEAN|4.32||0.004|TWO_SIDED|95.0|-25.01|-6.01|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.01|-25.01|0.004
92181101|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|5.55|||TWO_SIDED|95.0|-13.9|7.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||7.9|-13.9|
92181102|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|5.73|||TWO_SIDED|95.0|-11.1|11.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 16||11.4|-11.1|
92181103|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|5.76|||TWO_SIDED|95.0|-16.1|6.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||6.5|-16.1|
92181104|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|9.3|STANDARD_ERROR_OF_MEAN|5.56|||TWO_SIDED|95.0|-1.6|20.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 20||20.3|-1.6|
92181105|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|5.58|||TWO_SIDED|95.0|-3.4|18.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||18.5|-3.4|
92181106|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|5.68|||TWO_SIDED|95.0|-14.7|7.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 24||7.6|-14.7|
92181107|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|5.92|||TWO_SIDED|95.0|-17.9|5.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||5.3|-17.9|
92181108|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|5.51|||TWO_SIDED|95.0|-8.8|12.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 28||12.9|-8.8|
92181109|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|5.73|||TWO_SIDED|95.0|-8.7|13.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||13.8|-8.7|
92181110|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|5.73|||TWO_SIDED|95.0|-8.4|14.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 32||14.1|-8.4|
92181111|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|5.92|||TWO_SIDED|95.0|-11.7|11.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||11.5|-11.7|
92181112|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-8.8|13.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 36||13.6|-8.8|
92181113|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|5.89|||TWO_SIDED|95.0|-12.2|10.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||10.9|-12.2|
92181114|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|5.71|||TWO_SIDED|95.0|-10.7|11.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 40||11.7|-10.7|
92181115|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|5.83|||TWO_SIDED|95.0|-15.0|7.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||7.8|-15.0|
92181116|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|5.62|||TWO_SIDED|95.0|-6.1|15.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 44||15.9|-6.1|
92181117|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|5.87|||TWO_SIDED|95.0|-10.0|13.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||13.1|-10.0|
92181118|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|5.76|||TWO_SIDED|95.0|-10.5|12.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 48||12.1|-10.5|
92181119|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|5.93|||TWO_SIDED|95.0|-12.2|11.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||11.1|-12.2|
92181120|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|5.77|||TWO_SIDED|95.0|-9.5|13.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 52||13.2|-9.5|
92260778|NCT03474380|184423792|SUPERIORITY|A generalized linear mixed model (GLMM) was fit including a time-varying indicator for when iHI-FIVES program launched, fixed effects for time (indicator variables for each of the time periods), site, and indicator for the time point of the survey, and an indicator for the interaction of the time point of the survey with the time-varying indicator for treatment. The final model was adjusted for caregiver characteristics.|Mean Difference (Net)|0.4||||0.167|TWO_SIDED|95.0|-0.2|1.0|||Mixed Models Analysis||This is the estimated mean difference from baseline to 3 months between usual care and intervention.|||1.0|-0.2|0.167
92260779|NCT03474380|184423793|SUPERIORITY|A generalized linear mixed model (GLMM) was fit including a time-varying indicator for when iHI-FIVES program launched, fixed effects for time (indicator variables for each of the time periods), site, and indicator for the time point of the survey, and an indicator for the interaction of the time point of the survey with the time-varying indicator for treatment. The final model was adjusted for caregiver characteristics.|Mean Difference (Net)|-0.5||||0.122|TWO_SIDED|95.0|-1.0|0.1|||Mixed Models Analysis||This is the estimated mean difference from baseline to 3 months between usual care and intervention.|||0.1|-1.0|0.122
92260780|NCT01101321|184423794|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|100.0|||||TWO_SIDED|90.0|96.14|104.96|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||104.96|96.14|
92260781|NCT01101321|184423795|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|98.5|||||TWO_SIDED|90.0|95.44|101.73|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||101.73|95.44|
92260782|NCT01101321|184423796|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|98.5|||||TWO_SIDED|90.0|95.42|101.7|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||101.70|95.42|
92260783|NCT00542321|184423797|SUPERIORITY_OR_OTHER||difference between proportions|0.5||||1|TWO_SIDED|95.0|||||Fisher Exact|Chi-Square = 0.750, df = 1||Pearson Chi-Square Test for difference between groups||||1.00
92260784|NCT00542321|184423798|SUPERIORITY_OR_OTHER||Rank sums|52.0||||1|TWO_SIDED|95.0||||Alpha = .05|Wilcoxon (Mann-Whitney)|||There will be no difference in duration of mechanical ventilation between groups.||||1.0
92260785|NCT00542321|184423799|SUPERIORITY_OR_OTHER|||||||0.451||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.451
92260786|NCT00542321|184423800|SUPERIORITY_OR_OTHER||probability|0.43||||1||95.0|||||Fisher Exact|||||||1.0
92260787|NCT00542321|184423801|SUPERIORITY_OR_OTHER||Rank sums|56.0||||1|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||1.0
92260788|NCT04138758|184423802|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.68|0.85|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of a first COPD exacerbation.||0.85|0.68|
92284897|NCT00829530|184474340|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|88.87||||||90.0|80.31|98.34|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||98.34|80.31|
92260789|NCT04138758|184423803|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.57|0.97|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of first hospitalization for community-acquired pneumonia.||0.97|0.57|
92260790|NCT04138758|184423804|OTHER|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of escalation.|Hazard Ratio (HR)|0.23|||||TWO_SIDED|95.0|0.19|0.27|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|||0.27|0.19|
92284898|NCT00829530|184474341|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|94.96||||||90.0|89.77|100.45|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.45|89.77|
92181121|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|6.04|||TWO_SIDED|95.0|-10.6|13.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||13.1|-10.6|
92181122|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|5.87|||TWO_SIDED|95.0|-10.6|12.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 56||12.4|-10.6|
92260791|NCT04138758|184423805|OTHER||Hazard Ratio (HR)|0.22|||||TWO_SIDED|95.0|0.19|0.26|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of escalation.||0.26|0.19|
92260792|NCT04138758|184423806|OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.42|0.51|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of any element of a composite outcome including exacerbation, hospitalization for pneumonia, or escalation.||0.51|0.42|
92260793|NCT04138758|184423807|OTHER||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.41|0.49|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of any element of a composite outcome including exacerbation, hospitalization for pneumonia, or escalation.||0.49|0.41|
92260794|NCT01111058|184423826|SUPERIORITY||Difference in survival proportions|0.0022||||0.9|TWO_SIDED|95.0|-0.33|0.33|||Comparison of Kaplan-Meier estimates|Used Greenwood standard errors||||0.33|-0.33|0.90
92260795|NCT01111058|184423826|SUPERIORITY|||||||0.54|||||||Log Rank|||||||0.54
92181123|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|6.08|||TWO_SIDED|95.0|-10.4|13.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||13.5|-10.4|
92260796|NCT01111058|184423827|SUPERIORITY|||||||0.086|||||||Fisher Exact|||||||0.086
92260797|NCT01856920|184423835|EQUIVALENCE|Alpha= 0.05||||||0.376|||||||Rank-Sum|||||||0.3760
92260798|NCT02790476|184423837|SUPERIORITY||Mean Difference (Final Values)|-27.8|||<|0.05|TWO_SIDED|95.0|-38.2|-17.63||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (288.36-347.65 = -59.29) and control (318.60-350.09 = -31.49) arms, resulting in a difference of -27.80.|1-3 months post intervention||-17.63|-38.20|<0.05
92265499|NCT01590810|184432683|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.84|STANDARD_ERROR_OF_MEAN|1.42|<|0.0001|TWO_SIDED|95.0|-13.79|-7.89|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.89|-13.79|<0.0001
92265500|NCT01590810|184432683|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.55|STANDARD_ERROR_OF_MEAN|1.26|<|0.0001|TWO_SIDED|95.0|-11.18|-5.91|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.91|-11.18|<0.0001
92265501|NCT01590810|184432683|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.64|STANDARD_ERROR_OF_MEAN|1.34|<|0.0001|TWO_SIDED|95.0|-13.44|-7.84|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.84|-13.44|<0.0001
92265502|NCT01590810|184432683|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.13|STANDARD_ERROR_OF_MEAN|1.36|<|0.0001|TWO_SIDED|95.0|-13.97|-8.29|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-8.29|-13.97|<0.0001
92265503|NCT01590810|184432684|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|1.19||0.547|TWO_SIDED|95.0|-3.19|1.73|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.73|-3.19|0.547
92265504|NCT01590810|184432684|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.53||0.004|TWO_SIDED|95.0|-2.79|-0.62|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.62|-2.79|0.004
92265505|NCT01590810|184432684|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.59|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|TWO_SIDED|95.0|-6.23|-2.94|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.94|-6.23|<0.0001
92265506|NCT01590810|184432684|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.37|STANDARD_ERROR_OF_MEAN|0.78|<|0.001|TWO_SIDED|95.0|-4.98|-1.76|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-1.76|-4.98|<0.001
92265507|NCT01590810|184432684|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.92|STANDARD_ERROR_OF_MEAN|1.13|<|0.0001|TWO_SIDED|95.0|-8.24|-3.59|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.59|-8.24|<0.0001
92265508|NCT01590810|184432685|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.43|STANDARD_ERROR_OF_MEAN|1.33||0.017|TWO_SIDED|95.0|-6.19|-0.67|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.67|-6.19|0.017
92265509|NCT01590810|184432685|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.64|STANDARD_ERROR_OF_MEAN|1.35|<|0.001|TWO_SIDED|95.0|-8.43|-2.84|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.84|-8.43|<0.001
92265510|NCT01590810|184432685|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.99|STANDARD_ERROR_OF_MEAN|1.91||0.005|TWO_SIDED|95.0|-9.94|-2.04|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.04|-9.94|0.005
92265511|NCT01590810|184432685|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.33|STANDARD_ERROR_OF_MEAN|1.73|<|0.001|TWO_SIDED|95.0|-10.9|-3.76|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.76|-10.90|<0.001
92265512|NCT01590810|184432685|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.22|STANDARD_ERROR_OF_MEAN|1.22|<|0.001|TWO_SIDED|95.0|-7.76|-2.69|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.69|-7.76|<0.001
92265513|NCT01590810|184432686|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.93|STANDARD_ERROR_OF_MEAN|6.52||0.311|TWO_SIDED|95.0|-21.27|7.42|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.42|-21.27|0.311
92265514|NCT01590810|184432686|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.87|STANDARD_ERROR_OF_MEAN|6.62||0.078|TWO_SIDED|95.0|-27.44|1.69|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.69|-27.44|0.078
92265515|NCT01590810|184432686|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.03|STANDARD_ERROR_OF_MEAN|6.29||0.027|TWO_SIDED|95.0|-29.87|-2.19|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.19|-29.87|0.027
92265516|NCT01590810|184432687|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.77|STANDARD_ERROR_OF_MEAN|1.5|<|0.0001|TWO_SIDED|95.0|-12.9|-6.65|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.65|-12.90|<0.0001
92260799|NCT02790476|184423837|SUPERIORITY||Mean Difference (Final Values)|-12.42|||<|0.01|TWO_SIDED|95.0|-18.4|-6.55||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (167.83-347.65 = -179.83) and control (182.67-350.09 = -167.41) arms, resulting in a difference of -12.42.|||-6.55|-18.40|<0.01
92260800|NCT02790476|184423838|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.224|TWO_SIDED|95.0|-0.92|0.22||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (3.45-3.74 = -0.29) and control (3.45-4.59= -0.64) arms, resulting in a difference of -0.35.|Change in mean number of =\> 50 MME prescriptions pre- to 1-3 months post-intervention||0.22|-0.92|0.224
92260801|NCT02790476|184423838|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.08|-0.33||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (3.00-3.74 = -0.74) and control (3.15-4.59= -1.44) arms, resulting in a difference of -0.70.|Change in mean number of =\> 50 MME prescriptions pre- to 4-12 months post-intervention||-0.33|-1.08|<0.001
92260802|NCT02790476|184423838|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.279|TWO_SIDED|95.0|-0.59|0.17||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (2.00-2.14 = -0.14) and control (2.20-2.55= -0.35) arms, resulting in a difference of -0.21.|Change in mean number of \> 90 MME prescriptions pre- to 1-3 months post-intervention||0.17|-0.59|0.279
92260803|NCT02790476|184423838|SUPERIORITY||Mean Difference (Final Values)|-0.38|||<|0.01|TWO_SIDED|95.0|-0.63|-0.12||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (1.71-2.14 = -0.43) and control (1.74-2.55= -0.81) arms, resulting in a difference of -0.38.|Change in mean number of \> 90 MME prescriptions pre- to 4-12 months post-intervention||-0.12|-0.63|<0.01
92260804|NCT02790476|184423839|SUPERIORITY||Mean Difference (Final Values)|-1.6|||<|0.05|TWO_SIDED|95.0|-3.2|-0.1||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|Pre-intervention values were trimmed at 95% with bootstrapped means and confidence intervals.|This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean DME in the letter (72.3-76 = -3.7) and control (82-82.9 = -0.9) arms, resulting in a difference of -1.6.|||-0.1|-3.2|<0.05
92260805|NCT02790476|184423841|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.823|TWO_SIDED|95.0|-0.23|0.29||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (2.44-3.72 = -1.28) and control (2.26-3.51= -1.25) arms, resulting in a difference of 0.03.|Change in mean number of new patients pre- to 1-3 months post-intervention||0.29|-0.23|0.823
92260806|NCT02790476|184423841|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.692|TWO_SIDED|95.0|-0.2|0.14||The threshold for statistical significance is p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (2.08-3.72 = -1.64) and control (1.84-3.51= -1.67) arms, resulting in a difference of -0.03.|Change in mean number of new patients pre- to 4-12 months post-intervention||0.14|-0.20|0.692
92260807|NCT03287089|184423842|SUPERIORITY||Odds Ratio (OR)|1.09||||0.84|TWO_SIDED|95.0|0.49|2.43|||Chi-squared|||||2.43|0.49|0.84
92260808|NCT03287089|184423843|SUPERIORITY|||||||0.44|||||||Chi-squared|||||||0.44
92260809|NCT03287089|184423844|SUPERIORITY|||||||0.68|||||||t-test, 1 sided|||||||0.68
92260810|NCT02275052|184423883|SUPERIORITY_OR_OTHER||Least squares mean difference|3.31||||0.79|TWO_SIDED|95.0|-21.12|27.74||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||27.74|-21.12|0.790
92260811|NCT02275052|184423884|SUPERIORITY_OR_OTHER||Least squares mean difference|0.206|||<|0.001|TWO_SIDED|95.0|0.167|0.246|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)|Least squares mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.246|0.167|<0.001
92260812|NCT02275052|184423885|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.346|||<|0.001|TWO_SIDED|95.0|-0.487|-0.204|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)|Least squares mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||-0.204|-0.487|<0.001
92260813|NCT02275052|184423886|SUPERIORITY_OR_OTHER||Least squares mean difference|0.259|||<|0.001|TWO_SIDED|95.0|0.194|0.324|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)|Least squares mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.324|0.194|<0.001
92260814|NCT01143116|184423895|OTHER|||||||0.625|||||||Wilcoxon (Mann-Whitney)|||||||0.6250
92260815|NCT01143116|184423895|OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.7500
92260816|NCT01143116|184423896|OTHER|||||||0.875|||||||Wilcoxon (Mann-Whitney)|||||||0.8750
92260817|NCT01143116|184423896|OTHER|||||||0.625|||||||Wilcoxon (Mann-Whitney)|||||||0.6250
92260818|NCT01143116|184423897|OTHER|||||||0.0254|||||||Wilcoxon (Mann-Whitney)|||||||0.0254
92181124|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|5.89|||TWO_SIDED|95.0|-11.9|11.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 60||11.2|-11.9|
92181125|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|6.17|||TWO_SIDED|95.0|-9.7|14.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||14.6|-9.7|
92260819|NCT01143116|184423897|OTHER|||||||0.0039|||||||Wilcoxon (Mann-Whitney)|||||||0.0039
92260820|NCT01143116|184423898|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
92260821|NCT01143116|184423898|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
92260822|NCT01143116|184423899|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
92260823|NCT01143116|184423899|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
92260824|NCT01143116|184423900|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
92260825|NCT01143116|184423901|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
92260826|NCT01143116|184423902|OTHER|||||||0.0313|||||||Wilcoxon (Mann-Whitney)|||||||0.0313
92260827|NCT01143116|184423902|OTHER|||||||0.0078|||||||Wilcoxon (Mann-Whitney)|||||||0.0078
92260828|NCT01143116|184423903|OTHER|||||||0.7188|||||||Wilcoxon (Mann-Whitney)|||||||0.7188
92260829|NCT01143116|184423903|OTHER|||||||0.6406|||||||Wilcoxon (Mann-Whitney)|||||||0.6406
92181126|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|5.87|||TWO_SIDED|95.0|-11.7|11.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 64||11.3|-11.7|
92181127|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|6.09|||TWO_SIDED|95.0|-12.2|11.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||11.7|-12.2|
92181128|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|5.91|||TWO_SIDED|95.0|-9.3|13.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 68||13.9|-9.3|
92181129|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|6.08|||TWO_SIDED|95.0|-9.8|14.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||14.0|-9.8|
92260830|NCT01143116|184423904|OTHER|||||||0.4375|||||||Wilcoxon (Mann-Whitney)|||||||0.4375
92260831|NCT01143116|184423904|OTHER|||||||0.2969|||||||Wilcoxon (Mann-Whitney)|||||||0.2969
92260832|NCT01143116|184423905|OTHER|||||||0.5391|||||||Wilcoxon (Mann-Whitney)|||||||0.5391
92260833|NCT01143116|184423905|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.0010
92260834|NCT01143116|184423906|OTHER|||||||0.4766|||||||Wilcoxon (Mann-Whitney)|||||||0.4766
92260835|NCT01143116|184423906|OTHER|||||||0.0068|||||||Wilcoxon (Mann-Whitney)|||||||0.0068
92260836|NCT01143116|184423907|OTHER|||||||0.0625|||||||Wilcoxon (Mann-Whitney)|||||||0.0625
92260837|NCT01143116|184423907|OTHER|||||||0.418|||||||Wilcoxon (Mann-Whitney)|||||||0.4180
92260838|NCT02630459|184423913|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-1.89|||<|0.001|TWO_SIDED|95.0|-2.58|-1.2||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-1.20|-2.58|<0.001
92260839|NCT02630459|184423913|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-2.31|||<|0.001|TWO_SIDED|95.0|-3.0|-1.62||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-1.62|-3.00|<0.001
92265517|NCT01590810|184432687|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.19|STANDARD_ERROR_OF_MEAN|2.1||0.003|TWO_SIDED|95.0|-11.57|-2.81|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.81|-11.57|0.003
92265518|NCT01590810|184432687|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.19|STANDARD_ERROR_OF_MEAN|2.02||0.001|TWO_SIDED|95.0|-12.4|-3.98|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.98|-12.40|0.001
92265519|NCT01590810|184432687|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.47|STANDARD_ERROR_OF_MEAN|2.02||0.001|TWO_SIDED|95.0|-11.69|-3.25|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.25|-11.69|0.001
92265520|NCT01590810|184432688|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|1.04||0.765|TWO_SIDED|95.0|-1.82|2.45|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.45|-1.82|0.765
92265521|NCT01590810|184432688|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.56||0.023|TWO_SIDED|95.0|-2.49|-0.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.20|-2.49|0.023
92265522|NCT01590810|184432688|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.77|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-9.18|-4.36|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-4.36|-9.18|<0.0001
92265523|NCT01590810|184432688|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.45|STANDARD_ERROR_OF_MEAN|1.95||0.01|TWO_SIDED|95.0|-9.46|-1.44|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-1.44|-9.46|0.010
92265524|NCT01590810|184432688|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.61|STANDARD_ERROR_OF_MEAN|1.3|<|0.0001|TWO_SIDED|95.0|-11.28|-5.94|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.94|-11.28|<0.0001
92260840|NCT02630459|184423913|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-1.25||||0.004|TWO_SIDED|95.0|-2.1|-0.41||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-0.41|-2.10|0.004
92260841|NCT02630459|184423914|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.3|13.8|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 4: Full Administration||13.8|-13.3|
92260842|NCT02630459|184423914|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.8|13.3|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 4: Not Full Administration||13.3|-13.8|
92260843|NCT02630459|184423914|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.8|13.3|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 4: Discontinued Investigational Product||13.3|-13.8|
92260844|NCT02630459|184423914|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.3|13.8|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 8: Full Administration||13.8|-13.3|
92260845|NCT02630459|184423914|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.8|13.3|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 8: Not Full Administration||13.3|-13.8|
92260846|NCT02630459|184423914|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.8|13.3|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 8: Discontinued Investigational Product||13.3|-13.8|
92260847|NCT02630459|184423915|SUPERIORITY||Common Odds Ratio|4.73|||<|0.001|TWO_SIDED|95.0|2.24|9.99||P-values for pairwise comparisons were nominal and obtained from the CMH test using data including placebo and corresponding erenumab dose group only.|Cochran-Mantel-Haenszel|||The common odds ratios and p-values were obtained from a Cochran-Mantel-Haenszel (CMH) test, stratified by stratification factor prior/current treatment with migraine prophylactic medication status.||9.99|2.24|<0.001
92260848|NCT02630459|184423915|SUPERIORITY||Common Odds Ratio|5.6|||<|0.001|TWO_SIDED|95.0|2.6|12.06||P-values for pairwise comparisons were nominal and obtained from the CMH test using data including placebo and corresponding erenumab dose group only.|Cochran-Mantel-Haenszel|||The common odds ratios and p-values were obtained from a CMH test, stratified by stratification factor prior/current treatment with migraine prophylactic medication status.||12.06|2.60|<0.001
92260849|NCT02630459|184423915|SUPERIORITY||Common Odds Ratio|3.21||||0.009|TWO_SIDED|95.0|1.3|7.88||P-values for pairwise comparisons were nominal and obtained from the CMH test using data including placebo and corresponding erenumab dose group only.|Cochran-Mantel-Haenszel|||The common odds ratios and p-values were obtained from a CMH test, stratified by stratification factor prior/current treatment with migraine prophylactic medication status.||7.88|1.30|0.009
92260850|NCT02630459|184423916|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-2.04|||<|0.001|TWO_SIDED|95.0|-2.63|-1.45||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-1.45|-2.63|<0.001
92260851|NCT02630459|184423916|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-2.07|||<|0.001|TWO_SIDED|95.0|-2.66|-1.49||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-1.49|-2.66|<0.001
92265525|NCT01590810|184432689|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.02|STANDARD_ERROR_OF_MEAN|1.39||0.16|TWO_SIDED|95.0|-4.89|0.86|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.86|-4.89|0.160
92265526|NCT01590810|184432689|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.32|STANDARD_ERROR_OF_MEAN|1.97||0.039|TWO_SIDED|95.0|-8.4|-0.24|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.24|-8.40|0.039
92265527|NCT01590810|184432689|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.75|STANDARD_ERROR_OF_MEAN|2.34||0.003|TWO_SIDED|95.0|-12.58|-2.92|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.92|-12.58|0.003
92260852|NCT02630459|184423916|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-1.07||||0.004|TWO_SIDED|95.0|-1.8|-0.35||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-0.35|-1.80|0.004
92260853|NCT01797302|184423925|SUPERIORITY|||||||0.88||||||interaction term from model group\*time|Mixed Models Analysis|||||||0.88
92260854|NCT01797302|184423926|SUPERIORITY|||||||0.85||||||interaction term for group\*time|Mixed Models Analysis|||||||0.85
92260855|NCT01797302|184423927|SUPERIORITY|||||||0.61||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.61
92260856|NCT01797302|184423928|SUPERIORITY|||||||0.24||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.24
92260857|NCT01797302|184423929|SUPERIORITY|||||||0.0117||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.0117
92260858|NCT01797302|184423930|SUPERIORITY|||||||0.53||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.53
92260859|NCT01797302|184423931|SUPERIORITY|||||||0.0256||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.0256
92260860|NCT01797302|184423932|SUPERIORITY|||||||0.0945||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.0945
92260861|NCT01797302|184423933|SUPERIORITY|||||||0.12||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.12
92260862|NCT01797302|184423934|SUPERIORITY|||||||0.0094||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.0094
92260863|NCT00783263|184423935|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.25|||<|0.001|TWO_SIDED|95.0|-19.89|-10.6|||Longitudinal Data Analysis (LDA)|Longitudinal Data Analysis was based on a constrained LDA model with terms for treatment, time, stratum and the interaction of time by treatment.||||-10.60|-19.89|<0.001
92260864|NCT00783263|184423936|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.31|||<|0.001|TWO_SIDED|95.0|-18.95|-5.67|||Longitudinal Data Analysis (LDA)|Longitudinal Data Analysis was based on a constrained LDA model with terms for treatment, time and the interaction of time by treatment.||||-5.67|-18.95|<0.001
92260865|NCT00783263|184423936|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.46|||<|0.001|TWO_SIDED|95.0|-23.92|-10.99|||Longitudinal Data Analysis (LDA)|Longitudinal Data Analysis was based on a constrained LDA model with terms for treatment, time and the interaction of time by treatment.||||-10.99|-23.92|<0.001
92260866|NCT00783263|184423937|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.5|||<|0.001|TWO_SIDED|95.0|2.9|6.9|||Logistic Regression|Logistic Regression included terms for treatment, stratum and baseline LDL-C category (3 levels: \<100, 100-\<130, ≥130 mg/dL).||||6.9|2.9|<0.001
92260867|NCT00783263|184423938|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.1|||<|0.001|TWO_SIDED|95.0|1.7|5.8|||Logistic Regression|Logistic Regression included terms for treatment and baseline LDL-C category (3 levels: \<100, 100-\<130, \>=130 mg/dL).||||5.8|1.7|<0.001
92260868|NCT00783263|184423938|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.5|||<|0.001|TWO_SIDED|95.0|3.4|12.3|||Logistic Regression|Logistic Regression included terms for treatment and baseline LDL-C category (3 levels: \<100, 100-\<130, \>=130 mg/dL).||||12.3|3.4|<0.001
92260869|NCT00783263|184423939|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.0|||<|0.001|TWO_SIDED|95.0|4.6|14.0|||Logistic Regression|||||14.0|4.6|<0.001
92260870|NCT00783263|184423940|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.1|||<|0.001|TWO_SIDED|95.0|2.2|11.8|||Logistic Regression|||Stratum I||11.8|2.2|<0.001
92260871|NCT00783263|184423940|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|11.4|||<|0.001|TWO_SIDED|95.0|5.2|24.8|||Logistic Regression|||Stratum II||24.8|5.2|<0.001
92260872|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.65|||<|0.001|TWO_SIDED|95.0|-11.59|-5.71|||Longitudinal Data Analysis|||Total Cholesterol (mg/dL)||-5.71|-11.59|<0.001
92260873|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1||||0.306|TWO_SIDED|95.0|-9.04|2.84|||Longitudinal Data Analysis|||Triglycerides (mg/dL)||2.84|-9.04|0.306
92260874|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.15||||0.111|TWO_SIDED|95.0|-4.79|0.49|||Longitudinal Data Analysis|||High-Density Lipoprotein Cholesterol||0.49|-4.79|0.111
92260875|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.98|||<|0.001|TWO_SIDED|95.0|-16.1|-7.86|||Longitudinal Data Analysis|||Non High-Density Liproprotein Cholesterol||-7.86|-16.10|<0.001
92260876|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.25|||<|0.001|TWO_SIDED|95.0|-18.36|-8.13|||Longitudinal Data Analysis|||LDL Cholesterol/HDL Cholesterol||-8.13|-18.36|<0.001
92260877|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.45||||0.002|TWO_SIDED|95.0|-10.53|-2.36|||Longitudinal Data Analysis|||Total Cholesterol/HDL Cholesterol||-2.36|-10.53|0.002
92260878|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.52||||0.001|TWO_SIDED|95.0|-15.3|-3.75|||Longitudinal Data Analysis|||Non-HDL Cholestrol/HDL Cholesterol||-3.75|-15.30|0.001
92260879|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.41|||<|0.001|TWO_SIDED|95.0|-12.74|-6.08|||Longitudinal Data Analysis|||Apolipoprotein B (Apo B)||-6.08|-12.74|<0.001
92181130|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|5.91|||TWO_SIDED|95.0|-14.5|8.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 72||8.7|-14.5|
92260880|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.82||||0.102|TWO_SIDED|95.0|-3.99|0.36|||Longitudinal Data Analysis|||Apolipoprotein A-I (Apo A-I)||0.36|-3.99|0.102
92260881|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.54|||<|0.001|TWO_SIDED|95.0|-11.25|-3.83|||Longitudinal Data Analysis|||Apolipoprotein B/Apo A-I||-3.83|-11.25|<0.001
92260882|NCT00783263|184423941|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.08||||0.861|TWO_SIDED|95.0|-13.13|10.97|||Longitudinal Data Analysis|||hs-C-Reactive Protein||10.97|-13.13|0.861
92260883|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide 3 mg - Placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.8|-1.4|<0.0001
92260884|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-1.5|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.2||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide 7 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.2|-1.7|<0.0001
92260885|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.4||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.4|-2.0|<0.0001
92265528|NCT01590810|184432689|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.79|STANDARD_ERROR_OF_MEAN|2.27|<|0.001|TWO_SIDED|95.0|-14.49|-5.09|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.09|-14.49|<0.001
92265529|NCT01590810|184432689|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.31|STANDARD_ERROR_OF_MEAN|1.45|<|0.0001|TWO_SIDED|95.0|-11.3|-5.31|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.31|-11.30|<0.0001
92265530|NCT01590810|184432690|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|4.0||0.675|TWO_SIDED|95.0|-10.54|7.09|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.09|-10.54|0.675
92260886|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|0.3||||0.0799|TWO_SIDED|95.0|0.0|0.6||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide 3 mg - Liraglutide 0.9 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.6|-0.0|0.0799
92181131|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|6.06|||TWO_SIDED|95.0|-13.7|10.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||10.1|-13.7|
92181132|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|6.05|||TWO_SIDED|95.0|-10.0|13.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 76||13.7|-10.0|
92181133|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|6.13|||TWO_SIDED|95.0|-12.2|11.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||11.8|-12.2|
92181134|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|6.05|||TWO_SIDED|95.0|-9.1|14.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 80||14.7|-9.1|
92181135|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|6.01|||TWO_SIDED|95.0|-11.3|12.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||12.3|-11.3|
92260887|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-0.1||||0.3942|TWO_SIDED|95.0|-0.4|0.2||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide 7 mg - Liraglutide 0.9 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.2|-0.4|0.3942
92260888|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-0.3||||0.0272|TWO_SIDED|95.0|-0.6|0.0||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurement||Oral semaglutide 14 mg - Liraglutide 0.9 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.0|-0.6|0.0272
92260889|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 3 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.5|-1.1|<0.0001
92260890|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 7 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.9|-1.5|<0.0001
92260891|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.1||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.1|-1.7|<0.0001
92260892|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|0.2||||0.1958|TWO_SIDED|95.0|-0.1|0.5||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 3 mg - Liraglutide 0.9 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.5|-0.1|0.1958
92260893|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.2||||0.1868|TWO_SIDED|95.0|-0.5|0.1||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 7 mg - Liraglutide 0.9 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.1|-0.5|0.1868
92260894|NCT03018028|184423944|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.4||||0.0077|TWO_SIDED|95.0|-0.7|-0.1||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 14 mg - Liraglutide 0.9 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.1|-0.7|0.0077
92265531|NCT01590810|184432690|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.76|STANDARD_ERROR_OF_MEAN|4.64||0.174|TWO_SIDED|95.0|-16.98|3.46|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.46|-16.98|0.174
92265532|NCT01590810|184432690|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.68|STANDARD_ERROR_OF_MEAN|4.03||0.006|TWO_SIDED|95.0|-22.55|-4.81|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-4.81|-22.55|0.006
92260895|NCT03018028|184423971|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.63||||0.2579|TWO_SIDED|95.0|0.29|1.4||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 3 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.40|0.29|0.2579
92260896|NCT03018028|184423971|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.25||||0.0052|TWO_SIDED|95.0|0.1|0.66||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 7 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.66|0.10|0.0052
92260897|NCT03018028|184423971|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.31||||0.0259|TWO_SIDED|95.0|0.11|0.87||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.87|0.11|0.0259
92260898|NCT03018028|184423971|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|2.7||||0.0674|TWO_SIDED|95.0|0.93|7.8||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 3 mg / Liraglutide 0.9 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||7.80|0.93|0.0674
92181136|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|5.95|||TWO_SIDED|95.0|-11.9|11.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 84||11.5|-11.9|
92181137|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|6.04|||TWO_SIDED|95.0|-12.0|11.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||11.7|-12.0|
92181138|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|5.86|||TWO_SIDED|95.0|-13.2|9.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 88||9.8|-13.2|
92265533|NCT01590810|184432691|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.12|STANDARD_ERROR_OF_MEAN|1.49|<|0.0001|TWO_SIDED|95.0|-12.22|-6.03|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.03|-12.22|<0.0001
92265534|NCT01590810|184432691|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.86|STANDARD_ERROR_OF_MEAN|1.38|<|0.0001|TWO_SIDED|95.0|-9.73|-3.99|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.99|-9.73|<0.0001
92260899|NCT03018028|184423971|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.07||||0.9087|TWO_SIDED|95.0|0.32|3.54||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 7 mg / Liraglutide 0.9 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||3.54|0.32|0.9087
92260900|NCT03018028|184423971|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.33||||0.6498|TWO_SIDED|95.0|0.38|4.62||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Liraglutide 0.9 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||4.62|0.38|0.6498
92260901|NCT03018028|184423972|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.34||||0.0219|TWO_SIDED|95.0|0.14|0.86||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 3 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.86|0.14|0.0219
92260902|NCT03018028|184423972|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.15||||0.0005|TWO_SIDED|95.0|0.05|0.44||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 7 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.44|0.05|0.0005
92260903|NCT03018028|184423972|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.23||||0.0098|TWO_SIDED|95.0|0.07|0.7||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.70|0.07|0.0098
92260904|NCT03018028|184423972|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|2.95||||0.1193|TWO_SIDED|95.0|0.76|11.46||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 3 mg / Liraglutide 0.9 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||11.46|0.76|0.1193
92260905|NCT03018028|184423972|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.31||||0.7147|TWO_SIDED|95.0|0.31|5.56||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 7 mg / Liraglutide 0.9 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||5.56|0.31|0.7147
92284899|NCT00829530|184474342|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|95.24||||||90.0|90.13|100.63|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.63|90.13|
92284900|NCT00829530|184474343|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.85||||||90.0|91.95|106.27|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||106.27|91.95|
92181139|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|95.0|-12.6|11.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||11.0|-12.6|
92260906|NCT03018028|184423972|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.97||||0.3765|TWO_SIDED|95.0|0.44|8.85||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 14 mg / Liraglutide 0.9 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||8.85|0.44|0.3765
92260907|NCT02519777|184423994|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in normalized composite neurocognitive test scores at Week 48 from baseline||||0.60
92260908|NCT02519777|184423994|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 48 from baseline||||0.33
92265535|NCT01590810|184432691|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.57|STANDARD_ERROR_OF_MEAN|1.41|<|0.0001|TWO_SIDED|95.0|-11.51|-5.64|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.64|-11.51|<0.0001
92265536|NCT01590810|184432691|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.52|STANDARD_ERROR_OF_MEAN|1.45|<|0.0001|TWO_SIDED|95.0|-12.55|-6.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.50|-12.55|<0.0001
92265537|NCT01731600|184432711|OTHER||Incidence rate|0.0|||||ONE_SIDED|97.5||0.067|||||The incidence of inhibitory antibodies was calculated as number of patients with inhibitors during the main phase of the trial divided by number of patients in the main phase of the trial.|A one-sided, upper 97.5% confidence limit was provided based on an exact calculation in the binomial distribution.||0.067||
92265538|NCT00465894|184432728|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||.45
92260909|NCT02519777|184423994|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 48 from baseline||||0.61
92260910|NCT02519777|184423996|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in normalized composite neurocognitive test scores at Week 24 from baseline||||0.61
92260911|NCT02519777|184423996|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in normalized composite neurocognitive test scores at Week 72 from baseline||||0.72
92260912|NCT02519777|184423996|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in normalized composite neurocognitive test scores at Week 96 from baseline||||0.79
92260913|NCT02519777|184423996|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 24 from baseline||||0.55
92260914|NCT02519777|184423996|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 72 from baseline||||0.47
92260915|NCT02519777|184423996|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 96 from baseline||||0.95
92181140|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|5.87|||TWO_SIDED|95.0|-9.8|13.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 92||13.3|-9.8|
92260916|NCT02519777|184423996|SUPERIORITY|||||||0.85|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 24 from baseline||||0.85
92260917|NCT02519777|184423996|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 72 from baseline||||0.67
92260918|NCT02519777|184423996|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 96 from baseline||||0.70
92260919|NCT02519777|184423997|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in functional status scores at Week 24 from baseline||||0.99
92260920|NCT02519777|184423997|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in functional status scores at Week 48 from baseline||||0.97
92260921|NCT02519777|184423997|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in functional status scores at Week 72 from baseline||||0.79
92260922|NCT02519777|184423997|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in functional status scores at Week 96 from baseline||||0.99
92260923|NCT02519777|184423997|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in functional status scores at Week 24 from baseline||||0.74
92260924|NCT02519777|184423997|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in functional status scores at Week 48 from baseline||||0.69
92260925|NCT02519777|184423997|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in functional status scores at Week 72 from baseline||||0.44
92260926|NCT02519777|184423997|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in functional status scores at Week 96 from baseline||||1.00
92260927|NCT02519777|184423997|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in functional status scores at Week 24 from baseline||||0.83
92260928|NCT02519777|184423997|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in functional status scores at Week 48 from baseline||||0.80
92260929|NCT02519777|184423997|SUPERIORITY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in functional status scores at Week 72 from baseline||||0.86
92260930|NCT02519777|184423997|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in functional status scores at Week 96 from baseline||||1.00
92260931|NCT02519777|184423998|SUPERIORITY||Difference in Percentage of Participants|3.32|||||TWO_SIDED|95.0|-2.78|9.42||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 24||9.42|-2.78|
92260932|NCT02519777|184423998|SUPERIORITY||Difference in Percentage of Participants|5.17|||||TWO_SIDED|95.0|-0.53|10.87||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48||10.87|-0.53|
92260933|NCT02519777|184423998|SUPERIORITY||Difference in Percentage of Participants|-8.21|||||TWO_SIDED|95.0|-16.56|0.13||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 96||0.13|-16.56|
92260934|NCT02519777|184423998|SUPERIORITY||Difference in Percentage of Participants|3.17|||||TWO_SIDED|95.0|-3.07|9.42||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 24||9.42|-3.07|
92260935|NCT02519777|184423998|SUPERIORITY||Difference in Percentage of Participants|3.48|||||TWO_SIDED|95.0|-3.11|10.06||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48||10.06|-3.11|
92260936|NCT02519777|184423998|SUPERIORITY||Difference in Percentage of Participants|-1.85|||||TWO_SIDED|95.0|-7.89|4.19||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 96||4.19|-7.89|
92260937|NCT02519777|184423998|SUPERIORITY||Difference in Percentage of Participants|-0.15|||||TWO_SIDED|95.0|-4.53|4.23||||||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 24||4.23|-4.53|
92284901|NCT00829530|184474344|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.62||||||90.0|97.8|103.52|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||103.52|97.8|
92284902|NCT00840866|184474345|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|104.0||||||90.0|99.0|109.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109|99|
92181141|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|6.09|||TWO_SIDED|95.0|-11.1|12.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||12.8|-11.1|
92181142|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|5.91|||TWO_SIDED|95.0|-15.6|7.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 96||7.6|-15.6|
92181143|NCT02307682|184260723|OTHER|Treatment difference|Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|6.07|||TWO_SIDED|95.0|-15.8|8.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||8.0|-15.8|
92260938|NCT02519777|184423998|SUPERIORITY||Difference in Percentage of Participants|-1.69|||||TWO_SIDED|95.0|-4.99|1.6||||||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48||1.60|-4.99|
92260939|NCT02519777|184423998|SUPERIORITY||Difference in Percentage of Participants|6.36|||||TWO_SIDED|95.0|-2.7|15.42||||||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 96||15.42|-2.70|
92260940|NCT02519777|184424000|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD4+ T-cell count at Week 24 from baseline||||0.67
92260941|NCT02519777|184424000|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD4+ T-cell count at Week 48 from baseline||||0.78
92260942|NCT02519777|184424000|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD4+ T-cell count at Week 96 from baseline||||0.94
92260943|NCT02519777|184424000|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 24 from baseline||||0.42
92260944|NCT02519777|184424000|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 48 from baseline||||0.07
92260945|NCT02519777|184424000|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 96 from baseline||||0.37
92260946|NCT02519777|184424000|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 24 from baseline||||0.08
92284903|NCT00840866|184474346|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.9||||||90.0|98.6|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101|98.6|
92260947|NCT02519777|184424000|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 48 from baseline||||0.33
92260948|NCT02519777|184424000|SUPERIORITY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 96 from baseline||||0.56
92260949|NCT02519777|184424002|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD8+ T-cell count at Week 24 from baseline||||0.63
92260950|NCT02519777|184424002|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD8+ T-cell count at Week 48 from baseline||||0.38
92260951|NCT02519777|184424002|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD8+ T-cell count at Week 96 from baseline||||0.95
92260952|NCT02519777|184424002|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 24 from baseline||||0.27
92260953|NCT02519777|184424002|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 48 from baseline||||0.23
92260954|NCT02519777|184424002|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 96 from baseline||||0.09
92181144|NCT02307682|184260724|OTHER||Difference in proportions|-9.4|||||TWO_SIDED|95.0|-16.4|-3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||-3.3|-16.4|
92260955|NCT02519777|184424002|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 24 from baseline||||0.03
92260956|NCT02519777|184424002|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 48 from baseline||||0.02
92260957|NCT02519777|184424002|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 96 from baseline||||0.09
92260958|NCT02519777|184424003|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 sCD14 in plasma at Week 48 from baseline||||1.00
92260959|NCT02519777|184424003|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 sCD14 in plasma at Week 48 from baseline||||0.95
92260960|NCT02519777|184424003|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 sCD14 in plasma at Week 48 from baseline||||0.96
92260961|NCT02519777|184424004|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 MIP-1 Beta in plasma at Week 48 from baseline||||0.52
92260962|NCT02519777|184424004|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 MIP-1 Beta in plasma at Week 48 from baseline||||<0.01
92260963|NCT02519777|184424004|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 MIP-1 Beta in plasma at Week 48 from baseline||||<0.01
92260964|NCT02519777|184424005|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 sTNFr-II in plasma at Week 48 from baseline||||0.91
92260965|NCT02519777|184424005|SUPERIORITY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 sTNFr-II in plasma at Week 48 from baseline||||0.86
92260966|NCT02519777|184424005|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 sTNFr-II in plasma at Week 48 from baseline||||0.94
92260967|NCT02519777|184424006|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 VCAM in plasma at Week 48 from baseline||||0.70
92260968|NCT02519777|184424006|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 VCAM in plasma at Week 48 from baseline||||0.28
92260969|NCT02519777|184424006|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 VCAM in plasma at Week 48 from baseline||||0.85
92260970|NCT02519777|184424007|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 MIP-1 Beta in CSF at Week 48 from baseline||||0.99
92260971|NCT02519777|184424007|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 MIP-1 Beta in CSF at Week 48 from baseline||||0.26
92260972|NCT02519777|184424007|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 MIP-1 Beta in CSF at Week 48 from baseline||||0.20
92260973|NCT02519777|184424008|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 IP-10 in CSF at Week 48 from baseline||||0.59
92260974|NCT02519777|184424008|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 IP-10 in CSF at Week 48 from baseline||||0.39
92260975|NCT02519777|184424008|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 IP-10 in CSF at Week 48 from baseline||||0.80
92260976|NCT02519777|184424009|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 Neopterin in CSF at Week 48 from baseline||||0.90
92260977|NCT02519777|184424009|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 Neopterin in CSF at Week 48 from baseline||||0.14
92260978|NCT02519777|184424009|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 Neopterin in CSF at Week 48 from baseline||||0.49
92260979|NCT02519777|184424010|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 NFL in CSF at Week 48 from baseline||||0.52
92260980|NCT02519777|184424010|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 NFL in CSF at Week 48 from baseline||||0.99
92260981|NCT02519777|184424010|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 NFL in CSF at Week 48 from baseline||||0.54
92260982|NCT00256204|184424016|SUPERIORITY_OR_OTHER|||||||0.0133|||||||Repeated Measures Mixed Linear Model|||"Hypothesis #1: Slopes Superiority of 1mg Rasagiline over Placebo in the PC Phase Where slope is the model estimate of the change from baseline in total UPDRS per week.~In this analysis, all available post-baseline observations in the PC Phase of the trial are analyzed (ITT efficacy data analysis set, weeks 12, 24 and 36). The placebo groups for rasagiline 1mg (delayed-start) and 2mg (delayed-start)are combined to one placebo group."||||0.0133
92260983|NCT00256204|184424016|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Repeated Measures Mixed Linear Model|||"Hypothesis #1: Slopes Superiority of 2mg Rasagiline over Placebo in the PC Phase Where slope is the model estimate of the change from baseline in total UPDRS per week.~In this analysis, all available post-baseline observations in the PC Phase of the trial are analyzed (ITT efficacy data analysis set, weeks 12, 24 and 36). The placebo groups for rasagiline 1mg (delayed-start)and 2mg (delayed-start) are combined to one placebo group."||||0.0001
92260984|NCT00256204|184424016|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||The analysis was performed on separate datasets and not on the combined dataset as was pre-specified to account for unexpected interactions of dose level by baseline UPDRS and of dose level by center .|Repeated Measures|||Hypothesis #2: Superiority of Early over Delayed Start at Week 72 In this analysis, observations of subjects entering the active phase with at least 24 weeks of treatment during the PC Phase and at least one available Total UPDRS measurement during the active-treatment phase from weeks 48, 54, 60, 66 or 72, are analyzed (ACTE data analysis set).||||0.0250
92265539|NCT00798161|184432794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.79|-0.36||hierarchical testing, no adjustment of p-values|ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.36|-0.79|<0.0001
92265540|NCT00798161|184432794|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.73|-0.3||hierarchical testing, no adjustment of p-values|ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.30|-0.73|<0.0001
92265541|NCT00798161|184432794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.99|-0.55||hierarchical testing, no adjustment of p-values|ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.55|-0.99|<0.0001
92265542|NCT00798161|184432794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-1.36|-0.92||hierarchical testing, no adjustment of p-values|ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.92|-1.36|<0.0001
92181145|NCT02307682|184260724|OTHER||Difference in proportions|-14.2|||||TWO_SIDED|95.0|-21.3|-7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||-7.3|-21.3|
92260985|NCT00256204|184424016|SUPERIORITY_OR_OTHER|||||||0.6028||95.0||||The analysis was performed on separate datasets and not on the combined dataset as was pre-specified to account for unexpected interactions of dose level by baseline UPDRS and of dose level by center|Repeated Measures|||Hypothesis #2:Superiority of Early over Delayed Start at Week 72 In this analysis, observations of subjects entering the active phase with at least 24 weeks of treatment during the PC Phase and at least one available Total UPDRS measurement during the active-treatment phase from weeks 48, 54, 60, 66 or 72, are analyzed (ACTE data analysis set.)||||0.6028
92260986|NCT00256204|184424016|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inf Test for difference in slopes between treatment groups. One sided 95% CI calculated for difference between slopes of the 1mg early-start group and the 1mg delayed-start group. The inferiority null hypothesis of the early-start group slope over delayed-start group slope is rejected, if the upper limit of one sided 95% CI for difference in slopes does not cross non-inferiority margin of 0.15 UPDRS points per week.|Slope|0.0||||||90.0|-0.036|0.036||||||"Hypothesis #3: Slopes Non-Inferiority of Early Start over Delayed Start in the Active Phase.~Where slope is the model estimate of the change from baseline in total UPDRS per week. In this analysis, observations of all subjects entering the active phase with at least 24 weeks of treatment during the PC Phase and at least one available Total UPDRS measurement during the active treatment phase from weeks 48, 54, 60, 66 or 72, are analyzed (ACTE data analysis set)."||0.036|-0.036|
92260987|NCT00256204|184424016|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inf Test for difference in slopes between treatment groups. One sided 95% CI calculated for difference between slopes of the 2mg early-start group and the 2mg delayed-start group. The inferiority null hypothesis of the early-start group slope over delayed-start group slope is rejected, if the upper limit of one sided 95% CI for difference in slopes does not cross non-inferiority margin of 0.15 UPDRS points per week.|Slope|0.029||||||90.0|-0.005|0.062||||||"Hypothesis #3: Slopes Non-Inferiority of Early Start over Delayed Start in the Active Phase.~Where slope is the model estimate of the change from baseline in total UPDRS per week. In this analysis, observations of all subjects entering the active phase with at least 24 weeks of treatment during the PC Phase and at least one available Total UPDRS measurement during the active treatment phase from weeks 48, 54, 60, 66 or 72, are analyzed (ACTE data analysis set)."||0.062|-0.005|
92260988|NCT00256204|184424017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.005|||<|0.0001||95.0|-3.857|-2.153|||ANCOVA|||The adjusted means of the changes in Total UPDRS from baseline to LOV in the placebo-controlled phase, observed in the 1 mg and 2 mg rasagiline early-start groups are compared (two contrasts) to the combined placebo group (1 mg and 2 mg rasagiline delayed-start groups), by applying an Analysis of Covariance model. The model includes treatment group, center and baseline Total UPDRS as covariates. For this analysis, both delayed start arms are pooled as a 'placebo arm'||-2.153|-3.857|<0.0001
92260989|NCT00256204|184424017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.154|||<|0.0001||95.0|-4.004|-2.305|||ANCOVA|||"The adjusted means of the changes in Total UPDRS from baseline to LOV in the placebo-controlled phase, observed in the 1 mg and 2 mg rasagiline early-start groups are compared (two contrasts) to the combined placebo group (1 mg and 2 mg rasagiline delayed-start groups), by applying an Analysis of Covariance model. The model includes treatment group, center and baseline Total UPDRS as covariates.~For this analysis, both delayed start arms are pooled as a 'placebo arm'"||-2.305|-4.004|<0.0001
92260990|NCT02074436|184424022|OTHER|||||||0.5|TWO_SIDED|0.001|||||Fisher Exact|||The results are from the first and only interim analysis focusing on the primary endpoint: proportion of patient with major bleeding (Grade 3 and 4) during the study. The interim analysis was performed after 11 patients in each arm were randomized and results were obtained. One-sided fisher's exact test was employed in the analysis. The null hypothesis is the probability of occurring major bleeding is the same for Arm A and Arm B||||0.5
92260991|NCT03490734|184424027|SUPERIORITY|||||||0.52||||||Corrected for multiple comparisons by using the threshold free cluster enhancement, nonparametric thresholding algorithm in FMRIB Software Library (FSL), resulting in a family-wise error rate (FWE) corrected significance threshold of p-FWE\<0.05|ANCOVA|||Whole-brain analyses were used. No clusters of significant activation were detected.||||0.52
92181146|NCT02307682|184260724|OTHER||Difference in proportions|-8.4|||||TWO_SIDED|95.0|-14.6|-2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-2.2|-14.6|
92181147|NCT02307682|184260724|OTHER||Difference in proportions|-15.0|||||TWO_SIDED|95.0|-20.9|-9.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-9.5|-20.9|
92181148|NCT02307682|184260724|OTHER||Difference in proportions|-8.1|||||TWO_SIDED|95.0|-13.8|-2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-2.4|-13.8|
92181149|NCT02307682|184260724|OTHER||Difference in proportions|-14.0|||||TWO_SIDED|95.0|-18.9|-8.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-8.7|-18.9|
92181150|NCT02307682|184260724|OTHER||Difference in proportions|-10.4|||||TWO_SIDED|95.0|-16.8|-3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-3.7|-16.8|
92260992|NCT03490734|184424028|SUPERIORITY|||||||0.016||||||Corrected for multiple comparisons by using the threshold free cluster enhancement (TFCE), nonparametric thresholding algorithm in FSL, resulting in a family-wise error rate corrected significance threshold of p-FWE \< 0.05|ANCOVA|||||||0.016
92260993|NCT00792922|184424045|SUPERIORITY|Predicted prevalence was estimated in each community using the baseline observed prevalence, treatment arm \& parameters estimated from square root transformed model.For each arm estimated prevalences were averaged.Difference in adjusted mean prevalence for enhanced arm and standard arm was calculated.For confidence intervals for adjusted difference,steps 1 to 4 for 1000 bootstrap samples were repeated.Median of adjusted mean differences, corresponding 2.5 % \& 97.5 % percentiles were reported.|Mean Difference (Final Values)|1.4||||0.22|TWO_SIDED|95.0|-1.0|3.8|||Regression, Linear|||"This is analysis done in Tanzania:~Only the main effect of coverage was analyzed.We hypothesized that increasing the coverage of MDA to greater than 90 % as monitored in children would result in more rapid decline in infection and trachoma compared to usual coverage.Here we are looking at the prevalence of infection."||3.8|-1|0.22
92260994|NCT00792922|184424045|SUPERIORITY|For each community using the baseline observed prevalence, treatment arm and parameters estimated from square root transformed model we estimated predicted prevalence.For each arm we average estimated prevalences.The difference in the adjusted mean prevalence for enhanced arm and standard arm was then calculated.In order to derive the confidence intervals for the adjusted difference, we repeated Steps 1 to 4 for 1000 bootstrap samples.The median of the adjusted mean differences were reported.|Mean Difference (Final Values)|2.6||||0.73|TWO_SIDED|95.0|-0.3|5.3|||Ordinary least squares linear regression|||"This is the analysis done in Tanzania:~Only the main effect of coverage was analyzed.We hypothesized that increasing the coverage of MDA to greater than 90 % as monitored in children would result in more rapid decline in infection and trachoma compared to usual coverage.~Here we are looking at the prevalence of trachoma"||5.3|-0.3|0.73
92265543|NCT00798161|184432795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.56|-0.26|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.26|-0.56|<0.0001
92181151|NCT02307682|184260724|OTHER||Difference in proportions|-19.7|||||TWO_SIDED|95.0|-25.8|-13.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-13.4|-25.8|
92181152|NCT02307682|184260724|OTHER||Difference in proportions|4.1|||||TWO_SIDED|95.0|-2.0|9.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||9.9|-2.0|
92181153|NCT02307682|184260724|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-4.3|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||7.9|-4.3|
92181154|NCT02307682|184260724|OTHER||Difference in proportions|-12.7|||||TWO_SIDED|95.0|-19.1|-6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-6.0|-19.1|
92181155|NCT02307682|184260724|OTHER||Difference in proportions|-23.4|||||TWO_SIDED|95.0|-29.7|-17.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-17.6|-29.7|
92181156|NCT02307682|184260724|OTHER||Difference in proportions|-2.8|||||TWO_SIDED|95.0|-8.7|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||3.4|-8.7|
92265544|NCT00798161|184432795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.53|-0.23|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.23|-0.53|<0.0001
92265545|NCT00798161|184432795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.65|-0.35|||ANCOVA|||Linagliptin 5mg vs Linagliptin 2.5mg with metformin 500mg||-0.35|-0.65|<0.0001
92265546|NCT00798161|184432795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.79|-0.48|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.48|-0.79|<0.0001
92260995|NCT00792922|184424045|SUPERIORITY||Median Difference (Final Values)|-4.6||||0.2|TWO_SIDED|95.0|-11.1|1.9|||Regression, Linear|||"This is the statistical analysis for Niger:~We hypothesized that increasing the coverage of MDA to greater than 90 % as monitored in children would result in more rapid decline in infection and trachoma compared to usual coverage.Here we are looking at the prevalence of infection."||1.9|-11.1|0.20
92260996|NCT00792922|184424045|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.6|TWO_SIDED|95.0|-7.7|12.5|||Regression, Linear|||"This is the statistical analysis for Niger:~We hypothesized that increasing the coverage of MDA to greater than 90 % as monitored in children would result in more rapid decline in infection and trachoma compared to usual coverage.Here we are looking at the prevalence of trachoma."||12.5|-7.7|0.60
92260997|NCT04111185|184424079|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92260998|NCT02417935|184424108|NON_INFERIORITY|If the upper bound of the 95% CI does not exceed 0.51 (pre-defined non-inferiority margin), it will be concluded that duloxetine is not inferior to Pregabalin.|Mean Difference (Final Values)|0.072||||0.7|TWO_SIDED|95.0|-0.295|0.439|||Mixed Models Analysis|||||0.439|-0.295|0.700
92260999|NCT02417935|184424109|OTHER||Mean Difference (Final Values)|-0.2||||0.149|TWO_SIDED|95.0|-0.4|0.1|||Mixed Models Analysis|||||0.1|-0.4|0.149
92261000|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|0.1||||0.535|TWO_SIDED|95.0|-0.3|0.6|||Mixed Models Analysis|||Worst Pain||0.6|-0.3|.535
92261001|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|-0.1||||0.436|TWO_SIDED|95.0|-0.5|0.2|||Mixed Models Analysis|||Least Pain||0.2|-0.5|.436
92261002|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|0.1||||0.534|TWO_SIDED|95.0|-0.2|0.5|||Mixed Models Analysis|||Average Pain||0.5|-0.2|.534
92261003|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|0.0||||0.948|TWO_SIDED|95.0|-0.4|0.4|||Mixed Models Analysis|||Pain Right Now||0.4|-0.4|.948
92261004|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|-0.2||||0.225|TWO_SIDED|95.0|-0.6|0.1|||Mixed Models Analysis|||General Activity||0.1|-0.6|.225
92261005|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|-0.2||||0.276|TWO_SIDED|95.0|-0.6|0.2|||Mixed Models Analysis|||Mood||0.2|-0.6|.276
92261006|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|-0.1||||0.507|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|||Walking Ability||0.2|-0.4|.507
92261007|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|-0.2||||0.216|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||Normal Work||0.1|-0.5|.216
92261008|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|-0.2||||0.233|TWO_SIDED|95.0|-0.4|0.1|||Mixed Models Analysis|||Relations with other people||0.1|-0.4|.233
92261009|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|0.0||||0.857|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||Sleep||0.3|-0.3|.857
92261010|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|-0.2||||0.133|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||Enjoyment of life||0.1|-0.5|.133
92261011|NCT02417935|184424110|OTHER||Mean Difference (Final Values)|-0.16||||0.246|TWO_SIDED|95.0|-0.44|0.11|||Mixed Models Analysis|||Average Interference Score||0.11|-0.44|.246
92261012|NCT02417935|184424111|OTHER||Mean Difference (Final Values)|-0.7||||0.627|TWO_SIDED|95.0|-3.6|2.2|||ANCOVA|||Total Score||2.2|-3.6|.627
92261013|NCT02417935|184424111|OTHER||Mean Difference (Final Values)|-0.2||||0.355|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Burning Pain||0.2|-0.6|.355
92261014|NCT02417935|184424111|OTHER||Mean Difference (Final Values)|0.1||||0.731|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Pressing Pain||0.4|-0.3|.731
92261015|NCT02417935|184424111|OTHER||Mean Difference (Final Values)|0.1||||0.721|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Paroxysmal Pain||0.4|-0.3|.721
92261016|NCT02417935|184424111|OTHER||Mean Difference (Final Values)|-0.2||||0.345|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Evoked Pain||0.2|-0.5|.345
92261017|NCT02417935|184424111|OTHER||Mean Difference (Final Values)|-0.1||||0.557|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Paresthesia/Dysesthesia||0.3|-0.5|.557
92261018|NCT02417935|184424112|OTHER||Mean Difference (Final Values)|-0.2||||0.106|TWO_SIDED|95.0|-0.4|0.0|||Mixed Models Analysis|||||0.0|-0.4|.106
92261019|NCT02417935|184424113|OTHER||Mean Difference (Final Values)|0.014||||0.361|TWO_SIDED|95.0|-0.0161|0.0441|||ANCOVA|||||0.0441|-0.0161|.361
92261020|NCT02417935|184424114|OTHER||Mean Difference (Final Values)|0.2||||0.701|TWO_SIDED|95.0|-0.8|1.1|||Mixed Models Analysis|||||1.1|-0.8|.701
92261021|NCT02417935|184424115|OTHER||Mean Difference (Final Values)|0.005||||0.976|TWO_SIDED|95.0|-0.355|0.366|||Mixed Models Analysis|||||0.366|-0.355|.976
92261022|NCT02417935|184424116|OTHER||Mean Difference (Final Values)|0.136||||0.503|TWO_SIDED|95.0|-0.264|0.537|||Mixed Models Analysis|||||0.537|-0.264|.503
92261023|NCT02417935|184424117|OTHER|||||||0.632||||||30% reduction|Fisher Exact|||||||.632
92261024|NCT02417935|184424117|OTHER|||||||0.907|||||||Fisher Exact|||50% Reduction||||.907
92261025|NCT04524663|184424171|SUPERIORITY||Median Difference (Net)|0.59||||0.89|TWO_SIDED|95.0|-8.14|9.32|||Regression, Linear|||||9.32|-8.14|0.89
92261026|NCT04524663|184424172|SUPERIORITY||Median Difference (Net)|18.9||||0.02|TWO_SIDED|95.0|2.98|34.83|||Regression, Linear|||||34.83|2.98|0.02
92261027|NCT04524663|184424173|SUPERIORITY||Hazard Ratio (HR)|1.69||||0.24|TWO_SIDED|95.0|0.7|4.1|||Cox proportional hazards model|||||4.10|0.70|0.24
92261028|NCT04524663|184424174|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
92261029|NCT04524663|184424175|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.24|TWO_SIDED|95.0|0.32|1.33|||Cox proportional hazards model|||||1.33|0.32|0.24
92261030|NCT00911508|184424178|SUPERIORITY||Cox Proportional Hazard|0.86|||||TWO_SIDED|95.0|0.65|1.15||||||||1.15|0.65|
92261031|NCT00911508|184424179|SUPERIORITY||Cox Proportional Hazard|0.85|||||TWO_SIDED|95.0|0.6|1.21||||||||1.21|0.60|
92261032|NCT00911508|184424180|SUPERIORITY||Cox Proportional Hazard|0.83|||||TWO_SIDED|95.0|0.74|0.93||||||||0.93|0.74|
92261033|NCT00911508|184424181|SUPERIORITY||Cox Proportional Hazard|0.88|||||TWO_SIDED|95.0|0.72|1.09||||||||1.09|0.72|
92261034|NCT00911508|184424182|SUPERIORITY||Cox Proportional Hazard|0.94|||||TWO_SIDED|95.0|0.53|1.68||||||||1.68|0.53|
92261035|NCT00911508|184424183|SUPERIORITY||Cox Proportional Hazard|0.87|||||TWO_SIDED|95.0|0.51|1.51||||||||1.51|0.51|
92261036|NCT00911508|184424184|SUPERIORITY||Cox Proportional Hazard|0.76|||||TWO_SIDED|95.0|0.33|1.72||||||||1.72|0.33|
92261037|NCT00911508|184424185|SUPERIORITY||Cox Proportional Hazard|1.13|||||TWO_SIDED|95.0|0.41|3.09||||||||3.09|0.41|
92261038|NCT00911508|184424186|SUPERIORITY||Cox Proportional Hazard|0.52|||||TWO_SIDED|95.0|0.45|0.6||||||||0.60|0.45|
92261039|NCT00911508|184424187|SUPERIORITY||Cox Proportional Hazard|0.86|||||TWO_SIDED|95.0|0.77|0.97||||||||0.97|0.77|
92261040|NCT00911508|184424188|SUPERIORITY||Mean Difference (Net)|5.3|||<|0.001|TWO_SIDED|95.0|3.7|6.9|||Mixed Models Analysis|||12 Month||6.9|3.7|<0.001
92261041|NCT00911508|184424188|SUPERIORITY||Mean Difference (Net)|3.4|||<|0.001|TWO_SIDED|95.0|2.1|4.8|||Mixed Models Analysis|||5 Years||4.8|2.1|<0.001
92261042|NCT00911508|184424189|SUPERIORITY||Mean Difference (Net)|-1.7||||0.001|TWO_SIDED|95.0|-2.3|-1.2|||Mixed Models Analysis|||12 Month||-1.2|-2.3|0.001
92261043|NCT00911508|184424189|SUPERIORITY||Mean Difference (Net)|-1.4||||0.001|TWO_SIDED|95.0|-1.9|-0.9|||Mixed Models Analysis|||5 Year||-0.9|-1.9|0.001
92261044|NCT00911508|184424190|SUPERIORITY||Mean Difference (Net)|-1.5|||<|0.001|TWO_SIDED|95.0|-2.0|-1.1|||Mixed Models Analysis|||12 Month||-1.1|-2.0|<0.001
92261045|NCT00911508|184424190|SUPERIORITY||Mean Difference (Net)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.7|-0.4|||Mixed Models Analysis|||5 Year||-0.4|-1.7|<0.001
92261046|NCT04308668|184424192|SUPERIORITY||Mean Difference (Net)|-2.4||||0.35|TWO_SIDED|95.0|-7.0|2.2|||Fisher Exact||Values represent percentages. Experimental treatment arm compared with the placebo control arm.|||2.2|-7.0|0.35
92261047|NCT04308668|184424193|SUPERIORITY||Mean Difference (Net)|-0.27||||0.117|TWO_SIDED|95.0|-0.61|0.27|||Mixed Models Analysis|||||0.27|-0.61|0.117
92261048|NCT01266967|184424201|SUPERIORITY_OR_OTHER||percentage of participants|41.0|||<|0.0001|TWO_SIDED|95.0|29.3|52.6|||Exact Test||The estimated value represents the percentage of participants with OIR.|||52.6|29.3|<0.0001
92261049|NCT01266967|184424201|SUPERIORITY_OR_OTHER||percentage of participants|37.0|||<|0.0001|TWO_SIDED|95.0|25.3|49.8|||Exact Test||The estimated value represents the percentage of participants with OIR.|||49.8|25.3|<0.0001
92261050|NCT01519700|184424223|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limit: -1 day Power: 90% Confidence level: 97.5% Randomization ratio: 1:1 (EP2006:Neupogen)|Mean Difference (Net)|0.04|||||ONE_SIDED|97.5|-0.26||||||The one-sided 97.5% Confidence Interval: \[-0.26, ∞).||||-0.26|
92261051|NCT05111548|184424230|SUPERIORITY|||||||0.923|||||||ANOVA|||Mixed ANOVA (within-subjects factor=time; between-subjects factor=group)||||0.923
92261052|NCT05111548|184424231|SUPERIORITY|||||||0.11|||||||ANOVA|||Mixed ANOVA (within-subjects factor=time; between-subjects factor=group)||||0.110
92261053|NCT05111548|184424232|SUPERIORITY|||||||0.818|||||||ANOVA|||Mixed ANOVA (within-subjects factor=time; between-subjects factor=group)||||0.818
92261054|NCT05111548|184424233|SUPERIORITY|||||||0.13|||||||ANOVA|||Mixed ANOVA (within-subjects factor=time; between-subjects factor=group)||||0.130
92261055|NCT03938857|184424243|OTHER||Slope|-0.1088295|STANDARD_ERROR_OF_MEAN|0.4728041||0.814|TWO_SIDED|95.0|-1.035508|0.8178494|||Mixed Models Analysis||Estimated value represents interaction between treatment and days.|Placebo group compared to combined Dexmedetomidine groups.||0.8178494|-1.035508|0.814
92261056|NCT01729559|184424271|NON_INFERIORITY_OR_EQUIVALENCE|A 10% noninferiority margin was selected based on a previous trial showing a difference in the incidence of DVT of 13% with the use of 30 mg of enoxaparin every 12 hours compared to 5,000 U of unfractionated heparin (UFH) every 12 hr. To achieve 90% power using an a priori margin of 10% with a one-sided alpha of 0.025, a total of 182 patients (91 in each arm) was required.|Risk Difference (RD)|6.5||||0.025|TWO_SIDED|95.0|-2.9|15.8||One-tailed test of the cumulative VTE incidence between treatment groups.|Chi-squared, Corrected||Unadjusted cumulative incidence values between the two treatment groups were subtracted to calculate the risk difference for VTE between groups. This difference was compared to the a priori 10% margin of difference using the 95% confidence interval.|Analysis was performed in a subset of patients who received at least one follow-up venous duplex ultrasound of the lower extremities.||15.8|-2.9|0.025
92261057|NCT01729559|184424271|NON_INFERIORITY_OR_EQUIVALENCE|A 10% noninferiority margin was selected based on these data showing a difference in the incidence of DVT of 13% with the use of 30 mg of enoxaparin every 12 hours compared to 5,000 U of UFH every 12 hours. To achieve 90% power using an a priori margin of 10% with a one-sided alpha of 0.025, a total of 182 patients (91 in each arm) was required. This analysis was performed in the entire sample.|Risk Difference (RD)|3.1||||0.025|TWO_SIDED|95.0|-1.6|7.7||One-tailed test of the cumulative VTE incidence between treatment groups.|Chi-squared, Corrected||Unadjusted cumulative incidence values between the two treatment groups were subtracted to calculate the risk difference for VTE between groups. This difference was compared to the a priori 10% margin of difference using the 95% confidence interval.|"Analysis was performed in the total sample of eligible patients and who received their assigned treatment (referred to as the randomized treated sample) ."||7.7|-1.6|0.025
92261058|NCT01453439|184424289|SUPERIORITY||Slope|-0.4602|STANDARD_ERROR_OF_MEAN|0.1249|<|0.01|TWO_SIDED|||||Degrees of freedom=90.9|Mixed Models Analysis|Effect of interest: time by group interaction|The estimated value describes the mean slope difference of CBT compared to SPT.|"We compared the difference in the rate of change in BDD symptom severity over time (during treatment phase) between the randomized treatment groups (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in BDD symptom severity in the CBT group will not be significantly different from the SPT group \[to be tested\]."||||<.01
92265547|NCT00798161|184432796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.72|-0.31|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.31|-0.72|<0.0001
92261059|NCT01453439|184424289|SUPERIORITY||Slope|-0.00984|STANDARD_ERROR_OF_MEAN|0.1038||0.62|TWO_SIDED|||||Degrees of freedom=74.7|Mixed Models Analysis|The effect of interest was the time by group interaction.|The estimated value describes the mean slope difference of CBT compared to SPT during follow-up (week 24 to week 50).|"We compared the difference in the rate of change in BDD symptom severity over time (during the follow-up phase) between the randomized treatment groups (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in BDD symptom severity during follow-up will not differ significantly between CBT and SPT treatments \[to be tested\]."||||.62
92261060|NCT01453439|184424290|SUPERIORITY|||||||0.1||||||Degrees of freedom=93.2|Mixed Models Analysis|||"We compared the change in Patient Insight over time (During Treatment phase) by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of improvement in insight in the CBT group will not be significantly different from the SPT group \[to be tested\]."||||.10
92261061|NCT01453439|184424290|SUPERIORITY|||||||0.45||||||Degrees of freedom=74.5|Mixed Models Analysis|||"We compared the change in Patient Insight over time (during the follow-up phase), by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of improvement in insight in the CBT group will not be significantly different from the SPT group during follow-up \[to be tested\]."||||.45
92261062|NCT01453439|184424291|SUPERIORITY|||||||0.05||||||Degrees of freedom=89.1|Mixed Models Analysis|||"We compared the change in depressive symptoms over time (During Treatment phase) by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of improvement in depressive symptoms in the CBT group will not be significantly different from the SPT group \[to be tested\]."||||.05
92261063|NCT01453439|184424291|SUPERIORITY|||||||0.26||||||Degrees of freedom=63.7|Mixed Models Analysis|||"We compared the change in depressive symptoms over time (during the follow-up phase), by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in depressive symptoms in the CBT group will not be significantly different from the SPT group during follow-up \[to be tested\]."||||.26
92261064|NCT01453439|184424292|SUPERIORITY|||||||0.04||||||Degrees of freedom=91.4|Mixed Models Analysis|||"We compared the change in Quality of life satisfaction over time (During treatment phase) by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in Quality of life satisfaction severity in the CBT group will not be significantly different from the SPT group \[to be tested\]."||||.04
92261065|NCT01453439|184424292|SUPERIORITY|||||||0.82||||||Degrees of freedom=74.7|Mixed Models Analysis|||"We compared the change in the quality of life satisfaction over time (during the follow-up phase), by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in the quality of life satisfaction in the CBT group will not be significantly different from the SPT group during follow-up \[to be tested\]."||||.82
92261066|NCT01453439|184424293|SUPERIORITY||Mean Difference (Net)|0.7937|STANDARD_ERROR_OF_MEAN|0.3007||0.0095|TWO_SIDED|||||Effect of interest: Treatment main effect, two-sided alpha = 0.05 effect adjusted for site effects, time effects, and interactions|ANOVA|repeated measures 3-way ANOVA (treatment type, site, time (repeated)) Effect of interest: main effect of treatment: F(num df=1, den df=112) = 5.17|Least Squares Means difference|Null hypothesis: There is no significant different in the perceived credibility of CBT and SPT.||||0.0095
92261067|NCT01453439|184424297|SUPERIORITY|||||||0.3||||||Degrees of freedom=88.0|Mixed Models Analysis|||"We compared the change in social functioning over time (During Treatment phase) by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts, and slopes as random effects per person.~Null hypothesis: The rate of improvement in social functioning in the CBT group will not be significantly different from the SPT group \[to be tested\]."||||.30
92265548|NCT00798161|184432796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.63|-0.22|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.22|-0.63|<0.0001
92181157|NCT02307682|184260724|OTHER||Difference in proportions|-5.1|||||TWO_SIDED|95.0|-11.2|0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||0.4|-11.2|
92181158|NCT02307682|184260724|OTHER||Difference in proportions|-7.7|||||TWO_SIDED|95.0|-14.3|-1.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-1.0|-14.3|
92181159|NCT02307682|184260724|OTHER||Difference in proportions|-12.4|||||TWO_SIDED|95.0|-19.3|-6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-6.2|-19.3|
92181160|NCT02307682|184260724|OTHER||Difference in proportions|-7.8|||||TWO_SIDED|95.0|-13.2|-2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-2.2|-13.2|
92181161|NCT02307682|184260724|OTHER||Difference in proportions|-10.3|||||TWO_SIDED|95.0|-15.9|-4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-4.9|-15.9|
92181162|NCT02307682|184260724|OTHER||Difference in proportions|-5.6|||||TWO_SIDED|95.0|-11.5|0.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||0.9|-11.5|
92261068|NCT01453439|184424297|SUPERIORITY|||||||0.85||||||Degrees of freedom=74.5|Mixed Models Analysis|||"We compared the change in social functioning over time (during the follow-up phase), by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of improvement in social functioning CBT group will not be significantly different from the SPT group during follow-up \[to be tested\]."||||.85
92284904|NCT00840866|184474347|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.8||||||90.0|98.5|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101|98.5|
92284905|NCT04638153|184474353|OTHER||least square mean difference|0.2|||||TWO_SIDED|95.0|-0.2|0.6|||||Month 3|Results based on Mixed-Effect Repeated Measures (MMRM) analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.6|-0.2|
92181163|NCT02307682|184260724|OTHER||Difference in proportions|-11.4|||||TWO_SIDED|95.0|-17.7|-5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-5.6|-17.7|
92181164|NCT02307682|184260724|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-5.1|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||6.7|-5.1|
92265549|NCT00798161|184432796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.92|-0.51|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.51|-0.92|<0.0001
92181165|NCT02307682|184260724|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-8.7|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||2.4|-8.7|
92181166|NCT02307682|184260724|OTHER||Difference in proportions|-11.6|||||TWO_SIDED|95.0|-17.8|-5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-5.5|-17.8|
92181167|NCT02307682|184260724|OTHER||Difference in proportions|-15.6|||||TWO_SIDED|95.0|-21.2|-9.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-9.7|-21.2|
92181168|NCT02307682|184260724|OTHER||Difference in proportions|-2.6|||||TWO_SIDED|95.0|-8.0|3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||3.0|-8.0|
92265550|NCT00798161|184432796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-1.16|-0.75|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.75|-1.16|<0.0001
92265551|NCT00798161|184432797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.73|-0.29|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.29|-0.73|<0.0001
92265552|NCT00798161|184432797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.69|-0.26|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.26|-0.69|<0.0001
92265553|NCT00798161|184432797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.94|-0.49|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.49|-0.94|<0.0001
92261069|NCT01453439|184424298|SUPERIORITY||Mean Difference (Net)|1.5867|STANDARD_ERROR_OF_MEAN|0.6882||0.0235|TWO_SIDED|||||a priori significance level: 2-sided alpha = 0.05 effect adjusted for site effects, time effects, and interactions|ANOVA|repeated measures 3-way ANOVA (treatment type, site, time (repeated)) Effect of interest: main effect of treatment - F(num def=1,den df=79.9) = 15.55|Least Squares Means difference|Null hypothesis: There is no significant difference in treatment satisfaction between patients with BDD assigned to CBT vs. SPT.||||0.0235
92261070|NCT01453439|184424299|SUPERIORITY||Median Difference (Net)|9.439|STANDARD_ERROR_OF_MEAN|3.4259||0.0069|TWO_SIDED|||||a priori significance level: 2-sided alpha=0.05 effect adjusted for site effects, time effects, and interactions|ANOVA|repeated measures 3-way ANOVA (treatment group, site, time (repeated)) effect of interest: main effect of treatment: F(num df=1, den df=110) = 7.59|Least Squares Mean difference|Null hypotheses: There is no significant difference in patient expectancy of improvement between BDD patients assigned to CBT vs. SPT.||||0.0069
92261071|NCT01014442|184424300|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|1.305||||0.2649|TWO_SIDED|95.0|-0.83|4.25|||Wilcoxon rank sum test|||Cmax of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||4.2500|-0.8300|0.2649
92261072|NCT01014442|184424300|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|11.405||||0.3113|TWO_SIDED|95.0|-10.2|42.78|||Wilcoxon rank sum test|||Cmax of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||42.7800|-10.2000|0.3113
92261073|NCT01014442|184424300|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.305||||0.2953|TWO_SIDED|95.0|-0.81|0.19|||Wilcoxon rank sum test|||Cmax of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1900|-0.8100|0.2953
92261074|NCT01014442|184424301|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-1.29||||0.1308|TWO_SIDED|95.0|-2.99|0.41|||Wilcoxon rank sum test|||Cmax of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.4100|-2.9900|0.1308
92261075|NCT01014442|184424301|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-10.845||||0.4886|TWO_SIDED|95.0|-31.5|20.79|||Wilcoxon rank sum test|||Cmax of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||20.7900|-31.5000|0.4886
92261076|NCT01014442|184424301|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.2||||0.2218|TWO_SIDED|95.0|-0.6|0.19|||Wilcoxon rank sum test|||Cmax of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1900|-0.6000|0.2218
92261077|NCT01014442|184424302|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-1.87||||0.0886|TWO_SIDED|95.0|-3.79|0.28|||Wilcoxon rank sum test|||Cmax of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2800|-3.7900|0.0886
92261078|NCT01014442|184424302|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-30.76||||0.022|TWO_SIDED|95.0|-54.97|-6.36|||Wilcoxon rank sum test|||Cmax of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-6.3600|-54.9700|0.0220
92261079|NCT01014442|184424302|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.56||||0.0008|TWO_SIDED|95.0|-1.02|-0.27|||Wilcoxon rank sum test|||Cmax of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.2700|-1.0200|0.0008
92261080|NCT01014442|184424303|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|3.945||||0.0318|TWO_SIDED|95.0|0.25|8.23|||Wilcoxon rank sum test|||Cmax of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||8.2300|0.2500|0.0318
92261081|NCT01014442|184424303|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-7.59||||0.7144|TWO_SIDED|95.0|-51.19|30.7|||Wilcoxon rank sum test|||Cmax of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||30.7000|-51.1900|0.7144
92261082|NCT01014442|184424303|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.27||||0.393|TWO_SIDED|95.0|-0.31|0.88|||Wilcoxon rank sum test|||Cmax of AcMPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.8800|-0.3100|0.3930
92261083|NCT01014442|184424304|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|17.08||||0.3002|TWO_SIDED|95.0|-16.5|74.32|||Wilcoxon rank sum test|||Cmax of Free MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||74.3200|-16.5000|0.3002
92261084|NCT01014442|184424305|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-25.24||||0.0334|TWO_SIDED|95.0|-53.25|-2.29|||Wilcoxon rank sum test|||Cmax of Free MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-2.2900|-53.2500|0.0334
92261085|NCT01014442|184424306|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-23.805||||0.1151|TWO_SIDED|95.0|-52.27|5.97|||Wilcoxon rank sum test|||Cmax of Free MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||5.9700|-52.2700|0.1151
92261086|NCT01014442|184424307|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-15.63||||0.5974|TWO_SIDED|95.0|-63.88|30.56|||Wilcoxon rank sum test|||Cmax of Free MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||30.5600|-63.8800|0.5974
92261087|NCT01014442|184424308|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0005||||0.5466|TWO_SIDED|95.0|-0.00103|0.00259|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00259|-0.00103|0.5466
92261088|NCT01014442|184424308|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.00728||||0.3223|TWO_SIDED|95.0|-0.00707|0.03161|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.03161|-0.00707|0.3223
92261089|NCT01014442|184424308|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00026||||0.2108|TWO_SIDED|95.0|-0.0007|0.00012|||Wilcoxon rank sum test|||Dose-Normalized Cmax of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00012|-0.00070|0.2108
92261090|NCT01014442|184424308|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0000112||||0.4334|TWO_SIDED|95.0|-0.000014|0.0000462|||Wilcoxon rank sum test|||Dose-Normalized Cmax of Free MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called a Hodges-Lehmann estimator.||0.0000462|-0.0000140|0.4334
92261091|NCT01014442|184424309|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00081||||0.1511|TWO_SIDED|95.0|-0.00216|0.0003|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00030|-0.00216|0.1511
92261092|NCT01014442|184424309|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00695||||0.4131|TWO_SIDED|95.0|-0.0205|0.01103|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.01103|-0.02050|0.4131
92181169|NCT02307682|184260724|OTHER||Difference in proportions|-8.6|||||TWO_SIDED|95.0|-13.7|-3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||-3.4|-13.7|
92181170|NCT02307682|184260724|OTHER||Difference in proportions|-6.9|||||TWO_SIDED|95.0|-12.6|-0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||-0.7|-12.6|
92181171|NCT02307682|184260724|OTHER||Difference in proportions|-9.6|||||TWO_SIDED|95.0|-16.0|-3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||-3.8|-16.0|
92261093|NCT01014442|184424309|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00017||||0.2677|TWO_SIDED|95.0|-0.00046|0.00013|||Wilcoxon rank sum test|||Dose-Normalized Cmax of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00013|-0.00046|0.2677
92261094|NCT01014442|184424309|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0000185||||0.0173|TWO_SIDED|95.0|-0.0000394|-0.000005|||Wilcoxon rank sum test|||Dose-Normalized Cmax of Free MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0000050|-0.0000394|0.0173
92261095|NCT01014442|184424310|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00063||||0.3784|TWO_SIDED|95.0|-0.0023|0.00084|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00084|-0.00230|0.3784
92261096|NCT01014442|184424310|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.01602||||0.0942|TWO_SIDED|95.0|-0.03229|0.00297|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00297|-0.03229|0.0942
92261097|NCT01014442|184424310|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00037||||0.0032|TWO_SIDED|95.0|-0.00062|-0.00015|||Wilcoxon rank sum test|||Dose-Normalized Cmax of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.00015|-0.00062|0.0032
92261098|NCT01014442|184424310|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0000126||||0.176|TWO_SIDED|95.0|-0.0000328|-0.0000091|||Wilcoxon rank sum test|||Dose-Normalized Cmax of Free MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0000091|-0.0000328|0.1760
92261099|NCT01014442|184424311|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0043||||0.0509|TWO_SIDED|95.0|-0.00027|0.00833|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00833|-0.00027|0.0509
92261100|NCT01014442|184424311|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00567||||0.8262|TWO_SIDED|95.0|-0.03414|0.02671|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.02671|-0.03414|0.8262
92261101|NCT01014442|184424311|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.00023||||0.4345|TWO_SIDED|95.0|-0.0003|0.0007|||Wilcoxon rank sum test|||Dose-Normalized Cmax of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00070|-0.00030|0.4345
92261102|NCT01014442|184424311|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00001||||0.6472|TWO_SIDED|95.0|-0.0000586|0.0000364|||Wilcoxon rank sum test|||Dose-Normalized Cmax of Free MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000364|-0.0000586|0.6472
92261103|NCT01014442|184424312|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0333||||0.5745|TWO_SIDED|95.0|-1.95|0.5|||Wilcoxon rank sum test|||Tmax of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.5000|-1.9500|0.5745
92261104|NCT01014442|184424312|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-1.8||||0.2003|TWO_SIDED|95.0|-2.3333|0.0833|||Wilcoxon rank sum test|||Tmax of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0833|-2.3333|0.2003
92261105|NCT01014442|184424312|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.5||||0.0929|TWO_SIDED|95.0|-2.0833|0.0|||Wilcoxon rank sum test|||Tmax of AcMPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000|-2.0833|0.0929
92261106|NCT01014442|184424312|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0||||0.0823|TWO_SIDED|95.0|0.0|0.0667|||Wilcoxon rank sum test|||Tmax of Free MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0667|0.0000|0.0823
92261107|NCT01014442|184424313|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0417||||0.8106|TWO_SIDED|95.0|-0.5|1.7333|||Wilcoxon rank sum test|||Tmax of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||1.7333|-0.5000|0.8106
92261108|NCT01014442|184424313|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0||||1|TWO_SIDED|95.0|-0.1667|0.1667|||Wilcoxon rank sum test|||Tmax of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1667|-0.1667|1.0000
92181172|NCT02307682|184260724|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-9.9|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||0.7|-9.9|
92261109|NCT01014442|184424313|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0667||||0.6311|TWO_SIDED|95.0|-0.3333|1.4667|||Wilcoxon rank sum test|||Tmax of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||1.4667|-0.3333|0.6311
92261110|NCT01014442|184424313|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0||||0.433|TWO_SIDED|95.0|-0.1667|0.0167|||Wilcoxon rank sum test|||Tmax of Free MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0167|-0.1667|0.4330
92261111|NCT01014442|184424314|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0||||1|TWO_SIDED|95.0|-1.1667|0.5833|||Wilcoxon rank sum test|||Tmax of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.5833|-1.1667|1.0000
92261112|NCT01014442|184424314|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0833||||0.4947|TWO_SIDED|95.0|-2.0|0.0833|||Wilcoxon rank sum test|||Tmax of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0833|-2.0000|0.4947
92261113|NCT01014442|184424314|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.1667||||0.4425|TWO_SIDED|95.0|-1.9667|0.2|||Wilcoxon rank sum test|||Tmax of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2000|-1.9667|0.4425
92261114|NCT01014442|184424314|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0||||0.972|TWO_SIDED|95.0|-0.05|0.0333|||Wilcoxon rank sum test|||Tmax of Free MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0333|-0.0500|0.9720
92261115|NCT01014442|184424315|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0333||||0.8834|TWO_SIDED|95.0|-1.1667|0.7|||Wilcoxon rank sum test|||Tmax of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.7000|-1.1667|0.8834
92261116|NCT01014442|184424315|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-1.8333||||0.0386|TWO_SIDED|95.0|-2.2|0.0|||Wilcoxon rank sum test|||Tmax of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000|-2.2000|0.0386
92261117|NCT01014442|184424315|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.525||||0.0558|TWO_SIDED|95.0|-2.6167|0.0|||Wilcoxon rank sum test|||Tmax of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000|-2.6167|0.0558
92261118|NCT01014442|184424315|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.15||||0.0082|TWO_SIDED|95.0|-0.2333|-0.0667|||Wilcoxon rank sum test|||Tmax of Free MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0667|-0.2333|0.0082
92261119|NCT01014442|184424316|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.13||||0.5224|TWO_SIDED|95.0|-0.26|0.5|||Wilcoxon rank sum test|||Cmin of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.5000|-0.2600|0.5224
92261120|NCT01014442|184424316|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|11.16||||0.2088|TWO_SIDED|95.0|-5.29|30.29|||Wilcoxon rank sum test|||Cmin of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||30.2900|-5.2900|0.2088
92181173|NCT02307682|184260724|OTHER||Difference in proportions|-8.5|||||TWO_SIDED|95.0|-13.9|-3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||-3.4|-13.9|
92181174|NCT02307682|184260724|OTHER||Difference in proportions|-7.4|||||TWO_SIDED|95.0|-13.1|-1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-1.2|-13.1|
92181175|NCT02307682|184260724|OTHER||Difference in proportions|-12.0|||||TWO_SIDED|95.0|-17.8|-6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-6.0|-17.8|
92181176|NCT02307682|184260724|OTHER||Difference in proportions|2.7|||||TWO_SIDED|95.0|-2.5|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||8.4|-2.5|
92181177|NCT02307682|184260724|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-6.7|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||3.7|-6.7|
92181178|NCT02307682|184260724|OTHER||Difference in proportions|-7.5|||||TWO_SIDED|95.0|-12.8|-1.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-1.6|-12.8|
92181179|NCT02307682|184260724|OTHER||Difference in proportions|-12.5|||||TWO_SIDED|95.0|-18.2|-7.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-7.0|-18.2|
92181180|NCT02307682|184260724|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-7.0|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.5|-7.0|
92261121|NCT01014442|184424316|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.165||||0.1794|TWO_SIDED|95.0|-0.45|0.08|||Wilcoxon rank sum test|||Cmin of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0800|-0.4500|0.1794
92181181|NCT02307682|184260724|OTHER||Difference in proportions|-5.9|||||TWO_SIDED|95.0|-11.4|-0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||-0.7|-11.4|
92261122|NCT01014442|184424317|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.125||||0.4027|TWO_SIDED|95.0|-0.38|0.19|||Wilcoxon rank sum test|||Cmin of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1900|-0.3800|0.4027
92181182|NCT02307682|184260724|OTHER||Difference in proportions|-6.1|||||TWO_SIDED|95.0|-11.8|-0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-0.1|-11.8|
92181183|NCT02307682|184260724|OTHER||Difference in proportions|-11.7|||||TWO_SIDED|95.0|-17.0|-6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-6.4|-17.0|
92181184|NCT02307682|184260724|OTHER||Difference in proportions|-5.1|||||TWO_SIDED|95.0|-10.1|0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||0.1|-10.1|
92181185|NCT02307682|184260724|OTHER||Difference in proportions|-5.1|||||TWO_SIDED|95.0|-10.0|0.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||-0.0|-10.0|
92181186|NCT02307682|184260724|OTHER||Difference in proportions|-5.7|||||TWO_SIDED|95.0|-11.7|0.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||0.5|-11.7|
92261123|NCT01014442|184424317|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-16.09||||0.0875|TWO_SIDED|95.0|-29.35|6.39|||Wilcoxon rank sum test|||Cmin of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||6.3900|-29.3500|0.0875
92261124|NCT01014442|184424317|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.2||||0.0112|TWO_SIDED|95.0|-0.35|-0.05|||Wilcoxon rank sum test|||Cmin of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0500|-0.3500|0.0112
92261125|NCT01014442|184424318|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.215||||0.0818|TWO_SIDED|95.0|-0.56|0.05|||Wilcoxon rank sum test|||Cmin of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0500|-0.5600|0.0818
92261126|NCT01014442|184424318|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-14.03||||0.0945|TWO_SIDED|95.0|-26.9|2.94|||Wilcoxon rank sum test|||Cmin of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||2.9400|-26.9000|0.0945
92261127|NCT01014442|184424318|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.19||||0.0081|TWO_SIDED|95.0|-0.41|-0.04|||Wilcoxon rank sum test|||Cmin of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0400|-0.4100|0.0081
92261128|NCT01014442|184424319|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.36||||0.3289|TWO_SIDED|95.0|-1.14|0.28|||Wilcoxon rank sum test|||Cmin of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2800|-1.1400|0.3289
92261129|NCT01014442|184424319|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-20.3||||0.1243|TWO_SIDED|95.0|-49.39|4.71|||Wilcoxon rank sum test|||Cmin of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||4.7100|-49.3900|0.1243
92261130|NCT01014442|184424319|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.03||||0.8704|TWO_SIDED|95.0|-0.28|0.23|||Wilcoxon rank sum test|||Cmin of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2300|-0.2800|0.8704
92261131|NCT01014442|184424320|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|5.22||||0.4043|TWO_SIDED|95.0|-5.01|24.49|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||24.4900|-5.0100|0.4043
92261132|NCT01014442|184424321|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.44||||0.893|TWO_SIDED|95.0|-6.07|8.01|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||8.0100|-6.0700|0.8930
92261133|NCT01014442|184424322|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-4.935||||0.0819|TWO_SIDED|95.0|-14.31|1.11|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||1.1100|-14.3100|0.0819
92261134|NCT01014442|184424323|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-8.205||||0.0414|TWO_SIDED|95.0|-19.27|-0.07|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0700|-19.2700|0.0414
92261135|NCT01014442|184424324|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|69.7186||||0.1552|TWO_SIDED|95.0|-23.4659|162.9545|||Wilcoxon rank sum test|||Vz of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||162.9545|-23.4659|0.1552
92261136|NCT01014442|184424324|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.7836||||0.6057|TWO_SIDED|95.0|-3.2675|2.5529|||Wilcoxon rank sum test|||Vz of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||2.5529|-3.2675|0.6057
92261137|NCT01014442|184424324|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|299.1021||||0.0188|TWO_SIDED|95.0|79.5869|695.1789|||Wilcoxon rank sum test|||Vz of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||695.1789|79.5869|0.0188
92261138|NCT01014442|184424325|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|88.959||||0.0659|TWO_SIDED|95.0|-5.7876|209.0183|||Wilcoxon rank sum test|||Vz of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||209.0183|-5.7876|0.0659
92265554|NCT00798161|184432797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-1.3|-0.86|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.86|-1.30|<0.0001
92284906|NCT04638153|184474353|OTHER||Least square mean difference|0.5|||||TWO_SIDED|95.0|0.1|0.9|||||Month 3|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.9|0.1|
92284907|NCT04638153|184474353|OTHER||Least square mean difference|-0.3|||||TWO_SIDED|95.0|-0.7|0.1|||||Month 3|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.1|-0.7|
92284908|NCT04638153|184474353|OTHER||Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.4|0.1|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.1|-0.4|
92284909|NCT04638153|184474353|OTHER||Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.4|0.2|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.4|
92284910|NCT04638153|184474353|OTHER||Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.4|0.2|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.4|
92181187|NCT02307682|184260724|OTHER||Difference in proportions|-11.7|||||TWO_SIDED|95.0|-17.3|-6.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||-6.3|-17.3|
92181188|NCT02307682|184260724|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-4.0|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||6.5|-4.0|
92181189|NCT02307682|184260724|OTHER||Difference in proportions|-5.0|||||TWO_SIDED|95.0|-9.7|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||-0.3|-9.7|
92284911|NCT04638153|184474353|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.2|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.2|
92284912|NCT04638153|184474353|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.2|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.2|
92284913|NCT04638153|184474353|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.2|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.2|
92284914|NCT04638153|184474353|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.2|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.2|
92284915|NCT04638153|184474353|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.3|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.3|-0.2|
92284916|NCT04638153|184474353|OTHER||Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.4|0.1|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.1|-0.4|
92284917|NCT04638153|184474363|OTHER||Least square mean difference|0.3|||||TWO_SIDED|95.0|-0.5|1.2|||||Month 3|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.2|-0.5|
92284918|NCT04638153|184474363|OTHER||Least square mean difference|1.0|||||TWO_SIDED|95.0|0.2|1.8|||||Month 3|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.8|0.2|
92284919|NCT04638153|184474363|OTHER||Least square mean difference|-0.7|||||TWO_SIDED|95.0|-1.5|0.1|||||Month 3|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||0.1|-1.5|
92261139|NCT01014442|184424325|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.4456||||0.7842|TWO_SIDED|95.0|-3.1366|2.292|||Wilcoxon rank sum test|||Vz of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||2.2920|-3.1366|0.7842
92261140|NCT01014442|184424325|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|121.3737||||0.4072|TWO_SIDED|95.0|-233.6483|560.0069|||Wilcoxon rank sum test|||Vz of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||560.0069|-233.6483|0.4072
92261141|NCT01014442|184424326|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|207.9933||||0.004|TWO_SIDED|95.0|71.2442|355.1739|||Wilcoxon rank sum test|||Vz of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||355.1739|71.2442|0.0040
92261142|NCT01014442|184424326|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|2.6186||||0.0689|TWO_SIDED|95.0|-0.1999|6.7766|||Wilcoxon rank sum test|||Vz of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||6.7766|-0.1999|0.0689
92261143|NCT01014442|184424326|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|635.7812||||0.0306|TWO_SIDED|95.0|49.4696|2793.7642|||Wilcoxon rank sum test|||Vz of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||2793.7642|49.4696|0.0306
92261144|NCT01014442|184424327|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|4.7477||||0.9029|TWO_SIDED|95.0|-73.5212|59.8304|||Wilcoxon rank sum test|||Vz of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||59.8304|-73.5212|0.9029
92261145|NCT01014442|184424327|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0077||||0.9692|TWO_SIDED|95.0|-3.6739|3.9521|||Wilcoxon rank sum test|||Vz of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||3.9521|-3.6739|0.9692
92261146|NCT01014442|184424327|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-149.7962||||0.3744|TWO_SIDED|95.0|-644.4526|311.9735|||Wilcoxon rank sum test|||Vz of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||311.9735|-644.4526|0.3744
92261147|NCT01014442|184424328|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|7.8422||||0.1362|TWO_SIDED|95.0|-3.911|18.4444|||Wilcoxon rank sum test|||CL of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||18.4444|-3.9110|0.1362
92261148|NCT01014442|184424328|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.1609||||0.4325|TWO_SIDED|95.0|-0.5693|0.271|||Wilcoxon rank sum test|||CL of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2710|-0.5693|0.4325
92284920|NCT04638153|184474363|OTHER||Least square mean difference|-0.5|||||TWO_SIDED|95.0|-1.6|0.6|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||0.6|-1.6|
92261149|NCT01014442|184424328|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|47.2686||||0.0316|TWO_SIDED|95.0|4.197|112.7806|||Wilcoxon rank sum test|||CL of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||112.7806|4.1970|0.0316
92261150|NCT01014442|184424329|SUPERIORITY_OR_OTHER||Hodges-Lehmann estmator|19.0536||||0.0572|TWO_SIDED|95.0|-0.425|35.3852|||Wilcoxon rank sum test|||CL of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||35.3852|-0.4250|0.0572
92284921|NCT04638153|184474363|OTHER||Least square mean difference|0.7|||||TWO_SIDED|95.0|-0.4|1.9|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.9|-0.4|
92284922|NCT04638153|184474363|OTHER||Least square mean difference|-1.2|||||TWO_SIDED|95.0|-2.3|-0.1|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||-0.1|-2.3|
92284923|NCT04638153|184474363|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.8|0.7|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||0.7|-0.8|
92284924|NCT04638153|184474363|OTHER||Least square mean difference|0.6|||||TWO_SIDED|95.0|-0.2|1.5|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.5|-0.2|
92284925|NCT04638153|184474363|OTHER||Least square mean difference|-0.7|||||TWO_SIDED|95.0|-1.5|0.2|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-1.5|
92284926|NCT04638153|184474363|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-1.3|1.5|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.5|-1.3|
92284927|NCT04638153|184474363|OTHER||Least square mean difference|0.7|||||TWO_SIDED|95.0|-1.4|2.8|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||2.8|-1.4|
92284928|NCT04638153|184474363|OTHER||Least square mean difference|-0.6|||||TWO_SIDED|95.0|-2.6|1.4|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.4|-2.6|
92284929|NCT01389102|184474375|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92284930|NCT01389102|184474375|SUPERIORITY_OR_OTHER|||||||0.0099||95.0|||||ANCOVA|||||||0.0099
92284931|NCT01389102|184474375|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||ANCOVA|||||||0.0004
92284932|NCT01389102|184474376|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92284933|NCT01389102|184474376|SUPERIORITY_OR_OTHER|||||||0.0406||95.0|||||ANCOVA|||||||0.0406
92284934|NCT01389102|184474376|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92284935|NCT00050778|184474377|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.24||||0.0006|TWO_SIDED|95.0|0.11|0.545||An alpha-sharing approach was used to adjust for multiple treatment group comparisons, endpoints, and two pre-planned interim analyses, including a Lan-Demets error-spending function. Pre-specified threshold for statistical significance was 0.0165.|Cox Proportional Hazards Regression|||Cox proportional hazards (PH) regression model using treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country) as covariates was used.||0.545|0.110|0.0006
92284936|NCT00050778|184474377|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.0021|TWO_SIDED|95.0|0.151|0.658||An alpha-sharing approach was used to adjust for multiple treatment group comparisons, endpoints, and two pre-planned interim analyses, including a Lan-Demets error-spending function. Pre-specified threshold for statistical significance was 0.0165.|Cox Proportional Hazards Regression|||Cox PH regression model using treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country) as covariates was used.||0.658|0.151|0.0021
92284937|NCT00050778|184474377|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.152|0.515|||Cox Proportional Hazards Regression|||Cox PH regression model using treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country) as covariates was used.||0.515|0.152|<0.0001
92284938|NCT00050778|184474378|SUPERIORITY_OR_OTHER||Rate ratio|0.33|||<|0.0001|TWO_SIDED|95.0|0.196|0.552||An alpha-sharing approach was used to adjust for multiple treatment group comparisons, endpoints, and two pre-planned interim analyses, including a Lan-Demets error-spending function. Pre-specified threshold for statistical significance was 0.0040.|Andersen-Gill Model|||Treatment effects were estimated using an Anderson-Gill multiplicative intensity model with robust variance estimation. Covariates included treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country).||0.552|0.196|<0.0001
92284939|NCT00050778|184474378|SUPERIORITY_OR_OTHER||Rate ratio|0.23|||<|0.0001|TWO_SIDED|95.0|0.126|0.431||An alpha-sharing approach was used to adjust for multiple treatment group comparisons, endpoints, and two pre-planned interim analyses, including a Lan-Demets error-spending function. Pre-specified threshold for statistical significance was 0.0040.|Andersen-Gill Model|||Treatment effects were estimated using an Anderson-Gill multiplicative intensity model with robust variance estimation. Covariates included treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country).||0.431|0.126|<0.0001
92284940|NCT00050778|184474378|SUPERIORITY_OR_OTHER||Rate ratio|0.28|||<|0.0001|TWO_SIDED|95.0|0.176|0.441|||Andersen-Gill Model|||Treatment effects were estimated using an Anderson-Gill multiplicative intensity model with robust variance estimation. Covariates included treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country).||0.441|0.176|<0.0001
92284941|NCT00050778|184474379|SUPERIORITY_OR_OTHER||Treatment effect|62.64||||0.0001|||||||Cox Proportional Hazards Regression|||Cox PH regression model with treatment group indicator, Baseline EDSS and country as covariates was used.||||0.0001
92284942|NCT00050778|184474379|SUPERIORITY_OR_OTHER||Treatment effect|76.71|||<|0.0001|||||||Cox Proportional Hazards Regression|||Cox PH regression model with treatment group indicator, Baseline EDSS and country as covariates was used.||||<0.0001
92284943|NCT00050778|184474379|SUPERIORITY_OR_OTHER||Treatment effect|70.13|||<|0.0001|||||||Cox Proportional Hazards Regression|||Cox PH regression model with treatment group indicator, Baseline EDSS and country as covariates was used.||||<0.0001
92284944|NCT00050778|184474380|SUPERIORITY_OR_OTHER|||||||0.0885|||||||ANCOVA|||Ranked analysis of covariance (ANCOVA) model using Baseline MRI-T1 brain volume, EDSS group, country, and treatment as covariates was used.||||0.0885
92284945|NCT00050778|184474380|SUPERIORITY_OR_OTHER|||||||0.0195|||||||ANCOVA|||Ranked ANCOVA model using Baseline MRI-T1 brain volume, EDSS group, country, and treatment as covariates was used.||||0.0195
92284946|NCT00050778|184474380|SUPERIORITY_OR_OTHER|||||||0.0215|||||||ANCOVA|||Ranked ANCOVA model using Baseline MRI-T1 brain volume, EDSS group, country, and treatment as covariates was used.||||0.0215
92284947|NCT00050778|184474381|SUPERIORITY_OR_OTHER|||||||0.3077|||||||ANCOVA|||Ranked ANCOVA model using Baseline MRI-T2 lesion volume, EDSS group, country, and treatment as covariates was used.||||0.3077
92284948|NCT00050778|184474381|SUPERIORITY_OR_OTHER|||||||0.3632|||||||ANCOVA|||Ranked ANCOVA model using Baseline MRI-T2 lesion volume, EDSS group, country, and treatment as covariates was used.||||0.3632
92284949|NCT00050778|184474381|SUPERIORITY_OR_OTHER|||||||0.2758|||||||ANCOVA|||Ranked ANCOVA model using Baseline MRI-T2 lesion volume, EDSS group, country, and treatment as covariates was used.||||0.2758
92284950|NCT02728102|184474499|SUPERIORITY||difference in the proportions|2.9||||0.3657|TWO_SIDED|80.0|-8.8|14.6||A one-sided significance level of 0.10 is used to assess whether the vaccine appears promising relative to control.|Z test|||The proportion of patients alive and in CR/sCR at 1 year post transplant will be described in the vaccine and no vaccine groups with 80% confidence intervals and compared between groups using a two-sample Z test comparing binomial proportions.||14.6|-8.8|0.3657
92284951|NCT02728102|184474499|EQUIVALENCE|The stratified odds ratio is estimated with 80% confidence intervals.|Odds Ratio (OR)|1.19||||0.7461|TWO_SIDED|80.0|0.7|2.03||P-value is provided by Breslow-Day Test for Homogeneity of the Odds Ratios.|Cochran-Mantel-Haenszel||The Cochran-Mantel-Haenszel Odds Ratio estimate is for the Stratification. Stratum 1 is sCR/CR at Randomization. Stratum 2 is VGPR/PR/Stable Response at Randomization.|A secondary analysis stratified on disease response prior to randomization between arms will be conducted using a Cochran-Mantel-Haenszel test, and a stratified odds ratio along with 80% confidence intervals will be estimated.||2.03|0.70|0.7461
92284952|NCT02728102|184474499|SUPERIORITY|The proportion of patients alive and in CR/sCR at 1 year post transplant will be compared in the vaccine arm to Lenalidomide/GM-CSF arm with 80% confidence intervals using a two-sample Z test comparing binomial proportions.|difference in the proportions|7.2||||0.2429|TWO_SIDED|80.0|-6.4|20.6|||Z test|||A secondary pairwise analysis of CR/sCR rates comparing the vaccine arm to Lenalidomide/GM-CSF arm at 1 year post transplant.||20.6|-6.4|0.2429
92284953|NCT02728102|184474499|SUPERIORITY|The proportion of patients alive and in CR/sCR at 1 year post transplant will be compared in the vaccine arm to Lenalidomide alone arm with 80% confidence intervals using a two-sample Z test comparing binomial proportions.|difference in the proportions|-1.6||||0.4397|TWO_SIDED|80.0|-15.6|12.4|||Z test|||A secondary pairwise analysis of CR rates comparing the vaccine arm to Lenalidomide alone arm at 1 year post transplant.||12.4|-15.6|0.4397
92284954|NCT02728102|184474500|SUPERIORITY|||||||0.9376||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||The proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine and the combined non-vaccine arms at 6 months Post Transplant.||||0.9376
92284955|NCT02728102|184474500|SUPERIORITY|||||||0.4887||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide/GM-CSF arm at 6 months Post Transplant.||||0.4887
92284956|NCT02728102|184474500|SUPERIORITY|||||||0.5176||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide alone arm at 6 months Post Transplant.||||0.5176
92284957|NCT02728102|184474500|SUPERIORITY|||||||0.2461||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between lenalidomide/GM-CSF arm and lenalidomide alone arm at 6 months Post Transplant.||||0.2461
92284958|NCT02728102|184474500|SUPERIORITY|||||||0.253||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||The proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine and the combined non-vaccine arms at 1 year Post Transplant.||||0.2530
92284959|NCT02728102|184474500|SUPERIORITY|||||||0.2213||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide/GM-CSF arm at 1 year Post Transplant.||||0.2213
92284960|NCT02728102|184474500|SUPERIORITY|||||||0.493||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide alone arm at 1 year Post Transplant.||||0.4930
92284961|NCT02728102|184474500|SUPERIORITY|||||||0.6591||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the lenalidomide/GM-CSF arm and lenalidomide alone arm at 1 year Post Transplant.||||0.6591
92284962|NCT02728102|184474500|SUPERIORITY|||||||0.679||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||The proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine and the combined non-vaccine arms at 2 years Post Transplant.||||0.6790
92261151|NCT01014442|184424329|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.3541||||0.3198|TWO_SIDED|95.0|-0.2524|1.1097|||Wilcoxon rank sum test|||CL of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||1.1097|-0.2524|0.3198
92261152|NCT01014442|184424329|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|54.0322||||0.0845|TWO_SIDED|95.0|-6.7706|160.3469|||Wilcoxon rank sum test|||CL of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||160.3469|-6.7706|0.0845
92261153|NCT01014442|184424330|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|25.0037||||0.0048|TWO_SIDED|95.0|8.2373|43.5102|||Wilcoxon rank sum test|||CL of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||43.5102|8.2373|0.0048
92261154|NCT01014442|184424330|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.4297||||0.0277|TWO_SIDED|95.0|0.034|0.9925|||Wilcoxon rank sum test|||CL of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.9925|0.0340|0.0277
92261155|NCT01014442|184424330|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|318.5455||||0.0002|TWO_SIDED|95.0|154.1902|526.1716|||Wilcoxon rank sum test|||CL of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||526.1716|154.1902|0.0002
92261156|NCT01014442|184424331|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.579||||0.9417|TWO_SIDED|95.0|-14.5052|11.6346|||Wilcoxon rank sum test|||CL of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||11.6346|-14.5052|0.9417
92261157|NCT01014442|184424331|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.1817||||0.2941|TWO_SIDED|95.0|-0.1954|0.6246|||Wilcoxon rank sum test|||CL of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.6246|-0.1954|0.2941
92261158|NCT01014442|184424331|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-4.9076||||0.817|TWO_SIDED|95.0|-84.8234|109.9321|||Wilcoxon rank sum test|||CL of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||109.9321|-84.8234|0.8170
92261159|NCT01014442|184424332|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-2.4102||||0.2798|TWO_SIDED|95.0|-8.5642|3.0044|||Wilcoxon rank sum test|||AUC0-12 of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||3.0044|-8.5642|0.2798
92261160|NCT01014442|184424332|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|72.7203||||0.4063|TWO_SIDED|95.0|-107.1596|393.5295|||Wilcoxon rank sum test|||AUC0-12 of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||393.5295|-107.1596|0.4063
92261161|NCT01014442|184424332|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-3.6042||||0.0441|TWO_SIDED|95.0|-8.1854|-0.1887|||Wilcoxon rank sum test|||AUC0-12 of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.1887|-8.1854|0.0441
92261162|NCT01014442|184424333|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-5.8077||||0.051|TWO_SIDED|95.0|-11.7302|0.0033|||Wilcoxon rank sum test|||AUC0-12 of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0033|-11.7302|0.0510
92261163|NCT01014442|184424333|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-171.159||||0.2733|TWO_SIDED|95.0|-361.4437|171.9652|||Wilcoxon rank sum test|||AUC0-12 of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||171.9652|-361.4437|0.2733
92261164|NCT01014442|184424333|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-1.9621||||0.0718|TWO_SIDED|95.0|-4.8456|0.2067|||Wilcoxon rank sum test|||AUC0-12 of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2067|-4.8456|0.0718
92261165|NCT01014442|184424334|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-8.6964||||0.0002|TWO_SIDED|95.0|-13.7713|-4.6498|||Wilcoxon rank sum test|||AUC0-12 of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-4.6498|-13.7713|0.0002
92261166|NCT01014442|184424334|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-268.9537||||0.0058|TWO_SIDED|95.0|-506.7782|-77.397|||Wilcoxon rank sum test|||AUC0-12 of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-77.3970|-506.7782|0.0058
92261167|NCT01014442|184424334|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-4.828|||<|0.0001|TWO_SIDED|95.0|-7.1455|-2.6133|||Wilcoxon rank sum test|||AUC0-12 of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-2.6133|-7.1455|<0.0001
92284963|NCT02728102|184474500|SUPERIORITY|||||||0.3124||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide/GM-CSF arm at 2 years Post Transplant.||||0.3124
92284964|NCT02728102|184474500|SUPERIORITY|||||||0.7379||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide alone arm at 2 years Post Transplant.||||0.7379
92284965|NCT02728102|184474500|SUPERIORITY|||||||0.2379||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the lenalidomide/GM-CSF arm and lenalidomide alone arm at 2 years Post Transplant.||||0.2379
92284966|NCT02728102|184474500|SUPERIORITY|||||||0.5353||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||Proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between the vaccine and the combined non-vaccine arms at 6 months Post Transplant.||||0.5353
92284967|NCT02728102|184474500|SUPERIORITY|||||||0.4417||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||Proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between the vaccine and the combined non-vaccine arms at 12 months Post Transplant.||||0.4417
92284968|NCT02728102|184474500|SUPERIORITY|||||||0.945||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||Proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between the vaccine and the combined non-vaccine arms at 24 months Post Transplant.||||0.9450
92284969|NCT02728102|184474500|SUPERIORITY|||||||0.1599||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||A pairwise analysis of proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between the vaccine arm and lenalidomide/GM-CSF arm is conducted at 1 year post transplant.||||0.1599
92284970|NCT02728102|184474500|SUPERIORITY|||||||0.8984||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||A pairwise analysis of proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between the vaccine arm and lenalidomide alone arm is conducted at 1 year post transplant.||||0.8984
92284971|NCT02728102|184474500|SUPERIORITY|||||||0.1757||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||A pairwise analysis of proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between lenalidomide/GM-CSF arm and lenalidomide alone arm is conducted at 1 year post transplant.||||0.1757
92284972|NCT02728102|184474501|SUPERIORITY|||||||0.161||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Myeloma Progression between vaccine vs. non- vaccine arms.||||0.161
92284973|NCT02728102|184474502|SUPERIORITY|||||||0.116||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Myeloma Progression between the vaccine arm and lenalidomide/GM-CSF arm.||||0.116
92284974|NCT02728102|184474502|SUPERIORITY|||||||0.519||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Myeloma Progression between the vaccine arm and lenalidomide alone arm.||||0.519
92284975|NCT02728102|184474502|SUPERIORITY|||||||0.387||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Myeloma Progression between the lenalidomide/GM-CSF arm and lenalidomide alone arm.||||0.387
92284976|NCT02728102|184474504|SUPERIORITY|||||||0.168||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of Progression-Free Survival between vaccine vs. non- vaccine arms.||||0.168
92284977|NCT02728102|184474505|SUPERIORITY|||||||0.12||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of Progression-Free Survival between the vaccine arm and lenalidomide/GM-CSF arm.||||0.120
92284978|NCT02728102|184474505|SUPERIORITY|||||||0.519||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of Progression-Free Survival between the vaccine arm and lenalidomide alone arm.||||0.519
92284979|NCT02728102|184474505|SUPERIORITY|||||||0.387||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of Progression-Free Survival between the lenalidomide/GM-CSF arm and lenalidomide alone arm.||||0.387
92284980|NCT02728102|184474506|SUPERIORITY|||||||0.563||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of overall Survival between vaccine vs. non- vaccine arms.||||0.563
92284981|NCT02728102|184474507|SUPERIORITY|||||||0.308||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of overall Survival between the vaccine arm and lenalidomide/GM-CSF arm.||||0.308
92261168|NCT01014442|184424335|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|1.7477||||0.7144|TWO_SIDED|95.0|-12.101|14.6563|||Wilcoxon rank sum test|||AUC0-12 of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||14.6563|-12.1010|0.7144
92261169|NCT01014442|184424335|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-156.3255||||0.3413|TWO_SIDED|95.0|-526.0765|195.8348|||Wilcoxon rank sum test|||AUC0-12 of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||195.8348|-526.0765|0.3413
92261170|NCT01014442|184424335|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.888||||0.6251|TWO_SIDED|95.0|-3.0288|4.2273|||Wilcoxon rank sum test|||AUC0-12 of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||4.2273|-3.0288|0.6251
92261171|NCT01014442|184424336|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|24.315||||0.2342|TWO_SIDED|95.0|-16.0292|79.365|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||79.3650|-16.0292|0.2342
92261172|NCT01014442|184424337|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-13.5592||||0.1964|TWO_SIDED|95.0|-37.395|5.4825|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||5.4825|-37.3950|0.1964
92261173|NCT01014442|184424338|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-22.7878||||0.0672|TWO_SIDED|95.0|-44.8217|3.7573|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||3.7573|-44.8217|0.0672
92261174|NCT01014442|184424339|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-21.4737||||0.2453|TWO_SIDED|95.0|-64.1567|8.5708|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||8.5708|-64.1567|0.2453
92261175|NCT01014442|184424340|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00237||||0.1362|TWO_SIDED|95.0|-0.00734|0.00106|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00106|-0.00734|0.1362
92261176|NCT01014442|184424340|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.04797||||0.4325|TWO_SIDED|95.0|-0.08467|0.26322|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.26322|-0.08467|0.4325
92261177|NCT01014442|184424340|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00311||||0.0316|TWO_SIDED|95.0|-0.00645|-0.00029|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.00029|-0.00645|0.0316
92261178|NCT01014442|184424340|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0000158||||0.3269|TWO_SIDED|95.0|-0.0000134|0.0000552|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of Free MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000552|-0.0000134|0.3269
92261179|NCT01014442|184424341|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00383||||0.0572|TWO_SIDED|95.0|-0.00761|0.0001|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00010|-0.00761|0.0572
92261180|NCT01014442|184424341|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.09626||||0.3198|TWO_SIDED|95.0|-0.25269|0.11464|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.11464|-0.25269|0.3198
92261181|NCT01014442|184424341|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00131||||0.0845|TWO_SIDED|95.0|-0.00352|0.00013|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00013|-0.00352|0.0845
92261182|NCT01014442|184424341|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00001||||0.1769|TWO_SIDED|95.0|-0.000025|0.0000043|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of Free MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000043|-0.0000250|0.1769
92261183|NCT01014442|184424342|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0049||||0.0048|TWO_SIDED|95.0|-0.00876|-0.00148|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.00148|-0.00876|0.0048
92261184|NCT01014442|184424342|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.14764||||0.0277|TWO_SIDED|95.0|-0.31026|-0.01067|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.01067|-0.31026|0.0277
92261185|NCT01014442|184424342|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0035||||0.0002|TWO_SIDED|95.0|-0.00476|0.00168|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00168|-0.00476|0.0002
92261186|NCT01014442|184424342|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0000138||||0.1661|TWO_SIDED|95.0|-0.0000295|0.0000047|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of Free MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000047|-0.0000295|0.1661
92261187|NCT01014442|184424343|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.00054||||0.9417|TWO_SIDED|95.0|-0.01037|0.01042|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.01042|-0.01037|0.9417
92261188|NCT01014442|184424343|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.1461||||0.2941|TWO_SIDED|95.0|-0.39951|0.12988|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.12988|-0.39951|0.2941
92265555|NCT00798161|184432798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4|STANDARD_ERROR_OF_MEAN|5.0||0.0005||95.0|-27.2|-7.6|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-7.6|-27.2|0.0005
92284982|NCT02728102|184474507|SUPERIORITY|||||||0.99||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of overall Survival between the vaccine arm and lenalidomide alone arm.||||0.990
92284983|NCT02728102|184474507|SUPERIORITY|||||||0.303||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of overall Survival between the lenalidomide/GM-CSF arm and lenalidomide alone arm.||||0.303
92284984|NCT02728102|184474509|SUPERIORITY|||||||0.189||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||The null hypothesis is that there is no difference of proportions of patients With Grade ≥ 3 Toxicities between vaccine vs. non- vaccine arms.||||0.189
92284985|NCT02728102|184474511|SUPERIORITY|||||||0.82||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Participants with Grade 2 and 3 infections between vaccine vs. non- vaccine arms.||||0.82
92284986|NCT02728102|184474512|SUPERIORITY|||||||0.21||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Participants with Grade 2 and 3 infections between the vaccine arm and lenalidomide/GM-CSF arm.||||0.21
92284987|NCT02728102|184474512|SUPERIORITY|||||||0.4||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Participants with Grade 2 and 3 infections between the vaccine arm and lenalidomide alone arm.||||0.40
92284988|NCT02728102|184474512|SUPERIORITY|||||||0.08||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Participants with Grade 2 and 3 infections between the lenalidomide/GM-CSF arm and lenalidomide alone arm.||||0.08
92284989|NCT02728102|184474513|SUPERIORITY|||||||0.8||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||The null hypothesis is that there is no difference of proportions of patients without Minimal Residual Disease between vaccine vs. non- vaccine arms||||0.80
92284990|NCT03834870|184474522|OTHER||Percentage of enrolled from eligible|84.05|||||TWO_SIDED|95.0|81.98|86.1||||||||86.10|81.98|
92284991|NCT03834870|184474523|OTHER||Percentage of enrolled from eligible|99.01|||||TWO_SIDED|95.0|98.4|99.6||||||||99.60|98.40|
92284992|NCT01544127|184474537|SUPERIORITY||Odds Ratio (OR)|0.59|STANDARD_ERROR_OF_MEAN|0.19||0.054|TWO_SIDED|95.0|0.31|1.12||A priori, analyses were proposed to be one-sided, with p set at 0.05.|Zero-Inflated Poisson|Analysis adjusted for severity of worst TBI experience and used a robust standard error that was clustered on participants.|OR was calculated for number of participants with suicidal ideation. Analyses were one-sided, but two-sided confidence intervals for the OR are reported.|"MI-SI + TAU and MI-SI-R + TAU vs. TAU Alone~A hurdle model was used to examine the effect of the experimental interventions on the presence of suicidal ideation and the severity of suicidal ideation among those with it. These analyses examined the presence of suicidal ideation in the combined MI-SI + TAU and MI-SI-R + TAU treatment group."||1.12|0.31|.054
92284993|NCT01544127|184474537|SUPERIORITY||Odds Ratio (OR)|0.6|STANDARD_ERROR_OF_MEAN|0.26||0.12|TWO_SIDED|95.0|0.26|1.4||A priori, analyses were proposed as one-sided, with p set at 0.05.|Zero-Inflated Poisson|Analysis adjusted for severity of worst TBI experience and used a robust standard error that was clustered on participants.|OR was calculated for number of participants with suicidal ideation. Analyses were one-sided, but two-sided confidence intervals for the OR are reported.|MI-SI+TAU vs. TAU Alone||1.40|0.26|0.12
92284994|NCT01544127|184474537|SUPERIORITY||Odds Ratio (OR)|0.59|STANDARD_ERROR_OF_MEAN|0.22||0.08|TWO_SIDED|95.0|0.28|1.24||A priori, analyses were proposed as one-sided, with p set at 0.05.|Zero-Inflated Poisson|Analysis adjusted for severity of worst TBI experience and used a robust standard error that was clustered on participants.|OR was calculated for number of participants with suicidal ideation. Analyses were one-sided, but two-sided confidence intervals for the OR are reported.|MI-SI-R + TAU vs. TAU Alone||1.24|0.28|0.08
92284995|NCT01544127|184474538|SUPERIORITY||Beta|0.06|STANDARD_ERROR_OF_MEAN|0.11||0.3|TWO_SIDED|||||A priori, analyses were proposed to be one-sided, with p set at 0.05.|Zero-Inflated Poisson|A robust standard error clustered on participants was used.||"MI-SI + TAU vs. MI-SI-R + TAU vs. TAU Alone~A hurdle model was used to examine the effect of the experimental interventions on the presence/absence of suicidal ideation and the severity of suicidal ideation among those with it. These analyses examined the severity of suicidal ideation among participants with suicidal ideation in the combined MI-SI + TAU and MI-SI-R + TAU treatment group."||||0.30
92284996|NCT01544127|184474538|SUPERIORITY||Beta|0.09|STANDARD_ERROR_OF_MEAN|0.12||0.23|TWO_SIDED|||||A priori, analyses were proposed to be one-sided, with p set at 0.05.|Zero-Inflated Poisson|A robust standard error clustered on participants was used.||MI-SI vs. TAU Alone||||0.23
92284997|NCT01544127|184474538|SUPERIORITY||Beta|0.01|STANDARD_ERROR_OF_MEAN|0.13||0.46|TWO_SIDED|||||A priori, analyses were proposed to be one-sided, with p set at 0.05.|Zero-Inflated Poisson|A robust standard error clustered on participants was used.||MI-SI-R vs. TAU Alone||||0.46
92284998|NCT01544127|184474539|SUPERIORITY||Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|0.65||0.96|TWO_SIDED|0.95|0.3|3.54||A priori, p was set at 0.01 for multiple comparisons.|Regression, Logistic|||MI-SI + TAU vs. TAU Alone||3.54|0.30|0.96
92284999|NCT01544127|184474539|SUPERIORITY||Odds Ratio (OR)|0.68|STANDARD_ERROR_OF_MEAN|0.38||0.5|TWO_SIDED|95.0|0.23|2.06||A priori, p was set at 0.01 for multiple comparisons.|Regression, Logistic|||MI-SI-R + TAU vs. TAU Alone||2.06|0.23|0.50
92285000|NCT01544127|184474540|SUPERIORITY||Cox Proportional Hazard|1.69|STANDARD_ERROR_OF_MEAN|0.91||0.31|TWO_SIDED|95.0|0.59|4.88||A priori, p was set at 0.01 for multiple comparisons.|Log Rank|||MI-SI + TAU vs. TAU Alone||4.88|0.59|0.31
92285001|NCT01544127|184474540|SUPERIORITY||Cox Proportional Hazard|0.49|STANDARD_ERROR_OF_MEAN|0.39||0.24|TWO_SIDED|95.0|0.1|2.31||A priori, p was set at 0.01 for multiple comparisons.|Log Rank|||MI-SI-R vs. TAU Alone||2.31|0.10|0.24
92285002|NCT01544127|184474540|SUPERIORITY||Cox Proportional Hazard|0.29|STANDARD_ERROR_OF_MEAN|0.23||0.1|TWO_SIDED|95.0|0.06|1.43||A priori, p was set at 0.01 for multiple comparisons.|Log Rank|||"MI-SI-R + TAU vs. MI-SI + TAU~Because the impact of MI-SI + TAU and MI-SI-R + TAU were in different directions when compared to TAU Alone, they were compared. For this analysis, the null hypothesis was that the revisions did not change the impact of MI-SI + TAU."||1.43|0.06|0.10
92261189|NCT01014442|184424343|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.00033||||0.817|TWO_SIDED|95.0|-0.00361|0.00421|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00421|-0.00361|0.8170
92261190|NCT01014442|184424343|SUPERIORITY_OR_OTHER||Hodge-Lehmann estimator|-0.0000239||||0.1927|TWO_SIDED|95.0|-0.0000594|0.0000154|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of Free MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000154|-0.0000594|0.1927
92261191|NCT01014442|184424344|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.1616||||0.0821|TWO_SIDED|95.0|-0.0121|0.4188|||Wilcoxon rank sum test|||Free Fraction of Free MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.4188|-0.0121|0.0821
92261192|NCT01014442|184424345|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0427||||0.3628|TWO_SIDED|95.0|-0.0455|0.1221|||Wilcoxon rank sum test|||Free Fraction of Free MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1221|-0.0455|0.3628
92261193|NCT01014442|184424346|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.001||||0.9873|TWO_SIDED|95.0|-0.1152|0.1173|||Wilcoxon rank sum test|||Free Fraction of Free MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1173|-0.1152|0.9873
92261194|NCT01014442|184424347|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0857||||0.2178|TWO_SIDED|95.0|-0.187|0.0265|||Wilcoxon rank sum test|||Free Fraction of Free MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0265|-0.1870|0.2178
92261195|NCT01014442|184424353|SUPERIORITY_OR_OTHER||Difference in rates|-1.8||||1|TWO_SIDED|95.0|-24.9|22.1|||Fisher Exact|||||22.1|-24.9|1.0000
92261196|NCT00147082|184424377|SUPERIORITY|||||||0.05||||||The threshold for significance was p\<0.05|Kruskal-Wallis|||p values were calculated||||0.05
92261197|NCT00147082|184424378|SUPERIORITY|||||||0.05||||||The p value (\<0.05) was the threshold for significance|Kruskal-Wallis|||p value was calculated||||0.05
92261198|NCT00147082|184424379|SUPERIORITY|||||||0.05||||||The p value (\<0.05) was the threshold for significance|Kruskal-Wallis|||The p value was calculated||||0.05
92261199|NCT02242305|184424380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.809|TWO_SIDED|90.0|-0.33|0.27|||ANCOVA|Analysis of Covariance (ANCOVA) model including treatment and center as fixed effects and baseline pain intensity as a covariate was used.|Treatment differences were estimated by reference to the Least Squares (LS) mean differences within 3 days and the corresponding 90% CIs. The mean difference calculated as Hyoscine Butylbromide tablets 10 mg - Hyoscine Butylbromide capsules 10 mg.|||0.27|-0.33|0.809
92285003|NCT02996682|184474555|SUPERIORITY||||||<|0.001||||||P-value was from the 2-sided exact 1-sample binomial test for the superiority of each treatment group over pre-specified rate of 1%.|2-sided exact 1-sample binomial test|||A sample size of 50 participants in each treatment group would provide over 99% power to detect at least 40% improvement in SVR12 rate from the assumed spontaneous rate of 1% or less using a 2-sided exact 1-sample binomial test at significance level of 0.025.||||<0.001
92287113|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.154|||<|0.001|TWO_SIDED|95.0|0.099|0.208|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.208|0.099|<0.001
92261200|NCT02242305|184424380|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.05||||0.809|TWO_SIDED|95.0|-0.39|0.33|||ANCOVA|Analysis of Covariance (ANCOVA) model including treatment and center as fixed effects and baseline pain intensity as a covariate was used.|Treatment differences were estimated by reference to the Least Squares (LS) mean differences within 1 day and the corresponding 90% CIs. The mean difference calculated as Hyoscine Butylbromide tablets 10 mg - Hyoscine Butylbromide capsules 10 mg.|||0.33|-0.39|0.809
92261201|NCT02242305|184424381|SUPERIORITY_OR_OTHER|||||||0.079|||||||ANCOVA|Analysis of Covariance (ANCOVA) model including treatment and center as fixed effects and baseline pain intensity as a covariate was used.||||||0.079
92261202|NCT02242305|184424386|SUPERIORITY_OR_OTHER|||||||0.531|||||||ANCOVA|Analysis of Covariance (ANCOVA) model including treatment and center as fixed effects and baseline score as covariates was used.||||||0.531
92261203|NCT03547960|184424387|SUPERIORITY|||||||0.639|||||||Chi-squared|||||||0.639
92261204|NCT03547960|184424387|SUPERIORITY|||||||0.283|||||||Wilcoxon (Mann-Whitney)|||||||0.283
92261205|NCT03547960|184424389|SUPERIORITY|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||||||0.564
92261206|NCT02625610|184424411|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.1779|TWO_SIDED|95.0|0.74|1.11|||Log Rank|The treatment arms were compared using a stratified, 1-sided, log rank Test. The stratification factor was region (Asia versus non Asia).||||1.11|0.74|0.1779
92261207|NCT02625610|184424412|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.85|1.28||||||||1.28|0.85|
92261208|NCT02625610|184424414|SUPERIORITY||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.55|1.51||||||||1.51|0.55|
92261209|NCT03459794|184424424|OTHER|||||||||||||||||All measurements were compared to the same group at t=0, that is before the drug or placebo was administered. We compared the expression levels for each transcript, using the mean levels in each group, not at the individual participant level.|We analyzed the changes is level for each cytokine between the groups. P value was adjusted for multiple comparisons and significance determined using the Holm-Sidak method. The threshold value for statistical significance for the mean value between groups was set at p =\<0.05 for each cytokine measured. The number of cytokines that met this threshold is reported.|||
92261210|NCT03459794|184424425|OTHER|||||||||||||||||All measurements were compared to the same treated/control group at t=0, before the drug or placebo was administered. We compared the expression levels for each transcript, using the mean levels in each group, not at the individual participant level.|We compared the expression levels for each transcript, using the mean levels in each group, not at the individual participant level. The p-value for each transcript is adjusted for multiple comparisons across all 770 transcripts, using the Benjamini-Yekutieli method. The number reported is the number of transcripts where p=\<0.05.|||
92261211|NCT03459794|184424426|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92261212|NCT00352027|184424428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.997|||||||Cox Model|||The association of age with EFS was compared. P values from Score test were computed for the statistical significance.||||0.9970
92261213|NCT00352027|184424431|SUPERIORITY_OR_OTHER_LEGACY|||||||0.997|||||||Cox Model|||||||0.9970
92261214|NCT00352027|184424463|SUPERIORITY_OR_OTHER_LEGACY|||||||0.265||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.265
92261215|NCT00352027|184424463|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.057
92261216|NCT00352027|184424463|SUPERIORITY_OR_OTHER_LEGACY|||||||0.079||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.079
92261217|NCT00352027|184424463|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.025
92261218|NCT00352027|184424463|SUPERIORITY_OR_OTHER_LEGACY|||||||0.68||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.680
92261219|NCT00352027|184424464|SUPERIORITY_OR_OTHER_LEGACY|||||||0.563||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.563
92261220|NCT00352027|184424464|SUPERIORITY_OR_OTHER_LEGACY|||||||0.563||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.563
92261221|NCT00352027|184424464|SUPERIORITY_OR_OTHER_LEGACY|||||||0.563||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.563
92261222|NCT00352027|184424464|SUPERIORITY_OR_OTHER_LEGACY|||||||0.184||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.184
92261223|NCT00352027|184424464|SUPERIORITY_OR_OTHER_LEGACY|||||||0.563||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.563
92261224|NCT00352027|184424465|SUPERIORITY_OR_OTHER_LEGACY|||||||0.319||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.319
92261225|NCT00352027|184424465|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.010
92261226|NCT00352027|184424465|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.002
92261227|NCT00352027|184424465|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.015
92261228|NCT00352027|184424465|SUPERIORITY_OR_OTHER_LEGACY|||||||0.588||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.588
92261229|NCT00352027|184424466|SUPERIORITY_OR_OTHER_LEGACY|||||||0.071||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.071
92261230|NCT00352027|184424466|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||<0.001
92261231|NCT00352027|184424466|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||<0.001
92261232|NCT00352027|184424466|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||<0.001
92261233|NCT00352027|184424466|SUPERIORITY_OR_OTHER_LEGACY|||||||0.707||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.707
92261234|NCT00352027|184424467|SUPERIORITY_OR_OTHER_LEGACY|||||||0.042||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.042
92261235|NCT00352027|184424467|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.025
92261236|NCT00352027|184424467|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.013
92261237|NCT00352027|184424467|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.027
92261238|NCT00352027|184424467|SUPERIORITY_OR_OTHER_LEGACY|||||||0.243||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.243
92261239|NCT00352027|184424468|SUPERIORITY_OR_OTHER_LEGACY|||||||0.546||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.546
92261240|NCT00352027|184424468|SUPERIORITY_OR_OTHER_LEGACY|||||||0.242||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.242
92261241|NCT00352027|184424468|SUPERIORITY_OR_OTHER_LEGACY|||||||0.372||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.372
92261242|NCT00352027|184424468|SUPERIORITY_OR_OTHER_LEGACY|||||||0.503||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.503
92261243|NCT00352027|184424468|SUPERIORITY_OR_OTHER_LEGACY|||||||0.372||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.372
92261244|NCT00352027|184424469|SUPERIORITY_OR_OTHER_LEGACY|||||||0.558||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.558
92261245|NCT00352027|184424469|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.039
92261246|NCT00352027|184424469|SUPERIORITY_OR_OTHER_LEGACY|||||||0.162||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.162
92261247|NCT00352027|184424469|SUPERIORITY_OR_OTHER_LEGACY|||||||0.162||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.162
92261248|NCT00352027|184424470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.381||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.381
92261249|NCT00352027|184424470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.006
92261250|NCT00352027|184424470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.277||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.277
92261251|NCT00352027|184424470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.134||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.134
92261252|NCT00352027|184424471|SUPERIORITY_OR_OTHER_LEGACY|||||||0.629||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.629
92261253|NCT00352027|184424471|SUPERIORITY_OR_OTHER_LEGACY|||||||0.629||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.629
92261254|NCT00352027|184424471|SUPERIORITY_OR_OTHER_LEGACY|||||||0.629||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.629
92261255|NCT00352027|184424471|SUPERIORITY_OR_OTHER_LEGACY|||||||0.858||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.858
92261256|NCT00352027|184424472|SUPERIORITY_OR_OTHER_LEGACY|||||||0.744||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.744
92261257|NCT00352027|184424472|SUPERIORITY_OR_OTHER_LEGACY|||||||0.075||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.075
92261258|NCT00352027|184424472|SUPERIORITY_OR_OTHER_LEGACY|||||||0.512||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.512
92261259|NCT00352027|184424472|SUPERIORITY_OR_OTHER_LEGACY|||||||0.088||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.088
92261260|NCT00352027|184424473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.078||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.078
92261261|NCT00352027|184424473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.041||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.041
92261262|NCT00352027|184424473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.078||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.078
92261263|NCT00352027|184424473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.078||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.078
92261264|NCT00352027|184424474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.739
92261265|NCT00352027|184424474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.739
92261266|NCT00352027|184424474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.739
92261267|NCT00352027|184424474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.739
92261268|NCT00352027|184424475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.933||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.933
92261269|NCT00352027|184424475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.933||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.933
92261270|NCT00352027|184424475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.051||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.051
92261271|NCT00352027|184424475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0779||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.0779
92261272|NCT00352027|184424476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.415||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.415
92261273|NCT00352027|184424476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.005
92261274|NCT00352027|184424476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.245||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.245
92261275|NCT00352027|184424476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.005
92261276|NCT00352027|184424477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.814||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.814
92261277|NCT00352027|184424477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.553||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.553
92261278|NCT00352027|184424477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.173||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.173
92261279|NCT00352027|184424477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.122||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.122
92261280|NCT00352027|184424478|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
92261281|NCT00352027|184424479|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generallized Estimating Equations (GEE)|||||||<0.001
92261282|NCT00352027|184424480|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generallized Estimating Equations (GEE)|||||||<0.001
92261283|NCT00352027|184424481|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generallized Estimating Equations (GEE)|||||||<0.001
92261284|NCT00352027|184424482|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generallized Estimating Equations (GEE)|||||||<0.001
92261285|NCT00352027|184424483|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generallized Estimating Equations (GEE)|||||||<0.001
92261286|NCT00352027|184424484|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
92261287|NCT00352027|184424485|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
92261288|NCT00352027|184424486|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
92261289|NCT00352027|184424487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Generalized Estimating Equations (GEE)|||||||0.005
92261290|NCT00352027|184424488|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
92261291|NCT00352027|184424489|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
92261292|NCT00352027|184424490|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
92261293|NCT00352027|184424491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
92261294|NCT00352027|184424492|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
92261295|NCT00352027|184424493|SUPERIORITY_OR_OTHER_LEGACY|||||||0.908|||||||Log Rank|||||||0.908
92261296|NCT00352027|184424494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.178|||||||Log Rank|||||||0.178
92261297|NCT00352027|184424495|SUPERIORITY_OR_OTHER_LEGACY|||||||0.411|||||||Log Rank|||||||0.411
92261298|NCT00352027|184424497|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4318|||||||Cox Model|||||||0.4318
92261299|NCT00352027|184424498|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2199|||||||Cox Model|||||||0.2199
92261300|NCT00352027|184424499|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8946|||||||Cox Model|||||||0.8946
92261301|NCT04491591|184424508|SUPERIORITY|||||||0.801|||||||Kruskal-Wallis|||||||0.801
92261302|NCT04491591|184424509|SUPERIORITY|||||||0.1336|||||||Fisher Exact|||Reconstruction versus No reconstruction||||0.1336
92261303|NCT04491591|184424509|SUPERIORITY|Immediate reconstruction versus delayed reconstruction||||||0.5505|||||||Fisher Exact|||||||0.5505
92261304|NCT04491591|184424509|SUPERIORITY|||||||0.6178|||||||Fisher Exact|||Flap reconstruction versus Implant reconstruction||||0.6178
92261305|NCT04491591|184424510|SUPERIORITY|||||||0.2317|||||||Fisher Exact|||||||0.2317
92261306|NCT04491591|184424511|SUPERIORITY|||||||0.1052|||||||Fisher Exact|||||||0.1052
92261307|NCT04491591|184424512|OTHER||||||||||||||||||Within subjects pre/post comparison|||
92261308|NCT04491591|184424513|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92261309|NCT04491591|184424515|OTHER||||||||||||||||||Descriptive analysis using mean and standard deviation|||
92261310|NCT04491591|184424516|SUPERIORITY|||||||0.0302|||||||Kruskal-Wallis|||||||0.0302
92261311|NCT04491591|184424517|SUPERIORITY|||||||0.135|||||||Fisher Exact|||Reconstruction versus No reconstruction||||0.135
92261312|NCT04491591|184424517|SUPERIORITY|||||||0.51|||||||Fisher Exact|||Immediate reconstruction versus delayed reconstruction||||0.510
92261313|NCT04491591|184424517|SUPERIORITY|||||||0.469|||||||Fisher Exact|||Flap reconstruction versus Implant reconstruction||||0.469
92261314|NCT04491591|184424518|SUPERIORITY|||||||0.308|||||||Fisher Exact|||||||0.308
92261315|NCT04491591|184424519|SUPERIORITY|||||||0.036|||||||Fisher Exact|||||||0.036
92261316|NCT02607735|184424547|SUPERIORITY|The SVR12 rate for the SOF/VEL/VOX group was compared to the performance goal of 85% using a 2-sided exact 1-sample binomial test at the 0.05 significance level.|||||<|0.001|||||||2-sided exact 1-sample binomial test|||||||<0.001
92261317|NCT02430389|184424579|SUPERIORITY_OR_OTHER|||||||0.0575|TWO_SIDED||||||t-test, 2 sided|||||||.0575
92261318|NCT02430389|184424580|SUPERIORITY_OR_OTHER|||||||0.348|TWO_SIDED||||||t-test, 2 sided|||||||.348
92261319|NCT02394028|184424594|SUPERIORITY||Difference in rate|1.1||||0.8508|TWO_SIDED|95.0|-10.85|12.56||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||12.56|-10.85|0.8508
92261320|NCT02394028|184424594|SUPERIORITY||Difference in rate|3.8||||0.5235|TWO_SIDED|95.0|-8.3|15.27||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||15.27|-8.30|0.5235
92261321|NCT02394028|184424596|SUPERIORITY||Difference in rate|4.9||||0.7908|TWO_SIDED|95.0|-6.26|16.11||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||16.11|-6.26|0.7908
92261322|NCT02394028|184424596|SUPERIORITY||Difference in rate|5.8||||0.317|TWO_SIDED|95.0|-5.43|17.05||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||17.05|-5.43|0.3170
92261323|NCT02394028|184424597|SUPERIORITY||Difference in rate|11.3||||0.0088|TWO_SIDED|95.0|2.7|19.65||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||19.65|2.70|0.0088
92261324|NCT02394028|184424598|SUPERIORITY||Difference in rate|11.5||||0.0026|TWO_SIDED|95.0|4.11|18.83||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||18.83|4.11|0.0026
92261325|NCT02394028|184424600|SUPERIORITY||Difference in rate|3.1||||1|TWO_SIDED|95.0|-8.02|13.45||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates are adjusted using CMH weights and the 95% CIs use the Newcombes method.|||13.45|-8.02|1
92261326|NCT02394028|184424600|SUPERIORITY||Difference in rate|2.3||||0.7908|TWO_SIDED|95.0|-8.78|12.56||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates are adjusted using CMH weights and the 95% CIs use the Newcombes method.|||12.56|-8.78|0.7908
92261327|NCT02394028|184424602|SUPERIORITY||Difference in rate|1.6||||1|TWO_SIDED|95.0|-6.51|9.73||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates are adjusted using CMH weights and the 95% CIs use the Newcombes method.|||9.73|-6.51|1
92261328|NCT02394028|184424602|SUPERIORITY||Difference in rate|6.5||||0.5235|TWO_SIDED|95.0|-2.24|15.16||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates are adjusted using CMH weights and the 95% CIs use the Newcombes method.|||15.16|-2.24|0.5235
92261329|NCT02394028|184424603|SUPERIORITY||Difference in LSM|-0.5||||0.311|TWO_SIDED|90.0|-1.4|0.3|||MMRM|||Bowel Domain Score||0.3|-1.4|0.3110
92261330|NCT02394028|184424604|SUPERIORITY||Difference in LSM|0.2||||1|TWO_SIDED|95.0|-0.5|0.9||The multiplicity adjusted p-values are presented.|MMRM|||Functional Domain Scale||0.9|-0.5|1
92261331|NCT02394028|184424604|SUPERIORITY||Difference in LSM|0.0||||1|TWO_SIDED|95.0|-0.7|0.7||The multiplicity adjusted p-values are presented.|MMRM|||Functional Domain Score||0.7|-0.7|1
92261332|NCT02394028|184424604|SUPERIORITY||Difference in LSM|0.1||||1|TWO_SIDED|95.0|-0.8|0.9||The multiplicity adjusted p-values are presented.|MMRM|||Bowel Domain Score||0.9|-0.8|1
92261333|NCT02394028|184424604|SUPERIORITY||Difference in LSM|-0.3||||1|TWO_SIDED|95.0|-1.1|0.5||The multiplicity adjusted p-values are presented.|MMRM|||Bowel Domain Score||0.5|-1.1|1
92261334|NCT02394028|184424605|SUPERIORITY||Difference in rate|17.3||||0.0677|TWO_SIDED|95.0|3.52|30.27||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||30.27|3.52|0.0677
92261335|NCT02394028|184424606|SUPERIORITY||Difference in rates|18.6||||0.048|TWO_SIDED|95.0|11.07|25.96||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||25.96|11.07|0.0480
92181190|NCT02307682|184260724|OTHER||Difference in proportions|-5.5|||||TWO_SIDED|95.0|-11.4|-0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-0.1|-11.4|
92181191|NCT02307682|184260724|OTHER||Difference in proportions|-11.1|||||TWO_SIDED|95.0|-16.4|-6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-6.2|-16.4|
92181192|NCT02307682|184260725|OTHER||Difference in proportions|-2.0|||||TWO_SIDED|95.0|-7.9|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.6|-7.9|
92181193|NCT02307682|184260725|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-4.1|7.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||7.4|-4.1|
92181194|NCT02307682|184260725|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-10.0|1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.3|-10.0|
92181195|NCT02307682|184260725|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-7.7|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||4.5|-7.7|
92181196|NCT02307682|184260725|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-7.6|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.3|-7.6|
92181197|NCT02307682|184260725|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-5.4|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||5.8|-5.4|
92181198|NCT02307682|184260725|OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-8.3|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||3.6|-8.3|
92181199|NCT02307682|184260725|OTHER||Difference in proportions|-4.3|||||TWO_SIDED|95.0|-10.0|1.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||1.9|-10.0|
92181200|NCT02307682|184260725|OTHER||Difference in proportions|10.6|||||TWO_SIDED|95.0|5.0|16.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||16.2|5.0|
92181201|NCT02307682|184260725|OTHER||Difference in proportions|10.0|||||TWO_SIDED|95.0|4.7|15.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||15.4|4.7|
92181202|NCT02307682|184260725|OTHER||Difference in proportions|-4.0|||||TWO_SIDED|95.0|-9.8|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||1.7|-9.8|
92181203|NCT02307682|184260725|OTHER||Difference in proportions|-9.0|||||TWO_SIDED|95.0|-14.9|-3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-3.0|-14.9|
92181204|NCT02307682|184260725|OTHER||Difference in proportions|2.9|||||TWO_SIDED|95.0|-2.1|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||8.4|-2.1|
92181205|NCT02307682|184260725|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-6.3|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||5.1|-6.3|
92181206|NCT02307682|184260725|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-5.8|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||6.1|-5.8|
92261336|NCT02394028|184424607|SUPERIORITY||Difference in rates|13.5||||0.121|TWO_SIDED|95.0|-2.9|29.94|||Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||29.94|-2.90|0.1210
92181207|NCT02307682|184260725|OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-8.4|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||3.5|-8.4|
92261337|NCT02394028|184424608|SUPERIORITY||Difference in rates|6.2||||0.048|TWO_SIDED|95.0|0.54|11.93||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||11.93|0.54|0.0480
92261338|NCT02394028|184424609|SUPERIORITY||Difference in rates|11.2||||0.0677|TWO_SIDED|95.0|3.04|19.24||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||19.24|3.04|0.0677
92261339|NCT02394028|184424610|SUPERIORITY||Difference in rates|16.2||||0.0035|TWO_SIDED|95.0|8.96|23.31||Nominal p-value, no adjustment for multiplicity performed.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||23.31|8.96|0.0035
92261340|NCT02394028|184424611|SUPERIORITY||Difference in LSM|-0.3||||0.4009|TWO_SIDED|95.0|-0.9|0.4||The multiplicity adjusted p-values are presented.|MMRM|||Functional Symptoms Domain||0.4|-0.9|0.4009
92261341|NCT02394028|184424611|SUPERIORITY||Difference in LSM|-0.3||||0.4009|TWO_SIDED|95.0|-1.0|0.4||The multiplicity adjusted p-values are presented.|MMRM|||Bowel Symptoms Domain||0.4|-1.0|0.4009
92261342|NCT00742391|184424621|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92261343|NCT00742391|184424622|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||0.0001
92261344|NCT02109939|184424652|SUPERIORITY||Mean Difference (Net)|-2.836|STANDARD_ERROR_OF_MEAN|1.758||0.107|TWO_SIDED|95.0|-6.285|0.613|||Mixed Models Analysis|Repeated Measures including week 4.||||0.613|-6.285|0.1070
92261345|NCT02109939|184424653|SUPERIORITY||Mean Difference (Net)|-2.207|STANDARD_ERROR_OF_MEAN|1.653||0.1822|TWO_SIDED|95.0|-5.45|1.036|||Mixed Models Analysis|MMRM with week 4 data.||||1.036|-5.450|0.1822
92261346|NCT02109939|184424654|SUPERIORITY||Odds Ratio (OR)|1.41||||0.0134|TWO_SIDED|95.0|1.07|1.86|||Generalized linear mixed model|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||1.86|1.07|0.0134
92261347|NCT02109939|184424657|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0066|TWO_SIDED|95.0|1.14|2.27|||Generalized linear mixed model|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||2.27|1.14|0.0066
92261348|NCT02109939|184424660|SUPERIORITY||Odds Ratio (OR)|1.13||||0.2852|TWO_SIDED|95.0|0.9|1.43|||Generalized linear mixed model.|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||1.43|0.90|0.2852
92261349|NCT02109939|184424661|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0023|TWO_SIDED|95.0|1.14|1.79|||Generalized linear mixed model|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||1.79|1.14|0.0023
92261350|NCT02109939|184424670|SUPERIORITY||Odds Ratio (OR)|1.43||||0.014|TWO_SIDED|95.0|1.07|1.89|||Generalized linear mixed model|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||1.89|1.07|0.0140
92261351|NCT02109939|184424671|SUPERIORITY||Odds Ratio (OR)|1.31||||0.0663|TWO_SIDED|95.0|0.98|1.76|||Generalized linear mixed model|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||1.76|0.98|0.0663
92261352|NCT01058356|184424678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84|STANDARD_ERROR_OF_MEAN|0.4|<|0.05|TWO_SIDED|95.0|0.17|4.15|||Regression, Logistic|||"Null hypothesis: The efficay of the probiotic Lactobacilli (Lacidofil cap®) for the prevention of AAD in adults is not different form the placebo group in multi-center, randomized, placebo-controlled, double-blind trial.~Power calculation:~The assumption of sample size calculation:~difference 18% (8% : 26%) α: 0.05, statistical power: 90%, two sided difference: 18% Compliance: 80%~\- Unadjusted sample size (N=200) 180 + 10(%) drop out = 180 + 180/ (1-0.1)2 = 222.2 Total 220 subjects"||4.15|0.17|<0.05
92181208|NCT02307682|184260725|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-6.4|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||4.4|-6.4|
92181209|NCT02307682|184260725|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-7.8|3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||3.0|-7.8|
92181210|NCT02307682|184260725|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-9.6|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||1.7|-9.6|
92181211|NCT02307682|184260725|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-10.2|1.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||1.9|-10.2|
92261353|NCT01058356|184424679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85|STANDARD_ERROR_OF_MEAN|0.27|<|0.05|TWO_SIDED|95.0|0.18|1.55|||Regression, Logistic|||"Null hypothesis: The efficay of the probiotic Lactobacilli (Lacidofil cap®) for the prevention of AAD in adults is not different form the placebo group in multi-center, randomized, placebo-controlled, double-blind trial.~Power calculation:~The assumption of sample size calculation:~difference 18% (8% : 26%) α: 0.05, statistical power: 90%, two sided difference: 18% Compliance: 80%~\- Unadjusted sample size (N=200) 180 + 10(%) drop out = 180 + 180/ (1-0.1)2 = 222.2 Total 220 subjects"||1.55|0.18|<0.05
92181212|NCT02307682|184260725|OTHER||Difference in proportions|4.6|||||TWO_SIDED|95.0|-1.0|9.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||9.9|-1.0|
92181213|NCT02307682|184260725|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-3.3|7.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||7.5|-3.3|
92285004|NCT02996682|184474555|SUPERIORITY||||||<|0.001||||||P-value was from the 2-sided exact 1-sample binomial test for the superiority of each treatment group over pre-specified rate of 1%.|2-sided exact 1-sample binomial test|||A sample size of 50 participants in each treatment group would provide over 99% power to detect at least 40% improvement in SVR12 rate from the assumed spontaneous rate of 1% or less using a 2-sided exact 1-sample binomial test at significance level of 0.025.||||<0.001
92181214|NCT02307682|184260725|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-6.2|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||5.1|-6.2|
92181215|NCT02307682|184260725|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-6.4|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||5.5|-6.4|
92181216|NCT02307682|184260725|OTHER||Difference in proportions|3.3|||||TWO_SIDED|95.0|-2.2|8.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||8.7|-2.2|
92181217|NCT02307682|184260725|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-3.2|7.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||7.4|-3.2|
92181218|NCT02307682|184260725|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-3.5|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||8.1|-3.5|
92181219|NCT02307682|184260725|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-5.8|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||5.8|-5.8|
92181220|NCT02307682|184260725|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-6.6|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.8|-6.6|
92261354|NCT01277666|184424683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.546|TWO_SIDED|95.0|-6.1|11.0|||Mantel Haenszel|||comparison of Placebo and GSK1605786A 500 mg once daily||11.0|-6.1|0.546
92181221|NCT02307682|184260725|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-5.8|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||5.1|-5.8|
92261355|NCT01277666|184424683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.648|TWO_SIDED|95.0|-6.5|10.7|||Mantel Haenszel|||comparison of Placebo and GSK1605786A 500 mg twice daily||10.7|-6.5|0.648
92261356|NCT01277666|184424684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.592|TWO_SIDED|95.0|-8.8|4.8|||Mantel Haenszel|||||4.8|-8.8|0.592
92261357|NCT01277666|184424684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.475|TWO_SIDED|95.0|-9.2|4.4|||Mantel Haenszel|||||4.4|-9.2|0.475
92261358|NCT01277666|184424685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.415|TWO_SIDED|95.0|-4.4|10.3|||Mantel Haenszel|||||10.3|-4.4|0.415
92261359|NCT01277666|184424685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.354|TWO_SIDED|95.0|-3.9|10.9|||Mantel Haenszel|||||10.9|-3.9|0.354
92261360|NCT01277666|184424686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.985|TWO_SIDED|95.0|-5.2|5.2|||Mantel Haenszel|||||5.2|-5.2|0.985
92261361|NCT01277666|184424686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.709|TWO_SIDED|95.0|-6.1|4.1|||Mantel Haenszel|||||4.1|-6.1|0.709
92261362|NCT01277666|184424687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.633|TWO_SIDED|95.0|-6.5|10.4|||Mantel Haenszel|||||10.4|-6.5|0.633
92261363|NCT01277666|184424687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.889|TWO_SIDED|95.0|-7.8|9.0|||Mantel Haenszel|||||9.0|-7.8|0.889
92261364|NCT01277666|184424688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.541|TWO_SIDED|95.0|-8.1|4.2|||Mantel Haenszel|||||4.2|-8.1|0.541
92181222|NCT02307682|184260725|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-6.4|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.1|-6.4|
92261365|NCT01277666|184424688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.43|TWO_SIDED|95.0|-8.5|3.7|||Mantel Haenszel|||||3.7|-8.5|0.430
92261366|NCT01277666|184424689|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.13|STANDARD_ERROR_OF_MEAN|2.426||0.642|TWO_SIDED|95.0|-5.89|3.64||P-values were obtained from an analysis of covariance model with baseline score as the covariate.|ANCOVA|||Week 8||3.64|-5.89|0.642
92261367|NCT01277666|184424689|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|2.652||0.898|TWO_SIDED|95.0|-5.55|4.87||P-values were obtained from an analysis of covariance model with baseline score as the covariate.|ANCOVA|||Week 12||4.87|-5.55|0.898
92261368|NCT01277666|184424689|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.37|STANDARD_ERROR_OF_MEAN|2.467||0.173|TWO_SIDED|95.0|-1.48|8.21||P-values were obtained from an analysis of covariance model with baseline score as the covariate.|ANCOVA|||Week 8||8.21|-1.48|0.173
92261369|NCT01277666|184424689|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.85|STANDARD_ERROR_OF_MEAN|2.697||0.493|TWO_SIDED|95.0|-3.45|7.15||P-values were obtained from an analysis of covariance model with baseline score as the covariate.|ANCOVA|||Week 12||7.15|-3.45|0.493
92261370|NCT01657903|184424700|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|41.15|||<|0.0001|TWO_SIDED|95.0|34.42|47.89||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %RER. Statistical tests were 2-sided with a significance level of 0.05.||47.89|34.42|<0.0001
92265556|NCT00798161|184432798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.2|STANDARD_ERROR_OF_MEAN|5.0||0.0006||95.0|-27.1|-7.3|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-7.3|-27.1|0.0006
92181223|NCT02307682|184260725|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-8.7|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||2.6|-8.7|
92181224|NCT02307682|184260725|OTHER||Difference in proportions|5.5|||||TWO_SIDED|95.0|0.3|10.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||10.7|0.3|
92181225|NCT02307682|184260725|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-3.2|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||7.2|-3.2|
92261371|NCT01657903|184424700|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|41.28|||<|0.0001|TWO_SIDED|95.0|34.51|48.06||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %RER. Statistical tests were 2-sided with a significance level of 0.05.||48.06|34.51|<0.0001
92181226|NCT02307682|184260725|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-6.1|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.7|-6.1|
92261372|NCT01657903|184424700|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|40.83|||<|0.0001|TWO_SIDED|95.0|34.06|47.61||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %RER. Statistical tests were 2-sided with a significance level of 0.05.||47.61|34.06|<0.0001
92265557|NCT00798161|184432798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.6|STANDARD_ERROR_OF_MEAN|5.0|<|0.0001||95.0|-34.4|-14.8|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-14.8|-34.4|<0.0001
92265558|NCT00798161|184432798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.8|STANDARD_ERROR_OF_MEAN|5.0|<|0.0001||95.0|-50.6|-31.0|||ANCOVA|||Linagliptin 5mg vs. linagliptin 2.5mg with metformin 1000mg||-31.0|-50.6|<0.0001
92265559|NCT00798161|184432799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|STANDARD_ERROR_OF_MEAN|4.1||0.0003||95.0|-22.9|-6.8|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-6.8|-22.9|0.0003
92261373|NCT01657903|184424701|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.36|||<|0.0001|TWO_SIDED|95.0|6.01|12.72||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||12.72|6.01|<0.0001
92261374|NCT01657903|184424701|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.45|||<|0.0001|TWO_SIDED|95.0|6.07|12.82||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||12.82|6.07|<0.0001
92261375|NCT01657903|184424701|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.66|||<|0.0001|TWO_SIDED|95.0|8.28|15.03||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||15.03|8.28|<0.0001
92261376|NCT02312934|184424716|OTHER||||||=|0.41||||||All pairwise comparisons were Sidak corrected for multiple comparisons at the p \< 0.05 level.|Mixed Models Analysis|Degrees of freedom were corrected using Greenhouse-Geisser estimates of sphericity (ε = 0.72).||For the Primary Aim (Specific Aim 1), a mixed-models repeated measures ANOVA was used to assess the interaction of treatment group (nicotine, placebo) with time (Visit), using change from baseline PCI FACT-Cog score (Visit 3, Visit 4, and Visit 5) as the dependent measure.||||=0.41
92261377|NCT02312934|184424717|OTHER|||||||0.79||||||All pairwise comparisons were Sidak corrected for multiple comparisons at the p \< 0.05 level.|Mixed Models Analysis|Degrees of freedom were corrected using Greenhouse-Geisser estimates of sphericity (ε = 0.72).||For the Secondary Aim (Specific Aim 2), a mixed-models repeated measures ANOVA was used to assess the interaction of treatment group (nicotine, placebo) with time (Visit), using change from baseline CPT Scores (Visit 3, Visit 4, and Visit 5) as the dependent measure.||||0.79
92261378|NCT03395704|184424724|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||< 0.0001
92261379|NCT01801189|184424728|SUPERIORITY|||||||0.1||||||Threshold for significance was P \<0.05.|t-test, 1 sided|||||||0.10
92261380|NCT01801189|184424728|SUPERIORITY|||||||0.23||||||Threshold for significance \<0.05|t-test, 1 sided|||POD 1||||.23
92261381|NCT01801189|184424728|SUPERIORITY|||||||0.31||||||Threshold for significance \<0.05|t-test, 1 sided|||POD 2||||.31
92261382|NCT00498706|184424730|SUPERIORITY_OR_OTHER||t value|-2.95||||0.003||95.0|||||t-test, 2 sided|||||||0.003
92261383|NCT00498706|184424731|SUPERIORITY_OR_OTHER||Chi-square|5.83||||0.02||95.0|||||Chi-squared|||||||0.02
92261384|NCT00498706|184424731|SUPERIORITY_OR_OTHER||Chi-square|7.75||||0.006||95.0|||||Chi-squared||Attrition before week 5 was significantly lower in T-CBT than in face-to-face CBT.|||||.006
92261385|NCT00498706|184424733|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority is established by showing that the true difference between 2 treatment arms is likely to be smaller than a prespecified noninferiority margin that separates clinically important from clinically negligible (acceptable) differences.|Mean Difference (Net)|-0.09|STANDARD_DEVIATION|1.26||0.89|TWO_SIDED|95.0|-1.35|1.17|||Mixed Models Analysis|||Longitudinal depression scores were modeled with repeated-measures linear regression models.Time was treated as a categorical variable to account for nonlinear effects of time, and an unstructured covariance matrix was assumed.||1.17|-1.35|0.89
92261386|NCT00498706|184424734|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority is established by showing that the true difference between 2 treatment arms is likely to be smaller than a prespecified noninferiority margin that separates clinically important from clinically negligible (acceptable) differences.|Mean Difference (Net)|1.07|STANDARD_DEVIATION|1.695||0.22|TWO_SIDED|95.0|-0.63|2.76|||Mixed Models Analysis|||Longitudinal depression scores were modeled with repeated-measures linear regression models.Time was treated as a categorical variable to account for nonlinear effects of time, and an unstructured covariance matrix was assumed.||2.76|-0.63|0.22
92261387|NCT00692198|184424742|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.52|TWO_SIDED|95.0|0.79|1.12|||Log Rank|||||1.12|0.79|0.52
92261388|NCT00692198|184424743|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.53|TWO_SIDED|95.0|0.64|1.25|||Log Rank||Hazard ratio, LTOT vs No LTOT|||1.25|0.64|0.53
92261389|NCT00692198|184424744|SUPERIORITY_OR_OTHER||Rate ratio|1.01||||0.81|TWO_SIDED|95.0|0.91|1.13|||Fisher Exact||Rate ratio, LTOT vs No LTOT|||1.13|0.91|0.81
92261390|NCT00692198|184424746|SUPERIORITY_OR_OTHER||Rate ratio|1.08||||0.12|TWO_SIDED|95.0|0.98|1.19|||Fisher Exact||Rate ratio, LTOT vs No LTOT|||1.19|0.98|0.12
92261391|NCT00692198|184424747|SUPERIORITY_OR_OTHER|||||||0.73|||||||t-test, 2 sided|||||||0.73
92261392|NCT00692198|184424748|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.21
92261393|NCT00692198|184424749|SUPERIORITY_OR_OTHER|||||||0.71|||||||t-test, 2 sided|||||||0.71
92261394|NCT00692198|184424750|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
92261395|NCT00692198|184424751|SUPERIORITY_OR_OTHER|||||||0.28|||||||t-test, 2 sided|||||||0.28
92261396|NCT00692198|184424752|SUPERIORITY_OR_OTHER|||||||0.41|||||||t-test, 2 sided|||||||0.41
92261397|NCT00692198|184424753|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.09|||||TWO_SIDED|95.0|0.54|8.0|||||Relative risk, LTOT vs No LTOT|||8.00|0.54|
92261398|NCT00692198|184424754|SUPERIORITY_OR_OTHER|||||||0.37|||||||t-test, 2 sided|||||||0.37
92261399|NCT00692198|184424755|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.21
92285005|NCT02605395|184474583|EQUIVALENCE|The confidence intervals of logarithmically transformed ratio (Idiazole/Pariet) for Cmax to be within 80-125% to prove equivalency.|Ratio of means|95.71|||||TWO_SIDED|90.0|90.12|101.65||||||||101.65|90.12|
92285006|NCT02605395|184474584|EQUIVALENCE|The confidence intervals of logarithmically transformed ratio (Idiazole/Pariet) for AUC(0-t) to be within 80-125% to prove equivalency.|Ratio of means|96.5|||||TWO_SIDED|90.0|90.02|103.44||||||||103.44|90.02|
92285007|NCT02605395|184474585|EQUIVALENCE|The confidence intervals of logarithmically transformed ratio (Idiazole/Pariet) for AUC (0 to infinity) to be within 80-125% to prove equivalency.|Ratio of means|95.69|||||TWO_SIDED|90.0|87.06|105.17||||||||105.17|87.06|
92285008|NCT00696020|184474593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.027||0.3791|TWO_SIDED|95.0|-0.029|0.076||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.076|-0.029|0.3791
92285009|NCT00696020|184474593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.027||0.2133|TWO_SIDED|95.0|-0.019|0.085||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.085|-0.019|0.2133
92285010|NCT00696020|184474593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.027||0.0337|TWO_SIDED|95.0|0.004|0.11||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.110|0.004|0.0337
92285011|NCT00696020|184474594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.026||0.1163|TWO_SIDED|95.0|-0.01|0.093||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.093|-0.010|0.1163
92285012|NCT00696020|184474594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.026||0.0224|TWO_SIDED|95.0|0.009|0.111||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.111|0.009|0.0224
92285013|NCT00696020|184474594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|STANDARD_ERROR_OF_MEAN|0.026||0.038|TWO_SIDED|95.0|0.003|0.107||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.107|0.003|0.0380
92285014|NCT00696020|184474595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.047||0.9573|TWO_SIDED|95.0|-0.089|0.094|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.094|-0.089|0.9573
92261400|NCT03330275|184424756|NON_INFERIORITY|A non-inferiority margin of -0.25 was used. Non-inferioirty was concluded if the lower limit of the 95% CI was above 0.25.|Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.0574|||TWO_SIDED|95.0|-0.045|0.183|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom|Mean difference was calculated as Test - Control 1|It was calculated that a total of 24 participants was required to show that the Test lens is non-inferior to the control 1 lens with 80% power. Sample size for this study was based on night driving only.||0.183|-0.045|
92261401|NCT03330275|184424757|NON_INFERIORITY|A non-inferiority margin of 0.1 logMAR was used. Non-inferiority was concluded if the upper limit was below 0.1.|Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.0076|||TWO_SIDED|95.0|-0.043|-0.012|||Linear Mixed Model|Kenward and Roger Method was used for the degrees of freedom.|Mean difference was calculated as Test - Control 1|||-0.012|-0.043|
92261402|NCT03330275|184424758|EQUIVALENCE|Equivalence was concluded if 0 was contained in the 95% confidence interval.|Odds Ratio (OR)|3.162|||||TWO_SIDED|95.0|0.442|22.604|||Generalized Estimating Equation||Odds ratio was calculated as Test over Control 1|||22.604|0.442|
92261403|NCT03330275|184424759|EQUIVALENCE|Equivalence was concluded if 0 was contained in the 95% confidence interval.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.82|1.16|||Generalized Linear Mixed Model||Odds ratio was calculated as Test over Control1|||1.16|0.82|
92261404|NCT03330275|184424760|EQUIVALENCE|Equivalence was concluded if 0 was contained in the 95% confidence interval.|Mean Difference (Final Values)|17.8|STANDARD_ERROR_OF_MEAN|5.29|||TWO_SIDED|95.0|7.1|28.5|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Test - Control 1|||28.5|7.1|
92261405|NCT03330275|184424761|EQUIVALENCE|Equivalence was concluded if 0 was contained in the 95% confidence interval.|Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.33|1.74|||Generalized Linear Mixed Model||Odds Ratio was calculated as Test over Control 1|||1.74|0.33|
92285015|NCT00696020|184474595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.046||0.0321|TWO_SIDED|95.0|0.009|0.189|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.189|0.009|0.0321
92261406|NCT03330275|184424762|EQUIVALENCE|Equivalence was concluded if 0 was contained in the 95% confidence interval.|Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|7.93|||TWO_SIDED|95.0|-11.4|20.7|||Linear Mixed Model|Kenward and Roger Method was used for denominator Degrees of Freedom.|Mean difference was calculated as Test - Control 1|||20.7|-11.4|
92285016|NCT00696020|184474595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.047||0.0125|TWO_SIDED|95.0|0.025|0.209|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.209|0.025|0.0125
92285017|NCT00696020|184474596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.03||0.0052|TWO_SIDED|95.0|0.026|0.145|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.145|0.026|0.0052
92261407|NCT02577107|184424771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.314|STANDARD_ERROR_OF_MEAN|4.1613|||TWO_SIDED|95.0|9.618|31.011||||||||31.011|9.618|
92285018|NCT00696020|184474596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.03||0.0086|TWO_SIDED|95.0|0.02|0.138|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.138|0.020|0.0086
92261408|NCT02988115|184424793|SUPERIORITY||Least squares means difference|-21.41|STANDARD_ERROR_OF_MEAN|1.897|<|0.001|TWO_SIDED|95.0|-25.132|-17.697|||ANCOVA||bempedoic acid (BA) therapy minus placebo|||-17.697|-25.132|<0.001
92261409|NCT02988115|184424794|SUPERIORITY||Least squares means difference|-18.91|STANDARD_ERROR_OF_MEAN|2.063|<|0.001|TWO_SIDED|95.0|-22.951|-14.865|||ANCOVA||BA therapy minus placebo|||-14.865|-22.951|<0.001
92261410|NCT02988115|184424795|SUPERIORITY||Least squares means difference|-17.94|STANDARD_ERROR_OF_MEAN|1.597|<|0.001|TWO_SIDED|95.0|-21.07|-14.811|||ANCOVA||BA therapy minus placebo|non-HDL-C||-14.811|-21.070|<0.001
92261411|NCT02988115|184424795|SUPERIORITY||Least squares means difference|-14.76|STANDARD_ERROR_OF_MEAN|1.287|<|0.001|TWO_SIDED|95.0|-17.283|-12.239|||ANCOVA||BA therapy minus placebo|TC||-12.239|-17.283|<0.001
92261412|NCT02988115|184424795|SUPERIORITY||Least squares means difference|-14.96|STANDARD_ERROR_OF_MEAN|1.581|<|0.001|TWO_SIDED|95.0|-18.062|-11.866|||ANCOVA||BA therapy minus placebo|apoB||-11.866|-18.062|<0.001
92261413|NCT02988115|184424796|SUPERIORITY||Median treatment difference|-24.29|STANDARD_ERROR_OF_MEAN|-24.3|<|0.001|TWO_SIDED|95.0|-35.888|-12.712|||Wilcoxon rank sum test||BA therapy minus placebo|||-12.712|-35.888|<0.001
92261414|NCT00649220|184424848|SUPERIORITY_OR_OTHER|||||||0.22626||95.0|||||t-test, 2 sided|||Two-side, paired t-test on the null hypothesis that antipsychotics are reduced by 10% compared to baseline||||0.22626
92261415|NCT00649220|184424848|SUPERIORITY_OR_OTHER|||||||0.34192||95.0|||||Wilcoxon signed rank test|||Wilcoxon signed rank test on the null hypothesis that antipsychotics are reduced by 10% compared to baseline||||0.34192
92261416|NCT04594213|184424864|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261417|NCT04594213|184424865|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261418|NCT04594213|184424866|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261419|NCT04594213|184424867|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261420|NCT04594213|184424868|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261421|NCT04594213|184424869|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261422|NCT04594213|184424870|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261423|NCT04594213|184424871|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261424|NCT04594213|184424872|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261425|NCT04594213|184424873|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92261426|NCT04594213|184424874|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261427|NCT04594213|184424874|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261428|NCT04594213|184424875|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261429|NCT04594213|184424875|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261430|NCT04594213|184424876|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
92261431|NCT04594213|184424877|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92261432|NCT04594213|184424877|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92261433|NCT00104299|184424887|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin of -20%|Difference between group success rates|10.6|||<|0.001||95.1|-3.2|24.3||P-value is adjusted for interim analysis using a Lan-DeMets alpha spending function with an O'Brien-Fleming boundary, allocating 0.003 alpha to the interim analysis and 0.049 alpha to the final analysis.|95.1% CI of difference|Calculate 95.1% CI around the difference in success rates between arms. Lower bound above non-inferiority margin of -20% indicates non-inferiority.||In calculating the sample size, we assumed that the percentage of patients in both treatment groups would achieve disease remission off prednisone by 6 months was 70%. We specified a non-inferiority margin of -20% on the difference in remission rates (rituximab rate minus cyclophosphamide rate) and a one-sided 0.025 level test. Assuming a 10% dropout rate, RAVE required 100 patients in each arm to have 83% power to conclude non-inferiority.||24.3|-3.2|<0.001
92261434|NCT00104299|184424888|SUPERIORITY_OR_OTHER|||||||0.927||||||P-value is from the Poisson regression model adjusting for clinical study site and ANCA type. The natural logarithm of participant-months is used as an offset in this model|Poisson regression model|||Participant-months are defined as duration in months from the first study drug dosing date to the last date of the participant in the protocol. The rate of selected AEs is defined as the total number of selected AEs divided by total participant-months, and indicates the number of events per participant per month on average. Participants are grouped according to their originally received treatment.||||0.927
92261435|NCT00104299|184424889|SUPERIORITY_OR_OTHER||95.1% Confidence Interval of Difference|10.6||||0.133|TWO_SIDED|95.1|-3.2|24.4|||Chi-squared|At 6 months, the confidence interval is 95.1%.||The p-value is from a chi-square test.||24.4|-3.2|0.133
92261436|NCT00104299|184424890|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9||||0.761|TWO_SIDED|95.0|0.5|1.7||The log-rank test assesses the difference between the two treatment arms in the flaring pattern after complete remission|Log Rank|The log-rank test assesses the difference between the two treatment arms in the flaring pattern after complete remission||Participants are censored at the time of crossover, open label rituximab, or best medical judgement, if applicable. If a participant has no flare after complete remission prior to their Month 18 visit, the duration is censored at the date of the Month 18 Visit||1.7|0.5|0.761
92261437|NCT00104299|184424891|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9||||0.861|TWO_SIDED|95.0|0.6|1.5|||Log Rank|The log-rank test assesses the difference between the two treatment arms in the flaring pattern after remission||Participants are censored at the time of crossover, open label rituximab, or best medical judgement, if applicable. If a participant has no flare after complete remission prior to their Month 18 visit, the duration is censored at the date of the Month 18 Visit||1.5|0.6|0.861
92265560|NCT00798161|184432799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001||95.0|-24.9|-8.8|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-8.8|-24.9|<0.0001
92261438|NCT00104299|184424892|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.0||||0.497|TWO_SIDED|95.0|0.7|1.3|||Log Rank|The log-rank test assesses the difference between the two treatment arms in the pattern of achieving remission|The hazard ratio and confidence interval are based on a Cox proportional hazard model comparing rituximab to the control group, adjusting for clinical study site, ANCA type, and glucocorticoid use prior to baseline.|||1.3|0.7|0.497
92261439|NCT00104299|184424893|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.3||||0.147|TWO_SIDED|95.0|0.9|1.8|||Log Rank|The log-rank test assesses the difference between the two treatment arms in the pattern of achieving complete remission|The hazard ratio and confidence interval are based on a Cox proportional hazard model comparing rituximab to the control group, adjusting for clinical study site, ANCA type, and glucocorticoid use prior to baseline.|||1.8|0.9|0.147
92261440|NCT00104299|184424894|SUPERIORITY_OR_OTHER|||||||0.504||95.0|||||Chi-squared|||Proportions of subjects experiencing a serious adverse event through 18 months and prior to censoring for open-label, crossover, or best medical judgment according to originally assigned treatment arm were compared using a two-sided Chi-squared test.||||0.504
92261441|NCT04646668|184424903|SUPERIORITY|Due to the pilot nature of the current study, formal power calculations were not conducted.||||||0.002|||||||ANOVA|||The null hypothesis is that there is no difference in nicotine delivery between cigarettes, e-cigarettes, and heat not burn after the standardized 10-puff bout. ANOVAs were conducted to detect differences between products for nicotine concentration at five minutes (immediately following 10-puff bout). The test was performed with a significance level of 0.05 (two-sided).||||0.002
92261442|NCT03288987|184424909|NON_INFERIORITY|Noninferiority was declared by comparing the 90% CI for the hazard ratio (HR) of the AryoGen Pharmed Bevacizumab to the reference product (Roche Bevacizumab) to the point-estimate margin and was based on the synthesis method.|Hazard Ratio (HR)|0.79||||0.47|TWO_SIDED|90.0|0.46|1.35|||Regression, Cox|Upper limit of CI is lower than the noninferiority margin (1.44).|The 90 % CI based on synthesis method is (0.45,1.38). In HR calculation, the AryoGen Pharmed Bevacizumab to Roche Bevacizumab was reported. (reference group was Roche Bevacizumab)|||1.35|0.46|0.47
92261443|NCT03288987|184424910|OTHER||Hazard Ratio (HR)|0.99||||0.99|TWO_SIDED|95.0|0.55|1.8|||Regression, Cox||In HR calculation, the AryoGen Pharmed Bevacizumab to Roche Bevacizumab was reported. (reference group was Roche Bevacizumab)|||1.80|0.55|0.99
92261444|NCT03288987|184424911|OTHER|||||||0.17|||||||Fisher's Exact Test|||||||0.17
92261445|NCT03288987|184424912|OTHER||Hazard Ratio (HR)|1.11||||0.59|TWO_SIDED|95.0|0.76|1.61|||Regression, Cox||In HR calculation, the AryoGen Pharmed Bevacizumab to Roche Bevacizumab was reported. (reference group was Roche Bevacizumab)|||1.61|0.76|0.59
92261446|NCT03288987|184424913|OTHER||||||>|0.05|||||||Fisher's Exact Test|||||||>0.05
92261447|NCT00608426|184424915|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Regression, Logistic|||||||.02
92261448|NCT00608426|184424916|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||for the comparison of telephone counseling between the two groups|Mixed effects logistic regression|||||||<.001
92261449|NCT00608426|184424916|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED|||||for the comparison of in-person counseling between the two groups|Mixed effects logistic regression|||||||0.57
92261450|NCT00608426|184424916|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|||||for the comparison of used medications between the two groups|Mixed effects logistic regression|||||||.15
92261451|NCT00608426|184424916|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||for the comparison of combination counseling and medication between the two groups|Mixed effects logistic regression|||||||<.001
92261452|NCT00608426|184424916|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED|||||for the comparison of attended VA smoking cessation clinic between the two groups|Mixed effects logistic regression|||||||.77
92261453|NCT00608426|184424916|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||for the comparison of received VA smoking cessation medication between the two groups|Mixed effects logistic regression|||||||.002
92261454|NCT00608426|184424917|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Regression, Logistic|||||||0.13
92261455|NCT00368069|184424920|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.155||||0.038||95.0|0.009|0.301|||ANCOVA|Analysis of covariance (ANCOVA) on (log-) POS freq/week over Treatment period with Treatment, (log-) Baseline POS freq/week as covariate.||||0.301|0.009|0.038
92265561|NCT00798161|184432799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.5|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001||95.0|-29.5|-13.4|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-13.4|-29.5|<0.0001
92285019|NCT00696020|184474596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.066|0.185|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.185|0.066|<0.0001
92285020|NCT00696020|184474597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116|STANDARD_ERROR_OF_MEAN|0.056||0.0384|TWO_SIDED|95.0|0.006|0.225|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.225|0.006|0.0384
92285021|NCT00696020|184474597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.055||0.0009|TWO_SIDED|95.0|0.076|0.292|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.292|0.076|0.0009
92285022|NCT00696020|184474597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.239|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|0.13|0.349|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.349|0.130|<0.0001
92285023|NCT00696020|184474598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.357|STANDARD_ERROR_OF_MEAN|6.76||0.001|TWO_SIDED|95.0|9.057|35.657|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||35.657|9.057|0.0010
92285024|NCT00696020|184474598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.769|STANDARD_ERROR_OF_MEAN|6.687||0.0053|TWO_SIDED|95.0|5.613|31.924|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||31.924|5.613|0.0053
92285025|NCT00696020|184474598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.954|STANDARD_ERROR_OF_MEAN|6.805|<|0.0001|TWO_SIDED|95.0|13.565|40.343|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||40.343|13.565|<0.0001
92285026|NCT00696020|184474599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.031||0.0048|TWO_SIDED|95.0|0.027|0.149|||ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.149|0.027|0.0048
92261456|NCT00368069|184424920|SUPERIORITY_OR_OTHER_LEGACY||Percent reduction over Placebo|14.4||||||95.0|0.9|26.0|||Transf. of ANCOVA results on log data|Percent Reduction of Keppra over PBO is calculated based on the ANCOVA on log data as 100\*(1-exp(LSmeans Keppra -LSMeans Placebo))||Treatment difference was assessed through the percent reduction in POS freq/week of Keppra over Placebo by back transformation of the results of the ANCOVA on log data||26.0|0.9|
92261457|NCT00368069|184424922|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.158||||0.034||95.0|0.012|0.305|||ANCOVA|ANCOVA on (log-) seizure frequency per week over Treatment period with Treatment, (log-) Baseline seizure frequency per week as covariate.||||0.305|0.012|0.034
92261458|NCT00368069|184424922|SUPERIORITY_OR_OTHER_LEGACY||Percent reduction over Placebo|14.7||||||95.0|1.2|26.3|||Transf. of ANCOVA results on log data|Percent Reduction of Keppra over Placebo is calculated based on the ANCOVA on log data as 100\*(1-exp(LSmeans Keppra -LSMeans Placebo))||Treatment difference was assessed through the percent reduction in POS frequency per week of Keppra over Placebo by back transformation of the results of the ANCOVA on log data||26.3|1.2|
92261459|NCT00368069|184424923|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.84||||0.07||95.0|0.95|3.55|||Regression, Logistic|Logistic regression analysis including Treatment as a factor.|Based on the number of evaluable patients. A patient is considered as evaluable for the response status if he has seizure information in at least one of the period (baseline or treatment period.|||3.55|0.95|0.070
92181227|NCT02307682|184260725|OTHER||Difference in proportions|-3.4|||||TWO_SIDED|95.0|-9.0|1.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||1.9|-9.0|
92181228|NCT02307682|184260725|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|-1.9|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||8.1|-1.9|
92261460|NCT00368069|184424924|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033||95.0|||||Mantel Haenszel|Subjects with missing data during the Treatment period were considered in the category \<-25%.||||||0.033
92261461|NCT00368069|184424925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.205||||0.003||95.0|0.07|0.341|||ANCOVA|ANCOVA on (log-) Treatment POS frequency per week with Treatment and (log-) Baseline POS frequency per week as covariate||||0.341|0.070|0.003
92285027|NCT00696020|184474599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.031||0.0056|TWO_SIDED|95.0|0.025|0.146|||ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.146|0.025|0.0056
92285028|NCT00696020|184474599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.066|0.189|||ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.189|0.066|<0.0001
92261462|NCT00368069|184424925|SUPERIORITY_OR_OTHER_LEGACY||Percent reduction over Placebo|18.6||||||95.0|6.7|28.9|||Transf. of ANCOVA results on log data|Percent Reduction of Keppra over Placebo is calculated based on the ANCOVA on log data as 100\*(1-exp(LSmeans Keppra -LSMeans Placebo))||Treatment difference was assessed through the percent reduction in POS frequency per week of Keppra over Placebo by back transformation of the results of the ANCOVA on log data||28.9|6.7|
92261463|NCT02532998|184424960|SUPERIORITY_OR_OTHER||Treatment differences|-1.258|||||TWO_SIDED|90.0|-1.721|0.7945|||mixed linear model|Analyses done using mixed linear model involving fixed effect, random effect, and a covariate.||Statistical analysis of urinary sodium/potassium ratio between Treatment C and Treatment D.||0.7945|-1.721|
92261464|NCT02532998|184424975|SUPERIORITY_OR_OTHER||Treatment differences|3.409|||||TWO_SIDED|90.0|2.946|3.872|||mixed linear model|Analyses done using mixed linear model involving fixed effect, random effect, and a covariate.||Statistical analysis of urinary sodium/potassium ratio between Treatment A and Treatment B.||3.872|2.946|
92181229|NCT02307682|184260725|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-3.9|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||6.4|-3.9|
92261465|NCT00529152|184425011|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Regression, Linear|||Change in Serum Ferritin from baseline to week 24 was compared using regression analysis; null hypothesis was defined as no change in serum ferritin from baseline to week 24||||0.0005
92261466|NCT01497899|184425026|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the E/C/F/TAF group was at least 12% lower than the E/C/F/TDF group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL at Week 24. The alternative hypothesis was that the E/C/F/TAF group was less than 12% lower than the E/C/F/TDF group.|Difference in percentages|-2.9||||0.58|TWO_SIDED|95.0|-13.5|7.7|||Cochran-Mantel-Haenszel|P-value comparing the percentages of virologic success was from the Cochran-Mantel-Haenszel (CMH) test stratified by baseline HIV-1 RNA stratum.|Difference in percentages of virologic success and its 95% confidence interval (CI) were calculated based on baseline HIV-1 RNA stratum-adjusted Mantel-Haenszel (MH) proportion.|||7.7|-13.5|0.58
92261467|NCT00082628|184425031|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Nonparametric ANCOVA Model|||||||<0.001
92261468|NCT03481634|184425036|NON_INFERIORITY|Non-inferiority (4-letter margin)|LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.81|<|0.001|TWO_SIDED|95.0|-2.9|0.3||1-sided p-value|ANOVA|||||0.3|-2.9|<0.001
92261469|NCT03481634|184425036|NON_INFERIORITY|Non-inferiority (4-letter margin)|LS mean difference|-3.3|STANDARD_ERROR_OF_MEAN|0.94||0.227|TWO_SIDED|95.0|-5.1|-1.4||1-sided p-value|ANOVA|||||-1.4|-5.1|0.227
92261470|NCT03481634|184425037|NON_INFERIORITY|Non-inferiority (4-letter margin)|Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|0.75|<|0.001|TWO_SIDED|95.0|-3.0|0.0||(1-sided)|ANOVA|||||-0.0|-3.0|<0.001
92261471|NCT03481634|184425037|NON_INFERIORITY|Non-inferiority (4-letter margin)|Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-5.2|-1.7||(1-sided)|ANOVA|||||-1.7|-5.2|
92261472|NCT03481634|184425041|OTHER|Descriptive|LS mean difference|-3.8|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|-6.0|-1.7|||ANOVA|||||-1.7|-6.0|
92285029|NCT00696020|184474600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.056||0.0332|TWO_SIDED|95.0|0.01|0.23|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.230|0.010|0.0332
92261473|NCT03481634|184425041|OTHER|Descriptive|LS mean difference|-2.0|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-4.0|0.1|||ANOVA|||||0.1|-4.0|
92261474|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|8.68|||TWO_SIDED|95.0|-17.7|16.4|||ANOVA|||Week 4||16.4|-17.7|
92261475|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-2.1|STANDARD_ERROR_OF_MEAN|8.41|||TWO_SIDED|95.0|-18.7|14.4|||ANOVA|||Week 4||14.4|-18.7|
92261476|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|12.2|STANDARD_ERROR_OF_MEAN|8.87|||TWO_SIDED|95.0|-5.2|29.7|||ANOVA|||Week 6||29.7|-5.2|
92261477|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|8.38|||TWO_SIDED|95.0|-14.0|18.9|||ANOVA|||Week 6||18.9|-14.0|
92261478|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|1.0|STANDARD_ERROR_OF_MEAN|8.61|||TWO_SIDED|95.0|-16.0|17.9|||ANOVA|||Week 8||17.9|-16.0|
92261479|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-3.4|STANDARD_ERROR_OF_MEAN|8.28|||TWO_SIDED|95.0|-19.6|12.9|||ANOVA|||Week 8||12.9|-19.6|
92261480|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|6.4|STANDARD_ERROR_OF_MEAN|8.73|||TWO_SIDED|95.0|-10.7|23.6|||ANOVA|||Week 12||23.6|-10.7|
92261481|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|2.8|STANDARD_ERROR_OF_MEAN|8.85|||TWO_SIDED|95.0|-14.6|20.2|||ANOVA|||Week 12||20.2|-14.6|
92261482|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|1.0|STANDARD_ERROR_OF_MEAN|8.5|||TWO_SIDED|95.0|-15.7|17.8|||ANOVA|||Week 16||17.8|-15.7|
92261483|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-3.4|STANDARD_ERROR_OF_MEAN|8.29|||TWO_SIDED|95.0|-19.7|12.9|||ANOVA|||Week 16||12.9|-19.7|
92261484|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|8.9|STANDARD_ERROR_OF_MEAN|8.92|||TWO_SIDED|95.0|-8.6|26.5|||ANOVA|||Week 18||26.5|-8.6|
92261485|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|2.6|STANDARD_ERROR_OF_MEAN|8.47|||TWO_SIDED|95.0|-14.1|19.2|||ANOVA|||Week 18||19.2|-14.1|
92261486|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-3.4|STANDARD_ERROR_OF_MEAN|8.55|||TWO_SIDED|95.0|-20.2|13.4|||ANOVA|||Week 20||13.4|-20.2|
92261487|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-5.8|STANDARD_ERROR_OF_MEAN|8.12|||TWO_SIDED|95.0|-21.7|10.2|||ANOVA|||Week 20||10.2|-21.7|
92261488|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-13.9|STANDARD_ERROR_OF_MEAN|9.06|||TWO_SIDED|95.0|-31.7|3.9|||ANOVA|||Week 24||3.9|-31.7|
92261489|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-17.8|STANDARD_ERROR_OF_MEAN|8.95|||TWO_SIDED|95.0|-35.4|-0.2|||ANOVA|||Week 24||-0.2|-35.4|
92261490|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-8.7|STANDARD_ERROR_OF_MEAN|8.26|||TWO_SIDED|95.0|-25.0|7.5|||ANOVA|||Week 28||7.5|-25.0|
92261491|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-8.7|STANDARD_ERROR_OF_MEAN|8.49|||TWO_SIDED|95.0|-25.4|8.0|||ANOVA|||Week 28||8.0|-25.4|
92261492|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-3.2|STANDARD_ERROR_OF_MEAN|9.49|||TWO_SIDED|95.0|-21.8|15.5|||ANOVA|||Week 32||15.5|-21.8|
92261493|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-11.7|STANDARD_ERROR_OF_MEAN|9.02|||TWO_SIDED|95.0|-29.5|6.0|||ANOVA|||Week 32||6.0|-29.5|
92261494|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|36.3|STANDARD_ERROR_OF_MEAN|11.01|||TWO_SIDED|95.0|14.6|57.9|||ANOVA|||Week 36||57.9|14.6|
92261495|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|20.4|STANDARD_ERROR_OF_MEAN|9.97|||TWO_SIDED|95.0|0.7|40.0|||ANOVA|||Week 36||40.0|0.7|
92261496|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-6.1|STANDARD_ERROR_OF_MEAN|9.19|||TWO_SIDED|95.0|-24.2|11.9|||ANOVA|||Week 40||11.9|-24.2|
92261497|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-6.5|STANDARD_ERROR_OF_MEAN|9.5|||TWO_SIDED|95.0|-25.2|12.2|||ANOVA|||Week 40||12.2|-25.2|
92261498|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|7.9|STANDARD_ERROR_OF_MEAN|9.33|||TWO_SIDED|95.0|-10.4|26.3|||ANOVA|||Week 44||26.3|-10.4|
92261499|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|1.1|STANDARD_ERROR_OF_MEAN|8.78|||TWO_SIDED|95.0|-16.2|18.3|||ANOVA|||Week 44||18.3|-16.2|
92261500|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|13.6|STANDARD_ERROR_OF_MEAN|9.84|||TWO_SIDED|95.0|-5.8|32.9|||ANOVA|||Week 48||32.9|-5.8|
92261501|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|4.7|STANDARD_ERROR_OF_MEAN|9.26|||TWO_SIDED|95.0|-13.5|23.0|||ANOVA|||Week 48||23.0|-13.5|
92261502|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|4.3|STANDARD_ERROR_OF_MEAN|9.52|||TWO_SIDED|95.0|-14.5|23.0|||ANOVA|||Week 52||23.0|-14.5|
92261503|NCT03481634|184425044|OTHER|Descriptive|LS mean difference|-5.1|STANDARD_ERROR_OF_MEAN|8.78|||TWO_SIDED|95.0|-22.3|12.2|||ANOVA|||Week 52||12.2|-22.3|
92261504|NCT03481634|184425045|OTHER|Descriptive|LS mean difference|1.7|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|95.0|-16.6|20.0|||ANOVA|||||20.0|-16.6|
92261505|NCT03481634|184425045|OTHER|Descriptive|LS mean difference|-3.5|STANDARD_ERROR_OF_MEAN|8.79|||TWO_SIDED|95.0|-20.7|13.8|||ANOVA|||||13.8|-20.7|
92261506|NCT03481634|184425052|OTHER|Descriptive; Week 28|Difference - %|1.6|||||TWO_SIDED|95.0|-5.3|8.4|||Bootstrap method|||||8.4|-5.3|
92261507|NCT03481634|184425052|OTHER|Descriptive; Week 28|Difference - %|4.1|||||TWO_SIDED|95.0|-2.1|10.3|||Bootstrap method|||||10.3|-2.1|
92261508|NCT03481634|184425052|OTHER|Descriptive; Week 52|Difference - %|5.8|||||TWO_SIDED|95.0|-1.2|12.4|||Bootstrap method|||||12.4|-1.2|
92261509|NCT03481634|184425052|OTHER|Descriptive; Week 52|Difference - %|6.7|||||TWO_SIDED|95.0|0.6|12.9|||Bootstrap method|||||12.9|0.6|
92261510|NCT03481634|184425052|OTHER|Descriptive: Week 76|Difference - %|2.8|||||TWO_SIDED|95.0|-3.9|9.4|||Bootstrap method|||||9.4|-3.9|
92261511|NCT03481634|184425052|OTHER|Descriptive: Week 76|Difference - %|0.7|||||TWO_SIDED|95.0|-5.7|7.0|||Bootstrap method|||||7.0|-5.7|
92261512|NCT03481634|184425052|OTHER|Descriptive: Week 100|Difference - %|1.7|||||TWO_SIDED|95.0|-5.0|8.1|||Bootstrap method|||||8.1|-5.0|
92261513|NCT03481634|184425052|OTHER|Descriptive: Week 100|Difference - %|2.2|||||TWO_SIDED|95.0|-4.0|8.4|||Bootstrap method|||||8.4|-4.0|
92261514|NCT03481634|184425054|OTHER|Descriptive; Week 28|Difference - %|-0.3|||||TWO_SIDED|95.0|-6.4|5.8|||Bootstrap method|||||5.8|-6.4|
92261515|NCT03481634|184425054|OTHER|Descriptive; Week 28|Difference - %|4.6|||||TWO_SIDED|95.0|-1.3|11.0|||Bootstrap method|||||11.0|-1.3|
92261516|NCT03481634|184425054|OTHER|Descriptive; Week 52|Difference - %|-4.2|||||TWO_SIDED|95.0|-10.2|2.2|||Bootstrap method|||||2.2|-10.2|
92261517|NCT03481634|184425054|OTHER|Descriptive; Week 52|Difference - %|3.9|||||TWO_SIDED|95.0|-2.2|10.5|||Bootstrap method|||||10.5|-2.2|
92261518|NCT03481634|184425054|OTHER|Descriptive; Week 72|Difference - %|-9.2|||||TWO_SIDED|95.0|-15.5|-2.8|||Bootstrap method|||||-2.8|-15.5|
92261519|NCT03481634|184425054|OTHER|Descriptive; Week 72|Difference - %|-2.3|||||TWO_SIDED|95.0|-8.4|4.4|||Bootstrap method|||||4.4|-8.4|
92261520|NCT03481634|184425054|OTHER|Descriptive; Week 100|Difference - %|-7.7|||||TWO_SIDED|95.0|-14.0|-1.6|||Bootstrap method|||||-1.6|-14.0|
92261521|NCT03481634|184425054|OTHER|Descriptive; Week 100|Difference - %|0.4|||||TWO_SIDED|95.0|-5.7|6.8|||Bootstrap method|||||6.8|-5.7|
92261522|NCT03099304|184425076|SUPERIORITY||Odds Ratio (OR)|13.79||||0.0057|TWO_SIDED|95.0|1.73|640.85||The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression|||||640.85|1.73|0.0057
92261523|NCT03099304|184425076|SUPERIORITY||Odds Ratio (OR)|10.3||||0.0243|TWO_SIDED|95.0|1.24|487.28||The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression|||||487.28|1.24|0.0243
92261524|NCT03099304|184425076|SUPERIORITY||Odds Ratio (OR)|28.48|||<|0.0001|TWO_SIDED|95.0|3.74|1305.2||The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression|||||1305.2|3.74|<0.0001
92261525|NCT03099304|184425076|SUPERIORITY||Odds Ratio (OR)|24.66||||0.0001|TWO_SIDED|95.0|3.28|1121.4||The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression|||||1121.4|3.28|0.0001
92261526|NCT03099304|184425077|SUPERIORITY||Odds Ratio (OR)|1.03||||0.4936|TWO_SIDED|95.0|0.05||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression||||||0.05|0.4936
92261527|NCT03099304|184425077|SUPERIORITY||Odds Ratio (OR)|4.16||||0.114|TWO_SIDED|95.0|0.62||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression||||||0.62|0.1140
92261528|NCT03099304|184425077|SUPERIORITY||Odds Ratio (OR)|6.1||||0.0501|TWO_SIDED|95.0|1.0||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression||||||1.00|0.0501
92261529|NCT03099304|184425077|SUPERIORITY||Odds Ratio (OR)|3.89||||0.1257|TWO_SIDED|95.0|0.58||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression||||||0.58|0.1257
92261530|NCT03099304|184425078|SUPERIORITY||Odds Ratio (OR)|1.19||||0.9794|TWO_SIDED|95.0|0.33|4.33|||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).||||4.33|0.33|0.9794
92261531|NCT03099304|184425078|SUPERIORITY||Odds Ratio (OR)|1.69||||0.4893|TWO_SIDED|95.0|0.51|5.86|||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).||||5.86|0.51|0.4893
92265562|NCT00798161|184432799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.6|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001||95.0|-33.6|-17.6|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-17.6|-33.6|<0.0001
92265563|NCT00798161|184432800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001||95.0|-26.7|-9.1|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-9.1|-26.7|<0.0001
92285030|NCT00696020|184474600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|0.055||0.0011|TWO_SIDED|95.0|0.074|0.292|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.292|0.074|0.0011
92285031|NCT00696020|184474600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|0.128|0.349|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.349|0.128|<0.0001
92285032|NCT00696020|184474601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.867|STANDARD_ERROR_OF_MEAN|6.813||0.0009|TWO_SIDED|95.0|9.462|36.272|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||36.272|9.462|0.0009
92285033|NCT00696020|184474601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.743|STANDARD_ERROR_OF_MEAN|6.739||0.0036|TWO_SIDED|95.0|6.484|33.002|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||33.002|6.484|0.0036
92285034|NCT00696020|184474601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.793|STANDARD_ERROR_OF_MEAN|6.859|<|0.0001|TWO_SIDED|95.0|14.298|41.287|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||41.287|14.298|<0.0001
92285035|NCT00696020|184474602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.033||0.0079|TWO_SIDED|95.0|0.023|0.152|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.152|0.023|0.0079
92285036|NCT00696020|184474602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.032||0.012|TWO_SIDED|95.0|0.018|0.146|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.146|0.018|0.0120
92285037|NCT00696020|184474602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.08|0.209|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.209|0.080|<0.0001
92285038|NCT00696020|184474603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.06||0.0296|TWO_SIDED|95.0|0.013|0.249|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.249|0.013|0.0296
92285039|NCT00696020|184474603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.059||0.0007|TWO_SIDED|95.0|0.087|0.32|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.320|0.087|0.0007
92285040|NCT00696020|184474603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|0.147|0.383|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.383|0.147|<0.0001
92285041|NCT00696020|184474604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.414|STANDARD_ERROR_OF_MEAN|7.057||0.001|TWO_SIDED|95.0|9.529|37.3|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||37.300|9.529|0.0010
92285042|NCT00696020|184474604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.695|STANDARD_ERROR_OF_MEAN|6.981||0.0078|TWO_SIDED|95.0|4.961|32.43|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||32.430|4.961|0.0078
92285043|NCT00696020|184474604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.357|STANDARD_ERROR_OF_MEAN|7.105|<|0.0001|TWO_SIDED|95.0|15.379|43.335|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||43.335|15.379|<0.0001
92285044|NCT00696020|184474606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.048||0.3517|TWO_SIDED|95.0|-0.049|0.138|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.138|-0.049|0.3517
92285045|NCT00696020|184474606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.048||0.3171|TWO_SIDED|95.0|-0.046|0.143|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.143|-0.046|0.3171
92285046|NCT00696020|184474606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.048||0.4654|TWO_SIDED|95.0|-0.06|0.13|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.130|-0.060|0.4654
92285047|NCT00696020|184474607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.106|STANDARD_ERROR_OF_MEAN|7.704||0.0899|TWO_SIDED|95.0|-2.055|28.267|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||28.267|-2.055|0.0899
92285048|NCT00696020|184474607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.817|STANDARD_ERROR_OF_MEAN|7.759||0.0111|TWO_SIDED|95.0|4.549|35.084|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||35.084|4.549|0.0111
92285049|NCT00696020|184474607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.893|STANDARD_ERROR_OF_MEAN|7.844||0.0166|TWO_SIDED|95.0|3.458|34.329|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||34.329|3.458|0.0166
92285050|NCT02511782|184474629|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92285051|NCT02511782|184474630|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92265564|NCT00798161|184432800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|4.5||0.0002||95.0|-25.6|-7.9|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-7.9|-25.6|0.0002
92265565|NCT00798161|184432800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.9|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001||95.0|-36.7|-19.1|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-19.1|-36.7|<0.0001
92265566|NCT00798161|184432800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-37.6|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001||95.0|-46.4|-28.8|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-28.8|-46.4|<0.0001
92265567|NCT00798161|184432801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.4|STANDARD_ERROR_OF_MEAN|4.7||0.0024||95.0|-23.7|-5.1|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-5.1|-23.7|0.0024
92265568|NCT00798161|184432801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.0|STANDARD_ERROR_OF_MEAN|4.8||0.0002||95.0|-27.4|-8.7|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-8.7|-27.4|0.0002
92265569|NCT00798161|184432801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.8|STANDARD_ERROR_OF_MEAN|4.7|<|0.0001||95.0|-37.1|-18.5|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-18.5|-37.1|<0.0001
92265570|NCT00798161|184432801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.5|STANDARD_ERROR_OF_MEAN|4.7|<|0.0001||95.0|-50.8|-32.2|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-32.2|-50.8|<0.0001
92265571|NCT00798161|184432802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.9|STANDARD_ERROR_OF_MEAN|4.8|<|0.0001||95.0|-30.4|-11.4|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-11.4|-30.4|<0.0001
92265572|NCT00798161|184432802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9|STANDARD_ERROR_OF_MEAN|4.9||0.0003||95.0|-27.4|-8.3|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-8.3|-27.4|0.0003
92265573|NCT00798161|184432802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.4|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|-35.0|-15.9|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-15.9|-35.0|<0.0001
92265574|NCT00798161|184432802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.0|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|-48.5|-29.4|||ANCOVA|||Linagliptin 5 mg vs. Linagliptin 2.5 mg with Metformin 1000 mg||-29.4|-48.5|<0.0001
92265575|NCT00798161|184432803|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.372||||0.0062||95.0|1.278|4.402|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||4.402|1.278|0.0062
92265576|NCT00798161|184432803|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.163|||<|0.0001||95.0|2.343|7.397|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||7.397|2.343|<0.0001
92265577|NCT00798161|184432803|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.854|||<|0.0001||95.0|2.363|9.973|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||9.973|2.363|<0.0001
92265578|NCT00798161|184432803|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.094|||<|0.0001||95.0|8.238|35.471|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||35.471|8.238|<0.0001
92265579|NCT00798161|184432805|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.465||||0.0102||95.0|1.342|8.943|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||8.943|1.342|0.0102
92265580|NCT00798161|184432805|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.521||||0.0004||95.0|1.747|7.094|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||7.094|1.747|0.0004
92265581|NCT00798161|184432805|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.521||||0.0053||95.0|1.564|13.069|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||13.069|1.564|0.0053
92265582|NCT00798161|184432805|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.947|||<|0.0001||95.0|4.314|33.08|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||33.080|4.314|<0.0001
92261532|NCT03099304|184425085|SUPERIORITY||Least squares mean (LSM) difference|-0.44|STANDARD_ERROR_OF_MEAN|0.16||0.0056|TWO_SIDED|95.0|-0.75|-0.13|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.13|-0.75|0.0056
92261533|NCT03099304|184425085|SUPERIORITY||LSM difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.0095|TWO_SIDED|95.0|-0.7|-0.1|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.10|-0.70|0.0095
92261534|NCT03099304|184425085|SUPERIORITY||LSM difference|-0.68|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-0.99|-0.37|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.37|-0.99|<0.0001
92261535|NCT03099304|184425085|SUPERIORITY||LSM difference|-0.51|STANDARD_ERROR_OF_MEAN|0.15||0.0011|TWO_SIDED|95.0|-0.8|-0.21|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.21|-0.80|0.0011
92261536|NCT03099304|184425087|SUPERIORITY||LSM difference|-36.71|STANDARD_ERROR_OF_MEAN|10.34||0.0005|TWO_SIDED|95.0|-57.15|-16.27|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-16.27|-57.15|0.0005
92261537|NCT03099304|184425087|SUPERIORITY||LM difference|-35.12|STANDARD_ERROR_OF_MEAN|10.01||0.0006|TWO_SIDED|95.0|-54.91|-15.33|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-15.33|-54.91|0.0006
92261538|NCT03099304|184425087|SUPERIORITY||LSM difference|-46.02|STANDARD_ERROR_OF_MEAN|10.35|<|0.0001|TWO_SIDED|95.0|-66.47|-25.57|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-25.57|-66.47|<0.0001
92261539|NCT03099304|184425087|SUPERIORITY||LSM difference|-43.8|STANDARD_ERROR_OF_MEAN|9.98|<|0.0001|TWO_SIDED|95.0|-63.52|-24.07|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-24.07|-63.52|<0.0001
92285052|NCT02514122|184474638|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.009|TWO_SIDED|95.0|0.29|1.9||The p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05.|t-test, 2 sided||Score was lower in the Ketamine group.|||1.9|0.29|0.009
92285053|NCT02514122|184474639|SUPERIORITY||Risk Difference (RD)|0.37|||<|0.001|TWO_SIDED|95.0|0.18|0.54|||Fisher Exact|||||.54|.18|<0.001
92261540|NCT03099304|184425094|SUPERIORITY||LSM difference|-2.84|STANDARD_ERROR_OF_MEAN|1.32||0.0326|TWO_SIDED|95.0|-5.44|-0.24|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.24|-5.44|0.0326
92261541|NCT03099304|184425094|SUPERIORITY||LSM difference|-2.74|STANDARD_ERROR_OF_MEAN|1.28||0.0333|TWO_SIDED|95.0|-5.26|-0.22|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.22|-5.26|0.0333
92261542|NCT03099304|184425094|SUPERIORITY||LSM difference|-5.08|STANDARD_ERROR_OF_MEAN|1.31||0.0002|TWO_SIDED|95.0|-7.68|-2.48|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-2.48|-7.68|0.0002
92285054|NCT01472341|184474653|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||Multivariate regression analysis|HOMA %B was the response variable and other study parameters were independent variables.||||||0.24
92261543|NCT03099304|184425094|SUPERIORITY||LSM difference|-4.08|STANDARD_ERROR_OF_MEAN|1.27||0.0016|TWO_SIDED|95.0|-6.59|-1.57|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-1.57|-6.59|0.0016
92261544|NCT03099304|184425096|SUPERIORITY||LSM difference|-23.53|STANDARD_ERROR_OF_MEAN|6.99||0.001|TWO_SIDED|95.0|-37.35|-9.71|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-9.71|-37.35|0.0010
92261545|NCT03099304|184425096|SUPERIORITY||LSM difference|-18.47|STANDARD_ERROR_OF_MEAN|6.77||0.0072|TWO_SIDED|95.0|-31.86|-5.08|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-5.08|-31.86|0.0072
92261546|NCT03099304|184425096|SUPERIORITY||LSM difference|-29.81|STANDARD_ERROR_OF_MEAN|6.98|<|0.0001|TWO_SIDED|95.0|-43.61|-16.0|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-16.00|-43.61|<0.0001
92261547|NCT03099304|184425096|SUPERIORITY||LSM difference|-25.56|STANDARD_ERROR_OF_MEAN|6.75||0.0002|TWO_SIDED|95.0|-38.89|-12.22|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-12.22|-38.89|0.0002
92261548|NCT03099304|184425108|SUPERIORITY||Odds Ratio (OR)|1.03||||0.4936|TWO_SIDED|95.0|0.05||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|||||0.05|0.4936
92261549|NCT03099304|184425108|SUPERIORITY||Odds Ratio (OR)|4.16||||0.114|TWO_SIDED|95.0|0.62||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|||||0.62|0.1140
92261550|NCT03099304|184425108|SUPERIORITY||Odds Ratio (OR)|6.1||||0.0501|TWO_SIDED|95.0|1.0||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|||||1.00|0.0501
92261551|NCT03099304|184425108|SUPERIORITY||Odds Ratio (OR)|3.89||||0.1257|TWO_SIDED|95.0|0.58||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|||||0.58|0.1257
92261552|NCT01624974|184425125|SUPERIORITY||Difference in Least Squares (LS) Means|0.047||||0.282|TWO_SIDED|95.0|-0.039|0.134|||LDA model|The LDA model assumes that repeated measurements follow a multivariate normal distribution.||||0.134|-0.039|0.282
92261553|NCT00606021|184425154|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.1815|TWO_SIDED|95.0|0.42|1.37||The significant level for the primary outcome measure of progression free survival during maintenance phase is one-sided 0.2.|Regression, Cox|Stratified Cox regression model is used for hazard ratio estimate. Stratification factor: response status prior to randomization.||||1.37|0.42|0.1815
92261554|NCT00606021|184425155|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.1233|TWO_SIDED|95.0|0.4|1.26||The significant level for the secondary outcome measure of progression free survival during overall period is one-sided 0.2.|Regression, Cox|Stratified Cox regression model is used for hazard ratio estimate. Stratification factor: response status prior to randomization.||||1.26|0.40|0.1233
92261555|NCT00606021|184425156|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.7239|TWO_SIDED|95.0|0.56|2.28||The significant level for the secondary outcome measure overall survival during maintenance period is two-sided 0.05.|Regression, Cox|Stratified Cox regression model is used for hazard ratio estimate. Stratification factor: response status prior to randomization.||||2.28|0.56|0.7239
92261556|NCT00606021|184425157|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.6376|TWO_SIDED|95.0|0.59|2.38||The significant level for the secondary outcome measure overall survival during overall period is two-sided 0.05.|Regression, Cox|Stratified Cox regression model is used for hazard ratio estimate. Stratification factor: response status prior to randomization.||||2.38|0.59|0.6376
92261557|NCT03198884|184425168|OTHER|The percent of patients with an RNA \<50 copies/mL at each time point was analyzed using McNemar's test following the guidelines of the Snapshot algorithm. Missing RNA data was considered a treatment failure. Change in mean serum creatinine from baseline was analyzed using Wilcoxon signed rank test.|||||<|0.05|||||||McNemar||||Change in mean CD4+ cell counts from baseline was analyzed using a paired t-test. All analyses used a p-value of less than or equal to 0.05 as significant. Statistical analyses were performed using R software, version 3.4.3.|||<0.05
92261558|NCT03198884|184425169|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92261559|NCT01202643|184425175|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||ANCOVA|||||||0.67
92261560|NCT01202643|184425176|SUPERIORITY_OR_OTHER|||||||0.74|||||||Chi-squared, Corrected|||Study was closed due to insufficient recruitment||||0.74
92261561|NCT00989664|184425178|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||McNemar|||||||<0.001
92261562|NCT01707667|184425220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.8||||0.012|TWO_SIDED|95.0|1.6|9.9|||Linear Mixed-Effect Models Analysis|||||9.9|1.6|0.012
92261563|NCT01707667|184425221|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|69051.4||||0.079|TWO_SIDED|95.0|-12004.5|150107.3|||Linear Mixed-Effect Models Analysis|||||150107.3|-12004.5|0.079
92261564|NCT01707667|184425222|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.2||||0.717|TWO_SIDED|95.0|-45.3|63.7|||Linear Mixed-Effect Models Analysis|||||63.7|-45.3|0.717
92261565|NCT01707667|184425223|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295|TWO_SIDED||||||Log Rank|||||||0.295
92261566|NCT01707667|184425224|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.179||||0.18|TWO_SIDED|95.0|-0.465|0.107|||Linear Mixed-Effect Models Analysis|||||0.107|-0.465|0.180
92261567|NCT01707667|184425225|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.8||||0.225|TWO_SIDED|95.0|-12.6|44.3|||Linear Mixed-Effect Models Analysis|||||44.3|-12.6|0.225
92261568|NCT03802331|184425227|OTHER|Relative bioavailability|Adjusted Geometric Mean Ratio T/R (%)|166.02|||||TWO_SIDED|90.0|143.17|192.53|||||The Adjusted Geometric Mean is adjusted by treatment. Geometric coefficient of variation (gCV) = 19.0.|This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period, and treatment.||192.53|143.17|
92261569|NCT03802331|184425228|OTHER|Relative bioavailability|Ajusted Geometric Mean Ratio T/R (%)|235.5|||||TWO_SIDED|90.0|179.82|308.42|||||The Adjusted Geometric Mean is adjusted by treatment. Geometric coefficient of variation (gCV) = 35.4.|This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period, and treatment.||308.42|179.82|
92261570|NCT03802331|184425229|OTHER|Relative bioavailability|Adjusted Geometric Mean Ratio T/R (%)|159.39|||||TWO_SIDED|90.0|140.11|181.34|||||The Adjusted Geometric Mean is adjusted by treatment. Geometric coefficient of variation (gCV) = 16.5.|This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period, and treatment.||181.34|140.11|
92261571|NCT03432819|184425238|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Net)|9.24||||0.06|TWO_SIDED|95.0|-0.55|19.03|||Regression, Linear|||||19.03|-0.55|0.06
92261572|NCT03432819|184425239|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Final Values)|4.5||||0.02|TWO_SIDED|95.0|0.7|8.3|||Regression, Linear|||||8.30|0.70|0.02
92261573|NCT03432819|184425240|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Final Values)|0.08||||0.39|TWO_SIDED|95.0|-0.1|0.26|||Regression, Linear|||||0.26|-0.10|0.39
92261574|NCT03432819|184425241|SUPERIORITY||Median Difference (Final Values)|-0.09||||0.54|TWO_SIDED|95.0|-0.37|0.2|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.20|-0.37|0.54
92261575|NCT03432819|184425242|SUPERIORITY||Median Difference (Final Values)|-0.02||||0.81|TWO_SIDED|95.0|-0.18|0.14|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.14|-0.18|0.81
92261576|NCT03432819|184425243|SUPERIORITY||Median Difference (Final Values)|-0.18||||0.06|TWO_SIDED|95.0|-0.37|0.01|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.01|-0.37|0.06
92261577|NCT03432819|184425244|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.16|TWO_SIDED|95.0|-0.78|0.13|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.13|-0.78|0.16
92265583|NCT00798161|184432807|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.181|||<|0.0001||95.0|1.903|5.316|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||5.316|1.903|<0.0001
92265584|NCT00798161|184432807|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.382||||0.0027||95.0|1.352|4.196|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||4.196|1.352|0.0027
92285055|NCT01472341|184474654|SUPERIORITY_OR_OTHER|||||||0.001|||||||Multivariate regression analysis|PI/I ratio was the response variable and other study parameters were independent variables.||||||0.001
92261578|NCT03432819|184425245|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.02|TWO_SIDED|95.0|-0.84|-0.09|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||-0.09|-0.84|0.02
92261579|NCT03432819|184425246|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.71|TWO_SIDED|95.0|-0.32|0.47|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.47|-0.32|0.71
92261580|NCT03432819|184425247|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.1|TWO_SIDED|95.0|-0.73|0.06|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.06|-0.73|0.10
92261581|NCT02735382|184425284|SUPERIORITY||Odds Ratio (OR)|4.663|||<|0.0001|TWO_SIDED|95.0|4.116|5.283|||Chi-squared, Corrected|||||5.283|4.116|<.0001
92261582|NCT02735382|184425285|SUPERIORITY||Odds Ratio (OR)|3.284|||<|0.0001|TWO_SIDED|95.0|2.672|4.035|||Chi-squared, Corrected|||||4.035|2.672|<.0001
92261583|NCT02735382|184425286|SUPERIORITY||Odds Ratio (OR)|0.885||||0.8438|TWO_SIDED|95.0|0.42|1.698|||Chi-squared, Corrected|||||1.698|0.420|.8438
92261584|NCT02735382|184425287|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.161||0.007|TWO_SIDED|95.0|0.123|0.757|||t-test, 2 sided|df=292||A change score from baseline to 6-months was computed and served as the data to be analyzed in the t-test of group differences.||0.757|0.123|.007
92261585|NCT02996981|184425300|SUPERIORITY|||||||0.299|||||||Chi-squared|df=1||||||0.299
92265585|NCT00798161|184432807|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.622|||<|0.0001||95.0|2.153|6.093|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||6.093|2.153|<0.0001
92265586|NCT00798161|184432807|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.529|||<|0.0001||95.0|3.724|11.445|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||11.445|3.724|<0.0001
92265587|NCT00798161|184432808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|22.7||0.8893||95.0|-48.5|42.2|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||42.2|-48.5|0.8893
92265588|NCT00798161|184432808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.0|STANDARD_ERROR_OF_MEAN|22.1||0.3234||95.0|-66.2|22.2|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||22.2|-66.2|0.3234
92181230|NCT02307682|184260725|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-4.7|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.6|-4.7|
92261586|NCT03451630|184425339|SUPERIORITY|||||||0.0211||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 2.49 with degrees of freedom (6, 3152).||Overall Test of Group by Time Interaction||||0.0211
92261587|NCT03451630|184425339|SUPERIORITY||Mean Difference (Final Values)|2.69|STANDARD_ERROR_OF_MEAN|1.22||0.028|TWO_SIDED|95.0|0.29|5.09||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 4.83 with degrees of freedom (1, 3152).||Test for group difference in the change from baseline to 12-Months using linear contrast.||5.09|0.29|0.0280
92261588|NCT03451630|184425339|SUPERIORITY||Mean Difference (Final Values)|2.07|STANDARD_ERROR_OF_MEAN|1.23||0.0935|TWO_SIDED|95.0|-0.35|4.48||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 2.81 with degrees of freedom (1, 3152).||Test for group difference in the change from baseline to 12-Months using linear contrast.||4.48|-0.35|0.0935
92261589|NCT03451630|184425339|SUPERIORITY||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|1.05||0.5538|TWO_SIDED|95.0|-1.44|2.68||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.35 with degrees of freedom (1, 3152).||Test for group difference in the change from baseline to12-Months using linear contrast.||2.68|-1.44|0.5538
92261590|NCT03451630|184425340|SUPERIORITY|Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).||||||0.8505|||||||Mixed Models Analysis|F-statistics 0.44 with degrees of freedom (6, 3154).||Overall Test of the Group by Time Interaction||||0.8505
92261591|NCT03451630|184425340|SUPERIORITY||||||<|0.0001||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 16.97 with degrees of freedom (3, 3160).||Test for significant change over time when the treatment-by-time interaction effect is not significant.||||<0.0001
92261592|NCT03451630|184425340|SUPERIORITY|||||||0.8656||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.14 with degrees of freedom (2, 1229).||Test for significant change by treatment when the treatment-by-time interaction effect is not significant.||||0.8656
92261593|NCT03451630|184425340|SUPERIORITY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|1.29||0.474|TWO_SIDED|95.0|-1.61|3.46||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.51 with degrees of freedom (1, 3154)||Test for group difference in the change from baseline to 12-Months using the linear contrasts.||3.46|-1.61|0.4740
92261594|NCT03451630|184425340|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|1.26||0.6017|TWO_SIDED|95.0|-1.81|3.13||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.27 with degrees of freedom (1, 3154).||Test for group difference in the change from baseline to 12-Months using the linear contrasts.||3.13|-1.81|0.6017
92261595|NCT03451630|184425340|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.99||0.786|TWO_SIDED|95.0|-1.67|2.2||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.07 with degrees of freedom (1, 3154).||Test for group difference in the change from baseline to 12-Months using the linear contrasts.||2.20|-1.67|0.7860
92261596|NCT03451630|184425341|SUPERIORITY|||||||0.59||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.08 with degrees of freedom (2).||Overall Test of Marginal Group Differences||||0.59
92265589|NCT00798161|184432808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.8|STANDARD_ERROR_OF_MEAN|23.8||0.0373||95.0|-98.5|-3.1|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-3.1|-98.5|0.0373
92265590|NCT00798161|184432808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-73.9|STANDARD_ERROR_OF_MEAN|22.7||0.0018||95.0|-119.3|-28.6|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-28.6|-119.3|0.0018
92265591|NCT00798161|184432811|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.326||||0.0445|TWO_SIDED|95.0|0.109|0.973|||Regression, Logistic|||||0.973|0.109|0.0445
92261597|NCT03451630|184425341|SUPERIORITY||Odds Ratio (OR)|1.26||||0.6692|TWO_SIDED|95.0|0.76|2.11||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-square statistics 0.8 with degrees of freedom (2).||Test for the Treatment Effect||2.11|0.76|0.6692
92261598|NCT03451630|184425341|SUPERIORITY||Odds Ratio (OR)|1.16||||0.6692|TWO_SIDED|95.0|0.7|1.93||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-square statistics 0.80 with degrees of freedom (2).||Test for the Treatment Effect||1.93|0.70|0.6692
92265592|NCT00798161|184432811|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.274||||0.0151|TWO_SIDED|95.0|0.096|0.779|||Regression, Logistic|||||0.779|0.096|0.0151
92265593|NCT00798161|184432811|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.049|TWO_SIDED|95.0|0.177|0.996|||Regression, Logistic|||||0.996|0.177|0.0490
92265594|NCT00798161|184432811|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.598||||0.2617|TWO_SIDED|95.0|0.244|1.467|||Regression, Logistic|||||1.467|0.244|0.2617
92265595|NCT00594568|184432816|SUPERIORITY_OR_OTHER|||||||0.134||95.0|||||Mixed Models Analysis|||||||0.134
92265596|NCT00594568|184432816|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||Mixed Models Analysis|||||||0.045
92285056|NCT01472341|184474655|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Multivariate regression analysis|HOMA %B was the response variable and other study parameters were independent variables.||||||<0.0001
92285057|NCT03506386|184474707|OTHER||||||<|0.0001||||||Statistical differences among eligible performed, eligible not performed and not eligible participants were estimated by Log Rank test.|Log Rank|||||||< 0.0001
92285058|NCT05093205|184474745|OTHER|0.15 mg LE \& 0.03 mg EE was the Reference treatment (Part B Period 1), PF-06882961 120 mg BID + 0.15 mg LE \& 0.03 mg EE was the Test treatment (Period 3).|Specified in comments|122.48|||||TWO_SIDED|90.0|106.96|140.25|||Mixed Models Analysis||A mixed effects model with treatment as a fixed effect and participant as a random effect was used was applied to calculate the ratio (Test/Reference) of adjusted means and 90% CIs for Ratio. The ratio (and 90% CI) is expressed as percentage.|||140.25|106.96|
92285059|NCT05093205|184474745|OTHER|0.15 mg LE \& 0.03 mg EE was the Reference treatment (Part B Period 1), PF-06882961 200 mg BID + 0.15 mg LE \& 0.03 mg EE was the Test treatment (Period 5).|Specified in comments|143.83|||||TWO_SIDED|90.0|122.64|168.68|||Mixed Models Analysis||A mixed effects model with treatment as a fixed effect and participant as a random effect was used was applied to calculate the ratio (Test/Reference) of adjusted means and 90% CIs for Ratio. The ratio (and 90% CI) is expressed as percentage.|||168.68|122.64|
92261599|NCT03451630|184425341|SUPERIORITY||Odds Ratio (OR)|1.09||||0.6692|TWO_SIDED|95.0|0.75|1.59||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-square statistics 0.8 with degrees of freedom (2).||Test for the Treatment Effect||1.59|0.75|0.6692
92261600|NCT03451630|184425342|SUPERIORITY|||||||0.58||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.08 with degrees of freedom (2).||Overall Test of Marginal Group Differences||||0.58
92261601|NCT03451630|184425342|SUPERIORITY||Odds Ratio (OR)|1.13||||0.7436|TWO_SIDED|95.0|0.43|3.02||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.59 with degrees of freedom (2).||Test for the treatment effect||3.02|0.43|0.7436
92261602|NCT03451630|184425342|SUPERIORITY||Odds Ratio (OR)|0.84||||0.7436|TWO_SIDED|95.0|0.31|2.25||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.59 with degrees of freedom (2).||Test for the treatment effect.||2.25|0.31|0.7436
92261603|NCT03451630|184425342|SUPERIORITY||Odds Ratio (OR)|1.36||||0.7436|TWO_SIDED|95.0|0.62|2.97|||Regression, Logistic|Chi-squared statistics 0.59 with degrees of freedom (2).||Test for the treatment effect.||2.97|0.62|0.7436
92261604|NCT03451630|184425343|SUPERIORITY|||||||0.5558||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.82 with degrees of freedom (6, 3057)||Overall test of treatment-by-time interaction||||0.5558
92261605|NCT03451630|184425343|SUPERIORITY|||||||0.0002||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 6.74 with degrees of freedom (3, 3063).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||0.0002
92261606|NCT03451630|184425343|SUPERIORITY|||||||0.7846||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.24 with degrees of freedom (2,1197).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.7846
92261607|NCT03451630|184425343|SUPERIORITY||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.61||0.2444|TWO_SIDED|95.0|-1.92|0.49||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-Statistics 1.36 with degrees of freedom (1, 3057).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.49|-1.92|0.2444
92261608|NCT03451630|184425343|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.61||0.648|TWO_SIDED|95.0|-1.48|0.92||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.21 with degrees of freedom (1, 3057).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.92|-1.48|0.6480
92261609|NCT03451630|184425343|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.46||0.3476|TWO_SIDED|95.0|-1.34|0.47||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.88 with degrees of freedom (1, 3057).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.47|-1.34|0.3476
92261610|NCT03451630|184425344|SUPERIORITY|||||||0.5199||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.86 with degrees of freedom (6, 3148)||Overall test of treatment-by-time||||0.5199
92261611|NCT03451630|184425344|SUPERIORITY|||||||0.0008||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 5.56 with degrees of freedom (3, 3154).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||0.0008
92265597|NCT00594568|184432816|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Mixed Models Analysis|||||||0.610
92265598|NCT00594568|184432817|SUPERIORITY_OR_OTHER|||||||0.296||95.0|||||Mixed Models Analysis|||||||0.296
92265599|NCT00594568|184432817|SUPERIORITY_OR_OTHER|||||||0.172||95.0|||||Mixed Models Analysis|||||||0.172
92265600|NCT00594568|184432817|SUPERIORITY_OR_OTHER|||||||0.746||95.0|||||Mixed Models Analysis|||||||0.746
92265601|NCT00594568|184432818|SUPERIORITY_OR_OTHER|||||||0.166||95.0|||||Mixed Models Analysis|||||||0.166
92265602|NCT00594568|184432818|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92265603|NCT00594568|184432818|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Mixed Models Analysis|||||||0.014
92287114|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.193|||<|0.001|TWO_SIDED|95.0|0.138|0.247|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.247|0.138|<0.001
92265604|NCT00594568|184432819|SUPERIORITY_OR_OTHER|||||||0.935||95.0|||||Mixed Models Analysis|||||||0.935
92265605|NCT00594568|184432819|SUPERIORITY_OR_OTHER|||||||0.068||95.0|||||Mixed Models Analysis|||||||0.068
92265606|NCT00594568|184432819|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Mixed Models Analysis|||||||0.070
92265607|NCT00594568|184432820|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||||||0.002
92265608|NCT00594568|184432820|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92265609|NCT00594568|184432820|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92265610|NCT00594568|184432821|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||ANCOVA|||||||0.038
92265611|NCT00594568|184432821|SUPERIORITY_OR_OTHER|||||||0.147||95.0|||||ANCOVA|||||||0.147
92265612|NCT00594568|184432821|SUPERIORITY_OR_OTHER|||||||0.604||95.0|||||ANCOVA|||||||0.604
92265613|NCT00594568|184432822|SUPERIORITY_OR_OTHER|||||||0.143||95.0||||This is the p-value for the Left Hippocampal Volume|ANCOVA|||||||0.143
92265614|NCT00594568|184432822|SUPERIORITY_OR_OTHER|||||||0.464||95.0||||This is the p-value for the Left Hippocampal Volume|ANCOVA|||||||0.464
92265615|NCT00594568|184432822|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||This is the p-value for the Left Hippocampal Volume|ANCOVA|||||||0.025
92265616|NCT00594568|184432822|SUPERIORITY_OR_OTHER|||||||0.347||95.0||||This is the p-value for the Right Hippocampal Volume|ANCOVA|||||||0.347
92265617|NCT00594568|184432822|SUPERIORITY_OR_OTHER|||||||0.82||95.0||||This is the p-value for the Right Hippocampal Volume|ANCOVA|||||||0.820
92265618|NCT00594568|184432822|SUPERIORITY_OR_OTHER|||||||0.243||95.0||||This is the p-value for the Right Hippocampal Volume|ANCOVA|||||||0.243
92265619|NCT00594568|184432823|SUPERIORITY_OR_OTHER|||||||0.784||95.0|||||ANCOVA|||||||0.784
92265620|NCT00594568|184432823|SUPERIORITY_OR_OTHER|||||||0.931||95.0|||||ANCOVA|||||||0.931
92265621|NCT00594568|184432823|SUPERIORITY_OR_OTHER|||||||0.718||95.0|||||ANCOVA|||||||0.718
92265622|NCT00594568|184432824|SUPERIORITY_OR_OTHER|||||||0.634||95.0|||||ANCOVA|||||||0.634
92265623|NCT00594568|184432824|SUPERIORITY_OR_OTHER|||||||0.901||95.0|||||ANCOVA|||||||0.901
92265624|NCT00594568|184432824|SUPERIORITY_OR_OTHER|||||||0.659||95.0|||||ANCOVA|||||||0.659
92265625|NCT00594568|184432827|SUPERIORITY_OR_OTHER|||||||0.062||95.0|||||Mixed Models Analysis|||||||0.062
92265626|NCT00594568|184432827|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Mixed Models Analysis|||||||0.022
92265627|NCT00594568|184432827|SUPERIORITY_OR_OTHER|||||||0.669||95.0|||||Mixed Models Analysis|||||||0.669
92265628|NCT00594568|184432828|SUPERIORITY_OR_OTHER|||||||0.071||95.0|||||Mixed Models Analysis|||||||0.071
92265629|NCT00594568|184432828|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Mixed Models Analysis|||||||0.018
92265630|NCT00594568|184432828|SUPERIORITY_OR_OTHER|||||||0.571||95.0|||||Mixed Models Analysis|||||||0.571
92265631|NCT00594568|184432829|SUPERIORITY_OR_OTHER|||||||0.518||95.0|||||Mixed Models Analysis|||||||0.518
92265632|NCT00594568|184432829|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||Mixed Models Analysis|||||||0.013
92265633|NCT00594568|184432829|SUPERIORITY_OR_OTHER|||||||0.072||95.0|||||Mixed Models Analysis|||||||0.072
92265634|NCT00594568|184432830|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||Mixed Models Analysis|||||||0.069
92265635|NCT00594568|184432830|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|||||||0.002
92265636|NCT00594568|184432830|SUPERIORITY_OR_OTHER|||||||0.198||95.0|||||Mixed Models Analysis|||||||0.198
92265637|NCT00594568|184432831|SUPERIORITY_OR_OTHER|||||||0.127||95.0|||||Mixed Models Analysis|||||||0.127
92265638|NCT00594568|184432831|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||Mixed Models Analysis|||||||0.016
92265639|NCT00594568|184432831|SUPERIORITY_OR_OTHER|||||||0.381||95.0|||||Mixed Models Analysis|||||||0.381
92265640|NCT00594568|184432832|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92265641|NCT00594568|184432832|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Mixed Models Analysis|||||||0.005
92265642|NCT00594568|184432832|SUPERIORITY_OR_OTHER|||||||0.141||95.0|||||Mixed Models Analysis|||||||0.141
92265643|NCT00594568|184432833|SUPERIORITY_OR_OTHER|||||||0.337||95.0|||||ANCOVA|||||||0.337
92265644|NCT00594568|184432833|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||ANCOVA|||||||0.018
92265645|NCT00594568|184432833|SUPERIORITY_OR_OTHER|||||||0.157||95.0|||||ANCOVA|||||||0.157
92265646|NCT00594568|184432834|SUPERIORITY_OR_OTHER|||||||0.186||95.0|||||Mixed Models Analysis|||||||0.186
92265647|NCT00594568|184432834|SUPERIORITY_OR_OTHER|||||||0.149||95.0|||||Mixed Models Analysis|||||||0.149
92265648|NCT00594568|184432834|SUPERIORITY_OR_OTHER|||||||0.889||95.0|||||Mixed Models Analysis|||||||0.889
92265649|NCT00594568|184432835|SUPERIORITY_OR_OTHER|||||||0.202||95.0|||||Mixed Models Analysis|||||||0.202
92265650|NCT00594568|184432835|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Mixed Models Analysis|||||||0.075
92265651|NCT00594568|184432835|SUPERIORITY_OR_OTHER|||||||0.616||95.0|||||Mixed Models Analysis|||||||0.616
92261612|NCT03451630|184425344|SUPERIORITY|||||||0.9897||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.01 with degrees of freedom (2,1229).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.9897
92261613|NCT03451630|184425344|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.8749|TWO_SIDED|95.0|-0.03|0.03||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.02 with degrees of freedom (1, 3148).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.03|-0.03|0.8749
92261614|NCT03451630|184425344|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.2216|TWO_SIDED|95.0|-0.05|0.01||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.49 with degrees of freedom (1, 3148).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.01|-0.05|0.2216
92261615|NCT03451630|184425344|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.0607|TWO_SIDED|95.0|0.0|0.04||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 3.52 with degrees of freedom (1, 3148).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.04|0.00|0.0607
92261616|NCT03451630|184425345|SUPERIORITY|||||||0.1884||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.46 with degrees of freedom (6, 3138)||Overall test of treatment-by-time||||0.1884
92261617|NCT03451630|184425345|SUPERIORITY|||||||0.009||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 3.87 with degrees of freedom (3, 3144).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||0.0090
92261618|NCT03451630|184425345|SUPERIORITY|||||||0.217||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.53 with degrees of freedom (2, 1227).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.2170
92261619|NCT03451630|184425345|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.09||0.191|TWO_SIDED|95.0|-0.06|0.28||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.71 with degrees of freedom (1, 3138).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.28|-0.06|0.1910
92261620|NCT03451630|184425345|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.08||0.0229|TWO_SIDED|95.0|0.03|0.35||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 5.18 with degrees of freedom (1, 3138).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.35|0.03|0.0229
92261621|NCT03451630|184425345|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.2547|TWO_SIDED|95.0|-0.21|0.06||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.30 with degrees of freedom (1, 3138).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.06|-0.21|0.2547
92265652|NCT00423137|184432875|OTHER||Difference of least square means|-1.385|STANDARD_ERROR_OF_MEAN|2.181||0.5305|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.||||||0.5305
92261622|NCT03451630|184425346|SUPERIORITY|||||||0.0413||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 2.49 with degrees of freedom (4, 3164).||Overall test for the treatment-by-time interaction||||0.0413
92261623|NCT03451630|184425346|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.1433|TWO_SIDED|95.0|-0.28|0.04||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 2.14 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.04|-0.28|0.1433
92261624|NCT03451630|184425346|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.4272|TWO_SIDED|95.0|-0.1|0.23||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.63 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.23|-0.10|0.4272
92261625|NCT03451630|184425346|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.06||0.0037|TWO_SIDED|95.0|-0.31|-0.06||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 8.45 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||-0.06|-0.31|0.0037
92261626|NCT03451630|184425347|SUPERIORITY|||||||0.8231||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.38 with degrees of freedom (4, 3164).||Overall test for the treatment-by-time interaction||||0.8231
92261627|NCT03451630|184425347|SUPERIORITY||||||<|0.0001||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 330.05 with degrees of freedom (2, 1948).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||<0.0001
92261628|NCT03451630|184425347|SUPERIORITY|||||||0.6061||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.50 with degrees of freedom (2 , 1948).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.6061
92261629|NCT03451630|184425347|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.7459|TWO_SIDED|95.0|-0.15|0.11||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.11 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.11|-0.15|0.7459
92261630|NCT03451630|184425347|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.3169|TWO_SIDED|95.0|-0.18|0.08||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.00 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.08|-0.18|0.3169
92261631|NCT03451630|184425347|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.04||0.4098|TWO_SIDED|95.0|-0.07|0.14||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.68 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.14|-0.07|0.4098
92261632|NCT03451630|184425348|SUPERIORITY|||||||0.4732||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.88 with degrees of freedom (4, 1945).||Overall test for the treatment-by-time interaction||||0.4732
92261633|NCT03451630|184425348|SUPERIORITY||||||<|0.0001||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 319.14 with degrees of freedom (2, 1948).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||<0.0001
92261634|NCT03451630|184425348|SUPERIORITY|||||||0.9628||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.04 with degrees of freedom (2, 1948).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.9628
92261635|NCT03451630|184425348|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.8438|TWO_SIDED|95.0|-0.16|0.19||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.04 with degrees of freedom (1, 1945).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.19|-0.16|0.8438
92261636|NCT03451630|184425348|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.7425|TWO_SIDED|95.0|-0.19|0.15||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.11 with degrees of freedom (1, 1945).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.15|-0.19|0.7425
92261637|NCT03451630|184425348|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.5044|TWO_SIDED|95.0|-0.1|0.17||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.45 with degrees of freedom (1, 1945).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.17|-0.10|0.5044
92261638|NCT03451630|184425349|SUPERIORITY|||||||0.9804||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.11 with degrees of freedom (4, 3164).||Overall test for the treatment-by-time interaction||||0.9804
92261639|NCT03451630|184425349|SUPERIORITY||||||<|0.0001||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 21.80 with degrees of freedom (2, 3168).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||<0.0001
92261640|NCT03451630|184425349|SUPERIORITY|||||||0.9764||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.02 with degrees of freedom (2, 1211).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.9764
92261641|NCT03451630|184425349|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9757|TWO_SIDED|95.0|0.63|1.6||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-test statistics 0.03.||Odds ratio of Treatment at 12-Months||1.60|0.63|0.9757
92261642|NCT03451630|184425349|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7958|TWO_SIDED|95.0|0.67|1.68||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-test statistics 0.26.||Odds ratio of Treatment at 12-Months||1.68|0.67|0.7958
92261643|NCT03451630|184425349|SUPERIORITY||Odds Ratio (OR)|0.95||||0.7646|TWO_SIDED|95.0|0.67|1.34||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-statistics -0.30||Odds ratio of Treatment at 12-Months||1.34|0.67|0.7646
92261644|NCT03451630|184425350|SUPERIORITY|||||||0.9622||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.15 with degrees of freedom (4, 3164).||Overall test for the treatment-by-time interaction||||0.9622
92261645|NCT03451630|184425350|SUPERIORITY|||||||0.0377||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 3.28 with degrees of freedom (2, 3168).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||0.0377
92261646|NCT03451630|184425350|SUPERIORITY|||||||0.83||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistic 0.19 with degrees of freedom (2, 1903).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.8300
92261647|NCT03451630|184425350|SUPERIORITY||Odds Ratio (OR)|0.87||||0.7507|TWO_SIDED|95.0|0.38|2.0||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-statistics -0.32||Odds ratio of Treatment at 12-Months||2.00|0.38|0.7507
92261648|NCT03451630|184425350|SUPERIORITY||Odds Ratio (OR)|0.94||||0.8844|TWO_SIDED|95.0|0.42|2.13||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-statistics -0.15||Odds ratio of Treatment at 12-Months||2.13|0.42|0.8844
92261649|NCT03451630|184425350|SUPERIORITY||Odds Ratio (OR)|0.93||||0.8227|TWO_SIDED|95.0|0.49|1.77||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-statistics -0.22||Odds ratio of Treatment at 12-Months||1.77|0.49|0.8227
92285060|NCT05093205|184474746|OTHER|0.15 mg LE \& 0.03 mg EE was the Reference treatment (Part B Period 1), PF-06882961 120 mg BID + 0.15 mg LE \& 0.03 mg EE was the Test treatment (Period 3).|Specified in comments|104.46|||||TWO_SIDED|90.0|92.56|117.89|||Mixed Models Analysis||A mixed effects model with treatment as a fixed effect and participant as a random effect was used was applied to calculate the ratio (Test/Reference) of adjusted means and 90% CIs for Ratio. The ratio (and 90% CI) is expressed as percentage.|||117.89|92.56|
92285061|NCT05093205|184474746|OTHER|0.15 mg LE \& 0.03 mg EE was the Reference treatment (Part B Period 1), PF-06882961 200 mg BID + 0.15 mg LE \& 0.03 mg EE was the Test treatment (Period 5).|Specified in comments|92.77|||||TWO_SIDED|90.0|81.05|106.19|||Mixed Models Analysis||A mixed effects model with treatment as a fixed effect and participant as a random effect was used was applied to calculate the ratio (Test/Reference) of adjusted means and 90% CIs for Ratio. The ratio (and 90% CI) is expressed as percentage.|||106.19|81.05|
92285062|NCT03897088|184474823|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
92285063|NCT03897088|184474832|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
92285064|NCT03897088|184474833|SUPERIORITY||||||<|1e-05|||||||Mixed Models Analysis|||Week 16||||<0.00001
92285065|NCT03897088|184474834|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
92285066|NCT03897088|184474835|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
92285067|NCT03897088|184474836|SUPERIORITY||||||<|1e-05|||||||Mixed Models Analysis|||Week 16||||<0.00001
92285068|NCT03897088|184474837|SUPERIORITY||||||<|1e-05||||||Log Rank Test p-Value|Kaplan-Meier Estimates|||||||<0.00001
92285069|NCT03897088|184474838|SUPERIORITY||||||<|1e-05||||||Log Rank Test p-Value|Kaplan-Meier Estimates|||||||<0.00001
92285070|NCT03897088|184474839|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||||||<0.00001
92285071|NCT03897088|184474840|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||PASI-75||||<0.00001
92285072|NCT03897088|184474840|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||PASI-90||||<0.00001
92285073|NCT03897088|184474840|SUPERIORITY|||||||4e-05|||||||Cochran-Mantel-Haenszel|||PASI-100||||0.00004
92285074|NCT03897088|184474841|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
92285075|NCT03897088|184474842|SUPERIORITY||||||<|1e-05|||||||Mixed Models Analysis|||Week 16||||<0.00001
92285076|NCT03897088|184474843|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
92285077|NCT03897088|184474844|SUPERIORITY||||||<|1e-05||||||Week 16|Cochran-Mantel-Haenszel|||||||<0.00001
92285078|NCT03897088|184474845|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 12||||<0.00001
92285079|NCT03897088|184474846|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 12||||<0.00001
92285080|NCT04320849|184474865|OTHER||Slope|0.0675|||||ONE_SIDED|90.0||0.106||||||"The following set of hypotheses were used to evaluate the relationship between lead stiffness and curvature in the extravenous region:~H0: a ≥ 0 Ha: a \< 0 where a represents the coefficient for stiffness in the following model: log (curvature) = a\*stiffness + b + normally distributed error."||0.106||
92285081|NCT04320849|184474866|OTHER||Slope|0.199|||||ONE_SIDED|90.0||0.397||||||"The following set of hypotheses will be used to evaluate the relationship between lead stiffness and curvature in the intracardiac region:~H0: a ≥ 0 Ha: a \< 0 where a represents the coefficient for stiffness in the following model: log (curvature) = a\*stiffness + b + normally distributed error."||0.397||
92285082|NCT04320849|184474867|OTHER||Slope|-0.015|||||ONE_SIDED|90.0||0.0123||||||"The following set of hypotheses were used to evaluate the relationship between lead stiffness and curvature in the connector region:~H0: a ≥ 0 Ha: a \< 0 where a represents the coefficient for stiffness in the following model: log (curvature) = a\*stiffness + b + normally distributed error."||0.0123||
92285083|NCT02268500|184474980|SUPERIORITY|||||||0.89|||||||Chi-squared|||||||0.89
92285084|NCT02268500|184474981|SUPERIORITY|||||||0.43|||||||Chi-squared|||||||0.43
92285085|NCT02268500|184474982|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.03
92285086|NCT02268500|184474983|SUPERIORITY|||||||0.76|||||||Chi-squared|||||||0.76
92285087|NCT02268500|184474984|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
92285088|NCT01312922|184474991|SUPERIORITY||Odds Ratio (OR)|0.987||||1|TWO_SIDED|95.0|0.456|2.14|||Fisher Exact|||||2.140|0.456|1.000
92285089|NCT01312922|184474991|SUPERIORITY||Odds Ratio (OR)|1.031||||1|TWO_SIDED|95.0|0.476|2.233|||Fisher Exact|||||2.233|0.476|1.000
92285090|NCT02801877|184475001|SUPERIORITY|||||||0.3|||||||Log Rank|Chi square= 4.1 on 3 degrees of freedom||Log-rank test of adherence, defined as time to last engagement with mobile application suite.||||0.3
92285091|NCT02801877|184475002|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|F(3, 835)=0.19||Interactive effect of time and group, adjusting for baseline PHQ-9, randomization strata, main and interactive effects of time, coach, coach\*time, hub, and hub\*time.||||0.90
92285092|NCT02801877|184475003|SUPERIORITY|||||||0.53|||||||Mixed Models Analysis|F(3, 835)=0.73||Interactive effect of time and group, adjusting for baseline GAD-7, randomization strata, main and interactive effects of time, coach, coach\*time, hub, and hub\*time.||||0.53
92285093|NCT04934722|184475023|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.24|2.34|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||2.34|0.24|
92285094|NCT04934722|184475024|OTHER||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|0.3|6.01|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||6.01|0.30|
92285095|NCT04934722|184475025|OTHER||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|0.5|3.63|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||3.63|0.50|
92285096|NCT04934722|184475027|OTHER||Hazard Ratio (HR)|3.15|||||TWO_SIDED|95.0|0.33|30.29|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||30.29|0.33|
92285097|NCT04934722|184475028|OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.11|4.07|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||4.07|0.11|
92285098|NCT04934722|184475029|OTHER||Hazard Ratio (HR)|1.45|||||TWO_SIDED|95.0|0.73|2.9|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||2.90|0.73|
92285099|NCT04934722|184475030|OTHER||Hazard Ratio (HR)|1.75|||||TWO_SIDED|95.0|0.42|7.34|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||7.34|0.42|
92285100|NCT04934722|184475031|OTHER||Percent Difference|-5.5|||||TWO_SIDED|95.0|-12.6|0.0|||||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method.|||0.0|-12.6|
92285101|NCT04934722|184475032|OTHER||Percent difference|-0.7|||||TWO_SIDED|95.0|-15.0|13.7|||||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method.|||13.7|-15.0|
92285102|NCT04934722|184475033|OTHER||Percent difference|7.8|||||TWO_SIDED|95.0|-12.5|27.1|||||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method.|||27.1|-12.5|
92285103|NCT06358820|184475037|SUPERIORITY|\>0.15 g/dL change in albumin from baseline to month 6 was anticipated.|Mean Difference (Final Values)|3.77|||<|0.0125|TWO_SIDED|95.0|3.15|4.39||A 2-sided P value less than 0.05 was considered statistically significant. However, the significance level (α) was adjusted to 0.0125 to account for multiple testing.|ANOVA||The main analysis was based on LOCF for missing value.|Outcome Measure were assessed at baseline and every month during the 6-month study.||4.39|3.15|<0.0125
92285104|NCT06358820|184475038|SUPERIORITY|\>60 mg/L change in prealbumin from baseline to month 6.|Mean Difference (Net)|39.77||||0.0125|TWO_SIDED|95.0|26.66|56.87||A 2-sided P value less than 0.05 was considered statistically significant. However, the significance level (α) was adjusted to 0.0125 to account for multiple testing.|ANOVA||The main analysis was based on LOCF for missing value.|||56.87|26.66|0.0125
92285105|NCT01124175|184475052|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|111.95|||||TWO_SIDED|90.0|101.84|123.06|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||123.06|101.84|
92285106|NCT01124175|184475053|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|105.97|||||TWO_SIDED|90.0|103.61|108.39|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.39|103.61|
92285107|NCT01124175|184475054|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|105.67|||||TWO_SIDED|90.0|103.32|108.07|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.07|103.32|
92285108|NCT01124175|184475055|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|105.97|||||TWO_SIDED|90.0|101.22|110.93|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||110.93|101.22|
92285109|NCT01124175|184475056|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|103.07|||||TWO_SIDED|90.0|100.9|105.28|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||105.28|100.90|
92285110|NCT01124175|184475057|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|102.36|||||TWO_SIDED|90.0|100.41|104.34|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.34|100.41|
92285111|NCT00834535|184475079|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.83||||||90.0|93.98|108.17|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.17|93.98|
92285112|NCT00834535|184475080|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.1||||||90.0|92.14|100.22|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.22|92.14|
92285113|NCT00834535|184475081|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.57||||||90.0|92.8|100.49|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.49|92.8|
92285114|NCT01045096|184475114|SUPERIORITY_OR_OTHER|||||||0.809||90.0|||||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An analysis of variance with covariates (ANCOVA) model with weight as a covariate and regimen as a factor were fitted to Tmax. Pairwise comparisons between regimens were conducted.||||0.809
92285115|NCT01045096|184475115|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.2|||||TWO_SIDED|90.0|0.66|2.183|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized Cmax. Pairwise comparisons between regimens were conducted.||2.183|0.660|
92181231|NCT02307682|184260725|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-5.2|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.1|-5.2|
92181232|NCT02307682|184260725|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-3.3|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||7.3|-3.3|
92261650|NCT03451630|184425351|OTHER|||||||1|||||||Fisher Exact|Fisher's exact test for the null hypothesis of no association between each event and treatment group.||Frequency and test of the marginal association between event rate and treatment for eligible participants' data at 12 months for MMA-1a||||1.00
92261651|NCT03451630|184425351|OTHER|||||||0.242|||||||Fisher Exact|Fisher's exact test for the null hypothesis of no association between each event and treatment group.||Frequency and test of the marginal association between event rate and treatment for eligible participants' data at 12 months for MMA-1b||||0.242
92261652|NCT03451630|184425352|OTHER|||||||0.1112|||||||Fisher Exact|Fisher's exact test for the null hypothesis of no association between each event and treatment group.||Test of the marginal association between event rate and treatment for eligible participants' data at 12 months for PCE-1||||0.1112
92261653|NCT03451630|184425352|OTHER|||||||0.4754|||||||Fisher Exact|Fisher's exact test for the null hypothesis of no association between each event and treatment group.||Test of the marginal association between event rate and treatment for eligible participants' data at 12 months for PCE-2||||0.4754
92261654|NCT03451630|184425353|SUPERIORITY||Odds Ratio (OR)|0.74||||0.9079|TWO_SIDED|95.0|0.13|4.28||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.19 with degrees of freedom (2).||Test for the treatment effect (without weight) using a Firth's penalized logistic regression model for rare events.||4.28|0.13|0.9079
92261655|NCT03451630|184425353|SUPERIORITY||Odds Ratio (OR)|0.68||||0.9079|TWO_SIDED|95.0|0.13|3.72||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.19 with degrees of freedom (2).||Test for the treatment effect (without weight) using a Firth's penalized logistic regression model for rare events.||3.72|0.13|0.9079
92261656|NCT03451630|184425353|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9079|TWO_SIDED|95.0|0.34|3.45||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.19 with degrees of freedom (2).||Test for the treatment effect (without weight) using a Firth's penalized logistic regression model for rare events.||3.45|0.34|0.9079
92261657|NCT03451630|184425354|SUPERIORITY|||||||0.9912||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.07 with degrees of freedom (4, 335).||Test for the treatment-by-time interaction (without weight) for SPC-1.||||0.9912
92261658|NCT03451630|184425354|SUPERIORITY|||||||0.876||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.13 with degrees of freedom (2, 339).||Test for change over time for SPC-1||||0.8760
92261659|NCT03451630|184425354|SUPERIORITY|||||||0.678||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.39 with degrees of freedom (2, 276).||Test for change in treatment effect for SPC-1||||0.6780
92261660|NCT03451630|184425354|SUPERIORITY|||||||0.1761||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.59 with degrees of freedom (4, 284).||Test for the treatment-by-time interaction (without weight) for SPC-2||||0.1761
92261661|NCT03451630|184425354|SUPERIORITY|||||||0.3239||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.13 with degrees of freedom (2, 288).||Test for change over time for SPC-2||||0.3239
92261662|NCT03451630|184425354|SUPERIORITY|||||||0.7415||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.30 with degrees of freedom (2, 139).||Test for change in treatment effect for SPC-2||||0.7415
92261663|NCT03451630|184425355|SUPERIORITY|||||||0.9786||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.11 with degrees of freedom (4, 608).||Test for the treatment-by-time interaction (without weight) for SPD-1.||||0.9786
92261664|NCT03451630|184425355|SUPERIORITY|||||||0.4703||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.76 with degrees of freedom (2, 612).||Test for change over time for SPD-1||||0.4703
92261665|NCT03451630|184425355|SUPERIORITY|||||||0.877||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.13 with degrees of freedom (2, 332).||Test for change in treatment effect for SPD-1||||0.8770
92261666|NCT03451630|184425355|SUPERIORITY|||||||0.6198||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.66 with degrees of freedom (4, 469).||Test for the treatment-by-time interaction (without weight) for SPD-2||||0.6198
92261667|NCT03451630|184425355|SUPERIORITY|||||||0.6211||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.48 with degrees of freedom (2, 473).||Test for change over time for SPD-2||||0.6211
92261668|NCT03451630|184425355|SUPERIORITY|||||||0.1471||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.93 with degrees of freedom (2, 219).||Test for change in treatment effect for SPD-2.||||0.1471
92261669|NCT03451630|184425356|SUPERIORITY|||||||0.8247||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.38 with degrees of freedom (4, 280).||Test for the treatment-by-time interaction (without weight) for AMM-1||||0.8247
92285116|NCT01045096|184475115|SUPERIORITY_OR_OTHER||Dose proportionality Point Estimate|1.06|||||TWO_SIDED|90.0|0.463|2.427|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized Cmax. Pairwise comparisons between regimens were conducted.||2.427|0.463|
92265653|NCT00423137|184432876|OTHER||Difference of least square means|-0.049|STANDARD_ERROR_OF_MEAN|0.033||0.1498|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.1498
92285117|NCT01045096|184475115|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|0.88|||||TWO_SIDED|90.0|0.493|1.579|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized Cmax. Pairwise comparisons between regimens were conducted.||1.579|0.493|
92261670|NCT03451630|184425356|SUPERIORITY|||||||0.6651||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.41 with degrees of freedom (2, 284).||Test for change over time for AMM-1||||0.6651
92261671|NCT03451630|184425356|SUPERIORITY|||||||0.3441||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.07 with degrees of freedom (2, 218).||Test for change in treatment effect for AMM-1||||0.3441
92261672|NCT03451630|184425356|SUPERIORITY|||||||0.0847||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 2.07 with degrees of freedom (4, 280).||Test for the treatment-by-time interaction (without weight) for AMM-2||||0.0847
92261673|NCT03451630|184425356|SUPERIORITY|||||||0.9695||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.03 with degrees of freedom (2, 284).||Test for change over time for AMM-2||||0.9695
92261674|NCT03451630|184425356|SUPERIORITY|||||||0.9396||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.06 with degrees of freedom (2, 200).||Test for change in treatment effect for AMM-2||||0.9396
92261675|NCT02041533|184425361|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.15||||0.2511|TWO_SIDED|95.0|0.91|1.45|||Log Rank|Log-rank test stratified by histology (squamous vs. non-squamous) as entered into the IVRS.|Stratified Cox proportional hazard model. Hazard ratio of nivolumab to investigator's choice chemotherapy.|||1.45|0.91|0.2511
92261676|NCT02041533|184425362|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.95|1.43|||||Stratified Cox proportional hazard model. Hazard ratio of nivolumab to investigator's choice chemotherapy.|||1.43|0.95|
92181233|NCT02307682|184260725|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-5.7|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.8|-5.7|
92261677|NCT02041533|184425363|SUPERIORITY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.79|1.2|||||Stratified Cox proportional hazard model. Hazard ratio of nivolumab to investigator's choice chemotherapy.|||1.20|0.79|
92261678|NCT02041533|184425364|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.86|1.24|||||Stratified Cox proportional hazard model. Hazard ratio of nivolumab to investigator's choice chemotherapy.|||1.24|0.86|
92261679|NCT02041533|184425365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.46|1.06|||||Stratified by histology (squamous vs.non-squamous) at randomization. Strata adjusted odds ratio (Nivolumab over investigator choice of chemotherapy) using Mantel-Haenszel method.|||1.06|0.46|
92261680|NCT00545740|184425367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.063||95.0|||||Cochran-Mantel-Haenszel|||||||0.063
92261681|NCT00545740|184425367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.736||95.0|||||Cochran-Mantel-Haenszel|||||||0.736
92261682|NCT00545740|184425367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78||95.0|||||Cochran-Mantel-Haenszel|||||||0.780
92261683|NCT00545740|184425369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047||95.0|||||Cochran-Mantel-Haenszel|||||||0.047
92261684|NCT00545740|184425369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741||95.0|||||Cochran-Mantel-Haenszel|||||||0.741
92261685|NCT00545740|184425369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78||95.0|||||Cochran-Mantel-Haenszel|||||||0.780
92261686|NCT02117024|184425374|SUPERIORITY|||||||0.0011|||||||Log Rank|||||||0.0011
92261687|NCT02117024|184425374|OTHER||Hazard Ratio (HR)|1.0|||<|0.05|TWO_SIDED||||||Other|||With only 50% of enrollment complete prior to study termination by sponsor, insufficient sample size exists to fully complete efficacy analysis.||||<0.05
92261688|NCT01646255|184425386|SUPERIORITY_OR_OTHER||Least Square Mean|-1.2|||=|0.0002|TWO_SIDED|95.0|-1.83|-0.57||Primary efficacy analyses was made with confirmatory 2-sided test with significance level 0.05.|ANCOVA|||"Estimate of treatment effect has been obtained from an analysis of covariance (ANCOVA) model to the change from Baseline value in absolute time spent off. The ANCOVA model contained treatment and (pooled) site as factors and Baseline off time as covariate. A last observation carried forward (LOCF) imputation approach was used for missing values (during both Titration and Maintenance Periods) for the primary efficacy analysis."||-0.57|-1.83|=0.0002
92261689|NCT01468844|184425399|OTHER|The mean difference between the minocycline and placebo arms in change in BCVA in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|15.3|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92285118|NCT01045096|184475116|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.13|||||TWO_SIDED|90.0|0.693|1.848|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-tlqc\]. Pairwise comparisons between regimens were conducted.||1.848|0.693|
92285119|NCT01045096|184475116|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.15|||||TWO_SIDED|90.0|0.584|2.276|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-tlqc\]. Pairwise comparisons between regimens were conducted.||2.276|0.584|
92285120|NCT01045096|184475116|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.02|||||TWO_SIDED|90.0|0.632|1.642|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-tlqc\]. Pairwise comparisons between regimens were conducted.||1.642|0.632|
92285121|NCT01045096|184475117|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.06|||||TWO_SIDED|90.0|0.692|1.636|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-24\]. Pairwise comparisons between regimens were conducted.||1.636|0.692|
92285122|NCT01045096|184475117|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.26|||||TWO_SIDED|90.0|0.691|2.314|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-24\]. Pairwise comparisons between regimens were conducted.||2.314|0.691|
92285123|NCT01045096|184475117|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.19|||||TWO_SIDED|95.0|0.777|1.817|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-24\]. Pairwise comparisons between regimens were conducted.||1.817|0.777|
92285124|NCT00909610|184475138|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|92.3|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125|||111|92.3|
92285125|NCT00909610|184475139|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Geometric Mean|106.0||||||90.0|101.0|112.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112|101|
92285126|NCT00909610|184475140|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Geometric Mean|101.0||||||90.0|91.9|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|91.9|
92285127|NCT00909610|184475141|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Geometric Mean|105.0||||||90.0|100.0|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|100|
92285128|NCT00909610|184475142|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Mean|101.0||||||90.0|92.5|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|92.5|
92285129|NCT00909610|184475143|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Mean|110.0||||||90.0|103.0|117.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||117|103|
92285130|NCT00909610|184475144|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Mean|101.0||||||90.0|92.2|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|92.2|
92285131|NCT00909610|184475145|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Mean|107.0||||||90.0|100.0|115.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||115|100|
92285132|NCT01032083|184475181|EQUIVALENCE|For the primary outcome, linear regression was used to determine mean difference between treatment groups. Differences between groups are presented as mean differences with associated 95% confidence interval (CI). Baseline values for variables were included as covariates in regression models and adjusted according to analysis of covariance. All analyses were conducted under the intention-to-treat principle.|Mean Difference (Final Values)|-1.54||||0.36|TWO_SIDED|95.0|-4.91|1.8|||Regression, Linear|||||1.80|-4.91|0.36
92287115|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.216|||<|0.001|TWO_SIDED|95.0|0.163|0.268|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.268|0.163|<0.001
92181234|NCT02307682|184260725|OTHER||Difference in proportions|3.9|||||TWO_SIDED|95.0|-1.7|9.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||9.7|-1.7|
92181235|NCT02307682|184260725|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-5.3|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||5.6|-5.3|
92181236|NCT02307682|184260725|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-1.3|8.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||8.9|-1.3|
92181237|NCT02307682|184260725|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-4.3|6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||6.0|-4.3|
92181238|NCT02307682|184260725|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-6.4|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||5.2|-6.4|
92181239|NCT02307682|184260725|OTHER||Difference in proportions|-4.9|||||TWO_SIDED|95.0|-10.8|0.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||0.9|-10.8|
92181240|NCT02307682|184260726|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-7.7|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.6|-7.7|
92181241|NCT02307682|184260726|OTHER||Difference in proportions|-5.7|||||TWO_SIDED|95.0|-11.4|0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||0.4|-11.4|
92181242|NCT02307682|184260726|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-9.3|1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.2|-9.3|
92261690|NCT01468844|184425400|OTHER|The difference between the minocycline and placebo treatment arms in number of participants improving ≥ 1 logOCT scale step in the study eye at Month 12 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261691|NCT01468844|184425401|OTHER|The difference between the minocycline and placebo treatment arms in number of participants improving ≥ 1 logOCT scale step in the study eye at Month 24 compared to baseline is reported|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261692|NCT01468844|184425402|OTHER|The mean difference between the minocycline and placebo treatment arms in number of bevacizumab injections received from baseline to Month 12 is reported.|Mean Difference (Net)|-5.0|STANDARD_DEVIATION|2.3|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261693|NCT01468844|184425403|OTHER|The mean difference between the minocycline and placebo treatment arms in number of bevacizumab injections received from baseline to Month 24 is reported.|Mean Difference (Net)|-8.2|STANDARD_DEVIATION|4.4|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261694|NCT01468844|184425404|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 3 compared to baseline is reported.|Mean Difference (Net)|-2.5|STANDARD_DEVIATION|1.3|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261695|NCT01468844|184425405|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 6 compared to baseline is reported.|Mean Difference (Net)|-0.8|STANDARD_DEVIATION|3.5|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261696|NCT01468844|184425406|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|-3.0|STANDARD_DEVIATION|3.2|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261697|NCT01468844|184425407|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 18 compared to baseline is reported.|Mean Difference (Net)|-5.4|STANDARD_DEVIATION|2.8|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261698|NCT01468844|184425408|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|-5.4|STANDARD_DEVIATION|3.8|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261699|NCT01468844|184425409|OTHER|The mean difference between the minocycline and placebo arms in change in BCVA in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|30.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261700|NCT01468844|184425410|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 6 compared to baseline is reported.|Mean Difference (Net)|39.3|STANDARD_DEVIATION|113.3|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261701|NCT01468844|184425411|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|313.2|STANDARD_DEVIATION|267.3|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261702|NCT01468844|184425412|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 18 compared to baseline is reported.|Mean Difference (Net)|428.5|STANDARD_DEVIATION|146.2|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92181243|NCT02307682|184260726|OTHER||Difference in proportions|-4.4|||||TWO_SIDED|95.0|-9.8|1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.2|-9.8|
92261703|NCT01468844|184425413|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|119.0|STANDARD_DEVIATION|66.6|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261704|NCT01468844|184425414|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing a decrease in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261705|NCT01468844|184425414|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing an increase in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|-1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261706|NCT01468844|184425414|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing no change in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261707|NCT01468844|184425415|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing a decrease in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261708|NCT01468844|184425415|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing an increase in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261709|NCT01468844|184425415|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing no change in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
92261710|NCT01241318|184425418|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|0.88|1.44|||||The chlorhexidine arm is the numerator and dry cord care arm is the denominator in the relative risk calculation. Generalised estimating equation models were used to adjust for cluster randomized design.|||1.44|0.88|
92261711|NCT01241318|184425419|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|0.86|1.47|||||Generalized estimating equation models adjusting for cluster-randomized design were used.|||1.47|0.86|
92261712|NCT01241318|184425420|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.47|1.13|||||Generalized estimating equation models adjusting for cluster-randomized design were used.|||1.13|0.47|
92261713|NCT02355665|184425424|SUPERIORITY||Estimated Success Rate Ratio|2.0||||0.021|TWO_SIDED|95.0|1.1|3.66||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||3.66|1.10|0.021
92261714|NCT02355665|184425425|SUPERIORITY||Estimated Success Rate Ratio|3.04||||0.004|TWO_SIDED|95.0|1.39|6.68||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||6.68|1.39|0.004
92261715|NCT02355665|184425426|SUPERIORITY||Estimated Success Rate Ratio|2.87||||0.011|TWO_SIDED|95.0|1.23|6.71||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||6.71|1.23|0.011
92261716|NCT02355665|184425427|SUPERIORITY||Estimated Success Rate Ratio|1.66||||0.04|TWO_SIDED|95.0|1.02|2.71||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||2.71|1.02|0.040
92181244|NCT02307682|184260726|OTHER||Difference in proportions|-6.5|||||TWO_SIDED|95.0|-11.5|-1.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-1.5|-11.5|
92181245|NCT02307682|184260726|OTHER||Difference in proportions|-7.6|||||TWO_SIDED|95.0|-12.8|-2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-2.3|-12.8|
92285133|NCT01032083|184475182|EQUIVALENCE|For the primary outcome, linear regression was used to determine mean difference between treatment groups. Differences between groups are presented as mean differences with associated 95% confidence interval (CI). Baseline values for variables were included as covariates in regression models and adjusted according to analysis of covariance. All analyses were conducted under the intention-to-treat principle.|Mean Difference (Final Values)|2.4||||0.68|TWO_SIDED|95.0|-9.0|14.0|||Regression, Linear|||||14|-9|0.68
92285134|NCT03612960|184475200|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|0.14|0.43|||t-test, 2 sided||||The mean percent change in BOLD signal used for this t-test was extracted from a brain cluster with significant group differences in changes in activation over time (voxel p\<.05, cluster p\<.05) identified using a whole-brain, voxel-wise two-way mixed effect ANOVA with FSL software.|0.43|0.14|<.001
92285135|NCT03612960|184475201|SUPERIORITY||Mean Difference (Final Values)|-8.38|STANDARD_ERROR_OF_MEAN|4.33||0.063|TWO_SIDED|95.0|-17.24|0.48|||t-test, 2 sided|||||0.48|-17.24|.063
92285136|NCT03612960|184475202|SUPERIORITY||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|9.86||0.89|TWO_SIDED|95.0|-21.57|18.82|||t-test, 2 sided|||||18.82|-21.57|0.890
92181246|NCT02307682|184260726|OTHER||Difference in proportions|-6.5|||||TWO_SIDED|95.0|-11.8|-1.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-1.1|-11.8|
92181247|NCT02307682|184260726|OTHER||Difference in proportions|-8.6|||||TWO_SIDED|95.0|-14.4|-2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-2.9|-14.4|
92181248|NCT02307682|184260726|OTHER||Difference in proportions|2.7|||||TWO_SIDED|95.0|-2.8|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||8.3|-2.8|
92181249|NCT02307682|184260726|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-3.4|7.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||7.5|-3.4|
92181250|NCT02307682|184260726|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-9.7|0.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||0.9|-9.7|
92181251|NCT02307682|184260726|OTHER||Difference in proportions|-7.1|||||TWO_SIDED|95.0|-12.3|-1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-1.3|-12.3|
92181252|NCT02307682|184260726|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-4.2|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||6.2|-4.2|
92265654|NCT00423137|184432879|OTHER||Difference of least square means|0.335|STANDARD_ERROR_OF_MEAN|0.434||0.4472|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.4472
92265655|NCT00423137|184432880|OTHER||Difference of least square means|-0.141|STANDARD_ERROR_OF_MEAN|0.342||0.6829|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.6829
92265656|NCT00423137|184432881|OTHER||Difference of least square means|0.571|STANDARD_ERROR_OF_MEAN|0.391||0.1565|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.1565
92265657|NCT00423137|184432882|OTHER||Difference of least square means|1.081|STANDARD_ERROR_OF_MEAN|1.185||0.3709|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.3709
92265658|NCT00423137|184432883|OTHER||Difference of least square means|-52.083|STANDARD_ERROR_OF_MEAN|16.48||0.0044|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0044
92265659|NCT00423137|184432884|OTHER||Difference of least square means|-67.012|STANDARD_ERROR_OF_MEAN|21.29||0.0056|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0056
92181253|NCT02307682|184260726|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-8.4|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||1.7|-8.4|
92261717|NCT02355665|184425428|SUPERIORITY||Estimated Success Rate Ratio|2.09||||0.023|TWO_SIDED|95.0|1.09|3.98||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||3.98|1.09|0.023
92261718|NCT02355665|184425429|SUPERIORITY||Estimated Success Rate Ratio|2.91||||0.006|TWO_SIDED|95.0|1.32|6.42||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||6.42|1.32|0.006
92261719|NCT02355665|184425430|SUPERIORITY||Estimated Success Rate Ratio|2.66||||0.013|TWO_SIDED|95.0|1.2|5.92||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||5.92|1.20|0.013
92261720|NCT02355665|184425431|SUPERIORITY||Estimated Mean Difference|-0.02||||0.847|TWO_SIDED|95.0|-0.64|0.6||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of desire/urge to smoke between treatments. The alternative hypothesis was a difference in distribution of the ratings of desire/urge to smoke between treatments.||0.60|-0.64|0.847
92261721|NCT02355665|184425432|SUPERIORITY||Estimated Mean Difference|-0.1||||0.861|TWO_SIDED|95.0|-0.62|0.42||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of desire/urge to smoke between treatments. The alternative hypothesis was a difference in distribution of the ratings of desire/urge to smoke between treatments.||0.42|-0.62|0.861
92261722|NCT02355665|184425433|SUPERIORITY||Estimated Mean Difference|-0.19||||0.266|TWO_SIDED|95.0|-0.61|0.24||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of desire/urge to smoke between treatments. The alternative hypothesis was a difference in distribution of the ratings of desire/urge to smoke between treatments.||0.24|-0.61|0.266
92261723|NCT02355665|184425434|SUPERIORITY||Estimated Mean Difference|0.09||||0.487|TWO_SIDED|95.0|-0.38|0.55||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of desire/urge to smoke between treatments. The alternative hypothesis was a difference in distribution of the ratings of desire/urge to smoke between treatments.||0.55|-0.38|0.487
92261724|NCT02355665|184425435|SUPERIORITY||Estimated Mean Difference|-0.11||||0.433|TWO_SIDED|95.0|-0.65|0.43||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of irritability/frustration/anger between treatments. The alternative hypothesis was a difference in distribution of the ratings of irritability/frustration/anger between treatments.||0.43|-0.65|0.433
92261725|NCT02355665|184425436|SUPERIORITY||Estimated Mean Difference|-0.58||||0.022|TWO_SIDED|95.0|-1.15|-0.01||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of irritability/frustration/anger between treatments. The alternative hypothesis was a difference in distribution of the ratings of irritability/frustration/anger between treatments.||-0.01|-1.15|0.022
92261726|NCT02355665|184425437|SUPERIORITY||Estimated Mean Difference|0.0||||0.665|TWO_SIDED|95.0|-0.5|0.49||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of irritability/frustration/anger between treatments. The alternative hypothesis was a difference in distribution of the ratings of irritability/frustration/anger between treatments.||0.49|-0.50|0.665
92261727|NCT02355665|184425438|SUPERIORITY||Estimated Mean Difference|-0.1||||0.3|TWO_SIDED|95.0|-0.51|0.31||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of irritability/frustration/anger between treatments. The alternative hypothesis was a difference in distribution of the ratings of irritability/frustration/anger between treatments.||0.31|-0.51|0.300
92261728|NCT02355665|184425439|SUPERIORITY||Estimated Mean Difference|-0.17||||0.754|TWO_SIDED|95.0|-0.78|0.43||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of restlessness between treatments. The alternative hypothesis was a difference in distribution of the ratings of restlessness between treatments.||0.43|-0.78|0.754
92261729|NCT02355665|184425440|SUPERIORITY||Estimated Mean Difference|-0.41||||0.116|TWO_SIDED|95.0|-0.89|0.08||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of restlessness between treatments. The alternative hypothesis was a difference in distribution of the ratings of restlessness between treatments.||0.08|-0.89|0.116
92261730|NCT02355665|184425441|SUPERIORITY||Estimated Mean Difference|-0.14||||0.392|TWO_SIDED|95.0|-0.47|0.2||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of restlessness between treatments. The alternative hypothesis was a difference in distribution of the ratings of restlessness between treatments.||0.20|-0.47|0.392
92181254|NCT02307682|184260726|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-6.2|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||5.2|-6.2|
92261731|NCT02355665|184425442|SUPERIORITY||Estimated Mean Difference|-0.23||||0.179|TWO_SIDED|95.0|-0.59|0.13||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of restlessness between treatments. The alternative hypothesis was a difference in distribution of the ratings of restlessness between treatments.||0.13|-0.59|0.179
92261732|NCT02355665|184425443|SUPERIORITY||Estimated Mean Difference|0.01||||0.925|TWO_SIDED|95.0|-0.44|0.47||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of difficulty concentrating between treatments. The alternative hypothesis was a difference in distribution of the ratings of difficulty concentrating between treatments.||0.47|-0.44|0.925
92261733|NCT02355665|184425444|SUPERIORITY||Estimated Mean Difference|-0.21||||0.325|TWO_SIDED|95.0|-0.66|0.24||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of difficulty concentrating between treatments. The alternative hypothesis was a difference in distribution of the ratings of difficulty concentrating between treatments.||0.24|-0.66|0.325
92261734|NCT02355665|184425445|SUPERIORITY||Estimated Mean Difference|0.13||||0.891|TWO_SIDED|95.0|-0.24|0.51||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of difficulty concentrating between treatments. The alternative hypothesis was a difference in distribution of the ratings of difficulty concentrating between treatments.||0.51|-0.24|0.891
92261735|NCT02355665|184425446|SUPERIORITY||Estimated Mean Difference|-0.11||||0.721|TWO_SIDED|95.0|-0.48|0.25||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of difficulty concentrating between treatments. The alternative hypothesis was a difference in distribution of the ratings of difficulty concentrating between treatments.||0.25|-0.48|0.721
92261736|NCT02355665|184425447|SUPERIORITY||Estimated Mean Difference|-0.03||||0.608|TWO_SIDED|95.0|-0.54|0.49||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of anxiety between treatments. The alternative hypothesis was a difference in distribution of the ratings of anxiety between treatments.||0.49|-0.54|0.608
92261737|NCT02355665|184425448|SUPERIORITY||Estimated Mean Difference|-0.63||||0.014|TWO_SIDED|95.0|-1.16|-0.09||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of anxiety between treatments. The alternative hypothesis was a difference in distribution of the ratings of anxiety between treatments.||-0.09|-1.16|0.014
92261738|NCT02355665|184425449|SUPERIORITY||Estimated Mean Difference|0.04||||0.9|TWO_SIDED|95.0|-0.3|0.38||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of anxiety between treatments. The alternative hypothesis was a difference in distribution of the ratings of anxiety between treatments.||0.38|-0.30|0.900
92261739|NCT02355665|184425450|SUPERIORITY||Estimated Mean Difference|-0.06||||0.731|TWO_SIDED|95.0|-0.44|0.31||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of anxiety between treatments. The alternative hypothesis was a difference in distribution of the ratings of anxiety between treatments.||0.31|-0.44|0.731
92261740|NCT02355665|184425451|SUPERIORITY||Estimated Mean Difference|0.04||||0.635|TWO_SIDED|95.0|-0.28|0.36||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of dysphoric or depressed mood between treatments. The alternative hypothesis was a difference in distribution of the ratings of dysphoric or depressed mood between treatments.||0.36|-0.28|0.635
92265660|NCT00423137|184432885|OTHER||Difference of least square means|-62.571|STANDARD_ERROR_OF_MEAN|18.42||0.0025|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0025
92285137|NCT00834249|184475203|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|101.73||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
92285138|NCT00834249|184475204|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|99.73||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
92285139|NCT00834249|184475205|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|99.71||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
92285140|NCT00834249|184475206|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|109.61||||||90.0|||||||Metabolite results not subjected to bioequivalence criteria, results are presented for informational purposes only.|||||
92285141|NCT00834249|184475207|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|106.85||||||90.0|||||||Metabolite results not subjected to bioequivalence criteria, results are presented for informational puposes only.|||||
92285142|NCT00834249|184475208|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|106.38||||||90.0|||||||Metabolite results not subjected to bioequivalence criteria, results are presented for informational purposes only.|||||
92285143|NCT00834743|184475209|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.49||||||90.0|90.65|109.18|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109.18|90.65|
92285144|NCT00834743|184475210|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.0||||||90.0|91.44|107.19|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.19|91.44|
92285145|NCT00834743|184475211|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.05||||||90.0|90.57|108.32|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.32|90.57|
92285146|NCT01643707|184475227|SUPERIORITY|A chi-square test was performed to determine a difference between Phase 1 and Phase 2.|||||<|1e-05|||||||Chi-squared|||||||<0.00001
92285147|NCT01643707|184475228|EQUIVALENCE|Chi-Square test used to show any difference between Phase 1 and Phase 2|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92285148|NCT01643707|184475229|EQUIVALENCE|Chi-Square test used to show any difference between Phase 1 and Phase 2|||||<|0.0001||||||This endpoint was covered in primary objective 2, so this analysis is the same as previously reported.|Chi-squared||||See Primary Objectives for additional details.|||<0.0001
92285149|NCT04112823|184475234|SUPERIORITY||Risk Ratio (RR)|7.0|||||TWO_SIDED|95.0|-6.0|20.0||||||||20|-6|
92285150|NCT04112823|184475235|SUPERIORITY||Risk Ratio (RR)|4.0|||||TWO_SIDED|95.0|-8.0|16.0||||||||16|-8|
92285151|NCT04112823|184475236|SUPERIORITY||Risk Ratio (RR)|3.0|||||TWO_SIDED|95.0|-8.0|14.0||||||||14|-8|
92285152|NCT04112823|184475238|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-0.3|1.2||||||||1.2|-0.3|
92285153|NCT04112823|184475239|SUPERIORITY||Risk Ratio (RR)|4.0|||||TWO_SIDED|95.0|-9.0|18.0||||||||18|-9|
92285154|NCT03603314|184475260|SUPERIORITY|||||||0.3419|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.3419
92285155|NCT03603314|184475260|SUPERIORITY|||||||0.5181|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.5181
92285156|NCT03603314|184475261|SUPERIORITY|||||||0.3666|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.3666
92285157|NCT03603314|184475261|SUPERIORITY|||||||0.5776|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.5776
92285158|NCT03603314|184475262|SUPERIORITY|||||||0.4094|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.4094
92287116|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.172|||<|0.001|TWO_SIDED|95.0|0.12|0.224|||ANCOVA|||"Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.224|0.120|<0.001
92285159|NCT03603314|184475262|SUPERIORITY|||||||0.4602|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.4602
92285160|NCT03603314|184475263|SUPERIORITY|||||||0.1269|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.1269
92285161|NCT03603314|184475263|SUPERIORITY|||||||0.2257|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.2257
92285162|NCT03603314|184475264|SUPERIORITY|||||||0.3121|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.3121
92285163|NCT03603314|184475264|SUPERIORITY|||||||0.4965|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.4965
92285164|NCT03603314|184475265|SUPERIORITY|||||||0.0976|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.0976
92285165|NCT03603314|184475265|SUPERIORITY|||||||0.1762|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.1762
92285166|NCT01382719|184475278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0215|STANDARD_DEVIATION|2.9|<|0.05|TWO_SIDED|95.0|0.0|1.0|||Van Elteren|||||1.0|0.0|<0.05
92285167|NCT01382719|184475278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0012|STANDARD_DEVIATION|0.0012|<|0.05|TWO_SIDED|95.0|0.0|0.06|||Van Elteren|||||0.06|0.00|<0.05
92285168|NCT01382719|184475279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0496|||<|0.05|||||||ANCOVA|||||||<0.05
92285169|NCT01382719|184475280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0079|||<|0.05|TWO_SIDED|95.0|0.0|1.0|||Van Elteren|||||1.00|0.00|<0.05
92285170|NCT01382719|184475281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0012|||<|0.05|||||||Van Elteren|||||||<0.05
92285171|NCT01382719|184475282|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0013|||<|0.05|||||||Van Elteren|||||||<0.05
92285172|NCT01382719|184475283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1161|||<|0.05|||||||Van Elteren|||||||<0.05
92285173|NCT01382719|184475284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0133|||<|0.05|||||||ANCOVA|||||||<0.05
92285174|NCT00064753|184475285|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.99||||0.93|TWO_SIDED|95.0|0.84|1.17||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||1.17|0.84|0.93
92285175|NCT00064753|184475286|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.15||||0.19|TWO_SIDED|95.0|0.93|1.43||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||1.43|0.93|0.19
92285176|NCT00064753|184475287|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.04||||0.67|TWO_SIDED|95.0|0.86|1.26||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||1.26|0.86|0.67
92285177|NCT00064753|184475288|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.08||||0.61|TWO_SIDED|95.0|0.8|1.45||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||1.45|0.80|0.61
92285178|NCT00064753|184475289|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.12||||0.64|TWO_SIDED|95.0|0.69|1.81||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||1.81|0.69|0.64
92285179|NCT00064753|184475290|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8||||0.66|TWO_SIDED|95.0|0.3|2.15||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||2.15|0.30|0.66
92285180|NCT00064753|184475291|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.84||||0.28|TWO_SIDED|95.0|0.62|1.15|||Regression, Cox|||||1.15|0.62|0.28
92285181|NCT00064753|184475292|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.95||||0.7|TWO_SIDED|95.0|0.73|1.23|||Regression, Cox|P was calculated with stratified proportional hazards models stratified by country||||1.23|0.73|0.70
92285182|NCT00064753|184475293|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.14||||0.49|TWO_SIDED|95.0|0.79|1.65|||Regression, Cox|P was calculated with stratified proportional hazards models stratified by country||||1.65|0.79|0.49
92285183|NCT00064753|184475294|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.14||||0.78|TWO_SIDED|95.0|0.46|2.8|||Regression, Cox|P was calculated with stratified proportional hazards models stratified by country||||2.80|0.46|0.78
92285184|NCT00064753|184475295|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.61||||0.5|TWO_SIDED|95.0|0.15|2.57|||Regression, Cox|P was calculated with stratified proportional hazards models stratified by country||||2.57|0.15|0.50
92261741|NCT02355665|184425452|SUPERIORITY||Estimated Mean Difference|-0.05||||0.273|TWO_SIDED|95.0|-0.42|0.32||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of dysphoric or depressed mood between treatments. The alternative hypothesis was a difference in distribution of the ratings of dysphoric or depressed mood between treatments.||0.32|-0.42|0.273
92265661|NCT00423137|184432886|OTHER||Difference of least square means|-40.067|STANDARD_ERROR_OF_MEAN|18.8||0.0439|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0439
92265662|NCT00423137|184432887|OTHER||Difference of least square means|-57.46|STANDARD_ERROR_OF_MEAN|21.3||0.0129|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0129
92265663|NCT00423137|184432888|OTHER||Difference of least square means|-55.332|STANDARD_ERROR_OF_MEAN|17.11||0.0037|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0037
92265664|NCT00423137|184432889|OTHER||Difference of least square means|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.9076|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.9076
92265665|NCT00423137|184432890|OTHER||Difference of least square means|-13453.0|STANDARD_ERROR_OF_MEAN|16118.0||0.4121|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.4121
92265666|NCT00423137|184432891|OTHER||Difference of least square means|-78.619|STANDARD_ERROR_OF_MEAN|298.91||0.7948|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.7948
92265667|NCT00423137|184432892|OTHER||Difference of least square means|0.195|STANDARD_ERROR_OF_MEAN|0.101||0.064|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.0640
92265668|NCT00423137|184432893|OTHER||Difference of least square means|0.007|STANDARD_ERROR_OF_MEAN|0.004||0.0587|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.0587
92265669|NCT04196023|184432894|SUPERIORITY|||||||0.2||||||p-value was calculated using GLM. Statistical significance was determined using an alpha level of 0.05.|general linear model|adjusted for age, sex, education and baseline overall MoCA score||||||0.20
92265670|NCT04196023|184432895|SUPERIORITY|||||||0.9||||||p-value was calculated using GLM model. Statistical significance was determined using an alpha level of 0.05.|general linear model|GLM model additionally adjusting for age, sex, education and baseline level.||||||0.90
92261742|NCT02355665|184425453|SUPERIORITY||Estimated Mean Difference|-0.06||||0.879|TWO_SIDED|95.0|-0.4|0.28||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of dysphoric or depressed mood between treatments. The alternative hypothesis was a difference in distribution of the ratings of dysphoric or depressed mood between treatments.||0.28|-0.40|0.879
92261743|NCT02355665|184425454|SUPERIORITY||Estimated Mean Difference|0.02||||0.823|TWO_SIDED|95.0|-0.28|0.32||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of dysphoric or depressed mood between treatments. The alternative hypothesis was a difference in distribution of the ratings of dysphoric or depressed mood between treatments.||0.32|-0.28|0.823
92261744|NCT02355665|184425455|SUPERIORITY||Estimated Mean Difference|0.0||||0.804|TWO_SIDED|95.0|-0.4|0.4||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of insomnia between treatments. The alternative hypothesis was a difference in distribution of the ratings of insomnia between treatments.||0.40|-0.40|0.804
92261745|NCT02355665|184425456|SUPERIORITY||Estimated Mean Difference|0.13||||0.438|TWO_SIDED|95.0|-0.3|0.57||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of insomnia between treatments. The alternative hypothesis was a difference in distribution of the ratings of insomnia between treatments.||0.57|-0.30|0.438
92261746|NCT02355665|184425457|SUPERIORITY||Estimated Mean Difference|-0.08||||0.517|TWO_SIDED|95.0|-0.44|0.28||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of insomnia between treatments. The alternative hypothesis was a difference in distribution of the ratings of insomnia between treatments.||0.28|-0.44|0.517
92265671|NCT04196023|184432896|SUPERIORITY|||||||0.01||||||p-value was calculated using GLM model. Statistical significance was determined using an alpha level of 0.05.|general linear model|GLM model additionally adjusting for age, sex, education and baseline level.||||||0.01
92261747|NCT02355665|184425458|SUPERIORITY||Estimated Mean Difference|-0.42||||0.027|TWO_SIDED|95.0|-0.77|-0.06||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of insomnia between treatments. The alternative hypothesis was a difference in distribution of the ratings of insomnia between treatments.||-0.06|-0.77|0.027
92261748|NCT02355665|184425459|SUPERIORITY||Estimated Mean Difference|-0.3||||0.105|TWO_SIDED|95.0|-0.93|0.33||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of increased appetite between treatments. The alternative hypothesis was a difference in distribution of the ratings of increased appetite between treatments.||0.33|-0.93|0.105
92261749|NCT02355665|184425460|SUPERIORITY||Estimated Mean Difference|-0.04||||0.604|TWO_SIDED|95.0|-0.6|0.51||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of increased appetite between treatments. The alternative hypothesis was a difference in distribution of the ratings of increased appetite between treatments.||0.51|-0.60|0.604
92261750|NCT02355665|184425461|SUPERIORITY||Estimated Mean Difference|-0.35||||0.194|TWO_SIDED|95.0|-0.93|0.24||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of increased appetite between treatments. The alternative hypothesis was a difference in distribution of the ratings of increased appetite between treatments.||0.24|-0.93|0.194
92261751|NCT02355665|184425462|SUPERIORITY||Estimated Mean Difference|-0.11||||0.502|TWO_SIDED|95.0|-0.62|0.4||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of increased appetite between treatments. The alternative hypothesis was a difference in distribution of the ratings of increased appetite between treatments.||0.40|-0.62|0.502
92261752|NCT02355665|184425463|SUPERIORITY||Estimated Mean Difference|-0.56||||0.483|TWO_SIDED|95.0|-2.84|1.73||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of aggregated withdrawal scores between treatments. The alternative hypothesis was a difference in distribution of aggregated withdrawal scores between treatments.||1.73|-2.84|0.483
92181255|NCT02307682|184260726|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-7.5|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||3.4|-7.5|
92265672|NCT04196023|184432897|SUPERIORITY|||||||0.05||||||p-value was calculated using GLM model and false discovery rate (FDR)-adjustment. Statistical significance was determined using an alpha level of 0.05.|general linear model|GLM model additionally adjusting for age, sex, education and baseline level.||||||0.05
92261753|NCT02355665|184425464|SUPERIORITY||Estimated Mean Difference|-1.79||||0.102|TWO_SIDED|95.0|-4.24|0.67||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of aggregated withdrawal scores between treatments. The alternative hypothesis was a difference in distribution of aggregated withdrawal scores between treatments.||0.67|-4.24|0.102
92261754|NCT02355665|184425465|SUPERIORITY||Estimated Mean Difference|-0.45||||0.532|TWO_SIDED|95.0|-2.27|1.38||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of aggregated withdrawal scores between treatments. The alternative hypothesis was a difference in distribution of aggregated withdrawal scores between treatments.||1.38|-2.27|0.532
92285185|NCT00064753|184475296|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.3||||0.6|TWO_SIDED|95.0|0.48|3.5|||Regression, Cox|P was calculated with stratified proportional hazards models stratified by country||||3.50|0.48|0.60
92285186|NCT00624065|184475372|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.968||||0.8822||95.0|0.63|1.49|||Regression, Logistic|||||1.49|0.63|0.8822
92285187|NCT01387022|184475374|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
92285188|NCT01387022|184475375|SUPERIORITY_OR_OTHER|||||||0.481|||||||Wilcoxon (Mann-Whitney)|||||||0.481
92285189|NCT01387022|184475377|SUPERIORITY_OR_OTHER|||||||0.267|||||||Fisher Exact|||||||0.267
92285190|NCT01536405|184475387|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% confidence interval (CI) on the risk difference excluding a decrease \>= the prespecified criterion of 10 percentage points|Risk Difference (RD)|4.2|||<|0.001|TWO_SIDED|95.0|1.8|6.8|||Miettinen and Nurminen||RD = MMRV (AMP) - MMRV (2006 process)|||6.8|1.8|<0.001
92285191|NCT01536405|184475387|SUPERIORITY_OR_OTHER||Response rate|97.3|||<|0.001|TWO_SIDED|95.0|95.6|98.4|||One-sample binomial|||Acceptability of the antibody response rate was based on a lower bound of the 95% CI being \>76%||98.4|95.6|<0.001
92285192|NCT01536405|184475388|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the risk difference excluding a decrease \>= the prespecified criterion of 5 percentage points|Risk Difference (RD)|-2.2||||0.003|TWO_SIDED|95.0|-4.0|-0.6|||Miettinen and Nurminen||RD = MMRV (AMP) - MMRV (2006 process)|||-0.6|-4.0|0.003
92285193|NCT01536405|184475388|SUPERIORITY_OR_OTHER||Response rate|96.7|||<|0.001|TWO_SIDED|95.0|94.9|97.9|||One-sample binomial|||Acceptability of the antibody response rate was based on a lower bound of the 95% CI being \>90%||97.9|94.9|<0.001
92261755|NCT02355665|184425466|SUPERIORITY||Estimated Mean Difference|-1.01||||0.354|TWO_SIDED|95.0|-2.93|0.91||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of aggregated withdrawal scores between treatments. The alternative hypothesis was a difference in distribution of aggregated withdrawal scores between treatments.||0.91|-2.93|0.354
92261756|NCT02355665|184425635|SUPERIORITY||Least Squares Mean Difference|0.99|STANDARD_ERROR_OF_MEAN|1.679||0.558|TWO_SIDED|95.0|-2.42|4.41||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment, baseline smoking category, study site, and baseline weight were factors.|Least Squares Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in mean change from baseline in body weight between treatments. The alternative hypothesis was a difference in mean change from baseline in body weight between treatments.||4.41|-2.42|0.558
92261757|NCT02355665|184425636|SUPERIORITY||Least Squares Mean Difference|3.04|STANDARD_ERROR_OF_MEAN|3.409||0.383|TWO_SIDED|95.0|-4.03|10.11||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment, baseline smoking category, study site, and baseline weight were factors.|Least Squares Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in mean change from baseline in body weight between treatments. The alternative hypothesis was a difference in mean change from baseline in body weight between treatments.||10.11|-4.03|0.383
92261758|NCT02355665|184425637|SUPERIORITY||Least Squares Mean Difference|7.13|STANDARD_ERROR_OF_MEAN|4.573||0.138|TWO_SIDED|95.0|-2.56|16.83||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment, baseline smoking category, study site, and baseline weight were factors.|Least Squares Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in mean change from baseline in body weight between treatments. The alternative hypothesis was a difference in mean change from baseline in body weight between treatments.||16.83|-2.56|0.138
92261759|NCT02380703|184425668|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.29|TWO_SIDED|95.0|0.78|2.32||For participants who dropped out, their time until study attrition was used as the exposure period; and they were carried forward as part of the overall incidence count.|Regression, Cox|||Sample-size calculations were performed, based on the ability to detect a small-to-moderate difference (Cohen's h = 0.4) in rate of aggression onset over a 1-year period between APT and EU-PC, assuming 80% power and a type I error rate of 5%. Given an anticipated rate of aggression onset over 1 year of 37% for EU-PC, an ES of h = 0.4 allows detection of aggression onset in APT as high as 19%. Given this effect size and up to 10% attrition, our goal was to include 220 total participants.||2.32|0.78|0.29
92261760|NCT02380703|184425668|EQUIVALENCE|Examination of whether the presence of aggression is equivalent between APT and EU-PC|Difference in frequencies|1.21||||0.27|TWO_SIDED|||||Association between presence of aggression and condition (APT vs EU-PC).|Chi-squared|X2(1) = 1.21||||||0.27
92261761|NCT02380703|184425669|SUPERIORITY||F-statistic|1.59||||0.19|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.19
92261762|NCT02380703|184425670|SUPERIORITY||F-statistic|2.43||||0.06|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.06
92261763|NCT02380703|184425671|SUPERIORITY||F-statistic|0.33||||0.8|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.80
92261764|NCT02380703|184425672|SUPERIORITY||F-statistic|0.21||||0.89|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.89
92261765|NCT02380703|184425673|SUPERIORITY||F-statistic|1.48||||0.22|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.22
92261766|NCT02380703|184425674|SUPERIORITY||F-statistic|0.38||||0.77|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.77
92261767|NCT02380703|184425675|SUPERIORITY||F-statistic|0.56||||0.64|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.64
92261768|NCT01408862|184425702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.04|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"Results will be expressed as mean + SD from independent experiments. Statistical significance between means were determined by Wilcoxon-paired test. Variable will be log-transformed if they were not normally distributed. . We used the CSS/ Statistica program package, StatSoft V 6.0.~This analysis applies to both GLP1R and GIPR categories"||||0.04
92261769|NCT01408862|184425703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.2|||||||ANOVA|||Results will be expressed as mean + SD from independent experiments. Statistical significance between means were determined by two-way ANOVA with repeated measures on one factor, for variables measured in several consecutive times. Variable will be log-transformed if they were not normally distributed. Wilcoxon test for paired samples was used. The Statistica program package (StatSoft V 6.0) were used to perform these analyses, which applied to both GLP1R and GIPR agonist effect categories.||||0.20
92261770|NCT01813149|184425705|SUPERIORITY|||||||0.009|||||||t-test, 2 sided|df=20 t-statistic = 2.90||A t-test to see if expression of α1-AR differs between phenylephrine responders and non-responders||||0.009
92261771|NCT01882439|184425716|SUPERIORITY_OR_OTHER||Risk Difference (RD)|25.95|STANDARD_ERROR_OF_MEAN|5.73|<|0.0001|TWO_SIDED|95.0|14.72|37.19|||Large sample approximation|Missing response (MR) = non-response (NR)||||37.19|14.72|<0.0001
92261772|NCT01882439|184425716|SUPERIORITY_OR_OTHER||Risk Difference (RD)|23.31|STANDARD_ERROR_OF_MEAN|5.71|<|0.0001|TWO_SIDED|95.0|12.1|34.51|||Large sample approximation|MR=NR||||34.51|12.10|<0.0001
92285194|NCT01536405|184475389|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the risk difference excluding a decrease \>= the prespecified criterion of 5 percentage points|Risk Difference (RD)|1.0|||<|0.001|TWO_SIDED|95.0|-0.7|2.8|||Miettinen and Nurminen||RD = MMRV (AMP) - MMRV (2006 process)|||2.8|-0.7|<0.001
92261773|NCT01882439|184425717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2529|STANDARD_ERROR_OF_MEAN|0.06422|<|0.0001|TWO_SIDED|95.0|-0.3792|-0.1266|||Mixed Models Analysis|No imputation||||-0.1266|-0.3792|<0.0001
92261774|NCT01882439|184425717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.215|STANDARD_ERROR_OF_MEAN|0.06453||0.0009|TWO_SIDED|95.0|-0.3419|-0.0881|||Mixed Models Analysis|No imputation||||-0.0881|-0.3419|0.0009
92261775|NCT03125902|184425756|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.2032|TWO_SIDED|95.0|0.6|1.12|||Log Rank|||Stratified Analysis||1.12|0.60|0.2032
92261776|NCT03125902|184425756|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.2601|TWO_SIDED|95.0|0.62|1.14|||Log Rank|||Unstratified Analysis||1.14|0.62|0.2601
92261777|NCT03125902|184425757|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.86||||0.1343|TWO_SIDED|95.0|0.7|1.05|||Log Rank|||||1.05|0.70|0.1343
92261778|NCT03125902|184425757|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.1285|TWO_SIDED|95.0|0.7|1.05|||Log Rank|||Unstratified Analysis||1.05|0.70|0.1285
92261779|NCT03125902|184425758|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.5798|TWO_SIDED|95.0|0.76|1.64|||Log Rank|||Stratified Analysis||1.64|0.76|0.5798
92261780|NCT03125902|184425758|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.4035|TWO_SIDED|95.0|0.8|1.72|||Log Rank|||Unstratified Analysis||1.72|0.80|0.4035
92261781|NCT03125902|184425759|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.3425|TWO_SIDED|95.0|0.88|1.43|||Log Rank|||Stratified analysis||1.43|0.88|0.3425
92285195|NCT01536405|184475389|SUPERIORITY_OR_OTHER||Response rate|98.2|||<|0.001|TWO_SIDED|95.0|96.8|99.1|||One-sample binomial|||Acceptability of the antibody response rate was based on a lower bound of the 95% CI being \>90%||99.1|96.8|<0.001
92261782|NCT03125902|184425759|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.2166|TWO_SIDED|95.0|0.92|1.48|||Log Rank|||Unstratified Analysis||1.48|0.92|0.2166
92261783|NCT03125902|184425761|OTHER|Stratified analysis|Hazard Ratio (HR)|0.94||||0.6465|TWO_SIDED|95.0|0.71|1.24|||Log Rank|||||1.24|0.71|0.6465
92261784|NCT03125902|184425763|OTHER||Odds Ratio (OR)|1.44||||0.1526|TWO_SIDED|95.0|0.87|2.37|||Cochran-Mantel-Haenszel|||||2.37|0.87|0.1526
92261785|NCT03125902|184425764|OTHER||Odds Ratio (OR)|1.4||||0.1834|TWO_SIDED|95.0|0.85|2.31|||Cochran-Mantel-Haenszel|||||2.31|0.85|0.1834
92261786|NCT03125902|184425765|OTHER||Odds Ratio (OR)|1.42||||0.0513|TWO_SIDED|95.0|1.0|2.02|||Cochran-Mantel-Haenszel|||||2.02|1.00|0.0513
92261787|NCT03125902|184425766|OTHER||Odds Ratio (OR)|1.3||||0.1226|TWO_SIDED|95.0|0.93|1.81|||Cochran-Mantel-Haenszel|||||1.81|0.93|0.1226
92261788|NCT03125902|184425767|OTHER|Unstratified Analysis|Hazard Ratio (HR)|0.74||||0.0641|TWO_SIDED|95.0|0.54|1.02|||Log Rank|||||1.02|0.54|0.0641
92261789|NCT03125902|184425777|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.01227|TWO_SIDED|95.0|0.42|0.9|||Log Rank|||Unstratified Analysis||0.90|0.42|0.01227
92261790|NCT01997333|184425778|SUPERIORITY|||||||0.761|||||||Log Rank|Stratified log rank test.||||||0.761
92261791|NCT01997333|184425779|SUPERIORITY|||||||0.264|||||||Cochran-Mantel-Haenszel|Adjusted for stratification factors.||||||0.264
92261792|NCT01997333|184425781|SUPERIORITY|||||||0.726|||||||Log Rank|Stratified log rank.||||||0.726
92261793|NCT02269709|184425784|OTHER|Changes in mean liver shear wave speed (SWS) between time points were assessed using a mixed-effect model with post hoc Tukey correction.|||||<|0.0001|||||||Mixed Models Analysis|||Comparison of Baseline and Follow-up #1||||<0.0001
92261794|NCT02269709|184425784|OTHER|Changes in mean liver shear wave speed (SWS) between time points were assessed using a mixed-effect model with post hoc Tukey correction.|||||<|0.0001|||||||Mixed Models Analysis|||Comparison of Baseline vs. Follow up #2||||<0.0001
92261795|NCT02269709|184425784|OTHER|Changes in mean liver shear wave speed (SWS) between time points were assessed using a mixed-effect model with post hoc Tukey correction.|||||<|0.0001|||||||Mixed Models Analysis|||Comparison of Baseline vs. Follow-up #3||||<0.0001
92261796|NCT02269709|184425785|OTHER|Mean IVC pressures from different time points were compared using the Wilcoxon signed-rank test.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92261797|NCT00890396|184425786|SUPERIORITY|||||||0.67|||||||Fisher Exact|||The primary analysis compared the frequency of worsening spleen function (from normal to decreased or absent, or from decreased to absent).||||0.67
92261798|NCT00890396|184425787|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||The primary analysis compared the frequency of worsening spleen function (from normal to decreased or absent, or from decreased to absent).||||>0.99
92261799|NCT00890396|184425788|SUPERIORITY|||||||0.61|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.61
92261800|NCT00890396|184425789|SUPERIORITY|||||||0.78|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.78
92261801|NCT00890396|184425790|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.80
92261802|NCT00890396|184425791|SUPERIORITY|||||||0.11|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.11
92261803|NCT00890396|184425792|SUPERIORITY|||||||0.85|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.85
92261804|NCT00890396|184425793|SUPERIORITY|||||||0.95|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.95
92261805|NCT00890396|184425794|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.40
92261806|NCT00890396|184425795|SUPERIORITY|||||||0.11|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.11
92261807|NCT04411472|184425796|SUPERIORITY||Odds Ratio (OR)|1.18||||0.8025|TWO_SIDED|95.0|0.805|1.732|||One-sided p-value|||||1.732|0.805|0.8025
92261808|NCT04411472|184425797|SUPERIORITY||Odds Ratio (OR)|0.54||||0.1824|TWO_SIDED|95.0|0.139|2.131|||One-sided p-value|||||2.131|0.139|0.1824
92261809|NCT04411472|184425798|SUPERIORITY||Odds Ratio (OR)|0.02||||0.008|TWO_SIDED|95.0|0.001|0.405|||One-sided p-value|||||0.405|0.001|0.0080
92261810|NCT04411472|184425799|SUPERIORITY||Odds Ratio (OR)|0.94||||0.3894|TWO_SIDED|95.0|0.606|1.454|||One-sided p-value|||||1.454|0.606|0.3894
92261811|NCT04411472|184425800|SUPERIORITY||Odds Ratio (OR)|0.47||||0.1237|TWO_SIDED|95.0|0.128|1.697|||One-sided p-value|||||1.697|0.128|0.1237
92261812|NCT04411472|184425802|SUPERIORITY||z-score statistic difference proportions|-7.9||||0.019|TWO_SIDED|95.0|-15.4|-0.4||one-sided p-value based on the z-score statistic for the difference in proportions|one-sided p-value|||||-0.4|-15.4|0.019
92261813|NCT04411472|184425803|SUPERIORITY|||||||0.546|||||||One-sided p-value from re-randomization|||Days alive and free of organ support through to Day 28||||0.5460
92261814|NCT04411472|184425803|SUPERIORITY|||||||0.677|||||||One-sided p-value from re-randomization|||Number of days free of MV||||0.6770
92261815|NCT04411472|184425803|SUPERIORITY|||||||0.993|||||||One-sided p-value from re-randomization|||Number of days free of RRT||||0.9930
92261816|NCT04411472|184425803|SUPERIORITY|||||||0.779|||||||One-sided p-value from re-randomization|||Number of days free of vasopressors and inotropes||||0.7790
92261817|NCT04411472|184425804|SUPERIORITY|||||||0.051|||||||One-sided p-value from re-randomization|||Days alive and free of organ support through Day 28||||0.0510
92261818|NCT04411472|184425804|SUPERIORITY|||||||0.013|||||||One-sided p-value from re-randomization|||Number of days free of MV||||0.0130
92261819|NCT04411472|184425804|SUPERIORITY|||||||0.025|||||||One-sided p-value from re-randomization|||Number of days free of RRT||||0.0250
92261820|NCT04411472|184425804|SUPERIORITY|||||||0.073|||||||One-sided p-value from re-randomization|||Number of days free of vasopressors and inotropes||||0.0730
92261821|NCT04411472|184425805|SUPERIORITY|||||||1|||||||One-sided p-value from re-randomization|||Days alive and free of organ support through Day 28||||1.0000
92261822|NCT04411472|184425805|SUPERIORITY|||||||0.979|||||||One-sided p-value from re-randomization|||Number of days free of MV||||0.9790
92261823|NCT04411472|184425805|SUPERIORITY|||||||0.675|||||||One-sided p-value from re-randomization|||Number of days free of RRT||||0.6750
92261824|NCT04411472|184425805|SUPERIORITY|||||||0.031|||||||One-sided p-value from re-randomization|||Number of days free of vasopressors and inotropes||||0.0310
92261825|NCT04411472|184425806|SUPERIORITY|||||||0.545|||||||One-sided p-value from re-randomization|||||||0.5450
92261826|NCT04411472|184425807|SUPERIORITY|||||||0.081|||||||One-sided p-value from re-randomization|||||||0.0810
92261827|NCT04411472|184425808|SUPERIORITY|||||||0.979|||||||One-sided p-value from re-randomization|||||||0.9790
92261828|NCT04411472|184425809|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.6916|TWO_SIDED|95.0|0.806|1.437|||One-sided p-value|||||1.437|0.806|0.6916
92261829|NCT04411472|184425810|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.0628|TWO_SIDED|95.0|0.18|1.234|||One-sided p-value|||||1.234|0.180|0.0628
92261830|NCT04411472|184425811|SUPERIORITY||Hazard Ratio (HR)|0.01|||<|0.0001|TWO_SIDED|95.0|0.001|0.054|||One-sided p-value|||||0.054|0.001|<0.0001
92261831|NCT00440232|184425812|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.969||||0.172|TWO_SIDED|95.0|0.74|5.235|||Chi-squared|||||5.235|0.74|0.172
92261832|NCT00440232|184425813|SUPERIORITY_OR_OTHER||log rank chi square|1.247||||0.264||95.0|||||Log Rank|df=1||||||0.264
92261833|NCT00362297|184425814|SUPERIORITY_OR_OTHER_LEGACY||Incident Risk Ratio|0.79||||0.052||95.0|0.63|1.0|||Regression, Poisson|Adjusted for period effects.||Comparison of genital HSV shedding rate on high dose acyclovir to standard dose valacyclovir. Powered with 80% chance of detecting 50% reduction in genital shedding rate on high dose acyclovir compared to standard dose valacyclovir.||1.00|0.63|0.052
92261834|NCT00819052|184425815|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of nevirapine XR to nevirapine IR was established if the lower bound of the confidence interval was greater than -12%|Cochran's statistic|1.0||||||95.0|-4.3|6.2|||Cochran's statistic||Weighted treatment difference and corresponding variance were calculated based on Cochran's statistic.|||6.2|-4.3|
92261835|NCT00819052|184425828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.64||||0.7587||95.0|-34.34|25.05|||ANCOVA|Means adjusted for background ARV (Antiretroviral) stratum||||25.05|-34.34|0.7587
92261836|NCT00982111|184425885|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.9561|TWO_SIDED|95.0|0.84|1.21|||Log Rank|||||1.21|0.84|0.9561
92261837|NCT00982111|184425886|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96||||0.6647|TWO_SIDED|95.0|0.8|1.16|||Log Rank|||||1.16|0.80|0.6647
92261838|NCT00982111|184425887|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.96||||0.7945|TWO_SIDED|95.0|0.68|1.34|||Cochran-Mantel-Haenszel|||||1.34|0.68|0.7945
92261839|NCT00982111|184425888|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.18||||0.0459|TWO_SIDED|95.0|1.0|1.39|||Log Rank|||||1.39|1.00|0.0459
92261840|NCT00684073|184425897|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.42||||0.13||95.0||||p-value adjusted for treatment only|ANCOVA||Difference between treatments (Suboxone minus Subutex)estimated by ANCOVA = 0.42.|||||0.130
92261841|NCT01259388|184425902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.346|||||||t-test, 2 sided|||||||0.346
92261842|NCT01259388|184425904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
92261843|NCT00620815|184425905|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Group Mean Ratio|1.13|||||TWO_SIDED|96.67|1.02|1.25||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 1) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.25|1.02|
92261844|NCT00620815|184425905|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|1.01|||||TWO_SIDED|96.67|0.91|1.12||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 1) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.12|0.91|
92261845|NCT00620815|184425905|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratio|0.89|||||TWO_SIDED|96.67|0.8|0.99||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 1)Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||0.99|0.80|
92261846|NCT00620815|184425905|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|1.19|||||TWO_SIDED|96.67|0.74|1.93||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 22) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.93|0.74|
92261847|NCT00620815|184425905|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|0.85|||||TWO_SIDED|96.67|0.52|1.38||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 22) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.38|0.52|
92261848|NCT00620815|184425905|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|0.71|||||TWO_SIDED|96.67|0.44|1.15||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 22) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.15|0.44|
92261849|NCT00620815|184425905|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|1.14|||||TWO_SIDED|96.67|1.01|1.3||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 43) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.30|1.01|
92261850|NCT00620815|184425905|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|1.05|||||TWO_SIDED|96.67|0.93|1.19||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 43) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.19|0.93|
92261851|NCT00620815|184425905|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|0.92|||||TWO_SIDED|96.67|0.81|1.04||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 43) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.04|0.81|
92261852|NCT01032265|184425929|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27||95.0|||||Mixed Models Analysis|||analysis between groups||||0.27
92261853|NCT01032265|184425930|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52||95.0|||||Mixed Models Analysis|||analysis between groups||||0.52
92261854|NCT01032265|184425931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3||95.0|||||Mixed Models Analysis|||analysis between groups||||0.30
92261855|NCT01032265|184425932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||analysis between groups||||0.02
92261856|NCT01032265|184425933|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||analysis between groups||||<0.001
92261857|NCT01032265|184425934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.23||95.0|||||negative binomial regression|||analysis between groups||||0.23
92261858|NCT01032265|184425935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0|||||Wilcoxon (Mann-Whitney)|||analysis between groups||||0.01
92261859|NCT02728804|184425937|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.65|TWO_SIDED|95.0|0.66|1.29|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||1.29|0.66|0.65
92285196|NCT01536405|184475390|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the risk difference excluding a decrease \>= the prespecified criterion of 5 percentage points|Risk Difference (RD)|-0.5|||<|0.001|TWO_SIDED|95.0|-1.8|0.7|||Miettinen and Nurminen||RD = MMRV (AMP) - MMRV (2006 process)|||0.7|-1.8|<0.001
92285197|NCT01536405|184475390|SUPERIORITY_OR_OTHER||Response rate|98.8|||<|0.001|TWO_SIDED|95.0|97.6|99.5|||One-sample binomial|||Acceptability of the antibody response rate was based on a lower bound of the 95% CI being \>90%||99.5|97.6|<0.001
92285198|NCT01536405|184475391|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the GMT ratio, excluding a decrease of \>=1.5 fold|GMT ratio|1.2|||<|0.001|TWO_SIDED|95.0|1.1|1.3|||t-test, 2 sided|Analysis was based on log-transformed titers|GMT ratio = MMRV (AMP) / MMRV (2006 process)|||1.3|1.1|<0.001
92285199|NCT01536405|184475392|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the GMT ratio, excluding a decrease of \>=1.5 fold|GMT ratio|0.9|||<|0.001|TWO_SIDED|95.0|0.8|1.0|||t-test, 2 sided|Analysis was based on log-transformed titers|GMT ratio = MMRV (AMP) / MMRV (2006 process)|||1.0|0.8|<0.001
92285200|NCT01536405|184475393|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the GMT ratio, excluding a decrease of \>=1.5 fold|GMT ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.9|1.1|||t-test, 2 sided|Analysis was based on log-transformed titers|GMT ratio = MMRV (AMP) / MMRV (2006 process)|||1.1|0.9|<0.001
92285201|NCT01536405|184475394|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the GMT ratio, excluding a decrease of \>=1.5 fold|GMT ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.9|1.1|||t-test, 2 sided|Analysis was based on log-transformed titers|GMT ratio = MMRV (AMP) / MMRV (2006 process)|||1.1|0.9|<0.001
92285202|NCT01536405|184475395|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.2|||<|0.001|TWO_SIDED|95.0|-1.0|1.3|||Miettinen and Nurminen||RD = MMRV (AMP) - MMRV (2006 process)|||1.3|-1.0|<0.001
92285203|NCT01844375|184475404|EQUIVALENCE|equivalence analysis||||||0.75|||||||Kruskal-Wallis|||||||0.75
92285204|NCT02729714|184475441|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
92285205|NCT02729714|184475442|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
92285206|NCT02729714|184475443|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||0.81
92285207|NCT02729714|184475444|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92285208|NCT02729714|184475445|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92285209|NCT02729714|184475446|SUPERIORITY|||||||0.098|||||||Wilcoxon (Mann-Whitney)|||||||0.098
92285210|NCT02729714|184475447|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
92261860|NCT02728804|184425938|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.7|TWO_SIDED|95.0|0.79|1.43|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||1.43|0.79|0.70
92261861|NCT02728804|184425939|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.87|TWO_SIDED|95.0|0.73|1.31|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||1.31|0.73|0.87
92261862|NCT02728804|184425940|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.01|TWO_SIDED|95.0|0.48|0.92|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||0.92|0.48|0.01
92261863|NCT02728804|184425941|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.1|TWO_SIDED|95.0|0.95|1.87|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||1.87|0.95|0.10
92261864|NCT02728804|184425941|SUPERIORITY||Hazard Ratio (HR)|1.92||||0.002|TWO_SIDED|95.0|1.28|2.89|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||2.89|1.28|0.002
92261865|NCT02828982|184426039|SUPERIORITY|||||||0.585||||||Statistical significance was set a-priori at p\<0.05|t-test, 2 sided|||The null hypothesis was that there would be no difference in metabolic costs between the two groups||||0.585
92261866|NCT02828982|184426040|SUPERIORITY|||||||0.452||||||Statistical significance was set a-priori at p\<0.05|t-test, 2 sided|||The null hypothesis was that there were no differences in the number of steps taken outside of the home for the two prostheses.||||0.452
92261867|NCT02828982|184426041|OTHER|paired t-test of Physical component scores between the two conditions||||||0.48||||||a prior threshold for significance was 0.05|t-test, 2 sided|||||||0.480
92261868|NCT02828982|184426041|SUPERIORITY|||||||0.408||||||Statistical significance was set a-priori at p\<0.05|t-test, 2 sided|||Mental Component Score||||0.408
92261869|NCT02828982|184426042|SUPERIORITY|||||||0.058||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Ambulation Score||||0.058
92261870|NCT02828982|184426042|OTHER|paired t-test between conditions||||||0.123||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Appearance Score||||.123
92261871|NCT02828982|184426042|OTHER|paired t-test between conditions||||||0.052||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Frustration Score||||.052
92261872|NCT02828982|184426042|OTHER|paired t-test between conditions||||||0.188||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Perceived Response Score||||.188
92261873|NCT02828982|184426042|OTHER|paired t-test between conditions||||||0.336||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Residual Limb Health Score||||.336
92261874|NCT02828982|184426042|OTHER|paired t-test between conditions||||||0.043||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Social Burden Score||||.043
92261875|NCT02828982|184426042|OTHER|paired t-test between conditions||||||0.391||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Sounds Score||||.391
92261876|NCT02828982|184426042|SUPERIORITY|paired t-test between conditions||||||0.799||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Utility Score||||.799
92261877|NCT02828982|184426042|SUPERIORITY|||||||0.173||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Well-Being||||.173
92261878|NCT02828982|184426043|OTHER|paired t-test between conditions||||||0.655||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Intact Side Biceps Femoris||||0.655
92261879|NCT02828982|184426043|OTHER|paired t-test between conditions||||||0.281||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Intact Side Rectus Femoris||||.281
92261880|NCT02828982|184426043|OTHER|paired t-test between conditions||||||0.844||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Intact Side Soleus||||.844
92261881|NCT02828982|184426043|OTHER|paired t-test between conditions||||||0.11||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Intact Side Tibialis Anterior||||.110
92261882|NCT02828982|184426043|OTHER|paired t-test between conditions||||||0.394||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Residual Side Biceps Femoris||||.394
92261883|NCT02828982|184426043|SUPERIORITY|||||||0.141||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Residual Side Rectus Femoris||||.141
92261884|NCT02828982|184426044|SUPERIORITY|||||||0.212||||||Statistical significance was set a-priori at p\<0.05|t-test, 2 sided|||||||0.212
92261885|NCT02475564|184426045|SUPERIORITY_OR_OTHER|||||||0.7|||||||Mann-Whitney test|||A sample size of at least 21 patients per arm would be necessary to have a 90% chance of detecting, as significant at the 1% level, a difference of 3 points in a scale of 10 points, between both groups as the primary outcome, after 42 days of treatment.||||0.7
92261886|NCT02475564|184426046|SUPERIORITY_OR_OTHER|||||||0.1|||||||Mann-Whitney test|||||||0.1
92261887|NCT02475564|184426047|SUPERIORITY_OR_OTHER|||||||0.8|||||||Mann-Whitney test|||||||0.8
92261888|NCT02705755|184426058|SUPERIORITY||Least Squares Mean Difference|-4.4||||0.0399|TWO_SIDED|95.0|-8.57|-0.23||P-values were reported without multiplicity adjustment.|Repeated-measures Mixed-effect Model|||Least squares mean differences were calculated based on a repeated-measures mixed-effect model with change from baseline at different time points as the dependent variable, the treatment group (TD-9855 or placebo), time point, baseline and the interaction between the treatment group and time point as fixed factors. A compound symmetry was used as the variance-covariance structure.||-0.23|-8.57|0.0399
92261889|NCT01906489|184426066|SUPERIORITY||Odds Ratio (OR)|11.4739|||=|0.0001|TWO_SIDED|95.0|3.3505|39.2931|||Fisher Exact|||||39.2931|3.3505|=0.0001
92261890|NCT01906489|184426067|OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92261891|NCT01906489|184426068|OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92261892|NCT01906489|184426070|OTHER||||||=|0.0953|TWO_SIDED||||||Fisher Exact|||||||=0.0953
92261893|NCT01906489|184426071|OTHER||||||=|0.1238|TWO_SIDED||||||Fisher Exact|||||||=0.1238
92261894|NCT01906489|184426072|OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92261895|NCT01906489|184426073|OTHER||||||=|0.0019|||||||t-test, 2 sided|||Week 2||||=0.0019
92261896|NCT01906489|184426073|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 4||||<0.0001
92261897|NCT01906489|184426073|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 6||||<0.0001
92261898|NCT01906489|184426073|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 8||||<0.0001
92261899|NCT01906489|184426073|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 12||||<0.0001
92261900|NCT01906489|184426073|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 16||||<0.0001
92261901|NCT01906489|184426073|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 19||||<0.0001
92261902|NCT01906489|184426073|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 20||||<0.0001
92261903|NCT01906489|184426075|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 2||||<0.0001
92261904|NCT01906489|184426075|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 4||||<0.0001
92261905|NCT01906489|184426075|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 6||||<0.0001
92261906|NCT01906489|184426075|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 8||||<0.0001
92261907|NCT01906489|184426075|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 12||||<0.0001
92261908|NCT01906489|184426075|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 16||||<0.0001
92261909|NCT01906489|184426075|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 19||||<0.0001
92261910|NCT01906489|184426075|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 20||||<0.0001
92261911|NCT01906489|184426077|OTHER||||||=|0.0031|||||||t-test, 2 sided|||Week 2||||=0.0031
92261912|NCT01906489|184426077|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 4||||<0.0001
92261913|NCT01906489|184426077|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 6||||<0.0001
92261914|NCT01906489|184426077|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 8||||<0.0001
92261915|NCT01906489|184426077|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 12||||<0.0001
92261916|NCT01906489|184426077|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 16||||<0.0001
92261917|NCT01906489|184426077|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 19||||<0.0001
92261918|NCT01906489|184426077|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 20||||<0.0001
92261919|NCT01906489|184426079|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 2||||<0.0001
92261920|NCT01906489|184426079|OTHER||||||=|0.0133|||||||t-test, 2 sided|||Week 4||||=0.0133
92261921|NCT01906489|184426079|OTHER||||||=|0.3053|||||||t-test, 2 sided|||Week 6||||=0.3053
92261922|NCT01906489|184426079|OTHER||||||=|0.1918|||||||t-test, 2 sided|||Week 8||||=0.1918
92261923|NCT01906489|184426079|OTHER||||||=|0.209|||||||t-test, 2 sided|||Week 12||||=0.2090
92261924|NCT01906489|184426079|OTHER||||||=|0.6184|||||||t-test, 2 sided|||Week 16||||=0.6184
92261925|NCT01906489|184426079|OTHER||||||=|0.3604|||||||t-test, 2 sided|||Week 19||||=0.3604
92261926|NCT01906489|184426079|OTHER||||||=|0.4056|||||||t-test, 2 sided|||Week 20||||=0.4056
92261927|NCT01906489|184426085|OTHER||Hazard Ratio (HR)|4.1451|||=|0.0017|TWO_SIDED|95.0|1.5752|10.908|||Log Rank|||||10.9080|1.5752|=0.0017
92261928|NCT01078389|184426120|SUPERIORITY_OR_OTHER|||||||0.472|||||||Ranked Analysis of Covariance (ANCOVA)|Baseline modified Sharp/van der Heijde Erosion Score as a covariate.||Change from Baseline at Month 24||||0.472
92261929|NCT01078389|184426121|SUPERIORITY_OR_OTHER|||||||0.548|||||||Ranked ANCOVA|Baseline modified Sharp/van der Heijde Total Score from full hands and feet as a covariate.||Change from Baseline at Month 24||||0.548
92261930|NCT01078389|184426122|SUPERIORITY_OR_OTHER|||||||0.389|||||||Ranked ANCOVA|Baseline modified Sharp/van der Heijde Erosion Score from full hands and feet as a covariate.||Change from Baseline at Month 24||||0.389
92261931|NCT01078389|184426123|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|Baseline RAMRIS Synovitis Score as a covariate.||Synovitis: Change from Baseline at Month 24||||<0.001
92261932|NCT01078389|184426123|SUPERIORITY_OR_OTHER|||||||0.634|||||||Ranked ANCOVA|Baseline RAMRIS Erosion(Distal+Proximal) Score as a covariate.||Erosion(Distal+Proximal): Change from Baseline at Month 24||||0.634
92261933|NCT01078389|184426123|SUPERIORITY_OR_OTHER|||||||0.307|||||||Ranked ANCOVA|Baseline RAMRIS Edema(Distal+Proximal) Score as a covariate.||Edema(Distal+Proximal): Change from Baseline at Month 24||||0.307
92261934|NCT01078389|184426124|SUPERIORITY_OR_OTHER|||||||0.122|||||||Ranked ANCOVA|Baseline modified Sharp/van der Heijde Total Score as a covariate.||Change from Baseline at Month 24||||0.122
92265673|NCT01797458|184432907|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||||||Twenty-five teeth experienced at least one 'Minor' failure (reversible pulpitis, caries progression, and secondary caries): NRCT 9 (6.4%), CR 14 (10%), HT 2 (1.4%).|Kruskal-Wallis|||The null hypothesis was no difference at 2 yrs among any of the 3 arms for the primary outcome of success or minor failure.||||0.02
92265674|NCT04753606|184433009|SUPERIORITY||Least Squares (LS) Means|-32.96|STANDARD_ERROR_OF_MEAN|4.943|<|0.0001|TWO_SIDED|95.0|-44.03|-21.9|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.90|-44.03|<.0001
92261935|NCT04823494|184426125|NON_INFERIORITY|For sample size in each sequence group is 16 (total N=32), a 2 X 2 crossover design will have 80% power to reject the null hypothesis that the SELF-FIT APHAB mean is inferior to the PRO-FIT APHAB mean. The non-inferiority difference margin is 8.4, the standard deviation of differences is 16.3, and p\<.025. The non-inferiority margin of 8.4 preserves half the 95% critical difference for the global APHAB score (16.8). The common standard deviation reported for the APHAB global score is 16.0.|Mean Difference (Final Values)|1.4|||<|0.025|TWO_SIDED|95.0|-1.59|4.73||There were two outcome measures, primary and secondary, considered. As a result, the a priori p value of .05 for statistical significance was adjusted for multiple comparisons to .025.|t-test, 1 sided|The mean differences and 95% CIs in APHAB global score between SELF-FIT and PRO-FIT were calculated using bias-corrected \& accelerated bootstrapping.|The mean difference and 95% CIs are for Self-Fit minus Pro-Fit aided scores. These values are the pooled data for all 37 participants, 19 receiving one sequence and 18 the other sequence.|"For the wear-time crossover field trial, the APHAB was measured following both the audiology best-practices hearing aid fitting (PRO-FIT) and the self-fitting method (SELF-FIT).~* Null hypothesis: Mean (APHAB SELF-FIT - APHAB PRO-FIT ) ≥ 8.4~* Alternative hypothesis: Mean (APHAB SELF-FIT - APHAB PRO-FIT) \< 8.4~The mean difference between the aided scores for the two fitting methods, Self-Fit minus Pro-Fit, represent the primary outcome measure. The expected difference = 0."||4.73|-1.59|<0.025
92261936|NCT04823494|184426126|NON_INFERIORITY|For the QuickSIN, a clinically meaningful difference is 3 dB and half that difference resulted in a margin of 1.5 dB. This 1.5-dB margin was used for the QuickSIN for the non-inferiority analyses of the data from the field-trial component. The mean difference, QuickSIN Self-Fit minus QuickSIN Pro-Fit, should be less than 1.5 dB for the entire sample (N=37) to meet the non-inferiority criterion.|Mean Difference (Final Values)|0.58|||<|0.025|TWO_SIDED|95.0|-0.03|1.2||The a priori threshold value of 0.05 was Bonferroni-adjusted to 0.025 based on the use of two outcome measures, APHAB global (primary) and QuickSIN (secondary).|t-test, 1 sided|The mean differences in dB, SELF-FIT minus PRO-FIT, were calculated with 95% confidence intervals (bias-corrected, accelerated bootstrap) generated.|Mean differences in aided QuickSIN SNR in dB, Self-Fit minus Pro-Fit, were calculated for the entire group of 37 participants with about 1/2 receiving one of the two fit sequences (Pro-Fit then Self-Fit or Self-Fit then Pro-Fit).|"For the QuickSIN, aided performance after each wear period was compared between SELF-FIT and PRO-FIT.~* Null hypothesis: Mean (QuickSIN SELF-FIT - QuickSIPRO-FIT) ≥ 1.5 dB~* Alternative hypothesis: Mean (QuickSIN SELF-FIT - QuickSIN PRO-FIT) \< 1.5 dB~Power calculations were based on the primary outcome measured, the aided APHAB global score, (see information for that outcome measure). With the minimum required N of 32 based on the APHAB global score, the power for QuickSIN exceeded 80%."||1.20|-0.03|<0.025
92261937|NCT03691831|184426139|SUPERIORITY||Odds Ratio (OR)|4.8||||0.0001|TWO_SIDED|95.0|2.14|10.76||P-Value test comparing the Patients Cleared of All Baseline Warts in the Active (A-101 45%) and vehicle groups.|Mixed Models Analysis|||A summary of the wart clearance at Visit 10.||10.76|2.14|0.0001
92261938|NCT03691831|184426140|SUPERIORITY||Mean Difference (Final Values)|2.71||||0.0001|TWO_SIDED|95.0|1.61|4.56|||Mixed Models Analysis|||P-Value test comparing the Patients Cleared of All Baseline Warts in the Active (A-101 45%) and vehicle groups.||4.56|1.61|0.0001
92261939|NCT03691831|184426141|SUPERIORITY||Odds Ratio (OR)|15.44|||<|0.0001|TWO_SIDED|95.0|9.0|21.8|||Wilcoxon (Mann-Whitney)|||||21.8|9.0|<0.0001
92261940|NCT03691831|184426142|SUPERIORITY||Odds Ratio (OR)|5.2||||0.0006|TWO_SIDED|95.0|1.76|15.53|||Wilcoxon (Mann-Whitney)|||||15.53|1.76|0.0006
92261941|NCT03691831|184426143|SUPERIORITY||Hazard Ratio (HR)|3.33|||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
92261942|NCT00337935|184426151|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0062|TWO_SIDED|95.0|0.2|0.9||a priori theshold for statistical significance was p=0.05|ANCOVA|Baseline Hemoglobin was used as a covariate.||||0.9|0.2|.0062
92261943|NCT00337935|184426152|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance p=0.05|Chi-squared|||||||<0.001
92261944|NCT00337935|184426153|SUPERIORITY_OR_OTHER||||||<|0.0001||||||A priori threshold for statistical significance p=0.05|Log Rank|||||||<0.0001
92261945|NCT02361307|184426172|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
92261946|NCT00329433|184426173|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||Published data show that the incidence of PF4/heparin EIA antibodies is approximately 40% (range, 20% to 60%) following cardiac surgery. We estimated that antibody formation would occur in approximately 20% of patients following thoracic surgery. Sixty patients in each group would provide 80% power to detect a decrease in the incidence of positive PF4/heparin EIA tests from 20% to 4% at an alpha level of \<0.05.||||<0.05
92261947|NCT00329433|184426174|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92261948|NCT00329433|184426175|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92261949|NCT01189201|184426186|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|104.9|STANDARD_DEVIATION|7.2|||TWO_SIDED|90.0|102.07|107.8|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the geometric coefficient of variation (gCV)|No formal testing, investigation of relative bioavailability||107.80|102.07|
92261950|NCT01189201|184426187|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|104.91|STANDARD_DEVIATION|12.8|||TWO_SIDED|90.0|99.97|110.09|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||110.09|99.97|
92261951|NCT01189201|184426188|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|107.68|STANDARD_DEVIATION|15.3|||TWO_SIDED|90.0|101.7|114.02|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||114.02|101.70|
92261952|NCT01189201|184426189|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|109.68|STANDARD_DEVIATION|26.2|||TWO_SIDED|90.0|99.55|120.83|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||120.83|99.55|
92261953|NCT01189201|184426192|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|104.78|STANDARD_DEVIATION|7.1|||TWO_SIDED|90.0|102.02|107.61|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||107.61|102.02|
92261954|NCT01189201|184426193|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|104.64|STANDARD_DEVIATION|19.7|||TWO_SIDED|90.0|97.23|112.62|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||112.62|97.23|
92261955|NCT01189201|184426194|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|85.86|STANDARD_DEVIATION|9.3|||TWO_SIDED|90.0|81.33|90.64|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||90.64|81.33|
92261956|NCT01189201|184426195|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|61.41|STANDARD_DEVIATION|22.0|||TWO_SIDED|90.0|54.1|69.71|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||69.71|54.10|
92261957|NCT01189201|184426196|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|85.32|STANDARD_DEVIATION|9.4|||TWO_SIDED|90.0|80.77|90.14|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||90.14|80.77|
92261958|NCT01189201|184426197|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|93.18|STANDARD_DEVIATION|15.7|||TWO_SIDED|90.0|85.07|102.05|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||102.05|85.07|
92261959|NCT01189201|184426198|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|68.48|STANDARD_DEVIATION|27.2|||TWO_SIDED|90.0|58.59|80.03|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||80.03|58.59|
92261960|NCT01189201|184426199|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|90.95|STANDARD_DEVIATION|13.2|||TWO_SIDED|90.0|84.24|98.19|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||98.19|84.24|
92261961|NCT01189201|184426200|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|95.64|STANDARD_DEVIATION|9.6|||TWO_SIDED|90.0|91.19|100.3|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||100.30|91.19|
92261962|NCT01189201|184426201|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|98.04|STANDARD_DEVIATION|13.0|||TWO_SIDED|90.0|91.95|104.53|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||104.53|91.95|
92261963|NCT01189201|184426202|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|95.69|STANDARD_DEVIATION|9.8|||TWO_SIDED|90.0|91.17|100.43|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||100.43|91.17|
92261964|NCT01189201|184426203|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|92.98|STANDARD_DEVIATION|14.9|||TWO_SIDED|90.0|86.36|100.09|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||100.09|86.36|
92265675|NCT04753606|184433009|SUPERIORITY||Least Squares (LS) Means|-39.18|STANDARD_ERROR_OF_MEAN|4.927|<|0.0001|TWO_SIDED|95.0|-50.21|-28.15|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.15|-50.21|<.0001
92181256|NCT02307682|184260726|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-9.5|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||0.7|-9.5|
92181257|NCT02307682|184260726|OTHER||Difference in proportions|-5.4|||||TWO_SIDED|95.0|-10.6|-0.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-0.6|-10.6|
92261965|NCT01189201|184426204|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|103.71|STANDARD_DEVIATION|22.4|||TWO_SIDED|90.0|92.93|115.74|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||115.74|92.93|
92261966|NCT01189201|184426205|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|96.36|STANDARD_DEVIATION|14.3|||TWO_SIDED|90.0|89.78|103.42|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||103.42|89.78|
92261967|NCT03852901|184426213|OTHER||Mean Difference (Final Values)|40.717|STANDARD_ERROR_OF_MEAN|4.866|<|0.001|TWO_SIDED|95.0|31.166|50.268||Type III of fixed effects. Num df = 1; Den df = 902.758; F = 70.003; Sig. \< 0.001 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit \& Timepoint; Fixed effects: Visit, Timepoint, Sex, Visit\*Sex||No a-priori power calculation was performed due to the exploratory nature of the study.||50.268|31.166|<0.001
92261968|NCT03852901|184426214|OTHER||Mean Difference (Final Values)|-0.637|STANDARD_ERROR_OF_MEAN|1.051||0.545|TWO_SIDED|95.0|-2.699|1.426||Type III of fixed effects. Num df = 1; Den df = 884.229; F = .367; Sig = .545 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit \& Timepoint; Fixed effects: Visit, Timepoint, Sex, Visit\*Sex||No a-priori power calculation was performed due to the exploratory nature of the study.||1.426|-2.699|0.545
92261969|NCT03852901|184426215|OTHER||Mean Difference (Final Values)|0.027|STANDARD_ERROR_OF_MEAN|0.009||0.003|TWO_SIDED|95.0|0.009|0.044||Type III of fixed effects. Num df = 1; Den df = 880.629; F = 8.782; Sig. = 0.003 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit \& Timepoint; Fixed effects: Visit, Timepoint, Sex, Visit\*Sex||No a-priori power calculation was performed due to the exploratory nature of the study.||.044|.009|0.003
92261970|NCT03852901|184426216|OTHER||Mean Difference (Final Values)|-2.647|STANDARD_ERROR_OF_MEAN|1.329||0.047|TWO_SIDED|95.0|-5.255|-0.04||Type III of fixed effects. Num df = 1; Den df = 880.870; F = 3.970; Sig. = 0.047 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit \& Timepoint; Fixed effects: Visit, Timepoint, Sex, Visit\*Sex||No a-priori power calculation was performed due to the exploratory nature of the study.||-0.040|-5.255|0.047
92261971|NCT03852901|184426217|OTHER||Mean Difference (Final Values)|-5.573|STANDARD_ERROR_OF_MEAN|1.853||0.003|TWO_SIDED|95.0|-9.21|-1.937||Type III of fixed effects. Num df = 1; Den df = 902.181; F = 9.049; Sig. = 0.003 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit \& Timepoint; Fixed effects: repeated-measures. Visit, Timepoint, Sex, Visit\*Sex||No a-priori power calculation was performed due to the exploratory nature of the study.||-1.937|-9.210|0.003
92261972|NCT03852901|184426218|OTHER|||||||0.5849||||||Type III of fixed effects. Num df: 2; Den df = 33; F = 0.5451; Sig. = 0.5849 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit; Fixed effects: Visit, Sex, Age, fCSF||No a-priori power calculation was performed due to the exploratory nature of the study.||||0.5849
92261973|NCT03852901|184426219|OTHER|||||||0.0142||||||Type III of fixed effects. Num df = 2; Den df = 35; F = 4.8191; Sig. = 0.0142 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit; Fixed effects: Visit, Sex, Age, fCSF||No a-priori power calculation was performed due to the exploratory nature of the study.||||0.0142
92261974|NCT03852901|184426220|OTHER|||||||0.024||||||Type III of fixed effects. Num df: 2; Den df = 34; F = 4.1501; Sig. = 0.0244 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effects: ID; Repeated measures: Visit; Fixed effects: Visit, Sex, Age and fCSF||No a-priori power calculation was performed due to the exploratory nature of the study.||||0.024
92261975|NCT01409382|184426232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.4|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|1.5|7.6|||Chi-squared|||Take home babies||7.6|1.5|<0.05
92261976|NCT04120116|184426325|SUPERIORITY||Odds Ratio (OR)|0.3||||0.068|TWO_SIDED|95.0|0.11|1.08||P value for statistical significance is \<0.05|Mixed Models Analysis|||||1.08|0.11|0.068
92261977|NCT04120116|184426327|SUPERIORITY||Least squares mean difference|1.25|STANDARD_ERROR_OF_MEAN|2.611||0.634|TWO_SIDED|95.0|-3.945|6.439||P value for statistical significance is \<0.05|Mixed Models Analysis|||||6.439|-3.945|0.634
92265676|NCT04753606|184433010|SUPERIORITY||Least Squares (LS) Means|-32.96|STANDARD_ERROR_OF_MEAN|4.943|<|0.0001|TWO_SIDED|95.0|-44.03|-21.9|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.90|-44.03|<.0001
92265677|NCT04753606|184433010|SUPERIORITY||Least Squares (LS) Means|-39.18|STANDARD_ERROR_OF_MEAN|4.927|<|0.0001|TWO_SIDED|95.0|-50.21|-28.15|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.15|-50.21|<.0001
92261978|NCT01098266|184426348|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.58|TWO_SIDED|95.0|0.75|1.18||The log-rank test (unstratified) was used to compare the two treatment arms. In addition, a stratified version of the log-rank test was performed with the stratification factors used for randomization.|Log Rank|Cox regression analyses (unstratified and stratified) were performed to assess the influence of baseline covariates in an exploratory manner.||Study with one control per experimental patient, an accrual interval of 24 months, and an additional FU after the accrual interval of 12 months.If the true HR of experimental relative to control patients was 0.726, then 195 experimental patients and 195 control patients were required to be able to reject the null hypothesis that the experimental and control survival curves were equal with probability (power)0.80 Type I error probability associated with this test of this null hypothesis was 0.05||1.18|0.75|0.58
92261979|NCT01098266|184426349|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.65|TWO_SIDED|95.0|0.78|1.17|||Log Rank|Cox regression analyses (unstratified and stratified) was performed to assess the influence of baseline covariates in an exploratory manner.||The log-rank test (unstratified and stratified) was used at an alpha level of 5% to test for differences in PFS between the two treatment arms. Kaplan-Meier curves and estimates were provided.||1.17|0.78|0.65
92261980|NCT01098266|184426350|SUPERIORITY||Odds Ratio (OR)|1.13||||0.62|TWO_SIDED|95.0|0.76|1.68|||Fisher Exact||Logistic regression analyses were performed to assess the influence of baseline covariates in an exploratory manner|Difference in DCR between the two treatment arms were tested using a chi-squared test with 95% confidence intervals calculated in each treatment arm.||1.68|0.76|0.62
92261981|NCT01098266|184426353|OTHER|Two-sided log-rank test was used to compare time to symptomatic progression between treatment arms. Median and 95% confidence limits for the time to symptomatic progression were estimated using Kaplan-Meier survival methodology. Estimates of the treatment effect were expressed as hazard ratio including 95% confidence intervals.|Hazard Ratio (HR)|0.92||||0.5806|TWO_SIDED|95.0|0.68|1.26|||Log Rank|||QoL assessment was performed by using a questionnaire according to LCSS, which consists of nine 100-mm visual analog scales, with scores reported from 0 to 100(the best score). The LCSS subscore is the average symptom burden index computed as the mean score for all 6 major symptoms. Symptomatic progression was defined as a worsening in the average symptom burden index by 25%.||1.26|0.68|0.5806
92261982|NCT01733758|184426355|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.55|||||TWO_SIDED|95.0|-1.72|-1.39|||ANCOVA|||||-1.39|-1.72|
92261983|NCT01733758|184426355|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.35|||||TWO_SIDED|95.0|-1.51|-1.18|||ANCOVA|||||-1.18|-1.51|
92261984|NCT01733758|184426355|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The first test in a sequential testing procedure starting with albiglutide 50 mg versus placebo, and if significant at 0.05 level, followed by albiglutide 30 mg versus placebo.|t-test, 2 sided|The p-value is from a 2-sided t-test to test whether the difference of least squares (LS) means (albiglutide 50 mg - placebo) is equal to zero.||||||<0.0001
92261985|NCT01733758|184426355|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The second test in a sequential testing procedure starting with albiglutide 50 mg versus placebo, and if significant at 0.05 level, followed by albiglutide 30 mg versus placebo.|t-test, 2 sided|The p-value is from a 2-sided t-test to test whether the difference of LS means (albiglutide 30 mg - placebo) is equal to zero.||||||<0.0001
92261986|NCT00727246|184426391|OTHER|||||||0.85|TWO_SIDED|95.0|||||ANOVA|A repeated measures ANOVA was completed to evaluate differences in cognitive composite scores between groups and CDP-Choline or placebo||A repeated measures ANOVA was completed to evaluate differences in cognitive composite scores of individuals with a history of TBI as compared to healthy controls 6 weeks after treatment with CDP Choline (1000 mg CDP-Choline 2 x per day for 6 weeks) as compared to those treated with placebo. A mean index score created as a composite cognitive performance across domains (higher t-score = higher cognition). Purpose was to serve as a measure of overall cognitive functioning for data analysis.||||.85
92261987|NCT00727246|184426392|OTHER|||||||0.329|TWO_SIDED|0.95|||||ANOVA|A repeated measures ANOVA was completed to evaluate differences in cognitive composite scores between groups and CDP-Choline or placebo||A repeated measure ANOVA was completed to evaluate potential differences in cognitive composite scores of individuals with a history of TBI as compared to healthy controls 6 weeks after treatment with CDP Choline (1000 mg CDP-Choline 2 x per day for 6 weeks) as compared to those treated with placebo.||||.329
92261988|NCT00661362|184426393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001|TWO_SIDED|95.0|-0.55|-0.29|||ANCOVA|||||-0.29|-0.55|<0.0001
92261989|NCT00661362|184426394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56|STANDARD_ERROR_OF_MEAN|0.149|<|0.0002|TWO_SIDED|95.0|-0.85|-0.26|||ANCOVA|||||-0.26|-0.85|<0.0002
92261990|NCT00661362|184426395|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.1|STANDARD_ERROR_OF_MEAN|2.684|<|0.0002|TWO_SIDED|95.0|-15.37|-4.83|||ANCOVA|||||-4.83|-15.37|<0.0002
92261991|NCT00661362|184426396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-155.0|STANDARD_ERROR_OF_MEAN|55.0||0.0052|TWO_SIDED|95.0|-264.0|-47.0|||ANCOVA|||||-47|-264|0.0052
92261992|NCT00661362|184426397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2802.0|STANDARD_ERROR_OF_MEAN|989.8||0.0052|TWO_SIDED|95.0|-4753.0|-852.0|||ANCOVA|||||-852|-4753|0.0052
92261993|NCT00661362|184426398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.1|||<|0.0001|TWO_SIDED|95.0|8.0|24.0|||ANCOVA|||||24.0|8.0|<0.0001
92261994|NCT03970330|184426461|SUPERIORITY||Mean Difference (Final Values)|1123.0||||0.2|TWO_SIDED|95.0|-755.0|3000.0|||t-test, 2 sided||Difference calculated as Naltrexone minus Placebo|||3000|-755|0.20
92261995|NCT03970330|184426462|SUPERIORITY||Mean Difference (Final Values)|28.9||||0.06|TWO_SIDED|95.0|-1.9|59.6|||Mixed Models Analysis|A single model was run with comparisons between naltrexone and placebo at each visit (not adjusted for multiple comparisons)|Difference calculated as Naltrexone minus Placebo|Comparison of treatment groups at BASELINE||59.6|-1.9|0.06
92261996|NCT03970330|184426462|SUPERIORITY||Mean Difference (Final Values)|10.4||||0.48|TWO_SIDED|95.0|-20.3|41.2|||Mixed Models Analysis|A single model was run with comparisons between naltrexone and placebo at each visit (not adjusted for multiple comparisons)|Difference calculated as Naltrexone minus Placebo|Comparison of treatment groups at WEEK 4||41.2|-20.3|0.48
92261997|NCT03970330|184426462|SUPERIORITY||Mean Difference (Final Values)|18.9||||0.21|TWO_SIDED|95.0|-11.8|49.6|||Mixed Models Analysis|A single model was run with comparisons between naltrexone and placebo at each visit (not adjusted for multiple comparisons)|Difference calculated as Naltrexone minus Placebo|Comparison of treatment groups at WEEK 8||49.6|-11.8|0.21
92261998|NCT03970330|184426462|SUPERIORITY||Mean Difference (Final Values)|15.5||||0.3|TWO_SIDED|95.0|-15.2|46.2|||Mixed Models Analysis|A single model was run with comparisons between naltrexone and placebo at each visit (not adjusted for multiple comparisons)|Difference calculated as Naltrexone minus Placebo|Comparison of treatment groups at WEEK 12||46.2|-15.2|0.30
92261999|NCT03970330|184426462|SUPERIORITY||Mean Difference (Final Values)|6.8||||0.65|TWO_SIDED|95.0|-24.0|37.5|||Mixed Models Analysis|A single model was run with comparisons between naltrexone and placebo at each visit (not adjusted for multiple comparisons)|Difference calculated as Naltrexone minus Placebo|Comparison of treatment groups at WEEK 16||37.5|-24.0|0.65
92262000|NCT03970330|184426463|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 4||||0.07
92262001|NCT03970330|184426463|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 8||||0.07
92262002|NCT03970330|184426463|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 12||||0.06
92262003|NCT03970330|184426463|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 16||||1.00
92262004|NCT03970330|184426464|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||Comparison of treament groups at WEEK 4||||0.29
92262005|NCT03970330|184426464|SUPERIORITY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 8||||0.24
92285211|NCT02227121|184475498|SUPERIORITY_OR_OTHER||Percentage|92.86|||||ONE_SIDED|95.0|70.3|||||||Null Hypothesis: Percentage of Subjects with Successful VF Termination ≤ 65% Alternative Hypothesis: Percentage of Subjects with Successful VF Termination \> 65%|||70.3|
92181258|NCT02307682|184260726|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-10.2|1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||1.3|-10.2|
92262006|NCT03970330|184426464|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 12||||0.20
92262007|NCT03970330|184426464|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 16||||0.53
92262008|NCT03970330|184426465|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 4||||0.37
92262009|NCT03970330|184426465|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 8||||0.39
92262010|NCT03970330|184426465|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 12||||0.37
92262011|NCT03970330|184426465|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 16||||0.39
92262012|NCT03970330|184426466|SUPERIORITY||Mean Difference (Final Values)|4.3||||0.08|TWO_SIDED|95.0|-0.6|9.2|||t-test, 2 sided||Difference calculated as Naltrexone minus Placebo|||9.2|-0.6|0.08
92262013|NCT02500706|184426501|NON_INFERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 1: Primary analysis: HbA1c non-inferiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog®.~Non-inferiority of mealtime faster aspart was considered confirmed if the upper boundary of the two-sided 95% CI was below or equal to 0.4%"|Treatment difference|-0.02|||<|0.001|TWO_SIDED|95.0|-0.11|0.07||p-value from the 2-sided test for treatment difference evaluated at the 5% level|ANOVA model after multiple imputation|||The endpoint was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model includes treatment, region and bolus adjusting method at randomisation as factors, and baseline HbA1c as a covariate.||0.07|-0.11|<0.001
92262014|NCT02500706|184426501|NON_INFERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 2: HbA1c non-inferiority of postmeal faster aspart versus mealtime NovoRapid®/NovoLog®.~Non-inferiority of postmeal faster aspart was considered confirmed if the upper boundary of the two-sided 95% CI was below or equal to 0.4%"|Treatment difference|0.1|||<|0.001|TWO_SIDED|95.0|0.004|0.19||p-value from the 2-sided test for treatment difference evaluated at the 5% level.|ANOVA model after multiple imputation|||The endpoint was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model includes treatment, region and bolus adjusting method at randomisation as factors, and baseline HbA1c as a covariate.||0.19|0.004|<0.001
92262015|NCT02500706|184426501|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 4: HbA1c superiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog®.~Superiority was to be confirmed if the upper boundary of the two-sided 95% CI of the mean treatment difference (mealtime faster aspart minus mealtime NovoRapid®/NovoLog®) was below 0%-points."|Treatment difference|-0.02||||0.633|TWO_SIDED|95.0|-0.11|0.07||p-value from the 2-sided test for treatment difference evaluated at the 5% level|ANOVA model after multiple imputation|||The endpoint was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model includes treatment, region and bolus adjusting method at randomisation as factors, and baseline HbA1c as a covariate.||0.07|-0.11|0.633
92181259|NCT02307682|184260726|OTHER||Difference in proportions|-6.3|||||TWO_SIDED|95.0|-12.2|-0.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-0.8|-12.2|
92181260|NCT02307682|184260726|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-6.6|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.3|-6.6|
92181261|NCT02307682|184260726|OTHER||Difference in proportions|-4.7|||||TWO_SIDED|95.0|-10.0|0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||0.1|-10.0|
92262016|NCT02500706|184426502|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 3: 1-hour postprandial glucose (PPG) increments superiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog.~Superiority was confirmed if the upper boundary of the two-sided 95% CI of the mean treatment difference (mealtime faster aspart minus mealtime NovoRapid®/NovoLog®) was below 0."|Treatment difference|-0.9|||<|0.001|TWO_SIDED|95.0|-1.36|-0.45||p-value from the 2-sided test for treatment difference evaluated at the 5% level.|ANOVA|||Change from baseline in postprandial glucose increment (meal test) is analysed using an analysis of variance model. The model includes treatment, region and bolus adjusting method at randomisation as factors, and baseline postprandial glucose increment as a covariate.||-0.45|-1.36|<0.001
92262017|NCT02500706|184426503|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 5: 1,5-anhydroglucitol superiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog®.~Superiority was to be confirmed if the lower boundary of the two-sided 95% CI of the mean treatment difference (mealtime faster aspart minus mealtime NovoRapid®/NovoLog®) was above 0."|Treatment difference|0.02||||0.924|TWO_SIDED|95.0|-0.31|0.34||p-values are from the 2-sided test for treatment difference evaluated at the 5% level.|ANOVA model after multiple imputation|||Change from baseline in 1,5-anhydroglucitol was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model includes treatment, region and bolus adjusting method at randomisation as factors, and baseline 1,5-anhydroglucitol as a covariate.||0.34|-0.31|0.924
92262018|NCT04269629|184426576|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACEI) and the group without such treatment. The primary outcome was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.25||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||It was assumed that 24% of the patients would be on β-blockers and/or ACE inhibitors (ACEI). A χ2 test with a two-sided 5% significance level has an 80% power to detect the difference between the group without antihypertensive medication with 6% SR during VIT and the group on β-blockers and/or ACEI with 12.3% SR during VIT (OR = 2.2) when the sample sizes are 631 and 200, respectively. A drop-out rate of 37% was assumed which resulted in a required number of 1,319 patients.||||0.25
92265678|NCT04753606|184433011|SUPERIORITY||Least Squares (LS) Means|-32.96|STANDARD_ERROR_OF_MEAN|4.943|<|0.0001|TWO_SIDED|95.0|-44.03|-21.9|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.90|-44.03|<.0001
92265679|NCT04753606|184433011|SUPERIORITY||Least Squares (LS) Means|-39.18|STANDARD_ERROR_OF_MEAN|4.927|<|0.0001|TWO_SIDED|95.0|-50.21|-28.15|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.15|-50.21|<.0001
92262019|NCT04269629|184426577|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.29||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||||||0.29
92262020|NCT04269629|184426578|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitor) and the group without such treatment. The secondary outcomes were analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.04||||||The level of significance was set at 0.05. Correlation of the prevalence of cardiovascular diseases and/or hypertension with the risk for more severe systemic sting reactions (p=0.04).|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||Analysis for correlation of the prevalence of cardiovascular diseases and/or hypertension with the risk for more severe systemic sting reactions.||||0.04
92262021|NCT04269629|184426579|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.|||||<|0.001||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||||||<0.001
92262022|NCT04269629|184426580|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.99||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||Analysis for sIgE levels - bee venom.||||0.99
92262023|NCT04269629|184426580|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.15||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||Analysis for sIgE levels - vespid venom.||||0.15
92262024|NCT04269629|184426581|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.16||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||||||0.16
92262025|NCT04269629|184426582|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.5||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||||||0.50
92262026|NCT04269629|184426583|OTHER|||||||0.72||||||The level of significance was set at 0.05.|Fisher Exact|||||||0.72
92262027|NCT04269629|184426584|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitor) and the group without such treatment. The secondary outcomes were analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.11||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||Analysis for correlation of the prevalence of cardiovascular diseases and/or hypertension with the risk for more frequent SR under VIT.||||0.11
92262028|NCT01000311|184426585|SUPERIORITY_OR_OTHER||Lower limit of 95% confidence interval|83.0|||||TWO_SIDED|95.0|83.0|93.0||||||The null hypothesis associated with the primary objective was that the immune response was considered sufficient if the lower limit of the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8, at one month after 4th dose was greater than 80% for the serogroup A.||93|83|
92181262|NCT02307682|184260726|OTHER||Difference in proportions|-4.0|||||TWO_SIDED|95.0|-9.4|1.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||1.4|-9.4|
92262029|NCT01000311|184426585|SUPERIORITY_OR_OTHER||Lower limit of 95% confidence interval|90.0|||||TWO_SIDED|95.0|90.0|98.0||||||The null hypothesis associated with the primary objective was that the immune response was considered sufficient if the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:8, at one month after 4th dose was greater than 85% for the serogroup C.||98|90|
92262030|NCT01000311|184426585|SUPERIORITY_OR_OTHER||Lower limit of 95% confidence interval|93.0|||||TWO_SIDED|95.0|93.0|99.0||||||The null hypothesis associated with the primary objective was that the immune response was considered sufficient if the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:8, at one month after 4th dose was greater than 85% for the serogroup W.||99|93|
92262031|NCT01000311|184426585|SUPERIORITY_OR_OTHER||Lowe limit of 95% confidence interval|92.0|||||TWO_SIDED|95.0|92.0|99.0||||||The null hypothesis associated with the primary objective was that the immune response was considered sufficient if the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:8, at one month after 4th dose was greater than 85% for the serogroup Y.||99|92|
92262032|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to diphtheria toxin, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|0.0|||||TWO_SIDED|95.0|-2.9|2.6|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to diphtheria toxin, when DTaP vaccine is given with MenACWY-CRM compared with when DTaP vaccine is given alone||2.6|-2.9|
92262033|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to tetanus toxin, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|0.0|||||TWO_SIDED|95.0|-3.3|3.9|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to tetanus toxin, when DTaP vaccine is given with MenACWY-CRM compared with when DTaP vaccine is given alone||3.9|-3.3|
92262034|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pertussis toxin (PT), when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-4.0|||||TWO_SIDED|95.0|-12.1|4.3|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pertussis toxin (PT), when DTaP vaccine is given, compared with MenACWY-CRM compared with when DTaP vaccine is given alone||4.3|-12.1|
92262035|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pertussis (FHA antigen), when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|4.0|||||TWO_SIDED|95.0|-5.1|13.6|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pertussis FHA antigen, when DTaP vaccine is given with MenACWY-CRM compared with when DTaP vaccine is given alone||13.6|-5.1|
92262036|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pertussis pertactin antigen, when DTaP vaccine is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|0.0|||||TWO_SIDED|95.0|-8.8|9.1|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pertussis pertactin antigen, when DTaP vaccine is given with MenACWY-CRM compared with when DTaP is given alone.||9.1|-8.8|
92262037|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pertussis FIM antigen, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-2.0|||||TWO_SIDED|95.0|-10.6|6.8|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pertussis FIM antigen, when DTaP vaccine is given with MenACWY-CRM compared with when DTaP vaccine is given alone||6.8|-10.6|
92262038|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to hepatitis B, when given concomitantly with MenACWY-CRM, was considered non-inferior to that of hepatitis B vaccine given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|0.0|||||TWO_SIDED|95.0|-5.2|4.5|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to hepatitis B antigen, when hepatitis B vaccine is given with MenACWY-CRM compared with when hepatitis B vaccine is given alone.||4.5|-5.2|
92262039|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to Hib vaccine, when given concomitantly with MenACWY-CRM, was considered non-inferior to that of Hib vaccine given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|5.0|||||TWO_SIDED|95.0|0.0|11.2|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to Hib antigen, when Hib vaccine is given with MenACWY-CRM compared with when Hib vaccine is given alone.||11.2|0|
92262040|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to polio antigen (Type 1), when IPV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of IPV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -5%.|Group difference|1.0|||||TWO_SIDED|95.0|-3.1|5.4|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to polio antigen (Type 1), when IPV routine is given with MenACWY-CRM, compared with when IPV is given alone||5.4|-3.1|
92262041|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to polio antigen (Type 2), when IPV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of IPV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -5%.|Group difference|1.0|||||TWO_SIDED|95.0|-1.4|3.0|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to polio antigen (Type 2), when IPV routine is given with MenACWY-CRM, compared with when IPV is given alone||3|-1.4|
92265680|NCT04753606|184433012|SUPERIORITY||Least Squares (LS) Means|-28.94|STANDARD_ERROR_OF_MEAN|4.643|<|0.0001|TWO_SIDED|95.0|-38.14|-19.74|||ANCOVA|||||-19.74|-38.14|<.0001
92265681|NCT04753606|184433012|SUPERIORITY||Least Squares (LS) Means|-40.07|STANDARD_ERROR_OF_MEAN|4.591|<|0.0001|TWO_SIDED|95.0|-49.16|-30.97|||ANCOVA|||||-30.97|-49.16|<.0001
92265682|NCT04753606|184433013|SUPERIORITY||Least Squares (LS) Means|-28.94|STANDARD_ERROR_OF_MEAN|4.643|<|0.0001|TWO_SIDED|95.0|-38.14|-19.74|||ANCOVA|||||-19.74|-38.14|<.0001
92265683|NCT04753606|184433013|SUPERIORITY||Least Squares (LS) Means|-40.07|STANDARD_ERROR_OF_MEAN|4.591|<|0.0001|TWO_SIDED|95.0|-49.16|-30.97|||ANCOVA|||||-30.97|-49.16|<.0001
92265684|NCT04753606|184433014|SUPERIORITY||Least Squares (LS) Means|-28.94|STANDARD_ERROR_OF_MEAN|4.643|<|0.0001|TWO_SIDED|95.0|-38.14|-19.74|||ANCOVA|||||-19.74|-38.14|<.0001
92265685|NCT04753606|184433014|SUPERIORITY||Least Squares (LS) Means|-40.07|STANDARD_ERROR_OF_MEAN|4.591|<|0.0001|TWO_SIDED|95.0|-49.16|-30.97|||ANCOVA|||||-30.97|-49.16|<.0001
92265686|NCT04753606|184433015|SUPERIORITY||Least Squares (LS) Means|-18.26|STANDARD_ERROR_OF_MEAN|3.657|<|0.0001|TWO_SIDED|95.0|-25.51|-11.02|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-11.02|-25.51|<.0001
92265687|NCT04753606|184433015|SUPERIORITY||Least Squares (LS) Means|-23.99|STANDARD_ERROR_OF_MEAN|3.65|<|0.0001|TWO_SIDED|95.0|-31.22|-16.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-16.76|-31.22|<.0001
92265688|NCT04753606|184433016|SUPERIORITY||Least Squares (LS) Means|-18.26|STANDARD_ERROR_OF_MEAN|3.657|<|0.0001|TWO_SIDED|95.0|-25.51|-11.02|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-11.02|-25.51|<.0001
92265689|NCT04753606|184433016|SUPERIORITY||Least Squares (LS) Means|-23.99|STANDARD_ERROR_OF_MEAN|3.65|<|0.0001|TWO_SIDED|95.0|-31.22|-16.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-16.76|-31.22|<.0001
92265690|NCT04753606|184433017|SUPERIORITY||Least Squares (LS) Means|-18.26|STANDARD_ERROR_OF_MEAN|3.657|<|0.0001|TWO_SIDED|95.0|-25.51|-11.02|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-11.02|-25.51|<.0001
92265691|NCT04753606|184433017|SUPERIORITY||Least Squares (LS) Means|-23.99|STANDARD_ERROR_OF_MEAN|3.65|<|0.0001|TWO_SIDED|95.0|-31.22|-16.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-16.76|-31.22|<.0001
92265692|NCT04753606|184433018|SUPERIORITY||Least Squares (LS) Means|-30.54|STANDARD_ERROR_OF_MEAN|4.503|<|0.0001|TWO_SIDED|95.0|-39.46|-21.62|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.62|-39.46|<.0001
92265693|NCT04753606|184433018|SUPERIORITY||Least Squares (LS) Means|-36.03|STANDARD_ERROR_OF_MEAN|4.488|<|0.0001|TWO_SIDED|95.0|-44.92|-27.14|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.14|-44.92|<.0001
92265694|NCT04753606|184433019|SUPERIORITY||Least Squares (LS) Means|-30.54|STANDARD_ERROR_OF_MEAN|4.503|<|0.0001|TWO_SIDED|95.0|-39.46|-21.62|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.62|-39.46|<.0001
92265695|NCT04753606|184433019|SUPERIORITY||Least Squares (LS) Means|-36.03|STANDARD_ERROR_OF_MEAN|4.488|<|0.0001|TWO_SIDED|95.0|-44.92|-27.14|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.14|-44.92|<.0001
92181263|NCT02307682|184260726|OTHER||Difference in proportions|-8.1|||||TWO_SIDED|95.0|-13.6|-2.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-2.7|-13.6|
92181264|NCT02307682|184260726|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-5.1|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.5|-5.1|
92181265|NCT02307682|184260726|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-6.2|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||2.8|-6.2|
92285212|NCT00486863|184475539|SUPERIORITY_OR_OTHER|||||||0.988||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.988
92262042|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to polio antigen (Type 3), when IPV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of IPV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -5%.|Group difference|-1.0|||||TWO_SIDED|95.0|-3.3|1.7|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to polio antigen (Type 3), when IPV routine is given with MenACWY-CRM, compared with when IPV is given alone||1.7|-3.3|
92265696|NCT04753606|184433020|SUPERIORITY||Least Squares (LS) Means|-30.54|STANDARD_ERROR_OF_MEAN|4.503|<|0.0001|TWO_SIDED|95.0|-39.46|-21.62|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.62|-39.46|<.0001
92285213|NCT00486863|184475540|SUPERIORITY_OR_OTHER||||||>|0.999||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Chi-squared|||||||>0.999
92285214|NCT00486863|184475541|SUPERIORITY_OR_OTHER|||||||0.926||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.926
92285215|NCT00486863|184475542|SUPERIORITY_OR_OTHER|||||||0.502||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||||||0.502
92285216|NCT00486863|184475543|SUPERIORITY_OR_OTHER|||||||0.439||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||||||0.439
92285217|NCT00486863|184475544|SUPERIORITY_OR_OTHER|||||||0.704||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.704
92285218|NCT00486863|184475545|SUPERIORITY_OR_OTHER|||||||0.517||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.517
92285219|NCT00486863|184475546|SUPERIORITY_OR_OTHER|||||||0.524||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||Analysis included the transferrin receptor: ferritin ratio from the cord blood.||||0.524
92285220|NCT00486863|184475546|SUPERIORITY_OR_OTHER|||||||0.07||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||Analysis included the transferrin receptor: ferritin ratio from the heel stick.||||0.070
92285221|NCT00486863|184475547|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Chi-squared|||||||<0.001
92285222|NCT00486863|184475552|SUPERIORITY_OR_OTHER|||||||0.991||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Chi-squared|||||||0.991
92285223|NCT01811953|184475559|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|102.55|STANDARD_ERROR_OF_MEAN|1.017|<|0.0001|TWO_SIDED|90.0|99.531|105.653|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||105.653|99.531|<0.0001
92285224|NCT01811953|184475559|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|98.88|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|90.0|94.879|103.059|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||103.059|94.879|<0.0001
92285225|NCT01811953|184475559|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|106.0|STANDARD_ERROR_OF_MEAN|1.018|<|0.0001|TWO_SIDED|90.0|102.728|109.386|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||109.386|102.728|<0.0001
92285226|NCT01811953|184475560|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|96.13|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|91.25|101.26|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||101.26|91.25|<0.0001
92287117|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.165|TWO_SIDED|95.0|-0.016|0.095|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.095|-0.016|0.165
92262043|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 4 antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|1.0|||||TWO_SIDED|95.0|-1.9|4.6|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 4 antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||4.6|-1.9|
92262044|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 6B antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-4.0|||||TWO_SIDED|95.0|-10.3|3.2|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 6B antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||3.2|-10.3|
92265697|NCT04753606|184433020|SUPERIORITY||Least Squares (LS) Means|-36.03|STANDARD_ERROR_OF_MEAN|4.488|<|0.0001|TWO_SIDED|95.0|-44.92|-27.14|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.14|-44.92|<.0001
92265698|NCT04753606|184433021|SUPERIORITY||Least Squares (LS) Means|129.27|STANDARD_ERROR_OF_MEAN|9.337|<|0.0001|TWO_SIDED|95.0|110.78|147.77|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||147.77|110.78|<.0001
92262045|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 9V antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-3.0|||||TWO_SIDED|95.0|-8.7|2.3|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 9V antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||2.3|-8.7|
92262046|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 14 antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|0.0|||||TWO_SIDED|95.0|-2.8|3.0|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 14 antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||3.0|-2.8|
92265699|NCT04753606|184433021|SUPERIORITY||Least Squares (LS) Means|164.33|STANDARD_ERROR_OF_MEAN|9.306|<|0.0001|TWO_SIDED|95.0|145.9|182.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||182.76|145.90|<.0001
92262047|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 18C antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-3.0|||||TWO_SIDED|95.0|-7.3|1.6|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 18C antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||1.6|-7.3|
92262048|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 19F antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|3.0|||||TWO_SIDED|95.0|1.3|7.1|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 19F antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||7.1|1.3|
92262049|NCT01000311|184426589|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 23F antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-5.0|||||TWO_SIDED|95.0|-11.4|0.5|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 23F antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||0.5|-11.4|
92262050|NCT01000311|184426590|NON_INFERIORITY_OR_EQUIVALENCE|The immune response measured as GMC of antibodies to pertussis toxin (PT), when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Routine Vaccines group divided by GMC of Routine Vaccines group) was greater than 0.67.|GMCs ratio|1.02|||||TWO_SIDED|95.0|0.81|1.28|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pertussis toxin (PT), when DTaP is given with MenACWY-CRM compared with when DTap is given alone||1.28|0.81|
92262051|NCT01000311|184426590|NON_INFERIORITY_OR_EQUIVALENCE|The immune response measured as GMC of antibodies to pertussis FHA antigen, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Routine Vaccines group divided by GMC of Routine Vaccines group) was greater than 0.67.|GMCs ratio|1.04|||||TWO_SIDED|95.0|0.9|1.19|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pertussis FHA antigen, when DTaP is given with MenACWY-CRM compared with when DTaP is given alone||1.19|0.9|
92262052|NCT01000311|184426590|NON_INFERIORITY_OR_EQUIVALENCE|The immune response measured as GMC of antibodies to pertussis pertactin antigen, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Routine Vaccines group divided by GMC of Routine Vaccines group) was greater than 0.67.|GMCs ratio|1.04|||||TWO_SIDED|95.0|0.84|1.28|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pertussis pertactin antigen, when DTaP is given with MenACWY-CRM compared with when DTaP is given alone||1.28|0.84|
92262053|NCT01000311|184426590|NON_INFERIORITY_OR_EQUIVALENCE|The immune response measured as GMC of antibodies to pertussis FIM antigen, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Routine Vaccines group divided by GMC of Routine Vaccines group) was greater than 0.67.|GMCs ratio|1.09|||||TWO_SIDED|95.0|0.88|1.35|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pertussis FIM antigen, when DTaP is given with MenACWY-CRM compared with when DTaP is given alone||1.35|0.88|
92262054|NCT01000311|184426591|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 4 antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.98|||||TWO_SIDED|95.0|0.8|1.19|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 4 antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.19|0.8|
92262055|NCT01000311|184426591|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 6B antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.76|||||TWO_SIDED|95.0|0.62|0.93|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 6B antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||0.93|0.62|
92262056|NCT01000311|184426591|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 9V antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.87|||||TWO_SIDED|95.0|0.72|1.06|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 9V antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.06|0.72|
92285227|NCT01811953|184475560|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|99.34|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|92.56|106.62|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||106.62|92.56|<0.0001
92262057|NCT01000311|184426591|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 14 antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|1.04|||||TWO_SIDED|95.0|0.84|1.28|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 14 antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.28|0.84|
92262058|NCT01000311|184426591|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 18C antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.99|||||TWO_SIDED|95.0|0.82|1.2|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 18C antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.2|0.82|
92262059|NCT01000311|184426591|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 19F antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.89|||||TWO_SIDED|95.0|0.73|1.07|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 19F antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.07|0.73|
92262060|NCT01000311|184426591|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 23F antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.84|||||TWO_SIDED|95.0|0.68|1.04|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 23F antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.04|0.68|
92262061|NCT03091920|184426623|OTHER|No statistical testing was performed.|LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|6.4|||TWO_SIDED|95.0|-14.2|12.4|||||LS mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1 postdose AM 1 hour||12.4|-14.2|
92262062|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|0.6|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|95.0|-11.8|12.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose AM 1 hour||12.9|-11.8|
92262063|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-13.9|STANDARD_ERROR_OF_MEAN|8.1|||TWO_SIDED|95.0|-30.6|2.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose AM 4 hour||2.8|-30.6|
92262064|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-15.5|STANDARD_ERROR_OF_MEAN|7.5|||TWO_SIDED|95.0|-31.0|0.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose AM 4 hour||0|-31.0|
92262065|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-9.9|STANDARD_ERROR_OF_MEAN|6.7|||TWO_SIDED|95.0|-23.8|3.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose AM 8 hour||3.9|-23.8|
92262066|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-3.1|STANDARD_ERROR_OF_MEAN|6.2|||TWO_SIDED|95.0|-16.0|9.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose AM 8 hour||9.7|-16.0|
92262067|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-8.8|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-26.2|8.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 predose PM||8.6|-26.2|
92265700|NCT04753606|184433022|SUPERIORITY||Least Squares (LS) Means|129.27|STANDARD_ERROR_OF_MEAN|9.337|<|0.0001|TWO_SIDED|95.0|110.78|147.77|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||147.77|110.78|<.0001
92181266|NCT02307682|184260726|OTHER||Difference in proportions|-4.2|||||TWO_SIDED|95.0|-9.4|1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||1.2|-9.4|
92181267|NCT02307682|184260726|OTHER||Difference in proportions|-6.2|||||TWO_SIDED|95.0|-11.5|-0.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||-0.8|-11.5|
92265701|NCT04753606|184433022|SUPERIORITY||Least Squares (LS) Means|164.33|STANDARD_ERROR_OF_MEAN|9.306|<|0.0001|TWO_SIDED|95.0|145.9|182.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||182.76|145.90|<.0001
92265702|NCT04753606|184433023|SUPERIORITY||Least Squares (LS) Means|129.27|STANDARD_ERROR_OF_MEAN|9.337|<|0.0001|TWO_SIDED|95.0|110.78|147.77|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||147.77|110.78|<.0001
92265703|NCT04753606|184433023|SUPERIORITY||Least Squares (LS) Means|164.33|STANDARD_ERROR_OF_MEAN|9.306|<|0.0001|TWO_SIDED|95.0|145.9|182.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||182.76|145.90|<.0001
92265704|NCT00489411|184433024|SUPERIORITY_OR_OTHER||Mean Difference|0.73||||0.003|TWO_SIDED|95.0|0.26|1.2|||Wilcoxon (Mann-Whitney)|||||1.20|0.26|0.003
92265705|NCT00489411|184433025|SUPERIORITY_OR_OTHER||Mean Difference|4.4|||||TWO_SIDED|95.0|0.93|7.88||||||||7.88|0.93|
92265706|NCT00489411|184433026|SUPERIORITY_OR_OTHER||Mean Difference|1.58||||0.03|TWO_SIDED|95.0|0.15|3.0|||Wilcoxon (Mann-Whitney)|||||3.00|0.15|0.03
92265707|NCT00489411|184433027|SUPERIORITY_OR_OTHER||Mean difference|1.01|||||TWO_SIDED|95.0|0.36|1.65||||||||1.65|0.36|
92265708|NCT03841331|184433046|SUPERIORITY||Treatment Effect|-1.4||||0.5861|TWO_SIDED|95.0|-13.9|11.1|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used|At Week 10||11.1|-13.9|0.5861
92265709|NCT03841331|184433047|SUPERIORITY||Treatment Effect|-0.7||||0.5651|TWO_SIDED|95.0|-10.1|8.7|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 2||8.7|-10.1|0.5651
92265710|NCT03841331|184433047|SUPERIORITY||Treatment Effect|-4.1||||0.7769|TWO_SIDED|95.0|-14.8|6.7|||Cochran-Mantel-Haenszel|||At Week 4|95% Wald confidence intervals for the treatment difference was used.|6.7|-14.8|0.7769
92265711|NCT03841331|184433047|SUPERIORITY||Treatment Effect|2.8||||0.3285|TWO_SIDED|95.0|-9.1|14.8|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 6||14.8|-9.1|0.3285
92265712|NCT03841331|184433047|SUPERIORITY||Treatment Effect|-2.3||||0.6525|TWO_SIDED|95.0|-14.4|9.8|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 8||9.8|-14.4|0.6525
92265713|NCT03841331|184433048|SUPERIORITY||Treatment effect|0.0||||0.4952|TWO_SIDED|95.0|-5.6|5.7|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 2||5.7|-5.6|0.4952
92265714|NCT03841331|184433048|SUPERIORITY||Treatment effect|5.2||||0.0891|TWO_SIDED|95.0|-2.3|12.7|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 4||12.7|-2.3|0.0891
92265715|NCT03841331|184433048|SUPERIORITY||Treatment effect|-4.2||||0.8447|TWO_SIDED|95.0|-12.1|3.7|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 6||3.7|-12.1|0.8447
92265716|NCT03841331|184433048|SUPERIORITY||Treatment effect|1.0||||0.4174|TWO_SIDED|95.0|-7.5|9.4|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 8||9.4|-7.5|0.4174
92265717|NCT03841331|184433048|SUPERIORITY||Treatment effect|2.7||||0.2756|TWO_SIDED|95.0|-5.8|11.2|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 10||11.2|-5.8|0.2756
92265718|NCT03841331|184433049|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.4409|TWO_SIDED|95.0|-0.49|0.57|||ANOVA|||At Week 2||0.57|-0.49|0.4409
92265719|NCT03841331|184433049|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.5496|TWO_SIDED|95.0|-0.65|0.57||At week 4|ANOVA|||At Week 4||0.57|-0.65|0.5496
92265720|NCT03841331|184433049|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.6311|TWO_SIDED|95.0|-0.78|0.55|||ANOVA|||At Week 6||0.55|-0.78|0.6311
92265721|NCT03841331|184433049|SUPERIORITY||Mean Difference (Final Values)|0.4738||||0.02|TWO_SIDED|95.0|-0.65|0.69|||ANOVA|||At Week 8||0.69|-0.65|0.02
92265722|NCT03841331|184433049|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.3948|TWO_SIDED|95.0|-0.6|0.78|||ANOVA|||At Week 10||0.78|-0.60|0.3948
92181268|NCT02307682|184260726|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-7.3|3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.0|-7.3|
92181269|NCT02307682|184260726|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-7.9|2.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||2.1|-7.9|
92181270|NCT02307682|184260726|OTHER||Difference in proportions|-5.2|||||TWO_SIDED|95.0|-10.5|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||0.7|-10.5|
92181271|NCT02307682|184260726|OTHER||Difference in proportions|-7.1|||||TWO_SIDED|95.0|-12.5|-1.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-1.8|-12.5|
92181272|NCT02307682|184260726|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-6.0|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.0|-6.0|
92181273|NCT02307682|184260726|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-6.3|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||3.9|-6.3|
92181274|NCT02307682|184260726|OTHER||Difference in proportions|-5.4|||||TWO_SIDED|95.0|-10.1|-0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-0.4|-10.1|
92181275|NCT02307682|184260726|OTHER||Difference in proportions|-7.3|||||TWO_SIDED|95.0|-12.2|-2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-2.3|-12.2|
92181276|NCT02307682|184260726|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-5.2|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.3|-5.2|
92181277|NCT02307682|184260726|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-5.8|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||3.5|-5.8|
92181278|NCT02307682|184260726|OTHER||Difference in proportions|-3.4|||||TWO_SIDED|95.0|-8.4|1.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||1.8|-8.4|
92181279|NCT02307682|184260726|OTHER||Difference in proportions|-3.3|||||TWO_SIDED|95.0|-8.5|1.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||1.5|-8.5|
92181280|NCT02307682|184260726|OTHER||Difference in proportions|-4.7|||||TWO_SIDED|95.0|-9.8|0.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||0.2|-9.8|
92181281|NCT02307682|184260726|OTHER||Difference in proportions|-5.4|||||TWO_SIDED|95.0|-10.4|-0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||-0.7|-10.4|
92181282|NCT02307682|184260726|OTHER||Difference in proportions|-2.2|||||TWO_SIDED|95.0|-7.4|3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.0|-7.4|
92181283|NCT02307682|184260726|OTHER||Difference in proportions|-6.0|||||TWO_SIDED|95.0|-11.0|-1.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||-1.1|-11.0|
92262068|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-3.6|STANDARD_ERROR_OF_MEAN|7.8|||TWO_SIDED|95.0|-19.7|12.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 predose PM||12.6|-19.7|
92262069|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-3.3|STANDARD_ERROR_OF_MEAN|7.5|||TWO_SIDED|95.0|-18.7|12.2||||||Day 1 postdose PM 1 hour||12.2|-18.7|
92265723|NCT03841331|184433051|SUPERIORITY||Mean Difference (Final Values)|2.44||||0.244|TWO_SIDED|95.0|-4.98|9.87|||ANOVA|||At Week 2||9.87|-4.98|0.2440
92285228|NCT01811953|184475560|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean difference|100.81|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|95.74|106.14|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||106.14|95.74|<0.0001
92285229|NCT01811953|184475561|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|102.33|STANDARD_ERROR_OF_MEAN|1.017|<|0.0001|TWO_SIDED|90.0|99.315|105.43|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||105.430|99.315|<0.0001
92285230|NCT01811953|184475561|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|98.82|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|90.0|94.784|103.037|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||103.037|94.784|<0.0001
92285231|NCT01811953|184475561|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|105.98|STANDARD_ERROR_OF_MEAN|1.018|<|0.0001|TWO_SIDED|90.0|102.73|109.329|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||109.329|102.730|<0.0001
92285232|NCT01811953|184475562|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|102.12|STANDARD_ERROR_OF_MEAN|1.035|<|0.0001|TWO_SIDED|90.0|96.255|108.351|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||108.351|96.255|<0.0001
92285233|NCT01811953|184475562|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|106.52|STANDARD_ERROR_OF_MEAN|1.063||0.0082|TWO_SIDED|90.0|95.863|118.353|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||118.353|95.863|0.0082
92262070|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-4.4|STANDARD_ERROR_OF_MEAN|6.9|||TWO_SIDED|95.0|-18.7|9.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose PM||9.9|-18.7|
92262071|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-8.5|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|-18.2|1.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 predose AM||1.3|-18.2|
92262072|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-5.7|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|-14.8|3.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 predose AM||3.3|-14.8|
92262073|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-15.4|STANDARD_ERROR_OF_MEAN|6.1|||TWO_SIDED|95.0|-28.1|-2.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose AM 1 hour||-2.8|-28.1|
92285234|NCT01811953|184475562|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|104.352|STANDARD_ERROR_OF_MEAN|1.031|<|0.0001|TWO_SIDED|90.0|99.152|110.224|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||110.224|99.152|<0.0001
92285235|NCT01811953|184475563|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|94.87|STANDARD_ERROR_OF_MEAN|1.038||0.0001|TWO_SIDED|90.0|88.931|101.21|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||101.210|88.931|0.0001
92285236|NCT01811953|184475563|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|97.97|STANDARD_ERROR_OF_MEAN|1.035|<|0.0001|TWO_SIDED|90.0|92.339|103.935|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||103.935|92.339|<0.0001
92285237|NCT01811953|184475563|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|102.95|STANDARD_ERROR_OF_MEAN|1.034|<|0.0001|TWO_SIDED|90.0|97.166|109.082|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||109.082|97.166|<0.0001
92285238|NCT01811953|184475564|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|94.89|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|89.8|100.26|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||100.26|89.80|<0.0001
92285239|NCT01811953|184475564|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|99.31|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|92.14|107.03|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||107.03|92.14|<0.0001
92285240|NCT01811953|184475564|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|100.74|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|95.77|105.96|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||105.96|95.77|<0.0001
92285241|NCT03585790|184475579|NON_INFERIORITY|Margin acceptable mean difference (Single Vision - Multifocal) = -5 rating units (0-100 scale, 0 = optimal)||||||0.18|||||||t-test, 1 sided|||Ho: Single Vision - Multifocal \>= M vs. Ho: Single Vision - Multifocal \< M. Alpha = 0.05, two sided beta = 0.80||||0.18
92285242|NCT02440711|184475608|SUPERIORITY|||||||0.18||||||A significance threshold for all analyses was set at α=0.05. Bonferroni corrections for multiple comparisons were applied.|Multivariate regression|The multivariate regression included participants' biological masses and walking speeds as covariates.||Analysis of VO2 at slow walking speed||||.18
92262074|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-9.4|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-21.1|2.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose AM 1 hour||2.3|-21.1|
92262075|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-8.8|STANDARD_ERROR_OF_MEAN|8.1|||TWO_SIDED|95.0|-25.6|7.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose AM 4 hour||7.9|-25.6|
92262076|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-11.2|STANDARD_ERROR_OF_MEAN|7.5|||TWO_SIDED|95.0|-26.7|4.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose AM 4 hour||4.4|-26.7|
92262077|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-11.7|STANDARD_ERROR_OF_MEAN|5.9|||TWO_SIDED|95.0|-24.0|0.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 predose PM||0.6|-24.0|
92262078|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-7.0|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|-18.4|4.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 predose PM||4.4|-18.4|
92262079|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|1.6|STANDARD_ERROR_OF_MEAN|7.1|||TWO_SIDED|95.0|-13.0|16.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose PM 1 hour||16.2|-13.0|
92262080|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|0.7|STANDARD_ERROR_OF_MEAN|6.5|||TWO_SIDED|95.0|-12.9|14.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose PM 1 hour||14.2|-12.9|
92262081|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-4.7|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-16.4|7.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose PM 4 hour||7.1|-16.4|
92262082|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-3.0|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|95.0|-13.9|7.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose PM 4 hour||7.9|-13.9|
92262083|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-4.7|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-15.8|6.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3 predose AM||6.4|-15.8|
92262084|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-5.8|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-16.0|4.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3 predose AM||4.5|-16.0|
92262085|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|6.4|||TWO_SIDED|95.0|-13.6|13.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3 postdose PM 4 hour||13.1|-13.6|
92262086|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-2.8|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|95.0|-15.2|9.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3 postdose PM 4 hour||9.6|-15.2|
92285243|NCT02440711|184475608|SUPERIORITY|||||||0.21||||||A significance threshold for all analyses was set at α=0.05. Bonferroni corrections for multiple comparisons were applied.|Multivariate regression|The multivariate regression included participants' biological masses and walking speeds as covariates.||Analysis of VO2 at comfortable walking speed||||.21
92262087|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-6.2|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|-15.5|3.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4 predose AM||3.0|-15.5|
92262088|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-8.1|STANDARD_ERROR_OF_MEAN|4.1|||TWO_SIDED|95.0|-16.6|0.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4 predose AM||0.5|-16.6|
92262089|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-1.7|STANDARD_ERROR_OF_MEAN|4.9|||TWO_SIDED|95.0|-11.8|8.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5 predose AM||8.4|-11.8|
92262090|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-10.0|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-19.4|-0.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5 predose AM||-0.7|-19.4|
92262091|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-6.7|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|-18.1|4.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6 predose AM||4.7|-18.1|
92262092|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-4.3|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-14.8|6.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6 predose AM||6.3|-14.8|
92285244|NCT02440711|184475608|SUPERIORITY|||||||0.16||||||A significance threshold for all analyses was set at α=0.05. Bonferroni corrections for multiple comparisons were applied.|Multivariate regression|The multivariate regression included participants' biological masses and walking speeds as covariates.||Analysis of VO2 at fast walking speed||||.16
92262093|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|1.0|STANDARD_ERROR_OF_MEAN|6.3|||TWO_SIDED|95.0|-12.2|14.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 predose AM||14.1|-12.2|
92262094|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-3.8|STANDARD_ERROR_OF_MEAN|5.9|||TWO_SIDED|95.0|-16.0|8.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 predose AM||8.4|-16.0|
92285245|NCT02440711|184475610|SUPERIORITY|||||||0.29||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||.29
92285246|NCT02440711|184475612|SUPERIORITY|||||||0.05||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||0.05
92262095|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-3.0|STANDARD_ERROR_OF_MEAN|5.8|||TWO_SIDED|95.0|-15.1|9.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 postdose AM 1 hour||9.1|-15.1|
92262096|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-6.4|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-17.6|4.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 postdose AM 1 hour||4.8|-17.6|
92262097|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-9.5|STANDARD_ERROR_OF_MEAN|6.4|||TWO_SIDED|95.0|-22.7|3.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 postdose AM 4 hour||3.7|-22.7|
92181284|NCT02307682|184260726|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-4.9|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||5.1|-4.9|
92181285|NCT02307682|184260726|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-7.6|1.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||1.4|-7.6|
92181286|NCT02307682|184260726|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-5.3|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||5.1|-5.3|
92181287|NCT02307682|184260726|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-8.5|0.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||0.8|-8.5|
92181288|NCT02307682|184260727|OTHER||Difference in proportions|-6.7|||||TWO_SIDED|95.0|-14.1|0.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||0.2|-14.1|
92262098|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-17.2|STANDARD_ERROR_OF_MEAN|5.9|||TWO_SIDED|95.0|-29.5|-5.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 postdose AM 4 hour||-5.0|-29.5|
92262099|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-11.7|STANDARD_ERROR_OF_MEAN|6.2|||TWO_SIDED|95.0|-24.4|1.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 predose AM||1.1|-24.4|
92262100|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-8.3|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-20.2|3.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 predose AM||3.5|-20.2|
92262101|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-13.4|STANDARD_ERROR_OF_MEAN|7.1|||TWO_SIDED|95.0|-28.1|1.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 postdose AM 1 hour||1.4|-28.1|
92262102|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-10.3|STANDARD_ERROR_OF_MEAN|6.6|||TWO_SIDED|95.0|-24.0|3.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 postdose AM 1 hour||3.3|-24.0|
92262103|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-10.1|STANDARD_ERROR_OF_MEAN|8.2|||TWO_SIDED|95.0|-27.0|6.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 postdose AM 4 hour||6.9|-27.0|
92262104|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|7.6|||TWO_SIDED|95.0|-20.4|11.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 postdose AM 4 hour||11.1|-20.4|
92262105|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-4.2|STANDARD_ERROR_OF_MEAN|7.3|||TWO_SIDED|95.0|-19.5|11.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 predose PM||11.0|-19.5|
92262106|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|6.8|||TWO_SIDED|95.0|-15.4|12.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 predose PM||12.8|-15.4|
92262107|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-12.7|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-23.0|-2.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9 predose AM||-2.5|-23.0|
92262108|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-5.2|STANDARD_ERROR_OF_MEAN|4.6|||TWO_SIDED|95.0|-14.7|4.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9 predose AM||4.3|-14.7|
92262109|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-8.0|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-19.0|2.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10 predose AM||2.9|-19.0|
92262110|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-3.8|STANDARD_ERROR_OF_MEAN|4.9|||TWO_SIDED|95.0|-14.0|6.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10 predose||6.3|-14.0|
92262111|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-16.1|STANDARD_ERROR_OF_MEAN|7.2|||TWO_SIDED|95.0|-31.0|-1.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11 predose AM||-1.2|-31.0|
92262112|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-8.3|STANDARD_ERROR_OF_MEAN|6.7|||TWO_SIDED|95.0|-22.1|5.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11 predose AM||5.6|-22.1|
92262113|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-3.4|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-14.6|7.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12 predose AM||7.9|-14.6|
92181289|NCT02307682|184260727|OTHER||Difference in proportions|-7.4|||||TWO_SIDED|95.0|-15.3|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||-0.3|-15.3|
92181290|NCT02307682|184260727|OTHER||Difference in proportions|-9.3|||||TWO_SIDED|95.0|-16.6|-2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-2.2|-16.6|
92265724|NCT03841331|184433051|SUPERIORITY||Mean Difference (Final Values)|-1.27||||0.6349|TWO_SIDED|95.0|-9.2|6.65|||ANOVA|||At Week 4||6.65|-9.20|0.6349
92262114|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-5.5|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-15.9|4.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12 predose AM||4.9|-15.9|
92262115|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-11.9|STANDARD_ERROR_OF_MEAN|4.9|||TWO_SIDED|95.0|-22.1|-1.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 predose AM||-1.7|-22.1|
92285247|NCT02440711|184475614|SUPERIORITY|||||||0.25||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||.25
92285248|NCT02440711|184475616|SUPERIORITY|||||||0.86||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||.86
92262116|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-6.5|STANDARD_ERROR_OF_MEAN|4.6|||TWO_SIDED|95.0|-16.0|2.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 predose AM||2.9|-16.0|
92262117|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-14.3|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-25.4|-3.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 postdose AM 1 hour||-3.2|-25.4|
92262118|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-11.8|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-22.1|-1.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 postdose AM 1 hour||-1.5|-22.1|
92262119|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-11.7|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-29.0|5.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 postdose AM 4 hour||5.6|-29.0|
92262120|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-9.8|STANDARD_ERROR_OF_MEAN|7.7|||TWO_SIDED|95.0|-25.9|6.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 postdose AM 4 hour||6.2|-25.9|
92262121|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-11.3|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-22.4|-0.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 postdose PM||-0.1|-22.4|
92262122|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-9.9|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-20.2|0.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 predose PM||0.4|-20.2|
92262123|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-5.8|STANDARD_ERROR_OF_MEAN|7.8|||TWO_SIDED|95.0|-22.0|10.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14 predose AM||10.5|-22.0|
92262124|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-6.1|STANDARD_ERROR_OF_MEAN|7.3|||TWO_SIDED|95.0|-21.1|9.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14 predose AM||9.0|-21.1|
92262125|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-8.1|STANDARD_ERROR_OF_MEAN|6.6|||TWO_SIDED|95.0|-21.7|5.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15 / Discharge||5.6|-21.7|
92262126|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-5.0|STANDARD_ERROR_OF_MEAN|6.1|||TWO_SIDED|95.0|-17.7|7.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15 / Discharge||7.6|-17.7|
92262127|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|4.8|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-7.0|16.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21 / Follow-up||16.7|-7.0|
92262128|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|5.2|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-5.8|16.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21 / Follow-up||16.2|-5.8|
92262129|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|5.5|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-11.7|22.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42 / End of Trial||22.6|-11.7|
92262130|NCT03091920|184426623|OTHER|No statistical testing was performed.|Least squares mean difference|-4.5|STANDARD_ERROR_OF_MEAN|7.7|||TWO_SIDED|95.0|-20.4|11.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42 / End of Trial||11.4|-20.4|
92262131|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.6|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-8.9|3.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 1 hour||3.8|-8.9|
92262132|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.0|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-8.4|4.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 1 hour||4.5|-8.4|
92262133|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.9|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-9.2|3.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 4 hour||3.4|-9.2|
92285249|NCT02440711|184475618|SUPERIORITY|||||||0.14||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||Prosthetic side step length results||||.14
92285250|NCT02440711|184475618|SUPERIORITY||||||<|0.001||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||Sound side step length results||||<0.001
92285251|NCT02440711|184475620|SUPERIORITY|||||||0.61||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||Prosthetic side step time results||||.61
92262134|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-7.1|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-13.5|-0.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 4 hour||-0.6|-13.5|
92262135|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-5.5|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-11.5|0.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 8 hour||0.6|-11.5|
92262136|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-10.8|1.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 8 hour||1.5|-10.8|
92262137|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-3.6|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-9.4|2.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, pre-dose PM||2.2|-9.4|
92262138|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.1|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-8.0|3.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, pre-dose PM||3.7|-8.0|
92262139|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-5.0|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-13.8|3.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose PM 1 hour||3.9|-13.8|
92262140|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.7|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-11.7|6.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose PM 1 hour||6.2|-11.7|
92262141|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.4|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-9.7|0.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose AM||0.9|-9.7|
92262142|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-3.1|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|-8.5|2.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose AM||2.2|-8.5|
92262143|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-6.7|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-13.1|-0.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 1 hour||-0.3|-13.1|
92262144|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-5.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-11.8|1.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 1 hour||1.2|-11.8|
92262145|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-5.4|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-14.2|3.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 4 hour||3.5|-14.2|
92262146|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-8.5|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-17.5|0.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 4 hour||0.5|-17.5|
92262147|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-5.7|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-11.6|0.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose PM||0.2|-11.6|
92285252|NCT02440711|184475620|SUPERIORITY|||||||0.4||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||Sound side step time results||||.40
92262148|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-10.6|1.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose PM||1.5|-10.6|
92262149|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|-7.4|6.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 1 hour||6.4|-7.4|
92262150|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.3|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-9.3|4.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 1 hour||4.7|-9.3|
92262151|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.4|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-9.4|4.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 4 hour||4.6|-9.4|
92262152|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-1.5|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-8.7|5.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 4 hour||5.6|-8.7|
92262153|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|0.2|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-6.2|6.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, pre-dose AM||6.7|-6.2|
92262154|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-6.2|6.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, pre-dose AM||6.8|-6.2|
92262155|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|1.5|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-6.4|9.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, post-dose PM 4 hour||9.4|-6.4|
92262156|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|-9.3|6.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, post-dose PM 4 hour||6.8|-9.3|
92262157|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.3|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-10.0|1.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4, pre-dose AM||1.4|-10.0|
92262158|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.5|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-10.3|1.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4, pre-dose AM||1.3|-10.3|
92262159|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.4|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-8.2|3.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5, pre-dose AM||3.3|-8.2|
92262160|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-7.1|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-13.0|-1.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5, pre-dose AM||-1.3|-13.0|
92262161|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.8|STANDARD_ERROR_OF_MEAN|2.4|||TWO_SIDED|95.0|-7.7|2.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6, pre-dose AM||2.2|-7.7|
92262162|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.7|STANDARD_ERROR_OF_MEAN|2.4|||TWO_SIDED|95.0|-9.7|0.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6, pre-dose AM||0.3|-9.7|
92262163|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.1|STANDARD_ERROR_OF_MEAN|3.6|||TWO_SIDED|95.0|-11.6|3.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, pre-dose AM||3.5|-11.6|
92262164|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-12.0|3.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, pre-dose AM||3.3|-12.0|
92262165|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.3|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-10.6|1.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 1 hour||1.9|-10.6|
92262166|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-5.7|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-12.0|0.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 1 hour||0.7|-12.0|
92262167|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|1.0|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-8.3|10.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 4 hour||10.3|-8.3|
92262168|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|0.2|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-9.2|9.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 4 hour||9.7|-9.2|
92262169|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|-11.5|2.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose AM||2.3|-11.5|
92262170|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.9|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-9.9|4.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose AM||4.2|-9.9|
92262171|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-9.3|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-15.5|-3.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 1 hour||-3.0|-15.5|
92262172|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-8.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-14.6|-1.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 1 hour||-1.9|-14.6|
92262173|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-5.3|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-12.6|2.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 4 hour||2.0|-12.6|
92262174|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|3.6|||TWO_SIDED|95.0|-8.7|6.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 4 hour||6.1|-8.7|
92262175|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|3.6|||TWO_SIDED|95.0|-8.2|6.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose PM||6.7|-8.2|
92262176|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-7.3|7.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose PM||7.9|-7.3|
92262177|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.9|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|-10.3|0.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9, pre-dose AM||0.6|-10.3|
92262178|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.2|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-7.7|3.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9, pre-dose AM||3.4|-7.7|
92262179|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-3.9|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-10.0|2.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10, pre-dose||2.3|-10.0|
92262180|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-5.1|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-11.4|1.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10, pre-dose AM||1.2|-11.4|
92262181|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-8.7|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-15.2|-2.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11, pre-dose AM||-2.2|-15.2|
92262182|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-5.3|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-12.0|1.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11, pre-dose AM||1.3|-12.0|
92262183|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.4|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-7.6|2.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12, pre-dose AM||2.8|-7.6|
92262184|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.5|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-9.7|0.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12, pre-dose AM||0.8|-9.7|
92262185|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.9|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-10.7|0.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose AM||0.8|-10.7|
92262186|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-10.4|1.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose AM||1.3|-10.4|
92262187|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-9.0|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-14.6|-3.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 1 hour||-3.4|-14.6|
92262188|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-8.5|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-14.2|-2.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 1 hour||-2.8|-14.2|
92262189|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-6.2|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-13.8|1.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 4 hour||1.5|-13.8|
92262190|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-6.5|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-14.3|1.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 4 hour||1.2|-14.3|
92265725|NCT03841331|184433051|SUPERIORITY||Mean Difference (Final Values)|0.3407||||1.91|TWO_SIDED|95.0|-6.4|10.23|||ANOVA|||At Week 6||10.23|-6.40|1.91
92265726|NCT03841331|184433051|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.496|TWO_SIDED|95.0|-8.52|8.97|||ANOVA|||At Week 10||8.97|-8.52|0.4960
92262191|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-8.0|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-15.0|-1.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose PM||-1.0|-15.0|
92265727|NCT04640168|184433059|SUPERIORITY|||||||0.909|||||||Chi-squared|||||||0.909
92181291|NCT02307682|184260727|OTHER||Difference in proportions|-12.1|||||TWO_SIDED|95.0|-19.7|-5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-5.4|-19.7|
92181292|NCT02307682|184260727|OTHER||Difference in proportions|-8.2|||||TWO_SIDED|95.0|-14.8|-1.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-1.6|-14.8|
92181293|NCT02307682|184260727|OTHER||Difference in proportions|-10.2|||||TWO_SIDED|95.0|-17.4|-3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-3.9|-17.4|
92181294|NCT02307682|184260727|SUPERIORITY||Difference in proportions|-10.2||||0.003|TWO_SIDED|95.0|-17.3|-2.5||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-2.5|-17.3|0.0030
92181295|NCT02307682|184260727|SUPERIORITY||Difference in proportions|-18.2|||<|0.0001|TWO_SIDED|95.0|-25.3|-10.9||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-10.9|-25.3|<0.0001
92262192|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-7.1|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-14.2|0.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose PM||0|-14.2|
92262193|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-1.7|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|-9.8|6.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, pre-dose AM||6.4|-9.8|
92262194|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-8.0|8.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, pre-dose AM||8.5|-8.0|
92262195|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-2.6|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-9.0|3.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15, Discharge||3.7|-9.0|
92262196|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-7.1|5.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15, Discharge||5.8|-7.1|
92262197|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|-0.8|STANDARD_ERROR_OF_MEAN|2.3|||TWO_SIDED|95.0|-5.5|3.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21, Follow-up||3.9|-5.5|
92262198|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|0.2|STANDARD_ERROR_OF_MEAN|2.3|||TWO_SIDED|95.0|-4.6|4.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21, Follow-up||4.9|-4.6|
92181296|NCT02307682|184260727|OTHER||Difference in proportions|12.0|||||TWO_SIDED|95.0|5.2|19.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||19.0|5.2|
92181297|NCT02307682|184260727|OTHER||Difference in proportions|11.1|||||TWO_SIDED|95.0|3.8|18.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||18.2|3.8|
92262199|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|2.1|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-6.5|10.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42, End of trial||10.7|-6.5|
92262200|NCT03091920|184426624|OTHER|No statistical testing was performed.|Least squares mean difference|0.8|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-7.9|9.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42, End of trial||9.6|-7.9|
92265728|NCT04640168|184433076|SUPERIORITY||Risk Difference (RD)|7.7|||||TWO_SIDED|95.0|1.8|13.4||||||||13.4|1.8|
92265729|NCT04640168|184433077|SUPERIORITY||Risk Difference (RD)|0.6|||||TWO_SIDED|95.0|-4.3|5.5||||||||5.5|-4.3|
92265730|NCT04640168|184433095|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.8|1.27||||||||1.27|0.80|
92262201|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|6.2|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-4.4|16.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 1 hour||16.8|-4.4|
92262202|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|9.1|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-1.5|19.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 1 hour||19.8|-1.5|
92265731|NCT04640168|184433096|SUPERIORITY||Risk Difference (RD)|-0.03|||||TWO_SIDED|95.0|-0.09|0.02||||||||0.02|-0.09|
92265732|NCT04640168|184433097|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.94|1.23||||||||1.23|0.94|
92265733|NCT04640168|184433098|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.94|1.23||||||||1.23|0.94|
92265734|NCT04640168|184433099|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.91|1.19||||||||1.19|0.91|
92285253|NCT02440711|184475622|SUPERIORITY|||||||0.14||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||.14
92285254|NCT02440711|184475624|SUPERIORITY|||||||0.001||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||0.001
92285255|NCT02440711|184475626|SUPERIORITY|||||||0.001||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||0.001
92285256|NCT02440711|184475628|SUPERIORITY|||||||0.005||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||0.005
92285257|NCT02440711|184475630|SUPERIORITY|||||||0.002||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||TAPES-AR results||||0.002
92285258|NCT02440711|184475630|SUPERIORITY||||||<|0.001||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||TAPES-FUN results||||<0.001
92285259|NCT02440711|184475630|SUPERIORITY|||||||0.85||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||TAPES-AES results||||0.85
92285260|NCT00627016|184475659|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance for the comparison of the primary endpoint was determined at 0.05 level.|Wilcoxon (Mann-Whitney)|||||||<0.001
92285261|NCT00627016|184475660|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was only declared if the primary endpoint was statistically significant at 0.05 level. The multiplicity between the two secondary endpoints was adjusted by Hommel-Simes method to maintain the overall 0.05 level.|Fisher Exact|||||||<0.001
92285262|NCT00627016|184475661|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was only declared if the primary endpoint was statistically significant at 0.05 level. The multiplicity between the two secondary endpoints was adjusted by Hommel-Simes method to maintain the overall 0.05 level.|Fisher Exact|||||||<0.001
92285263|NCT00234286|184475690|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.009|TWO_SIDED|95.0|1.09|1.76|||Generalized Estimating Equation|||||1.76|1.09|.009
92285264|NCT00234286|184475691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.09|TWO_SIDED|95.0|0.95|1.96|||Generalized Estimating Equation|||||1.96|0.95|0.09
92285265|NCT00234286|184475692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.69|TWO_SIDED|95.0|0.59|1.42|||Generalized Estimating Equation|||||1.42|0.59|0.69
92285266|NCT00234286|184475693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.03|TWO_SIDED|95.0|0.53|0.96|||Generalized Estimating Equations|||||0.96|0.53|.03
92285267|NCT00234286|184475694|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.15|TWO_SIDED|95.0|0.38|1.16|||Generalized Estimating Equation|||||1.16|0.38|0.15
92285268|NCT00234286|184475695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.86|TWO_SIDED|95.0|0.67|1.62|||Generalized Estimating Equation|||||1.62|0.67|0.86
92285269|NCT00234286|184475696|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.09|TWO_SIDED|95.0|0.95|1.96|||Generalized Estimating Equation|||||1.96|0.95|0.09
92285270|NCT00234286|184475697|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98||||0.01|TWO_SIDED|95.0|1.17|3.36|||Generalized Estimating Equation|||||3.36|1.17|0.01
92285271|NCT00234286|184475698|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.36|TWO_SIDED|95.0|0.73|2.35|||Generalized Estimating Equation|||||2.35|0.73|0.36
92285272|NCT00234286|184475699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.01|TWO_SIDED|95.0|1.08|1.77|||Generalized Estimating Equation|||||1.77|1.08|0.01
92285273|NCT00234286|184475700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.76|TWO_SIDED|95.0|0.7|1.3|||Generalized Estimating Equation|||||1.30|0.70|0.76
92285274|NCT00234286|184475701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.77||||0.004|TWO_SIDED|95.0|1.41|5.44|||Generalized Estimating Equation|||||5.44|1.41|.004
92285275|NCT00234286|184475702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12||||0.007|TWO_SIDED|95.0|1.51|11.28|||Generalized Estimating Equations|||||11.28|1.51|0.007
92285276|NCT00234286|184475703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.14|TWO_SIDED|95.0|0.84|3.2|||Generalized Estimating Equations|||||3.20|0.84|0.14
92285277|NCT00234286|184475704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.003|TWO_SIDED|95.0|1.15|1.88|||Generalized Estimating Equation|||||1.88|1.15|.003
92262203|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-9.0|9.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 4 hour||9.0|-9.0|
92262204|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|4.4|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-4.6|13.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 4 hour||13.4|-4.6|
92262205|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-7.5|7.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 8 hour||7.1|-7.5|
92262206|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|1.6|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-5.7|8.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 8 hour||8.9|-5.7|
92262207|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|5.1|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-2.0|12.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, pre-dose PM||12.1|-2.0|
92262208|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|5.2|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-1.8|12.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, pre-dose PM||12.3|-1.8|
92262209|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|2.3|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-5.1|9.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose PM 1 hour||9.6|-5.1|
92262210|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|1.3|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-6.0|8.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose PM 1 hour||8.7|-6.0|
92262211|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|1.0|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-5.0|6.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose AM||6.9|-5.0|
92262212|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|0.7|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-5.3|6.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose AM||6.6|-5.3|
92262213|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|2.5|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-8.1|13.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 1 hour||13.2|-8.1|
92262214|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|4.3|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-6.3|15.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 1 hour||15.0|-6.3|
92181298|NCT02307682|184260727|OTHER||Difference in proportions|-10.6|||||TWO_SIDED|95.0|-17.7|-3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-3.1|-17.7|
92262215|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-4.6|11.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 4 hour||11.2|-4.6|
92262216|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|7.0|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-1.0|14.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 4 hour||14.9|-1.0|
92262217|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-8.5|5.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose PM||5.9|-8.5|
92262218|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-8.5|5.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose PM||5.9|-8.5|
92262219|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|0.1|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-9.2|9.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 1 hour||9.5|-9.2|
92285278|NCT00234286|184475705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.45||||0.19|TWO_SIDED|95.0|0.62|9.7|||Generalized Estimation Equations|||||9.70|0.62|0.19
92181299|NCT02307682|184260727|OTHER||Difference in proportions|-23.2|||||TWO_SIDED|95.0|-30.5|-16.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-16.1|-30.5|
92181300|NCT02307682|184260727|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-4.8|9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||9.0|-4.8|
92181301|NCT02307682|184260727|OTHER||Difference in proportions|-3.9|||||TWO_SIDED|95.0|-11.8|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.5|-11.8|
92181302|NCT02307682|184260727|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-12.0|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||3.1|-12.0|
92181303|NCT02307682|184260727|OTHER||Difference in proportions|-10.3|||||TWO_SIDED|95.0|-18.0|-3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-3.2|-18.0|
92181304|NCT02307682|184260727|OTHER||Difference in proportions|-5.9|||||TWO_SIDED|95.0|-12.5|0.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||0.8|-12.5|
92181305|NCT02307682|184260727|OTHER||Difference in proportions|-9.2|||||TWO_SIDED|95.0|-16.2|-2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-2.4|-16.2|
92181306|NCT02307682|184260727|OTHER||Difference in proportions|-8.2|||||TWO_SIDED|95.0|-15.7|-0.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-0.6|-15.7|
92181307|NCT02307682|184260727|OTHER||Difference in proportions|-13.0|||||TWO_SIDED|95.0|-20.5|-5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-5.5|-20.5|
92181308|NCT02307682|184260727|OTHER||Difference in proportions|6.0|||||TWO_SIDED|95.0|-0.8|13.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||13.0|-0.8|
92181309|NCT02307682|184260727|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-7.5|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||6.6|-7.5|
92181310|NCT02307682|184260727|SUPERIORITY||Difference in proportions|-10.5||||0.002|TWO_SIDED|95.0|-17.4|-3.3||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-3.3|-17.4|0.0020
92181311|NCT02307682|184260727|SUPERIORITY||Difference in proportions|-13.5||||0.0001|TWO_SIDED|95.0|-20.7|-6.1||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-6.1|-20.7|0.0001
92262220|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-9.5|9.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 1 hour||9.2|-9.5|
92262221|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|1.2|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-5.1|7.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 4 hour||7.4|-5.1|
92262222|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|2.9|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-3.4|9.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 4 hour||9.2|-3.4|
92262223|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-1.4|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-7.5|4.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, pre-dose AM||4.8|-7.5|
92262224|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-6.5|5.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, pre-dose AM||5.8|-6.5|
92262225|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-2.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-9.9|5.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, post-dose PM 4 hour||5.3|-9.9|
92262226|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|2.2|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-5.4|9.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, post-dose PM 4 hour||9.8|-5.4|
92262227|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|7.0|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|0.2|13.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4, pre-dose AM||13.7|0.2|
92262228|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|5.0|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|-1.7|11.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4, pre-dose AM||11.8|-1.7|
92262229|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|2.9|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-3.1|9.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5, pre-dose AM||9.0|-3.1|
92262230|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|2.6|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-3.4|8.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5, pre-dose AM||8.7|-3.4|
92262231|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|2.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-5.4|10.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6, pre-dose AM||10.0|-5.4|
92262232|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-8.4|7.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6, pre-dose AM||7.0|-8.4|
92262233|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|5.1|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-1.6|11.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, pre-dose AM||11.8|-1.6|
92262234|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|5.0|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-1.7|11.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, pre-dose AM||11.7|-1.7|
92262235|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|9.3|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|95.0|-1.6|20.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 1 hour||20.2|-1.6|
92262236|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|13.0|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|2.1|23.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 1 hour||23.9|2.1|
92262237|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|7.1|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|0.2|13.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 4 hour||13.9|0.2|
92262238|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|11.5|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|4.6|18.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 4 hour||18.3|4.6|
92262239|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|1.9|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-4.8|8.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose AM||8.6|-4.8|
92262240|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|4.1|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-2.6|10.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose||10.8|-2.6|
92262241|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|9.7|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|-0.1|19.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 1 hour||19.6|-0.1|
92262242|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|9.6|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|-0.3|19.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 1 hour||19.4|-0.3|
92262243|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|7.8|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|0.0|15.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 4 hour||15.5|0|
92262244|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|8.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|0.6|16.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 4 hour||16.1|0.6|
92262245|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-5.1|11.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose PM||11.7|-5.1|
92262246|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|3.0|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-5.4|11.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose PM||11.3|-5.4|
92262247|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|1.5|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-6.1|9.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9, pre-dose AM||9.1|-6.1|
92262248|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|2.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-5.3|9.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9, pre-dose AM||9.9|-5.3|
92262249|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|4.3|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-4.0|12.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10, pre-dose||12.6|-4.0|
92262250|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|5.1|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-3.2|13.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10, pre-dose AM||13.4|-3.2|
92262251|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-1.5|STANDARD_ERROR_OF_MEAN|4.6|||TWO_SIDED|95.0|-11.0|8.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11, pre-dose AM||8.0|-11.0|
92262252|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-0.9|STANDARD_ERROR_OF_MEAN|4.6|||TWO_SIDED|95.0|-10.3|8.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11, pre-dose AM||8.6|-10.3|
92262253|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|2.9|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-7.7|13.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12, pre-dose AM||13.4|-7.7|
92262254|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|1.2|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-9.4|11.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12, pre-dose AM||11.8|-9.4|
92262255|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|1.0|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-8.4|10.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose AM||10.3|-8.4|
92262256|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|0.1|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-9.3|9.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose AM||9.4|-9.3|
92262257|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|7.0|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-1.3|15.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 1 hour||15.3|-1.3|
92262258|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|9.9|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|1.6|18.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 1 hour||18.2|1.6|
92262259|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|5.6|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-1.0|12.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 4 hour||12.3|-1.0|
92262260|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|7.2|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|0.5|13.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 4 hour||13.9|0.5|
92262261|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-8.4|7.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose PM||7.4|-8.4|
92262262|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|1.9|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-6.0|9.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose PM||9.9|-6.0|
92262263|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|3.9|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-4.0|11.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, pre-dose AM||11.8|-4.0|
92262264|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-4.6|11.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, pre-dose AM||11.2|-4.6|
92262265|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-8.0|7.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15, Discharge||7.3|-8.0|
92262266|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|0.5|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-7.2|8.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15, Discharge||8.1|-7.2|
92262267|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|95.0|-11.5|10.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21, Follow-up||10.2|-11.5|
92262268|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|6.7|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|95.0|-4.1|17.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21, Follow-up||17.5|-4.1|
92262269|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-9.1|9.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42, End of trial||9.6|-9.1|
92262270|NCT03091920|184426625|OTHER|No statistical testing was performed.|Least squares mean difference|0.8|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-8.5|10.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42, End of trial||10.2|-8.5|
92262271|NCT03091920|184426630|OTHER|No statistical testing was performed.|Least squares mean difference|-3.32|STANDARD_ERROR_OF_MEAN|3.07|||TWO_SIDED|95.0|-9.68|3.04|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||3.04|-9.68|
92262272|NCT03091920|184426630|OTHER|No statistical testing was performed.|Least squares mean difference|-2.55|STANDARD_ERROR_OF_MEAN|2.99|||TWO_SIDED|95.0|-8.76|3.66|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||3.66|-8.76|
92262273|NCT03091920|184426630|OTHER|No statistical testing was performed.|Least squares mean difference|-2.93|STANDARD_ERROR_OF_MEAN|2.74|||TWO_SIDED|95.0|-8.62|2.75|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||2.75|-8.62|
92262274|NCT03091920|184426630|OTHER|No statistical testing was performed.|Least squares mean difference|-3.23|STANDARD_ERROR_OF_MEAN|3.44|||TWO_SIDED|95.0|-10.37|3.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||3.92|-10.37|
92265735|NCT01828164|184433140|SUPERIORITY_OR_OTHER||Percent Change|29.0||||0.0164|TWO_SIDED||||||t-test, 1 sided||Percent change in tooth movement rate on the treatment side as compared to the control side.|||||0.0164
92181312|NCT02307682|184260727|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-5.4|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||8.1|-5.4|
92181313|NCT02307682|184260727|OTHER||Difference in proportions|-4.9|||||TWO_SIDED|95.0|-11.8|1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||1.2|-11.8|
92181314|NCT02307682|184260727|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-10.3|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||3.7|-10.3|
92181315|NCT02307682|184260727|OTHER||Difference in proportions|-6.9|||||TWO_SIDED|95.0|-14.1|0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||0.4|-14.1|
92262275|NCT03091920|184426630|OTHER|No statistical testing was performed.|Least squares mean difference|0.52|STANDARD_ERROR_OF_MEAN|3.36|||TWO_SIDED|95.0|-6.46|7.49|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||7.49|-6.46|
92285279|NCT00376623|184475721|OTHER|A one-sided exact binomial test with a 2.5 % significance level was used to detect the difference between BI 2536 and historical placebo with objective response rate = 0.9 % (two out of 211) with a 95 % confidence interval of 0.2 % to 3 %.||||||0.0548|||||||One-sided exact binomial test|Null hypothesis H0: p \<= 0.009 Alternative hypothesis HA: p \> 0.009||Efficacy of BI 2536 was evaluated by comparing the tumour response rate of the present trial with the tumour response rate published for patients with the same stage of disease treated with placebo. For this, treatment groups 'BI 2536 200 mg' and 'combination of treatment group 50 mg BI 2536 (day 1 - day 3) and 60 mg BI 2536 (day 1 - day 3)' were pooled together and compared to historical placebo.||||0.0548
92262276|NCT03091920|184426630|OTHER|No statistical testing was performed.|Least squares mean difference|-1.36|STANDARD_ERROR_OF_MEAN|3.08|||TWO_SIDED|95.0|-7.74|5.03|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||5.03|-7.74|
92262277|NCT03091920|184426630|OTHER|No statistical testing was performed.|Least squares mean difference|-2.71|STANDARD_ERROR_OF_MEAN|4.21|||TWO_SIDED|95.0|-11.46|6.04|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||6.04|-11.46|
92262278|NCT03091920|184426630|OTHER|No statistical testing was performed.|Least squares mean difference|-1.87|STANDARD_ERROR_OF_MEAN|3.95|||TWO_SIDED|95.0|-10.09|6.35|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||6.35|-10.09|
92262279|NCT03091920|184426630|OTHER|No statistical testing was performed.|Least squares mean difference|-2.29|STANDARD_ERROR_OF_MEAN|3.67|||TWO_SIDED|95.0|-9.93|5.35|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||5.35|-9.93|
92262280|NCT03091920|184426631|OTHER|No statistical testing was performed.|Least squares mean difference|-7.06|STANDARD_ERROR_OF_MEAN|3.6|||TWO_SIDED|95.0|-14.52|0.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||0.40|-14.52|
92262281|NCT03091920|184426631|OTHER|No statistical testing was performed.|Least squares mean difference|-4.19|STANDARD_ERROR_OF_MEAN|3.54|||TWO_SIDED|95.0|-11.52|3.14|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||3.14|-11.52|
92181316|NCT02307682|184260727|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-10.1|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.3|-10.1|
92181317|NCT02307682|184260727|OTHER||Difference in proportions|-7.1|||||TWO_SIDED|95.0|-14.0|-0.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||-0.6|-14.0|
92181318|NCT02307682|184260727|OTHER||Difference in proportions|-7.6|||||TWO_SIDED|95.0|-14.7|-0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-0.1|-14.7|
92181319|NCT02307682|184260727|OTHER||Difference in proportions|-12.1|||||TWO_SIDED|95.0|-19.5|-5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-5.4|-19.5|
92181320|NCT02307682|184260727|OTHER||Difference in proportions|7.2|||||TWO_SIDED|95.0|0.3|13.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||13.5|0.3|
92262282|NCT03091920|184426631|OTHER|No statistical testing was performed.|Least squares mean difference|-3.82|STANDARD_ERROR_OF_MEAN|3.69|||TWO_SIDED|95.0|-11.47|3.83|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||3.83|-11.47|
92285280|NCT00376623|184475722|OTHER||Hazard Ratio (HR)|1.02||||0.92|TWO_SIDED|95.0|0.67|1.55|||Log Rank||"Hazard ratio calculated as Combination of 50 mg BI 2536 and 60 mg BI 2536 divided by 200 mg BI 2536"|Exploratory analysis. No formal hypotheses were tested.||1.55|0.67|0.92
92285281|NCT00376623|184475723|OTHER||Hazard Ratio (HR)|1.11||||0.65|TWO_SIDED|95.0|0.7|1.78|||Log Rank||"Hazard ratio calculated as Combination of 50 mg BI 2536 and 60 mg BI 2536 divided by 200 mg BI 2536"|Exploratory analysis. No formal hypotheses were tested.||1.78|0.7|0.65
92285282|NCT00376623|184475726|OTHER|Exploratory analysis. No formal hypotheses were tested.|Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|0.94|2.51|||Regression, Cox||"Hazard ratio calculated as Combination of 50 mg BI 2536 and 60 mg BI 2536 divided by 200 mg BI 2536"|||2.51|0.94|
92285283|NCT00376623|184475727|OTHER|Exploratory analysis. No formal hypotheses were tested.|Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.59|1.49|||Regression, Cox||"Hazard ratio calculated as Combination of 50 mg BI 2536 and 60 mg BI 2536 divided by 200 mg BI 2536"|||1.49|0.59|
92285284|NCT00376623|184475728|OTHER|Exploratory analysis. No formal hypotheses were tested.|Hazard Ratio (HR)|1.27|||||TWO_SIDED|95.0|0.81|2.01|||Regression, Cox||"Hazard ratio calculated as Combination of 50 mg BI 2536 and 60 mg BI 2536 divided by 200 mg BI 2536"|||2.01|0.81|
92285285|NCT00286754|184475741|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||BP control and SBP were compared at 6 months across treatment arms using a Bonferroni adjustment of 1.25% for each of the 4 comparisons (SMI versus UC and HEI versus UC for BP control and SBP separately). This p-value is for comparison of SMI vs. UC|Wilcoxon (Mann-Whitney)|||The study was an effectiveness trial of 2 active interventions, each compared with an active standard of care control group. We expected that 54% of patients on BP-lowering therapy would be properly controlled with HEI and 43% with UC, whereas we expected SMI to increase this to 69% control in 6 months. BP control and SBP were compared at 6 months across treatment arms using a 2.5% type I error (Bonferroni adjustment), ie, 1.25% for each of the 4 comparisons.||||0.001
92285286|NCT00286754|184475741|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED|||||BP control and SBP were compared at 6 months across treatment arms using a Bonferroni adjustment of 1.25% for each of the 4 comparisons (SMI versus UC and HEI versus UC for BP control and SBP separately). This p-value is for comparison of HEI vs. UC|Wilcoxon (Mann-Whitney)|||||||0.108
92285287|NCT00286754|184475742|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||BP control and SBP were compared at 6 months across treatment arms using a 2.5% type I error (Bonferroni adjustment), 1.25% for each of the 4 comparisons (SMI versus UC and HEI vs UC for BP control and SBP separately). This p-value is for SMI vs UC|Wilcoxon (Mann-Whitney)|||The study was designed as an effectiveness trial of 2 active interventions, each compared with an active standard of care control group. The study was not powered to test comparisons between the 2 active intervention arms.||||0.009
92285288|NCT00286754|184475742|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED|||||BP control and SBP were compared at 6 months across treatment arms using a Bonferroni adjustment of 1.25% for each of the 4 comparisons (SMI versus UC and HEI vs UC for BP control and SBP separately). This p-value is for comparison of HEI vs. UC|Wilcoxon (Mann-Whitney)|||||||0.047
92285289|NCT00286754|184475743|SUPERIORITY_OR_OTHER||||||<|3e-06|TWO_SIDED|||||Change in BP control were compared by treatment arm using a 1.67% type I error (with Bonferroni adjustment), ie, 1.67% for each assessment of change in proportion with BP under control from baseline to 6 months by SMI, HEI or UC (3 tests).|McNemar|||||||<0.000003
92285290|NCT00286754|184475743|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||Change in BP control were compared by treatment arm using a 1.67% type I error (with Bonferroni adjustment), ie, 1.67% for each assessment of change in proportion with BP under control from baseline to 6 months by SMI, HEI or UC (3 tests).|McNemar|||||||0.012
92285291|NCT00286754|184475743|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED|||||Change in BP control were compared by treatment arm using a 1.67% type I error (with Bonferroni adjustment), ie, 1.67% for each assessment of change in proportion with BP under control from baseline to 6 months by SMI, HEI or UC (3 tests).|McNemar|||||||0.89
92285292|NCT00286754|184475744|SUPERIORITY_OR_OTHER||||||<|0.009|TWO_SIDED|||||Change in SBP were compared by treatment arm using a 1.67% type I error (Bonferroni adjustment), ie, 1.67% for each of the 3 comparisons by arm (6-month-baseline for SMI, HEI and UC separately).|Wilcoxon (Mann-Whitney)|||||||<0.009
92285293|NCT00286754|184475744|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||Change in SBP were compared by treatment arm using a 1.67% type I error (Bonferroni adjustment), ie, 1.67% for each of the 3 comparisons by arm (6-month-baseline for SMI, HEI and UC separately).|Wilcoxon (Mann-Whitney)|||||||0.008
92285294|NCT00286754|184475744|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED|||||Change in SBP were compared by treatment arm using a 1.67% type I error (Bonferroni adjustment), ie, 1.67% for each of the 3 comparisons by arm (6-month-baseline for SMI, HEI and UC separately).|Wilcoxon (Mann-Whitney)|||||||0.9
92285295|NCT00286754|184475745|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Wilcoxon (Mann-Whitney)|||||||0.880
92285296|NCT00286754|184475745|SUPERIORITY_OR_OTHER|||||||0.318|TWO_SIDED|||||Change in SBP were compared by treatment arm using a 1.67% type I error (Bonferroni adjustment), ie, 1.67% for each of the 3 comparisons by arm (6-month-baseline for SMI, HEI and UC separately).|Wilcoxon (Mann-Whitney)|||||||0.318
92285297|NCT00286754|184475746|SUPERIORITY_OR_OTHER|||||||0.306|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Wilcoxon (Mann-Whitney)|||||||0.306
92285298|NCT00286754|184475746|SUPERIORITY_OR_OTHER|||||||0.205|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.205
92285299|NCT00286754|184475747|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.011
92285300|NCT00286754|184475747|SUPERIORITY_OR_OTHER|||||||0.638|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.638
92262283|NCT03091920|184426631|OTHER|No statistical testing was performed.|Least squares mean difference|1.42|STANDARD_ERROR_OF_MEAN|3.63|||TWO_SIDED|95.0|-6.1|8.94|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||8.94|-6.10|
92262284|NCT03091920|184426631|OTHER|No statistical testing was performed.|Least squares mean difference|-6.44|STANDARD_ERROR_OF_MEAN|4.77|||TWO_SIDED|95.0|-16.36|3.47|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||3.47|-16.36|
92262285|NCT03091920|184426631|OTHER|No statistical testing was performed.|Least squares mean difference|-1.03|STANDARD_ERROR_OF_MEAN|4.52|||TWO_SIDED|95.0|-10.44|8.38|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||8.38|-10.44|
92262286|NCT03091920|184426632|OTHER|No statistical testing was performed.|Least squares mean difference|-0.22|STANDARD_ERROR_OF_MEAN|3.26|||TWO_SIDED|95.0|-6.97|6.54|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||6.54|-6.97|
92262287|NCT03091920|184426632|OTHER|No statistical testing was performed.|Least squares mean difference|-1.6|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-8.24|5.03|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||5.03|-8.24|
92262288|NCT03091920|184426632|OTHER|No statistical testing was performed.|Least squares mean difference|-3.12|STANDARD_ERROR_OF_MEAN|3.74|||TWO_SIDED|95.0|-10.88|4.65|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||4.65|-10.88|
92262289|NCT03091920|184426632|OTHER|No statistical testing was performed.|Least squares mean difference|-0.82|STANDARD_ERROR_OF_MEAN|3.68|||TWO_SIDED|95.0|-8.45|6.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||6.80|-8.45|
92262290|NCT03091920|184426632|OTHER|No statistical testing was performed.|Least squares mean difference|0.87|STANDARD_ERROR_OF_MEAN|4.19|||TWO_SIDED|95.0|-7.84|9.58|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||9.58|-7.84|
92262291|NCT03091920|184426632|OTHER|No statistical testing was performed.|Least squares mean difference|-2.98|STANDARD_ERROR_OF_MEAN|3.96|||TWO_SIDED|95.0|-11.23|5.26|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||5.26|-11.23|
92262292|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-5.55|STANDARD_ERROR_OF_MEAN|3.84|||TWO_SIDED|95.0|-13.51|2.41|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||2.41|-13.51|
92262293|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-2.47|STANDARD_ERROR_OF_MEAN|3.83|||TWO_SIDED|95.0|-10.41|5.47|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||5.47|-10.41|
92262294|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-8.05|STANDARD_ERROR_OF_MEAN|4.49|||TWO_SIDED|95.0|-17.36|1.25|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||1.25|-17.36|
92262295|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-8.28|STANDARD_ERROR_OF_MEAN|4.41|||TWO_SIDED|95.0|-17.42|0.87|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||0.87|-17.42|
92262296|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-9.34|STANDARD_ERROR_OF_MEAN|4.86|||TWO_SIDED|95.0|-19.43|0.74|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||0.74|-19.43|
92262297|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-3.05|STANDARD_ERROR_OF_MEAN|4.77|||TWO_SIDED|95.0|-12.95|6.84|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||6.84|-12.95|
92262298|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|3.36|STANDARD_ERROR_OF_MEAN|3.91|||TWO_SIDED|95.0|-4.74|11.47|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||11.47|-4.74|
92262299|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|2.82|STANDARD_ERROR_OF_MEAN|3.82|||TWO_SIDED|95.0|-5.1|10.75|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||10.75|-5.10|
92262300|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-4.43|STANDARD_ERROR_OF_MEAN|5.21|||TWO_SIDED|95.0|-15.23|6.37|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||6.37|-15.23|
92262301|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-4.85|STANDARD_ERROR_OF_MEAN|5.21|||TWO_SIDED|95.0|-15.65|5.94|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||5.94|-15.65|
92262302|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-0.81|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-9.1|7.47|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||7.47|-9.10|
92262303|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-2.63|STANDARD_ERROR_OF_MEAN|3.76|||TWO_SIDED|95.0|-10.42|5.16|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||5.16|-10.42|
92262304|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-5.54|STANDARD_ERROR_OF_MEAN|3.98|||TWO_SIDED|95.0|-13.8|2.72|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||2.72|-13.80|
92262305|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|3.97|||TWO_SIDED|95.0|-8.25|8.23|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||8.23|-8.25|
92262306|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-2.89|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|-12.01|6.23|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||6.23|-12.01|
92262307|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|2.17|STANDARD_ERROR_OF_MEAN|4.32|||TWO_SIDED|95.0|-6.78|11.13|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||11.13|-6.78|
92262308|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-4.23|STANDARD_ERROR_OF_MEAN|4.68|||TWO_SIDED|95.0|-13.93|5.47|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||5.47|-13.93|
92262309|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|1.37|STANDARD_ERROR_OF_MEAN|4.59|||TWO_SIDED|95.0|-8.14|10.88|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||10.88|-8.14|
92262310|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-0.57|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|-10.32|9.18|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||9.18|-10.32|
92262311|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|2.49|STANDARD_ERROR_OF_MEAN|4.6|||TWO_SIDED|95.0|-7.04|12.02|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||12.02|-7.04|
92262312|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-7.89|STANDARD_ERROR_OF_MEAN|5.03|||TWO_SIDED|95.0|-18.33|2.55|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||2.55|-18.33|
92262313|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-6.49|STANDARD_ERROR_OF_MEAN|5.03|||TWO_SIDED|95.0|-16.92|3.95|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||3.95|-16.92|
92262314|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-3.84|STANDARD_ERROR_OF_MEAN|4.91|||TWO_SIDED|95.0|-14.03|6.35|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||6.35|-14.03|
92262315|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|0.78|STANDARD_ERROR_OF_MEAN|4.62|||TWO_SIDED|95.0|-8.8|10.35|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||10.35|-8.80|
92262316|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-7.13|STANDARD_ERROR_OF_MEAN|5.12|||TWO_SIDED|95.0|-17.79|3.53|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||3.53|-17.79|
92262317|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|1.66|STANDARD_ERROR_OF_MEAN|4.93|||TWO_SIDED|95.0|-8.59|11.91|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||11.91|-8.59|
92262318|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-6.31|STANDARD_ERROR_OF_MEAN|4.74|||TWO_SIDED|95.0|-16.17|3.55|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||3.55|-16.17|
92262319|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-1.17|STANDARD_ERROR_OF_MEAN|4.54|||TWO_SIDED|95.0|-10.6|8.27|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||8.27|-10.60|
92262320|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-7.01|STANDARD_ERROR_OF_MEAN|5.83|||TWO_SIDED|95.0|-19.13|5.11|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||5.11|-19.13|
92262321|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-4.11|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|-15.55|7.34|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||7.34|-15.55|
92262322|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|1.77|STANDARD_ERROR_OF_MEAN|5.48|||TWO_SIDED|95.0|-9.63|13.17|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||13.17|-9.63|
92285301|NCT00286754|184475748|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.012
92262323|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-3.47|STANDARD_ERROR_OF_MEAN|5.18|||TWO_SIDED|95.0|-14.25|7.31|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||7.31|-14.25|
92262324|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-1.73|STANDARD_ERROR_OF_MEAN|4.57|||TWO_SIDED|95.0|-11.24|7.77|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||7.77|-11.24|
92262325|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|-5.55|STANDARD_ERROR_OF_MEAN|4.46|||TWO_SIDED|95.0|-14.83|3.73|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||3.73|-14.83|
92262326|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|1.98|STANDARD_ERROR_OF_MEAN|5.21|||TWO_SIDED|95.0|-8.85|12.81|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||12.81|-8.85|
92262327|NCT03091920|184426633|OTHER|No statistical testing was performed.|Least squares mean difference|1.07|STANDARD_ERROR_OF_MEAN|4.69|||TWO_SIDED|95.0|-8.68|10.82|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||10.82|-8.68|
92262328|NCT03091920|184426634|OTHER|No statistical testing was performed.|Least squares mean difference|-2.12|STANDARD_ERROR_OF_MEAN|2.06|||TWO_SIDED|95.0|-6.38|2.15|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||2.15|-6.38|
92262329|NCT03091920|184426634|OTHER|No statistical testing was performed.|Least squares mean difference|-2.39|STANDARD_ERROR_OF_MEAN|2.02|||TWO_SIDED|95.0|-6.59|1.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||1.80|-6.59|
92262330|NCT03091920|184426634|OTHER|No statistical testing was performed.|Least squares mean difference|-2.26|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|95.0|-6.11|1.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||1.60|-6.11|
92262331|NCT03091920|184426634|OTHER|No statistical testing was performed.|Least squares mean difference|-3.39|STANDARD_ERROR_OF_MEAN|2.34|||TWO_SIDED|95.0|-8.25|1.47|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||1.47|-8.25|
92262332|NCT03091920|184426634|OTHER|No statistical testing was performed.|Least squares mean difference|-1.61|STANDARD_ERROR_OF_MEAN|2.31|||TWO_SIDED|95.0|-6.4|3.18|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||3.18|-6.40|
92285302|NCT00286754|184475748|SUPERIORITY_OR_OTHER|||||||0.333|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.333
92262333|NCT03091920|184426634|OTHER|No statistical testing was performed.|Least squares mean difference|-2.5|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|95.0|-6.9|1.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||1.90|-6.90|
92262334|NCT03091920|184426634|OTHER|No statistical testing was performed.|Least squares mean difference|-4.96|STANDARD_ERROR_OF_MEAN|3.01|||TWO_SIDED|95.0|-11.22|1.31|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||1.31|-11.22|
92262335|NCT03091920|184426634|OTHER|No statistical testing was performed.|Least squares mean difference|-4.5|STANDARD_ERROR_OF_MEAN|2.84|||TWO_SIDED|95.0|-10.41|1.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||1.40|-10.41|
92285303|NCT00286754|184475749|SUPERIORITY_OR_OTHER|||||||0.581|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.581
92265736|NCT01828164|184433141|SUPERIORITY_OR_OTHER||Percent change|220.8||||0.0423|TWO_SIDED||||||t-test, 1 sided||Percent change in root resorption rate on the control side as compared to the treatment side.|||||0.0423
92265737|NCT01828164|184433142|NON_INFERIORITY|1 point on the 10-point pain scale was used as the non-inferiority margin.|||||<|0.001|||||||Bootstrapped mean difference|This test bootstrapped the mean difference (Treatment Arm - Control Arm) less 1, the non-inferiority margin, 1000 times.||||||<0.001
92265738|NCT04259905|184433143|SUPERIORITY||Cohen's d|0.85|||||TWO_SIDED|||||||||||||
92265739|NCT04259905|184433144|SUPERIORITY||Cohen's d|1.29|||||TWO_SIDED|||||||||||||
92265740|NCT04259905|184433145|SUPERIORITY||Cohen's d|1.06|||||TWO_SIDED|||||||||||||
92265741|NCT00634933|184433179|SUPERIORITY_OR_OTHER|||||||0.061|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A 2-sided Cochran-Mantel-Haenszel test (CMH), stratified by prior anti-tumor necrosis factor (anti-TNF) use and geographic region, was used.||||0.061
92265742|NCT00634933|184433179|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.120
92265743|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.570
92265744|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.200
92181321|NCT02307682|184260727|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-4.9|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||8.4|-4.9|
92181322|NCT02307682|184260727|OTHER||Difference in proportions|-8.9|||||TWO_SIDED|95.0|-15.7|-1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-1.7|-15.7|
92262336|NCT03091920|184426634|OTHER|No statistical testing was performed.|Least squares mean difference|-4.73|STANDARD_ERROR_OF_MEAN|2.67|||TWO_SIDED|95.0|-10.27|0.81|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||0.81|-10.27|
92262337|NCT03091920|184426635|OTHER|No statistical testing was performed.|Least squares mean difference|-4.87|STANDARD_ERROR_OF_MEAN|2.86|||TWO_SIDED|95.0|-10.8|1.06|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||1.06|-10.80|
92262338|NCT03091920|184426635|OTHER|No statistical testing was performed.|Least squares mean difference|-5.02|STANDARD_ERROR_OF_MEAN|2.82|||TWO_SIDED|95.0|-10.87|0.83|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||0.83|-10.87|
92181323|NCT02307682|184260727|OTHER||Difference in proportions|-12.5|||||TWO_SIDED|95.0|-19.8|-5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-5.6|-19.8|
92181324|NCT02307682|184260727|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-5.9|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||7.2|-5.9|
92181325|NCT02307682|184260727|OTHER||Difference in proportions|-3.4|||||TWO_SIDED|95.0|-9.8|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||2.6|-9.8|
92262339|NCT03091920|184426635|OTHER|No statistical testing was performed.|Least squares mean difference|-4.23|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|95.0|-9.55|1.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||1.10|-9.55|
92262340|NCT03091920|184426635|OTHER|No statistical testing was performed.|Least squares mean difference|-2.15|STANDARD_ERROR_OF_MEAN|2.53|||TWO_SIDED|95.0|-7.4|3.11|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||3.11|-7.40|
92262341|NCT03091920|184426635|OTHER|No statistical testing was performed.|Least squares mean difference|-8.74|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|-15.64|-1.85|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||-1.85|-15.64|
92262342|NCT03091920|184426635|OTHER|No statistical testing was performed.|Least squares mean difference|-5.34|STANDARD_ERROR_OF_MEAN|3.12|||TWO_SIDED|95.0|-11.84|1.15|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||1.15|-11.84|
92285304|NCT00286754|184475749|SUPERIORITY_OR_OTHER|||||||0.502|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.502
92262343|NCT03091920|184426636|OTHER|No statistical testing was performed.|Least squares mean difference|-0.45|STANDARD_ERROR_OF_MEAN|2.13|||TWO_SIDED|95.0|-4.86|3.96|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||3.96|-4.86|
92285305|NCT01054586|184475769|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.1||||0.02||95.0|1.26|29.46||Only variables showing an imbalance between the treatment groups (when possible and besides APRI score) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for ART naïve. Not ART naïve is the reference group."|||29.46|1.26|0.02
92285306|NCT01054586|184475770|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.12||||0.05||95.0|1.03|16.5||Only variables showing an imbalance between the treatment groups (when possible and besides APRI score) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||16.50|1.03|0.05
92285307|NCT01054586|184475770|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.62||||0.68||95.0|0.16|16.27||Only variables showing an imbalance between the treatment groups (when possible and besides APRI score) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||16.27|0.16|0.68
92285308|NCT01054586|184475771|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.83||||0.17||95.0|0.65|12.36||Only variables showing an imbalance between the treatment groups (when possible) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||12.36|0.65|0.17
92285309|NCT01054586|184475771|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||0.85||95.0|0.12|13.33||Only variables showing an imbalance between the treatment groups (when possible) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||13.33|0.12|0.85
92285310|NCT01054586|184475772|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.2||||0.06||95.0|0.94|10.82||Only variables showing an imbalance between the treatment groups (when possible and besides APRI score) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||10.82|0.94|0.06
92285311|NCT01054586|184475772|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.96||95.0|0.11|9.83||Only variables showing an imbalance between the treatment groups (when possible and besides APRI score) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||9.83|0.11|0.96
92285312|NCT01054586|184475773|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.57||95.0|0.52|3.31||Variables showing imbalance between treatments (when possible and besides APRI score) were included. Gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin were also included, but p\>0.05.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||3.31|0.52|0.57
92285313|NCT01054586|184475773|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.28||||0.22||95.0|0.04|2.14||Variables showing imbalance between treatments (when possible and besides APRI score) were included. Gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin were also included, but p\>0.05.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||2.14|0.04|0.22
92285314|NCT01054586|184475773|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.86||||0.47||95.0|0.35|9.91||Variables showing imbalance between treatments (when possible and besides APRI score) were included. Gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin were also included, but p\>0.05.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV, Other. LPV is the reference group."|||9.91|0.35|0.47
92285315|NCT01054586|184475774|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.48||95.0|0.55|3.55||Only variables showing imbalance between treatments (when possible) were included. The following were also included, but p \> 0.05: gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||3.55|0.55|0.48
92287118|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.078||||0.005|TWO_SIDED|95.0|0.024|0.132|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.132|0.024|0.005
92285316|NCT01054586|184475774|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26||||0.23||95.0|0.03|2.18||Only variables showing imbalance between treatments (when possible) were included. The following were also included, but p \> 0.05: gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||2.18|0.03|0.23
92285317|NCT01054586|184475774|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.67||||0.56||95.0|0.29|9.47||Only variables showing imbalance between treatments (when possible) were included. The following were also included, but p \> 0.05: gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV, Other. LPV is the reference group."|||9.47|0.29|0.56
92285318|NCT01054586|184475776|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.72||95.0|0.51|2.66||Only variables showing an imbalance between treatment groups were included: gender, mode of HIV transmission, ART naive, use of non-ARV drug, baseline bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||2.66|0.51|0.72
92285319|NCT01054586|184475776|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.27||||0.21||95.0|0.03|2.08||Only variables showing an imbalance between treatment groups were included: gender, mode of HIV transmission, ART naive, use of non-ARV drug, baseline bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||2.08|0.03|0.21
92285320|NCT01054586|184475776|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.26||||0.15||95.0|0.74|6.97|||Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV, other. LPV is the reference group."|Only variables showing an imbalance between treatment groups were included: gender, mode of HIV transmission, ART naive, use of non-ARV drug, baseline bilirubin.||6.97|0.74|0.15
92285321|NCT01054586|184475782|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.77||||0.1||95.0|0.79|18.05|||Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||18.05|0.79|0.10
92285322|NCT01054586|184475783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.53||||0.02||95.0|1.16|5.54||Only variables showing an imbalance between the treatment groups were included, but p \> .05: gender, mode of HIV transmission, ART naive, APRI score, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||5.54|1.16|0.02
92285323|NCT01054586|184475783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.17||||0.05||95.0|1.54|11.27||Only variables showing an imbalance between the treatment groups were included, but p \> .05: gender, mode of HIV transmission, ART naive, APRI score, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||11.27|1.54|0.05
92285324|NCT01054586|184475783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.67||||0.06||95.0|0.97|13.9||Only variables showing an imbalance between the treatment groups were included, but p \> .05: gender, mode of HIV transmission, ART naive, APRI score, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV, other. LPV is the reference group."|||13.90|0.97|0.06
92285325|NCT01054586|184475784|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.68||||0.01||95.0|1.21|5.9||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||5.9|1.21|0.01
92285326|NCT01054586|184475784|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.42||||0.0004||95.0|1.61|12.08||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||12.08|1.61|0.0004
92285327|NCT01054586|184475784|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.07||||0.11||95.0|0.78|12.03||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV, other. LPV is the reference group."|||12.03|0.78|0.11
92285328|NCT01054586|184475785|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.09||||0.03||95.0|1.06|4.15||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, APRI-score, baseline use of non-ARV drug and baseline bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||4.15|1.06|0.03
92285329|NCT01054586|184475785|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.61||||0.05||95.0|1.48|8.81||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, APRI-score, baseline use of non-ARV drug and baseline bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||8.81|1.48|0.05
92285330|NCT01054586|184475785|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.31||||0.1||95.0|0.85|6.32||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, APRI-score, baseline use of non-ARV drug and baseline bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV, other. LPV is the reference group."|||6.32|0.85|0.10
92285331|NCT01054586|184475786|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.12||||0.03||95.0|1.19|22.02|||Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||22.02|1.19|0.03
92285332|NCT02726581|184475794|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.62|1.3||||||||1.30|0.62|
92285333|NCT02726581|184475795|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.53|1.19||||||||1.19|0.53|
92285334|NCT02726581|184475796|SUPERIORITY||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.39|1.46||||||||1.46|0.39|
92285335|NCT02459951|184475805|SUPERIORITY|||||||0.059||||||"refer to cylinder A (.5 diameter)"|Regression, Logistic|||||||.059
92285336|NCT02459951|184475805|SUPERIORITY||geometric mean ratio B|||||0.465|||||||Regression, Logistic|"refer to cylinder B(1 diameter)"||||||0.465
92285337|NCT02459951|184475805|SUPERIORITY||geometric mean ratio C|||||0.022||||||"refer to cylinder C (1.5 diameter)"|Regression, Logistic|||||||.022
92285338|NCT02459951|184475805|SUPERIORITY||geometric mean ratio D|||||0.004||||||"refer to cylinder D (2 diameter)"|Regression, Logistic|||||||.004
92285339|NCT02459951|184475805|SUPERIORITY||geometric mean ratio E|||||0.002||||||"refer to cylinder E (2.5 diameter)"|Regression, Logistic|||||||.002
92285340|NCT02255097|184475827|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|null hypothesis (H0): p ≤ 0.05 versus alternate hypothesis (H1): p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
92285341|NCT02255097|184475828|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
92285342|NCT02255097|184475831|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
92285343|NCT02255097|184475832|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0027|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||0.0027
92285344|NCT02255097|184475833|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
92285345|NCT02255097|184475834|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
92285346|NCT02255097|184475835|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
92285347|NCT04239872|184475845|SUPERIORITY||Mean Difference (Net)|-0.00778||||0.8412|TWO_SIDED|95.0|-0.09209|0.07653||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 11 pairs of data, DF=10|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.07653|-0.09209|0.8412
92285348|NCT04239872|184475846|SUPERIORITY||Mean Difference (Net)|-0.06907||||0.6504|TWO_SIDED|95.0|-0.3955|0.2573||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 12 pairs of data, DF=11|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.2573|-0.3955|0.6504
92285349|NCT04239872|184475847|SUPERIORITY||Mean Difference (Net)|0.5307||||0.0024|TWO_SIDED|95.0|0.2372|0.8243||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 11 pairs of data, DF=10|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.8243|0.2372|0.0024
92285350|NCT04239872|184475848|SUPERIORITY||Mean Difference (Net)|0.5643||||0.0013|TWO_SIDED|95.0|0.2938|0.8348||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 9 pairs of data, DF=8|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.8348|0.2938|0.0013
92285351|NCT04239872|184475849|SUPERIORITY||Mean Difference (Net)|-0.1135||||0.2041|TWO_SIDED|95.0|-0.2964|0.06929||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 15 pairs of data, DF=14|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.06929|-0.2964|0.2041
92285352|NCT04239872|184475850|SUPERIORITY||Mean Difference (Net)|1.095|||<|0.0001|TWO_SIDED|95.0|0.7736|1.416||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 13 pairs of data, DF=12|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.416|0.7736|<0.0001
92287119|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.101|||<|0.001|TWO_SIDED|95.0|0.049|0.153|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.153|0.049|<0.001
92181326|NCT02307682|184260727|OTHER||Difference in proportions|-4.4|||||TWO_SIDED|95.0|-11.2|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||2.5|-11.2|
92181327|NCT02307682|184260727|OTHER||Difference in proportions|-8.1|||||TWO_SIDED|95.0|-15.3|-1.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-1.0|-15.3|
92181328|NCT02307682|184260727|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-8.9|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.6|-8.9|
92181329|NCT02307682|184260727|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-11.2|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||1.7|-11.2|
92181330|NCT02307682|184260727|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-10.8|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.7|-10.8|
92181331|NCT02307682|184260727|OTHER||Difference in proportions|-10.3|||||TWO_SIDED|95.0|-17.3|-3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||-3.5|-17.3|
92181332|NCT02307682|184260727|OTHER||Difference in proportions|4.1|||||TWO_SIDED|95.0|-2.3|11.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||11.0|-2.3|
92181333|NCT02307682|184260727|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-9.8|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||2.6|-9.8|
92181334|NCT02307682|184260727|OTHER||Difference in proportions|-6.4|||||TWO_SIDED|95.0|-13.2|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||0.7|-13.2|
92181335|NCT02307682|184260727|OTHER||Difference in proportions|-12.9|||||TWO_SIDED|95.0|-19.7|-6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-6.6|-19.7|
92181336|NCT02307682|184260728|SUPERIORITY|||||||0.0574||||||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|Cochran-Mantel-Haenszel|CMH-test row mean score (scores=table) stratified by age categories (\<75, ≥75 years) and baseline fluid status)||||||0.0574
92262344|NCT03091920|184426636|OTHER|No statistical testing was performed.|Least squares mean difference|-0.71|STANDARD_ERROR_OF_MEAN|2.1|||TWO_SIDED|95.0|-5.07|3.65|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||3.65|-5.07|
92181337|NCT02307682|184260728|SUPERIORITY|||||||0.0012||||||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|Cochran-Mantel-Haenszel|CMH-test row mean score (scores=table) stratified by age categories (\<75, ≥75 years) and baseline fluid status)||||||0.0012
92181338|NCT02307682|184260729|SUPERIORITY||difference in proportions|-6.5||||0.0331|TWO_SIDED|95.0|-13.2|0.3||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for age categories (\<75, \>=75 years) and treatment as fixed effect factors. 95% CI for the treatment difference estimated using bootstrap method.|||0.3|-13.2|0.0331
92181339|NCT02307682|184260729|SUPERIORITY||difference in proportions|-10.5||||0.0013|TWO_SIDED|95.0|-17.1|-3.5||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for age categories (\<75, \>=75 years) and treatment as fixed effect factors. 95% CI for the treatment difference estimated using bootstrap method.|||-3.5|-17.1|0.0013
92181340|NCT02307682|184260730|OTHER|Treatment difference|Least squares mean difference|0.9|||||TWO_SIDED|95.0|-0.5|2.3||Hypothesis testing not pre-specified|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 24||2.3|-0.5|
92262345|NCT03091920|184426636|OTHER|No statistical testing was performed.|Least squares mean difference|-3.32|STANDARD_ERROR_OF_MEAN|2.64|||TWO_SIDED|95.0|-8.79|2.14|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||2.14|-8.79|
92181341|NCT02307682|184260730|OTHER|Treatment difference|Least squares mean difference|0.63|||||TWO_SIDED|95.0|-0.9|2.1||Hypothesis testing not pre-specified|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||2.1|-0.9|
92262346|NCT03091920|184426636|OTHER|No statistical testing was performed.|Least squares mean difference|-1.74|STANDARD_ERROR_OF_MEAN|2.61|||TWO_SIDED|95.0|-7.14|3.67|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||3.67|-7.14|
92181342|NCT02307682|184260730|OTHER|Treatment difference|Least squares mean difference|-0.2|||||TWO_SIDED|95.0|-1.8|1.4||Hypothesis testing not pre-specified.|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 48||1.4|-1.8|
92262347|NCT03091920|184426636|OTHER|No statistical testing was performed.|Least squares mean difference|-1.88|STANDARD_ERROR_OF_MEAN|3.22|||TWO_SIDED|95.0|-8.58|4.83|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||4.83|-8.58|
92262348|NCT03091920|184426636|OTHER|No statistical testing was performed.|Least squares mean difference|-4.3|STANDARD_ERROR_OF_MEAN|3.08|||TWO_SIDED|95.0|-10.69|2.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||2.10|-10.69|
92262349|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-4.45|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|-11.3|2.41|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||2.41|-11.30|
92262350|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-5.17|STANDARD_ERROR_OF_MEAN|3.34|||TWO_SIDED|95.0|-12.1|1.75|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||1.75|-12.10|
92262351|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-5.23|STANDARD_ERROR_OF_MEAN|3.69|||TWO_SIDED|95.0|-12.87|2.42|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||2.42|-12.87|
92262352|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-8.22|STANDARD_ERROR_OF_MEAN|3.58|||TWO_SIDED|95.0|-15.64|-0.79|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||-0.79|-15.64|
92262353|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-6.72|STANDARD_ERROR_OF_MEAN|3.65|||TWO_SIDED|95.0|-14.29|0.86|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||0.86|-14.29|
92262354|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-3.14|STANDARD_ERROR_OF_MEAN|3.63|||TWO_SIDED|95.0|-10.66|4.38|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||4.38|-10.66|
92262355|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|0.37|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|95.0|-4.71|5.45|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||5.45|-4.71|
92262356|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-0.02|STANDARD_ERROR_OF_MEAN|2.37|||TWO_SIDED|95.0|-4.94|4.91|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16||4.91|-4.94|
92262357|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-2.33|STANDARD_ERROR_OF_MEAN|3.73|||TWO_SIDED|95.0|-10.07|5.41|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||5.41|-10.07|
92262358|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-2.45|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-10.26|5.37|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||5.37|-10.26|
92262359|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-0.75|STANDARD_ERROR_OF_MEAN|2.83|||TWO_SIDED|95.0|-6.62|5.13|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||5.13|-6.62|
92262360|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-1.13|STANDARD_ERROR_OF_MEAN|2.75|||TWO_SIDED|95.0|-6.83|4.58|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||4.58|-6.83|
92262361|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-5.13|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-10.72|0.47|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||0.47|-10.72|
92262362|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-3.64|STANDARD_ERROR_OF_MEAN|2.72|||TWO_SIDED|95.0|-9.29|2.01|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||2.01|-9.29|
92262363|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-3.92|STANDARD_ERROR_OF_MEAN|3.52|||TWO_SIDED|95.0|-11.22|3.38|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||3.38|-11.22|
92262364|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-2.46|STANDARD_ERROR_OF_MEAN|3.42|||TWO_SIDED|95.0|-9.54|4.63|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||4.63|-9.54|
92262365|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-4.75|STANDARD_ERROR_OF_MEAN|2.96|||TWO_SIDED|95.0|-10.9|1.39|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||1.39|-10.90|
92265745|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.616|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.616
92262366|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-1.25|STANDARD_ERROR_OF_MEAN|2.94|||TWO_SIDED|95.0|-7.35|4.85|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||4.85|-7.35|
92262367|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-2.11|STANDARD_ERROR_OF_MEAN|3.11|||TWO_SIDED|95.0|-8.57|4.35|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||4.35|-8.57|
92262368|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|0.05|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|-6.21|6.31|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||6.31|-6.21|
92262369|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-6.66|STANDARD_ERROR_OF_MEAN|3.65|||TWO_SIDED|95.0|-14.22|0.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||0.90|-14.22|
92262370|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-6.38|STANDARD_ERROR_OF_MEAN|3.68|||TWO_SIDED|95.0|-14.01|1.25|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||1.25|-14.01|
92262371|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-2.29|STANDARD_ERROR_OF_MEAN|3.38|||TWO_SIDED|95.0|-9.3|4.71|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||4.71|-9.30|
92181343|NCT02307682|184260730|OTHER|Treatment difference|Least squares mean difference|-0.26|||||TWO_SIDED|95.0|-1.9|1.4||Hypothesis testing not pre-specified.|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||1.4|-1.9|
92265746|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.671|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.671
92262372|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-0.17|STANDARD_ERROR_OF_MEAN|3.28|||TWO_SIDED|95.0|-6.97|6.64|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||6.64|-6.97|
92262373|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-7.74|STANDARD_ERROR_OF_MEAN|3.51|||TWO_SIDED|95.0|-15.03|-0.44|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||-0.44|-15.03|
92262374|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-3.86|STANDARD_ERROR_OF_MEAN|3.37|||TWO_SIDED|95.0|-10.88|3.16|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||3.16|-10.88|
92262375|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-9.53|STANDARD_ERROR_OF_MEAN|3.16|||TWO_SIDED|95.0|-16.1|-2.95|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8||-2.95|-16.10|
92262376|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-5.66|STANDARD_ERROR_OF_MEAN|2.96|||TWO_SIDED|95.0|-11.82|0.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||0.50|-11.82|
92262377|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-8.62|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|-17.77|0.54|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||0.54|-17.77|
92262378|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-6.05|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-14.79|2.69|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||2.69|-14.79|
92262379|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-1.36|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|-10.51|7.79|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||7.79|-10.51|
92262380|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-4.95|STANDARD_ERROR_OF_MEAN|4.11|||TWO_SIDED|95.0|-13.5|3.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||3.60|-13.50|
92262381|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-3.43|STANDARD_ERROR_OF_MEAN|3.55|||TWO_SIDED|95.0|-10.81|3.96|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||3.96|-10.81|
92262382|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-5.38|STANDARD_ERROR_OF_MEAN|3.49|||TWO_SIDED|95.0|-12.64|1.89|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||1.89|-12.64|
92265747|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.108
92265748|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.174|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.174
92265749|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.010
92181344|NCT02307682|184260730|OTHER|Treatment difference|Least squares mean difference|0.18|||||TWO_SIDED|95.0|-1.6|1.9||Hypothesis testing not pre-specified.|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 72||1.9|-1.6|
92181345|NCT02307682|184260730|OTHER|Treatment difference|Least squares mean difference|-0.12|||||TWO_SIDED|95.0|-1.9|1.7||Hypothesis testing not pre-specified|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||1.7|-1.9|
92181346|NCT02307682|184260730|OTHER|Treatment difference|Least squares mean difference|0.75|||||TWO_SIDED|95.0|-1.2|2.7||Hypothesis testing not pre-specified|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 96||2.7|-1.2|
92265750|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.029
92262383|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-0.08|STANDARD_ERROR_OF_MEAN|3.59|||TWO_SIDED|95.0|-7.55|7.39|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||7.39|-7.55|
92262384|NCT03091920|184426637|OTHER|No statistical testing was performed.|Least squares mean difference|-1.89|STANDARD_ERROR_OF_MEAN|3.37|||TWO_SIDED|95.0|-8.89|5.12|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||5.12|-8.89|
92262385|NCT03091920|184426638|OTHER|No statistical testing was performed.|Least squares mean difference|-0.79|STANDARD_ERROR_OF_MEAN|1.63|||TWO_SIDED|95.0|-4.17|2.59|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||2.59|-4.17|
92285353|NCT04239872|184475851|SUPERIORITY||Mean Difference (Net)|1.469|||<|0.0001|TWO_SIDED|95.0|1.112|1.825||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 13 pairs of data, DF=12|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.825|1.112|<0.0001
92262386|NCT03091920|184426638|OTHER|No statistical testing was performed.|Least squares mean difference|-1.09|STANDARD_ERROR_OF_MEAN|1.63|||TWO_SIDED|95.0|-4.47|2.29|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||2.29|-4.47|
92262387|NCT03091920|184426638|OTHER|No statistical testing was performed.|Least squares mean difference|-0.94|STANDARD_ERROR_OF_MEAN|1.48|||TWO_SIDED|95.0|-4.02|2.14|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||2.14|-4.02|
92181347|NCT02307682|184260730|OTHER|Treatment difference|Least squares mean difference|1.05|||||TWO_SIDED|95.0|-0.9|3.0||Hypothesis testing not pre-specified.|ANCOVA|nalyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||3.0|-0.9|
92181348|NCT03905694|184260744|OTHER|Not applied|Least Squares (LS) Mean|-71.97|||||TWO_SIDED|95.0|-77.52|-66.42|||Mixed model for repeated measures (MMRM)|||Mixed-effect Model Repeated Measures (MMRM) includes scheduled visits (months 3, 4, 5, and 6) and baseline spot urinary oxalate:creatine ratio as fixed effects. Autoregressive (1) was used to model the within-patient error.||-66.42|-77.52|
92265751|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.006
92265752|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.021
92265753|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.062|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.062
92265754|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.049
92265755|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.030
92265756|NCT00634933|184433180|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.005
92265757|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.014
92265758|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.025
92181349|NCT00705406|184260787|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.927||||0.222|TWO_SIDED|95.0|0.723|1.188|||Wilcoxon-Gehan test statistic|P-value is from a Wilcoxon-Gehan test statistic controlling for smoking status and hemisphere of enrollment.|Hazard Ratio and corresponding 95% CI are based the Cox Regression Model including parameters for treatment, controlling for smoking status and hemisphere of enrollment.|||1.188|0.723|0.222
92181350|NCT00705406|184260788|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||van Elteren test|P-value for comparisons at all time points. P-value was based on the van Elteren test controlling for smoking status and hemisphere of enrollment.||||||>0.05
92181351|NCT00705406|184260789|SUPERIORITY_OR_OTHER|||||||0.421|TWO_SIDED||||||van Elteren test|P-value is based on van Elteren test controlling for smoking status and hemisphere of enrollment.||||||0.421
92181352|NCT00705406|184260790|SUPERIORITY_OR_OTHER|||||||0.885|TWO_SIDED||||||Wilcoxon-Gehan test statistic|P-values are from a Wilcoxon-Gehan test statistic controlling for smoking status and hemisphere of enrollment.||||||0.885
92181353|NCT00705406|184260791|SUPERIORITY_OR_OTHER|||||||0.306|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value is based on the Cochran-Mantel-Haenszel general association test controlling for smoking status and hemisphere of enrollment.||||||0.306
92181354|NCT00975585|184260807|NON_INFERIORITY_OR_EQUIVALENCE|Margin = 0.5|Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|97.46|-0.058|0.031|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis is adjusted for lens type, site, lens type by site interaction as fixed effects, subject and eye nested within subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses have non-inferior (less than or equal to) average corneal staining than lotrafilcon B after two weeks of wear.||0.031|-0.058|
92181355|NCT00975585|184260808|NON_INFERIORITY_OR_EQUIVALENCE|Margin = 0.25|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.005|||TWO_SIDED|97.46|-0.021|-0.01|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis adjusted for lens type, site, lens type by site interaction as fixed effects, subject and eye nested within subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses are non-inferior (less than or equal to)in visual acuity to lotrafilcon B contact lenses after two weeks of wear.||-0.010|-0.021|
92181356|NCT00975585|184260809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.402|STANDARD_ERROR_OF_MEAN|0.127|||TWO_SIDED|97.46|0.117|0.402|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis adjusted for lens type, site, lens type by site interaction as fixed effects, subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses have a higher rating of overall comfort than lotrafilcon B after two weeks of wear.||0.402|0.117|
92181357|NCT00975585|184260810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|97.46|-0.218|0.098|||Mixed Models Analysis||The mean difference is lotrafilcon B at 2 weeks minus lotrafilcon B at 4 weeks. Analysis adjusted for duration of wear, stie, duration of wear by site interaction as fixed effects, subject as random effects.|The alternative hypothesis is that lotrafilcon B contact lenses have a lower rating of overall comfort after 4 weeks of wear compared to after 2 weeks of wear.||0.098|-0.218|
92181358|NCT00975585|184260811|NON_INFERIORITY_OR_EQUIVALENCE|Margin = 0.5|Mean Difference (Final Values)|-0.123|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|98.2|-0.123|-0.051|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis adjusted for lens type, site, lens type by site interaction as fixed effects, subject and eye nested within subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses are non-inferior in limbal redness 5 to lotrafilcon B contact lenses after two weeks of wear.||-0.051|-0.123|
92181359|NCT00975585|184260812|NON_INFERIORITY_OR_EQUIVALENCE|Margin = 0.5|Mean Difference (Final Values)|-0.068|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|98.2|-0.068|0.008|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis adjusted for lens type, site, lens type by site interaction as fixed effects, subject and eye nested within subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses are non-inferior in bulbar redness to lotrafilcon B contact lenses after two weeks of wear.||0.008|-0.068|
92181360|NCT00975585|184260813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.411|STANDARD_ERROR_OF_MEAN|0.124|||TWO_SIDED|98.2|-0.411|-0.117|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis adjusted for lens type, site, lens type by stie interaction as fixed effects, subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses have less frequency of dryness than lotrafilcon B contact lenes after two weeks of wear.||-0.117|-0.411|
92181361|NCT00683800|184260816|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.89|||<|0.001|TWO_SIDED|95.0|-3.8|-1.98|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided).||-1.98|-3.80|<0.001
92265759|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.794|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.794
92265760|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.966|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.966
92265761|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.770
92181362|NCT00683800|184260817|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.79|||<|0.001|TWO_SIDED|95.0|-3.77|-1.82|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided).||-1.82|-3.77|<0.001
92181363|NCT00683800|184260818|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.28|||<|0.001|TWO_SIDED|95.0|-0.4|-0.16|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided).||-0.16|-0.40|<0.001
92181364|NCT00683800|184260819|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.44|-0.18|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided).||-0.18|-0.44|<0.001
92262388|NCT03091920|184426638|OTHER|No statistical testing was performed.|Least squares mean difference|-2.67|STANDARD_ERROR_OF_MEAN|1.89|||TWO_SIDED|95.0|-6.6|1.26|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||1.26|-6.60|
92262389|NCT03091920|184426638|OTHER|No statistical testing was performed.|Least squares mean difference|-1.84|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|-5.77|2.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||2.10|-5.77|
92262390|NCT03091920|184426638|OTHER|No statistical testing was performed.|Least squares mean difference|-2.25|STANDARD_ERROR_OF_MEAN|1.72|||TWO_SIDED|95.0|-5.83|1.32|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||1.32|-5.83|
92262391|NCT03091920|184426638|OTHER|No statistical testing was performed.|Least squares mean difference|-3.97|STANDARD_ERROR_OF_MEAN|2.66|||TWO_SIDED|95.0|-9.5|1.56|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||1.56|-9.50|
92262392|NCT03091920|184426638|OTHER|No statistical testing was performed.|Least squares mean difference|-4.17|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|95.0|-9.52|1.18|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||1.18|-9.52|
92265762|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.456|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.456
92265763|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.880
92265764|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.814|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.814
92265765|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.042
92265766|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.035
92265767|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.086|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.086
92181365|NCT00683800|184260820|SUPERIORITY_OR_OTHER||Wald Formula|-1.07|||||TWO_SIDED|90.0|-2.86|0.72|||||The 90% CI for excess risk was obtained using the Wald Formula.|Excess risk of DVS SR 100 mg over placebo per 1000 woman-years of exposure, defined as the difference in the exposure adjusted rates between the treatment groups, was obtained.||0.72|-2.86|
92181366|NCT00683800|184260821|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||The proportion of participants achieving a response as defined by minimal clinically important difference (MCID) at week 12 was compared between DVS and placebo treatment groups with a Cochran-Mantel-Haenszel test.||||<0.001
92181367|NCT00683800|184260822|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.47|||<|0.001|TWO_SIDED|95.0|2.24|5.36|||Regression, Logistic|||The proportion of participants achieving at least 50% hot flush reduction from baseline at 4-week was compared between DVS and placebo treatment groups with a logistic regression model with treatment as factor and baseline value as a covariate.||5.36|2.24|<0.001
92181368|NCT00683800|184260822|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.67|||<|0.001|TWO_SIDED|95.0|1.75|4.1|||Regression, Logistic|||The proportion of participants achieving at least 50% hot flush reduction from baseline at 12-week was compared between DVS and placebo treatment groups with a logistic regression model with treatment as factor and baseline value as a covariate.||4.10|1.75|<0.001
92262393|NCT03091920|184426638|OTHER|No statistical testing was performed.|Least squares mean difference|-4.07|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|-9.01|0.87|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||0.87|-9.01|
92262394|NCT03091920|184426639|OTHER|No statistical testing was performed.|Least squares mean difference|-3.4|STANDARD_ERROR_OF_MEAN|2.22|||TWO_SIDED|95.0|-8.01|1.21|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||1.21|-8.01|
92262395|NCT03091920|184426639|OTHER|No statistical testing was performed.|Least squares mean difference|-3.6|STANDARD_ERROR_OF_MEAN|2.23|||TWO_SIDED|95.0|-8.21|1.02|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||1.02|-8.21|
92262396|NCT03091920|184426639|OTHER|No statistical testing was performed.|Least squares mean difference|-3.3|STANDARD_ERROR_OF_MEAN|2.04|||TWO_SIDED|95.0|-7.53|0.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||0.92|-7.53|
92285354|NCT04239872|184475852|SUPERIORITY||Mean Difference (Net)|1.549|||<|0.0001|TWO_SIDED|95.0|1.081|2.017||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 14 pairs of data, DF=13|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||2.017|1.081|<0.0001
92262397|NCT03091920|184426639|OTHER|No statistical testing was performed.|Least squares mean difference|-2.01|STANDARD_ERROR_OF_MEAN|2.04|||TWO_SIDED|95.0|-6.24|2.23|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||2.23|-6.24|
92262398|NCT03091920|184426639|OTHER|No statistical testing was performed.|Least squares mean difference|-7.29|STANDARD_ERROR_OF_MEAN|2.65|||TWO_SIDED|95.0|-12.8|-1.79|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||-1.79|-12.80|
92262399|NCT03091920|184426639|OTHER|No statistical testing was performed.|Least squares mean difference|-5.1|STANDARD_ERROR_OF_MEAN|2.56|||TWO_SIDED|95.0|-10.43|0.23|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||0.23|-10.43|
92262400|NCT03091920|184426640|OTHER|No statistical testing was performed.|Least squares mean difference|0.99|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|-2.97|4.95|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||4.95|-2.97|
92262401|NCT03091920|184426640|OTHER|No statistical testing was performed.|Least squares mean difference|0.55|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|-3.41|4.52|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||4.52|-3.41|
92262402|NCT03091920|184426640|OTHER|No statistical testing was performed.|Least squares mean difference|-2.54|STANDARD_ERROR_OF_MEAN|2.46|||TWO_SIDED|95.0|-7.63|2.56|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||2.56|-7.63|
92262403|NCT03091920|184426640|OTHER|No statistical testing was performed.|Least squares mean difference|-2.26|STANDARD_ERROR_OF_MEAN|2.46|||TWO_SIDED|95.0|-7.36|2.85|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||2.85|-7.36|
92262404|NCT03091920|184426640|OTHER|No statistical testing was performed.|Least squares mean difference|-1.03|STANDARD_ERROR_OF_MEAN|3.13|||TWO_SIDED|95.0|-7.55|5.49|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||5.49|-7.55|
92262405|NCT03091920|184426640|OTHER|No statistical testing was performed.|Least squares mean difference|-3.68|STANDARD_ERROR_OF_MEAN|3.04|||TWO_SIDED|95.0|-10.0|2.65|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||2.65|-10.00|
92262406|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-2.58|STANDARD_ERROR_OF_MEAN|2.49|||TWO_SIDED|95.0|-7.76|2.59|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||2.59|-7.76|
92262407|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-4.06|STANDARD_ERROR_OF_MEAN|2.53|||TWO_SIDED|95.0|-9.32|1.19|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||1.19|-9.32|
92262408|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-3.86|STANDARD_ERROR_OF_MEAN|2.73|||TWO_SIDED|95.0|-9.51|1.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||1.80|-9.51|
92262409|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-4.73|STANDARD_ERROR_OF_MEAN|2.73|||TWO_SIDED|95.0|-10.4|0.93|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||0.93|-10.40|
92262410|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-5.1|STANDARD_ERROR_OF_MEAN|3.36|||TWO_SIDED|95.0|-12.06|1.86|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||1.86|-12.06|
92262411|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-2.96|STANDARD_ERROR_OF_MEAN|3.33|||TWO_SIDED|95.0|-9.87|3.96|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||3.96|-9.87|
92262412|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|0.87|STANDARD_ERROR_OF_MEAN|2.69|||TWO_SIDED|95.0|-4.7|6.45|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||6.45|-4.70|
92262413|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|0.55|STANDARD_ERROR_OF_MEAN|2.63|||TWO_SIDED|95.0|-4.9|6.01|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||6.01|-4.90|
92265768|NCT00634933|184433181|SUPERIORITY_OR_OTHER|||||||0.082|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.082
92285355|NCT04239872|184475853|SUPERIORITY||Mean Difference (Net)|-115.6||||0.5543|TWO_SIDED|95.0|-584.8|353.6||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 6 pairs of data, DF=5|Treatment difference = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups.||353.6|-584.8|0.5543
92262414|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-0.56|STANDARD_ERROR_OF_MEAN|3.21|||TWO_SIDED|95.0|-7.22|6.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||6.10|-7.22|
92262415|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-0.47|STANDARD_ERROR_OF_MEAN|3.28|||TWO_SIDED|95.0|-7.27|6.34|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||6.34|-7.27|
92262416|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|1.72|STANDARD_ERROR_OF_MEAN|2.4|||TWO_SIDED|95.0|-3.26|6.69|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||6.69|-3.26|
92262417|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|0.25|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|-4.69|5.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||5.20|-4.69|
92262418|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-4.43|STANDARD_ERROR_OF_MEAN|1.96|||TWO_SIDED|95.0|-8.5|-0.36|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||-0.36|-8.50|
92262419|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-4.17|STANDARD_ERROR_OF_MEAN|1.99|||TWO_SIDED|95.0|-8.3|-0.03|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||-0.03|-8.30|
92262420|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-3.39|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-9.82|3.04|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||3.04|-9.82|
92262421|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-1.06|STANDARD_ERROR_OF_MEAN|3.11|||TWO_SIDED|95.0|-7.51|5.38|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||5.38|-7.51|
92262422|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-2.82|STANDARD_ERROR_OF_MEAN|2.56|||TWO_SIDED|95.0|-8.12|2.48|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||2.48|-8.12|
92262423|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-1.36|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|95.0|-6.63|3.91|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||3.91|-6.63|
92262424|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-1.19|STANDARD_ERROR_OF_MEAN|2.97|||TWO_SIDED|95.0|-7.35|4.97|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||4.97|-7.35|
92262425|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-1.26|STANDARD_ERROR_OF_MEAN|2.91|||TWO_SIDED|95.0|-7.3|4.77|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||4.77|-7.30|
92262426|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-5.86|STANDARD_ERROR_OF_MEAN|3.29|||TWO_SIDED|95.0|-12.68|0.95|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||0.95|-12.68|
92262427|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-6.2|STANDARD_ERROR_OF_MEAN|3.36|||TWO_SIDED|95.0|-13.16|0.76|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||0.76|-13.16|
92262428|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-1.61|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|-7.87|4.65|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||4.65|-7.87|
92262429|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-0.63|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-6.85|5.59|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||5.59|-6.85|
92262430|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-6.91|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-12.74|-1.08|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||-1.08|-12.74|
92265769|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.325|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.325
92262431|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-4.04|STANDARD_ERROR_OF_MEAN|2.74|||TWO_SIDED|95.0|-9.73|1.66|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||1.66|-9.73|
92262432|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-8.25|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|95.0|-13.59|-2.91|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||-2.91|-13.59|
92262433|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-5.56|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-10.76|-0.35|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||-0.35|-10.76|
92262434|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-7.07|STANDARD_ERROR_OF_MEAN|3.91|||TWO_SIDED|95.0|-15.2|1.05|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||1.05|-15.20|
92262435|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-5.85|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-13.68|1.98|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||1.98|-13.68|
92262436|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-1.4|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-10.14|7.33|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||7.33|-10.14|
92262437|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-5.16|STANDARD_ERROR_OF_MEAN|3.99|||TWO_SIDED|95.0|-13.46|3.14|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||3.14|-13.46|
92262438|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-2.37|STANDARD_ERROR_OF_MEAN|3.74|||TWO_SIDED|95.0|-10.14|5.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||5.40|-10.14|
92262439|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-4.51|STANDARD_ERROR_OF_MEAN|3.72|||TWO_SIDED|95.0|-12.25|3.23|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||3.23|-12.25|
92262440|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-0.44|STANDARD_ERROR_OF_MEAN|3.44|||TWO_SIDED|95.0|-7.6|6.72|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||6.72|-7.60|
92262441|NCT03091920|184426641|OTHER|No statistical testing was performed.|Least squares mean difference|-1.98|STANDARD_ERROR_OF_MEAN|3.32|||TWO_SIDED|95.0|-8.88|4.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||4.92|-8.88|
92262442|NCT03091920|184426642|OTHER|No statistical testing was performed.|Least squares mean difference|3.19|STANDARD_ERROR_OF_MEAN|1.59|||TWO_SIDED|95.0|-0.1|6.48|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||6.48|-0.10|
92262443|NCT03091920|184426642|OTHER|No statistical testing was performed.|Least squares mean difference|3.53|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|95.0|0.25|6.82|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||6.82|0.25|
92262444|NCT03091920|184426642|OTHER|No statistical testing was performed.|Least squares mean difference|3.36|STANDARD_ERROR_OF_MEAN|1.43|||TWO_SIDED|95.0|0.4|6.32|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||6.32|0.40|
92262445|NCT03091920|184426642|OTHER|No statistical testing was performed.|Least squares mean difference|4.59|STANDARD_ERROR_OF_MEAN|1.76|||TWO_SIDED|95.0|0.95|8.23|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||8.23|0.95|
92262446|NCT03091920|184426642|OTHER|No statistical testing was performed.|Least squares mean difference|4.49|STANDARD_ERROR_OF_MEAN|1.75|||TWO_SIDED|95.0|0.86|8.12|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||8.12|0.86|
92262447|NCT03091920|184426642|OTHER|No statistical testing was performed.|Least squares mean difference|4.54|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|95.0|1.27|7.81|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||7.81|1.27|
92262448|NCT03091920|184426642|OTHER|No statistical testing was performed.|Least squares mean difference|2.58|STANDARD_ERROR_OF_MEAN|1.94|||TWO_SIDED|95.0|-1.45|6.61|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||6.61|-1.45|
92262449|NCT03091920|184426642|OTHER|No statistical testing was performed.|Least squares mean difference|3.17|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|-0.78|7.11|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||7.11|-0.78|
92265770|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.338|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.338
92181369|NCT00683800|184260823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.39|||<|0.001|TWO_SIDED|95.0|2.47|7.81|||Regression, Logistic|||The proportion of participants achieving at least 75% hot flush reduction from baseline at 4-week was compared between DVS and placebo treatment groups with a logistic regression model with treatment as factor and baseline value as a covariate.||7.81|2.47|<0.001
92181370|NCT00683800|184260823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.16|||<|0.001|TWO_SIDED|95.0|1.96|5.09|||Regression, Logistic|||The proportion of participants achieving at least 75% hot flush reduction from baseline at 12-week was compared between DVS and placebo treatment groups with a logistic regression model with treatment as factor and baseline value as a covariate.||5.09|1.96|<0.001
92181371|NCT00683800|184260824|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Log Rank|||A log-rank test was used to compare the treatment groups.||||<0.001
92181372|NCT00683800|184260825|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.04|||<|0.001|TWO_SIDED|95.0|-3.07|-1.0|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided). (At month 6)||-1.00|-3.07|<0.001
92181373|NCT00683800|184260825|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.81|||<|0.001|TWO_SIDED|95.0|-4.12|-1.51|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided). (At month 12)||-1.51|-4.12|<0.001
92181374|NCT00683800|184260826|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.31||||0.002|TWO_SIDED|95.0|-0.51|-0.12|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided). (At month 6)||-0.12|-0.51|0.002
92181375|NCT00683800|184260826|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.33||||0.003|TWO_SIDED|95.0|-0.54|-0.11|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided). (At month 12)||-0.11|-0.54|0.003
92181376|NCT00683800|184260827|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.34|||<|0.001|TWO_SIDED|95.0|-3.05|-1.64|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Total score was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-1.64|-3.05|<0.001
92181377|NCT00683800|184260827|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-0.99|-0.51|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Anxiety scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.51|-0.99|<0.001
92181378|NCT00683800|184260827|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.89|-0.45|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Depression scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.45|-0.89|<0.001
92181379|NCT00683800|184260827|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05||||0.162|TWO_SIDED|95.0|-0.13|0.02|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Sexual Dysfunction scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.02|-0.13|0.162
92181380|NCT00683800|184260827|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.42|||<|0.001|TWO_SIDED|95.0|-1.84|-1.0|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Psychological scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 was outcome variable, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-1.00|-1.84|<0.001
92262450|NCT03091920|184426642|OTHER|No statistical testing was performed.|Least squares mean difference|2.87|STANDARD_ERROR_OF_MEAN|1.72|||TWO_SIDED|95.0|-0.71|6.45|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||6.45|-0.71|
92265771|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.983|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.983
92182865|NCT02434328|184264727|OTHER||Difference in proportions|-4.9|||||TWO_SIDED|95.0|-11.6|1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||1.3|-11.6|
92262451|NCT03091920|184426643|OTHER|No statistical testing was performed.|Least squares mean difference|2.17|STANDARD_ERROR_OF_MEAN|2.32|||TWO_SIDED|95.0|-2.65|6.99|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||6.99|-2.65|
92262452|NCT03091920|184426643|OTHER|No statistical testing was performed.|Least squares mean difference|4.09|STANDARD_ERROR_OF_MEAN|2.33|||TWO_SIDED|95.0|-0.73|8.91|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||8.91|-0.73|
92265772|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.296|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.296
92181381|NCT00683800|184260827|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.22||||0.066|TWO_SIDED|95.0|-0.46|0.01|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Somatic scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.01|-0.46|0.066
92181382|NCT00683800|184260827|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.64|||<|0.001|TWO_SIDED|95.0|-0.79|-0.5|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Vasomotor scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.50|-0.79|<0.001
92181383|NCT00683800|184260828|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.87|||<|0.001|TWO_SIDED|95.0|-2.57|-1.18|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Total score was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-1.18|-2.57|<0.001
92181384|NCT00683800|184260828|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.65|||<|0.001|TWO_SIDED|95.0|-0.9|-0.41|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Anxiety scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.41|-0.90|<0.001
92262453|NCT03091920|184426643|OTHER|No statistical testing was performed.|Least squares mean difference|4.56|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|0.6|8.51|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||8.51|0.60|
92181385|NCT00683800|184260828|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.58|||<|0.001|TWO_SIDED|95.0|-0.8|-0.37|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Depression scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.37|-0.80|<0.001
92262454|NCT03091920|184426643|OTHER|No statistical testing was performed.|Least squares mean difference|4.02|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|0.07|7.98|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||7.98|0.07|
92181386|NCT00683800|184260828|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04||||0.282|TWO_SIDED|95.0|-0.13|0.04|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Sexual Dysfunction scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.04|-0.13|0.282
92182866|NCT02434328|184264727|OTHER||Difference in proportions|-4.7|||||TWO_SIDED|95.0|-11.5|1.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||1.9|-11.5|
92262455|NCT03091920|184426643|OTHER|No statistical testing was performed.|Least squares mean difference|3.12|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|-1.15|7.39|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||7.39|-1.15|
92262456|NCT03091920|184426643|OTHER|No statistical testing was performed.|Least squares mean difference|3.74|STANDARD_ERROR_OF_MEAN|2.01|||TWO_SIDED|95.0|-0.44|7.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||7.92|-0.44|
92262457|NCT03091920|184426644|OTHER|No statistical testing was performed.|Least squares mean difference|4.3|STANDARD_ERROR_OF_MEAN|1.54|||TWO_SIDED|95.0|1.1|7.49|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||7.49|1.10|
92262458|NCT03091920|184426644|OTHER|No statistical testing was performed.|Least squares mean difference|2.94|STANDARD_ERROR_OF_MEAN|1.53|||TWO_SIDED|95.0|-0.23|6.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||6.10|-0.23|
92181387|NCT00683800|184260828|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.24|||<|0.001|TWO_SIDED|95.0|-1.66|-0.82|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Psychological scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.82|-1.66|<0.001
92181388|NCT00683800|184260828|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.17||||0.14|TWO_SIDED|95.0|-0.41|0.06|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Somatic scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.06|-0.41|0.140
92181389|NCT00683800|184260828|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.41|||<|0.001|TWO_SIDED|95.0|-0.56|-0.26|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Vasomotor scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.26|-0.56|<0.001
92181390|NCT00683800|184260829|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.71|||<|0.001|TWO_SIDED|95.0|-2.42|-1.0|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Total score was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-1.00|-2.42|<0.001
92181391|NCT00683800|184260829|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.56|||<|0.001|TWO_SIDED|95.0|-0.81|-0.3|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Anxiety scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.30|-0.81|<0.001
92262459|NCT03091920|184426644|OTHER|No statistical testing was performed.|Least squares mean difference|4.8|STANDARD_ERROR_OF_MEAN|2.07|||TWO_SIDED|95.0|0.5|9.11|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||9.11|0.50|
92262460|NCT03091920|184426644|OTHER|No statistical testing was performed.|Least squares mean difference|5.1|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|0.84|9.36|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||9.36|0.84|
92262461|NCT03091920|184426644|OTHER|No statistical testing was performed.|Least squares mean difference|1.89|STANDARD_ERROR_OF_MEAN|2.32|||TWO_SIDED|95.0|-2.93|6.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||6.70|-2.93|
92265773|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.575|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.575
92265774|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||1.000
92265775|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.573|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.573
92265776|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.563|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.563
92265777|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.768|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.768
92181392|NCT00683800|184260829|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.62|||<|0.001|TWO_SIDED|95.0|-0.83|-0.4|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Depression scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.40|-0.83|<0.001
92181393|NCT00683800|184260829|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.08||||0.082|TWO_SIDED|95.0|-0.17|0.01|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Sexual Dysfunction scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.01|-0.17|0.082
92181394|NCT00683800|184260829|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.18|||<|0.001|TWO_SIDED|95.0|-1.61|-0.75|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Psychological scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.75|-1.61|<0.001
92181395|NCT00683800|184260829|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02||||0.865|TWO_SIDED|95.0|-0.25|0.21|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Somatic scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.21|-0.25|0.865
92181396|NCT00683800|184260829|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.45|||<|0.001|TWO_SIDED|95.0|-0.61|-0.29|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Vasomotor scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.29|-0.61|<0.001
92181397|NCT00683800|184260830|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92181398|NCT00683800|184260831|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92181399|NCT00683800|184260832|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92181400|NCT00683800|184260833|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92181401|NCT00683800|184260834|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92262462|NCT03091920|184426644|OTHER|No statistical testing was performed.|Least squares mean difference|2.55|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-2.15|7.25|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||7.25|-2.15|
92262463|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|6.81|STANDARD_ERROR_OF_MEAN|2.61|||TWO_SIDED|95.0|1.4|12.22|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||12.22|1.40|
92262464|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|6.55|STANDARD_ERROR_OF_MEAN|2.62|||TWO_SIDED|95.0|1.12|11.99|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||11.99|1.12|
92262465|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|-0.95|STANDARD_ERROR_OF_MEAN|3.49|||TWO_SIDED|95.0|-8.18|6.28|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||6.28|-8.18|
92262466|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|1.85|STANDARD_ERROR_OF_MEAN|3.49|||TWO_SIDED|95.0|-5.39|9.09|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||9.09|-5.39|
92262467|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|-0.38|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-5.98|5.23|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||5.23|-5.98|
92262468|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|3.1|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-2.5|8.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||8.70|-2.50|
92262469|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|6.46|STANDARD_ERROR_OF_MEAN|2.14|||TWO_SIDED|95.0|2.02|10.89|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||10.89|2.02|
92262470|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|5.57|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|95.0|1.19|9.95|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||9.95|1.19|
92181402|NCT00683800|184260835|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92181403|NCT00683800|184260836|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92262471|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|3.63|STANDARD_ERROR_OF_MEAN|1.59|||TWO_SIDED|95.0|0.34|6.91|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||6.91|0.34|
92262472|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|2.41|STANDARD_ERROR_OF_MEAN|1.57|||TWO_SIDED|95.0|-0.84|5.66|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||5.66|-0.84|
92181404|NCT00683800|184260837|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92181405|NCT00683800|184260838|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92181406|NCT00683800|184260839|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92181407|NCT00683800|184260840|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92181408|NCT00683800|184260841|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
92181409|NCT00683800|184260842|SUPERIORITY_OR_OTHER||Wald Formula|1.11|||||TWO_SIDED|90.0|-0.68|2.9|||||The 90% CI for excess risk is obtained using the Wald Formula.|Excess risk over placebo of DVS SR 100 mg per 1000 woman-years of exposure, defined as the difference in the exposure adjusted rates between the treatment groups, was obtained.||2.9|-0.68|
92181410|NCT00683800|184260844|SUPERIORITY_OR_OTHER||Wald Formula|2.31|||||TWO_SIDED|90.0|-2.08|6.71|||||The 90% CI for excess risk is obtained using the Wald Formula.|Excess risk over placebo of DVS SR 100 mg per 1000 woman-years of exposure, defined as the difference in the exposure adjusted rates between the treatment groups, was obtained.||6.71|-2.08|
92181411|NCT00683800|184260845|SUPERIORITY_OR_OTHER||Wald Formula|0.08|||||TWO_SIDED|90.0|-3.51|3.67|||||The 90% CI for excess risk is obtained using the Wald Formula.|Excess risk over placebo of DVS SR 100 mg per 1000 woman-years of exposure, defined as the difference in the exposure adjusted rates between the treatment groups, was obtained.||3.67|-3.51|
92181412|NCT03542305|184260883|OTHER||Ratio (%) of Adjusted Geometric Means|104.25|||||TWO_SIDED|90.0|79.73|136.31|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Mild renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||136.31|79.73|
92181413|NCT03542305|184260883|OTHER||Ratio (%) of Adjusted Geometric Means|118.75|||||TWO_SIDED|90.0|91.43|154.24|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Moderate renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||154.24|91.43|
92181414|NCT03542305|184260883|OTHER||Ratio (%) of Adjusted Geometric Means|141.14|||||TWO_SIDED|90.0|97.82|203.66|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Severe renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||203.66|97.82|
92181415|NCT03542305|184260884|OTHER||Ratio (%) of Adjusted Geometric Means|100.53|||||TWO_SIDED|90.0|66.48|152.02|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Mild renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||152.02|66.48|
92181416|NCT03542305|184260884|OTHER||Slope|88.87|||||TWO_SIDED|90.0|64.18|123.06|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Moderate renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||123.06|64.18|
92181417|NCT03542305|184260884|OTHER||Ratio (%) of Adjusted Geometric Means|92.32|||||TWO_SIDED|90.0|56.58|150.63|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Severe renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||150.63|56.58|
92181418|NCT01619059|184260895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.087|<|0.0001|TWO_SIDED|95.0|-0.52|-0.18||Tested at alpha=0.05|Mixed Models Analysis|||||-0.18|-0.52|<0.0001
92181419|NCT01619059|184260896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|4.576||0.2014|TWO_SIDED|95.0|-14.9|3.1||Secondary endpoints were tested at alpha=0.05, applying the hierarchical order for the sequential testing procedure|Mixed Models Analysis|||||3.1|-14.9|0.2014
92181420|NCT01619059|184260897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|3.713|||TWO_SIDED|95.0|-11.0|3.6||||||||3.6|-11.0|
92181421|NCT01619059|184260898|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.2|STANDARD_ERROR_OF_MEAN|4.504|||TWO_SIDED|95.0|3.4|21.0||||||||21.0|3.4|
92181422|NCT03170648|184260961|OTHER|||||||0.02||||||T2 (post) vs.T1(pre)|t-test, 2 sided|||||||0.02
92181423|NCT04241848|184260965|SUPERIORITY||||||=|0.007|||||||ANOVA|||Within-group comparison of Five Times Sit to Stand Test (5xSTS), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.007
92181424|NCT04241848|184260965|SUPERIORITY||||||=|0.24|||||||ANOVA|||Within-group comparison of Five Times Sit to Stand Test (5xSTS), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.240
92181425|NCT04241848|184260965|SUPERIORITY||||||=|0.04|||||||t-test, 2 sided|||Within-group comparison of Five Times Sit to Stand Test (5xSTS), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||=0.04
92181426|NCT04241848|184260968|SUPERIORITY|||||||0.129|||||||ANOVA|||Within-group comparison of Six Minute Walk Test (6MWT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.129
92181427|NCT04241848|184260968|SUPERIORITY|||||||0.25|||||||ANOVA|||Within-group comparison of Six Minute Walk Test (6MWT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.250
92181428|NCT04241848|184260968|SUPERIORITY||||||=|0.073|||||||t-test, 2 sided|||Within-group comparison of Six Minute Walk Test (6MWT), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||=0.073
92181429|NCT04241848|184260969|SUPERIORITY||||||=|0.091|||||||ANOVA|||Within-group comparison of Ten Meter Walk Test (10MWT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.091
92181430|NCT04241848|184260969|SUPERIORITY|||||||0.296|||||||ANOVA|||Within-group comparison of Ten Meter Walk Test (10MWT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.296
92181431|NCT04241848|184260969|SUPERIORITY|||||||0.427|||||||t-test, 2 sided|||Within-group comparison of Ten Meter Walk Test (10MWT), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||0.427
92181432|NCT04241848|184260970|SUPERIORITY|||||||0.063|||||||ANOVA|||Within-group comparison of Timed Up and Go (TUG) Test, from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.063
92181433|NCT04241848|184260970|SUPERIORITY|||||||0.447|||||||ANOVA|||Within-group comparison of Timed Up and Go (TUG) Test, from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.447
92181434|NCT04241848|184260970|SUPERIORITY|||||||0.096|||||||t-test, 2 sided|||Within-group comparison of Timed Up and Go (TUG) Test, from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||0.096
92287120|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.039||||0.187|TWO_SIDED|95.0|-0.019|0.097|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.097|-0.019|0.187
92181435|NCT04241848|184260971|SUPERIORITY|||||||0.035|||||||ANOVA|||Within-group comparison of Step Length of Paretic (Pa) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.035
92181436|NCT04241848|184260971|SUPERIORITY||||||=|0.677|||||||ANOVA|||Within-group comparison of Step Length of Paretic (Pa) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.677
92181437|NCT04241848|184260971|SUPERIORITY||||||=|0.022|||||||t-test, 2 sided|||Within-group comparison of Step Length of Paretic (Pa) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||=0.022
92262473|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|1.74|STANDARD_ERROR_OF_MEAN|2.23|||TWO_SIDED|95.0|-2.89|6.36|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||6.36|-2.89|
92262474|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|0.33|STANDARD_ERROR_OF_MEAN|2.25|||TWO_SIDED|95.0|-4.33|4.99|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||4.99|-4.33|
92262475|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|4.36|STANDARD_ERROR_OF_MEAN|2.66|||TWO_SIDED|95.0|-1.17|9.88|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||9.88|-1.17|
92262476|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|5.41|STANDARD_ERROR_OF_MEAN|2.68|||TWO_SIDED|95.0|-0.14|10.96|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||10.96|-0.14|
92262477|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|4.88|STANDARD_ERROR_OF_MEAN|2.18|||TWO_SIDED|95.0|0.36|9.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||9.40|0.36|
92262478|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|4.3|STANDARD_ERROR_OF_MEAN|2.18|||TWO_SIDED|95.0|-0.22|8.83|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||8.83|-0.22|
92262479|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|4.04|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-0.65|8.72|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||8.72|-0.65|
92262480|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|2.26|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-2.42|6.94|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||6.94|-2.42|
92262481|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|6.9|STANDARD_ERROR_OF_MEAN|2.41|||TWO_SIDED|95.0|1.91|11.89|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||11.89|1.91|
92262482|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|6.15|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|1.22|11.08|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||11.08|1.22|
92262483|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|4.99|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|0.05|9.93|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||9.93|0.05|
92262484|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|5.34|STANDARD_ERROR_OF_MEAN|2.36|||TWO_SIDED|95.0|0.45|10.22|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||10.22|0.45|
92262485|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|1.67|STANDARD_ERROR_OF_MEAN|2.33|||TWO_SIDED|95.0|-3.17|6.52|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||6.52|-3.17|
92262486|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|4.03|STANDARD_ERROR_OF_MEAN|2.36|||TWO_SIDED|95.0|-0.86|8.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||8.92|-0.86|
92262487|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|4.05|STANDARD_ERROR_OF_MEAN|2.51|||TWO_SIDED|95.0|-1.18|9.27|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||9.27|-1.18|
92262488|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|3.76|STANDARD_ERROR_OF_MEAN|2.47|||TWO_SIDED|95.0|-1.38|8.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||8.90|-1.38|
92181438|NCT04241848|184260972|SUPERIORITY||||||=|0.098|||||||ANOVA|||Within-group comparison of Step lengths of the non-paretic (NP) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.098
92262489|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|5.18|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|-1.7|12.06|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||12.06|-1.70|
92262490|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|5.61|STANDARD_ERROR_OF_MEAN|3.25|||TWO_SIDED|95.0|-1.14|12.37|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||12.37|-1.14|
92262491|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|-0.21|STANDARD_ERROR_OF_MEAN|2.47|||TWO_SIDED|95.0|-5.35|4.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||4.92|-5.35|
92262492|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|1.61|STANDARD_ERROR_OF_MEAN|2.42|||TWO_SIDED|95.0|-3.42|6.65|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||6.65|-3.42|
92265778|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.977|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.977
92265779|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.249|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.249
92181439|NCT04241848|184260972|SUPERIORITY|||||||0.666|||||||ANOVA|||Within-group comparison of Step lengths of the non-paretic (NP) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.666
92181440|NCT04241848|184260972|SUPERIORITY||||||=|0.007|||||||t-test, 2 sided|||Within-group comparison of Step lengths of the non-paretic (NP) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||=0.007
92181441|NCT04241848|184260973|SUPERIORITY||||||=|0.001|||||||ANOVA|||Within-group comparison of the Stair Climb Power Test (SCPT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.001
92181442|NCT04241848|184260973|SUPERIORITY||||||=|0.009|||||||ANOVA|||Within-group comparison of the Stair Climb Power Test (SCPT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.009
92181443|NCT04241848|184260973|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||Within-group comparison of the Stair Climb Power Test (SCPT), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||0.018
92181444|NCT02962102|184261051|SUPERIORITY|||||||0.52|||||||Fisher Exact|||||||0.52
92181445|NCT02962102|184261051|SUPERIORITY|||||||0.58|||||||Fisher Exact|||||||0.58
92181446|NCT02962102|184261052|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.20
92181447|NCT02962102|184261052|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.20
92181448|NCT02962102|184261053|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
92181449|NCT02962102|184261053|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
92181450|NCT03414684|184261070|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.88|TWO_SIDED|95.0|0.49|1.84|||Log Rank|stratified log rank test|Reference level is Arm B, such that hazard ratio corresponds to the effect of treatment on Arm A|||1.84|0.49|0.88
92181451|NCT03414684|184261071|SUPERIORITY||Odds Ratio (OR)|1.09||||1|TWO_SIDED|95.0|0.29|4.18|||Fisher Exact||Reference level is Arm B, such that the odds ratio corresponds to the effect of treatment on Arm A|||4.18|0.29|1
92262493|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|5.08|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|-1.19|11.36|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||11.36|-1.19|
92262494|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|5.3|STANDARD_ERROR_OF_MEAN|2.94|||TWO_SIDED|95.0|-0.83|11.42|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||11.42|-0.83|
92262495|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|1.3|STANDARD_ERROR_OF_MEAN|2.56|||TWO_SIDED|95.0|-4.02|6.63|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||6.63|-4.02|
92262496|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|2.93|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-2.26|8.12|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||8.12|-2.26|
92262497|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|-1.34|STANDARD_ERROR_OF_MEAN|2.98|||TWO_SIDED|95.0|-7.52|4.85|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||4.85|-7.52|
92262498|NCT03091920|184426645|OTHER|No statistical testing was performed.|Least squares mean difference|-1.14|STANDARD_ERROR_OF_MEAN|2.94|||TWO_SIDED|95.0|-7.25|4.98|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||4.98|-7.25|
92262499|NCT03091920|184426646|OTHER|No statistical testing was performed.|Least squares mean difference|-0.288|STANDARD_ERROR_OF_MEAN|0.274|||TWO_SIDED|95.0|-0.857|0.282|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|||0.282|-0.857|
92181452|NCT03414684|184261073|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.49|TWO_SIDED|95.0|0.43|1.5|||Log Rank|stratified log rank test|Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||1.50|0.43|0.49
92181453|NCT03414684|184261074|SUPERIORITY||Odds Ratio (OR)|1.05||||1|TWO_SIDED|95.0|0.32|3.43|||Fisher Exact||Reference level is Arm B, such that the odds ratio corresponds to treatment on Arm A|||3.43|0.32|1
92262500|NCT03091920|184426646|OTHER|No statistical testing was performed.|Least squares mean difference|-0.105|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|95.0|-0.708|0.498|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|||0.498|-0.708|
92181454|NCT03414684|184261075|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.36|TWO_SIDED|95.0|0.13|2.12|||Log Rank||Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||2.12|0.13|0.36
92181455|NCT03414684|184261076|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.68|TWO_SIDED|95.0|0.43|3.43|||Log Rank||Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||3.43|0.43|0.68
92181456|NCT03414684|184261077|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.27|TWO_SIDED|95.0|0.18|1.62|||Log Rank|stratified log rank test|Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||1.62|0.18|0.27
92181457|NCT03414684|184261078|SUPERIORITY||Odds Ratio (OR)|0.81||||1|TWO_SIDED|95.0|0.08|7.78|||Fisher Exact||Reference level is Arm B, such that the odds ratio corresponds to treatment on Arm A|||7.78|0.08|1
92181458|NCT03414684|184261080|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.61|TWO_SIDED|95.0|0.26|2.16|||Log Rank|stratified log rank test|Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||2.16|0.26|0.61
92287121|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.062||||0.028|TWO_SIDED|95.0|0.007|0.116|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.116|0.007|0.028
92181459|NCT03414684|184261081|SUPERIORITY||Odds Ratio (OR)|0.79||||1|TWO_SIDED|95.0|0.1|5.93|||Fisher Exact||Reference level is Arm B, such that the odds ratio corresponds to treatment on Arm A|||5.93|0.10|1
92181460|NCT03414684|184261083|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.73|TWO_SIDED|95.0|0.14|3.89|||Log Rank||Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||3.89|0.14|0.73
92285356|NCT04239872|184475854|SUPERIORITY||Mean Difference (Net)|1.328||||0.0003|TWO_SIDED|95.0|0.842|1.814||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 8 pairs of data, DF=7|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.814|0.8420|0.0003
92181461|NCT04038580|184261098|SUPERIORITY|||||||0.553||||||Statistical significance was set a-priori at p\<0.05|ANOVA|||The null hypothesis was that all sockets would have the same SCS||||0.553
92285357|NCT04239872|184475855|SUPERIORITY||Mean Difference (Net)|-0.09023||||0.2824|TWO_SIDED|95.0|-0.2613|0.08082||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 19 pairs of data, DF=18|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.08082|-0.2613|0.2824
92285358|NCT04239872|184475856|SUPERIORITY||Mean Difference (Net)|0.6269||||0.0002|TWO_SIDED|95.0|0.3488|0.905||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 17 pairs of data, DF=16|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.9050|0.3488|0.0002
92285359|NCT04239872|184475857|SUPERIORITY||Mean Difference (Net)|0.8946|||<|0.0001|TWO_SIDED|95.0|0.6671|1.122||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 17 pairs of data, DF=16|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.122|0.6671|<0.0001
92285360|NCT04239872|184475858|SUPERIORITY||Mean Difference (Net)|0.973|||<|0.0001|TWO_SIDED|95.0|0.7597|1.186||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 18 pairs of data, DF=17|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.186|0.7597|<0.0001
92181462|NCT04038580|184261099|SUPERIORITY|Frustration sub-scale||||||0.536|||||||ANOVA|||The null hypothesis was that all sockets would be the same||||0.536
92287122|NCT03086460|184479321|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.406|TWO_SIDED|95.0|-0.031|0.076|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.076|-0.031|0.406
92181463|NCT04038580|184261099|SUPERIORITY|Perceived Response||||||0.598|||||||ANOVA|||||||0.598
92181464|NCT04038580|184261099|SUPERIORITY|Social Burden||||||0.072|||||||ANOVA|||||||0.072
92181465|NCT04038580|184261099|SUPERIORITY|Ambulation Sub-scale||||||0.018|||||||ANOVA|||||||0.018
92181466|NCT04038580|184261099|SUPERIORITY|Prosthesis Utility||||||0.037|||||||ANOVA|||||||0.037
92181467|NCT04038580|184261099|SUPERIORITY|Residual Limb Health||||||0.254|||||||ANOVA|||||||0.254
92181468|NCT04038580|184261099|SUPERIORITY|Appearance||||||0.032|||||||ANOVA|||||||0.032
92181469|NCT04038580|184261099|SUPERIORITY|Sounds||||||0.352|||||||ANOVA|||||||0.352
92181470|NCT04038580|184261099|SUPERIORITY|Well-being||||||0.077|||||||ANOVA|||||||.077
92181471|NCT04038580|184261100|SUPERIORITY|||||||0.95|||||||ANOVA|general linear model with socket as fixed factor and participant as random factor||||||0.95
92181472|NCT04038580|184261101|SUPERIORITY|||||||0.853|||||||ANOVA|general linear model with sockets as fixed effect and subjects as random effect||||||.853
92181473|NCT04038580|184261102|SUPERIORITY|||||||0.565|||||||ANOVA|general linear model with socket as a fixed factor and subjects as a random factor||||||0.565
92181474|NCT04038580|184261104|SUPERIORITY|||||||0.374|||||||ANOVA|general linear model with socket as fixed factor and subjects as random factor||||||.374
92181475|NCT04038580|184261106|SUPERIORITY|||||||0.574|||||||ANOVA|general linear model with socket as a fixed factor and subjects as a random factor||||||.574
92181476|NCT01855750|184261139|SUPERIORITY||Hazard Ratio (HR)|0.922||||0.5167|TWO_SIDED|95.0|0.72|1.18|||Log Rank|||||1.180|0.720|0.5167
92181477|NCT01855750|184261140|SUPERIORITY||Hazard Ratio (HR)|0.949||||0.7311|TWO_SIDED|95.0|0.704|1.279|||Log Rank|||||1.279|0.704|0.7311
92181478|NCT01855750|184261141|SUPERIORITY||Hazard Ratio (HR)|0.917||||0.5027|TWO_SIDED|95.0|0.71|1.183|||Log Rank|||||1.183|0.710|0.5027
92181479|NCT01855750|184261142|SUPERIORITY||Odds Ratio (OR)|0.967||||0.8229|TWO_SIDED|95.0|0.722|1.296|||Cochran-Mantel-Haenszel (CMH) Chi-square|||||1.296|0.722|0.8229
92181480|NCT01855750|184261143|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8549|TWO_SIDED|95.0|0.754|1.407|||Log Rank|||||1.407|0.754|0.8549
92181481|NCT01855750|184261144|SUPERIORITY||Hazard Ratio (HR)|1.358||||0.0021|TWO_SIDED|95.0|1.115|1.654|||Log Rank|||||1.654|1.115|0.0021
92181482|NCT03160885|184261194|SUPERIORITY|Primary endpoints tested sequentially at a 5% significance level.|Risk Difference (RD)|11.1|||<|0.001|TWO_SIDED|95.0|5.8|16.4||Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.|Cochran-Mantel-Haenszel|Primary endpoints tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.The null hypothesis of no difference in response rates between tralokinumab and placebo were tested against the 2-sided alternative that there is a difference.||16.4|5.8|<0.001
92181483|NCT03160885|184261195|SUPERIORITY|Primary endpoints tested sequentially at a 5% significance level.|Risk Difference (RD)|21.6|||<|0.001|TWO_SIDED|95.0|15.8|27.3||Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.|Cochran-Mantel-Haenszel|Primary endpoints tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.The null hypothesis of no difference in response rates between tralokinumab and placebo were tested against the 2-sided alternative that there is a difference.||27.3|15.8|<0.001
92181484|NCT03160885|184261196|SUPERIORITY||Risk Difference (RD)|15.6|||<|0.001|TWO_SIDED|95.0|10.3|20.9||Based on the primary analysis of the primary estimand 'Composite', subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders'.|Cochran-Mantel-Haenszel|Tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Reduction of Worst Daily Pruritus NRS weekly average ≥4 at Week 16 was tested after the sequential testing of IGA 0/1 and EASI75 if these tests showed statistical significance||20.9|10.3|<0.001
92181485|NCT03160885|184261197|SUPERIORITY|Multiplicity adjustment using the Holm method.|Difference of least square means|-14.0|||<|0.001|TWO_SIDED|95.0|-18.0|-10.1||Based on the primary analysis of the primary estimand 'hypothetical'. Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included.||-10.1|-18.0|<0.001
92181486|NCT03160885|184261198|SUPERIORITY|Multiplicity adjustment using Holm method.|Difference of least square means|-3.9|||<|0.001|TWO_SIDED|95.0|-5.2|-2.6||Based on the primary analysis of the primary estimand 'hypothetical'. Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included.||-2.6|-5.2|<0.001
92262501|NCT03091920|184426646|OTHER|No statistical testing was performed.|Least squares mean difference|-0.196|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|95.0|-0.727|0.335|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|||0.335|-0.727|
92265780|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.268|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.268
92181487|NCT03160885|184261199|SUPERIORITY||Risk Difference (RD)|34.1||||0.004|TWO_SIDED|95.0|13.4|54.9||Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo"||54.9|13.4|0.004
92262502|NCT03091920|184426651|OTHER|No statistical testing was performed.|Least squares mean difference|-23.188|STANDARD_ERROR_OF_MEAN|27.97|||TWO_SIDED|95.0|-84.13|37.753|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 8||37.753|-84.130|
92262503|NCT03091920|184426651|OTHER|No statistical testing was performed.|Least squares mean difference|-14.033|STANDARD_ERROR_OF_MEAN|26.092|||TWO_SIDED|95.0|-70.883|42.817|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 8||42.817|-70.883|
92262504|NCT03091920|184426651|OTHER|No statistical testing was performed.|Least squares mean difference|-18.611|STANDARD_ERROR_OF_MEAN|24.138|||TWO_SIDED|95.0|-71.204|33.982|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 8||33.982|-71.204|
92262505|NCT03091920|184426651|OTHER|No statistical testing was performed.|Least squares mean difference|-25.389|STANDARD_ERROR_OF_MEAN|16.885|||TWO_SIDED|95.0|-62.551|11.774|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 15||11.774|-62.551|
92262506|NCT03091920|184426651|OTHER|No statistical testing was performed.|Least squares mean difference|-21.176|STANDARD_ERROR_OF_MEAN|16.221|||TWO_SIDED|95.0|-56.879|14.527|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 15||14.527|-56.879|
92262507|NCT03091920|184426651|OTHER|No statistical testing was performed.|Least squares mean difference|-23.282|STANDARD_ERROR_OF_MEAN|14.691|||TWO_SIDED|95.0|-55.618|9.053|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 15||9.053|-55.618|
92262508|NCT00453349|184426670|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was set to 15% in the protocol. Sample size was estimated using the method as described in Farrington-Manning (STATISTICS IN MEDICINE, Vol. 9; Farrington CP, Manning G: Test statistics and sample size formulae for comparative binomial trials with null hypothesis of non-zero risk difference..., pg.1447-1454 \[1990\]). Estimation was performed to achieve 90% power, based on the equivalence delta of 15%, and a clinical success rate of 87% in the per protocol population"|Mean Difference (Final Values)|-3.2||||||95.0|-10.7|4.9|||||Mean difference denotes the difference of clinical cure rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||4.9|-10.7|
92262509|NCT00453349|184426671|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-1.9||||||95.0|-9.9|6.0|||||Mean difference denotes the difference of clinical cure rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||6.0|-9.9|
92262510|NCT00453349|184426672|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-3.2||||||95.0|-7.4|0.8|||||Mean difference denotes the difference of clinical improvement rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||0.8|-7.4|
92262511|NCT00453349|184426673|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-0.1||||||95.0|-8.1|7.5|||||Mean difference denotes the difference of clinical improvement rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||7.5|-8.1|
92285361|NCT04239872|184475859|SUPERIORITY||Mean Difference (Net)|0.9827|||<|0.0001|TWO_SIDED|95.0|0.7758|1.19||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 18 pairs of data, DF=17|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.19|0.7758|<0.0001
92287123|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.173|||<|0.001|TWO_SIDED|95.0|0.116|0.23|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.230|0.116|<0.001
92181488|NCT03160885|184261199|SUPERIORITY||Risk Difference (RD)|19.9||||0.084|TWO_SIDED|95.0|-1.2|40.9||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.~P value was considered non-significant"|Cochran-Mantel-Haenszel|This test was not statistically significant and hence next maintenance endpoint in the sequential testing procedure was not evaluated|Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo"||40.9|-1.2|0.084
92262512|NCT00453349|184426674|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|5.4||||||95.0|-12.7|20.3|||||Mean difference denotes the difference of eradication rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||20.3|-12.7|
92265781|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.089|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.089
92262513|NCT00453349|184426675|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|4.3||||||95.0|-19.4|17.6|||||Mean difference denotes the difference of eradication rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||17.6|-19.4|
92262514|NCT00453349|184426676|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-2.5||||||95.0|-8.6|4.9|||||Mean difference denotes the difference of clinical cure rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||4.9|-8.6|
92262515|NCT00453349|184426677|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-0.1||||||95.0|-8.1|7.5|||||Mean difference denotes the difference of clinical cure rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||7.5|-8.1|
92265782|NCT00634933|184433182|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.079
92265783|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.106|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.106
92181489|NCT03160885|184261200|SUPERIORITY||Risk Difference (RD)|33.7|||<|0.001|TWO_SIDED|95.0|17.3|50.0||Based on the primary analysis of the primary estimand 'composite'. Subjects who received rescue medication or were transferred to open-label treatment are considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo"||50.0|17.3|<0.001
92181490|NCT03160885|184261200|SUPERIORITY||Risk Difference (RD)|30.0||||0.001|TWO_SIDED|95.0|13.7|46.4||Test not evaluated for statistical significance. Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo"||46.4|13.7|0.001
92181491|NCT03160885|184261203|SUPERIORITY||Risk Difference (RD)|29.3|||<|0.001|TWO_SIDED|95.0|22.5|36.1||"Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|||36.1|22.5|<0.001
92181492|NCT03160885|184261204|SUPERIORITY||Risk Difference (RD)|12.7|||<|0.001|TWO_SIDED|95.0|8.3|17.0||"Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|||17.0|8.3|<0.001
92181493|NCT03160885|184261205|SUPERIORITY||Difference of least square means|-9.9|||<|0.001|TWO_SIDED|95.0|-12.2|-7.5||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change will be imputed as 0.||-7.5|-12.2|<0.001
92181494|NCT03160885|184261206|SUPERIORITY||Risk Difference (RD)|8.0|||<|0.001|TWO_SIDED|95.0|4.4|11.6||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication prior to Week 16 or with missing data at Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||11.6|4.4|<0.001
92181495|NCT03160885|184261207|SUPERIORITY||Risk Difference (RD)|18.9|||<|0.001|TWO_SIDED|95.0|12.8|25.1||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication prior to Week 16 or with missing data at Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference stratified by region and disease severity.|||25.1|12.8|<0.001
92181496|NCT03160885|184261208|SUPERIORITY||Difference of least square means|-1.3|||<|0.001|TWO_SIDED|95.0|-1.7|-0.8||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included. In case of no post-baseline assessments before initiation of rescue medication, the Week 1 change will be imputed as 0.||-0.8|-1.7|<0.001
92181497|NCT03160885|184261209|SUPERIORITY||Risk Difference (RD)|20.1|||<|0.001|TWO_SIDED|95.0|13.9|26.2||"Subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||26.2|13.9|<0.001
92181498|NCT03160885|184261210|SUPERIORITY||Risk Difference (RD)|28.9|||<|0.001|TWO_SIDED|95.0|21.4|36.3||"Subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||36.3|21.4|<0.001
92181499|NCT03835754|184261215|OTHER|Confidence internal is 88.8%, upper bound limit 99.2%|Clopper Pearson exact confidence interva|96.0|||||TWO_SIDED|95.0|88.8|99.2||||||||99.2|88.8|
92182867|NCT02434328|184264727|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-11.3|1.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||1.8|-11.3|
92181500|NCT01728324|184261267|SUPERIORITY_OR_OTHER||Adjusted response rate|81.1|||<|0.0001|TWO_SIDED|95.0|76.34|85.87|||z-test|A stratified one sample z-test with 50% reference for PegIFN-ineligible and 71% for PegIFN-eligible patients was performed.|The adjusted response rate was tested against the historical control SVR rate of 68% (95% Confidence Interval (CI): 76.3, 85.9).|The proportion of patients achieving SVR12 achieved with 24 weeks of treatment with DBV/FDV/RBV in cirrhotic and non-cirrhotic patients was compared to an acceptable minimum SVR rate achieved with an approved direct acting anti-viral (DAA) in combination with PegIFN from historical data. The acceptable minimum SVR rate was an average of 71% (reference for PegIFN-eligible) and 50% (for PegIFN-ineligible patients), weighted by the sample size in each stratum.||85.87|76.34|<0.0001
92262516|NCT00453349|184426678|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-7.9||||||95.0|-24.9|15.9|||||Mean difference denotes the difference of eradication rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||15.9|-24.9|
92262517|NCT00453349|184426679|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|3.7||||||95.0|-30.5|11.9|||||Mean difference denotes the difference of eradication rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||11.9|-30.5|
92262518|NCT00149227|184426723|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8|STANDARD_DEVIATION|2.0|<|0.05|TWO_SIDED|95.0|-0.975|0.975|||Cox's proportional hazard analysis|||"We estimated the number of enrolled patients to validate the hypothesis under the assumption that the valsartan add-on group achieves a 20% risk reduction compared with the conventional treatment group and gives 80% statistical power for detecting a clinical signiﬁcance with a two-tailed 5% statistical signiﬁcant level.~with a two-tailed 5% statistical signiﬁcant level."||0.975|-0.975|<0.05
92262519|NCT02978339|184426737|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||.03
92262520|NCT02978339|184426738|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
92262521|NCT02978339|184426739|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|||||||0.91
92262522|NCT02978339|184426740|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
92262523|NCT02978339|184426741|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||.15
92262524|NCT02978339|184426742|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||.06
92262525|NCT02978339|184426743|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||.93
92262526|NCT00195702|184426757|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||The 3 primary efficacy variables were considered in a hierarchical order, with the ACR20 response tested first. The ACR20 response rate at Week 24 was initially assessed using Pearson's chi-squared test at a significance level of 0.05. If significant, pairwise comparisons between each adalimumab dose group and the placebo group were performed.||||<0.001
92262527|NCT00195702|184426757|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||The 3 primary efficacy variables were considered in a hierarchical order, with the ACR20 response tested first. The ACR20 response rate at Week 24 was initially assessed using Pearson's chi-squared test at a significance level of 0.05. If significant, pairwise comparisons between each adalimumab dose group and the placebo group were performed.||||<0.001
92262528|NCT00195702|184426758|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||An ANCOVA model with baseline erosion scores as the covariate was performed. An overall significance test at alpha =0.05 was done. Pairwise comparisons, each at alpha =0.05 (2-sided), were performed if the overall test was significant.|ANCOVA|||The 3 primary efficacy variables were considered in a hierarchical order, with the change in modified total Sharp x-ray score at Week 52 tested second. Normality was evaluated by applying the Shapiro-Wilk test procedure to the residuals from the parametric model. The final analysis was performed following a non-parametric approach, ranking the results prior to fitting the model.||||<0.001
92262529|NCT00195702|184426758|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||An ANCOVA model with baseline erosion scores as the covariate was performed. An overall significance test at alpha =0.05 was done. Pairwise comparisons, each at alpha =0.05 (2-sided), were performed if the overall test was significant.|ANCOVA|||The 3 primary efficacy variables were considered in a hierarchical order, with the change in modified total Sharp x-ray score at Week 52 tested second. Normality was evaluated by applying the Shapiro-Wilk test procedure to the residuals from the parametric model. The final analysis was performed following a non-parametric approach, ranking the results prior to fitting the model.||||<0.001
92262530|NCT00195702|184426759|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92262531|NCT00195702|184426759|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92262532|NCT00195702|184426760|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|||||||<0.01
92262533|NCT00195702|184426760|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92262534|NCT00195702|184426761|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92262535|NCT00195702|184426761|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92262536|NCT00195702|184426762|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Normality was evaluated by applying the Shapiro-Wilk test to residuals from the parametric model. The final analysis was performed using a parametric approach.|ANCOVA|||The 3 primary efficacy variables were considered in a hierarchical order, with the change from baseline in the HAQ at Week 52 tested last. The difference among all treatment groups was assessed using ANCOVA with the baseline value as the covariate. If this was significant (p\<=0.05), pairwise comparisons between each adalimumab dose group and placebo were evaluated using the same method.||||<0.001
92262537|NCT00195702|184426762|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Normality was evaluated by applying the Shapiro-Wilk test to residuals from the parametric model. The final analysis was performed using a parametric approach.|ANCOVA|||The 3 primary efficacy variables were considered in a hierarchical order, with the change from baseline in the HAQ at Week 52 tested last. The difference among all treatment groups was assessed using ANCOVA with the baseline value as the covariate. If this was significant (p\<=0.05), pairwise comparisons between each adalimumab dose group and placebo were evaluated using the same method.||||<0.001
92262538|NCT00195702|184426763|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92262539|NCT00195702|184426763|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92262540|NCT00195702|184426765|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92262541|NCT00195702|184426765|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92262542|NCT00195702|184426769|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92262543|NCT00195702|184426769|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92262544|NCT00965458|184427052|SUPERIORITY_OR_OTHER|||||||0.065|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline ln(AUC+1) as a covariate and change in ln(AUC+1) from baseline as the outcome variable.|ANCOVA|||Primary imputation method used for missing Month 12 AUC. Measuring range for C-peptide is 0.05-30 ng/mL.||||0.065
92262545|NCT00965458|184427053|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome|ANCOVA|||Primary imputation method used for missing Week 52 AUC. Measuring range for C-peptide is 0.05-30 ng/mL||||0.019
92265784|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.322|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.322
92265785|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.059|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4 Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.059
92265786|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.250
92265787|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.255|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.255
92181501|NCT01728324|184261267|SUPERIORITY_OR_OTHER||Adjusted response rate|75.89||||0.002|TWO_SIDED|95.0|70.63|81.14|||z-test|A stratified one sample z-test with 50% reference for PegIFN-ineligible and 71% for PegIFN-eligible patients was performed.||The proportion of patients achieving SVR12 achieved with 16 weeks of treatment of non-cirrhotic and 24 weeks of treatment of cirrhotic patients was compared to an acceptable minimum SVR rate achieved with an approved direct acting anti-viral (DAA) in combination with PegIFN from historical data. The acceptable minimum SVR rate was an average of 71% (reference for PegIFN-eligible) and 50% (for PegIFN-ineligible patients), weighted by the sample size in each stratum.||81.14|70.63|0.0020
92285362|NCT04239872|184475860|SUPERIORITY||Mean Difference (Net)|0.9181|||<|0.0001|TWO_SIDED|95.0|0.6573|1.179||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 19 pairs of data, DF=18|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.179|0.6573|<0.0001
92285363|NCT04239872|184475865|SUPERIORITY||Mean Difference (Net)|-0.05652||||0.3283|TWO_SIDED|95.0|-0.1762|0.06829||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 15 pairs of data, DF=14|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.06829|-0.1762|0.3283
92285364|NCT04239872|184475866|SUPERIORITY||Mean Difference (Net)|0.3411||||0.0058|TWO_SIDED|95.0|0.1189|0.5633||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 13 pairs of data, DF=12|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.5633|0.1189|0.0058
92285365|NCT04239872|184475867|SUPERIORITY||Mean Difference (Net)|0.2976||||0.0213|TWO_SIDED|95.0|0.05266|0.5426||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 13 pairs of data, DF=12|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.5426|0.05266|0.0213
92285366|NCT04239872|184475868|SUPERIORITY||Mean Difference (Net)|0.312||||0.014|TWO_SIDED|95.0|0.07454|0.5495||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 14 pairs of data, DF=13|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.5495|0.07454|0.014
92285367|NCT04239872|184475869|SUPERIORITY||Mean Difference (Net)|0.2524||||0.1393|TWO_SIDED|95.0|-0.09153|0.5962||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 17 pairs of data, DF=16|Treatment difference = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups.||0.5962|-0.09153|0.1393
92285368|NCT04239872|184475870|SUPERIORITY||Mean Difference (Net)|0.2921||||0.0009|TWO_SIDED|95.0|0.1414|0.4427||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 16 pairs of data, DF=15|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.4427|0.1414|0.0009
92285369|NCT04239872|184475871|SUPERIORITY||Mean Difference (Net)|0.2433||||0.0008|TWO_SIDED|95.0|0.1195|0.3671||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 16 pairs of data, DF=15|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.3671|0.1195|0.0008
92285370|NCT04239872|184475872|SUPERIORITY||Mean Difference (Net)|0.3306||||0.1515|TWO_SIDED|95.0|-0.1356|0.7969||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 16 pairs of data, DF=15|Treatment difference = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups.||0.7969|-0.1356|0.1515
92285371|NCT04239872|184475873|SUPERIORITY||Mean Difference (Net)|0.04851||||0.1712|TWO_SIDED|95.0|-0.02327|0.1203||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 17 pairs of data, DF=16|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.1203|-0.02327|0.1712
92285372|NCT04239872|184475874|SUPERIORITY||Mean Difference (Net)|0.2789||||0.1188|TWO_SIDED|95.0|-0.07934|0.6371||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 18 pairs of data, DF=17|Treatment difference = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups.||0.6371|-0.07934|0.1188
92287124|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.203|||<|0.001|TWO_SIDED|95.0|0.146|0.26|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.260|0.146|<0.001
92181502|NCT01728324|184261268|SUPERIORITY_OR_OTHER||SVR12 Rates difference|6.4||||0.0532|TWO_SIDED|95.0|-1.4|14.2|||Koch's method|Adjusted for PegIFN eligibility using Koch's method, with continuity correction.||Koch's stratum-adjusted Mantel Haenszel methods were used to compare durations, adjusting for stratification factors.||14.2|-1.4|0.0532
92181503|NCT01728324|184261269|SUPERIORITY_OR_OTHER||SVR4 Rates difference|3.6||||0.1671|TWO_SIDED|95.0|-3.7|10.9|||Koch´s method|Adjusted for PegIFN eligibility using Koch´s method, with continuity correction.||Koch's stratum-adjusted Mantel Haenszel methods were used to compare durations, adjusting for stratification factors.||10.9|-3.7|0.1671
92265788|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.105|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.105
92265789|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.001
92265790|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.019
92265791|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.011
92265792|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.113|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.113
92265793|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.002
92265794|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.006
92265795|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.034
92265796|NCT00634933|184433197|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.003
92285373|NCT04239872|184475875|SUPERIORITY||Mean Difference (Net)|0.8956|||<|0.0001|TWO_SIDED|95.0|0.7205|1.071||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 14 pairs of data, DF=13|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.071|0.7205|<0.0001
92285374|NCT04239872|184475877|SUPERIORITY||Mean Difference (Net)|0.3199||||0.0475|TWO_SIDED|95.0|0.004686|0.6351||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 8 pairs of data, DF=7|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.6351|0.004686|0.0475
92285375|NCT04239872|184475878|SUPERIORITY||Mean Difference (Net)|50.38||||0.0004|TWO_SIDED|95.0|27.46|73.3||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 13 pairs of data, DF=12|Treatment difference = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups.||73.30|27.46|0.0004
92285376|NCT03956862|184475881|SUPERIORITY||Mean Difference (Net)|-0.2||||0.9499|TWO_SIDED|95.0|-7.6|7.1|||Mixed Models Analysis||GB001 vs. Placebo|||7.1|-7.6|0.9499
92285377|NCT03956862|184475882|SUPERIORITY||Mean Difference (Net)|-0.3||||0.6778|TWO_SIDED|95.0|-1.8|1.2|||ANCOVA||GB001 vs. Placebo|||1.2|-1.8|0.6778
92285378|NCT03956862|184475883|SUPERIORITY||Mean Difference (Net)|0.1||||0.7914|TWO_SIDED|95.0|-0.7|0.9|||Mixed Models Analysis||GB001 vs. Placebo|||0.9|-0.7|0.7914
92181504|NCT01728324|184261270|SUPERIORITY_OR_OTHER||SVR24 Rates difference|-6.9||||0.0447|TWO_SIDED|95.0|-14.8|1.1|||Koch´s method|Adjusted for PegIFN eligibility using Koch´s method, with continuity correction.||Koch's stratum-adjusted Mantel Haenszel methods were used to compare durations, adjusting for stratification factors.||1.1|-14.8|0.0447
92181505|NCT01787032|184261274|SUPERIORITY_OR_OTHER||Ratio|373.66|STANDARD_DEVIATION|13.2|||TWO_SIDED|90.0|346.029|403.507|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation.|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||403.507|346.029|
92182868|NCT02434328|184264727|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-7.1|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||5.8|-7.1|
92285379|NCT03956862|184475884|SUPERIORITY||Hazard Ratio (HR)|0.944||||0.8916|TWO_SIDED|95.0|0.41|2.173|||Regression, Cox||GB001 vs Placebo|||2.173|0.410|0.8916
92285380|NCT03956862|184475885|SUPERIORITY||Mean Difference (Net)|0.191||||0.1635|TWO_SIDED|95.0|-0.077|0.459|||Mixed Models Analysis||GB001 vs. Placebo|||0.459|-0.077|0.1635
92285381|NCT03956862|184475886|SUPERIORITY||Mean Difference (Net)|0.632||||0.1742|TWO_SIDED|95.0|-0.28|1.544|||Mixed Models Analysis||GB001 vs. Placebo|||1.544|-0.280|0.1742
92285382|NCT03956862|184475887|SUPERIORITY||Mean Difference (Net)|0.9||||0.4851|TWO_SIDED|95.0|-1.6|3.4|||ANCOVA||GB001 vs. Placebo|||3.4|-1.6|0.4851
92285383|NCT03956862|184475888|SUPERIORITY||Hazard Ratio (HR)|0.544||||0.3898|TWO_SIDED|95.0|0.136|2.178|||Regression, Cox||GB001 vs Placebo|||2.178|0.136|0.3898
92285384|NCT01975948|184475898|OTHER|||||||0.047||||||Adjusted for baseline depressive symptoms and unemployment as covariates (p=.016), and non-completers (missing one or more points of follow up data).|Mixed Models Analysis|||One hundred evaluable patients per arm were needed to achieve 80% power to detect a PHQ-9 between-group difference in mean change of 2 points, significance level (α) .05, a two-sided test, and a standard deviation of 5 points. An intra cluster correlation of 0.05 for patient outcomes was used (Murphey et al), and an average cluster size: 3 patients/practice resulted in compensatory increase to 110 patients per arm. Under the assumption that attrition would be 33 % we needed 166 patients per arm.||||.047
92285385|NCT01975948|184475899|OTHER|||||||0.15|||||||Mixed Models Analysis|||Our calculations indicated that 50 physicians in each of the two groups will provide \>80% power to detect clinically significant reductions in stigma as assessed by OMS-HC change scores. Clinically meaningful was defined as a change of 3 points, derived on the basis of this being slightly better than what is usually seen in brief interventions.||||0.15
92285386|NCT01975948|184475899|OTHER||Cohen'd|0.45||||0.03|TWO_SIDED|||||OMS-HC analysis adjusted for practice size: P value applies to between group physicians reduction in one stigma domaine: preference for social distance|Mixed Models Analysis|||Between Group Changes in subscale of the Opening Minds Scale for Health Care Providers (OMS-HC) measures three different dimensions of stigma: attitudes towards people with a mental illness (6 items); health care professionals' attitudes about disclosure of a mental illness/willingness to seek help for a mental illness (4 items), and preference for social distance (5 items). Items are rated on a 5-point scale. Mean scores can range from one to five with lower scores indicating less stigma.||||.03
92285387|NCT01975948|184475900|OTHER|||||||0.993|||||||Mixed Models Analysis|||||||.993
92285388|NCT01975948|184475901|OTHER||Cohen'd|1.48|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<.001
92285389|NCT01975948|184475901|OTHER|||||||0.03|||||||Generalized estimating equations (GEE)|We used the slope of a regression line fit using generalized estimating equations (GEE) with an exchangeable correlation structure.||Correlation between increases in Physician Comfort and Confidence in managing mental illness and Stigma Score.||||.03
92285390|NCT01975948|184475902|OTHER||Cohen'd|1.44|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<.001
92285391|NCT01975948|184475902|SUPERIORITY|||||||0.476||||||We used the slope of a regression line fit using generalized estimating equations (GEE) with an exchangeable correlation structure.|Generalized estimating equations (GEE)|||Correlation between increases in Physician Comfort and Confidence with non-program specific tools and Stigma Score.||||.476
92285392|NCT01975948|184475903|SUPERIORITY||Cohen'd|3.25|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<.001
92285393|NCT01975948|184475903|SUPERIORITY|||||||0.945||||||We used the Spearman's correlation coefficient using the slope of a regression line fit using generalized estimating equations (GEE) with an exchangeable correlation structure.|Generalized estimating equations (GEE)|||Correlation between increases in Physician Comfort and Confidence with program specific tools and Stigma Score.||||.945
92285394|NCT01975948|184475904|OTHER|||||||0.742|||||||Mixed Models Analysis|||||||.742
92285395|NCT01975948|184475905|OTHER|||||||0.543|||||||Mixed Models Analysis|||||||.543
92285396|NCT01975948|184475906|OTHER|||||||0.009|||||||Mixed Models Analysis|||||||.009
92181506|NCT01787032|184261274|SUPERIORITY_OR_OTHER||Ratio|266.94|STANDARD_DEVIATION|16.0|||TWO_SIDED|90.0|243.267|292.914|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation.|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||292.914|243.267|
92181507|NCT01787032|184261275|SUPERIORITY_OR_OTHER||Ratio|261.34|STANDARD_DEVIATION|37.3|||TWO_SIDED|90.0|211.692|322.633|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||322.633|211.692|
92285397|NCT01975948|184475907|OTHER|||||||0.213|||||||Mixed Models Analysis|||||||.213
92285398|NCT03965091|184475913|OTHER||Least square (LS) mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.7963|TWO_SIDED|95.0|-0.46|0.6|||Mixed Models Analysis|||Analysis was performed using a Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the daily average PI-NRS score over the past 24 hours at weeks 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12 as the dependent variable, sex, age group at FM onset, week, treatment, and treatment-by-week interaction as fixed factors, and baseline average of the daily average PI-NRS score as a covariate.||0.60|-0.46|0.7963
92285399|NCT03965091|184475913|OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.27||0.8629|TWO_SIDED|95.0|-0.48|0.58|||Mixed Models Analysis|||Analysis was performed using an MMRM model with change from baseline in the weekly average of the daily average PI-NRS score over the past 24 hours at weeks 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12 as the dependent variable, sex, age group at FM onset, week, treatment, and treatment-by-week interaction as fixed factors, and baseline average of the daily average PI-NRS score as a covariate.||0.58|-0.48|0.8629
92285400|NCT00565448|184475947|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|95.0||||The Fisher's exact test was used to compare the CR proportions.|Fisher Exact|||There was no formal power calculation. A selection design was used to determine how many participants would be accrued to correctly select the treatment group with the best CR rate with 80% probability.||||1.0000
92285401|NCT00302952|184475953|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79||||||Adjustments were made for baseline ln(CRP), baseline DAS28-CRP score, race, methotrexate use, anti-TNF use, and disease duration.|ANCOVA|||The p-value compares Lovastatin with the Placebo treatment group. Log transformed CRP was analyzed to meet the heterogeneity assumption for ANCOVA models.||||0.79
92285402|NCT00302952|184475955|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91||||||Adjustments were made for baseline DAS28-CRP score.|ANCOVA|ANOVA was performed on participants with a DAS28-CRP score at Day 84.||The p-value compares Lovastatin with the Placebo treatment group.||||0.91
92285403|NCT00302952|184475956|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|-11.0||||0.39|TWO_SIDED|95.0|-35.9|14.0|||Chi-squared||The difference in percentages is calculated as Lovastatin - Placebo.|The p-value compares Lovastatin with the Placebo treatment group.||14.0|-35.9|0.39
92285404|NCT00302952|184475957|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||||||Adjustments were made for baseline serum IgM RF by ELISA test result. In the ANCOVA model, baseline value was a covariate; therefore, an adjustment was performed.|ANCOVA|||The p-value compares Lovastatin with the Placebo treatment group.||||0.19
92285405|NCT00302952|184475958|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||||||Adjustments were made for baseline serum anti-CCP by ELISA|ANCOVA|||The p-value compares Lovastatin with the Placebo treatment group.||||0.35
92285406|NCT02979353|184475968|SUPERIORITY||Risk Ratio (RR)|0.96||||0.017|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 1 applies to the Hospital Discharge timepoint (average 3 days after study enrollment)||||0.017
92285407|NCT02979353|184475968|SUPERIORITY||Risk Ratio (RR)|0.86|||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 2 applies to the Post-Acute Care Discharge time point (occurred on average 31 days after study enrollment)||||<0.0001
92285408|NCT02979353|184475968|SUPERIORITY||Risk Ratio (RR)|0.85|||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 3 applies to the 90 Day Follow-Up After PAC Discharge (occurred, on average, 122 days after study enrollment)||||<0.0001
92285409|NCT02979353|184475969|SUPERIORITY||Mean Difference (Net)|-0.28||||0.02|TWO_SIDED|95.0|||||Regression, Linear|||Statistical Analysis 1 applies to the Hospital Discharge time point (occurred, on average, 3 days after study enrollment)||||0.02
92285410|NCT02979353|184475969|SUPERIORITY||Mean Difference (Net)|-0.59|||<|1e-05|TWO_SIDED|95.0|||||Regression, Linear|||Statistical Analysis 2 applies to Post-Acute Care Discharge time point (occurred, on average, 31 days after study enrollment).||||<0.00001
92285411|NCT02979353|184475969|SUPERIORITY||Mean Difference (Net)|-0.35||||0.01|TWO_SIDED|95.0|||||Regression, Linear|||Statistical Analysis 3 applies to 90-Day Follow Up After PAC Discharge time point (occurred, on average, 122 after study enrollment).||||0.01
92285412|NCT04185909|184475979|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<.0001
92285413|NCT03435081|184475988|SUPERIORITY||Odds Ratio (OR)|4.6|||<|0.001|TWO_SIDED|95.0|2.31|9.15|||Regression, Logistic|||||9.15|2.31|<0.001
92285414|NCT03435081|184475989|SUPERIORITY||Odds Ratio (OR)|2.51||||0.033|TWO_SIDED|95.0|1.08|5.83|||Regression, Logistic|||||5.83|1.08|0.033
92182869|NCT02434328|184264727|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-7.0|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||5.5|-7.0|
92285415|NCT03435081|184475989|SUPERIORITY||Odds Ratio (OR)|5.29|||<|0.001|TWO_SIDED|95.0|2.4|11.68|||Regression, Logistic|||||11.68|2.40|<0.001
92285416|NCT03435081|184475990|SUPERIORITY||Odds Ratio (OR)|1.71||||0.167|TWO_SIDED|95.0|0.8|3.63|||Regression, Logistic|||||3.63|0.80|0.167
92285417|NCT03435081|184475991|SUPERIORITY||Odds Ratio (OR)|2.23||||0.131|TWO_SIDED|95.0|0.79|6.31|||Regression, Logistic|||||6.31|0.79|0.131
92285418|NCT03435081|184475991|SUPERIORITY||Odds Ratio (OR)|6.73|||<|0.001|TWO_SIDED|95.0|2.63|17.19|||Regression, Logistic|||||17.19|2.63|<0.001
92285419|NCT03435081|184475992|SUPERIORITY||Mean Difference (Final Values)|-12.59|STANDARD_ERROR_OF_MEAN|7.079||0.077|TWO_SIDED|95.0|-26.54|1.36|||Mixed Models Analysis|||||1.36|-26.54|0.077
92285420|NCT03435081|184475992|SUPERIORITY||Mean Difference (Final Values)|-20.3|STANDARD_ERROR_OF_MEAN|6.875||0.004|TWO_SIDED|95.0|-33.85|-6.75|||Mixed Models Analysis|||||-6.75|-33.85|0.004
92285421|NCT03435081|184475993|SUPERIORITY||Odds Ratio (OR)|1.24||||0.733|TWO_SIDED|95.0|0.36|4.36|||Regression, Logistic|||||4.36|0.36|0.733
92285422|NCT03435081|184475993|SUPERIORITY||Odds Ratio (OR)|5.42||||0.002|TWO_SIDED|95.0|1.93|15.22|||Regression, Logistic|||||15.22|1.93|0.002
92285423|NCT03435081|184475994|SUPERIORITY||Odds Ratio (OR)|3.08||||0.012|TWO_SIDED|95.0|1.29|7.36|||Regression, Logistic|||||7.36|1.29|0.012
92285424|NCT03435081|184475994|SUPERIORITY||Odds Ratio (OR)|5.32|||<|0.001|TWO_SIDED|95.0|2.31|12.28|||Regression, Logistic|||||12.28|2.31|<0.001
92285425|NCT03435081|184475995|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.273||0.433|TWO_SIDED|95.0|-0.75|0.32|||Mixed Models Analysis|||||0.32|-0.75|0.433
92285426|NCT03435081|184475995|SUPERIORITY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.269||0.029|TWO_SIDED|95.0|-1.12|-0.06|||Mixed Models Analysis|||||-0.06|-1.12|0.029
92285427|NCT03435081|184475996|SUPERIORITY||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.441||0.012|TWO_SIDED|95.0|-1.99|-0.25|||Mixed Models Analysis|||||-0.25|-1.99|0.012
92285428|NCT03435081|184475996|SUPERIORITY||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.433||0.002|TWO_SIDED|95.0|-2.22|-0.51|||Mixed Models Analysis|||||-0.51|-2.22|0.002
92285429|NCT03435081|184475997|SUPERIORITY||Odds Ratio (OR)|1.69||||0.105|TWO_SIDED|95.0|0.9|3.2|||Regression, Logistic|||||3.20|0.90|0.105
92285430|NCT03435081|184475997|SUPERIORITY||Odds Ratio (OR)|3.67|||<|0.001|TWO_SIDED|95.0|2.02|6.68|||Regression, Logistic|||||6.68|2.02|<0.001
92285431|NCT03435081|184475998|SUPERIORITY||Odds Ratio (OR)|3.81||||0.144|TWO_SIDED|95.0|0.63|22.85|||Regression, Logistic|||||22.85|0.63|0.144
92285432|NCT03435081|184475998|SUPERIORITY||Odds Ratio (OR)|3.1||||0.227|TWO_SIDED|95.0|0.5|19.4|||Regression, Logistic|||||19.40|0.50|0.227
92285433|NCT03435081|184475999|SUPERIORITY||Mean Difference (Final Values)|-3.94|STANDARD_ERROR_OF_MEAN|3.921||0.316|TWO_SIDED|95.0|-11.67|3.79|||Mixed Models Analysis|||||3.79|-11.67|0.316
92285434|NCT03435081|184475999|SUPERIORITY||Mean Difference (Final Values)|-11.81|STANDARD_ERROR_OF_MEAN|3.758||0.002|TWO_SIDED|95.0|-19.23|-4.4|||Mixed Models Analysis|||||-4.40|-19.23|0.002
92181508|NCT01787032|184261275|SUPERIORITY_OR_OTHER||Ratio|213.39|STANDARD_DEVIATION|34.1|||TWO_SIDED|90.0|175.783|259.051|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation.|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||259.051|175.783|
92285435|NCT03435081|184476000|SUPERIORITY||Odds Ratio (OR)|1.39||||0.683|TWO_SIDED|95.0|0.29|6.78|||Regression, Logistic|||||6.78|0.29|0.683
92285436|NCT03435081|184476000|SUPERIORITY||Odds Ratio (OR)|2.25||||0.277|TWO_SIDED|95.0|0.52|9.68|||Regression, Logistic|||||9.68|0.52|0.277
92285437|NCT03435081|184476001|SUPERIORITY||Mean Difference (Final Values)|-6.02|STANDARD_ERROR_OF_MEAN|2.996||0.046|TWO_SIDED|95.0|-11.93|-0.12|||Mixed Models Analysis|||||-0.12|-11.93|0.046
92285438|NCT03435081|184476001|SUPERIORITY||Mean Difference (Final Values)|-7.72|STANDARD_ERROR_OF_MEAN|2.911||0.009|TWO_SIDED|95.0|-13.46|-1.98|||Mixed Models Analysis|||||-1.98|-13.46|0.009
92285439|NCT03435081|184476002|SUPERIORITY|||||||0.598|||||||Fisher Exact|||||||0.598
92285440|NCT03435081|184476002|SUPERIORITY|||||||0.785|||||||Fisher Exact|||||||0.785
92285441|NCT03435081|184476003|SUPERIORITY||Mean Difference (Final Values)|-12.27|STANDARD_ERROR_OF_MEAN|6.562||0.063|TWO_SIDED|95.0|-25.21|0.66|||Mixed Models Analysis|||||0.66|-25.21|0.063
92285442|NCT03435081|184476003|SUPERIORITY||Mean Difference (Final Values)|-21.85|STANDARD_ERROR_OF_MEAN|6.437|<|0.001|TWO_SIDED|95.0|-34.54|-9.17|||Mixed Models Analysis|||||-9.17|-34.54|<0.001
92285443|NCT03435081|184476004|SUPERIORITY||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|1.536||0.217|TWO_SIDED|95.0|-4.93|1.12|||Mixed Models Analysis|||||1.12|-4.93|0.217
92285444|NCT03435081|184476004|SUPERIORITY||Mean Difference (Final Values)|-4.77|STANDARD_ERROR_OF_MEAN|1.487||0.002|TWO_SIDED|95.0|-7.7|-1.84|||Mixed Models Analysis|||||-1.84|-7.70|0.002
92285445|NCT03435081|184476005|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.178||0.155|TWO_SIDED|95.0|-0.6|0.1|||Mixed Models Analysis|||||0.10|-0.60|0.155
92285446|NCT03435081|184476005|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.174||0.017|TWO_SIDED|95.0|-0.76|-0.07|||Mixed Models Analysis|||||-0.07|-0.76|0.017
92285447|NCT03435081|184476006|SUPERIORITY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.565||0.345|TWO_SIDED|95.0|-0.58|1.65|||Mixed Models Analysis|||Anxiety||1.65|-0.58|0.345
92285448|NCT03435081|184476006|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.543||0.336|TWO_SIDED|95.0|-1.59|0.55|||Mixed Models Analysis|||Anxiety||0.55|-1.59|0.336
92285449|NCT03435081|184476006|SUPERIORITY||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.465||0.353|TWO_SIDED|95.0|-0.48|1.35|||Mixed Models Analysis|||Depression||1.35|-0.48|0.353
92285450|NCT03435081|184476006|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.446||0.34|TWO_SIDED|95.0|-1.31|0.45|||Mixed Models Analysis|||Depression||0.45|-1.31|0.340
92285451|NCT03435081|184476007|SUPERIORITY||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|1.228||0.224|TWO_SIDED|95.0|-3.92|0.92|||Mixed Models Analysis|||||0.92|-3.92|0.224
92285452|NCT03435081|184476007|SUPERIORITY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|1.184||0.004|TWO_SIDED|95.0|-5.83|-1.16|||Mixed Models Analysis|||||-1.16|-5.83|0.004
92285453|NCT03435081|184476008|SUPERIORITY||Mean Difference (Final Values)|-3.36|STANDARD_ERROR_OF_MEAN|5.956||0.575|TWO_SIDED|95.0|-15.3|8.57|||Mixed Models Analysis|||Absenteeism Change from Baseline||8.57|-15.30|0.575
92285454|NCT03435081|184476008|SUPERIORITY||Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|5.664||0.851|TWO_SIDED|95.0|-12.43|10.3|||Mixed Models Analysis|||Absenteeism Change from Baseline||10.30|-12.43|0.851
92285455|NCT03435081|184476008|SUPERIORITY||Mean Difference (Final Values)|-11.75|STANDARD_ERROR_OF_MEAN|5.212||0.026|TWO_SIDED|95.0|-22.05|-1.45|||Mixed Models Analysis|||Presenteeism Change from Baseline||-1.45|-22.05|0.026
92262546|NCT00965458|184427053|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome|ANCOVA|||Primary imputation method used for missing Week 104 AUC. Measuring range for C-peptide is 0.05-30 ng/mL||||0.002
92262547|NCT00965458|184427054|SUPERIORITY_OR_OTHER|||||||0.065|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome|ANCOVA|||Primary imputation method used for missing Week 52 AUC. Measuring range for C-peptide is 0.05-30 ng/mL||||0.065
92262548|NCT00965458|184427054|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome|ANCOVA|||Primary imputation method used for missing Week 104 AUC. Measuring range for C-peptide is 0.05-30 ng/mL||||0.015
92262549|NCT00965458|184427055|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change from baseline as the outcome variable|ANCOVA|||Week 52 mean insulin use comparison||||0.020
92262550|NCT00965458|184427055|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change from baseline as the outcome variable|ANCOVA|||Week 104 mean insulin use comparison||||0.002
92262551|NCT00965458|184427056|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is from a poisson regression comparing the person-year adjusted event rates between the two treatment groups|Regression, Logistic|||Hypoglycemic Events Occurring from Baseline to Week 52||||<0.001
92262552|NCT00965458|184427056|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is from a poisson regression comparing the person-year adjusted event rates between the two treatment groups|Regression, Logistic|||Hypoglycemic Events Occurring from Week 52 to Week 104||||<0.001
92262553|NCT00965458|184427057|SUPERIORITY_OR_OTHER|||||||0.746|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change from baseline as the outcome variable|ANCOVA|||Week 52 mean HbA1C comparison||||0.746
92262554|NCT00965458|184427057|SUPERIORITY_OR_OTHER|||||||0.942|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change from baseline as the outcome variable|ANCOVA|||Week 104 mean HbA1C comparison||||0.942
92262555|NCT01545375|184427061|SUPERIORITY|The objective was to demonstrate that VE induced by GSK2189242A vaccine (three doses in the first year of life and a booster dose in the second year of life)in preventing clinical AOM diagnosed and verified against AAP criteria was greater than 0%, as compared to the control group. One-sided p-value for the Wald-Test obtained from the general Cox proportional hazard model was calculated.|Vaccine Efficacy|3.81||||0.3016|TWO_SIDED|95.0|-11.35|16.9||The primary objective was met if the one-sided p-value calculated for the null hypothesis H0=\[clinical AOM VE ≤ 0%\] was lower than defined 1-sided alpha level: (17.8%).|Regression, Cox|||VE-AOM against AAP criteria: Occurrence of AOM during efficacy follow-up period was compared between groups to estimate Vaccine Efficacy (VE) and its 95% confidence interval using the Anderson \& Gill model (generalization of Cox proportional hazard model) taking into account for recurrent events \[Kelly, 2000\]. VE= (1 - hazard ratio) x 100 Censoring occurred at the time of the last scheduled or medically attended visit.||16.90|-11.35|0.3016
92181509|NCT01787032|184261276|SUPERIORITY_OR_OTHER||Ratio|372.88|STANDARD_DEVIATION|13.1|||TWO_SIDED|90.0|345.456|402.477|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation.|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||402.477|345.456|
92181510|NCT01787032|184261276|SUPERIORITY_OR_OTHER||Ratio|266.56|STANDARD_DEVIATION|16.0|||TWO_SIDED|90.0|242.955|292.456|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation.|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||292.456|242.955|
92181511|NCT00853593|184261307|SUPERIORITY_OR_OTHER||One sample proportion|0.951|||||ONE_SIDED|95.0|0.906||||||The Model 4396 lead will be considered safe if the proportion of subjects free of Model 4396 lead-related complications at one month post-implant is greater than 80% (i.e. the one sided 95% lower confidence bound must be at least 80%).||||.906|
92262556|NCT04516291|184427135|OTHER||Least Square (LS) Mean difference|-22.4|STANDARD_ERROR_OF_MEAN|4.93|<|0.001|TWO_SIDED|95.0|-32.1|-12.7|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-12.7|-32.1|<0.001
92262557|NCT04516291|184427135|OTHER||LS Mean difference|-22.0|STANDARD_ERROR_OF_MEAN|4.88|<|0.001|TWO_SIDED|95.0|-31.7|-12.4|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-12.4|-31.7|<0.001
92262558|NCT04516291|184427135|OTHER||LS Mean difference|-24.1|STANDARD_ERROR_OF_MEAN|5.05|<|0.001|TWO_SIDED|95.0|-34.1|-14.2|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-14.2|-34.1|<0.001
92285456|NCT03435081|184476008|SUPERIORITY||Mean Difference (Final Values)|-15.9|STANDARD_ERROR_OF_MEAN|5.056||0.002|TWO_SIDED|95.0|-25.89|-5.91|||Mixed Models Analysis|||Presenteeism Change from Baseline||-5.91|-25.89|0.002
92285457|NCT03435081|184476008|SUPERIORITY||Mean Difference (Final Values)|-12.85|STANDARD_ERROR_OF_MEAN|6.237||0.041|TWO_SIDED|95.0|-25.18|-0.51|||Mixed Models Analysis|||Overall Work Impairment Change from Baseline||-0.51|-25.18|0.041
92181512|NCT00853593|184261308|SUPERIORITY_OR_OTHER||One sample mean|1.6|STANDARD_DEVIATION|1.4|||ONE_SIDED|95.0||1.8||||||||1.8||
92181513|NCT00853593|184261309|SUPERIORITY_OR_OTHER||One sample mean|2.3|STANDARD_DEVIATION|2.0|||ONE_SIDED|97.5||2.7||||||||2.7||
92181514|NCT00853593|184261310|SUPERIORITY_OR_OTHER||One sample proportion|0.927|||||TWO_SIDED|95.0|0.887|0.967||||||||.967|.887|
92262559|NCT04516291|184427135|OTHER||LS Mean difference|-27.7|STANDARD_ERROR_OF_MEAN|4.09|<|0.001|TWO_SIDED|95.0|-35.7|-19.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-19.6|-35.7|<0.001
92262560|NCT04516291|184427135|OTHER||LS Mean difference|-26.6|STANDARD_ERROR_OF_MEAN|3.98|<|0.001|TWO_SIDED|95.0|-34.5|-18.8|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-18.8|-34.5|<0.001
92285458|NCT03435081|184476008|SUPERIORITY||Mean Difference (Final Values)|-16.27|STANDARD_ERROR_OF_MEAN|6.034||0.008|TWO_SIDED|95.0|-28.2|-4.34|||Mixed Models Analysis|||Overall Work Impairment Change from Baseline||-4.34|-28.20|0.008
92285459|NCT03435081|184476008|SUPERIORITY||Mean Difference (Final Values)|-9.64|STANDARD_ERROR_OF_MEAN|4.219||0.023|TWO_SIDED|95.0|-17.95|-1.32|||Mixed Models Analysis|||Activity Impairment Change from Baseline||-1.32|-17.95|0.023
92181515|NCT00853593|184261311|SUPERIORITY_OR_OTHER||One sample proportion|0.969|||||TWO_SIDED|95.0|0.944|0.993||||||||.993|.944|
92285460|NCT03435081|184476008|SUPERIORITY||Mean Difference (Final Values)|-13.29|STANDARD_ERROR_OF_MEAN|4.115||0.001|TWO_SIDED|95.0|-21.4|-5.17|||Mixed Models Analysis|||Activity Impairment Change from Baseline||-5.17|-21.40|0.001
92285461|NCT03435081|184476009|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.026||0.482|TWO_SIDED|95.0|-0.03|0.07|||Mixed Models Analysis|||Health State Index Score (US algorithm)||0.07|-0.03|0.482
92285462|NCT03435081|184476009|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.026||0.043|TWO_SIDED|95.0|0.0|0.1|||Mixed Models Analysis|||Health State Index Score (US algorithm)||0.10|0.00|0.043
92285463|NCT03435081|184476009|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.037||0.656|TWO_SIDED|95.0|-0.06|0.09|||Mixed Models Analysis|||Health State Index Score (UK algorithm)||0.09|-0.06|0.656
92262561|NCT04516291|184427135|OTHER||LS Mean difference|-24.7|STANDARD_ERROR_OF_MEAN|3.96|<|0.001|TWO_SIDED|95.0|-32.5|-16.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-16.9|-32.5|<0.001
92262562|NCT04516291|184427135|OTHER||LS Mean difference|-26.5|STANDARD_ERROR_OF_MEAN|4.51|<|0.001|TWO_SIDED|95.0|-35.4|-17.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-17.6|-35.4|<0.001
92262563|NCT04516291|184427137|OTHER||LS Mean difference|-44.0|STANDARD_ERROR_OF_MEAN|6.66|<|0.001|TWO_SIDED|95.0|-57.1|-30.8|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-30.8|-57.1|<0.001
92262564|NCT04516291|184427137|OTHER||LS Mean difference|-43.8|STANDARD_ERROR_OF_MEAN|6.64|<|0.001|TWO_SIDED|95.0|-56.9|-30.7|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-30.7|-56.9|<0.001
92262565|NCT04516291|184427137|OTHER||LS Mean difference|-41.3|STANDARD_ERROR_OF_MEAN|6.85|<|0.001|TWO_SIDED|95.0|-54.8|-27.8|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-27.8|-54.8|<0.001
92262566|NCT04516291|184427137|OTHER||LS Mean difference|-50.5|STANDARD_ERROR_OF_MEAN|5.54|<|0.001|TWO_SIDED|95.0|-61.4|-39.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-39.6|-61.4|<0.001
92262567|NCT04516291|184427137|OTHER||LS Mean difference|-45.9|STANDARD_ERROR_OF_MEAN|5.38|<|0.001|TWO_SIDED|95.0|-56.5|-35.2|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-35.2|-56.5|<0.001
92262568|NCT04516291|184427137|OTHER||LS Mean difference|-50.7|STANDARD_ERROR_OF_MEAN|5.35|<|0.001|TWO_SIDED|95.0|-61.2|-40.1|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-40.1|-61.2|<0.001
92262569|NCT04516291|184427137|OTHER||LS Mean difference|-56.8|STANDARD_ERROR_OF_MEAN|6.14|<|0.001|TWO_SIDED|95.0|-68.9|-44.7|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-44.7|-68.9|<0.001
92262570|NCT04516291|184427137|OTHER||LS Mean difference|-15.1|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-23.7|-6.5|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-6.5|-23.7|<0.001
92262571|NCT04516291|184427137|OTHER||LS Mean difference|-10.6|STANDARD_ERROR_OF_MEAN|4.34||0.015|TWO_SIDED|95.0|-19.2|-2.1|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-2.1|-19.2|0.015
92262572|NCT04516291|184427137|OTHER||LS Mean difference|-11.5|STANDARD_ERROR_OF_MEAN|4.49||0.011|TWO_SIDED|95.0|-20.3|-2.7|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-2.7|-20.3|0.011
92262573|NCT04516291|184427137|OTHER||LS Mean difference|-12.5|STANDARD_ERROR_OF_MEAN|3.64|<|0.001|TWO_SIDED|95.0|-19.7|-5.3|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-5.3|-19.7|<0.001
92262574|NCT04516291|184427137|OTHER||LS Mean difference|-12.6|STANDARD_ERROR_OF_MEAN|3.54|<|0.001|TWO_SIDED|95.0|-19.5|-5.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-5.6|-19.5|<0.001
92262575|NCT04516291|184427137|OTHER||LS Mean difference|-6.0|STANDARD_ERROR_OF_MEAN|3.56||0.095|TWO_SIDED|95.0|-13.0|1.0|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||1.0|-13.0|0.095
92262576|NCT04516291|184427137|OTHER||LS Mean difference|-8.5|STANDARD_ERROR_OF_MEAN|4.01||0.036|TWO_SIDED|95.0|-16.4|-0.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-0.6|-16.4|0.036
92262577|NCT04516291|184427137|OTHER||LS Mean difference|-10.0|STANDARD_ERROR_OF_MEAN|6.55||0.129|TWO_SIDED|95.0|-22.9|2.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||2.9|-22.9|0.129
92262578|NCT04516291|184427137|OTHER||LS Mean difference|-7.9|STANDARD_ERROR_OF_MEAN|6.65||0.238|TWO_SIDED|95.0|-21.0|5.2|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||5.2|-21.0|0.238
92262579|NCT04516291|184427137|OTHER||LS Mean difference|-11.4|STANDARD_ERROR_OF_MEAN|6.73||0.09|TWO_SIDED|95.0|-24.7|1.8|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||1.8|-24.7|0.090
92262580|NCT04516291|184427137|OTHER||LS Mean difference|-16.0|STANDARD_ERROR_OF_MEAN|5.44||0.004|TWO_SIDED|95.0|-26.7|-5.3|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||-5.3|-26.7|0.004
92262581|NCT04516291|184427137|OTHER||LS Mean difference|-14.5|STANDARD_ERROR_OF_MEAN|5.38||0.008|TWO_SIDED|95.0|-25.1|-3.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||-3.9|-25.1|0.008
92262582|NCT04516291|184427137|OTHER||LS Mean difference|-7.9|STANDARD_ERROR_OF_MEAN|5.28||0.136|TWO_SIDED|95.0|-18.3|2.5|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||2.5|-18.3|0.136
92262583|NCT04516291|184427137|OTHER||LS Mean difference|-9.0|STANDARD_ERROR_OF_MEAN|6.01||0.138|TWO_SIDED|95.0|-20.8|2.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||2.9|-20.8|0.138
92262584|NCT04516291|184427139|OTHER||LS Mean difference|-69.9|STANDARD_ERROR_OF_MEAN|5.97|<|0.001|TWO_SIDED|95.0|-81.6|-58.1|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-58.1|-81.6|<0.001
92262585|NCT04516291|184427139|OTHER||LS Mean difference|-79.6|STANDARD_ERROR_OF_MEAN|6.03|<|0.001|TWO_SIDED|95.0|-91.5|-67.7|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-67.7|-91.5|<0.001
92262586|NCT04516291|184427139|OTHER||LS Mean difference|-77.1|STANDARD_ERROR_OF_MEAN|6.22|<|0.001|TWO_SIDED|95.0|-89.4|-64.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-64.9|-89.4|<0.001
92262587|NCT04516291|184427139|OTHER||LS Mean difference|-86.3|STANDARD_ERROR_OF_MEAN|5.04|<|0.001|TWO_SIDED|95.0|-96.2|-76.3|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-76.3|-96.2|<0.001
92262588|NCT04516291|184427139|OTHER||LS Mean difference|-80.4|STANDARD_ERROR_OF_MEAN|4.82|<|0.001|TWO_SIDED|95.0|-89.9|-70.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-70.9|-89.9|<0.001
92262589|NCT04516291|184427139|OTHER||LS Mean difference|-92.2|STANDARD_ERROR_OF_MEAN|4.92|<|0.001|TWO_SIDED|95.0|-101.9|-82.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-82.6|-101.9|<0.001
92262590|NCT04516291|184427139|OTHER||LS Mean difference|-95.2|STANDARD_ERROR_OF_MEAN|5.59|<|0.001|TWO_SIDED|95.0|-106.2|-84.2|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-84.2|-106.2|<0.001
92262591|NCT02181634|184427149|SUPERIORITY||Hazard Ratio (HR)|2.02||||0.099|TWO_SIDED|95.0|0.86|4.75|||Log Rank|||||4.75|0.86|0.099
92262592|NCT02181634|184427150|SUPERIORITY||Hazard Ratio (HR)|1.54||||0.34|TWO_SIDED|95.0|0.64|3.71|||Log Rank|||||3.71|0.64|0.34
92262593|NCT04250558|184427158|OTHER|||||||0.05|||||||Regression, Logistic|||Kinetic parameters were assessed by Mann-Whitney U test in MATLAB Statistics and Machine Learning Toolbox. Receiver operating characteristic (ROC) analysis based on logistic regression was utilized, with one surgical condition versus the other two states as the binary dependent variable, and each perfusion-related kinetic parameter of Imax, IS and BF as the independent variable. Power analysis was performed to evaluate the statistical validity, using G\*Power software||||0.05
92262594|NCT02843282|184427198|SUPERIORITY||Mean Difference (Net)|0.69||||0.04|TWO_SIDED||||||Regression, Linear|||||||0.040
92262595|NCT02843282|184427199|SUPERIORITY||Mean Difference (Net)|0.98||||0.004|TWO_SIDED||||||Regression, Linear|||||||0.004
92262596|NCT02843282|184427200|SUPERIORITY||Mean Difference (Net)|1.95|||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
92262597|NCT02843282|184427201|SUPERIORITY||Mean Difference (Net)|0.52||||0.039|TWO_SIDED||||||Regression, Linear|||||||0.039
92262598|NCT02843282|184427202|SUPERIORITY||Mean Difference (Net)|0.42||||0.092|TWO_SIDED||||||Regression, Linear|||||||0.092
92262599|NCT02843282|184427203|SUPERIORITY||Mean Difference (Net)|6.58||||0.052|TWO_SIDED||||||Regression, Linear|||||||0.052
92262600|NCT02843282|184427204|SUPERIORITY||Mean Difference (Net)|0.52||||0.121|TWO_SIDED||||||Regression, Linear|||||||0.121
92262601|NCT02843282|184427205|SUPERIORITY||Mean Difference (Net)|1.23||||0.019|TWO_SIDED||||||Regression, Linear|||||||0.019
92262602|NCT02843282|184427206|SUPERIORITY||Mean Difference (Net)|0.37||||0.278|TWO_SIDED||||||Regression, Linear|||||||0.278
92262603|NCT02843282|184427207|SUPERIORITY||Mean Difference (Net)|7.0||||0.095|TWO_SIDED||||||Regression, Linear|||||||0.095
92262604|NCT02843282|184427208|OTHER||Mean Difference (Net)|0.15|||<|0.01|TWO_SIDED||||||Whole brain voxel-wise correlation analy|||||||< 0.01
92262605|NCT02843282|184427209|SUPERIORITY||Mean Difference (Net)|1.22||||0.001|TWO_SIDED||||||Regression, Linear|||||||0.001
92262606|NCT02843282|184427210|SUPERIORITY||Mean Difference (Net)|1.33||||0.007|TWO_SIDED||||||Regression, Linear|||||||0.007
92262607|NCT01091116|184427211|SUPERIORITY_OR_OTHER|||||||0.5263||95.0|||||ANCOVA|||Tests of Fixed Effects for the primary efficacy variable including baseline treatment and visit (from Visit 3 to Visit 5) as covariates||||0.5263
92262608|NCT02155660|184427232|SUPERIORITY||Rate ratio|0.85||||0.0638|TWO_SIDED|95.0|0.71|1.01|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.01|0.71|0.0638
92262609|NCT02155660|184427232|SUPERIORITY||Rate ratio|1.04||||0.6575|TWO_SIDED|95.0|0.88|1.23|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.23|0.88|0.6575
92262610|NCT02155660|184427232|SUPERIORITY||Rate ratio|0.93||||0.3988|TWO_SIDED|95.0|0.78|1.1|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.10|0.78|0.3988
92262611|NCT02155660|184427233|SUPERIORITY||Rate ratio|1.04||||0.7564|TWO_SIDED|95.0|0.82|1.32|||Negative binomial|Model includes treatment group, region, background therapy, number of exacerbations in the previous year.||||1.32|0.82|0.7564
92262612|NCT02155660|184427233|SUPERIORITY||Rate ratio|1.08||||0.5573|TWO_SIDED|95.0|0.84|1.37|||Negative binomial|Model includes treatment group, region, background therapy, number of exacerbations in the previous year.||||1.37|0.84|0.5573
92262613|NCT02155660|184427233|SUPERIORITY||Rate ratio|1.02||||0.8644|TWO_SIDED|95.0|0.8|1.3|||Negative binomial|Model includes treatment group, region, background therapy, number of exacerbations in the previous year.||||1.30|0.80|0.8644
92262614|NCT02155660|184427234|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.5043|TWO_SIDED|95.0|-0.029|0.059|||Mixed Models Analysis|Model includes treatment group, baseline FEV1 value, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.059|-0.029|0.5043
92181516|NCT00853593|184261312|SUPERIORITY_OR_OTHER||One sample proportion|0.959|||||TWO_SIDED|95.0|0.93|0.987||||||||.987|.930|
92181517|NCT00853593|184261313|SUPERIORITY_OR_OTHER||One sample proportion|0.948|||||TWO_SIDED|95.0|0.917|0.979||||||||.979|.917|
92262615|NCT02155660|184427234|SUPERIORITY||Mean Difference (Final Values)|-0.007||||0.7691|TWO_SIDED|95.0|-0.051|0.037|||Mixed Models Analysis|Model includes treatment group, baseline FEV1 value, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.037|-0.051|0.7691
92262616|NCT02155660|184427234|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.3767|TWO_SIDED|95.0|-0.024|0.064|||Mixed Models Analysis|Model includes treatment group, baseline FEV1 value, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.064|-0.024|0.3767
92262617|NCT02155660|184427235|SUPERIORITY||Mean Difference (Final Values)|-1.011||||0.3636|TWO_SIDED|95.0|-3.192|1.171|||Mixed Models Analysis|Model includes treatment group, baseline SGRQ score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||1.171|-3.192|0.3636
92262618|NCT02155660|184427235|SUPERIORITY||Mean Difference (Final Values)|-1.388||||0.2106|TWO_SIDED|95.0|-3.562|0.786|||Mixed Models Analysis|Model includes treatment group, baseline SGRQ score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.786|-3.562|0.2106
92262619|NCT02155660|184427235|SUPERIORITY||Mean Difference (Final Values)|-0.602||||0.5851|TWO_SIDED|95.0|-2.763|1.56|||Mixed Models Analysis|Model includes treatment group, baseline SGRQ score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||1.560|-2.763|0.5851
92262620|NCT02155660|184427236|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.8525|TWO_SIDED|95.0|-0.82|0.99|||Mixed Models Analysis|Model includes treatment group, baseline CAT total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.99|-0.82|0.8525
92262621|NCT02155660|184427236|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.987|TWO_SIDED|95.0|-0.91|0.89|||Mixed Models Analysis|Model includes treatment group, baseline CAT total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.89|-0.91|0.9870
92262622|NCT02155660|184427236|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.8204|TWO_SIDED|95.0|-1.0|0.79|||Mixed Models Analysis|Model includes treatment group, baseline CAT total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.79|-1.00|0.8204
92262623|NCT02155660|184427237|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.2636|TWO_SIDED|95.0|-1.102|0.301|||Mixed Models Analysis|Model includes treatment group, baseline total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.301|-1.102|0.2636
92262624|NCT02155660|184427237|SUPERIORITY||Mean Difference (Final Values)|-0.296||||0.4087|TWO_SIDED|95.0|-0.998|0.406|||Mixed Models Analysis|Model includes treatment group, baseline total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.406|-0.998|0.4087
92285464|NCT03435081|184476009|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.036||0.057|TWO_SIDED|95.0|0.0|0.14|||Mixed Models Analysis|||Health State Index Score (UK algorithm)||0.14|-0.00|0.057
92285465|NCT03435081|184476010|SUPERIORITY||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|2.597||0.609|TWO_SIDED|95.0|-6.45|3.79|||Mixed Models Analysis|||||3.79|-6.45|0.609
92285466|NCT03435081|184476010|SUPERIORITY||Mean Difference (Final Values)|3.48|STANDARD_ERROR_OF_MEAN|2.503||0.166|TWO_SIDED|95.0|-1.46|8.41|||Mixed Models Analysis|||||8.41|-1.46|0.166
92285467|NCT03435081|184476011|SUPERIORITY||Odds Ratio (OR)|1.96||||0.258|TWO_SIDED|95.0|0.61|6.26|||Regression, Logistic|||||6.26|0.61|0.258
92285468|NCT03435081|184476011|SUPERIORITY||Odds Ratio (OR)|2.99||||0.052|TWO_SIDED|95.0|0.99|8.97|||Regression, Logistic|||||8.97|0.99|0.052
92285469|NCT02601560|184476016|SUPERIORITY_OR_OTHER|||||||0.095|||||||ANCOVA|||||||0.095
92285470|NCT02601560|184476016|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
92285471|NCT02601560|184476016|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
92285472|NCT02601560|184476016|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
92285473|NCT02601560|184476016|SUPERIORITY_OR_OTHER|||||||0.44|||||||ANCOVA|||||||0.440
92285474|NCT02601560|184476016|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
92285475|NCT00420238|184476050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.83||||0.019|TWO_SIDED|95.0|-16.5|-1.51|||ANCOVA||Least squares mean difference = mean difference final value.|Comparison of least squares means. Primary analysis: analysis of covariance (ANCOVA) with treatment as a factor and BASDAI baseline as a covariate.||-1.51|-16.5|0.019
92285476|NCT00420238|184476051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92||||0.098|TWO_SIDED|95.0|0.82|10.42|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 2: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors.||10.42|0.82|0.098
92285477|NCT00420238|184476051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.02||||0.197|TWO_SIDED|95.0|0.69|5.88|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 4: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors.||5.88|0.69|0.197
92285478|NCT00420238|184476051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.087|TWO_SIDED|95.0|0.89|5.95|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 8: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors.||5.95|0.89|0.087
92285479|NCT00420238|184476051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.83||||0.031|TWO_SIDED|95.0|1.1|7.29|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 12: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors.||7.29|1.10|0.031
92285480|NCT00420238|184476052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.31|TWO_SIDED|95.0|0.62|4.57|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 2: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||4.57|0.62|0.310
92285481|NCT00420238|184476052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.309|TWO_SIDED|95.0|0.65|3.99|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 4: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||3.99|0.65|0.309
92285482|NCT00420238|184476052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.61||||0.001|TWO_SIDED|95.0|1.81|11.74|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 8: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||11.74|1.81|0.001
92181518|NCT00853593|184261319|SUPERIORITY_OR_OTHER||One sample mean|2.4|STANDARD_DEVIATION|1.9|||ONE_SIDED|95.0||2.7||||||||2.7||
92285483|NCT00420238|184476052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.14||||0.003||95.0|1.65|10.42|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 12: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||10.42|1.65|0.003
92287125|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.223|||<|0.001|TWO_SIDED|95.0|0.166|0.28|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.280|0.166|<0.001
92285484|NCT00420238|184476054|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.259|TWO_SIDED|95.0|0.57|7.94|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 2: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||7.94|0.57|0.259
92285485|NCT00420238|184476054|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.44||95.0|0.51|4.64|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 4: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||4.64|0.51|0.440
92285486|NCT00420238|184476054|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.88||||0.046||95.0|1.02|8.16|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 8: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||8.16|1.02|0.046
92285487|NCT00420238|184476054|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.85||||0.014||95.0|1.31|11.32|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 12: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||11.32|1.31|0.014
92285488|NCT00420238|184476056|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.01||||0.204|TWO_SIDED|95.0|0.55|16.53|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 2: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||16.53|0.55|0.204
92285489|NCT00420238|184476056|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.48||||0.073||95.0|0.87|23.07|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 4: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||23.07|0.87|0.073
92285490|NCT00420238|184476056|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.73||||0.121||95.0|0.71|19.69|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 8: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||19.69|0.71|0.121
92285491|NCT00420238|184476056|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.36||||0.058||95.0|0.96|11.8|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 12: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||11.80|0.96|0.058
92285492|NCT00420238|184476058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.5||||0.287|TWO_SIDED|95.0|0.35|35.14|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 2: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||35.14|0.35|0.287
92285493|NCT00420238|184476058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8||||0.169||95.0|0.51|44.94|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 4: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||44.94|0.51|0.169
92285494|NCT00420238|184476058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.48||||0.073||95.0|0.87|23.07|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 8: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||23.07|0.87|0.073
92285495|NCT00420238|184476058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.48||||0.073||95.0|0.87|23.07|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 12: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||23.07|0.87|0.073
92285496|NCT00420238|184476060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.95||||0.018|TWO_SIDED|95.0|-18.19|-1.72|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||-1.72|-18.19|0.018
92285497|NCT00420238|184476061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.54||||0.089|TWO_SIDED|95.0|-18.4|1.33|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||1.33|-18.40|0.089
92285498|NCT00420238|184476061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.02||||0.11||95.0|-17.89|1.85|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interactions as fixed factors, baseline value as a covariate, and patients as a random factor.||1.85|-17.89|0.110
92262625|NCT02155660|184427237|SUPERIORITY||Mean Difference (Final Values)|-0.425||||0.2336|TWO_SIDED|95.0|-1.125|0.275|||Mixed Models Analysis|Model includes treatment group, baseline total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.275|-1.125|0.2336
92262626|NCT02155660|184427238|SUPERIORITY||Mean Difference (Final Values)|-0.642||||0.0012|TWO_SIDED|95.0|-1.029|-0.254|||Mixed Models Analysis|Model includes treatment group, baseline rescue med. use, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.254|-1.029|0.0012
92262627|NCT02155660|184427238|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.0852|TWO_SIDED|95.0|-0.727|0.047|||Mixed Models Analysis|Model includes treatment group, baseline rescue med. use, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.047|-0.727|0.0852
92262628|NCT02155660|184427238|SUPERIORITY||Mean Difference (Final Values)|-0.364||||0.065|TWO_SIDED|95.0|-0.75|0.023|||Mixed Models Analysis|Model includes treatment group, baseline rescue med. use, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.023|-0.750|0.0650
92262629|NCT02155660|184427239|SUPERIORITY||Mean Difference (Final Values)|-0.041||||0.0415|TWO_SIDED|95.0|-0.081|-0.002|||Mixed Models Analysis|Model includes treatment group, baseline prop. of nights awakens., EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.002|-0.081|0.0415
92262630|NCT02155660|184427239|SUPERIORITY||Mean Difference (Final Values)|-0.055||||0.0069|TWO_SIDED|95.0|-0.094|-0.015|||Mixed Models Analysis|Model includes treatment group, baseline prop. of nights awakens., EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.015|-0.094|0.0069
92262631|NCT02155660|184427239|SUPERIORITY||Mean Difference (Final Values)|-0.026||||0.2008|TWO_SIDED|95.0|-0.065|0.014|||Mixed Models Analysis|Model includes treatment group, baseline prop. of nights awakens., EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.014|-0.065|0.2008
92262632|NCT02155660|184427243|SUPERIORITY||Rate ratio|0.98||||0.8158|TWO_SIDED|95.0|0.81|1.18|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.18|0.81|0.8158
92262633|NCT02155660|184427243|SUPERIORITY||Rate ratio|0.98||||0.8378|TWO_SIDED|95.0|0.82|1.18|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.18|0.82|0.8378
92262634|NCT02155660|184427243|SUPERIORITY||Rate ratio|0.92||||0.3759|TWO_SIDED|95.0|0.76|1.11|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.11|0.76|0.3759
92262635|NCT02155660|184427244|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9141|TWO_SIDED|95.0|0.76|1.36|||Cochran-Mantel-Haenszel|CMH test controlling for EOS cohort, region, and background therapy.||Proportion of participants with \>=1 COPD exacerbation.||1.36|0.76|0.9141
92262636|NCT02155660|184427244|SUPERIORITY||Odds Ratio (OR)|1.39||||0.0323|TWO_SIDED|95.0|1.03|1.87|||Cochran-Mantel-Haenszel|CMH test controlling for EOS cohort, region, and background therapy.||Proportion of participants with \>=1 COPD exacerbation.||1.87|1.03|0.0323
92262637|NCT02155660|184427244|SUPERIORITY||Odds Ratio (OR)|1.1||||0.5109|TWO_SIDED|95.0|0.82|1.48|||Cochran-Mantel-Haenszel|CMH test controlling for EOS cohort, region, and background therapy.||Proportion of participants with \>=1 COPD exacerbation.||1.48|0.82|0.5109
92262638|NCT02155660|184427246|SUPERIORITY||Rate ratio|0.68||||0.0287|TWO_SIDED|95.0|0.49|0.96|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, previous year exacerbations associated with hospitalization (Y/N).||||0.96|0.49|0.0287
92181519|NCT03229408|184261346|SUPERIORITY||||||<|0.004|||||||Unpaired t-test, 2-Sided|||||||<0.004
92181520|NCT03229408|184261347|SUPERIORITY||||||<|0.03|||||||Unpaired T-test, 2-Sided|||||||<0.03
92181521|NCT03229408|184261348|SUPERIORITY|||||||0.18|||||||Unpaired t-test, 2-Sided|||||||0.180
92262639|NCT02155660|184427246|SUPERIORITY||Rate ratio|0.89||||0.4631|TWO_SIDED|95.0|0.65|1.22|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, previous year exacerbations associated with hospitalization (Y/N).||||1.22|0.65|0.4631
92262640|NCT02155660|184427246|SUPERIORITY||Rate ratio|0.67||||0.0185|TWO_SIDED|95.0|0.48|0.94|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, previous year exacerbations associated with hospitalization (Y/N).||||0.94|0.48|0.0185
92262641|NCT02087085|184427258|SUPERIORITY||Least Squares Mean Difference|-0.3589|STANDARD_ERROR_OF_MEAN|0.1804||0.047|TWO_SIDED|95.0|-0.7132|-0.0047||MMRM model included treatment group, study region, analysis visit and treatment-by-visit interaction as factors and baseline value and baseline value-by-analysis visit interaction as covariates.|MMRM|||||-0.0047|-0.7132|0.047
92262642|NCT02087085|184427259|SUPERIORITY||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|1.4||0.39|TWO_SIDED|95.0|-3.9|1.5||MMRM model included treatment group, study region, analysis visit and treatment-by-visit interaction as factors and baseline value and baseline value-by-analysis visit interaction as covariates.|MMRM|||||1.5|-3.9|0.390
92262643|NCT02087085|184427260|SUPERIORITY||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|1.4||0.301|TWO_SIDED|95.0|-4.2|1.3||MMRM model included treatment group, study region, analysis visit and treatment-by-visit interaction as factors and baseline value and baseline value-by-analysis visit interaction as covariates.|MMRM|||||1.3|-4.2|0.301
92285499|NCT00420238|184476061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.73||||0.004||95.0|-24.6|-4.86|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interactions as fixed factors, baseline value as a covariate, and patients as a random factor.||-4.86|-24.60|0.004
92262644|NCT01425268|184427288|NON_INFERIORITY|Assuming that the success rate for both expanders was 95%, at least 92 breasts implanted with a AeroForm Tissue Expander and 46 breasts implanted with a saline expander were needed to be 80% confident (i.e., have a statistical power of 80%) that the lower bound of the one-sided 95% Confidence Interval for the difference in the Success rates (πTreatment - πControl) was greater than or equal to -10%.|margin of non-inferiority|-7.3|||||ONE_SIDED|95.0|-7.3241||||||The Treatment Success Rate per breast is 96.1% (149/155) for AeroForm and 98.8% (82/83) for saline.The difference (AeroForm - saline) is -2.7% with a lower confidence limit of -7.3%, meeting the non-inferiority margin of \> -10%.|The study was powered to show that the Treatment Success rate for the AeroForm System (πTreatment) was not worse than the rate for the saline expander (πControl) by more than 10% (-0.10 \< πTreatment - πControl).|||-7.3241|
92262645|NCT01425268|184427289|SUPERIORITY||||||<|0.0001|||||||Kaplan-Meier Log Rank test|Subjects not completing tissue expansion are censored in the analysis||||||<0.0001
92262646|NCT02681094|184427295|SUPERIORITY||LS mean difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.55|-0.24|||Mixed Models Analysis|||||-0.24|-0.55|<0.0001
92262647|NCT02681094|184427295|SUPERIORITY||LS mean difference|-0.34|||<|0.0001|TWO_SIDED|95.0|-0.5|-0.19|||Mixed Models Analysis|||||-0.19|-0.50|<0.0001
92262648|NCT02681094|184427296|SUPERIORITY||Risk Difference (RD)|19.8|||<|0.0001|TWO_SIDED|95.0|12.7|26.9|||Method of Zhang, Tsiatis, and Davidian|||||26.9|12.7|<0.0001
92262649|NCT02681094|184427296|SUPERIORITY||Risk Difference (RD)|11.7||||0.0018|TWO_SIDED|95.0|4.4|19.1|||Method of Zhang, Tsiatis, and Davidian|||||19.1|4.4|0.0018
92262650|NCT02681094|184427297|SUPERIORITY||LS mean difference|-7.58||||0.0135|TWO_SIDED|95.0|-13.59|-1.57|||Mixed Models Analysis|||||-1.57|-13.59|0.0135
92262651|NCT02681094|184427297|SUPERIORITY||LS mean difference|-14.88|||<|0.0001|TWO_SIDED|95.0|-20.85|-8.91|||Mixed Models Analysis|||||-8.91|-20.85|<0.0001
92262652|NCT02681094|184427298|SUPERIORITY||LS mean difference|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.11|-1.09|||Mixed Models Analysis|||||-1.09|-2.11|<0.0001
92262653|NCT01072175|184427299|NON_INFERIORITY_OR_EQUIVALENCE|Cmax of dabrafenib was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.79|1.34|||||Geometric mean ratio (Day 15 Cmax/Day 1 Cmax) and 90% confidence interval for dabrafenib were calculated.|||1.34|0.79|
92262654|NCT01072175|184427299|NON_INFERIORITY_OR_EQUIVALENCE|Cmax of GSK2285403 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.78|1.25|||||Geometric mean ratio (Day 15 Cmax/Day 1 Cmax) and 90% confidence interval for GSK2285403 were calculated.|||1.25|0.78|
92262655|NCT01072175|184427299|NON_INFERIORITY_OR_EQUIVALENCE|Cmax of GSK2298683 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.84|1.27|||||Geometric mean ratio (Day 15 Cmax/Day 1 Cmax) and 90% confidence interval for GSK2298683 were calculated.|||1.27|0.84|
92262656|NCT01072175|184427299|NON_INFERIORITY_OR_EQUIVALENCE|Cmax of GSK2167542 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|0.98|||||TWO_SIDED|90.0|0.66|1.45|||||Geometric mean ratio (Day 15 Cmax/Day 1 Cmax) and 90% confidence interval for GSK2167542 were calculated.|||1.45|0.66|
92262657|NCT01072175|184427300|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-t) of dabrafenib was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.01|||||TWO_SIDED|90.0|0.85|1.19|||||Geometric mean ratio (Day 15 AUC(0-inf)/ Day 1 AUC(0-inf)) and 90% confidence interval for dabrafenib were calculated.|||1.19|0.85|
92262658|NCT01072175|184427300|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-inf) of dabrafenib was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.82|1.08|||||Geometric mean ratio (Day 15 AUC(0-inf)/ Day 1 AUC(0-inf)) and 90% confidence interval for dabrafenib were calculated.|||1.08|0.82|
92287126|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.27|||<|0.001|TWO_SIDED|95.0|0.216|0.325|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.325|0.216|<0.001
92181522|NCT03229408|184261349|SUPERIORITY||||||<|0.002|||||||Unpaired T-test, 2-Sided|||||||<0.002
92181523|NCT03229408|184261350|SUPERIORITY||||||<|0.04|||||||Unpaired t-test, 2-Sided|||||||<0.04
92285500|NCT00420238|184476061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.27||||0.065||95.0|-19.14|0.59|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interactions as fixed factors, baseline value as a covariate, and patients as a random factor.||0.59|-19.14|0.065
92285501|NCT00420238|184476063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.99||||0.002|TWO_SIDED|95.0|-17.7|-4.28|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||-4.28|-17.70|0.002
92285502|NCT00420238|184476064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.33||||0.054|TWO_SIDED|95.0|-16.81|0.15|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||0.15|-16.81|0.054
92285503|NCT00420238|184476064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.02||||0.011||95.0|-19.5|-2.54|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-2.54|-19.50|0.011
92285504|NCT00420238|184476064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.75||||0.003||95.0|-21.23|-4.27|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-4.27|-21.23|0.003
92285505|NCT00420238|184476064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.29|||<|0.001||95.0|-23.7|-6.82|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-6.82|-23.7|<0.001
92285506|NCT00420238|184476066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.59||||0.039|TWO_SIDED|95.0|-18.69|-0.49|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||-0.49|-18.69|0.039
92285507|NCT00420238|184476067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.28||||0.254|TWO_SIDED|95.0|-17.13|4.57|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||4.57|-17.13|0.254
92285508|NCT00420238|184476067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.17||||0.348||95.0|-16.02|5.68|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||5.68|-16.02|0.348
92285509|NCT00420238|184476067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.72||||0.014||95.0|-24.57|-2.88|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-2.88|-24.57|0.014
92285510|NCT00420238|184476067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.69|||<|0.001||95.0|-30.54|-8.84|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-8.84|-30.54|<0.001
92285511|NCT00420238|184476069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.49||||0.071|TWO_SIDED|95.0|-17.73|0.75|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||0.75|-17.73|0.071
92285512|NCT00420238|184476070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.57||||0.511|TWO_SIDED|95.0|-14.31|7.17|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||7.17|-14.31|0.511
92181524|NCT03229408|184261351|SUPERIORITY||||||<|0.003|||||||Unpaired t-test, 2-Sided|||||||<0.003
92181525|NCT03229408|184261352|SUPERIORITY||||||<|0.0004|||||||Unpaired t-test, 2-Sided|||||||<0.0004
92181526|NCT03229408|184261353|SUPERIORITY||||||<|0.007|||||||Unpaired t-test, 2-Sided|||||||<0.007
92181527|NCT06193590|184261354|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||||||0.21
92181528|NCT06193590|184261355|SUPERIORITY|||||||0.1|||||||Fisher Exact|||||||0.1
92181529|NCT06193590|184261357|SUPERIORITY|||||||0.001|||||||Fisher Exact|||||||0.001
92262659|NCT01072175|184427300|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-t) of GSK2285403 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.84|1.25|||||Geometric mean ratio (Day 15 AUC(0-t)/ Day 1 AUC(0-t)) and 90% confidence interval for GSK2285403 were calculated.|||1.25|0.84|
92262660|NCT01072175|184427300|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-inf) of GSK2285403 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|0.92|||||TWO_SIDED|90.0|0.81|1.03|||||Geometric mean ratio (Day 15 AUC(0-inf)/ Day 1 AUC(0-inf)) and 90% confidence interval for GSK2285403 were calculated.|||1.03|0.81|
92262661|NCT01072175|184427300|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-t) of GSK2298683 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.81|1.29|||||Geometric mean ratio (Day 15 AUC(0-t)/ Day 1 AUC(0-t)) and 90% confidence interval for GSK2298683 were calculated.|||1.29|0.81|
92262662|NCT01072175|184427300|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-t) of GSK2167542 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.76|1.37|||||Geometric mean ratio (Day 15 AUC(0-t)/ Day 1 AUC(0-t)) and 90% confidence interval for GSK2167542 were calculated.|||1.37|0.76|
92262663|NCT01072175|184427307|SUPERIORITY_OR_OTHER||Unconditional exact method|-4.0|||||TWO_SIDED|95.0|-23.1|15.9||||||Difference in response rate Arm2 - Arm1||15.9|-23.1|
92262664|NCT01072175|184427307|SUPERIORITY_OR_OTHER||Unconditional exact method|22.0|||||TWO_SIDED|95.0|2.5|40.7||||||Difference in response rate Arm3 - Arm1||40.7|2.5|
92262665|NCT01072175|184427308|SUPERIORITY_OR_OTHER||Unconditional exact method|-6.0|||||TWO_SIDED|95.0|-24.9|14.1||||||Difference in response rate Arm2- Arm1||14.1|-24.9|
92262666|NCT01072175|184427308|SUPERIORITY_OR_OTHER||Unconditional exact method|15.0|||||TWO_SIDED|95.0|-4.9|33.7||||||Difference in response rate Arm3 - Arm1||33.7|-4.9|
92262667|NCT01072175|184427309|SUPERIORITY_OR_OTHER||Response rate|6.0|||||TWO_SIDED|95.0|5.1|26.8||||||||26.8|5.1|
92262668|NCT01072175|184427310|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.0048|TWO_SIDED|95.0|0.38|0.87|||Log Rank||HRs were estimated using the Pike estimator.|||0.87|0.38|0.0048
92262669|NCT01072175|184427310|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.29|0.68|||Log Rank||HRs were estimated using the Pike estimator.|||0.68|0.29|<0.0001
92262670|NCT01072175|184427312|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.1667|TWO_SIDED|95.0|0.45|1.18|||Log Rank||HRs were estimated using the Pike estimator.|||1.18|0.45|0.1667
92262671|NCT01072175|184427312|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54||||0.0119|TWO_SIDED|95.0|0.32|0.9|||Log Rank||HRs were estimated using the Pike estimator.|||0.90|0.32|0.0119
92262672|NCT01072175|184427320|NON_INFERIORITY_OR_EQUIVALENCE|Following loge tranformation, Cmax of dabrafenib after repeat doses from the pooled data in Part B and D were analyzed by a linear model with the following fixed effects as categorical variables: Capsule type (Gelatin or HPMC), BRAF dose (75 or 150 mg BID), Capsule type by BRAF dose interaction, Day (Day 15 or 21), MEK dose (0, 1, 1.5 or 2 mg QD). Geometric mean ratio (HPMC/Gelatin) and the corresponding 90% CI were provided for BRAF dose level 150 mg BID.|Geometric Mean Ratio|1.51|||||TWO_SIDED|90.0|1.1|2.08|||||Geometric mean ratio (HPMC/Gelatin) and the corresponding 90% CI were provided for BRAF dose level 150 mg BID.|||2.08|1.10|
92262673|NCT01072175|184427322|NON_INFERIORITY_OR_EQUIVALENCE|Following loge transformation, AUC(0-tau) of dabrafenib was analyzed by a linear mixed effect model with dosing chort and day as fixed effects and subject as random effect. Based on the model, geometric mean ratio (Day 21 Dabrafenib 150 mg BID+Trametinib 2 mg QD/Day 21 Dabrafenib 150 mg BID alone) and the corresponding 90% confidence interval were provided.|Geometric Mean Ratio|1.23|||||TWO_SIDED|90.0|0.89|1.69|||||Geometric mean ratio (Day 21 Dabrafenib 150 mg BID+Trametinib 2 mg QD/Day 21 Dabrafenib 150 mg BID alone) and the corresponding 90% confidence interval were provided.|||1.69|0.89|
92262674|NCT01072175|184427322|NON_INFERIORITY_OR_EQUIVALENCE|Following loge tranformation, AUC(0-tau) of dabrafenib after repeat doses from the pooled data in Part B and D were analyzed by a linear model with the following fixed effects as categorical variables: Capsule type (Gelatin or HPMC), BRAF dose (75 or 150 mg BID), Capsule type by BRAF dose interaction, Day (Day 15 or 21), MEK dose (0, 1, 1.5, 2 or 2 mg QD). Geometric mean ratio (HPMC/Gelatin) and the corresponding 90% CI were then provided for BRAF dose level 150 mg BID.|Geometric Mean Ratio|1.1|||||TWO_SIDED|90.0|0.84|1.44|||||Geometric mean ratio (HPMC/Gelatin) and the corresponding 90% CI were provided for BRAF dose level 150 mg BID.|||1.44|0.84|
92262675|NCT02839330|184427356|EQUIVALENCE|Equivalence margin: The 2-sided 95% confidence interval (CI) of all the 3 pairwise comparisons of GMTs to fall between the predefined equivalence ranges of 0.667 and 1.5|GMT ratio|1.01|||||TWO_SIDED|95.0|0.9|1.13||||||aH5N1c Lot #1 vs. aH5N1c Lot #2||1.13|0.90|
92262676|NCT02839330|184427356|EQUIVALENCE|Equivalence margin: The 2-sided 95% CIs of all the 3 pairwise comparisons of GMTs to fall between the predefined equivalence ranges of 0.667 and 1.5|GMT ratio|0.96|||||TWO_SIDED|95.0|0.86|1.08||||||aH5N1c Lot #2 vs. aH5N1c Lot #3||1.08|0.86|
92285513|NCT00420238|184476070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.57||||0.401||95.0|-15.31|6.17|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||6.17|-15.31|0.401
92285514|NCT00420238|184476070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.45||||0.023||95.0|-23.19|-1.71|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-1.71|-23.19|0.023
92181530|NCT01367236|184261378|SUPERIORITY|||||||0.68|||||||Regression, Linear|||24 weeks||||0.68
92181531|NCT01367236|184261378|SUPERIORITY|||||||0.43|||||||Regression, Linear|||48 weeks||||0.43
92181532|NCT01367236|184261379|SUPERIORITY|||||||0.0009|||||||Regression, Linear|||||||0.0009
92181533|NCT02628626|184261404|SUPERIORITY|||||||0.85|||||||ANCOVA|||||||0.85
92181534|NCT02628626|184261405|SUPERIORITY|||||||0.24|||||||ANCOVA|||Approximately 4 weeks||||0.24
92285515|NCT00420238|184476070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.25||||0.01||95.0|-24.99|-3.51|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-3.51|-24.99|0.010
92285516|NCT00420238|184476072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.25||||0.127|TWO_SIDED|95.0|-12.03|1.53|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline as a covariate.||1.53|-12.03|0.127
92181535|NCT02628626|184261406|SUPERIORITY|||||||0.44|||||||ANCOVA|||Approximately 4 weeks||||0.44
92181536|NCT02628626|184261407|SUPERIORITY|||||||0.35|||||||ANCOVA|||||||0.35
92285517|NCT00420238|184476073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.914|TWO_SIDED|95.0|-8.23|7.38|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||7.38|-8.23|0.914
92285518|NCT00420238|184476073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.544||95.0|-10.21|5.41|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||5.41|-10.21|0.544
92181537|NCT02628626|184261408|SUPERIORITY|||||||0.56|||||||ANCOVA|||Approximately 4 weeks||||0.56
92181538|NCT02628626|184261409|SUPERIORITY|||||||0.55|||||||ANCOVA|||||||0.55
92181539|NCT02628626|184261410|SUPERIORITY|||||||0.11|||||||ANCOVA|||Small (staining only)||||0.11
92181540|NCT02628626|184261410|SUPERIORITY|||||||0.06|||||||ANCOVA|||Moderate (requires change of underwear)||||0.06
92181541|NCT02628626|184261410|SUPERIORITY|||||||0.36|||||||ANCOVA|||Large (requires complete change of clothes)||||0.36
92181542|NCT02628626|184261411|SUPERIORITY|||||||0.18|||||||ANCOVA|||||||0.18
92181543|NCT02628626|184261412|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||0.04
92181544|NCT02628626|184261413|SUPERIORITY|||||||0.29|||||||ANCOVA|||||||0.29
92181545|NCT02628626|184261414|SUPERIORITY|||||||0.39|||||||ANCOVA|||||||0.39
92181546|NCT02628626|184261415|SUPERIORITY|||||||0.07|||||||ANCOVA|||||||0.07
92181547|NCT02628626|184261416|SUPERIORITY|approximately 4 weeks post-treatment||||||0.12|||||||ANCOVA|||||||0.12
92181548|NCT02628626|184261417|SUPERIORITY|||||||0.67|||||||ANCOVA|||Lifestyle Score||||0.67
92181549|NCT02628626|184261417|SUPERIORITY|||||||0.8|||||||ANCOVA|||Coping Score||||0.80
92181550|NCT02628626|184261417|SUPERIORITY|||||||0.49|||||||ANCOVA|||Depression Score||||0.49
92181551|NCT02628626|184261417|SUPERIORITY|||||||0.6|||||||ANCOVA|||Embarrassment Score||||0.60
92181552|NCT02628626|184261418|SUPERIORITY|||||||0.78|||||||ANCOVA|||Approximately 4 weeks post-treatment||||0.78
92181553|NCT05116163|184261462|SUPERIORITY||Mean Difference (Final Values)|7.83|STANDARD_ERROR_OF_MEAN|2.05|<|0.001|TWO_SIDED||||||t-test, 2 sided||Difference in the mean of percent of quality metrics achieved in the intervention arm minus the control arm.|||||<0.001
92181554|NCT05116163|184261463|SUPERIORITY||Mean Difference (Final Values)|4.1||||0.1164|TWO_SIDED||||||t-test, 2 sided|||||||0.1164
92181555|NCT05116163|184261464|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.6781|TWO_SIDED||||||t-test, 2 sided||Intervention group mean - control group mean|||||0.6781
92181556|NCT05116163|184261465|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.4795|TWO_SIDED||||||t-test, 2 sided||Intervention group mean - control group mean|||||0.4795
92181557|NCT05116163|184261466|SUPERIORITY|||||||0.056|||||||Regression, Linear|||Comparison of 3-month vs. baseline adherence scores in patients of providers in the intervention arm vs. control||||0.056
92181558|NCT05116163|184261467|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.017|TWO_SIDED||||||t-test, 2 sided|||||||0.017
92181559|NCT05116163|184261468|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.3957|TWO_SIDED||||||t-test, 2 sided||Mean from intervention arm - control arm.|||||0.3957
92181560|NCT05116163|184261469|SUPERIORITY||Incidence Rate Ratio|1.02|||||TWO_SIDED|95.0|0.63|1.64||||||Comparing the incidence rate of ED visits for the intervention vs. control arms.||1.64|0.63|
92181561|NCT05116163|184261470|SUPERIORITY||Incidence Rate Ratio|1.21|||||TWO_SIDED|95.0|1.07|1.36||||||Incidence rate ratio comparing incidence rates of outpatient visits in the intervention vs. control arms.||1.36|1.07|
92181562|NCT05116163|184261471|SUPERIORITY||Incidence Rate Ratio|4.06|||||TWO_SIDED|95.0|1.69|9.73||||||Incidence rate ratio comparing the incidence rates of hospitalizations in the intervention vs. control arm patients.||9.73|1.69|
92181563|NCT05116163|184261472|SUPERIORITY|||||||0.3882|||||||t-test, 2 sided|||Post vs. pre IAT d-scores comparing the intervention vs. control arms.||||0.3882
92181564|NCT05116163|184261473|SUPERIORITY|||||||0.3615|||||||t-test, 2 sided|||Comparing post vs. pre IAT d-scores between the intervention and control groups.||||0.3615
92181565|NCT05116163|184261474|SUPERIORITY|||||||0.9432|||||||t-test, 2 sided|||Comparing post vs pre IAT d-scores in the intervention vs. control arms.||||0.9432
92181566|NCT05116163|184261475|SUPERIORITY|||||||0.1453|||||||t-test, 2 sided|||Post vs pre IAT d-scores for the intervention vs. control arms.||||0.1453
92181567|NCT05613907|184261509|SUPERIORITY||Mean Difference (Net)|-21.6|STANDARD_ERROR_OF_MEAN|5.885||0.005|TWO_SIDED|95.0|-37.05|-6.15|||ANOVA|||||-6.150|-37.050|0.005
92181568|NCT05613907|184261509|SUPERIORITY||Mean Difference (Net)|-17.8|STANDARD_ERROR_OF_MEAN|6.512||0.04|TWO_SIDED|95.0|-34.895|-0.705|||ANOVA|||||-0.705|-34.895|0.040
92262677|NCT02839330|184427356|EQUIVALENCE|Equivalence margin: The 2-sided 95% CIs of all the 3 pairwise comparisons of GMTs to fall between the predefined equivalence ranges of 0.667 and 1.5|GMT ratio|0.97|||||TWO_SIDED|95.0|0.87|1.09||||||aH5N1c Lot #1 vs. aH5N1c Lot #3||1.09|0.87|
92262678|NCT00218439|184427371|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92262679|NCT00218439|184427372|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|||||||Mixed Models Analysis|||||||0.006
92262680|NCT00218439|184427373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56|||||||Mixed Models Analysis|||||||0.56
92262681|NCT00218439|184427374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33|||||||Mixed Models Analysis|||||||0.33
92262682|NCT00218439|184427375|SUPERIORITY_OR_OTHER_LEGACY|||||||0.82|||||||Mixed Models Analysis|||||||0.82
92262683|NCT02615158|184427376|EQUIVALENCE|If the 95% confidence interval of the difference in the change over time does not include 0, it means that there is a significant difference in the change over time between the two groups.|Slope|0.07|STANDARD_ERROR_OF_MEAN|0.12||0.555|TWO_SIDED|95.0|-0.17|0.31||The alpha for statistical significance is set at 0.05.|Mixed Models Analysis||This is to compare change in maternal lifestyle group to child safety group.|H0: There are no differences between the maternal lifestyle and child safety groups in the change in BMI z-score over time. Mixed models included the interaction between time and intervention, accounting for clustering of the repeated measures within each individual.||0.31|-0.17|0.555
92262684|NCT02615158|184427376|EQUIVALENCE|95% CI|Slope|0.16|STANDARD_ERROR_OF_MEAN|0.12||0.2|TWO_SIDED|95.0|-0.08|0.39||Two-side test|Mixed Models Analysis||This is to compare the Responsive Parenting to the safety intervention group.|||0.39|-0.08|0.200
92262685|NCT02615158|184427377|EQUIVALENCE|95% confidence interval (CI) was estimated. If the 95% CI does not include 0, it means there is significant difference in the change over time between the two groups.|Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.32||0.739|TWO_SIDED|95.0|-0.74|0.52||The alpha for statistical significance is set at 0.05|Mixed Models Analysis||This is to compare maternal lifestyle to child safety group.|H0: There is no difference between maternal lifestyle and child safety groups in the change of BMI over time.||0.52|-0.74|0.739
92262686|NCT02615158|184427377|EQUIVALENCE|The 95% CI was estimated. If it does not include 0, it means that there is a statistically significant difference in the change over time between the two groups.|Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.32||0.904|TWO_SIDED|95.0|-0.66|0.59||The alpha for statistical significance was set at 0.05.|Mixed Models Analysis||This is to compare the responsive parenting group to the child safety group.|H0: There are no differences in the change over time between responsive parenting and child safety groups.||0.59|-0.66|0.904
92181569|NCT05613907|184261509|SUPERIORITY||Mean Difference (Net)|3.8|STANDARD_ERROR_OF_MEAN|3.668||0.94|TWO_SIDED|95.0|-5.829|13.429|||ANOVA|||||13.429|-5.829|0.940
92181570|NCT05613907|184261510|SUPERIORITY||Z statistic|-0.862||||0.388|TWO_SIDED||||||Wilcoxon Signed Ranks|||The null hypothesis is that there will be no significant difference in the EuroQol 5-D domains at 1 year compared to baseline.||||0.388
92181571|NCT05613907|184261511|SUPERIORITY||Z statistic|-0.033||||0.974|TWO_SIDED||||||Wilcoxon signed rank|||The null hypothesis is that there will be no statistical difference in patient self-reported ability to perform basic self-care||||0.974
92181572|NCT05613907|184261512|SUPERIORITY||Z statistic|-1.564||||0.118|TWO_SIDED||||||Wilcoxon signed rank|||The null hypothesis is no improvement in ability to perform usual activities at 1 year.||||0.118
92181573|NCT05613907|184261513|SUPERIORITY||Z statistic|-2.364||||0.018|TWO_SIDED||||||Wilcoxon signed rank|||||||0.018
92181574|NCT05613907|184261514|SUPERIORITY||Z statistic|-1.311||||0.19|TWO_SIDED|||||The null hypothesis is that there will be no difference in anxiety and/or depression compared to the initial visit.|Wilcoxon signed rank|||||||0.190
92181575|NCT05613907|184261515|SUPERIORITY||Mean Difference (Net)|-26.846|STANDARD_ERROR_OF_MEAN|8.604||0.027|TWO_SIDED|95.0|-50.762|-2.39|||ANOVA|||||-2.390|-50.762|0.027
92181576|NCT05613907|184261515|SUPERIORITY||Mean Difference (Net)|-27.615|STANDARD_ERROR_OF_MEAN|8.715||0.024|TWO_SIDED|95.0|-51.837|-3.394|||ANOVA|||||-3.394|-51.837|0.024
92181577|NCT05613907|184261515|SUPERIORITY||Mean Difference (Net)|-0.769|STANDARD_ERROR_OF_MEAN|4.535||1|TWO_SIDED|95.0|-13.374|11.836|||ANOVA|||||11.836|-13.374|1.000
92181578|NCT05613907|184261516|SUPERIORITY||Mean Difference (Net)|-14.27|STANDARD_ERROR_OF_MEAN|4.052||0.048|TWO_SIDED|95.0|-37.05|-6.15|||ANOVA|||||-6.150|-37.050|0.048
92181579|NCT05613907|184261516|SUPERIORITY||Median Difference (Final Values)|-3.12|STANDARD_ERROR_OF_MEAN|3.751||1|TWO_SIDED|95.0|-12.893|13.751|||ANOVA|||||13.751|-12.893|1.000
92181580|NCT05613907|184261516|SUPERIORITY||Mean Difference (Net)|12.26|STANDARD_ERROR_OF_MEAN|5.186||0.163|TWO_SIDED|95.0|-4.762|29.333|||ANOVA|||||29.333|-4.762|0.163
92262687|NCT02615158|184427378|EQUIVALENCE|The 95% confidence interval (CI) for the difference in the change over time was estimated. If it does not include 0, it indicates significant difference in the change over time.|Slope|3.31|STANDARD_ERROR_OF_MEAN|2.4||0.168|TWO_SIDED|95.0|-1.4|8.02||Alpha is set at 0.05.|Mixed Models Analysis|||H0 is that there is no difference between maternal lifestyle and child safety groups in the change of HEI 2015 score over time.||8.02|-1.4|0.168
92262688|NCT02615158|184427378|EQUIVALENCE|95% CI was estimated. If it does not include 0, it indicates that there is a significant difference in the change between the two groups.|Slope|0.82|STANDARD_ERROR_OF_MEAN|2.39||0.733|TWO_SIDED|95.0|-3.88|5.52|||Mixed Models Analysis||This is to compare the responsive feeding group to child safety group.|H0 is that there is no difference between the responsive parenting and child safety groups in the change of HEI score over time||5.52|-3.88|0.733
92262689|NCT02615158|184427379|EQUIVALENCE|The 95% CI was estimated. If it does not include 0, it indicates that there is significant difference in the change over time between the two groups.|Slope|3.3|STANDARD_ERROR_OF_MEAN|2.49||0.186|TWO_SIDED|95.0|-1.6|8.2||Alpha is set at 0.05.|Mixed Models Analysis||This is to compare the maternal lifestyle group to the child safety group.|Null hypothesis is that there are no differences between the two groups regarding the change of HEI 2015 score over time.||8.2|-1.6|0.186
92262690|NCT02615158|184427379|EQUIVALENCE|95% CI for the difference in change over time was estimated. If it does not include 0, it indicates that there is significant difference between the two groups.|Slope|-0.03|STANDARD_ERROR_OF_MEAN|2.51||0.99|TWO_SIDED|95.0|-4.97|4.91||Alpha is set to 0.05.|Mixed Models Analysis||This is to compare the responsive parenting group to child safety group.|H0 is there is no difference in the change of maternal HEI score over time between the two groups.||4.91|-4.97|0.990
92262691|NCT02615158|184427380|EQUIVALENCE|A 95% CI was estimated. If it does not include 0, it indicates significant difference in change over time between the two groups.|Slope|23.67|STANDARD_ERROR_OF_MEAN|11.03||0.034|TWO_SIDED|95.0|1.88|45.46||Alpha is set at 0.05.|Mixed Models Analysis||This is for maternal lifestyle group compared to safety control group.|Null hypothesis is there were no differences in the change over time for toddler MVPA across the two groups.||45.46|1.88|0.034
92262692|NCT02615158|184427380|EQUIVALENCE|H0 is that there is no difference between the change of MVPA over time between the two groups.|Slope|13.52|STANDARD_ERROR_OF_MEAN|10.89||0.216|TWO_SIDED|95.0|-7.98|35.03|||Mixed Models Analysis||This is to compare the responsive parenting group to child safety group.|||35.03|-7.98|0.216
92262693|NCT02615158|184427381|EQUIVALENCE|The 95% CI for the difference in the change between the two groups was estimated. If it does not include 0, it indicates that there is a significant difference by group in the change.|Slope|10.97|STANDARD_ERROR_OF_MEAN|4.82||0.024|TWO_SIDED|95.0|1.46|20.48|||Mixed Models Analysis||This is to compare the maternal lifestyle group to the child safety group.|H0 is that there is no difference in the change of maternal MVPA over time between the two groups.||20.48|1.46|0.024
92262694|NCT02615158|184427381|EQUIVALENCE|The 95% CI was estimated. If it does not include 0, it indicates that there is a significant difference by group in the difference.|Slope|0.98|STANDARD_ERROR_OF_MEAN|4.94||0.804|TWO_SIDED|95.0|-8.76|10.72|||Mixed Models Analysis||This is to compare responsive parenting group to child safety group.|H0 is that there is no significant difference in the change of maternal MVPA between the two groups.||10.72|-8.76|0.804
92262695|NCT02615158|184427382|EQUIVALENCE|The 95% CI was estimated. If it does not include 0, it indicates that there is a significant difference by group in the difference.|Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.21||0.056|TWO_SIDED|95.0|-0.78|0.06||Alpha is set at 0.05 for statistical significance.|Mixed Models Analysis||This is to compare maternal lifestyle group to the child safety group.|The 95% CI was estimated. If it does not include 0, it indicates that there is a significant difference by group in the difference.||0.06|-0.78|0.056
92262696|NCT02615158|184427382|EQUIVALENCE|Alpha is set at 0.05 to indicate statistical significance.|Slope|0.03|STANDARD_ERROR_OF_MEAN|0.21||0.896|TWO_SIDED|95.0|-0.39|0.45|||Mixed Models Analysis||This is to compare responsive parenting group to child safety group.|The 95% CI was estimated. If it does not include 0, it indicates that there is a significant difference by group in the difference.||0.45|-0.39|0.896
92262697|NCT02257970|184427384|EQUIVALENCE|The likelihood of rejecting the null hypothesis (equivalence between the two groups) was defined as P\<0.05|||||<|0.0001|||||||t-test, 2 sided|paired t-test||For the analysis, the 4-month post-minus-pre change in this score for ketoprofen was compared.||||<0.0001
92285519|NCT00420238|184476073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.21||||0.039||95.0|-16.02|-0.4|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-0.40|-16.02|0.039
92285520|NCT00420238|184476073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.54||||0.004||95.0|-19.35|-3.73|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-3.73|-19.35|0.004
92285521|NCT00420238|184476076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.86||||0.122|TWO_SIDED|95.0|-15.57|1.85|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||1.85|-15.57|0.122
92285522|NCT00420238|184476076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.45||||0.145||95.0|-15.16|2.26|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||2.26|-15.16|0.145
92285523|NCT00420238|184476076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.55||||0.005||95.0|-21.26|-3.84|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-3.84|-21.26|0.005
92285524|NCT00420238|184476076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.95||||0.008||95.0|-20.66|-3.24|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-3.24|-20.66|0.008
92285525|NCT00420238|184476080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.94||||0.139|TWO_SIDED|95.0|-13.84|1.96|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||1.96|-13.84|0.139
92285526|NCT00420238|184476081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.857|TWO_SIDED|95.0|-8.88|10.67|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||10.67|-8.88|0.857
92181581|NCT05080777|184261517|EQUIVALENCE|Group, Time, and Group x Time effect tests were performed using MLM.||||||0.295||||||.P-value shown is based on the Group x Time F statistic used in multilevel modeling (MLM)|Multilevel modeling (MLM)|||Null hypothesis was that there would be no group differences, no time differences, and no group x time differences, in changes over time between the two treatment groups. Because this was a pilot and feasibility study, no power calculations were conducted.||||0.295
92181582|NCT05080777|184261518|EQUIVALENCE|Group, time, and group x time effect tests were performed using multilevel modeling (MLM).||||||0.57||||||P-value shown is based on the group x time F statistic used in MLM.|MLM|||Null hypothesis was that there would be no group differences, no time differences, and no group x time differences, in changes over time between the two treatment groups. Because this was a pilot and feasibility study, no power calculations were conducted.||||0.570
92181583|NCT05080777|184261519|EQUIVALENCE|Group, time, and time x group effect tests were performed using multilevel modeling (MLM).||||||0.461||||||P-value shown is based on the group x time F statistic used in MLM.|MLM|||Null hypothesis was that there would be no group differences, no time differences, and no group x time differences, in changes over time between the two treatment groups. Because this was a pilot and feasibility study, no power calculations were conducted.||||0.461
92262698|NCT02257970|184427385|EQUIVALENCE|Pre-to-post comparison: the likelihood of rejecting the null hypothesis (equivalence between the two groups) was defined as P\<0.05|||||=|0.6|||||||t-test, 2 sided|Paired t-test||||||=0.6
92262699|NCT02257970|184427385|EQUIVALENCE|Pre-to-Post comparison: The likelihood of rejecting the null hypothesis (equivalence between the two groups) was defined as P\<0.05|||||=|0.01|||||||t-test, 2 sided|paired t-test||||||=0.01
92262700|NCT00883896|184427399|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-5.9||||0.558|TWO_SIDED|95.0|-25.0|13.3|||Cochran-Mantel-Haenszel|||P-value was assessed from 2-sided Cochran-Mantel-Haenszel (CMH) test stratified by anti-tumor necrosis factor (anti-TNF) prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||13.3|-25.0|0.558
92262701|NCT00883896|184427399|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-11.4||||0.251|TWO_SIDED|95.0|-30.1|7.3|||Cochran-Mantel-Haenszel|||P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.3|-30.1|0.251
92262702|NCT00883896|184427399|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-3.7||||0.707|TWO_SIDED|95.0|-21.7|14.4|||Cochran-Mantel-Haenszel|||P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||14.4|-21.7|0.707
92262703|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.1||||0.991|TWO_SIDED|95.0|-14.8|14.7|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||14.7|-14.8|0.991
92262704|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-4.8||||0.518|TWO_SIDED|95.0|-18.4|8.8|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||8.8|-18.4|0.518
92262705|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Perecent Difference|0.781||||0.63|TWO_SIDED|95.0|-16.9|9.8|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||9.8|-16.9|0.630
92262706|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|9.4||||0.295|TWO_SIDED|95.0|-8.3|27.0|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||27.0|-8.3|0.295
92262707|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Perecent Difference|-3.4||||0.686|TWO_SIDED|95.0|-19.3|12.5|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||12.5|-19.3|0.686
92262708|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.5||||0.772|TWO_SIDED|95.0|-13.2|18.2|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||18.2|-13.2|0.772
92262709|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|12.8||||0.201|TWO_SIDED|95.0|-6.5|32.0|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||32.0|-6.5|0.201
92262710|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-10.4||||0.256|TWO_SIDED|95.0|-27.3|6.5|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||6.5|-27.3|0.256
92262711|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|6.1||||0.519|TWO_SIDED|95.0|-11.4|23.5|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||23.5|-11.4|0.519
92262712|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|16.7||||0.094|TWO_SIDED|95.0|-1.9|35.2|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||35.2|-1.9|0.094
92262713|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.8||||0.76|TWO_SIDED|95.0|-14.4|20.1|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||20.1|-14.4|0.760
92262714|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.6||||0.95|TWO_SIDED|95.0|-16.8|18.0|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||18.0|-16.8|0.950
92262715|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|13.6||||0.185|TWO_SIDED|95.0|-5.9|33.0|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||33.0|-5.9|0.185
92182870|NCT02434328|184264727|OTHER||Difference in proportions|-1.1|||||TWO_SIDED|95.0|-7.7|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||5.4|-7.7|
92262716|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.2||||0.982|TWO_SIDED|95.0|-18.8|19.3|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||19.3|-18.8|0.982
92262717|NCT00883896|184427400|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-11.6||||0.223|TWO_SIDED|95.0|-29.0|5.8|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.8|-29.0|0.223
92262718|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.5||||0.885|TWO_SIDED|95.0|-6.8|5.8|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.8|-6.8|0.885
92262719|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|6.1||||0.18|TWO_SIDED|95.0|-3.4|15.6|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||15.6|-3.4|0.180
92262720|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-2.7||||0.277|TWO_SIDED|95.0|-6.5|1.1|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||1.1|-6.5|0.277
92181584|NCT03789656|184261553|OTHER|||||||0.6285|||||||Wilcoxon Signed Rank test|||The primary efficacy endpoint was completed with the Efficacy Analysis Set (EAS), which included all treated subjects in Group 1. The median (Interquartile range) for change from baseline in IGF-1xULN to Week 13/EoT and p-value from the Wilcoxon signed rank test were presented. Baseline was defined as the mean of all IGF-1xULN values prior to first dose. Last on treatment assessment was used for EoT if subject discontinued before Week 13.||||0.6285
92181585|NCT03789656|184261554|OTHER|||||||0.3877|||||||exact binomial test assuming the null pr|Null proportion = 0.5||||||0.3877
92181586|NCT05256797|184261559|SUPERIORITY||Cox Proportional Hazard|0.69|||||TWO_SIDED|95.0|0.66|0.71||||||Hazard ratio||0.71|0.66|
92181587|NCT04484623|184261566|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.37|0.73||P-Value presented to 3 decimal places from one-sided stratified Log-Rank test adjusting for the number of lines of prior therapy (1 vs. 2/3 vs. \>=4) and prior bortezomib (yes or no) according to IVRS strata.|Log Rank||Hazard ratio was estimated using a Cox Proportional Hazards model stratified by the number of lines of prior therapy (1 vs. 2/3 vs. \>=4) and prior bortezomib (yes or no) according to IVRS strata with a covariate of treatment.|||0.73|0.37|<0.001
92181588|NCT05886777|184261599|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 1, 4, respectively.|Geometric mean ratio|0.99|||||TWO_SIDED|97.5|0.782|1.249|||||GMRs and 2-sided confidence intervals (CIs) were calculated by exponentiating mean differences of logarithms of titers (Intervention Group \[Group 1\] minus Reference Group \[Group 4\]) and corresponding CIs (based on the Student t distribution).|||1.249|0.782|
92181589|NCT05886777|184261600|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 1, 4, respectively.|Geometric mean ratio|0.9|||||TWO_SIDED|97.5|0.697|1.162|||||GMRs and 2-sided CIs were calculated by exponentiating mean differences of the logarithms of titers (Intervention Group \[Group 1\] minus Reference Group \[Group 4\]) and corresponding CIs (based on the Student t distribution).|||1.162|0.697|
92181590|NCT05886777|184261601|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 was evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT: H0: ln(μ1)- ln(μ3) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 1, 3, respectively.|Geometric mean ratio|0.84|||||TWO_SIDED|97.5|0.605|1.168|||||GMRs and 2-sided CIs were calculated by exponentiating mean differences of the logarithms of titers (Intervention Group \[Group 1\] minus Reference Group \[Group 3\]) and corresponding CIs (based on the Student t distribution).|||1.168|0.605|
92181591|NCT05886777|184261602|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 was evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT: H0: ln(μ1)- ln(μ3) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 1, 3, respectively.|Geometric mean ratio|0.79|||||TWO_SIDED|97.5|0.618|1.014|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 1\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.014|0.618|
92181592|NCT05886777|184261603|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 1,5, respectively.|Geometric mean ratio|1.06|||||TWO_SIDED|97.5|0.785|1.423|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 1\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||1.423|0.785|
92181593|NCT05886777|184261604|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 1,5, respectively.|Geometric mean ratio|1.13|||||TWO_SIDED|97.5|0.909|1.402|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 1\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||1.402|0.909|
92262721|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|1.7||||0.74|TWO_SIDED|95.0|-7.9|11.3|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||11.3|-7.9|0.740
92262722|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.4||||0.934|TWO_SIDED|95.0|-9.3|10.1|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||10.1|-9.3|0.934
92262723|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.6||||0.876|TWO_SIDED|95.0|-7.7|6.4|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||6.4|-7.7|0.876
92262724|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-1.1||||0.842|TWO_SIDED|95.0|-11.4|9.2|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||9.2|-11.4|0.842
92262725|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|4.1||||0.509|TWO_SIDED|95.0|-8.1|16.3|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||16.3|-8.1|0.509
92262726|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|4.0||||0.504|TWO_SIDED|95.0|-7.0|15.0|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||15.0|-7.0|0.504
92262727|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|5.4||||0.373|TWO_SIDED|95.0|-6.3|17.0|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||17.0|-6.3|0.373
92262728|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-3.4||||0.499|TWO_SIDED|95.0|-12.0|5.2|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.2|-12.0|0.499
92262729|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|7.0||||0.244|TWO_SIDED|95.0|-4.2|18.3|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||18.3|-4.2|0.244
92262730|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.2||||0.979|TWO_SIDED|95.0|-15.0|14.6|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||14.6|-15.0|0.979
92262731|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-9.8||||0.166|TWO_SIDED|95.0|-21.8|2.2|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||2.2|-21.8|0.166
92262732|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.5||||0.947|TWO_SIDED|95.0|-13.2|14.2|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||14.2|-13.2|0.947
92262733|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|8.3||||0.286|TWO_SIDED|95.0|-7.1|23.8|||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||23.8|-7.1|0.286
92262734|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-1.6||||0.822|TWO_SIDED|95.0|-15.0|11.8|||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||11.8|-15.0|0.822
92262735|NCT00883896|184427401|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.1||||0.986|TWO_SIDED|95.0|-12.3|12.1|||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||12.1|-12.3|0.986
92262736|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.5||||0.205|TWO_SIDED|95.0|-2.3|7.4|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.4|-2.3|0.205
92262737|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.5||||0.188|TWO_SIDED|95.0|-2.3|7.3|||Cochran-Mantel-Haenszel|||Week 2:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.3|-2.3|0.188
92262738|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 2: Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||0.0|0.0|
92262739|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|1.1||||0.699|TWO_SIDED|95.0|-4.5|6.6|||Cochran-Mantel-Haenszel|||Week 4:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||6.6|-4.5|0.699
92262740|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|5.4||||0.155|TWO_SIDED|95.0|-3.0|13.8|||Cochran-Mantel-Haenszel|||Week 4:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||13.8|-3.0|0.155
92262741|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-1.0||||0.546|TWO_SIDED|95.0|-2.9|0.9|||Cochran-Mantel-Haenszel|||Week 4:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||0.9|-2.9|0.546
92262742|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.5||||0.205|TWO_SIDED|95.0|-2.3|7.4|||Cochran-Mantel-Haenszel|||Week 6:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.4|-2.3|0.205
92262743|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.2||||0.269|TWO_SIDED|95.0|-1.8|6.1|||Cochran-Mantel-Haenszel|||Week 6:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||6.1|-1.8|0.269
92262744|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.0||||0.723|TWO_SIDED|95.0|-1.6|5.6|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.6|-1.6|0.723
92262745|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.5||||0.205|TWO_SIDED|95.0|-2.3|7.4|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.4|-2.3|0.205
92262746|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 8: Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the cochran method.||0.0|0.0|
92262747|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|4.0||||0.125|TWO_SIDED|95.0|-1.3|9.4|||Cochran-Mantel-Haenszel|||Week 8:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||9.4|-1.3|0.125
92181594|NCT05886777|184261605|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 1,5, respectively.|Geometric mean ratio|1.05|||||TWO_SIDED|97.5|0.773|1.434|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 1\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||1.434|0.773|
92181595|NCT05886777|184261606|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 1,5, respectively.|Geometric mean ratio|1.11|||||TWO_SIDED|97.5|0.807|1.515|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 1\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||1.515|0.807|
92181596|NCT05886777|184261607|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A, RSV B as measured by NT:H0: ln(μ2)- ln(μ4) \<=ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 2, 4, respectively.|Geometric mean ratio|1.0|||||TWO_SIDED|97.5|0.769|1.288|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 2\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.288|0.769|
92181597|NCT05886777|184261608|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A, RSV B as measured by NT:H0: ln(μ2)- ln(μ4) \<=ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 2, 4, respectively.|Geometric mean ratio|1.09|||||TWO_SIDED|97.5|0.836|1.429|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 2\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.429|0.836|
92262748|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|5.0||||0.071|TWO_SIDED|95.0|-1.7|11.8|||Cochran-Mantel-Haenszel|||Week 10:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||11.8|-1.7|0.071
92262749|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.0||||0.317|TWO_SIDED|95.0|-1.2|5.1|||Cochran-Mantel-Haenszel|||Week 10:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.1|-1.2|0.317
92262750|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.0||||0.28|TWO_SIDED|95.0|-1.6|5.6|||Cochran-Mantel-Haenszel|||Week 10:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.6|-1.6|0.280
92262751|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.6||||0.892|TWO_SIDED|95.0|-7.6|8.8|||Cochran-Mantel-Haenszel|||Week 12:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||8.8|-7.6|0.892
92262752|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.5||||0.903|TWO_SIDED|95.0|-8.3|7.2|||Cochran-Mantel-Haenszel|||Week 12:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.2|-8.3|0.903
92262753|NCT00883896|184427402|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-1.7||||0.625|TWO_SIDED|95.0|-7.2|3.8|||Cochran-Mantel-Haenszel|||Week 12:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||3.8|-7.2|0.625
92262754|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.900
92262755|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.522|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.522
92262756|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.147|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.147
92262757|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.534|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.534
92262758|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.206|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.206
92262759|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.070
92262760|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.936|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.936
92262761|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.625|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.625
92262762|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.586|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.586
92262763|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.685|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.685
92262764|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.340
92262765|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.212|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.212
92262766|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.455|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.455
92262767|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.145|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.145
92262768|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.660
92262769|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.050
92262770|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.428|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.428
92262771|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.160
92262772|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.757|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.757
92262773|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.408|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.408
92262774|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.983|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.983
92262775|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.374|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.374
92262776|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.992|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.992
92262777|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.422|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.422
92262778|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.743|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.743
92262779|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.188|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.188
92262780|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.385|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.385
92262781|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.148|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.148
92262782|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.304|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.304
92181598|NCT05886777|184261609|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 will be evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT:H0: ln(μ2)- ln(μ3) \<= ln(0.5)where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 2,3, respectively.|Geometric mean ratio|0.84|||||TWO_SIDED|97.5|0.594|1.19|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 2\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.190|0.594|
92181599|NCT05886777|184261610|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 will be evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT:H0: ln(μ2)- ln(μ3) \<= ln(0.5)where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 2,3, respectively.|Geometric mean ratio|0.84|||||TWO_SIDED|97.5|0.632|1.125|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 2\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.125|0.632|
92181600|NCT05886777|184261611|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 7, 4, respectively.|Geometric mean ratio|1.42|||||TWO_SIDED|97.5|1.123|1.801|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.801|1.123|
92181601|NCT05886777|184261612|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 7, 4, respectively.|Geometric mean ratio|1.27|||||TWO_SIDED|97.5|0.977|1.651|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.651|0.977|
92181602|NCT05886777|184261613|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 will be evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT:H0: ln(μ2)- ln(μ3) \<= ln(0.5)where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 7,3, respectively.|Geometric mean ratio|0.86|||||TWO_SIDED|97.5|0.61|1.208|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.208|0.610|
92181603|NCT05886777|184261614|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 was evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT: H0: ln(μ1)- ln(μ3) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 7, 3, respectively.|Geometric mean ratio|1.01|||||TWO_SIDED|97.5|0.764|1.34|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.340|0.764|
92262783|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.552|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.552
92262784|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.494|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.494
92262785|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.421|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.421
92262786|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.418|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.418
92262787|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.235|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.235
92262788|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.268|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.268
92262789|NCT00883896|184427414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.957|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.957
92262790|NCT01177943|184427470|NON_INFERIORITY_OR_EQUIVALENCE|80-125% was used for bioequivalence (BE) criteria in terms of geometric means.|Ratio of Geometric LS Mean values|0.945|||||TWO_SIDED|90.0|0.858|1.04|||ANOVA|||||1.04|0.858|
92262791|NCT01177943|184427471|NON_INFERIORITY_OR_EQUIVALENCE|80-125% was used for bioequivalence (BE) criteria in terms of the ratio of geometric means.|Ratio of AUC(0-tlast) values|1.03|||||TWO_SIDED|90.0|1.0|1.07|||ANOVA|||||1.07|1.00|
92262792|NCT02467504|184427475|OTHER|||||||0.53|||||||Chi-squared|||||||0.530
92262793|NCT02467504|184427476|OTHER|||||||0.315|||||||Chi-squared|||||||0.315
92262794|NCT02467504|184427477|OTHER|||||||0.018|||||||Mixed Models Analysis|||||||0.018
92262795|NCT02467504|184427478|OTHER|||||||0.015|||||||Mixed Models Analysis|||||||0.015
92262796|NCT02467504|184427479|OTHER|Chi||||||0.474|||||||Chi-squared|||||||0.474
92262797|NCT02467504|184427480|OTHER|description of Treg cells in CD4+ T cells||||||0.665|||||||Mixed Models Analysis|||||||0.665
92262798|NCT02467504|184427481|OTHER|||||||0.616|||||||Chi-squared|||||||0.616
92262799|NCT02467504|184427482|OTHER|||||||0.616|||||||Chi-squared|||||||0.616
92262800|NCT02467504|184427483|OTHER|||||||0.2|||||||Chi-squared|||||||0.200
92262801|NCT02467504|184427484|OTHER|||||||0.373|||||||Chi-squared|||||||0.373
92262802|NCT02467504|184427485|OTHER|||||||0.565|||||||Chi-squared|||||||0.565
92262803|NCT02467504|184427486|OTHER|||||||0.221|||||||Wilcoxon (Mann-Whitney)|||||||0.221
92262804|NCT02467504|184427487|OTHER|||||||0.085|||||||Wilcoxon (Mann-Whitney)|||||||0.085
92262805|NCT02467504|184427488|OTHER|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.740
92262806|NCT02467504|184427489|OTHER|||||||0.881|||||||Mixed Models Analysis|||||||0.881
92262807|NCT02467504|184427490|OTHER|||||||0.422|||||||Mixed Models Analysis|||||||0.422
92262808|NCT02467504|184427491|OTHER|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||||||0.055
92262809|NCT02467504|184427492|OTHER|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
92262810|NCT02467504|184427493|OTHER|||||||0.156|||||||Wilcoxon (Mann-Whitney)|||||||0.156
92262811|NCT03982069|184427513|OTHER||||||<|0.001||||||All listed antigens|Chi-squared|||||||<0.001
92262812|NCT03982069|184427514|OTHER||||||<|0.001||||||All listed antigens|Chi-squared|||||||<0.001
92262813|NCT03982069|184427515|OTHER||||||<|0.001||||||Day 28 for all listed antigens|Chi-squared|||||||<0.001
92262814|NCT03982069|184427515|OTHER|||||||0.4||||||Day 0, A/H1N1-A/Brisbane|Chi-squared|||||||0.40
92262815|NCT03982069|184427515|OTHER|||||||0.36||||||Day 0 A/H1N1-A/Kansas egg grown virus|Chi-squared|||||||0.36
92262816|NCT03982069|184427515|OTHER|||||||0.08||||||Day 0 A/H1N1-A/Kansas cell grown virus|Chi-squared|||||||0.08
92262817|NCT03982069|184427515|OTHER|||||||0.91||||||Day 0 B/Victoria-B/Colorado|Chi-squared|||||||0.91
92262818|NCT03982069|184427515|OTHER|||||||0.31||||||Day 0 B/Yamagata-B/Phuket|Chi-squared|||||||0.31
92262819|NCT03982069|184427516|OTHER|||||||0.79||||||Day 0 A/H1N1-A/Brisbane|t-test, 2 sided|||||||0.79
92262820|NCT03982069|184427516|OTHER|||||||0.79||||||Day 0 A/H3N2-A/Kansas egg grown virus|t-test, 2 sided|||||||0.79
92262821|NCT03982069|184427516|OTHER|||||||0.56||||||Day 0 A/H3N2-A/Kansas cell grown virus|t-test, 2 sided|||||||0.56
92262822|NCT03982069|184427516|OTHER|||||||0.95||||||Day 0 B/Victoria-B/Colorado|t-test, 2 sided|||||||0.95
92262823|NCT03982069|184427516|OTHER|||||||0.44||||||Day 0 B/Yamagata-B/Phuket|t-test, 2 sided|||||||0.44
92262824|NCT03982069|184427516|OTHER||||||<|0.001||||||Day 28 for all listed variables|t-test, 2 sided|||||||<0.001
92262825|NCT03982069|184427517|OTHER|||||||0.83|||||||Chi-squared|Day 0: A/H1N1-A/Hawaii66-egg based antigen||||||0.83
92262826|NCT03982069|184427517|OTHER|||||||0.79|||||||Chi-squared|Day 0: A/H1N1-A/Hawaii70-cell based antigen||||||0.79
92262827|NCT03982069|184427517|OTHER|||||||0.65|||||||Chi-squared|Day 0: A/H1N1-A/Delaware||||||0.65
92262828|NCT03982069|184427517|OTHER|||||||0.06|||||||Chi-squared|Day 0: A/H3N2-A/Hong Kong||||||0.06
92181604|NCT05886777|184261615|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 7,5, respectively.|Geometric mean ratio|2.49|||||TWO_SIDED|97.5|1.914|3.232|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||3.232|1.914|
92262829|NCT03982069|184427517|OTHER|||||||0.98|||||||Chi-squared|Day 0: B/Victoria-B/Washington||||||0.98
92285527|NCT00420238|184476081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1||||0.304||95.0|-14.88|4.67|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||4.67|-14.88|0.304
92262830|NCT03982069|184427517|OTHER|||||||0.24|||||||Chi-squared|Day 0: B/Yamagata-B/Phuket||||||0.24
92262831|NCT03982069|184427517|OTHER||||||<|0.01|||||||Chi-squared|Day 28: A/H1N1-A/Hawaii66-egg based antigen, A/H1N1-A/Hawaii70-cell based antigen, A/H1N1-A/Delaware, B/Victoria-B/Washington, B/Yamagata-B/Phuket||||||<0.01
92262832|NCT03982069|184427517|OTHER|||||||0.66|||||||Chi-squared|A/H3N2-A/Hong Kong||||||0.66
92262833|NCT03982069|184427518|OTHER|||||||0.22||||||Day 0: A/H1N1-A/Hawaii66 egg based antigen|t-test, 2 sided|||||||0.22
92262834|NCT03982069|184427518|OTHER|||||||0.25||||||Day 0: A/H1N1-A/Hawaii70 cell based antigen|t-test, 2 sided|||||||0.25
92262835|NCT03982069|184427518|OTHER|||||||0.13||||||Day 0: A/H1N1-A/Delaware|t-test, 2 sided|||||||0.13
92262836|NCT03982069|184427518|OTHER|||||||0.06||||||Day 0: A/H3N2-A/Hong Kong|t-test, 2 sided|||||||0.06
92262837|NCT03982069|184427518|OTHER|||||||0.78||||||Day 0: B/Victoria-B/Washington|t-test, 2 sided|||||||0.78
92262838|NCT03982069|184427518|OTHER|||||||0.36||||||Day 0: B/Yamagata-B/Phuket|t-test, 2 sided|||||||0.36
92262839|NCT03982069|184427518|OTHER||||||<|0.0001||||||Day 28: A/H1N1-A/Hawaii66 egg based antigen, A/H1N1-A/Hawaii70 cell based antigen, A/H1N1-A/Delaware, B/Victoria-B/Washington, B/Yamagata-B/Phuket|t-test, 2 sided|||||||<0.0001
92262840|NCT03982069|184427518|OTHER|||||||0.01||||||Day 28: A/H3N2-A/Hong Kong|t-test, 2 sided|||||||0.01
92262841|NCT01682876|184427526|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 2 to 5 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenA|Vaccine Group Differences at Day 86|19.0|||||TWO_SIDED|97.5|10.0|28.9|||MN method|||Non-inferiority of seroresponse of two vaccinations vs.one vaccination for age cohort (2 to 5 years of age) for MenA||28.9|10|
92262842|NCT01682876|184427526|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 2 to 5 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenC|Vaccine Group Differences at Day 86|27.0|||||TWO_SIDED|97.5|16.9|37.7|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (2 to 5 years of age) for MenC||37.7|16.9|
92262843|NCT01682876|184427526|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 2 to 5 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenW|Vaccine Group Differences at Day 86|14.0|||||TWO_SIDED|97.5|1.4|26.7|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (2 to 5 years of age) for MenW||26.7|1.4|
92262844|NCT01682876|184427526|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 2 to 5 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for Men Y|Vaccine Group differences at Day 86|27.0|||||TWO_SIDED|97.5|15.6|37.6|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (2 to 5 years of age) for MenY||37.6|15.6|
92262845|NCT01682876|184427526|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 6 to 10 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenA|Vaccines Group Differences at Day 86|11.0|||||TWO_SIDED|97.5|1.7|21.3|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (6 to 10 years of age) for MenA||21.3|1.7|
92285528|NCT00420238|184476081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9||||0.047||95.0|-19.68|-0.13|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-0.13|-19.68|0.047
92262846|NCT01682876|184427526|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 6 to 10 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenC|Vaccines Group differences at Day 86|19.0|||||TWO_SIDED|97.5|9.9|29.2|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (6 to 10 years of age) for MenC||29.2|9.9|
92262847|NCT01682876|184427526|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 6 to 10 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenW|Vaccines Group Differences at Day 86|4.0|||||TWO_SIDED|97.5|-8.6|17.4|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (6 to 10 years of age) for MenW||17.4|-8.6|
92262848|NCT01682876|184427526|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 6 to 10 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenY|Vaccines Group Differences at Day 86|29.0|||||TWO_SIDED|97.5|18.4|40.0|||MN method|||Non-inferiority of seroresponse for two vaccinations vs. one vaccination for age cohort (6 to 10 years of age) for MenY||40|18.4|
92262849|NCT01682876|184427527|SUPERIORITY_OR_OTHER||Vaccine Group Differences at Day 86|18.0|||||TWO_SIDED|98.75|9.1|28.0|||MN method|||Superiority for age cohort (2 through 5 years of age) for MenA was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenA||28|9.1|
92262850|NCT01682876|184427527|SUPERIORITY_OR_OTHER||Vaccine Group Differences at Day 86|28.0||||||98.75|17.1|38.7|||MN method|||Superiority for age cohort (2 through 5 years of age) for MenC was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenC||38.7|17.1|
92262851|NCT01682876|184427527|SUPERIORITY_OR_OTHER||Vaccine Group differences at Day 86|14.0|||||TWO_SIDED|98.75|1.0|27.1|||MN method|||Superiority for age cohort (2 through 5 years of age) for MenW was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenW||27.1|1|
92262852|NCT01682876|184427527|SUPERIORITY_OR_OTHER||Vaccine groups Differences at Day 86|28.0|||||TWO_SIDED|98.75|16.2|39.3|||MN method|||Superiority for age cohort (2 through 5 years of age) for MenY was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenY||39.3|16.2|
92262853|NCT01682876|184427527|SUPERIORITY_OR_OTHER||Vaccine groups differences at Day 86|11.0|||||TWO_SIDED|98.75|1.0|21.2|||MN method|||Superiority for age cohort (6 through 10 years of age) for MenA was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenA||21.2|1|
92262854|NCT01682876|184427527|SUPERIORITY_OR_OTHER||Vaccine Group differences at Day 86|18.0|||||TWO_SIDED|97.5|9.5|27.1|||MN method|||Superiority for age cohort (6 through 10 years of age) for MenC was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenC||27.1|9.5|
92262855|NCT01682876|184427527|SUPERIORITY_OR_OTHER||Vaccine Group Differences at Day 86|5.0|||||TWO_SIDED|98.75|-8.4|18.8|||MN method|||Superiority for age cohort (6 through 10 years of age) for MenW was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenW||18.8|-8.4|
92262856|NCT01682876|184427527|SUPERIORITY_OR_OTHER||Vaccine group Differences at Day 86|29.0|||||TWO_SIDED|98.75|17.0|39.6|||MN method|||Superiority for age cohort (6 through 10 years of age) for MenY was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenY||39.6|17|
92262857|NCT01682876|184427532|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.3|||||TWO_SIDED|95.0|1.17|4.53||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced erythema in the two doses versus in the one dose of MenACWY-CRM||4.53|1.17|
92262858|NCT01682876|184427532|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.75|||||TWO_SIDED|95.0|1.18|6.36||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced induration in the two doses versus in the one dose of MenACWY-CRM||6.36|1.18|
92262859|NCT01682876|184427532|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.85|1.34||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced tenderness in the two doses versus in the one dose of MenACWY-CRM||1.34|0.85|
92262860|NCT01682876|184427532|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.54|1.42||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced change in eating habits in the two doses versus in the one dose of MenACWY-CRM||1.42|0.54|
92287127|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.241|||<|0.001|TWO_SIDED|95.0|0.187|0.295|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.295|0.187|<0.001
92181605|NCT05886777|184261616|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 7,5, respectively.|Geometric mean ratio|1.3|||||TWO_SIDED|97.5|1.049|1.612|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||1.612|1.049|
92181606|NCT05886777|184261617|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 7,5, respectively.|Geometric mean ratio|1.58|||||TWO_SIDED|97.5|1.155|2.165|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||2.165|1.155|
92181607|NCT05886777|184261618|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 7,5, respectively.|Geometric mean ratio|3.49|||||TWO_SIDED|97.5|2.64|4.604|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||4.604|2.640|
92181608|NCT05886777|184261619|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 6, 4, respectively.|Geometric mean ratio|1.43|||||TWO_SIDED|97.5|1.131|1.808|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 6\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.808|1.131|
92181609|NCT05886777|184261620|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 6, 4, respectively.|Geometric mean ratio|1.37|||||TWO_SIDED|97.5|1.06|1.773|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 6\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.773|1.060|
92262861|NCT01682876|184427532|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.76|1.52||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced sleepiness in the two doses versus in the one dose of MenACWY-CRM||1.52|0.76|
92262862|NCT01682876|184427532|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.74|1.43||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced irritability in the two doses versus in the one dose of MenACWY-CRM||1.43|0.74|
92262863|NCT01682876|184427532|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.33|1.74||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced fever (≥38 °C) in the two doses versus in the one dose of MenACWY-CRM||1.74|0.33|
92262864|NCT01682876|184427533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.43|||||TWO_SIDED|95.0|0.77|2.65||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced erythema in the two doses versus in the one dose of MenACWY-CRM||2.65|0.77|
92262865|NCT01682876|184427533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.49|||||TWO_SIDED|95.0|0.81|2.74||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced induration in the two doses versus in the one dose of MenACWY-CRM||2.74|0.81|
92262866|NCT01682876|184427533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.27|||||TWO_SIDED|95.0|1.04|1.55||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced pain in the two doses versus in the one dose of MenACWY-CRM||1.55|1.04|
92262867|NCT01682876|184427533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.81|||||TWO_SIDED|95.0|0.98|3.33||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced loss of appetite in the two doses versus in the one dose of MenACWY-CRM||3.33|0.98|
92181610|NCT05886777|184261621|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 will be evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT:H0: ln(μ2)- ln(μ3) \<= ln(0.5)where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 6,3, respectively.|Geometric mean ratio|0.94|||||TWO_SIDED|97.5|0.673|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 6\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.300|0.673|
92181611|NCT05886777|184261622|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 will be evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT:H0: ln(μ2)- ln(μ3) \<= ln(0.5)where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 6,3, respectively.|Geometric mean ratio|0.97|||||TWO_SIDED|97.5|0.74|1.281|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 6\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.281|0.740|
92181612|NCT04172675|184261641|SUPERIORITY||Hazard Ratio (HR)|0.28|||=|0.0007|TWO_SIDED|95.0|0.13|0.61|||Unstratified Log rank||Hazard ratio and 95% CI were estimated using a Cox proportional hazards regression model.|||0.61|0.13|=0.0007
92181613|NCT00378898|184261648|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||.047
92181614|NCT01429454|184261653|SUPERIORITY||Cox Proportional Hazard|0.36||||0.51|TWO_SIDED||||||Chi-squared|||||||.51
92262868|NCT01682876|184427533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.29|||||TWO_SIDED|95.0|0.77|2.17||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced nausea in the two doses versus in the one dose of MenACWY-CRM||2.17|0.77|
92262869|NCT01682876|184427533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.65|||||TWO_SIDED|95.0|1.06|2.57||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced fatigue in the two doses versus in the one dose of MenACWY-CRM||2.57|1.06|
92262870|NCT01682876|184427533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.37|||||TWO_SIDED|95.0|0.99|1.89||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced myalgia in the two doses versus in the one dose of MenACWY-CRM||1.89|0.99|
92262871|NCT01682876|184427533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.07|||||TWO_SIDED|95.0|0.97|4.42||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced arthralgia in the two doses versus in the one dose of MenACWY-CRM||4.42|0.97|
92262872|NCT01682876|184427533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.83|||||TWO_SIDED|95.0|1.22|2.74||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced headache in the two doses versus in the one dose of MenACWY-CRM||2.74|1.22|
92262873|NCT01682876|184427533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.48|2.68||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced fever (≥38 °C) in the two doses versus in the one dose of MenACWY-CRM||2.68|0.48|
92262874|NCT01020812|184427544|SUPERIORITY_OR_OTHER||proportion of participants|0.286|||||TWO_SIDED|95.0|0.031|0.636|||||The data was analyzed in a competing risk model with death as a competing risk. The proportion of 0.286 is the cumulative incidence function at 12 months.|The data was analyzed in a competitive risk model with the cumulative incidence function as the estimator. Death and other progression were competitive risks.||0.636|0.031|
92262875|NCT01020812|184427545|SUPERIORITY_OR_OTHER||probability|0.4|||||TWO_SIDED||||||||This is the overall survival probability at 18 months.|The data was analyzed using the Kaplan Meier estimator.||||
92262876|NCT05040295|184427549|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Ratio of adjust geometric means|102.5|||||TWO_SIDED|90.0|94.21|111.51|||||Reference = Treatment A Test = Treatment B Ratio=Test/Reference|AUCinf was analyzed using a mixed effects model with sequence and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||111.51|94.21|
92262877|NCT05040295|184427549|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Ratio of adjust geometric means|106.65|||||TWO_SIDED|90.0|100.07|113.66|||||Reference = Treatment A Test = Treatment C Ratio=Test/Reference|AUCinf was analyzed using a mixed effects model with sequence and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||113.66|100.07|
92181615|NCT01429454|184261654|SUPERIORITY||||||>|0.1|||||||Mixed Models Analysis|||||||>0.10
92181616|NCT02000752|184261655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.98|||<|0.001|ONE_SIDED|95.0|7.59||||t-test, 1 sided||||||7.59|<0.001
92181617|NCT02000752|184261656|SUPERIORITY_OR_OTHER||difference in percentage|0.0||||1|TWO_SIDED|95.0|||||t-test, 2 sided|||||||1
92181618|NCT02000752|184261657|SUPERIORITY_OR_OTHER||difference in percentages|2.13||||0.16|ONE_SIDED|95.0|1.01||||t-test, 1 sided||||||1.01|0.16
92181619|NCT02000752|184261658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.84||||0.2|ONE_SIDED|95.0|0.84||||t-test, 2 sided||||||0.84|0.2
92262878|NCT05040295|184427550|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Ratio of adjust geometric means|101.12|||||TWO_SIDED|90.0|88.25|115.87|||||Reference = Treatment A Test = Treatment B Ratio=Test/Reference|Cmax was analyzed using a mixed effects model with sequence and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||115.87|88.25|
92262879|NCT05040295|184427550|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Ratio of adjust geometric means|90.11|||||TWO_SIDED|90.0|78.49|103.44|||||Reference = Treatment A Test = Treatment C Ratio=Test/Reference|Cmax was analyzed using a mixed effects model with sequence and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||103.44|78.49|
92262880|NCT00953849|184427553|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|A Student's t test was performed to determine significance of differences between each of two groups.||||||<0.05
92262881|NCT00953849|184427554|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|A Student's t test was performed to determine significance of differences between each of two groups.||||||<0.05
92262882|NCT00953849|184427555|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|A Student's t test was performed to determine significance of differences between each of two groups.||||||<0.05
92262883|NCT00953849|184427556|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|A Student's t test was performed to determine significance of differences between each of two groups.||||||<0.05
92262884|NCT01801475|184427560|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||The nonlinear mixed-effects modeling software program NONMEM (version VII; Icon Development Solutions, Ellicott City, MD) was used to estimate the pharmacokinetic parameters. The first-order conditional estimation (FOCE) with η-ε interaction was used for the estimation process. Volume and clearance in this model is computed as a mean of the study population (pregnant and non-pregnant women) with a log-normal distribution in the population.||||<0.05
92262885|NCT01801475|184427561|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||The nonlinear mixed-effects modeling software program NONMEM (version VII; Icon Development Solutions, Ellicott City, MD) was used to estimate the pharmacokinetic parameters. The first-order conditional estimation (FOCE) with η-ε interaction was used for the estimation process. Volume and clearance in this model is computed as a mean of the study population (pregnant and non-pregnant women) with a log-normal distribution in the population.||||<0.05
92262886|NCT00421928|184427569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.05||95.0|-1.04|-0.33|||ANCOVA|Analysis of covariance (ANCOVA) model was used with treatment and pooled analysis center as factors and baseline pain intensity score as a covariate.||The primary null hypothesis to be tested for the study was that the tapentadol ER group was not different from the placebo group for the primary endpoint. Assuming the mean treatment group difference of 0.7 with an SD of 2.7, 314 subjects per treatment group were estimated to provide 90% power to show that the tapentadol ER group was statistically different from placebo at an alpha level of 0.05. The total number of subjects to be randomly assigned to a treatment group for the study was 942.||-0.33|-1.04|<0.05
92262887|NCT00444028|184427581|OTHER|"The units on such analyses are generally those of slope (rise over run), with 1.000 being perfect. Although any positive slope might be considered clinically useful, a 90% CI within the criteria of 0.800-1.250 may be considered a delivery system which is as good as it gets."|Slope|0.909|||||TWO_SIDED|90.0|0.832|0.987||||||Dose proportionality by power analysis examines the linear regression of the log-AUC versus log-Dose on a by-patient basis across all doses administered. The slope and 90% confidence interval (CI) provide a clear, quantitative (best practices) assessment of the relationship of drug delivered to dose administered.||0.987|0.832|
92262888|NCT00346775|184427584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.517|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||||0.3|-0.6|0.517
92262889|NCT02138227|184427588|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92262890|NCT02138227|184427589|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|F (2, 1574)||||||<0.01
92262891|NCT03947333|184427657|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.221|TWO_SIDED||||||t-test, 1 sided|||||||0.221
92262892|NCT03947333|184427657|OTHER||fixed-effects estimate of intervention|0.846||||0.559|TWO_SIDED|95.0|-1.99|3.68|||Mixed Models Analysis|||Mixed effects model||3.68|-1.99|0.559
92262893|NCT03947333|184427658|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.532|TWO_SIDED||||||t-test, 1 sided|||||||0.532
92262894|NCT03947333|184427659|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.086|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.086
92262895|NCT03947333|184427659|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.562|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.562
92181620|NCT03392194|184261730|OTHER|The purpose of this small pilot randomized control trial (RCT) was to assess feasibility and acceptability of conducting community based sleep hygiene and yoga interventions, to be scaled and tested in a future, larger RCT.|Mean Difference (Net)|-2.02||||0.932|TWO_SIDED|95.0|-46.35|50.39|||t-test, 2 sided|Due to main findings, analysis to explore potential mediators of effect were not pursued, despite original plan to explore explanatory variables.||Null hypothesis: There is no difference in change in sleep duration between the two intervention arms.||50.39|-46.35|0.932
92181621|NCT00918333|184261731|SUPERIORITY_OR_OTHER_LEGACY||Maximum Tolerated Dose (mg)|40.0|||||TWO_SIDED|||||||||||||
92262896|NCT03947333|184427659|OTHER||fixed-effects estimate of intervention|0.348||||0.451|TWO_SIDED|95.0|-0.557|1.254|||Mixed Models Analysis|||Mixed Effects Model||1.254|-0.557|0.451
92262897|NCT03947333|184427660|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.27|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.270
92262898|NCT03947333|184427660|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.299|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.299
92262899|NCT03947333|184427660|OTHER||fixed-effects estimate of intervention|0.1||||0.917|TWO_SIDED|95.0|-1.786|1.986|||Mixed Models Analysis|||Mixed effects model||1.986|-1.786|0.917
92262900|NCT03947333|184427661|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.093|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.093
92262901|NCT03947333|184427661|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.034|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.034
92262902|NCT03947333|184427661|OTHER||fixed-effects estimate of intervention|0.242||||0.103|TWO_SIDED|95.0|-0.049|0.533|||Mixed Models Analysis|||Mixed Effects Model||0.533|-0.049|0.103
92262903|NCT03947333|184427662|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.116|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.116
92262904|NCT03947333|184427662|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.009|TWO_SIDED||||||t-test, 1 sided|||||||0.009
92262905|NCT03947333|184427662|OTHER||fixed-effects estimate of intervention|0.183||||0.178|TWO_SIDED|95.0|-0.084|0.451|||Mixed Models Analysis|||Mixed Effects Model||0.451|-0.084|0.178
92262906|NCT03947333|184427663|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.188|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.188
92262907|NCT03947333|184427663|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.749|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.749
92262908|NCT03947333|184427663|OTHER||fixed-effects estimate of intervention|0.031||||0.847|TWO_SIDED|95.0|-0.288|0.351|||Mixed Models Analysis|||Mixed Effects Model||0.351|-0.288|0.847
92262909|NCT03947333|184427664|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.182|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.182
92262910|NCT03947333|184427664|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.158|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.158
92262911|NCT03947333|184427664|OTHER||fixed-effects estimate of intervention|0.107||||0.612|TWO_SIDED|95.0|-0.305|0.519|||Mixed Models Analysis|||Mixed Effects Model||0.519|-0.305|0.612
92262912|NCT03947333|184427665|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.97|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.970
92262913|NCT03947333|184427665|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.786|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.786
92262914|NCT03947333|184427665|OTHER||fixed-effects estimate of intervention|-0.088||||0.67|TWO_SIDED|95.0|-0.493|0.317|||Mixed Models Analysis|||Mixed Effects Model||0.317|-0.493|0.670
92262915|NCT03947333|184427666|SUPERIORITY||Median Difference (Final Values)|0.0||||0.478|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.478
92262916|NCT03947333|184427666|SUPERIORITY||Mean Difference (Net)|-0.2||||0.666|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.666
92262917|NCT03947333|184427666|OTHER||fixed-effects estimate of intervention|-0.15||||0.601|TWO_SIDED|95.0|-0.713|0.413|||Mixed Models Analysis|||Mixed Effects Model||0.413|-0.713|0.601
92262918|NCT03947333|184427667|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.654|TWO_SIDED||||||t-test, 1 sided|||||||0.654
92262919|NCT03947333|184427668|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.485|TWO_SIDED||||||t-test, 1 sided|||||||0.485
92262920|NCT03947333|184427669|OTHER|||||||0.48|||||||McNemar|||||||0.480
92262921|NCT03947333|184427669|OTHER|||||||0.023|||||||McNemar|||||||0.023
92262922|NCT03947333|184427670|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.542|TWO_SIDED||||||t-test, 1 sided|||||||0.542
92262923|NCT02898662|184427676|OTHER|The null hypothesis was that during the 52-week double-blind treatment period, the time to LOAC in the AZD1419 arm was equal to the corresponding time to LOAC in the placebo arm.|Hazard Ratio (HR)|1.05||||0.5722|TWO_SIDED|95.0|0.59|1.87||1-sided p-value|Regression, Cox||Hazard ratio \< 1 favours AZD1419 over placebo.|Comparison between groups for time to LOAC. Cox regression model analysis with age and gender included as covariates.||1.87|0.59|0.5722
92262924|NCT02898662|184427677|OTHER||Odds Ratio (OR)|1.86||||0.2006|TWO_SIDED|95.0|0.72|4.79||2-sided p-value|Generalized estimating equation analysis|||Comparison between groups for participants experiencing LOAC. Odds ratio was estimated using a generalized linear model based on a generalized estimating equation approach fitting treatment, visit and age and gender as covariates.||4.79|0.72|0.2006
92262925|NCT02898662|184427678|OTHER||LS Mean difference|-0.02||||0.8166|TWO_SIDED|95.0|-0.22|0.17||2-sided p-value|Repeated measures analysis|||Comparison between groups for ACQ-5 score. Repeated measures analysis.||0.17|-0.22|0.8166
92262926|NCT02898662|184427679|OTHER||LS Mean difference|-0.03||||0.8412|TWO_SIDED|95.0|-0.32|0.26||2-sided p-value|Repeated measures analysis|||Comparison between groups for asthma daily diary score. Repeated measures analysis.||0.26|-0.32|0.8412
92181622|NCT02927249|184261760|SUPERIORITY||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.91|1.56||||||||1.56|0.91|
92181623|NCT02927249|184261761|SUPERIORITY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.74|1.69||||||||1.69|0.74|
92181624|NCT02927249|184261762|SUPERIORITY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.83|1.52||||||||1.52|0.83|
92262927|NCT02898662|184427680|OTHER|The null hypothesis was that the time to moderate or severe exacerbation was not different between AZD1419 and placebo.|Hazard Ratio (HR)|0.8||||0.5477|TWO_SIDED|95.0|0.38|1.67||2-sided p-value|Regression, Cox||Hazard ratio \< 1 favours AZD1419 over placebo.|Comparison between groups for time to moderate or severe asthma exacerbation. Cox regression model analysis with age and gender included as covariates.||1.67|0.38|0.5477
92262928|NCT02898662|184427680|OTHER||Odds Ratio (OR)|0.88||||0.7294|TWO_SIDED|95.0|0.41|1.86||2-sided p-value|Generalized estimating equation analysis|||Comparison between groups for participants with moderate or severe asthma exacerbation. Odds ratio was estimated using a generalized linear model based on a generalized estimating equation approach fitting treatment and visit as covariates.||1.86|0.41|0.7294
92262929|NCT02898662|184427682|OTHER||LS Mean difference|0.06||||0.3764|TWO_SIDED|95.0|-0.08|0.2||2-sided p-value|Repeated measures analysis|||Comparison between groups for pre-BD FEV1. Repeated measures analysis.||0.20|-0.08|0.3764
92262930|NCT02898662|184427682|OTHER||LS Mean difference|-0.03||||0.7013|TWO_SIDED|95.0|-0.17|0.11||2-sided p-value|Repeated measures analysis|||Comparison between groups for post-BD FEV1. Repeated measures analysis.||0.11|-0.17|0.7013
92262931|NCT02898662|184427683|OTHER||LS Mean difference|-0.32||||0.9686|TWO_SIDED|95.0|-16.54|15.9||2-sided p-value|Repeated measures analysis|||Comparison between groups for PEF. Repeated measures analysis.||15.90|-16.54|0.9686
92262932|NCT02898662|184427684|OTHER||LS Mean difference|-2.02||||0.5403|TWO_SIDED|95.0|-8.55|4.52||2-sided p-value|Repeated measures analysis|||Comparison between groups for FeNO. Repeated measures analysis.||4.52|-8.55|0.5403
92262933|NCT00399542|184427685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||||||No adjustment|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||70.6% improvement in response with lubiprostone at 90% statistical power||||0.023
92262934|NCT00399542|184427686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.391|||||||van Elteren nonparametric test|Adjusted for center||||||0.391
92262935|NCT00399542|184427687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.151|||||||van Elteren nonparametric test|Adjusted for center||||||0.151
92181625|NCT01706159|184261837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.16||||0.3056||90.0|0.01|3.05||p-value was not adjusted for multiple comparisons.|Regression, Logistic|||A sample size of 90 subjects, with a 2:1 (active:placebo) randomization ratio, would ensure 80% power to detect a difference between active treatment and placebo at Week 8 with a 2-sided significance level of 10% based on a Fisher's exact test.||3.05|0.01|0.3056
92262936|NCT00399542|184427688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.163|||||||van Elteren nonparametric test|Adjusted for center||||||0.163
92262937|NCT00399542|184427689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.185|||||||van Elteren nonparametric test|Adjusted for center||||||0.185
92262938|NCT00399542|184427690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Cochran-Mantel-Haenszel|||||||0.300
92262939|NCT00399542|184427691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.303||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.303
92262940|NCT00399542|184427692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.047
92262941|NCT00399542|184427693|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.008
92262942|NCT00399542|184427694|SUPERIORITY_OR_OTHER_LEGACY|||||||0.663|||||||van Elteren nonparametric test|Adjusted for center||||||0.663
92262943|NCT00399542|184427695|SUPERIORITY_OR_OTHER_LEGACY|||||||0.224|||||||van Elteren nonparametric test|Adjusted for center||||||0.224
92285529|NCT00420238|184476081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.65||||0.007||95.0|-23.43|-3.88|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-3.88|-23.43|0.007
92262944|NCT00399542|184427696|SUPERIORITY_OR_OTHER_LEGACY|||||||0.271|||||||van Elteren nonparametric test|Adjusted for center||||||0.271
92262945|NCT00399542|184427697|SUPERIORITY_OR_OTHER_LEGACY|||||||0.945|||||||van Elteren nonparametric test|Adjusted for center||||||0.945
92181626|NCT03371017|184261842|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.5891|TWO_SIDED|95.0|0.73|1.2|||Log Rank|||||1.20|0.73|0.5891
92181627|NCT03371017|184261843|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6139|TWO_SIDED|95.0|0.76|1.18|||Log Rank|||||1.18|0.76|0.6139
92262946|NCT00399542|184427698|SUPERIORITY_OR_OTHER_LEGACY|||||||0.352|||||||van Elteren nonparametric test|||||||0.352
92262947|NCT00399542|184427699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|||||||van Elteren nonparametric test|Adjusted for center||||||0.180
92285530|NCT00420238|184476084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.003|TWO_SIDED|95.0|0.06|0.31|||ANCOVA||Least squares mean difference = mean difference final value.|Vital Capacity: Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||0.31|0.06|0.003
92181628|NCT03371017|184261844|SUPERIORITY||Difference in Event Free Rate|2.69||||0.6264|TWO_SIDED|95.0|-8.14|13.51|||Z-test|||||13.51|-8.14|0.6264
92181629|NCT03371017|184261845|SUPERIORITY||Difference in Event Free Rate|3.76||||0.475|TWO_SIDED|95.0|-6.55|14.07|||Z-test|||||14.07|-6.55|0.4750
92181630|NCT03371017|184261846|SUPERIORITY||Difference in Event Free Rate|1.15||||0.8315|TWO_SIDED|95.0|-9.45|11.75|||Z-test|||||11.75|-9.45|0.8315
92181631|NCT03371017|184261847|SUPERIORITY||Difference in Event Free Rate|1.37||||0.7738|TWO_SIDED|95.0|-7.96|10.69|||Z-test|||||10.69|-7.96|0.7738
92181632|NCT03371017|184261848|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1387|TWO_SIDED|95.0|0.67|1.06|||Log Rank|||||1.06|0.67|0.1387
92181633|NCT03371017|184261849|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.7317|TWO_SIDED|95.0|0.78|1.19|||Log Rank|||||1.19|0.78|0.7317
92181634|NCT03371017|184261850|SUPERIORITY||Difference in ORR|11.31||||0.0337|TWO_SIDED|95.0|0.24|22.37|||Cochran-Mantel-Haenszel|||||22.37|0.24|0.0337
92262948|NCT00399542|184427700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.275|||||||van Elteren nonparametric test|Adjusted for center||||||0.275
92181635|NCT03371017|184261851|SUPERIORITY||Difference in ORR|-1.15||||0.9755|TWO_SIDED|95.0|-11.63|9.34|||Cochran-Mantel-Haenszel|||||9.34|-11.63|0.9755
92181636|NCT03371017|184261852|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.1359|TWO_SIDED|95.0|0.48|1.11|||Log Rank|||||1.11|0.48|0.1359
92285531|NCT00420238|184476084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.006|TWO_SIDED|95.0|0.05|0.31|||ANCOVA||Least squares mean difference = mean difference final value.|Forced Vital Capacity: Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||0.31|0.05|0.006
92285532|NCT00420238|184476084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.205|TWO_SIDED|95.0|-0.04|0.17|||ANCOVA||Least squares mean difference = mean difference final value.|Forced Expitatory Volume in 1 second: Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||0.17|-0.04|0.205
92285533|NCT00420238|184476085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.59||||0.03|TWO_SIDED|95.0|-4.93|-0.26|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis oaf covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||-0.26|-4.93|0.030
92181637|NCT03371017|184261853|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.8225|TWO_SIDED|95.0|0.63|1.43|||Log Rank|||||1.43|0.63|0.8225
92181638|NCT03371017|184261856|SUPERIORITY||Difference in ORR|11.67||||0.0172|TWO_SIDED|95.0|1.47|21.87|||Cochran-Mantel-Haenszel|||||21.87|1.47|0.0172
92181639|NCT03371017|184261857|SUPERIORITY||Difference in ORR|0.18||||0.8679|TWO_SIDED|95.0|-9.41|9.77|||Cochran-Mantel-Haenszel|||Stratified Analysis||9.77|-9.41|0.8679
92181640|NCT03371017|184261858|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.2846|TWO_SIDED|95.0|0.46|1.26|||Log Rank|||||1.26|0.46|0.2846
92181641|NCT03371017|184261859|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9853|TWO_SIDED|95.0|0.61|1.61|||Log Rank|||||1.61|0.61|0.9853
92285534|NCT00420238|184476086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.035|TWO_SIDED|95.0|-0.45|-0.02|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as covariate.||-0.02|-0.45|0.035
92285535|NCT00420238|184476087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.515|TWO_SIDED|95.0|-0.38|0.19|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.19|-0.38|0.515
92285536|NCT00420238|184476087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.316||95.0|-0.43|0.14|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.14|-0.43|0.316
92285537|NCT00420238|184476087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.008||95.0|-0.67|-0.1|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||-0.10|-0.67|0.008
92181642|NCT03371017|184261860|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.4117|TWO_SIDED|95.0|0.63|1.21|||Log Rank|||Stratified Analysis||1.21|0.63|0.4117
92181643|NCT03371017|184261861|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.7215|TWO_SIDED|95.0|0.68|1.3|||Log Rank|||Stratified Analysis||1.30|0.68|0.7215
92262949|NCT00399542|184427701|SUPERIORITY_OR_OTHER_LEGACY|||||||0.722|||||||van Elteren nonparametric test|Adjusted for center||||||0.722
92262950|NCT00399542|184427702|SUPERIORITY_OR_OTHER_LEGACY|||||||0.177|||||||van Elteren nonparametric test|Adjusted for center||||||0.177
92262951|NCT00399542|184427703|SUPERIORITY_OR_OTHER_LEGACY|||||||0.082|||||||van Elteren nonparametric test|Adjusted for center||||||0.082
92262952|NCT00399542|184427704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|||||||van Elteren nonparametric test|Adjusted for center||||||0.110
92262953|NCT00399542|184427705|SUPERIORITY_OR_OTHER_LEGACY|||||||0.146|||||||van Elteren nonparametric test|Adjusted for center||||||0.146
92262954|NCT00399542|184427706|SUPERIORITY_OR_OTHER_LEGACY|||||||0.373|||||||van Elteren nonparametric test|Adjusted for center||||||0.373
92262955|NCT00399542|184427707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.339|||||||van Elteren nonparametric test|Adjusted for center||||||0.339
92262956|NCT00399542|184427708|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|||||||Cochran-Mantel-Haenszel|||||||0.023
92262957|NCT00399542|184427709|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073|||||||Cochran-Mantel-Haenszel|||||||0.073
92262958|NCT00399542|184427710|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||ANCOVA|Adjusted for center||||||0.062
92262959|NCT00399542|184427711|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06|||||||van Elteren nonparametric test|||||||0.060
92262960|NCT00399542|184427712|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||van Elteren nonparametric test|||||||0.290
92262961|NCT00399542|184427713|SUPERIORITY_OR_OTHER_LEGACY|||||||0.495|||||||van Elteren nonparametric test|||||||0.495
92262962|NCT04680273|184427735|OTHER||Geometric mean ratio|0.573|STANDARD_DEVIATION|1.11|||||||||||The geometric coefficient of variation (%) for the AUC(0-72) geometric mean ratio was 10.4%. The standard deviation (SD) reported is a geometric SD.|The geometric mean ratio was calculated for the AUC(0-72) of GDC-9545 in plasma samples compared with the AUC(0-72) of total radioactivity in plasma samples.||||
92262963|NCT04680273|184427735|OTHER||Geometric mean ratio|0.752|STANDARD_DEVIATION|1.036|||||||||||The geometric coefficient of variation (%) for the AUC(0-72) geometric mean ratio was 3.5%. The standard deviation (SD) reported is a geometric SD.|The geometric mean ratio was calculated for the AUC(0-72) of total radioactivity (TR) in whole blood samples compared with the AUC(0-72) of TR in plasma samples.||||
92262964|NCT04680273|184427736|OTHER||Geometric mean ratio|0.625|STANDARD_DEVIATION|1.134|||||||||||The geometric coefficient of variation (%) for the AUC(0-t) geometric mean ratio was 12.7%. The standard deviation (SD) reported is a geometric SD.|The geometric mean ratio was calculated for the AUC(0-t) of GDC-9545 in plasma samples compared with the AUC(0-t) of total radioactivity in plasma samples.||||
92262965|NCT04680273|184427736|OTHER||Geometric mean ratio|0.79|STANDARD_DEVIATION|1.171|||||||||||The geometric coefficient of variation (%) for the AUC(0-t) geometric mean ratio was 15.9%. The standard deviation (SD) reported is a geometric SD.|The geometric mean ratio was calculated for the AUC(0-t) of total radioactivity (TR) in whole blood samples compared with the AUC(0-t) of TR in plasma samples.||||
92262966|NCT01430559|184427777|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.2|-0.43||P-value and 95% confidence interval for least squares mean difference were calculated from analysis of covariance (ANCOVA, repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||||-0.43|-1.20|<0.0001
92262967|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.14||0.0103|TWO_SIDED|95.0|-0.65|-0.09||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Pain subscale (Week 2)||-0.09|-0.65|0.0103
92262968|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.16||0.0295|TWO_SIDED|95.0|-0.67|-0.04||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Pain subscale (Week 4)||-0.04|-0.67|0.0295
92262969|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.18||0.0041|TWO_SIDED|95.0|-0.87|-0.17||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Pain subscale (Week 8)||-0.17|-0.87|0.0041
92262970|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.2|-0.43||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Pain subscale (Week 12)||-0.43|-1.20|<0.0001
92262971|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.16||0.0369|TWO_SIDED|95.0|-0.64|-0.02||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Stiffness subscale (Week 2)||-0.02|-0.64|0.0369
92262972|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.2642|TWO_SIDED|95.0|-0.54|0.15||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Stiffness subscale (Week 4)||0.15|-0.54|0.2642
92262973|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.19||0.014|TWO_SIDED|95.0|-0.84|-0.1||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Stiffness subscale (Week 8)||-0.10|-0.84|0.0140
92262974|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.2||0.0009|TWO_SIDED|95.0|-1.06|-0.28||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Stiffness subscale (Week 12)||-0.28|-1.06|0.0009
92262975|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.14||0.0017|TWO_SIDED|95.0|-0.72|-0.17||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical function subscale (Week 2)||-0.17|-0.72|0.0017
92262976|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.16||0.0328|TWO_SIDED|95.0|-0.66|-0.03||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical function subscale (Week 4)||-0.03|-0.66|0.0328
92262977|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.18||0.0043|TWO_SIDED|95.0|-0.86|-0.16||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical function subscale (Week 8)||-0.16|-0.86|0.0043
92262978|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.19|-0.43||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical function subscale (Week 12)||-0.43|-1.19|<0.0001
92262979|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.13||0.0051|TWO_SIDED|95.0|-0.65|-0.12||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Average score (Week 2)||-0.12|-0.65|0.0051
92262980|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.0593|TWO_SIDED|95.0|-0.61|0.01||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Average score (Week 4)||0.01|-0.61|0.0593
92262981|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0046|TWO_SIDED|95.0|-0.84|-0.16||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Average score (Week 8)||-0.16|-0.84|0.0046
92262982|NCT01430559|184427778|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.14|-0.39||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Average score (Week 12)||-0.39|-1.14|<0.0001
92262983|NCT01430559|184427779|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.16||0.0002|TWO_SIDED|95.0|-0.94|-0.3||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Walking on flat surface (Week 2)||-0.30|-0.94|0.0002
92262984|NCT01430559|184427779|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.18||0.0015|TWO_SIDED|95.0|-0.92|-0.22||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Walking on flat surface (Week 4)||-0.22|-0.92|0.0015
92262985|NCT01430559|184427779|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.19||0.0003|TWO_SIDED|95.0|-1.08|-0.32||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Walking on flat surface (Week 8)||-0.32|-1.08|0.0003
92182871|NCT02434328|184264727|OTHER||Difference in proportions|-2.2|||||TWO_SIDED|95.0|-8.3|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||4.2|-8.3|
92262986|NCT01430559|184427779|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.34|-0.51||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Walking on flat surface (Week 12)||-0.51|-1.34|<0.0001
92262987|NCT01430559|184427779|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.17||0.0363|TWO_SIDED|95.0|-0.67|-0.02||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Going up or down stairs (Week 2)||-0.02|-0.67|0.0363
92262988|NCT01430559|184427779|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.18||0.0311|TWO_SIDED|95.0|-0.75|-0.04||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Going up or down stairs (Week 4)||-0.04|-0.75|0.0311
92262989|NCT01430559|184427779|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.2||0.0057|TWO_SIDED|95.0|-0.94|-0.16||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Going up or down stairs (Week 8)||-0.16|-0.94|0.0057
92262990|NCT01430559|184427779|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.52|-0.64||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Going up or down stairs (Week 12)||-0.64|-1.52|<0.0001
92262991|NCT01430559|184427781|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.42||||0.2373|TWO_SIDED|95.0|0.79|2.55||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=30% reduction (Week 2)||2.55|0.79|0.2373
92262992|NCT01430559|184427781|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.38||||0.2069|TWO_SIDED|95.0|0.84|2.26||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=30% reduction (Week 4)||2.26|0.84|0.2069
92262993|NCT01430559|184427781|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.56||||0.068|TWO_SIDED|95.0|0.97|2.53||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=30% reduction (Week 8)||2.53|0.97|0.0680
92262994|NCT01430559|184427781|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.41||||0.0005|TWO_SIDED|95.0|1.47|3.94||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=30% reduction (Week 12)||3.94|1.47|0.0005
92262995|NCT01430559|184427781|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.94||||0.1736|TWO_SIDED|95.0|0.75|5.01||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=50% reduction (Week 2)||5.01|0.75|0.1736
92262996|NCT01430559|184427781|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.72||||0.1496|TWO_SIDED|95.0|0.82|3.59||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=50% reduction (Week 4)||3.59|0.82|0.1496
92285538|NCT00420238|184476087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.011||95.0|-0.65|-0.08|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||-0.08|-0.65|0.011
92182872|NCT02434328|184264727|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-7.9|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.4|-7.9|
92285539|NCT00420238|184476099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.613|TWO_SIDED|95.0|-0.22|0.37|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||0.37|-0.22|0.613
92262997|NCT01430559|184427781|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.12||||0.0171|TWO_SIDED|95.0|1.14|3.93||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=50% reduction (Week 8)||3.93|1.14|0.0171
92262998|NCT01430559|184427781|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.77||||0.0004|TWO_SIDED|95.0|1.57|4.89||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=50% reduction (Week 12)||4.89|1.57|0.0004
92262999|NCT01430559|184427782|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.06||0.0027|TWO_SIDED|95.0|-0.31|-0.07||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 2||-0.07|-0.31|0.0027
92263000|NCT01430559|184427782|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.0308|TWO_SIDED|95.0|-0.3|-0.01||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 4||-0.01|-0.30|0.0308
92263001|NCT01430559|184427782|SUPERIORITY_OR_OTHER_LEGACY|P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.06||0.006|TWO_SIDED|95.0|-0.31|-0.05|||ANCOVA|||Week 8||-0.05|-0.31|0.0060
92263002|NCT01430559|184427782|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.0076|TWO_SIDED|95.0|-0.34|-0.05||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 12||-0.05|-0.34|0.0076
92263003|NCT01430559|184427783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.13||||0.2843|TWO_SIDED|95.0|0.53|8.5||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Week 2||8.50|0.53|0.2843
92263004|NCT01430559|184427783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.05||||0.105|TWO_SIDED|95.0|0.86|4.87||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Week 4||4.87|0.86|0.1050
92263005|NCT01430559|184427783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.7861|TWO_SIDED|95.0|0.4|3.32||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Week 8||3.32|0.40|0.7861
92263006|NCT01430559|184427783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.71||||0.1873|TWO_SIDED|95.0|0.77|3.78||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Week 12||3.78|0.77|0.1873
92263007|NCT01430559|184427784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.38|STANDARD_ERROR_OF_MEAN|1.55||0.3738|TWO_SIDED|95.0|-1.67|4.42||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||General health||4.42|-1.67|0.3738
92263008|NCT01430559|184427784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|5.94|STANDARD_ERROR_OF_MEAN|1.96||0.0028|TWO_SIDED|95.0|2.07|9.8||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical functioning||9.80|2.07|0.0028
92263009|NCT01430559|184427784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|8.16|STANDARD_ERROR_OF_MEAN|2.14||0.0002|TWO_SIDED|95.0|3.95|12.38||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Role physical||12.38|3.95|0.0002
92263010|NCT01430559|184427784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|7.36|STANDARD_ERROR_OF_MEAN|1.66|<|0.0001|TWO_SIDED|95.0|4.1|10.63||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Bodily pain||10.63|4.10|<0.0001
92263011|NCT01430559|184427784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.05|STANDARD_ERROR_OF_MEAN|1.64||0.2124|TWO_SIDED|95.0|-1.18|5.27||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Vitality||5.27|-1.18|0.2124
92263012|NCT01430559|184427784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|5.96|STANDARD_ERROR_OF_MEAN|2.1||0.005|TWO_SIDED|95.0|1.82|10.1||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Social functioning||10.10|1.82|0.0050
92263013|NCT01430559|184427784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|5.87|STANDARD_ERROR_OF_MEAN|2.24||0.0093|TWO_SIDED|95.0|1.46|10.28||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Role emotional||10.28|1.46|0.0093
92263014|NCT01430559|184427784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.57|STANDARD_ERROR_OF_MEAN|1.64||0.7274|TWO_SIDED|95.0|-2.66|3.81||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Mental health||3.81|-2.66|0.7274
92263015|NCT01430559|184427784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.94|STANDARD_ERROR_OF_MEAN|0.88||0.2819|TWO_SIDED|95.0|-0.78|2.67||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Mental component aggregate||2.67|-0.78|0.2819
92263016|NCT01430559|184427784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.57|STANDARD_ERROR_OF_MEAN|0.66||0.0001|TWO_SIDED|95.0|1.27|3.86||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical component aggregate||3.86|1.27|0.0001
92263017|NCT01430559|184427785|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.6||||0.0014|TWO_SIDED|95.0|1.45|4.66||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Mobility||4.66|1.45|0.0014
92263018|NCT01430559|184427785|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.51||||0.108|TWO_SIDED|95.0|0.91|2.48||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Self-care||2.48|0.91|0.1080
92263019|NCT01430559|184427785|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.06||||0.0119|TWO_SIDED|95.0|1.17|3.62||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Usual activities||3.62|1.17|0.0119
92263020|NCT01430559|184427785|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.62||||0.0887|TWO_SIDED|95.0|0.93|2.83||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Pain/discomfort||2.83|0.93|0.0887
92263021|NCT01430559|184427785|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.2466|TWO_SIDED|95.0|0.8|2.33||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Anxiety/depression||2.33|0.80|0.2466
92263022|NCT01430559|184427786|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0367|TWO_SIDED|95.0|-0.58|-0.02||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 2||-0.02|-0.58|0.0367
92263023|NCT01430559|184427786|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.17||0.0652|TWO_SIDED|95.0|-0.65|0.02||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 4||0.02|-0.65|0.0652
92263024|NCT01430559|184427786|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.19||0.02|TWO_SIDED|95.0|-0.81|-0.07||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 8||-0.07|-0.81|0.0200
92263025|NCT01430559|184427786|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.2||0.0016|TWO_SIDED|95.0|-1.02|-0.24||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 12||-0.24|-1.02|0.0016
92263026|NCT00174460|184427797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.991|STANDARD_ERROR_OF_MEAN|0.1067|<|0.001|TWO_SIDED|95.0|0.773|1.21|||ANCOVA|Results from analysis of covariance method (ANCOVA) adjusted for baseline height SDS and target height SDS; Last observation carried forward (LOCF).||Treatment difference||1.210|0.773|<0.001
92263027|NCT00174460|184427798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.415|STANDARD_ERROR_OF_MEAN|0.395|<|0.001|TWO_SIDED|95.0|3.605|5.225|||ANCOVA|Results from ANCOVA adjusted for baseline growth velocity, target height SDS, sex, and age; LOCF.||Treatment difference Month 12||5.225|3.605|<0.001
92263028|NCT00174460|184427798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.884|STANDARD_ERROR_OF_MEAN|0.5327||0.108|TWO_SIDED|95.0|-1.977|0.208|||ANCOVA|Results from ANCOVA adjusted for baseline growth velocity, target height SDS, sex, and age; LOCF.||Treatment difference Month 24||0.208|-1.977|0.108
92263029|NCT00174460|184427799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.074|STANDARD_ERROR_OF_MEAN|0.7089||0.141|TWO_SIDED|95.0|-2.524|0.376|||ANCOVA|Results from ANCOVA adjusted for baseline growth velocity SDS and target height SDS; LOCF.||Treatment difference||0.376|-2.524|0.141
92263030|NCT00174460|184427800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.54|STANDARD_ERROR_OF_MEAN|0.3661|<|0.001|TWO_SIDED|95.0|3.789|5.291|||ANCOVA|Results from ANCOVA adjusted for baseline height, target height SDS, sex, and age; LOCF.||Treatment difference Month 12||5.291|3.789|<0.001
92263031|NCT00174460|184427800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.064|STANDARD_ERROR_OF_MEAN|0.9822|<|0.001|TWO_SIDED|95.0|2.049|6.08|||ANCOVA|Results from ANCOVA adjusted for baseline height, target height SDS, sex, and age; LOCF.||Treatment difference Month 24||6.080|2.049|<0.001
92263032|NCT00174460|184427801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.719|STANDARD_ERROR_OF_MEAN|0.1606|<|0.001|TWO_SIDED|95.0|0.39|1.047|||ANCOVA|Results from ANCOVA adjusted for baseline height SDS and target height SDS; LOCF.||Treatment difference Month 24||1.047|0.390|<0.001
92181644|NCT01586104|184261953|OTHER|With 20 patients, there is 80% power to detect a difference of 100% with Standard lung RT versus 93% with IMRT assuming a standard deviation of 8 (as seen for the whole heart), a one tailed test and a Bonferroni correction for 4 statistical tests so that each test is done at p\<0.0125.|||||<|0.0125||||||The reported p value was calculated. The statistical analysis performed is attached to the outcome measure reported.|Bonferroni corrected at p<0.0125|||Feasibility will be defined as an enrolled patient receiving the IMRT treatment as planned. It is expected that the treatment will be feasible in at least 90% of patients. If the treatment is feasible in 16 or more out of 20 patients, then the treatment will be declared feasible. If the true feasibility rate is 90%, then there is a 4.3% chance that 15 or fewer feasible patients will be observed.|Lung-metastases-free survival will be estimated using Kaplan-Meier survival curves (minimum period of six months).|||<0.0125
92181645|NCT06214052|184261968|OTHER||Emax|-2.69|STANDARD_ERROR_OF_MEAN|5.0||||||||||||||||
92181646|NCT06214052|184261968|OTHER||EC50|1.88|STANDARD_ERROR_OF_MEAN|26.0||||||||||||||||
92263033|NCT00174460|184427802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.497|<|0.001|TWO_SIDED|95.0|-3.73|-1.68|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, age, and sex; LOCF.||Treatment difference Month 12||-1.68|-3.73|<0.001
92285540|NCT00420238|184476100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.744|TWO_SIDED|95.0|-0.34|0.47|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.47|-0.34|0.744
92285541|NCT00420238|184476100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.625||95.0|-0.5|0.3|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.30|-0.50|0.625
92285542|NCT00420238|184476100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.325||95.0|-0.2|0.6|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.60|-0.20|0.325
92285543|NCT00420238|184476100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.76||95.0|-0.34|0.46|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.46|-0.34|0.760
92285544|NCT00420238|184476102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.72||||0.49|TWO_SIDED|95.0|-18.35|8.91|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||8.91|-18.35|0.490
92285545|NCT00420238|184476102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.09||||0.651||95.0|-16.73|10.54|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||10.54|-16.73|0.651
92181647|NCT05325294|184261972|NON_INFERIORITY|The overall mean change in HbA1c from baseline to end of 3-month study period. The mean change will be estimated and compared to a threshold of -0.38% with a margin of 0.4%.|Mean difference from baseline to exit|-0.1||||0.133|TWO_SIDED|95.0|-0.2|0.1|||t-test, 1 sided||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint|||0.1|-0.2|0.133
92181648|NCT05325294|184261972|NON_INFERIORITY|The overall mean change in HbA1c from baseline to end of 3-month study period. The mean change will be estimated and compared to a threshold of -0.5% with a margin of 0.4%.|Mean difference from baseline to exit|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint|||-0.3|-0.6|<0.001
92181649|NCT05325294|184261973|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL) will be estimated and compared to a threshold of 65.3% with a margin of -7.5% and a significance level of 0.025 (one-sided).|Mean of Final Value|68.6|||<|0.001|TWO_SIDED|95.0|66.6|70.7|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||70.7|66.6|<0.001
92285546|NCT00420238|184476102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39||||0.84||95.0|-15.12|12.34|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||12.34|-15.12|0.840
92285547|NCT00420238|184476102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.02||||0.562||95.0|-17.81|9.77|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||9.77|-17.81|0.562
92181650|NCT05325294|184261973|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL) will be estimated and compared to a threshold of 73.7% with a margin of -7.5% and a significance level of 0.025 (one-sided).|Mean of Final Value|77.6|||<|0.001|TWO_SIDED|95.0|75.7|79.4|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||79.4|75.7|<0.001
92181651|NCT05325294|184261974|NON_INFERIORITY|The mean % of time in hypoglycemia (\< 54 mg/dL) will be estimated and compared to a threshold of 0.71% with a margin of 2% and a significance level of 0.025 (one-sided).|Mean of Final Value|0.4|||<|0.001|TWO_SIDED|95.0|0.3|0.5|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||0.5|0.3|<0.001
92181652|NCT05325294|184261974|NON_INFERIORITY|The mean % of time in hypoglycemia (\< 54 mg/dL) will be estimated and compared to a threshold of 0.86% with a margin of 2% and a significance level of 0.025 (one-sided).|Mean of Final Value|0.2|||<|0.001|TWO_SIDED|95.0|0.2|0.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||0.3|0.2|<0.001
92182873|NCT02434328|184264727|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-9.9|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||3.1|-9.9|
92263034|NCT00174460|184427802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.758||0.537|TWO_SIDED|95.0|-2.04|1.09|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, age, and sex; LOCF.||Treatment difference Month 24||1.09|-2.04|0.537
92263035|NCT00174460|184427803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.405||0.364|TWO_SIDED|95.0|-1.21|0.46|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, sex, and age; LOCF.||Treatment difference Month 12||0.46|-1.21|0.364
92263036|NCT00174460|184427803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.345||0.506|TWO_SIDED|95.0|-0.94|0.48|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, sex, and age; LOCF.||Treatment difference Month 24||0.48|-0.94|0.506
92263037|NCT00174460|184427804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|1.188||0.959|TWO_SIDED|95.0|-2.42|2.54|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, sex, and age; LOCF.||Treatment difference Month 12||2.54|-2.42|0.959
92263038|NCT00174460|184427804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|1.065||0.919|TWO_SIDED|95.0|-2.11|2.32|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, sex, and age; LOCF.||Treatment difference Month 24||2.32|-2.11|0.919
92263039|NCT00174460|184427805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.892|STANDARD_ERROR_OF_MEAN|0.8161||0.336|TWO_SIDED|95.0|-3.158|1.374|||ANCOVA|Results from ANCOVA adjusted for baseline volumetric cortical bone mineral density SDS and target height SDS; LOCF.||Treatment difference Month 12||1.374|-3.158|0.336
92263040|NCT00174460|184427805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.717|STANDARD_ERROR_OF_MEAN|0.6027||0.3|TWO_SIDED|95.0|-0.956|2.391|||ANCOVA|Results from ANCOVA adjusted for baseline volumetric cortical bone mineral density SDS and target height SDS; LOCF.||Treatment difference Month 24||2.391|-0.956|0.300
92263041|NCT00174460|184427806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.615|STANDARD_ERROR_OF_MEAN|0.6591|<|0.001|TWO_SIDED|95.0|4.266|6.963|||ANCOVA|Results from ANCOVA adjusted for baseline growth velocity SDS and target height SDS; LOCF.||Treatment difference||6.963|4.266|<0.001
92263042|NCT00174460|184427807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.482|STANDARD_ERROR_OF_MEAN|0.9666||0.653|TWO_SIDED|95.0|-3.558|2.595|||ANCOVA|Results from ANCOVA adjusted for baseline cortical cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 12||2.595|-3.558|0.653
92263043|NCT00174460|184427807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.205|STANDARD_ERROR_OF_MEAN|0.8991||0.251|TWO_SIDED|95.0|-3.701|1.292|||ANCOVA|Results from ANCOVA adjusted for baseline cortical cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 24||1.292|-3.701|0.251
92263044|NCT00174460|184427808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|1.1499||0.914|TWO_SIDED|95.0|-3.524|3.795|||ANCOVA|Results from ANCOVA adjusted for baseline total cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 12||3.795|-3.524|0.914
92263045|NCT00174460|184427808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.292|STANDARD_ERROR_OF_MEAN|0.4432||0.547|TWO_SIDED|95.0|-0.939|1.522|||ANCOVA|Results from ANCOVA adjusted for baseline total cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 24||1.522|-0.939|0.547
92263046|NCT00174460|184427809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.31|STANDARD_ERROR_OF_MEAN|0.4542||0.007|TWO_SIDED|95.0|1.049|3.572|||ANCOVA|Results from ANCOVA adjusted for baseline muscle cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 12||3.572|1.049|0.007
92263047|NCT00174460|184427809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.626|STANDARD_ERROR_OF_MEAN|0.6536||0.068|TWO_SIDED|95.0|-0.189|3.44|||ANCOVA|Results from ANCOVA adjusted for baseline muscle cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 24||3.440|-0.189|0.068
92285548|NCT00420238|184476104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.73|||<|0.0001|TWO_SIDED|95.0|-19.44|-10.03|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA)with treatment as a factor and baseline vlue as a covariate.||-10.03|-19.44|<0.0001
92285549|NCT00420238|184476105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.37|||<|0.0001|TWO_SIDED|95.0|-18.17|-6.58|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and atients as a random factor.||-6.58|-18.17|<0.0001
92285550|NCT00420238|184476105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.45|||<|0.0001||95.0|-23.25|-11.65|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||-11.65|-23.25|<0.0001
92285551|NCT00420238|184476105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.95|||<|0.0001||95.0|-22.75|-11.15|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||-11.15|-22.75|<0.0001
92181653|NCT05325294|184261975|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL) will be estimated and compared to a threshold of 65.3% and a significance level of 0.025 (one-sided).|Mean of Final Value|68.6|||<|0.001|TWO_SIDED|95.0|66.6|70.7|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||70.7|66.6|<0.001
92263048|NCT00174460|184427812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|STANDARD_ERROR_OF_MEAN|0.5061||0.331|TWO_SIDED|95.0|-0.846|1.965|||ANCOVA|Results from ANCOVA adjusted for baseline strength-strain index SDS and target height SDS; LOCF.||Treatment difference Month 12||1.965|-0.846|0.331
92263049|NCT00174460|184427812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.4703||0.82|TWO_SIDED|95.0|-1.192|1.42|||ANCOVA|Results from ANCOVA adjusted for baseline strength-strain index SDS and target height SDS; LOCF.||Treatment difference Month 24||1.420|-1.192|0.820
92263050|NCT00174460|184427813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.42||0.844|TWO_SIDED|95.0|-0.88|1.05|||ANCOVA|Results from ANCOVA adjusted for baseline hand grip strength SDS and target height SDS; LOCF.||Treatment difference Month 12||1.05|-0.88|0.844
92263051|NCT00174460|184427813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.329||0.519|TWO_SIDED|95.0|-0.52|0.96|||ANCOVA|Results from ANCOVA adjusted for baseline hand grip strength SDS and target height SDS; LOCF.||Treatment difference Month 24||0.96|-0.52|0.519
92263052|NCT00174460|184427816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.998|STANDARD_ERROR_OF_MEAN|0.1095|<|0.001|TWO_SIDED|95.0|0.778|1.219|||Mixed models analysis|Results from repeated measures mixed models analysis adjusted for baseline height SDS, visit, visit\*treatment and target height SDS.||Treatment difference Month 12||1.219|0.778|<0.001
92263053|NCT00174460|184427816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.688|STANDARD_ERROR_OF_MEAN|0.1519|<|0.001|TWO_SIDED|95.0|0.382|0.994|||Mixed models analysis|Results from repeated measures mixed models analysis adjusted for baseline height SDS, visit, visit\*treatment and target height SDS.||Treatment difference Month 24||0.994|0.382|<0.001
92263054|NCT00174460|184427818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.585|STANDARD_ERROR_OF_MEAN|0.3859|<|0.001|TWO_SIDED|95.0|3.806|5.363|||Mixed models analysis|Results from repeated measure mixed models analysis adjusted for baseline height, sex, age, visit, visit\*treatment and target height SDS.||Treatment difference Month 12||5.363|3.806|<0.001
92263055|NCT00174460|184427818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.563|STANDARD_ERROR_OF_MEAN|0.708|<|0.001|TWO_SIDED|95.0|2.134|4.992|||Mixed models analysis|Results from repeated measure mixed models analysis adjusted for baseline height, sex, age, visit, visit\*treatment and target height SDS.||Treatment difference Month 24||4.992|2.134|<0.001
92263056|NCT04652245|184427825|SUPERIORITY|||||||0.028|||||||ANCOVA|||||||0.028
92263057|NCT04652245|184427826|SUPERIORITY|||||||0.008|||||||ANCOVA|||||||0.008
92263058|NCT01288911|184427844|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.34|0.57|||Log Rank||Estimated by use of Cox proportional hazards model.|PFS based on ICR Enzalutamide Vs. Bicalutamide. The (unstratified) log-rank test with an overall significance level of 0.05 (two-sided) was used to compare the PFS of enzalutamide to bicalutamide. The (unstratified) Cox proportional hazards model was used to estimate the hazard ratio of enzalutamide to bicalutamide, calculate the corresponding two-sided 95% confidence intervals and test the hypothesis that the hazard ratio is equal to 1.||0.57|0.34|<0.0001
92263059|NCT01288911|184427845|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.33|0.55|||Log Rank||Estimated by use of Cox proportional hazards model.|PFS on based investigator assessment Enzalutamide Vs. Bicalutamide.||0.55|0.33|<0.0001
92263060|NCT01288911|184427846|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon rank sum test|||PSA Response Enzalutamide Vs. Bicalutamide.||||<0.0001
92263061|NCT01288911|184427847|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon rank sum test|||Best PSA Response Enzalutamide Vs. Bicalutamide.||||<0.0001
92285552|NCT00420238|184476105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.16|||<|0.0001||95.0|-23.96|-12.36|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||-12.36|-23.96|<0.0001
92181654|NCT05325294|184261975|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL) will be estimated and compared to a threshold of 73.7% and a significance level of 0.025 (one-sided).|Mean of Final Value|77.6|||<|0.001|TWO_SIDED|95.0|75.7|79.4|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||79.4|75.7|<0.001
92181655|NCT04649047|184261976|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|-2.92||||0.036|TWO_SIDED|95.0|-5.6|-0.23|||t-test, 2 sided|||||-0.23|-5.6|0.036
92181656|NCT04649047|184261977|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|-0.56||||-0.77|TWO_SIDED|95.0|-1.02|-0.1|||t-test, 2 sided|||||-0.10|-1.02|-0.77
92181657|NCT04649047|184261978|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|-3.42||||-0.51|TWO_SIDED|95.0|-7.69|0.85|||t-test, 2 sided|||||0.85|-7.69|-0.51
92181658|NCT04649047|184261979|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|0.85||||0.49|TWO_SIDED|95.0|-0.32|2.03|||t-test, 2 sided|||||2.03|-0.32|0.49
92263062|NCT01288911|184427848|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.2|0.39|||Log Rank||Estimated by use of Cox proportional hazards model.|Time to PSA progression Enzalutamide Vs. Bicalutamide.||0.39|0.20|<0.0001
92263063|NCT01288911|184427849|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|5.07|||<|0.0001|TWO_SIDED|95.0|3.18|8.09|||Log Rank||Estimated by use of Cox proportional hazards model.|Time to PSA Enzalutamide Vs. Bicalutamide.||8.09|3.18|<0.0001
92263064|NCT01288911|184427850|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|5.55|||<|0.0001|TWO_SIDED|95.0|3.96|7.79|||Log Rank||Estimated by use of Cox proportional hazards model.|Time to ≥ 30% PSA decline from baseline Enzalutamide Vs. Bicalutamide.||7.79|3.96|<0.0001
92263065|NCT01288911|184427851|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|7.01|||<|0.0001|TWO_SIDED|95.0|4.83|10.16|||Log Rank||Estimated by use of Cox proportional hazards model.|Time to ≥ 50% PSA decline from baseline Enzalutamide Vs. Bicalutamide.||10.16|4.83|<0.0001
92263066|NCT01288911|184427852|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|13.91|||<|0.0001|TWO_SIDED|95.0|7.23|26.79|||Log Rank||Estimated by use of Cox proportional hazards model.|Time to ≥ 90% PSA decline from baseline Enzalutamide Vs. Bicalutamide.||26.79|7.23|<0.0001
92263067|NCT01288911|184427853|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51||||0.0002|TWO_SIDED|95.0|0.36|0.74|||Log Rank||Estimated by use of Cox proportional hazards model.|Radiographic PFS based on ICR Enzalutamide Vs. Bicalutamide.||0.74|0.36|0.0002
92263068|NCT02452892|184427856|SUPERIORITY|To control for multiple comparisons in the primary endpoint analysis, a hierarchical approach was taken. First LFMS 60min. was compared to LFMS sham. If p\<0.05 for this comparison, then LFMS 20min. was formally compared to LFMS sham for statistical significance.||||||0.307||||||"P-value displayed for 60min.~Mixed Model Repeated Measures (MMRM) model."|Mixed Models Analysis|Week 1 baseline HAM-D6 total score, treatment,visit treatment\*visit age, \& gender included in model. Visit was the repeated measure within subjects.||Comparisons of 60 min LFMS vs. sham, LSMean diff with 95% Confidence Interval (CI) reported. Hypothesis 1: no difference between 60 min. LFMS and sham therapy in mean change from baseline (Day 1) to end of Tx Day 4 in HAM-D6 total score. If hypothesis is rejected at significance level of 0.05, then second hypothesis will be tested. Hypothesis 2:no difference between 20 min. LFMS \& sham therapy in mean change from baseline (Day 1) to the end of Tx. Day 4 in HAM-D6 total score.||||0.307
92263069|NCT02452892|184427856|SUPERIORITY|To control for multiple comparisons in the primary endpoint analysis, a hierarchical approach was taken. First LFMS 60min. was compared to LFMS sham. If p\<0.05 for this comparison, then LFMS 20min. was formally compared to LFMS sham for statistical significance.||||||0.859||||||P-value displayed for 20min. Mixed Model Repeated Measures (MMRM) model.|Mixed Models Analysis|Week 1 baseline HAM-D6 total score, treatment,visit treatment\*visit age, \& gender included in model. Visit was the repeated measure within subjects.||Comparisons of 20 min LFMS vs. sham, LSMean diff with 95% Confidence Interval (CI) reported. Hypothesis 1: no difference between 60 min. LFMS and sham therapy in mean change from baseline (Day 1) to end of Tx Day 4 in HAM-D6 total score. If hypothesis is rejected at significance level of 0.05, then second hypothesis will be tested. Hypothesis 2:no difference between 20 min. LFMS \& sham therapy in mean change from baseline (Day 1) to the end of Tx. Day 4 in HAM-D6 total score.||||0.859
92181659|NCT04649047|184261980|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|-8.54||||-0.48|TWO_SIDED|95.0|-19.9|2.82|||t-test, 2 sided|||||2.82|-19.9|-0.48
92181660|NCT04649047|184261981|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|64.46||||0.13|TWO_SIDED|95.0|-256.0|384.7|||t-test, 2 sided|||||384.7|-256|0.13
92263070|NCT02452892|184427857|SUPERIORITY|||||||0.966||||||P-value is not adjusted for multiple comparisons. P-value was estimated from Mixed Model Repeated Measures (MMRM) model.|Mixed Models Analysis|Week 2 baseline HAM-D6 total score, treatment, visit, treatment\*visit, age, \& gender included in model. Visit was the repeated measure within subject.||||||0.966
92263071|NCT02452892|184427858|SUPERIORITY|The persistence rate calculated based on Week 1 treatment group: 20 minutes LFMS, 60 minutes LFMS and sham therapy.||||||0.294||||||For 60 min LFMS, P-value not adjusted for multiple comparisons. P-value estimated using LR model including Wk2 baseline HAM-D6 total score, treatment, age \& gender as covariates.|Regression, Logistic|Non-responder imputation (NRI) for missing data, where missing post-baseline results were considered non-response||||||0.294
92263072|NCT02452892|184427858|SUPERIORITY|The persistence rate calculated based on Week 1 treatment group: 20 minutes LFMS, 60 minutes LFMS and sham therapy.||||||0.232||||||For 20min. LFMS, P-value not adjusted for multiple comparisons. P-value estimated using Logistic Regression model including Wk2 baseline HAM-D6 total score, treatment, age \& gender as covariates.|Regression, Logistic|Non-responder imputation (NRI) for missing data, where missing post-baseline results were considered non-response||||||0.232
92285553|NCT00420238|184476107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.24|||<|0.0001|TWO_SIDED|95.0|-18.23|-8.25|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA), with treatment as a factor and baseline value as a covariate.||-8.25|-18.23|<0.0001
92181661|NCT04649047|184261982|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|3.5||||0.88|TWO_SIDED|95.0|0.98|6.02|||t-test, 2 sided|||||6.02|0.98|0.88
92181662|NCT04649047|184261983|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|2.67||||0.61|TWO_SIDED|95.0|-0.1|4.94|||t-test, 2 sided|||||4.94|-0.10|0.61
92181663|NCT04649047|184261984|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|4.5||||0.78|TWO_SIDED|95.0|0.82|8.18|||t-test, 2 sided|||||8.18|0.82|0.78
92181664|NCT04649047|184261985|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|3.42||||0.58|TWO_SIDED|95.0|-0.32|7.16|||t-test, 2 sided|||||7.16|-0.32|0.58
92181665|NCT04649047|184261986|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|2.42||||0.61|TWO_SIDED|95.0|-0.1|4.94|||t-test, 2 sided|||||4.94|-0.10|0.61
92181666|NCT04649047|184261987|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|3.83||||0.46|TWO_SIDED|95.0|-1.5|9.16|||t-test, 2 sided|||||9.16|-1.50|0.46
92181667|NCT04649047|184261988|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|4.08||||0.71|TWO_SIDED|95.0|0.43|7.73|||t-test, 2 sided|||||7.73|0.43|0.71
92181668|NCT04649047|184261989|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|-3.67||||-0.52|TWO_SIDED|95.0|-8.12|0.79|||t-test, 2 sided|||||0.79|-8.12|-0.52
92181669|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|0.1491|STANDARD_ERROR_OF_MEAN|0.51||0.7695||95.0|-0.856|1.15||Alpha for significance=0.05 for all tests.|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the physician treatment arm."||1.15|-.856|.7695
92181670|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.5077||0.0878||95.0|-1.88|0.13||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister treatment arm."||.13|-1.88|.0878
92181671|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|0.2414|STANDARD_ERROR_OF_MEAN|0.5077||0.635||95.0|-0.76|1.25||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister/physician treatment arm."||1.25|-.76|.635
92181672|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|-0.06574|STANDARD_ERROR_OF_MEAN|0.5077||0.897||95.0|-1.0709|0.9394||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the older adult treatment arm."||.9394|-1.0709|.897
92181673|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|-0.01126|STANDARD_ERROR_OF_MEAN|0.5077||0.9823||95.0|-1.0164|0.9939||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the physician/older adult treatment arm."||.9939|-1.0164|.9823
92181674|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|-0.4928|STANDARD_ERROR_OF_MEAN|0.5077||0.3337||95.0|-1.4979|0.5124||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister/older adult treatment arm."||.5124|-1.4979|.3337
92263073|NCT02452892|184427859|SUPERIORITY|||||||0.0932||||||P-value is not adjusted for multiple comparisons.|ANCOVA|P-value was estimated using ANCOVA model with treatment, age, \& gender as factors and baseline negative MADRS score as a covariate.||Estimates for LS Means, confidence intervals, difference in LS means and p-value are from an ANCOVA model with treatment, age, sex as factors and baseline negative MADRS score as a covariate.||||0.0932
92263074|NCT02452892|184427859|SUPERIORITY|||||||0.7509||||||The p-value is not adjusted for multiple comparisons.|ANCOVA|P-value was estimated using ANCOVA model with treatment, age, \& gender as factors and baseline negative MADRS score as a covariate.||Estimates for LS Means, confidence intervals, difference in LS means and p-value are from an ANCOVA model with treatment, age, sex as factors and baseline negative MADRS score as a covariate.||||0.7509
92263075|NCT02452892|184427860|SUPERIORITY|Positive score is the sum of 10 items: 1,3,5,9,10,12,14,16,17,19.||||||0.2672||||||P-value not adjusted for multiple comparisons.|ANCOVA|P-value estimated using ANCOVA model with treatment,age,\& gender as factors \& baseline positive PANAS score as a covariate.||||||0.2672
92263076|NCT02452892|184427860|SUPERIORITY|Positive score is the sum of 10 items: 1,3,5,9,10,12,14,16,17,19.||||||0.166||||||P-value not adjusted for multiple comparisons.|ANCOVA|P-value estimated using ANCOVA model with treatment,age,\& gender as factors \& baseline positive PANAS score as a covariate.||||||0.1660
92263077|NCT02452892|184427861|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.0307||||||P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were considered as random missing data.|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~* All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~* The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~* The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.0307
92181675|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|0.2002|STANDARD_ERROR_OF_MEAN|0.5077||0.694||95.0|-0.8049|1.2054||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister/older adult/physician treatment arm."||1.2054|-.8049|.694
92182874|NCT02434328|184264727|OTHER||Difference in proportions|-4.1|||||TWO_SIDED|95.0|-10.2|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||2.3|-10.2|
92263078|NCT02452892|184427861|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.3537||||||"P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were considered as random missing data.~."|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.3537
92263079|NCT02452892|184427862|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.0848||||||P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were treated where incorrect Item #2 data was removed.|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.0848
92263080|NCT02452892|184427862|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.593||||||P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were treated where Incorrect Item #2 data was removed.|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.5930
92263081|NCT02452892|184427863|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.0307||||||P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were treated where incorrect Item #2 data was imputed using worst possible value.|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.0307
92263082|NCT02452892|184427863|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.3907||||||P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were treated where incorrect Item #2 data was imputed using worst possible value.|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.3907
92263083|NCT00078715|184427864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.004|STANDARD_ERROR_OF_MEAN|1.141||0.527|TWO_SIDED|95.0|-4.26|2.251||The significance level reflects the direct comparison of drugs after factoring out baseline depression levels.|Mixed Models Analysis|A linear mixed model was used with factors for drug, time of evaluation, the drug by time interaction, and a baseline depression covariate.||The hypothesis was that yohimbine would provide lower levels of depression than placebo. Initial estimates of sample size assumed a minimum of 25 patients were required to detect differences in depression.||2.251|-4.260|.527
92263084|NCT03742271|184427866|SUPERIORITY|Superiority was concluded in the lower limit of the 95% confidence interval was above 0.50.|Proportion|0.974|||||TWO_SIDED|95.0|0.925|0.995|||Binomial Exact Test|||This study was powered to test the hypothesis that at least 50% will have an acceptable lens fitting.||0.995|0.925|
92263085|NCT01522391|184427885|OTHER||Ratio between geometric means|0.045||||0.012|TWO_SIDED|95.0|0.004|0.491|||Mixed Models Analysis|||||0.491|0.004|0.012
92263086|NCT01522391|184427886|OTHER||Ratio between geometric means|0.045||||0.012|TWO_SIDED|95.0|0.004|0.491|||Mixed Models Analysis|||||0.491|0.004|0.012
92285554|NCT00420238|184476108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.32|||<|0.0001|TWO_SIDED|95.0|-20.55|-8.1|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors, baseline as a covariate and patients as a random factor.||-8.10|-20.55|<0.0001
92285555|NCT00420238|184476108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.98|||<|0.0001||95.0|-21.2|-8.76|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors, baseline as a covariate and patients as a random factor.||-8.76|-21.20|<0.0001
92285556|NCT00420238|184476108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.19|||<|0.0001||95.0|-21.41|-8.96|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors, baseline as a covariate and patients as a random factor.||-8.96|-21.41|<0.0001
92285557|NCT00420238|184476108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.41|||<|0.0001||95.0|-20.63|-8.19|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors, baseline as a covariate and patients as a random factor.||-8.19|-20.63|<0.0001
92285558|NCT00420238|184476111|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87||||0.184|TWO_SIDED|95.0|0.74|4.7|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 2: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||4.70|0.74|0.184
92285559|NCT00420238|184476111|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.62||||0.036||95.0|1.06|6.46|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 4: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||6.46|1.06|0.036
92285560|NCT00420238|184476111|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.96||||0.001||95.0|1.89|13.03|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 8: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||13.03|1.89|0.001
92285561|NCT00420238|184476111|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.065||95.0|0.95|5.96|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 12: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||5.96|0.95|0.065
92285562|NCT00420238|184476113|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.57||||0.004|TWO_SIDED|95.0|1.64|12.74|||GEE model||Odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 2: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||12.74|1.64|0.004
92285563|NCT00420238|184476113|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.46||||0.054||95.0|0.99|6.12|||GEE model||Odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 4: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||6.12|0.99|0.054
92285564|NCT00420238|184476113|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.26|||<|0.001||95.0|2.27|17.31|||GEE model||Odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 8: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||17.31|2.27|<0.001
92285565|NCT00420238|184476113|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.88||||0.025||95.0|1.14|7.27|||GEE model||Odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 12: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||7.27|1.14|0.025
92181676|NCT04837937|184262019|SUPERIORITY||Actual Intercept value|54.9056|STANDARD_ERROR_OF_MEAN|0.5077|<|0.0001||95.0|53.9003|55.9109||this is the Intercept value for the GLMM evaluating all combinations of treatment and time- in other words, this is the mean well-being t-score across all combinations of tx and time. Estimates in these analyses are deviations from this intercept.|Mixed Models Analysis|||Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the intercept (all tx=0).||55.9109|53.9003|<.0001
92285566|NCT01993030|184476131|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|||||Values of p \< 0.05 were considered to be significantly different.|Fisher Exact|||"Two-sided Fisher's exact test was performed to assess statistically significant differences of the data of the Number of Participants with Growth of Granulation Tissue between the group treated with the HQ® Matrix Medical Wound Dressing and that treated with the Sidaiyi® wound dressing.~This Statistical Analysis applies to the Participants with healthy granulation tissue and the Participants with unhealthy granulation tissue category."||||0.49
92285567|NCT01993030|184476132|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED|||||Values of p \< 0.05 were considered to be significantly different.|Fisher Exact|||"Two-sided Fisher's exact test was performed to assess statistically significant differences of the data of the Number of Participants with Inflammatory Reaction between the group treated with the HQ® Matrix Medical Wound Dressing and that treated with the Sidaiyi® wound dressing.~This Statistical Analysis applies to the Participants with Inflammatory Reaction and the Participants without Inflammatory Reaction category."||||0.36
92181677|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|-0.05579|STANDARD_ERROR_OF_MEAN|0.03516||0.1152||95.0|-0.1254|0.01383||alpha=0.05|Mixed Models Analysis|||Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This test evaluates the effect of time (measured as weeks since baseline).||.01383|-.1254|.1152
92181678|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|-0.03261|STANDARD_ERROR_OF_MEAN|0.03516||0.3555||95.0|-0.1022|0.03699|||Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the Physician treatment arm\*time."||.03699|-.1022|.3555
92181679|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|0.06825|STANDARD_ERROR_OF_MEAN|0.03516||0.0546||95.0|-0.00136|0.1379||alpha=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister treatment arm\*time."||.1379|-.00136|.0546
92263087|NCT01522391|184427887|OTHER||Ratio between geometric means|0.242||||0.242|TWO_SIDED|95.0|0.022|2.66|||Mixed Models Analysis|||Day 7||2.66|0.022|0.242
92263088|NCT01522391|184427887|OTHER||Ratio between geometric means|0.428||||0.482|TWO_SIDED|95.0|0.039|4.696|||Mixed Models Analysis|||Day 21||4.696|0.039|0.482
92263089|NCT01522391|184427888|OTHER||Ratio between geometric means|0.242||||0.242|TWO_SIDED|95.0|0.022|2.66|||Mixed Models Analysis|||Day 7||2.660|0.022|0.242
92263090|NCT01522391|184427888|OTHER||Ratio between geometric means|0.428||||0.482|TWO_SIDED|95.0|0.039|4.696|||Mixed Models Analysis|||Day 21||4.696|0.039|0.482
92263091|NCT01522391|184427889|OTHER||Ratio between geometric means|0.288||||0.395|TWO_SIDED|95.0|0.016|5.221|||Mixed Models Analysis|||Day 7||5.221|0.016|0.395
92263092|NCT01522391|184427889|OTHER||Ratio between geometric means|0.067||||0.067|TWO_SIDED|95.0|0.004|1.218|||Mixed Models Analysis|||Day 14||1.218|0.004|0.067
92263093|NCT01522391|184427889|OTHER||Ratio between geometric means|0.484||||0.62|TWO_SIDED|95.0|0.027|8.787|||Mixed Models Analysis|||Day 21||8.787|0.027|0.620
92263094|NCT01522391|184427890|OTHER||Ratio between geometric means|0.287||||0.403|TWO_SIDED|95.0|0.015|5.55|||Mixed Models Analysis|||Day 7||5.550|0.015|0.403
92263095|NCT01522391|184427890|OTHER||Ratio between geometric means|0.032||||0.021|TWO_SIDED|95.0|0.002|0.583|||Mixed Models Analysis|||Day 14||0.583|0.002|0.021
92263096|NCT01522391|184427890|OTHER||Ratio between geometric means|0.271||||0.368|TWO_SIDED|95.0|0.015|4.779|||Mixed Models Analysis|||Day 21||4.779|0.015|0.368
92263097|NCT01522391|184427891|OTHER||Ratio between geometric means|1.045||||0.97|TWO_SIDED|95.0|0.106|10.32|||Mixed Models Analysis|||Day 7||10.32|0.106|0.970
92263098|NCT01522391|184427891|OTHER||Ratio between geometric means|0.045||||0.009|TWO_SIDED|95.0|0.005|0.447|||Mixed Models Analysis|||Day 14||0.447|0.005|0.009
92263099|NCT01522391|184427891|OTHER||Ratio between geometric means|0.36||||0.377|TWO_SIDED|95.0|0.036|3.556|||Mixed Models Analysis|||Day 21||3.556|0.036|0.377
92263100|NCT01522391|184427892|OTHER||Ratio between geometric means|0.961||||0.974|TWO_SIDED|95.0|0.081|11.43|||Mixed Models Analysis|||Day 7||11.43|0.081|0.974
92263101|NCT01522391|184427892|OTHER||Ratio between geometric means|0.046||||0.013|TWO_SIDED|95.0|0.004|0.512|||Mixed Models Analysis|||Day 14||0.512|0.004|0.013
92263102|NCT01522391|184427892|OTHER||Ratio between geometric means|0.447||||0.504|TWO_SIDED|95.0|0.041|4.883|||Mixed Models Analysis|||Day 21||4.883|0.041|0.504
92263103|NCT01522391|184427893|OTHER||Ratio between geometric means|0.242||||0.242|TWO_SIDED|95.0|0.022|2.659|||Mixed Models Analysis|||Day 7||2.659|0.022|0.242
92263104|NCT01522391|184427893|OTHER||Ratio between geometric means|0.045||||0.012|TWO_SIDED|95.0|0.004|0.491|||Mixed Models Analysis|||Day 14||0.491|0.004|0.012
92263105|NCT01522391|184427893|OTHER||Ratio between geometric means|0.428||||0.483|TWO_SIDED|95.0|0.039|4.697|||Mixed Models Analysis|||Day 21||4.697|0.039|0.483
92263106|NCT01522391|184427894|OTHER||Ratio between geometric means|0.202||||0.197|TWO_SIDED|95.0|0.017|2.34|||Mixed Models Analysis|||Day 7||2.340|0.017|0.197
92285568|NCT01993030|184476133|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED|||||Values of p \< 0.05 were considered to be significantly different.|t-test, 2 sided|||Two-sided t-test was performed to assess statistically significant differences of the data of the VAS score between the group treated with the HQ® Matrix Medical Wound Dressing and that treated with the Sidaiyi® wound dressing.||||0.11
92285569|NCT01993030|184476134|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED|||||Values of p \< 0.05 were considered to be significantly different.|Fisher Exact|||"Two-sided Fisher's exact test was performed to assess statistically significant differences of the data of the Number of Participants with Exudation between the group treated with the HQ® Matrix Medical Wound Dressing and that treated with the Sidaiyi® wound dressing.~This Statistical Analysis applies to No exudation and Little exudation category."||||0.11
92181680|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|0.02597|STANDARD_ERROR_OF_MEAN|0.03516||0.4616||95.0|-0.04364|0.09557||alpha=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the Sister/Physician treatment arm\*time."||.09557|-.04364|.4616
92285570|NCT01993030|184476135|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Values of p \< 0.05 were considered to be significantly different.|t-test, 2 sided|||Two-sided t-test was performed to assess statistically significant differences of the data of the Time to Wound Healing between the group treated with the HQ® Matrix Medical Wound Dressing and that treated with the Sidaiyi® wound dressing.||||0.02
92285571|NCT03785548|184476136|OTHER||Mean Difference (Final Values)|2.851|STANDARD_ERROR_OF_MEAN|2.576||0.27|TWO_SIDED|95.0|-2.241|7.944|||ANCOVA|F(1, 140)=1.225||||7.944|-2.241|0.270
92285572|NCT03785548|184476137|OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|3.098||0.964|TWO_SIDED|95.0|-5.983|6.266|||ANCOVA|F(1, 140)=0.002||||6.266|-5.983|0.964
92285573|NCT01819597|184476139|OTHER|This is a phase II study design to determine the non-futility of proceeding to a phase III pivotal evaluation. The study group was planned to be compared to a propensity score matching (PSM) cohort from to the patients in the medical arms of the SAMMPRIS trial and to patients in the medical arm of COSS that had demonstrated angiographic intracranial atherosclerosis and occlusion.|Hazard Ratio (HR)|0.38||||0.08|TWO_SIDED|90.0|0.14|0.94||Pre-established α ≤ 0.10 for phase IIa|Regression, Cox|Alpha set at ≤ 0.1. for phase II study|ERSIAS/ Controls.|We derived the sample size required to power the trial to test the difference between two binomial event rates using the method of Farrington and Manning as implemented in R package gsDesign (Anderson, 2011). An estimated sample size of 52 patients will be necessary to detect a ∆ of 0.05, with a one-sided alpha of 0.10 and a beta of 0.10 - acceptable parameters for a non-definitive, non-futility study (Palesch et al., 2005, Levin, 2005).||0.94|0.14|0.08
92285574|NCT00830206|184476160|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on the pharmacokinetic parameters using SAS® Software.|Geometric Test/Ref Ratio x 100|102.62||||||90.0|94.84|111.05|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111.05|94.84|
92285575|NCT00830206|184476161|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|100.85||||||90.0|94.48|107.65|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107.65|94.48|
92285576|NCT00830206|184476162|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on the pharmacokimetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|101.92||||||90.0|95.18|109.14|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109.14|95.18|
92285577|NCT01832259|184476163|SUPERIORITY|||||||0.345|||||||t-test, 1 sided|||||||0.345
92285578|NCT01832259|184476165|SUPERIORITY|||||||0.46|||||||Log Rank|||||||0.46
92285579|NCT00905346|184476167|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (Test/Ref x 100)|98.39||||||90.0|94.36|102.59|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.59|94.36|
92263107|NCT01522391|184427894|OTHER||Ratio between geometric means|0.021||||0.002|TWO_SIDED|95.0|0.002|0.227|||Mixed Models Analysis|||Day 14||0.227|0.002|0.002
92263108|NCT01522391|184427894|OTHER||Ratio between geometric means|0.257||||0.257|TWO_SIDED|95.0|0.024|2.752|||Mixed Models Analysis|||Day 21||2.752|0.024|0.257
92285580|NCT00905346|184476168|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (Test/Ref x 100)|102.92||||||90.0|99.88|106.05|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.05|99.88|
92285581|NCT00905346|184476169|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (Test/Ref x 100)|102.63||||||90.0|99.24|106.14|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.14|99.24|
92285582|NCT02996591|184476200|OTHER||generalized estimating equations method|45.0||||0.038|TWO_SIDED||||||Regression, Logistic|||||||.038
92285583|NCT02996591|184476200|OTHER|Bang blinding index|||||<|0.001|||||||Bang Blinding Index|95% confidence interval||||||<.001
92285584|NCT00829673|184476222|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|107.82||||||90.0|100.24|115.98|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||115.98|100.24|
92285585|NCT00829673|184476223|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.74||||||90.0|97.3|104.29|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104.29|97.3|
92287128|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.308|TWO_SIDED|95.0|-0.028|0.089|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.089|-0.028|0.308
92263109|NCT01522391|184427895|OTHER||Least Square Mean Difference|20.38||||0.346|TWO_SIDED|95.0|-22.42|63.19|||Mixed Models Analysis|||Day 7||63.19|-22.42|0.346
92263110|NCT01522391|184427895|OTHER||Least Square Mean Difference|29.1||||0.18|TWO_SIDED|95.0|-13.71|71.9|||Mixed Models Analysis|||Day 14||71.90|-13.71|0.18
92263111|NCT01522391|184427895|OTHER||Least Square Mean Difference|-11.64||||0.59|TWO_SIDED|95.0|-54.44|31.16|||Mixed Models Analysis|||Day 21||31.16|-54.44|0.590
92263112|NCT01522391|184427896|OTHER||Least Square Mean Difference|5.95||||0.748|TWO_SIDED|95.0|-30.84|42.73|||Mixed Models Analysis|||Day 7||42.73|-30.84|0.748
92263113|NCT01522391|184427896|OTHER||Least Square Mean Difference|14.62||||0.437|TWO_SIDED|95.0|-22.65|51.88|||Mixed Models Analysis|||Day 14||51.88|-22.65|0.437
92263114|NCT01522391|184427896|OTHER||Least Square Mean Difference|-18.66||||0.322|TWO_SIDED|95.0|-55.92|18.61|||Mixed Models Analysis|||Day 21||18.61|-55.92|0.322
92263115|NCT01522391|184427897|OTHER||Least Square Mean Difference|8.04||||0.631|TWO_SIDED|95.0|-25.15|41.24|||Mixed Models Analysis|||Day 7||41.24|-25.15|0.631
92263116|NCT01522391|184427897|OTHER||Least Square Mean Difference|20.44||||0.224|TWO_SIDED|95.0|-12.75|53.63|||Mixed Models Analysis|||Day 14||53.63|-12.75|0.224
92263117|NCT01522391|184427897|OTHER||Least Square Mean Difference|-1.23||||0.941|TWO_SIDED|95.0|-34.42|31.96|||Mixed Models Analysis|||Day 21||31.96|-34.42|0.941
92263118|NCT01522391|184427898|OTHER||Least Square Means Difference|0.97||||0.954|TWO_SIDED|95.0|-32.93|34.87|||Mixed Models Analysis|||Day 7||34.87|-32.93|0.954
92263119|NCT01522391|184427898|OTHER||Least Square Mean Difference|15.72||||0.358|TWO_SIDED|95.0|-18.18|49.62|||Mixed Models Analysis|||Day 14||49.62|-18.18|0.358
92263120|NCT01522391|184427898|OTHER||least Square Mean Difference|-7.94||||0.642|TWO_SIDED|95.0|-41.82|25.94|||Mixed Models Analysis|||Day 21||25.94|-41.82|0.642
92263121|NCT01522391|184427899|OTHER|||||||0.701|||||||Cochran-Mantel-Haenszel|||Day 7||||0.701
92263122|NCT01522391|184427899|OTHER|||||||0.898|||||||Cochran-Mantel-Haenszel|||Day 14||||0.898
92263123|NCT01522391|184427899|OTHER|||||||0.271|||||||Cochran-Mantel-Haenszel|||Day 21||||0.271
92263124|NCT01522391|184427900|OTHER|||||||0.511|||||||Cochran-Mantel-Haenszel|||Day 7||||0.511
92263125|NCT01522391|184427900|OTHER|||||||0.777|||||||Cochran-Mantel-Haenszel|||Day 14||||0.777
92263126|NCT01522391|184427900|OTHER|||||||0.204|||||||Cochran-Mantel-Haenszel|||Day 21||||0.204
92263127|NCT01522391|184427901|OTHER|||||||0.489|||||||Cochran-Mantel-Haenszel|||Day 7||||0.489
92263128|NCT01522391|184427901|OTHER|||||||0.249|||||||Cochran-Mantel-Haenszel|||Day 14||||0.249
92263129|NCT01522391|184427901|OTHER|||||||0.098|||||||Cochran-Mantel-Haenszel|||Day 21||||0.098
92263130|NCT01522391|184427902|OTHER|||||||0.291|||||||Cochran-Mantel-Haenszel|||Day 7||||0.291
92263131|NCT01522391|184427902|OTHER|||||||0.113|||||||Cochran-Mantel-Haenszel|||Day 14||||0.113
92263132|NCT01522391|184427902|OTHER|||||||0.033|||||||Cochran-Mantel-Haenszel|||Day 21||||0.033
92263133|NCT01522391|184427903|OTHER|||||||0.825|||||||Cochran-Mantel-Haenszel|||Day 7||||0.825
92263134|NCT01522391|184427903|OTHER|||||||0.825|||||||Cochran-Mantel-Haenszel|||Day 14||||0.825
92263135|NCT01522391|184427903|OTHER|||||||0.208|||||||Cochran-Mantel-Haenszel|||||||0.208
92263136|NCT01522391|184427904|OTHER|||||||0.825|||||||Cochran-Mantel-Haenszel|||Day 7||||0.825
92263137|NCT01522391|184427904|OTHER|||||||0.82|||||||Cochran-Mantel-Haenszel|||Day 14||||0.820
92263138|NCT01522391|184427904|OTHER|||||||0.086|||||||Cochran-Mantel-Haenszel|||Day 21||||0.086
92263139|NCT01522391|184427905|OTHER|||||||0.378|||||||Cochran-Mantel-Haenszel|||Day 7||||0.378
92263140|NCT01522391|184427905|OTHER|||||||0.975|||||||Cochran-Mantel-Haenszel|||Day 14||||0.975
92263141|NCT01522391|184427905|OTHER|||||||0.962|||||||Cochran-Mantel-Haenszel|||Day 21||||0.962
92263142|NCT01522391|184427906|OTHER|||||||0.375|||||||Cochran-Mantel-Haenszel|||Day 7||||0.375
92263143|NCT01522391|184427906|OTHER|||||||0.946|||||||Cochran-Mantel-Haenszel|||Day 14||||0.946
92263144|NCT01522391|184427906|OTHER|||||||0.495|||||||Cochran-Mantel-Haenszel|||Day 21||||0.495
92263145|NCT01522391|184427909|OTHER|||||||0.477|||||||Wilcoxon (Mann-Whitney)|||Day 7 morning||||0.477
92263146|NCT01522391|184427909|OTHER|||||||0.651|||||||Wilcoxon (Mann-Whitney)|||Day 14 morning||||0.651
92263147|NCT01522391|184427909|OTHER|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Day 21 morning||||0.340
92263148|NCT01522391|184427910|OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Day 7 morning||||0.300
92263149|NCT01522391|184427910|OTHER|||||||0.705|||||||Wilcoxon (Mann-Whitney)|||Day 14||||0.705
92263150|NCT01522391|184427910|OTHER|||||||0.286|||||||Wilcoxon (Mann-Whitney)|||Day 21||||0.286
92263151|NCT02514889|184427931|SUPERIORITY||Mean Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|2.05||0.3|TWO_SIDED|95.0|-6.12|1.91||a priori threshold is p = .017, so that experiment-wide critical alpha would be p = .05.|Mixed Models Analysis|Covariates: sex, age, ethnicity, marital status and educational attainment|Difference in differences interaction term is the product of assessment period (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting).|||1.91|-6.12|0.30
92263152|NCT02514889|184427932|EQUIVALENCE|p-value \>0.20 would be considered equivalent.|Mean Difference (Final Values)|2.59|STANDARD_ERROR_OF_MEAN|1.39||0.06|TWO_SIDED|95.0|-0.1342|5.3228|||Mixed Models Analysis|Covariates included age, sex, ethnicity, educational attainment and marital status||||5.3228|-0.1342|0.06
92263153|NCT02514889|184427933|SUPERIORITY||Mean Difference (Net)|-1.37|STANDARD_ERROR_OF_MEAN|2.55||0.504|TWO_SIDED|95.0|-6.37|3.63|||Mixed Models Analysis|Covariates included: age, sex, ethnicity, educational attainment and marital status|Difference in differences interaction term is the product of assessment period (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting).|||3.63|-6.37|0.504
92263154|NCT02514889|184427934|SUPERIORITY|Difference in differences|Mean Difference (Net)|-1.88|STANDARD_ERROR_OF_MEAN|2.35||0.3|TWO_SIDED|95.0|-6.47|2.74|||Mixed Models Analysis|Covariates included: age, sex, ethnicity, educational attainment, marital status|The difference in differences interaction term is the product of assessment period (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting)|||2.74|-6.47|0.30
92263155|NCT02514889|184427935|SUPERIORITY||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|0.99||0.64|TWO_SIDED|95.0|-1.47|2.39|||Mixed Models Analysis||The differences in difference interaction term consists of the product of assessment intervals (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting)|||2.39|-1.47|0.640
92263156|NCT02514889|184427936|EQUIVALENCE|For the comparison conditions to be equivalent, as predicted, the critical alpha was set at P \> 0.20.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.135||0.747|TWO_SIDED|95.0|-0.31|0.22|||Mixed Models Analysis|Covariates included: age, sex, ethnicity, educational attainment and marital status|The differences in difference interaction term consists of the product of assessment intervals (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting)|||0.22|-.31|0.747
92285586|NCT00829673|184476224|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.5||||||90.0|97.09|104.03|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104.03|97.09|
92287129|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.082|TWO_SIDED|95.0|-0.006|0.107|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.107|-0.006|0.082
92181681|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|0.0498|STANDARD_ERROR_OF_MEAN|0.03516||0.1592||95.0|-0.0198|0.1194||alpha=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the Older Adult treatment arm\*time."||.1194|-.0198|.1592
92181682|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|-0.02435|STANDARD_ERROR_OF_MEAN|0.03516||0.4899||95.0|-0.09396|0.04526|||Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the Physician/Older Adult treatment arm\*time."||.04526|-.09396|.4899
92181683|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|0.000697|STANDARD_ERROR_OF_MEAN|0.03516||0.9842||95.0|-0.06891|0.0703||alpha=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister/older adult treatment arm\*time."||.0703|-.06891|.9842
92285587|NCT00272779|184476225|SUPERIORITY_OR_OTHER||Difference Estimate|1.7|||||TWO_SIDED|95.0|-3.8|7.1||Assuming 70% response rate (70% of participants remain on treatment for 48 wks and HIV RNA \<50 copies/mL) on both regimens, sample size of 882 randomized participants (441/regimen) provided 90% power to demonstrate ATV/RTV is non-inferior to LPV/RTV|Cochran-Mantel-Haenszel|The ATV/RTV regimen was deemed to be non-inferior to the lopinavir/ritonavir regimen if the lower CI for the difference in proportions \> -10%.||Treatment regimens compared by calculation of the difference in proportions (atazanavir/ritonavir- lopinavir/ritonavir) and 95% CI based on stratified normal approximation.Analyses were stratified by the same strata as randomization-HIV RNA level at enrollment and geographic region.The proportion of participants with HIV RNA below 50 copies/mL was computed within each stratum, and combined by use of a weighted average with weights proportional to stratum size:Cochran-Mantel-Haenszel weighting||7.1|-3.8|
92285588|NCT00272779|184476226|SUPERIORITY_OR_OTHER||Difference Estimate|3.3|||||TWO_SIDED|95.0|-1.5|8.1|||Cochran-Mantel-Haenszel|||Treatment regimens were compared by calculation of the difference in proportions (ATV/RTV-LPV/RTV) and 95% CI based on a stratified normal approximation. Analyses were stratified by the same strata as randomization-ie, HIV RNA level at enrollment and geographic region. The proportion of participants with HIV RNA below 400 copies per mL was computed within each stratum, and combined by use of a weighted average with weights proportional to stratum size (Cochran-Mantel-Haenszel weighting).||8.1|-1.5|
92285589|NCT00272779|184476229|SUPERIORITY_OR_OTHER||Difference Estimate|-16.4|||||TWO_SIDED|95.0|-35.9|3.1|||95% CI comparison of difference|||Mean changes in CD4 cell counts from baseline at week 48 were compared between treatment regimens with 95% CIs based on stratified normal approximations and observed values.||3.1|-35.9|
92285590|NCT00272779|184476251|SUPERIORITY_OR_OTHER||Difference Estimate|6.1|||||TWO_SIDED|95.0|0.3|12.0||Assuming 70% response rate (70% of participants remain on treatment for 96 wks and HIV RNA \<50 copies/mL) on both regimens, sample size of 882 randomized participants (441/regimen) provided 90% power to demonstrate ATV/RTV is non-inferior to LPV/RTV|Cochran-Mantel-Haenszel|The ATV/RTV regimen was deemed to be non-inferior to the lopinavir/ritonavir regimen if the lower CI for the difference in proportions \> -10%.||Treatment regimens compared by calculation of the difference in proportions (atazanavir/ritonavir- lopinavir/ritonavir) and 95% CI based on stratified normal approximation.Analyses were stratified by the same strata as randomization-HIV RNA level at enrollment and geographic region.The proportion of participants with HIV RNA below 50 copies/mL was computed within each stratum, and combined by use of a weighted average with weights proportional to stratum size:Cochran-Mantel-Haenszel weighting||12.0|0.3|
92285591|NCT00272779|184476252|SUPERIORITY_OR_OTHER||Difference Estimate|5.1|||||TWO_SIDED|95.0|-0.4|10.6|||Cochran-Mantel-Haenszel|||Treatment regimens were compared by calculation of the difference in proportions (ATV/RTV-LPV/RTV) and 95% CI based on a stratified normal approximation. Analyses were stratified by the same strata as randomization-ie, HIV RNA level at enrollment and geographic region. The proportion of participants with HIV RNA below 400 copies per mL was computed within each stratum, and combined by use of a weighted average with weights proportional to stratum size (Cochran-Mantel-Haenszel weighting).||10.6|-0.4|
92285592|NCT00272779|184476254|SUPERIORITY_OR_OTHER||Difference Estimate|-21.2|||||TWO_SIDED|95.0|-43.3|0.9|||95% CI comparison of difference|||Mean changes in CD4 cell counts from baseline at week 48 were compared between treatment regimens with 95% CIs based on stratified normal approximations and observed values.||0.9|-43.3|
92285593|NCT00272779|184476270|SUPERIORITY_OR_OTHER||point estimate|0.761|||||TWO_SIDED|90.0|0.507|1.142|||ANOVA||Point estimates and 90% confidence intervals (CIs) for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||1.142|0.507|
92285594|NCT00272779|184476271|SUPERIORITY_OR_OTHER||point estimate|1.46|||||TWO_SIDED|90.0|1.005|2.121|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||2.121|1.005|
92285595|NCT00272779|184476272|SUPERIORITY_OR_OTHER||point estimate|0.839|||||TWO_SIDED|90.0|0.612|1.151|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||1.151|0.612|
92285596|NCT00272779|184476273|SUPERIORITY_OR_OTHER||point estimate|0.282|||||TWO_SIDED|90.0|0.181|0.439|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||0.439|0.181|
92285597|NCT00272779|184476274|SUPERIORITY_OR_OTHER||point estimate|0.925|||||TWO_SIDED|90.0|0.699|1.223|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||1.223|0.699|
92285598|NCT00272779|184476275|SUPERIORITY_OR_OTHER||point estimate|0.853|||||TWO_SIDED|90.0|0.626|1.161|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||1.161|0.626|
92285599|NCT00272779|184476276|SUPERIORITY_OR_OTHER||point estimate|0.89|||||TWO_SIDED|90.0|0.689|1.151|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||1.151|0.689|
92263157|NCT02514889|184427937|EQUIVALENCE|For the comparison conditions to be judged equivalent, as predicted, the critical p-value was set to P \>.20|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.51||0.776|TWO_SIDED|95.0|-0.85|1.14|||Mixed Models Analysis|Covariates included: age, sex, ethnicity, educational attainment and marital status|The differences in difference interaction term consists of the product of assessment intervals (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting)|||1.14|-0.85|0.776
92263158|NCT01519648|184428019|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.872|STANDARD_ERROR_OF_MEAN|0.237||0.007|TWO_SIDED|95.0|1.178|2.977|||Chi-squared|||||2.977|1.178|0.007
92263159|NCT03808298|184428024|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|1.47|||TWO_SIDED|90.0|-1.99|2.9||||||||2.90|-1.99|
92263160|NCT03808298|184428024|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-2.73|2.24||||||||2.24|-2.73|
92263161|NCT03808298|184428024|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|90.0|-2.25|2.79||||||||2.79|-2.25|
92263162|NCT03808298|184428024|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.5 Hours Post-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|90.0|-1.94|3.09||||||||3.09|-1.94|
92263163|NCT03808298|184428024|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 1 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-2.62|2.35||||||||2.35|-2.62|
92263164|NCT03808298|184428024|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 2.5 Hours Post-dose|LS Mean|1.6|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|90.0|-0.88|4.11||||||||4.11|-0.88|
92263165|NCT03808298|184428024|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 4 Hours Post-dose|LS Mean|1.1|STANDARD_ERROR_OF_MEAN|1.66|||TWO_SIDED|90.0|-1.63|3.85||||||||3.85|-1.63|
92263166|NCT03808298|184428024|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 8 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|1.79|||TWO_SIDED|90.0|-3.13|2.79||||||||2.79|-3.13|
92263167|NCT03808298|184428024|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 12 Hours Post-dose|LS Mean|0.9|STANDARD_ERROR_OF_MEAN|2.13|||TWO_SIDED|90.0|-2.6|4.47||||||||4.47|-2.60|
92263168|NCT03808298|184428024|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 24 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|90.0|-2.03|2.98||||||||2.98|-2.03|
92263169|NCT03808298|184428025|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 0.5 Hours Post-dose|LS Mean|1.2|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|90.0|-0.19|2.64||||||||2.64|-0.19|
92263170|NCT03808298|184428025|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 1 Hours Post-dose|LS Mean|1.1|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|90.0|-0.12|2.33||||||||2.33|-0.12|
92263171|NCT03808298|184428025|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 2.5 Hours Post-dose|LS Mean|2.0|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|0.4|3.67||||||||3.67|0.40|
92263172|NCT03808298|184428025|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 4 Hours Post-dose|LS Mean|2.5|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|0.6|4.49||||||||4.49|0.60|
92263173|NCT03808298|184428025|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 8 Hours Post-dose|LS Mean|2.5|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|90.0|0.09|4.94||||||||4.94|0.09|
92263174|NCT03808298|184428025|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 12 Hours Post-dose|LS Mean|1.4|STANDARD_ERROR_OF_MEAN|1.84|||TWO_SIDED|90.0|-1.62|4.47||||||||4.47|-1.62|
92263175|NCT03808298|184428025|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 24 Hours Post-dose|LS Mean|1.6|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|90.0|-0.1|3.39||||||||3.39|-0.10|
92263176|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 0.5 Hours Post-dose|LS Mean|0.8|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|90.0|-0.6|2.2||||||||2.20|-0.60|
92263177|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 1 Hours Post-dose|LS Mean|1.3|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|90.0|0.13|2.55||||||||2.55|0.13|
92263178|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 2.5 Hours Post-dose|LS Mean|1.7|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|90.0|0.04|3.27||||||||3.27|0.04|
92263179|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 4 Hours Post-dose|LS Mean|1.3|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-0.64|3.2||||||||3.20|-0.64|
92263180|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 8 Hours Post-dose|LS Mean|2.3|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|90.0|-0.13|4.67||||||||4.67|-0.13|
92263181|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 12 Hours Post-dose|LS Mean|0.7|STANDARD_ERROR_OF_MEAN|1.82|||TWO_SIDED|90.0|-2.31|3.7||||||||3.70|-2.31|
92263182|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 24 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-1.35|2.1||||||||2.10|-1.35|
92263183|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|90.0|-2.94|1.89||||||||1.89|-2.94|
92285600|NCT00272779|184476300|SUPERIORITY_OR_OTHER|||||||0.0847||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting non-HDL cholesterol (phenotype) and the RETN\_097 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_097 reported in Outcome Measure 16.||||0.0847
92285601|NCT00272779|184476301|SUPERIORITY_OR_OTHER|||||||0.0058||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting triglycerides (phenotype) and the RETN\_097 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_097 reported in Outcome Measure 16.||||0.0058
92285602|NCT00272779|184476302|SUPERIORITY_OR_OTHER|||||||0.0058||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting triglycerides (phenotype) and the RETN\_2265 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, weeks 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_2265 reported in Outcome Measure 16.||||0.0058
92285603|NCT00272779|184476303|SUPERIORITY_OR_OTHER|||||||0.0253||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting triglycerides (phenotype) and the RETN\_598 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_598 reported in Outcome Measure 16.||||0.0253
92285604|NCT00272779|184476304|SUPERIORITY_OR_OTHER|||||||0.1173||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting triglycerides (phenotype) and the APOE\_C130R genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with APOE\_C130R reported in Outcome Measure 16.||||0.1173
92287130|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.097|||<|0.001|TWO_SIDED|95.0|0.043|0.152|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.152|0.043|<0.001
92285605|NCT00272779|184476305|SUPERIORITY_OR_OTHER|||||||0.1173||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting triglycerides (phenotype) and the RETN\_734 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, weeks 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_734 reported in Outcome Measure 16.||||0.1173
92285606|NCT00272779|184476306|SUPERIORITY_OR_OTHER|||||||0.1847||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting PAI-1 (phenotype) and the APOE\_R176C genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, weeks 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with APOE\_R176C reported in Outcome Measure 16.||||0.1847
92285607|NCT00272779|184476307|SUPERIORITY_OR_OTHER|||||||0.1833||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis:There is no association between the mean change from baseline in fasting Tumor Necrosis Factor(TNF)-alpha (phenotype) and the IL6\_5309 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, wk48 and 96) to test the overall genotype effect (ie. an omnibus test on both marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with IL6\_5309 reported in Outcome Measure 16||||0.1833
92285608|NCT00272779|184476308|SUPERIORITY_OR_OTHER|||||||0.1833||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting TNF-alpha (phenotype) and the RS11030679 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_097 reported in Outcome Measure 16.||||0.1833
92285609|NCT00272779|184476309|SUPERIORITY_OR_OTHER|||||||0.1694||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in SAT-to-TAT Ratio (phenotype) and the CCDC122\_5980 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with CCDC122\_5980 reported in Outcome Measure 16.||||0.1694
92287131|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.52|TWO_SIDED|95.0|-0.041|0.08|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.080|-0.041|0.520
92287132|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.067||||0.022|TWO_SIDED|95.0|0.01|0.124|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.124|0.010|0.022
92182875|NCT02434328|184264727|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.8|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.0|-8.8|
92287133|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.098|TWO_SIDED|95.0|-0.009|0.103|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.103|-0.009|0.098
92182876|NCT02434328|184264727|OTHER||Difference in proportions|-2.6|||||TWO_SIDED|95.0|-9.0|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.5|-9.0|
92287134|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.153|||<|0.001|TWO_SIDED|95.0|0.095|0.21|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.210|0.095|<0.001
92181684|NCT04837937|184262019|SUPERIORITY||Mean Difference (Final Values)|-0.01255|STANDARD_ERROR_OF_MEAN|0.03516||0.7217||95.0|-0.08216|0.05705||alpha=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the Sister/Older Adult/Physician treatment arm\*time."||.05705|-.08216|.7217
92181685|NCT04837937|184262020|SUPERIORITY||Mean Difference (Final Values)|-0.74|STANDARD_DEVIATION|6.55||0.21||95.0|-1.9|0.42||Threshold for statistical significance was alpha=0.05.|2-sided paired t-Test|||Univariate ANOVA- analytic variable is change in PROMIS Anxiety score from baseline to T3. Test is a paired T-Test.||.42|-1.90|.21
92181686|NCT04837937|184262021|SUPERIORITY||Mean Difference (Final Values)|-3.24|STANDARD_DEVIATION|11.54||0.0021||95.0|-5.28|-1.2||Threshold for significance was 0.05.|2-sided dependent sample t-test|||Univariate ANOVA on change in Zarit Caregiver Burden Score, Baseline to 1-month post-intervention. Test was a 2-sided dependent samples t-test.||-1.20|-5.28|.0021
92181687|NCT04837937|184262022|SUPERIORITY||Mean Difference (Final Values)|-1.19|STANDARD_DEVIATION|8.1||0.1||95.0|-2.62|0.25||Alpha for statistical significance was 0.05|2-Sided Paired T Test|||Univariate ANOVA- analytic variable is change in PROMIS Fatigue score from baseline to T3. Test is a paired T-Test.||.25|-2.62|.10
92181688|NCT04837937|184262023|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|7.83||0.9754||95.0|-1.36|1.41|||2-sided paired (dependent sample) t-test|||Univariate ANOVA on change in PROMIS short form General Self Efficacy T-Score, baseline to one month post-intervention. Test is a 2-sided paired (dependent sample) t-test.||1.41|-1.36|.9754
92181689|NCT04837937|184262025|SUPERIORITY||Mean Difference (Final Values)|0.1296|STANDARD_DEVIATION|4.91||0.77||95.0|-0.74|1.0||Threshold for significance is 0.05|2-sided Paired T-Test|||Univariate ANOVA on change in T-Score between baseline and 1 month post-intervention. Test is a 2-sided paired t-test.||1.00|-.74|.77
92181690|NCT04837937|184262026|SUPERIORITY||Mean Difference (Final Values)|0.7618|STANDARD_DEVIATION|6.16||0.1694||95.0|-0.33|1.85||alpha threshold for significance was 0.05.|two-sided paired T-Test|||Univariate ANOVA on change in T-score between baseline and one month post-intervention. Test is a two-sided paired t-test.||1.85|-.33|.1694
92181691|NCT04837937|184262031|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_DEVIATION|16.44||0.76||||||Alpha for Significance=0.05|ANOVA|||Univariate ANOVA on change in Avoiding Score (out of 100) between Baseline and 1 Month Post-Intervention.||||.76
92181692|NCT04837937|184262031|SUPERIORITY||Mean Difference (Final Values)|2.25|STANDARD_DEVIATION|16.33||0.13||||||Alpha for significance=0.05|ANOVA|||Univariate ANOVA on change in Compromising Score (out of 100) between Baseline and 1 Month Post-Intervention.||||.13
92181693|NCT04837937|184262031|SUPERIORITY||Mean Difference (Final Values)|-6.85|STANDARD_DEVIATION|18.76|<|0.0001||||||Alpha for significance=0.05|ANOVA|||Univariate ANOVA on change in Forcing Score (out of 100) between Baseline and 1 Month Post-Intervention.||||<.0001
92181694|NCT04837937|184262031|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_DEVIATION|15.62||0.86||||||Alpha for Significance=0.05|ANOVA|||Univariate ANOVA on change in Problem Solving Score (out of 100) between Baseline and 1 Month Post-Intervention.||||.86
92181695|NCT04837937|184262031|SUPERIORITY||Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|12.3||0.32||||||Alpha for significance=0.05|ANOVA|||Univariate ANOVA on change in Yielding Score (out of 100) between Baseline and 1 Month Post-Intervention.||||.32
92181696|NCT04837937|184262032|SUPERIORITY||Mean Difference (Final Values)|3.09|STANDARD_DEVIATION|13.18||0.0012||95.0|||||ANOVA|||Univariate ANOVA on change in total Negotiation Knowledge score, Baseline 1-month. Threshold for significance was alpha=0.05.||||.0012
92181697|NCT04837937|184262032|SUPERIORITY||Mean Difference (Final Values)|4.933|STANDARD_DEVIATION|17.33||0.0018||||||alpha=0.05|ANOVA|||Univariate ANOVA on change in Negotiation Knowledge Interests score, Baseline 1-month. Threshold for significance was alpha=0.05.||||.0018
92181698|NCT04837937|184262032|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|19.69||0.91||||||Threshold for significance was alpha=0.05.|ANOVA|||Univariate ANOVA on change in Negotiation Knowledge Power score, Baseline 1-month.||||.91
92181699|NCT04837937|184262032|SUPERIORITY||Mean Difference (Final Values)|3.2|STANDARD_DEVIATION|22.35||0.11||||||Threshold for significance was alpha=0.05.|ANOVA|||Univariate ANOVA on change in Negotiation Knowledge Rights score, Baseline 1-month.||||.11
92181700|NCT04837937|184262034|SUPERIORITY||Mean Difference (Final Values)|-2.08|STANDARD_DEVIATION|5.73|<|0.0001||95.0|-3.09|-1.07||Threshold for significance is alpha=0.05.|2-sided dependent sample t-test|||Univariate ANOVA on change in negative affect score, baseline-1 month post-intervention. Test is a 2 sided dependent sample t-test.||-1.07|-3.09|<.0001
92181701|NCT04837937|184262034|SUPERIORITY||Mean Difference (Final Values)|0.344|STANDARD_DEVIATION|4.86||0.4305||95.0|-0.52|1.21|||2-sided dependent sample t-test|||Univariate ANOVA of change in positive affect score between baseline-1 month post-intervention. Test is a 2-sided dependent sample t-test.||1.21|-.52|.4305
92181702|NCT06072170|184262039|OTHER|Proportionality analysis was done using a power model.|Slope|0.829|||||TWO_SIDED|90.0|0.659|0.998||||||Statistical Analysis for Dose-Proportionality of Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||0.998|0.659|
92181703|NCT06072170|184262039|OTHER|Proportionality analysis was done using a power model.|Slope|0.843|||||TWO_SIDED|90.0|0.713|0.973||||||Statistical Analysis for Dose-Proportionality of 7-Hydroxy-Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||0.973|0.713|
92181704|NCT06072170|184262039|OTHER|Proportionality analysis was done using a power model.|Slope|0.811|||||TWO_SIDED|90.0|0.637|0.984||||||Statistical Analysis for Dose-Proportionality of Paynantheine Pharmacokinetic Parameters (Pharmacokinetic Population)||0.984|0.637|
92181705|NCT06072170|184262039|OTHER|Proportionality analysis was done using a power model.|Slope|0.814|||||TWO_SIDED|90.0|0.633|0.994||||||Statistical Analysis for Dose-Proportionality of Speciogynine Pharmacokinetic Parameters (Pharmacokinetic Population)||0.994|0.633|
92181706|NCT06072170|184262039|OTHER|Proportionality analysis was done using a power model.|Slope|0.88|||||TWO_SIDED|90.0|0.72|1.039||||||Statistical Analysis for Dose-Proportionality of Speciociliatine Dose Adjusted Pharmacokinetic Parameters (Pharmacokinetic Population)||1.039|0.720|
92181707|NCT06072170|184262041|OTHER|Proportionality analysis was done using a power model.|Slope|0.946|||||TWO_SIDED|90.0|0.768|1.123||||||Statistical Analysis for Dose-Proportionality of Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.123|0.768|
92285610|NCT00272779|184476310|SUPERIORITY_OR_OTHER|||||||0.1335||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in VAT (phenotype) and the BRUNOL\_1842 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with BRUNOL\_1842 reported in Outcome Measure 16.||||0.1335
92285611|NCT00272779|184476311|SUPERIORITY_OR_OTHER|||||||0.1335||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in VAT (phenotype) and the RETN\_730 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, weeks 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_730 reported in Outcome Measure 16.||||0.1335
92285612|NCT00272779|184476312|SUPERIORITY_OR_OTHER|||||||0.1696||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in VAT-to-TAT Ratio (phenotype) and the CCDA122\_5980 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, weeks 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with CCDA122\_5980 reported in Outcome Measure 16.||||0.1696
92285613|NCT02331394|184476323|EQUIVALENCE|"The equivalence assumes that the true mean difference between the paired samples is zero. Under this model, all observable differences are explained by random variation.Equality margins are:~Upper Equivalence Margin=1.5 Lower Equivalence Margin=-1.5"|||||<|0.05|||||||t-test, 2 sided|||Comparisons of repeated measures were made using paired sample t test, which compared subjects data at 2 different times: baseline and end of the study. A P value of 0.05 was considered statistically significant||||<0.05
92285614|NCT02331394|184476326|SUPERIORITY|Pared t-test was used to evaluate the significance of the change in scores||||||0.02|||||||t-test, 2 sided|||||||0.02
92285615|NCT01371786|184476327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.92|||||TWO_SIDED|95.0|-21.76|-4.09||No formal statistical testing was conducted. Only descriptive statistics were calculated and presented.|||Difference calculated as Mometasone minus Ciclesonide|No formal null hypothesis was stated or tested.Descriptive statistics only were calculated and presented. The sample size was determined outside of statistical considerations. The sample size of 10 subjects was sufficient to provide approximately 80% power to detect a difference of 25% between the two treatment groups in the percentage of nasal deposition approximately 2 minutes post dose, assuming a two-sided test evaluated at a significance level of 0.05, with a SD of the difference of 23.17%.||-4.09|-21.76|
92181708|NCT06072170|184262041|OTHER|Proportionality analysis was done using a power model.|Slope|0.978|||||TWO_SIDED|90.0|0.821|1.134||||||Statistical Analysis for Dose-Proportionality of 7-Hydroxy-Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.134|0.821|
92181709|NCT06072170|184262041|OTHER|Proportionality analysis was done using a power model.|Slope|1.075|||||TWO_SIDED|90.0|0.901|1.249||||||Statistical Analysis for Dose-Proportionality of Paynantheine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.249|0.901|
92263184|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.48|||TWO_SIDED|90.0|-3.19|1.72||||||||1.72|-3.19|
92263185|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|90.0|-2.26|2.74||||||||2.74|-2.26|
92263186|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.5 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|90.0|-2.02|2.96||||||||2.96|-2.02|
92263187|NCT03808298|184428026|EQUIVALENCE|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 1 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|1.49|||TWO_SIDED|90.0|-2.39|2.54||||||||2.54|-2.39|
92263188|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 2.5 Hours Post-dose|LS Mean|1.8|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-0.67|4.28||||||||4.28|-0.67|
92263189|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 4 Hours Post-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|1.64|||TWO_SIDED|90.0|-2.11|3.31||||||||3.31|-2.11|
92263190|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 8 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|1.76|||TWO_SIDED|90.0|-2.38|3.47||||||||3.47|-2.38|
92263191|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 12 Hours Post-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|-2.85|4.14||||||||4.14|-2.85|
92263192|NCT03808298|184428026|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 24 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-2.36|2.6||||||||2.60|-2.36|
92263193|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 0.5 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|90.0|-1.2|0.73||||||||0.73|-1.20|
92263194|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 1 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|90.0|-1.08|0.96||||||||0.96|-1.08|
92263195|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 2.5 Hours Post-dose|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-1.73|0.78||||||||0.78|-1.73|
92263196|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 4 Hours Post-dose|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|90.0|-1.8|0.7||||||||0.70|-1.80|
92263197|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 8 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|90.0|-2.42|1.05||||||||1.05|-2.42|
92285616|NCT02865850|184476332|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.53|-0.1||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||-0.10|-0.53|
92263198|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 12 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|-2.66|1.24||||||||1.24|-2.66|
92263199|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 24 Hours Post-dose|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|90.0|-1.91|0.85||||||||0.85|-1.91|
92263200|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.75 Hours Pre-dose|LS Mean|-2.2|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|-3.9|-0.48||||||||-0.48|-3.90|
92263201|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.5 Hours Pre-dose|LS Mean|-1.7|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|-3.41|0.0||||||||0.00|-3.41|
92263202|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.25 Hours Pre-dose|LS Mean|-1.4|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|90.0|-3.21|0.36||||||||0.36|-3.21|
92263203|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.5 Hours Pre-dose|LS Mean|-1.6|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|90.0|-3.25|0.01||||||||0.01|-3.25|
92263204|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 1 Hours Post-dose|LS Mean|-1.7|STANDARD_ERROR_OF_MEAN|1.01|||TWO_SIDED|90.0|-3.36|-0.01||||||||-0.01|-3.36|
92263205|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 2.5 Hours Post-dose|LS Mean|-1.9|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|-3.75|-0.14||||||||-0.14|-3.75|
92263206|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 4 Hours Post-dose|LS Mean|-1.4|STANDARD_ERROR_OF_MEAN|1.01|||TWO_SIDED|90.0|-3.06|0.29||||||||0.29|-3.06|
92263207|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 8 Hours Post-dose|LS Mean|-1.0|STANDARD_ERROR_OF_MEAN|1.24|||TWO_SIDED|90.0|-3.08|1.01||||||||1.01|-3.08|
92263208|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 12 Hours Post-dose|LS Mean|-1.1|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|-3.03|0.76||||||||0.76|-3.03|
92263209|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 24 Hours Post-dose|LS Mean|-1.0|STANDARD_ERROR_OF_MEAN|1.13|||TWO_SIDED|90.0|-2.87|0.87||||||||0.87|-2.87|
92263210|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 0.5 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|90.0|-0.89|1.07||||||||1.07|-0.89|
92285617|NCT02865850|184476333|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per Food and Drug Administration \[FDA\]) and 1.30 (per European Medicines Agency \[EMA\]).|Hazard Ratio (HR)|0.97|||=|0.995|TWO_SIDED|95.0|0.536|1.761|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0016 has been reported in this section.||1.761|0.536|=0.9950
92285618|NCT02865850|184476333|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.4877|TWO_SIDED|95.0|0.833|1.113|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 355 and 377 respectively; median time to first event (Q1, Q3) = 46.14 (24.71, 77.14) weeks versus 47.00 (22.43, 74.43) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.113|0.833|=0.4877
92285619|NCT02865850|184476334|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.134|||TWO_SIDED|95.0|-0.34|0.19||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||0.19|-0.34|
92285620|NCT02865850|184476335|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|1.04|||=|0.8871|TWO_SIDED|95.0|0.618|1.743|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0016 has been reported in this section.||1.743|0.618|=0.8871
92287135|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.19|||<|0.001|TWO_SIDED|95.0|0.131|0.249|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.249|0.131|<0.001
92287136|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.17|||<|0.001|TWO_SIDED|95.0|0.113|0.228|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.228|0.113|<0.001
92285621|NCT02865850|184476335|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.4096|TWO_SIDED|95.0|0.84|1.096|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first MACE plus hospitalization for heart failure or thromboembolic event Excluding vascular access thrombosis for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 420 and 449 respectively; median time to first event (Q1, Q3) = 42.07 (21.50, 71.14) weeks versus 45.29 (22.29, 72.43) weeks, respectively.||1.096|0.840|=0.4096
92285622|NCT02865850|184476336|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|1.36|||=|0.521|TWO_SIDED|95.0|0.67|2.771|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0016 has been reported in this section.||2.771|0.670|=0.5210
92285623|NCT02865850|184476336|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.95|||=|0.5007|TWO_SIDED|95.0|0.795|1.144|||Gray's test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first cardiovascular MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 225 and 242 respectively; median time to first event (Q1, Q3) = 43.29 (21.71, 77.14) weeks versus 45.79 (21.14, 73.86) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.144|0.795|=0.5007
92285624|NCT02865850|184476337|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|1.1|||=|0.9527|TWO_SIDED|95.0|0.452|2.666|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0016 has been reported in this section.||2.666|0.452|=0.9527
92285625|NCT02865850|184476337|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.6284|TWO_SIDED|95.0|0.766|1.195|||Gray's test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first cardiovascular death for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 150 and 160 respectively; median time to first event (Q1, Q3) = 43.71 (27.43, 77.14) weeks versus 49.29 (24.43, 74.07) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.195|0.766|=0.6284
92285626|NCT02865850|184476338|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.78|||=|0.5115|TWO_SIDED|95.0|0.388|1.555|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0016 has been reported in this section.||1.555|0.388|=0.5115
92285627|NCT02865850|184476338|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.95|||=|0.4878|TWO_SIDED|95.0|0.812|1.118|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first all-cause mortality for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 291 and 310 respectively; median time to first event (Q1, Q3) = 50.00 (29.71, 79.00) weeks versus 49.57 (25.86, 77.29) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.118|0.812|=0.4878
92285628|NCT00552669|184476349|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||We used One way annalysis of a variance for means and standard deviation.||||<0.05
92285629|NCT00552669|184476350|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||Based on our previous data the incidence of relevant clinical events was similar in both groups (ERACI III and ORAR II)||||0.05
92285630|NCT00552669|184476351|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||"power calculation 80% Hypothesis: No significant diferences between Target Vessel Revascularization (TVR) between both groups.~All events will be recorded and an independent blind for groups clinical events committee will adjudicate each one."||||<0.05
92285631|NCT04459585|184476353|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|111.88|||||TWO_SIDED|90.0|77.57|161.35|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Total Dabigatran.||161.35|77.57|
92285632|NCT04459585|184476353|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|112.98|||||TWO_SIDED|90.0|77.2|165.34|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Free Dabigatran.||165.34|77.20|
92287137|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.217|||<|0.001|TWO_SIDED|95.0|0.162|0.272|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.272|0.162|<0.001
92181710|NCT06072170|184262041|OTHER|Proportionality analysis was done using a power model.|Slope|1.046|||||TWO_SIDED|90.0|0.87|1.222||||||Statistical Analysis for Dose-Proportionality of Speciogynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.222|0.870|
92181711|NCT06072170|184262041|OTHER|Proportionality analysis was done using a power model.|Slope|1.011|||||TWO_SIDED|90.0|0.844|1.178||||||Statistical Analysis for Dose-Proportionality of Speciociliatine Dose Adjusted Pharmacokinetic Parameters (Pharmacokinetic Population)||1.178|0.844|
92181712|NCT06072170|184262042|OTHER|Proportionality analysis was done using a power model.|Slope|0.959|||||TWO_SIDED|90.0|0.775|1.143||||||Statistical Analysis for Dose-Proportionality of Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.143|0.775|
92181713|NCT06072170|184262042|OTHER|Proportionality analysis was done using a power model.|Slope|0.974|||||TWO_SIDED|90.0|0.815|1.134||||||Statistical Analysis for Dose-Proportionality of 7-Hydroxy-Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.134|0.815|
92181714|NCT06072170|184262042|OTHER|Proportionality analysis was done using a power model.|Slope|1.036|||||TWO_SIDED|90.0|0.866|1.207||||||Statistical Analysis for Dose-Proportionality of Paynantheine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.207|0.866|
92181715|NCT06072170|184262042|OTHER|Proportionality analysis was done using a power model.|Slope|0.967|||||TWO_SIDED|90.0|0.79|1.145||||||Statistical Analysis for Dose-Proportionality of Speciogynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.145|0.790|
92181716|NCT06072170|184262042|OTHER|Proportionality analysis was done using a power model.|Slope|1.025|||||TWO_SIDED|90.0|0.859|1.191||||||Statistical Analysis for Dose-Proportionality of Speciociliatine Dose Adjusted Pharmacokinetic Parameters (Pharmacokinetic Population)||1.191|0.859|
92181717|NCT06072170|184262046|SUPERIORITY||Least-Square Mean|18.5|STANDARD_ERROR_OF_MEAN|6.06|||TWO_SIDED|95.0|6.16|30.78||||||||30.78|6.16|
92181718|NCT06072170|184262049|SUPERIORITY||Least-Squared Mean|45.9|STANDARD_ERROR_OF_MEAN|7.74|<|0.001|TWO_SIDED|95.0|30.2|61.67|||ANOVA|||Statistical Analysis for High Visual Analog Scale (Emax)||61.67|30.20|<0.001
92181719|NCT06307457|184262053|OTHER|||||||0.031|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all age groups.||||0.031
92181720|NCT06307457|184262054|OTHER|||||||0.012|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all age groups.||||0.012
92181721|NCT06307457|184262055|OTHER|||||||0.061|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all CCI scores.||||0.061
92181722|NCT06307457|184262056|OTHER|||||||0.08|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all CCI scores.||||0.080
92181723|NCT06307457|184262057|OTHER|||||||0.2|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all number of comorbidities.||||0.2
92181724|NCT06307457|184262058|OTHER|||||||0.093|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all number of comorbidities.||||0.093
92181725|NCT06307457|184262059|OTHER||||||>|0.9|||||||Log Rank|||Statistical data for participants with cardiac disease comorbidity reported.||||>0.9
92181726|NCT06307457|184262059|OTHER|||||||0.9|||||||Log Rank|||Statistical data for participants with vascular disease comorbidity reported.||||0.9
92263211|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 1 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|90.0|-1.21|0.86||||||||0.86|-1.21|
92181727|NCT06307457|184262059|OTHER|||||||0.4|||||||Log Rank|||Statistical data for participants with metabolic disease comorbidity reported.||||0.4
92181728|NCT06307457|184262060|OTHER|||||||0.7|||||||Log Rank|||Statistical data for participants cardiac disease comorbidity reported.||||0.7
92263212|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 2.5 Hours Post-dose|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.77|||TWO_SIDED|90.0|-1.71|0.83||||||||0.83|-1.71|
92181729|NCT06307457|184262060|OTHER|||||||0.3|||||||Log Rank|||Statistical data for participants with vascular disease comorbidity reported.||||0.3
92181730|NCT06307457|184262060|OTHER|||||||0.7|||||||Log Rank|||Statistical data for participants with metabolic disease comorbidity reported.||||0.7
92181731|NCT06307457|184262061|OTHER|||||||0.005|||||||Log Rank|||Statistical data for this outcome measure is provided combined for visceral disease status.||||0.005
92287138|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.198|||<|0.001|TWO_SIDED|95.0|0.144|0.252|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.252|0.144|<0.001
92181732|NCT06307457|184262062|OTHER|||||||0.005|||||||Log Rank|||Statistical data for this outcome measure is provided combined for visceral disease status.||||0.005
92181733|NCT06307457|184262063|OTHER|||||||0.14|||||||Log Rank|||Statistical data for this outcome measure is provided combined for bone disease status.||||0.14
92181734|NCT06307457|184262064|OTHER|||||||0.2|||||||Log Rank|||Statistical data for this outcome measure is provided combined for bone disease status.||||0.2
92181735|NCT06307457|184262065|OTHER|||||||0.047|||||||Log Rank|||Statistical data for this outcome measure is provided combined for endocrine status.||||0.047
92181736|NCT06307457|184262066|OTHER|||||||0.041|||||||Log Rank|||Statistical data for this outcome measure is provided combined for endocrine status.||||0.041
92181737|NCT01613417|184262180|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation was based on primary endpoint. 185 patients were deemed necessary for the lower limit of the observed 2-sided 95% confidence interval for the difference to exceed -5% with 85% power.|Percentage PH better minus GV better|0.5||||0.8516|TWO_SIDED|95.0|-4.6|5.6||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)||Difference in percentage ProHance better minus percentage Gadovist/Gadavist better (%)|||5.6|-4.6|0.8516
92181738|NCT01613417|184262180|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation was based on primary endpoint. 185 patients were deemed necessary for the lower limit of the observed 2-sided 95% confidence interval for the difference to exceed -5% with 85% power.|Percentage PH better minus GV better|0.0||||1|TWO_SIDED|95.0|-3.8|3.8||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)||Difference in percentage ProHance better minus percentage Gadovist/Gadavist better (%)|||3.8|-3.8|1.0
92263213|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 4 Hours Post-dose|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-1.07|1.46||||||||1.46|-1.07|
92263214|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 8 Hours Post-dose|LS Mean|-0.8|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|90.0|-2.5|1.0||||||||1.00|-2.50|
92263215|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 12 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|90.0|-2.22|1.74||||||||1.74|-2.22|
92263216|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 24 Hours Post-dose|LS Mean|-2.2|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|90.0|-3.63|-0.85||||||||-0.85|-3.63|
92263217|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.75 Hours Pre-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-2.42|1.03||||||||1.03|-2.42|
92263218|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline Day 14 HR (bpm) at 0.5 Hours Pre-dose|LS Mean|-1.2|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-2.96|0.49||||||||0.49|-2.96|
92263219|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.25 Hours Pre-dose|LS Mean|-0.8|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|-2.58|1.02||||||||1.02|-2.58|
92263220|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.5 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|-2.34|0.95||||||||0.95|-2.34|
92263221|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 1 Hours Post-dose|LS Mean|-1.0|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|-2.65|0.73||||||||0.73|-2.65|
92263222|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 2.5 Hours Post-dose|LS Mean|-1.3|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|90.0|-3.11|0.53||||||||0.53|-3.11|
92263223|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 4 Hours Post-dose|LS Mean|-1.0|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|-2.73|0.66||||||||0.66|-2.73|
92263224|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 8 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|90.0|-2.77|1.37||||||||1.37|-2.77|
92263225|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 12 Hours Post-dose|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|-2.5|1.33||||||||1.33|-2.50|
92263226|NCT03808298|184428027|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 24 Hours Post-dose|LS Mean|-1.7|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|-3.57|0.2||||||||0.20|-3.57|
92263227|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 0.5 Hours Post-dose|LS Mean|-1.2|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|90.0|-2.56|0.17||||||||0.17|-2.56|
92263228|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 1 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|90.0|-1.62|1.55||||||||1.55|-1.62|
92263229|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 2.5 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|90.0|-1.22|2.09||||||||2.09|-1.22|
92263230|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 4 Hours Post-dose|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|-2.04|1.33||||||||1.33|-2.04|
92263231|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 8 Hours Post-dose|LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|90.0|-1.0|3.33||||||||3.33|-1.00|
92263232|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 12 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|1.56|||TWO_SIDED|90.0|-2.3|2.88||||||||2.88|-2.30|
92263233|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 24 Hours Post-dose|LS Mean|-1.1|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|-3.0|0.81||||||||0.81|-3.00|
92263234|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|1.64|||TWO_SIDED|90.0|-2.08|3.35||||||||3.35|-2.08|
92263235|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|1.69|||TWO_SIDED|90.0|-2.48|3.12||||||||3.12|-2.48|
92263236|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|1.69|||TWO_SIDED|90.0|-2.55|3.06||||||||3.06|-2.55|
92263237|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.5 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|90.0|-3.17|3.12||||||||3.12|-3.17|
92263238|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 1 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|1.77|||TWO_SIDED|90.0|-2.47|3.37||||||||3.37|-2.47|
92263239|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 2.5 Hours Post-dose|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|1.74|||TWO_SIDED|90.0|-3.42|2.34||||||||2.34|-3.42|
92263240|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 4 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.71|||TWO_SIDED|90.0|-3.54|2.12||||||||2.12|-3.54|
92263241|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 8 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.57|||TWO_SIDED|90.0|-3.31|1.88||||||||1.88|-3.31|
92263242|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 12 Hours Post-dose|LS Mean|1.4|STANDARD_ERROR_OF_MEAN|1.6|||TWO_SIDED|90.0|-1.21|4.09||||||||4.09|-1.21|
92263243|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 24 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|1.63|||TWO_SIDED|90.0|-2.9|2.49||||||||2.49|-2.90|
92263244|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 0.5 Hours Post-dose|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|90.0|-2.0|0.77||||||||0.77|-2.00|
92263245|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 1 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.97|||TWO_SIDED|90.0|-1.71|1.5||||||||1.50|-1.71|
92263246|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 2.5 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|1.02||||90.0|-1.64|1.73||||||||1.73|-1.64|
92263247|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 4 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|-2.39|1.02||||||||1.02|-2.39|
92263248|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 8 Hours Post-dose|LS Mean|0.9|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|90.0|-1.26|3.13||||||||3.13|-1.26|
92263249|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 12 Hours Post-dose|LS Mean|-1.3|STANDARD_ERROR_OF_MEAN|1.59||||90.0|-3.92|1.35||||||||1.35|-3.92|
92263250|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 24 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-1.96|1.89||||||||1.89|-1.96|
92263251|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|1.4|STANDARD_ERROR_OF_MEAN|1.65|||TWO_SIDED|90.0|-1.34|4.13||||||||4.13|-1.34|
92263252|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.71|||TWO_SIDED|90.0|-1.61|4.05||||||||4.05|-1.61|
92263253|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|1.5|STANDARD_ERROR_OF_MEAN|1.71|||TWO_SIDED|90.0|-1.32|4.35||||||||4.35|-1.32|
92263254|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.5 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|1.92|||TWO_SIDED|90.0|-3.38|2.97||||||||2.97|-3.38|
92263255|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 1 Hours Pre-dose|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|1.78||||90.0|-3.48|2.42||||||||2.42|-3.48|
92263256|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 2.5 Hours Post-dose|LS Mean|1.1|STANDARD_ERROR_OF_MEAN|1.76|||TWO_SIDED|90.0|-1.81|4.02||||||||4.02|-1.81|
92263257|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 4 Hours Post-dose|LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.72|||TWO_SIDED|90.0|-1.67|4.04||||||||4.04|-1.67|
92263258|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 8 Hours Post-dose|LS Mean|0.7|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|90.0|-1.95|3.29||||||||3.29|-1.95|
92263259|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 12 Hours Post-dose|LS Mean|3.3|STANDARD_ERROR_OF_MEAN|1.62|||TWO_SIDED|90.0|0.6|5.96||||||||5.96|0.60|
92263260|NCT03808298|184428028|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 24 Hours Post-dose|LS Mean|2.0|STANDARD_ERROR_OF_MEAN|1.64|||TWO_SIDED|90.0|-0.72|4.72||||||||4.72|-0.72|
92263261|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 0.5 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.29|0.07||||||||0.07|-0.29|
92263262|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 1 Hours Post-dose|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.02|0.34||||||||0.34|-0.02|
92263263|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline (ms) at QRS Day 1 2.5 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.3|0.12||||||||0.12|-0.30|
92263264|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 4 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.26|0.18||||||||0.18|-0.26|
92263265|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 8 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.57|0.38||||||||0.38|-0.57|
92263266|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 12 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|90.0|-0.65|0.56||||||||0.56|-0.65|
92263267|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 24 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.15||||90.0|-0.11|0.4||||||||0.40|-0.11|
92263268|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.34|0.74||||||||0.74|-0.34|
92263269|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.17|0.91||||||||0.91|-0.17|
92263270|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.04|1.05||||||||1.05|-0.04|
92263271|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.5 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.26|0.82||||||||0.82|-0.26|
92263272|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 1 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|32.0|||TWO_SIDED|90.0|-0.18|0.9||||||||0.90|-0.18|
92263273|NCT03808298|184428029|OTHER||LS Mean|0.5|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.08|1.0||||||Placebo-corrected change-from-baseline QRS (ms) at Day 14 2.5 Hours Post-dose||1.00|-0.08|
92263274|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 4 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.19|0.94||||||||0.94|-0.19|
92263275|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 8 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|90.0|-0.33|1.1||||||||1.10|-0.33|
92263276|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 12 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|90.0|-0.5|1.06||||||||1.06|-0.50|
92263277|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 24 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|90.0|-0.06|1.11||||||||1.11|-0.06|
92263278|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 0.5 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.25|0.11||||||||0.11|-0.25|
92263279|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 1 Hours Post-dose|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|0.0|0.36||||||||0.36|0.00|
92285633|NCT04459585|184476354|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|111.37|||||TWO_SIDED|90.0|78.51|157.97|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Total Dabigatran.||157.97|78.51|
92285634|NCT04459585|184476354|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|111.08|||||TWO_SIDED|90.0|77.35|159.51|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Free Dabigatran.||159.51|77.35|
92263280|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 2.5 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.34|0.09||||||||0.09|-0.34|
92263281|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 4 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.1|0.34||||||||0.34|-0.10|
92263282|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 8 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.4|0.57||||||||0.57|-0.40|
92263283|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 12 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|90.0|-0.31|0.93||||||||0.93|-0.31|
92263284|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 24 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|90.0|0.07|0.58||||||||0.58|0.07|
92263285|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.19|0.9||||||||0.90|-0.19|
92263286|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.11|0.98||||||||0.98|-0.11|
92263287|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.06|1.05||||||||1.05|-0.06|
92263288|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.5 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.27|0.82||||||||0.82|-0.27|
92263289|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 1 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.14|0.94||||||||0.94|-0.14|
92263290|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 2.5 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.24|0.86||||||||0.86|-0.24|
92263291|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 4 Hours Post-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|0.07|1.2||||||||1.20|0.07|
92263292|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 8 Hours Post-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|90.0|-0.1|1.35||||||||1.35|-0.10|
92263293|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 12 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|90.0|-0.5|1.07||||||||1.07|-0.50|
92263294|NCT03808298|184428029|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 24 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-0.14|1.04||||||||1.04|-0.14|
92263295|NCT03808298|184428051|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 0.5 Hours Post-dose|LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.71|||TWO_SIDED|90.0|-1.64|4.04||||||||4.04|-1.64|
92263296|NCT03808298|184428051|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 1 Hours Post-dose|LS Mean|5.4|STANDARD_ERROR_OF_MEAN|1.93|||TWO_SIDED|90.0|2.22|8.63||||||||8.63|2.22|
92263297|NCT03808298|184428051|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 2.5 Hours Post-dose|LS Mean|8.5|STANDARD_ERROR_OF_MEAN|1.64|||TWO_SIDED|90.0|5.81|11.28||||||||11.28|5.81|
92263298|NCT03808298|184428051|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 4 Hours Post-dose|LS Mean|8.6|STANDARD_ERROR_OF_MEAN|1.65|||TWO_SIDED|90.0|5.86|11.34||||||||11.34|5.86|
92263299|NCT03808298|184428051|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 8 Hours Post-dose|LS Mean|8.5|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|90.0|5.43|11.61||||||||11.61|5.43|
92263300|NCT03808298|184428051|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 12 Hours Post-dose|LS Mean|6.9|STANDARD_ERROR_OF_MEAN|1.88|||TWO_SIDED|90.0|3.76|10.0||||||||10.00|3.76|
92263301|NCT03808298|184428051|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 24 Hours Post-dose|LS Mean|6.1|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|90.0|3.58|8.62||||||||8.62|3.58|
92263302|NCT02713490|184428053|SUPERIORITY||LSMD|-26.884||||0.0381|TWO_SIDED|95.0|-56.608|2.841|||ANOVA|||||2.841|-56.608|0.0381
92263303|NCT02713490|184428054|SUPERIORITY||LSM treatment ratio|0.203||||0.0029|TWO_SIDED|95.0|0.065|0.631|||ANOVA|||||0.631|0.065|0.0029
92263304|NCT02713490|184428055|SUPERIORITY||Treatment difference|0.098||||0.0088|TWO_SIDED|95.0|0.0284|0.1685|||Cochran-Mantel-Haenszel|||||0.1685|0.0284|0.0088
92263305|NCT02713490|184428056|SUPERIORITY|||||||0.023|||||||Log Rank|||Analysis applies to the overall distribution of time to first opioid rescue, estimated from Kaplan-Meier analysis.||||0.0230
92263306|NCT02713490|184428057|SUPERIORITY|||||||0.4285|||||||Kruskal-Wallis|||||||0.4285
92263307|NCT03039686|184428059|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-2.17|1.27|||||Based on the MMRM using an unstructured covariance matrix -change = Baseline + Age Interactive response system (IXRS) Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||1.27|-2.17|
92263308|NCT03039686|184428059|SUPERIORITY||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|-1.1|2.26|||||Based on the MMRM using an unstructured covariance matrix -change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||2.26|-1.10|
92263309|NCT03039686|184428061|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.21|0.2|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.20|-0.21|
92263310|NCT03039686|184428061|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.12|0.27|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.27|-0.12|
92285635|NCT04459585|184476355|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|112.97|||||TWO_SIDED|90.0|79.38|160.79|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Total Dabigatran.||160.79|79.38|
92285636|NCT04459585|184476355|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|110.72|||||TWO_SIDED|90.0|76.77|159.68|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Free Dabigatran.||159.68|76.77|
92285637|NCT01061866|184476377|NON_INFERIORITY_OR_EQUIVALENCE|p less than or equal to 0.05, repeated measures ANOVA|Mean Difference (Final Values)|0.02|||<|0.02||||||p-value is non-adjusted for multiple comparisons|ANOVA|Was adjusted the degrees of freedom for the averaged test of significance.|The frequency of seizures at the beginning of the study and after treatment with thalidomide was contrasted in the same group patients.|Power=0.02||||<0.02
92285638|NCT00252720|184476378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.024||||0.8487|TWO_SIDED|95.0|0.8|1.312|||Log Rank|Generalized||||1.312|0.800|0.8487
92285639|NCT02819323|184476436|NON_INFERIORITY|Non-inferiority margin = 10%||||||0.003|||||||Cochran-Mantel-Haenszel|||||||0.003
92285640|NCT02819323|184476436|NON_INFERIORITY|Non-inferiority margin = 10%||||||0.003|||||||Cochran-Mantel-Haenszel|||||||0.003
92285641|NCT02819323|184476436|SUPERIORITY|||||||0.046|||||||Cochran-Mantel-Haenszel|||||||0.046
92285642|NCT02819323|184476436|SUPERIORITY|||||||0.089|||||||Cochran-Mantel-Haenszel|||||||0.089
92285643|NCT02008565|184476474|SUPERIORITY|||||||0.092||||||significance assessed at type 1 error alpha=0.05|Mixed Models Analysis|The models were adjusted for baseline Irritable Bowel Syndrome (IBS) status and clinical site.||||||0.092
92285644|NCT00617305|184476487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-248.93|STANDARD_DEVIATION|241.978|||TWO_SIDED|95.0|-337.7|-160.2||||||Mean change from Baseline to Week 24||-160.2|-337.7|
92285645|NCT00617305|184476487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-291.8|STANDARD_DEVIATION|205.864|||TWO_SIDED|95.0|-619.4|35.78||||||Mean change from Baseline to Week 24||35.78|-619.4|
92285646|NCT00617305|184476487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-253.83|STANDARD_DEVIATION|235.787|||TWO_SIDED|95.0|-334.8|-172.8||||||Mean change from Baseline to Week 24||-172.8|-334.8|
92285647|NCT00617305|184476487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-291.8|STANDARD_DEVIATION|205.864|||TWO_SIDED|95.0|-619.4|35.78||||||Mean change from Baseline to Week 24||35.78|-619.4|
92285648|NCT00617305|184476488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.38|STANDARD_DEVIATION|7.954|||TWO_SIDED|95.0|-8.29|-2.46||||||Mean change from Baseline to Week 24||-2.46|-8.29|
92285649|NCT00617305|184476488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.75|STANDARD_DEVIATION|8.732|||TWO_SIDED|95.0|-29.64|-1.86||||||Mean change from Baseline to Week 24||-1.86|-29.64|
92285650|NCT00617305|184476488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.56|STANDARD_DEVIATION|8.589|||TWO_SIDED|95.0|-9.51|-3.61||||||Mean change from Baseline to Week 24||-3.61|-9.51|
92285651|NCT00617305|184476488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.75|STANDARD_DEVIATION|8.732|||TWO_SIDED|95.0|-29.64|-1.86||||||Mean change from Baseline to Week 24||-1.86|-29.64|
92285652|NCT00617305|184476489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06|STANDARD_DEVIATION|4.442|||TWO_SIDED|95.0|-1.69|1.56||||||Mean change from Baseline to Week 24||1.56|-1.69|
92285653|NCT00617305|184476489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.0|STANDARD_DEVIATION|4.082|||TWO_SIDED|95.0|-10.5|2.5||||||Mean change from Baseline to Week 24||2.50|-10.50|
92285654|NCT00617305|184476489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_DEVIATION|4.527|||TWO_SIDED|95.0|-2.07|1.04||||||Mean change from Baseline to Week 24||1.04|-2.07|
92285655|NCT00617305|184476489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.0|STANDARD_DEVIATION|4.082|||TWO_SIDED|95.0|-10.5|2.5||||||Mean change from Baseline to Week 24||2.50|-10.50|
92285656|NCT00617305|184476490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.84|STANDARD_DEVIATION|1.053|||TWO_SIDED|95.0|0.43|1.25||||||Mean change from Baseline to Week 24||1.25|0.43|
92285657|NCT00617305|184476490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|STANDARD_DEVIATION|0.685|||TWO_SIDED|95.0|-0.77|1.42||||||Mean change from Baseline to Week 24||1.42|-0.77|
92285658|NCT00617305|184476490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.78|STANDARD_DEVIATION|1.021|||TWO_SIDED|95.0|0.41|1.15||||||Mean change from Baseline to Week 24||1.15|0.41|
92285659|NCT00617305|184476490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|STANDARD_DEVIATION|0.685|||TWO_SIDED|95.0|-0.77|1.42||||||Mean change from Baseline to Week 24||1.42|-0.77|
92285660|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.2|STANDARD_DEVIATION|44.84|||TWO_SIDED|95.0|-3.9|28.4||||||Mean change from Baseline to Week 4 (LOCF)||28.4|-3.9|
92285661|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.8|STANDARD_DEVIATION|21.19|||TWO_SIDED|95.0|-26.0|41.5||||||Mean change from Baseline to Week 4 (LOCF)||41.5|-26.0|
92285662|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|107.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
92285663|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.7|STANDARD_DEVIATION|42.68|||TWO_SIDED|95.0|-2.7|26.2||||||Mean change from Baseline to Week 4 (LOCF)||26.2|-2.7|
92263311|NCT03039686|184428063|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.0|0.06|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.06|-0.00|
92263312|NCT03039686|184428063|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.0|0.06|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.06|-0.00|
92263313|NCT03039686|184428065|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.08|0.27|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.27|-0.08|
92263314|NCT03039686|184428065|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.17|0.18|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.18|-0.17|
92263315|NCT03039686|184428067|SUPERIORITY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|2.41|||TWO_SIDED|95.0|-6.76|2.77|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||2.77|-6.76|
92263316|NCT03039686|184428067|SUPERIORITY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|2.36|||TWO_SIDED|95.0|-3.71|5.63|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||5.63|-3.71|
92263317|NCT03039686|184428070|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|11.5|||TWO_SIDED|95.0|-21.1|24.6|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||24.6|-21.1|
92263318|NCT03039686|184428070|SUPERIORITY||Mean Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|11.3|||TWO_SIDED|95.0|-11.0|33.6|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||33.6|-11.0|
92285664|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.6|STANDARD_DEVIATION|48.03|||TWO_SIDED|95.0|-32.0|87.2||||||Mean change from Baseline to Week 4 (LOCF)||87.2|-32.0|
92285665|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.6|STANDARD_DEVIATION|41.46|||TWO_SIDED|95.0|-1.4|28.5||||||Mean change from Baseline to Week 12 (LOCF)||28.5|-1.4|
92285666|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5|STANDARD_DEVIATION|59.09|||TWO_SIDED|95.0|-91.5|96.5||||||Mean change from Baseline to Week 12 (LOCF)||96.5|-91.5|
92285667|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|87.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
92285668|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.4|STANDARD_DEVIATION|42.83|||TWO_SIDED|95.0|-2.1|26.9||||||Mean change from Baseline to Week 12 (LOCF)||26.9|-2.1|
92285669|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.4|STANDARD_DEVIATION|63.61|||TWO_SIDED|95.0|-59.6|98.4||||||Mean change from Baseline to Week 12 (LOCF)||98.4|-59.6|
92285670|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.1|STANDARD_DEVIATION|48.67|||TWO_SIDED|95.0|0.5|35.6||||||Mean change from Baseline to Week 24 (LOCF)||35.6|0.5|
92285671|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.5|STANDARD_DEVIATION|29.56|||TWO_SIDED|95.0|-56.5|37.5||||||Mean change from Baseline to Week 24 (LOCF)||37.5|-56.5|
92285672|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|87.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
92285673|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.0|STANDARD_DEVIATION|47.44|||TWO_SIDED|95.0|-1.0|31.1||||||Mean change from Baseline to Week 24 (LOCF)||31.1|-1.0|
92285674|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.8|STANDARD_DEVIATION|50.18|||TWO_SIDED|95.0|-52.5|72.1||||||Mean change from Baseline to Week 24 (LOCF)||72.1|-52.5|
92285675|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2|STANDARD_DEVIATION|77.24|||TWO_SIDED|95.0|-25.6|30.1||||||Mean change from Baseline to Week 36 (LOCF)||30.1|-25.6|
92285676|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.0|STANDARD_DEVIATION|93.16|||TWO_SIDED|95.0|-182.2|114.2||||||Mean change from Baseline to Week 36 (LOCF)||114.2|-182.2|
92285677|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|67.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
92181739|NCT01613417|184262180|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation was based on primary endpoint. 185 patients were deemed necessary for the lower limit of the observed 2-sided 95% confidence interval for the difference to exceed -5% with 85% power.|Percentage PH better minus GV better|0.5||||1|TWO_SIDED|95.0|-0.5|1.5||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)||Difference in percentage ProHance better minus percentage Gadovist/Gadavist better (%)|||1.5|-0.5|1.0
92181740|NCT01613417|184262181|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92181741|NCT01613417|184262181|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92181742|NCT01613417|184262181|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92181743|NCT01613417|184262182|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92181744|NCT01613417|184262182|SUPERIORITY_OR_OTHER|||||||0.6875|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||0.6875
92181745|NCT01613417|184262182|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92181746|NCT01613417|184262183|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92181747|NCT01613417|184262183|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92181748|NCT01613417|184262183|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92181749|NCT01613417|184262184|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92263319|NCT00224952|184428094|OTHER|||||||0.004|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (4-Methylthio-2-hydroxyiminostilbene) as a function of age||||0.004
92263320|NCT00224952|184428094|OTHER|||||||0.032|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (4-Methylthio-2-hydroxyiminostilbene) as a function of age||||0.032
92263321|NCT00224952|184428094|OTHER|||||||0.018|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Fractional Recovery (MTHIS)) as a function of age||||0.018
92263322|NCT00224952|184428094|OTHER|||||||0.033|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (Fractional Recovery MTHIS)) as a function of age||||0.033
92263323|NCT00224952|184428094|OTHER|||||||0.0004|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (5-N-acetylcysteine-3-ene VPA isomers)) as a function of age||||0.0004
92263324|NCT00224952|184428094|OTHER|||||||0.0003|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (5-N-acetylcysteine-2-ene VPA) ) as a function of age||||0.0003
92263325|NCT00224952|184428094|OTHER||||||<|0.0001|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Total N-acetylcysteine conjugates) as a function of age||||<0.0001
92181750|NCT01613417|184262184|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92181751|NCT01613417|184262184|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
92181752|NCT01613417|184262185|SUPERIORITY_OR_OTHER|||||||0.2758|TWO_SIDED||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||0.2758
92181753|NCT01613417|184262185|SUPERIORITY_OR_OTHER|||||||0.0676|TWO_SIDED||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||0.0676
92263326|NCT00224952|184428094|OTHER|||||||0.522|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (Fractional Recovery NAC-3-ene VPA isomers)) as a function of age||||0.522
92263327|NCT00224952|184428094|OTHER|||||||0.925|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (Fractional Recovery NAC-2-ene VPA) ) as a function of age||||0.925
92263328|NCT00224952|184428094|OTHER|||||||0.469|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (Fractional Recovery Total NAC conjugates) as a function of age||||0.469
92263329|NCT00134563|184428095|SUPERIORITY_OR_OTHER||Relative risk reduction (%)|31.5||||0.0005||||||"Step down approach used to adjust for multiplicity:~* H1 tested first~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance for both comparisons ≤0.05"|Regression, Poisson||Relative risk reduction with Teriflunomide 14 mg compared to placebo|"Null hypothesis:~* H1: No difference between Teriflunomide 14 mg and placebo~* H2: No difference between Teriflunomide 7 mg and placebo~The study was sized to detect a 25% relative risk reduction with teriflunomide in the 2-year relapse rate at a significance level of 0.050 with a power ≥95% anticipating a potential 20% 2-year dropout rate."||||0.0005
92263330|NCT00134563|184428095|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|31.2||||0.0002||||||"Step down approach used to adjust for multiplicity:~* H1 tested first~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance for both comparisons ≤0.05"|Regression, Poisson||Relative risk reduction with Teriflunomide 7 mg compared to placebo|||||0.0002
92285678|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_DEVIATION|78.5|||TWO_SIDED|95.0|-28.4|24.8||||||Mean change from Baseline to Week 36 (LOCF)||24.8|-28.4|
92181754|NCT01613417|184262185|SUPERIORITY_OR_OTHER|||||||0.5267|TWO_SIDED||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||0.5267
92181755|NCT01613417|184262186|SUPERIORITY_OR_OTHER|||||||0.6201|TWO_SIDED||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||0.6201
92181756|NCT01613417|184262186|SUPERIORITY_OR_OTHER|||||||0.4514|TWO_SIDED||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||0.4514
92181757|NCT01613417|184262186|SUPERIORITY_OR_OTHER|||||||0.7722|TWO_SIDED||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||0.7722
92181758|NCT01613417|184262187|SUPERIORITY_OR_OTHER|||||||0.3173|TWO_SIDED||||||McNemar|||||||0.3173
92181759|NCT01613417|184262187|SUPERIORITY_OR_OTHER|||||||0.5637|TWO_SIDED||||||McNemar|||||||0.5637
92181760|NCT01613417|184262187|SUPERIORITY_OR_OTHER|||||||0.0455|TWO_SIDED||||||McNemar|||||||0.0455
92181761|NCT01613417|184262188|SUPERIORITY_OR_OTHER|||||||0.6949|TWO_SIDED||||||McNemar|||McNemar test of difference (ProHance minus Gadovist/Gadavist) in accuracy for tumor characterization||||0.6949
92285679|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.8|STANDARD_DEVIATION|92.46|||TWO_SIDED|95.0|-128.6|101.0||||||Mean change from Baseline to Week 36 (LOCF)||101.0|-128.6|
92181762|NCT01613417|184262188|SUPERIORITY_OR_OTHER|||||||0.1317|TWO_SIDED||||||McNemar|||McNemar test of difference (ProHance minus Gadovist/Gadavist) in accuracy for tumor characterization||||0.1317
92181763|NCT01613417|184262188|SUPERIORITY_OR_OTHER|||||||0.0124|TWO_SIDED||||||McNemar|||McNemar test of difference (ProHance minus Gadovist/Gadavist) in accuracy for tumor characterization||||0.0124
92181764|NCT00047385|184262189|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.004|TWO_SIDED|95.0|0.733|0.932||P-value is adjusted for multiple comparisons.|Weighted log-rank (details below)|Weights in weighted log-rank statistic increased linearly from zero at randomization to full weight at 4 years and thereafter.||"Alternative hypothesis: LDCT screening reduces lung cancer mortality relative to chest x-ray.~Power: 90% for a 20% reduction in lung cancer mortality."||0.932|0.733|0.004
92181765|NCT00047385|184262190|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.933||||0.02|TWO_SIDED|95.0|0.864|0.988||No adjustment for multiple comparisons. Only one analysis performed.|Weighted log-rank (details below)|Weights in weighted log-rank statistic increased linearly from zero at randomization to full weight at 4 years and thereafter.||Alternative hypothesis: LDCT screening reduced all-cause mortality relative to chest x-ray.||0.988|0.864|0.02
92181766|NCT00047385|184262191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|1.03|1.23|||||Denominator: LDCT Group Numerator: CXR Group|||1.23|1.03|
92181767|NCT02095145|184262219|OTHER|||||||0.19|||||||Wilcoxon rank-sum test|||||||0.190
92181768|NCT02095145|184262219|OTHER|||||||0.211|||||||t-test, 2 sided|||||||0.211
92181769|NCT02095145|184262222|OTHER|||||||0.948|||||||Wilcoxon rank-sum test|||Baseline to Week 13 p-value||||0.948
92285680|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.6|STANDARD_DEVIATION|82.07|||TWO_SIDED|95.0|-15.0|44.2||||||Mean change from Baseline to Week 48 (LOCF)||44.2|-15.0|
92181770|NCT02095145|184262222|OTHER|||||||0.711|||||||Wilcoxon rank-sum test|||Baseline to Week 26 p-value||||0.711
92181771|NCT02095145|184262222|OTHER|||||||0.038|||||||Wilcoxon rank-sum test|||Baseline to Week 39 p-value||||0.038
92181772|NCT02095145|184262222|OTHER|||||||0.445|||||||Wilcoxon rank-sum test|||Baseline to Week 52 p-value||||0.445
92181773|NCT02095145|184262223|OTHER|||||||0.743|||||||Wilcoxon rank-sum test|||Baseline to Week 13 p-value||||0.743
92181774|NCT02095145|184262223|OTHER|||||||0.305|||||||Wilcoxon rank-sum test|||Baseline to Week 26 p-value||||0.305
92181775|NCT02095145|184262223|OTHER|||||||0.111|||||||Wilcoxon rank-sum test|||Baseline to Week 39 p-value||||0.111
92181776|NCT02095145|184262223|OTHER|||||||0.395|||||||Wilcoxon rank-sum test|||Baseline to Week 52 p-value||||0.395
92181777|NCT02095145|184262224|OTHER|||||||0.743|||||||Wilcoxon rank-sum test|||Change from Baseline PSA to Week 13||||0.743
92181778|NCT02095145|184262224|OTHER|||||||0.527|||||||Wilcoxon rank-sum test|||Change from Baseline PSA to Week 26||||0.527
92181779|NCT02095145|184262224|OTHER|||||||0.879|||||||Wilcoxon rank-sum test|||Change from Baseline PSA to Week 39||||0.879
92181780|NCT02095145|184262224|OTHER|||||||0.81|||||||Wilcoxon rank-sum test|||Change from Baseline PSA to Week 52||||0.810
92181781|NCT02095145|184262225|OTHER|||||||0.556|||||||Wilcoxon rank-sum test|||Comparison of both arms at baseline||||0.556
92181782|NCT02095145|184262225|OTHER|||||||0.647|||||||Wilcoxon rank-sum test|||comparison of both arms at Week 26||||0.647
92181783|NCT02095145|184262225|OTHER|||||||0.948|||||||Wilcoxon rank-sum test|||comparison of both arms at end of study, week 52||||0.948
92181784|NCT02095145|184262226|OTHER|||||||0.58|||||||Wilcoxon rank-sum test|||||||0.580
92181785|NCT02095145|184262227|OTHER|||||||0.344|||||||Wilcoxon rank-sum test|||Benign core p-value||||0.344
92181786|NCT02095145|184262227|OTHER|||||||0.371|||||||Wilcoxon rank-sum test|||Adjacent core p-value||||0.371
92181787|NCT02095145|184262227|OTHER|||||||0.766|||||||Wilcoxon rank-sum test|||Tumor core p-value||||0.766
92285681|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-49.8|STANDARD_DEVIATION|126.75|||TWO_SIDED|95.0|-251.4|151.9||||||Mean change from Baseline to Week 48 (LOCF)||151.9|-251.4|
92285682|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|67.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
92285683|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.4|STANDARD_DEVIATION|88.11|||TWO_SIDED|95.0|-22.4|37.3||||||Mean change from Baseline to Week 48 (LOCF)||37.3|-22.4|
92285684|NCT00617305|184476491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.4|STANDARD_DEVIATION|121.55|||TWO_SIDED|95.0|-177.3|124.5||||||Mean change from Baseline to Week 48 (LOCF)||124.5|-177.3|
92285685|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|1.5|||TWO_SIDED|95.0|-1.1|0.0||||||Mean change from Baseline to Week 4 (LOCF)||0.0|-1.1|
92285686|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_DEVIATION|1.5|||TWO_SIDED|95.0|-1.6|3.1||||||Mean change from Baseline to Week 4 (LOCF)||3.1|-1.6|
92285687|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
92285688|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|1.54|||TWO_SIDED|95.0|-0.9|0.1||||||Mean change from Baseline to Week 4 (LOCF)||0.1|-0.9|
92285689|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_DEVIATION|1.52|||TWO_SIDED|95.0|-1.5|2.3||||||Mean change from Baseline to Week 4 (LOCF)||2.3|-1.5|
92285690|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|1.45|||TWO_SIDED|95.0|-1.1|0.0||||||Mean change from Baseline to Week 12 (LOCF)||0.0|-1.1|
92285691|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|STANDARD_DEVIATION|2.38|||TWO_SIDED|95.0|-2.3|5.3||||||Mean change from Baseline to Week 12 (LOCF)||5.3|-2.3|
92285692|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
92285693|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|1.67|||TWO_SIDED|95.0|-0.9|0.2||||||Mean change from Baseline to Week 12 (LOCF)||0.2|-0.9|
92285694|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|STANDARD_DEVIATION|2.17|||TWO_SIDED|95.0|-1.5|3.9||||||Mean change from Baseline to Week 12 (LOCF)||3.9|-1.5|
92285695|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_DEVIATION|1.81|||TWO_SIDED|95.0|-1.5|-0.2||||||Mean change from Baseline to Week 24 (LOCF)||-0.2|-1.5|
92285696|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|0.75|||TWO_SIDED|95.0|-1.8|0.6||||||Mean change from Baseline to Week 24 (LOCF)||0.6|-1.8|
92285697|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
92285698|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|1.72|||TWO_SIDED|95.0|-1.4|-0.3||||||Mean change from Baseline to Week 24 (LOCF)||-0.3|-1.4|
92285699|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|0.71|||TWO_SIDED|95.0|-1.4|0.4||||||Mean change from Baseline to Week 24 (LOCF)||0.4|-1.4|
92285700|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|1.79|||TWO_SIDED|95.0|-1.2|0.1||||||Mean change from Baseline to Week 36 (LOCF)||0.1|-1.2|
92285701|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_DEVIATION|2.0|||TWO_SIDED|95.0|-2.2|4.2||||||Mean change from Baseline to Week 36 (LOCF)||4.2|-2.2|
92285702|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
92285703|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|1.85|||TWO_SIDED|95.0|-1.0|0.2||||||Mean change from Baseline to Week 36 (LOCF)||0.2|-1.0|
92285704|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_DEVIATION|1.79|||TWO_SIDED|95.0|-1.4|3.0||||||Mean change from Baseline to Week 36 (LOCF)||3.0|-1.4|
92285705|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|2.12|||TWO_SIDED|95.0|-1.4|0.1||||||Mean change from Baseline to Week 48 (LOCF)||0.1|-1.4|
92285706|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_DEVIATION|3.46|||TWO_SIDED|95.0|-4.5|6.5||||||Mean change from Baseline to Week 48 (LOCF)||6.5|-4.5|
92285707|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
92285708|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|2.3|||TWO_SIDED|95.0|-1.3|0.3||||||Mean change from Baseline to Week 48 (LOCF)||0.3|-1.3|
92285709|NCT00617305|184476492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_DEVIATION|3.03|||TWO_SIDED|95.0|-3.0|4.6||||||Mean change from Baseline to Week 48 (LOCF)||4.6|-3.0|
92285710|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_DEVIATION|3.98|||TWO_SIDED|95.0|-2.7|0.4||||||Mean change from Baseline to Week 12 (LOCF)||0.4|-2.7|
92285711|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_DEVIATION|4.86|||TWO_SIDED|95.0|-6.5|9.0||||||Mean change from Baseline to Week 12 (LOCF)||9.0|-6.5|
92285712|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
92285713|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|4.09|||TWO_SIDED|95.0|-2.3|0.6||||||Mean change from Baseline to Week 12 (LOCF)||0.6|-2.3|
92285714|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_DEVIATION|4.45|||TWO_SIDED|95.0|-4.9|6.1||||||Mean change from Baseline to Week 12 (LOCF)||6.1|-4.9|
92285715|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|5.0|||TWO_SIDED|95.0|-2.7|1.1||||||Mean change from Baseline to Week 24 (LOCF)||1.1|-2.7|
92285716|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3|STANDARD_DEVIATION|4.03|||TWO_SIDED|95.0|-7.7|5.2||||||Mean change from Baseline to Week 24 (LOCF)||5.2|-7.7|
92285717|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
92285718|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_DEVIATION|4.84|||TWO_SIDED|95.0|-2.6|0.9||||||Mean change from Baseline to Week 24 (LOCF)||0.9|-2.6|
92285719|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_DEVIATION|3.51|||TWO_SIDED|95.0|-5.8|3.0||||||Mean change from Baseline to Week 24 (LOCF)||3.0|-5.8|
92285720|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|5.2|||TWO_SIDED|95.0|-2.3|1.7||||||Mean change from Baseline to Week 36 (LOCF)||1.7|-2.3|
92285721|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|4.65|||TWO_SIDED|95.0|-8.1|6.6||||||Mean change from Baseline to Week 36 (LOCF)||6.6|-8.1|
92285722|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
92285723|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|5.07|||TWO_SIDED|95.0|-2.2|1.5||||||Mean change from Baseline to Week 36 (LOCF)||1.5|-2.2|
92285724|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|4.02|||TWO_SIDED|95.0|-5.8|4.2||||||Mean change from Baseline to Week 36 (LOCF)||4.2|-5.8|
92285725|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|6.33|||TWO_SIDED|95.0|-2.8|2.1||||||Mean change from Baseline to Week 48 (LOCF)||2.1|-2.8|
92285726|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|6.86|||TWO_SIDED|95.0|-11.4|10.4||||||Mean change from Baseline to Week 48 (LOCF)||10.4|-11.4|
92285727|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
92285728|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|6.28|||TWO_SIDED|95.0|-2.7|1.9||||||Mean change from Baseline to Week 48 (LOCF)||1.9|-2.7|
92285729|NCT00617305|184476493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|5.94|||TWO_SIDED|95.0|-8.0|6.8||||||Mean change from Baseline to Week 48 (LOCF)||6.8|-8.0|
92285730|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.5||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
92285731|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|0.28||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
92285732|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.49||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
92285733|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|0.28||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
92285734|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|0.63||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
92285735|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|1.07||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
92285736|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|0.64||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
92285737|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|1.07||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
92285738|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.83||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
92285739|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|0.34||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
92285740|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.81||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
92285741|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|0.34||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
92285742|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.92||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
92285743|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|0.9||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
92285744|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.91||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
92285745|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|0.9||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
92285746|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.91||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
92285747|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|0.77||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
92285748|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.88||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
92285749|NCT00617305|184476495|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|0.77||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
92285750|NCT01059903|184476524|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of geometric LS-Means is included within 0.8-1.25, the patches are considered bioequivalent.|Ratio of geometric LS-Means|0.9028|||||TWO_SIDED|90.0|0.8411|0.969|||ANOVA|ANOVA for log-transformed values has been used as the basis for calculation of point estimates (LS-Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||0.9690|0.8411|
92287139|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.037||||0.203|TWO_SIDED|95.0|-0.02|0.095|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.095|-0.020|0.203
92285751|NCT01059903|184476525|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of geometric LS-Means is included within 0.8-1.25, the patches are considered bioequivalent.|Ratio of geometric LS-Means|0.9506|||||TWO_SIDED|90.0|0.8833|1.0231|||ANOVA|ANOVA for log-transformed values has been used as the basis for calculation of point estimates (LS-Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0231|0.8833|
92285752|NCT01059903|184476526|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of geometric LS-Means is included within 0.8-1.25, the patches are considered bioequivalent.|Ratio of geometric LS-Means|0.9046|||||TWO_SIDED|90.0|0.8437|0.9699|||ANOVA|ANOVA for log-transformed values has been used as the basis for calculation of point estimates (LS-Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||0.9699|0.8437|
92285753|NCT03555305|184476539|EQUIVALENCE|Analysis was performed using linear mixed effects model and participant as a random effect, with period, sequence, and treatment as fixed effects. The estimate of the ratio of means of each PK/PD parameters between the 2 treatments and the corresponding 90% confidence interval were calculated. A typical bio-equivalence limit (0.8 to 1.25) was used as equivalence margin.|Ratio of geometric least squares means|0.961|||||TWO_SIDED|90.0|0.886|1.04|||Linear mixed-effects model|||||1.04|0.886|
92285754|NCT03555305|184476540|EQUIVALENCE|Analysis was performed using linear mixed effects model and participant as a random effect, with period, sequence, and treatment as fixed effects. The estimate of the ratio of means of each PK/PD parameters between the 2 treatments and the corresponding 90% confidence interval were calculated. A typical bio-equivalence limit (0.8 to 1.25) was used as equivalence margin.|Ratio of geometric least squares means|0.943|||||TWO_SIDED|90.0|0.874|1.02|||Linear mixed-effects model|||||1.02|0.874|
92285755|NCT04544787|184476543|OTHER|||||||0.7209|||||||Fisher Exact|||The number of participants with severe solicited adverse events in the OPV-vaccinated groups who received nOPV-c1 (combined Groups 1 and 2) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with severe solicited adverse events was 5 out of 100.||||0.7209
92285756|NCT04544787|184476543|OTHER|||||||0.7209|||||||Fisher Exact|||The number of participants with severe solicited adverse events in the OPV-vaccinated groups who received nOPV-c2 (combined Groups 3 and 4) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with severe solicited adverse events was 5 out of 100.||||0.7209
92285757|NCT04544787|184476543|OTHER|||||||0.3769|||||||Fisher Exact|||The number of participants with severe unsolicited adverse events in the OPV-vaccinated groups who received nOPV-c1 (combined Groups 1 and 2) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with severe unsolicited adverse events was 17 out of 100.||||0.3769
92285758|NCT04544787|184476543|OTHER|||||||0.3083|||||||Fisher Exact|||The number of participants with severe unsolicited adverse events in the OPV-vaccinated groups who received nOPV-c2 (combined Groups 3 and 4) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with severe unsolicited adverse events was 17 out of 100.||||0.3083
92285759|NCT04544787|184476543|OTHER|||||||0.4975|||||||Fisher Exact|||The number of participants with serious unsolicited adverse events in the OPV-vaccinated groups who received nOPV-c1 (combined Groups 1 and 2) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with serious unsolicited adverse events was 0 out of 100.||||0.4975
92285760|NCT04544787|184476543|OTHER|||||||1|||||||Fisher Exact|||The number of participants with serious unsolicited adverse events in the OPV-vaccinated groups who received nOPV-c2 (combined Groups 3 and 4) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with serious unsolicited adverse events was 0 out of 100.||||1.0000
92285761|NCT04544787|184476543|OTHER|||||||1|||||||Fisher Exact|||Comparison of severe solicited adverse events||||1.0000
92285762|NCT04544787|184476543|OTHER|||||||1|||||||Fisher Exact|||Comparison of severe solicited adverse events||||1.0000
92285763|NCT04544787|184476543|OTHER|||||||0.1571|||||||Fisher Exact|||Comparison of severe unsolicited adverse events||||0.1571
92285764|NCT04544787|184476543|OTHER|||||||0.296|||||||Fisher Exact|||Comparison of severe unsolicited adverse events||||0.2960
92287140|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.542|TWO_SIDED|95.0|-0.039|0.074|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.074|-0.039|0.542
92287141|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.064||||0.021|TWO_SIDED|95.0|0.01|0.119|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.119|0.010|0.021
92181788|NCT02095145|184262228|OTHER|||||||0.304|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Benign (Nuc)||||0.304
92285765|NCT04544787|184476544|NON_INFERIORITY|The primary immunogenicity endpoint, seroprotection on Day 28 after a single dose of each vaccine candidate, was formally compared with the corresponding endpoint from UAM1 via a non-inferiority test of the difference of each of the novel candidates to the monovalent OPV2 control, mOPV2, each using one-sided α=0.025 and a non-inferiority margin of 10%, computed using two-sided α=0·05 Miettinen and Nurminen score-based CIs for inference.|Difference|2.0|||||TWO_SIDED|95.0|-1.9|7.0||||||The primary immunogenicity endpoint, the seroprotection rate after one dose of either vaccine candidate in the OPV-vaccinated groups (nOPV2 combined groups 1 and 2, and combined groups 3 and 4), was compared with the corresponding endpoint from the historical monovalent OPV2 (mOPV2) control study (UAM1, EudraCT # 2015-003325-33). In the UAM1 study, the observed seroprotection rate after a single dose of mOPV2 was 98% (98 out of 100 participants), with a 95% confidence interval (CI) of 93-100%.||7.0|-1.9|
92285766|NCT04544787|184476544|NON_INFERIORITY|The primary immunogenicity endpoint, seroprotection on Day 28 after a single dose of each vaccine candidate, was formally compared with the corresponding endpoint from UAM1 via a non-inferiority test of the difference of each of the novel candidates to the monovalent OPV2 control, mOPV2, each using one-sided α=0.025 and a non-inferiority margin of 10%, computed using two-sided α=0·05 Miettinen and Nurminen score-based CIs for inference.|Difference|2.0|||||TWO_SIDED|95.0|-1.8|7.0||||||The primary immunogenicity endpoint, the seroprotection rate after one dose of either vaccine candidate in the OPV-vaccinated groups (nOPV2 combined groups 1 and 2, and combined groups 3 and 4), was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33). In the UAM1 study, the observed seroprotection rate after a single dose of mOPV2 was 98% (98 out of 100 participants), with a 95% confidence interval (CI) of 93-100%.||7.0|-1.8|
92285767|NCT02100228|184476597|SUPERIORITY|This was a descriptive study, and there was no formal pre-defined hypothesis testing.|Risk Ratio (RR)|0.0||||0.0151|TWO_SIDED|95.0|0.0|0.6425||nominal p-value|Fisher Exact|||Display exact confidence limits for relative risk and Fisher's exact test for comparisons of two proportions.||0.6425|0.0000|0.0151
92285768|NCT02100228|184476599|SUPERIORITY|This was a descriptive study, and there was no formal pre-defined hypothesis testing.|Risk Ratio (RR)|0.4905||||0.3378|TWO_SIDED|95.0|0.1046|2.0678||nominal p-value|Fisher Exact|||Display exact confidence limits for relative risk and Fisher's exact test for comparisons of two proportions.||2.0678|0.1046|0.3378
92285769|NCT02100228|184476600|SUPERIORITY|This was a descriptive study, and there was no formal pre-defined hypothesis testing.|Risk Ratio (RR)|0.83||||0.6851|TWO_SIDED|95.0|0.3433|1.8916||nominal p-value|Fisher Exact|||Display exact confidence limits for relative risk and Fisher's exact test for comparisons of two proportions.||1.8916|0.3433|0.6851
92285770|NCT02100228|184476601|SUPERIORITY|This was a descriptive study, and there was no formal pre-defined hypothesis testing.|Risk Ratio (RR)|1.9841|||>|0.9999|TWO_SIDED|95.0|0.1866|53.9968||nominal p-value|Fisher Exact|||Display exact confidence limits for relative risk and Fisher's exact test for comparisons of two proportions.||53.9968|0.1866|>0.9999
92285771|NCT00322465|184476618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.005|TWO_SIDED|95.0|0.6|0.91||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for age (per 5 years) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multivariable logistic regression model.||0.91|0.60|0.005
92285772|NCT00322465|184476618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.78|TWO_SIDED|95.0|0.33|2.3||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for scant discharge (reference category is no discharge) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multivariable logistic regression model.||2.30|0.33|0.780
92285773|NCT00322465|184476618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0||||0.164|TWO_SIDED|95.0|0.75|5.33||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for moderate discharge amount (reference category is no discharge) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multivariable logistic regression model.||5.33|0.75|0.164
92285774|NCT00322465|184476618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.919|TWO_SIDED|95.0|0.23|5.17||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for large amount of discharge (reference category is no discharge) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multvariable logistic regression model.||5.17|0.23|0.919
92181789|NCT02095145|184262228|OTHER|||||||0.23|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Adjacent (Nuc)||||0.230
92181790|NCT02095145|184262228|OTHER|||||||0.298|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Tumor (Nuc)||||0.298
92285775|NCT00322465|184476618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.051|TWO_SIDED|95.0|1.0|3.3||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for 2 or more sex partners in the last 3 months (reference category is 0-1 partners) is 1 versus the alternative that it is greater than or less than 1.||3.30|1.00|0.051
92287142|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.51|TWO_SIDED|95.0|-0.08|0.04|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.040|-0.080|0.510
92181791|NCT02095145|184262228|OTHER|||||||0.247|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Benign (Cyt)||||0.247
92181792|NCT02095145|184262228|OTHER|||||||0.093|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Adjacent (Cyt)||||0.093
92181793|NCT02095145|184262228|OTHER|||||||0.066|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Tumor (Cyt)||||0.066
92181794|NCT02095145|184262228|OTHER|||||||0.247|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Benign (Cell)||||0.247
92181795|NCT02095145|184262228|OTHER|||||||0.128|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Adjacent (Cell)||||0.128
92181796|NCT02095145|184262228|OTHER|||||||0.128|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Tumor (Cell)||||0.128
92181797|NCT02095145|184262229|OTHER|||||||0.297|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Benign p-value||||0.297
92285776|NCT00322465|184476618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.42||||0.076|TWO_SIDED|95.0|0.86|22.74||A priori threshold for statistical significance was p\<0.05|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for 1 or more new sex partners in the last 30 days (reference category is 0) is 1 versus the alternative that it is greater than or less than 1.||22.74|0.86|0.076
92181798|NCT02095145|184262229|OTHER|||||||0.233|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Adjacent p-value||||0.233
92181799|NCT02095145|184262229|OTHER|||||||0.371|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Tumor p-value||||0.371
92181800|NCT02095145|184262229|OTHER|||||||0.198|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Benign p-value||||0.198
92181801|NCT02095145|184262229|OTHER|||||||0.233|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Adjacent p-value||||0.233
92181802|NCT02095145|184262229|OTHER|||||||0.074|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Tumor p-value||||0.074
92181803|NCT02095145|184262229|OTHER|||||||0.234|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Benign p-value||||0.234
92181804|NCT02095145|184262229|OTHER|||||||0.233|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Adjacent p-value||||0.233
92181805|NCT02095145|184262229|OTHER|||||||0.233|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Tumor p-value||||0.233
92181806|NCT02095145|184262230|OTHER|||||||0.167|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Benign p-value||||0.167
92181807|NCT02095145|184262230|OTHER|||||||0.391|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Adjacent p-value||||0.391
92181808|NCT02095145|184262230|OTHER|||||||0.713|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Tumor p-value||||0.713
92181809|NCT02095145|184262230|OTHER|||||||0.452|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Benign p-value||||0.452
92181810|NCT02095145|184262230|OTHER|||||||0.391|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Adjacent p-value||||0.391
92181811|NCT02095145|184262230|OTHER|||||||0.713|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Tumor p-value||||0.713
92181812|NCT02095145|184262230|OTHER|||||||0.344|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Benign p-value||||0.344
92181813|NCT02095145|184262230|OTHER|||||||0.391|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Adjacent p-value||||0.391
92181814|NCT02095145|184262230|OTHER|||||||0.713|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Tumor p-value||||0.713
92181815|NCT02095145|184262231|OTHER|||||||0.865|||||||Wilcoxon rank-sum test|||Change from Baseline: Benign p-value||||0.865
92181816|NCT02095145|184262231|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline: Adjacent p-value||||1.000
92181817|NCT02095145|184262231|OTHER|||||||0.066|||||||Wilcoxon rank-sum test|||Change from Baseline: Tumor p-value||||0.066
92181818|NCT02095145|184262232|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline: Nuc Benign p-value||||1.000
92181819|NCT02095145|184262232|OTHER|||||||0.903|||||||Wilcoxon rank-sum test|||Change from Baseline: Nuc Adjacent p-value||||0.903
92181820|NCT02095145|184262232|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline: Nuc Tumor p-value||||1.000
92285777|NCT00322465|184476618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38||||0.075|TWO_SIDED|95.0|0.13|1.1||A priori threshold fors tatistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for ever having sex with a prostitute or sex for money, drugs, or other things (reference category is no) is 1 versus the alternative that it is greater than or less than 1.||1.10|0.13|0.075
92285778|NCT00322465|184476618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.92|||<|0.001|TWO_SIDED|95.0|1.93|7.98||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for visit due to sexually transmitted disease contact (reference category is no) is 1 versus the alternative that it is greater than or less than 1.||7.98|1.93|<0.001
92285779|NCT00322465|184476619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.2||||0.009|TWO_SIDED|95.0|0.06|0.66||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for 2 or more sex partners in the last 3 months (reference category is 0-1 partners) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multivariable logistic regression model.||0.66|0.06|0.009
92285780|NCT00322465|184476619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39||||0.074|TWO_SIDED|95.0|0.92|6.22||A priori threshold for statistical signficance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for ever having sex with a prostitute or for money, drugs, or other things(reference category is no) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multivariable logistic regression model.||6.22|0.92|0.074
92285781|NCT00322465|184476620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.032|TWO_SIDED|95.0|0.66|0.98||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|No other independent variables were included in the model.||The null hypothesis is that the odds ratio for age (per 5 years) is 1 versus the alternative that the odds ratio is greater than or less than 1.||0.98|0.66|0.032
92285782|NCT01073657|184476626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.0|STANDARD_DEVIATION|33.9||0.0059|TWO_SIDED|95.0|14.0|38.0|||t-test, 2 sided|||||38|14|0.0059
92285783|NCT00854100|184476632|SUPERIORITY||Least Squares Mean Difference|0.5||||0.746|TWO_SIDED|95.0|-2.4|3.4|||ANCOVA|||||3.4|-2.4|0.746
92285784|NCT00854100|184476632|SUPERIORITY||Least Squares Mean Difference|-1.8||||0.227|TWO_SIDED|95.0|-4.8|1.1|||ANCOVA|||||1.1|-4.8|0.227
92285785|NCT00854100|184476633|SUPERIORITY||Least Squares Mean Difference|0.0||||0.918|TWO_SIDED|95.0|-0.3|0.3|||ANCOVA|||||0.3|-0.3|0.918
92285786|NCT00854100|184476633|SUPERIORITY||Least Squares Mean Difference|-0.2||||0.167|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||||0.1|-0.6|0.167
92181821|NCT02095145|184262232|OTHER|||||||0.269|||||||Wilcoxon rank-sum test|||Change from Baseline: Cyt Benign p-value||||0.269
92285787|NCT02242201|184476636|SUPERIORITY|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||||||0.033
92285788|NCT02242201|184476636|SUPERIORITY|||||||0.662|||||||Wilcoxon (Mann-Whitney)|||||||0.662
92285789|NCT02242201|184476636|SUPERIORITY|||||||0.103|||||||Wilcoxon (Mann-Whitney)|||||||0.103
92181822|NCT02095145|184262232|OTHER|||||||0.066|||||||Wilcoxon rank-sum test|||Change from Baseline: Cyt Adjacent p-value||||0.066
92181823|NCT02095145|184262232|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline: Cyt Tumor p-value||||1.000
92285790|NCT02242201|184476637|SUPERIORITY|||||||0.948|||||||Wilcoxon (Mann-Whitney)|||Preoperative||||0.948
92285791|NCT02242201|184476637|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Preoperative||||0.880
92285792|NCT02242201|184476637|SUPERIORITY|||||||0.802|||||||Wilcoxon (Mann-Whitney)|||Preoperative||||0.802
92285793|NCT02242201|184476637|SUPERIORITY|||||||0.179|||||||Wilcoxon (Mann-Whitney)|||Intraoperative||||0.179
92285794|NCT02242201|184476637|SUPERIORITY|||||||0.837|||||||Wilcoxon (Mann-Whitney)|||Intraoperative||||0.837
92285795|NCT02242201|184476637|SUPERIORITY|||||||0.142|||||||Wilcoxon (Mann-Whitney)|||Intraoperative||||0.142
92285796|NCT02242201|184476637|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||PACU||||0.010
92285797|NCT02242201|184476637|SUPERIORITY|||||||0.516|||||||Wilcoxon (Mann-Whitney)|||PACU||||0.516
92285798|NCT02242201|184476637|SUPERIORITY|||||||0.052|||||||Wilcoxon (Mann-Whitney)|||PACU||||0.052
92285799|NCT02242201|184476637|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||POD 0 post PACU||||0.840
92285800|NCT02242201|184476637|SUPERIORITY|||||||0.744|||||||Wilcoxon (Mann-Whitney)|||POD 0 post PACU||||0.744
92285801|NCT02242201|184476637|SUPERIORITY|||||||0.501|||||||Wilcoxon (Mann-Whitney)|||POD 0 post PACU||||0.501
92285802|NCT02242201|184476637|SUPERIORITY|||||||0.358|||||||Wilcoxon (Mann-Whitney)|||POD 1||||0.358
92285803|NCT02242201|184476637|SUPERIORITY|||||||0.536|||||||Wilcoxon (Mann-Whitney)|||POD 1||||0.536
92285804|NCT02242201|184476637|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||POD 1||||0.110
92285805|NCT02242201|184476637|SUPERIORITY|||||||0.313|||||||Wilcoxon (Mann-Whitney)|||POD 2||||0.313
92285806|NCT02242201|184476637|SUPERIORITY|||||||0.893|||||||Wilcoxon (Mann-Whitney)|||POD 2||||0.893
92181824|NCT02095145|184262232|OTHER|||||||0.425|||||||Wilcoxon rank-sum test|||Change from Baseline: Cell Benign p-value||||0.425
92285807|NCT02242201|184476637|SUPERIORITY|||||||0.232|||||||Wilcoxon (Mann-Whitney)|||POD 2||||0.232
92285808|NCT02242201|184476638|SUPERIORITY|||||||0.772|||||||Kruskal-Wallis|||||||0.772
92285809|NCT02242201|184476639|SUPERIORITY|||||||0.251|||||||Regression, Cox|||Baseline||||0.251
92285810|NCT02242201|184476639|SUPERIORITY|||||||0.3|||||||Regression, Cox|||3 month follow-up||||0.300
92285811|NCT02242201|184476639|SUPERIORITY|||||||0.113|||||||Regression, Cox|||Baseline vs 3 months||||0.113
92285812|NCT02242201|184476639|SUPERIORITY|||||||0.147|||||||Regression, Cox|||Baseline vs 3 months||||0.147
92285813|NCT02242201|184476639|SUPERIORITY|||||||0.216|||||||Regression, Cox|||Baseline vs 3 months||||0.216
92285814|NCT02242201|184476639|SUPERIORITY|||||||0.968|||||||Regression, Cox|||Baseline vs 3 months||||0.968
92285815|NCT02242201|184476640|SUPERIORITY|||||||0.776|||||||Kruskal-Wallis|||Pain at rest||||0.776
92285816|NCT02242201|184476640|SUPERIORITY|||||||0.447|||||||Kruskal-Wallis|||Pain with movement||||0.447
92285817|NCT02242201|184476641|SUPERIORITY|||||||0.986|||||||ANOVA|||||||0.986
92285818|NCT02242201|184476641|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Baseline vs 3 months||||<0.001
92285819|NCT02242201|184476641|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Baseline vs 3 months||||<0.001
92285820|NCT02242201|184476641|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Baseline vs 3 months||||<0.001
92285821|NCT02242201|184476642|SUPERIORITY|||||||0.898|||||||ANOVA|||||||0.898
92285822|NCT02242201|184476642|SUPERIORITY|||||||0.112|||||||t-test, 1 sided|||Baseline vs 3 months||||0.112
92285823|NCT02242201|184476642|SUPERIORITY|||||||0.046|||||||t-test, 1 sided|||Baseline vs 3 months||||0.046
92285824|NCT02242201|184476642|SUPERIORITY|||||||0.026|||||||t-test, 1 sided|||Baseline vs 3 months||||0.026
92285825|NCT02242201|184476643|SUPERIORITY|||||||0.843|||||||Fisher Exact|||Operative extremity neurologic changes||||0.843
92285826|NCT02242201|184476643|SUPERIORITY|||||||1|||||||Fisher Exact|||Wound infection||||1.00
92285827|NCT02242201|184476643|SUPERIORITY|||||||1|||||||Fisher Exact|||Fall requiring medical attention||||1.00
92285828|NCT02242201|184476644|SUPERIORITY|||||||1|||||||Fisher Exact|||Pain at rest||||1.00
92285829|NCT02242201|184476644|SUPERIORITY|||||||0.167|||||||Fisher Exact|||Pain with movement||||0.167
92285830|NCT01379664|184476656|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|1.06||||0.24|TWO_SIDED|95.0|0.97|1.16|||Wilcoxon (Mann-Whitney)|||||1.16|0.97|0.24
92285831|NCT01379664|184476657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.87|TWO_SIDED|95.0|-0.23|0.19|||Generalized estimating equation model|Generalized estimating equation model weighted by inverse propensity score||||0.19|-0.23|0.87
92285832|NCT01379664|184476658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.74|TWO_SIDED|95.0|-4.7|3.3|||Generalized estimating equation model|Generalized estimating equation model weighted by propensity score||||3.3|-4.7|0.74
92285833|NCT02298322|184476660|OTHER||sucess proportion|91.4|||<|0.0001|TWO_SIDED|95.0|86.2|95.1|||t-test, 1 sided|||||95.1|86.2|<0.0001
92263331|NCT00134563|184428096|SUPERIORITY_OR_OTHER||Hazard ratio reduction (%)|29.8||||0.0279||||||"Step down approach:~* H1 tested only if both comparisons on the primary outcome measure were statistically significant~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance ≤0.05"|Log Rank|Two-sided Log-rank test stratified by region of enrollment and baseline EDSS stratum|Relative risk reduction with Teriflunomide 14 mg compared to placebo (estimated from a Cox proportional hazard model with treatment arm, region of enrollment and baseline EDSS stratum as covariates)|"Null hypothesis:~* H1: No difference between Teriflunomide 14 mg and placebo~* H2: No difference between Teriflunomide 7 mg and placebo~The study was also sized to detect a 37% hazard rate reduction of an assumed disability progression hazard rate of 0.1783 in the placebo group and 0.1116 in the teriflunomide group by the end of 2 years with a power of 80% anticipating a potential 20% 2-year dropout rate."||||0.0279
92263332|NCT00134563|184428096|SUPERIORITY_OR_OTHER||Hazard ratio reduction (%)|23.7||||0.0835||||||"Step down approach:~* H1 tested only if both comparisons on the primary outcome measure were statistically significant~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance ≤0.05"|Log Rank|Two-sided Log-rank test stratified by region of enrollment and baseline EDSS stratum|Relative risk reduction with Teriflunomide 7 mg compared to placebo (estimated from a Cox proportional hazard model with treatment arm, region of enrollment and baseline EDSS stratum as covariates)|||||0.0835
92263333|NCT00134563|184428097|SUPERIORITY_OR_OTHER|||||||0.0003||95.0||||"A priori threshold for statistical significance ≤0.05~No adjustment for multiple comparisons"|t-test, 2 sided|2-sided t-test on baseline adjusted least-square means||Mixed-effect model with repeated measures \[MMRM\] on cubic root transformed total lesion volume data (treatment group, region of enrollment, baseline EDSS stratum, visit, treatment-by-visit interaction, baseline value (cubic root transformed) and baseline-by-visit interaction).||||0.0003
92263334|NCT00134563|184428097|SUPERIORITY_OR_OTHER|||||||0.0317||||||"A priori threshold for statistical significance ≤0.05~No adjustment for multiple comparisons"|t-test, 2 sided|2-sided t-test on baseline adjusted least-square means||Mixed-effect model with repeated measures \[MMRM\] on cubic root transformed total lesion volume data (treatment group, region of enrollment, baseline EDSS stratum, visit, treatment-by-visit interaction, baseline value (cubic root transformed) and baseline-by-visit interaction).||||0.0317
92263335|NCT00134563|184428100|SUPERIORITY_OR_OTHER|||||||0.8271||||||"A priori threshold for statistical significance ≤0.05~No adjustment for multiple comparisons"|t-test, 2 sided|2-sided t-test on baseline adjusted least-square means||||||0.8271
92263336|NCT00134563|184428100|SUPERIORITY_OR_OTHER|||||||0.3861||||||"A priori threshold for statistical significance ≤0.05~No adjustment for multiple comparisons"|t-test, 2 sided|2-sided t-test on baseline adjusted least-square means||||||0.3861
92263337|NCT03382639|184428105|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.66||0.426|TWO_SIDED|95.0|-1.4|1.2|||Mixed Models Analysis|||||1.2|-1.4|0.426
92263338|NCT03382639|184428105|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.66||0.725|TWO_SIDED|95.0|-1.5|1.1|||Mixed Models Analysis|||||1.1|-1.5|0.725
92263339|NCT03382639|184428105|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.68||0.808|TWO_SIDED|95.0|-0.7|1.9|||Mixed Models Analysis|||||1.9|-0.7|0.808
92263340|NCT00148109|184428121|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||Estimate a 4 month progression-free survival rate for each group.||||<0.05
92263341|NCT06104423|184428124|SUPERIORITY||Mean difference pre vs post treatment|-19.2|STANDARD_DEVIATION|8.62|<|0.001|TWO_SIDED|95.0|-26.0|-14.0|||paired t-test|||Primary endpoint, verified on the single cohort of patients who completed the monotherapy run-in period, is calculated as the mean difference in sitting systolic blood pressure between Visit 2 (Week 0, Baseline Visit of the combination therapy) and Visit 5 (Week 12, End of Study Visit). This is not a comparison of two different arms, but a comparison of two measurements taken from the same patient treated with combination therapy (single arm paired pre- vs. post-combination therapy comparison)||-14.0|-26.0|< 0.001
92263342|NCT00538434|184428125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-52.78|STANDARD_ERROR_OF_MEAN|11.4|<|0.0001|TWO_SIDED|95.0|-75.24|-30.32|||ANCOVA|adjustment for stratification factor and for variable at Baseline||||-30.32|-75.24|< 0.0001
92263343|NCT00538434|184428125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-73.03|STANDARD_ERROR_OF_MEAN|11.29|<|0.0001|TWO_SIDED|95.0|-95.28|-50.78|||ANCOVA|adjustment for stratification factor and for variable at Baseline||||-50.78|-95.28|< 0.0001
92263344|NCT00538434|184428125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-64.69|STANDARD_ERROR_OF_MEAN|11.28|<|0.0001|TWO_SIDED|95.0|-86.93|-42.45|||ANCOVA|adjustment for stratification factor and for variable at Baseline||||-42.45|-86.93|< 0.0001
92263345|NCT00538434|184428126|SUPERIORITY_OR_OTHER|||||||0.0313|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0313
92263346|NCT00538434|184428126|SUPERIORITY_OR_OTHER|||||||0.5793|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.5793
92263347|NCT00538434|184428126|SUPERIORITY_OR_OTHER|||||||0.4905|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.4905
92263348|NCT00538434|184428127|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0062
92263349|NCT00538434|184428127|SUPERIORITY_OR_OTHER|||||||0.0943|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0943
92263350|NCT00538434|184428127|SUPERIORITY_OR_OTHER|||||||0.2955|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.2955
92285834|NCT03880266|184476672|SUPERIORITY||Mean Difference (Final Values)|-1.58||||0.244|TWO_SIDED|95.0|-3.76|0.6|||Wilcoxon (Mann-Whitney)|||||0.60|-3.76|0.244
92181825|NCT02095145|184262232|OTHER|||||||0.27|||||||Wilcoxon rank-sum test|||Change from Baseline: Cell Adjacent p-value||||0.270
92285835|NCT03880266|184476672|SUPERIORITY||Mean Difference (Final Values)|1.39||||0.168|TWO_SIDED|95.0|-0.65|3.43|||Wilcoxon (Mann-Whitney)|||||3.43|-0.65|0.168
92263351|NCT00538434|184428128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.75|STANDARD_ERROR_OF_MEAN|6.48||0.4644|TWO_SIDED|95.0|-17.53|8.03||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Physical Summary Score||8.03|-17.53|0.4644
92263352|NCT00538434|184428128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.47|STANDARD_ERROR_OF_MEAN|6.44||0.8196|TWO_SIDED|95.0|-14.17|11.23||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Physical Summary Score||11.23|-14.17|0.8196
92263353|NCT00538434|184428128|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.36|STANDARD_ERROR_OF_MEAN|6.36||0.8306|TWO_SIDED|95.0|-11.19|13.91||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Physical Summary Score||13.91|-11.19|0.8306
92263354|NCT00538434|184428128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.38|STANDARD_ERROR_OF_MEAN|4.37||0.1459|TWO_SIDED|95.0|-15.01|2.24||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Psychosocial Summary Score||2.24|-15.01|0.1459
92263355|NCT00538434|184428128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.41|STANDARD_ERROR_OF_MEAN|4.38||0.4375|TWO_SIDED|95.0|-12.05|5.23||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Psychosocial Summary Score||5.23|-12.05|0.4375
92263356|NCT00538434|184428128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.43|STANDARD_ERROR_OF_MEAN|4.35||0.9217|TWO_SIDED|95.0|-9.0|8.15||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Psychosocial Summary Score||8.15|-9.00|0.9217
92263357|NCT00538434|184428128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.57|STANDARD_ERROR_OF_MEAN|7.82||0.8412|TWO_SIDED|95.0|-16.98|13.85||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Global Health Score||13.85|-16.98|0.8412
92263358|NCT00538434|184428128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.54|STANDARD_ERROR_OF_MEAN|7.81||0.4794|TWO_SIDED|95.0|-20.94|9.87||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Global Health Score||9.87|-20.94|0.4794
92263359|NCT00538434|184428128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.06|STANDARD_ERROR_OF_MEAN|7.66||0.8906|TWO_SIDED|95.0|-16.16|14.06||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Global Health Score||14.06|-16.16|0.8906
92263360|NCT00351611|184428129|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI bound was less than 0.10 (10%).|Difference in percentage of participants|-1.7094|||||TWO_SIDED|95.0|-9.1751|5.9784||||||A 2-sided 95 percent (%) confidence interval (CI) on the difference in percentage of participants, between pregabalin and placebo was constructed using unconditional exact methods.||5.9784|-9.1751|
92285836|NCT03880266|184476672|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.699|TWO_SIDED|95.0|-2.39|1.72|||Wilcoxon (Mann-Whitney)|||||1.72|-2.39|0.699
92285837|NCT03880266|184476672|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.833|TWO_SIDED|95.0|-1.94|2.02|||Wilcoxon (Mann-Whitney)|||||2.02|-1.94|0.833
92285838|NCT03880266|184476673|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92285839|NCT03880266|184476673|SUPERIORITY|||||||0.589|||||||Fisher Exact|||||||0.589
92285840|NCT03880266|184476673|SUPERIORITY|||||||0.154|||||||Fisher Exact|||||||0.154
92181826|NCT02095145|184262232|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline: Cell Tumor p-value||||1.000
92181827|NCT02095145|184262233|OTHER|||||||0.625|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Benign p-value||||0.625
92285841|NCT03880266|184476673|SUPERIORITY|||||||0.646|||||||Fisher Exact|||||||0.646
92285842|NCT03880266|184476674|SUPERIORITY||Mean Difference (Final Values)|-206.5||||0.093|TWO_SIDED|95.0|-451.9|38.9|||t-test, 2 sided|||||38.9|-451.9|0.093
92285843|NCT03880266|184476674|SUPERIORITY||Mean Difference (Final Values)|144.1||||0.186|TWO_SIDED|95.0|-78.6|366.7|||t-test, 2 sided|||||366.7|-78.6|0.186
92181828|NCT02095145|184262233|OTHER|||||||0.128|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Adjacent p-value||||0.128
92181829|NCT02095145|184262233|OTHER|||||||0.045|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Tumor p-value||||0.045
92285844|NCT03880266|184476674|SUPERIORITY||Mean Difference (Final Values)|-151.7||||0.058|TWO_SIDED|95.0|-309.0|5.7|||t-test, 2 sided|||||5.7|-309.0|0.058
92285845|NCT03880266|184476674|SUPERIORITY||Mean Difference (Final Values)|160.6||||0.186|TWO_SIDED|95.0|-611.2|290.1|||t-test, 2 sided|||||290.1|-611.2|0.186
92285846|NCT03880266|184476675|SUPERIORITY||Mean Difference (Final Values)|-33.62||||0.13|TWO_SIDED|95.0|-78.42|11.17|||t-test, 2 sided|||||11.17|-78.42|0.130
92285847|NCT03880266|184476675|SUPERIORITY||Mean Difference (Final Values)|24.26||||0.518|TWO_SIDED|95.0|-54.62|103.13|||t-test, 2 sided|||||103.13|-54.62|0.518
92285848|NCT03880266|184476675|SUPERIORITY||Mean Difference (Final Values)|-38.14||||0.061|TWO_SIDED|95.0|-78.32|2.03|||t-test, 2 sided|||||2.03|-78.32|0.061
92285849|NCT03880266|184476675|SUPERIORITY||Mean Difference (Final Values)|-39.34||||0.366|TWO_SIDED|95.0|-128.4|49.72|||t-test, 2 sided|||||49.72|-128.40|0.366
92181830|NCT02095145|184262233|OTHER|||||||0.105|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Benign p-value||||0.105
92181831|NCT02095145|184262233|OTHER|||||||0.066|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Adjacent p-value||||0.066
92181832|NCT02095145|184262233|OTHER|||||||0.005|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Tumor p-value||||0.005
92181833|NCT02095145|184262233|OTHER|||||||0.129|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Benign p-value||||0.129
92181834|NCT02095145|184262233|OTHER|||||||0.066|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Adjacent p-value||||0.066
92285850|NCT03880266|184476676|SUPERIORITY|||||||0.515|||||||Fisher Exact|||||||0.515
92181835|NCT02095145|184262233|OTHER|||||||0.013|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Tumor p-value||||0.013
92181836|NCT02095145|184262234|OTHER|||||||0.143|||||||Wilcoxon rank-sum test|||Change from Baseline: Benign p-value||||0.143
92263361|NCT00351611|184428130|NON_INFERIORITY|Non-inferiority with respect to mean deviation was demonstrated if the lower bound of the CI is greater than -2.0 decibels.|Difference in LS mean|-0.125||||0.4414|TWO_SIDED|95.0|-0.443|0.194|||ANCOVA|||Analysis of covariance (ANCOVA) with treatment and center in the model and the baseline mean deviation as the covariate was used to construct a 2-sided 95% CI on the difference in least squares (LS) mean between pregabalin and placebo.||0.194|-0.443|0.4414
92263362|NCT00351611|184428131|OTHER||Difference in LS mean|-0.9||||0.1346|TWO_SIDED|95.0|-2.083|0.283|||ANCOVA|||ANCOVA with treatment and center in the model and the baseline visual acuity as the covariate was used to construct a 2-sided 95% confidence interval on the difference in LS mean between pregabalin and placebo.||0.283|-2.083|0.1346
92263363|NCT01589185|184428133|SUPERIORITY|||||||0.3962||||||\< 0.1 is considered borderline significant|Fisher Exact|||The number (%) of patients who died on or before end of study (EOS) was compared among all 5 groups. The mITT population was used.||||0.3962
92263364|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263365|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263366|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263367|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263368|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263369|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263370|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263371|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263372|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263373|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263374|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263375|NCT03781167|184428211|SUPERIORITY|Week 26 vs Baseline|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263376|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263377|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263378|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263379|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263380|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263381|NCT03781167|184428211|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263382|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||>|0.999|||||||paired-sample t-test|||Week 1 vs Baseline||||>0.999
92263383|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.5095|||||||paired-sample t-test|||Week 1 vs Baseline||||=0.5095
92263384|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.6962|||||||paired-sample t-test|||Week 1 vs Baseline||||=0.6962
92263385|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0035|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0035
92285851|NCT03880266|184476676|SUPERIORITY|||||||0.56|||||||Fisher Exact|||||||0.560
92181837|NCT02095145|184262234|OTHER|||||||0.037|||||||Wilcoxon rank-sum test|||Change from Baseline: Adjacent p-value||||0.037
92181838|NCT02095145|184262234|OTHER|||||||0.111|||||||Wilcoxon rank-sum test|||Change from Baseline: Tumor p-value||||0.111
92181839|NCT02095145|184262235|OTHER|||||||0.068|||||||Wilcoxon rank-sum test|||Change from Baseline Week 13||||0.068
92181840|NCT02095145|184262235|OTHER|||||||0.004|||||||Wilcoxon rank-sum test|||Change from Baseline Week 26||||0.004
92263386|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0324|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0324
92263387|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263388|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0072|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.0072
92263389|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0129|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.0129
92263390|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263391|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0119|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.0119
92263392|NCT03781167|184428212|SUPERIORITY||||||=|0.22||||||A paired-sample t-test was performed to test the change from Baseline.|paired-sample t-test|||Week 26 vs Baseline||||=0.2200
92285852|NCT03880266|184476676|SUPERIORITY|||||||0.245|||||||Fisher Exact|||||||0.245
92285853|NCT03880266|184476676|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||0.290
92285854|NCT05472038|184476697|SUPERIORITY|Superiority based on GMR was declared if the lower limit of the 2-sided 95% CI for the GMR was greater than 1.|Model-Based GMR|2.91|||||TWO_SIDED|95.0|2.45|3.44||||||||3.44|2.45|
92181841|NCT02095145|184262235|OTHER|||||||0.002|||||||Wilcoxon rank-sum test|||Change from Baseline Week 39||||0.002
92263393|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0063|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.0063
92263394|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263395|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.4331|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.4331
92263396|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0045|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.0045
92263397|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0049|||||||Wilcoxon (Mann-Whitney)|||Week 52 vs Baseline||||=0.0049
92263398|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.6312|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.6312
92263399|NCT03781167|184428212|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.1892|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.1892
92263400|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92285855|NCT05472038|184476698|NON_INFERIORITY|Noninferiority based on seroresponse was declared if the lower limit of the 2-sided 95% CI for the difference in percentages of participants with seroresponse is \>-5%.|Adjusted Difference in Percentages|26.77|||||TWO_SIDED|95.0|19.59|33.95|||||Adjusted difference and 2-Sided CI based on the Miettinen and Nurminen method stratified by baseline NT category (\< median,\>= median) for difference in proportions. The median of baseline NT was calculated based on pooled data in 2 comparator groups.|||33.95|19.59|
92181842|NCT02095145|184262235|OTHER||||||<|0.001|||||||Wilcoxon rank-sum test|||Change from Baseline Week 52||||<0.001
92181843|NCT02095145|184262236|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline Week 13||||1.000
92181844|NCT02095145|184262236|OTHER|||||||0.18|||||||Wilcoxon rank-sum test|||Change from Baseline Week 26||||0.180
92181845|NCT02095145|184262236|OTHER|||||||0.62|||||||Wilcoxon rank-sum test|||Change from Baseline Week 39||||0.620
92263401|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263402|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263403|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263404|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263405|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263406|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263407|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263408|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263409|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263410|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263411|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263412|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263413|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263414|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263415|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263416|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263417|NCT03781167|184428213|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263418|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
92263419|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
92181846|NCT02095145|184262236|OTHER|||||||0.536|||||||Wilcoxon rank-sum test|||Change from Baseline Week 52||||0.536
92181847|NCT02095145|184262238|OTHER|||||||0.231|||||||Wilcoxon rank-sum test|||Change in Tumor Volume from baseline to end of study per arm||||0.231
92263420|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
92263421|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263422|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263423|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92181848|NCT00229970|184262291|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09||||0.022||95.0|0.01|0.16|||ANCOVA|The model included a factor for treatment and using the baseline Forced Expiratory Volume in One Second (FEV1) as a covariate.||||0.16|0.01|0.022
92181849|NCT00229970|184262291|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|||<|0.001||95.0|0.09|0.24|||ANCOVA|The model included a factor for treatment and using the baseline Forced Expiratory Volume in One Second (FEV1) as a covariate.||||0.24|0.09|<0.001
92181850|NCT01767467|184262320|NON_INFERIORITY|The objective was met if the lower limit of the 95% CI of the Geometric Mean (GM) ratio (GSK1437173A vaccine over placebo) for anti-gE ELISA antibody concentrations at Month 2 was greater than (\>) 3.|Adjusted Geometric Mean Concentration|29.75|||<|0.0001|TWO_SIDED|95.0|21.09|41.96||The p-value is relative to the null hypothesis Ho: Vaccine / Placebo = 1|Repeated measurement model|||The objective aimed to evaluate anti-gE humoral immune responses at Month 2 following a two-dose administration of the GSK1437173A vaccine, as compared to placebo, in subjects with haematologic malignancies excluding subjects with Non-Hodgkin B-cell Lymphoma and Chronic Lymphocytic Leukaemia.||41.96|21.09|<0.0001
92181851|NCT00853580|184262339|SUPERIORITY|||||||0.51|||||||ANCOVA|||||||0.51
92263424|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92263425|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92263426|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92263427|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
92263428|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
92263429|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
92263430|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0042|||||||paired-sample t-test|||Week 4 vs Baseline||||=0.0042
92263431|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
92263432|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
92263433|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.1135|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.1135
92263434|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0029|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0029
92263435|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0026|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0026
92263436|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0034|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.0034
92263437|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0103|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.0103
92263438|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263439|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0493|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.0493
92285856|NCT05472038|184476699|NON_INFERIORITY|Noninferiority based on the GMR was declared if the lower limit of the 2-sided 95% CI for the GMR is greater than 0.67 (1.5-fold criterion) and the point estimate of the GMR was \>=0.8.|Model-Based GMR|0.98|||||TWO_SIDED|95.0|0.83|1.16|||||GMR and 2-sided 95% CIs were calculated by exponentiating the difference of LS means and corresponding CIs based on the regression model included terms for baseline neutralizing titer and comparison group.|||1.16|0.83|
92263440|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.3003|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.3003
92263441|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0354|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.0354
92181852|NCT00853580|184262340|SUPERIORITY|||||||0.33|||||||ANCOVA|||||||0.33
92181853|NCT00853580|184262341|SUPERIORITY|||||||0.86|||||||ANCOVA|||||||0.86
92263442|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2553|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.2553
92263443|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.864|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.8640
92263444|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.4774|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.4774
92263445|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.3865|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.3865
92263446|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.||||||0.1186|||||||paired-sample t-test|||Week 52 vs Baseline||||0.1186
92263447|NCT03781167|184428214|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.083|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.0830
92263448|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
92263449|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0041|||||||paired-sample t-test|||Day 2 vs Baseline||||=0.0041
92263450|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
92263451|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263452|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263453|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263454|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92181854|NCT00853580|184262342|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||0.04
92263455|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92263456|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92263457|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
92263458|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
92263459|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
92263460|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
92263461|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
92263462|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
92263463|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263464|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263465|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263466|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263467|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263468|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263469|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263470|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263471|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263472|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263473|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263474|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263475|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0091|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.0091
92263476|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263477|NCT03781167|184428215|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92181855|NCT00853580|184262343|SUPERIORITY|||||||0.33|||||||ANCOVA|||||||0.33
92181856|NCT00853580|184262344|SUPERIORITY|||||||0.99|||||||ANCOVA|||||||0.99
92181857|NCT00853580|184262345|SUPERIORITY|||||||0.9|||||||ANCOVA|||||||0.90
92181858|NCT00853580|184262346|SUPERIORITY|||||||0.37|||||||ANCOVA|||||||0.37
92181859|NCT00853580|184262347|SUPERIORITY|||||||0.49|||||||ANCOVA|||||||0.49
92181860|NCT00853580|184262348|SUPERIORITY|||||||0.86|||||||ANCOVA|||||||0.86
92181861|NCT00853580|184262349|SUPERIORITY|||||||0.09|||||||ANCOVA|||||||0.09
92181862|NCT00853580|184262350|SUPERIORITY|||||||0.37|||||||ANCOVA|||||||0.37
92181863|NCT00853580|184262351|SUPERIORITY|||||||0.18|||||||ANCOVA|||||||0.18
92181864|NCT00853580|184262352|SUPERIORITY|||||||0.88|||||||ANCOVA|||||||0.88
92181865|NCT00853580|184262353|SUPERIORITY|||||||0.25|||||||ANCOVA|||||||0.25
92181866|NCT00853580|184262354|SUPERIORITY|||||||0.2|||||||ANCOVA|||||||0.20
92181867|NCT00853580|184262355|SUPERIORITY|||||||0.5|||||||ANCOVA|||||||0.50
92181868|NCT00853580|184262356|SUPERIORITY|||||||0.33|||||||ANCOVA|||||||0.33
92263478|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.4447|||||||paired-sample t-test|||Day 2 vs Baseline||||=0.4447
92263479|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.3567|||||||paired-sample t-test|||Day 2 vs Baseline||||=0.3567
92181869|NCT00853580|184262357|SUPERIORITY|||||||0.3|||||||ANCOVA|||||||0.30
92181870|NCT00853580|184262358|SUPERIORITY|||||||0.73|||||||ANCOVA|||||||0.73
92181871|NCT01700205|184262359|OTHER|A priori power analyses determined that a sample size of 94 is required to detect a difference of 0.67 with 90% power and a 5% type 1 error rate. We conducted an intention-to-treat (ITT) analyses on the 113 infants using separate generalized estimating equations that included treatment group (CMF, EHF), time (infant age), and group × time interaction for each type of Z score (0.5-12.5 mos).|Slope|-0.018|||<|0.05|TWO_SIDED|95.0|-0.0363|-0.0002|||Generalized Estimating Equation|GEE analysis conducted with group (CMF, EHF), time (infant age, 0.5-12.5 months) and their interaction.||||-0.0002|-0.0363|<0.05
92181872|NCT01700205|184262360|OTHER|A priori power analyses determined that a sample size of 94 is required to detect a difference of 0.67 with 90% power and a 5% type 1 error rate. We conducted an intention-to-treat (ITT) analyses on the 113 infants using separate generalized estimating equations that included treatment group (CMF, EHF), time (infant age), and group × time interaction for each type of Z score (0.5-12.5 mos). We provide below the parameter estimates for WLZ scores only.|Slope|-0.023||||0.001|TWO_SIDED|95.0|-0.0362|-0.0093|||Generalized Estimating Equations|GEE analysis conducted on each type of Z score separately with group (CMF, EHF), time (infant age; 0.5-12.5 months) and their interaction.||||-0.0093|-0.0362|0.001
92181873|NCT01700205|184262361|OTHER|A priori power analyses determined that a sample size of 94 is required to detect a difference of 0.67 with 90% power and a 5% type 1 error rate. We conducted an intention-to-treat (ITT) analyses on the 113 infants using separate generalized estimating equations that included treatment group (CMF, EHF), time (infant age), and group × time interaction for each type of Z score (0.5-12.5 mos).|Slope|-0.02||||0.32|TWO_SIDED|95.0|-0.058|0.019|||Generalized Estimating Equation|GEE analysis conducted with group (CMF, EHF), time (infant age, 0.5-12.5 months) and their interaction||||0.019|-0.058|0.32
92181874|NCT01700205|184262362|OTHER|ANOVA with group (CMF, EHF) as between-subjects factor were conducted on intent-to-treat sample|||||<|0.05|||||||Repeated Measures ANOVA|We conducted a ANOVA with group (CMF, EHF) as between-subject factor.||ANOVAs were conducted with group (CMF, EHF) as the between-subjects factor.||||<0.05
92263480|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2315|||||||paired-sample t-test|||Day 2 vs Baseline||||=0.2315
92181875|NCT01700205|184262363|OTHER|ANOVA was conducted with group (CMF, EHF) as between-subjects factor on the intent-to-treat sample.||||||0.72|||||||Repeated Measure ANOVA|ANOVA was conducted with group (CMF, EHF) as between-subjects factor on the intent-to-treat sample.||Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor||||0.72
92181876|NCT01700205|184262364|OTHER|Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||||||0.72|||||||Repeated Measure ANOVA|Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||||0.72
92181877|NCT01700205|184262365|OTHER|Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||||||0.02|||||||Repeated Measure ANOVA|Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||||0.02
92181878|NCT03335488|184262369|SUPERIORITY||Odds Ratio (OR)|1.1||||1|TWO_SIDED|95.0|0.0|28.1|||Fisher Exact|||||28.1|0.0|1.0000
92181879|NCT03335488|184262371|SUPERIORITY|||||||0.8464|||||||Wilcoxon rank sum test|||Initial Treatment Period Week 1||||0.8464
92181880|NCT03335488|184262371|SUPERIORITY|||||||0.104|||||||Wilcoxon rank sum test|||Initial Treatment Period Week 2||||0.1040
92181881|NCT03335488|184262371|SUPERIORITY|||||||0.0979|||||||Wilcoxon rank sum test|||Initial Treatment Period Week 3||||0.0979
92181882|NCT03335488|184262371|SUPERIORITY|||||||0.9808|||||||Wilcoxon rank sum test|||End of Initial Treatment Period Week 4 - 0 Hr||||0.9808
92181883|NCT03335488|184262371|SUPERIORITY|||||||0.8329|||||||Wilcoxon rank sum test|||End of Initial Treatment Period Week 4 - 4 Hr||||0.8329
92181884|NCT03335488|184262371|SUPERIORITY|||||||0.2544|||||||Wilcoxon rank sum test|||End of Initial Treatment Period Week 4 - 8 Hr||||0.2544
92181885|NCT03335488|184262372|SUPERIORITY|||||||0.8579||||||P-value is from a t-test comparing log-transformed RAVICTI vs NaPBA values.|t-test|||||||0.8579
92181886|NCT03335488|184262373|SUPERIORITY|||||||0.7155||||||P-value is from a t-test comparing log-transformed RAVICTI vs NaPBA values.|t-test|||||||0.7155
92182877|NCT02434328|184264727|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-9.9|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||2.8|-9.9|
92263481|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0667|||||||paired-sample t-test|||Week 1 vs Baseline||||=0.0667
92285857|NCT05472038|184476700|NON_INFERIORITY|Noninferiority based on seroresponse was declared if the lower limit of the 2-sided 95% CI for the difference in percentages of participants with seroresponse is \>-10%.|Adjusted Difference in Percentages|-3.03|||||TWO_SIDED|95.0|-9.68|3.63|||||2-Sided CI based on Miettinen and Nurminen method stratified by baseline NT category(\< median,\>= median)for difference in percentage(seroresponse rate).Median of baseline neutralizing titers was calculated based on pooled data in 2 comparator groups.|||3.63|-9.68|
92285858|NCT05472038|184476705|NON_INFERIORITY|Noninferiority based on the GMR was declared if the lower limit of the 2-sided 95% CI for the GMR is greater than 0.67 (1.5-fold criterion) and the point estimate of the GMR was \>=0.8.|Model-Based GMR|1.38|||||TWO_SIDED|95.0|1.22|1.56|||||GMR and 2-sided 95% CIs were calculated by exponentiating the difference of LS means and corresponding CIs based on the regression model included terms for baseline neutralizing titer and comparison group.|||1.56|1.22|
92285859|NCT03235739|184476717|SUPERIORITY|multiple imputation for longitudinal data was conducted to impute the missing data for the primary outcome. The final results were obtained from pooling results from 10 imputed complete case data set.|geometric mean ratio|0.9||||0.84|TWO_SIDED|95.0|0.32|2.55|||Mixed Models Analysis|||||2.55|0.32|0.84
92285860|NCT03235739|184476717|SUPERIORITY|A sensitivity analysis using complete case analysis|geometric mean ratio|0.82||||0.73|TWO_SIDED|95.0|0.26|2.56|||Mixed Models Analysis|||||2.56|0.26|0.73
92285861|NCT03235739|184476718|SUPERIORITY||geometric mean ratio|1.02||||0.91|TWO_SIDED|98.3|0.63|1.67|||Mixed Models Analysis|||||1.67|0.63|0.91
92285862|NCT03235739|184476719|SUPERIORITY||Risk Ratio (RR)|2.58||||0.012|TWO_SIDED|98.3|0.98|6.8|||Chi-squared|||||6.80|0.98|0.012
92285863|NCT03235739|184476720|SUPERIORITY||median of differences|-5.0||||0.08|TWO_SIDED|98.3|-12.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|-12|0.08
92263482|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263483|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263484|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92263485|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2033|||||||paired-sample t-test|||Week 2 vs Baseline||||=0.2033
92263486|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92263487|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0012|||||||paired-sample t-test|||Week 3 vs Baseline||||=0.0012
92263488|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0734|||||||paired-sample t-test|||Week 3 vs Baseline||||=0.0734
92263489|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
92263490|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0304|||||||paired-sample t-test|||Week 4 vs Baseline||||=0.0304
92263491|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||>|0.999|||||||paired-sample t-test|||Week 4 vs Baseline||||>0.999
92263492|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0891|||||||paired-sample t-test|||Week 4 vs Baseline||||=0.0891
92263493|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0832|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0832
92263494|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.4941|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.4941
92263495|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2764|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.2764
92263496|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.3248|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.3248
92263497|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2535|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.2535
92263498|NCT03781167|184428216|OTHER|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.9274|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.9274
92263499|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.3297|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.3297
92263500|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.9722|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.9722
92263501|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.4403|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.4403
92263502|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.1946|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.1946
92263503|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2077|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.2077
92263504|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0692|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.0692
92263505|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2276|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.2276
92263506|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.||||||0.3369|||||||paired-sample t-test|||Week 52 vs Baseline||||0.3369
92181887|NCT04941482|184262411|SUPERIORITY||Median Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|1.3|<|0.05|TWO_SIDED|95.0|-1.9|3.2||The threshold for statistical significance was p = 0.05.|t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Patient Health Questionnaire-9 score before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|3.2|-1.9|<0.05
92181888|NCT04941482|184262412|SUPERIORITY||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|2.5|<|0.05|TWO_SIDED|95.0|-7.6|2.5||The threshold for statistical significance was p = 0.05.|t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Fatigue Severity Scale score before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|2.5|-7.6|<0.05
92182878|NCT02434328|184264727|OTHER||Difference in proportions|-5.8|||||TWO_SIDED|95.0|-11.8|0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||0.3|-11.8|
92263507|NCT03781167|184428216|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.1218|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.1218
92263508|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
92285864|NCT00467896|184476737|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.8|||<|0.0001|TWO_SIDED|95.0|39.55|60.15|||t-test, 2 sided|||Comparison of the change in inhalation-times rate from Period I (PD-6) to Period II (PD-15)||60.15|39.55|<0.0001
92285865|NCT02847650|184476738|OTHER||Least Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|2.26||0.0407|TWO_SIDED|90.0|-8.6|-1.0|||Mixed Models Analysis|||||-1.0|-8.6|0.0407
92263509|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.002|||||||paired-sample t-test|||Day 2 vs Baseline||||=0.0020
92263510|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263511|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263512|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
92263513|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
92263514|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92263515|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92263516|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
92263517|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
92263518|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
92263519|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
92263520|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
92263521|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
92285866|NCT03818581|184476750|SUPERIORITY|||||||0.15|||||||SPCD analysis|||||||0.15
92285867|NCT01980771|184476770|SUPERIORITY||Odds Ratio (OR)|1.58||||0.04|TWO_SIDED|95.0|1.03|2.43|||Mixed Models Analysis|||||2.43|1.03|0.04
92285868|NCT03450057|184476773|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and two-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
92263522|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
92182879|NCT02434328|184264727|OTHER||Difference in proportions|-1.7|||||TWO_SIDED|95.0|-7.9|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||4.5|-7.9|
92263523|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263524|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263525|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263526|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263527|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263528|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263529|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263530|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263531|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263532|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263533|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263534|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263535|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263536|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263537|NCT03781167|184428217|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263538|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263539|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263540|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263541|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263542|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263543|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263544|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263545|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263546|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263547|NCT03781167|184428218|OTHER|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263548|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263549|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263550|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263551|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263552|NCT03781167|184428218|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263553|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263554|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263555|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92285869|NCT03450057|184476774|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and two-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
92285870|NCT03450057|184476775|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and two-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
92285871|NCT03450057|184476776|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and one-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
92285872|NCT03450057|184476777|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and one-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
92285873|NCT03450057|184476778|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and one-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
92285874|NCT00829790|184476790|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|114.49||||||90.0|109.25|119.98|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||119.98|109.25|
92263556|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263557|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263558|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92285875|NCT00829790|184476791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|117.16||||||90.0|110.44|124.28|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||124.28|110.44|
92285876|NCT00829790|184476792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|116.7||||||90.0|109.89|123.92|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||123.92|109.89|
92285877|NCT00984022|184476802|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||Fisher Exact|||The percentages achieving 30% or greater reduction in the surface area of the abscess were compared with Fisher's exact test.||||.0003
92182880|NCT02434328|184264727|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.8|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.1|-8.8|
92263559|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263560|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263561|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263562|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263563|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263564|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92285878|NCT00984022|184476803|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||Main effect for type of dressing.|ANOVA|||Repeated measures ANOVA using 2 X 2 factorial design, with one between-subjects factor (Group) and one within-subjects factor (Time). Null hypothesis is: The type of dressing does not affect patient pain ratings.||||.043
92285879|NCT00984022|184476804|SUPERIORITY_OR_OTHER|||||||0.847||95.0|||||Fisher Exact|||Fisher's exact test was used to compare the percentage of individuals achieving a 30% or greater reduction in cellulitis surface area between the Iodoform and Aquacel groups.||||.847
92285880|NCT02924883|184476811|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.3332||95.0|0.55|1.23|||Log Rank|The 2-sided log-rank test, was stratified by world region (Western Europe vs U.S. vs Rest of World) and PD-L1 status (IC 0 vs IC 1/2/3).||||1.23|0.55|0.3332
92285881|NCT02924883|184476813|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.2934||95.0|0.42|1.3|||Log Rank|The 2-sided log-rank test was stratified by world region (Western Europe vs U.S. vs Rest of World) and PD-L1 status (IC 0 vs IC 1/2/3).||||1.30|0.42|0.2934
92263565|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263566|NCT03781167|184428219|OTHER|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263567|NCT03781167|184428219|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263568|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0035|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0035
92263569|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263570|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
92263571|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0098|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.0098
92263572|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263573|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
92263574|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263575|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263576|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
92263577|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263578|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263579|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
92263580|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.003|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.0030
92263581|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263582|NCT03781167|184428220|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
92263583|NCT00679354|184428236|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|0.0||||1|TWO_SIDED||||||Spearman's Correlation|||||||1.000
92263584|NCT00679354|184428237|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|0.56||||0.057|TWO_SIDED||||||Spearman's Correlation|||||||0.057
92263585|NCT00679354|184428238|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|-0.22||||0.495|TWO_SIDED||||||Spearman's Correlation|||||||0.495
92263586|NCT00679354|184428239|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|-0.48||||0.114|TWO_SIDED||||||Spearman's Correlation|||||||0.114
92263587|NCT01258803|184428247|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.124|||<|0.001|TWO_SIDED|95.0|0.094|0.154|||ANCOVA|||"Pairwise Treatment Comparison of MF/F MDI with spacer and Placebo MDI combined with or without spacer.~Analysis was performed using an analysis of covariance (ANCOVA) model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.154|0.094|<0.001
92263588|NCT01258803|184428248|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.102|||<|0.001|TWO_SIDED|95.0|0.073|0.131|||ANCOVA|||"Pairwise Treatment Comparison of MF/F MDI without spacer and Placebo MDI combined with or without spacer.~Analysis was performed using an ANCOVA model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.131|0.073|<0.001
92263589|NCT01258803|184428249|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.022||||0.144|TWO_SIDED|95.0|-0.008|0.052|||ANCOVA|||"Pairwise Treatment Comparison of MF/F MDI with spacer and MF/F MDI without spacer.~Analysis was performed using an ANCOVA model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.052|-0.008|0.144
92263590|NCT01258803|184428251|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.018||||0.229|TWO_SIDED|95.0|-0.012|0.048|||ANCOVA|||"Pairwise Treatment Comparison of MF/F MDI with spacer and F DPI.~Analysis was performed using an ANCOVA model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.048|-0.012|0.229
92285882|NCT02924883|184476815|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.6099||95.0|0.52|3.03|||Log Rank|Stratified Cox proportional hazards model was stratified by world region (Western Europe, U.S., Rest of World) and PD-L1 status (IC 0, IC 1/2/3).||||3.03|0.52|0.6099
92285883|NCT00102440|184476827|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of febuxostat 80 mg to allopurinol was declared if the value of the lower bound of the 97.5% confidence interval is \> -10%.|Difference in percentage|32.0||||||97.5|23.1|41.3||||||||41.3|23.1|
92285884|NCT00102440|184476827|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of febuxostat 120 mg to allopurinol was declared if the value of the lower bound of the 97.5% confidence interval is \> -10%.|Difference in percentage|41.0||||||97.5|31.5|49.5||||||||49.5|31.5|
92285885|NCT00102440|184476827|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparisons of each febuxostat dose to allopurinol were adjusted to control the overall 0.05 level of significance for superiority by using Hochberg's method for multiple comparisons.|Fisher Exact|||||||<0.001
92285886|NCT00102440|184476827|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparisons of each febuxostat dose to allopurinol were adjusted to control the overall 0.05 level of significance for superiority by using Hochberg's method for multiple comparisons.|Fisher Exact|||||||<0.001
92285887|NCT00102440|184476827|SUPERIORITY_OR_OTHER|||||||0.072||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.072
92285888|NCT00102440|184476828|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
92285889|NCT00102440|184476828|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
92285890|NCT00102440|184476828|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.031
92181889|NCT04941482|184262413|SUPERIORITY||Mean Difference (Net)|-2.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.05|TWO_SIDED|95.0|-5.4|1.3||The threshold for statistical significance was p = 0.05.|t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Mini-Mental State Examinationscore before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|1.3|-5.4|<0.05
92285891|NCT00102440|184476829|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
92285892|NCT00102440|184476829|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
92285893|NCT00102440|184476829|SUPERIORITY_OR_OTHER|||||||0.883||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.883
92285894|NCT00102440|184476830|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
92285895|NCT00102440|184476830|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
92285896|NCT00102440|184476830|SUPERIORITY_OR_OTHER|||||||0.164||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.164
92285897|NCT00102440|184476831|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
92285898|NCT00102440|184476831|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
92285899|NCT00102440|184476831|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
92285900|NCT00102440|184476832|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
92285901|NCT00102440|184476832|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
92285902|NCT00102440|184476832|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||0.006
92285903|NCT00102440|184476833|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
92285904|NCT00102440|184476833|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
92285905|NCT00102440|184476833|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
92181890|NCT04941482|184262414|SUPERIORITY|Over 6 months, the number of patients who losted to follow-up of intervention and control group were respectively 9:0 (after 1 month), 9:0 (after 3 months), and 9:3 (after 6 months).|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|7.4|<|0.05|TWO_SIDED|95.0|-14.5|14.7|||t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Barthel Index score before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|14.7|-14.5|<0.05
92181891|NCT04941482|184262415|SUPERIORITY||Mean Difference (Net)|-7.6|STANDARD_ERROR_OF_MEAN|5.6|<|0.05|TWO_SIDED|95.0|-18.8|3.7||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Physical domain score of Stroke Impact Scale before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|3.7|-18.8|<0.05
92181892|NCT04941482|184262416|SUPERIORITY||Mean Difference (Net)|-7.8|STANDARD_ERROR_OF_MEAN|-3.7|<|0.05|TWO_SIDED|95.0|-15.2|-0.3||The threshold for statistical significance was p = 0.05.|t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Stroke Impact Scale score before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|-0.3|-15.2|<0.05
92181893|NCT04200664|184262424|OTHER|Kendall tau b correlation analysis test was performed between the number of cognitive domains affected and the both ears 3-frequency pure tone average (at 0.5/1/2kHz) or both ears 4-frequency pure tone average (at 0.5/1/2/4kHz).|Kendall Tau-b|0.462||||0.176|TWO_SIDED||||||Kendall tau-b|Kendall tau b non-parametric correlation analysis was performed.||||||0.176
92181894|NCT00291694|184262426|SUPERIORITY_OR_OTHER|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||0.71
92181895|NCT00291694|184262427|SUPERIORITY_OR_OTHER|||||||0.053||||||Not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||Difference between groups, two-sided. Endpoint not specifically powered for effect.||||0.053
92181896|NCT00291694|184262428|SUPERIORITY_OR_OTHER|||||||0.37||||||Not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.37
92181897|NCT00291694|184262429|SUPERIORITY_OR_OTHER|||||||0.39||||||Not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.39
92181898|NCT00291694|184262430|SUPERIORITY_OR_OTHER|||||||0.37||||||Not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.37
92181899|NCT03102034|184262472|OTHER||% vaccine recipients with solicited AEs|76.0|||||TWO_SIDED|90.0|56.0|90.0|||||Confidence intervals were Exact Clopper-Pearson.|||90|56|
92181900|NCT03102034|184262472|OTHER||% placebo recipients with solicited AEs|18.0|||||TWO_SIDED|90.0|3.0|47.0|||||Confidence intervals were Exact Clopper-Pearson.|||47|3|
92181901|NCT03102034|184262473|OTHER||% vaccinees with unsolicited AEs|24.0|||||TWO_SIDED|90.0|10.0|44.0|||||Confidence intervals were Exact Clopper-Pearson.|||44|10|
92181902|NCT03102034|184262473|OTHER||% placebo with unsolicited AEs|9.0|||||TWO_SIDED|90.0|0.0|36.0|||||Confidence intervals were Exact Clopper-Pearson.|||36|0|
92181903|NCT03102034|184262478|SUPERIORITY||||||<|0.001||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.001
92181904|NCT03102034|184262479|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance is 0.05.|Log Rank|||||||<0.001
92181905|NCT00989196|184262510|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For the comparison of the PK profile of Human-cl rhFVIII with Kogenate, the 90% confidence intervals for the ratio or log-ratio of Human-cl rhFVIII over Kogenate for selected, dose independent or dose adjusted, PK parameters will be presented. In addition a formal statistical procedure will test whether the ratio of mean AUCs is within a 80 to 125% range to show bioequivalence.|Ratio|0.98|||||TWO_SIDED|90.0|0.874|1.107||||||||1.107|0.874|
92263591|NCT01258803|184428252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.004||||0.79|TWO_SIDED|95.0|-0.033|0.025|||ANCOVA|||"Pairwise Treatment Comparison of MF/F MDI without spacer and F DPI.~Analysis was performed using an ANCOVA model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.025|-0.033|0.790
92263592|NCT01258803|184428253|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.106|||<|0.001|TWO_SIDED|95.0|0.077|0.135|||ANCOVA|||"Pairwise Treatment Comparison of F DPI and Placebo MDI combined with or without spacer.~Analysis was performed using an ANCOVA model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.135|0.077|<0.001
92263593|NCT01632345|184428282|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|6.7|||||TWO_SIDED|95.0|-9.0|22.4|||||A negative value would be considered as favoring doravirine over efavirenz.|||22.4|-9.0|
92263594|NCT01632345|184428282|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|9.7|||||TWO_SIDED|95.0|-4.6|24.9|||||A negative value would be considered as favoring doravirine over efavirenz.|||24.9|-4.6|
92263595|NCT01632345|184428282|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-11.9|||||TWO_SIDED|95.0|-27.9|6.3|||||A negative value would be considered as favoring doravirine over efavirenz.|||6.3|-27.9|
92263596|NCT01632345|184428282|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|2.0|||||TWO_SIDED|95.0|-14.5|18.4|||||A negative value would be considered as favoring doravirine over efavirenz.|||18.4|-14.5|
92263597|NCT01632345|184428283|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-2.3|||||TWO_SIDED|95.0|-13.7|8.8|||||A negative value would be considered as favoring doravirine over efavirenz.|||8.8|-13.7|
92263598|NCT01632345|184428283|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|2.2|||||TWO_SIDED|95.0|-9.9|14.7|||||A negative value would be considered as favoring doravirine over efavirenz.|||14.7|-9.9|
92263599|NCT01632345|184428283|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-2.4|||||TWO_SIDED|95.0|-13.8|8.2|||||A negative value would be considered as favoring doravirine over efavirenz.|||8.2|-13.8|
92263600|NCT01632345|184428283|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-4.8|||||TWO_SIDED|95.0|-15.9|4.1|||||A negative value would be considered as favoring doravirine over efavirenz.|||4.1|-15.9|
92263601|NCT01632345|184428284|SUPERIORITY_OR_OTHER||Difference|-10.2|||||TWO_SIDED|95.0|-20.9|0.5|||||A negative value would be considered as favoring doravirine over efavirenz.|||0.5|-20.9|
92263602|NCT01632345|184428285|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-20.4||||0.002|TWO_SIDED|95.0|-32.4|-7.8||Superiority analysis|Miettinen and Nurminen method||A negative value would be considered as favoring doravirine over efavirenz.|||-7.8|-32.4|0.002
92263603|NCT01632345|184428286|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-20.4||||0.002|TWO_SIDED|95.0|-32.6|-7.5||Superiority analysis|Miettinen and Nurminen method||A negative value would be considered as favoring doravirine over efavirenz.|||-7.5|-32.6|0.002
92263604|NCT01632345|184428287|SUPERIORITY_OR_OTHER||Difference in % response|15.7|||||TWO_SIDED|95.0|-4.1|34.4|||||A positive value would be considered as favoring doravirine over efavirenz.|||34.4|-4.1|
92263605|NCT01632345|184428287|SUPERIORITY_OR_OTHER||Difference in % response|10.0|||||TWO_SIDED|95.0|-9.6|29.1|||||A positive value would be considered as favoring doravirine over efavirenz.|||29.1|-9.6|
92263606|NCT01632345|184428287|SUPERIORITY_OR_OTHER||Difference in % response|6.6|||||TWO_SIDED|95.0|-13.2|26.0|||||A positive value would be considered as favoring doravirine over efavirenz.|||26.0|-13.2|
92263607|NCT01632345|184428287|SUPERIORITY_OR_OTHER||Difference in % response|15.9|||||TWO_SIDED|95.0|-3.4|34.4|||||A positive value would be considered as favoring doravirine over efavirenz.|||34.4|-3.4|
92263608|NCT01632345|184428288|SUPERIORITY_OR_OTHER||Difference in % response|-0.5|||||TWO_SIDED|95.0|-13.2|11.2|||||A positive value would be considered as favoring doravirine over efavirenz.|||11.2|-13.2|
92263609|NCT01632345|184428289|SUPERIORITY_OR_OTHER||Difference in % response|-1.9|||||TWO_SIDED|95.0|-12.9|9.2|||||A positive value would be considered as favoring doravirine over efavirenz.|||9.2|-12.9|
92263610|NCT01632345|184428290|SUPERIORITY_OR_OTHER||Difference in % response|-0.8|||||TWO_SIDED|95.0|-12.4|10.7|||||A positive value would be considered as favoring doravirine over efavirenz.|||10.7|-12.4|
92263611|NCT01632345|184428291|SUPERIORITY_OR_OTHER||Difference in % response|4.5|||||TWO_SIDED|95.0|-12.5|21.5|||||A positive value would be considered as favoring doravirine over efavirenz.|||21.5|-12.5|
92263612|NCT01632345|184428291|SUPERIORITY_OR_OTHER||Difference in % response|2.8|||||TWO_SIDED|95.0|-13.9|19.8|||||A positive value would be considered as favoring doravirine over efavirenz.|||19.8|-13.9|
92263613|NCT01632345|184428291|SUPERIORITY_OR_OTHER||Difference in % response|12.2|||||TWO_SIDED|95.0|-2.5|28.0|||||A positive value would be considered as favoring doravirine over efavirenz.|||28.0|-2.5|
92263614|NCT01632345|184428291|SUPERIORITY_OR_OTHER||Difference in % response|9.5|||||TWO_SIDED|95.0|-6.2|25.7|||||A positive value would be considered as favoring doravirine over efavirenz.|||25.7|-6.2|
92263615|NCT01632345|184428292|SUPERIORITY_OR_OTHER||Difference in % response|2.7||||||95.0|-6.1|11.7|||||A positive value would be considered as favoring doravirine over efavirenz.|||11.7|-6.1|
92263616|NCT01632345|184428293|SUPERIORITY_OR_OTHER||Difference in % response|0.1|||||TWO_SIDED|95.0|-9.7|9.9|||||A positive value would be considered as favoring doravirine over efavirenz.|||9.9|-9.7|
92263617|NCT01632345|184428294|SUPERIORITY_OR_OTHER||Difference in % response|3.9|||||TWO_SIDED|95.0|-7.3|15.0|||||A positive value would be considered as favoring doravirine over efavirenz.|||15.0|-7.3|
92263618|NCT01632345|184428295|SUPERIORITY_OR_OTHER||Difference in CD4 change|33.0|||||TWO_SIDED|95.0|-28.1|94.0|||||A positive value would be considered as favoring doravirine over efavirenz.|||94.0|-28.1|
92263619|NCT01632345|184428295|SUPERIORITY_OR_OTHER||Difference in CD4 change|-8.3|||||TWO_SIDED|95.0|-68.5|51.9|||||A positive value would be considered as favoring doravirine over efavirenz.|||51.9|-68.5|
92263620|NCT01632345|184428295|SUPERIORITY_OR_OTHER||Difference in CD4 change|12.5|||||TWO_SIDED|95.0|-44.6|69.5|||||A positive value would be considered as favoring doravirine over efavirenz.|||69.5|-44.6|
92263621|NCT01632345|184428295|SUPERIORITY_OR_OTHER||Difference in CD4 change|19.6|||||TWO_SIDED|95.0|-45.1|84.2|||||A positive value would be considered as favoring doravirine over efavirenz.|||84.2|-45.1|
92263622|NCT01632345|184428296|SUPERIORITY_OR_OTHER||Difference in CD4 change|6.3|||||TWO_SIDED|95.0|-38.2|50.8|||||A positive value would be considered as favoring doravirine over efavirenz.|||50.8|-38.2|
92263623|NCT01632345|184428297|SUPERIORITY_OR_OTHER||Difference in CD4 change|-2.6|||||TWO_SIDED|95.0|-46.5|41.3|||||A positive value would be considered as favoring doravirine over efavirenz.|||41.3|-46.5|
92263624|NCT01632345|184428298|SUPERIORITY_OR_OTHER||Difference in CD4 change|-4.4|||||TWO_SIDED|95.0|-64.0|55.1|||||A positive value would be considered as favoring doravirine over efavirenz.|||55.1|-64.0|
92285906|NCT00102440|184476834|SUPERIORITY_OR_OTHER||||||>|0.999||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||>0.999
92285907|NCT00102440|184476834|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.011
92285908|NCT00102440|184476834|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.024
92285909|NCT00102440|184476835|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.083
92285910|NCT00102440|184476835|SUPERIORITY_OR_OTHER|||||||0.164||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.164
92285911|NCT00102440|184476835|SUPERIORITY_OR_OTHER|||||||0.619||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.619
92285912|NCT00102440|184476836|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.080
92285913|NCT00102440|184476836|SUPERIORITY_OR_OTHER|||||||0.372||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.372
92285914|NCT00102440|184476836|SUPERIORITY_OR_OTHER|||||||0.246||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.246
92285915|NCT00102440|184476837|SUPERIORITY_OR_OTHER|||||||0.674||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.674
92285916|NCT00102440|184476837|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.320
92285917|NCT00102440|184476837|SUPERIORITY_OR_OTHER|||||||0.411||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.411
92285918|NCT00102440|184476838|SUPERIORITY_OR_OTHER|||||||0.507||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.507
92285919|NCT00102440|184476838|SUPERIORITY_OR_OTHER|||||||0.188||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.188
92285920|NCT00102440|184476838|SUPERIORITY_OR_OTHER|||||||0.362||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.362
92182881|NCT02434328|184264728|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-7.6|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.8|-7.6|
92181906|NCT05251363|184262526|SUPERIORITY||||||<|0.0001|||||||Exact binomial test|||Ho: SADE-free rate ≤ 87.5% Ha: SADE-free rate \> 87.5% Used an exact binomial test comparing the observed proportion (overall SADE-free rate through 3 months) to the performance goal of 87.5%. The lower, two-sided 95% confidence bound for the overall SADE-free rate must be greater than 87.5% to reject the null hypothesis (Ho), which would demonstrate evidence that the SADE-free rate is significantly higher than 87.5%.||||<0.0001
92263625|NCT01632345|184428299|SUPERIORITY_OR_OTHER||Difference|-2.8|||||TWO_SIDED|95.0|-11.7|6.0|||||A negative value would be considered as favoring doravirine over efavirenz.|||6.0|-11.7|
92263626|NCT01632345|184428300|SUPERIORITY_OR_OTHER||Difference|-6.5|||||TWO_SIDED|95.0|-14.1|0.3|||||A negative value would be considered as favoring doravirine over efavirenz.|||0.3|-14.1|
92263627|NCT00089505|184428306|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.69|||<|0.001|TWO_SIDED|95.0|1.79|7.61||P-value was not adjusted for multiple interim analyses, but any adjustment would be negligible because Peto-Haybittle spending function was used as a basis for calculating the repeated confidence intervals used in interim monitoring.|Regression, Cox|The model was stratified by screening CD4 strata (\<50 vs. \>=50 cells/mm\^3).|The HR is for NVP/NVP vs. NVP/LPV\_r.|||7.61|1.79|<0.001
92263628|NCT00089505|184428307|NON_INFERIORITY_OR_EQUIVALENCE|NoNVP/NVP regimen will be considered equivalent to the NoNVP/LPV\_r regimen if the two-sided 95% confidence interval for the hazard ratio for virologi falure is entirely below 2.0; equivalence will be established if the same confidence interval is entirely within the range 0.5 to 2.0.|Hazard Ratio (HR)|0.85||||0.43|TWO_SIDED|95.0|0.56|1.29||P-value is for a test of superiority and was not adjusted for interim analyses, but any adjustment would be negligible because Peto-Haybittle spending function was used as a basis for calculating the repeated confidence intervals used.|Regression, Cox|The cox proportional hazard model was stratified by screening CD4 strata (\<50 vs. \>=50 cells/mm3).|The HR is for NoNVP/NVP vs. NoNVP/LPV\_r.|||1.29|0.56|0.43
92263629|NCT02543918|184428320|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of the ixekizumab arm to the control arm for the tetanus vaccine was established if the lower limit of the 90% CI excludes an absolute difference of 40% or more.|Mean Difference (Final Values)|1.4|||||TWO_SIDED|90.0|-16.6|19.2||||||Tetanus vaccine responders||19.2|-16.6|
92263630|NCT02543918|184428320|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of the ixekizumab arm to the control arm for the pneumococcal vaccine was established if the lower limit of the 90% CI excludes an absolute difference of 40% or more.|Mean Difference (Final Values)|-0.8|||||TWO_SIDED|90.0|-12.9|11.0||||||Pneumococcal vaccine responders||11.0|-12.9|
92263631|NCT03503617|184428321|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92263632|NCT05489146|184428329|SUPERIORITY|||||||0.046|||||||Mixed Models Analysis|||||||0.046
92263633|NCT05489146|184428330|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|||||||0.003
92263634|NCT05489146|184428331|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92263635|NCT05489146|184428332|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92263636|NCT05489146|184428333|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92263637|NCT05489146|184428334|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92263638|NCT05489146|184428335|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92263639|NCT05489146|184428336|SUPERIORITY|||||||0.035|||||||Mixed Models Analysis|||||||0.035
92263640|NCT05047601|184428358|SUPERIORITY||Risk Ratio (RR)|0.702||||0.1722|TWO_SIDED|95.0|0.422|1.167|||Generalized estimating equation (GEE)|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.167|0.422|0.1722
92263641|NCT05047601|184428358|SUPERIORITY||Risk Ratio (RR)|0.645||||0.1163|TWO_SIDED|95.0|0.373|1.115|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.115|0.373|0.1163
92263642|NCT05047601|184428360|SUPERIORITY||Risk Ratio (RR)|0.88||||0.6766|TWO_SIDED|95.0|0.484|1.602|||GEE|Model included the fixed effects of treatment, geographic regions. Compound symmetry variance-covariance structure.||||1.602|0.484|0.6766
92263643|NCT05047601|184428360|SUPERIORITY||Risk Ratio (RR)|0.809||||0.507|TWO_SIDED|95.0|0.433|1.512|||GEE|Model included the fixed effects of treatment, geographic regions. Compound symmetry variance-covariance structure.||||1.512|0.433|0.5070
92263644|NCT05047601|184428362|SUPERIORITY||Risk Ratio (RR)|0.672||||0.1869|TWO_SIDED|95.0|0.373|1.213|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.213|0.373|0.1869
92263645|NCT05047601|184428362|SUPERIORITY||Risk Ratio (RR)|0.633||||0.1221|TWO_SIDED|95.0|0.355|1.13|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.130|0.355|0.1221
92263646|NCT05047601|184428363|SUPERIORITY|||||||0.0368|||||||Log Rank|||||||0.0368
92263647|NCT05047601|184428363|SUPERIORITY|||||||0.0186|||||||Log Rank|||||||0.0186
92263648|NCT05047601|184428364|SUPERIORITY||Risk Ratio (RR)|0.75||||0.4126|TWO_SIDED|95.0|0.378|1.491|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.491|0.378|0.4126
92285921|NCT00102440|184476839|SUPERIORITY_OR_OTHER|||||||0.657||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.657
92285922|NCT00102440|184476839|SUPERIORITY_OR_OTHER|||||||0.444||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.444
92285923|NCT00102440|184476839|SUPERIORITY_OR_OTHER|||||||0.719||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.719
92285924|NCT00102440|184476840|SUPERIORITY_OR_OTHER||||||>|0.999||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||>0.999
92285925|NCT00102440|184476840|SUPERIORITY_OR_OTHER|||||||0.229||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.229
92285926|NCT00102440|184476840|SUPERIORITY_OR_OTHER|||||||0.266||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.266
92285927|NCT04627038|184476841|SUPERIORITY||Posterior Mean Difference|0.09|||||TWO_SIDED|95.0|-0.51|0.67|||||Posterior mean difference with 95% credible interval is reported.|||0.67|-0.51|
92285928|NCT04627038|184476842|SUPERIORITY||Posterior Mean Difference|0.95|||||TWO_SIDED|95.0|-0.07|1.96|||||Posterior mean difference with 95% credible interval is reported.|||1.96|-0.07|
92285929|NCT04627038|184476843|SUPERIORITY||Posterior Mean Difference|0.24|||||TWO_SIDED|95.0|-0.24|0.72|||||Posterior mean difference with 95% credible interval is reported.|||0.72|-0.24|
92285930|NCT04627038|184476844|SUPERIORITY||Posterior Mean Difference|3.84|||||TWO_SIDED|95.0|0.39|7.2|||||Posterior mean difference with 95% credible interval is reported.|||7.20|0.39|
92285931|NCT04627038|184476845|SUPERIORITY||Posterior Mean Difference|-0.1|||||TWO_SIDED|95.0|-0.48|0.28|||||Posterior mean difference with 95% credible interval is reported.|||0.28|-0.48|
92285932|NCT04627038|184476846|SUPERIORITY||Posterior Mean Difference|0.31|||||TWO_SIDED|95.0|-0.32|0.95|||||Posterior mean difference with 95% credible interval is reported.|||0.95|-0.32|
92285933|NCT04627038|184476847|SUPERIORITY||Posterior Mean Difference|6.24|||||TWO_SIDED|95.0|-1.05|13.56|||||Posterior mean difference with 95% credible interval is reported.|||13.56|-1.05|
92285934|NCT04627038|184476848|SUPERIORITY||Posterior Mean Difference|0.16|||||TWO_SIDED|95.0|-0.14|0.46|||||Posterior mean difference with 95% credible interval is reported.|||0.46|-0.14|
92285935|NCT04627038|184476849|SUPERIORITY||Posterior Mean Difference|-0.82|||||TWO_SIDED|95.0|-166.74|165.52|||||Posterior mean difference with 95% credible interval is reported.|||165.52|-166.74|
92285936|NCT04627038|184476850|SUPERIORITY||Posterior Mean Difference|-0.02|||||TWO_SIDED|95.0|-0.09|0.06|||||Posterior mean difference with 95% credible interval is reported.|||0.06|-0.09|
92285937|NCT00473330|184476901|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|24.3|||<|0.0001|TWO_SIDED|95.0|13.8|34.8||An adjustment was made for multiple treatment comparisons of the ranibizumab dose groups with the control group.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||34.8|13.8|<0.0001
92285938|NCT00473330|184476901|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|20.9||||0.0002|TWO_SIDED|95.0|10.7|31.1||An adjustment was made for multiple treatment comparisons of the ranibizumab dose groups with the control group.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||31.1|10.7|0.0002
92285939|NCT00473330|184476902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.6|||<|0.0001|TWO_SIDED|95.0|6.1|13.0||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||13.0|6.1|<0.0001
92285940|NCT00473330|184476902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4|||<|0.0001|TWO_SIDED|95.0|6.2|12.6||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||12.6|6.2|<0.0001
92287143|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.027||||0.352|TWO_SIDED|95.0|-0.03|0.084|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.084|-0.030|0.352
92285941|NCT00473330|184476903|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|24.4|||<|0.0001|TWO_SIDED|95.0|13.4|35.4||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||35.4|13.4|<0.0001
92285942|NCT00473330|184476903|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|25.1|||<|0.0001|TWO_SIDED|95.0|14.0|36.3||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||36.3|14.0|<0.0001
92285943|NCT00473330|184476904|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|8.2||||0.0086|TWO_SIDED|95.0|2.4|14.1||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||14.1|2.4|0.0086
92285944|NCT00473330|184476904|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|7.8||||0.0126|TWO_SIDED|95.0|2.0|13.6||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||13.6|2.0|0.0126
92285945|NCT00473330|184476905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7||||0.0005|TWO_SIDED|95.0|4.3|15.1||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||15.1|4.3|0.0005
92287144|NCT03086460|184479322|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.098|TWO_SIDED|95.0|-0.009|0.103|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.103|-0.009|0.098
92263649|NCT05047601|184428364|SUPERIORITY||Risk Ratio (RR)|1.244||||0.4273|TWO_SIDED|95.0|0.725|2.135|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||2.135|0.725|0.4273
92263650|NCT05047601|184428365|SUPERIORITY||Risk Ratio (RR)|0.726||||0.1333|TWO_SIDED|95.0|0.478|1.103|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.103|0.478|0.1333
92263651|NCT05047601|184428365|SUPERIORITY||Risk Ratio (RR)|0.953||||0.8088|TWO_SIDED|95.0|0.645|1.408|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.408|0.645|0.8088
92263652|NCT05047601|184428373|SUPERIORITY||LS Mean Ratio|0.969||||0.7991|TWO_SIDED|95.0|0.758|1.238|||Negative binomial regression model|||||1.238|0.758|0.7991
92263653|NCT05047601|184428373|SUPERIORITY||LS Mean Ratio|0.847||||0.1985|TWO_SIDED|95.0|0.657|1.091|||Negative binomial regression model|||||1.091|0.657|0.1985
92263654|NCT02347124|184428390|SUPERIORITY||Odds Ratio (OR)|1.29||||0.13|TWO_SIDED|95.0|0.93|1.78||Adjusted for baseline sex, age, cigarettes per day, depression history, motivation, self-efficacy, current use of a stop-smoking medication, state quitline, and dental insurance.|Regression, Logistic|||||1.78|0.93|0.13
92263655|NCT02347124|184428391|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9|TWO_SIDED|95.0|0.69|1.53||Adjusted for baseline sex, age, depression history, motivation, self-efficacy, state quitline, and dental insurance.|Regression, Logistic|||||1.53|0.69|0.90
92263656|NCT02347124|184428392|SUPERIORITY||Odds Ratio (OR)|1.22||||0.21|TWO_SIDED|95.0|0.89|1.69||Model is adjusted for sex, age, cigarettes per day at baseline, depression, self-efficacy, motivation, self-reported use of a stop smoking medication at baseline, and stratification variables state quit line and dental insurance.|Regression, Logistic|||||1.69|0.89|0.21
92263657|NCT02347124|184428393|SUPERIORITY||Odds Ratio (OR)|1.42||||0.04|TWO_SIDED|95.0|1.01|2.0||Model is adjusted for sex, age, cigarettes per day at baseline, depression, self-efficacy, motivation, self-reported use of a stop smoking medication at baseline, and stratification variables state quit line and dental insurance.|Regression, Logistic|||||2.00|1.01|0.04
92263658|NCT02347124|184428394|SUPERIORITY||Odds Ratio (OR)|1.37||||0.09|TWO_SIDED|95.0|0.95|1.96||Model is adjusted for sex, age, cigarettes per day at baseline, depression, self-efficacy, motivation, self-reported use of a stop smoking medication at baseline, and stratification variables state quit line and dental insurance.|Regression, Logistic|||||1.96|0.95|0.09
92263659|NCT02347124|184428395|SUPERIORITY||Odds Ratio (OR)|-0.05||||0.85|TWO_SIDED|95.0|-0.57|0.47|||Regression, Linear|Adjusted for sex, age, state quit line, and baseline knowledge score.||||0.47|-0.57|0.85
92263660|NCT02347124|184428396|SUPERIORITY||Odds Ratio (OR)|0.41||||0.14|TWO_SIDED|95.0|-0.14|0.96|||Regression, Linear|Adjusted for sex, age, state quit line, and baseline knowledge score.||||0.96|-0.14|0.14
92263661|NCT02347124|184428397|SUPERIORITY||Odds Ratio (OR)|0.35||||0.002|TWO_SIDED|95.0|0.13|0.56|||Regression, Linear|Adjusted for sex, age, state quit line, and baseline self-efficacy score.||||0.56|0.13|.002
92263662|NCT02347124|184428398|SUPERIORITY||Odds Ratio (OR)|0.0||||0.97|TWO_SIDED|95.0|-0.22|0.23||Adjusted for sex, age, state quit line, and baseline self-efficacy score.|Regression, Linear|||||0.23|-0.22|0.97
92263663|NCT02347124|184428399|SUPERIORITY||Odds Ratio (OR)|-0.1||||0.16|TWO_SIDED|95.0|-0.24|0.04|||Regression, Linear|Adjusted for sex, age, state quit line, use of stop-smoking medications, baseline motivation, and baseline cigarettes per day.||||0.04|-0.24|0.16
92263664|NCT02347124|184428400|SUPERIORITY||Odds Ratio (OR)|-0.02||||0.83|TWO_SIDED|95.0|-0.16|0.13|||Regression, Linear|Adjusted for sex, age, state quit line, use of a smoking cessation medication at baseline, baseline motivation score, and baseline cigarettes per day.||||0.13|-0.16|0.83
92263665|NCT02347124|184428401|SUPERIORITY||Odds Ratio (OR)|0.22||||0.02|TWO_SIDED|95.0|0.04|0.41|||Regression, Linear|adjusted for sex, age, state quit line, and baseline motivation score.||||0.41|0.04|0.02
92263666|NCT02347124|184428402|SUPERIORITY||Odds Ratio (OR)|0.02||||0.82|TWO_SIDED|95.0|-0.17|0.21|||Regression, Linear|||||0.21|-0.17|0.82
92263667|NCT02347124|184428403|SUPERIORITY||Odds Ratio (OR)|-0.02||||0.8|TWO_SIDED|95.0|-0.2|0.16|||Regression, Linear|Adjusted for sex, age, state quit line, baseline self-efficacy score, baseline cigarettes per day, and baseline use of stop smoking medications.||||0.16|-0.20|0.80
92263668|NCT02347124|184428404|SUPERIORITY||Odds Ratio (OR)|0.07||||0.45|TWO_SIDED|95.0|-0.11|0.26|||Regression, Linear|Adjusted for sex, age, state quit line, baseline self-efficacy score, baseline cigarettes per day, and baseline use of stop smoking medication.||||0.26|-0.11|0.45
92263669|NCT02924129|184428405|NON_INFERIORITY|non-inferiority margin (δ) of 10%|||||<|0.001||||||Significance threshold (α) of 0.05|normal approximation to the binomial|||||||<0.001
92263670|NCT02924129|184428406|NON_INFERIORITY|non-inferiority margin (δ) of 10%|Mean Difference (Final Values)|9.0|||<|0.001|TWO_SIDED|95.0|-2.4|20.4||significance threshold (α) of 0.05|t-test, 2 sided|||||20.4|-2.4|<0.001
92263671|NCT02924129|184428407|NON_INFERIORITY|non-inferiority margin (δ) of 10%|Mean Difference (Final Values)|14.6|||<|0.001|TWO_SIDED|95.0|2.9|26.3||significance threshold (α) of 0.05|t-test, 2 sided|||||26.3|2.9|<0.001
92263672|NCT02924129|184428408|NON_INFERIORITY|non-inferiority margin (δ) of 10%||||||0.002||||||significance threshold (α) of 0.05|normal approximation to the binomial|||||||0.002
92263673|NCT02924129|184428409|NON_INFERIORITY|non-inferiority margin (δ) of 10%|||||<|0.001||||||significance threshold (α) of 0.05|normal approximation to the binomial|||||||<0.001
92263674|NCT02924129|184428410|NON_INFERIORITY|non-inferiority margin (δ) of 10%|||||<|0.001||||||significance threshold (α) of 0.05|normal approximation to the binomial|||||||<0.001
92263675|NCT02924129|184428411|NON_INFERIORITY|non-inferiority margin (δ) of 10%|Mean Difference (Final Values)|10.7|||<|0.001|TWO_SIDED|95.0|-1.8|23.3||significance threshold (α) of 0.05|t-test, 2 sided|||||23.3|-1.8|<0.001
92263676|NCT02924129|184428412|NON_INFERIORITY|non-inferiority margin (δ) of 10%|Mean Difference (Final Values)|15.4|||<|0.001|TWO_SIDED|95.0|2.5|28.3||significance threshold (α) of 0.05|t-test, 2 sided|||||28.3|2.5|<0.001
92263677|NCT02924129|184428413|NON_INFERIORITY|non-inferiority margin (δ) of 10%|||||<|0.001|||||||normal approximation to the binomial|||||||<0.001
92263678|NCT02924129|184428414|NON_INFERIORITY|non-inferiority margin (δ) of 10%|||||<|0.001||||||significance threshold (α) of 0.05|normal approximation to the binomial|||||||<0.001
92263679|NCT02780869|184428429|NON_INFERIORITY|The primary endpoint was designed to establish comparable efficacy based upon a non-inferiority margin of 10% for the difference in the probability of TTH within 6 minutes comparing HEMOBLAST™ to G+T (HEMOBLAST™- G+T). Letting θ denote the true difference in the probability of hemostasis at 6 minutes between HEMOBLAST™ to G+T, the trial will test the null hypothesis H0: θ ≤ -0.10 vs. the alternative hypothesis HA : θ \> -0.10 using a one-sided level 0.025 test.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified adjustments for surgery type were made using the Cochran-Mantel-Haenszel weighting.||||||<0.0001
92263680|NCT02780869|184428429|SUPERIORITY|||||||0.0001||||||Adjustment for mulitple comparisons were made when assessing secondary endpoints using a fixed sequence closed testing procedure to control the family-wise type I error rate at 0.05|Cochran-Mantel-Haenszel|||A secondary endpoint of superiority of HEMOBLAST relative to G+T for success at achieving hemostasis within 6 minutes was evaluated.||||0.0001
92263681|NCT02780869|184428430|SUPERIORITY||||||<|0.0001||||||Adjustment for mulitple comparisons were made when assessing secondary endpoints using a fixed sequence closed testing procedure to control the family-wise type I error rate at 0.05|Regression, Linear|||The difference in mean preparation time was tested using a linear regression model with stratified adjustment for surgery type.||||<0.0001
92287145|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.181|||<|0.001|TWO_SIDED|95.0|0.122|0.241|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.241|0.122|<0.001
92285946|NCT00473330|184476905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.2||||0.0011|TWO_SIDED|95.0|3.3|13.0||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||13.0|3.3|0.0011
92263682|NCT02780869|184428431|NON_INFERIORITY|The difference in the probability of hemostasis within 3 minutes was tested using a logistic regression model with stratified adjustment for surgery type.|||||<|0.0001||||||Adjustment for multiple comparisons when assessing secondary endpoints was performed using a fixed sequence closed testing procedure to control the family-wise type I error rate at 0.05.|Regression, Logistic|||||||<0.0001
92263683|NCT02780869|184428431|SUPERIORITY|The difference in the probability of hemostasis within 3 minutes was tested using a logistic regression model with stratified adjustment for surgery type.||||||0.0001||||||Adjustment for multiple comparisons when assessing secondary endpoints was performed using a fixed sequence closed testing procedure to control the family-wise type I error rate at 0.05.|Regression, Logistic|||||||0.0001
92263684|NCT03137173|184428445|NON_INFERIORITY|Non-inferiority was assessed by the two-sided 95% confidence interval (CI) of the between-group difference (ceftobiprole minus vancomycin+aztreonam) using a 10% non-inferiority margin in the ITT population. Difference was computed using the Cochran-Mantel-Haenszel (CMH) weights method, adjusted for geographical region and actual type of ABSSSI.|Risk Difference (RD)|3.3|||||TWO_SIDED|95.0|-1.2|7.8||||||||7.8|-1.2|
92263685|NCT03137173|184428446|NON_INFERIORITY|Non-inferiority was assessed by the two-sided 95% CI of the between-group difference (ceftobiprole minus vancomycin+aztreonam) using a 10% non-inferiority margin in the ITT population. Difference was computed using the CMH weights method, adjusted for geographical region and actual type of ABSSSI.|Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-3.5|5.6||||||||5.6|-3.5|
92263686|NCT03137173|184428447|NON_INFERIORITY|Non-inferiority was assessed by the two-sided 95% CI of the between-group difference (ceftobiprole minus vancomycin plus aztreonam) using a 10% non-inferiority margin in the CE populations. Difference was computed using the CMH weights method, adjusted for geographical region and actual type of ABSSSI.|Risk Difference (RD)|2.7|||||TWO_SIDED|95.0|-0.3|5.6||||||||5.6|-0.3|
92263687|NCT01535638|184428448|SUPERIORITY_OR_OTHER||Ratio (%)|123.4|STANDARD_DEVIATION|17.1|||TWO_SIDED|90.0|108.0|141.1|||||The estimate of the relative bioavailability (%) is adjusted for the period effects in the ANOVA. The standard deviation is actually the gCV. CIs are based on the residual error from ANOVA, considering only the data from the 2 compared treatments.|Relative bioavailability comparison of Deleobuvir Trial Formulation II (reference) and Deleobuvir Final Formulation (test) in pairwise comparison. (reference : test)||141.1|108.0|
92285947|NCT00473330|184476906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-107.9|||<|0.0001|TWO_SIDED|95.0|-149.2|-66.6||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANCOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||-66.6|-149.2|<0.0001
92285948|NCT00473330|184476906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-119.1|||<|0.0001|TWO_SIDED|95.0|-159.6|-78.5||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANCOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||-78.5|-159.6|<0.0001
92285949|NCT00473330|184476907|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|-3.0||||0.159|TWO_SIDED|95.0|-6.7|0.7||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||0.7|-6.7|0.1590
92285950|NCT00473330|184476907|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|-2.5||||0.2721|TWO_SIDED|95.0|-6.5|1.4||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||1.4|-6.5|0.2721
92285951|NCT00473330|184476908|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|29.5|||<|0.0001|TWO_SIDED|95.0|21.1|38.0||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||38.0|21.1|<0.0001
92287146|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.192|||<|0.001|TWO_SIDED|95.0|0.133|0.251|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.251|0.133|<0.001
92287147|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.215|||<|0.001|TWO_SIDED|95.0|0.156|0.275|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.275|0.156|<0.001
92181907|NCT05251363|184262527|SUPERIORITY||||||<|0.0001|||||||Exact binomial test|||H0: Implant Success Rate ≤ 80% Ha: Implant Success Rate \> 80% Used an exact binomial test comparing the observed proportion (implant success rate) to the performance goal of 80%. The lower, two-sided 95% confidence bound for the overall implant success rate must be greater than 80% to reject the null hypothesis (Ho), which would demonstrate evidence that the rate of successful Solia S LBBA implants is significantly higher than 80.0%.||||< 0.0001
92181908|NCT05251363|184262528|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||H0: Improvement in QOL Physical Function Scale ≤ 2.8 Ha: Improvement in QOL Physical Function Scale \> 2.8 Exact one-sample t-test comparing mean improvement in QOL from baseline to 12-mo post-implant to a goal of +2.8. The lower, two-sided 95% confidence bound for the improvement in QOL must be \> +2.8 to reject H0.||||<0.001
92181909|NCT03070392|184262540|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.37|0.71|||Log Rank|||||0.71|0.37|<0.0001
92181910|NCT03070392|184262542|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0139|TWO_SIDED|95.0|0.58|0.94|||Log Rank|||||0.94|0.58|0.0139
92181911|NCT03861052|184262558|SUPERIORITY||Least Squares Mean Difference|-1.09|||<|0.001|TWO_SIDED|95.0|-1.27|-0.9|||Mixed Models Analysis|||||-0.90|-1.27|<0.001
92181912|NCT03861052|184262558|SUPERIORITY||Least Squares Mean Difference|-1.27|||<|0.001|TWO_SIDED|95.0|-1.45|-1.08|||Mixed Models Analysis|||||-1.08|-1.45|<0.001
92181913|NCT03861052|184262558|SUPERIORITY||Least Squares Mean Difference|-1.53|||<|0.001|TWO_SIDED|95.0|-1.71|-1.35|||Mixed Models Analysis|||||-1.35|-1.71|<0.001
92181914|NCT03861052|184262559|SUPERIORITY||Odds Ratio (OR)|9.89|||<|0.001|TWO_SIDED|95.0|4.53|21.55|||Regression, Logistic|||||21.55|4.53|<0.001
92181915|NCT03861052|184262559|SUPERIORITY||Odds Ratio (OR)|20.57|||<|0.001|TWO_SIDED|95.0|7.73|54.71|||Regression, Logistic|||||54.71|7.73|<0.001
92181916|NCT03861052|184262559|SUPERIORITY||Odds Ratio (OR)|85.31|||<|0.001|TWO_SIDED|95.0|15.8|460.58|||Regression, Logistic|||||460.58|15.80|<0.001
92263688|NCT01535638|184428448|SUPERIORITY_OR_OTHER||Ratio (%)|109.8|STANDARD_DEVIATION|28.8|||TWO_SIDED|90.0|88.6|136.1|||||The estimate of the relative bioavailability (%) is adjusted for the period effects in the ANOVA. The standard deviation is actually the gCV. CIs are based on the residual error from ANOVA, considering only the data from the 2 compared treatments.|relative bioavailability comparison of Deleobuvir Final Formulation modified (test) and Deleobuvir Final Formulation (reference) in pairwise comparison. (reference : test)||136.1|88.6|
92181917|NCT03861052|184262560|SUPERIORITY||Least Squares Mean Difference|-25.9|||<|0.001|TWO_SIDED|95.0|-30.7|-21.1|||Mixed Models Analysis|||||-21.1|-30.7|<0.001
92181918|NCT03861052|184262560|SUPERIORITY||Least Squares Mean Difference|-32.7|||<|0.001|TWO_SIDED|95.0|-37.5|-27.8|||Mixed Models Analysis|||||-27.8|-37.5|<0.001
92181919|NCT03861052|184262560|SUPERIORITY||Least Squares Mean Difference|-35.7|||<|0.001|TWO_SIDED|95.0|-40.6|30.9|||Mixed Models Analysis|||||30.9|-40.6|<0.001
92181920|NCT03861052|184262561|SUPERIORITY||Least Squares Mean Difference|-17.3|||<|0.001|TWO_SIDED|95.0|-21.4|-13.2|||ANCOVA|||||-13.2|-21.4|<0.001
92181921|NCT03861052|184262561|SUPERIORITY||Least Squares Mean Difference|-22.0|||<|0.001|TWO_SIDED|95.0|-26.1|-17.9|||ANCOVA|||||-17.9|-26.1|<0.001
92181922|NCT03861052|184262561|SUPERIORITY||Least Squares Mean Difference|-26.4|||<|0.001|TWO_SIDED|95.0|-30.5|-22.2|||ANCOVA|||||-22.2|-30.5|<0.001
92181923|NCT03861052|184262562|SUPERIORITY||Least Squares Mean Difference|-5.2|||<|0.001|TWO_SIDED|95.0|-6.4|-4.1|||Mixed Models Analysis|||||-4.1|-6.4|<0.001
92181924|NCT03861052|184262562|SUPERIORITY||Least Squares Mean Difference|-7.9|||<|0.001|TWO_SIDED|95.0|-9.1|-6.8|||Mixed Models Analysis|||||-6.8|-9.1|<0.001
92181925|NCT03861052|184262562|SUPERIORITY||Least Squares Mean Difference|-10.1|||<|0.001|TWO_SIDED|95.0|-11.3|-9.0|||Mixed Models Analysis|||||-9.0|-11.3|<0.001
92181926|NCT03861052|184262563|SUPERIORITY||Odds Ratio (OR)|14.44|||<|0.001|TWO_SIDED|95.0|7.88|26.46|||Regression, Logistic|||||26.46|7.88|<0.001
92181927|NCT03861052|184262563|SUPERIORITY||Odds Ratio (OR)|44.96|||<|0.001|TWO_SIDED|95.0|23.12|87.45|||Regression, Logistic|||||87.45|23.12|<0.001
92181928|NCT03861052|184262563|SUPERIORITY||Odds Ratio (OR)|82.67|||<|0.001|TWO_SIDED|95.0|39.84|171.52|||Regression, Logistic|||||171.52|39.84|<0.001
92181929|NCT03861052|184262564|SUPERIORITY||Least Squares Mean Difference|-2.47|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|-3.67|-1.28|||Mixed Models Analysis|||||-1.28|-3.67|<0.001
92181930|NCT03861052|184262564|SUPERIORITY||Least Squares Mean Difference|-3.27|STANDARD_ERROR_OF_MEAN|0.592|<|0.001|TWO_SIDED|95.0|-4.43|-2.11|||Mixed Models Analysis|||||-2.11|-4.43|<0.001
92181931|NCT03861052|184262564|SUPERIORITY||Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.587|<|0.001|TWO_SIDED|95.0|-4.55|-2.25|||Mixed Models Analysis|||||-2.25|-4.55|<0.001
92181932|NCT03861052|184262565|SUPERIORITY||Least Squares Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.069|<|0.001|TWO_SIDED|95.0|-0.4|-0.13|||Mixed Models Analysis|||||-0.13|-0.40|<0.001
92181933|NCT03861052|184262565|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.067|<|0.001|TWO_SIDED|95.0|-0.53|-0.27|||Mixed Models Analysis|||||-0.27|-0.53|<0.001
92181934|NCT03861052|184262565|SUPERIORITY||Least Squares Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.067|<|0.001|TWO_SIDED|95.0|-0.51|-0.25|||Mixed Models Analysis|||||-0.25|-0.51|<0.001
92181935|NCT03861052|184262566|SUPERIORITY||Least Squares Mean Difference|16.1|STANDARD_ERROR_OF_MEAN|2.72|<|0.001|TWO_SIDED|95.0|10.7|21.4|||Mixed Models Analysis|||||21.4|10.7|<0.001
92181936|NCT03861052|184262566|SUPERIORITY||Least Squares Mean Difference|20.6|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|14.9|26.3|||Mixed Models Analysis|||||26.3|14.9|<0.001
92181937|NCT03861052|184262566|SUPERIORITY||Least Squares Mean Difference|23.9|STANDARD_ERROR_OF_MEAN|2.95|<|0.001|TWO_SIDED|95.0|18.1|29.7|||Mixed Models Analysis|||||29.7|18.1|<0.001
92181938|NCT03861052|184262567|SUPERIORITY||Least Squares Mean Difference|19.9|STANDARD_ERROR_OF_MEAN|4.22|<|0.001|TWO_SIDED|95.0|11.7|28.2|||Mixed Models Analysis|||||28.2|11.7|<0.001
92181939|NCT03861052|184262567|SUPERIORITY||Least Squares Mean Difference|27.0|STANDARD_ERROR_OF_MEAN|4.59|<|0.001|TWO_SIDED|95.0|18.0|36.0|||Mixed Models Analysis|||||36.0|18.0|<0.001
92181940|NCT03861052|184262567|SUPERIORITY||Least Squares Mean Difference|31.2|STANDARD_ERROR_OF_MEAN|4.68|<|0.001|TWO_SIDED|95.0|22.0|40.4|||Mixed Models Analysis|||||40.4|22.0|<0.001
92285952|NCT00473330|184476908|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|24.2|||<|0.0001|TWO_SIDED|95.0|16.7|31.7||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||31.7|16.7|<0.0001
92285953|NCT00473330|184476909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.7||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||-0.7|-1.4|<0.0001
92285954|NCT00473330|184476909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.7||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||-0.7|-1.5|<0.0001
92285955|NCT00336479|184476970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.985||||0.0014|TWO_SIDED|95.0|1.525|5.842|||Regression, Logistic|Treatment, weight, race and baseline HCV RNA as factors||||5.842|1.525|0.0014
92285956|NCT00336479|184476970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.0204|TWO_SIDED|95.0|1.127|4.178|||Regression, Logistic|||||4.178|1.127|0.0204
92285957|NCT00336479|184476971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.586||||0.0051|TWO_SIDED|95.0|1.331|5.025|||Regression, Logistic|||||5.025|1.331|0.0051
92285958|NCT00336479|184476971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.976||||0.0418|TWO_SIDED|95.0|1.026|3.807|||Regression, Logistic|||||3.807|1.026|0.0418
92285959|NCT01265056|184477001|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92285960|NCT01265056|184477001|SUPERIORITY||||||<|0.04|||||||Regression, Logistic|||||||<0.04
92285961|NCT01265056|184477002|SUPERIORITY||||||<|0.8|||||||t-test, 2 sided|||||||<0.8
92285962|NCT01265056|184477003|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
92285963|NCT01416584|184477004|SUPERIORITY||Odds Ratio (OR)|1.4||||0.6|TWO_SIDED|95.0|0.4|4.83|||General Estimating Equation (GEE)|||||4.83|0.40|0.60
92285964|NCT01416584|184477004|SUPERIORITY||Odds Ratio (OR)|1.1||||0.88|TWO_SIDED|95.0|0.32|3.73|||General Estimating Equation (GEE)|||||3.73|0.32|0.88
92285965|NCT01416584|184477004|SUPERIORITY||Odds Ratio (OR)|1.27||||0.64|TWO_SIDED|95.0|0.36|4.46|||General Estimating Equation (GEE)|||||4.46|0.36|0.64
92285966|NCT01416584|184477005|SUPERIORITY||Odds Ratio (OR)|0.39||||0.02|TWO_SIDED|95.0|0.38|0.41|||General Estimating Equation (GEE)|||||0.41|0.38|0.02
92285967|NCT01416584|184477005|SUPERIORITY||Odds Ratio (OR)|0.73||||0.39|TWO_SIDED|95.0|0.34|1.57|||General Estimating Equation (GEE)|||||1.57|0.34|0.39
92285968|NCT01416584|184477005|SUPERIORITY||Odds Ratio (OR)|1.86||||0.1|TWO_SIDED|95.0|1.53|2.26|||General Estimating Equation (GEE)|||||2.26|1.53|0.10
92285969|NCT01416584|184477006|SUPERIORITY||Odds Ratio (OR)|0.37||||0.02|TWO_SIDED|95.0|0.36|0.38|||General Estimating Equation (GEE)|||||0.38|0.36|0.02
92285970|NCT01416584|184477006|SUPERIORITY||Odds Ratio (OR)|0.39||||0.02|TWO_SIDED|95.0|0.38|0.41|||General Estimating Equation (GEE)|||||0.41|0.38|0.02
92285971|NCT01416584|184477006|SUPERIORITY||Odds Ratio (OR)|1.07||||0.85|TWO_SIDED|95.0|0.2|5.66|||General Estimating Equation (GEE)|||||5.66|0.20|0.85
92285972|NCT01416584|184477007|SUPERIORITY||Odds Ratio (OR)|0.35||||0.01|TWO_SIDED|95.0|0.34|0.35|||General Estimating Equation (GEE)|||||0.35|0.34|0.01
92285973|NCT01416584|184477007|SUPERIORITY||Odds Ratio (OR)|0.41||||0.03|TWO_SIDED|95.0|0.39|0.44|||General Estimating Equation (GEE)|||||0.44|0.39|0.03
92285974|NCT01416584|184477007|SUPERIORITY||Odds Ratio (OR)|0.84||||0.63|TWO_SIDED|95.0|0.42|1.69|||General Estimating Equation (GEE)|||||1.69|0.42|0.63
92285975|NCT01416584|184477008|SUPERIORITY||Odds Ratio (OR)|0.4||||0.01|TWO_SIDED|95.0|0.39|0.4|||General Estimating Equation (GEE)|||||0.40|0.39|0.01
92285976|NCT01416584|184477008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.37|TWO_SIDED|95.0|0.36|1.55|||General Estimating Equation (GEE)|||||1.55|0.36|0.37
92285977|NCT01416584|184477008|SUPERIORITY||Odds Ratio (OR)|0.53||||0.05|TWO_SIDED|95.0|0.28|1.0|||General Estimating Equation (GEE)|||||1.00|0.28|0.05
92285978|NCT00833937|184477041|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|99.7||||||90.0|93.9|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106|93.9|
92285979|NCT00833937|184477042|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|97.8||||||90.0|92.6|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|92.6|
92285980|NCT00833937|184477043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|97.9||||||90.0|92.7|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|92.7|
92285981|NCT01985308|184477044|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
92285982|NCT02612337|184477061|SUPERIORITY|The target sample size for each was 160 randomized subjects: 80 in each treatment group stratified by gender. The sample size estimate was chosen to achieve more than 90% power with a significance level of 0.05 2-sided to reject the null hypothesis of no treatment difference for the primary endpoint of DVD.|Risk Ratio (RR)|0.907||||0.623|TWO_SIDED|95.0|0.615|1.339|||Regression, Linear|||The primary efficacy endpoint was compared between OTO-104 and placebo at the 2-tailed 0.05 alpha level using a generalized Poisson linear mixed model. The model included fixed effects for randomized treatment group, sex, study week, a treatment group by study week interaction, and the count of lead-in period DVD standardized to 28 days as a covariate.||1.339|0.615|0.623
92285983|NCT03616106|184477076|OTHER||Slope|-15.103||||0.859|TWO_SIDED|95.0|-184.574|154.369||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||154.369|-184.574|0.859
92285984|NCT03616106|184477077|OTHER||Slope|28.243||||0.213|TWO_SIDED|95.0|-16.694|73.179||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||73.179|-16.694|0.213
92285985|NCT03616106|184477078|OTHER||Slope|58.993||||0.031|TWO_SIDED|95.0|5.713|112.274||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||112.274|5.713|0.031
92285986|NCT03616106|184477079|OTHER||Slope|-0.0651||||0.053|TWO_SIDED|95.0|-1.313|0.01||The p-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||Viral load variables were log transformed for regression analyses.||0.010|-1.313|0.053
92285987|NCT03616106|184477080|OTHER||Slope|-1.601||||0.008|TWO_SIDED|95.0|-2.761|-0.442||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||-0.442|-2.761|0.008
92285988|NCT03616106|184477081|OTHER||Slope|-2.674||||0|TWO_SIDED|95.0|-3.934|-1.415||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||-1.415|-3.934|0.000
92285989|NCT03616106|184477095|OTHER||Slope|2.172||||0|TWO_SIDED|95.0|1.448|2.895||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||2.895|1.448|0.000
92285990|NCT03616106|184477096|OTHER||Slope|2.872||||0|TWO_SIDED|95.0|2.1|3.643||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||3.643|2.100|0.000
92285991|NCT03616106|184477097|OTHER||Slope|3.166||||0|TWO_SIDED|95.0|2.487|3.846||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||3.846|2.487|0.000
92285992|NCT03616106|184477098|OTHER||Z Score|3.25||||0.0011|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the threshold for statistical significance was p≤0.05/3 = .017. Please see statistical analysis plan for further details.|Wilcoxon signed rank|||||||0.0011
92285993|NCT03616106|184477099|OTHER||Z score|3.94||||0.0001|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the threshold for statistical significance was p≤0.05/3 = .017. Please see statistical analysis plan for further details.|Wilcoxon signed rank|||||||0.0001
92285994|NCT03616106|184477100|OTHER||Z score|4.12||||0|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the threshold for statistical significance was p≤0.05/3 = .017. Please see statistical analysis plan for further details.|Wilcoxon signed rank|||||||0.000
92285995|NCT03616106|184477101|OTHER||Slope|1.935||||0|TWO_SIDED|95.0|1.055|2.815||This p-value was not adjusted for multiple comparisons. The p-value threshold for statistical significance was, therefore, 0.05|Regression, Linear|||||2.815|1.055|0.000
92285996|NCT03616106|184477102|OTHER||Slope|2.123||||0|TWO_SIDED|95.0|1.184|3.062||The p-value was not adjusted for multiple comparison, therefore, the threshold for statistical significance was 0.05.|Regression, Linear|||||3.062|1.184|0.000
92285997|NCT03616106|184477103|OTHER||Slope|2.552||||0|TWO_SIDED|95.0|1.612|3.492||The p-value was not adjusted for multiple comparison, therefore, the threshold for statistical significance was 0.05.|Regression, Linear|||||3.492|1.612|0.000
92285998|NCT03616106|184477104|OTHER||Z score|-1.57||||0.1167|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the a priori threshold for statistical significance was p≤0.05/3 = .017. For more details please see the statistical plan.|Wilcoxon signed rank|||||||0.1167
92285999|NCT03616106|184477105|OTHER||Z score|-2.91||||0.0036|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the a priori threshold for statistical significance was p≤0.05/3 = .017. For more details please see the statistical plan.|Wilcoxon signed rank|||||||0.0036
92286000|NCT03616106|184477106|OTHER||Z score|-3.54||||0.0004|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the a priori threshold for statistical significance was p≤0.05/3 = .017. For more details please see the statistical plan.|Wilcoxon signed rank|||||||0.0004
92286001|NCT02779543|184477114|EQUIVALENCE|this trial compared the 2 devices to the polysomnography, which is the gold standard|Mean value|368.3|||<|0.001|TWO_SIDED||||||ANOVA||compared to gold standard|||||<0.001
92286002|NCT02779543|184477115|EQUIVALENCE|This trial compared those 2 devices with the gold standard (polysomnography)|Mean value|13.9|||<|0.001|TWO_SIDED||||||ANOVA||compared to gold standard|||||<0.001
92286003|NCT02779543|184477116|EQUIVALENCE|This trial compared those 2 devices with the gold standard (polysomnography)|Mean value|106.0|||<|0.001|TWO_SIDED||||||ANOVA||compared to gold standard|||||<0.001
92286004|NCT02779543|184477117|EQUIVALENCE|This trial compared those 2 devices with the gold standard (polysomnography)|Mean value|74.3|||<|0.001|TWO_SIDED||||||ANOVA||compared to gold standard|||||<0.001
92286005|NCT00939003|184477156|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92286006|NCT00939003|184477157|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||||||0.004
92286007|NCT00939003|184477158|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||||||0.001
92286008|NCT00939003|184477159|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANCOVA|ANCOVA model adjusting for Baseline value with treatment as a factor.||||||0.001
92286009|NCT00939003|184477160|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Chi-squared|||||||0.014
92286010|NCT00939003|184477163|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92286011|NCT00939003|184477164|SUPERIORITY_OR_OTHER|||||||0.027|||||||ANCOVA|ANCOVA model adjusting for Baseline value with treatment as a factor.||||||0.027
92286012|NCT00939003|184477165|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|ANCOVA model adjusting for Baseline value with treatment as a factor.||||||<0.001
92286013|NCT00939003|184477166|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANCOVA|ANCOVA model adjusting for Baseline value with treatment as a factor.||||||0.003
92286014|NCT00939003|184477167|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANCOVA|ANCOVA model adjusting for Baseline value with treatment as a factor.||||||0.001
92286015|NCT03707912|184477171|SUPERIORITY|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
92286016|NCT03707912|184477172|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92286017|NCT03707912|184477173|SUPERIORITY|||||||0.0012|||||||Cochran-Mantel-Haenszel|||||||0.0012
92286018|NCT03707912|184477173|OTHER|Test for assessing the homogeneity of the odds ratio in several 2 × 2 contingency tables.||||||0.98|||||||Breslow-Day test|||||||0.98
92286019|NCT03707912|184477174|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
92286020|NCT03707912|184477175|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92286021|NCT03707912|184477175|OTHER|Test for assessing the homogeneity of the odds ratio in several 2 × 2 contingency tables.||||||0.75|||||||Breslow-Day test|||||||0.75
92286022|NCT03707912|184477176|SUPERIORITY|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||Day 1 comparison.||||0.89
92286023|NCT03707912|184477176|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Day 2 comparison.||||0.75
92286024|NCT03707912|184477176|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Day 3 comparison.||||0.34
92286025|NCT03707912|184477177|SUPERIORITY|||||||0.75|||||||Fisher Exact|||||||0.75
92286026|NCT02934347|184477178|SUPERIORITY_OR_OTHER||||||>|0.05||||||Grades analysed were 1, 2 and then 3 and 4 combined because of low frequencies in the latter two grades|Chi-squared, Corrected|Chi-squared for trend||Null hypothesis: no difference in frequency of grade of glottic view between the supine and back-up positions||||>0.05
92286027|NCT02934347|184477179|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Chi-squared|df=3||||||<0.01
92286028|NCT02934347|184477180|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92286029|NCT02934347|184477181|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92181941|NCT03678688|184262596|SUPERIORITY||EBA Ratio|0.689|||||TWO_SIDED|95.0|0.485|0.939|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||0.939|0.485|
92181942|NCT03678688|184262596|SUPERIORITY||EBA Ratio|0.689|||||TWO_SIDED|95.0|0.467|0.911|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||0.911|0.467|
92181943|NCT03678688|184262596|SUPERIORITY||EBA Ratio|0.759|||||TWO_SIDED|95.0|0.517|1.051|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||1.051|0.517|
92181944|NCT03678688|184262596|SUPERIORITY||EBA Ratio|0.759|||||TWO_SIDED|95.0|0.497|1.02|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||1.020|0.497|
92181945|NCT03678688|184262596|SUPERIORITY||EBA Ratio|0.745|||||TWO_SIDED|95.0|0.567|0.973|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||0.973|0.567|
92286030|NCT00355797|184477202|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.17|STANDARD_DEVIATION|15.9||0.004|TWO_SIDED|95.0|3.24|15.11|||t-test, 2 sided|||The endpoint will compare the composite percent change in ADL performance for patients while their devices are programmed to CLS and accelerometer pacing modes, using the no rate adaptive pacing mode as the baseline. Null hypothesis: mean composite of percent change for patients with their device programmed to CLS is less than or equal to the mean composite of percent change for the same patients with their device in accelerometer.||15.11|3.24|0.004
92181946|NCT03678688|184262596|SUPERIORITY||EBA Ratio|0.745|||||TWO_SIDED|95.0|0.547|0.943|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||0.943|0.547|
92181947|NCT03678688|184262596|SUPERIORITY||EBA Ratio|0.605|||||TWO_SIDED|95.0|0.353|0.896|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||0.896|0.353|
92181948|NCT03678688|184262596|SUPERIORITY||EBA Ratio|0.605|||||TWO_SIDED|95.0|0.338|0.871|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||0.871|0.338|
92286031|NCT00355797|184477209|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.42|STANDARD_DEVIATION|17.74||0.552|TWO_SIDED|95.0|-6.17|3.33|||t-test, 2 sided|||The purpose of endpoint was to evaluate the percent change in pulse pressure during test. The null hypothesis was the mean percent change for patients with their device programmed to CLS is greater or equal to the mean percent change for the same patients with their device in accelerometer.||3.33|-6.17|0.552
92286032|NCT00355797|184477209|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.91|STANDARD_DEVIATION|21.34||0.505|TWO_SIDED|95.0|-3.8|7.63|||t-test, 2 sided|||The purpose of endpoint was to evaluate the percent change in pulse pressure during test. The null hypothesis was the mean percent change for patients with their device programmed to CLS is greater or equal to the mean percent change for the same patients with their device without rate adaptative pacing.||7.63|-3.80|0.505
92286033|NCT02262377|184477218|SUPERIORITY|The ITT analysis was done for 21 week average pain.|Risk Ratio (RR)|1.03||||0.68|TWO_SIDED|95.0|0.92|1.15||Statistical significance was set at p\< 0.05.|Regression, Poisson|||Intention to Treat Analysis for average chronic pain.||1.15|0.92|0.68
92181949|NCT03678688|184262636|SUPERIORITY||EBA Ratio|1.256|||||TWO_SIDED|95.0|0.626|3.175|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||3.175|0.626|
92286034|NCT02262377|184477218|SUPERIORITY|The ITT analysis was done for 21 week BPI Interference.|Risk Ratio (RR)|0.98||||0.36|TWO_SIDED|95.0|0.88|1.08||Statistical significance was set at p\< 0.05.|Regression, Poisson|||||1.08|0.88|0.36
92286035|NCT02262377|184477218|SUPERIORITY|The ITT analysis was done for 21 week BPI Severity.|Risk Ratio (RR)|1.0||||0.996|TWO_SIDED|95.0|0.86|1.16||Statistical significance was set at p\< 0.05.|Regression, Poisson|||||1.16|0.86|0.996
92286036|NCT02262377|184477219|SUPERIORITY||Risk Ratio (RR)|1.17||||0.054|TWO_SIDED|95.0|0.99|1.37|||Regression, Poisson|||||1.37|0.99|0.054
92181950|NCT03678688|184262636|SUPERIORITY||EBA Ratio|1.256|||||TWO_SIDED|95.0|0.362|2.151|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||2.151|0.362|
92286037|NCT02262377|184477220|SUPERIORITY||Risk Ratio (RR)|1.0||||0.98|TWO_SIDED|95.0|0.89|1.13|||Regression, Poisson|||||1.13|0.89|0.98
92181951|NCT03678688|184262636|SUPERIORITY||EBA Ratio|1.385|||||TWO_SIDED|95.0|0.736|2.656|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||2.656|0.736|
92286038|NCT02262377|184477221|SUPERIORITY||Odds Ratio (OR)|0.42|||||TWO_SIDED|95.0|0.18|0.98|||Odds Ratio|||||0.98|0.18|
92181952|NCT03678688|184262636|SUPERIORITY||EBA Ratio|1.385|||||TWO_SIDED|95.0|0.564|2.206|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||2.206|0.564|
92181953|NCT00799409|184262677|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.6|||<|0.0001|TWO_SIDED|95.0|-35.0|-22.3||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score adjusted by Hochberg's step up procedure|Mixed Models Analysis||Placebo minus CONCERTA|||-22.3|-35.0|<0.0001
92181954|NCT00799409|184262678|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.3|||<|0.0001|TWO_SIDED|95.0|-34.4|-22.2||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score adjusted by Hochberg's step up procedure|Mixed Models Analysis||Placebo minus CONCERTA|||-22.2|-34.4|<0.0001
92181955|NCT00799409|184262679|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9|||<|0.0001|TWO_SIDED|95.0|4.3|7.4||P-Values are determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis|P-Values at each timepoint are determined by using contrast statements in the repeated measures mixed model.|Placebo minus CONCERTA|||7.4|4.3|<0.0001
92286039|NCT02262377|184477222|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.9|1.14|||Odds Ratio|||||1.14|0.90|
92286040|NCT01591785|184477228|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|TWO_SIDED||||||Chi-squared|||||||0.035
92286041|NCT01591785|184477229|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28|TWO_SIDED||||||Chi-squared|||||||0.28
92286042|NCT01591785|184477230|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0495|TWO_SIDED||||||Chi-squared|||||||0.0495
92286043|NCT01591785|184477231|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27|TWO_SIDED||||||Chi-squared|||||||0.27
92286044|NCT01049334|184477232|SUPERIORITY_OR_OTHER||least-square means difference|-151.5||||0.0201|TWO_SIDED|95.0|-278.9|-24.0||The a priori threshold for statistical significance is 0.05. No adjustments for statistical multiplicity were required.|ANOVA|Treatment as a fixed effect and baseline STPIS as a covariate.||||-24.0|-278.9|0.0201
92286045|NCT01049334|184477233|SUPERIORITY_OR_OTHER||least-square means difference|-19.6|||<|0.0001|TWO_SIDED|95.0|-29.2|-9.9||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|Treatment as a fixed effect and baseline of the variable predicted as a covariate||||-9.9|-29.2|<.0001
92286046|NCT01049334|184477234|SUPERIORITY_OR_OTHER||least-square means difference|-22.3|||<|0.0001|TWO_SIDED|95.0|-31.7|-12.9||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|Treatment as a fixed effect and baseline of the variable predicted as a covariate||||-12.9|-31.7|<0.0001
92286047|NCT01049334|184477235|SUPERIORITY_OR_OTHER||least-square means difference|-181.7||||0.0071|TWO_SIDED|95.0|-313.7|-50.0||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|Treatment as a fixed effect and baseline of the variable predicted as a covariate||||-50.0|-313.7|0.0071
92286048|NCT01049334|184477236|SUPERIORITY_OR_OTHER||least-square means difference|-20.8|||<|0.0001|TWO_SIDED|95.0|-30.2|-11.2||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|Treatment as a fixed effect and baseline of the variable predicted as a covariate||||-11.2|-30.2|<0.0001
92286049|NCT01049334|184477237|SUPERIORITY_OR_OTHER||least-square means difference|-137.6||||0.0393|TWO_SIDED|95.0|-268.5|-6.8||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|Treatment as a fixed effect and baseline of the variable predicted as a covariate||||-6.8|-268.5|0.0393
92286050|NCT01049334|184477238|SUPERIORITY_OR_OTHER|||||||0.0459||||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||0.0459
92286051|NCT01049334|184477239|SUPERIORITY_OR_OTHER|||||||0.8383||||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||0.8383
92286052|NCT01049334|184477240|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|95.0||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||0.0005
92286053|NCT01049334|184477241|SUPERIORITY_OR_OTHER|||||||0.0005||||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||0.0005
92286054|NCT01049334|184477242|SUPERIORITY_OR_OTHER|||||||0.0002||||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||0.0002
92286055|NCT01049334|184477243|SUPERIORITY_OR_OTHER||least-square means difference|-156.3||||0.0435|TWO_SIDED|95.0|-307.9|-4.6||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|||||-4.6|-307.9|0.0435
92286056|NCT01049334|184477244|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||<.0001
92286057|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|0.1||||0.1448|TWO_SIDED|95.0|0.0|0.1|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 2||0.1|-0.0|0.1448
92286058|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|0.1||||0.1538|TWO_SIDED|95.0|0.0|0.3|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 4||0.3|-0.0|0.1538
92181956|NCT00799409|184262680|SUPERIORITY_OR_OTHER||LS Mean Difference|5.1|||<|0.0001|TWO_SIDED|95.0|3.8|6.5||P-Values are determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis|P-Values at each timepoint are determined by using contrast statements in the repeated measures mixed model.|Placebo minus CONCERTA|||6.5|3.8|<0.0001
92286059|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|0.2||||0.1407|TWO_SIDED|95.0|-0.1|0.5|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 6||0.5|-0.1|0.1407
92286060|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|0.2||||0.2906|TWO_SIDED|95.0|-0.2|0.7|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 8||0.7|-0.2|0.2906
92286061|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|0.2||||0.4758|TWO_SIDED|95.0|-0.4|0.8|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 10||0.8|-0.4|0.4758
92286062|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|0.1||||0.6975|TWO_SIDED|95.0|-0.6|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 12||0.9|-0.6|0.6975
92286063|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|0.0||||0.937|TWO_SIDED|95.0|-0.8|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 14||0.9|-0.8|0.9370
92286064|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-0.1||||0.8493|TWO_SIDED|95.0|-1.1|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 16||0.9|-1.1|0.8493
92286065|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-0.3||||0.6732|TWO_SIDED|95.0|-1.4|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 18||0.9|-1.4|0.6732
92286066|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-0.4||||0.5414|TWO_SIDED|95.0|-1.8|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 20||0.9|-1.8|0.5414
92286067|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-0.6||||0.4313|TWO_SIDED|95.0|-2.1|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 22||0.9|-2.1|0.4313
92286068|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-0.8||||0.3501|TWO_SIDED|95.0|-2.4|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 24||0.9|-2.4|0.3501
92286069|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-1.0||||0.2679|TWO_SIDED|95.0|-2.8|0.8|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 26||0.8|-2.8|0.2679
92286070|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-1.2||||0.2137|TWO_SIDED|95.0|-3.2|0.7|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 28||0.7|-3.2|0.2137
92286071|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-1.5||||0.1715|TWO_SIDED|95.0|-3.6|0.6|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 30||0.6|-3.6|0.1715
92181957|NCT00799409|184262681|SUPERIORITY_OR_OTHER||LS Mean Difference|11.0|||<|0.0001|TWO_SIDED|95.0|8.7|13.3||P-Values are determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis|P-Values at each timepoint are determined by using contrast statements in the repeated measures mixed model.|Placebo minus CONCERTA|||13.3|8.7|<0.0001
92263689|NCT01535638|184428449|SUPERIORITY_OR_OTHER||Ratio (%)|122.5|STANDARD_DEVIATION|16.1|||TWO_SIDED|90.0|107.9|139.1|||||The estimate of the relative bioavailability (%) is adjusted for the period effects in the ANOVA. The standard deviation is actually the gCV. CIs are based on the residual error from ANOVA, considering only the data from the 2 compared treatments.|relative bioavailability comparison of Deleobuvir Final Formulation (test) and Deleobuvir Trial Formulation II (reference) in pairwise comparison. (test : reference)||139.1|107.9|
92286072|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-1.8||||0.134|TWO_SIDED|95.0|-4.1|0.5|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 32||0.5|-4.1|0.1340
92286073|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-2.0||||0.103|TWO_SIDED|95.0|-4.5|0.4|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 34||0.4|-4.5|0.1030
92263690|NCT01535638|184428449|SUPERIORITY_OR_OTHER||Ratio (%)|107.6|STANDARD_DEVIATION|35.0|||TWO_SIDED|90.0|83.1|139.4|||||The estimate of the relative bioavailability (%) is adjusted for the period effects in the ANOVA. The standard deviation is actually the gCV. CIs are based on the residual error from ANOVA, considering only the data from the 2 compared treatments.|relative bioavailability comparison of Deleobuvir Final Formulation modified (test) and Deleobuvir Final Formulation (reference) in pairwise comparison. (test : reference)||139.4|83.1|
92263691|NCT03524664|184428459|SUPERIORITY|||||||0.523||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71) = 0.411, p =.523||Repeated measures ANOVA||||.523
92263692|NCT03524664|184428460|SUPERIORITY|||||||0.173||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=1.89, p=.173||Repeated measures ANOVA||||.173
92263693|NCT03524664|184428461|SUPERIORITY|||||||0.14||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=2.23, p=.140||Outcome data analyzed for those with complete data at both timepoints.||||.140
92263694|NCT03524664|184428462|SUPERIORITY|||||||0.845||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,70)=.039, p=0.845||Outcome data analyzed for those with complete data at both timepoints.||||0.845
92263695|NCT03524664|184428463|SUPERIORITY|||||||0.147||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,70)=2.147, p=.147||Outcome data analyzed for those with complete data at both timepoints.||||.147
92263696|NCT03524664|184428464|SUPERIORITY|||||||0.429||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,70)=.633, p=.429||Outcome data analyzed for those with complete data at both timepoints.||||.429
92263697|NCT03524664|184428465|SUPERIORITY|||||||0.208||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,70)=1.618, p=.208||Outcome data analyzed for those with complete data at both timepoints.||||.208
92286074|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-2.4||||0.0788|TWO_SIDED|95.0|-5.0|0.3|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 36||0.3|-5.0|0.0788
92286075|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-2.7||||0.062|TWO_SIDED|95.0|-5.5|0.1|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 38||0.1|-5.5|0.0620
92286076|NCT01049334|184477245|SUPERIORITY_OR_OTHER||least-square means difference|-3.0||||0.0476|TWO_SIDED|95.0|-6.0|0.0|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 40||-0.0|-6.0|0.0476
92286077|NCT01049334|184477246|SUPERIORITY_OR_OTHER|||||||0.0273||95.0|||||Log Rank|||||||0.0273
92286078|NCT01049334|184477247|SUPERIORITY_OR_OTHER|||||||0.0098||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0098
92286079|NCT02393417|184477264|SUPERIORITY||Risk Ratio (RR)|1.5706||||0.0329|TWO_SIDED|95.0|1.0184|2.4223|||Cochran-Mantel-Haenszel|||||2.4223|1.0184|0.0329
92286080|NCT02393417|184477264|SUPERIORITY||Risk Ratio (RR)|1.8926||||0.0007|TWO_SIDED|95.0|1.2722|2.8156|||Cochran-Mantel-Haenszel|||||2.8156|1.2722|0.0007
92286081|NCT02393417|184477264|SUPERIORITY||Risk Ratio (RR)|1.7319||||0.0052|TWO_SIDED|95.0|1.1602|2.5854|||Cochran-Mantel-Haenszel|||||2.5854|1.1602|0.0052
92286082|NCT02393417|184477265|SUPERIORITY||Risk Ratio (RR)|1.3828||||0.4307|TWO_SIDED|95.0|0.6191|3.0883|||Cochran-Mantel-Haenszel|||||3.0883|0.6191|0.4307
92286083|NCT02393417|184477265|SUPERIORITY||Risk Ratio (RR)|2.8908||||0.0014|TWO_SIDED|95.0|1.4169|5.8978|||Cochran-Mantel-Haenszel|||||5.8978|1.4169|0.0014
92286084|NCT02393417|184477265|SUPERIORITY||Risk Ratio (RR)|3.0||||0.0451|TWO_SIDED|95.0|0.9281|9.6975|||Cochran-Mantel-Haenszel|||||9.6975|0.9281|0.0451
92263698|NCT03524664|184428466|SUPERIORITY|||||||0.3||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=1.09, p=.300||Outcome data analyzed for those with complete data at both timepoints.||||.300
92263699|NCT03524664|184428467|SUPERIORITY|||||||0.099||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=2.79, p=.099||Outcome data analyzed for those with complete data at both timepoints.||||.099
92263700|NCT03524664|184428468|SUPERIORITY|||||||0.105||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=2.70, p=.105||Outcome data analyzed for those with complete data at both timepoints.||||.105
92263701|NCT03524664|184428469|SUPERIORITY|||||||0.699||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=0.15, p=.699||Repeated measures ANOVA||||.699
92263702|NCT03524664|184428470|SUPERIORITY|||||||0.945||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=0.005, p=.945||Repeated measures ANOVA||||.945
92263703|NCT03524664|184428471|SUPERIORITY|||||||0.767||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=0.088, p=.767||Repeated measures ANOVA||||.767
92263704|NCT03524664|184428472|SUPERIORITY|||||||0.682||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=.0.17, p=.682||Repeated measures ANOVA||||.682
92263705|NCT03524664|184428473|SUPERIORITY|||||||0.96||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,42)=0.003, p=.960||Repeated measures ANOVA||||.960
92263706|NCT03524664|184428474|SUPERIORITY|||||||0.643||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,42)=0.218, p=.643||Repeated measures ANOVA||||.643
92263707|NCT03524664|184428475|SUPERIORITY|||||||0.118||||||The threshold for statistical significance was p = 0.05.|ANOVA|Time X Group F(2,90)=2.19, p.118||Repeated measures ANOVA||||.118
92263708|NCT03524664|184428476|SUPERIORITY|||||||0.8||||||The threshold for statistical significance was p = 0.05.|ANOVA|Time x Group F(2,90)=.223, p=.800||Repeated measures ANOVA||||.800
92263709|NCT03524664|184428477|SUPERIORITY|||||||0.863||||||The threshold for statistical significance was p = 0.05.|ANOVA|Group x Time F(2,92)=0.148, p=.863||Repeated measures ANOVA||||.863
92263710|NCT03702166|184428491|SUPERIORITY|||||||0.01|||||||t-test, 1 sided|Multiple t-tests with Bonferroni corrections for multiple comparisons||||||0.01
92263711|NCT03702166|184428493|SUPERIORITY|||||||0.038|||||||t-test, 1 sided|Multiple t-tests, with Bonferroni corrections for multiple comparisons,||||||0.038
92263712|NCT03702166|184428495|SUPERIORITY|||||||0.031||||||Multiple t-tests, with Bonferroni corrections for multiple comparisons|t-test, 1 sided|||||||0.031
92263713|NCT03512028|184428517|SUPERIORITY||Mean Difference (Net)|3.2||||0.002|TWO_SIDED|||||Interaction effect of group x time from pre- to post- intervention|ANOVA||Estimated difference between slopes|Mixed model ANOVA with group (RLIC, Sham) and time (pre-, post-, and follow-up ). The main analysis of interest is the group x time interaction from pre- to post-.||||0.002
92263714|NCT03512028|184428517|SUPERIORITY|||||||0.001||||||Main effect of time|ANOVA|||||||0.001
92263715|NCT03512028|184428517|SUPERIORITY|||||||0.844||||||Main effect of group|ANOVA|||||||0.844
92263716|NCT02127931|184428523|OTHER|||||||0.005|||||||Correlation|||ADHD-I||||0.005
92263717|NCT02127931|184428523|OTHER|||||||0.023|||||||Correlation|||ADHD-C||||0.023
92263718|NCT02127931|184428524|OTHER|||||||0.013|||||||Correlation|||||||0.013
92263719|NCT02028182|184428540|OTHER||Kappa statistic-Concordance 0.4 mg/cm2|75.0|||||TWO_SIDED|95.0|60.4|94.0||||||||94.0|60.4|
92263720|NCT02028182|184428540|OTHER||Kappa statistic: Concordance 0.20 mg/cm2|65.0|||||TWO_SIDED|95.0|55.6|90.4||||||||90.4|55.6|
92263721|NCT02028182|184428540|OTHER||Kappa statistic: Concordance0.10 mg/cm2|60.0|||||TWO_SIDED|95.0|53.3|88.4||||||||88.4|53.3|
92263722|NCT01336647|184428556|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The primary efficacy endpoint was responder rate calculated based on the percentage of subjects who were lice free at all follow-up visits (Days 1, 7 and 14). Because the number of responders and non-responders in the family size\>= 5 household members was less than five in at least one of the treatment arms, (Table 14.2.1.5), Fisher's Exact test was used to compare treatment arms, instead of the CMH test.|||||<|0.001|TWO_SIDED|95.0|||||Fisher Exact|The assessment of statistical significance will be done using Hochberg's modified Bonferroni test.||Null hypothesis; 80% power and 0.025 two-sided level of significance for each pairwise active vs. vehicle comparison||||<0.001
92263723|NCT01018680|184428558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91|||<|0.001||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||Using a 1:1 ratio of allocation to treatment, a 2-tailed 0.05 level of significance and 80% power, 253 participants per arm had been estimated to be adequate to assess an effect size of 0.25, based on a 2-sample Student's t-test. This derived estimate was increased slightly to 261 participants per arm to account for extremely early discontinuation that would have led to exclusion from the efficacy analysis in a small number of participants (approximately 3%).||||<0.001
92263724|NCT01018680|184428559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||<|0.001||95.0||||First gated secondary outcome measure. Gatekeeper strategy (Westfall and Krishen 2001) controlled experiment-wise type I error for 2 secondary outcomes with sequential comparisons of treatments until outcome failed to be significant (p\>0.05).|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263725|NCT01018680|184428560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.84|||<|0.001||95.0||||WOMAC Physical Disability Score p-value. Second gated secondary outcome measure. Gatekeeper strategy controlled experiment-wise type I error for 2 secondary outcomes with sequential treatment comparisons until outcome failed significance (p\>0.05).|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263726|NCT01018680|184428560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|||<|0.001||95.0||||This is the p-value for the WOMAC Pain Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92286085|NCT02393417|184477267|SUPERIORITY||Cox Proportional Hazard|2.7553||||0.0027|TWO_SIDED|95.0|1.4211|5.3419|||Regression, Cox|||||5.3419|1.4211|0.0027
92181958|NCT00799409|184262682|SUPERIORITY_OR_OTHER||LS Means Difference|-3.16|||<|0.0001|TWO_SIDED|95.0|-3.72|-2.59||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-2.59|-3.72|<0.0001
92263727|NCT01018680|184428560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.004||95.0||||This is the p-value for WOMAC Stiffness Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.004
92263728|NCT01018680|184428561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|||<|0.001||95.0||||This is the p-value for Night Pain Intensity. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263729|NCT01018680|184428561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03|||<|0.001||95.0||||This is the p-value for Worst Pain Intensity. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263730|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|||<|0.001||95.0||||This is the p-value for BPI-S for Worst Pain. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263731|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.001||95.0||||This is the p-value for BPI-S for Least Pain. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263732|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|||<|0.001||95.0||||This is the p-value for BPI-S for Average Pain. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263733|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|||<|0.001||95.0||||This is the p-value for BPI-S for Pain Right Now. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263734|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|||<|0.001||95.0||||This is the p-value for BPI-I for General Activity. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263735|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|||<|0.001||95.0||||This is the p-value for BPI-I for Mood. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263736|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|||<|0.001||95.0||||This is the p-value for BPI-I for Walking Ability. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263737|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|||<|0.001||95.0||||This is the p-value for BPI-I for Normal Work. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263738|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|||<|0.001||95.0||||This is the p-value for BPI-I for Relations with Others. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263739|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|||<|0.001||95.0||||This is the p-value for BPI-I for Sleep. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263740|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|||<|0.001||95.0||||This is the p-value for BPI-I for Enjoyment of Life. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263741|NCT01018680|184428562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|||<|0.001||95.0||||This is the p-value for BPI-I for Mean Interference Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263742|NCT01018680|184428563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|||<|0.001||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92263743|NCT01018680|184428564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17|||<|0.001||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
92286086|NCT02393417|184477267|SUPERIORITY||Cox Proportional Hazard|3.1516||||0.0008|TWO_SIDED|95.0|1.6148|6.1509|||Regression, Cox|||||6.1509|1.6148|0.0008
92286087|NCT02393417|184477267|SUPERIORITY||Cox Proportional Hazard|3.3257||||0.0003|TWO_SIDED|95.0|1.7263|6.407|||Regression, Cox|||||6.4070|1.7263|0.0003
92286088|NCT02393417|184477273|SUPERIORITY||Odds Ratio (OR)|0.999||||0.4824|TWO_SIDED|95.0|0.997|1.001|||Regression, Logistic||An odds ratio \< 1 indicates that the age of the wart is negatively correlated with positive treatment outcome and vice versa.|Using a logistic regression model for complete resolution status of largest primary injected wart (yes vs no) with wart age as a covariate.||1.001|0.997|0.4824
92286089|NCT02393417|184477273|SUPERIORITY||Odds Ratio (OR)|1.001||||0.5007|TWO_SIDED|95.0|0.998|1.004|||Regression, Logistic||An odds ratio \< 1 indicates that the age of the wart is negatively correlated with positive treatment outcome and vice versa.|Using a logistic regression model for complete resolution status of largest primary injected wart (yes vs no) with wart age as a covariate.||1.004|0.998|0.5007
92286090|NCT02393417|184477273|SUPERIORITY||Odds Ratio (OR)|0.993||||0.0219|TWO_SIDED|95.0|0.987|0.999|||Regression, Logistic||An odds ratio \< 1 indicates that the age of the wart is negatively correlated with positive treatment outcome and vice versa.|Using a logistic regression model for complete resolution status of largest primary injected wart (yes vs no) with wart age as a covariate.||0.999|0.987|0.0219
92286091|NCT02393417|184477273|SUPERIORITY||Odds Ratio (OR)|1.0||||0.8267|TWO_SIDED|95.0|0.995|1.004|||Regression, Logistic||An odds ratio \< 1 indicates that the age of the wart is negatively correlated with positive treatment outcome and vice versa.|Using a logistic regression model for complete resolution status of largest primary injected wart (yes vs no) with wart age as a covariate.||1.004|0.995|0.8267
92286092|NCT02393417|184477274|SUPERIORITY||Odds Ratio (OR)|0.964||||0.1657|TWO_SIDED|95.0|0.915|1.015|||Regression, Logistic||An odds ratio \> 1 indicates that the age of the largest primary injected wart is positively correlated with the recurrence of any resolved wart and vice versa.|Using a logistic regression model for recurrence status of any resolved wart (yes vs no) with age of the largest primary injected wart as a covariate.||1.015|0.915|0.1657
92286093|NCT02393417|184477274|SUPERIORITY||Odds Ratio (OR)|1.0||||0.8168|TWO_SIDED|95.0|0.997|1.003|||Regression, Logistic||An odds ratio \> 1 indicates that the age of the largest primary injected wart is positively correlated with the recurrence of any resolved wart and vice versa.|Using a logistic regression model for recurrence status of any resolved wart (yes vs no) with age of the largest primary injected wart as a covariate.||1.003|0.997|0.8168
92286094|NCT02393417|184477274|SUPERIORITY||Odds Ratio (OR)|0.998||||0.4183|TWO_SIDED|95.0|0.993|1.003|||Regression, Logistic||An odds ratio \> 1 indicates that the age of the largest primary injected wart is positively correlated with the recurrence of any resolved wart and vice versa.|Using a logistic regression model for recurrence status of any resolved wart (yes vs no) with age of the largest primary injected wart as a covariate.||1.003|0.993|0.4183
92286095|NCT02393417|184477274|SUPERIORITY||Odds Ratio (OR)|1.001||||0.5572|TWO_SIDED|95.0|0.997|1.006|||Regression, Logistic||An odds ratio \> 1 indicates that the age of the largest primary injected wart is positively correlated with the recurrence of any resolved wart and vice versa.|Using a logistic regression model for recurrence status of any resolved wart (yes vs no) with age of the largest primary injected wart as a covariate.||1.006|0.997|0.5572
92286096|NCT02246166|184477292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.9473|TWO_SIDED|95.0|-0.77|0.83|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate|Difference is first named treatment minus the second named treatment such that a negative difference favors the first named treatment|||0.83|-0.77|0.9473
92286097|NCT02246166|184477293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.721|TWO_SIDED|95.0|-1.23|0.86|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate.|Difference is first named treatment minus the second named treatment such that a negative difference favors the first named treatme|||0.86|-1.23|0.7210
92286098|NCT02246166|184477294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.7445|TWO_SIDED|95.0|-1.07|1.49|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate.||||1.49|-1.07|0.7445
92286099|NCT02246166|184477295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.7662|TWO_SIDED|95.0|-1.32|1.78|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate||||1.78|-1.32|0.7662
92286100|NCT02246166|184477296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56||||0.5208|TWO_SIDED|95.0|-1.18|2.29|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate.|Difference is first named treatment minus the second named treatment such that a negative difference favors the first named treatment|||2.29|-1.18|0.5208
92286101|NCT02246166|184477297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.8993|TWO_SIDED|95.0|-1.71|1.94|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate.|Difference is first named treatment minus the second named treatment such that a negative difference favors the first named treatment|||1.94|-1.71|0.8993
92286102|NCT05025345|184477344|NON_INFERIORITY|Noninferiority margin equals -0.1|Mean Difference (Final Values)|-0.013|||||TWO_SIDED|90.0|-0.036|0.011||Success criteria was evaluated using lower confidence interval. No P-Value was calculated.||||||0.011|-0.036|
92181959|NCT00799409|184262683|SUPERIORITY_OR_OTHER||LS Means Difference|-16.03|||<|0.0001|TWO_SIDED|95.0|-19.99|-12.06||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-12.06|-19.99|<0.0001
92181960|NCT00799409|184262684|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.45|||<|0.0001|TWO_SIDED|95.0|-27.43|-17.47||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-17.47|-27.43|<0.0001
92181961|NCT00799409|184262685|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.93||||0.18|TWO_SIDED|95.0|-1.69|-0.16||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-0.16|-1.69|0.1800
92181962|NCT00799409|184262686|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.32||||0.0057|TWO_SIDED|95.0|-2.25|-0.4||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-0.40|-2.25|0.0057
92181963|NCT00799409|184262687|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.3||||0.1091|TWO_SIDED|95.0|-14.05|1.44||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||1.44|-14.05|0.1091
92181964|NCT00799409|184262688|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25||||0.2653|TWO_SIDED|95.0|-0.7|0.2||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.20|-0.70|0.2653
92181965|NCT00799409|184262689|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.49||||0.0038|TWO_SIDED|95.0|-10.81|-2.17||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-2.17|-10.81|0.0038
92263744|NCT01018680|184428565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.449||95.0||||This is the p-value for the BPOMS Total Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.449
92263745|NCT01018680|184428565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.265||95.0||||This is the p-value for the BPOMS Tension-Anxiety Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.265
92263746|NCT01018680|184428565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.18||95.0||||This is the p-value for the BPOMS Depression-Dejection Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.180
92263747|NCT01018680|184428565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.041||95.0||||This is the p-value for the BPOMS Anger-Hostility Score. 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.041
92263748|NCT01018680|184428565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.356||95.0||||This is the p-value for the BPOMS Vigor-Activity Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.356
92263749|NCT01018680|184428565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.862||95.0||||This is the p-value for the BPOMS Fatigue-Inertia Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.862
92263750|NCT01018680|184428565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.883||95.0||||This is the p-value for the BPOMS Confusion-Bewilderment Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.883
92263751|NCT01018680|184428566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.083||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.083
92263752|NCT01018680|184428567|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||<0.001
92181966|NCT00799409|184262690|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.75||||0.0001|TWO_SIDED|95.0|-6.96|-2.53||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-2.53|-6.96|0.0001
92263753|NCT01018680|184428568|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 30% Response (LOCF) based on 24-Hour Average Pain Ratings. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||<0.001
92263754|NCT01018680|184428568|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 50% Response (LOCF) based on 24-Hour Average Pain Ratings. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||<0.001
92263755|NCT01018680|184428569|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 30% Response (LOCF) based on BPI Average Pain Ratings.|Fisher Exact|||||||<0.001
92263756|NCT01018680|184428569|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 50% Response (LOCF) based on BPI Average Pain Ratings.|Fisher Exact|||||||<0.001
92263757|NCT01018680|184428570|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.012
92263758|NCT01018680|184428571|SUPERIORITY_OR_OTHER|||||||0.724||95.0||||This is the p-value for PCS Weight Gain. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.724
92263759|NCT01018680|184428571|SUPERIORITY_OR_OTHER|||||||0.106||95.0||||This is the p-value for PCS Weight Loss. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.106
92263760|NCT01018680|184428572|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.031
92263761|NCT01018680|184428573|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||This is the p-value for Diastolic Hypertension. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.063
92286103|NCT05025345|184477345|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92181967|NCT00799409|184262691|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.76||||0.0092|TWO_SIDED|95.0|-10.04|-1.47||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-1.47|-10.04|0.0092
92181968|NCT00799409|184262692|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.9195|TWO_SIDED|95.0|-0.37|0.33||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.33|-0.37|0.9195
92181969|NCT00799409|184262693|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.55||||0.0002|TWO_SIDED|95.0|-59.7|-19.39||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-19.39|-59.70|0.0002
92181970|NCT00799409|184262694|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.0002|TWO_SIDED|95.0|-0.13|-0.04||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-0.04|-0.13|0.0002
92181971|NCT00799409|184262695|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.4625|TWO_SIDED|95.0|-0.07|0.03||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.03|-0.07|0.4625
92181972|NCT00799409|184262696|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.6262|TWO_SIDED|95.0|-0.09|0.05||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.05|-0.09|0.6262
92181973|NCT00799409|184262697|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.998|TWO_SIDED|95.0|-0.08|0.08||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.08|-0.08|0.9980
92181974|NCT00799409|184262698|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.0151|TWO_SIDED|95.0|-0.19|-0.02||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-0.02|-0.19|0.0151
92181975|NCT00799409|184262699|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.0043|TWO_SIDED|95.0|-0.15|-0.03||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-0.03|-0.15|0.0043
92181976|NCT00799409|184262700|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.0371|TWO_SIDED|95.0|-0.08|0.0||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.00|-0.08|0.0371
92181977|NCT00799409|184262701|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.0965|TWO_SIDED|95.0|-0.06|0.01||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.01|-0.06|0.0965
92181978|NCT04323800|184262702|SUPERIORITY||Risk Difference (RD)|0.01||||0.42|ONE_SIDED|95.0||||One-sided p-value|Restricted Mean Survival Test statistic|||||||0.42
92181979|NCT04323800|184262703|SUPERIORITY||Risk Difference (RD)|-5.0||||0.67|TWO_SIDED|95.0|-31.0|19.0|||Chi-squared|||||19|-31|0.67
92263762|NCT01018680|184428573|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||This is the p-value for Systolic Hypertension. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.018
92181980|NCT04323800|184262704|SUPERIORITY||Risk Difference (RD)|-47.0||||0.06|TWO_SIDED|95.0|-100.0|2.0|||Chi-squared|||||2|-100|0.06
92181981|NCT02949297|184262743|OTHER|One-sided Clopper-Pearson 95% confidence interval|Clopper-Pearson|80.0|||||ONE_SIDED|95.0||95.0|||||One-sided Clopper-Pearson 95% confidence interval|||95||
92181982|NCT00731692|184262758|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.95||||0.544|TWO_SIDED|95.0|0.8|1.12|||Regression, Cox|||||1.12|0.80|0.544
92181983|NCT00458783|184262773|SUPERIORITY||Odds Ratio (OR)|0.77||||0.08|TWO_SIDED|95.0|0.5|1.2|||generalized estimating equation (GEE)|Generalized estimating equation (GEE) distinct-effects model||||1.2|0.50|0.08
92181984|NCT00458783|184262774|SUPERIORITY||Odds Ratio, log|0.64|||||TWO_SIDED|95.0|0.25|1.6||||||||1.6|0.25|
92181985|NCT00458783|184262775|SUPERIORITY||Odds Ratio, log|0.72|||||TWO_SIDED|95.0|0.26|2.0||||||||2.0|0.26|
92181986|NCT00458783|184262776|SUPERIORITY||Odds Ratio, log|0.9|||||TWO_SIDED|95.0|0.59|1.4||||||||1.4|0.59|
92181987|NCT00458783|184262777|SUPERIORITY||Odds Ratio, log|0.86|||||TWO_SIDED|95.0|0.43|1.8||||||||1.8|0.43|
92181988|NCT00458783|184262778|SUPERIORITY||Risk Ratio, log|0.81|||||TWO_SIDED|95.0|0.24|2.8||||||||2.8|0.24|
92181989|NCT00458783|184262779|SUPERIORITY||Odds Ratio, log|1.1|||||TWO_SIDED|95.0|0.8|1.5||||||||1.5|0.80|
92181990|NCT00458783|184262780|SUPERIORITY||Odds Ratio, log|0.43|||||TWO_SIDED|95.0|0.16|1.1||||||||1.1|0.16|
92181991|NCT00458783|184262781|SUPERIORITY||Odds Ratio, log|0.82|||||TWO_SIDED|95.0|0.39|1.7||||||||1.7|0.39|
92181992|NCT00458783|184262782|SUPERIORITY||Odds Ratio, log|0.82|||||TWO_SIDED|95.0|0.5|1.3||||||||1.3|0.50|
92181993|NCT00458783|184262783|SUPERIORITY||Odds Ratio, log|0.76|||||TWO_SIDED|95.0|0.18|3.2||||||||3.2|0.18|
92181994|NCT00458783|184262784|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.9|TWO_SIDED|95.0|0.94|1.29|||Regression, Cox||The 95%CI is interim adjusted.|||1.29|0.94|0.9
92181995|NCT00458783|184262785|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.07|TWO_SIDED|95.0|0.85|1.18|||Regression, Cox||The 95%CI is interim adjusted.|||1.18|0.85|0.07
92181996|NCT01737398|184262786|OTHER||Least Square Mean Difference|-19.73||||4e-08|TWO_SIDED|95.0|-26.43|-13.03|||MMRM|||||-13.03|-26.43|0.00000004
92181997|NCT01737398|184262787|OTHER||Least Square Mean Difference|-11.68||||0.0006|TWO_SIDED|95.0|-18.29|-5.06|||MMRM|||||-5.06|-18.29|0.0006
92181998|NCT02372799|184262805|SUPERIORITY||LSMD|-0.4||||0.7662|TWO_SIDED|95.0|-3.08|2.27|||MMRM|||||2.27|-3.08|0.7662
92181999|NCT02372799|184262805|SUPERIORITY||LSMD|-2.39||||0.1433|TWO_SIDED|95.0|-5.6|0.81|||MMRM|||||0.81|-5.60|0.1433
92182000|NCT02372799|184262806|SUPERIORITY||LSMD|-0.04||||0.7387|TWO_SIDED|95.0|-0.31|0.22|||MMRM|||||0.22|-0.31|0.7387
92182001|NCT02372799|184262806|SUPERIORITY||LSMD|-0.2||||0.2158|TWO_SIDED|95.0|-0.52|0.12|||MMRM|||||0.12|-0.52|0.2158
92182002|NCT00089609|184262814|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||.02
92182003|NCT00357994|184262830|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.91|STANDARD_ERROR_OF_MEAN|0.57||0.0015|TWO_SIDED|95.0|-3.05|-0.76||Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline and the natural logarithm of the mean daily dose of rescue medication on valid symptom diary days as covariates.|ANCOVA|||||-0.76|-3.05|0.0015
92263763|NCT01018680|184428574|SUPERIORITY_OR_OTHER|||||||0.249||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.249
92263764|NCT01018680|184428575|SUPERIORITY_OR_OTHER|||||||0.241||95.0||||This is the p-value for outpatient group visits. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.241
92182004|NCT00357994|184262831|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|1.86|STANDARD_ERROR_OF_MEAN|0.65||0.0059|TWO_SIDED|95.0|0.56|3.17|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||3.17|0.56|0.0059
92182005|NCT00357994|184262832|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-7.0|STANDARD_ERROR_OF_MEAN|2.8||0.0155|TWO_SIDED|95.0|-12.6|-1.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-1.4|-12.6|0.0155
92182006|NCT00357994|184262833|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0258|TWO_SIDED|95.0|-1.4|-0.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the baseline CGI-S as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-0.1|-1.4|0.0258
92286104|NCT00573443|184477355|SUPERIORITY_OR_OTHER||Ratio of episode-rate reduction ratios|0.5312|||<|0.0001|TWO_SIDED|95.0|0.4939|0.5714|||Regression, Longitudinal neg. binomial|||Analysis of PBA episode rates used longitudinal negative binomial regression with treatment, period, diagnosis and study site to estimate pre-post changes in log mean episode rate for each treatment group. Null hypothesis of equal pre-post episode rate reductions were tested: AVP-923-30/placebo = 1.||0.5714|0.4939|<0.0001
92286105|NCT00573443|184477355|SUPERIORITY_OR_OTHER||Ratio of episode-rate reduction ratios|0.5103|||<|0.0001|TWO_SIDED|95.0|0.4755|0.5477|||Regression, Longitudinal neg. binomial|||Analysis of PBA episode rates used longitudinal negative binomial regression with treatment, period, diagnosis and study site to estimate pre-post changes in log mean episode rate for each treatment group. Null hypothesis of equal pre-post episode rate reductions were tested: AVP-923-20/placebo = 1.||0.5477|0.4755|<0.0001
92286106|NCT04567186|184477367|SUPERIORITY|The superiority of the Test lens was concluded if the upper 95% confidence limit of the mean was below the pre-defined threshold +0.00 logMAR.|Least-square mean|-0.078|STANDARD_ERROR_OF_MEAN|0.0105|||TWO_SIDED|95.0|-0.099|-0.057|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom|Distance (4 meter)|It was calculated that 70 participants would have at least 90% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 1-week follow-up. Sample size was determined using one sample means test for equivalence||-0.057|-0.099|
92287148|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.252|||<|0.001|TWO_SIDED|95.0|0.195|0.309|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.309|0.195|<0.001
92182007|NCT00357994|184262834|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.0|STANDARD_ERROR_OF_MEAN|1.1||0.0086|TWO_SIDED|95.0|-5.3|-0.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-0.8|-5.3|0.0086
92182008|NCT00357994|184262835|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|1.4|STANDARD_ERROR_OF_MEAN|2.1||0.502|TWO_SIDED|95.0|-2.8|5.6|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||5.6|-2.8|0.5020
92182009|NCT00357994|184262836|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|0.07|STANDARD_ERROR_OF_MEAN|0.038||0.067|TWO_SIDED|95.0|-0.005|0.146|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding Baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||0.146|-0.005|0.0670
92286107|NCT04567186|184477367|SUPERIORITY|The superiority of the Test lens was concluded if the upper 95% confidence limit of the mean was below the pre-defined threshold + 0.17 logMAR.|Least-square mean|-0.059|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.079|-0.039|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom|Intermediate (64cm)|It was calculated that 70 participants would have at least 90% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 1-week follow-up. Sample size was determined using one sample means test for equivalence||-0.039|-0.079|
92286108|NCT04567186|184477367|SUPERIORITY|The superiority of the Test lens was concluded if the upper 95% confidence limit of the mean was below the pre-defined threshold +0.17 logMAR.|Least-square Mean|0.062|STANDARD_ERROR_OF_MEAN|0.0111|||TWO_SIDED|95.0|0.04|0.084|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom|Near (40cm)|It was calculated that 70 participants would have at least 90% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 1-week follow-up. Sample size was determined using one sample means test for equivalence||0.084|0.040|
92182010|NCT00357994|184262837|SUPERIORITY_OR_OTHER||Treament Difference (LS Mean)|-4.5|STANDARD_ERROR_OF_MEAN|3.1||0.1501|TWO_SIDED|95.0|-10.7|1.7|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||1.7|-10.7|0.1501
92182011|NCT00357994|184262838|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.08|STANDARD_ERROR_OF_MEAN|0.45||0.8574|TWO_SIDED|95.0|-0.98|0.82|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.82|-0.98|0.8574
92182012|NCT00357994|184262839|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-10.4|STANDARD_ERROR_OF_MEAN|4.3||0.0184|TWO_SIDED|95.0|-19.1|-1.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-1.8|-19.1|0.0184
92182013|NCT00357994|184262840|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-11.6|STANDARD_ERROR_OF_MEAN|4.5||0.0129|TWO_SIDED|95.0|-20.6|-2.5|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-2.5|-20.6|0.0129
92182014|NCT00357994|184262841|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-2.2|STANDARD_ERROR_OF_MEAN|3.4||0.5246|TWO_SIDED|95.0|-9.0|4.6|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||4.6|-9.0|0.5246
92182015|NCT00357994|184262842|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-4.5|STANDARD_ERROR_OF_MEAN|3.8||0.2423|TWO_SIDED|95.0|-12.0|3.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||3.1|-12.0|0.2423
92286109|NCT04567186|184477368|SUPERIORITY|The superiority of the Test lens was concluded if the lower confidence limit of the least-square mean was above the threshold of 32 points.|Least-square Mean|55.93|STANDARD_ERROR_OF_MEAN|2.9027|||TWO_SIDED|95.0|49.25|62.61|||Linear Mixed Model|The Kenward and Roger method was used for the denominator degrees of freedom||This study was powered to only test primary hypotheses.||62.61|49.25|
92286110|NCT04567186|184477368|NON_INFERIORITY|A Non-Inferiority margin of 5 points was used.|Least-square mean difference|-2.98|STANDARD_ERROR_OF_MEAN|1.4708|||TWO_SIDED|95.0|-5.893|-0.073|||Linear Mixed Model|The Kenward and Roger Method was used for the denominator degrees of freedom|mean difference was calculated as Test minus Control|This study was powered for only the primary hypotheses.||-0.073|-5.893|
92286111|NCT00904345|184477379|OTHER||||||||||||||||||Estimates of proportion event-free at 1 and 2 years calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals were calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
92182016|NCT00357994|184262843|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.8|STANDARD_ERROR_OF_MEAN|3.1||0.2243|TWO_SIDED|95.0|-9.9|2.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||2.4|-9.9|0.2243
92182017|NCT00357994|184262844|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-4.0|STANDARD_ERROR_OF_MEAN|3.4||0.2407|TWO_SIDED|95.0|-10.8|2.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||2.8|-10.8|0.2407
92182018|NCT00357994|184262845|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-13.8|STANDARD_ERROR_OF_MEAN|3.5||0.0002|TWO_SIDED|95.0|-20.8|-6.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-6.8|-20.8|0.0002
92182019|NCT00357994|184262846|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.3|STANDARD_ERROR_OF_MEAN|5.1||0.5213|TWO_SIDED|95.0|-13.6|6.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||6.9|-13.6|0.5213
92182020|NCT00357994|184262847|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3741|TWO_SIDED|95.0|-0.4|0.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.9|-0.4|0.3741
92263765|NCT01018680|184428575|SUPERIORITY_OR_OTHER|||||||0.087||95.0||||This is the p-value for outpatient individual visits. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.087
92263766|NCT01018680|184428575|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||This is the p-value for emergency room visits for non-psychiatric illness. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.414
92263767|NCT01018680|184428575|SUPERIORITY_OR_OTHER|||||||0.332||95.0||||This is the p-value for outpatient visits to other physicians. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.332
92263768|NCT01018680|184428575|SUPERIORITY_OR_OTHER|||||||0.183||95.0||||This is the p-value for the average number of hours worked for pay per week. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.183
92263769|NCT01018680|184428575|SUPERIORITY_OR_OTHER|||||||0.666||95.0||||This is the p-value for how long the participant has had this job. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.666
92263770|NCT01018680|184428575|SUPERIORITY_OR_OTHER|||||||0.89||95.0||||This is the p-value for the average number of hours of volunteer work per week. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.890
92263771|NCT01018680|184428575|SUPERIORITY_OR_OTHER|||||||0.413||95.0||||This is the p-value for psychiatric visits. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.413
92263772|NCT05056311|184428580|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||||||0.001
92263773|NCT05056311|184428581|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||||||0.001
92263774|NCT05056311|184428582|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||||||0.001
92263775|NCT05056311|184428584|SUPERIORITY|||||||0.0001||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||||||0.0001
92263776|NCT05056311|184428585|SUPERIORITY|||||||0.6374||||||The a priori threshold for statistical significance was \<0.05.|McNemar|||||||0.6374
92263777|NCT00665366|184428605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04||||0.058|TWO_SIDED|95.0|-4.14|0.07|||ANCOVA|||||0.07|-4.14|0.058
92263778|NCT00665366|184428606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.669|TWO_SIDED|95.0|-0.16|0.25|||ANOVA/ANCOVA||Week 3|||0.25|-0.16|0.669
92263779|NCT00665366|184428606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.436|TWO_SIDED|95.0|-0.36|0.16|||ANOVA/ANCOVA||Week 6|||0.16|-0.36|0.436
92263780|NCT00665366|184428606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.053|TWO_SIDED|95.0|-0.56|0.0|||ANOVA/ANCOVA||Week 9|||0.00|-0.56|0.053
92263781|NCT00665366|184428606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.044|TWO_SIDED|95.0|-0.59|-0.01|||ANOVA/ANCOVA||Week 12|||-0.01|-0.59|0.044
92263782|NCT00665366|184428607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.24|TWO_SIDED|95.0|-0.22|0.06|||ANOVA/ANCOVA model||Week 3|||0.06|-0.22|0.240
92263783|NCT00665366|184428607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.843|TWO_SIDED|95.0|-0.15|0.19|||ANOVA/ANCOVA model||Week 6|||0.19|-0.15|0.843
92263784|NCT00665366|184428607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.117|TWO_SIDED|95.0|-0.04|0.35|||ANOVA/ANCOVA model||Week 9|||0.35|-0.04|0.117
92263785|NCT00665366|184428607|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.17||||0.109|TWO_SIDED|95.0|-0.04|0.38|||ANOVA/ANCOVA model|Week 12||||0.38|-0.04|0.109
92263786|NCT00665366|184428608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.567|TWO_SIDED|95.0|-0.37|0.2|||ANOVA/ANCOVA model|Week 12||||0.20|-0.37|0.567
92263787|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.566|TWO_SIDED|95.0|-1.66|3.03|||ANCOVA||Total score: Week 3|||3.03|-1.66|0.566
92263788|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.66||||0.221||95.0|-1.0|4.32|||ANCOVA||Total score: Week 6|||4.32|-1.00|0.221
92263789|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47||||0.315|TWO_SIDED|95.0|-1.4|4.35|||ANCOVA||Total score: Week 9|||4.35|-1.40|0.315
92182021|NCT00357994|184262848|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.2|STANDARD_ERROR_OF_MEAN|0.6||0.0361|TWO_SIDED|95.0|-2.4|-0.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-0.1|-2.4|0.0361
92182022|NCT00357994|184262849|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.3578|TWO_SIDED|95.0|-1.1|0.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.4|-1.1|0.3578
92182023|NCT00357994|184262850|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.5|STANDARD_ERROR_OF_MEAN|2.9||0.6088|TWO_SIDED|95.0|-7.4|4.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||4.4|-7.4|0.6088
92182024|NCT00357994|184262851|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|11.4|STANDARD_ERROR_OF_MEAN|3.7||0.0033|TWO_SIDED|95.0|4.0|18.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||18.9|4.0|0.0033
92182025|NCT01767688|184262854|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio (GMR)|0.94|||||TWO_SIDED|95.0|0.79|1.11|||Geometric least-squares mean ratio (GMR)|||||1.11|0.79|
92182026|NCT01767688|184262855|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio (GMR)|0.94|||||TWO_SIDED|95.0|0.81|1.1|||Geometric least-squares mean ratio (GMR)|||||1.10|0.81|
92286112|NCT00904345|184477380|OTHER||||||||||||||||||Survival proportion estimates at 1 and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
92286113|NCT00904345|184477384|OTHER||||||||||||||||||Estimates of proportion LRP event-free at 1 and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
92182027|NCT01767688|184262856|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio (GMR)|0.81|||||TWO_SIDED|95.0|0.51|1.28|||Geometric least-squares mean ratio (GMR)|||||1.28|0.51|
92182028|NCT01767688|184262857|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio (GMR)|1.03|||||TWO_SIDED|95.0|0.93|1.15|||Geometric least-squares mean ratio (GMR)|||||1.15|0.93|
92182029|NCT01354444|184262888|OTHER||Coefficient|1.48||||0.565|TWO_SIDED|95.0|-3.796|6.761|||Regression, Linear|||This analysis compares immediate recall before and after 6 months between the treatment and placebo group.||6.761|-3.796|0.565
92182030|NCT01354444|184262889|OTHER|||||||0.481|||||||Rank sum test|||This analysis compares the change in total Tau between the treatment and placebo group from baseline to 6 months later.||||0.481
92286114|NCT02481830|184477385|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.1144|TWO_SIDED|95.0|0.72|1.04|||Log Rank||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab over Topotecan/Amrubicin|||1.04|0.72|0.1144
92286115|NCT02481830|184477386|SUPERIORITY||Hazard Ratio (HR)|1.39|||||TWO_SIDED|95.0|1.16|1.66|||||Hazard Ratio is Nivolumab over Topotecan/Amrubicin using Stratified Cox proportional hazard model|||1.66|1.16|
92286116|NCT02481830|184477387|SUPERIORITY||Estimate of Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.49|1.24|||||Strata adjusted odds ratio (Nivolumab over Topotecan/Amrubicin) using Mantel-Haenszel method|||1.24|0.49|
92182031|NCT01354444|184262889|OTHER|||||||0.0562|||||||Rank sum test|||This analysis compares the change in Abeta42 between the treatment and placebo group from baseline to 6 months later.||||0.0562
92182032|NCT01354444|184262889|OTHER|||||||0.314|||||||Rank sum test|||This analysis compares the change in p-tau between the treatment and placebo group from baseline to 6 months later.||||0.314
92182033|NCT01354444|184262889|OTHER|||||||0.438|||||||Rank sum test|||This analysis compares the change in oligomeric Abeta between the treatment and placebo group from baseline to 6 months later.||||0.438
92182034|NCT00982072|184262891|OTHER|||||||0.12|||||||Fisher Exact|||||||0.12
92182035|NCT03559205|184262898|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.96|TWO_SIDED|95.0|-0.74|0.7|||t-test, 2 sided|||2 Week Analysis||0.70|-0.74|0.96
92182036|NCT03559205|184262899|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.9|TWO_SIDED|95.0|-2.31|2.04|||t-test, 2 sided|||Baseline||2.04|-2.31|0.90
92182037|NCT03559205|184262899|SUPERIORITY||Mean Difference (Final Values)|2.01||||0.21|TWO_SIDED|95.0|-1.17|5.19|||t-test, 2 sided|||2 Week Analysis||5.19|-1.17|0.21
92182038|NCT03559205|184262899|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.63|TWO_SIDED|95.0|-2.95|4.83|||t-test, 2 sided|||3-Month||4.83|-2.95|0.63
92286117|NCT02481830|184477388|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.73|1.04|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab over Topotecan/Amrubicin|||1.04|0.73|
92286118|NCT00772941|184477389|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Gender. The null hypothesis is that there is no difference between Male and Female in the frequency of Treatment Related Adverse Events."||||<0.001
92286119|NCT00772941|184477390|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Age. The null hypothesis is that there is no difference between \<65 years and \>=65 years in the frequency of Treatment Related Adverse Events."||||<0.001
92286120|NCT00772941|184477391|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Chronic obstructive pulmonary disease as a complication. The null hypothesis is that there is no difference between Varenicline with and without Chronic obstructive pulmonary disease as a complication in the frequency of Treatment Related Adverse Events."||||<0.001
92286121|NCT00772941|184477392|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was concomitant drugs. The null hypothesis is that there is no difference between Varenicline with and without concomitant drugs in the frequency of Treatment Related Adverse Events."||||<0.001
92286122|NCT00772941|184477393|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was concomitant therapies. The null hypothesis is that there is no difference between Varenicline with and without concomitant therapies in the frequency of Treatment Related Adverse Events."||||<0.001
92286123|NCT00772941|184477394|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Weight at Baseline. The null hypothesis is that there is no association between Weight at Baseline and the frequency of Treatment Related Adverse Events."||||<0.001
92182039|NCT03559205|184262900|SUPERIORITY||Mean Difference (Final Values)|2.63||||0.15|TWO_SIDED|95.0|-1.0|6.26|||t-test, 2 sided|||Baseline||6.26|-1.00|0.15
92286124|NCT00772941|184477394|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Armitage|||"The risk factor tested was Weight at Baseline. The null hypothesis is that there is no linear trend in the frequency of Treatment Related Adverse Events across increasing levels of Weight at Baseline."||||<0.001
92286125|NCT00772941|184477395|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Tobacco consumption per day. The null hypothesis is that there is no association between Tobacco consumption per day and the efficacy of Varenicline."||||<0.001
92182040|NCT03559205|184262900|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.3|TWO_SIDED|95.0|-2.02|6.45|||t-test, 2 sided|||Week 2 analysis||6.45|-2.02|0.30
92182041|NCT03559205|184262900|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.85|TWO_SIDED|95.0|-4.89|5.9|||t-test, 2 sided|||3-Month||5.90|-4.89|0.85
92182042|NCT03559205|184262901|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.72|TWO_SIDED|95.0|-0.51|0.74|||t-test, 2 sided|||Care and respect||0.74|-0.51|0.72
92286126|NCT00772941|184477395|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Armitage|||"The risk factor tested was Tobacco consumption per day. The null hypothesis is that there is no linear trend in the efficacy of Varenicline across increasing levels of tobacco consumption per day."||||<0.001
92286127|NCT00772941|184477396|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was prolonged administration after 12 weeks. The null hypothesis is that there is no difference between administration prolonged after 12 weeks and administration not prolonged after 12 weeks in the efficacy of Varenicline."||||<0.001
92286128|NCT00772941|184477397|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was antipsychotics as a concomitant drug. The null hypothesis is that there is no difference between Varenicline with and without antipsychotics as a concomitant drug in the efficacy of Varenicline."||||<0.001
92287149|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.238|||<|0.001|TWO_SIDED|95.0|0.182|0.295|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.295|0.182|<0.001
92182043|NCT03559205|184262901|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.46|TWO_SIDED|95.0|-0.38|0.83|||t-test, 2 sided|||Understanding \& engagement||0.83|-0.38|0.46
92182044|NCT03559205|184262902|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.3|TWO_SIDED|95.0|-0.13|0.42|||t-test, 2 sided|||2-weeks||0.42|-0.13|0.30
92182045|NCT03559205|184262902|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.38|TWO_SIDED|95.0|-0.2|0.52|||t-test, 2 sided|||3-months||0.52|-0.20|0.38
92263790|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.88||||0.212|TWO_SIDED|95.0|-1.08|4.84|||ANCOVA||Total score: Week 12|||4.84|-1.08|0.212
92263791|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.991|TWO_SIDED|95.0|-0.49|0.48|||ANCOVA||Autonomy score: Week 3|||0.48|-0.49|0.991
92263792|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.201|TWO_SIDED|95.0|-0.18|0.85|||ANCOVA||Autonomy score: Week 6|||0.85|-0.18|0.201
92263793|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.198|TWO_SIDED|95.0|-0.19|0.93|||ANCOVA||Autonomy score: Week 9|||0.93|-0.19|0.198
92263794|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.178|TWO_SIDED|95.0|-0.18|0.96|||ANCOVA||Autonomy score: Week 12|||0.96|-0.18|0.178
92263795|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.311|TWO_SIDED|95.0|-1.01|0.32|||ANCOVA||Occupational functioning score: Week 3|||0.32|-1.01|0.311
92263796|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.671|TWO_SIDED|95.0|-0.94|0.61|||ANCOVA||Occupational functioning score: Week 6|||0.61|-0.94|0.671
92263797|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.968|TWO_SIDED|95.0|-0.83|0.79|||ANCOVA||Occupational functioning score: Week 9|||0.79|-0.83|0.968
92263798|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.546|TWO_SIDED|95.0|-0.56|1.07|||ANCOVA||Occupational functioning score: Week 12|||1.07|-0.56|0.546
92263799|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.284|TWO_SIDED|95.0|-0.28|0.96|||ANCOVA||Cognitive functioning score: Week 3|||0.96|-0.28|0.284
92263800|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.063|TWO_SIDED|95.0|-0.04|1.35|||ANCOVA||Cognitive functioning score: Week 6|||1.35|-0.04|0.063
92182046|NCT03559205|184262903|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.61|TWO_SIDED|95.0|-1.48|0.88|||t-test, 2 sided|||||0.88|-1.48|0.61
92263801|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62||||0.09|TWO_SIDED|95.0|-0.1|1.34|||ANCOVA||Cognitive functioning score: Week 9|||1.34|-0.10|0.090
92263802|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.072|TWO_SIDED|95.0|-0.06|1.42|||ANCOVA||Cognitive functioning score: Week 12|||1.42|-0.06|0.072
92263803|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.499|TWO_SIDED|95.0|-0.45|0.93|||ANCOVA||Interpersonal relationships score: Week 3|||0.93|-0.45|0.499
92263804|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.457|TWO_SIDED|95.0|-0.48|1.06|||ANCOVA||Interpersonal relationships score: Week 6|||1.06|-0.48|0.457
92263805|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.525||95.0|-0.56|1.1|||ANCOVA||Interpersonal relationships score: Week 9|||1.10|-0.56|0.525
92263806|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.544|TWO_SIDED|95.0|-0.58|1.09|||ANCOVA||Interpersonal relationships score: Week 12|||1.09|-0.58|0.544
92263807|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.149|TWO_SIDED|95.0|-0.08|0.52|||ANCOVA||Leisure time score: Week 3|||0.52|-0.08|0.149
92263808|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.264|TWO_SIDED|95.0|-0.15|0.54|||ANCOVA||Leisure time score: Week 6|||0.54|-0.15|0.264
92263809|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.988|TWO_SIDED|95.0|-0.35|0.35|||ANCOVA||Leisure time score: Week 9|||0.35|-0.35|0.988
92263810|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.641|TWO_SIDED|95.0|-0.27|0.44|||ANCOVA||Leisure time score: Week 12|||0.44|-0.27|0.641
92263811|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.068|TWO_SIDED|95.0|-0.02|0.61|||ANCOVA||Financial issues score: Week 3|||0.61|-0.02|0.068
92263812|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.019|TWO_SIDED|95.0|0.07|0.74|||ANCOVA||Financial issues score: Week 6|||0.74|0.07|0.019
92263813|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.136|TWO_SIDED|95.0|-0.08|0.6|||ANCOVA||Financial issues score: Week 9|||0.60|-0.08|0.136
92263814|NCT00665366|184428609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.18||95.0|-0.11|0.57|||ANCOVA||Financial issues score: Week 12|||0.57|-0.11|0.18
92263815|NCT00665366|184428610|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.13||||0.466|TWO_SIDED|95.0|0.81|1.59|||Ration of response||Week 3|||1.59|0.81|0.466
92263816|NCT00665366|184428610|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||0.54|TWO_SIDED|95.0|0.86|1.32|||Risk ratio||Week 6|||1.32|0.86|0.540
92263817|NCT00665366|184428610|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.17||||0.06|TWO_SIDED|95.0|0.99|1.38|||Risk ratio||Week 9|||1.38|0.99|0.060
92263818|NCT00665366|184428610|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||0.289|TWO_SIDED|95.0|0.94|1.23|||Risk ratio|||||1.23|0.94|0.289
92263819|NCT00665366|184428611|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02||||0.909|TWO_SIDED|95.0|0.75|1.39|||Risk ratio (RR)||Week 3|||1.39|0.75|0.909
92263820|NCT00665366|184428611|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06||||0.573|TWO_SIDED|95.0|0.86|1.3|||RR||Week 6|||1.30|0.86|0.573
92286129|NCT00467363|184477420|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.0984|TWO_SIDED|95.0|0.98|1.22||Only one outcome for primary outcome, so no adjustment of p-value for multiple comparisons was done. A priori threshold for statistical significance was p\<0.05.|Fisher Exact|No adjustments were done. Treatment groups were similar with respect to the assessed demographic and baseline characteristics||The study was designed to detect a 10% absolute difference in livebirth rate with 80% power and a type I error rate of 5%, on the assumption that participants taking placebo who achieved pregnancy would have a livebirth rate of 75%.||1.22|0.98|0.0984
92286130|NCT00467363|184477421|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.0165|TWO_SIDED|95.0|1.02|1.19|||Fisher Exact|||||1.19|1.02|.0165
92286131|NCT00467363|184477422|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.0329|TWO_SIDED|95.0|1.01|1.19|||Fisher Exact|||||1.19|1.01|.0329
92286132|NCT00467363|184477423|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06||||0.8902|TWO_SIDED|95.0|0.64|1.78|||Fisher Exact|||||1.78|.64|.8902
92286133|NCT00467363|184477424|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08||||0.6869|TWO_SIDED|95.0|0.76|1.55|||Fisher Exact|||||1.55|.76|.6869
92286134|NCT00467363|184477425|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.68||||0.753|TWO_SIDED|95.0|0.19|2.41|||Fisher Exact|||||2.41|.19|.7530
92286135|NCT00467363|184477426|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||1|TWO_SIDED|95.0|0.15|7.26|||Fisher Exact|||||7.26|.15|1.000
92286136|NCT00467363|184477427|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||1|TWO_SIDED|95.0|0.21|5.06|||Fisher Exact|||||5.06|.21|1.000
92182047|NCT01335867|184262916|SUPERIORITY|||||||0.14|||||||Chi-squared|||||||.14
92286137|NCT00467363|184477428|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||1|TWO_SIDED|95.0|0.21|5.06|||Fisher Exact|||||5.06|.21|1.000
92286138|NCT00467363|184477429|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08||||0.7943|TWO_SIDED|95.0|0.67|1.76|||Fisher Exact|||||1.76|.67|.7943
92182048|NCT01335867|184262918|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||.24
92182049|NCT01335867|184262919|SUPERIORITY|||||||0.2|||||||Chi-squared|||||||.20
92182050|NCT01335867|184262920|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||.64
92182051|NCT01953692|184262933|SUPERIORITY||||||>|0.9999||||||one-sided p value|exact binomial distribution|||Comparison to a fixed efficacy target of 10%. H0: p ≤ 0.10 versus H1: p \> 0.10||||>0.9999
92182052|NCT01953692|184262934|SUPERIORITY||||||>|0.9999||||||one-sided p-value|exact binomial distribution|||Comparison to a fixed efficacy target of 25%. H0: p ≤ 0.25 versus H1: p \> 0.25||||>0.9999
92182053|NCT01953692|184262935|SUPERIORITY|||||||0.0306||||||one-sided p-value|exact binomial distribution|||Comparison to a fixed efficacy target of 10%. H0: p ≤ 0.10 versus H1: p \> 0.10||||0.0306
92286139|NCT00467363|184477430|SUPERIORITY_OR_OTHER|||||||0.7802|||||||t-test, 2 sided|||||||.7802
92286140|NCT00467363|184477431|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.72||||0.2603|TWO_SIDED|95.0|0.42|1.23|||Fisher Exact|||||1.23|.42|.2603
92286141|NCT00467363|184477434|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.3||||0.77|TWO_SIDED|95.0|-0.8|1.4|||Fisher Exact|||||1.4|-0.8|0.77
92286142|NCT03181594|184477435|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||The null hypothesis was that the mean change from baseline for the rTNSS would be 0 (no effect). Assumptions included an alpha level of 0.5 (2-tailed), 90% power, and a standard deviation of 2.5 for the mean change from baseline. A total of 68 participants was deemed adequate to test the hypothesis.||||<0.001
92286143|NCT03181594|184477437|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92286144|NCT03181594|184477438|SUPERIORITY||||||<|0.001||||||p\<0.001 at all time periods. p\<0.05 was considered statistically significant.|Wilcoxon signed rank|||||||<0.001
92286145|NCT02834663|184477440|SUPERIORITY||Mean Difference (Final Values)|-8.76|STANDARD_DEVIATION|12.521|<|0.0001|TWO_SIDED|95.0|-13.928|-3.592||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||Patients were evaluated for changes in BCVA of the treated eye, from the start of the study till 6 months, until trial completion. After administration of each injection, measurements of BCVA were compared to their respective baseline results. The paired t-test and repeated measures ANOVA was performed for comparative analysis, as all showed normality.||-3.592|-13.928|<0.0001
92286146|NCT02834663|184477441|SUPERIORITY||Mean Difference (Final Values)|110.0|STANDARD_DEVIATION|65.919||0.0001|TWO_SIDED|95.0|82.79|137.21||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||137.210|82.790|0.0001
92286147|NCT02834663|184477442|SUPERIORITY||Mean Difference (Final Values)|3.92|STANDARD_DEVIATION|4.932||0.001|TWO_SIDED|95.0|1.884|5.956||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||5.956|1.884|0.001
92286148|NCT02834663|184477443|SUPERIORITY||Mean Difference (Final Values)|2.23|STANDARD_DEVIATION|2.24||0.0001|TWO_SIDED|95.0|1.3|3.15||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||3.15|1.30|0.0001
92286149|NCT02834663|184477444|SUPERIORITY||Mean Difference (Final Values)|5.64|STANDARD_DEVIATION|7.21||0.0001|TWO_SIDED|95.0|2.67|8.62||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||8.62|2.67|0.0001
92286150|NCT02834663|184477445|SUPERIORITY||Mean Difference (Final Values)|5.64|STANDARD_DEVIATION|7.21||0.0001|TWO_SIDED|95.0|2.67|8.62||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||8.62|2.67|0.0001
92286151|NCT02834663|184477446|SUPERIORITY||Mean Difference (Final Values)|0.021|STANDARD_DEVIATION|1.87||0.221|TWO_SIDED|95.0|-0.751|0.795||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||0.795|-0.751|0.221
92286152|NCT00904215|184477454|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Student Paired t-test|||||||<0.0001
92286153|NCT00904215|184477455|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Student Paired t-test|||||||<0.0001
92286154|NCT00904215|184477456|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Student Paired t-test|||||||<0.0001
92286155|NCT00904215|184477457|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Student Paired t-test|||||||<0.0001
92286156|NCT00982397|184477461|SUPERIORITY_OR_OTHER||percentage of participants|98.5|||||TWO_SIDED|95.0|97.9|99.0|||||Therapy rates were analyzed using competing risks survival analysis methods, accounting for death as a competing risk.Therapy incidence rates were estimated using cumulative incidence functions and reported with 95% confidence interval.|The study was designed to include at least 1,131 patients with DR/CRT-D ICD devices in order to estimate the inappropriate shock free rate at 1 year post-implant with 1% precision.||99.0|97.9|
92182054|NCT01953692|184262936|SUPERIORITY|||||||0.7696||||||one-sided p-value|exact binomial distribution|||Comparison to a fixed efficacy target of 25%. H0: p ≤ 0.25 versus H1: p \> 0.25||||0.7696
92182055|NCT00176202|184262981|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||||||<0.01
92182056|NCT00176202|184262981|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||||||<0.01
92182057|NCT00176202|184262982|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||||||<.01
92182058|NCT00176202|184262982|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Chi-squared|||||||0.01
92182059|NCT00176202|184262983|SUPERIORITY_OR_OTHER||effect size|-1.59|||<|0.01|TWO_SIDED|||||In case of both risperidone and divalproex sodium.|Chi-squared|||||||<0.01
92182060|NCT00176202|184262983|SUPERIORITY_OR_OTHER||Effect size|-1.33|||<|0.01|TWO_SIDED||||||Chi-squared|||||||<0.01
92182061|NCT00176202|184262984|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||baseline is compared to LOCF to determine the p value.||||<0.01
92182062|NCT00176202|184262984|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||||||<0.01
92182063|NCT00731614|184262985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.322|||||||Repeated Measure ANOVA|||Conducted a repeated measures ANOVA comparing CBT+mirror retraining with Supportive Therapy across 11 time points. The primary hypothesis was a group by time interaction. Due to missing data, a total of 9 and 14 participants, respectively could be included in analyses.||||.322
92182064|NCT02157948|184263003|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Testing: The lower bound of the 2-sided 95% CI of the between-group difference (denosumab CP4 - denosumab CP2) in percent change from baseline in lumbar spine BMD at 12 months was compared with the non-inferiority margin of -1.44% for assessing non-inferiority.|Difference from CP2|-0.07|||<|0.001|TWO_SIDED|95.0|-0.72|0.57||One-sided p-value based on the prespecified non-inferiority margin of -1.44% for lumbar spine.|ANCOVA|||The treatment comparison was analyzed using the analysis of covariance (ANCOVA) model including treatment, baseline BMD value, machine type, and machine type-by-baseline BMD value interaction. The effect of denosumab CP4 on lumbar spine BMD at 12 months relative to the effect of denosumab CP2 was estimated by the least-squares mean of the treatment difference (denosumab CP4 - denosumab CP2) and the corresponding 2-sided 95% confidence interval (CI).||0.57|-0.72|< 0.001
92182065|NCT02157948|184263003|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence Testing: The lower and upper bounds of the same 2-sided 95% CI of the between-group difference were compared with the equivalence margin of ±1.44% for assessing equivalence.|Difference from CP2|-0.07|||<|0.001|TWO_SIDED|95.0|-0.72|0.57||Two-sided p-value based on the prespecified equivalence margin of ±1.44% for lumbar spine.|ANCOVA|||The treatment comparison was analyzed using the analysis of covariance (ANCOVA) model including treatment, baseline BMD value, machine type, and machine type-by-baseline BMD value interaction. The effect of denosumab CP4 on lumbar spine BMD at 12 months relative to the effect of denosumab CP2 was estimated by the least-squares mean of the treatment difference (denosumab CP4 - denosumab CP2) and the corresponding 2-sided 95% confidence interval (CI).||0.57|-0.72|< 0.001
92182066|NCT04119063|184263047|OTHER|Paired t-tests comparing change in % difference following high vs low frequency gait training.||||||0.204|||||||t-test, 2 sided|||||||0.204
92182067|NCT04119063|184263048|OTHER|Paired t-test||||||0.049|||||||t-test, 2 sided|||||||0.049
92182068|NCT04119063|184263049|OTHER|Paired t-tests comparing change in % difference following high vs low frequency gait training.||||||0.039|||||||t-test, 2 sided|||||||0.039
92182069|NCT04119063|184263050|OTHER|Paired t-tests comparing change in % difference following high vs low frequency gait training.||||||0.242|||||||t-test, 2 sided|||||||0.242
92182070|NCT04119063|184263051|OTHER|Paired t-tests comparing change in % difference following high vs low frequency gait training.||||||0.014|||||||t-test, 2 sided|||||||.014
92182071|NCT00145470|184263067|SUPERIORITY|||||||0.0257||||||P-value based on the difference in the least squares (LS) means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.0257
92182072|NCT00145470|184263070|SUPERIORITY|||||||0.021||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 42||||0.0210
92182073|NCT00145470|184263071|SUPERIORITY|||||||0.0073||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.0073
92182074|NCT00145470|184263072|SUPERIORITY|||||||0.3928|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 3||||0.3928
92182075|NCT00145470|184263072|SUPERIORITY|||||||0.7923|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 7||||0.7923
92182076|NCT00145470|184263072|SUPERIORITY|||||||0.0701|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 14||||0.0701
92182077|NCT00145470|184263072|SUPERIORITY|||||||0.1634|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 21||||0.1634
92182078|NCT00145470|184263072|SUPERIORITY|||||||0.037|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 42||||0.0370
92182079|NCT00145470|184263072|SUPERIORITY|||||||0.0488|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 63||||0.0488
92182080|NCT00145470|184263072|SUPERIORITY|||||||0.0152|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 84||||0.0152
92182081|NCT00145470|184263073|SUPERIORITY|||||||0.3709|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 3||||0.3709
92182082|NCT00145470|184263073|SUPERIORITY|||||||0.8837|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 7||||0.8837
92182083|NCT00145470|184263073|SUPERIORITY|||||||0.1153|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 14||||0.1153
92182084|NCT00145470|184263073|SUPERIORITY|||||||0.0158|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 21||||0.0158
92182085|NCT00145470|184263073|SUPERIORITY|||||||0.0143|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 42||||0.0143
92263821|NCT00665366|184428611|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.16||||0.08|TWO_SIDED|95.0|0.98|1.36|||RR||Week 9|||1.36|0.98|0.080
92263822|NCT00665366|184428611|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.211|TWO_SIDED|95.0|0.95|1.27|||RR||Week 12|||1.27|0.95|0.211
92182086|NCT00145470|184263073|SUPERIORITY|||||||0.0196|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 63||||0.0196
92182087|NCT00145470|184263073|SUPERIORITY|||||||0.0148|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 84||||0.0148
92182088|NCT00145470|184263074|SUPERIORITY|||||||0.0046||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.0046
92182089|NCT00145470|184263075|SUPERIORITY|||||||0.0006||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.0006
92182090|NCT00145470|184263076|SUPERIORITY|||||||0.3497||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.3497
92263823|NCT00665366|184428612|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.68|||||TWO_SIDED|95.0|0.07|1.29|||ANOVA/ANCOVA model||Week 6|||1.29|0.07|
92263824|NCT00665366|184428612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83||||0.031|TWO_SIDED|95.0|0.08|1.58|||ANOVA/ANCOVA model||Week 12|||1.58|0.08|0.031
92263825|NCT00665366|184428612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.104|TWO_SIDED|95.0|-0.13|1.34|||ANOVA/ANCOVA model||Week 12 (LOCF)|||1.34|-0.13|0.104
92263826|NCT00665366|184428613|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|||||TWO_SIDED|95.0|-0.21|0.32|||ANCOVA||Week 3|||0.32|-0.21|
92182091|NCT00145470|184263077|SUPERIORITY|||||||0.7753||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.7753
92182092|NCT00145470|184263078|SUPERIORITY|||||||0.0073||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.0073
92182093|NCT00145470|184263079|SUPERIORITY|||||||0.0102||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.0102
92263827|NCT00665366|184428613|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|-0.05|0.53|||ANCOVA||Week 6|||0.53|-0.05|
92263828|NCT00665366|184428613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.197|TWO_SIDED|95.0|-0.11|0.54|||ANCOVA||Week 12|||0.54|-0.11|0.197
92263829|NCT00665366|184428613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.111|TWO_SIDED|95.0|-0.07|0.63|||ANCOVA||Week 12 (LOCF)|||0.63|-0.07|0.111
92263830|NCT00665366|184428614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.983|TWO_SIDED|95.0|-0.63|0.64|||ANOVA/ANCOVA model||Week 12 LOCF|||0.64|-0.63|0.983
92263831|NCT00665366|184428615|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.45|||||TWO_SIDED|95.0|0.57|3.71|||Risk Ratio|Weight gain||||3.71|0.57|
92263832|NCT00665366|184428616|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.582||95.0|||||ANCOVA|||||||0.582
92263833|NCT03628781|184428619|SUPERIORITY||Odds Ratio (OR)|0.384||||0.535|TWO_SIDED||||||Chi-squared|||||||.535
92263834|NCT03628781|184428620|SUPERIORITY||Slope|0.018|STANDARD_ERROR_OF_MEAN|0.081||0.829|TWO_SIDED||||||ANOVA|||||||.829
92263835|NCT03628781|184428621|SUPERIORITY||Slope|-0.105|STANDARD_ERROR_OF_MEAN|0.093||0.357|TWO_SIDED||||||ANOVA|||||||.357
92263836|NCT03628781|184428622|SUPERIORITY||Slope|-0.035|STANDARD_ERROR_OF_MEAN|0.126||0.782|TWO_SIDED||||||ANOVA|||||||.782
92263837|NCT00994123|184428626|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35||||0.008|TWO_SIDED|95.0|0.16|0.76|||Log Rank|||||0.76|0.16|0.008
92263838|NCT00994123|184428626|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.15||||0.059|TWO_SIDED|95.0|0.97|4.76|||Log Rank|||||4.76|0.97|0.059
92263839|NCT04051320|184428678|SUPERIORITY||F statistic|2.164||||0.16|TWO_SIDED||||||repeated measures ANOVA|||||||0.160
92263840|NCT04051320|184428679|SUPERIORITY||F statistic|1.74||||0.1922|TWO_SIDED||||||ANOVA|||||||0.1922
92263841|NCT04051320|184428680|SUPERIORITY||F statistic|0.837||||0.368|TWO_SIDED||||||ANOVA|||||||0.368
92263842|NCT04051320|184428681|SUPERIORITY||F statistic|0.23||||0.881|TWO_SIDED||||||ANOVA|||||||0.881
92263843|NCT04051320|184428682|SUPERIORITY||F statistic|16.541||||0.000723|TWO_SIDED||||||ANOVA|||||||0.000723
92263844|NCT04051320|184428683|SUPERIORITY||F statistic|0.072||||0.791|TWO_SIDED||||||ANOVA|||||||0.791
92263845|NCT04051320|184428684|SUPERIORITY||F statistic|4.952||||0.0372|TWO_SIDED||||||ANOVA|||||||0.0372
92263846|NCT04051320|184428685|SUPERIORITY||F statistic|3.258||||0.0861|TWO_SIDED||||||ANOVA|||||||0.0861
92263847|NCT04051320|184428686|SUPERIORITY||F statistic|2.37||||0.139|TWO_SIDED||||||ANOVA|||||||0.139
92263848|NCT04051320|184428687|SUPERIORITY||F statistic|1.484||||0.237|TWO_SIDED||||||ANOVA|||||||0.237
92263849|NCT04051320|184428688|SUPERIORITY||F statistic|0.013||||0.91|TWO_SIDED||||||ANOVA|||||||0.910
92263850|NCT04051320|184428689|SUPERIORITY||F statistic|4.609||||0.0449|TWO_SIDED||||||ANOVA|||||||0.0449
92263851|NCT04051320|184428690|SUPERIORITY|||||||0.322|||||||Pearson's Correlation Coefficient|||||||0.322
92263852|NCT04051320|184428690|SUPERIORITY|||||||0.772|||||||Pearson's Correlation Coefficient|||||||0.772
92263853|NCT04051320|184428691|SUPERIORITY||Pearson's r|-0.568314||||0.068|TWO_SIDED||||||Pearson correlation|||||||0.068
92263854|NCT04051320|184428691|SUPERIORITY||Pearson's r|-0.082904||||0.8759289|TWO_SIDED||||||Pearson correlation|||||||0.8759289
92263855|NCT04051320|184428692|SUPERIORITY||Pearson's r|-0.1275539||||0.70859639|TWO_SIDED||||||Pearson correlation|||||||0.70859639
92263856|NCT04051320|184428692|SUPERIORITY||Pearson's r|0.49225646||||0.2617744|TWO_SIDED||||||Pearson correlation|||||||0.2617744
92263857|NCT04051320|184428693|SUPERIORITY|||||||0.568|||||||Pearson's Correlation Coefficient|||||||0.568
92263858|NCT04051320|184428693|SUPERIORITY|||||||0.944|||||||Pearson's Correlation Coefficient|||||||0.944
92263859|NCT04051320|184428694|SUPERIORITY|||||||0.103|||||||Pearson's Correlation Coefficient|||||||0.103
92263860|NCT01294319|184428707|SUPERIORITY|||||||0.4872|||||||Fisher Exact|||||||0.4872
92263861|NCT01294319|184428708|SUPERIORITY|||||||0.2786|||||||t-test, 2 sided|||||||0.2786
92263862|NCT01140646|184428817|SUPERIORITY_OR_OTHER|||||||0.0903||||||One sided t-test with 0.05 error rate was employed.|t-test, 1 sided|||To determine whether any reduction in hot flash score is beyond what is expected with a placebo (20-25%). Reference: Sloan JA, et al. Methodologic lessons learned from hot flash studies. J Clin Oncol. Dec 1 2001;19(23):4280-4290.||||0.0903
92263863|NCT01140646|184428817|SUPERIORITY_OR_OTHER|||||||0.1553||||||One sided t-test with 0.05 error rate was employed.|t-test, 1 sided|||To determine whether any reduction in hot flash frequency is beyond what is expected with a placebo (20-25%). Reference: Sloan JA, et al. Methodologic lessons learned from hot flash studies. J Clin Oncol. Dec 1 2001;19(23):4280-4290.||||0.1553
92263864|NCT03006276|184428822|SUPERIORITY||Odds Ratio (OR)|2.0|||<|0.001|TWO_SIDED|95.0|1.36|2.94|||Fisher Exact|||Last Observation Carried Forward (LOCF)||2.94|1.36|<0.001
92263865|NCT03006276|184428822|SUPERIORITY||Odds Ratio (OR)|1.97|||<|0.001|TWO_SIDED|95.0|1.34|2.89|||Fisher Exact|||||2.89|1.34|<0.001
92182094|NCT00145470|184263080|SUPERIORITY|||||||0.3684||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.3684
92182095|NCT00145470|184263081|SUPERIORITY|||||||0.937||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.9370
92263866|NCT03006276|184428823|SUPERIORITY||Odds Ratio (OR)|1.68||||0.007|TWO_SIDED|95.0|1.17|2.43|||Fisher Exact|||last observation carried forward (LOCF)||2.43|1.17|0.007
92263867|NCT03006276|184428823|SUPERIORITY||Odds Ratio (OR)|1.69||||0.007|TWO_SIDED|95.0|1.16|2.44|||Fisher Exact|||observed cases (OC)||2.44|1.16|0.007
92263868|NCT00689728|184428849|SUPERIORITY_OR_OTHER|||||||0.178||95.0|||||Fisher Exact|||||||0.178
92263869|NCT00689728|184428849|SUPERIORITY_OR_OTHER|||||||0.116||95.0|||||Fisher Exact|||||||0.116
92263870|NCT00689728|184428851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.873||||0.062||95.0||||p-value represents change from baseline at 16 weeks for LY2127399 30 mg. vs. placebo in Physical Health Component scores.|ANCOVA|||||||0.062
92263871|NCT00689728|184428851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.427||||0.052||95.0||||p-value represents change from baseline at 16 weeks for LY2127399 80 mg. vs. placebo in Physical Health Component scores.|ANCOVA|||||||0.052
92263872|NCT00689728|184428851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.72||||0.655||95.0||||p-value represents change from baseline at 16 weeks for LY2127399 30 mg. vs. placebo in Mental Health Component scores.|ANCOVA|||||||0.655
92263873|NCT00689728|184428851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.264||||0.173||95.0||||p-value represents change from baseline at 16 weeks for LY2127399 80 mg. vs. placebo in Mental Health Component scores.|ANCOVA|||||||0.173
92263874|NCT00689728|184428852|SUPERIORITY_OR_OTHER|||||||0.281||95.0|||||Fisher Exact|||||||0.281
92263875|NCT00689728|184428852|SUPERIORITY_OR_OTHER|||||||0.218||95.0|||||Fisher Exact|||||||0.218
92263876|NCT00689728|184428853|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Fisher Exact|||||||0.500
92263877|NCT00689728|184428853|SUPERIORITY_OR_OTHER|||||||0.444||95.0|||||Fisher Exact|||||||0.444
92263878|NCT00689728|184428854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5||||0.337||95.0|||||ANCOVA|||||||0.337
92263879|NCT00689728|184428854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.038||95.0|||||ANCOVA|||||||0.038
92263880|NCT00689728|184428855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.403||95.0|||||ANCOVA|||||||0.403
92263881|NCT00689728|184428855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3||||0.006||95.0|||||ANCOVA|||||||0.006
92263882|NCT00689728|184428856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2||||0.168||95.0|||||ANCOVA|||||||0.168
92263883|NCT00689728|184428856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3||||0.075||95.0|||||ANCOVA|||||||0.075
92263884|NCT00689728|184428857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3||||0.157||95.0|||||ANCOVA|||||||0.157
92263885|NCT00689728|184428857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.6||||0.025||95.0|||||ANCOVA|||||||0.025
92263886|NCT00689728|184428858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.4||||0.11||95.0|||||ANCOVA|||||||0.110
92263887|NCT00689728|184428858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1||||0.147||95.0|||||ANCOVA|||||||0.147
92263888|NCT00689728|184428859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.172||||0.969||95.0|||||ANCOVA|||||||0.969
92263889|NCT00689728|184428859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.452||95.0|||||ANCOVA|||||||0.452
92263890|NCT00689728|184428860|SUPERIORITY_OR_OTHER|||||||0.554||95.0|||||ANCOVA|||||||0.554
92263891|NCT00689728|184428860|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||ANCOVA|||||||0.920
92263892|NCT00689728|184428861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.912||||0.1||95.0|||||ANCOVA|||||||0.100
92263893|NCT00689728|184428861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.322||||0.005||95.0|||||ANCOVA|||||||0.005
92263894|NCT00689728|184428862|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||p-value represents comparison of LY2127399-30 mg dose versus placebo for the 3 levels of EULAR response (good response, moderate response, no response).|Fisher Exact|||||||0.022
92263895|NCT00689728|184428862|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||p-value represents comparison of LY2127399-80 mg dose versus placebo for the 3 levels of EULAR response (good response, moderate response, no response).|Fisher Exact|||||||0.016
92263896|NCT00689728|184428863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.818||95.0|||||ANCOVA|||||||0.818
92263897|NCT00689728|184428863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.7||||0.066||95.0|||||ANCOVA|||||||0.066
92263898|NCT00689728|184428864|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANCOVA|||||||0.010
92263899|NCT00689728|184428864|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||ANCOVA|||||||0.056
92263900|NCT00689728|184428865|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||||||0.001
92263901|NCT00689728|184428865|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANCOVA|||||||0.015
92263902|NCT00689728|184428866|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||p-value is for Immunoglobulin G change at week 16 (LOCF)|ANCOVA|||||||0.146
92263903|NCT00689728|184428866|SUPERIORITY_OR_OTHER|||||||0.125||95.0||||p-value is for Immunoglobulin G change at week 16 (LOCF)|ANCOVA|||||||0.125
92263904|NCT00689728|184428866|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Immunoglobulin M change at week 16 (LOCF)|ANCOVA|||||||<0.001
92263905|NCT00689728|184428866|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||p-value is for Immunoglobulin M change at week 16 (LOCF)|ANCOVA|||||||0.005
92263906|NCT00689728|184428866|SUPERIORITY_OR_OTHER|||||||0.115||95.0||||p-value is for Immunoglobulin A change at week 16 (LOCF)|ANCOVA|||||||0.115
92263907|NCT00689728|184428866|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||p-value is for Immunoglobulin A change at week 16 (LOCF)|ANCOVA|||||||0.019
92263908|NCT03245372|184428869|SUPERIORITY|||||||0.114|||||||Wilcoxon (Mann-Whitney)|||||||0.114
92263909|NCT03245372|184428870|SUPERIORITY|||||||0.692|||||||Wilcoxon (Mann-Whitney)|||||||0.692
92263910|NCT03245372|184428871|SUPERIORITY|||||||0.082|||||||t-test, 2 sided|||||||0.082
92263911|NCT03245372|184428872|SUPERIORITY|||||||0.443|||||||Wilcoxon (Mann-Whitney)|||||||0.443
92263912|NCT03245372|184428873|SUPERIORITY|||||||0.668|||||||t-test, 2 sided|||||||0.668
92263913|NCT03245372|184428874|SUPERIORITY|||||||0.516|||||||Chi-squared|||||||0.516
92286157|NCT00982397|184477461|SUPERIORITY_OR_OTHER||percentage of participants|97.5|||||TWO_SIDED|95.0|96.1|98.5|||||Therapy rates were analyzed using competing risks survival analysis methods, accounting for death as a competing risk.Therapy incidence rates were estimated using cumulative incidence functions and reported with 95% confidence interval.|This study was designed to include at least 610 patients with VR-ICD devices in order to estimate the inappropriate shock free rate at 1 year post-implant with a precision of 2%.||98.5|96.1|
92286158|NCT00982397|184477462|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value is for comparison against a performance criterion of 10%.|Exact Binomial|||Using the one-sided one proportion Exact Test in PASS sample size software, a sample size of 76 subjects with 1-month follow-up was calculated to be required for the evaluation of this objective. To ensure adequate testing of the Protecta XT CRT-D device, the 76 subjects must have included at least 34 CRT-D subjects. Assuming an attrition rate of 10%, a sample size of 85 subjects enrolled was calculated to be required.||||<0.0001
92286159|NCT00982397|184477463|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value is for comparison of the observed proportion of successes against a protocol-specified performance criterion of 95%.|Confidence interval and hypothesis test|||P, the expected proportion of successes under the null hypothesis, was 95%. α, the Type I error rate, is 0.025. Power is 90%. Pa, the assumed true proportion of successes, is 99%. Based on the above assumptions, at least 173 subjects with a useable time to VF detection testing were required for this objective. Assuming a 5% rate for the potential non-adherence to the testing protocol, the required enrollment sample size was 183.||||<0.0001
92287150|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.011||||0.723|TWO_SIDED|95.0|-0.049|0.071|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.071|-0.049|0.723
92287151|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.257|TWO_SIDED|95.0|-0.025|0.093|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.093|-0.025|0.257
92263914|NCT03245372|184428876|SUPERIORITY|||||||0.229|||||||Wilcoxon (Mann-Whitney)|||||||0.229
92263915|NCT03245372|184428877|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92263916|NCT04047342|184428878|SUPERIORITY||Odds Ratio (OR)|0.97||||0.828|TWO_SIDED|95.0|0.72|1.3||We used an a priori threshold of p \< .05.|Regression, Logistic|||||1.30|0.72|.828
92263917|NCT00660829|184428882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5633|STANDARD_DEVIATION|0.3345|<|0.001||95.0|-2.22|-0.91|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.91|-2.22|<0.001
92263918|NCT00660829|184428883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7444|STANDARD_ERROR_OF_MEAN|0.1677|<|0.001||95.0|-1.07|-0.42|||ANOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.42|-1.07|<0.001
92263919|NCT00660829|184428884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4403|STANDARD_DEVIATION|0.3406|<|0.001||95.0|-2.11|-0.77|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.77|-2.11|<0.001
92263920|NCT00660829|184428885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2907|STANDARD_DEVIATION|0.3204|<|0.001||95.0|-1.92|0.66|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline||0.66|-1.92|<0.001
92263921|NCT00660829|184428886|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANCOVA|||Change from baseline||||0.001
92263922|NCT02539160|184428928|SUPERIORITY||Median Difference (Net)|6.4||||0.105|TWO_SIDED|95.0|-1.1|14.3|||t-test, 2 sided|||||14.3|-1.1|0.105
92263923|NCT02539160|184428928|SUPERIORITY||Mean Difference (Final Values)|6.0||||0.112|TWO_SIDED|95.0|-1.5|13.7|||t-test, 2 sided|||||13.7|-1.5|0.112
92263924|NCT01728454|184428959|SUPERIORITY|||||||0.036|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.0360
92263925|NCT01728454|184428959|SUPERIORITY|||||||0.1087|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.1087
92263926|NCT01728454|184428959|SUPERIORITY|||||||0.2263|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.2263
92263927|NCT01728454|184428959|SUPERIORITY|||||||0.5375|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.5375
92263928|NCT01728454|184428960|SUPERIORITY|||||||0.1017|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.1017
92263929|NCT01728454|184428960|SUPERIORITY|||||||0.1927|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.1927
92263930|NCT01728454|184428960|SUPERIORITY|||||||0.1017|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.1017
92263931|NCT01728454|184428960|SUPERIORITY|||||||0.1927|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.1927
92263932|NCT01728454|184428961|SUPERIORITY|||||||0.7508|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.7508
92263933|NCT01728454|184428961|SUPERIORITY|||||||0.5507|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.5507
92263934|NCT01728454|184428961|SUPERIORITY|||||||0.3993|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.3993
92263935|NCT01728454|184428961|SUPERIORITY|||||||0.5821|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.5821
92263936|NCT01728454|184428962|SUPERIORITY|||||||0.7507|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.7507
92263937|NCT01728454|184428962|SUPERIORITY|||||||0.8919|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.8919
92263938|NCT01728454|184428963|SUPERIORITY|||||||0.478|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.4780
92182096|NCT00145470|184263082|SUPERIORITY|||||||0.2492||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.2492
92263939|NCT01728454|184428963|SUPERIORITY|||||||0.2354|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.2354
92286160|NCT00982397|184477464|NON_INFERIORITY_OR_EQUIVALENCE|Ho: p1 ≤ p2 - 0.05 Ha: p1 \> p2 - 0.05 Where p1 was the syncopal event free rate at one year post implant by programming VF NID 30/40 and p2 for NID = 18/24. If the null-hypothesis was rejected it was concluded that NID = 30/40 did not decrease the syncope free rate by more than 5% compared to NID = 18/24 and hence was non-inferior.|Risk Difference (RD)|0.0||||0.0013|TWO_SIDED|90.0|-2.7|2.7||P-Value is for non-inferiority|Farrington-Manning||The 90% Confidence Interval is for the difference (p1-p2), where p1=syncope free rate 30/40 arm and p2=syncope free rate 18/24 arm. Estimated value and confidence interval reflect percentages.|The expected syncopal event free rate was 0.984 in both programming groups. alpha, Type I error was 0.05. Power, 1-beta, was 80%. Non-inferiority margin 5% Based on the above assumptions and Farrington-Manning test, a total of 230 subjects was required. By further assuming 15% attrition rate and 5 % of crossover rate, a total of 300 subjects were needed.||2.7|-2.7|0.0013
92286161|NCT00838630|184477465|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed for the log-transformed AUC0-t, AUC0-inf and Cmax parameters.|Geometric Test/Ref Ratio x 100|98.27||||||90.0|92.32|104.61|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.61|92.32|
92286162|NCT00838630|184477466|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed for log-transformed AUC0-t, AUC0-inf, and Cmax parameters.|Geometric Test/Ref Ratio x 100|94.37||||||90.0|90.47|98.43|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.43|90.47|
92286163|NCT00838630|184477467|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax parameters.|Geometric Test/Ref Ratio x 100|95.7||||||90.0|91.52|100.08|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.08|91.52|
92286164|NCT00578552|184477470|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||Fisher Exact|1-tailed||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||0.77
92286165|NCT00578552|184477470|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|1-tailed||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||1.00
92286166|NCT01864174|184477495|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The study provided 90% power to demonstrate noninferiority in change from baseline mean HbA1c at Week 24, with an assumed standard deviation (SD) of 1.0%, a non-inferiority margin of 0.3%, and 2-sided alpha of 0.05 for the primary comparison|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.0687|||TWO_SIDED|95.0|-0.1|0.17|||||METFORMIN XR VS METFORMIN IR|||0.17|-0.10|
92286167|NCT03273153|184477533|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.2954|TWO_SIDED|95.0|0.88|1.5|||Regression, Cox|||||1.50|0.88|0.2954
92286168|NCT01237054|184477552|SUPERIORITY|||||||0.024||||||The reported p-value is representative of the difference in levels of Ang2 in both groups.|Wilcoxon rank sum test|||||||0.024
92286169|NCT01237054|184477552|SUPERIORITY|||||||0.055||||||The reported p-value is representative of the difference in levels of G-CSF in both groups.|Wilcoxon rank sum test|||||||0.055
92286170|NCT01237054|184477552|SUPERIORITY|||||||0.055||||||The reported p-value is representative of the difference in levels of Follistatin in both groups.|Wilcoxon rank sum test|||||||0.055
92286171|NCT01237054|184477552|SUPERIORITY|||||||0.0098||||||The reported p-value is representative of the difference in levels of HGF in both groups.|Wilcoxon rank sum test|||||||0.0098
92286172|NCT01237054|184477552|SUPERIORITY|||||||0.02||||||The reported p-value is representative of the difference in levels of VEGF-A in both groups.|Wilcoxon rank sum test|||||||0.02
92286173|NCT01237054|184477553|OTHER|Other, trend test.||||||0.008|||||||Jonckheere-Terpstra test for trend|||||||0.008
92286174|NCT01237054|184477554|OTHER|Other, trend test.||||||0.15||||||The reported p-value is representative of the difference in levels of Kep between MGUS and SMM+MM.|Jonckheere-Terpstra test for trend|||||||0.15
92286175|NCT01237054|184477554|OTHER|Other, trend test.||||||0.33||||||The reported p-value is representative of the difference in levels of Ktrans between MGUS and SMM+MM.|Jonckheere-Terpstra test for trend|||||||0.33
92286176|NCT01237054|184477555|SUPERIORITY|||||||0.08|||||||Wilcoxon rank sum test|||||||0.08
92286177|NCT01237054|184477556|SUPERIORITY|||||||0.011|||||||Wilcoxon rank sum test|||||||0.011
92286178|NCT05323396|184477577|OTHER|||||||0.19|||||||Student's unpaired t-test|||||||0.19
92286179|NCT05323396|184477578|OTHER|||||||0.85|||||||Student's unpaired t-test|||||||0.85
92286180|NCT05323396|184477579|OTHER|||||||0.77|||||||Student's unpaired t-test|||||||0.77
92286181|NCT05323396|184477580|OTHER|||||||0.12|||||||student's unpaired t-test|||||||0.12
92286182|NCT05323396|184477581|OTHER|||||||0.81|||||||student's unpaired t-test|||||||0.81
92286183|NCT05323396|184477582|OTHER|||||||0.65|||||||student's unpaired t-test|||||||0.65
92286184|NCT03238781|184477585|SUPERIORITY||difference in least square mean|0.26||||0.66|TWO_SIDED|95.0|-0.88|1.4||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||1.40|-0.88|0.66
92287152|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.071||||0.016|TWO_SIDED|95.0|0.014|0.128|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.128|0.014|0.016
92263940|NCT01728454|184428964|SUPERIORITY|||||||0.114|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.1140
92263941|NCT01728454|184428964|SUPERIORITY|||||||0.1636|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.1636
92263942|NCT01728454|184428965|SUPERIORITY|||||||0.114|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.1140
92263943|NCT01728454|184428965|SUPERIORITY|||||||0.0733|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.0733
92263944|NCT01728454|184428966|SUPERIORITY|||||||0.1253|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.1253
92263945|NCT01728454|184428966|SUPERIORITY|||||||0.3442|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.3442
92263946|NCT01728454|184428967|SUPERIORITY|||||||0.0303|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.0303
92263947|NCT01728454|184428967|SUPERIORITY|||||||0.2864|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.2864
92263948|NCT01728454|184428968|SUPERIORITY|||||||0.4365|||||||Wilcoxon Rank- Sum Test|||PTS: LOCF Cycle 1||||0.4365
92263949|NCT01728454|184428968|SUPERIORITY|||||||0.1302|||||||Wilcoxon Rank- Sum Test|||PTS: LOCF Cycle 1||||0.1302
92263950|NCT01728454|184428968|SUPERIORITY|||||||0.3591|||||||Wilcoxon Rank- Sum Test|||PTS: ODI Cycle 1||||0.3591
92263951|NCT01728454|184428968|SUPERIORITY|||||||0.0872|||||||Wilcoxon Rank- Sum Test|||PTS: ODI Cycle 1||||0.0872
92263952|NCT01728454|184428968|SUPERIORITY|||||||0.4814|||||||Wilcoxon Rank- Sum Test|||IS: LOCF Cycle 1||||0.4814
92263953|NCT01728454|184428968|SUPERIORITY|||||||0.9162|||||||Wilcoxon Rank- Sum Test|||IS: LOCF Cycle 1||||0.9162
92263954|NCT01728454|184428968|SUPERIORITY|||||||0.6607|||||||Wilcoxon Rank- Sum Test|||IS: ODI Cycle 1||||0.6607
92263955|NCT01728454|184428968|SUPERIORITY|||||||0.9527|||||||Wilcoxon Rank- Sum Test|||IS: ODI Cycle 1||||0.9527
92263956|NCT01728454|184428969|SUPERIORITY|||||||0.2812|||||||Wilcoxon Rank- Sum Test|||LOCF Cycle 1||||0.2812
92263957|NCT01728454|184428969|SUPERIORITY|||||||0.5858|||||||Wilcoxon Rank- Sum Test|||LOCF Cycle 1||||0.5858
92263958|NCT01728454|184428969|SUPERIORITY|||||||0.4116|||||||Wilcoxon Rank- Sum Test|||ODI Cycle 1||||0.4116
92263959|NCT01728454|184428969|SUPERIORITY|||||||0.4252|||||||Wilcoxon Rank- Sum Test|||ODI Cycle 1||||0.4252
92263960|NCT01728454|184428970|SUPERIORITY|||||||0.6131|||||||Wilcoxon Rank- Sum Test|||SAP: On-Drug Cycle 1||||0.6131
92263961|NCT01728454|184428970|SUPERIORITY|||||||0.7881|||||||Wilcoxon Rank- Sum Test|||SAP: On-Drug Cycle 1||||0.7881
92263962|NCT01728454|184428970|SUPERIORITY|||||||0.9376|||||||Wilcoxon Rank- Sum Test|||SAP: Off-Drug Cycle 1||||0.9376
92263963|NCT01728454|184428970|SUPERIORITY|||||||0.6552|||||||Wilcoxon Rank- Sum Test|||SAP: Off-Drug Cycle 1||||0.6552
92263964|NCT01728454|184428970|SUPERIORITY|||||||0.7143|||||||Wilcoxon Rank- Sum Test|||EP: On-Drug Cycle 1||||0.7143
92263965|NCT01728454|184428970|SUPERIORITY|||||||0.2985|||||||Wilcoxon Rank- Sum Test|||EP: On-Drug Cycle 1||||0.2985
92263966|NCT01728454|184428970|SUPERIORITY|||||||0.3162|||||||Wilcoxon Rank- Sum Test|||EP: Off-Drug Cycle 1||||0.3162
92263967|NCT01728454|184428970|SUPERIORITY|||||||0.7503|||||||Wilcoxon Rank- Sum Test|||EP: Off-Drug Cycle 1||||0.7503
92263968|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 3.||||=0.001
92263969|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 4.||||=0.001
92263970|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 5.||||=0.001
92263971|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 6.||||=0.001
92263972|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 7.||||=0.001
92263973|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 8.||||=0.001
92263974|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 9.||||=0.001
92263975|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 10.||||=0.001
92263976|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 11.||||=0.001
92263977|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 12.||||=0.001
92263978|NCT01362062|184428994|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 13.||||=0.001
92263979|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 3.||||=0.003
92263980|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.005|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 4.||||=0.005
92263981|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.002|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 5.||||=0.002
92263982|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.014|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 6.||||=0.014
92263983|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 7.||||=0.001
92263984|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 8.||||=0.008
92263985|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.014|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 9.||||=0.014
92263986|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.009|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 10.||||=0.009
92263987|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 11.||||=0.001
92263988|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 12.||||=0.001
92263989|NCT01362062|184428995|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 13.||||=0.001
92263990|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.002|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 3.||||=0.002
92263991|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 4.||||=0.001
92263992|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.002|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 5.||||=0.002
92286185|NCT03238781|184477585|SUPERIORITY||difference in least square mean|0.27||||0.65|TWO_SIDED|95.0|-0.89|1.43||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||1.43|-0.89|0.65
92286186|NCT03238781|184477586|SUPERIORITY||Odds Ratio (OR)|0.82||||0.57|TWO_SIDED|95.0|0.41|1.62||2-sided significance level of 0.05|Cochran-Mantel-Haenszel|||The common odds ratios and p-values are obtained from a Cochran-Mantel-Haenszel test, stratified by stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine).||1.62|0.41|0.57
92286187|NCT03238781|184477586|SUPERIORITY||Odds Ratio (OR)|0.76||||0.45|TWO_SIDED|95.0|0.37|1.54||2-sided significance level of 0.05|Cochran-Mantel-Haenszel|||The common odds ratios and p-values are obtained from a Cochran-Mantel-Haenszel test, stratified by stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine).||1.54|0.37|0.45
92286188|NCT03238781|184477587|SUPERIORITY||difference in least square mean|-0.03||||0.94|TWO_SIDED|95.0|-0.87|0.81||2-sided significance level of 0.05|Mixed Models Analysis|||Adjusted analysis utilizes a generalized linear mixed model which includes treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (CM versus EM), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||0.81|-0.87|0.94
92286189|NCT03238781|184477587|SUPERIORITY||difference in least square mean|-0.09||||0.84|TWO_SIDED|95.0|-0.94|0.77||2-sided significance level of 0.05|Mixed Models Analysis|||||0.77|-0.94|0.84
92286190|NCT03238781|184477588|SUPERIORITY||difference in least square mean|-0.28||||0.81|TWO_SIDED|95.0|-2.56|2.01||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||2.01|-2.56|0.81
92286191|NCT03238781|184477588|SUPERIORITY||difference in least square mean|0.31||||0.79|TWO_SIDED|95.0|-2.01|2.63||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||2.63|-2.01|0.79
92286192|NCT03238781|184477589|SUPERIORITY||difference in least square mean|-0.86||||0.46|TWO_SIDED|95.0|-3.15|1.44||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||1.44|-3.15|0.46
92286193|NCT03238781|184477589|SUPERIORITY||difference in least square mean|0.56||||0.64|TWO_SIDED|95.0|-1.77|2.89||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||2.89|-1.77|0.64
92286194|NCT04115293|184477599|SUPERIORITY||LS Mean Difference|-2.09|||<|0.001|TWO_SIDED|95.0|-3.24|-0.95|||MMRM ANCOVA|||||-0.95|-3.24|<0.001
92286195|NCT04115293|184477600|SUPERIORITY||LS Mean Difference|-2.94|||<|0.001|TWO_SIDED|95.0|-4.39|-1.49|||MMRM ANCOVA|||||-1.49|-4.39|<0.001
92286196|NCT04115293|184477601|SUPERIORITY||LS Mean Difference|-3.2||||0.0023|TWO_SIDED|95.0|-5.24|-1.16|||MMRM ANCOVA|||||-1.16|-5.24|0.0023
92286197|NCT04115293|184477602|SUPERIORITY||LS Mean Difference|-2.49||||0.0128|TWO_SIDED|95.0|-4.45|-0.54|||MMRM ANCOVA|||||-0.54|-4.45|0.0128
92286198|NCT04115293|184477604|SUPERIORITY||Odds Ratio (OR)|2.608||||0.0885|TWO_SIDED|95.0|0.866|7.86|||Regression, Logistic|||||7.860|0.866|0.0885
92286199|NCT04115293|184477605|SUPERIORITY||Odds Ratio (OR)|3.184|||<|0.001|TWO_SIDED|95.0|1.662|6.101|||Regression, Logistic|||||6.101|1.662|<0.001
92286200|NCT04115293|184477606|SUPERIORITY||Odds Ratio (OR)|2.865||||0.0012|TWO_SIDED|95.0|1.518|5.409|||Regression, Logistic|||||5.409|1.518|0.0012
92263993|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 6.||||=0.001
92263994|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 7.||||=0.001
92263995|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 8.||||=0.001
92263996|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 9.||||=0.001
92263997|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 10.||||=0.001
92263998|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 11.||||=0.001
92263999|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 12.||||=0.001
92264000|NCT01362062|184428996|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 13.||||=0.001
92264001|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 3.||||=0.001
92264002|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 4.||||=0.001
92264003|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 5.||||=0.001
92264004|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 6.||||=0.001
92264005|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 7.||||=0.001
92286201|NCT03772522|184477613|SUPERIORITY||Cohen's d (effect size)|0.384||||0.428|TWO_SIDED||||||t-test, 2 sided|||Change in score in the immediate intervention group (after receiving the intervention for 6 weeks) compared to that of the delayed intervention group (after receiving no intervention for 6 weeks).||||0.428
92286202|NCT03772522|184477613|SUPERIORITY||Cohen's d (effect size)|-0.46||||0.058|TWO_SIDED||||||t-test, 2 sided|||Comparison of scores at baseline (pre-intervention) and immediately post-intervention.||||0.058
92264006|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 8.||||=0.001
92264007|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 9.||||=0.001
92264008|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 10.||||=0.001
92264009|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 11.||||=0.001
92264010|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 12.||||=0.001
92264011|NCT01362062|184428997|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 13.||||=0.001
92264012|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 3.||||=0.001
92264013|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 4.||||=0.001
92264014|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 5.||||=0.001
92264015|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 6.||||=0.001
92264016|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 7.||||=0.001
92264017|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 8.||||=0.001
92264018|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 9.||||=0.001
92264019|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 10.||||=0.001
92264020|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 11.||||=0.001
92264021|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 12.||||=0.001
92264022|NCT01362062|184428998|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 13.||||=0.001
92264023|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.064|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 3.||||=0.064
92264024|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.104|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 4.||||=0.104
92264025|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.052|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 5.||||=0.052
92264026|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.043|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 6.||||=0.043
92264027|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.015|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB of Visit 7.||||=0.015
92264028|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.023|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 8.||||=0.023
92264029|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.028|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 9.||||=0.028
92264030|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.048|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 10.||||=0.048
92264031|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.025|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 11.||||=0.025
92264032|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.023|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 12.||||=0.023
92264033|NCT01362062|184428999|SUPERIORITY_OR_OTHER||||||=|0.022|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 13.||||=0.022
92286203|NCT03772522|184477613|SUPERIORITY||Cohen's d (effect size)|-0.4||||0.095|TWO_SIDED||||||t-test, 2 sided|||Comparison of scores at baseline (pre-intervention) and 3-month post-intervention.||||0.095
92286204|NCT03772522|184477613|SUPERIORITY||Cohen's d (effect size)|-0.73||||0.005|TWO_SIDED||||||t-test, 2 sided|||Comparison of scores at baseline (pre-intervention) and 6-months post-intervention.||||0.005
92264034|NCT02545504|184429005|SUPERIORITY||Cox Proportional Hazard|0.93||||0.5625|TWO_SIDED|95.0|0.74|1.18||The significance level at final analysis is 0.046 (two-sided). Stratum with \< 6 participants or no informative event by combined treatment arms was pooled with the smallest adjacent stratum for stratified analyses.|Log Rank|p-value was stratified by Eastern Cooperative Oncology Group (ECOG) status, geographic region and primary tumor site.|Hazard ratio (HR) was stratified by ECOG status, geographic region and primary tumor site with treatment arm as the only covariate.|The primary and secondary endpoints were tested sequentially in the following gate-keeping order: the primary OS endpoint, then the secondary PFS endpoint, and finally the secondary ORR endpoint.||1.18|0.74|0.5625
92264035|NCT02545504|184429006|SUPERIORITY||Cox Proportional Hazard|0.84||||0.1031|TWO_SIDED|95.0|0.67|1.04||The significance level at final analysis was 0.032 (two-sided). Stratum with \< 6 participants or no informative event by combined treatment arms was pooled with the smallest adjacent stratum for stratified analyses.|Log Rank|p-value was stratified by ECOG status,geographic region and primary tumor site.|HR was stratified by ECOG status,geographic region;primary tumor site with treatment arm as a covariate.Stratum with \<6 participants or no informative event by combined treatment arms was pooled with smallest adjacent stratum for stratified analyses.|The primary and secondary endpoints were tested sequentially in the following gate-keeping order: the primary OS endpoint, then the secondary PFS endpoint, and finally the secondary ORR endpoint. PFS was tested only if OS was significant. The P-value is for display only.||1.04|0.67|0.1031
92264036|NCT02545504|184429007|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0493|TWO_SIDED|95.0|1.0|2.15||The significance level at final analysis was 0.032 (two-sided). Stratum with \< 6 participants or no informative event by combined treatment arms was pooled with the smallest adjacent stratum for stratified analyses.|Cochran-Mantel-Haenszel|p-value was stratified by ECOG status, geographic region and primary tumor site.|OR was stratified by ECOG status, geographic region and primary tumor site. Stratum with \< 6 participants or no informative event by combined treatment arms was pooled with the smallest adjacent stratum for stratified analyses.|The primary and secondary endpoints were tested sequentially in the following gate-keeping order: the primary OS endpoint, then the secondary PFS endpoint, and finally the secondary ORR endpoint. ORR was tested only if OS and PFS were significant.The P-value is for display only.||2.15|1.00|0.0493
92264037|NCT02545504|184429007|SUPERIORITY||ORR Difference|9.4|||||TWO_SIDED|95.0|0.1|18.8|||||The 2-sided 95% confidence interval (CI) of difference for ORR between the treatment and placebo is calculated based on stratum-adjusted Cochran-Mantel-Haenszel proportion.|The primary and secondary endpoints were tested sequentially in the following gate-keeping order: the primary OS endpoint, then the secondary PFS endpoint, and finally the secondary ORR endpoint. ORR was tested only if OS and PFS were significant.||18.8|0.1|
92264038|NCT00434876|184429020|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Mixed Models Analysis|||||||0.49
92264039|NCT00434876|184429021|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|||||||0.04
92264040|NCT00434876|184429022|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||Mixed Models Analysis|||||||0.57
92264041|NCT00434876|184429023|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Mixed Models Analysis|||||||0.03
92264042|NCT00758394|184429024|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Two way Anova general linear model (subject and treatment as factors). Multiple comparison completed to determine differences between groups.|ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
92264043|NCT03159455|184429080|OTHER||Slope|2.2305|STANDARD_ERROR_OF_MEAN|0.2592|||TWO_SIDED|95.0|1.6955|2.7655|||||Dose proportionality was explored using the power model.The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of tablets for AUC0-24 was analysed in Japanese subjects.|Standard error of mean is standard error of slope.|2.7655|1.6955|
92264044|NCT03159455|184429081|OTHER||Slope|1.9007|STANDARD_ERROR_OF_MEAN|0.2382|||TWO_SIDED|95.0|1.4102|2.3912|||||Dose proportionality was explored using the power model.The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of tablets for Cmax was analysed in Japanese subjects.|Standard error of mean is standard error of slope.|2.3912|1.4102|
92264045|NCT03159455|184429082|OTHER||Slope|3.244|STANDARD_ERROR_OF_MEAN|0.1771|||TWO_SIDED|95.0|2.8793|3.6087|||||Dose proportionality was explored using the power model.The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing on Day 28 (after multiple doses). Dose proportionality of tablets for AUC0-24,28 was analysed in Japanese subjects.|Standard error of mean is standard error of slope.|3.6087|2.8793|
92264046|NCT03159455|184429083|OTHER||Slope|2.0711|STANDARD_ERROR_OF_MEAN|0.148|||TWO_SIDED|95.0|1.7663|2.376|||||Dose proportionality was explored using the power model.The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing on Day 28 (after multiple doses). Dose proportionality of tablets for Cmax,28 was analysed in Japanese subjects.|Standard error of mean is standard error of slope.|2.3760|1.7663|
92264047|NCT02022566|184429093|OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
92264048|NCT02022566|184429094|OTHER|Described elsewhere|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
92264049|NCT01714726|184429110|SUPERIORITY||Risk Difference (RD)|22.5|||=|0.01|TWO_SIDED|90.0|8.3|36.8|||Regression, Logistic|||||36.8|8.3|=0.01
92265797|NCT00234533|184433213|OTHER|An one-way Analysis of Covariance (ANOVA) was used to calculate the between patient variation and within patient variation and then the ICC and its confidence limitations.|ICC|0.9|||||TWO_SIDED|95.0|0.88|0.92|||||An ICC ≥ 0.8 was considered satisfactory and indicative that a single sample would be representative of the overall IGF-I status.|An Intra-class Correlation Coefficient (ICC) for the evening series (defined as 12:00 to 24:00) was determined for the overall ITT population to confirm whether only one measurement would be sufficient to accurately represent the IGF-I measurement over Weeks 21, 22 and 23. The ICC expresses the relative magnitude of the 2 components of the total variability, i.e. the biological variability and random error, in a series of measurements on different patients.||0.92|0.88|
92264050|NCT03778021|184429130|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.093||0.017|TWO_SIDED|95.0|0.04|0.41||"Estimated differential change in score between intervention and comparison group from repeated measures linear mixed model.~All the reported analyses conservatively specified covariance structure as general covariance (unstructured). alpha = 0.05."|Mixed Models Analysis|Repeated measures linear mixed model analysis. Student nested within school. Model fit time, intervention and time by intervention interaction.|Estimated differential change (intervention minus control) from repeated measures linear mixed model|"The unit of measure is score on a scale. The results show the least squares estimate of change in that score, from baseline to 8-month follow-up in each group from model.~Values from the 100 and 194 baseline respondents and from the 72 and 141 follow-up respondents of intervention and comparison groups respectively contributed to the repeated measures linear mixed model, where the units of analysis were participant-time. The nesting within schools was accounted for in the model."|"In the repeated measures linear mixed model, time was treated as a fixed effect. In the specification of the repeated measures linear mixed model, students were nested within schools.~All the reported analyses conservatively specified covariance structure as general covariance (unstructured)."|0.41|0.04|0.017
92264051|NCT03778021|184429131|SUPERIORITY||Mean Difference (Net)|1.41||||0.18|TWO_SIDED|95.0|-0.66|3.49||"Estimated differential change in score between intervention and comparison group from repeated measures linear mixed model.~All the reported analyses conservatively specified covariance structure as general covariance (unstructured). alpha = 0.05"|Mixed Models Analysis|Repeated measures linear mixed model analysis. Student nested within school. Model fit time, intervention and time by intervention interaction.|Estimated differential change from baseline to follow-up from model (intervention minus control)|"Results present estimated change in score from baseline to 8-month follow-up in each group from model.~Values from the 100 and 194 baseline respondents and from the 72 and 141 follow-up respondents of intervention and comparison groups respectively contributed to the repeated measures linear mixed model, where the units of analysis were participant-time. The nesting within schools was accounted for in the model."|In the repeated measures linear mixed model, time was treated as a fixed effect. In the specification of the repeated measures linear mixed model, students were nested within schools|3.49|-0.66|0.18
92286205|NCT03772522|184477613|SUPERIORITY||Cohen's d (effect size)|-0.6||||0.022|TWO_SIDED||||||t-test, 2 sided|||Comparison of scores at baseline (pre-intervention) and 9-months post-intervention.||||0.022
92182097|NCT00145470|184263083|SUPERIORITY|||||||0.4683||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.4683
92286206|NCT03772522|184477614|SUPERIORITY||Cohen's d (effect size)|1.792||||0.002|TWO_SIDED||||||t-test, 2 sided|||Change in score in the immediate intervention group (after receiving the intervention for 6 weeks) compared to that of the delayed intervention group (after receiving no intervention for 6 weeks) for the physical component of the CIS.||||0.002
92286207|NCT03772522|184477614|SUPERIORITY||Cohen's d (effect size)|0.047||||0.923|TWO_SIDED||||||t-test, 2 sided|||Change in score in the immediate intervention group (after receiving the intervention for 6 weeks) compared to that of the delayed intervention group (after receiving no intervention for 6 weeks) for the psychological component of the CIS.||||0.923
92286208|NCT03772522|184477614|SUPERIORITY||Cohen's d (effect size)|0.6||||0.18|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (physical component) scores at baseline (pre-intervention) and immediately post-intervention.||||0.18
92286209|NCT03772522|184477614|SUPERIORITY||Cohen's d (effect size)|0.2||||0.388|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (psychological component) scores at baseline (pre-intervention) and immediately post-intervention.||||0.388
92286210|NCT03772522|184477614|SUPERIORITY||Cohen's d (effect size)|0.52||||0.037|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (physical component) scores at baseline (pre-intervention) and 3-months post-intervention.||||0.037
92286211|NCT03772522|184477614|SUPERIORITY||Cohen's d (effect size)|0.09||||0.688|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (psychological component) scores at baseline (pre-intervention) and 3-months post-intervention.||||0.688
92286212|NCT03772522|184477614|SUPERIORITY||Cohen's d (effect size)|0.51||||0.038|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (physical component) scores at baseline (pre-intervention) and 6-months post-intervention.||||0.038
92182098|NCT00145470|184263084|SUPERIORITY|||||||0.5683||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.5683
92286213|NCT03772522|184477614|SUPERIORITY||Cohen's d (effect size)|0.01||||0.956|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (psychological component) scores at baseline (pre-intervention) and 6-months post-intervention.||||0.956
92286214|NCT03772522|184477614|SUPERIORITY||Cohen's d (effect size)|0.32||||0.197|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (physical component) scores at baseline (pre-intervention) and 9-months post-intervention.||||0.197
92286215|NCT03772522|184477614|SUPERIORITY||Cohen's d (effect size)|-0.07||||0.762|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (psychological component) scores at baseline (pre-intervention) and 9-months post-intervention.||||0.762
92286216|NCT03772522|184477615|SUPERIORITY||Cohen's d (effect size)|0.101||||0.834|TWO_SIDED||||||t-test, 2 sided|||Change in score in the immediate intervention group (after receiving the intervention for 6 weeks) compared to that of the delayed intervention group (after receiving no intervention for 6 weeks).||||0.834
92286217|NCT03772522|184477615|SUPERIORITY||Cohen's d (effect size)|0.19||||0.417|TWO_SIDED||||||t-test, 2 sided|||Comparison of SCS scores at baseline (pre-intervention) and immediately post-intervention.||||0.417
92286218|NCT03772522|184477615|SUPERIORITY||Cohen's d (effect size)|0.42||||0.087|TWO_SIDED||||||t-test, 2 sided|||Comparison of SCS scores at baseline (pre-intervention) and 3-months post-intervention.||||0.087
92286219|NCT03772522|184477615|SUPERIORITY||Cohen's d (effect size)|0.33||||0.168|TWO_SIDED||||||t-test, 2 sided|||Comparison of SCS scores at baseline (pre-intervention) and 6-months post-intervention.||||0.168
92182099|NCT00145470|184263085|SUPERIORITY|||||||0.9693||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.9693
92182100|NCT00145470|184263086|SUPERIORITY|||||||0.6136||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.6136
92182101|NCT00145470|184263087|SUPERIORITY|||||||0.1586||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.1586
92182102|NCT00145470|184263088|SUPERIORITY|||||||0.055||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Verbal Memory - CFB at Day 21||||0.0550
92286220|NCT03772522|184477615|SUPERIORITY||Cohen's d (effect size)|0.37||||0.133|TWO_SIDED||||||t-test, 2 sided|||Comparison of SCS scores at baseline (pre-intervention) and 9-months post-intervention.||||0.133
92286221|NCT03772522|184477616|SUPERIORITY||Cohen's d (effect size)|1.161||||0.026|TWO_SIDED||||||t-test, 2 sided|||Change in score in the immediate intervention group (after receiving the intervention for 6 weeks) compared to that of the delayed intervention group (after receiving no intervention for 6 weeks).||||0.026
92286222|NCT03772522|184477616|SUPERIORITY||Cohen's d (effect size)|0.62||||0.014|TWO_SIDED||||||t-test, 2 sided|||Comparison of RSS scores at baseline (pre-intervention) and immediately post-intervention.||||0.014
92286223|NCT03772522|184477616|SUPERIORITY||Cohen's d (effect size)|0.29||||0.217|TWO_SIDED||||||t-test, 2 sided|||Comparison of RSS scores at baseline (pre-intervention) and 3-months post-intervention.||||0.217
92286224|NCT03772522|184477616|SUPERIORITY||Cohen's d (effect size)|0.71||||0.006|TWO_SIDED||||||t-test, 2 sided|||Comparison of RSS scores at baseline (pre-intervention) and 6-months post-intervention.||||0.006
92286225|NCT03772522|184477616|SUPERIORITY||Cohen's d (effect size)|0.53||||0.039|TWO_SIDED||||||t-test, 2 sided|||Comparison of RSS scores at baseline (pre-intervention) and 9-months post-intervention.||||0.039
92287153|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.464|TWO_SIDED|95.0|-0.039|0.086|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.086|-0.039|0.464
92287154|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.048|TWO_SIDED|95.0|0.0|0.12|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.120|0.000|0.048
92286226|NCT02883452|184477669|NON_INFERIORITY|The non-inferiority of CT-P13 SC to CT-P13 IV was to be concluded if the lower bound of two-sided 90% CI for the ratio of geometric least square means was higher than 80%.|Ratio of Geometric LS means|1154.17|||||TWO_SIDED|90.0|786.37|1694.0|||||The geometric lease square (LS) means, ratio of geometric LS means (CT-P13 SC 120/240 mg to CT-P13 IV 5 mg/kg), and 2-sided 90% CI were obtained from the ANCOVA model.|Primary PK analysis was analyzed using an ANCOVA with treatment as fixed effect and current use of treatment with azathioprine (AZA) or 6-mercaptopurine (6-MP) or methotrexate (MTX) (used or not used), disease (CD or UC), clinical response at Week 6 (responder or non-responder by Clinical Disease Activity Index \[CDAI\]-70 for CD or partial Mayo score for UC), body weight at Week 6 (\<80 kg or ≥80 kg) fitted as covariates.||1694.00|786.37|
92182103|NCT00145470|184263088|SUPERIORITY|||||||0.7469||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Visual Memory - CFB at Day 21||||0.7469
92182104|NCT00145470|184263088|SUPERIORITY|||||||0.3253||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Processing Speed - CFB at Day 21||||0.3253
92182105|NCT00145470|184263088|SUPERIORITY|||||||0.3885||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Social Acuity - CFB at Day 21||||0.3885
92182106|NCT00145470|184263088|SUPERIORITY|||||||0.5975||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Reasoning - CFB at Day 21||||0.5975
92286227|NCT01281501|184477676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|STANDARD_DEVIATION|5.0||0.6|TWO_SIDED|95.0|-12.7|7.4|||t-test, 2 sided|||Null hypothesis is that the treatment with pantoprazole arm is not different in immediate relief of acute, severe dyspeptic pain compared with conventional arm.||7.4|-12.7|0.6
92286228|NCT00905840|184477682|NON_INFERIORITY_OR_EQUIVALENCE|The analysis of the primary outcome variable, was based on a confirmatory non-inferiority test with a one-sided 97.5% confidence interval. The non-inferiority margin for a clinically relevant difference was set at 0.1 mm. For a sample size of st least 73, a paired t-test with a 0.0025 one-sided significant level was calculated to have 80% power to reject the hypothesis that the test is inferior to the standard.|Mean Difference (Final Values)|0.1||||0.025|TWO_SIDED|97.5|0.1|0.3|||Student's t-test|||"Null hypothesis: Change of functional bone level at the test implant 12 month after surgery is more than 0.1 lower (inferior) than change of functional crestal bone level at the control implant 12 month after surgery.~H-1: Change of functional bone level at the tst implant 12 month after surgery is up to 0.1 lower, equal, or higher (not inferior) than change of functional crestal bone level at the control implant 12 month after surgery."||0.3|0.1|0.025
92286229|NCT00905840|184477683|SUPERIORITY_OR_OTHER|||||||0.1573|TWO_SIDED|95.0|||||McNemar|||This analysis is up to 12 month.||||0.1573
92182107|NCT00145470|184263088|SUPERIORITY|||||||0.069||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Executive Functioning - CFB at Day 21||||0.0690
92182108|NCT00145470|184263088|SUPERIORITY|||||||0.797||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Working Memory - CFB at Day 21||||0.7970
92182109|NCT00145470|184263088|SUPERIORITY|||||||0.8339||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Sustained Attention - CFB at Day 21||||0.8339
92182110|NCT00145470|184263088|SUPERIORITY|||||||0.2101||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Composite Memory - CFB at Day 21||||0.2101
92182111|NCT00145470|184263089|SUPERIORITY|||||||0.6914||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Verbal Memory - CFB at Day 84||||0.6914
92264052|NCT03778021|184429132|SUPERIORITY||Odds Ratio (OR)|1.29||||0.51|TWO_SIDED|95.0|0.6|2.81||"Repeated measures generalized linear mixed model with binomial distribution (variable was I know I can - yes versus no)."|Mixed Models Analysis|The odds of the odds ratio is reported as the intervention effect.|Odds ratio from estimated least squares from generalized mixed model with binomial distribution specified. Intervention odds of change compared to comparison group odds of change via odds ratio..|"Odds ratio of 8-month follow-up to baseline percent reporting  I know I can was estimated from repeated measures generalized linear mixed model with binomial distribution.~Values included from the 100 and 194 baseline respondents and from the 72 and 141 8-month follow-up respondents of intervention and comparison groups respectively. The person-timepoint is the unit of analysis."||2.81|0.60|0.51
92264053|NCT02687815|184429138|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.63|TWO_SIDED|95.0|0.69|1.85|||Regression, Cox|||||1.85|0.69|0.63
92264054|NCT02687815|184429139|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.46|TWO_SIDED|95.0|0.63|2.75|||Regression, Cox|||||2.75|0.63|0.46
92286230|NCT00905840|184477684|SUPERIORITY_OR_OTHER|||||||0.3617|TWO_SIDED|||||12 month data Plaque index|Wilcoxon (Mann-Whitney)|||||||0.3617
92286231|NCT00905840|184477684|SUPERIORITY_OR_OTHER|||||||0.7068|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|24 month data Plaque index||||||0.7068
92286232|NCT00905840|184477684|SUPERIORITY_OR_OTHER|||||||0.4312|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|36 month data Plaque Index||||||0.4312
92264055|NCT02687815|184429140|SUPERIORITY||Odds Ratio (OR)|0.99||||0.99|TWO_SIDED|95.0|0.66|1.52|||Regression, Logistic|||||1.52|0.66|0.99
92264056|NCT02687815|184429141|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.049|TWO_SIDED|95.0|0.001|8.8|||Regression, Linear|||||8.80|0.001|0.049
92264057|NCT02558634|184429145|SUPERIORITY||Median Difference (Final Values)|1.25||||0.025|TWO_SIDED|95.0|0.75|1.75||The level of significance was set at p=0.025 to allow a Bonferroni correction for these two tests (i.e. p=0.050 divided by two).|Wilcoxon (Mann-Whitney)|||||1.75|0.75|0.025
92264058|NCT02145949|184429182|OTHER|||||||0.03|||||||ANCOVA|||||||.03
92286233|NCT00905840|184477684|SUPERIORITY_OR_OTHER|||||||0.9933|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|12 month data Sulcus Bleeding Index||||||0.9933
92182112|NCT00145470|184263089|SUPERIORITY|||||||0.8805||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Visual Memory - CFB at Day 84||||0.8805
92286234|NCT00905840|184477684|SUPERIORITY_OR_OTHER|||||||0.3667|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|24 month data Sulcus Bleeding Index||||||0.3667
92286235|NCT00905840|184477684|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|36 month data Sulcus Bleeding Index||||||1.0000
92286236|NCT03020615|184477695|SUPERIORITY|||||||0.033|||||||t-test, 2 sided|||||||0.033
92286237|NCT03020615|184477698|SUPERIORITY|||||||0.0005|||||||Exact Wilcoxon (Mann-Whitley), two-sided|||||||0.0005
92182113|NCT00145470|184263089|SUPERIORITY|||||||0.4878||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Processing Speed - CFB at Day 84||||0.4878
92182114|NCT00145470|184263089|SUPERIORITY|||||||0.8051||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Social Acuity - CFB at Day 84||||0.8051
92286238|NCT03020615|184477700|SUPERIORITY|||||||0.011|||||||Exact Wilcoxon (Mann-Whitney), two-sided|||||||0.011
92286239|NCT03020615|184477701|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.030
92286240|NCT03020615|184477704|SUPERIORITY|||||||0.0009|||||||Exact Wilcoxon (Mann-Whitney), two-sided|||||||0.0009
92286241|NCT03020615|184477706|SUPERIORITY|||||||0.0004|||||||Exact Wilcoxon (Mann-Whitney), two-sided|||||||0.0004
92286242|NCT03020615|184477708|SUPERIORITY|||||||0.75|||||||Exact Wilcoxon (Mann-Whitney), two-sided|||||||0.75
92286243|NCT03020615|184477710|SUPERIORITY|||||||0.0013|||||||Exact Wilcoxon (Mann-Whitney), two-sided|||||||0.0013
92286244|NCT03020615|184477711|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||||||0.013
92286245|NCT00089661|184477727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|||<|0.0001||95.0|4.8|6.3|||ANCOVA|||||6.3|4.8|<0.0001
92286246|NCT02760368|184477733|SUPERIORITY||Risk Difference (RD)|0.378|||<|0.0001|TWO_SIDED|97.5|0.248|0.489|||Chi-squared|2x2 chi-square test||The OKZ ACR20 response rates for 64 q2w treatment group at Week 12 are expected to be at least 55%, resulting in an expected difference in ACR20 response rates of 30 percentage points between respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis.||0.489|0.248|<0.0001
92286247|NCT02760368|184477733|SUPERIORITY||Risk Difference (RD)|0.445|||<|0.0001|TWO_SIDED|97.5|0.318|0.552|||Chi-squared|2x2 chi-square test||The OKZ ACR20 response rates for 64 q4w treatment group at Week 12 are expected to be at least 50%, resulting in an expected difference in ACR20 response rates of 25 percentage points between respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis.||0.552|0.318|<0.0001
92286248|NCT02760368|184477734|SUPERIORITY||Risk Difference (RD)|0.294|||<|0.0001|TWO_SIDED|97.5|0.197|0.389|||Chi-squared|2x2 chi-square test||DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 was estimated to be 10% in the placebo group and 30% in 64 q2w OKZ treatment groups respectively, resulting in an expected difference of 20 percentage points between OKZ q2w treatment group and placebo.||0.389|0.197|<0.0001
92286249|NCT02760368|184477734|SUPERIORITY||Risk Difference (RD)|0.352|||<|0.0001|TWO_SIDED|97.5|0.251|0.449|||Chi-squared|2x2 chi-square test||DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 was estimated to be 10% in the placebo group and 22% in 64 mg q4w OKZ treatment group respectively, resulting in an expected difference of 12 percentage points between OKZ q4w treatment group and placebo.||0.449|0.251|<0.0001
92286250|NCT02760368|184477735|SUPERIORITY||Least Squares Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|97.5|-0.47|-0.21|||ANCOVA|||||-0.21|-0.47|<0.0001
92182115|NCT00145470|184263089|SUPERIORITY|||||||0.1925||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Reasoning - CFB at Day 84||||0.1925
92182116|NCT00145470|184263089|SUPERIORITY|||||||0.0514||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Executive Functioning - CFB at Day 84||||0.0514
92286251|NCT02760368|184477735|SUPERIORITY||Least Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|97.5|-0.49|-0.23|||ANCOVA|||||-0.23|-0.49|<0.0001
92286252|NCT02760368|184477736|SUPERIORITY||Risk Difference (RD)|0.35|||<|0.0001|TWO_SIDED|97.5|0.239|0.45|||Chi-squared|2x2 chi-square test||||0.450|0.239|<0.0001
92286253|NCT02760368|184477736|SUPERIORITY||Risk Difference (RD)|0.409|||<|0.0001|TWO_SIDED|97.5|0.296|0.509|||Chi-squared|2x2 chi-square test||||0.509|0.296|<0.0001
92182117|NCT00145470|184263089|SUPERIORITY|||||||0.9898||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Working Memory - CFB at Day 84||||0.9898
92182118|NCT00145470|184263089|SUPERIORITY|||||||0.5683||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Sustained Attention - CFB at Day 84||||0.5683
92182119|NCT00145470|184263089|SUPERIORITY|||||||0.8907||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Composite Memory - CFB at Day 84||||0.8907
92286254|NCT02760368|184477737|SUPERIORITY||Risk Difference (RD)|0.084|||<|0.0002|TWO_SIDED|97.5|0.032|0.151||2x2 chi-square test|Chi-squared|||||0.151|0.032|<0.0002
92286255|NCT02760368|184477737|SUPERIORITY||Risk Difference (RD)|0.077|||<|0.0003|TWO_SIDED|97.5|0.027|0.143||2x2 chi-square test|Chi-squared|||||0.143|0.027|<0.0003
92286256|NCT02129426|184477791|OTHER|t-test comparison of the two groups||||||0.96|||||||t-test, 1 sided|||||||0.96
92182120|NCT00145470|184263090|SUPERIORITY|||||||0.0613|||||||Log Rank|||||||0.0613
92182121|NCT00145470|184263091|SUPERIORITY|||||||0.7493||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.7493
92182122|NCT00145470|184263092|SUPERIORITY|||||||0.4884||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.4884
92182123|NCT00145470|184263093|SUPERIORITY|||||||0.128||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||PCS - Change from Baseline at Day 21||||0.1280
92182124|NCT00145470|184263093|SUPERIORITY|||||||0.0215||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||MCS - Change from Baseline at Day 21||||0.0215
92182125|NCT00145470|184263094|SUPERIORITY|||||||0.1331||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||PCS - Change from Baseline at Day 84||||0.1331
92182126|NCT00145470|184263094|SUPERIORITY|||||||0.2024||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||MCS - Change from Baseline at Day 84||||0.2024
92264059|NCT02145949|184429183|OTHER|||||||0.01|||||||ANCOVA|||||||.01
92264060|NCT02145949|184429184|OTHER|||||||0.04|||||||ANCOVA|||||||.04
92264061|NCT02145949|184429185|OTHER|||||||0.01|||||||ANCOVA|||||||.01
92264062|NCT02145949|184429186|OTHER|||||||0.12|||||||ANCOVA|||||||.12
92264063|NCT02145949|184429187|OTHER|||||||0.03|||||||ANCOVA|||||||.03
92264064|NCT02145949|184429188|OTHER|||||||0.71|||||||ANCOVA|||||||.71
92264065|NCT02145949|184429189|OTHER|||||||0.76|||||||ANCOVA|||||||.76
92264066|NCT02145949|184429190|OTHER|||||||0.4|||||||ANCOVA|||||||.40
92264067|NCT02145949|184429191|OTHER|||||||0.97|||||||ANCOVA|||||||.97
92264068|NCT02145949|184429192|OTHER|||||||0.89|||||||ANCOVA|||||||.89
92264069|NCT02145949|184429193|OTHER|||||||0.48|||||||ANCOVA|||||||.48
92264070|NCT02145949|184429194|OTHER|||||||0.02|||||||ANCOVA|||||||.02
92264071|NCT02145949|184429195|OTHER|||||||0.29|||||||ANCOVA|||||||.29
92264072|NCT02145949|184429196|OTHER|||||||0.33|||||||ANCOVA|||||||.33
92264073|NCT02145949|184429197|OTHER|||||||0.3|||||||ANCOVA|||||||.30
92264074|NCT02145949|184429198|OTHER|||||||0.98|||||||ANCOVA|||||||.98
92264075|NCT02145949|184429199|OTHER|||||||0.18|||||||ANCOVA|||||||.18
92264076|NCT02145949|184429200|OTHER|||||||0.52|||||||ANCOVA|||||||.52
92264077|NCT02145949|184429201|OTHER|||||||0.81|||||||ANCOVA|||||||.81
92264078|NCT04602078|184429211|SUPERIORITY|||||||0.444|||||||Log Rank|||Comparisong between subgroups: patients with PD-L1 postive versus patients with PD-L1 negative||||0.444
92264079|NCT04602078|184429212|SUPERIORITY|||||||0.414|||||||Chi-squared|||Comparisong between subgroups: patients with PD-L1 postive versus patients with PD-L1 negative||||0.414
92182127|NCT02063659|184263096|SUPERIORITY||Hodges-Lehman estimator of difference|-53.955|||<|0.001|TWO_SIDED|95.0|-84.955|-25.119|||Wilcoxon rank sum|||The primary analysis used a blocked 2-sample Wilcoxon rank sum statistic stratified by the u5-HIAA at randomization.|Mean difference is calculated as LX1606-Placebo.|-25.119|-84.955|< 0.001
92264080|NCT01928758|184429221|OTHER||Mean Difference (Final Values)|-175.7|||<|0.0001|TWO_SIDED|95.0|-218.3|-133.1||Complete case analysis|Regression, Linear|Model was adjusted for baseline cotinine after smoking usual nicotine content cigarettes for 2-weeks.|The direction of comparison is reduced nicotine content vs. usual nicotine content cigarette treatment group.|||-133.1|-218.3|<0.0001
92264081|NCT01928758|184429222|OTHER||Mean Difference (Final Values)|0.69||||0.16|TWO_SIDED|95.0|-0.28|1.65||Complete case analysis|Regression, Linear|Model was adjusted for baseline score after smoking usual nicotine content cigarettes for 2 weeks|The direction of comparison is reduced nicotine content vs. usual nicotine content cigarette treatment group|||1.65|-0.28|0.16
92264082|NCT01928758|184429223|OTHER||Mean Difference (Final Values)|0.38||||0.67|TWO_SIDED|95.0|-1.4|2.16||Complete case analysis|Regression, Linear|Model was adjusted for baseline score after smoking usual nicotine content cigarettes for 2 weeks|The direction of comparison is reduced nicotine content vs. usual nicotine content cigarette treatment group.|||2.16|-1.40|0.67
92264083|NCT01928758|184429224|OTHER||Mean Difference (Final Values)|-0.31||||0.65|TWO_SIDED|95.0|-1.68|1.05||Complete case analysis|Regression, Linear|Model was adjusted for baseline score after smoking usual nicotine content cigarettes for 2 weeks|The direction of comparison is reduced nicotine content vs. usual nicotine content cigarette treatment group|||1.05|-1.68|0.65
92264084|NCT03737812|184429238|OTHER|a statistical test was not performed|Odds Ratio (OR)|2.23|||||TWO_SIDED|95.0|0.485|10.259||||||Analyzed using a logistic regression model with corresponding baseline value as a covariate and treatment as a main effect. Logistic regression model for EDSS+ includes baseline values for EDSS, Timed 25-Foot Walk, 9-Hole Peg Test-dominant, 9-Hole Peg Test-nondominant, and treatment as a main effect. Subjects with missing values were imputed as non-responders.||10.259|0.485|
92264085|NCT03737812|184429238|OTHER|a statistical test was not performed|Odds Ratio (OR)|3.859|||||TWO_SIDED|95.0|0.899|16.561||||||Analyzed using a logistic regression model with corresponding baseline value as a covariate and treatment as a main effect. Logistic regression model for EDSS+ includes baseline values for EDSS, Timed 25-Foot Walk, 9-Hole Peg Test-dominant, 9-Hole Peg Test-nondominant, and treatment as a main effect. Subjects with missing values were imputed as non-responders.||16.561|0.899|
92264086|NCT01474291|184429250|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.023|TWO_SIDED|95.0|1.06|2.3|||Wald Chi-square|Wald Chi-square Test for Type 3 generalized estimating equation (GEE) Analysis.||"Influence of baseline factor Patient's Age (\>=65) upon physician's decision to initiate tocilizumab monotherapy (multivariate analysis)."||2.30|1.06|0.0230
92264087|NCT01474291|184429250|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.74|||<|0.0001|TWO_SIDED|95.0|3.92|8.43|||Wald Chi-square|Wald Chi-square Test for Type 3 GEE Analysis.||"Influence of baseline factor No methotrexate (MTX) sequences within the two last years upon physician's decision to initiate tocilizumab monotherapy (multivariate analysis)."||8.43|3.92|<0.0001
92264088|NCT01474291|184429250|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.03||||0.0212|TWO_SIDED|95.0|1.11|3.7|||Wald Chi-square|Wald Chi-square Test for Type 3 GEE Analysis.||"Influence of baseline factor Past history of severe infectious disease upon physician's decision to initiate tocilizumab monotherapy (multivariate analysis)."||3.70|1.11|0.0212
92286257|NCT02129426|184477792|OTHER|||||||0.52|||||||t-test, 1 sided|||||||0.52
92286258|NCT00635492|184477795|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16|||<|0.0001|TWO_SIDED|95.0|1.13|1.19|||Regression, Logistic|||Body Mass Index (BMI) - 1kg/m² higher||1.19|1.13|<0.0001
92286259|NCT00635492|184477796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77|||<|0.0001|TWO_SIDED|95.0|0.69|0.86|||Regression, Logistic|||Most recent HbA1c at baseline - 1% higher.||0.86|0.69|<0.0001
92182128|NCT02063659|184263096|SUPERIORITY||Hodges-Lehman estimator of difference|-89.662|||<|0.001|TWO_SIDED|95.0|-113.104|-63.863|||Wilcoxon rank sum|||The primary analysis used a blocked 2-sample Wilcoxon rank sum statistic stratified by the u5-HIAA at randomization.|Mean difference is calculated as LX1606-Placebo.|-63.863|-113.104|< 0.001
92286260|NCT00635492|184477797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96|||<|0.0001|TWO_SIDED|95.0|0.95|0.97|||Regression, Logistic|||Age - 1 year older||0.97|0.95|<0.0001
92286261|NCT00635492|184477798|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.0083|TWO_SIDED|95.0|1.01|1.1|||Regression, Logistic|||Diabetes Health Profile - 18 (DHP-18) subscale disinhibited eating - Yes vs. No||1.10|1.01|0.0083
92286262|NCT00635492|184477799|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.0141|TWO_SIDED|95.0|0.9|0.99|||Regression, Logistic|||Random blood glucose - 1 mmol/L higher||0.99|0.90|0.0141
92264089|NCT01474291|184429250|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.0076|TWO_SIDED|95.0|1.05|1.41|||Wald Chi-square|Wald Chi-square Test for Type 3 GEE Analysis.||"Influence of baseline factor Higher Disease Activity Score Based on 28-joint Count and Erythrocyte Sedimentation Rate (DAS28-ESR) (unit=1) on physician decision to initiate tocilizumab monotherapy; DAS28-ESR was calculated from the number of swollen joints and tender joints using 28-joint count, ESR (millimeters per hour \[mm/hour\]) and patient's global assessment of disease activity; scores range from 0 to 10; higher scores correspond to greater disease activity (multivariate analysis)."||1.41|1.05|0.0076
92264090|NCT03471507|184429272|OTHER|||||||0.46|||||||Regression, Linear|Adjusted for age and sex.||||||0.46
92264091|NCT02046993|184429310|SUPERIORITY_OR_OTHER|||||||0.27|||||||Chi-squared|||comparison of the percentage of patients doing HBPM between intervention and control group at baseline||||0.27
92264092|NCT02046993|184429310|SUPERIORITY_OR_OTHER|||||||0.02|||||||McNemar|||Comparison of percentage of subjects doing HBPM at 3rd month from baseline within intervention group||||.020
92264093|NCT02046993|184429310|SUPERIORITY_OR_OTHER|||||||0.06|||||||McNemar|||comparison in percentage of patients doing Home BP monitoring at 6th month from baseline within intervention group||||.060
92264094|NCT02046993|184429310|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||McNemar|||Change in the proportion of patients doing HBPM at 3 months from baseline within the control group||||.002
92264095|NCT02046993|184429310|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||McNemar|||Change in proportion of patients doing HBPM at 6 months from baseline within control group||||.009
92264096|NCT02046993|184429311|SUPERIORITY_OR_OTHER|||||||0.813|||||||t-test, 2 sided|||Comparison of baseline mean clinic systolic BP mCSBP readings between control and intervention||||0.813
92286263|NCT00635492|184477800|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.0107|TWO_SIDED|95.0|0.96|0.99|||Regression, Logistic|||Blood glucose self-monitoring - 1 test/week more||0.99|0.96|0.0107
92264097|NCT02046993|184429311|SUPERIORITY_OR_OTHER|||||||0.865|||||||t-test, 2 sided|||Comparison of baseline mean clinic diastolic BP mCDBP readings between control and intervention||||0.865
92264098|NCT02046993|184429311|SUPERIORITY_OR_OTHER|||||||0.476|||||||t-test, 2 sided|||Comparison of difference of mean clinic systolic BP readings mCSBP between control and intervention at 3 months from baseline||||0.476
92264099|NCT02046993|184429311|SUPERIORITY_OR_OTHER|||||||0.14|||||||t-test, 2 sided|||Comparison of difference of mean clinic diastolic BP mCDBP readings between control and intervention at 3 months from baseline||||0.14
92264100|NCT02046993|184429311|SUPERIORITY_OR_OTHER|||||||0.495|||||||t-test, 2 sided|||Comparison of difference of mean clinic systolic BP readings mCSBP between control and intervention at 6 months from baseline||||0.495
92264101|NCT02046993|184429311|SUPERIORITY_OR_OTHER|||||||0.967|||||||t-test, 2 sided|||Comparison of difference in mean clinic diastolic BP readings mCDBP between control and intervention at 6 months from baseline||||0.967
92264102|NCT02046993|184429312|SUPERIORITY_OR_OTHER|||||||0.819|||||||t-test, 2 sided|||Comparison of baselline SEMCD between telemonitoring group and enhanced usual care||||0.819
92264103|NCT02046993|184429312|SUPERIORITY_OR_OTHER|||||||0.512|||||||t-test, 2 sided|||Comparison of SEMCD at 3 months between telemonitoring group and enhanced usual care||||0.512
92264104|NCT02046993|184429312|SUPERIORITY_OR_OTHER|||||||0.325|||||||t-test, 2 sided|||Comparison of SEMCD at 6 months between telemonitoring group and enhanced usual care group||||0.325
92264105|NCT02046993|184429313|SUPERIORITY_OR_OTHER|||||||0.532|||||||t-test, 2 sided|||comparison of baseline mHSBP in mmHg between Telemonitoring and Enhanced Usual Care groups||||0.532
92264106|NCT02046993|184429313|SUPERIORITY_OR_OTHER|||||||0.902|||||||t-test, 2 sided|||comparison of baseline mHDBP in mmHg between Telemonitoring and Enhanced Usual Care groups||||0.902
92286264|NCT00635492|184477801|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.0193|TWO_SIDED|95.0|1.13|2.46|||Regression, Logistic|||Receipt of diet/exercise advice - Yes vs. No||2.46|1.13|0.0193
92286265|NCT00635492|184477802|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.0138|TWO_SIDED|95.0|0.72|0.96|||Regression, Logistic|||LDL cholesterol - 1 mmol/L higher at baseline||0.96|0.72|0.0138
92286266|NCT00635492|184477810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.118|||<|0.0001|TWO_SIDED|95.0|1.062|1.177|||Regression, Cox|||HbA1c (%) at baseline||1.177|1.062|<0.0001
92264107|NCT02046993|184429314|SUPERIORITY_OR_OTHER|||||||0.138|||||||t-test, 2 sided|||comparison of mHSBP at 3 months between smartphone based telemonitoring group and control group on enhanced usual care||||0.138
92264108|NCT02046993|184429314|SUPERIORITY_OR_OTHER|||||||0.204|||||||t-test, 2 sided|||comparison of mHDBP in mmHg between Telemonitoring and Enhanced Usual Care groups at 3 months||||0.204
92264109|NCT02046993|184429315|SUPERIORITY_OR_OTHER|||||||0.199|||||||t-test, 2 sided|||comparison of mHSBP in mmHg between Telemonitoring groups and Enhanced Usual Care groups at 6 months||||0.199
92264110|NCT02046993|184429315|SUPERIORITY_OR_OTHER|||||||0.204|||||||t-test, 2 sided|||comparison of mHDBP in mmHg at 6 months between Telemonitoring and Enhanced Usual Care groups||||0.204
92264111|NCT00851721|184429345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||Two-sample, two-sided t-test|||H0: μ(on-demand) = μ(prophylaxis) Versus H1: μ(on-demand) ≠ μ(prophylaxis) (Where H0 implies no difference in mean bleeding episode rate between prophylaxis and on-demand treatment arms and H1 implies otherwise. This test was performed at a significance level of 5%, two-sided, two sample)||||0.0003
92264112|NCT00851721|184429347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008|||||||Two-sample, two-sided t-test|||Spontaneous Bleeds||||0.0008
92264113|NCT00851721|184429347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0199|||||||Two-sample, two-sided t-test|||Traumatic Bleeds||||0.0199
92264114|NCT00851721|184429347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006|||||||Two-sample, two-sided t-test|||Joint Bleeds||||0.0006
92264115|NCT00851721|184429347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0227|||||||Two-sample, two-sided t-test|||Non-Joint Bleeds||||0.0227
92264116|NCT00851721|184429347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013|||||||Two-sample, two-sided t-test|||Spontaneous Joint Bleeds||||0.0013
92264117|NCT00851721|184429347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||Two-sample, two-sided t-test|||Spontaneous Non-Joint Bleeds||||0.0030
92264118|NCT00851721|184429347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0254|||||||Two-sample, two-sided t-test|||Traumatic Joint Bleeds||||0.0254
92264119|NCT00851721|184429347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9322|||||||Two-sample, two-sided t-test|||Traumatic Non-Joint Bleeds||||0.9322
92264120|NCT00851721|184429349|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0271|||||||Two-sample, two-sided t-test|||||||0.0271
92264121|NCT00851721|184429356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0067||95.0|||||Mann-Whitney tests (Wilcoxon-Rank Sum)|||||||0.0067
92264122|NCT04047472|184429388|NON_INFERIORITY|Non-inferiority of brolucizumab to aflibercept with respect to change from baseline in BCVA, considering a margin of 4 letters.|LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.16||0.006|TWO_SIDED|90.0|-3.0|0.9|||ANOVA|||||0.9|-3.0|0.006
92264123|NCT04047472|184429389|NON_INFERIORITY|Non-inferiority of brolucizumab to aflibercept with respect to change from baseline in BCVA, considering a margin of 4 letters.|LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|1.11||0.009|TWO_SIDED|90.0|-3.2|0.5|||ANOVA|||||0.5|-3.2|0.009
92264124|NCT02347345|184429445|OTHER|Descriptive pilot study. Not relevant.||||||0.07|||||||Kruskal-Wallis|||||||0.07
92264125|NCT01333501|184429448|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.86|STANDARD_ERROR_OF_MEAN|2.7||0.494|TWO_SIDED|95.0|-3.51|7.23|||ANCOVA|||||7.23|-3.51|0.4940
92264126|NCT01333501|184429449|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.97|STANDARD_ERROR_OF_MEAN|3.03||0.5183|TWO_SIDED|95.0|-4.06|7.99|||ANCOVA|||||7.99|-4.06|0.5183
92264127|NCT01333501|184429450|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|1.05||0.1334|TWO_SIDED|95.0|-3.69|0.5|||ANCOVA|||||0.50|-3.69|0.1334
92264128|NCT01333501|184429451|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.73|STANDARD_ERROR_OF_MEAN|2.29||0.4501|TWO_SIDED|95.0|-6.27|2.81|||ANCOVA|||||2.81|-6.27|0.4501
92264129|NCT01333501|184429452|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|2.53||0.8561|TWO_SIDED|95.0|-4.57|5.49|||ANCOVA|||||5.49|-4.57|0.8561
92264130|NCT01333501|184429453|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|2.53||0.8858|TWO_SIDED|95.0|-4.67|5.4|||ANCOVA|||||5.40|-4.67|0.8858
92264131|NCT01333501|184429454|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.47||0.7119|TWO_SIDED|95.0|-0.76|1.11|||ANCOVA|||||1.11|-0.76|0.7119
92264132|NCT01333501|184429455|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.42||0.9496|TWO_SIDED|95.0|-0.86|0.81|||ANCOVA|||||0.81|-0.86|0.9496
92264133|NCT01333501|184429456|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|1.18||0.8944|TWO_SIDED|95.0|-2.18|2.5|||ANCOVA|||||2.50|-2.18|0.8944
92264134|NCT01333501|184429457|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.59||0.6757|TWO_SIDED|95.0|-1.42|0.92|||ANCOVA|||||0.92|-1.42|0.6757
92264135|NCT01333501|184429458|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.16|STANDARD_ERROR_OF_MEAN|2.34||0.3585|TWO_SIDED|95.0|-6.82|2.5|||ANCOVA|||||2.50|-6.82|0.3585
92264136|NCT01333501|184429459|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.24|STANDARD_ERROR_OF_MEAN|3.69||0.161|TWO_SIDED|95.0|-12.62|2.14|||ANCOVA|||||2.14|-12.62|0.1610
92286267|NCT00635492|184477810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.001|TWO_SIDED|95.0|0.937|0.985|||Regression, Cox|||DHP barriers to activity subscale at baseline||0.985|0.937|0.001
92264137|NCT03485976|184429485|OTHER||||||<|0.001||||||The threshold for statistical significance was p=0.05|t-test, 2 sided|||||||<0.001
92264138|NCT03485976|184429486|OTHER|||||||0.004||||||The threshold for significance was p=0.05|t-test, 2 sided|||||||0.004
92264139|NCT03485976|184429487|OTHER|||||||0.001||||||Threshold for significance was p=0.05|t-test, 2 sided|||||||0.001
92264140|NCT01680835|184429557|OTHER|Freedom from primary safety composite event at 36 months compared to a performance goal of 35%|Kaplan Meier|0.771|||<|0.001|ONE_SIDED|97.5|0.678||||Log Rank||||||0.678|<0.001
92264141|NCT01680835|184429558|OTHER|No hypothesis Testing for this endpoint.|Kaplan Meier|1.0|STANDARD_ERROR_OF_MEAN|0.0|||TWO_SIDED|||||||||Stent Fracture at 1 Year||||
92264142|NCT01680835|184429558|OTHER|No hypothesis testing was done for this endpoint.|Kaplan Meier|0.989|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|||||||||Stent Fracture at 2 Years||||
92264143|NCT01680835|184429558|OTHER|No hypothesis testing was done for this endpoint|Kaplan Meier|0.965|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|||||||||Stent Fracture at 3 Years||||
92264144|NCT01680835|184429559|OTHER|No hypothesis testing was done at this endpoint|Kaplan Meier|0.86|STANDARD_ERROR_OF_MEAN|0.034|||TWO_SIDED|||||||||Freedom from acute death, freedom from amputation and freedom from clinically-driven target lesion revascularization at 1 year||||
92264145|NCT01680835|184429559|OTHER|No hypothesis testing was done for this endpoint.|Kaplan Meier|0.782|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|||||||||Freedom from acute death, freedom from amputation and freedom from clinically-driven target lesion revascularization at 2 years||||
92264146|NCT01680835|184429560|OTHER|No hypothesis testing was done for this endpoint.|Kaplan Meier|0.99|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|||||||||Estimate from freedom from major amputation through 3 years.||||
92264147|NCT01680835|184429561|OTHER||Kaplan Meier|0.781|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|||||||||Freedom from clinically-driven TLR through 3 Years||||
92264148|NCT03026556|184429568|OTHER||Hazard Ratio (HR)|0.766||||0.0844|TWO_SIDED|95.0|0.566|1.037|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.037|0.566|0.0844
92264149|NCT03026556|184429568|OTHER||Hazard Ratio (HR)|1.255||||0.4892|TWO_SIDED|95.0|0.659|2.39|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.390|0.659|0.4892
92264150|NCT03026556|184429569|OTHER||Hazard Ratio (HR)|0.82||||0.0182|TWO_SIDED|95.0|0.696|0.967|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||0.967|0.696|0.0182
92264151|NCT03026556|184429569|OTHER||Hazard Ratio (HR)|1.374||||0.0702|TWO_SIDED|95.0|0.974|1.939|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.939|0.974|0.0702
92264152|NCT03026556|184429570|OTHER||Hazard Ratio (HR)|0.923||||0.6307|TWO_SIDED|95.0|0.667|1.278|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.278|0.667|0.6307
92264153|NCT03026556|184429570|OTHER||Hazard Ratio (HR)|1.054||||0.8777|TWO_SIDED|95.0|0.54|2.055|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.055|0.540|0.8777
92264154|NCT03026556|184429571|OTHER||Hazard Ratio (HR)|0.223||||0.0023|TWO_SIDED|95.0|0.085|0.585|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||0.585|0.085|0.0023
92264155|NCT03026556|184429572|OTHER||Hazard Ratio (HR)|0.654||||0.0406|TWO_SIDED|95.0|0.435|0.982|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||0.982|0.435|0.0406
92264156|NCT03026556|184429572|OTHER||Hazard Ratio (HR)|1.11||||0.8124|TWO_SIDED|95.0|0.469|2.63|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.630|0.469|0.8124
92264157|NCT03026556|184429573|OTHER||Hazard Ratio (HR)|0.856||||0.0901|TWO_SIDED|95.0|0.716|1.025|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.025|0.716|0.0901
92286268|NCT00635492|184477810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.532|||<|0.001|TWO_SIDED|95.0|1.698|3.777|||Regression, Cox|||Gastrointestinal symptoms: yes vs. no at baseline||3.777|1.698|<0.001
92286269|NCT00635492|184477810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.437|||<|0.001|TWO_SIDED|95.0|0.303|0.63|||Regression, Cox|||Insulin regimen: basal/bolus vs. long-acting only||0.630|0.303|<0.001
92286270|NCT00635492|184477810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.676||||0.003|TWO_SIDED|95.0|0.523|0.874|||Regression, Cox|||Insulin regimen: mixtures vs. long-acting only||0.874|0.523|0.003
92286271|NCT00635492|184477810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.549||||0.303|TWO_SIDED|95.0|0.175|1.718|||Regression, Cox|||Insulin regimen: other vs. long-acting only||1.718|0.175|0.303
92286272|NCT00635492|184477810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.164|||<|0.001|TWO_SIDED|95.0|1.681|2.785|||Regression, Cox|||Insulin regimen: short-acting only vs. long-acting only||2.785|1.681|<0.001
92286273|NCT00635492|184477811|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.463||||0.028|TWO_SIDED|95.0|1.043|2.053|||Regression, Cox|||GI symptoms: yes vs. no at baseline||2.053|1.043|0.028
92286274|NCT00635492|184477811|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.601||||0.002|TWO_SIDED|95.0|0.432|0.834|||Regression, Cox|||EQ-5D index value at baseline||0.834|0.432|0.002
92286275|NCT02251886|184477815|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.17||||0.48|TWO_SIDED|95.0|0.77|1.76|||Chi-squared|||||1.76|0.77|0.48
92286276|NCT02251886|184477815|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.69|1.46|||Chi-squared|||||1.46|0.69|1.00
92286277|NCT02757105|184477819|SUPERIORITY|||||||0.036|||||||Chi-squared, Corrected|||||||0.036
92286278|NCT02757105|184477820|SUPERIORITY|||||||0.41|||||||Chi-squared, Corrected|||||||0.410
92286279|NCT02757105|184477821|SUPERIORITY|||||||0.081|||||||Chi-squared, Corrected|||||||0.081
92286280|NCT02757105|184477822|SUPERIORITY|||||||0.042|||||||Chi-squared, Corrected|||||||0.042
92264158|NCT03026556|184429573|OTHER||Hazard Ratio (HR)|1.431||||0.0616|TWO_SIDED|95.0|0.983|2.083|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.083|0.983|0.0616
92286281|NCT02757105|184477823|SUPERIORITY|||||||0.009|||||||Chi-squared, Corrected|||||||0.009
92286282|NCT02757105|184477824|SUPERIORITY|||||||0.919|||||||Chi-squared, Corrected|||||||0.919
92286283|NCT02757105|184477825|SUPERIORITY||Mean Difference (Final Values)|11.5||||0.278|TWO_SIDED|95.0|-7.7|30.6|||Chi-squared, Corrected|||||30.6|-7.7|0.278
92264159|NCT03026556|184429574|OTHER||Hazard Ratio (HR)|0.887||||0.2073|TWO_SIDED|95.0|0.736|1.069|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.069|0.736|0.2073
92264160|NCT03026556|184429574|OTHER||Hazard Ratio (HR)|1.504||||0.0417|TWO_SIDED|95.0|1.015|2.228|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.228|1.015|0.0417
92264161|NCT03026556|184429576|OTHER||Hazard Ratio (HR)|0.709||||0.2663|TWO_SIDED|95.0|0.387|1.299|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.299|0.387|0.2663
92264162|NCT03026556|184429576|OTHER||Hazard Ratio (HR)|0.864||||0.8112|TWO_SIDED|95.0|0.261|2.863|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.863|0.261|0.8112
92264163|NCT03026556|184429577|OTHER||Hazard Ratio (HR)|0.766||||0.1227|TWO_SIDED|95.0|0.546|1.075|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.075|0.546|0.1227
92264164|NCT03026556|184429577|OTHER||Hazard Ratio (HR)|1.138||||0.7115|TWO_SIDED|95.0|0.573|2.26|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.260|0.573|0.7115
92264165|NCT03026556|184429578|OTHER||Hazard Ratio (HR)|0.923||||0.4727|TWO_SIDED|95.0|0.741|1.149|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.149|0.741|0.4727
92264166|NCT03026556|184429578|OTHER||Hazard Ratio (HR)|1.721||||0.0275|TWO_SIDED|95.0|1.062|2.79|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.790|1.062|0.0275
92264167|NCT03026556|184429579|OTHER||Hazard Ratio (HR)|1.346||||0.2309|TWO_SIDED|95.0|0.828|2.189|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.189|0.828|0.2309
92264168|NCT03026556|184429579|OTHER||Hazard Ratio (HR)|1.557||||0.3333|TWO_SIDED|95.0|0.635|3.821|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||3.821|0.635|0.3333
92264169|NCT03026556|184429580|OTHER||Hazard Ratio (HR)|1.008||||0.9359|TWO_SIDED|95.0|0.829|1.226|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.226|0.829|0.9359
92264170|NCT03026556|184429580|OTHER||Hazard Ratio (HR)|1.024||||0.8947|TWO_SIDED|95.0|0.716|1.465|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.465|0.716|0.8947
92264171|NCT00877929|184429584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.0001||95.0|-7.9|-4.2|||ANCOVA|Included effects of treatment, week and treatment-by-week interaction with covariate of baseline blood pressure and baseline-week interaction.||||-4.2|-7.9|0.0001
92264172|NCT00877929|184429585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.1||||0.0001||95.0|-8.9|-5.4|||ANCOVA|Included effects of treatment, week and treatment-by-week interaction with covariate of baseline blood pressure and baseline-week interaction.||||-5.4|-8.9|0.0001
92264173|NCT00877929|184429586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.0001||95.0|-8.3|-4.9|||ANCOVA|Included effects of treatment, week and treatment-by-week interaction with covariate of baseline blood pressure and baseline-week interaction.||||-4.9|-8.3|0.0001
92264174|NCT00877929|184429587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.0001||95.0|-7.9|-4.3|||ANCOVA|Included effects of treatment, week and treatment-by-week interaction with covariate of baseline blood pressure and baseline-week interaction.||||-4.3|-7.9|0.0001
92264175|NCT00877929|184429588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.0001||95.0|-6.6|-3.2|||ANCOVA|Included effects of treatment, week and treatment-by-week interaction with covariate of baseline blood pressure and baseline-week interaction.||||-3.2|-6.6|0.0001
92264176|NCT00842829|184429625|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper limit of the 90% CI was \<8%.|Mean Difference (Net)|-6.3|||||ONE_SIDED|95.0||1.4|||||The upper bound of the 2-sided 90% confidence interval is equivalent to the upper bound of the 1-sided 95% confidence interval.|Treatment comparison difference (100 mcg - 200 mcg)||1.4||
92264177|NCT02155725|184429649|SUPERIORITY||Odds Ratio (OR)|0.9889||||0.9563|TWO_SIDED|95.0|0.6633|1.4744|||Regression, Logistic|||||1.4744|0.6633|0.9563
92264178|NCT02155725|184429650|SUPERIORITY||Odds Ratio (OR)|1.0064||||0.9786|TWO_SIDED|95.0|0.6321|1.6022|||Regression, Logistic|||Failure on individual component of the primary endpoint defined as administration of 2 units of RBCs.||1.6022|0.6321|0.9786
92264179|NCT02155725|184429651|SUPERIORITY||Odds Ratio (OR)|1.0169||||0.9474|TWO_SIDED|95.0|0.6177|1.6741|||Regression, Logistic|||Failure on individual component of the primary endpoint defined as a loss of at least 4 g/dL of Hb.||1.6741|0.6177|0.9474
92264180|NCT02612194|184429652|OTHER|Estimation only.|Overall Response Rate|0.0|||||TWO_SIDED|95.0|0.0|0.369|||||Confidence interval estimated using the Clopper Pearson method.|||0.369|0.000|
92264181|NCT02612194|184429653|OTHER|Estimation only|Median|3.1|||||TWO_SIDED|95.0|0.2|6.1|||||The Kaplan Meier method was used to estimate the median OS (in months) for the population. The Greenwood method was used to estimate the confidence limits of the median overall survival.|||6.1|0.2|
92286284|NCT02757105|184477826|SUPERIORITY||Mean Difference (Final Values)|14.5||||0.135|TWO_SIDED|95.0|-3.4|32.5|||Chi-squared, Corrected|||||32.5|-3.4|0.135
92264182|NCT02612194|184429654|OTHER|Estimation only|Median|1.5|||||TWO_SIDED|95.0|0.2|1.8|||||The Kaplan Meier method was used to estimate the median PFS (in months) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||1.8|0.2|
92264183|NCT00387621|184429655|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|With Bonferroni correction for multiple comparisons||||||<0.05
92264184|NCT00387621|184429656|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||rank-sum test|Rank-sum test was used due to non-normality of data with Bonferroni correction for multiple comparisons||||||<0.05
92264185|NCT00689299|184429665|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||ANOVA with baseline score as covariate||||<0.05
92286285|NCT01593852|184477828|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical dose observations, a sample size of 68 patients per study group (i.e. 62 evaluable patients for 10% dropout rate) for a total of 136 patient randomized will allow for 80% power to detect for approximately 40% reduction in dose area product (DAP). This sample size will allow for detection of approximately 40% reduction in air kerma (AK). No adjustment for multiple endpoints was performed as both endpoints are assessing radiation dose.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92264186|NCT01190839|184429666|SUPERIORITY_OR_OTHER|||||||0.097||||||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by the number of risk factors for recurrence of active CD and baseline use of an immunomodulator.|Cochran-Mantel-Haenszel chi-square test|||||||0.097
92264187|NCT01190839|184429667|SUPERIORITY_OR_OTHER||||||<|0.001||||||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by the number of risk factors for recurrence of active CD and baseline use of an immunomodulator.|Cochran-Mantel-Haenszel chi-square test|||||||<0.001
92264188|NCT01190839|184429668|SUPERIORITY_OR_OTHER|||||||0.098||||||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by the number of risk factors for recurrence of active CD and baseline use of an immunomodulator.|Cochran-Mantel-Haenszel chi-square test|||||||0.098
92264189|NCT00950755|184429680|SUPERIORITY_OR_OTHER||percentage of participants|76.0|||||TWO_SIDED|95.0|62.0|89.0|||||The estimated value represents the percentage of participants with response.|||89|62|
92264190|NCT00950755|184429681|SUPERIORITY_OR_OTHER||percentage of participants|54.0|||||TWO_SIDED|95.0|38.0|69.0|||||The estimated value represents the percentage of participants with confirmed response.|||69|38|
92264191|NCT00950755|184429682|SUPERIORITY_OR_OTHER||percentage of participants|34.0|||||TWO_SIDED|95.0|20.0|49.0|||||The estimated value represents the percentage of participants with confirmed CR.|||49|20|
92264192|NCT00950755|184429683|SUPERIORITY_OR_OTHER||percentage of participants|41.0|||||TWO_SIDED|95.0|26.0|57.0|||||The estimated value represents the percentage of participants with confirmed CR + CCR.|||57|26|
92264193|NCT00950755|184429684|SUPERIORITY_OR_OTHER||percentage of participants|10.0|||||TWO_SIDED|95.0|1.0|19.0|||||The estimated value represents the percentage of participants with confirmed PR.|||19|1|
92264194|NCT03539900|184429701|SUPERIORITY|Analyses used all available data. Analyses to compare treatments were all intent-to-treat.||||||0.44|||||||Mixed Models Analysis|Analyses were performed for all randomized participants. Models also considered weight status as a moderator or predictor.||||||.44
92264195|NCT03539900|184429702|SUPERIORITY|Analyses used all available data. Analyses to compare treatments were all intent-to-treat.||||||0.04|||||||Mixed Models Analysis|Analyses were performed for all randomized participants. Models also considered weight status as a predictor or moderator.||||||.04
92264196|NCT03539900|184429703|SUPERIORITY|||||||0.98|||||||ANOVA|Analyses used all available data without imputation.||||||.98
92264197|NCT03539900|184429704|SUPERIORITY|||||||0.44|||||||ANOVA|Analyses used all available data without imputation.||||||.44
92264198|NCT03539900|184429705|SUPERIORITY|||||||0.99|||||||ANOVA|Analyses used all available data without imputation.||||||.99
92264199|NCT03539900|184429706|SUPERIORITY|||||||0.4|||||||ANOVA|Analyses used all available data without imputation.||||||.40
92264200|NCT03799198|184429707|SUPERIORITY||Treatment Difference|-3.5|STANDARD_ERROR_OF_MEAN|1.02|<|0.001|TWO_SIDED|95.0|-5.51|-1.5|||ANCOVA|||Analysis of in-trial data with missing observations for body weight at month 12 imputed from the WMP arm based on a jump to reference multiple (x=100) imputation approach. Percent change in body weight from baseline to month 12 was calculated for each study participant within the FAS and analyzed using an analysis of covariance model with randomized treatment as a factor and baseline body weight (kg) as a covariate.||-1.50|-5.51|<0.001
92264201|NCT00960869|184429725|SUPERIORITY_OR_OTHER||proportions|2.7||||0.005|TWO_SIDED|95.0|1.1|5.5|||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.|The proportion is from the PA32540 treatment group.|The primary efficacy endpoint was the proportion of subjects with gastric ulcers throughout 6 months of treatment. The primary endpoint was analyzed with the CMH test stratified by NSAID use (COX-2/Other NSAID/No) at randomization. A sample size of 250 subjects/treatment would provide 86% power to detect the difference of 8% between EC aspirin 325 mg (13%) and PA32540 (5%) with a 2-sided significance of 5%; and, provides adequate power to test the key secondary endpoints in sequential order.||5.5|1.1|0.005
92286286|NCT01593852|184477836|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical dose observations, a sample size of 68 patients per study group (i.e. 62 evaluable patients for 10% dropout rate) for a total of 136 patient randomized will allow for 80% power to detect for approximately 40% reduction in dose area product (DAP). This sample size will allow for detection of approximately 40% reduction in air kerma (AK). No adjustment for multiple endpoints was performed as both endpoints are assessing radiation dose.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92264202|NCT00960869|184429726|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects developing gastric ulcers and/or duodenal ulcers at 6 months was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
92264203|NCT00960869|184429727|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects with Treatment Success was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
92264204|NCT00960869|184429728|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects discontinuing from the study due to NSAID-associated upper GI adverse events was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
92264205|NCT00960869|184429729|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO and by baseline heartburn severity at randomization.||The proportion of subjects who had no heartburn at 6 months (regardless of the presence or absence of heartburn at baseline) was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
92264206|NCT01153971|184429734|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92264207|NCT03410693|184429752|SUPERIORITY||ORR difference (R-C)|-2.1|||=|0.6991|TWO_SIDED|95.0|-14.0|9.9|||Fisher Exact|||||9.9|-14.0|=0.6991
92264208|NCT03410693|184429752|SUPERIORITY||ORR difference (R - C)|-4.5|||=|0.7944|TWO_SIDED|95.0|-18.9|9.9|||Fisher Exact|||||9.9|-18.9|=0.7944
92264209|NCT03410693|184429753|SUPERIORITY||DCR difference (R-C)|-5.1|||=|0.7962|TWO_SIDED|95.0|-19.9|9.7|||Fisher Exact|||||9.7|-19.9|=0.7962
92264210|NCT03410693|184429753|SUPERIORITY||DCR difference (R-C)|-10.3|||=|0.9109|TWO_SIDED|95.0|-27.5|6.9|||Fisher Exact|||||6.9|-27.5|=0.9109
92264211|NCT03410693|184429754|SUPERIORITY||Hazard Ratio (HR)|1.226|||=|0.8672|TWO_SIDED|95.0|0.853|1.762|||Log Rank|||||1.762|0.853|= 0.8672
92264212|NCT03410693|184429754|SUPERIORITY||Hazard Ratio (HR)|1.341||||0.9171|TWO_SIDED|95.0|0.88|2.043|||Log Rank|||||2.043|0.880|0.9171
92264213|NCT01789476|184429757|SUPERIORITY_OR_OTHER||||||<|0.05||||||One-sided ANOVA with Treatment Group as a Main Effect|ANOVA|||||||<0.05
92264214|NCT01789476|184429758|SUPERIORITY_OR_OTHER||||||<|0.03||||||One-sided ANOVA with Treatment Group as a Main Effect|ANOVA|||||||<0.03
92264215|NCT01789476|184429759|SUPERIORITY_OR_OTHER||||||<|0.03||||||One-sided ANOVA with Treatment Group as a Main Effect|ANOVA|||||||<0.03
92264216|NCT01798056|184429767|NON_INFERIORITY|Criteria used: The lower limit (LL) of the 95% confidence interval (CI) of the Geometric Mean (GM) ratio (GSK1437173A PreChemo group over Placebo PreChemo group) in anti-gE ELISA antibody concentrations is greater than 3.|Adjusted GMC ratio|23.2|||||TWO_SIDED|95.0|17.9|30.0||||Difference of means between vaccines and placebo were calculated together with 2-sided confidence intervals and back-transformed to the original units||The analysis evaluated the anti-gE humoral immune responses at Month 2, following a two-dose administration of the GSK1437173A vaccine, as compared to placebo in subjects with solid tumours receiving chemotherapy (PreChemo Groups only).||30|17.9|
92264217|NCT01238861|184429782|SUPERIORITY_OR_OTHER||Rate Ratio|1.09||||0.781|TWO_SIDED|80.0|0.74|1.59|||Poisson Regression Method||The p-value was calculated by Poisson regression with over-dispersion adjustment factor. The correction for potential over dispersion was made by Pearson chi-square.|||1.59|0.74|0.781
92264218|NCT01238861|184429782|SUPERIORITY_OR_OTHER||Rate Ratio|0.64||||0.173|TWO_SIDED|80.0|0.42|0.97|||Poisson Regression Method||The p-value was calculated by Poisson regression with over-dispersion adjustment factor. The correction for potential over dispersion was made by Pearson chi-square.|||0.97|0.42|0.173
92264219|NCT01238861|184429782|SUPERIORITY_OR_OTHER||Rate ratio|0.59||||0.096|TWO_SIDED|80.0|0.4|0.89|||Poisson Regression Method||The p-value was calculated by Poisson regression with over-dispersion adjustment factor. The correction for potential over dispersion was made by Pearson chi-square.|||0.89|0.40|0.096
92264220|NCT01238861|184429787|SUPERIORITY_OR_OTHER|||||||0.125|||||||ANCOVA|P-value was calculated by analysis of covariance (ANCOVA) with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.125
92264221|NCT01238861|184429787|SUPERIORITY_OR_OTHER|||||||0.074|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.074
92264222|NCT01238861|184429787|SUPERIORITY_OR_OTHER|||||||0.057|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.057
92264223|NCT01238861|184429787|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.010
92264224|NCT01238861|184429789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.182||||0.131|TWO_SIDED|80.0|-0.336|-0.028|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||-0.028|-0.336|0.131
92264225|NCT01238861|184429789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.173||||0.126|TWO_SIDED|80.0|-0.317|-0.028|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||-0.028|-0.317|0.126
92264226|NCT01238861|184429789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.097|TWO_SIDED|80.0|-0.247|-0.032|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||-0.032|-0.247|0.097
92264227|NCT01238861|184429790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174||||0.642|TWO_SIDED|80.0|-0.654|0.306|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use without prophylactic at Week 51-52.||0.306|-0.654|0.642
92264228|NCT01238861|184429790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111||||0.824|TWO_SIDED|80.0|-0.533|0.756|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use without prophylactic at Week 51-52.||0.756|-0.533|0.824
92264229|NCT01238861|184429790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029||||0.91|TWO_SIDED|80.0|-0.297|0.355|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use without prophylactic at Week 51-52.||0.355|-0.297|0.910
92264230|NCT01238861|184429790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004||||0.992|TWO_SIDED|80.0|-0.602|0.593|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use with prophylactic at Week 51-52.||0.593|-0.602|0.992
92264231|NCT01238861|184429790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.337||||0.624|TWO_SIDED|80.0|-0.548|1.222|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use with prophylactic at Week 51-52.||1.222|-0.548|0.624
92286287|NCT02937870|184477842|OTHER||Least square (LS) mean difference|0.66||||0.177|TWO_SIDED|95.0|-0.14|1.47||p-values for treatment comparison of test adhesive 1 vs. no adhesive were adjusted using the Dunnett's method.|ANCOVA|ANCOVA with factors for subject (random effect), period \& treatment, subject-level and period-level pre-treatment baseline bite force as covariate.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||1.47|-0.14|0.1770
92264232|NCT01238861|184429790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.645|TWO_SIDED|80.0|-0.267|0.567|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use with prophylactic at Week 51-52.||0.567|-0.267|0.645
92286288|NCT02937870|184477843|OTHER||LS mean difference|-0.2||||0.8321|TWO_SIDED|95.0|-0.98|0.59||p-values for treatment comparison of test adhesive 1 vs. no adhesive were adjusted using the Dunnett's method.|ANCOVA|ANCOVA with factors for subject (random effect), period \& treatment, subject-level and period-level pre-treatment baseline bite force as covariate.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||0.59|-0.98|0.8321
92264233|NCT01238861|184429791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157||||0.014|TWO_SIDED|80.0|0.076|0.237|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.237|0.076|0.014
92264234|NCT01238861|184429791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184||||0.004|TWO_SIDED|80.0|0.102|0.266|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.266|0.102|0.004
92286289|NCT02937870|184477844|OTHER||LS mean difference|0.07||||0.8566|TWO_SIDED|95.0|-0.72|0.87|||ANCOVA|ANCOVA with factors for subject (random effect), period \& treatment, subject-level and period-level pre-treatment baseline bite force as covariate.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||0.87|-0.72|0.8566
92264235|NCT01238861|184429791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091||||0.026|TWO_SIDED|80.0|0.039|0.143|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.143|0.039|0.026
92264236|NCT01238861|184429792|SUPERIORITY_OR_OTHER|||||||0.384|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.384
92264237|NCT01238861|184429792|SUPERIORITY_OR_OTHER|||||||0.092|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.092
92264238|NCT01238861|184429792|SUPERIORITY_OR_OTHER|||||||0.134|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.134
92264239|NCT01238861|184429792|SUPERIORITY_OR_OTHER|||||||0.129|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.129
92264240|NCT01238861|184429794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.404||||0.069|TWO_SIDED|80.0|0.121|0.687|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.687|0.121|0.069
92264241|NCT01238861|184429794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.462||||0.049|TWO_SIDED|80.0|0.163|0.761|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.761|0.163|0.049
92264242|NCT01238861|184429794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238||||0.168|TWO_SIDED|80.0|0.017|0.459|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.459|0.017|0.168
92264243|NCT01238861|184429795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.51|TWO_SIDED|80.0|-0.058|0.019|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.019|-0.058|0.510
92264244|NCT01238861|184429795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041||||0.113|TWO_SIDED|80.0|0.008|0.074|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.074|0.008|0.113
92264245|NCT01238861|184429795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011||||0.599|TWO_SIDED|80.0|-0.016|0.038|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.038|-0.016|0.599
92264246|NCT01238861|184429796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.373||||0.871|TWO_SIDED|80.0|-3.333|2.586|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||2.586|-3.333|0.871
92264247|NCT01238861|184429796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.857||||0.227|TWO_SIDED|80.0|-0.175|5.889|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||5.889|-0.175|0.227
92264248|NCT01238861|184429796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.139||||0.503|TWO_SIDED|80.0|-1.041|3.319|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||3.319|-1.041|0.503
92264249|NCT01238861|184429797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.907||||0.55|TWO_SIDED|80.0|-4.483|12.297|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||12.297|-4.483|0.550
92264250|NCT01238861|184429797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.659||||0.215|TWO_SIDED|80.0|-0.262|15.579|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||15.579|-0.262|0.215
92264251|NCT01238861|184429797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.54||||0.413|TWO_SIDED|80.0|-2.006|9.086|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||9.086|-2.006|0.413
92264252|NCT01238861|184429798|SUPERIORITY_OR_OTHER|||||||0.896|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.896
92264253|NCT01238861|184429798|SUPERIORITY_OR_OTHER|||||||0.944|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.944
92264254|NCT01238861|184429798|SUPERIORITY_OR_OTHER|||||||0.667|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.667
92264255|NCT01008059|184429808|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
92264256|NCT02660489|184429809|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
92264257|NCT02660489|184429810|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
92264258|NCT02660489|184429811|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
92264259|NCT02660489|184429812|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
92264260|NCT02660489|184429813|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92264261|NCT02660489|184429814|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92264262|NCT02660489|184429815|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
92264263|NCT02660489|184429816|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.66
92264264|NCT02322866|184429823|SUPERIORITY||Least Squares Mean Difference|-4.4|||<|0.0001|TWO_SIDED|95.0|-5.8|-2.9||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|||-2.9|-5.8|< 0.0001
92264265|NCT02322866|184429824|SUPERIORITY||Treatment Rate Difference|7.3||||0.0038|TWO_SIDED|95.0|2.53|12.07||P-values were based on the test of general association between the response and treatment group using Cochran-Mantel-Haenszel test with pooled site as stratification factor.|Cochran-Mantel-Haenszel||sarecycline - placebo|||12.07|2.53|0.0038
92264266|NCT02322866|184429825|SUPERIORITY||Least Squares Mean Difference|-14.4|||<|0.0001|TWO_SIDED|95.0|-19.4|-9.5||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 12||-9.5|-19.4|< 0.0001
92264267|NCT02322866|184429826|SUPERIORITY||Least Squares Mean Difference|-12.6|||<|0.0001|TWO_SIDED|95.0|-17.3|-7.9||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 9||-7.9|-17.3|< 0.0001
92264268|NCT02322866|184429827|SUPERIORITY||Least Squares Mean Difference|-11.8|||<|0.0001|TWO_SIDED|95.0|-16.1|-7.5||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 6||-7.5|-16.1|< 0.0001
92286290|NCT02937870|184477845|OTHER||LS mean difference|-0.79||||0.0488|TWO_SIDED|95.0|-1.58|0.0|||ANCOVA|ANCOVA with factors for subject (random effect), period \& treatment, subject-level and period-level pre-treatment baseline bite force as covariate.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||-0.00|-1.58|0.0488
92286291|NCT02937870|184477846|OTHER||LS mean difference|0.86||||0.0352|TWO_SIDED|95.0|0.06|1.66|||ANCOVA|ANCOVA with factors for subject (random effect), period \& treatment, subject-level and period-level pre-treatment baseline bite force as covariate.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||1.66|0.06|0.0352
92264269|NCT02322866|184429828|SUPERIORITY||Least Squares Mean Difference|-9.4|||<|0.0001|TWO_SIDED|95.0|-13.5|-5.3||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 3||-5.3|-13.5|< 0.0001
92264270|NCT02322866|184429829|SUPERIORITY||Least Squares Mean Difference|-3.8|||<|0.0001|TWO_SIDED|95.0|-5.2|-2.5||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 9||-2.5|-5.2|< 0.0001
92264271|NCT02322866|184429830|SUPERIORITY||Least Squares Mean Difference|-3.7|||<|0.0001|TWO_SIDED|95.0|-5.0|-2.4||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 6||-2.4|-5.0|< 0.0001
92264272|NCT02322866|184429831|SUPERIORITY||Least Squares Mean Difference|-2.9|||<|0.0001|TWO_SIDED|95.0|-4.1|-1.7||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 3||-1.7|-4.1|< 0.0001
92264273|NCT06045026|184429902|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
92264274|NCT06045026|184429902|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
92264275|NCT06045026|184429902|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
92264276|NCT06045026|184429902|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
92286292|NCT05169710|184477873|SUPERIORITY||Mean Difference (Final Values)|-3.94|STANDARD_ERROR_OF_MEAN|2.857||0.1718|TWO_SIDED|95.0|-9.64|1.75|||Mixed Models Analysis|||||1.75|-9.64|0.1718
92286293|NCT05169710|184477873|SUPERIORITY||Mean Difference (Final Values)|-6.34|STANDARD_ERROR_OF_MEAN|2.837||0.0286|TWO_SIDED|95.0|-11.99|-0.68|||Mixed Models Analysis|||||-0.68|-11.99|0.028600
92264277|NCT06045026|184429902|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
92264278|NCT06045026|184429902|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
92264279|NCT06045026|184429903|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
92264280|NCT06045026|184429903|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
92264281|NCT06045026|184429903|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
92264282|NCT06045026|184429903|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
92264283|NCT06045026|184429903|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
92264284|NCT06045026|184429903|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
92264285|NCT06045026|184429904|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
92264286|NCT06045026|184429904|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
92264287|NCT06045026|184429904|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
92264288|NCT06045026|184429904|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
92264289|NCT06045026|184429904|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
92264290|NCT06045026|184429904|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
92264291|NCT06045026|184429905|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
92264292|NCT06045026|184429905|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
92264293|NCT06045026|184429905|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
92264294|NCT06045026|184429905|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
92286294|NCT05169710|184477874|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.308||0.7314|TWO_SIDED|95.0|-0.72|0.51|||Mixed Models Analysis|||||0.51|-0.72|0.7314
92286295|NCT05169710|184477874|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.305||0.3169|TWO_SIDED|95.0|-0.91|0.3|||Mixed Models Analysis|||||0.3|-0.91|0.3169
92286296|NCT00836056|184477890|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|97.75||||||90.0|91.5|104.42|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.42|91.50|
92286297|NCT00836056|184477891|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|96.77||||||90.0|91.4|102.46|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.46|91.40|
92286298|NCT00836056|184477892|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|95.96||||||90.0|90.77|101.46|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.46|90.77|
92286299|NCT03226522|184477893|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.010
92286300|NCT03226522|184477893|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92286301|NCT01001208|184477894|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||<0.0001
92286302|NCT01001208|184477895|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
92286303|NCT01001208|184477896|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
92286304|NCT01001208|184477897|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
92286305|NCT01001208|184477898|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
92286306|NCT01001208|184477899|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
92286307|NCT01001208|184477900|SUPERIORITY_OR_OTHER|||||||0.0348||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0348
92286308|NCT01001208|184477901|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
92286309|NCT01001208|184477902|SUPERIORITY_OR_OTHER|||||||0.1995||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|2-sided van Elteren test|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.1995
92286310|NCT01001208|184477903|SUPERIORITY_OR_OTHER|||||||0.1995||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|2-sided van Elteren test|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.1995
92286311|NCT01790581|184477937|SUPERIORITY_OR_OTHER|||||||0.904|TWO_SIDED||||||MANOVA|||This analysis examined the change in balance scores from baseline to 1-day post intervention for all three reach distances (Anterior, Posteriomedial, Posteriolateral) using a MANOVA.||||.904
92286312|NCT01790581|184477939|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||MANOVA|||This analysis examined the change in disability scores from baseline to 1-day post intervention for both disability scores (FAAM, FAAM-S) using a MANOVA.||||.5
92286313|NCT02305758|184477982|SUPERIORITY||Hazard Ratio (HR)|0.939|||||TWO_SIDED|95.0|0.596|1.48||||||Comparisons between treatment groups were performed using the Cox Proportional Hazard Model, stratified by planned bevacizumab use (planned use versus no planned use).||1.480|0.596|
92286314|NCT02305758|184477983|SUPERIORITY||Hazard Ratio (HR)|1.261|||||TWO_SIDED|95.0|0.738|2.156||||||Comparisons between treatment groups were performed using the Cox Proportional Hazard Model, stratified by planned bevacizumab use (planned use versus no planned use).||2.156|0.738|
92286315|NCT02305758|184477984|SUPERIORITY||Difference in proportions|-4.62|||||TWO_SIDED|95.0|-21.4|12.1|||Mantel Haenszel|||Comparisons between treatment groups were performed using the Mantel-Haenszel method, stratified by planned bevacizumab use (planned use versus no planned use).||12.1|-21.4|
92286316|NCT01424644|184477991|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to diphtheria toxin for the MenACWY-CRM+Tdap+HPV group was considered non-inferior to that of the Placebo+Tdap+HPV group if the lower limit of the two-sided 95% CI of the difference in seroprotection rates \[(MenACWY-CRM+Tdap+HPV) minus (Placebo+Tdap + HPV)\] was greater than -10%, at 1 month after Tdap vaccination|Vaccine group difference|13.0|||||TWO_SIDED|95.0|9.0|17.0|||Miettinen and Nurminen|||Non-inferiority of anti-diphtheria immune response following concomitant administration of Tdap with HPV and MenACWY-CRM as compared to concomitant administration of Tdap with HPV and placebo||17|9|
92286317|NCT01424644|184477991|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to tetanus toxin for the MenACWY-CRM+Tdap+HPV group was considered non-inferior to that of Placebo+Tdap+HPV group if the lower limit of the two-sided 95% CI of the difference in seroprotection rates \[(MenACWY-CRM+ Tdap+HPV) minus (Placebo+Tdap + HPV)\] was greater than -10%, at 1 month after Tdap vaccination.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|||Non-inferiority of anti-tetanus immune response following concomitant administration of Tdap with HPV and MenACWY-CRM as compared to concomitant administration of Tdap with HPV and placebo.||2|-2|
92286318|NCT01424644|184477992|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to PT antigen for the MenACWY-CRM+Tdap+HPV group was considered non-inferior to that of the Placebo+Tdap+HPV group if the lower limit of the two-sided 95% CI of the ratio of the GMCs of the MenACWY-CRM +Tdap+HPV group to the Placebo+Tdap + HPV group was greater than 0.5, at 1 month after Tdap vaccination.|Vaccine group ratio-Geometric mean conc|1.01|||||TWO_SIDED|95.0|0.89|1.14|||ANOVA|||Non-inferiority of anti-PT immune response following concomitant administration of Tdap with HPV and MenACWY-CRM as compared to concomitant administration of Tdap with HPV and placebo.||1.14|0.89|
92286319|NCT01424644|184477992|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to FHA antigen for the MenACWY-CRM+Tdap+HPV group was considered non-inferior to that of Placebo+Tdap+HPV group if the lower limit of the 95% CI of the difference \[(MenACWY-CRM +Tdap+HPV) minus(Placebo+Tdap + HPV)\] was greater than 0.5, at 1 month after Tdap vaccination.|Vaccine group ratio- Geometric mean conc|0.84|||||TWO_SIDED|95.0|0.76|0.93|||ANOVA|||Non-inferiority of anti-FHA immune response following concomitant administration of Tdap with HPV and MenACWY-CRM as compared to concomitant administration of Tdap with HPV and placebo.||0.93|0.76|
92286320|NCT01424644|184477992|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to PRN antigen for the MenACWY-CRM+Tdap+HPV group was considered non-inferior to that of Placebo+Tdap+HPV group if the lower limit of the 95% CI of the difference \[(MenACWY-CRM+Tdap+HPV) minus(Placebo+Tdap + HPV)\] was greater than 0.5, at 1 month after vaccination.|Vaccine group ratio-Geometric mean conc|0.82|||||TWO_SIDED|95.0|0.72|0.93|||ANOVA|||Non-inferiority of anti-PRN immune response following concomitant administration of Tdap with HPV and MenACWY-CRM as compared to concomitant administration of Tdap with HPV and placebo.||0.93|0.72|
92286321|NCT00440297|184478003|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|48.5||||||95.0|38.4|58.7|||||Exact binomial confidence interval.|No hypothesis is being tested. The purpose of the primary analysis is to estimate the seroprotection rate (percentage of subjects with anti-HBs \>=10mIU/mL) in each group at 1 month after the third dose among subjects who were seronegative at baseline||58.7|38.4|
92286322|NCT00440297|184478003|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|57.7||||||95.0|47.9|67.0|||||Exact binomial confidence interval.|||67.0|47.9|
92286323|NCT00440297|184478004|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|66.7||||||95.0|56.5|75.8|||||Exact binomial confidence interval|||75.8|56.5|
92286324|NCT00440297|184478004|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|69.2||||||95.0|59.4|77.9|||||Exact binomial confidence interval|||77.9|59.4|
92286325|NCT02024932|184478010|SUPERIORITY_OR_OTHER_LEGACY||Geo-mean ratio|1.037||||0.0164|TWO_SIDED|90.0|1.009|1.065|||ANCOVA|||||1.065|1.009|0.0164
92286326|NCT03020641|184478051|OTHER|t-test|Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.2347||0.058|TWO_SIDED|95.0||0.1276||the threshold for statistical significance was p\<=0.05.|t-test, 2 sided|||Interleukin 1 (IL1)||0.1276|- 0.8077|0.058
92286327|NCT03020641|184478051|OTHER|Interleukin 6 (IL6)|Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.29||0.001|TWO_SIDED|95.0|-1.6|-0.44|||t-test, 2 sided|||||-0.44|-1.60|0.001
92286328|NCT03020641|184478051|OTHER||Mean Difference (Net)|0.34|STANDARD_ERROR_OF_MEAN|0.211||0.052|TWO_SIDED|95.0|-0.76|0.81|||t-test, 2 sided|||Interleukin 10||0.81|-0.76|0.052
92286329|NCT03020641|184478051|OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.181||0.815|TWO_SIDED|95.0|-0.5|0.22|||t-test, 2 sided|||Vascular Endotelial Grow Factor A||0.22|-0.50|0.815
92286330|NCT03020641|184478051|OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.19||0.742|TWO_SIDED|95.0|-0.42|0.36|||t-test, 2 sided|||TNF alfa||0.36|-0.42|0.742
92286331|NCT03020641|184478051|OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.2||0.603|TWO_SIDED|95.0|-0.36|0.44|||t-test, 2 sided|||Chemokine CXC ligand 2||0.44|-0.36|0.603
92286332|NCT03020641|184478052|OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.28||0.6|TWO_SIDED|95.0|-0.47|0.65|||t-test, 2 sided|||Matrix metalloproteinase-9||0.65|-0.47|0.600
92286333|NCT03020641|184478052|OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.24||0.028|TWO_SIDED|95.0|0.03|0.97|||t-test, 2 sided|||Plasminogen activator inhibitor-1||0.97|0.030|0.028
92286334|NCT03020641|184478052|OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.36||0.807|TWO_SIDED|95.0|-0.64|0.82|||t-test, 2 sided|||E-selectin||0.82|-0.64|0.807
92286335|NCT03020641|184478054|OTHER||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|4.44||0.862|TWO_SIDED|95.0|-7.49|10.21|||t-test, 2 sided|||||10.21|-7.49|0.862
92286336|NCT03161405|184478062|OTHER||Geometric mean ratio|1.9827|||||TWO_SIDED|90.0|1.6446|2.3904||||||A paired t-test on the natural log-transformed parameters was performed. The mean difference and its 90 percent (%) confidence interval (CI) for the log-transformed parameters were exponentiated to obtain the point estimates of the itraconazole effect and 90% CIs.||2.3904|1.6446|
92286337|NCT03161405|184478063|OTHER||Geometric mean ratio|1.2914|||||TWO_SIDED|90.0|1.1199|1.4891||||||A paired t-test on the natural log-transformed parameters was performed. The mean difference and its 90% CI for the log-transformed parameters were exponentiated to obtain the point estimates of the itraconazole effect and 90% CIs.||1.4891|1.1199|
92286338|NCT03161405|184478064|OTHER||Geometric mean ratio|1.2783|||||TWO_SIDED|90.0|1.0965|1.4904||||||A paired t-test on the natural log-transformed parameters was performed. The mean difference and its 90% CI for the log-transformed parameters were exponentiated to obtain the point estimates of the itraconazole effect and 90% CIs.||1.4904|1.0965|
92286339|NCT01597245|184478071|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286340|NCT01597245|184478071|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286341|NCT01597245|184478071|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286342|NCT01597245|184478072|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286343|NCT01597245|184478072|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286344|NCT01597245|184478072|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286345|NCT01597245|184478073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.005
92286346|NCT01597245|184478073|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286347|NCT01597245|184478073|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286348|NCT01597245|184478074|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286349|NCT01597245|184478074|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286350|NCT01597245|184478074|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286351|NCT01597245|184478075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.008
92286352|NCT01597245|184478075|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286353|NCT01597245|184478075|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286354|NCT01597245|184478076|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92286355|NCT01597245|184478076|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92286356|NCT01597245|184478077|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286357|NCT01597245|184478077|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286358|NCT01597245|184478077|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92286359|NCT01597245|184478078|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286360|NCT01597245|184478078|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286361|NCT01597245|184478078|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286362|NCT01597245|184478079|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Mixed Models Analysis|||||||0.002
92286363|NCT01597245|184478079|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286364|NCT01597245|184478079|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286365|NCT01597245|184478080|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286366|NCT01597245|184478080|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286367|NCT01597245|184478080|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286368|NCT01597245|184478081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286369|NCT01597245|184478081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92264295|NCT06045026|184429905|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
92264296|NCT06045026|184429905|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
92264297|NCT06045026|184429906|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
92264298|NCT06045026|184429906|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
92264299|NCT06045026|184429906|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
92264300|NCT06045026|184429906|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
92264301|NCT06045026|184429906|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
92264302|NCT06045026|184429906|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
92286370|NCT01597245|184478081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92264303|NCT06045026|184429907|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
92264304|NCT06045026|184429907|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
92286371|NCT01597245|184478082|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|TWO_SIDED||||||ANCOVA|||||||0.150
92286372|NCT01597245|184478082|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||ANCOVA|||||||0.002
92264305|NCT06045026|184429907|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
92264306|NCT06045026|184429907|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
92264307|NCT06045026|184429907|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
92264308|NCT06045026|184429907|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
92264309|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 4||||<0.0001
92264310|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 8||||<0.0001
92264311|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 12||||<0.0001
92264312|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 16||||<0.0001
92264313|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 20||||<0.0001
92264314|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 24||||<0.0001
92264315|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 4||||<0.0001
92264316|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 8||||<0.0001
92264317|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 12||||<0.0001
92264318|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 16||||<0.0001
92264319|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 20||||<0.0001
92264320|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 24||||<0.0001
92264321|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 4||||<0.0001
92264322|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 8||||<0.0001
92264323|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 12||||<0.0001
92264324|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 16||||<0.0001
92264325|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 20||||<0.0001
92264326|NCT06045026|184429908|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 24||||<0.0001
92264327|NCT06045026|184429909|SUPERIORITY|||||||0.01|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||0.0100
92264328|NCT06045026|184429909|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
92286373|NCT01597245|184478082|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92286374|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026|TWO_SIDED||||||ANCOVA|||Absenteeism Score||||0.026
92286375|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY|||||||0.076|TWO_SIDED||||||ANCOVA|||Absenteeism Score||||0.076
92286376|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016|TWO_SIDED||||||ANCOVA|||Absenteeism Score||||0.016
92286377|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Activity Impairment Score||||<0.001
92264329|NCT06045026|184429909|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
92264330|NCT06045026|184429909|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
92264331|NCT06045026|184429909|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
92264332|NCT06045026|184429909|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
92264333|NCT06045026|184429910|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
92264334|NCT06045026|184429910|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
92264335|NCT06045026|184429910|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
92286378|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Activity Impairment Score||||<0.001
92264336|NCT06045026|184429910|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
92264337|NCT06045026|184429910|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
92264338|NCT06045026|184429910|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
92264339|NCT06045026|184429912|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 1||||<0.0001
92264340|NCT06045026|184429912|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 2||||<0.0001
92264341|NCT06045026|184429912|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
92264342|NCT06045026|184429912|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
92264343|NCT06045026|184429912|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
92264344|NCT06045026|184429912|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
92264345|NCT06045026|184429912|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
92264346|NCT06045026|184429912|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
92264347|NCT04550234|184429915|OTHER||Geometric mean ratio|57.73|||||TWO_SIDED|90.0|47.07|70.81||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||70.81|47.07|
92264348|NCT04550234|184429915|OTHER||Geometric mean ratio|145.55|||||TWO_SIDED|90.0|118.66|178.52||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||178.52|118.66|
92264349|NCT04550234|184429915|OTHER||Geometric mean ratio|52.07|||||TWO_SIDED|90.0|42.46|63.87||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||63.87|42.46|
92264350|NCT04550234|184429915|OTHER||Geometric mean ratio|101.16|||||TWO_SIDED|90.0|82.48|124.08||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||124.08|82.48|
92264351|NCT04550234|184429915|OTHER||Geometric mean ratio|73.34|||||TWO_SIDED|90.0|61.81|87.03||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||87.03|61.81|
92264352|NCT04550234|184429915|OTHER||Geometric mean ratio|66.33|||||TWO_SIDED|90.0|55.9|78.72||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||78.72|55.90|
92264353|NCT04550234|184429915|OTHER||Geometric mean ratio|106.58|||||TWO_SIDED|90.0|89.81|126.47||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||126.47|89.81|
92264354|NCT04550234|184429915|OTHER||Geometric mean ratio|86.86|||||TWO_SIDED|90.0|83.15|90.74||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||90.74|83.15|
92264355|NCT04550234|184429915|OTHER||Geometric mean ratio|92.3|||||TWO_SIDED|90.0|88.35|96.42||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||96.42|88.35|
92264356|NCT04550234|184429915|OTHER||Geometric mean ratio|89.54|||||TWO_SIDED|90.0|85.71|93.54||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||93.54|85.71|
92264357|NCT04550234|184429916|OTHER||Geometric mean ratio|102.49|||||TWO_SIDED|90.0|89.12|117.86||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||117.86|89.12|
92264358|NCT04550234|184429916|OTHER||Geometric mean ratio|144.61|||||TWO_SIDED|90.0|125.75|166.31||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||166.31|125.75|
92286379|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Activity Impairment Score||||<0.001
92286380|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Presenteeism Score||||<0.001
92264359|NCT04550234|184429916|OTHER||Geometric mean ratio|76.72|||||TWO_SIDED|90.0|66.71|88.23||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||88.23|66.71|
92264360|NCT04550234|184429916|OTHER||Geometric mean ratio|96.19|||||TWO_SIDED|90.0|83.64|110.62||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||110.62|83.64|
92264361|NCT04550234|184429916|OTHER||Geometric mean ratio|89.41|||||TWO_SIDED|90.0|83.86|95.34||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||95.34|83.86|
92264362|NCT04550234|184429916|OTHER||Geometric mean ratio|94.16|||||TWO_SIDED|90.0|88.31|100.4||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||100.40|88.31|
92264363|NCT04550234|184429916|OTHER||Geometric mean ratio|91.7|||||TWO_SIDED|90.0|86.37|97.36||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||97.36|86.37|
92264364|NCT04550234|184429916|OTHER||Geometric mean ratio|91.23|||||TWO_SIDED|90.0|88.01|94.56||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||94.56|88.01|
92264365|NCT04550234|184429916|OTHER||Geometric mean ratio|99.95|||||TWO_SIDED|90.0|96.43|103.61||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||103.61|96.43|
92264366|NCT04550234|184429916|OTHER||Geometric mean ratio|90.13|||||TWO_SIDED|90.0|86.95|93.42||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||93.42|86.95|
92264367|NCT04550234|184429917|OTHER||Geometric mean ratio|102.91|||||TWO_SIDED|90.0|89.04|118.93||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||118.93|89.04|
92264368|NCT04550234|184429917|OTHER||Geometric mean ratio|146.57|||||TWO_SIDED|90.0|126.82|169.4||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||169.40|126.82|
92264369|NCT04550234|184429917|OTHER||Geometric mean ratio|76.72|||||TWO_SIDED|90.0|66.38|88.67||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||88.67|66.38|
92264370|NCT04550234|184429917|OTHER||Geometric mean ratio|95.37|||||TWO_SIDED|90.0|82.52|110.23||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||110.23|82.52|
92264371|NCT04550234|184429917|OTHER||Geometric mean ratio|82.6|||||TWO_SIDED|90.0|77.38|88.17||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||88.17|77.38|
92286381|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Presenteeism Score||||<0.001
92286382|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Presenteeism Score||||<0.001
92286383|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Score||||<0.001
92264372|NCT04550234|184429917|OTHER||Geometric mean ratio|87.14|||||TWO_SIDED|90.0|81.63|93.01||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||93.01|81.63|
92264373|NCT04550234|184429917|OTHER||Geometric mean ratio|91.45|||||TWO_SIDED|90.0|85.67|97.61||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||97.61|85.67|
92264374|NCT04550234|184429917|OTHER||Geometric mean ratio|90.91|||||TWO_SIDED|90.0|87.98|93.94||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||93.94|87.98|
92264375|NCT04550234|184429917|OTHER||Geometric mean ratio|99.37|||||TWO_SIDED|90.0|96.17|102.68||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||102.68|96.17|
92264376|NCT04550234|184429917|OTHER||Geometric mean ratio|89.18|||||TWO_SIDED|90.0|86.3|92.15||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||92.15|86.30|
92264377|NCT04550234|184429929|OTHER||Geometric mean ratio|108.25|||||TWO_SIDED|90.0|94.13|124.49||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||124.49|94.13|
92264378|NCT04550234|184429929|OTHER||Geometric mean ratio|96.57|||||TWO_SIDED|90.0|90.96|102.53||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||102.53|90.96|
92264379|NCT04550234|184429929|OTHER||Geometric mean ratio|98.75|||||TWO_SIDED|90.0|95.27|102.36||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||102.36|95.27|
92264380|NCT04550234|184429930|OTHER||Geometric mean ratio|109.27|||||TWO_SIDED|90.0|94.55|126.29||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||126.29|94.55|
92264381|NCT04550234|184429930|OTHER||Geometric mean ratio|96.47|||||TWO_SIDED|90.0|90.38|102.97||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||102.97|90.38|
92264382|NCT04550234|184429930|OTHER||Geometric mean ratio|97.48|||||TWO_SIDED|90.0|94.34|100.73||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||100.73|94.34|
92264383|NCT04550234|184429931|OTHER||Geometric mean ratio|131.28|||||TWO_SIDED|90.0|107.03|161.02||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||161.02|107.03|
92264384|NCT04550234|184429931|OTHER||Geometric mean ratio|96.39|||||TWO_SIDED|90.0|81.23|114.39||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||114.39|81.23|
92264385|NCT04550234|184429931|OTHER||Geometric mean ratio|95.15|||||TWO_SIDED|90.0|91.08|99.4||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||99.40|91.08|
92264386|NCT02452320|184429932|OTHER|||||||0.59|||||||t-test, 2 sided|||||||0.59
92264387|NCT01399619|184429935|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-value corresponds to a two sided test against the historical rate of 40%.|normal approximation|||the SVR12 rate in total Faldaprevir group compared with the historical rate of 40%.||||<0.0001
92264388|NCT03417245|184429967|SUPERIORITY||ABR ratio|0.101|||<|0.0001|TWO_SIDED|95.0|0.064|0.159||P-value derived from NB regression model during EP, with treatment arm, number of bleeds in 6 months prior to study (\<=10, \>10) and hemophilia type (A vs B) as fixed effects. Significance threshold was at 0.05.|Negative binomial regression mode|||||0.159|0.064|<0.0001
92264389|NCT03417245|184429969|SUPERIORITY||ABR ratio|0.13|||<|0.0001|TWO_SIDED|95.0|0.09|0.188||P-value derived from NB regression model during TP, with treatment arm, number of bleeds in 6 months prior to study (\<=10, \>10) and hemophilia type (A vs B) as fixed effects. Significance threshold was at 0.05.|Negative binomial regression model|||||0.188|0.090|<0.0001
92286384|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Score||||<0.001
92286385|NCT01597245|184478083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Score||||<0.001
92286386|NCT01597245|184478084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Physical Summary Score||||<0.001
92286387|NCT01597245|184478084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Physical Summary Score||||<0.001
92286388|NCT01597245|184478084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Physical Summary Score||||<0.001
92286389|NCT01597245|184478084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Mental Summary Score||||<0.001
92286390|NCT01597245|184478084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Mental Summary Score||||<0.001
92264390|NCT03417245|184429971|SUPERIORITY||ABR ratio|0.083|||<|0.0001|TWO_SIDED|95.0|0.049|0.141||P-value derived from NB regression model during EP, with treatment arm, number of bleeds in 6 months prior to study (\<=10, \>10) and hemophilia type (A vs B) as fixed effects. Significance threshold was at 0.05.|Negative binomial regression model|||||0.141|0.049|<0.0001
92264391|NCT03417245|184429973|SUPERIORITY||ABR ratio|0.097|||<|0.0001|TWO_SIDED|95.0|0.059|0.161||P-value derived from NB regression model during EP, with treatment arm, number of bleeds in 6 months prior to study (\<=10, \>10) and hemophilia type (A vs B) as fixed effects. Significance threshold was at 0.05.|Negative binomial regression model|||||0.161|0.059|<0.0001
92264392|NCT03417245|184429975|SUPERIORITY||Least Square (LS) Mean difference|-19.75|||<|0.0001|TWO_SIDED|95.0|-27.0|-12.5||Analysis of Covariance (ANCOVA) model included treatment arm, number of bleeds in 6 months prior to study (\<=10,\>10) and hemophilia type (A vs B) as fixed effects, Baseline score as covariate. Significance threshold was at 0.05.|ANCOVA|||||-12.50|-27.00|<0.0001
92286391|NCT01597245|184478084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Mental Summary Score||||<0.001
92286392|NCT01597245|184478085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92264393|NCT03417245|184429976|SUPERIORITY||LS Mean difference|-7.07|||=|0.0011|TWO_SIDED|95.0|-11.23|-2.9||ANCOVA model included treatment arm, number of bleeds in 6 months prior to study (\<=10,\>10) and hemophilia type (A vs B) as fixed effects, Baseline score as covariate. Significance threshold was at 0.05.|ANCOVA|||||-2.90|-11.23|=0.0011
92265798|NCT00234533|184433213|OTHER|An one-way ANOVA was used to calculate the between patient variation and within patient variation and then the ICC and its confidence limitations.|ICC|0.92|||||TWO_SIDED|95.0|0.9|0.93|||||An ICC ≥ 0.8 was considered satisfactory and indicative that a single sample would be representative of the overall IGF-I status.|An ICC for the morning series (defined as 06:00 to 12:00) was determined for the overall ITT population to confirm whether only one measurement would be sufficient to accurately represent the IGF-I measurement over Weeks 21, 22 and 23. The ICC expresses the relative magnitude of the 2 components of the total variability, i.e. the biological variability and random error, in a series of measurements on different patients.||0.93|0.90|
92286393|NCT01597245|184478085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286394|NCT01597245|184478085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92286395|NCT01597245|184478086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 50||||<0.001
92286396|NCT01597245|184478086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 50||||<0.001
92286397|NCT01597245|184478086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 50||||<0.001
92286398|NCT01597245|184478086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 75||||<0.001
92286399|NCT01597245|184478086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 75||||<0.001
92286400|NCT01597245|184478086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 75||||<0.001
92286401|NCT01597245|184478086|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 100||||0.002
92286402|NCT01597245|184478086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 100||||<0.001
92286403|NCT01597245|184478086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 100||||<0.001
92286404|NCT00731783|184478088|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||1|TWO_SIDED|95.0|0.54|1.97|||Fisher Exact|||||1.97|0.54|1.00
92286405|NCT00731783|184478089|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.05|TWO_SIDED|95.0|1.03|4.55|||Fisher Exact|||||4.55|1.03|0.05
92286406|NCT00731783|184478090|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.49|TWO_SIDED|95.0|0.39|1.52|||Fisher Exact|||||1.52|0.39|0.49
92286407|NCT00731783|184478091|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.28|TWO_SIDED|95.0|0.77|3.28|||Fisher Exact|||||3.28|0.77|0.28
92286408|NCT00731783|184478092|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.12|TWO_SIDED|95.0|0.23|1.16|||Fisher Exact|||||1.16|0.23|0.12
92286409|NCT00731783|184478093|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.02|TWO_SIDED|95.0|0.21|0.85|||Fisher Exact|||||0.85|0.21|0.02
92286410|NCT00731783|184478094|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.39||||0.008|TWO_SIDED|95.0|0.2|0.77|||Fisher Exact|||||0.77|0.20|0.008
92182129|NCT04762277|184263104|OTHER||Mean Difference (Net)|-4.1|||||TWO_SIDED|95.0|-31.7|23.4|||||Difference of Least Squares Means was calculated as: Spesolimab-Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||23.4|-31.7|
92182130|NCT04762277|184263105|OTHER||Mean Difference (Net)|-96.6|||||TWO_SIDED|95.0|-154.5|-38.8|||||Difference of Least Squares Means was calculated as: Spesolimab-Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||-38.8|-154.5|
92182131|NCT04762277|184263106|OTHER||Risk Difference (RD)|0.138|||||TWO_SIDED|95.0|-0.129|0.339|||||Risk difference was calculated as: Spesolimab - Placebo. 95% Confidence Interval (CI) for treatment difference is calculated by Chan and Zhang method.|The difference in the proportion of patients with a response between Spesolimab and placebo was analysed using a logistic regression model. The model included treatment and stratification factor (tumor necrosis factor inhibitor (TNFi)-naive population versus TNFi-failure population) as two categorical variables.||0.339|-0.129|
92182132|NCT04762277|184263107|OTHER||Mean Difference (Net)|-13.9|||||TWO_SIDED|95.0|-25.6|-2.3|||||Difference of Least Squares Means was calculated as: Spesolimab-Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||-2.3|-25.6|
92182133|NCT04762277|184263108|OTHER||Mean Difference (Net)|-19.8|||||TWO_SIDED|95.0|-36.9|-2.7|||||Difference of Least Squares Means was calculated as : Spesolimab- Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||-2.7|-36.9|
92264394|NCT00598442|184429979|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 97.5% CI for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.101|||TWO_SIDED|97.5|-0.09|0.36|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study was determined based on a two-group evaluation of non-inferiority in means with a non-inferiority margin (Δ) of -1.0 g/dL (one-sided significance level of 0.0125, or, comparably, a two-sided significance level of 0.025). A sample size of 450 (150 per treatment group) provided power greater than 99% for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a pooled standard deviation of 1.5 g/dL.||0.36|-0.09|
92182134|NCT04762277|184263109|OTHER||Risk Difference (RD)|0.057|||||TWO_SIDED|95.0|-0.132|0.186|||||Risk difference was calculated as: Spesolimab-Placebo. 95% Confidence Interval (CI) for treatment difference is calculated by Chan and Zhang method.|The difference in the proportion of patients with a response between Spesolimab and placebo was analysed using a logistic regression model. The model included treatment and stratification factor (tumor necrosis factor inhibitor (TNFi)-naive population versus TNFi-failure population) as two categorical variables.||0.186|-0.132|
92265799|NCT00234533|184433214|OTHER||Fisher's F statistic (F) value|1.79|||||TWO_SIDED|||||||||Analysis of the weekly timing effect (Week 21 versus Week 22 versus Week 23) on the IGF-I value as measured by capillary blood spot method.|For the effect of the weekly timing on the IGF-I levels; F value = 1.79 and the significance probability value, PR\>F = 0.1678.|||
92265800|NCT00234533|184433214|OTHER||F value|1.06|||||TWO_SIDED|||||||||Analysis of the daily timing effect (morning versus evening) on the IGF-I value as measured by capillary blood spot method.|For the effect of the daily timing on the IGF-I levels; F value = 1.06 and the significance probability value, PR\>F = 0.3035|||
92286411|NCT00731783|184478095|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.02|TWO_SIDED|95.0|0.22|0.86|||Fisher Exact|||||0.86|0.22|0.02
92286412|NCT03666026|184478104|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|1.0|1.03||||||||1.03|1.00|
92182135|NCT04762277|184263110|OTHER||Risk Difference (RD)|0.17|||||TWO_SIDED|95.0|-0.067|0.338|||||Risk Difference was calculated as: Spesolimab - Placebo. 95% Confidence Interval (CI) for treatment difference was calculated by Chan and Zhang method.|The difference in the proportion of patients with a response between Spesolimab and placebo was analysed using a logistic regression model. The model included treatment and stratification factor (tumor necrosis factor inhibitor (TNFi)-naive population versus TNFi-failure population) as two categorical variables.||0.338|-0.067|
92182136|NCT04762277|184263111|OTHER||Risk Difference (RD)|0.183|||||TWO_SIDED|95.0|-0.079|0.375|||||Risk Difference was calculated as: Spesolimab - Placebo. 95% Confidence Interval (CI) for treatment difference was calculated by Chan and Zhang method.|The difference in the proportion of patients with a response between Spesolimab and placebo was analysed using a logistic regression model. The model included treatment and stratification factor (tumor necrosis factor inhibitor (TNFi)-naive population versus TNFi-failure population) as two categorical variables.||0.375|-0.079|
92286413|NCT03666026|184478104|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|1.0|1.04||||||||1.04|1.00|
92286414|NCT03666026|184478104|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|1.0|1.04||||||||1.04|1.00|
92286415|NCT00579345|184478115|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if lower limit of the 2-sided 95% Clopper-Pearson confidence interval (CI) of the ratio of the postvaccination (Day 22) Geometric Mean Titers (FLU+PV/FLU vaccine alone) was greater than 0.5.|Ratio of GMTs|0.66|||||TWO_SIDED|95.0|0.45|0.98|||||A/H1N1(Day22)|The non-inferiority null hypothesis stated that the FLU+PV vaccine group was non-inferior to the FLU alone group if the lower limit of the 95% CI of the ratio of GMTs between vaccines (FLU+PV/FLU alone) on day 22 was greater than 0.5 for all three vaccine strains.||0.98|0.45|
92264395|NCT00598442|184429979|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 97.5% CI for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.102|||TWO_SIDED|97.5|0.08|0.54|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study was determined based on a two-group evaluation of non-inferiority in means with a non-inferiority margin (Δ) of -1.0 g/dL (one-sided significance level of 0.0125, or, comparably, a two-sided significance level of 0.025). A sample size of 450 (150 per treatment group) provided power greater than 99% for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a pooled standard deviation of 1.5 g/dL.||0.54|0.08|
92264396|NCT00598442|184429980|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.28|||||TWO_SIDED|95.0|1.04|5.01|||Cochran-Mantel-Haenszel|||||5.01|1.04|
92264397|NCT00598442|184429980|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.1|||||TWO_SIDED|95.0|0.94|4.69|||Cochran-Mantel-Haenszel|||||4.69|0.94|
92264398|NCT00598442|184429981|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.9|1.01|||Cochran-Mantel-Haenszel|||||1.01|0.90|
92264399|NCT00598442|184429981|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.93|1.04|||Cochran-Mantel-Haenszel|||||1.04|0.93|
92264400|NCT00398476|184430023|OTHER|||||||0.003|||||||Cochran-Mantel-Haenszel|||Analysis for overall product preference||||0.003
92264401|NCT00398476|184430023|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Analysis for Scent/odor||||<0.001
92264402|NCT00398476|184430023|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Analysis for Immediate taste||||<0.001
92264403|NCT00398476|184430023|OTHER|||||||0.002|||||||Cochran-Mantel-Haenszel|||Analysis for After-taste||||0.002
92264404|NCT00398476|184430023|OTHER|||||||0.037|||||||Cochran-Mantel-Haenszel|||Analysis for Less drip down throat||||0.037
92264405|NCT00398476|184430023|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Analysis for Less run out nose||||<0.001
92264406|NCT00398476|184430023|OTHER|||||||0.408|||||||Cochran-Mantel-Haenszel|||Analysis for More soothing||||0.408
92264407|NCT00398476|184430023|OTHER|||||||0.07|||||||Cochran-Mantel-Haenszel|||Analysis for Less irritating||||0.070
92264408|NCT00398476|184430023|OTHER|||||||0.587|||||||Cochran-Mantel-Haenszel|||Analysis for Urge to sneeze||||0.587
92264409|NCT00398476|184430024|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Final Values)|-2.0|||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg for IAQ items||||<0.001
92264410|NCT00398476|184430024|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Final Values)|-1.0|||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg for DAQ items||||<0.001
92264411|NCT00398476|184430025|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Net)|0.0||||0.255||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg in IAQ||||0.255
92264412|NCT00398476|184430026|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Net)|0.0||||0.056||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg for all DAQ items||||0.056
92264413|NCT00398476|184430027|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.845||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg for IAQ Irtems||||0.845
92264414|NCT00398476|184430028|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.871||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg for DAQ Items||||0.871
92264415|NCT00398476|184430029|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0|||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92264416|NCT00398476|184430030|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.592||95.0|||||Cochran-Mantel-Haenszel|||||||0.592
92264417|NCT00398476|184430031|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Net)|0.0|||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92264418|NCT00398476|184430032|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.434||95.0|||||Cochran-Mantel-Haenszel|||||||0.434
92264419|NCT00398476|184430033|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.797|||||||Cochran-Mantel-Haenszel|||This analysis is for IAQ||||0.797
92286416|NCT00579345|184478115|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if lower limit of the 2-sided 95% Clopper-Pearson confidence interval (CI) of the ratio of the postvaccination (Day 22) Geometric Mean Titers (FLU+PV/FLU vaccine alone) was greater than 0.5.|Ratio of GMTs|0.81|||||TWO_SIDED|95.0|0.55|1.19|||||A/H3N2 (Day 22)-criterion was met|The non-inferiority null hypothesis stated that the FLU+PV vaccine group was non-inferior to the FLU alone group if the lower limit of the 95% CI of the ratio of GMTs between vaccines (FLU+PV/FLU alone) on day 22 was greater than 0.5 for all three vaccine strains.||1.19|0.55|
92286417|NCT00579345|184478115|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if lower limit of the 2-sided 95% Clopper-Pearson confidence interval (CI) of the ratio of the postvaccination (Day 22) Geometric Mean Titers (FLU+PV/FLU vaccine alone) was greater than 0.5.|Ratio of GMTs|0.69|||||TWO_SIDED|95.0|0.46|1.02|||||B (Day 22)|The non-inferiority null hypothesis stated that the FLU+PV vaccine group was non-inferior to the FLU alone group if the lower limit of the 95% CI of the ratio of GMTs between vaccines (FLU+PV/FLU alone) on day 22 was greater than 0.5 for all three vaccine strains.||1.02|0.46|
92286418|NCT01343004|184478116|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92286419|NCT01343004|184478116|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92286420|NCT01343004|184478117|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
92286421|NCT01343004|184478117|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
92286422|NCT01343004|184478117|SUPERIORITY_OR_OTHER|||||||0.8155|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||0.8155
92286423|NCT01343004|184478118|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
92286424|NCT01343004|184478118|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
92286425|NCT01343004|184478118|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
92286426|NCT01343004|184478119|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
92286427|NCT01343004|184478119|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
92286428|NCT01343004|184478119|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||0.0004
92286429|NCT01343004|184478120|SUPERIORITY_OR_OTHER|||||||0.0318|||||||Chi-squared|||||||0.0318
92286430|NCT01343004|184478120|SUPERIORITY_OR_OTHER|||||||0.2304|||||||Chi-squared|||||||0.2304
92286431|NCT01343004|184478120|SUPERIORITY_OR_OTHER|||||||0.3361|||||||Chi-squared|||||||0.3361
92286432|NCT00834067|184478144|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.7||||||90.0|90.1|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104|90.1|
92286433|NCT00834067|184478145|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|104.0||||||90.0|99.9|108.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108|99.9|
92286434|NCT00834067|184478146|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.0||||||90.0|99.7|107.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107|99.7|
92286435|NCT00834067|184478147|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|96.0|106.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106|96|
92286436|NCT00834067|184478148|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|99.1|102.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102|99.1|
92286437|NCT00834067|184478149|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|99.4|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103|99.4|
92264420|NCT00398476|184430033|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.296|||||||Cochran-Mantel-Haenszel|||This analysis is for DAQ||||0.296
92264421|NCT00398476|184430034|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0|||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg in IAQ||||<0.001
92264422|NCT00398476|184430034|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0|||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg in DAQ||||<0.001
92264423|NCT00398476|184430035|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.968|||||||Cochran-Mantel-Haenszel|||This analysis is for IAQ||||0.968
92264424|NCT00398476|184430035|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Mean Difference (Net)|0.0||||0.797|||||||Cochran-Mantel-Haenszel|||This analysis is for DAQ||||0.797
92264425|NCT00398476|184430036|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.221|||||||Cochran-Mantel-Haenszel|||||||0.221
92264426|NCT00398476|184430037|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.205|||||||Cochran-Mantel-Haenszel|||||||0.205
92264427|NCT00398476|184430038|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Net)|0.0||||0.108|||||||Cochran-Mantel-Haenszel|||||||0.108
92264428|NCT00398476|184430039|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.694|||||||Cochran-Mantel-Haenszel|||||||0.694
92264429|NCT00398476|184430040|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.02|||||||Cochran-Mantel-Haenszel|||||||0.020
92264430|NCT03764813|184430076|SUPERIORITY||||||<|0.0001|||||||Kruskal-Wallis|||Group comparison is carried out among HbF values grouped according to the transfusion regimen (only cord blood transfusions, only adult transfusions, both cord and adult transfusions).||||<0.0001
92264431|NCT03764813|184430077|SUPERIORITY||Median Difference (Final Values)|0.165|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92264432|NCT03764813|184430078|SUPERIORITY||Median Difference (Final Values)|0.537|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92264433|NCT03764813|184430079|SUPERIORITY||||||<|0.0001|||||||Kruskal-Wallis|||Group comparison is carried out among HbF values grouped according to the transfusion regimen (only cord blood transfusions, only adult transfusions, both cord and adult transfusions).||||<0.0001
92264434|NCT03602976|184430123|SUPERIORITY||Mean Difference (Final Values)|190.7||||0.059|TWO_SIDED||||||t-test, 2 sided|||For GGT||||0.059
92264435|NCT03602976|184430123|SUPERIORITY||Mean Difference (Final Values)|55.5||||0.23|TWO_SIDED||||||t-test, 2 sided|||For Alkaline Phosphatase||||0.23
92264436|NCT03602976|184430124|SUPERIORITY||Mean Difference (Final Values)|2.06||||0.36|TWO_SIDED||||||t-test, 2 sided|||||||0.36
92264437|NCT03602976|184430125|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.73|TWO_SIDED||||||t-test, 2 sided|||||||0.73
92264438|NCT03602976|184430126|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.094|TWO_SIDED||||||t-test, 2 sided|||||||0.094
92264439|NCT03602976|184430127|SUPERIORITY||Mean Difference (Final Values)|21.0||||0.11|TWO_SIDED||||||t-test, 2 sided|||||||0.11
92264440|NCT04837807|184430128|SUPERIORITY||Mean Difference (Final Values)|22.4|STANDARD_DEVIATION|12.8|<|0.05|TWO_SIDED||||||ANOVA|This was a cross-over study, so there is really 30 subjects per group that was analyzed.||"Each participant in the study was asked to complete the IDEEL work at their baseline, week 1 and week 2 visits. The IDEEL work is graded on a scale to 100 with higher numbers being deemed as better scores thus representing more comfort than previous weeks."||||<0.05
92264441|NCT04837807|184430130|SUPERIORITY|OSDI scores were obtained across all three visits, baseline, week 1 and week 2. Lower OSDI scores indicate better eye health.|Mean Difference (Final Values)|10.5|STANDARD_DEVIATION|7.3|<|0.05|TWO_SIDED||||||ANOVA|This was a cross-over study, so there is really 30 subjects per group that was analyzed.||||||<0.05
92264442|NCT00920582|184430144|SUPERIORITY||Odds Ratio (OR)|1.348||||0.609|TWO_SIDED|95.0|0.431|4.219|||Mantel Haenszel|||||4.219|0.431|0.609
92264443|NCT00920582|184430144|SUPERIORITY||Odds Ratio (OR)|1.356||||0.601|TWO_SIDED|95.0|0.453|4.23|||Mantel Haenszel|||||4.230|0.453|0.601
92264444|NCT00920582|184430144|SUPERIORITY||Odds Ratio (OR)|1.624||||0.4|TWO_SIDED|95.0|0.521|5.066|||Mantel Haenszel|||||5.066|0.521|0.400
92264445|NCT00920582|184430146|SUPERIORITY||Mean Difference (Final Values)|-0.028||||0.365|TWO_SIDED|95.0|-0.086|0.031|||ANCOVA|||||0.031|-0.086|0.365
92264446|NCT00920582|184430146|SUPERIORITY||Mean Difference (Final Values)|-0.007||||0.842|TWO_SIDED|95.0|-0.078|0.064|||ANCOVA|||||0.064|-0.078|0.842
92264447|NCT00920582|184430146|SUPERIORITY||Mean Difference (Final Values)|0.021||||0.565|TWO_SIDED|95.0|-0.089|0.171|||ANCOVA|||||0.171|-0.089|0.565
92264448|NCT00920582|184430151|SUPERIORITY||Odds Ratio (OR)|2.197||||0.142|TWO_SIDED|95.0|0.764|6.312|||Mantel Haenszel|||||6.312|0.764|0.142
92264449|NCT00920582|184430151|SUPERIORITY||Odds Ratio (OR)|1.487||||0.46|TWO_SIDED|95.0|0.517|4.278|||Mantel Haenszel|||||4.278|0.517|0.460
92264450|NCT00920582|184430151|SUPERIORITY||Odds Ratio (OR)|1.954||||0.199|TWO_SIDED|95.0|0.69|5.532|||Mantel Haenszel|||||5.532|0.690|0.199
92264451|NCT03319160|184430155|OTHER||Incidence per 100 patient-years|7.5|STANDARD_DEVIATION|2.74|||TWO_SIDED|95.0|6.3|8.7|||||"Poisson distribution assumed due to the infrequent nature of the events. Number of appropriate shock events: 19 (17 subjects had one appropriate shock event, one subject had two appropriate shock events).~Length of exposure: 253 patient-years."|||8.7|6.3|
92264452|NCT03319160|184430157|OTHER||Incidence per 100 patient-years|3.2|STANDARD_DEVIATION|1.78|||TWO_SIDED|95.0|1.9|4.4|||||||Poisson distribution assumed due to the infrequent nature of the events. Number of inappropriately shocked events: 8. Length of exposure: 253 patient-years.|4.4|1.9|
92264453|NCT04533204|184430172|SUPERIORITY||Mean Difference (Final Values)|18.47|||<|0.001|TWO_SIDED|95.0|12.28|24.67|||Mixed Models Analysis|||||24.67|12.28|<.001
92264454|NCT04533204|184430173|SUPERIORITY||Mean Difference (Final Values)|2.33||||0.004|TWO_SIDED|95.0|0.75|3.91||Performance on cued recall (error scores)|Mixed Models Analysis|||||3.91|.75|.004
92264455|NCT02260791|184430175|EQUIVALENCE|-12% to +15% equivalence margin using 90% CI around the difference in ACR20 response rate|Mean Difference (Final Values)|-1.8|||||TWO_SIDED|90.0|-7.3|3.6||||||The difference and its 90% Confidence Interval (CI) for primary endpoint between FKB327 and Humira were estimated. If the 90% CI fell entirely between pre-specified equivalence margin (-12% to +15%), then FKB327 was considered equivalent to Humira.||3.6|-7.3|
92264456|NCT02260791|184430176|EQUIVALENCE|If the 2-sided 95% CI for the difference in DAS28-CRP at Week 24 between FKB327 and Humira fell entirely between -0.6 and +0.6 then FKB327 was considered equivalent to Humira.|Difference in least square mean|0.01|||||TWO_SIDED|95.0|-0.16|0.18||||||The secondary hypothesis involved equivalence of the difference between FKB327 and Humira in DAS28-CRP at Week 24. Based on the repeated measures analysis model, the difference and its 95% CI in the least-squares means (LSMs) for DAS28-CRP at Week 24 between FKB327 and Humira were estimated. If the 95% CI fell entirely between the pre-specified margin (+/- 0.6), then FKB327 was considered equivalent to Humira.||0.18|-0.16|
92264457|NCT00280059|184430203|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin for the proportion of seizure free participants set at 10%; non-inferiority declared if the lower bound of the 95% confidence interval (CI) of the difference in seizure-free proportion between pregabalin and lamotrigine was no more than 10% in favor of lamotrigine, but 0 was contained within the lower bound of the CI. Interpretation of superiority required lower bound of CI did not contain 0 in favor of pregabalin.|Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-0.24|-0.09|||Gart and Nam: correction of skewness||95% confidence interval for the true difference in proportions, as well as a one-sided test at α=0.025; confidence interval adjusted for centers clustered within a geographical region, with upper and lower confidence limits.|Analysis of the binary response variable for 6 consecutive months seizure freedom analyzed by comparing the proportions of favorable responders between the two treatment groups after stratifying by clusters and correcting for skewness (Gart and Nam, 1990). Percentage can be obtained by multiplying proportion by 100.||-0.09|-0.24|
92264458|NCT00280059|184430204|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.74||||0.0034|TWO_SIDED|95.0|0.6|0.9||Nominal value for 2-sided test calculated using Cox proportional hazards model, adjusted for geographic regions.|Regression, Cox|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \> 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||0.90|0.60|0.0034
92264459|NCT00280059|184430205|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.06||||0.8047|TWO_SIDED|95.0|0.65|1.74||Nominal value for 2-sided test calculated using Cox proportional hazards model adjusted for geographical cluster.|Cox proportional hazards model|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \< 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||1.74|0.65|0.8047
92264460|NCT00280059|184430206|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.19||||0.2537|TWO_SIDED|95.0|0.88|1.6||Nominal value for 2-sided test calculated using Cox proportional hazards model adjusted for geographical cluster.|Cox proportional hazards model|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \< 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||1.60|0.88|0.2537
92264461|NCT00280059|184430207|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|6.52||||0.0025|TWO_SIDED|95.0|1.93|22.04||Nominal value for 2-sided test calculated using Cox proportional hazards model adjusted for geographical cluster.|Cox proportional hazards model|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \< 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||22.04|1.93|0.0025
92264462|NCT00280059|184430208|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.36||||0.0744|TWO_SIDED|95.0|0.97|1.91||Nominal value for 2-sided test calculated using Cox proportional hazards model adjusted for geographical cluster.|Cox proportional hazards model|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \< 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||1.91|0.97|0.0744
92264463|NCT00280059|184430209|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.47||||0.0003|TWO_SIDED|95.0|1.19|1.8||Nominal value for 2-sided test calculated using Cox proportional hazards model adjusted for geographical cluster.|Cox proportional hazards model|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \< 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||1.80|1.19|0.0003
92264464|NCT00280059|184430219|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8||||0.0025|TWO_SIDED|95.0|0.3|1.4|||ANCOVA|||Anxiety; model includes treatment and geographical cluster as fixed effects and respective baseline scores as a continuous covariate.||1.4|0.3|0.0025
92264465|NCT00280059|184430219|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6||||0.0186|TWO_SIDED|95.0|0.1|1.1|||ANCOVA|||Depression; model includes treatment and geographical cluster as fixed effects and respective baseline scores as a continuous covariate.||1.1|0.1|0.0186
92264466|NCT00280059|184430220|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.0683|TWO_SIDED|95.0|0.98|1.93|||Regression, Logistic|||Week 8: dichotomized sleep assessment analyzed using a logistic regression model for repeated measures with fixed effects for treatment, geographical region, the average hours per night of sleep at baseline as a continuous covariate, time, and treatment-by-time interaction. The within subject covariance structure assumes an auto-regressive of order one covariance structure.||1.93|0.98|0.0683
92264467|NCT00280059|184430220|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.14||||0.5096|TWO_SIDED|95.0|0.78|1.66|||Regression, Logistic|||Week 32: dichotomized sleep assessment analyzed using a logistic regression model for repeated measures with fixed effects for treatment, geographical region, the average hours per night of sleep at baseline as a continuous covariate, time, and treatment-by-time interaction. The within subject covariance structure assumes an auto-regressive of order one covariance structure.||1.66|0.78|0.5096
92264468|NCT00280059|184430220|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.6804|TWO_SIDED|95.0|0.73|1.63|||Regression, Logistic|||Week 56 (termination): dichotomized sleep assessment analyzed using a logistic regression model for repeated measures with fixed effects for treatment, geographical region, the average hours per night of sleep at baseline as a continuous covariate, time, and treatment-by-time interaction. The within subject covariance structure assumes an auto-regressive of order one covariance structure.||1.63|0.73|0.6804
92264469|NCT02549040|184430247|OTHER||Geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.85|1.09||||||Comparison of Treatment B: MK-1439 150 mg tablet (40% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.09|0.85|
92264470|NCT02549040|184430247|OTHER||Geometric mean ratio|1.13|||||TWO_SIDED|90.0|1.02|1.26||||||Comparison of Treatment C: MK-1439 150 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.26|1.02|
92264471|NCT02549040|184430247|OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.88|1.11||||||Comparison of Treatment D: MK-1439 150 mg tablet (50% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.11|0.88|
92264472|NCT02549040|184430247|OTHER||Geometric mean ratio|0.89|||||TWO_SIDED|90.0|0.8|0.99||||||Comparison of Treatment E: MK-1439 100 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.99|0.80|
92264473|NCT02549040|184430248|OTHER||Geometric mean ratio|0.88|||||TWO_SIDED|90.0|0.79|0.98||||||Comparison of Treatment B: MK-1439 150 mg tablet (40% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.98|0.79|
92264474|NCT02549040|184430248|OTHER||Geometric mean ratio|1.09|||||TWO_SIDED|90.0|0.98|1.21||||||Comparison of Treatment C: MK-1439 150 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.21|0.98|
92264475|NCT02549040|184430248|OTHER||Geometric mean ratio|0.9|||||TWO_SIDED|90.0|0.81|1.0||||||Comparison of Treatment D: MK-1439 150 mg tablet (50% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.00|0.81|
92264476|NCT02549040|184430248|OTHER||Geometric mean ratio|0.88|||||TWO_SIDED|90.0|0.79|0.97||||||Comparison of Treatment E: MK-1439 100 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.97|0.79|
92264477|NCT02549040|184430249|OTHER||Geometric mean ratio|0.7|||||TWO_SIDED|90.0|0.61|0.82||||||Comparison of Treatment B: MK-1439 150 mg tablet (40% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.82|0.61|
92264478|NCT02549040|184430249|OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.75|1.01||||||Comparison of Treatment C: MK-1439 150 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.01|0.75|
92264479|NCT02549040|184430249|OTHER||Geometric mean ratio|0.7|||||TWO_SIDED|90.0|0.6|0.81||||||Comparison of Treatment D: MK-1439 150 mg tablet (50% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.81|0.60|
92264480|NCT02549040|184430249|OTHER||Geometric mean ratio|0.76|||||TWO_SIDED|90.0|0.66|0.86||||||Comparison of Treatment E: MK-1439 100 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.86|0.66|
92286438|NCT00834067|184478150|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|107.0||||||90.0|99.8|114.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||114|99.8|
92264481|NCT02549040|184430250|OTHER||Geometric mean ratio|0.82|||||TWO_SIDED|90.0|0.72|0.93||||||Comparison of Treatment B: MK-1439 150 mg tablet (40% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.93|0.72|
92264482|NCT02549040|184430250|OTHER||Geometric mean ratio|1.05|||||TWO_SIDED|90.0|0.94|1.18||||||Comparison of Treatment C: MK-1439 150 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.18|0.94|
92264483|NCT02549040|184430250|OTHER||Geometric mean ratio|0.85|||||TWO_SIDED|90.0|0.76|0.96||||||Comparison of Treatment D: MK-1439 150 mg tablet (50% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.96|0.76|
92264484|NCT02549040|184430250|OTHER||Geometric mean ratio|0.83|||||TWO_SIDED|90.0|0.74|0.94||||||Comparison of Treatment E: MK-1439 100 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.94|0.74|
92264485|NCT02549040|184430253|OTHER||Geometric mean ratio|0.84|||||TWO_SIDED|90.0|0.75|0.94||||||Comparison of Treatment B: MK-1439 150 mg tablet (40% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.94|0.75|
92264486|NCT02549040|184430253|OTHER||Geometric mean ratio|1.06|||||TWO_SIDED|90.0|0.95|1.18||||||Comparison of Treatment C: MK-1439 150 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.18|0.95|
92264487|NCT02549040|184430253|OTHER||Geometric mean ratio|0.85|||||TWO_SIDED|90.0|0.76|0.95||||||Comparison of Treatment D: MK-1439 150 mg tablet (50% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.95|0.76|
92264488|NCT02549040|184430253|OTHER||Geometric mean ratio|0.86|||||TWO_SIDED|90.0|0.77|0.96||||||Comparison of Treatment E: MK-1439 100 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.96|0.77|
92264489|NCT01966458|184430418|NON_INFERIORITY|A non-inferiority margin of 6% was pre-specified.|Risk Difference (RD)|2.6||||0.1444|TWO_SIDED|90.0|-5.5|10.7|||Farrington-Manning asymptotic test||Difference = HeartWare® VAS incidence rate - Control incidence rate Two-sided 90% exact binomial confident interval is used.|The primary endpoint is a non-inferiority test comparing HeartWare® VAS to Control.||10.7|-5.5|0.1444
92264490|NCT01966458|184430419|SUPERIORITY||Percent of Participants|19.2||||0.7363|TWO_SIDED|90.0|15.6|23.3|||Exact Binomial Test||Two-sided exact binomial confidence interval used|The first secondary endpoint is the percent of participants with stroke/TIA at 12 months on the originally implanted device. It will be compared to 17.7%, which is the lower bound of a pre-defined margin of superiority based on the Endurance clinical trial.||23.3|15.6|0.7363
92264491|NCT01966458|184430420|NON_INFERIORITY|The non-inferiority margin on the difference in success proportions is 15%.|Difference in Percentages|-9.2|||<|0.0001|TWO_SIDED|90.0|-17.2|-1.1|||Farrington-Manning asymptotic test||Difference = Control success rate - HeartWare® VAS success rate Two-sided 90% exact binomial confidence interval is used|||-1.1|-17.2|<0.0001
92264492|NCT01966458|184430420|SUPERIORITY|||||||0.0354|||||||Chi-squared|||||||0.0354
92265801|NCT00234533|184433215|OTHER||F value|83.97|||||TWO_SIDED|||||||||Analysis of the effect of the patient's sex (male versus female) on the IGF-I value as measured by capillary blood spot method.|For the effect of the patient's sex on the IGF-I levels; F value = 83.97 and the significance probability value, PR\>F = \<0.0001.|||
92265802|NCT00234533|184433215|OTHER||F value|68.35|||||TWO_SIDED|||||||||Analysis of the effect of the patient's pubertal status (pubertal versus prepubertal) on the IGF-I value as measured by capillary blood spot method.|For the effect of the patient's pubertal status on the IGF-I levels; F value = 68.35 and the significance probability value, PR\>F = \<0.0001.|||
92265803|NCT00234533|184433216|OTHER||F value|10.73|||||TWO_SIDED|||||||||Analysis of the disease condition (GHD versus TS) on the IGF-I value as measured by capillary blood spot method.|For the effect of the disease condition on the IGF-I levels; F value = 10.73 and the significance probability value, PR\>F = 0.0012.|||
92265804|NCT00234533|184433216|OTHER||F value|2.2|||||TWO_SIDED|||||||||Analysis of the country cluster on the IGF-I value as measured by capillary blood spot method.|For the effect of the country cluster on the IGF-I levels; F value = 2.20 and the significance probability value, PR\>F = 0.0701.|||
92265805|NCT00234533|184433217|OTHER||F value|3.65|||||TWO_SIDED|||||||||Analysis of the time of the year on the IGF-I value as measured by capillary blood spot method.|For the effect of the time of the year on the IGF-I levels; F value = 3.65 and the significance probability value, PR\>F = 0.0139.|||
92265806|NCT00234533|184433217|OTHER||F value|7.38|||||TWO_SIDED|||||||||Analysis of the effect of the calculated age at enrolment on the IGF-I value as measured by capillary blood spot method.|For the effect of the calculated age at enrolment on the IGF-I levels; F value = 7.38 and the significance probability value, PR\>F = 0.0073.|||
92265807|NCT00234533|184433217|OTHER||F value|3.86|||||TWO_SIDED|||||||||Analysis of the effect of the disease condition on the IGF-I value as measured by capillary blood spot method.|For the effect of the disease condition on the IGF-I levels; F value = 3.86 and the significance probability value, PR\>F = 0.0511|||
92265808|NCT00234533|184433218|OTHER||Mean difference|-164.79|STANDARD_ERROR_OF_MEAN|159.28|||TWO_SIDED|95.0|-483.35|-153.77||||||The Bland and Altman method was used to compare the results of each of the three simultaneous random capillary and serum measurements were compared. The difference between the capillary blood spot method and the serum IGF-I measurements is presented||-153.77|-483.35|
92265809|NCT00570492|184433241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|||||TWO_SIDED|95.0|-0.48|-0.06|||||An analysis of covariance (ANCOVA) was performed to estimate the mean treatment difference in growth velocity over the treatment period, adjusting for baseline growth velocity, age, gender, and country.|||-0.06|-0.48|
92264493|NCT01342445|184430436|SUPERIORITY_OR_OTHER_LEGACY||Partial eta squared|0.34|||<|0.001||||||we adjusted p values to control for the false discovery rate using procedures described by Benjamini and Hochberg (1995). Thus, an alpha value of .021 was used as significance threshold.|ANOVA|"F(4, 84) = 10.9~This was a one-way ANOVA with repeated measures across dosage conditions (no drug baseline, placebo, 30-mg, 50-mg, 70-mg LDX)."||This was a within-subject crossover design with all participants going through a no-drug baseline followed by placebo and three dosages of LDX, with the latter four conditions in a randomly assigned, counterbalanced order. The comparison condition was the placebo condition.||||<0.001
92264494|NCT01342445|184430437|SUPERIORITY_OR_OTHER_LEGACY||partial eta squared|0.28|||<|0.001||||||we adjusted p values to control for the false discovery rate using procedures described by Benjamini and Hochberg (1995). Thus, an alpha value of .021 was used as significance threshold.|ANOVA|"F(4, 84) = 8.14~This was a one-way ANOVA with repeated measures across dosage conditions (no drug baseline, placebo, 30-mg, 50-mg, 70-mg LDX)."||This was a within-subject crossover design with all participants going through a no-drug baseline followed by placebo and three dosages of LDX, with the latter four conditions in a randomly assigned, counterbalanced order. The comparison condition was the placebo condition.||||<.001
92264495|NCT02706327|184430438|OTHER||||||<|0.001||||||A post-hoc test was used with Bonferroni correction and adjusted p-value was 0.016.|Kruskal-Wallis|Effect sizes (Cohen's d) were calculated for significant differences.||Normality of the distribution was investigated by skewness-kurtosis, histogram graphics, normality tests and plots before the statistical tests were performed. Group comparisons were tested with One-way analysis of variance when normality was achieved and Kruskal Wallis test when not. A post-hoc test was used with Bonferroni correction.||||<0.001
92264496|NCT02706327|184430439|OTHER|||||||0.547|||||||Kruskal-Wallis|||Normality of the distribution was investigated by skewness-kurtosis, histogram graphics, normality tests and plots before the statistical tests were performed. Group comparisons were tested with One-way analysis of variance when normality was achieved and Kruskal Wallis test when not.||||0.547
92264497|NCT02706327|184430440|OTHER|||||||0.895|||||||Kruskal-Wallis|||Normality of the distribution was investigated by skewness-kurtosis, histogram graphics, normality tests and plots before the statistical tests were performed. Group comparisons were tested with One-way analysis of variance when normality was achieved and Kruskal Wallis test when not.||||0.895
92264498|NCT02706327|184430441|OTHER|||||||0.842|||||||Kruskal-Wallis|||Normality of the distribution was investigated by skewness-kurtosis, histogram graphics, normality tests and plots before the statistical tests were performed. Group comparisons were tested with One-way analysis of variance when normality was achieved and Kruskal Wallis test when not.||||0.842
92264499|NCT02706327|184430442|OTHER|||||||0.848|||||||Kruskal-Wallis|||Normality of the distribution was investigated by skewness-kurtosis, histogram graphics, normality tests and plots before the statistical tests were performed. Group comparisons were tested with One-way analysis of variance when normality was achieved and Kruskal Wallis test when not.||||0.848
92264500|NCT02652793|184430443|SUPERIORITY|Single-arm pilot study to assess BMD improvement after switching therapy. Null hypothesis: no change in lumbar spine BMD at Week 48. Sample size of 45 planned to detect a 2% increase with 90% power (α=0.025). Final analysis included 30 participants.|Mean Difference (Final Values)|0.01|STANDARD_DEVIATION|0.03||0.0239|TWO_SIDED|95.0|0.001|0.019||Statistical test applied to lumbar spine BMD only. P-value reflects within-group change from baseline to Week 48.|Regression, Linear|Per-protocol analysis; missing data excluded|Represents mean change in lumbar spine BMD from baseline to Week 48.|Single-arm study; no comparator group||0.019|0.001|0.0239
92286439|NCT00834067|184478151|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.0||||||90.0|99.0|106.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||106|99|
92286440|NCT00834067|184478152|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.0||||||90.0|98.1|108.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||108|98.1|
92286441|NCT00418561|184478154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0737|TWO_SIDED|||||Test for no difference between cohorts.|ANOVA|||The comparisons of the three doses were done using analysis of variance (ANOVA) model including the baseline measurement as a covariate.||||0.0737
92286442|NCT00418561|184478155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1115|TWO_SIDED|||||Test for no difference between cohorts.|ANOVA|||The comparisons of the three doses were done using ANOVA model including the baseline measurement as a covariate.||||0.1115
92264501|NCT02652793|184430443|SUPERIORITY|Single-arm pilot study to assess BMD improvement after switching therapy. Null hypothesis: no change in left hip BMD at Week 48. Sample size of 45 planned to detect a 2% increase with 90% power (α=0.025). Final analysis included 30 participants.|Mean Difference (Final Values)|0.013|STANDARD_DEVIATION|0.03||0.0046|TWO_SIDED|95.0|0.004|0.023||Left hip|Regression, Linear|Statistical test applied to left hip BMD only. P-value reflects within-group change from baseline to Week 48.|Represents mean change in left hip BMD from baseline to Week 48|Single-arm study; no comparator group||0.023|0.004|0.0046
92264502|NCT01982942|184430457|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||The null hypothesis states that the BPF rates of change in the treatment and placebo groups are equal, which can be evaluated based on as assessment of parameter estimates from a linear mixed model (LMM).||||0.04
92264503|NCT01224171|184430466|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.0||||0.4332|TWO_SIDED|95.0|-4.5|10.5|||Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|Clinical remission was tested using the Cochran-Mantel-Haenszel (CMH) chi-square test at a 5% significance level with stratification according to concomitant use of oral corticosteroids and concomitant use of immunomodulators (6-mercaptopurine \[6-MP\], azathioprine, or methotrexate) for the TNFα antagonist failure subpopulation.||10.5|-4.5|0.4332
92264504|NCT01270139|184430478|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||Null hypothesis - Nano group is superior to Ferro group and stenting control||||<0.05
92264505|NCT01270139|184430479|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control.||||<0.05
92264506|NCT01270139|184430480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||Null hypothesis - Nano group is superior to Ferro group and stenting control||||<0.05
92264507|NCT01270139|184430481|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED||||||Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control||||<0.05
92264508|NCT01270139|184430482|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|ONE_SIDED||||||Chi-squared|||The null hypothesis is Nano group is superior to Ferro group and Stenting control||||<0.05
92264509|NCT01270139|184430483|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|ONE_SIDED||||||Chi-squared|||The null hypothesis is Nano group is superior to Ferro group and Stenting control||||<0.05
92264510|NCT01270139|184430484|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nano group is superior to Ferro group and stenting control||||<0.05
92264511|NCT01270139|184430485|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nanogroup is superior to Ferro group and stenting control||||<0.05
92264512|NCT01270139|184430486|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED||||||Chi-squared|||The null hypothesis is Nanogroup is superior to Ferro group and stenting control||||<0.05
92264513|NCT01270139|184430487|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nano group is superior to Ferro group and stenting control||||<0.05
92264514|NCT01270139|184430488|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nano groups is superior to Ferro group and Stenting control||||<0.05
92286443|NCT00418561|184478157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1268|TWO_SIDED|||||Test for no difference between cohorts.|ANOVA|||The comparisons of the three doses were done using ANOVA model including the baseline measurement as a covariate.||||0.1268
92264515|NCT01270139|184430489|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nano group is superior to Ferro group and Stenting control||||<0.05
92264516|NCT01270139|184430490|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nano groups is superior to Ferro group and Stenting control||||<0.05
92264517|NCT01270139|184430491|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control.||||<0.05
92264518|NCT01270139|184430492|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control.||||<0.05
92264519|NCT01270139|184430493|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control.||||<0.05
92264520|NCT01270139|184430494|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control.||||<0.05
92264521|NCT01270139|184430495|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|t-test, 2 sided|||Null hypothesis is ex-vivo arm with exposure of nanoparticles is superior to saline control.||||<0.05
92264522|NCT04140942|184430524|SUPERIORITY|||||||0.15|||||||Chi-squared|||6-Month Employment||||.15
92264523|NCT04140942|184430524|SUPERIORITY|||||||0.001|||||||Regression, Logistic|||6-Month Employment||||.001
92264524|NCT04140942|184430524|SUPERIORITY|||||||0.87|||||||Chi-squared|||12-Month Employment||||.87
92264525|NCT04140942|184430525|SUPERIORITY|||||||0.04|||||||ANCOVA|Repeated measures.||||||0.04
92264526|NCT04140942|184430526|SUPERIORITY|||||||0.056|||||||Chi-squared|||12-Month Recidivism Analysis||||.056
92286444|NCT00829309|184478177|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.45||||||90.0|80.08|121.03|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||121.03|80.08|
92286445|NCT00829309|184478178|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|90.98||||||90.0|85.23|97.12|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||97.12|85.23|
92264527|NCT04140942|184430526|SUPERIORITY|||||||0.18|||||||Chi-squared|||6-Month Recidivism Analysis||||.18
92264528|NCT02918968|184430548|SUPERIORITY|The significance level was 0.05 (two-sided).|Hazard Ratio (HR)|0.42|||<|0.001|TWO_SIDED|95.0|0.29|0.61||P-value is based on a log-rank test stratified disease stages (M0/N0, M0/N1, or M1).|Log Rank||Hazard ratio and P-value calculated using unstratified Cox proportional hazards model with treatment and disease stages (M0/N0, M0/N1, or M1) as covariate.|||0.61|0.29|<0.001
92264529|NCT02918968|184430550|SUPERIORITY|The significance level was 0.05 (two-sided).|Risk Difference (RD)|37.8|||<|0.001|TWO_SIDED|95.0|25.2|50.4||P-value is based on Cochran-Mantel-Haenszel mean score test stratified disease stages (M0/N0, M0/N1, or M1).|Mantel Haenszel|Mantel Haenszel common risk difference|Difference of response rate.|\>=50% reduction||50.4|25.2|<0.001
92264530|NCT02918968|184430550|SUPERIORITY|The significance level was 0.05 (two-sided).|Risk Difference (RD)|38.4|||<|0.001|TWO_SIDED|95.0|26.3|50.4||P-value is based on Cochran-Mantel-Haenszel mean score test stratified disease stages (M0/N0, M0/N1, or M1).|Mantel Haenszel|Mantel Haenszel common risk difference|Difference of response rate|≥ 90% reduction||50.4|26.3|<0.001
92264531|NCT02918968|184430551|SUPERIORITY|The significance level was 0.05 (two-sided).|Risk Difference (RD)|40.7|||<|0.001|TWO_SIDED|95.0|28.3|53.1||P-value is based on Cochran-Mantel-Haenszel mean score test stratified disease stages (M0/N0, M0/N1, or M1).|Mantel Haenszel|Mantel Haenszel common risk difference|Difference of response rate.|≥ 50% reduction||53.1|28.3|<0.001
92264532|NCT02918968|184430551|SUPERIORITY|The significance level was 0.05 (two-sided).|Risk Difference (RD)|33.5|||<|0.001|TWO_SIDED|95.0|21.5|45.4||P-value is based on Cochran-Mantel-Haenszel mean score test stratified disease stages (M0/N0, M0/N1, or M1).|Mantel Haenszel|Mantel Haenszel common risk difference|Difference of response rate|≥90% reduction||45.4|21.5|<0.001
92264533|NCT02918968|184430552|SUPERIORITY|The significance level was 0.05 (two-sided).|||||<|0.001||||||P-value is based on a log-rank test stratified disease stages (M0/N0, M0/N1, or M1).|Log Rank|||||||<0.001
92264534|NCT02918968|184430553|SUPERIORITY|The significance level was 0.05 (two-sided).|||||<|0.001||||||P-value is based on a log-rank test stratified disease stages (M0/N0, M0/N1, or M1).|Log Rank|||||||<0.001
92264535|NCT02918968|184430555|SUPERIORITY|The significance level was 0.05 (two-sided).|Hazard Ratio (HR)|0.87||||0.669|TWO_SIDED|95.0|0.45|1.67||P-value is based on a log-rank test stratified disease stages (M0/N0, M0/N1, or M1)|Log Rank||Hazard ratio and P-value calculated using unstratified Cox proportional hazards model with treatment and disease stages (M0/N0, M0/N1, or M1) as covariate.|||1.67|0.45|0.669
92264536|NCT00750061|184430556|SUPERIORITY_OR_OTHER|||||||0.343|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change light touch score (wk6-d0)||||0.343
92264537|NCT00750061|184430556|SUPERIORITY_OR_OTHER|||||||0.69|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change light touch score (m6-d0)||||0.69
92264538|NCT00750061|184430556|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change pin-prick score (wk6-d0)||||1
92264539|NCT00750061|184430556|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change pin-prick score (m6-d0)||||0.32
92264540|NCT00750061|184430556|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change motor score (wk6-d0)||||1
92264541|NCT00750061|184430556|SUPERIORITY_OR_OTHER|||||||0.582|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change motor score (m6-d0)||||0.582
92264542|NCT00750061|184430557|SUPERIORITY_OR_OTHER|||||||0.257|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||FIM change (Wk6 - D0)||||0.257
92264543|NCT00750061|184430557|SUPERIORITY_OR_OTHER|||||||0.168|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||FIM change (M6 - D0)||||0.168
92264544|NCT00750061|184430557|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS change (Wk6 - D0)||||0.013
92264545|NCT00750061|184430557|SUPERIORITY_OR_OTHER|||||||0.137|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS change (M6 - D0)||||0.137
92264546|NCT03814499|184430563|OTHER||Coefficient|-2.3|||<|0.01|TWO_SIDED||||||Regression, Linear|||||||<0.01
92264547|NCT03814499|184430564|OTHER||Coefficient|-3.8|||<|0.01|TWO_SIDED||||||Regression, Linear|||||||<0.01
92264548|NCT03814499|184430565|OTHER||Coefficient|369.9||||0.3269|TWO_SIDED||||||Regression, Linear|||||||0.3269
92264549|NCT03814499|184430566|OTHER||Coefficient|365.4||||0.4265|TWO_SIDED||||||Regression, Linear|||||||0.4265
92264550|NCT03814499|184430567|OTHER||Coefficient|264.3||||0.4782|TWO_SIDED||||||Regression, Linear|||||||0.4782
92264551|NCT03814499|184430568|OTHER||Coefficient|730.2||||0.2716|TWO_SIDED||||||Regression, Linear|||||||0.2716
92264552|NCT03814499|184430569|OTHER||Coefficient|-0.6||||0.4178|TWO_SIDED||||||Regression, Linear|||||||0.4178
92264553|NCT03814499|184430570|OTHER||Coefficient|-1.5||||0.2677|TWO_SIDED||||||Regression, Linear|||||||0.2677
92264554|NCT03814499|184430571|OTHER||Coefficient|-467.0||||0.3364|TWO_SIDED||||||Regression, Linear|||||||0.3364
92264555|NCT03814499|184430572|OTHER||Coefficient|-908.0||||0.1124|TWO_SIDED||||||Regression, Linear|||||||0.1124
92264556|NCT03814499|184430573|OTHER||Coefficient|479.2||||0.2649|TWO_SIDED||||||Regression, Linear|||||||0.2649
92264557|NCT03814499|184430574|OTHER||Coefficient|1114.3||||0.216|TWO_SIDED||||||Regression, Linear|||||||0.216
92264558|NCT03814499|184430575|OTHER||Coefficient|0.1||||0.9032|TWO_SIDED||||||Regression, Linear|||||||0.9032
92264559|NCT03814499|184430576|OTHER||Coefficient|-0.4||||0.7889|TWO_SIDED||||||Regression, Linear|||||||0.7889
92264560|NCT03814499|184430577|OTHER||Coefficient|7.0||||0.0242|TWO_SIDED||||||Regression, Linear|||||||0.0242
92264561|NCT03814499|184430578|OTHER||Coefficient|1.5||||0.5092|TWO_SIDED||||||Regression, Linear|||||||0.5092
92286446|NCT00829309|184478179|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|96.3||||||90.0|85.34|108.66|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108.66|85.34|
92264562|NCT03814499|184430579|OTHER||Coefficient|-47.1||||0.3634|TWO_SIDED||||||Regression, Linear|||||||0.3634
92286447|NCT02678286|184478194|SUPERIORITY|||||||0.0145|||||||t-test, 2 sided|||||||0.0145
92286448|NCT02678286|184478195|SUPERIORITY|||||||0.1841||||||Row 1 (SPID6)|t-test, 2 sided|||||||0.1841
92264563|NCT03814499|184430580|OTHER||Coefficient|-204.7||||0.0677|TWO_SIDED||||||Regression, Linear|||||||0.0677
92264564|NCT03814499|184430581|OTHER||Coefficient|-235.8||||0.156|TWO_SIDED||||||Regression, Linear|||||||0.156
92264565|NCT03814499|184430582|OTHER||Coefficient|-102.0||||0.3148|TWO_SIDED||||||Regression, Linear|||||||0.3148
92264566|NCT03814499|184430583|OTHER||Coefficient|-0.1||||0.9349|TWO_SIDED||||||Regression, Linear|||||||0.9349
92264567|NCT03814499|184430584|OTHER||Coefficient|-0.6||||0.7196|TWO_SIDED||||||Regression, Linear|||||||0.7196
92264568|NCT03814499|184430585|OTHER||Coefficient|4.7||||0.0542|TWO_SIDED||||||Regression, Linear|||||||0.0542
92264569|NCT03814499|184430586|OTHER||Coefficient|2.6||||0.4224|TWO_SIDED||||||Regression, Linear|||||||0.4224
92264570|NCT03814499|184430587|OTHER||Coeffiient|-118.9||||0.1247|TWO_SIDED||||||Regression, Linear|||||||0.1247
92264571|NCT03814499|184430588|OTHER||Coefficient|-135.2||||0.1461|TWO_SIDED||||||Regression, Linear|||||||0.1461
92264572|NCT03814499|184430589|OTHER||Coefficient|-154.2||||0.0699|TWO_SIDED||||||Regression, Linear|||||||0.0699
92264573|NCT03814499|184430590|OTHER||Coefficient|-164.6||||0.0901|TWO_SIDED||||||Regression, Linear|||||||0.0901
92264574|NCT01374516|184430601|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|60.8|||||TWO_SIDED|95.0|52.0|68.0||||||The statistical methodology was based on the use of the two-sided 95% confidence interval (CI) of the vaccine efficacy (expressed in %). The CI was calculated using the exact method conditional on the total number of cases in both groups (exact method by Breslow \& Day). The vaccine efficacy of the CYD dengue vaccine was considered significant if the lower bound of its 95% CI was greater than 25%.||68.0|52.0|
92264575|NCT01374516|184430602|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|64.7|||||TWO_SIDED|95.0|58.7|69.8||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||69.8|58.7|
92264576|NCT01374516|184430603|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|64.7|||||TWO_SIDED|95.0|58.7|69.9||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||69.9|58.7|
92264577|NCT01374516|184430604|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|61.9|||||TWO_SIDED|95.0|54.7|68.0||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||68.0|54.7|
92264578|NCT00612456|184430751|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means using the LOCF dataset.|Mean Difference (Final Values)|5.83|STANDARD_ERROR_OF_MEAN|18.332||0.6241|TWO_SIDED|95.0|-31.05|42.71||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||Comparison between Baseline value and Day 29 value.||42.71|-31.05|0.6241
92286449|NCT02678286|184478195|SUPERIORITY|||||||0.0434||||||Row 2 (SPID12)|t-test, 2 sided|||||||0.0434
92286450|NCT02678286|184478195|SUPERIORITY|||||||0.004||||||Row 3 (SPID48)|t-test, 2 sided|||||||0.0040
92286451|NCT02678286|184478195|SUPERIORITY|||||||0.0028||||||Row 4 (SPID24-48)|t-test, 2 sided|||||||0.0028
92286452|NCT02678286|184478196|SUPERIORITY|||||||0.7572|||||||Log Rank|||||||0.7572
92286453|NCT02678286|184478197|SUPERIORITY|||||||0.6559||||||Row 1 (Hour 0-24)|Cochran-Mantel-Haenszel|||||||0.6559
92286454|NCT02678286|184478197|SUPERIORITY|||||||0.0014||||||Row 2 (Hour 24-48)|Cochran-Mantel-Haenszel|||||||0.0014
92286455|NCT02678286|184478197|SUPERIORITY|||||||0.4994||||||Row 3 (Hour 0-48)|Cochran-Mantel-Haenszel|||||||0.4994
92286456|NCT02678286|184478198|SUPERIORITY|||||||0.0275||||||Row 1 (Hour 0-24)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||0.0275
92286457|NCT02678286|184478198|SUPERIORITY|||||||0.0009||||||Row 2 (Hour 24-48)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||0.0009
92286458|NCT02678286|184478198|SUPERIORITY|||||||0.0027||||||Row 3 (Hour 0-48)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||0.0027
92286459|NCT02678286|184478199|SUPERIORITY|||||||0.005|||||||Log Rank|||||||0.0050
92286460|NCT02678286|184478200|SUPERIORITY|||||||0.5096|||||||Log Rank|||||||0.5096
92286461|NCT02678286|184478201|SUPERIORITY|||||||0.389|||||||Cochran-Mantel-Haenszel|||||||0.3890
92286462|NCT02678286|184478202|SUPERIORITY|||||||0.0178|||||||Cochran-Mantel-Haenszel|||||||0.0178
92286463|NCT02678286|184478203|SUPERIORITY|||||||0.1888|||||||Cochran-Mantel-Haenszel|||||||0.1888
92286464|NCT02678286|184478204|SUPERIORITY|||||||0.0788|||||||Cochran-Mantel-Haenszel|||||||0.0788
92286465|NCT02678286|184478205|SUPERIORITY|||||||0.0607|||||||Cochran-Mantel-Haenszel|P-value was derived from comparisons between N1539 and Placebo via General Association of CMH Test controlling for investigational site||||||0.0607
92286466|NCT02678286|184478206|SUPERIORITY|||||||0.0027|||||||Cochran-Mantel-Haenszel|P-value was derived from comparisons between N1539 and Placebo via General Association of CMH Test controlling for investigational site||||||0.0027
92286467|NCT01860521|184478266|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92286468|NCT01860521|184478267|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.005
92286469|NCT01860521|184478268|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.047
92286470|NCT01860521|184478269|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.047
92286471|NCT01513174|184478281|SUPERIORITY||Hazard Ratio (HR)|1.38||||0.124|TWO_SIDED|95.0|1.0|1.92|||Log Rank||||The initial hypothesis estimated that the median PFS for the gefitinib group would be 10 months, while the median PFS for the gefitinib/olaparib group would be 16 months, which implied a hazard ratio (HR) of 1.6.|1.92|1.00|0.124
92286472|NCT01513174|184478282|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.3455|TWO_SIDED|95.0|0.806|1.845|||Log Rank|||||1.845|0.806|0.3455
92286473|NCT00850174|184478284|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.48||||||90.0|88.98|109.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109.00|88.98|
92286474|NCT00850174|184478285|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|102.54||||||90.0|99.19|106.01|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.01|99.19|
92286475|NCT00850174|184478286|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|102.19||||||90.0|98.78|105.71|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.71|98.78|
92286476|NCT00850174|184478287|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|100.77||||||90.0|97.03|104.65|||||Results presented for informational purposes only; metabolite not subjected to Bioequivalence criteria.|||104.65|97.03|
92286477|NCT00850174|184478288|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|99.94||||||90.0|97.75|102.18|||||Results presented for informational purposes only, metabolite not subjected to bioequivalence criteria.|||102.18|97.75|
92286478|NCT00850174|184478289|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|99.8||||||90.0|97.5|102.15|||||Results presented for informational purposes only; metabolite not subjected to bioequivalence criteria.|||102.15|97.50|
92286479|NCT04405570|184478344|SUPERIORITY|||||||0.5551|||||||Log Rank|||||||0.5551
92286480|NCT04405570|184478344|SUPERIORITY|||||||0.727|||||||Log Rank|||||||0.7270
92286481|NCT04405570|184478344|SUPERIORITY|||||||0.0128|||||||Log Rank|||||||0.0128
92286482|NCT04499963|184478348|SUPERIORITY|||||||0.984|||||||t-test, 2 sided|||We compared he ALSFRS-R slope (not the actual score) of the patients in our open label treatment versus the historical controls.||||0.984
92286483|NCT04499963|184478353|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
92286484|NCT04499963|184478354|OTHER||||||>|0.5||||||Alpha Diversity|Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.5
92286485|NCT04499963|184478355|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
92286486|NCT04499963|184478356|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
92286487|NCT04499963|184478357|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
92286488|NCT04499963|184478358|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
92286489|NCT04499963|184478359|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
92286490|NCT04499963|184478360|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
92286491|NCT02648347|184478365|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.048|||TWO_SIDED|95.0|-0.04|0.15||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||0.15|-0.04|
92286492|NCT02648347|184478366|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per Food and Drug Administration \[FDA\]) and 1.3 (per European Medicines Agency \[EMA\]).|Hazard Ratio (HR)|1.16|||=|0.205|TWO_SIDED|95.0|0.955|1.412|||Log Rank|||Statistical analysis from study AKB-6548-CI-0014 has been reported in this section.||1.412|0.955|=0.2050
92286493|NCT02648347|184478366|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.17|||=|0.0725|TWO_SIDED|95.0|1.012|1.355|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 382 and 344 respectively; median time to first event (Q1, Q3) = 50.07 (23.00, 82.86) weeks versus 51.93 (27.79, 91.00) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.355|1.012|=0.0725
92286494|NCT02648347|184478367|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.052|||TWO_SIDED|95.0|-0.06|0.14||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||0.14|-0.06|
92286495|NCT02648347|184478368|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.16|||=|0.1743|TWO_SIDED|95.0|0.966|1.382|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0014 has been reported in this section.||1.382|0.966|=0.1743
92286496|NCT02648347|184478368|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.11|||=|0.2305|TWO_SIDED|95.0|0.972|1.267|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first MACE plus hospitalization for heart failure or thromboembolic events excluding vascular access thrombosis for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 451 and 424 respectively; median time to first event (Q1, Q3) = 42.86 (19.71, 73.43) weeks versus 43.86 (21.36, 80.43) weeks, respectively.||1.267|0.972|=0.2305
92286497|NCT02648347|184478369|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.19|||=|0.3154|TWO_SIDED|95.0|0.901|1.564|||Gray's Test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0014 has been reported in this section.||1.564|0.901|=0.3154
92286498|NCT02648347|184478369|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.16|||=|0.2531|TWO_SIDED|95.0|0.947|1.42|||Gray's Test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first cardiovascular MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 198 and 178 respectively; median time to first event (Q1, Q3) = 45.57 (21.71, 73.29) weeks versus 47.36 (20.00, 88.43) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.420|0.947|=0.2531
92286499|NCT02648347|184478370|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.13|||=|0.5991|TWO_SIDED|95.0|0.808|1.594|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0014 has been reported in this section.||1.594|0.808|=0.5991
92286500|NCT02648347|184478370|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.01|||=|0.8613|TWO_SIDED|95.0|0.792|1.293|||Gray's test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first cardiovascular death for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 127 and 131 respectively; median time to first event (Q1, Q3) = 48.29 (28.86, 76.14) weeks versus 48.43 (21.29, 92.29) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.293|0.792|=0.8613
92264579|NCT00612456|184430751|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means using the LOCF dataset.|Mean Difference (Final Values)|11.87|STANDARD_ERROR_OF_MEAN|19.081||0.7315|TWO_SIDED|95.0|-26.52|50.26||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||Comparison between Baseline value and Day 29 value.||50.26|-26.52|0.7315
92264580|NCT00612456|184430751|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means using the OC dataset.|Mean Difference (Final Values)|5.76|STANDARD_ERROR_OF_MEAN|18.566||0.6212|TWO_SIDED|95.0|-31.65|43.18||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||Comparison between Baseline value and Day 29 value.||43.18|-31.65|0.6212
92264581|NCT00612456|184430751|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means using the OC dataset.|Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|20.662||0.5987|TWO_SIDED|95.0|-36.44|46.84||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||Comparison between Baseline value and Day 29 value.||46.84|-36.44|0.5987
92264582|NCT00612456|184430751|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Median Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|18.114||0.482|TWO_SIDED|95.0|-37.28|35.64||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||LOCF Data excluding potential one outlier participant. Comparison between Baseline value and Day 29 value.||35.64|-37.28|0.4820
92264583|NCT00612456|184430751|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|19.9|STANDARD_ERROR_OF_MEAN|18.496||0.8562|TWO_SIDED|95.0|-17.33|57.13||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||LOCF Data excluding potential one outlier participant. Comparison between Baseline value and Day 29 value.||57.13|-17.33|0.8562
92264584|NCT00612456|184430751|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|18.3||0.488|TWO_SIDED|95.0|-37.46|36.35||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||OC Data excluding potential one outlier participant. Comparison between Baseline value and Day 29 value.||36.35|-37.46|0.4880
92264585|NCT00612456|184430751|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|13.97|STANDARD_ERROR_OF_MEAN|20.008||0.7556|TWO_SIDED|95.0|-26.38|54.32||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||OC Data excluding potential one outlier participant. Comparison between Baseline value and Day 29 value.||54.32|-26.38|0.7556
92264586|NCT00612456|184430758|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on efficacy population.|Mean Difference (Final Values)|4.32|STANDARD_ERROR_OF_MEAN|1.29||0.0015|TWO_SIDED|95.0|1.74|6.91|||ANCOVA|||Comparison between Baseline value and Day 29 value.||6.91|1.74|0.0015
92264587|NCT00612456|184430758|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on efficacy population.|Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|1.403||0.5921|TWO_SIDED|95.0|-2.05|3.57|||ANCOVA|||Comparison between Baseline value and Day 29 value.||3.57|-2.05|0.5921
92264588|NCT00612456|184430758|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on efficacy population.|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|1.988||0.9646|TWO_SIDED|95.0|-3.89|4.07|||ANCOVA|||Comparison between Baseline value and Day 29 value.||4.07|-3.89|0.9646
92264589|NCT00612456|184430758|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for RCA NONE field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|4.75||||0.0003|TWO_SIDED|95.0|2.32|7.19|||ANCOVA|||Comparison between Baseline value and Day 29 value.||7.19|2.32|0.0003
92264590|NCT00612456|184430758|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for RCA NONE field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|1.64|STANDARD_ERROR_OF_MEAN|1.326||0.2208|TWO_SIDED|95.0|-1.02|4.3|||ANCOVA|||Comparison between Baseline value and Day 29 value.||4.30|-1.02|0.2208
92264591|NCT00612456|184430758|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for RCA NONE field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|1.927||0.9847|TWO_SIDED|95.0|-3.9|3.83|||ANCOVA|||Comparison between Baseline value and Day 29 value.||3.83|-3.90|0.9847
92264592|NCT00612456|184430758|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for eligible field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|3.53|STANDARD_ERROR_OF_MEAN|1.376||0.0142|TWO_SIDED|95.0|0.75|6.31|||ANCOVA|||Comparison between Baseline value and Day 29 value.||6.31|0.75|0.0142
92286501|NCT02648347|184478371|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.11|||=|0.4388|TWO_SIDED|95.0|0.902|1.375|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0014 has been reported in this section.||1.375|0.902|=0.4388
92286502|NCT02648347|184478371|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.09|||=|0.4577|TWO_SIDED|95.0|0.93|1.274|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first all-cause mortality for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 319 and 307 respectively; median time to first event (Q1, Q3) = 52.14 (28.71, 84.71) weeks versus 53.00 (30.71, 94.14) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.274|0.930|=0.4577
92286503|NCT01639222|184478382|SUPERIORITY_OR_OTHER||Calcium-Vitamin D/Reference (%)|179.72|||||TWO_SIDED|95.0|157.16|205.52|||||Point estimates and 95% CIs for the treatment difference ratio (Calcium-Vitamin D/reference treatment) are provided on the original scale as a ratio \* 100%.|The primary parameters were analysed in a mixed effects general linear model of the logtransformed values, including treatment as a fixed effect and subject as a random effect. The objective of the trial was met if the treatment contrast was statistically significantly different from 0 in the appropriate direction in a 2-sided test on a 5% significance level for both parameters. The 5% significance level for both primary parameters was not adjusted for multiple testing.||205.52|157.16|
92286504|NCT01639222|184478383|SUPERIORITY_OR_OTHER||Calcium-Vitamin D/Reference (%)|71.77|||||TWO_SIDED|95.0|68.83|74.84|||||Point estimate and 95% CI for the treatment difference ratio (Calcium-Vitamin D /reference treatment) are provided on the original scale as a ratio \* 100%.|||74.84|68.83|
92286505|NCT01639222|184478384|SUPERIORITY_OR_OTHER||Calcium-Vitamin D/Reference (%)|156.74|||||TWO_SIDED|95.0|121.66|201.93|||||Point estimates and 95% CIs for the treatment difference ratio (Calcium-Vitamin D / reference treatment) are provided on the original scale as a ratio \* 100%.|||201.93|121.66|
92286506|NCT01723397|184478391|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon signed-rank test|||||||0.8
92286507|NCT03117296|184478405|OTHER||Rank-Sum|0.05|||<|0.01|TWO_SIDED||||||Fisher Exact|||Univariate 2-group comparisons were performed using χ2 and Fisher's exact tests (when expected cell counts are \<5) for categorical variables, using 2-group t tests and Wilcoxon rank-sum tests (when normality distributions were violated) for continuous variables. Statistical significance was set at P \< .05. All analyses were performed using SAS 9.4 (SAS Institute, Cary, North Carolina).||||<0.01
92286508|NCT00838279|184478417|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.31||||||90.0|97.82|102.85|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.85|97.82|
92286509|NCT00838279|184478418|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|101.78||||||90.0|99.09|104.55|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.55|99.09|
92286510|NCT00838279|184478419|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|99.94||||||90.0|97.4|102.55|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.55|97.40|
92286511|NCT04608188|184478420|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92286512|NCT04608188|184478421|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92286513|NCT04608188|184478422|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92286514|NCT04608188|184478423|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92286515|NCT03686033|184478463|SUPERIORITY||LS Mean difference|1.12|||||TWO_SIDED|90.0|-0.98|3.22||||||The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (predose) measurement as a covariate, and subject nested within sequence as a random effect. Least Square (LS) Mean Difference was calculated for 2.5 mg versus (vs) Placebo only.||3.22|-0.98|
92286516|NCT03686033|184478463|SUPERIORITY||LS Mean difference|-4.17|||||TWO_SIDED|90.0|-6.35|-1.99||||||The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (predose) measurement as a covariate, and subject nested within sequence as a random effect. LS Mean Difference was calculated for 25 mg vs Placebo only.||-1.99|-6.35|
92286517|NCT01302548|184478483|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0833|STANDARD_DEVIATION|0.8609||0.797|TWO_SIDED|95.0|-0.5738|0.7405||This is unadjusted.|t-test, 2 sided|Degrees of freedom = 28||"Ho: There is not a significant difference between the use of IRRISEPT solution and the usual care methods on abscess healing.~This study did not enroll an adequate number of patients to meet sufficient power."||.7405|-.5738|.7970
92286518|NCT01302548|184478484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.2364||||0.3575|TWO_SIDED|95.0|0.0239|2.3394||This is unadjusted.|Fisher Exact|Cell (1,1) Frequency (F) = 13||"Ho: There is not a significant difference between the proportion of patients requiring antibiotics after the use of IRRISEPT solution vs. the usual care methods on abscess healing.~This study did not enroll an adequate number of patients to meet sufficient power."||2.3394|.0239|.3575
92286519|NCT01302548|184478485|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.5477||0.5415|TWO_SIDED|95.0|-2.0659|1.2659||This is unadjusted.|t-test, 2 sided|Degrees of freedom = 4||"Ho: There is not a significant difference between the use of IRRISEPT solution and the usual care methods on abscess healing in patients that are MRSA positive.~This study did not enroll an adequate number of patients to meet sufficient power."||1.2659|-2.0659|.5415
92286520|NCT00913627|184478488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.16|||<|0.001|TWO_SIDED|95.0|12.13|20.19||p-value adjusted for baseline pain severity rating (PSR) and gender|ANOVA|||||20.19|12.13|<0.001
92286521|NCT00913627|184478488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0|||<|0.001|TWO_SIDED|95.0|13.02|20.99||p-value adjusted for baseline pain severity rating (PSR) and gender|ANOVA|||||20.99|13.02|<0.001
92286522|NCT00913627|184478488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.3|||<|0.001|TWO_SIDED|95.0|8.33|16.26||p-value adjusted for baseline pain severity rating (PSR) and gender|ANOVA|||||16.26|8.33|<0.001
92286523|NCT00913627|184478489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.34|||<|0.001|TWO_SIDED|95.0|4.3|8.38||p-value adjusted for baseline PSR and gender|ANOVA|||||8.38|4.30|<0.001
92286524|NCT00913627|184478489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.06|||<|0.001|TWO_SIDED|95.0|5.05|9.08||p-value adjusted for baseline PSR and gender|ANOVA|||||9.08|5.05|<0.001
92264593|NCT00612456|184430758|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for eligible field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|0.85|STANDARD_ERROR_OF_MEAN|1.419||0.5547|TWO_SIDED|95.0|-2.02|3.71|||ANCOVA|||Comparison between Baseline value and Day 29 value.||3.71|-2.02|0.5547
92264594|NCT00612456|184430758|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for eligible field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|2.287||0.9114|TWO_SIDED|95.0|-4.37|4.88|||ANCOVA|||Comparison between Baseline value and Day 29 value.||4.88|-4.37|0.9114
92264595|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.383||0.0534|TWO_SIDED|95.0|-0.01|1.53|||ANCOVA|||Comparison between Baseline value and Day 29 value for FA Leakage Area of measurement.||1.53|-0.01|0.0534
92264596|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.82|STANDARD_ERROR_OF_MEAN|0.409||0.0508|TWO_SIDED|95.0|0.0|1.64|||ANCOVA|||Comparison between Baseline value and Day 29 value for FA Leakage Area of measurement.||1.64|-0.00|0.0508
92264597|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.61||||0.3141|TWO_SIDED|95.0|-0.6|1.83|||ANCOVA|||Comparison between Baseline value and Day 29 value for FA Leakage Area of measurement.||1.83|-0.60|0.3141
92264598|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.395||0.6018|TWO_SIDED|95.0|-1.04|0.62|||ANCOVA|||Comparison between Baseline value and Day 29 value for FA Blood Area of measurement.||0.62|-1.04|0.6018
92264599|NCT00612456|184430761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.476||0.0509|TWO_SIDED|95.0|0.0|2.0||Statistics has been presented for least square means.|ANCOVA|||Comparison between Baseline value and Day 29 value for FA Blood Area of measurement.||2.00|-0.00|0.0509
92264600|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.566||0.3976|TWO_SIDED|95.0|-0.7|1.68|||ANCOVA|||Comparison between Baseline value and Day 29 value for FA Blood Area of measurement.||1.68|-0.70|0.3976
92264601|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.385||0.241|TWO_SIDED|95.0|-0.32|1.23|||ANCOVA|||Comparison between Baseline value and Day 29 value for Total Lesion size||1.23|-0.32|0.2410
92264602|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|1.27|STANDARD_ERROR_OF_MEAN|0.412||0.0032|TWO_SIDED|95.0|0.44|2.09|||ANCOVA|||Comparison between Baseline value and Day 29 value for Total Lesion size||2.09|0.44|0.0032
92264603|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.581||0.3185|TWO_SIDED|95.0|-0.58|1.75|||ANCOVA|||Comparison between Baseline value and Day 29 value for Total Lesion size||1.75|-0.58|0.3185
92286525|NCT00913627|184478489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.05|||<|0.001|TWO_SIDED|95.0|3.04|7.06||p-value adjusted for baseline PSR and gender|ANOVA|||||7.06|3.04|<0.001
92286526|NCT00913627|184478492|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-72.19|||<|0.001|TWO_SIDED|95.0|-88.56|-55.83||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|8 hours||-55.83|-88.56|<0.001
92286527|NCT00913627|184478492|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-70.72|||<|0.001|TWO_SIDED|95.0|-87.14|-54.3||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|8 hours||-54.30|-87.14|<0.001
92286528|NCT00913627|184478492|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-59.6|||<|0.001|TWO_SIDED|95.0|-76.94|-42.27||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|8 hours||-42.27|-76.94|<0.001
92286529|NCT00913627|184478492|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-72.19|||<|0.001|TWO_SIDED|95.0|-88.56|-55.83||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|9 hours||-55.83|-88.56|<0.001
92286530|NCT00913627|184478492|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-70.72|||<|0.001|TWO_SIDED|95.0|-87.14|-54.3||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|9 hours||-54.30|-87.14|<0.001
92286531|NCT00913627|184478492|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-57.79|||<|0.001|TWO_SIDED|95.0|-75.43|-40.16||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|9 hours||-40.16|-75.43|<0.001
92286532|NCT00913627|184478492|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-66.79|||<|0.001|TWO_SIDED|95.0|-83.98|-49.6||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|10 hours||-49.60|-83.98|<0.001
92286533|NCT00913627|184478492|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-70.72|||<|0.001|TWO_SIDED|95.0|-87.14|-54.3||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|10 hours||-54.30|-87.14|<0.001
92286534|NCT00913627|184478492|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-55.98|||<|0.001|TWO_SIDED|95.0|-73.85|-38.11||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|10 hours||-38.11|-73.85|<0.001
92286535|NCT00913627|184478492|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-63.44|||<|0.001|TWO_SIDED|95.0|-80.82|-46.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||11 hours||-46.06|-80.82|<0.001
92286536|NCT00913627|184478492|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-68.88|||<|0.001|TWO_SIDED|95.0|-85.63|-54.14||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||11 hours||-54.14|-85.63|<0.001
92286537|NCT00913627|184478492|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-55.98|||<|0.001|TWO_SIDED|95.0|-73.85|-38.11||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||11 hours||-38.11|-73.85|<0.001
92286538|NCT00913627|184478492|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-63.44|||<|0.001|TWO_SIDED|95.0|-80.82|-46.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||12 hours||-46.06|-80.82|<0.001
92286539|NCT00913627|184478492|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-65.28|||<|0.001|TWO_SIDED|95.0|-82.49|-48.07||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||12 hours||-48.07|-82.49|<0.001
92286540|NCT00913627|184478492|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-50.77|||<|0.001|TWO_SIDED|95.0|-69.09|-32.45||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||12 hours||-32.45|-69.09|<0.001
92286541|NCT00913627|184478493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.34|||<|0.001|TWO_SIDED|95.0|4.18|6.51||p-value adjusted for baseline PSR, and gender|ANOVA|||SPID 0-4||6.51|4.18|<0.001
92286542|NCT00913627|184478493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.25|||<|0.001|TWO_SIDED|95.0|4.09|6.4||p-value adjusted for baseline PSR and gender|ANOVA|||SPID 0-4||6.40|4.09|<0.001
92286543|NCT00913627|184478493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.98|||<|0.001|TWO_SIDED|95.0|2.83|5.12||p-value adjusted for baseline PSR and gender|ANOVA|||SPID 0-4||5.12|2.83|<0.001
92286544|NCT00913627|184478493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.53|||<|0.001|TWO_SIDED|95.0|5.63|9.43||p-value adjusted for baseline PSR and gender|ANOVA|||SPID 4-8||9.43|5.63|<0.001
92286545|NCT00913627|184478493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.68|||<|0.001|TWO_SIDED|95.0|5.8|9.56||p-value adjusted for baseline PSR and gender|ANOVA|||SPID 4-8||9.56|5.80|<0.001
92286546|NCT00913627|184478493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.49|||<|0.001|TWO_SIDED|95.0|3.62|7.36||p-value adjusted for baseline PSR and gender|ANOVA|||SPID 4-8||7.36|3.62|<0.001
92286547|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.47|||<|0.001|TWO_SIDED|95.0|10.68|16.27||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-4||16.27|10.68|<0.001
92286548|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.24|||<|0.001|TWO_SIDED|95.0|10.48|16.01||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-4||16.01|10.48|<0.001
92286549|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.08|||<|0.001|TWO_SIDED|95.0|7.33|12.83||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-4||12.83|7.33|<0.001
92286550|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.21|||<|0.001|TWO_SIDED|95.0|14.71|23.71||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 4-8||23.71|14.71|<0.001
92286551|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.32|||<|0.001|TWO_SIDED|95.0|14.86|23.78||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 4-8||23.78|14.86|<0.001
92286552|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.87|||<|0.001|TWO_SIDED|95.0|9.44|18.3||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 4-8||18.30|9.44|<0.001
92286553|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.18|||<|0.001|TWO_SIDED|95.0|11.29|21.07||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 8-12||21.07|11.29|<0.001
92286554|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.65|||<|0.001|TWO_SIDED|95.0|12.81|22.49||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 8-12||22.49|12.81|<0.001
92286555|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.78|||<|0.001|TWO_SIDED|95.0|7.97|17.59||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 8-12||17.59|7.97|<0.001
92286556|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.08|||<|0.001|TWO_SIDED|95.0|31.48|50.69||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-12||50.69|31.48|<0.001
92286557|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.66|||<|0.001|TWO_SIDED|95.0|33.15|52.17||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-12||52.17|33.15|<0.001
92286558|NCT00913627|184478494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.08|||<|0.001|TWO_SIDED|95.0|21.63|40.53||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-12||40.53|21.63|<0.001
92286559|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.13|||<|0.001|TWO_SIDED|95.0|6.45|9.8||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-4||9.80|6.45|<0.001
92286560|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.99|||<|0.001|TWO_SIDED|95.0|6.34|9.65||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-4||9.65|6.34|<0.001
92286561|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.11|||<|0.001|TWO_SIDED|95.0|4.46|7.75||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-4||7.75|4.46|<0.001
92286562|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.68|||<|0.001|TWO_SIDED|95.0|9.02|14.34||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 4-8||14.34|9.02|<0.001
92286563|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.64|||<|0.001|TWO_SIDED|95.0|9.01|14.27||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 4-8||14.27|9.01|<0.001
92286564|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.38|||<|0.001|TWO_SIDED|95.0|5.76|11.0||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 4-8||11.00|5.76|<0.001
92286565|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.84|||<|0.001|TWO_SIDED|95.0|6.93|12.75||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 8-12||12.75|6.93|<0.001
92286566|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.59|||<|0.001|TWO_SIDED|95.0|7.71|13.46||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 8-12||13.46|7.71|<0.001
92286567|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.73|||<|0.001|TWO_SIDED|95.0|4.87|10.59||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 8-12||10.59|4.87|<0.001
92286568|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.93|||<|0.001|TWO_SIDED|95.0|19.24|30.61||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-12||30.61|19.24|<0.001
92286569|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.66|||<|0.001|TWO_SIDED|95.0|20.03|31.28||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-12||31.28|20.03|<0.001
92286570|NCT00913627|184478495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.78|||<|0.001|TWO_SIDED|95.0|13.19|24.38||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-12||24.38|13.19|<0.001
92286571|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.31||||0.08|TWO_SIDED|95.0|1.26|25.36||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||15 minutes||25.36|1.26|0.080
92286572|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|16.39||||0.043|TWO_SIDED|95.0|3.73|29.04||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||15 minutes||29.04|3.73|0.043
92286573|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|5.39||||0.354|TWO_SIDED|95.0|-4.62|15.4||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||15 minutes||15.40|-4.62|0.354
92286574|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|48.65|||<|0.001|TWO_SIDED|95.0|33.34|63.96||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||63.96|33.34|<0.001
92286575|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.94|||<|0.001|TWO_SIDED|95.0|37.15|66.73||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||66.73|37.15|<0.001
92286576|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|36.8|||<|0.001|TWO_SIDED|95.0|22.62|50.98||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||50.98|22.62|<0.001
92286577|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|57.39|||<|0.001|TWO_SIDED|95.0|41.2|73.57||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||73.57|41.20|<0.001
92286578|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|66.67|||<|0.001|TWO_SIDED|95.0|51.56|81.78||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||81.78|51.56|<0.001
92286579|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.2|||<|0.001|TWO_SIDED|95.0|34.2|66.21||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||66.21|34.20|<0.001
92286580|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|67.64|||<|0.001|TWO_SIDED|95.0|51.36|83.93||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||83.93|51.36|<0.001
92286581|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|70.61|||<|0.001|TWO_SIDED|95.0|55.16|86.05||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||86.05|55.16|<0.001
92286582|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.85|||<|0.001|TWO_SIDED|95.0|34.32|69.38||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||69.38|34.32|<0.001
92286583|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||85.33|53.33|<0.001
92286584|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|74.21|||<|0.001|TWO_SIDED|95.0|59.29|89.14||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||89.14|59.29|<0.001
92286585|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||75.84|41.88|<0.001
92286586|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||85.33|53.33|<0.001
92286587|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||92.06|63.57|<0.001
92286588|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||75.84|41.88|<0.001
92286589|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||85.33|53.33|<0.001
92286590|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||92.06|63.57|<0.001
92286591|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||75.84|41.88|<0.001
92286592|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||85.33|53.33|<0.001
92286593|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||92.06|63.57|<0.001
92286594|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||75.84|41.88|<0.001
92286595|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||85.33|53.33|<0.001
92286596|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||92.06|63.57|<0.001
92286597|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||75.84|41.88|<0.001
92286598|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||85.33|53.33|<0.001
92286599|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||92.06|63.57|<0.001
92286600|NCT00913627|184478496|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||75.84|41.88|<0.001
92286601|NCT00913627|184478497|SUPERIORITY_OR_OTHER||Hazard Ratio, log|13.56|||<|0.001|TWO_SIDED|95.0|4.85|37.89||p-value adjusted for gender and categorical baseline pain severity|Proportional hazards regression|||||37.89|4.85|<0.001
92286602|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|2.03||||0.434|TWO_SIDED|95.0|-1.95|6.02||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||15 minutes||6.02|-1.95|0.434
92286603|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|0.0|||||TWO_SIDED|95.0|0.0|0.0|||Cochran-Mantel-Haenszel|||15 minutes||0.00|0.00|
92286604|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.78||||0.469|TWO_SIDED|95.0|-1.71|5.27||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||15 minutes||5.27|-1.71|0.469
92286605|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.13||||0.101|TWO_SIDED|95.0|1.33|16.93||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||16.93|1.33|0.101
92286606|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|10.73||||0.069|TWO_SIDED|95.0|2.54|18.91||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||18.91|2.54|0.069
92286607|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|3.59||||0.303|TWO_SIDED|95.0|-1.39|8.57||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||8.57|-1.39|0.303
92286608|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|24.58||||0.008|TWO_SIDED|95.0|10.68|38.47||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||38.47|10.68|0.008
92286609|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|25.31||||0.007|TWO_SIDED|95.0|11.35|39.28||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||39.28|11.35|0.007
92286610|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|10.62||||0.129|TWO_SIDED|95.0|-0.68|21.92||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||21.92|-0.68|0.129
92286611|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|47.72|||<|0.001|TWO_SIDED|95.0|32.25|63.19||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||63.19|32.25|<0.001
92286612|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|36.01|||<|0.001|TWO_SIDED|95.0|21.24|50.78||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||50.78|21.24|<0.001
92286613|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|27.87||||0.003|TWO_SIDED|95.0|13.93|41.81||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||41.81|13.93|0.003
92286614|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|61.01|||<|0.001|TWO_SIDED|95.0|46.12|75.89||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||75.89|46.12|<0.001
92286615|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|53.83|||<|0.001|TWO_SIDED|95.0|38.85|68.8||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||68.80|38.85|<0.001
92286616|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|46.74|||<|0.001|TWO_SIDED|95.0|31.89|61.58||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||61.58|31.89|<0.001
92286617|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|64.78|||<|0.001|TWO_SIDED|95.0|49.37|80.18||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||80.18|49.37|<0.001
92286618|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|64.8|||<|0.001|TWO_SIDED|95.0|50.01|79.59||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||79.59|50.01|<0.001
92286619|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.19|||<|0.001|TWO_SIDED|95.0|34.27|66.11||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||66.11|34.27|<0.001
92286620|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|68.59|||<|0.001|TWO_SIDED|95.0|52.81|84.38||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||84.38|52.81|<0.001
92286621|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|72.16|||<|0.001|TWO_SIDED|95.0|57.05|87.26||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||87.26|57.05|<0.001
92286622|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|53.47|||<|0.001|TWO_SIDED|95.0|36.57|70.37||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||70.37|36.57|<0.001
92286623|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|72.66|||<|0.001|TWO_SIDED|95.0|57.48|87.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||87.84|57.48|<0.001
92286624|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|79.36|||<|0.001|TWO_SIDED|95.0|65.68|93.05||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||93.05|65.68|<0.001
92286625|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|57.03|||<|0.001|TWO_SIDED|95.0|40.46|73.6||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||73.60|40.46|<0.001
92286626|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|72.66|||<|0.001|TWO_SIDED|95.0|57.48|87.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||87.84|57.48|<0.001
92286627|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|81.2|||<|0.001|TWO_SIDED|95.0|67.91|94.49||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||94.49|67.91|<0.001
92286628|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.84|||<|0.001|TWO_SIDED|95.0|42.34|75.35||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||75.35|42.34|<0.001
92286629|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||85.33|53.33|<0.001
92286630|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||92.06|63.57|<0.001
92286631|NCT00913627|184478498|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||75.84|41.88|<0.001
92286632|NCT00913627|184478499|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.93|||<|0.001|TWO_SIDED|95.0|0.85|1.01||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||1.01|0.85|<0.001
92286633|NCT00913627|184478499|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.95|||<|0.001|TWO_SIDED|95.0|0.88|1.02||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||1.02|0.88|<0.001
92286634|NCT00913627|184478499|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.84|||<|0.001|TWO_SIDED|95.0|0.7|0.98||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||0.98|0.70|<0.001
92182137|NCT04762277|184263112|OTHER||Risk Difference (RD)|-0.091|||||TWO_SIDED|95.0|-0.331|0.089|||||Risk Difference was calculated as: Spesolimab - Placebo. 95% Confidence Interval (CI) for treatment difference was calculated by Chan and Zhang method.|The difference in the proportion of patients with a response between Spesolimab and placebo was analysed using a logistic regression model. The model included treatment and stratification factor (tumor necrosis factor inhibitor (TNFi)-naive population versus TNFi-failure population) as two categorical variables.||0.089|-0.331|
92182138|NCT04762277|184263113|OTHER||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-4.4|4.3|||||Difference of Least Squares Means was calculated as: Spesolimab-Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||4.3|-4.4|
92182139|NCT04762277|184263114|OTHER||Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-9.5|6.9|||||Difference of Least Squares Means was calculated as: Spesolimab-Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||6.9|-9.5|
92182140|NCT00768716|184263142|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
92182141|NCT00768716|184263143|OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
92182142|NCT00768716|184263144|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
92182143|NCT00768716|184263146|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
92182144|NCT00768716|184263147|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
92182145|NCT00768716|184263148|OTHER|||||||0.003|||||||ANOVA|||||||0.003
92182146|NCT05643885|184263151|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||||||<0.0001
92286635|NCT00913627|184478500|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.93|||<|0.001|TWO_SIDED|95.0|0.85|1.01||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||1.01|0.85|<0.001
92286636|NCT00913627|184478500|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.96|||<|0.001|TWO_SIDED|95.0|0.91|1.01||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||1.01|0.91|<0.001
92286637|NCT00913627|184478500|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.89|||<|0.001|TWO_SIDED|95.0|0.79|0.99||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||0.99|0.79|<0.001
92286638|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.008|TWO_SIDED|95.0|0.06|0.38||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.38|0.06|0.008
92286639|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.007|TWO_SIDED|95.0|0.06|0.38||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.38|0.06|0.007
92286640|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.024|TWO_SIDED|95.0|0.02|0.34||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.34|0.02|0.024
92286641|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51|||<|0.001|TWO_SIDED|95.0|0.24|0.78||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||0.78|0.24|<0.001
92286642|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47|||<|0.001|TWO_SIDED|95.0|0.2|0.73||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||0.73|0.20|<0.001
92286643|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.002|TWO_SIDED|95.0|0.16|0.68||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||0.68|0.16|0.002
92286644|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|||<|0.001|TWO_SIDED|95.0|0.52|1.17||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||1.17|0.52|<0.001
92286645|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79|||<|0.001|TWO_SIDED|95.0|0.47|1.11||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||1.11|0.47|<0.001
92286646|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62|||<|0.001|TWO_SIDED|95.0|0.3|0.94||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||0.94|0.30|<0.001
92286647|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01|||<|0.001|TWO_SIDED|95.0|0.65|1.37||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||1.37|0.65|<0.001
92286648|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09|||<|0.001|TWO_SIDED|95.0|0.73|1.44||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||1.44|0.73|<0.001
92286649|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.54|1.25||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||1.25|0.54|<0.001
92286650|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|||<|0.001|TWO_SIDED|95.0|0.9|1.63||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||1.63|0.90|<0.001
92286651|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.33|||<|0.001|TWO_SIDED|95.0|0.97|1.69||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||1.69|0.97|<0.001
92286652|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||<|0.001|TWO_SIDED|95.0|0.74|1.45||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||1.45|0.74|<0.001
92286653|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.45|||<|0.001|TWO_SIDED|95.0|1.09|1.82||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||1.82|1.09|<0.001
92286654|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46|||<|0.001|TWO_SIDED|95.0|1.1|1.82||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||1.82|1.10|<0.001
92286655|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03|||<|0.001|TWO_SIDED|95.0|0.67|1.38||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||1.38|0.67|<0.001
92286656|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|||<|0.001|TWO_SIDED|95.0|1.26|2.0||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||2.00|1.26|<0.001
92286657|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.61|||<|0.001|TWO_SIDED|95.0|1.25|1.98||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||1.98|1.25|<0.001
92286658|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21|||<|0.001|TWO_SIDED|95.0|0.85|1.57||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||1.57|0.85|<0.001
92286659|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.71|||<|0.001|TWO_SIDED|95.0|1.33|2.08||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||2.08|1.33|<0.001
92286660|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||<|0.001|TWO_SIDED|95.0|1.23|1.97||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||1.97|1.23|<0.001
92264604|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|0.377||0.1074|TWO_SIDED|95.0|-0.14|1.37|||ANCOVA|||Comparison between Baseline value and Day 29 value for CNV Size||1.37|-0.14|0.1074
92264605|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.85|STANDARD_ERROR_OF_MEAN|0.402||0.0403|TWO_SIDED|95.0|0.04|1.65|||ANCOVA|||Comparison between Baseline value and Day 29 value for CNV Size||1.65|0.04|0.0403
92264606|NCT00612456|184430761|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.594||0.249|TWO_SIDED|95.0|-0.5|1.88|||ANCOVA|||Comparison between Baseline value and Day 29 value for CNV Size||1.88|-0.50|0.2490
92264607|NCT01830621|184430786|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.337|TWO_SIDED|95.0|0.88|1.46|||Log Rank|||||1.46|0.88|0.337
92264608|NCT01830621|184430787|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.837|TWO_SIDED|95.0|0.76|1.26|||Log Rank|||||1.26|0.76|0.837
92264609|NCT01830621|184430788|SUPERIORITY||Odds Ratio (OR)|0.98||||0.955|TWO_SIDED|95.0|0.48|2.0|||Cochran-Mantel-Haenszel|||||2.00|0.48|0.955
92264610|NCT01830621|184430790|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
92264611|NCT03223649|184430799|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.035||0.005|TWO_SIDED|95.0|-0.17|-0.03||Unadjusted p-value|ANCOVA|Log-transformed value adjusted for: arcsine sqrt transformed % fat mass, pubertal stage (pre, early, or late), and basal analyte log transformed.||||-.03|-.17|0.005
92264612|NCT03223649|184430800|SUPERIORITY||Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.011||0.349|TWO_SIDED|95.0|-0.033|0.011||Unadjusted P-value|ANCOVA|Log-transformed value adjusted for: arcsine sqrt transformed % fat mass, pubertal stage (pre, early, or late), and basal analyte log transformed.||||0.011|-.033|0.349
92264613|NCT03223649|184430801|SUPERIORITY||Mean Difference (Final Values)|-0.043|STANDARD_ERROR_OF_MEAN|0.021||0.045|TWO_SIDED|95.0|-0.084|-0.002||Unadjusted p-value|ANCOVA|Log-transformed value adjusted for: arcsine sqrt transformed % fat mass, pubertal stage (pre, early, or late), and basal analyte log transformed.||||-.002|-.084|.045
92264614|NCT03223649|184430802|SUPERIORITY||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.016||0.226|TWO_SIDED|95.0|-0.051|0.013||Unadjusted p-value|ANCOVA|Log-transformed value adjusted for: arcsine sqrt transformed % fat mass, pubertal stage (pre, early, or late), and basal analyte log transformed.||||0.013|-0.051|0.226
92286661|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17|||<|0.001|TWO_SIDED|95.0|0.81|1.54||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||1.54|0.81|<0.001
92182147|NCT05643885|184263152|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||||||<0.0001
92182148|NCT05643885|184263153|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||||||<0.0001
92182149|NCT05643885|184263154|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||||||<0.0001
92264615|NCT03223649|184430803|SUPERIORITY||Mean Difference (Final Values)|-5.8|STANDARD_ERROR_OF_MEAN|0.545|<|0.001|TWO_SIDED|95.0|-6.884|-4.716|||t-test, 2 sided|||||-4.716|-6.884|<0.001
92264616|NCT03223649|184430804|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.116||0.39|TWO_SIDED|95.0|-0.33|0.13|||t-test, 2 sided|||||0.130|-0.330|0.39
92264617|NCT03223649|184430805|SUPERIORITY||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.046||0.648|TWO_SIDED|95.0|-0.071|0.114|||ANCOVA|Dependent variable in Kcal log transformed, comparison adjusted for: age(y), lean mass(kg), fat mass(kg)||||0.114|-0.071|0.648
92264618|NCT03223649|184430806|SUPERIORITY||Mean Difference (Final Values)|0.834|STANDARD_ERROR_OF_MEAN|1.354||0.539|TWO_SIDED|95.0|-1.857|3.525|||ANCOVA|Adjusted for age (years)||||3.525|-1.857|0.539
92264619|NCT03223649|184430807|SUPERIORITY||Mean Difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|1.766||0.55|TWO_SIDED|95.0|-4.57|2.45|||ANCOVA|Adjusted for age (years)||||2.45|-4.57|0.550
92264620|NCT03223649|184430808|SUPERIORITY||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.681||0.741|TWO_SIDED|95.0|-1.127|1.579|||ANCOVA|Adjusted for age (years)||||1.579|-1.127|0.741
92264621|NCT05664672|184430815|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|24.2|||<|0.0001|TWO_SIDED|95.0|15.9|37.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||37.0|15.9|<.0001
92264622|NCT05664672|184430815|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|25.3|||<|0.0001|TWO_SIDED|95.0|17.1|37.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||37.3|17.1|<.0001
92264623|NCT05664672|184430815|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|22.4|||<|0.0001|TWO_SIDED|95.0|14.9|33.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||33.7|14.9|<.0001
92264624|NCT05664672|184430815|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|16.5|||<|0.0001|TWO_SIDED|95.0|10.8|25.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||25.3|10.8|<.0001
92286662|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||<|0.001|TWO_SIDED|95.0|1.2|2.0||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||2.00|1.20|<0.001
92286663|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.58|||<|0.001|TWO_SIDED|95.0|1.19|1.98||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||1.98|1.19|<0.001
92286664|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|||<|0.001|TWO_SIDED|95.0|0.73|1.52||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||1.52|0.73|<0.001
92286665|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.49|||<|0.001|TWO_SIDED|95.0|1.08|1.9||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||1.90|1.08|<0.001
92286666|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.56|||<|0.001|TWO_SIDED|95.0|1.16|1.97||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||1.97|1.16|<0.001
92286667|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.13|||<|0.001|TWO_SIDED|95.0|0.72|1.53||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||1.53|0.72|<0.001
92286668|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.38|||<|0.001|TWO_SIDED|95.0|0.97|1.79||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||1.79|0.97|<0.001
92286669|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.55|||<|0.001|TWO_SIDED|95.0|1.14|1.95||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||1.95|1.14|<0.001
92286670|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|||<|0.001|TWO_SIDED|95.0|0.62|1.43||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||1.43|0.62|<0.001
92286671|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.35|||<|0.001|TWO_SIDED|95.0|0.93|1.77||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||1.77|0.93|<0.001
92286672|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|||<|0.001|TWO_SIDED|95.0|0.97|1.81||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||1.81|0.97|<0.001
92182150|NCT05643885|184263155|SUPERIORITY||||||=|0.2303|||||||Weighted t-test|||||||=0.2303
92182151|NCT05643885|184263156|SUPERIORITY||||||=|0.7403|||||||Weighted t-test|||||||=0.7403
92286673|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04|||<|0.001|TWO_SIDED|95.0|0.63|1.46||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||1.46|0.63|<0.001
92286674|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29|||<|0.001|TWO_SIDED|95.0|0.87|1.71||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||1.71|0.87|<0.001
92286675|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|||<|0.001|TWO_SIDED|95.0|0.97|1.81||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||1.81|0.97|<0.001
92286676|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.98|||<|0.001|TWO_SIDED|95.0|0.56|1.39||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||1.39|0.56|<0.001
92286677|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25|||<|0.001|TWO_SIDED|95.0|0.82|1.68||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||1.68|0.82|<0.001
92286678|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46|||<|0.001|TWO_SIDED|95.0|1.03|1.89||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||1.89|1.03|<0.001
92286679|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03|||<|0.001|TWO_SIDED|95.0|0.6|1.45||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||1.45|0.60|<0.001
92286680|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21|||<|0.001|TWO_SIDED|95.0|0.77|1.64||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||1.64|0.77|<0.001
92286681|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44|||<|0.001|TWO_SIDED|95.0|1.0|1.87||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||1.87|1.00|<0.001
92286682|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04|||<|0.001|TWO_SIDED|95.0|0.61|1.48||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||1.48|0.61|<0.001
92286683|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25|||<|0.001|TWO_SIDED|95.0|0.81|1.68||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||1.68|0.81|<0.001
92286684|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|||<|0.001|TWO_SIDED|95.0|0.96|1.82||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||1.82|0.96|<0.001
92286685|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|||<|0.001|TWO_SIDED|95.0|0.53|1.39||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||1.39|0.53|<0.001
92286686|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||<|0.001|TWO_SIDED|95.0|0.75|1.64||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||1.64|0.75|<0.001
92286687|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21|||<|0.001|TWO_SIDED|95.0|0.77|1.65||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||1.65|0.77|<0.001
92286688|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|||<|0.001|TWO_SIDED|95.0|0.49|1.36||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||1.36|0.49|<0.001
92286689|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07|||<|0.001|TWO_SIDED|95.0|0.6|1.53||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||1.53|0.60|<0.001
92286690|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|||<|0.001|TWO_SIDED|95.0|0.66|1.58||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||1.58|0.66|<0.001
92286691|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.87|||<|0.001|TWO_SIDED|95.0|0.42|1.33||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||1.33|0.42|<0.001
92286692|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06|||<|0.001|TWO_SIDED|95.0|0.61|1.51||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||1.51|0.61|<0.001
92286693|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03|||<|0.001|TWO_SIDED|95.0|0.58|1.48||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||1.48|0.58|<0.001
92286694|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|||<|0.001|TWO_SIDED|95.0|0.52|1.4||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||1.40|0.52|<0.001
92286695|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.001|TWO_SIDED|95.0|0.31|1.24||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||1.24|0.31|0.001
92286696|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|||<|0.001|TWO_SIDED|95.0|0.36|1.28||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||1.28|0.36|<0.001
92286697|NCT00913627|184478501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88|||<|0.001|TWO_SIDED|95.0|0.42|1.33||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||1.33|0.42|<0.001
92264625|NCT05664672|184430815|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|147.0||||0.1148|TWO_SIDED|95.0|93.7|230.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||230|93.7|0.1148
92264626|NCT05664672|184430815|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|153.0||||0.044|TWO_SIDED|95.0|101.0|233.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||233|101|0.0440
92264627|NCT05664672|184430815|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|136.0||||0.2422|TWO_SIDED|95.0|87.8|210.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||210|87.8|0.2422
92264628|NCT05664672|184430816|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|49.9||||0.0994|TWO_SIDED|95.0|22.7|110.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||110|22.7|0.0994
92264629|NCT05664672|184430816|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|65.8||||0.4162|TWO_SIDED|95.0|32.0|135.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||135|32.0|0.4162
92264630|NCT05664672|184430816|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|101.0||||1|TWO_SIDED|95.0|47.5|215.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||215|47.5|1.0000
92264631|NCT05664672|184430816|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|2.23|||<|0.0001|TWO_SIDED|95.0|1.01|4.94|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||4.94|1.01|<.0001
92264632|NCT05664672|184430816|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|2230.0|||<|0.0001|TWO_SIDED|95.0|965.0|5160.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||5160|965|<.0001
92264633|NCT05664672|184430816|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|2940.0|||<|0.0001|TWO_SIDED|95.0|1350.0|6400.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||6400|1350|<.0001
92182152|NCT05643885|184263157|SUPERIORITY||||||=|0.2414|||||||Weighted t-test|||||||=0.2414
92182153|NCT05643885|184263158|SUPERIORITY||||||=|0.2592|||||||Weighted t-test|||||||=0.2592
92286698|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.034|TWO_SIDED|95.0|0.02|0.57||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.57|0.02|0.034
92286699|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.111|TWO_SIDED|95.0|-0.05|0.49||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.49|-0.05|0.111
92286700|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.125|TWO_SIDED|95.0|-0.06|0.48||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.48|-0.06|0.125
92286701|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81|||<|0.001|TWO_SIDED|95.0|0.41|1.22||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||1.22|0.41|<0.001
92286702|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.003|TWO_SIDED|95.0|0.22|1.01||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||1.01|0.22|0.003
92286703|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.004|TWO_SIDED|95.0|0.19|0.98||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||0.98|0.19|0.004
92286704|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.41|||<|0.001|TWO_SIDED|95.0|0.91|1.91||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||1.91|0.91|<0.001
92286705|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24|||<|0.001|TWO_SIDED|95.0|0.75|1.74||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||1.74|0.75|<0.001
92286706|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.41|1.39||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||1.39|0.41|<0.001
92286707|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|||<|0.001|TWO_SIDED|95.0|1.11|2.16||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||2.16|1.11|<0.001
92286708|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.57|||<|0.001|TWO_SIDED|95.0|1.05|2.09||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||2.09|1.05|<0.001
92286709|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|||<|0.001|TWO_SIDED|95.0|0.75|1.78||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||1.78|0.75|<0.001
92182154|NCT05643885|184263159|SUPERIORITY||||||=|0.4837|||||||Weighted t-test|||||||=0.4837
92182155|NCT05643885|184263160|SUPERIORITY||||||=|0.1355|||||||Weighted t-test|||||||=0.1355
92286710|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.99|||<|0.001|TWO_SIDED|95.0|1.46|2.52||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||2.52|1.46|<0.001
92286711|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09|||<|0.001|TWO_SIDED|95.0|1.57|2.61||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||2.61|1.57|<0.001
92286712|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|||<|0.001|TWO_SIDED|95.0|1.16|2.2||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||2.20|1.16|<0.001
92286713|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.12|||<|0.001|TWO_SIDED|95.0|1.59|2.64||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||2.64|1.59|<0.001
92286714|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22|||<|0.001|TWO_SIDED|95.0|1.7|2.74||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||2.74|1.70|<0.001
92286715|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|||<|0.001|TWO_SIDED|95.0|1.18|2.21||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||2.21|1.18|<0.001
92286716|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||<|0.001|TWO_SIDED|95.0|1.98|3.01||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||3.01|1.98|<0.001
92182156|NCT05643885|184263161|SUPERIORITY||||||=|0.6066|||||||Weighted t-test|||||||=0.6066
92182157|NCT05643885|184263162|SUPERIORITY||||||=|0.3795|||||||Weighted t-test|||||||=0.3795
92182158|NCT05643885|184263163|SUPERIORITY||||||=|0.6618|||||||Weighted t-test|||||||=0.6618
92182159|NCT05643885|184263164|SUPERIORITY||||||=|0.2337|||||||Weighted t-test|||||||=0.2337
92182160|NCT05643885|184263165|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||Physician office visits||||<0.0001
92286717|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.48|||<|0.001|TWO_SIDED|95.0|1.97|2.99||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||2.99|1.97|<0.001
92286718|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.88|||<|0.001|TWO_SIDED|95.0|1.37|2.38||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||2.38|1.37|<0.001
92286719|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.54|||<|0.001|TWO_SIDED|95.0|2.01|3.07||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||3.07|2.01|<0.001
92286720|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.45|||<|0.001|TWO_SIDED|95.0|1.92|2.97||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||2.97|1.92|<0.001
92286721|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81|||<|0.001|TWO_SIDED|95.0|1.29|2.33||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||2.33|1.29|<0.001
92286722|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.47|||<|0.001|TWO_SIDED|95.0|1.92|3.03||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||3.03|1.92|<0.001
92286723|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.41|||<|0.001|TWO_SIDED|95.0|1.87|2.96||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||2.96|1.87|<0.001
92286724|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.71|||<|0.001|TWO_SIDED|95.0|1.16|2.25||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||2.25|1.16|<0.001
92286725|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.26|||<|0.001|TWO_SIDED|95.0|1.69|2.83||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||2.83|1.69|<0.001
92264634|NCT05664672|184430816|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|4530.0|||<|0.0001|TWO_SIDED|95.0|2020.0|10200.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||10200|2020|<.0001
92264635|NCT05664672|184430817|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|5.69|||<|0.0001|TWO_SIDED|95.0|3.29|9.87|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||9.87|3.29|<.0001
92264636|NCT05664672|184430817|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|8.08|||<|0.0001|TWO_SIDED|95.0|4.88|13.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||13.4|4.88|<.0001
92264637|NCT05664672|184430817|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|6.58|||<|0.0001|TWO_SIDED|95.0|3.88|11.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||11.2|3.88|<.0001
92264638|NCT05664672|184430817|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|6.03|||<|0.0001|TWO_SIDED|95.0|3.46|10.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||10.5|3.46|<.0001
92264639|NCT05664672|184430817|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|94.4||||0.9972|TWO_SIDED|95.0|52.7|169.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||169|52.7|0.9972
92264640|NCT05664672|184430817|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|134.0||||0.4655|TWO_SIDED|95.0|77.9|230.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||230|77.9|0.4655
92264641|NCT05664672|184430817|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|109.0||||0.9851|TWO_SIDED|95.0|62.1|192.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||192|62.1|0.9851
92286726|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.37|||<|0.001|TWO_SIDED|95.0|1.8|2.93||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||2.93|1.80|<0.001
92182161|NCT05643885|184263165|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||ER only visits||||<0.0001
92264642|NCT05664672|184430818|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.7|||<|0.0001|TWO_SIDED|95.0|9.72|19.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||19.2|9.72|<.0001
92286727|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67|||<|0.001|TWO_SIDED|95.0|1.11|2.23||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||2.23|1.11|<0.001
92182162|NCT05643885|184263165|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||laboratory or pathology visits||||<0.0001
92182163|NCT05643885|184263165|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||Radiology||||<0.0001
92286728|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22|||<|0.001|TWO_SIDED|95.0|1.66|2.79||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||2.79|1.66|<0.001
92286729|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|||<|0.001|TWO_SIDED|95.0|1.74|2.85||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||2.85|1.74|<0.001
92286730|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.57|||<|0.001|TWO_SIDED|95.0|1.02|2.13||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||2.13|1.02|<0.001
92264643|NCT05664672|184430818|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|16.6|||<|0.0001|TWO_SIDED|95.0|12.1|22.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||22.6|12.1|<.0001
92264644|NCT05664672|184430818|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.4|||<|0.0001|TWO_SIDED|95.0|9.68|18.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||18.6|9.68|<.0001
92264645|NCT05664672|184430818|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|15.7|||<|0.0001|TWO_SIDED|95.0|11.2|22.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||22.2|11.2|<.0001
92264646|NCT05664672|184430818|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|86.8||||0.7167|TWO_SIDED|95.0|60.6|124.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||124|60.6|0.7167
92264647|NCT05664672|184430818|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|105.0||||0.9864|TWO_SIDED|95.0|75.3|147.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||147|75.3|0.9864
92264648|NCT05664672|184430818|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|85.1||||0.5911|TWO_SIDED|95.0|60.1|120.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||120|60.1|0.5911
92264649|NCT05664672|184430819|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|29.6|||<|0.0001|TWO_SIDED|95.0|21.8|40.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||40.0|21.8|<.0001
92264650|NCT05664672|184430819|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|28.3|||<|0.0001|TWO_SIDED|95.0|21.5|37.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||37.4|21.5|<.0001
92264651|NCT05664672|184430819|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|33.1|||<|0.0001|TWO_SIDED|95.0|24.8|44.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||44.2|24.8|<.0001
92182164|NCT05643885|184263165|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||Surgical services||||<0.0001
92264652|NCT05664672|184430819|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|37.5|||<|0.0001|TWO_SIDED|95.0|27.7|50.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||50.9|27.7|<.0001
92264653|NCT05664672|184430819|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|78.8||||0.195|TWO_SIDED|95.0|57.3|108.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||108|57.3|0.1950
92264654|NCT05664672|184430819|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|75.5||||0.0699|TWO_SIDED|95.0|56.1|102.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||102|56.1|0.0699
92264655|NCT05664672|184430819|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|88.3||||0.7041|TWO_SIDED|95.0|64.7|120.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||120|64.7|0.7041
92264656|NCT05664672|184430820|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.3|||<|0.0001|TWO_SIDED|95.0|9.57|18.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||18.4|9.57|<.0001
92264657|NCT05664672|184430820|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.3|||<|0.0001|TWO_SIDED|95.0|9.84|17.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||17.9|9.84|<.0001
92264658|NCT05664672|184430820|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.6|||<|0.0001|TWO_SIDED|95.0|9.93|18.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||18.6|9.93|<.0001
92264659|NCT05664672|184430820|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|9.28|||<|0.0001|TWO_SIDED|95.0|6.67|12.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||12.9|6.67|<.0001
92264660|NCT05664672|184430820|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|143.0||||0.0404|TWO_SIDED|95.0|101.0|202.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||202|101|0.0404
92264661|NCT05664672|184430820|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|143.0||||0.0243|TWO_SIDED|95.0|104.0|198.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||198|104|0.0243
92182165|NCT05643885|184263165|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||Ancillary/other services||||<0.0001
92182166|NCT05643885|184263166|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||||||<0.0001
92182167|NCT05643885|184263167|SUPERIORITY||||||=|0.729|||||||Weighted t-test|||||||=0.7290
92264662|NCT05664672|184430820|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|146.0||||0.0215|TWO_SIDED|95.0|105.0|205.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||205|105|0.0215
92264663|NCT05664672|184430821|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|5.37|||<|0.0001|TWO_SIDED|95.0|3.69|7.8|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||7.80|3.69|<.0001
92264664|NCT05664672|184430821|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|5.65|||<|0.0001|TWO_SIDED|95.0|4.01|7.96|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||7.96|4.01|<.0001
92182168|NCT05643885|184263168|SUPERIORITY||||||=|0.3686|||||||Weighted t-test|||Physician office visits||||=0.3686
92182169|NCT05643885|184263168|SUPERIORITY||||||=|0.2747|||||||Weighted t-test|||ER only visits||||=0.2747
92182170|NCT05643885|184263168|SUPERIORITY||||||=|0.1049|||||||Weighted t-test|||Laboratory or pathology visits||||=0.1049
92286731|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.19|||<|0.001|TWO_SIDED|95.0|1.59|2.78||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||2.78|1.59|<0.001
92286732|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.12|||<|0.001|TWO_SIDED|95.0|1.53|2.7||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||2.70|1.53|<0.001
92286733|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|||<|0.001|TWO_SIDED|95.0|1.04|2.21||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||2.21|1.04|<0.001
92286734|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.91|||<|0.001|TWO_SIDED|95.0|1.3|2.52||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||2.52|1.30|<0.001
92286735|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.12|||<|0.001|TWO_SIDED|95.0|1.52|2.72||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||2.72|1.52|<0.001
92286736|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51|||<|0.001|TWO_SIDED|95.0|0.91|2.11||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||2.11|0.91|<0.001
92286737|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.94|||<|0.001|TWO_SIDED|95.0|1.34|2.55||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||2.55|1.34|<0.001
92286738|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.19|||<|0.001|TWO_SIDED|95.0|1.59|2.79||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||2.79|1.59|<0.001
92286739|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.56|||<|0.001|TWO_SIDED|95.0|0.97|2.16||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||2.16|0.97|<0.001
92286740|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|||<|0.001|TWO_SIDED|95.0|1.28|2.52||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||2.52|1.28|<0.001
92286741|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.13|||<|0.001|TWO_SIDED|95.0|1.52|2.75||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||2.75|1.52|<0.001
92286742|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59|||<|0.001|TWO_SIDED|95.0|0.98|2.2||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||2.20|0.98|<0.001
92286743|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|||<|0.001|TWO_SIDED|95.0|1.26|2.54||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||2.54|1.26|<0.001
92286744|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03|||<|0.001|TWO_SIDED|95.0|1.39|2.66||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||2.66|1.39|<0.001
92286745|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44|||<|0.001|TWO_SIDED|95.0|0.81|2.07||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||2.07|0.81|<0.001
92286746|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.83|||<|0.001|TWO_SIDED|95.0|1.17|2.49||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||2.49|1.17|<0.001
92286747|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.78|||<|0.001|TWO_SIDED|95.0|1.13|2.43||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||2.43|1.13|<0.001
92182171|NCT05643885|184263168|SUPERIORITY||||||=|0.8425|||||||Weighted t-test|||Radiology||||=0.8425
92286748|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.42|||<|0.001|TWO_SIDED|95.0|0.78|2.07||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||2.07|0.78|<0.001
92286749|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.64|||<|0.001|TWO_SIDED|95.0|0.95|2.32||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||2.32|0.95|<0.001
92286750|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.61|||<|0.001|TWO_SIDED|95.0|0.94|2.29||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||2.29|0.94|<0.001
92286751|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.38|||<|0.001|TWO_SIDED|95.0|0.71|2.06||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||2.06|0.71|<0.001
92286752|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.58|||<|0.001|TWO_SIDED|95.0|0.88|2.27||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||2.27|0.88|<0.001
92286753|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.42|||<|0.001|TWO_SIDED|95.0|0.73|2.1||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||2.10|0.73|<0.001
92286754|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|||<|0.001|TWO_SIDED|95.0|0.72|2.08||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||2.08|0.72|<0.001
92286755|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25|||<|0.001|TWO_SIDED|95.0|0.53|1.96||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||1.96|0.53|<0.001
92286756|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08||||0.003|TWO_SIDED|95.0|0.38|1.79||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||1.79|0.38|0.003
92286757|NCT00913627|184478502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32|||<|0.001|TWO_SIDED|95.0|0.61|2.02||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||2.02|0.61|<0.001
92286758|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.011|TWO_SIDED|95.0|0.12|0.91||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.91|0.12|0.011
92286759|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.028|TWO_SIDED|95.0|0.05|0.83||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.83|0.05|0.028
92286760|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.048|TWO_SIDED|95.0|0.0|0.78||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.78|0.00|0.048
92286761|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32|||<|0.001|TWO_SIDED|95.0|0.69|1.96||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||1.96|0.69|<0.001
92286762|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08|||<|0.001|TWO_SIDED|95.0|0.45|1.71||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||1.71|0.45|<0.001
92286763|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||0.002|TWO_SIDED|95.0|0.38|1.63||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||1.63|0.38|0.002
92286764|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.26|||<|0.001|TWO_SIDED|95.0|1.46|3.06||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||3.06|1.46|<0.001
92286765|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03|||<|0.001|TWO_SIDED|95.0|1.24|2.82||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||2.82|1.24|<0.001
92286766|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.52|||<|0.001|TWO_SIDED|95.0|0.74|2.31||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||2.31|0.74|<0.001
92286767|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.64|||<|0.001|TWO_SIDED|95.0|1.78|3.5||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||3.50|1.78|<0.001
92286768|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.66|||<|0.001|TWO_SIDED|95.0|1.81|3.51||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||3.51|1.81|<0.001
92286769|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.16|||<|0.001|TWO_SIDED|95.0|1.32|3.0||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||3.00|1.32|<0.001
92286770|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.26|||<|0.001|TWO_SIDED|95.0|2.39|4.12||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||4.12|2.39|<0.001
92182172|NCT05643885|184263168|SUPERIORITY||||||=|0.9755|||||||Weighted t-test|||Surgical services||||=0.9755
92182173|NCT05643885|184263168|SUPERIORITY||||||=|0.0582|||||||Weighted t-test|||Ancillary or other services||||=0.0582
92286771|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.42|||<|0.001|TWO_SIDED|95.0|2.57|4.28||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||4.28|2.57|<0.001
92286772|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.77|||<|0.001|TWO_SIDED|95.0|1.92|3.63||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||3.63|1.92|<0.001
92286773|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.57|||<|0.001|TWO_SIDED|95.0|2.7|4.44||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||4.44|2.70|<0.001
92286774|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.68|||<|0.001|TWO_SIDED|95.0|2.82|4.53||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||4.53|2.82|<0.001
92286775|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.72|||<|0.001|TWO_SIDED|95.0|1.87|3.57||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||3.57|1.87|<0.001
92286776|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.13|||<|0.001|TWO_SIDED|95.0|3.27|4.99||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||4.99|3.27|<0.001
92286777|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.09|||<|0.001|TWO_SIDED|95.0|3.24|4.95||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||4.95|3.24|<0.001
92286778|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.09|||<|0.001|TWO_SIDED|95.0|2.24|3.93||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||3.93|2.24|<0.001
92286779|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.25|||<|0.001|TWO_SIDED|95.0|3.36|5.13||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||5.13|3.36|<0.001
92286780|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.04|||<|0.001|TWO_SIDED|95.0|3.17|4.92||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||4.92|3.17|<0.001
92286781|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.98|||<|0.001|TWO_SIDED|95.0|2.11|3.85||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||3.85|2.11|<0.001
92286782|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.07|||<|0.001|TWO_SIDED|95.0|3.14|5.01||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||5.01|3.14|<0.001
92286783|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|||<|0.001|TWO_SIDED|95.0|3.07|4.92||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||4.92|3.07|<0.001
92286784|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.83|||<|0.001|TWO_SIDED|95.0|1.91|3.75||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||3.75|1.91|<0.001
92182174|NCT05643885|184263169|SUPERIORITY||||||=|0.9796|||||||Weighted t-test|||||||=0.9796
92286785|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75|||<|0.001|TWO_SIDED|95.0|2.78|4.71||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||4.71|2.78|<0.001
92286786|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.93|||<|0.001|TWO_SIDED|95.0|2.98|4.89||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||4.89|2.98|<0.001
92264665|NCT05664672|184430821|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|5.61|||<|0.0001|TWO_SIDED|95.0|3.92|8.03|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||8.03|3.92|<.0001
92264666|NCT05664672|184430821|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|6.09|||<|0.0001|TWO_SIDED|95.0|4.17|8.89|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||8.89|4.17|<.0001
92264667|NCT05664672|184430821|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|88.1||||0.8335|TWO_SIDED|95.0|59.4|131.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||131|59.4|0.8335
92264668|NCT05664672|184430821|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|92.9||||0.9622|TWO_SIDED|95.0|64.2|134.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||134|64.2|0.9622
92264669|NCT05664672|184430821|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|92.1||||0.9531|TWO_SIDED|95.0|62.8|135.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||135|62.8|0.9531
92264670|NCT05664672|184430822|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|18.0|||<|0.0001|TWO_SIDED|95.0|14.4|22.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||22.3|14.4|<.0001
92264671|NCT05664672|184430822|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|18.0|||<|0.0001|TWO_SIDED|95.0|14.8|22.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||22.1|14.8|<.0001
92264672|NCT05664672|184430822|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|15.8|||<|0.0001|TWO_SIDED|95.0|12.8|19.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||19.4|12.8|<.0001
92264673|NCT05664672|184430822|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|18.2|||<|0.0001|TWO_SIDED|95.0|14.6|22.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||22.7|14.6|<.0001
92264674|NCT05664672|184430822|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|98.4||||0.9993|TWO_SIDED|95.0|78.2|124.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||124|78.2|0.9993
92264675|NCT05664672|184430822|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|98.9||||0.9998|TWO_SIDED|95.0|79.7|123.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||123|79.7|0.9998
92264676|NCT05664672|184430822|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|86.4||||0.3019|TWO_SIDED|95.0|69.1|108.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||108|69.1|0.3019
92182175|NCT05643885|184263170|SUPERIORITY||||||=|0.0379|||||||Weighted t-test|||Physician office visits||||=0.0379
92264677|NCT05664672|184430823|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|18.3|||<|0.0001|TWO_SIDED|95.0|13.2|25.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||25.3|13.2|<.0001
92286787|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|||<|0.001|TWO_SIDED|95.0|1.85|3.75||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||3.75|1.85|<0.001
92286788|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.61|||<|0.001|TWO_SIDED|95.0|2.65|4.56||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||4.56|2.65|<0.001
92286789|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.84|||<|0.001|TWO_SIDED|95.0|2.89|4.79||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||4.79|2.89|<0.001
92286790|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6|||<|0.001|TWO_SIDED|95.0|1.65|3.54||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||3.54|1.65|<0.001
92286791|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.54|||<|0.001|TWO_SIDED|95.0|2.54|4.53||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||4.53|2.54|<0.001
92286792|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.51|||<|0.001|TWO_SIDED|95.0|2.52|4.49||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||4.49|2.52|<0.001
92286793|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.67|||<|0.001|TWO_SIDED|95.0|1.69|3.65||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||3.65|1.69|<0.001
92286794|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2|||<|0.001|TWO_SIDED|95.0|2.19|4.21||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||4.21|2.19|<0.001
92182176|NCT05643885|184263170|SUPERIORITY||||||=|0.9034|||||||Weighted t-test|||ER only visits||||=0.9034
92286795|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.51|||<|0.001|TWO_SIDED|95.0|2.51|4.51||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||4.51|2.51|<0.001
92286796|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.49|||<|0.001|TWO_SIDED|95.0|1.49|3.48||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||3.48|1.49|<0.001
92286797|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.19|||<|0.001|TWO_SIDED|95.0|2.17|4.21||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||4.21|2.17|<0.001
92286798|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65|||<|0.001|TWO_SIDED|95.0|2.64|4.66||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||4.66|2.64|<0.001
92286799|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.59|||<|0.001|TWO_SIDED|95.0|1.58|3.6||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||3.60|1.58|<0.001
92286800|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|||<|0.001|TWO_SIDED|95.0|2.06|4.15||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||4.15|2.06|<0.001
92286801|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.57|||<|0.001|TWO_SIDED|95.0|2.53|4.61||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||4.61|2.53|<0.001
92286802|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.64|||<|0.001|TWO_SIDED|95.0|1.61|3.67||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||3.67|1.61|<0.001
92286803|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.15|||<|0.001|TWO_SIDED|95.0|2.09|4.21||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||4.21|2.09|<0.001
92286804|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.41|||<|0.001|TWO_SIDED|95.0|2.36|4.46||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||4.46|2.36|<0.001
92286805|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|||<|0.001|TWO_SIDED|95.0|1.36|3.44||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||3.44|1.36|<0.001
92286806|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.03|||<|0.001|TWO_SIDED|95.0|1.94|4.12||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||4.12|1.94|<0.001
92286807|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.99|||<|0.001|TWO_SIDED|95.0|1.91|4.07||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||4.07|1.91|<0.001
92182177|NCT05643885|184263170|SUPERIORITY||||||=|0.5452|||||||Weighted t-test|||Laboratory or pathology visits||||=0.5452
92182178|NCT05643885|184263170|SUPERIORITY||||||=|0.1644|||||||Weighted t-test|||Radiology||||=0.1644
92182179|NCT05643885|184263170|SUPERIORITY||||||=|0.065|||||||Weighted t-test|||Surgical services||||=0.0650
92286808|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.35|||<|0.001|TWO_SIDED|95.0|1.28|3.42||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||3.42|1.28|<0.001
92286809|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|||<|0.001|TWO_SIDED|95.0|1.57|3.83||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||3.83|1.57|<0.001
92286810|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.74|||<|0.001|TWO_SIDED|95.0|1.62|3.85||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||3.85|1.62|<0.001
92286811|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.26|||<|0.001|TWO_SIDED|95.0|1.14|3.37||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||3.37|1.14|<0.001
92286812|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.64|||<|0.001|TWO_SIDED|95.0|1.51|3.76||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||3.76|1.51|<0.001
92286813|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.45|||<|0.001|TWO_SIDED|95.0|1.33|3.56||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||3.56|1.33|<0.001
92286814|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.36|||<|0.001|TWO_SIDED|95.0|1.25|3.47||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||3.47|1.25|<0.001
92286815|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.02|||<|0.001|TWO_SIDED|95.0|0.86|3.19||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||3.19|0.86|<0.001
92286816|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9||||0.001|TWO_SIDED|95.0|0.75|3.05||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||3.05|0.75|0.001
92286817|NCT00913627|184478503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.19|||<|0.001|TWO_SIDED|95.0|1.05|3.34||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||3.34|1.05|<0.001
92286818|NCT00913627|184478504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.42|||<|0.001|TWO_SIDED|95.0|1.94|2.89||p-value adjusted for baseline PSR and gender|ANOVA|||||2.89|1.94|<0.001
92286819|NCT00913627|184478504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.39|||<|0.001|TWO_SIDED|95.0|1.92|2.86||p-value adjusted for baseline PSR and gender|ANOVA|||||2.86|1.92|<0.001
92286820|NCT00913627|184478504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.05|||<|0.001|TWO_SIDED|95.0|1.58|2.52||p-value adjusted for baseline PSR and gender|ANOVA|||||2.52|1.58|<0.001
92182180|NCT05643885|184263170|SUPERIORITY||||||=|0.3866|||||||Weighted t-test|||Ancillary or other services||||=0.3866
92182181|NCT05643885|184263171|SUPERIORITY||||||=|0.566|||||||Weighted t-test|||||||=0.5660
92182182|NCT05643885|184263172|SUPERIORITY||||||=|0.0425|||||||Weighted t-test|||Physician office visits||||=0.0425
92286821|NCT00095212|184478521|SUPERIORITY_OR_OTHER|||||||0.04|||||||longitudinal linear mixed effects model|||||||0.04
92286822|NCT00095212|184478522|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Longitudinal linear mixed effects model|||The study was powered at 80% to detect a significant treatment difference of 2.7 kg in lean body mass between the two groups with 25 randomized patients and a 15% assumed dropout rate, using a two sided 5.0 percent significance level.||||0.02
92286823|NCT00095212|184478523|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Longitudinal mixed methods model|||The study was powered at 80% to detect a significant treatment difference of 2.7 kg in lean body mass between the two groups with 25 randomized patients and a 15% assumed dropout rate, using a two sided 5.0 percent significance level.||||0.02
92286824|NCT00095212|184478524|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Longitudinal mixed methods model|||The study was powered at 80% to detect a significant treatment difference of 2.7 kg in lean body mass between the two groups with 25 randomized patients and a 15% assumed dropout rate, using a two sided 5.0 percent significance level.||||0.01
92286825|NCT00095212|184478525|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Chi-squared|||||||0.16
92286826|NCT00095212|184478526|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Chi-squared|||||||0.29
92286827|NCT00095212|184478527|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||Chi-squared|||||||0.75
92286828|NCT00095212|184478528|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Chi-squared|||||||0.14
92286829|NCT00095212|184478529|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||t-test, 2 sided|||||||0.26
92286830|NCT00095212|184478530|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||t-test, 2 sided|||||||0.22
92286831|NCT00095212|184478531|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||t-test, 2 sided|||||||0.94
92286832|NCT00017953|184478532|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.51|TWO_SIDED|95.0|0.83|1.09|||Regression, Cox|||||1.09|0.83|0.51
92286833|NCT00017953|184478533|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.42|TWO_SIDED|95.0|0.79|1.1|||Regression, Cox|||||1.10|0.79|0.42
92286834|NCT00017953|184478534|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.23|TWO_SIDED|95.0|0.82|1.05|||Regression, Cox|||||1.05|0.82|0.23
92286835|NCT00017953|184478535|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.29|TWO_SIDED|95.0|0.84|1.05|||Regression, Cox|||||1.05|0.84|0.29
92286836|NCT02374853|184478536|SUPERIORITY|||||||0.23|||||||Fisher Exact|||||||0.23
92286837|NCT02374853|184478537|SUPERIORITY|||||||0.25|||||||Fisher Exact|||||||0.25
92286838|NCT02374853|184478538|SUPERIORITY|||||||0.054|||||||Wilcoxon (Mann-Whitney)|||||||.054
92286839|NCT00762307|184478550|OTHER||Mean Difference (Net)|18.7|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|14.9|22.4||||||||22.4|14.9|
92286840|NCT00762307|184478552|OTHER||sucess percentage|91.9|STANDARD_ERROR_OF_MEAN|5.2|||ONE_SIDED|||||||||||||
92264678|NCT05664672|184430823|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|23.7|||<|0.0001|TWO_SIDED|95.0|17.6|31.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||31.9|17.6|<.0001
92264679|NCT05664672|184430823|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|19.3|||<|0.0001|TWO_SIDED|95.0|14.2|26.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||26.4|14.2|<.0001
92264680|NCT05664672|184430823|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|24.0|||<|0.0001|TWO_SIDED|95.0|17.3|33.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||33.3|17.3|<.0001
92264681|NCT05664672|184430823|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|76.1||||0.153|TWO_SIDED|95.0|54.0|107.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||107|54.0|0.1530
92264682|NCT05664672|184430823|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|98.6||||0.9999|TWO_SIDED|95.0|71.7|136.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||136|71.7|0.9999
92264683|NCT05664672|184430823|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|80.5||||0.3025|TWO_SIDED|95.0|57.8|112.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||112|57.8|0.3025
92264684|NCT05664672|184430824|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|22.7|||<|0.0001|TWO_SIDED|95.0|17.0|30.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||30.4|17.0|<.0001
92264685|NCT05664672|184430824|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|28.1|||<|0.0001|TWO_SIDED|95.0|21.6|36.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||36.6|21.6|<.0001
92264686|NCT05664672|184430824|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|27.5|||<|0.0001|TWO_SIDED|95.0|20.8|36.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||36.2|20.8|<.0001
92264687|NCT05664672|184430824|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|28.7|||<|0.0001|TWO_SIDED|95.0|21.4|38.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||38.4|21.4|<.0001
92264688|NCT05664672|184430824|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|79.4||||0.1843|TWO_SIDED|95.0|58.6|108.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||108|58.6|0.1843
92264689|NCT05664672|184430824|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|98.1||||0.9994|TWO_SIDED|95.0|73.9|130.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||130|73.9|0.9994
92264690|NCT05664672|184430824|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|95.9||||0.9891|TWO_SIDED|95.0|71.4|129.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||129|71.4|0.9891
92286841|NCT00837486|184478582|SUPERIORITY_OR_OTHER||||||=|0.53||||||"one-sided P-value~per protocol responder rates: Active Group = 20.0%, Control Group = 14.3%"|Fisher Exact|||The study originally required a sample size of 208 subjects in order to have 90% power to detect a statistically significant difference between the responder rate of the active and control groups. With this 30-subject cohort, and only 29 subjects completing the blinded-treatment phase per protocol, the comparison of response rates was not adequately powered. The P-value is presented only to describe the outcomes of the two groups.||||=0.53
92286842|NCT01754597|184478620|SUPERIORITY|||||||0.714|||||||Wilcoxon (Mann-Whitney)|||||||0.714
92286843|NCT01754597|184478621|SUPERIORITY|||||||0.492|||||||Wilcoxon (Mann-Whitney)|||||||0.492
92286844|NCT01754597|184478622|SUPERIORITY|||||||0.183|||||||Wilcoxon (Mann-Whitney)|||||||0.183
92286845|NCT02571907|184478623|OTHER||||||||||||||||||A Bayesian beta-binomial model with a Uniform(0, 1) prior was used to compute a 95% credible interval for the proportion of patients meeting the primary endpoint. The lower bound of this credible interval (2.5th percentile of the posterior distribution) was 91.2%, which was greater than the performance goal of 55%.|||
92286846|NCT02571907|184478624|OTHER||||||||||||||||||A Bayesian beta-binomial model with a Uniform(0, 1) prior was used to compute a 95% credible interval for the proportion of patients meeting the secondary endpoint. The lower bound of this credible interval (2.5th percentile of the posterior distribution) was 70.8%, which was greater than the performance goal of 46%.|||
92286847|NCT02635750|184478630|OTHER||Adjusted gMean ratio(%)|99.95|||||TWO_SIDED|90.0|89.502|111.62|||||"Ratio of BI 409306 25mg with donepezil 10mg and BI 409306 25mg alone (BI 409306+ don / BI 409306).~Intra-individual coefficient of variation (gCV (%)) = 18.6."|"The statistical model used for the analysis of those endpoints was an analysis of variance (ANOVA) model on the logarithmic scale (natural logarithm). This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the other effect was considered as fixed.~Abbreviations used: geometric mean (gMean), donepezil (don)"||111.62|89.502|
92286848|NCT02635750|184478631|OTHER||Adjusted gMean ratio(%)|100.82|||||TWO_SIDED|90.0|81.861|124.17|||||Ratio of BI 409306 25mg with donepezil 10mg and BI 409306 25mg alone (BI 409306+don / BI 409306). Intra-individual coefficient of variation (gCV (%)) = 35.8.|"The statistical model used for the analysis of those endpoints was an analysis of variance (ANOVA) model on the logarithmic scale (natural logarithm). This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the other effect was considered as fixed.~Abbreviations used: geometric mean (gMean), donepezil (don)"||124.17|81.861|
92286849|NCT02635750|184478632|OTHER||Adjusted gMean ratio (%)|100.84|||||TWO_SIDED|90.0|97.584|104.19|||||Ratio of donepezil 5mg with BI 409306 100mg and donepezil 5mg alone (BI 409306+don / don). Intra-individual coefficient of variation (gCV (%)) = 4.9.|The PK endpoints were log transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'periods' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. Abbreviations used: geometric mean (gMean), donepezil (don)||104.19|97.584|
92286850|NCT02635750|184478633|OTHER||Adjusted gMean ratio(%)|113.08|||||TWO_SIDED|90.0|106.41|120.15|||||Ratio of donepezil 5mg with BI 409306 100mg and donepezil 5mg alone. (BI 409306+don / don) Intra-individual coefficient of variation (gCV (%)) = 9.0.|"The PK endpoints were log transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'periods' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.~Abbreviations used: geometric mean (gMean), donepezil (don)"||120.15|106.41|
92286851|NCT02635750|184478634|OTHER||Adjusted gMean ratio(%)|100.01|||||TWO_SIDED|90.0|89.549|111.68|||||Ratio of BI 409306 25mg with donepezil 10mg and BI 409306 25mg alone (BI 409306+don/ BI 409306). Intra-individual coefficient of variation (gCV(%)) = 18.6.|The statistical model used for the analysis of those endpoints was an analysis of variance (ANOVA) model on the logarithmic scale (natural logarithm). This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the other effect was considered as fixed. Abbreviations used: geometric mean (gMean), donepezil (don)||111.68|89.549|
92286852|NCT02635750|184478635|OTHER||Adjusted gMean ratio(%)|98.38|||||TWO_SIDED|90.0|93.413|103.6|||||Ratio of donepezil 5mg with BI 409306 100mg and donepezil 5mg alone (BI 409306+don / don). Intra-individual coefficient of variation (gCV (%)) = 7.7.|"The PK endpoints were log transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'periods' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.~Abbreviations used: geometric mean (gMean), donepezil (don)"||103.60|93.413|
92286853|NCT00834717|184478684|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|97.86||||||90.0|92.36|103.69|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.69|92.36|
92286854|NCT00834717|184478685|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|92.57||||||90.0|82.8|103.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.48|82.80|
92182183|NCT05643885|184263172|SUPERIORITY||||||=|0.8634|||||||Weighted t-test|||ER only visits||||=0.8634
92286855|NCT00834717|184478686|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|92.95||||||90.0|83.11|103.97|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.97|83.11|
92264691|NCT05664672|184430825|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|37.3|||<|0.0001|TWO_SIDED|95.0|30.4|45.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||45.7|30.4|<.0001
92264692|NCT05664672|184430825|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|44.0|||<|0.0001|TWO_SIDED|95.0|36.5|53.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||53.1|36.5|<.0001
92182184|NCT05643885|184263172|SUPERIORITY||||||=|0.0399|||||||Weighted t-test|||Laboratory or pathology visits||||=0.0399
92182185|NCT05643885|184263172|SUPERIORITY||||||=|0.0996|||||||Weighted t-test|||Radiology||||=0.0996
92182186|NCT05643885|184263172|SUPERIORITY||||||=|0.7655|||||||Weighted t-test|||Surgical services||||=0.7655
92264693|NCT05664672|184430825|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|41.8|||<|0.0001|TWO_SIDED|95.0|34.4|50.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||50.9|34.4|<.0001
92264694|NCT05664672|184430825|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|42.9|||<|0.0001|TWO_SIDED|95.0|34.9|52.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||52.7|34.9|<.0001
92264695|NCT05664672|184430825|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|86.9||||0.3027|TWO_SIDED|95.0|70.0|108.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||108|70.0|0.3027
92264696|NCT05664672|184430825|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|103.0||||0.9926|TWO_SIDED|95.0|83.9|125.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||125|83.9|0.9926
92264697|NCT05664672|184430825|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|97.5||||0.9938|TWO_SIDED|95.0|79.1|120.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||120|79.1|0.9938
92264698|NCT05664672|184430826|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|46.3|||<|0.0001|TWO_SIDED|95.0|39.5|54.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||54.4|39.5|<.0001
92264699|NCT05664672|184430826|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|55.6|||<|0.0001|TWO_SIDED|95.0|48.0|64.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||64.4|48.0|<.0001
92264700|NCT05664672|184430826|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|52.7|||<|0.0001|TWO_SIDED|95.0|45.2|61.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||61.5|45.2|<.0001
92264701|NCT05664672|184430826|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|54.9|||<|0.0001|TWO_SIDED|95.0|46.7|64.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||64.5|46.7|<.0001
92182187|NCT05643885|184263172|SUPERIORITY||||||=|0.1499|||||||Weighted t-test|||Ancillary or other services||||=0.1499
92264702|NCT05664672|184430826|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|84.4||||0.0504|TWO_SIDED|95.0|71.2|100.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||100|71.2|0.0504
92286856|NCT00795821|184478699|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
92286857|NCT00795821|184478701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control for multiple comparisons, the analysis of this secondary outcome measure was pre-specified as a gated secondary objective. As the primary hypothesis was statistically significant, this hypothesis was tested at the 0.05 significance level.|Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
92286858|NCT00795821|184478703|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
92286859|NCT00795821|184478705|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.002
92286860|NCT00795821|184478707|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANCOVA|Model terms included treatment, investigator, and baseline score.||||||0.007
92286861|NCT00795821|184478709|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||ANCOVA|Model terms included treatment, investigator, and baseline score.||||||0.056
92286862|NCT00795821|184478711|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.002
92286863|NCT00795821|184478713|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
92286864|NCT00795821|184478715|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.003
92286865|NCT00795821|184478717|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANCOVA|Model terms included treatment, investigator, and baseline score.||||||0.009
92286866|NCT00795821|184478719|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value for Severity of Overall Fatigue|Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.008
92286867|NCT00795821|184478719|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||P-value for Fatigue Interference with Daily Activities|Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.024
92286868|NCT00795821|184478721|SUPERIORITY_OR_OTHER|||||||0.261||95.0||||P-value for participants reporting use of primary doctor|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test controlling for investigator.||||||0.261
92286869|NCT00795821|184478721|SUPERIORITY_OR_OTHER|||||||0.868||95.0||||P-value for participants reporting use of specialist|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test controlling for investigator.||||||0.868
92286870|NCT00795821|184478721|SUPERIORITY_OR_OTHER|||||||0.495||95.0||||P-value for participants reporting other diagnostic tests|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test controlling for investigator.||||||0.495
92286871|NCT00795821|184478721|SUPERIORITY_OR_OTHER|||||||0.189||95.0||||P-value for participants reporting prescribed medication|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test controlling for investigator.||||||0.189
92286872|NCT00795821|184478723|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||P-value for suicidal ideation|Fisher Exact|||||||0.737
92286873|NCT00795821|184478725|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for change in supine systolic blood pressure|Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.002
92286874|NCT00795821|184478725|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change in supine diastolic blood pressure|Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
92286875|NCT00795821|184478727|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
92286876|NCT01285713|184478730|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|95.0|||||Paired t-test|||||||0.0003
92286877|NCT00461786|184478791|SUPERIORITY_OR_OTHER||Overall Response Rate|21.0||||||95.0|10.5|35.0||||||Overall Response Rate is the total percentage of participants with either a complete response or a partial response (CR+PR)/48 X 100.||35.0|10.5|
92286878|NCT00834418|184478833|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-72 and Cmax.|Geometric Test/Ref Ratio x 100|107.0||||||90.0|99.6|116.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||116|99.6|
92286879|NCT00834418|184478834|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-72 and Cmax.|Geometric Test/Ref Ratio x 100|102.0||||||90.0|95.2|109.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109|95.2|
92286880|NCT01705574|184478835|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The null hypothesis was that the STB group was at least 12% worse than the ATV+RTV+TVD group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL at Week 48 (response rate as defined by the snapshot analysis algorithm). The alternative hypothesis was that the STB group was less than 12% worse than the ATV+RTV+TVD group.|Difference in proportions|6.5|||||TWO_SIDED|95.2|0.4|12.6|||||Difference in percentages of virologic success and its 95.2% confidence interval (CI) were calculated based on baseline HIV-1 RNA and race stratum-adjusted Mantel-Haenszel (MH) proportion.|||12.6|0.4|
92287155|NCT03086460|184479323|SUPERIORITY||Mean Difference (Final Values)|0.037||||0.219|TWO_SIDED|95.0|-0.022|0.095|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.095|-0.022|0.219
92286881|NCT01705574|184478835|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|6.5||||0.034|TWO_SIDED|95.2|0.4|12.6|||Cochran-Mantel-Haenszel|P-value comparing virologic success was from the CMH test stratified by baseline HIV-1 RNA and race strata.|Difference in percentages of virologic success and its 95.2% CI were calculated based on baseline HIV-1 RNA and race stratum-adjusted MH proportion. If the lower bound of the CI was \> 0, superiority of STB over ATV+RTV+TVD was established.|If noninferiority of STB versus ATV+RTV+TVD was established, the same 95.2% CI used in evaluating noninferiority was used to evaluate superiority. The baseline HIV-1 RNA and race stratum-stratified, 2-sided CMH test was also used to assess superiority as a secondary assessment.||12.6|0.4|0.034
92286882|NCT00777023|184478840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.61|STANDARD_ERROR_OF_MEAN|0.53||0.0024|TWO_SIDED|97.5|-2.8|-0.42||P value for pairwise test of difference of least square mean change from baseline between G-ER 1200 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at SDW 4||-0.42|-2.80|0.0024
92286883|NCT00777023|184478840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.51|STANDARD_ERROR_OF_MEAN|0.52||0.004|TWO_SIDED|97.5|-2.69|-0.33||P value for pairwise test of difference of least square mean change from baseline between G-ER 1800 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at SDW 4||-0.33|-2.69|0.0040
92286884|NCT00777023|184478841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.56|STANDARD_ERROR_OF_MEAN|0.51||0.0024|TWO_SIDED|97.5|-2.72|-0.41||P value for pairwise test of difference of least square mean change from baseline between G-ER 1200 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at SDW 12||-0.41|-2.72|0.0024
92286885|NCT00777023|184478841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.12|STANDARD_ERROR_OF_MEAN|0.51||0.0281|TWO_SIDED|97.5|-2.26|0.02||P value for pairwise test of difference of least square mean change from baseline between G-ER 1800 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at SDW 12||0.02|-2.26|0.0281
92286886|NCT00777023|184478842|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.08||0.0608|TWO_SIDED|97.5|-0.32|-0.03||P value for pairwise test of difference of least square mean change from baseline between G-ER 1200 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at SDW 4||-0.03|-0.32|0.0608
92286887|NCT00777023|184478842|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|0.08||0.0003|TWO_SIDED|97.5|-0.45|-0.11||P value for pairwise test of difference of least square mean change from baseline between G-ER 1800 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at SDW 4||-0.11|-0.45|0.0003
92286888|NCT00777023|184478843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.1||0.028|TWO_SIDED|97.5|-0.43|0.0||P value for pairwise test of difference of least square mean change from baseline between G-ER 1200 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at SDW 12||0.00|-0.43|0.0280
92286889|NCT00777023|184478843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.1||0.0026|TWO_SIDED|97.5|-0.51|-0.07||P value for pairwise test of difference of least square mean change from baseline between G-ER 1800 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at SDW 12||-0.07|-0.51|0.0026
92286890|NCT04274686|184478849|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.667|TWO_SIDED|95.0|-7.0|10.7|||Paired t-test|||Null hypothesis: No difference in percent air leakage||10.7|-7.0|0.667
92286891|NCT04274686|184478850|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.218|TWO_SIDED|95.0|-0.7|2.9|||Paired t-test|||||2.90|-0.70|0.218
92286892|NCT04274686|184478851|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.455|TWO_SIDED|95.0|-0.5|0.2|||Paired t-test|||||0.2|-0.5|0.455
92286893|NCT02647944|184478867|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92286894|NCT02647944|184478868|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92286895|NCT02647944|184478869|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92286896|NCT02647944|184478870|SUPERIORITY|||||||0.069|||||||Wilcoxon (Mann-Whitney)|||||||0.069
92286897|NCT02647944|184478871|SUPERIORITY|||||||0.054|||||||Wilcoxon (Mann-Whitney)|||||||0.054
92286898|NCT02647944|184478872|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92286899|NCT02647944|184478873|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92286900|NCT02647944|184478874|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92182188|NCT05349721|184263184|OTHER||Treatment Difference|6.86||||0.516|TWO_SIDED|95.0|-13.86|27.59|||ANCOVA|Estimates were derived from the ANCOVA model (following multiple imputation), where participant ranks served as the response variable.||||27.59|-13.86|0.516
92182189|NCT00108355|184263200|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Log Rank|||Initial estimation: median time to recurrence of ascites of 38 days in the study group and 20 days in the control group in a fixed duration of 6 months (5% type-I error (2 sided) and an 80% power). However, due to low accrual and based on randomized trials using vasoconstrictors in the prevention of PCD and a study that showed that midodrine leads to a significant improvement in effective arterial blood volume, each of which had sample sizes of 24-25 patients,we decided on a sample size of 30.||||<0.05
92182190|NCT01583166|184263203|OTHER|||||||0.837|||||||Fisher Exact|||||||0.837
92182191|NCT03960645|184263231|OTHER||GLSM ratio (%)|41.24|||||TWO_SIDED|90.0|36.71|46.32||||||BIC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% confidence interval (CI) was constructed for the geometric least squares mean (GLSM) ratio (%).||46.32|36.71|
92264703|NCT05664672|184430826|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|101.0||||0.9988|TWO_SIDED|95.0|86.4|119.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||119|86.4|0.9988
92264704|NCT05664672|184430826|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|96.0||||0.9238|TWO_SIDED|95.0|81.4|113.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||113|81.4|0.9238
92264705|NCT05664672|184430827|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|3.71|||<|0.0001|TWO_SIDED|95.0|1.88|7.31|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||7.31|1.88|<.0001
92264706|NCT05664672|184430827|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|4.25|||<|0.0001|TWO_SIDED|95.0|2.28|7.93|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||7.93|2.28|<.0001
92264707|NCT05664672|184430827|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|4.24|||<|0.0001|TWO_SIDED|95.0|2.2|8.14|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||8.14|2.20|<.0001
92264708|NCT05664672|184430827|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|6.4|||<|0.0001|TWO_SIDED|95.0|3.22|12.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||12.7|3.22|<.0001
92264709|NCT05664672|184430827|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|57.9||||0.184|TWO_SIDED|95.0|28.3|119.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||119|28.3|0.1840
92264710|NCT05664672|184430827|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|66.4||||0.3552|TWO_SIDED|95.0|34.0|130.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||130|34.0|0.3552
92264711|NCT05664672|184430827|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|66.2||||0.381|TWO_SIDED|95.0|33.0|133.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||133|33.0|0.3810
92264712|NCT05664672|184430828|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|16.8|||<|0.0001|TWO_SIDED|95.0|13.0|21.8|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||21.8|13.0|<.0001
92182192|NCT03960645|184263231|OTHER||GLSM ratio (%)|44.65|||||TWO_SIDED|90.0|40.04|49.79||||||BIC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||49.79|40.04|
92264713|NCT05664672|184430828|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|20.5|||<|0.0001|TWO_SIDED|95.0|16.2|25.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||25.9|16.2|<.0001
92286901|NCT02576938|184478896|SUPERIORITY||||||=|0.065|||||||Chi-squared|||||||=0.065
92286902|NCT02576938|184478896|SUPERIORITY||||||=|0.027|||||||Chi-squared|||||||=0.027
92286903|NCT00571064|184478944|SUPERIORITY_OR_OTHER|||||||0.6593|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 6 (Visit 3)||||0.6593
92286904|NCT00571064|184478944|SUPERIORITY_OR_OTHER|||||||0.6048|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12/ET (Visit 4)||||0.6048
92286905|NCT00571064|184478944|SUPERIORITY_OR_OTHER|||||||0.5924|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12 LOCF (Study Endpoint)||||0.5924
92286906|NCT00571064|184478945|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Significance level 0.05|t-test, 2 sided|||Week 6 (Visit 3)||||<0.0001
92286907|NCT00571064|184478945|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12/ET (Visit 4)||||<0.0001
92286908|NCT00571064|184478945|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12 LOCF (Study Endpoint)||||<0.0001
92286909|NCT00571064|184478947|SUPERIORITY_OR_OTHER|||||||0.0431|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12/ET (Visit 4)||||0.0431
92286910|NCT00571064|184478947|SUPERIORITY_OR_OTHER|||||||0.0431|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12 LOCF (Study Endpoint)||||0.0431
92182193|NCT03960645|184263231|OTHER||GLSM ratio (%)|40.57|||||TWO_SIDED|90.0|36.77|44.76||||||BIC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||44.76|36.77|
92182194|NCT03960645|184263231|OTHER||GLSM ratio (%)|44.4|||||TWO_SIDED|90.0|39.95|49.34||||||BIC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||49.34|39.95|
92182195|NCT03960645|184263232|OTHER||GLSM ratio (%)|67.38|||||TWO_SIDED|90.0|63.45|71.56||||||FTC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||71.56|63.45|
92286911|NCT00571064|184478949|SUPERIORITY_OR_OTHER|||||||0.1285|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12/ET (Visit 4)||||0.1285
92286912|NCT00571064|184478949|SUPERIORITY_OR_OTHER|||||||0.1285|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12 LOCF (Study Endpoint)||||0.1285
92286913|NCT00571064|184478951|SUPERIORITY_OR_OTHER|||||||0.2327|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 6 (Visit 3)||||0.2327
92182196|NCT03960645|184263232|OTHER||GLSM ratio (%)|64.26|||||TWO_SIDED|90.0|60.95|67.75||||||FTC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||67.75|60.95|
92286914|NCT00571064|184478951|SUPERIORITY_OR_OTHER|||||||0.4724|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12/ET (Visit 4)||||0.4724
92286915|NCT00571064|184478951|SUPERIORITY_OR_OTHER|||||||0.4724|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12 LOCF - Study Endpoint||||0.4724
92286916|NCT00244764|184478952|SUPERIORITY_OR_OTHER||percentage|34.7||||||95.0|28.4|40.9|||||The estimated value provided is the response rate.|||40.9|28.4|
92286917|NCT00244764|184478953|SUPERIORITY_OR_OTHER||percentage|42.0||||||95.0|29.0|54.0|||||The estimated value is the percentage of the first 60 participants who had stable disease at Week 12, as assessed by the investigator.|||54|29|
92286918|NCT02363803|184478961|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|Paired t-test||||||0.03
92286919|NCT03140631|184478966|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92286920|NCT03140631|184478967|SUPERIORITY|||||||0.74|||||||Fisher Exact|||number of participants who experienced a vascular access site complication at 90 days||||0.74
92286921|NCT02169115|184478968|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8|STANDARD_DEVIATION|1.7||0.05|TWO_SIDED||||||ANOVA|||||||0.05
92286922|NCT02169115|184478968|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.0|STANDARD_DEVIATION|1.8||0.005|TWO_SIDED||||||ANOVA|||||||0.005
92286923|NCT02169115|184478968|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_DEVIATION|1.4|||TWO_SIDED|||||||||||||
92286924|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.728||||0.0008|TWO_SIDED|95.0|-4.219|-1.236|||ANCOVA|||Difference from placebo to GSK189075 50mg AUC(0-4) Incremental Adjusted Weighted Mean||-1.236|-4.219|0.0008
92286925|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.325||||0.0021|TWO_SIDED|95.0|-3.735|-0.916|||ANCOVA|||Difference from placebo toGSK189075 150mg AUC(0-4) Incremental Adjusted Weighted Mean||-0.916|-3.735|0.0021
92286926|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.402||||0.0021|TWO_SIDED|95.0|-3.862|-0.942|||ANCOVA|||Difference from placebo to GSK189075 500mg AUC(0-4) Incremental Adjusted Weighted Mean||-0.942|-3.862|0.0021
92286927|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.556||||0.0382|TWO_SIDED|95.0|0.09|3.021|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 50mg AUC(0-4) Incremental Adjusted Weighted Mean||3.021|0.090|0.0382
92286928|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.958||||0.0132|TWO_SIDED|95.0|0.439|3.477|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 150mg AUC(0-4) Incremental Adjusted Weighted Mean||3.477|0.439|0.0132
92286929|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.881||||0.0161|TWO_SIDED|95.0|0.373|3.389|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 500mg AUC(0-4) Incremental Adjusted Weighted Mean||3.389|0.373|0.0161
92286930|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.592||||0.0001|TWO_SIDED|95.0|-5.162|-2.022|||ANCOVA|||Difference from placebo to GSK189075 50mg AUC(0-10) Incremental Adjusted Weighted Mean||-2.022|-5.162|0.0001
92286931|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.82||||0|TWO_SIDED|95.0|-5.304|-2.337|||ANCOVA|||Difference from placebo to GSK189075 150mg AUC(0-10) Incremental Adjusted Weighted Mean||-2.337|-5.304|0.0000
92286932|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.887||||0.0006|TWO_SIDED|95.0|-4.424|-1.35|||ANCOVA|||Difference from placebo to GSK189075 500mg AUC(0-10) Incremental Adjusted Weighted Mean||-1.350|-4.424|0.0006
92286933|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.953||||0.0005|TWO_SIDED|95.0|1.411|4.496|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 50mg AUC(0-10) Incremental Adjusted Weighted Mean||4.496|1.411|0.0005
92286934|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.725||||0.0015|TWO_SIDED|95.0|1.126|4.324|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 150mg AUC(0-10) Incremental Adjusted Weighted Mean||4.324|1.126|0.0015
92286935|NCT00575159|184479003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.659||||0.0001|TWO_SIDED|95.0|2.071|5.246|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 500mg AUC(0-10) Incremental Adjusted Weighted Mean||5.246|2.071|0.0001
92286936|NCT03872128|184479034|SUPERIORITY|||||||0.009|||||||Fisher Exact|||||||0.009
92286937|NCT03872128|184479035|SUPERIORITY|||||||0.019|||||||Fisher Exact|||||||0.019
92286938|NCT03872128|184479036|SUPERIORITY|||||||0.044|||||||Fisher Exact|||||||0.044
92286939|NCT03872128|184479037|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||OCDS: Total||||<0.001
92286940|NCT03872128|184479037|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||OCDS: Obsessive||||<0.001
92286941|NCT03872128|184479037|SUPERIORITY|||||||0.003|||||||Fisher Exact|||OCDS: Compulsive||||0.003
92286942|NCT03872128|184479039|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<.0001
92286943|NCT03872128|184479040|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||HADS-Depression||||<0.001
92286944|NCT03872128|184479040|SUPERIORITY|||||||0.089|||||||Fisher Exact|||HADS-Anxiety||||0.089
92286945|NCT03285594|184479045|SUPERIORITY||Difference in Least Square (LS) Means|-0.45|STANDARD_ERROR_OF_MEAN|0.094|<|0.0001|TWO_SIDED|95.0|-0.638|-0.271|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline HbA1c as a covariate.||-0.271|-0.638|<0.0001
92286946|NCT03285594|184479045|SUPERIORITY||Difference in LS Means|-0.55|STANDARD_ERROR_OF_MEAN|0.081|<|0.0001|TWO_SIDED|95.0|-0.706|-0.387|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline HbA1c as a covariate.||-0.387|-0.706|<0.0001
92286947|NCT03285594|184479046|SUPERIORITY||Difference in LS Means|-15.858|STANDARD_ERROR_OF_MEAN|4.6056||0.0006|TWO_SIDED|95.0|-24.8845|-6.8309|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline FPG as a covariate.||-6.8309|-24.8845|0.0006
92286948|NCT03285594|184479046|SUPERIORITY||Difference in LS Means|-21.832|STANDARD_ERROR_OF_MEAN|4.0514|<|0.0001|TWO_SIDED|95.0|-29.7725|-13.8911|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline FPG as a covariate.||-13.8911|-29.7725|<0.0001
92286949|NCT03285594|184479047|SUPERIORITY||Difference in LS Means|-1.09|STANDARD_ERROR_OF_MEAN|0.32||0.0007|TWO_SIDED|95.0|-1.716|-0.462|||ANCOVA|||The change from baseline to Week 18 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline body weight as a covariate.||-0.462|-1.716|0.0007
92286950|NCT03285594|184479047|SUPERIORITY||Difference in LS Means|-1.73|STANDARD_ERROR_OF_MEAN|0.278|<|0.0001|TWO_SIDED|95.0|-2.274|-1.183|||ANCOVA|||The change from baseline to Week 18 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline body weight as a covariate.||-1.183|-2.274|<0.0001
92286951|NCT03285594|184479048|SUPERIORITY||Difference in LS Means|-3.91|STANDARD_ERROR_OF_MEAN|1.904||0.04|TWO_SIDED|95.0|-7.642|-0.178|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline SBP as a covariate.||-0.178|-7.642|0.04
92286952|NCT03285594|184479048|SUPERIORITY||Difference in LS Means|-3.83|STANDARD_ERROR_OF_MEAN|1.697||0.0239|TWO_SIDED|95.0|-7.161|-0.507|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline SBP as a covariate.||-0.507|-7.161|0.0239
92182197|NCT03960645|184263232|OTHER||GLSM ratio (%)|69.19|||||TWO_SIDED|90.0|65.88|72.66||||||FTC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||72.66|65.88|
92182198|NCT03960645|184263232|OTHER||GLSM ratio (%)|65.09|||||TWO_SIDED|90.0|61.79|68.57||||||FTC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||68.57|61.79|
92182199|NCT03960645|184263232|OTHER||GLSM ratio (%)|77.62|||||TWO_SIDED|90.0|65.4|92.14||||||TAF: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||92.14|65.40|
92264714|NCT05664672|184430828|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|18.2|||<|0.0001|TWO_SIDED|95.0|14.3|23.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||23.4|14.3|<.0001
92264715|NCT05664672|184430828|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|17.8|||<|0.0001|TWO_SIDED|95.0|13.7|23.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||23.1|13.7|<.0001
92264716|NCT05664672|184430828|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|94.5||||0.9589|TWO_SIDED|95.0|72.0|124.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||124|72.0|0.9589
92264717|NCT05664672|184430828|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|115.0||||0.4442|TWO_SIDED|95.0|89.3|148.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||148|89.3|0.4442
92264718|NCT05664672|184430828|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|103.0||||0.9975|TWO_SIDED|95.0|78.8|133.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||133|78.8|0.9975
92264719|NCT05664672|184430829|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|36.5|||<|0.0001|TWO_SIDED|95.0|23.9|55.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||55.6|23.9|<.0001
92264720|NCT05664672|184430829|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|39.9|||<|0.0001|TWO_SIDED|95.0|27.1|59.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||59.0|27.1|<.0001
92264721|NCT05664672|184430829|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|30.2|||<|0.0001|TWO_SIDED|95.0|20.1|45.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||45.5|20.1|<.0001
92264722|NCT05664672|184430829|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|48.9||||0.0002|TWO_SIDED|95.0|31.9|75.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||75.0|31.9|0.0002
92182200|NCT03960645|184263232|OTHER||GLSM ratio (%)|62.5|||||TWO_SIDED|90.0|50.76|76.96||||||TAF: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||76.96|50.76|
92264723|NCT05664672|184430829|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|74.5||||0.2938|TWO_SIDED|95.0|47.6|117.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||117|47.6|0.2938
92264724|NCT05664672|184430829|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|81.6||||0.5552|TWO_SIDED|95.0|53.7|124.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||124|53.7|0.5552
92264725|NCT05664672|184430829|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|61.7||||0.0254|TWO_SIDED|95.0|39.9|95.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||95.5|39.9|0.0254
92264726|NCT05664672|184430830|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|52.1|||<|0.0001|TWO_SIDED|95.0|40.4|67.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||67.1|40.4|<.0001
92264727|NCT05664672|184430830|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|49.3|||<|0.0001|TWO_SIDED|95.0|39.0|62.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||62.2|39.0|<.0001
92264728|NCT05664672|184430830|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|40.8|||<|0.0001|TWO_SIDED|95.0|32.0|52.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||52.1|32.0|<.0001
92264729|NCT05664672|184430830|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|45.9|||<|0.0001|TWO_SIDED|95.0|35.7|59.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||59.2|35.7|<.0001
92264730|NCT05664672|184430830|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|113.0||||0.5817|TWO_SIDED|95.0|86.8|148.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||148|86.8|0.5817
92264731|NCT05664672|184430830|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|107.0||||0.8852|TWO_SIDED|95.0|83.7|138.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||138|83.7|0.8852
92264732|NCT05664672|184430830|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|88.9||||0.607|TWO_SIDED|95.0|68.7|115.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||115|68.7|0.6070
92264733|NCT05664672|184430831|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.2|||<|0.0001|TWO_SIDED|95.0|5.44|32.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||32.0|5.44|<.0001
92264734|NCT05664672|184430831|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|23.8|||<|0.0001|TWO_SIDED|95.0|10.7|53.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||53.3|10.7|<.0001
92264735|NCT05664672|184430831|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|24.7||||0.0003|TWO_SIDED|95.0|10.6|57.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||57.4|10.6|0.0003
92286953|NCT03285594|184479049|SUPERIORITY||Difference in LS Means|-4.94|STANDARD_ERROR_OF_MEAN|1.425|||TWO_SIDED|95.0|-7.73|-2.142||||||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline SBP as a covariate.||-2.142|-7.73|
92286954|NCT03285594|184479049|SUPERIORITY||Difference in LS Means|-3.89|STANDARD_ERROR_OF_MEAN|1.246||0.0018|TWO_SIDED|95.0|-6.333|-1.448|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline SBP as a covariate.||-1.448|-6.333|0.0018
92286955|NCT03285594|184479050|SUPERIORITY||Difference in LS Means|-0.52|STANDARD_ERROR_OF_MEAN|0.34||0.1265|TWO_SIDED|95.0|-1.185|0.147|||ANCOVA|||The change from baseline to Week 52 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline HbA1c as a covariate.||0.147|-1.185|0.1265
92286956|NCT03285594|184479050|SUPERIORITY||Difference in LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.32||0.074|TWO_SIDED|95.0|-1.199|0.055|||ANCOVA|||The change from baseline to Week 52 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline HbA1c as a covariate.||0.055|-1.199|0.074
92286957|NCT03285594|184479051|SUPERIORITY||Difference in LS Means|-1.01|STANDARD_ERROR_OF_MEAN|0.868||0.2466|TWO_SIDED|95.0|-2.707|0.696|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline body weight as a covariate.||0.696|-2.707|0.2466
92286958|NCT03285594|184479051|SUPERIORITY||Difference in LS Means|-0.65|STANDARD_ERROR_OF_MEAN|0.672||0.332|TWO_SIDED|95.0|-1.969|0.665|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline body weight as a covariate.||0.665|-1.969|0.332
92286959|NCT03733444|184479054|SUPERIORITY||Least Squares (LS) Mean difference|2.8|STANDARD_ERROR_OF_MEAN|25.29||0.9123|TWO_SIDED|95.0|-46.9|52.4||P-value was based on random coefficient regression model (linear slope model) on FVC values.|Coefficient Regression Model|Treatment effect was determined by using estimated slopes for each treatment group on basis of time-by-treatment interaction term from mixed model.||||52.4|-46.9|0.9123
92286960|NCT03733444|184479054|SUPERIORITY||LS Mean difference|1.7|STANDARD_ERROR_OF_MEAN|25.01||0.9456|TWO_SIDED|95.0|-47.4|50.8||P-value was based on random coefficient regression model (linear slope model) on FVC values.|Coefficient Regression Model|Treatment effect was determined by using estimated slopes for each treatment group on basis of time-by-treatment interaction term from mixed model.||||50.8|-47.4|0.9456
92286961|NCT03733444|184479055|SUPERIORITY||Odds Ratio (OR)|1.15||||0.5162|TWO_SIDED|95.0|0.76|1.74|||Regression, Logistic|||||1.74|0.76|0.5162
92286962|NCT03733444|184479055|SUPERIORITY||Odds Ratio (OR)|1.07||||0.7566|TWO_SIDED|95.0|0.71|1.62|||Regression, Logistic|||||1.62|0.71|0.7566
92286963|NCT03733444|184479056|SUPERIORITY||Hazard Ratio (HR)|2.15|||||TWO_SIDED|95.0|1.2|3.85|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first respiratory-related hospitalization.|||3.85|1.20|
92286964|NCT03733444|184479056|SUPERIORITY||Hazard Ratio (HR)|1.69|||||TWO_SIDED|95.0|0.93|3.1|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first respiratory-related hospitalization.|||3.10|0.93|
92286965|NCT03733444|184479057|SUPERIORITY||LS Mean difference|-0.1||||0.937|TWO_SIDED|95.0|-3.2|3.0||LS mean difference (95% CI) per treatment group with treatment, time (categorical), treatment-by-time interaction, stratum and baseline SGRQ total score as fixed effects and participant as random effect.|Mixed Models Analysis|||||3.0|-3.2|0.9370
92286966|NCT03733444|184479057|SUPERIORITY||LS Mean difference|-0.4||||0.8064|TWO_SIDED|95.0|-3.4|2.7||LS mean difference (95% CI) per treatment group with treatment, time (categorical), treatment-by-time interaction, stratum and baseline SGRQ total score as fixed effects and participant as random effect.|Mixed Models Analysis|||||2.7|-3.4|0.8064
92286967|NCT03733444|184479058|SUPERIORITY||LS Mean difference|2.9|STANDARD_ERROR_OF_MEAN|23.39|||TWO_SIDED|95.0|-41.1|46.8|||||The treatment effect was determined by using estimated slopes for each study group on the basis of the time-by-treatment interaction term from the mixed model.|||46.8|-41.1|
92286968|NCT03733444|184479058|SUPERIORITY||LS Mean difference|8.0|STANDARD_ERROR_OF_MEAN|22.16|||TWO_SIDED|95.0|-35.5|51.5|||||The treatment effect was determined by using estimated slopes for each study group on the basis of the time-by-treatment interaction term from the mixed model.|||51.5|-35.5|
92286969|NCT03733444|184479059|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.9|1.94|||||Odds ratio and 95% confidence interval originated from a logistic regression.|||1.94|0.90|
92286970|NCT03733444|184479059|SUPERIORITY||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.72|1.56|||||Odds ratio and 95% confidence interval originated from a logistic regression.|||1.56|0.72|
92264736|NCT05664672|184430831|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|22.3||||0.0002|TWO_SIDED|95.0|9.21|54.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||54.1|9.21|0.0002
92264737|NCT05664672|184430831|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|59.1||||0.428|TWO_SIDED|95.0|23.3|150.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||150|23.3|0.4280
92264738|NCT05664672|184430831|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|107.0||||0.999|TWO_SIDED|95.0|44.8|255.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||255|44.8|0.9990
92264739|NCT05664672|184430831|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|110.0||||0.9958|TWO_SIDED|95.0|44.9|272.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||272|44.9|0.9958
92264740|NCT05664672|184430832|SUPERIORITY||Ratio of geometric LS means|-50.8|||<|0.0001|TWO_SIDED|95.0|-77.7|-23.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||-23.9|-77.7|<.0001
92264741|NCT05664672|184430832|SUPERIORITY||Ratio of geometric LS means|-45.0|||<|0.0001|TWO_SIDED|95.0|-69.6|-20.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||-20.3|-69.6|<.0001
92264742|NCT05664672|184430832|SUPERIORITY||Ratio of geometric LS means|-42.3||||0.0003|TWO_SIDED|95.0|-68.2|-16.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||-16.5|-68.2|0.0003
92264743|NCT05664672|184430832|SUPERIORITY||Ratio of geometric LS means|-44.8||||0.0004|TWO_SIDED|95.0|-72.6|-17.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||-17.0|-72.6|0.0004
92264744|NCT05664672|184430832|SUPERIORITY||Ratio of geometric LS means|-6.05||||0.9551|TWO_SIDED|95.0|-35.2|23.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||23.1|-35.2|0.9551
92264745|NCT05664672|184430832|SUPERIORITY||Ratio of geometric LS means|-0.198||||1|TWO_SIDED|95.0|-27.3|26.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||26.9|-27.3|1.0000
92264746|NCT05664672|184430832|SUPERIORITY||Ratio of geometric LS means|2.48||||0.9981|TWO_SIDED|95.0|-25.6|30.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||30.6|-25.6|0.9981
92264747|NCT05664672|184430833|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|31.7|||<|0.0001|TWO_SIDED|95.0|18.7|53.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||53.9|18.7|<.0001
92264748|NCT05664672|184430833|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|28.5|||<|0.0001|TWO_SIDED|95.0|17.6|46.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||46.2|17.6|<.0001
92264749|NCT05664672|184430833|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|24.3|||<|0.0001|TWO_SIDED|95.0|14.7|40.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||40.2|14.7|<.0001
92264750|NCT05664672|184430833|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|28.1|||<|0.0001|TWO_SIDED|95.0|16.6|47.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||47.7|16.6|<.0001
92264751|NCT05664672|184430833|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|113.0||||0.9511|TWO_SIDED|95.0|64.7|197.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||197|64.7|0.9511
92264752|NCT05664672|184430833|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|101.0||||1|TWO_SIDED|95.0|60.4|170.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||170|60.4|1.0000
92264753|NCT05664672|184430833|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|86.5||||0.9003|TWO_SIDED|95.0|50.6|148.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||148|50.6|0.9003
92264754|NCT05664672|184430834|SUPERIORITY||Ratio of geometric LS means|46.4|||<|0.0001|TWO_SIDED|95.0|37.1|58.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||58.0|37.1|<.0001
92264755|NCT05664672|184430834|SUPERIORITY||Ratio of geometric LS means|43.1|||<|0.0001|TWO_SIDED|95.0|35.1|52.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||52.9|35.1|<.0001
92264756|NCT05664672|184430834|SUPERIORITY||Ratio of geometric LS means|44.1|||<|0.0001|TWO_SIDED|95.0|35.5|54.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||54.6|35.5|<.0001
92264757|NCT05664672|184430834|SUPERIORITY||Ratio of geometric LS means|39.1|||<|0.0001|TWO_SIDED|95.0|31.0|49.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||49.4|31.0|<.0001
92264758|NCT05664672|184430834|SUPERIORITY||Ratio of geometric LS means|119.0||||0.2351|TWO_SIDED|95.0|93.2|151.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||151|93.2|0.2351
92264759|NCT05664672|184430834|SUPERIORITY||Ratio of geometric LS means|110.0||||0.657|TWO_SIDED|95.0|87.7|138.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||138|87.7|0.6570
92264760|NCT05664672|184430834|SUPERIORITY||Ratio of geometric LS means|113.0||||0.5112|TWO_SIDED|95.0|89.1|142.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||142|89.1|0.5112
92286971|NCT03733444|184479060|SUPERIORITY||LS Mean difference|0.9|||||TWO_SIDED|95.0|-12.4|14.1|||||The treatment effect was determined by using estimated least square mean difference between each active treatment group and placebo from the mixed model.|||14.1|-12.4|
92286972|NCT03733444|184479060|SUPERIORITY||LS Mean difference|3.6|||||TWO_SIDED|95.0|-10.4|17.6|||||The treatment effect was determined by using estimated least square mean difference between each active treatment group and placebo from the mixed model.|||17.6|-10.4|
92286973|NCT03733444|184479061|SUPERIORITY||Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|1.01|2.35|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause hospitalization.|||2.35|1.01|
92286974|NCT03733444|184479061|SUPERIORITY||Hazard Ratio (HR)|1.4|||||TWO_SIDED|95.0|0.91|2.16|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to all cause hospitalization.|||2.16|0.91|
92286975|NCT03733444|184479064|SUPERIORITY||Hazard Ratio (HR)|2.92|||||TWO_SIDED|95.0|1.04|8.14|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first acute IPF exacerbation.|||8.14|1.04|
92286976|NCT03733444|184479064|SUPERIORITY||Hazard Ratio (HR)|1.68|||||TWO_SIDED|95.0|0.55|5.13|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first acute IPF exacerbation.|||5.13|0.55|
92286977|NCT03733444|184479065|SUPERIORITY||Hazard Ratio (HR)|2.27|||||TWO_SIDED|95.0|1.06|4.82|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality or hospitalization for non-elective lung transplant.|||4.82|1.06|
92286978|NCT03733444|184479065|SUPERIORITY||Hazard Ratio (HR)|1.87|||||TWO_SIDED|95.0|0.86|4.06|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality or hospitalization for non-elective lung transplant.|||4.06|0.86|
92286979|NCT03733444|184479066|SUPERIORITY||Hazard Ratio (HR)|2.27|||||TWO_SIDED|95.0|1.06|4.82|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality, hospitalization for non-elective lung transplant or hospitalization for qualifying for lung transplant.|||4.82|1.06|
92286980|NCT03733444|184479066|SUPERIORITY||Hazard Ratio (HR)|1.87|||||TWO_SIDED|95.0|0.86|4.06|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality, hospitalization for non-elective lung transplant or hospitalization for qualifying for lung transplant.|||4.06|0.86|
92286981|NCT03733444|184479067|SUPERIORITY||Hazard Ratio (HR)|1.99|||||TWO_SIDED|95.0|1.2|3.31|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or hospitalization that meets \>=10% absolute decline in %FVC or respiratory-related hospitalization.|||3.31|1.20|
92286982|NCT03733444|184479067|SUPERIORITY||Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.88|2.54|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or hospitalization that meets \>=10% absolute decline in %FVC or respiratory-related hospitalization.|||2.54|0.88|
92286983|NCT03733444|184479068|SUPERIORITY||Hazard Ratio (HR)|1.99|||||TWO_SIDED|95.0|1.2|3.31|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or respiratory-related hospitalizations.|||3.31|1.20|
92286984|NCT03733444|184479068|SUPERIORITY||Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.88|2.54|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or respiratory-related hospitalizations.|||2.54|0.88|
92286985|NCT02648438|184479117|SUPERIORITY_OR_OTHER||Geometric mean ratio|62.61|||||TWO_SIDED|90.0|53.01|73.94|||||Ratio (%)|Statistical Assessment of AZD7594 Pharmacokinetic Parameter (AUC0-t) Following Inhalation Administration ofAZD7594 via DPI Device 2 Versus DPI Device 1.||73.94|53.01|
92286986|NCT02648438|184479118|SUPERIORITY_OR_OTHER||Geometric mean ratio|101.15|||||TWO_SIDED|90.0|85.21|120.06|||||Ratio (%)|Statistical Assessment of AZD7594 Pharmacokinetic Parameter (AUC0-t) Following Inhalation Administration ofAZD7594 via DPI Device 2 Versus DPI Device 1.||120.06|85.21|
92286987|NCT01854047|184479128|SUPERIORITY||Least Square (LS) Mean Difference|0.21||||0.0063|TWO_SIDED|95.0|0.06|0.36||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 300 mg q2w vs. Placebo q2w|Analysis was performed using mixed effect model with repeated measures (MMRM) approach including available FEV1 data from baseline to Week 12 and treatment group as a factor. A step-down procedure was used to strongly control the overall type I error rate for testing multiple doses against placebo. The hierarchy was 300 mg q2w, 200 mg q2w, 300 mg q4w, and 200 mg q4w.||0.36|0.06|0.0063
92286988|NCT01854047|184479128|SUPERIORITY||LS Mean Difference|0.26||||0.0008|TWO_SIDED|95.0|0.11|0.4||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 200 mg q2w vs. Placebo q2w|||0.40|0.11|0.0008
92286989|NCT01854047|184479128|SUPERIORITY||LS Mean Difference|0.17||||0.0212|TWO_SIDED|95.0|0.03|0.32||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 300 mg q4w vs. Placebo q2w|||0.32|0.03|0.0212
92286990|NCT01854047|184479128|SUPERIORITY||LS Mean Difference|0.08||||0.2774|TWO_SIDED|95.0|-0.07|0.23||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 200 mg q4w vs. Placebo q2w|||0.23|-0.07|0.2774
92286991|NCT01854047|184479129|SUPERIORITY||LS Mean Difference|0.16||||0.0002|TWO_SIDED|95.0|0.08|0.25||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 300 mg q2w vs. Placebo q2w|Analysis was performed using MMRM approach including available FEV1 data from baseline to Week 12 and treatment group as a factor. A step-down procedure was used to strongly control the overall type I error rate for testing multiple doses against placebo. The hierarchy was 300 mg q2w, 200 mg q2w, 300 mg q4w and 200 mg q4w.||0.25|0.08|0.0002
92286992|NCT01854047|184479129|SUPERIORITY||LS Mean Difference|0.2|||<|0.0001|TWO_SIDED|95.0|0.011|0.28||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 200 mg q2w vs. Placebo q2w|||0.28|0.011|<0.0001
92286993|NCT01854047|184479129|SUPERIORITY||LS Mean Difference|0.12||||0.0048|TWO_SIDED|95.0|0.04|0.21||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 300 mg q4w vs. Placebo q2w|||0.21|0.04|0.0048
92286994|NCT01854047|184479129|SUPERIORITY||LS Mean Difference|0.1||||0.0304|TWO_SIDED|95.0|0.01|0.18||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 200 mg q4w vs. Placebo q2w|||0.18|0.01|0.0304
92286995|NCT01045161|184479151|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.051||||0.019|TWO_SIDED|95.0|0.01|0.09|||ANCOVA|||||0.09|0.01|0.019
92286996|NCT01045161|184479151|SUPERIORITY_OR_OTHER||Least squares mean difference|0.072||||0.0012|TWO_SIDED|95.0|0.03|0.12|||ANCOVA|||||0.12|0.03|0.0012
92286997|NCT01045161|184479153|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.051||||0.0192|TWO_SIDED|95.0|0.01|0.09|||ANCOVA|||||0.09|0.01|0.0192
92286998|NCT01045161|184479153|SUPERIORITY_OR_OTHER||Least Squares Mean difference|0.072||||0.0012|TWO_SIDED|95.0|0.03|0.12|||ANCOVA|||||0.12|0.03|0.0012
92286999|NCT02444715|184479155|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||t-test, 2 sided|||H0: no change between baseline and post-intervention||||0.96
92287000|NCT02444715|184479155|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 2 sided|||H0: no change between baseline and post-intervention||||0.03
92287001|NCT02444715|184479156|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.53
92287002|NCT02444715|184479156|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.44
92287003|NCT02444715|184479157|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.76
92287004|NCT02444715|184479157|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.04
92287005|NCT02444715|184479158|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.39
92287006|NCT02444715|184479158|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.04
92287007|NCT02444715|184479159|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.92
92287008|NCT02444715|184479159|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.37
92287009|NCT02444715|184479160|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.78
92287010|NCT02444715|184479160|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.19
92287011|NCT02444715|184479161|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||H0: no change between baseline and post-intervention||||0.9
92287012|NCT02444715|184479161|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||t-test, 2 sided|||H0: no change between baseline and post-intervention||||0.43
92287013|NCT02444715|184479162|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.67
92287014|NCT02444715|184479162|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.04
92287015|NCT02444715|184479163|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.26
92287016|NCT02444715|184479163|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.07
92287017|NCT02444715|184479164|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.06
92287018|NCT02444715|184479164|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.04
92287019|NCT02444715|184479165|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"Medium intensity~H0: no change between baseline and post-intervention"||||0.37
92287020|NCT02444715|184479165|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"Medium intensity~H0: no change between baseline and post-intervention"||||0.34
92287021|NCT02444715|184479165|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"High intensity~H0: no change between baseline and post-intervention"||||0.37
92287022|NCT02444715|184479165|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"High intensity~H0: no change between baseline and post-intervention"||||0.59
92183121|NCT02434328|184264741|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-4.2|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.3|-4.2|
92183122|NCT02434328|184264741|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-3.5|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.2|-3.5|
92183123|NCT02434328|184264741|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-4.8|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||4.3|-4.8|
92183124|NCT02434328|184264741|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-3.3|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||5.2|-3.3|
92183125|NCT02434328|184264741|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-4.5|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.9|-4.5|
92183126|NCT02434328|184264741|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-0.1|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||8.0|-0.1|
92183127|NCT02434328|184264741|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-4.3|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.6|-4.3|
92183128|NCT02434328|184264742|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-8.9|1.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||1.5|-8.9|
92183129|NCT02434328|184264742|OTHER||Difference in proportions|-2.6|||||TWO_SIDED|95.0|-7.6|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.5|-7.6|
92183130|NCT02434328|184264742|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-6.9|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||3.7|-6.9|
92183131|NCT02434328|184264742|OTHER||Difference in proportions|-7.8|||||TWO_SIDED|95.0|-13.0|-2.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-2.7|-13.0|
92287285|NCT01363765|184479491|SUPERIORITY_OR_OTHER||notification rate ratio|1.59|||<|0.01|TWO_SIDED|95.0|1.32|1.87||NR were calculated using an aggregated database consisting of 896 strata for laboratory (n=14), study month (n=8), sex (n=2) and age group (n=4: \<15, 15-39, 40-59, and \>=60 years). Poisson regression modeling was used to analyze changes in TB TB NR|Clustered Avareged|Adjustment for municipality, age, sex, and baseline proportion of samples with a positive smear was by a population-averaged quasi-likelihood approach|"The numbers reported in the CONSORT flowchart refer to the diagnostic samples. NR were obtained crosslinking lab and notification databases, denominator was population/year."|cluster-averaged NNR=1.59 (CI95% 1.31-1.88) Absolute numbers informed in table do not allow calculation of notification rates; they are based on population size, not in total numbers and percentages||1.87|1.32|<0.01
92183132|NCT02434328|184264742|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-3.6|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||6.2|-3.6|
92183133|NCT02434328|184264742|OTHER||Difference in proportions|-7.9|||||TWO_SIDED|95.0|-12.6|-3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-3.1|-12.6|
92183134|NCT02434328|184264742|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-6.8|2.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.7|-6.8|
92183135|NCT02434328|184264742|OTHER||Difference in proportions|-5.3|||||TWO_SIDED|95.0|-10.5|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-0.3|-10.5|
92183136|NCT02434328|184264742|OTHER||Difference in proportions|-5.5|||||TWO_SIDED|95.0|-10.3|-0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-0.4|-10.3|
92183137|NCT02434328|184264742|OTHER||Difference in proportions|-6.0|||||TWO_SIDED|95.0|-11.2|-0.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-0.5|-11.2|
92183138|NCT02434328|184264742|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-4.8|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||5.6|-4.8|
92183139|NCT02434328|184264742|OTHER||Difference in proportions|-9.1|||||TWO_SIDED|95.0|-13.8|-3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-3.9|-13.8|
92287286|NCT01363765|184479491|SUPERIORITY_OR_OTHER||notification rate ratio|1.7|||<|0.001|TWO_SIDED|95.0|1.51|1.92|||Mixed Models Analysis|Mixed multi-level model, time-adjusted||Secondary analysis: Mixed multi-level model||1.92|1.51|<0.001
92183140|NCT02434328|184264742|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-7.1|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||3.5|-7.1|
92183141|NCT02434328|184264742|OTHER||Difference in proportions|-5.2|||||TWO_SIDED|95.0|-11.1|0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||0.1|-11.1|
92183142|NCT02434328|184264742|OTHER||Difference in proportions|-5.6|||||TWO_SIDED|95.0|-10.9|-0.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||-0.5|-10.9|
92183143|NCT02434328|184264742|OTHER||Difference in proportions|-5.1|||||TWO_SIDED|95.0|-10.9|0.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||0.6|-10.9|
92183144|NCT02434328|184264742|OTHER||Difference in proportions|-5.2|||||TWO_SIDED|95.0|-11.0|-0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||-0.1|-11.0|
92287287|NCT01363765|184479492|SUPERIORITY_OR_OTHER||incremental cost-effectiveness ratio|-84.07||||||95.0||||||Incremental cost-effectiveness ratio (ICER) per case detected||||||
92183145|NCT02434328|184264742|OTHER||Difference in proportions|-6.9|||||TWO_SIDED|95.0|-12.5|-1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-1.2|-12.5|
92183146|NCT02434328|184264742|OTHER||Difference in proportions|-5.5|||||TWO_SIDED|95.0|-10.7|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||-0.3|-10.7|
92183147|NCT02434328|184264742|OTHER||Difference in proportions|-6.5|||||TWO_SIDED|95.0|-12.4|-0.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-0.9|-12.4|
92183148|NCT02434328|184264742|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-7.0|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.4|-7.0|
92183149|NCT02434328|184264742|OTHER||Difference in proportions|-4.8|||||TWO_SIDED|95.0|-10.5|1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||1.3|-10.5|
92183150|NCT02434328|184264742|OTHER||Difference in proportions|-5.6|||||TWO_SIDED|95.0|-11.4|0.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||0.5|-11.4|
92183151|NCT02434328|184264742|OTHER||Difference in proportions|-5.9|||||TWO_SIDED|95.0|-11.5|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-0.3|-11.5|
92183152|NCT02434328|184264743|OTHER||Difference in proportions|-6.9|||||TWO_SIDED|95.0|-14.2|0.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||0.2|-14.2|
92183153|NCT02434328|184264743|OTHER||Difference in proportions|-9.2|||||TWO_SIDED|95.0|-15.5|-2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-2.5|-15.5|
92183154|NCT02434328|184264743|OTHER||Difference in proportions|-8.7|||||TWO_SIDED|95.0|-15.0|-2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-2.6|-15.0|
92183155|NCT02434328|184264743|OTHER||Difference in proportions|-15.7|||||TWO_SIDED|95.0|-22.9|-9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-9.0|-22.9|
92183156|NCT02434328|184264743|OTHER||Difference in proportions|7.7|||||TWO_SIDED|95.0|0.9|14.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||14.8|0.9|
92183157|NCT02434328|184264743|OTHER||Difference in proportions|-20.0|||||TWO_SIDED|95.0|-27.3|-13.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-13.1|-27.3|
92183158|NCT02434328|184264743|OTHER||Difference in proportions|-3.9|||||TWO_SIDED|95.0|-10.4|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.4|-10.4|
92183159|NCT02434328|184264743|OTHER||Difference in proportions|-9.7|||||TWO_SIDED|95.0|-16.7|-2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-2.5|-16.7|
92183160|NCT02434328|184264743|OTHER||Difference in proportions|-9.4|||||TWO_SIDED|95.0|-15.8|-3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-3.4|-15.8|
92183161|NCT02434328|184264743|OTHER||Difference in proportions|-16.5|||||TWO_SIDED|95.0|-23.4|-9.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-9.6|-23.4|
92183162|NCT02434328|184264743|OTHER||Difference in proportions|3.4|||||TWO_SIDED|95.0|-3.3|10.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||10.4|-3.3|
92183163|NCT02434328|184264743|OTHER||Difference in proportions|-18.1|||||TWO_SIDED|95.0|-24.9|-11.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-11.8|-24.9|
92183164|NCT02434328|184264743|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-9.2|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||3.2|-9.2|
92183165|NCT02434328|184264743|OTHER||Difference in proportions|-9.4|||||TWO_SIDED|95.0|-16.3|-2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||-2.8|-16.3|
92183166|NCT02434328|184264743|OTHER||Difference in proportions|-5.7|||||TWO_SIDED|95.0|-12.5|1.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||1.1|-12.5|
92183167|NCT02434328|184264743|OTHER||Difference in proportions|-15.5|||||TWO_SIDED|95.0|-21.9|-8.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-8.5|-21.9|
92183168|NCT02434328|184264743|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-5.9|7.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||7.5|-5.9|
92183169|NCT02434328|184264743|OTHER||Difference in proportions|-14.9|||||TWO_SIDED|95.0|-21.4|-8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-8.1|-21.4|
92183170|NCT02434328|184264743|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-7.5|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||5.4|-7.5|
92183171|NCT02434328|184264743|OTHER||Difference in proportions|-10.4|||||TWO_SIDED|95.0|-17.2|-3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-3.4|-17.2|
92287288|NCT01363765|184479493|SUPERIORITY_OR_OTHER||NRR|0.98||||0.923|TWO_SIDED|95.0|0.64|1.32||cluster-averaged adjusted NRR (notification rate ratio, not calculable from number shown, which are a proportion of tests. NRR calculated over a population/year denominator.|Agregated cluster-averaged|||||1.32|0.64|0.923
92287289|NCT01363765|184479494|SUPERIORITY_OR_OTHER||NRR|0.52||||0.004|TWO_SIDED|95.0|0.21|0.84||cluster-averaged adjusted NRR|Agregated cluster-averaged|||||0.84|0.21|0.004
92287290|NCT00609674|184479503|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANCOVA|||||||0.004
92287291|NCT00834431|184479516|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|92.0||||||90.0|85.9|98.6|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||98.6|85.9|
92287292|NCT00834431|184479517|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.6||||||90.0|96.2|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101|96.2|
92287293|NCT00834431|184479518|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.7||||||90.0|96.3|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101|96.3|
92287294|NCT00556322|184479531|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.7299|TWO_SIDED|95.0|0.78|1.19|||Log Rank|||||1.19|0.78|0.7299
92287295|NCT00556322|184479534|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.6198|TWO_SIDED|95.0|0.72|1.21|||Log Rank|||Comparison of EGFR positive populations||1.21|0.72|0.6198
92287296|NCT00556322|184479534|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.95||||0.8398|TWO_SIDED|95.0|0.55|1.62|||Log Rank|||Comparison of EGFR negative populations||1.62|0.55|0.8398
92287297|NCT00556322|184479537|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.0885|TWO_SIDED|95.0|0.97|1.46|||Log Rank|||||1.46|0.97|0.0885
92287298|NCT00556322|184479540|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||0.0662|TWO_SIDED|95.0|0.98|1.61|||Log Rank|||Comparison of EGFR positive populations||1.61|0.98|0.0662
92287299|NCT00556322|184479540|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.9403|TWO_SIDED|95.0|0.61|1.69|||Log Rank|||Comparison of EGFR negative populations||1.69|0.61|0.9403
92287300|NCT00556322|184479542|SUPERIORITY_OR_OTHER||Difference in Response Rates|1.55||||0.5349|TWO_SIDED|95.0|-3.6|6.7||p-values are based on non-stratified analysis|Chi-squared||Approximate 95% CI for the difference of two rates was determined using Hauck-Anderson Method|||6.7|-3.6|0.5349
92287301|NCT00556322|184479544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.1498|TWO_SIDED|95.0|0.93|1.59|||Log Rank|||||1.59|0.93|0.1498
92287302|NCT00556322|184479547|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.2202|TWO_SIDED|95.0|0.9|1.57|||Log Rank|||||1.57|0.90|0.2202
92287303|NCT00556322|184479550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.1063|TWO_SIDED|95.0|0.95|1.66|||Log Rank|||||1.66|0.95|0.1063
92287304|NCT05446870|184479595|OTHER||Posterior probability (%)|100.0|||||||||||||||Posterior probability (based on 20000 sets of model parameters) ctDNA fold change (square root scale) coefficient less than zero in the multivariable logistic regression model of pCR, adjusted for baseline ctDNA and treatment assignment.|||
92287305|NCT05446870|184479597|OTHER||Posterior probability (%)|90.99|||||||||||||||Posterior probability (based on 20000 sets of model parameters) ctDNA fold change (square root scale) coefficient less than zero in the multivariable logistic regression model of CRS (CRS3 coded as 1 and CRS1 or 2 coded as 0), adjusted for baseline ctDNA and treatment assignment.|||
92287306|NCT05446870|184479598|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC + MK-4830 arm - % Pembrolizumab + SOC arm) and 95% confidence interval (CI) were based on Miettinen \& Nurminen method.|Difference in Percentage|1.1|||||TWO_SIDED|95.0|-10.0|12.9||||||||12.9|-10.0|
92287307|NCT05446870|184479599|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC + MK-4830 arm - % Pembrolizumab + SOC arm) and 95% CI were based on Miettinen \& Nurminen method.|Difference in Percentage|20.7|||||TWO_SIDED|95.0|3.5|37.0||||||||37.0|3.5|
92287308|NCT05446870|184479602|OTHER||Posterior probability (%)|38.75|||||||||||||||Posterior probability (based on 20000 sets of model parameters) coefficient for treatment assignment (MK-4830 containing vs. not) less than zero in Bayesian parametrization of the constrained longitudinal data analysis (cLDA) model, modeling ctDNA value at Cycle 3 and ctDNA value at baseline as bivariate normal.|||
92287309|NCT01686438|184479617|NON_INFERIORITY|The mean change in ISI score from baseline in Veterans receiving CBT-I by video teleconferencing will be no more than 1.67 smaller than the reference treatment, i.e., Veterans receiving in-person CBT-I.|Mean Difference (Net)|-2.03|STANDARD_DEVIATION|1.33||0.138|TWO_SIDED|95.0|-4.63|1.57|||t-test, 1 sided|||||1.57|-4.63|0.138
92287310|NCT00984126|184479631|SUPERIORITY_OR_OTHER||Incidence rate|0.0|||||ONE_SIDED|95.0||1.4||||||A one-sided 95% upper confidence limit was based on an exact calculation for a binomial distribution.||1.4||
92287311|NCT02009163|184479668|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value based on a log-rank test, stratified by 4-week cessation status (Yes, No). 4-week cessation was defined as a subject having no binge days during the 4 weeks prior to randomization.|Log Rank|||||||<0.001
92287312|NCT02009163|184479669|SUPERIORITY_OR_OTHER_LEGACY||difference in LS mean|-0.61|||<|0.001|TWO_SIDED|95.0|-0.81|-0.42||Nominal P-value not adjusted for multiplicity.|mixed- effects model for repeated measur|MMRM over all post-randomization visits during the randomized-withdrawal phase. Value for change from baseline = outcome variable.||||-0.42|-0.81|<0.001
92287313|NCT02009163|184479670|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Unadjusted P-value for the difference in distribution between treatment groups in CGI-S.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with a modified ridit score, adjusting for Visit 8 (Week 12) CGI-S as the covariate.||||||<0.001
92287314|NCT02009163|184479671|SUPERIORITY_OR_OTHER_LEGACY||difference in LS mean|-5.6|||<|0.001|TWO_SIDED|95.0|-7.2|-3.9||Nominal P-value not adjusted for multiplicity.|mixed-effects model for repeated measure|MMRM over all post-randomization visits during the randomized-withdrawal phase. Value for change from baseline = outcome variable.||||-3.9|-7.2|<0.001
92183172|NCT02434328|184264743|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-11.4|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||2.3|-11.4|
92183173|NCT02434328|184264743|OTHER||Difference in proportions|-11.0|||||TWO_SIDED|95.0|-18.2|-4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||-4.1|-18.2|
92287315|NCT00833586|184479702|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|95.1||||||90.0|85.8|105.4|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.4|85.8|
92183174|NCT02434328|184264743|OTHER||Difference in proportions|-2.9|||||TWO_SIDED|95.0|-9.4|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||3.5|-9.4|
92183175|NCT02434328|184264743|OTHER||Difference in proportions|-14.1|||||TWO_SIDED|95.0|-21.3|-7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-7.2|-21.3|
92183176|NCT01276509|184264755|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.05|STANDARD_ERROR_OF_MEAN|0.121||0.3393|TWO_SIDED|90.0|-0.149|0.249|||Mixed Models Analysis|||Difference from placebo at Week 8||0.249|-0.149|0.3393
92183177|NCT01276509|184264755|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.124|STANDARD_ERROR_OF_MEAN|0.117||0.1433|TWO_SIDED|90.0|-0.068|0.316|||Mixed Models Analysis|||Difference from placebo at Week 8||0.316|-0.068|0.1433
92183178|NCT01276509|184264755|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.15|STANDARD_ERROR_OF_MEAN|0.113||0.0922|TWO_SIDED|90.0|-0.036|0.335|||Mixed Models Analysis|||Difference from placebo at Week 8||0.335|-0.036|0.0922
92183179|NCT01276509|184264755|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.034|STANDARD_ERROR_OF_MEAN|0.117||0.3864|TWO_SIDED|90.0|-0.158|0.225|||Mixed Models Analysis|||Difference from placebo at Week 12||0.225|-0.158|0.3864
92183180|NCT01276509|184264755|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.061|STANDARD_ERROR_OF_MEAN|0.117||0.3005|TWO_SIDED|90.0|-0.131|0.253|||Mixed Models Analysis|||Difference from placebo at Week 12||0.253|-0.131|0.3005
92183181|NCT01276509|184264755|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|-0.011|STANDARD_ERROR_OF_MEAN|0.114||0.5385|TWO_SIDED|90.0|-0.198|0.176|||Mixed Models Analysis|||Difference from placebo at Week 12||0.176|-0.198|0.5385
92183182|NCT01276509|184264758|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.124|STANDARD_ERROR_OF_MEAN|0.107||0.1234|TWO_SIDED|90.0|-0.052|0.299|||Mixed Models Analysis|||Difference from placebo at week 8||0.299|-0.052|0.1234
92183183|NCT01276509|184264758|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.071|STANDARD_ERROR_OF_MEAN|0.099||0.2378|TWO_SIDED|90.0|-0.092|0.234|||Mixed Models Analysis|||Difference from placebo at week 8||0.234|-0.092|0.2378
92183184|NCT01276509|184264758|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.102|STANDARD_ERROR_OF_MEAN|0.1||0.1529|TWO_SIDED|90.0|-0.062|0.266|||Mixed Models Analysis|||Difference from placebo at week 8||0.266|-0.062|0.1529
92183185|NCT01276509|184264758|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.038|STANDARD_ERROR_OF_MEAN|0.112||0.3661|TWO_SIDED|90.0|-0.146|0.222|||Mixed Models Analysis|||Difference from placebo at week 12||0.222|-0.146|0.3661
92183186|NCT01276509|184264758|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.055|STANDARD_ERROR_OF_MEAN|0.116||0.3169|TWO_SIDED|90.0|-0.136|0.246|||Mixed Models Analysis|||Difference from placebo at week 12||0.246|-0.136|0.3169
92183187|NCT01276509|184264758|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.066|STANDARD_ERROR_OF_MEAN|0.111||0.2755|TWO_SIDED|90.0|-0.116|0.248|||Mixed Models Analysis|||Difference from placebo at week 12||0.248|-0.116|0.2755
92183188|NCT03964974|184264820|SUPERIORITY|2-sided hypothesis tests were utilized to compare ISI score over time in the two treatment conditions.|Median Difference (Final Values)|-4.307|STANDARD_ERROR_OF_MEAN|1.612||0.0041|TWO_SIDED|95.0|-7.51|-1.104||This is the calculated p-value. The threshold for statistical significance was 0.05.|Mixed Models Analysis|||Persons in the CBTI-CB condition were hypothesized as realizing greater reduction in insomnia severity as measured by the Insomnia Severity Index (ISI) over time compared to the Sleep Hygiene Education (SHE) condition. 80% power was estimated to detect a medium or larger effect size (d\>0.52) on sleep- and functioning-related outcomes, even with a more conservative alpha set at 0.017 (i.e., 0.05/3 for the 3 outcomes).|Parameter is estimated difference in final means, CBTi-CB - Control. Minus sign denotes greater decrease for CBTi-CB. Effect size for Time X Condition = 0.81|-1.104|-7.510|0.0041
92183189|NCT02962284|184264875|SUPERIORITY||||||>|0.1|||||||ANCOVA|||||||>0.1
92183190|NCT03926026|184264897|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.0471|TWO_SIDED|95.0|-1.5|0.0|||t-test, 2 sided|||||0|-1.5|0.0471
92183191|NCT00413283|184264901|SUPERIORITY_OR_OTHER|||||||0.972|||||||Satterthwaite t-test|||||||0.972
92183192|NCT00413283|184264901|SUPERIORITY_OR_OTHER|||||||0.725|||||||Satterthwaite t-test|||||||0.725
92183193|NCT00413283|184264901|SUPERIORITY_OR_OTHER|||||||0.312|||||||Satterthwaite t-test|||||||0.312
92183194|NCT00413283|184264902|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
92183195|NCT00413283|184264902|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
92183196|NCT00413283|184264902|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
92183197|NCT00413283|184264903|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
92183198|NCT00413283|184264903|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
92183199|NCT00413283|184264903|SUPERIORITY_OR_OTHER|||||||0.342|||||||Fisher Exact|||||||0.342
92183200|NCT00413283|184264904|SUPERIORITY_OR_OTHER|||||||0.454|||||||Satterthwaite t-test|||||||0.454
92183201|NCT00413283|184264904|SUPERIORITY_OR_OTHER|||||||0.101|||||||Satterthwaite t-test|||||||0.101
92183202|NCT00413283|184264904|SUPERIORITY_OR_OTHER|||||||0.199|||||||Satterthwaite t-test|||||||0.199
92183203|NCT00413283|184264905|SUPERIORITY_OR_OTHER|||||||0.662|||||||Fisher Exact|||||||0.662
92183204|NCT00413283|184264905|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
92183205|NCT00413283|184264905|SUPERIORITY_OR_OTHER|||||||0.662|||||||Fisher Exact|||||||0.662
92183206|NCT01823224|184264907|SUPERIORITY_OR_OTHER|||||||0.875|TWO_SIDED||||||Repeated analysis of variance|||||||0.875
92183207|NCT01823224|184264908|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Manova|||||||> 0.05
92183208|NCT01303796|184264913|SUPERIORITY||Hazard Ratio (HR)|1.013|||<|0.0249|TWO_SIDED|95.0|0.837|1.226||one-sided|Kaplan-Meier|||The phase III part planned to randomize 485 patients, about 243 per arm (actual 241 patients per arm), over an estimated period of 24 months. Final analysis would occur at approximately 424 deaths, which was expected to be observed about 43 months after the accrual of the first patient. A stratified log rank analysis would have 90% power to detect a 27.5% reduction in the risk of death, i.e., a hazard ratio of 0.725, between Arm A and Arm C.||1.226|0.837|<0.0249
92183209|NCT01303796|184264913|SUPERIORITY||Cox Proportional Hazard|1.08|||<|0.0249|TWO_SIDED|95.0|0.86|1.35||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (pre-specified): Presence of antecedent MDS or MPD (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment Levels: No (i.e., de novo) vs Presence of antecedent MDS or MPD"||1.35|0.86|<0.0249
92183210|NCT01303796|184264913|SUPERIORITY|Effects of treatments compared in AML patients with baseline WBC count ≥ 10 x 109/L vs WBC count ≤ 10 x 109/L|Cox Proportional Hazard|1.57|||<|0.0249|TWO_SIDED|95.0|1.12|2.19||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (pre-specified): Baseline peripheral WBC count ≥ 10 x 109/L (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment Levels: Baseline WBC count ≥ 10 x 109/L vs WBC count ≤ 10 x 109/L"||2.19|1.12|<0.0249
92183211|NCT01303796|184264913|SUPERIORITY||Cox Proportional Hazard|1.01|||<|0.0249|TWO_SIDED|95.0|0.77|1.32||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (pre-specified): Baseline bone marrow blast percentage ≥ 50% (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment Levels: Baseline bone marrow blast percentage ≥ 50% vs Blast percentage ≤ 50%"||1.32|0.77|<0.0249
92183212|NCT01303796|184264913|SUPERIORITY||Cox Proportional Hazard|1.27|||<|0.0249|TWO_SIDED|95.0|0.94|1.73|||Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (pre-specified): Unfavorable cytogenetics risk by SWOG (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment Levels: Unfavorable cytogenetics vs other"||1.73|0.94|<0.0249
92183213|NCT01303796|184264913|SUPERIORITY||Cox Proportional Hazard|1.222|||<|0.0249|TWO_SIDED|||||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (post-hoc): Region (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment (Arm A) Levels: EU vs US"||||<0.0249
92183214|NCT01303796|184264913|SUPERIORITY||Cox Proportional Hazard|1.071|||<|0.0249|TWO_SIDED|||||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (post-hoc): Age (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment (Arm A) Levels: ≥ 75 years old vs ≤ 75 years old"||||<0.0249
92183215|NCT01303796|184264913|SUPERIORITY||Cox Proportional Hazard|0.956|||<|0.0249|TWO_SIDED|||||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (post-hoc): Gender (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment (Arm A) Levels: Male vs Female"||||<0.0249
92183216|NCT01303796|184264913|SUPERIORITY||||||<|0.0249||||||one-sided|Log Rank|Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.||"Subgroup analyses (post-hoc): ECOG status (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment (Arm A) Levels: Status 2 vs \< 2"||||<0.0249
92183217|NCT01303796|184264913|SUPERIORITY||||||<|0.0249||||||one-sided|Log Rank|Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.||"Subgroup analyses (post-hoc): HCT-CI score (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment Levels: HCT-CI score 0-2 vs HCT-CI score \>2"||||<0.0249
92183218|NCT01303796|184264914|SUPERIORITY||Cox Proportional Hazard|1.34||||0.1468|TWO_SIDED|95.0|0.645|2.782|||Fisher Exact|||||2.782|0.645|0.1468
92183219|NCT01303796|184264919|SUPERIORITY|||||||0.0416|||||||Wilcoxon (Mann-Whitney)|||||||0.0416
92183220|NCT01303796|184264920|SUPERIORITY|||||||0.1568|||||||Wilcoxon (Mann-Whitney)|||||||0.1568
92183221|NCT01303796|184264921|SUPERIORITY||Cox Proportional Hazard|1.013|||<|0.0249|TWO_SIDED|95.0|0.837|1.226||one-sided|Log Rank|||||1.226|0.837|<0.0249
92183222|NCT02148705|184264934|SUPERIORITY||Odds Ratio (OR)|288.281|||<|0.0001|TWO_SIDED|95.0|35.549|13984.356|||Fisher Exact|||||13984.356|35.549|<0.0001
92183223|NCT02148705|184264935|SUPERIORITY||Odds Ratio (OR)|0.011|||<|0.0001|TWO_SIDED|95.0|0.003|0.044|||Chi-squared|||||0.044|0.003|<0.0001
92183224|NCT02148705|184264936|SUPERIORITY||Test Statistics|23.1429|||<|0.0001|TWO_SIDED||||||Generalized Wilcoxon-Gehan Test|Analysis is adjusted for Overall TW Depths, TBSA Group, Center Group, and Number of TWs||||||<0.0001
92183225|NCT02148705|184264937|SUPERIORITY||estimate|6505.8|STANDARD_ERROR_OF_MEAN|269.88|<|0.0001|TWO_SIDED|95.0|5974.41|7037.19|||Wilcoxon (Mann-Whitney)|Wilcoxon tests pooled using Rubin´s rule||||7037.19|5974.41|<0.0001
92183226|NCT02824198|184264945|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval (CI) of the Geometric mean of titer ratios (GMTRs) (booster vs post-dose 3) was greater than (\>) 1/2 for each serotype.|Geometric mean of titer ratio|1.34|||||TWO_SIDED|95.0|0.998|1.79||||||Dengue Virus Serotype 1||1.79|0.998|
92183227|NCT02824198|184264945|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \> 1/2 for each serotype.|Geometric mean of titer ratio|0.603|||||TWO_SIDED|95.0|0.439|0.829||||||Dengue Virus Serotype 2||0.829|0.439|
92183228|NCT02824198|184264945|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \> 1/2 for each serotype.|Geometric mean of titer ratio|0.979|||||TWO_SIDED|95.0|0.746|1.28||||||Dengue Virus Serotype 3||1.28|0.746|
92183229|NCT02824198|184264945|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \> 1/2 for each serotype.|Geometric mean of titer ratio|1.27|||||TWO_SIDED|95.0|0.918|1.75||||||Dengue Virus Serotype 4||1.75|0.918|
92183230|NCT03883828|184264958|SUPERIORITY||Multivariable Linear Regression|-0.45||||0.004|TWO_SIDED|95.0|-0.75|-0.15||Two-sided p-values equal to or less than 0.05 were considered statistically significant|Fisher Exact|||||-0.15|-0.75|0.004
92183231|NCT03883828|184264959|SUPERIORITY|||||||0.2||||||A 2-sided P ≤ .05 was considered statistically significant|Wilcoxon (Mann-Whitney)|Symptoms Domain||||||0.20
92183232|NCT03883828|184264959|SUPERIORITY|||||||0.05||||||A 2-sided P ≤ .05 was considered statistically significant|Wilcoxon (Mann-Whitney)|Emotions Domain||||||0.05
92183233|NCT03883828|184264959|SUPERIORITY|||||||0.73||||||A 2-sided P ≤ .05 was considered statistically significant|Wilcoxon (Mann-Whitney)|Functioning Domain||||||0.73
92183234|NCT02736188|184264994|SUPERIORITY||LS Mean Difference|0.8||||0.4287|TWO_SIDED|95.0|-1.17|2.77||Baseline is fit into the model as a covariate.|generalized estimating equation (GEE)|||Week 8||2.77|-1.17|0.4287
92183235|NCT02736188|184264994|SUPERIORITY||LS Mean Difference|0.36||||0.7031|TWO_SIDED|95.0|-1.49|2.21||Baseline is fit into the model as a covariate.|GEE model|||Week 16||2.21|-1.49|0.7031
92183236|NCT02736188|184264994|SUPERIORITY||LS Mean Difference|-0.91||||0.4253|TWO_SIDED|95.0|-3.14|1.32||Baseline is fit into the model as a covariate.|GEE model|||Week 24||1.32|-3.14|0.4253
92183237|NCT02736188|184264994|SUPERIORITY||LS Mean Difference|-0.06||||0.9747|TWO_SIDED|95.0|-3.49|3.38||Baseline is fit into the model as a covariate.|GEE model|||Week 48||3.38|-3.49|0.9747
92183238|NCT02736188|184264995|SUPERIORITY||LS Mean Difference|-0.27||||0.4721|TWO_SIDED|95.0|-1.01|0.47||Baseline is fit into the model as a covariate.|GEE model|||Week 8||0.47|-1.01|0.4721
92183239|NCT02736188|184264995|SUPERIORITY||LS Mean Difference|-0.19||||0.6611|TWO_SIDED|95.0|-1.02|0.64||Baseline is fit into the model as a covariate.|GEE model|||Week 16||0.64|-1.02|0.6611
92183240|NCT02736188|184264995|SUPERIORITY||LS Mean Difference|-0.44||||0.276|TWO_SIDED|95.0|-1.22|0.35|||GEE model|Baseline is fit into the model as a covariate.||Week 24||0.35|-1.22|0.2760
92183241|NCT02736188|184264995|SUPERIORITY||LS Mean Difference|-0.28||||0.6977|TWO_SIDED|95.0|-1.69|1.13||Baseline is fit into the model as a covariate.|GEE model|||Week 48||1.13|-1.69|0.6977
92183242|NCT02736188|184264996|SUPERIORITY||Difference in LS Means|0.7||||0.0648|TWO_SIDED|95.0|-0.04|1.45||Baseline is fit into the model as a covariate.|GEE model|||Week 8||1.45|-0.04|0.0648
92183243|NCT02736188|184264996|SUPERIORITY||difference in LS means|0.74||||0.0692|TWO_SIDED|95.0|-0.06|1.55||Baseline is fit into the model as a covariate.|GEE model|||Week 16||1.55|-0.06|0.0692
92183244|NCT02736188|184264996|SUPERIORITY||difference in LS means|0.44||||0.4317|TWO_SIDED|95.0|-0.65|1.52||Baseline is fit into the model as a covariate.|GEE model|||Week 24||1.52|-0.65|0.4317
92183245|NCT02736188|184264996|SUPERIORITY||difference in LS means|-0.34||||0.6416|TWO_SIDED|95.0|-1.78|1.1||Baseline is fit into the model as a covariate.|GEE model|||Week 48||1.10|-1.78|0.6416
92183246|NCT02736188|184264997|SUPERIORITY||difference in LS means|0.78||||0.6546|TWO_SIDED|95.0|-2.65|4.22||Baseline is fit into the model as a covariate.|GEE model|||Week 8||4.22|-2.65|0.6546
92183247|NCT02736188|184264997|SUPERIORITY||difference in LS means|-0.64||||0.7054|TWO_SIDED|95.0|-3.97|2.69||Baseline is fit into the model as a covariate.|GEE model|||Week 16||2.69|-3.97|0.7054
92183248|NCT02736188|184264997|SUPERIORITY||difference in LS means|-0.5||||0.8441|TWO_SIDED|95.0|-5.45|4.45||Baseline is fit into the model as a covariate.|GEE model|||Week 24||4.45|-5.45|0.8441
92183249|NCT02736188|184264997|SUPERIORITY||difference in LS means|4.15||||0.0864|TWO_SIDED|95.0|-0.59|8.9||Baseline is fit into the model as a covariate.|GEE model|||Week 48||8.90|-0.59|0.0864
92183250|NCT02736188|184264998|SUPERIORITY||difference in LS means|0.06||||0.8603|TWO_SIDED|95.0|-0.65|0.78||Baseline is fit into the model as a covariate.|GEE model|||Week 8||0.78|-0.65|0.8603
92183251|NCT02736188|184264998|SUPERIORITY||difference in LS means|-0.18||||0.6154|TWO_SIDED|95.0|-0.86|0.51||Baseline is fit into the model as a covariate.|GEE model|||Week 16||0.51|-0.86|0.6154
92183252|NCT02736188|184264998|SUPERIORITY||difference in LS means|0.47||||0.1999|TWO_SIDED|95.0|-0.25|1.2||Baseline is fit into the model as a covariate.|GEE model|||Week 24||1.20|-0.25|0.1999
92183253|NCT02736188|184264998|SUPERIORITY||difference in LS means|-0.03||||0.9568|TWO_SIDED|95.0|-1.25|1.18||Baseline is fit into the model as a covariate.|GEE model|||Week 48||1.18|-1.25|0.9568
92183254|NCT02736188|184264999|SUPERIORITY||difference in LS means|0.45||||0.5447|TWO_SIDED|95.0|-1.0|1.9||Baseline is fit into the model as a covariate.|GEE model|||Week 8||1.90|-1.00|0.5447
92183255|NCT02736188|184264999|SUPERIORITY||difference in LS means|-0.56||||0.5051|TWO_SIDED|95.0|-2.22|1.09||Baseline is fit into the model as a covariate.|GEE model|||Week 16||1.09|-2.22|0.5051
92183256|NCT02736188|184264999|SUPERIORITY||difference in LS means|0.27||||0.7478|TWO_SIDED|95.0|-1.36|1.9||Baseline is fit into the model as a covariate.|GEE model|||Week 24||1.90|-1.36|0.7478
92183257|NCT02736188|184264999|SUPERIORITY||difference in LS means|-0.41||||0.7429|TWO_SIDED|95.0|-2.86|2.04||Baseline is fit into the model as a covariate.|GEE model|||Week 48||2.04|-2.86|0.7429
92183258|NCT02736188|184265000|SUPERIORITY||difference in LS means|2.0||||0.6434|TWO_SIDED|95.0|-6.48|10.49||Baseline is fit into the model as a covariate.|GEE model|||Week 8||10.49|-6.48|0.6434
92183259|NCT02736188|184265000|SUPERIORITY||difference in LS means|-1.99||||0.7118|TWO_SIDED|95.0|-12.53|8.55||Baseline is fit into the model as a covariate.|GEE model|||Week 16||8.55|-12.53|0.7118
92183260|NCT02736188|184265000|SUPERIORITY||difference in LS means|4.15||||0.4399|TWO_SIDED|95.0|-6.39|14.69||Baseline is fit into the model as a covariate.|GEE model|||Week 24||14.69|-6.39|0.4399
92183261|NCT02736188|184265000|SUPERIORITY||difference in LS means|7.98||||0.443|TWO_SIDED|95.0|-12.41|28.37||Baseline is fit into the model as a covariate.|GEE model|||Week 48||28.37|-12.41|0.4430
92183262|NCT02736188|184265001|SUPERIORITY||difference in LS means|0.28||||0.6428|TWO_SIDED|95.0|-0.9|1.46||Baseline is fit into the model as a covariate.|GEE model|||Week 8||1.46|-0.90|0.6428
92183263|NCT02736188|184265001|SUPERIORITY||difference in LS means|-0.25||||0.7334|TWO_SIDED|95.0|-1.72|1.21||Baseline is fit into the model as a covariate.|GEE model|||Week 16||1.21|-1.72|0.7334
92183264|NCT02736188|184265001|SUPERIORITY||difference in LS means|0.58||||0.4409|TWO_SIDED|95.0|-0.89|2.04||Baseline is fit into the model as a covariate.|GEE model|||Week 24||2.04|-0.89|0.4409
92183265|NCT02736188|184265001|SUPERIORITY||difference in LS means|0.99||||0.4687|TWO_SIDED|95.0|-1.69|3.68||Baseline is fit into the model as a covariate.|GEE model|||Week 48||3.68|-1.69|0.4687
92183266|NCT02736188|184265002|SUPERIORITY||difference in LS means|1.14||||0.1502|TWO_SIDED|95.0|-0.41|2.69||Baseline is fit into the model as a covariate.|GEE model|||Week 8||2.69|-0.41|0.1502
92183267|NCT02736188|184265002|SUPERIORITY||difference in LS means|-0.2||||0.8188|TWO_SIDED|-1.89|-1.89|1.49||Baseline is fit into the model as a covariate.|GEE model|||Week 16||1.49|-1.89|0.8188
92183268|NCT02736188|184265002|SUPERIORITY||difference in LS means|0.8||||0.5122|TWO_SIDED|95.0|-1.58|3.17||Baseline is fit into the model as a covariate.|GEE model|||Week 24||3.17|-1.58|0.5122
92183269|NCT02736188|184265002|SUPERIORITY||difference in LS means|0.72||||0.7022|TWO_SIDED|95.0|-2.96|4.4||Baseline is fit into the model as a covariate.|GEE model|||Week 48||4.40|-2.96|0.7022
92183270|NCT02736188|184265003|SUPERIORITY||difference in LS means|0.19||||0.7906|TWO_SIDED|95.0|-1.22|1.6||Baseline is fit into the model as a covariate.|GEE model|||Week 8||1.60|-1.22|0.7906
92183271|NCT02736188|184265003|SUPERIORITY||difference in LS means|0.66||||0.3531|TWO_SIDED|95.0|-0.74|2.07||Baseline is fit into the model as a covariate.|GEE model|||Week 16||2.07|-0.74|0.3531
92183272|NCT02736188|184265003|SUPERIORITY||difference in LS means|0.15||||0.8846|TWO_SIDED|95.0|-1.92|2.23||Baseline is fit into the model as a covariate.|GEE model|||Week 24||2.23|-1.92|0.8846
92183273|NCT02736188|184265003|SUPERIORITY||difference in LS means|2.08||||0.0168|TWO_SIDED|95.0|0.38|3.79||Baseline is fit into the model as a covariate.|GEE model|||Week 48||3.79|0.38|0.0168
92287316|NCT00833586|184479703|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|98.9||||||90.0|82.7|118.4|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||118.4|82.7|
92287317|NCT00833586|184479704|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|102.4||||||90.0|95.0|110.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||110.5|95.0|
92287318|NCT00304187|184479707|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92183274|NCT00768755|184265083|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.831||||0.3037|TWO_SIDED|95.0|0.508|1.36|||Log Rank|One-sided log-rank test at alpha = 0.20 significance level was used.||P-value was calculated using 1-sided log rank test, stratified by Eastern Cooperative Oncology Group (ECOG) performance status (0 or 1) and gender (male or female). Hazard ratio (HR): the stratified Cox model was fitted, using the same stratification variables as above.||1.360|0.508|0.3037
92183275|NCT00768755|184265083|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.947||||0.3565|TWO_SIDED|95.0|0.58|1.546|||Log Rank|One-sided log-rank test at alpha = 0.20 significance level was used.||P-value was calculated using 1-sided log rank test, stratified by ECOG performance status (0 or 1) and gender (male or female). HR: the stratified Cox model was fitted, using the same stratification variables as above.||1.546|0.580|0.3565
92287319|NCT01141374|184479733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.0667|STANDARD_DEVIATION|17.28||0.352|TWO_SIDED|95.0|-76.0|23.0||The test of hypothesis was conducted with repeated measures ANOVA with Post hoc. It was performed parametric test to compare data and the statistical significance was p\<0.05.|ANOVA|||Null hypothesis: there was no statistical difference among 3 groups (control, needles and seeds) after 4 auriculotherapy sessions.||23.00|-76.00|0.352
92287320|NCT01141374|184479734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9067|STANDARD_DEVIATION|19.21||0.023|TWO_SIDED|95.0|-67.0|37.0||It was verified the normality of data distribution and the homogeneity of variance.|ANOVA|As for the comparison between the scores, we used ANOVA for repeated measures.It was made post hoc to find the differences among groups.||It was carried out the analysis of variance (ANOVA) among the groups in the 3rd assessment (after 60 days and 8 sessions). The main objective was to compare the difference among the control group, seeds and needles and to recognize significant outcomes of auriculotherapy by seeds or needles.||37.00|-67.00|0.023
92287321|NCT03769025|184479735|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||.1
92287322|NCT03769025|184479736|SUPERIORITY|||||||0.959|||||||t-test, 2 sided|||||||.959
92287323|NCT03374176|184479737|EQUIVALENCE||Mean Difference (Net)|0.05|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||||chi-square|||<0.05
92287324|NCT02911701|184479741|SUPERIORITY|||||||0.3|||||||maxim|||||||0.3
92287325|NCT01110005|184479773|SUPERIORITY||Risk Ratio (RR)|1.3||||0.34|TWO_SIDED|95.0|0.7|2.3|||Regression, log binomial|The regression model adjusted for site of recruitment as a covariate.|D5LR vs. LR|||2.3|0.7|0.34
92287326|NCT01110005|184479774|SUPERIORITY||Risk Ratio (RR)|1.1||||0.4|TWO_SIDED|95.0|0.9|1.3|||Regression, log binomial|The regression model adjusted for site of recruitment as a covariate.|D5LR vs. LR|||1.3|0.9|0.40
92287327|NCT01110005|184479775|SUPERIORITY|||||||0.69|||||||Cochran-Mantel-Haenszel|This method was used to control for site of recruitment||||||0.69
92183276|NCT00768755|184265084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.046||||0.5785|TWO_SIDED|95.0|0.648|1.69|||Log Rank|One-sided log-rank test at alpha = 0.20 significance level was used.||P-value was calculated using 1-sided log rank test, stratified by ECOG performance status (0 or 1) and gender (male or female). HR: the stratified Cox model was fitted, using the same stratification variables as above.||1.690|0.648|0.5785
92183277|NCT00768755|184265084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.449||||0.9392|TWO_SIDED|95.0|0.919|2.285|||Log Rank|One-sided log-rank test at alpha = 0.20 significance level was used.||P-value was calculated using 1-sided log rank test, stratified by ECOG performance status (0 or 1) and gender (male or female). HR: the stratified Cox model was fitted, using the same stratification variables as above.||2.285|0.919|0.9392
92183278|NCT00768755|184265085|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.753||||0.0143|TWO_SIDED|95.0|1.047|2.935|||Cochran-Mantel-Haenszel|||P-value was calculated using Cochran-Mantel-Haenszel (CMH) test stratified by ECOG performance status (0 or 1) and gender (male or female).||2.935|1.047|0.0143
92183279|NCT00768755|184265085|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.512||||0.0665|TWO_SIDED|95.0|0.87|2.626|||Cochran-Mantel-Haenszel|||P-value was calculated using CMH test stratified by ECOG performance status (0 or 1) and gender (male or female).||2.626|0.870|0.0665
92183280|NCT00670488|184265091|OTHER||AUC0-48hr GMR|3.26||||||||||||||"The Last Day (Day 27)/Day 1 AUC 0-48 hr Geometric Mean Ratio (GMR) was calculated as follows: Last Day (Day 27) AUC 0-48hr Geometric Mean (GM) ÷ Day 1 AUC 0-48hr GM.~AUC 0-48hr GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
92183281|NCT00670488|184265091|OTHER||AUC 0-48hr GMR|3.18||||||||||||||"The Last Day (Day 27)/Day 1 AUC 0-48 hr GMR was calculated as follows: Last Day (Day 27) AUC 0-48hr GM ÷ Day 1 AUC 0-48hr GM.~AUC 0-48hr GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
92183282|NCT00670488|184265092|OTHER||Cmax GMR|2.59||||||||||||||"The Last Day (Day 27)/Day 1 Cmax GMR was calculated as follows: Last Day (Day 27) Cmax GM ÷ Day 1 Cmax GM.~Cmax GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
92183283|NCT00670488|184265092|OTHER||Cmax GMR|2.67||||||||||||||"The Last Day (Day 27)/Day 1 Cmax GMR was calculated as follows: Last Day (Day 27) Cmax GM ÷ Day 1 Cmax GM.~Cmax GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
92183284|NCT00670488|184265093|OTHER||C48hr GMR|4.33||||||||||||||"The Last Day (Day 27)/Day 1 C48hr GMR was calculated as follows: Last Day (Day 27) C48hr GM ÷ Day 1 C48hr GM.~C48hr GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
92183285|NCT00670488|184265093|OTHER||C48hr GMR|3.58||||||||||||||"The Last Day (Day 27)/Day 1 C48hr GMR was calculated as follows: Last Day (Day 27) C48hr GM ÷ Day 1 C48hr GM.~C48hr GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
92183286|NCT00670488|184265096|OTHER||AUC0-168hr GMR|1.91||||||||||||||The Last Day/Day 1 AUC 0-168 hr GMR was calculated as follows: Last Day AUC 0-168hr GM ÷ Day 1 AUC 0-48hr GM.||||
92287328|NCT03290781|184479800|SUPERIORITY||Difference in Proportion|0.451|||<|0.001|TWO_SIDED|95.0|0.296|0.572||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.572|0.296|<0.001
92287329|NCT03290781|184479800|SUPERIORITY||Difference in Proportion|0.278|||<|0.001|TWO_SIDED|95.0|0.142|0.401||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.401|0.142|<0.001
92183287|NCT00670488|184265096|OTHER||AUC 0-168hr GMR|1.54||||||||||||||The Last Day/Day 1 AUC 0-168 hr GMR was calculated as follows: Last Day AUC 0-168hr GM ÷ Day 1 AUC 0-48hr GM.||||
92287330|NCT03290781|184479801|SUPERIORITY||Difference in Proportion|0.463|||<|0.001|TWO_SIDED|95.0|0.31|0.585||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.585|0.310|<0.001
92287331|NCT03290781|184479801|SUPERIORITY||Difference in Proportion|0.339|||<|0.001|TWO_SIDED|95.0|0.197|0.463||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.463|0.197|<0.001
92183288|NCT00670488|184265097|OTHER||Cmax GMR|1.95||||||||||||||The Last Day/Day 1 Cmax GMR was calculated as follows: Last Day Cmax GM ÷ Day 1 Cmax GM.||||
92183289|NCT00670488|184265097|OTHER||Cmax GMR|1.33||||||||||||||The Last Day/Day 1 Cmax GMR was calculated as follows: Last Day Cmax GM ÷ Day 1 Cmax GM.||||
92183290|NCT00670488|184265098|OTHER||C48hr GMR|1.61||||||||||||||The Last Day/Day 1 C48hr GMR was calculated as follows: Last Day C48hr GM ÷ Day 1 C48hr GM.||||
92183291|NCT00670488|184265098|OTHER||C48hr GMR|1.86||||||||||||||The Last Day/Day 1 C48hr GMR was calculated as follows: Last Day C48hr GM ÷ Day 1 C48hr GM.||||
92183292|NCT00670488|184265098|OTHER||C48hr GMR|1.49||||||||||||||The Last Day/Day 1 C48hr GMR was calculated as follows: Last Day C48hr GM ÷ Day 1 C48hr GM.||||
92287332|NCT03290781|184479802|SUPERIORITY||Difference in Proportion|0.497|||<|0.001|TWO_SIDED|95.0|0.337|0.62||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.620|0.337|<0.001
92183293|NCT00670488|184265101|OTHER||GMR|0.133|||||TWO_SIDED|95.0|0.051|0.347||||||"pAkt Geometric Mean Ratio (GMR)~= Day 15 Geometric Mean (GM) ÷ Baseline GM"||0.347|0.051|
92287333|NCT03290781|184479802|SUPERIORITY||Difference in Proportion|0.294|||<|0.001|TWO_SIDED|95.0|0.148|0.425||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.425|0.148|<0.001
92287334|NCT03290781|184479803|SUPERIORITY||Difference in Proportion|0.277|||<|0.001|TWO_SIDED|95.0|0.129|0.398||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.398|0.129|<0.001
92287335|NCT03290781|184479803|SUPERIORITY||Difference in Proportion|0.191|||<|0.001|TWO_SIDED|95.0|0.067|0.305||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.305|0.067|<0.001
92287336|NCT03290781|184479804|SUPERIORITY||Difference in Proportion|0.488|||<|0.001|TWO_SIDED|95.0|0.329|0.613||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.613|0.329|<0.001
92287337|NCT03290781|184479804|SUPERIORITY||Difference in Proportion|0.343|||<|0.001|TWO_SIDED|95.0|0.194|0.471||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.471|0.194|<0.001
92287338|NCT03290781|184479805|SUPERIORITY||Difference in Proportion|0.431|||<|0.001|TWO_SIDED|95.0|0.28|0.554||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.554|0.280|<0.001
92287339|NCT03290781|184479805|SUPERIORITY||Difference in Proportion|0.227|||<|0.001|TWO_SIDED|95.0|0.094|0.349||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.349|0.094|<0.001
92287340|NCT03290781|184479806|SUPERIORITY||Difference in Proportion|0.176|||<|0.001|TWO_SIDED|95.0|0.049|0.287||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.287|0.049|<0.001
92287341|NCT03290781|184479806|SUPERIORITY||Difference in Proportion|0.111|||<|0.005|TWO_SIDED|95.0|0.006|0.208||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.208|0.006|<0.005
92287342|NCT03290781|184479807|SUPERIORITY||||||<|0.001||||||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||||<0.001
92287343|NCT03290781|184479807|SUPERIORITY||||||=|0.005||||||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647- 303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||||=0.005
92287344|NCT01077596|184479817|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|1.1|1.3||||||||1.3|1.1|
92287345|NCT01077596|184479817|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|1.0|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|1.0|
92287346|NCT01077596|184479817|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|1.1|1.3||||||||1.3|1.1|
92287347|NCT01077596|184479817|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|1.0|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|1.0|
92287348|NCT01077596|184479817|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|1.0|1.3||||||||1.3|1.0|
92287349|NCT01077596|184479817|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|1.0|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|1.0|
92287350|NCT01077596|184479817|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|1.1|1.4||||||||1.4|1.1|
92287351|NCT01077596|184479817|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.2||||||95.0|1.0|1.3|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.3|1.0|
92287352|NCT01077596|184479818|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.4||||||95.0|0.9|2.2||||||||2.2|0.9|
92287353|NCT01077596|184479818|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.2||||||95.0|0.8|2.0|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||2.0|0.8|
92287354|NCT01077596|184479818|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|0.8|2.0||||||||2.0|0.8|
92287355|NCT01077596|184479818|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|0.7|1.9|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.9|0.7|
92287356|NCT01077596|184479818|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.3||||||95.0|0.8|2.1||||||||2.1|0.8|
92287357|NCT01077596|184479818|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|0.7|1.9|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.9|0.7|
92287358|NCT01077596|184479818|SUPERIORITY_OR_OTHER||Crude Odds Ratio|2.2||||||95.0|1.2|3.9||||||||3.9|1.2|
92287359|NCT01077596|184479818|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.0||||||95.0|1.1|3.6|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||3.6|1.1|
92287360|NCT01077596|184479819|SUPERIORITY_OR_OTHER||Crude Odds Ratio|4.5||||||95.0|3.2|6.3||||||||6.3|3.2|
92287361|NCT01077596|184479819|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|3.0||||||95.0|2.0|4.4|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||4.4|2.0|
92287362|NCT01077596|184479819|SUPERIORITY_OR_OTHER||Crude Odds Ratio|4.0||||||95.0|2.8|5.8||||||||5.8|2.8|
92287363|NCT01077596|184479819|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.9||||||95.0|1.9|4.5|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||4.5|1.9|
92287364|NCT01077596|184479819|SUPERIORITY_OR_OTHER||Crude Odds Ratio|4.4||||||95.0|3.1|6.3||||||||6.3|3.1|
92287365|NCT01077596|184479819|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|3.0||||||95.0|1.9|4.5|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||4.5|1.9|
92287366|NCT01077596|184479819|SUPERIORITY_OR_OTHER||Crude Odds Ratio|4.5||||||95.0|2.8|7.2||||||||7.2|2.8|
92287367|NCT01077596|184479819|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|3.5||||||95.0|2.1|5.9|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||5.9|2.1|
92287368|NCT01077596|184479820|SUPERIORITY_OR_OTHER||Crude Odds Ratio|2.6||||||95.0|1.7|4.1||||||||4.1|1.7|
92287369|NCT01077596|184479820|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.1||||||95.0|1.3|3.4|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||3.4|1.3|
92287370|NCT01077596|184479820|SUPERIORITY_OR_OTHER||Crude Odds Ratio|2.3||||||95.0|1.4|3.6||||||||3.6|1.4|
92287371|NCT01077596|184479820|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.8||||||95.0|1.1|3.0|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||3.0|1.1|
92287372|NCT01077596|184479820|SUPERIORITY_OR_OTHER||Crude Odds Ratio|2.3||||||95.0|1.5|3.7||||||||3.7|1.5|
92287373|NCT01077596|184479820|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.8||||||95.0|1.1|3.0|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||3.0|1.1|
92287374|NCT01077596|184479820|SUPERIORITY_OR_OTHER||Crude Odds Ratio|2.6||||||95.0|1.5|4.5||||||||4.5|1.5|
92287375|NCT01077596|184479820|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.2||||||95.0|1.3|3.9|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||3.9|1.3|
92287376|NCT01077596|184479821|SUPERIORITY_OR_OTHER||Crude Odds Ratio|0.8||||||95.0|0.5|1.3||||||||1.3|0.5|
92183294|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-PRP ≥ 1.0 μg/mL||||<0.001
92183295|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-HBsAg ≥10 mIU/mL||||<0.001
92287377|NCT01077596|184479821|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.7||||||95.0|0.4|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|0.4|
92287378|NCT01077596|184479821|SUPERIORITY_OR_OTHER||Crude Odds Ratio|0.6||||||95.0|0.4|1.1||||||||1.1|0.4|
92287379|NCT01077596|184479821|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.6||||||95.0|0.3|1.0|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.0|0.3|
92287380|NCT01077596|184479821|SUPERIORITY_OR_OTHER||Crude Odds Ratio|0.8||||||95.0|0.5|1.4||||||||1.4|0.5|
92287381|NCT01077596|184479821|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.8||||||95.0|0.4|1.4|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.4|0.4|
92287382|NCT01077596|184479821|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.1||||||95.0|0.6|2.0||||||||2.0|0.6|
92287383|NCT01077596|184479821|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.0||||||95.0|0.6|1.9|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status†, previous depression dx, previous IBD‡ diagnosis, OC§ use, HRT/ERT use, and NSAID use.|||1.9|0.6|
92287384|NCT01077596|184479822|SUPERIORITY_OR_OTHER||Crude Odds Ratio|0.9||||||95.0|0.8|1.1||||||||1.1|0.8|
92287385|NCT01077596|184479822|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.9||||||95.0|0.8|1.1|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.1|0.8|
92287386|NCT01077596|184479822|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.0||||||95.0|0.9|1.2||||||||1.2|0.9|
92287387|NCT01077596|184479822|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.0||||||95.0|0.8|1.1|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.1|0.8|
92287388|NCT01077596|184479822|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.0||||||95.0|0.8|1.1||||||||1.1|0.8|
92287389|NCT01077596|184479822|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.9||||||95.0|0.8|1.1|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.1|0.8|
92287390|NCT01077596|184479822|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.1||||||95.0|0.9|1.3||||||||1.3|0.9|
92287391|NCT01077596|184479822|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|0.9|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|0.9|
92287392|NCT01077596|184479823|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.1||||||95.0|1.0|1.3||||||||1.3|1.0|
92287393|NCT01077596|184479823|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.2||||||95.0|1.0|1.3|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.3|1.0|
92287394|NCT01077596|184479823|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|1.0|1.4||||||||1.4|1.0|
92287395|NCT01077596|184479823|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.2||||||95.0|1.0|1.4|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.4|1.0|
92287396|NCT01077596|184479823|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.1||||||95.0|0.9|1.2||||||||1.2|0.9|
92287397|NCT01077596|184479823|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|0.9|1.3|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.3|0.9|
92287398|NCT01077596|184479823|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.0||||||95.0|0.9|1.2||||||||1.2|0.9|
92287399|NCT01077596|184479823|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.0||||||95.0|0.8|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|0.8|
92287400|NCT02538523|184479824|SUPERIORITY||||||<|0.005|||||||Fisher Exact|||A Fischer's Exact Test for two independent proportions was conducted to compare the statistical significance of the 44.8% difference in proportion of successes between procedure groups at two-months post-procedure (study endpoint) relative to baseline evaluation.||||<0.005
92287401|NCT02538523|184479825|SUPERIORITY||||||<|0.05|||||||ANCOVA|||Differences is the statistical significance of change scores in ODI total score from study baseline to endpoint (two-months post-procedure) were evaluated by Analysis of Covariance (ANCOVA), with change from baseline to endpoint in ODI total score as the dependent variable, baseline ODI total score as the covariate and procedure group (Erchonia FX-635 or placebo laser) as a main effect.||||<0.05
92287402|NCT03697109|184479830|EQUIVALENCE|Log odds is equal to 0 (null hypothesis) vs log odds not equal to 0 (alternative hypothesis).|Odds Ratio (OR)|0.17||||0.0215|TWO_SIDED|95.0|0.04|0.77|||Chi-squared||An odds ratio (OR) \<1 represents lower odds of loss of response under treatment with relacorilant compared with treatment with placebo.|A logistic regression model with logit link function was used in order to detect if there was a significant difference in total number of patients with a loss of response with respect to HTN under treatment with relacorilant compared with treatment with placebo in the RW Phase.||0.77|0.04|0.0215
92287403|NCT02301975|184479850|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was defined if the lower bound of the 95% CI for the difference between mean change from Baseline in clinic visit PM FEV1 for FF/VI and FP/S was more than -100 milliliter (mL)|Least square mean change difference|0.019|||||TWO_SIDED|95.0|-0.011|0.049||||||||0.049|-0.011|
92287404|NCT02301975|184479850|OTHER||Least square mean change difference|0.123|||<|0.001|TWO_SIDED|95.0|0.093|0.153|||Mixed Models Analysis|||||0.153|0.093|<0.001
92287405|NCT02301975|184479850|OTHER||Least square mean change difference|0.104|||<|0.001|TWO_SIDED|95.0|0.074|0.134|||Mixed Models Analysis|||||0.134|0.074|<0.001
92287406|NCT02301975|184479851|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was defined if the lower bound of the 95% CI for the difference between mean change from Baseline in clinic visit for FF/VI and FP/S was more than -100 mL|Least square mean change difference|0.006|||||TWO_SIDED|95.0|-0.027|0.04||||||||0.040|-0.027|
92287407|NCT02301975|184479851|OTHER||Least square mean change difference|0.12|||<|0.001|TWO_SIDED|95.0|0.086|0.153|||Mixed Models Analysis|||||0.153|0.086|<0.001
92287408|NCT02301975|184479851|OTHER||Least square mean change difference|0.113|||<|0.001|TWO_SIDED|95.0|0.08|0.147|||Mixed Models Analysis|||||0.147|0.080|<0.001
92287409|NCT02301975|184479852|OTHER||Least square mean change difference|1.2|||||TWO_SIDED|95.0|-0.5|3.0||||||||3.0|-0.5|
92287410|NCT02301975|184479852|OTHER||Least square mean change difference|2.7||||0.002|TWO_SIDED|95.0|0.9|4.4|||ANCOVA|||||4.4|0.9|0.002
92287411|NCT02301975|184479852|OTHER||Least square mean change difference|1.4||||0.106|TWO_SIDED|95.0|-0.3|3.2|||ANCOVA|||||3.2|-0.3|0.106
92287412|NCT02301975|184479853|OTHER||Least square mean change difference|1.2|||||TWO_SIDED|95.0|-0.7|3.1||||||||3.1|-0.7|
92287413|NCT02301975|184479853|OTHER||Least square mean change difference|2.7||||0.004|TWO_SIDED|95.0|0.8|4.5|||ANCOVA|||||4.5|0.8|0.004
92287414|NCT02301975|184479853|OTHER||Least square mean change difference|1.5||||0.115|TWO_SIDED|95.0|-0.4|3.3|||ANCOVA|||||3.3|-0.4|0.115
92287415|NCT02301975|184479854|OTHER||Least square mean change difference|5.2|||||TWO_SIDED|95.0|1.1|9.4||||||||9.4|1.1|
92287416|NCT02301975|184479854|OTHER||Least square mean change difference|21.5|||<|0.001|TWO_SIDED|95.0|17.4|25.6|||ANCOVA|||||25.6|17.4|<0.001
92287417|NCT02301975|184479854|OTHER||Least square mean change difference|16.3|||<|0.001|TWO_SIDED|95.0|12.2|20.4|||ANCOVA|||||20.4|12.2|<0.001
92287418|NCT02301975|184479855|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.53|1.54||||||||1.54|0.53|
92287419|NCT02301975|184479855|OTHER||Odds Ratio (OR)|1.15||||0.595|TWO_SIDED|95.0|0.69|1.9|||Regression, Logistic|||||1.90|0.69|0.595
92287420|NCT02301975|184479855|OTHER||Odds Ratio (OR)|1.27||||0.372|TWO_SIDED|95.0|0.75|2.12|||Regression, Logistic|||||2.12|0.75|0.372
92287421|NCT02301975|184479856|OTHER||Least square mean change difference|5.0|||||TWO_SIDED|95.0|0.7|9.3||||||||9.3|0.7|
92287422|NCT02301975|184479856|OTHER||Least square mean change difference|19.2|||<|0.001|TWO_SIDED|95.0|14.9|23.5|||ANCOVA|||||23.5|14.9|<0.001
92287423|NCT02301975|184479856|OTHER||Least square mean change difference|14.2|||<|0.001|TWO_SIDED|95.0|9.9|18.5|||ANCOVA|||||18.5|9.9|<0.001
92287424|NCT04994535|184479902|SUPERIORITY||Difference (%)|30.9|||<|0.0001|TWO_SIDED|95.0|24.5|37.4||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||37.4|24.5|<.0001
92287425|NCT04994535|184479903|SUPERIORITY||Difference (%)|38.9|||<|0.0001|TWO_SIDED|95.0|31.3|46.4||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||46.4|31.3|<0.0001
92287426|NCT04994535|184479904|SUPERIORITY||Difference (%)|36.9|||<|0.0001|TWO_SIDED|95.0|29.1|44.7||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||44.7|29.1|<0.0001
92287427|NCT04994535|184479907|SUPERIORITY||Difference (%)|50.2|||<|0.0001|TWO_SIDED|95.0|42.0|58.3||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||58.3|42.0|<.0001
92287428|NCT04994535|184479908|SUPERIORITY||Difference (%)|27.1|||<|0.0001|TWO_SIDED|95.0|18.1|36.1||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||36.1|18.1|<.0001
92287429|NCT04994535|184479909|SUPERIORITY||Difference (%)|35.8|||<|0.0001|TWO_SIDED|95.0|27.4|44.2||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||44.2|27.4|<.0001
92287430|NCT04994535|184479910|SUPERIORITY||Difference (SE)|-4.4|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|95.0|-5.4|-3.4||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||||-3.4|-5.4|<.0001
92287431|NCT04994535|184479913|SUPERIORITY||Difference (%)|42.9|||<|0.0001|TWO_SIDED|95.0|34.8|51.0||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||51.0|34.8|<0.0001
92287432|NCT04994535|184479914|SUPERIORITY||Difference (%)|49.4|||<|0.0001|TWO_SIDED|95.0|40.8|58.1||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||58.1|40.8|<0.0001
92287433|NCT04994535|184479915|SUPERIORITY||Difference (%)|28.8|||<|0.0001|TWO_SIDED|95.0|19.4|38.2||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||38.2|19.4|<0.0001
92287434|NCT04994535|184479916|SUPERIORITY||Difference (%)|35.9|||<|0.0001|TWO_SIDED|95.0|27.2|44.6||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||44.6|27.2|<0.0001
92287435|NCT04994535|184479917|SUPERIORITY||Difference (SE)|-4.7|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-5.8|-3.7||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||||-3.7|-5.8|<0.0001
92287436|NCT04994535|184479918|SUPERIORITY||Difference (SE)|-4.9|STANDARD_ERROR_OF_MEAN|0.58|<|0.0001|TWO_SIDED|95.0|-6.0|-3.7||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 30||-3.7|-6.0|<0.0001
92287437|NCT04994535|184479918|SUPERIORITY||Difference (SE)|-4.7|STANDARD_ERROR_OF_MEAN|0.59|<|0.0001|TWO_SIDED|95.0|-5.9|-3.6||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 60||-3.6|-5.9|<0.0001
92287438|NCT04994535|184479918|SUPERIORITY||Difference (SE)|-3.9|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-4.9|-2.8||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 90||-2.8|-4.9|<0.0001
92287439|NCT02246920|184479934|EQUIVALENCE|Equivalence is established if the 90% confidence interval is contained within 80.00-125.00%.|T/R Ls Mean Ratio|108.09|||||TWO_SIDED|90.0|94.09|124.4||||||||124.40|94.09|
92287440|NCT02246920|184479935|EQUIVALENCE|Equivalence is demonstrated when the 90% confidence interval is contained within 80.00-125.00%.|T/R LS Mean Ratio|107.0|||||TWO_SIDED|90.0|92.42|124.09||||||||124.09|92.42|
92287441|NCT02246920|184479936|SUPERIORITY|||||||0.0028|||||||ANCOVA|||||||0.0028
92287442|NCT02246920|184479936|SUPERIORITY|||||||0.0169|||||||ANCOVA|||||||0.0169
92287443|NCT00968812|184479978|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation: assuming a difference between canagliflozin and glimepiride of 0.0% and a common standard deviation of 1.0%, and using a 2-sample, 1-sided t-test with a Type I error rate of 0.0125, and assuming a drop-out rate of 35% in 52 weeks, it was estimated that approximately 427 patients per group would provide 90% power to demonstrate non-inferiority with the non-inferiority margin of 0.3, comparing canagliflozin with glimepiride.|Least-Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.109|0.085|||ANCOVA|||If the hypothesis of non-inferiority of canagliflozin to glimepiride at Week 52 was demonstrated (ie, upper bound of the 95% Confidence Interval of the treatment difference \[canagliflozin minus glimepiride\] was less than 0.3) and the upper bound was less than 0.0, the superiority of the canagliflozin dose relative to glimepiride would be concluded.||0.085|-0.109|
92287444|NCT00968812|184479978|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation: assuming a difference between canagliflozin and glimepiride of 0.0% and a common standard deviation of 1.0%, and using a 2-sample, 1-sided t-test with a Type I error rate of 0.0125, and assuming a drop-out rate of 35% in 52 weeks, it was estimated that approximately 427 patients per group would provide 90% power to demonstrate non-inferiority with the non-inferiority margin of 0.3, comparing canagliflozin with glimepiride|Least-Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.217|-0.023|||ANCOVA|||If the hypothesis of non-inferiority of canagliflozin to glimepiride at Week 52 was demonstrated (ie, upper bound of the 95% Confidence Interval of the treatment difference \[canagliflozin minus glimepiride\] was less than 0.3) and the upper bound was less than 0.0, the superiority of the canagliflozin dose relative to glimepiride would be concluded.||-0.023|-0.217|
92287445|NCT00968812|184479979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1|||<|0.001|TWO_SIDED|95.0|0.06|0.16|||Regression, Logistic|||||0.16|0.06|<0.001
92287446|NCT00968812|184479979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.09|||<|0.001|TWO_SIDED|95.0|0.05|0.14|||Regression, Logistic|||||0.14|0.05|<0.001
92287447|NCT00968812|184479980|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-5.7|-4.7|||ANCOVA|||||-4.7|-5.7|<0.001
92287448|NCT00968812|184479980|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-6.2|-5.1|||ANCOVA|||||-5.1|-6.2|<0.001
92287449|NCT00968812|184479981|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|-0.2|0.01|||ANCOVA|||||0.010|-0.200|
92287450|NCT00968812|184479981|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|-0.289|-0.078|||ANCOVA|||||-0.078|-0.289|
92287451|NCT00834340|184479982|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|92.2|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|92.2|
92287452|NCT00834340|184479983|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.5||||||90.0|94.0|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|94.0|
92287453|NCT00834340|184479984|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|102.0||||||90.0|98.7|105.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105|98.7|
92287454|NCT00395694|184479985|SUPERIORITY_OR_OTHER||Percentage of participants|4.9|||||TWO_SIDED|95.0|1.6|11.1|||||The estimated value represents the percentage of participants with rash events.|||11.1|1.6|
92287455|NCT00840073|184480012|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|96.0||||||90.0|85.13|108.27|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108.27|85.13|
92287456|NCT00840073|184480013|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|103.81||||||90.0|96.72|111.41|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111.41|96.72|
92287457|NCT00840073|184480014|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|102.37||||||90.0|97.34|107.65|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107.65|97.34|
92287458|NCT00840073|184480015|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|103.76||||||90.0|100.08|107.57|||||Informational Purposes Only|||107.57|100.08|
92287459|NCT00840073|184480016|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Least Squares Means|103.34||||||90.0|100.84|105.92|||||Informational Purposes Only|||105.92|100.84|
92183296|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-Diphtheria ≥0.1 IU/mL||||<0.001
92183297|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-Tetanus ≥0.1 IU/mL||||<0.001
92183298|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-PT seroresponse||||<0.001
92183299|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-FHA seroresponse||||<0.001
92183300|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-FIM seroresponse||||<0.001
92183301|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-PRN seroresponse||||<0.001
92183302|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-IPV1 ≥1:8 dilution||||<0.001
92183303|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-IPV2 ≥1:8 dilution||||<0.001
92183304|NCT01480258|184265189|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-IPV3 ≥1:8 dilution||||<0.001
92183305|NCT01480258|184265190|NON_INFERIORITY|If the lower bound of the 95% confidence interval (CI) was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|46.2|||<|0.001|TWO_SIDED|95.0|41.05|51.06||Stratification by country.|Miettinen & Nurminen|||||51.06|41.05|<0.001
92183306|NCT01480258|184265191|SUPERIORITY|If the lower bound of the 95% CI was greater than 0, it was concluded that PR5I group response rate was superior to INFANRIX hexa group response rate.|Difference in percentages|46.2|||<|0.001|TWO_SIDED|95.0|41.05|51.06|||Miettinen & Nurminen|Stratification by country.||||51.06|41.05|<0.001
92183307|NCT01480258|184265192|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in PRP response rate (based on Ab titre ≥1.0 μg/mL) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-1.27|||<|0.001|TWO_SIDED|95.0|-5.13|2.52|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-inferiority for PRP||2.52|-5.13|<0.001
92183308|NCT01480258|184265192|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in HBsAg response rate (based on Ab titre ≥10 mIU/mL) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|ifference in percentages|-0.59|||<|0.001|TWO_SIDED|95.0|-2.66|1.35|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for HBsAg||1.35|-2.66|<0.001
92265810|NCT00908375|184433258|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was determined based on the primary outcome variable, the VAS pain score at three weeks. Based on the results of the study of Siddall et al., group sample sizes of 19 and 19 achieve 82% power to detect a difference of 2.00 between the null hypothesis that both group means are 6.50 and the alternative hypothesis that the mean of pregabalin group is 4.50 with estimated group standard deviations of 2.10 and 2.10 and with a significance level of 0.05 using a two-sided two-sample t-test.|Median Difference (Final Values)|-2.0||||0.279|TWO_SIDED|99.0|-6.0|3.0||The criterion for rejection of the null hypothesis (P \< 0.05) was adjusted for multiple application of the test to the same data set using the Bonferroni correction.|Wilcoxon (Mann-Whitney)|||||3|-6|0.279
92265811|NCT00908375|184433259|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.282|TWO_SIDED|99.0|-2.0|1.0||The criterion for rejection of the null hypothesis (P \< 0.05) was adjusted for multiple applications of the test to the same data using the Bonferroni correction.|Wilcoxon (Mann-Whitney)|||||1.0|-2.0|0.282
92265812|NCT00908375|184433260|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-16.0||||0.139|TWO_SIDED|99.0|-42.0|16.0||The criterion for rejection of the null hypothesis (P \< 0.05) was adjusted for multiple applications of the test to the same data using the Bonferroni correction.|Wilcoxon (Mann-Whitney)|||||16|-42|0.139
92265813|NCT02279888|184433276|OTHER|the lower limit of the two-sided 95% confidence interval on the freedom from DSRC rate at 24 months is greater than 80%|Kaplan Meier|0.05|||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92265814|NCT02279888|184433278|OTHER||Hazard Ratio (HR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.39|0.47|||Andersen-Gill||This analysis applies to Primary Outcome: HFH Rate|||0.47|0.39|<0.0001
92265815|NCT02279888|184433280|OTHER||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.52|0.62|||Andersen-Gill|||||0.62|0.52|<0.0001
92265816|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|3.04||||0.32|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir1||||0.32
92265817|NCT01484691|184433292|SUPERIORITY||Mean Difference (Final Values)|1.91||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir107||||0.38
92287460|NCT01940341|184480050|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample sizes of 130 and 260 participants in the TDF group and TAF groups, respectively were planned to give 90% power to rule out the noninferiority margin of 10% at a 1-sided significance level of 0.025. This sample size was based on the assumption that the expected difference (TAF-TDF) in proportion of participants with HBV DNA\<29 IU/mL was 0 and the proportion of participants with HBV DNA\<29 IU/mL in the TDF group was 91%. All missing data were treated as not achieving the primary endpoint.|Difference in proportions|1.8|||||TWO_SIDED|95.0|-3.6|7.2|||||Difference in the proportion between treatment groups and its 95% CI were calculated based on the Mantel-Haenszel (MH) proportions adjusted by baseline HBV DNA categories and oral antiviral treatment status strata.|The null hypothesis was that the TAF group is at least 10% worse than the TDF group with respect to the proportion of participants with HBV DNA \< 29 IU/mL at Week 48. The alternative hypothesis was that the TAF group is less than 10% worse than the TDF group with respect to the proportion of participants with HBV DNA \< 29 IU/mL at Week 48. Noninferiority was assessed using a 95% confidence interval (CI) approach, with a noninferiority margin of 10%.||7.2|-3.6|
92287461|NCT01935934|184480056|OTHER||||||||||||||||||"Trial design discriminated between co-primary endpoints of objective RR of 30% (vs 10%) and 12-week PFS of 55% (vs 30%). The design had 86% power to detect a true objective RR of at least 30% and at least 90% power to detect a true 12-week PFS rate of atleast 55% (or a median PFS of 3.4 months).~The parallel exploratory cohort of uncommon histology cancers was analyzed independently."|||
92287462|NCT03134222|184480109|SUPERIORITY|||||||0.75|||||||Mixed-effect repeated measures model|||||||0.7500
92287463|NCT03134222|184480109|SUPERIORITY|||||||0.3047|||||||Mixed-effect repeated measures model|||||||0.3047
92287464|NCT03134222|184480110|SUPERIORITY|||||||0.8869|||||||Cochran-Mantel-Haenszel|||||||0.8869
92287465|NCT03134222|184480110|SUPERIORITY|||||||0.3293|||||||Cochran-Mantel-Haenszel|||||||0.3293
92287466|NCT03134222|184480111|SUPERIORITY|||||||0.7456|||||||Cochran-Mantel-Haenszel|||||||0.7456
92287467|NCT03134222|184480111|SUPERIORITY|||||||0.6407|||||||Cochran-Mantel-Haenszel|||||||0.6407
92287468|NCT03134222|184480112|OTHER||||||<|0.0001|||||||One sample exact binomial test|||||||<0.0001
92287469|NCT03134222|184480112|OTHER||||||<|0.0001|||||||One sample exact binomial test|||||||<0.0001
92287470|NCT03134222|184480113|OTHER||||||<|0.0001|||||||One sample exact binomial test|||||||<0.0001
92287471|NCT03134222|184480113|OTHER||||||<|0.0001|||||||One sample exact binomial test|||||||<0.0001
92287472|NCT03482882|184480123|OTHER||LSM|-10.8|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|-12.0|-9.5|||Mixed-effect model repeated measures|||||-9.5|-12.0|<0.0001
92287473|NCT00520234|184480131|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Cochran-Mantel-Haenszel|APACHE II Stratified||||||0.14
92287474|NCT01085825|184480142|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Chi-squared|||||||.13
92287475|NCT05152576|184480158|SUPERIORITY||Rate Difference|41.4|||<|0.001|TWO_SIDED|95.0|23.5|59.3||Based on CMH test stratified by baseline investigator-rated FWS-FHL at maximum.|Cochran-Mantel-Haenszel|||Confidence interval for responder rate is calculated using normal approximation.||59.3|23.5|<0.001
92287476|NCT05152576|184480158|SUPERIORITY||Rate Difference|38.2|||<|0.001|TWO_SIDED|95.0|19.2|57.1||Based on CMH test stratified by baseline investigator-rated FWS-FHL at maximum.|Cochran-Mantel-Haenszel|||Confidence interval for responder rate is calculated using normal approximation.||57.1|19.2|<0.001
92287477|NCT05152576|184480158|SUPERIORITY||Rate Difference|41.4|||<|0.001|TWO_SIDED|95.0|23.5|59.3||Based on CMH test stratified by baseline investigator-rated FWS-FHL at maximum.|Cochran-Mantel-Haenszel|||Confidence interval for responder rate is calculated using normal approximation.||59.3|23.5|<0.001
92287478|NCT00859430|184480159|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|105.0||||||90.0|98.6|112.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112|98.6|
92287479|NCT00859430|184480160|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|98.6||||||90.0|96.2|101.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101|96.2|
92287480|NCT00859430|184480161|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|98.4||||||90.0|95.9|101.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101|95.9|
92287481|NCT00834795|184480171|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|95.16||||||90.0|85.69|105.67|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.67|85.69|
92287482|NCT00834795|184480172|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.27||||||90.0|90.34|102.59|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.59|90.34|
92287483|NCT00834795|184480173|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.36||||||90.0|90.2|102.93|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.93|90.20|
92183309|NCT01480258|184265192|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in Diphtheria response rate (based on Ab titre ≥0.1 IU/mL) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-1.21|||<|0.001|TWO_SIDED|95.0|-2.54|-0.22|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for Diptheria||-0.22|-2.54|<0.001
92183310|NCT01480258|184265192|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in Tetanus response rate (based on Ab titre ≥0.1 IU/mL) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.17|||<|0.001|TWO_SIDED|95.0|-0.95|0.5|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for Tetanus||0.50|-0.95|<0.001
92183311|NCT01480258|184265192|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in the percentage of seroresponder participants for PT was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.54|||<|0.001|TWO_SIDED|95.0|-1.75|0.49|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for PT||0.49|-1.75|<0.001
92265818|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|0.47||||0.83|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir128||||0.83
92265819|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|1.27||||0.42|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir141||||0.42
92183312|NCT01480258|184265192|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in the percentage of seroresponder participants for FHA was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-1.73|||<|0.001|TWO_SIDED|95.0|-3.47|-0.26|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for FHA||-0.26|-3.47|<0.001
92265820|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|2.55||||0.32|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir148b||||0.32
92265821|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|0.68||||0.83|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir181b||||0.83
92265822|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|1.94||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir185||||0.38
92265823|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|2.77||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir194||||0.38
92265824|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|3.38||||0.32|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir19a||||0.32
92265825|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|0.0||||0.99|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir200a||||0.99
92183313|NCT01480258|184265192|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in the percentage of seroresponder participants for PRN was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-1.42|||<|0.001|TWO_SIDED|95.0|-3.42|0.39|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for PRN||0.39|-3.42|<0.001
92183314|NCT01480258|184265192|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in IPV1 response rate (based on Ab titre ≥8 (1/dil)) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.51|||<|0.001|TWO_SIDED|95.0|-1.59|0.34|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for IPV1||0.34|-1.59|<0.001
92265826|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|1.92||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir22||||0.38
92183315|NCT01480258|184265192|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in IPV2 response rate (based on Ab titre ≥8 (1/dil)) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.17|||<|0.001|TWO_SIDED|95.0|-0.96|0.49|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for IPV2||0.49|-0.96|<0.001
92183316|NCT01480258|184265192|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in IPV3 response rate (based on Ab titre ≥8 (1/dil)) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.16|||<|0.001|TWO_SIDED|95.0|-1.2|0.82|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for IPV3||0.82|-1.20|<0.001
92183317|NCT01480258|184265193|NON_INFERIORITY|The estimate for anti-rotavirus IgA GMT ratio (PR5I group/INFANRIX hexa group) was calculated with its 1-sided P-value and 2-sided 95% CI. If the lower bound of the 95% CI for GMT ratio was greater than 0.50 (non-inferiority margin), it was concluded that the Rotarix antigen response in the PR5I group was not inferior to the Rotarix antigen response in the INFANRIX hexa group.|Geometric Mean Titre (GMT) ratio|0.8||||0.011|TWO_SIDED|95.0|0.54|1.2|||ANCOVA|||||1.20|0.54|0.011
92183318|NCT01480258|184265194|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-0.7|1.4||||||ISR or systemic AE||1.4|-0.7|
92183319|NCT01480258|184265194|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.8||||||95.0|-0.3|2.0||||||ISR or V-related systemic AE||2.0|-0.3|
92183320|NCT01480258|184265194|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|2.6|||||TWO_SIDED|95.0|-0.7|6.0||||||At least 1 ISR||6.0|-0.7|
92183321|NCT01480258|184265194|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|2.5|||||TWO_SIDED|95.0|-0.9|5.9||||||At least 1 solicited ISR||5.9|-0.9|
92183322|NCT01480258|184265194|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-1.1|1.4||||||At least 1 systemic AE||1.4|-1.1|
92183323|NCT01480258|184265194|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.8|||||TWO_SIDED|95.0|-0.5|2.2||||||At least 1 vaccine-related systemic AE||2.2|-0.5|
92183324|NCT01480258|184265194|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.8|||||TWO_SIDED|95.0|-0.5|2.2||||||At least 1 solicited systemic AE||2.2|-0.5|
92183325|NCT01480258|184265194|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.9||||||95.0|-0.4|2.3||||||At least 1 vaccine-related solicited systemic AE||2.3|-0.4|
92183326|NCT01480258|184265195|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate whether an overall trend of risk differences existed. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|8.2|||||TWO_SIDED|95.0|3.0|13.3||||||Injection-site erythema||13.3|3.0|
92183327|NCT01480258|184265195|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate whether an overall trend of risk differences existed. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|3.4|||||TWO_SIDED|95.0|-1.5|8.3||||||Injection-site pain||8.3|-1.5|
92183328|NCT01480258|184265195|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate whether an overall trend of risk differences existed. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|7.5||||||95.0|2.1|12.9||||||Injection-site swelling||12.9|2.1|
92183329|NCT01480258|184265196|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|-1.1|||||TWO_SIDED|95.0|-2.5|0.3||||||Injection-site bruising||0.3|-2.5|
92183330|NCT01480258|184265196|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.5|1.6||||||Injection-site haemorrhage||1.6|-1.5|
92183331|NCT01480258|184265196|OTHER||Risk Difference (RD)|2.6|||||TWO_SIDED|95.0|-1.2|6.4||||||Injection-site induration||6.4|-1.2|
92265827|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|1.57||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir223||||0.38
92265828|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|0.52||||0.83|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir23a||||0.83
92265829|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|0.81||||0.83|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir26a||||0.83
92183332|NCT01480258|184265196|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-0.8|1.5||||||Injection-site nodule||1.5|-0.8|
92183333|NCT01480258|184265196|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|1.1||||||95.0|-0.4|2.7||||||Injection-site warmth||2.7|-0.4|
92183334|NCT01480258|184265197|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate whether an overall trend of risk differences existed. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|2.2|||||TWO_SIDED|95.0|-1.3|5.7||||||Crying||5.7|-1.3|
92183335|NCT01480258|184265197|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|3.6|||||TWO_SIDED|95.0|-1.6|8.8||||||Decreased appetite||8.8|-1.6|
92183336|NCT01480258|184265197|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|2.2|||||TWO_SIDED|95.0|-1.0|5.4||||||Irritability||5.4|-1.0|
92183337|NCT01480258|184265197|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|6.4|||||TWO_SIDED|95.0|1.5|11.3||||||Pyrexia||11.3|1.5|
92183338|NCT01480258|184265197|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|5.8|||||TWO_SIDED|95.0|1.7|9.8||||||Somnolence||9.8|1.7|
92183339|NCT01480258|184265197|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|1.8|||||TWO_SIDED|95.0|-3.2|6.9||||||Vomiting||6.9|-3.2|
92183340|NCT00659373|184265304|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.71
92183341|NCT01543204|184265325|SUPERIORITY_OR_OTHER||Difference|10.0||||0.4505|TWO_SIDED|95.0|-15.97|35.97|||Wald asymptotic test|||||35.97|-15.97|0.4505
92183342|NCT00087022|184265355|SUPERIORITY|||||||0.737|||||||Log Rank|||||||0.737
92183343|NCT00087022|184265356|SUPERIORITY|||||||1.012|||||||Log Rank|||||||1.012
92183344|NCT00087022|184265359|SUPERIORITY|||||||0.022|||||||Log Rank|||||||0.022
92183345|NCT02686658|184265371|OTHER|Model for repeated measures (MRM) and square root transformation was used to compare the treatment groups.|Least Squares Mean Difference|0.11||||0.0072|TWO_SIDED|95.0|||||Model for repeated measures (MRM)|||Difference in least squares means between groups calculated as (Sham) minus (Zimura).||||0.0072
92183346|NCT02686658|184265371|OTHER|Model for repeated measures (MRM) and square root transformation was used to compare treatment groups.|Least Squares Mean Difference|0.124||||0.0051|TWO_SIDED|95.0|||||Model for repeated measures (MRM)|||Difference in least squares means between groups calculated as (Sham) minus (Zimura).||||0.0051
92265830|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|1.39||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir320b||||0.38
92265831|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|-0.92||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir598||||0.38
92265832|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|0.55||||0.83|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir720||||0.83
92183347|NCT02686658|184265372|OTHER|Model for repeated measures (MRM) was used to compare the treatment groups.|Least Squares Mean Difference|1.39||||0.3464|TWO_SIDED||||||Model for repeated measures (MRM)|||Difference in least squares mean between groups calculated as (Zimura) minus (Sham).||||0.3464
92183348|NCT02686658|184265372|OTHER|Model for repeated measures (MRM) was used to compare the treatment groups.|Least Squares Mean Difference|-0.28||||0.883|TWO_SIDED||||||Model for repeated measures (MRM)|||Difference in least squares mean between groups calculated as (Zimura) minus (Sham).||||0.8830
92265833|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|-1.12||||0.3|TWO_SIDED||||||t-test, 2 sided|||mir1915||||0.30
92183349|NCT02686658|184265373|OTHER|Model for repeated measures (MRM) was used to compare the treatment groups.|Least Squares Mean Difference|0.38||||0.8405|TWO_SIDED||||||Model for repeated measures (MRM)|||Difference in least squares mean between groups calculated as (Zimura) minus (Sham).||||0.8405
92265834|NCT01484691|184433292|SUPERIORITY||Mean Difference (Net)|-1.35||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir1978||||0.38
92183350|NCT02686658|184265373|OTHER|Model for repeated measures (MRM) was used to compare the treatment groups.|Least Squares Mean Difference|-1.44||||0.5017|TWO_SIDED||||||Model for repeated measures (MRM)|||Difference in least squares mean between groups calculated as (Zimura) minus (Sham).||||0.5017
92183351|NCT02660086|184265428|SUPERIORITY||Mean Difference (Net)|0.2||||0.7|TWO_SIDED|95.0|-0.6|1.0|||Mixed Models Analysis|||||1.0|-0.6|0.70
92183352|NCT02660086|184265429|SUPERIORITY||Mean Difference (Net)|0.6||||0.2|TWO_SIDED|95.0|-0.3|1.4|||Mixed Models Analysis|||||1.4|-0.3|0.20
92183353|NCT02660086|184265430|SUPERIORITY||Mean Difference (Net)|-1.3||||0.24|TWO_SIDED|95.0|-3.6|0.9|||Mixed Models Analysis|||Change in systolic BP at 12 months||0.9|-3.6|0.24
92183354|NCT02660086|184265430|SUPERIORITY||Mean Difference (Net)|1.5||||0.19|TWO_SIDED|95.0|-0.7|3.7|||Mixed Models Analysis|||Change in systolic BP at 24 months||3.7|-0.7|0.19
92183355|NCT02660086|184265430|SUPERIORITY||Mean Difference (Net)|-1.6||||0.07|TWO_SIDED|95.0|-3.2|0.1|||Mixed Models Analysis|||Change in diastolic BP at 12 months||0.1|-3.2|0.07
92265835|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|4.53||||0.26|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir1||||0.26
92183356|NCT02660086|184265430|SUPERIORITY||Mean Difference (Net)|0.1||||0.94|TWO_SIDED|95.0|-1.5|1.6|||Mixed Models Analysis|||Change in diastolic BP at 24 months||1.6|-1.5|0.94
92183357|NCT02660086|184265431|SUPERIORITY||Mean Difference (Net)|-1.3||||0.54|TWO_SIDED|95.0|-5.6|2.9|||Mixed Models Analysis|||Change in total cholesterol at 12 months||2.9|-5.6|0.54
92183358|NCT02660086|184265431|SUPERIORITY||Mean Difference (Net)|1.6||||0.53|TWO_SIDED|95.0|-3.5|6.7|||Mixed Models Analysis|||Change in total cholesterol at 24 months||6.7|-3.5|0.53
92183359|NCT02660086|184265432|SUPERIORITY||Mean Difference (Net)|-1.2||||0.51|TWO_SIDED|95.0|-4.8|2.4|||Mixed Models Analysis|||Change in LDL at 12 months||2.4|-4.8|0.51
92183360|NCT02660086|184265432|SUPERIORITY||Mean Difference (Net)|1.2||||0.6|TWO_SIDED|95.0|-3.4|5.7|||Mixed Models Analysis|||Change in LDL at 24 months||5.7|-3.4|0.60
92183361|NCT02660086|184265433|SUPERIORITY||Mean Difference (Net)|-2.9||||0.48|TWO_SIDED|95.0|-10.8|5.1|||Mixed Models Analysis|||Change in triglycerides at 12 months||5.1|-10.8|0.48
92183362|NCT02660086|184265433|SUPERIORITY||Mean Difference (Net)|4.0||||0.29|TWO_SIDED|95.0|-3.4|11.5|||Mixed Models Analysis|||Change in triglycerides at 24 months||11.5|-3.4|0.29
92183363|NCT02660086|184265434|SUPERIORITY||Mean Difference (Net)|-0.2||||0.8|TWO_SIDED|95.0|-1.9|1.5|||Mixed Models Analysis|||Change in HDL at 12 months||1.5|-1.9|0.80
92183364|NCT02660086|184265434|SUPERIORITY||Mean Difference (Net)|-0.3||||0.72|TWO_SIDED|95.0|-1.9|1.3|||Mixed Models Analysis|||Change in HDL at 24 months||1.3|-1.9|0.72
92183365|NCT02660086|184265435|SUPERIORITY||Mean Difference (Net)|0.0||||0.62|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||Change in hemoglobin A1C at 12 months||0.1|-0.1|0.62
92183366|NCT02660086|184265435|SUPERIORITY||Mean Difference (Net)|0.0||||0.4|TWO_SIDED|95.0|0.0|0.1|||Mixed Models Analysis|||Change in hemoglobin A1C at 24 months||0.1|0.0|0.40
92183367|NCT02660086|184265436|SUPERIORITY||Mean Difference (Net)|7.3|||<|0.001|TWO_SIDED|95.0|5.4|9.3|||Mixed Models Analysis|||Change in green labeled purchases during 12 month intervention (months 1-12) compared to baseline 12 months||9.3|5.4|<0.001
92265836|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|4.52||||0.26|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir107||||0.26
92265837|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|3.57||||0.26|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir128||||0.26
92183368|NCT02660086|184265436|SUPERIORITY||Mean Difference (Net)|4.8|||<|0.001|TWO_SIDED|95.0|2.9|6.8|||Mixed Models Analysis|||Change in green-labeled purhases during 12 month follow-up (months 13-24) compared to 12 month baseline||6.8|2.9|<0.001
92183369|NCT02660086|184265437|SUPERIORITY||Mean Difference (Net)|-3.9|||<|0.001|TWO_SIDED|95.0|-5.0|-2.7|||Mixed Models Analysis|||Change in red labeled purchases during 12 month intervention (months 1-12) compared to baseline 12 months||-2.7|-5.0|<0.001
92183370|NCT02660086|184265437|SUPERIORITY||Mean Difference (Net)|-3.1|||<|0.001|TWO_SIDED|95.0|-4.3|-2.0|||Mixed Models Analysis|||Change in red labeled purchases during 12-month follow up (months 13-24) compared to baseline 12 months||-2.0|-4.3|<0.001
92183371|NCT02660086|184265438|SUPERIORITY||Mean Difference (Net)|5.6|||<|0.001|TWO_SIDED|95.0|4.2|7.0|||Mixed Models Analysis|||Change in healthy purchasing score during 12 month intervention (months 1-12) compared to baseline 12 months||7.0|4.2|<0.001
92287484|NCT00373256|184480308|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6299||||0.9986|TWO_SIDED|95.0|1.1793|2.2527||p-value from 1-sided log-rank stratified for prior adjuvant chemotherapy, hormone receptor status, disease-free interval from prior adjuvant treatment. Stratification factors from Interactive Voice Randomization System.|Log Rank||Assuming proportional hazards, a hazard ratio greater than 1 indicated a reduction in hazard rate in favor Bevacizumab + Paclitaxel.|||2.2527|1.1793|0.9986
92183372|NCT02660086|184265438|SUPERIORITY||Mean Difference (Net)|4.0|||<|0.001|TWO_SIDED|95.0|2.6|5.3|||Mixed Models Analysis|||Change in Healthy Purchasing Score during 12 month follow up (months 13-24) compared to baseline 12 months||5.3|2.6|<0.001
92183373|NCT02660086|184265439|SUPERIORITY||Mean Difference (Net)|1.8|||||TWO_SIDED|95.0|-0.6|4.1||||||Change in HEI scores at 12 months.||4.1|-0.6|
92183374|NCT02660086|184265439|SUPERIORITY||Mean Difference (Net)|1.6|||||TWO_SIDED|95.0|-0.7|3.8||||||Change in HEI scores at 24 months||3.8|-0.7|
92183375|NCT01377844|184265440|SUPERIORITY||Difference of LS Means|-0.79|||<|0.0001|TWO_SIDED|95.0|-1.06|-0.53||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||||-0.53|-1.06|< 0.0001
92183376|NCT01377844|184265441|SUPERIORITY||Difference of LS Means|-5.53|||<|0.0001|TWO_SIDED|95.0|-8.02|-3.04||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline systolic BP, baseline HbA1c category, site, age category, gender and race||||-3.04|-8.02|< 0.0001
92183377|NCT01377844|184265441|SUPERIORITY||Difference of LS Means|-2.67||||0.0015|TWO_SIDED|95.0|-4.3|-1.04||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline diastolic BP, baseline HbA1c category, site, age category, gender and race||||-1.04|-4.30|0.0015
92183378|NCT01377844|184265442|SUPERIORITY||Difference of LS Means|-1.72|||<|0.0001|TWO_SIDED|95.0|-2.52|-0.93||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline weight, baseline HbA1c category, site, age category, gender and race||||-0.93|-2.52|< 0.0001
92183379|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.42|-0.21||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 2||-0.21|-0.42|< 0.0001
92183380|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-0.59|||<|0.0001|TWO_SIDED|95.0|-0.78|-0.41||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 6||-0.41|-0.78|< 0.0001
92183381|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-0.72|||<|0.0001|TWO_SIDED|95.0|-0.96|-0.48||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 12||-0.48|-0.96|< 0.0001
92183382|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-0.71|||<|0.0001|TWO_SIDED|95.0|-0.97|-0.44||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 18||-0.44|-0.97|< 0.0001
92183383|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-0.79|||<|0.0001|TWO_SIDED|95.0|-1.06|-0.53||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 24||-0.53|-1.06|< 0.0001
92183384|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-0.93|||<|0.0001|TWO_SIDED|95.0|-1.21|-0.66||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 36||-0.66|-1.21|< 0.0001
92183385|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-0.99|||<|0.0001|TWO_SIDED|95.0|-1.28|-0.7||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 48||-0.70|-1.28|< 0.0001
92183386|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.27|-0.68||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 60||-0.68|-1.27|< 0.0001
92183387|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-0.93|||<|0.0001|TWO_SIDED|95.0|-1.22|-0.64||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 72||-0.64|-1.22|< 0.0001
92183388|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.27|-0.69||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 84||-0.69|-1.27|< 0.0001
92183389|NCT01377844|184265443|SUPERIORITY||Difference of LS Means|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.31|-0.73||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 96||-0.73|-1.31|< 0.0001
92287485|NCT00373256|184480309|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|32.2|||||TWO_SIDED|95.0|26.4|38.5||||||||38.5|26.4|
92287486|NCT00373256|184480309|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|32.1|||||TWO_SIDED|95.0|26.3|38.4||||||||38.4|26.3|
92287487|NCT00373256|184480312|SUPERIORITY_OR_OTHER||Percentage|76.8|||||TWO_SIDED|95.0|68.7|83.0||||||1 year||83.0|68.7|
92287488|NCT00373256|184480312|SUPERIORITY_OR_OTHER||Percentage|35.5|||||TWO_SIDED|95.0|20.9|50.3||||||2 years||50.3|20.9|
92287489|NCT00373256|184480312|SUPERIORITY_OR_OTHER||Percentage|83.7|||||TWO_SIDED|95.0|76.0|89.1||||||1 year||89.1|76.0|
92287490|NCT00373256|184480312|SUPERIORITY_OR_OTHER||Percentage|61.0|||||TWO_SIDED|95.0|43.2|74.7||||||2 years||74.7|43.2|
92287491|NCT00238615|184480320|SUPERIORITY_OR_OTHER||probability of survival at 2 years|0.72|STANDARD_DEVIATION|0.0|||TWO_SIDED|95.0|0.36|0.9||The primary endpoint of 2 year overall survival was (0.72) = 72%||||2-year overall survival (OS) Our null hypothesis was a probability of survival at 2 years of 0.30. The study was powered at 80% (with α 5% two-tailed) to detect a probability of survival at 2 years of 0.55. This would require 30 patients assuming accrual over 2 years with 1 year of additional follow-up. The probability of survival at 2 years of 0.55 is based on previous studies of neoadjuvant approaches with reported 2 year survival in the 40-60% range.||0.90|0.36|
92183390|NCT01377844|184265444|SUPERIORITY||Difference of LS Means|-2.24|||<|0.0001|TWO_SIDED|95.0|-2.79|-1.7||The p-value is from a two-sided t-test for the difference in means of change from baseline|ANCOVA|Based on analysis of covariance, including treatment group, baseline FPG, baseline HbA1c category, site, age category, gender and race||Difference of mean-adjusted change from baseline in FPG (mmol/L) at Week 2, between EGT0001442 and Placebo group.||-1.70|-2.79|< 0.0001
92265838|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|-0.58||||0.87|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir141||||0.87
92265839|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|4.57||||0.29|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir148b||||0.29
92265840|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|1.56||||0.75|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir181b||||0.75
92287492|NCT02718326|184480340|SUPERIORITY||percentage difference|52.3|||<|0.0001|TWO_SIDED|95.0|45.2|59.5|||Cochran-Mantel-Haenszel|||||59.5|45.2|<0.0001
92287493|NCT02718326|184480341|SUPERIORITY||percentage difference|50.1|||<|0.0001|TWO_SIDED|95.0|40.1|60.1|||Cochran-Mantel-Haenszel|||||60.1|40.1|<0.0001
92287494|NCT02718326|184480341|SUPERIORITY||percentage difference|64.8|||<|0.0001|TWO_SIDED|95.0|55.8|73.9|||Cochran-Mantel-Haenszel|||||73.9|55.8|< 0.0001
92287495|NCT02718326|184480342|SUPERIORITY||percentage difference|-17.3|||<|0.0001|TWO_SIDED|95.0|-24.7|-9.9|||Cochran-Mantel-Haenszel|||||-9.9|-24.7|<0.0001
92287496|NCT02718326|184480342|SUPERIORITY||percentage difference|-16.6|||<|0.0001|TWO_SIDED|95.0|-24.2|-9.1|||Cochran-Mantel-Haenszel|||||-9.1|-24.2|<0.0001
92287497|NCT02718326|184480343|SUPERIORITY||percentage difference|-17.3|||=|0.0002|TWO_SIDED|95.0|-26.2|-8.5|||Cochran-Mantel-Haenszel|||||-8.5|-26.2|= 0.0002
92287498|NCT02718326|184480343|SUPERIORITY||percentage difference|-18.9|||<|0.0001|TWO_SIDED|95.0|-27.5|-10.4|||Cochran-Mantel-Haenszel|||||-10.4|-27.5|<0.0001
92287499|NCT02718326|184480346|SUPERIORITY||percentage difference|-6.0||||0.0096|TWO_SIDED|95.0|-10.5|-1.5|||Cochran-Mantel-Haenszel|||||-1.5|-10.5|0.0096
92287500|NCT02718326|184480346|SUPERIORITY||percentage difference|-6.0||||0.0089|TWO_SIDED|95.0|-10.5|-1.6|||Cochran-Mantel-Haenszel|||||-1.6|-10.5|0.0089
92287501|NCT02718326|184480347|SUPERIORITY||Estimate for contrast|0.8||||0.0529|TWO_SIDED|95.0|-0.01|1.6|||ANOVA|||||1.60|-0.01|0.0529
92287502|NCT02718326|184480347|SUPERIORITY||Estimate for contrast|1.14||||0.0057|TWO_SIDED|95.0|0.33|1.94|||ANOVA|||||1.94|0.33|0.0057
92287503|NCT03868891|184480353|OTHER|||||||1|||||||Wilcoxon signed-rank|||inflation test at 2 months compared with baseline; EMST150 + Eustachi not included because visit 2 measurements only available for 1 participant (2 ears)||||1.00
92287504|NCT03868891|184480353|OTHER|||||||0.734|||||||Wilcoxon signed-rank|||deflation test at 2 months compared with baseline; EMST150 + Eustachi not included because visit 2 measurements only available for 1 participant (2 ears)||||0.734
92287505|NCT03868891|184480354|OTHER|||||||0.25|||||||Wilcoxon signed-rank|||inflation test at 4 months compared with baseline||||0.25
92287506|NCT03868891|184480354|OTHER|||||||0.75|||||||Wilcoxon signed-rank|||deflation test at 4 months compared with baseline||||0.75
92287507|NCT03868891|184480355|OTHER|||||||0.25|||||||Wilcoxon signed-rank|||inflation test at 4 months compared with 2 months||||0.25
92287508|NCT03868891|184480355|OTHER|||||||0.75|||||||Wilcoxon signed-rank|||deflation test at 4 months compared with 2 months||||0.75
92287509|NCT00761813|184480375|SUPERIORITY||Cox Proportional Hazard|0.83|||||TWO_SIDED|95.0|0.63|1.09||||||||1.09|.63|
92287510|NCT00761813|184480376|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92287511|NCT03049748|184480377|OTHER|This is a pilot randomized trial with a purpose of establishing preliminary efficacy data to inform future studies.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92287512|NCT03049748|184480378|OTHER|Same rationale as the primary outcome.|||||>|0.05||||||All p-values across time periods, between groups, were \> .05|Wilcoxon (Mann-Whitney)|||||||>.05
92287513|NCT03049748|184480379|OTHER||||||>|0.05||||||All p values between groups across time periods were \> .05|Wilcoxon (Mann-Whitney)|||||||>.05
92183391|NCT01377844|184265444|SUPERIORITY||Difference of LS Means|-2.45|||<|0.0001|TWO_SIDED|95.0|-3.09|-1.81||The p-value is from a two-sided t-test for the difference in means of change from baseline|ANCOVA|Based on analysis of covariance, including treatment group, baseline FPG, baseline HbA1c category, site, age category, gender and race||Difference of mean-adjusted change from baseline in FPG (mmol/L) at Week 6, between EGT0001442 and Placebo group.||-1.81|-3.09|< 0.0001
92183392|NCT01377844|184265444|SUPERIORITY||Difference of LS Means|-2.42|||<|0.0001|TWO_SIDED|95.0|-3.06|-1.77||The p-value is from a two-sided t-test for the difference in means of change from baseline|ANCOVA|Based on analysis of covariance, including treatment group, baseline FPG, baseline HbA1c category, site, age category, gender and race||Difference of mean-adjusted change from baseline in FPG (mmol/L) at Week 12, between EGT0001442 and Placebo group.||-1.77|-3.06|< 0.0001
92183393|NCT01377844|184265444|SUPERIORITY||Difference of LS Means|-2.71|||<|0.0001|TWO_SIDED|95.0|-3.3|-2.11||The p-value is from a two-sided t-test for the difference in means of change from baseline.|ANCOVA|Based on analysis of covariance, including treatment group, baseline FPG, baseline HbA1c category, site, age category, gender and race||Difference of mean-adjusted change from baseline in FPG (mmol/L) at Week 18, between EGT0001442 and Placebo group.||-2.11|-3.30|< 0.0001
92183394|NCT01377844|184265444|SUPERIORITY||Difference of LS Means|-2.63|||<|0.0001|TWO_SIDED|95.0|-3.24|-2.02||The p-value is from a two-sided t-test for the difference in means of change from baseline.|ANCOVA|Based on analysis of covariance, including treatment group, baseline FPG, baseline HbA1c category, site, age category, gender and race||Difference of mean-adjusted change from baseline in FPG (mmol/L) at Week 24, between EGT0001442 and Placebo group.||-2.02|-3.24|< 0.0001
92183395|NCT01653509|184265446|SUPERIORITY_OR_OTHER||Least square mean difference|-911.48||||0.3061|TWO_SIDED|95.0|-2712.65|889.69|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between study treatments for TEV.||889.69|-2712.65|0.3061
92183396|NCT01653509|184265446|SUPERIORITY_OR_OTHER||LS Mean Difference|-150.99||||0.4035|TWO_SIDED|95.0|-517.97|215.99|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between treatments for MEV.||215.99|-517.97|0.4035
92287514|NCT03049748|184480380|OTHER||||||>|0.05||||||All p-values between groups across time periods were \>.05|Wilcoxon (Mann-Whitney)|||||||>.05
92265841|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|2.9||||0.36|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir185||||0.36
92183397|NCT01653509|184265447|SUPERIORITY_OR_OTHER||LS Mean Difference|2.48||||0.0486|TWO_SIDED|95.0|0.02|4.93|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between study treatments for TEV (Day 1 to day 10).||4.93|0.02|0.0486
92287515|NCT03049748|184480381|OTHER||||||>|0.05||||||All p-values between group differences across time periods were \> .05|Wilcoxon (Mann-Whitney)|||||||>.05
92287516|NCT03049748|184480382|OTHER|||||||0.05||||||Differences in group hospitalization rates p-values: T1 = .093; T2 = .008; T3 = .029|Wilcoxon (Mann-Whitney)|||||||0.05
92287517|NCT01011413|184480383|NON_INFERIORITY|"Only the primary endpoint is assessed in terms of non-inferiority. All other comparisons are tests for superiority and are considered statistically significant at a two-sided alpha=0.05.~Non-inferiority of EFV 400 mg was defined as the lower 95% confidence interval (CI) of the difference between groups in the proportion of viral load below 200 copies/mL at week 48 lying above -10%."||||||0.05||||||No adjustments were made for multiple comparisons|Pearson's chi-squared|Pearson's chi-squared or Fisher's exact test derived p value was used||Sample size calculation assumes 85% of participants randomised to 600mg EFV arm will have plasma HIV RNA \<200 copies/ml at 48 weeks. Assuming no difference between randomised treatments in proportion with plasma HIV RNA \<200 copies/mL, to have 90% power to demonstrate non-inferiority in the intention to treat (ITT) analysis using a 10% non-inferiority margin will require 286 participants per arm, making a total of 572 participants. Power for modified ITT analysis was 93%.||||0.05
92287518|NCT01011413|184480383|NON_INFERIORITY|Non-inferiority will be defined as the lower 95% confidence limit of the difference in percentages of patients with undetectable viral load lying above -10% (i.e. a non-inferiority margin of 10%).||||||0.05||||||No adjustment for multiple comparisons|Chi-squared|||To ensure the per protocol (PP) analysis has 90% power to demonstrate non-inferiority, the sample size was inflated for patients who switch treatment for toxicity. This is estimated to be no more than 10% randomised patients. To ensure 90% power to demonstrate non-inferiority in the ITT and PP analyses, a total of 630 (315 per arm) patients will be randomised giving 93% power for the ITT analysis. Null hypothesis: no statistically significant difference between the 600mg and 400mg EFV regimens.||||0.05
92287519|NCT01011413|184480384|SUPERIORITY_OR_OTHER_LEGACY||difference between proportions|0.05||||0.05|TWO_SIDED|95.0||||P-value not adjusted for multiple comparisons|Chi-squared|||||||0.05
92287520|NCT00462228|184480398|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for HVLT-R total recall learning scores.||||0.55
92287521|NCT00462228|184480398|SUPERIORITY_OR_OTHER|||||||1||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis:The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for HVLT-R total recall learning scores.||||1.00
92287522|NCT00462228|184480398|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for HVLT-R total recall learning scores.||||0.45
92287523|NCT00462228|184480398|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis:The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for HVLT-R total recall learning scores.||||0.43
92287524|NCT00462228|184480399|SUPERIORITY_OR_OTHER|||||||0.23||95.0||||6 week comparison,alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for HVLT-R delayed recall scores||||0.23
92183398|NCT01653509|184265447|SUPERIORITY_OR_OTHER||LS Mean Difference|0.38||||0.0799|TWO_SIDED|95.0|-0.05|0.82|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between study treatments for MEV.||0.82|-0.05|0.0799
92287525|NCT00462228|184480399|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for HVLT-R delayed recall scores.||||0.022
92287526|NCT00462228|184480399|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for HVLT-R delayed recall scores.||||0.06
92287527|NCT00462228|184480399|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for HVLT-R delayed recall scores.||||0.027
92287528|NCT00462228|184480400|SUPERIORITY_OR_OTHER|||||||1||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the Trail Making Test Part A.||||1.0
92287529|NCT00462228|184480400|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the Trail Making Test Part A.||||0.55
92287530|NCT00462228|184480400|SUPERIORITY_OR_OTHER|||||||0.81||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the Trail Making Test Part A.||||0.81
92287531|NCT00462228|184480400|SUPERIORITY_OR_OTHER|||||||0.57||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the Trail Making Test Part A.||||0.57
92287532|NCT00462228|184480401|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the Trail Making Test Part B.||||0.55
92287533|NCT00462228|184480401|SUPERIORITY_OR_OTHER|||||||1||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the Trail Making Test Part B.||||1.0
92183399|NCT01653509|184265448|SUPERIORITY_OR_OTHER||LS mean difference|2.14||||0.179|TWO_SIDED|95.0|-1.06|5.35|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between study treatments for TEV.||5.35|-1.06|0.1790
92183400|NCT01653509|184265448|SUPERIORITY_OR_OTHER||LS mean difference|0.37||||0.2446|TWO_SIDED|95.0|-0.27|1.0|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between study treatments for MEV.||1.00|-0.27|0.2446
92183401|NCT01214200|184265455|OTHER|For the analysis of differences between pre and post treatment a student's t-test was used and was checked with the Wilcoxon signed rank test. A p\<0.05 was considered statistically significant.||||||0.01|||||||Wilcoxon Signed Ranks Test|||||||0.01
92183402|NCT02310581|184265475|OTHER||LS Mean Difference|104.973|STANDARD_ERROR_OF_MEAN|39.2433||0.012|TWO_SIDED|95.0|25.13|184.81|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||184.81|25.13|0.012
92183403|NCT02310581|184265475|OTHER||LS Mean Difference|86.316|STANDARD_ERROR_OF_MEAN|37.5385||0.028|TWO_SIDED|95.0|9.94|162.69|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||162.69|9.94|0.028
92183404|NCT02310581|184265475|OTHER||LS Mean Difference|64.485|STANDARD_ERROR_OF_MEAN|39.2459||0.11|TWO_SIDED|95.0|-15.36|144.33|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||144.33|-15.36|0.110
92183405|NCT02310581|184265478|OTHER||LS Mean Difference|14.398|STANDARD_ERROR_OF_MEAN|4.739||0.005|TWO_SIDED|95.0|4.76|24.04|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||24.04|4.76|0.005
92183406|NCT02310581|184265478|OTHER||LS Mean Difference|8.056|STANDARD_ERROR_OF_MEAN|4.5331||0.085|TWO_SIDED|95.0|-1.17|17.28|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||17.28|-1.17|0.085
92183407|NCT02310581|184265478|OTHER||LS Mean Difference|10.063|STANDARD_ERROR_OF_MEAN|4.7393||0.041|TWO_SIDED|95.0|0.42|19.7|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||19.70|0.42|0.041
92183408|NCT02310581|184265479|OTHER||LS Mean Difference|26.665|STANDARD_ERROR_OF_MEAN|8.1991||3|TWO_SIDED|95.0|9.98|43.35|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||43.35|9.98|0003
92183409|NCT02310581|184265479|OTHER||LS Mean Difference|21.605|STANDARD_ERROR_OF_MEAN|7.8429||0.009|TWO_SIDED|95.0|5.65|37.56|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||37.56|5.65|0.009
92183410|NCT02310581|184265479|OTHER||LS Mean Difference|22.143|STANDARD_ERROR_OF_MEAN|8.1997||0.011|TWO_SIDED|95.0|5.46|38.83|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||38.83|5.46|0.011
92183411|NCT02310581|184265480|OTHER||LS Mean Difference|63.881|STANDARD_ERROR_OF_MEAN|18.3971||0.001|TWO_SIDED|95.0|26.45|101.31|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||101.31|26.45|0.001
92183412|NCT02310581|184265480|OTHER||LS Mean Difference|50.284|STANDARD_ERROR_OF_MEAN|17.5979||0.007|TWO_SIDED|95.0|14.48|86.09|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||86.09|14.48|0.007
92183413|NCT02310581|184265480|OTHER||LS Mean Difference|56.879|STANDARD_ERROR_OF_MEAN|18.3984||0.004|TWO_SIDED|95.0|19.45|94.31|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||94.31|19.45|0.004
92183414|NCT00887224|184265482|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Significance declared if p-value ≤0.05. The estimated probability obtained via Kaplan-Meier estimate.|Log Rank|||||||<0.001
92183415|NCT00887224|184265484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9627|TWO_SIDED|95.0|-0.09|0.08||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 1||0.08|-0.09|0.9627
92183416|NCT00887224|184265484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.1046|TWO_SIDED|95.0|-0.02|0.21||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 2||0.21|-0.02|0.1046
92183417|NCT00887224|184265484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.0228|TWO_SIDED|95.0|0.02|0.25||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 3||0.25|0.02|0.0228
92183418|NCT00887224|184265484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.0064|TWO_SIDED|95.0|0.05|0.29||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 4||0.29|0.05|0.0064
92183419|NCT00887224|184265484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||<|0.001|TWO_SIDED|95.0|0.11|0.39||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 6||0.39|0.11|<0.001
92183420|NCT00887224|184265484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|||<|0.001|TWO_SIDED|95.0|0.12|0.43||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 10||0.43|0.12|<0.001
92183421|NCT00887224|184265484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||<|0.001|TWO_SIDED|95.0|0.19|0.47||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14||0.47|0.19|<0.001
92183422|NCT00887224|184265484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||<|0.001|TWO_SIDED|95.0|0.17|0.49||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 18||0.49|0.17|<0.001
92183423|NCT00887224|184265484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|||<|0.001|TWO_SIDED|95.0|0.25|0.62||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 22||0.62|0.25|<0.001
92183424|NCT00887224|184265484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|||<|0.001|TWO_SIDED|95.0|0.28|0.61||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26||0.61|0.28|<0.001
92287534|NCT00462228|184480401|SUPERIORITY_OR_OTHER|||||||0.17||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the Trail Making Test Part B.||||0.17
92287535|NCT00462228|184480401|SUPERIORITY_OR_OTHER|||||||0.64||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the Trail Making Test Part B.||||0.64
92287536|NCT00462228|184480402|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for BVMT-R total recall scores.||||0.34
92287537|NCT00462228|184480402|SUPERIORITY_OR_OTHER|||||||1||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for BVLT-R total recall scores.||||1.0
92287538|NCT00462228|184480402|SUPERIORITY_OR_OTHER|||||||0.54||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for HVLT-R total recall scores.||||0.54
92287539|NCT00462228|184480402|SUPERIORITY_OR_OTHER|||||||0.91||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for BVLT-R total recall scores.||||0.91
92287540|NCT00462228|184480403|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for BVMT-R delayed recall scores.||||0.34
92287541|NCT00462228|184480403|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for BVMT-R delayed recall scores.||||0.55
92287542|NCT00462228|184480403|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for BVMT-R delayed recall scores.||||0.37
92287543|NCT00462228|184480403|SUPERIORITY_OR_OTHER|||||||0.95||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for BVMT-R delayed recall scores.||||0.95
92183425|NCT00887224|184265485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.8853|TWO_SIDED|95.0|-0.41|0.47||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 1||0.47|-0.41|0.8853
92183426|NCT00887224|184265485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88||||0.0081|TWO_SIDED|95.0|0.23|1.52||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 2||1.52|0.23|0.0081
92287544|NCT00462228|184480404|SUPERIORITY_OR_OTHER|||||||0.75||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the SDMT Written Score.||||0.75
92287545|NCT00462228|184480404|SUPERIORITY_OR_OTHER|||||||0.51||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the SDMT Written Score.||||0.51
92287546|NCT00462228|184480404|SUPERIORITY_OR_OTHER|||||||0.31||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the SDMT Written Score.||||0.31
92183427|NCT00887224|184265485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88||||0.0038|TWO_SIDED|95.0|0.28|1.47||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 3||1.47|0.28|0.0038
92287547|NCT00462228|184480404|SUPERIORITY_OR_OTHER|||||||0.46||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the SDMT Written Score.||||0.46
92183428|NCT00887224|184265485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|||<|0.001|TWO_SIDED|95.0|0.76|2.03||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 4||2.03|0.76|<0.001
92265842|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|-0.36||||0.89|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir194||||0.89
92287548|NCT00462228|184480405|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the SDMT Oral Score.||||0.34
92287549|NCT00462228|184480405|SUPERIORITY_OR_OTHER|||||||0.75||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the SDMT Oral Score.||||0.75
92287550|NCT00462228|184480405|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the SDMT Oral Score.||||0.37
92287551|NCT00462228|184480405|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the SDMT Oral Score.||||0.45
92287552|NCT00567320|184480406|SUPERIORITY_OR_OTHER_LEGACY|||||||0.84|TWO_SIDED|95.0|||||Mixed Models Analysis|||HLM analysis of % of Cocaine Positive Urines per week over 12 weeks. Subjects were used as a Random variable, with medication dosing set to 'Fixed'.||||0.84
92287553|NCT01299454|184480407|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.166|||||TWO_SIDED|90.0|0.776|1.751|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% confidence interval (CI) for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.751|0.776|
92287554|NCT01299454|184480407|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.375|||||TWO_SIDED|90.0|0.915|2.066|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||2.066|0.915|
92183429|NCT00887224|184265485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|||<|0.001|TWO_SIDED|95.0|0.86|2.39||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 6||2.39|0.86|<0.001
92287555|NCT01299454|184480407|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.929|||||TWO_SIDED|90.0|0.581|1.488|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.488|0.581|
92183430|NCT00887224|184265485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|||<|0.001|TWO_SIDED|95.0|0.83|2.54||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 10||2.54|0.83|<0.001
92183431|NCT00887224|184265485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.04|||<|0.001|TWO_SIDED|95.0|1.23|2.86||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14||2.86|1.23|<0.001
92183432|NCT00887224|184265485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.95|||<|0.001|TWO_SIDED|95.0|1.06|2.84||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 18||2.84|1.06|<0.001
92183433|NCT00887224|184265485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|||<|0.001|TWO_SIDED|95.0|1.31|3.3||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 22||3.30|1.31|<0.001
92183434|NCT00887224|184265485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.35|||<|0.001|TWO_SIDED|95.0|1.39|3.32||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26||3.32|1.39|<0.001
92183435|NCT00887224|184265486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9142|TWO_SIDED|95.0|-0.24|0.27||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 1||0.27|-0.24|0.9142
92183436|NCT00887224|184265486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53||||0.0069|TWO_SIDED|95.0|0.15|0.91||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 2||0.91|0.15|0.0069
92183437|NCT00887224|184265486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.0023|TWO_SIDED|95.0|0.21|0.95||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 3||0.95|0.21|0.0023
92183438|NCT00887224|184265486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89|||<|0.001|TWO_SIDED|95.0|0.49|1.28||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 4||1.28|0.49|<0.001
92183439|NCT00887224|184265486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88|||<|0.001|TWO_SIDED|95.0|0.43|1.32||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 6||1.32|0.43|<0.001
92183440|NCT00887224|184265486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08|||<|0.001|TWO_SIDED|95.0|0.58|1.58||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 10||1.58|0.58|<0.001
92287556|NCT01299454|184480408|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometic Mean Ratio|1.255|||||TWO_SIDED|90.0|0.702|2.244|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% confidence interval (CI) for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||2.244|0.702|
92183441|NCT00887224|184265486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|||<|0.001|TWO_SIDED|95.0|0.66|1.58||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14||1.58|0.66|<0.001
92183442|NCT00887224|184265486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||<|0.001|TWO_SIDED|95.0|0.76|1.83||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 18||1.83|0.76|<0.001
92183443|NCT00887224|184265486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|||<|0.001|TWO_SIDED|95.0|0.7|1.76||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 22||1.76|0.70|<0.001
92183444|NCT00887224|184265486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27|||<|0.001|TWO_SIDED|95.0|0.75|1.79||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26||1.79|0.75|<0.001
92183445|NCT00887224|184265487|SUPERIORITY_OR_OTHER||Adjusted odds ratio|2.85|||<|0.0001|TWO_SIDED|95.0|1.93|4.2||Obtained from logistic regression analysis using Remission (Yes/No) at each time point as a response variable; logistic model with treatment and sites as factors and baseline HAM-D17 total score as covariate.|Regression, Logistic|||Wald 95% CI for adjusted odds ratio.||4.20|1.93|<0.0001
92183446|NCT00887224|184265488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.14|||<|0.001|TWO_SIDED|95.0|-3.03|-1.24||"P-value obtained from mixed model: change from baseline = baseline + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14||-1.24|-3.03|<0.001
92183447|NCT00887224|184265488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.32|||<|0.001|TWO_SIDED|95.0|-3.29|-1.34||"P-value obtained from mixed model: change from baseline = baseline + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26||-1.34|-3.29|<0.001
92183448|NCT00887224|184265489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02||||0.6772|TWO_SIDED|95.0|-3.82|5.87||"P-value obtained from mixed model: change from baseline = baseline + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14 Absenteeism||5.87|-3.82|0.6772
92183449|NCT00887224|184265489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.9059|TWO_SIDED|95.0|-5.91|5.24||"P-value obtained from mixed model: change from baseline = baseline + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26 Absenteeism||5.24|-5.91|0.9059
92183450|NCT00887224|184265489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.91||||0.0414|TWO_SIDED|95.0|0.27|13.55||"P-value obtained from mixed model: change from baseline = baseline + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14 Presenteeism||13.55|0.27|0.0414
92183451|NCT00887224|184265489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.24||||0.0129|TWO_SIDED|95.0|1.77|14.71||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26 Presenteeism||14.71|1.77|0.0129
92183452|NCT00887224|184265489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.48||||0.0402|TWO_SIDED|95.0|0.34|14.61||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14 Work Productivity Loss||14.61|0.34|0.0402
92183453|NCT00887224|184265489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.48||||0.0187|TWO_SIDED|95.0|1.43|15.53||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26 Work Productivity Loss||15.53|1.43|0.0187
92265843|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|2.48||||0.48|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir19a||||0.48
92183454|NCT00887224|184265489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.57|||<|0.001|TWO_SIDED|95.0|3.33|11.8||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14 Activity Impairment||11.80|3.33|<0.001
92265844|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|0.75||||0.87|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir200a||||0.87
92183455|NCT00887224|184265489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.62|||<|0.001|TWO_SIDED|95.0|3.14|12.1||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26 Activity Impairment||12.10|3.14|<0.001
92183456|NCT00403494|184265514|SUPERIORITY|PWT was transformed to the log ratio at Week 24:Baseline for statistical analysis.|Mean Difference (Final Values)|-0.021|STANDARD_DEVIATION|0.379||0.727|TWO_SIDED|95.0|-0.138|0.097|||t-test, 2 sided||Mean difference represents the difference of the means of the natural log-transformed ratios between the 2 treatment groups.|||0.097|-0.138|0.727
92183457|NCT00487240|184265546|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority limit of 0.4% using the upper limit of a two-sided test at a significance level of 0.05 with 90% power assuming a 1.1 Standard Deviations (SD)|Mean Difference (Net)|-0.1||||0.332||95.0|-0.29|0.1|||ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Country.|Least Squares Mean Difference = Insulin Lispro Protamine Suspension minus Detemir.|Hypothesis: basal analog insulin lispro protamine suspension (ILPS), is inferior to basal analog insulin detemir, as measured by change in HbA1c from baseline to endpoint.||0.10|-0.29|0.332
92183458|NCT00487240|184265547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.718||95.0|-0.22|0.15||P-value for 8 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country.|Least Squares Mean Difference=Insulin Lispro Protamine Suspension minus Detemir.|||0.15|-0.22|0.718
92183459|NCT00487240|184265547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.187||95.0|-0.34|0.07||P-value for 16 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country|Least Squares Mean Difference = Insulin Lispro Protamine Suspension minus Detemir.|||0.07|-0.34|0.187
92183460|NCT00487240|184265547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.704||95.0|-0.25|0.17||P-value for 24 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country|Least Squares Mean Difference = Insulin Lispro Protamine Suspension minus Detemir.|||0.17|-0.25|0.704
92183461|NCT00487240|184265547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.599||95.0|-0.27|0.15||P-value for 32 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country|Least Squares Mean Difference = Insulin Lispro Protamine Suspension minus Detemir.|||0.15|-0.27|0.599
92183462|NCT00487240|184265548|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for With HbA1c ≤7.0%.|Fisher Exact|||||||1.000
92183463|NCT00487240|184265548|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for With HbA1c \<7.0%|Fisher Exact|||||||1.000
92183464|NCT00487240|184265548|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||P-value for With HbA1c ≤6.5%|Fisher Exact|||||||0.722
92183465|NCT00487240|184265548|SUPERIORITY_OR_OTHER|||||||0.699||95.0||||P-value for With HbA1c \<6.5%|Fisher Exact|||||||0.699
92183466|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.259||95.0||||P-value for Daily Mean 7-Point SMBG.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.259
92183467|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.468||95.0||||P-value for Daily Mean Pre-Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.468
92183468|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.395||95.0||||P-value for Daily Mean Postprandial Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.395
92183469|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||P-value for Daily Mean Morning and Evening Pre-Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.414
92183470|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.275||95.0||||P-value for Actual Morning Pre-Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.275
92183471|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.611||95.0||||P-value for Actual Morning Postprandial Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.611
92183472|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.763||95.0||||P-value for Actual Midday Pre-Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.763
92183473|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.977||95.0||||P-value for Actual Midday Postprandial Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.977
92183474|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.586||95.0||||P-value for Actual Evening Pre-Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.586
92183475|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.093||95.0||||P-value for Actual Evening Postprandial Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.093
92183476|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.516||95.0||||P-value for Actual 0300 Hours|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.516
92183477|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.576||95.0||||P-value for Actual Morning SMBG Excursion|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.576
92183478|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.876||95.0||||P-value for Midday SMBG Excursion|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.876
92183479|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.261||95.0||||P-value for Evening SMBG Excursion|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.261
92183480|NCT00487240|184265549|SUPERIORITY_OR_OTHER|||||||0.567||95.0||||P-value for Daily Mean SMBG Excursion|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.567
92183481|NCT00487240|184265550|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 0.8 mmol/L was chosen to prove noninferiority of ILPS to detemir.|Mean Difference (Net)|0.36||||||95.0|-0.03|0.75|||||Least Squares Mean difference = Insulin Lispro Protamine Suspension - Detemir|If the primary analysis achieves statistical significance at a 0.05 level (that is, the null hypothesis for the primary analysis \[primary outcome measure\] is rejected), then the first secondary hypothesis (glycemic variability) is tested at an error rate of 0.05.||0.75|-0.03|
92183482|NCT00487240|184265550|SUPERIORITY_OR_OTHER|||||||0.132||95.0||||P-value for M-Value|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.132
92183483|NCT00487240|184265550|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||P-value for MODD|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.179
92183484|NCT00487240|184265551|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||P-value for Endpoint Hypoglycemic Episodes|Fisher Exact|||||||0.737
92183485|NCT00487240|184265551|SUPERIORITY_OR_OTHER|||||||0.724||95.0||||P-value for Overall Hypoglycemic Episodes|Fisher Exact|||||||0.724
92183486|NCT00487240|184265551|SUPERIORITY_OR_OTHER|||||||0.157||95.0||||P-value for Endpoint Nocturnal Hypoglycemic Episodes|Fisher Exact|||||||0.157
92183487|NCT00487240|184265551|SUPERIORITY_OR_OTHER|||||||0.287||95.0||||P-value for Overall Nocturnal Episodes|Fisher Exact|||||||0.287
92287557|NCT01299454|184480408|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.727|||||TWO_SIDED|90.0|0.977|3.052|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||3.052|0.977|
92287558|NCT01299454|184480408|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometic Mean Ratio|1.041|||||TWO_SIDED|90.0|0.506|2.142|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance||2.142|0.506|
92287559|NCT01299454|184480409|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.904|||||TWO_SIDED|90.0|0.707|1.156|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance||1.156|0.707|
92183488|NCT00487240|184265551|SUPERIORITY_OR_OTHER|||||||0.664||95.0||||P-value for Endpoint Non-Nocturnal Hypoglycemic Episodes|Fisher Exact|||||||0.664
92183489|NCT00487240|184265551|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||P-value for Overall Non-Nocturnal Hypoglycemic Episodes|Fisher Exact|||||||0.730
92183490|NCT00487240|184265551|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||P-value for Endpoint Severe Hypoglycemic Episodes|Fisher Exact|||||||0.053
92183491|NCT00487240|184265551|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||P-value for Overall Severe Hypoglycemic Episodes|Fisher Exact|||||||0.081
92183492|NCT00487240|184265552|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-value for Endpoint Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.280
92183493|NCT00487240|184265552|SUPERIORITY_OR_OTHER|||||||0.193||95.0||||P-value for Overall Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.193
92183494|NCT00487240|184265552|SUPERIORITY_OR_OTHER|||||||0.042||95.0||||P-value for Endpoint Nocturnal Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.042
92183495|NCT00487240|184265552|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Overall Nocturnal Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.001
92183496|NCT00487240|184265552|SUPERIORITY_OR_OTHER|||||||0.579||95.0||||P-value for Endpoint Non-Nocturnal Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.579
92183497|NCT00487240|184265552|SUPERIORITY_OR_OTHER|||||||0.531||95.0||||P-value for Overall Non-Nocturnal Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.531
92183498|NCT00487240|184265552|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value for Endpoint Severe Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.017
92183499|NCT00487240|184265552|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||P-value for Overall Severe Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.038
92183500|NCT00487240|184265554|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 1.5 kg was chosen to prove noninferiority of ILPS to detemir.|Mean Difference (Net)|0.97||||0.003||95.0|0.34|1.6||P-value for Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country.|Least Squares Mean Difference = Insulin Lispro Protamine Suspension minus Detemir.|If the first secondary null hypothesis (glycemic variability) is rejected, then the second secondary hypothesis (weight change) is tested at an error rate of 0.05.||1.60|0.34|0.003
92183501|NCT00487240|184265555|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value for Total Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.023
92183502|NCT00487240|184265555|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for Total Bolus Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.004
92183503|NCT00487240|184265555|SUPERIORITY_OR_OTHER|||||||0.282||95.0||||P-value for Total Basal Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.282
92183504|NCT00487240|184265556|SUPERIORITY_OR_OTHER|||||||0.82||95.0||||P-value for Total Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.82
92183505|NCT00487240|184265556|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||P-value for Total Bolus Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.19
92183506|NCT00487240|184265556|SUPERIORITY_OR_OTHER|||||||0.416||95.0||||P-value for Total Basal Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.416
92183507|NCT02684136|184265572|SUPERIORITY||||||<|0.05|||||||ANCOVA|baseline used as covariate||||||<0.05
92183508|NCT02684136|184265573|SUPERIORITY||||||<|0.05||||||baseline used as covariate|ANCOVA|||||||<0.05
92183509|NCT01989793|184265574|EQUIVALENCE|Equivalence margin=0||||||0.97|||||||t-test, 2 sided|||Two-sample T-test of between-arm difference of change in isokinetic knee strength from baseline to week 8||||0.97
92183510|NCT01989793|184265575|EQUIVALENCE|Equivalence margin=0||||||0.48|||||||t-test, 2 sided|||Two-sample T-test of between-arm difference of change in isokinetic knee strength from baseline to week 16||||0.48
92183511|NCT01989793|184265576|EQUIVALENCE|Equivalence margin = 0||||||0.59|||||||t-test, 2 sided|||Two-sample T-test of between-arm difference of change in isokinetic knee strength from baseline to week 24||||0.59
92183512|NCT01989793|184265577|EQUIVALENCE|Equivalence margin=0||||||0.212|||||||t-test, 2 sided|assuming unequal variance between arms||Two-sample T-test of between-arm difference in fatiguability at week 8||||0.212
92183513|NCT01989793|184265578|EQUIVALENCE|Equivalence margin=0||||||0.271|||||||t-test, 2 sided|assuming unequal variance between arms||Two-sample T-test of between-arm difference in fatiguability at week 16||||0.271
92183514|NCT01989793|184265579|EQUIVALENCE|Equivalence margin=0||||||0.203|||||||t-test, 2 sided|assuming unequal variance between arms||Two-sample T-test of between-arm difference in fatiguability at week 24||||0.203
92183515|NCT01989793|184265580|EQUIVALENCE|Equivalence margin = 0||||||0.82|||||||Fisher Exact|||Fisher's exact test of percentage of participants with improvement in frailty score from baseline between treatment and placebo arms||||0.82
92183516|NCT01989793|184265581|EQUIVALENCE|Equivalence margin = 0||||||0.73|||||||Fisher Exact|||Fisher's exact test of percentage of participants with improvement in frailty score from baseline between treatment and placebo arms||||0.73
92183517|NCT01989793|184265582|EQUIVALENCE|Equivalence margin = 0||||||0.73|||||||Fisher Exact|||Fisher's exact test of percentage of participants with improvement in frailty score from baseline between treatment and placebo arms||||0.73
92183518|NCT01957163|184265585|SUPERIORITY_OR_OTHER||Least squared mean difference|0.124|||<|0.001|TWO_SIDED|95.0|0.093|0.154|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.154|0.093|< 0.001
92183519|NCT01957163|184265585|SUPERIORITY_OR_OTHER||Least squared mean difference|0.128|||<|0.001|TWO_SIDED|95.0|0.098|0.159|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.159|0.098|<0.001
92183520|NCT01957163|184265586|SUPERIORITY_OR_OTHER||Least squared mean difference|0.153|||<|0.001|TWO_SIDED|95.0|0.118|0.187|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.187|0.118|<0.001
92183521|NCT01957163|184265586|SUPERIORITY_OR_OTHER||Least squared mean difference|0.14|||<|0.001|TWO_SIDED|95.0|0.106|0.175|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.175|0.106|<0.001
92183522|NCT03822832|184265590|OTHER||Mean Difference (Final Values)|-25.6|STANDARD_ERROR_OF_MEAN|17.4||0.1492|TWO_SIDED|90.0|-54.9|3.7|||Mixed Models Analysis|See endpoint description for model description.|Difference calculated as Spesolimab - Placebo.|||3.7|-54.9|0.1492
92183523|NCT03822832|184265592|OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|3.8||0.8613|TWO_SIDED|90.0|-5.7|7.0|||Mixed Models Analysis|See endpoint description for model description.|Difference calculated as Spesolimab - Placebo.|||7.0|-5.7|0.8613
92183524|NCT03822832|184265593|OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|14.0||0.8754|TWO_SIDED|90.0|-25.8|21.4|||Mixed Models Analysis|See endpoint description for model description.|Difference calculated as Spesolimab - Placebo.|||21.4|-25.8|0.8754
92183525|NCT03822832|184265594|OTHER||Risk Difference (RD)|-0.03|||||TWO_SIDED|90.0|-0.254|0.176||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Placebo|Risk difference at week 4||0.176|-0.254|
92183526|NCT03822832|184265594|OTHER||Risk Difference (RD)|0.247|||||TWO_SIDED|90.0|0.053|0.396||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Placebo|Risk difference at week 16||0.396|0.053|
92183527|NCT03822832|184265595|OTHER||Risk Difference (RD)|-0.02|||||TWO_SIDED|90.0|-0.204|0.117||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Placebo|Risk difference at week 4||0.117|-0.204|
92183528|NCT03822832|184265595|OTHER||Risk Difference (RD)|0.096|||||TWO_SIDED|90.0|-0.08|0.232||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Pl|Risk difference at week 16||0.232|-0.080|
92183529|NCT03822832|184265596|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|8.7||0.99|TWO_SIDED|90.0|-14.6|14.8|||Mixed Models Analysis|See endpoint description for model description.|Difference calculated as Spesolimab - Placebo.|||14.8|-14.6|0.9900
92183530|NCT03822832|184265597|OTHER||Mean Difference (Final Values)|-14.9|STANDARD_ERROR_OF_MEAN|12.1||0.2266|TWO_SIDED|90.0|-35.2|5.5|||Mixed Models Analysis|See endpoint description for model description.|Difference calculated as Spesolimab - Placebo.|||5.5|-35.2|0.2266
92183531|NCT03822832|184265598|OTHER||Risk Difference (RD)|0.005|||||TWO_SIDED|90.0|-0.159|0.12||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Placebo|Risk difference at week 4||0.120|-0.159|
92183532|NCT03822832|184265598|OTHER||Risk Difference (RD)|0.091|||||TWO_SIDED|90.0|-0.05|0.207||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Placebo|Risk difference at week 16||0.207|-0.050|
92183533|NCT01321073|184265608|SUPERIORITY||||||<|0.0001|||||||1-sample exact test for Poisson rate|||The rate of catheter-related complications per 1000 patient-days was compared to a pre-specified value of 2.5 / 1000 days. This was calculated based on published complication rates in PAH that included central venous catheter systemic bloodstream infections (0.43-1.13), site infections (0.26-0.87), and complications from catheter thrombosis, mechanical dysfunction, or catheter dislocation in the general central venous catheter population (0.36-0.51). The sum of the upper rates is 2.5.||||<0.0001
92287560|NCT01299454|184480409|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.665|1.087|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance||1.087|0.665|
92287561|NCT01299454|184480409|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.531||||||90.0|0.399|0.705|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% confidence interval (CI) for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance||0.705|0.399|
92287562|NCT01299454|184480410|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.103|||||TWO_SIDED|90.0|0.774|1.573|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.573|0.774|
92287563|NCT01299454|184480410|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.199|||||TWO_SIDED|90.0|0.841|1.71|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.710|0.841|
92183534|NCT01638000|184265609|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was concluded if the lower limit of the 95% CI for difference of adjusted change from baseline between solifenacin 5 mg and mirabegron 50 mg was \> -0.20. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg. Overall power calculation was 80% for a 1-sided test and significance level of 0.025.|least squares mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.124||0.15|TWO_SIDED|95.0|-0.42|0.06||If p\<0.05, this indicated superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||The non-inferiority of mirabegron vs. solifencacin on the change from baseline to final visit in the mean number of micturitions per 24 hours.||0.06|-0.42|0.15
92183535|NCT01638000|184265610|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.53||||0.03|TWO_SIDED|95.0|1.04|2.25||If P \<0.05, this indicates superiority in favor of the treatment group with the smallest percentage of participants with at least 1 TEAE of dry mouth, constipation or blurred vision during the double-blind period at the final visit.|Regression, Logistic|Included treatment group, sex, age group (\< 65, ≥ 65), number of prior antimuscarinics (1, ≥ 2) and geographic region as factors.||Difference vs Mirabegron. Differences of the percentages were calculated by subtracting the percentage of mirabegron 50 mg group from the percentage of solifenacin 5 mg group.||2.25|1.04|0.030
92183536|NCT01638000|184265611|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.117||0.71|TWO_SIDED|95.0|-0.19|0.27||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.27|-0.19|0.71
92183537|NCT01638000|184265611|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.119||0.053|TWO_SIDED|95.0|-0.47|0.0||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.00|-0.47|0.053
92183538|NCT01638000|184265611|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.125||0.12|TWO_SIDED|95.0|-0.44|0.05||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.05|-0.44|0.12
92183539|NCT01638000|184265612|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.9||||0.33|TWO_SIDED|95.0|0.73|1.11||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 4 Rate Ratio vs. Mirabegron.||1.11|0.73|0.33
92183540|NCT01638000|184265612|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.84||||0.21|TWO_SIDED|95.0|0.64|1.1||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 8 Rate Ratio vs. Mirabegron.||1.10|0.64|0.21
92183541|NCT01638000|184265612|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.97||||0.83|TWO_SIDED|95.0|0.71|1.32||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates||Week 12 Rate Ratio vs. Mirabegron.||1.32|0.71|0.83
92183542|NCT01638000|184265612|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.92||||0.57|TWO_SIDED|95.0|0.68|1.24||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Final Visit Rate Ratio vs. Mirabegron||1.24|0.68|0.57
92183543|NCT01638000|184265613|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.089||0.36|TWO_SIDED|95.0|-0.25|0.1||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From stratified rank ANCOVA analysis.||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.10|-0.25|0.36
92183544|NCT01638000|184265613|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.13||0.12|TWO_SIDED|95.0|-0.48|0.03||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From the stratified rank ANCOVA analysis.||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.03|-0.48|0.12
92287564|NCT01299454|184480410|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.79|||||TWO_SIDED|90.0|0.524|1.189|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.189|0.524|
92287565|NCT01299454|184480411|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.241|||||TWO_SIDED|90.0|0.719|2.143|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||2.143|0.719|
92287566|NCT01299454|184480411|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance|Geometric Mean Ratio|1.604|||||TWO_SIDED|90.0|0.942|2.732|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||2.732|0.942|
92265845|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|2.78||||0.53|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir22||||0.53
92265846|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|1.91||||0.57|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir223||||0.57
92265847|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|4.27||||0.26|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir23a||||0.26
92265848|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|1.66||||0.75|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir26a||||0.75
92265849|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|-0.91||||0.89|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir320b||||0.89
92265850|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|3.32||||0.26|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir598||||0.26
92265851|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|-0.99||||0.87|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir720||||0.87
92265852|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|-0.75||||0.74|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir1915||||0.74
92265853|NCT01484691|184433293|SUPERIORITY||Mean Difference (Net)|3.77||||0.36|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir1978||||0.36
92265854|NCT03522506|184433294|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The least squares mean (LSM) sleep latency for each treatment and the associated standard error and 95% confidence interval (CI) was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|Least square mean difference|20.06|||<|0.001|TWO_SIDED|95.0|13.35|26.77|||Linear mixed effect model|||||26.77|13.35|<0.001
92265855|NCT03522506|184433294|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|24.35|||<|0.001|TWO_SIDED|95.0|17.64|31.06|||Linear mixed effect model|||||31.06|17.64|<0.001
92265856|NCT03522506|184433294|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM Difference|19.89|||<|0.001|TWO_SIDED|95.0|13.3|26.49|||Linear mixed effects model|||||26.49|13.30|<0.001
92265857|NCT03522506|184433304|SUPERIORITY|14 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.2||||0.664|TWO_SIDED|95.0|-1.13|0.73|||Linear mixed effect model|||||0.73|-1.13|0.664
92265858|NCT03522506|184433304|SUPERIORITY|14 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|0.24||||0.605|TWO_SIDED|95.0|-0.69|1.17|||Linear mixed effect model|||||1.17|-0.69|0.605
92265859|NCT03522506|184433304|SUPERIORITY|14 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.26||||0.574|TWO_SIDED|95.0|-1.17|0.66|||Linear mixed effect model|||||0.66|-1.17|0.574
92265860|NCT03522506|184433304|SUPERIORITY|10 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|0.29||||0.483|TWO_SIDED|95.0|-0.53|1.11|||Linear mixed effect model|||||1.11|-0.53|0.483
92265861|NCT03522506|184433304|SUPERIORITY|10 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|0.01||||0.972|TWO_SIDED|95.0|-0.81|0.84|||Linear mixed effect model|||||0.84|-0.81|0.972
92265862|NCT03522506|184433304|SUPERIORITY|10 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.18||||0.654|TWO_SIDED|95.0|-0.99|0.63|||Linear mixed effect model|||||0.63|-0.99|0.654
92183545|NCT01638000|184265613|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.163||0.47|TWO_SIDED|95.0|-0.57|0.07||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From the stratified rank ANCOVA analysis.||Week 12 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.07|-0.57|0.47
92183546|NCT01638000|184265614|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.92||||0.44|TWO_SIDED|95.0|0.74|1.14||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 4 Rate Ratio vs. Mirabegron||1.14|0.74|0.44
92183547|NCT01638000|184265614|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.79||||0.11|TWO_SIDED|95.0|0.6|1.06||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates||Week 8 Rate Ratio vs. Mirabegron||1.06|0.60|0.11
92183548|NCT01638000|184265614|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.05||||0.78|TWO_SIDED|95.0|0.76|1.45||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates||Week 12 Rate Ratio vs. Mirabegron||1.45|0.76|0.78
92183549|NCT01638000|184265614|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.97||||0.85|TWO_SIDED|95.0|0.71|1.33||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates||Final Visit Rate Ratio vs. Mirabegron||1.33|0.71|0.85
92183550|NCT01638000|184265615|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.081||0.66|TWO_SIDED|95.0|-0.18|0.14||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From stratified rank ANCOVA analysis.||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.14|-0.18|0.66
92183551|NCT01638000|184265615|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.17|TWO_SIDED|95.0|-0.31|-0.03||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From the stratified rank ANCOVA analysis.||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||-0.03|-0.31|0.17
92183552|NCT01638000|184265615|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.066||0.66|TWO_SIDED|95.0|-0.24|0.02||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From the stratified rank ANCOVA analysis.||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.02|-0.24|0.66
92183553|NCT01638000|184265616|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.16||0.43|TWO_SIDED|95.0|-0.44|0.19||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.19|-0.44|0.43
92183554|NCT01638000|184265616|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.157||0.027|TWO_SIDED|95.0|-0.66|-0.04||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||-0.04|-0.66|0.027
92183555|NCT01638000|184265616|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.164||0.053|TWO_SIDED|95.0|-0.64|0.0|||ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.00|-0.64|0.053
92287567|NCT01299454|184480411|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.077|||||TWO_SIDED|90.0|0.54|2.146|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||2.146|0.540|
92183556|NCT01638000|184265616|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.163||0.16|TWO_SIDED|95.0|-0.55|0.09||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Final Visit Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.09|-0.55|0.16
92183557|NCT01638000|184265617|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.023||0.99|TWO_SIDED|95.0|-0.05|0.05||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.05|-0.05|0.99
92183558|NCT01638000|184265617|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.027||0.47|TWO_SIDED|95.0|-0.07|0.03||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.03|-0.07|0.47
92183559|NCT01638000|184265617|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.032||0.99|TWO_SIDED|95.0|-0.06|0.06||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.06|-0.06|0.99
92183560|NCT01638000|184265617|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.031||0.74|TWO_SIDED|95.0|-0.05|0.07||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Final visit Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.07|-0.05|0.74
92183561|NCT01638000|184265618|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.03||||0.67|TWO_SIDED|95.0|0.89|1.2||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 4 Rate Ratio vs. Mirabegron||1.20|0.89|0.67
92183562|NCT01638000|184265618|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.17||||0.073|TWO_SIDED|95.0|0.99|1.39||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 8 Rate Ratio vs. Mirabegron||1.39|0.99|0.073
92183563|NCT01638000|184265618|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.12||||0.25|TWO_SIDED|95.0|0.92|1.37||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 12 Rate Ratio vs. Mirabegron||1.37|0.92|0.25
92183564|NCT01638000|184265618|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.08||||0.4|TWO_SIDED|95.0|0.9|1.31||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Final Visit Rate Ratio vs. Mirabegron||1.31|0.90|0.40
92183565|NCT01638000|184265619|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.115||0.84|TWO_SIDED|95.0|-0.25|0.2||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.20|-0.25|0.84
92183566|NCT01638000|184265619|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.099||0.63|TWO_SIDED|95.0|-0.24|0.15||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.15|-0.24|0.63
92183567|NCT01638000|184265619|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.111||0.59|TWO_SIDED|95.0|-0.28|0.16||if p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.16|-0.28|0.59
92183568|NCT01638000|184265620|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.05||||0.068|TWO_SIDED|95.0|1.0|1.11||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 4 Rate Ratio vs. Mirabegron||1.11|1.00|0.068
92183569|NCT01638000|184265620|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.04||||0.21|TWO_SIDED|95.0|0.98|1.11||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 8 Rate Ratio vs. Mirabegron||1.11|0.98|0.21
92287568|NCT01299454|184480412|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric mean ratio|0.856|||||TWO_SIDED|90.0|0.691|1.059|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.059|0.691|
92287569|NCT01299454|184480412|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.742|||||TWO_SIDED|90.0|0.599|0.918|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.918|0.599|
92287570|NCT01299454|184480412|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.451|||||TWO_SIDED|90.0|0.352|0.577|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.577|0.352|
92287571|NCT01299454|184480421|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.509|||||TWO_SIDED|90.0|0.346|0.748|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.748|0.346|
92183570|NCT01638000|184265620|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.02||||0.52|TWO_SIDED|95.0|0.95|1.1||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 12 Rate Ratio vs. Mirabegron||1.10|0.95|0.52
92183571|NCT01638000|184265620|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.03||||0.44|TWO_SIDED|95.0|0.96|1.1||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Final Visit Rate Ratio vs. Mirabegron||1.10|0.96|0.44
92183572|NCT01638000|184265621|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.047||0.058|TWO_SIDED|95.0|0.0|0.18||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.18|-0.00|0.058
92183573|NCT01638000|184265621|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.044||0.5|TWO_SIDED|95.0|-0.06|0.12||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.12|-0.06|0.50
92183574|NCT01638000|184265621|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.046||0.81|TWO_SIDED|95.0|-0.08|0.1||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.10|-0.08|0.81
92183575|NCT01638000|184265622|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.67|TWO_SIDED|95.0|0.85|1.28||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 4 Odds ratio vs. Mirabegron||1.28|0.85|0.67
92183576|NCT01638000|184265622|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.026|TWO_SIDED|95.0|1.03|1.53||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 8 Odds ratio vs. Mirabegron||1.53|1.03|0.026
92183577|NCT01638000|184265622|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.18||||0.11|TWO_SIDED|95.0|0.97|1.44||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds ratio vs. Mirabegron||1.44|0.97|0.11
92183578|NCT01638000|184265622|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.18||||0.093|TWO_SIDED|95.0|0.97|1.43||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final Visit Odds ratio vs. Mirabegron||1.43|0.97|0.093
92183579|NCT01638000|184265623|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.06||||0.74|TWO_SIDED|95.0|0.76|1.48||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 4 Odds Ratio vs. Mirabegron||1.48|0.76|0.74
92183580|NCT01638000|184265623|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.07||||0.74|TWO_SIDED|95.0|0.71|1.63||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 8 Odds Ratio vs. Mirabegron||1.63|0.71|0.74
92183581|NCT01638000|184265623|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.29|TWO_SIDED|95.0|0.81|2.0||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||2.00|0.81|0.29
92183582|NCT01638000|184265623|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.29|TWO_SIDED|95.0|0.82|1.9||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.90|0.82|0.29
92183583|NCT01638000|184265624|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.22||||0.2|TWO_SIDED|95.0|0.9|1.67||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 4 Odds Ratio vs. Mirabegron||1.67|0.90|0.20
92183584|NCT01638000|184265624|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.91||||0.57|TWO_SIDED|95.0|0.65|1.26||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 8 Odds Ratio vs. Mirabegron||1.26|0.65|0.57
92183585|NCT01638000|184265624|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.98||||0.92|TWO_SIDED|95.0|0.69|1.39||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||1.39|0.69|0.92
92183586|NCT01638000|184265624|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.9|TWO_SIDED|95.0|0.73|1.42||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.42|0.73|0.90
92183587|NCT01638000|184265645|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.69|STANDARD_ERROR_OF_MEAN|0.817||0.039|TWO_SIDED|95.0|-3.29|-0.08||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 4 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.08|-3.29|0.039
92183588|NCT01638000|184265645|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.849||0.034|TWO_SIDED|95.0|-3.46|-0.13||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 8 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.13|-3.46|0.034
92183589|NCT01638000|184265645|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.917||0.022|TWO_SIDED|95.0|-3.9|-0.3||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 12 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.30|-3.90|0.022
92183590|NCT01638000|184265645|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.87|STANDARD_ERROR_OF_MEAN|0.924||0.043|TWO_SIDED|95.0|-3.68|-0.06||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Final Visit Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.06|-3.68|0.043
92183591|NCT01638000|184265646|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.14|STANDARD_ERROR_OF_MEAN|0.77||0.14|TWO_SIDED|95.0|-0.37|2.65||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 4 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||2.65|-0.37|0.14
92183592|NCT01638000|184265646|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.55|STANDARD_ERROR_OF_MEAN|0.805||0.055|TWO_SIDED|95.0|-0.03|3.13||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariates.||Week 8 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||3.13|-0.03|0.055
92183593|NCT01638000|184265646|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.55|STANDARD_ERROR_OF_MEAN|0.866||0.074|TWO_SIDED|95.0|-0.15|3.25||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariates.||Week 12 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||3.25|-0.15|0.074
92183594|NCT01638000|184265646|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.41|STANDARD_ERROR_OF_MEAN|0.873||0.11|TWO_SIDED|95.0|-0.3|3.12||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariates.||Final Visit Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||3.12|-0.30|0.11
92183595|NCT01638000|184265647|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.07|TWO_SIDED|95.0|-0.19|0.01||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 4 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.01|-0.19|0.070
92183596|NCT01638000|184265647|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.054||0.003|TWO_SIDED|95.0|-0.27|-0.06||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 8 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.06|-0.27|0.003
92183597|NCT01638000|184265647|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.06||0.015|TWO_SIDED|95.0|-0.26|-0.03||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 12 Difference vs. Mirabegron.Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.03|-0.26|0.015
92183598|NCT01638000|184265647|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.059||0.021|TWO_SIDED|95.0|-0.25|-0.02||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Final Visit Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.02|-0.25|0.021
92183599|NCT01638000|184265648|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.43|STANDARD_ERROR_OF_MEAN|0.141||0.002|TWO_SIDED|95.0|0.15|0.7||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 12 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.70|0.15|0.002
92183600|NCT01638000|184265648|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.141||0.003|TWO_SIDED|95.0|0.14|0.7||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Final Visit Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.70|0.14|0.003
92183601|NCT01638000|184265649|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean diffrence|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.027|TWO_SIDED|95.0|0.02|0.29||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 12 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.29|0.02|0.027
92183602|NCT01638000|184265649|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.071||0.034|TWO_SIDED|95.0|0.01|0.29||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Final Visit Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.29|0.01|0.034
92287572|NCT01299454|184480421|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.586|||||TWO_SIDED|90.0|0.399|0.861|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.861|0.399|
92287573|NCT01299454|184480421|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.334|||||TWO_SIDED|90.0|0.214|0.521|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.521|0.214|
92287574|NCT01299454|184480422|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.716|||||TWO_SIDED|90.0|0.445|1.153|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.153|0.445|
92287575|NCT01299454|184480422|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.594|||||TWO_SIDED|90.0|0.378|0.934|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.934|0.378|
92287576|NCT01299454|184480422|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.561|||||TWO_SIDED|90.0|0.308|1.022|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.022|0.308|
92287577|NCT01299454|184480423|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.558|||||TWO_SIDED|90.0|0.368|0.845|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.845|0.368|
92287578|NCT01299454|184480423|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.516|||||TWO_SIDED|90.0|0.341|0.781|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.781|0.341|
92287579|NCT01299454|184480423|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.314|||||TWO_SIDED|90.0|0.195|0.507|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.507|0.195|
92287580|NCT03437265|184480442|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented.|||
92287581|NCT03437265|184480443|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented.|||
92287582|NCT03437265|184480444|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented.|||
92287583|NCT03437265|184480445|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented.|||
92287584|NCT03437265|184480446|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented.|||
92287585|NCT03437265|184480447|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented. The Geometric CV for glycolic acid was Not Calculated (appears as 0%).|||
92287586|NCT03437265|184480448|OTHER||||||||||||||||||Summary of the number of bowel movements per time period for the PD analysis set|||
92287587|NCT03437265|184480449|OTHER||||||||||||||||||The time (in minutes) to achieve clear effluent/time to turbid contents is presented for the PD analysis set.|||
92287588|NCT01667679|184480473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.39|STANDARD_ERROR_OF_MEAN|0.824|<|0.0001|TWO_SIDED|95.0|1.76|5.01|||ANCOVA|||||5.01|1.76|<0.0001
92287589|NCT01667679|184480474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.66|STANDARD_ERROR_OF_MEAN|1.105||0.0013|TWO_SIDED|95.0|1.47|5.85|||ANCOVA||mild attacks|||5.85|1.47|0.0013
92287590|NCT01667679|184480474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.76|STANDARD_ERROR_OF_MEAN|0.971||0.0002|TWO_SIDED|95.0|1.84|5.68|||ANCOVA||moderate/severe attacks|||5.68|1.84|0.0002
92287591|NCT01667679|184480475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.3549|TWO_SIDED|95.0|0.85|1.6|||ANCOVA||10 minutes post-dose|||1.60|0.85|0.3549
92287592|NCT01667679|184480475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.0005|TWO_SIDED|95.0|1.2|1.9|||ANCOVA||15 minutes post-dose|||1.90|1.20|0.0005
92287593|NCT01667679|184480475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79|||<|0.0001|TWO_SIDED|95.0|1.45|2.21|||ANCOVA||30 minutes post-dose|||2.21|1.45|<0.0001
92287594|NCT01667679|184480475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.0002|TWO_SIDED|95.0|1.24|1.96|||ANCOVA||45 minutes post-dose|||1.96|1.24|0.0002
92287595|NCT01667679|184480475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.0057|TWO_SIDED|95.0|1.1|1.71|||ANCOVA||60 minutes post-dose|||1.71|1.10|0.0057
92287596|NCT01667679|184480475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.0654|TWO_SIDED|95.0|0.99|1.61|||ANCOVA||90 minutes post-dose|||1.61|0.99|0.0654
92287597|NCT01667679|184480475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.2894|TWO_SIDED|95.0|0.89|1.49|||ANCOVA||120 minutes post-dose|||1.49|0.89|0.2894
92287598|NCT01667679|184480476|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.1771|TWO_SIDED|95.0|0.76|4.54|||ANCOVA||10 minutes post-dose|||4.54|0.76|0.1771
92287599|NCT01667679|184480476|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.03||||0.0077|TWO_SIDED|95.0|1.21|3.42|||ANCOVA||15 minutes post-dose|||3.42|1.21|0.0077
92287600|NCT01667679|184480476|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||0.0003|TWO_SIDED|95.0|1.32|2.5|||ANCOVA||30 minutes post-dose|||2.50|1.32|0.0003
92287601|NCT01667679|184480476|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64|||<|0.0001|TWO_SIDED|95.0|1.29|2.09|||ANCOVA||45 minutes post-dose|||2.09|1.29|<0.0001
92183603|NCT01638000|184265650|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4||||0.01|TWO_SIDED|95.0|1.08|1.81||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||1.81|1.08|0.010
92287602|NCT01667679|184480476|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.0016|TWO_SIDED|95.0|1.14|1.74|||ANCOVA||60 minutes post-dose|||1.74|1.14|0.0016
92183604|NCT01638000|184265650|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.011|TWO_SIDED|95.0|1.07|1.75||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.75|1.07|0.011
92183605|NCT01638000|184265651|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.28||||0.037|TWO_SIDED|95.0|1.02|1.62||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||1.62|1.02|0.037
92183606|NCT01638000|184265651|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.26||||0.045|TWO_SIDED|95.0|1.01|1.57||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.57|1.01|0.045
92183607|NCT01638000|184265652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.51||||0.009|TWO_SIDED|95.0|1.11|2.06||Iif p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 (≥1 point improvement) Odds Rato vs. Mirabegron||2.06|1.11|0.009
92183608|NCT01638000|184265652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.065|TWO_SIDED|95.0|0.99|1.65||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 (≥2 point improvement) Odds Rato vs. Mirabegron||1.65|0.99|0.065
92183609|NCT01638000|184265652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.051|TWO_SIDED|95.0|1.0|1.55||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 (≥3 point improvement) Odds Rato vs. Mirabegron||1.55|1.00|0.051
92183610|NCT01638000|184265652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.18||||0.14|TWO_SIDED|95.0|0.95|1.47||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 (≥4 point improvement) Odds Rato vs. Mirabegron||1.47|0.95|0.14
92183611|NCT01638000|184265652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.89|TWO_SIDED|95.0|0.75|1.4||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 (≥5 point improvement) Odds Rato vs. Mirabegron||1.40|0.75|0.89
92183612|NCT01638000|184265652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.14||||0.66|TWO_SIDED|95.0|0.64|2.04||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.|Participants from Canada were therefore excluded from this analysis due to low participant numbers.|Week 12 (6 point improvement) Odds Rato vs. Mirabegron||2.04|0.64|0.66
92183613|NCT01638000|184265653|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.44||||0.016|TWO_SIDED|95.0|1.07|1.93||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit (≥1 point improvement) Odds Rato vs. Mirabegron||1.93|1.07|0.016
92183614|NCT01638000|184265653|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.063|TWO_SIDED|95.0|0.99|1.62||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit (≥2 point improvement) Odds Rato vs. Mirabegron||1.62|0.99|0.063
92183615|NCT01638000|184265653|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||0.054|TWO_SIDED|95.0|1.0|1.53||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit (≥3 point improvement) Odds Rato vs. Mirabegron||1.53|1.00|0.054
92183616|NCT01638000|184265653|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.15|TWO_SIDED|95.0|0.95|1.46||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit (≥4 point improvement) Odds Rato vs. Mirabegron||1.46|0.95|0.15
92183617|NCT01638000|184265653|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.75|TWO_SIDED|95.0|0.77|1.44||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit (≥5 point improvement) Odds Rato vs. Mirabegron||1.44|0.77|0.75
92183618|NCT01638000|184265653|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.14||||0.66|TWO_SIDED|95.0|0.64|2.04||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.|Participants from Canada were therefore excluded from this analysis due to low participant numbers.|Final visit (6 point improvement) Odds Rato vs. Mirabegron||2.04|0.64|0.66
92183619|NCT01638000|184265654|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||0.082|TWO_SIDED|95.0|0.97|1.57||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||1.57|0.97|0.082
92183620|NCT01638000|184265654|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.18||||0.15|TWO_SIDED|95.0|0.94|1.49||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.49|0.94|0.15
92183621|NCT01638000|184265655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.23||||0.058|TWO_SIDED|95.0|0.99|1.53||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||1.53|0.99|0.058
92183622|NCT01638000|184265655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.21||||0.069|TWO_SIDED|95.0|0.99|1.5||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visitI|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.50|0.99|0.069
92287603|NCT01667679|184480476|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.0059|TWO_SIDED|95.0|1.09|1.69|||ANCOVA||90 minutes post-dose|||1.69|1.09|0.0059
92287604|NCT01667679|184480476|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.2717|TWO_SIDED|95.0|0.91|1.42|||ANCOVA||120 minutes post-dose|||1.42|0.91|0.2717
92183623|NCT04248803|184265656|NON_INFERIORITY|From the above mentioned non inferiority clinical trial it is hypothesized that GLUMA application will reduce postoperative sensitivity during dental restorative procedures.||||||0.05|||||||Kruskal-Wallis|||The sample size was estimated to be 504 using G Power software with 95% power and alpha value set to 0.05. The participants were randomly divided to 6 groups with randomizer.org. The statistical analysis was carried out using SPSS 23 software to compare the mean pain scores between the six study groups using kruskal Wallis test.||||0.05
92183624|NCT01000805|184265683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|||<|0.001|TWO_SIDED|95.0|-0.9|-0.33||This p-value is for the main effect of treatment.|Mixed Models Analysis|||||-0.33|-0.90|<0.001
92183625|NCT01000805|184265684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.04|||<|0.001|TWO_SIDED|95.0|-5.83|-2.24|||Mixed Models Analysis|||||-2.24|-5.83|<0.001
92183626|NCT01000805|184265685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.112|TWO_SIDED|95.0|-1.03|0.11||This is the p-value for the Disrupt Work/School Work score.|Mixed Models Analysis|||||0.11|-1.03|0.112
92183627|NCT01000805|184265685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.005|TWO_SIDED|95.0|-1.24|-0.22||This the p-value for the Disrupt Social Life/Leisure score.|Mixed Models Analysis|||||-0.22|-1.24|0.005
92183628|NCT01000805|184265685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.04|TWO_SIDED|95.0|-1.04|-0.02||This is the p-value for the Disrupt Family Life/Home score.|Mixed Models Analysis|||||-0.02|-1.04|0.040
92183629|NCT01000805|184265685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.019|TWO_SIDED|95.0|-3.2|-0.29||P-value for the SDS Total score. First gated secondary outcome measure. Gatekeeper strategy controlled experiment-wise type I error for 5 secondary outcomes with stepwise comparisons of treatments until outcome failed to be significant (p\>0.05).|Mixed Models Analysis|||||-0.29|-3.20|0.019
92183630|NCT01000805|184265686|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||This is the second gated secondary outcome measure. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|Cochran-Mantel-Haenszel|||||||0.001
92183631|NCT01000805|184265687|SUPERIORITY_OR_OTHER|||||||0.0082||95.0||||This is the third gated secondary outcome measure. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|Cochran-Mantel-Haenszel|||||||0.0082
92183632|NCT01000805|184265688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.66|||<|0.001|TWO_SIDED|95.0|-5.2|-2.11||This is the fourth gated secondary outcome measure. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|Mixed Models Analysis|||||-2.11|-5.20|<0.001
92183633|NCT01000805|184265689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.19||||0.001|TWO_SIDED|95.0|-3.5|-0.89||This is the fifth gated secondary outcome measure. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|Mixed Models Analysis|||||-0.89|-3.50|0.001
92183634|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|||<|0.001|TWO_SIDED|95.0|-0.97|-0.32||This is the p-value for the main effect of treatment for the BPI Severity for Worst Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.32|-0.97|<0.001
92183635|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|||<|0.001|TWO_SIDED|95.0|-0.9|-0.34||This is the p-value for main effect of treatment for the BPI Severity for Least Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.34|-0.90|<0.001
92183636|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|||<|0.001|TWO_SIDED|95.0|-0.9|-0.33||This is the p-value for the main effect of treatment for the BPI Severity for Average Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.33|-0.90|<0.001
92183637|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|||<|0.001|TWO_SIDED|95.0|-1.06|-0.42||This is the p-value for the main effect of treatment for the BPI Severity for Pain Right Now score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.42|-1.06|<0.001
92183638|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|||<|0.001|TWO_SIDED|95.0|-1.03|-0.33||This is the p-value for the main effect of treatment for the BPI Pain Interference with General Activity score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.33|-1.03|<0.001
92183639|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|||<|0.001|TWO_SIDED|95.0|-1.09|-0.37||This is the p-value for the main effect of treatment for the BPI Pain Interference with Mood score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.37|-1.09|<0.001
92183640|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.009|TWO_SIDED|95.0|-0.79|-0.11||This is the p-value for the main effect of treatment for the BPI Pain Interference with Walking Ability score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.11|-0.79|0.009
92183641|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.002|TWO_SIDED|95.0|-0.91|-0.21||This is the p-value for the main effect of treatment for the BPI Pain Interference with Normal Work score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.21|-0.91|0.002
92183642|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.06|-0.35||This is the p-value for the main effect of treatment for the BPI Pain Interference with Relations with Others score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.35|-1.06|<0.001
92183643|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.042|TWO_SIDED|95.0|-0.76|-0.01||This is the p-value for the main effect of treatment for the BPI Pain Interference with Sleep score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.01|-0.76|0.042
92183644|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|||<|0.001|TWO_SIDED|95.0|-1.03|-0.31||This is the p-value for the main effect of treatment for the BPI Pain Interference with Enjoyment of Life score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.31|-1.03|<0.001
92183645|NCT01000805|184265690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001|TWO_SIDED|95.0|-0.88|-0.25||This is the p-value for the main effect of treatment for the BPI Mean Pain Interference score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.25|-0.88|<0.001
92183646|NCT01000805|184265691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|||<|0.001|TWO_SIDED|95.0|-0.71|-0.26||P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.26|-0.71|<0.001
92183647|NCT01000805|184265692|SUPERIORITY_OR_OTHER|||||||0.293||95.0||||This is the p-value for suicidal ideation. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.293
92183648|NCT01000805|184265693|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.033
92183649|NCT01000805|184265694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.92|||<|0.001|TWO_SIDED|95.0|1.34|4.51||This is the p-value for the Change from Baseline at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||4.51|1.34|<0.001
92183650|NCT01000805|184265694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4||||0.001|TWO_SIDED|95.0|0.97|3.83||This is the p-value for the Change up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||3.83|0.97|0.001
92183651|NCT01000805|184265695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9||||0.083|TWO_SIDED|95.0|-0.25|4.04||This is the p-value for the Change from Baseline in SBP at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||4.04|-0.25|0.083
92183652|NCT01000805|184265695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.513|TWO_SIDED|95.0|-0.95|1.9||This is the p-value for the Change from Baseline in DBP at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||1.90|-0.95|0.513
92183653|NCT01000805|184265695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.53||||0.124|TWO_SIDED|95.0|-0.42|3.47||This is the p-value for the Change from Baseline in SBP up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||3.47|-0.42|0.124
92183654|NCT01000805|184265695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.638|TWO_SIDED|95.0|-0.98|1.6||This is the p-value for the Change from Baseline in DBP up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||1.60|-0.98|0.638
92183655|NCT01000805|184265696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|||<|0.001|TWO_SIDED|95.0|-1.37|-0.54||This is the p-value for the Change from Baseline at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.54|-1.37|<0.001
92183656|NCT01000805|184265696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|||<|0.001|TWO_SIDED|95.0|-1.24|-0.51||This is the p-value for the Change from Baseline up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||-0.51|-1.24|<0.001
92183657|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.216|0.141|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Erythema||0.141|-0.216|
92183658|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.216|0.141|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Swelling||0.141|-0.216|
92183659|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.135|0.119|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|ALT Increased||0.119|-0.135|
92183660|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.135|0.119|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Hemoglobin Decreased||0.119|-0.135|
92183661|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.205|0.121|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Leukocytosis||0.121|-0.205|
92183662|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.024|||||TWO_SIDED|95.0|-0.127|0.111|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|PTT Prolonged||0.111|-0.127|
92183663|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.056|||||TWO_SIDED|95.0|0.022|0.134|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Thrombocytopenia||0.134|0.022|
92183664|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.051|||||TWO_SIDED|95.0|0.018|0.118|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Fever||0.118|0.018|
92183665|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|-0.036|||||TWO_SIDED|95.0|-0.203|0.089|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Headache||0.089|-0.203|
92183666|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.166|||||TWO_SIDED|95.0|0.016|0.275|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Rash||0.275|0.016|
92183667|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.063|||||TWO_SIDED|95.0|0.03|0.126|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Arthralgia||0.126|0.030|
92183668|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.023|||||TWO_SIDED|95.0|-0.155|0.118|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Fatigue||0.118|-0.155|
92183669|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.041|||||TWO_SIDED|95.0|-0.105|0.105|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Myalgia||0.105|-0.105|
92183670|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.019|||||TWO_SIDED|95.0|-0.16|0.114|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Nausea||0.114|-0.160|
92183671|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.216|0.141|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Photophobia||0.141|-0.216|
92183672|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.024|||||TWO_SIDED|95.0|-0.142|0.088|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Retro-orbital Pain||0.088|-0.142|
92183673|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.216|0.141|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Decrease in Activity||0.141|-0.216|
92183674|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.216|0.141|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Loss of Appetite||0.141|-0.216|
92183675|NCT02678455|184265808|SUPERIORITY||Risk Difference (RD)|0.083|||||TWO_SIDED|95.0|-0.165|0.218|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Vomiting||0.218|-0.165|
92183676|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|76.0|88.0||||||All study participants seropositive to DENV-1 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|76|
92183677|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|99.0|||||TWO_SIDED|95.0|96.0|100.0||||||All study participants seropositive to DENV-2 post TV005 Vaccination. There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|96|
92183678|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm|percentage seropositive|96.0|||||TWO_SIDED|95.0|92.0|98.0||||||All study participants seropositive to DENV-3 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||98|92|
92183679|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|87.0|||||TWO_SIDED|95.0|81.0|92.0||||||All study participants seropositive to DENV-4 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|81|
92183680|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||Adult study participants seropositive to DENV-1 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
92183681|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adult study participants seropositive to DENV-2 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
92287605|NCT01667679|184480477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.2426|TWO_SIDED|95.0|0.87|1.77|||ANCOVA||10 minutes post-dose|||1.77|0.87|0.2426
92287606|NCT01667679|184480477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.0069|TWO_SIDED|95.0|1.12|1.99|||ANCOVA||15 minutes post-dose|||1.99|1.12|0.0069
92183682|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adult study participants seropositive to DENV-3 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
92183683|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|91.0|||||TWO_SIDED|95.0|78.0|97.0||||||Adult study participants seropositive to DENV-4 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
92183684|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|67.0|92.0||||||Adolescent study participants seropositive to DENV-1 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|67|
92183685|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|100.0|||||TWO_SIDED|95.0|90.0|100.0||||||Adolescent study participants seropositive to DENV-2 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|90|
92183686|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adolescent study participants seropositive to DENV-3 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
92183687|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||Adolescent study participants seropositive to DENV-4 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
92183688|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|81.0|||||TWO_SIDED|95.0|65.0|90.0||||||Children study participants seropositive to DENV-1 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|65|
92183689|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|100.0|||||TWO_SIDED|95.0|90.0|100.0||||||Children study participants seropositive to DENV-2 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|90|
92183690|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|100.0|||||TWO_SIDED|95.0|90.0|100.0||||||Children study participants seropositive to DENV-3 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|90|
92183691|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|78.0|||||TWO_SIDED|95.0|62.0|88.0||||||Children study participants seropositive to DENV-4 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|62|
92183692|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|68.0|92.0||||||Young Children study participants seropositive to DENV-1 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|68|
92183693|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|100.0|||||TWO_SIDED|95.0|90.0|100.0||||||Young Children study participants seropositive to DENV-2 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|90|
92183694|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|92.0|||||TWO_SIDED|95.0|78.0|97.0||||||Young Children study participants seropositive to DENV-3 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
92183695|NCT02678455|184265809|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|94.0|||||TWO_SIDED|95.0|82.0|98.0||||||Young Children study participants seropositive to DENV-4 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||98|82|
92183696|NCT02678455|184265811|SUPERIORITY||||||<|0.001||||||Comparison between experienced vs dengue naive volunteers post TV005 vaccination. Logistic model to adjust for age cohort provides unstable estimates due to quasi separation of data.|Fisher Exact|||DENV-1 percent seropositive post TV005 vaccination: difference between experienced at baseline and naive at baseline||||<0.001
92287607|NCT01667679|184480477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.94|||<|0.0001|TWO_SIDED|95.0|1.47|2.56|||ANCOVA||30 minutes post-dose|||2.56|1.47|<0.0001
92287608|NCT01667679|184480477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0004|TWO_SIDED|95.0|1.26|2.23|||ANCOVA||45 minutes post-dose|||2.23|1.26|0.0004
92183697|NCT02678455|184265811|SUPERIORITY|||||||1||||||Comparison between experienced vs. dengue naive volunteers post TV005 vaccination. Logistic model to adjust for age cohort provides unstable estimates due to quasi separation of data.|Fisher Exact|||DENV-2 percent seropositive post TV005 vaccination: difference between experienced at baseline and naive at baseline||||1.00
92287609|NCT01667679|184480477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.0008|TWO_SIDED|95.0|1.22|2.11|||ANCOVA||60 minutes post-dose|||2.11|1.22|0.0008
92287610|NCT01667679|184480477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.0272|TWO_SIDED|95.0|1.04|1.83|||ANCOVA||90 minutes post-dose|||1.83|1.04|0.0272
92287611|NCT01667679|184480477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.2085|TWO_SIDED|95.0|0.9|1.62|||ANCOVA||120 minutes post-dose|||1.62|0.90|0.2085
92287612|NCT01667679|184480479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.021||0.3562|TWO_SIDED|95.0|-0.06|0.02|||ANCOVA||10 minutes post-dose|||0.02|-0.06|0.3562
92287613|NCT01667679|184480479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.029||0.0063|TWO_SIDED|94.0|-0.14|-0.02|||ANCOVA||15 minutes post-dose|||-0.02|-0.14|0.0063
92287614|NCT01667679|184480479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|-0.26|-0.11|||ANCOVA||30 minutes post-dose|||-0.11|-0.26|< 0.0001
92287615|NCT01667679|184480479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.046||0.0005|TWO_SIDED|95.0|-0.26|-0.07|||ANCOVA||45 minutes post-dose|||-0.07|-0.26|0.0005
92287616|NCT01667679|184480479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.048||0.004|TWO_SIDED|95.0|-0.24|-0.05|||ANCOVA||60 minutes post-dose|||-0.05|-0.24|0.0040
92287617|NCT01667679|184480479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.052||0.0333|TWO_SIDED|95.0|-0.21|-0.01|||ANCOVA||90 minutes post-dose|||-0.01|-0.21|0.0333
92287618|NCT01667679|184480479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.052||0.4031|TWO_SIDED|95.0|-0.15|0.06|||ANCOVA||120 minutes post-dose|||0.06|-0.15|0.4031
92287619|NCT01667679|184480480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.019||0.0181|TWO_SIDED|95.0|-0.08|-0.01|||ANCOVA||10 minutes post-dose|||-0.01|-0.08|0.0181
92287620|NCT01667679|184480480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.026||0.0003|TWO_SIDED|95.0|-0.14|-0.04|||ANCOVA||15 minutes post-dose|||-0.04|-0.14|0.0003
92287621|NCT01667679|184480480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|-0.23|-0.09|||ANCOVA||30 minutes post-dose|||-0.09|-0.23|< 0.0001
92287622|NCT01667679|184480480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.043||0.0001|TWO_SIDED|95.0|-0.25|-0.08|||ANCOVA||45 minutes post-dose|||-0.08|-0.25|0.0001
92287623|NCT01667679|184480480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.047||0.0006|TWO_SIDED|95.0|-0.26|-0.07|||ANCOVA||60 minutes post-dose|||-0.07|-0.26|0.0006
92287624|NCT01667679|184480480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.048||0.0189|TWO_SIDED|95.0|-0.21|-0.02|||ANCOVA||90 minutes post-dose|||-0.02|-0.21|0.0189
92287625|NCT01667679|184480480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.05||0.1704|TWO_SIDED|95.0|-0.17|0.03|||ANCOVA||120 minutes post-dose|||0.03|-0.17|0.1704
92287626|NCT01175018|184480500|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92287627|NCT01175018|184480501|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
92287628|NCT01175018|184480502|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92287629|NCT01175018|184480503|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
92287630|NCT01175018|184480504|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Log Rank|||||||<0.05
92287631|NCT01175018|184480505|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92287632|NCT01175018|184480506|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
92287633|NCT01175018|184480507|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
92287634|NCT01175018|184480508|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
92287635|NCT01175018|184480509|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92287636|NCT01175018|184480510|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92287637|NCT01175018|184480511|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92287638|NCT01175018|184480512|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92287639|NCT01175018|184480513|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92287640|NCT01175018|184480514|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92287641|NCT01175018|184480515|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92287642|NCT00835263|184480518|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|103.23||||||90.0|100.78|105.73|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.73|100.78|
92287643|NCT00835263|184480519|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|103.31||||||90.0|100.75|105.93|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.93|100.75|
92287644|NCT00835263|184480520|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|102.14||||||90.0|100.06|104.26|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.26|100.06|
92287645|NCT01020474|184480523|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66||||0.121|TWO_SIDED|95.0|-1.51|0.18||Missing data for week 15 mean pain score are imputed based on distribution of baseline pain scores if participants discontinue due to adverse events/ abnormal laboratory test results or lack of efficacy.|ANCOVA|Based on LS Means using analysis of covariance (ANCOVA) model (including Treatment, Center, Baseline value as covariate).||||0.18|-1.51|0.121
92287646|NCT01020474|184480524|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18||||0.655|TWO_SIDED|95.0|-1.0|0.63|||ANCOVA|Based on LS Means using analysis of covariance (ANCOVA) model (including Treatment, Center, Baseline value as covariate).||||0.63|-1.00|0.655
92287647|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07||||0.842|TWO_SIDED|95.0|-0.75|0.61|||Mixed Models Analysis|||Statistical analysis of Week 1.||0.61|-0.75|0.842
92287648|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63||||0.07|TWO_SIDED|95.0|-1.32|0.05|||Mixed Models Analysis|||Statistical analysis of Week 2||0.05|-1.32|0.070
92287649|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.83||||0.019|TWO_SIDED|95.0|-1.51|-0.14|||Mixed Models Analysis|||Statistical analysis of Week 3.||-0.14|-1.51|0.019
92287650|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.011|TWO_SIDED|95.0|-1.59|-0.21|||Mixed Models Analysis|||Statistical analysis of Week 4.||-0.21|-1.59|0.011
92287651|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68||||0.056|TWO_SIDED|95.0|-1.38|0.02|||Mixed Models Analysis|||Statistical analysis of Week 5.||0.02|-1.38|0.056
92287652|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96||||0.008|TWO_SIDED|95.0|-1.66|-0.26|||Mixed Models Analysis|||Statistical analysis of Week 6.||-0.26|-1.66|0.008
92287653|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.89||||0.013|TWO_SIDED|95.0|-1.6|-0.19|||Mixed Models Analysis|||Statistical analysis of Week 7.||-0.19|-1.60|0.013
92183698|NCT02678455|184265811|SUPERIORITY|||||||0.07||||||Comparison between experienced vs. dengue naive volunteers post TV005 vaccination. Logistic model to adjust for age cohort provides unstable estimates due to quasi separation of data.|Fisher Exact|||DENV-3 percent seropositive post TV005 vaccination: difference between experienced at baseline and naive at baseline||||0.070
92287654|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.06||||0.004|TWO_SIDED|95.0|-1.77|-0.35|||Mixed Models Analysis|||Statistical analysis of Week 8.||-0.35|-1.77|0.004
92287655|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.95||||0.009|TWO_SIDED|95.0|-1.67|-0.24|||Mixed Models Analysis|||Statistical analysis of Week 9.||-0.24|-1.67|0.009
92287656|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.97||||0.008|TWO_SIDED|95.0|-1.69|-0.25|||Mixed Models Analysis|||Statistical analysis of Week 10.||-0.25|-1.69|0.008
92287657|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.86||||0.021|TWO_SIDED|95.0|-1.59|-0.13|||Mixed Models Analysis|||Statistical analysis of Week 11.||-0.13|-1.59|0.021
92287658|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.97||||0.01|TWO_SIDED|95.0|-1.71|-0.23|||Mixed Models Analysis|||Statistical analysis of Week 12.||-0.23|-1.71|0.010
92287659|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74||||0.051|TWO_SIDED|95.0|-1.49|0.0|||Mixed Models Analysis|||Statistical analysis of Week 13.||0.00|-1.49|0.051
92287660|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.02|TWO_SIDED|95.0|-1.66|-0.14|||Mixed Models Analysis|||Statistical analysis of Week 14.||-0.14|-1.66|0.020
92287661|NCT01020474|184480525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74||||0.06|TWO_SIDED|95.0|-1.51|0.03|||Mixed Models Analysis|||Statistical analysis of Week 15.||0.03|-1.51|0.060
92287662|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21||||0.54|TWO_SIDED|95.0|-0.9|0.47|||Mixed Models Analysis|||Statistical analysis of Week 1.||0.47|-0.90|0.540
92287663|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19||||0.593|TWO_SIDED|95.0|-0.87|0.5|||Mixed Models Analysis|||Statistical analysis of Week 2||0.50|-0.87|0.593
92287664|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44||||0.206|TWO_SIDED|95.0|-1.13|0.25|||Mixed Models Analysis|||Statistical analysis of Week 3.||0.25|-1.13|0.206
92287665|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49||||0.168|TWO_SIDED|95.0|-1.18|0.21|||Mixed Models Analysis|||Statistical analysis of Week 4.||0.21|-1.18|0.168
92287666|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38||||0.28|TWO_SIDED|95.0|-1.08|0.32|||Mixed Models Analysis|||Statistical analysis of Week 5.||0.32|-1.08|0.280
92287667|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64||||0.075|TWO_SIDED|95.0|-1.34|0.06|||Mixed Models Analysis|||Statistical analysis of Week 6.||0.06|-1.34|0.075
92287668|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.168|TWO_SIDED|95.0|-1.21|0.21|||Mixed Models Analysis|||Statistical analysis of Week 7.||0.21|-1.21|0.168
92287669|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.01||||0.006|TWO_SIDED|95.0|-1.73|-0.3|||Mixed Models Analysis|||Statistical analysis of Week 8.||-0.30|-1.73|0.006
92287670|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.57||||0.12|TWO_SIDED|95.0|-1.29|0.15|||Mixed Models Analysis|||Statistical analysis of Week 9.||0.15|-1.29|0.120
92287671|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.77||||0.037|TWO_SIDED|95.0|-1.49|-0.05|||Mixed Models Analysis|||Statistical analysis of Week 10.||-0.05|-1.49|0.037
92287672|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43||||0.246|TWO_SIDED|95.0|-1.16|0.3|||Mixed Models Analysis|||Statistical analysis of Week 11.||0.30|-1.16|0.246
92287673|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61||||0.105|TWO_SIDED|95.0|-1.36|0.13|||Mixed Models Analysis|||Statistical analysis of Week 12.||0.13|-1.36|0.105
92265863|NCT03522506|184433304|SUPERIORITY|6 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.01||||0.984|TWO_SIDED|95.0|-0.86|0.85|||Linear mixed effect model|||||0.85|-0.86|0.984
92183699|NCT02678455|184265811|SUPERIORITY|||||||1||||||Comparison between experienced vs. dengue naive volunteers post TV005 vaccination. logistic model to adjust for age cohort provides unstable estimates due to quasi separation of data.|Fisher Exact|||DENV-4 percent seropositive post TV005 vaccination: difference between experienced at baseline and naive at baseline||||1.00
92287674|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.34||||0.376|TWO_SIDED|95.0|-1.09|0.41|||Mixed Models Analysis|||Statistical analysis of Week 13.||0.41|-1.09|0.376
92287675|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41||||0.285|TWO_SIDED|95.0|-1.18|0.35|||Mixed Models Analysis|||Statistical analysis of Week 14.||0.35|-1.18|0.285
92287676|NCT01020474|184480526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17||||0.663|TWO_SIDED|95.0|-0.95|0.61|||Mixed Models Analysis|||Statistical analysis of Week 15.||0.61|-0.95|0.663
92287677|NCT01020474|184480527|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87||||0.037|TWO_SIDED|95.0|-1.68|-0.05|||ANCOVA|Based on LS Means using analysis of covariance (ANCOVA) model (including Treatment, Center, Baseline value as covariate).||||-0.05|-1.68|0.037
92287678|NCT01020474|184480528|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.694|TWO_SIDED|95.0|0.53|2.58|||Regression, Logistic|||Statistical analysis at Week 15.||2.58|0.53|0.694
92287679|NCT01020474|184480529|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.25||||0.162|TWO_SIDED|95.0|0.72|7.02|||Regression, Logistic|||Statistical analysis at Week 15.||7.02|0.72|0.162
92287680|NCT01020474|184480530|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013|||||||Cochran-Mantel-Haenszel|P-value uses the row mean score statistic based on Cochran Mantel Haenszel (CMH) test with modified ridit transformation.||Statistical analysis at Week 15.||||0.013
92287681|NCT02964039|184480566|SUPERIORITY|||||||0.047||||||A priori threshold: 0.05|ANOVA|0.047 is the main effect of group from a 2-way ANOVA that also included time (p=0.77) as a within-subjects factor.||||||0.047
92287682|NCT02964039|184480567|SUPERIORITY|||||||0.16||||||A priori threshold: 0.05|ANOVA|0.16 is the main effect of group from a 2-way ANOVA that also included time (p=0.023) as a within-subjects factor.||||||0.16
92287683|NCT02964039|184480568|SUPERIORITY|||||||0.64||||||A priori threshold: 0.05|ANOVA|0.64 is the main effect of group from a 2-way ANOVA that also included time (p=0.024) as a within-subjects factor.||||||0.64
92287684|NCT02964039|184480569|SUPERIORITY|||||||0.92||||||A priori threshold: 0.92|ANOVA|0.92 is the main effect of group from a 2-way ANOVA that also included time (p=0.076) as a within-subjects factor.||||||0.92
92287685|NCT02964039|184480570|SUPERIORITY||||||>=|0.22||||||A priori threshold: 0.05|Mixed Models Analysis|We compared incident rates assuming a negative binomial distribution with leas squares means estimates predicted via generalized linear model.||||||>=0.22
92287686|NCT02964039|184480571|SUPERIORITY|||||||0.99||||||A priori threshold: 0.05|Chi-squared|||||||0.99
92287687|NCT00840411|184480621|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.0||||||90.0|93.3|107.1|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107.1|93.3|
92287688|NCT00840411|184480622|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Least Squares Means|86.5||||||90.0|80.1|93.4|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||93.4|80.1|
92287689|NCT00840411|184480623|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Least Squares Means|87.2||||||90.0|81.0|93.8|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||93.8|81.0|
92287690|NCT00651820|184480643|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Paired-Prentice Wilcoxon (PPW)|Time to complete wound closure Drug(T1)and Vehicle(T2)Hypothesis, Ho: T1=T2,using paired Prentice-Wilcoxon at significant level of 5%, 2-sided.||Each subject served as their own control, each receiving duplicate dermatome-induced wounds with 1 wound treated with active drug and the other treated with vehicle. Mean time to wound closure was calculated for the wounds treated with drug, the wounds treated with vehicle, and an over-all mean time to wound closure||||<0.05
92287691|NCT00651820|184480644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.2|||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Stiffness: Paired t-test and Wilcoxon signed rank test were used for testing any significant differences (Sig. diff.) between the two treatments||||<0.05
92287692|NCT00651820|184480644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.88|||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Energy Absorption: Paired t-test and Wilcoxon signed rank test were used for testing any significant differences (Sig. diff.) between the two treatments||||<0.05
92287693|NCT00787254|184480703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.251|||<|0.0001|TWO_SIDED|95.0|0.14|0.4499|||Log Rank|||||0.4499|0.1400|<0.0001
92287694|NCT00787254|184480704|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0002
92287695|NCT00787254|184480705|SUPERIORITY_OR_OTHER|||||||0.0041||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0041
92287696|NCT00787254|184480706|SUPERIORITY_OR_OTHER|||||||0.0652||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0652
92287697|NCT00787254|184480707|SUPERIORITY_OR_OTHER|||||||0.9836||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9836
92287698|NCT00787254|184480709|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0001
92287699|NCT00787254|184480710|SUPERIORITY_OR_OTHER|||||||0.0161||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0161
92287700|NCT00787254|184480711|SUPERIORITY_OR_OTHER|||||||0.0068||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0068
92287701|NCT00787254|184480712|SUPERIORITY_OR_OTHER|||||||0.2363||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2363
92287702|NCT00787254|184480714|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92287703|NCT00787254|184480715|SUPERIORITY_OR_OTHER|||||||0.4788||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4788
92287704|NCT00787254|184480716|SUPERIORITY_OR_OTHER|||||||0.6607||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6607
92287705|NCT00787254|184480717|SUPERIORITY_OR_OTHER|||||||0.8811||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8811
92183700|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|66.0|||||TWO_SIDED|95.0|49.0|79.0||||||Adult cohort: percent seropositive to DENV-1 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||79|49|
92287706|NCT00787254|184480718|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||||||1.0000
92287707|NCT00787254|184480720|SUPERIORITY_OR_OTHER|||||||0.206||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2060
92287708|NCT00787254|184480721|SUPERIORITY_OR_OTHER|||||||0.5099||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5099
92287709|NCT00787254|184480722|SUPERIORITY_OR_OTHER|||||||0.7794||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7794
92287710|NCT00787254|184480723|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||||||1.0000
92287711|NCT00787254|184480725|SUPERIORITY_OR_OTHER|||||||0.698||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6980
92287712|NCT00787254|184480726|SUPERIORITY_OR_OTHER|||||||0.4599||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4599
92287713|NCT00787254|184480727|SUPERIORITY_OR_OTHER|||||||0.0355||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0355
92287714|NCT00787254|184480728|SUPERIORITY_OR_OTHER|||||||0.7325||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7325
92287715|NCT00787254|184480730|SUPERIORITY_OR_OTHER|||||||0.8262||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8262
92287716|NCT00787254|184480731|SUPERIORITY_OR_OTHER|||||||0.7244||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7244
92287717|NCT00787254|184480732|SUPERIORITY_OR_OTHER|||||||0.9566||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9566
92287718|NCT00787254|184480733|SUPERIORITY_OR_OTHER|||||||0.2008||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2008
92287719|NCT00787254|184480735|SUPERIORITY_OR_OTHER|||||||0.0703||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0703
92287720|NCT00787254|184480736|SUPERIORITY_OR_OTHER|||||||0.3046||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3046
92287721|NCT00787254|184480737|SUPERIORITY_OR_OTHER|||||||0.7121||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7121
92287722|NCT00787254|184480738|SUPERIORITY_OR_OTHER|||||||0.1522||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1522
92287723|NCT00787254|184480740|SUPERIORITY_OR_OTHER|||||||0.5328||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5328
92287724|NCT00787254|184480741|SUPERIORITY_OR_OTHER|||||||0.7223||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7223
92287725|NCT00787254|184480742|SUPERIORITY_OR_OTHER|||||||0.3117||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3117
92287726|NCT00787254|184480743|SUPERIORITY_OR_OTHER|||||||0.4344||95.0|||||t-test, 2 sided|||||||0.4344
92287727|NCT00787254|184480745|SUPERIORITY_OR_OTHER|||||||0.1571||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1571
92287728|NCT00787254|184480746|SUPERIORITY_OR_OTHER|||||||0.2503||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2503
92287729|NCT00787254|184480747|SUPERIORITY_OR_OTHER|||||||0.4028||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4028
92287730|NCT00787254|184480748|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||||||1.0000
92287731|NCT00119015|184480759|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8
92287732|NCT00119015|184480760|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.70
92287733|NCT00119015|184480761|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.86
92183701|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|67.0|92.0||||||Adult cohort: percent seropositive to DENV-1 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|67|
92265864|NCT03522506|184433304|SUPERIORITY|6 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.29||||0.508|TWO_SIDED|95.0|-1.14|0.57|||Linear mixed effect model|||||0.57|-1.14|0.508
92183702|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|80.0|||||TWO_SIDED|95.0|64.0|90.0||||||Adult cohort: percent seropositive to DENV-1 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|64|
92287734|NCT00119015|184480762|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.48
92183703|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|80.0|||||TWO_SIDED|95.0|64.0|90.0||||||Adult cohort: percent seropositive to DENV-1 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|64|
92183704|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|80.0|||||TWO_SIDED|95.0|64.0|90.0||||||Adult cohort: percent seropositive to DENV-1 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|64|
92183705|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|66.0|||||TWO_SIDED|95.0|49.0|79.0||||||Adult cohort: percent seropositive to DENV-1 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||79|49|
92183706|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|66.0|||||TWO_SIDED|95.0|49.0|79.0||||||Adult cohort: percent seropositive to DENV-1 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||79|49|
92183707|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|69.0|||||TWO_SIDED|95.0|52.0|81.0||||||Adult cohort: percent seropositive to DENV-2 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||81|52|
92183708|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|94.0|||||TWO_SIDED|95.0|81.0|98.0||||||Adult cohort: percent seropositive to DENV-2 at stud day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||98|81|
92183709|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adult cohort: percent seropositive to DENV-2 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
92183710|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adult cohort: percent seropositive to DENV-2 at study day 180. There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
92183711|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adult cohort: percent seropositive to DENV-2 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
92183712|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|91.0|||||TWO_SIDED|95.0|78.0|97.0||||||Adult cohort: percent seropositive to DENV-2 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
92183713|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||Adult cohort: percent seropositive to DENV-2 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
92287735|NCT00119015|184480763|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Wilcoxon (Mann-Whitney)|||||||>0.99
92183714|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|71.0|||||TWO_SIDED|95.0|55.0|84.0||||||Adult cohort: percent seropositive to DENV-3 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|55|
92183715|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|94.0|||||TWO_SIDED|95.0|81.0|98.0||||||Adult cohort: percent seropositive to DENV-3 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||98|81|
92183716|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|91.0|||||TWO_SIDED|95.0|78.0|97.0||||||Adult cohort: percent seropositive to DENV-3 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
92183717|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adult cohort: percent seropositive to DENV-3 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
92183718|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||Adult cohort: percent seropositive to DENV-3 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
92183719|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adult cohort: percent seropositive to DENV-3 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
92183720|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|80.0|||||TWO_SIDED|95.0|64.0|90.0||||||Adult cohort: percent seropositive to DENV-3 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|64|
92183721|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|20.0|||||TWO_SIDED|95.0|10.0|36.0||||||Adult cohort: percent seropositive to DENV-4 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||36|10|
92287736|NCT05776901|184480777|OTHER|Descriptive statistics and measures of central tendency, including mean, median, and standard deviation of the System Usability Scores collected from the baseline and week 3 were computed. Then, a two-sided, paired sample t-test was conducted to evaluate the change in mean System Usability Scores from baseline at week 3.|Mean diff in SUS from baseline at week 3|34.17|STANDARD_ERROR_OF_MEAN|14.49|<|0.05|TWO_SIDED|95.0|-28.04|96.37|||t-test, 2 sided|||||96.37|-28.04|<0.05
92287737|NCT04517604|184480779|SUPERIORITY||Mean Difference (Final Values)|-5.02|STANDARD_DEVIATION|4.984||0.343|TWO_SIDED|95.0|-16.52|6.47||no adjustment for multiple comparisons as was a pilot|Mixed Models Analysis|||||6.47|-16.52|.343
92287738|NCT04517604|184480780|SUPERIORITY|This was a pilot study funded under a pilot funding mechanism which specifically did not require a power analysis.|Mean Difference (Final Values)|-1.7|STANDARD_DEVIATION|0.42||0.0026|TWO_SIDED|95.0|-2.63|-0.77||no test for multiple comparisons as this was a pilot study|Mixed Models Analysis|||This was an open-label, single group study using a within subject design. We compared pre-treatment values to post-treatment values.||-.77|-2.63|.0026
92265865|NCT03522506|184433304|SUPERIORITY|6 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.22||||0.605|TWO_SIDED|95.0|-1.06|0.62|||Linear mixed effect model|||||0.62|-1.06|0.605
92265866|NCT03522506|184433304|SUPERIORITY|2 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|0.11||||0.847|TWO_SIDED|95.0|-1.06|1.29|||Linear mixed effect model|||||1.29|-1.06|0.847
92265867|NCT03522506|184433304|SUPERIORITY|2 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.44||||0.455|TWO_SIDED|95.0|-1.61|0.73|||Linear mixed effect model|||||0.73|-1.61|0.455
92265868|NCT03522506|184433304|SUPERIORITY|2 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.58||||0.317|TWO_SIDED|95.0|-1.74|0.57|||Linear mixed effect model|||||0.57|-1.74|0.317
92265869|NCT03522506|184433304|SUPERIORITY|2.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-2.0||||0.001|TWO_SIDED|95.0|-3.18|-0.83|||Linear mixed effect model|||||-0.83|-3.18|0.001
92265870|NCT03522506|184433304|SUPERIORITY|2.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-3.61|||<|0.001|TWO_SIDED|95.0|-4.79|-2.44|||Linear mixed effect model|||||-2.44|-4.79|<0.001
92265871|NCT03522506|184433304|SUPERIORITY|2.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-3.16|||<|0.001|TWO_SIDED|95.0|-4.32|-2.01|||Linear mixed effect model|||||-2.01|-4.32|<0.001
92265872|NCT03522506|184433304|SUPERIORITY|4.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-1.69||||0.003|TWO_SIDED|95.0|-2.78|-0.6|||Linear mixed effect model|||||-0.60|-2.78|0.003
92265873|NCT03522506|184433304|SUPERIORITY|4.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-4.3|||<|0.001|TWO_SIDED|95.0|-5.39|-3.21|||Linear mixed effect model|||||-3.21|-5.39|<0.001
92265874|NCT03522506|184433304|SUPERIORITY|4.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-3.83|||<|0.001|TWO_SIDED|95.0|-4.91|-2.76|||Linear mixed effect model|||||-2.76|-4.91|<0.001
92265875|NCT03522506|184433304|SUPERIORITY|6.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.71||||0.13|TWO_SIDED|95.0|-1.63|0.21|||Linear mixed effect model|||||0.21|-1.63|0.130
92265876|NCT03522506|184433304|SUPERIORITY|6.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-3.32|||<|0.001|TWO_SIDED|95.0|-4.24|-2.4|||Linear mixed effect model|||||-2.40|-4.24|<0.001
92265877|NCT03522506|184433304|SUPERIORITY|6.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-2.71|||<|0.001|TWO_SIDED|95.0|-3.62|-1.8|||Linear mixed effect model|||||-1.80|-3.62|<0.001
92287739|NCT00526188|184480795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.46||||||95.0|6.0|12.93|||Test performed based on the 95% CI||Comparison was post-contrast MRI minus pre-contrast MRI|Difference in sensitivity of lesion detection between post- and pre-contrast MRI image set was calculated. Null hypothesis: No difference between post- and pre-contrast MRI image set. Test was performed based on a normal-approximated confidence interval (CI) for the average blinded reader difference. This CI had a confidence level of 95% and was two-sided. The study was planned with a power of 80%.||12.93|6.00|
92183722|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|77.0|||||TWO_SIDED|95.0|61.0|88.0||||||Adult cohort: percent seropositive to DENV-4 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|61|
92183723|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|80.0|||||TWO_SIDED|95.0|64.0|90.0||||||Adult cohort: percent seropositive to DENV-4 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|64|
92183724|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|74.0|||||TWO_SIDED|95.0|58.0|86.0||||||Adult cohort: percent seropositive to DENV-4 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||86|58|
92183725|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|66.0|||||TWO_SIDED|95.0|49.0|79.0||||||Adult cohort: percent seropositive to DENV-4 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||79|49|
92183726|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|60.0|||||TWO_SIDED|95.0|44.0|74.0||||||Adult cohort: percent seropositive to DENV-4 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||74|44|
92183727|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|63.0|||||TWO_SIDED|95.0|46.0|77.0||||||Adult cohort: percent seropositive to DENV-4 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||77|46|
92183728|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|26.0|||||TWO_SIDED|95.0|14.0|42.0||||||Adolescent cohort: percent seropositive to DENV-1 a study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||42|14|
92183729|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|74.0|||||TWO_SIDED|95.0|58.0|86.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||86|58|
92183730|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|71.0|||||TWO_SIDED|95.0|55.0|84.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|55|
92183731|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|71.0|||||TWO_SIDED|95.0|55.0|84.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|55|
92183732|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|69.0|||||TWO_SIDED|95.0|52.0|81.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||81|52|
92183733|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|43.0|||||TWO_SIDED|95.0|28.0|59.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||59|28|
92183734|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|46.0|||||TWO_SIDED|95.0|30.0|62.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||62|30|
92183735|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|34.0|||||TWO_SIDED|95.0|21.0|51.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||51|21|
92183736|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|100.0|||||TWO_SIDED|95.0|90.0|100.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|90|
92183737|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
92183738|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
92183739|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|85.0|||||TWO_SIDED|95.0|71.0|94.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
92183740|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|74.0|||||TWO_SIDED|95.0|58.0|86.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||86|58|
92287740|NCT00526188|184480796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.81||||||95.0|1.84|7.78|||Test performed based on the 95% CI||Comparison was post-contrast MRI minus pre-contrast MRI (for investigator's result)|Difference in sensitivity of lesion detection between post- and pre-contrast MRI image sets, based on investigators assessments was calculated. Null hypothesis: No difference between post and pre contrast MRI image set. Test was performed based on a normal-approximated confidence interval (CI) for the investigators difference. This CI had a confidence level of 95% and was two-sided.||7.78|1.84|
92183741|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|69.0|||||TWO_SIDED|95.0|52.0|81.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||81|52|
92183742|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|37.0|||||TWO_SIDED|95.0|23.0|54.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||54|23|
92183743|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
92183744|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|94.0|||||TWO_SIDED|95.0|81.0|98.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||98|81|
92183745|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
92183746|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
92183747|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|57.0|||||TWO_SIDED|95.0|41.0|72.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||72|41|
92183748|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|57.0|||||TWO_SIDED|95.0|41.0|72.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||72|41|
92183749|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|0.0|||||TWO_SIDED|95.0|0.0|10.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||10|0|
92183750|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|67.0|92.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|67|
92183751|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|77.0|||||TWO_SIDED|95.0|61.0|88.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|61|
92183752|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|71.0|||||TWO_SIDED|95.0|55.0|84.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|55|
92183753|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|66.0|||||TWO_SIDED|95.0|49.0|79.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||79|49|
92183754|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|60.0|||||TWO_SIDED|95.0|44.0|74.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||74|44|
92183755|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|43.0|||||TWO_SIDED|95.0|28.0|59.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||59|28|
92183756|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|31.0|||||TWO_SIDED|95.0|18.0|47.0||||||Children cohort: percent seropositive to DENV-1 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||47|18|
92183757|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|69.0|||||TWO_SIDED|95.0|53.0|82.0||||||Children cohort: percent seropositive to DENV-1 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||82|53|
92183758|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|61.0|||||TWO_SIDED|95.0|45.0|75.0||||||Children cohort: percent seropositive to DENV-1 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||75|45|
92183759|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|56.0|||||TWO_SIDED|95.0|40.0|70.0||||||Children cohort: percent seropositive to DENV-1 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||70|40|
92183760|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|42.0|||||TWO_SIDED|95.0|27.0|58.0||||||Children cohort: percent seropositive to DENV-1 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||58|27|
92183761|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|42.0|||||TWO_SIDED|95.0|27.0|58.0||||||Children cohort: percent seropositive to DENV-1 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||58|27|
92183762|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|36.0|||||TWO_SIDED|95.0|22.0|54.0||||||Children cohort: percent seropositive to DENV-1 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||54|22|
92183763|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|33.0|||||TWO_SIDED|95.0|20.0|50.0||||||Children cohort: percent seropositive to DENV-2 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||50|20|
92183764|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|92.0|||||TWO_SIDED|95.0|78.0|97.0||||||Children cohort: percent seropositive to DENV-2 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
92183765|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|75.0|96.0||||||Children cohort: percent seropositive to DENV-2 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||96|75|
92183766|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|92.0|||||TWO_SIDED|95.0|78.0|97.0||||||Children cohort: percent seropositive to DENV-2 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
92183767|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|78.0|||||TWO_SIDED|95.0|62.0|88.0||||||children cohort: percent seropositive to DENV-2 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|62|
92265878|NCT03522506|184433304|SUPERIORITY|8.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.26||||0.577|TWO_SIDED|95.0|-1.2|0.68|||Linear mixed effect model|||||0.68|-1.20|0.577
92265879|NCT03522506|184433304|SUPERIORITY|8.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-2.26|||<|0.001|TWO_SIDED|95.0|-3.2|-1.32|||Linear mixed effect model|||||-1.32|-3.20|<0.001
92183768|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|67.0|||||TWO_SIDED|95.0|50.0|80.0||||||Children cohort: percent seropositive to DENV-2 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||80|50|
92183769|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|58.0|||||TWO_SIDED|95.0|42.0|73.0||||||Children cohort: percent seropositive to DENV-2 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||73|42|
92183770|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|36.0|||||TWO_SIDED|95.0|22.0|52.0||||||Children cohort: percent seropositive to DENV-3 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||52|22|
92183771|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|92.0|||||TWO_SIDED|95.0|78.0|97.0||||||Children cohort: percent seropositive to DENV-3 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
92287741|NCT00526188|184480797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.36||||||95.0|7.45|15.28|||Test performed based on the 95% CI||Comparison was combined pre- and post-contrast MRI minus pre-contrast MRI|Difference in precision of lesion characterization between combined pre and post contrast MRI and pre contrast MRI image set was calculated. Null hypothesis: No difference between combined pre- and post-contrast MRI and pre contrast MRI image set. Test was performed based on a normal-approximated confidence interval (CI) for the average blinded reader difference. This CI had a confidence level of 95% and was two-sided.||15.28|7.45|
92287742|NCT02925884|184480819|SUPERIORITY|||||||0.011|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunnar OTC Condition and the Control Condition on the factor score of Decreased Cognitive Functions.||||0.011
92287743|NCT02925884|184480819|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunnar OTC Condition and the Control Condition on the factor score of Eyestrain.||||<0.001
92287744|NCT02925884|184480819|SUPERIORITY|||||||0.009|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunnar OTC Condition and the Control Condition on the factor score of Physical Discomfort.||||0.009
92287745|NCT02925884|184480819|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunnar OTC Condition and the Control Condition on the factor score of Deceased Visual Function.||||<0.001
92287746|NCT02925884|184480819|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunnar OTC Condition and the Control Condition on the factor score of Poor Balance.||||0.28
92287747|NCT02925884|184480820|SUPERIORITY|||||||0.903|||||||Mixed Models Analysis|||||||0.903
92287748|NCT02925884|184480821|SUPERIORITY|||||||0.009|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunna OTC Glasses condition and the Control condition on Red Color Perception.||||0.009
92287749|NCT02925884|184480821|SUPERIORITY|||||||0.446|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunna OTC Glasses condition and the Control condition on Green Color Perception.||||0.446
92287750|NCT02925884|184480821|SUPERIORITY|||||||0.953|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunna OTC Glasses condition and the Control condition on Blue Color Perception.||||0.953
92287751|NCT02925884|184480822|SUPERIORITY|||||||0.266|||||||Mixed Models Analysis|||||||0.266
92287752|NCT02925884|184480823|SUPERIORITY|||||||0.424|||||||Mixed Models Analysis|||||||0.424
92287753|NCT02925884|184480824|SUPERIORITY|||||||0.343|||||||Mixed Models Analysis|||||||0.343
92287754|NCT02925884|184480825|SUPERIORITY|||||||0.489|||||||Mixed Models Analysis|||||||0.489
92287755|NCT02925884|184480826|SUPERIORITY|||||||0.885|||||||Mixed Models Analysis|||||||0.885
92287756|NCT02925884|184480827|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92287757|NCT02925884|184480828|SUPERIORITY|||||||0.359|||||||Mixed Models Analysis|||||||0.359
92287758|NCT04516434|184480829|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||1
92287759|NCT04516434|184480829|OTHER|Descriptive analysis||||||0.99|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||0.99
92287760|NCT04516434|184480830|OTHER|Descriptive analysis||||||0.08|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||0.08
92287761|NCT04516434|184480830|OTHER|Descriptive analysis||||||0.045|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||0.045
92287762|NCT04516434|184480832|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||First sensation of bladder filling - change in cystometry before stimulation and after stimulation (up to 60 minutes).||||1
92287763|NCT04516434|184480832|OTHER|Descriptive analysis||||||0.41|||||||Mixed Models Analysis|||First sensation of bladder filling - change in cystometry before stimulation and after stimulation (up to 60 minutes).||||0.41
92287764|NCT04516434|184480832|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||Maximum cystometric capacity - change in cystometry before stimulation and after stimulation (up to 60 minutes).||||1
92287765|NCT04516434|184480832|OTHER|Descriptive analysis||||||0.01|||||||Mixed Models Analysis|||Maximum cystometric capacity - change in cystometry before stimulation and after stimulation (up to 60 minutes).||||0.01
92287766|NCT04516434|184480833|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||1
92287767|NCT04516434|184480833|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||1
92287768|NCT04516434|184480834|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||1
92287769|NCT04516434|184480834|OTHER|Descriptive analysis||||||0.99|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||0.99
92183772|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|92.0|||||TWO_SIDED|95.0|78.0|97.0||||||Children cohort: percent seropositive to DENV-3 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
92183773|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|86.0|100.0||||||Children cohort: percent seropositive to DENV-3 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|86|
92183774|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|72.0|||||TWO_SIDED|95.0|56.0|84.0||||||Children cohort: percent seropositive to DENV-3 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|56|
92183775|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|72.0|||||TWO_SIDED|95.0|56.0|84.0||||||Children cohort: percent seropositive to DENV-3 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|56|
92183776|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|67.0|||||TWO_SIDED|95.0|50.0|80.0||||||Children cohort: percent seropositive to DENV-3 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||80|50|
92183777|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|11.0|||||TWO_SIDED|95.0|4.0|25.0||||||Children cohort: percent seropositive to DENV-4 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||25|4|
92183778|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|72.0|||||TWO_SIDED|95.0|56.0|84.0||||||Children cohort: percent seropositive to DENV-4 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|56|
92183779|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|56.0|||||TWO_SIDED|95.0|40.0|70.0||||||Children cohort: percent seropositive to DENV-4 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||70|40|
92183780|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|44.0|||||TWO_SIDED|95.0|30.0|60.0||||||children cohort: percent seropositive to DENV-4 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||60|30|
92183781|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||Children cohort: percent seropositive to DENV-4 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
92183782|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|25.0|||||TWO_SIDED|95.0|14.0|41.0||||||Children cohort: percent seropositive to DENV-4 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||41|14|
92183783|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|19.0|||||TWO_SIDED|95.0|10.0|35.0||||||children cohort: percent seropositive to DENV-4 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||35|10|
92265880|NCT03522506|184433304|SUPERIORITY|8.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-1.65|||<|0.001|TWO_SIDED|95.0|-2.57|-0.72|||Linear mixed effect model|||||-0.72|-2.57|<0.001
92183784|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|11.0|||||TWO_SIDED|95.0|4.0|25.0||||||Young children cohort: percent seropositive to DENV-1 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||25|4|
92183785|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|78.0|||||TWO_SIDED|95.0|62.0|88.0||||||Young children cohort: percent seropositive to DENV-1 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|62|
92183786|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|42.0|||||TWO_SIDED|95.0|27.0|58.0||||||young children cohort: percent seropositive to DENV-1 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||58|27|
92183787|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|53.0|||||TWO_SIDED|95.0|37.0|68.0||||||young children cohort: percent seropositive to DENV-1 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||68|37|
92183788|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||Young children cohort: percent seropositive to DENV-1 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
92183789|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||young children cohort: percent seropositive to DENV-1 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
92183790|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||Young children cohort: percent seropositive to DENV-1 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
92265881|NCT03522506|184433304|SUPERIORITY|1.75 hours post-infusion end: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|0.31||||0.475|TWO_SIDED|95.0|-0.55|1.16|||Linear mixed effect model|||||1.16|-0.55|0.475
92265882|NCT03522506|184433304|SUPERIORITY|1.75 hours post-infusion end: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.14||||0.753|TWO_SIDED|95.0|-0.99|0.72|||Linear mixed effect model|||||0.72|-0.99|0.753
92265883|NCT03522506|184433304|SUPERIORITY|1.75 hours post-infusion end: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.99||||0.022|TWO_SIDED|95.0|-1.83|-0.15|||Linear mixed effect model|||||-0.15|-1.83|0.022
92265884|NCT03522506|184433305|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|22.94|||<|0.001|TWO_SIDED|95.0|16.58|29.3|||Linear mixed effect model|||||29.30|16.58|<0.001
92265885|NCT03522506|184433305|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|30.95|||<|0.001|TWO_SIDED|95.0|24.59|37.31|||Linear mixed effects model|||||37.31|24.59|<0.001
92265886|NCT03522506|184433305|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|26.5|||<|0.001|TWO_SIDED|95.0|20.24|32.75|||Linear mixed effect model|||||32.75|20.24|<0.001
92265887|NCT03522506|184433306|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|14.56|||<|0.001|TWO_SIDED|95.0|7.04|22.08|||Linear mixed effect model|||||22.08|7.04|<0.001
92265888|NCT03522506|184433306|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|32.21|||<|0.001|TWO_SIDED|95.0|24.68|39.73|||Linear mixed effect model|||||39.73|24.68|<0.001
92265889|NCT03522506|184433306|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|25.74|||<|0.001|TWO_SIDED|95.0|18.33|33.14|||Linear mixed effect model|||||33.14|18.33|<0.001
92265890|NCT03522506|184433307|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|9.6||||0.003|TWO_SIDED|95.0|3.35|15.85|||Linear mixed effect model|||||15.85|3.35|0.003
92265891|NCT03522506|184433307|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|33.33|||<|0.001|TWO_SIDED|95.0|27.08|39.58|||Linear mixed effect model|||||39.58|27.08|<0.001
92265892|NCT03522506|184433307|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|16.91|||<|0.001|TWO_SIDED|95.0|10.77|23.06|||Linear mixed effect model|||||23.06|10.77|<0.001
92265893|NCT03522506|184433308|SUPERIORITY|An analysis of variance (ANOVA) model was used to evaluate the 1 hour post the end of infusion MWT. The LSM sleep latency for each treatment and the associated standard error and 95% CI were estimated from the model, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-2.16||||0.436|TWO_SIDED|95.0|-7.68|3.36|||ANOVA|||||3.36|-7.68|0.436
92265894|NCT03522506|184433308|SUPERIORITY|ANOVA model was used to evaluate the 1 hour post the end of infusion MWT. The LSM sleep latency for each treatment and the associated standard error and 95% CI were estimated from the model, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-2.29||||0.409|TWO_SIDED|95.0|-7.81|3.23|||ANOVA|||||3.23|-7.81|0.409
92183791|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|11.0|||||TWO_SIDED|95.0|4.0|25.0||||||Young children cohort: percent seropositive to DENV-2 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||25|4|
92183792|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|86.0|100.0||||||Young children cohort: percent seropositive to DENV-2 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|86|
92183793|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||young children cohort: percent seropositive to DENV-2 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
92183794|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|81.0|||||TWO_SIDED|95.0|65.0|90.0||||||Young children cohort: percent seropositive to DENV-2 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|65|
92183795|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|68.0|92.0||||||young children cohort: percent seropositive to DENV-2 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|68|
92183796|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|Slope|72.0|||||TWO_SIDED|95.0|56.0|84.0||||||young children cohort: percent seropositive to DENV-2 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|56|
92183797|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|69.0|||||TWO_SIDED|95.0|53.0|82.0||||||Young children cohort: percent seropositive to DENV-2 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||82|53|
92183798|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|8.0|||||TWO_SIDED|95.0|3.0|22.0||||||Young children cohort: percent seropositive to DENV-3 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||22|3|
92183799|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||Young children cohort: percent seropositive to DENV-3 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
92183800|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|67.0|||||TWO_SIDED|95.0|50.0|80.0||||||young children cohort: percent seropositive to DENV-3 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||80|50|
92183801|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|50.0|||||TWO_SIDED|95.0|34.0|66.0||||||young children cohort: percent seropositive to DENV-3 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||66|34|
92183802|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|25.0|||||TWO_SIDED|95.0|14.0|41.0||||||young children cohort: percent seropositive to DENV-3 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||41|14|
92183803|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|31.0|||||TWO_SIDED|95.0|18.0|47.0||||||young children cohort: percent seropositive to DENV-3 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||47|18|
92183804|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|25.0|||||TWO_SIDED|95.0|14.0|41.0||||||young children cohort: percent seropositive to DENV-3 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||41|14|
92183805|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|3.0|||||TWO_SIDED|95.0|0.0|14.0||||||young children cohort: percent seropositive to DENV-4 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||14|0|
92183806|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|75.0|96.0||||||young children cohort: percent seropositive to DENV-4 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||96|75|
92183807|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|72.0|||||TWO_SIDED|95.0|56.0|96.0||||||young children cohort: percent seropositive to DENV-4 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||96|56|
92183808|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|47.0|||||TWO_SIDED|95.0|32.0|63.0||||||young children cohort: percent seropositive to DENV-4 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||63|32|
92183809|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||young children cohort: percent seropositive to DENV-4 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
92287770|NCT00834522|184480848|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|103.79||||||90.0|99.4|108.37|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108.37|99.40|
92287771|NCT00834522|184480849|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|104.37||||||90.0|97.04|112.25|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112.25|97.04|
92287772|NCT00834522|184480850|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|104.22||||||90.0|96.9|112.08|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112.08|96.90|
92287773|NCT00804856|184480936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.91||||0.0523|TWO_SIDED|95.0|0.99|8.58|||Regression, Logistic||Ratio calculated as Phase II Schedule A Volasertib 350mg+LDAC divided by Phase II Schedule C LDAC.|Analysis for Objective Response||8.58|0.99|0.0523
92287774|NCT00804856|184480940|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57||||0.0208|TWO_SIDED|95.0|0.35|0.92|||Log Rank||Ratio calculated as Phase II Schedule A Volasertib 350mg+LDAC divided by Phase II Schedule C LDAC.|An exploratory (non-stratified) logrank test was used to compare the different treatment arms.||0.92|0.35|0.0208
92287775|NCT00804856|184480941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.0465|TWO_SIDED|95.0|0.4|1.0|||Log Rank||Ratio calculated as Phase II Schedule A Volasertib 350mg+LDAC divided by Phase II Schedule C LDAC.|An exploratory (non-stratified) logrank test was used to compare the different treatment arms.||1.00|0.40|0.0465
92287776|NCT00834132|184480970|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|94.81||||||90.0|84.77|106.04|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.04|84.77|
92287777|NCT00834132|184480971|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.89||||||90.0|96.0|106.03|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.03|96.00|
92287778|NCT00834132|184480972|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|101.14||||||90.0|96.05|106.49|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.49|96.05|
92287779|NCT00835484|184480977|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.15||||||90.0|91.77|102.83|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102.83|91.77|
92287780|NCT00835484|184480978|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.8||||||90.0|95.1|106.84|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106.84|95.1|
92287781|NCT00835484|184480979|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.39||||||90.0|95.89|107.2|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.2|95.89|
92287782|NCT04383587|184480986|SUPERIORITY||||||>|0.18|||||||Fisher Exact|||Participants were grouped by age (18-35 vs. 36-50 vs. 51-65 vs. \>65), Sex at birth (Female vs. Male). and Occupational Role (Technician vs Anesthesiologist vs Advanced Practice Provider vs. Attendant Aide vs. CRNA vs. OR nurse vs Perfusionist vs Surgeon).||||>0.18
92287783|NCT03123094|184480989|OTHER||Slope|0.9533|STANDARD_ERROR_OF_MEAN|0.0803|||TWO_SIDED|95.0|0.781|1.1256|||||Standard error of mean is actually standard error of slope.|Dose proportionality was explored using the power model. Dose proportionality of spesolimab was to be assessed based on the exposure parameter AUC0-∞, determined for the 3 intravenous dose levels (perfect dose proportionality would correspond to a slope of 1).||1.1256|0.7810|
92287784|NCT03123094|184480990|OTHER||Slope|1.0014|STANDARD_ERROR_OF_MEAN|0.0568|||TWO_SIDED|95.0|0.8809|1.1219|||||Standard error of mean is actually standard error of slope.|Dose proportionality was explored using the power model. Dose proportionality of spesolimab was to be assessed based on the exposure parameter Cmax, determined for the 3 intravenous dose levels (perfect dose proportionality would correspond to a slope of 1).||1.1219|0.8809|
92287785|NCT04859517|184481005|SUPERIORITY||Risk Difference (RD)|-5.0||||0.0123|TWO_SIDED|95.0|-8.87|-1.08|||Regression, Logistic||||A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-1.08|-8.87|0.0123
92287786|NCT04859517|184481006|SUPERIORITY||Risk Difference (RD)|-3.9|||<|0.0001|TWO_SIDED|95.0|-5.75|-2.01|||Regression, Logistic|||||-2.01|-5.75|<0.0001
92287787|NCT04859517|184481009|SUPERIORITY||Standardized Risk Difference|-7.6||||0.0153|TWO_SIDED|95.0|-13.74|-1.46|||Regression, Logistic||||A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-1.46|-13.74|0.0153
92183810|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||young children cohort: percent seropositive to DENV-4 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
92183811|NCT02678455|184265812|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|22.0|||||TWO_SIDED|95.0|12.0|38.0||||||young children cohort: percent seropositive to DENV-4 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||38|12|
92183812|NCT03769090|184265840|SUPERIORITY||Hazard Ratio (HR)|0.733|||<|0.001|TWO_SIDED|95.0|0.611|0.879|||Regression, Cox|||H0 = null hypothesis. Hazard ratios, 95% confidence intervals for hazard ratios and p-values are estimated using a Cox regression model with treatment group, age group, region and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favours BDA MDI treatment.||0.879|0.611|<0.001
92183813|NCT03769090|184265840|SUPERIORITY||Hazard Ratio (HR)|0.835||||0.041|TWO_SIDED|95.0|0.702|0.992|||Regression, Cox|||H0 = Null hypothesis. Hazard ratios, 95% confidence intervals for hazard ratios and p-values are estimated using a Cox regression model with treatment group, age group, region and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favours BDI MDI treatment.||0.992|0.702|0.041
92183814|NCT03769090|184265841|SUPERIORITY||Rate Ratio|0.76||||0.008|TWO_SIDED|95.0|0.62|0.93|||Negative binomial model|||Estimated from a negative binomial model with treatment, age group, region, and number of severe exacerbations in the last 12 months prior to randomization as categorical covariates. The logarithm of the time at risk is included as an offset variable. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||0.93|0.62|0.008
92183815|NCT03769090|184265841|SUPERIORITY||Rate Ratio|0.8||||0.028|TWO_SIDED|95.0|0.66|0.98|||Negative binomial model|||Estimated from a negative binomial model with treatment, age group, region, and number of severe exacerbations in the last 12 months prior to randomization as categorical covariates. The logarithm of the time at risk is included as an offset variable. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||0.98|0.66|0.028
92183816|NCT03769090|184265842|SUPERIORITY|||||||0.002|||||||Wilcoxon rank sum|||P-values are calculated via a Wilcoxon rank sum test. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||||0.002
92183817|NCT03769090|184265842|SUPERIORITY|||||||0.06|||||||Wilcoxon rank sum|||P-values are calculated via a Wilcoxon rank sum test. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||||0.06
92183818|NCT03769090|184265843|SUPERIORITY||Odds Ratio (OR)|1.221||||0.033|TWO_SIDED|95.0|1.016|1.467|||Regression, Logistic|||Logistic regression model with baseline ACQ-5 as a continuous covariate and age group, region and number of severe exacerbations in the 12 months prior to randomization as categorical covariates. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||1.467|1.016|0.033
92183819|NCT03769090|184265843|SUPERIORITY||Odds Ratio (OR)|1.132||||0.175|TWO_SIDED|95.0|0.946|1.353|||Regression, Logistic|||Logistic regression model with baseline ACQ-5 as a continuous covariate and age group, region and number of severe exacerbations in the 12 months prior to randomization as categorical covariates. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||1.353|0.946|0.175
92183820|NCT03769090|184265844|SUPERIORITY||Odds Ratio (OR)|1.228||||0.028|TWO_SIDED|95.0|1.022|1.475|||Regression, Logistic|||Logistic regression model with baseline AQLQ-12 as a continuous covariate and age group, region and number of severe exacerbations in the 12 months prior to randomization as categorical covariates. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||1.475|1.022|0.028
92183821|NCT03769090|184265844|SUPERIORITY||Odds Ratio (OR)|1.111||||0.26|TWO_SIDED|95.0|0.925|1.335|||Regression, Logistic|||Logistic regression model with baseline AQLQ-12 as a continuous covariate and age group, region and number of severe exacerbations in the 12 months prior to randomization as categorical covariates. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||1.335|0.925|0.26
92183822|NCT02786966|184265847|SUPERIORITY||Odds Ratio (OR)|0.4||||0.0007|TWO_SIDED|95.0|0.2|0.6|||Regression, Logistic|Adjusted for age and sex||||0.6|0.2|0.0007
92183823|NCT02786966|184265848|SUPERIORITY||Odds Ratio (OR)|0.61||||0.0007|TWO_SIDED|95.0|0.47|0.8|||Regression, Logistic||||Adjusted for age and sex.|0.80|0.47|0.0007
92183824|NCT02786966|184265849|SUPERIORITY||Odds Ratio (OR)|0.69||||0.0093|TWO_SIDED|95.0|0.52|0.91|||Regression, Logistic|adjusted for age and sex||||0.91|0.52|0.0093
92183825|NCT01277302|184265864|SUPERIORITY_OR_OTHER||Estimated interaction effect|0.071|STANDARD_ERROR_OF_MEAN|0.107||0.5091||||||This is the p-value of the treatment by time interaction in the longitudinal model. Analysis was not adjusted for multiple comparisons as there was only 1 comparison. p \< 0.05 (2-sided) was required for significance.|Longitudinal mixed model|The analysis was stratified by disease (BRVO or CRVO), randomization month, and randomization BCVA score category (≤35, \>35 to ≤50, or \>50 letters).||The null hypothesis was that there was no difference in the trend of change from Baseline in the visual acuity scores from Month 7 to Month 15 between the 2 treatment groups as assessed by the interaction term of treatment by time in a longitudinal model.||||0.5091
92183826|NCT01190124|184265913|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison between the 3 study groups, in order to determine if there are statistically significant differences concerning HIV-RNA levels at baseline||||<0.001
92183827|NCT01190124|184265916|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Kruskal-Wallis|||Comparison between the 3 study groups, in order to determine if there are statistically significant differences concerning CD4 cells count at baseline||||<0.001
92265895|NCT03522506|184433308|SUPERIORITY|ANOVA model was used to evaluate the 1 hour post the end of infusion MWT. The LSM sleep latency for each treatment and the associated standard error and 95% CI were estimated from the model, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|16.77|||<|0.001|TWO_SIDED|95.0|11.37|22.18|||ANOVA|||||22.18|11.37|<0.001
92287788|NCT04859517|184481010|SUPERIORITY||Risk Difference (RD)|-4.4||||0.0612|TWO_SIDED|95.0|-9.03|0.21|||Regression, Logistic||||A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|0.21|-9.03|0.0612
92287789|NCT04859517|184481029|SUPERIORITY||Hazard Ratio (HR)|0.22||||0.0077|TWO_SIDED|95.0|0.06|0.76|||Log Rank|||||0.76|0.06|0.0077
92287790|NCT04859517|184481030|SUPERIORITY||Hazard Ratio (HR)|0.27|||<|0.0001|TWO_SIDED|95.0|0.14|0.49|||Log Rank|||||0.49|0.14|<0.0001
92287791|NCT00465270|184481157|OTHER||Cox Proportional Hazard|0.49||||0.08|TWO_SIDED|95.0|0.22|1.11|||Log Rank|||||1.11|0.22|0.08
92287792|NCT00465270|184481159|OTHER||Cox Proportional Hazard|0.55||||0.046|TWO_SIDED|95.0|0.31|0.999|||Log Rank|||||0.999|0.31|0.046
92287793|NCT01249651|184481207|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilocoxon signed-rank test|||Wilcoxon signed-rank test was used to check whether the change in the frequency of heartburn during the 7-day period prior to the 8 week visit (Visit 3) compared to the frequency of heartburn during the 7-day period prior to baseline (Visit 1) was statistically significant or not.||||<0.001
92287794|NCT01581658|184481212|SUPERIORITY_OR_OTHER||Geometric mean ratio|128.82|||||TWO_SIDED|90.0|105.962|156.604|||ANOVA|The model includes fixed effect for the renal function group||||156.604|105.962|
92287795|NCT01581658|184481212|SUPERIORITY_OR_OTHER||Geometric mean ratio|143.82|||||TWO_SIDED|90.0|118.306|174.848|||ANOVA|The model includes fixed effect for the renal function group||||174.848|118.306|
92287796|NCT01581658|184481212|SUPERIORITY_OR_OTHER||Geometric mean ratio|152.31|||||TWO_SIDED|90.0|125.287|185.166|||ANOVA|The model includes fixed effect for the renal function group||||185.166|125.287|
92287797|NCT01581658|184481213|SUPERIORITY_OR_OTHER||Geometric mean ratio|93.5|||||TWO_SIDED|90.0|72.236|121.015|||ANOVA|The model includes fixed effect for the renal function group||||121.015|72.236|
92287798|NCT01581658|184481213|SUPERIORITY_OR_OTHER||Geometric mean ratio|92.18|||||TWO_SIDED|90.0|71.216|119.305|||ANOVA|The model includes fixed effect for the renal function group||||119.305|71.216|
92287799|NCT01581658|184481213|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.01|||||TWO_SIDED|90.0|72.63|121.674|||ANOVA|The model includes fixed effect for the renal function group||||121.674|72.630|
92287800|NCT00199901|184481272|SUPERIORITY||Hazard Ratio (HR)|0.913|||||TWO_SIDED|95.0|0.532|1.568||||||||1.568|0.532|
92287801|NCT00199901|184481274|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.532|1.455||||||||1.455|0.532|
92287802|NCT00199901|184481275|SUPERIORITY||Hazard Ratio (HR)|0.911|||||TWO_SIDED|95.0|0.514|1.614||||||||1.614|0.514|
92287803|NCT04523168|184481310|SUPERIORITY|||||||0.0137|||||||Wilcoxon (Mann-Whitney)|||Baseline, 120 days||||0.0137
92287804|NCT04523168|184481312|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92287805|NCT00075478|184481352|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.09|TWO_SIDED|95.0|0.3|1.1|||Regression, Cox|||Reference arm is Arm 2.||1.1|0.3|.09
92287806|NCT00075478|184481353|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.59|TWO_SIDED|95.0|0.1|3.0|||Regression, Cox|||||3.0|0.1|0.59
92287807|NCT00075478|184481354|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55||||0.06|TWO_SIDED|95.0|0.3|1.0|||Regression, Cox|||||1.0|0.3|0.06
92287808|NCT00075478|184481355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53||||0.09|TWO_SIDED|95.0|0.3|1.1|||Regression, Cox|||||1.1|0.3|0.09
92287809|NCT00075478|184481356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.16|TWO_SIDED|95.0|0.8|3.1|||Regression, Cox|||||3.1|0.8|0.16
92287810|NCT00075478|184481357|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.52||||0.14|TWO_SIDED|95.0|0.9|2.7|||Regression, Cox|||||2.7|0.9|0.14
92287811|NCT00075478|184481359|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56||||0.05|TWO_SIDED|95.0|0.3|1.0|||Regression, Cox|||||1.0|0.3|0.05
92287812|NCT00824291|184481386|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.12||||0.002|TWO_SIDED|95.0|0.78|3.46|||ANCOVA|||||3.46|0.78|0.002
92287813|NCT00824291|184481387|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.33||||0.067|TWO_SIDED|95.0|-0.09|2.76|||ANCOVA|||||2.76|-0.09|0.067
92287814|NCT00824291|184481388|SUPERIORITY_OR_OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
92287815|NCT00824291|184481389|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Cochran-Mantel-Haenszel|||||||0.002
92287816|NCT00824291|184481390|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23||||0.04|TWO_SIDED|95.0|0.01|0.44|||ANCOVA|||||0.44|0.01|0.040
92287817|NCT00824291|184481391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.26||||0.035|TWO_SIDED|95.0|0.16|4.37|||ANCOVA|||||4.37|0.16|0.035
92287818|NCT00824291|184481392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.44||||0.041|TWO_SIDED|95.0|0.1|4.78|||ANCOVA|||||4.78|0.10|0.041
92287819|NCT00824291|184481393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.145|TWO_SIDED|95.0|-0.13|0.91|||ANCOVA|||||0.91|-0.13|0.145
92287820|NCT02115347|184481395|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|87.31|||||TWO_SIDED|90.0|68.01|112.08|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||112.08|68.01|
92287821|NCT02115347|184481396|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|87.43|||||TWO_SIDED|90.0|68.11|112.22|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||112.22|68.11|
92287822|NCT02115347|184481397|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|95.81|||||TWO_SIDED|90.0|72.4|126.79|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||126.79|72.40|
92287823|NCT02115347|184481398|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|95.92|||||TWO_SIDED|90.0|72.46|126.97|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||126.97|72.46|
92265896|NCT03480243|184433311|OTHER||Cmax Estimate Ratio|1.9|||||TWO_SIDED|90.0|1.59|2.27|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.27|1.59|
92265897|NCT03480243|184433311|OTHER||Cmax Estimate Ratio|1.81|||||TWO_SIDED|90.0|1.51|2.16|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.16|1.51|
92265898|NCT03480243|184433312|OTHER||AUC Estimate Ratio|1.8|||||TWO_SIDED|90.0|1.5|2.17|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.17|1.50|
92265899|NCT03480243|184433312|OTHER||AUC Estimate Ratio|1.64|||||TWO_SIDED|90.0|1.36|1.97|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||1.97|1.36|
92265900|NCT03480243|184433313|OTHER||Cmax,ss Estimate Ratio|2.13|||||TWO_SIDED|90.0|1.77|2.55|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.55|1.77|
92265901|NCT03480243|184433313|OTHER||Cmax,ss Estimate Ratio|2.13|||||TWO_SIDED|90.0|1.78|2.56|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.56|1.78|
92265902|NCT03480243|184433314|OTHER||AUCtau Estimate Ratio|2.48|||||TWO_SIDED|90.0|2.02|3.03|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||3.03|2.02|
92265903|NCT03480243|184433314|OTHER||AUCtau Estimate Ratio|2.23|||||TWO_SIDED|90.0|1.82|2.73|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.73|1.82|
92265904|NCT04365387|184433339|OTHER||Cochran-Mantel-Haenszel|2.1|||||TWO_SIDED|90.0|-10.3|14.5|||||Risk Difference (90% CI) were estimated using weighted average of stratum-specific proportion using Cochran-Mantel-Haenszel (CMH).|||14.5|-10.3|
92265905|NCT04365387|184433340|OTHER||Cochran-Mantel-Haenszel|-4.6|||||TWO_SIDED|90.0|-14.9|5.7|||||Risk Difference (90% CI) were estimated using weighted average of stratum-specific proportion using CMH.|||5.7|-14.9|
92265906|NCT04365387|184433342|OTHER||Cochran-Mantel-Haenszel|1.4|||||TWO_SIDED|90.0|-3.2|5.9|||||Risk Difference (90% CI) were estimated using weighted average of stratum-specific proportion using CMH.|||5.9|-3.2|
92265907|NCT04365387|184433343|OTHER||Cochran-Mantel-Haenszel|13.3|||||TWO_SIDED|90.0|0.1|26.4|||||Risk Difference (90% CI) were estimated using weighted average of stratum-specific proportion using CMH for non-Imputed values|||26.4|0.1|
92265908|NCT04365387|184433344|OTHER||Cochran-Mantel-Haenszel|1.3|||||TWO_SIDED|90.0|-9.3|11.9|||||Risk Difference (90% CI) were estimated using weighted average of stratum-specific proportion using CMH.|||11.9|-9.3|
92265909|NCT05770401|184433345|SUPERIORITY||Mean Difference (Final Values)|3.24|STANDARD_ERROR_OF_MEAN|1.227||0.014|TWO_SIDED|95.0|0.72|5.76|||ANCOVA|||The null hypothesis was there would be no significant difference in LCQ total score change from baseline to one-week post-treatment between groups.||5.76|.72|.014
92265910|NCT05770401|184433346|SUPERIORITY||Mean Difference (Final Values)|-16.1|STANDARD_ERROR_OF_MEAN|8.804||0.056|TWO_SIDED|95.0|-32.7|0.46|||ANCOVA|||The null hypothesis was there would be no significant difference in Cough Severity VAS Scores from baseline to one-week post-treatment between groups.||0.46|-32.7|.056
92265911|NCT01683565|184433352|OTHER|Analyses compared the change in Pervasive Developmental Disorders Screening Test-II scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.67||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The sample size was determined based on the goal of confirming trial feasibility and estimating effect sizes for a full-scale trial, not for a definitive test of efficacy. The enrollment goal was 40, which would have provided an indication of an expected effect size for a larger full-scale trial (e.g., 53% power to detect a 2-point decrease (approximately 0.7-SD based on a prior study) in Pervasive Developmental Disorders Screening Test-II score). Funding limitations capped enrollment at 31.||||0.67
92265912|NCT01683565|184433353|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.22||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|||The reported p-value is for the comparison of the change in Competence scores between groups (LCPUFA vs. Placebo).||||0.22
92265913|NCT01683565|184433353|OTHER|Analyses compared the change in the BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes||||||0.92||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|||The reported p-value is for the comparison of the change in Problem scores between groups (LCPUFA vs. Placebo).||||0.92
92265914|NCT01683565|184433353|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.88|||||||Mixed Models Analysis|||The reported p-value is for the comparison of the change in Dysregulation scores between groups (LCPUFA vs. Placebo).||||0.88
92287824|NCT02115347|184481399|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|78.7|||||TWO_SIDED|90.0|65.74|94.23|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||94.23|65.74|
92265915|NCT01683565|184433353|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.23|||||||Mixed Models Analysis|||The reported p-value is for the comparison of the change in Externalizing scores between groups (LCPUFA vs. Placebo).||||0.23
92265916|NCT01683565|184433353|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.91|||||||Mixed Models Analysis|||The reported p-value is for the comparison of the change in Internalizing scores between groups (LCPUFA vs. Placebo).||||0.91
92265917|NCT01683565|184433353|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.03|||||||Mixed Models Analysis|||The reported p-value is for the comparison of the change in Austism Spectrum Disorder scores between groups (LCPUFA vs. Placebo).||||0.03
92287825|NCT02115347|184481400|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|86.52|||||TWO_SIDED|90.0|70.49|106.2|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||106.20|70.49|
92287826|NCT02849457|184481411|SUPERIORITY||Mean Difference (Final Values)|-0.6565|STANDARD_ERROR_OF_MEAN|3.9332||0.8681|TWO_SIDED|95.0|-8.5567|7.2436|||Mixed Models Analysis|Adjusted for age (\<=7 vs \>7 months) at randomization and sex. Unstructured covariance used among 12 and 24 month outcomes.|Parameter represents estimated amount difference in group means. Negative value represents higher mean in placebo group.|||7.2436|-8.5567|0.8681
92287827|NCT02849457|184481412|SUPERIORITY|||||||0.7375|||||||Chi-squared|||||||0.7375
92287828|NCT02849457|184481413|SUPERIORITY||Hazard Ratio (HR)|0.593||||0.1174|TWO_SIDED|95.0|0.309|1.14|||Regression, Cox|Adjusted for age (\<=7 vs \>7 months) at randomization and sex.||||1.140|0.309|0.1174
92287829|NCT02849457|184481414|OTHER|Two-sided test of non-equivalence||||||0.4653|||||||Chi-squared|||||||0.4653
92287830|NCT02849457|184481415|SUPERIORITY||Mean Difference (Final Values)|-4.4392|STANDARD_ERROR_OF_MEAN|3.1889||0.1697|TWO_SIDED|95.0|-10.8346|1.9562|||Mixed Models Analysis|Adjusted for age at randomization (\<=7 vs \>7 months) and sex. Unstructured covariance used among 12, 24, and 36 month outcomes.|Pertains to the estimated difference in mean score between groups at study visit corresponding to 24 months of age.|||1.9562|-10.8346|0.1697
92183828|NCT01190124|184265929|SUPERIORITY_OR_OTHER|||||||0.007|||||||Kruskal-Wallis|||Comparison between the 3 study groups, in order to determine if there are statistically significant differences concerning CD4 cells count at week 24||||0.007
92287831|NCT03673670|184481421|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.021||||0.168|TWO_SIDED|95.0|0.991|1.052|||ANCOVA|||||1.052|0.991|0.168
92287832|NCT03673670|184481421|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|0.995||||0.731|TWO_SIDED|95.0|0.966|1.025|||ANCOVA|||||1.025|0.966|0.731
92287833|NCT03673670|184481422|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.024||||0.115|TWO_SIDED|95.0|0.994|1.055|||ANCOVA|||||1.055|0.994|0.115
92287834|NCT03673670|184481422|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.024||||0.111|TWO_SIDED|95.0|0.994|1.055|||ANCOVA|||||1.055|0.994|0.111
92183829|NCT01190124|184265930|SUPERIORITY_OR_OTHER|||||||0.001|||||||Kruskal-Wallis|||Comparison between the 3 study groups, in order to determine if there are statistically significant differences concerning CD4 cells count at week 48||||0.001
92287835|NCT03673670|184481423|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.014||||0.303|TWO_SIDED|95.0|0.987|1.043|||ANCOVA|||||1.043|0.987|0.303
92287836|NCT03673670|184481424|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.027||||0.067|TWO_SIDED|95.0|0.998|1.057|||ANCOVA|||||1.057|0.998|0.067
92287837|NCT03673670|184481424|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.012||||0.395|TWO_SIDED|95.0|0.984|1.042|||ANCOVA|||||1.042|0.984|0.395
92287838|NCT03673670|184481425|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.012||||0.404|TWO_SIDED|95.0|0.984|1.039|||ANCOVA|||||1.039|0.984|0.404
92287839|NCT03673670|184481426|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.082||||0.001|TWO_SIDED|95.0|1.043|1.123|||ANCOVA|||||1.123|1.043|0.001
92287840|NCT03673670|184481426|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.061||||0.002|TWO_SIDED|95.0|1.023|1.101|||ANCOVA|||||1.101|1.023|0.002
92287841|NCT03673670|184481427|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.02||||0.096|TWO_SIDED|95.0|0.997|1.043|||ANCOVA|||||1.043|0.997|0.096
92287842|NCT03673670|184481427|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.002||||0.862|TWO_SIDED|95.0|0.979|1.025|||ANCOVA|||||1.025|0.979|0.862
92287843|NCT03673670|184481428|OTHER||Median Difference (Final Values)|0.0||||0.945|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.945
92287844|NCT03673670|184481428|OTHER||Median Difference (Final Values)|0.0||||0.501|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.501
92287845|NCT01058668|184481435|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.1|||<|0.001|TWO_SIDED|95.0|-8.4|-3.8|||Mixed Models Analysis||cariprazine (3-6 mg/day) - placebo|||-3.8|-8.4|<0.001
92287846|NCT01058668|184481435|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.9|||<|0.001|TWO_SIDED|95.0|-8.2|-3.6|||Mixed Models Analysis||cariprazine (6-12 mg/day) - placebo|||-3.6|-8.2|<0.001
92287847|NCT01058668|184481436|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.4|||Mixed Models Analysis||cariprazine (3-6 mg/day) - placebo|||-0.4|-0.9|<0.001
92287848|NCT01058668|184481436|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.3|||Mixed Models Analysis||cariprazine (6-12 mg/day) - placebo|||-0.3|-0.9|<0.001
92287849|NCT01068821|184481441|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED|95.0|||||t-test, 2 sided|||Sample size calculations (yielding 25 patients per group): two-sided 5% significance level and a power of 80% for detection of a 2 cm (SD 2.5 cm) difference. Continuous variables analyzed by Student's T-test and One way Analysis of Variance (ANOVA) with statistical significance: p value ≤ 0.05 or 95% Confidence Interval excluding one. Confirmation by Wilcoxon Rank-Sum/Mann-Whitney and Kruskal-Wallis tests. Categorical variables by Chi Square Test, confirmed by Fisher's Exact test.||||0.1
92287850|NCT01068821|184481442|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Fisher Exact|||Fischer's exact test, significance defined as p\<0.05||||0.5
92287851|NCT02558491|184481458|OTHER|||||||0.045||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Primary statistical analysis was performed using the repeated measure ANOVA, with the treatment mode as within subject factor, and type of insulin treatment (pump vs. MDI) as between subject factor. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.045
92287852|NCT02558491|184481458|OTHER|||||||0.07||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Primary statistical analysis was performed using the repeated measure ANOVA, with the treatment mode as within subject factor, and type of insulin treatment (pump vs. MDI) as between subject factor. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.07
92287853|NCT02558491|184481458|OTHER|||||||0.177||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Primary statistical analysis was performed using the repeated measure ANOVA, with the treatment mode as within subject factor, and type of insulin treatment (pump vs. MDI) as between subject factor. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.177
92287854|NCT02558491|184481459|OTHER|||||||0.042||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test was used. Data were first binned (to ensure minimum count of five per bins) \& w2 statistics was used with expected counts given by standard of care. Based on achieved recruitment, moderate effect size (0.3) was detectable with 80% power, or large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.042
92287855|NCT02558491|184481459|OTHER|||||||0.276||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.276
92287856|NCT02558491|184481460|OTHER|||||||0.026||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.026
92287857|NCT02558491|184481460|OTHER|||||||0.173||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.173
92287858|NCT02558491|184481460|OTHER|||||||0.715||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.715
92287859|NCT02558491|184481461|OTHER|||||||0.036||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.036
92287860|NCT02558491|184481461|OTHER|||||||0.213||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.213
92265918|NCT01683565|184433353|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.07|||||||Mixed Models Analysis|||The reported p-value is for the comparison of the change in Red Flag scores between groups (LCPUFA vs. Placebo).||||0.07
92265919|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.31||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (10:0 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.31
92287861|NCT02558491|184481461|OTHER|||||||0.11||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.110
92287862|NCT02558491|184481462|OTHER|||||||0.018||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.018
92287863|NCT02558491|184481462|OTHER|||||||0.149||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.149
92287864|NCT02558491|184481462|OTHER|||||||0.109||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.109
92287865|NCT02558491|184481463|OTHER|||||||0.78||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.78
92287866|NCT02558491|184481463|OTHER|||||||0.399||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.399
92287867|NCT02558491|184481463|OTHER|||||||0.824||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.824
92183830|NCT01719172|184265932|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value from a one-sided exact test was based on the binomial distribution, testing that the true percent success rate was ≤ 50% versus the alternative hypothesis that the success rate was \> 50%.|t-test, 1 sided|||The primary effectiveness endpoint was the percent (%) success in obtaining hemostasis at the Target Bleeding Site (TBS) within 5 minutes following Veriset™ application. An exact (Clopper-Pearson) 95% confidence interval for the true success percentage was calculated. Subjects who received rescue therapy on the target bleeding site prior to obtaining hemostasis were considered failures.||||<0.0001
92183831|NCT01719172|184265933|SUPERIORITY_OR_OTHER|||||||0.0214||||||The p-value from a one-sided exact test was based on the binomial distribution, testing that the true percent success rate was ≤ 50% versus the alternative hypothesis that the success rate was \> 50%.|t-test, 1 sided|||The number and percentage of subjects who achieved hemostasis within 1 minute were presented. An exact (Clopper-Pearson) 95% confidence interval for the true percentage was calculated.||||0.0214
92183832|NCT01719172|184265934|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0|||||ONE_SIDED|95.0||1.0||||||Time to achieve hemostasis was analyzed using the Kaplan-Meier method to estimate the survival distribution and to obtain the estimated median time to hemostasis. Additionally, A 95% Brookmeyer-Crowley confidence interval for the median was computed based on the sign test.||1.0||
92183833|NCT02005172|184265953|EQUIVALENCE|The primary analysis used the TOST procedure for equivalence. A difference of less than 10% between devices on the proportion of diagnostic days during the monitoring period was considered to be equivalent. We hypothesized that the percentage of diagnostic days for the ELR and the KM would be 20% and 15%, respectively.||||||||||||||||For the primary endpoint, equivalence testing using the two one-sided test procedure was used to compare the proportion of (unpaired) days in which a diagnostic recording was made with each device during the monitoring period. For the purpose of this study, a difference of less than 10% between devices on the rate of detection of arrhythmias was taken to indicate equivalence.|"Descriptive statistics (means, standard deviation (SD), percentages) were used to summarize the demographic and clinical characteristics of the patients. The total number of tracings and the percentage of tracings with arrhythmias for each device were also calculated.~For the primary endpoint, equivalence testing using the two one-sided test (TOST) procedure was used to compare the proportion of (unpaired) days in which a diagnostic recording was made with each device during the monitoring period. Patients were asked to use both devices for the same duration. For the purpose of this study, a difference of less than 10% between devices on the rate of detection of arrhythmias was taken to indicate equivalence. The primary hypothesis was that the KM"|||
92183834|NCT01711294|184265954|SUPERIORITY|Sample sizes were calculated using two-sample t-test for the primary endpoint and z-test for the secondary endpoint with power of 80% and two-sided alpha of 0.05. Hochberg step up procedure was used to adjust for multiple comparison. A p-value \< 0.05 was considered statistically significant.||||||0.84||||||Hochberg step up procedure was used to adjust for multiple comparison.|Wilcoxon (Mann-Whitney)|Wilcoxon was used instead of t-test because the data was not normally distributed.||Study hypothesizes that aspiration % in the 19G Flex and 19G arms would be superior by at least 10% to 22G arm, and aspiration success rate of 19G Flex would be at least 16% greater than 22G and 19G arms. Sample size calculation was performed based on the above hypotheses reached by a consensus of all collaborators and adjusted a priori.||||0.84
92183835|NCT02605174|184265970|SUPERIORITY||Odds Ratio (OR)|1.5||||0.003|TWO_SIDED|95.0|1.1|1.9|||Regression, Logistic|||||1.9|1.1|0.003
92183836|NCT02605174|184265970|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.3|2.2|||Regression, Logistic|||||2.2|1.3|<0.001
92183837|NCT02605174|184265970|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.8|3.1|||Regression, Logistic|||||3.1|1.8|<0.001
92183838|NCT02605174|184265971|SUPERIORITY||Odds Ratio (OR)|1.4||||0.009|TWO_SIDED|95.0|1.1|1.8|||Regression, Logistic|||||1.8|1.1|0.009
92183839|NCT02605174|184265971|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.2|2.0|||Regression, Logistic|||||2.0|1.2|<0.001
92183840|NCT02605174|184265971|SUPERIORITY||Odds Ratio (OR)|1.9|||<|0.001|TWO_SIDED|95.0|1.4|2.4|||Regression, Logistic|||||2.4|1.4|<0.001
92183841|NCT02605174|184265972|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.3|2.2|||Regression, Logistic|||||2.2|1.3|<0.001
92183842|NCT02605174|184265972|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.7|2.9|||Regression, Logistic|||||2.9|1.7|<0.001
92183843|NCT02605174|184265972|SUPERIORITY||Odds Ratio (OR)|2.4|||<|0.001|TWO_SIDED|95.0|1.8|3.1|||Regression, Logistic|||||3.1|1.8|<0.001
92183844|NCT02605174|184265974|SUPERIORITY||Odds Ratio (OR)|0.7||||0.002|TWO_SIDED|95.0|0.5|0.9|||Regression, Logistic|||||0.9|0.5|0.002
92183845|NCT02605174|184265974|SUPERIORITY||Odds Ratio (OR)|0.5|||<|0.001|TWO_SIDED|95.0|0.4|0.7|||Regression, Logistic|||||0.7|0.4|<0.001
92183846|NCT02605174|184265974|SUPERIORITY||Odds Ratio (OR)|0.3|||<|0.001|TWO_SIDED|95.0|0.3|0.4|||Regression, Logistic|||||0.4|0.3|<0.001
92183847|NCT02605174|184265975|SUPERIORITY||Odds Ratio (OR)|1.0||||0.917|TWO_SIDED|95.0|0.7|1.5|||Regression, Logistic|||||1.5|0.7|0.917
92183848|NCT02605174|184265975|SUPERIORITY||Odds Ratio (OR)|0.7||||0.129|TWO_SIDED|95.0|0.5|1.1|||Regression, Logistic|||||1.1|0.5|0.129
92183849|NCT02605174|184265975|SUPERIORITY||Odds Ratio (OR)|0.8||||0.456|TWO_SIDED|95.0|0.6|1.3|||Regression, Logistic|||||1.3|0.6|0.456
92183850|NCT02605174|184265977|SUPERIORITY||Odds Ratio (OR)|0.9||||0.522|TWO_SIDED|95.0|0.7|1.2|||Regression, Logistic|||||1.2|0.7|0.522
92183851|NCT02605174|184265977|SUPERIORITY||Odds Ratio (OR)|1.1||||0.622|TWO_SIDED|95.0|0.8|1.4|||Regression, Logistic|||||1.4|0.8|0.622
92183852|NCT02605174|184265977|SUPERIORITY||Odds Ratio (OR)|1.0||||0.992|TWO_SIDED|95.0|0.8|1.3|||Regression, Logistic|||||1.3|0.8|0.992
92183853|NCT02605174|184265978|SUPERIORITY||Odds Ratio (OR)|1.4||||0.008|TWO_SIDED|95.0|1.1|1.7|||Regression, Logistic|||||1.7|1.1|0.008
92183854|NCT02605174|184265978|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.3|2.0|||Regression, Logistic|||||2.0|1.3|<0.001
92183855|NCT02605174|184265978|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.3|2.1|||Regression, Logistic|||||2.1|1.3|<0.001
92183856|NCT02605174|184265979|SUPERIORITY||Odds Ratio (OR)|1.4||||0.007|TWO_SIDED|95.0|1.1|1.7|||Regression, Logistic|||||1.7|1.1|0.007
92183857|NCT02605174|184265979|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.3|2.1|||Regression, Logistic|||||2.1|1.3|<0.001
92183858|NCT02605174|184265979|SUPERIORITY||Odds Ratio (OR)|1.8|||<|0.001|TWO_SIDED|95.0|1.4|2.3|||Regression, Logistic|||||2.3|1.4|<0.001
92183859|NCT00770874|184265982|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.125|TWO_SIDED|95.0|0.67|1.05|||Log Rank|||||1.05|0.67|0.125
92183860|NCT00770874|184265983|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.48|0.8|||Log Rank|||||0.80|0.48|<0.001
92183861|NCT04938453|184266004|OTHER||Ratio of GLSMs (%)|98.47|STANDARD_ERROR_OF_MEAN|13.9|||TWO_SIDED|90.0|90.87|106.69|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of nintedanib 4 X 25 mg)/(GLSM of nintedanib 1 X 100 mg).~Standard error of the mean is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis of this primary endpoint was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||106.69|90.87|
92183862|NCT04938453|184266005|OTHER||Ratio of GLSMs (%)|100.29|STANDARD_ERROR_OF_MEAN|29.2|||TWO_SIDED|90.0|85.05|118.24|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of nintedanib 4 X 25 mg)/(GLSM of nintedanib 1 X 100 mg).~Standard error of the mean is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis of this primary endpoint was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||118.24|85.05|
92183863|NCT04938453|184266006|OTHER||Ratio of GLSMs (%)|98.92|STANDARD_ERROR_OF_MEAN|13.8|||TWO_SIDED|90.0|91.35|107.12|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of nintedanib 4 X 25 mg)/(GLSM of nintedanib 1 X 100 mg).~Standard error of the mean is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis of this primary endpoint was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||107.12|91.35|
92183864|NCT00308308|184266024|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was set to meet regulatory requirement of 250 subjects per arm with 52-week data, resulting in \> 90% power for a non-inferiority test of the difference in 12-month change of HbA1c scores between treatment groups with non-inferiority margin of 0.4%, standard deviation of 1.2 and 1-sided alpha of 0.025. Allowing for a 15% dropout rate, 589 subjects were randomized.|Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.082|||TWO_SIDED|95.0|0.08|0.4|||ANCOVA|||||0.40|0.08|
92183865|NCT00308308|184266025|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001||95.0|-2.7|-1.0|||ANCOVA|||ANCOVA model with terms of pooled site and treatment as fixed effects and baseline weight as covariate||-1.0|-2.7|<0.0001
92183866|NCT00308308|184266026|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.9|STANDARD_ERROR_OF_MEAN|7.41||0.0052|TWO_SIDED|95.0|-35.4|-6.3|||ANCOVA|||||-6.3|-35.4|0.0052
92183867|NCT00308308|184266027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.941||||0.8311|TWO_SIDED|95.0|0.536|1.652|||Regression, Logistic|||logistic regression analysis with the terms of treatment and baseline HbA1c in the model||1.652|0.536|0.8311
92183868|NCT00308308|184266028|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.488||||0.0124|TWO_SIDED|95.0|0.278|0.856|||Regression, Logistic||Model: Treatment + Site|||0.856|0.278|0.0124
92183869|NCT00308308|184266029|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.825||||0.2786|TWO_SIDED|95.0|0.582|1.169|||Regression, Logistic||Model: Treatment + Site|||1.169|0.582|0.2786
92183870|NCT00308308|184266030|SUPERIORITY_OR_OTHER|||||||0.1193|||||||Generalized Estimation Equation|"* Based on Poisson distribution~* Model: Treatment + Time Period"||||||0.1193
92183871|NCT00308308|184266031|SUPERIORITY_OR_OTHER|||||||0.2131|||||||Generalized Estimating Equation|"* Based on Poisson distribution~* Model: Treatment + Time Period"||||||0.2131
92183872|NCT03068312|184266032|OTHER||Least squares mean difference|-0.66|||||TWO_SIDED|95.0|-1.1|-0.21||||||||-0.21|-1.10|
92183873|NCT01852045|184266033|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.276||0.9949|TWO_SIDED|95.0|-0.549|0.545|||ANCOVA||Least squares estimates and contrast t-test were based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||0.545|-0.549|0.9949
92183874|NCT01852045|184266033|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.321||0.9123|TWO_SIDED|95.0|-0.673|0.602|||ANCOVA||Least squares estimates and contrast t-test were based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||0.602|-0.673|0.9123
92183875|NCT01852045|184266035|SUPERIORITY||Least Squares Mean Difference|12.97|STANDARD_ERROR_OF_MEAN|19.694||0.5117|TWO_SIDED|95.0|-26.12|52.064|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||52.064|-26.120|0.5117
92183876|NCT01852045|184266035|SUPERIORITY||Least Squares Mean Difference|65.57|STANDARD_ERROR_OF_MEAN|23.101||0.0055|TWO_SIDED|95.0|19.711|111.421|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||111.421|19.711|0.0055
92265920|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.47||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (12:0 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.47
92265921|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.38||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (14:0 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.38
92265922|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.02||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (16:0 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.02
92265923|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.16||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (16:1n-7 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.16
92265924|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.02||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:0 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.02
92265925|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.02||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:1n-9 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.02
92265926|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.21||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:2n-6 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.21
92265927|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.34||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:3n-6 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.34
92265928|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.24||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:3n-3 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.24
92265929|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.5||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:4n-3 nmol/mL ) between groups (LCPUFA vs. Placebo).||||0.50
92265930|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.07||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (20:3n-6 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.07
92265931|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.1||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (20:4n-6 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.10
92265932|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.001||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (20:5n-3 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.001
92265933|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.71||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (22:5n-3 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.71
92265934|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.001||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (22:6n-3 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.001
92265935|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.1||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (Total Omega-6) between groups (LCPUFA vs. Placebo).||||0.10
92265936|NCT01683565|184433354|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.1||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (total omega-3) between groups (LCPUFA vs. Placebo).||||0.10
92265937|NCT01195662|184433361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.28|STANDARD_ERROR_OF_MEAN|1.1485||0.0002|TWO_SIDED|95.0|-6.54|-2.02||Endpoint was tested at alpha=0.05. Hierarchical closed testing procedure used.|Longitudinal repeated measures|Data from all weeks during the double-blind treatment period were included.||Longitudinal repeated measures analysis using 'direct likelihood', with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata, as well as continuous fixed covariates of baseline SBP value and baseline SBP value-by-week interaction. Unstructured matrix for within-subject error variance-covariance used. 80% power to detect a difference of 4 mmHg in mean change from baseline, 75% power to meet both co-primary endpoints with overall Type I error.||-2.02|-6.54|0.0002
92183877|NCT01852045|184266037|SUPERIORITY||Least Squares Mean Difference|-13.49|STANDARD_ERROR_OF_MEAN|19.673||0.4948|TWO_SIDED|95.0|-52.605|25.626|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||25.626|-52.605|0.4948
92183878|NCT01852045|184266037|SUPERIORITY||Least Squares Mean Difference|1.49|STANDARD_ERROR_OF_MEAN|22.382||0.9471|TWO_SIDED|95.0|-43.012|45.991|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||45.991|-43.012|0.9471
92265938|NCT01195662|184433362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.0773|<|0.0001|TWO_SIDED|95.0|-0.76|-0.46|||Longitudinal repeated measures|Endpoint was tested at alpha=0.05. Hierarchical closed testing procedure was used.||A longitudinal repeated measures analysis used, with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata, continuous fixed covariates of baseline HbA1c value and baseline HbA1c value-by-week interaction. Only data up to Week 12 included. All data used in the model even if participants discontinued prior to Week 12. A heirarchical closed testing procedure (sequential) was used and testing performed since first primary endpoint was significant.||-0.46|-0.76|<0.0001
92265939|NCT01195662|184433363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.45|STANDARD_ERROR_OF_MEAN|1.368||0.0012|TWO_SIDED|95.0|-7.14|-1.76||Endpoint tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||ANCOVA model with treatment group as an effect and baseline value and randomization strata as a covariate was used. By applying sequential testing procedure, the testing was performed since the prior endpoint was significant.||-1.76|-7.14|0.0012
92265940|NCT01195662|184433364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.69||0.1619|TWO_SIDED|95.0|-2.32|0.39||Endpoint tested following a sequential testing procedure at alpha=0.05.|Longitudinal repeated measures|||Longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by week interaction, and randomization strata and continuous fixed covariates of baseline seated diastolic BP value and baseline seated diastolic BP value by week interaction.||0.39|-2.32|0.1619
92265941|NCT01195662|184433365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99|STANDARD_ERROR_OF_MEAN|0.8635|||TWO_SIDED|95.0|-3.68|-0.29|||ANCOVA|||ANCOVA model with treatment group as an effect and baseline value and randomization strata as a covariate. A hierarchical closed testing procedure was implemented to control the family-wise type I error rate related to the co-primary and secondary endpoints at the 2-sided 0.05 level. Statistical testing of this endpoint was not performed since the prior secondary endpoint was not statistically significant.||-0.29|-3.68|
92265942|NCT01195662|184433366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.0858|||TWO_SIDED|95.0|-0.57|-0.23|||lLongitudinal repeated measures|||Longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by week interaction, and randomization strata and continuous fixed covariates of baseline serum uric acid value and baseline seated serum uric acid value by week interaction. By applying sequential testing procedure at alpha=0.05, no testing was performed since the prior secondary endpoint was not significant.||-0.23|-0.57|
92265943|NCT00863265|184433372|EQUIVALENCE||Mean Difference (Final Values)|289.0||||0.01|TWO_SIDED||||||ANOVA||The estimation parameter is the difference between the placebo group and the ezetimibe group.|Phytosterol Diet compared to Ezetimibe||||0.01
92265944|NCT00863265|184433372|EQUIVALENCE|The hypothesis is that groups are equal.|Mean Difference (Final Values)|457.0|||<|0.01|TWO_SIDED||||||ANOVA|||Placebo vs. Ezetimibe Plus Phytosterols||||<0.01
92265945|NCT00863265|184433372|EQUIVALENCE|The hypothesis is that groups are equal|Mean Difference (Final Values)|168.0|||<|0.01|TWO_SIDED||||||ANOVA|||Ezetimibe vs. Ezetimibe Plus Phytosterols||||<0.01
92265946|NCT00863265|184433373|EQUIVALENCE|Not applicable in this study.|Mean Difference (Final Values)|22.8|||<|0.01|TWO_SIDED|||||Adjusted for multiple comparisons.|ANOVA|||The hypothesis is that groups are equal||||<0.01
92265947|NCT00863265|184433373|EQUIVALENCE||Mean Difference (Final Values)|36.4|||<|0.01|TWO_SIDED|||||Adjusted for multiple comparisons.|ANOVA|||Placebo vs. Ezetimibe Plus Phytosterols||||<0.01
92265948|NCT00863265|184433373|EQUIVALENCE||Mean Difference (Final Values)|13.6|||<|0.01|TWO_SIDED|||||Adjusted for multiple comparisons.|ANOVA|||The hypothesis is that groups are equal.||||<0.01
92265949|NCT00863265|184433374|EQUIVALENCE||Mean Difference (Final Values)|21.0|||<|0.01|TWO_SIDED||||||ANOVA|||The hypothesis is that groups are equal.||||<0.01
92265950|NCT00863265|184433374|EQUIVALENCE||Mean Difference (Final Values)|28.0|||<|0.01|TWO_SIDED|||||Adjusted for multiple comparisons.|ANOVA|||The hypothesis is that all groups are equal||||<0.01
92265951|NCT00863265|184433374|EQUIVALENCE||Mean Difference (Final Values)|7.0|||<|0.05|TWO_SIDED|||||Adjusted for multiple comparisons.|ANOVA|||The hypothesis is that groups are equal.||||<0.05
92265952|NCT01738672|184433375|OTHER|||||||0.16|||||||t-test, 2 sided|||||||0.16
92265953|NCT01738672|184433376|OTHER|||||||0.73|||||||t-test, 2 sided|||||||0.73
92183879|NCT01852045|184266038|SUPERIORITY||Relative Risk|0.7||||0.2027|TWO_SIDED|95.0|0.45|1.14||P-values for pairwise comparisons are obtained from 2-sided CMH test, stratified by age (\<12 years or \>=12 years), baseline daytime urinary incontinence episodes (\<=6 or \>6) and anticholinergic therapy (yes/no).|Cochran-Mantel-Haenszel|||Week 6||1.14|0.45|0.2027
92265954|NCT01738672|184433377|OTHER|||||||0.56|||||||t-test, 2 sided|||||||0.56
92265955|NCT03039699|184433416|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92265956|NCT03039699|184433417|SUPERIORITY|||||||0.0675||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||48 hours timepoint comparison||||0.0675
92265957|NCT03039699|184433417|SUPERIORITY|||||||0.0675||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||72 hours timepoint comparison||||0.0675
92265958|NCT03039699|184433417|SUPERIORITY|||||||0.5569||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||96 hours timepoint comparison||||0.5569
92265959|NCT03039699|184433418|SUPERIORITY|||||||0.0696||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||48 hours timepoint comparison||||0.0696
92265960|NCT03039699|184433418|SUPERIORITY|||||||0.0696||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||72 hours timepoint comparison||||0.0696
92265961|NCT03039699|184433418|SUPERIORITY|||||||0.1998||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||96 hours timepoint comparison||||0.1998
92265962|NCT03039699|184433419|SUPERIORITY|||||||0.0039|||||||Wilcoxon (Mann-Whitney)|||||||0.0039
92265963|NCT03039699|184433420|SUPERIORITY|||||||0.89||||||"The p-value associated with treatment\*visit interaction of total CDS score from 24 hours to 48 and 72 hours of treatment between Ergoferon and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.89
92287868|NCT02558491|184481464|OTHER|||||||0.863||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.863
92287869|NCT02558491|184481464|OTHER|||||||0.965||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.965
92287870|NCT02558491|184481464|OTHER|||||||0.742||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.742
92287871|NCT02558491|184481465|OTHER|||||||0.158||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.158
92287872|NCT02558491|184481465|OTHER|||||||0.085||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.085
92287873|NCT02558491|184481465|OTHER|||||||0.055||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.055
92287874|NCT02558491|184481466|OTHER|||||||0.744||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.744
92287875|NCT02558491|184481466|OTHER|||||||0.248||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.248
92287876|NCT02558491|184481466|OTHER|||||||0.225||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.225
92287877|NCT02558491|184481467|OTHER|||||||0.86||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.86
92287878|NCT02558491|184481467|OTHER|||||||0.522||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.522
92287879|NCT02558491|184481467|OTHER|||||||0.522||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.522
92287880|NCT02558491|184481468|OTHER|||||||0.301||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.301
92287881|NCT02558491|184481469|OTHER|||||||0.189||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.189
92287882|NCT02558491|184481470|OTHER|||||||0.271||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.271
92287883|NCT02825680|184481483|SUPERIORITY|||||||0.011|||||||Mixed Models Analysis|||This analysis compares reach within the pre-intervention timeframe versus the post-intervention timeframe for each LEAP (intervention) and control case. Intention to treat analysis was used; all participating facilities randomized to the LEAP (intervention) arm were included whether or not they completed the intervention.||||.011
92265964|NCT03039699|184433421|SUPERIORITY|||||||0.0044|||||||Wilcoxon (Mann-Whitney)|||||||0.0044
92265965|NCT03039699|184433422|SUPERIORITY|||||||0.5488||||||nonadjusted p-value|Fisher Exact|||Day 3 comparison||||0.5488
92265966|NCT03039699|184433422|SUPERIORITY|||||||0.814||||||nonadjusted p-value|Fisher Exact|||Day 4 comparison||||0.8140
92265967|NCT03039699|184433422|SUPERIORITY|||||||0.1248||||||nonadjusted p-value|Fisher Exact|||Day 6 comparison||||0.1248
92265968|NCT03039699|184433422|SUPERIORITY|||||||0.3889||||||nonadjusted p-value|Fisher Exact|||Day 10 comparison||||0.3889
92265969|NCT03039699|184433423|SUPERIORITY|||||||0.3593|||||||Fisher Exact|||||||0.3593
92265970|NCT02451137|184433454|SUPERIORITY||Odds Ratio (OR)|1.19||||0.0308|TWO_SIDED|95.4|1.01|1.39||Threshold for significance at 0.046 level.|Regression, Logistic|||A logistic regression model was used with treatment arm as a fixed effect and adjusted for: randomization strata of HbA1c target (\<8%,\<7%), sulfonylurea (SU) use (yes/no), glucagon like peptide1-receptor agonists (GLP-1 RA) use (yes/no) and baseline HbA1c (as continuous).||1.39|1.01|0.0308
92265971|NCT01740297|184433494|SUPERIORITY||Odds Ratio (OR)|2.9||||0.002|TWO_SIDED|95.0|1.5|5.5|||Chi-squared, Corrected||Obtained from the unstratified logistic regression model.|||5.5|1.5|0.002
92265972|NCT01740297|184433497|OTHER||Odds Ratio (OR)|1.9||||0.033|TWO_SIDED|95.0|1.1|3.4||P-value is descriptive|Chi-squared, Corrected||Obtained from the unstratified logistic regression model.|||3.4|1.1|0.033
92265973|NCT01740297|184433498|OTHER||Odds Ratio (OR)|2.8||||0.007|TWO_SIDED|95.0|1.4|5.8||P-value is descriptive.|Chi-squared, Corrected||Obtained from the unstratified logistic regression model.|||5.8|1.4|0.007
92265974|NCT01740297|184433499|OTHER||Hazard Ratio (HR)|1.41||||0.228|TWO_SIDED|95.0|0.8|2.49||P-value is descriptive|Log Rank||Obtained from unstratified Cox Proportional Hazard Model.|||2.49|0.80|0.228
92265975|NCT01740297|184433501|OTHER||Hazard Ratio (HR)|0.83||||0.348|TWO_SIDED|95.0|0.56|1.23|||Log Rank||Obtained from unstratified Cox Proportional Hazard Model|||1.23|0.56|0.348
92265976|NCT01740297|184433502|OTHER|||||||0.696|||||||Chi-squared, Corrected|||||||0.696
92265977|NCT01740297|184433503|OTHER||Hazard Ratio (HR)|0.8||||0.474|TWO_SIDED|95.0|0.44|1.46|||Log Rank||Obtained from unstratified Cox Proportional Hazard Model|||1.46|0.44|0.474
92265978|NCT01740297|184433505|OTHER||Hazard Ratio (HR)|0.78||||0.14|TWO_SIDED|95.0|0.55|1.09|||Log Rank||Obtained from unstratified Cox Proportional Hazard Model|||1.09|0.55|0.14
92265979|NCT01740297|184433506|OTHER||Hazard Ratio (HR)|0.83||||0.37|TWO_SIDED|95.0|0.56|1.24|||Log Rank||Obtained from unstratified Cox Proportional Hazard Model|||1.24|0.56|0.37
92265980|NCT02163759|184433531|SUPERIORITY||Difference in Remission Rates|12.3||||0.0173|TWO_SIDED|95.0|1.59|20.6||The threshold for statistical significance was a p-value \<0.05.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|The null hypothesis (H0): the percentage of participants achieving remission at Week 10 was the same in both the placebo and etrolizumab arms. The alternative hypothesis (H1): the percentage of participants achieving remission at Week 10 was not the same in the placebo and etrolizumab arms.||20.60|1.59|0.0173
92265981|NCT02163759|184433532|SUPERIORITY||Difference in Remission Rates|-3.1||||0.5055|TWO_SIDED|95.0|-12.61|6.37||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||6.37|-12.61|0.5055
92265982|NCT02163759|184433533|SUPERIORITY||Difference in Remission Rates|-5.0||||1|TWO_SIDED|95.0|-11.66|1.75||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||1.75|-11.66|1
92265983|NCT02163759|184433534|SUPERIORITY||Difference in Response Rates|6.9||||0.4434|TWO_SIDED|95.0|-7.03|20.62||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 1 of the testing procedure; please refer to the statistical analysis plan for details.||20.62|-7.03|0.4434
92287884|NCT05630885|184481491|SUPERIORITY||Slope|0.984||||0.65|TWO_SIDED|95.0|0.916|1.056||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use. Analysis used multiple imputation for missing data.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale and rounded to 3 decimal places. It reflects the relative geometric mean fold-change in the TBR from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes arterial inflammation in the MDS of the index vessel, adjusting for statin-use. The study was powered to detect a between-group difference of 0.046 in log10 MDS TBR (10% relative fold-change), assuming a null difference of 0 in log10 MDS TBR (a ratio of 1 in absolute-scale), a standard deviation of 0.065 of change in log10 TBR, and 75 evaluable participants.||1.056|0.916|0.65
92183880|NCT01852045|184266038|SUPERIORITY||Relative Risk|0.8||||0.1564|TWO_SIDED|95.0|0.4|1.21||P-values for pairwise comparisons are obtained from a 2-sided CMH test, stratified by age (\< 12 years or \>= 12 years), baseline daytime urinary incontinence episodes (\<= 6 or \> 6) and anticholinergic therapy (yes/no).|Cochran-Mantel-Haenszel|||Week 6||1.21|0.40|0.1564
92183881|NCT01852045|184266039|SUPERIORITY||Least Squares Mean Difference|-4.49|STANDARD_ERROR_OF_MEAN|7.488||0.5524|TWO_SIDED|95.0|-19.648|10.669|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||10.669|-19.648|0.5524
92287885|NCT05630885|184481491|OTHER|Statistical test for interaction.||||||0.4||||||P-value for modification of the CVC treatment effect by subgroups defined by statin-use is presented. A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use and its interaction with treatment. Analysis used multiple imputation for missing data.||Evaluates whether CVC, compared to placebo, changes arterial inflammation in the MDS of the index vessel differently by statin-use at study entry (use versus no-use).||||0.40
92287886|NCT05630885|184481491|OTHER|Statistical test for interaction.||||||0.63||||||P-value for modification of the CVC treatment effect by subgroups defined by sex is presented. A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for sex (F vs M) and its interaction with treatment. Analysis used multiple imputation for missing data.||Evaluates whether CVC, compared to placebo, changes arterial inflammation in the MDS of the index vessel differently by sex (female versus male).||||0.63
92287887|NCT05630885|184481491|OTHER|Statistical test for interaction.||||||0.71||||||P-value for modification of the CVC treatment effect by subgroups defined by race is presented. A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for race and its interaction with treatment. Analysis used multiple imputation for missing data.||Evaluates whether CVC, compared to placebo, changes arterial inflammation in the MDS of the index vessel differently by race (Black/African-American versus Non-Black/African-American).||||0.71
92287888|NCT05630885|184481492|SUPERIORITY||Slope|0.996||||0.91|TWO_SIDED|95.0|0.93|1.067||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale and rounded to 3 decimal places. It reflects the relative geometric mean fold-change in the TBR from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes arterial inflammation in the aorta adjusting for statin-use.||1.067|0.930|0.91
92287889|NCT05630885|184481492|SUPERIORITY||Slope|0.98||||0.64|TWO_SIDED|95.0|0.901|1.066||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale and rounded to 3 decimal places. It reflects the relative geometric mean fold-change in the TBR from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes arterial inflammation in the right and left carotid arteries adjusting for statin-use.||1.066|0.901|0.64
92287890|NCT05630885|184481493|SUPERIORITY||Slope|1.01||||0.79|TWO_SIDED|95.0|0.939|1.087||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale and rounded to 3 decimal places. It reflects the relative geometric mean fold-change in the SUV from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes arterial inflammation in the aorta adjusting for statin-use.||1.087|0.939|0.79
92287891|NCT05630885|184481493|SUPERIORITY||Slope|1.017||||0.69|TWO_SIDED|95.0|0.935|1.106||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale and rounded to 3 decimal places. It reflects the relative geometric mean fold-change in the SUV from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes arterial inflammation in the right and left carotid arteries adjusting for statin-use.||1.106|0.935|0.69
92287892|NCT05630885|184481494|SUPERIORITY||Slope|2.5||||0.49|TWO_SIDED|95.0|-4.6|9.6||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Model adjusted for statin-use.|Estimate reflects the relative mean change in fasting glucose from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of fasting glucose adjusting for statin-use.||9.6|-4.6|0.49
92287893|NCT05630885|184481495|SUPERIORITY||Slope|1.07||||0.62|TWO_SIDED|95.0|0.81|1.43||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in fasting insulin from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of fasting insulin adjusting for statin-use.||1.43|0.81|0.62
92287894|NCT05630885|184481495|SUPERIORITY||Slope|1.09||||0.61|TWO_SIDED|95.0|0.78|1.54||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in HOMA-IR from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of HOMA-IR adjusting for statin-use.||1.54|0.78|0.61
92287895|NCT05630885|184481496|SUPERIORITY||Slope|0.97||||0.91|TWO_SIDED|95.0|0.62|1.52||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in hsCRP from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of hsCRP adjusting for statin-use.||1.52|0.62|0.91
92287896|NCT05630885|184481496|SUPERIORITY||Slope|1.01||||0.94|TWO_SIDED|95.0|0.77|1.33||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in IL-6 from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes the levels of IL-6 adjusted for statin-use.||1.33|0.77|0.94
92287897|NCT05630885|184481496|SUPERIORITY||Slope|4.74|||<|0.001|TWO_SIDED|95.0|3.89|5.77||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in MCP-1 from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes the levels of MCP-1 adjusting for statin-use.||5.77|3.89|<0.001
92287898|NCT05630885|184481497|SUPERIORITY||Slope|-49.0||||0.38|TWO_SIDED|95.0|-158.0|60.0||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Model adjusted for statin-use.|Estimate reflects the relative mean change in sCD14 from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of sCD14 adjusting for statin-use.||60|-158|0.38
92287899|NCT05630885|184481497|SUPERIORITY||Slope|-6.3||||0.88|TWO_SIDED|95.0|-87.0|75.0||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Model adjusted for statin-use.|Estimate reflects the relative mean change in sCD163 from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes the levels of sCD163 adjusting for statin-use.||75|-87|0.88
92287900|NCT05630885|184481498|SUPERIORITY||Slope|1.65|||<|0.001|TWO_SIDED|95.0|1.28|2.12||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in MIP-1 beta from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes the levels of MIP-1 beta adjusting for statin-use.||2.12|1.28|<0.001
92287901|NCT05630885|184481498|SUPERIORITY||Slope|1.02||||0.85|TWO_SIDED|95.0|0.82|1.28||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in RANTES from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of RANTES adjusting for statin-use.||1.28|0.82|0.85
92287902|NCT02354339|184481515|SUPERIORITY|||||||0.24||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of fasting glucose on Irvingia gabonensis group||||0.240
92287903|NCT02354339|184481515|SUPERIORITY|||||||0.85||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of fasting glucose on placebo group||||0.850
92287904|NCT02354339|184481516|SUPERIORITY|||||||0.012||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of triglycerides on Irvingia gabonensis group||||0.012
92287905|NCT02354339|184481516|SUPERIORITY|||||||0.391||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of triglycerides on placebo group||||0.391
92287906|NCT02354339|184481517|SUPERIORITY|||||||0.206||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of HDL-c on Irvingia gabonensis group||||0.206
92287907|NCT02354339|184481517|SUPERIORITY|||||||0.721||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of HDL-c on placebo group||||0.721
92287908|NCT02354339|184481518|SUPERIORITY|||||||0.371||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of systolic blood pressure on Irvingia gabonensis group||||0.371
92287909|NCT02354339|184481518|SUPERIORITY|||||||0.238||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of systolic blood pressure on placebo group||||0.238
92287910|NCT02354339|184481519|SUPERIORITY|||||||0.452||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of diastolic blood pressure on Irvingia gabonensis group||||0.452
92287911|NCT02354339|184481519|SUPERIORITY|||||||0.801||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of diastolic blood pressure on placebo group||||0.801
92287912|NCT02354339|184481520|SUPERIORITY|||||||0.005||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of waist circumference on Irvingia gabonensis group||||0.005
92265984|NCT02163759|184433534|SUPERIORITY||Difference in Response Rates|4.8||||0.4122|TWO_SIDED|95.0|-6.72|16.07||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||16.07|-6.72|0.4122
92287913|NCT02354339|184481520|SUPERIORITY|||||||0.752||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of waist circumference on placebo group||||0.752
92287914|NCT02354339|184481521|SUPERIORITY|||||||0.791|||||||Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of first phase of insulin secretion on Irvingia gabonensis group||||0.791
92287915|NCT02354339|184481521|SUPERIORITY|||||||0.91||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of first phase of insulin secretion on placebo group||||0.910
92287916|NCT02354339|184481522|SUPERIORITY|||||||0.458||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total insulin secretion on Irvingia gabonensis group||||0.458
92287917|NCT02354339|184481522|SUPERIORITY|||||||0.953||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total insulin secretion on placebo group||||0.953
92287918|NCT02354339|184481523|SUPERIORITY|||||||0.47||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of insulin sensitivity on Irvingia gabonensis group||||0.470
92287919|NCT02354339|184481523|SUPERIORITY|||||||0.807||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of insulin sensitivity on placebo group||||0.807
92287920|NCT02354339|184481524|SUPERIORITY|||||||0.604||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of body weight on Irvingia gabonensis group||||0.604
92287921|NCT02354339|184481524|SUPERIORITY|||||||0.35||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of body weight on placebo group||||0.350
92287922|NCT02354339|184481525|SUPERIORITY|||||||0.727||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of BMI on Irvingia gabonensis group||||0.727
92287923|NCT02354339|184481525|SUPERIORITY|||||||0.229||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of BMI on placebo group||||0.229
92287924|NCT02354339|184481526|SUPERIORITY|||||||0.151||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total cholesterol on Irvingia gabonensis group||||0.151
92287925|NCT02354339|184481526|SUPERIORITY|||||||0.955||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total cholesterol on placebo group||||0.955
92287926|NCT02354339|184481527|SUPERIORITY|||||||0.35||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of LDL-c on Irvingia gabonensis group||||0.350
92287927|NCT02354339|184481527|SUPERIORITY|||||||0.47||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of LDL-c on placebo group||||0.470
92287928|NCT02354339|184481528|SUPERIORITY|||||||0.91||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of AST on Irvingia gabonensis group||||0.910
92287929|NCT02354339|184481528|SUPERIORITY|||||||0.436||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of AST on placebo group||||0.436
92287930|NCT02354339|184481529|SUPERIORITY|||||||0.989||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of ALT on Irvingia gabonensis group||||0.989
92287931|NCT02354339|184481529|SUPERIORITY|||||||0.949||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of ALT on placebo group||||0.949
92287932|NCT02354339|184481530|SUPERIORITY|||||||0.095||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of creatinine on Irvingia gabonensis group||||0.095
92287933|NCT02354339|184481530|SUPERIORITY|||||||0.401||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of creatinine on placebo group||||0.401
92287934|NCT02354339|184481531|SUPERIORITY|||||||0.91||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of uric acid on Irvingia gabonensis group||||0.910
92287935|NCT02354339|184481531|SUPERIORITY|||||||0.791||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of uric acid on placebo group||||0.791
92287936|NCT00730691|184481605|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.843||0.255|TWO_SIDED|95.0|-2.62|0.69||This treatment arm is not in the pre-specified testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||P-values were tested at the 5% level of significance (ie, statistical significance if P\<0.05) comparing each of the 3 doses of vortioxetine to placebo.||0.69|-2.62|0.255
92265985|NCT02163759|184433535|SUPERIORITY||Difference in Response Rates|1.2||||1|TWO_SIDED|95.0|-6.98|9.26||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||9.26|-6.98|1
92265986|NCT02163759|184433536|SUPERIORITY||Difference in Response Rates|17.9||||0.0173|TWO_SIDED|95.0|4.49|29.5||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 1 of the testing procedure; please refer to the statistical analysis plan for details.||29.50|4.49|0.0173
92265987|NCT02163759|184433536|SUPERIORITY||Difference in Response Rates|7.4||||0.1886|TWO_SIDED|95.0|-3.77|18.32||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||18.32|-3.77|0.1886
92265988|NCT02163759|184433537|SUPERIORITY||Difference in Response Rates|1.9||||1|TWO_SIDED|95.0|-6.04|9.88||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||9.88|-6.04|1
92265989|NCT02163759|184433538|SUPERIORITY||Difference in Remission Rates|13.8||||0.1347|TWO_SIDED|95.0|2.97|22.15||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||22.15|2.97|0.1347
92265990|NCT02163759|184433538|SUPERIORITY||Difference in Remission Rates|0.5||||0.9138|TWO_SIDED|95.0|-8.95|9.92||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||9.92|-8.95|0.9138
92265991|NCT02163759|184433539|SUPERIORITY||Difference in Remission Rates|-3.5||||1|TWO_SIDED|95.0|-10.27|3.3||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||3.30|-10.27|1
92265992|NCT02163759|184433540|SUPERIORITY||Difference in Remission Rates|26.3||||0.0173|TWO_SIDED|95.0|12.1|37.86||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||37.86|12.10|0.0173
92287937|NCT00730691|184481605|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.843||0.719|TWO_SIDED|95.0|-1.96|1.35||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 10 mg and 5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.025, the testing procedure stopped for all subsequent endpoints.||1.35|-1.96|0.719
92265993|NCT02163759|184433540|SUPERIORITY||Difference in Remission Rates|13.2||||0.0313|TWO_SIDED|95.0|0.93|24.94||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||24.94|0.93|0.0313
92265994|NCT02163759|184433541|SUPERIORITY||Difference in Remission Rates|-0.3||||1|TWO_SIDED|95.0|-9.13|8.45||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||8.45|-9.13|1
92265995|NCT02163759|184433542|SUPERIORITY|||||||0.4434||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||||0.4434
92265996|NCT02163759|184433542|SUPERIORITY|||||||0.3374||||||Nominal p-value; it has not been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||||0.3374
92265997|NCT02163759|184433543|SUPERIORITY|||||||1||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||||1
92265998|NCT02163759|184433544|SUPERIORITY|||||||0.4434||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||||0.4434
92265999|NCT02163759|184433544|SUPERIORITY|||||||0.6367||||||Nominal p-value; it has not been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||||0.6367
92266000|NCT02163759|184433545|SUPERIORITY|||||||1||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||||1
92266001|NCT02163759|184433546|SUPERIORITY||Mean Difference (Net)|-0.7||||0.3708|TWO_SIDED|95.0|-2.4|0.9||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.9|-2.4|0.3708
92266002|NCT02163759|184433546|SUPERIORITY||Mean Difference (Net)|-0.5||||0.4477|TWO_SIDED|95.0|-1.8|0.8||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.8|-1.8|0.4477
92266003|NCT02163759|184433547|SUPERIORITY||Mean Difference (Net)|-1.0||||1|TWO_SIDED|95.0|-2.1|0.2||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 4 of the testing procedure; please refer to the statistical analysis plan for details.||0.2|-2.1|1
92287938|NCT00730691|184481605|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.848||0.642|TWO_SIDED|95.0|-2.06|1.27||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 10 mg and 5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.025, the testing procedure stopped for all subsequent endpoints.||1.27|-2.06|0.642
92287939|NCT00730691|184481605|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.869||0.003|TWO_SIDED|95.0|-4.3|-0.89|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-0.89|-4.30|0.003
92287940|NCT00730691|184481606|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.511||0.83|TWO_SIDED|95.0|-0.89|1.11|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||1.11|-0.89|0.830
92287941|NCT00730691|184481606|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.51||0.643|TWO_SIDED|95.0|-1.24|0.77||Hierarchical testing stopped at the primary endpoint in the testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.77|-1.24|0.643
92287942|NCT00730691|184481606|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.09|STANDARD_ERROR_OF_MEAN|0.517||0.036|TWO_SIDED|95.0|-2.1|-0.07||Hierarchical testing stopped at the primary endpoint in the testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-0.07|-2.10|0.036
92287943|NCT00730691|184481606|SUPERIORITY_OR_OTHER||LS mean Difference|-1.54|STANDARD_ERROR_OF_MEAN|0.527||0.004|TWO_SIDED|95.0|-2.58|-0.5|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-0.50|-2.58|0.004
92287944|NCT00730691|184481607|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.129||0.407|TWO_SIDED|95.0|-0.36|0.15|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.15|-0.36|0.407
92287945|NCT00730691|184481607|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.129||0.533|TWO_SIDED|95.0|-0.33|0.17|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.17|-0.33|0.533
92287946|NCT00730691|184481607|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.13||0.491|TWO_SIDED|95.0|-0.34|0.17|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.17|-0.34|0.491
92287947|NCT00730691|184481607|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.133||0.001|TWO_SIDED|95.0|-0.7|-0.17|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-0.17|-0.70|0.001
92287948|NCT00730691|184481608|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.765||0.652|TWO_SIDED|95.0|-1.16|1.85|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||1.85|-1.16|0.652
92266004|NCT02163759|184433547|SUPERIORITY||Mean Difference (Net)|-0.3||||1|TWO_SIDED|95.0|-1.2|0.7||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 6 of the testing procedure; please refer to the statistical analysis plan for details.||0.7|-1.2|1
92266005|NCT02163759|184433548|SUPERIORITY||Mean Difference (Net)|-0.2||||0.6356|TWO_SIDED|95.0|-0.9|0.5||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.5|-0.9|0.6356
92287949|NCT00730691|184481608|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.754||0.511|TWO_SIDED|95.0|-1.98|0.98|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.98|-1.98|0.511
92287950|NCT00730691|184481608|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.736||0.204|TWO_SIDED|95.0|-2.38|0.51|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.51|-2.38|0.204
92287951|NCT00730691|184481608|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.57|STANDARD_ERROR_OF_MEAN|0.781||0.001|TWO_SIDED|95.0|-4.1|-1.03|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-1.03|-4.10|0.001
92287952|NCT00730691|184481609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.114||||0.641|TWO_SIDED|95.0|0.709|1.75|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||1.750|0.709|0.641
92287953|NCT00730691|184481609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.016||||0.945|TWO_SIDED|95.0|0.643|1.605|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||1.605|0.643|0.945
92266006|NCT02163759|184433548|SUPERIORITY||Mean Difference (Net)|-0.4||||0.1253|TWO_SIDED|95.0|-1.0|0.1||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.1|-1.0|0.1253
92266007|NCT02163759|184433549|SUPERIORITY||Mean Difference (Net)|-0.5||||1|TWO_SIDED|95.0|-1.0|0.0||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 4 of the testing procedure; please refer to the statistical analysis plan for details.||0.0|-1.0|1
92266008|NCT02163759|184433549|SUPERIORITY||Mean Difference (Net)|-0.3||||1|TWO_SIDED|95.0|-0.7|0.1||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 6 of the testing procedure; please refer to the statistical analysis plan for details.||0.1|-0.7|1
92266009|NCT02163759|184433550|SUPERIORITY||Difference in Remission Rates|10.9||||0.0364|TWO_SIDED|95.0|-0.08|19.48||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||19.48|-0.08|0.0364
92266010|NCT02163759|184433550|SUPERIORITY||Difference in Remission Rates|-4.5||||0.3383|TWO_SIDED|95.0|-14.1|5.07||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||5.07|-14.10|0.3383
92266011|NCT02163759|184433551|SUPERIORITY||Difference in Remission Rates|6.2||||0.09|TWO_SIDED|95.0|-3.33|12.3||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||12.30|-3.33|0.0900
92266012|NCT02163759|184433551|SUPERIORITY||Difference in Remission Rates|-3.6||||0.3217|TWO_SIDED|95.0|-11.07|3.78||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||3.78|-11.07|0.3217
92266013|NCT02163759|184433552|SUPERIORITY||Difference in Adjusted Means|1.3||||0.7919|TWO_SIDED|95.0|-8.3|10.8||Nominal p-value; it has not been adjusted for multiplicity.|ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and IBDQ score at BL.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||10.8|-8.3|0.7919
92266014|NCT02163759|184433552|SUPERIORITY||Difference in Adjusted Means|-0.8||||0.8327|TWO_SIDED|95.0|-8.7|7.0||Nominal p-value; it has not been adjusted for multiplicity.|ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and IBDQ score at BL.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||7.0|-8.7|0.8327
92266015|NCT02883400|184433558|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0001
92266016|NCT00333437|184433559|SUPERIORITY_OR_OTHER||Change from Baseline|0.1786|STANDARD_DEVIATION|0.1613||0.026|TWO_SIDED|95.0|0.0294|0.3277||Not adjusted|t-test, 2 sided|||H(0): post-pre FVC (liters) = 0||0.3277|0.0294|0.026
92266017|NCT00333437|184433560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|8.1035||0.3652|TWO_SIDED|95.0|-10.49|4.4945||significant p\<0.05|t-test, 2 sided|||H(0): Post-pre neutrophil count = 0||4.4945|-10.49|0.3652
92266018|NCT00333437|184433560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.286|STANDARD_DEVIATION|16.358||0.3485|TWO_SIDED|95.0|-21.41|8.8426||significant p\<0.05|t-test, 2 sided|||H(0): post-pre eosinophil count = 0||8.8426|-21.41|0.3485
92266019|NCT00333437|184433562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|264.26|STANDARD_DEVIATION|194.66||0.0115|TWO_SIDED|95.0|84.256|444.32||Significant p\<0.05|t-test, 2 sided|Not adjusted||H(0): post-pre walk distance = 0||444.32|84.256|0.0115
92266020|NCT00333437|184433563|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8643|STANDARD_DEVIATION|1.5013||0.0167|TWO_SIDED|95.0|0.4758|3.2527||significant p\<0.05|t-test, 2 sided|||H(0): Post-pre DLCO = 0||3.2527|0.4758|0.0167
92266021|NCT03022526|184433566|SUPERIORITY|||||||0.7463|||||||t-test, 2 sided|||||||0.7463
92266022|NCT03022526|184433567|SUPERIORITY|||||||0.5764|||||||t-test, 2 sided|||||||0.5764
92266023|NCT03022526|184433568|SUPERIORITY|||||||0.7169|||||||t-test, 2 sided|||||||0.7169
92266024|NCT03022526|184433569|SUPERIORITY|||||||0.4226|||||||t-test, 2 sided|||||||0.4226
92266025|NCT03022526|184433570|SUPERIORITY|||||||0.6873|||||||t-test, 2 sided|||||||0.6873
92266026|NCT03022526|184433571|SUPERIORITY|||||||0.0452|||||||Chi-squared|||||||0.0452
92266027|NCT03022526|184433572|SUPERIORITY|||||||0.0899|||||||Chi-squared|||||||0.0899
92266028|NCT03022526|184433573|SUPERIORITY|||||||0.1265|||||||Chi-squared|||||||0.1265
92266029|NCT03022526|184433574|SUPERIORITY|||||||0.0328|||||||t-test, 2 sided|||||||0.0328
92266030|NCT03022526|184433575|SUPERIORITY|||||||0.6824|||||||t-test, 2 sided|||||||0.6824
92266031|NCT03022526|184433576|SUPERIORITY|||||||0.449|||||||t-test, 2 sided|||||||0.449
92266032|NCT03022526|184433577|SUPERIORITY|||||||0.5996|||||||t-test, 2 sided|||||||0.5996
92266033|NCT03022526|184433578|SUPERIORITY|||||||0.8009|||||||t-test, 2 sided|||||||0.8009
92266034|NCT03022526|184433579|SUPERIORITY|||||||0.5422|||||||t-test, 2 sided|||||||0.5422
92266035|NCT03022526|184433580|SUPERIORITY|||||||0.7374|||||||t-test, 2 sided|||||||0.7374
92266036|NCT03315780|184433581|SUPERIORITY||Mean Difference (Final Values)|-254.02|||<|0.0001|TWO_SIDED|95.0|-337.76|-170.28|||Mixed Models Analysis|||||-170.28|-337.76|< 0.0001
92266037|NCT03315780|184433584|SUPERIORITY||Mean Difference (Final Values)|27.46||||0.01|TWO_SIDED|95.0|8.05|46.87|||Mixed Models Analysis|||||46.87|8.05|0.0100
92266038|NCT03315780|184433585|SUPERIORITY||Mean Difference (Final Values)|3.72||||0.0263|TWO_SIDED|95.0|0.63|6.81|||Mixed Models Analysis|||||6.81|0.63|0.0263
92266039|NCT03315780|184433586|SUPERIORITY||Mean Difference (Final Values)|-9.36||||0.08|TWO_SIDED|95.0|-20.16|1.43|||Mixed Models Analysis|||||1.43|-20.16|0.0800
92266040|NCT03315780|184433587|SUPERIORITY||Mean Difference (Final Values)|-15.39||||0.7475|TWO_SIDED|95.0|-118.35|87.57|||Mixed Models Analysis|||||87.57|-118.35|0.7475
92266041|NCT02748096|184433589|OTHER||||||<|0.05||||||A p value of less than 0.05 was considered statistically significant for all the radiographic parameters .|t-test, 2 sided|This test applies to comparison between the two treatment arms and assesses all the radiographic parameters||The sample size was calculated from a previous study that used similar radiological assessments to compare OUKAs performed using conventional instrumentation and computer navigation. In this study, the standard deviation of the tibia varus/valgus angle for the control group was 3.6°. Assuming a minimum clinically important difference of 3°, the SMD would be 0.8. Hence with a power of 0.8 and significance level of 0.05, a total sample size of 44 patients (22 in each group) was required.||||<0.05
92266042|NCT02748096|184433590|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92266043|NCT02748096|184433591|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92266044|NCT00451191|184433604|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Simon's optimal two-stage design|||Simon's optimal two-stage design was applied to determine whether there was sufficient activity at either of the two dose levels to warrant further investigation. Each patient was considered either a successful or failed response. The response rate or proportion of patients treated successfully was examined in two stages. At both stages, the two dose levels were compared to pre-determined critical cut-off values. Sample size was based on significance level α=0.05 and power 90%.||||<0.05
92266045|NCT00656669|184433613|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||t-test, 2 sided|This is a paired t-test to compare baseline IFP to IFP after completion of sunitinib monotherapy||From Taghian et al., we used a mean IFP of 6.5 at baseline and a standard deviation of 6.1. We would like to detect a 50% reduction of IFP (to 3.25 mmHg) with sunitinib monotherapy, so the effect size would be 3.25/6.1=0.53. A two-sided paired t-test has 80% power to detect an effect size of .53 and level of significance .05 when the sample size is 30 patients.||||0.0001
92266046|NCT00656669|184433614|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7963||||||a priori threshold of \<0.05|t-test, 2 sided|This is a paired t-test to compare baseline IFP to IFP after completion of paxlitaxel+sunitinib treatment||||||0.7963
92266047|NCT01241591|184433635|NON_INFERIORITY_OR_EQUIVALENCE|The a priori threshold for non-inferiority was -15% and a step-down approach was used to adjust for multiple comparisons. Non-inferiority of CP-690,550 5 mg to etanercept was concluded if the 95% lower confidence intervals (LCIs) of the difference for PGA and Psoriasis Area and Severity Index 75 (PASI75) responses at Week 12 were greater than -15%, and CP-690,550 10 mg was superior to placebo for PGA response and PASI75 at Week 12.|Mean Difference|-19.16|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-26.55|-11.76||||||Difference from Etanercept (Active-Etanercept)||-11.76|-26.55|
92266048|NCT01241591|184433635|SUPERIORITY_OR_OTHER||Mean Difference|32.16|STANDARD_ERROR_OF_MEAN|4.41|||TWO_SIDED|95.0|23.51|40.81||||||Difference from Placebo (Active-Placebo); the a priori threshold for superiority was 0 and a step-down approach was used to adjust for multiple comparisons. Superiority of CP-690,550 5 mg to placebo was concluded if the lower bounds of the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than 0, and non-inferiority of CP-690,550 5 mg was concluded to be non-inferior to etanercept.||40.81|23.51|
92266049|NCT01241591|184433635|NON_INFERIORITY_OR_EQUIVALENCE|The a priori threshold for non-inferiority was -15% and a step-down approach was used to adjust for multiple comparisons. Non-inferiority of CP-690,550 10 mg to etanercept was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than -15%.|Mean Difference|1.91|STANDARD_ERROR_OF_MEAN|3.64|||TWO_SIDED|95.0|-5.22|9.05||||||Difference from Etanercept (Active-Etanercept)||9.05|-5.22|
92287954|NCT00730691|184481609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.114||||0.641|TWO_SIDED|95.0|0.709|1.749|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||1.749|0.709|0.641
92287955|NCT00730691|184481609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.427||||0.124|TWO_SIDED|95.0|0.907|2.246|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||2.246|0.907|0.124
92287956|NCT00730691|184481610|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.346||0.064|TWO_SIDED|95.0|-5.15|0.14|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.14|-5.15|0.064
92287957|NCT00730691|184481610|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.26|STANDARD_ERROR_OF_MEAN|1.353||0.096|TWO_SIDED|95.0|-4.92|0.4|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.40|-4.92|0.096
92287958|NCT00730691|184481610|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.61|STANDARD_ERROR_OF_MEAN|1.397||0.25|TWO_SIDED|95.0|-4.36|1.14|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||1.14|-4.36|0.250
92287959|NCT00730691|184481610|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.54|STANDARD_ERROR_OF_MEAN|1.425||0.002|TWO_SIDED|95.0|-7.34|-1.73|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-1.73|-7.34|0.002
92287960|NCT01521780|184481641|SUPERIORITY_OR_OTHER||Within subject coefficient of variation|0.0803|||||ONE_SIDED|90.0||0.1163||||||||0.1163||
92287961|NCT01521780|184481642|SUPERIORITY_OR_OTHER||Within subject coefficient of variation|0.0555|||||ONE_SIDED|90.0||0.0733||||||||0.0733||
92287962|NCT01097577|184481646|SUPERIORITY|||||||0.18|||||||ANOVA|||This study was designed to determine if pregabalin is an effective regimen for postoperative pain control following PRK. We hypothesized that there will be at least a 10% improvement in pain after PRK using a scheduled pregabalin dosing regimen compared to placebo. A power analysis was completed to determine the number of patients necessary.||||0.180
92287963|NCT01097577|184481647|SUPERIORITY|||||||0.207|||||||ANOVA|||||||0.207
92287964|NCT01097577|184481648|SUPERIORITY|||||||0.283|||||||ANOVA|||||||0.283
92287965|NCT01097577|184481649|SUPERIORITY|Question 1: Pain at its worst||||||0.223|||||||ANOVA|||||||0.223
92287966|NCT01097577|184481650|SUPERIORITY|||||||0.311|||||||ANOVA|||||||0.311
92287967|NCT01097577|184481651|SUPERIORITY|||||||0.581|||||||t-test, 2 sided|||Days to Heal, OD||||0.581
92287968|NCT01097577|184481651|SUPERIORITY|||||||0.307|||||||t-test, 2 sided|||Days to Heal, OS||||0.307
92287969|NCT04870606|184481654|SUPERIORITY||Mean Difference (Final Values)|0.025||||0.0181|ONE_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0181
92287970|NCT04870606|184481655|SUPERIORITY||Mean Difference (Final Values)|0.025||||0.1223|ONE_SIDED||||||Chi-squared|||||||0.1223
92287971|NCT04870606|184481656|SUPERIORITY||Mean Difference (Final Values)|0.025||||0.0038|ONE_SIDED||||||t-test, 2 sided|||||||0.0038
92287972|NCT06298396|184481703|NON_INFERIORITY|A non-inferiority margin (NIM) of 10% was applied. In the sample size calculation, a 90% power to detect non-inferiority was used with a significance level α = 0.025 (one-tailed) was applied.|Mean Difference (Final Values)|-0.05|||||TWO_SIDED|95.0|-2.92|2.81|||||Treatment difference = LP1 - Default Non-inferiority demonstrated if the lower limit of the two-sided 95% confidence interval was above -10% (i.e. LP1 - Default \> -10%).|||2.81|-2.92|
92287973|NCT06298396|184481704|NON_INFERIORITY|A non-inferiority margin (NIM) of 1 dB was applied. In the sample size calculation, a 90% power to detect non-inferiority was used with a significance level α = 0.025 (one-tailed) was applied.|Mean Difference (Final Values)|-0.32|||||TWO_SIDED|95.0|-0.87|0.24|||||The non-inferiority margin is 1 dB. Non-inferiority is demonstrated if the upper limit of the two-sided 95% confidence interval is \< 1 dB.|||0.24|-0.87|
92287974|NCT06298396|184481705|NON_INFERIORITY|A non-inferiority margin (NIM) of 10% was applied. In the sample size calculation, a 90% power to detect non-inferiority was used with a significance level α = 0.025 (one-tailed) was applied.|Mean Difference (Final Values)|-0.45|||||TWO_SIDED|95.0|-0.55|0.75|||||Treatment difference = LP2 - LP1 Non-inferiority demonstrated if the lower limit of the two-sided 95% confidence interval was above -10% (i.e. LP2 - LP1 \> -10%).|||0.75|-0.55|
92287975|NCT06298396|184481706|NON_INFERIORITY|A non-inferiority margin (NIM) of 1 dB was applied. In the sample size calculation, a 90% power to detect non-inferiority was used with a significance level α = 0.025 (one-tailed) was applied.|Mean Difference (Final Values)|-0.23|||||TWO_SIDED|95.0|-0.55|0.75|||||Treatment difference = LP2 - LP1 Non-inferiority demonstrated if the lower limit of the two-sided 95% confidence interval was \< 1 dB (i.e. LP2- LP1 \< 1 dB)|||0.75|-0.55|
92287976|NCT06298396|184481707|NON_INFERIORITY|A non-inferiority margin (NIM) of 10% was applied. In the sample size calculation, a 90% power to detect non-inferiority was used with a significance level α = 0.025 (one-tailed) was applied.|Mean Difference (Final Values)|-1.6|||||TWO_SIDED|95.0|-5.15|1.95|||||||Treatment difference = LP3 - LP1 Non-inferiority demonstrated if the lower limit of the two-sided 95% confidence interval was \< 1 dB (i.e. LP3 - LP1 \< 1 dB)|1.95|-5.15|
92287977|NCT06298396|184481708|NON_INFERIORITY|non-inferiority margin (NIM) of 1 dB was applied. In the sample size calculation, a 90% power to detect non-inferiority was used with a significance level α = 0.025 (one-tailed) was applied.|Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-1.1|0.32|||||Treatment difference = LP3 - LP1 Non-inferiority demonstrated if the lower limit of the two-sided 95% confidence interval was \< 1 dB (i.e. LP3- LP1 \< 1 dB)|||0.32|-1.10|
92287978|NCT00836004|184481710|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|99.69||||||90.0|93.88|105.85|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.85|93.88|
92287979|NCT00836004|184481711|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|96.23||||||90.0|90.62|102.19|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.19|90.62|
92287980|NCT00836004|184481712|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|97.17||||||90.0|92.14|102.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.48|92.14|
92266050|NCT01241591|184433635|SUPERIORITY_OR_OTHER||Mean Difference|53.23|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|44.81|61.65||||||Difference from Placebo (Active-Placebo); the a priori threshold for superiority was 0 and a step-down approach was used to adjust for multiple comparisons. Superiority of CP-690,550 10 mg to placebo was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than 0, and non-inferiority of CP-690,550 10 mg was concluded to be non-inferior to etanercept.||61.65|44.81|
92266051|NCT01241591|184433636|NON_INFERIORITY_OR_EQUIVALENCE|The a priori threshold for non-inferiority was -15% and a step-down approach was used to adjust for multiple comparisons. Non-inferiority of CP-690,550 5 mg to etanercept was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than -15%, and CP-690,550 10 mg was superior to placebo for PGA and PASI75 response at Week 12.|Mean Difference|-19.29|STANDARD_ERROR_OF_MEAN|3.81|||TWO_SIDED|95.0|-26.75|-11.83||||||Difference from Etanercept (Active-Etanercept)||-11.83|-26.75|
92266052|NCT01241591|184433636|SUPERIORITY_OR_OTHER||Mean Difference|33.91|STANDARD_ERROR_OF_MEAN|3.49|||TWO_SIDED|95.0|27.06|40.76||||||Difference from Placebo (Active-Placebo); the a priori threshold for superiority was 0 and a step-down approach was used to adjust for multiple comparisons. Superiority of CP-690,550 5 mg to placebo was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than 0, and non-inferiority of CP-690,550 5 mg was concluded to be non-inferior to etanercept.||40.76|27.06|
92266053|NCT01241591|184433636|NON_INFERIORITY_OR_EQUIVALENCE|The a priori threshold for non-inferiority was -15% and a step-down approach was used to adjust for multiple comparisons. Non-inferiority of CP-690,550 10 mg to etanercept was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than -15%.|Mean Difference|4.83|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-2.57|12.23||||||Difference from Etanercept (Active-Etanercept)||12.23|-2.57|
92266054|NCT01241591|184433636|SUPERIORITY_OR_OTHER||Mean Difference|58.03|STANDARD_ERROR_OF_MEAN|3.46|||TWO_SIDED|95.0|51.25|64.81||||||Difference from Placebo (Active-Placebo); the a priori threshold for superiority was 0 and a step-down approach was used to adjust for multiple comparisons. Superiority of CP-690,550 10 mg to placebo was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than 0, and non-inferiority of CP-690,550 10 mg was concluded to be non-inferior to etanercept.||64.81|51.25|
92266055|NCT01945034|184433681|SUPERIORITY_OR_OTHER||LS Mean Difference|23.0||||0.19|TWO_SIDED|95.0|-11.49|57.56||p-value \<=0.05 for treatment effects|ANOVA|||The analysis of variance (ANOVA) model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||57.56|-11.49|0.190
92266056|NCT01945034|184433681|SUPERIORITY_OR_OTHER||LS Mean Difference|7.8||||0.633|TWO_SIDED|95.0|-24.2|39.7||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||39.70|-24.20|0.633
92266057|NCT01945034|184433681|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.3||||0.436|TWO_SIDED|95.0|-53.87|23.3||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity on weight bearing terms.||23.30|-53.87|0.436
92266058|NCT01945034|184433682|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|4.8||||0.426|TWO_SIDED|95.0|-6.98|16.49||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating (BLPSR), pooled site blocks, and baseline pain intensity on weight bearing (BLPIWB) terms. 95% CI not includes 0 for treatment effect. Upper limit of 95% CI\< 0 for Ibuprofen treatment significantly better than combined Placebo. Comparison: tested at the 0.05 level of significance (2-sided). A comparison was eligible for being declared significant only if preceding comparison was significant.||16.49|-6.98|0.426
92266059|NCT01945034|184433682|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0||||0.85|TWO_SIDED|95.0|-11.9|9.82||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, BLPSR, pooled site blocks, and BLPIWB terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo. Comparison: tested at the 0.05 level of significance (2-sided). A comparison was eligible for being declared significant only if preceding comparison was significant.||9.82|-11.90|0.850
92266060|NCT01945034|184433682|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.8||||0.385|TWO_SIDED|95.0|-18.91|7.32||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, BLPSR, pooled site blocks, and BLPIWB terms. A comparison was eligible for being declared significant only if preceding comparison was significant.||7.32|-18.91|0.385
92266061|NCT01945034|184433683|SUPERIORITY_OR_OTHER||LS Mean Difference|10.0||||0.072|TWO_SIDED|95.0|-0.92|20.91||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||20.91|-0.92|0.072
92266062|NCT01945034|184433683|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3||||0.296|TWO_SIDED|95.0|-15.4|4.7||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||4.70|-15.40|0.296
92266063|NCT01945034|184433683|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.3||||0.014|TWO_SIDED|95.0|-27.53|-3.16||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity at rest terms.||-3.16|-27.53|0.014
92266064|NCT01945034|184433684|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.305|TWO_SIDED|95.0|-0.1|0.3||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo||0.30|-0.10|0.305
92266065|NCT01945034|184433684|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.261|TWO_SIDED|95.0|-0.08|0.29||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.29|-0.08|0.261
92266066|NCT01945034|184433684|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.996|TWO_SIDED|95.0|-0.22|0.22||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms.||0.22|-0.22|0.996
92266067|NCT01945034|184433684|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.21|TWO_SIDED|95.0|-0.08|0.36||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.36|-0.08|0.210
92266068|NCT01945034|184433684|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.556|TWO_SIDED|95.0|-0.14|0.27||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.27|-0.14|0.556
92266069|NCT01945034|184433684|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.534|TWO_SIDED|95.0|-0.33|0.17||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms.||0.17|-0.33|0.534
92266070|NCT01945034|184433685|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.354|TWO_SIDED|95.0|-0.27|0.1||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline physician global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.10|-0.27|0.354
92266071|NCT01945034|184433685|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.237|TWO_SIDED|95.0|-0.28|0.07||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.07|-0.28|0.237
92266072|NCT01945034|184433685|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.871|TWO_SIDED|95.0|-0.23|0.19||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline physician global assessment terms.||0.19|-0.23|0.871
92266073|NCT01945034|184433685|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.05|TWO_SIDED|95.0|-0.43|0.0||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline physician global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||-0.00|-0.43|0.050
92266074|NCT01945034|184433685|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.64|TWO_SIDED|95.0|-0.25|0.15||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline physician global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.15|-0.25|0.640
92266075|NCT01945034|184433685|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.18|TWO_SIDED|95.0|-0.08|0.41||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline physician global assessment terms.||0.41|-0.08|0.180
92287981|NCT02718963|184481716|OTHER||Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare the Videofluoroscopic swallowing study(VFSS) kinematic variables, VDS, PAS, and high resolution manometry (HRM) variables between the neuromuscular electrical stimulation session and the control session in swallowing thin fluid and thick fluid for healthy, dysphagic and whole participants. Mann-Whitney test was used to compare the differences of VFSS variables, VDS, PAS, and HRM variables between the healthy participants and dysphagic participants.||||< 0.05
92287982|NCT00836472|184481721|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.41||||||90.0|88.43|105.1|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.10|88.43|
92287983|NCT00836472|184481722|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.78||||||90.0|95.14|102.57|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.57|95.14|
92287984|NCT00836472|184481723|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.52||||||90.0|94.44|102.78|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.78|94.44|
92287985|NCT00836472|184481724|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|94.08||||||90.0|89.6|98.77|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.77|89.60|
92287986|NCT00836472|184481725|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.33||||||90.0|92.6|100.21|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.21|92.60|
92287987|NCT00836472|184481726|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.01||||||90.0|92.18|100.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.00|92.18|
92287988|NCT01695239|184481727|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92287989|NCT01695239|184481727|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92287990|NCT01695239|184481727|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92287991|NCT03913377|184481761|EQUIVALENCE|A statistically significant difference in NIBUT/NIKBUT between Test lens and Spectacles was concluded if the upper confidence limit of the 95% CI is below zero or the lower limit is above zero.|LS Mean Difference|-2.79|STANDARD_ERROR_OF_MEAN|0.678|||TWO_SIDED|95.0|-4.14|-1.44|||Mixed Model Analysis|Kenward and Roger method was used for denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control|The null and alternative hypotheses for testing significant difference between Test lens and Spectacles among habitual lens users with respect to NIBUT/NIKBUT.||-1.44|-4.14|
92287992|NCT03913377|184481762|OTHER|Estimated 95% confidence intervals for the point estimates of Test and Control|Mean Proportion|85.59|STANDARD_ERROR_OF_MEAN|1.038|||TWO_SIDED|95.0|43.2|97.89|||Mixed Model Analysis|||Point estimates for Test and Control with 95% confidence intervals||97.89|43.2|
92287993|NCT03913377|184481762|OTHER|Estimated 95% confidence intervals for the point estimates of Test and Control|Mean Proportion|84.17|STANDARD_ERROR_OF_MEAN|0.871|||TWO_SIDED|95.0|48.67|96.75|||Mixed Model Analysis|||Point estimates for Test and Control with 95% confidence intervals||96.75|48.67|
92287994|NCT03913377|184481763|OTHER|Estimated 95% confidence intervals for the point estimates of test.|Mean|0.52|STANDARD_ERROR_OF_MEAN|0.053|||TWO_SIDED|95.0|0.4|0.65|||Mixed Model Analysis|Kenward and Rogers Metod was used for degrees of freedom|||Point estimate was calculated for Test.|0.65|0.40|
92287995|NCT03913377|184481763|OTHER|Estimated 95% confidence intervals for the point estimates of Control.|Mean|0.13|STANDARD_ERROR_OF_MEAN|0.036|||TWO_SIDED|95.0|-0.19|0.44|||Mixed Model Analysis|Kenward and Rogers Metod was used for degrees of freedom|||Point estimates were calculated for Control.|0.44|-0.19|
92287996|NCT03913377|184481764|OTHER|Estimated 95% confidence intervals for the point estimates of Test.|Mean Proportion|30.7|STANDARD_ERROR_OF_MEAN|19.87|||TWO_SIDED|95.0|6.5|73.8|||Mixed Model Analysis||Point estimates were calculated for Test|||73.8|6.5|
92287997|NCT03913377|184481764|OTHER|Estimated 95% confidence intervals for the point estimates of Control.|Mean Proportion|27.9|STANDARD_ERROR_OF_MEAN|18.17|||TWO_SIDED|95.0|6.1|69.8|||Mixed Model Analysis||Point estimates were calculated for Control.|||69.8|6.1|
92287998|NCT03246503|184481805|OTHER||Pearson correlation coefficient|0.82|||<|0.001|TWO_SIDED|95.0|0.77|0.87||statistical significance of Pearson correlation coefficient|Pearson correlation coefficient||Bootstrapping with 1000 replications was used to estimate 95% confidence intervals.|Bootstrapping with 1000 replications was used to estimate 95% confidence intervals.||.87|0.77|<.001
92287999|NCT03246503|184481806|OTHER|t-statistic from regression analysis|intercept of regression line|4.13|||<|0.001|TWO_SIDED|95.0|3.35|4.91|||Regression, Linear|||||4.91|3.35|<.001
92288000|NCT03246503|184481807|OTHER|t-statistic from regression analysis|Slope|0.68|||<|0.001|TWO_SIDED|95.0|0.6|0.76|||Regression, Linear|||||0.76|0.60|<.001
92288001|NCT02294786|184481880|SUPERIORITY||Difference in Percentages|-4.8||||0.775|TWO_SIDED|95.0|-29.2|20.0|||Chi-squared|||Cycle 1-3 (up to 9 weeks)||20.0|-29.2|0.775
92288002|NCT04813354|184481914|SUPERIORITY||Odds Ratio (OR)|0.11|||<|0.001|TWO_SIDED|95.0|0.01|0.4|||Exact conditional logistic regression||Odds ratio between ELLIPTA DPI and BREEZHALER DPI was calculated using an exact conditional logistic regression model with participant as fixed strata, inhaler and period as fixed effects.|||0.40|0.01|<0.001
92288003|NCT04813354|184481916|OTHER||Odds Ratio (OR)|0.25||||0.005|TWO_SIDED|95.0|0.03|0.74|||Exact conditional logistic regression||Odds ratio between ELLIPTA DPI and BREEZHALER DPI was calculated using an exact conditional logistic regression model with participant as fixed strata, inhaler and period as fixed effects.|||0.74|0.03|0.005
92288004|NCT04813354|184481925|OTHER||Mean Difference (Final Values)|27.63|||<|0.001|TWO_SIDED|95.0|21.31|33.96|||Paired samples t-test|||||33.96|21.31|<0.001
92288005|NCT00318461|184481936|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 1.8 mg+metformin was superior to placebo + metformin.~Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%."|Estimated treatment difference, LS Mean|-1.09|||<|0.0001||95.0|-1.3|-0.88|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.88|-1.30|<0.0001
92288006|NCT00318461|184481936|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 1.8 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 1.8 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|-0.02|||<|0.0001||95.0|-0.19|0.15|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.15|-0.19|<0.0001
92288007|NCT00318461|184481936|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 1.2 mg+metformin was superior to placebo + metformin. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-1.06|||<|0.0001||95.0|-1.27|-0.85|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.85|-1.27|<0.0001
92288008|NCT00318461|184481936|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 1.2 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 1.2 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|0.01|||<|0.0001||95.0|-0.16|0.18|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.18|-0.16|<0.0001
92288009|NCT00318461|184481936|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 0.6 mg+metformin was superior to placebo + metformin. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-0.78|||<|0.0001||95.0|-0.99|-0.57|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.57|-0.99|<0.0001
92288010|NCT00318461|184481936|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 0.6 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 0.6 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|0.29||||0.1026||95.0|0.12|0.46|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.46|0.12|0.1026
92288011|NCT00318461|184481936|NON_INFERIORITY_OR_EQUIVALENCE|A test for superiority of glimepiride+metformin to metformin was performed to verify assay sensitivity. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-1.07|||<|0.0001||95.0|-1.28|-0.86|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.86|-1.28|<0.0001
92288012|NCT00318461|184481937|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.29||||0.0016||95.0|-2.16|-0.41|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-0.41|-2.16|0.0016
92288013|NCT00318461|184481937|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-3.75|||<|0.0001||95.0|-4.48|-3.01|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-3.01|-4.48|<0.0001
92288014|NCT00318461|184481937|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.07||||0.0117||95.0|-1.94|-0.19|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-0.19|-1.94|0.0117
92288015|NCT00318461|184481937|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-3.53|||<|0.0001||95.0|-4.27|-2.79|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.79|-4.27|<0.0001
92288016|NCT00318461|184481937|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.28||||0.8198||95.0|-1.15|0.6|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||0.60|-1.15|0.8198
92288017|NCT00318461|184481937|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-2.73|||<|0.0001||95.0|-3.47|-2.0|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.00|-3.47|<0.0001
92266076|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.771|TWO_SIDED|95.0|-0.38|0.51|||ANOVA|||At Rest 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.51|-0.38|0.771
92266077|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.022|TWO_SIDED|95.0|-0.88|-0.07|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||-0.07|-0.88|0.022
92266078|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.032|TWO_SIDED|95.0|-1.03|-0.05|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.05|-1.03|0.032
92266079|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.72|TWO_SIDED|95.0|-0.38|0.55|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.55|-0.38|0.720
92288018|NCT00318461|184481938|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.11||||0.0378||95.0|-2.18|-0.05|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-0.05|-2.18|0.0378
92288019|NCT00318461|184481938|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-3.61|||<|0.0001||95.0|-4.51|-2.72|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.72|-4.51|<0.0001
92288020|NCT00318461|184481938|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.23||||0.0185||95.0|-2.3|-0.16|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-0.16|-2.30|0.0185
92288021|NCT00318461|184481938|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-3.73|||<|0.0001||95.0|-4.64|-2.83|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.83|-4.64|<0.0001
92288022|NCT00318461|184481938|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.27||||0.9069||95.0|-1.33|0.8|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||0.80|-1.33|0.9069
92288023|NCT00318461|184481938|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-2.77|||<|0.0001||95.0|-3.67|-1.87|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-1.87|-3.67|<0.0001
92288024|NCT00318461|184481939|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-2.09|||<|0.0001||95.0|-2.68|-1.5|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-1.50|-2.68|<0.0001
92288025|NCT00318461|184481939|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.38||||0.1845||95.0|-0.87|0.11|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||0.11|-0.87|0.1845
92288026|NCT00318461|184481939|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-2.04|||<|0.0001||95.0|-2.63|-1.44|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-1.44|-2.63|<0.0001
92288027|NCT00318461|184481939|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.33||||0.3047||95.0|-0.82|0.17|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose t as covariate.||0.17|-0.82|0.3047
92183882|NCT01852045|184266039|SUPERIORITY||Least Squares Mean Difference|2.18|STANDARD_ERROR_OF_MEAN|10.181||0.8313|TWO_SIDED|95.0|-18.427|22.795|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||22.795|-18.427|0.8313
92288028|NCT00318461|184481939|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.53|||<|0.0001||95.0|-2.12|-0.94|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-0.94|-2.12|<0.0001
92288029|NCT00318461|184481939|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.18||||0.8079||95.0|-0.32|0.67|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||0.67|-0.32|0.8079
92288030|NCT00318461|184481940|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.93|||<|0.0001||95.0|-2.58|-1.28|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-1.28|-2.58|<0.0001
92288031|NCT00318461|184481940|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.53||||0.0542||95.0|-1.08|0.01|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||0.01|-1.08|0.0542
92288032|NCT00318461|184481940|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.95|||<|0.0001||95.0|-2.6|-1.3|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-1.30|-2.60|<0.0001
92288033|NCT00318461|184481940|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.55||||0.0451||95.0|-1.1|-0.01|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose t as covariate.||-0.01|-1.10|0.0451
92288034|NCT00318461|184481940|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.55|||<|0.0001||95.0|-2.2|-0.9|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-0.90|-2.20|<0.0001
92288035|NCT00318461|184481940|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.15||||0.9006||95.0|-0.7|0.39|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||0.39|-0.70|0.9006
92288036|NCT00318461|184481941|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.13||||0.8871||95.0|-0.62|0.36|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.36|-0.62|0.8871
92288037|NCT00318461|184481941|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.12||||0.8695||95.0|-0.51|0.27|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.27|-0.51|0.8695
92183883|NCT01852045|184266040|SUPERIORITY||Least Squares Mean Difference|-7.21|STANDARD_ERROR_OF_MEAN|5.253||0.1737|TWO_SIDED|95.0|-17.653|3.238|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||3.238|-17.653|0.1737
92288038|NCT00318461|184481941|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.03||||0.9994||95.0|-0.46|0.52|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.52|-0.46|0.9994
92288039|NCT00318461|184481941|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.04||||0.9984||95.0|-0.35|0.43|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.43|-0.35|0.9984
92288040|NCT00318461|184481941|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.21||||0.6201||95.0|-0.28|0.7|||ANCOVA|||Change in mean prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.70|-0.28|0.6201
92288041|NCT00318461|184481941|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.21||||0.4831||95.0|-0.18|0.6|||ANCOVA|||Change in mean prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.60|-0.18|0.4831
92288042|NCT00318461|184481942|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 1.8 mg+metformin was superior to placebo + metformin. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-0.83|||<|0.0001||95.0|-1.07|-0.59|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.59|-1.07|<0.0001
92288043|NCT00318461|184481942|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 1.8 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 1.8 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|-0.08|||<|0.0001||95.0|-0.28|0.12|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.12|-0.28|<0.0001
92288044|NCT00318461|184481942|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 1.2 mg+metformin was superior to placebo + metformin. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-0.81|||<|0.0001||95.0|-1.05|-0.57|||ANCOVA|||Change in HbA1c from baseline to end of treatment was at 104 weeks analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.57|-1.05|<0.0001
92288045|NCT00318461|184481942|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 1.2 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 1.2 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|-0.07|||<|0.0001||95.0|-0.27|0.13|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.13|-0.27|<0.0001
92288046|NCT00318461|184481942|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 0.6 mg+metformin was superior to placebo + metformin.~Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%."|Estimated treatment difference, LS Mean|-0.61|||<|0.0001||95.0|-0.85|-0.37|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.37|-0.85|<0.0001
92288047|NCT00318461|184481942|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 0.6 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 0.6 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|0.14||||0.0052||95.0|-0.06|0.34|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.34|-0.06|0.0052
92288048|NCT00318461|184481942|NON_INFERIORITY_OR_EQUIVALENCE|A test for superiority of glimepiride+metformin to placebo metformin was performed to verify assay sensitivity. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-0.75|||<|0.0001||95.0|-0.99|-0.51|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.51|-0.99|<0.0001
92288049|NCT00318461|184481943|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.24||||0.5282||95.0|-0.74|0.26|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.26|-0.74|0.5282
92288050|NCT00318461|184481943|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.15||||0.7644||95.0|-0.55|0.25|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.25|-0.55|0.7644
92288051|NCT00318461|184481943|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.36||||0.2063||95.0|-0.86|0.14|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.14|-0.86|0.2063
92288052|NCT00318461|184481943|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.28||||0.2678||95.0|-0.68|0.12|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.12|-0.68|0.2678
92288053|NCT00318461|184481943|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.07||||0.9887||95.0|-0.57|0.43|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.43|-0.57|0.9887
92288054|NCT00318461|184481943|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.02||||0.9998||95.0|-0.38|0.42|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.42|-0.38|0.9998
92288055|NCT00318461|184481944|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.95|||<|0.0001||95.0|-2.6|-1.3|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-1.30|-2.60|<0.0001
92288056|NCT00318461|184481944|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.11||||0.967||95.0|-0.62|0.41|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.41|-0.62|0.9670
92288057|NCT00318461|184481944|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.72|||<|0.0001||95.0|-2.36|-1.07|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-1.07|-2.36|<0.0001
92183884|NCT01852045|184266040|SUPERIORITY||Least Squares Mean Difference|-14.43|STANDARD_ERROR_OF_MEAN|5.85||0.0157|TWO_SIDED|95.0|-26.061|-2.793|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||-2.793|-26.061|0.0157
92288058|NCT00318461|184481944|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.13||||0.9368||95.0|-0.39|0.64|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.64|-0.39|0.9368
92183885|NCT00240994|184266050|SUPERIORITY_OR_OTHER||Proportion with graft loss or death|0.057|||||TWO_SIDED|95.0|0.007|0.192|||95% Confidence Interval|95% CI using an exact binomial method||The proportion of participants with graft loss or death within 12 months post kidney transplantation is descriptively summarized with a 95% confidence interval using an exact binomial method.||0.192|0.007|
92183886|NCT01482091|184266091|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||||||0.048
92183887|NCT01482091|184266093|SUPERIORITY_OR_OTHER||||||=|0.05|||||||Fisher Exact|||||||=0.05
92183888|NCT01482091|184266094|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92183889|NCT01482091|184266097|SUPERIORITY_OR_OTHER||||||=|0.68|||||||t-test, 2 sided|||||||=0.68
92266080|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.194|TWO_SIDED|95.0|-0.71|0.15|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.15|-0.71|0.194
92266081|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.163|TWO_SIDED|95.0|-0.89|0.15|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.15|-0.89|0.163
92266082|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.644|TWO_SIDED|95.0|-0.4|0.64|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.64|-0.40|0.644
92266083|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.129|TWO_SIDED|95.0|-0.85|0.11|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.11|-0.85|0.129
92266084|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.096|TWO_SIDED|95.0|-1.07|0.09|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.09|-1.07|0.096
92266085|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.905|TWO_SIDED|95.0|-0.5|0.57|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.57|-0.50|0.905
92266086|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.279|TWO_SIDED|95.0|-0.77|0.22|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.22|-0.77|0.279
92266087|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.315|TWO_SIDED|95.0|-0.9|0.29|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.29|-0.90|0.315
92266088|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.203|TWO_SIDED|95.0|-0.19|0.91|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.91|-0.19|0.203
92266089|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.207|TWO_SIDED|95.0|-0.83|0.18|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.18|-0.83|0.207
92266090|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.03|TWO_SIDED|95.0|-1.3|-0.07|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.07|-1.30|0.030
92266091|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.372|TWO_SIDED|95.0|-0.32|0.84|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.84|-0.32|0.372
92266092|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.532|TWO_SIDED|95.0|-0.7|0.36|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.36|-0.70|0.532
92288059|NCT00318461|184481944|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.06||||0.0003||95.0|-1.71|-0.42|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-0.42|-1.71|0.0003
92288060|NCT00318461|184481944|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.78||||0.0008||95.0|0.27|1.29|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||1.29|0.27|0.0008
92288061|NCT00318461|184481945|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.66|||<|0.0001||95.0|-2.37|-0.96|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-0.96|-2.37|<0.0001
92288062|NCT00318461|184481945|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.3||||0.5048||95.0|-0.86|0.26|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.26|-0.86|0.5048
92288063|NCT00318461|184481945|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.79|||<|0.0001||95.0|-2.49|-1.08|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-1.08|-2.49|<0.0001
92288064|NCT00318461|184481945|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.42||||0.2005||95.0|-0.98|0.14|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.14|-0.98|0.2005
92288065|NCT00318461|184481945|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.16||||0.0003||95.0|-1.86|-0.46|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-0.46|-1.86|0.0003
92288066|NCT00318461|184481945|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.21||||0.7871||95.0|-0.35|0.76|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.76|-0.35|0.7871
92288067|NCT00318461|184481946|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|27.75||||0.0031||95.0|7.83|47.67|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||47.67|7.83|0.0031
92288068|NCT00318461|184481946|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|1.44||||0.9987||95.0|-15.03|17.9|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||17.90|-15.03|0.9987
92183890|NCT01482091|184266098|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92183891|NCT01482091|184266099|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92288069|NCT00318461|184481946|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|21.96||||0.0263||95.0|2.04|41.87|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||41.87|2.04|0.0263
92288070|NCT00318461|184481946|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-4.36||||0.9227||95.0|-20.94|12.22|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||12.22|-20.94|0.9227
92288071|NCT00318461|184481946|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|22.08||||0.0253||95.0|2.15|42.01|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||42.01|2.15|0.0253
92288072|NCT00318461|184481946|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-4.23||||0.9293||95.0|-20.78|12.31|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||12.31|-20.78|0.9293
92288073|NCT00318461|184481947|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|25.71||||0.8821||95.0|-69.84|121.26|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||121.26|-69.84|0.8821
92288074|NCT00318461|184481947|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|6.56||||0.9989||95.0|-72.66|85.79|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||85.79|-72.66|0.9989
92288075|NCT00318461|184481947|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|35.2||||0.7292||95.0|-60.33|130.72|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||130.72|-60.33|0.7292
92288076|NCT00318461|184481947|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|16.05||||0.9689||95.0|-63.69|95.79|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||95.79|-63.69|0.9689
92288077|NCT00318461|184481947|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|72.38||||0.1818||95.0|-23.15|167.9|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||167.90|-23.15|0.1818
92288078|NCT00318461|184481947|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|53.23||||0.2978||95.0|-26.3|132.76|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||132.76|-26.30|0.2978
92183892|NCT01482091|184266103|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||||||>0.05
92183893|NCT01640288|184266104|OTHER|t-test|Mean Difference (Final Values)|-0.145|STANDARD_ERROR_OF_MEAN|0.0349|<|0.0001|TWO_SIDED|||||Not adjusted for multiple comparisons|t-test, 2 sided|||||||<0.0001
92288079|NCT00796653|184481954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.091|0.167|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.167|0.091|<0.0001
92288080|NCT00796653|184481954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.116|0.191|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.191|0.116|<0.0001
92288081|NCT00796653|184481954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.112|0.188|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.188|0.112|<0.0001
92288082|NCT00796653|184481955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.019||0.0055||95.0|0.015|0.09|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.090|0.015|0.0055
92288083|NCT00796653|184481955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.019||0.0003||95.0|0.032|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.106|0.032|0.0003
92288084|NCT00796653|184481955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.019||0.027||95.0|0.005|0.08|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.080|0.005|0.0270
92288085|NCT00796653|184481956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.402|STANDARD_ERROR_OF_MEAN|0.314||0.1999||95.0|-0.213|1.018|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.018|-0.213|0.1999
92288086|NCT00796653|184481956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.419|STANDARD_ERROR_OF_MEAN|0.314||0.1818||95.0|-0.196|1.035|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.035|-0.196|0.1818
92288087|NCT00796653|184481956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.602|STANDARD_ERROR_OF_MEAN|0.316||0.0572||95.0|-0.019|1.222|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.222|-0.019|0.0572
92288088|NCT00796653|184481957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.15|STANDARD_ERROR_OF_MEAN|1.349||0.0197||95.0|-5.796|-0.503|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.503|-5.796|0.0197
92288089|NCT00796653|184481957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.524|STANDARD_ERROR_OF_MEAN|1.354||0.0094||95.0|-6.18|-0.867|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.867|-6.180|0.0094
92288090|NCT00796653|184481957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.416|STANDARD_ERROR_OF_MEAN|1.365||0.2995||95.0|-4.093|1.261|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.261|-4.093|0.2995
92288091|NCT00796653|184481958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.352|STANDARD_ERROR_OF_MEAN|1.385||0.7995||95.0|-3.068|2.365|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||2.365|-3.068|0.7995
92288092|NCT00796653|184481958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|1.391||0.4336||95.0|-3.818|1.639|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.639|-3.818|0.4336
92288093|NCT00796653|184481958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|1.395||0.9365||95.0|-2.625|2.848|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||2.848|-2.625|0.9365
92288094|NCT00796653|184481959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.625|STANDARD_ERROR_OF_MEAN|1.333||0.0491||95.0|-5.241|-0.01|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.010|-5.241|0.0491
92288095|NCT00796653|184481959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.489|STANDARD_ERROR_OF_MEAN|1.341||0.0636||95.0|-5.119|0.141|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.141|-5.119|0.0636
92288096|NCT00796653|184481959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.158|STANDARD_ERROR_OF_MEAN|1.35||0.0194||95.0|-5.806|-0.511|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||-0.511|-5.806|0.0194
92288097|NCT00796653|184481960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.846|STANDARD_ERROR_OF_MEAN|0.972||0.0034|TWO_SIDED|95.0|-4.751|-0.94|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect||Olo 5 mcg minus placebo||-0.940|-4.751|0.0034
92183894|NCT01640288|184266105|OTHER|t-test|Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92288098|NCT00796653|184481960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.434|STANDARD_ERROR_OF_MEAN|0.973||0.0004|TWO_SIDED|95.0|-5.343|-1.525|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect||Olo 10 mcg minus placebo||-1.525|-5.343|0.0004
92288099|NCT00796653|184481960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.248|STANDARD_ERROR_OF_MEAN|0.976||0.2009|TWO_SIDED|95.0|-3.161|0.665|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect||Form 12 mcg minus placebo||0.665|-3.161|0.2009
92288100|NCT00796653|184481961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.123|0.196|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.196|0.123|<0.0001
92288101|NCT00796653|184481961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.193|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.157|0.229|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.229|0.157|<0.0001
92288102|NCT00796653|184481961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.126|0.199|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.199|0.126|<0.0001
92288103|NCT00796653|184481962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.136|0.209|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.209|0.136|<0.0001
92183895|NCT03775915|184266107|OTHER||||||>|0.05||||||p-value calculated for interaction between group and day|Linear Mixed Model|Linear mixed effects model adjusted for baseline, F(2,46) = 1.061, p \>0.05||||||>0.05
92266093|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.189|TWO_SIDED|95.0|-1.08|0.21|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.21|-1.08|0.189
92266094|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.264|TWO_SIDED|95.0|-0.24|0.87|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 4 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.87|-0.24|0.264
92266095|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.26|TWO_SIDED|95.0|-0.81|0.22|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 4 hour Day 1:The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.22|-0.81|0.260
92288104|NCT00796653|184481962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.155|0.228|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.228|0.155|<0.0001
92288105|NCT00796653|184481962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.148|0.221|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.221|0.148|<0.0001
92288106|NCT00796653|184481963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.108|0.182|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.182|0.108|<0.0001
92288107|NCT00796653|184481963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.138|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.212|0.138|<0.0001
92288108|NCT00796653|184481963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.133|0.208|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.208|0.133|<0.0001
92288109|NCT00796653|184481964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.08|0.156|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.156|0.080|<0.0001
92183896|NCT03775915|184266108|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92288110|NCT00796653|184481964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.103|0.18|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.180|0.103|<0.0001
92288111|NCT00796653|184481964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.091|0.168|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.168|0.091|<0.0001
92266096|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.054|TWO_SIDED|95.0|-1.23|0.01|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 4 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.01|-1.23|0.054
92266097|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.456|TWO_SIDED|95.0|-0.37|0.81|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 4 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.81|-0.37|0.456
92266098|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.639|TWO_SIDED|95.0|-0.42|0.68|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 4 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.68|-0.42|0.639
92266099|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.78|TWO_SIDED|95.0|-0.75|0.57|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 4 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.57|-0.75|0.780
92266100|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.071|TWO_SIDED|95.0|-0.04|1.07|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.07|-0.04|0.071
92266101|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.468|TWO_SIDED|95.0|-0.7|0.32|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.32|-0.70|0.468
92266102|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.027|TWO_SIDED|95.0|-1.33|-0.08|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.08|-1.33|0.027
92266103|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.107|TWO_SIDED|95.0|-0.11|1.09|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.09|-0.11|0.107
92266104|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.947|TWO_SIDED|95.0|-0.57|0.53|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.53|-0.57|0.947
92266105|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.134|TWO_SIDED|95.0|-1.18|0.16|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.16|-1.18|0.134
92266106|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.017|TWO_SIDED|95.0|0.12|1.23|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.23|0.12|0.017
92266107|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.715|TWO_SIDED|95.0|-0.6|0.41|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.41|-0.60|0.715
92266108|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.015|TWO_SIDED|95.0|-1.39|-0.15|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.15|-1.39|0.015
92266109|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.027|TWO_SIDED|95.0|0.07|1.23|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.23|0.07|0.027
92266110|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.66|TWO_SIDED|95.0|-0.42|0.65|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.65|-0.42|0.660
92266111|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.107|TWO_SIDED|95.0|-1.18|0.11|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.11|-1.18|0.107
92266112|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.02|TWO_SIDED|95.0|0.1|1.13|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.13|0.10|0.020
92288112|NCT00796653|184481965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.018||0.0002||95.0|0.033|0.105|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.105|0.033|0.0002
92288113|NCT00796653|184481965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.083|0.155|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.155|0.083|<0.0001
92288114|NCT00796653|184481965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.049|STANDARD_ERROR_OF_MEAN|0.018||0.0071||95.0|0.013|0.085|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.085|0.013|0.0071
92288115|NCT00796653|184481966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.048|0.12|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.120|0.048|<0.0001
92288116|NCT00796653|184481966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.068|0.141|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.141|0.068|<0.0001
92288117|NCT00796653|184481966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.018||0.0001||95.0|0.034|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.106|0.034|0.0001
92288118|NCT00796653|184481967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.019||0.0017||95.0|0.022|0.095|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.095|0.022|0.0017
92288119|NCT00796653|184481967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.057|0.13|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.130|0.057|<0.0001
92288120|NCT00796653|184481967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.019||0.0005||95.0|0.028|0.101|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.101|0.028|0.0005
92288121|NCT00796653|184481968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.019||0.0085||95.0|0.013|0.087|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.087|0.013|0.0085
92288122|NCT00796653|184481968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.049|0.122|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.122|0.049|<0.0001
92288123|NCT00796653|184481968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051|STANDARD_ERROR_OF_MEAN|0.019||0.0067||95.0|0.014|0.088|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.088|0.014|0.0067
92288124|NCT00796653|184481969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.019||0.0012||95.0|0.025|0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.100|0.025|0.0012
92288125|NCT00796653|184481969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.019||0.0002||95.0|0.035|0.11|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.110|0.035|0.0002
92288126|NCT00796653|184481969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.019||0.0117||95.0|0.011|0.086|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.086|0.011|0.0117
92288127|NCT00796653|184481970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.019||0.0014||95.0|0.024|0.099|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.099|0.024|0.0014
92288128|NCT00796653|184481970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.047|0.122|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.122|0.047|<0.0001
92288129|NCT00796653|184481970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.019||0.0035||95.0|0.019|0.094|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.094|0.019|0.0035
92288130|NCT00796653|184481971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.019||0.0228||95.0|0.006|0.082|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.082|0.006|0.0228
92288131|NCT00796653|184481971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.019||0.0024||95.0|0.021|0.097|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.097|0.021|0.0024
92288132|NCT00796653|184481971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036|STANDARD_ERROR_OF_MEAN|0.019||0.0664||95.0|-0.002|0.074|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.074|-0.002|0.0664
92288133|NCT00796653|184481972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.122|0.199|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.199|0.122|<0.0001
92288134|NCT00796653|184481972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.14|0.216|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.216|0.140|<0.0001
92288135|NCT00796653|184481972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.153|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.115|0.191|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.191|0.115|<0.0001
92288136|NCT00796653|184481973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.168|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.13|0.207|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.207|0.130|<0.0001
92288137|NCT00796653|184481973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.143|0.22|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.220|0.143|<0.0001
92288138|NCT00796653|184481973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.137|0.214|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.214|0.137|<0.0001
92288139|NCT00796653|184481974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.103|0.18|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.180|0.103|<0.0001
92288140|NCT00796653|184481974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.168|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.129|0.207|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.207|0.129|<0.0001
92288141|NCT00796653|184481974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.125|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.203|0.125|<0.0001
92288142|NCT00796653|184481975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.084|0.163|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.163|0.084|<0.0001
92288143|NCT00796653|184481975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.112|0.191|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.191|0.112|<0.0001
92288144|NCT00796653|184481975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.104|0.183|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.183|0.104|<0.0001
92288145|NCT00796653|184481976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.071|0.152|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.152|0.071|<0.0001
92288146|NCT00796653|184481976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.086|0.166|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.166|0.086|<0.0001
92288147|NCT00796653|184481976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.078|0.158|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.158|0.078|<0.0001
92288148|NCT00796653|184481977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.231|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.162|0.299|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.299|0.162|<0.0001
92288149|NCT00796653|184481977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.182|0.318|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.318|0.182|<0.0001
92288150|NCT00796653|184481977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.266|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.198|0.334|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.334|0.198|<0.0001
92288151|NCT00796653|184481978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.182|0.32|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.320|0.182|<0.0001
92288152|NCT00796653|184481978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.249|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.18|0.318|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.318|0.180|<0.0001
92288153|NCT00796653|184481978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.212|0.35|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.350|0.212|<0.0001
92288154|NCT00796653|184481979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.229|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.159|0.299|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.299|0.159|<0.0001
92288155|NCT00796653|184481979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.247|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.177|0.317|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.317|0.177|<0.0001
92288156|NCT00796653|184481979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.275|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.205|0.345|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.345|0.205|<0.0001
92288157|NCT00796653|184481980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.199|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.128|0.27|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.270|0.128|<0.0001
92288158|NCT00796653|184481980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.142|0.283|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.283|0.142|<0.0001
92288159|NCT00796653|184481980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.241|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.17|0.312|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.312|0.170|<0.0001
92288160|NCT00796653|184481981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.146|0.29|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.290|0.146|<0.0001
92288161|NCT00796653|184481981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.237|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.166|0.309|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.309|0.166|<0.0001
92288162|NCT00796653|184481981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.148|0.292|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.292|0.148|<0.0001
92288163|NCT00796653|184481982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.035||0.0133||95.0|0.018|0.157|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.157|0.018|0.0133
92288164|NCT00796653|184481982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.073|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.212|0.073|<0.0001
92288165|NCT00796653|184481982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.035||0.0212||95.0|0.012|0.151|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.151|0.012|0.0212
92288166|NCT00796653|184481983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.036||0.0004||95.0|0.057|0.197|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.197|0.057|0.0004
92288167|NCT00796653|184481983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.036||0.0012||95.0|0.045|0.185|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.185|0.045|0.0012
92288168|NCT00796653|184481983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.036||0.0056||95.0|0.029|0.169|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.169|0.029|0.0056
92288169|NCT00796653|184481984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.036||0.0045||95.0|0.032|0.173|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.173|0.032|0.0045
92288170|NCT00796653|184481984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.036||0.0046||95.0|0.032|0.173|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.173|0.032|0.0046
92288171|NCT00796653|184481984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.036||0.0023||95.0|0.039|0.181|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.181|0.039|0.0023
92288172|NCT00796653|184481985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.037||0.0077||95.0|0.026|0.169|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.169|0.026|0.0077
92288173|NCT00796653|184481985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.036||0.0009||95.0|0.05|0.193|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.193|0.050|0.0009
92288174|NCT00796653|184481985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|STANDARD_ERROR_OF_MEAN|0.037||0.0339||95.0|0.006|0.149|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.149|0.006|0.0339
92288175|NCT00796653|184481986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.037||0.0718||95.0|-0.006|0.139|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.139|-0.006|0.0718
92288176|NCT00796653|184481986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.037||0.0863||95.0|-0.009|0.135|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.135|-0.009|0.0863
92288177|NCT00796653|184481986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.037||0.2982||95.0|-0.034|0.111|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.111|-0.034|0.2982
92288178|NCT00796653|184481987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.037||0.019||95.0|0.014|0.16|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.160|0.014|0.0190
92288179|NCT00796653|184481987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.037||0.0601||95.0|-0.003|0.143|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.143|-0.003|0.0601
92288180|NCT00796653|184481987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.037||0.2573||95.0|-0.031|0.115|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.115|-0.031|0.2573
92288181|NCT00796653|184481988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.037||0.02||95.0|0.014|0.16|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.160|0.014|0.0200
92288182|NCT00796653|184481988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.037||0.0013||95.0|0.047|0.194|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.194|0.047|0.0013
92288183|NCT00796653|184481988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.037||0.1598||95.0|-0.021|0.126|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.126|-0.021|0.1598
92288184|NCT00796653|184481989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.038||0.0307||95.0|0.008|0.155|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.155|0.008|0.0307
92288185|NCT00796653|184481989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.038||0.0073||95.0|0.027|0.175|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.175|0.027|0.0073
92288186|NCT00796653|184481989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.038||0.3147||95.0|-0.036|0.112|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.112|-0.036|0.3147
92288187|NCT00796653|184481990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.233|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.16|0.306|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.306|0.160|<0.0001
92288188|NCT00796653|184481990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.229|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.156|0.302|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.302|0.156|<0.0001
92288189|NCT00796653|184481990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.248|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.175|0.321|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.321|0.175|<0.0001
92288190|NCT00796653|184481991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.247|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.174|0.321|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.321|0.174|<0.0001
92288191|NCT00796653|184481991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.221|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.148|0.295|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.295|0.148|<0.0001
92288192|NCT00796653|184481991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.254|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.18|0.328|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.328|0.180|<0.0001
92288193|NCT00796653|184481992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.141|0.289|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.289|0.141|<0.0001
92288194|NCT00796653|184481992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.151|0.3|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.300|0.151|<0.0001
92288195|NCT00796653|184481992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.191|0.34|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.340|0.191|<0.0001
92288196|NCT00796653|184481993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.106|0.258|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.258|0.106|<0.0001
92288197|NCT00796653|184481993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.105|0.256|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.256|0.105|<0.0001
92288198|NCT00796653|184481993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.132|0.283|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.283|0.132|<0.0001
92288199|NCT00796653|184481994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.111|0.265|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.265|0.111|<0.0001
92288200|NCT00796653|184481994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.138|0.291|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.291|0.138|<0.0001
92288201|NCT00796653|184481994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.115|0.269|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.269|0.115|<0.0001
92288202|NCT00796653|184481995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.707|STANDARD_ERROR_OF_MEAN|4.435||0.0021|TWO_SIDED|95.0|5.004|22.411|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||22.411|5.004|0.0021
92288203|NCT00796653|184481995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.871|STANDARD_ERROR_OF_MEAN|4.44|<|0.0001|TWO_SIDED|95.0|12.158|29.584|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||29.584|12.158|<0.0001
92183897|NCT02234141|184266130|OTHER|Nonparametric pairwise comparison|||||=|0.214||||||P-value was calculated using the generalized van Elteren test/van Elteren test (gvE/vE; stratified Wilcoxon rank sum test).|gvE/vE|||The protocol-specified primary analysis was to compare each selonsertib dose group with the placebo group, using Wilcoxon (van Elteren) test, with respect to change from baseline in PVR at Week 24, stratifying by randomization stratum (the underlying etiology of PAH idiopathic/heritable \[yes/no\] and the number of background PAH therapies they were receiving {1, 2, or greater than or equal to \[≥\] 3}).||||= 0.214
92183898|NCT02234141|184266130|OTHER|Nonparametric pairwise comparison|||||=|0.27||||||P-value was calculated using the generalized van Elteren test/van Elteren test (gvE/vE; stratified Wilcoxon rank sum test).|gvE/vE|||The protocol-specified primary analysis was to compare each selonsertib dose group with the placebo group, using Wilcoxon (van Elteren) test, with respect to change from baseline in PVR at Week 24, stratifying by randomization stratum (the underlying etiology of PAH idiopathic/heritable \[yes/no\] and the number of background PAH therapies they were receiving \[1, 2, or ≥ 3\]).||||= 0.270
92183899|NCT02234141|184266130|OTHER|Nonparametric pairwise comparison|||||=|0.604||||||P-value was calculated using the generalized van Elteren test/van Elteren test (gvE/vE; stratified Wilcoxon rank sum test)|gvE/vE|||The protocol-specified primary analysis was to compare each selonsertib dose group with the placebo group, using Wilcoxon (van Elteren) test, with respect to change from baseline in PVR at Week 24, stratifying by randomization stratum (the underlying etiology of PAH idiopathic/heritable \[yes/no\] and the number of background PAH therapies they were receiving \[1, 2, or ≥ 3\]).||||= 0.604
92183900|NCT01228734|184266175|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.629|||<|0.001|TWO_SIDED|95.0|0.498|0.794|||Log Rank|||||0.794|0.498|<0.001
92183901|NCT02449902|184266212|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92183902|NCT02449902|184266213|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANOVA|||||||0.0002
92183903|NCT02449902|184266214|SUPERIORITY_OR_OTHER|||||||0.0017|TWO_SIDED||||||ANCOVA|||||||0.0017
92183904|NCT02449902|184266215|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANCOVA|||||||0.0002
92183905|NCT02449902|184266216|SUPERIORITY_OR_OTHER|||||||0.9951|TWO_SIDED||||||ANOVA|||||||0.9951
92183906|NCT02449902|184266217|SUPERIORITY_OR_OTHER|||||||0.1429|TWO_SIDED||||||Fisher Exact|||||||0.1429
92183907|NCT02449902|184266218|SUPERIORITY_OR_OTHER|||||||0.1945|TWO_SIDED||||||ANCOVA|||||||0.1945
92183908|NCT02449902|184266219|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANCOVA|||||||0.0001
92183909|NCT02449902|184266220|SUPERIORITY_OR_OTHER|||||||0.182|TWO_SIDED||||||ANCOVA|||||||0.1820
92183910|NCT02449902|184266221|SUPERIORITY_OR_OTHER|||||||0.0401|TWO_SIDED||||||ANCOVA|||||||0.0401
92288204|NCT00796653|184481995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.249|STANDARD_ERROR_OF_MEAN|4.454||0.0014|TWO_SIDED|95.0|5.506|22.991|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||22.991|5.506|0.0014
92288205|NCT00796653|184481995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.4|STANDARD_ERROR_OF_MEAN|4.463||0.0001|TWO_SIDED|95.0|8.64|26.16|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||26.160|8.640|0.0001
92183911|NCT03162614|184266228|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people compared to unvaccinated people.|Vaccine efficacy rate|55.0|||<|0.001|TWO_SIDED|95.0|27.0|72.0|||Fisher Exact|||Efficacy analysis aimed at comparing RTS,S/AS01B administered as full doses at Month 0 and Month 1 and 1/5th dose at Month 7 (AduFx Group versus Control Group).||72|27|<.001
92183912|NCT03162614|184266228|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people compared to unvaccinated people.|Vaccine efficacy rate|76.0|||<|0.001|TWO_SIDED|95.0|49.0|89.0|||Fisher Exact|||Efficacy analysis aimed at comparing RTS,S/AS01E administered as double full doses at Month 0 and Month 1 and 1/5th double dose at Month 7 (2Ped Fx Group versus Control Group).||89|49|<.001
92183913|NCT03162614|184266228|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people compared to unvaccinated people.|Vaccine efficacy rate|64.0|||<|0.001|TWO_SIDED|95.0|37.0|79.0|||Fisher Exact|||Efficacy analysis aimed at comparing RTS,S/AS01E administered as full doses at Month 0 and Month 1 and 1/5th dose at Month 7 (PedFx Group versus Control Group).||79|37|<.001
92183914|NCT03162614|184266228|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people compared to unvaccinated people.|Vaccine efficacy rate|55.0|||<|0.001|TWO_SIDED|95.0|27.0|72.0|||Fisher Exact|||Efficacy analysis aimed at comparing RTS,S/AS01B administered as full dose at Month 0 and 1/5th dose at Month 1 and Month 7 (Adu2Fx Group versus Control Group).||72|27|<.001
92183915|NCT03162614|184266228|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people compared to unvaccinated people.|Vaccine efficacy rate|29.0||||0.009|TWO_SIDED|95.0|6.0|46.0|||Fisher Exact|||Efficacy analysis aimed at comparing RTS,S/AS01B administered as full dose at Month 0 and 1/5th dose at Month 7 (Adu1Fx Group versus Control Group).||46|6|0.009
92183916|NCT00621842|184266251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.5|||<|0.01|TWO_SIDED|95.0|-18.0|-12.9|||t-test, 2 sided|df=53||The null hypothesis is that the mean difference score between the 12 week time point or LOCF and baseline is zero.||-12.9|-18.0|<.01
92183917|NCT00621842|184266253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.2|||<|0.01|TWO_SIDED|95.0|-17.5|-12.9|||t-test, 2 sided|||The null hypothesis is that the mean difference score between the 12 week time point or LOCF and baseline is zero.||-12.9|-17.5|<.01
92288206|NCT00796653|184481995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.875|STANDARD_ERROR_OF_MEAN|4.444|<|0.0001|TWO_SIDED|95.0|14.153|31.596|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||31.596|14.153|<0.0001
92183918|NCT00621842|184266254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.49|TWO_SIDED|95.0|-1.82|0.88|||t-test, 2 sided|||The null hypothesis is that the mean difference score between the 12 week time point or LOCF and baseline is zero.||.88|-1.82|.49
92183919|NCT00621842|184266255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|||<|0.01|TWO_SIDED|95.0|-2.43|-1.68|||t-test, 2 sided|||The null hypothesis is that the mean difference between the 12 week time point or LOCF and baseline is zero.||-1.68|-2.43|<.01
92288207|NCT00796653|184481995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.816|STANDARD_ERROR_OF_MEAN|4.475||0.0004|TWO_SIDED|95.0|7.032|24.599|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||24.599|7.032|0.0004
92183920|NCT00621842|184266256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.8|TWO_SIDED|95.0|-0.36|0.28|||t-test, 2 sided|||The null hypothesis is that the mean difference between the 12 week time point or LOCF and baseline is zero.||.28|-.36|.80
92183921|NCT00621842|184266257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83||||0.36||95.0|-0.97|2.62|||t-test, 2 sided|||The null hypothesis is that the mean difference between the 12 week time point or LOCF and baseline is zero.||2.62|-.97|.36
92288208|NCT00796653|184481996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.153|STANDARD_ERROR_OF_MEAN|0.121||0.2057|TWO_SIDED|95.0|-0.391|-0.084|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||-0.084|-0.391|0.2057
92288209|NCT00796653|184481996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.266|STANDARD_ERROR_OF_MEAN|0.121||0.0284|TWO_SIDED|95.0|-0.504|-0.028|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||-0.028|-0.504|0.0284
92288210|NCT00796653|184481996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.222|STANDARD_ERROR_OF_MEAN|0.122||0.0685|TWO_SIDED|95.0|-0.461|0.017|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||0.017|-0.461|0.0685
92288211|NCT00796653|184481996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.278|STANDARD_ERROR_OF_MEAN|0.152||0.0674|TWO_SIDED|95.0|-0.576|0.02|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||0.020|-0.576|0.0674
92288212|NCT00796653|184481996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.365|STANDARD_ERROR_OF_MEAN|0.0163||0.0163|TWO_SIDED|95.0|-0.662|-0.067|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||-0.067|-0.662|0.0163
92288213|NCT00796653|184481996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.153||0.0364|TWO_SIDED|95.0|-0.62|-0.02|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||-0.020|-0.620|0.0364
92288214|NCT00796653|184481996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.424|STANDARD_ERROR_OF_MEAN|0.254||0.0959|TWO_SIDED|95.0|-0.922|0.075|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||0.075|-0.922|0.0959
92288215|NCT00796653|184481996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.616|STANDARD_ERROR_OF_MEAN|0.254||0.0155|TWO_SIDED|95.0|-1.115|-0.117|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||-0.117|-1.115|0.0155
92288216|NCT00796653|184481996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.541|STANDARD_ERROR_OF_MEAN|0.256||0.0347|TWO_SIDED|95.0|-1.042|-0.039|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||-0.039|-1.042|0.0347
92183922|NCT00621842|184266259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.08|TWO_SIDED|95.0|-1.67|0.09|||t-test, 2 sided|||The null hypothesis is that the mean difference between the 12 week time point or LOCF and baseline is zero.||.09|-1.67|.08
92288217|NCT00796653|184481997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0164||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.0|-0.4|0.0164
92288218|NCT00796653|184481997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0196||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.0|-0.4|0.0196
92288219|NCT00796653|184481997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0041||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||-0.1|-0.5|0.0041
92288220|NCT00796653|184481998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0388||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.0|-0.4|0.0388
92288221|NCT00796653|184481998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0038||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.1|-0.5|0.0038
92288222|NCT00796653|184481998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0053||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||-0.1|-0.5|0.0053
92288223|NCT00796653|184481999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0555||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||0.0|-0.4|0.0555
92288224|NCT00796653|184481999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0122||95.0|-0.4|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.1|-0.4|0.0122
92288225|NCT00796653|184481999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0144||95.0|-0.4|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||-0.1|-0.4|0.0144
92288226|NCT00796653|184482000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5707||95.0|-0.3|0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||0.1|-0.3|0.5707
92288227|NCT00796653|184482000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0814||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||0.0|-0.4|0.0814
92288228|NCT00796653|184482000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.7413||95.0|-0.2|0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||0.2|-0.2|0.7413
92288229|NCT00796653|184482001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.437|STANDARD_ERROR_OF_MEAN|0.305||0.1524||95.0|-0.162|1.036|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.036|-0.162|0.1524
92288230|NCT00796653|184482001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.706|STANDARD_ERROR_OF_MEAN|0.306||0.0211||95.0|0.106|1.307|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.307|0.106|0.0211
92288231|NCT00796653|184482001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.464|STANDARD_ERROR_OF_MEAN|0.307||0.1314||95.0|-0.139|1.066|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.066|-0.139|0.1314
92288232|NCT00796653|184482002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.662|STANDARD_ERROR_OF_MEAN|0.308||0.0319||95.0|0.057|1.267|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.267|0.057|0.0319
92288233|NCT00796653|184482002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.667|STANDARD_ERROR_OF_MEAN|0.31||0.0312||95.0|0.06|1.274|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.274|0.060|0.0312
92288234|NCT00796653|184482002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.419|STANDARD_ERROR_OF_MEAN|0.311||0.1777||95.0|-0.191|1.029|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.029|-0.191|0.1777
92288235|NCT00796653|184482003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.425|STANDARD_ERROR_OF_MEAN|0.311||0.1714||95.0|-0.184|1.035|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.035|-0.184|0.1714
92288236|NCT00796653|184482003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.492|STANDARD_ERROR_OF_MEAN|0.312||0.1142||95.0|-0.119|1.103|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.103|-0.119|0.1142
92288237|NCT00796653|184482003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.534|STANDARD_ERROR_OF_MEAN|0.314||0.0888||95.0|-0.081|1.15|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.150|-0.081|0.0888
92288238|NCT00796653|184482004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.318||0.1235||95.0|-0.134|1.113|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.113|-0.134|0.1235
92288239|NCT00796653|184482004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.354|STANDARD_ERROR_OF_MEAN|0.318||0.2666||95.0|-0.271|0.978|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.978|-0.271|0.2666
92288240|NCT00796653|184482004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.309|STANDARD_ERROR_OF_MEAN|0.319||0.3335||95.0|-0.317|0.934|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.934|-0.317|0.3335
92288241|NCT00796653|184482005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.313|STANDARD_ERROR_OF_MEAN|0.32||0.3287||95.0|-0.315|0.941|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.941|-0.315|0.3287
92288242|NCT00796653|184482005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.481|STANDARD_ERROR_OF_MEAN|0.321||0.1341||95.0|-0.148|1.109|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.109|-0.148|0.1341
92288243|NCT00796653|184482005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.322||0.722||95.0|-0.516|0.745|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.745|-0.516|0.7220
92288244|NCT00796653|184482006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.397|STANDARD_ERROR_OF_MEAN|0.322||0.2176||95.0|-0.234|1.027|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.027|-0.234|0.2176
92288245|NCT00796653|184482006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.718|STANDARD_ERROR_OF_MEAN|0.323||0.0258||95.0|0.087|1.348|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.348|0.087|0.0258
92288246|NCT00796653|184482006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|STANDARD_ERROR_OF_MEAN|0.323||0.6044||95.0|-0.466|0.8|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.800|-0.466|0.6044
92288247|NCT00796653|184482007|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.802|STANDARD_ERROR_OF_MEAN|0.133||0.1946||95.0|0.58|1.111|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.111|0.580|0.1946
92288248|NCT00796653|184482007|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.872|STANDARD_ERROR_OF_MEAN|0.141||0.4071||95.0|0.634|1.198|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.198|0.634|0.4071
92288249|NCT00796653|184482007|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.922|STANDARD_ERROR_OF_MEAN|0.15||0.6404||95.0|0.67|1.267|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||1.267|0.670|0.6404
92288250|NCT00796653|184482008|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.685|STANDARD_ERROR_OF_MEAN|0.249||0.2942||95.0|0.336|1.399|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.399|0.336|0.2942
92288251|NCT00796653|184482008|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.947|STANDARD_ERROR_OF_MEAN|0.316||0.8594||95.0|0.493|1.82|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.820|0.493|0.8594
92288252|NCT00796653|184482008|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.803|STANDARD_ERROR_OF_MEAN|0.281||0.5466||95.0|0.405|1.593|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||1.593|0.405|0.5466
92288253|NCT00796653|184482009|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.807|STANDARD_ERROR_OF_MEAN|0.146||0.2494||95.0|0.566|1.15|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.150|0.566|0.2494
92288254|NCT00796653|184482009|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.791|STANDARD_ERROR_OF_MEAN|0.143||0.2006||95.0|0.555|1.126|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.126|0.555|0.2006
92288255|NCT00796653|184482009|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.903|STANDARD_ERROR_OF_MEAN|0.16||0.5795||95.0|0.637|1.279|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||1.279|0.637|0.5795
92288256|NCT00796653|184482010|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.785|STANDARD_ERROR_OF_MEAN|0.1342||0.1571||95.0|0.5613|1.0979|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.0979|0.5613|0.1571
92288257|NCT00796653|184482010|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.8631|STANDARD_ERROR_OF_MEAN|0.1451||0.3814||95.0|0.6205|1.2005|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.2005|0.6205|0.3814
92288258|NCT00796653|184482010|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0631|STANDARD_ERROR_OF_MEAN|0.1748||0.7098||95.0|0.7699|1.468|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||1.4680|0.7699|0.7098
92288259|NCT00796653|184482011|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.7925|STANDARD_ERROR_OF_MEAN|0.2952||0.5326||95.0|0.3814|1.6464|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.6464|0.3814|0.5326
92183923|NCT00621842|184266260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.04||95.0|-1.03|-0.04|||t-test, 2 sided|||The null hypothesis is that the mean difference between the 12 week time point or LOCF and baseline is zero.||-.04|-1.03|.04
92183924|NCT03212638|184266301|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|1.04|||||TWO_SIDED|95.0|0.946|1.15||||||Bioequivalence of single 4 mg dose of baricitinib as the suspension formulation with (T1) water compared to the commercial tablet (R).||1.15|0.946|
92288260|NCT00796653|184482011|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0078|STANDARD_ERROR_OF_MEAN|0.356||0.9824||95.0|0.5038|2.016|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||2.0160|0.5038|0.9824
92288261|NCT00796653|184482011|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0403|STANDARD_ERROR_OF_MEAN|0.3681||0.9112||95.0|0.5194|2.0832|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||2.0832|0.5194|0.9112
92288262|NCT00796653|184482012|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.744|STANDARD_ERROR_OF_MEAN|0.1389||0.1136||95.0|0.5158|1.0733|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.0733|0.5158|0.1136
92288263|NCT00796653|184482012|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.7842|STANDARD_ERROR_OF_MEAN|0.1449||0.1887||95.0|0.5456|1.1271|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.1271|0.5456|0.1887
92288264|NCT00796653|184482012|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.9761|STANDARD_ERROR_OF_MEAN|0.1747||0.8925||95.0|0.6869|1.387|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||1.3870|0.6869|0.8925
92288265|NCT00796653|184482015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.509|STANDARD_ERROR_OF_MEAN|0.23||0.027|TWO_SIDED|95.0|0.058|0.96|||pattern mixture model|See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Olo 5mcg minus placebo||0.960|0.058|0.0270
92288266|NCT00796653|184482015|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.525|STANDARD_ERROR_OF_MEAN|0.226||0.0203|TWO_SIDED|95.0|0.082|0.967|||pattern mixture model|See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Olo 10 mcg minus placebo||0.967|0.082|0.0203
92288267|NCT00796653|184482015|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.355|STANDARD_ERROR_OF_MEAN|0.226||0.1166|TWO_SIDED|95.0|-0.088|0.799|||pattern mixture model|See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Form 12mcg minus placebo||0.799|-0.088|0.1166
92288268|NCT00841698|184482050|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|97.34||||||90.0|91.67|103.35|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.35|91.67|
92288269|NCT00841698|184482051|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|94.46||||||90.0|90.22|98.89|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.89|90.22|
92288270|NCT00841698|184482052|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|94.83||||||90.0|89.96|99.96|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.96|89.96|
92288271|NCT00838136|184482053|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|101.23||||||90.0|99.88|102.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.60|99.88|
92288272|NCT00838136|184482054|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|101.87||||||90.0|99.18|104.63|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.63|99.18|
92288273|NCT00838136|184482055|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.76||||||90.0|98.6|102.97|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.97|98.60|
92288274|NCT01149733|184482056|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Geometric Means|97.9|||||TWO_SIDED|90.0|91.0|105.32|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||105.32|91.00|
92288275|NCT01149733|184482057|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Geometric Means|91.81|||||TWO_SIDED|90.0|87.72|96.1|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||96.10|87.72|
92288276|NCT01149733|184482058|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Geometric Means|90.64|||||TWO_SIDED|90.0|86.59|94.89|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||94.89|86.59|
92288277|NCT01929863|184482090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.13|||||TWO_SIDED|95.0|-50.4|-5.86|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Fasting Value.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for Fasting Value.||-5.86|-50.40|
92288278|NCT01929863|184482090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.16|||||TWO_SIDED|95.0|-51.68|-6.64|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Maximum (0-4 h) Value.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for Maximum (0-4 h) Value.||-6.64|-51.68|
92288279|NCT01929863|184482090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-36.58|||||TWO_SIDED|95.0|-62.25|-10.9|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Maximum (4-10 h) Value.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for Maximum (4-10 h) Value.||-10.90|-62.25|
92288280|NCT01929863|184482090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-45.41|||||TWO_SIDED|95.0|-72.8|-18.03|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Maximum (10-14 h) Value.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for Maximum (10-14 h) Value.||-18.03|-72.80|
92288281|NCT01929863|184482090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.35|||||TWO_SIDED|95.0|-50.84|-7.86|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Maximum (0-24 h) Value.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for Maximum (0-24 h) Value.||-7.86|-50.84|
92288282|NCT01929863|184482090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.14|||||TWO_SIDED|95.0|-45.8|-6.49|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for AUC (0-4 h) Weighted Mean.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for AUC (0-4 h) Weighted Mean||-6.49|-45.80|
92288283|NCT01929863|184482090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-32.0|||||TWO_SIDED|95.0|-55.41|-8.58|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for AUC (4-10 h) Weighted Mean.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for AUC (4-10 h) Weighted Mean.||-8.58|-55.41|
92288284|NCT01929863|184482090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-40.96|||||TWO_SIDED|95.0|-66.64|-15.29|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for AUC (10-14 h) Weighted Mean.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for AUC (10-14 h) Weighted Mean.||-15.29|-66.64|
92288285|NCT01929863|184482090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.76|||||TWO_SIDED|95.0|-54.67|-14.85|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for AUC (0-24 h) Weighted Mean.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for AUC (0-24 h) Weighted Mean.||-14.85|-54.67|
92288286|NCT01929863|184482091|SUPERIORITY_OR_OTHER||Ratio|1.013|||||TWO_SIDED|90.0|0.912|1.125|||||The point estimate was calculated as geometric least square mean ratio of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for AUC (0-10 h).|||1.125|0.912|
92288287|NCT01929863|184482092|SUPERIORITY_OR_OTHER||Ratio|1.036|||||TWO_SIDED|90.0|0.937|1.145|||||The point estimate was calculated as geometric least square mean ratio of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Cmax.|||1.145|0.937|
92288288|NCT01304641|184482096|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92288289|NCT01304641|184482097|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.078||||0.14|TWO_SIDED|95.0|0.976|1.192|||Regression, Cox|||||1.192|0.976|0.140
92288290|NCT01304641|184482098|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92288291|NCT01304641|184482099|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92288292|NCT01304641|184482100|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92288293|NCT01304641|184482101|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92288294|NCT01304641|184482102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92288295|NCT00099047|184482103|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.05|STANDARD_DEVIATION|0.05||0.23|TWO_SIDED||||||SAS version 8||36 evaluable patients randomized 1:1 to each treatment was planned in order to have \>77% power to detect differences in above parameters equal to or greater than one standard deviation, based on a 2-sided Wilcoxon rank-sum test with .05 Type I error.|||||.23
92288296|NCT03123471|184482155|SUPERIORITY||Difference in Response|29.6|||<|0.0001|TWO_SIDED|95.0|19.5|39.7|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||39.7|19.5|< 0.0001
92288297|NCT03123471|184482156|SUPERIORITY||Difference in Response|23.0|||<|0.0001|TWO_SIDED|95.0|11.5|34.6|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||34.6|11.5|< 0.0001
92288298|NCT03123471|184482157|SUPERIORITY||Difference in Response|26.2|||<|0.0001|TWO_SIDED|95.0|13.9|38.5|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||38.5|13.9|< 0.0001
92288299|NCT03123471|184482158|SUPERIORITY||Difference in Response|17.0|||<|0.0001|TWO_SIDED|95.0|9.8|24.2|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 2; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||24.2|9.8|<0.0001
92288300|NCT03123471|184482158|SUPERIORITY||Difference in Response|22.1|||<|0.0001|TWO_SIDED|95.0|12.9|31.4|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 4. The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||31.4|12.9|<0.0001
92288301|NCT03123471|184482158|SUPERIORITY||Difference in Response|20.1||||0.0003|TWO_SIDED|95.0|9.1|31.0|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 8; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||31.0|9.1|0.0003
92288302|NCT03123471|184482158|SUPERIORITY||Difference in Response|20.6||||0.0007|TWO_SIDED|95.0|8.7|32.4|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 12; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and SE using a normal approximation to the weighted average were calculated.||32.4|8.7|0.0007
92183925|NCT03212638|184266301|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|ratio|1.04|||||TWO_SIDED|95.0|0.944|1.14||||||Bioequivalence of single 4 mg dose of baricitinib as the suspension formulation without (T2) water compared to the commercial tablet (R).||1.14|0.944|
92288303|NCT03123471|184482159|SUPERIORITY||Difference in Response|14.6||||0.0025|TWO_SIDED|95.0|5.1|24.1|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 2; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||24.1|5.1|0.0025
92288304|NCT03123471|184482159|SUPERIORITY||Difference in Response|21.3|||<|0.0001|TWO_SIDED|95.0|10.6|31.9|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 4; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||31.9|10.6|<0.0001
92288305|NCT03123471|184482159|SUPERIORITY||Difference in Response|22.0||||0.0003|TWO_SIDED|95.0|10.2|33.9|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 8; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||33.9|10.2|0.0003
92288306|NCT03123471|184482159|SUPERIORITY||Difference in Response|27.0|||<|0.0001|TWO_SIDED|95.0|15.1|38.9|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 12; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and SE using a normal approximation to the weighted average were calculated.||38.9|15.1|<0.0001
92288307|NCT03123471|184482160|SUPERIORITY||Difference in LS Mean|-2.9|||<|0.0001|TWO_SIDED|95.0|-4.17|-1.73|||ANCOVA|Treatment and stratification factor (Baseline ScPGA moderate or severe) as independent variables and baseline value as a covariate variable.||||-1.73|-4.17|<0.0001
92288308|NCT01641380|184482164|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.75|||<|0.05|TWO_SIDED|95.0|-1.4|0.06|||Regression, Linear|||We also evaluated the difference between the number of days after the scheduled appointment patients returned.||.06|-1.4|<.05
92288309|NCT01641380|184482164|SUPERIORITY_OR_OTHER_LEGACY||Difference of proportions|0.417||||0.5187|TWO_SIDED|95.0|-13.3307|24.8818|||Chi-squared||Intervention 34/50; Control : 28/50|On time for 1st follow-up visit||24.8818|-13.3307|0.5187
92183926|NCT03212638|184266301|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|0.675|||||TWO_SIDED|95.0|0.617|0.74||||||Bioequivalence of single 4 mg dose of baricitinib as fasted vs fed.||0.740|0.617|
92288310|NCT01641380|184482167|SUPERIORITY_OR_OTHER_LEGACY||[Proportion of Eligible Patients Enrolle|0.948|||||TWO_SIDED|||||||||||||
92288311|NCT04189848|184482209|OTHER|Treatment comparison|Treatment difference|-5.9|||<|0.0001|TWO_SIDED|95.0|-8.2|-3.6|||ANOVA|||Intensity of injection site pain was analysed by a fixed analysis of variance model with VAS pain score as the dependent variable, and product, injection side (right side, left side), injection number (first injection, second injection), and participant as fixed effects.||-3.6|-8.2|<0.0001
92288312|NCT01588236|184482210|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED|95.0||||p value for multiple comparison among 3 arms and comparison between investigational drug and placebo|Mixed Models Analysis|||||||>0.05
92288313|NCT01588236|184482211|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||p value for multiple comparison among 3 arms and comparison between investigational drug and placebo||||>0.05
92288314|NCT01588236|184482212|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED|95.0||||p value for comparison between overall drug group vs placebo, and between high dose vs placebo|Mixed Models Analysis|||||||<0.01
92288315|NCT01588236|184482213|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|95.0||||p value for comparison between overall drug group vs placebo, and between low dose vs placebo|Mixed Models Analysis|||||||<0.05
92183927|NCT03212638|184266302|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|0.996|||||TWO_SIDED|95.0|0.963|1.03||||||Bioequivalence of single 4 mg dose of baricitinib as the suspension formulation with (T1) water compared to the commercial tablet (R).||1.03|0.963|
92288316|NCT01030133|184482230|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|0.75||||||0.05
92288317|NCT04493684|184482301|OTHER||Geometric Least Square Mean Ratio|2.462|||||TWO_SIDED|90.0|1.823|3.323|||Mixed Models Analysis|||The mixed model was used to estimate Food Effect for the log transformed parameter AUC (0-24). Analysis was performed using fed/ fasted state and tablet/ PiB as fixed effects and participant as a random effect.||3.323|1.823|
92288318|NCT04493684|184482301|OTHER||Geometric Least Square Mean Ratio|1.381|||||TWO_SIDED|90.0|1.223|1.56|||Mixed Models Analysis|||The mixed model was used to estimate Tablet vs. PiB effect for the log transformed parameter AUC (0-24). Analysis was performed using the independent variables included a fixed effect for treatment (PiB or Tablet) and period, and participant as a random effect.||1.56|1.223|
92288319|NCT04493684|184482302|OTHER||Geometric Least Square Mean Ratio|2.103|||||TWO_SIDED|90.0|1.629|2.717|||Mixed Models Analysis|||The mixed model was used to estimate Food Effect for the log transformed parameter AUC (0-inf). Analysis was performed using fed/ fasted state and tablet/ PiB as fixed effects and participant as a random effect.||2.717|1.629|
92288320|NCT04493684|184482302|OTHER||Geometric Least Square Mean Ratio|1.351|||||TWO_SIDED|90.0|1.22|1.497|||Mixed Models Analysis|||The mixed model was used to estimate Tablet vs. PiB effect for the log transformed parameter AUC (0-inf). Analysis was performed using the independent variables included a fixed effect for treatment (PiB or Tablet) and period, and participant as a random effect.||1.497|1.22|
92288321|NCT04493684|184482303|OTHER||Geometric Least Square Mean Ratio|2.307|||||TWO_SIDED|90.0|1.668|3.19|||Mixed Models Analysis|||The mixed model was used to estimate Food Effect for the log transformed parameter Cmax. Analysis was performed using fed/ fasted state and tablet/ PiB as fixed effects and participant as a random effect.||3.19|1.668|
92288322|NCT04493684|184482303|OTHER||Geometric Least Square Mean Ratio|1.372|||||TWO_SIDED|90.0|1.19|1.582|||Mixed Models Analysis|||The mixed model was used to estimate Tablet vs. PiB effect for the log transformed parameter Cmax. Analysis was performed using the independent variables included a fixed effect for treatment (PiB or Tablet) and period, and participant as a random effect.||1.582|1.19|
92288323|NCT00128219|184482376|SUPERIORITY_OR_OTHER||Vaccine Efficacy, VE=1-RR=1-exp(ß)|36.0||||0.044|TWO_SIDED|95.0|1.0|58.0||The a priori threshold for statistical significance was set at 0.05.|Regression, Cox|The study was multi-center, and the Cox model was stratified by geographic region of the participating clinical sites.|Vaccine efficacy (VE) was defined as one minus the relative risk (RR), which was estimated by exponentiating the treatment parameter (ß) from the Cox model fit.|Time to first acquisition of vaginal type III GBS was analyzed by fitting a Cox Proportional Hazards model stratified by region to the data. The null hypothesis of no vaccine efficacy was tested by the stratified log-rank test (score test). The point and interval estimates for vaccine efficacy were obtained by transforming those for treatment effect in the model.||58|1|0.044
92288324|NCT00128219|184482401|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.12|TWO_SIDED|95.0|0.917|2.34||The a priori threshold for statistical significance for the analysis of secondary endpoints was set at .05 without adjustment for multiplicity.|Fisher Exact|Fisher's exact test was used to test no difference in proportions always vaginal GBS-III negative by arm to a two-sided alternative of a difference.|The OR was calculated from the 2x2 contingency table, and the 95% CI was obtained by inverting the 2-sided 5% level Fisher's exact, with GBS III-TT arm in the numerator and Td arm in the denominator so \<1 favors the GBS III-TT arm.|A two-sided 5% level Fisher's exact test was used to test the null hypothesis of no difference in proportion of participants who were vaginal type III GBS negative throughout the study between treatment arms. The two-sided 5% Fisher's exact test was inverted to obtain a 95% confidence interval for the odds ratio.||2.34|0.917|0.120
92288325|NCT00128219|184482402|SUPERIORITY_OR_OTHER||Vaccine Efficacy, VE=1-RR=1-exp(ß)|36.0||||0.089||95.0|-7.0|61.0||Significance was set at .05 without adjustment for multiplicity. Exchangeable correlation structure and GEE were used for repeated measures.|Binomial regression, log-linear link|The Wald test of treatment effect was used to test no difference in proportion of GBS III pos. by arm against a 2-sided alternative of a difference.|Estimate of vaccine efficacy and 95% CI were obtained by transforming the estimate of log relative risk for treatment effect and the robust Wald CI in the log-linear binomial regression model fit to the proportion of vaginal type III GBS swabs.|The proportion of vaginal swabs that were GBS III culture positive was estimated from a GEE model fit with binomial family, log-link, and exchangeable correlation. Point and robust interval estimates for vaccine efficacy, were obtained by transforming those for treatment effect in this model, and used to test the hypothesis of no efficacy.||61|-7|0.089
92288326|NCT00128219|184482403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.256|TWO_SIDED|95.0|0.18|1.45||The a priori threshold for statistical significance for the analysis of secondary endpoints was set at .05 without adjustment for multiplicity.|Fisher Exact|Fisher's exact test was used to test no difference in proportion persistently colonized by arm against a two-sided alternative of a difference.|The OR was calculated from the 2x2 contingency table, and the 95% CI was obtained by inverting the two-sided 5% level Fisher's exact test. The GBS III-TT arm is in the numerator and Td arm in the denominator, so a value \<1 favors the GBS III-TT arm.|A two-sided 5% level Fisher's exact test was used to test the null hypothesis of no difference in proportion of participants who were vaginal type III GBS negative throughout the study between treatment arms. The two-sided 5% Fisher's exact test was inverted to obtain a 95% confidence interval for the odds ratio.||1.45|0.18|0.256
92288327|NCT05710718|184482415|SUPERIORITY|||||||0.076|||||||paired T-test|No formal hypothesis test was planned for this pilot study. P-values are provided for exploratory purposes and are unadjusted for multiplicity.||||||0.076
92288328|NCT05056376|184482465|NON_INFERIORITY|Noninferiority was defined a priori as the lower bound of the one-sided 95% CI for the risk difference being greater than or equal to -15%.|||||<|0.05|||||||Regression, Logistic|||The primary analysis was conducted in all randomized participants. Those who did not attend the 12-month study visit were classified as not achieving the primary composite outcome, providing a conservative estimate of intervention effectiveness. The risk difference was estimated using binomial regression.||||<0.05
92288329|NCT03317899|184482481|NON_INFERIORITY|Weibull accelerated failure time model; adjusted for disease type and stem cell collection days; non-inferiority declared if 90% CI upper bound for acceleration factor \< 1.133 (≤13.3% increase in discharge readiness time); one-sided α = 0.05; sample size for \~80% power; O'Brien-Fleming futility boundary applied.||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92288330|NCT03317899|184482482|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92288331|NCT03317899|184482483|OTHER|||||||0.578|||||||Wilcoxon (Mann-Whitney)|||||||0.578
92288332|NCT03317899|184482484|OTHER|||||||0.337|||||||Chi-squared|||||||0.337
92288333|NCT03317899|184482486|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92288334|NCT03317899|184482487|OTHER|||||||0.936|||||||Wilcoxon (Mann-Whitney)|||||||0.936
92183928|NCT03212638|184266302|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|0.998|||||TWO_SIDED|95.0|0.995|1.03||||||Bioequivalence of s single 4 mg dose of baricitinib as the suspension formulation without (T2) water compared to the commercial tablet (R).||1.03|0.995|
92183929|NCT03212638|184266302|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|ratio|0.973|||||TWO_SIDED|95.0|0.936|1.01||||||Bioequivalence of single 4 mg dose of baricitinib as fasted vs fed.||1.01|0.936|
92183930|NCT03212638|184266303|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|0.999|||||TWO_SIDED|95.0|0.996|1.03||||||Bioequivalence of single 4 mg dose of baricitinib as the suspension formulation with (T1) water compared to the commercial tablet (R).||1.03|0.996|
92288335|NCT03317899|184482488|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92266113|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.749|TWO_SIDED|95.0|-0.55|0.4|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.40|-0.55|0.749
92266114|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.019|TWO_SIDED|95.0|-1.27|-0.12|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.12|-1.27|0.019
92266115|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.163|TWO_SIDED|95.0|-0.16|0.96|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.96|-0.16|0.163
92266116|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.727|TWO_SIDED|95.0|-0.43|0.61|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.61|-0.43|0.727
92266117|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.336|TWO_SIDED|95.0|-0.94|0.32|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.32|-0.94|0.336
92266118|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.174|TWO_SIDED|95.0|-0.16|0.87|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.87|-0.16|0.174
92266119|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.277|TWO_SIDED|95.0|-0.73|0.21|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.21|-0.73|0.277
92266120|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.035|TWO_SIDED|95.0|-1.19|-0.04|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.04|-1.19|0.035
92266121|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.858|TWO_SIDED|95.0|-0.5|0.6|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.60|-0.50|0.858
92266122|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.724|TWO_SIDED|95.0|-0.6|0.42|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.42|-0.60|0.724
92266123|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.651|TWO_SIDED|95.0|-0.76|0.48|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.48|-0.76|0.651
92266124|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.059|TWO_SIDED|95.0|-0.02|1.05|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.05|-0.02|0.059
92266125|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.766|TWO_SIDED|95.0|-0.57|0.42|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.42|-0.57|0.766
92266126|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.053|TWO_SIDED|95.0|-1.19|0.01|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.01|-1.19|0.053
92266127|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.212|TWO_SIDED|95.0|-0.21|0.92|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.92|-0.21|0.212
92266128|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.911|TWO_SIDED|95.0|-0.49|0.55|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.55|-0.49|0.911
92288336|NCT03317899|184482489|OTHER|||||||0.089|||||||Chi-squared|||||||0.089
92266129|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.305|TWO_SIDED|95.0|-0.96|0.3|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.30|-0.96|0.305
92266130|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.075|TWO_SIDED|95.0|-0.05|1.02|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.02|-0.05|0.075
92266131|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.684|TWO_SIDED|95.0|-0.39|0.6|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.60|-0.39|0.684
92266132|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.208|TWO_SIDED|95.0|-0.98|0.21|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.21|-0.98|0.208
92266133|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.304|TWO_SIDED|95.0|-0.27|0.85|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.85|-0.27|0.304
92266134|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.356|TWO_SIDED|95.0|-0.27|0.76|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.76|-0.27|0.356
92266135|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.876|TWO_SIDED|95.0|-0.67|0.58|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.58|-0.67|0.876
92266136|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.02|TWO_SIDED|95.0|0.1|1.15|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.15|0.10|0.020
92266137|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.94|TWO_SIDED|95.0|-0.5|0.47|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.47|-0.50|0.940
92266138|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.032|TWO_SIDED|95.0|-1.23|-0.06|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.06|-1.23|0.032
92266139|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.206|TWO_SIDED|95.0|-0.21|0.95|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.95|-0.21|0.206
92266140|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.31|TWO_SIDED|95.0|-0.26|0.81|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM):The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.81|-0.26|0.310
92266141|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.771|TWO_SIDED|95.0|-0.74|0.55|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM):The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.55|-0.74|0.771
92266142|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean difference|0.7||||0.016|TWO_SIDED|95.0|0.13|1.24|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.24|0.13|0.016
92266143|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.905|TWO_SIDED|95.0|-0.48|0.54|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.54|-0.48|0.905
92288337|NCT03317899|184482490|OTHER|||||||0.645|||||||Chi-squared|||||||0.645
92288338|NCT00446966|184482512|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92288339|NCT01492439|184482515|SUPERIORITY_OR_OTHER|||||||0.029||||||This applies to Semester 1.|t-test, 1 sided|||||||0.029
92288340|NCT01492439|184482515|SUPERIORITY_OR_OTHER|||||||0.225||||||This applies to semester 2.|t-test, 1 sided|||||||0.225
92288341|NCT01492439|184482516|SUPERIORITY_OR_OTHER|||||||0.247||||||This applies to the 'positive' subscale of the PANSS.|ANCOVA|||||||0.247
92288342|NCT01492439|184482516|SUPERIORITY_OR_OTHER|||||||0.747||||||This applies to the 'negative' subscale of the PANSS.|ANCOVA|||||||0.747
92288343|NCT01492439|184482516|SUPERIORITY_OR_OTHER|||||||0.582||||||This applies to the 'general psychopathology' subscale of the PANSS.|ANCOVA|||||||0.582
92288344|NCT01492439|184482517|SUPERIORITY_OR_OTHER|||||||0|||||||ANCOVA|||||||0.000
92288345|NCT01492439|184482518|SUPERIORITY_OR_OTHER|||||||0.95||||||This applies to the 'positive' subscale of the PANSS.|ANCOVA|||||||0.950
92288346|NCT01492439|184482518|SUPERIORITY_OR_OTHER|||||||0.027||||||This applies to the 'negative' subscale of the PANSS.|ANCOVA|||||||0.027
92288347|NCT01492439|184482518|SUPERIORITY_OR_OTHER|||||||0.639||||||This applies to the 'general psychopathology' subscale of the PANSS.|ANCOVA|||||||0.639
92288348|NCT01492439|184482519|SUPERIORITY_OR_OTHER|||||||0.008|||||||ANCOVA|||||||0.008
92288349|NCT01492439|184482520|SUPERIORITY_OR_OTHER|||||||0.314||||||This applies to Trial 1 on the CVLT.|ANCOVA|||||||0.314
92288350|NCT01492439|184482520|SUPERIORITY_OR_OTHER|||||||0.242||||||This applies to the total score of trials 1-4 (total free recall) of the CVLT.|ANCOVA|||||||0.242
92288351|NCT01492439|184482520|SUPERIORITY_OR_OTHER|||||||0.669||||||This applies to the 'long delay free recall' subtest of the CVLT.|ANCOVA|||||||0.669
92288352|NCT01492439|184482521|SUPERIORITY_OR_OTHER|||||||0.139||||||This applies to the 'trial 1' subtest of the CVLT.|ANCOVA|||||||0.139
92288353|NCT01492439|184482521|SUPERIORITY_OR_OTHER|||||||0.269||||||This applies to the total of trials 1-4 (total free recall) of the CVLT.|ANCOVA|||||||0.269
92288354|NCT01492439|184482521|SUPERIORITY_OR_OTHER|||||||0.666||||||This applies to the 'long delay free recall' subtest of the CVLT.|ANCOVA|||||||0.666
92288355|NCT01492439|184482522|SUPERIORITY_OR_OTHER|||||||0.391|||||||ANCOVA|||||||0.391
92288356|NCT01492439|184482523|SUPERIORITY_OR_OTHER|||||||0.958|||||||ANCOVA|||||||0.958
92288357|NCT01492439|184482524|SUPERIORITY_OR_OTHER|||||||0.754||||||This applies to the 'forward' sequence of the Digit Span Test.|ANCOVA|||||||0.754
92288358|NCT01492439|184482524|SUPERIORITY_OR_OTHER|||||||0.518||||||This applies to the 'backward' sequence of the Digit Span Test.|ANCOVA|||||||0.518
92288359|NCT01492439|184482524|SUPERIORITY_OR_OTHER|||||||0.531||||||This applies to the total score (forward+backwards) on the Digit Span Test.|ANCOVA|||||||0.531
92288360|NCT01492439|184482525|SUPERIORITY_OR_OTHER|||||||0.802||||||This applies to the 'forward' sequence of the Digit Span Test.|ANCOVA|||||||0.802
92288361|NCT01492439|184482525|SUPERIORITY_OR_OTHER|||||||0.091||||||This applies to the 'backwards' sequence of the Digit Span Test.|ANCOVA|||||||0.091
92288362|NCT01492439|184482525|SUPERIORITY_OR_OTHER|||||||0.171||||||This applies to the total score (forward + backwards) on the Digit Span Test.|ANCOVA|||||||0.171
92288363|NCT01492439|184482526|SUPERIORITY_OR_OTHER|||||||0.267|||||||ANCOVA|||||||0.267
92288364|NCT01492439|184482527|SUPERIORITY_OR_OTHER|||||||0.527|||||||ANCOVA|||||||0.527
92288365|NCT01492439|184482528|SUPERIORITY_OR_OTHER|||||||0.852||||||This applies to the percentage of perseverative errors on the WCST.|ANCOVA|||||||0.852
92288366|NCT01492439|184482528|SUPERIORITY_OR_OTHER|||||||0.637||||||This applies to the percentage of conceptual level responses on the WCST.|ANCOVA|||||||0.637
92288367|NCT01492439|184482529|SUPERIORITY_OR_OTHER|||||||0.612||||||This applies to the total number of correct categories on the WCST|ANCOVA|||||||0.612
92288368|NCT01492439|184482530|SUPERIORITY_OR_OTHER|||||||0.156||||||This applies to the percentage of perseverative errors on the WCST.|ANCOVA|||||||0.156
92288369|NCT01492439|184482530|SUPERIORITY_OR_OTHER|||||||0.926||||||This applies to the percentage of conceptual level responses on the WCST.|ANCOVA|||||||0.926
92288370|NCT01492439|184482531|SUPERIORITY_OR_OTHER|||||||0.843|||||||ANCOVA|||This applies to the total number of categories on the WCST.||||0.843
92288371|NCT01492439|184482532|SUPERIORITY_OR_OTHER|||||||0.129||||||This applies to the total number of errors made on the DVT.|ANCOVA|||||||0.129
92288372|NCT01492439|184482533|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANCOVA|||This applies to the total time taken to complete the DVT.||||0.004
92288373|NCT01492439|184482534|SUPERIORITY_OR_OTHER|||||||0.853|||||||ANCOVA|This applies to the total number of errors on the DVT.||||||0.853
92288374|NCT01492439|184482535|SUPERIORITY_OR_OTHER|||||||0.468|||||||ANCOVA|||This applies to the total time taken to complete the DVT.||||0.468
92288375|NCT00673660|184482537|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Values less than 0.05 were considered statistically significant.|t-test, 2 sided|||Total cholesterol||||<0.001
92288376|NCT00673660|184482537|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Values less than 0.05 were considered statistically significant.|t-test, 2 sided|||LDL cholesterol||||<0.001
92288377|NCT00673660|184482537|SUPERIORITY_OR_OTHER_LEGACY|||||||0.972|TWO_SIDED|||||p-Values less than 0.05 were considered statistically significant.|t-test, 1 sided|||HDL cholesterol||||0.972
92288378|NCT00673660|184482537|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034|TWO_SIDED|||||p-Values less than 0.05 were considered statistically significant.|t-test, 2 sided|||Triglycerides||||0.034
92288379|NCT05919823|184482601|SUPERIORITY|Least-squares mean difference|Least-squares mean difference|-9.2|STANDARD_ERROR_OF_MEAN|2.835||0.0014|TWO_SIDED|95.0|-14.8|-3.6|||Mixed model repeated measure|MMRM includes PANSS change at Weeks 2-5; fixed effects: treatment, visit, interaction; covariates: site, age, sex, baseline.|Numerator=KarXT/KarXT, denominator =Placebo/KarXT|||-3.6|-14.8|0.0014
92288380|NCT05919823|184482602|SUPERIORITY|Least-squares mean difference|Least-squares mean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.952||0.0474|TWO_SIDED|95.0|-3.8|0.0|||Mixed model for Repeated measures|includes PANSS change at Weeks 2-5; fixed effects: treatment, visit, interaction; covariates: site, age, sex, baseline PANSS positive symptom score.|Numerator=KarXT/KarXT, denominator =Placebo/KarXT|||0|-3.8|0.0474
92288381|NCT05919823|184482603|SUPERIORITY|Least-squares mean difference|Least-squares mean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.887||0.0062|TWO_SIDED|95.0|-4.2|-0.7|||Mixed model for Repeated measures|includes PANSS change at Weeks 2-5; fixed effects: treatment, visit, interaction; covariates: site, age, sex, baseline PANSS positive symptom score.||||-0.7|-4.2|0.0062
92288382|NCT05919823|184482604|SUPERIORITY|Least-squares mean difference|Least-squares mean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.906||0.0056|TWO_SIDED|95.0|-4.3|-0.8|||Mixed model for Repeated measures|includes PANSS change at Weeks 2-5; fixed effects: treatment, visit, interaction; covariates: site, age, sex, baseline PANSS positive symptom score.||||-0.8|-4.3|0.0056
92288383|NCT05919823|184482605|SUPERIORITY|Least-squares mean difference|Least-squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.165||0.0208|TWO_SIDED|95.0|-0.7|-0.1|||Mixed model for repeated measures|ncludes PANSS change at Weeks 2-5; fixed effects: treatment, visit, interaction; covariates: site, age, sex, baseline PANSS positive symptom score.||||-0.1|-0.7|0.0208
92288384|NCT05919823|184482606|SUPERIORITY||Percentage difference|15.8||||0.0402|TWO_SIDED|95.0|0.7|29.9|||Chi-squared|||||29.9|0.7|0.0402
92288385|NCT01648582|184482626|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.57|||||TWO_SIDED|95.0|-0.74|-0.4||||||||-0.40|-0.74|
92288386|NCT01648582|184482626|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.18|||||TWO_SIDED|95.0|-0.35|-0.01||||||||-0.01|-0.35|
92288387|NCT01648582|184482627|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.57|||||TWO_SIDED|95.0|-0.77|-0.38||||||||-0.38|-0.77|
92288388|NCT01648582|184482627|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.13|||||TWO_SIDED|95.0|-0.33|-0.06||||||||-0.06|-0.33|
92288389|NCT01648582|184482628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||\<7.0% Week 26||||<0.001
92288390|NCT01648582|184482628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Fisher Exact|||\<7.0 Week 26||||0.004
92288391|NCT01648582|184482628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||\<=6.5% Week 26||||<0.001
92288392|NCT01648582|184482628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||\<=6.5% Week 26||||<0.001
92288393|NCT01648582|184482628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||\<7.0% Week 52||||<0.001
92288394|NCT01648582|184482628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Fisher Exact|||\<7.0% Week 52||||0.002
92288395|NCT01648582|184482628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||\<=6.5% Week 52||||<0.001
92288396|NCT01648582|184482628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||\<=6.5% Week 52||||<0.001
92288397|NCT01648582|184482629|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.24||||0.177|TWO_SIDED|95.0|-0.11|0.59|||Mixed Models Analysis|||Week 26||0.59|-0.11|0.177
92288398|NCT01648582|184482629|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.88|||<|0.001|TWO_SIDED|95.0|0.53|1.23|||Mixed Models Analysis|||Week 26||1.23|0.53|<0.001
92288399|NCT01648582|184482629|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.12||||0.518|TWO_SIDED|95.0|-0.25|0.5|||Mixed Models Analysis|||Week 52||0.50|-0.25|0.518
92288400|NCT01648582|184482629|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.82|||<|0.001|TWO_SIDED|95.0|0.45|1.2|||Mixed Models Analysis|||Week 52||1.20|0.45|<0.001
92288401|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.65|||<|0.001|TWO_SIDED|95.0|0.42|0.88|||Mixed Models Analysis|||Morning pre-meal, Week 26||0.88|0.42|<0.001
92288402|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.94|||<|0.001|TWO_SIDED|95.0|0.71|1.17|||Mixed Models Analysis|||Morning pre-meal, Week 26||1.17|0.71|<0.001
92288403|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.49||||0.024|TWO_SIDED|95.0|-0.92|-0.07|||Mixed Models Analysis|||Morning 2-hours post-meal, Week 26||-0.07|-0.92|0.024
92288404|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.11||||0.617|TWO_SIDED|95.0|-0.53|0.32|||Mixed Models Analysis|||Morning 2-hours post-meal, Week 26||0.32|-0.53|0.617
92288405|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.35||||0.055|TWO_SIDED|95.0|-0.7|0.01|||Mixed Models Analysis|||Mid-day pre-meal, Week 26||0.01|-0.70|0.055
92288406|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.03||||0.855|TWO_SIDED|95.0|-0.32|0.39|||Mixed Models Analysis|||Mid-day pre-meal, Week 26||0.39|-0.32|0.855
92288407|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.05|||<|0.001|TWO_SIDED|95.0|-1.46|-0.64|||Mixed Models Analysis|||Mid-day 2-hours post-meal, Week 26||-0.64|-1.46|<0.001
92288408|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.6||||0.004|TWO_SIDED|95.0|-1.01|-0.19|||Mixed Models Analysis|||Mid-day 2-hours post-meal, Week 26||-0.19|-1.01|0.004
92288409|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.63|||<|0.001|TWO_SIDED|95.0|-0.97|-0.29|||Mixed Models Analysis|||Evening pre-meal, Week 26||-0.29|-0.97|<0.001
92288410|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.12||||0.489|TWO_SIDED|95.0|-0.45|0.22|||Mixed Models Analysis|||Evening pre-meal, Week 26||0.22|-0.45|0.489
92288411|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.89|||<|0.001|TWO_SIDED|95.0|-1.3|-0.48|||Mixed Models Analysis|||Evening 2-hours post-meal, Week 26||-0.48|-1.30|<0.001
92288412|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.47||||0.024|TWO_SIDED|95.0|-0.88|-0.06|||Mixed Models Analysis|||Evening 2-hours post-meal, Week 26||-0.06|-0.88|0.024
92288413|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.79|||<|0.001|TWO_SIDED|95.0|-1.17|-0.41|||Mixed Models Analysis|||Bedtime, Week 26||-0.41|-1.17|<0.001
92288414|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.35||||0.067|TWO_SIDED|95.0|-0.73|-0.03|||Mixed Models Analysis|||Bedtime, Week 26||-0.03|-0.73|0.067
92288415|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.77|||<|0.001|TWO_SIDED|95.0|0.52|1.01|||Mixed Models Analysis|||Morning pre-meal, Week 52||1.01|0.52|<0.001
92288416|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.06|||<|0.001|TWO_SIDED|95.0|0.82|1.31|||Mixed Models Analysis|||Morning pre-meal, Week 52||1.31|0.82|<0.001
92288417|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.53||||0.025|TWO_SIDED|95.0|-1.0|-0.07|||Mixed Models Analysis|||Morning 2-hours post-meal, Week 52||-0.07|-1.00|0.025
92288418|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.21||||0.384|TWO_SIDED|95.0|-0.67|0.26|||Mixed Models Analysis|||Morning 2-hours post-meal, Week 52||0.26|-0.67|0.384
92288419|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.43||||0.024|TWO_SIDED|95.0|-0.8|-0.06|||Mixed Models Analysis|||Mid-day pre-meal, Week 52||-0.06|-0.80|0.024
92288420|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.05||||0.783|TWO_SIDED|95.0|-0.32|0.42|||Mixed Models Analysis|||Mid-day pre-meal, Week 52||0.42|-0.32|0.783
92288421|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.63||||0.004|TWO_SIDED|95.0|-1.07|-0.2|||Mixed Models Analysis|||Mid-day 2-hours post-meal, Week 52||-0.20|-1.07|0.004
92288422|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.48||||0.029|TWO_SIDED|95.0|-0.92|-0.05|||Mixed Models Analysis|||Mid-day 2-hours post-meal, Week 52||-0.05|-0.92|0.029
92288423|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.64|||<|0.001|TWO_SIDED|95.0|-1.01|-0.27|||Mixed Models Analysis|||Evening pre-meal, Week 52||-0.27|-1.01|<0.001
92288424|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.603|TWO_SIDED|95.0|-0.47|0.27|||Mixed Models Analysis|||Evening pre-meal, Week 52||0.27|-0.47|0.603
92288425|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.83|||<|0.001|TWO_SIDED|95.0|-1.26|-0.41|||Mixed Models Analysis|||Evening 2-hours post-meal, Week 52||-0.41|-1.26|<0.001
92288426|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.45||||0.039|TWO_SIDED|95.0|-0.87|-0.02|||Mixed Models Analysis|||Evening 2-hours post-meal, Week 52||-0.02|-0.87|0.039
92288427|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.99|||<|0.001|TWO_SIDED|95.0|-1.39|-0.6|||Mixed Models Analysis|||Bedtime, Week 52||-0.60|-1.39|<0.001
92288428|NCT01648582|184482630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.59||||0.003|TWO_SIDED|95.0|-0.98|-0.2|||Mixed Models Analysis|||Bedtime, Week 52||-0.20|-0.98|0.003
92288429|NCT01648582|184482631|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|34.41|STANDARD_ERROR_OF_MEAN|3.831||0.352|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%B, Dula 1.5 mg, Week 26||||0.352
92288430|NCT01648582|184482631|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|31.17|STANDARD_ERROR_OF_MEAN|3.761||0.352|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%B, Dula 0.75 mg, Week 26||||0.352
92288431|NCT01648582|184482631|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|45.12|STANDARD_ERROR_OF_MEAN|4.147||0.025|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%B, Dula 1.5, Week 52||||0.025
92288432|NCT01648582|184482631|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|36.64|STANDARD_ERROR_OF_MEAN|4.061||0.025|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%B, Dula 0.75 mg, Week 52||||0.025
92288433|NCT01648582|184482632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|36.57|STANDARD_ERROR_OF_MEAN|2.977||0.025|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%S, Dula 1.5 mg, Week 26||||0.025
92288434|NCT01648582|184482632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|30.42|STANDARD_ERROR_OF_MEAN|2.94||0.025|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%S, Dula 0.75 mg, Week 26||||0.025
92288435|NCT01648582|184482632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|41.02|STANDARD_ERROR_OF_MEAN|2.9||0.029|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%S, Dula 1.5 mg, Week 52||||0.029
92288436|NCT01648582|184482632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|35.19|STANDARD_ERROR_OF_MEAN|2.864||0.029|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%S, Dula 0.75 mg, Week 52||||0.029
92288437|NCT01648582|184482635|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||||||Overall p-value|Mixed Models Analysis|||Week 26 SBP||||0.008
92288438|NCT01648582|184482635|SUPERIORITY_OR_OTHER_LEGACY|||||||0.584||||||Overall p-value|Mixed Models Analysis|||Week 26 DBP||||0.584
92288439|NCT01648582|184482635|SUPERIORITY_OR_OTHER_LEGACY|||||||0.169||||||Overall p-value|Mixed Models Analysis|||Week 52 SBP||||0.169
92288440|NCT01648582|184482635|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||||||Overall p-value|Mixed Models Analysis|||Week 52 DBP||||0.110
92288441|NCT01648582|184482636|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Overall p-value|Mixed Models Analysis|||Week 26||||<0.001
92288442|NCT01648582|184482636|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Overall p-value|Mixed Models Analysis|||Week 52||||<0.001
92288443|NCT01648582|184482643|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Week 26|Mixed Models Analysis|||||||<0.001
92288444|NCT01648582|184482643|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Week 52||||<0.001
92288445|NCT01648582|184482644|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Week 26||||<0.001
92288446|NCT01648582|184482644|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Week 52||||<0.001
92288447|NCT04614168|184482648|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||||||>0.99
92288448|NCT04614168|184482648|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
92288449|NCT04614168|184482649|SUPERIORITY|||||||0.37|||||||ANOVA|||||||0.37
92288450|NCT04614168|184482649|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92288451|NCT04614168|184482650|SUPERIORITY|||||||0.2|||||||ANOVA|||||||0.20
92288452|NCT04614168|184482650|SUPERIORITY|||||||0.95|||||||ANOVA|||||||0.95
92288453|NCT04614168|184482651|SUPERIORITY|||||||0.58|||||||ANOVA|||||||0.58
92288454|NCT04614168|184482651|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.01
92288455|NCT04614168|184482652|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92288456|NCT04614168|184482652|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92288457|NCT04614168|184482653|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
92288458|NCT04614168|184482653|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
92288459|NCT04614168|184482654|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
92288460|NCT04614168|184482654|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92288461|NCT04614168|184482655|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
92288462|NCT04614168|184482655|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||0.88
92288463|NCT04614168|184482656|SUPERIORITY|||||||0.0094|||||||Wilcoxon (Mann-Whitney)|||||||0.0094
92288464|NCT04614168|184482657|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||||||>0.99
92288465|NCT04614168|184482657|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||||||0.82
92288466|NCT04614168|184482658|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92288467|NCT04614168|184482658|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92288468|NCT04614168|184482659|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Behaviour subscale||||0.25
92288469|NCT04614168|184482659|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Worry subscale||||0.63
92288470|NCT04614168|184482659|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||Behaviour subscale||||0.35
92288471|NCT04614168|184482659|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Worry subscale||||0.09
92288472|NCT04614168|184482660|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
92288473|NCT04614168|184482660|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92288474|NCT04614168|184482661|SUPERIORITY|||||||0.77||||||Column factor p-value.|ANOVA|||||||0.77
92288475|NCT04614168|184482661|SUPERIORITY|||||||0.37|||||||ANOVA|||||||0.37
92288476|NCT04614168|184482662|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Trail making A delta clamp 1 compared to clamp 2||||0.88
92288477|NCT04614168|184482662|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Trail Making B delta clamp 1 compared to clamp 2||||0.69
92288478|NCT04614168|184482662|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Trail making A delta clamp 1 compared to clamp 2||||0.41
92288479|NCT04614168|184482662|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||Trail making B delta clamp 1 compared to clamp 2||||0.49
92288480|NCT04614168|184482663|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Digit span forwards||||0.5
92288481|NCT04614168|184482663|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Digit span backwards||||0.5
92288482|NCT04614168|184482663|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||Digit span forwards||||0.53
92288483|NCT04614168|184482663|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
92288484|NCT04614168|184482664|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
92288485|NCT04614168|184482664|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
92288486|NCT04614168|184482665|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
92288487|NCT04614168|184482665|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||||||0.27
92288488|NCT02777580|184482666|OTHER|||||||0.05|||||||Chi-squared|||||||0.05
92288489|NCT02777580|184482667|OTHER||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.62|1.48||||||||1.48|0.62|
92288490|NCT02777580|184482668|OTHER||Risk Ratio (RR)|4.57|||||TWO_SIDED|95.0|0.58|35.8||||||||35.8|0.58|
92288491|NCT02777580|184482669|OTHER||Risk Ratio (RR)|1.27|||||TWO_SIDED|95.0|0.25|6.48||||||||6.48|0.25|
92288492|NCT00840476|184482672|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.26||||||90.0|93.12|107.95|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107.95|93.12|
92288493|NCT00840476|184482673|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|105.14||||||90.0|100.27|110.25|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||110.25|100.27|
92288494|NCT00840476|184482674|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|104.33||||||90.0|99.16|109.76|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109.76|99.16|
92288495|NCT00908128|184482675|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses of Variance (PROC MIXED) was performed on lon-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|90.96||||||90.0|82.4|100.41|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.41|82.40|
92288496|NCT00908128|184482676|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses of Variance (PROC MIXED) was performed on log-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|99.16||||||90.0|96.24|102.16|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.16|96.24|
92288497|NCT00908128|184482677|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses of Variance (PROC MIXED) was performed on the log-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|98.78||||||90.0|95.76|101.89|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.89|95.76|
92288498|NCT03261167|184482678|OTHER||Difference|18.1|||||TWO_SIDED|95.0|1.1|35.0||||||||35.0|1.1|
92288499|NCT03261167|184482679|OTHER||Adjusted rate difference|33.1|||||TWO_SIDED|95.0|17.0|49.2|||||Week 2, Elbow flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||49.2|17.0|
92288500|NCT03261167|184482679|OTHER||Adjusted rate difference|21.7|||||TWO_SIDED|95.0|4.9|38.5|||||Week 4, Elbow flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||38.5|4.9|
92288501|NCT03261167|184482679|OTHER||Adjusted rate difference|18.4|||||TWO_SIDED|95.0|1.3|35.5|||||Week 6, Elbow flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||35.5|1.3|
92288502|NCT03261167|184482679|OTHER||Adjusted rate difference|12.9|||||TWO_SIDED|95.0|-4.2|30.1|||||Week 12, Elbow flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||30.1|-4.2|
92288503|NCT03261167|184482679|OTHER||Adjusted rate difference|-5.6|||||TWO_SIDED|95.0|-20.9|9.8|||||Week 2, Wrist flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||9.8|-20.9|
92288504|NCT03261167|184482679|OTHER||Adjusted rate difference|-8.6|||||TWO_SIDED|95.0|-23.0|5.9|||||Week 4, Wrist flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||5.9|-23.0|
92288505|NCT03261167|184482679|OTHER||Adjusted rate difference|-12.1|||||TWO_SIDED|95.0|-27.5|3.2|||||Week 6, Wrist flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||3.2|-27.5|
92288506|NCT03261167|184482679|OTHER||Adjusted rate difference|-9.6|||||TWO_SIDED|95.0|-27.2|7.9|||||Week 12, Wrist flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||7.9|-27.2|
92288507|NCT03261167|184482679|OTHER||Adjusted rate difference|-8.6|||||TWO_SIDED|95.0|-21.9|4.7|||||Week 2, Finger flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||4.7|-21.9|
92288508|NCT03261167|184482679|OTHER||Adjusted rate difference|-10.4|||||TWO_SIDED|95.0|-24.3|3.4|||||Week 4, Finger flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||3.4|-24.3|
92288509|NCT03261167|184482679|OTHER||Adjusted rate difference|-8.9|||||TWO_SIDED|95.0|-23.8|6.0|||||Week 6, Finger flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||6.0|-23.8|
92288510|NCT03261167|184482679|OTHER||Adjusted rate difference|-0.1|||||TWO_SIDED|95.0|-17.7|17.4|||||Week 12, Finger flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||17.4|-17.7|
92288511|NCT03261167|184482679|OTHER||Adjusted rate difference|-9.9|||||TWO_SIDED|95.0|-26.4|6.5|||||Week 2, Thumb flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||6.5|-26.4|
92288512|NCT03261167|184482679|OTHER||Adjusted rate difference|-6.7|||||TWO_SIDED|95.0|-23.6|10.3|||||Week 4, Thumb flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||10.3|-23.6|
92288513|NCT03261167|184482679|OTHER||Adjusted rate difference|-1.5|||||TWO_SIDED|95.0|-18.8|15.7|||||Week 6, Thumb flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||15.7|-18.8|
92288514|NCT03261167|184482679|OTHER||Adjusted rate difference|-0.5|||||TWO_SIDED|95.0|-18.8|17.9|||||Week 12, Thumb flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||17.9|-18.8|
92288515|NCT03261167|184482680|OTHER||Mean Difference (Net)|-0.48|||||TWO_SIDED|95.0|-0.75|-0.22|||||Week 2, Elbow flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||-0.22|-0.75|
92288516|NCT03261167|184482680|OTHER||Mean Difference (Net)|-0.42|||||TWO_SIDED|95.0|-0.71|-0.13|||||Week 4, Elbow flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||-0.13|-0.71|
92288517|NCT03261167|184482680|OTHER||Mean Difference (Net)|-0.37|||||TWO_SIDED|95.0|-0.71|-0.04|||||Week 6, Elbow flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||-0.04|-0.71|
92288518|NCT03261167|184482680|OTHER||Mean Difference (Net)|-0.27|||||TWO_SIDED|95.0|-0.51|-0.02|||||Week 12, Elbow flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||-0.02|-0.51|
92288519|NCT03261167|184482680|OTHER||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.27|0.42|||||Week 2, Wrist flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.42|-0.27|
92288520|NCT03261167|184482680|OTHER||Mean Difference (Net)|0.11|||||TWO_SIDED|95.0|-0.25|0.46|||||Week 4, Wrist flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.46|-0.25|
92288521|NCT03261167|184482680|OTHER||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.37|0.33|||||Week 6, Wrist flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.33|-0.37|
92288522|NCT03261167|184482680|OTHER||Mean Difference (Net)|0.09|||||TWO_SIDED|95.0|-0.19|0.38|||||Week 12, Wrist flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.38|-0.19|
92288523|NCT03261167|184482680|OTHER||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.23|0.43|||||Week 2, Finger flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.43|-0.23|
92288524|NCT03261167|184482680|OTHER||Mean Difference (Net)|0.17|||||TWO_SIDED|95.0|-0.17|0.52|||||Week 4, Finger flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.52|-0.17|
92288525|NCT03261167|184482680|OTHER||Mean Difference (Net)|-0.14|||||TWO_SIDED|95.0|-0.2|0.48|||||Week 6, Finger flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interaction, Baseline, and Baseline by visit interaction as fixed effects.|||0.48|-0.20|
92288526|NCT03261167|184482680|OTHER||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.25|0.34|||||Week 12, Finger flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interaction, Baseline, and Baseline by visit interaction as fixed effects.|||0.34|-0.25|
92288527|NCT03261167|184482680|OTHER||Mean Difference (Net)|0.28|||||TWO_SIDED|95.0|-0.08|0.63|||||Week 2, Thumb flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.63|-0.08|
92288528|NCT03261167|184482680|OTHER||Mean Difference (Net)|0.14|||||TWO_SIDED|95.0|-0.23|0.51|||||Week 4, Thumb flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.51|-0.23|
92288529|NCT03261167|184482680|OTHER||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.33|0.38|||||Week 6, Thumb flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.38|-0.33|
92288530|NCT03261167|184482680|OTHER||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.31|0.47|||||Week 12, Thumb flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.47|-0.31|
92288531|NCT03261167|184482681|OTHER||Mean Difference (Net)|-0.24|||||TWO_SIDED|95.0|-0.48|0.0|||||Week 2. Analysis method was MMRM with Treatment, Visit, Treatment by visit interaction, Baseline, and Baseline by visit interaction as fixed effects.|||0.00|-0.48|
92288532|NCT03261167|184482681|OTHER||Mean Difference (Net)|-0.16|||||TWO_SIDED|95.0|-0.42|0.09|||||Week 4. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.09|-0.42|
92288533|NCT03261167|184482681|OTHER||Mean Difference (Net)|-0.15|||||TWO_SIDED|95.0|-0.37|0.08|||||Week 6. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.08|-0.37|
92288534|NCT03261167|184482681|OTHER||Mean Difference (Net)|-0.28|||||TWO_SIDED|95.0|-0.52|-0.04|||||Week 12. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||-0.04|-0.52|
92288535|NCT00835146|184482691|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.9||||||90.0|91.8|105.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||105|91.8|
92288536|NCT00835146|184482692|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.3||||||90.0|93.3|106.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106|93.3|
92288537|NCT03930732|184482701|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and a few secondary endpoint analyses at a 2-sided significance level of 0.049. Testing was then performed sequentially in the order the endpoints are reported (till OM 9). The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.049 level.|Risk Difference (RD)|-0.324||||0.0005|TWO_SIDED|95.0|-0.508|-0.14|||Negative binomial model||Derived using delta method.|Derived using negative binomial model with the total number of the events occurring during the 52-week treatment period as the response variable, and treatment group, region (pooled country), inhaled corticosteroid (ICS) dose, smoking status at screening, baseline disease severity, and number of moderate or severe COPD exacerbation events within one year prior to the study as covariates, and log-transformed treatment duration as an offset variable.||-0.140|-0.508|0.0005
92288538|NCT03930732|184482702|SUPERIORITY||Least Square (LS) Mean Difference|0.083|||<|0.0001|TWO_SIDED|95.0|0.042|0.125||Threshold for significance at 0.049 level.|MMRM model|||Derived from mixed-effect model with repeated measures (MMRM) model with the change from baseline in pre-BD FEV1 up to Week 12 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-BD FEV1, and FEV1 baseline-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||0.125|0.042|<0.0001
92288539|NCT03930732|184482703|SUPERIORITY||LS Mean Difference|0.083||||0.0003|TWO_SIDED|95.0|0.038|0.128||Threshold for significance at 0.049 level.|MMRM model|||Derived from MMRM model with the change from baseline in pre-BDFEV1 up to Week 52 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-BD FEV1, and FEV1 baseline-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||0.128|0.038|0.0003
92288540|NCT03930732|184482704|SUPERIORITY||LS Mean Difference|0.124||||0.0022|TWO_SIDED|95.0|0.045|0.203||Threshold for significance at 0.049 level.|MMRM model|||Derived from MMRM model with the change from baseline in pre-BD FEV1 up to Week 12 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-BD FEV1, and FEV1 baseline-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||0.203|0.045|0.0022
92288541|NCT03930732|184482705|SUPERIORITY||LS Mean Difference|0.127||||0.0034|TWO_SIDED|95.0|0.042|0.212||Threshold for significance at 0.049 level.|MMRM model|||Derived from MMRM model with the change from baseline in pre-BD FEV1 up to Week 52 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-BD FEV1, and FEV1 baseline-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||0.212|0.042|0.0034
92288542|NCT03930732|184482706|SUPERIORITY||LS Mean Difference|-3.363||||0.0017|TWO_SIDED|95.0|-5.459|-1.266||Threshold for significance at 0.049 level.|MMRM model|||Derived from MMRM model with the change from baseline in SGRQ total score up to Week 52 as response variables, and treatment group, region (pooled country), ICS dose, smoking status at screening, treatment-by-visit interaction, baseline SGRQ total score, and SGRQ baseline-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-1.266|-5.459|0.0017
92288543|NCT03930732|184482707|SUPERIORITY||Odds Ratio (OR)|1.439||||0.0089|TWO_SIDED|95.0|1.096|1.89||Threshold for significance at 0.049 level.|Regression, Logistic|||Derived from logistic regression model which includes treatment group, region (pooled country), ICS dose, smoking status at screening, and baseline SGRQ total score as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1.890|1.096|0.0089
92288544|NCT03930732|184482708|SUPERIORITY||LS Mean Difference|-1.137||||0.0012|TWO_SIDED|95.0|-1.823|-0.45||Threshold for significance at 0.049 level.|MMRM model|||Derived from MMRM model with the change from baseline in E-RS: COPD RS-Total Score to Week 52 as response variables, and treatment group, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline E-RS: COPD RS-Total Score, and baseline E-RS: COPD RS-Total Score-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.450|-1.823|0.0012
92288545|NCT03930732|184482709|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).|Risk Difference (RD)|-0.418||||0.0052|TWO_SIDED|95.0|-0.728|-0.109||Threshold for significance at 0.049 level.|Negative binomial model||Derived using delta method.|Derived using negative binomial model with the total number of the events occurring during the 52-week treatment period as the response variable, and treatment group, region (pooled country), ICS dose, smoking status at screening, baseline disease severity, and number of moderate or severe COPD exacerbation events within one year prior to the study as covariates, and log-transformed treatment duration as an offset variable.||-0.109|-0.728|0.0052
92288546|NCT00835692|184482731|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Mean x 100|98.4||||||90.0|91.5|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106|91.5|
92288547|NCT00835692|184482732|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Means x 100|93.5||||||90.0|89.6|97.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||97.6|89.6|
92288548|NCT00835692|184482733|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Means x 100|93.5||||||90.0|89.5|97.7|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||97.7|89.5|
92288549|NCT02591420|184482744|SUPERIORITY|||||||0.645|||||||Wilcoxon (Mann-Whitney)|||Pairwise Wilcoxon rank-sum test using 10,000 bootstrapped samples.||||.645
92288550|NCT02591420|184482744|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||.007
92288551|NCT02591420|184482744|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||.003
92288552|NCT02591420|184482745|SUPERIORITY|||||||0.347|||||||Log Rank|||||||.347
92288553|NCT02591420|184482746|SUPERIORITY|||||||0.369|||||||Kruskal-Wallis|||||||.369
92288554|NCT02591420|184482747|SUPERIORITY|||||||0.645||||||p-value calculated using 10,000 bootstrap samples for day 7 data|Wilcoxon (Mann-Whitney)|||Comparison of groups 1 and 2 for data from day 7||||.645
92288555|NCT02591420|184482747|SUPERIORITY|||||||0.028||||||p-value calculated using 10,000 bootstrap samples for day 7 data|Wilcoxon (Mann-Whitney)|||Comparison between groups 1 and 3 for data from day 7||||0.028
92288556|NCT02591420|184482747|SUPERIORITY|||||||0.798||||||p-value calculated using 10,000 bootstrap samples for day 14 data|Wilcoxon (Mann-Whitney)|||Comparison of groups 1 and 2 for data from day 14||||0.798
92288557|NCT02591420|184482747|SUPERIORITY|||||||0.505||||||p-value calculated using 10,000 bootstrap samples for day 14 data|Wilcoxon (Mann-Whitney)|||Comparison of groups 1 and 3 for data from day 14||||.505
92288558|NCT02591420|184482747|SUPERIORITY||||||>|0.999||||||p-value calculated using 10,000 bootstrap samples for day 168 data|Wilcoxon (Mann-Whitney)|||Comparison of groups 1 and 2 at study day 168 (week 24)||||>.999
92288559|NCT02591420|184482747|SUPERIORITY|||||||0.497||||||p-value calculated using 10,000 bootstrap samples for day 168 data|Wilcoxon (Mann-Whitney)|||Comparison of groups 1 and 3 at study day 168||||0.497
92288560|NCT02591420|184482752|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>.999
92288561|NCT02591420|184482752|SUPERIORITY|||||||0.39|||||||Barnard's test|||This test compares group 1 to groups 2 and 3 combined (1 vs. 2 \& 3)||||0.390
92288562|NCT02591420|184482753|SUPERIORITY|||||||0.694||||||Comparison of change in CD4+ T cells in Groups 1 and 2 from baseline to Nadir p-value calculated using 10,000 bootstrapped samples|Wilcoxon (Mann-Whitney)|||Comparison of change in CD4+ T cells in Groups 1 and 2 from baseline to Nadir||||0.694
92288563|NCT02591420|184482753|SUPERIORITY|||||||0.729|||||||Wilcoxon (Mann-Whitney)|Comparison of change in CD4+ T cells in Groups 1 and 3 from baseline to Nadir p-value calculated using 10,000 bootstrapped samples||Comparison of change in CD4+ T cells in Groups 1 and 3 from baseline to Nadir||||0.729
92288564|NCT02591420|184482753|SUPERIORITY|||||||0.694|||||||Wilcoxon (Mann-Whitney)|Comparison of change in CD4+ T cells in Groups 1 and 2 from Nadir to Day 168 p-value calculated using 10,000 bootstrapped samples||Comparison of change in CD4+ T cells in Groups 1 and 2 from Nadir to Day 168||||0.694
92288565|NCT02591420|184482753|SUPERIORITY|||||||0.393|||||||Wilcoxon (Mann-Whitney)|Comparison of change in CD4+ T cells in Groups 1 and 3 from Nadir to Day 168 p-value calculated using 10,000 bootstrapped samples||Comparison of change in CD4+ T cells in Groups 1 and 3 from Nadir to Day 168||||0.393
92288566|NCT02591420|184482753|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|Comparison of change in CD4+ T cells in Groups 1 and 2 from Baseline to Day 168 p-value calculated using 10,000 bootstrapped samples||Comparison of change in CD4+ T cells in Groups 1 and 2 from Baseline to Day 168||||>.999
92288567|NCT02591420|184482753|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|Comparison of change in CD4+ T cells in Groups 1 and 3 from Baseline to Day 168 p-value calculated using 10,000 bootstrapped samples||Comparison of change in CD4+ T cells in Groups 1 and 3 from Baseline to Day 168 p-value calculated using 10,000 bootstrapped samples||||>.999
92288568|NCT02591420|184482754|SUPERIORITY|||||||0.8629||||||Multiple comparisons are not required|Wilcoxon (Mann-Whitney)|||||||.8629
92288569|NCT04970810|184482797|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|||||||0.8
92288570|NCT04970810|184482797|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||||||0.3
92288571|NCT04970810|184482797|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.5
92288572|NCT04970810|184482798|SUPERIORITY|||||||0.2|||||||Chi-squared|||Documented goals at baseline for all three arms.||||0.2
92288573|NCT04970810|184482798|SUPERIORITY||||||<|0.001|||||||Chi-squared|||Documented goals after Baseline in all three arms.||||<0.001
92288574|NCT04970810|184482799|SUPERIORITY|||||||0.7|||||||Chi-squared|||Initial goal at baseline.||||0.7
92288575|NCT04970810|184482799|SUPERIORITY|||||||0.6|||||||Chi-squared|||Modified goal after Month 1 call with nurse.||||0.6
92288576|NCT04970810|184482800|SUPERIORITY|||||||0.2|||||||Chi-squared|||Achieved goal at baseline across three arms.||||0.2
92288577|NCT04970810|184482800|SUPERIORITY|||||||0.9|||||||Chi-squared|||Achieved goal at 12 months across all three arms.||||0.9
92288578|NCT04970810|184482801|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||0.9
92288579|NCT04970810|184482801|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.2
92288580|NCT04970810|184482801|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.1
92288581|NCT04742491|184482808|SUPERIORITY||Percentage|73.1||||0.8|TWO_SIDED|95.0|65.89|80.3|||Chi-squared||||The estimates and C.I. (In percentage) are derived using Chi-squared test.|80.30|65.89|0.80
92288582|NCT04742491|184482808|SUPERIORITY||Percentage|71.81||||0.8|TWO_SIDED|95.0|64.59|79.04|||Chi-squared||The estimates and C.I. (In percentage) are derived using Chi-squared test.|||79.04|64.59|0.80
92288583|NCT04742491|184482813|SUPERIORITY|||||||0.59|||||||Binomial Distribution|||||||0.59
92288584|NCT04742491|184482815|OTHER||Percentage|85.23||||0.6381|TWO_SIDED|95.0|79.54|90.93|||Binomial Distribution||The estimates and C.I. (In percentage) are derived using binomial distribution.|||90.93|79.54|0.6381
92288585|NCT04742491|184482815|OTHER||Percentage|87.1||||0.6381|TWO_SIDED|95.0|81.82|92.37|||Binomial Distribution||The estimates and C.I. (In percentage) are derived using binomial distribution.|||92.37|81.82|0.6381
92288586|NCT04742491|184482820|OTHER|The odds ratio was calculated with the deferred intervention arm as the reference group.|Odds Ratio (OR)|0.96||||0.91|TWO_SIDED|95.0|0.45|2.03|||Regression, Logistic|||Calculating the odds of Gonorrhea.||2.03|0.45|0.91
92288587|NCT04742491|184482820|OTHER|The odds ratio was calculated with the deferred intervention arm as the reference group.|Odds Ratio (OR)|0.96||||0.91|TWO_SIDED|95.0|0.45|2.03|||Regression, Logistic|||Calculating the odds of Chlamydia Trachomatis.||2.03|0.45|0.91
92288588|NCT04742491|184482820|OTHER|The odds ratio was calculated with the deferred intervention arm as the reference group.|Odds Ratio (OR)|0.76||||0.32|TWO_SIDED|95.0|0.45|1.3|||Regression, Logistic|||Calculating the odds of a syphilis positive/reactive test.||1.30|0.45|0.32
92288589|NCT04742491|184482821|SUPERIORITY||Odds Ratio (OR)|1.45||||0.69|TWO_SIDED|95.0|0.24|8.81|||Regression, Logistic|||Logistic regression results of Hepatitis C infection at baseline.||8.81|0.24|0.69
92288590|NCT04742491|184482828|SUPERIORITY||Incidence Rate|1.92|||||TWO_SIDED|95.0|0.72|5.12||||||Poisson regression models with person time were used to estimate HIV incidence for the immediate intervention arm.||5.12|0.72|
92288591|NCT04742491|184482828|SUPERIORITY||Incidence Rate|0.48|||||TWO_SIDED|95.0|0.07|3.39||||||Poisson regression models with person time was used to estimate HIV incidence for the deferred intervention arm.||3.39|0.07|
92288592|NCT04742491|184482829|SUPERIORITY||Incidence Rate|31.47||||0.93|TWO_SIDED|95.0|23.86|41.51|||Poisson Regression||Incidence Rate of any STI Incidence per Person-Years using Poisson Regression was calculated.|Incidence rate of STIs for immediate intervention arm||41.51|23.86|0.93
92288593|NCT04742491|184482829|SUPERIORITY||Incidence Rate|32.01||||0.93|TWO_SIDED|95.0|23.92|42.83|||Poisson Regression||Incidence Rate of any STI Incidence per Person-Years using Poisson Regression was calculated.|Incidence rate of STIs for deferred intervention arm||42.83|23.92|0.93
92288594|NCT04742491|184482829|SUPERIORITY||Poisson Regression|31.74||||0.93|TWO_SIDED|95.0|25.96|38.8|||Poisson Regression||Incidence Rate of any STI Incidence per Person-Years using Poisson Regression was calculated.|Poisson regression was used to compare the incidence rate of STIs by arm.||38.80|25.96|0.93
92288595|NCT04742491|184482830|SUPERIORITY||Odds Ratio (OR)|2.44||||0.08|TWO_SIDED|95.0|0.89|6.69|||Regression, Logistic||Estimates are for age group 26+ compared to 25 or less.|Multivariable logistic regression modeled PrEP uptake using age, highest level of education, and physical violence, adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to participants with complete data (N = 190 of 304). This section presents p-values and odds ratios for age.||6.69|0.89|0.08
92288596|NCT04742491|184482830|SUPERIORITY||Odds Ratio (OR)|0.38||||0.37|TWO_SIDED|95.0|0.05|3.16|||Regression, Logistic||Estimates are for comparison of highest level of education primary school vs. college.|Multivariable logistic regression modeled PrEP uptake using age, highest level of education, and physical violence, adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to participants with complete data (N = 190 of 304). This section provides p-values and odds ratio estimates for education.||3.16|0.05|0.37
92288597|NCT04742491|184482830|SUPERIORITY||Odds Ratio (OR)|0.41||||0.04|TWO_SIDED|95.0|0.17|0.98|||Regression, Logistic||Estimates are for comparison of highest level of education high school vs. college|Multivariable logistic regression modeled PrEP uptake using age, highest level of education, and physical violence, adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to participants with complete data (N = 190 of 304). This section provides p-values and odds ratio estimates for education.||0.98|0.17|0.04
92288598|NCT04742491|184482830|SUPERIORITY||Odds Ratio (OR)|2.21||||0.07|TWO_SIDED|95.0|0.98|5.28|||Regression, Logistic||Estimates are for comparison of physical violence yes vs. no|Multivariable logistic regression modeled PrEP uptake using age, highest level of education, and physical violence, adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to participants with complete data (N = 190 of 304). This section provides p-values and odds ratio estimates for physical violence.||5.28|0.98|0.07
92288599|NCT04742491|184482830|SUPERIORITY||Odds Ratio (OR)|999.99||||0.97|TWO_SIDED|95.0|0.001|999.99|||Regression, Logistic||Estimates are for comparison of physical violence prefer not answer vs. no (not estimable)|Multivariable logistic regression modeled PrEP uptake using age, highest level of education, and physical violence, adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to participants with complete data (N = 190 of 304).This section provides p-values and odds ratio estimates for physical violence.||999.99|0.001|0.97
92288600|NCT04742491|184482831|SUPERIORITY||Odds Ratio (OR)|0.95||||0.8|TWO_SIDED|95.0|0.64|1.4|||GEE||Estimates are for group emotional violence yes vs. no.|Multivariable GEE modeling the probability of high PrEP adherence with predictor emotional violence adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to visits with complete data (1518 of 1533 visits). This section provides p-values and odds ratio estimates for emotional violence.||1.40|0.64|0.8
92288601|NCT04742491|184482831|SUPERIORITY||Odds Ratio (OR)|2.57||||0.004|TWO_SIDED|95.0|1.35|4.92|||GEE||Estimates are for group emotional violence prefer not to answer vs. no.|Multivariable GEE modeling the probability of high PrEP adherence with predictor emotional violence adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to visits with complete data (1518 of 1533 visits). This section provides p-values and odds ratio estimates for emotional violence.||4.92|1.35|0.004
92288602|NCT04742491|184482832|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.08|TWO_SIDED|95.0|-0.39|0.02|||Regression, Linear||Estimates are for highest level of education primary school vs. college.|Multivariable linear regression of PrEP persistence with predictors highest level of education and emotional violence adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to participants with complete data (N = 252 of 268). This section provides p-values and odds ratio estimates for highest level of education.||0.02|-0.39|0.08
92288603|NCT04742491|184482832|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.06|TWO_SIDED|95.0|-0.22|0.003|||Regression, Linear||Estimates are for highest level of education high school vs. college.|Multivariable linear regression of PrEP persistence with predictors highest level of education, and emotional violence, adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to participants with complete data (N = 252 of 268). This section provides p-values and odds ratio estimates for the highest level of education.||0.003|-0.22|0.06
92288604|NCT04742491|184482832|SUPERIORITY||Mean Difference (Final Values)|-0.016||||0.76|TWO_SIDED|95.0|-0.12|0.09|||Regression, Linear|||Multivariable linear regression of PrEP persistence with predictors highest level of education, and emotional violence, adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to participants with complete data (N = 252 of 268). This section provides p-values and odds ratio estimates for emotional violence.|Estimates are for group emotional violence yes vs. no.|0.09|-0.12|0.76
92288605|NCT04742491|184482832|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.09|TWO_SIDED|95.0|-0.06|0.78|||Regression, Linear|||Multivariable linear regression of PrEP persistence with predictors highest level of education, and emotional violence, adjusting for site. Only predictors significant in univariable analysis were included-study arm was excluded due to lack of significance. Analysis was limited to participants with complete data (N = 252 of 268). This section provides p-values and odds ratio estimates for emotional violence.|Estimates are for group emotional violence prefer not to answer vs. no.|0.78|-0.06|0.09
92288606|NCT04742491|184482833|OTHER||||||||||||||||||"Multivariable logistic regression was pre-specified but not performed because there were too few participants with the outcome absent (i.e., very few 'No' responses), leading to separation and non-estimable/unstable adjusted effect estimates. Results for Yes responses are presented descriptively (counts and percentages) by arm in the outcome measure data table."|||
92288607|NCT04618211|184482857|SUPERIORITY||Least squares mean difference|-16.75|STANDARD_ERROR_OF_MEAN|2.423|<|0.0001|TWO_SIDED|95.0|-21.52|-11.97||Nominal p-value|Mixed model repeated measures|||||-11.97|-21.52|< 0.0001
92288608|NCT04618211|184482857|SUPERIORITY||Least squares mean difference|-15.02|STANDARD_ERROR_OF_MEAN|2.64|<|0.0001|TWO_SIDED|95.0|-20.22|-9.81|||Mixed model repeated measures|||||-9.81|-20.22|< 0.0001
92288609|NCT04618211|184482857|SUPERIORITY||Least squares mean difference|-16.28|STANDARD_ERROR_OF_MEAN|2.531|<|0.0001|TWO_SIDED|95.0|-21.27|-11.29|||Mixed model repeated measures|||||-11.29|-21.27|< 0.0001
92288610|NCT04618211|184482858|SUPERIORITY||Hazard Ratio (HR)|3.81|||<|0.0001|TWO_SIDED|95.0|2.01|7.2||Nominal p-value|Marginal Cox Proportional Hazards Model|||||7.2|2.01|< 0.0001
92288611|NCT04618211|184482858|SUPERIORITY||Hazard Ratio (HR)|3.08||||0.0021|TWO_SIDED|95.0|1.5|6.3|||Marginal Cox Proportional Hazards Model|||||6.3|1.5|0.0021
92288612|NCT04618211|184482858|SUPERIORITY||Hazard Ratio (HR)|3.61|||<|0.0001|TWO_SIDED|95.0|2.1|6.19|||Marginal Cox Proportional Hazards Model|||||6.19|2.1|< 0.0001
92288613|NCT04618211|184482859|SUPERIORITY||Hazard Ratio (HR)|5.09|||<|0.0001|TWO_SIDED|95.0|2.81|9.22||Nominal p-value|Cox Proportional Hazards Model|||||9.22|2.81|< 0.0001
92288614|NCT04618211|184482859|SUPERIORITY||Hazard Ratio (HR)|2.25||||0.0127|TWO_SIDED|95.0|1.19|4.27|||Marginal Cox Proportional Hazards Model|||||4.27|1.19|0.0127
92288615|NCT04618211|184482859|SUPERIORITY||Hazard Ratio (HR)|2.65||||0.0001|TWO_SIDED|95.0|1.61|4.38|||Marginal Cox Proportional Hazards Model|||||4.38|1.61|0.0001
92288616|NCT04618211|184482860|SUPERIORITY||Hazard Ratio (HR)|4.55|||<|0.0001|TWO_SIDED|95.0|2.41|8.59||Nominal p-value|Marginal Cox Proportional Hazards Model|||||8.59|2.41|< 0.0001
92288617|NCT04618211|184482860|SUPERIORITY||Hazard Ratio (HR)|3.65||||0.0003|TWO_SIDED|95.0|1.8|7.38|||Marginal Cox Proportional Hazards Model|||||7.38|1.8|0.0003
92288618|NCT04618211|184482860|SUPERIORITY||Hazard Ratio (HR)|3.87|||<|0.0001|TWO_SIDED|95.0|2.26|6.63|||Marginal Cox Proportional Hazards Model|||||6.63|2.26|< 0.0001
92183931|NCT03212638|184266303|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|0.999|||||TWO_SIDED|95.0|0.966|1.03||||||Bioequivalence of single 4 mg dose of baricitinib as the suspension formulation with (T1) water compared to the commercial tablet (R).||1.03|0.966|
92288619|NCT04618211|184482861|SUPERIORITY||Least squares mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.164|<|0.0001|TWO_SIDED|95.0|-1.11|-0.46||Nominal p-value|Mixed model repeated measures|||||-0.46|-1.11|< 0.0001
92183932|NCT03212638|184266303|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|ratio|0.978|||||TWO_SIDED|95.0|0.941|1.02||||||Bioequivalence of single 4 mg dose of baricitinib as fasted vs fed.||1.02|0.941|
92288620|NCT04618211|184482861|SUPERIORITY||Least squares mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.178||0.0008|TWO_SIDED|95.0|-0.97|-0.26|||Mixed model repeated measures|||||-0.26|-0.97|0.0008
92288621|NCT04618211|184482861|SUPERIORITY||Least squares mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.174||0.0291|TWO_SIDED|95.0|-0.73|-0.04|||Mixed model repeated measures|||||-0.04|-0.73|0.0291
92288622|NCT04618211|184482862|SUPERIORITY||Least squares mean difference|64.13|STANDARD_ERROR_OF_MEAN|12.016|<|0.0001|TWO_SIDED|95.0|40.35|87.91||Nominal p-value|Mixed model repeated measures|||||87.91|40.35|< 0.0001
92288623|NCT04618211|184482862|SUPERIORITY||Least squares mean difference|62.69|STANDARD_ERROR_OF_MEAN|13.128|<|0.0001|TWO_SIDED|95.0|36.71|88.67|||Mixed model repeated measures|||||88.67|36.71|< 0.0001
92288624|NCT04618211|184482862|SUPERIORITY||Least squares mean difference|71.06|STANDARD_ERROR_OF_MEAN|12.613|<|0.0001|TWO_SIDED|95.0|46.09|96.03|||Mixed model repeated measures|||||96.03|46.09|< 0.0001
92288625|NCT00848536|184482885|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 1.5 mmHg.|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-0.9|0.5|||||Treatment group differences were calculated as the mean IOP in the Travoprost APS group minus the mean IOP in the Travatan group. Non-inferiority was demonstrated if the upper 95% CL of the between treatment difference in mean IOP was \< 1.5 mmHg.|A hypothesis test was performed using a repeated measures analysis of variance model. For the test of non-inferiority, a two-sided 95% confidence intervals for the treatment group difference in mean IOP at each visit and time point was constructed based on analysis of variance.||0.5|-0.9|
92288626|NCT00848536|184482886|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 1.5 mmHg.|Median Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-0.8|0.6|||||Treatment group differences were calculated as the mean IOP in the Travoprost APS group minus the mean IOP in the Travatan group. Non-inferiority was demonstrated if the upper 95% CL of the between treatment difference in mean IOP was \< 1.5 mmHg.|A hypothesis test was performed using a repeated measures analysis of variance model. For the test of non-inferiority, a two-sided 95% confidence intervals for the treatment group difference in mean IOP at each visit and time point was constructed based on analysis of variance.||00.6|-0.8|
92288627|NCT00848536|184482887|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 1.5 mmHg.|Median Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-0.9|0.5|||||Treatment group differences were calculated as the mean IOP in the Travoprost APS group minus the mean IOP in the Travatan group. Non-inferiority was demonstrated if the upper 95% CL of the between treatment difference in mean IOP was \< 1.5 mmHg.|A hypothesis test was performed using a repeated measures analysis of variance model. For the test of non-inferiority, a two-sided 95% confidence intervals for the treatment group difference in mean IOP at each visit and time point was constructed based on analysis of variance.||0.5|-0.9|
92288628|NCT01175135|184482888|OTHER||Least Squares (LS) Mean Difference|-2.21|STANDARD_ERROR_OF_MEAN|2.683||0.2053|TWO_SIDED|80.0|-5.66|1.24||Reported p-value was 1-sided.|Mixed Models Analysis|||Mixed effect repeated measures (MMRM) model with fixed effect for baseline PANSS total score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS total score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||1.24|-5.66|0.2053
92288629|NCT01175135|184482888|OTHER||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|2.698||0.4024|TWO_SIDED|80.0|-4.14|2.8||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline PANSS total score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS total score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||2.80|-4.14|0.4024
92288630|NCT01175135|184482888|OTHER||LS Mean Difference|-8.24|STANDARD_ERROR_OF_MEAN|3.453||0.009|TWO_SIDED|80.0|-12.68|-3.8||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline PANSS total score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS total score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-3.80|-12.68|0.0090
92288631|NCT01175135|184482889|OTHER||Difference in Proportion|-0.03|||||TWO_SIDED|80.0|-0.07|0.01|||||The adjusted 80% Confidence Interval (CI) equals 88.6% CI, adjusted due to 1 interim look.|||0.01|-0.07|
92288632|NCT01175135|184482889|OTHER||Difference in Proportion|0.04|||||TWO_SIDED|80.0|-0.02|0.1|||||The adjusted 80% CI equals 88.6% CI, adjusted due to 1 interim look.|||0.10|-0.02|
92288633|NCT01175135|184482889|OTHER||Difference in Proportion|-0.04|||||TWO_SIDED|80.0|-0.08|0.0|||||The adjusted 80% CI equals 88.6% CI, adjusted due to 1 interim look.|||-0.00|-0.08|
92288634|NCT01175135|184482890|OTHER||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.845||0.3144|TWO_SIDED|80.0|-1.5|0.68||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS positive subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS positive subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||0.68|-1.50|0.3144
92288635|NCT01175135|184482890|OTHER||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.854||0.57|TWO_SIDED|80.0|-0.95|1.25||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS positive subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS positive subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||1.25|-0.95|0.5700
92288636|NCT01175135|184482890|OTHER||LS Mean Difference|-2.99|STANDARD_ERROR_OF_MEAN|1.093||0.0034|TWO_SIDED|80.0|-4.4|-1.59||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS positive subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS positive subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||-1.59|-4.40|0.0034
92288637|NCT01175135|184482890|OTHER||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.73||0.0942|TWO_SIDED|80.0|-1.9|-0.02||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS negative subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS negative subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||-0.02|-1.90|0.0942
92288638|NCT01175135|184482890|OTHER||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.735||0.203|TWO_SIDED|80.0|-1.56|0.33||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS negative subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS negative subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||0.33|-1.56|0.2030
92288639|NCT01175135|184482890|OTHER||LS Mean Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.944||0.0907|TWO_SIDED|80.0|-2.48|-0.05||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS negative subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS negative subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||-0.05|-2.48|0.0907
92288640|NCT01175135|184482890|OTHER||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|1.33||0.2904|TWO_SIDED|80.0|-2.45|0.97||Reported p-value was 1-sided.|Mixed Models Analysis|||General Score: MMRM model with fixed effect for baseline PANSS general subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS general subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||0.97|-2.45|0.2904
92288641|NCT01175135|184482890|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.339||0.471|TWO_SIDED|80.0|-1.82|1.62||Reported p-value was 1-sided.|Mixed Models Analysis|||General Score: MMRM model with fixed effect for baseline PANSS general subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS general subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||1.62|-1.82|0.4710
92183933|NCT03775213|184266308|SUPERIORITY||Risk Ratio (RR)|1.53|||||TWO_SIDED|95.0|0.91|2.58||||||||2.58|.91|
92183934|NCT03775213|184266309|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.49|1.88||||||Active Monitoring||1.88|.49|
92288642|NCT01175135|184482890|OTHER||LS Mean Difference|-3.66|STANDARD_ERROR_OF_MEAN|1.718||0.0172|TWO_SIDED|80.0|-5.86|-1.45||Reported p-value was 1-sided.|Mixed Models Analysis|||General Score: MMRM model with fixed effect for baseline PANSS general subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS general subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||-1.45|-5.86|0.0172
92288643|NCT01175135|184482891|OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.154||0.197|TWO_SIDED|80.0|-0.33|0.07||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline CGI-S, investigator site, treatment, visit, treatment by visit interaction, a baseline CGI-S by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||0.07|-0.33|0.1970
92288644|NCT01175135|184482891|OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.154||0.3835|TWO_SIDED|80.0|-0.24|0.15||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline CGI-S, investigator site, treatment, visit, treatment by visit interaction, a baseline CGI-S by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||0.15|-0.24|0.3835
92183935|NCT03775213|184266309|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.79|1.41||||||Lumpectomy||1.41|.79|
92183936|NCT03775213|184266309|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.62|1.3||||||Lumpectomy with Radiation||1.30|.62|
92183937|NCT03775213|184266309|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.48|1.47||||||Mastectomy||1.47|.48|
92288645|NCT01175135|184482891|OTHER||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.199||0.0395|TWO_SIDED|80.0|-0.61|-0.1||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline CGI-S, investigator site, treatment, visit, treatment by visit interaction, a baseline CGI-S by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||-0.10|-0.61|0.0395
92183938|NCT03775213|184266310|SUPERIORITY||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.59|1.98||||||||1.98|.59|
92288646|NCT01175135|184482892|OTHER||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.863||0.1999|TWO_SIDED|80.0|-1.84|0.38||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS Marder positive score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder positive score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.38|-1.84|0.1999
92288647|NCT01175135|184482892|OTHER||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.87||0.3399|TWO_SIDED|80.0|-1.48|0.76||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS Marder positive score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder positive score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.76|-1.48|0.3399
92183939|NCT03775213|184266311|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.65|1.45||||||||1.45|.65|
92183940|NCT03775213|184266312|SUPERIORITY||Slope|0.09|||||TWO_SIDED|95.0|-0.2|0.38||||||||.38|-.20|
92288648|NCT01175135|184482892|OTHER||LS Mean Difference|-2.62|STANDARD_ERROR_OF_MEAN|1.117||0.01|TWO_SIDED|80.0|-4.06|-1.18||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS Marder positive score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder positive score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-1.18|-4.06|0.0100
92288649|NCT01175135|184482892|OTHER||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.778||0.1625|TWO_SIDED|80.0|-1.77|0.23||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS Marder negative score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder negative score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.23|-1.77|0.1625
92288650|NCT01175135|184482892|OTHER||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.783||0.2354|TWO_SIDED|80.0|-1.57|0.44||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS Marder negative score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder negative score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.44|-1.57|0.2354
92288651|NCT01175135|184482892|OTHER||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|1.002||0.2161|TWO_SIDED|80.0|-2.08|0.5||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS Marder negative score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder negative score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.50|-2.08|0.2161
92288652|NCT01175135|184482892|OTHER||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.627||0.248|TWO_SIDED|80.0|-1.23|0.38||Reported p-value was 1-sided.|Mixed Models Analysis|||Disorganized Thought Score: MMRM model with fixed effect for baseline PANSS Marder disorganized thought score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder disorganized thought score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.38|-1.23|0.2480
92288653|NCT01175135|184482892|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.632||0.4345|TWO_SIDED|80.0|-0.92|0.71||Reported p-value was 1-sided.|Mixed Models Analysis|||Disorganized Thought Score: MMRM model with fixed effect for baseline PANSS Marder disorganized thought score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder disorganized thought score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.71|-0.92|0.4345
92288654|NCT01175135|184482892|OTHER||LS Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|0.813||0.0346|TWO_SIDED|80.0|-2.53|-0.44||Reported p-value was 1-sided.|Mixed Models Analysis|||Disorganized Thought Score: MMRM model with fixed effect for baseline PANSS Marder disorganized thought score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder disorganized thought score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-0.44|-2.53|0.0346
92288655|NCT01175135|184482892|OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.495||0.4685|TWO_SIDED|80.0|-0.68|0.6||Reported p-value was 1-sided.|Mixed Models Analysis|||Uncontrolled hostility/excitement Score: MMRM model with fixed effect for baseline PANSS Marder hostility/excitement score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder hostility/excitement score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.60|-0.68|0.4685
92288656|NCT01175135|184482892|OTHER||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.499||0.6214|TWO_SIDED|80.0|-0.49|0.8||Reported p-value was 1-sided.|Mixed Models Analysis|||Uncontrolled hostility/excitement Score: MMRM model with fixed effect for baseline PANSS Marder hostility/excitement score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder hostility/excitement score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.80|-0.49|0.6214
92288657|NCT01175135|184482892|OTHER||LS Mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.641||0.0052|TWO_SIDED|80.0|-2.48|-0.84||Reported p-value was 1-sided.|Mixed Models Analysis|||Uncontrolled hostility/excitement Score: MMRM model with fixed effect for baseline PANSS Marder hostility/excitement score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder hostility/excitement score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-0.84|-2.48|0.0052
92288658|NCT01175135|184482892|OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.523||0.5894|TWO_SIDED|80.0|-0.55|0.79||Reported p-value was 1-sided.|Mixed Models Analysis|||Anxiety/Depression Score: MMRM model with fixed effect for baseline PANSS Marder anxiety/depression score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder anxiety/depression score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.79|-0.55|0.5894
92288659|NCT01175135|184482892|OTHER||LS Mean Difference|0.47|STANDARD_ERROR_OF_MEAN|0.526||0.8155|TWO_SIDED|80.0|-0.2|1.15||Reported p-value was 1-sided.|Mixed Models Analysis|||Anxiety/Depression Score: MMRM model with fixed effect for baseline PANSS Marder anxiety/depression score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder anxiety/depression score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||1.15|-0.20|0.8155
92288660|NCT01175135|184482892|OTHER||LS Mean Difference|-1.68|STANDARD_ERROR_OF_MEAN|0.677||0.0069|TWO_SIDED|80.0|-2.55|-0.81||Reported p-value was 1-sided.|Mixed Models Analysis|||Anxiety/Depression Score: MMRM model with fixed effect for baseline PANSS Marder anxiety/depression score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder anxiety/depression score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-0.81|-2.55|0.0069
92288661|NCT01175135|184482893|OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.559||0.2727|TWO_SIDED|80.0|-1.06|0.38||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline PANSS derived BPRS core score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS derived BPRS core score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.38|-1.06|0.2727
92183941|NCT00786188|184266329|SUPERIORITY_OR_OTHER|||||||0.0177||||||Week 4 frequency|Repeated measures analysis|||||||0.0177
92288662|NCT01175135|184482893|OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.562||0.4747|TWO_SIDED|80.0|-0.76|0.69||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline PANSS derived BPRS core score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS derived BPRS core score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.69|-0.76|0.4747
92288663|NCT01175135|184482893|OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.723||0.0031|TWO_SIDED|80.0|-2.93|-1.07||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline PANSS derived BPRS core score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS derived BPRS core score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-1.07|-2.93|0.0031
92288664|NCT01175135|184482894|OTHER||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.196||0.3598|TWO_SIDED|80.0|-0.32|0.18||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for investigator site, treatment, visit, treatment by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||0.18|-0.32|0.3598
92288665|NCT01175135|184482894|OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.198||0.7275|TWO_SIDED|80.0|-0.13|0.37||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for investigator site, treatment, visit, treatment by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||0.37|-0.13|0.7275
92288666|NCT01175135|184482894|OTHER||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.255||0.0019|TWO_SIDED|80.0|-1.07|-0.42||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for investigator site, treatment, visit, treatment by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||-0.42|-1.07|0.0019
92288667|NCT01175135|184482895|OTHER||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|1.478||0.5429|TWO_SIDED|80.0|-2.06|1.74||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline GAF score, investigator site, treatment, visit, treatment by visit interaction, baseline GAF score by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||1.74|-2.06|0.5429
92288668|NCT01175135|184482895|OTHER||LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|1.492||0.4354|TWO_SIDED|80.0|-1.68|2.16||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline GAF score, investigator site, treatment, visit, treatment by visit interaction, baseline GAF score by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||2.16|-1.68|0.4354
92288669|NCT01175135|184482895|OTHER||LS Mean Difference|2.53|STANDARD_ERROR_OF_MEAN|1.907||0.093|TWO_SIDED|80.0|0.08|4.99||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline GAF score, investigator site, treatment, visit, treatment by visit interaction, baseline GAF score by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||4.99|0.08|0.0930
92288670|NCT00466167|184482907|SUPERIORITY_OR_OTHER||Adjusted mean difference from placebo|4.9|STANDARD_ERROR_OF_MEAN|1.3||0.0001|TWO_SIDED|95.0|2.4|7.4|||ANCOVA|||ANCOVA with factors treatment, pooled country and covariate baseline||7.4|2.4|0.0001
92288671|NCT00466167|184482907|SUPERIORITY_OR_OTHER||Adjusted mean difference from placebo|6.6|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|4.2|9.1|||ANCOVA|||ANCOVA with factors treatment, pooled country and covariate baseline||9.1|4.2|<.0001
92288672|NCT00466167|184482908|SUPERIORITY_OR_OTHER||Adjusted mean difference from Placebo|4.5|STANDARD_ERROR_OF_MEAN|1.8||0.0122|TWO_SIDED|95.0|1.0|7.9|||ANCOVA|||ANCOVA with factors treatment, pooled country and covariate baseline||7.9|1.0|0.0122
92288673|NCT00466167|184482908|SUPERIORITY_OR_OTHER||Adjusted mean difference from placebo|7.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|3.7|10.5|||ANCOVA|||ANCOVA with factors treatment, pooled country and covariate baseline||10.5|3.7|<.0001
92288674|NCT04708028|184482924|SUPERIORITY|||||||0.379|||||||Wilcoxon (Mann-Whitney)|||Baseline||||0.379
92288675|NCT04708028|184482924|SUPERIORITY|||||||0.646|||||||Wilcoxon (Mann-Whitney)|||8 minutes Post intervention (Dog exposure or no dog exposure)||||0.646
92288676|NCT04708028|184482924|SUPERIORITY|||||||0.219|||||||Wilcoxon (Mann-Whitney)|||8 minutes after starting dental procedure||||0.219
92288677|NCT04708028|184482924|SUPERIORITY|||||||0.223|||||||Wilcoxon (Mann-Whitney)|||8 minutes after completion of dental procedure||||0.223
92288678|NCT04708028|184482925|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Baseline||||0.410
92288679|NCT04708028|184482925|SUPERIORITY|||||||0.127|||||||Wilcoxon (Mann-Whitney)|||8 minutes Post intervention (Dog exposure or no dog exposure)||||0.127
92288680|NCT04708028|184482925|SUPERIORITY|||||||0.268|||||||Wilcoxon (Mann-Whitney)|||8 minutes after starting dental procedure||||0.268
92288681|NCT04708028|184482925|SUPERIORITY|||||||0.353|||||||Wilcoxon (Mann-Whitney)|||8 minutes after completion of dental procedure||||0.353
92288682|NCT04414930|184482930|SUPERIORITY|Repeated measures ANOVA||||||0.28||||||The threshold for statistical significance was p\<0.05|ANOVA|Repeated measure ANOVA group x time||||||0.28
92288683|NCT04414930|184482931|SUPERIORITY|Repeated measure ANOVA||||||0.05||||||The threshold for statistical significance was p\<0.05|ANOVA|Repeated measure ANOVA group x time||||||0.05
92288684|NCT04414930|184482932|SUPERIORITY|Repeated measure ANOVA||||||0.93||||||The threshold for significance was p\<0.05|ANOVA|||||||0.93
92288685|NCT04414930|184482933|SUPERIORITY|Repeated measure ANOVA||||||0.43||||||The threshold for significance was p\<0.05|ANOVA|Repeated measure ANOVA group x time||||||0.43
92288686|NCT04414930|184482934|SUPERIORITY|Repeated measure ANOVA||||||0.77||||||The threshold for significance was p\<0.05|ANOVA|Repeated measure ANOVA group x time||||||0.77
92288687|NCT04414930|184482935|SUPERIORITY|Repeated measure ANOVA||||||0.5||||||The threshold for significance is p\<0.05|ANOVA|Repeated measure ANOVA group x time||||||0.50
92288688|NCT04414930|184482936|SUPERIORITY|Repeated measure ANOVA||||||0.636||||||The threshold for significance is p\<0.05|ANOVA|Repeated measure ANOVA group x time||||||0.636
92288689|NCT04414930|184482937|SUPERIORITY|Repeated measure ANOVA||||||0.19||||||The threshold for significance was p\<0.05|ANOVA|Repeated measure ANOVA group x time||||||0.19
92288690|NCT03325881|184482940|SUPERIORITY||Difference in LS Mean|-1.9|STANDARD_ERROR_OF_MEAN|2.48||0.451|TWO_SIDED|95.0|-6.8|3.1|||Mixed-effects model for repeated measure|||Number of participants with SHP465 was compared with placebo using the linear mixed-effects model for repeated measures (MMRM) that included treatment group, nominal visit, age group, interaction of the treatment group with the visits as factors, baseline ADHD-RS5 total score as a covariate and an adjustment for the interaction of the baseline ADHD-RS-5 Total Score with the visit.||3.1|-6.8|0.451
92288691|NCT03325881|184482941|SUPERIORITY||Difference in LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.597|TWO_SIDED|95.0|-0.5|0.3|||Mixed-effects model for repeated measure|||Number of participants with SHP465 was compared with placebo using the mixed effects model for repeated measures (MMRM) that includes treatment group, nominal visit, age group,interaction of the treatment group with the visit as factors, baseline CGI-S as a covariate and an adjustment for the interaction of the baseline CGI-S with the visit.||0.3|-0.5|0.597
92288692|NCT03676634|184482951|OTHER||single proportion|0.844|||||TWO_SIDED|95.0|0.672|0.947|||||Values listed in table are for Type A. Estimated Value for the Estimation Parameter for type B = 0.875. Lower limit = 0.710, upper limit = 0.965|Consider increase from baseline to post-dose values. Parameter is proportion achieving desired increase (≥ 3x or 4x increase in Type A and Type B NAC).|Proportion of participants achieving ≥ 3x or 4x increase in NAC values was calculated for both Type A and Type B. Primary endpoint was achieved if both Type A and Type B had proportion ≥50%.|.947|.672|
92288693|NCT00829712|184482966|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.95||||||90.0|94.02|108.39|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.39|94.02|
92288694|NCT00829712|184482967|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.05||||||90.0|95.08|103.19|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103.19|95.08|
92288695|NCT00829712|184482968|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.94||||||90.0|96.08|103.95|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103.95|96.08|
92183942|NCT00786188|184266329|SUPERIORITY_OR_OTHER|||||||0.0541||||||Week 8 frequency|Reapeated measures analysis|||||||0.0541
92183943|NCT00786188|184266330|SUPERIORITY_OR_OTHER|||||||0.0644||||||Week 4 severity|Reapeated measures analysis|||||||0.0644
92183944|NCT00786188|184266330|SUPERIORITY_OR_OTHER|||||||0.0364||||||Week 8 severity|Reapeated measures analysis|||||||0.0364
92288696|NCT04128761|184482970|OTHER|Mechanistic study examining the influence of scarcity narratives on delay discounting||||||0.6||||||The reported p-value is for the Scarcity and Session interaction.|ANOVA|||The effects of narrative type on delay discounting rates were evaluated using a two-way (Scarcity vs. Session) repeated-measures ANOVA.||||.60
92288697|NCT04128761|184482971|OTHER|Mechanistic study examining the influence of scarcity narratives on intensity of demand (i.e., consumption at $0)||||||0.54||||||The p-value reported is for the Scarcity and Session interaction term of the two-way repeated-measures ANOVA.|ANOVA|||The effects of narrative type on intensity of alcohol demand were evaluated using a two-way (Scarcity vs. Session) repeated-measures ANOVA.||||.54
92288698|NCT04128761|184482972|OTHER|Mechanistic study examining the influence of scarcity narratives on alcohol craving||||||0.88||||||The p-value reported is for the Scarcity and Session interaction term of the two-way repeated-measures ANOVA.|ANOVA|||The effects of narrative type alcohol craving were evaluated using a two-way (Scarcity vs. Session) repeated-measures ANOVA.||||.88
92288699|NCT04128761|184482973|OTHER|Mechanistic study examining the influence of scarcity narratives on stress|||||<|0.001|||||||ANOVA|||The effects of narrative type on stress was evaluated using a one-way ANOVA.||||<.001
92288700|NCT03393208|184482982|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LeastSquare(LS) Mean%|99.76|||||TWO_SIDED|90.0|92.84|107.2||||||Statistical Comparison of Treatment A Versus Treatment B in Fasting state||107.20|92.84|
92288701|NCT03393208|184482982|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LS Mean Percentage|98.67||||||90.0|91.25|106.69||||||Statistical Comparison of Treatment A Versus Treatment B in Fed state||106.69|91.25|
92288702|NCT03393208|184482983|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LS Mean Percentage|99.62||||||90.0|92.69|106.77||||||Statistical Comparison of Treatment A Versus Treatment B in Fasting state||106.77|92.69|
92288703|NCT03393208|184482983|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LS Mean Percentage|101.5||||||90.0|93.72|109.92||||||Statistical Comparison of Treatment A Versus Treatment B in Fed state||109.92|93.72|
92288704|NCT03393208|184482984|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Median Difference|0.0|||||TWO_SIDED|90.0|-0.25|0.25||||||Statistical Comparison of Treatment A Versus Treatment B in Fasting state||0.25|-0.25|
92288705|NCT03393208|184482984|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Median Difference|0.25||||||90.0|-0.25|0.5||||||Statistical Comparison of Treatment A Versus Treatment B in Fed state||0.50|-0.25|
92288706|NCT03393208|184482986|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LS Mean Percentage|101.26||||||90.0|94.33|108.69||||||Statistical Comparison of Treatment A Versus Treatment B in Fasting state||108.69|94.33|
92288707|NCT03393208|184482986|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LS Mean Percentage|98.17|||||TWO_SIDED|90.0|91.61|105.21||||||Statistical Comparison of Treatment A Versus Treatment B in Fed state||105.21|91.61|
92288708|NCT00207090|184483000|SUPERIORITY_OR_OTHER_LEGACY||Point estimate|0.912|||||TWO_SIDED|90.0|0.751|1.106||||||Two-way analyses of variance were performed on log-transformed values of Cmax. The factors in the analyses were participant and day. Point estimates and 90% confidence intervals for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale.||1.106|0.751|
92288709|NCT00207090|184483001|SUPERIORITY_OR_OTHER_LEGACY||Point estimate|0.566|||||TWO_SIDED|90.0|0.482|0.664||||||Two-way analyses of variance were performed on log-transformed values of (AUC \[INF\]). The factors in the analyses were participant and day. Point estimates and 90% confidence intervals for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale.||0.664|0.482|
92288710|NCT03480763|184483035|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|4.2||||0.043|TWO_SIDED|95.0|0.1|8.5|||Miettinen & Nurminen|||Injection site redness/erythema||8.5|0.1|0.043
92288711|NCT03480763|184483035|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|13.7|||<|0.001|TWO_SIDED|95.0|6.0|21.2|||Miettinen & Nurminen|||Injection site tenderness/pain||21.2|6.0|<0.001
92288712|NCT03480763|184483035|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|4.8||||0.077|TWO_SIDED|95.0|-0.5|10.2|||Miettinen & Nurminen|||Injection site swelling||10.2|-0.5|0.077
92288713|NCT03480763|184483036|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.6||||0.855|TWO_SIDED|95.0|-5.5|6.6|||Miettinen & Nurminen|||Injection site redness/erythema||6.6|-5.5|0.855
92266144|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.039|TWO_SIDED|95.0|-1.28|-0.03|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.03|-1.28|0.039
92266145|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.276|TWO_SIDED|95.0|-0.27|0.93|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.93|-0.27|0.276
92266146|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.343|TWO_SIDED|95.0|-0.29|0.82|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.82|-0.29|0.343
92266147|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.849|TWO_SIDED|95.0|-0.73|0.6|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.60|-0.73|0.849
92266148|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.009|TWO_SIDED|95.0|0.19|1.29|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.29|0.19|0.009
92266149|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.763|TWO_SIDED|95.0|-0.58|0.43|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.43|-0.58|0.763
92266150|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.01|TWO_SIDED|95.0|-1.43|-0.2|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.20|-1.43|0.010
92266151|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.105|TWO_SIDED|95.0|-0.1|1.09|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.09|-0.10|0.105
92266152|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.533|TWO_SIDED|95.0|-0.38|0.73|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.73|-0.38|0.533
92266153|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.348|TWO_SIDED|95.0|-0.99|0.35|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.35|-0.99|0.348
92266154|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.016|TWO_SIDED|95.0|0.13|1.23|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.23|0.13|0.016
92266155|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.483|TWO_SIDED|95.0|-0.69|0.33|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.33|-0.69|0.483
92266156|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9||||0.006|TWO_SIDED|95.0|-1.47|-0.25|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.25|-1.47|0.006
92266157|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.177|TWO_SIDED|95.0|-0.19|1.0|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.00|-0.19|0.177
92266158|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.586|TWO_SIDED|95.0|-0.4|0.7|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.70|-0.40|0.586
92266159|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.448|TWO_SIDED|95.0|-0.92|0.41|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.41|-0.92|0.448
92266160|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.043|TWO_SIDED|95.0|0.02|1.09|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.09|0.02|0.043
92288714|NCT03480763|184483036|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|3.5||||0.385||95.0|-4.4|11.3|||Miettinen & Nurminen|||Injection site tenderness/pain||11.3|-4.4|0.385
92183945|NCT03787628|184266390|OTHER|Generalized linear mixed model (GLMM) testing the main effect of group and time, and the group X time interaction.|F-test|0.703||||0.41|TWO_SIDED|||||P-value reflects the test of the interaction between group and time on the measure of cue-induced craving.|Mixed Models Analysis||Estimated value reflects the f test of the interaction between group and time on the measure of cue-induced craving (degrees of freedom = 1, 67).|||||0.41
92183946|NCT03787628|184266391|OTHER|Generalized linear mixed model (GLMM) testing the main effect of group and time, and the group X time interaction.|F-test|0.0||||0.99|TWO_SIDED|||||P-value reflects the test of the interaction between group and time on the measure of spontaneous craving.|Mixed Models Analysis||Estimated value reflects the f test of the interaction between group and time on spontaneous craving (degrees of freedom = 1, 550).|||||0.99
92183947|NCT03787628|184266392|OTHER|Generalized linear mixed model (GLMM) testing the main effect of group and time, and the group X time interaction.|F-test|0.04||||0.84|TWO_SIDED|||||P-value reflects the test of the interaction between group and time on the measure of state anxiety.|Mixed Models Analysis||Estimated value reflects the f test of the interaction between group and time on state anxiety (degrees of freedom = 1, 550)|||||0.84
92183948|NCT03787628|184266393|OTHER|Generalized linear mixed model (GLMM) testing the main effect of group and time, and the group X time interaction.|F-test|0.27||||0.6|TWO_SIDED|||||P-value reflects the test of the interaction between group and time on the measure of negative affect.|Mixed Models Analysis||Estimated value reflects the f test of the interaction between group and time on negative affect (degrees of freedom = 1, 550).|||||0.60
92183949|NCT02713594|184266478|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-7.86|||<|0.0001|TWO_SIDED|95.0|-11.28|-4.5|||Abstinence Risk Difference|||||-4.5|-11.28|<.0001
92183950|NCT02713594|184266479|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|Chi-square test value = 196.1, with 5 degrees of freedom.||||||<.0001
92183951|NCT01523392|184266486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-183.6|STANDARD_ERROR_OF_MEAN|14.68|<|0.001|TWO_SIDED|95.0|-213.9|-153.3||Model contained treatment group, period, and sequence as fixed effects and a random effect for patient within sequence|Mixed Models Analysis||Ticagrelor minus clopidogrel|||-153.3|-213.9|<0.001
92288715|NCT03480763|184483036|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|2.0||||0.577|TWO_SIDED|95.0|-5.1|9.2|||Miettinen & Nurminen|||Injection site swelling||9.2|-5.1|0.577
92183952|NCT01523392|184266487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-103.8|STANDARD_ERROR_OF_MEAN|18.79|<|0.001|TWO_SIDED|95.0|-142.5|-65.0|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|Analysis at 0.5 hours after loading dose||-65.0|-142.5|<0.001
92183953|NCT01523392|184266487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-165.3|STANDARD_ERROR_OF_MEAN|15.45|<|0.001|TWO_SIDED|95.0|-197.4|-133.3|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|Analysis at 8 hours after loading dose||-133.3|-197.4|<0.001
92288716|NCT03480763|184483037|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|1.2||||0.523|TWO_SIDED|95.0|-2.5|4.9|||Miettinen & Nurminen|||Joint pain/arthralgia||4.9|-2.5|0.523
92183954|NCT01523392|184266488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-135.0|STANDARD_ERROR_OF_MEAN|12.35|<|0.001|TWO_SIDED|95.0|-160.4|-109.5|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|Analysis at 2 hours on Day 7 after multiple doses||-109.5|-160.4|<0.001
92183955|NCT01523392|184266488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-118.1|STANDARD_ERROR_OF_MEAN|12.55|<|0.001|TWO_SIDED|95.0|-143.9|-92.2|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|Analysis at 8 hours on Day 7 after multiple doses||-92.2|-143.9|<0.001
92183956|NCT01523392|184266488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-133.4|STANDARD_ERROR_OF_MEAN|12.77|<|0.001|TWO_SIDED|95.0|-159.7|-107.1|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|Analysis at end of dosing interval on Day 8||-107.1|-159.7|<0.001
92183957|NCT01928732|184266495|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|1.0|1.65|||||Odds ratios were calculated with CPT as the reference group and reflect the overall main effect of treatment across all outcome assessments (post-treatment, 3-months, and 6-months)|Overall Treatment Effect Response Odds Ratio (OR). Response is defined as greater than or equal to 10 point improvement in severity.||1.65|1.00|
92183958|NCT01928732|184266495|SUPERIORITY||Odds Ratio (OR)|1.43|||||TWO_SIDED|95.0|1.12|1.74|||||Odds ratios were calculated with CPT as the reference group and reflect the overall main effect of treatment across all outcome assessments (post-treatment, 3-months, and 6-months)|Overall Treatment Effect Loss of Diagnosis Odds Ratio (OR). Loss of Diagnosis is defined as Response, plus no longer meeting DSM-5 symptom criteria and severity less than 25.||1.74|1.12|
92183959|NCT01928732|184266495|SUPERIORITY||Odds Ratio (OR)|1.62|||||TWO_SIDED|95.0|1.24|2.0|||||Odds ratios were calculated with CPT as the reference group and reflect the overall main effect of treatment across all outcome assessments (post-treatment, 3-months, and 6-months)|Overall Treatment Effect Remission Odds Ratio (OR). Remission is defined as loss of diagnosis plus severity less than 12.||2.00|1.24|
92183960|NCT01185340|184266503|SUPERIORITY_OR_OTHER|||||||0.751|||||||Mixed Models Analysis|||||||0.751
92183961|NCT00087516|184266522|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.09|<|0.001||95.0|-0.96|-0.62|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline A1C||||-0.62|-0.96|<0.001
92183962|NCT00087516|184266522|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.94|STANDARD_ERROR_OF_MEAN|0.09|<|0.001||95.0|-1.11|-0.77|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline A1C||||-0.77|-1.11|<0.001
92288717|NCT03480763|184483037|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|9.7||||0.002|TWO_SIDED|95.0|3.7|15.6|||Miettinen & Nurminen|||Tiredness/fatigue||15.6|3.7|0.002
92288718|NCT03480763|184483037|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|1.4||||0.597|TWO_SIDED|95.0|-3.9|6.7|||Miettinen & Nurminen|||Headache||6.7|-3.9|0.597
92288719|NCT03480763|184483037|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|6.6||||0.016|TWO_SIDED|95.0|1.2|12.1|||Miettinen & Nurminen|||Muscle pain/myalgia||12.1|1.2|0.016
92288720|NCT03480763|184483038|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.1||||0.961|TWO_SIDED|95.0|-4.4|4.7|||Miettinen & Nurminen|||Joint pain/arthralgia||4.7|-4.4|0.961
92288721|NCT03480763|184483038|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|4.0||||0.252|TWO_SIDED|95.0|-2.8|10.8|||Miettinen & Nurminen|||Tiredness/fatigue||10.8|-2.8|0.252
92288722|NCT03480763|184483038|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-0.5||||0.852|TWO_SIDED|95.0|-5.8|4.8|||Miettinen & Nurminen|||Headache||4.8|-5.8|0.852
92183963|NCT00087516|184266523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.1|STANDARD_ERROR_OF_MEAN|3.6|<|0.001||95.0|-24.1|-10.1|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline FPG||||-10.1|-24.1|<0.001
92288723|NCT03480763|184483038|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|4.9||||0.125|TWO_SIDED|95.0|-1.4|11.2|||Miettinen & Nurminen|||Muscle pain/myalgia||11.2|-1.4|0.125
92288724|NCT03480763|184483039|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.2|1.2||||||Vaccine-related SAEs following V114 or Prevnar 13™||1.2|-1.2|
92288725|NCT03480763|184483040|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.3|1.3||||||Vaccine-related SAEs following PNEUMOVAX™23||1.3|-1.3|
92288726|NCT03480763|184483041|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.38|||||TWO_SIDED|95.0|1.1|1.74||||||Serotype 1 (Shared)||1.74|1.10|
92288727|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model|GMT Ratio|1.08|||||TWO_SIDED|95.0|0.9|1.29||||||Serotype 3 (Shared)||1.29|0.90|
92288728|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.06|||||TWO_SIDED|95.0|0.85|1.32||||||Serotype 4 (Shared)||1.32|0.85|
92288729|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model|GMT Ratio|1.21|||||TWO_SIDED|95.0|0.94|1.56||||||Serotype 5 (Shared)||1.56|0.94|
92288730|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.16|||||TWO_SIDED|95.0|0.95|1.43||||||Serotype 6A (Shared)||1.43|0.95|
92288731|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.12|||||TWO_SIDED|95.0|0.93|1.35||||||Serotype 6B (Shared)||1.35|0.93|
92288732|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.06|||||TWO_SIDED|95.0|0.9|1.25||||||Serotype 7F (Shared)||1.25|0.90|
92288733|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.91|1.33||||||Serotype 9V (Shared)||1.33|0.91|
92288734|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.27|||||TWO_SIDED|95.0|1.05|1.53||||||Serotype 14 (Shared)||1.53|1.05|
92288735|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.13|||||TWO_SIDED|95.0|0.95|1.34||||||Serotype 18C (Shared)||1.34|0.95|
92288736|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.15|||||TWO_SIDED|95.0|0.96|1.38||||||Serotype 19A (Shared)||1.38|0.96|
92288737|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.03|||||TWO_SIDED|95.0|0.89|1.2||||||Serotype 19F (Shared)||1.20|0.89|
92288738|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.28|||||TWO_SIDED|95.0|1.01|1.61||||||Serotype 23F (Shared)||1.61|1.01|
92288739|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.63|||||TWO_SIDED|95.0|1.29|2.06||||||Serotype 22F (Unique to V114)||2.06|1.29|
92288740|NCT03480763|184483041|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.77|1.17||||||Serotype 33F (Unique to V114)||1.17|0.77|
92288741|NCT03480763|184483042|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.92|||||TWO_SIDED|95.0|0.79|1.07||||||Serotype 1 (Shared)||1.07|0.79|
92288742|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model|GMC Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.16||||||Serotype 3 (Shared)||1.16|0.87|
92183964|NCT00087516|184266523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.3|STANDARD_ERROR_OF_MEAN|3.5|<|0.001||95.0|-28.2|-14.4|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline FPG||||-14.4|-28.2|<0.001
92288743|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.87|||||TWO_SIDED|95.0|0.74|1.02||||||Serotype 4 (Shared)||1.02|0.74|
92288744|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.99|||||TWO_SIDED|95.0|0.84|1.18||||||Serotype 5 (Shared)||1.18|0.84|
92288745|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.16|||||TWO_SIDED|95.0|0.96|1.41||||||Serotype 6A (Shared)||1.41|0.96|
92288746|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.16|||||TWO_SIDED|95.0|0.96|1.4||||||Serotype 6B (Shared)||1.40|0.96|
92288747|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.99|||||TWO_SIDED|95.0|0.85|1.16||||||Serotype 7F (Shared)||1.16|0.85|
92288748|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.89|1.22||||||Serotype 9V (Shared)||1.22|0.89|
92288749|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.17|||||TWO_SIDED|95.0|0.98|1.39||||||Serotype 14 (Shared)||1.39|0.98|
92288750|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.16|||||TWO_SIDED|95.0|1.0|1.36||||||Serotype 18C (Shared)||1.36|1.00|
92288751|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.1|||||TWO_SIDED|95.0|0.95|1.29||||||Serotype 19A (Shared)||1.29|0.95|
92288752|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.09|||||TWO_SIDED|95.0|0.93|1.27||||||Serotype 19F (Shared)||1.27|0.93|
92288753|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.14|||||TWO_SIDED|95.0|0.96|1.35||||||Serotype 23F (Shared)||1.35|0.96|
92183965|NCT00087516|184266524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.7|STANDARD_ERROR_OF_MEAN|6.5|<|0.001||95.0|-59.4|-34.1|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline 2-hr PMG||||-34.1|-59.4|<0.001
92288754|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.43|||||TWO_SIDED|95.0|1.16|1.77||||||Serotype 22F (Unique to V114)||1.77|1.16|
92288755|NCT03480763|184483042|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.8|||||TWO_SIDED|95.0|0.67|0.95||||||Serotype 33F (Unique to V114)||0.95|0.67|
92288756|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.22|||||TWO_SIDED|95.0|0.94|1.58||||||Serotype 1 (Shared)||1.58|0.94|
92288757|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.9|||||TWO_SIDED|95.0|1.56|2.3||||||Serotype 3 (Shared)||2.30|1.56|
92288758|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.76|||||TWO_SIDED|95.0|0.6|0.97||||||Serotype 4 (Shared)||0.97|0.60|
92288759|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.07|||||TWO_SIDED|95.0|0.81|1.4||||||Serotype 5 (Shared)||1.40|0.81|
92288760|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.19|||||TWO_SIDED|95.0|0.92|1.53||||||Serotype 6A (Shared)||1.53|0.92|
92288761|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.64|||||TWO_SIDED|95.0|1.31|2.06||||||Serotype 6B (Shared)||2.06|1.31|
92183966|NCT00087516|184266524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.1|STANDARD_ERROR_OF_MEAN|6.4|<|0.001||95.0|-66.7|-41.6|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline 2-hr PMG||||-41.6|-66.7|<0.001
92288762|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.8|1.14||||||Serotype 7F (Shared)||1.14|0.80|
92183967|NCT00246129|184266528|SUPERIORITY|||||||0.467|||||||Log Rank|||||||0.467
92183968|NCT00246129|184266529|SUPERIORITY|||||||0.138|||||||Log Rank|||||||0.138
92183969|NCT01335061|184266543|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Paired t-test|||||||<0.0001
92183970|NCT00273052|184266565|SUPERIORITY_OR_OTHER||Median Difference (Net)|-8.026||||0.0141||95.0|-15.35|-0.67|||ANCOVA||Median difference = Coreg CR - Toprol XL|||-0.67|-15.35|0.0141
92183971|NCT00273052|184266566|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7||||0.6068||95.0|-2.4|3.9|||ANCOVA||Mean difference = Coreg CR - Toprol XL|||3.9|-2.4|0.6068
92183972|NCT00704340|184266579|SUPERIORITY_OR_OTHER|||||||0.613|||||||t-test, 2 sided|||The sample size was selected to provide sufficient precision for 95% confidence intervals for the incidence of neurosurgical complications in each arm. The sample size was selected so that the half-width of the normal approximation-based intervals would be no more than 0.05 percentage points. This requires a sample size of 114 evaluable patients in each arm. To allow for loss to follow-up, the sample size was increased to 125 randomized patients in each treatment arm, or a total of 250 patients.||||.613
92183973|NCT00704340|184266580|SUPERIORITY_OR_OTHER|||||||0.681|||||||t-test, 2 sided|||||||.681
92183974|NCT00704340|184266581|SUPERIORITY_OR_OTHER|||||||0.619|||||||t-test, 2 sided|||||||.619
92183975|NCT03316170|184266606|SUPERIORITY||Mean Difference (Final Values)|-0.86|STANDARD_ERROR_OF_MEAN|0.44||0.06|TWO_SIDED|95.0|-1.75|0.3|||t-test, 2 sided|||||0.30|-1.75|.06
92288763|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.83|1.24||||||Serotype 9V (Shared)||1.24|0.83|
92288764|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.09|||||TWO_SIDED|95.0|0.87|1.37||||||Serotype 14 (Shared)||1.37|0.87|
92288765|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.48|||||TWO_SIDED|95.0|1.2|1.84||||||Serotype 18C (Shared)||1.84|1.20|
92288766|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.28|||||TWO_SIDED|95.0|1.06|1.55||||||Serotype 19A (Shared)||1.55|1.06|
92288767|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.92|1.32||||||Serotype 19F (Shared)||1.32|0.92|
92288768|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.53|||||TWO_SIDED|95.0|1.18|2.0||||||Serotype 23F (Shared)||2.00|1.18|
92288769|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|34.86|||||TWO_SIDED|95.0|26.13|46.5||||||Serotype 22F (Unique to V114)||46.50|26.13|
92288770|NCT03480763|184483043|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|9.15|||||TWO_SIDED|95.0|7.48|11.2||||||Serotype 33F (Unique to V114)||11.20|7.48|
92288771|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.72|1.09||||||Serotype 1 (Shared)||1.09|0.72|
92288772|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.74|||||TWO_SIDED|95.0|1.46|2.07||||||Serotype 3 (Shared)||2.07|1.46|
92288773|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.64|0.99||||||Serotype 4 (Shared)||0.99|0.64|
92288774|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.84|1.3||||||Serotype 5 (Shared)||1.30|0.84|
92288775|NCT03480763|184483044|OTHER|GMCs, GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.4|||||TWO_SIDED|95.0|1.1|1.77||||||Serotype 6A (Shared)||1.77|1.10|
92288776|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.64|||||TWO_SIDED|95.0|1.28|2.1||||||Serotype 6B (Shared)||2.10|1.28|
92288777|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.91|||||TWO_SIDED|95.0|0.74|1.13||||||Serotype 7F (Shared)||1.13|0.74|
92288778|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.13|||||TWO_SIDED|95.0|0.91|1.41||||||Serotype 9V (Shared)||1.41|0.91|
92288779|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.09|||||TWO_SIDED|95.0|0.87|1.38||||||Serotype 14 (Shared)||1.38|0.87|
92288780|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.56|||||TWO_SIDED|95.0|1.27|1.92||||||Serotype 18C (Shared)||1.92|1.27|
92288781|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.13|||||TWO_SIDED|95.0|0.91|1.39||||||Serotype 19A (Shared)||1.39|0.91|
92288782|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.14|||||TWO_SIDED|95.0|0.92|1.41||||||Serotype 19F (Shared)||1.41|0.92|
92183976|NCT02935673|184266613|SUPERIORITY||AUC(1-7) difference vs (pooled) placebo|-0.32|||||TWO_SIDED|95.0|-0.89|0.24|||||||Mixed model for repeated measures, using all available viral load data of baseline and up to and including Day 7, taking missing data into account under the missing at random assumption.|0.24|-0.89|
92183977|NCT02935673|184266613|SUPERIORITY||AUC(1-7) difference vs (pooled) placebo|-0.36|||||TWO_SIDED|95.0|-1.33|0.62|||||||Mixed model for repeated measures, using all available viral load data of baseline and up to and including Day 7, taking missing data into account under the missing at random assumption.|0.62|-1.33|
92183978|NCT01836523|184266648|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper bound of 95% confidence interval was \<0.3.|Treatment difference|-0.2|||||TWO_SIDED|95.0|-0.32|-0.07||||||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||-0.07|-0.32|
92183979|NCT01836523|184266648|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper bound of 95% confidence interval was \<0.3.|Treatment difference|-0.15|||||TWO_SIDED|95.0|-0.27|-0.03||||||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||-0.03|-0.27|
92183980|NCT01836523|184266648|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper bound of 95% confidence interval was \<0.3.|Treatment difference|-0.09|||||TWO_SIDED|95.0|-0.21|0.03||||||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||0.03|-0.21|
92183981|NCT01836523|184266649|SUPERIORITY_OR_OTHER||Treatment difference|-4.9|||<|0.0001|TWO_SIDED|95.0|-5.65|-4.16|||Mixed Models Analysis|||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||-4.16|-5.65|<0.0001
92183982|NCT01836523|184266649|SUPERIORITY_OR_OTHER||Treatment difference|-3.55|||<|0.0001|TWO_SIDED|95.0|-4.29|-2.81|||Mixed Models Analysis|||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||-2.81|-4.29|<0.0001
92183983|NCT01836523|184266649|SUPERIORITY_OR_OTHER||Treatment difference|-2.19|||<|0.0001|TWO_SIDED|95.0|-2.91|-1.47|||Mixed Models Analysis|||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||-1.47|-2.91|<0.0001
92183984|NCT01836523|184266650|SUPERIORITY_OR_OTHER||Treatment ratio|0.92|||<|0.0001|TWO_SIDED|95.0|0.88|0.96|||Mixed Models Analysis|||Analysis was done using MMRMs where all post-baseline measurements for specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as dependent variable, and visit, treatment, country and stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate. The measurements were log-transformed before analysis||0.96|0.88|<0.0001
92183985|NCT01836523|184266650|SUPERIORITY_OR_OTHER||Treatment ratio|0.95||||0.0148|TWO_SIDED|95.0|0.91|0.99|||Mixed Models Analysis|||Analysis was done using MMRMs where all post-baseline measurements for specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as dependent variable, and visit, treatment, country and stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate. The measurements were log-transformed before analysis||0.99|0.91|0.0148
92183986|NCT01836523|184266650|SUPERIORITY_OR_OTHER||Treatment ratio|1.0||||0.9615|TWO_SIDED|95.0|0.96|1.04|||Mixed Models Analysis|||Analysis was done using MMRMs where all post-baseline measurements for specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as dependent variable, and visit, treatment, country and stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate. The measurements were log-transformed before analysis||1.04|0.96|0.9615
92266161|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.688|TWO_SIDED|95.0|-0.59|0.39|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.39|-0.59|0.688
92266162|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.032|TWO_SIDED|95.0|-1.25|-0.06|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.06|-1.25|0.032
92288783|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.61|||||TWO_SIDED|95.0|1.27|2.04||||||Serotype 23F (Shared)||2.04|1.27|
92183987|NCT01836523|184266651|SUPERIORITY_OR_OTHER||Rate ratio|1.31||||0.0081|TWO_SIDED|95.0|1.07|1.59|||Negative binomial regression|||The endpoint was analysed using a negative binomial regression model with a log-link function and the log of the time period in which an occurrence of a hypoglycaemic episode was considered treatment emergent as offset. The model included fixed factors (treatment, country, stratification group) and a covariate (baseline HbA1c).||1.59|1.07|0.0081
92266163|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.179|TWO_SIDED|95.0|-0.19|0.99|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(AM):The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.99|-0.19|0.179
92266164|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.609|TWO_SIDED|95.0|-0.4|0.69|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.69|-0.40|0.609
92266165|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.435|TWO_SIDED|95.0|-0.92|0.4|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.40|-0.92|0.435
92266166|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.023|TWO_SIDED|95.0|0.1|1.26|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.26|0.10|0.023
92266167|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.987|TWO_SIDED|95.0|-0.54|0.53|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.53|-0.54|0.987
92266168|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.04|TWO_SIDED|95.0|-1.33|-0.03|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.03|-1.33|0.040
92266169|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.319|TWO_SIDED|95.0|-0.31|0.94|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.94|-0.31|0.319
92266170|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.712|TWO_SIDED|95.0|-0.47|0.69|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.69|-0.47|0.712
92266171|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.557|TWO_SIDED|95.0|-0.91|0.49|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.49|-0.91|0.557
92266172|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.015|TWO_SIDED|95.0|0.14|1.28|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.28|0.14|0.015
92266173|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.326|TWO_SIDED|95.0|-0.26|0.79|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.79|-0.26|0.326
92266174|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.167|TWO_SIDED|95.0|-1.08|0.19|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.19|-1.08|0.167
92266175|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.35|TWO_SIDED|95.0|-0.33|0.93|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.93|-0.33|0.350
92266176|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.235|TWO_SIDED|95.0|-0.23|0.93|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.93|-0.23|0.235
92266177|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.881|TWO_SIDED|95.0|-0.65|0.76|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(PM):The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.76|-0.65|0.881
92266178|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.036|TWO_SIDED|95.0|0.04|1.16|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.16|0.04|0.036
92288784|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|16.54|||||TWO_SIDED|95.0|13.78|19.86||||||Serotype 22F (Unique to V114)||19.86|13.78|
92288785|NCT03480763|184483044|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|12.82|||||TWO_SIDED|95.0|10.82|15.19||||||Serotype 33F (Unique to V114)||15.19|10.82|
92288786|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.19|||||TWO_SIDED|95.0|0.92|1.53||||||Serotype 1 (Shared)||1.53|0.92|
92288787|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.57|||||TWO_SIDED|95.0|1.29|1.9||||||Serotype 3 (Shared)||1.90|1.29|
92288788|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.72|||||TWO_SIDED|95.0|0.57|0.9||||||Serotype 4 (Shared)||0.90|0.57|
92288789|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.78|1.33||||||Serotype 5 (Shared)||1.33|0.78|
92288790|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.15|||||TWO_SIDED|95.0|0.93|1.41||||||Serotype 6A (Shared)||1.41|0.93|
92288791|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.43|||||TWO_SIDED|95.0|1.16|1.77||||||Serotype 6B (Shared)||1.77|1.16|
92288792|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.94|||||TWO_SIDED|95.0|0.8|1.11||||||Serotype 7F (Shared)||1.11|0.80|
92288793|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.98|||||TWO_SIDED|95.0|0.81|1.18||||||Serotype 9V (Shared)||1.18|0.81|
92288794|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.11|||||TWO_SIDED|95.0|0.9|1.36||||||Serotype 14 (Shared)||1.36|0.90|
92288795|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.28|||||TWO_SIDED|95.0|1.05|1.55||||||Serotype 18C (Shared)||1.55|1.05|
92288796|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.09|||||TWO_SIDED|95.0|0.91|1.31||||||Serotype 19A (Shared)||1.31|0.91|
92288797|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.08|||||TWO_SIDED|95.0|0.91|1.29||||||Serotype 19F (Shared)||1.29|0.91|
92288798|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.37|||||TWO_SIDED|95.0|1.06|1.76||||||Serotype 23F (Shared)||1.76|1.06|
92288799|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|12.79|||||TWO_SIDED|95.0|9.44|17.34||||||Serotype 22F (Unique to V114)||17.34|9.44|
92288800|NCT03480763|184483049|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|3.24|||||TWO_SIDED|95.0|2.73|3.84||||||Serotype 33F (Unique to V114)||3.84|2.73|
92288801|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.78|||||TWO_SIDED|95.0|0.65|0.92||||||Serotype 1 (Shared)||0.92|0.65|
92288802|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.42|||||TWO_SIDED|95.0|1.24|1.63||||||Serotype 3 (Shared)||1.63|1.24|
92288803|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.77|||||TWO_SIDED|95.0|0.64|0.91||||||Serotype 4 (Shared)||0.91|0.64|
92288804|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.75|1.05||||||Serotype 5 (Shared)||1.05|0.75|
92288805|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.37|||||TWO_SIDED|95.0|1.12|1.67||||||Serotype 6A (Shared)||1.67|1.12|
92288806|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.48|||||TWO_SIDED|95.0|1.21|1.81||||||Serotype 6B (Shared)||1.81|1.21|
92288807|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.72|1.02||||||Serotype 7F (Shared)||1.02|0.72|
92288808|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.88|1.23||||||Serotype 9V (Shared)||1.23|0.88|
92288809|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.05|||||TWO_SIDED|95.0|0.88|1.26||||||Serotype 14 (Shared)||1.26|0.88|
92288810|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.38|||||TWO_SIDED|95.0|1.17|1.64||||||Serotype 18C (Shared)||1.64|1.17|
92288811|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.13|||||TWO_SIDED|95.0|0.97|1.33||||||Serotype 19A (Shared)||1.33|0.97|
92288812|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.13|||||TWO_SIDED|95.0|0.96|1.32||||||Serotype 19F (Shared)||1.32|0.96|
92288813|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.35|||||TWO_SIDED|95.0|1.12|1.62||||||Serotype 23F (Shared)||1.62|1.12|
92288814|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|6.2|||||TWO_SIDED|95.0|5.33|7.21||||||Serotype 22F (Unique to V114)||7.21|5.33|
92288815|NCT03480763|184483050|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|5.01|||||TWO_SIDED|95.0|4.38|5.73||||||Serotype 33F (Unique to V114)||5.73|4.38|
92288816|NCT00115063|184483071|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92288817|NCT00115063|184483072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92288818|NCT00115063|184483073|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||P-value for systolic blood pressure mean.|t-test, 2 sided|||||||0.09
92288819|NCT00115063|184483073|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||P-value for dystolic blood pressure mean.|t-test, 2 sided|||||||0.60
92288820|NCT00115063|184483074|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||P-value for LDL cholesterol|t-test, 2 sided|||||||0.73
92288821|NCT00115063|184483074|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value for HDL cholesterol|t-test, 2 sided|||||||0.01
92288822|NCT00115063|184483074|SUPERIORITY_OR_OTHER|||||||0.42||95.0||||P-value for triglycerides|t-test, 2 sided|||||||0.42
92288823|NCT00115063|184483074|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value for uric acid|t-test, 2 sided|||||||0.05
92183988|NCT01836523|184266651|SUPERIORITY_OR_OTHER||Rate ratio|1.27||||0.0219|TWO_SIDED|95.0|1.03|1.55|||Negative binomial regression|||The endpoint was analysed using a negative binomial regression model with a log-link function and the log of the time period in which an occurrence of a hypoglycaemic episode was considered treatment emergent as offset. The model included fixed factors (treatment, country, stratification group) and a covariate (baseline HbA1c).||1.55|1.03|0.0219
92288824|NCT00115063|184483075|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||t-test, 2 sided|||||||0.16
92288825|NCT00115063|184483076|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||||||0.001
92288826|NCT00185458|184483081|SUPERIORITY_OR_OTHER|||||||0.128||95.0|||||Friedman's two-way ANOVA|||Time effect tested with Friedman's two-way analysis of variance (ANOVA). The null-hypothesis is that the means are equal at the reference period tested.||||0.128
92288827|NCT00185458|184483082|SUPERIORITY_OR_OTHER|||||||0.296||95.0|||||Friedman's two-way ANOVA|||Time effect tested with Friedman's two-way analysis of variance (ANOVA). The null-hypothesis is that the means are equal at the reference period tested.||||0.296
92288828|NCT00185458|184483084|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288829|NCT00185458|184483086|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||0.027
92288830|NCT00185458|184483087|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288831|NCT00185458|184483088|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288832|NCT00185458|184483089|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288833|NCT00185458|184483090|SUPERIORITY_OR_OTHER|||||||0.054||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||0.054
92288834|NCT00185458|184483091|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288835|NCT00185458|184483092|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288836|NCT00185458|184483093|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288837|NCT00185458|184483094|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288838|NCT00185458|184483095|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288839|NCT00185458|184483096|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288840|NCT00185458|184483097|SUPERIORITY_OR_OTHER|||||||0.175||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||0.175
92288841|NCT00185458|184483098|SUPERIORITY_OR_OTHER|||||||0.062||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||0.062
92288842|NCT00185458|184483099|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
92288843|NCT00830024|184483100|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on each of the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|98.75||||||90.0|93.35|104.47|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.47|93.35|
92288844|NCT00830024|184483101|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on each of the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|95.94||||||90.0|91.76|100.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||100.3|91.76|
92288845|NCT00830024|184483102|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on each of the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|95.89||||||90.0|91.67|100.31|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||100.31|91.67|
92288846|NCT02554890|184483103|OTHER||expon. back transformed from LS means|0.7143|||<|0.0001|TWO_SIDED|95.0|0.6315|0.808||ANCOVA model for a log-scaled response with treatment group as a class variable and biomarker baseline value in logarithmic scale as a continuous covariate.|ANCOVA||Geometric Mean Ratio: Sacubitril/ Valsartan vs. Enalapril|||0.8080|0.6315|<.0001
92288847|NCT02554890|184483107|OTHER||exponentially back transformed from LS m|0.8487||||0.0011|TWO_SIDED|95.0|0.7694|0.9361|||ANCOVA||Geometric Mean Ratio: Sacubitril/ Valsartan vs. Enalapril|||0.9361|0.7694|0.0011
92288848|NCT02554890|184483108|OTHER||expon. back transformed from LS means|1.6487|||<|0.0001|TWO_SIDED|95.0|1.4559|1.8669|||ANCOVA||Geometric Mean Ratio: Sacubitril/ Valsartan vs. Enalapril|||1.8669|1.4559|<.0001
92288849|NCT02554890|184483109|OTHER||expon. back transformed from LS means|1.4186|||<|0.0001|TWO_SIDED|95.0|1.3248|1.519|||ANCOVA||Geometric Mean Ratio: Sacubitril/ Valsartan vs. Enalapril|||1.5190|1.3248|<.0001
92288850|NCT02554890|184483110|OTHER||expon. back transformed from LS means|1.4745|||<|0.0001|TWO_SIDED|95.0|1.3752|1.581|||ANCOVA||Geometric Mean Ratio: Sacubitril/ Valsartan vs. Enalapril|||1.5810|1.3752|<.0001
92288851|NCT02554890|184483111|OTHER||expon. back transformed from LS means|0.7133|||<|0.0001|TWO_SIDED|95.0|0.6171|0.8245||ANCOVA model for a log-scaled response with treatment group as a class variable and biomarker baseline value in logarithmic scale as a continuous covariate.|ANCOVA||Geometric Mean Ratio: Sacubitril/Valsartan vs. Enalapril|||0.8245|0.6171|<.0001
92183989|NCT01836523|184266651|SUPERIORITY_OR_OTHER||Rate ratio|1.17||||0.1079|TWO_SIDED|95.0|0.97|1.43|||Negative binomial regression|||The endpoint was analysed using a negative binomial regression model with a log-link function and the log of the time period in which an occurrence of a hypoglycaemic episode was considered treatment emergent as offset. The model included fixed factors (treatment, country, stratification group) and a covariate (baseline HbA1c).||1.43|0.97|0.1079
92183990|NCT02095678|184266652|OTHER|Significance (alpha) set to 0.05||||||0.211|||||||t-test, 2 sided|||||||0.211
92183991|NCT02095678|184266655|OTHER|Significance (alpha) set to 0.05|||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92183992|NCT02095678|184266656|OTHER|Significance (alpha) set to 0.05|||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92183993|NCT03418545|184266657|SUPERIORITY||Percentage difference|67.5|||<|0.0001|TWO_SIDED|95.0|52.9|82.0||The p-value and 95% CI are computed by pooling 5 imputed datasets using PROC MIANALYZE in SAS with normal approximation. The p-value and 95% CI for each imputed data set is based on the Fisher's exact test and the Wald test, respectively.|Fisher Exact|||||82.0|52.9|<0.0001
92288852|NCT00834275|184483120|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.0||||||90.0|94.0|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||104|94|
92288853|NCT00834275|184483121|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|98.3|105.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||105|98.3|
92183994|NCT03418545|184266658|SUPERIORITY||Percentage difference|73.5|||||TWO_SIDED|95.0|60.2|86.8|||||The 95% CI is based on the Wald test.|||86.8|60.2|
92288854|NCT00834275|184483122|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|98.3|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||104|98.3|
92266179|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.656|TWO_SIDED|95.0|-0.4|0.63|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.63|-0.40|0.656
92183995|NCT03418545|184266660|SUPERIORITY||||||<|0.0001||||||A 2-sided paired t-test at the 5% level was performed to demonstrate that the mean overall satisfaction score at Month 3 was statistically greater than that at Baseline for the treatment group.|t-test, 2 sided|||||||<0.0001
92183996|NCT04660799|184266661|NON_INFERIORITY|The lower limit of the two-sided 90% confidence interval (CI) should be above 0.80 in order to show non-inferiority of Ctrough SC versus Ctrough IV.|Ratio Ctrough SC/Ctrough IV|1.52|||||TWO_SIDED|90.0|1.28|1.79||||||Geometric mean ratio of Ctrough SC/Ctrough IV and 90% confidence interval were estimated based on an ANCOVA model adjusted for tumor load at baseline.||1.79|1.28|
92183997|NCT04660799|184266662|NON_INFERIORITY|The lower limit of the two-sided 90% confidence interval (CI) should be above 0.80 in order to show non-inferiority of AUCsc versus AUCiv.|Geometric mean ratio of AUCsc/AUCiv|1.25|||||TWO_SIDED|90.0|1.1|1.42||||||Geometric mean ratio of AUCsc/AUCiv and 90% confidence interval were estimated based on an ANCOVA model adjusted for tumor load at baseline.||1.42|1.10|
92183998|NCT04660799|184266667|SUPERIORITY||Difference in CRR|18.27|||||TWO_SIDED|95.0|-8.92|45.45||||||Stratified by IPI score: IPI 0-2 = low to low-intermediate risk versus IPI 3-5 = high-intermediate to high risk||45.45|-8.92|
92183999|NCT04660799|184266668|SUPERIORITY||Difference in ORR Investigator|17.63|||||TWO_SIDED|95.0|-6.86|42.11||||||Investigator; Stratified by IPI score: IPI 0-2 = low to low-intermediate risk versus IPI 3-5 = high-intermediate to high risk||42.11|-6.86|
92184000|NCT04660799|184266668|SUPERIORITY||Difference in ORR IRC|14.1|||||TWO_SIDED|95.0|-12.68|40.88||||||IRC; Stratified by IPI score: IPI 0-2 = low to low-intermediate risk versus IPI 3-5 = high-intermediate to high risk||40.88|-12.68|
92184001|NCT04660799|184266669|SUPERIORITY||Difference in CRR|7.05|||||TWO_SIDED|95.0|-22.49|36.59||||||Stratified by IPI score: IPI 0-2 = low to low-intermediate risk versus IPI 3-5 = high-intermediate to high risk||36.59|-22.49|
92184002|NCT04660799|184266670|SUPERIORITY||Difference in CRR|18.59|||||TWO_SIDED|95.0|-9.55|46.73||||||Stratified by IPI score: IPI 0-2 = low to low-intermediate risk versus IPI 3-5 = high-intermediate to high risk||46.73|-9.55|
92184003|NCT02356198|184266692|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
92266180|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.13|TWO_SIDED|95.0|-1.11|0.14|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.14|-1.11|0.130
92266181|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.304|TWO_SIDED|95.0|-0.3|0.95|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.95|-0.30|0.304
92184004|NCT02356198|184266693|SUPERIORITY|||||||0.102|||||||Wilcoxon (Mann-Whitney)|||||||0.102
92288855|NCT03649477|184483123|SUPERIORITY||Mean Difference (Net)|-1.202||||0.3493|TWO_SIDED|95.0|-3.729|1.324||0.05 threshold for statistical significance|Mixed Models Analysis|||||1.324|-3.729|0.3493
92288856|NCT03649477|184483123|SUPERIORITY||Mean Difference (Net)|-3.136||||0.0162|TWO_SIDED|95.0|-5.685|-0.586||0.05 threshold for statistical significance|Mixed Models Analysis|||||-0.586|-5.685|0.0162
92288857|NCT03649477|184483124|SUPERIORITY||Mean Difference (Net)|-0.608||||0.6001|TWO_SIDED|95.0|-2.89|1.674||0.05 threshold for statistical significance|Mixed Models Analysis|||||1.674|-2.890|0.6001
92288858|NCT03649477|184483124|SUPERIORITY||Mean Difference (Net)|-0.764||||0.5143|TWO_SIDED|95.0|-3.068|1.541||0.05 threshold for statistical significance|Mixed Models Analysis|||||1.541|-3.068|0.5143
92288859|NCT03649477|184483125|SUPERIORITY||Mean Difference (Net)|0.183||||0.9144|TWO_SIDED|95.0|-3.175|3.541||0.05 threshold for statistical significance|Mixed Models Analysis|||||3.541|-3.175|0.9144
92288860|NCT03649477|184483125|SUPERIORITY||Mean Difference (Net)|-3.812||||0.0266|TWO_SIDED|95.0|-7.177|-0.446||0.05 threshold for statistical significance|Mixed Models Analysis|||||-0.446|-7.177|0.0266
92288861|NCT03649477|184483126|SUPERIORITY||Mean Difference (Net)|-0.312||||0.1598|TWO_SIDED|95.0|-0.748|0.125||0.05 threshold for statistical significance|Mixed Models Analysis|||||0.125|-0.748|0.1598
92288862|NCT03649477|184483126|SUPERIORITY||Mean Difference (Net)|-0.498||||0.0266|TWO_SIDED|95.0|-0.937|-0.059||0.05 threshold for statistical significance|Mixed Models Analysis|||||-0.059|-0.937|0.0266
92288863|NCT03649477|184483127|SUPERIORITY||Mean Difference (Net)|-1.085||||0.2479|TWO_SIDED|95.0|-2.932|0.761||0.05 threshold for statistical significance|Mixed Models Analysis|||||0.761|-2.932|0.2479
92288864|NCT03649477|184483127|SUPERIORITY||Mean Difference (Net)|-2.412||||0.0114|TWO_SIDED|95.0|-4.276|-0.548||0.05 for statistical significance|Mixed Models Analysis|||||-0.548|-4.276|0.0114
92288865|NCT00748072|184483132|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.45||||0.01|TWO_SIDED|95.0|0.24|0.85|||Chi-squared|||The sample size was calculated by the difference in post-biopsy bleeding complications. Since the presence of bleeding was demonstrated in about 30-40 % in our previous observational study, we hypothesized a reduction risk of 0.50 and an absolute reduction of risk from 0.40 to 0.20. The sample size of the study for a power of 0.80 and a significance level \<0.05 was calculated in 158 patients.||0.85|0.24|0.01
92288866|NCT01750294|184483140|SUPERIORITY_OR_OTHER|||||||0.01||||||a = 0.05|Mixed Models Analysis|||||||0.01
92288867|NCT02832063|184483177|EQUIVALENCE|Primary efficacy power calculations assume a \>25% difference between B244 treatment and placebo and a 15% dropout. Each of the endpoints comprising the co-primary endpoint will be tested at an alpha level of p\<0.05. In order to achieve 90% power with a 5% Type I error rate, a total of 372 participants is required.||||||0.034|||||||ANCOVA|||||||0.034
92184005|NCT02356198|184266694|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||||||0.85
92184006|NCT02356198|184266695|SUPERIORITY|||||||0.454|||||||Chi-squared|||||||0.454
92184007|NCT02356198|184266696|SUPERIORITY|||||||0.212|||||||Fisher Exact|||||||0.212
92184008|NCT02397707|184266697|OTHER||Geometric Least-Square Mean (GLSM)Ratio%|411.62|||||TWO_SIDED|90.0|214.72|789.08||||||An analysis of variance (ANOVA) appropriate for a parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUClast. A 90% confidence interval (CI) was constructed for the geometric least squares mean (GLSM) ratio of AUClast for the comparison groups using two 1-sided tests.||789.08|214.72|
92288868|NCT00772603|184483192|SUPERIORITY_OR_OTHER||Median Difference (Net)|-18.3|||=|0.003|TWO_SIDED|95.0|-30.4|-5.8||P values reported are not adjusted for multiple comparisons. To preserve the overall Type I error-rate at 0.050, a step-up Hochberg procedure was used for the pair-wise comparisons.|Wilcoxon (Mann-Whitney)|||A Wilcoxon rank-sum test was used to test the hypothesis of equal median reduction in PCH(T) from baseline between SPN-804 and placebo. The sample size of 120 patients per treatment arm provides over 95% power to detect a difference of 31% to 42% between placebo and 2400mg SPN-804 at a two-sided 0.025 level for an overall Type I error rate of 0.050.||-5.80|-30.40|=0.003
92288869|NCT00772603|184483192|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.3|||=|0.078|TWO_SIDED|95.0|-22.3|1.2||P values reported are not adjusted for multiple comparisons. To preserve the overall Type I error-rate at 0.050, a step-up Hochberg procedure was used for the pair-wise comparisons.|Wilcoxon (Mann-Whitney)|||A Wilcoxon rank-sum test was used to test the hypothesis of equal median reduction in PCH(T) from baseline between SPN-804 and placebo. The sample size of 120 patients per treatment arm provides over 95% power to detect a difference of 24% to 32% between placebo and 1200mg SPN-804 at a two-sided 0.025 level for an overall Type I error rate of 0.050.||1.20|-22.30|=0.078
92288870|NCT00772603|184483193|SUPERIORITY_OR_OTHER||Median Difference (Net)|-33.0|||=|0.003|TWO_SIDED|95.0|-33.0|-6.3||P values reported are not adjusted for multiple comparisons. To preserve the overall Type I error-rate at 0.050, a step-up Hochberg procedure was used for the pair-wise comparisons.|Wilcoxon (Mann-Whitney)|||A Wilcoxon rank-sum test was used to test the hypothesis of equal median reduction in PCH(M) from baseline between SPN-804 and placebo. The sample size of 120 patients per treatment arm provides over 95% power to detect a difference of 31% to 42% between placebo and 2400mg SPN-804 at a two-sided 0.025 level for an overall Type I error rate of 0.050.||-6.30|-33.00|=0.003
92288871|NCT00772603|184483193|SUPERIORITY_OR_OTHER||Median Difference (Net)|-3.3|||=|0.589|TWO_SIDED|95.0|-16.2|9.7||P values reported are not adjusted for multiple comparisons. To preserve the overall Type I error-rate at 0.050, a step-up Hochberg procedure was used for the pair-wise comparisons.|Wilcoxon (Mann-Whitney)|||A Wilcoxon rank-sum test was used to test the hypothesis of equal median reduction in PCH(M) from baseline between SPN-804 and placebo. The sample size of 120 patients per treatment arm provides over 95% power to detect a difference of 24% to 32% between placebo and 1200mg SPN-804 at a two-sided 0.025 level for an overall Type I error rate of 0.050.||9.70|-16.20|=0.589
92288872|NCT00772603|184483194|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.983|||=|0.018|TWO_SIDED|95.0|1.126|3.494|||Regression, Logistic|||The treatment response was analyzed using a logistic regression model with treatment group as a factor and country (or cluster), age, sex, and baseline seizure frequency per 28 days as explanatory variables.||3.494|1.126|=0.018
92288873|NCT00772603|184483194|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67|||=|0.075||95.0|0.95|2.937|||Regression, Logistic|||The treatment response was analyzed using a logistic regression model with treatment group as a factor and country (or cluster), age, sex, and baseline seizure frequency per 28 days as explanatory variables.||2.937|0.950|=0.075
92184009|NCT02397707|184266697|OTHER||GLSM Ratio (%)|644.15|||||TWO_SIDED|90.0|364.67|1137.82||||||An ANOVA appropriate for a parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUClast. A 90% CI was constructed for the GLSM ratio of AUClast for the comparison groups using two 1-sided tests.||1137.82|364.67|
92184010|NCT02397707|184266698|OTHER||GLSM Ratio (%)|399.24|||||TWO_SIDED|90.0|210.89|755.81||||||An ANOVA appropriate for parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUCinf. A 90% CI was constructed for the GLSM ratio of AUClast for the comparison groups using two 1-sided tests.||755.81|210.89|
92288874|NCT00772603|184483195|SUPERIORITY_OR_OTHER||||||=|0.013||95.0|||||Fisher Exact|||Pairwise comparisons of OXC XR 2400mg/day vs. placebo seizure-free rates during the Treatment Phase were made by means of Fisher's exact test for the ITT population.||||=0.013
92288875|NCT00772603|184483195|SUPERIORITY_OR_OTHER||||||=|0.528||95.0|||||Fisher Exact|||Pairwise comparisons of OXC XR 1200mg/day vs. placebo seizure-free rates during the Treatment Phase were made by means of Fisher's exact test for the ITT population.||||=0.528
92288876|NCT00772603|184483196|SUPERIORITY_OR_OTHER||||||=|0.008||95.0|||||Fisher Exact|||Pairwise comparisons of OXC XR 2400mg/day vs. placebo seizure-free rates during the Maintenance Period were made by means of Fisher's exact test for the ITT population.||||=0.008
92288877|NCT00772603|184483196|SUPERIORITY_OR_OTHER||||||=|0.0546||95.0|||||Fisher Exact|||Pairwise comparisons of OXC XR 1200mg/day vs. placebo seizure-free rates during the Maintenance Period were made by means of Fisher's exact test for the ITT population.||||=0.0546
92288878|NCT00835575|184483197|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.52||||||90.0|92.84|106.69|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106.69|92.84|
92184011|NCT02397707|184266698|OTHER||GLSM Ratio (%)|599.63|||||TWO_SIDED|90.0|342.36|1050.22||||||An ANOVA appropriate for parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUCinf. A 90% CI was constructed for the GLSM ratio of AUCinf for the comparison groups using two 1-sided tests.||1050.22|342.36|
92288879|NCT00835575|184483198|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.59||||||90.0|99.13|108.25|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.25|99.13|
92288880|NCT00835575|184483199|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.87||||||90.0|99.47|108.46|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.46|99.47|
92184012|NCT02397707|184266699|OTHER||GLSM Ratio (%)|338.41|||||TWO_SIDED|90.0|168.96|677.79||||||An ANOVA appropriate was fitted to the natural logarithmic transformation of voxilaprevir Cmax. A 90% CI was constructed for the GLSM ratio of AUClast for the comparison groups using two 1-sided tests.||677.79|168.96|
92184013|NCT02397707|184266699|OTHER||GLSM Ratio (%)|713.92|||||TWO_SIDED|90.0|384.07|1327.06||||||An ANOVA appropriate was fitted to the natural logarithmic transformation of voxilaprevir Cmax. A 90% CI was constructed for the GLSM ratio of AUClast for the comparison groups using two 1-sided tests.||1327.06|384.07|
92184014|NCT01450397|184266701|SUPERIORITY_OR_OTHER||||||<|0.0013|||||||t-test, 2 sided|||||||<0.0013
92184015|NCT02334215|184266706|SUPERIORITY|||||||0.32|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone arms compared to Enhanced Treatment as Usual||||.32
92184016|NCT02334215|184266706|SUPERIORITY|||||||0.32|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.32
92184017|NCT02334215|184266707|SUPERIORITY|||||||0.001|||||||Generalized Linear Mixed Model Analysis|||Contrast of Interest: Methadone plus Patient Navigation and Methadone Conditions combined vs. Enhanced Treatment as Usual Conditions||||.001
92184018|NCT02334215|184266707|SUPERIORITY|||||||0.84|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Enhanced Treatment as Usual||||.84
92184019|NCT02334215|184266708|SUPERIORITY|||||||0.11|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone Conditions combined vs. Enhanced Treatment as Usual||||0.11
92288881|NCT00859521|184483205|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|96.7||||||90.0|92.4|101.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101|92.4|
92288882|NCT00859521|184483206|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|98.4||||||90.0|96.9|100.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100|96.9|
92288883|NCT00859521|184483207|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|98.8||||||90.0|97.2|100.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100|97.2|
92288884|NCT01609257|184483208|SUPERIORITY_OR_OTHER|||||||0.674||||||No multiplicity adjustment.|Fisher Exact|||||||0.674
92184020|NCT02334215|184266708|SUPERIORITY|||||||0.55|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||0.55
92184021|NCT02334215|184266709|SUPERIORITY|||||||0.55|||||||Regression, Logistic|||||||0.55
92184022|NCT02334215|184266709|SUPERIORITY|||||||0.57|||||||Regression, Logistic|||Contrast of interest: Methadone plus Patient Navigation vs Methadone||||0.57
92288885|NCT01609257|184483215|SUPERIORITY_OR_OTHER|||||||0.001||||||Statistically significant at p\<0.05. No multiplicity adjustment.|Wilcoxon (Mann-Whitney)|||||||0.001
92288886|NCT01609257|184483216|SUPERIORITY_OR_OTHER|||||||0.008||||||Statistically significant at p\<0.05. No multiplicity adjustment.|Wilcoxon (Mann-Whitney)|||Score 1||||0.008
92288887|NCT01609257|184483216|SUPERIORITY_OR_OTHER|||||||0.037||||||Statistically significant at p\<0.05. No multiplicity adjustment.|Wilcoxon (Mann-Whitney)|||Score 2||||0.037
92288888|NCT01609257|184483217|SUPERIORITY_OR_OTHER|||||||0.199|||||||Wilcoxon (Mann-Whitney)|||||||0.199
92184023|NCT02334215|184266710|SUPERIORITY|||||||0.997|||||||Generalized Linear Mixed Model|||Contrast of interest: Methadone plus Patient Navigation and Methadone compared to Enhanced Treatment as Usual||||.997
92184024|NCT02334215|184266710|SUPERIORITY|||||||0.26|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs Methadone||||0.26
92288889|NCT01609257|184483218|SUPERIORITY_OR_OTHER|||||||0.562||||||Comparison of % Positive|Fisher Exact|||Any Day 1 to 30||||0.562
92288890|NCT02125461|184483241|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.42|0.65|||Log Rank|||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.||0.65|0.42|<0.0001
92288891|NCT02125461|184483242|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.00251|TWO_SIDED|95.0|0.53|0.87|||Log Rank|||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.||0.87|0.53|0.00251
92184025|NCT02334215|184266711|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone compared to Enhanced Treatment as Usual||||||0.663|||||||Generalized Linear Mixed Model|||||||.663
92184026|NCT02334215|184266711|SUPERIORITY|||||||0.33|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs Methadone||||0.33
92184027|NCT02334215|184266712|SUPERIORITY|||||||0.007|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone arms compared to Enhanced Treatment as Usual||||0.007
92184028|NCT02334215|184266712|SUPERIORITY|||||||0.76|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.76
92184029|NCT02334215|184266713|SUPERIORITY|||||||0.6|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Enhanced Treatment as Usual||||0.60
92184030|NCT02334215|184266713|SUPERIORITY|||||||1|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||1.0
92184031|NCT02334215|184266714|SUPERIORITY|||||||0.09|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||.09
92184032|NCT02334215|184266714|SUPERIORITY|||||||0.74|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.74
92184033|NCT02334215|184266715|SUPERIORITY|||||||0.013|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||.013
92184034|NCT02334215|184266715|SUPERIORITY|||||||0.71|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.71
92184035|NCT02334215|184266716|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||||0.32|||||||Generalized Linear Mixed Model Analysis|||||||.32
92184036|NCT02334215|184266716|SUPERIORITY|||||||0.85|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||0.85
92288892|NCT02125461|184483243|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Analysis performed using Fisher's exact test with mid p-value modification by subtracting half of the probability of the observed table from Fisher's p-value.||||<0.001
92288893|NCT02125461|184483247|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.41|0.68|||Log Rank|||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.||0.68|0.41|<0.0001
92288894|NCT02125461|184483248|SUPERIORITY|||||||0.005||||||P-value generated based on z-test where z-test statistic is the ratio of the log-transformed ratio of the cumulative hazards in the 2 treatment arms divided by the square root of the variance.|z-test|The variance was estimated using the delta method and Greenwood's formula.||||||0.005
92288895|NCT02125461|184483249|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.46|0.73|||Log Rank|||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.||0.73|0.46|<0.0001
92288896|NCT02125461|184483250|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.664|TWO_SIDED|95.0|0.77|1.18||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.|Log Rank|||The hazard ratio and CI were estimated from a stratified Cox proportional hazards model with the Breslow method to control for ties, the stratification factors age at randomization (\<65 vs ≥65), sex (male vs female) and smoking history (smoker vs non-smoker) in the strata statement, and the CI calculated using a profile likelihood approach.||1.18|0.77|0.664
92288897|NCT02125461|184483251|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.522|TWO_SIDED|95.0|0.88|1.29||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.|Log Rank|||Treatment comparison for dyspnea. The hazard ratio and CI were estimated from a stratified Cox proportional hazards model with the Breslow method to control for ties, the stratification factors age at randomization (\<65 vs ≥65), sex (male vs female) and smoking history (smoker vs non-smoker) in the strata statement, and the CI calculated using a profile likelihood approach.||1.29|0.88|0.522
92288898|NCT02125461|184483251|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.38|TWO_SIDED|95.0|0.74|1.12||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.|Log Rank|||Treatment comparison for cough. The hazard ratio and CI were estimated from a stratified Cox proportional hazards model with the Breslow method to control for ties, the stratification factors age at randomization (\<65 vs ≥65), sex (male vs female) and smoking history (smoker vs non-smoker) in the strata statement, and the CI calculated using a profile likelihood approach.||1.12|0.74|0.380
92288899|NCT02125461|184483251|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.048|TWO_SIDED|95.0|0.56|1.0||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.|Log Rank|||Treatment comparison for hemoptysis. The hazard ratio and CI were estimated from a stratified Cox proportional hazards model with the Breslow method to control for ties, the stratification factors age at randomization (\<65 vs ≥65), sex (male vs female) and smoking history (smoker vs non-smoker) in the strata statement, and the CI calculated using a profile likelihood approach.||1.00|0.56|0.048
92288900|NCT02125461|184483251|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.626|TWO_SIDED|95.0|0.75|1.19||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.|Log Rank|||Treatment comparison for chest pain. The hazard ratio and CI were estimated from a stratified Cox proportional hazards model with the Breslow method to control for ties, the stratification factors age at randomization (\<65 vs ≥65), sex (male vs female) and smoking history (smoker vs non-smoker) in the strata statement, and the CI calculated using a profile likelihood approach.||1.19|0.75|0.626
92288901|NCT02645253|184483262|SUPERIORITY_OR_OTHER||Slope|1.02|STANDARD_ERROR_OF_MEAN|0.0785|||TWO_SIDED|90.0|0.882|1.15|||Linear Model|||||1.15|0.882|
92288902|NCT02645253|184483264|SUPERIORITY_OR_OTHER||Slope|1.14|STANDARD_ERROR_OF_MEAN|0.0503|||TWO_SIDED|90.0|1.06|1.23|||Linear Model|||||1.23|1.06|
92288903|NCT02645253|184483266|SUPERIORITY_OR_OTHER||Slope|1.05|STANDARD_ERROR_OF_MEAN|0.119|||TWO_SIDED|90.0|0.801|1.31|||Linear Model|||||1.31|0.801|
92288904|NCT02645253|184483276|SUPERIORITY_OR_OTHER||Slope|0.979|STANDARD_ERROR_OF_MEAN|0.0633|||TWO_SIDED|90.0|0.87|1.09|||Linear Model|||||1.09|0.870|
92288905|NCT02645253|184483281|SUPERIORITY_OR_OTHER||Slope|1.05|STANDARD_ERROR_OF_MEAN|0.0552|||TWO_SIDED|90.0|0.951|1.14|||Linear Model|||||1.14|0.951|
92288906|NCT02645253|184483293|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|102.99|||||TWO_SIDED|95.0|86.88|122.09|||ANCOVA||Day 1/ Day -1|||122.09|86.88|
92288907|NCT02645253|184483293|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|91.82|||||TWO_SIDED|95.0|77.32|109.04|||ANCOVA||Day 16 / Day -1|||109.04|77.32|
92288908|NCT02645253|184483293|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|105.92|||||TWO_SIDED|95.0|89.4|125.49|||ANCOVA||Day 1 / Day -1|||125.49|89.40|
92288909|NCT02645253|184483293|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|89.44|||||TWO_SIDED|95.0|75.35|106.16|||ANCOVA||Day 16 / Day -1|||106.16|75.35|
92288910|NCT02645253|184483293|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|99.82|||||TWO_SIDED|95.0|84.12|118.46|||ANCOVA||Day 1 / Day -1|||118.46|84.12|
92288911|NCT02645253|184483293|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|75.38||||||95.0|63.4|89.61|||ANCOVA||Day 16 / Day -1|||89.61|63.40|
92288912|NCT03552484|184483306|SUPERIORITY||Median Difference (Final Values)|0.05||||0.59|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Within-group paired t-tests and between-group paired t-tests||||0.59
92184037|NCT02334215|184266717|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||||0.1|||||||Generalized Linear Mixed Model Analysis|||||||.10
92184038|NCT02334215|184266717|SUPERIORITY|||||||0.74|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.74
92288913|NCT03552484|184483307|SUPERIORITY||Mean Difference (Final Values)|-1.43||||0.59|TWO_SIDED|95.0||||Between-group comparison|t-test, 2 sided|||||||0.59
92288914|NCT03552484|184483308|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.62|TWO_SIDED|||||Between-group comparison of change in Multidimensional Caregiver Strain Index|t-test, 2 sided|||||||0.62
92288915|NCT00862563|184483389|SUPERIORITY_OR_OTHER||Difference between least squares means|-2.1|STANDARD_ERROR_OF_MEAN|1.1||0.06|TWO_SIDED|||||p\<0.05 considered to be significant|ANOVA|||Comparison of Week 10 means for mean drinks per day obtained for the placebo and zonisamide groups. Means used for the analysis are least means squares from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.06
92288916|NCT00862563|184483389|SUPERIORITY_OR_OTHER||Difference between least squares means|-3.0|STANDARD_ERROR_OF_MEAN|1.1||0.008|TWO_SIDED|||||p\< 0.05 was considered to be significant.|ANOVA|||Comparison of Week 11 means for mean drinks per day obtained for the placebo and zonisamide groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.008
92288917|NCT00862563|184483389|SUPERIORITY_OR_OTHER||Difference between least squares means|-2.1|STANDARD_ERROR_OF_MEAN|1.2||0.07|TWO_SIDED|||||p\< 0.05 was considered to be significant.|Mixed Models Analysis|||Comparison of Week 12 mean for mean drinks per day obtained for the placebo and zonisamide groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.07
92288918|NCT00862563|184483389|SUPERIORITY_OR_OTHER||Difference between least squares means.|-3.4|STANDARD_ERROR_OF_MEAN|1.1||0.003|TWO_SIDED|||||p\<0.05 is considered as being significant.|ANOVA|||Comparison of Week 10 mean for mean drinks per day obtained for the placebo and topiramate groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates,||||0.003
92288919|NCT00862563|184483389|SUPERIORITY_OR_OTHER||Difference between least squares means|-4.4|STANDARD_ERROR_OF_MEAN|1.1||0.0002|TWO_SIDED||||||ANOVA|||Comparison of Week 11 means for mean drinks per day obtained for the placebo and topiramate groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates. .||||0.0002
92288920|NCT00862563|184483389|SUPERIORITY_OR_OTHER||Difference between least squares means|-4.1|STANDARD_ERROR_OF_MEAN|1.2||0.0007|TWO_SIDED||||||ANOVA|||Comparison of Week 12 means for mean drinks per day obtained for the placebo and topiramate groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.0007
92288921|NCT00862563|184483389|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.64|STANDARD_ERROR_OF_MEAN|1.1||0.15|TWO_SIDED|||||p\<0.05 considered to be significant|ANOVA|||Comparison of Week 10 means for mean drinks per day obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.15
92288922|NCT00862563|184483389|SUPERIORITY_OR_OTHER||Difference between least squares means|-2.9|STANDARD_ERROR_OF_MEAN|1.2||0.014|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of Week 11 means for mean drinks per day obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariate values.||||0.014
92288923|NCT00862563|184483389|SUPERIORITY_OR_OTHER||Difference between least squares means|-2.0|STANDARD_ERROR_OF_MEAN|1.2||0.1|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of Week 12 means for mean drinks per day obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means s from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.1
92184039|NCT02334215|184266718|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||||0.42|||||||Generalized Linear Mixed Model Analysis|||||||.42
92288924|NCT00862563|184483390|SUPERIORITY_OR_OTHER||Mean difference Week 12|8.9|STANDARD_ERROR_OF_MEAN|3.6||0.015|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison between mean values obtained for the topiramate and placebo groups for Week 12. Model generated least mean squares were used for this analysis.||||0.015
92288925|NCT00862563|184483390|SUPERIORITY_OR_OTHER||Mean Difference Week 12|0.98|STANDARD_ERROR_OF_MEAN|3.6||0.784|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of means for the zonisamide and placebo group for Week 12. Mixed models generated means were used in this analysis.||||0.784
92288926|NCT00862563|184483390|SUPERIORITY_OR_OTHER||Mean difference Week 12|3.65|STANDARD_ERROR_OF_MEAN|3.3||0.264|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of means for the levetiracetam and placebo groups for Week 12. Model generated least mean squares were used for this analysis.||||0.264
92288927|NCT00862563|184483391|SUPERIORITY_OR_OTHER||Difference between least squares means|-24.4|STANDARD_ERROR_OF_MEAN|9.7||0.013|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of Week 10 means for mean percent heavy drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.013
92288928|NCT00862563|184483391|SUPERIORITY_OR_OTHER||Difference between least squares means|-20.9|STANDARD_ERROR_OF_MEAN|9.8||0.036|TWO_SIDED|||||p\<0.05 is considered to be significant|ANOVA|||Comparison of Week 11 means for mean percent heavy drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.036
92288929|NCT00862563|184483391|SUPERIORITY_OR_OTHER||Difference between least squares means|-22.8|STANDARD_ERROR_OF_MEAN|9.9||0.24|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||Comparison of Week 12 means for mean percent heavy drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.24
92288930|NCT00862563|184483391|SUPERIORITY_OR_OTHER||Difference between least squares means|-33.0|STANDARD_ERROR_OF_MEAN|9.0||0.0004|TWO_SIDED|||||p\<0.05 is considered to be significant.|ANOVA|||Comparison of Week 10 means for mean percent heavy drinking days obtained for the placebo and topiramate groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.0004
92288931|NCT00862563|184483391|SUPERIORITY_OR_OTHER||Difference between least squares means|-29.7|STANDARD_ERROR_OF_MEAN|9.2||0.0015|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||Comparison of Week 11 means for mean percent heavy drinking days obtained for the placebo and topiramate groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.0015
92288932|NCT00862563|184483391|SUPERIORITY_OR_OTHER||Difference between least squares means|-37.7|STANDARD_ERROR_OF_MEAN|9.3|<|0.0001|TWO_SIDED|||||p\<0.05 is considered to be significant.|ANOVA|||Comparison of Week 12 means for mean percent heavy drinking days obtained for the placebo and topiramate groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||<0.0001
92288933|NCT00862563|184483391|SUPERIORITY_OR_OTHER||Difference between least squares means|-20.7|STANDARD_ERROR_OF_MEAN|10.0||0.04|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||Comparison of Week 10 means for mean percent heavy drinking days obtained for the placebo and levetiracetam groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.04
92288934|NCT00862563|184483391|SUPERIORITY_OR_OTHER||Difference between least squares means|-23.3|STANDARD_ERROR_OF_MEAN|10.2||0.025|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||Comparison of Week 11 means for mean percent heavy drinking days obtained for the placebo and levetiracetam groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.025
92288935|NCT00862563|184483391|SUPERIORITY_OR_OTHER||Difference between least squares means|-24.8|STANDARD_ERROR_OF_MEAN|10.3||0.018|TWO_SIDED|||||p\<0.05 is considered to be significant|ANOVA|||Comparison of Week 12 means for mean percent heavy drinking days obtained for the placebo and levetiracetam groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.018
92288936|NCT00862563|184483392|SUPERIORITY_OR_OTHER||Difference between least squares means|-22.5|STANDARD_ERROR_OF_MEAN|7.8||0.005|TWO_SIDED|||||p\<0.05 is considered to be significant|ANOVA|||Comparison of Week 10 means for mean percent drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.005
92288937|NCT00862563|184483392|SUPERIORITY_OR_OTHER||Difference between least squares means|-24.1|STANDARD_ERROR_OF_MEAN|7.9||0.003|TWO_SIDED||||||ANOVA|||Comparison of Week 11 means for mean percent drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.003
92288938|NCT00862563|184483392|SUPERIORITY_OR_OTHER||Difference between least square means|-16.3|STANDARD_ERROR_OF_MEAN|8.0||0.044|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of Week 12 means for mean percent drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.044
92288939|NCT00862563|184483392|SUPERIORITY_OR_OTHER||Difference between least squares means|-38.1|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||Comparison of Week 10 means for mean percent drinking days obtained for the placebo and topiramate. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factors. Baseline values were used as covariates.||||<0.0001
92288940|NCT00862563|184483392|SUPERIORITY_OR_OTHER||Difference between least squares means|-47.6|STANDARD_ERROR_OF_MEAN|9.1|<|0.0001|TWO_SIDED|||||p\<0.05 is considered to be significant.|ANOVA|||Comparison of Week 11 means for mean percent drinking days obtained for the placebo and topiramate. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||<0.0001
92184040|NCT02334215|184266718|SUPERIORITY|||||||0.42|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||0.42
92184041|NCT02334215|184266719|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||||0.28|||||||Generalized Linear Mixed Model Analysis|||||||.28
92184042|NCT02334215|184266719|SUPERIORITY|||||||0.44|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||0.44
92184043|NCT02334215|184266720|SUPERIORITY|||||||0.61|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone combined vs. Enhanced Treatment as Usual||||.61
92184044|NCT02334215|184266720|SUPERIORITY|||||||0.72|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||0.72
92288941|NCT00862563|184483392|SUPERIORITY_OR_OTHER||Difference between least squares means|-34.0|STANDARD_ERROR_OF_MEAN|9.2||0.0004|TWO_SIDED|||||p\<0.05 is considered to be significant.|ANOVA|||Week 12.Comparison of Week 12 means for mean percent drinking days obtained for the placebo and topiramate. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.0004
92288942|NCT00862563|184483392|SUPERIORITY_OR_OTHER||Difference between least squares means|-19.3|STANDARD_DEVIATION|8.0||0.017|TWO_SIDED|||||p\<0.05 is considered to be significant|ANOVA|||Comparison of Week 10 means for mean percent drinking days obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis. Baseline values were used as covariates.||||0.017
92288943|NCT00862563|184483392|SUPERIORITY_OR_OTHER||Difference between least squares means|-31.2|STANDARD_ERROR_OF_MEAN|8.1||0.0002|TWO_SIDED|||||p\<0.05 is considered to be significant.|ANOVA|||Comparison of Week 11 means for mean percent drinking days obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis. Baseline values were used as covariates.||||0.0002
92288944|NCT00862563|184483392|SUPERIORITY_OR_OTHER||Difference between least squares means|-18.5|STANDARD_ERROR_OF_MEAN|8.2||0.026|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||.Comparison of Week 12 means for mean percent drinking days obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis.Baseline values were used as covariates.||||0.026
92288945|NCT00862563|184483393|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p\< 0.01 is considered to be significant.|Mixed Models Analysis|p value is for the group x time interaction term.'||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Letter Fluency scores would change towards a downward direction for the zonisamide as compared to the placebo group resulting in significant treatment x time interaction.||||<0.0001
92288946|NCT00862563|184483393|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p\<0.01 is considered to be significant|Mixed Models Analysis|p value is for group x time interaction term for the comparison of data for the topiramate and placebo group.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Letter Fluency scores would change towards a downward direction for the topiramate as compared to the placebo group resulting in a significant treatment x time interaction.||||<0.0001
92288947|NCT00862563|184483393|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value is for interaction effect for the comparison of data for the levetiracetam and placebo groups.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Letter Fluency scores would change towards a downward direction for the levetiracetam as compared to the placebo group resulting in a significant treatment x time interaction.||||0.30
92288948|NCT00862563|184483394|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value is for the group x time interaction effect for the paired comparison of COWAT-category data for the zonisamide and placebo groups.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Category scores would change towards a downward direction for the zonisamide as compared to the placebo group resulting in significant treatment x time interaction.||||0.003
92288949|NCT00862563|184483394|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||p\< 0.01 is considered to be significant.|Mixed Models Analysis|The p value shown is for the group x time interaction effect for the comparison of data from the topiramate and the placebo groups.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Category scores would change towards a downward direction for the topiramate as compared to the placebo group resulting in significant treatment x time interaction||||0.01
92288950|NCT00862563|184483394|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|The p value is for the group x time interaction effect for the comparison of the levetiracetam and placebo groups.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Category scores would change towards a downward direction for the levetiracetam as compared to the placebo group resulting in significant treatment x time interaction||||0.36
92288951|NCT00862563|184483395|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||p\<0.01 is considered to be significant|Mixed Models Analysis|p value is for the group x time interaction effect||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that Digit span scores would change towards a downward direction for the zonisamide as compared to the placebo group resulting in significant treatment x time interaction.||||0.07
92288952|NCT00862563|184483395|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value shown is for the group X time interaction effect.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that age adjusted Digit Span scores would change towards a downward direction for the topiramate as compared to the placebo group resulting in significant treatment x time interaction.||||<0.0001
92288953|NCT00862563|184483395|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value shown is for the group x time interaction effect.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that Digit span scores would change towards a downward direction for the levetiracetam as compared to the placebo group resulting in significant treatment x time interaction.||||0.95
92288954|NCT00862563|184483396|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value shown is for the group x time effect.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that Spatial Span scores would change towards a downward direction for the zonisamide as compared to the placebo group resulting in significant treatment x time interaction.||||0.038
92288955|NCT00862563|184483396|SUPERIORITY_OR_OTHER|||||||0.0025|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value shown is for the group x time interaction effect.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that Digit span scores would change towards a downward direction for the topiramate as compared to the placebo group resulting in significant treatment x time interaction.||||0.0025
92288956|NCT00862563|184483396|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|||||p\<0.01 is considered to be significant|Mixed Models Analysis|p value shown is for the group x time interaction effect.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that Digit span scores would change towards a downward direction for the levetiracetam as compared to the placebo group resulting in significant treatment x time interaction.||||0.3
92288957|NCT02663349|184483405|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|df = 14||Within sample analysis of change between baseline and 3 month assessment.||||.08
92288958|NCT02663349|184483406|SUPERIORITY|||||||0.69|||||||t-test, 2 sided|||Within sample change between baseline and 6 month assessment.||||.69
92288959|NCT02663349|184483407|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|df=14||Within sample change assessed between baseline and 3-month assessment||||.02
92288960|NCT02663349|184483408|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|df = 14||Change between baseline and 6 month assessment||||.34
92288961|NCT02663349|184483409|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||completer analysis of change between baseline and 3-month assessment on the AIHQ Hostility scale||||>.05
92288962|NCT02663349|184483409|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Completer analysis to examine within group change between baseline and 3-month assessment on the AIHQ Aggression scale||||.04
92288963|NCT02663349|184483410|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||completer analysis of within group change on the AIHQ Hostility scale between baseline and the 6-month assessment||||>.05
92288964|NCT02663349|184483410|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||completer analysis of within group change on the AIHQ Aggression scale between baseline and the 6 month assessment||||> .05
92288965|NCT02663349|184483411|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 15||Change within group between baseline and 3 month assessment on the TASIT total score for part 3||||> .05
92288966|NCT02663349|184483412|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 15||within group change on the TASIT total score for Part 3 between baseline and the 6 month assessment||||> .05
92288967|NCT02663349|184483413|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 14||Within group change on SSPA Total Score between baseline and 3-month assessment||||>.05
92184045|NCT02334215|184266721|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||||0.71|||||||Generalized Linear Mixed Model Analysis|||||||.71
92184046|NCT02334215|184266721|SUPERIORITY|||||||0.86|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.86
92288968|NCT02663349|184483414|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 14||Within group change on the SSPA total score between baseline and 6 month assessment||||> .05
92184051|NCT02485925|184266764|OTHER||Proportion of participants|80.7|||||TWO_SIDED|95.0|73.9|86.4|||||||95% confidence interval is based on Clopper-Pearson confidence interval|86.4|73.9|
92184052|NCT02485925|184266765|OTHER||Proportion of participants|99.5|||||TWO_SIDED|95.0|97.2|100.0|||||||95% confidence interval is based on Clopper-Pearson confidence interval|100.0|97.2|
92288969|NCT02663349|184483415|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 15||Within group change on the First Episode Social Functioning Scale Performance Total score on scales 1-7 between baseline and 3-month follow-up||||> .05
92288970|NCT02663349|184483416|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 15||Within group change between baseline and 6-month assessment on the First Episode Social Functioning Scale Performance total score on scales 1-7||||> .05
92288971|NCT02663349|184483417|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Collegial Support scale between Baseline and 3-Month assessments||||.15
92288972|NCT02663349|184483417|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Task Support scale between baseline and 3-month assessments||||.10
92288973|NCT02663349|184483417|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Mentor scale between baseline and the 3-month assessment||||>.05
92288974|NCT02663349|184483417|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Coach scale between baseline and the 3 month assessment||||> .05
92288975|NCT02663349|184483418|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Collegial Support scale between baseline and the 6-month assessment||||.01
92288976|NCT02663349|184483418|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Task Support scale between baseline and 6-month assessment||||.03
92288977|NCT02663349|184483418|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Mentor scale between baseline and the 6-month assessment||||> .05
92288978|NCT02663349|184483418|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Coach scale between baseline and the 6-month assessment||||> .05
92288979|NCT02663349|184483419|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|df = 13||Within group change on the VETSS Self Disclosure scale between Baseline and 3-Month Assessment||||.09
92288980|NCT02663349|184483419|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|df = 13||Within group change on the VETSS Workplace Coping scale between Baseline and 3-Month Assessment||||.12
92288981|NCT02663349|184483420|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on VETSS Self Disclosure scale between Baseline and 6 month assessment||||> .05
92288982|NCT02663349|184483420|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on VETSS Workplace Coping scale between baseline and the 6 month assessment||||> .05
92288983|NCT02284867|184483480|NON_INFERIORITY_OR_EQUIVALENCE|"Multivariable binary logistic regression was done to examine the relation between CD16+ NK and preterm labor as adjusted for other confounding factors the enter method was used to build the regression model.~A two-sided p-value \<0.05 was considered statistically significant."|Odds Ratio (OR)|65.01|STANDARD_ERROR_OF_MEAN|1.14|<|0.0002|TWO_SIDED|95.0|6.96|606.76||To our best of known , no previous human studies was analyzing this issue|Regression, Logistic|||"Categorical data were presented as number and percentage and differences were compared using the Pearson chi-squared test. Ordinal data were compared using the chi-squared test for trend~A two-sided p-value \<0.05 was considered statistically significant."||606.76|6.96|<0.0002
92266182|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.491|TWO_SIDED|95.0|-0.37|0.78|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.78|-0.37|0.491
92266183|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.726|TWO_SIDED|95.0|-0.82|0.57|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.57|-0.82|0.726
92266184|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.029|TWO_SIDED|95.0|0.07|1.23|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.23|0.07|0.029
92184053|NCT04181788|184266774|OTHER|Ratio of experimental vs control|Ratio of experimental vs control|231.2|||||TWO_SIDED|90.0|190.09|281.21||||||Phase 2 600 mg SC Q6W (experimental) vs. Phase 2 300 mg SC Q4W (control)||281.21|190.09|
92184054|NCT04181788|184266775|OTHER|Ratio of experimental vs control|Ratio of experimental vs control|111.48|||||TWO_SIDED|90.0|86.31|143.99||||||Phase 2 600 mg SC Q6W (experimental) vs. Phase 2 300 mg SC Q4W (control)||143.99|86.31|
92184055|NCT06922643|184266806|OTHER||Odds Ratio (OR)|6.73||||0.008|TWO_SIDED|95.0|1.63|27.8|||Regression, Logistic|||||27.8|1.63|0.008
92266185|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.585|TWO_SIDED|95.0|-0.39|0.68|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.68|-0.39|0.585
92266186|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.131|TWO_SIDED|95.0|-1.15|0.15|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.15|-1.15|0.131
92266187|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.215|TWO_SIDED|95.0|-0.24|1.04|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.04|-0.24|0.215
92266188|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.244|TWO_SIDED|95.0|-0.24|0.94|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.94|-0.24|0.244
92266189|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.885|TWO_SIDED|95.0|-0.76|0.66|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.66|-0.76|0.885
92266190|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.067|TWO_SIDED|95.0|-0.04|1.13|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.13|-0.04|0.067
92266191|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.5|TWO_SIDED|95.0|-0.35|0.73|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.73|-0.35|0.500
92266192|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.276|TWO_SIDED|95.0|-1.02|0.29|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.29|-1.02|0.276
92266193|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.413|TWO_SIDED|95.0|-0.38|0.92|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.92|-0.38|0.413
92266194|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.448|TWO_SIDED|95.0|-0.37|0.83|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.83|-0.37|0.448
92266195|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.917|TWO_SIDED|95.0|-0.76|0.69|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.69|-0.76|0.917
92266196|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.132|TWO_SIDED|95.0|-0.13|1.03|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.03|-0.13|0.132
92266197|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.505|TWO_SIDED|95.0|-0.35|0.72|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.72|-0.35|0.505
92266198|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.422|TWO_SIDED|95.0|-0.92|0.38|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.38|-0.92|0.422
92266199|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.747|TWO_SIDED|95.0|-0.54|0.76|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.76|-0.54|0.747
92266200|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.386|TWO_SIDED|95.0|-0.34|0.87|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.87|-0.34|0.386
92266201|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.668|TWO_SIDED|95.0|-0.57|0.89|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.89|-0.57|0.668
92266202|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.099|TWO_SIDED|95.0|-0.09|1.08|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.08|-0.09|0.099
92266203|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.365|TWO_SIDED|95.0|-0.29|0.79|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.79|-0.29|0.365
92266204|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.463|TWO_SIDED|95.0|-0.9|0.41|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.41|-0.90|0.463
92266205|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.845|TWO_SIDED|95.0|-0.6|0.73|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.73|-0.60|0.845
92266206|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.199|TWO_SIDED|95.0|-0.21|1.02|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.02|-0.21|0.199
92288984|NCT02927639|184483482|SUPERIORITY|"A subject was considered completed if they completed all 3 SCI (as indicated in participant flow section) - 13 control, 10 intervention.~However, the mixed model took in to account ALL available data. As such, there were 70 control, 65 intervention that completed at least 1 SCI. Their data was analyzed by the model and used to predict later outcomes so they were considered to be included in the analysis."||||||0.035||||||The mixed model may provide a significantly different change in SCI score from baseline to the 6 month using a per-protocol analysis in the intervention group as compared to the control group. A p value \<0.05 was considered significant.|Mixed Models Analysis|||A multilevel mixed effects linear regression model was used to analyze this data. This analysis allowed for an estimation of missing data. This explains the discrepancy in the number of participant study completion vs participant data analyzed (see below).||||0.035
92184056|NCT01093690|184266845|SUPERIORITY_OR_OTHER|||||||0.41||||||No adjustment.|Chi-squared|1-sided test||the study had 80 percent power to detect an absolute difference of 20 percent in complete response (70% for metoclopramide group vs 50% for control group)||||0.41
92184057|NCT02746107|184266847|NON_INFERIORITY_OR_EQUIVALENCE|details provided in the protocol. Noninferiority margin=+/-5%|Risk Difference (RD)|0.5||||0.83|TWO_SIDED|95.0|-4.0|5.4|||Chi-squared|||||5.4|-4|0.83
92288985|NCT02699463|184483484|SUPERIORITY||||||<|0.01||||||The calculated p-value was \<0.01|ANCOVA|||||||<0.01
92288986|NCT02488239|184483485|OTHER||||||<|0.001|||||||exact binomial rate|||||||<0.001
92288987|NCT02488239|184483486|OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92288988|NCT05283148|184483495|OTHER|Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used.||||||0.321||||||A p-value \< 0.05 was considered statistically significant.|Wilcoxon rank-sum test (two-sided)|||Comparison between Group A and Group B as defined above. Values are reported as median (full range) for each group, measured by DXA at the lumbar spine. Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used. A p-value \< 0.05 was considered statistically significant.||||0.321
92288989|NCT05283148|184483496|OTHER|Welch two-sample t-test (two-sided) was used to account for unequal variances.||||||0.714||||||A p-value \< 0.05 was considered statistically significant.|Welch two sample t-test|||Comparison between Group A and Group B as defined above. Values are reported as median ± full range for each group, derived from DXA lumbar spine scans. Welch two-sample t-test (two-sided) was used to account for unequal variances. A p-value \< 0.05 was considered statistically significant.||||0.714
92184058|NCT02746107|184266848|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.4||||0.187|TWO_SIDED|95.0|-1.3|8.1|||Chi-squared||(risk on 5y) - (risk on 1y)|details provided in protocol;||8.1|-1.3|0.187
92184059|NCT02746107|184266849|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.4|||<|0.001|TWO_SIDED|95.0|10.8|20.0|||Chi-squared||patient - (physicians themselves)|||20|10.8|<0.001
92288990|NCT05283148|184483497|OTHER|Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used.||||||0.09||||||p-value \< 0.05 was considered statistically significant.|Wilcoxon rank-sum test (two-sided)|||Comparison between Group A and Group B as defined above. Values are reported as median (full range) for each group, measured by DXA at the total hip. Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used. A p-value \< 0.05 was considered statistically significant.||||0.09
92288991|NCT05283148|184483498|OTHER|Welch two-sample t-test (two-sided) was used to account for unequal variances.||||||0.604||||||A p-value \< 0.05 was considered statistically significant.|Welch two sample t-test (two sided)|||Comparison between Group A and Group B as defined above. Values are reported as median ± full range for each group, derived from DXA total hip scans. Welch two-sample t-test (two-sided) was used to account for unequal variances. A p-value \< 0.05 was considered statistically significant.||||0.604
92288992|NCT05283148|184483499|OTHER|Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used.||||||0.013||||||A p-value \< 0.05 was considered statistically significant.|Wilcoxon rank-sum test (two-sided)|||Comparison between Group A and Group B as defined above. Values are reported as median (full range) for each group, measured by DXA at the femoral neck. Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used. A p-value \< 0.05 was considered statistically significant.||||0.013
92288993|NCT05283148|184483500|OTHER|Welch two-sample t-test (two-sided) was used to account for unequal variances.||||||0.166||||||A p-value \< 0.05 was considered statistically significant.|Welch two sample t-test|||Comparison between Group A and Group B as defined above. Values are reported as median ± full range for each group, derived from DXA femoral neck scans. Welch two-sample t-test (two-sided) was used to account for unequal variances. A p-value \< 0.05 was considered statistically significant.||||0.166
92288994|NCT05283148|184483501|OTHER|Welch two-sample t-test (two-sided) was used to account for unequal variances.||||||0.23||||||A p-value \< 0.05 was considered statistically significant.|Welch two sample t-test (two sided)|||Comparison between Group A and Group B as defined above. Values are reported as median (interquartile range) for each group, based on the ASCQ-Me Pain Impact instrument (lower scores indicate worse pain impact). Welch two-sample t-test (two-sided) was used to account for unequal variances. A p-value \< 0.05 was considered statistically significant.||||0.23
92288995|NCT03466866|184483532|SUPERIORITY||Incidence rate ratio|0.67||||0.12|TWO_SIDED|95.0|0.42|1.07|||Poisson regression|We adjusted for stratification variables, sex, baseline MOCA, number of medical conditions, PSQ Communication, and PSQ General satisfaction.||We used Poisson regression to model the number of outcome events as a function of randomization assignment, adjusting for the stratification variables and using follow-up time as the offset term. We calculated estimates of annual rates of the primary outcome and the adjusted estimate of the rate ratio. We evaluated the primary hypothesis by testing the null hypothesis that the rate ratio for randomization assignment equals 1.||1.07|.42|.12
92288996|NCT03466866|184483533|SUPERIORITY|General Satisfaction|Mean Difference (Final Values)|0.11||||0.502|TWO_SIDED|95.0|-0.22|0.45|||Regression, Linear|||We modeled PSQ- scores as continuous variables to estimate average change over time by treatment group. We used mixed effects linear regression with fixed effects for time (baseline, and months 6 and 12), randomization assignment, and time by randomization interaction. A random intercept term and an appropriate covariance structure was used to account for correlation among repeated measurements.||.45|-.22|.502
92288997|NCT03466866|184483534|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.23|TWO_SIDED|95.0|0.16|0.69|||ANCOVA|||Analysis of covariance was performed with Number of Quality Metrics as the dependent variable, treatment arm as the main independent variable of interest and the stratification variables as adjusting variables.||.69|.16|.23
92288998|NCT03466866|184483535|SUPERIORITY||Mean Difference (Net)|4.45||||0.094|TWO_SIDED|95.0|-0.76|9.66|||Mixed Models Analysis|||We used mixed effects linear regression. Fixed effects included time (baseline, and months 6 and 12), randomization assignment, time by randomization interaction, and the three stratification variables. From the results of this model, we estimated the mean change from baseline to 6 months, 6 months to 12 months and baseline to 12 months within each treatment group. We then compared the change from baseline to 12 months between the two groups.||9.66|-.76|.094
92288999|NCT01172145|184483536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.385|STANDARD_ERROR_OF_MEAN|4.86||0.181|TWO_SIDED|95.0|-16.86|3.4|||t-test, 2 sided|||||3.40|-16.86|0.181
92289000|NCT04134091|184483544|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92289001|NCT04134091|184483544|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92289002|NCT04134091|184483545|SUPERIORITY|||||||0.0001|||||||ANCOVA|||||||0.0001
92289003|NCT04134091|184483545|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92289004|NCT04134091|184483546|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92289005|NCT04134091|184483546|SUPERIORITY||||||<|0.01|||||||Fisher Exact|||||||<0.01
92289006|NCT04134091|184483547|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92289007|NCT04134091|184483547|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92289008|NCT04134091|184483548|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92289009|NCT04134091|184483548|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92289010|NCT04134091|184483549|SUPERIORITY||||||>|0.05|||||||ANCOVA|||Outcome Variable: Hepatocyte Ballooning Score||||>0.05
92289011|NCT04134091|184483549|SUPERIORITY||||||<|0.05|||||||ANCOVA|||Outcome Variable: Hepatocyte Ballooning Score||||<0.05
92289012|NCT04134091|184483549|SUPERIORITY||||||>|0.05|||||||ANCOVA|||Outcome Variable: Lobular Inflammation Score||||>0.05
92289013|NCT04134091|184483549|SUPERIORITY||||||>|0.05|||||||ANCOVA|||Outcome Variable: Lobular Inflammation Score||||>0.05
92289014|NCT04134091|184483549|SUPERIORITY||||||<|0.01|||||||ANCOVA|||Outcome Variable: Steatosis Score||||<0.01
92289015|NCT04134091|184483549|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Outcome Variable: Steatosis Score||||<0.001
92289016|NCT04134091|184483550|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92289017|NCT04134091|184483550|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92289018|NCT04134091|184483551|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92289019|NCT04134091|184483551|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92289020|NCT04134091|184483552|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92289021|NCT04134091|184483552|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92289022|NCT04134091|184483553|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92289023|NCT04134091|184483553|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92289024|NCT04134091|184483554|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92289025|NCT04134091|184483554|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92289026|NCT04134091|184483555|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: AST||||>0.05
92289027|NCT04134091|184483555|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||Outcome Variable: AST||||<0.01
92289028|NCT04134091|184483555|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: ALT||||>0.05
92289029|NCT04134091|184483555|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||Outcome Variable: ALT||||< 0.01
92289030|NCT04134091|184483555|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: ALP||||>0.05
92289031|NCT04134091|184483555|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Outcome Variable: ALP||||<0.05
92266207|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.375|TWO_SIDED|95.0|-0.41|1.08|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||1.08|-0.41|0.375
92289032|NCT04134091|184483555|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: GGT||||>0.05
92289033|NCT04134091|184483555|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Outcome Variable: GGT||||<0.05
92184060|NCT02746107|184266849|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.28|||<|0.001|TWO_SIDED|95.0|2.25|4.78|||Regression, Logistic|adjustment for age, gender, CHA2D2s-VASC score, nr of diagrams, nr of years, presence of someone close with stroke, graduation year, speciality||||4.78|2.25|<0.001
92184061|NCT02746107|184266850|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.3||||0.034|TWO_SIDED|95.0|1.2|17.0|||Chi-squared|CHA2D2S-VASC risk score 1 was reference|positive value means higher proportion of prescription, CHA2D2S-VASC risk score 1 was reference|CHA2D2S-VASC risk score 1 was the reference||17|1.2|0.034
92184062|NCT02746107|184266850|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.2||||0.033|TWO_SIDED|95.0|1.2|17.0|||Chi-squared|||||17|1.2|0.033
92184063|NCT02746107|184266850|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.4||||0.003|TWO_SIDED|95.0|4.7|20.1|||Chi-squared|||||20.1|4.7|0.003
92184064|NCT02746107|184266850|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.1||||0.009|TWO_SIDED|95.0|3.2|18.8|||Chi-squared|||||18.8|3.2|0.009
92184065|NCT02746107|184266850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||0.024|TWO_SIDED|95.0|1.08|3.07|||Regression, Logistic|CHA2D2S-VASC risk score 1 was the reference, adjusted for nr diagrams, nr years, age, gender, smb close with stroke, speciality, professional degree||CHA2D2S-VASC risk score 1 was the reference||3.07|1.08|0.024
92184066|NCT02746107|184266850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77||||0.03|TWO_SIDED|95.0|1.06|2.98|||Regression, Logistic|Adjusted for age, gender, medical and academic degrees, someone close with stroke, speciality, period of risk estimation, number of figures.|numerator: CHADS-VASC 1|||2.98|1.06|0.03
92184067|NCT02746107|184266850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.37||||0.002|TWO_SIDED|95.0|1.37|4.09|||Regression, Logistic|Adjusted for age, gender, medical and academic degrees, someone close with stroke, speciality, period of risk estimation, number of figures.|numerator = CHADS-VASC 1|||4.09|1.37|0.002
92266208|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.028|TWO_SIDED|95.0|0.07|1.27|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.27|0.07|0.028
92266209|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.188|TWO_SIDED|95.0|-0.18|0.92|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.92|-0.18|0.188
92266210|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.375|TWO_SIDED|95.0|-0.97|0.37|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.37|-0.97|0.375
92266211|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.552|TWO_SIDED|95.0|-0.47|0.89|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.89|-0.47|0.552
92266212|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.126|TWO_SIDED|95.0|-0.14|1.12|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.12|-0.14|0.126
92266213|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.46|TWO_SIDED|95.0|-0.47|1.05|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||1.05|-0.47|0.460
92266214|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.095|TWO_SIDED|95.0|-0.09|1.09|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.09|-0.09|0.095
92266215|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.146|TWO_SIDED|95.0|-0.14|0.94|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.94|-0.14|0.146
92266216|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.769|TWO_SIDED|95.0|-0.75|0.56|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.56|-0.75|0.769
92266217|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.405|TWO_SIDED|95.0|-0.39|0.96|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.96|-0.39|0.405
92266218|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.073|TWO_SIDED|95.0|-0.05|1.2|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.20|-0.05|0.073
92184068|NCT02746107|184266850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.004|TWO_SIDED|95.0|1.14|2.56|||Regression, Logistic|Adjusted for age, gender, medical and academic degrees, someone close with stroke, speciality, period of risk estimation, number of figures.|numerator=CHADS-VASC 1|||2.56|1.14|0.004
92289034|NCT04134091|184483556|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: Total cholesterol||||>0.05
92289035|NCT04134091|184483556|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: Total cholesterol||||>0.05
92289036|NCT04134091|184483556|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: LDL||||>0.05
92289037|NCT04134091|184483556|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: LDL||||>0.05
92289038|NCT04134091|184483556|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: HDL||||>0.05
92289039|NCT04134091|184483556|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: HDL||||>0.05
92289040|NCT04134091|184483556|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: triglycerides||||>0.05
92289041|NCT04134091|184483556|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: triglycerides||||>0.05
92289042|NCT01848938|184483557|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Linear Mixed Models analysis|||analysis between groups||||<0.001
92289043|NCT01848938|184483558|SUPERIORITY_OR_OTHER|||||||0.005|||||||Linear Mixed Models analysis|||analysis between groups||||0.005
92289044|NCT01848938|184483559|SUPERIORITY_OR_OTHER|||||||0.023|||||||Wilcoxon (Mann-Whitney)|||analysis between groups||||0.023
92289045|NCT01848938|184483561|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||analysis between groups||||0.001
92289046|NCT01848938|184483562|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||analysis between groups||||<0.001
92289047|NCT01640197|184483563|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92289048|NCT01640197|184483564|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92289049|NCT01640197|184483565|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92289050|NCT01640197|184483566|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92289051|NCT01640197|184483567|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92289052|NCT01640197|184483568|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92289053|NCT01640197|184483569|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92289054|NCT00909753|184483570|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|92.5||||||90.0|85.8|99.7|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.7|85.8|
92289055|NCT00909753|184483571|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|95.5||||||90.0|92.2|98.9|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.9|92.2|
92289056|NCT00909753|184483572|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|90.4||||||90.0|83.1|98.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.3|83.1|
92289057|NCT00909753|184483573|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|90.5||||||90.0|85.5|95.9|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||95.9|85.5|
92289058|NCT00909753|184483574|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|92.2||||||90.0|85.5|99.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.5|85.5|
92289059|NCT00909753|184483575|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|95.0||||||90.0|91.3|98.7|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.7|91.3|
92289060|NCT00909753|184483576|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|90.4||||||90.0|83.1|98.3|||||Bioequivalence is established when 90% COnfidence Interval falls within 80-125.|||98.3|83.1|
92289061|NCT00909753|184483577|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|90.5||||||90.0|85.0|96.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||96.3|85.0|
92289062|NCT00835536|184483578|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.0||||||90.0|93.1|108.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108|93.1|
92289063|NCT00835536|184483579|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.5||||||90.0|92.1|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101|92.1|
92289064|NCT04603495|184483589|OTHER|The response rate between the 2 treatment groups was compared using CMH test.|Difference in proportion|30.4|||<|0.001|TWO_SIDED|95.0|21.6|39.3|||Cochran-Mantel-Haenszel|CMH 95% CI adjusted by strata; Mehrotra-Railkar test used if Breslow-Day significant; DIPSS High merged with Int-2 due to low counts.|The proportion difference = experimental group (Pela + RUX) - control group (placebo + RUX).|Splenic Response Rate at Week 24||39.3|21.6|<0.001
92289065|NCT04603495|184483590|OTHER||LS Mean Difference|-1.94|STANDARD_ERROR_OF_MEAN|1.009||0.0545|TWO_SIDED|95.0|-3.92|0.04|||ANCOVA|||Absolute Change from Baseline in Total Symptom Score (TSS) at Week 24||0.04|-3.92|0.0545
92289066|NCT04603495|184483591|OTHER|The response rate between the 2 treatment groups was compared using CMH test.|Difference in proportions|6.0||||0.216|TWO_SIDED|95.0|-3.4|15.5|||Cochran-Mantel-Haenszel|CMH 95% CI adjusted by strata; Mehrotra-Railkar test used if Breslow-Day significant; DIPSS High merged with Int-2 due to low counts.|Proportion Difference = Experimental Group (Pela + RUX) - Control Group (placebo + RUX).|Percentage of TSS50 at Week 24||15.5|-3.4|0.216
92289067|NCT04603495|184483593|OTHER||Difference in proportions|7.63||||0.037|TWO_SIDED|95.0|0.52|14.73|||Cochran-Mantel-Haenszel|CMH 95% CI adjusted across the strata including baseline DIPSS, platelet count, and spleen volume.|Proportion Difference = Experimental Group (Pela + RUX) - Control Group (placebo + RUX).|≥1 Grade improvement From Baseline in Bone Marrow Fibrosis at Week 24||14.73|0.52|0.037
92289068|NCT04603495|184483612|OTHER||Difference in Proportions|7.8||||0.107|TWO_SIDED|95.0|-1.7|17.2|||Cochran-Mantel-Haenszel|CMH 95% CI adjusted by strata; Mehrotra-Railkar test used if Breslow-Day significant; DIPSS High merged with Int-2 due to low counts.|The proportion difference = experimental group (Pela + RUX) - control group (placebo + RUX). Wald 95% CIs were applied.|Modified Total Symptom Score (mTSS) Response at Week 24||17.2|-1.7|0.107
92289069|NCT03804983|184483616|OTHER|Analysis of Variance||||||0.178||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.178
92289070|NCT03804983|184483617|OTHER|Analysis of Variance||||||0.145||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.145
92289071|NCT03804983|184483618|OTHER|Analysis of Variance||||||0.304||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.304
92289072|NCT03804983|184483619|OTHER|Analysis of Variance||||||0.131||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.131
92184069|NCT01450007|184266851|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|||||||0.001
92184070|NCT01450007|184266852|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|||||||0.001
92184071|NCT01450007|184266853|SUPERIORITY_OR_OTHER|||||||0.76|||||||ANOVA|||||||0.76
92289073|NCT03804983|184483621|OTHER|Analysis of Variance||||||0.206||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.206
92289074|NCT03804983|184483622|OTHER|Analysis of Variance||||||0.335||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.335
92289075|NCT03804983|184483623|OTHER|Analysis of Variance||||||0.637||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.637
92289076|NCT03804983|184483624|OTHER|Analysis of Variance||||||0.347||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.347
92289077|NCT03804983|184483625|OTHER|Analysis of Variance||||||0.057||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.057
92289078|NCT03804983|184483626|OTHER|Analysis of Variance||||||0.435||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.435
92289079|NCT03804983|184483627|OTHER|Analysis of Variance||||||0.135||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.135
92289080|NCT03804983|184483628|OTHER|Analysis of Variance||||||0.271||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.271
92289081|NCT03804983|184483629|OTHER|Analysis of Variance||||||1||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||1.0
92289082|NCT03804983|184483631|OTHER|Analysis of Variance||||||1||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||1.0
92289083|NCT03804983|184483632|OTHER|Analysis of Variance||||||0.294||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.294
92289084|NCT03804983|184483633|OTHER|Analysis of Variance||||||0.584||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.584
92289085|NCT03804983|184483634|OTHER|Analysis of Variance||||||0.69||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.69
92289086|NCT03804983|184483635|OTHER|Analysis of Variance||||||0.066||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.066
92289087|NCT03804983|184483636|OTHER|Analysis of Variance||||||0.904||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.904
92289088|NCT03527485|184483654|EQUIVALENCE|Between-group comparisons of binding potential non displaceable (BPND) in ventral striatum (VS).||||||0.011|||||||ANOVA|||||||0.011
92289089|NCT03527485|184483654|EQUIVALENCE|Between-group comparisons of binding potential non displaceable (BPND) in Prefrontal cortex (PFC).||||||0.044|||||||ANOVA|||||||0.044
92184072|NCT01450007|184266854|SUPERIORITY_OR_OTHER|||||||0.61|||||||Kruskal-Wallis|||Comparison between the 3 groups for pain scores at 24 hours.||||0.61
92184073|NCT01450007|184266854|SUPERIORITY_OR_OTHER|||||||0.13|||||||Kruskal-Wallis|||Comparison between the 3 groups for pain scores at 48 hours.||||0.13
92289090|NCT06041256|184483673|OTHER||Difference in response rates|30.2||||0.0722|TWO_SIDED|95.0|0.8|58.3|||Fisher Exact|||||58.3|0.8|0.0722
92289091|NCT06041256|184483673|OTHER||Difference in response rates|-3.8|||>|0.9999|TWO_SIDED|95.0|-28.1|20.6|||Fisher Exact|||||20.6|-28.1|>0.9999
92289092|NCT06041256|184483673|OTHER||Difference in response rates|22.6||||0.1482|TWO_SIDED|95.0|-5.5|50.6|||Fisher Exact|||||50.6|-5.5|0.1482
92289093|NCT06041256|184483673|OTHER||Difference in response rates|35.7||||0.0203|TWO_SIDED|95.0|5.9|61.6|||Fisher Exact|||||61.6|5.9|0.0203
92289094|NCT06041256|184483673|OTHER||Difference in response rates|-33.9||||0.0293|TWO_SIDED|95.0|-60.3|-4.6|||Fisher Exact|||||-4.6|-60.3|0.0293
92289095|NCT06041256|184483673|OTHER||Difference in response rates|-7.6||||0.7431|TWO_SIDED|95.0|-38.9|25.3|||Fisher Exact|||||25.3|-38.9|0.7431
92289096|NCT06041256|184483673|OTHER||Difference in response rates|5.6||||0.7568|TWO_SIDED|95.0|-26.8|37.3|||Fisher Exact|||||37.3|-26.8|0.7568
92289097|NCT06041256|184483674|OTHER||Least square mean difference|20.4||||0.0232|TWO_SIDED|95.0|2.9|38.0|||ANCOVA|||||38.0|2.9|0.0232
92289098|NCT06041256|184483674|OTHER||Least square mean difference|9.8||||0.26|TWO_SIDED|95.0|-7.4|27.1|||ANCOVA|||||27.1|-7.4|0.2600
92289099|NCT06041256|184483674|OTHER||Least square mean difference|22.5||||0.0115|TWO_SIDED|95.0|5.2|39.9|||ANCOVA|||||39.9|5.2|0.0115
92289100|NCT06041256|184483674|OTHER||Least square mean difference|36.0|||<|0.0001|TWO_SIDED|95.0|18.5|53.4|||ANCOVA|||||53.4|18.5|<0.0001
92289101|NCT06041256|184483674|OTHER||Least square mean difference|-10.6||||0.2403|TWO_SIDED|95.0|-28.4|7.2|||ANCOVA|||||7.2|-28.4|0.2403
92289102|NCT06041256|184483674|OTHER||Least square mean difference|2.1||||0.8138|TWO_SIDED|95.0|-15.7|19.9|||ANCOVA|||||19.9|-15.7|0.8138
92289103|NCT06041256|184483674|OTHER||Least square mean difference|15.5||||0.0834|TWO_SIDED|95.0|-2.1|33.2|||ANCOVA|||||33.2|-2.1|0.0834
92289104|NCT06041256|184483675|OTHER||Least square mean difference|-75.1||||0.0147|TWO_SIDED|95.0|-135.2|-15.1|||ANCOVA|||||-15.1|-135.2|0.0147
92289105|NCT06041256|184483675|OTHER||Least square mean difference|-81.3||||0.0077|TWO_SIDED|95.0|-140.5|-22.0|||ANCOVA|||||-22.0|-140.5|0.0077
92289106|NCT06041256|184483675|OTHER||Least square mean difference|-73.1||||0.0165|TWO_SIDED|95.0|-132.6|-13.7|||ANCOVA|||||-13.7|-132.6|0.0165
92289107|NCT06041256|184483675|OTHER||Least square mean difference|-81.7||||0.0079|TWO_SIDED|95.0|-141.4|-22.0|||ANCOVA|||||-22.0|-141.4|0.0079
92289108|NCT06041256|184483675|OTHER||Least square mean difference|-6.1||||0.8443|TWO_SIDED|95.0|-67.8|55.6|||ANCOVA|||||55.6|-67.8|0.8443
92289109|NCT06041256|184483675|OTHER||Least square mean difference|2.0||||0.949|TWO_SIDED|95.0|-60.1|64.1|||ANCOVA|||||64.1|-60.1|0.9490
92289110|NCT06041256|184483675|OTHER||Least square mean difference|-6.6||||0.8324|TWO_SIDED|95.0|-68.1|55.0|||ANCOVA|||||55.0|-68.1|0.8324
92184074|NCT01450007|184266854|SUPERIORITY_OR_OTHER|||||||0.25|||||||Kruskal-Wallis|||Comparison between the 3 groups for pain scores at 1 week.||||0.25
92184075|NCT01536704|184266882|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for AUC (0-t) lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.91|||||TWO_SIDED|90.0|0.88|0.94|||Wilcoxon Signed Rank Test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||0.94|0.88|
92184076|NCT01536704|184266882|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for AUC (0-t) lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.98|1.05|||Wilcoxon Signed Rank test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||1.05|0.98|
92184077|NCT01536704|184266883|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for Cmax lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.89|||||TWO_SIDED|90.0|0.85|0.94|||Wilcoxon Signed Rank Test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||0.94|0.85|
92184078|NCT01536704|184266883|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for Cmax lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.93|1.02|||Wilcoxon Signed Rank Test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||1.02|0.93|
92184079|NCT01536704|184266884|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for AUC (0-inf) lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.92||||||90.0|0.88|0.95|||Wilcoxon Signed Rank Test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||0.95|0.88|
92184080|NCT01536704|184266884|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for AUC (0-inf) lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.98|1.06|||Wilcoxon Signed Rank Test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||1.06|0.98|
92289111|NCT00835705|184483690|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|103.03||||||90.0|98.4|107.88|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||107.88|98.40|
92184081|NCT01536704|184266885|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0006||||0.1491||95.0|||||Wilcoxon Signed Rank Test|The value of Tmax was adjusted for this non-parametric analysis.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.1491
92184082|NCT01536704|184266885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0005||||0.679||95.0|||||Wilcoxon Signed Rank Test|The value of Tmax was adjusted for this non-parametric analysis.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.6790
92184083|NCT01536704|184266886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0641||||0.5619||95.0|||||Wilcoxon Signed Rank Test|The value of T (1/2) was adjusted for this non-parametric analysis.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.5619
92184084|NCT01536704|184266886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0538||||0.4523||95.0|||||Wilcoxon Signed Rank Test|The value of T (1/2) was adjusted for this non-parametric analysis.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.4523
92184085|NCT01536704|184266887|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0025||||0.5113||95.0|||||Wilcoxon Signed Rank Test|This non-parametric analysis was performed on the unadjusted values of parameters.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.5113
92289112|NCT00835705|184483691|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|98.43||||||90.0|96.71|100.18|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||100.18|96.71|
92184086|NCT01536704|184266887|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.0042||||0.537||95.0|||||Wilcoxon Signed Rank Test|This non-parametric analysis was performed on the unadjusted values of parameters.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.5370
92184087|NCT04658784|184266888|SUPERIORITY||Odds Ratio (OR)|0.51||||0.32|TWO_SIDED|95.0|0.13|1.92||OR, 95% CI, and p-values for outcomes adjusted for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery). P-value for VAS at 6-weeks was not adjusted for multiple comparisons.|Regression, Logistic|||OR calculated from logistic regression model, evaluating mean change in baseline VAS to 6-weeks.||1.92|0.13|0.32
92184088|NCT04658784|184266889|SUPERIORITY||Odds Ratio (OR)|0.48||||1|TWO_SIDED|95.0|0.04|5.65||OR, 95% CI, and p-values for outcomes adjusted for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery). P-value for VAS at 6-weeks was not adjusted for multiple comparisons.|Regression, Logistic|||OR calculated from logistic regression model, evaluating mean change in baseline VAS to 6-weeks.||5.65|0.04|1.0
92184089|NCT04658784|184266892|SUPERIORITY||Mean Difference (Net)|2.6||||1|TWO_SIDED|95.0|-3.5|8.7||Adjust for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery).|Regression, Linear|||Differences in mean change and 95% CI generated from general linear models. Change from baseline to 6- weeks.||8.7|-3.5|1.0
92184090|NCT04658784|184266892|SUPERIORITY||Mean Difference (Net)|-1.2|||||TWO_SIDED|95.0|-5.6|3.2||Adjust for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery).|Regression, Linear|||Differences in mean change and 95% CI generated from general linear models. Change from baseline to 6-months.||3.2|-5.6|
92184091|NCT04658784|184266893|SUPERIORITY||Mean Difference (Net)|0.2||||1|TWO_SIDED|95.0|-6.6|6.9||Adjust for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery).|Regression, Linear|||Differences in mean change and 95% CI generated from general linear models. Change in baseline to 6-weeks.||6.9|-6.6|1.0
92184092|NCT04658784|184266893|SUPERIORITY|Differences in mean change and 95% CI generated from general linear models. Change in baseline to 6-months.|Mean Difference (Net)|2.8||||1|TWO_SIDED|95.0|-3.1|8.6||Adjusted for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery).|Regression, Linear|||||8.6|-3.1|1
92184093|NCT04658784|184266894|SUPERIORITY||Mean Difference (Net)|-1.6||||1|TWO_SIDED|95.0|-4.4|1.3||Adjusted for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery).|Regression, Linear|||Differences in mean change and 95% CI generated from general linear models. Change from baseline to 6 months.||1.3|-4.4|1.0
92184094|NCT00749944|184266944|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.72|||||TWO_SIDED|95.0|-0.33|1.77||||||There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.77|-0.33|
92184095|NCT00749944|184266944|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.46|||||TWO_SIDED|95.0|-0.5|1.43||||||Period AC: Difference varenicline versus placebo.||1.43|-0.50|
92184096|NCT00749944|184266944|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.92|||||TWO_SIDED|95.0|-0.27|2.11||||||Period AD: Difference varenicline versus placebo.||2.11|-0.27|
92184097|NCT00749944|184266944|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.5|||||TWO_SIDED|95.0|-0.52|1.53||||||Period AE: Difference varenicline versus placebo.||1.53|-0.52|
92184098|NCT00749944|184266944|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.43|||||TWO_SIDED|95.0|-1.35|0.5|||||Mixed Models Analysis|Period BC: Difference varenicline versus placebo.||0.50|-1.35|
92184099|NCT00749944|184266944|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.03|||||TWO_SIDED|95.0|-1.18|1.24||||||Period BD: Difference varenicline versus placebo.||1.24|-1.18|
92184100|NCT00749944|184266944|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.37|||||TWO_SIDED|95.0|-1.37|0.63|||||Mixed Models Analysis|Period BE: Difference varenicline versus placebo.||0.63|-1.37|
92184101|NCT00749944|184266945|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.62|||||TWO_SIDED|95.0|-0.15|1.39||||||There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.39|-0.15|
92184102|NCT00749944|184266945|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.41|||||TWO_SIDED|95.0|-0.24|1.07||||||Period AC: Difference varenicline versus placebo.||1.07|-0.24|
92184103|NCT00749944|184266945|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.48|||||TWO_SIDED|95.0|-0.26|1.22||||||Period AD: Difference varenicline versus placebo.||1.22|-0.26|
92184104|NCT00749944|184266945|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.44|||||TWO_SIDED|95.0|-0.18|1.06||||||Period AE: Difference varenicline versus placebo.||1.06|-0.18|
92184105|NCT00749944|184266945|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.1|||||TWO_SIDED|95.0|-0.58|0.78||||||Period BC: Difference varenicline versus placebo.||0.78|-0.58|
92184106|NCT00749944|184266945|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.22|||||TWO_SIDED|95.0|-0.48|0.92||||||Period BD: Difference varenicline versus placebo.||0.92|-0.48|
92184107|NCT00749944|184266945|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.23|||||TWO_SIDED|95.0|-0.26|0.72||||||Period BE: Difference varenicline versus placebo.||0.72|-0.26|
92289113|NCT00835705|184483692|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|98.29||||||90.0|96.58|100.03|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||100.03|96.58|
92289114|NCT00835705|184483693|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|103.16||||||90.0|95.33|111.64|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||111.64|95.33|
92289115|NCT00835705|184483694|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|103.79||||||90.0|95.75|112.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||112.50|95.75|
92289116|NCT00835705|184483695|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|104.26||||||90.0|95.76|113.52|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||113.52|95.76|
92289117|NCT05090839|184483704|EQUIVALENCE|The 95% confidence interval is used to assess the difference between the means of the 2 x 2 (English vs. Spanish) and (Trauma vs. Non-trauma) writing groups.|variance explained by the IV.|0.072|||<|0.05|TWO_SIDED|95.0|0.0|0.234|||ANOVA|||||.234|.0000|<0.05
92289118|NCT05090839|184483706|EQUIVALENCE|The 95% confidence interval is used to assess the difference between the means of the 2 x 2 (English vs. Spanish) and (Trauma vs. Non-trauma) writing groups.|Mean Difference (Final Values)|0.358|||<|0.05|TWO_SIDED|95.0|0.0|0.554|||ANOVA|||This is a comparison that is specific to the contrast of visualizing traumatic versus stressful events.||.554|0|<0.05
92289119|NCT05090839|184483707|EQUIVALENCE|The 95% confidence interval is used to assess the difference between the means of the 2 x 2 (English vs. Spanish) and (Trauma vs. Non-trauma) writing groups.|Mean Difference (Final Values)|0.51|||<|0.05|TWO_SIDED|95.0|0.0|0.676|||ANOVA|||||.676|.000|<0.05
92289120|NCT00834964|184483717|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|97.0||||||90.0|92.72|101.49|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.49|92.72|
92289121|NCT00834964|184483718|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|99.7||||||90.0|94.74|104.92|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.92|94.74|
92289122|NCT00834964|184483719|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.6||||||90.0|93.46|104.02|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.02|93.46|
92289123|NCT00834964|184483720|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.29||||||90.0|91.96|100.82|||||Metabolite results not subjected to bioequivalence criteria; results are presented for informational purposes only.|||100.82|91.96|
92289124|NCT00834964|184483721|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|104.1||||||90.0|100.08|108.29|||||Metaboite results not subjected to bioequivalence criteria, results are presented for informational purposes only.|||108.29|100.08|
92289125|NCT00834964|184483722|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.52||||||90.0|97.3|103.84|||||Metabolite results were not subjected to bioequivalence criteria, results are presented for informational purposes only.|||103.84|97.30|
92289126|NCT02826694|184483732|OTHER|||||||0.168|||||||linear mixed effect model|||T3||||0.168
92289127|NCT02826694|184483732|OTHER|||||||0.026|||||||linear mixed effect model|||T4||||0.026
92289128|NCT03264092|184483745|OTHER|This was just a comparative study. No superiority, equivalence or non inferiority analysis was performed.||||||0.18|||||||Fisher Exact|||||||0.18
92289129|NCT03264092|184483746|OTHER|This was just a comparative study. No superiority, equivalence or non inferiority analysis was performed.||||||0.41|||||||Fisher Exact|||||||0.41
92289130|NCT03264092|184483747|OTHER|This was just a comparative study. No superiority, equivalence or non inferiority analysis was performed.||||||0.45|||||||Fisher Exact|||||||0.45
92289131|NCT03364192|184483777|OTHER|Multilevel modeling adapted for multiple-baseline design comparing participant goal attainment before, during, and after peer-delivered Whole Health Coaching.|||||<|0.05|||||||Multilevel Modeling|||||||<0.05
92289132|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|1.54||||0.504|TWO_SIDED|||||Adjusted for TIF introduction and time periods as fixed effects and hospitals and time periods as random effects.|generalized linear mixed regression mode|||For mobility on EU arrival assessed,||||0.504
92289133|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|2.31||||0.169|TWO_SIDED||||||generalized linear mixed regression mode|||Respiratory rate at EU assessed||||0.169
92289134|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|25.29||||0.006|TWO_SIDED||||||generalized linear mixed regression|||Airway assessed||||0.006
92184108|NCT00749944|184266946|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.62|||||TWO_SIDED|95.0|0.0|1.24||||||There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.24|-0.00|
92184109|NCT00749944|184266946|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.73|||||TWO_SIDED|95.0|0.18|1.29||||||Period AC: Difference varenicline versus placebo.||1.29|0.18|
92184110|NCT00749944|184266946|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.66|||||TWO_SIDED|95.0|0.02|1.3||||||Period AD: Difference varenicline versus placebo.||1.30|0.02|
92184111|NCT00749944|184266946|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.43|||||TWO_SIDED|95.0|-0.19|1.05||||||Period AE: Difference varenicline versus placebo.||1.05|-0.19|
92266219|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.458|TWO_SIDED|95.0|-0.47|1.04|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||1.04|-0.47|0.458
92266220|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.009|TWO_SIDED|95.0|0.2|1.39|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.39|0.20|0.009
92266221|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.209|TWO_SIDED|95.0|-0.2|0.9|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.90|-0.20|0.209
92184112|NCT00749944|184266946|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.48|||||TWO_SIDED|95.0|-0.09|1.05||||||Period BC: Difference varenicline versus placebo.||1.05|-0.09|
92184113|NCT00749944|184266946|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.39|||||TWO_SIDED|95.0|-0.28|1.06||||||Period BD: Difference varenicline versus placebo.||1.06|-0.28|
92184114|NCT00749944|184266946|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.09|||||TWO_SIDED|95.0|-0.47|0.65||||||Period BE: Difference varenicline versus placebo.||0.65|-0.47|
92184115|NCT00749944|184266947|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.85|||||TWO_SIDED|95.0|-0.02|1.72|||||Mixed Models Analysis included baseline, treatment (t; fixed), subject (random), day (d; fixed), and interaction for t-by-d.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.72|-0.02|
92184116|NCT00749944|184266947|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.85|||||TWO_SIDED|95.0|0.16|1.54|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AC: Difference varenicline versus placebo.||1.54|0.16|
92184117|NCT00749944|184266947|SUPERIORITY_OR_OTHER||Difference (change from baseline)|1.24|||||TWO_SIDED|95.0|0.39|2.08|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AD: Difference varenicline versus placebo.||2.08|0.39|
92266222|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.193|TWO_SIDED|95.0|-1.11|0.22|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.22|-1.11|0.193
92266223|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.149|TWO_SIDED|95.0|-0.18|1.18|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.18|-0.18|0.149
92266224|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.186|TWO_SIDED|95.0|-0.21|1.06|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.06|-0.21|0.186
92266225|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.845|TWO_SIDED|95.0|-0.84|0.69|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.69|-0.84|0.845
92266226|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.067|TWO_SIDED|95.0|-0.04|1.14|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.14|-0.04|0.067
92184118|NCT00749944|184266947|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.83|||||TWO_SIDED|95.0|0.14|1.52|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AE: Difference varenicline versus placebo.||1.52|0.14|
92266227|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.242|TWO_SIDED|95.0|-0.22|0.87|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.87|-0.22|0.242
92266228|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.498|TWO_SIDED|95.0|-0.88|0.43|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.43|-0.88|0.498
92266229|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.33|TWO_SIDED|95.0|-0.34|1.02|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.02|-0.34|0.330
92289135|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|38.38||||0.001|TWO_SIDED||||||generalized linear mixed regression|||Chest examined||||0.001
92184119|NCT00749944|184266947|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.52|||||TWO_SIDED|95.0|-0.06|1.09|||||Mixed Models Analysis included baseline, t (fixed), subject (random), time (fixed), d (fixed), and interactions for t-by-time, t-by-d, time-by-d and t-by-time-by-d.|Period BC: Difference varenicline versus placebo.||1.09|-0.06|
92184120|NCT00749944|184266947|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.88|||||TWO_SIDED|95.0|0.05|1.7|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BD: Difference varenicline versus placebo.||1.70|0.05|
92184121|NCT00749944|184266947|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.38|||||TWO_SIDED|95.0|-0.12|0.88|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BE: Difference varenicline versus placebo.||0.88|-0.12|
92289136|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|93.01||||0.001|TWO_SIDED||||||generalized linear mixed regression|||For Intra-abdominal bleeding evaluated||||0.001
92184122|NCT00749944|184266948|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.82|||||TWO_SIDED|95.0|-3.07|1.43|||||Mixed Models Analysis included baseline, treatment (t; fixed), subject (random), day (d; fixed), and interaction for t-by-d.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.43|-3.07|
92184123|NCT00749944|184266948|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.19|||||TWO_SIDED|95.0|-2.47|2.08|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AC: Difference varenicline versus placebo.||2.08|-2.47|
92184124|NCT00749944|184266948|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-2.15|||||TWO_SIDED|95.0|-5.19|0.89|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AD: Difference varenicline versus placebo.||0.89|-5.19|
92184125|NCT00749944|184266948|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.98|||||TWO_SIDED|95.0|-3.67|1.7|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AE: Difference varenicline versus placebo.||1.70|-3.67|
92184126|NCT00749944|184266948|SUPERIORITY_OR_OTHER||Difference (change from baseline)|1.95|||||TWO_SIDED|95.0|-0.36|4.26|||||Mixed Models Analysis included baseline, t (fixed), subject (random), time (fixed), d (fixed), and interactions for t-by-time, t-by-d, time-by-d and t-by-time-by-d.|Period BC: Difference varenicline versus placebo.||4.26|-0.36|
92184127|NCT00749944|184266948|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.01|||||TWO_SIDED|95.0|-3.32|3.3|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BD: Difference varenicline versus placebo.||3.30|-3.32|
92184128|NCT00749944|184266948|SUPERIORITY_OR_OTHER||Difference (change from baseline)|1.09|||||TWO_SIDED|95.0|-1.8|3.97|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BE: Difference varenicline versus placebo.||3.97|-1.80|
92184129|NCT00749944|184266949|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.52|||||TWO_SIDED|95.0|-0.29|1.32|||||Mixed Models Analysis included baseline, treatment (t; fixed), subject (random), day (d; fixed), and interaction for t-by-d.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.32|-0.29|
92184130|NCT00749944|184266949|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.54|||||TWO_SIDED|95.0|-0.17|1.25|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AC: Difference varenicline versus placebo.||1.25|-0.17|
92184131|NCT00749944|184266949|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.18|||||TWO_SIDED|95.0|-0.55|0.92|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AD: Difference varenicline versus placebo.||0.92|-0.55|
92184132|NCT00749944|184266949|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.26|||||TWO_SIDED|95.0|-0.46|0.99|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AE: Difference varenicline versus placebo.||0.99|-0.46|
92184133|NCT00749944|184266949|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.59|||||TWO_SIDED|95.0|-0.19|1.37|||||Mixed Models Analysis included baseline, t (fixed), subject (random), time (fixed), d (fixed), and interactions for t-by-time, t-by-d, time-by-d and t-by-time-by-d.|Period BC: Difference varenicline versus placebo.||1.37|-0.19|
92184134|NCT00749944|184266949|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.08|||||TWO_SIDED|95.0|-0.91|0.76|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BD: Difference varenicline versus placebo.||0.76|-0.91|
92184135|NCT00749944|184266949|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.1|||||TWO_SIDED|95.0|-0.65|0.85|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BE: Difference varenicline versus placebo.||0.85|-0.65|
92184136|NCT00749944|184266950|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.23|||||TWO_SIDED|95.0|-0.2|0.65|||||Mixed Models Analysis included baseline, treatment (t; fixed), subject (random), day (d; fixed), and interaction for t-by-d.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.65|-0.20|
92184137|NCT00749944|184266950|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.21|||||TWO_SIDED|95.0|-0.17|0.58|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AC: Difference varenicline versus placebo.||0.58|-0.17|
92184138|NCT00749944|184266950|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.21|||||TWO_SIDED|95.0|-0.23|0.65|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AD: Difference varenicline versus placebo.||0.65|-0.23|
92184139|NCT00749944|184266950|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.02|||||TWO_SIDED|95.0|-0.37|0.41|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AE: Difference varenicline versus placebo.||0.41|-0.37|
92184140|NCT00749944|184266950|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.09|||||TWO_SIDED|95.0|-0.41|0.59|||||Mixed Models Analysis included baseline, t (fixed), subject (random), time (fixed), d (fixed), and interactions for t-by-time, t-by-d, time-by-d and t-by-time-by-d.|Period BC: Difference varenicline versus placebo.||0.59|-0.41|
92184141|NCT00749944|184266950|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.1|||||TWO_SIDED|95.0|-0.44|0.63|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BD: Difference varenicline versus placebo.||0.63|-0.44|
92184142|NCT00749944|184266950|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.12|||||TWO_SIDED|95.0|-0.58|0.34|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BE: Difference varenicline versus placebo.||0.34|-0.58|
92184143|NCT00749944|184266951|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.22|||||TWO_SIDED|95.0|-0.66|1.1|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.10|-0.66|
92184144|NCT00749944|184266951|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.44|||||TWO_SIDED|95.0|-0.46|1.35|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||1.35|-0.46|
92184145|NCT00749944|184266951|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.22|||||TWO_SIDED|95.0|-1.16|0.71|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.71|-1.16|
92184146|NCT00749944|184266951|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.03|||||TWO_SIDED|95.0|-0.68|0.73|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.73|-0.68|
92184147|NCT00749944|184266951|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.58|||||TWO_SIDED|95.0|-0.79|1.96|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||1.96|-0.79|
92184148|NCT00749944|184266951|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.43|||||TWO_SIDED|95.0|-1.69|0.82|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.82|-1.69|
92184149|NCT00749944|184266951|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.09|||||TWO_SIDED|95.0|-0.86|0.68|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.68|-0.86|
92184150|NCT00749944|184266952|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.27|||||TWO_SIDED|95.0|-0.55|1.08|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.08|-0.55|
92184151|NCT00749944|184266952|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.53|||||TWO_SIDED|95.0|-0.39|1.46|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||1.46|-0.39|
92184152|NCT00749944|184266952|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.09|||||TWO_SIDED|95.0|-1.08|1.25|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||1.25|-1.08|
92184153|NCT00749944|184266952|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.14|||||TWO_SIDED|95.0|-0.62|0.9|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.90|-0.62|
92184154|NCT00749944|184266952|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.5|||||TWO_SIDED|95.0|-0.94|1.95|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||1.95|-0.94|
92289137|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|354.91||||0.001|TWO_SIDED||||||generalized linear mixed regression|||For Spine Immobilized for RTI or Fall Victims||||0.001
92289138|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|4.95||||0.001|TWO_SIDED||||||generalized linear mixed regression|||Splinting of Fractures Considered||||0.001
92289139|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|5.18||||0.006|TWO_SIDED||||||generalized linear mixed regression|||Tetanus Considered for bites, burns, lacerations, and abrasions||||0.006
92289140|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|0.03||||0.047|TWO_SIDED||||||generalized linear mixed regression|||Date of Injury Recorded||||0.047
92289141|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|0.42||||0.166|TWO_SIDED||||||generalized linear mixed regression|||Death||||0.166
92289142|NCT04547192|184483787|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|2.14||||0.013|TWO_SIDED||||||generalized linear mixed regression|||Important Clinical Data Document||||0.013
92289143|NCT04547192|184483788|SUPERIORITY||Odds Ratio (OR)|0.42||||0.166|TWO_SIDED||||||generalized linear mixed regression|||||||0.166
92289144|NCT01108445|184483864|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.406||||0.157|TWO_SIDED||||||Log Rank|||||||0.157
92289145|NCT01108445|184483866|SUPERIORITY_OR_OTHER||Median PFS|5.6|||||TWO_SIDED||||||||The 95% CI for the HC was (4,6). If the median PFS for RAD001 is within the 95% CI for the HC, it is determined that there is not enough statistical evidence to say that the median PFS is different than the HC.|A comparison of the median PFS for RAD001 arm was compared to the 95% confidence interval(CI) of the median PFS of the historical control (HC). The null hypothesis was that there is no difference in the median PFS between the treatment arms and the historical control. If the median PFS is outside the 95%CI for the HC,it is determined there is statistical evidence that median PFS is different from the HC.||||
92289146|NCT01108445|184483866|SUPERIORITY_OR_OTHER||Median PFS|8.3|||||TWO_SIDED||||||||95% CI for HC was(4,6). If the median PFS for Sunitinib is within the 95% CI for the HC,it is determined that there is not enough statistical evidence to say that the median PFS is different than the HC.|A comparison of the median PFS for Sunitinib arm was compared to the 95% confidence interval(CI) of the median PFS of the historical control (HC). The null hypothesis was that there is no difference in the median PFS between the treatment arms and the historical control. If the median PFS is outside the 95%CI for the HC,it is determined there is statistical evidence that median PFS is different from the HC.||||
92289147|NCT01108445|184483868|SUPERIORITY_OR_OTHER|||||||0.589|TWO_SIDED||||||Chi-squared|||||||0.589
92289148|NCT01108445|184483869|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED||||||Chi-squared|||||||0.066
92289149|NCT01484912|184483881|NON_INFERIORITY_OR_EQUIVALENCE|The superiority testing was conducted one sided with 0.025 significance level. If H0 was rejected one-sided 0.025 significance level, STA-2 was concluded to be statistically superior to Placebo.All hypothesis testing except for the primary efficacy endpoint was conducted two sides at 0.05 significance level and 95% Confidence Interval (C.I.) was adopted if needed.||||||0.025||95.0|||||t-test, 1 sided|||T-test was used to compare the change in total exercise time between the treatment groups. The change in total exercise time (△) was defined as the total exercise time at end-point visit minus the total exercise time at baseline. Let △T be the change in total exercise time for treatment group (STA-2) and △C be the change in total exercise time for control group (Placebo). The hypothesis testing for the superiority of STA-2 to Placebo was H0：△T-△C≦0 with H1：△T-△C﹥0.||||0.025
92289150|NCT01484912|184483882|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||All hypothesis testing was conducted with T-tests, two sides at 0.05 significance level and 95% Confidence Interval (C.I.) was adopted if needed.||||0.005
92289151|NCT00911274|184483887|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|92.41||||||90.0|82.77|103.18|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.18|82.77|
92289152|NCT00911274|184483888|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|101.3||||||90.0|97.84|104.88|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.88|97.84|
92289153|NCT00911274|184483889|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|97.77|104.34|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.34|97.77|
92184155|NCT00749944|184266952|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.03|||||TWO_SIDED|95.0|-1.57|1.51|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||1.51|-1.57|
92184156|NCT00749944|184266952|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.08|||||TWO_SIDED|95.0|-0.91|0.75|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.75|-0.91|
92289154|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.647||||0.22|TWO_SIDED|95.0|0.322|1.302|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% confidence intervals (CIs).||1.302|0.322|0.22
92289155|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.647||||0.24|TWO_SIDED|95.0|0.322|1.301|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40 mg \[Core\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.301|0.322|0.24
92289156|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.097||||0.83|TWO_SIDED|95.0|0.501|2.405|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40 mg \[Core\] versus Raloxifene 60 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||2.405|0.501|0.83
92289157|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.074||||0.87|TWO_SIDED|95.0|0.49|2.356|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Raloxifene 60 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||2.356|0.490|0.87
92289158|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.988||||0.96|TWO_SIDED|95.0|0.458|2.131|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||2.131|0.458|0.96
92289159|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.592||||0.16|TWO_SIDED|95.0|0.289|1.212|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Raloxifene 60 mg \[Core\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.212|0.289|0.16
92289160|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.551||||0.035|TWO_SIDED|95.0|0.324|0.937|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||0.937|0.324|0.035
92289161|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.624||||0.07|TWO_SIDED|95.0|0.373|1.045|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40 mg \[Core\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.045|0.373|0.070
92289162|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.085||||0.79|TWO_SIDED|95.0|0.605|1.947|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40 mg \[Core\] versus Raloxifene 60 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.947|0.605|0.79
92184157|NCT00749944|184266953|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.35|||||TWO_SIDED|95.0|-1.76|1.06|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.06|-1.76|
92184158|NCT00749944|184266953|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.11|||||TWO_SIDED|95.0|-0.96|1.17|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||1.17|-0.96|
92289163|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.959||||0.99|TWO_SIDED|95.0|0.527|1.743|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Raloxifene 60 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.743|0.527|0.99
92289164|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.882||||0.78|TWO_SIDED|95.0|0.488|1.593|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.593|0.488|0.78
92289165|NCT00205777|184483890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.574||||0.036|TWO_SIDED|95.0|0.34|0.968|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Raloxifene 60 mg \[Core\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||0.968|0.340|0.036
92289166|NCT00205777|184483891|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.097|TWO_SIDED|95.0|0.339|1.099|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.099|0.339|0.097
92289167|NCT00205777|184483891|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.645||||0.15|TWO_SIDED|95.0|0.361|1.151|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40/20 mg \[SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.151|0.361|0.15
92289168|NCT00205777|184483891|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.941||||0.83|TWO_SIDED|95.0|0.493|1.793|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40/20 mg \[SE I\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.793|0.493|0.83
92289169|NCT00205777|184483891|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.666||||0.067|TWO_SIDED|95.0|0.435|1.019|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.019|0.435|0.067
92289170|NCT00205777|184483891|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.573||||0.014|TWO_SIDED|95.0|0.367|0.896|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40/20 mg \[SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||0.896|0.367|0.014
92289171|NCT00205777|184483891|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.157||||0.5|TWO_SIDED|95.0|0.71|1.885|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40/20 mg \[SE I\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.885|0.710|0.50
92289172|NCT00205777|184483892|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.085|TWO_SIDED|95.0|0.44|1.052|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[SE II\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.052|0.440|0.085
92289173|NCT00205777|184483892|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.004|TWO_SIDED|95.0|0.434|0.857|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[SE II\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||0.857|0.434|0.004
92289174|NCT00205777|184483893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.621||||0.4|TWO_SIDED|95.0|0.203|1.903|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||1.903|0.203|0.40
92289175|NCT00205777|184483893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.504||||0.26|TWO_SIDED|95.0|0.151|1.676|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||1.676|0.151|0.26
92289176|NCT00205777|184483893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.54||||0.33|TWO_SIDED|95.0|0.157|1.86|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||1.860|0.157|0.33
92289177|NCT00205777|184483893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.661||||0.49|TWO_SIDED|95.0|0.206|2.118|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||2.118|0.206|0.49
92289178|NCT00205777|184483893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.76|TWO_SIDED|95.0|0.305|2.37|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||2.370|0.305|0.76
92289179|NCT00205777|184483893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.238||||0.75|TWO_SIDED|95.0|0.332|4.616|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||4.616|0.332|0.75
92289180|NCT00205777|184483894|SUPERIORITY_OR_OTHER||Relative Risk|0.9|||||TWO_SIDED|95.0|0.38|2.15||||||Relative risk versus placebo was provided together with 95% CIs.||2.15|0.38|
92289181|NCT00205777|184483894|SUPERIORITY_OR_OTHER||Relative Risk|0.92|||||TWO_SIDED|95.0|0.39|2.21||||||Relative risk versus placebo was provided together with 95% CIs.||2.21|0.39|
92289182|NCT00205777|184483895|SUPERIORITY_OR_OTHER||Relative risk|1.01|||||TWO_SIDED|95.0|0.5|2.06||||||Relative risk versus placebo was provided together with 95% CIs.||2.06|0.5|
92289183|NCT00205777|184483896|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Log Rank|||||||0.57
92289184|NCT00205777|184483896|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED||||||Log Rank|||||||0.62
92289185|NCT00205777|184483896|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Log Rank|||||||0.72
92289186|NCT00205777|184483896|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Log Rank|||||||0.67
92289187|NCT00205777|184483896|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||Log Rank|||||||0.89
92289188|NCT00205777|184483896|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||Log Rank|||||||0.95
92289189|NCT00205777|184483897|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Log Rank|||||||0.29
92289190|NCT00205777|184483897|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||Log Rank|||||||0.31
92289191|NCT00205777|184483897|SUPERIORITY_OR_OTHER|||||||0.94|TWO_SIDED||||||Log Rank|||||||0.94
92289192|NCT00205777|184483898|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Log Rank|||||||0.18
92289193|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.46
92289194|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.90
92289195|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.93
92289196|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.84
92289197|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.39
92289198|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.52
92289199|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.28
92289200|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.31
92289201|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.17
92289202|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.72
92289203|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.97
92289204|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.76
92289205|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.29
92289206|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.43
92289207|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.59
92289208|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.19
92289209|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.80
92289210|NCT00205777|184483902|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.11
92289211|NCT00205777|184483903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.012||||0.968|TWO_SIDED|95.0|0.79|1.296|||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.296|0.790|0.968
92289212|NCT00205777|184483903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.846||||0.211|TWO_SIDED|95.0|0.652|1.097|||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 40/20 mg \[SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.097|0.652|0.211
92289213|NCT00205777|184483903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.191|TWO_SIDED|95.0|0.925|1.556|||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40/20 mg \[SE I\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.556|0.925|0.191
92289214|NCT00205777|184483903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.406||||0.493|TWO_SIDED|95.0|0.566|3.497|||Log Rank|||Hip: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||3.497|0.566|0.493
92289215|NCT00205777|184483903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.872||||0.82|TWO_SIDED|95.0|0.316|2.405|||Log Rank|||Hip: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 40/20 mg \[SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||2.405|0.316|0.820
92289216|NCT00205777|184483903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.612||||0.371|TWO_SIDED|95.0|0.624|4.161|||Log Rank|||Hip: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40/20 mg \[SE I\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||4.161|0.624|0.371
92289217|NCT00205777|184483903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.202||||0.423|TWO_SIDED|95.0|0.776|1.861|||Log Rank|||Wrist: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.861|0.776|0.423
92289218|NCT00205777|184483903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.936||||0.799|TWO_SIDED|95.0|0.587|1.491|||Log Rank|||Wrist: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 40/20 mg \[SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.491|0.587|0.799
92289219|NCT00205777|184483903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.28||||0.298|TWO_SIDED|95.0|0.818|2.002|||Log Rank|||Wrist: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40/20 mg \[SE I\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||2.002|0.818|0.298
92289220|NCT00205777|184483904|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.73|TWO_SIDED|95.0|0.78|1.19|||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[SE II\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.19|0.78|0.73
92289221|NCT00205777|184483904|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.71|TWO_SIDED|95.0|0.41|1.83|||Log Rank|||Hip: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[SE II\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.83|0.41|0.71
92289222|NCT00205777|184483904|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.45|TWO_SIDED|95.0|0.8|1.66|||Log Rank|||Wrist: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[SE II\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.66|0.80|0.45
92289223|NCT00205777|184483905|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||ANCOVA|||||||0.31
92289224|NCT00205777|184483905|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED||||||ANCOVA|||||||0.039
92289225|NCT00205777|184483905|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||ANCOVA|||||||0.13
92289226|NCT00205777|184483905|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANCOVA|||||||0.12
92289227|NCT00205777|184483905|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||||||0.002
92289228|NCT00205777|184483906|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANCOVA|||||||0.12
92289229|NCT00205777|184483906|SUPERIORITY_OR_OTHER|||||||0.94|TWO_SIDED||||||ANCOVA|||||||0.94
92289230|NCT00205777|184483907|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||ANCOVA|||||||0.26
92289231|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in lumbar spine BMD: P value was calculated using Analysis of covariance (ANCOVA).||||<0.001
92289232|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289233|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289234|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289235|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289236|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.018
92289237|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289238|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289239|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289240|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92184159|NCT00749944|184266953|SUPERIORITY_OR_OTHER||Difference (change from baseline)|1.49|||||TWO_SIDED|95.0|-1.94|4.91|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||4.91|-1.94|
92289241|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289242|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289243|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289244|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289245|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289246|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.036
92289247|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.003
92289248|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.019
92289249|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289250|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.002
92289251|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289252|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289253|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92184160|NCT00749944|184266953|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.5|||||TWO_SIDED|95.0|-1.18|2.18|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||2.18|-1.18|
92289254|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289255|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289256|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289257|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289258|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289259|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289260|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289261|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289262|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289263|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289264|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289265|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289266|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289267|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289268|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289269|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289270|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289271|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in total hip BMD: P value was calculated using ANCOVA.||||0.008
92289272|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in total hip BMD: P value was calculated using ANCOVA.||||0.007
92289273|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in total hip BMD: P value was calculated using ANCOVA.||||0.002
92143941|NCT02548455|184172273|EQUIVALENCE|Freedom from left ventricular lead-related complications through 3 months was estimated to be 96.0% with a 95% lower confidence bound of 92.6% based on the Promote Q IDE study (NCT00990665), and 98.3% with a 95% lower confidence bound of 97.7% based on data from the Quadripolar Post-Approval study (NCT01555619).|Kaplan-Meier Estimate|85.0||||0.05|TWO_SIDED||||||Log Rank|||"The hypothesis for the endpoint is:~H0: Freedom from LV lead-related complications through 3 months (91 days) ≤ 85% H1: Freedom from LV lead-related complications through 3 months (91 days) \> 85%~A total of 85 subjects were required to have at least 80% power to reject the null hypothesis at the 5% significance level at three months (91 days) post-implant or attempted implant. After accounting for 9% attrition, the required sample size was 94 subjects."||||0.05
92143942|NCT00386880|184172279|SUPERIORITY_OR_OTHER|||||||0.59||||||Fisher's exact test.|Fisher Exact|||During the acute migraine attack, 90% of allodynic subjects and 75% of subjects without allodynia had phonophobia.||||0.59
92143943|NCT03901326|184172280|OTHER|||||||0.05|||||||Chi-squared|||Rate of ICA without obstructive CAD or intervention within 90 days||||0.05
92143944|NCT03901326|184172280|OTHER||||||<|0.001|||||||Chi-squared|||Rate of patients underwent revascularization||||<0.001
92143945|NCT03901326|184172281|OTHER||Hazard Ratio (HR)|0.88||||0.8|TWO_SIDED|95.0|0.59|1.3|||Regression, Cox|||||1.30|0.59|0.80
92143946|NCT03901326|184172282|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
92143947|NCT03901326|184172283|OTHER|||||||0.15|||||||t-test, 2 sided|||||||0.15
92143948|NCT00423176|184172297|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.44||||||95.0|-1.14|0.25|||||For days 1-29|||0.25|-1.14|
92143949|NCT00423176|184172297|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.82||||||95.0|-1.65|0.0|||||For follow-up days 30-43|||0.00|-1.65|
92143950|NCT00423176|184172298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|8.8||||||95.0|-0.5|18.2|||||Change from baseline to endpoint|||18.2|-0.5|
92143951|NCT00420992|184172320|SUPERIORITY_OR_OTHER|||||||0.0445||95.0||||Threshold for statistical significance: P=0.05. No adjustment for multiple comparisons necessary.|ANCOVA|Model included treatment as factor and baseline pain score as covariate.||Null hypothesis: mean change from baseline is the same for ALO-01 and placebo.||||0.0445
92143952|NCT03712891|184172340|OTHER|t-test||||||0.12|||||||t-test, 2 sided|||||||0.12
92143953|NCT01570829|184172375|SUPERIORITY|||||||0.0352|||||||Fisher Exact|||||||0.0352
92143954|NCT01570829|184172376|SUPERIORITY|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
92143955|NCT01570829|184172377|SUPERIORITY|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
92143956|NCT01570829|184172378|SUPERIORITY|||||||0.0001|||||||Cochran-Mantel-Haenszel|Breslow-Day test p-value is 0.98||||||0.0001
92143957|NCT01570829|184172379|SUPERIORITY|||||||0.0004||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 8, 12, 16 and 20 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.0004
92143958|NCT01570829|184172380|SUPERIORITY|||||||0.0004||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 8, 12, 16 and 20 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.0004
92289274|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in total hip BMD: P value was calculated using ANCOVA.||||0.002
92143959|NCT01570829|184172381|SUPERIORITY|||||||0.67||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 12, and 24 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to rows with waist circumference data.||||0.67
92143960|NCT01570829|184172381|SUPERIORITY|||||||0.26||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 12, and 24 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to rows with hip circumference data.||||0.26
92143961|NCT01570829|184172382|SUPERIORITY|||||||0.4||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 12, and 24 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to rows with Physical Health domain data.||||0.40
92143962|NCT01570829|184172382|SUPERIORITY|||||||0.34||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 12, and 24 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to rows with Mental Health domain data.||||0.34
92184161|NCT00749944|184266953|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.61|||||TWO_SIDED|95.0|-0.85|2.07|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||2.07|-0.85|
92289275|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in total hip BMD: P value was calculated using ANCOVA.||||0.006
92289276|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289277|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289278|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289279|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289280|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289281|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289282|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289283|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289284|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92143963|NCT00675766|184172383|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -1.69 to 1.38. Range of z-scores at Year 1 follow-up: -1.28 to 1.36.||Repeated Measures ANOVA with overall neurocognitive performance at baseline and follow-up, computed as z-scored derived composite score of 14 individual neuropsychological measures assessing attention, processing speed, visuospatial skills, language, memory, executive function and motor skills, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||0.001
92143964|NCT00675766|184172383|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -2.96 to 1.89. Range of z-scores at Year 1 follow-up: -1.89 to 1.77.||Repeated Measures ANOVA with processing speed at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing speed of cognitive information processing, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||<0.005
92143965|NCT00675766|184172383|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -2.30 to 2.44. Range of z-scores at Year 1 follow-up: -1.82 to 2.00.||Repeated Measures ANOVA with attention at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing attentional abilities, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||< 0.01
92289285|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289286|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral neck BMD: P value was calculated using ANCOVA.||||0.47
92143966|NCT00675766|184172383|SUPERIORITY_OR_OTHER||||||<|0.07|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -1.76 to 0.95. Range of z-scores at Year 1 follow-up: -1.18 to 0.84.||Repeated Measures ANOVA with executive function at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing working memory, set shifting, mental flexibility and problem solving, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||<0.07
92143967|NCT00675766|184172383|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -2.30 to 1.94. Range of z-scores at Year 1 follow-up: -1.83 to 2.11.||Repeated Measures ANOVA with language at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing verbal fluency and naming skills, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||0.09
92143968|NCT00675766|184172383|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -2.00 to 1.68. Range of z-scores at Year 1 follow-up: -2.33 to 1.90.||Repeated Measures ANOVA with memory at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing verbal and nonverbal learning and memory, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||.72
92289287|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral neck BMD: P value was calculated using ANCOVA.||||0.005
92184162|NCT00749944|184266953|SUPERIORITY_OR_OTHER||Difference (change from baseline)|2.1|||||TWO_SIDED|95.0|-2.6|6.79|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||6.79|-2.60|
92289288|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral neck BMD: P value was calculated using ANCOVA.||||0.002
92289289|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289290|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral neck BMD: P value was calculated using ANCOVA.||||0.004
92289291|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289292|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289293|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289294|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289295|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289296|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral neck BMD: P value was calculated using ANCOVA.||||0.39
92289297|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral neck BMD: P value was calculated using ANCOVA.||||0.17
92289298|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral neck BMD: P value was calculated using ANCOVA.||||0.34
92289299|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral neck BMD: P value was calculated using ANCOVA.||||0.016
92289300|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral neck BMD: P value was calculated using ANCOVA.||||0.47
92289301|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289302|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289303|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289304|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289305|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289306|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289307|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289308|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289309|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289310|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289311|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.01
92289312|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.002
92289313|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289314|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289315|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289316|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289317|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289318|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289319|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289320|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289321|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.048
92289322|NCT00205777|184483908|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.038
92289323|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289324|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289325|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92143969|NCT00675766|184172383|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -2.04 to 2.51. Range of z-scores at Year 1 follow-up: -2.21 to 2.24.||Repeated Measures ANOVA with visuospatial skills at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing visuospatial and visuoconstructional abilities, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||0.65
92289326|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289327|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289328|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289329|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289330|NCT00205777|184483908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289331|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289332|NCT00205777|184483909|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.010
92289333|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
92289334|NCT00205777|184483909|SUPERIORITY_OR_OTHER|||||||0.023|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.023
92289335|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289336|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289337|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289338|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92143970|NCT00675766|184172383|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -4.04 to 1.33. Range of z-scores at Year 1 follow-up: -1.24 to 2.37.||Repeated Measures ANOVA with motor skills at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing fine motor speed and dexterity, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||0.79
92143971|NCT00675766|184172383|SUPERIORITY_OR_OTHER|||||||0.044|ONE_SIDED||||||Fisher Exact|One-sided Fisher's exact test with 1 degree of freedom.||Fisher's exact test compared the frequency of older and younger HIV+ adults who converted from neurocognitively intact to neurocognitively impaired on memory over a one year time period. We hypothesized that the older group would exhibit a greater proportion of individuals who declined during this interim.||||.044
92143972|NCT01018394|184172407|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.108|TWO_SIDED|95.0|0.7|5.1||A one tailed P of less than 0.2 was considered sufficient evidence to warrant a larger study.|Fisher Exact|1 tailed||The percentage of participants who reduced tobacco use by greater or equal to 50% from baseline was compared between groups using Fisher's exact test. A one tailed P of less than 0.2 was considered sufficient evidence to warrant a larger study.||5.1|0.7|0.108
92184163|NCT00749944|184266953|SUPERIORITY_OR_OTHER||Difference (change from baseline)|1.13|||||TWO_SIDED|95.0|-0.7|2.96|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||2.96|-0.70|
92143973|NCT04184791|184172424|OTHER|A linear mixed-effects analysis of variance (LM-ANOVA) model was used to determine the effect of L-Dopa, frequency, the interaction of levodopa and frequency, and the interaction of frequency and contact pairs on gait parameters. The fixed effects were L-Dopa condition (ON vs. OFF), stimulation frequency (LFS;60 Hz vs. HFS;180 Hz), contact pairs \[1-(R)/1-(L); 2-(R)/2-(L); 3-(R)/3-(L); 4-(R)/4-(L)\], and assistive device (presence vs. absence) and the patient effect was considered random.|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92143974|NCT02962908|184172449|OTHER|Inequality test.||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IFN-gamma from day 0 and to 42.||||0.45
92143975|NCT02962908|184172449|OTHER|inequality test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IFN-gamma from day 0 and to 42.||||<0.001
92143976|NCT02962908|184172449|OTHER|inequality test||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for TNF-alpha from day 0 to day 42.||||0.88
92143977|NCT02962908|184172449|OTHER|inequality test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for TNF-alpha from day 0 to day 42.||||<0.001
92143978|NCT02962908|184172449|OTHER|inequality test||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IL-2 from day 0 to day 42.||||0.21
92184164|NCT00749944|184266954|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.0|||||TWO_SIDED|95.0|-0.26|0.27|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.27|-0.26|
92184165|NCT00749944|184266954|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.02|||||TWO_SIDED|95.0|-0.25|0.29|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.29|-0.25|
92289339|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289340|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289341|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289342|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289343|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289344|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289345|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289346|NCT00205777|184483909|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
92289347|NCT00205777|184483910|SUPERIORITY_OR_OTHER|||||||0.34|||||||ANCOVA|||Percent change at Month 72 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.34
92289348|NCT00205777|184483910|SUPERIORITY_OR_OTHER|||||||0.15|||||||ANCOVA|||Percent change at Month 84 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.15
92289349|NCT00205777|184483910|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 72 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289350|NCT00205777|184483910|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 84 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
92289351|NCT00205777|184483910|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||Percent change at Month 72 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289352|NCT00205777|184483910|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 84 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
92289353|NCT00205777|184483910|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANCOVA|||Percent change at Month 72 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.003
92289354|NCT00205777|184483910|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||Percent change at Month 84 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.002
92289355|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 3 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289356|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 3 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289357|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 3 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289358|NCT00205777|184483911|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 3 in osteocalcin: P value was calculated using Ranked ANCOVA.||||0.93
92289359|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 3 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289360|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 6 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289361|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 6 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289362|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 6 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289363|NCT00205777|184483911|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Ranked ANCOVA|||Percent change at Month 6 in osteocalcin: P value was calculated using Ranked ANCOVA.||||0.30
92289364|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 6 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289365|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 12 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289366|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 12 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289367|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 12 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289368|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289369|NCT00205777|184483911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 12 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289370|NCT00205777|184483912|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 36 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289371|NCT00205777|184483912|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 60 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289372|NCT00205777|184483912|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 36 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289373|NCT00205777|184483912|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 60 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
92289374|NCT00205777|184483913|SUPERIORITY_OR_OTHER|||||||0.037|||||||Ranked ANCOVA|||Percent change at Month 72 in osteocalcin: P value was calculated using Ranked ANCOVA.||||0.037
92289375|NCT00205777|184483913|SUPERIORITY_OR_OTHER|||||||0.16|||||||Ranked ANCOVA|||Percent change at Month 84 in osteocalcin: P value was calculated using Ranked ANCOVA.||||0.16
92289376|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 3 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289377|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 3 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289378|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 3 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289379|NCT00205777|184483914|SUPERIORITY_OR_OTHER|||||||0.4|||||||Ranked ANCOVA|||Percent change at Month 3 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.40
92289380|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 3 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289381|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 6 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289382|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 6 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289383|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 6 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289384|NCT00205777|184483914|SUPERIORITY_OR_OTHER|||||||0.004|||||||Ranked ANCOVA|||Percent change at Month 6 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.004
92289385|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 6 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289386|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289387|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289388|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289389|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289390|NCT00205777|184483914|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289391|NCT00205777|184483915|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 36 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289392|NCT00205777|184483915|SUPERIORITY_OR_OTHER|||||||0.001|||||||Ranked ANCOVA|||Percent change at Month 60 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.001
92289393|NCT00205777|184483915|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 36 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
92289394|NCT00205777|184483915|SUPERIORITY_OR_OTHER|||||||0.009|||||||Ranked ANCOVA|||Percent change at Month 60 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.009
92289395|NCT00205777|184483916|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||Ranked ANCOVA|||Percent change at Month 72 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.034
92289396|NCT00205777|184483916|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||Ranked ANCOVA|||Percent change at Month 84 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.77
92289397|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||Percent change at Month 6 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289398|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289399|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289400|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289401|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289402|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289403|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289404|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Percent change at Month 36 in total cholesterol: P value was calculated using ANCOVA.||||0.001
92289405|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289406|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289407|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289408|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289409|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANCOVA|||Percent change at Month 6 in total cholesterol: P value was calculated using ANCOVA.||||0.009
92289410|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289411|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||ANCOVA|||Percent change at Month 24 in total cholesterol: P value was calculated using ANCOVA.||||0.055
92289412|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|||Percent change at Month 36 in total cholesterol: P value was calculated using ANCOVA.||||0.004
92289413|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289414|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289415|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289416|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
92289417|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in LDL: P value was calculated using ANCOVA.||||<0.001
92289418|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in LDL: P value was calculated using ANCOVA.||||<0.001
92289419|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in LDL: P value was calculated using ANCOVA.||||<0.001
92289420|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in LDL: P value was calculated using ANCOVA.||||<0.001
92289421|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in LDL: P value was calculated using ANCOVA.||||<0.001
92289422|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in LDL: P value was calculated using ANCOVA.||||<0.001
92289423|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in LDL: P value was calculated using ANCOVA.||||<0.001
92289424|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in LDL: P value was calculated using ANCOVA.||||<0.001
92289425|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in LDL: P value was calculated using ANCOVA.||||<0.001
92289426|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in LDL: P value was calculated using ANCOVA.||||<0.001
92289427|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in LDL: P value was calculated using ANCOVA.||||<0.001
92289428|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in LDL: P value was calculated using ANCOVA.||||<0.001
92289429|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANCOVA|||Percent change at Month 6 in LDL: P value was calculated using ANCOVA.||||0.012
92289430|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in LDL: P value was calculated using ANCOVA.||||<0.001
92289431|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||ANCOVA|||Percent change at Month 24 in LDL: P value was calculated using ANCOVA.||||0.031
92289432|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||ANCOVA|||Percent change at Month 36 in LDL: P value was calculated using ANCOVA.||||0.008
92289433|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in LDL: P value was calculated using ANCOVA.||||<0.001
92289434|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in LDL: P value was calculated using ANCOVA.||||<0.001
92289435|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in LDL: P value was calculated using ANCOVA.||||<0.001
92289436|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in LDL: P value was calculated using ANCOVA.||||<0.001
92289437|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Percent change at Month 6 in HDL: P value was calculated using ANCOVA.||||0.001
92289438|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL: P value was calculated using ANCOVA.||||<0.001
92289439|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Percent change at Month 24 in HDL: P value was calculated using ANCOVA.||||0.001
92289440|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL: P value was calculated using ANCOVA.||||<0.001
92289441|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANCOVA|||Percent change at Month 6 in HDL: P value was calculated using ANCOVA.||||0.10
92289442|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||ANCOVA|||Percent change at Month 12 in HDL: P value was calculated using ANCOVA.||||0.89
92289443|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||ANCOVA|||Percent change at Month 24 in HDL: P value was calculated using ANCOVA.||||0.60
92289444|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||ANCOVA|||Percent change at Month 36 in HDL: P value was calculated using ANCOVA.||||0.82
92289445|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Percent change at Month 6 in HDL: P value was calculated using ANCOVA.||||0.001
92289446|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL: P value was calculated using ANCOVA.||||<0.001
92289447|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANCOVA|||Percent change at Month 24 in HDL: P value was calculated using ANCOVA.||||0.012
92289448|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL: P value was calculated using ANCOVA.||||<0.001
92289449|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.083||95.0|||||ANCOVA|||Percent change at Month 6 in HDL: P value was calculated using ANCOVA.||||0.083
92289450|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANCOVA|||Percent change at Month 12 in HDL: P value was calculated using ANCOVA.||||0.96
92143979|NCT02962908|184172449|OTHER|inequality test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IL-2 from day 0 to day 42.||||<0.001
92143980|NCT02962908|184172449|OTHER|inequality test||||||0.77|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for CD107a from day 0 to day 42.||||0.77
92143981|NCT02962908|184172449|OTHER|inequality test||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for CD107a from day 0 to day 42.||||0.004
92143982|NCT02962908|184172449|OTHER|inequality test||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IFN-gamma from day 0 to day 42.||||0.08
92289451|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||ANCOVA|||Percent change at Month 24 in HDL: P value was calculated using ANCOVA.||||0.84
92289452|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANCOVA|||Percent change at Month 36 in HDL: P value was calculated using ANCOVA.||||0.15
92289453|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||ANCOVA|||Percent change at Month 6 in HDL: P value was calculated using ANCOVA.||||0.13
92289454|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL: P value was calculated using ANCOVA.||||<0.001
92289455|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANCOVA|||Percent change at Month 24 in HDL: P value was calculated using ANCOVA.||||0.007
92289456|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL: P value was calculated using ANCOVA.||||<0.001
92289457|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||ANCOVA|||Percent change at Month 6 in HDL2: P value was calculated using ANCOVA.||||0.28
92289458|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANCOVA|||Percent change at Month 12 in HDL2: P value was calculated using ANCOVA||||0.10
92289459|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||ANCOVA|||Percent change at Month 24 in HDL2: P value was calculated using ANCOVA.||||0.94
92289460|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANCOVA|||Percent change at Month 36 in HDL2: P value was calculated using ANCOVA.||||0.46
92289461|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||ANCOVA|||Percent change at Month 6 in HDL2: P value was calculated using ANCOVA.||||0.63
92289462|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||ANCOVA|||Percent change at Month 12 in HDL2: P value was calculated using ANCOVA.||||0.70
92289463|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||ANCOVA|||Percent change at Month 24 in HDL2: P value was calculated using ANCOVA.||||0.58
92289464|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||ANCOVA|||Percent change at Month 36 in HDL2: P value was calculated using ANCOVA.||||0.29
92289465|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||ANCOVA|||Percent change at Month 6 in HDL2: P value was calculated using ANCOVA.||||0.59
92289466|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANCOVA|||Percent change at Month 12 in HDL2: P value was calculated using ANCOVA.||||0.036
92289467|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||ANCOVA|||Percent change at Month 24 in HDL2: P value was calculated using ANCOVA.||||0.57
92289468|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||ANCOVA|||Percent change at Month 36 in HDL2: P value was calculated using ANCOVA.||||0.49
92289469|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||ANCOVA|||Percent change at Month 6 in HDL2: P value was calculated using ANCOVA.||||0.038
92289470|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||ANCOVA|||Percent change at Month 12 in HDL2: P value was calculated using ANCOVA.||||0.93
92289471|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANCOVA|||Percent change at Month 24 in HDL2: P value was calculated using ANCOVA.||||0.96
92289472|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||ANCOVA|||Percent change at Month 36 in HDL2: P value was calculated using ANCOVA.||||0.72
92289473|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANCOVA|||Percent change at Month 6 in HDL2: P value was calculated using ANCOVA.||||0.12
92289474|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||ANCOVA|||Percent change at Month 12 in HDL2: P value was calculated using ANCOVA.||||0.043
92289475|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||ANCOVA|||Percent change at Month 24 in HDL2: P value was calculated using ANCOVA.||||0.53
92289476|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||ANCOVA|||Percent change at Month 36 in HDL2: P value was calculated using ANCOVA.||||0.75
92289477|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in HDL3: P value was calculated using ANCOVA.||||<0.001
92289478|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL3: P value was calculated using ANCOVA.||||<0.001
92289479|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in HDL3: P value was calculated using ANCOVA.||||<0.001
92289480|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL3: P value was calculated using ANCOVA.||||<0.001
92289481|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANCOVA|||Percent change at Month 6 in HDL3: P value was calculated using ANCOVA.||||0.46
92289482|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||ANCOVA|||Percent change at Month 12 in HDL3: P value was calculated using ANCOVA.||||0.64
92143983|NCT02962908|184172449|OTHER|inequality test||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IFN-gamma from day 0 to day 42.||||0.38
92143984|NCT02962908|184172449|OTHER|inequality test||||||0.49|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for TNF-alpha from day 0 to day 42.||||0.49
92143985|NCT02962908|184172449|OTHER|inequality test||||||0.156|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for TNF-alpha from day 0 to day 42.||||0.156
92143986|NCT02962908|184172449|OTHER|inequality test||||||0.125|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IL-2 from day 0 to day 42.||||0.125
92143987|NCT02962908|184172449|OTHER|inequality test||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
92184166|NCT00749944|184266954|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.1|||||TWO_SIDED|95.0|-0.37|0.58|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.58|-0.37|
92184167|NCT00749944|184266954|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.08|||||TWO_SIDED|95.0|-0.17|0.34|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.34|-0.17|
92289483|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||ANCOVA|||Percent change at Month 24 in HDL3: P value was calculated using ANCOVA.||||0.47
92289484|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||ANCOVA|||Percent change at Month 36 in HDL3: P value was calculated using ANCOVA.||||0.75
92289485|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANCOVA|||Percent change at Month 6 in HDL3: P value was calculated using ANCOVA.||||0.003
92289486|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL3: P value was calculated using ANCOVA.||||<0.001
92289487|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in HDL3: P value was calculated using ANCOVA.||||<0.001
92289488|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL3: P value was calculated using ANCOVA.||||<0.001
92289489|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||ANCOVA|||Percent change at Month 6 in HDL3: P value was calculated using ANCOVA.||||0.81
92289490|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||ANCOVA|||Percent change at Month 12 in HDL3: P value was calculated using ANCOVA.||||0.98
92289491|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||ANCOVA|||Percent change at Month 24 in HDL3: P value was calculated using ANCOVA.||||0.87
92289492|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||ANCOVA|||Percent change at Month 36 in HDL3: P value was calculated using ANCOVA.||||0.40
92289493|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Percent change at Month 6 in HDL3: P value was calculated using ANCOVA.||||0.001
92289494|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL3: P value was calculated using ANCOVA.||||<0.001
92289495|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in HDL3: P value was calculated using ANCOVA.||||<0.001
92289496|NCT00205777|184483917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL3: P value was calculated using ANCOVA.||||<0.001
92289497|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANCOVA|||Percent change at Month 6 in Triglycerides: P value was calculated using ANCOVA.||||0.85
92289498|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||ANCOVA|||Percent change at Month 12 in Triglycerides: P value was calculated using ANCOVA.||||0.26
92289499|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||ANCOVA|||Percent change at Month 24 in Triglycerides: P value was calculated using ANCOVA.||||0.33
92289500|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANCOVA|||Percent change at Month 36 in Triglycerides: P value was calculated using ANCOVA.||||0.22
92289501|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||ANCOVA|||Percent change at Month 6 in Triglycerides: P value was calculated using ANCOVA.||||0.86
92289502|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||ANCOVA|||Percent change at Month 12 in Triglycerides: P value was calculated using ANCOVA.||||0.65
92289503|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||1||95.0|||||ANCOVA|||Percent change at Month 24 in Triglycerides: P value was calculated using ANCOVA.||||1.00
92289504|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||ANCOVA|||Percent change at Month 36 in Triglycerides: P value was calculated using ANCOVA.||||0.44
92289505|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||ANCOVA|||Percent change at Month 6 in Triglycerides: P value was calculated using ANCOVA.||||0.058
92289506|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||ANCOVA|||Percent change at Month 12 in Triglycerides: P value was calculated using ANCOVA.||||0.55
92289507|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||ANCOVA|||Percent change at Month 24 in Triglycerides: P value was calculated using ANCOVA.||||0.34
92289508|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANCOVA|||Percent change at Month 36 in Triglycerides: P value was calculated using ANCOVA.||||0.96
92289509|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||ANCOVA|||Percent change at Month 6 in Triglycerides: P value was calculated using ANCOVA.||||0.058
92289510|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||ANCOVA|||Percent change at Month 12 in Triglycerides: P value was calculated using ANCOVA.||||0.031
92289511|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.054||95.0|||||ANCOVA|||Percent change at Month 24 in Triglycerides: P value was calculated using ANCOVA.||||0.054
92289512|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANCOVA|||Percent change at Month 36 in Triglycerides: P value was calculated using ANCOVA.||||0.62
92289513|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||ANCOVA|||Percent change at Month 6 in Triglycerides: P value was calculated using ANCOVA.||||0.99
92289514|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANCOVA|||Percent change at Month 12 in Triglycerides: P value was calculated using ANCOVA.||||0.11
92289515|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||ANCOVA|||Percent change at Month 24 in Triglycerides: P value was calculated using ANCOVA.||||0.33
92184168|NCT00749944|184266954|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.04|||||TWO_SIDED|95.0|-0.4|0.48|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.48|-0.40|
92289516|NCT00205777|184483917|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||ANCOVA|||Percent change at Month 36 in Triglycerides: P value was calculated using ANCOVA.||||0.65
92289517|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.97|||||||ANOVA|||BV: P value was calculated using Analysis of Variance (ANOVA).||||0.97
92289518|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.19
92289519|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.74
92184169|NCT00749944|184266954|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.17|||||TWO_SIDED|95.0|-0.44|0.78|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.78|-0.44|
92289520|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.79
92289521|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.11|||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.11
92289522|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.78|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.78
92289523|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.90
92289524|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.33|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.33
92289525|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.51|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.51
92289526|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.28|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.28
92289527|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.86|||||||ANOVA|||OS: P value was calculated using ANOVA.||||0.86
92289528|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.6|||||||ANOVA|||OS: P value was calculated using ANOVA.||||0.60
92289529|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.84|||||||ANOVA|||OS: P value was calculated using ANOVA.||||0.84
92289530|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.98|||||||ANOVA|||OS: P value was calculated using ANOVA.||||0.98
92289531|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.47|||||||ANOVA|||OS: P value was calculated using ANOVA.||||0.47
92289532|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.59|||||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.59
92289533|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.13
92289534|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.65|||||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.65
92289535|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.33|||||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.33
92289536|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.053|||||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.053
92289537|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.51|||||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.51
92289538|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.5|||||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.50
92289539|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.27|||||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.27
92289540|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.091|||||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.091
92289541|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.087|||||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.087
92289542|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.82|||||||ANOVA|||MS: P value was calculated using ANOVA.||||0.82
92289543|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.82|||||||ANOVA|||MS: P value was calculated using ANOVA.||||0.82
92289544|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.12|||||||ANOVA|||MS: P value was calculated using ANOVA.||||0.12
92289545|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.085|||||||ANOVA|||MS: P value was calculated using ANOVA.||||0.085
92289546|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.08|||||||ANOVA|||MS: P value was calculated using ANOVA.||||0.080
92289547|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.24|||||||ANOVA|||ES: P value was calculated using ANOVA.||||0.24
92289548|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.035|||||||ANOVA|||ES: P value was calculated using ANOVA.||||0.035
92289549|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.024|||||||ANOVA|||ES: P value was calculated using ANOVA.||||0.024
92289550|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.3|||||||ANOVA|||ES: P value was calculated using ANOVA.||||0.30
92289551|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.89|||||||ANOVA|||ES: P value was calculated using ANOVA.||||0.89
92289552|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.8|||||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.80
92289553|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.75|||||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.75
92289554|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.060
92289555|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.12|||||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.12
92289556|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.13
92289557|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.78|||||||ANOVA|||CP: P value was calculated using ANOVA.||||0.78
92289558|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.7|||||||ANOVA|||CP: P value was calculated using ANOVA.||||0.70
92289559|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.98|||||||ANOVA|||CP: P value was calculated using ANOVA.||||0.98
92289560|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|||CP: P value was calculated using ANOVA.||||0.76
92289561|NCT00205777|184483918|SUPERIORITY_OR_OTHER|||||||0.73|||||||ANOVA|||CP: P value was calculated using ANOVA.||||0.73
92289562|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.7|||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.70
92289563|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.65|||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.65
92289564|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.006
92289565|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||OV: P value was calculated using ANOVA.||||0.010
92289566|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||OS: P value was calculated using ANOVA.||||0.050
92289567|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||ANOVA|||OS: P value was calculated using ANOVA.||||0.045
92289568|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.18
92143988|NCT02962908|184172449|OTHER|inequality test||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for CD107a from day 0 to day 42.||||0.72
92143989|NCT02962908|184172449|OTHER|inequality test||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for CD107a from day 0 to day 42.||||0.34
92289569|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.56
92289570|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.14
92289571|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.22
92289572|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||MS: P value was calculated using ANOVA.||||0.11
92289573|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||ANOVA|||MS: P value was calculated using ANOVA.||||0.055
92289574|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||ANOVA|||ES: P value was calculated using ANOVA.||||0.069
92289575|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||ANOVA|||ES: P value was calculated using ANOVA.||||0.28
92289576|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.62
92289577|NCT00205777|184483919|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.96
92289578|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||ANOVA|||WTh: P value was calculated using ANOVA.||||0.22
92289579|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.087|TWO_SIDED||||||ANOVA|||WTh: p-value was calculated using ANOVA.||||0.087
92289580|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||ANOVA|||WTh: p-value was calculated using ANOVA.||||0.37
92289581|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||ANOVA|||WTh: p-value was calculated using ANOVA.||||0.73
92289582|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||ANOVA|||WTh: p-value was calculated using ANOVA.||||0.41
92289583|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.085||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.085
92289584|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.15
92289585|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.71
92289586|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.042
92289587|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.077||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.077
92289588|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.35
92289589|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.12
92289590|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.41
92289591|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.90
92289592|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.46
92289593|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.18
92289594|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.75
92289595|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.10
92289596|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.79
92289597|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.057||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.057
92289598|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||ANOVA|||CTh: P value was calculated using ANOVA.||||0.17
92289599|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANOVA|||CTh: P value was calculated using ANOVA.||||0.46
92289600|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||ANOVA|||CTh: P value was calculated using ANOVA.||||0.83
92289601|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANOVA|||CTh: P value was calculated using ANOVA.||||0.25
92289602|NCT00205777|184483920|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||CTh: P value was calculated using ANOVA.||||0.35
92289603|NCT00205777|184483921|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||ANOVA|||WTh: P value was calculated using ANOVA.||||0.018
92289604|NCT00205777|184483921|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||ANOVA|||WTh: P value was calculated using ANOVA.||||0.29
92289605|NCT00205777|184483921|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.049
92289606|NCT00205777|184483921|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.37
92289607|NCT00205777|184483921|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.97
92143990|NCT02962908|184172450|OTHER|inequality test||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IFN-gamma from day 0 to day 180.||||0.62
92143991|NCT02962908|184172450|OTHER|inequality test||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IFN-gamma from day 0 to day 180.||||0.030
92289608|NCT00205777|184483921|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.78
92289609|NCT00205777|184483921|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.43
92289610|NCT00205777|184483921|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.32
92289611|NCT00205777|184483922|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||ANOVA|||||||0.35
92289612|NCT00205777|184483922|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||ANOVA|||||||0.66
92289613|NCT00205777|184483922|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||ANOVA|||||||0.30
92289614|NCT00205777|184483922|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||ANOVA|||||||0.95
92289615|NCT00205777|184483922|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANOVA|||||||0.15
92289616|NCT00205777|184483923|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||ANOVA|||||||1.00
92289617|NCT00205777|184483923|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||ANOVA|||||||0.40
92289618|NCT00205777|184483924|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||ANOVA|||||||0.71
92289619|NCT00205777|184483924|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||ANOVA|||||||0.83
92289620|NCT00205777|184483924|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||ANOVA|||||||0.63
92289621|NCT00205777|184483924|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||ANOVA|||||||0.92
92289622|NCT00205777|184483924|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||ANOVA|||||||0.50
92289623|NCT00205777|184483925|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||ANOVA|||||||0.73
92289624|NCT00205777|184483925|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||ANOVA|||||||0.80
92289625|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.81
92289626|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.96
92289627|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.005
92289628|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.013
92289629|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.006
92289630|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.70
92289631|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.44
92289632|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.47
92289633|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.28
92289634|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.14
92289635|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.93
92289636|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.85
92289637|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.010
92289638|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.015
92289639|NCT00205777|184483926|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.006
92289640|NCT00205777|184483927|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.60
92289641|NCT00205777|184483927|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.53
92289642|NCT00205777|184483927|SUPERIORITY_OR_OTHER|||||||1||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||1.00
92289643|NCT00205777|184483927|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.43
92289644|NCT00205777|184483927|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.60
92289645|NCT00205777|184483927|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.52
92289646|NCT00205777|184483928|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||ANOVA|||||||0.22
92289647|NCT00205777|184483928|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|||||||0.76
92289648|NCT00205777|184483928|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||ANOVA|||||||0.26
92289649|NCT00205777|184483928|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||ANOVA|||||||0.90
92289650|NCT00205777|184483928|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||||||0.16
92289651|NCT00205777|184483929|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||ANOVA|||||||0.41
92289652|NCT00205777|184483929|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||||||0.18
92289653|NCT00205777|184483930|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||ANOVA|||||||0.68
92289654|NCT00205777|184483930|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||ANOVA|||||||0.97
92289655|NCT00205777|184483930|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||||||0.18
92289656|NCT00205777|184483930|SUPERIORITY_OR_OTHER|||||||0.088||95.0|||||ANOVA|||||||0.088
92289657|NCT00205777|184483930|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||ANOVA|||||||0.17
92289658|NCT00205777|184483931|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||ANOVA|||||||0.25
92289659|NCT00205777|184483931|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANOVA|||||||0.10
92289660|NCT00205777|184483932|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||ANOVA|||||||0.90
92289661|NCT00205777|184483932|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||ANOVA|||||||0.74
92289662|NCT00205777|184483932|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||ANOVA|||||||0.13
92289663|NCT00205777|184483932|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||||||0.11
92289664|NCT00205777|184483932|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||ANOVA|||||||0.24
92289665|NCT00205777|184483933|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||ANOVA|||||||0.25
92143992|NCT02962908|184172450|OTHER|inequality test||||||0.87|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for TNF-alpha from day 0 to day 180.||||0.87
92143993|NCT02962908|184172450|OTHER|inequality test||||||0.075|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for TNF-alpha from day 0 to day 180.||||0.075
92143994|NCT02962908|184172450|OTHER|inequality test||||||0.076|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IL-2 from day 0 to day 180.||||0.076
92143995|NCT02962908|184172450|OTHER|inequality test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IL-2 from day 0 to day 180.||||<0.001
92184170|NCT00749944|184266954|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.13|||||TWO_SIDED|95.0|-0.14|0.4|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.40|-0.14|
92289666|NCT00205777|184483933|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||ANOVA|||||||0.070
92289667|NCT00205777|184483934|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||ANOVA|||||||0.77
92289668|NCT00205777|184483934|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||ANOVA|||||||0.91
92289669|NCT00205777|184483934|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANOVA|||||||0.009
92289670|NCT00205777|184483934|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANOVA|||||||0.023
92289671|NCT00205777|184483934|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANOVA|||||||0.012
92289672|NCT00205777|184483935|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||ANOVA|||||||0.79
92289673|NCT00205777|184483935|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||ANOVA|||||||0.61
92289674|NCT00205777|184483936|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||ANOVA|||||||0.30
92143996|NCT02962908|184172450|OTHER|inequality test||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for CD107a from day 0 to day 180.||||0.91
92184171|NCT00749944|184266957|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.41|||||TWO_SIDED|95.0|-1.09|1.9|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.90|-1.09|
92289675|NCT00205777|184483936|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANOVA|||||||0.62
92289676|NCT00205777|184483936|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||ANOVA|||||||0.28
92289677|NCT00205777|184483936|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||ANOVA|||||||0.041
92289678|NCT00205777|184483936|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANOVA|||||||0.12
92289679|NCT00205777|184483937|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||ANOVA|||||||0.70
92289680|NCT00205777|184483937|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||ANOVA|||||||0.61
92289681|NCT00205777|184483938|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||ANOVA|||||||0.22
92289682|NCT00205777|184483938|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|||||||0.76
92289683|NCT00205777|184483938|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||ANOVA|||||||0.26
92289684|NCT00205777|184483938|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||ANOVA|||||||0.89
92289685|NCT00205777|184483938|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||ANOVA|||||||0.17
92289686|NCT00205777|184483939|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||ANOVA|||||||0.41
92289687|NCT00205777|184483939|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||||||0.18
92289688|NCT00205777|184483940|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||ANOVA|||||||0.97
92289689|NCT00205777|184483940|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||ANOVA|||||||0.61
92289690|NCT00205777|184483940|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.050
92289691|NCT00205777|184483940|SUPERIORITY_OR_OTHER|||||||0.061||95.0|||||ANOVA|||||||0.061
92289692|NCT00205777|184483940|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||||||0.14
92289693|NCT00205777|184483941|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||ANOVA|||||||0.15
92289694|NCT00205777|184483941|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||ANOVA|||||||0.056
92289695|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||ANOVA|||Change at Month 12 in WHQ: P value was calculated using ANOVA.||||0.20
92289696|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANOVA|||Change at Month 12 in WHQ: P value was calculated using ANOVA.||||0.12
92289697|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||ANOVA|||Change at Month 12 in WHQ: P value was calculated using ANOVA.||||0.17
92289698|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||ANOVA|||Change at Month 12 in WHQ: P value was calculated using ANOVA.||||0.92
92289699|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||ANOVA|||Change at Month 12 in WHQ: P value was calculated using ANOVA.||||0.86
92289700|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||Change at Month 24 in WHQ: P value was calculated using ANOVA.||||0.18
92289701|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANOVA|||Change at Month 24 in WHQ: P value was calculated using ANOVA.||||0.12
92289702|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.096||95.0|||||ANOVA|||Change at Month 24 in WHQ: P value was calculated using ANOVA.||||0.096
92289703|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|||Change at Month 24 in WHQ: P value was calculated using ANOVA.||||0.76
92289704|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||ANOVA|||Change at Month 24 in WHQ: P value was calculated using ANOVA.||||0.93
92289705|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||ANOVA|||Change at Month 36 in WHQ: P value was calculated using ANOVA.||||0.36
92289706|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||ANOVA|||Change at Month 36 in WHQ: P value was calculated using ANOVA.||||0.34
92289707|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||ANOVA|||Change at Month 36 in WHQ: P value was calculated using ANOVA.||||0.98
92289708|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||Change at Month 36 in WHQ: P value was calculated using ANOVA.||||0.35
92289709|NCT00205777|184483943|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||Change at Month 36 in WHQ: P value was calculated using ANOVA.||||0.35
92289710|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||ANOVA|||Change at Month 12 in QUALEFFO: P value was calculated using ANOVA.||||0.080
92289711|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||ANOVA|||Change at Month 12 in QUALEFFO: P value was calculated using ANOVA.||||0.41
92289712|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||ANOVA|||Change at Month 12 in QUALEFFO: P value was calculated using ANOVA.||||0.65
92143997|NCT02962908|184172450|OTHER|inequality test||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for CD107a from day 0 to day 180.||||0.91
92143998|NCT02962908|184172450|OTHER|inequality test||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IFN-gamma from day 0 to day 180.||||0.55
92289713|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||ANOVA|||Change at Month 12 in QUALEFFO: P value was calculated using ANOVA.||||0.18
92289714|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||ANOVA|||Change at Month 12 in QUALEFFO: P value was calculated using ANOVA.||||0.36
92289715|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||ANOVA|||Change at Month 24 in QUALEFFO: P value was calculated using ANOVA.||||0.27
92289716|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANOVA|||Change at Month 24 in QUALEFFO: P value was calculated using ANOVA.||||0.25
92289717|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.053||95.0|||||ANOVA|||Change at Month 24 in QUALEFFO: P value was calculated using ANOVA.||||0.053
92289718|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||ANOVA|||Change at Month 24 in QUALEFFO: P value was calculated using ANOVA.||||0.40
92289719|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||ANOVA|||Change at Month 24 in QUALEFFO: P value was calculated using ANOVA.||||0.45
92289720|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANOVA|||Change at Month 36 in QUALEFFO: P value was calculated using ANOVA.||||0.012
92289721|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||ANOVA|||Change at Month 36 in QUALEFFO: P value was calculated using ANOVA.||||0.54
92143999|NCT02962908|184172450|OTHER|inequality test||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IFN-gamma from day 0 to day 180.||||0.55
92289722|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||Change at Month 36 in QUALEFFO: P value was calculated using ANOVA.||||0.11
92289723|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||Change at Month 36 in QUALEFFO: P value was calculated using ANOVA.||||0.35
92289724|NCT00205777|184483945|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||ANOVA|||Change at Month 36 in QUALEFFO: P value was calculated using ANOVA.||||0.34
92289725|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANOVA|||Change at Month 12 in EQ-5D VAS: P value was calculated using ANOVA.||||0.21
92289726|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.058|TWO_SIDED||||||ANOVA|||Change at Month 12 in EQ-5D VAS: P value was calculated using ANOVA.||||0.058
92289727|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||ANOVA|||Change at Month 12 in EQ-5D VAS: P value was calculated using ANOVA.||||0.76
92289728|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||ANOVA|||Change at Month 12 in EQ-5D VAS: P value was calculated using ANOVA.||||0.34
92144000|NCT02962908|184172450|OTHER|inequality||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for TNF-alpha from day 0 to day 180.||||0.91
92144001|NCT02962908|184172450|OTHER|inequality test||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for TNF-alpha from day 0 to day 180.||||0.91
92289729|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||ANOVA|||Change at Month 12 in EQ-5D VAS: P value was calculated using ANOVA.||||0.51
92289730|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||Change at Month 24 in EQ-5D VAS: P value was calculated using ANOVA.||||0.14
92289731|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||ANOVA|||Change at Month 24 in EQ-5D VAS: P value was calculated using ANOVA.||||0.57
92289732|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||ANOVA|||Change at Month 24 in EQ-5D VAS: P value was calculated using ANOVA.||||0.78
92289733|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||ANOVA|||Change at Month 24 in EQ-5D VAS: P value was calculated using ANOVA.||||0.24
92289734|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||ANOVA|||Change at Month 24 in EQ-5D VAS: P value was calculated using ANOVA.||||0.78
92289735|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANOVA|||Change at Month 36 in EQ-5D VAS: P value was calculated using ANOVA.||||0.62
92289736|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||ANOVA|||Change at Month 36 in EQ-5D VAS: P value was calculated using ANOVA.||||0.72
92289737|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||Change at Month 36 in EQ-5D VAS: P value was calculated using ANOVA.||||0.16
92289738|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.059||95.0|||||ANOVA|||Change at Month 36 in EQ-5D VAS: P value was calculated using ANOVA.||||0.059
92289739|NCT00205777|184483947|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||ANOVA|||Change at Month 36 in EQ-5D VAS: P value was calculated using ANOVA.||||0.30
92289740|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||ANOVA|||Change at Month 12 in EQ-5D: P value was calculated using ANOVA.||||0.72
92289741|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||ANOVA|||Change at Month 12 in EQ-5D: P value was calculated using ANOVA.||||0.98
92289742|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||ANOVA|||Change at Month 12 in EQ-5D: P value was calculated using ANOVA.||||0.84
92289743|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||ANOVA|||Change at Month 12 in EQ-5D: P value was calculated using ANOVA.||||0.88
92289744|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||ANOVA|||Change at Month 12 in EQ-5D: P value was calculated using ANOVA.||||0.86
92289745|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||ANOVA|||Change at Month 24 in EQ-5D: P value was calculated using ANOVA.||||0.82
92289746|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||Change at Month 24 in EQ-5D: P value was calculated using ANOVA.||||0.11
92289747|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||Change at Month 24 in EQ-5D: P value was calculated using ANOVA.||||0.14
92289748|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|||Change at Month 24 in EQ-5D: P value was calculated using ANOVA.||||0.22
92289749|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||ANOVA|||Change at Month 24 in EQ-5D: P value was calculated using ANOVA.||||0.88
92289750|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANOVA|||Change at Month 36 in EQ-5D: P value was calculated using ANOVA.||||0.96
92289751|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|||Change at Month 36 in EQ-5D: P value was calculated using ANOVA.||||0.76
92289752|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||ANOVA|||Change at Month 36 in EQ-5D: P value was calculated using ANOVA.||||0.92
92289753|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||ANOVA|||Change at Month 36 in EQ-5D: P value was calculated using ANOVA.||||0.89
92289754|NCT00205777|184483949|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||ANOVA|||Change at Month 36 in EQ-5D: P value was calculated using ANOVA.||||0.83
92289755|NCT05604209|184483968|SUPERIORITY||Median log2 fold change|1.63|||<|0.001|TWO_SIDED|95.0|0.67|2.14|||Wilcoxon (Mann-Whitney)|Within-group log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 35 within all vaccinees is zero.||2.14|0.67|<0.001
92289756|NCT05604209|184483968|SUPERIORITY||median log2 fold change|1.15||||0.008|TWO_SIDED|95.0|0.09|2.59|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 35 within the C62-M4 vaccinated arm is zero.||2.59|0.09|0.008
92289757|NCT05604209|184483968|SUPERIORITY||Median log2 fold change|1.66||||0.008|TWO_SIDED|95.0|0.93|4.59|||Wilcoxon (Mann-Whitney)|Within-am log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 35 within the C1C62-M3M4 vaccinated arm is zero.||4.59|0.93|0.008
92289758|NCT05604209|184483968|SUPERIORITY|||||||0.279|||||||Wilcoxon (Mann-Whitney)|Between-arm comparisons in log2 fold changes were statistically assessed using a two-sided exact Wilcoxon rank-sum test.||The contrast is the magnitude of the T-cell response to Mosaic-1 from baseline to day 35 in C62-M4 versus C1C62-M3M4.The null hypothesis is that he distributions of the T-cell response to Mosaic-1 from pre-vaccination to day 35 are the same between the two vaccinated arms.||||0.279
92289759|NCT05604209|184483969|SUPERIORITY||Median log2 fold change|1.66|||<|0.001|TWO_SIDED|95.0|1.09|2.33|||Wilcoxon (Mann-Whitney)|Within-group log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 35 within all vaccinees is zero.||2.33|1.09|<0.001
92289760|NCT05604209|184483969|SUPERIORITY||Median log2 fold change|1.79||||0.008|TWO_SIDED|95.0|0.59|3.4|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 35 within the C62-M4 vaccinated arm is zero.||3.40|0.59|0.008
92289761|NCT05604209|184483969|SUPERIORITY||Median log2 fold change|1.66||||0.008|TWO_SIDED|95.0|0.94|3.09|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 35 within the C1C62-M3M4 vaccinated arm is zero.||3.09|0.94|0.008
92289762|NCT05604209|184483969|SUPERIORITY|||||||0.878|||||||Wilcoxon (Mann-Whitney)|Between-arm comparisons in log2 fold changes were statistically assessed using a two-sided exact Wilcoxon rank-sum test.||The contrast is the magnitude of the T-cell response to Mosaic-2 from baseline to day 35 in C62-M4 versus C1C62-M3M4.The null hypothesis is that he distributions of the T-cell response to Mosaic-2 from pre-vaccination to day 35 are the same between the two vaccinated arms.||||0.878
92289763|NCT05604209|184483970|SUPERIORITY||Median log2 fold change|1.47|||<|0.001|TWO_SIDED|95.0|0.54|2.63|||Wilcoxon (Mann-Whitney)|Within-group log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 42 within all vaccinees is zero.||2.63|0.54|<0.001
92289764|NCT05604209|184483970|SUPERIORITY||Median log2 fold change|1.09||||0.008|TWO_SIDED|95.0|0.39|3.61|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 42 within the C62-M4 vaccinated arm is zero.||3.61|0.39|0.008
92289765|NCT05604209|184483970|SUPERIORITY||Median log2 fold change|2.0||||0.016|TWO_SIDED|95.0|0.43|4.37|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 42 within the C1C62-M3M4 vaccinated arm is zero.||4.37|0.43|0.016
92289766|NCT05604209|184483970|SUPERIORITY|||||||0.189|||||||Wilcoxon (Mann-Whitney)|Between-arm comparisons in log2 fold changes were statistically assessed using a two-sided exact Wilcoxon rank-sum test.||The contrast is the magnitude of the T-cell response to Mosaic-1 from baseline to day 42 in C62-M4 versus C1C62-M3M4.The null hypothesis is that he distributions of the T-cell response to Mosaic-1 from pre-vaccination to day 42 are the same between the two vaccinated arms.||||0.189
92289767|NCT05604209|184483971|SUPERIORITY||Median log2 fold change|1.78|||<|0.001|TWO_SIDED|95.0|0.81|2.51|||Wilcoxon (Mann-Whitney)|Within-group log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 42 within all vaccinees is zero.||2.51|0.81|<0.001
92289768|NCT05604209|184483971|SUPERIORITY||Median log2 fold change|1.57||||0.008|TWO_SIDED|95.0|0.63|3.89|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 42 within the C62-M4 vaccinated arm is zero.||3.89|0.63|0.008
92289769|NCT05604209|184483971|SUPERIORITY||Median log2 fold change|1.78||||0.016|TWO_SIDED|95.0|0.7|3.79|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 42 within the C162-M3M4 vaccinated arm is zero.||3.79|0.70|0.016
92289770|NCT05604209|184483971|SUPERIORITY|||||||0.955|||||||Wilcoxon (Mann-Whitney)|Between-arm comparisons in log2 fold changes were statistically assessed using a two-sided exact Wilcoxon rank-sum test.||The contrast is the magnitude of the T-cell response to Mosaic-2 from baseline to day 42 in C62-M4 versus C1C62-M3M4.The null hypothesis is that he distributions of the T-cell response to Mosaic-2 from pre-vaccination to day 42 are the same between the two vaccinated arms.||||0.955
92289771|NCT05604209|184483972|SUPERIORITY||Median Difference (Net)|2.0||||0.125|TWO_SIDED|95.0|-1.0|4.0|||Wilcoxon (Mann-Whitney)|Within-group changes in breadth from baseline to day 56 were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median change in breadth of T-cell response to HIV-1 subpools from baseline to day 56 within all vaccinees is zero.||4|-1|0.125
92289772|NCT02709018|184483986|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis|||||||0.66
92289773|NCT02709018|184483987|SUPERIORITY|||||||0.57|||||||Mixed Models Analysis|||||||0.57
92289774|NCT00950989|184484020|SUPERIORITY||Difference in response rate|3.2||||0.598|TWO_SIDED|95.0|-9.0|15.4||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||15.4|-9.0|0.598
92184172|NCT00749944|184266957|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.08|||||TWO_SIDED|95.0|-1.54|1.71|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||1.71|-1.54|
92184173|NCT00749944|184266957|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.06|||||TWO_SIDED|95.0|-2.47|2.6|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||2.60|-2.47|
92289775|NCT00950989|184484020|SUPERIORITY|||||||0.993||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.993
92289776|NCT00950989|184484020|SUPERIORITY||Difference in response rate|3.2||||0.635|TWO_SIDED|95.0|-9.0|15.4||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||15.4|-9.0|0.635
92289777|NCT00950989|184484020|SUPERIORITY|||||||0.74||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.740
92289778|NCT00950989|184484020|SUPERIORITY||Difference in response rate|-3.2||||0.572|TWO_SIDED|95.0|-14.1|7.8||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||7.8|-14.1|0.572
92289779|NCT00950989|184484020|SUPERIORITY|||||||0.572||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.572
92289780|NCT00950989|184484021|SUPERIORITY||Difference in response rates|-3.2||||0.728|TWO_SIDED|95.0|-20.4|14.0||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||14.0|-20.4|0.728
92289781|NCT00950989|184484021|SUPERIORITY|||||||0.993||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.993
92289782|NCT00950989|184484021|SUPERIORITY||Difference in response rates|-6.3||||0.412|TWO_SIDED|95.0|-23.4|10.7||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||10.7|-23.4|0.412
92289783|NCT00950989|184484021|SUPERIORITY|||||||0.74||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedures|||||||0.740
92289784|NCT00950989|184484021|SUPERIORITY||Difference in response rates|3.2||||0.74|TWO_SIDED|95.0|-14.2|20.5||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||20.5|-14.2|0.740
92289785|NCT00950989|184484021|SUPERIORITY|||||||0.993||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.993
92184174|NCT00749944|184266957|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.29|||||TWO_SIDED|95.0|-1.57|2.15|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||2.15|-1.57|
92184175|NCT00749944|184266957|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.94|||||TWO_SIDED|95.0|-2.23|0.36|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.36|-2.23|
92289786|NCT00950989|184484022|SUPERIORITY||Difference in response rates|0.0||||0.984|TWO_SIDED|95.0|-6.1|6.1||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||6.1|-6.1|0.984
92289787|NCT00950989|184484022|SUPERIORITY|||||||0.993||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.993
92289788|NCT00950989|184484022|SUPERIORITY||Difference in response rates|0.0||||0.993|TWO_SIDED|95.0|-6.1|6.1||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||6.1|-6.1|0.993
92289789|NCT00950989|184484022|SUPERIORITY|||||||0.993||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.993
92289790|NCT00950989|184484022|SUPERIORITY||Difference in response rates|-3.2||||0.159|TWO_SIDED|95.0|-7.5|1.2||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||1.2|-7.5|0.159
92289791|NCT00950989|184484022|SUPERIORITY|||||||0.797||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.797
92289792|NCT00950989|184484023|SUPERIORITY||LS Mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.459|TWO_SIDED|95.0|-0.7|0.3||P-value is nominal without multiplicity adjustment based on ANCOVA model adjusting for sex and baseline DAS28 score.|ANCOVA|||||0.3|-0.7|0.459
92289793|NCT00950989|184484023|SUPERIORITY||LS mean of difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.906|TWO_SIDED|95.0|-0.5|0.5||P-value is nominal without multiplicity adjustment based on ANCOVA model adjusting for sex and baseline DAS28 score.|ANCOVA|||||0.5|-0.5|0.906
92289794|NCT00950989|184484023|SUPERIORITY||LS mean of difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.849|TWO_SIDED|95.0|-0.5|0.5||P-value is nominal without multiplicity adjustment based on ANCOVA model adjusting for sex and baseline DAS28 score.|ANCOVA|||||0.5|-0.5|0.849
92289795|NCT00424047|184484061|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.324|||<|0.001|TWO_SIDED|95.0|0.24|0.438|||Log Rank|The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups|Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (Lenalidomide/Dex:Placebo/Dexamethasone)|||0.438|0.240|<0.001
92289796|NCT00424047|184484062|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.105|TWO_SIDED|95.0|0.498|1.07|||Log Rank|The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups.|Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (Lenalidomide/Dexamethasone:Placebo/Dexamethasone)|||1.070|0.498|0.105
92289797|NCT00424047|184484063|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.863||||0.302|TWO_SIDED|95.0|0.651|1.143|||Log Rank|The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups|Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (CC-5013/Dex:Placebo/Dex)|||1.143|0.651|0.302
92289798|NCT00424047|184484064|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Probability from Wilcoxon rank sum test||||||<0.001
92289799|NCT00424047|184484065|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Probability from Wilcoxon rank sum test||||||<0.001
92289800|NCT00424047|184484068|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.558||||0.021|TWO_SIDED|95.0|0.338|0.921|||Log Rank|The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups|Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (lenalidomide/dexamethasone : placebo/dexamethasone).|||0.921|0.338|0.021
92289801|NCT00424047|184484069|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.362|||<|0.001|TWO_SIDED|95.0|0.27|0.478||The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups.|Log Rank||Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (CC-5013/Dex:Placebo/Dex)|||0.478|0.27|<0.001
92289802|NCT00424047|184484070|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.166||||0.271|TWO_SIDED|95.0|0.887|1.532||The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups.|Log Rank||Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (lenalidomide/dexamethasone: placebo/dexamethasone)|||1.532|0.887|0.271
92289803|NCT00424047|184484071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.135||||0.359|TWO_SIDED|95.0|0.866|1.486||The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups.|Log Rank||Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (CC-5013/Dex:Placebo/Dex)|||1.486|0.866|0.359
92289804|NCT00424047|184484072|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.619||||0.032|TWO_SIDED|95.0|0.398|0.964|||Log Rank|The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups.|Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (CC-5013/Dex:Placebo/Dex)|||0.964|0.398|0.032
92289805|NCT01229150|184484081|SUPERIORITY_OR_OTHER|||||||0.24|||||||Log Rank|||||||0.24
92289806|NCT01229150|184484081|SUPERIORITY_OR_OTHER|||||||0.75|||||||Log Rank|||||||0.75
92289807|NCT01229150|184484085|SUPERIORITY_OR_OTHER|||||||0.51|||||||Log Rank|||||||0.51
92289808|NCT01229150|184484085|SUPERIORITY_OR_OTHER|||||||0.81|||||||Log Rank|||||||0.81
92289809|NCT01229150|184484087|SUPERIORITY_OR_OTHER||||||<|0.0007||||||P-value was determined by comparison by the level of p-ERK at cycle 1 day 1 to cycle 1 day 2.|Wilcoxon matched-pairs signed rank test|||||||<0.0007
92289810|NCT01229150|184484087|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value was determined by comparison by the level of p-ERK at cycle 1 day 1 to cycle 1 day 14.|Wilcoxon matched-pairs signed rank test|||||||<0.0001
92289811|NCT01229150|184484087|SUPERIORITY_OR_OTHER|||||||0.0209||||||P-value was determined by comparison by the level of p-ERK at cycle 1 day 2 and cycle 1 day 14.|Wilcoxon matched-pairs signed rank test|||4 patients in this group; statistically underpowered.||||0.0209
92289812|NCT03100344|184484106|OTHER|mixed-effect model for repeated measures (MMRM)|mean difference of percentage changes|-13.6||||0.051|TWO_SIDED|95.0|-27.3|0.0|||Kenward-Rogers|||||0.0|-27.3|0.051
92289813|NCT03100344|184484106|OTHER|mixed-effect model for repeated measures (MMRM)|mean difference of percentage changes|-16.7||||0.016|TWO_SIDED|95.0|-30.2|-3.2|||Kenward Roger|||||-3.2|-30.2|0.016
92289814|NCT03100344|184484106|OTHER|mixed-effect model for repeated measures (MMRM)|mean difference of percentage changes|-6.8||||0.322|TWO_SIDED|95.0|-20.5|6.8|||Kenward Roger|||||6.8|-20.5|0.322
92289815|NCT03100344|184484107|SUPERIORITY||Mean Difference (Final Values)|18.9||||0.034|TWO_SIDED|95.0|2.0|35.8|||Cochran-Mantel-Haenszel|||||35.8|2.0|0.034
92289816|NCT03100344|184484107|SUPERIORITY||Mean Difference (Final Values)|31.4|||<|0.001|TWO_SIDED|95.0|14.7|48.2|||Cochran-Mantel-Haenszel|||||48.2|14.7|<0.001
92289817|NCT03100344|184484107|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.154|TWO_SIDED|95.0|-4.2|28.6|||Cochran-Mantel-Haenszel|||||28.6|-4.2|0.154
92289818|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|10.9||||0.062|TWO_SIDED|95.0|-0.4|22.2|||Cochran-Mantel-Haenszel|||Week 1||22.2|-0.4|0.062
92289819|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.042|TWO_SIDED|95.0|0.8|23.6|||Cochran-Mantel-Haenszel|||Week 1||23.6|0.8|0.042
92289820|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|5.2||||0.307|TWO_SIDED|95.0|-4.7|15.0|||Cochran-Mantel-Haenszel|||Week 1||15.0|-4.7|0.307
92289821|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|24.0||||0.003|TWO_SIDED|95.0|9.3|38.7|||Cochran-Mantel-Haenszel|||Week 2||38.7|9.3|0.003
92289822|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|26.2||||0.001|TWO_SIDED|95.0|11.4|40.9|||Cochran-Mantel-Haenszel|||Week 2||40.9|11.4|0.001
92289823|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|19.0||||0.011|TWO_SIDED|95.0|4.9|33.1|||Cochran-Mantel-Haenszel|||Week 2||33.1|4.9|0.011
92289824|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|27.6|||<|0.001|TWO_SIDED|95.0|13.5|41.7|||Cochran-Mantel-Haenszel|||Week 4||41.7|13.5|<0.001
92289825|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|40.3|||<|0.001|TWO_SIDED|95.0|25.7|54.8|||Cochran-Mantel-Haenszel|||Week 4||54.8|25.7|<0.001
92289826|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|31.6|||<|0.001|TWO_SIDED|95.0|17.4|45.8|||Cochran-Mantel-Haenszel|||Week 4||45.8|17.4|<0.001
92289827|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|20.6||||0.018|TWO_SIDED|95.0|4.2|37.1|||Cochran-Mantel-Haenszel|||Week 8||37.1|4.2|0.018
92289828|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|43.7|||<|1|TWO_SIDED|95.0|27.6|59.9|||Cochran-Mantel-Haenszel|||Week 8||59.9|27.6|<0001
92289829|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|26.1||||0.003|TWO_SIDED|95.0|9.7|42.6|||Cochran-Mantel-Haenszel|||Week 8||42.6|9.7|0.003
92289830|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|24.4||||0.007|TWO_SIDED|95.0|7.3|41.4|||Cochran-Mantel-Haenszel|||Week 12||41.4|7.3|0.007
92289831|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|43.6|||<|0.001|TWO_SIDED|95.0|27.4|59.9|||Cochran-Mantel-Haenszel|||Week 12||59.9|27.4|<0.001
92289832|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|19.1||||0.03|TWO_SIDED|95.0|2.4|35.9|||Cochran-Mantel-Haenszel|||Week 12||35.9|2.4|0.030
92289833|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|33.3|||<|0.001|TWO_SIDED|95.0|16.4|50.2|||Cochran-Mantel-Haenszel|||Week 16||50.2|16.4|<0.001
92289834|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|47.2|||<|0.001|TWO_SIDED|95.0|31.2|63.2|||Cochran-Mantel-Haenszel|||Week 16||63.2|31.2|<0.001
92144002|NCT02962908|184172450|OTHER|inequality test||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IL2 from day 0 to day 180.||||0.21
92289835|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|22.8||||0.01|TWO_SIDED|95.0|6.1|39.4|||Cochran-Mantel-Haenszel|||Week 16||39.4|6.1|0.010
92289836|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|26.3||||0.004|TWO_SIDED|95.0|9.2|43.5|||Cochran-Mantel-Haenszel|||Week 20||43.5|9.2|0.004
92289837|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|36.7|||<|0.001|TWO_SIDED|95.0|20.1|53.3|||Cochran-Mantel-Haenszel|||Week 20||53.3|20.1|<0.001
92289838|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|24.5||||0.007|TWO_SIDED|95.0|7.6|41.4|||Cochran-Mantel-Haenszel|||Week 20||41.4|7.6|0.007
92289839|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|20.9||||0.022|TWO_SIDED|95.0|3.6|38.1|||Cochran-Mantel-Haenszel|||Week 24||38.1|3.6|0.022
92289840|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|24.3||||0.007|TWO_SIDED|95.0|7.4|41.3|||Cochran-Mantel-Haenszel|||Week 24||41.3|7.4|0.007
92289841|NCT03100344|184484108|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.05|TWO_SIDED|95.0|0.4|34.4|||Cochran-Mantel-Haenszel|||Week 24||34.4|0.4|0.050
92144003|NCT02962908|184172450|OTHER|inequality test||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IL2 from day 0 to day 180.||||0.48
92144004|NCT02962908|184172450|OTHER|inequality test||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for CD107a from day 0 to day 180.||||0.62
92289842|NCT03100344|184484109|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-14.4||||0.017|TWO_SIDED|95.0|-26.2|-2.7|||Kenward Roger|||||-2.7|-26.2|0.017
92289843|NCT03100344|184484109|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-11.3||||0.058|TWO_SIDED|95.0|-23.1|0.4|||Kenward Roger|||||0.4|-23.1|0.058
92289844|NCT03100344|184484109|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-20.0|||<|0.001|TWO_SIDED|95.0|-31.6|-8.3|||Kenward Roger|||||-8.3|-31.6|<0.001
92289845|NCT03100344|184484110|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-9.6||||0.016|TWO_SIDED|95.0|-17.5|-1.8|||Kenward Roger|||||-1.8|-17.5|0.016
92289846|NCT03100344|184484110|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-12.8||||0.001|TWO_SIDED|95.0|-20.6|-5.1|||Kenward Roger|||||-5.1|-20.6|0.001
92289847|NCT03100344|184484110|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-7.6||||0.058|TWO_SIDED|95.0|-15.4|0.3|||Kenward Roger|||||0.3|-15.4|0.058
92289848|NCT03100344|184484111|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-24.5|||<|0.001|TWO_SIDED|95.0|-37.8|-11.2|||Kenward Roger|||||-11.2|-37.8|<0.001
92289849|NCT03100344|184484111|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-31.7|||<|0.001|TWO_SIDED|95.0|-44.9|-18.6|||Kenward Roger|||||-18.6|-44.9|<0.001
92184176|NCT00749944|184266957|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.74|||||TWO_SIDED|95.0|-2.81|1.33|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||1.33|-2.81|
92289850|NCT03100344|184484111|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-25.1|||<|0.001|TWO_SIDED|95.0|-38.4|-11.8|||Kenward Roger|||||-11.8|-38.4|<0.001
92289851|NCT03100344|184484112|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-2.0|||<|0.001|TWO_SIDED|95.0|-3.1|-1.0|||Kenward Roger|||||-1.0|-3.1|<0.001
92289852|NCT03100344|184484112|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-2.3|||<|0.001|TWO_SIDED|95.0|-3.4|-1.3|||Kenward Roger|||||-1.3|-3.4|<0.001
92289853|NCT03100344|184484112|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-1.9|||<|0.001|TWO_SIDED|95.0|-3.0|-0.9|||Kenward Roger|||||-0.9|-3.0|<0.001
92289854|NCT03100344|184484113|OTHER||Mean Difference (Final Values)|0.1||||0.97|TWO_SIDED|95.0|-4.9|5.1|||Cochran-Mantel-Haenszel|||At week 1||5.1|-4.9|0.970
92289855|NCT03100344|184484113|OTHER||Mean Difference (Final Values)|1.7||||0.574|TWO_SIDED|95.0|-4.1|7.5|||Cochran-Mantel-Haenszel|||At week 1||7.5|-4.1|0.574
92289856|NCT03100344|184484113|OTHER||Mean Difference (Final Values)|-1.8||||0.311|TWO_SIDED|95.0|-5.2|1.7|||Cochran-Mantel-Haenszel|||At week 1||1.7|-5.2|0.311
92289857|NCT03100344|184484113|OTHER||Mean Difference (Final Values)|4.2||||0.598|TWO_SIDED|95.0|-11.3|19.8|||Cochran-Mantel-Haenszel|||At week 24||19.8|-11.3|0.598
92289858|NCT03100344|184484113|OTHER||Mean Difference (Final Values)|15.5||||0.066|TWO_SIDED|95.0|-0.4|31.4|||Cochran-Mantel-Haenszel|||At week 24||31.4|-0.4|0.066
92144005|NCT02962908|184172450|OTHER|inequality||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for CD107a from day 0 to day 180.||||0.23
92144006|NCT02962908|184172451|OTHER|inequality test||||||0.8|||||||Chi-squared|||Comparison of CD4+ IFNgamma responders on day 42. Differences considered significant if p-value \<0.05.||||0.80
92289859|NCT03100344|184484113|OTHER||Mean Difference (Final Values)|1.7||||0.826|TWO_SIDED|95.0|-13.5|16.9|||Cochran-Mantel-Haenszel|||At week 24||16.9|-13.5|0.826
92289860|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.558|TWO_SIDED|95.0|-7.7|4.1|||Cochran-Mantel-Haenszel|||Week 2||4.1|-7.7|0.558
92289861|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.413|TWO_SIDED|95.0|-4.7|11.6|||Cochran-Mantel-Haenszel|||Week 2||11.6|-4.7|0.413
92289862|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.543|TWO_SIDED|95.0|-7.7|4.0|||Cochran-Mantel-Haenszel|||Week 2||4.0|-7.7|0.543
92289863|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.583|TWO_SIDED|95.0|-7.6|4.2|||Cochran-Mantel-Haenszel|||Week 4||4.2|-7.6|0.583
92289864|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.028|TWO_SIDED|95.0|1.8|22.5|||Cochran-Mantel-Haenszel|||Week 4||22.5|1.8|0.028
92289865|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.087|TWO_SIDED|95.0|-0.9|18.3|||Cochran-Mantel-Haenszel|||Week 4||18.3|-0.9|0.087
92289866|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.632|TWO_SIDED|95.0|-5.6|9.4|||Cochran-Mantel-Haenszel|||Week 8||9.4|-5.6|0.632
92144007|NCT02962908|184172451|OTHER|inequality test|||||<|0.001|||||||Fisher Exact|||Comparison of CD4+ IFNgamma responders on day 42. Differences considered significant if p-value \<0.05.||||<0.001
92144008|NCT02962908|184172451|OTHER|inequality test||||||0.23|||||||Chi-squared|||Comparison of CD4+ TNF alpha responders on day 42. Differences considered significant if p-value \<0.05.||||0.23
92289867|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.016|TWO_SIDED|95.0|3.1|24.8|||Cochran-Mantel-Haenszel|||Week 8||24.8|3.1|0.016
92289868|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|15.8||||0.009|TWO_SIDED|95.0|4.5|27.0|||Cochran-Mantel-Haenszel|||Week 8||27.0|4.5|0.009
92289869|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.974|TWO_SIDED|95.0|-11.2|11.6|||Cochran-Mantel-Haenszel|||Week 12||11.6|-11.2|0.974
92289870|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|15.6||||0.031|TWO_SIDED|95.0|1.8|29.3|||Cochran-Mantel-Haenszel|||Week 12||29.3|1.8|0.031
92289871|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|13.9||||0.032|TWO_SIDED|95.0|-0.3|28.2|||Cochran-Mantel-Haenszel|||Week 12||28.2|-0.3|0.032
92289872|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.553|TWO_SIDED|95.0|-9.0|16.9|||Cochran-Mantel-Haenszel|||Week 16||16.9|-9.0|0.553
92289873|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|20.9||||0.008|TWO_SIDED|95.0|6.1|35.8|||Cochran-Mantel-Haenszel|||Week 16||35.8|6.1|0.008
92289874|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|13.9||||0.061|TWO_SIDED|95.0|-0.3|28.2|||Cochran-Mantel-Haenszel|||Week 16||28.2|-0.3|0.061
92289875|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.585|TWO_SIDED|95.0|-10.1|18.0|||Cochran-Mantel-Haenszel|||Week 20||18.0|-10.1|0.585
92289876|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.032|TWO_SIDED|95.0|2.0|32.8|||Cochran-Mantel-Haenszel|||Week 20||32.8|2.0|0.032
92289877|NCT03100344|184484113|SUPERIORITY||Mean Difference (Final Values)|8.6||||0.254|TWO_SIDED|95.0|-5.9|23.1|||Cochran-Mantel-Haenszel|||Week 20||23.1|-5.9|0.254
92289878|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.487|TWO_SIDED|95.0|-6.8|14.3|||Cochran-Mantel-Haenszel|||Week 1||14.3|-6.8|0.487
92289879|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.033|TWO_SIDED|95.0|1.6|26.5|||Cochran-Mantel-Haenszel|||Week 1||26.5|1.6|0.033
92289880|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|12.0||||0.053|TWO_SIDED|95.0|0.2|23.8|||Cochran-Mantel-Haenszel|||Week 1||23.8|0.2|0.053
92289881|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|18.5||||0.021|TWO_SIDED|95.0|3.2|33.8|||Cochran-Mantel-Haenszel|||Week 2||33.8|3.2|0.021
92289882|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.027|TWO_SIDED|95.0|2.4|32.3|||Cochran-Mantel-Haenszel|||Week 2||32.3|2.4|0.027
92289883|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|22.7||||0.006|TWO_SIDED|95.0|7.3|38.1|||Cochran-Mantel-Haenszel|||Week 2||38.1|7.3|0.006
92289884|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|15.2||||0.086|TWO_SIDED|95.0|-1.7|32.2|||Cochran-Mantel-Haenszel|||Week 4||32.2|-1.7|0.086
92289885|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|26.2||||0.004|TWO_SIDED|95.0|9.3|43.1|||Cochran-Mantel-Haenszel|||Week 4||43.1|9.3|0.004
92289886|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|17.3||||0.05|TWO_SIDED|95.0|0.5|34.2|||Cochran-Mantel-Haenszel|||Week 4||34.2|0.5|0.050
92289887|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|20.7||||0.023|TWO_SIDED|95.0|3.3|38.1|||Cochran-Mantel-Haenszel|||Week 8||38.1|3.3|0.023
92289888|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|27.9||||0.002|TWO_SIDED|95.0|10.7|45.0|||Cochran-Mantel-Haenszel|||Week 8||45.0|10.7|0.002
92289889|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|27.9||||0.002|TWO_SIDED|95.0|10.7|45.0|||Cochran-Mantel-Haenszel|||Week 8||45.0|10.7|0.002
92289890|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|19.3||||0.041|TWO_SIDED|95.0|1.3|37.3|||Cochran-Mantel-Haenszel|||Week 12||37.3|1.3|0.041
92289891|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|27.9||||0.003|TWO_SIDED|95.0|10.4|45.4|||Cochran-Mantel-Haenszel|||Week 12||45.4|10.4|0.003
92289892|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|17.3||||0.063|TWO_SIDED|95.0|-0.5|35.2|||Cochran-Mantel-Haenszel|||Week 12||35.2|-0.5|0.063
92144009|NCT02962908|184172451|OTHER|||||||0.056|||||||Chi-squared|||Comparison of CD4+ TNF alpha responders on day 42. Differences considered significant if p-value \<0.05.||||0.056
92289893|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|17.6||||0.064|TWO_SIDED|95.0|-0.4|35.6|||Cochran-Mantel-Haenszel|||Week 16||35.6|-0.4|0.064
92144010|NCT02962908|184172451|OTHER|inequality test||||||0.74|||||||Chi-squared|||Comparison of CD4+ IL-2 responders on day 42. Differences considered significant if p-value \<0.05.||||0.74
92144011|NCT02962908|184172451|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||Comparison of CD4+ IL-2 responders on day 42. Differences considered significant if p-value \<0.05.||||<0.001
92289894|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|22.6||||0.016|TWO_SIDED|95.0|4.9|40.3|||Cochran-Mantel-Haenszel|||Week 16||40.3|4.9|0.016
92289895|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|19.1||||0.041|TWO_SIDED|95.0|1.3|36.9|||Cochran-Mantel-Haenszel|||Week 16||36.9|1.3|0.041
92289896|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|17.6||||0.064|TWO_SIDED|95.0|-0.4|35.6|||Cochran-Mantel-Haenszel|||Week 20||35.6|-0.4|0.064
92289897|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|26.0||||0.005|TWO_SIDED|95.0|8.6|43.4|||Cochran-Mantel-Haenszel|||Week 20||43.4|8.6|0.005
92289898|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|17.2||||0.064|TWO_SIDED|95.0|-0.6|35.0|||Cochran-Mantel-Haenszel|||Week 20||35.0|-0.6|0.064
92289899|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|15.9||||0.094|TWO_SIDED|95.0|-2.0|33.8|||Cochran-Mantel-Haenszel|||Week 24||33.8|-2.0|0.094
92289900|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|22.4||||0.014|TWO_SIDED|95.0|5.1|39.6|||Cochran-Mantel-Haenszel|||Week 24||39.6|5.1|0.014
92289901|NCT03100344|184484114|SUPERIORITY||Mean Difference (Final Values)|10.2||||0.273|TWO_SIDED|95.0|-7.7|28.0|||Cochran-Mantel-Haenszel|||Week 24||28.0|-7.7|0.273
92289902|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.979|TWO_SIDED|95.0|-6.8|7.0|||Cochran-Mantel-Haenszel|||Week 1||7.0|-6.8|0.979
92289903|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.668|TWO_SIDED|95.0|-5.8|9.0|||Cochran-Mantel-Haenszel|||Week 1||9.0|-5.8|0.668
92289904|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.658|TWO_SIDED|95.0|-5.8|9.2|||Cochran-Mantel-Haenszel|||Week 1||9.2|-5.8|0.658
92289905|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.69|TWO_SIDED|95.0|-8.0|12.2|||Cochran-Mantel-Haenszel|||Week 2||12.2|-8.0|0.690
92289906|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.521|TWO_SIDED|95.0|-6.9|13.7|||Cochran-Mantel-Haenszel|||Week 2||13.7|-6.9|0.521
92289907|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.033|TWO_SIDED|95.0|1.5|26.5|||Cochran-Mantel-Haenszel|||Week 2||26.5|1.5|0.033
92289908|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|7.4||||0.172|TWO_SIDED|95.0|-3.1|18.0|||Cochran-Mantel-Haenszel|||Week 4||18.0|-3.1|0.172
92289909|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|15.7||||0.014|TWO_SIDED|95.0|3.7|27.7|||Cochran-Mantel-Haenszel|||Week 4||27.7|3.7|0.014
92289910|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|21.0||||0.002|TWO_SIDED|95.0|8.2|33.9|||Cochran-Mantel-Haenszel|||Week 4||33.9|8.2|0.002
92289911|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.404|TWO_SIDED|95.0|-7.5|18.8|||Cochran-Mantel-Haenszel|||Week 8||18.8|-7.5|0.404
92289912|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|24.5||||0.003|TWO_SIDED|95.0|9.4|39.6|||Cochran-Mantel-Haenszel|||Week 8||39.6|9.4|0.003
92289913|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|14.1||||0.059|TWO_SIDED|95.0|-0.1|28.2|||Cochran-Mantel-Haenszel|||Week 8||28.2|-0.1|0.059
92289914|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|9.7||||0.222|TWO_SIDED|95.0|-5.6|25.0|||Cochran-Mantel-Haenszel|||Week 12||25.0|-5.6|0.222
92289915|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|26.1||||0.003|TWO_SIDED|95.0|10.0|42.3|||Cochran-Mantel-Haenszel|||Week 12||42.3|10.0|0.003
92289916|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|19.1||||0.22|TWO_SIDED|95.0|3.3|35.0|||Cochran-Mantel-Haenszel|||Week 12||35.0|3.3|0.22
92289917|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|13.3||||0.111|TWO_SIDED|95.0|-2.8|29.3|||Cochran-Mantel-Haenszel|||Week 16||29.3|-2.8|0.111
92289918|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|29.6|||<|0.001|TWO_SIDED|95.0|13.2|46.0|||Cochran-Mantel-Haenszel|||Week 16||46.0|13.2|<0.001
92289919|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.04|TWO_SIDED|95.0|1.3|33.6|||Cochran-Mantel-Haenszel|||Week 16||33.6|1.3|0.040
92289920|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|10.1||||0.262|TWO_SIDED|95.0|-7.3|27.4|||Cochran-Mantel-Haenszel|||Week 20||27.4|-7.3|0.262
92289921|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.327|TWO_SIDED|95.0|-8.4|25.7|||Cochran-Mantel-Haenszel|||Week 20||25.7|-8.4|0.327
92289922|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|15.7||||0.083|TWO_SIDED|95.0|-1.7|33.1|||Cochran-Mantel-Haenszel|||Week 20||33.1|-1.7|0.083
92289923|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|10.1||||0.255|TWO_SIDED|95.0|-7.0|27.2|||Cochran-Mantel-Haenszel|||Week 24||27.2|-7.0|0.255
92289924|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|19.0||||0.034|TWO_SIDED|95.0|2.2|35.9|||Cochran-Mantel-Haenszel|||Week 24||35.9|2.2|0.034
92289925|NCT03100344|184484115|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.053|TWO_SIDED|95.0|0.3|34.6|||Cochran-Mantel-Haenszel|||Week 24||34.6|0.3|0.053
92184177|NCT00749944|184266957|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.43|||||TWO_SIDED|95.0|-1.78|0.92|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.92|-1.78|
92184178|NCT00749944|184266958|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.08|||||TWO_SIDED|95.0|-0.04|0.19|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.19|-0.04|
92184179|NCT00749944|184266958|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.01|||||TWO_SIDED|95.0|-0.11|0.08|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.08|-0.11|
92184180|NCT00749944|184266958|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.02|||||TWO_SIDED|95.0|-0.06|0.09|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.09|-0.06|
92184181|NCT00749944|184266958|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.05|||||TWO_SIDED|95.0|-0.11|0.02|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.02|-0.11|
92184182|NCT00749944|184266958|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.14|||||TWO_SIDED|95.0|-0.27|-0.01|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||-0.01|-0.27|
92184183|NCT00749944|184266958|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.1|||||TWO_SIDED|95.0|-0.21|0.01|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.01|-0.21|
92184184|NCT00749944|184266958|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.1|||||TWO_SIDED|95.0|-0.17|-0.03|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||-0.03|-0.17|
92184185|NCT00749944|184266959|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.05|||||TWO_SIDED|95.0|-0.03|0.12|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.12|-0.03|
92184186|NCT00749944|184266959|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.0|||||TWO_SIDED|95.0|-0.08|0.09|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.09|-0.08|
92184187|NCT00749944|184266959|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.03|||||TWO_SIDED|95.0|-0.04|0.11|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.11|-0.04|
92184188|NCT00749944|184266959|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.01|||||TWO_SIDED|95.0|-0.08|0.05|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.05|-0.08|
92289926|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.97|TWO_SIDED|95.0|-4.9|5.1|||Cochran-Mantel-Haenszel|||Week 1||5.1|-4.9|0.970
92289927|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.574|TWO_SIDED|95.0|-4.1|7.5|||Cochran-Mantel-Haenszel|||Week 1||7.5|-4.1|0.574
92289928|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.985|TWO_SIDED|95.0|-4.8|4.8|||Cochran-Mantel-Haenszel|||Week 1||4.8|-4.8|0.985
92289929|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.154|TWO_SIDED|95.0|-8.4|1.2|||Cochran-Mantel-Haenszel|||Week 2||1.2|-8.4|0.154
92289930|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.978|TWO_SIDED|95.0|-6.8|6.6|||Cochran-Mantel-Haenszel|||Week 2||6.6|-6.8|0.978
92289931|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.978|TWO_SIDED|95.0|-6.8|6.6|||Cochran-Mantel-Haenszel|||Week 2||6.6|-6.8|0.978
92289932|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.602|TWO_SIDED|95.0|-7.5|4.3|||Cochran-Mantel-Haenszel|||Week 4||4.3|-7.5|0.602
92289933|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.413|TWO_SIDED|95.0|-4.5|11.4|||Cochran-Mantel-Haenszel|||Week 4||11.4|-4.5|0.413
92289934|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.658|TWO_SIDED|95.0|-5.7|9.1|||Cochran-Mantel-Haenszel|||Week 4||9.1|-5.7|0.658
92289935|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.307|TWO_SIDED|95.0|-3.2|10.3|||Cochran-Mantel-Haenszel|||Week 8||10.3|-3.2|0.307
92289936|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|17.3||||0.002|TWO_SIDED|95.0|6.9|27.8|||Cochran-Mantel-Haenszel|||Week 8||27.8|6.9|0.002
92289937|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.054|TWO_SIDED|95.0|0.1|17.4|||Cochran-Mantel-Haenszel|||Week 8||17.4|0.1|0.054
92289938|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.325|TWO_SIDED|95.0|-5.4|16.5|||Cochran-Mantel-Haenszel|||Week 12||16.5|-5.4|0.325
92289939|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|15.6||||0.019|TWO_SIDED|95.0|3.1|28.1|||Cochran-Mantel-Haenszel|||Week 12||28.1|3.1|0.019
92289940|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|17.5||||0.011|TWO_SIDED|95.0|4.5|30.5|||Cochran-Mantel-Haenszel|||Week 12||30.5|4.5|0.011
92289941|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|9.2||||0.153|TWO_SIDED|95.0|-3.2|21.7|||Cochran-Mantel-Haenszel|||Week 16||21.7|-3.2|0.153
92289942|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|24.4||||0.001|TWO_SIDED|95.0|10.3|38.4|||Cochran-Mantel-Haenszel|||Week 16||38.4|10.3|0.001
92289943|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.069|TWO_SIDED|95.0|-0.7|25.1|||Cochran-Mantel-Haenszel|||Week 16||25.1|-0.7|0.069
92289944|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|12.9||||0.07|TWO_SIDED|95.0|-0.8|26.6|||Cochran-Mantel-Haenszel|||Week 20||26.6|-0.8|0.070
92289945|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|20.9||||0.006|TWO_SIDED|95.0|6.5|35.3|||Cochran-Mantel-Haenszel|||Week 20||35.3|6.5|0.006
92289946|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.052|TWO_SIDED|95.0|0.3|27.7|||Cochran-Mantel-Haenszel|||Week 20||27.7|0.3|0.052
92289947|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|12.8||||0.069|TWO_SIDED|95.0|-0.7|26.3|||Cochran-Mantel-Haenszel|||Week 24||26.3|-0.7|0.069
92289948|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|19.1||||0.011|TWO_SIDED|95.0|4.9|33.3|||Cochran-Mantel-Haenszel|||Week 24||33.3|4.9|0.011
92289949|NCT03100344|184484116|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.083|TWO_SIDED|95.0|-1.3|25.7|||Cochran-Mantel-Haenszel|||Week 24||25.7|-1.3|0.083
92144012|NCT02962908|184172451|OTHER|inequality test||||||0.34|||||||Fisher Exact|||Comparison of CD4+ CD107a responders on day 42. Differences considered significant if p-value \<0.05.||||0.34
92289950|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.97|TWO_SIDED|95.0|-4.9|5.1|||Cochran-Mantel-Haenszel|||Week 1||5.1|-4.9|0.970
92144013|NCT02962908|184172451|OTHER|inequality test||||||0.01|||||||Fisher Exact|||Comparison of CD4+ CD107a responders on day 42. Differences considered significant if p-value \<0.05.||||0.010
92144014|NCT02962908|184172451|OTHER|inequality test||||||0.096|||||||Chi-squared|||Comparison of CD4+ IFNgamma responders on day 180. Differences considered significant if p-value \<0.05.||||0.096
92144015|NCT02962908|184172451|OTHER|inequality test||||||0.049|||||||Fisher Exact|||Comparison of CD4+ IFNgamma responders on day 180.Differences considered significant if p-value \<0.05.||||0.049
92144016|NCT02962908|184172451|OTHER|inequality test||||||0.91|||||||Chi-squared|||Comparison of CD4+ TNF alpha responders on day 180. Differences considered significant if p-value \<0.05.||||0.91
92144017|NCT02962908|184172451|OTHER|||||||0.39|||||||Chi-squared|||Comparison of CD4+ TNF alpha responders on day 180. Differences considered significant if p-value \<0.05.||||0.39
92289951|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.574|TWO_SIDED|95.0|-4.1|7.5|||Cochran-Mantel-Haenszel|||Week 1||7.5|-4.1|0.574
92289952|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.311|TWO_SIDED|95.0|-5.2|1.7|||Cochran-Mantel-Haenszel|||Week 1||1.7|-5.2|0.311
92289953|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.558|TWO_SIDED|95.0|-7.7|4.1|||Cochran-Mantel-Haenszel|||Week 2||4.1|-7.7|0.558
92289954|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.413|TWO_SIDED|95.0|-4.7|11.6|||Cochran-Mantel-Haenszel|||Week 2||11.6|-4.7|0.413
92289955|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.543|TWO_SIDED|95.0|-7.7|4.0|||Cochran-Mantel-Haenszel|||Week 2||4.0|-7.7|0.543
92289956|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.583|TWO_SIDED|95.0|-7.6|4.2|||Cochran-Mantel-Haenszel|||Week 4||4.2|-7.6|0.583
92289957|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.028|TWO_SIDED|95.0|1.8|22.5|||Cochran-Mantel-Haenszel|||Week 4||22.5|1.8|0.028
92289958|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.087|TWO_SIDED|95.0|-0.9|18.3|||Cochran-Mantel-Haenszel|||Week 4||18.3|-0.9|0.087
92289959|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.632|TWO_SIDED|95.0|-5.6|9.4|||Cochran-Mantel-Haenszel|||Week 8||9.4|-5.6|0.632
92289960|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.016|TWO_SIDED|95.0|3.1|24.8|||Cochran-Mantel-Haenszel|||Week 8||24.8|3.1|0.016
92289961|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|15.8||||0.009|TWO_SIDED|95.0|4.5|27.0|||Cochran-Mantel-Haenszel|||Week 8||27.0|4.5|0.009
92289962|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.974|TWO_SIDED|95.0|-11.2|11.6|||Cochran-Mantel-Haenszel|||Week 12||11.6|-11.2|0.974
92289963|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|15.6||||0.031|TWO_SIDED|95.0|1.8|29.3|||Cochran-Mantel-Haenszel|||Week 12||29.3|1.8|0.031
92289964|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|15.6||||0.032|TWO_SIDED|95.0|1.8|29.5|||Cochran-Mantel-Haenszel|||Week 12||29.5|1.8|0.032
92289965|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.553|TWO_SIDED|95.0|-9.0|16.9|||Cochran-Mantel-Haenszel|||Week 16||16.9|-9.0|0.553
92289966|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|20.9||||0.008|TWO_SIDED|95.0|6.1|35.8|||Cochran-Mantel-Haenszel|||Week 16||35.8|6.1|0.008
92289967|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|13.9||||0.061|TWO_SIDED|95.0|-0.3|28.2|||Cochran-Mantel-Haenszel|||Week 16||28.2|-0.3|0.061
92289968|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.585|TWO_SIDED|95.0|-10.1|18.0|||Cochran-Mantel-Haenszel|||Week 20||18.0|-10.1|0.585
92289969|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.032|TWO_SIDED|95.0|2.0|32.8|||Cochran-Mantel-Haenszel|||Week 20||32.8|2.0|0.032
92289970|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|8.6||||0.254|TWO_SIDED|95.0|-5.9|23.1|||Cochran-Mantel-Haenszel|||Week 20||23.1|-5.9|0.254
92289971|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|4.2||||0.598|TWO_SIDED|95.0|-11.3|19.8|||Cochran-Mantel-Haenszel|||Week 24||19.8|-11.3|0.598
92289972|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|15.5||||0.066|TWO_SIDED|95.0|-0.4|31.4|||Cochran-Mantel-Haenszel|||Week 24||31.4|-0.4|0.066
92289973|NCT03100344|184484117|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.826|TWO_SIDED|95.0|-13.5|16.9|||Cochran-Mantel-Haenszel|||Week 24||16.9|-13.5|0.826
92289974|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-10.0||||0.049|TWO_SIDED|95.0|-20.0|0.0|||Kenward-Rogers|||Week 1||0.0|-20.0|0.049
92184189|NCT00749944|184266959|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.08|||||TWO_SIDED|95.0|-0.22|0.06|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.06|-0.22|
92289975|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-16.9|||<|0.001|TWO_SIDED|95.0|-26.7|-7.0|||Kenward Roger|||Week 1||-7.0|-26.7|<0.001
92289976|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-15.7||||0.002|TWO_SIDED|95.0|-25.6|-5.8|||Kenward Roger|||Week 1||-5.8|-25.6|0.002
92289977|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-9.8||||0.084|TWO_SIDED|95.0|-20.9|1.3|||Kenward Roger|||Week 2||1.3|-20.9|0.084
92289978|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-16.2||||0.004|TWO_SIDED|95.0|-27.2|-5.2|||Kenward Roger|||Week 2||-5.2|-27.2|0.004
92289979|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-14.8||||0.008|TWO_SIDED|95.0|-25.8|-3.8|||Kenward Roger|||Week 2||-3.8|-25.8|0.008
92289980|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-14.0||||0.044|TWO_SIDED|95.0|-27.5|-0.4|||Kenward Roger|||Week 4||-0.4|-27.5|0.044
92289981|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-21.1||||0.002|TWO_SIDED|95.0|-34.7|-7.6|||Kenward Roger|||Week 4||-7.6|-34.7|0.002
92289982|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-15.3||||0.026|TWO_SIDED|95.0|-28.8|-1.8|||Kenward Roger|||Week 4||-1.8|-28.8|0.026
92289983|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-14.8||||0.062|TWO_SIDED|95.0|-30.2|0.7|||Kenward Roger|||Week 8||0.7|-30.2|0.062
92289984|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-23.4||||0.003|TWO_SIDED|95.0|-38.9|-7.9|||Kenward Roger|||Week 8||-7.9|-38.9|0.003
92289985|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-20.6||||0.009|TWO_SIDED|95.0|-36.0|-5.2|||Kenward Roger|||Week 8||-5.2|-36.0|0.009
92289986|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-15.9||||0.022|TWO_SIDED|95.0|-29.4|-2.3|||Kenward Roger|||Week 12||-2.3|-29.4|0.022
92289987|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-23.7|||<|0.001|TWO_SIDED|95.0|-37.1|-10.2|||Kenward Roger|||Week 12||-10.2|-37.1|<0.001
92289988|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-14.7||||0.032|TWO_SIDED|95.0|-28.1|-1.3|||Kenward Roger|||Week 12||-1.3|-28.1|0.032
92289989|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-13.7||||0.07|TWO_SIDED|95.0|-28.6|1.1|||Kenward Roger|||Week 16||1.1|-28.6|0.070
92289990|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-23.7||||0.002|TWO_SIDED|95.0|-38.5|-8.9|||Kenward Roger|||Week 16||-8.9|-38.5|0.002
92289991|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-10.7||||0.154|TWO_SIDED|95.0|-25.6|4.1|||Kenward Roger|||Week 16||4.1|-25.6|0.154
92289992|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-12.1||||0.09|TWO_SIDED|95.0|-26.0|1.9|||Kenward Roger|||Week 20||1.9|-26.0|0.090
92289993|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-15.9||||0.024|TWO_SIDED|95.0|-29.7|-2.1|||Kenward Roger|||Week 20||-2.1|-29.7|0.024
92289994|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-9.5||||0.18|TWO_SIDED|95.0|-23.4|4.4|||Kenward Roger|||Week 20||4.4|-23.4|0.180
92289995|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-13.6||||0.051|TWO_SIDED|95.0|-27.3|0.0|||Kenward Roger|||Week 24||0.0|-27.3|0.051
92289996|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-16.7||||0.016|TWO_SIDED|95.0|-30.2|-3.2|||Kenward Roger|||Week 24||-3.2|-30.2|0.016
92289997|NCT03100344|184484118|SUPERIORITY||mean difference of percentage changes|-6.8||||0.322|TWO_SIDED|95.0|-20.5|6.8|||Kenward Roger|||Week 24||6.8|-20.5|0.322
92289998|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-10.9||||0.012|TWO_SIDED|95.0|-19.4|-2.4|||Kenward Roger|||Week 1||-2.4|-19.4|0.012
92289999|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-15.4|||<|0.001|TWO_SIDED|95.0|-23.8|-7.1|||Kenward Roger|||Week 1||-7.1|-23.8|<0.001
92290000|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-9.4||||0.029|TWO_SIDED|95.0|-17.8|-0.9|||Kenward Roger|||Week 1||-0.9|-17.8|0.029
92290001|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-21.8|||<|0.001|TWO_SIDED|95.0|-32.0|-11.6|||Kenward Roger|||Week 2||-11.6|-32.0|<0.001
92290002|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-29.1|||<|0.001|TWO_SIDED|95.0|-39.1|-19.1|||Kenward Roger|||Week 2||-19.1|-39.1|<0.001
92290003|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-23.8|||<|0.001|TWO_SIDED|95.0|-34.0|-13.6|||Kenward Roger|||Week 2||-13.6|-34.0|<0.001
92290004|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-21.3|||<|0.001|TWO_SIDED|95.0|-32.1|-10.5|||Kenward Roger|||Week 4||-10.5|-32.1|<0.001
92290005|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-34.8|||<|0.001|TWO_SIDED|95.0|-45.5|-24.2|||Kenward Roger|||Week 4||-24.2|-45.5|<0.001
92290006|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-30.7|||<|0.001|TWO_SIDED|95.0|-41.6|-19.9|||Kenward Roger|||Week 4||-19.9|-41.6|<0.001
92290007|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-22.9|||<|0.001|TWO_SIDED|95.0|-33.2|-12.6|||Kenward Roger|||Week 8||-12.6|-33.2|<0.001
92290008|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-37.3|||<|0.001|TWO_SIDED|95.0|-47.4|-27.2|||Kenward Roger|||Week 8||-27.2|-47.4|<0.001
92290009|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-34.1|||<|0.001|TWO_SIDED|95.0|-44.4|-23.8|||Kenward Roger|||Week 8||-23.8|-44.4|<0.001
92290010|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-24.1|||<|0.001|TWO_SIDED|95.0|-35.6|-12.5|||Kenward Roger|||Week 12||-12.5|-35.6|<0.001
92290011|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-38.4|||<|0.001|TWO_SIDED|95.0|-49.7|-27.2|||Kenward Roger|||Week 12||-27.2|-49.7|<0.001
92290012|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-30.2|||<|0.001|TWO_SIDED|95.0|-41.7|-18.7|||Kenward Roger|||Week 12||-18.7|-41.7|<0.001
92290013|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-20.9|||<|0.001|TWO_SIDED|95.0|-32.8|-8.9|||Kenward Roger|||Week 16||-8.9|-32.8|<0.001
92290014|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-34.3|||<|0.001|TWO_SIDED|95.0|-46.0|-22.6|||Kenward Roger|||Week 16||-22.6|-46.0|<0.001
92290015|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-28.7|||<|0.001|TWO_SIDED|95.0|-40.7|-16.8|||Kenward Roger|||Week 16||-16.8|-40.7|<0.001
92290016|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-21.1||||0.001|TWO_SIDED|95.0|-33.7|-8.4|||Kenward Roger|||Week 20||-8.4|-33.7|0.001
92290017|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-29.7|||<|0.001|TWO_SIDED|95.0|-42.1|-17.3|||Kenward Roger|||Week 20||-17.3|-42.1|<0.001
92290018|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-27.9|||<|0.001|TWO_SIDED|95.0|-40.6|-15.2|||Kenward Roger|||Week 20||-15.2|-40.6|<0.001
92290019|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-22.4||||0.002|TWO_SIDED|95.0|-36.1|-8.6|||Kenward Roger|||Week 24||-8.6|-36.1|0.002
92290020|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-31.5|||<|0.001|TWO_SIDED|95.0|-44.9|-18.0|||Kenward Roger|||Week 24||-18.0|-44.9|<0.001
92290021|NCT03100344|184484119|SUPERIORITY||mean difference of percentage changes|-30.0|||<|0.001|TWO_SIDED|95.0|-43.8|-16.2|||Kenward Roger|||Week 24||-16.2|-43.8|<0.001
92290022|NCT03100344|184484121|SUPERIORITY||Mean Difference (Final Values)|-2.0|||<|0.001|TWO_SIDED|95.0|-3.0|-1.0|||Kenward Roger|||Week 24||-1.0|-3.0|<0.001
92290023|NCT03100344|184484121|SUPERIORITY||Mean Difference (Final Values)|-2.8|||<|0.001|TWO_SIDED|95.0|-3.8|-1.8|||Kenward Roger|||Week 24||-1.8|-3.8|<0.001
92290024|NCT03100344|184484121|SUPERIORITY||Mean Difference (Final Values)|-2.3|||<|0.001|TWO_SIDED|95.0|-3.3|-1.3|||Kenward Roger|||Week 24||-1.3|-3.3|<0.001
92290025|NCT03100344|184484122|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-3.0|-0.9|||Kenward Roger|||Week 24||-0.9|-3.0|<0.001
92290026|NCT03100344|184484122|SUPERIORITY||Mean Difference (Final Values)|-2.6|||<|0.001|TWO_SIDED|95.0|-3.6|-1.6|||Kenward Roger|||Week 24||-1.6|-3.6|<0.001
92290027|NCT03100344|184484122|SUPERIORITY||Mean Difference (Final Values)|-2.1|||<|0.001|TWO_SIDED|95.0|-3.1|-1.1|||Kenward Roger|||Week 24||-1.1|-3.1|<0.001
92290028|NCT03100344|184484123|SUPERIORITY||mean difference of percentage changes|-23.8|||<|0.001|TWO_SIDED|95.0|-37.7|-9.9|||Kenward Roger|||Week 24||-9.9|-37.7|<0.001
92290029|NCT03100344|184484123|SUPERIORITY||mean difference of percentage changes|-31.4|||<|0.001|TWO_SIDED|95.0|-45.0|-17.7|||Kenward Roger|||Week 24||-17.7|-45.0|<0.001
92290030|NCT03100344|184484123|SUPERIORITY||mean difference of percentage changes|-29.2|||<|0.001|TWO_SIDED|95.0|-43.2|-15.2|||Kenward Roger|||Week 24||-15.2|-43.2|<0.001
92290031|NCT04406194|184484175|EQUIVALENCE|0.80-1.25 margins for equivalence|Mean Ratio|0.9684||||0|TWO_SIDED|90.0|0.94|0.9977|||ANOVA|||||0.9977|0.9400|0.0000
92290032|NCT04406194|184484176|EQUIVALENCE|0.80 - 1.25 equivalence margin is required.|Mean Ratio|1.0555||||0.0155|TWO_SIDED|90.0|0.9292|1.1989|||ANOVA|||||1.1989|0.9292|0.0155
92290033|NCT04406194|184484177|EQUIVALENCE|0.80 - 1.25 equivalence margin is not required.|Mean Ratio|0.9719||||0|TWO_SIDED|90.0|0.944|1.0006|||ANOVA|||||1.0006|0.9440|0.0000
92290034|NCT02888756|184484180|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||Analyzed for week 6, to provide statistical information for decision on execution of intracellular cytokine staining (ICS).||||0.14
92290035|NCT00928057|184484191|NON_INFERIORITY_OR_EQUIVALENCE|"To conclude equivalence for glycemic control, the average absolute percent change in fructosamine and 95% confidence interval had to be within 20%.~80 subjects were required to be in each insulin dose group (40 per PN arm) to provide 90% power for an equivalence with alpha=0.05."||||||0.506||||||The threshold for statistical significance, or alpha, is 0.05.|ANOVA|The ANOVA model has effects for subject, insulin dose group, investigator site and order of pen needle use.||"The effects of pen needle type on glycemic control were tested for statistical significance using analysis of variance (ANOVA). The ANOVA model was used to calculate the absolute percent (%)change in fructosamine (% \|∆ Fru\|), with 95 % confidence intervals."||||0.506
92290036|NCT00928057|184484191|NON_INFERIORITY_OR_EQUIVALENCE|"To conclude equivalence for glycemic control, the average absolute percent change in fructosamine and 95% confidence interval had to be within 20%.~80 subjects were required to be in each insulin dose group (40 per PN arm) to provide 90% power for an equivalence with alpha=0.05."||||||0.878||||||The threshold for significance, or alpha, is 0.05.|ANOVA|The ANOVA model has effects for subject, insulin dose group, investigator site and order of pen needle use.||"The effects of pen needle type on glycemic control were tested for statistical significance using ANOVA. The ANOVA model was used to calculate the % \|∆ Fru\|, with 95% confidence intervals."||||0.878
92290037|NCT00928057|184484196|SUPERIORITY_OR_OTHER|||||||0.019||||||The threshold for statistical significance, or alpha, is 0.05.|t-test, 1 sided|||The null hypothesis is that the pain from the 4mm is the same or greater than the pain for the reference. The alternative hypothesis is that the pain from the 4mm is less than the pain for the reference.||||0.019
92290038|NCT00928057|184484196|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||As described for the 4 vs. 5mm statistical analysis.||||<0.001
92290039|NCT03206749|184484198|SUPERIORITY||Least Squares (LS) Mean Difference|29.5|||<|0.0001|TWO_SIDED|95.0|16.61|42.4|||ANCOVA|||||42.40|16.61|<0.0001
92290040|NCT03206749|184484199|SUPERIORITY||LS Mean Difference|28.53|||<|0.0001|TWO_SIDED|95.0|16.18|40.88|||ANCOVA|||||40.88|16.18|<0.0001
92290041|NCT03206749|184484200|SUPERIORITY||LS Mean Difference|62.79|||<|0.0001|TWO_SIDED|95.0|36.3|89.27|||ANCOVA|||||89.27|36.30|<0.0001
92290042|NCT03206749|184484201|SUPERIORITY||Hazard Ratio (HR)|1.47||||0.0469|TWO_SIDED|95.0|1.01|2.16|||Regression, Cox|||||2.16|1.01|0.0469
92290043|NCT03206749|184484202|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.3294|TWO_SIDED|95.0|0.79|2.0|||Regression, Cox|||||2.00|0.79|0.3294
92290044|NCT03206749|184484203|SUPERIORITY|||||||0.2341|||||||Regression, Cox|||||||0.2341
92290045|NCT03206749|184484204|SUPERIORITY|||||||0.3358||||||0 - 24 hours|Cochran-Mantel-Haenszel|||||||0.3358
92290046|NCT03206749|184484204|SUPERIORITY|||||||0.0849||||||Greater than (\>) 24 - 48 hours|Cochran-Mantel-Haenszel|||||||0.0849
92290047|NCT03206749|184484205|SUPERIORITY|||||||0.0004||||||0 - 24 hours|Wilcoxon rank-sum test|||||||0.0004
92290048|NCT03206749|184484205|SUPERIORITY|||||||0.0035||||||\>24 - 48 hours|Wilcoxon rank-sum test|||||||0.0035
92290049|NCT03214588|184484228|SUPERIORITY||Least Squares Mean Difference|-0.00054|STANDARD_ERROR_OF_MEAN|0.000746|>|0.999|TWO_SIDED|90.0|-0.00179|0.0007||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.00070|-0.00179|>0.999
92290050|NCT03214588|184484228|SUPERIORITY||Least Squares Mean Difference|-0.00069|STANDARD_ERROR_OF_MEAN|0.000616|>|0.999|TWO_SIDED|90.0|-0.00172|0.00033||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.00033|-0.00172|>0.999
92290051|NCT03214588|184484229|SUPERIORITY||Least Squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.782||0.135|TWO_SIDED|90.0|-2.18|0.44||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||0.44|-2.18|0.135
92290052|NCT03214588|184484229|SUPERIORITY||Least Squares Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.64||0.818|TWO_SIDED|90.0|-0.48|1.66||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||1.66|-0.48|0.818
92290053|NCT03214588|184484229|SUPERIORITY||Least Squares Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.77||0.591|TWO_SIDED|90.0|-1.11|1.47||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||1.47|-1.11|0.591
92290054|NCT03214588|184484229|SUPERIORITY||Least Squares Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.643||0.713|TWO_SIDED|90.0|-0.71|1.44||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||1.44|-0.71|0.713
92290055|NCT03214588|184484229|SUPERIORITY||Least Squares Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.822||0.616|TWO_SIDED|90.0|-1.13|1.62||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||1.62|-1.13|0.616
92290056|NCT03214588|184484229|SUPERIORITY||Least Squares Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.679||0.708|TWO_SIDED|90.0|-0.76|1.51||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||1.51|-0.76|0.708
92290057|NCT03214588|184484230|SUPERIORITY||Least Squares Mean Difference|-0.00039|STANDARD_ERROR_OF_MEAN|0.000604||0.741|TWO_SIDED|90.0|-0.0014|0.00062||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||0.00062|-0.00140|0.741
92290058|NCT03214588|184484230|SUPERIORITY||Least Squares Mean Difference|-0.00093|STANDARD_ERROR_OF_MEAN|0.000505||0.964|TWO_SIDED|90.0|-0.00177|-0.00008||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||-0.00008|-0.00177|0.964
92290059|NCT03214588|184484230|SUPERIORITY||Least Squares Mean Difference|-0.00014|STANDARD_ERROR_OF_MEAN|0.000772||0.573|TWO_SIDED|90.0|-0.00143|0.00115||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.00115|-0.00143|0.573
92290060|NCT03214588|184484230|SUPERIORITY||Least Squares Mean Difference|-0.00044|STANDARD_ERROR_OF_MEAN|0.000646||0.749|TWO_SIDED|90.0|-0.00152|0.00064||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.00064|-0.00152|0.749
92290061|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.154||0.571|TWO_SIDED|90.0|-0.23|0.29||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Cutting-Handling Utensils||0.29|-0.23|0.571
92290062|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.126||0.963|TWO_SIDED|90.0|0.02|0.44||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Cutting-Handling Utensils||0.44|0.02|0.963
92290063|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.165||0.515|TWO_SIDED|90.0|-0.27|0.28||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Cutting-Handling Utensils||0.28|-0.27|0.515
92144018|NCT02962908|184172451|OTHER|inequality test||||||0.94|||||||Chi-squared|||Comparison of CD4+ IL-2 responders on day 180. Differences considered significant if p-value \<0.05.||||0.94
92144019|NCT02962908|184172451|OTHER|inequality test|||||<|0.001|||||||Fisher Exact|||Comparison of CD4+ IL-2 responders on day 180. Differences considered significant if p-value \<0.05.||||<0.001
92144020|NCT02962908|184172451|OTHER|inequality test||||||0.044|||||||Fisher Exact|||Comparison of CD4+ CD107a responders on day 180. Differences considered significant if p-value \<0.05.||||0.044
92144021|NCT02962908|184172451|OTHER|inequality test||||||0.98|||||||Fisher Exact|||Comparison of CD4+ CD107a responders on day 180. Differences considered significant if p-value \<0.05.||||0.98
92144022|NCT02962908|184172451|OTHER|inequality test||||||0.48|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IFN-gamma responders on day 42. Differences considered significant if p-value \<0.05.||||0.48
92144023|NCT02962908|184172451|OTHER|inequality test||||||0.28|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IFN-gamma responders on day 42. Differences considered significant if p-value \<0.05.||||0.28
92144024|NCT02962908|184172451|OTHER|inequality test||||||0.7|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ TNF-alpha responders on day 42. Differences considered significant if p-value \<0.05.||||0.70
92290064|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.138||0.986|TWO_SIDED|90.0|0.08|0.54||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Cutting-Handling Utensils||0.54|0.08|0.986
92290065|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.162||0.718|TWO_SIDED|90.0|-0.18|0.37||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Cutting-Handling Utensils||0.37|-0.18|0.718
92290066|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.133||0.986|TWO_SIDED|90.0|0.08|0.52||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Cutting-Handling Utensils||0.52|0.08|0.986
92290067|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.148||0.153|TWO_SIDED|90.0|-0.4|0.09||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Dressing||0.09|-0.40|0.153
92290068|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.119||0.861|TWO_SIDED|90.0|-0.07|0.33||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Dressing||0.33|-0.07|0.861
92290069|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.12||0.443|TWO_SIDED|90.0|-0.22|0.18||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Dressing||0.18|-0.22|0.443
92290070|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.1||0.359|TWO_SIDED|90.0|-0.2|0.13||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Dressing||0.13|-0.20|0.359
92290071|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.157||0.268|TWO_SIDED|90.0|-0.36|0.17||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Dressing||0.17|-0.36|0.268
92290072|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.129||0.411|TWO_SIDED|90.0|-0.24|0.19||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Dressing||0.19|-0.24|0.411
92290073|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.151||0.358|TWO_SIDED|90.0|-0.31|0.2||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Personal Hygiene||0.20|-0.31|0.358
92290074|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.123||0.946|TWO_SIDED|90.0|0.0|0.41||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Personal Hygiene||0.41|0.00|0.946
92290075|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.193||0.505|TWO_SIDED|90.0|-0.32|0.33||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Personal Hygiene||0.33|-0.32|0.505
92290076|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.158||0.658|TWO_SIDED|90.0|-0.2|0.33||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Personal Hygiene||0.33|-0.20|0.658
92290077|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.184||0.649|TWO_SIDED|90.0|-0.24|0.38||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Personal Hygiene||0.38|-0.24|0.649
92144025|NCT02962908|184172451|OTHER|inequality test||||||0.175|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ TNF-alpha responders on day 42. Differences considered significant if p-value \<0.05.||||0.175
92290078|NCT03214588|184484231|SUPERIORITY||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.151||0.661|TWO_SIDED|90.0|-0.19|0.32||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Personal Hygiene||0.32|-0.19|0.661
92290079|NCT03214588|184484232|SUPERIORITY||Least Squares Mean Difference|2.67|STANDARD_ERROR_OF_MEAN|1.078||0.992|TWO_SIDED|90.0|0.86|4.47||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||4.47|0.86|0.992
92290080|NCT03214588|184484232|SUPERIORITY||Least Squares Mean Difference|2.78|STANDARD_ERROR_OF_MEAN|0.892||0.999|TWO_SIDED|90.0|1.29|4.28||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||4.28|1.29|0.999
92290081|NCT03214588|184484232|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.338||0.616|TWO_SIDED|90.0|-1.84|2.64||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||2.64|-1.84|0.616
92290082|NCT03214588|184484232|SUPERIORITY||Least Squares Mean Difference|1.06|STANDARD_ERROR_OF_MEAN|1.131||0.823|TWO_SIDED|90.0|-0.83|2.95||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||2.95|-0.83|0.823
92290083|NCT03214588|184484232|SUPERIORITY||Least Squares Mean Difference|2.02|STANDARD_ERROR_OF_MEAN|1.266||0.942|TWO_SIDED|90.0|-0.1|4.13||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||4.13|-0.10|0.942
92290084|NCT03214588|184484232|SUPERIORITY||Least Squares Mean Difference|2.11|STANDARD_ERROR_OF_MEAN|1.053||0.975|TWO_SIDED|90.0|0.35|3.87||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||3.87|0.35|0.975
92290085|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|90.0|-0.15|0.29||||||Change at Week 2, Bulbar||0.29|-0.15|
92144026|NCT02962908|184172451|OTHER|inequality test||||||0.24|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IL2 responders on day 42. Differences considered significant if p-value \<0.05.||||0.24
92290086|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.12|0.25||||||Change at Week 2, Bulbar||0.25|-0.12|
92290087|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|90.0|-0.3|0.11||||||Change at Week 7, Bulbar||0.11|-0.30|
92290088|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|90.0|-0.02|0.33||||||Change at Week 7, Bulbar||0.33|-0.02|
92290089|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|90.0|-0.19|0.28||||||Change at Week 12, Bulbar||0.28|-0.19|
92290090|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.118|||TWO_SIDED|90.0|0.0|0.4||||||Change at Week 12, Bulbar||0.40|0.00|
92290091|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|1.99|STANDARD_ERROR_OF_MEAN|0.689|||TWO_SIDED|90.0|0.83|3.14||||||Change at Week 2, Upper Limb Coordination||3.14|0.83|
92290092|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|1.02|STANDARD_ERROR_OF_MEAN|0.571|||TWO_SIDED|90.0|0.06|1.97||||||Change at Week 2, Upper Limb Coordination||1.97|0.06|
92290093|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|1.08|STANDARD_ERROR_OF_MEAN|0.882|||TWO_SIDED|90.0|-0.4|2.55||||||Change at Week 7, Upper Limb Coordination||2.55|-0.40|
92290094|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.743|||TWO_SIDED|90.0|-1.06|1.43||||||Change at Week 7, Upper Limb Coordination||1.43|-1.06|
92290095|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|1.21|STANDARD_ERROR_OF_MEAN|1.016|||TWO_SIDED|90.0|-0.48|2.91||||||Change at Week 12, Upper Limb Coordination||2.91|-0.48|
92184190|NCT00749944|184266959|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.03|||||TWO_SIDED|95.0|-0.14|0.09|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.09|-0.14|
92290096|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|90.0|-0.87|1.94||||||Change at Week 12, Upper Limb Coordination||1.94|-0.87|
92290097|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.482|||TWO_SIDED|90.0|-0.41|1.2||||||Change at Week 2, Lower Limb Coordination||1.20|-0.41|
92290098|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.79|STANDARD_ERROR_OF_MEAN|0.397|||TWO_SIDED|90.0|0.12|1.45||||||Change at Week 2, Lower Limb Coordination||1.45|0.12|
92290099|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.837|||TWO_SIDED|90.0|-1.44|1.36||||||Change at Week 7, Lower Limb Coordination||1.36|-1.44|
92144027|NCT02962908|184172451|OTHER|inequality test||||||0.8|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IL2 responders on day 42. Differences considered significant if p-value \<0.05.||||0.80
92144028|NCT02962908|184172451|OTHER|inequality test||||||0.023|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ CD107a responders on day 42. Differences considered significant if p-value \<0.05.||||0.023
92144029|NCT02962908|184172451|OTHER|inequality test||||||0.015|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ CD107a responders on day 42. Differences considered significant if p-value \<0.05.||||0.015
92144030|NCT02962908|184172451|OTHER|inequality test||||||0.81|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IFN-gamma responders on day 180. Differences considered significant if p-value \<0.05.||||0.81
92144031|NCT02962908|184172451|OTHER|inequality test||||||0.34|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IFN-gamma responders on day 180. Differences considered significant if p-value \<0.05.||||0.34
92290100|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.707|||TWO_SIDED|90.0|-1.01|1.36||||||Change at Week 7, Lower Limb Coordination||1.36|-1.01|
92290101|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.99|STANDARD_ERROR_OF_MEAN|0.755|||TWO_SIDED|90.0|-0.27|2.25||||||Change at Week 12, Lower Limb Coordination||2.25|-0.27|
92184191|NCT00749944|184266959|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.05|||||TWO_SIDED|95.0|-0.11|0.02|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.02|-0.11|
92184192|NCT00749944|184266960|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.06|||||TWO_SIDED|95.0|-0.2|0.09|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.09|-0.20|
92184193|NCT00749944|184266960|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.02|||||TWO_SIDED|95.0|-0.15|0.12|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.12|-0.15|
92184194|NCT00749944|184266960|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.05|||||TWO_SIDED|95.0|-0.15|0.04|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.04|-0.15|
92184195|NCT00749944|184266960|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.08|||||TWO_SIDED|95.0|-0.2|0.04|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.04|-0.20|
92184196|NCT00749944|184266960|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.05|||||TWO_SIDED|95.0|-0.17|0.27|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.27|-0.17|
92184197|NCT00749944|184266960|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.05|||||TWO_SIDED|95.0|-0.21|0.1|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.10|-0.21|
92184198|NCT00749944|184266960|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.05|||||TWO_SIDED|95.0|-0.17|0.07|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.07|-0.17|
92184199|NCT00749944|184266961|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.3|||||TWO_SIDED|95.0|-0.58|-0.02|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||-0.02|-0.58|
92184200|NCT00749944|184266961|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.44|||||TWO_SIDED|95.0|-0.69|-0.19|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||-0.19|-0.69|
92184201|NCT00749944|184266961|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.14|||||TWO_SIDED|95.0|-0.47|0.2|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.20|-0.47|
92184202|NCT00749944|184266961|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.35|||||TWO_SIDED|95.0|-0.61|-0.09|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||-0.09|-0.61|
92184203|NCT00749944|184266961|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.45|||||TWO_SIDED|95.0|-0.83|-0.07|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||-0.07|-0.83|
92184204|NCT00749944|184266961|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.08|||||TWO_SIDED|95.0|-0.5|0.34|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.34|-0.50|
92290102|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.95|STANDARD_ERROR_OF_MEAN|0.626|||TWO_SIDED|90.0|-0.09|2.0||||||Change at Week 12, Lower Limb Coordination||2.00|-0.09|
92290103|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|90.0|-0.8|1.3||||||Change at Week 2, Upright Stability||1.3|-0.8|
92290104|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|90.0|0.1|1.9||||||Change at Week 2, Upright Stability||1.9|0.1|
92290105|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-1.3|0.2||||||Change at Week 7, Upright Stability||0.2|-1.3|
92290106|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|90.0|0.0|1.2||||||Change at Week 7, Upright Stability||1.2|0.0|
92184205|NCT00749944|184266961|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.27|||||TWO_SIDED|95.0|-0.57|0.02|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.02|-0.57|
92184206|NCT00749944|184266962|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.02|||||TWO_SIDED|95.0|-0.12|0.08|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.08|-0.12|
92184207|NCT00749944|184266962|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.02|||||TWO_SIDED|95.0|-0.12|0.08|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.08|-0.12|
92184208|NCT00749944|184266962|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.05|||||TWO_SIDED|95.0|-0.04|0.14|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.14|-0.04|
92290107|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|90.0|-1.2|0.7||||||Change at Week 12, Upright Stability||0.7|-1.2|
92290108|NCT03214588|184484233|SUPERIORITY||Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|90.0|-0.3|1.3||||||Change at Week 12, Upright Stability||1.3|-0.3|
92290109|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.084|||TWO_SIDED|90.0|-0.13|0.15||||||Change at Week 2, Cough||0.15|-0.13|
92144032|NCT02962908|184172451|OTHER|inequality test||||||0.3|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ TNF-alpha responders on day 180. Differences considered significant if p-value \<0.05.||||0.30
92144033|NCT02962908|184172451|OTHER|inequality test||||||0.105|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ TNF-alpha responders on day 180. Differences considered significant if p-value \<0.05.||||0.105
92144034|NCT02962908|184172451|OTHER|inequality test||||||0.38|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IL2 responders on day 180. Differences considered significant if p-value \<0.05.||||0.38
92144035|NCT02962908|184172451|OTHER|inequality test||||||0.44|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IL2 responders on day 180. Differences considered significant if p-value \<0.05.||||0.44
92144036|NCT02962908|184172451|OTHER|inequality test||||||0.58|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ CD107a responders on day 180. Differences considered significant if p-value \<0.05.||||0.58
92144037|NCT02962908|184172451|OTHER|inequality test||||||0.43|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ CD107a responders on day 180. Differences considered significant if p-value \<0.05.||||0.43
92144038|NCT02962908|184172452|OTHER|inequality test||||||0.25|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IFN-gamma at day 42||||0.25
92144039|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing TNF-alpha at day 42||||1.0
92144040|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IL-2 at day 42||||1.00
92144041|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing CD107a at day 42||||1.00
92144042|NCT02962908|184172452|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IFN-gamma at day 42||||<0.001
92144043|NCT02962908|184172452|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing TNF-alpha at day 42||||<0.001
92144044|NCT02962908|184172452|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IL2 at day 42||||<0.001
92144045|NCT02962908|184172452|OTHER|inequality test||||||0.31|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing CD107a at day 42||||0.31
92144046|NCT02962908|184172452|OTHER|inequality test||||||0.48|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IFN-gamma at day 180||||0.48
92144047|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing TNF-alpha at day 180||||1.00
92144048|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IL2 at day 180||||1.00
92144049|NCT02962908|184172452|OTHER|inequality test||||||0.59|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing CD107a at day 180||||0.59
92144050|NCT02962908|184172452|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IFN-gamma at day 180||||<0.001
92144051|NCT02962908|184172452|OTHER|inequality test||||||0.013|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing TNF-alpha at day 180||||0.013
92144052|NCT02962908|184172452|OTHER|inequality|||||<|0.001|||||||Chi-squared|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IL2 at day 180||||<0.001
92144053|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing CD107a at day 180||||1.00
92144054|NCT02962908|184172452|OTHER|inequality test||||||0.55|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing IFN-gamma at day 42||||0.55
92144055|NCT02962908|184172452|OTHER|inequality test||||||0.55|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing IFN-gamma at day 42||||0.55
92144056|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing TNF-alpha at day 42||||1.00
92144057|NCT02962908|184172452|OTHER|inequality test||||||0.29|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing IFN-gamma at day 180||||0.29
92144058|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing TNF-alpha at day 180||||1.00
92144059|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing IFN-gamma at day 180||||1.00
92144060|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing TNF-alpha at day 180||||1.00
92144061|NCT02962908|184172452|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing CD107a at day 180||||1.00
92144062|NCT02962908|184172453|OTHER|inequality test||||||0.59|||||||Wilcoxon (Mann-Whitney)|||Comparison of median fold-increase in IFN-gamma secretion as measured by ELISA on day 42. p\<0.05 considered statistically significant.||||0.59
92144063|NCT02962908|184172453|OTHER|inequality test||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of median fold-increase in IFN-gamma secretion as measured by ELISA on day 42. p\<0.05 considered statistically significant.||||0.001
92144064|NCT02962908|184172453|OTHER|inequality test||||||0.61|||||||Wilcoxon (Mann-Whitney)|||Comparison of median fold-increase in IFN-gamma secretion as measured by ELISA on day 180. p\<0.05 considered statistically significant.||||0.61
92144065|NCT02962908|184172453|OTHER|inequality test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of median fold-increase in IFN-gamma secretion as measured by ELISA on day 180. p\<0.05 considered statistically significant.||||<0.001
92144066|NCT02962908|184172454|OTHER|||||||0.113|||||||Wilcoxon (Mann-Whitney)|||"Comparison of number of responders on day 42. A subject was considered a responder if an increase of secreted IFNgamma of at least two fold was observed from day 0 to day 42."||||0.113
92290110|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.069|||TWO_SIDED|90.0|-0.11|0.12||||||Change at Week 2, Cough||0.12|-0.11|
92290111|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.105|||TWO_SIDED|90.0|-0.24|0.11||||||Change at Week 7, Cough||0.11|-0.24|
92290112|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.088|||TWO_SIDED|90.0|-0.05|0.25||||||Change at Week 7, Cough||0.25|-0.05|
92290113|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.106|||TWO_SIDED|90.0|-0.11|0.25||||||Change at Week 12, Cough||0.25|-0.11|
92290114|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.087|||TWO_SIDED|90.0|-0.03|0.26||||||Change at Week 12, Cough||0.26|-0.03|
92290115|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|-0.09|0.25||||||Change at Week 2, Speech||0.25|-0.09|
92290116|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.083|||TWO_SIDED|90.0|-0.04|0.24||||||Change at Week 2, Speech||0.24|-0.04|
92290117|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.071|||TWO_SIDED|90.0|-0.16|0.08||||||Change at Week 7, Speech||0.08|-0.16|
92290118|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|90.0|-0.03|0.17||||||Change at Week 7, Speech||0.17|-0.03|
92290119|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.095|||TWO_SIDED|90.0|-0.16|0.16||||||Change at Week 12, Speech||0.16|-0.16|
92290120|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.079|||TWO_SIDED|90.0|-0.04|0.22||||||Change at Week 12, Speech||0.22|-0.04|
92290121|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.131|||TWO_SIDED|90.0|-0.14|0.29||||||Change at Week 2, Right Finger to Finger Test||0.29|-0.14|
92290122|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.108|||TWO_SIDED|90.0|-0.22|0.14||||||Change at Week 2, Right Finger to Finger Test||0.14|-0.22|
92290123|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|90.0|-0.13|0.28||||||Change at Week 7, Right Finger to Finger Test||0.28|-0.13|
92290124|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.103|||TWO_SIDED|90.0|-0.24|0.11||||||Change at Week 7, Right Finger to Finger Test||0.11|-0.24|
92290125|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.126|||TWO_SIDED|90.0|-0.3|0.12||||||Change at Week 12, Right Finger to Finger Test||0.12|-0.30|
92290126|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|90.0|-0.32|0.03||||||Change at Week 12, Right Finger to Finger Test||0.03|-0.32|
92144067|NCT02962908|184172454|OTHER||||||<|0.001|||||||Fisher Exact|||"Comparison of number of responders on day 42. A subject was considered a responder if an increase of secreted IFNgamma of at least two fold was observed from day 0 to day 42."||||<0.001
92290127|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.142|||TWO_SIDED|90.0|-0.15|0.33||||||Change at Week 2, Left Finger to Finger Test||0.33|-0.15|
92290128|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|90.0|-0.16|0.23||||||Change at Week 2, Left Finger to Finger Test||0.23|-0.16|
92290129|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.123|||TWO_SIDED|90.0|-0.18|0.23||||||Change at Week 7, Left Finger to Finger Test||0.23|-0.18|
92290130|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|90.0|-0.15|0.2||||||Change at Week 7, Left Finger to Finger Test||0.20|-0.15|
92290131|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.158|||TWO_SIDED|90.0|-0.17|0.36||||||Change at Week 12, Left Finger to Finger Test||0.36|-0.17|
92290132|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.3|0.13||||||Change at Week 12, Left Finger to Finger Test||0.13|-0.30|
92290133|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|90.0|0.04|0.53||||||Change at Week 2, Right Nose to Finger Test||0.53|0.04|
92290134|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.118|||TWO_SIDED|90.0|-0.06|0.33||||||Change at Week 2, Right Nose to Finger Test||0.33|-0.06|
92290135|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.174|||TWO_SIDED|90.0|-0.22|0.37||||||Change at Week 7, Right Nose to Finger Test||0.37|-0.22|
92290136|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.146|||TWO_SIDED|90.0|-0.32|0.16||||||Change at Week 7, Right Nose to Finger Test||0.16|-0.32|
92290137|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.166|||TWO_SIDED|90.0|-0.43|0.12||||||Change at Week 12, Right Nose to Finger Test||0.12|-0.43|
92290138|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.136|||TWO_SIDED|90.0|-0.23|0.23||||||Change at Week 12, Right Nose to Finger Test||0.23|-0.23|
92290139|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|90.0|-0.14|0.4||||||Change at Week 2, Left Nose to Finger Test||0.40|-0.14|
92290140|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|90.0|-0.12|0.33||||||Change at Week 2, Left Nose to Finger Test||0.33|-0.12|
92290141|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.157|||TWO_SIDED|90.0|-0.09|0.43||||||Change at Week 7, Left Nose to Finger Test||0.43|-0.09|
92290142|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.134|||TWO_SIDED|90.0|-0.36|0.09||||||Change at Week 7, Left Nose to Finger Test||0.09|-0.36|
92290143|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.169|||TWO_SIDED|90.0|-0.29|0.27||||||Change at Week 12, Left Nose to Finger Test||0.27|-0.29|
92290144|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|90.0|-0.21|0.27||||||Change at Week 12, Left Nose to Finger Test||0.27|-0.21|
92290145|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.176|||TWO_SIDED|90.0|-0.33|0.26||||||Change at Week 2, Right Dysmetria Test||0.26|-0.33|
92290146|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|90.0|-0.12|0.36||||||Change at Week 2, Right Dysmetria Test||0.36|-0.12|
92144068|NCT02962908|184172454|OTHER|||||||0.399|||||||Chi-squared|||"Comparison of number of responders on day 180. A subject was considered a responder if an increase of secreted IFNgamma of at least two fold was observed from day 0 to day 180."||||0.399
92184209|NCT00749944|184266962|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.01|||||TWO_SIDED|95.0|-0.07|0.04|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.04|-0.07|
92184210|NCT00749944|184266962|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.01|||||TWO_SIDED|95.0|-0.15|0.13|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.13|-0.15|
92184211|NCT00749944|184266962|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.06|||||TWO_SIDED|95.0|0.01|0.1|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.10|0.01|
92184212|NCT00749944|184266962|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.02|||||TWO_SIDED|95.0|-0.08|0.04|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.04|-0.08|
92290147|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.217|||TWO_SIDED|90.0|-0.25|0.48||||||Change at Week 7, Right Dysmetria Test||0.48|-0.25|
92144069|NCT02962908|184172454|OTHER||||||<|0.001|||||||Fisher Exact|||"Comparison of number of responders on day 180. A subject was considered a responder if an increase of secreted IFNgamma of at least two fold was observed from day 0 to day 180."||||<0.001
92144070|NCT02962908|184172456|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of geometric mean IgG titers specific to FLU-v antigens on day 42 post-vaccination.||||<0.001
92144071|NCT02962908|184172456|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of geometric mean IgG titers specific to FLU-v antigens on day 42.||||<0.001
92144072|NCT02962908|184172456|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of geometric mean IgG titers specific to FLU-v antigens on day 180.||||<0.001
92144073|NCT02962908|184172456|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of geometric mean IgG titers specific to FLU-v antigens on day 180.||||<0.001
92184213|NCT00749944|184266963|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.12|||||TWO_SIDED|95.0|-0.05|0.28|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.28|-0.05|
92184214|NCT00749944|184266963|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.02|||||TWO_SIDED|95.0|-0.19|0.14|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.14|-0.19|
92184215|NCT00749944|184266963|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.04|||||TWO_SIDED|95.0|-0.29|0.22|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.22|-0.29|
92144074|NCT02962908|184172459|OTHER|||||||0.662|||||||Fisher Exact|||Differences in the infection rates against any of the strains tested between treatment group and corresponding placebo.||||0.662
92144075|NCT02962908|184172459|OTHER|||||||0.168|||||||Fisher Exact|||Differences in the infection rates against any of the strains tested between treatment group and corresponding placebo.||||0.168
92144076|NCT02962908|184172460|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)||||The study was not powered to detected statistical significant differences in this outcome.|||>0.05
92144077|NCT02962908|184172460|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)||||Study not powered to detect statistically significant differences|||>0.05
92144078|NCT02962908|184172461|OTHER|||||||0.513|||||||Wilcoxon (Mann-Whitney)|||Comparison in the duration of symptoms between treatment group and corresponding placebo.||||0.513
92144079|NCT02962908|184172461|OTHER|||||||0.578|||||||Wilcoxon (Mann-Whitney)|||Comparison of the duration of symptoms between treatment group and corresponding placebo.||||0.578
92144080|NCT02962908|184172461|OTHER|||||||0.513|||||||Wilcoxon (Mann-Whitney)|||Comparison of total symptom score between treatment group and corresponding placebo.||||0.513
92144081|NCT02962908|184172461|OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Comparison of the total symptom score between treatment group and corresponding placebo.||||0.200
92144082|NCT02962908|184172461|OTHER|||||||0.658|||||||Wilcoxon (Mann-Whitney)|||Comparison of the symptom peak between treatment group and corresponding placebo.||||0.658
92144083|NCT02962908|184172461|OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Comparison of the symptom peak between treatment group and corresponding placebo.||||0.640
92144084|NCT02962908|184172461|OTHER|||||||0.127|||||||Wilcoxon (Mann-Whitney)|||Comparison of the average symptom score between treatment group and corresponding placebo.||||0.127
92144085|NCT02962908|184172461|OTHER|||||||0.201|||||||Wilcoxon (Mann-Whitney)|||Comparison of the average symptom score between treatment group and corresponding placebo.||||0.201
92184216|NCT00749944|184266963|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.04|||||TWO_SIDED|95.0|-0.2|0.13|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.13|-0.20|
92184217|NCT00749944|184266963|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.19|||||TWO_SIDED|95.0|-0.4|0.01|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.01|-0.40|
92290148|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.183|||TWO_SIDED|90.0|-0.14|0.47||||||Change at Week 7, Right Dysmetria Test||0.47|-0.14|
92290149|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.221|||TWO_SIDED|90.0|-0.26|0.48||||||Change at Week 12, Right Dysmetria Test||0.48|-0.26|
92290150|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.183|||TWO_SIDED|90.0|-0.36|0.25||||||Change at Week 12, Right Dysmetria Test||0.25|-0.36|
92290151|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.185|||TWO_SIDED|90.0|-0.02|0.6||||||Change at Week 2, Left Dysmetria Test||0.60|-0.02|
92290152|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.153|||TWO_SIDED|90.0|-0.1|0.41||||||Change at Week 2, Left Dysmetria Test||0.41|-0.10|
92290153|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.228|||TWO_SIDED|90.0|-0.63|0.13||||||Change at Week 7, Left Dysmetria Test||0.13|-0.63|
92290154|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.192|||TWO_SIDED|90.0|-0.47|0.18||||||Change at Week 7, Left Dysmetria Test||0.18|-0.47|
92290155|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.254|||TWO_SIDED|90.0|-0.37|0.48||||||Change at Week 12, Left Dysmetria Test||0.48|-0.37|
92290156|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|90.0|-0.11|0.58||||||Change at Week 12, Left Dysmetria Test||0.58|-0.11|
92290157|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.06|0.51||||||Change at Week 2, RAM of Right Hands||0.51|-0.06|
92290158|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|90.0|-0.12|0.35||||||Change at Week 2, RAM of Right Hands||0.35|-0.12|
92290159|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.204|||TWO_SIDED|90.0|-0.41|0.28||||||Change at Week 7, RAM of Right Hands||0.28|-0.41|
92290160|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.172|||TWO_SIDED|90.0|-0.29|0.29||||||Change at Week 7, RAM of Right Hands||0.29|-0.29|
92290161|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.187|||TWO_SIDED|90.0|-0.12|0.51||||||Change at Week 12, RAM of Right Hands||0.51|-0.12|
92290162|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.156|||TWO_SIDED|90.0|-0.31|0.21||||||Change at Week 12, RAM of Right Hands||0.21|-0.31|
92290163|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|90.0|-0.15|0.32||||||Change at Week 2, RAM of Left Hands||0.32|-0.15|
92290164|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|90.0|-0.12|0.27||||||Change at Week 2, RAM of Left Hands||0.27|-0.12|
92290165|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|90.0|-0.27|0.43||||||Change at Week 7, RAM of Left Hands||0.43|-0.27|
92290166|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.176|||TWO_SIDED|90.0|-0.17|0.42||||||Change at Week 7, RAM of Left Hands||0.42|-0.17|
92290167|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|90.0|0.04|0.58||||||Change at Week 12, RAM of Left Hand||0.58|0.04|
92290168|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|90.0|-0.01|0.43||||||Change at Week 12, RAM of Left Hand||0.43|-0.01|
92144086|NCT02962908|184172462|OTHER|inequality test||||||0.85|||||||Chi-squared|||comparison between groups on day 42||||0.85
92144087|NCT02962908|184172462|OTHER|inequality test||||||0.042|||||||Fisher Exact|||comparison between groups on day 42||||0.042
92144088|NCT02962908|184172462|OTHER|inequality test||||||0.69|||||||Fisher Exact|||comparison between groups on day 180||||0.69
92144089|NCT02962908|184172462|OTHER|inequality test||||||0.198|||||||Fisher Exact|||comparison between groups on day 180||||0.198
92290169|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.201|||TWO_SIDED|90.0|0.1|0.77||||||Change at Week 2, Right Finger Taps||0.77|0.10|
92290170|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|90.0|-0.12|0.44||||||Change at Week 2, Right Finger Taps||0.44|-0.12|
92290171|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.227|||TWO_SIDED|90.0|-0.16|0.6||||||Change at Week 7, Right Finger Taps||0.60|-0.16|
92290172|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.193|||TWO_SIDED|90.0|-0.33|0.31||||||Change at Week 7, Right Finger Taps||0.31|-0.33|
92290173|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.233|||TWO_SIDED|90.0|-0.22|0.56||||||Change at Week 12, Right Finger Taps||0.56|-0.22|
92290174|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.194|||TWO_SIDED|90.0|-0.39|0.26||||||Change at Week 12, Right Finger Taps||0.26|-0.39|
92290175|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.223|||TWO_SIDED|90.0|0.12|0.87||||||Change at Week 2, Left Finger Taps||0.87|0.12|
92290176|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.183|||TWO_SIDED|90.0|-0.25|0.36||||||Change at Week 2, Left Finger Taps||0.36|-0.25|
92290177|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.218|||TWO_SIDED|90.0|0.22|0.95||||||Change at Week 7, Left Finger Taps||0.95|0.22|
92290178|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.184|||TWO_SIDED|90.0|-0.15|0.47||||||Change at Week 7, Left Finger Taps||0.47|-0.15|
92290179|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.57|STANDARD_ERROR_OF_MEAN|0.272|||TWO_SIDED|90.0|0.11|1.02||||||Change at Week 12, Left Finger Taps||1.02|0.11|
92290180|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.224|||TWO_SIDED|90.0|-0.04|0.71||||||Change at Week 12, Left Finger Taps||0.71|-0.04|
92290181|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.193|||TWO_SIDED|90.0|-0.12|0.53||||||Change at Week 2, Right Heel Along Shin Slide||0.53|-0.12|
92290182|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|90.0|-0.26|0.27||||||Change at Week 2, Right Heel Along Shin Slide||0.27|-0.26|
92290183|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.251|||TWO_SIDED|90.0|-0.56|0.28||||||Change at Week 7, Right Heel Along Shin Slide||0.28|-0.56|
92290184|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.214|||TWO_SIDED|90.0|-0.53|0.19||||||Change at Week 7, Right Heel Along Shin Slide||0.19|-0.53|
92290185|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-0.12|0.78||||||Change at Week 12,Right Heel Along Shin Slide||0.78|-0.12|
92290186|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.226|||TWO_SIDED|90.0|-0.25|0.51||||||Change at Week 12,Right Heel Along Shin Slide||0.51|-0.25|
92290187|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.205|||TWO_SIDED|90.0|-0.51|0.18||||||Change at Week 2, Left Heel Along Shin Slide||0.18|-0.51|
92290188|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.166|||TWO_SIDED|90.0|-0.25|0.31||||||Change at Week 2, Left Heel Along Shin Slide||0.31|-0.25|
92290189|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.224|||TWO_SIDED|90.0|-0.68|0.07||||||Change at Week 7, Left Heel Along Shin Slide||0.07|-0.68|
92290190|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.188|||TWO_SIDED|90.0|-0.48|0.15||||||Change at Week 7, Left Heel Along Shin Slide||0.15|-0.48|
92290191|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.254|||TWO_SIDED|90.0|-0.45|0.4||||||Change at Week 12, Left Heel Along Shin Slide||0.40|-0.45|
92290192|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|90.0|-0.34|0.36||||||Change at Week 12, Left Heel Along Shin Slide||0.36|-0.34|
92290193|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.187|||TWO_SIDED|90.0|-0.1|0.53||||||Change at Week 2, Right Heel Along Shin Tap||0.53|-0.10|
92290194|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.155|||TWO_SIDED|90.0|0.17|0.69||||||Change at Week 2, Right Heel Along Shin Tap||0.69|0.17|
92290195|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.272|||TWO_SIDED|90.0|-0.72|0.19||||||Change at Week 7, Right Heel Along Shin Tap||0.19|-0.72|
92290196|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.231|||TWO_SIDED|90.0|-0.38|0.39||||||Change at Week 7, Right Heel Along Shin Tap||0.39|-0.38|
92290197|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.222|||TWO_SIDED|90.0|-0.23|0.51||||||Change at Week 12, Right Heel Along Shin Tap||0.51|-0.23|
92290198|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.186|||TWO_SIDED|90.0|0.02|0.64||||||Change at Week 12, Right Heel Along Shin Tap||0.64|0.02|
92290199|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.199|||TWO_SIDED|90.0|-0.17|0.5||||||Change at Week 2, Left Heel Along Shin Tap||0.50|-0.17|
92290200|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.164|||TWO_SIDED|90.0|0.06|0.61||||||Change at Week 2, Left Heel Along Shin Tap||0.61|0.06|
92290201|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.277|||TWO_SIDED|90.0|-0.09|0.84||||||Change at Week 7, Left Heel Along Shin Tap||0.84|-0.09|
92290202|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.234|||TWO_SIDED|90.0|-0.19|0.6||||||Change at Week 7, Left Heel Along Shin Tap||0.60|-0.19|
92290203|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.303|||TWO_SIDED|90.0|-0.2|0.82||||||Change at Week 12, Left Heel Along Shin Tap||0.82|-0.20|
92290204|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.17|0.67||||||Change at Week 12, Left Heel Along Shin Tap||0.67|-0.17|
92290205|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.1|0.5||||||Change at Week 2, Siting Posture||0.5|-0.1|
92290206|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.1|0.4||||||Change at Week 2, Siting Posture||0.4|-0.1|
92290207|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.4|0.2||||||Change at Week 7, Siting Posture||0.2|-0.4|
92290208|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.0|0.5||||||Change at Week 7, Siting Posture||0.5|0.0|
92290209|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.5|0.2||||||Change at Week 12, Siting Posture||0.2|-0.5|
92290210|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|90.0|-0.2|0.3||||||Change at Week 12, Siting Posture||0.3|-0.2|
92290211|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.4|0.4||||||Change at Week 2, SFA - TTA||0.4|-0.4|
92290212|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.3|0.3||||||Change at Week 2, SFA - TTA||0.3|-0.3|
92290213|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.4|0.2||||||Change at Week 7, SFA - TTA||0.2|-0.4|
92290214|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.5|0.1||||||Change at Week 7, SFA - TTA||0.1|-0.5|
92290215|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|-0.3|0.4||||||Change at Week 12, SFA - TTA||0.4|-0.3|
92144090|NCT02962908|184172462|OTHER|inequality test||||||0.092|||||||Chi-squared|||comparison between groups on day 42||||0.092
92144091|NCT02962908|184172462|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||comparison of groups on day 42||||<0.001
92290216|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.2|0.4||||||Change at Week 12, SFA - TTA||0.4|-0.2|
92290217|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.1|0.3||||||Change at Week 2, SFA (Eyes Closed) - TTA||0.3|-0.1|
92290218|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 2, SFA (Eyes Closed) - TTA||0.1|-0.2|
92290219|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.4|0.2||||||Change at Week 7, SFA (Eyes Closed) - TTA||0.2|-0.4|
92290220|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|90.0|-0.4|0.1||||||Change at Week 7, SFA (Eyes Closed) - TTA||0.1|-0.4|
92290221|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.3|0.4||||||Change at Week 12, SFA (Eyes Closed) - TTA||0.4|-0.3|
92290222|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.5|0.1||||||Change at Week 12, SFA (Eyes Closed) - TTA||0.1|-0.5|
92290223|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.8|0.2||||||Change at Week 2, SFT - TTA||0.2|-0.8|
92290224|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|0.0|0.8||||||Change at Week 2, SFT - TTA||0.8|0.0|
92290225|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.3|0.4||||||Change at Week 7, SFT - TTA||0.4|-0.3|
92290226|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.2|0.7||||||Change at Week 7, SFT - TTA||0.7|0.2|
92290227|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.5|0.2||||||Change at Week 12, SFT - TTA||0.2|-0.5|
92290228|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|0.0|0.7||||||Change at Week 12, SFT - TTA||0.7|0.0|
92290229|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 2, SFT (Eyes Closed) - TTA||0.1|-0.2|
92290230|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 2, SFT (Eyes Closed) - TTA||0.1|-0.2|
92290231|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.2|0.2||||||Change at Week 7, SFT (Eyes Closed) - TTA||0.2|-0.2|
92290232|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.1|0.2||||||Change at Week 7, SFT (Eyes Closed) - TTA||0.2|-0.1|
92290233|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.2|0.2||||||Change at Week 12, SFT (Eyes Closed) - TTA||0.2|-0.2|
92144092|NCT02962908|184172462|OTHER|inequality test||||||0.27|||||||Chi-squared|||comparison of groups on day 180||||0.27
92184218|NCT00749944|184266963|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.16|||||TWO_SIDED|95.0|-0.42|0.1|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.10|-0.42|
92184219|NCT00749944|184266963|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.07|||||TWO_SIDED|95.0|-0.22|8.0|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||008|-0.22|
92290234|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.3|0.0||||||Change at Week 12, SFT (Eyes Closed) - TTA||0.0|-0.3|
92290235|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 2, Tandem Stance - TTA||0.1|-0.2|
92290236|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.1|0.1||||||Change at Week 2, Tandem Stance - TTA||0.1|-0.1|
92290237|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.0||||||Change at Week 7, Tandem Stance - TTA||0.0|-0.2|
92144093|NCT02962908|184172462|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||comparisons between groups on day 180||||<0.001
92144094|NCT01962493|184172482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.155||0.1313|TWO_SIDED|95.0|-0.51|0.1||Analysis based on square root transformation. Results back transformed for interpretation.|ANCOVA|Results were obtained from ANCOVA model with Site, Treatment, Treatment X Site, Smoking Status as fixed effects and baseline MLSI as a covariate.|Difference is first named treatment minus second named treatment. A negative difference favors the first named treatment|Null hypothesis stated that there was no difference between treatment groups||0.10|-0.51|0.1313
92184220|NCT00749944|184266964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.6|3.3|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.3|0.6|
92184221|NCT00749944|184266964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.4|1.7|||||Cochran-Mantel-Haenszel|Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.7|0.4|
92290238|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.1|0.2||||||Change at Week 7, Tandem Stance - TTA||0.2|-0.1|
92290239|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 12, Tandem Stance - TTA||0.1|-0.2|
92290240|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.1|0.2||||||Change at Week 12, Tandem Stance - TTA||0.2|-0.1|
92290241|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|90.0|-0.1|0.1||||||Change at Week 2, Tandem Walk||0.1|-0.1|
92290242|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.1|0.1||||||Change at Week 2, Tandem Walk||0.1|-0.1|
92290243|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 7, Tandem Walk||0.1|-0.2|
92290244|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.1|0.1||||||Change at Week 7, Tandem Walk||0.1|-0.1|
92290245|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|-0.3|0.0||||||Change at Week 12, Tandem Walk||0.0|-0.3|
92290246|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 12, Tandem Walk||0.1|-0.2|
92290247|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.2|0.4||||||Change at Week 2, Gait||0.4|-0.2|
92290248|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.1|0.7||||||Change at Week 2, Gait||0.7|0.1|
92290249|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.4|0.2||||||Change at Week 7, Gait||0.2|-0.4|
92290250|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.1|0.6||||||Change at Week 7, Gait||0.6|0.1|
92290251|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.4|0.2||||||Change at Week 12, Gait||0.2|-0.4|
92290252|NCT03214588|184484234|SUPERIORITY||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|90.0|0.0|0.5||||||Change at Week 12, Gait||0.5|0.0|
92290253|NCT03214588|184484235|SUPERIORITY||Least Squares Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.889||0.599|TWO_SIDED|90.0|-1.31|1.76||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||1.76|-1.31|0.599
92184222|NCT00749944|184266964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.4|2.1|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.1|0.4|
92184223|NCT00749944|184266964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.4|2.2|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.2|0.4|
92184224|NCT00749944|184266964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.3|1.4|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.4|0.3|
92184225|NCT00749944|184266964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.3|1.4|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.4|0.3|
92290254|NCT03214588|184484235|SUPERIORITY||Least Squares Mean Difference|1.34|STANDARD_ERROR_OF_MEAN|0.625||0.978|TWO_SIDED|90.0|0.26|2.42||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||2.42|0.26|0.978
92290255|NCT03214588|184484235|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|1.14||0.533|TWO_SIDED|90.0|-1.87|2.06||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||2.06|-1.87|0.533
92290256|NCT03214588|184484235|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.886||0.37|TWO_SIDED|90.0|-1.83|1.23||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||1.23|-1.83|0.370
92290257|NCT03214588|184484235|SUPERIORITY||Least Squares Mean Difference|2.18|STANDARD_ERROR_OF_MEAN|1.078||0.972|TWO_SIDED|90.0|0.32|4.04||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||4.04|0.32|0.972
92290258|NCT03214588|184484235|SUPERIORITY||Least Squares Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|0.819||0.825|TWO_SIDED|90.0|-0.63|2.19||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||2.19|-0.63|0.825
92290259|NCT03214588|184484236|SUPERIORITY||Least Squares Mean Difference|0.045|STANDARD_ERROR_OF_MEAN|0.23858||0.426|TWO_SIDED|90.0|-0.3665|0.4565||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||0.4565|-0.3665|0.426
92184226|NCT00749944|184266964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.3|1.4|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.4|0.3|
92290260|NCT03214588|184484236|SUPERIORITY||Least Squares Mean Difference|-0.3281|STANDARD_ERROR_OF_MEAN|0.15794||0.975|TWO_SIDED|90.0|-0.6005|-0.0557||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||-0.0557|-0.6005|0.975
92290261|NCT03214588|184484236|SUPERIORITY||Least Squares Mean Difference|0.1448|STANDARD_ERROR_OF_MEAN|0.31186||0.324|TWO_SIDED|90.0|-0.3931|0.6826||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.6826|-0.3931|0.324
92290262|NCT03214588|184484236|SUPERIORITY||Least Squares Mean Difference|0.0113|STANDARD_ERROR_OF_MEAN|0.23213||0.481|TWO_SIDED|90.0|-0.3891|0.4117||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.4117|-0.3891|0.481
92290263|NCT03214588|184484236|SUPERIORITY||Least Squares Mean Difference|-0.2067|STANDARD_ERROR_OF_MEAN|0.28088||0.765|TWO_SIDED|90.0|-0.6911|0.2778||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.2778|-0.6911|0.765
92290264|NCT03214588|184484236|SUPERIORITY||Least Squares Mean Difference|0.1173|STANDARD_ERROR_OF_MEAN|0.19778||0.28|TWO_SIDED|90.0|-0.2238|0.4585||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.4585|-0.2238|0.280
92290265|NCT03214588|184484237|SUPERIORITY||Least Squares Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|4.28||0.735|TWO_SIDED|90.0|-9.9|4.4||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||4.4|-9.9|0.735
92290266|NCT03214588|184484237|SUPERIORITY||Least Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|3.51||0.182|TWO_SIDED|90.0|-2.7|9.1||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||9.1|-2.7|0.182
92290267|NCT03214588|184484237|SUPERIORITY||Least Squares Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|3.59||0.97|TWO_SIDED|90.0|-12.9|-0.9||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||-0.9|-12.9|0.970
92184227|NCT00749944|184266965|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5|||||TWO_SIDED|95.0|0.6|10.4|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||10.4|0.6|
92184228|NCT00749944|184266965|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0|||||TWO_SIDED|95.0|0.7|11.8|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||11.8|0.7|
92184229|NCT00749944|184266965|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.5|3.9|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.9|0.5|
92290268|NCT03214588|184484237|SUPERIORITY||Least Squares Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|3.0||0.321|TWO_SIDED|90.0|-3.6|6.4||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||6.4|-3.6|0.321
92290269|NCT03214588|184484237|SUPERIORITY||Least Squares Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|4.34||0.905|TWO_SIDED|90.0|-13.0|1.5||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||1.5|-13.0|0.905
92290270|NCT03214588|184484237|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|3.57||0.199|TWO_SIDED|90.0|-2.9|9.0||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||9.0|-2.9|0.199
92290271|NCT03214588|184484238|SUPERIORITY|||||||0.974||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.974
92290272|NCT03214588|184484238|SUPERIORITY|||||||0.893||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.893
92290273|NCT03214588|184484238|SUPERIORITY|||||||0.954||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.954
92144095|NCT01951625|184172490|OTHER||Log-Scale mean difference|-0.122|||=|0.1506|TWO_SIDED|90.0|-0.32|0.07|||t-test, 1 sided|||For the primary analysis, the three highest active treatment groups (BAY1021189 2.5mg, BAY1021189 2.5 to 5mg, BAY1021189 2.5 to 10mg) were pooled and compared to the assigned placebo treatment group with a one-sided two-sample t-test at the significance level of 5 percent (%). Results are reported including 90% confidence intervals (CI) for the difference of means. The difference between the pooled treatment group and the placebo group is difference of means on the log scale.||0.07|-0.32|= 0.1506
92290274|NCT03214588|184484238|SUPERIORITY|||||||0.793||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.793
92290275|NCT03214588|184484238|SUPERIORITY|||||||0.845||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.845
92290276|NCT03214588|184484238|SUPERIORITY|||||||0.816||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.816
92290277|NCT03214588|184484239|SUPERIORITY|||||||0.84||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.840
92290278|NCT03214588|184484239|SUPERIORITY|||||||0.854||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.854
92290279|NCT03214588|184484239|SUPERIORITY|||||||0.922||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.922
92290280|NCT03214588|184484239|SUPERIORITY|||||||0.794||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.794
92290281|NCT03214588|184484239|SUPERIORITY|||||||0.83||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.830
92290282|NCT03214588|184484239|SUPERIORITY|||||||0.998||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.998
92290283|NCT03214588|184484240|SUPERIORITY|||||||0.987||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.987
92290284|NCT03214588|184484240|SUPERIORITY|||||||0.771||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.771
92290285|NCT03214588|184484240|SUPERIORITY|||||||0.526||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.526
92290286|NCT03214588|184484240|SUPERIORITY|||||||0.665||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.665
92290287|NCT03214588|184484240|SUPERIORITY|||||||0.576||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.576
92290288|NCT03214588|184484240|SUPERIORITY|||||||0.865||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.865
92290289|NCT03214588|184484241|SUPERIORITY|||||||0.966||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.966
92290290|NCT03214588|184484241|SUPERIORITY|||||||0.983||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.983
92290291|NCT03214588|184484241|SUPERIORITY|||||||0.953||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.953
92290292|NCT03214588|184484241|SUPERIORITY|||||||0.781||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.781
92290293|NCT03214588|184484241|SUPERIORITY|||||||0.948||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.948
92290294|NCT03214588|184484241|SUPERIORITY|||||||0.998||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.998
92184230|NCT00749944|184266965|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|0.4|7.8|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||7.8|0.4|
92290295|NCT03214588|184484242|SUPERIORITY|||||||0.666||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.666
92290296|NCT03214588|184484242|SUPERIORITY|||||||0.812||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.812
92290297|NCT03214588|184484242|SUPERIORITY|||||||0.834||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.834
92290298|NCT03214588|184484242|SUPERIORITY|||||||0.841||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.841
92290299|NCT03214588|184484242|SUPERIORITY|||||||0.893||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.893
92290300|NCT03214588|184484242|SUPERIORITY|||||||0.907||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.907
92290301|NCT03214588|184484243|SUPERIORITY|||||||0.032||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.032
92290302|NCT03214588|184484243|SUPERIORITY|||||||0.216||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.216
92290303|NCT03214588|184484243|SUPERIORITY|||||||0.215||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.215
92290304|NCT03214588|184484243|SUPERIORITY|||||||0.411||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.411
92290305|NCT03214588|184484243|SUPERIORITY|||||||0.194||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.194
92290306|NCT03214588|184484243|SUPERIORITY|||||||0.408||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.408
92290307|NCT03214588|184484244|SUPERIORITY|||||||0.406||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.406
92290308|NCT03214588|184484244|SUPERIORITY|||||||0.235||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.235
92290309|NCT03214588|184484244|SUPERIORITY|||||||0.225||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.225
92290310|NCT03214588|184484244|SUPERIORITY|||||||0.434||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.434
92290311|NCT03214588|184484244|SUPERIORITY|||||||0.249||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.249
92290312|NCT03214588|184484244|SUPERIORITY|||||||0.38||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.380
92290313|NCT03214588|184484245|SUPERIORITY|||||||0.422||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.422
92290314|NCT03214588|184484245|SUPERIORITY|||||||0.226||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.226
92184231|NCT00749944|184266965|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2|||||TWO_SIDED|95.0|0.5|9.2|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||9.2|0.5|
92290315|NCT03214588|184484245|SUPERIORITY|||||||0.639||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.639
92290316|NCT03214588|184484245|SUPERIORITY|||||||0.094||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.094
92290317|NCT03214588|184484245|SUPERIORITY|||||||0.516||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.516
92290318|NCT03214588|184484245|SUPERIORITY|||||||0.266||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.266
92290319|NCT03214588|184484246|SUPERIORITY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.362||0.299|TWO_SIDED|90.0|-0.8|0.41||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||0.41|-0.80|0.299
92290320|NCT03214588|184484246|SUPERIORITY||Least Squares Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.293||0.967|TWO_SIDED|90.0|0.06|1.04||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||1.04|0.06|0.967
92290321|NCT03214588|184484246|SUPERIORITY||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.338||0.529|TWO_SIDED|90.0|-0.54|0.59||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.59|-0.54|0.529
92144096|NCT01951625|184172490|OTHER||Log-Scale mean difference|-0.2494|||=|0.0483|TWO_SIDED|90.0|-0.5|0.0|||t-test, 1 sided|||In case of a significant result in the primary analysis of the primary endpoint, pairwise comparisons to Placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In case of non-significance of the primary analyses, these secondary analyses were specified as exploratory only, since the primary analyses were not significant.||0|-0.5|= 0.0483
92144097|NCT01951625|184172490|OTHER||Log-Scale mean difference|-0.0731|||=|0.3042|TWO_SIDED|90.0|-0.31|0.16|||t-test, 1 sided|||In case of a significant result in the primary analysis of the primary endpoint, pairwise comparisons to Placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In case of non-significance of the primary analyses, these secondary analyses were specified as exploratory only, since the primary analyses were not significant.||0.16|-0.31|= 0.3042
92266230|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.124|TWO_SIDED|95.0|-0.14|1.13|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.13|-0.14|0.124
92266231|NCT01945034|184433686|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.687|TWO_SIDED|95.0|-0.61|0.92|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.92|-0.61|0.687
92266232|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0||||0.166|TWO_SIDED|95.0|-0.85|4.95|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||4.95|-0.85|0.166
92266233|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7||||0.199|TWO_SIDED|95.0|-4.42|0.93|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.93|-4.42|0.199
92266234|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8||||0.022|TWO_SIDED|95.0|-7.04|-0.56|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.56|-7.04|0.022
92266235|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.26|TWO_SIDED|95.0|-1.3|4.79|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||4.79|-1.30|0.260
92266236|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.729|TWO_SIDED|95.0|-3.31|2.32|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||2.32|-3.31|0.729
92266237|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.2||||0.196|TWO_SIDED|95.0|-5.64|1.16|||ANOVA|||Weight Bearing over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||1.16|-5.64|0.196
92266238|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|24.9||||0.03|TWO_SIDED|95.0|2.49|47.28|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||47.28|2.49|0.030
92266239|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.2||||0.018|TWO_SIDED|95.0|-55.24|-5.23|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||-5.23|-55.24|0.018
92266240|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3||||0.611|TWO_SIDED|95.0|-25.98|15.29|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||15.29|-25.98|0.611
92266241|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|13.8||||0.251|TWO_SIDED|95.0|-9.8|37.36|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||37.36|-9.80|0.251
92266242|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|4.4||||0.689|TWO_SIDED|95.0|-17.37|26.26|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||26.26|-17.37|0.689
92266243|NCT01945034|184433687|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.3||||0.486|TWO_SIDED|95.0|-35.69|17.01|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||17.01|-35.69|0.486
92266244|NCT01945034|184433688|SUPERIORITY_OR_OTHER||LS Mean Difference|38.5||||0.021|TWO_SIDED|95.0|5.9|71.18|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Over 3 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||71.18|5.90|0.021
92184232|NCT00749944|184266965|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.4|3.2|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.2|0.4|
92266245|NCT01945034|184433688|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.9||||0.603|TWO_SIDED|95.0|-38.02|22.12|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Over 3 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||22.12|-38.02|0.603
92266246|NCT01945034|184433688|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.5||||0.013|TWO_SIDED|95.0|-82.93|-10.05|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Over 3 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-10.05|-82.93|0.013
92266247|NCT01945034|184433689|SUPERIORITY_OR_OTHER||LS Mean Difference|87.7||||0.021|TWO_SIDED|95.0|13.48|161.85|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Over 7 days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||161.85|13.48|0.021
92266248|NCT01945034|184433689|SUPERIORITY_OR_OTHER||LS Mean Difference|11.8||||0.735|TWO_SIDED|95.0|-56.59|80.11|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Over 7 days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||80.11|-56.59|0.735
92266249|NCT01945034|184433689|SUPERIORITY_OR_OTHER||LS Mean Difference|-75.9||||0.072|TWO_SIDED|95.0|-158.73|6.93|||ANOVA|||At Rest Over 7 days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||6.93|-158.73|0.072
92266250|NCT01945034|184433689|SUPERIORITY_OR_OTHER||LS Mean Difference|46.0||||0.261|TWO_SIDED|95.0|-34.43|126.52|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing Over 7 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||126.52|-34.43|0.261
92266251|NCT01945034|184433689|SUPERIORITY_OR_OTHER||LS Mean Difference|37.3||||0.325|TWO_SIDED|95.0|-37.13|111.8|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing Over 7 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||111.80|-37.13|0.325
92266252|NCT01945034|184433689|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.7||||0.849|TWO_SIDED|95.0|-98.64|81.22|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing Over 7 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||81.22|-98.64|0.849
92266253|NCT01945034|184433690|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.042|TWO_SIDED|95.0|0.0|0.49|||ANOVA|p-value \<=0.05 for treatment effects||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.49|0.0|0.042
92266254|NCT01945034|184433690|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.114|TWO_SIDED|95.0|-0.04|0.4|||ANOVA|p-value \<=0.05 for treatment effects||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.40|-0.04|0.114
92266255|NCT01945034|184433690|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.598|TWO_SIDED|95.0|-0.34|0.2|||ANOVA|p-value \<=0.05 for treatment effects||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms.||0.20|-0.34|0.598
92266256|NCT01945034|184433690|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.833|TWO_SIDED|95.0|-0.24|0.19|||ANOVA|p-value \<=0.05 for treatment effects||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.19|-0.24|0.833
92266257|NCT01945034|184433690|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.853|TWO_SIDED|95.0|-0.18|0.22|||ANOVA|p-value \<=0.05 for treatment effects||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.22|-0.18|0.853
92266258|NCT01945034|184433690|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.733|TWO_SIDED|95.0|-0.2|0.29|||ANOVA|p-value \<=0.05 for treatment effects||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms.||0.29|-0.20|0.733
92266259|NCT01945034|184433692|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.016|TWO_SIDED|95.0|1.07|1.97|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to First Perceptible Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the Proportional Hazards (PH) model with treatment, BLPSR, and pooled site blocks.||1.97|1.07|0.016
92266260|NCT01945034|184433692|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.022|TWO_SIDED|95.0|0.53|0.95|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to First Perceptible Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, BLPSR, and pooled site blocks.||0.95|0.53|0.022
92266261|NCT01945034|184433692|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.34|0.69|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to First Perceptible Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, BLPSR, and pooled site blocks.||0.69|0.34|< 0.001
92290322|NCT03214588|184484246|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.279||0.88|TWO_SIDED|90.0|-0.13|0.8||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.80|-0.13|0.880
92290323|NCT03214588|184484246|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.408||0.599|TWO_SIDED|90.0|-0.58|0.79||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.79|-0.58|0.599
92290324|NCT03214588|184484246|SUPERIORITY||Least Squares Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.333||0.846|TWO_SIDED|90.0|-0.21|0.9||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.90|-0.21|0.846
92290325|NCT03214588|184484247|SUPERIORITY||Odds Ratio (OR)|0.0|||>|0.999||||||P-value was from Fisher's exact test. Odds ratio was obtained from Cochran-Mantel-Haenszel with ambulation status at randomization as a stratification factor.|Fisher Exact|||At Least 15% Reduction from Baseline||||>0.999
92290326|NCT03214588|184484247|SUPERIORITY||Odds Ratio (OR)|0.0|||>|0.999||||||P-value was from Fisher's exact test. Odds ratio was obtained from Cochran-Mantel-Haenszel with ambulation status at randomization as a stratification factor.|Fisher Exact|||At Least 15% Reduction from Baseline||||>0.999
92290327|NCT03214588|184484247|SUPERIORITY||Odds Ratio (OR)|0.0|||>|0.999||||||P-value was from Fisher's exact test. Odds ratio was obtained from Cochran-Mantel-Haenszel with ambulation status at randomization as a stratification factor.|Fisher Exact|||At Least 20% Reduction from Baseline||||>0.999
92290328|NCT03214588|184484247|SUPERIORITY||Odds Ratio (OR)|0.0|||>|0.999||||||P-value was from Fisher's exact test. Odds ratio was obtained from Cochran-Mantel-Haenszel with ambulation status at randomization as a stratification factor.|Fisher Exact|||At Least 20% Reduction from Baseline||||>0.999
92290329|NCT04428307|184484255|SUPERIORITY||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.61|2.02||||||||2.02|0.61|
92290330|NCT04428307|184484255|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.49|1.71||||||||1.71|0.49|
92290331|NCT04428307|184484256|SUPERIORITY||Risk Ratio (RR)|1.22|||||TWO_SIDED|95.0|0.83|1.8||||||||1.80|0.83|
92290332|NCT04428307|184484256|SUPERIORITY||Risk Ratio (RR)|1.15|||||TWO_SIDED|95.0|0.81|1.62||||||||1.62|0.81|
92290333|NCT04428307|184484257|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.8|1.09||||||||1.09|0.80|
92290334|NCT04428307|184484257|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.85|1.16||||||||1.16|0.85|
92290335|NCT04428307|184484258|SUPERIORITY||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.75|1.73||||||||1.73|0.75|
92290336|NCT04428307|184484258|SUPERIORITY||Risk Ratio (RR)|1.15|||||TWO_SIDED|95.0|0.77|1.74||||||||1.74|0.77|
92290337|NCT04428307|184484259|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.95|1.11||||||||1.11|0.95|
92290338|NCT04428307|184484259|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.89|1.04||||||||1.04|0.89|
92290339|NCT04667338|184484269|SUPERIORITY||||||=|0.5061|||||||Chi-squared|||Pharmacological||||=0.5061
92290340|NCT04667338|184484269|SUPERIORITY||||||=|0.2053|||||||Chi-squared|||Non-pharmacological||||=0.2053
92290341|NCT04667338|184484270|SUPERIORITY||||||=|0.4016|||||||Chi-squared|||||||=0.4016
92290342|NCT04667338|184484273|SUPERIORITY||||||=|0.5274|||||||Chi-squared|||Educational level ongoing or completed level of education||||=0.5274
92290343|NCT04667338|184484273|SUPERIORITY||||||=|0.7051|||||||Chi-squared|||Occupational status and occupation||||=0.7051
92290344|NCT04667338|184484273|SUPERIORITY||||||=|0.3543|||||||Chi-squared|||Civil status||||=0.3543
92290345|NCT04667338|184484273|SUPERIORITY||||||=|0.0368|||||||Chi-squared|||Living conditions||||=0.0368
92290346|NCT04667338|184484273|SUPERIORITY||||||=|0.3512|||||||Chi-squared|||Smoking status||||=0.3512
92290347|NCT04667338|184484273|SUPERIORITY||||||=|0.104|||||||Chi-squared|||Alcohol intake||||=0.1040
92290348|NCT04667338|184484273|SUPERIORITY||||||=|0.0202|||||||Chi-squared|||Exercise status||||=0.0202
92290349|NCT04667338|184484273|SUPERIORITY||||||=|0.3503|||||||Chi-squared|||Family history of narcolepsy||||=0.3503
92290350|NCT04667338|184484278|SUPERIORITY||||||=|0.0715|||||||Chi-squared|||General practitioner||||=0.0715
92290351|NCT04667338|184484278|SUPERIORITY||||||=|0.0929|||||||Chi-squared|||Neurologist||||=0.0929
92290352|NCT04667338|184484278|SUPERIORITY||||||=|0.3092|||||||Chi-squared|||Neuropediatrician||||=0.3092
92290353|NCT04667338|184484278|SUPERIORITY||||||=|0.4528|||||||Chi-squared|||Neurophysiologist||||=0.4528
92290354|NCT04667338|184484278|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Pneumologist||||<0.0001
92290355|NCT04667338|184484278|SUPERIORITY||||||=|0.1785|||||||Chi-squared|||Somnologist||||=0.1785
92290356|NCT04667338|184484278|SUPERIORITY||||||=|0.1474|||||||Chi-squared|||Somnologist-unit||||=0.1474
92290357|NCT04667338|184484279|SUPERIORITY||||||=|0.2042|||||||Chi-squared|||Clinical history||||=0.2042
92290358|NCT04667338|184484279|SUPERIORITY||||||=|0.5818|||||||Chi-squared|||Clinical assessment: ESS||||=0.5818
92290359|NCT04667338|184484279|SUPERIORITY||||||=|0.0368|||||||Chi-squared|||Neurological assessment||||=0.0368
92290360|NCT04667338|184484279|SUPERIORITY||||||=|0.1128|||||||Chi-squared|||MSLT||||=0.1128
92290361|NCT04667338|184484279|SUPERIORITY||||||=|0.3396|||||||Chi-squared|||AHI||||=0.3396
92290362|NCT04667338|184484279|SUPERIORITY||||||=|0.6794|||||||Chi-squared|||Other procedures||||=0.6794
92290363|NCT04667338|184484279|SUPERIORITY||||||=|0.0138|||||||Chi-squared|||HLA typing||||=0.0138
92290364|NCT04667338|184484279|SUPERIORITY||||||=|0.0597|||||||Chi-squared|||Hypocretin-1 CSF or Orexin||||=0.0597
92290365|NCT04667338|184484280|SUPERIORITY||||||=|0.1171|||||||t-test, 2 sided|||||||=0.1171
92290366|NCT04667338|184484281|SUPERIORITY||||||=|0.3834|||||||t-test, 2 sided|||||||=0.3834
92290367|NCT04667338|184484286|SUPERIORITY||||||=|0.0531|||||||t-test, 2 sided|||||||=0.0531
92290368|NCT04667338|184484287|SUPERIORITY||||||=|0.0005|||||||Chi-squared|||Take short naps||||=0.0005
92290369|NCT04667338|184484287|SUPERIORITY||||||=|0.8221|||||||Chi-squared|||Maintain a regular sleep schedule||||=0.8221
92290370|NCT04667338|184484287|SUPERIORITY||||||=|0.2291|||||||Chi-squared|||Avoid caffeine or alcohol before bedtime||||=0.2291
92290371|NCT04667338|184484287|SUPERIORITY||||||=|0.9177|||||||Chi-squared|||Avoid smoking, especially at night||||=0.9177
92290372|NCT04667338|184484287|SUPERIORITY||||||=|0.4188|||||||Chi-squared|||Exercise daily||||=0.4188
92290373|NCT04667338|184484287|SUPERIORITY||||||=|0.5818|||||||Chi-squared|||Avoid large, heavy meals right before bedtime||||=0.5818
92290374|NCT04667338|184484287|SUPERIORITY||||||=|0.5432|||||||Chi-squared|||Other||||=0.5432
92290375|NCT04667338|184484288|SUPERIORITY||||||=|0.5432|||||||Chi-squared|||Treatment||||=0.5432
92290376|NCT04667338|184484288|SUPERIORITY||||||=|0.0397|||||||Chi-squared|||Routine monitoring visits||||=0.0397
92290377|NCT04667338|184484288|SUPERIORITY||||||=|0.0306|||||||Chi-squared|||Tests||||=0.0306
92290378|NCT04667338|184484288|SUPERIORITY||||||=|0.7451|||||||Chi-squared|||Emergency visits||||=0.7451
92290379|NCT04667338|184484288|SUPERIORITY||||||=|0.0845|||||||Chi-squared|||Hospitalizations||||=0.0845
92290380|NCT04667338|184484288|SUPERIORITY||||||=|0.3813|||||||Chi-squared|||Complications||||=0.3813
92290381|NCT04667338|184484290|SUPERIORITY||||||=|0.0034|||||||t-test, 2 sided|||Absenteeism||||=0.0034
92290382|NCT04667338|184484290|SUPERIORITY||||||=|0.2178|||||||t-test, 2 sided|||Presenteeism||||=0.2178
92290383|NCT04667338|184484290|SUPERIORITY||||||=|0.1758|||||||t-test, 2 sided|||Work productivity loss||||=0.1758
92290384|NCT04667338|184484290|SUPERIORITY||||||=|0.1789|||||||t-test, 2 sided|||Activity Impairment / disability||||=0.1789
92290385|NCT04667338|184484291|SUPERIORITY||||||=|0.5806|||||||Chi-squared|||||||=0.5806
92290386|NCT04667338|184484293|SUPERIORITY||||||=|0.1602|||||||Chi-squared|||Mobility||||=0.1602
92184233|NCT00749944|184266966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.5|3.9|||||Cochran-Mantel-Haenszel|Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.9|0.5|
92184234|NCT00749944|184266966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0|0.7|5.3|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.3|0.7|
92290387|NCT04667338|184484293|SUPERIORITY||||||=|0.5249|||||||Chi-squared|||Self-Care||||=0.5249
92290388|NCT04667338|184484293|SUPERIORITY||||||=|0.1095|||||||Chi-squared|||Usual activities||||=0.1095
92290389|NCT04667338|184484293|SUPERIORITY||||||=|0.3528|||||||Chi-squared|||Pain / Discomfort||||=0.3528
92184235|NCT00749944|184266966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|0.7|4.4|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||4.4|0.7|
92290390|NCT04667338|184484293|SUPERIORITY||||||=|0.7434|||||||Chi-squared|||Anxiety / Depression||||=0.7434
92290391|NCT04667338|184484294|SUPERIORITY||||||=|0.0396|||||||t-test, 2 sided|||||||=0.0396
92290392|NCT04667338|184484295|SUPERIORITY||||||=|0.0394|||||||t-test, 2 sided|||Effectiveness||||=0.0394
92290393|NCT04667338|184484295|SUPERIORITY||||||=|0.3093|||||||t-test, 2 sided|||Convenience||||=0.3093
92290394|NCT04667338|184484295|SUPERIORITY||||||=|0.2296|||||||t-test, 2 sided|||Global satisfaction||||=0.2296
92184236|NCT00749944|184266966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||||TWO_SIDED|95.0|0.5|5.0|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.0|0.5|
92184237|NCT00749944|184266966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||||TWO_SIDED|95.0|0.8|6.8|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||6.8|0.8|
92290395|NCT04667338|184484296|SUPERIORITY||||||=|0.1817|||||||Chi-squared|||Depression||||=0.1817
92290396|NCT04667338|184484296|SUPERIORITY||||||=|0.0885|||||||Chi-squared|||Bipolar disorder||||=0.0885
92290397|NCT04667338|184484296|SUPERIORITY||||||=|0.3043|||||||Chi-squared|||Anxiety disorders||||=0.3043
92290398|NCT04667338|184484296|SUPERIORITY||||||=|0.0885|||||||Chi-squared|||Panic disorder||||=0.0885
92290399|NCT04667338|184484296|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||Phobia disorder||||=0.5603
92290400|NCT04667338|184484296|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||Obsessive compulsive disorder||||=0.5603
92290401|NCT04667338|184484296|SUPERIORITY||||||=|0.3646|||||||Chi-squared|||Diagnosis of ADHD||||=0.3646
92290402|NCT04667338|184484296|SUPERIORITY||||||=|0.2615|||||||Chi-squared|||Obesity||||=0.2615
92290403|NCT04667338|184484296|SUPERIORITY||||||=|0.3076|||||||Chi-squared|||Endocrine Disorders||||=0.3076
92290404|NCT04667338|184484296|SUPERIORITY||||||=|0.409|||||||Chi-squared|||Peripheral vascular disease||||=0.4090
92290405|NCT04667338|184484296|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||Cardiovascular accident or transient ischemic attack (TIA)||||=0.5603
92290406|NCT04667338|184484296|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||COPD||||=0.5603
92290407|NCT04667338|184484296|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||Connective tissue disease||||=0.5603
92290408|NCT04667338|184484296|SUPERIORITY||||||=|0.7451|||||||Chi-squared|||Liver Disease||||=0.7451
92290409|NCT04667338|184484296|SUPERIORITY||||||=|0.3108|||||||Chi-squared|||Diabetes Mellitus||||=0.3108
92290410|NCT04667338|184484296|SUPERIORITY||||||=|0.2407|||||||Chi-squared|||Solid Tumor||||=0.2407
92290411|NCT04667338|184484296|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||AIDS||||=0.5603
92290412|NCT04667338|184484296|SUPERIORITY||||||=|0.1739|||||||Chi-squared|||Others||||=0.1739
92290413|NCT04667338|184484297|SUPERIORITY||||||=|0.3585|||||||t-test, 2 sided|||||||=0.3585
92290414|NCT02597049|184484327|SUPERIORITY||Mean Difference (Final Values)|-0.79|||<|0.001|TWO_SIDED|95.0|-0.97|-0.61|||Mixed Models Analysis|||||-0.61|-0.97|<.001
92290415|NCT02597049|184484327|SUPERIORITY||Mean Difference (Final Values)|-0.66|||<|0.001|TWO_SIDED|95.0|-0.84|-0.49|||Mixed Models Analysis|||||-0.49|-0.84|< .001
92290416|NCT02597049|184484328|SUPERIORITY||Mean Difference (Final Values)|-0.82|||<|0.001|TWO_SIDED|95.0|-1.0|-0.64|||Mixed Models Analysis|||||-0.64|-1.00|<.001
92290417|NCT02597049|184484328|SUPERIORITY||Mean Difference (Final Values)|-0.69|||<|0.001|TWO_SIDED|95.0|-0.86|-0.51|||Mixed Models Analysis|||||-0.51|-0.86|<.001
92290418|NCT02597049|184484329|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||Treatment-regimen Estimand||||< .001
92290419|NCT02597049|184484329|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||Treatment-regimen Estimand||||< .001
92290420|NCT02597049|184484329|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||Efficacy Estimand||||< .001
92290421|NCT02597049|184484329|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||Efficacy Estimand||||< .001
92290422|NCT02597049|184484330|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.027|TWO_SIDED|95.0|-1.8|-0.1|||Mixed Models Analysis|||Treatment-regimen Estimand||-0.1|-1.8|0.027
92290423|NCT02597049|184484330|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.264|TWO_SIDED|95.0|-1.3|0.4|||Mixed Models Analysis|||Treatment-regimen Estimand||0.4|-1.3|0.264
92290424|NCT02597049|184484330|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.059|TWO_SIDED|95.0|-1.7|0.0|||Mixed Models Analysis|||Efficacy Estimand||0.0|-1.7|0.059
92290425|NCT02597049|184484330|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.435|TWO_SIDED|95.0|-1.2|0.5|||Mixed Models Analysis|||Efficacy Estimand||0.5|-1.2|0.435
92290426|NCT02597049|184484331|SUPERIORITY||Mean Difference (Final Values)|-24.7|||<|0.001|TWO_SIDED|95.0|-30.8|-18.6|||ANCOVA|||Treatment-regimen Estimand||-18.6|-30.8|< .001
92290427|NCT02597049|184484331|SUPERIORITY||Mean Difference (Final Values)|-19.6|||<|0.001|TWO_SIDED|95.0|-25.7|-13.5||Test was not controlled for type I error.|ANCOVA|||Treatment-regimen Estimand||-13.5|-25.7|<0.001
92290428|NCT02597049|184484331|SUPERIORITY||Mean Difference (Final Values)|-26.6|||<|0.001|TWO_SIDED|95.0|-32.7|-20.6||Test was not controlled for type I error.|ANCOVA|||Efficacy Estimand||-20.6|-32.7|<0.001
92290429|NCT02597049|184484331|SUPERIORITY||Mean Difference (Final Values)|-20.7|||<|0.001|TWO_SIDED|95.0|-26.7|-14.6||Test was not controlled for type I error.|ANCOVA|||Efficacy Estimand||-14.6|-26.7|<0.001
92290430|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-19.7|||<|0.001|TWO_SIDED|95.0|-25.7|-13.8|||Mixed Models Analysis|||Pre-morning meal.||-13.8|-25.7|< .001
92290431|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-15.2|||<|0.001|TWO_SIDED|95.0|-21.2|-9.2|||Mixed Models Analysis|||Pre-morning meal||-9.2|-21.2|< .001
92290432|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-24.5|||<|0.001|TWO_SIDED|95.0|-33.8|-15.3|||Mixed Models Analysis|||2-hour postprandial||-15.3|-33.8|< .001
92290433|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-21.1|||<|0.001|TWO_SIDED|95.0|-30.3|-11.8|||Mixed Models Analysis|||2-hour postprandial||-11.8|-30.3|< .001
92290434|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-18.3|||<|0.001|TWO_SIDED|95.0|-26.4|-10.2|||Mixed Models Analysis|||Pre-midday meal||-10.2|-26.4|< .001
92290435|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-14.3|||<|0.001|TWO_SIDED|95.0|-22.5|-6.2|||Mixed Models Analysis|||Pre-midday meal||-6.2|-22.5|< .001
92290436|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-19.0|||<|0.001|TWO_SIDED|95.0|-28.8|-9.3|||Mixed Models Analysis|||2-hour postprandial after midday meal||-9.3|-28.8|< .001
92290437|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-12.8||||0.01|TWO_SIDED|95.0|-22.5|-3.1|||Mixed Models Analysis|||2-hour postprandial after midday meal||-3.1|-22.5|0.010
92290438|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-22.7|||<|0.001|TWO_SIDED|95.0|-30.7|-14.7|||Mixed Models Analysis|||Pre-evening meal||-14.7|-30.7|< .001
92290439|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-22.5|||<|0.001|TWO_SIDED|95.0|-30.7|-14.4|||Mixed Models Analysis|||Pre-evening meal||-14.4|-30.7|< .001
92290440|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-22.1|||<|0.001|TWO_SIDED|95.0|-31.4|-12.9|||Mixed Models Analysis|||2-hour postprandial after evening meal||-12.9|-31.4|< .001
92290441|NCT02597049|184484332|SUPERIORITY||Mean Difference (Final Values)|-16.7|||<|0.001|TWO_SIDED|95.0|-26.0|-7.4|||Mixed Models Analysis|||2-hour postprandial after evening meal||-7.4|-26.0|< .001
92290442|NCT02597049|184484333|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.032|TWO_SIDED|95.0|-2.3|-0.1|||ANCOVA|||Treatment-regimen Estimand||-0.1|-2.3|0.032
92290443|NCT02597049|184484333|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.273|TWO_SIDED|95.0|-1.7|0.5|||ANCOVA|||Treatment-regimen Estimand||0.5|-1.7|0.273
92290444|NCT02597049|184484333|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.023|TWO_SIDED|95.0|-2.4|-0.2|||ANCOVA|||Efficacy Estimand||-0.2|-2.4|0.023
92290445|NCT02597049|184484333|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.32|TWO_SIDED|95.0|-1.7|0.6|||ANCOVA|||Efficacy Estimand||0.6|-1.7|0.320
92290446|NCT04050735|184484338|OTHER|None of the above apply to this study|F-test|1.125||||0.343|TWO_SIDED||||||Mixed Models Analysis|||Linear mixed model testing the three-way interaction of HIV serostatus (positive/negative), beverage condition (alcohol/placebo), and time (hour 0, 1, 2, 3).||||.343
92290447|NCT04050735|184484339|OTHER|None of the above options apply to this study.|F-test|3.236||||0.026|TWO_SIDED||||||Mixed Models Analysis|||Linear mixed model testing the three-way interaction of HIV serostatus (positive/negative), beverage condition (alcohol/placebo), and time (hour 0, 1, 2, 3).||||.026
92290448|NCT04050735|184484340|OTHER|The above categories do not apply to this type of study.||||||0.987||||||The p-value for the interaction of HIV serostatus by beverage condition.|ANOVA|||Test of group by condition interaction on choline.||||.987
92290449|NCT04050735|184484340|OTHER|The above types of tests do not apply to this study.||||||0.836|||||||ANOVA|||Test of group by condition interaction on summed peak of glutamate plus glutamine||||.836
92290450|NCT04050735|184484341|OTHER|The above types of tests do not apply to this study.||||||0.846|||||||ANOVA|||Test of group by condition interaction on fractional anisotropy (FA).||||.846
92290451|NCT04050735|184484342|OTHER|The above types of tests do not apply to this study.||||||0.894|||||||ANOVA|||Test of interaction of group by beverage condition.||||.894
92290452|NCT01248728|184484373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Mixed Models Analysis|||||||0.5
92290453|NCT01248728|184484374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Mixed Models Analysis|||||||0.02
92290454|NCT01248728|184484376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
92290455|NCT01248728|184484377|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Regression, Linear|||||||0.6
92290456|NCT01838681|184484408|SUPERIORITY||Odds Ratio (OR)|0.83||||0.2641|TWO_SIDED|95.0|0.6|1.15|||Regression, Logistic|Model included MADRS total score at the randomisation visit, treatment group, country, and the randomisation criteria used||||1.15|0.60|0.2641
92290457|NCT00902538|184484437|SUPERIORITY_OR_OTHER|||||||0.1187||95.0|||||ANCOVA|||||||0.1187
92290458|NCT00902538|184484437|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92290459|NCT00902538|184484438|SUPERIORITY_OR_OTHER|||||||0.0425||95.0|||||ANCOVA|||||||0.0425
92290460|NCT00902538|184484438|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92290461|NCT00902538|184484439|SUPERIORITY_OR_OTHER|||||||0.1939||95.0|||||Cochran-Mantel-Haenszel|||||||0.1939
92290462|NCT00902538|184484439|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92290463|NCT00902538|184484440|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||ANCOVA|||||||0.0009
92290464|NCT00902538|184484440|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92290465|NCT00902538|184484441|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|||||||0.0001
92290466|NCT00902538|184484441|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92290467|NCT00902538|184484442|SUPERIORITY_OR_OTHER|||||||0.1611||95.0|||||ANCOVA|||||||0.1611
92290468|NCT00902538|184484443|SUPERIORITY_OR_OTHER|||||||0.0451||95.0|||||ANCOVA|||||||0.0451
92290469|NCT00902538|184484444|SUPERIORITY_OR_OTHER|||||||0.0412||95.0|||||ANCOVA|||||||0.0412
92290470|NCT00902538|184484445|SUPERIORITY_OR_OTHER|||||||0.0253||95.0|||||ANCOVA|||||||0.0253
92290471|NCT00902538|184484446|SUPERIORITY_OR_OTHER|||||||0.0063||95.0|||||ANCOVA|||||||0.0063
92290472|NCT03442322|184484455|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.25||||0.492|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.492
92290473|NCT03442322|184484456|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-0.73||||0.765|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.765
92290474|NCT03442322|184484457|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|0.77||||0.808|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.808
92290475|NCT03442322|184484458|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|3.86||||0.108|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.108
92290476|NCT03442322|184484459|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|2.59||||0.411|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.411
92290477|NCT03442322|184484460|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-0.08||||0.981|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.981
92290478|NCT03442322|184484461|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|3.51||||0.02|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.020
92290479|NCT03442322|184484462|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.62||||0.299|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.299
92290480|NCT03442322|184484463|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.68||||0.389|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.389
92290481|NCT03442322|184484464|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-2.14||||0.389|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.389
92290482|NCT03442322|184484465|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-5.95||||0.043|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.043
92290483|NCT03442322|184484466|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-3.91||||0.279|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.279
92290484|NCT03442322|184484467|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|0.92||||0.728|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.728
92290485|NCT03442322|184484468|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-1.75||||0.49|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.490
92290486|NCT03442322|184484469|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|4.44||||0.232|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.232
92290487|NCT03442322|184484470|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.11||||0.708|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.708
92290488|NCT03442322|184484471|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.0||||0.775|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.775
92290489|NCT03442322|184484472|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.77||||0.584|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.584
92290490|NCT03442322|184484473|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-0.25||||0.898|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.898
92290491|NCT03442322|184484474|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-2.79||||0.217|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.217
92290492|NCT03442322|184484475|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-1.39||||0.56|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.560
92290493|NCT03442322|184484476|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-3.08||||0.277|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.277
92290494|NCT03442322|184484477|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-2.53||||0.4|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.400
92290495|NCT03442322|184484478|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-3.18||||0.303|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.303
92290496|NCT03215706|184484484|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.69||||0.0006|TWO_SIDED|95.0|0.56|0.86|||Log-rank test stratified|||||0.86|0.56|0.0006
92290497|NCT03215706|184484485|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.59|0.82|||Log-rank test stratified|||||0.82|0.59|
92290498|NCT03215706|184484486|SUPERIORITY|Treatment A over Treatment B|Odds Ratio (OR)|12.7|||||TWO_SIDED|95.0|6.0|19.4|||Mantel Haenszel|||||19.4|6.0|
92290499|NCT03215706|184484492|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.63|0.87|||Stratified Cox proportional hazard model|||||0.87|0.63|
92290500|NCT02433977|184484496|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
92290501|NCT02433977|184484497|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
92290502|NCT02433977|184484498|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
92290503|NCT02433977|184484499|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
92290504|NCT02433977|184484501|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
92290505|NCT02433977|184484503|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
92290506|NCT02433977|184484504|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
92290507|NCT02433977|184484505|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
92290508|NCT03247686|184484518|SUPERIORITY|||||||4.96e-05|||||||t-test, 2 sided|||Module M1.2 Placebo versus RSLV-132 All||||0.0000496
92290509|NCT03247686|184484518|SUPERIORITY|||||||1.03e-05|||||||t-test, 2 sided|||Module M3.4 Placebo versus RSLV-132 All||||0.0000103
92290510|NCT03247686|184484518|SUPERIORITY|||||||0.0004398|||||||t-test, 2 sided|||Module M5.12 Placebo versus RSLV-132 All||||0.0004398
92290511|NCT03247686|184484518|SUPERIORITY|||||||6.8e-06|||||||t-test, 2 sided|||Module 1.2 Placebo versus RSLV-132 Responders||||0.0000068
92290512|NCT03247686|184484518|SUPERIORITY|||||||2e-07|||||||t-test, 2 sided|||Module M3.4 Placebo versus RSLV-132 Responders||||0.0000002
92290513|NCT03247686|184484518|SUPERIORITY|||||||9.26e-05|||||||t-test, 2 sided|||Module 5.12 Placebo versus RSLV-132 Responders||||0.0000926
92290514|NCT03247686|184484518|SUPERIORITY|||||||0.001545|||||||t-test, 2 sided|||Module M1.2 Placebo versus RSLV-132 Non-responders||||0.0015450
92290515|NCT03247686|184484518|SUPERIORITY|||||||0.0004632|||||||t-test, 2 sided|||Module M3.4 Placebo versus RSLV-132 Non-responders||||0.0004632
92290516|NCT03247686|184484518|SUPERIORITY|||||||0.009696|||||||t-test, 2 sided|||Module M5.12||||0.0096960
92290517|NCT03247686|184484519|EQUIVALENCE|Two sample t-test with Satterthwaite approximation|Mean Difference (Final Values)|-2.5||||0.18|TWO_SIDED|95.0|-6.34|1.34|||t-test, 2 sided|||Mean difference in change from baseline (95% CI)||1.34|-6.34|0.180
92290518|NCT02302716|184484520|NON_INFERIORITY_OR_EQUIVALENCE|The primary treatment comparison was to compare LY2963016 versus Lantus at the non-inferiority margin of +0.4%. If the upper limit of the 95% confidence interval on the change from baseline to 24-week HbA1c level for LY2963016 versus Lantus was below +0.4%, then LY2963016 would be declared non-inferior to Lantus.|Mean Difference (Final Values)|-0.04||||0.693|TWO_SIDED|95.0|-0.22|0.15|||Mixed Models Analysis|||||0.15|-0.22|0.693
92290519|NCT00830258|184484531|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|105.76||||||90.0|98.17|113.93|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||113.93|98.17|
92290520|NCT00830258|184484532|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|110.45||||||90.0|104.31|116.96|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||116.96|104.31|
92290521|NCT00830258|184484533|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|110.61||||||90.0|104.39|117.2|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||117.20|104.39|
92184238|NCT00749944|184266966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||||TWO_SIDED|95.0|0.8|5.3|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.3|0.8|
92184239|NCT00749944|184266967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||||TWO_SIDED|95.0|0.5|4.9|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||4.9|0.5|
92184240|NCT00749944|184266967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.4|2.0|||||Cochran-Mantel-Haenszel|Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.0|0.4|
92266262|NCT01945034|184433692|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.79|||<|0.001|TWO_SIDED|95.0|1.27|2.51|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to Meaningful Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, BLPSR, and pooled site blocks.||2.51|1.27|< 0.001
92266263|NCT01945034|184433692|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.009|TWO_SIDED|95.0|0.41|0.88|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to Meaningful Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, BLPSR, and pooled site blocks.||0.88|0.41|0.009
92266264|NCT01945034|184433692|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34|||<|0.001|TWO_SIDED|95.0|0.22|0.52|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to Meaningful Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, BLPSR, and pooled site blocks.||0.52|0.22|< 0.001
92266265|NCT01945034|184433694|SUPERIORITY_OR_OTHER|||||||0.479|||||||Cochran-Mantel-Haenszel|p-values from the Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for BLPSR and site block.||||||0.479
92266266|NCT01945034|184433694|SUPERIORITY_OR_OTHER|||||||0.279|||||||Cochran-Mantel-Haenszel|p-values from the CMH test with modified ridit scores, controlling for BLPSR and site block.||||||0.279
92266267|NCT01945034|184433694|SUPERIORITY_OR_OTHER|||||||0.129|||||||Cochran-Mantel-Haenszel|p-values from the CMH test with modified ridit scores, controlling for BLPSR and site block.||||||0.129
92266268|NCT02389621|184433704|SUPERIORITY||Difference|36.7|||<|0.0001|TWO_SIDED|95.0|24.9|48.5||Statistical tests were performed at a 2-sided significance level of 0.05.|Cochran-Mantel-Haenszel|Adjusted using the stratification factors of platelet count at randomization and the planned primary invasive procedure.||||48.5|24.9|<0.0001
92266269|NCT02389621|184433705|SUPERIORITY|A gatekeeping procedure was employed for sequentially testing the prespecified important secondary endpoints, identified as the most clinically relevant endpoints. If the primary endpoint was statistically significant, the secondary endpoints were tested at the 0.05 level (2-sided) in sequence.|Difference|34.8|||<|0.0001|TWO_SIDED|95.0|22.8|46.8|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors of platelet count at randomization and the planned primary invasive procedure.||||46.8|22.8|<0.0001
92266270|NCT02389621|184433706|SUPERIORITY|A gatekeeping procedure was employed for sequentially testing the prespecified important secondary endpoints, identified as the most clinically relevant endpoints. If the primary endpoint was statistically significant, the secondary endpoints were tested at the 0.05 level (2-sided) in sequence.|Difference|52.5|||<|0.0001|TWO_SIDED|95.0|42.0|62.9|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors of platelet count at randomization and the planned primary invasive procedure.||||62.9|42.0|<0.0001
92266271|NCT02389621|184433707|SUPERIORITY|A gatekeeping procedure was employed for sequentially testing the prespecified important secondary endpoints, identified as the most clinically relevant endpoints. If the primary endpoint was statistically significant, the secondary endpoints were tested at the 0.05 level (2-sided) in sequence.||||||0.0002|||||||van Elteren test|van Elteren test stratified by platelet transfusion during the study.||||||0.0002
92266272|NCT02389621|184433708|SUPERIORITY|A gatekeeping procedure was employed for sequentially testing the prespecified important secondary endpoints, identified as the most clinically relevant endpoints. If the primary endpoint was statistically significant, the secondary endpoints were tested at the 0.05 level (2-sided) in sequence.|||||<|0.0001|||||||Wilcoxon rank sum test|||||||<0.0001
92266273|NCT02277665|184433723|SUPERIORITY|Chi-square|Odds Ratio (OR)|0.56|||=|0.33|TWO_SIDED|95.0|0.17|1.82|||Chi-squared|||||1.82|.17|= 0.33
92266274|NCT02277665|184433724|OTHER||Odds Ratio (OR)|0.32||||0.57|TWO_SIDED||||||Chi-squared|||||||0.57
92266275|NCT02277665|184433725|OTHER||Odds Ratio (OR)|0.45|||=|0.16|TWO_SIDED|95.0|0.15|1.35|||Chi-squared|||||1.35|0.15|= 0.16
92266276|NCT02277665|184433726|SUPERIORITY||Means Ratio|0.97||||0.87|TWO_SIDED|95.0|0.66|1.42|||Chi-squared|||||1.42|0.66|0.87
92266277|NCT02277665|184433727|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
92266278|NCT02277665|184433728|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
92266279|NCT00463385|184433749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.092||95.0|||||Fisher Exact|||||||0.092
92266280|NCT00463385|184433749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.048||95.0|||||Fisher Exact|||||||0.048
92266281|NCT00463385|184433749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.758||95.0|||||Fisher Exact|||||||0.758
92266282|NCT03413618|184433795|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92266283|NCT03413618|184433796|SUPERIORITY|||||||0.049|||||||Log Rank|||||||0.049
92266284|NCT03413618|184433798|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92266285|NCT03413618|184433799|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92266286|NCT03413618|184433801|SUPERIORITY|||||||0.001|||||||Fisher Exact|||||||0.001
92266287|NCT03413618|184433802|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92266288|NCT03246152|184433808|OTHER||||||>|0.05|||||||Pearson's correlation coefficient|||Correlation between change in BCVA and the pre treatment, post treatment, and change in vascular density following 3-6 injections was performed.||||>0.05
92266289|NCT01005810|184433809|SUPERIORITY||Odds Ratio (OR)|2.35||||0.029|TWO_SIDED|95.0|1.05|5.24|||Regression, Logistic|||||5.24|1.05|0.029
92144098|NCT01951625|184172490|OTHER||Log-Scale mean difference|-0.0396|||=|0.3841|TWO_SIDED|90.0|-0.26|0.18|||t-test, 1 sided|||In case of a significant result in the primary analysis of the primary endpoint, pairwise comparisons to Placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In case of non-significance of the primary analyses, these secondary analyses were specified as exploratory only, since the primary analyses were not significant.||0.18|-0.26|= 0.3841
92144099|NCT01951625|184172490|OTHER||Log-Scale mean difference|0.0151|||=|0.5444|TWO_SIDED|90.0|-0.21|0.24|||t-test, 1 sided|||In case of a significant result in the primary analysis of the primary endpoint, pairwise comparisons to Placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In case of non-significance of the primary analyses, these secondary analyses were specified as exploratory only.||0.24|-0.21|= 0.5444
92144100|NCT05338333|184172531|NON_INFERIORITY|Noninferiority in distance VA was declared if the least squares means difference upper confidence limit was less than 0.05.|Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.006|||ONE_SIDED|95.0||0.0||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens-by-visit interaction, period, sequence, and habitual lens stratum) and random (subject) effects. Difference = LID210464 minus AOHG MF.|||0.00||
92144101|NCT04951336|184172532|SUPERIORITY||ratio of frequencies|0.04||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
92184241|NCT00749944|184266967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.4|1.8|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.8|0.4|
92290522|NCT01127087|184484551|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 2 sided|||Comparison of Urinary oxalate before and at the end of 4 weeks on Oxazyme in the RYGB Calcium oxalate (CaOx) Stone Formers arm.||||0.027
92290523|NCT01127087|184484551|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||t-test, 2 sided|||Comparison of Urinary oxalate before and at the end of 4 weeks on Oxazyme in the Idiopathic Hyperoxaluria CaOx Stone Formers arm.||||0.14
92290524|NCT01127087|184484552|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||t-test, 2 sided|||Comparison of Oxalate before and at the end of 4 weeks on Oxazyme in the RYGB CaOx Stone Formers arm.||||0.018
92290525|NCT01127087|184484552|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||t-test, 2 sided|||Comparison of Oxalate before and at the end of 4 weeks on Oxazyme in the Idiopathic Hyperoxaluria CaOx Stone Formers arm.||||0.06
92290526|NCT02997176|184484557|OTHER|Bioequivalence|Percent Ratio of Geometric Means|142.19|||||TWO_SIDED|90.0|79.92|252.98||||||AUC0-24 was natural log-transformed and analyzed using an analysis of variance (ANOVA) model with hepatic function group as a fixed effect.||252.98|79.92|
92144102|NCT04951336|184172533|SUPERIORITY||ratio of frequencies|0.06||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
92184242|NCT00749944|184266967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.4|1.6|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.6|0.4|
92290527|NCT02997176|184484557|OTHER|Bioequivalence|Percent Ratio of Geometric Means|110.54|||||TWO_SIDED|90.0|54.58|223.85||||||AUC0-24 was natural log-transformed and analyzed using an analysis of variance (ANOVA) model with hepatic function group as a fixed effect.||223.85|54.58|
92144103|NCT04951336|184172534|SUPERIORITY||ratio of frequencies|0.7||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
92144104|NCT04951336|184172535|SUPERIORITY||ratio of frequencies|1.68||||0.359|TWO_SIDED||||||Chi-squared, Corrected|||||||0.359
92144105|NCT04951336|184172536|SUPERIORITY|age was included as a covariate||||||0.002||||||Differences were considered statistically significant for p-values \<0.05.|Mixed Models Analysis|F(2,150)=6.374. The analysis was repeated using log-transformed values and the resultant p value was also \< 0.05||"The LME analysis compared antibodies between two grouping factors, (1) Treatment Group (FoTv vs. Placebo) and (2) Exposure Stratum (previously exposed vs. unexposed), across four time points (days 3, 14, 28, and 6 months). At baseline, participants with detectable anti-CoV-2 antibodies were deemed previously exposed and those with no or very low anti-CoV-2 Abs previously unexposed. Accordingly, all longitudinal analyses excluded baseline antibody data."||||0.002
92144106|NCT04951336|184172537|SUPERIORITY|age was included as a covariate||||||0.002||||||p \< 0.05.|Mixed Models Analysis|F(2,157)=4.286. The analysis was repeated using log-transformed values and the resultant p value was also \< 0.05||"LME analysis compared antibodies between two grouping factors, (1) Treatment Group (FoTv vs. Placebo) and (2) Exposure Stratum (previously exposed vs. unexposed), across four time points (days 3, 14, 28, and 6 months). At baseline, participants with detectable anti-CoV-2 antibodies were deemed previously exposed and those with no or very low anti-CoV-2 Abs previously unexposed. Accordingly, all longitudinal analyses excluded baseline antibody data."||||0.002
92184243|NCT00749944|184266967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.3|1.6|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.6|0.3|
92290528|NCT02997176|184484558|OTHER|Bioequivalence|Percent Ratio of Geometric Means|109.76|||||TWO_SIDED|90.0|70.93|169.84||||||Cmax was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||169.84|70.93|
92290529|NCT02997176|184484558|OTHER|Bioequivalence|Percent Ratio of Geometric Means|131.67|||||TWO_SIDED|90.0|77.14|224.74||||||Cmax was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||224.74|77.14|
92290530|NCT02997176|184484559|OTHER|Bioequivalence|Percent Ratio of Geometric Means|149.39|||||TWO_SIDED|90.0|91.49|243.93||||||AUC0-24u was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||243.93|91.49|
92290531|NCT02997176|184484559|OTHER|Bioequivalence|Percent Ratio of Geometric Means|111.04|||||TWO_SIDED|90.0|60.91|202.43||||||AUC0-24u was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||202.43|60.91|
92290532|NCT02997176|184484560|OTHER|Bioequivalence|Percent Ratio of Geometric Means|115.32|||||TWO_SIDED|90.0|77.95|170.6||||||Cmaxu was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||170.6|77.95|
92290533|NCT02997176|184484560|OTHER|Bioequivalence|Percent Ratio of Geometric Means|132.26|||||TWO_SIDED|90.0|81.87|213.67||||||Cmaxu was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||213.67|81.87|
92144107|NCT04951336|184172538|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|F(8,325)=1.898. Age was included as a covariate in this analysis.||LME analysis compared symptoms between two grouping factors, (1) Treatment Group (FoTv vs. Placebo) and (2) Exposure Stratum (previously exposed vs. unexposed), across 5 time points (days 1-5)||||0.060
92144108|NCT04951336|184172539|SUPERIORITY|LME analysis compared symptoms between two grouping factors, (1) Treatment Group (FoTv vs. Placebo) and (2) Exposure Stratum (previously exposed vs. unexposed), across 5 time points (days 1-5)||||||0.326|||||||Mixed Models Analysis|F(8,309)=1.156. Age was included as a covariate in this analysis.||||||0.326
92144109|NCT03073148|184172553|EQUIVALENCE|alpha = 0.05||||||0.3577|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.3577
92144110|NCT03073148|184172553|EQUIVALENCE|alpha = 0.05||||||0.9917|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.9917
92144111|NCT03073148|184172554|EQUIVALENCE|alpha = 0.05||||||0.3239|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.3239
92290534|NCT02997176|184484561|OTHER|Bioequivalence|Percent Ratio of Geometric Means|124.4|||||TWO_SIDED|90.0|85.19|181.66||||||AUC0-24 was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||181.66|85.19|
92290535|NCT02997176|184484561|OTHER|Bioequivalence|Percent Ratio of Geometric Means|113.42|||||TWO_SIDED|90.0|73.9|174.07||||||AUC0-24 was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||174.07|73.90|
92290536|NCT02997176|184484561|OTHER|Bioequivalence|Percent Ratio of Geometric Means|95.68|||||TWO_SIDED|90.0|67.9|134.83||||||AUC0-24 was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||134.83|67.90|
92290537|NCT02997176|184484562|OTHER|Bioequivalence|Percent Ratio of Geometric Means|99.31|||||TWO_SIDED|90.0|57.74|170.8||||||Cmax was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||170.80|57.74|
92184244|NCT00749944|184266967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.4|1.8|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.8|0.4|
92290538|NCT02997176|184484562|OTHER|Bioequivalence|Percent Ratio of Geometric Means|96.45|||||TWO_SIDED|90.0|52.22|178.14||||||Cmax was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||178.14|52.22|
92144112|NCT03073148|184172554|EQUIVALENCE|alpha = 0.05||||||0.8343|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.8343
92144113|NCT03073148|184172555|EQUIVALENCE|alpha = 0.05||||||0.4134|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.4134
92144114|NCT03073148|184172555|EQUIVALENCE|alpha = 0.05||||||0.1192|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.1192
92144115|NCT03073148|184172557|EQUIVALENCE|alpha = 0.05||||||0.1753||||||Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.|ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.1753
92144116|NCT03073148|184172557|EQUIVALENCE|alpha = 0.05||||||0.1843|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.1843
92144117|NCT03073148|184172558|EQUIVALENCE|alpha = 0.05||||||0.0765|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.0765
92144118|NCT03073148|184172558|EQUIVALENCE|alpha = 0.05||||||0.152|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.1520
92144119|NCT00833560|184172581|SUPERIORITY_OR_OTHER||Percentage of participants with response|85.4|||<|0.0001|TWO_SIDED|95.0|81.5|88.8|||Two - sided binomial test|||||88.8|81.5|<0.0001
92144120|NCT00833560|184172582|SUPERIORITY_OR_OTHER||Percentage of participants with response|87.7|||<|0.0001|TWO_SIDED|95.0|83.6|91.0|||Two-sided binomial test|||||91.0|83.6|<0.0001
92144121|NCT00414817|184172585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018||||0.002|TWO_SIDED|95.0|0.006|0.03|||Regression, Linear|2-tailed p-value based on linear regression adjusted for site, age, sex, co-morbid COPD, baseline use of short acting beta agonists, and baseline mMPR|Estimated adherence was approximately 2 percentage points higher for intervention group than for usual care group.|In all of our analyses we used duration of follow-up as a weighting variable to reflect the fact that our adherence measure becomes more accurate and reliable with longer follow-up. This weighting is reflected both in the formal statistical analyses and in the presentation of means and standard deviations given above. Also, sensitivity analyses that included daily oral steroid users and those with fewer than 3 months of follow-up yielded similar results to those presented here.||.030|.006|.002
92144122|NCT00414817|184172586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.175|TWO_SIDED|95.0|-0.23|0.04|||Regression, Linear|2-tailed p-value adjusted for site, age, sex, co-morbid COPD, baseline use of short acting beta agonists, and baseline adherence.||In all of our analyses we used duration of follow-up as a weighting variable. This weighting is reflected both in the formal statistical analyses and in the presentation of means and standard deviations given above.||0.04|-0.23|0.175
92184245|NCT00749944|184266967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.4|1.7|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.7|0.4|
92290539|NCT02997176|184484562|OTHER|Bioequivalence|Percent Ratio of Geometric Means|64.05|||||TWO_SIDED|90.0|39.65|103.46||||||Cmax was natural log-transformed and analyzed using ANOVA model with hepatic function group as a fixed effect.||103.46|39.65|
92290540|NCT02997176|184484565|OTHER|Bioequivalence|Percent Ratio of Geometric Means|118.47|||||TWO_SIDED|90.0|83.81|167.47||||||AUC0-24u was natural log-transformed and analyzed using ANOVA model with hepatic function group as a fixed effect.||167.47|83.81|
92290541|NCT02997176|184484565|OTHER|Bioequivalence|Percent Ratio of Geometric Means|108.36|||||TWO_SIDED|90.0|73.25|160.3||||||AUC0-24u was natural log-transformed and analyzed using ANOVA model with hepatic function group as a fixed effect.||160.30|73.25|
92290542|NCT02997176|184484565|OTHER|Bioequivalence|Percent Ratio of Geometric Means|117.84|||||TWO_SIDED|90.0|85.29|162.83||||||AUC0-24u was natural log-transformed and analyzed using ANOVA model with hepatic function group as a fixed effect.||162.83|85.29|
92290543|NCT02997176|184484566|OTHER|Bioequivalence|Percent Ratio of Geometric Means|94.58|||||TWO_SIDED|90.0|56.74|157.64||||||Cmaxu was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||157.64|56.74|
92290544|NCT02997176|184484566|OTHER|Bioequivalence|Percent Ratio of Geometric Means|92.15|||||TWO_SIDED|90.0|51.69|164.26||||||Cmaxu was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||164.26|51.69|
92290545|NCT02997176|184484566|OTHER|Bioequivalence|Percent Ratio of Geometric Means|84.42|||||TWO_SIDED|90.0|53.14|134.1||||||Cmaxu was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||134.10|53.14|
92290546|NCT05511935|184484589|SUPERIORITY||Mean Difference (Final Values)|1.75|STANDARD_ERROR_OF_MEAN|3.69||0.64|TWO_SIDED|95.0|-5.57|9.06|||t-test, 2 sided|||||9.06|-5.57|0.64
92290547|NCT05511935|184484590|SUPERIORITY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.81||0.47|TWO_SIDED|95.0|-2.28|4.89|||t-test, 2 sided|||||4.89|-2.28|0.47
92290548|NCT05511935|184484591|SUPERIORITY||Mean Difference (Final Values)|-2.33|STANDARD_ERROR_OF_MEAN|4.25||0.59|TWO_SIDED|95.0|-10.77|6.11|||t-test, 2 sided|||||6.11|-10.77|0.59
92290549|NCT05511935|184484592|SUPERIORITY||Mean Difference (Final Values)|-1.61|STANDARD_ERROR_OF_MEAN|5.53||0.77|TWO_SIDED|95.0|-12.61|9.38|||t-test, 2 sided|||||9.38|-12.61|0.77
92290550|NCT05511935|184484593|SUPERIORITY||Mean Difference (Final Values)|-12.21|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-17.95|-6.47|||t-test, 2 sided|||||-6.47|-17.95|<0.001
92290551|NCT05511935|184484594|SUPERIORITY||Mean Difference (Final Values)|1.62|STANDARD_ERROR_OF_MEAN|1.87||0.39|TWO_SIDED|95.0|-2.1|5.34|||t-test, 2 sided|||||5.34|-2.10|0.39
92290552|NCT05511935|184484595|SUPERIORITY||Mean Difference (Final Values)|-8.88|STANDARD_ERROR_OF_MEAN|2.84|<|0.01|TWO_SIDED|95.0|-14.52|-3.24|||t-test, 2 sided|||||-3.24|-14.52|<0.01
92290553|NCT05511935|184484596|SUPERIORITY||Mean Difference (Final Values)|-2.84|STANDARD_ERROR_OF_MEAN|4.06||0.49|TWO_SIDED|95.0|-10.9|5.23|||t-test, 2 sided|||||5.23|-10.90|0.49
92290554|NCT05511935|184484598|SUPERIORITY||Slope|7.71|STANDARD_ERROR_OF_MEAN|5.28||0.15|TWO_SIDED|95.0|-2.92|18.35|||Regression, Linear|||||18.35|-2.92|0.15
92184246|NCT00749944|184266968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.3|2.3|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.3|0.3|
92290555|NCT05511935|184484599|SUPERIORITY||Slope|0.43|STANDARD_ERROR_OF_MEAN|4.19||0.92|TWO_SIDED|95.0|-8.13|8.99|||Regression, Linear|||||8.99|-8.13|0.92
92290556|NCT05511935|184484600|SUPERIORITY||Slope|7.66|STANDARD_ERROR_OF_MEAN|5.81||0.2|TWO_SIDED|95.0|-4.17|19.49|||Regression, Linear|||||19.49|-4.17|0.20
92290557|NCT05511935|184484601|SUPERIORITY||Slope|-9.29|STANDARD_ERROR_OF_MEAN|10.74||0.39|TWO_SIDED|95.0|-31.15|12.56|||Regression, Linear|||||12.56|-31.15|0.39
92290558|NCT01592240|184484630|SUPERIORITY_OR_OTHER||Adjusted mean difference|-34.28|||<|0.001|TWO_SIDED|95.0|-45.06|-23.5|||Mixed models repeated measures analysis|||||-23.50|-45.06|<0.001
92184247|NCT00749944|184266968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.4|1.9|||||Cochran-Mantel-Haenszel|Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.9|0.4|
92290559|NCT01592240|184484630|SUPERIORITY_OR_OTHER||Adjusted mean difference|-45.07|||<|0.001|TWO_SIDED|95.0|-55.93|-34.21|||Mixed models repeated measures analysis|||||-34.21|-55.93|<0.001
92290560|NCT01592240|184484630|SUPERIORITY_OR_OTHER||Adjusted mean difference|-53.42|||<|0.001|TWO_SIDED|95.0|-64.14|-42.7|||Mixed models repeated measures analysis|||||-42.70|-64.14|<0.001
92290561|NCT01592240|184484630|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.58|||<|0.001|TWO_SIDED|95.0|-40.49|-14.67|||Mixed models repeated measures analysis|||||-14.67|-40.49|<0.001
92290562|NCT01592240|184484630|SUPERIORITY_OR_OTHER||Adjusted mean difference|-44.85|||<|0.001|TWO_SIDED|95.0|-57.65|-32.05|||Mixed models repeated measures analysis|||||-32.05|-57.65|<0.001
92290563|NCT01592240|184484631|SUPERIORITY_OR_OTHER||Adjusted mean difference|-28.41|||<|0.001|TWO_SIDED|95.0|-39.15|-17.67|||Mixed models repeated measures analysis|||||-17.67|-39.15|<0.001
92290564|NCT01592240|184484631|SUPERIORITY_OR_OTHER||Adjusted mean difference|-43.21|||<|0.001|TWO_SIDED|95.0|-53.9|-32.51|||Mixed models repeated measures analysis|||||-32.51|-53.90|<0.001
92290565|NCT01592240|184484631|SUPERIORITY_OR_OTHER||Adjusted mean difference|-41.03|||<|0.001|TWO_SIDED|95.0|-51.66|-30.41|||Mixed models repeated measures analysis|||||-30.41|-51.66|<0.001
92290566|NCT01592240|184484631|SUPERIORITY_OR_OTHER||Adjusted mean difference|-23.77|||<|0.001|TWO_SIDED|95.0|-33.7|-13.84|||Mixed models repeated measures analysis|||||-13.84|-33.70|<0.001
92290567|NCT01592240|184484631|SUPERIORITY_OR_OTHER||Adjusted mean difference|-30.36|||<|0.001|TWO_SIDED|95.0|-40.24|-20.49|||Mixed models repeated measures analysis|||||-20.49|-40.24|<0.001
92290568|NCT01592240|184484632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-35.0|||<|0.001|TWO_SIDED|95.0|-44.91|-25.1|||Mixed models repeated measures analysis|||Week 12||-25.10|-44.91|<0.001
92290569|NCT01592240|184484632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-42.32|||<|0.001|TWO_SIDED|95.0|-52.3|-32.33|||Mixed models repeated measures analysis|||Week 12||-32.33|-52.30|<0.001
92290570|NCT01592240|184484632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-53.12|||<|0.001|TWO_SIDED|95.0|-62.97|-43.27|||Mixed models repeated measures analysis|||Week 12||-43.27|-62.97|<0.001
92290571|NCT01592240|184484632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-26.96|||<|0.001|TWO_SIDED|95.0|-38.25|-15.67|||Mixed models repeated measures analysis|||Week 12||-15.67|-38.25|<0.001
92184248|NCT00749944|184266968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.4|2.2|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.2|0.4|
92290572|NCT01592240|184484632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-41.13|||<|0.001|TWO_SIDED|95.0|-52.32|-29.94|||Mixed models repeated measures analysis|||Week 12||-29.94|-52.32|<0.001
92290573|NCT01592240|184484632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-29.09|||<|0.001|TWO_SIDED|95.0|-38.42|-19.77|||Mixed models repeated measures analysis|||Week 24||-19.77|-38.42|<0.001
92290574|NCT01592240|184484632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-40.14|||<|0.001|TWO_SIDED|95.0|-49.43|-30.86|||Mixed models repeated measures analysis|||Week 24||-30.86|-49.43|<0.001
92290575|NCT01592240|184484632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-39.16|||<|0.001|TWO_SIDED|95.0|-48.37|-29.94|||Mixed models repeated measures analysis|||Week 24||-29.94|-48.37|<0.001
92290576|NCT01592240|184484632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-23.79|||<|0.001|TWO_SIDED|95.0|-32.88|-14.7|||Mixed models repeated measures analysis|||Week 24||-14.70|-32.88|<0.001
92290577|NCT01592240|184484632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-29.08|||<|0.001|TWO_SIDED|95.0|-38.13|-20.04|||Mixed models repeated measures analysis|||Week 24||-20.04|-38.13|<0.001
92290578|NCT01592240|184484633|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.64||||0.281|TWO_SIDED|95.0|-1.35|4.63|||Mixed models repeated measures analysis|||Week 12||4.63|-1.35|0.281
92290579|NCT01592240|184484633|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.73||||0.251|TWO_SIDED|95.0|-1.24|4.71|||Mixed models repeated measures analysis|||Week 12||4.71|-1.24|0.251
92290580|NCT01592240|184484633|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.53||||0.724|TWO_SIDED|95.0|-2.43|3.5|||Mixed models repeated measures analysis|||Week 12||3.50|-2.43|0.724
92290581|NCT01592240|184484633|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.45||||0.007|TWO_SIDED|95.0|1.21|7.7|||Mixed models repeated measures analysis|||Week 12||7.70|1.21|0.007
92290582|NCT01592240|184484633|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.86||||0.019|TWO_SIDED|95.0|0.63|7.09|||Mixed models repeated measures analysis|||Week 12||7.09|0.63|0.019
92290583|NCT01592240|184484633|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.72||||0.225|TWO_SIDED|95.0|-1.07|4.51|||Mixed models repeated measures analysis|||Week 24||4.51|-1.07|0.225
92290584|NCT01592240|184484633|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.79||||0.571|TWO_SIDED|95.0|-1.97|3.56|||Mixed models repeated measures analysis|||Week 24||3.56|-1.97|0.571
92290585|NCT01592240|184484633|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.49||||0.725|TWO_SIDED|95.0|-2.25|3.24|||Mixed models repeated measures analysis|||Week 24||3.24|-2.25|0.725
92290586|NCT01592240|184484633|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.01||||0.268|TWO_SIDED|95.0|-1.56|5.57|||Mixed models repeated measures analysis|||Week 24||5.57|-1.56|0.268
92290587|NCT01592240|184484633|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.01||||0.996|TWO_SIDED|95.0|-3.55|3.54|||Mixed models repeated measures analysis|||Week 24||3.54|-3.55|0.996
92290588|NCT01592240|184484634|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.41||||0.246|TWO_SIDED|95.0|-2.38|9.21|||Mixed models repeated measures analysis|||Week 12||9.21|-2.38|0.246
92184249|NCT00749944|184266968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.5|2.6|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.6|0.5|
92290589|NCT01592240|184484634|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.62||||0.371|TWO_SIDED|95.0|-3.14|8.38|||Mixed models repeated measures analysis|||Week 12||8.38|-3.14|0.371
92290590|NCT01592240|184484634|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.35||||0.643|TWO_SIDED|95.0|-4.4|7.1|||Mixed models repeated measures analysis|||Week 12||7.10|-4.40|0.643
92290591|NCT01592240|184484634|SUPERIORITY_OR_OTHER||Adjusted mean difference|7.66||||0.018|TWO_SIDED|95.0|1.33|13.99|||Mixed models repeated measures analysis|||Week 12||13.99|1.33|0.018
92290592|NCT01592240|184484634|SUPERIORITY_OR_OTHER||Adjusted mean difference|6.52||||0.043|TWO_SIDED|95.0|0.22|12.83|||Mixed models repeated measures analysis|||Week 12||12.83|0.22|0.043
92290593|NCT01592240|184484634|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.9||||0.16|TWO_SIDED|95.0|-1.56|9.36|||Mixed models repeated measures analysis|||Week 24||9.36|-1.56|0.160
92290594|NCT01592240|184484634|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.85||||0.758|TWO_SIDED|95.0|-4.56|6.25|||Mixed models repeated measures analysis|||Week 24||6.25|-4.56|0.758
92290595|NCT01592240|184484634|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.57||||0.347|TWO_SIDED|95.0|-2.81|7.95|||Mixed models repeated measures analysis|||Week 24||7.95|-2.81|0.347
92290596|NCT01592240|184484634|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.99||||0.343|TWO_SIDED|95.0|-3.22|9.21|||Mixed models repeated measures analysis|||Week 24||9.21|-3.22|0.343
92290597|NCT01592240|184484634|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7||||0.824|TWO_SIDED|95.0|-6.87|5.48|||Mixed models repeated measures analysis|||Week 24||5.48|-6.87|0.824
92290598|NCT01592240|184484635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-18.55|||<|0.001|TWO_SIDED|95.0|-25.44|-11.67|||Mixed models repeated measures analysis|||Week 12||-11.67|-25.44|<0.001
92290599|NCT01592240|184484635|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.67|||<|0.001|TWO_SIDED|95.0|-34.55|-20.79|||Mixed models repeated measures analysis|||Week 12||-20.79|-34.55|<0.001
92290600|NCT01592240|184484635|SUPERIORITY_OR_OTHER||Adjusted mean difference|-32.09|||<|0.001|TWO_SIDED|95.0|-38.95|-25.22|||Mixed models repeated measures analysis|||Week 12||-25.22|-38.95|<0.001
92290601|NCT01592240|184484635|SUPERIORITY_OR_OTHER||Adjusted mean difference|-14.56|||<|0.001|TWO_SIDED|95.0|-22.89|-6.24|||Mixed models repeated measures analysis|||Week 12||-6.24|-22.89|<0.001
92290602|NCT01592240|184484635|SUPERIORITY_OR_OTHER||Adjusted mean difference|-28.5|||<|0.001|TWO_SIDED|95.0|-36.83|-20.16|||Mixed models repeated measures analysis|||Week 12||-20.16|-36.83|<0.001
92290603|NCT01592240|184484635|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.67|||<|0.001|TWO_SIDED|95.0|-27.07|-12.27|||Mixed models repeated measures analysis|||Week 24||-12.27|-27.07|<0.001
92290604|NCT01592240|184484635|SUPERIORITY_OR_OTHER||Adjusted mean difference|-28.17|||<|0.001|TWO_SIDED|95.0|-35.52|-20.82|||Mixed models repeated measures analysis|||Week 24||-20.82|-35.52|<0.001
92290605|NCT01592240|184484635|SUPERIORITY_OR_OTHER||Adjusted mean difference|-25.41|||<|0.001|TWO_SIDED|95.0|-32.73|-18.09|||Mixed models repeated measures analysis|||Week 24||-18.09|-32.73|<0.001
92290606|NCT01592240|184484635|SUPERIORITY_OR_OTHER||Adjusted mean difference|-12.72|||<|0.001|TWO_SIDED|95.0|-19.35|-6.09|||Mixed models repeated measures analysis|||Week 24||-6.09|-19.35|<0.001
92290607|NCT01592240|184484635|SUPERIORITY_OR_OTHER||Adjusted mean difference|-16.85|||<|0.001|TWO_SIDED|95.0|-23.47|-10.23|||Mixed models repeated measures analysis|||Week 24||-10.23|-23.47|<0.001
92290608|NCT01592240|184484636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-21.58|||<|0.001|TWO_SIDED|95.0|-29.23|-13.92|||Mixed models repeated measures analysis|||Week 12||-13.92|-29.23|<0.001
92290609|NCT01592240|184484636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-30.54|||<|0.001|TWO_SIDED|95.0|-38.19|-22.89|||Mixed models repeated measures analysis|||Week 12||-22.89|-38.19|<0.001
92290610|NCT01592240|184484636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-35.95|||<|0.001|TWO_SIDED|95.0|-43.59|-28.31|||Mixed models repeated measures analysis|||Week 12||-28.31|-43.59|<0.001
92290611|NCT01592240|184484636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-17.14|||<|0.001|TWO_SIDED|95.0|-25.87|-8.41|||Mixed models repeated measures analysis|||Week 12||-8.41|-25.87|<0.001
92290612|NCT01592240|184484636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-30.72|||<|0.001|TWO_SIDED|95.0|-39.45|-21.98|||Mixed models repeated measures analysis|||Week 12||-21.98|-39.45|<0.001
92290613|NCT01592240|184484636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-22.09|||<|0.001|TWO_SIDED|95.0|-30.32|-13.86|||Mixed models repeated measures analysis|||Week 24||-13.86|-30.32|<0.001
92290614|NCT01592240|184484636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-30.95|||<|0.001|TWO_SIDED|95.0|-39.13|-22.77|||Mixed models repeated measures analysis|||Week 24||-22.77|-39.13|<0.001
92290615|NCT01592240|184484636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.23|||<|0.001|TWO_SIDED|95.0|-35.38|-19.09|||Mixed models repeated measures analysis|||Week 24||-19.09|-35.38|<0.001
92290616|NCT01592240|184484636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-15.34|||<|0.001|TWO_SIDED|95.0|-22.9|-7.78|||Mixed models repeated measures analysis|||Week 24||-7.78|-22.90|<0.001
92290617|NCT01592240|184484636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.15|||<|0.001|TWO_SIDED|95.0|-26.7|-11.59|||Mixed models repeated measures analysis|||Week 24||-11.59|-26.70|<0.001
92290618|NCT01592240|184484637|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.77||||0.667|TWO_SIDED|95.0|-6.33|9.88|||Mixed models repeated measures analysis|||Week 12||9.88|-6.33|0.667
92290619|NCT01592240|184484637|SUPERIORITY_OR_OTHER||Adjusted mean difference|5.44||||0.187|TWO_SIDED|95.0|-2.66|13.54|||Mixed models repeated measures analysis|||Week 12||13.54|-2.66|0.187
92290620|NCT01592240|184484637|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.82||||0.352|TWO_SIDED|95.0|-4.25|11.9|||Mixed models repeated measures analysis|||Week 12||11.90|-4.25|0.352
92290621|NCT01592240|184484637|SUPERIORITY_OR_OTHER||Adjusted mean difference|5.6||||0.09|TWO_SIDED|95.0|-0.89|12.09|||Mixed models repeated measures analysis|||Week 12||12.09|-0.89|0.090
92290622|NCT01592240|184484637|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.36||||0.184|TWO_SIDED|95.0|-2.1|10.82|||Mixed models repeated measures analysis|||Week 12||10.82|-2.10|0.184
92184250|NCT00749944|184266968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.5|2.3|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.3|0.5|
92290623|NCT01592240|184484637|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.59||||0.879|TWO_SIDED|95.0|-7.09|8.28|||Mixed models repeated measures analysis|||Week 24||8.28|-7.09|0.879
92290624|NCT01592240|184484637|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.43||||0.911|TWO_SIDED|95.0|-7.17|8.02|||Mixed models repeated measures analysis|||Week 24||8.02|-7.17|0.911
92290625|NCT01592240|184484637|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.12||||0.283|TWO_SIDED|95.0|-3.44|11.69|||Mixed models repeated measures analysis|||Week 24||11.69|-3.44|0.283
92290626|NCT01592240|184484637|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.41||||0.728|TWO_SIDED|95.0|-9.41|6.59|||Mixed models repeated measures analysis|||Week 24||6.59|-9.41|0.728
92290627|NCT01592240|184484637|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.19||||0.587|TWO_SIDED|95.0|-10.13|5.75|||Mixed models repeated measures analysis|||Week 24||5.75|-10.13|0.587
92290628|NCT01592240|184484638|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.66||||0.89|TWO_SIDED|95.0|-10.05|8.74|||Mixed models repeated measures analysis|||Week 12||8.74|-10.05|0.890
92290629|NCT01592240|184484638|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.32||||0.625|TWO_SIDED|95.0|-7.04|11.68|||Mixed models repeated measures analysis|||Week 12||11.68|-7.04|0.625
92290630|NCT01592240|184484638|SUPERIORITY_OR_OTHER||Adjusted mean difference|6.54||||0.172|TWO_SIDED|95.0|-2.86|15.94|||Mixed models repeated measures analysis|||Week 12||15.94|-2.86|0.172
92290631|NCT01592240|184484638|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.5||||0.109|TWO_SIDED|95.0|-0.79|7.8|||Mixed models repeated measures analysis|||Week 12||7.80|-0.79|0.109
92290632|NCT01592240|184484638|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.67||||0.218|TWO_SIDED|95.0|-1.6|6.94|||Mixed models repeated measures analysis|||Week 12||6.94|-1.60|0.218
92290633|NCT01592240|184484638|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.86||||0.812|TWO_SIDED|95.0|-8.01|6.29|||Mixed models repeated measures analysis|||Week 24||6.29|-8.01|0.812
92184251|NCT00749944|184266968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.6|2.7|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.7|0.6|
92290634|NCT01592240|184484638|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.15||||0.749|TWO_SIDED|95.0|-8.24|5.94|||Mixed models repeated measures analysis|||Week 24||5.94|-8.24|0.749
92290635|NCT01592240|184484638|SUPERIORITY_OR_OTHER||Adjusted mean difference|5.82||||0.108|TWO_SIDED|95.0|-1.29|12.93|||Mixed models repeated measures analysis|||Week 24||12.93|-1.29|0.108
92290636|NCT01592240|184484638|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.83||||0.752|TWO_SIDED|95.0|-5.99|4.34|||Mixed models repeated measures analysis|||Week 24||4.34|-5.99|0.752
92290637|NCT01592240|184484638|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.55||||0.55|TWO_SIDED|95.0|-6.68|3.57|||Mixed models repeated measures analysis|||Week 24||3.57|-6.68|0.550
92290638|NCT01592240|184484639|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.19||||0.893|TWO_SIDED|95.0|-2.62|3.0|||Mixed models repeated measures analysis|||Week 12||3.00|-2.62|0.893
92290639|NCT01592240|184484639|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.33||||0.355|TWO_SIDED|95.0|-1.49|4.15|||Mixed models repeated measures analysis|||Week 12||4.15|-1.49|0.355
92290640|NCT01592240|184484639|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.64||||0.655|TWO_SIDED|95.0|-3.45|2.17|||Mixed models repeated measures analysis|||Week 12||2.17|-3.45|0.655
92290641|NCT01592240|184484639|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.49||||0.719|TWO_SIDED|95.0|-3.2|2.21|||Mixed models repeated measures analysis|||Week 12||2.21|-3.20|0.719
92290642|NCT01592240|184484639|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.41||||0.768|TWO_SIDED|95.0|-2.31|3.12|||Mixed models repeated measures analysis|||Week 12||3.12|-2.31|0.768
92290643|NCT01592240|184484639|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.66||||0.199|TWO_SIDED|95.0|-0.88|4.2|||Mixed models repeated measures analysis|||Week 24||4.20|-0.88|0.199
92290644|NCT01592240|184484639|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.9||||0.483|TWO_SIDED|95.0|-1.62|3.41|||Mixed models repeated measures analysis|||Week 24||3.41|-1.62|0.483
92290645|NCT01592240|184484639|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.03||||0.42|TWO_SIDED|95.0|-1.49|3.56|||Mixed models repeated measures analysis|||Week 24||3.56|-1.49|0.420
92290646|NCT01592240|184484639|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.69||||0.488|TWO_SIDED|95.0|-2.67|1.28|||Mixed models repeated measures analysis|||Week 24||1.28|-2.67|0.488
92290647|NCT01592240|184484639|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.39||||0.694|TWO_SIDED|95.0|-2.36|1.58|||Mixed models repeated measures analysis|||Week 24||1.58|-2.36|0.694
92290648|NCT01592240|184484640|SUPERIORITY_OR_OTHER||Adjusted mean difference|10.29||||0.527|TWO_SIDED|95.0|-21.73|42.3|||Mixed models repeated measures analysis|||Week 12||42.30|-21.73|0.527
92290649|NCT01592240|184484640|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.39||||0.981|TWO_SIDED|95.0|-31.49|32.26|||Mixed models repeated measures analysis|||Week 12||32.26|-31.49|0.981
92290650|NCT01592240|184484640|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.54||||0.974|TWO_SIDED|95.0|-31.72|32.8|||Mixed models repeated measures analysis|||Week 12||32.80|-31.72|0.974
92290651|NCT01592240|184484640|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.58||||0.64|TWO_SIDED|95.0|-8.25|5.09|||Mixed models repeated measures analysis|||Week 12||5.09|-8.25|0.640
92290652|NCT01592240|184484640|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.08||||0.75|TWO_SIDED|95.0|-5.61|7.77|||Mixed models repeated measures analysis|||Week 12||7.77|-5.61|0.750
92290653|NCT01592240|184484640|SUPERIORITY_OR_OTHER||Adjusted mean difference|9.8||||0.509|TWO_SIDED|95.0|-19.41|39.01|||Mixed models repeated measures analysis|||Week 24||39.01|-19.41|0.509
92290654|NCT01592240|184484640|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.69||||0.855|TWO_SIDED|95.0|-31.76|26.38|||Mixed models repeated measures analysis|||Week 24||26.38|-31.76|0.855
92290655|NCT01592240|184484640|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.04||||0.839|TWO_SIDED|95.0|-26.39|32.47|||Mixed models repeated measures analysis|||Week 24||32.47|-26.39|0.839
92290656|NCT01592240|184484640|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.99||||0.392|TWO_SIDED|95.0|-6.57|2.59|||Mixed models repeated measures analysis|||Week 24||2.59|-6.57|0.392
92290657|NCT01592240|184484640|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.33||||0.565|TWO_SIDED|95.0|-5.91|3.24|||Mixed models repeated measures analysis|||Week 24||3.24|-5.91|0.565
92184252|NCT00749944|184266968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.5|2.8|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.8|0.5|
92290658|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.964|||<|0.001|TWO_SIDED|95.0|3.997|56.02|||Regression, Logistic|||Week 12, Less than 100 mg/dL||56.020|3.997|<0.001
92290659|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|49.615|||<|0.001|TWO_SIDED|95.0|7.984|308.328|||Regression, Logistic|||Week 12, Less than 100 mg/dL||308.328|7.984|<0.001
92290660|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.842|||<|0.001|TWO_SIDED|95.0|3.674|44.892|||Regression, Logistic|||Week 12, Less than 100 mg/dL||44.892|3.674|<0.001
92290661|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.107||||0.01|TWO_SIDED|95.0|1.304|7.401|||Regression, Logistic|||Week 12, Less than 100 mg/dL||7.401|1.304|0.010
92184253|NCT00749944|184266970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.0|5.6|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.6|0.0|
92184254|NCT00749944|184266970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.0|5.6|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.6|0.0|
92290662|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.048|||<|0.001|TWO_SIDED|95.0|2.402|15.225|||Regression, Logistic|||Week 12, Less than 100 mg/dL||15.225|2.402|<0.001
92290663|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.773|||<|0.001|TWO_SIDED|95.0|3.932|41.495|||Regression, Logistic|||Week 24, Less than 100 mg/dL||41.495|3.932|<0.001
92290664|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|36.886|||<|0.001|TWO_SIDED|95.0|8.33|163.335|||Regression, Logistic|||Week 24, Less than 100 mg/dL||163.335|8.330|<0.001
92290665|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.75|||<|0.001|TWO_SIDED|95.0|5.741|75.006|||Regression, Logistic|||Week 24, Less than 100 mg/dL||75.006|5.741|<0.001
92290666|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.219||||0.001|TWO_SIDED|95.0|2.061|18.764|||Regression, Logistic|||Week 24, Less than 100 mg/dL||18.764|2.061|0.001
92290667|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.205||||0.001|TWO_SIDED|95.0|2.06|18.693|||Regression, Logistic|||Week 24, Less than 100 mg/dL||18.693|2.060|0.001
92290668|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.703|||<|0.001|TWO_SIDED|95.0|5.752|133.423|||Regression, Logistic|||Week 12, Less than 70 mg/dL||133.423|5.752|<0.001
92290669|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|71.177|||<|0.001|TWO_SIDED|95.0|13.783|367.564|||Regression, Logistic|||Week 12, Less than 70 mg/dL||367.564|13.783|<0.001
92290670|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|100.667|||<|0.001|TWO_SIDED|95.0|19.855|510.387|||Regression, Logistic|||Week 12, Less than 70 mg/dL||510.387|19.855|<0.001
92290671|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 70 mg/dL.||||<0.001
92290672|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.941|||<|0.001|TWO_SIDED|95.0|6.336|98.169|||Regression, Logistic|||Week 24, Less than 70 mg/dL.||98.169|6.336|<0.001
92290673|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|80.004|||<|0.001|TWO_SIDED|95.0|18.094|353.742|||Regression, Logistic|||Week 24, Less than 70 mg/dL.||353.742|18.094|<0.001
92290674|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|42.101|||<|0.001|TWO_SIDED|95.0|10.621|166.894|||Regression, Logistic|||Week 24, Less than 70 mg/dL.||166.894|10.621|<0.001
92290675|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.7||||0.023|TWO_SIDED|95.0|1.396|98.075|||Regression, Logistic|||Week 24, Less than 70 mg/dL.||98.075|1.396|0.023
92290676|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|36.841|||<|0.001|TWO_SIDED|95.0|4.527|299.817|||Regression, Logistic|||Week 24, Less than 70 mg/dL||299.817|4.527|<0.001
92290677|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 40 mg/dL.||||<0.001
92290678|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 40 mg/dL.||||<0.001
92290679|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 40 mg/dL.||||<0.001
92290680|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 24, Less than 40 mg/dL.||||<0.001
92290681|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 24, Less than 40 mg/dL.||||<0.001
92290682|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 24, Less than 40 mg/dL.||||<0.001
92290683|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 25 mg/dL.||||<0.001
92290684|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 25 mg/dL.||||<0.001
92290685|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 25 mg/dL.||||<0.001
92290686|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.587||||1|||||||Regression, Logistic|||Week 24, Less than 25 mg/dL||||1.000
92290687|NCT01592240|184484654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 24, Less than 25 mg/dL.||||<0.001
92290688|NCT01592240|184484654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.925||||1|||||||Regression, Logistic|||Week 24, Less than 25 mg/dL||||1.000
92184255|NCT00749944|184266970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.3|3.6|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.6|0.3|
92290689|NCT01662960|184484685|SUPERIORITY|Test for the superiority of Mirror therapy over Divider therapy.|Slope|2.2||||0.443|TWO_SIDED|||||ANCOVA analysis with post-treatment score as the dependent variable, therapy type (Mirror therapy or Divider Therapy) as the independent variable, and pre-treatment score as the covariate. P-value reported is for the main effect of therapy type.|ANCOVA|||||||.443
92290690|NCT01662960|184484686|SUPERIORITY|Test for the superiority of Mirror therapy over Divider therapy.|Slope|0.4||||0.8|TWO_SIDED|||||ANCOVA analysis with post-treatment score as the dependent variable, therapy type (Mirror therapy or Divider Therapy) as the independent variable, and pre-treatment score as the covariate. P-value reported is for the main effect of therapy type.|ANCOVA|||||||.80
92290691|NCT01662960|184484687|SUPERIORITY|Test for the superiority of Mirror therapy over Divider therapy.|Slope|-0.002||||0.93|TWO_SIDED|||||ANCOVA analysis with post-treatment score as the dependent variable, therapy type (Mirror therapy or Divider Therapy) as the independent variable, and pre-treatment score as the covariate. P-value reported is for the main effect of therapy type.|ANCOVA|||||||.93
92290692|NCT01662960|184484689|SUPERIORITY|Test for the superiority of Mirror therapy over Divider therapy.|Slope|10.7||||0.28|TWO_SIDED|||||ANCOVA analysis with post-treatment score as the dependent variable, therapy type (Mirror therapy or Divider Therapy) as the independent variable, and pre-treatment score as the covariate. P-value reported is for the main effect of therapy type.|ANCOVA|||||||.28
92184256|NCT00749944|184266970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.0|5.7|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.7|0.0|
92290693|NCT01662960|184484690|SUPERIORITY|Test for the superiority of Mirror therapy over Divider therapy.|Slope|-0.36||||0.86|TWO_SIDED|||||ANCOVA analysis with post-treatment score as the dependent variable, therapy type (Mirror therapy or Divider Therapy) as the independent variable, and pre-treatment score as the covariate. P-value reported is for the main effect of therapy type.|ANCOVA|||||||.86
92290694|NCT02727192|184484693|SUPERIORITY||Mean Difference (Net)|-0.6||||0.52|TWO_SIDED|95.0|-2.6|1.3||A two-sided significance level of 5% was considered to indicate statistical significance.|Regression, Linear|||||1.3|-2.6|0.520
92290695|NCT02727192|184484694|SUPERIORITY||Mean Difference (Net)|-0.9||||0.44|TWO_SIDED|95.0|-3.3|1.5|||Regression, Linear|||||1.5|-3.3|0.440
92290696|NCT02727192|184484695|SUPERIORITY||Mean Difference (Net)|-0.6||||0.41|TWO_SIDED|95.0|-2.1|0.9|||Regression, Linear|||||0.9|-2.1|0.410
92290697|NCT02727192|184484696|SUPERIORITY||Difference in Percentage of Participants|-9.3||||0.33|TWO_SIDED||||||Chi-squared|||||||0.33
92290698|NCT02727192|184484699|SUPERIORITY||Mean Difference (Net)|2.8||||0.058|TWO_SIDED|95.0|-0.1|5.8|||Regression, Linear|||Mental Component Summary score||5.8|-0.1|0.058
92290699|NCT02727192|184484699|SUPERIORITY||Mean Difference (Net)|-2.1||||0.16|TWO_SIDED|95.0|-5.1|0.8|||Regression, Linear|||Physical Component Summary score||0.8|-5.1|0.160
92290700|NCT02727192|184484700|SUPERIORITY||Mean Difference (Net)|-0.9||||0.11|TWO_SIDED|95.0|-2.0|0.2|||Regression, Linear|||||0.2|-2.0|0.110
92290701|NCT02727192|184484702|SUPERIORITY||Mean Difference (Net)|0.1||||0.85|TWO_SIDED|95.0|-0.5|0.6|||Regression, Linear|||||0.6|-0.5|0.850
92290702|NCT02727192|184484704|SUPERIORITY||Median Difference (Net)|0.3||||0.65|TWO_SIDED|95.0|-1.0|1.6|||Regression, Linear|||||1.6|-1.0|0.650
92290703|NCT02727192|184484705|SUPERIORITY||Mean Difference (Net)|2.6||||0.006|TWO_SIDED|95.0|0.8|4.5|||Regression, Linear|||||4.5|0.8|0.006
92184257|NCT00749944|184266970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.0|5.7|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.7|0.0|
92184258|NCT00749944|184266970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.3|3.7|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.7|0.3|
92290704|NCT02727192|184484706|SUPERIORITY||Median Difference (Net)|-31.4||||0.389|TWO_SIDED|95.0|-103.4|40.7|||Regression, Linear|||||40.7|-103.4|0.389
92290705|NCT02727192|184484709|SUPERIORITY||Mean Difference (Net)|0.1||||0.697|TWO_SIDED|95.0|-0.3|0.5|||Regression, Logistic|||||0.5|-0.3|0.697
92290706|NCT05497557|184484715|OTHER|Drug-drug Interaction Assessment|Ratio of geometric least squares mean|0.677|||||TWO_SIDED|90.0|0.547|0.839||||||Ratios of geometric least squares means, and corresponding confidence intervals were obtained by taking the exponential of the least square means (LSMs), differences in LSMs, and corresponding confidence intervals on the natural log (ln) scale.||0.839|0.547|
92290707|NCT05497557|184484716|OTHER|Drug-drug Interaction Assessment|Ratio of geometric least squares mean|0.771|||||TWO_SIDED|90.0|0.628|0.948||||||Ratios of geometric least squares means, and corresponding confidence intervals were obtained by taking the exponential of the least square means (LSMs), differences in LSMs, and corresponding confidence intervals on the natural log (ln) scale.||0.948|0.628|
92290708|NCT05497557|184484717|OTHER|Drug-drug Interaction Assessment|Ratio of geometric least squares mean|0.766|||||TWO_SIDED|90.0|0.619|0.948||||||Ratios of geometric least squares means, and corresponding confidence intervals were obtained by taking the exponential of the least square means (LSMs), differences in LSMs, and corresponding confidence intervals on the natural log (ln) scale.||0.948|0.619|
92144123|NCT00414817|184172587|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.852|TWO_SIDED|95.0|0.96|1.06||2-tailed p-value based on overdispersed Poisson regression adjusted for site, age, sex, co-morbid COPD, baseline use of short acting beta agonists, and baseline mMPR|overdispersed Poisson regression|||In all of our analyses we used duration of follow-up as a weighting variable. This weighting is reflected both in the formal statistical analyses and in the presentation of means and standard deviations given above.||1.06|0.96|0.852
92290709|NCT00488774|184484722|SUPERIORITY_OR_OTHER|||||||0.467|||||||Chi-squared|||||||0.467
92290710|NCT00488774|184484722|SUPERIORITY_OR_OTHER|||||||0.081|||||||Chi-squared|||||||0.081
92290711|NCT00488774|184484722|SUPERIORITY_OR_OTHER|||||||0.145|||||||Chi-squared|||||||0.145
92290712|NCT00488774|184484723|SUPERIORITY_OR_OTHER|||||||0.832|||||||Chi-squared|||||||0.832
92290713|NCT00488774|184484723|SUPERIORITY_OR_OTHER|||||||0.37|||||||Chi-squared|||||||0.370
92184259|NCT00749944|184266971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||||TWO_SIDED|95.0|0.2|23.6|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||23.6|0.2|
92290714|NCT00488774|184484723|SUPERIORITY_OR_OTHER|||||||0.702|||||||Chi-squared|||||||0.702
92290715|NCT04590027|184484724|NON_INFERIORITY|power calculation was not recorded Definition of non inferiority: two point difference of pain score at the measurement times|||||<|0.05|||||||ANCOVA|To rule out confounders due to an age difference, the ANCOVA test was applied to compare the differences in pain scores age-unrelatedly.|||Fisher Yates Test to compare the requirement of resue medication|||<0.05
92144124|NCT03382782|184172588|SUPERIORITY||Mean Difference (Net)|0.36||||0.025|TWO_SIDED||||||ANOVA|degrees of freedom = (3, 172)||||||.025
92290716|NCT04590027|184484725|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92290717|NCT05523895|184484728|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.52||0.2986|TWO_SIDED|95.0|-4.6|1.4|||Mixed Models Analysis|||||1.4|-4.6|0.2986
92290718|NCT05523895|184484728|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.49||0.2859|TWO_SIDED|95.0|-4.5|1.3|||Mixed Models Analysis|||||1.3|-4.5|0.2859
92290719|NCT05099380|184484742|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference was above -5.|Least-square Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|95.0|-0.6|6.7|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|Based on the sample size calculation using a two independent sample t test with a 2-sided type I error of 0.05, there would be enough power (i.e., 80%) for testing non-inferiority of the Test relative to the Control with 286 subjects (143 for each lens group) competing the study assuming the Test was 2 points higher than the Control.||6.7|-0.6|
92290720|NCT05099380|184484743|NON_INFERIORITY|Non-inferiority was declared if the upper bound of the 2-sided 95% confidence interval of the mean difference was below 0.05.|Least-square Mean Difference|0.008|STANDARD_ERROR_OF_MEAN|0.008|||TWO_SIDED|95.0|-0.02|0.01|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|Based on the sample size calculation using a linear mixed model-based method with a 2-sided type I error of 0.05, there would be enough power (i.e., at least 80%) for testing non-inferiority of the Test relative to the Control with 16 subjects (8 for each lens group) competing the study assuming no difference between the Test and the Control.||0.01|-0.02|
92290721|NCT05099380|184484744|NON_INFERIORITY|Non-inferiority was declared if the upper bound of the 95% central posterior credible interval of proportion difference was below 0.05.|Mean Proportion Difference|0.0|STANDARD_DEVIATION|0.002|||TWO_SIDED|95.0|-0.004|0.004|||Bayesian hierarchical model||Proportion difference was calculated as Test minus Control|Based on the sample size calculation using a simulation approach and Bayesian analysis with the 95% central posterior credible interval, there would be enough power (i.e., at least 80%) for assessing non-inferiority of the Test relative to the Control with 240 subjects (120 for each lens group) competing the study assuming no difference between the Test and the Control.||0.004|-0.004|
92290722|NCT05099380|184484745|NON_INFERIORITY|Non- inferiority was declared if the upper bound of the 95% central posterior credible interval of proportion difference was below 0.1.|Mean Proportion Difference|0.0|STANDARD_DEVIATION|0.002|||TWO_SIDED|95.0|-0.004|0.004|||Bayesian hierarchical model||Proportion difference was calculated as Test minus Control|Based on the sample size calculation using a simulation approach and Bayesian analysis with the 95% central posterior credible interval, there would be enough power (i.e., at least 80%) for assessing non-inferiority of the Test relative to the Control with 140 subjects (70 for each lens group) competing the study assuming no difference between the Test and the Control.||0.004|-0.004|
92144125|NCT03382782|184172589|SUPERIORITY||Mean Difference (Net)|0.243||||0.784|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intent-to-treat analyses||||0.784
92144126|NCT03382782|184172589|SUPERIORITY||Mean Difference (Net)|0.058||||0.81|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses||||0.810
92144127|NCT03382782|184172590|SUPERIORITY||Mean Difference (Net)|1.77||||0.174|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intent-to-treat analyses||||0.174
92184260|NCT00089791|184267007|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.32|||<|0.0001||95.0|0.26|0.41||Logistic regression was used to generate the p-value|Mantel Haenszel|||||0.41|0.26|<0.0001
92290723|NCT05099380|184484746|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference was above -5.|Least-square Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|2.35|||TWO_SIDED|95.0|-4.8|4.5|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|Based on the sample size calculated for the primary endpoints (i.e., 286 subjects with 143 per lens group), assuming the Test was 2 points higher than the Control, the estimated statistical power for testing non-inferiority of the Test relative to the Control was 73% for CLUE comfort using a two independent sample t test with a 2-sided type I error of 0.05.||4.5|-4.8|
92290724|NCT05099380|184484747|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference was above -5.|Least-square Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|2.13|||TWO_SIDED|95.0|-6.0|2.3|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|Based on the sample size calculated for the primary endpoints (i.e., 286 subjects with 143 per lens group), assuming the Test was 2 points lower than the Control, the estimated statistical power for testing non-inferiority of the Test relative to the Control was 23% for CLUE handling using a two independent sample t test with a 2-sided type I error of 0.05.||2.3|-6.0|
92290725|NCT05099380|184484748|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the odds ratio was greater than 0.67.|Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.83|2.16|||Linear Mixed Model||Odds Ratio was calculated as Test over Control|"Based on the sample size calculated for the primary endpoints (i.e., 286 subjects with 143 per lens group), assuming the percentage of Excellent rating for the Test was 10% higher than the Control, the estimated statistical power for testing non-inferiority of the Test relative to the Control was 93% using a Pearson chi-square test for two proportions with a 2-sided type I error of 0.05."||2.16|0.83|
92290726|NCT05099380|184484749|SUPERIORITY|Superiority was declared if the lower bound of the 2-sided 95% confidence interval of the preference ratio was greater than 1.|Preference Ratio|2.4|||||TWO_SIDED|95.0|1.4|4.1|||Linear Mixed Model||Preference ratio was calculated as Study lens over Habitual lens within the Test lens group.|Based on the sample size calculated for the primary endpoints (i.e., 286 subjects with 143 per lens group), assuming the percentage of subjects preferring Study lens was 20% higher than preferring Habitual lens in the Test lens group, the estimated statistical power for testing superiority of the Test relative to the Habitual was 88% using a simulation approach with a 2-sided type I error of 0.05.||4.10|1.40|
92290727|NCT00907907|184484801|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (PROC MIXED) were performed on the log-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|93.97||||||90.0|80.25|110.04|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||110.04|80.25|
92290728|NCT00907907|184484802|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses of Variance (PROC MIXED) were performed on the log-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|102.01||||||90.0|98.74|105.39|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.39|98.74|
92290729|NCT00907907|184484803|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses of Variance (PROC MIXED) were performed on the log-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|99.91||||||90.0|95.99|103.98|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.98|95.99|
92144128|NCT03382782|184172590|SUPERIORITY||Mean Difference (Net)|1.15||||0.286|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses||||0.286
92184261|NCT00089791|184267008|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.0106||95.0|0.67|0.95|||Regression, Cox|||||0.95|0.67|0.0106
92290730|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% Confidence Interval (CI) for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.88|||||TWO_SIDED|95.0|0.751|1.03||||||Serogroup A: Lot 1 vs Lot 2||1.03|0.751|
92290731|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.985|||||TWO_SIDED|95.0|0.843|1.15||||||Serogroup A: Lot 2 vs Lot 3||1.15|0.843|
92290732|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.867|||||TWO_SIDED|95.0|0.74|1.02||||||Serogroup A: Lot 1 vs Lot 3||1.02|0.740|
92290733|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|1.07|||||TWO_SIDED|95.0|0.888|1.29||||||Serogroup C: Lot 1 vs Lot 2||1.29|0.888|
92290734|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.866|||||TWO_SIDED|95.0|0.714|1.05||||||Serogroup C: Lot 2 vs Lot 3||1.05|0.714|
92290735|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.927|||||TWO_SIDED|95.0|0.766|1.12||||||Serogroup C: Lot 1 vs Lot 3||1.12|0.766|
92290736|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.869|1.19||||||Serogroup Y: Lot 1 vs Lot 2||1.19|0.869|
92144129|NCT03382782|184172591|SUPERIORITY||Mean Difference (Net)|1.36||||0.261|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intent-to-treat analyses||||0.261
92144130|NCT03382782|184172591|SUPERIORITY||Mean Difference (Net)|0.012||||0.912|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses||||0.912
92144131|NCT03382782|184172593|SUPERIORITY||Mean Difference (Net)|1.74||||0.11|TWO_SIDED||||||ANOVA|degrees of freedom = 3, 172||||||0.11
92144132|NCT03382782|184172594|SUPERIORITY||Mean Difference (Net)|1.18||||0.09|TWO_SIDED||||||ANOVA|degrees of freedom = 3, 156||Mean systolic blood pressure||||0.09
92184262|NCT00089791|184267009|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6||||0.0362||95.0|0.37|0.97|||Regression, Cox|||||0.97|0.37|0.0362
92184263|NCT02362789|184267018|SUPERIORITY||Mean Difference (Net)|-18.3||||0.0055|TWO_SIDED|95.0|-31.01|-5.59|||ANCOVA|||||-5.59|-31.01|0.0055
92290737|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.961|||||TWO_SIDED|95.0|0.816|1.13||||||Serogroup Y: Lot 2 vs Lot 3||1.13|0.816|
92290738|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.975|||||TWO_SIDED|95.0|0.829|1.15||||||Serogroup Y: Lot 1 vs Lot 3||1.15|0.829|
92290739|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|1.04|||||TWO_SIDED|95.0|0.878|1.22||||||Serogroup W: Lot 1 vs Lot 2||1.22|0.878|
92290740|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.936|||||TWO_SIDED|95.0|0.791|1.11||||||Serogroup W: Lot 2 vs Lot 3||1.11|0.791|
92290741|NCT02842853|184484814|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.97|||||TWO_SIDED|95.0|0.818|1.15||||||Serogroup W: Lot 1 vs Lot 3||1.15|0.818|
92290742|NCT02842853|184484815|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|19.1|||||TWO_SIDED|95.0|14.8|23.5||||||Serogroup A||23.5|14.8|
92290743|NCT02842853|184484815|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|40.9|||||TWO_SIDED|95.0|36.7|45.0||||||Serogroup C||45|36.7|
92290744|NCT02842853|184484815|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|18.1|||||TWO_SIDED|95.0|14.5|21.9||||||Serogroup Y||21.9|14.5|
92290745|NCT02842853|184484815|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|19.1|||||TWO_SIDED|95.0|14.9|23.3||||||Serogroup W||23.3|14.9|
92290746|NCT02842853|184484816|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|19.6|||||TWO_SIDED|95.0|13.5|25.8||||||Serogroup A||25.8|13.5|
92290747|NCT02842853|184484816|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|41.1|||||TWO_SIDED|95.0|35.0|46.9||||||Serogroup C||46.9|35.0|
92290748|NCT02842853|184484816|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|27.4|||||TWO_SIDED|95.0|21.7|33.3||||||Serogroup Y||33.3|21.7|
92290749|NCT02842853|184484816|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|26.8|||||TWO_SIDED|95.0|20.7|32.9||||||Serogroup W||32.9|20.7|
92290750|NCT02842853|184484817|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|18.7|||||TWO_SIDED|95.0|12.5|24.9||||||Serogroup A||24.9|12.5|
92290751|NCT02842853|184484817|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|42.3|||||TWO_SIDED|95.0|36.6|48.0||||||Serogroup C||48.0|36.6|
92290752|NCT02842853|184484817|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|10.0|||||TWO_SIDED|95.0|6.18|14.5||||||Serogroup Y||14.5|6.18|
92290753|NCT02842853|184484817|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|12.5|||||TWO_SIDED|95.0|7.22|18.2||||||Serogroup W||18.2|7.22|
92290754|NCT02842853|184484818|OTHER||Percentage Difference|-5.4|||||TWO_SIDED|95.0|-9.59|-1.16||||||Serogroup A: Lot 1 vs Lot 2||-1.16|-9.59|
92290755|NCT02842853|184484818|OTHER||Percentage Difference|2.9|||||TWO_SIDED|95.0|-1.3|7.01||||||Serogroup A: Lot 2 vs Lot 3||7.01|-1.3|
92290756|NCT02842853|184484818|OTHER||Percentage Difference|-2.5|||||TWO_SIDED|95.0|-6.78|1.74||||||Serogroup A: Lot 1 vs Lot 3||1.74|-6.78|
92290757|NCT02842853|184484818|OTHER||Percentage Difference|1.3|||||TWO_SIDED|95.0|-1.58|4.28||||||Serogroup C: Lot 1 vs Lot 2||4.28|-1.58|
92184264|NCT02037568|184267019|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||||||.96
92290758|NCT02842853|184484818|OTHER||Percentage Difference|2.4|||||TWO_SIDED|95.0|-0.74|5.54||||||Serogroup C: Lot 2 vs Lot 3||5.54|-0.740|
92290759|NCT02842853|184484818|OTHER||Percentage Difference|3.7|||||TWO_SIDED|95.0|0.708|6.79||||||Serogroup C: Lot 1 vs Lot 3||6.79|0.708|
92290760|NCT02842853|184484818|OTHER||Percentage Difference|0.5|||||TWO_SIDED|95.0|-2.14|3.07||||||Serogroup Y: Lot 1 vs Lot 2||3.07|-2.14|
92290761|NCT02842853|184484818|OTHER||Percentage Difference|2.0|||||TWO_SIDED|95.0|-0.763|4.79||||||Serogroup Y: Lot 2 vs Lot 3||4.79|-0.763|
92290762|NCT02842853|184484818|OTHER||Percentage Difference|2.5|||||TWO_SIDED|95.0|-0.248|5.2||||||Serogroup Y: Lot 1 vs Lot 3||5.20|-0.248|
92290763|NCT02842853|184484818|OTHER||Percentage Difference|0.8|||||TWO_SIDED|95.0|-3.0|4.54||||||Serogroup W: Lot 1 vs Lot 2||4.54|-3.00|
92290764|NCT02842853|184484818|OTHER||Percentage Difference|2.0|||||TWO_SIDED|95.0|-1.84|5.89||||||Serogroup W: Lot 2 vs Lot 3||5.89|-1.84|
92290765|NCT02842853|184484818|OTHER||Percentage Difference|2.8|||||TWO_SIDED|95.0|-1.02|6.61||||||Serogroup W: Lot 1 vs Lot 3||6.61|-1.02|
92290766|NCT02842853|184484819|OTHER||GMT Ratio|1.93|||||TWO_SIDED|95.0|1.67|2.24||||||Serogroup A||2.24|1.67|
92290767|NCT02842853|184484819|OTHER||GMT Ratio|8.05|||||TWO_SIDED|95.0|6.58|9.84||||||Serogroup C||9.84|6.58|
92290768|NCT02842853|184484819|OTHER||GMT Ratio|3.22|||||TWO_SIDED|95.0|2.71|3.84||||||Serogroup Y||3.84|2.71|
92290769|NCT02842853|184484819|OTHER||GMT Ratio|1.9|||||TWO_SIDED|95.0|1.61|2.24||||||Serogroup W||2.24|1.61|
92290770|NCT04723693|184484846|OTHER||||||||||||||||||This is a qualitative interview study and as such no statistical analysis was carried out.|||
92290771|NCT04723693|184484847|OTHER||||||||||||||||||This is a qualitative interview study and as such no statistical analysis was carried out.|||
92290772|NCT00841542|184484860|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|98.19||||||90.0|94.2|102.34|||||Bioequivalence is established when 90% Confidence Interval falls withing 80 - 125|||102.34|94.20|
92290773|NCT00841542|184484861|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|98.86||||||90.0|93.38|104.66|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.66|93.38|
92184265|NCT02037568|184267020|SUPERIORITY|||||||0.007|||||||Mixed Models Analysis|||||||0.007
92290774|NCT00841542|184484862|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|99.22||||||90.0|93.87|104.88|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.88|93.87|
92290775|NCT00924638|184484863|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.4||||0.0006|TWO_SIDED|95.0|1.9|21.7|||Log Rank||A hazard ratio of \> 1 indicates that Continuous Monitoring is superior to Control in detecting AF.|||21.7|1.9|0.0006
92144133|NCT03382782|184172594|SUPERIORITY||Mean Difference (Net)|0.63||||0.05|TWO_SIDED||||||ANOVA|degrees of freedom = 3, 156||Mean diastolic blood pressure||||0.05
92144134|NCT03382782|184172596|SUPERIORITY|Intention-to-treat analyses. General Health subscale.|Mean Difference (Net)|2.14||||0.121|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||||||0.121
92144135|NCT03382782|184172596|SUPERIORITY||Mean Difference (Net)|1.71||||0.193|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses. General Health subscale.||||0.193
92144136|NCT03382782|184172596|SUPERIORITY||Mean Difference (Net)|0.181||||0.835|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intention-to-treat analyses. Bodily Pain subscale.||||0.835
92144137|NCT03382782|184172596|SUPERIORITY||Mean Difference (Net)|0.43||||0.513|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses, Bodily Pain subscale.||||0.513
92290776|NCT00924638|184484864|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.3|||<|0.0001|TWO_SIDED|95.0|2.6|20.8|||Log Rank||A hazard ratio of \> 1 indicates that Continuous Monitoring is superior to Control in detecting AF.|||20.8|2.6|<0.0001
92290777|NCT00924638|184484865|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.25|TWO_SIDED|95.0|0.35|1.32|||Log Rank||A hazard ratio of \< 1 indicates that the incidence rate of recurrent stroke or TIA is lower in the Continuous Monitoring arm compared to the Control arm.|||1.32|0.35|0.25
92290778|NCT00924638|184484866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.8|||||TWO_SIDED|95.0|2.8|14.8|||||A difference of greater than 0 means that a higher percentage of subjects in the Continuous Monitoring arm were using the OAC drugs at the 12 months visit compared to the Control arm.|||14.8|2.8|
92290779|NCT00924638|184484867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-2.3|3.1|||||A difference of greater than 0 means that a higher percentage of subjects in the Continuous Monitoring arm were using the anti-arrhythmic drugs at the 12 months visit compared to the Control arm.|||3.1|-2.3|
92290780|NCT00924638|184484868|SUPERIORITY_OR_OTHER|||||||0.11|||||||t-test, 2 sided|||||||0.11
92290781|NCT00924638|184484869|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.37||||0.33|TWO_SIDED|95.0|0.73|2.6|||Log Rank||A hazard ratio of \< 1 indicates that the incidence rate of cardiovascular or stroke/TIA related hospitalization is lower in the Continuous Monitoring arm compared to the Control arm.|||2.60|0.73|0.33
92290782|NCT02679729|184484876|SUPERIORITY_OR_OTHER||Slope|0.625|||||TWO_SIDED|95.0|0.396|0.853||||||Statistical Analysis for Part A||0.853|0.396|
92290783|NCT02679729|184484877|SUPERIORITY_OR_OTHER||Slope|1.2|||||TWO_SIDED|95.0|0.905|1.49||||||Statistical Analysis for Part A||1.49|0.905|
92290784|NCT02679729|184484878|SUPERIORITY_OR_OTHER||Slope|1.55|||||TWO_SIDED|95.0|1.34|1.76||||||Statistical Analysis for Part A||1.76|1.34|
92290785|NCT01442376|184484896|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 15% at an alpha level of 2.5% in a 1-sided test (equivalent to 5.0% 2-sided test) to reject the null hypothesis that the study drug was inferior to the active control drug by more than the non-inferiority margin.|Risk Difference (RD)|0.36|||||TWO_SIDED|97.5|-11.7|12.4||||||The stratum adjusted Mantel-Haenszel method was used to compute the confidence interval (CI) of the difference in proportion. If the lower bound of the 97.5% CI of either the difference (CR0-24h palonosetron 20 mcg/kg - CR0-24h ondansetron) or the difference (CR0-24h palonosetron 10 mcg/kg - CR0-24h ondansetron) was strictly superior to the non-inferiority margin (δ=-0.15) then the null hypothesis (H0) was rejected. A power of 80% was used for sample size computation.||12.4|-11.7|
92290786|NCT01442376|184484896|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 15% at an alpha level of 2.5% in a 1-sided test (equivalent to 5.0% 2-sided test) to reject the null hypothesis that the study drug was inferior to the active control drug by more than the non-inferiority margin.|Risk Difference (RD)|-4.4|||||TWO_SIDED|97.5|-16.4|7.6||||||The stratum adjusted Mantel-Haenszel method was used to compute the confidence interval (CI) of the difference in proportion. If the lower bound of the 97.5% CI of either the difference (CR0-24h palonosetron 20 mcg/kg - CR0-24h ondansetron) or the difference (CR0-24h palonosetron 10 mcg/kg - CR0-24h ondansetron) was strictly superior to the non-inferiority margin (δ=-0.15) then the null hypothesis (H0) was rejected. A power of 80% was used for sample size computation.||7.6|-16.4|
92144138|NCT03382782|184172596|SUPERIORITY||Mean Difference (Net)|2.37||||0.097|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intention-to-treat analyses, Physical Functioning subscale.||||0.097
92290787|NCT01075516|184484899|OTHER|Continuous data summarized as mean ± Standard Deviation (SD). For cost data Wilcoxon rank-sum test was used to compare costs across groups. The analysis evaluated HCS perspective of group membership impact (SC vs RM) on total health care cost, adjusting for covariates that were significantly different between the groups at the .2 significance level. Differences between the 2 groups were assessed using differences in sample means (point estimates) and t distributions (confidence intervals)|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92290788|NCT01075516|184484900|OTHER|Continuous data are summarized as mean ± SD. For cost data the Wilcoxon rank-sum test was used to compare costs across groups. This analysis evaluated the impact of group membership (SC vs RM) on cardiovascular hospitalization timeframe (outcome), adjusting for covariates that were significantly different between the groups at the .2 significance level. Differences between the 2 groups were assessed using differences in sample means (point estimates) and t distributions (confidence intervals).||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92290789|NCT01075516|184484901|OTHER|Continuous data are summarized as mean ± SD. This analysis evaluated the impact of group membership (SC vs RM) on total health care cost (outcome), adjusting for covariates that were significantly different between the groups at the .2 significance level. However, as the arithmetic mean is the most informative measurement for policy decisions, differences between the 2 groups were assessed using differences in sample means (point estimates) and t distributions (confidence intervals).||||||0.8||||||Comparison of utility at baseline from the EQ-5D-3L questionnaire.|t-test, 2 sided|||For the patient perspective, the quality of life associated with the 2 strategies was assessed. Quality of life is reported as utility values from the EuroQoL Group 5-Dimension 3-Level Self-Report (EQ-5D-3L) questionnaire and quality adjusted life years (QALYs) were based on utility (patients' preferences). The EQ-5D-3L questionnaire was administered to each patient at baseline and at 12 months in order to calculate utility values (from 0 to 1).||||0.80
92290790|NCT01075516|184484901|OTHER|Continuous data are summarized as mean ± SD. This analysis evaluated the impact of group membership (SC vs RM) on total health care cost (outcome), adjusting for covariates that were significantly different between the groups at the .2 significance level. However, as the arithmetic mean is the most informative measurement for policy decisions, differences between the 2 groups were assessed using differences in sample means (point estimates) and t distributions (confidence intervals).||||||0.38||||||Comparison of utility at 12 months from the EQ-5D-3L questionnaire.|t-test, 2 sided|||For the patient perspective, the quality of life associated with the 2 strategies was assessed. Quality of life is reported as utility values from the EQ-5D-3L questionnaire and quality adjusted life years (QALYs) were based on utility (patients' preferences). The EQ-5D-3L questionnaire was administered to each patient at baseline and at 12 months in order to calculate utility values (from 0 to 1).||||0.38
92290791|NCT01075516|184484901|OTHER|Continuous data are summarized as mean ± SD. This analysis evaluated the impact of group membership (SC vs RM) on total health care cost (outcome), adjusting for covariates that were significantly different between the groups at the .2 significance level. However, as the arithmetic mean is the most informative measurement for policy decisions, differences between the 2 groups were assessed using differences in sample means (point estimates) and t distributions (confidence intervals).||||||0.53|||||||t-test, 2 sided|||For the patient perspective, the quality of life associated with the 2 strategies was assessed. Quality of life is reported as utility values from the EQ-5D-3L questionnaire and quality adjusted life years (QALYs) were based on utility (patients' preferences). The EQ-5D-3L questionnaire was administered to each patient at baseline and at 12 months in order to calculate utility values (from 0 to 1).||||0.53
92290792|NCT03503318|184484926|OTHER||Hazard Ratio (HR)|0.2|||<|0.0001|TWO_SIDED|95.0|0.109|0.367||Threshold for significance at 0.05 level.|Log Rank|||Analysis was performed using the stratified Cox proportional hazard model, with treatment (placebo, TV-46000 q1m and TV-46000 q2m or placebo and TV-46000 overall \[including q1m and q2m\]) as explanatory variable and sex-dose as a stratification factor, and the stratified log rank test p-value (sex-dose as a stratification factor) referred to (TV-46000/placebo) comparison.||0.367|0.109|<0.0001
92290793|NCT03503318|184484926|OTHER||Hazard Ratio (HR)|0.375|||<|0.0001|TWO_SIDED|95.0|0.227|0.618||Threshold for significance at 0.05 level.|Log Rank|||Analysis was performed using the stratified Cox proportional hazard model, with treatment (placebo, TV-46000 q1m and TV-46000 q2m or placebo and TV-46000 overall \[including q1m and q2m\]) as explanatory variable and sex-dose as a stratification factor, and the stratified log rank test p-value (sex-dose as a stratification factor) referred to (TV-46000/placebo) comparison.||0.618|0.227|<0.0001
92184266|NCT02037568|184267021|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
92144139|NCT03382782|184172596|SUPERIORITY||Mean Difference (Net)|0.04||||0.184|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses, Physical Functioning subscale.||||0.184
92144140|NCT03382782|184172596|SUPERIORITY||Mean Difference (Net)|1.06||||0.347|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intention-to-treat analyses. Emotional Well-Being subscale.||||0.347
92144141|NCT03382782|184172596|SUPERIORITY||Mean Difference (Net)|0.361||||0.549|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses, Emotional Well-Being subscale.||||0.549
92144142|NCT03382782|184172597|SUPERIORITY||Mean Difference (Net)|0.157||||0.855|TWO_SIDED||||||ANOVA|Degrees of freedom = 2,182||Intention-to-treat analyses||||.855
92144143|NCT03382782|184172597|SUPERIORITY||Mean Difference (Net)|0.011||||0.915|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses||||0.915
92144144|NCT03382782|184172599|SUPERIORITY||Mean Difference (Net)|0.68||||0.508|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intent-to-treat analyses||||0.508
92144145|NCT03382782|184172599|SUPERIORITY||Mean Difference (Net)|1.67||||0.198|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses||||0.198
92184267|NCT02037568|184267022|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92184268|NCT02037568|184267023|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|||||||0.070
92184269|NCT02037568|184267024|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||||||0.96
92184270|NCT02037568|184267025|SUPERIORITY|||||||0.74|||||||Mixed Models Analysis|||||||0.74
92144146|NCT03148470|184172672|OTHER|||||||0.932||||||This p-value refers to the effect of stimulation (cTBS vs iTBS).|Mixed Models Analysis|||||||0.932
92184271|NCT02037568|184267026|SUPERIORITY|||||||0.79|||||||Mixed Models Analysis|||||||0.79
92184272|NCT02037568|184267027|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|||||||0.86
92184273|NCT05074433|184267040|SUPERIORITY||Hazard Ratio (HR)|0.563|||||TWO_SIDED|95.0|0.093|3.393|||Cox proportional hazard model|||||3.393|0.093|
92184274|NCT05074433|184267040|SUPERIORITY||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.072|2.929|||Cox proportional hazard model|||||2.929|0.072|
92184275|NCT05074433|184267040|SUPERIORITY||Cox Proportional Hazard|0.609|||||TWO_SIDED|95.0|0.101|3.668|||Cox proportional hazard model|||||3.668|0.101|
92184276|NCT01235936|184267112|OTHER|The primary endpoint was compared using the Wilcoxon signed-rank test, with an alpha level of 0.05.||||||0.002|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||0.0020
92184277|NCT01235936|184267113|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.0156|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.0156
92184278|NCT01235936|184267114|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.||||||0.0098|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||0.0098
92184279|NCT01235936|184267115|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.0195|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.0195
92144147|NCT03148470|184172673|OTHER|||||||0.642|||||||Mixed Models Analysis|||||||0.642
92144148|NCT02249819|184172690|EQUIVALENCE|Statistical analysis for mean change from baseline in naming accuracy in the anodal vs. sham tDCS conditions Null hypothesis is that there was no difference in mean change of naming accuracy between anodal and sham tDCS conditions. A significance level of 0.05 was used (two-sided).||||||0.694||||||The wilcoxon sign-ranked test was performed for this crossover design study in which subjects underwent measures across 2 study conditions (paired samples: mean change in anodal vs. sham condition). A significance level of 0.05 was used (two-sided).|wilcoxon sign-ranked test|Western Aphasia Battery used as a screening tool on admission only, to characterize level of severity. It was NOT an outcome measure.||||||0.694
92184280|NCT01235936|184267116|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.8262|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.8262
92184281|NCT01235936|184267122|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.002|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.0020
92184282|NCT01235936|184267123|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.2383|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.2383
92144149|NCT00558428|184172699|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.64|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001||95.0|-4.9|-2.38|||ANCOVA|Adjusted for baseline and country effect||||-2.38|-4.90|<0.0001
92144150|NCT00558428|184172699|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.92|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001||95.0|-6.18|-3.66|||ANCOVA|Adjusted for baseline and country effect||||-3.66|-6.18|<0.0001
92144151|NCT00558428|184172699|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.64||||95.0|-2.66|-0.14|||ANCOVA|Adjusted for baseline and country effect||||-0.14|-2.66|
92144152|NCT00558428|184172699|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.68|STANDARD_ERROR_OF_MEAN|0.64||||95.0|-3.93|-1.43|||ANCOVA|Adjusted for baseline and country effect||||-1.43|-3.93|
92184283|NCT01235936|184267124|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.0039|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.0039
92184284|NCT01235936|184267125|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.0039|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.0039
92184285|NCT00380250|184267132|SUPERIORITY_OR_OTHER_LEGACY|||||||0.117|||||||van Elteren nonparametric test|Adjusted for center||||||0.117
92184286|NCT00380250|184267133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|||||||van Elteren nonparametric test|Adjusted for center||||||0.006
92184287|NCT00380250|184267134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||van Elteren nonparametric test|Adjusted for center||||||0.050
92184288|NCT00380250|184267135|SUPERIORITY_OR_OTHER_LEGACY|||||||0.159|||||||van Elteren nonparametric test|Adjusted for center||||||0.159
92184289|NCT00380250|184267136|SUPERIORITY_OR_OTHER_LEGACY|||||||0.378|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.378
92184290|NCT00380250|184267137|SUPERIORITY_OR_OTHER_LEGACY|||||||0.588|||||||ANCOVA|Adjusted for clinical site||||||0.588
92184291|NCT00380250|184267138|SUPERIORITY_OR_OTHER_LEGACY|||||||0.029||||||No adjustment|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||90% statistical power to detect 70.6% improvement in response with lubiprostone||||0.029
92184292|NCT00380250|184267139|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.028
92184293|NCT00380250|184267140|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.069
92184294|NCT00380250|184267141|SUPERIORITY_OR_OTHER_LEGACY|||||||0.098||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.098
92184295|NCT00380250|184267142|SUPERIORITY_OR_OTHER_LEGACY|||||||0.286|||||||van Elteren nonparametric test|Adjusted for center||||||0.286
92184296|NCT00380250|184267143|SUPERIORITY_OR_OTHER_LEGACY|||||||0.337|||||||van Elteren nonparametric test|Adjusted for center||||||0.337
92184297|NCT00380250|184267144|SUPERIORITY_OR_OTHER_LEGACY|||||||0.334|||||||van Elteren nonparametric test|Adjusted for center||||||0.334
92184298|NCT00380250|184267145|SUPERIORITY_OR_OTHER_LEGACY|||||||0.242|||||||van Elteren nonparametric test|Adjusted for center||||||0.242
92184299|NCT00380250|184267146|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||van Elteren nonparametric test|Adjusted for center||||||0.030
92290794|NCT00112437|184485030|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|3.5|||<=|0.001|TWO_SIDED|95.0|2.54|4.45||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 12 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 12 months.||4.45|2.54|<=0.001
92290795|NCT00112437|184485030|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.78|||<=|0.001|TWO_SIDED|95.0|1.82|3.73||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 12 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 12 months.||3.73|1.82|<=0.001
92290796|NCT00112437|184485030|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.63||||0.003|TWO_SIDED|95.0|0.68|2.59||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 12 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 12 months.||2.59|0.68|0.003
92290797|NCT00112437|184485030|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.49||||0.343|TWO_SIDED|95.0|-1.44|0.46||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 12 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 12 months.||0.46|-1.44|0.343
92290798|NCT00112437|184485031|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|5.67|||<=|0.001|TWO_SIDED|95.0|4.32|7.02||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 24 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 24 months.||7.02|4.32|<=0.001
92290799|NCT00112437|184485031|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|4.45|||<=|0.001|TWO_SIDED|95.0|3.15|5.76||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 24 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 24 months.||5.76|3.15|<=0.001
92290800|NCT00112437|184485031|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|3.39|||<=|0.001|TWO_SIDED|95.0|2.06|4.73||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 24 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 24 months.||4.73|2.06|<=0.001
92290801|NCT00112437|184485031|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-0.84||||0.218||95.0|-2.19|0.51||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 24 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 24 months.||0.51|-2.19|0.218
92144153|NCT02570126|184172707|NON_INFERIORITY|Criterion for the Varilrix HSA-free vaccine as compared to Varilrix™ vaccine, the upper limit (UL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the group difference (VAR\_HSA\_F minus VAR) in incidence of fever \> 39.0°C (\> 102.2°F) within 0-14 days after Dose 1 was to be equal to or below 5%|Difference in percentage between groups|-1.29|||||TWO_SIDED|95.0|-3.72|1.08|||||Power obtained using PASS 2005 (Likelihood Score \[Miettinen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=2.5%|Non-inferiority of Varilrix HSA-free vaccine to Varilrix™ vaccine in terms of percentage of subjects reporting fever \> 39.0°C (\> 102.2°F) within 15-days (Days 0-14) after Dose 1 (VAR\_HSA\_F Group minus VAR Group)||1.08|-3.72|
92290802|NCT00112437|184485032|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.49|||<=|0.001|TWO_SIDED|95.0|1.62|3.35||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 12 months.||3.35|1.62|<=0.001
92290803|NCT00112437|184485032|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.06|||<=|0.001|TWO_SIDED|95.0|1.2|2.93||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 12 months.||2.93|1.20|<=0.001
92290804|NCT00112437|184485032|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.67|||<=|0.001|TWO_SIDED|95.0|0.8|2.53||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 12 months.||2.53|0.80|<=0.001
92290805|NCT00112437|184485032|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.75||||0.135|TWO_SIDED|95.0|-1.61|0.11||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 12 months.||0.11|-1.61|0.135
92290806|NCT00112437|184485033|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.66|||<=|0.001|TWO_SIDED|95.0|1.71|3.61||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 12 months.||3.61|1.71|<=0.001
92290807|NCT00112437|184485033|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.89|||<=|0.001|TWO_SIDED|95.0|0.93|2.84||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 12 months.||2.84|0.93|<=0.001
92290808|NCT00112437|184485033|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.87||||0.095|TWO_SIDED|95.0|-0.09|1.82||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 12 months.||1.82|-0.09|0.095
92144154|NCT05224050|184172729|OTHER|A paired-samples t-test was conducted to examine differences in the DASS-21 total score from baseline to 2-weeks post-quit.|Mean Difference (Final Values)|-2.04|STANDARD_DEVIATION|10.54||0.4|TWO_SIDED|95.0|-6.98|2.89||The threshold for statistical significance was p\<0.05|t-test, 2 sided||Mean difference represents the difference of the mean for the DASS-21 total scores at Baseline and at 2-weeks post-quit. The reported estimated value is based on data from the n=20 who attended their 2-weeks post-quit session|||2.89|-6.98|0.40
92144155|NCT05224050|184172729|OTHER|A paired-samples t-test was conducted to examine the difference in the DASS-21 total scores from 2-weeks post-quit to 1-month post-quit.|Mean Difference (Final Values)|-2.43|STANDARD_DEVIATION|9.15||0.26|TWO_SIDED|95.0|-6.84|1.98||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean DASS-21 total scores at 2-weeks post-quit and 1-month post-quit. The reported estimated value is based on data from the n=19 participants who attended their 1-month post-quit session.|||1.98|-6.84|0.26
92290809|NCT00112437|184485033|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.19|||||TWO_SIDED|95.0|-1.14|0.75|||ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 12 months.||0.75|-1.14|
92290810|NCT00112437|184485034|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.94|||<=|0.001|TWO_SIDED|95.0|1.64|4.24||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 12 months.||4.24|1.64|<=0.001
92290811|NCT00112437|184485034|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.65|||<=|0.001|TWO_SIDED|95.0|1.35|3.94||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 12 months.||3.94|1.35|<=0.001
92290812|NCT00112437|184485034|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.38|||<=|0.001|TWO_SIDED|95.0|1.08|3.69||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 12 months.||3.69|1.08|<=0.001
92290813|NCT00112437|184485034|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.29||||0.731|TWO_SIDED|95.0|-1.58|1.0||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 12 months.||1.00|-1.58|0.731
92290814|NCT00112437|184485035|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.29||||0.112|TWO_SIDED|95.0|-0.77|1.35||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total body BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total body BMD compared to placebo over 12 months.||1.35|-0.77|0.112
92184300|NCT00380250|184267147|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|||||||van Elteren nonparametric test|Adjusted for center||||||0.130
92184301|NCT00380250|184267148|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049|||||||van Elteren nonparametric test|Adjusted for center||||||0.049
92290815|NCT00112437|184485035|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.09|||||TWO_SIDED|95.0|-1.13|0.95||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total body BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total body BMD compared to placebo over 12 months.||0.95|-1.13|
92290816|NCT00112437|184485035|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.63|||||TWO_SIDED|95.0|-1.69|0.42||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total body BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total body BMD compared to placebo over 12 months.||0.42|-1.69|
92184302|NCT00380250|184267149|SUPERIORITY_OR_OTHER_LEGACY|||||||0.348|||||||van Elteren nonparametric test|Adjusted for center||||||0.348
92184303|NCT00380250|184267150|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064|||||||van Elteren nonparametric test|Adjusted for center||||||0.064
92184304|NCT00380250|184267151|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111|||||||van Elteren nonparametric test|||||||0.111
92184305|NCT00380250|184267152|SUPERIORITY_OR_OTHER_LEGACY|||||||0.144|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.144
92290817|NCT00112437|184485035|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.47|||||TWO_SIDED|95.0|-2.53|-0.42||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total body BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total body BMD compared to placebo over 12 months.||-0.42|-2.53|
92290818|NCT00112437|184485036|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.23|||<=|0.001|TWO_SIDED|95.0|0.22|2.24||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on distal forearm BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase distal forearm BMD compared to placebo over 12 months.||2.24|0.22|<=0.001
92290819|NCT00112437|184485036|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.1||||0.005|TWO_SIDED|95.0|0.09|2.11||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on distal forearm BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase distal forearm BMD compared to placebo over 12 months.||2.11|0.09|0.005
92290820|NCT00112437|184485036|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.27||||0.63|TWO_SIDED|95.0|-0.74|1.29||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on distal forearm BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase distal forearm BMD compared to placebo over 12 months.||1.29|-0.74|0.630
92290821|NCT00112437|184485036|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.27|||||TWO_SIDED|95.0|-2.28|-0.27||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on distal forearm BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase distal forearm BMD compared to placebo over 12 months.||-0.27|-2.28|
92290822|NCT00112437|184485037|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-57.86|||<=|0.001|TWO_SIDED|95.0|-72.33|-43.38||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 12 months.||-43.38|-72.33|<=0.001
92290823|NCT00112437|184485037|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-45.92|||<=|0.001|TWO_SIDED|95.0|-60.93|-30.91||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 12 months.||-30.91|-60.93|<=0.001
92290824|NCT00112437|184485037|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-31.84|||<=|0.001|TWO_SIDED|95.0|-48.11|-15.58||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 12 months.||-15.58|-48.11|<=0.001
92266290|NCT04359758|184433810|SUPERIORITY|||||||0.14|||||||Chi-squared|||The study was powered assuming 10% genetic testing uptake UC compared to 35% in ST. assuming these uptake rates and a two-tailed alpha of 0.05, a sample size of n=50 per arm would yield greater than 80% power.||||0.14
92266291|NCT04359758|184433810|SUPERIORITY||Odds Ratio (OR)|2.57||||0.039|TWO_SIDED|95.0|1.05|6.29|||Regression, Logistic|||Because education and marital status have been associated with genetic testing participation in prior research, we conducted a follow-up analysis in which we adjusted for education and marital status.||6.29|1.05|0.039
92266292|NCT04359758|184433811|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|101 degrees of freedom.||||||0.13
92266293|NCT04359758|184433812|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|df=102||||||0.78
92266294|NCT04359758|184433813|SUPERIORITY|||||||0.97|||||||ANCOVA|df = 1, 101||Analysis of PROMIS anxiety||||0.97
92266295|NCT04359758|184433813|SUPERIORITY|||||||0.34|||||||ANCOVA|df = 1, 101||Analysis of PROMIS Depression||||0.34
92266296|NCT01335620|184433817|SUPERIORITY|||||||0.018|||||||Regression, Logistic|||Compare baseline to 24 weeks||||0.018
92266297|NCT02067728|184433825|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED||||||Chi-squared|||||||0.0029
92266298|NCT02067728|184433826|SUPERIORITY_OR_OTHER|||||||0.3875|TWO_SIDED||||||t-test, 2 sided|||||||0.3875
92266299|NCT02067728|184433827|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26|STANDARD_DEVIATION|0.42|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92266300|NCT02067728|184433828|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
92266301|NCT02067728|184433829|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||||||1.000
92266302|NCT02067728|184433830|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.3|||<|0.0001|TWO_SIDED|95.0|2.2|4.9|||Chi-squared|||||4.9|2.2|<0.0001
92266303|NCT02067728|184433831|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.9|||<|0.0001|TWO_SIDED|95.0|2.0|4.5|||Chi-squared|||||4.5|2.0|<0.0001
92266304|NCT02067728|184433834|SUPERIORITY_OR_OTHER|||||||0.4835|TWO_SIDED||||||t-test, 2 sided|||||||0.4835
92266305|NCT02067728|184433835|SUPERIORITY_OR_OTHER|||||||0.588|TWO_SIDED||||||t-test, 2 sided|||||||0.5880
92266306|NCT03557775|184433836|SUPERIORITY|||||||0.041||||||Result for time by group interaction (threshold for statistical significance set at 0.05).|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.041
92266307|NCT03557775|184433837|SUPERIORITY|||||||0.887||||||Result for time by group interaction. Statistical threshold set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.887
92266308|NCT03557775|184433838|SUPERIORITY|||||||0.733||||||Result for time by group interaction effect. Threshold for statistical significance was set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.733
92266309|NCT03557775|184433839|SUPERIORITY|||||||0.702||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.702
92266310|NCT03557775|184433840|SUPERIORITY|||||||0.198||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.198
92266311|NCT03557775|184433841|SUPERIORITY|||||||0.388||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.388
92266312|NCT03557775|184433842|SUPERIORITY|||||||0.296||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.296
92266313|NCT03557775|184433843|SUPERIORITY|||||||0.04||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.040
92266314|NCT03557775|184433844|SUPERIORITY|||||||0.887||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.887
92266315|NCT03557775|184433845|SUPERIORITY|||||||0.663||||||Result for time by group interaction effect. Threshold for statistical significance was set 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.663
92266316|NCT03557775|184433846|SUPERIORITY|||||||0.026||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.026
92266317|NCT03557775|184433847|SUPERIORITY|||||||0.721||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.721
92266318|NCT03557775|184433848|SUPERIORITY|||||||0.408||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.408
92266319|NCT03557775|184433849|SUPERIORITY|||||||0.638||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.638
92266320|NCT03557775|184433850|SUPERIORITY|||||||0.715||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.715
92266321|NCT03557775|184433851|SUPERIORITY|||||||0.708||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.708
92266322|NCT03557775|184433852|SUPERIORITY|||||||0.988||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.988
92266323|NCT00585468|184433862|SUPERIORITY_OR_OTHER|||||||0.0163|||||||t-test, 2 sided|||||||0.0163
92266324|NCT00585468|184433863|SUPERIORITY_OR_OTHER|||||||0.039|||||||t-test, 2 sided|||||||0.039
92266325|NCT00585468|184433865|SUPERIORITY_OR_OTHER|||||||0.146|||||||t-test, 2 sided|||||||0.146
92144156|NCT05224050|184172729|OTHER|A paired-samples t-test was conducted to examine the difference in the DASS-21 total scores from 1-month post-quit to 3-month follow up.|Mean Difference (Final Values)|-2.75|STANDARD_DEVIATION|6.49||0.11|TWO_SIDED|95.0|-6.21|0.71||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean DASS-21 total scores at 1-month post-quit and 3-month follow up. The reported estimated value is based on data from the n=16 participants who attended their 3-month follow up session.|||0.71|-6.21|0.11
92144157|NCT05224050|184172732|OTHER|A paired-samples t-test was conducted to compare changes in cigarettes smoked per day from Baseline to Quit Day.|Mean Difference (Final Values)|13.7|STANDARD_DEVIATION|8.63|<|0.001|TWO_SIDED|95.0|9.88|17.53||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the average difference in cigarettes smoked per day from Baseline to Quit Date. The reported estimated value is based on data from the n=22 participants who attended their Quit Date session.|||17.53|9.88|<0.001
92144158|NCT05224050|184172732|OTHER|A paired-samples t-test was used to evaluate smoking reduction in participants from Quit Date to 2-weeks Post-Quit.|Mean Difference (Final Values)|0.11|STANDARD_DEVIATION|2.02||0.8|TWO_SIDED|95.0|-0.83|1.06||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the average difference in cigarettes smoked per day from Quit Date to 2-weeks Post-Quit. The reported estimated value is based on data from the n=20 participants who attended their 2-weeks post-quit session.|||1.06|-0.83|0.80
92144159|NCT05224050|184172732|OTHER|A paired-samples t-test was used to evaluate smoking reduction in participants from 2-weeks post-quit to 1=month post-quit.|Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|2.97||0.97|TWO_SIDED|95.0|-1.41|1.45||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the average difference in cigarettes smoked per day from 2-weeks post-quit to 1-month post-quit. The reported estimated value is based on data from the n=19 participants who attended their 1-month post-quit session.|||1.45|-1.41|0.97
92184306|NCT00380250|184267153|SUPERIORITY_OR_OTHER_LEGACY|||||||0.168|||||||Cochran-Mantel-Haenszel|Adjusted by pooled center||||||0.168
92184307|NCT00380250|184267154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.615|||||||van Elteren nonparametic test|Adjusted for center||||||0.615
92184308|NCT00380250|184267155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.108|||||||van Elteren nonparametric test|||||||0.108
92184309|NCT00380250|184267156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.483|||||||van Elteren nonparametric test|||||||0.483
92184310|NCT00380250|184267157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.491|||||||van Elteren nonparametric test|||||||0.491
92184311|NCT00380250|184267158|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren nonparametric test|Adjusted for center||||||<0.001
92184312|NCT00380250|184267159|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren nonparametric test|Adjusted for center||||||<0.001
92266326|NCT00585468|184433866|SUPERIORITY_OR_OTHER|||||||0.4937|||||||t-test, 2 sided|||||||0.4937
92266327|NCT00585468|184433867|SUPERIORITY_OR_OTHER|||||||0.9669|||||||t-test, 2 sided|||||||0.9669
92266328|NCT00585468|184433869|SUPERIORITY_OR_OTHER|||||||0.9607|||||||t-test, 2 sided|||||||0.9607
92266329|NCT00276458|184433870|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.9|STANDARD_ERROR_OF_MEAN|2.7|<|0.001||95.0|-25.2|-14.5|||ANCOVA|Model terms: treatment and baseline LDL-C value|(Atorva + EZ minus Atorva)|||-14.5|-25.2|<0.001
92266330|NCT00276458|184433871|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|2.1||0.273||95.0|-1.9|6.6|||ANCOVA|Model terms: treatment and baseline HDL-C value|(Atorva + EZ minus Atorva)|||6.6|-1.9|0.273
92266331|NCT00276458|184433872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|2.4|<|0.001||95.0|-21.2|-11.7|||ANCOVA|Model terms: treatment and baseline non-HDL-C value|(Atorva + EZ minus Atorva)|||-11.7|-21.2|<0.001
92266332|NCT00276458|184433873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-15.8|-8.6|||ANCOVA|Model terms: treatment and baseline Total-C value|(Atorva + EZ minus Atorva)|||-8.6|-15.8|<0.001
92266333|NCT00276458|184433874|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-8.9||||0.159||95.0|-17.7|-0.4||ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment and baseline triglycerides value|Nonparametric ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment and baseline triglycerides value.|"The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic.~(Atorva + EZ minus Atorva)"|||-0.4|-17.7|0.159
92266334|NCT00276458|184433875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.7|STANDARD_ERROR_OF_MEAN|2.1|<|0.001||95.0|-17.8|-9.6|||ANCOVA|Model terms: treatment and baseline Apo B value|(Atorva + EZ minus Atorva)|||-9.6|-17.8|<0.001
92266335|NCT00276458|184433876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|1.6||0.681||95.0|-3.9|2.6|||ANCOVA|Model terms: treatment and baseline Apo A-I value|(Atorva + EZ minus Atorva)|||2.6|-3.9|0.681
92266336|NCT00276458|184433877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.1|STANDARD_ERROR_OF_MEAN|2.2|<|0.001||95.0|-17.5|-8.7|||ANCOVA|Model terms: treatment and baseline Total-C:HDL-C value|(Atorva + EZ minus Atorva)|||-8.7|-17.5|<0.001
92266337|NCT00276458|184433878|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.9|STANDARD_ERROR_OF_MEAN|2.8|<|0.001||95.0|-26.5|-15.3|||ANCOVA|Model terms: treatment and baseline LDL-C:HDL-C value|(Atorva + EZ minus Atorva)|||-15.3|-26.5|<0.001
92266338|NCT00276458|184433879|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.1|STANDARD_ERROR_OF_MEAN|2.4|<|0.001||95.0|-17.9|-8.3|||ANCOVA|Model terms: treatment and baseline Apo B:Apo A-I value|(Atorva + EZ minus Atorva)|||-8.3|-17.9|<0.001
92266339|NCT00276458|184433880|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.3|STANDARD_ERROR_OF_MEAN|3.0|<|0.001||95.0|-23.2|-11.4|||ANCOVA|Model terms: treatment and baseline non-HDL-C:HDL-C value|(Atorva + EZ minus Atorva)|||-11.4|-23.2|<0.001
92266340|NCT00276458|184433881|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5||||0.841||95.0|-23.8|28.8|||Longitudinal Data Analysis (LDA)|LDA method of Liang and Zeger with model terms: treatment, time, and the interaction of time by treatment|"Data for analysis was transformed by the natural log and the difference in geometric mean % change from BL calculated based on the difference in the back-transformed least squares means.~(Atorva + EZ minus Atorva)"|||28.8|-23.8|0.841
92184313|NCT00380250|184267160|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren nonparametric test|Adjusted for center||||||<0.001
92184314|NCT02833948|184267162|SUPERIORITY|||||||0.01|||||||Fisher Exact|The Fisher's exact probability test was used to compare the percentages of patients with the primary end point between the treatment groups.||||||0.01
92184315|NCT02833948|184267166|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.01
92184316|NCT02691702|184267209|OTHER|MMRM|Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|37.24|||TWO_SIDED|90.0|-63.09|60.57|||||Test (Melatonin 0.5 mg PM) Reference (Placebo)|||60.57|-63.09|
92184317|NCT02691702|184267209|OTHER|MMRM|Mean Difference (Final Values)|-27.13|STANDARD_ERROR_OF_MEAN|38.61|||TWO_SIDED|90.0|-91.24|36.97|||||Test (PF-05251749 50 mg AM) Reference (Placebo)|||36.97|-91.24|
92266341|NCT00276458|184433882|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.3||||0.839||95.0|-26.1|8.3|||Nonparametric ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment and baseline CRP value|"The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic.~(Atorva + EZ minus Atorva)"|||8.3|-26.1|0.839
92266342|NCT00276458|184433883|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.6|||<|0.001||95.0|3.8|19.47|||Regression, Logistic|Model terms: treatment and baseline LDL-C value|Estimated ratio is the predictive odds of attaining LDL-C target on Atorva + EZ versus Atorva.|||19.47|3.80|<0.001
92266343|NCT00978120|184433885|SUPERIORITY_OR_OTHER|||||||0.014|||||||Fisher Exact|||||||0.014
92266344|NCT00978120|184433886|SUPERIORITY_OR_OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
92266345|NCT00978120|184433889|SUPERIORITY_OR_OTHER|||||||0.47|||||||Fisher Exact|||||||0.470
92266346|NCT00978120|184433890|SUPERIORITY_OR_OTHER|||||||0.12|||||||Fisher Exact|||||||0.120
92266347|NCT00978120|184433891|SUPERIORITY_OR_OTHER|||||||0.284|||||||Fisher Exact|||||||0.284
92266348|NCT00978120|184433892|SUPERIORITY_OR_OTHER|||||||0.004|||||||Fisher Exact|||||||0.004
92266349|NCT00978120|184433893|SUPERIORITY_OR_OTHER|||||||0.341|||||||Fisher Exact|||||||0.341
92266350|NCT00978120|184433894|SUPERIORITY_OR_OTHER|||||||0.02|||||||Fisher Exact|||||||0.020
92266351|NCT00978120|184433895|SUPERIORITY_OR_OTHER|||||||0.245|||||||Fisher Exact|||||||0.245
92266352|NCT00978120|184433896|SUPERIORITY_OR_OTHER|||||||0.173|||||||Fisher Exact|||||||0.173
92266353|NCT00978120|184433897|SUPERIORITY_OR_OTHER|||||||0.362|||||||Fisher Exact|||||||0.362
92266354|NCT00978120|184433898|SUPERIORITY_OR_OTHER|||||||0.006|||||||Fisher Exact|||||||0.006
92266355|NCT00978120|184433899|SUPERIORITY_OR_OTHER|||||||0.016|||||||Fisher Exact|||||||0.016
92266356|NCT00978120|184433900|SUPERIORITY_OR_OTHER|||||||0.032|||||||Fisher Exact|||||||0.032
92266357|NCT01298323|184433928|SUPERIORITY_OR_OTHER_LEGACY||t-Statistic|1.29||||0.199|TWO_SIDED|95.0|-3.44|16.37||Statistical significance threshold at this analysis was 10%|t-test, 2 sided|||||16.37|-3.44|0.199
92266358|NCT03655951|184433944|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.2|||||||Regression, Linear|||||||.20
92266359|NCT03655951|184433945|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.69|||||||Regression, Linear|||||||.69
92266360|NCT03655951|184433946|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.48|||||||Regression, Linear|||||||.48
92266361|NCT03655951|184433947|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.36|||||||Regression, Linear|||||||.36
92266362|NCT03655951|184433948|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.48|||||||Regression, Linear|||||||.48
92266363|NCT03655951|184433949|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.41|||||||Regression, Linear|||||||.41
92266364|NCT03655951|184433950|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.87|||||||Regression, Linear|||||||.87
92266365|NCT03655951|184433951|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.8|||||||Regression, Linear|||||||.8
92266366|NCT03655951|184433952|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.32|||||||Regression, Linear|||||||.32
92266367|NCT03655951|184433953|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.03|||||||Regression, Linear|||||||.03
92266368|NCT03655951|184433954|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.05|||||||Regression, Linear|||||||.05
92266369|NCT03655951|184433955|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.04|||||||Regression, Linear|||||||.04
92266370|NCT03655951|184433956|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.42|||||||Regression, Linear|||||||.42
92144160|NCT05224050|184172732|OTHER|A paired-samples t-test was used to evaluate smoking reduction in participants from 1-month post-quit to 3-month follow-up.|Mean Difference (Final Values)|-2.17|STANDARD_DEVIATION|3.75||0.04|TWO_SIDED|95.0|-4.17|-0.17||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the average difference in cigarettes smoked per day from 1-month post-quit to 3-month follow-up. The reported estimated value is based on data from the n=16 participants who attended their 3-month follow-up session.|||-0.17|-4.17|0.04
92184318|NCT02691702|184267209|OTHER|MMRM|Mean Difference (Final Values)|43.72|STANDARD_ERROR_OF_MEAN|45.72|||TWO_SIDED|90.0|-32.19|119.62|||||Test (PF-05251749 100 mg AM) Reference (Placebo)|||119.62|-32.19|
92184319|NCT02691702|184267209|OTHER|MMRM|Mean Difference (Final Values)|61.48|STANDARD_ERROR_OF_MEAN|40.88|||TWO_SIDED|90.0|-6.38|129.35|||||Test (PF-05251749 200 mg AM) Reference (Placebo)|||129.35|-6.38|
92184320|NCT02691702|184267209|OTHER|MMRM|Mean Difference (Final Values)|125.87|STANDARD_ERROR_OF_MEAN|39.37|||TWO_SIDED|90.0|60.51|191.23|||||Test (PF-05251749 400 mg AM) Reference (Placebo)|||191.23|60.51|
92266371|NCT03655951|184433957|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.11|||||||Regression, Linear|||||||.11
92266372|NCT03655951|184433958|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.0003|||||||Regression, Linear|||||||.0003
92266373|NCT03655951|184433959|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.97|||||||Regression, Linear|||||||.97
92266374|NCT03655951|184433960|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.08|||||||Regression, Linear|||||||.08
92266375|NCT03655951|184433961|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.7|||||||Regression, Linear|||||||.70
92266376|NCT03655951|184433962|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.03|||||||Regression, Linear|||||||.03
92266377|NCT03655951|184433963|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.29|||||||Regression, Linear|||||||.29
92266378|NCT03655951|184433964|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.36|||||||Regression, Linear|||||||.36
92266379|NCT03655951|184433965|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.61|||||||Regression, Linear|||||||.61
92266380|NCT03655951|184433966|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.72|||||||Regression, Linear|||||||.72
92266381|NCT03655951|184433967|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.05|||||||Regression, Linear|||||||.05
92266382|NCT03655951|184433968|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.09|||||||Regression, Linear|||||||.09
92266383|NCT03655951|184433969|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.69|||||||Regression, Linear|||||||.69
92266384|NCT03655951|184433970|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.11|||||||Regression, Linear|||||||.11
92266385|NCT03655951|184433971|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.27|||||||Regression, Linear|||||||.27
92266386|NCT03655951|184433972|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.83|||||||Regression, Linear|||||||.83
92266387|NCT03655951|184433973|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.0001|||||||Regression, Linear|||||||.0001
92266388|NCT03655951|184433974|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.2|||||||Regression, Linear|||||||.20
92266389|NCT03655951|184433975|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.09|||||||Regression, Linear|||||||.09
92184321|NCT02691702|184267209|OTHER|MMRM|Mean Difference (Final Values)|156.22|STANDARD_ERROR_OF_MEAN|42.91|||TWO_SIDED|90.0|84.99|227.45|||||Test (PF-05251749 750 mg AM) Reference (Placebo)|||227.45|84.99|
92184322|NCT02691702|184267209|OTHER|MMRM|Mean Difference (Final Values)|51.42|STANDARD_ERROR_OF_MEAN|33.12|||TWO_SIDED|90.0|-3.57|106.41|||||Test (PF-05251749 50 mg PM) Reference (Placebo)|||106.41|-3.57|
92184323|NCT02691702|184267209|OTHER|MMRM|Mean Difference (Final Values)|142.74|STANDARD_ERROR_OF_MEAN|36.13|||TWO_SIDED|90.0|82.76|202.72|||||Test (PF-05251749 200 mg PM) Reference (Placebo)|||202.72|82.76|
92184324|NCT02691702|184267209|OTHER|MMRM|Mean Difference (Final Values)|174.9|STANDARD_ERROR_OF_MEAN|36.01|||TWO_SIDED|90.0|115.11|234.69|||||Test (PF-05251749 500 mg PM) Reference (Placebo)|||234.69|115.11|
92184325|NCT02691702|184267210|OTHER|MMRM|Mean Difference (Final Values)|-71.26|STANDARD_ERROR_OF_MEAN|37.24|||TWO_SIDED|90.0|-133.09|-9.43|||||Test (Melatonin 0.5 mg PM) Reference (Placebo)|||-9.43|-133.09|
92184326|NCT02691702|184267210|OTHER|MMRM|Mean Difference (Final Values)|-12.13|STANDARD_ERROR_OF_MEAN|38.61|||TWO_SIDED|90.0|-76.24|51.97|||||Test (PF-05251749 50 mg AM) Reference (Placebo)|||51.97|-76.24|
92184327|NCT02691702|184267210|OTHER|MMRM|Mean Difference (Final Values)|88.72|STANDARD_ERROR_OF_MEAN|45.72|||TWO_SIDED|90.0|12.81|164.62|||||Test (PF-05251749 100 mg AM) Reference (Placebo)|||164.62|12.81|
92184328|NCT02691702|184267210|OTHER|MMRM|Mean Difference (Final Values)|46.48|STANDARD_ERROR_OF_MEAN|40.88|||TWO_SIDED|90.0|-21.38|114.35|||||Test (PF-05251749 200 mg AM) Reference (Placebo)|||114.35|-21.38|
92266390|NCT03655951|184433976|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.62|||||||Regression, Linear|||||||.62
92266391|NCT03655951|184433977|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.29|||||||Regression, Linear|||||||.29
92266392|NCT03655951|184433978|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.14|||||||Regression, Linear|||||||.14
92266393|NCT03655951|184433979|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.008|||||||Regression, Linear|||||||.008
92266394|NCT03655951|184433980|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.02|||||||Regression, Linear|||||||.02
92266395|NCT03655951|184433981|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.03|||||||Regression, Linear|||||||.03
92266396|NCT03655951|184433982|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.69|||||||Regression, Linear|||||||.69
92266397|NCT03655951|184433983|EQUIVALENCE|Binary outcomes were assessed with logistic regression.||||||0.4|||||||Regression, Logistic|||||||.4
92266398|NCT03655951|184433984|EQUIVALENCE|Binary outcomes were assessed with logistic regression.||||||0.02|||||||Regression, Logistic|||||||.02
92266399|NCT03655951|184433985|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.27|||||||Regression, Linear|||||||.27
92266400|NCT03655951|184433986|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.31|||||||Regression, Linear|||||||.31
92266401|NCT03655951|184433987|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.11|||||||Regression, Linear|||||||.11
92266402|NCT03655951|184433988|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.89|||||||Regression, Linear|||||||.89
92266403|NCT03655951|184433989|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.41|||||||Regression, Linear|||||||.41
92266404|NCT03655951|184433990|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.93|||||||Regression, Linear|||||||.93
92266405|NCT03655951|184433991|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.83|||||||Regression, Linear|||||||.83
92266406|NCT03655951|184433992|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.04|||||||Regression, Linear|||||||.04
92266407|NCT03655951|184433993|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.13|||||||Regression, Linear|||||||.13
92144161|NCT00917579|184172741|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCinf and Cmax fell within (80%, 125%).|ratio of adjusted geometric means|95.34||||||90.0|91.33|99.52|||ANOVA|Values were back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means. AUClast + (Clast\*/kel), where Clast\* was the predicted plasma concentration at the last quantifiable time point estimated from the log-linear regression analysis.|Natural log transformed AUCinf was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Adjusted mean difference (Test-Ref) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||99.52|91.33|
92184329|NCT02691702|184267210|OTHER|MMRM|Mean Difference (Final Values)|87.3|STANDARD_ERROR_OF_MEAN|39.37|||TWO_SIDED|90.0|21.94|152.66|||||Test (PF-05251749 400 mg AM) Reference (Placebo)|||152.66|21.94|
92184330|NCT02691702|184267210|OTHER|MMRM|Mean Difference (Final Values)|126.22|STANDARD_ERROR_OF_MEAN|42.91|||TWO_SIDED|90.0|54.99|197.45|||||Test (PF-05251749 750 mg AM) Reference (Placebo)|||197.45|54.99|
92266408|NCT03655951|184433994|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.56|||||||Regression, Linear|||||||.56
92266409|NCT03655951|184433995|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.96|||||||Regression, Linear|||||||.96
92266410|NCT03655951|184433996|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.35|||||||Regression, Linear|||||||.35
92266411|NCT03655951|184433997|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.24|||||||Regression, Linear|||||||.24
92266412|NCT03655951|184433998|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.2|||||||Regression, Linear|||||||.2
92266413|NCT03655951|184433999|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.18|||||||Regression, Linear|||||||.18
92266414|NCT03655951|184434000|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.67|||||||Regression, Linear|||To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||.67
92266415|NCT03655951|184434001|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.57|||||||Regression, Linear|||||||.57
92266416|NCT03655951|184434002|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.65|||||||Regression, Linear|||||||.65
92266417|NCT03655951|184434003|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.84|||||||Regression, Linear|||||||.84
92266418|NCT03655951|184434004|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.02|||||||Regression, Linear|||||||.02
92266419|NCT03655951|184434005|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.65|||||||Regression, Linear|||||||.65
92266420|NCT03655951|184434006|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.09|||||||Regression, Linear|||||||.09
92266421|NCT03655951|184434007|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.95|||||||Regression, Linear|||||||.95
92266422|NCT03655951|184434008|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.47|||||||Regression, Linear|||||||.47
92266423|NCT03655951|184434009|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.003|||||||Regression, Linear|||||||.003
92266424|NCT03655951|184434010|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.77|||||||Regression, Linear|||||||.77
92266425|NCT03655951|184434011|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.|||||<|0.001|||||||Regression, Linear|||||||<.001
92144162|NCT00917579|184172742|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both the AUCinf and Cmax fell within (80%, 125%). AUCinf method of determination includes AUC last calculated value.|ratio of adjusted geometric means|95.79||||||90.0|91.07|100.76|||ANOVA|Values have been back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means. Log-linear trapezoidal method.|Natural log transformed AUClast was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence interval was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean (Test/Reference) and 90% confidence interval for the ratio.||100.76|91.07|
92184331|NCT02691702|184267210|OTHER|MMRM|Mean Difference (Final Values)|92.36|STANDARD_ERROR_OF_MEAN|35.48|||TWO_SIDED|90.0|33.51|151.21|||||Test (PF-05251749 50 mg PM) Reference (Placebo)|||151.21|33.51|
92184332|NCT02691702|184267210|OTHER|MMRM|Mean Difference (Final Values)|107.29|STANDARD_ERROR_OF_MEAN|36.13|||TWO_SIDED|90.0|47.31|167.27|||||Test (PF-05251749 200 mg AM) Reference (Placebo)|||167.27|47.31|
92266426|NCT03655951|184434012|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.06|||||||Regression, Linear|||||||.06
92266427|NCT03655951|184434013|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.91|||||||Regression, Linear|||||||.91
92266428|NCT03655951|184434014|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.95|||||||Regression, Linear|||||||.95
92266429|NCT03655951|184434015|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.12|||||||Regression, Linear|||||||.12
92266430|NCT03655951|184434016|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.98|||||||Regression, Linear|||||||.98
92266431|NCT03655951|184434017|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.57|||||||Regression, Linear|||||||.57
92266432|NCT03655951|184434018|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.98|||||||Regression, Linear|||||||.98
92266433|NCT03655951|184434019|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.07|||||||Regression, Linear|||||||.07
92266434|NCT03655951|184434020|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.02|||||||Regression, Linear|||||||.02
92266435|NCT03655951|184434021|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.15|||||||Regression, Linear|||||||.15
92266436|NCT02486263|184434037|SUPERIORITY|||||||0.28||||||The threshold for statistical significance was \<0.05.|Chi-squared|||||||0.28
92266437|NCT02486263|184434038|SUPERIORITY||Odds Ratio (OR)|0.8||||0.99|TWO_SIDED|95.0|0.4|1.6||Used Bonferroni adjustment for multiple comparisons. Threshold for statistical significance was p\<0.05|Generalized Estimation Equation||Data presented as OR (95% CI) using Generalized Estimation Equation (GEE) model with Conventional as reference.|Generalized Estimation Equation (GEE) model was used for the comparison of differences between intervention groups from week 0 to week 5 for peristaltic response frequency.||1.6|0.4|0.99
92266438|NCT02486263|184434039|SUPERIORITY|Weight velocity in grams/day||||||0.64|||||||t-test, 2 sided|||||||0.64
92266439|NCT02486263|184434040|SUPERIORITY|||||||0.11|||||||Chi-squared|||||||0.11
92266440|NCT02486263|184434041|SUPERIORITY|||||||0.49||||||Threshold for statistical significance \<0.05|Chi-squared|||||||0.49
92266441|NCT00066573|184434087|SUPERIORITY|To detect a hazard ratio (HR) of 0.80 between exemestane and anastrozole (ie, an improvement in 5-year EFS from 87.5% to 89.9%, with a two-sided 5% level test and 80% power, 6,840 patients and 630 events were needed for final analysis.|Hazard Ratio (HR)|1.02||||0.85|TWO_SIDED|95.0|0.87|1.18|||Log Rank|||||1.18|0.87|0.85
92266442|NCT00066573|184434088|SUPERIORITY|No power calculation for secondary analysis|Hazard Ratio (HR)|0.93||||0.46|TWO_SIDED|95.0|0.77|1.13|||Log Rank|||||1.13|0.77|0.46
92266443|NCT01646268|184434095|SUPERIORITY_OR_OTHER||LS Means|-4.82|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-7.18|-2.45|||ANCOVA||Value describes the difference value of the mean change from baseline between Rotigotine and Placebo groups. The Value for this outcome was -4.6.|The null hypothesis (H0) is that there is no difference in the change in the sum of the score from the ADL and motor examination in the UPDRS (Parts II+II) between the active treatment and the placebo groups (i.e., the change from Baseline in the sum of the score from the ADL and motor examination in the UPDRS (Parts II+III) is the same for both groups).||-2.45|-7.18|<0.0001
92266444|NCT02222246|184434099|NON_INFERIORITY|Change in pain scores from arrival to discharge||||||0.0311|||||||Mixed Models Analysis|Analysis for pain change was conducted using Hierarchical Linear Mixed Effects Model (HLM), adjusting for nested patient and site effects (N=126)||||||0.0311
92266445|NCT02222246|184434100|NON_INFERIORITY|Trajectory of pain across time (arrival to discharge)||||||0.0049||||||p-value for the protocol by time interaction|Mixed Models Analysis|||The trajectory of change in pain score was evaluated every 30 minutes over 120 hours (2 hours) rather than 6 hours because of expected missing data after 120 minutes due to discharge from the ED.||||0.0049
92266446|NCT02222246|184434100|NON_INFERIORITY|Emergency Department Arrival||||||0.9393|||||||t-test, 2 sided|||||||0.9393
92290825|NCT00112437|184485037|SUPERIORITY_OR_OTHER||Difference in Least Square Means|11.17||||0.249|TWO_SIDED|95.0|-0.94|43.24||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 12 months.||43.24|-0.94|0.249
92290826|NCT00112437|184485038|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-56.33|||<=|0.001||95.0|-75.86|-36.81||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation from difference in log-fraction)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 12 months.||-36.81|-75.86|<=0.001
92290827|NCT00112437|184485038|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-35.57|||<=|0.001||95.0|-56.63|-14.51||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Square Means (back-transformation from difference in log-fraction)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 12 months.||-14.51|-56.63|<=0.001
92266447|NCT02222246|184434100|NON_INFERIORITY|Post-placement 30 minutes||||||0.7259|||||||t-test, 2 sided|||||||0.7259
92266448|NCT02222246|184434100|NON_INFERIORITY|Post-placement 60 minutes||||||0.53|||||||t-test, 2 sided|||||||0.5300
92266449|NCT02222246|184434100|NON_INFERIORITY|Post-placement 90 minutes||||||0.3678|||||||t-test, 2 sided|||||||0.3678
92266450|NCT02222246|184434100|NON_INFERIORITY|Post-placement 120 minutes||||||0.2457|||||||t-test, 2 sided|||||||0.2457
92266451|NCT02222246|184434100|NON_INFERIORITY|Emergency Department Discharge||||||0.0007|||||||t-test, 2 sided|||||||0.0007
92266452|NCT02222246|184434101|NON_INFERIORITY|Incidence of nausea during Emergency Department Visit - YES||||||0.0001|||||||Chi-squared|||||||0.0001
92266453|NCT02222246|184434102|NON_INFERIORITY|Incidence of vomiting (YES) during Emergency Department visit||||||0.6625|||||||Chi-squared|||||||0.6625
92266454|NCT02222246|184434103|NON_INFERIORITY|Decrease in systolic BP (\>= 20% of baseline)||||||0.4473|||||||Chi-squared|||||||0.4473
92266455|NCT02222246|184434104|NON_INFERIORITY|Decrease in diastolic blood pressure (\>= 20% baseline)||||||0.5372|||||||Chi-squared|||||||0.5372
92266456|NCT02222246|184434105|NON_INFERIORITY|Incidence of oxygen desaturation (\<95%) YES during Emergency Department visit||||||0.2891|||||||Chi-squared|||||||0.2891
92266457|NCT02222246|184434107|NON_INFERIORITY|Incidence of sedation during Emergency Department visit.||||||0.3915|||||||Chi-squared|||||||0.3915
92266458|NCT02222246|184434108|NON_INFERIORITY|Incidence of the need for supplemental oxygen during Emergency Department visit||||||0.0726|||||||Chi-squared|||||||0.0726
92266459|NCT02544607|184434131|OTHER||||||<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.01
92266460|NCT02544607|184434132|OTHER|||||||0.048|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.048
92266461|NCT02544607|184434133|OTHER|||||||0.003|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.003
92266462|NCT02544607|184434134|OTHER|||||||0.0499|TWO_SIDED|95.0|||||t-test, 2 sided|||||||.0499
92266463|NCT02544607|184434135|OTHER|||||||0.038|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.038
92266464|NCT01969201|184434170|NON_INFERIORITY|The non-inferiority was evaluated by calculating the 95% CI for the differences in pregnancy rates between the two treatment groups. If the lower bound of the 95% CI of the difference between the two proportions was greater than -0.10 (i.e. 10%), then Fostimon was to be considered not inferior to the control treatment.|Mean Difference (Final Values)|-2.73||||0.49|TWO_SIDED|95.0|-9.88|4.42|||Fisher Exact|||||4.42|-9.88|0.49
92266465|NCT01969201|184434171|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92266466|NCT01969201|184434172|OTHER|||||||0.02|||||||ANOVA|||||||0.02
92266467|NCT01969201|184434173|OTHER|||||||0.32|||||||ANOVA|||||||0.32
92266468|NCT01969201|184434174|OTHER|||||||0.89|||||||ANOVA|||||||0.89
92266469|NCT01969201|184434175|OTHER|||||||0.5|||||||Fisher Exact|||||||0.5
92266470|NCT01969201|184434176|OTHER|||||||0.53|||||||Fisher Exact|||||||0.53
92266471|NCT01969201|184434177|OTHER|||||||0.07|||||||Fisher Exact|||||||0.07
92266472|NCT01422876|184434181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.58|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.75|-0.41|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0038), geographical region (p\<0.0001), treatment (p\<0.0001) as fixed effect(s).||-0.41|-0.75|<0.0001
92266473|NCT01422876|184434181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.67|-0.32|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0038), geographical region (p\<0.0001), treatment (p\<0.0001) as fixed effect(s).||-0.32|-0.67|<0.0001
92184333|NCT02691702|184267210|OTHER|MMRM|Mean Difference (Final Values)|140.61|STANDARD_ERROR_OF_MEAN|37.79|||TWO_SIDED|90.0|77.91|203.3|||||Test (PF-05251749 500 mg AM) Reference (Placebo)|||203.30|77.91|
92184334|NCT05613088|184267223|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.4063|TWO_SIDED|95.0|0.76|2.0|||Log Rank|||||2.00|0.76|0.4063
92266474|NCT01422876|184434181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.59|-0.25|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0038), geographical region (p\<0.0001), treatment (p\<0.0001) as fixed effect(s).||-0.25|-0.59|<0.0001
92266475|NCT01422876|184434181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.56|-0.21|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0038), geographical region (p\<0.0001), treatment (p\<0.0001) as fixed effect(s).||-0.21|-0.56|<0.0001
92266476|NCT01422876|184434182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.43|STANDARD_ERROR_OF_MEAN|3.54|<|0.0001|TWO_SIDED|95.0|-23.37|-9.48|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.6082) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0104), treatment (p\<0.0001) as fixed effect(s).||-9.48|-23.37|<0.0001
92266477|NCT01422876|184434182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.2|STANDARD_ERROR_OF_MEAN|3.62|<|0.0001|TWO_SIDED|95.0|-29.3|-15.1|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.6082) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0104), treatment (p\<0.0001) as fixed effect(s).||-15.10|-29.30|<0.0001
92266478|NCT01422876|184434182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.34|STANDARD_ERROR_OF_MEAN|3.55||0.0015|TWO_SIDED|95.0|-18.31|-4.37|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.6082) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0104), treatment (p\<0.0001) as fixed effect(s).||-4.37|-18.31|0.0015
92266479|NCT01422876|184434182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.12|STANDARD_ERROR_OF_MEAN|3.61|<|0.0001|TWO_SIDED|95.0|-26.21|-12.03|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.6082) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0104), treatment (p\<0.0001) as fixed effect(s).||-12.03|-26.21|<0.0001
92266480|NCT01422876|184434183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.31|STANDARD_ERROR_OF_MEAN|3.78||0.1605|TWO_SIDED|95.0|-12.74|2.11|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.4591) as linear covariate(s) and baseline eGFR (MDRD) (p=0.7413), geographical region (p=0.1504), treatment (p\<0.0001) as fixed effect(s).||2.11|-12.74|0.1605
92266481|NCT01422876|184434183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.82|STANDARD_ERROR_OF_MEAN|3.78||0.1246|TWO_SIDED|95.0|-13.25|1.61|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.4591) as linear covariate(s) and baseline eGFR (MDRD) (p=0.7413), geographical region (p=0.1504), treatment (p\<0.0001) as fixed effect(s).||1.61|-13.25|0.1246
92266482|NCT01422876|184434183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.63|STANDARD_ERROR_OF_MEAN|3.78|<|0.0001|TWO_SIDED|95.0|-31.06|-16.21|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.4591) as linear covariate(s) and baseline eGFR (MDRD) (p=0.7413), geographical region (p=0.1504), treatment (p\<0.0001) as fixed effect(s).||-16.21|-31.06|<0.0001
92266483|NCT01422876|184434183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.29|STANDARD_ERROR_OF_MEAN|3.77|<|0.0001|TWO_SIDED|95.0|-29.71|-14.88|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.4591) as linear covariate(s) and baseline eGFR (MDRD) (p=0.7413), geographical region (p=0.1504), treatment (p\<0.0001) as fixed effect(s).||-14.88|-29.71|<0.0001
92266484|NCT01422876|184434184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19|STANDARD_ERROR_OF_MEAN|0.43||0.6604|TWO_SIDED|95.0|-0.65|1.03||Not an alpha protected test.|ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.1610) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0162), treatment (p\<0.0001) as fixed effect(s).||1.03|-0.65|0.6604
92266485|NCT01422876|184434184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-3.15|-1.44|||ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.1610) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0162), treatment (p\<0.0001) as fixed effect(s).||-1.44|-3.15|<0.0001
92266486|NCT01422876|184434184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.43||0.8757|TWO_SIDED|95.0|-0.91|0.77||Not an alpha protected test.|ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.1610) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0162), treatment (p\<0.0001) as fixed effect(s).||0.77|-0.91|0.8757
92266487|NCT01422876|184434184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.91|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-2.77|-1.05|||ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.1610) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0162), treatment (p\<0.0001) as fixed effect(s).||-1.05|-2.77|<0.0001
92266488|NCT01422876|184434185|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.1||0.1785|TWO_SIDED|95.0|-0.33|0.06|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.8627), geographical region (p=0.0008), treatment (p\<0.0001) as fixed effect(s).||0.06|-0.33|0.1785
92266489|NCT01422876|184434185|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.61|-0.21|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.8627), geographical region (p=0.0008), treatment (p\<0.0001) as fixed effect(s).||-0.21|-0.61|<0.0001
92266490|NCT01422876|184434185|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.61|-0.22|||Cochran-Mantel-Haenszel|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.8627), geographical region (p=0.0008), treatment (p\<0.0001) as fixed effect(s).||-0.22|-0.61|<0.0001
92266491|NCT01422876|184434185|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.76|-0.37|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.8627), geographical region (p=0.0008), treatment (p\<0.0001) as fixed effect(s).||-0.37|-0.76|<0.0001
92290828|NCT00112437|184485038|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-21.66||||0.08||95.0|-44.54|1.23||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation from difference in log-fraction)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 12 months.||1.23|-44.54|0.080
92290829|NCT00112437|184485038|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|19.7|||||TWO_SIDED|95.0|-8.48|47.88||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation from difference in log-fraction)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 12 months.||47.88|-8.48|
92290830|NCT00112437|184485039|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-18.28||||0.004|TWO_SIDED|95.0|-35.82|-0.74||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-DPyr) over 12 months.||-0.74|-35.82|0.004
92290831|NCT00112437|184485039|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.26||||0.344|TWO_SIDED|95.0|-19.9|17.39||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-DPyr) over 12 months.||17.39|-19.90|0.344
92144163|NCT00917579|184172743|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCinf and Cmax fell within (80%, 125%).|ratio of adjusted geometric means|91.41||||||90.0|83.39|100.2|||ANOVA|Values have been back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means.|Natural log transformed Cmax was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals were obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean (Test/Reference) and 90% confidence interval for the ratio.||100.20|83.39|
92144164|NCT01627327|184172746|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.022||||0.201|TWO_SIDED|95.0|-0.012|0.055|||ANCOVA|||||0.055|-0.012|0.201
92184335|NCT03652610|184267241|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the hSBA GMT ratio for serogroup A is \> 0.5|GMT ratio|0.88|||||TWO_SIDED|95.0|0.64|1.2|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To demonstrate non-inferiority of the investigational MenACWY liquid vaccine with approximately 30% Men A FS (GSK3536820A ACWY\_Liq Group) to that of currently licensed MenACWY vaccine (ACWY Group), as measured by the adjusted human serum bactericidal assay (hSBA) Geometric Mean Titers (GMTs) directed against N. meningitidis serogroup A at Day 29 after a single dose vaccination||1.20|0.64|
92184336|NCT03652610|184267242|OTHER||GMT ratio|1.19|||||TWO_SIDED|95.0|0.84|1.68|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To compare the immunogenicity of the investigational MenACWY liquid vaccine with approximately 30% Men A FS (GSK3536820A ACWY\_Liq Group) and the currently licensed MenACWY vaccine (ACWY Group), as measured by the adjusted hSBA GMTs directed against N. meningitidis serogroup C at Day 29||1.68|0.84|
92144165|NCT01175850|184172766|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Z-test|Z-test of two proportions was used to compare treatment groups for all randomized subjects.||||||<0.001
92144166|NCT01175850|184172767|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92144167|NCT01175850|184172768|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92184337|NCT03652610|184267242|OTHER||GMT ratio|1.23|||||TWO_SIDED|95.0|0.96|1.58|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To compare the immunogenicity of the investigational MenACWY liquid vaccine with approximately 30% Men A FS (GSK3536820A ACWY\_Liq Group) and the currently licensed MenACWY vaccine (ACWY Group), as measured by the adjusted hSBA GMTs directed against N. meningitidis serogroup W at Day 29||1.58|0.96|
92144168|NCT01175850|184172769|SUPERIORITY_OR_OTHER|||||||0.926|TWO_SIDED||||||Chi-squared|||||||0.926
92266492|NCT01422876|184434186|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.51||0.801|TWO_SIDED|95.0|-0.88|1.14||Not an alpha protected test.|ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.0023) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0316), geographical region (p=0.0134), treatment (p=0.0031) as fixed effect(s).||1.14|-0.88|0.8010
92266493|NCT01422876|184434186|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47|STANDARD_ERROR_OF_MEAN|0.51||0.3616|TWO_SIDED|95.0|-1.48|0.54||Not an alpha protected test.|ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.0023) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0316), geographical region (p=0.0134), treatment (p=0.0031) as fixed effect(s).||0.54|-1.48|0.3616
92266494|NCT01422876|184434186|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.22|STANDARD_ERROR_OF_MEAN|0.51||0.0178|TWO_SIDED|95.0|-2.23|-0.21|||ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.0023) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0316), geographical region (p=0.0134), treatment (p=0.0031) as fixed effect(s).||-0.21|-2.23|0.0178
92266495|NCT01422876|184434186|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.96|STANDARD_ERROR_OF_MEAN|0.51||0.0001|TWO_SIDED|95.0|-2.97|-0.95|||ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.0023) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0316), geographical region (p=0.0134), treatment (p=0.0031) as fixed effect(s).||-0.95|-2.97|0.0001
92266496|NCT01422876|184434187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.191|||<|0.0001|TWO_SIDED|95.0|2.319|7.573|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||7.573|2.319|<0.0001
92266497|NCT01422876|184434187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.5|||<|0.0001|TWO_SIDED|95.0|2.474|8.184|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||8.184|2.474|<0.0001
92266498|NCT01422876|184434187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.495|||<|0.0001|TWO_SIDED|95.0|1.92|6.363|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||6.363|1.920|<0.0001
92266499|NCT01422876|184434187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.795||||0.0005|TWO_SIDED|95.0|1.562|5.001|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||5.001|1.562|0.0005
92266500|NCT01422876|184434188|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.893||||0.0224|TWO_SIDED|95.0|1.095|3.274|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||3.274|1.095|0.0224
92266501|NCT01422876|184434188|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.961||||0.0001|TWO_SIDED|95.0|1.697|5.169|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||5.169|1.697|0.0001
92266502|NCT01422876|184434188|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.065|||<|0.0001|TWO_SIDED|95.0|1.768|5.314|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||5.314|1.768|<0.0001
92266503|NCT01422876|184434188|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.303|||<|0.0001|TWO_SIDED|95.0|2.462|7.522|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||7.522|2.462|<0.0001
92266504|NCT01491737|184434253|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.007|TWO_SIDED|95.0|0.48|0.89||Test was performed at 2-sided alpha of 5%.|Log Rank|Stratified log-rank test based upon Kaplan-Meier including induction chemotherapy and prior adjuvant hormone therapy stratification factors.|Hazard ratio comparing Arm A vs. B from stratified Cox proportional hazards model including stratification factors.|Primary Analysis. Log Rank tested the following: Null Hypothesis (H0): the distribution of the PFS time was the same in Arms A \& B; The Alternative Hypothesis (H1): the distribution of the PFS time was different in Arms A \& B. A Cox proportional hazards model tested the HR. If the HR of investigational arm (Arm A) compared with control arm (Arm B) with respect to PFS was assumed to be constant over time (λ) then the null (H0) and alternative hypotheses (H1) were: H0: λ =1; H1: λ ≠1.||0.89|0.48|0.0070
92266505|NCT01491737|184434253|OTHER|Exploratory|Hazard Ratio (HR)|0.67||||0.0059|TWO_SIDED|95.0|0.5|0.89|||Log Rank|Stratified log-rank test based upon Kaplan-Meier including induction chemotherapy and prior adjuvant hormone therapy stratification factors.|Hazard ratio comparing Arm A vs. B from stratified Cox proportional hazards model including stratification factors.|Final Analysis||0.89|0.50|0.0059
92266506|NCT01491737|184434254|OTHER|Exploratory|Hazard Ratio (HR)|1.15||||0.585|TWO_SIDED|95.0|0.69|1.91|||Log Rank|Stratified log-rank test based upon Kaplan-Meier including induction chemotherapy and prior adjuvant hormone therapy stratification factors.|Hazard ratio comparing Arm A vs. B from stratified Cox proportional hazards model including stratification factors.|Primary Analysis. This study was not powered for overall survival (OS), so adequately powered statistical testing for this outcome measure was not possible.||1.91|0.69|0.5850
92266507|NCT01491737|184434254|OTHER|Exploratory|Hazard Ratio (HR)|1.05||||0.7833|TWO_SIDED|95.0|0.73|1.52|||Log Rank|Stratified log-rank test based upon Kaplan-Meier including induction chemotherapy and prior adjuvant hormone therapy stratification factors.|Hazard ratio comparing Arm A vs. B from stratified Cox proportional hazards model including stratification factors.|Final Analysis. This study was not powered for overall survival (OS), so adequately powered statistical testing for this outcome measure was not possible.||1.52|0.73|0.7833
92266508|NCT01491737|184434255|SUPERIORITY||Difference in ORR|7.6||||0.2537|TWO_SIDED|95.0|-6.0|21.3||Test was performed at 2-sided alpha of 5%. There was no multiplicity adjustment.|Chi-squared|||ORR for Arm A vs Arm B||21.3|-6.0|0.2537
92266509|NCT01491737|184434256|SUPERIORITY||Difference in CBR|1.8||||0.7743|TWO_SIDED|95.0|-11.2|14.8||Test was performed at 2-sided alpha of 5%. There was no multiplicity adjustment.|Chi-squared|||CBR for Arm A vs. Arm B||14.8|-11.2|0.7743
92144169|NCT01175850|184172770|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92144170|NCT01175850|184172771|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92144171|NCT01175850|184172772|SUPERIORITY_OR_OTHER|||||||0.859|TWO_SIDED||||||Chi-squared|||||||0.859
92144172|NCT01175850|184172773|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Chi-squared|||||||>0.999
92290832|NCT00112437|184485039|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.33|||||TWO_SIDED|95.0|-20.55|17.89||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-DPyr) over 12 months.||17.89|-20.55|
92290833|NCT00112437|184485039|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|28.15|||||TWO_SIDED|95.0|5.84|50.46||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-DPyr) over 12 months.||50.46|5.84|
92290834|NCT00112437|184485040|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-15.57|||<=|0.001|TWO_SIDED|95.0|-26.11|-5.04||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation from difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 12 months.||-5.04|-26.11|<=0.001
92290835|NCT00112437|184485040|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|5.43||||0.645|TWO_SIDED|95.0|-6.02|16.89||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation from difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 12 months.||16.89|-6.02|0.645
92290836|NCT00112437|184485040|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|11.73|||||TWO_SIDED|95.0|-0.47|23.92||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation from difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 12 months.||23.92|-0.47|
92290837|NCT00112437|184485040|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|44.85|||||TWO_SIDED|95.0|30.55|59.16||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation from difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 12 months.||59.16|30.55|
92290838|NCT00112437|184485041|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-35.74|||<=|0.001|TWO_SIDED|95.0|-52.14|-19.33||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 12 months.||-19.33|-52.14|<=0.001
92290839|NCT00112437|184485041|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.68||||0.161|TWO_SIDED|95.0|-20.58|17.23||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 12 months.||17.23|-20.58|0.161
92144173|NCT01175850|184172774|SUPERIORITY_OR_OTHER|||||||0.096|TWO_SIDED||||||Chi-squared|||||||0.096
92144174|NCT01175850|184172775|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92290840|NCT00112437|184485041|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.58|||||TWO_SIDED|95.0|-20.99|17.82||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 12 months.||17.82|-20.99|
92290841|NCT00112437|184485041|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|46.9|||||TWO_SIDED|95.0|22.35|71.44||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 12 months.||71.44|22.35|
92290842|NCT00112437|184485042|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|4.1|||<=|0.001|TWO_SIDED|95.0|2.77|5.42||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 24 months.||5.42|2.77|<=0.001
92290843|NCT00112437|184485042|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|3.48|||<=|0.001|TWO_SIDED|95.0|2.2|4.77||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 24 months.||4.77|2.20|<=0.001
92290844|NCT00112437|184485042|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.75|||<=|0.001|TWO_SIDED|95.0|1.43|4.07||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 24 months.||4.07|1.43|<=0.001
92290845|NCT00112437|184485042|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.51||||0.536|TWO_SIDED|95.0|-1.84|0.83||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 24 months.||0.83|-1.84|0.536
92290846|NCT00112437|184485043|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|4.69|||<=|0.001|TWO_SIDED|95.0|3.25|6.12||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 24 months.||6.12|3.25|<=0.001
92290847|NCT00112437|184485043|SUPERIORITY_OR_OTHER||Difference in Least Square Means|3.57|||<=|0.001|TWO_SIDED|95.0|2.18|4.97||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 24 months.||4.97|2.18|<=0.001
92144175|NCT01175850|184172776|SUPERIORITY_OR_OTHER|||||||0.121|TWO_SIDED||||||Chi-squared|||||||0.121
92290848|NCT00112437|184485043|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.82|||<=|0.001|TWO_SIDED|95.0|1.39|4.25||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 24 months.||4.25|1.39|<=0.001
92290849|NCT00112437|184485043|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.41||||0.585|TWO_SIDED|95.0|-1.85|1.04||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 24 months.||1.04|-1.85|0.585
92290850|NCT00112437|184485044|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|5.09|||<=|0.001|TWO_SIDED|95.0|3.18|7.01||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 24 months.||7.01|3.18|<=0.001
92290851|NCT00112437|184485044|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|4.56|||<=|0.001|TWO_SIDED|95.0|2.7|6.42||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 24 months.||6.42|2.70|<=0.001
92290852|NCT00112437|184485044|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|4.43|||<=|0.001|TWO_SIDED|95.0|2.52|6.33||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 24 months.||6.33|2.52|<=0.001
92290853|NCT00112437|184485044|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.04||||0.981|TWO_SIDED|95.0|-1.97|1.89||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 24 months.||1.89|-1.97|0.981
92290854|NCT00112437|184485045|SUPERIORITY_OR_OTHER||Difference in Least square means|1.73|||<=|0.001||95.0|0.46|3.01||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Total Body BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Total Body BMD compared to placebo over 24 months.||3.01|0.46|<=0.001
92290855|NCT00112437|184485045|SUPERIORITY_OR_OTHER||Difference in Least square means|1.11||||0.028||95.0|-0.12|2.34||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Total Body BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Total Body BMD compared to placebo over 24 months.||2.34|-0.12|0.028
92290856|NCT00112437|184485045|SUPERIORITY_OR_OTHER||Difference in Least square means|0.2||||0.804||95.0|-1.1|1.49||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Total Body BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Total Body BMD compared to placebo over 24 months.||1.49|-1.10|0.804
92144176|NCT01175850|184172777|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Chi-squared|||||||0.001
92144177|NCT01175850|184172778|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92144178|NCT01175850|184172779|SUPERIORITY_OR_OTHER|||||||0.095|TWO_SIDED||||||Chi-squared|||||||0.095
92144179|NCT01175850|184172780|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Chi-squared|||||||0.590
92144180|NCT01175850|184172781|SUPERIORITY_OR_OTHER|||||||0.302|TWO_SIDED||||||Chi-squared|||||||0.302
92144181|NCT01175850|184172782|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED||||||Chi-squared|||||||0.111
92144182|NCT01175850|184172783|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED||||||Chi-squared|||||||0.103
92266510|NCT01491737|184434257|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0181|TWO_SIDED|95.0|0.36|0.91||Test was performed at 2-sided alpha of 5%.|Log Rank|Log-rank test from unstratified analysis based upon Kaplan-Meier approach. There was no multiplicity adjustment.|Hazard ratio from stratified Cox proportional hazards model including stratification factors of induction chemotherapy and prior adjuvant hormone therapy.|Primary Analysis. Log Rank tested the following: Null Hypothesis (H0): the distribution of the DOR time was the same in Arms A \& B; The Alternative Hypothesis (H1): the distribution of the DOR time was different in Arms A \& B. A Cox proportional hazards model tested the HR. If the HR of investigational arm (Arm A) compared with control arm (Arm B) with respect to DOR was assumed to be constant over time (λ) then the null (H0) and alternative hypotheses (H1) were: H0: λ =1; H1: λ ≠1.||0.91|0.36|0.0181
92266511|NCT01491737|184434257|OTHER|Exploratory|Hazard Ratio (HR)|0.62||||0.0205|TWO_SIDED|95.0|0.41|0.93|||Log Rank|Log-rank test from unstratified analysis based upon Kaplan-Meier approach. There was no multiplicity adjustment.|Hazard ratio from stratified Cox proportional hazards model including stratification factors of induction chemotherapy and prior adjuvant hormone therapy.|Final Analysis.||0.93|0.41|0.0205
92266512|NCT01491737|184434258|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.5597|TWO_SIDED|95.0|0.78|1.57||Test was performed at 2-sided alpha of 5%.|Log Rank|The log-rank test from unstratified analysis was based upon Kaplan-Meier approach. There was no multiplicity adjustment.|Hazard ratio from stratified Cox proportional hazards model including the induction chemotherapy and prior adjuvant hormone therapy stratification factors.|Log Rank tested the following: Null Hypothesis (H0): the distribution of the TTR time was the same in Arms A \& B; The Alternative Hypothesis (H1): the distribution of the TTR time was different in Arms A \& B. A Cox proportional hazards model tested the HR. If the HR of investigational arm (Arm A) compared with control arm (Arm B) with respect to TTR was assumed to be constant over time (λ) then the null (H0) and alternative hypotheses (H1) were: H0: λ =1; H1: λ ≠1.||1.57|0.78|0.5597
92266513|NCT02354352|184434263|NON_INFERIORITY|Using a Type I error rate of 5%, we conducted a power calculation using a non-inferiority test on 12-month change in Ecc. If there is truly no difference in the 12-month Ecc change between the spironolactone and eplerenone groups, 46 patients (23 in each group) would result in at least 80% power to ensure that the lower limit of a one-sided 95% confidence interval for the true difference between the spironolactone and eplerenone groups to be above the non-inferiority limit of -1.75.||||||0.5867|||||||Wilcoxon (Mann-Whitney)|||||||0.5867
92266514|NCT04436497|184434352|SUPERIORITY||Disease Rate Ratio|1.08|STANDARD_DEVIATION|0.11|||TWO_SIDED|95.0|0.874|1.307||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. zilucoplan slowed progression) was 0.2418. NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by zilucoplan relative to placebo. Note: reported Confidence Interval is actually a Bayesian credible interval."||The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality. The model includes covariates for baseline use of edaravone, baseline use of riluzole, months since onset of symptoms, and pre-baseline slope of ALSFRS-R, and random effects for regimen and participant-specific slopes.|1.307|0.874|
92266515|NCT04436497|184434354|SUPERIORITY||Mean Difference (Net)|-1.09|STANDARD_ERROR_OF_MEAN|1.819||0.5495|TWO_SIDED|95.0|-4.66|2.48|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Zilucoplan 24-week change from baseline relative to placebo 24-week change from baseline.|||2.48|-4.66|0.5495
92266516|NCT04436497|184434355|SUPERIORITY||Mean Difference (Net)|-1.04|STANDARD_ERROR_OF_MEAN|3.409||0.7602|TWO_SIDED|95.0|-7.73|5.65|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Zilucoplan 24-week change from baseline relative to placebo 24-week change from baseline.|||5.65|-7.73|0.7602
92266517|NCT04436497|184434356|SUPERIORITY|||||||0.6891|||||||Log Rank|||||||0.6891
92266518|NCT02743117|184434357|SUPERIORITY_OR_OTHER||Rate Difference|-1.3|||||TWO_SIDED|95.0|-8.1|1.3||||||||1.3|-8.1|
92266519|NCT02743117|184434358|SUPERIORITY_OR_OTHER||Rate Difference|-8.2|||||TWO_SIDED|95.0|-22.2|4.6||||||Up to Day 8||4.6|-22.2|
92266520|NCT02743117|184434358|SUPERIORITY_OR_OTHER||Rate Difference|-7.4|||||TWO_SIDED|95.0|-21.6|5.9||||||Up to Day 15||5.9|-21.6|
92266521|NCT04983589|184434362|SUPERIORITY||Percentage Difference|27.3|||<|0.0001|TWO_SIDED|95.0|17.3|37.4||Analysis was done using chi-square test.|Chi-squared||The 95% confidence interval for the proportion differences was calculated using the normal approximation based on pooled variance without continuity correction.|||37.4|17.3|<0.0001
92144183|NCT01175850|184172784|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||Chi-squared|||||||0.049
92144184|NCT01137474|184172787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.05|STANDARD_ERROR_OF_MEAN|0.9251||0.001|TWO_SIDED|95.0|-4.87|-1.24||Endpoint tested following a sequential testing procedure at two-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test performed since previous tests were significant.|Longitudinal repeated measures analysis|Only Week 12 data are presented; data from all weeks in double-blind period were included in the longitudinal repeated measures model.||Change from baseline to week 12 calculated using a longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata and continuous fixed covariates of baseline value and baseline value by week interaction. Data after rescue were not included in the analysis. With 253 patients per group, there is \>80% power to detect a difference of 3.5 mm Hg at alpha=0.05, assuming a common SD of 14 mm Hg.||-1.24|-4.87|0.0010
92290857|NCT00112437|184485045|SUPERIORITY_OR_OTHER||Difference in Least square means|-1.15|||||TWO_SIDED|95.0|-2.46|0.15||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Total Body BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Total Body BMD compared to placebo over 24 months.||0.15|-2.46|
92290858|NCT00112437|184485046|SUPERIORITY_OR_OTHER||Difference in Least square means|2.9|||<=|0.001|TWO_SIDED|95.0|1.34|4.46||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Distal Forearm BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Distal Forearm BMD compared to placebo over 24 months.||4.46|1.34|<=0.001
92290859|NCT00112437|184485046|SUPERIORITY_OR_OTHER||Difference in Least square means|2.09|||<=|0.001||95.0|0.59|3.6||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Distal Forearm BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Distal Forearm BMD compared to placebo over 24 months.||3.60|0.59|<=0.001
92290860|NCT00112437|184485046|SUPERIORITY_OR_OTHER||Difference in Least square means|1.53||||0.094||95.0|-0.01|3.07||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Distal Forearm BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Distal Forearm BMD compared to placebo over 24 months.||3.07|-0.01|0.094
92290861|NCT00112437|184485046|SUPERIORITY_OR_OTHER||Difference in Least square means|-2.95||||||95.0|-4.5|-1.4||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Distal Forearm BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Distal Forearm BMD compared to placebo over 24 months.||-1.40|-4.50|
92290862|NCT00112437|184485047|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-47.21|||<=|0.001||95.0|-64.51|-29.9||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 24 months.||-29.90|-64.51|<=0.001
92290863|NCT00112437|184485047|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-33.67|||<=|0.001||95.0|-51.44|-15.91||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 24 months.||-15.91|-51.44|<=0.001
92290864|NCT00112437|184485047|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-35.94|||<=|0.001||95.0|-54.15|-17.74||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 24 months.||-17.74|-54.15|<=0.001
92184338|NCT03652610|184267242|OTHER||GMT ratio|1.19|||||TWO_SIDED|95.0|0.9|1.58|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To compare the immunogenicity of the investigational MenACWY liquid vaccine with approximately 30% Men A FS (GSK3536820A ACWY\_Liq Group) and the currently licensed MenACWY vaccine (ACWY Group), as measured by the adjusted hSBA GMTs directed against N. meningitidis serogroup Y at Day 29||1.58|0.90|
92290865|NCT00112437|184485047|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|17.51||||0.101|TWO_SIDED|95.0|-6.78|41.8||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 24 months.||41.80|-6.78|0.101
92290866|NCT00112437|184485048|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-63.34|||<=|0.001||95.0|-88.32|-38.36||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 24 months.||-38.36|-88.32|<=0.001
92290867|NCT00112437|184485048|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-39.29|||<=|0.001|TWO_SIDED|95.0|-65.4|-13.18||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 24 months.||-13.18|-65.40|<=0.001
92290868|NCT00112437|184485048|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-23.98||||0.124|TWO_SIDED|95.0|-53.04|5.09||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 24 months.||5.09|-53.04|0.124
92290869|NCT00112437|184485048|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|22.18|||||TWO_SIDED|95.0|-12.38|56.73|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 24 months.||56.73|-12.38|
92290870|NCT00112437|184485049|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-16.71||||0.015||95.0|-36.03|2.61||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 24 months. The secondary hypothesis states that MK0822 will decrease biochemical indices of bone resorption (u-DPyr) over 24 months.||2.61|-36.03|0.015
92290871|NCT00112437|184485049|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-8.51||||0.246||95.0|-27.31|10.29||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 24 months. The secondary hypothesis states that MK0822 will decrease biochemical indices of bone resorption (u-DPyr) over 24 months.||10.29|-27.31|0.246
92290872|NCT00112437|184485049|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-1.79||||||95.0|-22.66|19.08|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 24 months. The secondary hypothesis states that MK0822 will decrease biochemical indices of bone resorption (u-DPyr) over 24 months.||19.08|-22.66|
92144185|NCT01137474|184172788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.0673|<|0.0001|TWO_SIDED|95.0|-0.59|-0.33||Endpoint tested following a sequential testing procedure at two-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test performed since previous tests were significant.|Longitudinal repeated measures analysis|Only Week 12 data are presented; data from all weeks in the double-blind treatment period were included in the longitudinal repeated measures model||Change from baseline to week 12 was calculated using a longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata and continuous fixed covariates of baseline value and baseline value by week interaction. With 253 subjects per group, there is \>98% power to detect a difference of 0.4% at a=0.05, assuming a common SD of 1.1%.||-0.33|-0.59|<0.0001
92266522|NCT04983589|184434363|SUPERIORITY||Percentage Difference|26.4|||<|0.0001|TWO_SIDED|95.0|16.8|36.0||Analysis was done using chi-square test.|Chi-squared||The 95% confidence interval for the proportion differences was calculated using the normal approximation based on pooled variance without continuity correction.|||36.0|16.8|<0.0001
92266523|NCT04983589|184434364|SUPERIORITY||Percentage Difference|34.7|||<|0.0001|TWO_SIDED|95.0|22.7|46.7||Analysis was done using chi-square test.|Chi-squared||The 95% confidence interval for the proportion differences was calculated based on the normal approximation using pooled variance without continuity correction.|||46.7|22.7|<0.0001
92266524|NCT04983589|184434365|SUPERIORITY||Percentage Difference|20.6||||0.001|TWO_SIDED|95.0|8.6|32.6||Analysis was done using chi-square test.|Chi-squared||The 95% confidence interval for the proportion differences was calculated using the normal approximation using pooled variance without continuity correction.|||32.6|8.6|0.001
92266525|NCT00762073|184434381|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.239||||0.5282|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.5282
92266526|NCT00762073|184434381|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|18.86||||0.0092|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.0092
92266527|NCT00762073|184434381|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|15.009||||0.0174|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.0174
92266528|NCT00762073|184434382|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1786|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||0.1786
92266529|NCT00762073|184434382|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||0.0090
92266530|NCT00762073|184434382|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||0.0001
92266531|NCT00762073|184434383|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4959|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||0.4959
92266532|NCT00762073|184434383|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||0.0040
92266533|NCT00762073|184434383|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||<0.0001
92266534|NCT00762073|184434384|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0108|TWO_SIDED|||||p-values comparing percent change from baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.0108
92266535|NCT00762073|184434384|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0208|TWO_SIDED|||||p-values comparing percent change from baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.0208
92266536|NCT00762073|184434384|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||p-values comparing percent change from baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||<0.0001
92266537|NCT00762073|184434385|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1095|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate|ANCOVA|||||||0.1095
92266538|NCT00762073|184434385|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0264|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate|ANCOVA|||||||0.0264
92266539|NCT00762073|184434385|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate|ANCOVA|||||||0.0010
92266540|NCT00762073|184434386|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3769|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.3769
92266541|NCT00762073|184434386|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9363|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.9363
92266542|NCT00762073|184434386|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1235|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.1235
92266543|NCT00762073|184434387|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3444|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.3444
92290873|NCT00112437|184485049|SUPERIORITY_OR_OTHER||Difference in Least Square Means|21.74||||||95.0|-1.32|44.81|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 24 months. The secondary hypothesis states that MK0822 will decrease biochemical indices of bone resorption (u-DPyr) over 24 months.||44.81|-1.32|
92290874|NCT00112437|184485050|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-16.64||||0.002||95.0|-28.84|-4.44||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 24 months.||-4.44|-28.84|0.002
92290875|NCT00112437|184485050|SUPERIORITY_OR_OTHER||Difference in Least Square Means|7.24||||0.852||95.0|-5.73|20.21||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 24 months.||20.21|-5.73|0.852
92290876|NCT00112437|184485050|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-0.39||||||95.0|-13.69|12.92|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 24 months.||12.92|-13.69|
92290877|NCT00112437|184485050|SUPERIORITY_OR_OTHER||Difference in Least Square Means|36.79||||||95.0|21.19|52.38|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 24 months.||52.38|21.19|
92290878|NCT00112437|184485051|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-21.49||||0.011|TWO_SIDED|95.0|-39.55|-3.43||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 24 months.||-3.43|-39.55|0.011
92290879|NCT00112437|184485051|SUPERIORITY_OR_OTHER||Difference in Least square means|13.31||||0.618||95.0|-7.1|33.71||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least square means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 24 months.||33.71|-7.10|0.618
92144186|NCT01137474|184172789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.89|STANDARD_ERROR_OF_MEAN|1.0091||0.0043|TWO_SIDED|95.0|-4.88|-0.91||Endpoint tested following a sequential testing procedure at 2-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test performed since previous tests were significant.|ANCOVA|Only Week 12 data are presented; data from all weeks in double-blind period were included in the longitudinal repeated measures model.||Change from baseline to week 12 LOCF was calculated using an ANCOVA model with treatment group as an effect and baseline value and randomization strata as covariate. Data after rescue are excluded from blood pressure analyses.||-0.91|-4.88|0.0043
92144187|NCT01137474|184172790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.5811||0.0843|TWO_SIDED|95.0|-2.15|0.14||Endpoint tested following a sequential testing procedure at two-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test performed since previous tests were significant.|Longitudinal repeated measures analysis|Only Week 12 data are presented; data from all weeks in double-blind period were included in the longitudinal repeated measures model.||Change from baseline to week 12 was calculated using a longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata and continuous fixed covariates of baseline value and baseline value by week interaction. Data after rescue were not included in the analysis.||0.14|-2.15|0.0843
92144188|NCT01137474|184172791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.6866|||TWO_SIDED|95.0|-1.96|0.73||Endpoint tested following a sequential testing procedure at 2-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test not performed since previous tests were not significant.|ANCOVA|||Change from baseline to week 12 LOCF was calculated using an ANCOVA model with treatment group as an effect and baseline value and randomization strata as covariate. Data after rescue are excluded from blood pressure analyses.||0.73|-1.96|
92290880|NCT00112437|184485051|SUPERIORITY_OR_OTHER||Difference in Least square means|7.77|||||TWO_SIDED|95.0|-13.46|29.01|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 24 months.||29.01|-13.46|
92290881|NCT00112437|184485051|SUPERIORITY_OR_OTHER||Difference in Least Square Means|49.23|||||TWO_SIDED|95.0|23.86|74.59|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 24 months.||74.59|23.86|
92290882|NCT00112437|184485052|SUPERIORITY_OR_OTHER||Difference in Least Square Means|6.45|||||TWO_SIDED|95.0|3.38|9.53||||||In postmenopausal women with osteoporosis assess the time course of resolution of effect on lumbar spine BMD during the 12 month extension following 24 months of treatment with odanacatib once weekly. The primary objective was to assess the resolution of effect, on lumbar spine BMD, for the participants who received odanacatib 50 mg for 3 years compared to those who received odanacatib 50 mg in the 2nd year and switched to placebo for the 3rd year extension.||9.53|3.38|
92290883|NCT00112437|184485053|SUPERIORITY_OR_OTHER||Difference in Least Square Means|6.31|||||TWO_SIDED|95.0|3.44|9.17||||||||9.17|3.44|
92290884|NCT00112437|184485054|SUPERIORITY_OR_OTHER||Difference in Least Square Means|2.71|||||TWO_SIDED|95.0|-0.16|5.57||||||||5.57|-0.16|
92290885|NCT00112437|184485055|SUPERIORITY_OR_OTHER||Difference in Least Square Means|8.13|||||TWO_SIDED|95.0|3.8|12.46||||||||12.46|3.80|
92290886|NCT00112437|184485056|SUPERIORITY_OR_OTHER||Difference in Least Square Means|1.46|||||TWO_SIDED|95.0|-1.54|4.46||||||||4.46|-1.54|
92290887|NCT00112437|184485057|SUPERIORITY_OR_OTHER||Difference in Least Square Means|2.47|||||TWO_SIDED|95.0|-0.93|5.88||||||||5.88|-0.93|
92290888|NCT00112437|184485058|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-78.06|||||TWO_SIDED|95.0|-119.2|-36.92||||||||-36.92|-119.20|
92290889|NCT00112437|184485059|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-34.25|||||TWO_SIDED|95.0|-78.7|10.2||||||||10.20|-78.70|
92290890|NCT00112437|184485060|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-39.25|||||TWO_SIDED|95.0|-87.17|8.68||||||||8.68|-87.17|
92184339|NCT03652610|184267244|OTHER||Difference in percentage of subjects|-3.87|||||TWO_SIDED|95.0|-9.3|1.52|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup A at Day 29.||1.52|-9.30|
92290891|NCT00112437|184485061|SUPERIORITY_OR_OTHER||Difference in Least Square Means|16.59|||||TWO_SIDED|95.0|-5.67|38.85||||||||38.85|-5.67|
92184340|NCT03652610|184267244|OTHER||Difference in percentage of subjects|1.87|||||TWO_SIDED|95.0|-4.7|8.43|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup C at Day 29.||8.43|-4.70|
92184341|NCT03652610|184267244|OTHER||Difference in percentage of subjects|4.54|||||TWO_SIDED|95.0|-1.97|11.01|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup W at Day 29.||11.01|-1.97|
92184342|NCT03652610|184267244|OTHER||Difference in percentage of subjects|5.25|||||TWO_SIDED|95.0|-1.11|11.57|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup Y at Day 29.||11.57|-1.11|
92290892|NCT00112437|184485062|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-5.43|||||TWO_SIDED|95.0|-42.04|31.18||||||||31.18|-42.04|
92290893|NCT00112437|184485063|SUPERIORITY_OR_OTHER||Difference in Least Square Means|49.1|||||TWO_SIDED|95.0|13.37|84.83||||||||84.83|13.37|
92290894|NCT00112437|184485064|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|209.44|||||TWO_SIDED|95.0|127.14|291.73||||||||291.73|127.14|
92290895|NCT03703258|184485081|SUPERIORITY||Slope|0.14|STANDARD_ERROR_OF_MEAN|0.26||0.6|TWO_SIDED||||||Mixed Models Analysis||Condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|||||.60
92290896|NCT03703258|184485081|SUPERIORITY||Cohen's D|0.36|||||TWO_SIDED||||||||Between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|||||
92290897|NCT03703258|184485082|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.27||0.94|TWO_SIDED||||||Mixed Models Analysis||Condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|||||.94
92290898|NCT03703258|184485082|SUPERIORITY||Cohen's D|-0.01|||||TWO_SIDED||||||||Between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|||||
92290899|NCT03703258|184485083|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.13||0.38|TWO_SIDED||||||Mixed Models Analysis||Condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|||||.38
92290900|NCT03703258|184485083|SUPERIORITY||Cohen's D|-0.15|||||TWO_SIDED||||||||Between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|||||
92290901|NCT03703258|184485084|SUPERIORITY||Slope|-0.28|STANDARD_ERROR_OF_MEAN|0.14||0.04|TWO_SIDED||||||Mixed Models Analysis||Condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|||||.04
92290902|NCT03703258|184485084|SUPERIORITY||Cohen's D|-0.7|||||TWO_SIDED||||||||Between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|||||
92290903|NCT03703258|184485085|SUPERIORITY||Slope|-1.23|STANDARD_ERROR_OF_MEAN|1.88||0.51|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.51
92290904|NCT03703258|184485085|SUPERIORITY||Slope|-0.9|STANDARD_ERROR_OF_MEAN|1.9||0.64|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.64
92290905|NCT03703258|184485085|SUPERIORITY||Cohen's D|-0.1|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to post-intervention only||||
92290906|NCT03703258|184485085|SUPERIORITY||Cohen's D|0.02|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to 3 months||||
92290907|NCT03703258|184485086|SUPERIORITY||Slope|0.64|STANDARD_ERROR_OF_MEAN|0.3||0.04|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.04
92290908|NCT03703258|184485086|SUPERIORITY||Slope|0.29|STANDARD_ERROR_OF_MEAN|0.3||0.34|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.34
92290909|NCT03703258|184485086|SUPERIORITY||Cohen's D|0.92|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Positive values favor intervention and negative values favor control.|Baseline to post-intervention only||||
92290910|NCT03703258|184485086|SUPERIORITY||Cohen's D|0.68|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Positive values favor intervention and negative values favor control.|Baseline to 3 months||||
92290911|NCT03703258|184485087|SUPERIORITY||Slope|-2.46|STANDARD_ERROR_OF_MEAN|1.63||0.13|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.13
92290912|NCT03703258|184485087|SUPERIORITY||Slope|-1.94|STANDARD_ERROR_OF_MEAN|1.64||0.24|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.24
92290913|NCT03703258|184485087|SUPERIORITY||Cohen's D|-0.41|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to post-intervention only||||
92290914|NCT03703258|184485087|SUPERIORITY||Cohen's D|-0.23|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to 3 months||||
92184343|NCT03652610|184267245|OTHER||Difference in percentage of subjects|-2.47|||||TWO_SIDED|95.0|-6.47|1.49|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A at Day 1||1.49|-6.47|
92290915|NCT03703258|184485088|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.25||0.85|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.85
92290916|NCT03703258|184485088|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.25||0.96|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.96
92290917|NCT03703258|184485088|SUPERIORITY||Cohen's D|-0.15|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to post-intervention only||||
92290918|NCT03703258|184485088|SUPERIORITY||Cohen's D|0.003|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to 3 months||||
92290919|NCT03703258|184485089|SUPERIORITY||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.26||0.75|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.75
92290920|NCT03703258|184485089|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.27||0.64|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.64
92184344|NCT03652610|184267245|OTHER||Difference in percentage of subjects|-0.58|||||TWO_SIDED|95.0|-6.99|5.83|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C at Day 1||5.83|-6.99|
92184345|NCT03652610|184267245|OTHER||Difference in percentage of subjects|-5.95|||||TWO_SIDED|95.0|-12.33|0.47|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup W at Day 1||0.47|-12.33|
92290921|NCT03703258|184485089|SUPERIORITY||Cohen's D|-0.12|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to post-intervention only||||
92290922|NCT03703258|184485089|SUPERIORITY||Cohen's D|-0.16|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to 3 months||||
92290923|NCT03703258|184485090|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.35||0.86|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.86
92290924|NCT03703258|184485090|SUPERIORITY||Slope|-0.22|STANDARD_ERROR_OF_MEAN|0.36||0.55|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.55
92290925|NCT03703258|184485090|SUPERIORITY||Cohen's D|-0.04|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to post-intervention only||||
92290926|NCT03703258|184485090|SUPERIORITY||Cohen's D|-0.39|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to 3 months||||
92290927|NCT01125163|184485097|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|95.0||||All infants were analyzed according to their assigned groups.|Wilcoxon (Mann-Whitney)|||A non-parametric rank sum analysis was performed as follows so that infants who died before 36 wks and infants who were transfused could be included in an intention-to-treat analysis. Infants were ranked by death (lowest rank) then by number of transfusions (next lowest ranks). For infants who survived and were not transfused, the 36 wks PMA Hct was used as the primary outcome.||||0.59
92290928|NCT01125163|184485098|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||A non-parametric rank sum analysis was performed as follows so that infants who died before 36 wks and infants who were transfused could be included in an intention-to-treat analysis. Infants were ranked by death (lowest rank) then by number of transfusions (next lowest ranks). For infants who survived and were not transfused, the 36 wks PMA Hct was used as the primary outcome.||||0.64
92290929|NCT02463487|184485114|OTHER|||||||0.87|||||||t-test, 1 sided|||||||0.87
92290930|NCT02463487|184485116|OTHER|||||||0.08|||||||t-test, 2 sided|||||||0.08
92290931|NCT01120028|184485117|OTHER||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.28|0.64|||Log Rank|||||0.64|0.28|<0.0001
92290932|NCT01120028|184485118|OTHER|||||||0.5|||||||ANCOVA|||||||0.5
92290933|NCT01120028|184485119|OTHER||Hazard Ratio (HR)|1.23||||0.58|TWO_SIDED|95.0|0.59|2.55|||Regression, Cox|||||2.55|0.59|0.58
92290934|NCT01120028|184485120|OTHER||Rate Ratio|1.99||||0.23|TWO_SIDED|95.0|0.64|6.18|||Log Rank|||||6.18|0.64|0.23
92290935|NCT01120028|184485121|OTHER||Rate Ratio|1.02||||0.88|TWO_SIDED|95.0|0.8|1.29|||Regression, Cox|||||1.29|0.80|0.88
92290936|NCT01120028|184485122|OTHER||Rate ratio|1.51||||0.008|TWO_SIDED|95.0|1.11|2.06|||Log Rank|||||2.06|1.11|0.008
92290937|NCT01120028|184485123|OTHER||Rate Ratio|1.0||||0.99|TWO_SIDED|95.0|0.51|1.97|||Log Rank|||||1.97|0.51|0.99
92290938|NCT01120028|184485124|OTHER||Rate Ratio|0.76||||0.52|TWO_SIDED|95.0|0.34|1.73|||Log Rank|||||1.73|0.34|0.52
92290939|NCT04633564|184485125|EQUIVALENCE|The equivalence region is (0.73, 1.36).|Risk Ratio (RR)|0.96|||||TWO_SIDED|90.0|0.83|1.12||||||||1.12|0.83|
92290940|NCT04198363|184485127|NON_INFERIORITY|Noninferiority of vonoprazan to esomeprazole was evaluated by Farrington and Manning test using a noninferiority margin of 10% for analysis.|Difference in Proportions|0.1|||=|0.0009|TWO_SIDED|95.0|-5.95|6.17|||Farrington and Manning Test||Difference in proportions for vonoprazan versus esomeprazole was analyzed and the 2-sided Wald confidence interval was used for determining the 95% confidence interval.|||6.17|-5.95|=0.0009
92290941|NCT01251393|184485141|EQUIVALENCE|"The comparisons between the placebo and the biperiden groups at baseline were performed by means of the independent t-Test. We evaluated the normality (Kolmogorov's test) and homogeneity (Levene's test) of the sample.~We used an ANOVA for repeated measures, followed by Bonferroni's post-hoc test to evaluate the efficacy of biperiden in reducing consumption of cocaine/crack."|||||<|0.05||||||We used an ANOVA for repeated measures, followed by Bonferroni's post-hoc test to evaluate the efficacy of biperiden in reducing consumption of cocaine/crack.|ANOVA|||We evaluated the normality (Kolmogorov's test) and homogeneity (Levene's test) of the sample.||||<0.05
92290942|NCT01541215|184485142|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 1: Primary analysis: change from baseline to week 26 in HbA1c~Superiority of liraglutide over placebo was to be concluded if the 95% confidence interval for the treatment difference for change from baseline in HbA1c (%) after 26 weeks of randomised treatment was entirely below 0%, implying that the two sided p-value was less than 5%."|Treatment difference|-1.058|STANDARD_ERROR_OF_MEAN|0.304|<|0.001|TWO_SIDED|95.0|-1.653|-0.464|||Pattern Mixture Model|||Analysis using a pattern mixture model of observed data with missing observations imputed from the placebo arm based on multiple (x10.000) imputations. The data for week 26 were then analysed with an ANCOVA model containing treatment, sex and age group as fixed effects and baseline value as covariate. The estimated treatment differences and confidence intervals were combined using Rubins formula.||-0.464|-1.653|<0.001
92290943|NCT01541215|184485143|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 2: Change from baseline in FPG after 26 weeks of treatment"|Treatment difference|-1.878|STANDARD_ERROR_OF_MEAN|0.62||0.002|TWO_SIDED|95.0|-3.093|-0.662|||Pattern Mixture Model|||Analysis using a pattern mixture model of observed data with missing observations imputed from the placebo arm based on multiple (x10.000) imputations. The data for weeks 26 were then analysed with an ANCOVA model containing treatment, sex and age group as fixed effects and baseline value as covariate. The estimated treatment differences and confidence intervals were combined using Rubins formula.||-0.662|-3.093|0.002
92290944|NCT01541215|184485144|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 3: HbA1c \< 7.0% after 26 weeks of treatment"|Treatment odds ratio|5.353|||<|0.001|TWO_SIDED|95.0|2.105|13.615|||logistic regression model|||Missing data was imputed using pattern mixture model. For each imputed data set the binary response was analysed in a logistic regression model using a logit link with treatment and stratification group (gender\*age group) as fixed factors and baseline HbA1c as covariate.The estimated treatment effects and confidence intervals were combined using Rubin´s formula.||13.615|2.105|<0.001
92184346|NCT03652610|184267245|OTHER||Difference in percentage of subjects|-2.78|||||TWO_SIDED|95.0|-8.3|2.76|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y at Day 1||2.76|-8.30|
92290945|NCT01541215|184485145|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 4: Change from baseline in BMI SDS after 26 weeks of treatment"|Treatment difference|-0.047|STANDARD_ERROR_OF_MEAN|0.055||0.392|TWO_SIDED|95.0|-0.153|0.06|||Pattern Mixture Model|||Analysis using a pattern mixture model of observed data with missing observations imputed from the placebo arm based on multiple (x10.000) imputations. The data for weeks 26 were then analysed with an ANCOVA model containing treatment, sex and age group as fixed effects and baseline value as covariate. The estimated treatment differences and confidence intervals were combined using Rubins formula.||0.060|-0.153|0.392
92290946|NCT00521586|184485230|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower limit of the 2-sided 95% CI was greater than -0.1 or -10%|percent difference|2.8|||||TWO_SIDED|95.0|-1.8|7.4||||||A/H1N1 strain: Exact 2-sided, 95 percent (%) confidence intervals was computed based on the methodology by Chan and Zhang||7.4|-1.8|
92290947|NCT00521586|184485230|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower limit of the 2-sided 95% CI was greater than -0.1 or -10%|percent difference|1.6|||||TWO_SIDED|95.0|-3.9|7.2||||||A/H3N2 strain: Exact 2-sided, 95 % confidence intervals was computed based on the methodology by Chan and Zhang.||7.2|-3.9|
92290948|NCT00521586|184485230|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower limit of the 2-sided 95% CI was greater than -0.1 or -10%|percent difference|0.3|||||TWO_SIDED|95.0|-5.6|6.2||||||B strain: Exact 2-sided, 95 % confidence intervals was computed based on the methodology by Chan and Zhang.||6.2|-5.6|
92290949|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.74|||||TWO_SIDED|95.0|0.58|0.95||||||Serotype 1: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||0.95|0.58|
92290950|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.79|||||TWO_SIDED|95.0|0.66|0.93||||||Serotype 3: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||0.93|0.66|
92290951|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.69|||||TWO_SIDED|95.0|0.55|0.87||||||Serotype 4: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||0.87|0.55|
92290952|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.84|||||TWO_SIDED|95.0|0.67|1.05||||||Serotype 5: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.05|0.67|
92290953|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.86|||||TWO_SIDED|95.0|0.7|1.06||||||Serotype 6A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.06|0.70|
92290954|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.75|||||TWO_SIDED|95.0|0.6|0.93||||||Serotype 6B: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||0.93|0.60|
92290955|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.77|||||TWO_SIDED|95.0|0.63|0.95||||||Serotype 7F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||0.95|0.63|
92290956|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.71|||||TWO_SIDED|95.0|0.59|0.86||||||Serotype 9V: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||0.86|0.59|
92290957|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.6|0.98||||||Serotype 14: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||0.98|0.60|
92290958|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.72|||||TWO_SIDED|95.0|0.58|0.88||||||Serotype 18C: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||0.88|0.58|
92184347|NCT03652610|184267245|OTHER||Difference in percentage of subjects|-3.69|||||TWO_SIDED|95.0|-8.65|1.21|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A at Day 29||1.21|-8.65|
92290959|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.89|||||TWO_SIDED|95.0|0.74|1.08||||||Serotype 19A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||1.08|0.74|
92184348|NCT03652610|184267245|OTHER||Difference in percentage of subjects|-0.4|||||TWO_SIDED|95.0|-6.12|5.33|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C at Day 29||5.33|-6.12|
92290960|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.86|||||TWO_SIDED|95.0|0.67|1.1||||||Serotype 19F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||1.10|0.67|
92184349|NCT03652610|184267245|OTHER||Difference in percentage of subjects|0.26|||||TWO_SIDED|95.0|-5.49|6.02|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup W at Day 29||6.02|-5.49|
92184350|NCT03652610|184267245|OTHER||Difference in percentage of subjects|1.15|||||TWO_SIDED|95.0|-4.33|6.62|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y at Day 29||6.62|-4.33|
92184351|NCT03652610|184267246|OTHER||Difference in percentage of subjects|-2.91|||||TWO_SIDED|95.0|-7.24|1.37|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 1||1.37|-7.24|
92290961|NCT00521586|184485231|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.84|||||TWO_SIDED|95.0|0.66|1.08||||||Serotype 23F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||1.08|0.66|
92290962|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.83|1.34||||||Serotype 1: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.34|0.83|
92290963|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|95.0|0.75|1.08||||||Serotype 3: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.08|0.75|
92184352|NCT03652610|184267246|OTHER||Difference in percentage of subjects|-1.09|||||TWO_SIDED|95.0|-7.34|5.16|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 1||5.16|-7.34|
92290964|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.92|1.28||||||Serotype 4: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.28|0.92|
92290965|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|95.0|0.68|1.08||||||Serotype 5: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.08|0.68|
92290966|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.88|1.3||||||Serotype 6A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.30|0.88|
92184353|NCT03652610|184267246|OTHER||Difference in percentage of subjects|-5.95|||||TWO_SIDED|95.0|-12.35|0.5|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 1||0.50|-12.35|
92290967|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.84|1.21||||||Serotype 6B: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.21|0.84|
92290968|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|95.0|0.78|1.06||||||Serotype 7F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.06|0.78|
92290969|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.2|||||TWO_SIDED|95.0|0.93|1.48||||||Serotype 9V: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.48|0.93|
92184354|NCT03652610|184267246|OTHER||Difference in percentage of subjects|-2.55|||||TWO_SIDED|95.0|-8.15|3.06|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 1||3.06|-8.15|
92184355|NCT03652610|184267246|OTHER||Difference in percentage of subjects|-3.92|||||TWO_SIDED|95.0|-8.87|0.96|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 29||0.96|-8.87|
92184356|NCT03652610|184267246|OTHER||Difference in percentage of subjects|0.07|||||TWO_SIDED|95.0|-5.52|5.65|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 29||5.65|-5.52|
92184357|NCT03652610|184267246|OTHER||Difference in percentage of subjects|-0.17|||||TWO_SIDED|95.0|-5.92|5.57|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 29||5.57|-5.92|
92290970|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.86|1.17||||||Serotype 14: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.17|0.86|
92290971|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.84|1.27||||||Serotype 18C: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.27|0.84|
92290972|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.21||||||Serotype 19A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.21|0.87|
92290973|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.85|1.31||||||Serotype 19F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.31|0.85|
92290974|NCT00521586|184485232|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.8|1.27||||||Serotype 23F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.27|0.80|
92290975|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01|||||TWO_SIDED|95.0|0.87|1.18||||||Serotype 1: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.18|0.87|
92290976|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95|||||TWO_SIDED|95.0|0.82|1.1||||||Serotype 3: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.10|0.82|
92290977|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.03|||||TWO_SIDED|95.0|0.88|1.21||||||Serotype 4: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.21|0.88|
92290978|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.8|1.09||||||Serotype 5: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.09|0.80|
92290979|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01|||||TWO_SIDED|95.0|0.84|1.22||||||Serotype 6A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.22|0.84|
92290980|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.77|1.12||||||Serotype 6B: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.12|0.77|
92290981|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.11||||||Serotype 7F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.11|0.85|
92290982|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.07||||||Serotype 9V: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.07|0.81|
92290983|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95|||||TWO_SIDED|95.0|0.81|1.11||||||Serotype 14: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.11|0.81|
92290984|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.92|||||TWO_SIDED|95.0|0.79|1.06||||||Serotype 18C: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.06|0.79|
92290985|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.8|1.08||||||Serotype 19A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.08|0.80|
92290986|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.77|1.12||||||Serotype 19F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.12|0.77|
92290987|NCT00521586|184485241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.09||||||Serotype 23F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.09|0.74|
92290988|NCT00828321|184485279|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|94.16||||||90.0|85.08|104.21|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104.21|85.08|
92290989|NCT00828321|184485280|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.22||||||90.0|96.21|108.6|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.6|96.21|
92290990|NCT00828321|184485281|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.22||||||90.0|96.34|108.58|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.58|96.34|
92290991|NCT00828321|184485282|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.52||||||90.0|92.63|104.79|||||This analysis was for informational purposes and was not used to establish bioequivalence.|||104.79|92.63|
92290992|NCT00828321|184485283|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.45||||||90.0|94.66|100.32|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||100.32|94.66|
92290993|NCT01993186|184485292|SUPERIORITY||Hodges-Lehmann estimate|13.45||||0.5812|TWO_SIDED|90.0|-38.63|80.95|||Wilcoxon rank-sum test|||Non-parametric post-hoc analysis: Hodges-Lehmann estimate of the location shift with 90% confidence interval (CI) and Wilcoxon Rank Sum test p-value, based on Wilcoxon rank-sum test||80.95|-38.63|0.5812
92290994|NCT01993186|184485295|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.8197|TWO_SIDED|90.0|-51.23|84.25|||Wilcoxon rank-sum test|||Non-parametric post-hoc analysis: Hodges-Lehmann estimate of the location shift with 90% CI and Wilcoxon Rank Sum test p-value, based on Wilcoxon rank-sum test||84.25|-51.23|0.8197
92290995|NCT01993186|184485296|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.7276|TWO_SIDED|90.0|0.0|37.5|||Wilcoxon rank-sum test|||Non-parametric post-hoc analysis: Hodges-Lehmann estimate of the location shift with 90% CI and Wilcoxon Rank Sum test p-value, based on Wilcoxon rank-sum test||37.5|0|0.7276
92290996|NCT01993186|184485300|SUPERIORITY||Least squares mean difference|-2.384|STANDARD_ERROR_OF_MEAN|68.1231||0.486|TWO_SIDED|90.0|-114.44|109.67||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||RTISRTSD||109.67|-114.44|0.486
92290997|NCT01993186|184485300|SUPERIORITY||Least squares mean difference|63.669|STANDARD_ERROR_OF_MEAN|53.0537||0.8849|TWO_SIDED|90.0|-23.6|150.94||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||RTIMDSRT||150.94|-23.6|0.8849
92290998|NCT01993186|184485300|SUPERIORITY||Least squares mean difference|-63.835|STANDARD_ERROR_OF_MEAN|60.6496||0.1463|TWO_SIDED|90.0|-163.59|35.93||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||RTIMDFRT||35.93|-163.59|0.1463
92290999|NCT01993186|184485301|SUPERIORITY||Least squares mean difference|17.768|STANDARD_ERROR_OF_MEAN|11.5659||0.9378|TWO_SIDED|90.0|-1.26|36.79||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||PALTEA||36.79|-1.26|0.9378
92291000|NCT01993186|184485301|SUPERIORITY||Least squares mean difference|-0.531|STANDARD_ERROR_OF_MEAN|2.1853||0.5959|TWO_SIDED|90.0|-4.13|3.06||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||PALFTMS||3.06|-4.13|0.5959
92291001|NCT01993186|184485302|SUPERIORITY||Least squares mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.4988||0.4522|TWO_SIDED|90.0|-0.76|0.88||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||SSPSLF||0.88|-0.76|0.4522
92291002|NCT01993186|184485303|SUPERIORITY||LS Mean Difference|-1.237|STANDARD_ERROR_OF_MEAN|2.381||0.3017|TWO_SIDED|90.0|-5.15|2.68||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||SWMBE48||2.68|-5.15|0.3017
92291003|NCT01993186|184485303|SUPERIORITY||Least squares mean difference|0.038|STANDARD_ERROR_OF_MEAN|0.6495||0.5235|TWO_SIDED|90.0|-1.03|1.11||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||SWMS68||1.11|-1.03|0.5235
92291004|NCT01993186|184485304|SUPERIORITY||Least squares mean difference|-6.897|STANDARD_ERROR_OF_MEAN|22.4806||0.6205|TWO_SIDED|90.0|-43.874|30.08||One-sided p-value. Additional model covariates include the corresponding baseline value, visit and the interaction between visit and treatment.|GEE model|||6MWT distance traveled||30.08|-43.874|0.6205
92291005|NCT01993186|184485305|SUPERIORITY||Least squares mean difference|-1.354|STANDARD_ERROR_OF_MEAN|3.5759||0.6476|TWO_SIDED|90.0|-7.236|4.527||One-sided p-value. Additional model covariates include the corresponding baseline value, visit and the interaction between visit and treatment.|GEE model|||6MWT distance traveled (percent predicted)||4.527|-7.236|0.6476
92291006|NCT01993186|184485307|SUPERIORITY||Least squares mean difference|1.568|STANDARD_ERROR_OF_MEAN|3.8899||0.3435|TWO_SIDED|90.0|-4.83|7.97||One-sided p-value. Additional model covariates include baseline GMFM-88 total score, visit and the interaction between visit and treatment.|GEE model|||GMFM-88 UX007-Placebo||7.97|-4.83|0.3435
92291007|NCT02752074|184485320|OTHER||Hazard Ratio (HR)|1.0||||0.51711|TWO_SIDED|95.0|0.83|1.21||One-sided p-value based on log-rank test.|Log Rank|||||1.21|0.83|0.51711
92291008|NCT02752074|184485321|OTHER||Hazard Ratio (HR)|1.13||||0.80666|TWO_SIDED|95.0|0.86|1.49||One-sided p-value based on log-rank test.|Log Rank|||||1.49|0.86|0.80666
92291009|NCT00840216|184485330|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|106.9||||||90.0|||||||Bioequivalence is established when the ratio of the mean falls within 80-125.|||||
92291010|NCT00840216|184485331|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|92.7||||||90.0|||||||Bioequivalence is established when ratio of the mean falls within 80-125.|||||
92291011|NCT00840216|184485332|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|93.0||||||90.0|||||||Bioequivalence is established when ratio of the mean falls within 80-125.|||||
92291012|NCT00545792|184485342|SUPERIORITY_OR_OTHER||Single point estiamte of 1-yr PFS|0.8|||||TWO_SIDED|95.0|0.56|0.94|||||The reported 1-year PFS rate 80% (Exact 95% CI: 56% - 94%) was the proportion of the patients remained progression free after 12 months.|Single-arm feasibility study; Kaplan Meier analysis was applied to estimate one-year PFS distribution as well as to calculate proportion of patients remain progression free by month 12.||0.94|0.56|
92291013|NCT01642277|184485349|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.94||||0.052|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For symptom-severity score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size and non-normal distributions of symptom severity scores. The null hypothesis is that there is no difference between the two groups in symptom severity, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) symptom severity than the other group.||||.052
92291014|NCT01642277|184485349|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|2.06||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For coping score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size, non-normal distributions, and outliers of coping scores. The null hypothesis is that there is no difference between the two groups in coping, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) coping than the other group.||||.04
92291015|NCT01642277|184485349|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|2.176||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the concern score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size, non-normal distributions, and outlier of the concern scores. The null hypothesis is that there is no difference between the two groups in their concern, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) concern than the other group.||||.03
92291016|NCT01642277|184485349|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|0.9||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the sleep score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size, non-normal distributions, and outliers of sleep scores. The null hypothesis is that there is no difference between the two groups in sleep scores, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) sleep scores than the other group.||||.37
92291017|NCT01642277|184485349|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|2.02||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For social score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size, non-normal distributions, and outliers of social scores. The null hypothesis is that there is no difference between the two groups in social scores, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) social scores than the other group.||||.04
92291018|NCT01642277|184485349|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|2.03||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the overall health related quality of life (HRQL) score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size, non-normal distributions, and outliers of HRQL scores. The null hypothesis is that there is no difference between the two groups in health related quality of life, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) health realted quality of life than the other group.||||.04
92291019|NCT01642277|184485350|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-0.74||||0.46|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the obstructive discomfort score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in obstructive discomfort, and and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) obstructive discomfort than the other group.||||.46
92184358|NCT03652610|184267246|OTHER||Difference in percentage of subjects|0.5|||||TWO_SIDED|95.0|-4.89|5.9|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 29||5.90|-4.89|
92291020|NCT01642277|184485350|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.8||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the irritative score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in irritation, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) irritation than the other group.||||.07
92291021|NCT01642277|184485350|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.59||||0.11|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the stress score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in stress, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) stress than the other group.||||.11
92184359|NCT04278833|184267262|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at week 2||||<0.001
92184360|NCT04278833|184267262|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 3||||<0.001
92184361|NCT04278833|184267262|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 6||||<0.001
92184362|NCT04278833|184267263|OTHER|||||||0.28||||||The a priori threshold for statistical significance was \<0.05.|Chi-squared|||Analysis of change at week 2||||0.280
92184363|NCT04278833|184267263|OTHER|||||||0.07||||||The a priori threshold for statistical significance was \<0.05.|Chi-squared|||Analysis of change at month 3||||0.070
92184364|NCT04278833|184267263|OTHER|||||||0.851||||||The a priori threshold for statistical significance was \<0.05.|Chi-squared|||Analysis of change at month 6||||0.851
92291022|NCT01642277|184485350|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.69||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the urinary distress inventory score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in urinary distress, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) urinary distress than the other group.||||.09
92291023|NCT01642277|184485350|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.68||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the general score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in general pelvic floor disease severity, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) general pelvic floor disease severity than the other group.||||.09
92291024|NCT01642277|184485350|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-0.23||||0.82|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the anterior score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in anterior pelvic floor disease severity, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) anterior pelvic floor disease severity than the other group.||||.82
92291025|NCT01642277|184485350|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.92||||0.06|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the posterior score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in posterior pelvic floor disease severity, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) posterior pelvic floor disease severity than the other group.||||.06
92291026|NCT01642277|184485350|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.85||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the pelvic organ prolapse distress score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in pelvic organ prolapse distress, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) pelvic organ prolapse distress than the other group.||||.07
92291027|NCT03317444|184485355|SUPERIORITY||Treatment difference in % of subjects|36.7|||<|0.0001|TWO_SIDED|95.0|23.5|48.9|||Fisher Exact|||% Subjects Who Met Endpoint (≥ 4 mEq/L Change from Baseline Serum Bicarbonate or Serum Bicarbonate in the Normal Range \[22 - 29 mEq/L\]): TRC101-Placebo||48.9|23.5|< 0.0001
92291028|NCT03317444|184485355|SUPERIORITY||Treatment difference in % of subjects|34.5|||<|0.0001|TWO_SIDED|95.0|21.2|46.8|||Fisher Exact|||% Subjects with ≥ 4 mEq/L Change from Baseline in Serum Bicarbonate: TRC101-Placebo||46.8|21.2|< 0.0001
92291029|NCT03317444|184485355|SUPERIORITY||Treatment difference in % of subjects|33.1|||<|0.0001|TWO_SIDED|95.0|19.7|45.6|||Fisher Exact|||% Subjects with Serum Bicarbonate in the Normal Range (22 - 29 mEq/L): TRC101-Placebo||45.6|19.7|< 0.0001
92291030|NCT03317444|184485356|SUPERIORITY||Treatment difference in LS means|2.63|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|1.77|3.5|||Mixed-effect repeated measures model||Standard error presented above is for the LS mean.|Least Squares (LS) Mean Change from Baseline: TRC101-Placebo||3.5|1.77|< 0.0001
92291031|NCT05133180|184485360|SUPERIORITY|The following null hypothesis is defined on this endpoint: the number of patients reaching a value of Schirmer I test (without anaesthesia) \>10mm/5min at week 4 in cenegermin (rhNGF) is lower or equal than control. The null hypothesis is rejected if the associated primary analysis p-value is lower than 0.025.|Odds Ratio (OR)|16.946|||<|0.001|TWO_SIDED|95.0|3.412|84.165||P-value of treatment variable from logistic regression model on the number of patients reaching a value of Schirmer I test (without anaesthesia) \>10mm/5min|Regression, Logistic|||It was analyzed by means of a logistic regression model adjusting by pre-defined baseline factors (treatment, gender, age class, baseline Schirmer I test value as fixed effects and site as random effect). For the imputation of missing data at week 4, a Multiple Imputation approach is adopted by performing a regression model with the baseline Schirmer I test value, gender, age class, and Schirmer I test at week 2 as explanatory variables and generating 200 datasets.||84.165|3.412|<0.001
92291032|NCT05133180|184485361|SUPERIORITY|The following null hypothesis is defined on this endpoint: the change from baseline (reduction) in the global SANDE score at week 12 in cenegermin is lower or equal than control. The null hypothesis is rejected if the associated primary analysis p-value is lower than 0.025.|adjusted mean difference|-4.561||||0.322|TWO_SIDED|95.0|-13.581|4.459||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in the global SANDE score.|ANCOVA|||This endpoint was analyzed by means of an Analysis of Covariance with change from baseline in global SANDE Score at Week 12 as dependent variable, treatment, gender, age class, baseline global SANDE score as fixed effects and site as random effect. For missing data, Multiple Imputation approach is adopted by performing a regression model with the baseline global SANDE score, gender, age class, and intermediate global SANDE scores up to week 12 as explanatory variables and generating 200 datasets||4.459|-13.581|0.322
92291033|NCT05133180|184485362|SUPERIORITY|Analysis was based on a logistic regression with the number of patients reaching a value of Schirmer I test \>10mm/5min at week 8 as dependent variable, treatment, gender, age class and baseline Schirmer I test value as qualitative independent variables. Site was considered as random effects that vary randomly among patients.|Odds Ratio (OR)|15.95|||<|0.001|TWO_SIDED|95.0|3.091|82.31|||Regression, Logistic|||This key secondary endpoint was analyzed by means of a logistic regression model with the number of patients reaching a value of Schirmer I test \>10mm/5min at Week 8 as dependent variable, treatment, gender, age class and baseline Schirmer I test value as fixed effects and site as random effect.||82.310|3.091|<0.001
92184365|NCT04278833|184267264|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at week 2||||<0.001
92291034|NCT05133180|184485363|SUPERIORITY||adjusted mean difference|-2.753||||0.572|TWO_SIDED|95.0|-12.303|6.798||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in SANDE score for frequency at Week 12.|ANCOVA regression model|||This endpoint was analyzed by means of an ANCOVA adjusting by pre-defined baseline factors (treatment, gender, age class, baseline SANDE score for severity as fixed effects and site as random effect).||6.798|-12.303|0.572
92291035|NCT05133180|184485364|SUPERIORITY||adjusted mean difference|-4.732||||0.307|TWO_SIDED|95.0|-13.819|4.354||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in SANDE score for severity at Week 12.|ANCOVA regression model|||This endpoint was analyzed by means of an ANCOVA adjusting by pre-defined baseline factors (treatment, gender, age class, baseline SANDE score for severity as fixed effects and site as random effect).||4.354|-13.819|0.307
92291036|NCT05133180|184485365|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|2.16||||0.468|TWO_SIDED|95.0|-3.668|7.988||P-value of Least Square (LS) means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Daily Activities) at Week 4|MMRM|||Impact on daily activities at week 4.||7.988|-3.668|0.468
92291037|NCT05133180|184485365|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|2.431||||0.492|TWO_SIDED|95.0|-4.5|9.362||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Emotional Impact) at Week 4.|MMRM|||Emotional Impact due to Dry eye at week 4.||9.362|-4.500|0.492
92291038|NCT05133180|184485365|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM). Analyses included the fixed, categorical effects of treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall. Missing data will be imputed according to the questionnaire manuals"|LS means difference|3.3||||0.51|TWO_SIDED|95.0|-6.511|13.111||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Impact on Work) at Week 4.|MMRM|||Impact on Work due to Dry Eye at week 4.||13.111|-6.511|0.510
92291039|NCT05133180|184485365|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|Least square mean difference|4.078||||0.268|TWO_SIDED|95.0|-3.142|11.299||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Daily Activities) at Week 12.|MMRM|||Quality of life - Impact on daily activities - Week 12||11.299|-3.142|0.268
92291040|NCT05133180|184485365|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall"|least square mean difference|5.55||||0.227|TWO_SIDED|95.0|-3.462|14.562||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Emotional Impact) at Week 12.|MMRM|||Quality of life - Emotional Impact due to Dry eye - Week 12||14.562|-3.462|0.227
92144189|NCT01137474|184172792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.0717|||TWO_SIDED|95.0|-0.46|-0.18||Endpoint tested following a sequential testing procedure at two-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test not performed since previous tests were not significant.|Longitudinal repeated measures analysis|Only Week 12 data are presented; data from all weeks in double-blind period were included in the longitudinal repeated measures model.||Change from baseline to week 12 was calculated using a longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata and continuous fixed covariates of baseline value and baseline value by week interaction.||-0.18|-0.46|
92144190|NCT02161133|184172793|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.62||0.712|TWO_SIDED||||||Mixed Models Analysis|||||||0.712
92144191|NCT02161133|184172794|SUPERIORITY||Mean Difference (Final Values)|-6.18|STANDARD_ERROR_OF_MEAN|2.48||0.013|TWO_SIDED||||||Mixed Models Analysis|||||||0.013
92184366|NCT04278833|184267264|OTHER|||||||0.021||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 3||||0.021
92144192|NCT02161133|184172795|SUPERIORITY||Mean Difference (Final Values)|12.23|STANDARD_ERROR_OF_MEAN|10.45||0.244|TWO_SIDED||||||Mixed Models Analysis|||||||0.244
92144193|NCT02161133|184172796|SUPERIORITY||Mean Difference (Final Values)|-3.71|STANDARD_ERROR_OF_MEAN|1.95||0.057|TWO_SIDED||||||Mixed Models Analysis|||||||0.057
92144194|NCT02161133|184172797|SUPERIORITY||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|1.57||0.382|TWO_SIDED||||||Mixed Models Analysis|||||||0.382
92144195|NCT02161133|184172798|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.703|TWO_SIDED||||||Mixed Models Analysis|||||||0.703
92184367|NCT04278833|184267264|OTHER|||||||0.044||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 6||||0.044
92184368|NCT04278833|184267265|OTHER|||||||0.226||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at week 2||||0.226
92291041|NCT05133180|184485365|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|3.475||||0.501|TWO_SIDED|95.0|-6.651|13.601||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Impact on Work) at Week 12.|MMRM|||Quality of life - Impact on Work due to Dry Eye - Week 12||13.601|-6.651|0.501
92291042|NCT05133180|184485366|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|-0.549||||0.924|TWO_SIDED|95.0|-11.82|10.723||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Treatment Satisfaction \& Bother module (Satisfaction with Treatment Effectiveness) at Week 4.|MMRM|||IDEEL Treatment satisfaction \& Bother Module Satisfaction with Treatment Effectiveness - week 4||10.723|-11.820|0.924
92291043|NCT05133180|184485366|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|1.072||||0.745|TWO_SIDED|95.0|-5.398|7.542||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Treatment Satisfaction \& Bother module (Treatment- Related Bother / Inconvenience) at Week 4.|MMRM|||IDEEL Treatment satisfaction \& Bother Module - Treatment- Related Bother / Inconvenience - week 4||7.542|-5.398|0.745
92291044|NCT05133180|184485366|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM)adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|-4.206||||0.467|TWO_SIDED|95.0|-15.53|7.118||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Treatment Satisfaction \& Bother module (Satisfaction with Treatment Effectiveness) at Week 12.|MMRM|||IDEEL Treatment satisfaction \& Bother Module - Satisfaction with Treatment Effectiveness - week 12||7.118|-15.530|0.467
92291045|NCT05133180|184485366|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM)adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|2.244||||0.564|TWO_SIDED|95.0|-5.387|9.874||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Treatment Satisfaction \& Bother module (Treatment- Related Bother / Inconvenience) at Week 12.|MMRM|||IDEEL Treatment satisfaction \& Bother Module - Treatment- Related Bother / Inconvenience - week 12||9.874|-5.387|0.564
92291046|NCT05133180|184485367|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|-0.805||||0.802|TWO_SIDED|95.0|-7.086|5.476||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Symptom Bother Module at Week 4.|MMRM|||IDEEL - Symptom Bother module - week 4||5.476|-7.086|0.802
92291047|NCT05133180|184485367|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|-8.789||||0.019|TWO_SIDED|95.0|-16.16|-1.418||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Symptom Bother Module at Week 12.|MMRM|||IDEEL - Symptom Bother module - week 12||-1.418|-16.160|0.019
92144196|NCT02161133|184172799|SUPERIORITY||Mean Difference (Final Values)|-1.88|STANDARD_ERROR_OF_MEAN|1.36||0.168|TWO_SIDED||||||Mixed Models Analysis|||||||0.168
92144197|NCT02161133|184172800|SUPERIORITY||Mean Difference (Final Values)|-7.28|STANDARD_ERROR_OF_MEAN|2.93||0.013|TWO_SIDED||||||Mixed Models Analysis|||||||0.013
92144198|NCT01515410|184172801|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-6.86||||0.0471||95.0|-13.62|-0.09||This p-value indicates statistical significance at the 0.05 level.|ANCOVA|No subjects early-terminated from the study.||"Percent OFF Time (%)"||-0.09|-13.62|0.0471
92144199|NCT00868439|184172806|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||< 0.001
92144200|NCT00868439|184172807|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.027|TWO_SIDED||||||Fisher Exact|||||||= 0.027
92144201|NCT00868439|184172808|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.101|TWO_SIDED||||||Fisher Exact|||||||= 0.101
92184369|NCT04278833|184267265|OTHER|||||||0.071||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 3||||0.071
92144202|NCT00868439|184172809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|TWO_SIDED||||||Fisher Exact|||||||0.022
92144203|NCT00868439|184172810|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.136|TWO_SIDED||||||Fisher Exact|||||||= 0.136
92144204|NCT00868439|184172811|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.015|TWO_SIDED||||||Fisher Exact|||||||= 0.015
92184370|NCT04278833|184267265|OTHER|||||||0.382||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 6||||0.382
92184371|NCT04278833|184267266|OTHER|||||||0.152||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at week 2||||0.152
92184372|NCT04278833|184267266|OTHER|||||||0.261||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 3.||||0.261
92291048|NCT05133180|184485368|SUPERIORITY||least square mean difference|-1.518||||0.045|TWO_SIDED|95.0|-3.005|-0.031||P-value of LS means difference between treatments from the MMRM on change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale at Week 4.|MMRM|||Herein Week 4 was considered. The change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale was analyzed by means of an MMRM adjusting by pre-defined factors (gender, age class, NEI scale baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||-0.031|-3.005|0.045
92291049|NCT05133180|184485368|SUPERIORITY||least square mean difference|-1.773||||0.038|TWO_SIDED|95.0|-3.446|-0.101||P-value of LS means difference between treatments from the MMRM on change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale at Week 8.|MMRM|||Herein Week 8 was considered. The change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale was analyzed by means of an MMRM adjusting by pre-defined factors (gender, age class, NEI scale baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||-0.101|-3.446|0.038
92291050|NCT05133180|184485368|SUPERIORITY||least square mean difference|-1.224||||0.2|TWO_SIDED|95.0|-3.096|0.649||P-value of LS means difference between treatments from the MMRM on change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale at Week 12|MMRM|||Herein Week 12 was considered. The change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale was analyzed by means of an MMRM adjusting by pre-defined factors (gender, age class, NEI scale baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||0.649|-3.096|0.200
92291051|NCT05133180|184485369|SUPERIORITY||least square mean difference|1.64||||0.016|TWO_SIDED|95.0|0.3|2.98||P-value of LS means difference between treatments from the MMRM on change from baseline in TFBUT at Week 4.|MMRM|||Herein week 4 was considered. The change from baseline in TFBUT values was analyzed by means of a MMRM adjusting by pre-defined factors (gender, age class, TFBUT baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||2.980|0.300|0.016
92291052|NCT05133180|184485369|SUPERIORITY||least ssquare mean difference|1.133||||0.129|TWO_SIDED|95.0|-0.329|2.596||P-value of LS means difference between treatments from the MMRM on change from baseline in TFBUT at Week 8.|MMRM|||Herein week 8 was considered. The change from baseline in TFBUT values was analyzed by means of a MMRM adjusting by pre-defined factors (gender, age class, TFBUT baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||2.596|-0.329|0.129
92291053|NCT05133180|184485369|SUPERIORITY||least square mean difference|1.36||||0.05|TWO_SIDED|95.0|-0.002|2.722||P-value of LS means difference between treatments from the MMRM on change from baseline in TFBUT at Week 12.|MMRM|||Herein week 12 was considered. The change from baseline in TFBUT values was analyzed by means of a MMRM adjusting by pre-defined factors (gender, age class, TFBUT baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||2.722|-0.002|0.050
92291054|NCT05133180|184485370|SUPERIORITY||||||<|0.001||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 4 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||<0.001
92291055|NCT05133180|184485370|SUPERIORITY|||||||0.009||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants|Wilcoxon (Mann-Whitney)|||Herein Week 8 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.009
92291056|NCT05133180|184485370|SUPERIORITY|||||||0.02||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 12 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.020
92291057|NCT05133180|184485370|SUPERIORITY|||||||0.022||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.022
92291058|NCT05133180|184485371|SUPERIORITY|||||||0.065||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants|Wilcoxon (Mann-Whitney)|||Herein Week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.065
92291059|NCT05133180|184485372|SUPERIORITY|||||||0.125||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.125
92291060|NCT05133180|184485373|SUPERIORITY|||||||0.005||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 8 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.005
92291061|NCT05133180|184485373|SUPERIORITY|||||||0.116||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 12 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.116
92184373|NCT04278833|184267266|OTHER|||||||0.437||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 6.||||0.437
92184374|NCT04278833|184267267|OTHER|||||||0.128||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.128
92291062|NCT05133180|184485373|SUPERIORITY|||||||0.864||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.864
92291063|NCT05133180|184485374|SUPERIORITY|||||||0.011||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 8 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.011
92291064|NCT05133180|184485374|SUPERIORITY|||||||0.316||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 12 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.316
92291065|NCT05133180|184485374|SUPERIORITY|||||||0.685||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.685
92291066|NCT05133180|184485375|SUPERIORITY|||||||0.016||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 8 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.016
92291067|NCT05133180|184485375|SUPERIORITY|||||||0.16||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants|Wilcoxon (Mann-Whitney)|||Herein Week 12 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.160
92291068|NCT05133180|184485375|SUPERIORITY|||||||0.839||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.839
92291069|NCT05133180|184485376|SUPERIORITY|||||||0.0455|||||||Chi-squared|||||||0.0455
92291070|NCT05133180|184485377|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.06||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||Quality of life - Impact on daily activities - Week 8||||0.060
92291071|NCT05133180|184485377|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.079||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||Quality of life - Emotional impact due to Dry eye - Week 8||||0.079
92291072|NCT05133180|184485377|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.251||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants|t-test, 2 sided|||Quality of life - Impact on work due to Dry Eye - Week 8||||0.251
92291073|NCT05133180|184485377|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.203||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||Quality of life - Impact on daily activities - Week 16||||0.203
92291074|NCT05133180|184485377|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.114||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||Quality of life - Emotional impact due to Dry eye - Week 16||||0.114
92184375|NCT04278833|184267267|OTHER||||||>|0.999||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||>0.999
92291075|NCT05133180|184485377|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.112||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||Quality of life - Impact on work due to Dry Eye - Week 16||||0.112
92291076|NCT05133180|184485378|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.002||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants|t-test, 2 sided|||Symptom bother module - Week 8||||0.002
92184376|NCT04278833|184267268|OTHER|||||||0.04||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.040
92184377|NCT04278833|184267268|OTHER||||||>|0.999||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||>0.999
92184378|NCT05200416|184267282|SUPERIORITY||Mean Difference (Final Values)|11.42|||<|0.001|TWO_SIDED|95.0|7.83|15.01|||Mixed Models Analysis|||||15.01|7.83|<0.001
92291077|NCT05133180|184485378|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.076||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants|t-test, 2 sided|||Symptom bother module - Week 16||||0.076
92291078|NCT05133180|184485379|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.16||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants|t-test, 2 sided|||IDEEL - Satisfaction with Treatment Effectiveness - Week 8||||0.160
92291079|NCT05133180|184485379|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.009||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||IDEEL - Treatment- Related Bother / Inconvenience - Week 8||||0.009
92291080|NCT05133180|184485379|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.076||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants|t-test, 2 sided|||IDEEL - Satisfaction with Treatment Effectiveness - Week 16||||0.076
92291081|NCT05133180|184485379|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.128||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||IDEEL - Treatment- Related Bother / Inconvenience - Week 16||||0.128
92291082|NCT04188392|184485389|OTHER|Rate of subjects enrolled per month of recruitment; based on 6 subjects enrolled over 5.8 months of recruitment.|Rate (per month)|1.03|||||TWO_SIDED|95.0|0.38|2.25|||||Based on 6 subjects enrolled over 5.8 months of recruitment|Recruitment goal of 6 subjects total.||2.25|0.38|
92291083|NCT04188392|184485390|OTHER|Total participants = 6; completed protocol: yes = 6, no = 0|Point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate = 100% (95% C.I. 54%,100%)|Binary outcome (completed protocol yes vs. no); goal of 75% of subjects completing protocol|Point estimate of completion rate and 95% confidence interval|1|0.54|
92291084|NCT04188392|184485391|OTHER|paired t-test|Mean of the differences|21.7||||0.2873|TWO_SIDED|95.0|-27.4|70.8||A priori significance threshold of p\<0.05|t-test, 2 sided|t=1.2263, df=4||alternative hypothesis: true difference in means is not equal to 0||70.8|-27.4|0.2873
92291085|NCT04188392|184485392|OTHER|Total participants = 6; discontinued due to adverse effects: yes = 0, no =6|Point estimate, 95% confidence interval|0.0|||||TWO_SIDED|95.0|0.0|0.46|||||Discontinuation rates due to adverse effects: Point estimate 0% (95% C.I. 0%, 45.9%)|Binary outcome: Discontinued due to adverse effects yes vs. no||0.46|0|
92291086|NCT04188392|184485393|OTHER|Total participants = 6; completed sleep study 1: yes = 6, no=0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of completion rate for sleep study 1 = 100% (95% C.I. 54%, 100%)|Binary outcome: Completed sleep study 1 yes vs. no||1|0.54|
92291087|NCT04188392|184485393|OTHER|Total participants = 6; completed sleep study 2: yes = 6, no=0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of completion rate for sleep study 2 = 100% (95% C.I. 54%, 100%)|Binary outcome: completed sleep study 2 yes vs. no||1|0.54|
92291088|NCT04188392|184485393|OTHER|Total participants = 6; completed sleep study 3: yes = 5, no=1|point estimate|0.83|||||TWO_SIDED|95.0|0.36|0.996|||||Point estimate of completion rate for sleep study 3 = 83.3% (95% C.I. 36%, 99.6%)|Binary outcome: completed sleep study 3 yes vs. no||0.996|0.36|
92291089|NCT04188392|184485393|OTHER|Total participants = 6; at least 4 days of actigraphy data: yes = 6, no=0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of completion rate for at least 4 days of actigraphy pre-treatment = 100% (95% C.I. 54%, 100%).|Binary outcome: at least 4 days of actigraphy data pre-treatment yes vs. no||1|0.54|
92291090|NCT04188392|184485393|OTHER|Total participants = 6; at least 4 days of actigraphy post-treatment: yes = 6, no =0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of at least 4 days of actigraphy post-treatment = 100% (95% C.I. 54%, 100%)|Binary outcome: at least 4 days of actigraphy post-treatment yes vs. no||1|0.54|
92291091|NCT04188392|184485393|OTHER|Total participants = 6; at least 4 days of sleep diary pre-treatment: yes = 6, no = 0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of at least 4 days of sleep diary pre-treatment = 100% (95% C.I. 54%, 100%)|Binary outcome: at least 4 days of sleep diary pre-treatment yes vs. no||1|0.54|
92291092|NCT04188392|184485393|OTHER|Total participants = 6; at least 4 days of sleep diary post-treatment: yes = 6, no = 0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of at least 4 days of sleep diary post-treatment = 100% (95% C.I. 54%, 100%)|Binary outcome: at least 4 days of sleep diary post-treatment yes vs. no||1|0.54|
92291093|NCT01906372|184485445|SUPERIORITY_OR_OTHER||Frequency of achieving primary endpoint|0.7|||||TWO_SIDED|||||Open label single arm pilot trial without control group.||||||||
92291094|NCT01906372|184485446|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92184379|NCT05200416|184267283|SUPERIORITY||Mean Difference (Final Values)|-4.16||||0.001|TWO_SIDED|95.0|-6.69|-1.63|||Mixed Models Analysis|||||-1.63|-6.69|0.001
92291095|NCT03629054|184485447|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (gMean) (T/R).|Adjusted gMean ratio|100.42|STANDARD_ERROR_OF_MEAN|4.8|<|0.0001|TWO_SIDED|90.0|98.17|102.72|||ANOVA||gMean ratio = T/R. Standard error of the mean is actually intra-individual geometric coefficient of variation (gCV).|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||102.72|98.17|<0.0001
92184380|NCT06943638|184267284|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92184381|NCT03854734|184267330|SUPERIORITY|Generalized estimating equations (GEE) model using the framework of a log-binomial logistic regression model.|Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|1.0|1.25|||Regression, Logistic|||Analysis for vaccine intention of Tdap||1.25|1.00|
92144205|NCT04109703|184172813|OTHER|The hypothesis is that the high level pulsed heat group will show statistically more pain relief than the low level steady heat group.|||||<|0.05|||||||Regression, Linear|Linear regression was used to compare differences in primary outcome between treatment and control groups adjusting for initial pain level.||Demographic and clinical characteristics were tabulated by randomization group. The primary outcome was change in pain score from baseline to 30 minutes after treatment ended. Linear regression was used to compare differences in primary outcome between treatment and control groups adjusting for initial pain level. Unadjusted comparisons are also presented. Change in pain scores at each other post baseline time point were similarly analyzed.||||<0.05
92144206|NCT00338884|184172815|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|35.3|||||TWO_SIDED|95.0|26.7|44.8|||||ORR=proportion of subjects with confirmed CR or PR, relative to total subjects who received at least 1 dose of study medication, had a baseline disease assessment, and had the correct histological cancer type.|||44.8|26.7|
92184382|NCT03854734|184267330|SUPERIORITY|Generalized estimating equations (GEE) model using the framework of a log-binomial logistic regression model.|Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|1.0|1.29|||Regression, Logistic|||Analysis for vaccine intention of MCV||1.29|1.00|
92184383|NCT03854734|184267330|SUPERIORITY|Generalized estimating equations (GEE) model using the framework of a log-binomial logistic regression model.|Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.96|1.14|||Regression, Logistic|||Analysis for vaccine intention of HPV||1.14|0.96|
92184384|NCT00264576|184267332|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.85|||||TWO_SIDED|95.0|0.7|1.04|||ANOVA|||"The following hypotheses were tested for A/H1N1 strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.04|0.70|
92266544|NCT00762073|184434387|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9258|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.9258
92266545|NCT00762073|184434387|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3215|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.3215
92144207|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.5581|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR Versus PD)||||0.5581
92266546|NCT00762073|184434388|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6729|TWO_SIDED|||||p-values comparing percent change from Baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.6729
92266547|NCT00762073|184434388|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8894|TWO_SIDED|||||p-values comparing percent change from Baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.8894
92266548|NCT00762073|184434388|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1532|TWO_SIDED|||||p-values comparing percent change from Baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.1532
92266549|NCT00762073|184434389|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4197|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.4197
92266550|NCT00762073|184434389|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9787|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.9787
92266551|NCT00762073|184434389|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8987|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.8987
92266552|NCT01265875|184434402|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to day 4.||||.25
92266553|NCT01265875|184434402|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to day 7.||||.19
92266554|NCT01265875|184434402|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to Day 30.||||.27
92266555|NCT01265875|184434404|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to Day 4.||||.52
92266556|NCT01265875|184434404|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to Day 30.||||.34
92266557|NCT01049360|184434414|SUPERIORITY_OR_OTHER||Least square mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.156|0.245||Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate|Mixed Models Analysis|||||0.245|0.156|<0.0001
92266558|NCT01049360|184434414|SUPERIORITY_OR_OTHER||Least square mean difference|0.202|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.158|0.245|||Mixed Models Analysis|Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate||||0.245|0.158|<0.0001
92266559|NCT01049360|184434415|SUPERIORITY_OR_OTHER||Least square mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.083|0.181|||Mixed Models Analysis|Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate||||0.181|0.083|<0.0001
92266560|NCT01049360|184434415|SUPERIORITY_OR_OTHER||Least squares mean difference|0.137|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.088|0.185|||Mixed Models Analysis|Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate||||0.185|0.088|<0.0001
92266561|NCT01049360|184434416|SUPERIORITY_OR_OTHER||Least squares mean difference|0.281|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.23|0.333|||Mixed Models Analysis|Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate||||0.333|0.230|<0.0001
92291096|NCT03629054|184485448|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|95.34|STANDARD_ERROR_OF_MEAN|8.5|<|0.0001|TWO_SIDED|90.0|91.58|99.24|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||99.24|91.58|<0.0001
92291097|NCT03629054|184485449|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|100.16|STANDARD_ERROR_OF_MEAN|8.6|<|0.0001|TWO_SIDED|90.0|96.17|104.31|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||104.31|96.17|<0.0001
92291098|NCT03629054|184485450|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|92.57|STANDARD_ERROR_OF_MEAN|17.9||0.0029|TWO_SIDED|90.0|85.21|100.57|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||100.57|85.21|0.0029
92291099|NCT03629054|184485451|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|97.33|STANDARD_ERROR_OF_MEAN|16.9||0.0001|TWO_SIDED|90.0|89.99|105.26|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||105.26|89.99|0.0001
92291100|NCT03629054|184485452|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|104.83|STANDARD_ERROR_OF_MEAN|13.2|<|0.0001|TWO_SIDED|90.0|98.56|111.5|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||111.50|98.56|<0.0001
92291101|NCT03629054|184485453|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|100.73|STANDARD_ERROR_OF_MEAN|5.1|<|0.0001|TWO_SIDED|90.0|98.33|103.18|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||103.18|98.33|<0.0001
92291102|NCT03629054|184485454|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|103.57|STANDARD_ERROR_OF_MEAN|14.3|<|0.0001|TWO_SIDED|90.0|96.9|110.71|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||110.71|96.90|<0.0001
92291103|NCT03629054|184485455|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|95.74|STANDARD_ERROR_OF_MEAN|7.8|<|0.0001|TWO_SIDED|90.0|92.29|99.32|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||99.32|92.29|<0.0001
92291104|NCT00989950|184485495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34|STANDARD_DEVIATION|14.0||0.588|TWO_SIDED|95.0|0.0|233.0|||ANOVA|||||233|0|0.588
92291105|NCT01124786|184485496|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.994|||<|0.973|TWO_SIDED|95.0|0.746|1.326|||Log Rank||Hazard ratio and confidence interval presented above, so parameter dispersion not indicated in standard deviation field directly above.|If the median Overall Survival (OS) for the CO-1.01-treated patients is 7.7 months and the median OS for gemcitabine-treated patients with hENT1-low status is 4 months (hazard ratio of 0.53), then a total of 144 events of death in the hENT1-low subgroup will provide over 90% power at a 0.05 (2 sided) significance level for the comparison of CO-1.01 to gemcitabine in the hENT1-low patients.||1.326|0.746|<0.973
92291106|NCT03488108|184485522|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||.009
92291107|NCT03488108|184485523|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||.90
92144208|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.7635|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR Versus PD)||||0.7635
92144209|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.8366|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR Versus PD)||||0.8366
92144210|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.0278|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR Versus PD)||||0.0278
92144211|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.1988|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR Versus PD)||||0.1988
92291108|NCT03488108|184485524|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||.003
92291109|NCT03488108|184485525|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||.005
92291110|NCT01665508|184485531|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Continuous variables were reported as the mean ± (SD) and categorical data presented as frequency and percentage of the sample. Comparisons between baseline and post-treatment SAQ scores, SF-36v2 scores, and CPET variables were performed using a paired t-test for normally distributed variables or a Wilcoxon signed-rank test for non-normally distributed variables. Normality was defined by the Shapiro-Wilk test. For categorical variables, data were compared using a chi-squared test.||||< 0.05
92291111|NCT02054715|184485535|OTHER||Mean Difference (MP - PE)|-0.1|STANDARD_ERROR_OF_MEAN|2.0||0.9621|TWO_SIDED|95.0|-4.1|3.9|||F-Test|||Two-sided F-Test as a statistical comparing MP and PE means.||3.9|-4.1|0.9621
92291112|NCT02054715|184485536|OTHER||Mean Difference (MP - PE)|0.18|STANDARD_ERROR_OF_MEAN|1.57||0.9065|TWO_SIDED|95.0|-2.89|3.26|||F-test|||Two-sided F-Test comparing the MP and PE means.||3.26|-2.89|0.9065
92291113|NCT02054715|184485537|OTHER||Mean Difference (MP - PE)|-0.05|STANDARD_ERROR_OF_MEAN|1.4||0.9709|TWO_SIDED|95.0|-2.79|2.69|||F-Test|||Two-sided F-Test comparing the MP and PE means.||2.69|-2.79|0.9709
92291114|NCT02054715|184485538|OTHER|||||||0.014|||||||Chi-squared|||Chi-square test between MP and PE. 69% of subjects that got the Multimedia Psychoeducation intervention chose to participate in a clinical trial, compared with 62% in the Print Education group||||0.014
92144212|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.2898|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR Versus PD)||||0.2898
92266562|NCT01049360|184434416|SUPERIORITY_OR_OTHER||Least squares mean difference|0.275|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.224|0.325|||Mixed Models Analysis|Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate||||0.325|0.224|<0.0001
92266563|NCT02276274|184434417|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.0164|||||TWO_SIDED|90.0|-0.0592|0.0264|||||Analysis of variance (ANOVA) was performed on log-transformed values of AUC (0-72) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0264|-0.0592|
92266564|NCT02276274|184434418|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.0164|||||TWO_SIDED|90.0|-0.0592|0.0264|||||ANOVA was performed on log-transformed values of AUC (0-tlqc) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0264|-0.0592|
92266565|NCT02276274|184434419|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1182|||||TWO_SIDED|90.0|-0.0405|0.2769|||||ANOVA was performed on log-transformed values of Cmax with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.2769|-0.0405|
92266566|NCT02276274|184434421|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.0139|||||TWO_SIDED|90.0|-0.0598|0.032|||||ANOVA was performed on log-transformed values of AUC (0-inf) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0320|-0.0598|
92266567|NCT02276274|184434436|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.014|||||TWO_SIDED|90.0|-0.0918|0.0638|||||ANOVA was performed on log-transformed values of AUC (0-48) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0638|-0.0918|
92266568|NCT02276274|184434437|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.0164|||||TWO_SIDED|90.0|-0.0934|0.0605|||||ANOVA was performed on log-transformed values of AUC (0-tlqc) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0605|-0.0934|
92144213|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.3567|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR Versus PD)||||0.3567
92144214|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.4547|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR Versus PD)||||0.4547
92144215|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.2809|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR Versus PD)||||0.2809
92144216|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.3259|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR Versus PD)||||0.3259
92144217|NCT00338884|184172821|SUPERIORITY_OR_OTHER|||||||0.2702|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR Versus PD)||||0.2702
92144218|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.7154|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.7154
92144219|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.6263|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6263
92144220|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.9608|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.9608
92144221|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.0300
92144222|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.0927|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.0927
92144223|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.2873|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2873
92144224|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.3018|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3018
92144225|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.4161|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4161
92144226|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.3069|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3069
92144227|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.292|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2920
92144228|NCT00338884|184172822|SUPERIORITY_OR_OTHER|||||||0.2409|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2409
92144229|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.5784|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR Versus PD)||||0.5784
92144230|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.6251|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR Versus PD)||||0.6251
92144231|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.1639|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR Versus PD)||||0.1639
92144232|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.2782|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR Versus PD)||||0.2782
92144233|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.8627|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR Versus PD)||||0.8627
92144234|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.462|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR Versus PD)||||0.4620
92144235|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.7575|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR Versus PD)||||0.7575
92144236|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.3566|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR Versus PD)||||0.3566
92144237|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.2809|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR Versus PD)||||0.2809
92144238|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.8758|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR Versus PD)||||0.8758
92144239|NCT00338884|184172824|SUPERIORITY_OR_OTHER|||||||0.2702|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR Versus PD)||||0.2702
92144240|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.7267|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.7267
92144241|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.8555|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.8555
92144242|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.2259|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2259
92144243|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.2074|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2074
92291115|NCT02252016|184485540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5|||||TWO_SIDED|95.0|-7.3|23.3||||||The estimated difference (± 95% confidence interval \[CI\]) in percentage of participants experiencing an AE in the Immediate versus Deferred arms was determined.||23.3|-7.3|
92291116|NCT02252016|184485541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.155|TWO_SIDED|95.0|-10.2|1.6|||Miettinen & Nurminen method|||The estimated difference (± 95% CI) in percentage of participants withdrawing from study treatment due to an AE(s) in the Immediate versus Deferred arms was determined.||1.6|-10.2|0.155
92291117|NCT00834873|184485547|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|94.77||||||90.0|85.04|105.61|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.61|85.04|
92291118|NCT00834873|184485548|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.23||||||90.0|90.59|102.23|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.23|90.59|
92291119|NCT00834873|184485549|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.11||||||90.0|90.45|102.12|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.12|90.45|
92291120|NCT03966911|184485555|SUPERIORITY||Intercept from ANCOVA as agreement rate|88.0|||<|0.041|TWO_SIDED|91.8|86.05|89.95|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).|A group sequential study design was utilized to perform interim analysis. For the final stage, the p-value is 0.041.|||89.95|86.05|<0.041
92291121|NCT03966911|184485555|SUPERIORITY||Intercept from ANCOVA as agreement rate|87.96|||<|0.041|TWO_SIDED|91.8|86.13|89.8|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).|A group sequential study design was utilized to perform interim analysis. For the final stage, the p-value is 0.041.|||89.80|86.13|<0.041
92144244|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.4779|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4779
92291122|NCT03966911|184485555|SUPERIORITY||Intercept from ANCOVA as agreement rate|84.59||||0.041|TWO_SIDED|91.8|82.02|87.17|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).|A group sequential study design was utilized to perform interim analysis. For the final stage, the p-value is 0.041.|||87.17|82.02|0.041
92291123|NCT03966911|184485555|SUPERIORITY||Intercept from ANCOVA as agreement rate|81.05|||<|0.041|TWO_SIDED|91.8|77.58|84.53|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).|A group sequential study design was utilized to perform interim analysis. For the final stage, the p-value is 0.041.|||84.53|77.58|<0.041
92291124|NCT00985751|184485556|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The 95% CI for the difference between groups in the percentage of subjects with rectal temperature \> 40.0°C within the 7-day follow-up period following primary vaccination was computed for the Synflorix/GSK 2189242A Group minus Synflorix Group. No statistically significant difference between groups in rectal temperature \>40.0°C would be detected if the 95% CIs included 0 and non-inferiority would|Difference in percentage|0.97|||||TWO_SIDED|95.0|-6.1|5.32||||||Fever \>40°C-non-inferiority: To compare the 2 formulations of GSK Biologicals' S. pneumoniae protein containing vaccine (GSK 2189242A) combined with Synflorix™ vaccine (pooled groups) versus Synflorix™ vaccine (Synflorix/GSK 2189242A Group minus Synflorix Group) with respect to the percentage of subjects reporting fever \> 40.0°C (rectal temperature) within 7 days after at least 1 dose of primary vaccination.||5.32|-6.1|
92291125|NCT00985751|184485557|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The 95% CI for the difference between groups in the percentage of subjects with rectal temperature \> 40.0°C within the 7-day follow-up period following primary vaccination was computed for the GSK 2189242A Group minus Synflorix Group. No statistically significant difference between groups in rectal temperature \>40.0°C would be detected if the 95% CIs included 0 and non-inferiority would be express|Difference in percentage|0.97|||||TWO_SIDED|95.0|-6.1|5.32||||||Fever \>40°C-non-inferiority: To compare the 2 formulations of GSK Biologicals' S. pneumoniae protein containing vaccine GSK 2189242A (pooled groups) versus Synflorix™ vaccine (GSK 2189242A Group minus Synflorix Group) with respect to the percentage of subjects reporting fever \> 40.0°C (rectal temperature) within 7 days after at least 1 dose of primary vaccination.||5.32|-6.1|
92291126|NCT00926887|184485647|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92291127|NCT00926887|184485650|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|t=-2.711; df=102; p\<0.01||||||<0.01
92291128|NCT00926887|184485654|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|df=102, t=-3.44||||||<0.001
92291129|NCT03930849|184485676|OTHER||F-value for Type 3 Fixed, df=4|2.01||||0.1|TWO_SIDED||||||Mixed Models Analysis|P-value is for F-value reported below of group x time term in a mixed methods analysis.||||||0.10
92291130|NCT03930849|184485677|SUPERIORITY||F statistic GroupxTime, df=4|0.025||||0.9|TWO_SIDED||||||Mixed Models Analysis|P-value is for F-value reported below of group x time analysis in a mixed methods analysis.||||||0.90
92144245|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.3628|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3628
92144246|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.546|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.5460
92291131|NCT03930849|184485678|SUPERIORITY||F Value Group x Time, DF=4|2.12||||0.08|TWO_SIDED|||||P-value of F statistic reported below for mixed methods analysis group\*time interaction term.|Mixed Models Analysis|||||||0.08
92144247|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.3637|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3637
92144248|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.2229|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2229
92144249|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.9759|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.9759
92266569|NCT02276274|184434439|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.1518|||||TWO_SIDED|90.0|-0.2356|-0.068|||||ANOVA was performed on log-transformed values of Cmax with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||-0.0680|-0.2356|
92144250|NCT00338884|184172825|SUPERIORITY_OR_OTHER|||||||0.2179|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2179
92144251|NCT00338884|184172827|SUPERIORITY_OR_OTHER|||||||0.5784|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR Versus PD)||||0.5784
92144252|NCT00338884|184172827|SUPERIORITY_OR_OTHER|||||||0.9625|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR Versus PD)||||0.9625
92144253|NCT00338884|184172827|SUPERIORITY_OR_OTHER|||||||0.8519|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR Versus PD)||||0.8519
92144254|NCT00338884|184172827|SUPERIORITY_OR_OTHER||Wilcoxon Rank Sum Test|||||0.0513|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR Versus PD)||||0.0513
92144255|NCT00338884|184172827|SUPERIORITY_OR_OTHER|||||||0.4051|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR Versus PD)||||0.4051
92144256|NCT00338884|184172827|SUPERIORITY_OR_OTHER|||||||0.2548|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR Versus PD)||||0.2548
92144257|NCT00338884|184172827|SUPERIORITY_OR_OTHER|||||||0.5091|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR Versus PD)||||0.5091
92144258|NCT00338884|184172827|SUPERIORITY_OR_OTHER|||||||0.3133|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR Versus PD)||||0.3133
92144259|NCT00338884|184172827|SUPERIORITY_OR_OTHER|||||||0.9278|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR Versus PD)||||0.9278
92144260|NCT00338884|184172827|SUPERIORITY_OR_OTHER|||||||0.407|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR Versus PD)||||0.4070
92144261|NCT00338884|184172827|SUPERIORITY_OR_OTHER|||||||0.2703|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR Versus PD)||||0.2703
92144262|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.7267|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.7267
92144263|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.8286|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.8286
92144264|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.6867|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6867
92144265|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.0450
92144266|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.174|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.1740
92144267|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.2703|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2703
92144268|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.3659|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3659
92144269|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.3391|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3391
92144270|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.98|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.9800
92144271|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.335|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3350
92144272|NCT00338884|184172828|SUPERIORITY_OR_OTHER|||||||0.2179|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2179
92144273|NCT00338884|184172831|SUPERIORITY_OR_OTHER|||||||0.068|TWO_SIDED||||||Wilcoxon Rank Sum Test|||CR or PR Versus PD||||0.0680
92144274|NCT00338884|184172832|SUPERIORITY_OR_OTHER|||||||0.1159|TWO_SIDED||||||Wilcoxon Rank Sum Test|||CR or PR or (SD \> = 12 Weeks) Versus PD||||0.1159
92144275|NCT00338884|184172834|SUPERIORITY_OR_OTHER|||||||0.8519|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR Versus PD)||||0.8519
92144276|NCT00338884|184172834|SUPERIORITY_OR_OTHER|||||||0.5879|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR Versus PD)||||0.5879
92144277|NCT00338884|184172834|SUPERIORITY_OR_OTHER|||||||0.4757|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR Versus PD)||||0.4757
92144278|NCT00338884|184172834|SUPERIORITY_OR_OTHER|||||||0.1933|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR Versus PD)||||0.1933
92144279|NCT00338884|184172834|SUPERIORITY_OR_OTHER|||||||0.4187|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR Versus PD)||||0.4187
92144280|NCT00338884|184172834|SUPERIORITY_OR_OTHER|||||||0.3795|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR Versus PD)||||0.3795
92144281|NCT00338884|184172834|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR Versus PD)||||1.0000
92144282|NCT00338884|184172834|SUPERIORITY_OR_OTHER|||||||0.6333|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR Versus PD)||||0.6333
92144283|NCT00338884|184172834|SUPERIORITY_OR_OTHER|||||||0.8679|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR Versus PD)||||0.8679
92144284|NCT00338884|184172834|SUPERIORITY_OR_OTHER|||||||0.592|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR Versus PD)||||0.5920
92266570|NCT02276274|184434441|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.0179|||||TWO_SIDED|90.0|-0.095|0.0591|||||ANOVA was performed on log-transformed values of AUC (0-inf) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0591|-0.0950|
92266571|NCT00145795|184434487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to examine the significance of the difference in mean absolute increase in CD4+ count at 3 months. Under the null hypothesis, CD4+ increase is similar for both treatment groups.||||0.81
92266572|NCT00145795|184434488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||||||Significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to examine the significance of the difference in mean absolute increase in CD4+ count at 6 months. Under the null hypothesis, CD4+ increase is similar for both treatment groups.||||0.03
92291132|NCT02906813|184485687|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Ratio|0.631||||0.079|TWO_SIDED|90.0|0.411|0.969|||ANOVA|||Analysis of variance (ANOVA) was performed on natural logarithms of TAK-935 Cmax with fixed factors of sequence, period and regimen, and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative bioavailability (BA) of TAK-935 tablet to solution. Point estimate and 90 percent (%) confidence interval (CI) in original scale were obtained by exponentiation of differences in natural-log scale.||0.969|0.411|0.079
92291133|NCT02906813|184485687|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.403||||0.002|TWO_SIDED|90.0|0.262|0.618|||ANOVA|||ANOVA was performed on natural logarithms of TAK-935 Cmax with fixed factors of sequence, period, and regimen and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative BA of TAK-935 administered after high-fat meal versus fasted. Point estimate and its 90% confidence interval in original scale were obtained by exponentiation of differences in natural-log scale.||0.618|0.262|0.002
92291134|NCT02906813|184485688|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.85||||0.146|TWO_SIDED|90.0|0.706|1.024|||ANOVA|||ANOVA was performed on natural logarithms of TAK-935 AUCt with fixed factors of sequence, period, and regimen and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative BA of TAK-935 tablet to solution. Point estimate and 90% CI in original scale were obtained by exponentiation of differences in natural-log scale.||1.024|0.706|0.146
92291135|NCT02906813|184485688|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.889||||0.281|TWO_SIDED|90.0|0.738|1.07|||ANOVA|||ANOVA was performed on natural logarithms of TAK-935 AUCt with factors of sequence, period, and regimen and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative BA of TAK-935 administered after high-fat meal versus fasted. Point estimate and its 90% CI in original scale were obtained by exponentiation of differences in natural-log scale.||1.070|0.738|0.281
92291136|NCT02906813|184485689|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.842||||0.191|TWO_SIDED|90.0|0.676|1.05|||ANOVA|||ANOVA was performed on natural logarithms of TAK-935 AUC∞ with fixed factors of sequence, period, and regimen and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative BA of TAK-935 tablet to solution. Point estimate and 90% CI in original scale were obtained by exponentiation of differences in natural-log scale.||1.050|0.676|0.191
92291137|NCT02906813|184485689|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.894||||0.355||90.0|0.726|1.1|||ANOVA|||ANOVA was performed on natural logarithms of TAK-935 AUC∞ with factors of sequence, period, and regimen and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative BA of TAK-935 administered after high-fat meal versus fasted. Point estimate and its 90% CI in original scale were obtained by exponentiation of differences in natural-log scale.||1.100|0.726|0.355
92291138|NCT00557245|184485694|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33|||<|0.001|TWO_SIDED|95.0|0.19|0.56||The a priori threshold was 0.05.|Regression, Cox||Placebo arm is the reference group.|We used Cox regression stratified according to site, to estimate the relative rates of time to first positive HIV-1 serologic test.||0.56|0.19|<0.001
92291139|NCT00557245|184485694|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.25|||<|0.001|TWO_SIDED|95.0|0.13|0.45||The a priori threshold was 0.05.|Regression, Cox||Placebo arm is the reference group.|We used Cox regression stratified according to site, to estimate the relative rates of time to first positive HIV-1 serologic test.||0.45|0.13|<0.001
92291140|NCT00557245|184485695|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
92291141|NCT00557245|184485695|SUPERIORITY_OR_OTHER|||||||0.89|||||||Fisher Exact|||||||0.89
92291142|NCT00557245|184485699|SUPERIORITY_OR_OTHER|||||||0.24|||||||Regression, Logistic|Generalized estimating equations, with logistic link and robust standard errors to adjust for individual correlation over time.||||||0.24
92291143|NCT00557245|184485699|SUPERIORITY_OR_OTHER|||||||0.49|||||||Regression, Logistic|Generalized estimating equations, with logistic link and robust standard errors to adjust for individual correlation over time.||||||0.49
92144285|NCT00338884|184172835|SUPERIORITY_OR_OTHER|||||||0.6939|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6939
92291144|NCT00557245|184485700|SUPERIORITY_OR_OTHER|||||||0.32|||||||Regression, Logistic|Generalized estimating equations, logistic link, with robust standard errors.||||||0.32
92291145|NCT00557245|184485700|SUPERIORITY_OR_OTHER|||||||0.66|||||||Regression, Logistic|Generalized estimating equations, logistic link, with robust standard errors.||||||0.66
92291146|NCT00557245|184485701|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||Regression, Logistic|Generalized estimating equations with logistic link to account for multiple pregnancies and multiple births||||||0.51
92291147|NCT00557245|184485701|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Regression, Logistic|generalized estimating equations with logistic link to account for multiple pregnancies and multiple births||||||0.86
92291148|NCT00557245|184485702|SUPERIORITY_OR_OTHER|||||||0.42|||||||Mixed Models Analysis|linear mixed-effects model||||||0.42
92291149|NCT00557245|184485702|SUPERIORITY_OR_OTHER||Slope Difference over time|0.07||||0.08|||||||Mixed Models Analysis|Linear mixed-effects model|Placebo arm is the reference group.|||||0.08
92144286|NCT00338884|184172835|SUPERIORITY_OR_OTHER|||||||0.5871|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.5871
92291150|NCT00557245|184485703|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|Linear mixed effects model||||||0.02
92291151|NCT00557245|184485703|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Linear mixed effects model||||||<0.001
92291152|NCT00557245|184485704|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Mixed Models Analysis|Linear mixed effects model||||||0.35
92291153|NCT00557245|184485704|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Mixed Models Analysis|Linear mixed effects model||||||0.008
92144287|NCT00338884|184172835|SUPERIORITY_OR_OTHER|||||||0.4572|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4572
92144288|NCT00338884|184172835|SUPERIORITY_OR_OTHER|||||||0.112|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.1120
92291154|NCT03234907|184485723|SUPERIORITY||Risk Difference (RD)|-5.2|||=|0.347|TWO_SIDED|95.0|-17.2|6.8||P-value was based on CHW test, based on weighted CMH chi-square test, with stratification according to: (1)previous failure of TNF-α antagonist therapy/concomitant use of immunomodulators(Yes/No);(2)concomitant use of oral corticosteroids(Yes/No).|Cui-Hung-Wang (CHW) test||Mantel-Haenszel estimate of the treatment difference and its variance was used to calculate the 95% confidence interval for the treatment difference. Adjustment to the stratification factors was implemented.|||6.8|-17.2|=0.347
92291155|NCT03234907|184485724|SUPERIORITY||Risk Difference (RD)|-2.7|||=|0.531|TWO_SIDED|95.0|-11.5|6.0||P-value based on Cochran-Mantel-Haenszel, weighted CMH chi-square test, with stratification according to:(1)previous failure of TNF-α antagonist therapy/concomitant use of immunomodulators(Yes/No);(2)concomitant use of oral corticosteroids(Yes/No).|Cochran-Mantel-Haenszel||Mantel-Haenszel estimate of the treatment difference and its variance was used to calculate the 95% confidence interval for the treatment difference. Adjustment to the stratification factors was implemented.|||6.0|-11.5|=0.531
92291156|NCT01472432|184485725|SUPERIORITY_OR_OTHER||||||<|0.05||||||"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months."|t-test, 2 sided|"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months."||"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months."||||<0.05
92291157|NCT01472432|184485726|SUPERIORITY_OR_OTHER||||||<|0.05||||||"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months"|t-test, 2 sided|"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months"||"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months."||||<0.05
92291158|NCT01472432|184485727|SUPERIORITY_OR_OTHER||||||<|0.05||||||P-values from multiple comparisons: placebo at baseline vs. placebo at 3 months; placebo at 3 months vs. Vildagliptin at 3 months; Vildagliptin at baseline vs. Vildagliptin at 3 months. P\< 0.05 versus control patients. P \< 0.05 versus baseline.|t-test, 2 sided|||p-values from multiple comparisons: placebo at baseline vs. placebo at 3 months; placebo at 3 months vs. Vildagliptin at 3 months; Vildagliptin at baseline vs. Vildagliptin at 3 months.||||<0.05
92291159|NCT01472432|184485728|SUPERIORITY_OR_OTHER||||||<|0.05||||||P\< 0.05 versus control patients. P \< 0.05 versus baseline|t-test, 2 sided|||||||<0.05
92291160|NCT02986139|184485731|SUPERIORITY||LS Mean Difference|-4.0||||0.048|TWO_SIDED|95.0|-8.0|0.0|||Mixed effects analysis of variance model|||A mixed effects analysis of variance model was used to assess injection site pain with the new formulation of etanercept as the test treatment and the commercial formulation of etanercept as the reference treatment. Treatment, study period, sequence, and disease indication were evaluated as fixed effect covariates, and subject within sequence was included as a random effect.||-0.0|-8.0|0.048
92291161|NCT02583048|184485734|SUPERIORITY||Mean Difference (Net)|8.4|||||TWO_SIDED|95.1|2.0|14.8|||||Arm 3 minus Arm 1 difference in change from baseline estimated from ANOVA model. Interim analysis conducted when week 24 QT data was available for ≥12 participants stipulated 99.9% confidence interval; original coverage of 95% was widened to 95.1%.|||14.8|2.0|
92291162|NCT02583048|184485734|SUPERIORITY||Mean Difference (Net)|12.1|||||TWO_SIDED|95.1|5.7|18.6|||||Arm 3 minus Arm 2 difference in change from baseline estimated from ANOVA model. Interim analysis conducted when week 24 QT data was available for ≥12 participants stipulated 99.9% confidence interval; original coverage of 95% was widened to 95.1%.|||18.6|5.7|
92291163|NCT02583048|184485741|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.117|||||TWO_SIDED|90.0|0.884|1.411|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.411|0.884|
92291164|NCT02583048|184485741|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.202|||||TWO_SIDED|90.0|0.989|1.461|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.461|0.989|
92291165|NCT02583048|184485741|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.958|||||TWO_SIDED|90.0|0.774|1.187|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||1.187|0.774|
92291166|NCT02583048|184485742|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.986|||||TWO_SIDED|90.0|0.801|1.215|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.215|0.801|
92291167|NCT02583048|184485742|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.978|||||TWO_SIDED|90.0|0.764|1.251|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.251|0.764|
92291168|NCT02583048|184485742|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.859|||||TWO_SIDED|90.0|0.667|1.108|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||1.108|0.667|
92291169|NCT02583048|184485743|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.036|||||TWO_SIDED|90.0|0.847|1.267|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.267|0.847|
92291170|NCT02583048|184485743|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.037|||||TWO_SIDED|90.0|0.843|1.276|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.276|0.843|
92144289|NCT00338884|184172835|SUPERIORITY_OR_OTHER|||||||0.4896|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4896
92291171|NCT02583048|184485743|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.915|||||TWO_SIDED|90.0|0.727|1.151|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||1.151|0.727|
92291172|NCT02583048|184485744|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.043|||||TWO_SIDED|90.0|0.864|1.258|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.258|0.864|
92291173|NCT02583048|184485744|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.029|||||TWO_SIDED|90.0|0.858|1.235|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.235|0.858|
92291174|NCT02583048|184485744|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.808|||||TWO_SIDED|90.0|0.657|0.993|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||0.993|0.657|
92291175|NCT02583048|184485745|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.068|||||TWO_SIDED|90.0|0.903|1.263|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.263|0.903|
92291176|NCT02583048|184485745|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.973|||||TWO_SIDED|90.0|0.82|1.155|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.155|0.820|
92291177|NCT02583048|184485745|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.803|||||TWO_SIDED|90.0|0.656|0.983|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||0.983|0.656|
92291178|NCT02583048|184485746|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.049|||||TWO_SIDED|90.0|0.881|1.248|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.248|0.881|
92291179|NCT02583048|184485746|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.979|||||TWO_SIDED|90.0|0.823|1.165|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.165|0.823|
92291180|NCT02583048|184485746|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.808|||||TWO_SIDED|90.0|0.638|1.025|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||1.025|0.638|
92291181|NCT02583048|184485747|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.903|||||TWO_SIDED|90.0|0.778|1.049|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.049|0.778|
92291182|NCT02583048|184485747|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.114|||||TWO_SIDED|90.0|0.944|1.315|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.315|0.944|
92291183|NCT02583048|184485747|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.804|||||TWO_SIDED|90.0|0.639|1.012|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.012|0.639|
92291184|NCT02583048|184485748|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.937|||||TWO_SIDED|90.0|0.81|1.084|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.084|0.810|
92291185|NCT02583048|184485748|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.107|||||TWO_SIDED|90.0|0.929|1.318|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.318|0.929|
92291186|NCT02583048|184485748|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.856|||||TWO_SIDED|90.0|0.703|1.043|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.043|0.703|
92291187|NCT02583048|184485749|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.951|||||TWO_SIDED|90.0|0.825|1.096|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.096|0.825|
92291188|NCT02583048|184485749|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.136|||||TWO_SIDED|90.0|0.948|1.362|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.362|0.948|
92291189|NCT02583048|184485749|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.898|||||TWO_SIDED|90.0|0.727|1.109|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.109|0.727|
92291190|NCT02583048|184485750|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.939|||||TWO_SIDED|90.0|0.806|1.094|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.094|0.806|
92291191|NCT02583048|184485750|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.081|||||TWO_SIDED|90.0|0.864|1.352|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.352|0.864|
92291192|NCT02583048|184485750|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.865|||||TWO_SIDED|90.0|0.597|1.253|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.253|0.597|
92291193|NCT02583048|184485751|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.95|||||TWO_SIDED|90.0|0.825|1.095|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.095|0.825|
92291194|NCT02583048|184485751|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.08|||||TWO_SIDED|90.0|0.862|1.354|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.354|0.862|
92291195|NCT02583048|184485751|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.865|||||TWO_SIDED|90.0|0.605|1.239|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.239|0.605|
92291196|NCT02583048|184485752|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.984|||||TWO_SIDED|90.0|0.851|1.138|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.138|0.851|
92291197|NCT02583048|184485752|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.086|||||TWO_SIDED|90.0|0.866|1.361|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.361|0.866|
92291198|NCT02583048|184485752|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.927|||||TWO_SIDED|90.0|0.65|1.322|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.322|0.650|
92291199|NCT02155257|184485756|OTHER||Slope|0.19||||0.54|TWO_SIDED|95.0|-0.39|0.76|||Regression, Linear|||Interaction between resting pupil diameter and correlation of cognitive-affective style to pain reporting. Note that this analysis is an INTERACTION between the primary outcome of this measure (pupil diameter) to that of the primary outcome measure of cognitive-affective style.||.76|-.39|0.540
92291200|NCT00414726|184485759|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||Wilcoxon (Mann-Whitney)|We used the Van-Elteren extension of the Wilcoxon rank sum test; ajustments made for baseline NIHSS categories (4-11)(12-20)(\>20).||Subjects were analyzed using an intention to treat approach. All subjects were analyzed at 24 hours. For four subjects missing 24-hour NIHSS scores, the change score was given the highest possible value.||||0.91
92291201|NCT00414726|184485760|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||Wilcoxon (Mann-Whitney)|We used the Van Elteren extension of the Wilcoxin rank sum test that adjusts for stratified randomization.||||||0.68
92291202|NCT01851876|184485769|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Fisher Exact|||||||0.025
92291203|NCT01630616|184485842|SUPERIORITY_OR_OTHER||Ratio (Adolescents/adults)|0.89|||||TWO_SIDED|90.0|0.62|1.26||||||||1.26|0.62|
92291204|NCT01630616|184485843|SUPERIORITY_OR_OTHER||Ratio (Adolescents/Adults)|0.87|||||TWO_SIDED|90.0|0.62|1.23||||||||1.23|0.62|
92291205|NCT01630616|184485844|SUPERIORITY_OR_OTHER||Ratio (Adolescents/Adults)|0.81|||||TWO_SIDED|90.0|0.57|1.16||||||||1.16|0.57|
92291206|NCT02725515|184485847|SUPERIORITY||Risk Difference (RD)|13.4||||0.183|TWO_SIDED|95.0|-6.6|32.6|||Barnard's Unconditional Exact Test P-val|||||32.6|-6.6|0.1830
92291207|NCT02725515|184485848|SUPERIORITY||Risk Difference (RD)|17.5||||0.1075|TWO_SIDED|95.0|-3.7|37.3|||Barnard's Unconditional Exact Test P-val|||||37.3|-3.7|0.1075
92291208|NCT02725515|184485849|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0252|TWO_SIDED|95.0|0.3|0.92|||Log Rank|||||0.92|0.30|0.0252
92291209|NCT03428750|184485909|SUPERIORITY|||||||0.006|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||0.006
92291210|NCT03428750|184485910|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92291211|NCT03428750|184485911|SUPERIORITY|||||||0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||0.001
92291212|NCT03428750|184485912|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92291213|NCT03428750|184485913|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92291214|NCT03428750|184485914|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92291215|NCT03428750|184485915|SUPERIORITY||||||<|0.001|||||||ANCOVA|With factors of treatment group and analysis center adjusted for baseline values in the model||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92291216|NCT03428750|184485916|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92291217|NCT03428750|184485917|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92291218|NCT02944617|184485924|OTHER|||||||1|||||||Fisher Exact|||||||1.00
92291219|NCT02944617|184485926|OTHER|||||||0.077|||||||Log Rank|||||||0.077
92291220|NCT01604941|184485946|SUPERIORITY_OR_OTHER_LEGACY|||||||0.296|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for 50 mg/kg/d dosing||||0.2960
92291221|NCT01604941|184485946|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for all participants with BID dosing||||0.0400
92291222|NCT01604941|184485946|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6303|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 24 for all participants with BID dosing||||0.6303
92291223|NCT01604941|184485947|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0365|TWO_SIDED|||||P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for 50 mg/kg/d dosing||||0.0365
92291224|NCT01604941|184485947|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for all participants with BID dosing||||0.0019
92291225|NCT01604941|184485947|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1695|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 24 for all participants with BID dosing||||0.1695
92291226|NCT01604941|184485948|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0394|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for 50 mg/kg/d dosing||||0.0394
92291227|NCT01604941|184485948|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for all participants with BID dosing||||0.0004
92291228|NCT01604941|184485948|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0332|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 24 for all participants with BID dosing||||0.0332
92291229|NCT01604941|184485949|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3202|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for 50 mg/kg/d dosing||||0.3202
92291230|NCT01604941|184485949|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4549|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for all participants with BID dosing||||0.4549
92291231|NCT01604941|184485949|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3291|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 24 for all participants with BID dosing||||0.3291
92291232|NCT01604941|184485950|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6703|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 8 for 50 mg/kg/d dosing||||0.6703
92291233|NCT01604941|184485950|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2618|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 8 for all participants with BID dosing||||0.2618
92291234|NCT01604941|184485950|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7679|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 16 for all participants with BID dosing||||0.7679
92291235|NCT01604941|184485951|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1683|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for 50 mg/kg/d dosing||||0.1683
92291236|NCT01604941|184485951|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0123|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for all participants with BID dosing||||0.0123
92291237|NCT01604941|184485951|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2334|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 24 for all participants with BID dosing||||0.2334
92291238|NCT01410227|184485957|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The null hypothesis of the rate of subjects with a treatment success of \<= 0.65 (H0: p \<= 0.65) versus an alternative hypothesis of \> 0.65 (HA: p \> 0.65) was tested at the 5% one-sided level of significance. The proportion of subjects with treatment success under the alternative hypothesis was expected to be approximately 0.90. If 20 subjects were treated, the study provided 86% power to reject the null hypothesis.|Clopper-Pearson|100.0|||||TWO_SIDED|90.0|84.7|100.0|||Clopper-Pearson|||||100|84.7|
92291239|NCT00606281|184486024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|||<|0.001|TWO_SIDED|95.0|-9.4|-2.7|||ANCOVA|||||-2.7|-9.4|<0.001
92291240|NCT00606281|184486025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.001||95.0|-1.1|-0.3|||ANCOVA|||||-0.3|-1.1|<0.001
92291241|NCT00540423|184486027|SUPERIORITY_OR_OTHER||Risk Difference (RD)|60.0||||||95.0|35.21|84.79|||||The units of risk difference is percentage.|||84.79|35.21|
92291242|NCT00540423|184486029|SUPERIORITY_OR_OTHER||Percentage of 75% responders|43.5||||||95.0|23.19|65.51|||||Confidence interval of the percentage of participants for whom at least 75% of their assessments during the course of 26 weeks of SB-494115-GR treatment met the definition of responders.|||65.51|23.19|
92291243|NCT03131895|184486051|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90 percent (%) confidence intervals (CIs) on the original scale.|Least square (LS) mean ratio|1.0436||||0.5535|TWO_SIDED|90.0|0.9453|1.1521|||ANOVA|||||1.1521|0.9453|0.5535
92291244|NCT03131895|184486051|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs on the original scale.|LS mean ratio|1.0185||||0.892|TWO_SIDED|90.0|0.9334|1.1113|||ANOVA|||||1.1113|0.9334|0.8920
92291245|NCT03131895|184486052|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs on the original scale.|LS mean ratio|1.039||||0.3209|TWO_SIDED|90.0|0.9792|1.1024|||ANOVA|||||1.1024|0.9792|0.3209
92291246|NCT03131895|184486052|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs on the original scale.|LS mean ratio|1.0353||||0.3896|TWO_SIDED|90.0|0.9719|1.1029|||ANOVA|||||1.1029|0.9719|0.3896
92291247|NCT03131895|184486053|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs on the original scale.|LS mean ratio|1.0335||||0.4163|TWO_SIDED|90.0|0.9733|1.0975|||ANOVA|||||1.0975|0.9733|0.4163
92291248|NCT03131895|184486053|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs on the original scale.|LS mean ratio|1.0031||||0.9778|TWO_SIDED|90.0|0.9458|1.0638|||ANOVA|||||1.0638|0.9458|0.9778
92291249|NCT01339247|184486054|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon a manufacturing site change.|Ratio T formulation/R formulation|1.0886|||||TWO_SIDED|90.0|1.0011|1.177|||||The ratio between the geometric means of the test (T) and reference (R) formulations was calculated.|||1.1770|1.0011|
92144290|NCT00338884|184172835|SUPERIORITY_OR_OTHER|||||||0.2369|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2369
92291250|NCT01339247|184486055|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon a manufacturing site change.|Ratio T formulation/R formulation|1.0246|||||TWO_SIDED|90.0|0.9676|1.0849|||||The ratio between the geometric means of the test (T) and reference (R) formulations was calculated.|||1.0849|0.9676|
92291251|NCT01339247|184486056|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon a manufacturing site change.|Ratio T formulation/R formulation|1.0317|||||TWO_SIDED|90.0|0.9716|1.0956|||||The ratio between the geometric means of the test (T) and reference (R) formulations was calculated.|||1.0956|0.9716|
92291252|NCT02213263|184486122|EQUIVALENCE|Equivalence was tested within the pre-specified margins of (-16%, 16%) 95% confidence interval.|Difference in ORR|4.66|||||TWO_SIDED|95.0|-4.16|13.47||||||Difference in ORR between PF-05280586 and rituximab-EU was computed using the stratified Mantel-Haenszel method. The 95% confidence interval for the difference was calculated using the asymptotic stratified method proposed by Miettinen and Nurminen.||13.47|-4.16|
92291253|NCT02213263|184486128|SUPERIORITY||Hazard Ratio (HR)|1.163||||0.45|TWO_SIDED|95.0|0.786|1.72||A log-rank test stratified by follicular lymphoma international prognostic index 2 (FLIPI2) risk was used to compare the treatment groups with respect to TTF at a 2-sided alpha level of 0.05.|Log Rank||Hazard ratio and its confidence intervals (CIs) were estimated from Cox Proportional hazards model stratified by FLIPI2 risk categorization.|||1.720|0.786|0.450
92144291|NCT00338884|184172835|SUPERIORITY_OR_OTHER|||||||0.6709|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6709
92291254|NCT02213263|184486129|SUPERIORITY||Hazard Ratio (HR)|1.393||||0.189|TWO_SIDED|95.0|0.847|2.291|||Log Rank|A log-rank test stratified by FLIPI2 risk was used to compare the treatment groups with respect to PFS at a 2-sided alpha level of 0.05.|Hazard ratio and its CIs were estimated from Cox Proportional hazards model stratified by FLIPI2 risk categorization.|||2.291|0.847|0.189
92291255|NCT02213263|184486130|SUPERIORITY||Mean Difference (Final Values)|-2.31|||||TWO_SIDED|95.0|-11.09|6.5||||||Difference in CR between PF-05280586 and rituximab-EU was computed using the stratified Mantel-Haenszel method. The 95% confidence interval for the difference was calculated using the asymptotic stratified method proposed by Miettinen and Nurminen.||6.50|-11.09|
92291256|NCT02213263|184486131|SUPERIORITY||Hazard Ratio (HR)|1.492||||0.185|TWO_SIDED|95.0|0.823|2.704||A log-rank test stratified by FLIPI2 risk was used to compare the treatment groups with respect to DOR at a 2-sided alpha level of 0.05.|Log Rank||Hazard ratio and its CIs were estimated from Cox Proportional hazards model stratified by FLIPI2 risk categorization.|||2.704|0.823|0.185
92291257|NCT02213263|184486132|SUPERIORITY||Hazard Ratio (HR)|2.94||||0.319|TWO_SIDED|95.0|0.0||Due to smaller number of participants with an event, upper limit of 95% CI could not be calculated.|A log-rank test stratified by FLIPI2 risk was used to compare the treatment groups with respect to overall survival at a 2-sided alpha level of 0.05.|Log Rank||Hazard ratio and its CIs were estimated from Cox Proportional hazards model stratified by FLIPI2 risk categorization.||||0.000|0.319
92291258|NCT02960295|184486167|OTHER|There was no comparison group and no test of statistical significance.||||||||||||||||In this interventional study the number of glucose checks per patient per day was calculated as stated above. There was no comparison group and no test of statistical significance.|This is a simple calculation of the mean (sd) of the number of glucose checks per pt per day|||
92291259|NCT02960295|184486168|OTHER|This is an observational study|||||<|0.05|||||||Pearson correlation (r)|||||||<0.05
92291260|NCT02960295|184486168|OTHER|This is an observational study|||||<|0.05|||||||Pearson correlation coefficient (r)|||||||<0.05
92291261|NCT02960295|184486168|OTHER||||||<|0.05|||||||Pearson correlation coefficient (r)|||||||<0.05
92291262|NCT01075282|184486171|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.45|||<|0.001|TWO_SIDED|95.0|-0.6|-0.29||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||The study was designed with 90% power to detect non-inferiority of LY2189265 1.5 mg vs insulin glargine on HbA1c change from baseline at the 52-week primary endpoint with a margin of 0.4%, a standard deviation of 1.3%, and a 1-sided alpha of 0.025 assuming no true difference between treatments. This corresponds to 223 participants per arm, with an assumed drop-out rate of 20%.||-0.29|-0.60|<0.001
92291263|NCT01075282|184486171|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.13|||<|0.001|TWO_SIDED|95.0|-0.29|0.02||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||0.02|-0.29|<0.001
92291264|NCT01075282|184486171|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45|||<|0.001|TWO_SIDED|95.0|-0.6|-0.29||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.29|-0.60|<0.001
92291265|NCT01075282|184486171|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13||||0.05|TWO_SIDED|95.0|-0.29|0.02||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||0.02|-0.29|0.05
92291266|NCT01075282|184486172|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.51|||<|0.001|TWO_SIDED|95.0|-0.65|-0.37||Treatment comparison at 26 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.37|-0.65|<0.001
92291267|NCT01075282|184486172|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.24|||<|0.001|TWO_SIDED|95.0|-0.38|-0.1||Treatment comparison at 26 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.10|-0.38|<0.001
92291268|NCT01075282|184486172|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51|||<|0.001|TWO_SIDED|95.0|-0.65|-0.37||Treatment comparison at 26 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.37|-0.65|<0.001
92291269|NCT01075282|184486172|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|||<|0.001|TWO_SIDED|95.0|-0.38|-0.1||Treatment comparison at 26 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.10|-0.38|<0.001
92291270|NCT01075282|184486172|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.5|-0.13||Treatment comparison at 78 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.13|-0.50|<0.001
92144292|NCT00338884|184172835|SUPERIORITY_OR_OTHER|||||||0.6382|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6382
92144293|NCT00338884|184172835|SUPERIORITY_OR_OTHER|||||||0.8481|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.8481
92144294|NCT00338884|184172835|SUPERIORITY_OR_OTHER|||||||0.3731|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3731
92144295|NCT00338884|184172837|SUPERIORITY_OR_OTHER|||||||0.0292|TWO_SIDED||||||Wilcoxon Rank Sum Test|||CR or PR Versus PD||||0.0292
92144296|NCT00338884|184172838|SUPERIORITY_OR_OTHER|||||||0.1087|TWO_SIDED||||||Wilcoxon Rank Sum Test|||CR or PR or (SD \> = 12 Weeks) Versus PD||||0.1087
92144297|NCT00338884|184172840|SUPERIORITY_OR_OTHER|||||||0.3386|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR Versus PD)||||0.3386
92144298|NCT00338884|184172840|SUPERIORITY_OR_OTHER|||||||0.1949|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR Versus PD)||||0.1949
92291271|NCT01075282|184486172|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.03|||<|0.001|TWO_SIDED|95.0|-0.21|0.15||Treatment comparison at 78 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||0.15|-0.21|<0.001
92291272|NCT01075282|184486172|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.5|-0.13||Treatment comparison at 78 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.13|-0.50|<0.001
92291273|NCT01075282|184486172|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.378|TWO_SIDED|95.0|-0.21|0.15||Treatment comparison at 78 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||0.15|-0.21|0.378
92291274|NCT01075282|184486173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.61|||<|0.001|TWO_SIDED|95.0|2.98|7.11||Treatment comparison at 26 weeks.|Regression, Logistic|||||7.11|2.98|<0.001
92144299|NCT00338884|184172840|SUPERIORITY_OR_OTHER|||||||0.7037|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR Versus PD)||||0.7037
92291275|NCT01075282|184486173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13|||<|0.001|TWO_SIDED|95.0|1.41|3.24||Treatment comparison at 26 weeks.|Regression, Logistic|||||3.24|1.41|<0.001
92291276|NCT01075282|184486173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.76|||<|0.001|TWO_SIDED|95.0|2.45|5.75||Treatment comparison at 52 weeks.|Regression, Logistic|||||5.75|2.45|<0.001
92291277|NCT01075282|184486173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.098|TWO_SIDED|95.0|0.94|2.15||Treatment comparison at 52 weeks.|Regression, Logistic|||||2.15|0.94|0.098
92291278|NCT01075282|184486173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.77|||<|0.001|TWO_SIDED|95.0|1.85|4.14||Treatment comparison at 78 weeks.|Regression, Logistic|||||4.14|1.85|<0.001
92291279|NCT01075282|184486173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.334|TWO_SIDED|95.0|0.82|1.82||Treatment comparison at 78 weeks.|Regression, Logistic|||||1.82|0.82|0.334
92291280|NCT01075282|184486174|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.7|||<|0.001|TWO_SIDED|95.0|2.9|7.63||Treatment comparison at 26 weeks.|Regression, Logistic|||||7.63|2.90|<0.001
92144300|NCT00338884|184172840|SUPERIORITY_OR_OTHER|||||||0.5748|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR Versus PD)||||0.5748
92144301|NCT00338884|184172840|SUPERIORITY_OR_OTHER|||||||0.747|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR Versus PD)||||0.7470
92291281|NCT01075282|184486174|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.54|||<|0.001|TWO_SIDED|95.0|1.57|4.11||Treatment comparison at 26 weeks.|Regression, Logistic|||||4.11|1.57|<0.001
92291282|NCT01075282|184486174|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.97|||<|0.001|TWO_SIDED|95.0|1.81|4.85||Treatment comparison at 52 weeks.|Regression, Logistic|||||4.85|1.81|<0.001
92291283|NCT01075282|184486174|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.07||||0.004|TWO_SIDED|95.0|1.26|3.39||Treatment comparison at 52 weeks.|Regression, Logistic|||||3.39|1.26|0.004
92144302|NCT00338884|184172840|SUPERIORITY_OR_OTHER|||||||0.4703|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR Versus PD)||||0.4703
92144303|NCT00338884|184172840|SUPERIORITY_OR_OTHER|||||||0.8162|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR Versus PD)||||0.8162
92144304|NCT00338884|184172840|SUPERIORITY_OR_OTHER|||||||0.5465|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR Versus PD)||||0.5465
92144305|NCT00338884|184172840|SUPERIORITY_OR_OTHER|||||||0.3495|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR Versus PD)||||0.3495
92144306|NCT00338884|184172840|SUPERIORITY_OR_OTHER|||||||0.6397|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR Versus PD)||||0.6397
92144307|NCT00338884|184172841|SUPERIORITY_OR_OTHER|||||||0.4632|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4632
92144308|NCT00338884|184172841|SUPERIORITY_OR_OTHER|||||||0.1701|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.1701
92144309|NCT00338884|184172841|SUPERIORITY_OR_OTHER|||||||0.8204|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.8204
92144310|NCT00338884|184172841|SUPERIORITY_OR_OTHER|||||||0.5162|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.5162
92144311|NCT00338884|184172841|SUPERIORITY_OR_OTHER|||||||0.9437|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.9437
92144312|NCT00338884|184172841|SUPERIORITY_OR_OTHER|||||||0.4013|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4013
92144313|NCT00338884|184172841|SUPERIORITY_OR_OTHER|||||||0.9595|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.9595
92144314|NCT00338884|184172841|SUPERIORITY_OR_OTHER|||||||0.6249|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6249
92291284|NCT01075282|184486174|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.27|||<|0.001|TWO_SIDED|95.0|1.44|3.57||Treatment comparison at 78 weeks.|Regression, Logistic|Treatment comparison at 78 weeks.||||3.57|1.44|<0.001
92291285|NCT01075282|184486174|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.073|TWO_SIDED|95.0|0.96|2.42||Treatment comparison at 78 weeks.|Regression, Logistic|||||2.42|0.96|0.073
92291286|NCT01075282|184486175|SUPERIORITY_OR_OTHER|||||||0.109||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||0.109
92291287|NCT01075282|184486175|SUPERIORITY_OR_OTHER|||||||0.335||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||0.335
92291288|NCT01075282|184486175|SUPERIORITY_OR_OTHER|||||||0.091||||||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||||0.091
92291289|NCT01075282|184486175|SUPERIORITY_OR_OTHER|||||||0.4||||||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||||0.400
92291290|NCT01075282|184486175|SUPERIORITY_OR_OTHER|||||||0.641||||||Treatment comparison at 78 weeks.|Mixed Models Analysis|||||||0.641
92291291|NCT01075282|184486175|SUPERIORITY_OR_OTHER|||||||0.055||||||Treatment comparison at 78 weeks.|Mixed Models Analysis|||||||0.055
92291292|NCT01075282|184486178|SUPERIORITY_OR_OTHER||LS Mean Difference|2.83|||<|0.001|TWO_SIDED|95.0|2.33|3.33||Treatment comparison at 26 weeks.|ANCOVA|||||3.33|2.33|<0.001
92291293|NCT01075282|184486178|SUPERIORITY_OR_OTHER||LS Mean Difference|2.48|||<|0.001|TWO_SIDED|95.0|1.99|2.99||Treatment comparison at 26 weeks.|ANCOVA|||||2.99|1.99|<0.001
92291294|NCT01075282|184486178|SUPERIORITY_OR_OTHER||LS Mean Difference|3.31|||<|0.001|TWO_SIDED|95.0|2.71|3.9||Treatment comparison at 52 weeks.|ANCOVA|||||3.90|2.71|<0.001
92291295|NCT01075282|184486178|SUPERIORITY_OR_OTHER||LS Mean Difference|2.77|||<|0.001|TWO_SIDED|95.0|2.17|3.36||Treatment comparison at 52 weeks.|ANCOVA|||||3.36|2.17|<0.001
92291296|NCT01075282|184486178|SUPERIORITY_OR_OTHER||LS Mean Difference|3.24|||<|0.001|TWO_SIDED|95.0|2.59|3.89||Treatment comparison at 78 weeks.|ANCOVA|||||3.89|2.59|<0.001
92291297|NCT01075282|184486178|SUPERIORITY_OR_OTHER||LS Mean Difference|2.82|||<|0.001|TWO_SIDED|95.0|2.17|3.46||Treatment comparison at 78 weeks.|ANCOVA|||||3.46|2.17|<0.001
92291298|NCT00367133|184486197|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANCOVA|Repeated Measures Model. Adjusted for baseline visual acuity and prior photocoagulation; Accounted for correlated data from subjects with 2 study eyes||P values for two group comparisons for difference in mean change.||||0.02
92291299|NCT00367133|184486197|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|Repeated Measures Model. Adjusted for baseline visual acuity and prior photocoagulation; Accounted for correlated data from subjects with 2 study eyes||P Values for 2 group comparisons of difference in mean change||||0.002
92291300|NCT00367133|184486197|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||ANCOVA|Repeated Measures Model. Adjusted for baseline visual acuity and prior photocoagulation; Accounted for correlated data from subjects with 2 study eyes||P Values for 2 group comparisons of difference in mean change||||0.49
92144315|NCT00338884|184172841|SUPERIORITY_OR_OTHER|||||||0.3731|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3731
92291301|NCT00367133|184486200|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||GEE Repeated Measures|Hochberg procedure used to determine statistical significance.||Proportion with 15-letter or more worsening||||0.03
92291302|NCT00367133|184486200|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||GEE Repeated Measures|Hochberg procedure used to determine statistical significance.||Proportion with 15-letter or more worsening||||0.01
92291303|NCT00367133|184486200|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||GEE Repeated Measures|Hochberg procedure used to determine statistical significance.||Proportion with 15-letter or more worsening||||0.82
92291304|NCT00367133|184486201|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Repeated Measures Model. Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P value not adjusted for multiple comparisons||||<0.001
92291305|NCT00367133|184486201|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Repeated Measures Model. Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Value not adjusted for multiple comparisons||||<0.001
92291306|NCT00367133|184486201|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||ANCOVA|Repeated Measures Model. Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Values not adjusted for multiple comparisons||||0.91
92144316|NCT00338884|184172841|SUPERIORITY_OR_OTHER|||||||0.8263|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.8263
92144317|NCT05072080|184172854|SUPERIORITY||Mean Difference (Final Values)|96.6|||<|0.0001|TWO_SIDED|95.0|95.0|97.5||p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups. All 3 coprimary endpoints were required to be met for success, so no multiple comparisons were performed.|Chi-squared||Seroresponse rate difference is (PXVX0317 minus placebo).|Day 22||97.5|95.0|<0.0001
92291307|NCT00367133|184486203|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Values not adjusted for multiple comparisons||||<0.001
92291308|NCT00367133|184486203|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Values not adjusted for multiple comparisons||||<0.001
92291309|NCT00367133|184486203|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Value not adjusted for multiple comparisons||||0.60
92291310|NCT00367133|184486204|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Values not adjusted for multiple comparisons||||<0.001
92291311|NCT00367133|184486204|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Value not adjusted for statistical analysis||||<0.001
92291312|NCT00367133|184486204|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Value not adjusted for statistical analysis||||0.55
92291313|NCT00906399|184486217|SUPERIORITY_OR_OTHER||Rate Ratio|0.725||||0.0114|TWO_SIDED|95.0|0.565|0.93|||Negative Binomial Regression|Based on negative binomial regression, with adjustment for baseline EDSS (\< 4 versus ≥ 4), baseline relapse rate, age (\< 40 versus ≥ 40 years).||||0.930|0.565|0.0114
92291314|NCT00906399|184486217|SUPERIORITY_OR_OTHER||Rate Ratio|0.644||||0.0007|TWO_SIDED|95.0|0.5|0.831|||Negative Binomial Regression|Based on negative binomial regression, with adjustment for baseline EDSS (\< 4 versus ≥ 4), baseline relapse rate, age (\< 40 versus ≥ 40).||||0.831|0.500|0.0007
92291315|NCT00906399|184486218|SUPERIORITY_OR_OTHER||Lesion Mean Ratio|0.72||||0.0008|TWO_SIDED|95.0|0.6|0.87|||Negative Binomial Regression|Lesion mean ratio (95% CI) and p-value based on negative binomial regression, adjusted for baseline number of T2 lesions.||||0.87|0.60|0.0008
92291316|NCT00906399|184486218|SUPERIORITY_OR_OTHER||Lesion Mean Ratio|0.33|||<|0.0001|TWO_SIDED|95.0|0.27|0.4|||Negative Binomial Regression|Lesion mean ratio (95% CI) and p-value based on negative binomial regression, adjusted for baseline number of T2 lesions.||||0.40|0.27|<0.0001
92144318|NCT05072080|184172856|SUPERIORITY||GMT Ratio|206.0|||<|0.0001|TWO_SIDED|95.0|183.0|232.0||All 3 coprimary endpoints were required to be met for success, so no multiple comparisons were performed.|ANOVA|ANOVA model includes site and treatment group as fixed effects, assuming normality of log titers. p-value tests equivalence of group GMTs on log scale|Ratio of GMTs is (PXVX0317:placebo).|Day 22||232|183|<0.0001
92144319|NCT05072080|184172858|EQUIVALENCE|Success criterion was pairwise GMT ratios (104:105, 105:106, 104:106) each with a two-sided 95% CI within \[0.667; 1.5\].|GMT Ratio|0.98|||||TWO_SIDED|95.0|0.85|1.14|||||All 3 coprimary endpoints were required to be met for success, so no multiple comparisons were performed. GMT estimates and 95% CIs are derived from an ANOVA model that includes site and product lot as fixed effects assuming normality of log titers.|||1.14|0.85|
92144320|NCT05072080|184172858|EQUIVALENCE|Success criterion was pairwise GMT ratios (104:105, 105:106, 104:106) each with a two-sided 95% CI within \[0.667; 1.5\].|GMT Ratio|0.97|||||TWO_SIDED|95.0|0.84|1.12|||||All 3 coprimary endpoints were required to be met for success, so no multiple comparisons were performed. GMT estimates and 95% CIs are derived from an ANOVA model that includes site and product lot as fixed effects assuming normality of log titers.|||1.12|0.84|
92144321|NCT05072080|184172858|EQUIVALENCE|Success criterion was pairwise GMT ratios (104:105, 105:106, 104:106) each with a two-sided 95% CI within \[0.667; 1.5\].|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.82|1.1|||||All 3 coprimary endpoints were required to be met for success, so no multiple comparisons were performed. GMT estimates and 95% CIs are derived from an ANOVA model that includes site and product lot as fixed effects assuming normality of log titers.|||1.10|0.82|
92266573|NCT00145795|184434489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD4+ memory cell population at 3 months. Under the null hypothesis, percent CD4+ memory cell apoptosis is similar for both treatment groups.||||0.08
92266574|NCT00145795|184434490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD4+ naïve cell population at 3 months. Under the null hypothesis, percent CD4+ naïve cell apoptosis is similar for both treatment groups.||||0.29
92266575|NCT00145795|184434491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD4+ memory cell population at 6 months. Under the null hypothesis, percent CD4+ memory cell apoptosis is similar for both treatment groups.||||0.29
92266576|NCT00145795|184434492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD4+ naïve cell population at 6 months. Under the null hypothesis, percent CD4+ naïve cell apoptosis is similar for both treatment groups.||||0.04
92266577|NCT00145795|184434493|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD8+ cell population at 3 months. Under the null hypothesis, percent CD8+ cell apoptosis is similar for both treatment groups.||||0.21
92266578|NCT00145795|184434494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD8+ cell population at 6 months. Under the null hypothesis, percent CD8+ cell apoptosis is similar for both treatment groups.||||0.61
92266579|NCT04419558|184434497|OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.077||0.6579|TWO_SIDED|95.0|-0.12|0.19|||Mixed Models Analysis|||||0.19|-0.12|0.6579
92266580|NCT01539512|184434506|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.18|||<|0.0001|TWO_SIDED|95.0|0.1|0.32|||Log Rank|P-value is from stratified log-rank test, adjusted for randomization stratification factors.||||0.32|0.10|< 0.0001
92266581|NCT01539512|184434509|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.28|||||TWO_SIDED|95.0|0.11|0.69||||||||0.69|0.11|
92266582|NCT02388906|184434511|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0003|TWO_SIDED|95.0|0.6|0.86|||Log Rank|Stratified log rank||||0.86|0.60|0.0003
92266583|NCT02388906|184434512|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.03|0.69|1.11|||Log Rank||Stratified Cox proportional hazard model|||1.11|0.69|
92266584|NCT02388906|184434519|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.63|0.9|||Log Rank|Stratified log rank||||0.90|0.63|
92266585|NCT00412360|184434521|SUPERIORITY|||||||0.17||||||Testing was performed at a significance level of 0.05|Log Rank|||The null hypothesis is that there is no difference in overall survival at one year post-randomization between participants receiving single- and double-unit cord blood transplant. The targeted sample size of 110 participants per treatment group was sufficient to maintain a type I error rate of 5% and provide more than 86% power to detect an increase in overall survival from 57% among participants receiving a single unit graft to 77% for those receiving a double-unit graft.||||0.17
92266586|NCT00412360|184434522|SUPERIORITY|||||||0.11||||||Testing was performed at a significance level of 0.05|Log Rank|||The null hypothesis is that there is no difference in disease-free survival at one year post-randomization between participants receiving single- and double-unit cord blood transplant.||||0.11
92266587|NCT00412360|184434523|SUPERIORITY|||||||0.29||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of neutrophil engraftment between participants receiving single- and double-unit cord blood transplant.||||0.29
92266588|NCT00412360|184434523|SUPERIORITY|||||||0.04||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of platelet engraftment between participants receiving single- and double-unit cord blood transplant.||||0.04
92266589|NCT00412360|184434525|SUPERIORITY|||||||0.78||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of Grade II-IV acute GVHD between participants receiving single- and double-unit cord blood transplant.||||0.78
92291317|NCT00906399|184486219|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.02|TWO_SIDED|95.0|0.57|0.95||Based on Cox proportion hazards model, adjusted for baseline EDSS (\< 4 versus ≥ 4), age (\<40 versus ≥ 40 years), baseline relapse rate, and baseline Gd enhancing lesions (presence versus absence).|Cox Proportion Hazards model|||||0.95|0.57|0.0200
92291318|NCT00906399|184486219|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.0003|TWO_SIDED|95.0|0.47|0.8||Based on Cox proportion hazards model, adjusted for baseline EDSS (\< 4 versus ≥ 4), age (\<40 versus ≥ 40 years), baseline relapse rate, and baseline Gd enhancing lesions (presence versus absence).|Cox Proportion Hazards model|||||0.80|0.47|0.0003
92291319|NCT00906399|184486220|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.038|TWO_SIDED|95.0|0.4|0.97||Based on Cox Proportional Hazards model, adjusted for baseline EDSS (\< 4 versus ≥ 4) and age (\< 40 versus ≥ 40 years).|Cox Proportion Hazards model|||||0.97|0.40|0.0380
92291320|NCT00906399|184486220|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.0383|TWO_SIDED|95.0|0.4|0.97||Based on Cox Proportional Hazards model, adjusted for baseline EDSS (\< 4 versus ≥ 4) and age (\< 40 versus ≥ 40 years).|Cox Proportion Hazards model|||||0.97|0.40|0.0383
92291321|NCT02055547|184486263|OTHER|Treatment comparison (MK-8521 125μg - placebo) of the slope of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of the slope of ISR/G for MK-8521 125μg vs. placebo was calculated from the model.|Geometric mean ratio|4.61|||<|0.001|TWO_SIDED|90.0|3.69|5.76|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|5.76|3.69|<0.001
92291322|NCT02055547|184486263|OTHER|Treatment comparison (MK-8521 35μg - placebo) of the slope of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of the slope of ISR/G for MK-8521 35μg vs. placebo was calculated from the model.|Geometric mean ratio|2.67|||<|0.001|TWO_SIDED|90.0|2.12|3.36|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|3.36|2.12|<0.001
92144322|NCT05072080|184172860|SUPERIORITY||Mean Difference (Final Values)|96.0|||<|0.0001|TWO_SIDED|95.0|94.3|96.8||Key secondary endpoints were tested hierarchically, such that each was only tested if all 3 coprimary endpoints and prior key secondary endpoints were met, so no multiple comparisons were performed.|Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|Day 15||96.8|94.3|<0.0001
92144323|NCT05072080|184172860|SUPERIORITY||Mean Difference (Final Values)|84.0|||<|0.0001|TWO_SIDED|95.0|81.7|85.6||Key secondary endpoints were tested hierarchically, such that each was only tested if all 3 coprimary endpoints and prior key secondary endpoints were met, so no multiple comparisons were performed.|Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|Day 183||85.6|81.7|<0.0001
92144324|NCT05072080|184172860|SUPERIORITY||Mean Difference (Final Values)|46.1|||<|0.0001|TWO_SIDED|95.0|43.8|48.1||Key secondary endpoints were tested hierarchically, such that each was only tested if all 3 coprimary endpoints and prior key secondary endpoints were met, so no multiple comparisons were performed.|Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|Day 8||48.1|43.8|<0.0001
92291323|NCT02055547|184486263|OTHER|"Treatment comparison (MK-8521 125μg - MK-8521 35μg) of the slope of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of the slope of ISR/G for MK-8521 125μg vs.~MK-8521 35μg was calculated from the model."|Geometric mean ratio|1.73|||<|0.001|TWO_SIDED|90.0|1.38|2.16|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|2.16|1.38|<0.001
92291324|NCT02055547|184486264|OTHER|Treatment comparison (MK-8521 125μg - placebo) of the ratio of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of TWA120-160min of ratio (ISR/G) for MK-8521 125μg vs. placebo was calculated from the model.|Geometric mean ratio|3.04|||<|0.001|TWO_SIDED|90.0|2.62|3.53|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|3.53|2.62|<0.001
92291325|NCT02055547|184486264|OTHER|Treatment comparison (MK-8521 35μg - placebo) of the ratio of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of TWA120-160min of ratio (ISR/G) for MK-8521 35μg vs. placebo was calculated from the model.|Geometric mean ratio|1.94|||<|0.001|TWO_SIDED|90.0|1.67|2.26|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|2.26|1.67|<0.001
92291326|NCT02055547|184486264|OTHER|Treatment comparison (MK-8521 125μg - 35μg) of the ratio of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of TWA120-160min of ratio (ISR/G) for MK-8521 125μg - 35μg was calculated from the model.|Geometric mean ratio|1.57|||<|0.001|TWO_SIDED|90.0|1.35|1.82|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|1.82|1.35|<0.001
92291327|NCT02055547|184486265|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 125mcg - placebo) in glucose (TWA0-160min) after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.65|||<|0.001|TWO_SIDED|90.0|0.6|0.7|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|0.7|0.6|<0.001
92291328|NCT02055547|184486265|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 35μg - placebo) in glucose (TWA0-160min) after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.8|||<|0.001|TWO_SIDED|90.0|0.74|0.87|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|0.87|0.74|<0.001
92291329|NCT02055547|184486265|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 125μg - MK-8521 35μg) in glucose (TWA0-160min) after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.81|||<|0.001|TWO_SIDED|90.0|0.75|0.87|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|0.87|0.75|<0.001
92291330|NCT02055547|184486266|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 125μg vs. placebo) in Gmax after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.55|||<|0.001|TWO_SIDED|90.0|0.49|0.63|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|0.63|0.49|<0.001
92291331|NCT02055547|184486266|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 35μg - placebo) in Gmax after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.71|||<|0.001|TWO_SIDED|90.0|0.62|0.81|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|0.81|0.62|<0.001
92291332|NCT02055547|184486266|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 125μg - MK-8521 35μg) in Gmax after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.78||||0.004|TWO_SIDED|90.0|0.69|0.89|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|0.89|0.69|0.004
92291333|NCT01986647|184486276|SUPERIORITY_OR_OTHER|||||||0.2691|||||||Mixed Models Analysis|linear mixed model due to clustering by facility and multiple imputation for missing data||||||0.2691
92291334|NCT01986647|184486277|SUPERIORITY_OR_OTHER|||||||0.6087|||||||Mixed Models Analysis|linear mixed model due to clustering by facility and multiple imputation for missing data||||||0.6087
92291335|NCT01986647|184486278|SUPERIORITY_OR_OTHER|||||||0.0022|||||||Mixed Models Analysis|linear mixed model due to clustering by facility and multiple imputation for missing data||||||0.0022
92144325|NCT05072080|184172862|SUPERIORITY||GMT Ratio|13.0|||<|0.0001|TWO_SIDED|95.0|11.0|14.0|||ANOVA|ANOVA model includes site and treatment group as fixed effects, assuming normality of log titers. p-value tests equivalence of group GMTs on log scale|Ratio of GMTs is (PXVX0317:placebo)|Day 8||14|11|<0.0001
92144326|NCT05072080|184172862|SUPERIORITY||GMT Ratio|144.0|||<|0.0001|TWO_SIDED|95.0|128.0|162.0|||ANOVA|ANOVA model includes site and treatment group as fixed effects, assuming normality of log titers. p-value tests equivalence of group GMTs on log scale|Ratio of GMTs is (PXVX0317:placebo)|Day 15||162|128|<0.0001
92291336|NCT01986647|184486279|SUPERIORITY_OR_OTHER|||||||0.0344|||||||Mixed Models Analysis|linear mixed model due to clustering by facility and multiple imputation for missing data||||||0.0344
92291337|NCT01986647|184486280|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.6879|TWO_SIDED|95.0|0.49|1.6|||Regression, Logistic|||||1.60|0.49|0.6879
92291338|NCT01986647|184486281|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.88||||0.5719|TWO_SIDED|95.0|0.56|1.37|||Regression, Logistic|||||1.37|0.56|0.5719
92291339|NCT01986647|184486282|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.489|TWO_SIDED|95.0|0.44|5.53|||Regression, Logistic|||||5.53|0.44|0.489
92144327|NCT05072080|184172862|SUPERIORITY||GMT Ratio|41.0|||<|0.0001|TWO_SIDED|95.0|37.0|46.0|||ANOVA|ANOVA model includes site and treatment group as fixed effects, assuming normality of log titers. p-value tests equivalence of group GMTs on log scale|Ratio of GMTs is (PXVX0317:placebo)|Day 183||46|37|<0.0001
92184385|NCT00264576|184267332|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.57|||||TWO_SIDED|95.0|0.46|0.7|||ANOVA|||"The following hypotheses were tested for A/H3N2 strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||0.70|0.46|
92291340|NCT01986647|184486283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.12||||0.2981|TWO_SIDED|95.0|0.37|26.6|||Regression, Logistic|||||26.6|0.37|0.2981
92291341|NCT01986647|184486284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.9279|TWO_SIDED|95.0|0.3|3.74|||Regression, Logistic|||||3.74|0.30|0.9279
92291342|NCT01986647|184486285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.5835|TWO_SIDED|95.0|0.67|2.06|||Regression, Logistic|||||2.06|0.67|0.5835
92291343|NCT01986647|184486286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.46||0.18|TWO_SIDED||||||Mixed Models Analysis|||||||0.18
92291344|NCT01986647|184486287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|1.42||0.73|TWO_SIDED||||||Mixed Models Analysis|||||||0.73
92291345|NCT01986647|184486288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.28||0.71|TWO_SIDED||||||Mixed Models Analysis|||||||0.71
92291346|NCT01986647|184486289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.004||0.77|TWO_SIDED||||||Mixed Models Analysis|||||||0.77
92144328|NCT05072080|184172864|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95% CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 8||||<0.0001
92144329|NCT05072080|184172864|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95% CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 15||||<0.0001
92144330|NCT05072080|184172864|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95% CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 22||||<0.0001
92144331|NCT05072080|184172864|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95% CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 183||||<0.0001
92144332|NCT05072080|184172866|SUPERIORITY||Mean Difference (Final Values)|90.7|||<|0.0001|TWO_SIDED|95.0|88.7|91.9|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 8||91.9|88.7|<0.0001
92144333|NCT05072080|184172866|SUPERIORITY||Mean Difference (Final Values)|98.7|||<|0.0001|TWO_SIDED|95.0|97.2|99.3||p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Chi-squared||Seroresponse rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 15||99.3|97.2|<0.0001
92144334|NCT05072080|184172866|SUPERIORITY||Mean Difference (Final Values)|97.6|||<|0.0001|TWO_SIDED|95.0|95.8|98.5|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 22||98.5|95.8|<0.0001
92291347|NCT01986647|184486290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.44||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
92291348|NCT01986647|184486291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.0324|TWO_SIDED|95.0|0.29|0.95|||Regression, Logistic|||||0.95|0.29|0.0324
92291349|NCT02003391|184486292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6191|||<|0.0001|ONE_SIDED|95.0||-3.8503|||ANCOVA|||||-3.8503||<0.0001
92291350|NCT02488109|184486332|OTHER|||||||0.42||||||Changes in rates of clinical remission by group over time in the mITT model.|Regression, Linear|Clinical remission was modeled as a nominal multinomial outcome (yes, no, or missing)||The study was powered to detect a difference in 12-months clinical remission rates between groups. N = 60 per arm with 85% retention would provide 80% power on a 2-sided 0.05-level test to detect a 20% difference between groups in 12-months clinical remission rates. A generalized linear mixed-effects regression model was used to compare study arms with respect to achievement and maintenance of clinical remission.||||0.42
92144335|NCT05072080|184172866|SUPERIORITY||Mean Difference (Final Values)|96.8|||<|0.0001|TWO_SIDED|95.0|94.8|97.9|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 183||97.9|94.8|<0.0001
92291351|NCT02488109|184486333|SUPERIORITY||Hazard Ratio (HR)|1.67||||0.01|TWO_SIDED|95.0|1.1|2.53||Survival analysis of time to medical stability by log-rank test, which does not assume proportional hazards. Those who did not reach medical stability before hospital discharge were censored; analyses accounted for the site effect by stratification.|Survival analysis with log rank test|Compared time to achieve medical stability by arm; participants who did not meet stability criteria by hospital discharge were right-censored||This trial was powered at 0.80 to detect a 12% to 20% difference in restored medical stability at 0.05 type I error and correlation between time points from 0.1 to 1.||2.53|1.10|0.01
92291352|NCT02488109|184486334|SUPERIORITY||Median Difference (Net)|19.0||||0.002|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Cost outcomes of group differences and 95% confidence intervals were estimated.||28,819|9,293|0.002
92291353|NCT03969641|184486338|NON_INFERIORITY|This objective will be assessed using a one-sided noninferiority test with the alpha level set at 0.025 (1-sided) and a noninferiority margin of 10%.|Difference in Proportions (RIV4 - IIV4)|-0.0214|||<|0.0001|ONE_SIDED|97.5||0.0406|||Cochran-Mantel-Haenszel|The upper bound of a Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used, stratified by site.|The directional comparison was the upper bound of the confidence interval using a 10% noninferiority margin.|The null hypothesis assumes that RIV4 is inferior (i.e., RIV4 will have a higher proportion) to IIV4 in regards to the proportion of pregnant women with adverse birth outcomes.||0.0406||<0.0001
92144336|NCT05072080|184172866|SUPERIORITY||Mean Difference (Final Values)|64.8|||<|0.0001|TWO_SIDED|95.0|62.5|66.7|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 8||66.7|62.5|<0.0001
92144337|NCT05072080|184172866|SUPERIORITY||Mean Difference (Final Values)|97.8|||<|0.0001|TWO_SIDED|95.0|96.3|98.4|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 15||98.4|96.3|<0.0001
92144338|NCT05072080|184172866|SUPERIORITY||Mean Difference (Final Values)|97.2|||<|0.0001|TWO_SIDED|95.0|95.5|98.1|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 22||98.1|95.5|<0.0001
92144339|NCT05072080|184172866|SUPERIORITY||Mean Difference (Final Values)|91.4|||<|0.0001|TWO_SIDED|95.0|89.4|92.7|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 183||92.7|89.4|<0.0001
92144340|NCT03492281|184172868|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.8|-0.2||Hypothesis testing was performed for vibegron minus placebo.|Mixed Model for Repeated Measures (MMRM)|||||-0.2|-0.8|<0.001
92144341|NCT03492281|184172868|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16|=|0.0988|TWO_SIDED|95.0|-0.6|0.1||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||0.1|-0.6|=0.0988
92144342|NCT03492281|184172869|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.9|-0.3||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-0.3|-0.9|<0.0001
92291354|NCT03969641|184486339|SUPERIORITY|This proportion was compared between the RIV4 group and the IIV4 group using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level. The site adjusted odds ratio and corresponding 95% confidence interval for the proportion of preterm birth was also calculated.|Odds Ratio (OR)|0.72||||0.4645|TWO_SIDED|95.0|0.35|1.48|||Mantel Haenszel|||Preterm birth||1.48|0.35|0.4645
92291355|NCT03969641|184486340|SUPERIORITY|These proportions were compared between the RIV4 group and the IIV4 group using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level. The site adjusted odds ratio and corresponding 95% confidence interval for the proportions of combined fetal death and neonatal death was also calculated.|Odds Ratio (OR)|0.00000031||||0.2447|TWO_SIDED|95.0|0.0||The upper limit of this CI is infinity, thus no numeric value can be provided.||Mantel Haenszel|||Fetal or neonatal death|||0.00|0.2447
92291356|NCT03969641|184486341|SUPERIORITY|This proportion was compared between the RIV4 group and the IIV4 group using an exact Mantel-Haenszel statistic in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level. The site adjusted odds ratio and corresponding 95% confidence interval for the proportion of spontaneous abortion after vaccination was also calculated. This was a subgroup analysis of only those participants vaccinated at less than 20 weeks gestational age.|Odds Ratio (OR)|0.5||||0.6235|TWO_SIDED|95.0|0.04|5.47|||Mantel Haenszel|||Spontaneous abortion||5.47|0.04|0.6235
92291357|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|1.17||||0.7029|TWO_SIDED|95.0|0.55|2.5|||Mantel Haenszel|||Injection Site Pain||2.50|0.55|0.7029
92291358|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|2.03||||0.6217|TWO_SIDED|95.0|0.18|22.52|||Mantel Haenszel|||Injection Site Redness||22.52|0.18|0.6217
92291359|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.7||||0.3848|TWO_SIDED|95.0|0.35|1.39|||Mantel Haenszel|||Injection Site Tenderness||1.39|0.35|0.3848
92291360|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.53||||0.2504|TWO_SIDED|95.0|0.21|1.35|||Mantel Haenszel|||Nausea||1.35|0.21|0.2504
92291361|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.62||||0.5751|TWO_SIDED|95.0|0.2|1.93|||Mantel Haenszel|||Vomiting||1.93|0.20|0.5751
92144343|NCT03492281|184172869|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15|=|0.0123|TWO_SIDED|95.0|-0.7|-0.1||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||-0.1|-0.7|=0.0123
92291362|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|1.01||||1|TWO_SIDED|95.0|0.32|3.19|||Mantel Haenszel|||Diarrhea||3.19|0.32|1.0000
92144344|NCT03492281|184172870|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.22|=|0.002|TWO_SIDED|95.0|-1.1|-0.2||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-0.2|-1.1|=0.0020
92144345|NCT03492281|184172870|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.23|=|0.0648|TWO_SIDED|95.0|-0.9|0.0||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||0.0|-0.9|=0.0648
92144346|NCT03492281|184172871|SUPERIORITY||Difference in percentage|16.5|||<|0.0001|TWO_SIDED|95.0|9.7|23.4|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||23.4|9.7|<0.0001
92291363|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.8||||1|TWO_SIDED|95.0|0.21|3.04|||Mantel Haenszel|||Abdominal Pain||3.04|0.21|1.0000
92291364|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.53||||0.1326|TWO_SIDED|95.0|0.25|1.13|||Mantel Haenszel|||Headache||1.13|0.25|0.1326
92291365|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|1.01||||1|TWO_SIDED|95.0|0.2|5.04|||Mantel Haenszel|||Chills/Shivering||5.04|0.20|1.0000
92291366|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0||The upper limit of this CI is infinity, thus no numeric value can be provided.||Mantel Haenszel|||Body Rash|||0.00|1.0000
92291367|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.92||||1|TWO_SIDED|95.0|0.39|2.15|||Mantel Haenszel|||Malaise (Fatigue)||2.15|0.39|1.0000
92144347|NCT03492281|184172871|SUPERIORITY||Difference in percentage|9.4|||=|0.012|TWO_SIDED|95.0|2.1|16.7|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||16.7|2.1|=0.0120
92291368|NCT03969641|184486342|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.87||||1|TWO_SIDED|95.0|0.31|2.48|||Mantel Haenszel|||Myalgia (Body Aches)||2.48|0.31|1.0000
92291369|NCT03969641|184486342|SUPERIORITY||Odds Ratio (OR)|0.71||||0.7704|TWO_SIDED|95.0|0.22|2.29|||Mantel Haenszel|||Joint Pain||2.29|0.22|0.7704
92291370|NCT02466087|184486364|OTHER||diiference in differences|1.5|||||TWO_SIDED|95.0|||||Regression, Linear|||||||
92291371|NCT01919112|184486380|OTHER|Regression models using interaction terms will used to assess for heterogeneity of intervention effects across the novel radiological variable corticobulbar tract (CBT)-lesion load, a combined measure of lesion size and location. For purposes of the analysis, the CBT-lesion load was dichotomized into 2 groups based on the median CBT-lesion load volume.||||||0.116||||||Interaction p-values will be considered statistically significant at the 0.15 level of significance given the relatively low power for tests of interaction to detect a true interaction.|2-way analysis of variance with interact|The tDCS intervention was the main variable of interest, PAS score the main outcome and CBT-lesion load was the interaction term used.||The aim for this analysis was to assess for effect modification of the trial intervention across the novel radiological variable corticobulbar tract-lesion load.||||0.116
92291372|NCT00835666|184486381|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.5||||||90.0|92.6|105.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105|92.6|
92291373|NCT00835666|184486382|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.2||||||90.0|94.7|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102|94.7|
92291374|NCT00835666|184486383|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.4||||||90.0|94.9|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102|94.9|
92144348|NCT03492281|184172872|SUPERIORITY||Difference in percentage|6.3|||=|0.036|TWO_SIDED|95.0|0.4|12.1|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||12.1|0.4|=0.0360
92144349|NCT03492281|184172872|SUPERIORITY||Difference in percentage|1.9|||=|0.5447|TWO_SIDED|95.0|-4.1|7.8|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||7.8|-4.1|=0.5447
92144350|NCT03492281|184172873|SUPERIORITY||Difference in percentage|6.8|||=|0.0235|TWO_SIDED|95.0|0.9|12.7|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex and OAB type (wet/dry), with weights proposed by Greenland and Robins.||||12.7|0.9|=0.0235
92144351|NCT03492281|184172873|SUPERIORITY||Difference in percentage|3.7|||=|0.24|TWO_SIDED|95.0|-2.5|10.0|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex and OAB type (wet/dry), with weights proposed by Greenland and Robins.||||10.0|-2.5|=0.2400
92144352|NCT03492281|184172874|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.0|-0.4||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-0.4|-1.0|<0.0001
92144353|NCT03492281|184172874|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17|=|0.0074|TWO_SIDED|95.0|-0.8|-0.1||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||-0.1|-0.8|=0.0074
92291375|NCT00506831|184486460|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||Null hypothesis is that the mRSS is not significantly different at month 6 compared with baseline. Paired t-test was used to compare the mean mRSS at month 6 compared with baseline.||||0.005
92291376|NCT00095784|184486479|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|5 degrees of freedom test over six time points: day 1 (pre-treatment) and days 5, 12, 43, 47, and 54 post treatment.||Mixed effects regression analysis of change over time in CD34+ cell levels. Analysis performed on log scale.||||<0.0001
92291377|NCT00095784|184486485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Mixed Models Analysis|5 degrees of freedom test over six time points: day 1 (pre-treatment) and days 5, 12, 43, 47, and 54 post treatment.||Mixed effects regression analysis of change over time in CXCR4 levels. Analysis performed on log scale.||||0.29
92291378|NCT00095784|184486491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99|||||||Mixed Models Analysis|5 degrees of freedom test over six time points: day 1 (pre-treatment) and days 5, 12, 43, 47, and 54 post treatment.||Mixed effects regression analysis of change over time in hemoglobin F levels.||||0.99
92291379|NCT00608322|184486501|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.03||||0.37|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.37
92291380|NCT00835614|184486548|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|90.9||||||90.0|87.5|94.4|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||94.4|87.5|
92291381|NCT00835614|184486549|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|92.1||||||90.0|90.3|93.9|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||93.9|90.3|
92144354|NCT03492281|184172875|SUPERIORITY||Least Squares Mean Difference|3.6|STANDARD_ERROR_OF_MEAN|1.24|=|0.0039|TWO_SIDED|95.0|1.2|6.0||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||6.0|1.2|=0.0039
92144355|NCT03492281|184172875|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|1.32|=|0.021|TWO_SIDED|95.0|0.5|5.7||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||5.7|0.5|=0.0210
92291382|NCT00835614|184486550|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|92.2||||||90.0|90.4|94.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||94|90.4|
92291383|NCT00985439|184486620|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.407|STANDARD_ERROR_OF_MEAN|2.643|<|0.001|TWO_SIDED|95.0|6.195|16.619|||ANCOVA|||||16.619|6.195|<0.001
92291384|NCT05143801|184486659|EQUIVALENCE|Main effect for environmental conditions.||||||0.003||||||Statistical significance was set at p \< 0.05.|2x2 repeated measures ANOVA|||||||0.003
92291385|NCT05143801|184486659|EQUIVALENCE|Main effect for mask condition.||||||0.933||||||Statistical significance was set at p \< 0.05.|2x2 repeated measures ANOVA|||||||0.933
92291386|NCT05143801|184486659|EQUIVALENCE|Interaction effect across environmental and mask conditions.|No Method of Estimation was used|||||0.344||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 repeated measures ANOVA|||||||0.344
92291387|NCT05143801|184486660|EQUIVALENCE|Main effect for environmental conditions.||||||0.117||||||Statistical significance was set at p \< 0.05.|2x2 Repeated Measures ANOVA|||A 2x2 repeated measures ANOVA was performed to investigate statistical differences for all variables across the four conditions. Both main and interaction effects were calculated along with effect size, reported as partial ⴄ2 as provided by the statistical software JASP (version 0.14.1.0).||||0.117
92291388|NCT05143801|184486660|EQUIVALENCE|Main effect for mask condition||||||0.832||||||Statistical significance was set at p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.832
92291389|NCT05143801|184486660|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.879||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.879
92291390|NCT05143801|184486661|EQUIVALENCE|Main effect for environmental condition.||||||0.749||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.749
92291391|NCT05143801|184486661|EQUIVALENCE|Main effect for mask condition.||||||0.311||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.311
92291392|NCT05143801|184486661|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.368||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.368
92291393|NCT05143801|184486662|EQUIVALENCE|Main effect for environmental condition.||||||0.789||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.789
92144356|NCT03492281|184172876|SUPERIORITY||Least Squares Mean Difference|21.2|STANDARD_ERROR_OF_MEAN|3.52|<|0.0001|TWO_SIDED|95.0|14.3|28.1||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||28.1|14.3|<0.0001
92291394|NCT05143801|184486662|EQUIVALENCE|Main effect for mask condition.||||||0.739||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.739
92291395|NCT05143801|184486662|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.158||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.158
92291396|NCT05143801|184486663|EQUIVALENCE|Main effect for environmental condition.||||||0.394||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.394
92291397|NCT05143801|184486663|EQUIVALENCE|Main effect for mask condition||||||0.157||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.157
92291398|NCT05143801|184486663|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.015||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.015
92144357|NCT03492281|184172876|SUPERIORITY||Least Squares Mean Difference|13.3|STANDARD_ERROR_OF_MEAN|3.76|<|0.001|TWO_SIDED|95.0|5.9|20.7||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||20.7|5.9|<0.001
92144358|NCT03492281|184172877|SUPERIORITY||Least Squares Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|1.06|<|0.001|TWO_SIDED|95.0|1.7|5.8||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||5.8|1.7|<0.001
92291399|NCT05143801|184486664|EQUIVALENCE|Main effect for environmental condition.||||||0.96||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.960
92291400|NCT05143801|184486664|EQUIVALENCE|Main effect for mask condition.||||||0.073||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.073
92291401|NCT05143801|184486664|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.503||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.503
92291402|NCT05143801|184486665|EQUIVALENCE|Main effect for environmental condition.||||||0.786||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.786
92291403|NCT05143801|184486665|EQUIVALENCE|Main effect for mask condition.||||||0.18||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.180
92291404|NCT05143801|184486665|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.239||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.239
92144359|NCT03492281|184172877|SUPERIORITY||Least Squares Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|1.13|=|0.0114|TWO_SIDED|95.0|0.6|5.1|||MMRM|||||5.1|0.6|=0.0114
92144360|NCT03492281|184172878|SUPERIORITY||Least Squares Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-9.2|-4.6||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-4.6|-9.2|<0.0001
92291405|NCT05143801|184486666|EQUIVALENCE|Main effect for environmental condition.||||||0.134||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.134
92291406|NCT05143801|184486666|EQUIVALENCE|Main effect for mask condition.||||||0.621||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.621
92291407|NCT05143801|184486666|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.553||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.553
92291408|NCT05143801|184486667|EQUIVALENCE|Main effect for environmental condition.||||||0.461||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.461
92291409|NCT05143801|184486667|EQUIVALENCE|Main effect for mask condition.||||||0.877||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.877
92291410|NCT05143801|184486667|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.919||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.919
92291411|NCT05143801|184486668|EQUIVALENCE|Main effect for environmental condition.||||||0.466||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.466
92291412|NCT05143801|184486668|EQUIVALENCE|Main effect for mask condition.||||||0.186||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.186
92291413|NCT05143801|184486668|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.08||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.080
92144361|NCT03492281|184172878|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|1.25|<|0.001|TWO_SIDED|95.0|-7.1|-2.2||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||-2.2|-7.1|<0.001
92144362|NCT03492281|184172879|SUPERIORITY||Difference in percentage|12.4|||<|0.0001|TWO_SIDED|95.0|6.7|18.1||CMH=Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel|The CMH risk difference estimate was stratified by OAB type (wet/dry) and sex (female/male), with weights proposed by Greenland and Robins.||||18.1|6.7|<0.0001
92291414|NCT05143801|184486669|EQUIVALENCE|Main effect for environmental condition.||||||0.375||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.375
92291415|NCT05143801|184486669|EQUIVALENCE|Main effect for mask condition.||||||0.178||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.178
92291416|NCT05143801|184486669|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.533||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.533
92291417|NCT05143801|184486670|EQUIVALENCE|Main effect for environmental condition.||||||0.29||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.290
92144363|NCT03492281|184172879|SUPERIORITY||Difference in percentage|6.9|||=|0.0236|TWO_SIDED|95.0|0.9|12.8|||Cochran-Mantel-Haenszel|The CMH risk difference estimate was stratified by OAB type (wet/dry) and sex (female/male), with weights proposed by Greenland and Robins.||||12.8|0.9|=0.0236
92291418|NCT05143801|184486670|EQUIVALENCE|Main effect for mask condition.||||||0.527||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.527
92291419|NCT05143801|184486670|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.045||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.045
92291420|NCT05143801|184486671|EQUIVALENCE|Main effect for environmental condition.||||||0.018||||||Statistical significance was set at p \< 0.05|2x2x3 Repeated Measures ANOVA|||||||0.018
92291421|NCT05143801|184486671|EQUIVALENCE|Main effect for mask condition.|||||<|0.001||||||Statistical significance was set at p \< 0.05|2x2x3 Repeated Measures ANOVA|||||||<0.001
92291422|NCT05143801|184486671|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.035||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2x3 Repeated Measures ANOVA|||||||0.035
92291423|NCT05143801|184486672|EQUIVALENCE|Main effect for environmental condition.|||||<|0.001||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||<0.001
92291424|NCT05143801|184486672|EQUIVALENCE|Main effect for mask condition.||||||0.678||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.678
92291425|NCT05143801|184486672|EQUIVALENCE|Interaction effect||||||0.678|||||||2x2 Repeated Measures ANOVA|||||||0.678
92144364|NCT03492281|184172880|SUPERIORITY||Difference in percentage|11.7|||<|0.001|TWO_SIDED|95.0|4.7|18.6|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||18.6|4.7|<0.001
92291426|NCT05143801|184486673|EQUIVALENCE|Main effect for environmental condition.|||||<|0.001||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||<0.001
92291427|NCT05143801|184486673|EQUIVALENCE|Main effect for mask condition.||||||0.487||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.487
92291428|NCT05143801|184486673|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.79||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.790
92291429|NCT05143801|184486674|EQUIVALENCE|Main effect for environmental condition.||||||0.089||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.089
92291430|NCT05143801|184486674|EQUIVALENCE|Main effect for mask condition.||||||0.297||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.297
92144365|NCT03492281|184172880|SUPERIORITY||Difference in percentage|11.5|||=|0.0022|TWO_SIDED|95.0|4.2|18.9|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||18.9|4.2|=0.0022
92291431|NCT05143801|184486674|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.111||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.111
92291432|NCT05143801|184486675|EQUIVALENCE|Main effect for environmental condition.||||||0.024||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.024
92291433|NCT05143801|184486675|EQUIVALENCE|Main effect for mask condition.||||||0.002||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.002
92291434|NCT05143801|184486675|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.014||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.014
92291435|NCT05143801|184486676|EQUIVALENCE|Main effect for environmental condition.||||||0.012||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.012
92291436|NCT05143801|184486676|EQUIVALENCE|Main effect for mask condition.||||||0.893||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.893
92291437|NCT05143801|184486676|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.969||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.969
92291438|NCT01252953|184486677|OTHER|Time to first event|Rate Ratio|0.91||||0.004|TWO_SIDED|95.0|0.85|0.97|||Log Rank|||||0.97|0.85|0.004
92291439|NCT01252953|184486678|OTHER|Time to first event|Rate Ratio|0.93||||0.052|TWO_SIDED|95.0|0.86|1.0|||Log Rank|||||1|0.86|0.052
92291440|NCT01252953|184486679|OTHER|Time to first event|Rate Ratio|0.99|||||TWO_SIDED|95.0|0.87|1.12||In accordance with the data analysis plan, if the outcome of a major atherosclerotic event did not reach significance, there was no hypothesis testing for presumed ischemic stroke, so no P value is given.||||||1.12|0.87|
92291441|NCT01252953|184486680|OTHER|Time to first event|Rate Ratio|0.93||||0.02|TWO_SIDED|95.0|0.88|0.99|||Log Rank|||||0.99|0.88|0.02
92144366|NCT03492281|184172881|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.3|-0.1||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-0.1|-0.3|<0.0001
92291442|NCT00101439|184486687|SUPERIORITY_OR_OTHER_LEGACY||Geometric Mean Ratio (GMR)|0.89||||0.241|TWO_SIDED|95.0|0.73|1.08||Data were back-transformed from the log scale and adjusted for treatment|ANOVA||GMR=Ezetimibe divided by placebo|||1.08|0.73|0.241
92291443|NCT00101439|184486688|SUPERIORITY_OR_OTHER_LEGACY||Geometric Mean Ratio (GMR)|1.02||||0.812|TWO_SIDED|95.0|0.87|1.2||Data were back-transformed from the log scale and adjusted for treatment|ANOVA||GMR=Ezetimibe divided by placebo|||1.20|0.87|0.812
92291444|NCT01087502|184486715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.6|-0.24|||ANCOVA|||||-0.24|-0.60|<0.0001
92291445|NCT01087502|184486717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.29|STANDARD_ERROR_OF_MEAN|6.59||0.1602||95.0|-22.28|3.7|||ANCOVA|||||3.7|-22.28|0.1602
92291446|NCT01151618|184486723|OTHER|"Sensitivity and Specificity of values with respect to the Mead Whittenberger method were computed as follows (FL=flow limited and NFL = Non Flow limited):~Sensitivity = (# of FL breaths detected by FOT / # of FL breaths detected by M\&W) \* 100 Specificity =(# of NFL breaths detected by FOT / # of NFL breaths detected by M\&W) \* 100"|DeltaXrs (cmH2O*s/L)|2.6|||||TWO_SIDED|90.0|0.0|100.0|||||DeltaXrs equals average inspiratory reactance minus average expiratory reactance.|||100|0|
92291447|NCT02272803|184486764|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.41|1.67|||||Hazard Ratio of E-Ld to Ld. Stratified by stage of disease (International Staging System 1 - 2 vs 3)|||1.67|0.41|
92291448|NCT02452463|184486781|SUPERIORITY|||||||0.107|||||||Cochran-Mantel-Haenszel|||||||0.107
92144367|NCT03492281|184172881|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05|=|0.0055|TWO_SIDED|95.0|-0.2|0.0||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||0.0|-0.2|=0.0055
92144368|NCT03492281|184172882|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.4|-0.2||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-0.2|-0.4|<0.0001
92144369|NCT03492281|184172882|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.3|-0.1||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||-0.1|-0.3|<0.001
92144370|NCT01569438|184172929|OTHER||Mean Difference|-0.7||||0.0734|TWO_SIDED|90.0|-1.6|0.2||one-sided|Mixed Model with Repeated Measures|||MMRM approach was used to model the change from baseline as a function of treatment, week, treatment by week interaction, baseline score, and baseline score by week interaction.||0.2|-1.6|0.0734
92291449|NCT02452463|184486783|SUPERIORITY|||||||0.75|||||||Log Rank|||Null Hypotheses: OS distributions are equal||||0.75
92291450|NCT02452463|184486784|SUPERIORITY|||||||0.25|||||||Log Rank|||Null Hypotheses: PFS distributions are equal||||0.25
92291451|NCT02452463|184486785|SUPERIORITY|||||||0.131|||||||t-test, 2 sided|||||||0.131
92291452|NCT02452463|184486786|SUPERIORITY|||||||0.073|||||||t-test, 2 sided|||||||0.073
92291453|NCT02452463|184486787|SUPERIORITY|||||||0.616|||||||t-test, 2 sided|||||||0.616
92291454|NCT02452463|184486787|SUPERIORITY|||||||0.183|||||||Paired T-test|||Comparing change relative to baseline.||||0.183
92291455|NCT02452463|184486787|SUPERIORITY|||||||0.203|||||||paired T-test|||Evaluating change relative to baseline.||||0.203
92291456|NCT02452463|184486788|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1.00
92291457|NCT05740098|184486790|SUPERIORITY||Odds Ratio (OR)|5.378|||<|0.001|TWO_SIDED|95.0|2.278|12.689|||Mixed Models Analysis|||Analysis tested for significant main effects of treatment condition on 7-day point prevalence abstinence at 12- and 24-week assessments||12.689|2.278|<0.001
92291458|NCT05740098|184486790|SUPERIORITY||Odds Ratio (OR)|3.668||||0.003|TWO_SIDED|95.0|1.538|8.747|||Mixed Models Analysis|||Analysis tested for significant main effects of treatment condition on 7-day point prevalence abstinence at 12- and 24-week assessments||8.747|1.538|0.003
92291459|NCT05740098|184486790|SUPERIORITY||Odds Ratio (OR)|0.682||||0.256|TWO_SIDED|95.0|0.352|1.321|||Mixed Models Analysis|||Analysis tested for significant main effects of treatment condition on 7-day point prevalence abstinence at 12- and 24-week assessments||1.321|0.352|0.256
92291460|NCT05740098|184486790|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Analysis tested for significant main effect of time on 7-day point prevalence abstinence at 12- and 24-week assessments||||<0.001
92291461|NCT05740098|184486791|SUPERIORITY||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.365||0.287|TWO_SIDED||||||Mixed Models Analysis|||Analysis tested for significant main effect of treatment condition on Child Urine Cotinine||||0.287
92291462|NCT05740098|184486791|SUPERIORITY||Mean Difference (Final Values)|-0.597|STANDARD_ERROR_OF_MEAN|0.369||0.108|TWO_SIDED||||||Mixed Models Analysis|||Analysis tested for significant main effect of treatment condition on Child Urine Cotinine||||0.108
92291463|NCT05740098|184486791|SUPERIORITY||Mean Difference (Final Values)|-0.987|STANDARD_ERROR_OF_MEAN|0.361||0.007|TWO_SIDED||||||Mixed Models Analysis|||Analysis tested for significant main effect of treatment condition on Child Urine Cotinine||||0.007
92291464|NCT05740098|184486791|SUPERIORITY|||||||0.878|||||||Mixed Models Analysis|||Analysis tested for significant main effect of time on Child Urine Cotinine||||0.878
92291465|NCT05740098|184486792|SUPERIORITY||Chi-Square Test Statistic|6.909||||0.009|TWO_SIDED||||||Chi-squared|Degrees of freedom = 1||Analysis tested for significant main effect of treatment condition on continuous abstinence at 24 weeks following quit date||||0.009
92291466|NCT05740098|184486792|SUPERIORITY||Chi-Square Test Statistic|4.287||||0.038|TWO_SIDED||||||Chi-squared|Degrees of freedom = 1||Analysis tested for significant main effect of treatment condition on continuous abstinence at 24 weeks following quit date||||0.038
92291467|NCT05740098|184486792|SUPERIORITY||Chi-Square Test Statistic|0.392||||0.531|TWO_SIDED||||||Chi-squared|Degrees of freedom = 1||Analysis tested for significant main effect of treatment condition on continuous abstinence at 24 weeks following quit date||||0.531
92291468|NCT05740098|184486793|SUPERIORITY||Chi-Square Test Statistic|3.859||||0.145|TWO_SIDED||||||Chi-squared|Degrees of freedom = 2||Analysis tested for significant main effect of treatment condition on 7-day point prevalence abstinence at 48-week follow-up||||0.145
92184386|NCT00264576|184267332|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|1.14|||||TWO_SIDED|95.0|0.95|1.36|||ANOVA|||"The following hypotheses were tested for B strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.36|0.95|
92184387|NCT00264576|184267332|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination geometric mean titers (GMTs) had to be \>0.5.|Ratio of GMT|0.92|||||TWO_SIDED|95.0|0.76|1.12|||ANOVA|||"The following hypotheses were tested for A/H1N1 strain as measured by HI cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.12|0.76|
92291469|NCT05740098|184486794|SUPERIORITY||Wald Chi-Square Test Statistic|1.454||||0.228|TWO_SIDED||||||Regression, Logistic|||Analysis tested for significant main effect of baseline temporal discounting on point-prevalence abstinence at 6-weeks following quit date adjusting for treatment condition.||||0.228
92291470|NCT05740098|184486794|SUPERIORITY||Wald Chi-Square Test Statistic|2.7||||0.1|TWO_SIDED||||||Regression, Logistic|||Analysis tested for significant main effect of baseline temporal discounting on point-prevalence abstinence at 12-weeks following quit date adjusting for treatment condition.||||0.10
92291471|NCT05740098|184486794|SUPERIORITY||Wald Chi-Square Test Statistic|3.202||||0.074|TWO_SIDED||||||Regression, Logistic|||Analysis tested for significant main effect of baseline temporal discounting on point-prevalence abstinence at 24-weeks following quit date adjusting for treatment condition.||||0.074
92291472|NCT05740098|184486794|SUPERIORITY||Wald Chi-Square Test Statistic|0.491||||0.484|TWO_SIDED||||||Regression, Logistic|||Analysis tested for significant main effect of baseline temporal discounting on point-prevalence abstinence at 48-weeks following quit date adjusting for treatment condition.||||0.484
92291473|NCT05740098|184486795|SUPERIORITY||Wald Chi-Square Test Statistic|1.063||||0.302|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Amplitude) and abstinence at 6-weeks following quit date||||0.302
92291474|NCT05740098|184486795|SUPERIORITY||Wald Chi-Square Test Statistic|0.788||||0.375|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Amplitude) and abstinence at 12-weeks following quit date||||0.375
92291475|NCT05740098|184486795|SUPERIORITY||Wald Chi-Square Test Statistic|0.08||||0.777|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Amplitude) and abstinence at 24-weeks following quit date||||0.777
92291476|NCT05740098|184486795|SUPERIORITY||Wald Chi-Square Test Statistic|0.006||||0.937|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Amplitude) and abstinence at 48-weeks following quit date||||0.937
92291477|NCT05740098|184486795|SUPERIORITY||Wald Chi-Square Test Statistic|0.172||||0.678|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Persistence) and abstinence at 6-weeks following quit date||||0.678
92291478|NCT05740098|184486795|SUPERIORITY||Wald Chi-Square Test Statistic|7.99||||0.018|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant interaction between baseline price sensitivity (latent factor Persistence) and treatment condition for 6-week abstinence outcome||||0.018
92291479|NCT05740098|184486795|SUPERIORITY||Wald Chi-Square Test Statistic|0.177||||0.674|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Persistence) and abstinence at 12-weeks following quit date||||0.674
92291480|NCT05740098|184486795|SUPERIORITY||Wald Chi-Square Test Statistic|0.646||||0.422|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Persistence) and abstinence at 24-weeks following quit date||||0.422
92291481|NCT05740098|184486795|SUPERIORITY||Wald Chi-Square Test Statistic|0.038||||0.846|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Persistence) and abstinence at 48-weeks following quit date||||0.846
92291482|NCT01073631|184486800|SUPERIORITY_OR_OTHER||Efficacy rate (percent)|78.9|||||TWO_SIDED|95.0|75.07|82.73|||Normal approximation to binomial||Confidence Interval (CI) by normal approximation to binomial.|Efficacy Rate (treatment effective) = Percentage of evaluable participants with clinical response of cure or improvement||82.73|75.07|
92291483|NCT03067987|184486802|SUPERIORITY||||||<|0.007|||||||ANOVA|||||||<0.007
92291484|NCT03067987|184486803|SUPERIORITY|||||||0.0006|||||||ANOVA|||||||0.0006
92291485|NCT00829764|184486821|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|93.52||||||90.0|88.49|98.83|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||98.83|88.49|
92291486|NCT00829764|184486822|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.75||||||90.0|93.98|101.67|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101.67|93.98|
92291487|NCT00829764|184486823|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.46||||||90.0|94.78|102.28|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102.28|94.78|
92291488|NCT00183196|184486850|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.529|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|0.281|0.997|||Regression, Cox|||||.997|.281|
92291489|NCT00183196|184486850|SUPERIORITY|||||||0.04|||||||Regression, Cox|percent heavy drinking days at baseline was used as a covariate in the analysis as it was a predictor of overall survival independent of group.||||||0.04
92144371|NCT01569438|184172930|OTHER||Mean Difference|-1.0||||0.2726|TWO_SIDED|90.0|-3.9|1.8||one-sided|Mixed Model With Repeated Measures|||MMRM approach was used to model the change from baseline as a function of treatment, week, treatment by week interaction, baseline score, and baseline score by week interaction.||1.8|-3.9|0.2726
92291490|NCT00385736|184486851|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||The primary endpoint analysis was carried out in hierarchical order (as presented) to handle the multiplicity issues induced by the two adalimumab groups being compared to placebo and to control the overall alpha level of 0.05.|Chi-squared|||||||0.031
92291491|NCT00385736|184486851|SUPERIORITY_OR_OTHER|||||||0.833||95.0||||The primary endpoint analysis was carried out in hierarchical order (as presented) to handle the multiplicity issues induced by the two adalimumab groups being compared to placebo and to control the overall alpha level of 0.05.|Chi-squared|||||||0.833
92291492|NCT00385736|184486852|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.107
92291493|NCT00385736|184486853|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.382
92291494|NCT00385736|184486854|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.038
92291495|NCT00385736|184486855|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.035
92291496|NCT00385736|184486856|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.080
92291497|NCT00385736|184486857|SUPERIORITY_OR_OTHER|||||||0.264||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.264
92291498|NCT00385736|184486858|SUPERIORITY_OR_OTHER|||||||0.526||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.526
92291499|NCT00385736|184486859|SUPERIORITY_OR_OTHER|||||||0.506||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.506
92144372|NCT01569438|184172931|OTHER||Mean Difference|-0.3||||0.3603|TWO_SIDED|90.0|-1.7|1.1||one-sided|ANCOVA|||The one-way ANCOVA model was used to calculate change from baseline as a function of treatment and baseline score.||1.1|-1.7|0.3603
92144373|NCT01569438|184172932|OTHER||Mean Difference|-1.5||||0.1183|TWO_SIDED|90.0|-3.5|0.6||one-sided|ANCOVA|||The one-way ANCOVA model was used to calculate change from baseline as a function of treatment and baseline score.||0.6|-3.5|0.1183
92291500|NCT00385736|184486860|SUPERIORITY_OR_OTHER|||||||0.264||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.264
92291501|NCT00385736|184486861|SUPERIORITY_OR_OTHER|||||||0.797||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.797
92291502|NCT00385736|184486862|SUPERIORITY_OR_OTHER|||||||0.614||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.614
92291503|NCT00385736|184486863|SUPERIORITY_OR_OTHER|||||||0.532||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.532
92291504|NCT02906917|184486891|NON_INFERIORITY|Non-inferiority of IDegAsp OD versus IGlar OD + IAsp OD was considered confirmed if the 95% confidence interval for the mean treatment difference was entirely below 0.40%.|Treatment contrast|0.07|||<|0.0001|TWO_SIDED|95.0|-0.06|0.21||One-sided p-value for test of non-inferiority.|ANCOVA|Treatment, region, sex, previous insulin treatment and previous OAD treatment as categorical fixed effects and baseline response and age as covariate.||The response and change from baseline in response are analysed on 1000 complete, imputed data sets after multiple imputation for each treatment arm separately. A penalty of 0.4% is added to the week 26 values for all premature treatment discontinued subjects, and subject with missing HbA1c values at week 26 in the IDegAsp arm. Each of the imputed data sets are analysed through an analysis of covariance (ANCOVA).||0.21|-0.06|<0.0001
92291505|NCT00687739|184486903|SUPERIORITY|The primary analysis compared the GnRHAG + E2 and GnRHAG + PL groups, pooled across exercise status. It was acknowledged that the inclusion of exercisers could minimize the effects of GnRHAG but would be reflective of the effects of ovarian hormone suppression on sedentary and active women. Differences in changes across time between groups were tested using an analysis of covariance model conditioned on baseline.|||||<|0.05||||||The p value was calculated|ANCOVA|||The primary analysis was the effect of PL vs E2 collapsed across exercise (2-group comparison). The analysis of effects of exercise was exploratory (evaluated within-group changes only).||||<0.05
92291506|NCT00687739|184486904|SUPERIORITY||||||<|0.05||||||The p value was calculated|ANCOVA|||The primary analysis was the comparison of within-group changes in the E2 and placebo groups for cortisol AUC in response to Dex/CRH and between-group differences in the changes. Within-group changes and between-group differences in changes were evaluated by linear contrast using an ANCOVA model with adjustment for pre-intervention values of outcomes.||||<0.05
92291507|NCT00687739|184486905|SUPERIORITY||||||<|0.05||||||The p value was calculated|ANCOVA|||The primary analysis compared the GnRHag+E2 and GnRHag+PL groups, pooled across exercise status. Differences in change over time between groups were tested by using an ANCOVA model, first with treatment group alone, and again adding FM and FFM to the model.||||<0.05
92291508|NCT02542462|184486908|SUPERIORITY|||||||0.2||||||P value for the number of subjects with an increase of 1 mm or more of terminal ileum from pre to post was 0.2|Fisher Exact|||The test is to see a difference among the four groups and the pre to post change of the primary outcomes||||0.2
92291509|NCT02542462|184486908|SUPERIORITY|||||||0.3||||||P value for change in the number of subjects with an increase in number of lymph nodes from pre to post was 0.3.|Fisher Exact|||The test is to see a difference among the four groups and the pre to post change of the primary outcomes||||0.3
92291510|NCT06078501|184486912|OTHER|||||||0.695||||||The a priori threshold for statistical significance was \<0.05.|Mann-Whitney U test|||||||0.695
92291511|NCT06078501|184486913|OTHER|||||||0.91|||||||Mann-Whitney U test|The a priori threshold for statistical significance was \<0.05.||||||0.91
92291512|NCT06078501|184486914|OTHER|||||||1||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||1.0
92291513|NCT06078501|184486915|OTHER|||||||1||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||1.0
92291514|NCT06078501|184486916|OTHER|||||||0.887||||||The a priori threshold for statistical significance was \<0.05.|Mann-Whitney U test|||||||0.887
92291515|NCT06078501|184486917|OTHER|||||||0.887||||||The a priori threshold for statistical significance was \<0.05.|Mann-Whitney U test|||||||0.887
92291516|NCT06078501|184486919|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92291517|NCT06078501|184486920|OTHER|||||||1||||||The a priori threshold for statistical significance was \<0.05.|Mann-Whitney U test|||||||1.0
92291518|NCT06078501|184486921|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92291519|NCT02554877|184486930|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.91|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.34|-0.48||Two (2)-sided p-values were from mixed model for repeated measurements (MMRM) with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12||-0.48|-1.34|<0.0001
92291520|NCT02554877|184486930|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.16|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.59|-0.73||Two (2)-sided p-values were from mixed model for repeated measurements (MMRM) with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12||-0.73|-1.59|<0.0001
92291521|NCT02554877|184486930|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.17|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.6|-0.74||Two (2)-sided p-values were from mixed model for repeated measurements (MMRM) with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||-0.74|-1.60|<0.0001
92291522|NCT02554877|184486931|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.39|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.52|-0.26||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects|ANCOVA|Least squares mean (LS mean) difference from placebo adjusted for baseline values was derived from the ANCOVA model||Placebo was the reference and each of the active doses was the test for Week 2.||-0.26|-0.52|<0.0001
92291523|NCT02554877|184486931|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.39|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.52|-0.26||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 2.||-0.26|-0.52|<0.0001
92291524|NCT02554877|184486931|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.44|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.57|-0.3||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 2.||-0.30|-0.57|<0.0001
92291525|NCT02554877|184486931|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.59|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.76|-0.42||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 4.||-0.42|-0.76|<0.0001
92291526|NCT02554877|184486931|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.63|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.8|-0.46||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 4.||-0.46|-0.80|<0.0001
92291527|NCT02554877|184486931|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.62|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.79|-0.46||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 4.||-0.46|-0.79|<0.0001
92291528|NCT02554877|184486931|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.71|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.93|-0.49||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model||Placebo was the reference and each of the active doses was the test for Week 8.||-0.49|-0.93|<0.0001
92291529|NCT02554877|184486931|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.96|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.17|-0.74||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects..|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 8.||-0.74|-1.17|<0.0001
92291530|NCT02554877|184486931|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.98|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.2|-0.76||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 8.||-0.76|-1.20|<0.0001
92291531|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-37.83|STANDARD_ERROR_OF_MEAN|5.13|<|0.0001|TWO_SIDED|95.0|-47.96|-27.7||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||-27.70|-47.96|<0.0001
92144374|NCT00452387|184172937|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Fisher Exact|||The test of association of PSA and imaging response tests the null hypothesis that the proportion of cases exhibiting PSA response is the same for patients with and without a favorable imaging response. A 2x2 table was constructed based on the number of the patients in imaging response (favorable and unfavorable) and PSA response (\>50% reduction and \<=50% reduction). The Fisher's exact test was used to test this hypothesis.||||0.55
92144375|NCT00579280|184172940|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
92291532|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-44.85|STANDARD_ERROR_OF_MEAN|5.13|<|0.0001|TWO_SIDED|95.0|-54.98|-34.72||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||-34.72|-54.98|<0.0001
92291533|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-48.59|STANDARD_ERROR_OF_MEAN|5.18|<|0.0001|TWO_SIDED|95.0|-58.81|-38.37||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||-38.37|-58.81|<0.0001
92291534|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-30.63|STANDARD_ERROR_OF_MEAN|6.03|<|0.0001|TWO_SIDED|95.0|-42.52|-18.74||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||-18.74|-42.52|<0.0001
92144376|NCT00579280|184172941|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92144377|NCT00579280|184172942|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92144378|NCT00579280|184172943|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<.05
92144379|NCT00579280|184172944|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92144380|NCT00579280|184172945|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92144381|NCT00579280|184172946|SUPERIORITY||||||<|0.05|||||||Chi-squared|Differences in response (70% or greater improvement) and remission (50% or greater improvement) rates between the groups.||||||<0.05
92144382|NCT00579280|184172947|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92144383|NCT00579280|184172948|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92144384|NCT00579280|184172949|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92144385|NCT00579280|184172950|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92144386|NCT01693068|184172951|OTHER|A log-rank test stratified by baseline Eastern Cooperative Oncology Group performance status (ECOG PS) (using the interactive voice response system \[IVRS\] value) will tested the null hypothesis of no difference between the Pimasertib (first line) and the Dacarbazine treatment groups at the 5% level.|Hazard Ratio (HR)|0.59||||0.0022|TWO_SIDED|95.0|0.42|0.83|||Stratified Log Rank Test||The Hazard Ratio is obtained from the Cox Proportional Hazards model based on dacarbazine and pimasertib only stratified by baseline ECOG Performance Status.|||0.83|0.42|0.0022
92144387|NCT00617344|184172979|OTHER|The associated 95% confidence intervals (CIs) for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-2.0|||||TWO_SIDED|95.0|-7.44|2.84||||||Dengue Virus Serotype 1: Pre-injection 1 (Day 0)||2.84|-7.44|
92184388|NCT00264576|184267332|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination geometric mean titers (GMTs) had to be \>0.5.|Ratio of GMT|0.61|||||TWO_SIDED|95.0|0.5|0.75|||ANOVA|||"The following hypotheses were tested for A/H3N2 strain as measured by HI cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||0.75|0.50|
92144388|NCT00617344|184172979|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-15.5|||||TWO_SIDED|95.0|-28.4|-2.0||||||Dengue Virus Serotype 1: 30 days post-injection 2||-2.00|-28.4|
92144389|NCT00617344|184172979|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-2.0|||||TWO_SIDED|95.0|-7.44|2.84||||||Dengue Virus Serotype 2: Pre-injection 1 (Day 0)||2.84|-7.44|
92266590|NCT00412360|184434525|SUPERIORITY|||||||0.02||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of Grade III-IV acute GVHD between participants receiving single- and double-unit cord blood transplant.||||0.02
92266591|NCT00412360|184434526|SUPERIORITY|||||||0.51||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of chronic GVHD between participants receiving single- and double-unit cord blood transplant.||||0.51
92266592|NCT00412360|184434526|SUPERIORITY|||||||0.05||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of extensive chronic GVHD between participants receiving single- and double-unit cord blood transplant.||||0.05
92266593|NCT00412360|184434528|SUPERIORITY|||||||0.12||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of relapse between participants receiving single- and double-unit cord blood transplant.||||0.12
92266594|NCT00412360|184434529|SUPERIORITY|||||||0.43||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of treatment-related mortality between participants receiving single- and double-unit cord blood transplant.||||0.43
92266595|NCT01790633|184434532|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value adjustments for multiple comparisons were not necessary. Significance was determined using P \< 0.05|Chi-squared|||We approached our analysis as a pilot study with the aim of addressing feasibility. 70% of patients seen at the MDM clinic obtain a test result with standard serology. Assuming a 20% increase in infection awareness and type 1 error of 0.05, and power of at least 0.9, a minimum of 82 participants per group would be needed.||||<0.001
92266596|NCT01790633|184434533|SUPERIORITY_OR_OTHER|||||||0.7||||||P-value adjustments for multiple comparisons were not necessary. Significance was determined using P \< 0.05|Chi-squared|||||||0.7
92266597|NCT05436067|184434539|OTHER||||||<|0.001||||||Difference in head angle pitch - left between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||<0.001
92266598|NCT05436067|184434539|OTHER||||||<|0.001||||||Difference in head angle pitch - right between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||<0.001
92266599|NCT05436067|184434539|OTHER|||||||0.042||||||Difference in head angle yaw - extension between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||0.042
92266600|NCT05436067|184434539|OTHER|||||||0.111||||||Difference in head angle yaw - flexion between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||0.111
92266601|NCT05436067|184434540|OTHER|||||||0.023||||||Difference in pitch range of motion between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||0.023
92266602|NCT05436067|184434540|OTHER||||||<|0.001|||||||paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||<0.001
92266603|NCT05436067|184434541|OTHER|||||||0.057||||||Difference in pitch velocity between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||0.057
92266604|NCT05436067|184434541|OTHER|||||||0.003||||||Difference in yaw velocity between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||0.003
92266605|NCT05436067|184434542|OTHER|||||||0.035||||||Weight shift exercise - mediolateral range of motion|paired t-test|||||||0.035
92266606|NCT05436067|184434542|OTHER|||||||0.006||||||Weight shift balance exercise anteroposterior range of motion|paired t-test|||||||0.006
92266607|NCT05436067|184434542|OTHER|||||||0.024||||||Single leg balance range of motion|paired t-test|||||||0.024
92266608|NCT05436067|184434542|OTHER|||||||0.257||||||Single leg balance fluency|Shapiro Wilcoxon test|Data was not normally distributed.||||||0.257
92266609|NCT05689554|184434550|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.11|TWO_SIDED|95.0|0.944|1.306|||Log Rank|||||1.306|.944|0.11
92266610|NCT05689554|184434551|SUPERIORITY||Risk Ratio (RR)|1.24||||0.183|TWO_SIDED|95.0|0.9|1.7|||Regression, modified Poisson|||||1.7|.9|0.183
92266611|NCT00157157|184434563|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.95||||||95.0|1.29|19.06||||||||19.06|1.29|
92266612|NCT00157157|184434564|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.18||||||95.0|1.18|14.82||||||||14.82|1.18|
92266613|NCT00157157|184434565|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.5||||||95.0|1.05|19.25||||||||19.25|1.05|
92266614|NCT01678794|184434566|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||||||0.26
92266615|NCT01678794|184434567|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
92291535|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-39.24|STANDARD_ERROR_OF_MEAN|6.03|<|0.0001|TWO_SIDED|95.0|-51.13|-27.35||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||-27.35|-51.13|<0.0001
92291536|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-38.3|STANDARD_ERROR_OF_MEAN|6.04|<|0.0001|TWO_SIDED|95.0|-50.22|-26.38||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||-26.38|-50.22|<0.0001
92291537|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-19.47|STANDARD_ERROR_OF_MEAN|6.29||0.0023|TWO_SIDED|95.0|-31.88|-7.05||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||-7.05|-31.88|0.0023
92291538|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-36.98|STANDARD_ERROR_OF_MEAN|6.23|<|0.0001|TWO_SIDED|95.0|-49.27|-24.69||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||-24.69|-49.27|<0.0001
92291539|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-35.14|STANDARD_ERROR_OF_MEAN|6.29|<|0.0001|TWO_SIDED|95.0|-47.55|-22.72||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||-22.72|-47.55|<0.0001
92291540|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-19.77|STANDARD_ERROR_OF_MEAN|6.1||0.0014|TWO_SIDED|95.0|-31.81|-7.73||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||-7.73|-31.81|0.0014
92291541|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-35.26|STANDARD_ERROR_OF_MEAN|6.03|<|0.0001|TWO_SIDED|95.0|-47.17|-23.35||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12||-23.35|-47.17|<0.0001
92291542|NCT02554877|184486932|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-36.44|STANDARD_ERROR_OF_MEAN|6.07|<|0.0001|TWO_SIDED|95.0|-48.43|-24.46||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12||-24.46|-48.43|<0.0001
92291543|NCT02554877|184486933|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.057||||0.0059|TWO_SIDED|95.0|1.68|21.82||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<7%)||21.82|1.68|0.0059
92144390|NCT00617344|184172979|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-3.1|||||TWO_SIDED|95.0|-15.0|8.75||||||Dengue Virus Serotype 2: 30 days post-injection 2||8.75|-15.0|
92144391|NCT00617344|184172979|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|1.0|||||TWO_SIDED|95.0|-9.09|11.1||||||Dengue Virus Serotype 3: Pre-injection 1 (Day 0)||11.1|-9.09|
92291544|NCT02554877|184486933|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.927||||0.0008|TWO_SIDED|95.0|2.49|31.96||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<7%)||31.96|2.49|0.0008
92291545|NCT02554877|184486933|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|15.116|||<|0.0001|TWO_SIDED|95.0|4.34|52.67||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<7%)||52.67|4.34|<0.0001
92291546|NCT02554877|184486933|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.34||||0.1532|TWO_SIDED|95.0|0.64|17.47||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<6.5%)||17.47|0.64|0.1532
92291547|NCT02554877|184486933|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|4.198||||0.0826|TWO_SIDED|95.0|0.83|21.22||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<6.5%)||21.22|0.83|0.0826
92291548|NCT02554877|184486933|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.588||||0.0272|TWO_SIDED|95.0|1.21|25.73||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<6.5%)||25.73|1.21|0.0272
92291549|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.03|STANDARD_ERROR_OF_MEAN|3.4||0.7618|TWO_SIDED|90.0|-6.66|4.59||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||4.59|-6.66|0.7618
92144392|NCT00617344|184172979|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-5.7|||||TWO_SIDED|95.0|-15.6|3.81||||||Dengue Virus Serotype 3: 30 days post-injection 2||3.81|-15.6|
92291550|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.65|STANDARD_ERROR_OF_MEAN|3.39||0.8489|TWO_SIDED|90.0|-6.25|4.96||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||4.96|-6.25|0.8489
92291551|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|2.47|STANDARD_ERROR_OF_MEAN|3.42||0.4699|TWO_SIDED|90.0|-3.17|8.12||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||8.12|-3.17|0.4699
92291552|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-2.22|STANDARD_ERROR_OF_MEAN|3.27||0.4979|TWO_SIDED|90.0|-7.63|3.19||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||3.19|-7.63|0.4979
92291553|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-3.45|STANDARD_ERROR_OF_MEAN|3.27||0.2927|TWO_SIDED|90.0|-8.85|1.95||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||1.95|-8.85|0.2927
92291554|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-4.83|STANDARD_ERROR_OF_MEAN|3.28||0.143|TWO_SIDED|90.0|-10.26|0.6||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||0.60|-10.26|0.1430
92291555|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.25|STANDARD_ERROR_OF_MEAN|3.73||0.7373|TWO_SIDED|90.0|-7.42|4.92||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||4.92|-7.42|0.7373
92291556|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-2.46|STANDARD_ERROR_OF_MEAN|3.7||0.5075|TWO_SIDED|90.0|-8.57|3.66||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||3.66|-8.57|0.5075
92291557|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.81|STANDARD_ERROR_OF_MEAN|3.74||0.6295|TWO_SIDED|90.0|-7.99|4.37||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||4.37|-7.99|0.6295
92291558|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.15|STANDARD_ERROR_OF_MEAN|3.95||0.4266|TWO_SIDED|90.0|-3.39|9.69||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||9.69|-3.39|0.4266
92291559|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|4.96|STANDARD_ERROR_OF_MEAN|3.89||0.2038|TWO_SIDED|90.0|-1.47|11.4||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||11.40|-1.47|0.2038
92144393|NCT00617344|184172979|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-4.0|||||TWO_SIDED|95.0|-10.9|2.49||||||Dengue Virus Serotype 4: Pre-injection 1 (Day 0)||2.49|-10.9|
92291560|NCT02554877|184486938|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|2.29|STANDARD_ERROR_OF_MEAN|3.92||0.5592|TWO_SIDED|90.0|-4.19|8.78||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||8.78|-4.19|0.5592
92291561|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|5.09|||||TWO_SIDED|90.0|-5.86|16.05||||||Placebo was the reference and each of the active doses was the test for Week 2.||16.05|-5.86|
92291562|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.86|||||TWO_SIDED|90.0|-9.76|15.48||||||Placebo was the reference and each of the active doses was the test for Week 2.||15.48|-9.76|
92291563|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.13|||||TWO_SIDED|90.0|3.91|30.34||||||Placebo was the reference and each of the active doses was the test for Week 2.||30.34|3.91|
92291564|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.71|||||TWO_SIDED|90.0|-10.8|16.22||||||Placebo was the reference and each of the active doses was the test for Week 4.||16.22|-10.80|
92144394|NCT00617344|184172979|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|31.4|||||TWO_SIDED|95.0|18.2|43.2||||||Dengue Virus Serotype 4: 30 days post-injection 2||43.2|18.2|
92144395|NCT01077830|184173008|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.84|2.09|||Regression, Cox||Hazard Ratio obtained by dividing the crude rate of death (any cause) reported in the Ezetimibe/Simvastatin 10/40 arm by the crude rate of death (any cause) in the Placebo arm|||2.09|0.84|
92291565|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.92|||||TWO_SIDED|90.0|-10.61|16.45||||||Placebo was the reference and each of the active doses was the test for Week 4.||16.45|-10.61|
92291566|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.57|||||TWO_SIDED|90.0|-15.08|9.94||||||Placebo was the reference and each of the active doses was the test for Week 4.||9.94|-15.08|
92144396|NCT01077830|184173009|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|0.3|6.06|||||Hazard Ratio obtained by dividing the crude rate of death from cancer reported in the Ezetimibe/Simvastatin 10/40 arm by the crude rate of death from cancer in the Placebo arm|||6.06|0.30|
92291567|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.63|||||TWO_SIDED|90.0|-16.29|13.03||||||Placebo was the reference and each of the active doses was the test for Week 8.||13.03|-16.29|
92291568|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.59|||||TWO_SIDED|90.0|-20.4|11.22||||||Placebo was the reference and each of the active doses was the test for Week 8.||11.22|-20.40|
92291569|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.75|||||TWO_SIDED|90.0|-13.66|19.16||||||Placebo was the reference and each of the active doses was the test for Week 8.||19.16|-13.66|
92291570|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|7.86|||||TWO_SIDED|90.0|-3.3|19.02||||||Placebo was the reference and each of the active doses was the test for Week 12.||19.02|-3.30|
92291571|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.13|||||TWO_SIDED|90.0|-16.13|13.87||||||Placebo was the reference and each of the active doses was the test for Week 12.||13.87|-16.13|
92291572|NCT02554877|184486939|SUPERIORITY_OR_OTHER||Median Difference (Net)|5.99|||||TWO_SIDED|90.0|-7.07|19.04||||||Placebo was the reference and each of the active doses was the test for Week 12.||19.04|-7.07|
92291573|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.04|STANDARD_ERROR_OF_MEAN|2.52||0.68|TWO_SIDED|90.0|-3.12|5.2||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||5.20|-3.12|0.6800
92291574|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.64|STANDARD_ERROR_OF_MEAN|2.52||0.515|TWO_SIDED|90.0|-2.52|5.8||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||5.80|-2.52|0.5150
92291575|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|4.66|STANDARD_ERROR_OF_MEAN|2.53||0.0676|TWO_SIDED|90.0|0.47|8.85||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||8.85|0.47|0.0676
92291576|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.62|STANDARD_ERROR_OF_MEAN|2.48||0.8021|TWO_SIDED|90.0|-4.73|3.48||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||3.48|-4.73|0.8021
92291577|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.95|STANDARD_ERROR_OF_MEAN|2.49||0.4346|TWO_SIDED|90.0|-6.06|2.16||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||2.16|-6.06|0.4346
92291578|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-2.03|STANDARD_ERROR_OF_MEAN|2.49||0.4173|TWO_SIDED|90.0|-6.15|2.09||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||2.09|-6.15|0.4173
92291579|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.98|STANDARD_ERROR_OF_MEAN|2.56||0.7036|TWO_SIDED|90.0|-5.21|3.26||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||3.26|-5.21|0.7036
92291580|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-2.64|STANDARD_ERROR_OF_MEAN|2.54||0.2993|TWO_SIDED|90.0|-6.84|1.56||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||1.56|-6.84|0.2993
92291581|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.08|STANDARD_ERROR_OF_MEAN|2.57||0.9751|TWO_SIDED|90.0|-4.16|4.32||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||4.32|-4.16|0.9751
92291582|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|4.23|STANDARD_ERROR_OF_MEAN|2.86||0.1408|TWO_SIDED|90.0|-0.5|8.96||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||8.96|-0.50|0.1408
92291583|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|4.7|STANDARD_ERROR_OF_MEAN|2.83||0.0986|TWO_SIDED|90.0|0.02|9.38||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||9.38|0.02|0.0986
92291584|NCT02554877|184486940|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.79|STANDARD_ERROR_OF_MEAN|2.85||0.1851|TWO_SIDED|90.0|-0.92|8.5||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||8.50|-0.92|0.1851
92291585|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.39|STANDARD_ERROR_OF_MEAN|2.17||0.8559|TWO_SIDED|90.0|-3.19|3.98||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||3.98|-3.19|0.8559
92291586|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|2.97|STANDARD_ERROR_OF_MEAN|2.17||0.1729|TWO_SIDED|90.0|-0.62|6.55||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||6.55|-0.62|0.1729
92291587|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|8.45|STANDARD_ERROR_OF_MEAN|2.18||0.0002|TWO_SIDED|90.0|4.84|12.06||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||12.06|4.84|0.0002
92291588|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.37|STANDARD_ERROR_OF_MEAN|2.55||0.8837|TWO_SIDED|90.0|-3.85|4.59||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||4.59|-3.85|0.8837
92291589|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.62|STANDARD_ERROR_OF_MEAN|2.55||0.1573|TWO_SIDED|90.0|-0.6|7.84||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||7.84|-0.60|0.1573
92291590|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|7.88|STANDARD_ERROR_OF_MEAN|2.56||0.0024|TWO_SIDED|90.0|3.65|12.11||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||12.11|3.65|0.0024
92291591|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.59|STANDARD_ERROR_OF_MEAN|2.51||0.1538|TWO_SIDED|90.0|-0.55|7.73||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||7.73|-0.55|0.1538
92291592|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|4.39|STANDARD_ERROR_OF_MEAN|2.48||0.0789|TWO_SIDED|90.0|0.28|8.49||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||8.49|0.28|0.0789
92291593|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|10.14|STANDARD_ERROR_OF_MEAN|2.51|<|0.0001|TWO_SIDED|90.0|5.98|14.3||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||14.30|5.98|<0.0001
92291594|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|6.96|STANDARD_ERROR_OF_MEAN|2.78||0.0132|TWO_SIDED|90.0|2.36|11.56||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||11.56|2.36|0.0132
92144397|NCT01077830|184173010|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.27|1.11|||||Hazard Ratio obtained by dividing the crude rate of new cancers reported in the Ezetimibe/Simvastatin 10/40 arm by the crude rate of newly diagnosed cancers in the the Placebo arm|||1.11|0.27|
92291595|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|7.41|STANDARD_ERROR_OF_MEAN|2.75||0.0079|TWO_SIDED|90.0|2.85|11.96||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||11.96|2.85|0.0079
92291596|NCT02554877|184486941|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|10.83|STANDARD_ERROR_OF_MEAN|2.77||0.0001|TWO_SIDED|90.0|6.24|15.42||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||15.42|6.24|0.0001
92291597|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.46|STANDARD_ERROR_OF_MEAN|3.31||0.6597|TWO_SIDED|90.0|-4.01|6.92||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||6.92|-4.01|0.6597
92291598|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.02|STANDARD_ERROR_OF_MEAN|3.31||0.7583|TWO_SIDED|90.0|-4.45|6.49||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||6.49|-4.45|0.7583
92291599|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.11|STANDARD_ERROR_OF_MEAN|3.33||0.3516|TWO_SIDED|90.0|-2.39|8.61||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||8.61|-2.39|0.3516
92184389|NCT00264576|184267332|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination geometric mean titers (GMTs) had to be \>0.5.|Ratio of GMT|1.31|||||TWO_SIDED|95.0|1.09|1.57|||ANOVA|||"The following hypotheses were tested for B strain as measured by cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.57|1.09|
92144398|NCT01194570|184173013|SUPERIORITY_OR_OTHER_LEGACY||Relative Reduction (%)|29.337||||0.0404|TWO_SIDED|95.0|-1.618|51.456||P-value from a ranked ANCOVA on Percent Change from BL adjusting for rank of BL 25-Foot Timed Walk (25-FTW), Geographical Region (US vs ROW) and Age (\<=45, \> 45 years); missing observations imputed with LOCF.|Ranked ANCOVA||Relative reduction was calculated as -Relative change = - (Ocrelizumab response-Placebo response)/Placebo response\*100%. The 95% CI for relative reduction was obtained using the Bootstrap method.|Estimates (back-transformed) based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix: log(Post-baseline(BL)/BL) = log(BL 25-FTW) + Geographical Region (US vs. ROW) + Age (\<=45, \> 45 years) + Week + Treatment + Treatment\*Week (repeated values over Week) + log (BL 25-FTW)\*Week. Relative reduction was calculated as -Relative change = -(OCR response-Placebo response)/Placebo response\*100%. The 95% CI for relative reduction was obtained using the Bootstrap method.||51.456|-1.618|0.0404
92291600|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.83|STANDARD_ERROR_OF_MEAN|3.38||0.5877|TWO_SIDED|90.0|-7.42|3.75||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||3.75|-7.42|0.5877
92291601|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-4.33|STANDARD_ERROR_OF_MEAN|3.38||0.2016|TWO_SIDED|90.0|-9.92|1.26||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||1.26|-9.92|0.2016
92291602|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-6.49|STANDARD_ERROR_OF_MEAN|3.39||0.0568|TWO_SIDED|90.0|-12.08|-0.89||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||-0.89|-12.08|0.0568
92291603|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-2.94|STANDARD_ERROR_OF_MEAN|3.36||0.3827|TWO_SIDED|90.0|-8.48|2.61||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||2.61|-8.48|0.3827
92291604|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-5.31|STANDARD_ERROR_OF_MEAN|3.33||0.1126|TWO_SIDED|90.0|-10.81|0.2||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||0.20|-10.81|0.1126
92291605|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-4.17|STANDARD_ERROR_OF_MEAN|3.36||0.216|TWO_SIDED|90.0|-9.73|1.38||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||1.38|-9.73|0.2160
92291606|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.54|STANDARD_ERROR_OF_MEAN|3.74||0.3443|TWO_SIDED|90.0|-2.64|9.72||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||9.72|-2.64|0.3443
92291607|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.82|STANDARD_ERROR_OF_MEAN|3.7||0.3031|TWO_SIDED|90.0|-2.3|9.94||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||9.94|-2.30|0.3031
92291608|NCT02554877|184486942|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.88|STANDARD_ERROR_OF_MEAN|3.72||0.8129|TWO_SIDED|90.0|-5.27|7.04||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||7.04|-5.27|0.8129
92291609|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.34|STANDARD_ERROR_OF_MEAN|0.4||0.402|TWO_SIDED|90.0|-0.33|1.01||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||1.01|-0.33|0.4020
92291610|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.06|STANDARD_ERROR_OF_MEAN|0.4||0.8789|TWO_SIDED|90.0|-0.61|0.73||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||0.73|-0.61|0.8789
92291611|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.87|STANDARD_ERROR_OF_MEAN|0.41||0.0345|TWO_SIDED|90.0|0.19|1.54||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||1.54|0.19|0.0345
92291612|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.28|STANDARD_ERROR_OF_MEAN|0.48||0.0087|TWO_SIDED|90.0|0.48|2.08||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||2.08|0.48|0.0087
92291613|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.08|STANDARD_ERROR_OF_MEAN|0.48||0.0268|TWO_SIDED|90.0|0.28|1.88||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||1.88|0.28|0.0268
92291614|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.39|STANDARD_ERROR_OF_MEAN|0.49||0.0047|TWO_SIDED|90.0|0.58|2.19||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||2.19|0.58|0.0047
92291615|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.07|STANDARD_ERROR_OF_MEAN|0.42||0.0116|TWO_SIDED|90.0|0.38|1.76||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||1.76|0.38|0.0116
92291616|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.97|STANDARD_ERROR_OF_MEAN|0.42||0.022|TWO_SIDED|90.0|0.27|1.66||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||1.66|0.27|0.0220
92291617|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.31|STANDARD_ERROR_OF_MEAN|0.42||0.0021|TWO_SIDED|90.0|0.62|2.01||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||2.01|0.62|0.0021
92291618|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.41|STANDARD_ERROR_OF_MEAN|0.51||0.0067|TWO_SIDED|90.0|0.56|2.26||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||2.26|0.56|0.0067
92291619|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.18|STANDARD_ERROR_OF_MEAN|0.51||0.0225|TWO_SIDED|90.0|0.33|2.02||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||2.02|0.33|0.0225
92291620|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.4|STANDARD_ERROR_OF_MEAN|0.51||0.0073|TWO_SIDED|90.0|0.55|2.25||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||2.25|0.55|0.0073
92291621|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.3|STANDARD_ERROR_OF_MEAN|0.26||0.2391|TWO_SIDED|90.0|-0.12|0.73||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation. (Excluding outliers)||0.73|-0.12|0.2391
92291622|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.9912|TWO_SIDED|90.0|-0.42|0.43||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation. (Excluding outliers)||0.43|-0.42|0.9912
92291623|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.34|STANDARD_ERROR_OF_MEAN|0.26||0.193|TWO_SIDED|90.0|-0.09|0.77||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation. (Excluding outliers)||0.77|-0.09|0.1930
92291624|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.8|STANDARD_ERROR_OF_MEAN|0.27||0.0038|TWO_SIDED|90.0|0.35|1.25||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation. (Excluding outliers)||1.25|0.35|0.0038
92291625|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.57|STANDARD_ERROR_OF_MEAN|0.27||0.0394|TWO_SIDED|90.0|0.12|1.02||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.02|0.12|0.0394
92291626|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.48|STANDARD_ERROR_OF_MEAN|0.28||0.0862|TWO_SIDED|90.0|0.02|0.93||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||0.93|0.02|0.0862
92291627|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.05|STANDARD_ERROR_OF_MEAN|0.34||0.0024|TWO_SIDED|90.0|0.48|1.61||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.61|0.48|0.0024
92291628|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.92|STANDARD_ERROR_OF_MEAN|0.34||0.0068|TWO_SIDED|90.0|0.37|1.48||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.48|0.37|0.0068
92144399|NCT01194570|184173014|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Geometric Means|0.9|||<|0.0001|TWO_SIDED|95.0|0.876|0.924||P-value is from ranked ANCOVA on Percent Change from BL adjusting for rank of BL T2 lesion volume, Geographical Region (US vs ROW) and Age (\<=45, \> 45 years); missing observations imputed with LOCF.|Ranked ANCOVA|||Estimates (back-transformed) are based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix: log(Post-BL/BL) = log(BL T2 lesion volume) + Geographical Region (US vs. ROW) + Age (\<=45, \> 45 years) + Week + Treatment + Treatment\*Week (repeated values over Week) + log (BL T2 lesion volume)\*Week.||0.924|0.876|< 0.0001
92266616|NCT00563706|184434572|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-12.3||||0.043|TWO_SIDED|95.0|-24.24|-0.37|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||-0.37|-24.24|0.043
92266617|NCT00563706|184434572|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.77||||0.457|TWO_SIDED|95.0|-24.7|11.16|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||11.16|-24.70|0.457
92266618|NCT00563706|184434572|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.61||||0.067|TWO_SIDED|95.0|-24.03|0.81|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||0.81|-24.03|0.067
92266619|NCT00563706|184434572|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.61||||0.567|TWO_SIDED|95.0|-16.02|8.8|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||8.80|-16.02|0.567
92266620|NCT00563706|184434572|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.9||||0.07|TWO_SIDED|95.0|-22.71|0.92|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||0.92|-22.71|0.070
92266621|NCT00563706|184434572|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.18||||0.647|TWO_SIDED|95.0|-16.87|10.5|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||10.50|-16.87|0.647
92266622|NCT00563706|184434572|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.73||||0.075|TWO_SIDED|95.0|-20.46|1.0|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||1.00|-20.46|0.075
92266623|NCT00563706|184434572|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.44||||0.765|TWO_SIDED|95.0|-10.92|8.04|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||8.04|-10.92|0.765
92266624|NCT04074109|184434581|OTHER|This is a feasibility study which is not powered for efficacy. Therefore no formal statistical tests are used.||||||||||||This is a feasibility study which is not powered for efficacy. Therefore no formal statistical tests are used.|||||This is a feasibility study which is not powered for efficacy. Therefore no formal statistical tests are used.|||
92266625|NCT04074109|184434581|OTHER|||||||||||||||||This is a feasibility study which is not powered for efficacy. Therefore no formal statistical tests are used. We report percentages and frequencies to show feasibility|This is a feasibility study which is not powered for efficacy. Therefore no formal statistical tests are used.|||
92266626|NCT01361308|184434597|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Week 4 frequency|Rank transformed ANCOVA|||||||<0.0001
92266627|NCT01361308|184434597|SUPERIORITY_OR_OTHER|||||||0.009||||||Week 12 frequency|Rank transformed ANCOVA|||||||0.0090
92266628|NCT01361308|184434598|SUPERIORITY_OR_OTHER|||||||0.001||||||Clinical meaningfulness at week 4|Logit model|||||||0.001
92266629|NCT01361308|184434598|SUPERIORITY_OR_OTHER|||||||0.055||||||Clinical meaningfulness at week 12|Logit model|||||||0.055
92266630|NCT01361308|184434614|SUPERIORITY_OR_OTHER|||||||0.0017||||||Week 4 severity|Rank transformed ANCOVA|||||||0.0017
92266631|NCT01361308|184434614|SUPERIORITY_OR_OTHER|||||||0.1658||||||Week 12 severity|Rank transformed ANCOVA|||||||0.1658
92266632|NCT00706901|184434646|NON_INFERIORITY_OR_EQUIVALENCE|Zero-inflated Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.|||||<|0.01|TWO_SIDED||||||Zero inflated Poisson model|||||||<0.01
92266633|NCT00706901|184434646|NON_INFERIORITY_OR_EQUIVALENCE|Zero-hurdle Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.||||||0.02|TWO_SIDED||||||zero-hurdle Poisson model|||||||0.02
92266634|NCT00706901|184434647|NON_INFERIORITY_OR_EQUIVALENCE|A Zero-inflated Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.|||||<|0.01|TWO_SIDED||||||Zero inflated Poisson model|||||||<0.01
92266635|NCT00706901|184434647|NON_INFERIORITY_OR_EQUIVALENCE|Zero-hurdle Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.||||||0.0002|TWO_SIDED||||||Zero-hurdle Poisson model|||||||.0002
92144400|NCT01194570|184173015|SUPERIORITY_OR_OTHER_LEGACY||Relative Reduction (%)|17.475||||0.0206|TWO_SIDED|95.0|3.206|29.251|||MMRM||Relative reduction was calculated as -Relative change = - (Ocrelizumab response-Placebo response)/Placebo response\*100%. The 95% CI for relative reduction was obtained using the Bootstrap method.|Estimates are from analysis based on MMRM using unstructured covariance matrix: Percentage Change = Brain Volume at Week 24 + Geographical Region (US vs. ROW) + Age (\<=45, \> 45 years) + Week + Treatment + Treatment\*Week (repeated values over Week) + Brain Volume at Week 24\*Week. Relative reduction was calculated as - Relative change = - (OCR response-Placebo response)/Placebo response\*100%. The 95% CI for relative reduction was obtained using Bootstrap method.||29.251|3.206|0.0206
92144401|NCT01194570|184173016|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.377|STANDARD_ERROR_OF_MEAN|0.725||0.6034|TWO_SIDED|95.0|-1.048|1.802|||MMRM||Difference in adjusted mean was calculated as Ocrelizumab SF-36 Physical Component Summary Score - Placebo SF-36 Physical Component Summary Score.|Estimates are from analysis based on MMRM using unstructured covariance matrix: Change = Baseline PCS Score + Geographical Region (US vs. ROW) + Age (\<=45, \> 45 years) + Week + Treatment + Treatment\*Week (repeated values over Week) + Baseline PCS Score\*Week.||1.802|-1.048|0.6034
92144402|NCT04171102|184173018|OTHER|||||||0.028||||||\<0.05|t-test, 2 sided|||||||0.028
92291629|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.86|STANDARD_ERROR_OF_MEAN|0.34||0.0132|TWO_SIDED|90.0|0.29|1.42||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.42|0.29|0.0132
92291630|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.39|STANDARD_ERROR_OF_MEAN|0.45||0.0024|TWO_SIDED|90.0|0.65|2.14||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||2.14|0.65|0.0024
92291631|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.15|STANDARD_ERROR_OF_MEAN|0.45||0.0115|TWO_SIDED|90.0|0.4|1.89||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.89|0.40|0.0115
92291632|NCT02554877|184486943|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.97|STANDARD_ERROR_OF_MEAN|0.45||0.0344|TWO_SIDED|90.0|0.22|1.72||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.72|0.22|0.0344
92291633|NCT02450539|184486961|SUPERIORITY||Hazard Ratio (HR)|1.765||||0.0068|TWO_SIDED|95.0|1.165|2.672|||Stratified log-rank test.||Stratified Cox proportional hazard model|Stratified by baseline ECOG performance status (0 vs 1), number of Prior Therapies (received only platinum-based therapy vs Received platinum-based Therapy plus Immune Checkpoint Inhibitor), and time since initiation of first line therapy (\<=9 months vs \>9 months).||2.672|1.165|0.0068
92291634|NCT02450539|184486964|SUPERIORITY||Hazard Ratio (HR)|1.333||||0.1746|TWO_SIDED|95.0|0.879|2.022|||Stratified log-rank test||Stratified Cox proportional hazard model|Stratified by baseline ECOG performance status (0 vs 1), number of Prior Therapies (received only platinum-based therapy vs Received platinum-based Therapy plus Immune Checkpoint Inhibitor), and time since initiation of first line therapy (\<=9 months vs \>9 months).\]||2.022|0.879|0.1746
92291635|NCT02450539|184486965|SUPERIORITY||Rate Difference|-17.9|||||TWO_SIDED|95.0|-29.3|-6.6|||||Confidence intervals are based on the normal approximation to the binomial.|||-6.6|-29.3|
92291636|NCT02450539|184486966|SUPERIORITY||Rate Difference|-13.2|||||TWO_SIDED|95.0|-29.2|2.8|||||Confidence intervals are based on the normal approximation to the binomial.|||2.8|-29.2|
92144403|NCT01751126|184173019|SUPERIORITY||LS Mean|0.76||||0.007|TWO_SIDED|95.0|0.26|1.27||ANCOVA with treatment as well as the baseline CFS and the exposure to Vernal keratoconjunctivitis (VKC) seasons (Hochberg procedure).|t-test, 2 sided|||||1.27|0.26|0.007
92144404|NCT01751126|184173019|SUPERIORITY||LS Mean|0.67||||0.01|TWO_SIDED|95.0|0.16|1.18|||ANCOVA|ANCOVA with treatment as well as the baseline CFS and the exposure to Vernal keratoconjunctivitis (VKC) seasons (Hochberg procedure).||||1.18|0.16|0.010
92291637|NCT02450539|184486967|SUPERIORITY||Hazard Ratio (HR)|1.184||||0.7039|TWO_SIDED|95.0|0.502|2.792|||Stratified Log Rank||Stratified Cox regression model.|Stratification factors are baseline ECOG performance status (0 vs 1), Number of Prior Therapies (received only platinum-based therapy vs Received platinum-based Therapy plus Immune Checkpoint Inhibitor), and time since initiation of first line therapy (\<=9 months vs \>9 months).||2.792|0.502|0.7039
92291638|NCT02450539|184486968|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|||||||||Headache||||
92291639|NCT02450539|184486968|SUPERIORITY||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|||||||||Diarrhea||||
92291640|NCT02450539|184486968|SUPERIORITY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|||||||||Mean core symptom severity||||
92291641|NCT02450539|184486968|SUPERIORITY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|||||||||Mean interference||||
92291642|NCT02450539|184486968|SUPERIORITY||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|||||||||Mean lung cancer symptom severity||||
92291643|NCT02450539|184486968|SUPERIORITY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|||||||||Mean core plus lung cancer symptom severity||||
92291644|NCT02450539|184486968|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|||||||||Mean brain tumor symptom severity||||
92291645|NCT02450539|184486968|SUPERIORITY||Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|||||||||Mean core plus lung worst 5 symptoms severity||||
92291646|NCT02450539|184486968|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|||||||||Rash||||
92144405|NCT00876915|184173025|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.695||||0.4795|TWO_SIDED|95.0|0.235|1.89|||stratified Cox|||||1.890|0.235|0.4795
92144406|NCT00876915|184173026|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.019||||0.0252|TWO_SIDED|95.0|1.236|131.632|||stratified Cox|||||131.632|1.236|0.0252
92144407|NCT02673398|184173040|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.05|TWO_SIDED|95.0|-0.82|0.01|||t-test, 2 sided||Patients with higher risk scores were more likely to require a dose reduction. The lack of significance is most likely due to the small sample size.|Student's t-test was used to assess if geriatric risk score differed depending on whether or not a participant had a dose reduction (mean difference log2 risk = no dose modification - dose modification).||0.01|-0.82|0.05
92144408|NCT02673398|184173040|SUPERIORITY||Slope|-1.29|STANDARD_ERROR_OF_MEAN|1.44||0.39|TWO_SIDED||||||Regression, Linear|||Linear regression was used to assess whether log2 geriatric toxicity risk score was a risk factor for the number of course completed.||||0.39
92144409|NCT02673398|184173041|SUPERIORITY||Slope|-0.093|STANDARD_ERROR_OF_MEAN|0.0398||0.03|TWO_SIDED||||||Regression, Linear||The older the participant the lower the steady state value.|Least squares regression was used to assess the relationship between steady state neratinib concentration and age||||0.03
92291647|NCT02450539|184486969|SUPERIORITY||Mean Difference (Final Values)|-3.13|STANDARD_ERROR_OF_MEAN|2.07|||TWO_SIDED|||||||||EQ VAS Overall Self-rated Health Score||||
92144410|NCT02673398|184173041|SUPERIORITY||Slope|1.4|STANDARD_DEVIATION|2.39||0.57|TWO_SIDED||||||Regression, Linear||Geriatric risk score was not predictive of steady state concentration.|Least squares regression was used to determine if geriatric toxicity risk score at baseline was predictive of steady state neratinib concentration.||||0.57
92144411|NCT02178059|184173066|NON_INFERIORITY_OR_EQUIVALENCE|Approximately 34 healthy volunteers will be entered into the study in order to complete 30 evaluable volunteers. Based on the study SD-001-0268, a residual intra-individual standard deviation of 0.300/sqrt(2) = 0.212 can be expected on the natural log scale. With 30 completed volunteers there will be a 93% chance that the upper limits of two-sided 90% CI for Cmax and AUC ratios are \<1.25 provided that the true mean ratios are \<1.05.|Ratio of geometric means (%)|88.2|||||TWO_SIDED|90.0|81.03|96.02|||||Comparison of Bricanyl Turbuhaler M3 (test) to Bricanyl Turbuhaler M2 (reference)|No increase in the exposure of plasma terbutaline after administration of Bricanyl Turbuhaler M3 will be concluded if the upper bound of the 90% CIs for the ratios of AUC and Cmax are both below 1.25||96.02|81.03|
92144412|NCT02178059|184173067|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8052|TWO_SIDED|90.0|-0.17|0.17|||Wilcoxon signed rank test|||||0.17|-0.17|0.8052
92266636|NCT00706901|184434648|NON_INFERIORITY_OR_EQUIVALENCE|To examine differences between GMI and TCC on SECs, a two-component Weibull mixture model for effectively dealing with zero-heavy continuous data was conducted.||||||0.04|TWO_SIDED||||||Weibull mixture model|||||||0.04
92266637|NCT00706901|184434648|NON_INFERIORITY_OR_EQUIVALENCE|A generalized linear mixed model with correlated errors to account for correlation between repeated measurements of the response within subjects was conducted.||||||0.47|TWO_SIDED||||||Mixed Models Analysis|||||||0.47
92266638|NCT00706901|184434649|NON_INFERIORITY_OR_EQUIVALENCE|Zero inflated Poisson model with random intercept to account for correlation between repeated measurement of the responses within subjects was conducted.|||||<|0.01|TWO_SIDED||||||Zero inflated Poisson model|||||||<0.01
92266639|NCT00706901|184434649|NON_INFERIORITY_OR_EQUIVALENCE|Zero-hurdle Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.|||||<|0.0001|TWO_SIDED||||||Zero-hurdle Poisson model|||||||<.0001
92266640|NCT00706901|184434650|NON_INFERIORITY_OR_EQUIVALENCE|Zero inflated Poisson model with random intercept to account for correlation between repeated measurement of the responses within subjects was conducted.|||||<|0.0001|TWO_SIDED||||||Zero inflated Poisson model|||||||<.0001
92266641|NCT00706901|184434650|NON_INFERIORITY_OR_EQUIVALENCE|Zero-hurdle Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.||||||0.02|TWO_SIDED||||||Zero-hurdle Poisson model|||||||0.02
92266642|NCT00706901|184434651|NON_INFERIORITY_OR_EQUIVALENCE|Zero inflated Poisson model with random intercept to account for correlation between repeated measurement of the responses within subjects was conducted.||||||0.17|TWO_SIDED||||||Zero inflated Poisson model|||||||0.17
92266643|NCT00706901|184434651|NON_INFERIORITY_OR_EQUIVALENCE|Zero-hurdle Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.||||||0.67|TWO_SIDED||||||Zero-hurdle Poisson model|||||||0.67
92266644|NCT00461591|184434652|SUPERIORITY||Odds Ratio (OR)|0.76||||0.1068|TWO_SIDED|95.0|0.54|1.06|||Cochran-Mantel-Haenszel|||||1.06|0.54|0.1068
92266645|NCT00461591|184434653|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0412|TWO_SIDED|95.0|0.59|0.99|||Log Rank|||||0.99|0.59|0.0412
92266646|NCT04621227|184434685|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio (%)|202.94|||||TWO_SIDED|90.0|167.14|246.41|||Mixed Models Analysis|||Comparison for AUClast (PF-06882961 120mg BID + rosuvastatin 10mg \[Period 4\] vs Rosuvastatin 10mg \[Period 1\])||246.41|167.14|
92266647|NCT04621227|184434685|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio (%)|283.73|||||TWO_SIDED|90.0|233.68|344.51|||Mixed Models Analysis|||Comparison for AUClast (PF-06882961 200mg BID + rosuvastatin 10mg \[Period 7\] vs Rosuvastatin 10mg \[Period 1\])||344.51|233.68|
92266648|NCT04621227|184434686|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio (%)|50.57|||||TWO_SIDED|90.0|42.27|60.5|||Mixed Models Analysis|||Comparison for AUClast (PF-06882961 120mg BID + midazolam 2mg \[Period 5\] vs Midazolam 2mg \[Period 2\])||60.50|42.27|
92266649|NCT04621227|184434686|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio (%)|50.56|||||TWO_SIDED|90.0|42.06|60.78|||Mixed Models Analysis|||Comparison for AUClast (PF-06882961 200mg BID + midazolam 2mg \[Period 8\] vs Midazolam 2mg \[Period 2\])||60.78|42.06|
92266650|NCT00124709|184434695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0046||||0.7901|TWO_SIDED|95.0|-0.029|0.0381|||ANCOVA|Treatment, Center, gender, baseline age (months), baseline EASI score, and baseline TBSA as explanatory variables||"A disease-free day in Step 2 or less was defined as a diary day with variable No or almost no eczema?=yes and medication used variable=no except emollients, yellow label medication 2X day, or medication deviation of yellow label medication 1x day."||0.0381|-0.0290|0.7901
92144413|NCT02178059|184173071|NON_INFERIORITY_OR_EQUIVALENCE|Approximately 34 healthy volunteers will be entered into the study in order to complete 30 evaluable volunteers. Based on the study SD-001-0268, a residual intra-individual standard deviation of 0.300/sqrt(2) = 0.212 can be expected on the natural log scale. With 30 completed volunteers there will be a 93% chance that the upper limits of two-sided 90% CI for Cmax and AUC ratios are \<1.25 provided that the true mean ratios are \<1.05.|Ratio of geometric means (%)|91.44|||||TWO_SIDED|90.0|84.82|98.58|||||Comparison of Bricanyl Turbuhaler M3 (test) to Bricanyl Turbuhaler M2 (reference)|No increase in the exposure of plasma terbutaline after administration of Bricanyl Turbuhaler M3 will be concluded if the upper bound of the 90% CIs for the ratios of AUC and Cmax are both below 1.25||98.58|84.82|
92144414|NCT05616962|184173082|SUPERIORITY|||||||0.473|||||||ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||0.473
92144415|NCT05616962|184173083|SUPERIORITY|||||||0.03199|||||||paired t-test|||||||0.03199
92144416|NCT05616962|184173084|SUPERIORITY|||||||0.408|||||||ANCOVA|ANCOVA with baseline value as covariate||||||0.408
92266651|NCT01728376|184434707|SUPERIORITY_OR_OTHER||Difference (%)|-2.5|||||TWO_SIDED|95.0|-30.3|25.3|||||Daptomycin minus Comparator 95% Confidence Interval (CI) by Wilson score method|Difference in satisfactory response between treatment groups. Satisfactory response = cured + improved||25.3|-30.3|
92266652|NCT01728376|184434707|SUPERIORITY_OR_OTHER||Difference (%)|16.3|||||TWO_SIDED|95.0|-13.0|45.7|||||Daptomycin minus Comparator 95% CI by Wilson score method|Difference in satisfactory response between treatment groups. Satisfactory response = cured + improved||45.7|-13.0|
92266653|NCT01728376|184434707|SUPERIORITY_OR_OTHER||Difference (%)|25.7|||||TWO_SIDED|95.0|-21.0|72.4|||||Daptomycin minus Comparator 95% CI by Wilson score method|Difference in satisfactory response between treatment groups. Satisfactory response = cured + improved||72.4|-21.0|
92266654|NCT01728376|184434708|SUPERIORITY_OR_OTHER||Difference (%)|5.0|||||TWO_SIDED|95.0|-29.8|39.8|||||Daptomycin minus Comparator 95% CI by Wilson score method|Difference in success response between treatment arms||39.8|-29.8|
92266655|NCT01728376|184434708|SUPERIORITY_OR_OTHER||Difference (%)|37.9|||||TWO_SIDED|95.0|0.7|75.1|||||Daptomycin minus Comparator 95% CI by Wilson score method|Difference in success response between treatment arms||75.1|0.7|
92266656|NCT01728376|184434708|SUPERIORITY_OR_OTHER||Difference (%)|-10.0||||||95.0|-60.3|40.3|||||Daptomycin minus Comparator 95% CI by Wilson score method|Difference in success response between treatment arms||40.3|-60.3|
92266657|NCT02411110|184434729|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.34||||0.505|||||||ANCOVA|Baseline value as a covariate; treatment group and stratification (age: \< 40 or ≥ 40 years and baseline bladder pain NRS: ≤ 6 or \> 6) as factors.|LiRIS® - Placebo|||||0.505
92266658|NCT00617175|184434745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Negative binomial regression|||||||<0.001
92266659|NCT00505765|184434770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|1.5||0.21|TWO_SIDED||||||ANCOVA|||||||0.21
92266660|NCT00505765|184434770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|1.5||0.44|TWO_SIDED||||||ANCOVA|||||||0.44
92266661|NCT01453296|184434805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-0.8|5.7|||||Day 1 maximum HR (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||5.7|-0.8|
92266662|NCT01453296|184434805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-2.4|3.7|||||Day 14 maximum HR (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||3.7|-2.4|
92266663|NCT01453296|184434805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-2.6|3.6|||||Day 14 maximum HR (0-8 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||3.6|-2.6|
92266664|NCT01453296|184434806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-0.8|5.7|||||Day 1 weighted HR (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||5.7|-0.8|
92266665|NCT01453296|184434806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-2.4|3.7|||||Day 14 weighted HR (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||3.7|-2.4|
92266666|NCT01453296|184434806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-2.6|3.6|||||Day 14 weighted HR (0-8 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||3.6|-2.6|
92266667|NCT01453296|184434807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-4.5|6.6|||||Day 1 maximum QTcF (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||6.6|-4.5|
92266668|NCT01453296|184434807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||||TWO_SIDED|95.0|-3.2|6.3|||||Day 14 maximum QTcF (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||6.3|-3.2|
92266669|NCT01453296|184434807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-3.0|5.7|||||Day 14 maximum QTcF (0-8 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||5.7|-3.0|
92266670|NCT01453296|184434821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.01|||||TWO_SIDED|95.0|-2.59|6.61|||||Day 1 weighted QTcF (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||6.61|-2.59|
92266671|NCT01453296|184434821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.94|||||TWO_SIDED|95.0|-1.93|7.81|||||Day 14 weighted QTcF (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||7.81|-1.93|
92266672|NCT01453296|184434821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.19|||||TWO_SIDED|95.0|-0.7|7.08|||||Day 14 weighted QTcF (0-8 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||7.08|-0.70|
92266673|NCT00620776|184434822|SUPERIORITY_OR_OTHER|||||||0.17|||||||Mixed Models Analysis|||Mixed model analysis (differential slopes over time) comparing the 26 patients who received combined treatment with at least one CBT session to the 35 patients randomized to venlafaxine XR alone (and received at least one dose) on HAM-A total scores. Only available scores were used (no imputation for missing data). Because the HAM-A demonstrated a relatively rapid improvement early in treatment and then a leveling off, a shifted log-transformation of time of assessment was implemented.||||.17
92266674|NCT00620776|184434823|SUPERIORITY_OR_OTHER|||||||0.54|||||||Mixed Models Analysis|||Analyses were conducted using mixed effects models that tested for differential slopes over time between the CBT plus venlafaxine XR and venlafaxine XR alone groups using only available scores (no imputation for missing data).||||.54
92291648|NCT02450539|184486970|SUPERIORITY||Median Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|||||||||EQ-5D-5L Index Value||||
92291649|NCT01438060|184486972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.802|TWO_SIDED|95.0|-1.15|1.49||Baseline data was evaluated by analysis of variance (ANOVA) with treatment and study center as main effects.|ANOVA||Model based estimate.|Analysis at Baseline (Day 0)||1.49|-1.15|0.802
92144417|NCT05616962|184173085|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144418|NCT05616962|184173086|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144419|NCT05616962|184173087|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144420|NCT05616962|184173088|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144421|NCT05616962|184173089|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144422|NCT05616962|184173090|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144423|NCT05616962|184173091|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144424|NCT05616962|184173092|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144425|NCT05616962|184173093|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92291650|NCT01438060|184486972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||0.169|TWO_SIDED|95.0|-2.49|0.44||ANCOVA model for LOCF data set included the baseline measure as covariate and the study center and treatment as main effects.|ANCOVA||Model based estimate|Analysis at Week 10||0.44|-2.49|0.169
92291651|NCT01438060|184486975|SUPERIORITY_OR_OTHER||Response ratio|0.79||||0.391|TWO_SIDED|95.0|0.47|1.35|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test with controlling for treatment and study center||Analysis at Week 1||1.35|0.47|0.391
92144426|NCT05616962|184173094|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144427|NCT05616962|184173095|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92291652|NCT01438060|184486975|SUPERIORITY_OR_OTHER||Response ratio|0.95||||0.766|TWO_SIDED|95.0|0.69|1.31|||Cochran-Mantel-Haenszel|CMH test with controlling for treatment and study center||Analysis at Week 2||1.31|0.69|0.766
92291653|NCT01438060|184486975|SUPERIORITY_OR_OTHER||Response ratio|1.01||||0.967|TWO_SIDED|95.0|0.76|1.32||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at Week 3||1.32|0.76|0.967
92291654|NCT01438060|184486975|SUPERIORITY_OR_OTHER||Response ratio|0.92||||0.505|TWO_SIDED|95.0|0.71|1.19||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at Week 4||1.19|0.71|0.505
92291655|NCT01438060|184486975|SUPERIORITY_OR_OTHER||Response ratio|1.07||||0.59|TWO_SIDED|95.0|0.84|1.36||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at Week 6||1.36|0.84|0.590
92291656|NCT01438060|184486975|SUPERIORITY_OR_OTHER||Response ratio|1.1||||0.374|TWO_SIDED|95.0|0.89|1.37||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at Week 8||1.37|0.89|0.374
92291657|NCT01438060|184486975|SUPERIORITY_OR_OTHER||Response ratio|1.15||||0.175|TWO_SIDED|95.0|0.94|1.41||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at Week 10||1.41|0.94|0.175
92291658|NCT01438060|184486976|SUPERIORITY_OR_OTHER||Response ratio|0.88||||0.753|TWO_SIDED|95.0|0.41|1.92||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 1||1.92|0.41|0.753
92144428|NCT05616962|184173096|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92266675|NCT00620776|184434824|SUPERIORITY_OR_OTHER|||||||0.86|||||||Mixed Models Analysis|||Analyses were conducted using mixed effects models that tested for differential slopes over time between the CBT plus venlafaxine XR and venlafaxine XR alone groups using only available scores (no imputation for missing data).||||.86
92266676|NCT00620776|184434825|SUPERIORITY_OR_OTHER|||||||0.051|||||||ANCOVA|||Data collected at week 24 were analyzed using analysis of covariance (ANCOVA) with the baseline score as the covariate.||||.051
92266677|NCT00620776|184434826|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANCOVA|||Analyses were conducted using mixed effects models that tested for differential slopes over time between the CBT plus venlafaxine XR and venlafaxine XR alone groups using only available scores (no imputation for missing data).||||.06
92266678|NCT00620776|184434827|SUPERIORITY_OR_OTHER|||||||0.95|||||||Mixed Models Analysis|||Analyses were conducted using mixed effects models that tested for differential slopes over time between the CBT plus venlafaxine XR and venlafaxine XR alone groups using only available scores (no imputation for missing data).||||.95
92266679|NCT00620776|184434828|SUPERIORITY_OR_OTHER|||||||0.17|||||||ANCOVA|||Data collected at week 24 were analyzed using ANCOVA with the baseline score as the covariate.||||.17
92266680|NCT00620776|184434829|SUPERIORITY_OR_OTHER|||||||0.53|||||||ANCOVA|||Data collected at week 24 were analyzed using ANCOVA with the baseline score as the covariate.||||.53
92266681|NCT00620776|184434830|SUPERIORITY_OR_OTHER|||||||0.23|||||||ANCOVA|||Data collected at week 24 were analyzed with ANCOVA with baseline data as covariate.||||.23
92266682|NCT00620776|184434831|SUPERIORITY_OR_OTHER|||||||0.07|||||||ANCOVA|||Data collected at week 24 were analyzed with ANCOVA including baseline data as covariate.||||.07
92266683|NCT00620776|184434832|SUPERIORITY_OR_OTHER|||||||0.63|||||||Chi-squared|||||||.63
92266684|NCT00620776|184434833|SUPERIORITY_OR_OTHER|||||||0.52|||||||Chi-squared|||||||.52
92266685|NCT00761969|184434834|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Log Rank|||Survival, major-event-free survival and event-free survival of patients with PAD and control subjects was estimated by the Kaplan-Meier method and compared by the log-rank test. The numbers of non-fatal events and revascularization procedures (which could be more than one per person) were compared using the Poisson regression - the outcome being the number of events per person-year.||||<0.001
92266686|NCT00830310|184434840|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||<0.001
92266687|NCT00830310|184434841|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||0.002
92266688|NCT00830310|184434842|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||0.001
92266689|NCT00830310|184434843|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||0.001
92266690|NCT00830310|184434844|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||0.001
92266691|NCT00830310|184434845|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||0.011
92266692|NCT00830310|184434846|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||0.038
92266693|NCT00830310|184434847|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||0.002
92266694|NCT00830310|184434848|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||<0.001
92266695|NCT01015118|184434849|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0239|TWO_SIDED|95.0|0.72|0.98|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|Hazard ratio (HR), Confidence Interval (CI) and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level Area under curve 5 (AUC5) vs. Area under curve 6 (AUC6).||0.98|0.72|0.0239
92266696|NCT01015118|184434850|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.0286|TWO_SIDED|95.0|0.75|0.98|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|Hazard ratio (HR), Confidence Interval (CI) and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||0.98|0.75|0.0286
92266697|NCT01015118|184434851|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0186|TWO_SIDED|95.0|0.72|0.97|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|HR, CI and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||0.97|0.72|0.0186
92266698|NCT01015118|184434852|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.0256|TWO_SIDED|95.0|0.74|0.98|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|HR, CI and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||0.98|0.74|0.0256
92266699|NCT01015118|184434853|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.8653|TWO_SIDED|95.0|0.83|1.17|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|HR, CI and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||1.17|0.83|0.8653
92144429|NCT05616962|184173097|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144430|NCT05616962|184173098|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
92144431|NCT05616962|184173100|SUPERIORITY|||||||0.00463|||||||paired t-test|||||||0.00463
92291659|NCT01438060|184486976|SUPERIORITY_OR_OTHER||Response ratio|0.9||||0.6|TWO_SIDED|95.0|0.62|1.32||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 2||1.32|0.62|0.600
92291660|NCT01438060|184486976|SUPERIORITY_OR_OTHER||Response ratio|0.93||||0.673|TWO_SIDED|95.0|0.65|1.31||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 3||1.31|0.65|0.673
92291661|NCT01438060|184486976|SUPERIORITY_OR_OTHER||Response ratio|0.83||||0.255|TWO_SIDED|95.0|0.6|1.14||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 4||1.14|0.60|0.255
92291662|NCT01438060|184486976|SUPERIORITY_OR_OTHER||Response ratio|0.99||||0.958|TWO_SIDED|95.0|0.74|1.33||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 6||1.33|0.74|0.958
92291663|NCT01438060|184486976|SUPERIORITY_OR_OTHER||Response ratio|0.92||||0.525|TWO_SIDED|95.0|0.71|1.19||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 8||1.19|0.71|0.525
92291664|NCT01438060|184486976|SUPERIORITY_OR_OTHER||Response ratio|1.07||||0.602|TWO_SIDED|95.0|0.82|1.4||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 10||1.40|0.82|0.602
92291665|NCT01438060|184486980|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 1||||0.133
92291666|NCT01438060|184486980|SUPERIORITY_OR_OTHER|||||||0.282||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 2||||0.282
92144432|NCT05616962|184173101|SUPERIORITY|||||||0.23077|||||||paired t-test|||||||0.23077
92291667|NCT01438060|184486980|SUPERIORITY_OR_OTHER|||||||0.571||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 3||||0.571
92144433|NCT05616962|184173102|SUPERIORITY|||||||0.00849|||||||paired t-test|||||||0.00849
92144434|NCT00857207|184173120|SUPERIORITY||Mean Difference (Final Values)|-3.95|STANDARD_ERROR_OF_MEAN|1.14||0.0004|TWO_SIDED|95.0|||||Regression, Linear|dependent variable: post-treatment outcome; independent variables:pre-treatment measurement and group indicator.||Linear regression of change of cTOL time to first move in GMT versus BHW group||||0.0004
92144435|NCT00857207|184173120|SUPERIORITY||Mean Difference (Final Values)|-2.92|STANDARD_DEVIATION|3.55||0.012|TWO_SIDED|95.0|||||t-test, 2 sided|||total time will significantly improve 10 weeks from post||||0.012
92144436|NCT00857207|184173120|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|2.04||0.98|TWO_SIDED|95.0|||||t-test, 2 sided|||Time to first move will significantly increase at 10 weeks from baseline to indicate better planning||||0.98
92144437|NCT00857207|184173121|SUPERIORITY||Mean Difference (Final Values)|2.64|STANDARD_DEVIATION|6.42||0.15|TWO_SIDED|95.0|||||t-test, 2 sided|||paired T-test, Behavioral Regulation Index will improve at week 10 from baseline||||0.15
92144438|NCT00857207|184173121|SUPERIORITY||Mean Difference (Final Values)|2.79|STANDARD_DEVIATION|8.4||0.24|TWO_SIDED|95.0|||||t-test, 2 sided|||paired t-test of Metacognitive Index, MI will improve at 10 weeks compared to baseline.||||0.24
92144439|NCT00857207|184173122|SUPERIORITY||Median Difference (Final Values)|0.03|STANDARD_DEVIATION|0.09||0.3|TWO_SIDED|95.0|||||t-test, 2 sided|||optimal moves will significantly increase at 10 weeks from baseline||||0.30
92291668|NCT01438060|184486980|SUPERIORITY_OR_OTHER|||||||0.895||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 4||||0.895
92291669|NCT01438060|184486980|SUPERIORITY_OR_OTHER|||||||0.817||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 6||||0.817
92291670|NCT01438060|184486980|SUPERIORITY_OR_OTHER|||||||0.795||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 8||||0.795
92291671|NCT01438060|184486980|SUPERIORITY_OR_OTHER|||||||0.564||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 10||||0.564
92291672|NCT01438060|184486982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.733|TWO_SIDED|95.0|-1.08|1.54|||ANCOVA|||Analysis at baseline||1.54|-1.08|0.733
92291673|NCT01438060|184486982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35||||0.001|TWO_SIDED|95.0|-2.16|-0.54|||ANOVA|||Analysis at Week 10||-0.54|-2.16|0.001
92291674|NCT03602339|184487020|NON_INFERIORITY|"The score to evaluate the non-inferiority is calculated for each subject as (combined unenhanced/gadobutrol-enhanced - unenhanced) - 0.8\*(combined unenhanced/gadoterate-enhanced - unenhanced). The 95% CI is based on a t-distribution. The non-inferiority for gadobutrol is achieved if the one-sided p-value for H0: (gadobutrol minus unenhanced) - 0.8\*(gadoterate minus unenhanced) ≤ 0 is lower than 0.025."|Mean Difference (Final Values)|0.455|||<|0.0001|TWO_SIDED|95.0|0.347|0.562||No type I error adjustment for multiple comparisons is needed because tests on all 3 primary efficacy variables must be significant to demonstrate primary efficacy.|Paired t-test|||Difference (gadobutrol minus unenhanced) - (gadoterate minus unenhanced)||0.562|0.347|< 0.0001
92291675|NCT03602339|184487021|NON_INFERIORITY|"The score to evaluate the non-inferiority is calculated for each subject as (combined unenhanced/gadobutrol-enhanced - unenhanced) - 0.8\*(combined unenhanced/gadoterate-enhanced - unenhanced). The 95% CI is based on a t-distribution. The non-inferiority for gadobutrol is achieved if the one-sided p-value for H0: (gadobutrol minus unenhanced) - 0.8\*(gadoterate minus unenhanced) ≤ 0 is lower than 0.025."|Mean Difference (Final Values)|0.18|||=|0.0151|TWO_SIDED|95.0|0.017|0.342||No type I error adjustment for multiple comparisons is needed because tests on all 3 primary efficacy variables must be significant to demonstrate primary efficacy.|Paired t-test|||Difference (gadobutrol minus unenhanced) - (gadoterate minus unenhanced)||0.342|0.017|= 0.0151
92291676|NCT03602339|184487022|NON_INFERIORITY|"The score to evaluate the non-inferiority is calculated for each subject as (combined unenhanced/gadobutrol-enhanced - unenhanced) - 0.8\*(combined unenhanced/gadoterate-enhanced - unenhanced). The 95% CI is based on a t-distribution. The non-inferiority for gadobutrol is achieved if the one-sided p-value for H0: (gadobutrol minus unenhanced) - 0.8\*(gadoterate minus unenhanced) ≤ 0 is lower than 0.025."|Mean Difference (Final Values)|0.15|||=|0.01|TWO_SIDED|95.0|0.024|0.275||No type I error adjustment for multiple comparisons is needed because tests on all 3 primary efficacy variables must be significant to demonstrate primary efficacy.|Paired t-test|||Difference (gadobutrol minus unenhanced) - (gadoterate minus unenhanced)||0.275|0.024|= 0.0100
92291677|NCT03602339|184487023|NON_INFERIORITY|Non-inferiority margin is 0.35. If the lower limit of the 95% CI is \> -0.35, then non-inferiority is achieved.|Mean Difference (Final Values)|0.073|||||TWO_SIDED|95.0|-0.03|0.176||||||Difference (Gadobutrol - Gadoterate)||0.176|-0.030|
92291678|NCT03602339|184487024|NON_INFERIORITY|Non-inferiority margin = 10%, if the lower limit of the confidence interval \> -10%, then non-inferiority is achieved.|Difference (Gadobutrol - Gadoterate)|0.0|||||TWO_SIDED|95.0|-3.4|3.4|||||The 95% confidence intervals are based on McNemar's test.|Accuracy Difference (Gadobutrol - Gadoterate)||3.40|-3.40|
92291679|NCT03602339|184487024|NON_INFERIORITY|Non-inferiority margin = 10%, if the lower limit of the confidence interval \> -10%, then non-inferiority is achieved.|Difference (Gadobutrol - Gadoterate)|0.0|||||TWO_SIDED|95.0|-5.22|5.22|||||The 95% confidence intervals are based on McNemar's test.|Sensitivity Difference (Gadobutrol - Gadoterate)||5.22|-5.22|
92291680|NCT03602339|184487024|NON_INFERIORITY|Non-inferiority margin = 10%, if the lower limit of the confidence interval \> -10%, then non-inferiority is achieved.|Difference (Gadobutrol - Gadoterate)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The 95% confidence intervals are based on McNemar's test. No continuity correction for calculation of the confidence interval was included. Zero cells lead to degenerated confidence interval.|Specificity Difference (Gadobutrol - Gadoterate)||0.00|0.00|
92144440|NCT04098406|184173125|SUPERIORITY||Mean Difference (Final Values)|7.7||||0.4304|TWO_SIDED|95.0|-11.9|27.3|||MMRM|||||27.3|-11.9|0.4304
92291681|NCT03602339|184487025|OTHER||Mean Difference (Final Values)|0.076|||||TWO_SIDED|95.0|0.011|0.14||||||Difference (Gadobutrol - Gadoterate)||0.140|0.011|
92291682|NCT03602339|184487026|OTHER||Mean Difference (Final Values)|0.0||||0.9149|TWO_SIDED|95.0|-0.1|0.11|||Wilcoxon signed-rank test|||Comparison of image quality between gadobutrol and gadoterate||0.11|-0.10|0.9149
92291683|NCT03602339|184487027|OTHER||Mean Difference (Final Values)|-0.01968|||||TWO_SIDED|95.0|-0.03491|-0.00445||||||Difference (Gadobutrol-Gadoterate) for Relative score||-0.00445|-0.03491|
92291684|NCT03602339|184487027|OTHER||Mean Difference (Final Values)|0.00586|||||TWO_SIDED|95.0|-0.00589|0.01762||||||Difference (Gadobutrol-Gadoterate) for Full image score||0.01762|-0.00589|
92291685|NCT03602339|184487027|OTHER||Mean Difference (Final Values)|0.00139|||||TWO_SIDED|95.0|-0.00471|0.00749||||||Difference (Gadobutrol-Gadoterate) for Dice score||0.00749|-0.00471|
92291686|NCT03602339|184487029|EQUIVALENCE|An equivalence test was calculated using the two one-sided t-tests (TOST) procedure with null hypotheses H01: (gadobutrol - gadoterate) ≤ -0.05 \* (gadoterate), and H02: (gadobutrol - gadoterate) ≥ +0.05 \* (gadoterate).||||||0.0049||||||The overall p-value was calculated as max(p1, p2) where p1 and p2 are the results of null hypotheses H01 and H02 respectively.|Two one-sided t-tests (TOST)|||||||0.0049
92291687|NCT03602339|184487030|EQUIVALENCE|An equivalence test was calculated using the two one-sided t-tests (TOST) procedure with null hypotheses H01: (gadobutrol - gadoterate) ≤ -0.05 \* (gadoterate) and H02: (gadobutrol - gadoterate) ≥ +0.05 \* (gadoterate).||||||0.0013||||||The overall p-value was calculated as max(p1, p2) where p1 and p2 are the results of null hypotheses H01 and H02 respectively.|Two one-sided t-tests (TOST)|||||||0.0013
92291688|NCT03602339|184487031|EQUIVALENCE|An equivalence test was calculated using the two one-sided t-tests (TOST) procedure with null hypotheses H01: (gadobutrol - gadoterate) ≤ -0.05 \* (gadoterate) and H02: (gadobutrol - gadoterate) ≥ +0.05 \* (gadoterate).||||||0.0065||||||The overall p-value was calculated as max(p1, p2) where p1 and p2 are the results of null hypotheses H01 and H02 respectively.|Two one-sided t-tests (TOST)|||||||0.0065
92144441|NCT04098406|184173126|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.6519|TWO_SIDED|95.0|-12.4|19.7|||MMRM|||||19.7|-12.4|0.6519
92144442|NCT04098406|184173127|SUPERIORITY||Mean Difference (Final Values)|18.8||||0.6158|TWO_SIDED|95.0|-56.4|94.0|||MMRM|||||94.0|-56.4|0.6158
92144443|NCT04098406|184173132|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.4249|TWO_SIDED|95.0|-1.6|3.6|||MMRM|||||3.6|-1.6|0.4249
92144444|NCT04098406|184173133|SUPERIORITY|||||||0.035|||||||Chi-squared|||||||0.0350
92144445|NCT04098406|184173135|SUPERIORITY||Mean Difference (Final Values)|9.1||||0.2237|TWO_SIDED|95.0|-5.8|23.9|||ANCOVA|||||23.9|-5.8|0.2237
92144446|NCT04098406|184173136|SUPERIORITY||Hazard Ratio (HR)|0.29||||0.0125|TWO_SIDED|95.0|0.103|0.815|||Log Rank|||||0.815|0.103|0.0125
92291689|NCT00834405|184487032|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-72 and Cmax.|Geometric Test/Ref Ratio x 100|106.0||||||90.0|98.0|114.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||114|98.0|
92291690|NCT00834405|184487033|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-72 and Cmax.|Geometric Test/Ref Ratio x 100|107.0||||||90.0|100.0|115.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||115|100|
92291691|NCT00840281|184487034|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.0||||||90.0|94.9|105.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||105|94.9|
92291692|NCT00840281|184487035|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|98.6|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||103|98.6|
92291693|NCT00840281|184487036|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|98.7|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103|98.7|
92291694|NCT00829452|184487051|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.03||||||90.0|89.11|103.49|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103.49|89.11|
92291695|NCT00829452|184487052|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|95.34||||||90.0|90.82|100.09|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.09|90.82|
92291696|NCT00829452|184487053|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.98||||||90.0|92.73|101.42|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101.42|92.73|
92291697|NCT00829452|184487054|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.78||||||90.0|89.34|109.23|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||109.23|89.34|
92291698|NCT00829452|184487055|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.59||||||90.0|94.62|100.66|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||100.66|94.62|
92144447|NCT04098406|184173138|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.0177|TWO_SIDED|95.0|0.2|1.6|||MMRM|||||1.6|0.2|0.0177
92291699|NCT02615249|184487056|OTHER||Kappa statistic|0.28|||||TWO_SIDED|95.0|-0.01|0.58||||||Comparison between 0.12 mg/cm2 copper sulfate and copper sulfate 2% in petrolatum||0.58|-0.01|
92291700|NCT02615249|184487056|OTHER||Kappa statistic|0.45|||||TWO_SIDED|95.0|0.24|0.66||||||Comparison between 0.24 mg/cm2 manganese chloride and manganese chloride 2% in petrolatum||0.66|0.24|
92291701|NCT02615249|184487056|OTHER||Kappa statistic|0.23|||||TWO_SIDED|95.0|0.07|0.38|||||Kappa statistic is for 0.33 mg/cm2 tin chloride vs 1% tin chloride in petrolatum reference allergen|Comparison between 0.33 mg/cm2 tin chloride and tin chloride 1% in petrolatum||0.38|0.07|
92291702|NCT02615249|184487056|OTHER||Kappa statistic|0.4|||||TWO_SIDED|95.0|0.15|0.65|||||Kappa statistic is for 0.22 mg Ti/cm2 ammonium titanium oxide oxalate vs 19% ammonium titanium oxide oxalate in petrolatum reference allergen|Comparison between 0.22 mg Ti/cm2 ammonium titanium oxide oxalate and ammnium titanium oxide oxalate 19% in petrolatum||0.65|0.15|
92291703|NCT02615249|184487056|OTHER||Kappa statistic|0.52|||||TWO_SIDED|95.0|0.3|0.73|||||Kappa statistic is for 0.050 mg V/cm2 vanadium sulfate vs 1.5% vanadium sulfate in petrolatum reference allergen|Comparison between 0.050 mg/cm2 vanadium sulfate and vanadium sulfate 1.5% in petrolatum||0.73|0.30|
92291704|NCT02615249|184487056|OTHER||Kappa statistic|0.36|||||TWO_SIDED|95.0|0.07|0.38|||||Kappa statistic is for 0.24 mg/cm2 zinc chloride vs 2% zinc chloride in petrolatum reference allergen|Comparison betweenm 0.24 mg/cm2 zinc chloride and zinc chloride 2% in petrolatum||0.38|0.07|
92291705|NCT02670551|184487101|SUPERIORITY||Least Squares Mean Difference|-2.5||||0.0331|TWO_SIDED|95.0|-4.6|-0.4||MMRM analysis was used. Fixed factors: treatment group, pooled study center, visit, treatment-group-by-visit interaction. Covariates: Baseline value, baseline value-by-visit interaction. P-value was adjusted by matched parallel gatekeeping procedure.|Mixed Model Repeated Measures (MMRM)|||To control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6 for the primary and secondary efficacy parameters, the parallel gatekeeping procedure was implemented.||-0.4|-4.6|0.0331
92291706|NCT02670551|184487101|SUPERIORITY||Least Squares Mean Difference|-3.0||||0.0103|TWO_SIDED|95.0|-5.1|-0.9||MMRM analysis was used. Fixed factors: treatment group, pooled study center, visit, treatment-group-by-visit interaction. Covariates: Baseline value, baseline value-by-visit interaction. P-value was adjusted by matched parallel gatekeeping procedure.|Mixed Model Repeated Measures (MMRM)|||To control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6 for the primary and secondary efficacy parameters, the parallel gatekeeping procedure was implemented.||-0.9|-5.1|0.0103
92291707|NCT02670551|184487102|SUPERIORITY||Least Squares Mean Difference|-0.2||||0.0714|TWO_SIDED|95.0|-0.5|0.0||MMRM analysis was used. Fixed factors: treatment group, pooled study center, visit, treatment-group-by-visit interaction. Covariates: Baseline value, baseline value-by-visit interaction. P-value was adjusted by matched parallel gatekeeping procedure.|Mixed Model Repeated Measures (MMRM)|||To control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6 for the primary and secondary efficacy parameters, the parallel gatekeeping procedure was implemented.||0.0|-0.5|0.0714
92144448|NCT03014674|184173142|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% confidence interval (CI) for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for Cmax.|Ratio|1.04|||||TWO_SIDED|90.0|0.98|1.11|||||Ratio (autoinjector/lyophilized drug) for Cmax has been presented|||1.11|0.98|
92144449|NCT03014674|184173142|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% CI for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for Cmax.|Ratio|1.06|||||TWO_SIDED|90.0|0.99|1.12|||||Ratio (safety syringe/lyophilized drug) for Cmax has been presented|||1.12|0.99|
92144450|NCT03014674|184173143|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% CI for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for AUC (0-t)|Ratio|1.08|||||TWO_SIDED|90.0|1.01|1.15|||||Ratio (autoinjector/lyophilized drug) for AUC(0-t) has been presented|||1.15|1.01|
92144451|NCT03014674|184173143|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% CI for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for AUC (0-t).|Ratio|1.04|||||TWO_SIDED|90.0|0.97|1.12|||||Ratio (safety syringe/lyophilized drug) for AUC(0-t) has been presented|||1.12|0.97|
92144452|NCT03014674|184173143|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% CI for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for AUC (0-inf).|Ratio|1.07|||||TWO_SIDED|90.0|1.0|1.13|||||Ratio (autoinjector/lyophilized drug) for AUC(0-inf) has been presented|||1.13|1.00|
92144453|NCT03014674|184173143|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% CI for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for AUC (0-inf).|Ratio|1.02|||||TWO_SIDED|90.0|0.95|1.09|||||Ratio (safety syringe/lyophilized drug) for AUC(0-inf) has been presented|||1.09|0.95|
92144454|NCT01316510|184173211|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||Primary outcome (percentage of bifidobacteria in the final stool specimen)||||<0.01
92144455|NCT01316510|184173212|SUPERIORITY_OR_OTHER|||||||0.44|||||||t-test, 2 sided|||Secondary outcome (length of hospital stay) for all 24 infants (this included two infants with intestinal atresia, both in the placebo group)||||0.44
92144456|NCT00428090|184173217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.074|TWO_SIDED|95.0|-3.8|0.2||Comparison between Placebo and RSG XR 2 mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-3.8|0.074
92144457|NCT00428090|184173217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.338|TWO_SIDED|95.0|-3.0|1.0||Comparison between Placebo and RSG XR 8 mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.0|-3.0|0.338
92144458|NCT00428090|184173217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.602|TWO_SIDED|95.0|-3.5|2.1||Comparison between Placebo and Donepezil 10mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.1|-3.5|0.602
92144459|NCT00428090|184173218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.131|TWO_SIDED|95.0|-2.7|0.4||Comparison between Placebo and RSG XR 2 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.4|-2.7|0.131
92144460|NCT00428090|184173218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.315|TWO_SIDED|95.0|-2.4|0.8||Comparison between Placebo and RSG XR 8 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.8|-2.4|0.315
92144461|NCT00428090|184173218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.105|TWO_SIDED|95.0|-3.5|0.3||Comparison between Placebo and Donepezil 10 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-3.5|0.105
92144462|NCT00428090|184173219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.272|TWO_SIDED|95.0|-2.2|0.6||Comparison between Placebo and RSG XR 2 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.6|-2.2|0.272
92144463|NCT00428090|184173219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.297|TWO_SIDED|95.0|-2.2|0.7||Comparison between Placebo and RSG XR 8 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.7|-2.2|0.297
92144464|NCT00428090|184173219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.131|TWO_SIDED|95.0|-3.1|0.4||Comparison between Placebo and Donepezil 10 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix||||0.4|-3.1|0.131
92144465|NCT00428090|184173220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.663|TWO_SIDED|95.0|-0.3|0.4||Comparison between Placebo and RSG XR 2 mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.4|-0.3|0.663
92144466|NCT00428090|184173220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.891|TWO_SIDED|95.0|-0.4|0.3||Comparison between Placebo and RSG XR 8 mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-0.4|0.891
92291708|NCT02670551|184487102|SUPERIORITY||Least Squares Mean Difference|-0.3||||0.0662|TWO_SIDED|95.0|-0.5|0.0||MMRM analysis was used. Fixed factors: treatment group, pooled study center, visit, treatment-group-by-visit interaction. Covariates: Baseline value, baseline value-by-visit interaction. P-value was adjusted by matched parallel gatekeeping procedure.|Mixed Model Repeated Measures (MMRM)|||To control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6 for the primary and secondary efficacy parameters, the parallel gatekeeping procedure was implemented.||-0.0|-0.5|0.0662
92291709|NCT04476277|184487103|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92291710|NCT04476277|184487105|OTHER|||||||0.28|||||||t-test, 2 sided|||||||0.28
92291711|NCT04476277|184487106|OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
92291712|NCT04476277|184487107|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
92291713|NCT04476277|184487108|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
92291714|NCT04476277|184487109|OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
92291715|NCT04476277|184487110|OTHER|||||||0.48|||||||t-test, 2 sided|||||||0.48
92291716|NCT04476277|184487111|OTHER|||||||0.99|||||||t-test, 2 sided|||||||0.99
92291717|NCT04476277|184487112|OTHER|||||||0.39|||||||t-test, 2 sided|||||||0.39
92291718|NCT04476277|184487113|OTHER|||||||0.43|||||||t-test, 2 sided|||||||0.43
92291719|NCT04476277|184487114|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92291720|NCT04476277|184487115|OTHER|||||||0.01|||||||t-test, 1 sided|||||||0.01
92291721|NCT04476277|184487116|OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
92291722|NCT03105297|184487172|SUPERIORITY|||||||0.0147||95.0||||p-value for comparing between treatments (strip/no strip) were computed from mixed models with treatment \& period as fixed effects, participants as random effects \& time as repeated measures effect.|ANCOVA|||||||0.0147
92184390|NCT00264576|184267338|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.85|||||TWO_SIDED|95.0|0.7|1.03|||ANCOVA|||"The following hypotheses were tested for A/H1N1 strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.03|0.70|
92291723|NCT03105297|184487173|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-values are from a one sample t-test using SAS UNIVARIATE on change from baseline.|t-test, 1 sided|||||||<0.0001
92291724|NCT03105297|184487174|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-values are from a one sample t-test using SAS UNIVARIATE on change from baseline.|t-test, 1 sided|||||||<0.0001
92291725|NCT03105297|184487175|SUPERIORITY_OR_OTHER|||||||0.0073||95.0||||p-values are from a one sample t-test using SAS (Statistical Analysis System) UNIVARIATE on change from baseline.|t-test, 1 sided|||||||0.0073
92291726|NCT00714051|184487198|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Chi-squared|||The number of participants who fell on the tripping trial in each group were compared using Chi-square analysis||||0.45
92291727|NCT01390948|184487223|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.44||||0.1292|TWO_SIDED|95.0|0.9|2.3|||Log Rank|||||2.30|0.90|0.1292
92291728|NCT01131260|184487246|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.31||||0.2|TWO_SIDED|95.0|0.87|1.98|||Chi-squared|||Analysis on primary composite outcome as a whole.||1.98|0.87|0.20
92291729|NCT01131260|184487248|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.02||||0.37|TWO_SIDED|95.0|0.31|29.1|||Fisher Exact|||||29.1|0.31|0.37
92291730|NCT01131260|184487249|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.86||||0.02|TWO_SIDED|95.0|1.13|7.24|||Chi-squared|||||7.24|1.13|0.02
92291731|NCT01131260|184487250|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.76||||1|TWO_SIDED|95.0|0.17|3.38|||Fisher Exact|||||3.38|0.17|1.0
92291732|NCT01131260|184487251|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.37||||0.13|TWO_SIDED|95.0|0.1|1.41|||Chi-squared|||||1.41|0.10|0.13
92291733|NCT01131260|184487252|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.57||||0.07|TWO_SIDED|95.0|0.97|2.54|||Chi-squared|||||2.54|0.97|0.07
92291734|NCT01131260|184487253|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||1|TWO_SIDED|95.0|0.22|3.0|||Fisher Exact|||||3.00|0.22|1.0
92291735|NCT01131260|184487254|SUPERIORITY_OR_OTHER|||||||0.17|||||||Chi-squared|||||||.17
92291736|NCT01131260|184487255|SUPERIORITY_OR_OTHER|||||||0.45||||||The p value was calculated based on the entire study cohort.|Chi-squared|||||||0.45
92291737|NCT01131260|184487257|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||.32
92291738|NCT01131260|184487258|SUPERIORITY_OR_OTHER|||||||0.35|||||||Chi-squared|||||||0.35
92291739|NCT01131260|184487259|SUPERIORITY_OR_OTHER|||||||0.4|||||||Chi-squared|||||||0.40
92291740|NCT01131260|184487260|SUPERIORITY_OR_OTHER|||||||0.59|||||||Chi-squared|||||||0.59
92291741|NCT01131260|184487261|SUPERIORITY_OR_OTHER|||||||0.19|||||||Chi-squared|||||||.19
92291742|NCT01131260|184487262|SUPERIORITY_OR_OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
92291743|NCT01131260|184487263|SUPERIORITY_OR_OTHER|||||||0.28|||||||Chi-squared|||||||0.28
92291744|NCT01131260|184487264|SUPERIORITY_OR_OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
92291745|NCT01131260|184487265|SUPERIORITY_OR_OTHER|||||||0.98|||||||Chi-squared|||||||0.98
92291746|NCT01131260|184487266|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||||||.05
92291747|NCT03544216|184487267|OTHER||||||<|0.001||||||"Results of post-hoc analyses comparing scores of each lens type to one another:~Habitual lens and multifocal contact lens: p \<0.001 Habitual lens and single vision lens: p \<0.001 Multifocal lens and single vision lens: p = 0.08"|Generalized linear models|||Generalized linear models (controlling for repeated measures) of crossover analyses was run to compare mean CLDEQ-8 scores with habitual, multifocal, and single vision contact lenses (controlling for order)||||<0.001
92291748|NCT03544216|184487267|OTHER|||||||0.5||||||Analysis controlled for order, visit, and repeated measures.|Generalized linear model|||A generalized linear model was run to determine if there was an interaction between lens type (single vision or multifocal) and refractive error (continuous, mean binocular spherical equivalent)||||0.5
92291749|NCT03544216|184487267|OTHER|||||||0.7||||||Analysis controlled for order, visit, and repeated measures.|Generalized linear model|||A generalized linear model was run to determine if there was an interaction between magnitude in accommodative lag (measured in diopters with a 2 diopter visual target) and lens type (single vision or multifocal)||||0.7
92144467|NCT00428090|184173220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.414|TWO_SIDED|95.0|-0.7|0.3||Comparison between Placebo and Donepezil 10 mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|||0.3|-0.7|0.414
92144468|NCT00428090|184173221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.913|TWO_SIDED|95.0|-0.3|0.3||Comparison between Placebo and RSG XR 2 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix||||0.3|-0.3|0.913
92184391|NCT00264576|184267338|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.63|||||TWO_SIDED|95.0|0.52|0.76|||ANCOVA|||"The following hypotheses were tested for A/H3N2 strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||0.76|0.52|
92184392|NCT00264576|184267338|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|1.16|||||TWO_SIDED|95.0|0.98|1.38|||ANCOVA|||"The following hypotheses were tested for B strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.38|0.98|
92266700|NCT01015118|184434854|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.0749|TWO_SIDED|95.0|0.77|1.01|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|HR, CI and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||1.01|0.77|0.0749
92266701|NCT01015118|184434855|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.349|TWO_SIDED|95.0|0.81|1.82|||Regression, Logistic||An odds ratio \>1 favours nintedanib.|Odds ratio and p-value are obtained from logistic regression model adjusting for, macroscopic residual postoperative tumour (yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||1.82|0.81|0.3490
92266702|NCT01015118|184434856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.29|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|3.88|6.69|||Mixed effect growth curve model|Mixed-effects growth curve models (longitudinal models) with the average profile over time for each endpoint described by a piecewise linear model.|Mean difference presented is the Adjusted mean difference. Difference calculated as nintedanib minus placebo. High values represent a worse level of symptoms.|Adjusted for the stratification factors macroscopic residual postoperative tumour at baseline (yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) stage (IIB-III vs IV), and carboplatin level (AUC5 vs. AUC6).||6.69|3.88|<0.0001
92266703|NCT01015118|184434857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.88|STANDARD_ERROR_OF_MEAN|0.75||0.0124|TWO_SIDED|95.0|-3.35|-0.41|||Mixed effect growth curve model|Mixed-effects growth curve models (longitudinal models) with the average profile over time for each endpoint described by a piecewise linear model.|Mean difference calculated is the Adjusted mean. High values represent a better level of functioning. Difference calculated as nintedanib minus placebo.|Adjusted for the stratification factors macroscopic residual postoperative tumour at baseline (yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) stage (IIB-III vs IV), and carboplatin level (AUC5 vs. AUC6).||-0.41|-3.35|0.0124
92266704|NCT01522755|184434860|OTHER|t-test|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92266705|NCT01522755|184434861|OTHER|t-test|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92266706|NCT01522755|184434862|OTHER|t-test|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92266707|NCT03414658|184434863|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.025|TWO_SIDED|80.0|0.35|0.81|||Log Rank|||||0.81|0.35|0.025
92266708|NCT03414658|184434863|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.32|TWO_SIDED|80.0|0.8|1.64|||Log Rank|||||1.64|0.8|0.32
92266709|NCT00480077|184434871|SUPERIORITY|The primary end point of the study, all-cause death or hospitalization for heart failure, was analyzed on a time-to-first-event basis with the log-rank test. The hazard ratio (HR) associated with allocation to the access arm relative to control was estimated with corresponding 95% confidence interval (CI) by fitting a Cox proportional hazards model containing the treatment group as a categorical factor.||||||0.063|||||||Log Rank|||||||0.063
92266710|NCT01215968|184434887|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|2.19|||||TWO_SIDED|90.0|1.83|2.62|||Mixed Linear effects model analyses|Ratio is the Geometric LS Means of Day 10 over Day 3.||||2.62|1.83|
92266711|NCT01215968|184434887|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|1.94|||||TWO_SIDED|90.0|1.61|2.33|||Mixed Linear effects model analyses|Ratio is the Geometric LS Means of Day 17 over Day 3.||||2.33|1.61|
92266712|NCT01215968|184434887|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|1.91|||||TWO_SIDED|90.0|1.59|2.29|||Mixed Linear effects model analyses|Ratio is the Geometric LS Means of Day 24 over Day 3.||||2.29|1.59|
92266713|NCT01215968|184434887|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|1.84|||||TWO_SIDED|90.0|1.52|2.22|||Mixed Linear effects model analyses|Ratio is the Geometric LS Means of Day 31 over Day 3.||||2.22|1.52|
92266714|NCT05966129|184434898|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.7957|TWO_SIDED|95.0|-18.3|23.8|||t-test, 2 sided||||Confidence Interval Width = 42.1|23.8|-18.3|0.7957
92266715|NCT05966129|184434899|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.8255|TWO_SIDED|95.0|-0.4|0.5|||t-test, 2 sided||||Confidence Interval Width = 0.9|0.5|-0.4|0.8255
92266716|NCT05966129|184434900|SUPERIORITY|||||||0.9054|||||||Wilcoxon (Mann-Whitney)|||||||0.9054
92266717|NCT05966129|184434901|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.248|TWO_SIDED|95.0|-1.9|0.5|||t-test, 2 sided||||Confidence Interval Width = 2.4|0.5|-1.9|0.248
92266718|NCT05966129|184434902|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.6012|TWO_SIDED|95.0|-2.7|4.7|||t-test, 2 sided||||Confidence Interval Width = 7.4|4.7|-2.7|0.6012
92291750|NCT03544216|184487267|OTHER|||||||0.3||||||Analysis controlled for order, visit, and repeated measures.|Generalized linear model|||A generalized linear model was run to determine if there was an interaction between lens type (single vision or multifocal) and age (continuous, measured in self-reported years)||||0.3
92291751|NCT03544216|184487267|OTHER|||||||0.047||||||Analysis controlled for order, visit, and repeated measures|Generalized linear model|||A generalized linear model was run to determine if there was an interaction between lens type (single vision or multifocal) and age (measured categorically as 30 to \<35 years old and 35 to 40 years old, by self report)|"Post-Hoc Testing comparing CLDEQ-8 scores and the interaction between lens type and age group (denoted by lens type\*age group) produced the following results:~p = 0.01 for MF\*\<35 age group compared to Single Vision (SV)\*\<35 age group p = 0.07 for MF\*\<35 age group compared to MF\*\>35 age group p \> 0.05 for MF\*\<35 age group compared to Single Vision (SV)\*\>35 age group p \> 0.05 for SV\*\<35 age group compared to SV\*\>35 age group p \>0.05 for SV\*\<35 age group compared to MF\*\>35 age group p \> 0.05 for MF\*\>35 age group compared to SV\*\>25 age group"|||0.047
92291752|NCT01935674|184487268|SUPERIORITY||Mean Difference (Net)|12.7||||0.003|TWO_SIDED|95.0|2.9|22.5||P-value from Wilcoxon rank-sum test; significance threshold set at α = 0.05. No adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|Two-sided test; analysis based on intention-to-treat population.||Comparison of percentage change in fasting total cholesterol from baseline to week 12 between rosuvastatin and PI/r switch groups. Wilcoxon rank-sum test used. Study powered to detect a 15% difference with 80% power and α = 0.05. All participants included in intention-to-treat analysis.||22.5|2.9|0.003
92291753|NCT00849797|184487276|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|90.86||||||90.0|85.47|96.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||96.60|85.47|
92291754|NCT00849797|184487277|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.6||||||90.0|96.59|100.66|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.66|96.59|
92144469|NCT00428090|184173221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.276|TWO_SIDED|95.0|-0.4|0.1||Comparison between Placebo and RSG XR 8 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.1|-0.4|0.276
92291755|NCT00849797|184487278|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.74||||||90.0|96.71|100.8|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.80|96.71|
92291756|NCT00849797|184487279|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.5||||||90.0|95.66|100.48|||||Results presented for informational purposes only; metabolite not subjected to bioequivalence criteria.|||100.48|95.66|
92291757|NCT00849797|184487280|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.29||||||90.0|98.96|101.64|||||Results presented for informational purposes only, metabolite not subjected to bioequivalence criteria.|||101.64|98.96|
92291758|NCT00849797|184487281|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.08||||||90.0|98.91|101.27|||||Results presented for informational purposes only; metabolite not subjected to bioequivalence criteria.|||101.27|98.91|
92291759|NCT01494532|184487282|SUPERIORITY_OR_OTHER|||||||0.814||95.0||||P-values were estimated from Mixed Model Repeated Measures (MMRM).|Mixed Models Analysis|||4mg/day vs Placebo||||0.814
92291760|NCT01494532|184487282|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-values were estimated from Mixed Model Repeated Measures (MMRM).|Mixed Models Analysis|||8 mg/day vs Placebo||||0.013
92144470|NCT00428090|184173221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.025|TWO_SIDED|95.0|-0.8|-0.1||Comparison between Placebo and Donepezil 10 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||-0.1|-0.8|0.025
92144471|NCT00428090|184173222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.939|TWO_SIDED|95.0|-0.2|0.3||Comparison between Placebo and RSG XR 2 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-0.2|0.939
92291761|NCT01494532|184487282|SUPERIORITY_OR_OTHER|||||||0.287||95.0||||P-values were estimated from Mixed Model Repeated Measures (MMRM).|Mixed Models Analysis|||12 mg/day vs Placebo||||0.287
92144472|NCT00428090|184173222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.307|TWO_SIDED|95.0|-0.4|0.1||Comparison between Placebo and RSG XR 8 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.1|-0.4|0.307
92266719|NCT05966129|184434903|SUPERIORITY|||||||0.7528|||||||Chi-squared|||||||0.7528
92266720|NCT05966129|184434904|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92291762|NCT01494532|184487282|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-values were estimated from Mixed Model Repeated Measures (MMRM).|Mixed Models Analysis|||16 mg/day vs Placebo||||0.027
92291763|NCT01494532|184487282|SUPERIORITY_OR_OTHER|||||||0.39||95.0||||P-values were estimated from Mixed Model Repeated Measures (MMRM).|Mixed Models Analysis|||24 mg/day vs Placebo||||0.390
92291764|NCT01494532|184487282|SUPERIORITY_OR_OTHER|||||||0.844||95.0||||P-values are from a nonparametric rank ANCOVA|ANCOVA|||4mg/day vs Placebo||||0.844
92291765|NCT01494532|184487282|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-values are from a nonparametric rank ANCOVA|ANCOVA|||8 mg/day vs Placebo||||0.030
92291766|NCT01494532|184487282|SUPERIORITY_OR_OTHER|||||||0.437||95.0||||P-values are from a nonparametric rank ANCOVA|ANCOVA|||12 mg/day vs Placebo||||0.437
92291767|NCT01494532|184487282|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-values are from a nonparametric rank ANCOVA|ANCOVA|||16 mg/day vs Placebo||||0.034
92291768|NCT01494532|184487282|SUPERIORITY_OR_OTHER|||||||0.808||95.0||||P-values are from a nonparametric rank ANCOVA|ANCOVA|||24 mg/day vs Placebo||||0.808
92291769|NCT01494532|184487283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.123||||0.826|TWO_SIDED|95.0|0.398|3.166|||Generalized Estimating Equations model|||||3.166|0.398|0.826
92291770|NCT01494532|184487283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.622||||0.233|TWO_SIDED|95.0|0.732|3.593|||Generalized Estimating Equations model|||||3.593|0.732|0.233
92291771|NCT01494532|184487283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.953||||0.902|TWO_SIDED|95.0|0.439|2.065|||Generalized Estimating Equations model|||||2.065|0.439|0.902
92291772|NCT01494532|184487283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.866||||0.127|TWO_SIDED|95.0|0.837|4.158|||Generalized Estimating Equations model|||||4.158|0.837|0.127
92291773|NCT01494532|184487283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.362||||0.564|TWO_SIDED|95.0|0.477|3.888|||Generalized Estimating Equations model|||||3.888|0.477|0.564
92291774|NCT01494532|184487284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.908||||0.861|TWO_SIDED|95.0|0.31|2.659|||Generalized Estimating Equations model|||||2.659|0.310|0.861
92291775|NCT01494532|184487284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.608||||0.277|TWO_SIDED|95.0|0.684|3.782|||Generalized Estimating Equations model|||||3.782|0.684|0.277
92184393|NCT00264576|184267338|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.92|||||TWO_SIDED|95.0|0.76|1.12||To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|ANCOVA|||"The following hypotheses were tested for A/H1N1 strain as measured by HI cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.12|0.76|
92291776|NCT01494532|184487284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.074||||0.869|TWO_SIDED|95.0|0.461|2.5|||Generalized Estimating Equations model|||||2.500|0.461|0.869
92291777|NCT01494532|184487284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.916||||0.14|TWO_SIDED|95.0|0.808|4.545|||Generalized Estimating Equations model|||||4.545|0.808|0.140
92291778|NCT01494532|184487284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.689||||0.362|TWO_SIDED|95.0|0.547|5.218|||Generalized Estimating Equations model|||||5.218|0.547|0.362
92144473|NCT00428090|184173222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.009|TWO_SIDED|95.0|-0.8|-0.1||Comparison between Placebo and Donepezil 10 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||-0.1|-0.8|0.009
92291779|NCT01494532|184487285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.723||||0.525|TWO_SIDED|95.0|0.266|1.965|||Generalized Estimating Equations model|||||1.965|0.266|0.525
92291780|NCT01494532|184487285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.851||||0.13|TWO_SIDED|95.0|0.834|4.109|||Generalized Estimating Equations model|||||4.109|0.834|0.130
92291781|NCT01494532|184487285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.996||||0.992|TWO_SIDED|95.0|0.444|2.232|||Generalized Estimating Equations model|||||2.232|0.444|0.992
92291782|NCT01494532|184487285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.329|TWO_SIDED|95.0|0.674|3.248|||Generalized Estimating Equations model|||||3.248|0.674|0.329
92291783|NCT01494532|184487285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.907||||0.856|TWO_SIDED|95.0|0.315|2.61|||Generalized Estimating Equations model|||||2.610|0.315|0.856
92291784|NCT01494532|184487287|SUPERIORITY_OR_OTHER|||||||0.376|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.376
92291785|NCT01494532|184487287|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.036
92291786|NCT01494532|184487287|SUPERIORITY_OR_OTHER|||||||0.362|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.362
92291787|NCT01494532|184487287|SUPERIORITY_OR_OTHER|||||||0.089|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.089
92291788|NCT01494532|184487287|SUPERIORITY_OR_OTHER|||||||0.403|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.403
92291789|NCT01494532|184487288|SUPERIORITY_OR_OTHER|||||||0.419|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.419
92291790|NCT01494532|184487288|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.026
92291791|NCT01494532|184487288|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.230
92291792|NCT01494532|184487288|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.033
92291793|NCT01494532|184487288|SUPERIORITY_OR_OTHER|||||||0.266|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.266
92291794|NCT01494532|184487289|SUPERIORITY_OR_OTHER|||||||0.073|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.073
92291795|NCT01494532|184487289|SUPERIORITY_OR_OTHER|||||||0.996|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.996
92291796|NCT01494532|184487289|SUPERIORITY_OR_OTHER|||||||0.791|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.791
92291797|NCT01494532|184487289|SUPERIORITY_OR_OTHER|||||||0.747|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.747
92291798|NCT01494532|184487289|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.600
92291799|NCT01494532|184487290|SUPERIORITY_OR_OTHER|||||||0.998|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.998
92291800|NCT01494532|184487290|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.017
92291801|NCT01494532|184487290|SUPERIORITY_OR_OTHER|||||||0.312|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.312
92291802|NCT01494532|184487290|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.008
92291803|NCT01494532|184487290|SUPERIORITY_OR_OTHER|||||||0.659|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.659
92291804|NCT01494532|184487291|SUPERIORITY_OR_OTHER|||||||0.337|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.337
92291805|NCT01494532|184487291|SUPERIORITY_OR_OTHER|||||||0.126|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.126
92291806|NCT01494532|184487291|SUPERIORITY_OR_OTHER|||||||0.283|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.283
92291807|NCT01494532|184487291|SUPERIORITY_OR_OTHER|||||||0.148|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.148
92291808|NCT01494532|184487291|SUPERIORITY_OR_OTHER|||||||0.581|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.581
92291809|NCT01494532|184487292|SUPERIORITY_OR_OTHER|||||||0.486|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.486
92291810|NCT01494532|184487292|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.026
92291811|NCT01494532|184487292|SUPERIORITY_OR_OTHER|||||||0.121|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.121
92291812|NCT01494532|184487292|SUPERIORITY_OR_OTHER|||||||0.081|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.081
92291813|NCT01494532|184487292|SUPERIORITY_OR_OTHER|||||||0.187|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.187
92291814|NCT01494532|184487293|SUPERIORITY_OR_OTHER|||||||0.134|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.134
92291815|NCT01494532|184487293|SUPERIORITY_OR_OTHER|||||||0.768|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.768
92291816|NCT01494532|184487293|SUPERIORITY_OR_OTHER|||||||0.859|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.859
92291817|NCT01494532|184487293|SUPERIORITY_OR_OTHER|||||||0.903|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.903
92291818|NCT01494532|184487293|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.470
92291819|NCT01494532|184487294|SUPERIORITY_OR_OTHER|||||||0.822|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.822
92291820|NCT01494532|184487294|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.025
92291821|NCT01494532|184487294|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.267
92291822|NCT01494532|184487294|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.039
92291823|NCT01494532|184487294|SUPERIORITY_OR_OTHER|||||||0.458|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.458
92291824|NCT01494532|184487295|SUPERIORITY_OR_OTHER|||||||0.734|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.734
92291825|NCT01494532|184487295|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.048
92291826|NCT01494532|184487295|SUPERIORITY_OR_OTHER|||||||0.443|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.443
92291827|NCT01494532|184487295|SUPERIORITY_OR_OTHER|||||||0.123|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.123
92291828|NCT01494532|184487295|SUPERIORITY_OR_OTHER|||||||0.641|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.641
92291829|NCT01494532|184487296|SUPERIORITY_OR_OTHER|||||||0.822|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.822
92291830|NCT01494532|184487296|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.025
92291831|NCT01494532|184487296|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.267
92291832|NCT01494532|184487296|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.039
92291833|NCT01494532|184487296|SUPERIORITY_OR_OTHER|||||||0.458|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.458
92291834|NCT01494532|184487297|SUPERIORITY_OR_OTHER|||||||0.814|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.814
92291835|NCT01494532|184487297|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.013
92291836|NCT01494532|184487297|SUPERIORITY_OR_OTHER|||||||0.287|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.287
92291837|NCT01494532|184487297|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.027
92291838|NCT01494532|184487297|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.390
92291839|NCT01494532|184487298|SUPERIORITY_OR_OTHER|||||||0.376|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.376
92291840|NCT01494532|184487298|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.036
92291841|NCT01494532|184487298|SUPERIORITY_OR_OTHER|||||||0.362|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.362
92291842|NCT01494532|184487298|SUPERIORITY_OR_OTHER|||||||0.089|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.089
92291843|NCT01494532|184487298|SUPERIORITY_OR_OTHER|||||||0.403|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.403
92291844|NCT01494532|184487299|SUPERIORITY_OR_OTHER|||||||0.419|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.419
92291845|NCT01494532|184487299|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.026
92291846|NCT01494532|184487299|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.230
92291847|NCT01494532|184487299|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.033
92291848|NCT01494532|184487299|SUPERIORITY_OR_OTHER|||||||0.266|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.266
92291849|NCT01494532|184487300|SUPERIORITY_OR_OTHER|||||||0.073|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.073
92291850|NCT01494532|184487300|SUPERIORITY_OR_OTHER|||||||0.996|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.996
92291851|NCT01494532|184487300|SUPERIORITY_OR_OTHER|||||||0.791|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.791
92144474|NCT00428090|184173223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.116|TWO_SIDED|95.0|-2.0|0.2||Comparison between Placebo and RSG XR 2 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-2.0|0.116
92144475|NCT00428090|184173223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.816|TWO_SIDED|95.0|-0.9|1.2||Comparison between Placebo and RSG XR 8 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.2|-0.9|0.816
92144476|NCT00428090|184173223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.318|TWO_SIDED|95.0|-2.1|0.7||Comparison between Placebo and Donepezil 10 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.7|-2.1|0.318
92144477|NCT00428090|184173223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.839|TWO_SIDED|95.0|-1.1|1.3||Comparison between Placebo and RSG XR 2 mg in at Week 16 Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.3|-1.1|0.839
92144478|NCT00428090|184173223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.165|TWO_SIDED|95.0|-0.3|2.0||Comparison between Placebo and RSG XR 8 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.0|-0.3|0.165
92184394|NCT00264576|184267338|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.69|||||TWO_SIDED|95.0|0.57|0.83|||ANCOVA|||"The following hypotheses were tested for A/H3N2 strain as measured by HI cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||0.83|0.57|
92144479|NCT00428090|184173223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.073|TWO_SIDED|95.0|-3.4|0.2||Comparison between Placebo and Donepezil 10 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-3.4|0.073
92184395|NCT00264576|184267338|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|1.33|||||TWO_SIDED|95.0|1.13|1.58|||ANCOVA|||"The following hypotheses were tested for B strain as measured by HI cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.58|1.13|
92291852|NCT01494532|184487300|SUPERIORITY_OR_OTHER|||||||0.747|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.747
92291853|NCT01494532|184487300|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.600
92291854|NCT01494532|184487301|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.007
92291855|NCT01494532|184487301|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.014
92291856|NCT01494532|184487301|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.016
92291857|NCT01494532|184487301|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.005
92291858|NCT01494532|184487301|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.008
92291859|NCT01494532|184487302|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.047
92291860|NCT01494532|184487302|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.005
92291861|NCT01494532|184487302|SUPERIORITY_OR_OTHER|||||||0.172|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.172
92291862|NCT01494532|184487302|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.034
92291863|NCT01494532|184487302|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.039
92291864|NCT01494532|184487303|SUPERIORITY_OR_OTHER|||||||0.292|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.292
92291865|NCT01494532|184487303|SUPERIORITY_OR_OTHER|||||||0.068|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.068
92291866|NCT01494532|184487303|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.170
92291867|NCT01494532|184487303|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.003
92291868|NCT01494532|184487303|SUPERIORITY_OR_OTHER|||||||0.153|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.153
92291869|NCT01494532|184487304|SUPERIORITY_OR_OTHER|||||||0.409|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.409
92291870|NCT01494532|184487304|SUPERIORITY_OR_OTHER|||||||0.598|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.598
92291871|NCT01494532|184487304|SUPERIORITY_OR_OTHER|||||||0.992|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.992
92291872|NCT01494532|184487304|SUPERIORITY_OR_OTHER|||||||0.169|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.169
92291873|NCT01494532|184487304|SUPERIORITY_OR_OTHER|||||||0.348|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.348
92291874|NCT02153645|184487311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|2.9||0.179|TWO_SIDED|95.0|-13.9|2.6|||ANCOVA|||||2.6|-13.9|0.179
92144480|NCT00428090|184173223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.272|TWO_SIDED|95.0|-2.2|0.6||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.6|-2.2|0.272
92144481|NCT00428090|184173223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.297|TWO_SIDED|95.0|-2.2|0.7||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.7|-2.2|0.297
92144482|NCT00428090|184173223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.131|TWO_SIDED|95.0|-3.1|0.4||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.4|-3.1|0.131
92291875|NCT02153645|184487311|SUPERIORITY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|2.95||0.458|TWO_SIDED|95.0|-11.2|5.1|||ANCOVA|||||5.1|-11.2|0.458
92291876|NCT01139762|184487316|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.41||||0.001|TWO_SIDED|95.0|-2.27|-0.55|||Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.55|-2.27|0.001
92291877|NCT01139762|184487318|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51||||0.007|TWO_SIDED|95.0|-0.87|-0.14||P-value is for IPSS storage (irritative) subscore - 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.14|-0.87|0.007
92291878|NCT01139762|184487318|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.41||||0.04|TWO_SIDED|95.0|-0.8|-0.02||P-value is for IPSS storage (irritative) subscore - 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.02|-0.80|0.040
92291879|NCT01139762|184487318|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34||||0.107|TWO_SIDED|95.0|-0.75|0.07||P-value is for IPSS storage (irritative) subscore - 26 weeks|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.07|-0.75|0.107
92291880|NCT01139762|184487318|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.18|||<|0.001|TWO_SIDED|95.0|-1.69|-0.68||P-value is for IPSS voiding (obstructive) subscore - 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.68|-1.69|<0.001
92291881|NCT01139762|184487318|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.04|||<|0.001|TWO_SIDED|95.0|-1.62|-0.46||P-value is for IPSS voiding (obstructive) subscore - 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.46|-1.62|<0.001
92291882|NCT01139762|184487318|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.73||||0.015|TWO_SIDED|95.0|-1.32|-0.14||P-value is IPSS voiding (obstructive) subscore - 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.14|-1.32|0.015
92291883|NCT01139762|184487319|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|||<|0.001|TWO_SIDED|95.0|-0.5|-0.14||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.14|-0.50|<0.001
92291884|NCT01139762|184487319|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.051|TWO_SIDED|95.0|-0.38|0.0||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.00|-0.38|0.051
92291885|NCT01139762|184487319|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17||||0.107|TWO_SIDED|95.0|-0.38|0.04||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.04|-0.38|0.107
92291886|NCT01139762|184487320|SUPERIORITY_OR_OTHER||LS Mean Difference|4.85|||<|0.001|TWO_SIDED|95.0|3.49|6.21||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||6.21|3.49|<0.001
92291887|NCT01139762|184487320|SUPERIORITY_OR_OTHER||LS Mean Difference|4.08|||<|0.001|TWO_SIDED|95.0|2.55|5.6||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||5.60|2.55|<0.001
92291888|NCT01139762|184487320|SUPERIORITY_OR_OTHER||LS Mean Difference|4.73|||<|0.001|TWO_SIDED|95.0|3.15|6.31||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||6.31|3.15|<0.001
92291889|NCT01139762|184487321|SUPERIORITY_OR_OTHER||LS Mean Difference|1.01|||<|0.001|TWO_SIDED|95.0|0.61|1.4||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.40|0.61|<0.001
92291890|NCT01139762|184487321|SUPERIORITY_OR_OTHER||LS Mean Difference|1.06|||<|0.001|TWO_SIDED|95.0|0.61|1.51||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.51|0.61|<0.001
92291891|NCT01139762|184487321|SUPERIORITY_OR_OTHER||LS Mean Difference|1.22|||<|0.001|TWO_SIDED|95.0|0.74|1.69||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.69|0.74|<0.001
92291892|NCT01139762|184487322|SUPERIORITY_OR_OTHER||LS Mean Difference|1.82|||<|0.001|TWO_SIDED|95.0|1.18|2.47||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||2.47|1.18|<0.001
92291893|NCT01139762|184487322|SUPERIORITY_OR_OTHER||LS Mean Difference|1.59|||<|0.001|TWO_SIDED|95.0|0.88|2.31||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||2.31|0.88|<0.001
92291894|NCT01139762|184487322|SUPERIORITY_OR_OTHER||LS Mean Difference|1.98|||<|0.001|TWO_SIDED|95.0|1.23|2.73||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||2.73|1.23|<0.001
92291895|NCT01139762|184487323|SUPERIORITY_OR_OTHER||LS Mean Difference|1.53|||<|0.001|TWO_SIDED|95.0|0.92|2.13||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||2.13|0.92|<0.001
92291896|NCT01139762|184487323|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9||||0.006|TWO_SIDED|95.0|0.27|1.54||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.54|0.27|0.006
92291897|NCT01139762|184487323|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07||||0.002|TWO_SIDED|95.0|0.41|1.74||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.74|0.41|0.002
92291898|NCT01139762|184487324|SUPERIORITY_OR_OTHER||LS Mean Difference|0.93|||<|0.001|TWO_SIDED|95.0|0.61|1.25||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.25|0.61|<0.001
92291899|NCT01139762|184487324|SUPERIORITY_OR_OTHER||LS Mean Difference|0.79|||<|0.001|TWO_SIDED|95.0|0.44|1.14||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.14|0.44|<0.001
92291900|NCT01139762|184487324|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76|||<|0.001|TWO_SIDED|95.0|0.39|1.13||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.13|0.39|<0.001
92291901|NCT01139762|184487325|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-value is for overall distribution of responses.|Cochran-Mantel-Haenszel|Adjusted for baseline lower urinary tract symptoms (LUTS) severity.||||||0.034
92144483|NCT00428090|184173224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.133|TWO_SIDED|95.0|-0.3|0.0||Comparison between Placebo and RSG XR 2 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.0|-0.3|0.133
92144484|NCT00428090|184173224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.958|TWO_SIDED|95.0|-0.2|0.2||Comparison between Placebo and RSG XR 8 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-0.2|0.958
92144485|NCT00428090|184173224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.085|TWO_SIDED|95.0|-0.5|0.0||Comparison between Placebo and Donepezil 10 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.0|-0.5|0.085
92144486|NCT00428090|184173224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.102|TWO_SIDED|95.0|-0.4|0.0||Comparison between Placebo and RSG XR 2 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.0|-0.4|0.102
92184396|NCT02236611|184267373|NON_INFERIORITY_OR_EQUIVALENCE|Alternate hypothesis: the difference between the trt means (umeclidinium minus glycopyrronium) would be \> -50 milliliters (mL). If the lower CI (2.5% 1-sided significance level) of the statistical test should fall above -50 mL, then umeclidinium may be deemed statistically non-inferior to glycopyrronium. If the lower CI (2.5% 1-sided significance) of the statistical testing exceeded 0 then, umeclidinium may be deemed statistically superior to glycopyrronium.|Mean Difference (Final Values)|0.024||||0.1|TWO_SIDED|95.0|-0.005|0.054|||Mixed Models Analysis|||||0.054|-0.005|0.100
92184397|NCT01332266|184267401|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.54|1.46||||||||1.46|0.54|
92291902|NCT01139762|184487326|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Van Elteren test|Van Elteren test was stratified by region.||||||0.031
92291903|NCT01139762|184487327|SUPERIORITY_OR_OTHER|||||||0.328||95.0||||P-value is for overall distribution of responses.|Cochran-Mantel-Haenszel|Adjusted for baseline lower urinary tract symptoms (LUTS) severity.||||||0.328
92291904|NCT01139762|184487328|SUPERIORITY_OR_OTHER|||||||0.157||95.0|||||Wilcoxon Rank-Sum test|||||||0.157
92291905|NCT01139762|184487329|SUPERIORITY_OR_OTHER||LS Mean Difference|0.74|||<|0.001|TWO_SIDED|95.0|0.49|0.98||P-value is for Question 3 - 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.98|0.49|<0.001
92291906|NCT01139762|184487329|SUPERIORITY_OR_OTHER||LS Mean Difference|0.68|||<|0.001|TWO_SIDED|95.0|0.43|0.93||P-value is for Question 3 - 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.93|0.43|<0.001
92291907|NCT01139762|184487329|SUPERIORITY_OR_OTHER||LS Mean Difference|0.75|||<|0.001|TWO_SIDED|95.0|0.48|1.02||P-value is for Question 3 - 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.02|0.48|<0.001
92291908|NCT01139762|184487329|SUPERIORITY_OR_OTHER||LS Mean Difference|0.71|||<|0.001|TWO_SIDED|95.0|0.46|0.95||P-value is for Question 4 - 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.95|0.46|<0.001
92291909|NCT01139762|184487329|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61|||<|0.001|TWO_SIDED|95.0|0.36|0.85||P-value is for Question 4 - 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.85|0.36|<0.001
92291910|NCT01139762|184487329|SUPERIORITY_OR_OTHER||LS Mean Difference|0.62|||<|0.001|TWO_SIDED|95.0|0.35|0.89||P-value is for Question 4 - 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.89|0.35|<0.001
92291911|NCT01404988|184487360|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED|||||For this pilot study, the Type 1 error was set at 5%|Wilcoxon (Mann-Whitney)|||||||0.1
92291912|NCT01404988|184487360|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.2
92291913|NCT01404988|184487361|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|||||For this pilot study, the type 1 error was set at 5%|Wilcoxon (Mann-Whitney)|||||||.3
92291914|NCT01404988|184487361|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.77
92144487|NCT00428090|184173224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.38|TWO_SIDED|95.0|-0.3|0.1||Comparison between Placebo and RSG XR 8 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.1|-0.3|0.380
92144488|NCT00428090|184173224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.006|TWO_SIDED|95.0|-0.7|-0.1||Comparison between Placebo and Donepezil 10 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||-0.1|-0.7|0.006
92144489|NCT00428090|184173224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.939|TWO_SIDED|95.0|-0.2|0.3||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-0.2|0.939
92144490|NCT00428090|184173224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.307|TWO_SIDED|95.0|-0.4|0.1||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.1|-0.4|0.307
92144491|NCT00428090|184173224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.009|TWO_SIDED|95.0|-0.8|-0.1||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||-0.1|-0.8|0.009
92144492|NCT00428090|184173225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.957|TWO_SIDED|95.0|-1.6|1.5||Comparison between Placebo and RSG XR 2mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.5|-1.6|0.957
92144493|NCT00428090|184173225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.693|TWO_SIDED|95.0|-1.4|2.2||Comparison between Placebo and RSG XR 8 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.2|-1.4|0.693
92144494|NCT00428090|184173225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.798|TWO_SIDED|95.0|-2.2|1.7||Comparison between Placebo and Donepezil 10 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.7|-2.2|0.798
92144495|NCT00428090|184173225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.958|TWO_SIDED|95.0|-1.7|1.8||Comparison between Placebo and RSG XR 2 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.8|-1.7|0.958
92184398|NCT01332266|184267403|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.61|1.73||||||||1.73|0.61|
92184399|NCT01332266|184267404|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.53|1.37||||||||1.37|0.53|
92291915|NCT01404988|184487362|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||For this pilot study, the type 1 error was set at 5%|Wilcoxon (Mann-Whitney)|||||||0.03
92291916|NCT01404988|184487362|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.06
92291917|NCT01404988|184487363|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|||||For this pilot study, type 1 error was set at 5%|Fisher Exact|||||||0.60
92291918|NCT01404988|184487363|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Fisher Exact|||||||0.16
92291919|NCT01894230|184487403|EQUIVALENCE|Month 3|Slope|-0.0189|STANDARD_ERROR_OF_MEAN|0.3986||0.96|TWO_SIDED||||||Regression, Linear|||||||0.96
92291920|NCT01894230|184487403|EQUIVALENCE|Month 8|Slope|-0.2468|STANDARD_ERROR_OF_MEAN|0.4315||0.57|TWO_SIDED||||||Regression, Linear|||||||0.57
92291921|NCT01894230|184487404|EQUIVALENCE|Month 3|Slope|-11.32|STANDARD_ERROR_OF_MEAN|5.68||0.0482|TWO_SIDED||||||Regression, Linear|||||||0.0482
92291922|NCT01894230|184487404|EQUIVALENCE|Month 8|Slope|-9.9|STANDARD_ERROR_OF_MEAN|6.333||0.12|TWO_SIDED||||||Regression, Linear|||||||0.12
92291923|NCT01894230|184487405|EQUIVALENCE|MPR calculated from baseline to last patient follow-up (3 months or 8 months)|Slope|-0.053|STANDARD_ERROR_OF_MEAN|0.091||0.6692|TWO_SIDED||||||Regression, Linear|||||||0.6692
92291924|NCT01894230|184487406|EQUIVALENCE|Baseline to Month 3|Odds Ratio (OR)|2.025||||0.0371|TWO_SIDED|95.0|1.043|3.929|||Regression, Logistic|||||3.929|1.043|0.0371
92291925|NCT01894230|184487406|EQUIVALENCE|Month 3 to Month 8|Odds Ratio (OR)|1.115||||0.8815|TWO_SIDED|95.0|0.265|4.687|||Regression, Logistic|||||4.687|0.265|0.8815
92291926|NCT01894230|184487407|EQUIVALENCE|Month 3|Slope|0.143|STANDARD_ERROR_OF_MEAN|0.27||0.5965|TWO_SIDED||||||Regression, Linear|||||||0.5965
92144496|NCT00428090|184173225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.998|TWO_SIDED|95.0|-2.1|2.1||Comparison between Placebo and RSG XR 8 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.1|-2.1|0.998
92291927|NCT01894230|184487407|EQUIVALENCE|Month 8|Slope|0.258|STANDARD_ERROR_OF_MEAN|0.346||0.4579|TWO_SIDED||||||Regression, Linear|||||||0.4579
92291928|NCT01894230|184487408|EQUIVALENCE|Month 3|Slope|0.098|STANDARD_ERROR_OF_MEAN|0.163||0.5477|TWO_SIDED||||||Regression, Linear|||||||0.5477
92291929|NCT01894230|184487408|EQUIVALENCE|Month 8|Slope|0.298|STANDARD_ERROR_OF_MEAN|0.145||0.0429|TWO_SIDED||||||Regression, Linear|||||||0.0429
92291930|NCT01894230|184487409|EQUIVALENCE|Month 3|Slope|-0.211|STANDARD_ERROR_OF_MEAN|0.881||0.8106|TWO_SIDED||||||Regression, Linear|||||||0.8106
92291931|NCT01894230|184487409|EQUIVALENCE|Month 8|Slope|0.646|STANDARD_ERROR_OF_MEAN|1.009||0.5233|TWO_SIDED||||||Regression, Linear|||||||0.5233
92291932|NCT01894230|184487410|EQUIVALENCE|Month 3|Slope|-0.6001|STANDARD_ERROR_OF_MEAN|1.472||0.6841|TWO_SIDED||||||Regression, Linear|||||||0.6841
92144497|NCT00428090|184173225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.639||95.0|-1.7|2.8||Comparison between Placebo and Donepezil 10 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.8|-1.7|0.639
92291933|NCT01894230|184487410|EQUIVALENCE|Month 8|Slope|-0.771|STANDARD_ERROR_OF_MEAN|1.781||0.6658|TWO_SIDED||||||Regression, Linear|||||||0.6658
92291934|NCT01894230|184487411|EQUIVALENCE|Month 8|Odds Ratio (OR)|1.085||||0.8384|TWO_SIDED|95.0|0.495|2.38|||Regression, Logistic|Ordinal Logistic||||2.380|0.495|0.8384
92291935|NCT01894230|184487412|EQUIVALENCE|Month 3 BMQ Necessity|Slope|1.163|STANDARD_ERROR_OF_MEAN|0.584||0.0486|TWO_SIDED||||||Regression, Linear|||||||0.0486
92291936|NCT01894230|184487412|EQUIVALENCE|Month 8, BMQ Necessity|Slope|0.248|STANDARD_ERROR_OF_MEAN|0.67||0.7235|TWO_SIDED||||||Regression, Linear|||||||0.7235
92291937|NCT01894230|184487412|EQUIVALENCE|Month 3, BMQ Concerns|Slope|-0.862|STANDARD_ERROR_OF_MEAN|0.686||0.2113|TWO_SIDED||||||Regression, Linear|||||||0.2113
92291938|NCT01894230|184487412|EQUIVALENCE|Month 8, BMQ Concerns|Slope|-1.0083|STANDARD_ERROR_OF_MEAN|0.737||0.1739|TWO_SIDED||||||Regression, Linear|||||||0.1739
92291939|NCT02664415|184487512|SUPERIORITY|||||||1|||||||Fisher Exact|This is to confirm that the p-value from Fisher's Exact test was 1.000.||||||1.000
92291940|NCT02664415|184487513|SUPERIORITY|||||||0.051|||||||Log Rank|||A comparison of time from ATI to HIV-1 RNA \>= 20 copies/mL between arms.||||0.051
92291941|NCT02664415|184487513|SUPERIORITY|||||||0.01|||||||Log Rank|||A comparison of time from ATI to HIV-1 RNA \>= 1000 copies/mL between arms.||||0.01
92291942|NCT02664415|184487514|SUPERIORITY|||||||0.027||||||This is a p-value, comparing HIV-1 RNA levels at first detection between arms.|Wilcoxon (Mann-Whitney)|||||||0.027
92291943|NCT02664415|184487514|SUPERIORITY|||||||0.588||||||This is p-value, comparing HIV-1 RNA levels at ART resumption between arms.|Wilcoxon (Mann-Whitney)|||||||0.588
92291944|NCT02664415|184487515|SUPERIORITY|||||||0.031|||||||Log Rank|||||||0.031
92291945|NCT02664415|184487517|SUPERIORITY|||||||0.693|||||||Wilcoxon (Mann-Whitney)|||||||0.693
92291946|NCT02664415|184487518|SUPERIORITY|||||||0.15||||||The p-value is not adjusted for multiple comparisons.|Wilcoxon signed-rank test|||A comparison of total HIV DNA at baseline ATI and ART resumption within the VRC01 arm.||||0.15
92291947|NCT02664415|184487518|SUPERIORITY|||||||0.04||||||The p-value is not adjusted for multiple comparisons.|Wilcoxon signed-rank test|||A comparison of total HIV DNA at baseline ATI and ART resumption within the placebo arm.||||0.04
92291948|NCT02664415|184487518|SUPERIORITY|||||||0.002||||||The p-value is adjusted for multiple comparisons.|Wilcoxon signed-rank test|||A comparison of total HIV DNA at ART resumption and 6 months after ART resumption within the VRC01 arm.||||0.002
92291949|NCT02664415|184487518|SUPERIORITY|||||||0.22||||||The p-value is adjusted for multiple comparisons.|Wilcoxon signed-rank test|||A comparison of total HIV DNA at ART resumption and 6 months after ART resumption within the placebo arm.||||0.22
92291950|NCT02664415|184487518|SUPERIORITY|||||||0.05|||||||Wilcoxon signed-rank test|||A comparison of total HIV DNA atbaseline ATI and 6 months after ART resumption within the VRC01 arm.||||0.05
92291951|NCT02664415|184487518|SUPERIORITY|||||||0.22|||||||Wilcoxon signed-rank test|||A comparison of total HIV DNA at baeline ATI versus 6 months after ART resumption in the placebo arm||||0.22
92291952|NCT02664415|184487521|SUPERIORITY|||||||0.961|||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at baseline ATI||||0.961
92291953|NCT02664415|184487521|SUPERIORITY|||||||0.805|||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at ART resumption||||0.805
92291954|NCT02664415|184487521|SUPERIORITY|||||||0.221|||||||Wilcoxon signed-rank test|||Comparison between Baseline and ART resumption within VRC01 arm.||||0.221
92291955|NCT02664415|184487521|SUPERIORITY|||||||0.5|||||||Wilcoxon signed-rank test|||Comparison between Baseline and ART resumption within Placebo arm.||||0.500
92291956|NCT02664415|184487522|SUPERIORITY|||||||0.522|||||||Wilcoxon (Mann-Whitney)|||Comparison between groups at baseline ATI.||||0.522
92291957|NCT02664415|184487522|SUPERIORITY|||||||0.961|||||||Wilcoxon (Mann-Whitney)|||A comparison between groups at ART resumption.||||0.961
92291958|NCT02664415|184487522|SUPERIORITY|||||||0.002|||||||Wilcoxon signed-rank test|||A comparison between baseline ATI and ART resumption within VRC01 group.||||0.002
92291959|NCT02664415|184487522|SUPERIORITY|||||||0.043|||||||Wilcoxon signed-rank test|||A comparison between baseline ATI and ART resumption within Placebo group.||||0.043
92291960|NCT00642993|184487523|SUPERIORITY_OR_OTHER||Difference in means|0.41||||0.187|TWO_SIDED|95.0|-0.2|1.03|||ANOVA|Mean and standard error are least squares means and corresponding standard errors based on an ANOVA model with main effects for treatment.||||1.03|-0.20|0.187
92291961|NCT00642993|184487524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58||||0.14|TWO_SIDED|95.0|0.28|1.2|||Cochran-Mantel-Haenszel|The P-value is from the Cochran-Mantel-Haenszel Test adjusting for gender.||||1.20|0.28|0.140
92291962|NCT00642993|184487525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.515|TWO_SIDED|95.0|0.24|9.93|||Cochran-Mantel-Haenszel|The p-value is from the Cochran-Mantel-Haenszel Test adjusting for gender.||||9.93|0.24|0.515
92291963|NCT00642993|184487526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.543|TWO_SIDED|95.0|-1.2|0.63|||ANOVA|Mean and standard error are least squares means and corresponding standard errors based on an ANOVA model with main effects for treatment.||||0.63|-1.20|0.543
92291964|NCT00642993|184487527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.231|TWO_SIDED|95.0|-0.09|0.35|||ANOVA|Mean and standard error are least squares means and corresponding standard errors based on an ANOVA model with main effects for treatment.||||0.35|-0.09|0.231
92291965|NCT02034513|184487528|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the 95% confidence interval for the rate ratio (IDeg/IGlar) was ≤1.10 or equivalently if the p-value for the 1-sided test of H0: RR \>1.10 against HA: RR ≤1.10 was less than 2.5%, where RR is the estimated rate ratio IDeg/IGlar.|Treatment ratio|0.89|||<|0.0001|TWO_SIDED|95.0|0.85|0.94|||Poisson||If non-inferiority was confirmed the superiority of IDeg/IGlar was investigated outside of the test hierarchy. Superiority was considered confirmed if the upper bound of the 2-sided 95% confidence interval was \<1.00.|Statistical analysis was performed on the FAS. Number of subjects analysed=subjects in the FAS, who were exposed in at least one maintenance period. Stepwise hierarchical testing procedure was applied for confirmatory endpoints: Step 1: Number of treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes during the maintenance period.||0.94|0.85|<0.0001
92291966|NCT02034513|184487529|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the 95% confidence interval for the rate ratio (IDeg/IGlar) was ≤1.10 or equivalently if the p-value for the 1-sided test of H0: RR \>1.10 against HA: RR ≤1.10 was less than 2.5%, where RR is the estimated rate ratio IDeg/IGlar.|Treatment ratio|0.64|||<|0.0001|TWO_SIDED|95.0|0.56|0.73|||Poisson||If non-inferiority was confirmed the superiority of IDeg/IGlar was investigated outside of the test hierarchy. Superiority was considered confirmed if the upper bound of the 2-sided 95% confidence interval was \<1.00.|Statistical analysis was performed on the FAS. Number of subjects analysed=subjects in the FAS, who were exposed in at least one maintenance period. Stepwise hierarchical testing procedure was applied for confirmatory endpoints: Step 2: Number of treatment-emergent severe or BG confirmed symptomatic nocturnal hypoglycaemic episodes during the maintenance period.||0.73|0.56|<0.0001
92291967|NCT02034513|184487530|SUPERIORITY_OR_OTHER|||||||0.0016||||||Superiority was confirmed if the p-value was less than 0.025.|McNemar|||Statistical analysis was performed on the FAS. Number of subjects analysed=subjects in the FAS, who were exposed in both the maintenance periods. Stepwise hierarchical testing procedure was applied for confirmatory endpoints: Step 3: Proportion of subjects with one or more severe hypoglycaemic episodes during the maintenance period.||||0.0016
92291968|NCT02034513|184487532|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.40%. Comparison groups: IDeg versus IGlar. Number of subjects included in analysis is 437 (n=220 for IDeg and n=217 for IGlar).|Treatment contrast|0.03|||||TWO_SIDED|95.0|-0.1|0.15||||||"Change from baseline in HbA1c at week 32 (treatment period 1). Before testing the primary endpoint, the secondary supportive efficacy endpoint Change from baseline in HbA1c after 32 weeks of treatment was tested for non-inferiority as a prerequisite for testing the primary endpoint. Analysis was based on mixed model for repeated measurement (MMRM); treatment, sex, region, pre-trial insulin treatment regimen, visit and dosing time were fixed effects, and age and baseline HbA1c were covariates."||0.15|-0.10|
92291969|NCT02034513|184487532|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.40%. Comparison groups: IDeg versus IGlar. Number of subjects included in analysis is 410 (n=202 for IDeg and n=208 for IGlar).|Treatment contrast|0.11|||||TWO_SIDED|95.0|0.0|0.23||||||"Change from baseline in HbA1c at week 64 (treatment period 2). The baseline values are week 32 values. Before the primary endpoint was tested, the secondary supportive efficacy endpoint Change from baseline in HbA1c after 32 weeks of treatment was tested for non-inferiority as prerequisite for testing the primary endpoint. Analysis was based on MMRM; treatment, sex, region, pre-trial insulin treatment regimen, visit and dosing time were fixed effects, and age and baseline HbA1c were covariates"||0.23|-0.00|
92291970|NCT02218541|184487573|OTHER|||||||1||||||threshold for significance will be p-value \<0.05|Fisher Exact|||||||1.00
92291971|NCT02218541|184487574|OTHER|||||||0.039||||||This statistical analysis applies to Yes bleeding|Binomial|The statistical analysis was changed during the analysis phase but the protocol was not amended to reflect this change||||||0.039
92291972|NCT02218541|184487575|EQUIVALENCE|No power calculation was done as this was a pilot study.||||||1||||||This statistical analysis applies to Yes Provisional Crown fit|Binomial|The statistical analysis was changed during the analysis phase but the protocol was not amended to reflect this change||||||1.0
92291973|NCT00856349|184487587|SUPERIORITY_OR_OTHER||Increase in % on target (LIA)|13.6|||<|0.0001|||||||McNemar|||LIA (Lead Integrity Alert): Uploadable algorithm with the ability to increase the time between a lead fracture and potential delivery of an unnecessary shock.||||<0.0001
92291974|NCT00856349|184487587|SUPERIORITY_OR_OTHER||Increase in % on target (SVT Limit)|6.8|||<|0.0001|||||||McNemar|||SVT (Supraventricular Tachycardia) Limit: The maximum cycle length that Wavelet and PR logic will be applied to arrhythmias.||||<0.0001
92184400|NCT03302091|184267406|OTHER||Adjusted gMean ratio (T/R)%|198.5|STANDARD_DEVIATION|96.5|||TWO_SIDED|90.0|101.83|386.94|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||386.94|101.83|
92184401|NCT03302091|184267407|OTHER||Adjusted gMean ratio (T/R)%|198.42|STANDARD_DEVIATION|77.5|||TWO_SIDED|90.0|116.56|337.78|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||337.78|116.56|
92184402|NCT03302091|184267408|OTHER||Adjusted gMean ratio (T/R)%|226.29|STANDARD_DEVIATION|47.5|||TWO_SIDED|90.0|156.35|327.53|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||327.53|156.35|
92184403|NCT03302091|184267409|OTHER||Adjusted gMean ratio (T/R)%|140.4|STANDARD_DEVIATION|32.8|||TWO_SIDED|90.0|108.06|182.43|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||182.43|108.06|
92184404|NCT03302091|184267410|OTHER||Adjusted gMean ratio (T/R)%|165.63|STANDARD_DEVIATION|56.6|||TWO_SIDED|90.0|107.51|255.17|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||255.17|107.51|
92184405|NCT03302091|184267411|OTHER||Adjusted gMean ratio (T/R)%|128.44|STANDARD_DEVIATION|31.7|||TWO_SIDED|90.0|99.64|165.57|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||165.57|99.64|
92184406|NCT01686152|184267412|EQUIVALENCE|The test product was determined to be bioequivalent to the reference product if the 90% confidence interval was within -0.20 to 0.20.|Mean Difference (Final Values)|0.05|||||TWO_SIDED|90.0|-0.0663|0.0913||||||||0.0913|-0.0663|
92184407|NCT01802333|184267413|OTHER|||||||0.84|||||||Regression, Cox|Adjusted for: Age (\< 40 vs. \>= 40) and Onset of AML (de novo vs. treatment related and/or AML arising from antecedent hematologic disease)||Arm I was compared with Arm III using a two-sided test of the null hypothesis (HR=1) at the 0.045 level.||||0.84
92291975|NCT00856349|184487587|SUPERIORITY_OR_OTHER||Increase in % on target (VF NID PP)|9.0|||<|0.0001|||||||McNemar|||VF NID PP: Number of intervals to detect (NID) an arrhythmia in the VF zone for primary prevention (PP) patients.||||<0.0001
92291976|NCT00856349|184487587|SUPERIORITY_OR_OTHER||Increase in % on target (VF NID SP)|3.5||||0.0116|||||||McNemar|||VF NID SP: Number of intervals to detect (NID) an arrhythmia in the VF zone for secondary prevention (SP) patients.||||0.0116
92184408|NCT01802333|184267413|OTHER|||||||0.42|||||||Regression, Cox|Adjusted for: Age (\< 40 vs. \>= 40) and Onset of AML (de novo vs. treatment related and/or AML arising from antecedent hematologic disease)||Arm II was compared with Arm III using a two-sided test of the null hypothesis (HR=1) at the 0.045 level.||||0.42
92184409|NCT01802333|184267414|OTHER||||||<|0.0001|||||||Exact binomial test, 1-sided|||||||<0.0001
92184410|NCT01802333|184267416|OTHER|||||||0.52|||||||Regression, Cox|Adjusted for: Age (\< 40 vs. \>= 40) and Onset of AML (de novo vs. treatment related and/or AML arising from antecedent hematologic disease)||Arm I was compared with Arm II using a two-sided test of the null hypothesis (HR=1).||||0.52
92184411|NCT02551224|184267424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75|||<|0.0001|TWO_SIDED|95.0|0.51|0.99|||Wilcoxon (Mann-Whitney)|||||0.99|0.51|<0.0001
92184412|NCT02551224|184267425|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|||<|0.0001|TWO_SIDED|95.0|0.21|0.61|||Wilcoxon (Mann-Whitney)|||||0.61|0.21|<0.0001
92184413|NCT01947491|184267434|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92184414|NCT02224755|184267435|NON_INFERIORITY|Non-inferiority would be demonstrated if the 95% lower confidence boundary for the difference between treatment groups (HM3 - HMII) in the occurrence of the primary end point would be greater than -10 percentage points, at a one-sided alpha level of 0.025 or a two-tailed P value of less than 0.05.|Risk Difference (RD)|9.4|||<|0.001|ONE_SIDED|95.0|-2.1||||Farrington-Manning risk difference||||||-2.1|<0.001
92184415|NCT02224755|184267436|NON_INFERIORITY|Non-inferiority would be demonstrated if the 95% lower confidence boundary for the difference between treatment groups (HM3 - HMII) in the occurrence of the primary end point would be greater than -10 percentage points, at a one-sided alpha level of 0.025 or a two-tailed P value of less than 0.05.|Risk Difference (RD)|19.2|||<|0.001|ONE_SIDED|95.0|9.8||||Farrington-Manning risk difference||||||9.8|<0.001
92291977|NCT00856349|184487587|SUPERIORITY_OR_OTHER||Increase in % on target (Wavelet)|9.5|||<|0.0001|||||||McNemar|||Wavelet: Discriminator to help determine if arrhythmia is ventricular or supraventricular in single chamber ICDs.||||<0.0001
92291978|NCT00856349|184487587|SUPERIORITY_OR_OTHER||Increase in % on target (PR Logic)|3.2|||<|0.0001|||||||McNemar|||PR Logic: Discriminator to help determine if arrhythmia is ventricular or supraventricular in dual chamber ICDs and CRT-Ds.||||<0.0001
92291979|NCT04158687|184487604|SUPERIORITY||Least Square (LS) Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.8||0.6003|TWO_SIDED|95.0|-4.5|2.6|||Mixed model repeated measures (MMRM)|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||2.6|-4.5|0.6003
92291980|NCT04158687|184487604|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.8||0.392|TWO_SIDED|95.0|-2.0|5.0|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||5.0|-2.0|0.3920
92291981|NCT04158687|184487604|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.8||0.1444|TWO_SIDED|95.0|-0.9|6.0|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||6.0|-0.9|0.1444
92291982|NCT04158687|184487605|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8065|TWO_SIDED|95.0|-0.3|0.2|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||0.2|-0.3|0.8065
92291983|NCT04158687|184487605|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.2121|TWO_SIDED|95.0|-0.1|0.4|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||0.4|-0.1|0.2121
92291984|NCT04158687|184487605|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0264|TWO_SIDED|95.0|0.0|0.5|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||0.5|0.0|0.0264
92291985|NCT04158687|184487606|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.4||0.6101|TWO_SIDED|95.0|-2.1|3.5|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||3.5|-2.1|0.6101
92291986|NCT04158687|184487606|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.4||0.6237|TWO_SIDED|95.0|-3.4|2.1|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||2.1|-3.4|0.6237
92144498|NCT00428090|184173225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.797|TWO_SIDED|95.0|-2.1|2.7||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.7|-2.1|0.797
92144499|NCT00428090|184173225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.942|TWO_SIDED|95.0|-2.9|2.7||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.7|-2.9|0.942
92144500|NCT00428090|184173225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.213|TWO_SIDED|95.0|-4.8|1.1||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.1|-4.8|0.213
92291987|NCT04158687|184487606|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.4||0.1764|TWO_SIDED|95.0|-4.6|0.8|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||0.8|-4.6|0.1764
92291988|NCT02856594|184487607|SUPERIORITY||Odds Ratio (OR)|0.32||||0.029|TWO_SIDED|95.0|0.1|0.83|||Regression, Logistic|||||0.83|0.10|0.029
92291989|NCT02856594|184487609|SUPERIORITY||Odds Ratio (OR)|0.96||||0.24|TWO_SIDED|95.0|0.89|1.03|||Regression, Linear|||||1.03|0.89|0.24
92291990|NCT00538031|184487617|OTHER|||||||0.61|||||||Log Rank|||||||0.61
92291991|NCT00538031|184487618|OTHER|||||||0.95|||||||Log Rank|||||||0.95
92291992|NCT02052895|184487623|SUPERIORITY_OR_OTHER||Difference of ROC-AUC|0.0317||||0.3924|TWO_SIDED|95.0|-0.0409|0.1043|||Regression, Logistic|||||0.1043|-0.0409|0.3924
92291993|NCT03060486|184487624|OTHER||Signed Rank Score Difference|-60.0|||<|0.0001|TWO_SIDED||||||Wilcoxon signed-rank test|||||||<.0001
92291994|NCT05143047|184487631|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92291995|NCT05143047|184487632|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92291996|NCT05143047|184487633|SUPERIORITY|||||||0.42|||||||Fisher Exact|||||||0.42
92291997|NCT05143047|184487634|SUPERIORITY|||||||0.17|||||||Fisher Exact|||||||0.17
92291998|NCT05143047|184487635|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.03
92291999|NCT05143047|184487636|SUPERIORITY|||||||0.42|||||||Fisher Exact|||||||0.42
92292000|NCT05143047|184487637|SUPERIORITY|||||||0.04|||||||Fisher Exact|||||||0.04
92292001|NCT05143047|184487638|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92292002|NCT05143047|184487639|SUPERIORITY|||||||0.22|||||||Fisher Exact|||||||0.22
92292003|NCT02704091|184487653|SUPERIORITY|"The following Null-hypothesis was tested:~H0: λA(t) = λB (t) versus H1: λA(t) ≠ λB (t), where λ(t) represents the hazard at time t, A=diosmectite and B=placebo."|||||=|0.2524|||||||Wilcoxon-Gehan test|||The primary analysis tested the equality of time to recovery between the 2 treatment groups, applying the 2-sided Gehan-Wilcoxon test (α=5%).||||=0.2524
92292004|NCT02704091|184487654|SUPERIORITY||||||=|0.3511|||||||Gehan-Wilcoxon test|||Comparison between the 2 treatment groups for time from diarrhoea onset to recovery, analysed using the Gehan-Wilcoxon test.||||=0.3511
92292005|NCT02704091|184487655|SUPERIORITY||||||=|0.7285|||||||Gehan-Wilcoxon test|||Comparison between the 2 treatment groups for time from diarrhoea onset to first formed stool, analysed using the Gehan-Wilcoxon test.||||=0.7285
92292006|NCT02704091|184487656|SUPERIORITY||||||=|0.1807|||||||Gehan-Wilcoxon test|||Comparison between the 2 treatment groups for time from first study treatment intake to last watery stool, analysed using the Gehan-Wilcoxon test.||||=0.1807
92292007|NCT02704091|184487657|SUPERIORITY||Least Squares (LS) Mean Difference|-0.04||||0.4294|TWO_SIDED|95.0|-0.15|0.07|||ANCOVA|||Comparison between the 2 treatment groups for number of stools for the overall time period, based on an analysis of covariance (ANCOVA) method for repeated measurements. The model included the number of stools 24 hours before randomisation (baseline) as covariate, treatment, time point (12-hour period), the treatment by time point interaction as fixed effects and participant as random effect.||0.07|-0.15|0.4294
92292008|NCT02704091|184487658|SUPERIORITY||LS Mean Difference|-0.12||||0.0465|TWO_SIDED|95.0|-0.24|0.0|||ANCOVA|||Comparison between the 2 treatment groups for number of watery stools for the overall time period, based on an ANCOVA method for repeated measurements. The model included the number of watery stools 24 hours before randomisation (baseline) as covariate, treatment, time point (12-hour period), the treatment by time point interaction as fixed effects and participant as random effect.||-0.00|-0.24|0.0465
92292009|NCT02412852|184487662|OTHER||||||||||||||||||\]The pharmacokinetics data are particularly sparse, and therefore substantial interpolations and imputations were required to produce an analyzable data set. Consequently, while not ideal, the Last Observation Carried Forward method was used for these data. There was a large amount of missing data which required imputation to determine results. The large amount of interpolations and imputations required for the pharmacokinetic analysis means that the pharmacokinetic results will need to be interpreted with caution. 3 X 3 Analysis of Variance used to compare Placebo to the two active groups. Missing data required imputation of available data.|||
92292010|NCT02412852|184487664|OTHER|ANOVA on only those subjects who completed testing.||||||0.05||||||The results were analyzed using an ANOVA with one between-subjects factor (Group: both placebo groups combined, 40 mg TV1001sr, and 80 mg TV1001sr); and one within-subjects factor (Visit: Visit 1, Visit 2, and Visit 3).|ANOVA|The means of the three groups were further analyzed using a post hoc comparison procedure (the Scheffé test).||||||0.05
92292011|NCT02412852|184487665|OTHER|The composite conduction measure and the composite velocity measure were analyzed using an Analysis of Variance with one between-subjects factor (Group: combined placebo, 40 mg TV1001, and 80 mg TV1001); and one within-subjects factor (Visit: Visit 1, Visit 2, and Visit 3).||||||0.15|||||||ANOVA|||||||.15
92292012|NCT02412852|184487666|OTHER|A 3 by 3 Analysis of Variance with one between-subjects factor (Combined placebo, 40 mg TV1001, or 80 mg TV1001) and one within-subjects factor (Visit 1, Visit 2, or Visit 3) was performed for HbA1c values.||||||0.36|||||||ANOVA|||||||.36
92292013|NCT02412852|184487667|OTHER|ANOVA to compare differences from baseline to completion of testing.||||||0.93|||||||ANOVA|||||||.93
92292014|NCT01447511|184487687|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||The null hypothesis is that the mean S-warfarin clearance among the five CYP2C9 genotypes under control conditions is the same.||||<0.0001
92292015|NCT01447511|184487687|SUPERIORITY_OR_OTHER||||||=|0.0001|||||||ANOVA|||The null hypothesis is that the mean S-warfarin clearance among the five CYP2C9 genotypes under fluconazole conditions is the same.||||=0.0001
92292016|NCT01447511|184487687|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||The null hypothesis is that the mean S-warfarin clearance among the five CYP2C9 genotypes under rifampin conditions is the same.||||<0.0001
92292017|NCT01447511|184487687|SUPERIORITY_OR_OTHER||||||=|0.3058|||||||ANOVA|||The null hypothesis is that the mean R-warfarin clearance among the five CYP2C9 genotypes under control conditions is the same.||||=0.3058
92292018|NCT01447511|184487687|SUPERIORITY_OR_OTHER||||||=|0.3278|||||||ANOVA|||The null hypothesis is that the mean R-warfarin clearance among the five CYP2C9 genotypes under fluconazole conditions is the same.||||=0.3278
92292019|NCT01447511|184487687|SUPERIORITY_OR_OTHER||||||=|0.6155|||||||ANOVA|||The null hypothesis is that the mean R-warfarin clearance among the five CYP2C9 genotypes under rifampin conditions is the same.||||=0.6155
92292020|NCT02336074|184487689|SUPERIORITY|||||||0.26||||||Treatment arms were compared in terms of absolute total HIV DNA levels (on a log10-scale) at post-randomization weeks 16 and 18 adjusted for the baseline (i.e. randomization) level and by stratum.|Regression, Linear|||||||0.26
92292021|NCT02336074|184487691|SUPERIORITY||Odds Ratio (OR)|0.41||||0.145|TWO_SIDED||||||Regression, Logistic|||"Comparison of the proportion of patients with undetectable viral outgrowth using logistic regression.~The analysis was adjusted for stratum and baseline viral outgrowth. Missing baseline values were imputed."||||0.145
92292022|NCT01694563|184487740|SUPERIORITY|||||||0.05|||||||Fisher Exact|||The primary effectiveness hypothesis for this study was to demonstrate a superiority success rate at 36-months follow-up in patients treated with the AtriCure Synergy Ablation System compared to a pre-established performance goal.||||0.05
92292023|NCT01694563|184487741|SUPERIORITY||Clopper-Pearson|90.0|||||TWO_SIDED|90.0|||||||90% confidence interval calculated using the Clopper-Pearson method.|Secondary success was defined as freedom from AF regardless of antiarrhythmic drug usage at 12 months post-operatively.||||
92292024|NCT01694563|184487741|SUPERIORITY||Clopper-Pearson|90.0|||||TWO_SIDED|90.0|||||||90% confidence interval calculated using the Clopper-Pearson method.|Secondary success was defined as freedom from AF regardless of antiarrhythmic drug usage at 24 months post-operatively.||||
92292025|NCT01694563|184487741|SUPERIORITY||Clopper-Pearson|90.0|||||TWO_SIDED|90.0||||||||Secondary success was defined as freedom from AF regardless of antiarrhythmic drug usage at 36 months post-operatively.|90% confidence interval using the Clopper-Pearson method.|||
92292026|NCT05604014|184487742|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.49|TWO_SIDED||||||t-test, 2 sided|||||||0.49
92292027|NCT05604014|184487743|SUPERIORITY||Mean Difference (Final Values)|-0.69||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
92292028|NCT05604014|184487744|SUPERIORITY||Mean Difference (Final Values)|-1.44||||0.16|TWO_SIDED||||||t-test, 2 sided|||||||0.16
92292029|NCT05604014|184487745|SUPERIORITY||Mean Difference (Final Values)|-0.78||||0.44|TWO_SIDED||||||t-test, 2 sided|||||||0.44
92292030|NCT01026402|184487746|SUPERIORITY_OR_OTHER||Maximum Tolerated Dose|50.0|||||||||||||50mg twice daily continuous dosing 20 evaluable patients|||||
92292031|NCT01026402|184487746|SUPERIORITY_OR_OTHER||Maximum Tolerated Dose|100.0|||||||||||||100mg once daily continuous dosing 16 evaluable patients|||||
92292032|NCT01026402|184487746|SUPERIORITY_OR_OTHER||Maximum Tolerated Dose|125.0|||||||||||||125mg twice daily intermittent dosing (2 days on, 5 days off) 29 evaluable patients|||||
92292033|NCT00836758|184487762|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.007
92292034|NCT00840203|184487777|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|97.6||||||90.0|88.6|107.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107|88.6|
92292035|NCT00840203|184487778|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|97.3||||||90.0|82.8|114.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||114|82.8|
92292036|NCT00840203|184487779|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|94.0||||||90.0|83.0|107.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107|83.0|
92292037|NCT00840203|184487780|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|98.3||||||90.0|91.5|106.0|||||Metabolite results presented for informational purposes only.|||106|91.5|
92292038|NCT00840203|184487781|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|97.6||||||90.0|86.7|110.0|||||Metabolite results presented for informational purposes only.|||110|86.7|
92292039|NCT00840203|184487782|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|95.6||||||90.0|86.1|106.0|||||Metabolite results presented for informational purposes only.|||106|86.1|
92292040|NCT03349567|184487784|SUPERIORITY||Incident rate ratio|0.99||||0.35|TWO_SIDED|95.0|0.98|1.01|||Mixed Models Analysis|Segmented regression analysis was conducted using generalized linear models to estimate change in monthly antimicrobial prescription rates.||||1.01|0.98|0.35
92292041|NCT03349567|184487785|NON_INFERIORITY|A Poisson regression model with log link was used to estimate the rate of safety outcomes. Models were adjusted for time as a continuous covariate, an indicator for month of implementation of intervention (Oct 2018), and included random effects to account for repeated measurements. An interaction variable for the study period (baseline or intervention) and site (intervention or control) was included in the model to estimate the Incident Rate Ratio (IRR) and 95% CIs.|Incident rate ratio|1.12|||||TWO_SIDED|95.0|0.93|1.35||||||||1.35|0.93|
92292042|NCT03349567|184487786|NON_INFERIORITY|A Poisson regression model with log link was used to estimate the rate of safety outcomes. Models were adjusted for time as a continuous covariate, an indicator for month of implementation of intervention (Oct 2018), and included random effects to account for repeated measurements. An interaction variable for the study period (baseline or intervention) and site (intervention or control) was included in the model to estimate the Incident Rate Ratio (IRR) and 95% CIs.|Incident rate ratio|1.01|||||TWO_SIDED|95.0|0.81|1.27||||||||1.27|0.81|
92144501|NCT00428090|184173226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.919|TWO_SIDED|95.0|-2.1|2.3||Comparison between Placebo and RSG XR 2 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.3|-2.1|0.919
92144502|NCT00428090|184173226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.649|TWO_SIDED|95.0|-1.5|2.4||Comparison between Placebo and RSG XR 8 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.4|-1.5|0.649
92144503|NCT00428090|184173226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.279|TWO_SIDED|95.0|-1.1|3.6||Comparison between Placebo and Donepezil 10 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||3.6|-1.1|0.279
92144504|NCT00428090|184173226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.498|TWO_SIDED|95.0|-1.8|3.6||Comparison between Placebo and RSG XR 2 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||3.6|-1.8|0.498
92184416|NCT02224755|184267437|SUPERIORITY||Risk Ratio (RR)|0.21|||<|0.001|TWO_SIDED|95.0|0.11|0.38|||Fisher Exact|||Based on data in the Sponsor's device tracking database, 7% of patients with the HeartMate II LVAS receive a pump replacement by 24 months. The expected proportion of patients with the HeartMate 3 LVAS to receive a pump replacement by 24 months was assumed to be 3%. We estimated that to demonstrate superiority of HeartMate 3 to HeartMate II with a power of 80% and α = 0.05 (2-sided), a total of 1028 patients (514 per arm) were required using the Fisher's exact test.||.38|.11|<0.001
92292043|NCT03349567|184487787|NON_INFERIORITY|A Poisson regression model with log link was used to estimate the rate of safety outcomes. Models were adjusted for time as a continuous covariate, an indicator for month of implementation of intervention (Oct 2018), and included random effects to account for repeated measurements. An interaction variable for the study period (baseline or intervention) and site (intervention or control) was included in the model to estimate the Incident Rate Ratio (IRR) and 95% CIs.|Incident rate ratio|0.88|||||TWO_SIDED|95.0|0.58|1.34||||||||1.34|0.58|
92292044|NCT03349567|184487788|NON_INFERIORITY|A Poisson regression model with log link was used to estimate the rate of safety outcomes. Models were adjusted for time as a continuous covariate, an indicator for month of implementation of intervention (Oct 2018), and included random effects to account for repeated measurements. An interaction variable for the study period (baseline or intervention) and site (intervention or control) was included in the model to estimate the Incident Rate Ratio (IRR) and 95% CIs.|Incident rate ratio|0.83|||||TWO_SIDED|95.0|0.53|1.29||||||||1.29|0.53|
92292045|NCT03349567|184487789|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
92292046|NCT03349567|184487789|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.13
92292047|NCT03349567|184487790|SUPERIORITY|||||||0.46|||||||Regression, Logistic|Segmented regression analysis was conducted using generalized linear models to estimate change in monthly antibiotic prescription rates.||||||0.46
92292048|NCT01296841|184487807|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|We performed t-test statistics for univariate comparisons for continuous variables.||||||<0.05
92292049|NCT00957021|184487827|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||KSS Pain/Motion and Function Score comparison from pre-op to 1, 2 and 5 year||||<.0001
92292050|NCT00957021|184487828|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF-36 Physical score comparison from pre-op to 1, 2, 3, 4 and 5 years||||<.0001
92292051|NCT00957021|184487828|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF-36 Mental score comparison from pre-op to 1 year||||<.0001
92292052|NCT00957021|184487828|SUPERIORITY_OR_OTHER|||||||0.0017|||||||t-test, 2 sided|||SF-36 Mental score comparison from pre-op to 2 year||||0.0017
92292053|NCT00957021|184487828|SUPERIORITY_OR_OTHER|||||||0.0055|||||||t-test, 2 sided|||SF-36 Mental score comparison from pre-op to 3 year||||0.0055
92292054|NCT00957021|184487828|SUPERIORITY_OR_OTHER|||||||0.005|||||||t-test, 2 sided|||SF-36 Mental score comparison from pre-op to 4 year||||0.0050
92292055|NCT00957021|184487828|SUPERIORITY_OR_OTHER|||||||0.0018|||||||t-test, 2 sided|||SF-36 Mental score comparison from pre-op to 5 year||||0.0018
92292056|NCT00957021|184487830|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||LEAS score comparison from pre-op to 1, 2, 3, 4 and 5 years||||<.0001
92292057|NCT02442687|184487832|OTHER|||||||0.034||||||The p-value was not adjusted for multiple comparison. The threshold for statistical significance was \<0.05.|ANCOVA|Change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.034
92292058|NCT02442687|184487832|OTHER|||||||0.1731||||||The p-value was not adjusted for multiple comparison. The threshold for statistical significance was \<0.05.|ANCOVA|Change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.1731
92184417|NCT01205126|184267453|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if upper bound of the 2-sided 95% CI was less than the non-inferiority margin of 1.5.|Least square mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.6||0.855|TWO_SIDED|95.0|-1.3|1.1||P-value was calculated by ANCOVA model using Baseline as covariate for change at Day 29.|ANCOVA|||||1.1|-1.3|0.855
92292059|NCT02442687|184487833|OTHER|||||||0.5276||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|The change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.5276
92292060|NCT02442687|184487833|OTHER|||||||0.4968||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|The change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.4968
92292061|NCT02442687|184487834|OTHER|||||||0.2591||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|Change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.2591
92292062|NCT02442687|184487834|OTHER|||||||0.1806||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|Change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.1806
92292063|NCT02442687|184487835|OTHER|||||||0.0882||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|The change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.0882
92292064|NCT02442687|184487835|OTHER|||||||0.253||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|The change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.2530
92292065|NCT01822119|184487860|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation|||||||<0.0001
92292066|NCT01822119|184487861|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation|||||||<0.0001
92292067|NCT01822119|184487862|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Statistically significant changes with the same value at 500 to 4000Hz||||<0.0001
92292068|NCT01822119|184487862|SUPERIORITY_OR_OTHER|||||||0.0499|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Change at 6000Hz||||0.0499
92292069|NCT01822119|184487862|SUPERIORITY_OR_OTHER|||||||0.0632|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Change at 8000Hz||||0.0632
92292070|NCT01822119|184487863|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||||||0.39
92292071|NCT01822119|184487864|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||500Hz||||0.79
92184418|NCT01205126|184267454|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if upper bound of the 2-sided 95% CI was less than the non-inferiority margin of 1.5.|Least square mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.39||0.615|TWO_SIDED|95.0|-1.0|0.6|||ANCOVA|P-value was calculated by ANCOVA model using Baseline as covariate for change at Day 29.||||0.6|-1.0|0.615
92292072|NCT01822119|184487864|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||1000Hz||||0.26
92292073|NCT01822119|184487864|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||2000Hz||||0.24
92292074|NCT01822119|184487864|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||3000Hz||||0.83
92292075|NCT01822119|184487864|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||4000Hz||||0.026
92292076|NCT01822119|184487864|SUPERIORITY_OR_OTHER|||||||0.0085|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6000Hz||||0.0085
92292077|NCT01822119|184487864|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||8000Hz||||0.13
92292078|NCT01822119|184487865|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Statistically significant improvement with the same value at all presentation levels.||||<0.0001
92292079|NCT01822119|184487866|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||50dB||||0.55
92292080|NCT01822119|184487866|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||60dB||||0.72
92292081|NCT01822119|184487866|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||80dB||||0.28
92292082|NCT01822119|184487867|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||||||<0.0001
92292083|NCT01822119|184487868|SUPERIORITY_OR_OTHER|||||||0.0092|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||||||0.0092
92292084|NCT01822119|184487869|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Aversiveness||||0.59
92292085|NCT01822119|184487869|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Ease of Communication||||0.71
92292086|NCT01822119|184487869|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Reverberation||||0.59
92292087|NCT01822119|184487869|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Background noise||||0.40
92292088|NCT01822119|184487869|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Global score||||0.50
92292089|NCT00431041|184487880|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
92292090|NCT00431041|184487881|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value represents overall comparison of severity of dry mouth.|Chi-squared|||||||0.0010
92292091|NCT02637141|184487884|SUPERIORITY|P-values smaller than 0.05 were considered statistically significant.|LS Mean Difference|-2.49|STANDARD_ERROR_OF_MEAN|7.1||0.7271|TWO_SIDED|95.0|-16.82|11.83|||ANCOVA|The model included baseline VH:CD ratio, site, and sex as covariates and treatment group as a fixed effect.||||11.83|-16.82|0.7271
92292092|NCT02637141|184487884|SUPERIORITY|P-values smaller than 0.05 were considered statistically significant.|LS Mean Difference|6.39|STANDARD_ERROR_OF_MEAN|6.67||0.3438|TWO_SIDED|95.0|-7.07|19.85|||ANCOVA|The model included baseline VH:CD ratio, site, and sex as covariates and treatment group as a fixed effect.||||19.85|-7.07|0.3438
92292093|NCT02637141|184487885|SUPERIORITY||LS Mean Difference|-14.32|STANDARD_ERROR_OF_MEAN|19.85||0.4746|TWO_SIDED|95.0|-54.39|25.74|||ANCOVA|The model included baseline VH:CD ratio, site, and sex as covariates and treatment group as a fixed effect.||||25.74|-54.39|0.4746
92292094|NCT02637141|184487885|SUPERIORITY||LS Mean Difference|-41.24|STANDARD_ERROR_OF_MEAN|18.85||0.0343|TWO_SIDED|95.0|-79.28|-3.2|||ANCOVA|The model included baseline VH:CD ratio, site, and sex as covariates and treatment group as a fixed effect.||||-3.2|-79.28|0.0343
92184419|NCT01205126|184267455|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if upper bound of the 2-sided 95% CI was less than the non-inferiority margin of 1.5.|Least square mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.621|TWO_SIDED|95.0|-1.1|0.7|||ANCOVA|P-value was calculated by ANCOVA model using Baseline as covariate for change at Day 29.||||0.7|-1.1|0.621
92292095|NCT02637141|184487887|SUPERIORITY||LS Mean Difference|4402.25|STANDARD_ERROR_OF_MEAN|1717.4||0.014|TWO_SIDED|95.0|936.39|7868.1|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||7868.10|936.39|0.0140
92292096|NCT02637141|184487887|SUPERIORITY||LS Mean Difference|944.9|STANDARD_ERROR_OF_MEAN|1167.22||0.4228|TWO_SIDED|95.0|-1410.65|3300.44|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||3300.44|-1410.65|0.4228
92292097|NCT02637141|184487888|SUPERIORITY||LS Mean Difference|17.8|STANDARD_ERROR_OF_MEAN|17.09||0.3034|TWO_SIDED|95.0|-16.68|52.29|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||Analysis of Change From Baseline in Anti-DGP-IgA||52.29|-16.68|0.3034
92292098|NCT02637141|184487888|SUPERIORITY||LS Mean Difference|-6.92|STANDARD_ERROR_OF_MEAN|15.46||0.6569|TWO_SIDED|95.0|-38.11|24.28|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||Analysis of Change From Baseline in Anti-DGP-IgA||24.28|-38.11|0.6569
92292099|NCT02637141|184487888|SUPERIORITY||LS Mean Difference|13.17|STANDARD_ERROR_OF_MEAN|26.77||0.6254|TWO_SIDED|95.0|-40.86|67.2|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||Analysis of Change From Baseline in Anti-DGP-IgG||67.20|-40.86|0.6254
92292100|NCT02637141|184487888|SUPERIORITY||LS Mean Difference|2.86|STANDARD_ERROR_OF_MEAN|21.66||0.8955|TWO_SIDED|95.0|-40.84|46.57|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||Analysis of Change From Baseline in Anti-DGP IgG||46.57|-40.84|0.8955
92292101|NCT02637141|184487889|SUPERIORITY||Ratio of LS Means|0.83|STANDARD_ERROR_OF_MEAN|0.11||0.161|TWO_SIDED|95.0|0.63|1.08|||Generalized Linear Mixed Model|Generalized linear mixed model with treatment group, site, sex, time (week), and time point-by-treatment group interaction as fixed effects.||Analysis of Total Weekly Bowel Movements at Week 12||1.08|0.63|0.1610
92292102|NCT02637141|184487889|SUPERIORITY||Ratio of LS Means|1.03|STANDARD_ERROR_OF_MEAN|0.13||0.781|TWO_SIDED|95.0|0.81|1.32|||Generalized Linear Mixed Model|Generalized linear mixed model with treatment group, site, sex, time (week), and time point-by-treatment group interaction as fixed effects.||||1.32|0.81|0.7810
92184420|NCT01205126|184267456|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if upper bound of the 2-sided 95% CI was less than the non-inferiority margin of 1.5.||||||0.832|||||||ANCOVA|P-value was calculated by ANCOVA model using Baseline as covariate for change at Day 29.||||||0.832
92184421|NCT01205126|184267457|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if upper bound of the 2-sided 95% CI was less than the non-inferiority margin of 1.5.||||||0.304|||||||ANCOVA|P-value was calculated by ANCOVA model using Baseline as covariate for change at Day 29||||||0.304
92292103|NCT02637141|184487891|SUPERIORITY||LS Mean Difference|-13.44|STANDARD_ERROR_OF_MEAN|12.33||0.2761|TWO_SIDED|95.0|-37.66|10.77|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||10.77|-37.66|0.2761
92292104|NCT02637141|184487891|SUPERIORITY||LS Mean Difference|-2.62|STANDARD_ERROR_OF_MEAN|11.66||0.8221|TWO_SIDED|95.0|-25.51|20.27|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||20.27|-25.51|0.8221
92292105|NCT02637141|184487892|SUPERIORITY||LS Mean Difference|-2.76|STANDARD_ERROR_OF_MEAN|2.1||0.1908|TWO_SIDED|95.0|-6.89|1.3|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||1.3|-6.89|0.1908
92292106|NCT02637141|184487892|SUPERIORITY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|1.98||0.4088|TWO_SIDED|95.0|-5.53|2.25|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||2.25|-5.53|0.4088
92292107|NCT03031795|184487894|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance was set at \< 0.05 for each row comparison with no adjustment for multiple comparisons.|Wilcoxon rank sum test|||"A 2 point difference was used to power the study. This is consistent with previous definitions of a clinically meaningful reductions in pain and provides a visually meaningful change on the 0-10 numerical rating scale with anchors at every other point, for example moving from very severe (8) to severe pain (6) or from moderate pain (4) to mild pain (2)."||||< 0.05
92292108|NCT02705716|184487898|OTHER||Least Square (LS) Mean Difference|-0.12||||0.5191|TWO_SIDED|95.0|-0.497|0.252|||ANCOVA|From ANCOVA Model, Response: change from baseline in Schiff sensitivity score Factors: treatment \& site Covariates: baseline Schiff sensitivity score|Difference is first named dentifrice minus second named dentifrice such that a negative difference favors first named dentifrice.|||0.252|-0.497|0.5191
92292109|NCT00840879|184487910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|98.15||||||90.0|90.96|105.9|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.90|90.96|
92292110|NCT00840879|184487911|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|96.34||||||90.0|91.82|101.07|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.07|91.82|
92292111|NCT00840879|184487912|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|97.76||||||90.0|93.31|102.42|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.42|93.31|
92292112|NCT03809000|184487939|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0671|TWO_SIDED|80.0|0.61|0.96|||Log Rank|One-sided significance level = 0.10|Reference level = standard ADT|After protocol amendments, the 3-year PFS rate of the standard arm was expected to be 24%. Assuming a hazard ratio of 0.65 (treatment/control) results in a hypothesized 3-year PFS rate of 39.5% on the enhanced ADT arm. A one-sided log-rank test with alpha=0.10 at 80% statistical power was calculated to require 101 events from 170 patients, taking into account expected accrual rate and follow-up time.||0.96|0.61|0.0671
92292113|NCT03809000|184487940|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.116|TWO_SIDED|95.0|0.53|1.07|||Gray's||Reference level = SRT + Standard ADT|||1.07|0.53|0.1160
92292114|NCT03809000|184487941|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.1618|TWO_SIDED|95.0|0.5|1.12|||Gray's||Reference level = SRT + Standard ADT|||1.12|0.50|0.1618
92292115|NCT03809000|184487946|SUPERIORITY|||||||0.7184|||||||t-test, 2 sided|||||||0.7184
92292116|NCT03809000|184487947|SUPERIORITY|||||||0.5934|||||||t-test, 2 sided|||||||0.5934
92292117|NCT03809000|184487948|SUPERIORITY|||||||0.7129|||||||t-test, 2 sided|||||||0.7129
92292118|NCT03809000|184487949|SUPERIORITY|||||||0.006258|||||||t-test, 2 sided|||||||0.006258
92292119|NCT03809000|184487950|SUPERIORITY|||||||0.0263|||||||t-test, 2 sided|||||||0.0263
92292120|NCT03809000|184487951|SUPERIORITY|||||||0.4599|||||||t-test, 2 sided|||||||0.4599
92292121|NCT03809000|184487953|SUPERIORITY||Odds Ratio (OR)|1.65||||0.3138|TWO_SIDED|95.0|0.62|4.41|||Regression, Logistic||Reference level = SRT + Standard ADT|||4.41|0.62|0.3138
92292122|NCT03809000|184487954|SUPERIORITY|||||||0.3889|||||||Chi-squared|||||||0.3889
92292123|NCT03809000|184487955|SUPERIORITY|||||||0.0461|||||||t-test, 2 sided|||Hot Flashes Frequency||||0.0461
92292124|NCT03809000|184487955|SUPERIORITY|||||||0.0181|||||||t-test, 2 sided|||Hot Flashes Severity||||0.0181
92292125|NCT03809000|184487956|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.1|TWO_SIDED|80.0|0.42|0.91||one-sided p-value|Log Rank|||||0.91|0.42|0.10
92292126|NCT02312154|184488119|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The change in each of the biophysical parameters was calculated as the pretreatment value minus the posttreatment value for each visit, and these pre- vs posttreatment changes were used in the statistical analysis to minimize the intraindividual variation between the two cheeks. The Wilcoxon rank-sum test was performed to compare the week-by-week changes in parameters of the right and left cheeks (i.e., treated vs untreated).||||<0.05
92292127|NCT02312154|184488120|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The change in each of the biophysical parameters was calculated as the pretreatment value minus the posttreatment value for each visit, and these pre- vs posttreatment changes were used in the statistical analysis to minimize the intraindividual variation between the two cheeks. The Wilcoxon rank-sum test was performed to compare the week-by-week changes in parameters of the right and left cheeks (i.e., treated vs untreated).||||<0.05
92292128|NCT02312154|184488121|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The change in each of the biophysical parameters was calculated as the pretreatment value minus the posttreatment value for each visit, and these pre- vs posttreatment changes were used in the statistical analysis to minimize the intraindividual variation between the two cheeks. The Wilcoxon rank-sum test was performed to compare the week-by-week changes in parameters of the right and left cheeks (i.e., treated vs untreated).||||<0.05
92292129|NCT02312154|184488122|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The change in each of the biophysical parameters was calculated as the pretreatment value minus the posttreatment value for each visit, and these pre- vs posttreatment changes were used in the statistical analysis to minimize the intraindividual variation between the two cheeks. The Wilcoxon rank-sum test was performed to compare the week-by-week changes in parameters of the right and left cheeks (i.e., treated vs untreated).||||<0.05
92292130|NCT02312154|184488123|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The therapeutic outcome was assessed by patient self-assessment using the Global Aesthetic Improvement Scale, which rates outcome on the following 5-point scale: 3, very much improved; 2, much improved; 1, improved; 0, no change; and -1, worse. Two independent investigators also individually assessed every patient's improvement, and the values of the two scores were averaged for each patient. The Wilcoxon rank-sum test was performed to compare the pre-by-posttreatment changes in treated side.||||<0.05
92292131|NCT02312154|184488124|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The therapeutic outcome was assessed by patient self-assessment using the Global Aesthetic Improvement Scale, which rates outcome on the following 5-point scale: 3, very much improved; 2, much improved; 1, improved; 0, no change; and -1, worse. Two independent investigators also individually assessed every patient's improvement, and the values of the two scores were averaged for each patient. The Wilcoxon rank-sum test was performed to compare the pre-by-posttreatment changes in treated side.||||<0.05
92292132|NCT01945580|184488166|NON_INFERIORITY|With type I error of 0.05 and type II error of 0.20 (power 80%), 362 subjects (181 subjects per arm) are needed to detect non-inferiority of transvaginal biologic to native tissue repair, using a margin of 12.0%.|Adjusted Difference in Percentages|0.2|||||TWO_SIDED|90.0|-5.6|5.9|||||The propensity adjusted treatment difference of Xenform transvaginal mesh (TVM) minus NTR was estimated and missing data was handled using multiple imputation method.|||5.9|-5.6|
92292133|NCT01945580|184488167|NON_INFERIORITY|With type I error of 0.05 and type II error of 0.10 (power 90%), 308 subjects (154 subjects per arm) are needed to detect non-inferiority with a margin of 11.6%.|Adjusted Difference in Percentages|2.0|||||TWO_SIDED|90.0|-0.8|4.7|||||The propensity score adjusted difference in SAE rate of Xenform transvaginal mesh (TVM) vs. NTR was estimated.|||4.7|-0.8|
92292134|NCT00073307|184488189|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.146||95.0|0.74|1.04||According to O'Brien-Fleming type alpha spending function and total actual deaths at final analysis, threshold for statistical significance was alpha=0.037 (two-sided).|Log Rank||Two treatment groups compared using log-rank test (Sorafenib over Placebo) stratified by country and Motzer category|Sample size based on primary efficacy endpoint of OS. Clinically meaningful improvement defined as 33.3% improvement in median OS (i.e. HR of 0.75, Sorafenib over Placebo). With overall two-sided alpha of 0.04, 90% power and randomization of 1:1, two formal interim analyses and one final analysis were planned using O'Brien-Fleming type error spending function, and a total of approximately 540 events (deaths) were required for the final analysis.||1.04|0.74|0.146
92292135|NCT00073307|184488190|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0287||95.0|0.62|0.97||According to O'Brien-Fleming type alpha spending function and total actual deaths at final analysis, threshold for statistical significance was alpha=0.037 (two-sided).|Log Rank||Two treatment groups compared using log-rank test (Sorafenib over Placebo) stratified by country and Motzer category|Sample size based on primary efficacy endpoint of OS. Clinically meaningful improvement defined as 33.3% improvement in median OS (i.e. HR of 0.75, Sorafenib over Placebo). With overall two-sided alpha of 0.04, 90% power and randomization of 1:1, two formal interim analyses and one final analysis were planned using O'Brien-Fleming type error spending function, and a total of approximately 540 events (deaths) were required for the final analysis.||0.97|0.62|0.0287
92292136|NCT00073307|184488191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44|||<|1e-06||95.0|0.35|0.55|||Log Rank||Two treatment groups compared using log-rank test (Sorafenib over Placebo) stratified by country and Motzer category|The planned final PFS analysis was to be performed when approximately 363 progressions or deaths (if death occurred before progression) were observed. The analysis had power of 90% to detect a 50% increase in PFS using a two-sided alpha of 0.01||0.55|0.35|<0.000001
92292137|NCT00073307|184488192|SUPERIORITY_OR_OTHER||Difference in response rates (CR+PR)|-2.1||||||95.0|-3.7|-0.6|||Cochran-Mantel-Haenszel|Adjustments for country and Motzer category|difference in response rates (CR+PR) = Placebo - Sorafenib|||-0.6|-3.7|
92292138|NCT00073307|184488193|SUPERIORITY_OR_OTHER|||||||0.98|||||||random coefficient model|Random coefficient model adjusted for baseline Motzer score, baseline FKSI-10 score and relative day of FKSI-10 completion.||Approximately 200 subjects per group, assuming a 10% drop out rate, were required to detect a 2 point difference between sorafenib and placebo at approximately 80% power with a two-sided alpha of 0.05||||0.98
92292139|NCT00073307|184488194|SUPERIORITY_OR_OTHER|||||||0.83|||||||random coefficient model|Random coefficient model adjusted for baseline Motzer score, baseline PWB score and relative day of PWB completion.||Approximately 200 subjects per group, assuming a 10% drop out rate, were required to detect a 2 point difference between sorafenib and placebo at approximately 80% power with a two-sided alpha of 0.05||||0.83
92292140|NCT00858780|184488195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.17||||0.007|TWO_SIDED|95.0|1.72|29.82|||GEE Model|||Analysis was performed using a generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, their interaction, and the stratification factor as factors in the model.||29.82|1.72|0.007
92292141|NCT00858780|184488195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.362|TWO_SIDED|95.0|0.54|5.41|||GEE Model|||Analysis was performed using a GEE model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, their interaction, and the stratification factor as factors in the model.||5.41|0.54|0.362
92292142|NCT00858780|184488195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.2||||0.044|TWO_SIDED|95.0|1.04|16.99|||GEE Model|||Analysis was performed using a GEE model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, their interaction, and the stratification factor as factors in the model.||16.99|1.04|0.044
92184422|NCT01205126|184267458|SUPERIORITY_OR_OTHER|||||||0.276|||||||rank sum test, 2 sided|||||||0.276
92292143|NCT00577655|184488220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.496||||0.0138|TWO_SIDED|95.0|0.729|6.262||In order to control the overall alpha level at the 0.05 value, each of the primary endpoints were tested separately at the 0.025 level of significance.|ANCOVA|Baseline as covariate and fixed effects of treatment and pooled investigator site.|Active - Placebo|Efficacy was declared if the test for either primary efficacy endpoint was significant at the 0.025 level.||6.262|0.729|0.0138
92184423|NCT00923078|184267471|OTHER||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|1.02|<|0.05|TWO_SIDED|95.0|0.17|4.23|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||4.23|0.17|<0.05
92184424|NCT00923078|184267471|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.72|STANDARD_ERROR_OF_MEAN|1.02||0.48|TWO_SIDED|95.0|-2.75|1.31|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.31|-2.75|0.48
92184425|NCT00923078|184267471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.92|STANDARD_ERROR_OF_MEAN|1.02|<|0.01|TWO_SIDED|95.0|-4.95|-0.9|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||-0.90|-4.95|<0.01
92184426|NCT00923078|184267472|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.67|STANDARD_ERROR_OF_MEAN|0.295|<|0.05|TWO_SIDED|95.0|0.08|1.25|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.25|0.08|<0.05
92184427|NCT00923078|184267472|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|0.295||0.09|TWO_SIDED|95.0|-0.08|1.09|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.09|-0.08|0.09
92292144|NCT00577655|184488221|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.431||||0.0403|TWO_SIDED|95.0|0.244|10.618||In order to control the overall alpha level at the 0.05 value, each of the primary endpoints were tested separately at the 0.025 level of significance.|ANCOVA|Baseline as covariate and fixed effects of treatment and pooled investigator site.|Active - Placebo|Efficacy was declared if the test for either primary efficacy endpoint was significant at the 0.025 level.||10.618|0.244|0.0403
92292145|NCT00577655|184488222|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.536||||0.0031|TWO_SIDED|95.0|1.567|7.505||significance level of 0.05.|Mixed Models Analysis||Active - Placebo|"Day 1~A repeated measures mixed model, with terms for treatment, pooled center, study day, treatment by study day interaction, and baseline as a covariate, and subject as a random term, was used to make comparisons between placebo and active with respect to FEV1max%0-2 at Days 1 and 22, with observed case data."||7.505|1.567|0.0031
92292146|NCT00577655|184488222|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.067||||0.047|TWO_SIDED|95.0|0.041|6.094||significance level of 0.05.|Mixed Models Analysis||Active - Placebo|"Day 22~A repeated measures mixed model, with terms for treatment, pooled center, study day, treatment by study day interaction, and baseline as a covariate, and subject as a random term, was used to make comparisons between placebo and active with respect to FEV1max%0-2 at Days 1 and 22, with observed case data."||6.094|0.041|0.0470
92292147|NCT00577655|184488223|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.572||||0.0074|TWO_SIDED|95.0|2.077|13.067||significance level of 0.05.|repeated measures ANOVA||Active - Placebo|"Day 1~A repeated measures mixed model, with terms for treatment, pooled center, study day, treatment by study day interaction, and baseline as a covariate, and subject as a random term, was used to make comparisons between placebo and active with respect to PEFmax%0-2 at Days 1 and 22, with observed case data."||13.067|2.077|0.0074
92292148|NCT00577655|184488223|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.782||||0.1843|TWO_SIDED|95.0|-1.832|9.397||significance level of 0.05.|repeated measures ANOVA||Active - Placebo|"Day 22~A repeated measures mixed model, with terms for treatment, pooled center, study day, treatment by study day interaction, and baseline as a covariate, and subject as a random term, was used to make comparisons between placebo and active with respect to PEFmax%0-2 at Days 1 and 22, with observed case data."||9.397|-1.832|0.1843
92292149|NCT00577655|184488224|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.707||||0.0507|TWO_SIDED|95.0|-0.03|19.445||significance level of 0.05.|ANCOVA|terms for treatment and center, baseline as a covariate|Active - Placebo|Day 22 Baseline||19.445|-0.030|0.0507
92292150|NCT00577655|184488224|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.892||||0.924|TWO_SIDED|95.0|-17.634|19.419||significance level of 0.05.|ANOVA|terms for treatment and center|Active - Placebo|Day 1 Baseline||19.419|-17.634|0.9240
92292151|NCT00577655|184488225|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|30.124||||0.2186|TWO_SIDED|95.0|-18.169|78.417||significance level of 0.05.|ANCOVA|terms for treatment and center, baseline as a covariate|Active - Placebo|Day 22 Baseline||78.417|-18.169|0.2186
92292152|NCT00577655|184488225|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|42.578||||0.2375|TWO_SIDED|95.0|-28.541|113.7||significance level of 0.05.|ANCOVA|terms for treatment and center, baseline as a covariate|Active - Placebo|Day 1 Baseline||113.70|-28.541|0.2375
92292153|NCT00577655|184488226|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.524||||0.0017|TWO_SIDED|95.0|2.524|10.523||significance level of 0.05.|ANOVA|terms for treatment, center, time, time x treatment, subject as a random|Active - Placebo|Day 1||10.523|2.524|0.0017
92184428|NCT00923078|184267472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.295||0.59|TWO_SIDED|95.0|-0.75|0.43|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||0.43|-0.75|0.59
92184429|NCT00923078|184267473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.03|STANDARD_ERROR_OF_MEAN|0.75|<|0.01|TWO_SIDED|95.0|-3.53|-0.52||Post-test scores following Auditory Cognitive Training as compared to baseline, tested at alpha = 0.05 (uncorrected).|Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||-0.52|-3.53|<0.01
92292154|NCT00577655|184488226|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.998||||0.0521|TWO_SIDED|95.0|-0.037|8.032||significance level of 0.05.|ANOVA|terms for treatment, center, time, time x treatment, subject as a random|Active - Placebo|Day 22||8.032|-0.037|0.0521
92184430|NCT00923078|184267473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.45|STANDARD_ERROR_OF_MEAN|0.75||0.01|TWO_SIDED|95.0|-3.95|-0.94||Post-test scores following Visual Cognitive Training as compared to baseline, tested at alpha = 0.05 (uncorrected).|Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||-0.94|-3.95|0.01
92184431|NCT00923078|184267473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.75||0.58|TWO_SIDED|95.0|-1.93|1.08||Post-test scores following Auditory Cognitive Training as compared to Visual Cognitive Training, tested at alpha = 0.05 (uncorrected).|Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.08|-1.93|0.58
92292155|NCT00577655|184488227|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.477||||0.0647|TWO_SIDED|95.0|0.98|2.23||significance level of 0.05.|Regression, Cox||Active/Placebo|Day 1||2.23|0.98|0.0647
92292156|NCT00577655|184488227|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|2.088||||0.0005|TWO_SIDED|95.0|1.38|3.15||significance level of 0.05.|Regression, Cox||Active/Placebo|Day 22||3.15|1.38|0.0005
92292157|NCT00577655|184488228|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.141||||0.5059|TWO_SIDED|95.0|0.77|1.69||significance level of 0.05.|Regression, Cox||Active/Placebo|Day 1||1.69|0.77|0.5059
92292158|NCT00577655|184488228|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.533||||0.0333|TWO_SIDED|95.0|1.03|2.27||significance level of 0.05.|Regression, Cox||Active/Placebo|Day 22||2.27|1.03|0.0333
92292159|NCT00577655|184488229|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3888||||||significance level of 0.05.|Fisher Exact|||Day 1||||0.3888
92292160|NCT00577655|184488229|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1249||||||significance level of 0.05.|Fisher Exact|||Day 22||||0.1249
92292161|NCT00577655|184488230|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0343||||||significance level of 0.05.|Fisher Exact|||Day 1||||0.0343
92292162|NCT00577655|184488230|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0962||||||significance level of 0.05.|Fisher Exact|||Day 22||||0.0962
92292163|NCT00577655|184488231|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0109||||||significance level of 0.05.|Fisher Exact|||Day 1||||0.0109
92292164|NCT00577655|184488231|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0845||||||significance level of 0.05.|Fisher Exact|||Day 22||||0.0845
92292165|NCT00577655|184488232|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013||||||significance level of 0.05.|Fisher Exact|||Day 1||||0.0013
92292166|NCT00577655|184488232|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0085||||||significance level of 0.05.|Fisher Exact|||Day 22||||0.0085
92292167|NCT00577655|184488233|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.072||||0.4674|TWO_SIDED|95.0|-0.265|0.122||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as a covariate, subject as random.|Active - Placebo|Week 1||0.122|-0.265|0.4674
92292168|NCT00577655|184488233|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.171||||0.084|TWO_SIDED|95.0|-0.365|0.023||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as covariate, subject as random|Active - Placebo|Week 2||0.023|-0.365|0.0840
92292169|NCT00577655|184488233|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.138||||0.1699|TWO_SIDED|95.0|-0.335|0.059||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as covariate, subject as random|Active - Placebo|Week 3||0.059|-0.335|0.1699
92292170|NCT00577655|184488235|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.926||||0.1391|TWO_SIDED|95.0|-3.256|23.108||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as a covariate, subject as random.|Active - Placebo|Week 1||23.108|-3.256|0.1391
92292171|NCT00577655|184488235|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.923||||0.1043|TWO_SIDED|95.0|-2.278|24.124||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as a covariate, subject as random.|Active - Placebo|Week 2||24.124|-2.278|0.1043
92292172|NCT00577655|184488235|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.546||||0.157|TWO_SIDED|95.0|-3.705|22.798||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as a covariate, subject as random.|Active - Placebo|Week 3||22.798|-3.705|0.1570
92292173|NCT00577655|184488236|SUPERIORITY_OR_OTHER_LEGACY||ratio of Active to Placebo|0.989||||0.9846|TWO_SIDED|95.0|-0.121|2.099||significance level of 0.05.|mixed poisson regression model|||"Week 1~P-value, mean and confidence interval calculated from a 0 inflated mixed poisson regression model with fixed effect terms for treatment, week, treatment by week interaction, baseline as a covariate and a random term for subject. The null hypothesis is that the ratio equals 1. Estimated means are conditional upon the random effect, assume a random effect of 0 and a covariate value at the average."||2.099|-0.121|0.9846
92292174|NCT00577655|184488236|SUPERIORITY_OR_OTHER_LEGACY||ratio of Active to Placebo|0.961||||0.9447|TWO_SIDED|95.0|-0.116|2.039||significance level of 0.05.|mixed poisson regression model|||"Week 2~P-value, mean and confidence interval calculated from a 0 inflated mixed poisson regression model with fixed effect terms for treatment, week, treatment by week interaction, baseline as a covariate and a random term for subject. The null hypothesis is that the ratio equals 1. Estimated means are conditional upon the random effect, assume a random effect of 0 and a covariate value at the average."||2.039|-0.116|0.9447
92292175|NCT00577655|184488236|SUPERIORITY_OR_OTHER_LEGACY||ratio of Active to Placebo|0.887||||0.8326|TWO_SIDED|95.0|-0.111|1.885||significance level of 0.05.|mixed poisson regression model|||"Week 3~P-value, mean and confidence interval calculated from a 0 inflated mixed poisson regression model with fixed effect terms for treatment, week, treatment by week interaction, baseline as a covariate and a random term for subject. The null hypothesis is that the ratio equals 1. Estimated means are conditional upon the random effect, assume a random effect of 0 and a covariate value at the average."||1.885|-0.111|0.8326
92292176|NCT03306277|184488251|SUPERIORITY||||||<|0.0001|||||||One-sided Exact Binomial Test|||This comparison is made to an assumed rate of zero 0 (or as low as 0.1%). By definition, children with spinal muscular atrophy Type 1 are never able to sit independently.||||<0.0001
92292177|NCT03306277|184488252|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||This comparison is made against the results from the age and gender-matched control participants selected from existing natural history data sets (PNCR) \[Neurol. 2014; 83(9):810-817\].|Data for the current study were compared to historical control data (Finkel et al,2014 - PubMed 25080519) where event-free survival was 6 out of 23 participants (26.1%) at 14 months of age.|||<0.0001
92292178|NCT01370863|184488265|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-1.452||||0.869|TWO_SIDED|95.0|-19.054|16.149|||ANCOVA|||||16.149|-19.054|0.869
92292179|NCT01370863|184488266|SUPERIORITY_OR_OTHER_LEGACY||Diference in LS means|0.264||||0.487|TWO_SIDED|95.0|-0.495|1.024|||ANCOVA|||||1.024|-0.495|0.487
92292180|NCT01370863|184488267|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-0.087||||0.637|TWO_SIDED|95.0|-0.501|0.326|||ANCOVA|||||0.326|-0.501|0.637
92292181|NCT05004649|184488273|OTHER|||||||0.024356||||||When Bonferroni corrected for multiple comparisons the significance level across conditions is p \< 0.0167. This is the Bonferonni corrected level for three tests applied to a baseline significance value of 0.05.|t-test, 2 sided|||||||.024356
92184432|NCT00923078|184267474|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.92|STANDARD_ERROR_OF_MEAN|1.55||0.06|TWO_SIDED|95.0|-6.02|0.18|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||0.18|-6.02|0.06
92292182|NCT05004649|184488273|OTHER|||||||0.040382||||||When Bonferroni corrected for multiple comparisons the significance level across conditions is p \< 0.0167. This is the Bonferonni corrected level for three tests applied to a baseline significance value of 0.05.|t-test, 2 sided|||||||.040382
92292183|NCT05004649|184488273|OTHER|||||||0.90161||||||When Bonferroni corrected for multiple comparisons the significance level across conditions is p \< 0.0167. This is the Bonferonni corrected level for three tests applied to a baseline significance value of 0.05.|t-test, 2 sided|||||||.90161
92292184|NCT01852799|184488274|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||bALP changes from baseline to cycle 1||||0.002
92292185|NCT01852799|184488274|OTHER||||||<|0.001|||||||t-test, 2 sided|||b-ALP changes from baseline to cycle 4||||<0.001
92292186|NCT01852799|184488274|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||DKK-1 changes from baseline to cycle 1||||0.005
92292187|NCT01852799|184488274|OTHER||||||<|0.001|||||||t-test, 2 sided|||DKK-1 changes from baseline to cycle 4||||<0.001
92292188|NCT02227238|184488323|SUPERIORITY|Non-inferiority of DTG plus 2 NRTI's was to be declared if the lower bound of 95% confidence interval (CI) for the difference in snapshot response rates (DTG - LPV/RTV) is greater than - 12%. This was also performed using the Per-Protocol (PP) Population. If both analyses show non-inferiority, the hypothesis of antiviral effect of DTG + 2 NRTI's was superior to LPV/RTV + 2 NRTIs was to be tested.|Proportion difference|13.8|||<|0.001|TWO_SIDED|95.0|7.3|20.3|||Cochran-Mantel-Haenszel||Adjusted proportion difference, calculated as proportion on DTG minus that on LPV/RTV and based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline plasma HIV-1 RNA and number of fully active background NRTIs, has been presented.||Superiority would be declared if the lower end of the confidence interval was above 0%|20.3|7.3|<.001
92292189|NCT02227238|184488326|OTHER||Proportion difference|5.7|||||TWO_SIDED|95.0|2.2|9.3|||||Proportion difference, calculated as proportion on DTG minus proportion on LPV/RTV, at Week 24 has been presented.|||9.3|2.2|
92292190|NCT02227238|184488326|OTHER||Proportion difference|9.8|||||TWO_SIDED|95.0|5.3|14.4|||||Proportion difference, calculated as proportion on DTG minus proportion on LPV/RTV, at Week 48 has been presented.|||14.4|5.3|
92292191|NCT02227238|184488353|OTHER||Mean Difference (Net)|-0.171||||0.001|TWO_SIDED|95.0|-0.272|-0.069|||Multiple imputation||Mean difference at Week 24 was calculated using multiple imputation using missing at random, adjusting for Baseline LDL cholesterol, Baseline plasma HIV-1 RNA, Baseline number of Fully Active NRTIs in the background regimen and Age|||-0.069|-0.272|0.0010
92292192|NCT02227238|184488353|OTHER||Mean Difference (Net)|-0.147||||0.01|TWO_SIDED|95.0|-0.259|-0.035|||'Multiple imputation||Mean difference at Week 48 was calculated using multiple imputation using missing at random, adjusting for Baseline LDL cholesterol, Baseline plasma HIV-1 RNA, Baseline number of Fully Active NRTIs in the background regimen and Age|||-0.035|-0.259|0.0100
92292193|NCT02227238|184488354|OTHER||Mean Difference (Net)|-0.542|||<|0.0001|TWO_SIDED|95.0|-0.729|-0.356|||Multiple imputation||Estimates at Week 24 are calculated using multiple imputation using missing at random, adjusting for Baseline total cholesterol/HDL ratio, Baseline plasma HIV-1 RNA, Baseline number of Fully Active NRTIs in the background regimen and Age.|||-0.356|-0.729|<0.0001
92292194|NCT02227238|184488354|OTHER||Mean Difference (Net)|-0.358||||0.0004|TWO_SIDED|95.0|-0.555|-0.161|||Multiple imputation||Estimates at Week 48 are calculated using multiple imputation using missing at random, adjusting for Baseline total cholesterol/HDL ratio, Baseline plasma HIV-1 RNA, Baseline number of Fully Active NRTIs in the background regimen and Age.|||-0.161|-0.555|0.0004
92292195|NCT00380588|184488361|SUPERIORITY_OR_OTHER|||||||0.38||95.0||||P-value for response (Complete Response + Partial Response).|Fisher Exact|||||||0.380
92292196|NCT00380588|184488362|SUPERIORITY_OR_OTHER|||||||0.074||95.0|||||Log Rank|||||||0.074
92292197|NCT00380588|184488363|SUPERIORITY_OR_OTHER|||||||0.136||95.0|||||Log Rank|||||||0.136
92292198|NCT02096705|184488364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.0968|<|0.0001|TWO_SIDED|95.0|-1.09|-0.71||P-value for Dapagliflozin vs. placebo|Longitudinal repeated measure analysis||Difference of Dapagliflozin from placebo|||-0.71|-1.09|<0.0001
92292199|NCT02096705|184488365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.69|STANDARD_ERROR_OF_MEAN|4.605|<|0.0001|TWO_SIDED|95.0|-39.76|-21.61|||Longitudinal repeated measure analysis|P-value for Dapagliflozin vs. placebo|Difference of Dapagliflozin from placebo|||-21.61|-39.76|<0.0001
92292200|NCT02096705|184488366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.3057|<|0.0001|TWO_SIDED|95.0|-1.98|-0.77||P-value for Dapagliflozin vs. placebo|Longitudinal repeated measure analysis||Difference of Dapagliflozin from placebo|||-0.77|-1.98|<0.0001
92292201|NCT02096705|184488367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.43|STANDARD_ERROR_OF_MEAN|0.5171||0.0059|TWO_SIDED|95.0|-2.45|-0.42||P-value for Dapagliflozin vs. placebo|Longitudinal repeated measure analysis||Difference of Dapagliflozin from placebo|||-0.42|-2.45|0.0059
92292202|NCT02377349|184488385|SUPERIORITY|Criterion: The lower limit (LL) of the 95% confidence interval (CI) of the GMC ratio \[dTpa Group-Mother/Control Group-Mother\] for anti-PT antibodies was greater than or equal to (≥) 1.5.|GMC ratio|8.47|||||TWO_SIDED|95.0|7.02|10.2|||2-sample t-test|The CI of the group GMC ratio were computed using two-sample t-test assuming heterogeneity of variance.||GMC ratio between groups (dTpa Group-Mother/Control Group-Mother) to demonstrate that maternally transferred antibodies against pertussis in the dTpa Group-Mother was superior to that in the Control Group-mother, in the cord blood sample at the time of delivery.||10.2|7.02|
92292203|NCT02377349|184488385|SUPERIORITY|Criterion: The lower limit (LL) of the 95% confidence interval (CI) of the GMC ratio \[dTpa Group-Mother/Control Group-Mother\] for anti-FHA antibodies was greater than or equal to (≥) 1.5.|GMC ratio|16.11|||||TWO_SIDED|95.0|13.48|19.24|||2-sample t-test|The CI of the group GMC ratio were computed using two-sample t-test assuming heterogeneity of variance.||GMC ratio between groups (dTpa Group-Mother/Control Group-Mother) to demonstrate that maternally transferred antibodies against pertussis in the dTpa Group-Mother was superior to that in the Control Group-mother, in the cord blood sample at the time of delivery.||19.24|13.48|
92292204|NCT02377349|184488385|SUPERIORITY|Criterion: The lower limit (LL) of the 95% confidence interval (CI) of the GMC ratio \[dTpa Group-Mother/Control Group-Mother\] for anti-PRN antibodies was greater than or equal to (≥) 1.5.|GMC ratio|20.65|||||TWO_SIDED|95.0|15.86|26.88|||2-sample t-test|The CI of the group GMC ratio were computed using two-sample t-test assuming heterogeneity of variance.||GMC ratio between groups (dTpa Group-Mother/Control Group-Mother) to demonstrate that maternally transferred antibodies against pertussis in the dTpa Group-Mother was superior to that in the Control Group-mother, in the cord blood sample at the time of delivery.||26.88|15.86|
92292205|NCT01395017|184488427|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.3864|TWO_SIDED|95.0|0.85|1.65||The log-rank test was used to test OS. As a sensitivity analysis, HR and its confidence interval was also provided for OS using the Cox proportional hazard model.|Cox proportional hazard model|Adjusting for baseline factors - treatment, ECOG PS, region, CA19-9 level (\< 1000 IU/mL or \>/=1000 IU/mL), and RT during trial (yes or no).||Using a 1-sided alpha=0.2, a population of 200 participants (100 GEM plus dasatinib and 100 GEM plus placebo) has 79% power to show an increase in median OS from 10 to 13.3 months (hazard ratio \[HR\] =0.75, assuming analysis of 135 deaths).||1.65|0.85|0.3864
92292206|NCT01395017|184488428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.6761|TWO_SIDED|95.0|0.73|1.34||The log-rank test was used to test PFS. As a sensitivity analysis, HR and its confidence interval was also provided for PFS using the Cox proportional hazard model.|Cox proportional hazard model|Adjusting for baseline factors: treatment, ECOG PS, region, CA19-9 level (\< 1000 IU/mL or \>/=1000 IU/mL), and RT during trial (yes or no).||Trial has 88% power to show a median PFS increase from 5 to 7 months (with 1-sided alpha=0.15, total 176 events, HR=0.714).||1.34|0.73|0.6761
92292207|NCT02235870|184488431|SUPERIORITY||Least-Square Mean Difference|3.28||||0.0261|TWO_SIDED|95.0|2.24|4.32|||ANCOVA|||||4.32|2.24|0.0261
92292208|NCT02235870|184488432|SUPERIORITY||Exact Confidence Interval|64.9|||<|0.0001|TWO_SIDED|95.0|57.5|71.7|||Exact Test|||Subjects in the Obalon Treatment group with at least 2 Balloons and balloon therapy for at least 18 weeks.||71.7|57.5|<0.0001
92292209|NCT02235870|184488433|SUPERIORITY||Percentage Difference|32.8|||<|0.0001|TWO_SIDED|95.0|23.1|42.5|||Chi-squared|||||42.5|23.1|<0.0001
92292210|NCT01046084|184488452|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.0|||||TWO_SIDED|90.0|86.5|123.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||123|86.5|
92184433|NCT00923078|184267474|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.24|STANDARD_ERROR_OF_MEAN|1.55|<|0.05|TWO_SIDED|95.0|-6.34|-0.14|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||-0.14|-6.34|< 0.05
92292211|NCT01046084|184488453|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|104.0|||||TWO_SIDED|90.0|89.3|120.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||120|89.3|
92292212|NCT01046084|184488454|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|107.0|||||TWO_SIDED|90.0|92.5|123.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||123|92.5|
92292213|NCT02286466|184488585|SUPERIORITY||Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|1.38||0.412|TWO_SIDED|95.0|-1.6|3.87||a priori threshold p\<0.05|ANCOVA|Adjusted for baseline values of criterion outcomes and psychotropic medication use||Analysis comparing the change in anxiety symptoms (HAM-A) from baseline to post-assessment between groups adjusting for baseline values of criterion outcome and psychotropic medication use.||3.87|-1.60|0.412
92292214|NCT02286466|184488586|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|2.51||0.997|TWO_SIDED|95.0|-4.99|4.96||a priori threshold p\<0.05|ANCOVA|Adjusted for baseline values of criterion outcome and psychotropic medication use||Analysis comparing the change in quality of life (FACT-G) from baseline to post-assessment between groups adjusting for baseline values of criterion outcome and psychotropic medication use||4.96|-4.99|0.997
92292215|NCT02286466|184488587|SUPERIORITY||Mean Difference (Final Values)|0.78|STANDARD_ERROR_OF_MEAN|0.63||0.215|TWO_SIDED|95.0|-0.46|2.02||a priori threshold p\<0.05|ANCOVA|Adjusted for baseline values of criterion outcome and psychotropic medication use||Analysis comparing the change in self-report anxiety symptoms on the HADS-Anxiety Subscale from baseline to post-assessment between groups adjusting for baseline values of criterion outcome and psychotropic medication use.||2.02|-0.46|0.215
92292216|NCT02286466|184488587|SUPERIORITY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.55||0.379|TWO_SIDED|95.0|-0.6|1.57||a priori threshold p\<0.05|ANCOVA|Adjusted for baseline values of criterion outcome and psychotropic medication use||Analysis comparing the change in self-report depression symptoms on the HADS-Depression Subscale from baseline to post-assessment between groups adjusting for baseline values of criterion outcome and psychotropic medication use.||1.57|-0.60|0.379
92292217|NCT02286466|184488588|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.81||0.852|TWO_SIDED|95.0|-1.45|1.75||a priori threshold p\<0.05|ANCOVA|Adjusted for baseline values of criterion outcome and psychotropic medication use||Analysis comparing the change in depression symptoms on the PHQ-9 from baseline to post-assessment between groups adjusting for baseline values of criterion outcome and psychotropic medication use.||1.75|-1.45|0.852
92292218|NCT00835081|184488589|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.0||||||90.0|95.9|110.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||110|95.9|
92292219|NCT00835081|184488590|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.0||||||90.0|97.5|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||103|97.5|
92292220|NCT00835081|184488591|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.8||||||90.0|97.4|102.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||102|97.4|
92184434|NCT00923078|184267474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|1.55||0.84|TWO_SIDED|95.0|-3.42|2.78|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||2.78|-3.42|0.84
92184435|NCT00923078|184267475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.62|STANDARD_ERROR_OF_MEAN|1.04||0.55|TWO_SIDED|95.0|-1.45|2.69|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||2.69|-1.45|0.55
92184436|NCT00923078|184267475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|1.03||0.98|TWO_SIDED|95.0|-2.02|2.07|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||2.07|-2.02|0.98
92292221|NCT00874276|184488592|SUPERIORITY_OR_OTHER||Kendall's Tau-B|0.6|STANDARD_ERROR_OF_MEAN|0.127||0.023|TWO_SIDED|95.0|0.35|0.85||This is the primary outcome, and there is no adjustment.|Wilcoxon (Mann-Whitney)|||We used a Wilcoxon test (and accompanying Kendal's Tau B) because these outcomes are outlier prone.||0.85|0.35|0.023
92292222|NCT00874276|184488593|SUPERIORITY_OR_OTHER||Kendall's Tau B|-0.23|STANDARD_ERROR_OF_MEAN|0.23||0.42|TWO_SIDED|95.0|-0.23|0.69|||Wilcoxon (Mann-Whitney)|||This is the same analysis as the previous, except we use the day 5 pharmacogenetics on the amount of time needed to clear one-half of dose of the drug. This is for the environmental dose. A positive (negative) Kendall's Tau is associated with the EGT allele being faster (slower) than lacking EGT in terms of metabolization of DCA.||0.69|-0.23|0.42
92292223|NCT03123874|184488604|OTHER|Linear mixed effects models testing the effect of pump set-up on the number of live aerobic bacterial counts. The fixed effect of interest will be pump set-up. Model will also be adjusted for infant feeding status (human milk only vs. human milk and complementary foods) and randomization schedule (which pump set-up went first).|Mean Difference (Final Values)|0.827||||0.9|TWO_SIDED|||||Results were considered statistically significant at p\<0.05. No adjustments were made to p-values.|Mixed Models Analysis||Ratio of mean bacterial taxa in milk collected with own / sterile pump set-ups.|||||0.9
92292224|NCT03123874|184488605|OTHER|Linear mixed effects models testing the effect of pump set-up on the number of live aerobic bacterial counts. The fixed effect of interest will be pump set-up. Model will also be adjusted for infant feeding status (human milk only vs. human milk and complementary foods) and randomization schedule (which pump set-up went first).|Mean Difference (Final Values)|0.163||||0.3|TWO_SIDED|||||Results were considered statistically significant at p\<0.05. No adjustments were made to p-values.|Mixed Models Analysis||Ratio of mean Shannon Diversity Index in milk collected with own / sterile pump set-ups|||||0.3
92292225|NCT03123874|184488606|OTHER|Linear mixed effects models testing the effect of pump set-up on the number of live aerobic bacterial counts. The fixed effect of interest will be pump set-up. Model will also be adjusted for infant feeding status (human milk only vs. human milk and complementary foods) and randomization schedule (which pump set-up went first). Random effect was participant ID to account for multiple samples for each participant.|Mean Difference (Final Values)|4.95||||0.0003|TWO_SIDED|||||Results were considered statistically significant at p\<0.05. No adjustments were made to p-values.|Mixed Models Analysis||Ratio of mean bacterial counts in milk collected with own / sterile pump set-ups.|||||0.0003
92292226|NCT02578641|184488614|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.1942|TWO_SIDED|95.0|0.91|1.56||Between-treatment comparisons were assessed using stratified log-rank test stratified by country and disease stage per randomization stratification.|Log Rank|Log-rank test of Hazards Ration equals 1, using Cox proportional hazards regression.|Hazard ratios were estimated using Cox proportional hazards regression.|||1.56|0.91|0.1942
92292227|NCT05330975|184488619|NON_INFERIORITY|Lower bound of the 95% CI of GMR \>0.667, using a noninferiority margin of 1.5.|GMR|0.854|||||TWO_SIDED|95.0|0.728|1.002|||||mRNA-1345+Afluria group compared mRNA-1345 alone group|||1.002|0.728|
92292228|NCT05330975|184488620|NON_INFERIORITY|Lower bound of the 95% CI of the SRR difference \>-10%, using noninferiority margin of 10%.|Difference|-14.3|||||TWO_SIDED|95.0|-21.5|-6.9|||||mRNA-1345+Afluria group compared mRNA-1345 alone group|||-6.9|-21.5|
92292229|NCT05330975|184488628|NON_INFERIORITY|Lower bound of the 95% CI of GMR \>0.667, using a noninferiority margin of 1.5.|GMR|0.888|||||TWO_SIDED|95.0|0.791|0.995|||||mRNA-1345+mRNA-1273.214 compared with mRNA-1345 alone|||0.995|0.791|
92292230|NCT05330975|184488629|NON_INFERIORITY|Lower bound of the 95% CI of the SRR difference \>-10%, using noninferiority margin of 10%.|Difference|-5.9|||||TWO_SIDED|95.0|-11.9|0.3|||||mRNA-1345+mRNA-1273.214 compared with mRNA-1345 alone|||0.3|-11.9|
92184437|NCT00923078|184267475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|1.04||0.57|TWO_SIDED|95.0|-2.66|1.47|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.47|-2.66|0.57
92292231|NCT05330975|184488652|NON_INFERIORITY|Lower bound of the 95% CI of geometric mean ratio (GMR) \>0.667, using a noninferiority margin of 1.5.|GMR|0.807|||||TWO_SIDED|95.0|0.668|0.974|||||mRNA-1345+Afluria group compared mRNA-1345 alone group|||0.974|0.668|
92292232|NCT05330975|184488653|NON_INFERIORITY|Lower bound of the 95% CI of the SRR difference \>-10%, using noninferiority margin of 10%.|Difference|-11.2|||||TWO_SIDED|95.0|-17.9|-4.1|||||mRNA-1345+Afluria group compared mRNA-1345 alone group|||-4.1|-17.9|
92292233|NCT05330975|184488654|NON_INFERIORITY|Lower bound of the 95% CI of GMR \>0.667, using a noninferiority margin of 1.5.|GMR|0.893|||||TWO_SIDED|95.0|0.772|1.032|||||mRNA-1345+Afluria group at Day 29 compared with the GMT of anti-HA Ab in the Afluria alone group|Influenza A H1N1 Antibody||1.032|0.772|
92292234|NCT05330975|184488654|NON_INFERIORITY|Lower bound of the 95% CI of geometric mean ratio (GMR) \>0.667, using a noninferiority margin of 1.5.|GMR|0.969|||||TWO_SIDED|95.0|0.861|1.091|||||mRNA-1345+Afluria group at Day 29 compared with the GMT of anti-HA Ab in the Afluria alone group|Influenza A H3N2 Antibody||1.091|0.861|
92292235|NCT05330975|184488654|NON_INFERIORITY|Lower bound of the 95% CI of geometric mean ratio (GMR) \>0.667, using a noninferiority margin of 1.5.|GMR|0.927|||||TWO_SIDED|95.0|0.822|1.045|||||mRNA-1345+Afluria group at Day 29 compared with the GMT of anti-HA Ab in the Afluria alone group|Influenza B Washington Antibody||1.045|0.822|
92292236|NCT05330975|184488654|NON_INFERIORITY|Lower bound of the 95% CI of geometric mean ratio (GMR) \>0.667, using a noninferiority margin of 1.5.|GMR|0.909|||||TWO_SIDED|95.0|0.809|1.02|||||mRNA-1345+Afluria group at Day 29 compared with the GMT of anti-HA Ab in the Afluria alone group|Influenza B Phuket Antibody||1.020|0.809|
92292237|NCT05330975|184488660|NON_INFERIORITY|Lower bound of the 95% CI of ratio of the GMT (GMR) \>0.667, using a noninferiority margin of 1.5.|GMR|0.796|||||TWO_SIDED|95.0|0.702|0.901|||||mRNA-1345+mRNA-1273.214 compared to mRNA-1345 alone|||0.901|0.702|
92292238|NCT05330975|184488661|NON_INFERIORITY|Lower bound of the 95% CI of the SRR difference \>-10%, using noninferiority margin of 10%.|Difference|-4.4|||||TWO_SIDED|95.0|-9.9|1.0|||||mRNA-1345+mRNA-1273.214 compared to mRNA-1345 alone|||1.0|-9.9|
92292239|NCT05330975|184488662|NON_INFERIORITY|Lower bound of the 95% CI of ratio of the GMT (GMR) \>0.667, using a noninferiority margin of 1.5.|GMR|0.959|||||TWO_SIDED|95.0|0.872|1.056|||||mRNA-1345+mRNA-1273.214 compared to mRNA-1273.214 alone|GMR for Wuhan-Hu-1||1.056|0.872|
92292240|NCT05330975|184488662|NON_INFERIORITY|Lower bound of the 95% CI of ratio of the GMT (GMR) \>0.667, using a noninferiority margin of 1.5.|GMR|1.004|||||TWO_SIDED|95.0|0.888|1.137|||||mRNA-1345+mRNA-1273.214 compared to mRNA-1273.214 alone|GMR for B.1.1.529||1.137|0.888|
92292241|NCT05330975|184488663|NON_INFERIORITY|Lower bound of the 95% CI of the SRR difference \>-10%, using noninferiority margin of 10%.|Difference|0.2|||||TWO_SIDED|95.0|-6.0|6.3|||||mRNA-1345+mRNA-1273.214 compared to mRNA-1273.214 alone|SRR difference for Wuhan-Hu-1||6.3|-6.0|
92292242|NCT05330975|184488663|NON_INFERIORITY|Lower bound of the 95% CI of the SRR difference \>-10%, using noninferiority margin of 10%.|Difference|-0.9|||||TWO_SIDED|95.0|-6.6|4.7|||||mRNA-1345+mRNA-1273.214 compared to mRNA-1273.214 alone|SRR difference for B.1.1.529||4.7|-6.6|
92292243|NCT05330975|184488668|NON_INFERIORITY|Lower bound of the 95% CI of ratio of the GMT (GMR) \>0.667, using a noninferiority margin of 1.5.|GMR|1.077|||||TWO_SIDED|95.0|0.995|1.166|||||The 95% CI for the GMR is based on t-distribution of the log-transformed values then back transformed to the original scale for presentation.|GMR of RSV-A. GMR was calculated by back transforming the mean of paired difference of antibody levels on the logarithmic scale between revaccination Day 29 and primary vaccination Day 29.||1.166|0.995|
92292244|NCT05330975|184488668|NON_INFERIORITY|Lower bound of the 95% CI of ratio of the GMT (GMR) \>0.667, using a noninferiority margin of 1.5.|GMR|0.909|||||TWO_SIDED|95.0|0.839|0.984|||||The 95% CI for the GMR is based on t-distribution of the log-transformed values then back transformed to the original scale for presentation.|GMR of RSV-B. GMR was calculated by back transforming the mean of paired difference of antibody levels on the logarithmic scale between revaccination Day 29 and primary vaccination Day 29.||0.984|0.839|
92292245|NCT03292458|184488694|SUPERIORITY|The primary efficacy outcome was analyzed using a restricted maximum likelihood (REML)-based linear mixed-effect model. The analysis included group, treatment, and treatment period as interacting fixed effects and subject as random effect. An unstructured covariance structure was used to model the within-patient errors.||||||0.01|TWO_SIDED|98.75|||||Mixed Models Analysis|||||||0.01
92292246|NCT03292458|184488695|OTHER|The minimum and average efficacy (in % symptom change) of sodium oxybate versus placebo in improving symptoms compared to the baseline was determined using binomial logistic regression.||||||0.05|TWO_SIDED|98.75|||||Regression, Logistic|||The minimum and average efficacy of sodium oxybate vs. placebo in improving symptoms compared to the baseline were determined using binomial logistic regression.||||0.05
92292247|NCT03292458|184488696|OTHER||Mean Difference (Final Values)|98.75||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
92292248|NCT03292458|184488697|OTHER|||||||0.01|TWO_SIDED|98.75|||||ANOVA|||||||0.01
92292249|NCT03292458|184488698|OTHER|||||||0.01|TWO_SIDED|98.75|||||Pearson correlation|||||||0.01
92292250|NCT03292458|184488699|OTHER|||||||0.01|TWO_SIDED|98.75|||||Pearson correlation|||||||0.01
92184438|NCT00923078|184267476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|1.27||0.63|TWO_SIDED|95.0|-3.14|1.93|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.93|-3.14|0.63
92292251|NCT01513239|184488700|SUPERIORITY_OR_OTHER||Adjusted Difference|-10.7|||<|0.0001|TWO_SIDED|95.0|-16.4|-5.1||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||-5.1|-16.4|<0.0001
92292252|NCT01513239|184488700|SUPERIORITY_OR_OTHER||Adjusted Difference|-9.9||||0.0003|TWO_SIDED|95.0|-15.5|-4.3||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||-4.3|-15.5|0.0003
92292253|NCT01513239|184488700|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.8||||0.3718|TWO_SIDED|95.0|-5.9|4.2||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus MK-6072 + SOC|||4.2|-5.9|0.3718
92292254|NCT01513239|184488701|SUPERIORITY_OR_OTHER||Adjusted Difference|5.2||||0.0722|TWO_SIDED|95.0|-1.8|12.2||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||12.2|-1.8|0.0722
92292255|NCT01513239|184488701|SUPERIORITY_OR_OTHER||Adjusted Difference|14.6|||<|0.0001|TWO_SIDED|95.0|7.7|21.4||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||21.4|7.7|<0.0001
92292256|NCT01513239|184488701|SUPERIORITY_OR_OTHER||Adjusted Difference|-9.4||||0.9969|TWO_SIDED|95.0|-16.1|-2.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus MK-6072 + SOC|||-2.7|-16.1|0.9969
92292257|NCT01513239|184488702|SUPERIORITY_OR_OTHER||Adjusted Difference|-11.9||||0.0006|TWO_SIDED|95.0|-19.0|-4.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||-4.7|-19.0|0.0006
92292258|NCT01513239|184488702|SUPERIORITY_OR_OTHER||Adjusted Difference|-13.7|||<|0.0001|TWO_SIDED|95.0|-20.4|-6.9||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||-6.9|-20.4|<0.0001
92292259|NCT01513239|184488702|SUPERIORITY_OR_OTHER||Adjusted Difference|1.6||||0.6962|TWO_SIDED|95.0|-4.6|8.0||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus MK-6072 + SOC|||8.0|-4.6|0.6962
92292260|NCT01513239|184488703|SUPERIORITY_OR_OTHER||Difference in Percentages|-2.9||||0.408|TWO_SIDED|95.0|-9.8|4.0|||Miettinen and Nurminen||MK-3415A + SOC minus Placebo +SOC|||4.0|-9.8|0.408
92292261|NCT01513239|184488703|SUPERIORITY_OR_OTHER||Difference in Percentages|-2.3||||0.517|TWO_SIDED|95.0|-9.2|4.6|||Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||4.6|-9.2|0.517
92292262|NCT01513239|184488704|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.2||||0.931|TWO_SIDED|95.0|-3.8|3.5|||Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||3.5|-3.8|0.931
92292263|NCT01513239|184488704|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0||||0.997|TWO_SIDED|95.0|-3.7|3.6|||Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||3.6|-3.7|0.997
92292264|NCT01513239|184488705|SUPERIORITY_OR_OTHER||Difference in Percentages|0.5||||0.328|TWO_SIDED|95.0|-0.8|2.0|||Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||2.0|-0.8|0.328
92292265|NCT01513239|184488705|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.3||||0.308|TWO_SIDED|95.0|-1.5|0.7|||Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||0.7|-1.5|0.308
92292266|NCT01513239|184488706|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||1.0|-1.0|>0.999
92292267|NCT01513239|184488706|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||1.0|-1.0|>0.999
92292268|NCT01513239|184488707|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.4|||||TWO_SIDED|95.0|-4.2|3.3|||||MK-3415A + SOC minus Placebo + SOC|||3.3|-4.2|
92292269|NCT01513239|184488707|SUPERIORITY_OR_OTHER||Difference in Percentages|1.2|||||TWO_SIDED|95.0|-2.7|5.2|||||MK-6072 + SOC minus Placebo + SOC|||5.2|-2.7|
92292270|NCT01167829|184488739|SUPERIORITY_OR_OTHER||Mean Difference (Net)|183.0|STANDARD_ERROR_OF_MEAN|44.0||0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.05
92292271|NCT00834444|184488749|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.9||||||90.0|87.8|107.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107|87.8|
92292272|NCT00834444|184488750|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.0||||||90.0|97.9|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103|97.9|
92292273|NCT00834444|184488751|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.0||||||90.0|97.7|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103|97.7|
92292274|NCT00841659|184488774|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|99.96||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
92292275|NCT00841659|184488775|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|93.58||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
92292276|NCT00841659|184488776|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|94.29||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
92292277|NCT03499873|184488778|EQUIVALENCE|90% CI on the Test-to-Reference difference for the proportion of subjects with cure should be contained within the interval \[-0.20, +0.20\]|Mean Difference (Net)|-0.026|||||TWO_SIDED|90.0|-0.124|0.073||||||||0.073|-0.124|
92292278|NCT03499873|184488778|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
92292279|NCT03499873|184488778|SUPERIORITY|||||||0.0003|||||||ANOVA|||||||0.0003
92292280|NCT02654145|184488830|SUPERIORITY||Mean Difference (Final Values)|-0.9|||<|0.001|TWO_SIDED|95.0|-1.13|-0.66||p-value is for Difference (Mepo-Placebo) calculated based on the Historical Placebo estimate of -0.55 (Standard Error: 0.05), which was estimated from a meta-analysis of studies NCT01000506 and NCT01691521 using all Placebo participants.|Mixed Model Repeated Measures||Difference (Mepo-Placebo) calculated based on the Historical Placebo estimate of -0.55 (Standard Error: 0.05), which was estimated from a meta-analysis of studies NCT01000506 and NCT01691521 using all Placebo participants.|||-0.66|-1.13|<0.001
92292281|NCT02654145|184488830|SUPERIORITY||Mean Difference (Final Values)|-1.34|||<|0.001|TWO_SIDED|95.0|-1.68|-1.0||p- value for Difference (Mepo-Placebo) calculated based on the Historical Placebo estimate of -0.11 (Standard Error: 0.14), which was estimated from a meta-analysis of studies NCT01691521 and NCT02281318 using Placebo participants who previously used|Mixed Model Repeated Measures||Difference (Mepo-Placebo) calculated based on the Historical Placebo estimate of -0.11 (Standard Error: 0.14), which was estimated from a meta-analysis of studies NCT01691521 and NCT02281318 using Placebo participants who previously used Xolair.|||-1.00|-1.68|<0.001
92292282|NCT02654145|184488832|SUPERIORITY||Rate ratio|0.36|||<|0.001|TWO_SIDED|95.0|0.28|0.47|||Generalised Estimating Equations||Analysis performed using generalized estimating equation (GEE) model assuming a negative binomial distribution with a covariate of treatment period (pre-treatment , on- and off-treatment), logarithm of time as an offset variable|||0.47|0.28|<0.001
92292283|NCT00354835|184488841|SUPERIORITY_OR_OTHER_LEGACY||The incidence of anemia|0.2613|||||ONE_SIDED|95.0||0.31||||||Compare incidence of Anemia to historical rate of 0.40 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. Comparing the incidence of anemia with VAC on ARST0531 to the historical rate of 0.40 with VAC on D9803. The 95% one-sided confidence interval for the incidence of anemia will be calculated and evaluated to see if the interval contains the null rate of 0.40.||0.31||
92292284|NCT00354835|184488841|SUPERIORITY_OR_OTHER_LEGACY||The incidence of nausea or hepatopathy|0.027|||||ONE_SIDED|95.0||0.0449||||||Compare incidence of Nausea or Hepatopathy to historical rate of 0.05 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of nausea or hepatopathy will be calculated and evaluated to see if the interval contains the null rate of 0.05.||0.0449||
92184439|NCT00923078|184267476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.92|STANDARD_ERROR_OF_MEAN|1.27||0.47|TWO_SIDED|95.0|-3.45|1.61|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.61|-3.45|0.47
92184440|NCT00923078|184267476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|1.27||0.8|TWO_SIDED|95.0|-2.85|2.22|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||2.22|-2.85|0.80
92184441|NCT00923078|184267477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.98||0.26|TWO_SIDED|95.0|-3.06|0.85|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||0.85|-3.06|0.26
92184442|NCT00923078|184267477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.47|STANDARD_ERROR_OF_MEAN|0.97||0.13|TWO_SIDED|95.0|-3.41|0.46|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||0.46|-3.41|0.13
92184443|NCT00923078|184267477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.98||0.71|TWO_SIDED|95.0|-2.32|1.58|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.58|-2.32|0.71
92184444|NCT01072149|184267490|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.233|||<|0.001|TWO_SIDED|95.0|0.179|0.287|||Mixed Models Analysis|||||0.287|0.179|<0.001
92184445|NCT01072149|184267490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|||<|0.001|TWO_SIDED|95.0|0.165|0.275|||Mixed Models Analysis|||||0.275|0.165|<0.001
92184446|NCT01072149|184267490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.236|||<|0.001|TWO_SIDED|95.0|0.181|0.291|||Mixed Models Analysis|||||0.291|0.181|<0.001
92184447|NCT01102426|184267501|SUPERIORITY||Hazard Ratio (HR)|0.65|||=|0.0054|TWO_SIDED|95.0|0.447|0.885||Cox regression: HR p=0.0062|Log Rank|||||0.885|0.447|=0.0054
92184448|NCT01102426|184267502|SUPERIORITY|||||||0.0618|||||||Normal approximation|||||||0.0618
92184449|NCT01102426|184267503|SUPERIORITY||Hazard Ratio (HR)|0.512|||<|0.0001|TWO_SIDED|95.0|0.382|0.686||Cox regression HR: p\<0.0001|Log Rank|||||0.686|0.382|< 0.0001
92184450|NCT01102426|184267504|SUPERIORITY|||||||0.0002|||||||Normal approximation|||||||0.0002
92184451|NCT01102426|184267505|SUPERIORITY||Hazard Ratio (HR)|0.797|||=|0.1261|TWO_SIDED|95.0|0.596|1.067||Cox regression HR: p=0.1273|Log Rank|||Pre-specified||1.067|0.596|=0.1261
92184452|NCT01102426|184267506|SUPERIORITY|||||||0.3625|||||||Normal approximation|||||||0.3625
92184453|NCT01102426|184267507|SUPERIORITY|||||||0.1037|||||||Normal approximation|||||||0.1037
92184454|NCT01102426|184267508|SUPERIORITY||Hazard Ratio (HR)|0.384|||=|0.1015|TWO_SIDED|95.0|0.113|1.303||Cox regression HR: 0.1247|Log Rank|||||1.303|0.113|=0.1015
92184455|NCT01102426|184267510|SUPERIORITY||Hazard Ratio (HR)|0.043|||=|0.0001|TWO_SIDED|95.0|0.004|0.479||Cox regression HR: 0.0105|Log Rank|||Pre-specified||0.479|0.004|=0.0001
92184456|NCT01102426|184267513|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92184457|NCT01102426|184267514|SUPERIORITY|||||||0.0085|||||||Fisher Exact|||||||0.0085
92184458|NCT01102426|184267516|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92184459|NCT01102426|184267517|SUPERIORITY|||||||0.0029|||||||Fisher Exact|||||||0.0029
92184460|NCT03265132|184267533|SUPERIORITY||Risk Difference (RD)|1.0||||0.0022|TWO_SIDED|95.0|0.42|1.0|||Fisher Exact|||||1.00|0.42|0.0022
92184461|NCT00721734|184267604|SUPERIORITY_OR_OTHER||Slope|-0.607||||0.4114|TWO_SIDED|95.0|-2.129|0.914|||Regression, Linear|||"In order to estimate a possible effect of renal function, the relationship between the clearance of carfilzomib and creatinine clearance (CrCl) was explored using a mixed-effects model that included CrCl.~The slope of the regression of CL as a function of CrCL at Cycle 1, Day 1 was evaluated using a linear regression model that included CrCL as continuous variables (excluding the hemodialysis group)."||0.914|-2.129|0.4114
92184462|NCT04492475|184267628|SUPERIORITY||Cox Proportional Hazard|0.99||||0.88|TWO_SIDED|95.0|0.87|1.13|||Log Rank|||||1.13|0.87|0.880
92184463|NCT04492475|184267645|SUPERIORITY||Risk Difference (RD)|7.2|||||TWO_SIDED|95.0|0.9|13.4||||||||13.4|0.9|
92184464|NCT04492475|184267645|SUPERIORITY||Risk Difference (RD)|23.6|||||TWO_SIDED|95.0|0.0|43.9||||||||43.9|0.0|
92184465|NCT04492475|184267646|SUPERIORITY||Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-3.2|6.0||||||||6.0|-3.2|
92184466|NCT04492475|184267646|SUPERIORITY||Risk Difference (RD)|35.8|||||TWO_SIDED|95.0|12.3|54.2||||||||54.2|12.3|
92184467|NCT04492475|184267670|SUPERIORITY||Cox Proportional Hazard|1.04|||||TWO_SIDED|95.0|0.9|1.19||||||||1.19|0.90|
92292285|NCT00354835|184488841|SUPERIORITY_OR_OTHER_LEGACY||The incidence of febrile neutropenia|0.1351|||||ONE_SIDED|95.0||0.1729||||||Compare incidence of Febrile Neutropenia to historical rate of 0.50 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of febrile neutropenia will be calculated and evaluated to see if the interval contains the null rate of 0.50.||0.1729||
92292286|NCT00354835|184488841|SUPERIORITY_OR_OTHER_LEGACY||The incidence of platelet count decrease|0.1216|||||ONE_SIDED|95.0||0.1577||||||Compare incidence of Platelet Count Decreased to historical rate of 0.70 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of platelet count decreased will be calculated and evaluated to see if the interval contains the null rate of 0.70.||0.1577||
92292287|NCT00354835|184488841|SUPERIORITY_OR_OTHER_LEGACY||The incidence of vomiting|0.0405|||||ONE_SIDED|95.0||0.0623||||||Compare incidence of Vomiting to historical rate of 0.15 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of vomiting will be calculated and evaluated to see if the interval contains the null rate of 0.15.||0.0623||
92292288|NCT00354835|184488841|SUPERIORITY_OR_OTHER_LEGACY||The incidence of anemia|0.2798|||||ONE_SIDED|95.0||0.3329||||||Compare incidence of Anemia to historical rate of 0.40 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. 95% one-sided confidence interval for the incidence of anemia will be calculated and evaluated to see if the interval contains the null rate of 0.40.||0.3329||
92292289|NCT00354835|184488841|SUPERIORITY_OR_OTHER_LEGACY||The incidence of nausea or hepatopathy|0.0052|||||ONE_SIDED|95.0||0.0137||||||Compare incidence of Nausea or Hepatopathy to historical rate of 0.05 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of nausea or hepatopathy will be calculated and evaluated to see if the interval contains the null rate of 0.05.||0.0137||
92292290|NCT00354835|184488841|SUPERIORITY_OR_OTHER_LEGACY||The incidence of febrile neutropenia|0.0881|||||ONE_SIDED|95.0||0.1216||||||Compare incidence of Febrile Neutropenia to historical rate of 0.50 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of febrile neutropenia will be calculated and evaluated to see if the interval contains the null rate of 0.50.||0.1216||
92184468|NCT04492475|184267670|SUPERIORITY||Cox Proportional Hazard|0.37|||||TWO_SIDED|95.0|0.21|0.66||||||||0.66|0.21|
92184469|NCT04492475|184267671|SUPERIORITY||Cox Proportional Hazard|1.04|||||TWO_SIDED|95.0|0.91|1.19||||||||1.19|0.91|
92292291|NCT00354835|184488841|SUPERIORITY_OR_OTHER_LEGACY||The incidence of platelet count decrease|0.3264|||||ONE_SIDED|95.0||0.3819||||||Compare incidence of Platelet Count Decreased to historical rate of 0.70 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of platelet count decreased will be calculated and evaluated to see if the interval contains the null rate of 0.70.||0.3819||
92292292|NCT00354835|184488841|SUPERIORITY_OR_OTHER_LEGACY||The incidence of vomiting|0.0104|||||ONE_SIDED|95.0||0.0224||||||Compare incidence of Vomiting to historical rate of 0.15 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of vomiting will be calculated and evaluated to see if the interval contains the null rate of 0.15.||0.0224||
92292293|NCT00354835|184488844|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99|TWO_SIDED|95.0|||||Fisher Exact|||The incidences of grade 3 or higher neutropenia, with or without fever between UGT1A1 Genotypes (6/6, 6/7, 7/7) were compared by the Fisher's exact test.||||0.99
92184470|NCT04492475|184267671|SUPERIORITY||Cox Proportional Hazard|0.44|||||TWO_SIDED|95.0|0.24|0.82||||||||0.82|0.24|
92292294|NCT00354835|184488844|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|TWO_SIDED|95.0|||||Fisher Exact|||The incidences of grade 3 or higher diarrhea between UGT1A1 Genotypes (6/6, 6/7, 7/7) were compared by Fisher's exact test.||||0.036
92292295|NCT01968551|184488849|NON_INFERIORITY_OR_EQUIVALENCE|Null Hypothesis: In Cohort 2, the group switching to E/C/F/TAF + DRV was at least 12% lower than the group remaining on SBR with respect to percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 24. Alternative Hypothesis: In Cohort 2, the group switching to E/C/F/TAF + DRV is less than 12% lower than the group remaining on SBR with respect to the proportion of participants with HIV-1 RNA\<50 copies/mL at Week 24.|Difference in proportion|5.3||||0.23|TWO_SIDED|95.001|-3.4|17.4|||Fisher Exact||Difference in percentages of virologic success and its 95.001% confidence interval (CI) calculation was based on exact method. The exact CI was estimated based on unconditional exact method using 2 inverted 1-sided tests with standardized statistic.|||17.4|-3.4|0.23
92184471|NCT04492475|184267672|SUPERIORITY||Cox Proportional Hazard|1.08|||||TWO_SIDED|95.0|0.93|1.26||||||||1.26|0.93|
92184472|NCT04492475|184267672|SUPERIORITY||Cox Proportional Hazard|0.39|||||TWO_SIDED|95.0|0.21|0.72||||||||0.72|0.21|
92184473|NCT04492475|184267673|SUPERIORITY||Cox Proportional Hazard|1.04|||||TWO_SIDED|95.0|0.9|1.19||||||||1.19|0.90|
92184474|NCT04492475|184267674|SUPERIORITY||Cox Proportional Hazard|0.92|||||TWO_SIDED|95.0|0.59|1.45||||||This analysis is for Asian participants.||1.45|0.59|
92184475|NCT04492475|184267674|SUPERIORITY||Cox Proportional Hazard|0.92|||||TWO_SIDED|95.0|0.66|1.27||||||This analysis is for Black and African American participants.||1.27|0.66|
92184476|NCT04492475|184267674|SUPERIORITY||Cox Proportional Hazard|1.02|||||TWO_SIDED|95.0|0.86|1.21||||||This analysis is for White participants.||1.21|0.86|
92184477|NCT04492475|184267674|SUPERIORITY||Cox Proportional Hazard|0.84|||||TWO_SIDED|95.0|0.59|1.19||||||This analysis is for Race of Other participants||1.19|0.59|
92184478|NCT04492475|184267675|SUPERIORITY||Cox Proportional Hazard|1.02|||||TWO_SIDED|95.0|0.86|1.19||||||This analysis is for Not Hispanic or Latino participants.||1.19|0.86|
92184479|NCT04492475|184267675|SUPERIORITY||Cox Proportional Hazard|0.83|||||TWO_SIDED|95.0|0.65|1.05||||||This analysis is for Hispanic or Latino participants.||1.05|0.65|
92184480|NCT04492475|184267676|SUPERIORITY||Cox Proportional Hazard|0.93|||||TWO_SIDED|95.0|0.78|1.1||||||This analysis is for Male participants.||1.10|0.78|
92292296|NCT01968551|184488850|NON_INFERIORITY_OR_EQUIVALENCE|Null Hypothesis: In Cohort 2, the group switching to E/C/F/TAF + DRV was at least 12% lower than the group remaining on SBR with respect to percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48. Alternative Hypothesis: In Cohort 2, the group switching to E/C/F/TAF + DRV is less than 12% lower than the group remaining on SBR with respect to the proportion of participants with HIV-1 RNA \< 50 copies/mL at Week 48.|Difference in proportion|18.3||||0.004|TWO_SIDED|95.001|3.5|33.0|||Fisher Exact||Difference in percentages of virologic success and its 95.001% CI were calculated based on exact method. The exact CI was estimated based on unconditional exact method using 2 inverted 1-sided tests with the standardized statistic.|||33.0|3.5|0.004
92292297|NCT06475729|184488853|EQUIVALENCE|Log-transformed PK parameters were analyzed using a fixed-effects model. Bioequivalence will be concluded if the 2-sided 90% Confidence Interval is completely contained within the interval (0.80, 1.25).|Ratio of Geometric least squares mean|1.039|||||TWO_SIDED|90.0|0.9853|1.0956||||||||1.0956|0.9853|
92292298|NCT06475729|184488854|EQUIVALENCE|Log-transformed PK parameters were analyzed using a fixed-effects model. Bioequivalence will be concluded if the 2-sided 90% Confidence Interval is completely contained within the interval (0.80, 1.25).|Ratio of Geometric least squares mean|1.011|||||TWO_SIDED|90.0|0.9564|1.0685||||||||1.0685|0.9564|
92292299|NCT06475729|184488855|EQUIVALENCE|Log-transformed PK parameters were analyzed using a fixed-effects model. Bioequivalence will be concluded if the 2-sided 90% Confidence Interval is completely contained within the interval (0.80, 1.25).|Ratio of Geometric least squares mean|1.011|||||TWO_SIDED|90.0|0.9568|1.0678||||||||1.0678|0.9568|
92292300|NCT03922750|184488859|OTHER||Estimated mean treatment difference|1.01||||0.7542|TWO_SIDED|95.0|-5.33|7.35|||ANCOVA|||The response and change from baseline in response during last two weeks of treatment (week 15 and 16) were analysed using an analysis of covariance (ANCOVA) model with treatment, pre-trial insulin treatment and SGLT2i use as fixed factors, and baseline response as covariate. Missing endpoint values were imputed using multiple imputation based on own treatment arm with baseline response as a covariate. Each imputed dataset was analysed separately and estimates were combined using Rubin's rules.||7.35|-5.33|0.7542
92144505|NCT00428090|184173226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.489|TWO_SIDED|95.0|-1.7|3.6||Comparison between Placebo and RSG XR 8 mg in at Week 16 Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||3.6|-1.7|0.489
92184481|NCT04492475|184267676|SUPERIORITY||Cox Proportional Hazard|1.05|||||TWO_SIDED|95.0|0.86|1.29||||||This analysis is for Female participants.||1.29|0.86|
92184482|NCT05270460|184267691|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0||||Adjustment for multiple comparisons were made using Dunnett's test at the overall alpha = 0.05 significance level|ANCOVA|Fixed effects for treatment group (PCS12852 0.1 mg, PCS12852 0.5 mg, and Placebo) and type (IG or DG) and the baseline value as a continuous covariate||||||<0.05
92292301|NCT03922750|184488859|OTHER||Estimated mean treatment difference|7.88||||0.0107|TWO_SIDED|95.0|1.83|13.93|||ANCOVA|||The response and change from baseline in response during last two weeks of treatment (week 15 and 16) were analysed using an analysis of covariance (ANCOVA) model with treatment, pre-trial insulin treatment and SGLT2i use as fixed factors, and baseline response as covariate. Missing endpoint values were imputed using multiple imputation based on own treatment arm with baseline response as a covariate. Each imputed dataset was analysed separately and estimates were combined using Rubin's rules.||13.93|1.83|0.0107
92292302|NCT03790137|184488882|OTHER|The frequency of HWE for each patient was reported as episodes/day, as determined by dividing the total number of seizures experienced over a given time period by the number of days for which seizures were recorded. Paired t-tests were performed to compare each patient's baseline seizure frequency to their seizure frequency in the last month of treatment. Change in seizure frequency is reported as percent change from baseline. An alpha of 0.05 was used for statistical significance.|||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92292303|NCT03868631|184488895|SUPERIORITY||||||<|0.05|||||||multilevel models for change|||Between-group differences at baseline were compared using independent t-tests. Multilevel models for change (MLM) were used to determine differences between groups over time for study outcomes. Age, sex, and number of sessions missed were included as covariates. Time and time by group interactions were examined. Analyses were conducted using IBM SPSS Statistics version 23. Significance was set at p\<0.05.||||<0.05
92144506|NCT00428090|184173226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.024|TWO_SIDED|95.0|0.5|7.0||Comparison between Placebo and Donepezil 10 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||7.0|0.5|0.024
92144507|NCT00428090|184173226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.385|TWO_SIDED|95.0|-1.6|4.2||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||4.2|-1.6|0.385
92184483|NCT05270460|184267692|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|Fixed effects for treatment group (PCS12852 0.1 mg, PCS12852 0.5 mg, and Placebo) and type (IG or DG) and the baseline value as a continuous covariate||||||<0.05
92184484|NCT05270460|184267693|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
92184485|NCT05270460|184267694|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
92184486|NCT05270460|184267695|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92184487|NCT05270460|184267696|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92184488|NCT05270460|184267697|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92184489|NCT05270460|184267698|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92184490|NCT05270460|184267699|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
92184491|NCT05270460|184267700|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
92184492|NCT03205488|184267701|SUPERIORITY|||||||0.3626|||||||Fisher Exact|One-sided Fisher's Exact tested the proportion of participants who met tolerability between the Nilotinib 150 group to the Placebo group.||||||0.3626
92292304|NCT03867760|184488901|SUPERIORITY|The study was designed to detect a difference in pain intensity of at least 0.85 points corresponding to an effect size of 0.57 based on results from our pilot study. The sample size needed was 50 per group based on power of .80, alpha of .05.||||||0.809||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in addition to baseline pain medications in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in pain intensity than cancer survivors assigned to the relaxation intervention.||||0.809
92292305|NCT03867760|184488902|SUPERIORITY|||||||0.369||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in addition to baseline pain medications in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in pain interference than cancer survivors assigned to the relaxation intervention.||||0.369
92292306|NCT03867760|184488903|SUPERIORITY|||||||0.029||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in anxiety than cancer survivors assigned to the relaxation intervention.||||0.029
92292307|NCT03867760|184488904|SUPERIORITY|||||||0.236||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in depression than cancer survivors assigned to the relaxation intervention.||||0.236
92292308|NCT03867760|184488905|SUPERIORITY|||||||0.904||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in fatigue than cancer survivors assigned to the relaxation intervention.||||0.904
92292309|NCT03867760|184488906|SUPERIORITY|||||||0.936||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in sleep disturbance than cancer survivors assigned to the relaxation intervention.||||0.936
92292310|NCT03867760|184488907|SUPERIORITY|||||||0.02||||||An a priori significance level was set at 0.05.|t-test, 2 sided|||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention who experience a clinically meaningful improvement in pain intensity will not have a significantly higher pre-treatment treatment credibility and expectancy score than non-improvers.||||0.02
92292311|NCT04402489|184488997|SUPERIORITY||Least Square Mean Difference vs Placebo|9.8|STANDARD_ERROR_OF_MEAN|14.35||0.496|TWO_SIDED|95.0|-18.52|38.12|||Mixed-effect model for repeated measures|||Change from BL at Week 26 (DBT EOT) - lower dose||38.12|-18.52|0.496
92292312|NCT04402489|184488997|SUPERIORITY||Least Square Mean Difference vs Placebo|22.7|STANDARD_ERROR_OF_MEAN|14.38||0.116|TWO_SIDED|95.0|-5.68|51.09|||Mixed-effect model for repeated measures|||Change from BL at Week 26 (DBT EOT) - higher dose||51.09|-5.68|0.116
92292313|NCT04402489|184488998|SUPERIORITY||Least Square Mean Difference vs Placebo|-0.84|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.23|-0.44|||Mixed-effect model for repeated measures|||||-0.44|-1.23|< 0.001
92292314|NCT04402489|184488998|SUPERIORITY||Least Square Mean Difference vs Placebo|-1.43|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.83|-1.03|||Mixed-effect model for repeated measures|||||-1.03|-1.83|< 0.001
92292315|NCT04402489|184488999|SUPERIORITY|Negative binomial regression model with log link was used.|Incident rate ratio|0.76||||0.199|TWO_SIDED|95.0|0.49|1.16|||Refer to comments below:|Negative binomial regression model with log link was used for other method.||||1.16|0.49|0.199
92292316|NCT04402489|184488999|SUPERIORITY|Negative binomial regression model with log link was used.|Incident rate ratio|0.55||||0.006|TWO_SIDED|95.0|0.36|0.84|||Refer to comments below:|Negative binomial regression model with log link was used for other method.||||0.84|0.36|0.006
92292317|NCT04402489|184489000|SUPERIORITY||Least Square Mean Difference vs Placebo|-0.15|STANDARD_ERROR_OF_MEAN|0.24||0.55|TWO_SIDED|95.0|-0.62|0.33|||mixed-effect model for repeated measures|||||0.33|-0.62|0.55
92292318|NCT04402489|184489000|SUPERIORITY||Least Square Mean Difference vs Placebo|-0.23|STANDARD_ERROR_OF_MEAN|0.25||0.343|TWO_SIDED|95.0|-0.72|0.25|||mixed-effect model for repeated measures|||||0.25|-0.72|0.343
92184493|NCT03205488|184267701|SUPERIORITY|||||||0.3895|||||||Fisher Exact|One-sided Fisher's Exact tested the proportion of participants who met tolerability between the Nilotinib 300 group to the Placebo group.||||||0.3895
92184494|NCT03205488|184267702|EQUIVALENCE|H0 : p1 = p2, where p represents the proportion of SAEs for each group. HA : p1 ≠ p2||||||1|||||||Fisher Exact|Fisher's Exact test compared a proportion of participants who experienced any serious adverse event in the Nilotinib 150 group and the Placebo group.||||||1.00
92292319|NCT04402489|184489001|SUPERIORITY||Odds Ratio (OR)|0.805||||0.642|TWO_SIDED|95.0|0.323|2.007|||Regression, Logistic|||||2.007|0.323|0.642
92292320|NCT04402489|184489001|SUPERIORITY||Odds Ratio (OR)|1.412||||0.431|TWO_SIDED|95.0|0.598|3.336|||Regression, Logistic|||||3.336|0.598|0.431
92292321|NCT04402489|184489002|SUPERIORITY||Least Square Mean Difference vs Placebo|0.87|STANDARD_ERROR_OF_MEAN|0.48||0.072|TWO_SIDED|95.0|-0.08|1.82|||mixed-effect model for repeated measures|||||1.82|-0.08|0.072
92292322|NCT04402489|184489002|SUPERIORITY||Least Square Mean Difference vs Placebo|0.56|STANDARD_ERROR_OF_MEAN|0.48||0.252|TWO_SIDED|95.0|-0.4|1.51|||mixed-effect model for repeated measures|||||1.51|-0.4|0.252
92292323|NCT05223868|184489008|SUPERIORITY||||||=|0.002||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose versus (vs) placebo were not.|Cochran-Mantel-Haenszel|||||||=0.002
92292324|NCT05223868|184489008|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292325|NCT05223868|184489008|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292326|NCT05223868|184489008|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292327|NCT05223868|184489008|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292328|NCT05223868|184489009|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292329|NCT05223868|184489009|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292330|NCT05223868|184489009|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292331|NCT05223868|184489009|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292332|NCT05223868|184489009|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292333|NCT05223868|184489010|SUPERIORITY||||||=|0.002||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.002
92292334|NCT05223868|184489010|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292335|NCT05223868|184489010|SUPERIORITY||||||=|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.001
92292336|NCT05223868|184489010|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292337|NCT05223868|184489010|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292338|NCT05223868|184489011|SUPERIORITY||||||=|0.021||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.021
92292339|NCT05223868|184489011|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292340|NCT05223868|184489011|SUPERIORITY||||||=|0.038||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.038
92292341|NCT05223868|184489011|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292342|NCT05223868|184489011|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292343|NCT05223868|184489012|SUPERIORITY||||||=|0.003||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.003
92144508|NCT00428090|184173226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.944|TWO_SIDED|95.0|-3.0|2.8||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.8|-3.0|0.944
92144509|NCT00428090|184173226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6||||0.078|TWO_SIDED|95.0|-0.4|7.5||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||7.5|-0.4|0.078
92292344|NCT05223868|184489012|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292345|NCT05223868|184489012|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292346|NCT05223868|184489012|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292347|NCT05223868|184489012|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292348|NCT05223868|184489013|SUPERIORITY||||||=|0.006||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.006
92292349|NCT05223868|184489013|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292350|NCT05223868|184489013|SUPERIORITY||||||=|0.009||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.009
92292351|NCT05223868|184489013|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292352|NCT05223868|184489013|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292353|NCT05223868|184489014|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292354|NCT05223868|184489014|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292355|NCT05223868|184489014|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292356|NCT05223868|184489014|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292357|NCT05223868|184489014|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292358|NCT05223868|184489015|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292359|NCT05223868|184489015|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292360|NCT05223868|184489015|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292361|NCT05223868|184489015|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292362|NCT05223868|184489015|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292363|NCT05223868|184489016|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292364|NCT05223868|184489016|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292365|NCT05223868|184489016|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292366|NCT05223868|184489016|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292367|NCT05223868|184489016|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||||||<0.001
92292368|NCT05223868|184489017|SUPERIORITY||||||=|0.006||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.006
92184495|NCT03205488|184267702|EQUIVALENCE|H0 : λ1 = λ2, where λ represents the rate of SAEs for each group. HA : λ1 ≠ λ2|Risk Ratio (RR)|0.4977||||0.5689|TWO_SIDED|95.0|0.0451|5.489|||Regression, Poisson|Rates of serious adverse event between the Nilotinib 150 group and the placebo were also compared using a Poisson regression model||||5.489|0.0451|0.5689
92292369|NCT05223868|184489017|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292370|NCT05223868|184489017|SUPERIORITY||||||=|0.005||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.005
92292371|NCT05223868|184489017|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292372|NCT05223868|184489017|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92184496|NCT03205488|184267702|EQUIVALENCE|H0 : p1 = p3, where p represents the proportion of SAEs for each group. HA : p1 ≠ p3||||||0.61|||||||Fisher Exact|Fisher's Exact test compared a proportion of participants who experienced any serious adverse event in the Nilotinib 300 group and the Placebo group.||||||0.61
92292373|NCT05223868|184489018|SUPERIORITY||||||=|0.317||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.317
92292374|NCT05223868|184489018|SUPERIORITY||||||=|0.012||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.012
92292375|NCT05223868|184489018|SUPERIORITY||||||=|0.038||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.038
92292376|NCT05223868|184489018|SUPERIORITY||||||=|0.006||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.006
92292377|NCT05223868|184489018|SUPERIORITY||||||=|0.011||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.011
92292378|NCT05223868|184489019|SUPERIORITY||||||=|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||=0.001
92292379|NCT05223868|184489019|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292380|NCT05223868|184489019|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292381|NCT05223868|184489019|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292382|NCT05223868|184489019|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||||||<0.001
92292383|NCT05223868|184489020|SUPERIORITY||||||=|0.002||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Physical Function||||=0.002
92292384|NCT05223868|184489020|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Physical Function||||<0.001
92292385|NCT05223868|184489020|SUPERIORITY||||||=|0.002||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Physical Function||||=0.002
92292386|NCT05223868|184489020|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Physical Function||||<0.001
92292387|NCT05223868|184489020|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Physical Function||||<0.001
92292388|NCT05223868|184489020|SUPERIORITY||||||=|0.251||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Anxiety||||=0.251
92292389|NCT05223868|184489020|SUPERIORITY||||||=|0.087||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Anxiety||||=0.087
92292390|NCT05223868|184489020|SUPERIORITY||||||=|0.205||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Anxiety||||=0.205
92292391|NCT05223868|184489020|SUPERIORITY||||||=|0.082||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Anxiety||||=0.082
92292392|NCT05223868|184489020|SUPERIORITY||||||=|0.01||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Anxiety||||=0.010
92292393|NCT05223868|184489020|SUPERIORITY||||||=|0.357||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Depression||||=0.357
92292394|NCT05223868|184489020|SUPERIORITY||||||=|0.222||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Depression||||=0.222
92292395|NCT05223868|184489020|SUPERIORITY||||||=|0.987||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Depression||||=0.987
92292396|NCT05223868|184489020|SUPERIORITY||||||=|0.39||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Depression||||=0.390
92144510|NCT00428090|184173227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.635|TWO_SIDED|95.0|-0.8|0.5||Comparison between Placebo and RSG XR 2 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.5|-0.8|0.635
92144511|NCT00428090|184173227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.194|TWO_SIDED|95.0|-0.2|1.1||Comparison between Placebo and RSG XR 8 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.1|-0.2|0.194
92144512|NCT00428090|184173227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.325|TWO_SIDED|95.0|-1.3|0.4||Comparison between Placebo and Donepezil 10 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.4|-1.3|0.325
92292397|NCT05223868|184489020|SUPERIORITY||||||=|0.38||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Depression||||=0.380
92292398|NCT05223868|184489020|SUPERIORITY||||||=|0.349||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Fatigue||||=0.349
92292399|NCT05223868|184489020|SUPERIORITY||||||=|0.553||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Fatigue||||=0.553
92292400|NCT05223868|184489020|SUPERIORITY||||||=|0.318||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Fatigue||||=0.318
92292401|NCT05223868|184489020|SUPERIORITY||||||=|0.207||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Fatigue||||=0.207
92292402|NCT05223868|184489020|SUPERIORITY||||||=|0.117||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Fatigue||||=0.117
92292403|NCT05223868|184489020|SUPERIORITY||||||=|0.156||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Sleep Disturbance||||=0.156
92292404|NCT05223868|184489020|SUPERIORITY||||||=|0.019||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Sleep Disturbance||||=0.019
92292405|NCT05223868|184489020|SUPERIORITY||||||=|0.004||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Sleep Disturbance||||=0.004
92292406|NCT05223868|184489020|SUPERIORITY||||||=|0.228||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Sleep Disturbance||||=0.228
92292407|NCT05223868|184489020|SUPERIORITY||||||=|0.034||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Sleep Disturbance||||=0.034
92292408|NCT05223868|184489020|SUPERIORITY||||||=|0.197||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Social Roles and Activities||||=0.197
92292409|NCT05223868|184489020|SUPERIORITY||||||=|0.107||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Social Roles and Activities||||=0.107
92184497|NCT03205488|184267702|EQUIVALENCE|H0 : λ1 = λ3, where λ represents the rate of SAEs for each group. HA : λ1 ≠ λ3|Risk Ratio (RR)|0.5206||||0.594|TWO_SIDED|95.0|0.0472|5.7409|||Regression, Poisson|Rates of serious adverse event between the Nilotinib 300 group and the placebo were also compared using a Poisson regression model||||5.7409|0.0472|0.5940
92292410|NCT05223868|184489020|SUPERIORITY||||||=|0.606||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Social Roles and Activities||||=0.606
92292411|NCT05223868|184489020|SUPERIORITY||||||=|0.004||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Social Roles and Activities||||=0.004
92292412|NCT05223868|184489020|SUPERIORITY||||||=|0.005||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Social Roles and Activities||||=0.005
92292413|NCT05223868|184489020|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Pain Interference||||<0.001
92144513|NCT00428090|184173227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.109|TWO_SIDED|95.0|-0.1|1.2||Comparison between Placebo and RSG XR 2 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.2|-0.1|0.109
92144514|NCT00428090|184173227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.032|TWO_SIDED|95.0|0.1|1.4||Comparison between Placebo and RSG XR 8 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.4|0.1|0.032
92144515|NCT00428090|184173227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.189|TWO_SIDED|95.0|-1.7|0.3||Comparison between Placebo and Donepezil 10 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-1.7|0.189
92144516|NCT00428090|184173227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.288|TWO_SIDED|95.0|-1.1|0.3||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-1.1|0.288
92144517|NCT00428090|184173227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.819|TWO_SIDED|95.0|-0.8|0.6||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.6|-0.8|0.819
92144518|NCT00428090|184173227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.306|TWO_SIDED|95.0|-1.5|0.5||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.5|-1.5|0.306
92144519|NCT00428090|184173228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.199|TWO_SIDED|95.0|-0.01|0.07||Comparison between Placebo and RSG XR 2 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.07|-0.01|0.199
92144520|NCT00428090|184173228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.094|TWO_SIDED|95.0|-0.01|0.08||Comparison between Placebo and RSG XR 8 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.08|-0.01|0.094
92144521|NCT00428090|184173228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.187|TWO_SIDED|95.0|-0.02|0.09||Comparison between Placebo and Donepezil 10 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.09|-0.02|0.187
92292414|NCT05223868|184489020|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Pain Interference||||<0.001
92292415|NCT05223868|184489020|SUPERIORITY||||||=|0.005||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Pain Interference||||=0.005
92292416|NCT05223868|184489020|SUPERIORITY||||||=|0.01||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Pain Interference||||=0.010
92292417|NCT05223868|184489020|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Mixed-Effect Model Repeated Measure|||Pain Interference||||<0.001
92292418|NCT05223868|184489021|SUPERIORITY||||||=|0.16||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Physical Function||||=0.160
92292419|NCT05223868|184489021|SUPERIORITY||||||=|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Physical Function||||=0.001
92144522|NCT00428090|184173228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.134|TWO_SIDED|95.0|-0.01|0.07||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.07|-0.01|0.134
92292420|NCT05223868|184489021|SUPERIORITY||||||=|0.008||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Physical Function||||=0.008
92292421|NCT05223868|184489021|SUPERIORITY||||||=|0.006||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Physical Function||||=0.006
92292422|NCT05223868|184489021|SUPERIORITY||||||=|0.003||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Physical Function||||=0.003
92292423|NCT05223868|184489021|SUPERIORITY||||||=|0.818||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Anxiety||||=0.818
92292424|NCT05223868|184489021|SUPERIORITY||||||=|0.179||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Anxiety||||=0.179
92292425|NCT05223868|184489021|SUPERIORITY||||||=|0.03||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Anxiety||||=0.030
92292426|NCT05223868|184489021|SUPERIORITY||||||=|0.267||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Anxiety||||=0.267
92292427|NCT05223868|184489021|SUPERIORITY||||||=|0.022||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Anxiety||||=0.022
92292428|NCT05223868|184489021|SUPERIORITY||||||=|0.62||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Depression||||=0.620
92184498|NCT03205488|184267703|NON_INFERIORITY|The hypotheses of interest (H0: δ ≤ -9.8 (7 x 1.4) vs. HA: δ \> -9.8) where δ represents the change from baseline to 6 months using the MDS-UPDRS Part III ON in the Nilotinib 150 mg treatment group. The hypotheses of interest were evaluated based on an assessment of parameter estimates from a non-linear mixed effects model, adjusted for a participant's Levodopa Equivalent Daily Dose (LEDD) at each time point.|Slope|1.05||||0.0001|ONE_SIDED|90.0|-0.78||||Mixed Models Analysis|||The key secondary objective is to conduct a futility analysis within each treatment group which examines the observed change in the MDS-UPDRS Part III ON within the two dose groups compared to previously reported changes from the Pagan et al (2016) study (NCT02281474).|||-0.78|0.0001
92184499|NCT03205488|184267703|NON_INFERIORITY|The hypotheses of interest (H0: δ ≤ -9.8 (7 x 1.4) vs. HA: δ \> -9.8) where δ represents the change from baseline to 6 months using the MDS-UPDRS Part III ON in the Nilotinib 300 mg treatment group. The hypotheses of interest were evaluated based on an assessment of parameter estimates from a non-linear mixed effects model, adjusted for a participant's Levodopa Equivalent Daily Dose (LEDD) at each time point.|Slope|0.93||||0.0001|ONE_SIDED|90.0|-0.89||||Mixed Models Analysis|||The key secondary objective is to conduct a futility analysis within each treatment group which examines the observed change in the MDS-UPDRS Part III ON within the two dose groups compared to previously reported changes from the Pagan et al (2016) study (NCT02281474).|||-0.89|0.0001
92292429|NCT05223868|184489021|SUPERIORITY||||||=|0.24||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Depression||||=0.240
92292430|NCT05223868|184489021|SUPERIORITY||||||=|0.71||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Depression||||=0.710
92292431|NCT05223868|184489021|SUPERIORITY||||||=|0.341||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Depression||||=0.341
92292432|NCT05223868|184489021|SUPERIORITY||||||=|0.204||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Depression||||=0.204
92292433|NCT05223868|184489021|SUPERIORITY||||||=|0.786||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Fatigue||||=0.786
92292434|NCT05223868|184489021|SUPERIORITY||||||=|0.597||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Fatigue||||=0.597
92292435|NCT05223868|184489021|SUPERIORITY||||||=|0.023||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Fatigue||||=0.023
92292436|NCT05223868|184489021|SUPERIORITY||||||=|0.438||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Fatigue||||=0.438
92292437|NCT05223868|184489021|SUPERIORITY||||||=|0.017||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Fatigue||||=0.017
92292438|NCT05223868|184489021|SUPERIORITY||||||=|0.419||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Sleep Disturbance||||=0.419
92292439|NCT05223868|184489021|SUPERIORITY||||||=|0.08||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Sleep Disturbance||||=0.080
92292440|NCT05223868|184489021|SUPERIORITY||||||=|0.006||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Sleep Disturbance||||=0.006
92292441|NCT05223868|184489021|SUPERIORITY||||||=|0.421||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Sleep Disturbance||||=0.421
92292442|NCT05223868|184489021|SUPERIORITY||||||=|0.025||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Sleep Disturbance||||=0.025
92292443|NCT05223868|184489021|SUPERIORITY||||||=|0.47||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Social Roles and Activities||||=0.470
92292444|NCT05223868|184489021|SUPERIORITY||||||=|0.023||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Social Roles and Activities||||=0.023
92292445|NCT05223868|184489021|SUPERIORITY||||||=|0.002||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Social Roles and Activities||||=0.002
92292446|NCT05223868|184489021|SUPERIORITY||||||=|0.04||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Social Roles and Activities||||=0.040
92292447|NCT05223868|184489021|SUPERIORITY||||||=|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Social Roles and Activities||||=0.001
92292448|NCT05223868|184489021|SUPERIORITY||||||=|0.013||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Pain Interference||||=0.013
92292449|NCT05223868|184489021|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Pain Interference||||<0.001
92292450|NCT05223868|184489021|SUPERIORITY||||||=|0.004||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Pain Interference||||=0.004
92292451|NCT05223868|184489021|SUPERIORITY||||||=|0.038||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Pain Interference||||=0.038
92144523|NCT00428090|184173228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.958|TWO_SIDED|95.0|-0.05|0.05||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.05|-0.05|0.958
92184500|NCT03205488|184267703|EQUIVALENCE|H0 : β1 = β 2 = β 3, where β represents the slope for each group. HA : at least one β i ≠ β j. Using the same LMM as in the key secondary analysis, a two degree of freedom test was used to test for any differences in the slopes from baseline to 1 month for the three treatment groups.||||||0.031|||||||Mixed Models Analysis|||Additional secondary objective #1 is to establish the degree of symptomatic effect of Nilotinib as measured by the change in the MDS\_UPDRS Part III ON score between baseline and 1 month.|In order to assess which group may be driving these findings, pairwise comparisons were also utilized (Nilotinib 150 vs PBO at 1 Month, Nilotinib 300 vs PBO at 1 month, Nilotinib 300 vs Nilotinib 150 at 1 month).|||0.031
92266721|NCT05182840|184434905|OTHER||Mean Difference (Net)|-0.168||||0.0499|TWO_SIDED|95.0|-0.337|0.0|||MMRM||"Least Squares Mean of 3 mg BI 690517 - Least Squares Mean of Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.000|-0.337|0.0499
92266722|NCT05182840|184434905|OTHER||Mean Difference (Net)|-0.486|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.313|||MMRM||"Least Squares Mean of 10 mg BI 690517 - Least Squares Mean of Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.313|-0.660|<.0001
92266723|NCT05182840|184434905|OTHER||Mean Difference (Net)|-0.421|||<|0.0001|TWO_SIDED|95.0|-0.596|-0.246|||MMRM||"Least Squares Mean of 20 mg BI 690517 - Least Squares Mean of Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.246|-0.596|<.0001
92266724|NCT05182840|184434905|OTHER|Null hypothesis: The dose-response curve is flat across the 3 BI 690517 doses and the placebo.||||||0||||||P-value was rounded to four decimal places.|MCPMod Emax model fit|Emax model fit assumption: 80% of the maximum effect is achieved at 10 mg.||"A flat vs. non-flat dose-response relationship across the 3 doses of BI 690517 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod).~MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient."||||0.0000
92292452|NCT05223868|184489021|SUPERIORITY||||||<|0.001||||||Dose response assessment was adjusted for multiplicity. Pairwise comparisons between each dose vs placebo were not.|Cochran-Mantel-Haenszel|||Pain Interference||||<0.001
92292453|NCT03395197|184489029|SUPERIORITY||Hazard Ratio (HR)|0.627|||<|0.0001|TWO_SIDED|95.0|0.506|0.777||1-sided|Log Rank||Hazard ratio was based on Cox proportional hazards model; under proportional hazards, if hazard ratio \< 1, it indicates reduction in hazard rate in favor of Talazoparib+Enzalutamide compared to Placebo+Enzalutamide.|The following statistical hypotheses was tested to address the primary objectives: H01: HRrPFS ≥1 vs H11: HRrPFS \<1, where HRrPFS and HRrPFS+ are the hazard ratios (talazoparib in combination with enzalutamide vs. placebo in combination with enzalutamide) of rPFS based on BICR assessment in the all-comers population for Part 2 Cohort 1.||0.777|0.506|<0.0001
92144524|NCT00428090|184173228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.374|TWO_SIDED|95.0|-0.03|0.07||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.07|-0.03|0.374
92292454|NCT03395197|184489030|SUPERIORITY||Hazard Ratio (HR)|0.447|||<|0.0001|TWO_SIDED|95.0|0.328|0.61||1-sided|Log Rank||Hazard ratio was based on Cox proportional hazards model; under proportional hazards, hazard ratio \< 1 indicates reduction in hazard rate in favor of Talazoparib+Enzalutamide compared to Placebo+Enzalutamide.|The following statistical hypotheses was tested to address the primary objectives: H02: HRrPFS+ ≥1 vs H12: HRrPFS+ \<1, where HRrPFS and HRrPFS+ are the hazard ratios (talazoparib in combination with enzalutamide vs. placebo in combination with enzalutamide) of rPFS based on BICR assessment in the DDR deficient population for Part 2 Cohort 2.||0.610|0.328|<0.0001
92292455|NCT02655224|184489057|SUPERIORITY|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|42.071|||<|0.0001|TWO_SIDED|95.0|5.113|346.181|||Fisher's Exact Test||Relugolix 40 mg/Placebo|||346.181|5.113|<0.0001
92292456|NCT02655224|184489058|OTHER|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|29.176|||||TWO_SIDED|95.0|3.555|239.478|||||Relugolix 40 mg/Placebo|||239.478|3.555|
92292457|NCT02655224|184489059|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Final Values)|-0.49|||||TWO_SIDED|95.0|-1.05|0.069|||||Relugolix 40 mg-Placebo|||0.069|-1.050|
92292458|NCT02655224|184489060|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Final Values)|11.96|||||TWO_SIDED|95.0|-3.201|27.112|||||Relugolix 40 mg-Placebo|||27.112|-3.201|
92292459|NCT02655224|184489061|OTHER|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|5.625|||||TWO_SIDED|95.0|1.605|19.709|||||Relugolix 40 mg/Placebo. Statistical analysis for Day 29 to 56 and Day 57 to 84, the odds ratio was calculated. For Day 1 to 28, its ratio was not calculated due to zero cell.|Day 29 to 56||19.709|1.605|
92292460|NCT02655224|184489061|OTHER|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|9.865|||||TWO_SIDED|95.0|2.784|34.955|||||Relugolix 40 mg/Placebo. Statistical analysis for Day 29 to 56 and Day 57 to 84, the odds ratio was calculated. For Day 1 to 28, its ratio was not calculated due to zero cell.|Day 57 to 84||34.955|2.784|
92292461|NCT02655224|184489062|OTHER|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|5.438|||||TWO_SIDED|95.0|1.071|27.609|||||Relugolix 40 mg/Placebo. Statistical analysis for Day 29 to 56 and Day 57 to 84, the odds ratio was calculated. For Day 1 to 28, its ratio was not calculated due to zero cell.|Day 29 to 56||27.609|1.071|
92292462|NCT02655224|184489062|OTHER|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|12.794|||||TWO_SIDED|95.0|2.603|62.88|||||Relugolix 40 mg/Placebo. Statistical analysis for Day 29 to 56 and Day 57 to 84, the odds ratio was calculated. For Day 1 to 28, its ratio was not calculated due to zero cell.|Day 57 to 84||62.880|2.603|
92144525|NCT00428090|184173229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.493|TWO_SIDED|95.0|-4.6|2.2||Comparison between Placebo and RSG XR 2 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.2|-4.6|0.493
92184501|NCT03205488|184267703|EQUIVALENCE|H0 : β1 = β 2 = β 3, where β represents the slope for each group. HA : at least one β i ≠ β j. For this analysis, a separate LMM was constructed, modeling the change from final visit on study drug to the 30 and 60 day follow up visits, while adjusting for the MDS-UPDRS Part III ON scores at the final visit on study drug as well as the Levodopa Equivalent Daily Dose (LEDD) at each visit.||||||0.47|||||||Mixed Models Analysis|||Additional secondary objective #2 is to establish the degree of symptomatic effect of Nilotinib as measured by the change in the MDS\_UPDRS Part III ON score between the final visit on study drug and 30 days off study drug.||||0.47
92292463|NCT02655224|184489063|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|0.09|||||TWO_SIDED|95.0|-0.574|0.745|||||Relugolix 40 mg-Placebo|Day 1 to 28||0.745|-0.574|
92292464|NCT02655224|184489063|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|-0.57|||||TWO_SIDED|95.0|-1.19|0.049|||||Relugolix 40 mg-Placebo|Day 29 to 56||0.049|-1.190|
92292465|NCT02655224|184489063|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|-0.54|||||TWO_SIDED|95.0|-1.074|-0.012|||||Relugolix 40 mg-Placebo|Day 57 to 84||-0.012|-1.074|
92292466|NCT02655224|184489064|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|4.17|||||TWO_SIDED|95.0|-11.507|19.839|||||Relugolix 40 mg-Placebo|Day 1 to 28||19.839|-11.507|
92292467|NCT02655224|184489064|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|12.7|||||TWO_SIDED|95.0|-3.098|28.494|||||Relugolix 40 mg-Placebo|Day 29 to 56||28.494|-3.098|
92292468|NCT02655224|184489064|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|11.6|||||TWO_SIDED|95.0|-3.554|26.745|||||Relugolix 40 mg-Placebo|Day 57 to 84||26.745|-3.554|
92292469|NCT04227899|184489084|OTHER||||||<|0.0001|||||||One-sided Chi-square test|||||||<0.0001
92292470|NCT04227899|184489085|OTHER|||||||0.0019|||||||Farrington-Manning non-inferiority (NI)|||||||0.0019
92292471|NCT04227899|184489086|OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92292472|NCT04227899|184489087|OTHER|||||||0.0081|||||||One-sided Chi-square test|||||||0.0081
92292473|NCT05151471|184489088|SUPERIORITY|||||||0.78|||||||Log Rank|||||||0.78
92144526|NCT00428090|184173229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.883|TWO_SIDED|95.0|-3.2|3.7||Comparison between Placebo and RSG XR 8 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||3.7|-3.2|0.883
92292474|NCT05151471|184489089|SUPERIORITY|||||||0.704|||||||ANCOVA|||Week 72||||0.704
92292475|NCT05151471|184489089|SUPERIORITY|||||||0.131|||||||ANCOVA|||Week 96||||0.131
92292476|NCT05151471|184489090|SUPERIORITY|||||||0.954|||||||Mixed Model for Repeated Measures (MMRM)|||Week 72||||0.954
92292477|NCT05151471|184489090|SUPERIORITY|||||||0.591|||||||Mixed Model for Repeated Measures (MMRM)|||Week 96||||0.591
92292478|NCT05151471|184489091|SUPERIORITY|||||||0.513|||||||Mixed Model for Repeated Measures (MMRM)|||Week 72||||0.513
92144527|NCT00428090|184173229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.13|TWO_SIDED|95.0|-9.3|1.2||Comparison between Placebo and Donepezil 10 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.2|-9.3|0.130
92184502|NCT03205488|184267703|EQUIVALENCE|H0 : β1 = β 2 = β 3, where β represents the slope for each group. HA : at least one β i ≠ β j. Using the same LMM as in the key secondary analysis, a two degree of freedom test was used to test for any differences in the slopes from baseline to 6 months for the three treatment groups.||||||0.077|||||||Mixed Models Analysis|||Additional secondary objective #3 is to assess the impact of Nilotinib on the progression of PD disability as measured by the change in the MDS\_UPDRS Part III ON score between baseline and 6 months.|Pairwise comparisons were also examined for trends (Active 150 vs PBO at 6 Months, Active 300 vs PBO at 6 months).|||0.077
92184503|NCT03205488|184267703|EQUIVALENCE|H0 : β1 = β 2 = β 3, where β represents the slope for each group. HA : at least one β i ≠ β j. Using a similar LMM as in the key secondary analysis, except simplified to only include baseline, month 3 and month 6, a two degree of freedom test was used to test for any differences in the slopes from baseline to 6 months for the three treatment groups.||||||0.17|||||||Mixed Models Analysis|||Additional secondary objective #3 is to assess the impact of Nilotinib on the progression of PD disability as measured by the change in the MDS\_UPDRS Part III OFF score between baseline and 6 months.||||0.17
92292479|NCT05151471|184489091|SUPERIORITY|||||||0.344|||||||Mixed Model for Repeated Measures (MMRM)|||Week 84||||0.344
92292480|NCT05151471|184489091|SUPERIORITY|||||||0.142|||||||Mixed Model for Repeated Measures (MMRM)|||Week 96||||0.142
92292481|NCT04230174|184489095|OTHER|Paired-t test baseline vs follow-up SUVR in white matter lesions of multiple sclerosis patients.||||||0.011|||||||t-test, 2 sided|||||||0.011
92292482|NCT04230174|184489095|OTHER|Paired-t test||||||0.018|||||||t-test, 2 sided|||Paired-t test baseline vs follow-up SUVR in perilesional white matter multiple sclerosis patients.||||0.018
92292483|NCT04230174|184489095|OTHER|Paired-t test||||||0.047|||||||t-test, 2 sided|||Paired-t test baseline vs follow-up SUVR in the thalamus of multiple sclerosis patients.|A general linear model using the FreeSurfer software was used to assess, vertex-wise, significant paired-wise SUVR differences in post vs pre ocrelizumab treatment in patients across the cortex. A clusterwise correction for multiple comparisons was also applied using a Monte-Carlo simulation with 10,000 iterations (corrected P ≤ 0.05). The surface-based analysis disclosed three clusters of decreased 11C-PBR28 uptake in the right hemisphere (Fig. 4), including insula (p=0.0009), lateral orbitofrontal (p=0.03), and opercular/frontal inferior (p=0.02) areas after adjusting for multiple comparisons.|||0.047
92292484|NCT04230174|184489096|OTHER|Paired-t test||||||0.07|||||||t-test, 2 sided|||Baseline vs follow-up MTR in NAWM||||0.07
92292485|NCT04230174|184489096|OTHER|Paired-t test||||||0.024|||||||t-test, 2 sided|||Baseline vs follow-up MTR in cortex||||0.024
92292486|NCT04230174|184489097|OTHER|Paired-t test||||||0.69|||||||t-test, 2 sided|||Changes in cortical thickness after 1-year ocrelizumab treatment in patients with multiple sclerosis||||0.69
92184504|NCT01742832|184267704|OTHER|Linear repeated measures regression models were constructed to assess trends over time between groups where the dependent variable was outcome measure (MADRS score) and independent variables included visit, treatment group, visit by treatment group interaction, and any baseline variables that were significant between groups.||||||0.342||||||P-value for linear regression assessing outcome measure (MADRS score) and treatment group.|Regression, Linear|||||||0.342
92184505|NCT05163353|184267705|SUPERIORITY||Difference in response rates|65.0|||||TWO_SIDED|95.0|45.6|74.4||||||||74.4|45.6|
92292487|NCT04230174|184489098|OTHER|Wilcoxon related samples test||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon related samples test comparing baseline vs follow-up changes in white matter lesion volume of multiple sclerosis patients.||||0.64
92292488|NCT04998136|184489099|SUPERIORITY||Treatment difference|-12.99|||<|0.0001|TWO_SIDED|95.0|-15.28|-10.7|||ANCOVA|||Treatment policy Estimand. The primary endpoint was analysed using an analysis of covariance (ANCOVA) model with randomized treatment as factor and baseline body weight as covariate. Analysed data is from in-trial observation period.||-10.70|-15.28|<0.0001
92292489|NCT04998136|184489100|SUPERIORITY||Treatment Difference|-13.4|||<|0.0001|TWO_SIDED|95.0|-15.7|-11.11|||MMRM|||Hypothetical Estimand. The primary endpoint was analysed using mixed model for repeated measurements (MMRM). All responses prior to first discontinuation of treatment (or dose reduction, or initiation of other anti-obesity medication or bariatric surgery) were included in MMRM with randomized treatment as factor and baseline body weight as covariate. Analysed data is from on-treatment observation period.||-11.11|-15.70|<0.0001
92292490|NCT04998136|184489101|SUPERIORITY||Odds Ratio (OR)|88.87|||<|0.0001|TWO_SIDED|95.0|21.96|359.61|||Regression, Logistic|||Treatment policy estimand. The primary endpoint was analysed using a binary logistic regression model with randomized treatment as factor and baseline body weight as covariate. Analysed data is from in-trial period.||359.61|21.96|<0.0001
92292491|NCT04998136|184489102|SUPERIORITY||Odds Ratio (OR)|253.47|||<|0.0001|TWO_SIDED|95.0|38.41|1672.57|||Regression, Logistic|||Hypothetical estimand. MMRM was used with randomized treatment as factor and baseline body weight as covariate. The MMRM was performed on body weight (kg) and individual missing week 44 responses were predicted from the MMRM, each participant was then classified for body weight loss \>= 5% and analysed using a binary logistic regression model with randomized treatment as factor and baseline body weight as covariate. Analysed data is from on-treatment observation period.||1672.57|38.41|<0.0001
92292492|NCT00396162|184489125|SUPERIORITY_OR_OTHER|||||||0.23|||||||t-test, 2 sided|||||||0.23
92292493|NCT00396162|184489126|SUPERIORITY_OR_OTHER|||||||0.31|||||||t-test, 2 sided|||||||.31
92292494|NCT01911429|184489144|SUPERIORITY_OR_OTHER||LS mean difference (SE)|-8.0||||0.0003|TWO_SIDED|95.0|-12.4|-3.7|||LS mean difference (SE)|||"The sample size was estimated to provide at least 85% power to reject at least one of the null hypotheses of no difference between placebo and lurasidone doses.~LS Mean, LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM)."||-3.7|-12.4|0.0003
92292495|NCT01911429|184489144|SUPERIORITY_OR_OTHER||LS mean difference (SE)|-7.7||||0.0006|TWO_SIDED|95.0|-12.1|-3.4|||LS mean difference (SE)|||"The sample size was estimated to provide at least 85% power to reject at least one of the null hypotheses of no difference between placebo and lurasidone doses.~LS Mean, LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM)."||-3.4|-12.1|0.0006
92292496|NCT01911429|184489145|SUPERIORITY_OR_OTHER||LS mean difference (SE)|-0.47||||0.0003|TWO_SIDED|95.0|-0.73|-0.22|||LS mean difference (SE)|||LS Mean, LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||-0.22|-0.73|0.0003
92292497|NCT01911429|184489145|SUPERIORITY_OR_OTHER||LS mean difference (SE)|-0.42||||0.0015|TWO_SIDED|95.0|-0.67|-0.16|||LS mean difference (SE)|||LS Mean, LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||-0.16|-0.67|0.0015
92292498|NCT05908162|184489189|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92292499|NCT05908162|184489190|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92292500|NCT05908162|184489190|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92292501|NCT05908162|184489190|OTHER||||||<|0.02|||||||Wilcoxon (Mann-Whitney)|||||||<0.02
92292502|NCT05029687|184489191|OTHER|Effect size (Cohen's d)|Cohen's d|1.337|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|Comparison of effect size: baseline to post-intervention (d1)||||
92292503|NCT05029687|184489191|OTHER|Effect size (Cohen's d)|Cohen's d|1.337|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|Comparison of effect size: baseline to post-intervention (d2)||||
92292504|NCT05029687|184489191|OTHER|Effect size (Cohen's d)|Cohen's d|1.3|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|Comparison of effect size: baseline to 1-month post-intervention (d1)||||
92292505|NCT05029687|184489191|OTHER|Effect size (Cohen's d)|Cohen's d|1.159|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|Comparison of effect size: baseline to 1-month post-intervention (d2)||||
92292506|NCT05029687|184489191|OTHER|Effect size (Cohen's d)|Cohen's d|1.065|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|Comparison of effect size: baseline to post-intervention (d1)||||
92292507|NCT05029687|184489191|OTHER|Effect size (Cohen's d)|Cohen's d|1.084|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|Comparison of effect size: baseline to post-intervention (d2)||||
92292508|NCT05029687|184489191|OTHER|Effect size (Cohen's d)|Cohen's d|1.316|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|Comparison of effect size: baseline to 1-month post-intervention (d1)||||
92292509|NCT05029687|184489191|OTHER|Effect size (Cohen's d)|Cohen's d|1.048|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|Comparison of effect size: baseline to 1-month post-intervention (d2)||||
92292510|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.846|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|"Comparison of effect size: baseline to post-intervention for the statement: Teach an adult how to lower their high BP. (d1)"||||
92292511|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.821|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|"Comparison of effect size: baseline to post-intervention for the statement: Teach an adult how to lower their high BP. (d2)"||||
92184506|NCT00824408|184267724|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.045||||0.003|TWO_SIDED|95.0|1.271|3.292|||Log Rank|||Hazard ratio and 95% confidence interval (CI) from Cox proportional-hazards regression model, stratified by histology (Nonsquamous vs. NOS). P-value from log-rank test stratified by histology (one-sided for volasertib 300 mg + pemetrexed 500 mg/m2 vs. pemetrexed 500 mg; two-sided for volasertib 300 mg vs. pemetrexed 500 mg/m2).||3.292|1.271|0.0030
92292512|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.87|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|"Comparison of effect size: baseline to 1-month post-intervention for the statement: Teach an adult how to lower their high BP. (d1)"||||
92292513|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.782|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|"Comparison of effect size: baseline to 1-month post-intervention for the statement: Teach an adult how to lower their high BP. (d2)"||||
92292514|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.643|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|"Comparison of effect size: baseline to post-intervention for the statement: Encourage an adult to lower their high BP. (d1)"||||
92292515|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.616|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|"Comparison of effect size: baseline to post-intervention for the statement: Encourage an adult to lower their high BP. (d2)"||||
92292516|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.724|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|"Comparison of effect size: baseline to 1-month post-intervention for the statement: Encourage an adult to lower their high BP. (d1)"||||
92292517|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.683|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|"Comparison of effect size: baseline to 1-month post-intervention for the statement: Encourage an adult to lower their high BP. (d2)"||||
92292518|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.72|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|"Comparison of effect size: baseline to post-intervention for the statement: Help an adult lower their BP. (d1)"||||
92292519|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.667|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|"Comparison of effect size: baseline to post-intervention for the statement: Help an adult lower their BP. (d2)"||||
92292520|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.72|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|"Comparison of effect size: baseline to 1-month post-intervention for the statement: Help an adult lower their BP. (d1)"||||
92292521|NCT05029687|184489194|OTHER|Effect size (Cohen's d)|Cohen's d|0.627|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|"Comparison of effect size: baseline to 1-month post-intervention for the statement: Help an adult lower their BP. (d2)"||||
92292522|NCT05029687|184489196|OTHER|Effect size (Cohen's d)|Cohen's d|1.457|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|Comparison of effect size: baseline to post-intervention (d1)||||
92292523|NCT05029687|184489196|OTHER|Effect size (Cohen's d)|Cohen's d|1.691|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|Comparison of effect size: baseline to post-intervention (d2)||||
92292524|NCT05029687|184489196|OTHER|Effect size (Cohen's d)|Cohen's d|1.841|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|Comparison of effect size: baseline to 1-month post-intervention (d1)||||
92292525|NCT05029687|184489196|OTHER|Effect size (Cohen's d)|Cohen's d|1.451|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|Comparison of effect size: baseline to 1-month post-intervention (d2)||||
92292526|NCT05029687|184489198|OTHER|Effect size (Cohen's d)|Cohen's d|0.763|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|Comparison of effect size: baseline to post-intervention (d1)||||
92292527|NCT05029687|184489198|OTHER|Effect size (Cohen's d)|Cohen's d|1.266|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|Comparison of effect size: baseline to post-intervention (d2)||||
92292528|NCT05029687|184489198|OTHER|Effect size (Cohen's d)|Cohen's d|0.894|||||TWO_SIDED||||||||d1 is mean change from baseline to follow-up divided by the standard deviation of the outcome at baseline to provide an effect size that might approximate one found in a randomized clinical trial if the placebo group saw no change from baseline.|Comparison of effect size: baseline to 1-month post-intervention (d1)||||
92292529|NCT05029687|184489198|OTHER|Effect size (Cohen's d)|Cohen's d|1.149|||||TWO_SIDED||||||||d2 is mean change from baseline to follow-up divided by the standard deviation of the change from baseline to follow-up, to provide an effect size that would be useful for planning similar before-after studies.|Comparison of effect size: baseline to 1-month post-intervention (d2)||||
92292530|NCT04442503|184489207|SUPERIORITY||Least Square Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.16||0.0007|TWO_SIDED|95.0|-6.3|-1.7|||MMRM|||Change from Baseline at Day 15||-1.7|-6.3|0.0007
92292531|NCT04442503|184489208|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.999||0.0008|TWO_SIDED|95.0|-5.4|-1.4|||MMRM|||Change from Baseline at Day 3||-1.4|-5.4|0.0008
92292532|NCT04442503|184489208|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|1.244||0.0203|TWO_SIDED|95.0|-5.4|-0.5|||MMRM|||Change from Baseline at Day 28||-0.5|-5.4|0.0203
92292533|NCT04442503|184489208|SUPERIORITY||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|1.277||0.0067|TWO_SIDED|95.0|-6.0|-1.0|||MMRM|||Change from Baseline at Day 45||-1.0|-6.0|0.0067
92292534|NCT04442503|184489209|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.196||0.0052|TWO_SIDED|95.0|-0.9|-0.2|||MMRM|||Change from Baseline at Day 15||-0.2|-0.9|0.0052
92292535|NCT04442503|184489210|SUPERIORITY||Odds Ratio (OR)|2.02||||0.0209|TWO_SIDED|95.0|1.112|3.67||P-value are from a generalized estimating equation (GEE) for binary response model, with factors for treatment, baseline HAMD-17 total score, baseline antidepressant use, assessment time point, and time-point-by treatment interaction.|GEE Model|||Day 15||3.670|1.112|0.0209
92292536|NCT04442503|184489210|SUPERIORITY||Odds Ratio (OR)|1.534||||0.1661|TWO_SIDED|95.0|0.837|2.812||P-value are from a GEE for binary response model, with factors for treatment, baseline HAMD-17 total score, baseline antidepressant use, assessment time point, and time-point-by treatment interaction.|GEE Model|||Day 45||2.812|0.837|0.1661
92292537|NCT04442503|184489211|SUPERIORITY||Odds Ratio (OR)|1.781||||0.111|TWO_SIDED|95.0|0.876|3.621||P-value are from a GEE for binary response model, with factors for treatment, baseline HAMD-17 total score, baseline antidepressant use, assessment time point, and time-point-by treatment interaction.|GEE Model|||Day 15||3.621|0.876|0.1110
92292538|NCT04442503|184489211|SUPERIORITY||Odds Ratio (OR)|2.083||||0.0226|TWO_SIDED|95.0|1.108|3.915||P-value are from a GEE for binary response model, with factors for treatment, baseline HAMD-17 total score, baseline antidepressant use, assessment time point, and time-point-by treatment interaction.|GEE Model|||Day 45||3.915|1.108|0.0226
92292539|NCT04442503|184489212|SUPERIORITY||Odds Ratio (OR)|2.23||||0.0089|TWO_SIDED|95.0|1.223|4.072|||MMRM|||Day 15||4.072|1.223|0.0089
92292540|NCT04442503|184489213|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.98||0.0235|TWO_SIDED|95.0|-4.2|-0.3|||MMRM|||Change from Baseline at Day 15||-0.3|-4.2|0.0235
92292541|NCT04442503|184489214|SUPERIORITY||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|1.706||0.0034|TWO_SIDED|95.0|-8.4|-1.7|||MMRM|||Change from Baseline at Day 15||-1.7|-8.4|0.0034
92292542|NCT04442503|184489215|SUPERIORITY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|2.4||0.0151|TWO_SIDED|95.0|-10.6|-1.2|||MMRM|||Change from Baseline in Core Subscale at Day 15||-1.2|-10.6|0.0151
92292543|NCT04442503|184489215|SUPERIORITY||LS Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|2.27||0.0123|TWO_SIDED|95.0|-10.2|-1.3|||MMRM|||Change from Baseline in Anxiety Subscale at Day 15||-1.3|-10.2|0.0123
92184507|NCT00824408|184267724|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.141||||0.2804|TWO_SIDED|95.0|0.735|1.771|||Log Rank|||Hazard ratio and 95% CI from Cox proportional-hazards regression model, stratified by histology (Nonsquamous vs. NOS). P-value from log-rank test stratified by histology (one-sided for volasertib 300 mg + pemetrexed 500 mg/m2 vs. pemetrexed 500 mg/m2; two-sided for volasertib 300 mg vs. pemetrexed 500 mg/m2).||1.771|0.735|0.2804
92184508|NCT00824408|184267725|SUPERIORITY_OR_OTHER||||||>|0.9999|||||||Fisher Exact|||||||>0.9999
92292544|NCT04442503|184489215|SUPERIORITY||LS Mean Difference|-8.6|STANDARD_ERROR_OF_MEAN|2.96||0.004|TWO_SIDED|95.0|-14.5|-2.8|||MMRM|||Change from Baseline in Bech-6 Subscale at Day 15||-2.8|-14.5|0.0040
92292545|NCT04442503|184489215|SUPERIORITY||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|2.609||0.0041|TWO_SIDED|95.0|-12.7|-2.4|||MMRM|||Change from Baseline in Meier Subscale at Day 15||-2.4|-12.7|0.0041
92292546|NCT04442503|184489217|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.649||0.6912|TWO_SIDED|95.0|-1.0|1.5|||MMRM|||Change from Baseline at Day 3||1.5|-1.0|0.6912
92292547|NCT04442503|184489217|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.874||0.041|TWO_SIDED|95.0|-3.5|-0.1|||MMRM|||Change from Baseline at Day 8||-0.1|-3.5|0.0410
92292548|NCT04442503|184489217|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.922||0.0444|TWO_SIDED|95.0|-3.7|0.0|||MMRM|||Change from Baseline at Day 15||0.0|-3.7|0.0444
92292549|NCT04442503|184489217|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.924||0.0811|TWO_SIDED|95.0|-3.4|0.2|||MMRM|||Change from Baseline at Day 21||0.2|-3.4|0.0811
92184509|NCT00824408|184267725|SUPERIORITY_OR_OTHER|||||||0.2596|||||||Fisher Exact|||||||0.2596
92184510|NCT00824408|184267726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.073||||0.8406|TWO_SIDED|95.0|0.538|2.14|||Log Rank|||||2.140|0.538|0.8406
92184511|NCT00824408|184267726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.081||||0.396|TWO_SIDED|95.0|0.599|1.949|||Log Rank|||||1.949|0.599|0.3960
92184512|NCT05640167|184267747|OTHER|||||||0.015|||||||t-test, 2 sided|Degrees of freedom 17||||||0.015
92184513|NCT05640167|184267748|OTHER|||||||0.114||||||Positive p = 0.114 Health-directed p = 0.028 Skill and Technique p = 0.013 Constructive attitudes p = 0.003 Self-monitoring \& insight p = 0.001 Health service navigation p = 0.077 Social Integration p = 0.126 Emotional well-being p = 0.093|t-test, 2 sided|||||||0.114
92184514|NCT05640167|184267749|OTHER|||||||0.59|||||||t-test, 2 sided|||||||0.59
92184515|NCT05640167|184267750|OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
92184516|NCT05640167|184267751|OTHER|||||||0.309|||||||t-test, 2 sided|||||||0.309
92292550|NCT04442503|184489217|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.987||0.1846|TWO_SIDED|95.0|-3.3|0.6|||MMRM|||Change from Baseline at Day 28||0.6|-3.3|0.1846
92292551|NCT04442503|184489217|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.031||0.0625|TWO_SIDED|95.0|-4.0|0.1|||MMRM|||Change from Baseline at Day 45||0.1|-4.0|0.0625
92292552|NCT00474058|184489247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.55||||0.0002||95.0|-5.37|-1.73||No p-value adjustment was necessary, since a multiple test procedure in a hierarchical sequentially rejective manner for the primary variable was applied.|ANCOVA|||Analyses of covariance were performed for the efficacy variables with treatment and (pooled) sites as factors, and baseline value as covariate. Least square means (LS means) for treatment effect were calculated and differences between rotigotine and placebo were presented with 95% confidence intervals (CIs) and p- values.||-1.73|-5.37|0.0002
92292553|NCT00474058|184489248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.26|||<|0.0001||95.0|-6.08|-2.45||No p-value adjustment was necessary, since a multiple testing in a hierarchical sequentially rejective manner for the primary variable was applied.|ANCOVA|||Analyses of covariance were performed for the efficacy variables with treatment and (pooled) sites as factors, and baseline value as covariate. Least square means (LS means) for treatment effect were calculated and differences between rotigotine and placebo were presented with 95% confidence intervals (CIs) and p- values.||-2.45|-6.08|<0.0001
92292554|NCT00474058|184489249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0301||95.0|-0.79|-0.04|||ANCOVA|||Analyses of covariance were performed for the efficacy variables with treatment and (pooled) sites as factors, and baseline value as covariate. Least square means (LS means) for treatment effect were calculated and differences between rotigotine and placebo were presented with 95% confidence intervals (CIs) and p- values.||-0.04|-0.79|0.0301
92292555|NCT00474058|184489250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.8842||95.0|-0.29|0.25|||ANCOVA|||Analyses of covariance were performed for the efficacy variables with treatment and (pooled) sites as factors, and baseline value as covariate. Least square means (LS means) for treatment effect were calculated and differences between rotigotine and placebo were presented with 95% confidence intervals (CIs) and p- values.||0.25|-0.29|0.8842
92292556|NCT02640235|184489255|NON_INFERIORITY|The logistic regression estimates are generated from predicted values of the fitted logistic regression model. If the lower bound of the 95% confidence interval is greater than -10, Celstat is non-inferior to Surgicel. If the lower bound of the 95% confidence interval is greater than 0, Celstat will be declared superior to Surgicel.|Difference in avg predicted proportion|-8.5|||||TWO_SIDED|95.0|-15.6|-1.4|||Regression, Logistic|||||-1.4|-15.6|
92292557|NCT02640235|184489258|OTHER||Difference in avg predicted proportion|4.7|||||TWO_SIDED|95.0|-3.6|13.1|||Regression, Logistic|||||13.1|-3.6|
92292558|NCT02640235|184489259|OTHER||Difference in avg predicted proportion|-6.2|||||TWO_SIDED|95.0|-12.0|-0.5|||Regression, Logistic|||||-0.5|-12|
92292559|NCT02640235|184489260|OTHER||Difference in avg predicted proportion|-0.7|||||TWO_SIDED|95.0|-5.7|4.3|||Regression, Logistic|||||4.3|-5.7|
92292560|NCT02640235|184489261|OTHER||Difference in avg predicted proportion|0.2|||||TWO_SIDED|95.0|-3.9|4.4|||Regression, Logistic|||||4.4|-3.9|
92292561|NCT02426918|184489263|NON_INFERIORITY|Non-inferiority for the low dose was confirmed if the upper bound of the CI was \< 15% and if non-inferiority was confirmed for the high dose.|Risk Difference (RD)|-4.2|||||TWO_SIDED|95.0|-11.42|3.0||||||Treatment difference estimates and 95% CIs are calculated accounting for the randomization strata infection type \[cellulitis, noncellulitis\] according to a Mantel-Haenszel type risk difference estimator.||3.00|-11.42|
92292562|NCT02426918|184489263|NON_INFERIORITY|Non-inferiority for the high dose was confirmed if the upper bound of the CI was \< 15%.|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-8.32|8.38||||||Treatment difference estimates and 95% CIs are calculated accounting for the randomization strata infection type \[cellulitis, noncellulitis\] according to a Mantel-Haenszel type risk difference estimator.||8.38|-8.32|
92292563|NCT01322633|184489268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.24|1.93||||||Analysis was based on hazard ratio using Cox proportional hazard regression method adjusted for sex, age, cumulative PPI dose, total years of PPI treatment, diabetes, hepatitis C, hepatitis B and year of index date.||1.93|0.24|
92292564|NCT01322633|184489269|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.65|1.4||||||Analysis was based on hazard ratio using Cox proportional hazard regression method adjusted for sex, age, cumulative PPI dose, total years of PPI treatment, diabetes, hepatitis C, hepatitis B and year of index date.||1.40|0.65|
92292565|NCT01322633|184489270|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.93|1.21||||||Analysis was based on hazard ratio using Cox proportional hazard regression method adjusted for sex, age, cumulative PPI dose, total years of PPI treatment, diabetes, hepatitis C, hepatitis B and year of index date.||1.21|0.93|
92292566|NCT02420353|184489271|OTHER|||||||0.0498|||||||Mixed Models Analysis|||Mixed effect model||||0.0498
92292567|NCT02420353|184489272|OTHER|Mixed effects model||||||0.7024|||||||Mixed Models Analysis|||||||0.7024
92292568|NCT02420353|184489273|OTHER|Mixed effects model||||||0.135|||||||Mixed Models Analysis|||||||0.135
92292569|NCT02420353|184489274|OTHER|Mixed effects model||||||0.6836|||||||Mixed Models Analysis|||||||0.6836
92292570|NCT02420353|184489275|OTHER|mixed effects model||||||0.9271|||||||Mixed Models Analysis|||||||0.9271
92184517|NCT05640167|184267752|OTHER|||||||0.827|||||||t-test, 2 sided|||||||0.827
92292571|NCT02420353|184489276|OTHER|mixed effects model||||||0.1576|||||||Mixed Models Analysis|||||||0.1576
92292572|NCT02420353|184489277|OTHER|mixed effects model||||||0.5586|||||||Mixed Models Analysis|||||||0.5586
92292573|NCT02420353|184489278|OTHER|mixed effects model||||||0.45|||||||Mixed Models Analysis|||||||0.45
92184518|NCT01263496|184267757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.401|||||TWO_SIDED|95.0|-0.618|-0.184||||||||-0.184|-0.618|
92184519|NCT01263496|184267757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.548|||||TWO_SIDED|95.0|-0.739|-0.358||||||||-0.358|-0.739|
92292574|NCT02420353|184489279|OTHER|mixed effects model||||||0.8573|||||||Mixed Models Analysis|||||||0.8573
92292575|NCT02420353|184489280|OTHER|mixed effects model||||||0.0564|||||||Mixed Models Analysis|||||||0.0564
92292576|NCT02420353|184489281|OTHER|mixed effects model||||||0.7883|||||||Mixed Models Analysis|||||||0.7883
92292577|NCT02420353|184489282|OTHER|mixed effects model||||||0.0901|||||||Mixed Models Analysis|||||||0.0901
92292578|NCT02420353|184489283|OTHER|mixed effects model||||||0.6292|||||||Mixed Models Analysis|||||||0.6292
92292579|NCT02420353|184489284|OTHER|mixed effects model||||||0.161|||||||Mixed Models Analysis|||||||0.161
92292580|NCT02420353|184489285|OTHER|mixed effects model||||||0.4437|||||||Mixed Models Analysis|||||||0.4437
92292581|NCT02420353|184489286|OTHER|mixed effects model||||||0.7325|||||||Mixed Models Analysis|||||||0.7325
92292582|NCT02420353|184489287|OTHER|Mixed effects analysis||||||0.6291|||||||Mixed Models Analysis|||||||0.6291
92292583|NCT02420353|184489288|OTHER|Mixed-effects model||||||0.3332|||||||Mixed Models Analysis|||||||0.3332
92292584|NCT02420353|184489289|OTHER|Mixed effects analysis||||||0.79|||||||Mixed Models Analysis|||||||0.79
92292585|NCT02420353|184489290|OTHER|Mixed effects analysis||||||0.4965|||||||Mixed Models Analysis|||||||0.4965
92292586|NCT02420353|184489291|OTHER|mixed effects analysis||||||0.1331|||||||Mixed Models Analysis|||||||0.1331
92292587|NCT02420353|184489292|OTHER|Mixed-model analysis||||||0.5251|||||||Mixed Models Analysis|||||||0.5251
92292588|NCT02420353|184489293|OTHER|Mixed effects analysis||||||0.1064|||||||Mixed Models Analysis|||||||0.1064
92292589|NCT02420353|184489294|OTHER|Mixed effects analysis||||||0.4852|||||||Mixed Models Analysis|||||||0.4852
92292590|NCT02420353|184489295|OTHER|||||||0.7943|||||||Mixed Models Analysis|||||||0.7943
92292591|NCT02420353|184489296|OTHER|||||||0.0894|||||||Mixed Models Analysis|||||||0.0894
92292592|NCT02420353|184489297|OTHER|Mixed effects analysis||||||0.0673|||||||Mixed Models Analysis|||||||0.0673
92292593|NCT02420353|184489298|OTHER|Mixed effects analysis||||||0.0185|||||||Mixed Models Analysis|||||||0.0185
92292594|NCT02420353|184489299|OTHER|mixed effects analysis||||||0.6094|||||||Mixed Models Analysis|||||||0.6094
92292595|NCT02420353|184489300|OTHER|mixed effects analysis||||||0.3279|||||||Mixed Models Analysis|||||||0.3279
92292596|NCT02420353|184489301|OTHER|mixed effects analysis||||||0.2802|||||||Mixed Models Analysis|||||||0.2802
92292597|NCT02420353|184489302|OTHER|||||||0.1064|||||||Mixed Models Analysis|||||||0.1064
92292598|NCT02420353|184489303|OTHER|mixed effects model||||||0.0509|||||||Mixed Models Analysis|||||||0.0509
92292599|NCT02420353|184489304|OTHER|mixed effects analysis||||||0.1605|||||||Mixed Models Analysis|||||||0.1605
92292600|NCT02420353|184489305|OTHER|mixed effects model||||||0.0357|||||||Mixed Models Analysis|||||||0.0357
92292601|NCT02420353|184489306|OTHER|mixed effects model||||||0.0122|||||||Mixed Models Analysis|||||||0.0122
92292602|NCT02420353|184489307|OTHER|mixed effects model||||||0.5853|||||||Mixed Models Analysis|||||||0.5853
92292603|NCT02420353|184489308|OTHER|mixed effects model||||||0.6288|||||||Mixed Models Analysis|||||||0.6288
92292604|NCT02420353|184489309|OTHER|mixed effects model||||||0.5022|||||||Mixed Models Analysis|||||||0.5022
92292605|NCT02420353|184489310|OTHER|mixed effects model||||||0.7507|||||||Mixed Models Analysis|||||||0.7507
92292606|NCT02420353|184489311|OTHER|mixed effects model|||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
92292607|NCT02420353|184489312|OTHER|mixed effects model||||||0.8581|||||||Mixed Models Analysis|||||||0.8581
92292608|NCT02420353|184489313|OTHER|mixed effects model||||||0.0208|||||||Mixed Models Analysis|||||||0.0208
92292609|NCT02420353|184489314|OTHER|Mixed effects model||||||0.8581|||||||Mixed Models Analysis|||||||0.8581
92292610|NCT01149057|184489320|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||Analysis was performed using paired sample t-test for change from baseline.||||<0.0001
92292611|NCT01149057|184489321|SUPERIORITY_OR_OTHER|||||||0.3778|TWO_SIDED|||||P value by analysis of covariance (ANCOVA) for the change from baseline, adjusted to number of days between the first and the second DXA test.|ANCOVA|||Comparison of L1-L4 T-scores||||0.3778
92184520|NCT01263496|184267757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||||TWO_SIDED|95.0|-0.779|-0.401||||||||-0.401|-0.779|
92184521|NCT01263496|184267757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.708|||||TWO_SIDED|95.0|-0.894|-0.522||||||||-0.522|-0.894|
92184522|NCT01263496|184267758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.316|||||TWO_SIDED|95.0|-0.538|-0.093||||||||-0.093|-0.538|
92184523|NCT01263496|184267758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.493|||||TWO_SIDED|95.0|-0.684|-0.302||||||||-0.302|-0.684|
92292612|NCT01149057|184489321|SUPERIORITY_OR_OTHER|||||||0.1541|TWO_SIDED|||||P value by ANCOVA for the change from baseline, adjusted to number of days between the first and the second DXA test.|ANCOVA|||Comparison of Total spine T-score||||0.1541
92292613|NCT01149057|184489321|SUPERIORITY_OR_OTHER|||||||0.789|TWO_SIDED|||||P value by ANCOVA for the change from baseline, adjusted to number of days between the first and the second DXA test.|ANCOVA|||Comparison of Total hip - left T-score||||0.7890
92292614|NCT01149057|184489321|SUPERIORITY_OR_OTHER|||||||0.7094|TWO_SIDED|||||P value by ANCOVA for the change from baseline, adjusted to number of days between the first and the second DXA test.|ANCOVA|||Comparison of Femoral neck - left T-scores.||||0.7094
92292615|NCT01149057|184489327|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 24||||<0.0001
92292616|NCT01149057|184489327|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 48||||<0.0001
92292617|NCT01149057|184489327|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 72||||<0.0001
92292618|NCT01149057|184489327|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 96||||<0.0001
92292619|NCT01149057|184489328|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
92292620|NCT01149057|184489329|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
92292621|NCT01149057|184489330|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
92292622|NCT01149057|184489331|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||Analysis was performed using paired sample t-test for change from baseline.||||<0.0001
92292623|NCT01149057|184489332|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
92292624|NCT01149057|184489333|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
92292625|NCT01149057|184489334|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
92292626|NCT01149057|184489335|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 24||||<0.0001
92292627|NCT01149057|184489335|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 48||||<0.0001
92292628|NCT01149057|184489335|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 72||||<0.0001
92292629|NCT01149057|184489335|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 96||||<0.0001
92292630|NCT00834561|184489378|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|104.14||||||90.0|99.99|108.47|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108.47|99.99|
92292631|NCT00834561|184489379|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|104.07||||||90.0|101.33|106.89|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.89|101.33|
92292632|NCT00834561|184489380|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|103.68||||||90.0|101.42|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.00|101.42|
92184524|NCT01263496|184267758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||||TWO_SIDED|95.0|-0.706|-0.314||||||||-0.314|-0.706|
92292633|NCT00270634|184489389|NON_INFERIORITY_OR_EQUIVALENCE|The sample size was determined holding the probability of a type-I error at a = 0.05, and the power at 0.76. The rate of BPAR at 6 months posttransplant was assumed to be 0.20 in the control arm, and the noninferiority margin was chosen to be -0.15. A sample size for this phase-2b trial is determined to be 76 subjects in each dose group or a total of 304 patients. Assuming a 10% dropout rate during the study, ∼332 subjects were to be proportionally randomized in this study.|Weighted Average Difference|-3.2|||||ONE_SIDED|95.0||1.3|||t-test, 1 sided||The upper bound of the confidence interval was a measure of non-inferiority of VCS to TAC. VCS was considered non-inferior to TAC if the upper one-sided 95% confidence bound was less than 15%.|The 6-month BPAR rate was used to calculate an estimate of the difference in rates between each VCS group and TAC, combining across pooled investigative center strata, weighted by the number of patients in each of the pooled center strata. The overall standard error was estimated for the linear combination of proportions. Using this statistic and its standard error, the upper bound one-sided 95% C.I. was constructed for the difference in BPAR rates between groups (VCS - TAC).||1.3||
92292634|NCT00270634|184489389|NON_INFERIORITY_OR_EQUIVALENCE|The sample size was determined holding the probability of a type-I error at a = 0.05, and the power at 0.76. The rate of BPAR at 6 months posttransplant was assumed to be 0.20 in the control arm, and the noninferiority margin was chosen to be -0.15. A sample size for this phase-2b trial is determined to be 76 subjects in each dose group or a total of 304 patients. Assuming a 10% dropout rate during the study, ∼332 subjects were to be proportionally randomized in this study.|Weighted Average Difference|4.6|||||ONE_SIDED|95.0||10.8|||t-test, 1 sided||The upper bound of the confidence interval was a measure of non-inferiority of VCS to TAC. VCS was considered non-inferior to TAC if the upper one-sided 95% confidence bound was less than 15%.|||10.8||
92292635|NCT00270634|184489389|NON_INFERIORITY_OR_EQUIVALENCE|The sample size was determined holding the probability of a type-I error at a = 0.05, and the power at 0.76. The rate of BPAR at 6 months posttransplant was assumed to be 0.20 in the control arm, and the noninferiority margin was chosen to be -0.15. A sample size for this phase-2b trial is determined to be 76 subjects in each dose group or a total of 304 patients. Assuming a 10% dropout rate during the study, ∼332 subjects were to be proportionally randomized in this study.|Weighted Average Difference|4.9|||||ONE_SIDED|95.0||11.4|||t-test, 1 sided||The upper bound of the confidence interval was a measure of non-inferiority of VCS to TAC. VCS was considered non-inferior to TAC if the upper one-sided 95% confidence bound was less than 15%.|||11.4||
92292636|NCT00835588|184489396|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|88.8||||||90.0|82.7|95.4|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||95.4|82.7|
92292637|NCT00835588|184489397|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|97.3||||||90.0|93.4|101.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101|93.4|
92292638|NCT00835588|184489398|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|95.6||||||90.0|91.6|99.8|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.8|91.6|
92292639|NCT01597791|184489416|SUPERIORITY|||||||0.05||||||Calculated.|Fisher Exact|||||||.05
92292640|NCT03921554|184489431|SUPERIORITY||Estimated change (52 weeks - baseline)|0.9|||<|0.0005|TWO_SIDED|95.0|0.5|1.2||The a priori threshold for statistical significance was \< 0.05.|Wald test||We fit a GEE model with AGS score as outcome and an indicator variable for 52 weeks. An exchangeable correlation structure was used to model intra-participant association of AGS scores. The model allowed for up to 2 measurements per participant.|"We are testing the null hypothesis is that the change from baseline (52 weeks - baseline) in AGS is zero.~45 participants had 2 measurements (at baseline and 52 weeks); 6 participants had 1 measurement (at baseline). All participants were included in the analysis."||1.2|0.5|<0.0005
92292641|NCT03921554|184489432|SUPERIORITY||Estimated change (Day 673 - Day 0)|1.09|||<|0.0005|TWO_SIDED|95.0|0.57|1.62||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a GEE model of AGS on day of treatment (modeled with cubic splines with knots at days 0, 84, 168, 336, 506, 673, and 1006). Goodness of fit criteria were used to select GEE model with AR(1) correlation structure.|We estimate change from Day 0 to Day 673 of treatment (Day 673 minus Day 0) with 95% confidence interval (CI). All participants are included in the analysis.||1.62|0.57|<0.0005
92292642|NCT03921554|184489433|SUPERIORITY||Estimated change (52 weeks - baseline)|2.2||||0.295|TWO_SIDED|95.0|-1.9|6.4||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a GEE model with GMFM-88 as outcome, with indicator variables for 52 weeks (vs. baseline) and cohorts B and C (vs. A); in addition, time by cohort interaction terms are included. The model allow for up to 2 measurements per participant.|"We are testing the null hypothesis that the change from baseline (52 weeks - baseline) in GMFM-88 is zero within cohorts.~35 participants had 2 measurements (at baseline and 52 weeks); 15 participants had 1 measurement (at baseline). All participants are included in the analysis."||6.4|-1.9|0.295
92292643|NCT03921554|184489433|SUPERIORITY||Estimated change (52 weeks - baseline)|7.0||||0.007|TWO_SIDED|95.0|1.9|12.0||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a GEE model with GMFM-88 as outcome, with indicator variables for 52 weeks (vs. baseline) and cohorts B and C (vs. A); in addition, time by cohort interaction terms are included. The model allow for up to 2 measurements per participant.|"We are testing the null hypothesis that the change from baseline (52 weeks - baseline) in GMFM-88 is zero within cohorts.~35 participants had 2 measurements (at baseline and 52 weeks); 15 participants had 1 measurement (at baseline). All participants are included in the analysis."||12.0|1.9|0.007
92184525|NCT01263496|184267758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.647|||||TWO_SIDED|95.0|-0.834|-0.461||||||||-0.461|-0.834|
92184526|NCT01263496|184267759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.263|||||TWO_SIDED|95.0|-0.479|-0.047||||||||-0.047|-0.479|
92184527|NCT01263496|184267759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.395|||||TWO_SIDED|95.0|-0.598|-0.192||||||||-0.192|-0.598|
92184528|NCT01263496|184267759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.405|||||TWO_SIDED|95.0|-0.616|-0.195||||||||-0.195|-0.616|
92292644|NCT03921554|184489433|SUPERIORITY||Estimated change (52 weeks - baseline)|0.26||||0.932|TWO_SIDED|95.0|-5.7|6.2||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a GEE model with GMFM-88 as outcome, with indicator variables for 52 weeks (vs. baseline) and cohorts B and C (vs. A); in addition, time by cohort interaction terms are included. The model allow for up to 2 measurements per participant.|"We are testing the null hypothesis that the change from baseline (52 weeks - baseline) in GMFM-88 is zero within cohorts.~35 participants had 2 measurements (at baseline and 52 weeks); 15 participants had 1 measurement (at baseline). All participants are included in the analysis."||6.2|-5.7|0.932
92292645|NCT03921554|184489434|SUPERIORITY||Estimated change (Day 3 - Day 0)|-8.76|||<|0.0005|TWO_SIDED|95.0|-11.7|-5.81||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a QLS model of ISG on day of treatment and indicator variable for post-treatment. Goodness of fit criteria were used to select QLS model with exchangeable correlation structure.|We estimate change from pre to post treatment (Day 3 minus Day 0) with 95% confidence interval (CI). All participants are included in the analysis.||-5.81|-11.7|<0.0005
92292646|NCT03921554|184489435|SUPERIORITY||Estimated change (day 335 minus day 0)|-0.11||||0.002|TWO_SIDED|95.0|-0.18|-0.04||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a GEE model of diary average score on day of treatment and indicator variable for post-treatment. Goodness of fit criteria were used to select GEE model with exchangeable correlation structure.|We estimate change from Day 0 to Day 335 (Day 335 - Day 0) with 95% confidence interval (CI). All participants are included in the analysis.||-0.04|-0.18|0.002
92292647|NCT05194202|184489491|OTHER|||||||0.622|||||||one-sample test of proportions|Hypothesis was evaluated using a one-tailed, one-proportion z-test.||Our null hypothesis for the acceptability was P0 great than or equal to 85% vs. the alternative P0 less than 85%. Acceptability responses were dichotomized to include neutral with strongly disagree/disagree.||||.622
92292648|NCT05194202|184489492|OTHER|||||||0.038|||||||one sample test of proportions|Hypothesis was evaluated using a one-tailed, one-proportion z-test||Our null hypothesis for the acceptabnility of the ED-Heart was P0 great than or equal to 85% vs. the alternative P0 less than 85%. Acceptability responses were dichotomized to include neutral with strongly disagree/disagree.||||.038
92292649|NCT02005562|184489503|SUPERIORITY_OR_OTHER|||||||0.479|||||||Chi-squared|||||||0.479
92144528|NCT00428090|184173229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.198|TWO_SIDED|95.0|-6.6|1.4||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.4|-6.6|0.198
92144529|NCT00428090|184173229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.441|TWO_SIDED|95.0|-5.9|2.6||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.6|-5.9|0.441
92184529|NCT01263496|184267759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.583|||||TWO_SIDED|95.0|-0.78|-0.386||||||||-0.386|-0.780|
92184530|NCT01263496|184267760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.172|||||TWO_SIDED|95.0|-0.41|0.065||||||||0.065|-0.410|
92292650|NCT02005562|184489504|SUPERIORITY_OR_OTHER|||||||0.6736|||||||ANOVA|||||||0.6736
92292651|NCT02005562|184489505|SUPERIORITY_OR_OTHER|||||||0.2172|||||||ANOVA|||||||0.2172
92292652|NCT02005562|184489506|SUPERIORITY_OR_OTHER|||||||0.477|||||||ANOVA|||||||0.4770
92184531|NCT01263496|184267760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.319|||||TWO_SIDED|95.0|-0.55|-0.088||||||||-0.088|-0.550|
92292653|NCT02005562|184489508|SUPERIORITY_OR_OTHER|||||||0.0764|||||||Log Rank|||||||0.0764
92292654|NCT02005562|184489509|SUPERIORITY_OR_OTHER|||||||0.418|||||||Fisher Exact|||Week 12||||0.418
92292655|NCT02005562|184489509|SUPERIORITY_OR_OTHER|||||||0.841|||||||Fisher Exact|||Week 52||||0.841
92292656|NCT02005562|184489510|SUPERIORITY_OR_OTHER|||||||0.245|||||||Fisher Exact|||Week 12||||0.245
92292657|NCT02005562|184489510|SUPERIORITY_OR_OTHER|||||||0.637|||||||Fisher Exact|||Week 52||||0.637
92144530|NCT00428090|184173229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.898|TWO_SIDED|95.0|-5.8|5.1||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||5.1|-5.8|0.898
92184532|NCT01263496|184267760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|||||TWO_SIDED|95.0|-0.601|-0.139||||||||-0.139|-0.601|
92184533|NCT01263496|184267760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.533|||||TWO_SIDED|95.0|-0.752|-0.314||||||||-0.314|-0.752|
92184534|NCT01263496|184267761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.079|||||TWO_SIDED|95.0|-0.323|0.166||||||||0.166|-0.323|
92184535|NCT01263496|184267761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.241|||||TWO_SIDED|95.0|-0.471|-0.011||||||||-0.011|-0.471|
92184536|NCT01263496|184267761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.357|||||TWO_SIDED|95.0|-0.59|-0.124||||||||-0.124|-0.590|
92184537|NCT01263496|184267761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.467|||||TWO_SIDED|95.0|-0.692|-0.242||||||||-0.242|-0.692|
92184538|NCT01263496|184267762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|||||TWO_SIDED|95.0|-0.321|0.162||||||||0.162|-0.321|
92184539|NCT01263496|184267762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.294|||||TWO_SIDED|95.0|-0.542|-0.046||||||||-0.046|-0.542|
92184540|NCT01263496|184267762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.341|||||TWO_SIDED|95.0|-0.579|-0.103||||||||-0.103|-0.579|
92292658|NCT02005562|184489511|SUPERIORITY_OR_OTHER|||||||0.512||||||Mycophenolate Mofetil, Adapted Dose vs. Mycophenolate Mofetil, Fixed Dose at protocol biopsy at Week 12.|Fisher Exact|||||||0.512
92292659|NCT02005562|184489511|SUPERIORITY_OR_OTHER|||||||0.718||||||Mycophenolate Mofetil, Adapted Dose vs. Mycophenolate Mofetil, Fixed Dose at protocol biopsy at Week 52.|Fisher Exact|||||||0.718
92292660|NCT02005562|184489513|SUPERIORITY_OR_OTHER|||||||0.86|||||||Log Rank|||||||0.860
92292661|NCT00660387|184489515|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.91|STANDARD_ERROR_OF_MEAN|0.57||0.0015|TWO_SIDED|95.0|-3.05|-0.76||Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline and the natural logarithm of the mean daily dose of rescue medication on valid symptom diary days as covariates.|ANCOVA|||||-0.76|-3.05|0.0015
92292662|NCT00660387|184489516|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|1.86|STANDARD_ERROR_OF_MEAN|0.65||0.0059|TWO_SIDED|95.0|0.56|3.17|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||3.17|0.56|0.0059
92292663|NCT00660387|184489517|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-7.0|STANDARD_ERROR_OF_MEAN|2.8||0.0155|TWO_SIDED|95.0|-12.6|-1.4||Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the CGI-Severity (CGI-S, see Baseline Characteristics module) as a covariate.|ANCOVA|||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-1.4|-12.6|0.0155
92292664|NCT00660387|184489518|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0258|TWO_SIDED|95.0|-1.4|-0.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the baseline CGI-S as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-0.1|-1.4|0.0258
92292665|NCT00660387|184489519|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.0|STANDARD_ERROR_OF_MEAN|1.1||0.0086|TWO_SIDED|95.0|-5.3|-0.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-0.8|-5.3|0.0086
92292666|NCT00660387|184489520|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|1.4|STANDARD_ERROR_OF_MEAN|2.1||0.502|TWO_SIDED|95.0|-2.8|5.6|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||5.6|-2.8|0.5020
92292667|NCT00660387|184489521|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|0.07|STANDARD_ERROR_OF_MEAN|0.038||0.067|TWO_SIDED|95.0|-0.005|0.146|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding Baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||0.146|-0.005|0.0670
92184541|NCT01263496|184267762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.487|||||TWO_SIDED|95.0|-0.722|-0.252||||||||-0.252|-0.722|
92292668|NCT00660387|184489522|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-4.5|STANDARD_ERROR_OF_MEAN|3.1||0.1501|TWO_SIDED|95.0|-10.7|1.7|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||1.7|-10.7|0.1501
92292669|NCT00660387|184489523|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.08|STANDARD_ERROR_OF_MEAN|0.45||0.8574|TWO_SIDED|95.0|-0.98|0.82|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.82|-0.98|0.8574
92292670|NCT00660387|184489524|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-10.4|STANDARD_ERROR_OF_MEAN|4.3||0.0184|TWO_SIDED|95.0|-19.1|-1.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-1.8|-19.1|0.0184
92292671|NCT00660387|184489525|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-11.6|STANDARD_ERROR_OF_MEAN|4.5||0.0129|TWO_SIDED|95.0|-20.6|-2.5|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-2.5|-20.6|0.0129
92292672|NCT00660387|184489526|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-2.2|STANDARD_ERROR_OF_MEAN|3.4||0.5246|TWO_SIDED|95.0|-9.0|4.6|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||4.6|-9.0|0.5246
92144531|NCT00428090|184173231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.027|TWO_SIDED|95.0|-2.1|-0.1||Comparison between Placebo and RSG XR 2 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||-0.1|-2.1|0.027
92184542|NCT01263496|184267763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.049|||||TWO_SIDED|95.0|-0.279|0.182||||||||0.182|-0.279|
92184543|NCT01263496|184267763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.234|||||TWO_SIDED|95.0|-0.491|0.023||||||||0.023|-0.491|
92184544|NCT01263496|184267763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.375|||||TWO_SIDED|95.0|-0.605|-0.145||||||||-0.145|-0.605|
92184545|NCT01263496|184267763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.488|||||TWO_SIDED|95.0|-0.724|-0.252||||||||-0.252|-0.724|
92184546|NCT01263496|184267764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|||||TWO_SIDED|95.0|-0.27|0.169||||||||0.169|-0.270|
92292673|NCT00660387|184489527|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-4.5|STANDARD_ERROR_OF_MEAN|3.8||0.2423|TWO_SIDED|95.0|-12.0|3.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||3.1|-12.0|0.2423
92292674|NCT00660387|184489528|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.8|STANDARD_ERROR_OF_MEAN|3.1||0.2243|TWO_SIDED|95.0|-9.9|2.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||2.4|-9.9|0.2243
92292675|NCT00660387|184489529|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-4.0|STANDARD_ERROR_OF_MEAN|3.4||0.2407|TWO_SIDED|95.0|-10.8|2.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||2.8|-10.8|0.2407
92292676|NCT00660387|184489530|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-13.8|STANDARD_ERROR_OF_MEAN|3.5||0.0002|TWO_SIDED|95.0|-20.8|-6.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-6.8|-20.8|0.0002
92292677|NCT00660387|184489531|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.3|STANDARD_ERROR_OF_MEAN|5.1||0.5213|TWO_SIDED|95.0|-13.6|6.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||6.9|-13.6|0.5213
92292678|NCT00660387|184489532|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3741|TWO_SIDED|95.0|-0.4|0.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.9|-0.4|0.3741
92292679|NCT00660387|184489533|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.2|STANDARD_ERROR_OF_MEAN|0.6||0.0361|TWO_SIDED|95.0|-2.4|-0.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-0.1|-2.4|0.0361
92144532|NCT00428090|184173231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.278|TWO_SIDED|95.0|-1.6|0.5||Comparison between Placebo and RSG XR 8 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.5|-1.6|0.278
92184547|NCT01263496|184267764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.193|||||TWO_SIDED|95.0|-0.453|0.067||||||||0.067|-0.453|
92184548|NCT01263496|184267764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.374|||||TWO_SIDED|95.0|-0.596|-0.152||||||||-0.152|-0.596|
92184549|NCT01263496|184267764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|||||TWO_SIDED|95.0|-0.723|-0.256||||||||-0.256|-0.723|
92292680|NCT00660387|184489534|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.3578|TWO_SIDED|95.0|-1.1|0.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.4|-1.1|0.3578
92292681|NCT00660387|184489535|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.5|STANDARD_ERROR_OF_MEAN|2.9||0.6088|TWO_SIDED|95.0|-7.4|4.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||4.4|-7.4|0.6088
92292682|NCT00660387|184489536|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|11.4|STANDARD_ERROR_OF_MEAN|3.7||0.0033|TWO_SIDED|95.0|4.0|18.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||18.9|4.0|0.0033
92184550|NCT01263496|184267765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|||||TWO_SIDED|95.0|-0.16|0.289||||||||0.289|-0.160|
92184551|NCT01263496|184267765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.236|||||TWO_SIDED|95.0|-0.477|0.005||||||||0.005|-0.477|
92292683|NCT03086135|184489539|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||PTA4 at 3 months with the Osia system vs Unaided at visit 1||||<0.0001
92292684|NCT03086135|184489540|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in noise at 3 months with the Osia system vs Unaided at visit 1||||<0.0001
92292685|NCT03086135|184489541|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||PTA4 at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292686|NCT03086135|184489541|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||PTA4 at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292687|NCT03086135|184489541|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||PTA4 at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292688|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry 250Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292689|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 500Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92184552|NCT01263496|184267765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.608|-0.113||||||||-0.113|-0.608|
92184553|NCT01263496|184267765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.435|||||TWO_SIDED|95.0|-0.679|-0.191||||||||-0.191|-0.679|
92184554|NCT01263496|184267766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.033|||||TWO_SIDED|95.0|-0.262|0.196||||||||0.196|-0.262|
92184555|NCT01263496|184267766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.262|||||TWO_SIDED|95.0|-0.516|-0.008||||||||-0.008|-0.516|
92184556|NCT01263496|184267766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.358|||||TWO_SIDED|95.0|-0.614|-0.103||||||||-0.103|-0.614|
92184557|NCT01263496|184267766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.432|||||TWO_SIDED|95.0|-0.69|-0.174||||||||-0.174|-0.690|
92184558|NCT01263496|184267767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.118|||||TWO_SIDED|95.0|-0.346|0.11||||||||0.110|-0.346|
92184559|NCT01263496|184267767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.277|||||TWO_SIDED|95.0|-0.539|-0.015||||||||-0.015|-0.539|
92184560|NCT01263496|184267767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.373|||||TWO_SIDED|95.0|-0.637|-0.109||||||||-0.109|-0.637|
92184561|NCT01263496|184267767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.477|||||TWO_SIDED|95.0|-0.741|-0.213||||||||-0.213|-0.741|
92292690|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 750Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292691|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292692|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1500Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292693|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 2000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292694|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 3000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292695|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 4000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292696|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 6000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292697|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 8000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292698|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 250Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292699|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 500Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92184562|NCT01263496|184267768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.181|||||TWO_SIDED|95.0|-0.416|0.055||||||||0.055|-0.416|
92292700|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 750Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292701|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292702|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1500Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292703|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 2000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292704|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 3000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292705|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 4000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92184563|NCT01263496|184267768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.245|||||TWO_SIDED|95.0|-0.492|0.003||||||||0.003|-0.492|
92184564|NCT01263496|184267768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.408|||||TWO_SIDED|95.0|-0.654|-0.161||||||||-0.161|-0.654|
92184565|NCT01263496|184267768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.638|||||TWO_SIDED|95.0|-0.874|-0.402||||||||-0.402|-0.874|
92184566|NCT01263496|184267769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.51|||||TWO_SIDED|95.0|-17.56|0.54||||||||0.54|-17.56|
92292706|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 6000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292707|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 8000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292708|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 250Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292709|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 500Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292710|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 750Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292711|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292712|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1500Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292713|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 2000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292714|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 3000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292715|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 4000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292716|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 6000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292717|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 8000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292718|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 250Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292719|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 500Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292720|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 750Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92144533|NCT00428090|184173231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.993|TWO_SIDED|95.0|-1.2|1.1||Comparison between Placebo and Donepezil 10 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.1|-1.2|0.993
92292721|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292722|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1500Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292723|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 2000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292724|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 3000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292725|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 4000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292726|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 6000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292727|NCT03086135|184489542|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 8000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292728|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292729|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292730|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292731|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292732|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292733|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292734|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92144534|NCT00428090|184173231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.196|TWO_SIDED|95.0|-2.0|0.4||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.4|-2.0|0.196
92144535|NCT00428090|184173231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.353|TWO_SIDED|95.0|-1.9|0.7||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.7|-1.9|0.353
92184567|NCT01263496|184267769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.7|||||TWO_SIDED|95.0|-19.23|-4.18||||||||-4.18|-19.23|
92184568|NCT01263496|184267769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.41|||||TWO_SIDED|95.0|-20.68|-6.15||||||||-6.15|-20.68|
92184569|NCT01263496|184267769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.38|||||TWO_SIDED|95.0|-26.93|-11.83||||||||-11.83|-26.93|
92184570|NCT01263496|184267770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.44|||||TWO_SIDED|95.0|-12.67|3.8||||||||3.80|-12.67|
92292735|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292736|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292737|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292738|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Speech in quiet at 65dB at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292739|NCT03086135|184489543|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292740|NCT03086135|184489544|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive speech recognition in noise at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
92292741|NCT03086135|184489544|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive speech recognition in noise at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292742|NCT03086135|184489544|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive speech recognition in noise at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292743|NCT03086135|184489545|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Ease of communication, at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292744|NCT03086135|184489545|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Background noise, at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292745|NCT03086135|184489545|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Reverberation, at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292746|NCT03086135|184489545|SUPERIORITY|||||||0.51|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Aversiveness, at 3 months with the Osia system vs Unaided at visit 1.||||0.51
92292747|NCT03086135|184489545|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Global score, at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292748|NCT03086135|184489545|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Ease of communication, at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292749|NCT03086135|184489545|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Background noise, at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292750|NCT03086135|184489545|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Reverberation, at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292751|NCT03086135|184489545|SUPERIORITY|||||||0.32|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Aversiveness, at 12 months with the Osia system vs Unaided at visit 1.||||0.32
92292752|NCT03086135|184489545|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Global score, at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292753|NCT03086135|184489546|SUPERIORITY|||||||0.026|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Comprehensive health state at 3 months with the Osia system vs Unaided at visit 1.||||0.026
92292754|NCT03086135|184489546|SUPERIORITY|||||||0.5|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Vision attribute at 3 months with the Osia system vs Unaided at visit 1.||||0.50
92292755|NCT03086135|184489546|SUPERIORITY|||||||0.0008|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Hearing attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.0008
92184571|NCT01263496|184267770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.39|||||TWO_SIDED|95.0|-17.48|-1.3||||||||-1.30|-17.48|
92184572|NCT01263496|184267770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.56|||||TWO_SIDED|95.0|-18.58|-2.54||||||||-2.54|-18.58|
92184573|NCT01263496|184267770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.37|||||TWO_SIDED|95.0|-21.44|-3.31||||||||-3.31|-21.44|
92184574|NCT01263496|184267771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.9|||||TWO_SIDED|95.0|-15.66|1.86||||||||1.86|-15.66|
92184575|NCT01263496|184267771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.73|||||TWO_SIDED|95.0|-18.97|-2.49||||||||-2.49|-18.97|
92184576|NCT01263496|184267771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.21|||||TWO_SIDED|95.0|-17.2|-1.23||||||||-1.23|-17.20|
92292756|NCT03086135|184489546|SUPERIORITY|||||||0.082|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Speech attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.082
92292757|NCT03086135|184489546|SUPERIORITY|||||||0.13|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Ambulation attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.13
92292758|NCT03086135|184489546|SUPERIORITY|||||||0.9|TWO_SIDED|95.0|||||Wilcoxon Signed Rank test|||HUI Dexterity attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.9
92292759|NCT03086135|184489546|SUPERIORITY|||||||0.43|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Emotion attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.43
92292760|NCT03086135|184489546|SUPERIORITY|||||||0.31|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Cognition attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.31
92292761|NCT03086135|184489546|SUPERIORITY|||||||0.72|TWO_SIDED|95.0|||||Wilcoxon Signed Rank test|||HUI Pain attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.72
92292762|NCT03086135|184489546|SUPERIORITY|||||||0.13|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Comprehensive Health State attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.13
92292763|NCT03086135|184489546|SUPERIORITY|||||||0.23|TWO_SIDED|95.0|||||Wilcoxon Signed Rank test|||HUI Vision attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.23
92292764|NCT03086135|184489546|SUPERIORITY|||||||0.0026|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Hearing attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.0026
92292765|NCT03086135|184489546|SUPERIORITY|||||||0.0024|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Speech attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.0024
92292766|NCT03086135|184489546|SUPERIORITY|||||||0.16|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Ambulation attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.16
92292767|NCT03086135|184489546|SUPERIORITY|||||||0.16|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Dexterity attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.16
92292768|NCT03086135|184489546|SUPERIORITY|||||||0.85|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Emotion attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.85
92292769|NCT03086135|184489546|SUPERIORITY|||||||1|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Cognition attribute, at 12 months with the Osia system vs Unaided at visit 1.||||1.0
92292770|NCT03086135|184489546|SUPERIORITY|||||||0.56|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Pain attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.56
92292771|NCT03086135|184489547|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Total score at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292772|NCT03086135|184489547|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Speech score at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292773|NCT03086135|184489547|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Spatial score at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292774|NCT03086135|184489547|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Quality score at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292775|NCT03086135|184489547|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Total score at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292776|NCT03086135|184489547|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Speech score at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292777|NCT03086135|184489547|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Spatial score at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292778|NCT03086135|184489547|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Quality score at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
92292779|NCT03086135|184489548|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry PTA4 with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292780|NCT03086135|184489548|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry PTA4 with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292781|NCT03086135|184489548|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry PTA4 with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292782|NCT03086135|184489548|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry PTA4 with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292783|NCT03086135|184489549|SUPERIORITY|||||||0.025|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 250Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.025
92292784|NCT03086135|184489549|SUPERIORITY|||||||0.096|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 500Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.096
92292785|NCT03086135|184489549|SUPERIORITY|||||||0.015|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 750Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.015
92184577|NCT01263496|184267771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.49|||||TWO_SIDED|95.0|-24.27|-6.72||||||||-6.72|-24.27|
92292786|NCT03086135|184489549|SUPERIORITY|||||||0.67|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.67
92184578|NCT01263496|184267772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.27|||||TWO_SIDED|95.0|-11.22|6.67||||||||6.67|-11.22|
92184579|NCT01263496|184267772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.36|||||TWO_SIDED|95.0|-12.16|5.44||||||||5.44|-12.16|
92184580|NCT01263496|184267772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.43|||||TWO_SIDED|95.0|-13.3|2.44||||||||2.44|-13.30|
92184581|NCT01263496|184267772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.9|||||TWO_SIDED|95.0|-20.74|-3.06||||||||-3.06|-20.74|
92292787|NCT03086135|184489549|SUPERIORITY|||||||0.73|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1500Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.73
92292788|NCT03086135|184489549|SUPERIORITY|||||||0.019|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 2000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.019
92292789|NCT03086135|184489549|SUPERIORITY|||||||0.0046|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 3000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.0046
92292790|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 4000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292791|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 6000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292792|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 8000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292793|NCT03086135|184489549|SUPERIORITY|||||||0.019|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 250Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.019
92292794|NCT03086135|184489549|SUPERIORITY|||||||0.04|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 500Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.040
92292795|NCT03086135|184489549|SUPERIORITY|||||||0.037|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 750Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.037
92292796|NCT03086135|184489549|SUPERIORITY|||||||0.67|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.67
92292797|NCT03086135|184489549|SUPERIORITY|||||||0.34|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1500Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.34
92292798|NCT03086135|184489549|SUPERIORITY|||||||0.0048|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 2000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.0048
92292799|NCT03086135|184489549|SUPERIORITY|||||||0.0008|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 3000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.0008
92292800|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 4000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292801|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Hearing performance: threshold audiometry 6000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292802|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 8000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292803|NCT03086135|184489549|SUPERIORITY|||||||0.1|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 250Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||0.10
92144536|NCT00428090|184173231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.427|TWO_SIDED|95.0|-2.2|0.9||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.9|-2.2|0.427
92144537|NCT00428090|184173232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.886|TWO_SIDED|95.0|-0.7|0.6|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.6|-0.7|0.886
92144538|NCT00428090|184173232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.71|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.6|-0.8|0.710
92184582|NCT01263496|184267773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.44|||||TWO_SIDED|95.0|-11.97|7.08||||||||7.08|-11.97|
92184583|NCT01263496|184267773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.25|||||TWO_SIDED|95.0|-15.84|3.35||||||||3.35|-15.84|
92184584|NCT01263496|184267773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.93|||||TWO_SIDED|95.0|-15.28|1.41||||||||1.41|-15.28|
92184585|NCT01263496|184267773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.73|||||TWO_SIDED|95.0|-22.67|-2.78||||||||-2.78|-22.67|
92184586|NCT01263496|184267774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.44|||||TWO_SIDED|95.0|-13.19|2.31||||||||2.31|-13.19|
92292804|NCT03086135|184489549|SUPERIORITY|||||||0.0007|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 500Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||0.0007
92292805|NCT03086135|184489549|SUPERIORITY|||||||0.0003|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 750Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||0.0003
92292806|NCT03086135|184489549|SUPERIORITY|||||||0.11|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||0.11
92292807|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1500Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92184587|NCT01263496|184267774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.77|||||TWO_SIDED|95.0|-13.53|5.99||||||||5.99|-13.53|
92292808|NCT03086135|184489549|SUPERIORITY|||||||0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 2000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||0.0001
92292809|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 3000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92144539|NCT00428090|184173232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.03|TWO_SIDED|95.0|0.1|1.8|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.8|0.1|0.030
92184588|NCT01263496|184267774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.85|||||TWO_SIDED|95.0|-14.36|2.67||||||||2.67|-14.36|
92184589|NCT01263496|184267774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.22|||||TWO_SIDED|95.0|-20.72|-1.73||||||||-1.73|-20.72|
92184590|NCT01263496|184267775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.26|||||TWO_SIDED|95.0|-10.42|5.9||||||||5.90|-10.42|
92184591|NCT01263496|184267775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|||||TWO_SIDED|95.0|-15.64|3.84||||||||3.84|-15.64|
92184592|NCT01263496|184267775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.47|||||TWO_SIDED|95.0|-16.52|-0.42||||||||-0.42|-16.52|
92184593|NCT01263496|184267775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.47|||||TWO_SIDED|95.0|-22.18|-2.76||||||||-2.76|-22.18|
92184594|NCT01263496|184267776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34|||||TWO_SIDED|95.0|-7.1|7.77||||||||7.77|-7.10|
92184595|NCT01263496|184267776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|||||TWO_SIDED|95.0|-10.16|8.21||||||||8.21|-10.16|
92184596|NCT01263496|184267776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88|||||TWO_SIDED|95.0|-9.71|5.95||||||||5.95|-9.71|
92184597|NCT01263496|184267776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.38|||||TWO_SIDED|95.0|-18.59|-0.18||||||||-0.18|-18.59|
92292810|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 4000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292811|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 6000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92144540|NCT00428090|184173233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.139|TWO_SIDED|95.0|0.0|0.2|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-0.0|0.139
92144541|NCT00428090|184173233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.846|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.1|-0.1|0.846
92144542|NCT00428090|184173233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.864|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-0.1|0.864
92144543|NCT00361140|184173253|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Chi-squared|||||||.007
92292812|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 8000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292813|NCT03086135|184489549|SUPERIORITY|||||||0.8|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 250Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||0.80
92292814|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 500Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292815|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 750Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292816|NCT03086135|184489549|SUPERIORITY|||||||0.001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||0.0010
92292817|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1500Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292818|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 2000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292819|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 3000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292820|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 4000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292821|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 6000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292822|NCT03086135|184489549|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 8000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
92292823|NCT03086135|184489550|SUPERIORITY|||||||0.51|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB SPL with Osia at 4 weeks vs reference device BP110 on softband att visit 1.||||0.51
92292824|NCT03086135|184489550|SUPERIORITY|||||||0.021|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB SPL with Osia at 4 weeks vs reference device BP110 on softband att visit 1.||||0.021
92292825|NCT03086135|184489550|SUPERIORITY|||||||0.29|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB SPL with Osia at 4 weeks vs reference device BP110 on softband att visit 1.||||0.29
92292826|NCT03086135|184489550|SUPERIORITY|||||||0.18|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB SPL with Osia at 3 months vs reference device BP110 on softband att visit 1.||||0.18
92292827|NCT03086135|184489550|SUPERIORITY|||||||0.017|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB SPL with Osia at 3 months vs reference device BP110 on softband att visit 1.||||0.017
92292828|NCT03086135|184489550|SUPERIORITY|||||||0.16|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB SPL with Osia at 3 months vs reference device BP110 on softband att visit 1.||||0.16
92292829|NCT03086135|184489550|SUPERIORITY|||||||0.0051|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB SPL with Osia at 6 months vs reference device BP110 on softband att visit 1.||||0.0051
92292830|NCT03086135|184489550|SUPERIORITY|||||||0.021|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB SPL with Osia at 6 months vs reference device BP110 on softband att visit 1.||||0.021
92292831|NCT03086135|184489550|SUPERIORITY|||||||0.56|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB SPL with Osia at 6 months vs reference device BP110 on softband att visit 1.||||0.56
92292832|NCT03086135|184489550|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB SPL with Osia at 12 months vs reference device BP110 on softband att visit 1.||||<0.0001
92292833|NCT03086135|184489550|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB SPL with Osia at 12 months vs reference device BP110 on softband att visit 1.||||<0.0001
92184598|NCT01263496|184267777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|||||TWO_SIDED|95.0|-10.2|6.75||||||||6.75|-10.20|
92292834|NCT03086135|184489550|SUPERIORITY|||||||0.041|TWO_SIDED|95.0|||||Wilcoxon Signed Rank test|||Speech in quiet at 80dB SPL with Osia at 12 months vs reference device BP110 on softband att visit 1.||||0.041
92292835|NCT03086135|184489551|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive Speech Recognition in Noise with Osia at 4 weeks vs reference device BP110 on softband at visit 1.||||<0.0001
92292836|NCT03086135|184489551|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive Speech Recognition in Noise with Osia at 3 months vs reference device BP110 on softband at visit 1.||||<0.0001
92292837|NCT03086135|184489551|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive Speech Recognition in Noise with Osia at 6 months vs reference device BP110 on softband at visit 1.||||<0.0001
92292838|NCT03086135|184489551|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive Speech Recognition in Noise with Osia at 12 months vs reference device BP110 on softband at visit 1.||||<0.0001
92292839|NCT01023061|184489563|SUPERIORITY||Median Difference (Final Values)|0.74|||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||< 0.01
92292840|NCT01863186|184489626|SUPERIORITY|||||||0.0166|||||||Pattern Mixture Model|||Due to the amount of missing data a pattern mixture model (or Jump to Reference) was utilized. The SOWS-Gossop total scores were log transformed. Each subjects available data Days 1-7 were included. The datasets created by the pattern mixture model were analyzed using a Mixed Model Repeated Measures model that included fixed effects for treatment group, baseline, sex, study day (1-7), and treatment group-by-day interaction. The overall estimate for each treatment group were compared.||||0.0166
92292841|NCT01863186|184489626|SUPERIORITY|||||||0.0033|||||||Pattern Mixture Model|||Due to the amount of missing data a pattern mixture model (or Jump to Reference) was utilized. The SOWS-Gossop total scores were log transformed. Each subjects available data Days 1-7 were included. The datasets created by the pattern mixture model were analyzed using a Mixed Model Repeated Measures model that included fixed effects for treatment group, baseline, sex, study day (1-7), and treatment group-by-day interaction. The overall estimate for each treatment group were compared.||||0.0033
92292842|NCT01456962|184489628|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.6
92144544|NCT00361140|184173254|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.27||||0.07|TWO_SIDED|95.0|0.92|42.48|||Gray|Gray RJ. A class of K-sample tests for comparing the cumulative incidence of a competing risk. Ann Stat. 1988;16:1141-1154.||Sample size: dependent on dose escalation. Once the maximum tolerated dose (MTD) is reached, a total of 30 patients will be accrued to that level. If maximally tolerated AUC is level 1, a total of 30 patients will be treated on this level using tacrolimus and methotrexate as GVHD prophylaxis. This will provide 95% confidence intervals for 100-day non-relapse mortality and non-fatal toxicities with ½ widths not exceeding 0.18. Hazard ratios were calculated per the method of Gray (reference given)||42.48|0.92|.07
92144545|NCT02623322|184173262|SUPERIORITY||Difference in event rates (Wald)|-3.03||||0.3031|TWO_SIDED|80.0|-12.25|6.19|||Cochran-Mantel-Haenszel|||||6.19|-12.25|0.3031
92144546|NCT02623322|184173262|SUPERIORITY||Difference in event rates (Wald)|-3.03||||0.3324|TWO_SIDED|80.0|-12.82|6.76|||Cochran-Mantel-Haenszel|||||6.76|-12.82|0.3324
92184599|NCT01263496|184267777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7|||||TWO_SIDED|95.0|-13.1|5.7||||||||5.70|-13.10|
92184600|NCT01263496|184267777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.97|||||TWO_SIDED|95.0|-12.94|5.0||||||||5.00|-12.94|
92184601|NCT01263496|184267777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.74|||||TWO_SIDED|95.0|-19.4|-0.08||||||||-0.08|-19.40|
92184602|NCT01263496|184267778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.43|||||TWO_SIDED|95.0|-11.0|6.15||||||||6.15|-11.00|
92184603|NCT01263496|184267778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.29|||||TWO_SIDED|95.0|-16.53|1.94||||||||1.94|-16.53|
92184604|NCT01263496|184267778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.3|||||TWO_SIDED|95.0|-17.93|-0.67||||||||-0.67|-17.93|
92184605|NCT01263496|184267778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.88|||||TWO_SIDED|95.0|-21.83|-1.93||||||||-1.93|-21.83|
92184606|NCT01263496|184267779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-9.68|7.27||||||||7.27|-9.68|
92184607|NCT01263496|184267779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.05|||||TWO_SIDED|95.0|-16.34|2.24||||||||2.24|-16.34|
92292843|NCT01456962|184489628|SUPERIORITY_OR_OTHER||% change in CD4+:CD8+ T cells ratio|-9.5||||0.4|TWO_SIDED|95.0|-27.3|12.0|||Regression, Linear|Adjusted for treatment group and time on antiretroviral therapy|Change based on a 1 log unit increase in genital:plasma drug ratio|Null hypothesis: Higher genital to plasma antiretroviral drug ratios are not associated with higher cervical CD4+:CD8+ T cell ratios.||12|-27.3|0.4
92144547|NCT02623322|184173263|SUPERIORITY||Difference in event rates (Wald)|-3.03||||0.3031|TWO_SIDED|80.0|-12.25|6.19|||Cochran-Mantel-Haenszel|||||6.19|-12.25|0.3031
92184608|NCT01263496|184267779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.86|||||TWO_SIDED|95.0|-17.47|-0.26||||||||-0.26|-17.47|
92184609|NCT01263496|184267779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.51|||||TWO_SIDED|95.0|-23.12|-3.89||||||||-3.89|-23.12|
92184610|NCT01263496|184267780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.65|||||TWO_SIDED|95.0|-10.09|6.8||||||||6.80|-10.09|
92184611|NCT01263496|184267780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||||TWO_SIDED|95.0|-15.66|2.25||||||||2.25|-15.66|
92184612|NCT01263496|184267780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.28|||||TWO_SIDED|95.0|-16.64|0.07||||||||0.07|-16.64|
92184613|NCT01263496|184267780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.82|||||TWO_SIDED|95.0|-27.39|-10.24||||||||-10.24|-27.39|
92184614|NCT01263496|184267781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.017|||||TWO_SIDED|95.0|-0.219|0.254||||||||0.254|-0.219|
92184615|NCT01263496|184267781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|||||TWO_SIDED|95.0|0.002|0.451||||||||0.451|0.002|
92184616|NCT01263496|184267781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||||TWO_SIDED|95.0|0.008|0.453||||||||0.453|0.008|
92184617|NCT01263496|184267781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.282|||||TWO_SIDED|95.0|0.041|0.524||||||||0.524|0.041|
92184618|NCT01263496|184267782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|||||TWO_SIDED|95.0|-0.173|0.353||||||||0.353|-0.173|
92184619|NCT01263496|184267782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.228|||||TWO_SIDED|95.0|-0.01|0.467||||||||0.467|-0.010|
92184620|NCT01263496|184267782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.339|||||TWO_SIDED|95.0|0.095|0.584||||||||0.584|0.095|
92184621|NCT01263496|184267782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.468|||||TWO_SIDED|95.0|0.184|0.752||||||||0.752|0.184|
92184622|NCT01263496|184267783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.317|||||TWO_SIDED|95.0|0.064|0.57||||||||0.570|0.064|
92144548|NCT02623322|184173263|SUPERIORITY||Difference in event rates (Wald)|-3.03||||0.3324|TWO_SIDED|80.0|-12.82|6.76|||Cochran-Mantel-Haenszel|||||6.76|-12.82|0.3324
92144549|NCT02623322|184173267|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.7858|TWO_SIDED|80.0|0.62|1.37|||Wilcoxon|||Total Symptom Score of \<=1||1.37|0.62|0.7858
92144550|NCT02623322|184173267|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.517|TWO_SIDED|80.0|0.59|1.36|||Wilcoxon|||Total Symptom Score of \<=1||1.36|0.59|0.5170
92144551|NCT02623322|184173267|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0312|TWO_SIDED|80.0|0.45|0.89|||Wilcoxon|||Total Symptom Score of \<=7||0.89|0.45|0.0312
92144552|NCT02623322|184173267|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.2044|TWO_SIDED|80.0|0.53|1.04|||Wilcoxon|||Total Symptom Score of \<=7||1.04|0.53|0.2044
92144553|NCT01786512|184173304|OTHER||Treatment difference|0.0112|STANDARD_ERROR_OF_MEAN|0.0033||0.0007|TWO_SIDED|95.0|0.0047|0.0176|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||0.0176|0.0047|0.0007
92144554|NCT01786512|184173304|OTHER||Treatment difference|0.025|STANDARD_ERROR_OF_MEAN|0.0033|<|0.0001|TWO_SIDED|95.0|0.0184|0.0315|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||0.0315|0.0184|<0.0001
92292844|NCT04684485|184489674|SUPERIORITY|||||||0.1966|||||||Cochran-Mantel-Haenszel|||||||0.1966
92292845|NCT04684485|184489674|SUPERIORITY|||||||0.5438|||||||Cochran-Mantel-Haenszel|||||||0.5438
92292846|NCT04684485|184489674|SUPERIORITY|||||||0.3713|||||||Cochran-Mantel-Haenszel|||||||0.3713
92292847|NCT04684485|184489675|SUPERIORITY|||||||0.4564|||||||Cochran-Mantel-Haenszel|||||||0.4564
92292848|NCT04684485|184489675|SUPERIORITY|||||||0.2515|||||||Cochran-Mantel-Haenszel|||||||0.2515
92292849|NCT04684485|184489675|SUPERIORITY|||||||0.5055|||||||Cochran-Mantel-Haenszel|||||||0.5055
92292850|NCT00874822|184489740|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|19.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|13.6|24.4|||Chi-squared, Corrected|||"Ho: The Prevalence of obstructive sleep apnea in patients planning hip or knee arthroplasty will be no different using current screening techniques than it was in a historical control group.~The prevalence of OSA in the study population is hypothesized to be at least 10% higher than the best previous estimate of 6.7%. Employing a two-sided hypothesis test with α of 0.05 and power of 0.85 yields a sample size of 163."||24.4|13.6|<0.0001
92292851|NCT02854800|184489742|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||A separate t-test for each row was used to compare dropouts and completers.||||<0.05
92144555|NCT01786512|184173305|OTHER||Treatment difference|4.58|STANDARD_ERROR_OF_MEAN|1.56||0.0036|TWO_SIDED|95.0|1.5|7.65|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||7.65|1.50|0.0036
92144556|NCT01786512|184173305|OTHER||Treatment difference|3.63|STANDARD_ERROR_OF_MEAN|1.57||0.0217|TWO_SIDED|95.0|0.53|6.72|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||6.72|0.53|0.0217
92292852|NCT02854800|184489744|SUPERIORITY||||||<|0.05|||||||ANOVA|If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||One-way ANOVA was used to compare mean medication side effect ratings across the three arms/groups to determine whether one group had more severe symptoms that may have been related to study dropout.||||<0.05
92292853|NCT02854800|184489747|SUPERIORITY||||||<|0.05|||||||ANOVA|If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||Mixed ANOVA was used with Study Week (1-12) as the within-subjects, repeated-measures factor and Group as the between-subjects factor. If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||||<0.05
92292854|NCT02854800|184489748|SUPERIORITY||||||<|0.05|||||||ANOVA|If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||One-way ANOVA was used for each side effect rating with Group as the between-subjects factor. If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||||<0.05
92292855|NCT02854800|184489749|SUPERIORITY||||||<|0.05|||||||ANOVA|If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||Data were analyzed via mixed ANOVA whereby Study Visit (1-4) was the repeated-measures factor and Group (weekly, biweekly, monthly) was the between-subjects factor. If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||||<0.05
92292856|NCT02854800|184489751|SUPERIORITY||||||<|0.05|||||||ANOVA|If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||Data were analyzed via mixed ANOVA whereby Study Visit (1-4) was the repeated-measures factor and Group (weekly, biweekly, monthly) was the between-subjects factor. If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||||<0.05
92292857|NCT01634139|184489760|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.108|0.231|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis was performed in a stepwise manner, firstly for this endpoint, then Trough FEV1. Each step was only considered confirmatory if all previous steps were successful.||0.231|0.108|<0.0001
92292858|NCT01634139|184489760|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.164|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.103|0.255|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis was performed in a stepwise manner, firstly for this endpoint, then Trough FEV1. Each step was only considered confirmatory if all previous steps were successful.||0.255|0.103|<0.0001
92292859|NCT01634139|184489761|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.116|STANDARD_ERROR_OF_MEAN|0.036||0.0012|TWO_SIDED|95.0|0.046|0.186|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.186|0.046|0.0012
92184623|NCT01263496|184267783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.511|||||TWO_SIDED|95.0|0.236|0.786||||||||0.786|0.236|
92184624|NCT01263496|184267783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.437|||||TWO_SIDED|95.0|0.19|0.685||||||||0.685|0.190|
92184625|NCT01263496|184267783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.718|||||TWO_SIDED|95.0|0.413|1.022||||||||1.022|0.413|
92184626|NCT01263496|184267784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|||||TWO_SIDED|95.0|-0.029|0.481||||||||0.481|-0.029|
92184627|NCT01263496|184267784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.358|||||TWO_SIDED|95.0|0.104|0.612||||||||0.612|0.104|
92144557|NCT01786512|184173306|OTHER||Treatment difference|-0.079|STANDARD_ERROR_OF_MEAN|0.058||0.1732|TWO_SIDED|95.0|-0.194|0.035|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||0.035|-0.194|0.1732
92144558|NCT01786512|184173306|OTHER||Treatment difference|-0.179|STANDARD_ERROR_OF_MEAN|0.059||0.0027|TWO_SIDED|95.0|-0.295|-0.062|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||-0.062|-0.295|0.0027
92144559|NCT01786512|184173307|OTHER||Treatment difference|-0.067|STANDARD_ERROR_OF_MEAN|0.051||0.1899|TWO_SIDED|95.0|-0.166|0.033|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||0.033|-0.166|0.1899
92292860|NCT01634139|184489761|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.118|STANDARD_ERROR_OF_MEAN|0.036||0.001|TWO_SIDED|95.0|0.048|0.188|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.188|0.048|0.0010
92292861|NCT01634139|184489761|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.071|STANDARD_ERROR_OF_MEAN|0.036||0.0477|TWO_SIDED|95.0|0.001|0.142|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.142|0.001|0.0477
92292862|NCT01634139|184489761|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.099|STANDARD_ERROR_OF_MEAN|0.036||0.0059|TWO_SIDED|95.0|0.029|0.17|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.170|0.029|0.0059
92292863|NCT01634139|184489762|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.124|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.062|0.185|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.185|0.062|<0.0001
92292864|NCT01634139|184489762|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.127|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.065|0.188|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.188|0.065|<0.0001
92292865|NCT01634139|184489763|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.154|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.095|0.212|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.212|0.095|<0.0001
92144560|NCT01786512|184173307|OTHER||Treatment difference|-0.129|STANDARD_ERROR_OF_MEAN|0.052||0.0128|TWO_SIDED|95.0|-0.231|-0.028|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||-0.028|-0.231|0.0128
92144561|NCT01786512|184173308|OTHER||Treatment difference|-1.34|STANDARD_ERROR_OF_MEAN|1.09||0.2177|TWO_SIDED|95.0|-3.47|0.79|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||0.79|-3.47|0.2177
92144562|NCT01786512|184173308|OTHER||Treatment difference|-2.97|STANDARD_ERROR_OF_MEAN|1.09||0.007|TWO_SIDED|95.0|-5.12|-0.81|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||-0.81|-5.12|0.0070
92184628|NCT01263496|184267784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.308|||||TWO_SIDED|95.0|0.076|0.54||||||||0.540|0.076|
92184629|NCT01263496|184267784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.331|||||TWO_SIDED|95.0|0.098|0.565||||||||0.565|0.098|
92184630|NCT01263496|184267785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-0.13|0.41||||||||0.410|-0.130|
92184631|NCT01263496|184267785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.245|||||TWO_SIDED|95.0|-0.026|0.516||||||||0.516|-0.026|
92184632|NCT01263496|184267785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.294|||||TWO_SIDED|95.0|0.035|0.552||||||||0.552|0.035|
92184633|NCT01263496|184267785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.329|||||TWO_SIDED|95.0|0.032|0.626||||||||0.626|0.032|
92292866|NCT01634139|184489763|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.157|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.098|0.215|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.215|0.098|<0.0001
92292867|NCT01634139|184489764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.116|STANDARD_ERROR_OF_MEAN|0.036||0.0012|TWO_SIDED|95.0|0.046|0.186|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|10 minutes pre-dose (Week 24)||0.186|0.046|0.0012
92292868|NCT01634139|184489764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.118|STANDARD_ERROR_OF_MEAN|0.036||0.001|TWO_SIDED|95.0|0.048|0.188|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|10 minutes pre-dose (Week 24)||0.188|0.048|0.0010
92292869|NCT01634139|184489764|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.139|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.076|0.201|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|30 minutes post-dose (Week 24)||0.201|0.076|<0.0001
92292870|NCT01634139|184489764|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.151|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.088|0.213|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|30 minutes post-dose (Week 24)||0.213|0.088|<0.0001
92292871|NCT01634139|184489764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.148|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.084|0.211|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|1 hour post-dose (Week 24)||0.211|0.084|<0.0001
92292872|NCT01634139|184489764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.084|0.21|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|1 hour post-dose (Week 24)||0.210|0.084|<0.0001
92292873|NCT01634139|184489764|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.163|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.101|0.226|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|2 hours post-dose (Week 24)||0.226|0.101|<0.0001
92292874|NCT01634139|184489764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.168|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.106|0.231|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|2 hours post-dose (Week 24)||0.231|0.106|<0.0001
92292875|NCT01634139|184489764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.178|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.116|0.24|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|3 hours post-dose (Week 24)||0.240|0.116|<0.0001
92292876|NCT01634139|184489764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.176|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.114|0.238|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|3 hours post-dose (Week 24)||0.238|0.114|<0.0001
92292877|NCT01634139|184489765|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.038||0.0036|TWO_SIDED|95.0|0.036|0.184|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.184|0.036|0.0036
92292878|NCT01634139|184489765|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.091|STANDARD_ERROR_OF_MEAN|0.037||0.0152|TWO_SIDED|95.0|0.018|0.165|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.165|0.018|0.0152
92292879|NCT01634139|184489765|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.069|STANDARD_ERROR_OF_MEAN|0.038||0.0687|TWO_SIDED|95.0|-0.005|0.143|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.143|-0.005|0.0687
92292880|NCT01634139|184489765|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.052|STANDARD_ERROR_OF_MEAN|0.038||0.1666|TWO_SIDED|95.0|-0.022|0.126|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.126|-0.022|0.1666
92292881|NCT01634139|184489766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.092|STANDARD_ERROR_OF_MEAN|0.04||0.0228|TWO_SIDED|95.0|0.013|0.171|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.171|0.013|0.0228
92292882|NCT01634139|184489766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.052|STANDARD_ERROR_OF_MEAN|0.04||0.198|TWO_SIDED|95.0|-0.027|0.131|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.131|-0.027|0.1980
92292883|NCT01634139|184489766|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.062|STANDARD_ERROR_OF_MEAN|0.04||0.1256|TWO_SIDED|95.0|-0.017|0.141|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.141|-0.017|0.1256
92292884|NCT01634139|184489766|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.053|STANDARD_ERROR_OF_MEAN|0.04||0.188|TWO_SIDED|95.0|-0.026|0.133|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.133|-0.026|0.1880
92184634|NCT01263496|184267786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.049|||||TWO_SIDED|95.0|-0.252|0.349||||||||0.349|-0.252|
92184635|NCT01263496|184267786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42|||||TWO_SIDED|95.0|0.138|0.703||||||||0.703|0.138|
92184636|NCT01263496|184267786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46|||||TWO_SIDED|95.0|0.178|0.742||||||||0.742|0.178|
92184637|NCT01263496|184267786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.384|||||TWO_SIDED|95.0|0.085|0.683||||||||0.683|0.085|
92184638|NCT01263496|184267787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|||||TWO_SIDED|95.0|-0.257|0.326||||||||0.326|-0.257|
92292885|NCT01634139|184489767|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.105|STANDARD_ERROR_OF_MEAN|0.034||0.0023|TWO_SIDED|95.0|0.037|0.172|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.172|0.037|0.0023
92292886|NCT01634139|184489767|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.076|STANDARD_ERROR_OF_MEAN|0.034||0.0255|TWO_SIDED|95.0|0.009|0.143|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.143|0.009|0.0255
92292887|NCT01634139|184489768|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.092|STANDARD_ERROR_OF_MEAN|0.04||0.0228|TWO_SIDED|95.0|0.013|0.171|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|10 minutes pre-dose (Week 24)||0.171|0.013|0.0228
92292888|NCT01634139|184489768|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.052|STANDARD_ERROR_OF_MEAN|0.04||0.198|TWO_SIDED|95.0|-0.027|0.131|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|10 minutes pre-dose.(Week 24)||0.131|-0.027|0.1980
92292889|NCT01634139|184489768|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.078|STANDARD_ERROR_OF_MEAN|0.037||0.0344|TWO_SIDED|95.0|0.006|0.15|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|30 minutes post-dose (Week 24)||0.150|0.006|0.0344
92292890|NCT01634139|184489768|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.067|STANDARD_ERROR_OF_MEAN|0.037||0.0696|TWO_SIDED|95.0|-0.005|0.139|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|30 minutes post-dose (Week 24)||0.139|-0.005|0.0696
92292891|NCT01634139|184489768|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.109|STANDARD_ERROR_OF_MEAN|0.037||0.0032|TWO_SIDED|95.0|0.037|0.182|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|1 hour post-dose (week 24)||0.182|0.037|0.0032
92292892|NCT01634139|184489768|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.037||0.1044|TWO_SIDED|95.0|-0.012|0.132|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|1 hour post-dose (week 24)||0.132|-0.012|0.1044
92292893|NCT01634139|184489768|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.113|STANDARD_ERROR_OF_MEAN|0.037||0.0027|TWO_SIDED|95.0|0.039|0.186|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|2 hours post-dose (week 24)||0.186|0.039|0.0027
92292894|NCT01634139|184489768|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.093|STANDARD_ERROR_OF_MEAN|0.037||0.013|TWO_SIDED|95.0|0.02|0.166|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|2 hours post-dose (week 24)||0.166|0.020|0.0130
92292895|NCT01634139|184489768|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.115|STANDARD_ERROR_OF_MEAN|0.038||0.0025|TWO_SIDED|95.0|0.041|0.19|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|3 hours post-dose (week 24)||0.190|0.041|0.0025
92292896|NCT01634139|184489768|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.092|STANDARD_ERROR_OF_MEAN|0.038||0.0156|TWO_SIDED|95.0|0.017|0.166|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|3 hours post-dose (Week 24)||0.166|0.017|0.0156
92292897|NCT01634139|184489769|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.165|STANDARD_ERROR_OF_MEAN|0.11||0.1349|TWO_SIDED|95.0|-0.382|0.051|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.051|-0.382|0.1349
92292898|NCT01634139|184489769|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.209|STANDARD_ERROR_OF_MEAN|0.11||0.0588|TWO_SIDED|95.0|-0.425|0.008|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.008|-0.425|0.0588
92292899|NCT01634139|184489769|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.154|STANDARD_ERROR_OF_MEAN|0.111||0.1675|TWO_SIDED|95.0|-0.372|0.065|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.065|-0.372|0.1675
92292900|NCT01634139|184489769|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.201|STANDARD_ERROR_OF_MEAN|0.111||0.0709|TWO_SIDED|95.0|-0.419|0.017|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.017|-0.419|0.0709
92292901|NCT01634139|184489770|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.116|STANDARD_ERROR_OF_MEAN|0.065||0.0749|TWO_SIDED|95.0|-0.245|0.012|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.012|-0.245|0.0749
92292902|NCT01634139|184489770|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.141|STANDARD_ERROR_OF_MEAN|0.065||0.0305|TWO_SIDED|95.0|-0.269|-0.013|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||-0.013|-0.269|0.0305
92292903|NCT01634139|184489770|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.125|STANDARD_ERROR_OF_MEAN|0.066||0.0581|TWO_SIDED|95.0|-0.255|0.004|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.004|-0.255|0.0581
92292904|NCT01634139|184489770|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.131|STANDARD_ERROR_OF_MEAN|0.066||0.0464|TWO_SIDED|95.0|-0.26|-0.002|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||-0.002|-0.260|0.0464
92292905|NCT01634139|184489771|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.096|STANDARD_ERROR_OF_MEAN|0.062||0.1182|TWO_SIDED|95.0|-0.217|0.025|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.025|-0.217|0.1182
92292906|NCT01634139|184489771|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.126|STANDARD_ERROR_OF_MEAN|0.061||0.0404|TWO_SIDED|95.0|-0.246|-0.006|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||-0.006|-0.246|0.0404
92184639|NCT01263496|184267787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.249|||||TWO_SIDED|95.0|-0.043|0.542||||||||0.542|-0.043|
92184640|NCT01263496|184267787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|||||TWO_SIDED|95.0|-0.196|0.417||||||||0.417|-0.196|
92184641|NCT01263496|184267787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.333|||||TWO_SIDED|95.0|0.01|0.656||||||||0.656|0.010|
92184642|NCT01263496|184267788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.268|||||TWO_SIDED|95.0|-0.769|0.233||||||||0.233|-0.769|
92184643|NCT01263496|184267788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.349|||||TWO_SIDED|95.0|-0.156|0.855||||||||0.855|-0.156|
92184644|NCT01263496|184267788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-0.297|0.577||||||||0.577|-0.297|
92184645|NCT01263496|184267788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.308|||||TWO_SIDED|95.0|-0.075|0.69||||||||0.690|-0.075|
92184646|NCT01263496|184267789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|||||TWO_SIDED|95.0|-0.367|0.928||||||||0.928|-0.367|
92184647|NCT01263496|184267789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.579|||||TWO_SIDED|95.0|-0.035|1.194||||||||1.194|-0.035|
92184648|NCT01263496|184267789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.647|||||TWO_SIDED|95.0|0.054|1.241||||||||1.241|0.054|
92292907|NCT01634139|184489771|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.099|STANDARD_ERROR_OF_MEAN|0.062||0.1105|TWO_SIDED|95.0|-0.221|0.023|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.023|-0.221|0.1105
92292908|NCT01634139|184489771|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.103|STANDARD_ERROR_OF_MEAN|0.062||0.0983|TWO_SIDED|95.0|-0.224|0.019|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.019|-0.224|0.0983
92292909|NCT01634139|184489772|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.507|STANDARD_ERROR_OF_MEAN|5.387||0.1146|TWO_SIDED|95.0|-2.063|19.077|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||19.077|-2.063|0.1146
92292910|NCT01634139|184489772|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.493|STANDARD_ERROR_OF_MEAN|5.365||0.1628|TWO_SIDED|95.0|-3.034|18.02|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||18.020|-3.034|0.1628
92292911|NCT01634139|184489772|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.538|STANDARD_ERROR_OF_MEAN|5.435||0.3085|TWO_SIDED|95.0|-5.127|16.203|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||16.203|-5.127|0.3085
92292912|NCT01634139|184489772|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.774|STANDARD_ERROR_OF_MEAN|5.413||0.1053|TWO_SIDED|95.0|-1.847|19.394|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||19.394|-1.847|0.1053
92292913|NCT01634139|184489773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.36|STANDARD_ERROR_OF_MEAN|5.451||0.0236|TWO_SIDED|95.0|1.663|23.056|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||23.056|1.663|0.0236
92292914|NCT01634139|184489773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.146|STANDARD_ERROR_OF_MEAN|5.427||0.0093|TWO_SIDED|95.0|3.497|24.794|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||24.794|3.497|0.0093
92292915|NCT01634139|184489773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.882|STANDARD_ERROR_OF_MEAN|5.497||0.7322|TWO_SIDED|95.0|-12.667|8.904|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||8.904|-12.667|0.7322
92292916|NCT01634139|184489773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.176|STANDARD_ERROR_OF_MEAN|5.481||0.4463|TWO_SIDED|95.0|-6.578|14.929|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||14.929|-6.578|0.4463
92292917|NCT01634139|184489774|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.262|STANDARD_ERROR_OF_MEAN|1.039||0.8008|TWO_SIDED|95.0|-1.775|2.299|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||2.299|-1.775|0.8008
92292918|NCT01634139|184489774|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.166|STANDARD_ERROR_OF_MEAN|1.041||0.8731|TWO_SIDED|95.0|-1.875|2.208|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||2.208|-1.875|0.8731
92292919|NCT01634139|184489774|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.272|STANDARD_ERROR_OF_MEAN|1.058||0.7975|TWO_SIDED|95.0|-1.803|2.346|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||2.346|-1.803|0.7975
92292920|NCT01634139|184489774|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.579|STANDARD_ERROR_OF_MEAN|1.059||0.5845|TWO_SIDED|95.0|-2.656|1.498|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||1.498|-2.656|0.5845
92292921|NCT01634139|184489775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.019|STANDARD_ERROR_OF_MEAN|0.048||0.6932|TWO_SIDED|95.0|-0.075|0.113|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.113|-0.075|0.6932
92292922|NCT01634139|184489775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.065|STANDARD_ERROR_OF_MEAN|0.048||0.1741|TWO_SIDED|95.0|-0.158|0.029|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.029|-0.158|0.1741
92292923|NCT01634139|184489775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.024|STANDARD_ERROR_OF_MEAN|0.048||0.625|TWO_SIDED|95.0|-0.071|0.118|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.118|-0.071|0.6250
92292924|NCT01634139|184489775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.015|STANDARD_ERROR_OF_MEAN|0.048||0.7597|TWO_SIDED|95.0|-0.109|0.08|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.080|-0.109|0.7597
92292925|NCT01634139|184489776|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.025|STANDARD_ERROR_OF_MEAN|0.05||0.6166|TWO_SIDED|95.0|-0.122|0.073|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.073|-0.122|0.6166
92144563|NCT01786512|184173309|OTHER||Treatment difference|-822.0|STANDARD_ERROR_OF_MEAN|353.0||0.0205|TWO_SIDED|95.0|-1516.0|-127.0|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||-127|-1516|0.0205
92144564|NCT01786512|184173309|OTHER||Treatment difference|-970.0|STANDARD_ERROR_OF_MEAN|357.0||0.0069|TWO_SIDED|95.0|-1672.0|-268.0|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||-268|-1672|0.0069
92144565|NCT02450331|184173312|SUPERIORITY||Hazard Ratio (HR)|0.892||||0.2446|TWO_SIDED|95.0|0.735|1.081|||Log Rank|||||1.081|0.735|0.2446
92184649|NCT01263496|184267789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.252|||||TWO_SIDED|95.0|-0.28|0.785||||||||0.785|-0.280|
92144566|NCT02450331|184173313|SUPERIORITY||Hazard Ratio (HR)|0.897||||0.3172|TWO_SIDED|95.0|0.726|1.109|||Log Rank|||Stratified analysis based on PDL1 status, tumor stage after resection, and nodal status.||1.109|0.726|0.3172
92144567|NCT02450331|184173314|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.836||||0.2235|TWO_SIDED|95.0|0.626|1.116|||Log Rank|||||1.116|0.626|0.2235
92144568|NCT02450331|184173315|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.918||||0.4291|TWO_SIDED|95.0|0.743|1.134|||Log Rank|||||1.134|0.743|0.4291
92184650|NCT01263496|184267790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.246|0.646||||||||0.646|-1.246|
92184651|NCT01263496|184267790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.643|||||TWO_SIDED|95.0|-0.305|1.591||||||||1.591|-0.305|
92184652|NCT01263496|184267790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|||||TWO_SIDED|95.0|-0.599|0.888||||||||0.888|-0.599|
92184653|NCT01263496|184267790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||||TWO_SIDED|95.0|-0.673|1.173||||||||1.173|-0.673|
92184654|NCT01263496|184267791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|||||TWO_SIDED|95.0|-4.462|2.562||||||||2.562|-4.462|
92184655|NCT01263496|184267791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|||||TWO_SIDED|95.0|-2.712|2.779||||||||2.779|-2.712|
92184656|NCT01263496|184267791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-3.273|2.073||||||||2.073|-3.273|
92184657|NCT01263496|184267791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.874|2.074||||||||2.074|-2.874|
92184658|NCT01263496|184267792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|||||TWO_SIDED|95.0|-0.14|0.458||||||||0.458|-0.140|
92184659|NCT01263496|184267792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|||||TWO_SIDED|95.0|-0.001|0.52||||||||0.520|-0.001|
92184660|NCT01263496|184267792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|||||TWO_SIDED|95.0|-0.126|0.398||||||||0.398|-0.126|
92184661|NCT01263496|184267792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.298|||||TWO_SIDED|95.0|0.042|0.553||||||||0.553|0.042|
92184662|NCT01263496|184267793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.92|||||TWO_SIDED|95.0|-11.82|7.99||||||||7.99|-11.82|
92144569|NCT02450331|184173316|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.879||||0.1994|TWO_SIDED|95.0|0.722|1.07|||Log Rank|||||1.070|0.722|0.1994
92292926|NCT01634139|184489776|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.076|STANDARD_ERROR_OF_MEAN|0.049||0.1267|TWO_SIDED|95.0|-0.173|0.021|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.021|-0.173|0.1267
92292927|NCT01634139|184489776|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.006|STANDARD_ERROR_OF_MEAN|0.05||0.9|TWO_SIDED|95.0|-0.092|0.105|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.105|-0.092|0.9000
92292928|NCT01634139|184489776|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.05||0.3897|TWO_SIDED|95.0|-0.141|0.055|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.055|-0.141|0.3897
92292929|NCT01634139|184489777|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.072||0.0975|TWO_SIDED|95.0|-0.262|0.022|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.022|-0.262|0.0975
92292930|NCT01634139|184489777|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.182|STANDARD_ERROR_OF_MEAN|0.072||0.0116|TWO_SIDED|95.0|-0.323|-0.041|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||-0.041|-0.323|0.0116
92292931|NCT01634139|184489777|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.065|STANDARD_ERROR_OF_MEAN|0.073||0.3732|TWO_SIDED|95.0|-0.208|0.078|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.078|-0.208|0.3732
92292932|NCT01634139|184489777|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.093|STANDARD_ERROR_OF_MEAN|0.073||0.1985|TWO_SIDED|95.0|-0.236|0.049|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.049|-0.236|0.1985
92292933|NCT01634139|184489779|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.176|STANDARD_ERROR_OF_MEAN|0.072||0.0144|TWO_SIDED|95.0|0.035|0.316|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.316|0.035|0.0144
92292934|NCT01634139|184489779|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.127|STANDARD_ERROR_OF_MEAN|0.071||0.0747|TWO_SIDED|95.0|-0.013|0.267|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.267|-0.013|0.0747
92292935|NCT01634139|184489779|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.021|STANDARD_ERROR_OF_MEAN|0.072||0.7654|TWO_SIDED|95.0|-0.163|0.12|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.120|-0.163|0.7654
92292936|NCT01634139|184489779|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.017|STANDARD_ERROR_OF_MEAN|0.072||0.8082|TWO_SIDED|95.0|-0.124|0.158|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.158|-0.124|0.8082
92292937|NCT01634139|184489780|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.175|STANDARD_ERROR_OF_MEAN|0.085||0.0392|TWO_SIDED|95.0|0.009|0.341|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.341|0.009|0.0392
92292938|NCT01634139|184489780|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.126|STANDARD_ERROR_OF_MEAN|0.084||0.1351|TWO_SIDED|95.0|-0.039|0.292|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.292|-0.039|0.1351
92292939|NCT01634139|184489780|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.018|STANDARD_ERROR_OF_MEAN|0.085||0.8291|TWO_SIDED|95.0|-0.185|0.149|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.149|-0.185|0.8291
92292940|NCT01634139|184489780|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.004|STANDARD_ERROR_OF_MEAN|0.085||0.9655|TWO_SIDED|95.0|-0.163|0.171|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.171|-0.163|0.9655
92292941|NCT01634139|184489781|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.191|STANDARD_ERROR_OF_MEAN|0.077||0.0139|TWO_SIDED|95.0|0.039|0.343|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.343|0.039|0.0139
92292942|NCT01634139|184489781|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.125|STANDARD_ERROR_OF_MEAN|0.077||0.1043|TWO_SIDED|95.0|-0.026|0.276|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.276|-0.026|0.1043
92184663|NCT01263496|184267793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.02|||||TWO_SIDED|95.0|-12.45|6.4||||||||6.40|-12.45|
92292943|NCT01634139|184489781|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.035|STANDARD_ERROR_OF_MEAN|0.078||0.6547|TWO_SIDED|95.0|-0.118|0.187|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.187|-0.118|0.6547
92292944|NCT01634139|184489781|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.077||0.3648|TWO_SIDED|95.0|-0.082|0.222|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.222|-0.082|0.3648
92292945|NCT01634139|184489782|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.166|STANDARD_ERROR_OF_MEAN|0.074||0.0256|TWO_SIDED|95.0|0.02|0.312|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.312|0.020|0.0256
92292946|NCT01634139|184489782|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.141|STANDARD_ERROR_OF_MEAN|0.074||0.0561|TWO_SIDED|95.0|-0.004|0.286|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.286|-0.004|0.0561
92184664|NCT01263496|184267793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.41|||||TWO_SIDED|95.0|-18.77|1.96||||||||1.96|-18.77|
92184665|NCT01263496|184267793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.96|||||TWO_SIDED|95.0|-18.35|0.44||||||||0.44|-18.35|
92184666|NCT01263496|184267794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.66|||||TWO_SIDED|95.0|-3.88|19.19||||||||19.19|-3.88|
92184667|NCT01263496|184267794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|||||TWO_SIDED|95.0|-11.41|9.24||||||||9.24|-11.41|
92184668|NCT01263496|184267794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|||||TWO_SIDED|95.0|-12.91|10.75||||||||10.75|-12.91|
92184669|NCT01263496|184267794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-11.32|9.99||||||||9.99|-11.32|
92184670|NCT01263496|184267795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|||||TWO_SIDED|95.0|-7.09|16.49||||||||16.49|-7.09|
92292947|NCT01634139|184489782|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.061|STANDARD_ERROR_OF_MEAN|0.075||0.4127|TWO_SIDED|95.0|-0.208|0.085|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.085|-0.208|0.4127
92292948|NCT01634139|184489782|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.074||0.8922|TWO_SIDED|95.0|-0.136|0.156|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.156|-0.136|0.8922
92292949|NCT01634139|184489784|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.009|STANDARD_ERROR_OF_MEAN|0.036||0.7931|TWO_SIDED|95.0|-0.08|0.061|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.061|-0.080|0.7931
92292950|NCT01634139|184489784|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.075|STANDARD_ERROR_OF_MEAN|0.036||0.0369|TWO_SIDED|95.0|-0.145|-0.005|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||-0.005|-0.145|0.0369
92292951|NCT01634139|184489784|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.036||0.4086|TWO_SIDED|95.0|-0.101|0.041|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.041|-0.101|0.4086
92292952|NCT01634139|184489784|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.026|STANDARD_ERROR_OF_MEAN|0.036||0.4714|TWO_SIDED|95.0|-0.097|0.045|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.045|-0.097|0.4714
92292953|NCT01634139|184489785|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.001|STANDARD_ERROR_OF_MEAN|0.047||0.988|TWO_SIDED|95.0|-0.091|0.092|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.092|-0.091|0.9880
92292954|NCT01634139|184489785|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.082|STANDARD_ERROR_OF_MEAN|0.046||0.0794|TWO_SIDED|95.0|-0.173|0.01|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.010|-0.173|0.0794
92292955|NCT01634139|184489785|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.053|STANDARD_ERROR_OF_MEAN|0.047||0.2623|TWO_SIDED|95.0|-0.145|0.04|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.040|-0.145|0.2623
92292956|NCT01634139|184489785|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.047||0.3552|TWO_SIDED|95.0|-0.136|0.04|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.040|-0.136|0.3552
92292957|NCT01634139|184489786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.039|STANDARD_ERROR_OF_MEAN|0.049||0.4359|TWO_SIDED|95.0|-0.135|0.058|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.058|-0.135|0.4359
92292958|NCT01634139|184489786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.059|STANDARD_ERROR_OF_MEAN|0.049||0.2293|TWO_SIDED|95.0|-0.155|0.037|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.037|-0.155|0.2293
92292959|NCT01634139|184489786|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8372|TWO_SIDED|95.0|-0.108|0.088|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.088|-0.108|0.8372
92292960|NCT01634139|184489786|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.051|STANDARD_ERROR_OF_MEAN|0.049||0.3022|TWO_SIDED|95.0|-0.148|0.046|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.046|-0.148|0.3022
92292961|NCT01634139|184489787|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.031|STANDARD_ERROR_OF_MEAN|0.046||0.5004|TWO_SIDED|95.0|-0.122|0.06|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.060|-0.122|0.5004
92292962|NCT01634139|184489787|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.059|STANDARD_ERROR_OF_MEAN|0.046||0.1982|TWO_SIDED|95.0|-0.149|0.031|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.031|-0.149|0.1982
92292963|NCT01634139|184489787|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.012|STANDARD_ERROR_OF_MEAN|0.047||0.8019|TWO_SIDED|95.0|-0.103|0.08|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.080|-0.103|0.8019
92292964|NCT01634139|184489787|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.032|STANDARD_ERROR_OF_MEAN|0.046||0.4872|TWO_SIDED|95.0|-0.123|0.059|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.059|-0.123|0.4872
92292965|NCT01634139|184489788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.046||0.3498|TWO_SIDED|95.0|-0.135|0.048|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.048|-0.135|0.3498
92292966|NCT01634139|184489788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.106|STANDARD_ERROR_OF_MEAN|0.046||0.0222|TWO_SIDED|95.0|-0.196|-0.015|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||-0.015|-0.196|0.0222
92292967|NCT01634139|184489788|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.012|STANDARD_ERROR_OF_MEAN|0.047||0.799|TWO_SIDED|95.0|-0.104|0.08|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.080|-0.104|0.7990
92292968|NCT01634139|184489788|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.035|STANDARD_ERROR_OF_MEAN|0.047||0.4586|TWO_SIDED|95.0|-0.126|0.057|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.057|-0.126|0.4586
92292969|NCT01634139|184489789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.045|STANDARD_ERROR_OF_MEAN|0.056||0.4221|TWO_SIDED|95.0|-0.156|0.065|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.065|-0.156|0.4221
92292970|NCT01634139|184489789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.093|STANDARD_ERROR_OF_MEAN|0.056||0.0959|TWO_SIDED|95.0|-0.204|0.017|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.017|-0.204|0.0959
92184671|NCT01263496|184267795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|||||TWO_SIDED|95.0|-8.63|11.89||||||||11.89|-8.63|
92184672|NCT01263496|184267795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.69|||||TWO_SIDED|95.0|-13.36|7.98||||||||7.98|-13.36|
92184673|NCT01263496|184267795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2|||||TWO_SIDED|95.0|-20.58|2.17||||||||2.17|-20.58|
92292971|NCT01634139|184489789|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.003|STANDARD_ERROR_OF_MEAN|0.057||0.9627|TWO_SIDED|95.0|-0.109|0.114|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.114|-0.109|0.9627
92292972|NCT01634139|184489789|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.054|STANDARD_ERROR_OF_MEAN|0.057||0.3457|TWO_SIDED|95.0|-0.165|0.058|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.058|-0.165|0.3457
92292973|NCT01634139|184489790|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.041|STANDARD_ERROR_OF_MEAN|0.043||0.3375|TWO_SIDED|95.0|-0.043|0.125|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.125|-0.043|0.3375
92292974|NCT01634139|184489790|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.037|STANDARD_ERROR_OF_MEAN|0.043||0.388|TWO_SIDED|95.0|-0.047|0.121|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.121|-0.047|0.3880
92292975|NCT01634139|184489790|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.019|STANDARD_ERROR_OF_MEAN|0.043||0.6541|TWO_SIDED|95.0|-0.066|0.104|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.104|-0.066|0.6541
92292976|NCT01634139|184489790|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.028|STANDARD_ERROR_OF_MEAN|0.043||0.5089|TWO_SIDED|95.0|-0.056|0.133|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.133|-0.056|0.5089
92292977|NCT02627963|184489804|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0165|TWO_SIDED|95.0|0.56|0.94||A one-sided, log-rank test stratified for IMDC risk category and prior therapy (two VEGFR TKIs vs. a checkpoint inhibitor plus a VEGFR TKI vs. a VEGFR TKI plus any other systemic agent) at a significance level of α = 0.025 was used.|Log Rank|||||0.94|0.56|0.0165
92292978|NCT02627963|184489805|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8174|TWO_SIDED|95.0|0.75|1.25|||Log Rank|||||1.25|0.75|0.8174
92292979|NCT03068780|184489889|SUPERIORITY||Odds Ratio (OR)|1.84||||0.013|TWO_SIDED|95.0|1.02|3.3||P-value adjusted with CHW method using CMH test statistics based on a test stratified by EB subtype and target wound size class estimated separately before and after the interim analysis for sample size re-estimation.Threshold of superiority p\<0.05.|Cui, Hung, Wang (CHW) approach|Primary efficacy endpoint was first assessed with the CMH test, but the final statistical analysis was performed based on the CHW approach.|The CMH test statistic from the data until the interim analysis (IA) and the CMH test statistic of the data after the IA must be calculated separately. The results are then combined using the CHW weighted approach to one test-statistic.|||3.30|1.02|0.013
92292980|NCT03068780|184489890|SUPERIORITY|||||||0.302||||||Threshold of superiority is p\<0.05|Chi-squared|||||||0.302
92292981|NCT00840658|184489936|SUPERIORITY|||||||0.036|TWO_SIDED|95.0||||P-value is for the Ciudad Juarez site and it corresponds to the interaction between group (Intervention vs. Control) and study visit (12-months vs. baseline).|Mixed Models Analysis|||Alternative hypothesis: There is a difference between the intervention and the control group with respect to the change in the odds of higher receptive needle sharing. (i.e., The interaction between study visit (baseline, 4-, 8-, and 12-months) and intervention group will be significant at 0.05 significance level. Over time, the intervention group will experience a significant decline in receptive needle sharing but the control group will not.)|To examine the receptive needle sharing outcome, we used ordinal logistic regression for correlated data via GEE with the correlation matrix estimated empirically from the data. The final analyses were stratified by site. The final ordinal logistic regression models included the following main effects: Group, Visit, and Visit\*Group interaction, with our primary interest in the Visit\*Group interaction, as a significant p-value would be indicative of an intervention effect.|||0.036
92184674|NCT01263496|184267796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-11.44|9.84||||||||9.84|-11.44|
92292982|NCT00840658|184489937|SUPERIORITY|||||||0.013|TWO_SIDED|95.0||||P-value is for the Ciudad Juarez site and it corresponds to the interaction between group (Intervention vs. Control) and study visit (12-months vs. baseline).|Mixed Models Analysis|||Alternative hypothesis: There is a difference between the intervention and the control group with respect to the change in the mean score IRI (i.e., The interaction between study visit (baseline, 4-, 8-, and 12-months) and intervention group will be significant at 0.05 significance level. Over time, the intervention group will experience a significant decline in the IRI but the control group will not.)|We used gamma regression for correlated data via GEE, with the correlation matrix estimated empirically from the data. The final analyses were stratified by site. The final gamma regression models included the following main effects: Group, Visit, and Visit\*Group interaction, with our primary interest in the Visit\*Group interaction, as a significant p-value would be indicative of an intervention effect.|||0.013
92292983|NCT05109104|184489948|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|Labeled SPF|25.0|||||TWO_SIDED|||||||||||||
92292984|NCT05109104|184489948|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|Labeled SPF|25.0|||||TWO_SIDED|||||||||||||
92292985|NCT05109104|184489948|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|Labeled SPF|27.0|||||TWO_SIDED|||||||||||||
92292986|NCT00672984|184489978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.43||||||90.0|-4.52|-0.34||||||||-0.34|-4.52|
92292987|NCT00672984|184489978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.87||||||90.0|11.45|16.29||||||||16.29|11.45|
92292988|NCT00672984|184489979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.08||||||90.0|-11.37|-4.78||||||||-4.78|-11.37|
92184675|NCT01263496|184267796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04|||||TWO_SIDED|95.0|-11.74|7.66||||||||7.66|-11.74|
92292989|NCT00672984|184489979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.13||||||90.0|9.33|16.93||||||||16.93|9.33|
92292990|NCT00672984|184489980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.98||||||90.0|-1.07|3.03||||||||3.03|-1.07|
92292991|NCT00672984|184489980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.11||||||90.0|8.97|13.24||||||||13.24|8.97|
92184676|NCT01263496|184267796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.44|||||TWO_SIDED|95.0|-15.62|4.75||||||||4.75|-15.62|
92184677|NCT01263496|184267796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.28|||||TWO_SIDED|95.0|-23.83|-2.74||||||||-2.74|-23.83|
92184678|NCT01263496|184267797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.02|||||TWO_SIDED|95.0|-28.15|14.1||||||||14.10|-28.15|
92184679|NCT01263496|184267797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.45|||||TWO_SIDED|95.0|-23.93|13.02||||||||13.02|-23.93|
92184680|NCT01263496|184267797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|||||TWO_SIDED|95.0|-35.46|-0.13||||||||-0.13|-35.46|
92184681|NCT01263496|184267797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.58|||||TWO_SIDED|95.0|-47.75|-13.41||||||||-13.41|-47.75|
92292992|NCT00672984|184489981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.64||||||90.0|-0.99|4.27||||||||4.27|-0.99|
92292993|NCT00672984|184489981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.8||||||90.0|7.63|13.97||||||||13.97|7.63|
92292994|NCT00672984|184489982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.76||||||90.0|-8.01|-5.51||||||||-5.51|-8.01|
92292995|NCT00672984|184489982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.73||||||90.0|3.08|6.38||||||||6.38|3.08|
92292996|NCT00672984|184489983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.85||||||90.0|-21.92|-17.78||||||||-17.78|-21.92|
92292997|NCT00672984|184489983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.44||||||90.0|1.77|5.11||||||||5.11|1.77|
92292998|NCT00672984|184489984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.32||||||90.0|11.75|18.89||||||||18.89|11.75|
92292999|NCT00672984|184489984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93||||||90.0|-2.77|4.63||||||||4.63|-2.77|
92144570|NCT02080871|184173322|OTHER|This was a single-arm study designed to compare the primary outcome result to a performance goal based on published literature. The null hypothesis was the probability of a subject experiencing a Major Adverse Event (MAE) with use of study device is at least 17%. The alternate hypothesis was the probability of a subject experiencing a Major Adverse Event (MAE) with use of the study device is less than 17%.|||||<|0.001|||||||one-sided binomial exact test|||The sample size obtains over 90% power to statistically show the probability that a subject will experience an MAE with use of the study device is less than 17% when 12% or less of the subjects are lost to follow up prior to 9 months.||||<0.001
92293000|NCT00672984|184489985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|49.85||||||90.0|44.71|54.98||||||||54.98|44.71|
92293001|NCT00672984|184489985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.63||||||90.0|-0.41|7.66||||||||7.66|-0.41|
92293002|NCT00573313|184489993|SUPERIORITY_OR_OTHER||Ratio of Geometric Means at 24 weeks.|0.1505|STANDARD_ERROR_OF_MEAN|0.1615||0.36|TWO_SIDED|95.0|-0.1853|0.4863||The data provided here are for changes in serum AST levels as representative of all clinical laboratory parameters measured.|ANCOVA|Analysis of covariance controlled for baseline data, e.g. AST.|Obtained median values and ranges and log transformations of SD.|Power calculation indicated that a sample size of 20 subjects per treatment arm would detect differences between groups of 0.9 within-subject standard deviations or higher at 80% power and 5% level of significance.||0.4863|-0.1853|0.36
92293003|NCT00354159|184490000|SUPERIORITY_OR_OTHER||6-month survival rate|90.5|||<|0.001|ONE_SIDED|97.5|87.7|||The survival estimate at 6-months post-implant was compared to 80%. The comparison was made using the cumulative hazard \[e.g. log survival estimate\] for the variance.|Survival estimate at 6-months|The survival estimate at 6-months post-implant was compared to 80%.||"Null hypothesis: Freedom from Chronicle system-related complications at 6-months post-implant is less than or equal to 80%.~Alternative hypothesis: Freedom from Chronicle system-related complications at 6-months is greater than 80%."|||87.7|<0.001
92293004|NCT00354159|184490002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.978|TWO_SIDED|95.0|0.61|1.61||The P-value is from the Andersen-Gill model, an extension of the Cox proportional hazards model for multiple events.|Andersen-Gill||Hazard Ratio is for the Treatment Arm relative to the Control Arm.|"The study was originally powered at 80% to detect a 25% risk reduction between the treatment arm and control arm with a type I error rate of 0.05. Under these assumptions 648 HF-related events from approximately 1300 subjects were required. The study stopped after 400 were randomized.~Null Hypothesis: The HF-related event rate is the same between the treatment arm and control arm.~Alternative Hypothesis: The HF-related event rate between the treatment arm and control arm is different."||1.61|0.61|0.978
92293005|NCT00354159|184490003|SUPERIORITY_OR_OTHER|||||||0.574||95.0|||||Wilcoxon (Mann-Whitney)|||"Null Hypothesis: mu(Treatment) = mu(Control) Alternative Hypothesis: mu(Treatment) ne mu(Control)~where mu is the percentage of hospitalized days for heart failure."||||0.574
92293006|NCT00354159|184490004|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.527|TWO_SIDED|95.0|0.62|1.28||The P-value is from the Andersen-Gill model, an extension of the Cox proportional hazards model for multiple events.|Andersen-Gill Model||Hazard Ratio is for the Treatment Arm relative to the Control Arm.|"Null Hypothesis: The CV-related event rate is the same between the treatment arm and control arm.~Alternative Hypothesis: The CV-related event rate between the treatment arm and control arm is different."||1.28|0.62|0.527
92293007|NCT00354159|184490005|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.505|TWO_SIDED|95.0|0.57|1.32|||Regression, Cox|The treatment and control hazard ratio and 95% confidence interval was estimated using a univariate cox Regression Model.|Hazard Ratio is for the Treatment Arm relative to the Control Arm|"Null Hypothesis: Freedom from death or HF-related hospitalization is the same between the treatment arm and the control arm.~Alternative Hypothesis: Freedom from death or HF-related hospitalization is different between the treatment arm and the control arm."||1.32|0.57|0.505
92293008|NCT00354159|184490006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.088|TWO_SIDED|95.0|0.56|1.04|||Andersen-Gill Model|The P-value is from the Andersen-Gill model, an extension of the Cox proportional hazards model for multiple events.|Hazard Ratio is for the Treatment Arm relative to the Control Arm.|"Null Hypothesis: The all cause event rate is the same between the treatment arm and control arm.~Alternative Hypothesis: The all cause event rate between the treatment arm and control arm is different."||1.04|0.56|0.088
92293009|NCT00354159|184490007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.758|TWO_SIDED|95.0|0.73|1.54||P-value is from a proportional odds model comparing the distribution of composite endpoint response between the treatment arm and control arm.|Proportional odds model||Odds ratio represents the odds of improved score in the treatment group relative to the control group.|"Null Hypothesis: Distribution of composite response endpoint is the same between the treatment arm and the control arm.~Alternative Hypothesis: Distribution of composite response endpoint is different between the treatment arm and the control arm."||1.54|0.73|0.758
92184682|NCT01263496|184267798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.45|||||TWO_SIDED|95.0|-5.18|42.09||||||||42.09|-5.18|
92184683|NCT01263496|184267798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.86|||||TWO_SIDED|95.0|-13.56|33.28||||||||33.28|-13.56|
92184684|NCT01263496|184267798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.44|||||TWO_SIDED|95.0|-30.25|15.37||||||||15.37|-30.25|
92144571|NCT03384173|184173419|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92144572|NCT03384173|184173420|OTHER|Correlation, Pearson r|Pearson r correlation|0.16||||0.17|TWO_SIDED|95.0|-0.07|0.37|||Pearson r correlation|||||0.37|-0.07|0.17
92144573|NCT03384173|184173421|OTHER|Correlation, Pearson r|Pearson r correlation|0.12||||0.32|TWO_SIDED|95.0|-0.11|0.33|||Pearson r correlation|||||0.33|-0.11|0.32
92293010|NCT00354159|184490010|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.599|TWO_SIDED|95.0|0.29|2.06|||Regression, Cox|The treatment to control hazard ratio and 95% confidence interval was estimated using a univariate Cox Regression Model|Hazard ratio estimates the hazard of death in the treatment group relative to the control group.|"Null hypothesis: Survival during the 12-month randomized follow-up period is the same between the treatment and control groups.~Alternative hypothesis: Survival during the 12-month randomized period is different between the treatment and control groups."||2.06|0.29|0.599
92293011|NCT00354159|184490011|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Negative-Binomial Regression|||The null hypothesis is that the rate of cardiovascular medication changes is the same between the Treatment Arm and Control Arm.||||0.145
92293012|NCT00354159|184490012|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||t-test, 2 sided|||"Null hypothesis: Average daily median ePAD is the same between the Treatment and Control arms.~Alternative hypothesis: Average daily median ePAD is the different between the Treatment and Control arms."||||0.033
92293013|NCT00354159|184490013|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||"Null Hypothesis: The average daily median ePAD is not different among Control Arm subjects that have and that do not have a heart failure related event during the 12-month follow-up period.~Alternative Hypothesis: The average daily median ePAD is different among Control Arm subjects that have and that do not have a heart failure related event during the 12-month follow-up period."||||0.002
92293014|NCT00354159|184490014|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.292|TWO_SIDED|95.0|0.82|1.96|||Proportional odds regression model||Direction for odds ratio is the odds of improvement in the Treatment arm versus the odds of improvement in the Control arm.|"Null Hypothesis: There is no difference in the change in NYHA functional class between the Treatment and Control Arms.~Alternative Hypothesis: There is a difference in the change in NYHA functional class between the Treatment and Control Arms."||1.96|0.82|0.292
92293015|NCT00354159|184490015|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||Mixed Models Analysis|||"Null Hypothesis: The change in 6-minute hall walk distance is not different between the Treatment and Control Arms.~Alternative Hypothesis: The change in 6-minute hall walk distance is different between the Treatment and Control Arms."||||0.996
92144574|NCT03384173|184173423|OTHER|Mann Whitney U non parametric test|||||<|0.01||||||"A-priori threshold p\<0.05 for 'subgroup 20-29.99%' vs 'baseline value before caffeine dose'.~A-priori threshold p\<0.05 for 'subgroup 30-39.99%' vs 'baseline value before caffeine dose'."|Wilcoxon (Mann-Whitney)|||Control group is Secondary analysis #4, baseline values before caffeine dose.||||<0.01
92144575|NCT03384173|184173424|OTHER|Mann Whitney U non parametric test|||||<|0.001||||||A-priori threshold p\<0.05 for 'subgroup 20-29.99%' vs 'baseline value before caffeine dose'.|Wilcoxon (Mann-Whitney)|||Control group is secondary outcome #4, baseline values before caffeine dose||||<0.001
92184685|NCT01263496|184267798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|||||TWO_SIDED|95.0|-34.75|9.15||||||||9.15|-34.75|
92293016|NCT00354159|184490016|SUPERIORITY_OR_OTHER|||||||0.154||95.0|||||Mixed Models Analysis|||"Null Hypothesis: The change from baseline to the 12-month follow-up visit in eGFR values is the same between the Treatment arm and Control arm.~Alternative Hypothesis: The change from baseline to the 12-month follow-up visit in eGFR values is different between the Treatment arm and Control arm."||||0.154
92144576|NCT03384173|184173425|OTHER|Mann-Whitney U non parametric t test|||||<|0.01||||||"A-priori threshold p\<0.05 for 'subgroup 20-29.99%' vs 'baseline value before caffeine dose'.~A-priori threshold p\<0.05 for 'subgroup \>60% ' vs 'baseline value before caffeine dose'."|Wilcoxon (Mann-Whitney)|||Comparison group is Secondary outcome #4, baseline caffeine values by subgroup||||<0.01
92144577|NCT03384173|184173426|OTHER||||||<|0.0001||||||A-priori threshold p\<0.05 for 'subgroup 20-29.99%' vs 'baseline value before caffeine dose'.|Wilcoxon (Mann-Whitney)|||Comparison group is secondary outcome #4, baseline values before caffeine dose||||<0.0001
92144578|NCT03384173|184173427|OTHER|Mann Whitney U non-parametric t-test|||||<|0.05||||||A-priori threshold p\<0.05 for 'subgroup 20-29.99%' vs 'baseline value before caffeine dose'.|Wilcoxon (Mann-Whitney)|||Comparison group is Secondary Outcome #4, baseline before dose of caffeine.||||<0.05
92184686|NCT01263496|184267799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.84|||||TWO_SIDED|95.0|-13.9|25.58||||||||25.58|-13.90|
92184687|NCT01263496|184267799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.35|||||TWO_SIDED|95.0|-18.2|24.9||||||||24.90|-18.20|
92144579|NCT04493931|184173428|OTHER||Ratio of Geometric LS Mean|0.944|||||TWO_SIDED|90.0|0.753|1.184||||||||1.184|0.753|
92184688|NCT01263496|184267799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.64|||||TWO_SIDED|95.0|-26.03|18.74||||||||18.74|-26.03|
92184689|NCT01263496|184267799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.37|||||TWO_SIDED|95.0|-47.08|0.34||||||||0.34|-47.08|
92184690|NCT01263496|184267800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.97|||||TWO_SIDED|95.0|-18.77|24.71||||||||24.71|-18.77|
92184691|NCT01263496|184267800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.37|||||TWO_SIDED|95.0|-21.21|23.94||||||||23.94|-21.21|
92184692|NCT01263496|184267800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.2|||||TWO_SIDED|95.0|-32.69|10.3||||||||10.30|-32.69|
92184693|NCT01263496|184267800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-34.9|||||TWO_SIDED|95.0|-56.85|-12.96||||||||-12.96|-56.85|
92293017|NCT00354159|184490019|SUPERIORITY_OR_OTHER|||||||0.583||95.0|||||Mixed Models Analysis|Response was change in MNLWHF score from baseline. Model adjusted for baseline MNLWHF score. Negative changes mean an improvement in MNLWHF score.||"Null Hypothesis: There is no difference in the change in MNLWHF score from baseline to 12-months between the Treatment Arm and Control Arm.~Alternative Hypothesis: There is a difference in the change in MNLWHF score from baseline to 12-months between the Treatment Arm and Control Arm."||||0.583
92293018|NCT00354159|184490020|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.48||||0.368|TWO_SIDED|95.0|0.63|3.5||The P-value is from the Andersen-Gill model which adjusts for multiple VT/VF episodes per subject.|Andersen-Gill Model|Andersen-Gill model included a term for Treatment Arm. This model adjusts for multiple events per subject.||"Null Hypothesis: Rate of VT/VF episodes during the 12-month randomized period is the same between the Treatment Arm and the Control Arm.~Alternative Hypothesis: Rate of VT/VF episodes during the 12-month randomized period is different between the Treatment Arm and the Control Arm."||3.5|0.63|0.368
92293019|NCT03405363|184490054|OTHER|No formal hypotheses were tested.|Adjusted Incidence Rate Ratio|1.2|||||TWO_SIDED|95.0|0.98|1.47|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|||1.47|0.98|
92293020|NCT03405363|184490055|OTHER||Adjusted Incidence Rate Ratio|1.83|||||TWO_SIDED|95.0|0.9|3.74|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|No formal hypotheses were tested.||3.74|0.90|
92293021|NCT03405363|184490056|OTHER||Adjusted Incidence Rate Ratio|1.3|||||TWO_SIDED|95.0|0.71|2.36|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|No formal hypotheses were tested.||2.36|0.71|
92293022|NCT03405363|184490057|OTHER||Adjusted Incidence Rate Ratio|1.22|||||TWO_SIDED|95.0|0.79|1.87|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|No formal hypotheses were tested.||1.87|0.79|
92293023|NCT03405363|184490058|OTHER||Adjusted Incidence Rate Ratio|1.0|||||TWO_SIDED|95.0|0.64|1.56|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|No formal hypotheses were tested.||1.56|0.64|
92293024|NCT03405363|184490059|OTHER|No formal hypotheses were tested.|Adjusted Incidence Rate Ratio|1.63|||||TWO_SIDED|95.0|1.44|1.84|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|Analysis was based on Propensity score-trimmed population of patients with Chronic Obstructive Pulmonary Disease (COPD) derived from the Danish Patient Registry.||1.84|1.44|
92293025|NCT03405363|184490059|OTHER|No formal hypotheses were tested.|Adjusted Incidence Rate Ratio|1.48|||||TWO_SIDED|95.0|1.23|1.78|||Poisson regression model||Olodaterol compared to 'other LABA' as reference|"Analysis based on post-hoc population 1.~Adjustments: propensity score decile, previous use of: LAMA, oxygen, inhaled glucocorticoid, respiratory medications, fixed-dose combinations of Short-Acting Beta2- Agonist and Short-Acting Muscarinic Antagonist and systemic antibacterials. COPD severity, number of: all-cause hospitalisations 365 and 180 days, COPD exacerbations 180 and 90 days, COPD hospitalisations 180 and 90 days, and COPD exacerbations 90 days before index date."||1.78|1.23|
92293026|NCT03405363|184490059|OTHER|No formal hypotheses were tested.|Adjusted Incidende Rate Ratio|1.26|||||TWO_SIDED|95.0|0.97|1.64|||Poisson regression model||Olodaterol compared to 'other LABA' as reference|Analysis based on post-hoc population 2. Adjustments: propensity score decile, previous use of: LAMA, oxygen, inhaled glucocorticoid, respiratory medications. COPD severity, number of all-cause hospitalisations 180 days, COPD exacerbations 180 days before cohort entry.||1.64|0.97|
92293027|NCT01559116|184490067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.252|0.309|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.309|0.252|<0.0001
92293028|NCT01559116|184490067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.087|0.143|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.143|0.087|<0.0001
92293029|NCT01559116|184490067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.082|0.139|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.139|0.082|<0.0001
92293030|NCT01559116|184490067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.277|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.249|0.306|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to placebo is calculated.|||0.306|0.249|<0.0001
92144580|NCT04493931|184173429|OTHER||Median Difference (Final Values)|-0.25|||||TWO_SIDED|90.0|-0.75|0.742|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.742|-0.750|
92144581|NCT04493931|184173430|OTHER||Ratio of Geometric LS Mean|1.094|||||TWO_SIDED|90.0|0.959|1.249||||||||1.249|0.959|
92144582|NCT04493931|184173431|OTHER||Ratio of Geometric LS Mean|1.157|||||TWO_SIDED|90.0|1.059|1.265||||||||1.265|1.059|
92293031|NCT01559116|184490067|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.083|0.14|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.140|0.083|<0.0001
92293032|NCT01559116|184490067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.124|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.096|0.152|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.152|0.096|<0.0001
92293033|NCT01559116|184490067|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.079|0.136|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.136|0.079|<0.0001
92293034|NCT01559116|184490068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.319|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001||95.0|0.289|0.349|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.349|0.289|<0.0001
92293035|NCT01559116|184490068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.096|0.156|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.156|0.096|<0.0001
92293036|NCT01559116|184490068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.089|0.149|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.149|0.089|<0.0001
92144583|NCT04493931|184173432|OTHER||Ratio of Geometric LS Mean|1.158|||||TWO_SIDED|90.0|1.062|1.264||||||||1.264|1.062|
92293037|NCT01559116|184490068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.323|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.293|0.354|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.354|0.293|<0.0001
92293038|NCT01559116|184490068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.101|0.161|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.161|0.101|<0.0001
92293039|NCT01559116|184490068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.109|0.169|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.169|0.109|<0.0001
92293040|NCT01559116|184490068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.124|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.093|0.154|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.154|0.093|<0.0001
92293041|NCT01559116|184490069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.243|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.212|0.273|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.273|0.212|<0.0001
92293042|NCT01559116|184490069|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.074|0.133|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.133|0.074|<0.0001
92293043|NCT01559116|184490069|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.072|0.132|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.132|0.072|<0.0001
92293044|NCT01559116|184490069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.201|0.262|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.262|0.201|<0.0001
92293045|NCT01559116|184490069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.063|0.123|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.123|0.063|<0.0001
92293046|NCT01559116|184490069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.08|0.14|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.140|0.080|<0.0001
92144584|NCT04493931|184173433|OTHER||Ratio of Geometric LS Mean|0.73|||||TWO_SIDED|90.0|0.635|0.84||||||||0.840|0.635|
92144585|NCT04493931|184173434|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.000|0.000|
92144586|NCT04493931|184173435|OTHER||Median Difference (Final Values)|-0.467|||||TWO_SIDED|90.0|-1.0|0.492|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate|||0.492|-1.000|
92144587|NCT04493931|184173436|OTHER||Ratio of Geometric LS Mean|0.476|||||TWO_SIDED|90.0|0.433|0.525||||||||0.525|0.433|
92144588|NCT04493931|184173437|OTHER||Ratio of Geometric LS Mean|0.478|||||TWO_SIDED|90.0|0.435|0.526||||||||0.526|0.435|
92144589|NCT04493931|184173438|OTHER||Ratio of Geometric LS mean|1.533|||||TWO_SIDED|90.0|1.274|1.845||||||||1.845|1.274|
92184694|NCT01263496|184267801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.955|||||TWO_SIDED|95.0|0.375|1.535||||||||1.535|0.375|
92293047|NCT01559116|184490069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.061|0.121|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.121|0.061|<0.0001
92293048|NCT01559116|184490070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.173|0.241|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.241|0.173|<0.0001
92293049|NCT01559116|184490070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.059|0.126|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.126|0.059|<0.0001
92293050|NCT01559116|184490070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.045|0.113|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.113|0.045|<0.0001
92293051|NCT01559116|184490070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.167|0.235|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.235|0.167|<0.0001
92293052|NCT01559116|184490070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.052|0.12|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.120|0.052|<0.0001
92293053|NCT01559116|184490070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.067|0.135|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.135|0.067|<0.0001
92293054|NCT01559116|184490070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.039|0.107|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.107|0.039|<0.0001
92293055|NCT01559116|184490071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.338|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.305|0.371|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.371|0.305|<0.0001
92293056|NCT01559116|184490071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.087|0.153|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.153|0.087|<0.0001
92293057|NCT01559116|184490071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.078|0.143|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.143|0.078|<0.0001
92293058|NCT01559116|184490071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.317|0.383|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.383|0.317|<0.0001
92293059|NCT01559116|184490071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.098|0.164|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.164|0.098|<0.0001
92293060|NCT01559116|184490071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.099|0.165|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.165|0.099|<0.0001
92293061|NCT01559116|184490071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.089|0.155|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.155|0.089|<0.0001
92293062|NCT01559116|184490072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.433|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.389|0.477|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.477|0.389|<0.0001
92293063|NCT01559116|184490072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.166|0.253|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.253|0.166|<0.0001
92144590|NCT04493931|184173439|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.000|0.000|
92184695|NCT01263496|184267801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.358|||||TWO_SIDED|95.0|0.752|1.965||||||||1.965|0.752|
92293064|NCT01559116|184490072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.133|0.221|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.221|0.133|<0.0001
92293065|NCT01559116|184490072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.396|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.352|0.441|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.441|0.352|<0.0001
92293066|NCT01559116|184490072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.129|0.217|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.217|0.129|<0.0001
92293067|NCT01559116|184490072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.115|0.203|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated. is calculated.|||0.203|0.115|<0.0001
92184696|NCT01263496|184267801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.35|||||TWO_SIDED|95.0|0.724|1.975||||||||1.975|0.724|
92184697|NCT01263496|184267801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.38|||||TWO_SIDED|95.0|0.804|1.955||||||||1.955|0.804|
92184698|NCT01263496|184267802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.034|||||TWO_SIDED|95.0|0.344|1.723||||||||1.723|0.344|
92184699|NCT01263496|184267802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.448|||||TWO_SIDED|95.0|0.78|2.115||||||||2.115|0.780|
92184700|NCT01263496|184267802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.243|||||TWO_SIDED|95.0|0.616|1.87||||||||1.870|0.616|
92144591|NCT04493931|184173440|OTHER||Median Difference (Final Values)|-0.5|||||TWO_SIDED|90.0|-1.0|-0.233|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||-0.233|-1.000|
92144592|NCT04493931|184173441|OTHER||Ratio of Geometric LS mean|1.217|||||TWO_SIDED|90.0|1.085|1.363||||||||1.363|1.085|
92144593|NCT04493931|184173442|OTHER||Ratio of Geometric LS mean|1.121|||||TWO_SIDED|90.0|0.983|1.278||||||||1.278|0.983|
92144594|NCT04493931|184173443|OTHER||Ratio of Geometric LS mean|1.242|||||TWO_SIDED|90.0|1.046|1.475||||||||1.475|1.046|
92293068|NCT01559116|184490072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.096|0.184|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.184|0.096|<0.0001
92293069|NCT01559116|184490073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.463|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.417|0.509|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to placebo is calculated.|||0.509|0.417|<0.0001
92293070|NCT01559116|184490073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.154|0.246|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.246|0.154|<0.0001
92293071|NCT01559116|184490073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.133|0.225|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.225|0.133|<0.0001
92293072|NCT01559116|184490073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.443|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.396|0.49|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.490|0.396|<0.0001
92293073|NCT01559116|184490073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.134|0.227|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.227|0.134|<0.0001
92293074|NCT01559116|184490073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.125|0.218|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.218|0.125|<0.0001
92293075|NCT01559116|184490073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.113|0.206|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.206|0.113|<0.0001
92293076|NCT01559116|184490074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.404|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.355|0.453|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.453|0.355|<0.0001
92293077|NCT01559116|184490074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.219|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.17|0.267|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.267|0.170|<0.0001
92293078|NCT01559116|184490074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.126|0.223|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.223|0.126|<0.0001
92293079|NCT01559116|184490074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.351|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.301|0.4|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.400|0.301|<0.0001
92293080|NCT01559116|184490074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.117|0.214|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.214|0.117|<0.0001
92293081|NCT01559116|184490074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.099|0.197|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.197|0.099|<0.0001
92184701|NCT01263496|184267802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.481|||||TWO_SIDED|95.0|0.827|2.136||||||||2.136|0.827|
92293082|NCT01559116|184490074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.072|0.17|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.170|0.072|<0.0001
92144595|NCT04493931|184173444|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.000|0.000|
92144596|NCT04493931|184173445|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|-0.25|0.8|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.800|-0.250|
92144597|NCT04493931|184173446|OTHER||Ratio of Geometric LS mean|1.923|||||TWO_SIDED|90.0|1.622|2.278||||||||2.278|1.622|
92293083|NCT01559116|184490075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.329|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.274|0.385|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.385|0.274|<0.0001
92293084|NCT01559116|184490075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.115|0.225|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.225|0.115|<0.0001
92144598|NCT04493931|184173447|OTHER||Ratio of Geometric LS mean|1.902|||||TWO_SIDED|90.0|1.619|2.234||||||||2.234|1.619|
92144599|NCT04493931|184173471|OTHER||Ratio of geometric LS mean|1.051|||||TWO_SIDED|90.0|0.824|1.34||||||||1.340|0.824|
92144600|NCT04493931|184173472|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.25|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.250|0.000|
92293085|NCT01559116|184490075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.066|0.176|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.176|0.066|<0.0001
92293086|NCT01559116|184490075|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.307|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.251|0.363|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.363|0.251|<0.0001
92293087|NCT01559116|184490075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.092|0.203|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.203|0.092|<0.0001
92293088|NCT01559116|184490075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.111|0.222|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.222|0.111|<0.0001
92293089|NCT01559116|184490075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.043|0.154|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.154|0.043|<0.0001
92293090|NCT01559116|184490076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.462|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.408|0.516|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.516|0.408|<0.0001
92293091|NCT01559116|184490076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.105|0.212|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.212|0.105|<0.0001
92293092|NCT01559116|184490076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.098|0.205|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.205|0.098|<0.0001
92293093|NCT01559116|184490076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.452|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.398|0.507|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.507|0.398|<0.0001
92293094|NCT01559116|184490076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.149|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.095|0.203|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.203|0.095|<0.0001
92293095|NCT01559116|184490076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.107|0.216|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.216|0.107|<0.0001
92293096|NCT01559116|184490076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.087|0.196|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.196|0.087|<0.0001
92293097|NCT04610580|184490094|OTHER||Geometric Least Square Mean Ratio (%)|95.0|||||TWO_SIDED|90.0|82.1|110.0||||||The formulation impact (12 × 1.25 mg EC mini-tablet versus 1 × 15 mg EC tablet) on plasma total Mo PK parameters was assessed using analysis of variance (ANOVA) statistical model with dosing period, treatment, and treatment sequence as the fixed effects and the participant (sequence) as a random effect, using the natural logarithms of the data.||110.0|82.1|
92293098|NCT04610580|184490095|OTHER||Geometric Least Square Mean Ratio (%)|96.243|||||TWO_SIDED|90.0|86.384|107.227||||||The formulation impact (12 × 1.25 mg EC mini-tablet versus 1 × 15 mg EC tablet) on plasma total Mo PK parameters was assessed using ANOVA statistical model with dosing period, treatment, and treatment sequence as the fixed effects and the participant (sequence) as a random effect, using the natural logarithms of the data.||107.227|86.384|
92184702|NCT01263496|184267803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|||||TWO_SIDED|95.0|-4.088|4.188||||||||4.188|-4.088|
92293099|NCT04610580|184490096|OTHER||Geometric Least Square Mean Ratio (%)|94.9|||||TWO_SIDED|90.0|81.6|110.5||||||The formulation impact (12 × 1.25 mg EC mini-tablet versus 1 × 15 mg EC tablet) on plasma total Mo PK parameters was assessed using ANOVA statistical model with dosing period, treatment, and treatment sequence as the fixed effects and the participant (sequence) as a random effect, using the natural logarithms of the data.||110.5|81.6|
92293100|NCT04610580|184490097|OTHER||Geometric Least Square Mean Ratio (%)|101.2|||||TWO_SIDED|90.0|70.6|145.1||||||The formulation impact (12 × 1.25 mg EC mini-tablet versus 1 × 15 mg EC tablet) on plasma total Mo PK parameters was assessed using ANOVA statistical model with dosing period, treatment, and treatment sequence as the fixed effects and the participant (sequence) as a random effect, using the natural logarithms of the data.||145.1|70.6|
92293101|NCT04610580|184490098|OTHER||Geometric Least Square Mean Ratio (%)|99.1|||||TWO_SIDED|90.0|89.3|109.9||||||The formulation impact (12 × 1.25 mg EC mini-tablet versus 1 × 15 mg EC tablet) on plasma total Mo PK parameters was assessed using ANOVA statistical model with dosing period, treatment, and treatment sequence as the fixed effects and the participant (sequence) as a random effect, using the natural logarithms of the data.||109.9|89.3|
92184703|NCT01263496|184267803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.585|||||TWO_SIDED|95.0|-3.476|6.647||||||||6.647|-3.476|
92184704|NCT01263496|184267803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.517|||||TWO_SIDED|95.0|-8.151|9.184||||||||9.184|-8.151|
92184705|NCT01263496|184267803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.277|||||TWO_SIDED|95.0|-2.191|4.744||||||||4.744|-2.191|
92184706|NCT01263496|184267804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.841|||||TWO_SIDED|95.0|0.239|1.443||||||||1.443|0.239|
92144601|NCT04493931|184173473|OTHER||Median Difference (Final Values)|0.5|||||TWO_SIDED|90.0|-0.5|1.25|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||1.250|-0.500|
92144602|NCT04493931|184173474|OTHER||Ratio of geometric LS mean|1.094|||||TWO_SIDED|90.0|0.987|1.212||||||||1.212|0.987|
92293102|NCT01451541|184490107|SUPERIORITY_OR_OTHER||LS Means with adjusted pvalues|0.59|||<|0.05||||||Multiple comparisons were adjusted for the primary and key secondary endpoints|Bonferroni-based gatekeeping method|Bonferroni-based gatekeeping method was used for multiple comparison adjustment.||Using an estimate of the standard deviation of 2.2 for the change from baseline in daily average subject-reported AM and PM rTNSS averaged over the first 6 weeks of double-blind treatment, 284 subjects per treatment group would have provided 90% power to detect a mean difference between treatment groups of 0.6 in the change from baseline with a 2-sided significance level of 0.05. Approx. 852 subjects were randomly assigned in a 1:1:1 ratio (ie, approximately 284 subjects per treatment group).||||<0.05
92293103|NCT01451541|184490107|SUPERIORITY_OR_OTHER||LS Means with adjusted p-values.|0.47|||<|0.05||||||Multiple comparisons were adjusted for the primary and key secondary endpoints|Bonferroni-based gatekeeping method|Bonferroni-based gatekeeping method was used for multiple comparison adjustment.||Using an estimate of the standard deviation of 2.2 for the change from baseline in daily average subject-reported AM and PM rTNSS averaged over the first 6 weeks of double-blind treatment, 284 subjects per treatment group would have provided 90% power to detect a mean difference between treatment groups of 0.6 in the change from baseline with a 2-sided significance level of 0.05. Approx. 852 subjects were randomly assigned in a 1:1:1 ratio (ie, approximately 284 subjects per treatment group).||||<0.05
92293104|NCT00006436|184490138|SUPERIORITY|||||||0.1|||||||Two-tailed log rank test||||Compared the PFS of interim PET positive participants to the PFS of interim PET negative.|||0.10
92293105|NCT04556734|184490210|OTHER|F-test|LS Mean Difference|-14.14||||0.2579|TWO_SIDED|95.0|-38.933|10.648|||Mixed Models Analysis|||Mixed model for repeated measurements (MMRM) was used for evaluation. The model included the treatment group, visit and treatment-by-visit interaction as fixed effects, disease duration and baseline SALT I score as covariates.||10.648|-38.933|0.2579
92293106|NCT04556734|184490210|OTHER|F-test|LS Mean Difference|-21.79||||0.0592|TWO_SIDED|95.0|-44.446|0.871|||Mixed Models Analysis|||MMRM was used for evaluation. The model included the treatment group, visit and treatment-by-visit interaction as fixed effects, disease duration and baseline SALT I score as covariates.||0.871|-44.446|0.0592
92293107|NCT04556734|184490211|OTHER|F-test|Least square (LS) Mean Difference|-9.23||||0.1283|TWO_SIDED|95.0|-21.217|2.748|||Mixed Models Analysis|||MMRM was used for evaluation. The model included the treatment group, visit and treatment-by-visit interaction as fixed effects, disease duration and baseline SALT I score as covariates.||2.748|-21.217|0.1283
92293108|NCT04556734|184490211|OTHER|F-test|LS Mean Difference|-8.99||||0.1057|TWO_SIDED|95.0|-19.936|1.962|||Mixed Models Analysis|||MMRM was used for evaluation. The model included the treatment group, visit and treatment-by-visit interaction as fixed effects, disease duration and baseline SALT I score as covariates.||1.962|-19.936|0.1057
92293109|NCT04556734|184490212|OTHER||Response rate difference|11.5||||0.4067|TWO_SIDED|95.0|-14.22|37.31||P-values were based on the comparison of etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 30% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 2 mg and DB Treatment period: Placebo||37.31|-14.22|0.4067
92184707|NCT01263496|184267804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.304|||||TWO_SIDED|95.0|0.679|1.93||||||||1.930|0.679|
92184708|NCT01263496|184267804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.992|||||TWO_SIDED|95.0|0.4|1.585||||||||1.585|0.400|
92293110|NCT04556734|184490212|OTHER||Response rate difference|17.5||||0.2171|TWO_SIDED|95.0|-8.23|43.19||P-values were based on the comparison of etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 30% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 3 mg and DB Treatment period: Placebo||43.19|-8.23|0.2171
92184709|NCT01263496|184267804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.263|||||TWO_SIDED|95.0|0.674|1.853||||||||1.853|0.674|
92184710|NCT01263496|184267805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.891|||||TWO_SIDED|95.0|9.597|22.184||||||||22.184|9.597|
92184711|NCT01263496|184267805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.026|||||TWO_SIDED|95.0|12.466|23.585||||||||23.585|12.466|
92184712|NCT01263496|184267805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.838|||||TWO_SIDED|95.0|14.379|25.297||||||||25.297|14.379|
92184713|NCT01263496|184267805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.368|||||TWO_SIDED|95.0|8.677|22.06||||||||22.060|8.677|
92184714|NCT01263496|184267806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.323|||||TWO_SIDED|95.0|6.567|22.079||||||||22.079|6.567|
92144603|NCT04493931|184173475|OTHER||Ratio of geometric LS mean|1.095|||||TWO_SIDED|90.0|0.991|1.209||||||||1.209|0.991|
92144604|NCT04493931|184173478|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|-0.25|0.0|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.000|-0.250|
92144605|NCT04493931|184173481|OTHER||Ratio of geometric LS mean|1.214|||||TWO_SIDED|90.0|1.0|1.473||||||||1.473|1.000|
92144606|NCT04493931|184173482|OTHER||Ratio of geometric LS mean|1.097|||||TWO_SIDED|90.0|0.948|1.27||||||||1.270|0.948|
92144607|NCT04493931|184173483|OTHER||Ratio of geometric LS mean|1.071|||||TWO_SIDED|90.0|0.939|1.221||||||||1.221|0.939|
92144608|NCT04493931|184173484|OTHER||Ratio of geometric LS mean|1.096|||||TWO_SIDED|90.0|0.93|1.292||||||||1.292|0.930|
92144609|NCT04493931|184173498|OTHER||Ratio of geometric LS mean|0.499|||||TWO_SIDED|90.0|0.441|0.565||||||||0.565|0.441|
92144610|NCT04493931|184173499|OTHER||Ratio of geometric LS mean|0.439|||||TWO_SIDED|90.0|0.37|0.521||||||||0.521|0.370|
92144611|NCT04493931|184173500|OTHER||Ratio of geometric LS mean|0.438|||||TWO_SIDED|90.0|0.372|0.516||||||||0.516|0.372|
92144612|NCT04493931|184173501|OTHER||Ratio of geometric LS mean|1.036|||||TWO_SIDED|90.0|0.95|1.129||||||||1.129|0.950|
92144613|NCT04493931|184173525|OTHER||Ratio of Geometric LS mean|1.755|||||TWO_SIDED|90.0|1.304|2.363||||||||2.363|1.304|
92144614|NCT04493931|184173526|OTHER||Ratio of Geometric LS mean|0.833|||||TWO_SIDED|90.0|0.769|0.902||||||||0.902|0.769|
92144615|NCT04493931|184173527|OTHER||Ratio of Geometric LS mean|0.745|||||TWO_SIDED|90.0|0.653|0.85||||||||0.850|0.653|
92144616|NCT04493931|184173528|OTHER||Ratio of Geometric LS mean|0.892|||||TWO_SIDED|90.0|0.782|1.018||||||||1.018|0.782|
92144617|NCT04493931|184173529|OTHER||Ratio of Geometric LS mean|1.157|||||TWO_SIDED|90.0|0.876|1.528||||||||1.528|0.876|
92144618|NCT04493931|184173530|OTHER||Ratio of Geometric LS mean|1.142|||||TWO_SIDED|90.0|1.016|1.283||||||||1.283|1.016|
92184715|NCT01263496|184267806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.714|||||TWO_SIDED|95.0|14.563|26.864||||||||26.864|14.563|
92293111|NCT04556734|184490212|OTHER||Response rate difference|-0.8||||0.9425|TWO_SIDED|95.0|-23.18|21.48||P-values were based on the comparison of etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 50% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 2 mg and DB Treatment period: Placebo||21.48|-23.18|0.9425
92293112|NCT04556734|184490212|OTHER||Response rate difference|8.9||||0.4959|TWO_SIDED|95.0|-15.19|32.94||P-values were based on the comparison of etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 50% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 3 mg and DB Treatment period: Placebo||32.94|-15.19|0.4959
92293113|NCT04556734|184490212|OTHER||Response rate difference|5.6||||0.3576|TWO_SIDED|95.0|-5.39|16.59||P-values are based on the comparison of Etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 75% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 2 mg and DB Treatment period: Placebo||16.59|-5.39|0.3576
92293114|NCT04556734|184490212|OTHER||Response rate difference|8.3||||0.2904|TWO_SIDED|95.0|-3.43|20.12||P-values were based on the comparison of etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 75% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 3 mg and DB Treatment period: Placebo.||20.12|-3.43|0.2904
92293115|NCT00202839|184490215|SUPERIORITY_OR_OTHER|||||||0.1651||95.0|||||Chi-squared|||||||0.1651
92293116|NCT02951195|184490296|SUPERIORITY||LS Mean Difference|6.4||||0.0207|TWO_SIDED|95.0|0.3|12.6|||Mixed-effects Model for Repeated Measure|||||12.6|0.3|0.0207
92293117|NCT02951195|184490296|SUPERIORITY||LS Mean Difference|10.5||||0.0002|TWO_SIDED|95.0|5.0|15.9|||Mixed-effects Model for Repeated Measure|||||15.9|5.0|0.0002
92293118|NCT02951195|184490296|SUPERIORITY||LS Mean Difference|8.8||||0.0019|TWO_SIDED|95.0|3.0|14.5|||Mixed-effects Model for Repeated Measure|||||14.5|3.0|0.0019
92293119|NCT02951195|184490296|SUPERIORITY||LS Mean Difference|8.3||||0.054|TWO_SIDED|95.0|-2.1|18.7|||Mixed-effects Model for Repeated Measure|||||18.7|-2.1|0.0540
92144619|NCT04493931|184173531|OTHER||Ratio of Geometric LS mean|0.603|||||TWO_SIDED|90.0|0.521|0.699||||||||0.699|0.521|
92144620|NCT04493931|184173532|OTHER||Ratio of Geometric LS mean|0.526|||||TWO_SIDED|90.0|0.448|0.618||||||||0.618|0.448|
92184716|NCT01263496|184267806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.063|||||TWO_SIDED|95.0|13.125|25.002||||||||25.002|13.125|
92184717|NCT01263496|184267806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.233|||||TWO_SIDED|95.0|6.618|23.847||||||||23.847|6.618|
92184718|NCT01263496|184267807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.047|||||TWO_SIDED|95.0|1.169|14.924||||||||14.924|1.169|
92184719|NCT01263496|184267807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.95|||||TWO_SIDED|95.0|7.767|20.133||||||||20.133|7.767|
92184720|NCT01263496|184267807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.221|||||TWO_SIDED|95.0|9.191|21.251||||||||21.251|9.191|
92293120|NCT02951195|184490297|SUPERIORITY||LS Mean Difference|8.7||||0.0007|TWO_SIDED|95.0|3.7|13.8|||Mixed-effects Model for Repeated Measure|||||13.8|3.7|0.0007
92144621|NCT00420199|184173572|SUPERIORITY_OR_OTHER||Adjusted Mean Difference from Placebo|-0.5|||||TWO_SIDED|95.0|-1.77|0.76|||ANCOVA|||Comparison in the change from baseline of erosion score using the OMERACT 6 RA MRI score method between Abatacept and Placebo at Day 113 was based on a non-parametric analysis of covariance model (ANCOVA). Change from BL = Post-BL measurement-BL value. Adjustment was based on ANCOVA model with treatment as a factor and BL value a covariate.||0.76|-1.77|
92144622|NCT00420199|184173573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96||||0.103||95.0|||||ANCOVA|||Comparison in change from baseline of wrist synovitis using OMERACT 6 rheumatoid arthritis magnetic resonance imaging score method between abatacept and placebo at Day 113 based on a nonparametric analysis of covariance model. Baseline and changes from baseline of the total wrist synovitis scores were ranked, and the model included the rank score for change from baseline as the dependent variable with treatment group as a main effect and the rank score for baseline as an additional covariate.||||0.103
92144623|NCT00420199|184173575|SUPERIORITY_OR_OTHER||Adjusted Mean Difference from Placebo|-3.48|||||TWO_SIDED|95.0|-6.0|-0.96|||ANCOVA|||Comparison in the change from baseline of Edema/Osteitis score using the OMERACT 6 RA MRI score method between Abatacept and Placebo at Day 113 was based on a non-parametric analysis of covariance model (ANCOVA). Change from BL = Post-BL measurement-BL value. Adjustment was based on ANCOVA model with treatment as a factor and BL value a covariate.||-0.96|-6.00|
92144624|NCT00420199|184173578|SUPERIORITY_OR_OTHER||Adjusted Mean Difference from Placebo|-4.71|||||TWO_SIDED|95.0|-8.0|-1.42|||ANCOVA|||Comparison in the change from baseline of RAMRIS score using the OMERACT 6 RA MRI score method between Abatacept and Placebo at Day 113 was based on a non-parametric analysis of covariance model (ANCOVA). Change from BL = Post-BL measurement-BL value. Adjustment was based on ANCOVA model with treatment as a factor and BL value a covariate.||-1.42|-8.00|
92144625|NCT00420199|184173592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.69||||0.078||95.0|||||ANCOVA|||Comparison in change from baseline of wrist synovitis using OMERACT 6 rheumatoid arthritis magnetic resonance imaging (MRI) score method between ABA and PLA at Day 113 based on a parametric analysis of covariance model (ANCOVA). The model included the score change from baseline as the dependent variable, treatment group as a main effect and baseline score as an additional covariate.||||0.078
92144626|NCT00831779|184173601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.97|STANDARD_ERROR_OF_MEAN|7.4685||0.0059|TWO_SIDED|95.0|5.75|36.1||Primary endpoint was tested at alpha=0.05|ANOVA|||||36.10|5.75|0.0059
92144627|NCT00831779|184173602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.13|STANDARD_ERROR_OF_MEAN|14.4984||0.0598|TWO_SIDED|95.0|-1.22|57.48||Secondary endpoint was tested following a sequential testing procedure at alpha=0.05|ANOVA|||||57.48|-1.22|0.0598
92293121|NCT02951195|184490298|SUPERIORITY||Least Squares (LS) Mean Difference|-19.5||||0.0018|TWO_SIDED|95.0|-32.2|-6.8|||Mixed-effects Model for Repeated Measure|||||-6.8|-32.2|0.0018
92293122|NCT02951195|184490298|SUPERIORITY||LS Mean Difference|-13.6||||0.0106|TWO_SIDED|95.0|-25.0|-2.1|||Mixed-effects Model for Repeated Measure|||||-2.1|-25.0|0.0106
92293123|NCT02951195|184490298|SUPERIORITY||LS Mean Difference|-27.5|||<|0.0001|TWO_SIDED|95.0|-38.6|-16.3|||Mixed-effects Model for Repeated Measure|||||-16.3|-38.6|<0.0001
92293124|NCT02951195|184490298|SUPERIORITY||LS Mean Difference|-24.8||||0.0017|TWO_SIDED|95.0|-40.0|-9.7|||Mixed-effects Model for Repeated Measure|||||-9.7|-40.0|0.0017
92293125|NCT02951195|184490299|SUPERIORITY||LS Mean Difference|-23.9|||<|0.0001|TWO_SIDED|95.0|-33.7|-14.1|||Mixed-effects Model for Repeated Measure|||||-14.1|-33.7|<0.0001
92293126|NCT02951195|184490300|SUPERIORITY||LS Mean Difference|12.5||||0.0166|TWO_SIDED|95.0|1.1|24.0|||Mixed-effects Model for Repeated Measure|||||24.0|1.1|0.0166
92293127|NCT02951195|184490300|SUPERIORITY||LS Mean Difference|21.3|||<|0.0001|TWO_SIDED|95.0|11.2|31.4|||Mixed-effects Model for Repeated Measure|||||31.4|11.2|<0.0001
92293128|NCT02951195|184490300|SUPERIORITY||LS Mean Difference|17.1||||0.0013|TWO_SIDED|95.0|6.3|27.8|||Mixed-effects Model for Repeated Measure|||||27.8|6.3|0.0013
92293129|NCT02951195|184490300|SUPERIORITY||LS Mean Difference|14.5||||0.0563|TWO_SIDED|95.0|-3.8|32.9|||Mixed-effects Model for Repeated Measure|||||32.9|-3.8|0.0563
92293130|NCT02951195|184490301|SUPERIORITY||LS Mean Difference|13.6||||0.0012|TWO_SIDED|95.0|5.3|21.9|||Mixed-effects Model for Repeated Measure|||||21.9|5.3|0.0012
92293131|NCT02951195|184490302|SUPERIORITY||LS Mean Difference|14.1||||0.0476|TWO_SIDED|95.0|-2.6|30.9|||ANCOVA|||||30.9|-2.6|0.0476
92293132|NCT02951195|184490302|SUPERIORITY||LS Mean Difference|29.4||||0.0001|TWO_SIDED|95.0|14.8|44.0|||ANCOVA|||||44.0|14.8|0.0001
92293133|NCT02951195|184490302|SUPERIORITY||LS Mean Difference|26.2||||0.0006|TWO_SIDED|95.0|11.3|41.1|||ANCOVA|||||41.1|11.3|0.0006
92293134|NCT02951195|184490302|SUPERIORITY||LS Mean Difference|4.8||||0.2714|TWO_SIDED|95.0|-11.6|21.2|||Mixed-effects Model for Repeated Measure|||||21.2|-11.6|0.2714
92293135|NCT02951195|184490303|SUPERIORITY||LS Mean Difference|11.3||||0.0138|TWO_SIDED|95.0|1.3|21.2|||Mixed-effects Model for Repeated Measure|||||21.2|1.3|0.0138
92293136|NCT04281472|184490409|SUPERIORITY||Hazard Ratio (HR)|0.394|||||TWO_SIDED|95.0|0.253|0.614||||||||0.614|0.253|
92293137|NCT01328782|184490434|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4||||0.074||95.0|1.4|2.94|||ANOVA|||||2.94|1.40|0.074
92293138|NCT01328782|184490434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.556||||0.556||95.0|-1.12|2.08|||ANOVA|||||2.08|-1.12|0.556
92293139|NCT01328782|184490434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93||||0.244||95.0|-0.64|2.49|||ANOVA|||||2.49|-0.64|0.244
92293140|NCT01328782|184490435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81||||0.014|TWO_SIDED|95.0|0.38|3.25|||ANOVA|||||3.25|0.38|0.014
92293141|NCT01328782|184490435|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.832||95.0|-1.3|1.61|||ANOVA|||||1.61|-1.30|0.832
92293142|NCT01328782|184490435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.66||||0.027||95.0|0.2|3.12|||ANOVA|||||3.12|0.20|0.027
92293143|NCT01328782|184490436|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Log Rank|||||||0.005
92293144|NCT01328782|184490436|SUPERIORITY_OR_OTHER|||||||0.3767||95.0|||||Log Rank|||||||0.3767
92293145|NCT01328782|184490436|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Log Rank|||||||0.039
92293146|NCT01328782|184490437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042||||0.008||95.0|0.008|0.076|||ANOVA|||||0.076|0.008|0.008
92293147|NCT01328782|184490437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031||||0.078||95.0|-0.004|0.066|||ANOVA|||||0.066|-0.004|0.078
92184721|NCT01263496|184267807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.366|||||TWO_SIDED|95.0|5.847|20.885||||||||20.885|5.847|
92293148|NCT01328782|184490437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011||||0.5321||95.0|-0.024|0.045|||ANOVA|||||0.045|-0.024|0.5321
92293149|NCT01328782|184490438|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||||||0.004
92293150|NCT01328782|184490438|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||||||0.004
92293151|NCT01328782|184490438|SUPERIORITY_OR_OTHER|||||||0.499||95.0|||||Chi-squared|||||||0.499
92293152|NCT03555695|184490500|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.12|TWO_SIDED||||||t-test, 2 sided|||||||0.12
92293153|NCT01426854|184490511|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92293154|NCT01942135|184490518|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.422|||<|1e-06|TWO_SIDED|95.0|0.318|0.56||The overall Type-I error rate was persevered at 1-sided 0.025 level for the analysis of the primary endpoint PFS by the Haybittle-Peto efficacy boundary. The priori threshold for statistical significance was 0.00135.|Stratified Log Rank Test (1-sided)|The log rank test stratified by sensitivity to prior hormonal therapy and the presence of visceral metastases based on the randomization information.|Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of the palbociclib plus fulvestrant arm.|The primary hypothesis to be tested was H0: λ≥1 versus. HA: λ\<1, where λ was the palbociclib plus fulvestrant: placebo plus fulvestrant hazard ratio (HR). A HR less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Fulvestrant. The study was planned to have 90% power and control the type-I error rate at 0.025.||0.560|0.318|<0.000001
92293155|NCT01942135|184490520|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.814|||=|0.0429|TWO_SIDED|95.0|0.644|1.029||1-sided p-value from the log-rank test stratified by the presence of visceral metastases and sensitivity to prior endocrine therapy per randomization.|Stratified Log Rank Test (1-sided)|The log rank test stratified by sensitivity to prior hormonal therapy and the presence of visceral metastases based on the randomization information.|Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of palbociclib plus fulvestrant.|The primary hypothesis to be tested was H0: λ≥1 versus. HA: λ\<1, where λ was the palbociclib plus fulvestrant: placebo plus fulvestrant hazard ratio (HR). A HR less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Fulvestrant. The study was planned to have 90% power and control the type-I error rate at 0.025.||1.029|0.644|=0.0429
92293156|NCT01942135|184490522|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.783||||0.0001|TWO_SIDED|95.0|1.563|5.603||The p-value was not adjusted for multiple comparisons. The priori threshold for statistical significance is 1-sided, alpha=0.025.|Exact test (1-sided)|The 1-sided p-value is from the stratified exact test.|An Odds Ratio \>1 means better response in favor of the palbociclib plus fulvestrant arm.|The exact test is testing the null hypothesis that the odds ratio of objective response rate is less than or equal to 1 vs. the alternative hypothesis that the odds ratio of objective response rate is greater than 1. An Odds Ratio \>1 means better response in favor of palbociclib plus fulvestrant arm.||5.603|1.563|0.0001
92293157|NCT01942135|184490524|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.016|||<|0.0001|TWO_SIDED|95.0|2.046|4.565||The p-value was not adjusted for multiple comparisons. The priori threshold for statistical significance is 1-sided, alpha=0.025.|Exact test (1-sided)|The 1-sided p-value is from the stratified exact test.|An odds ratio \> 1 means better clinical benefit response in favor of palbociclib plus fulvestrant arm.|The exact test is testing the null hypothesis that the odds ratio of objective response rate is less than or equal to 1 vs. the alternative hypothesis that the odds ratio of objective response rate is greater than 1. An Odds Ratio \>1 means better response in favor of palbociclib plus fulvestrant arm.||4.565|2.046|<0.0001
92293158|NCT01942135|184490528|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1||||0.0313|TWO_SIDED|95.0|0.3|6.0||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for Global health status/ QoL||6.0|0.3|0.0313
92293159|NCT01942135|184490528|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.4|TWO_SIDED|95.0|-1.4|3.5||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for physical functioning||3.5|-1.4|0.4000
92293160|NCT01942135|184490528|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.9||||0.2615|TWO_SIDED|95.0|-1.5|5.3||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for role functioning||5.3|-1.5|0.2615
92293161|NCT01942135|184490528|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.6||||0.0016|TWO_SIDED|95.0|1.7|7.4||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for emotional functioning||7.4|1.7|0.0016
92293162|NCT01942135|184490528|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2||||0.365|TWO_SIDED|95.0|-1.4|3.8||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for cognitive functioning||3.8|-1.4|0.3650
92293163|NCT01942135|184490528|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.9615|TWO_SIDED|95.0|-3.4|3.5||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for social functioning||3.5|-3.4|0.9615
92293164|NCT01942135|184490529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5||||0.32|TWO_SIDED|95.0|-4.5|1.5||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for fatigue||1.5|-4.5|0.3200
92293165|NCT01942135|184490529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5||||0.0369|TWO_SIDED|95.0|-4.8|-0.2||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for nausea and vomiting||-0.2|-4.8|0.0369
92293166|NCT01942135|184490529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3||||0.0011|TWO_SIDED|95.0|-8.5|-2.1||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for pain||-2.1|-8.5|0.0011
92293167|NCT01942135|184490529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.7699|TWO_SIDED|95.0|-3.7|2.8||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for dyspnoea||2.8|-3.7|0.7699
92184722|NCT01263496|184267808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.719|||||TWO_SIDED|95.0|1.657|13.782||||||||13.782|1.657|
92293168|NCT01942135|184490529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.2721|TWO_SIDED|95.0|-5.5|1.6||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for insomnia||1.6|-5.5|0.2721
92293169|NCT01942135|184490529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.7334|TWO_SIDED|95.0|-4.1|2.9||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for appetite loss||2.9|-4.1|0.7334
92293170|NCT01942135|184490529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.6491|TWO_SIDED|95.0|-2.5|3.9||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for constipation||3.9|-2.5|0.6491
92293171|NCT01942135|184490529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.6293|TWO_SIDED|95.0|-2.8|1.7||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for diarrhoea||1.7|-2.8|0.6293
92144628|NCT04020341|184173603|NON_INFERIORITY|The difference in success rate between treatment groups (gepotidacin - nitrofurantoin) was calculated using Miettinen-Nurminen Summary Score Method adjusted for age group and acute cystitis recurrence strata combinations. Criteria for non-inferiority is if the Z-statistic for non-inferiority is greater than the Z-statistic boundary (2.065).|Adjusted Difference in Percent|4.3|||||TWO_SIDED|95.0|-3.6|12.1|||||||Observed Z statistic value for Noninferiority was 3.5554.|12.1|-3.6|
92144629|NCT04020341|184173603|SUPERIORITY|The difference in success rate between treatment groups (gepotidacin - nitrofurantoin) was calculated using Miettinen-Nurminen Summary Score Method adjusted for age group and acute cystitis recurrence strata combinations. Criteria for superiority is if the one-sided p-value is less than the 0.019 p-value boundary.|Adjusted difference of Percent|4.3||||0.1445|TWO_SIDED|95.0|-3.6|12.1|||1-sided p-value for Test of Superiority|||||12.1|-3.6|0.1445
92144630|NCT01814371|184173654|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.757|||||||Fisher Exact|||||||0.757
92184723|NCT01263496|184267808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.978|||||TWO_SIDED|95.0|7.556|18.399||||||||18.399|7.556|
92184724|NCT01263496|184267808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.076|||||TWO_SIDED|95.0|9.808|20.345||||||||20.345|9.808|
92184725|NCT01263496|184267808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.087|||||TWO_SIDED|95.0|6.561|19.614||||||||19.614|6.561|
92293172|NCT01942135|184490529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3||||0.8812|TWO_SIDED|95.0|-3.1|3.6||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for financial difficulties||3.6|-3.1|0.8812
92293173|NCT01942135|184490530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3||||0.1386|TWO_SIDED|95.0|-0.7|5.2||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for body image||5.2|-0.7|0.1386
92184726|NCT01263496|184267809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.76|||||TWO_SIDED|95.0|-7.03|20.55||||||||20.55|-7.03|
92184727|NCT01263496|184267809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.85|||||TWO_SIDED|95.0|-1.49|25.19||||||||25.19|-1.49|
92184728|NCT01263496|184267809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.72|||||TWO_SIDED|95.0|-5.12|24.56||||||||24.56|-5.12|
92184729|NCT01263496|184267809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|||||TWO_SIDED|95.0|-13.26|14.9||||||||14.90|-13.26|
92184730|NCT01263496|184267810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9|||||TWO_SIDED|95.0|-11.11|22.91||||||||22.91|-11.11|
92184731|NCT01263496|184267810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.57|||||TWO_SIDED|95.0|-7.21|28.35||||||||28.35|-7.21|
92184732|NCT01263496|184267810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.45|||||TWO_SIDED|95.0|-10.08|26.98||||||||26.98|-10.08|
92184733|NCT01263496|184267810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.82|||||TWO_SIDED|95.0|-10.67|24.3||||||||24.30|-10.67|
92144631|NCT01814371|184173655|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||1|||||||Fisher Exact|||||||1.00
92144632|NCT01814371|184173656|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.687|||||||Fisher Exact|||||||0.687
92144633|NCT01814371|184173657|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||1|||||||Fisher Exact|||||||1.00
92144634|NCT01814371|184173658|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.811|||||||Fisher Exact|||||||0.811
92144635|NCT01814371|184173659|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.004|||||||Fisher Exact|||||||0.004
92144636|NCT01814371|184173660|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.006|||||||Fisher Exact|||||||0.006
92144637|NCT01814371|184173661|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.05|||||||Fisher Exact|||||||0.050
92293174|NCT01942135|184490530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.5235|TWO_SIDED|95.0|-3.1|1.6||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for sexual functioning||1.6|-3.1|0.5235
92293175|NCT01942135|184490530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4||||0.6271|TWO_SIDED|95.0|-4.4|7.3||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for sexual enjoyment||7.3|-4.4|0.6271
92293176|NCT01942135|184490530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.6||||0.0845|TWO_SIDED|95.0|-0.5|7.6||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for future perspective||7.6|-0.5|0.0845
92293177|NCT01942135|184490531|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.7273|TWO_SIDED|95.0|-1.6|2.3||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for systemic therapy side effects||2.3|-1.6|0.7273
92293178|NCT01942135|184490531|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.2671|TWO_SIDED|95.0|-2.6|0.7||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for breast symptoms||0.7|-2.6|0.2671
92293179|NCT01942135|184490531|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.875|TWO_SIDED|95.0|-2.6|2.2||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for arm symptoms||2.2|-2.6|0.8750
92293180|NCT01942135|184490531|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.9||||0.0255|TWO_SIDED|95.0|1.1|16.6||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for upset by hair loss||16.6|1.1|0.0255
92293181|NCT01942135|184490532|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.037||||0.0308|TWO_SIDED|95.0|0.0|0.07||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||0.07|0.00|0.0308
92293182|NCT01942135|184490533|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8||||0.5523|TWO_SIDED|95.0|-1.9|3.5||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||3.5|-1.9|0.5523
92293183|NCT01942135|184490534|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.642|||<|0.001|TWO_SIDED|95.0|0.487|0.846||The priori threshold for statistical significance is 1-sided alpha=0.025. The p-value was not adjusted for multiple comparisons.|Unstratified log-rank test (1-sided)|1-sided p-value from the unstratified log-rank test.|Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of the palbociclib plus fulvestrant arm.|Treatment with palbociclib plus fulvestrant significantly delayed TTD in pain symptom compared with placebo plus fulvestrant for unstratified analysis.||0.846|0.487|<0.001
92293184|NCT06588530|184490542|OTHER|Log₂ transformed fold change in IgG concentration from baseline to Day 30 was compared between High and Low PFNA exposure groups using the Wilcoxon rank-sum test. A two-tailed significance level of 0.05 was used.|Mean Difference (Net)|0.15||||0.85|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Tetanus||||.85
92293185|NCT06588530|184490542|OTHER|Log₂ transformed fold change in IgG concentration from baseline to Day 30 was compared between High and Low PFNA exposure groups using the Wilcoxon rank-sum test. A two-tailed significance level of 0.05 was used.|Mean Difference (Net)|0.01||||0.85|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Diphtheria||||.85
92293186|NCT04569084|184490564|SUPERIORITY|||||||0.777|||||||ANCOVA|||||||0.777
92144638|NCT01814371|184173662|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.007|||||||Fisher Exact|||||||0.007
92144639|NCT01814371|184173663|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.005|||||||Fisher Exact|||||||0.005
92144640|NCT01814371|184173664|EQUIVALENCE|testing equivalence of individualized approach compared to household approach.||||||1|||||||Fisher Exact|||||||1.00
92144641|NCT01814371|184173665|EQUIVALENCE|testing equivalence of before and after decolonization protocol.||||||0.84|||||||Chi-squared|||||||0.84
92144642|NCT01814371|184173667|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.381|||||||Fisher Exact|||||||0.381
92293187|NCT04569084|184490565|SUPERIORITY|||||||0.169|||||||Mixed Model for Repeated Measures (MMRM)|||||||0.169
92293188|NCT04729101|184490588|OTHER|Additional statistics were descriptive in nature.|Least-squares mean difference|38.98|||||TWO_SIDED|95.0|31.94|46.02||||||Vonoprazan versus lansoprazole on Day 1 of each treatment period.||46.02|31.94|
92293189|NCT04729101|184490588|OTHER|Additional statistics were descriptive in nature|Least-squares mean difference|44.62|||||TWO_SIDED|95.0|37.55|51.69||||||Vonoprazan versus lansoprazole on Day 7 of each treatment period.||51.69|37.55|
92144643|NCT01814371|184173668|EQUIVALENCE|testing equivalence of individualized approach compared to household approach.||||||0.143|||||||Fisher Exact|||||||0.143
92184734|NCT01263496|184267811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.09|||||TWO_SIDED|95.0|-14.95|21.13||||||||21.13|-14.95|
92293190|NCT04729101|184490589|OTHER|Additional statistics were descriptive in nature.|Least-squares mean difference|1.72|||||TWO_SIDED|95.0|1.4|2.04||||||Vonoprazan versus lansoprazole on Day 1 of each treatment period.||2.04|1.40|
92293191|NCT04729101|184490589|OTHER|Additional statistics were descriptive in nature.|Least-squares mean difference|2.09|||||TWO_SIDED|95.0|1.74|2.44||||||Vonoprazan versus lansoprazole on Day 7 of each treatment period.||2.44|1.74|
92293192|NCT00274625|184490597|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Fisher Exact|||||||0.60
92293193|NCT02940522|184490598|OTHER|Comparison of bioavailability|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
92293194|NCT02940522|184490599|OTHER|Comparison of bioavailability data|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
92293195|NCT02940522|184490600|OTHER|Comparison of bioavailability data|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
92293196|NCT02940522|184490601|OTHER|Comparison of bioavailability data|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
92293197|NCT02940522|184490602|OTHER|Comparison of bioavailability data|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
92293198|NCT02940522|184490603|OTHER|Comparison of bioavailability data|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
92184735|NCT01263496|184267811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.48|||||TWO_SIDED|95.0|-15.61|20.57||||||||20.57|-15.61|
92293199|NCT00762411|184490604|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Mixed Models Analysis|||||||0.560
92144644|NCT04683926|184173669|OTHER||AUC(0-36) Estimate (β1)|1.0227|||||TWO_SIDED|||||||||Analysis of dose proportionality following 10, 20 and 30 mg fasted using a mixed-effects model based on a power function: ln(dependent variable) = β1×ln(Dose) + ln(β0) + ε. Random slope and intercept. 90% CI of β1 acceptance range of 0.8-1.25 modified to account for ratio of dose levels in this study as follows: \[1+ln(0.8)/ln(3), 1+ln(1.25)/ln(3)\], giving acceptance range of \[0.7969, 1.2031\]. If the 90% CI of β1 is within \[0.7969, 1.2031\], dose-proportionality is proven for the PK parameter.||||
92184736|NCT01263496|184267811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-21.0|19.68||||||||19.68|-21.00|
92184737|NCT01263496|184267811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29|||||TWO_SIDED|95.0|-17.47|20.05||||||||20.05|-17.47|
92184738|NCT01263496|184267812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.08|||||TWO_SIDED|95.0|-11.7|19.86||||||||19.86|-11.70|
92293200|NCT00762411|184490605|SUPERIORITY_OR_OTHER|||||||0.959||95.0|||||Mixed Models Analysis|||||||0.959
92293201|NCT00762411|184490606|SUPERIORITY_OR_OTHER|||||||0.567||95.0|||||Mixed Models Analysis|||||||0.567
92293202|NCT00762411|184490607|SUPERIORITY_OR_OTHER|||||||0.199||95.0|||||Mixed Models Analysis|||||||0.199
92293203|NCT00762411|184490608|SUPERIORITY_OR_OTHER|||||||0.294||95.0|||||Mixed Models Analysis|||||||0.294
92293204|NCT00762411|184490609|SUPERIORITY_OR_OTHER|||||||0.477||95.0|||||Mixed Models Analysis|||||||0.477
92293205|NCT00762411|184490610|SUPERIORITY_OR_OTHER|||||||0.673||95.0|||||ANCOVA|||||||0.673
92293206|NCT00762411|184490611|SUPERIORITY_OR_OTHER|||||||0.622||95.0|||||Mixed Models Analysis|||||||0.622
92293207|NCT00762411|184490612|SUPERIORITY_OR_OTHER|||||||0.178||95.0|||||Mixed Models Analysis|||||||0.178
92293208|NCT00762411|184490613|SUPERIORITY_OR_OTHER|||||||0.632||95.0|||||Mixed Models Analysis|||||||0.632
92293209|NCT00762411|184490614|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANCOVA|||||||0.009
92293210|NCT00762411|184490615|SUPERIORITY_OR_OTHER|||||||0.426||95.0|||||ANCOVA|||||||0.426
92293211|NCT00762411|184490616|SUPERIORITY_OR_OTHER|||||||0.101||95.0||||This is the p-value for the Right Hippocampal Volume.|ANCOVA|||||||0.101
92293212|NCT00762411|184490616|SUPERIORITY_OR_OTHER|||||||0.772||95.0||||This is the p-value for the Left Hippocampal Volume.|ANCOVA|||||||0.772
92293213|NCT00762411|184490617|SUPERIORITY_OR_OTHER|||||||0.326||95.0|||||ANCOVA|||||||0.326
92293214|NCT00762411|184490618|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||ANCOVA|||||||0.117
92293215|NCT00762411|184490627|SUPERIORITY_OR_OTHER|||||||0.929||95.0|||||Mixed Models Analysis|||||||0.929
92293216|NCT00762411|184490628|SUPERIORITY_OR_OTHER|||||||0.437||95.0|||||Mixed Models Analysis|||||||0.437
92293217|NCT00762411|184490629|SUPERIORITY_OR_OTHER|||||||0.318||95.0|||||ANCOVA|||||||0.318
92293218|NCT00762411|184490630|SUPERIORITY_OR_OTHER|||||||0.417||95.0|||||ANCOVA|||||||0.417
92293219|NCT00762411|184490631|SUPERIORITY_OR_OTHER|||||||0.805||95.0|||||Mixed Models Analysis|||||||0.805
92293220|NCT00762411|184490632|SUPERIORITY_OR_OTHER|||||||0.893||95.0|||||Mixed Models Analysis|||||||0.893
92293221|NCT02959840|184490633|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.|||||<|1e-05|||||||Chi-squared|||||||< 0.00001
92293222|NCT02959840|184490633|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||5e-05|||||||Chi-squared|||||||0.00005
92293223|NCT02959840|184490633|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.1|||||||Chi-squared|||||||0.1
92293224|NCT02959840|184490634|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.001|||||||Chi-squared|||||||0.001
92293225|NCT02959840|184490634|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.0002|||||||Chi-squared|||||||0.0002
92293226|NCT02959840|184490634|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.8|||||||Chi-squared|||||||0.8
92293227|NCT02959840|184490635|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||4e-05|||||||Chi-squared|||||||0.00004
92293228|NCT02959840|184490635|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.0004|||||||Chi-squared|||||||0.0004
92293229|NCT02959840|184490635|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.09|||||||Chi-squared|||||||0.09
92184739|NCT01263496|184267812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.94|||||TWO_SIDED|95.0|-11.14|21.03||||||||21.03|-11.14|
92293230|NCT02959840|184490636|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.1|||||||Chi-squared|||||||0.1
92184740|NCT01263496|184267812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65|||||TWO_SIDED|95.0|-14.42|21.73||||||||21.73|-14.42|
92184741|NCT01263496|184267812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|||||TWO_SIDED|95.0|-17.24|15.89||||||||15.89|-17.24|
92184742|NCT02203032|184267814|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Row mean score test|||||||< 0.001
92184743|NCT02203032|184267815|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Row mean score test|||||||< 0.001
92184744|NCT02203032|184267816|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Row mean score test|||||||< 0.001
92184745|NCT02203032|184267817|SUPERIORITY_OR_OTHER||||||=|0.001|||||||Cochran-Mantel-Haenszel|||||||= 0.001
92293231|NCT02959840|184490636|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.07|||||||Chi-squared|||||||0.07
92293232|NCT02959840|184490636|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.7|||||||Chi-squared|||||||0.7
92293233|NCT02959840|184490637|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.7|||||||Chi-squared|||||||0.7
92293234|NCT02959840|184490637|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.7|||||||Chi-squared|||||||0.7
92293235|NCT02959840|184490637|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.2|||||||Chi-squared|||||||0.2
92293236|NCT02959840|184490638|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||1|||||||Chi-squared|||||||1
92293237|NCT02959840|184490638|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.2|||||||Chi-squared|||||||0.2
92293238|NCT02959840|184490638|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.1|||||||Chi-squared|||||||0.1
92293239|NCT02959840|184490639|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.001|||||||Chi-squared|||||||0.001
92293240|NCT02959840|184490639|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.0004|||||||Chi-squared|||||||0.0004
92293241|NCT02959840|184490639|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||1|||||||Chi-squared|||||||1
92293242|NCT02959840|184490640|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.008|||||||Chi-squared|||||||0.008
92293243|NCT02959840|184490640|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.07|||||||Chi-squared|||||||0.07
92293244|NCT02959840|184490640|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.6|||||||Chi-squared|||||||0.6
92293245|NCT02959840|184490641|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.2|||||||Chi-squared|||||||0.2
92293246|NCT02959840|184490641|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.5|||||||Chi-squared|||||||0.5
92293247|NCT02959840|184490641|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.7|||||||Chi-squared|||||||0.7
92293248|NCT02959840|184490642|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.5|||||||Chi-squared|||||||0.5
92293249|NCT02959840|184490642|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||1|||||||Chi-squared|||||||1
92293250|NCT02959840|184490642|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.5|||||||Chi-squared|||||||0.5
92293251|NCT02959840|184490643|SUPERIORITY|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.02|||||||Fisher Exact|||||||0.02
92293252|NCT02959840|184490643|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.2|||||||Fisher Exact|||||||0.2
92293253|NCT02959840|184490643|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.3|||||||Fisher Exact|||||||0.3
92184746|NCT01836445|184267830|SUPERIORITY||Prevalence Ratio|0.9||||0.2|TWO_SIDED|95.0|0.76|1.06|||Regression, Logistic|||||1.06|0.76|0.20
92184747|NCT01836445|184267831|SUPERIORITY||Prevalence Ratio|0.95||||0.6|TWO_SIDED|95.0|0.8|1.14|||Regression, Logistic|||||1.14|0.80|0.60
92184748|NCT01836445|184267832|SUPERIORITY||Prevalence Ratio|0.83||||0.04|TWO_SIDED|95.0|0.7|0.99|||Regression, Logistic|||||0.99|0.70|0.04
92293254|NCT02959840|184490644|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.2|||||||Fisher Exact|||||||0.2
92293255|NCT02959840|184490644|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.5|||||||Fisher Exact|||||||0.5
92293256|NCT02959840|184490644|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.7|||||||Fisher Exact|||||||0.7
92293257|NCT00377572|184490645|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Maximum Symptom Day Comparison||||<0.001
92293258|NCT00377572|184490646|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||||||0.04
92293259|NCT00377572|184490647|SUPERIORITY_OR_OTHER|||||||0.1111||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept (to account for within-subject correlation) and visit and group as fixed effects.||||||0.1111
92293260|NCT00377572|184490648|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Childhood Asthma Control Test comparison||||0.007
92293261|NCT00377572|184490649|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Asthma Control Test comparison||||0.54
92293262|NCT00377572|184490650|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||FEV1 % of predicted value comparison||||0.30
92293263|NCT00377572|184490651|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||FEV1:FVC ×100 comparison||||0.81
92293264|NCT00377572|184490652|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||||||<0.0001
92293265|NCT00377572|184490653|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Percent Adherence Comparison||||0.12
92293266|NCT00377572|184490654|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Step level 1- 2 (mild asthma) Percent Comparison||||0.001
92293267|NCT00377572|184490655|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Step level 4 - 6 (severe asthma)percent comparison||||<0.001
92293268|NCT00377572|184490656|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Inhaled glucocorticoids prescribed - mcg per day comparison||||<0.001
92293269|NCT00377572|184490657|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Comparison percent prescribed long-acting beta 2 agonists||||0.003
92293270|NCT00377572|184490658|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Regression, Logistic|Hospitalizations were summed over the course of the double-blind \& analyzed with logistic regression (LR) of 'any' vs. 'none'. The LR was unadjusted.||||||0.02
92293271|NCT00377572|184490659|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|Exacerbations were summed over the course of the double-blind and analyzed with an LR of 'any' versus 'none'. LR adjusted for study site and dosing.||||||<0.001
92293272|NCT00377572|184490660|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.84
92184749|NCT01836445|184267834|SUPERIORITY||Risk Ratio (RR)|0.6||||0.01|TWO_SIDED|95.0|0.38|0.95|||Z-test|||||0.95|0.38|0.01
92184750|NCT01836445|184267835|OTHER|Generalized Linear Mixed Model statistical test used||||||0.15|||||||Regression, Linear|||||||0.150
92293273|NCT00377572|184490661|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.58
92293274|NCT01435824|184490672|EQUIVALENCE|Bioequivalence is assessed by means of ratios of AUC, Cmax and Tmax between the comparison group and the reference group. According to a common regulatory definition, the comparison preparation (human milk-dissolved amoxicillin in this project) is considered bioequivalent to a standard preparation (water dissolved) if 90% CIs of these ratios between the two preparations for Cmax, Tmax, AUClast and AUC∞ are within a range between 0.80 and 1.25.|mean %ratio and 90% confidence interval|106.1|||||TWO_SIDED|90.0|97.5|115.4||||||A 2x2 crossover design was chosen to examine bioequivalence of milk-based amoxicillin preparation, based on the FDA-recommended design for bioavailability studies. The recommendation suggests that 12 subjects is the minimum number of subjects acceptable for this type of design. We have decided to enrol 16 subjects to account for problems or attrition.||115.4|97.5|
92293275|NCT01435824|184490673|EQUIVALENCE|Bioequivalence is assessed by means of ratios of AUC, Cmax and Tmax between the comparison group and the reference group. According to a common regulatory definition, the comparison preparation (human milk-dissolved amoxicillin in this project) is considered bioequivalent to a standard preparation (water dissolved) if 90% CIs of these ratios between the two preparations for Cmax, Tmax, AUClast and AUC∞ are within a range between 0.80 and 1.25.|mean %ratio and 90% confidence interval|106.2|||||TWO_SIDED|90.0|97.5|115.7||||||A 2x2 crossover design was chosen to examine bioequivalence of milk-based amoxicillin preparation, based on the FDA-recommended design for bioavailability studies. The recommendation suggests that 12 subjects is the minimum number of subjects acceptable for this type of design. We have decided to enrol 16 subjects to account for problems or attrition.||115.7|97.5|
92293276|NCT01435824|184490674|EQUIVALENCE|Bioequivalence is assessed by means of ratios of AUC, Cmax and Tmax between the comparison group and the reference group. According to a common regulatory definition, the comparison preparation (human milk-dissolved amoxicillin in this project) is considered bioequivalent to a standard preparation (water dissolved) if 90% CIs of these ratios between the two preparations for Cmax, Tmax, AUClast and AUC∞ are within a range between 0.80 and 1.25.|mean %ratio and 90% confidence interval|101.3|||||TWO_SIDED|90.0|89.4|114.9||||||A 2x2 crossover design was chosen to examine bioequivalence of milk-based amoxicillin preparation, based on the FDA-recommended design for bioavailability studies. The recommendation suggests that 12 subjects is the minimum number of subjects acceptable for this type of design. We have decided to enrol 16 subjects to account for problems or attrition.||114.9|89.4|
92293277|NCT01435824|184490675|EQUIVALENCE|Bioequivalence is assessed by means of ratios of AUC, Cmax and Tmax between the comparison group and the reference group. According to a common regulatory definition, the comparison preparation (human milk-dissolved amoxicillin in this project) is considered bioequivalent to a standard preparation (water dissolved) if 90% CIs of these ratios between the two preparations for Cmax, Tmax, AUClast and AUC∞ are within a range between 0.80 and 1.25.|mean %ratio and 90% confidence interval|107.9|||||TWO_SIDED|90.0|84.5|137.8||||||A 2x2 crossover design was chosen to examine bioequivalence of milk-based amoxicillin preparation, based on the FDA-recommended design for bioavailability studies. The recommendation suggests that 12 subjects is the minimum number of subjects acceptable for this type of design. We have decided to enrol 16 subjects to account for problems or attrition.||137.8|84.5|
92293278|NCT00117806|184490685|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Chi-squared|||||||0.008
92293279|NCT01765751|184490687|SUPERIORITY||Mean Difference (Final Values)|2.7|||||TWO_SIDED|95.0|-0.1|5.6|||||High vs Low group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||5.6|-0.1|
92184751|NCT01836445|184267836|OTHER|Generalized Linear Mixed Model statistical test used||||||0.374|||||||Regression, Linear|||||||0.374
92184752|NCT01836445|184267837|OTHER|Generalized Linear Mixed Model statistical test used||||||0.919|||||||Regression, Linear|||Analysis for Motivation items||||0.919
92184753|NCT01836445|184267837|OTHER|Generalized Linear Mixed Model statistical test used||||||0.493|||||||Regression, Linear|||Analysis for Social Norms items||||0.493
92184754|NCT01836445|184267837|OTHER|Generalized Linear Mixed Model statistical test used||||||0.002|||||||Regression, Linear|||Analysis for Behavioral Skills items||||0.002
92184755|NCT01836445|184267838|OTHER|Generalized Linear Mixed Model statistical test used||||||0.067|||||||Regression, Linear|||Analysis for Relationship Maintenance items||||0.067
92184756|NCT01836445|184267838|OTHER|Generalized Linear Mixed Model statistical test used||||||0.135|||||||Regression, Linear|||Analysis for Condom Use items||||0.135
92184757|NCT01836445|184267838|OTHER|Generalized Linear Mixed Model statistical test used||||||0.025|||||||Regression, Linear|||Analysis for HIV Testing items||||0.025
92293280|NCT01765751|184490687|SUPERIORITY||Mean Difference (Final Values)|3.0|||||TWO_SIDED|95.0|0.1|5.9|||||Medium vs Low group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||5.9|0.1|
92293281|NCT01765751|184490687|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-3.2|2.7|||||High vs Medium group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||2.7|-3.2|
92293282|NCT01765751|184490688|SUPERIORITY||Mean Difference (Final Values)|15.6|||||TWO_SIDED|95.0|1.6|29.7|||||High vs Low group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||29.7|1.6|
92293283|NCT01765751|184490688|SUPERIORITY||Mean Difference (Final Values)|9.8|||||TWO_SIDED|95.0|-3.7|23.3|||||Medium vs Low group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||23.3|-3.7|
92293284|NCT01765751|184490688|SUPERIORITY||Mean Difference (Final Values)|5.8|||||TWO_SIDED|95.0|-8.6|20.3|||||High vs Medium group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||20.3|-8.6|
92293285|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|-3.9|||||TWO_SIDED|95.0|-8.1|0.4|||||Pain Interference - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Pain Interference||0.4|-8.1|
92293286|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|1.5|||||TWO_SIDED|95.0|-2.6|5.6|||||Pain Interference - Medium vs Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Pain Interference||5.6|-2.6|
92293287|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|-5.4|||||TWO_SIDED|95.0|-9.8|1.0|||||Pain Interference - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Pain Interference||1.0|-9.8|
92293288|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|0.8|||||TWO_SIDED|95.0|-2.2|3.8|||||Physical Function - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Physical Function||3.8|-2.2|
92293289|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-2.9|3.2|||||Physical Function - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Physical Funtion||3.2|-2.9|
92293290|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|-2.4|3.7|||||Physical Function- High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population|Physical Function||3.7|-2.4|
92144645|NCT04683926|184173669|OTHER||AUC(inf) Estimate (β1)|1.0223|||||TWO_SIDED|||||||||Analysis of dose proportionality following 10, 20 and 30 mg fasted using a mixed-effects model based on a power function: ln(dependent variable) = β1×ln(Dose) + ln(β0) + ε. Random slope and intercept. 90% CI of β1 acceptance range of 0.8-1.25 modified to account for ratio of dose levels in this study as follows: \[1+ln(0.8)/ln(3), 1+ln(1.25)/ln(3)\], giving acceptance range of \[0.7969, 1.2031\]. If the 90% CI of β1 is within \[0.7969, 1.2031\], dose-proportionality is proven for the PK parameter.||||
92144646|NCT04683926|184173669|EQUIVALENCE|Absent food effect will be established if the 90% CI for the ratio of population geometric means between fed and fasted 30 mg doses, based on log-transformed data, is contained in the equivalence limits of 0.80-1.25 for AUC0-inf and Cmax.|AUC(0-inf) fed/fasted ratio|1.09|||||TWO_SIDED|90.0|1.05|1.12||||||Analysis of food effect on desmetramadol in the evaluable population using natural logarithm-transformed PK exposure parameters of desmetramadol enantiomers following administration of 30 mg desmetramadol in the fed and fasted states.||1.12|1.05|
92144647|NCT04683926|184173670|OTHER||Cmax Estimate (β1)|0.9899|||||TWO_SIDED|||||||||Analysis of dose proportionality following 10, 20 and 30 mg fasted using a mixed-effects model based on a power function: ln(dependent variable) = β1×ln(Dose) + ln(β0) + ε. Random slope and intercept. 90% CI of β1 acceptance range of 0.8-1.25 modified to account for ratio of dose levels in this study as follows: \[1+ln(0.8)/ln(3), 1+ln(1.25)/ln(3)\], giving acceptance range of \[0.7969, 1.2031\]. If the 90% CI of β1 is within \[0.7969, 1.2031\], dose-proportionality is proven for the PK parameter.||||
92184758|NCT01836445|184267839|OTHER|Generalized Linear Mixed Model statistical test used||||||0.138|||||||Regression, Logistic|||||||0.138
92184759|NCT01836445|184267840|OTHER|Generalized Linear Mixed Model statistical test used||||||0.173|||||||Regression, Linear|||||||0.173
92184760|NCT01836445|184267841|OTHER|Generalized Linear Mixed Model statistical test used||||||0.567|||||||Regression, Linear|||||||0.567
92184761|NCT01836445|184267842|OTHER|Generalized Linear Mixed Model statistical test used||||||0.861|||||||Regression, Linear|||Analysis for motivation items||||0.861
92184762|NCT01836445|184267842|OTHER|Generalized Linear Mixed Model statistical test used||||||0.628|||||||Regression, Linear|||Analysis for social norms items||||0.628
92184763|NCT01836445|184267842|OTHER|Generalized Linear Mixed Model statistical test used||||||0.151|||||||Regression, Linear|||Analysis for behavioral skills items||||0.151
92293291|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|5.8|||||TWO_SIDED|95.0|1.1|10.5|||||Fatigue - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Fatigue||10.5|1.1|
92293292|NCT01765751|184490689|SUPERIORITY||Median Difference (Net)|3.3|||||TWO_SIDED|95.0|-1.5|8.2|||||Fatigue - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Fatigue||8.2|-1.5|
92293293|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|2.5|||||TWO_SIDED|95.0|-2.3|7.3|||||Fatigue - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Fatigue||7.3|-2.3|
92144648|NCT04683926|184173670|EQUIVALENCE|Absent food effect will be established if the 90% CI for the ratio of population geometric means between fed and fasted 30 mg doses, based on log-transformed data, is contained in the equivalence limits of 0.80-1.25 for AUC0-inf and Cmax.|Cmax 90% fed/fasted ratio|1.18|||||TWO_SIDED|90.0|1.08|1.28||||||Analysis of food effect on desmetramadol in the evaluable population using natural logarithm-transformed PK exposure parameters of desmetramadol enantiomers following administration of 30 mg desmetramadol in the fed and fasted states.||1.28|1.08|
92144649|NCT01692782|184173677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.7|||||TWO_SIDED||||||Mixed Models Analysis|||The 4 mg and 8 mg SEP 225289 groups were compared to placebo using a MMRM analysis. The MMRM model included treatment, visit (as a categorical variable), pooled center, baseline ADHD RS-IV with adult prompts score, and treatment-by-visit interaction. An unstructured covariance matrix was used for the within subject correlation.||||
92293294|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|1.3|||||TWO_SIDED|95.0|-0.9|3.5|||||Sleep Disturbance - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Sleep Disturbance||3.5|-0.9|
92293295|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|-1.4|||||TWO_SIDED|95.0|-3.6|0.9|||||Sleep Disturbance - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Sleep Disturbance||0.9|-3.6|
92293296|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|2.7|||||TWO_SIDED|95.0|0.4|5.0|||||Sleep Disturbance - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Sleep Disturbance||5.0|0.4|
92293297|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-4.5|3.9|||||Anxiety - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Anxiety||3.9|-4.5|
92184764|NCT01836445|184267843|OTHER|Generalized Linear Mixed Model statistical test used||||||0.001|||||||Regression, Linear|||Analysis for Relationship Maintenance items||||0.001
92293298|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|1.1|||||TWO_SIDED|95.0|-2.9|5.1|||||Anxiety - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Anxiety||5.1|-2.9|
92293299|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|-1.4|||||TWO_SIDED|95.0|-5.7|2.9|||||Anxiety - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Anxiety||2.9|-5.7|
92293300|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|-2.8|||||TWO_SIDED|95.0|-6.7|0.6|||||Depression - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Depression||0.6|-6.7|
92293301|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|-0.8|||||TWO_SIDED|95.0|-4.1|2.6|||||Depression - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Depression||2.6|-4.1|
92293302|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|-2.0|||||TWO_SIDED|95.0|-5.4|1.4|||||Depression - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Depression||1.4|-5.4|
92293303|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-4.5|4.9|||||Satisfaction with Social Role - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Satisfaction with Social Role||4.9|-4.5|
92184765|NCT01836445|184267843|OTHER|Generalized Linear Mixed Model statistical test used||||||0.067|||||||Regression, Linear|||Analysis for Condom Use items||||0.067
92184766|NCT01836445|184267843|OTHER|Generalized Linear Mixed Model statistical test used||||||0.637|||||||Regression, Linear|||Analysis for HIV Testing items||||0.637
92184767|NCT01836445|184267844|OTHER|Generalized Linear Mixed Model statistical test used||||||0.862|||||||Regression, Linear|||||||0.862
92184768|NCT01836445|184267845|OTHER|Generalized Linear Mixed Model statistical test used||||||0.762|||||||Regression, Linear|||||||0.762
92184769|NCT01836445|184267846|SUPERIORITY|||||||0.043|||||||Regression, Linear|||Analysis for Motivation items||||0.043
92184770|NCT01836445|184267846|SUPERIORITY|||||||0.617|||||||Regression, Linear|||Analysis for Social Norm items||||0.617
92184771|NCT01836445|184267846|SUPERIORITY|||||||0.57|||||||Regression, Linear|||Analysis for Behavioral Skills items||||0.570
92293304|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|3.0|||||TWO_SIDED|95.0|-1.8|7.7|||||Satisfaction with Social Role - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Satisfaction with Social Role||7.7|-1.8|
92293305|NCT01765751|184490689|SUPERIORITY||Mean Difference (Net)|-2.8|||||TWO_SIDED|95.0|-7.6|2.0|||||Satisfaction with Social Role - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Satisfaction with Social Role||2.0|-7.6|
92293306|NCT00452348|184490712|SUPERIORITY_OR_OTHER||Least Squares Mean|0.04||||0.09||95.0|-0.01|0.09|||ANCOVA|||||0.09|-0.01|0.090
92184772|NCT01836445|184267847|SUPERIORITY|||||||0.036|||||||Regression, Linear|||Analysis for Relationship Maintenance items||||0.036
92184773|NCT01836445|184267847|SUPERIORITY|||||||0.837|||||||Regression, Linear|||Analysis for Condom Use items||||0.837
92184774|NCT01836445|184267847|SUPERIORITY|||||||0.953|||||||Regression, Linear|||Analysis for HIV Testing items||||0.953
92184775|NCT01836445|184267848|SUPERIORITY|||||||0.719|||||||Regression, Linear|||||||0.719
92293307|NCT01390415|184490717|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0374||95.0|||||t-test, 2 sided|||Between-group comparison of Change from Baseline at Month 6||||0.0374
92293308|NCT01390415|184490718|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0566||95.0|||||t-test, 2 sided|||Between-group comparison of Change from Baseline at Month 6||||0.0566
92293309|NCT01243151|184490733|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-54.68|STANDARD_ERROR_OF_MEAN|8.323|<|0.0001|TWO_SIDED|95.0|-71.37|-37.99|||ANCOVA|||Day 8: Analysis was performed using the analysis of covariance (ANCOVA) treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-37.99|-71.37|<0.0001
92293310|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.18|STANDARD_ERROR_OF_MEAN|8.53|<|0.0001|TWO_SIDED|95.0|-61.28|-27.08|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-27.08|-61.28|<0.0001
92293311|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-64.44|STANDARD_ERROR_OF_MEAN|8.433|<|0.0001|TWO_SIDED|95.0|-81.35|-47.53|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-47.53|-81.35|<0.0001
92293312|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.75|STANDARD_ERROR_OF_MEAN|8.282|<|0.0001|TWO_SIDED|95.0|-78.36|-45.15|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-45.15|-78.36|<0.0001
92293313|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-72.16|STANDARD_ERROR_OF_MEAN|10.097|<|0.0001|TWO_SIDED|95.0|-92.4|-51.92|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-51.92|-92.40|<0.0001
92293314|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-63.89|STANDARD_ERROR_OF_MEAN|10.328|<|0.0001|TWO_SIDED|95.0|-84.59|-43.19|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.19|-84.59|<0.0001
92144650|NCT01692782|184173677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.38||||0.076|TWO_SIDED||||||Mixed Models Analysis|P-values of SEP 225289 4 mg versus placebo at Week 4 was adjusted for multiple comparisons using the Hochberg procedure.||The 4 mg SEP 225289 group was compared to placebo using a MMRM analysis. The MMRM model included treatment, visit (as a categorical variable), pooled center, baseline ADHD RS-IV with adult prompts score, and treatment-by-visit interaction. An unstructured covariance matrix was used for the within subject correlation.||||0.076
92293315|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-88.69|STANDARD_ERROR_OF_MEAN|10.327|<|0.0001|TWO_SIDED|95.0|-109.39|-68.0|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-68.00|-109.39|<0.0001
92293316|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-84.65|STANDARD_ERROR_OF_MEAN|10.028|<|0.0001|TWO_SIDED|95.0|-104.76|-64.54|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-64.54|-104.76|<0.0001
92293317|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-78.47|STANDARD_ERROR_OF_MEAN|8.854|<|0.0001|TWO_SIDED|95.0|-96.22|-60.71|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-60.71|-96.22|<0.0001
92293318|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-84.45|STANDARD_ERROR_OF_MEAN|8.998|<|0.0001|TWO_SIDED|95.0|-102.51|-66.4|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-66.40|-102.51|<0.0001
92293319|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-96.08|STANDARD_ERROR_OF_MEAN|8.994|<|0.0001|TWO_SIDED|95.0|-114.12|-78.03|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-78.03|-114.12|<0.0001
92293320|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-92.33|STANDARD_ERROR_OF_MEAN|8.703|<|0.0001|TWO_SIDED|95.0|-109.8|-74.86|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-74.86|-109.80|<0.0001
92184776|NCT00535626|184267947|OTHER|"To test if revision rate at 5 years is less than 10% (Ha - Alternative Hypothesis).~Note: All cases enrolled in the study had to undergo revision whether from their primary procedure or a previous revision. Based on literature, 10% is the expected rate of another revision occurring in this cohort of enrolled patients."|Revision or Pending Revision Rate|2.43|||||TWO_SIDED|90.0|1.07|5.46|||||The estimated 2.43% revision rate was obtained by the Kaplan-Meier method.|||5.46|1.07|
92184777|NCT00535626|184267948|OTHER|To test if the change from the pre-operative HHS compared to the post-operative HHS at all intervals is statistically significant.|||||<|0.0001||||||This p-value applies to all intervals.|t-test, 2 sided|Paired t-test||||||<0.0001
92184778|NCT00535626|184267949|OTHER|To test whether the change from the pre-operative SF-36 Physical Score compared to each post-operative SF-36 Physical score is statistically significant.|||||<|0.0001||||||This p-value applies to all intervals.|t-test, 2 sided|Paired t-test||||||<0.0001
92293321|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-71.41|STANDARD_ERROR_OF_MEAN|9.534|<|0.0001|TWO_SIDED|95.0|-90.51|-52.3|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-52.30|-90.51|<0.0001
92293322|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-76.01|STANDARD_ERROR_OF_MEAN|9.659|<|0.0001|TWO_SIDED|95.0|-95.37|-56.65|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-56.65|-95.37|<0.0001
92293323|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-93.78|STANDARD_ERROR_OF_MEAN|9.678|<|0.0001|TWO_SIDED|95.0|-113.18|-74.38|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-74.38|-113.18|<0.0001
92293324|NCT01243151|184490733|SUPERIORITY_OR_OTHER||LS Mean Difference|-89.58|STANDARD_ERROR_OF_MEAN|9.362|<|0.0001|TWO_SIDED|95.0|-108.35|-70.81|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-70.81|-108.35|<0.0001
92293325|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.82|STANDARD_ERROR_OF_MEAN|5.077|<|0.0001|TWO_SIDED|95.0|-43.99|-23.65|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-23.65|-43.99|<0.0001
92293326|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.93|STANDARD_ERROR_OF_MEAN|5.202|<|0.0001|TWO_SIDED|95.0|-38.35|-17.51|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-17.51|-38.35|<0.0001
92293327|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.59|STANDARD_ERROR_OF_MEAN|5.143|<|0.0001|TWO_SIDED|95.0|-49.89|-29.28|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.28|-49.89|<0.0001
92293328|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.63|STANDARD_ERROR_OF_MEAN|5.051|<|0.0001|TWO_SIDED|95.0|-47.75|-27.51|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-27.51|-47.75|<0.0001
92293329|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.99|STANDARD_ERROR_OF_MEAN|6.384|<|0.0001|TWO_SIDED|95.0|-58.78|-33.2|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-33.20|-58.78|<0.0001
92293330|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.82|STANDARD_ERROR_OF_MEAN|6.527|<|0.0001|TWO_SIDED|95.0|-54.9|-28.74|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-28.74|-54.90|<0.0001
92293331|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.35|STANDARD_ERROR_OF_MEAN|6.531|<|0.0001|TWO_SIDED|95.0|-69.43|-43.27|||ANCOVA|||Day 15: Analysis was performed using ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.27|-69.43|<0.0001
92293332|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.45|STANDARD_ERROR_OF_MEAN|6.344|<|0.0001|TWO_SIDED|95.0|-66.17|-40.74|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-40.74|-66.17|<0.0001
92293333|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.67|STANDARD_ERROR_OF_MEAN|5.498|<|0.0001|TWO_SIDED|95.0|-60.7|-38.64|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-38.64|-60.70|<0.0001
92293334|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.92|STANDARD_ERROR_OF_MEAN|5.592|<|0.0001|TWO_SIDED|95.0|-65.14|-42.7|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-42.70|-65.14|<0.0001
92184779|NCT00535626|184267949|OTHER|To test whether the change from the pre-operative SF-36 Mental Score compared to the 3 month SF-36 Mental Score is statistically significant.||||||0.0139|||||||t-test, 2 sided|Paired t-test||||||0.0139
92184780|NCT00535626|184267949|OTHER|To test whether the change from the pre-operative SF-36 Mental Score compared to the 1 year SF-36 Mental Score is statistically significant.||||||0.0254|||||||t-test, 2 sided|Paired t-test||||||0.0254
92184781|NCT00535626|184267949|OTHER|To test whether the change from the SF-36 Mental Score compared to the 2 year SF-36 Mental Score is statistically significant.||||||0.1506|||||||t-test, 2 sided|Paired t-test||||||0.1506
92184782|NCT00535626|184267949|OTHER|To test whether the change from the pre-operative SF-36 Mental Score compared to the 3 year SF-36 Mental Score is statistically significant.||||||0.0936|||||||t-test, 2 sided|Paired t-test||||||0.0936
92184783|NCT00535626|184267949|OTHER|To test if the change from the pre-operative SF-36 Mental Score compared to the 4 year SF-36 Mental Score is statistically significant.||||||0.0909|||||||t-test, 2 sided|Paired t-test||||||0.0909
92184784|NCT00535626|184267949|OTHER|To test whether the change from the pre-operative SF-36 Mental Score compared to the 5 year SF-36 Mental Score is statistically significant.||||||0.048|||||||t-test, 2 sided|Paired t-test||||||0.048
92184785|NCT00535626|184267952|OTHER|To test whether the change from the pre-operative LEAS Score compared to the 3 month LEAS Score is statistically significant.||||||0.0011|||||||t-test, 2 sided|Paired t-test||||||0.0011
92293335|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.6|STANDARD_ERROR_OF_MEAN|5.59|<|0.0001|TWO_SIDED|95.0|-71.81|-49.38|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-49.38|-71.81|<0.0001
92293336|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.67|STANDARD_ERROR_OF_MEAN|5.413|<|0.0001|TWO_SIDED|95.0|-68.53|-46.8|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-46.80|-68.53|<0.0001
92293337|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.18|STANDARD_ERROR_OF_MEAN|5.8|<|0.0001|TWO_SIDED|95.0|-55.8|-32.57|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-32.57|-55.80|<0.0001
92293338|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.28|STANDARD_ERROR_OF_MEAN|5.881|<|0.0001|TWO_SIDED|95.0|-59.06|-35.5|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-35.50|-59.06|<0.0001
92293339|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.73|STANDARD_ERROR_OF_MEAN|5.891|<|0.0001|TWO_SIDED|95.0|-69.53|-45.94|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-45.94|-69.53|<0.0001
92293340|NCT01243151|184490734|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.96|STANDARD_ERROR_OF_MEAN|5.701|<|0.0001|TWO_SIDED|95.0|-66.38|-43.54|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.54|-66.38|<0.0001
92293341|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.972||||0.0472|TWO_SIDED|95.0|1.04|599.65|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||599.65|1.04|0.0472
92293342|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.815||||0.1368|TWO_SIDED|95.0|0.46|305.54|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||305.54|0.46|0.1368
92293343|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|47.527||||0.019|TWO_SIDED|95.0|1.89|1198.29|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1198.29|1.89|0.0190
92293344|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|45.328||||0.0192|TWO_SIDED|95.0|1.86|1103.73|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1103.73|1.86|0.0192
92293345|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|74.273||||0.0105|TWO_SIDED|95.0|2.74|2014.67|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||2014.67|2.74|0.0105
92293346|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|86.088||||0.0086|TWO_SIDED|95.0|3.1|2389.27|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||2389.27|3.10|0.0086
92293347|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|87.733||||0.0084|TWO_SIDED|95.0|3.14|2449.11|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||2449.11|3.14|0.0084
92293348|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|112.272||||0.0053|TWO_SIDED|95.0|4.07|3097.22|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||3097.22|4.07|0.0053
92293349|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.697||||0.0403|TWO_SIDED|95.0|1.16|662.2|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||662.20|1.16|0.0403
92184786|NCT00535626|184267952|OTHER|To test whether the change from the pre-operative LEAS compared to the 1, 2 and 3 year LEAS are statistically significant.|||||<|0.0001||||||This p-value applies to pre-op to 1, 2 and 3 year intervals.|t-test, 2 sided|Paired t-test||||||<0.0001
92184787|NCT00535626|184267952|OTHER|To test whether the change from the pre-operative LEAS compared to the 4 year LEAS is statistically significant.||||||0.0002|||||||t-test, 2 sided|Paired t-test||||||0.0002
92184788|NCT00535626|184267952|OTHER|To test whether the change from the pre-operative LEAS compared to the 5 year LEAS is statistically significant.||||||0.0009|||||||t-test, 2 sided|Paired t-test||||||0.0009
92293350|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|30.247||||0.0361|TWO_SIDED|95.0|1.25|733.32|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||733.32|1.25|0.0361
92293351|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|89.341||||0.0069|TWO_SIDED|95.0|3.43|2326.44|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||2326.44|3.43|0.0069
92293352|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|76.034||||0.0081|TWO_SIDED|95.0|3.08|1875.15|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1875.15|3.08|0.0081
92293353|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.018||||0.9931|TWO_SIDED|95.0|0.02|64.41|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||64.41|0.02|0.9931
92293354|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|38.943||||0.0259|TWO_SIDED|95.0|1.55|975.84|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||975.84|1.55|0.0259
92293355|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|57.766||||0.0142|TWO_SIDED|95.0|2.26|1477.88|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1477.88|2.26|0.0142
92293356|NCT01243151|184490735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|48.734||||0.0179|TWO_SIDED|95.0|1.95|1216.9|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1216.90|1.95|0.0179
92293357|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|353.058||||0.0013|TWO_SIDED|95.0|9.95|12528.19|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||12528.19|9.95|0.0013
92293358|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|129.984||||0.0047|TWO_SIDED|95.0|4.44|3808.21|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||3808.21|4.44|0.0047
92293359|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|300.099||||0.0018|TWO_SIDED|95.0|8.35|10787.45|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||10787.45|8.35|0.0018
92293360|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|190.835||||0.0025|TWO_SIDED|95.0|6.34|5743.12|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||5743.12|6.34|0.0025
92293361|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|255.421||||0.0018|TWO_SIDED|95.0|7.87|8290.22|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||8290.22|7.87|0.0018
92293362|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|150.547||||0.0034|TWO_SIDED|95.0|5.28|4291.89|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||4291.89|5.28|0.0034
92293363|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|745.542||||0.0018|TWO_SIDED|95.0|11.6|47929.45|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||47929.45|11.60|0.0018
92293364|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|146.296||||0.0031|TWO_SIDED|95.0|5.4|3963.01|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||3963.01|5.40|0.0031
92293365|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|213.512||||0.002|TWO_SIDED|95.0|7.13|6396.64|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||6396.64|7.13|0.0020
92293366|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|124.439||||0.0038|TWO_SIDED|95.0|4.73|3277.13|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||3277.13|4.73|0.0038
92293367|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|622.309||||0.002|TWO_SIDED|95.0|10.51|36846.03|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||36846.03|10.51|0.0020
92293368|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|224.427||||0.0017|TWO_SIDED|95.0|7.63|6598.0|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||6598.00|7.63|0.0017
92293369|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.158||||0.2751|TWO_SIDED|95.0|0.24|161.08|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||161.08|0.24|0.2751
92293370|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|152.977||||0.0038|TWO_SIDED|95.0|5.05|4633.92|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||4633.92|5.05|0.0038
92293371|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|756.203||||0.002|TWO_SIDED|95.0|11.18|51133.53|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||51133.53|11.18|0.0020
92293372|NCT01243151|184490736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|258.938||||0.0021|TWO_SIDED|95.0|7.53|8902.61|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||8902.61|7.53|0.0021
92293373|NCT01243151|184490737|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.896||||0.958|TWO_SIDED|95.0|0.02|52.79|||Regression, Logistic|||Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||52.79|0.02|0.9580
92144651|NCT01692782|184173677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.88||||0.019|TWO_SIDED|||||p-value of SEP 225289 8 mg versus placebo at Week 4 was adjusted for multiple comparisons using the Hochberg procedure.|Mixed Models Analysis|||The 8 mg SEP 225289 group was compared to placebo using a MMRM analysis. The MMRM model included treatment, visit (as a categorical variable), pooled center, baseline ADHD RS-IV with adult prompts score, and treatment-by-visit interaction. An unstructured covariance matrix was used for the within subject correlation.||||0.019
92293374|NCT01243151|184490737|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.375||||0.0732|TWO_SIDED|95.0|0.76|394.65|||Regression, Logistic|||Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||394.65|0.76|0.0732
92293375|NCT01243151|184490737|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|47.86||||0.0159|TWO_SIDED|95.0|2.07|1109.11|||Regression, Logistic|||Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1109.11|2.07|0.0159
92293376|NCT01243151|184490737|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|33.246||||0.0264|TWO_SIDED|95.0|1.51|733.62|||Regression, Logistic|||Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||733.62|1.51|0.0264
92293377|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|5.131||0.2883|TWO_SIDED|95.0|-4.77|15.77|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||15.77|-4.77|0.2883
92293378|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|6.05|STANDARD_ERROR_OF_MEAN|5.277||0.2563|TWO_SIDED|95.0|-4.51|16.61|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||16.61|-4.51|0.2563
92293379|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|1.92|STANDARD_ERROR_OF_MEAN|5.225||0.7149|TWO_SIDED|95.0|-8.54|12.37|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||12.37|-8.54|0.7149
92293380|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|3.95|STANDARD_ERROR_OF_MEAN|5.174||0.448|TWO_SIDED|95.0|-6.4|14.3|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||14.30|-6.40|0.4480
92293381|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|14.5|STANDARD_ERROR_OF_MEAN|6.214||0.0231|TWO_SIDED|95.0|2.06|26.94|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||26.94|2.06|0.0231
92293382|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|11.13|STANDARD_ERROR_OF_MEAN|6.369||0.0858|TWO_SIDED|95.0|-1.62|23.87|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||23.87|-1.62|0.0858
92293383|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|7.57|STANDARD_ERROR_OF_MEAN|6.431||0.244|TWO_SIDED|95.0|-5.3|20.44|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||20.44|-5.30|0.2440
92293384|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|11.52|STANDARD_ERROR_OF_MEAN|6.249||0.0702|TWO_SIDED|95.0|-0.98|24.03|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||24.03|-0.98|0.0702
92144652|NCT04341116|184173688|SUPERIORITY||Median Difference (Final Values)|9.0|STANDARD_ERROR_OF_MEAN|8.5||0.28|TWO_SIDED|95.0|-6.5|27.0|||Fisher Exact|||||27|-6.5|.28
92293385|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|9.64|STANDARD_ERROR_OF_MEAN|4.878||0.0531|TWO_SIDED|95.0|-0.13|19.41|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||19.41|-0.13|0.0531
92293386|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|8.93|STANDARD_ERROR_OF_MEAN|4.94||0.0758|TWO_SIDED|95.0|-0.96|18.83|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||18.83|-0.96|0.0758
92293387|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|1.95|STANDARD_ERROR_OF_MEAN|4.975||0.6965|TWO_SIDED|95.0|-8.01|11.92|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||11.92|-8.01|0.6965
92293388|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|13.52|STANDARD_ERROR_OF_MEAN|4.842||0.0071|TWO_SIDED|95.0|3.83|23.22|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||23.22|3.83|0.0071
92293389|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|11.2|STANDARD_ERROR_OF_MEAN|5.155||0.0339|TWO_SIDED|95.0|0.88|21.52|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||21.52|0.88|0.0339
92293390|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|8.56|STANDARD_ERROR_OF_MEAN|5.235||0.1075|TWO_SIDED|95.0|-1.92|19.03|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||19.03|-1.92|0.1075
92293391|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|5.98|STANDARD_ERROR_OF_MEAN|5.258||0.2601|TWO_SIDED|95.0|-4.54|16.5|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||16.50|-4.54|0.2601
92293392|NCT01243151|184490738|SUPERIORITY_OR_OTHER||LS Mean Difference|9.96|STANDARD_ERROR_OF_MEAN|5.132||0.057|TWO_SIDED|95.0|-0.31|20.24|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||20.24|-0.31|0.0570
92293393|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.88|STANDARD_ERROR_OF_MEAN|5.008|<|0.0001|TWO_SIDED|95.0|-42.93|-22.84|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.84|-42.93|<0.0001
92293394|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.8|STANDARD_ERROR_OF_MEAN|5.26|<|0.0001|TWO_SIDED|95.0|-41.34|-20.26|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-20.26|-41.34|<0.0001
92293395|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.98|STANDARD_ERROR_OF_MEAN|5.088|<|0.0001|TWO_SIDED|95.0|-50.18|-29.77|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.77|-50.18|<0.0001
92293396|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.37|STANDARD_ERROR_OF_MEAN|5.07|<|0.0001|TWO_SIDED|95.0|-48.54|-28.2|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-28.20|-48.54|<0.0001
92293397|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.18|STANDARD_ERROR_OF_MEAN|6.271|<|0.0001|TWO_SIDED|95.0|-54.73|-29.63|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.63|-54.73|<0.0001
92293398|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.69|STANDARD_ERROR_OF_MEAN|6.512|<|0.0001|TWO_SIDED|95.0|-55.72|-29.67|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.67|-55.72|<0.0001
92293399|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.56|STANDARD_ERROR_OF_MEAN|6.445|<|0.0001|TWO_SIDED|95.0|-67.45|-41.67|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-41.67|-67.45|<0.0001
92293400|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.89|STANDARD_ERROR_OF_MEAN|6.321|<|0.0001|TWO_SIDED|95.0|-64.54|-39.25|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.25|-64.54|<0.0001
92293401|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.35|STANDARD_ERROR_OF_MEAN|5.359||95|TWO_SIDED|95.0|-58.1|-36.59|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-36.59|-58.10|95
92184789|NCT00321971|184268050|SUPERIORITY||Mean Difference (Final Values)|0.421|STANDARD_ERROR_OF_MEAN|0.11|<|0.05|TWO_SIDED|95.0|0.208|0.657|||Mixed Models Analysis|Intention-to-treat model|The CES-D data were log-transformed for analysis|Hypothesis: The experimental intervention group will endorse lower mean levels of depressive symptoms during follow-up than the study group receiving the comparison intervention.||0.657|0.208|<.05
92184790|NCT00949234|184268105|OTHER||||||<|0.05|||||||Chi-squared|||There was no power calculation for this analysis. The study was mainly descriptive, but Chi-square tests were used to determine if there were differences between individuals who were retained at the 24 Week Follow-up visit from individuals who were not retained at the 24 Week Follow-up visit.||||<0.05
92184791|NCT00508183|184268106|OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.60
92184792|NCT00508183|184268107|OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
92293402|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.08|STANDARD_ERROR_OF_MEAN|5.566|<|0.0001|TWO_SIDED|95.0|-62.24|-39.91|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.91|-62.24|<0.0001
92293403|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.89|STANDARD_ERROR_OF_MEAN|5.482|<|0.0001|TWO_SIDED|95.0|-70.89|-48.89|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-48.89|-70.89|<0.0001
92293404|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.03|STANDARD_ERROR_OF_MEAN|5.377|<|0.0001|TWO_SIDED|95.0|-67.83|-46.24|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-46.24|-67.83|<0.0001
92293405|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.06|STANDARD_ERROR_OF_MEAN|5.767|<|0.0001|TWO_SIDED|95.0|-60.61|-37.51|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-37.51|-60.61|<0.0001
92293406|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.52|STANDARD_ERROR_OF_MEAN|5.974|<|0.0001|TWO_SIDED|95.0|-63.48|-39.56|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.56|-63.48|<0.0001
92293407|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-64.22|STANDARD_ERROR_OF_MEAN|5.901|<|0.0001|TWO_SIDED|95.0|-76.04|-52.4|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-52.40|-76.04|<0.0001
92293408|NCT01243151|184490739|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.01|STANDARD_ERROR_OF_MEAN|5.785|<|0.0001|TWO_SIDED|95.0|-71.59|-48.42|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-48.42|-71.59|<0.0001
92293409|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.91|STANDARD_ERROR_OF_MEAN|10.392|<|0.0001|TWO_SIDED|95.0|-75.54|-34.29|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-34.29|-75.54|<0.0001
92293410|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.07|STANDARD_ERROR_OF_MEAN|10.646|<|0.0001|TWO_SIDED|95.0|-65.21|-22.94|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.94|-65.21|<0.0001
92293411|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-67.98|STANDARD_ERROR_OF_MEAN|10.547|<|0.0001|TWO_SIDED|95.0|-88.92|-47.05|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-47.05|-88.92|<0.0001
92293412|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.51|STANDARD_ERROR_OF_MEAN|10.381|<|0.0001|TWO_SIDED|95.0|-81.11|-39.9|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.90|-81.11|<0.0001
92293413|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-68.39|STANDARD_ERROR_OF_MEAN|10.392|<|0.0001|TWO_SIDED|95.0|-89.02|-47.76|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-47.76|-89.02|<0.0001
92293414|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.41|STANDARD_ERROR_OF_MEAN|10.646|<|0.0001|TWO_SIDED|95.0|-81.54|-39.27|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.27|-81.54|<0.0001
92293415|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-86.6|STANDARD_ERROR_OF_MEAN|10.656|<|0.0001|TWO_SIDED|95.0|-107.74|-65.46|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-65.46|-107.74|<0.0001
92293416|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-81.13|STANDARD_ERROR_OF_MEAN|10.381|<|0.0001|TWO_SIDED|95.0|-101.73|-60.52|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-60.52|-101.73|<0.0001
92293417|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-80.16|STANDARD_ERROR_OF_MEAN|10.479|<|0.0001|TWO_SIDED|95.0|-100.96|-59.37|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-59.37|-100.96|<0.0001
92293418|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-83.0|STANDARD_ERROR_OF_MEAN|10.646|<|0.0001|TWO_SIDED|95.0|-104.14|-61.87|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-61.87|-104.14|<0.0001
92293419|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-104.77|STANDARD_ERROR_OF_MEAN|10.656|<|0.0001|TWO_SIDED|95.0|-125.91|-83.62|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-83.62|-125.91|<0.0001
92293420|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-90.23|STANDARD_ERROR_OF_MEAN|10.381|<|0.0001|TWO_SIDED|95.0|-110.84|-69.63|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-69.63|-110.84|<0.0001
92293421|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-71.54|STANDARD_ERROR_OF_MEAN|10.479|<|0.0001|TWO_SIDED|95.0|-92.34|-50.75|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-50.75|-92.34|<0.0001
92293422|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-74.46|STANDARD_ERROR_OF_MEAN|10.646|<|0.0001|TWO_SIDED|95.0|-95.59|-53.32|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-53.32|-95.59|<0.0001
92293423|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-102.35|STANDARD_ERROR_OF_MEAN|10.656|<|0.0001|TWO_SIDED|95.0|-123.49|-81.21|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-81.21|-123.49|<0.0001
92293424|NCT01243151|184490740|SUPERIORITY_OR_OTHER||LS Mean Difference|-87.15|STANDARD_ERROR_OF_MEAN|10.381|<|0.0001|TWO_SIDED|95.0|-107.76|-66.55|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-66.55|-107.76|<0.0001
92293425|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|2.01|STANDARD_ERROR_OF_MEAN|1.945||0.3064|TWO_SIDED|95.0|-1.89|5.9|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||5.90|-1.89|0.3064
92293426|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|2.67|STANDARD_ERROR_OF_MEAN|2.025||0.1922|TWO_SIDED|95.0|-1.38|6.73|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||6.73|-1.38|0.1922
92293427|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|1.984||0.6827|TWO_SIDED|95.0|-3.16|4.79|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||4.79|-3.16|0.6827
92293428|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|2.45|STANDARD_ERROR_OF_MEAN|1.981||0.2211|TWO_SIDED|95.0|-1.52|6.42|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||6.42|-1.52|0.2211
92293429|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|6.64|STANDARD_ERROR_OF_MEAN|2.158||0.0033|TWO_SIDED|95.0|2.31|10.97|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.97|2.31|0.0033
92293430|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|5.09|STANDARD_ERROR_OF_MEAN|2.237||0.0269|TWO_SIDED|95.0|0.6|9.57|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||9.57|0.60|0.0269
92293431|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|3.87|STANDARD_ERROR_OF_MEAN|2.232||0.089|TWO_SIDED|95.0|-0.61|8.34|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||8.34|-0.61|0.0890
92293432|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|5.08|STANDARD_ERROR_OF_MEAN|2.19||0.0242|TWO_SIDED|95.0|0.69|9.47|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||9.47|0.69|0.0242
92293433|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|3.25|STANDARD_ERROR_OF_MEAN|2.101||0.127|TWO_SIDED|95.0|-0.95|7.46|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||7.46|-0.95|0.1270
92293434|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|2.151||0.1199|TWO_SIDED|95.0|-0.91|7.7|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||7.70|-0.91|0.1199
92293435|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|2.15||0.8123|TWO_SIDED|95.0|-3.79|4.82|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||4.82|-3.79|0.8123
92293436|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|5.65|STANDARD_ERROR_OF_MEAN|2.106||0.0095|TWO_SIDED|95.0|1.44|9.87|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||9.87|1.44|0.0095
92293437|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|2.492||0.1141|TWO_SIDED|95.0|-0.99|8.99|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||8.99|-0.99|0.1141
92184793|NCT00508183|184268108|OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
92293438|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|3.65|STANDARD_ERROR_OF_MEAN|2.536||0.1552|TWO_SIDED|95.0|-1.42|8.73|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||8.73|-1.42|0.1552
92293439|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|1.57|STANDARD_ERROR_OF_MEAN|2.547||0.5407|TWO_SIDED|95.0|-3.53|6.67|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||6.67|-3.53|0.5407
92293440|NCT01243151|184490741|SUPERIORITY_OR_OTHER||LS Mean Difference|6.56|STANDARD_ERROR_OF_MEAN|2.485||0.0107|TWO_SIDED|95.0|1.58|11.53|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||11.53|1.58|0.0107
92293441|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.35|STANDARD_ERROR_OF_MEAN|8.152|<|0.0001|TWO_SIDED|95.0|-76.74|-43.97|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.97|-76.74|<0.0001
92293442|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.53|STANDARD_ERROR_OF_MEAN|8.422|<|0.0001|TWO_SIDED|95.0|-69.45|-35.61|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-35.61|-69.45|<0.0001
92293443|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-69.46|STANDARD_ERROR_OF_MEAN|8.26|<|0.0001|TWO_SIDED|95.0|-86.06|-52.86|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-52.86|-86.06|<0.0001
92293444|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-66.25|STANDARD_ERROR_OF_MEAN|8.112|<|0.0001|TWO_SIDED|95.0|-82.55|-49.94|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-49.94|-82.55|<0.0001
92293445|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-78.46|STANDARD_ERROR_OF_MEAN|10.766|<|0.0001|TWO_SIDED|95.0|-100.05|-56.87|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-56.87|-100.05|<0.0001
92293446|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-71.28|STANDARD_ERROR_OF_MEAN|11.051|<|0.0001|TWO_SIDED|95.0|-93.43|-49.13|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-49.13|-93.43|<0.0001
92293447|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-91.83|STANDARD_ERROR_OF_MEAN|11.018|<|0.0001|TWO_SIDED|95.0|-113.92|-69.74|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-69.74|-113.92|<0.0001
92293448|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-89.5|STANDARD_ERROR_OF_MEAN|10.736|<|0.0001|TWO_SIDED|95.0|-111.03|-67.97|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-67.97|-111.03|<0.0001
92293449|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-86.73|STANDARD_ERROR_OF_MEAN|8.452|<|0.0001|TWO_SIDED|95.0|-103.73|-69.72|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-69.72|-103.73|<0.0001
92293450|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-92.18|STANDARD_ERROR_OF_MEAN|8.643|<|0.0001|TWO_SIDED|95.0|-109.57|-74.8|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-74.80|-109.57|<0.0001
92293451|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-106.06|STANDARD_ERROR_OF_MEAN|8.585|<|0.0001|TWO_SIDED|95.0|-123.34|-88.78|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-88.78|-123.34|<0.0001
92293452|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-99.18|STANDARD_ERROR_OF_MEAN|8.334|<|0.0001|TWO_SIDED|95.0|-115.95|-82.4|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-82.40|-115.95|<0.0001
92293453|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-79.07|STANDARD_ERROR_OF_MEAN|8.557|<|0.0001|TWO_SIDED|95.0|-96.22|-61.93|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-61.93|-96.22|<0.0001
92184794|NCT00508183|184268110|OTHER|||||||0.05|||||||Chi-squared|||||||0.05
92184795|NCT03785756|184268111|EQUIVALENCE|The primary analysis was based on a two-sided test at the significance level of 0.05. The treatment difference is presented with a 95% confidence interval (CI).|Mean Difference (Final Values)|34.05|||<|0.0001|TWO_SIDED|95.0|26.72|41.38|||ANCOVA|Estimates from an ANCOVA model with SPID12 score as the dependent variable. Terms for treatment and baseline pain score were included as covariates.||The primary efficacy hypothesis was that SPID12 for placebo was equal to SPID12 for ibuprofen 2 × 300 mg PR tablets.||41.38|26.72|<0.0001
92293454|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-83.89|STANDARD_ERROR_OF_MEAN|8.736|<|0.0001|TWO_SIDED|95.0|-101.4|-66.39|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-66.39|-101.40|<0.0001
92293455|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-104.74|STANDARD_ERROR_OF_MEAN|8.679|<|0.0001|TWO_SIDED|95.0|-122.13|-87.35|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-87.35|-122.13|<0.0001
92293456|NCT01243151|184490742|SUPERIORITY_OR_OTHER||LS Mean Difference|-97.0|STANDARD_ERROR_OF_MEAN|8.426|<|0.0001|TWO_SIDED|95.0|-113.89|-80.11|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-80.11|-113.89|<0.0001
92293457|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.3|STANDARD_ERROR_OF_MEAN|29.336||0.448|TWO_SIDED|95.0|-80.08|35.49|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||35.49|-80.08|0.4480
92293458|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.52|STANDARD_ERROR_OF_MEAN|30.091||0.2809|TWO_SIDED|95.0|-91.8|26.76|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||26.76|-91.80|0.2809
92293459|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.92|STANDARD_ERROR_OF_MEAN|29.942||0.2875|TWO_SIDED|95.0|-90.9|27.07|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.07|-90.90|0.2875
92144653|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.641|||<|0.001|TWO_SIDED|95.0|1.247|2.159|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=12.514||Age of mother bearing, \<=30 years vs \>30 years||2.159|1.247|<0.001
92144654|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.793||||0.06|TWO_SIDED|95.0|0.622|1.01|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=3.529||Household register, local vs nonlocal||1.010|0.622|0.060
92144655|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.369||||0.006|TWO_SIDED|95.0|1.672|32.479|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=7.524||Mother's education level, illiteracy vs postgraduate or above||32.479|1.672|0.006
92184796|NCT03879538|184268141|SUPERIORITY||Mean Difference (Net)|-0.57||||0.19|TWO_SIDED|95.0|-1.42|0.28||a priori threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Mean difference is Nitrous Oxide minus Control.|Null hypothesis: Mean of pain score assessed at one-week and one-month follow-up after end of treatment for Nitrous Oxide group equals that assessed at same time points for the Control group.||0.28|-1.42|0.19
92293460|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.52|STANDARD_ERROR_OF_MEAN|29.37||0.5743|TWO_SIDED|95.0|-74.38|41.33|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||41.33|-74.38|0.5743
92293461|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.83|STANDARD_ERROR_OF_MEAN|29.336||0.4997|TWO_SIDED|95.0|-77.62|37.96|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||37.96|-77.62|0.4997
92293462|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.5|STANDARD_ERROR_OF_MEAN|30.091||0.4756|TWO_SIDED|95.0|-80.78|37.78|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||37.78|-80.78|0.4756
92144656|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.443||||0.102|TWO_SIDED|95.0|1.001|11.843|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=2.671||Mother's education level, elementary school vs postgraduate or above||11.843|1.001|0.102
92144657|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.064||||0.159|TWO_SIDED|95.0|0.933|10.067|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=1.984||Mother's education level, junior middle school vs postgraduate or above||10.067|0.933|0.159
92144658|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.321||||0.662|TWO_SIDED|95.0|0.71|7.589|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.191||Mother's education level, senior high school/vocational high school/technical secondary school vs postgraduate or above||7.589|0.710|0.662
92144659|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.306|||<|0.001|TWO_SIDED|95.0|0.399|4.277|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=13.525||Mother's education level, college/university vs postgraduate or above||4.277|0.399|<0.001
92144660|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.217||||0.043|TWO_SIDED|95.0|0.719|6.831|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=4.095||Family monthly income per capita, \<=600 RMB vs \>=10000 RMB||6.831|0.719|0.043
92144661|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.089||||0.01|TWO_SIDED|95.0|0.739|5.906|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=6.549||Family monthly income per capita, 600 to 1999 RMB vs \>=10000 RMB||5.906|0.739|0.010
92144662|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.983||||0.021|TWO_SIDED|95.0|0.704|5.583|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=5.313||Family monthly income per capita, 2000 to 4999 RMB vs \>=10000 RMB||5.583|0.704|0.021
92144663|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.364|TWO_SIDED|95.0|0.344|3.267|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.824||Family monthly income per capita, 5000 to 7999 RMB vs \>=10000 RMB||3.267|0.344|0.364
92293463|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.73|STANDARD_ERROR_OF_MEAN|30.458||0.561|TWO_SIDED|95.0|-77.73|42.26|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||42.26|-77.73|0.5610
92293464|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.41|STANDARD_ERROR_OF_MEAN|29.37||0.4667|TWO_SIDED|95.0|-79.27|36.44|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||36.44|-79.27|0.4667
92293465|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.7|STANDARD_ERROR_OF_MEAN|29.828||0.3045|TWO_SIDED|95.0|-89.45|28.06|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||28.06|-89.45|0.3045
92293466|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.78|STANDARD_ERROR_OF_MEAN|30.091||0.4301|TWO_SIDED|95.0|-83.06|35.5|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||35.50|-83.06|0.4301
92293467|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.15|STANDARD_ERROR_OF_MEAN|30.458||0.0881|TWO_SIDED|95.0|-112.15|7.85|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||7.85|-112.15|0.0881
92293468|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.51|STANDARD_ERROR_OF_MEAN|29.37||0.2844|TWO_SIDED|95.0|-89.36|26.35|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||26.35|-89.36|0.2844
92293469|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.56|STANDARD_ERROR_OF_MEAN|29.828||0.3741|TWO_SIDED|95.0|-85.32|32.19|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||32.19|-85.32|0.3741
92293470|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.88|STANDARD_ERROR_OF_MEAN|30.091||0.4283|TWO_SIDED|95.0|-83.16|35.4|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||35.40|-83.16|0.4283
92293471|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.32|STANDARD_ERROR_OF_MEAN|30.458||0.0657|TWO_SIDED|95.0|-116.31|3.68|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||3.68|-116.31|0.0657
92293472|NCT01243151|184490743|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.26|STANDARD_ERROR_OF_MEAN|29.37||0.2586|TWO_SIDED|95.0|-91.11|24.6|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||24.60|-91.11|0.2586
92293473|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|3.33|STANDARD_ERROR_OF_MEAN|3.404||0.3326|TWO_SIDED|95.0|-3.49|10.14|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.14|-3.49|0.3326
92184797|NCT03879538|184268142|SUPERIORITY||Mean Difference (Net)|0.13||||0.36|TWO_SIDED|95.0|-0.16|0.43||a priori threshold for statistical significance is p\<0.05.|Mixed Models Analysis||Mean difference is Nitrous oxide minus control.|Null hypothesis for testing difference in means of physical health Z-score between two study groups: mean of physical health Z-score assessed at one-week and one-month follow-ups for Nitrous Oxide group was equal to that assessed at the same follow-up time points for Control group.||0.43|-0.16|0.36
92293474|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|3.69|STANDARD_ERROR_OF_MEAN|3.502||0.2967|TWO_SIDED|95.0|-3.32|10.7|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.70|-3.32|0.2967
92293475|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|3.466||0.8812|TWO_SIDED|95.0|-6.42|7.46|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||7.46|-6.42|0.8812
92293476|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|3.42|STANDARD_ERROR_OF_MEAN|3.433||0.3227|TWO_SIDED|95.0|-3.45|10.3|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.30|-3.45|0.3227
92293477|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|10.01|STANDARD_ERROR_OF_MEAN|4.221||0.021|TWO_SIDED|95.0|1.56|18.46|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||18.46|1.56|0.0210
92293478|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|6.84|STANDARD_ERROR_OF_MEAN|4.326||0.1192|TWO_SIDED|95.0|-1.82|15.49|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||15.49|-1.82|0.1192
92293479|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|5.04|STANDARD_ERROR_OF_MEAN|4.367||0.2529|TWO_SIDED|95.0|-3.69|13.78|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||13.78|-3.69|0.2529
92293480|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|7.76|STANDARD_ERROR_OF_MEAN|4.244||0.0725|TWO_SIDED|95.0|-0.73|16.25|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||16.25|-0.73|0.0725
92293481|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|6.74|STANDARD_ERROR_OF_MEAN|3.214||0.0405|TWO_SIDED|95.0|0.3|13.18|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||13.18|0.30|0.0405
92293482|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|6.27|STANDARD_ERROR_OF_MEAN|3.258||0.0593|TWO_SIDED|95.0|-0.25|12.8|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||12.80|-0.25|0.0593
92293483|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|1.76|STANDARD_ERROR_OF_MEAN|3.279||0.5936|TWO_SIDED|95.0|-4.81|8.33|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||8.33|-4.81|0.5936
92293484|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|9.78|STANDARD_ERROR_OF_MEAN|3.192||0.0034|TWO_SIDED|95.0|3.38|16.17|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||16.17|3.38|0.0034
92293485|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|3.428||0.0305|TWO_SIDED|95.0|0.74|14.46|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||14.46|0.74|0.0305
92293486|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|5.41|STANDARD_ERROR_OF_MEAN|3.479||0.1252|TWO_SIDED|95.0|-1.55|12.37|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||12.37|-1.55|0.1252
92293487|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|3.71|STANDARD_ERROR_OF_MEAN|3.495||0.2923|TWO_SIDED|95.0|-3.28|10.71|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.71|-3.28|0.2923
92293488|NCT01243151|184490744|SUPERIORITY_OR_OTHER||LS Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|3.411||0.0297|TWO_SIDED|95.0|0.78|14.43|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||14.43|0.78|0.0297
92293489|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.35|STANDARD_ERROR_OF_MEAN|4.117|<|0.0001|TWO_SIDED|95.0|-34.59|-18.1|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-18.10|-34.59|<0.0001
92293490|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.29|STANDARD_ERROR_OF_MEAN|4.325|<|0.0001|TWO_SIDED|95.0|-32.95|-15.63|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-15.63|-32.95|<0.0001
92293491|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.2|STANDARD_ERROR_OF_MEAN|4.182|<|0.0001|TWO_SIDED|95.0|-39.58|-22.83|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.83|-39.58|<0.0001
92293492|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.43|STANDARD_ERROR_OF_MEAN|4.169|<|0.0001|TWO_SIDED|95.0|-38.78|-22.08|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.08|-38.78|<0.0001
92293493|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.3|STANDARD_ERROR_OF_MEAN|5.055|<|0.0001|TWO_SIDED|95.0|-43.42|-23.19|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-23.19|-43.42|<0.0001
92293494|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-34.14|STANDARD_ERROR_OF_MEAN|5.255|<|0.0001|TWO_SIDED|95.0|-44.65|-23.63|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-23.63|-44.65|<0.0001
92293495|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.57|STANDARD_ERROR_OF_MEAN|5.194|<|0.0001|TWO_SIDED|95.0|-52.96|-32.18|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-32.18|-52.96|<0.0001
92293496|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.87|STANDARD_ERROR_OF_MEAN|5.097|<|0.0001|TWO_SIDED|95.0|-52.07|-31.67|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-31.67|-52.07|<0.0001
92293497|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.75|STANDARD_ERROR_OF_MEAN|4.343|<|0.0001|TWO_SIDED|95.0|-46.46|-29.05|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.05|-46.46|<0.0001
92293498|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.98|STANDARD_ERROR_OF_MEAN|4.519|<|0.0001|TWO_SIDED|95.0|-50.04|-31.93|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-31.93|-50.04|<0.0001
92293499|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.98|STANDARD_ERROR_OF_MEAN|4.441|<|0.0001|TWO_SIDED|95.0|-55.88|-38.08|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-38.08|-55.88|<0.0001
92293500|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.77|STANDARD_ERROR_OF_MEAN|4.363|<|0.0001|TWO_SIDED|95.0|-54.52|-37.03|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-37.03|-54.52|<0.0001
92293501|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.61|STANDARD_ERROR_OF_MEAN|4.616|<|0.0001|TWO_SIDED|95.0|-47.85|-29.37|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.37|-47.85|<0.0001
92293502|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.19|STANDARD_ERROR_OF_MEAN|4.795|<|0.0001|TWO_SIDED|95.0|-50.78|-31.6|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-31.60|-50.78|<0.0001
92293503|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.75|STANDARD_ERROR_OF_MEAN|4.722|<|0.0001|TWO_SIDED|95.0|-59.2|-40.3|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-40.30|-59.20|<0.0001
92293504|NCT01243151|184490745|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.04|STANDARD_ERROR_OF_MEAN|4.639|<|0.0001|TWO_SIDED|95.0|-57.33|-38.76|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-38.76|-57.33|<0.0001
92293505|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.7|STANDARD_ERROR_OF_MEAN|4.211|<|0.0001|TWO_SIDED|95.0|-31.06|-14.34|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-14.34|-31.06|<0.0001
92293506|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-18.6|STANDARD_ERROR_OF_MEAN|4.315|<|0.0001|TWO_SIDED|95.0|-27.17|-10.03|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-10.03|-27.17|<0.0001
92293507|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.97|STANDARD_ERROR_OF_MEAN|4.274|<|0.0001|TWO_SIDED|95.0|-36.46|-19.49|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-19.49|-36.46|<0.0001
92293508|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.89|STANDARD_ERROR_OF_MEAN|4.207|<|0.0001|TWO_SIDED|95.0|-33.24|-16.54|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-16.54|-33.24|<0.0001
92293509|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.89|STANDARD_ERROR_OF_MEAN|4.211|<|0.0001|TWO_SIDED|95.0|-37.25|-20.53|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-20.53|-37.25|<0.0001
92293510|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.35|STANDARD_ERROR_OF_MEAN|4.315|<|0.0001|TWO_SIDED|95.0|-34.92|-17.79|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-17.79|-34.92|<0.0001
92293511|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.89|STANDARD_ERROR_OF_MEAN|4.318|<|0.0001|TWO_SIDED|95.0|-44.46|-27.33|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-27.33|-44.46|<0.0001
92293512|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-34.23|STANDARD_ERROR_OF_MEAN|4.207|<|0.0001|TWO_SIDED|95.0|-42.58|-25.88|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-25.88|-42.58|<0.0001
92293513|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.96|STANDARD_ERROR_OF_MEAN|4.246|<|0.0001|TWO_SIDED|95.0|-42.39|-25.53|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-25.53|-42.39|<0.0001
92293514|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.41|STANDARD_ERROR_OF_MEAN|4.315|<|0.0001|TWO_SIDED|95.0|-43.98|-26.85|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-26.85|-43.98|<0.0001
92293515|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.28|STANDARD_ERROR_OF_MEAN|4.318|<|0.0001|TWO_SIDED|95.0|-51.85|-34.71|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-34.71|-51.85|<0.0001
92293516|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.0|STANDARD_ERROR_OF_MEAN|4.207|<|0.0001|TWO_SIDED|95.0|-46.35|-29.65|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.65|-46.35|<0.0001
92293517|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.77|STANDARD_ERROR_OF_MEAN|4.246|<|0.0001|TWO_SIDED|95.0|-38.19|-21.34|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-21.34|-38.19|<0.0001
92293518|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.22|STANDARD_ERROR_OF_MEAN|4.315|<|0.0001|TWO_SIDED|95.0|-39.79|-22.65|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.65|-39.79|<0.0001
92293519|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.34|STANDARD_ERROR_OF_MEAN|4.318|<|0.0001|TWO_SIDED|95.0|-49.91|-32.78|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-32.78|-49.91|<0.0001
92293520|NCT01243151|184490746|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.04|STANDARD_ERROR_OF_MEAN|4.207|<|0.0001|TWO_SIDED|95.0|-44.39|-27.69|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-27.69|-44.39|<0.0001
92293521|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|4.44|STANDARD_ERROR_OF_MEAN|3.975||0.269|TWO_SIDED|95.0|-3.53|12.41|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||12.41|-3.53|0.2690
92293522|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|5.22|STANDARD_ERROR_OF_MEAN|4.133||0.2122|TWO_SIDED|95.0|-3.07|13.5|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||13.50|-3.07|0.2122
92293523|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|0.54|STANDARD_ERROR_OF_MEAN|4.054||0.8953|TWO_SIDED|95.0|-7.59|8.67|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||8.67|-7.59|0.8953
92293524|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|5.59|STANDARD_ERROR_OF_MEAN|4.045||0.1723|TWO_SIDED|95.0|-2.51|13.7|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||13.70|-2.51|0.1723
92293525|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|14.95|STANDARD_ERROR_OF_MEAN|4.293||0.001|TWO_SIDED|95.0|6.34|23.56|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||23.56|6.34|0.0010
92293526|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|10.86|STANDARD_ERROR_OF_MEAN|4.451||0.0179|TWO_SIDED|95.0|1.95|19.78|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||19.78|1.95|0.0179
92293527|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|9.06|STANDARD_ERROR_OF_MEAN|4.44||0.0462|TWO_SIDED|95.0|0.16|17.96|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||17.96|0.16|0.0462
92293528|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|11.78|STANDARD_ERROR_OF_MEAN|4.358||0.0091|TWO_SIDED|95.0|3.05|20.52|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||20.52|3.05|0.0091
92293529|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|7.31|STANDARD_ERROR_OF_MEAN|4.064||0.0774|TWO_SIDED|95.0|-0.83|15.45|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||15.45|-0.83|0.0774
92293530|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|7.16|STANDARD_ERROR_OF_MEAN|4.165||0.0909|TWO_SIDED|95.0|-1.18|15.5|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||15.50|-1.18|0.0909
92293531|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|2.13|STANDARD_ERROR_OF_MEAN|4.157||0.6107|TWO_SIDED|95.0|-6.2|10.45|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.45|-6.20|0.6107
92293532|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|11.59|STANDARD_ERROR_OF_MEAN|4.076||0.0062|TWO_SIDED|95.0|3.42|19.75|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||19.75|3.42|0.0062
92293533|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|8.69|STANDARD_ERROR_OF_MEAN|4.712||0.0702|TWO_SIDED|95.0|-0.74|18.13|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||18.13|-0.74|0.0702
92293534|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|6.69|STANDARD_ERROR_OF_MEAN|4.807||0.1692|TWO_SIDED|95.0|-2.93|16.32|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||16.32|-2.93|0.1692
92293535|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|4.31|STANDARD_ERROR_OF_MEAN|4.819||0.3751|TWO_SIDED|95.0|-5.34|13.96|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||13.96|-5.34|0.3751
92293536|NCT01243151|184490747|SUPERIORITY_OR_OTHER||LS Mean Difference|13.65|STANDARD_ERROR_OF_MEAN|4.709||0.0053|TWO_SIDED|95.0|4.23|23.08|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||23.08|4.23|0.0053
92293537|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.64|STANDARD_ERROR_OF_MEAN|3.951|<|0.0001|TWO_SIDED|95.0|-38.56|-22.72|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.72|-38.56|<0.0001
92293538|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.62|STANDARD_ERROR_OF_MEAN|4.084|<|0.0001|TWO_SIDED|95.0|-34.8|-18.44|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-18.44|-34.80|<0.0001
92293539|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.27|STANDARD_ERROR_OF_MEAN|4.003|<|0.0001|TWO_SIDED|95.0|-43.29|-27.24|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-27.24|-43.29|<0.0001
92293540|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.42|STANDARD_ERROR_OF_MEAN|3.931|<|0.0001|TWO_SIDED|95.0|-41.3|-25.54|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-25.54|-41.30|<0.0001
92293541|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.38|STANDARD_ERROR_OF_MEAN|5.467|<|0.0001|TWO_SIDED|95.0|-52.34|-30.42|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-30.42|-52.34|<0.0001
92293542|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.12|STANDARD_ERROR_OF_MEAN|5.61|<|0.0001|TWO_SIDED|95.0|-49.36|-26.88|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-26.88|-49.36|<0.0001
92293543|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.42|STANDARD_ERROR_OF_MEAN|5.599|<|0.0001|TWO_SIDED|95.0|-58.64|-36.2|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-36.20|-58.64|<0.0001
92293544|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.93|STANDARD_ERROR_OF_MEAN|5.453|<|0.0001|TWO_SIDED|95.0|-57.87|-36.0|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-36.00|-57.87|<0.0001
92293545|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.37|STANDARD_ERROR_OF_MEAN|4.275|<|0.0001|TWO_SIDED|95.0|-53.96|-36.77|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-36.77|-53.96|<0.0001
92293546|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.78|STANDARD_ERROR_OF_MEAN|4.374|<|0.0001|TWO_SIDED|95.0|-57.58|-39.99|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.99|-57.58|<0.0001
92293547|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.49|STANDARD_ERROR_OF_MEAN|4.346|<|0.0001|TWO_SIDED|95.0|-63.23|-45.75|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-45.75|-63.23|<0.0001
92293548|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.75|STANDARD_ERROR_OF_MEAN|4.222|<|0.0001|TWO_SIDED|95.0|-60.25|-43.26|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.26|-60.25|<0.0001
92144664|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58||||0.175|TWO_SIDED|95.0|0.1|3.347|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=1.838||||3.347|0.100|0.175
92144665|NCT00952367|184173701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.516|||<|0.001|TWO_SIDED|95.0|0.4|0.666|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=25.960||Whether have brothers or sisters, no vs yes||0.666|0.400|<0.001
92144666|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.255||||0.057|TWO_SIDED|95.0|0.062|1.044|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=3.610||Birth information, preterm birth vs full-term birth||1.044|0.062|0.057
92293549|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.82|STANDARD_ERROR_OF_MEAN|4.373|<|0.0001|TWO_SIDED|95.0|-49.58|-32.07|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-32.07|-49.58|<0.0001
92293550|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.75|STANDARD_ERROR_OF_MEAN|4.464|<|0.0001|TWO_SIDED|95.0|-52.68|-34.81|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-34.81|-52.68|<0.0001
92293551|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.36|STANDARD_ERROR_OF_MEAN|4.437|<|0.0001|TWO_SIDED|95.0|-61.25|-43.48|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.48|-61.25|<0.0001
92293552|NCT01243151|184490748|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.94|STANDARD_ERROR_OF_MEAN|4.312|<|0.0001|TWO_SIDED|95.0|-58.58|-41.31|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-41.31|-58.58|<0.0001
92293553|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|19.581||0.9789|TWO_SIDED|95.0|-39.08|38.04|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||38.04|-39.08|0.9789
92293554|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.94|STANDARD_ERROR_OF_MEAN|20.069||0.5525|TWO_SIDED|95.0|-51.46|27.59|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.59|-51.46|0.5525
92293555|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.39|STANDARD_ERROR_OF_MEAN|19.979||0.5035|TWO_SIDED|95.0|-52.73|25.96|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||25.96|-52.73|0.5035
92293556|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.21|STANDARD_ERROR_OF_MEAN|19.601||0.8302|TWO_SIDED|95.0|-42.81|34.39|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||34.39|-42.81|0.8302
92293557|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.45|STANDARD_ERROR_OF_MEAN|19.581||0.559|TWO_SIDED|95.0|-50.01|27.1|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.10|-50.01|0.5590
92293558|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.84|STANDARD_ERROR_OF_MEAN|20.069||0.5558|TWO_SIDED|95.0|-51.36|27.69|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.69|-51.36|0.5558
92144667|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.666||||0.04|TWO_SIDED|95.0|0.451|0.981|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=4.228||Household register, local vs nonlocal||0.981|0.451|0.040
92293559|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|20.332||0.6835|TWO_SIDED|95.0|-48.34|31.74|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||31.74|-48.34|0.6835
92293560|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.15|STANDARD_ERROR_OF_MEAN|19.601||0.5699|TWO_SIDED|95.0|-49.75|27.45|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.45|-49.75|0.5699
92144668|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.182||||0.044|TWO_SIDED|95.0|0.758|1.844|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=4.074||Feeding manners within 6 months, pure breast feeding vs pure formula milk feeding||1.844|0.758|0.044
92144669|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.707||||0.038|TWO_SIDED|95.0|0.42|1.191|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=4.316||Feeding manners within 6 months, mixed feeding vs pure formula milk feeding||1.191|0.420|0.038
92144670|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|92.229||||0.006|TWO_SIDED|95.0|3.993|2130.5|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=7.438||Father's education level, illiteracy vs postgraduate or above||2130.500|3.993|0.006
92293561|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.42|STANDARD_ERROR_OF_MEAN|19.918||0.3826|TWO_SIDED|95.0|-56.64|21.8|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||21.80|-56.64|0.3826
92293562|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.83|STANDARD_ERROR_OF_MEAN|20.069||0.5233|TWO_SIDED|95.0|-52.35|26.7|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||26.70|-52.35|0.5233
92293563|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.47|STANDARD_ERROR_OF_MEAN|20.332||0.3391|TWO_SIDED|95.0|-59.51|20.57|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||20.57|-59.51|0.3391
92293564|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.95|STANDARD_ERROR_OF_MEAN|19.601||0.3606|TWO_SIDED|95.0|-56.55|20.65|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||20.65|-56.55|0.3606
92293565|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.33|STANDARD_ERROR_OF_MEAN|19.918||0.5364|TWO_SIDED|95.0|-51.55|26.89|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||26.89|-51.55|0.5364
92293566|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.56|STANDARD_ERROR_OF_MEAN|20.069||0.5651|TWO_SIDED|95.0|-51.08|27.96|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.96|-51.08|0.5651
92293567|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.65|STANDARD_ERROR_OF_MEAN|20.332||0.4719|TWO_SIDED|95.0|-54.69|25.39|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||25.39|-54.69|0.4719
92293568|NCT01243151|184490749|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.53|STANDARD_ERROR_OF_MEAN|19.601||0.3999|TWO_SIDED|95.0|-55.13|22.07|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||22.07|-55.13|0.3999
92293569|NCT02898740|184490798|OTHER||Mean Difference (Net)|-3.4|STANDARD_ERROR_OF_MEAN|1.7|<|0.05|TWO_SIDED|95.0|-6.8|0.0|||Mixed Models Analysis|models were adjusted for age|treatment difference = Exercise - Health Education|||-0.0|-6.8|<0.05
92293570|NCT01710358|184490799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Regression, Logistic|||||||0.001
92293571|NCT00880334|184490819|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.939|TWO_SIDED|95.0|0.69|1.49|||Log Rank|||The study was designed with 80% power to detect 60% improvement in median PFS from 18 to 28.8 weeks (Vandetanib+docetaxel/Placebo+docetaxel hazard ratio of 0.625) with the addition of Vandetanib while maintaining an overall significance level of 5% in a one-sided test. This assumed exponential distribution of events, accrual of 1.75 patients per week (7-8 patients per month) for 78 weeks with 34 weeks of additional follow-up (112 weeks total). Full information was 118 PFS events.||1.49|0.69|0.939
92293572|NCT00880334|184490821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.873|TWO_SIDED|95.0|0.81|1.79|||Log Rank|||||1.79|0.81|.873
92293573|NCT00880334|184490822|SUPERIORITY_OR_OTHER|||||||0.56|||||||Fisher Exact|||||||0.56
92293574|NCT00880334|184490823|SUPERIORITY_OR_OTHER|||||||0.31|||||||Fisher Exact|||||||0.31
92293575|NCT05053360|184490885|SUPERIORITY||Odds Ratio (OR)|2.87||||0.019|TWO_SIDED|95.0|1.19|6.93|||Regression, Logistic|||HIGH PAIN = score over 6 on a 0-10 pain scale (higher number indicating higher pain)||6.93|1.19|.019
92293576|NCT05053360|184490886|SUPERIORITY||Mean Difference (Final Values)|-2.28||||0.0002|TWO_SIDED|95.0|-3.47|-1.09|||ANCOVA|||||-1.09|-3.47|.0002
92293577|NCT01586039|184490890|SUPERIORITY|||||||0.73||||||Contrasting LED vs. CFL at 90 lux intensity|t-test, 2 sided|Paired t-test.||Contrasting LED vs. CFL at 90 lux intensity. Melatonin suppression is measured as the percentage of melatonin AUC relative to the AUC measured in dim light on the previous day. Higher values indicate more light-induced melatonin suppression.||||0.73
92293578|NCT01586039|184490890|SUPERIORITY|||||||0.001||||||Contrasting LED vs. CFL at 50 lux intensity|t-test, 2 sided|Paired t-test||Contrasting LED vs. CFL at 50 lux intensity||||0.001
92144671|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.671||||0.778|TWO_SIDED|95.0|0.537|40.608|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.079||Father's education level, elementary school vs postgraduate or above||40.608|0.537|0.778
92293579|NCT01586039|184490891|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|Paired t-test||||||0.19
92293580|NCT01586039|184490893|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|Paired t-test.||||||0.17
92293581|NCT01586039|184490893|SUPERIORITY|||||||1|||||||t-test, 2 sided|Paired test.||||||1.0
92293582|NCT01632215|184490908|SUPERIORITY||Mean Difference (Net)|0.3|||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
92293583|NCT03277248|184490920|SUPERIORITY||Rate Ratio (Ublituximab / Teriflunomide)|0.509||||0.0022|TWO_SIDED|95.0|0.33|0.784||GEE (Generalized Estimating Equation) model for the relapse count per participant with logarithmic link function, treatment, region, and baseline Expanded Disability Status Scale (EDSS) strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.784|0.330|0.0022
92293584|NCT03277248|184490921|SUPERIORITY||Rate Ratio (Ublituximab / Teriflunomide)|0.035|||<|0.0001|TWO_SIDED|95.0|0.019|0.064||GEE model for the relapse count per participant with logarithmic link function, treatment, region, and baseline EDSS strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.064|0.019|<.0001
92293585|NCT03277248|184490922|SUPERIORITY||Rate Ratio (Ublituximab / Teriflunomide)|0.1|||<|0.0001|TWO_SIDED|95.0|0.073|0.136||GEE model for the relapse count per participant with logarithmic link function, treatment, region, and baseline EDSS strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.136|0.073|<.0001
92293586|NCT03277248|184490924|SUPERIORITY||Odds Ratio (Ublituximab / Teriflunomide)|7.946|||<|0.0001|TWO_SIDED|95.0|4.917|12.841||Logistic regression model with treatment, region, baseline EDSS strata and log transformed baseline MRI lesion counts (T1-unenhancing, T2, Gd-enhancing) as covariates.|Regression, Logistic|||||12.841|4.917|<.0001
92293587|NCT03277248|184490925|SUPERIORITY||Odds Ratio (Ublituximab / Teriflunomide)|0.862||||0.429|TWO_SIDED|95.0|0.596|1.246||Logistic regression model with treatment, region, baseline EDSS strata and log transformed baseline MRI lesion counts (T1 unenhancing, T2, Gd enhancing) as covariates.|Regression, Logistic|||||1.246|0.596|0.4290
92293588|NCT03277248|184490926|SUPERIORITY||Least Squares Mean Difference|-0.018||||0.3108|TWO_SIDED|95.0|-0.053|0.017||Mixed model repeated measures (MMRM) model includes treatment, region, baseline EDSS strata, visit, treatment-by-visit interaction, and baseline volume (cube root transformed) as covariates and an unstructured covariance matrix.|Mixed Model Repeated Measures|||||0.017|-0.053|0.3108
92293589|NCT01993940|184490928|SUPERIORITY_OR_OTHER||Difference|18.9|STANDARD_ERROR_OF_MEAN|4.12|<|0.0001|TWO_SIDED|95.0|10.8|27.0||To control the overall type I error rate to be ≤ 0.05 for the primary and secondary efficacy endpoints, a fixed-sequence (hierarchical) testing approach was applied.|Cochran-Mantel-Haenszel|P-value was calculated by Cochran-Mantel-Haenszel test adjusted by the opioid dose strata.||||27.0|10.8|<0.0001
92293590|NCT01993940|184490929|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.243|<|0.0001|TWO_SIDED|95.0|0.92|1.88|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.88|0.92|<0.0001
92293591|NCT01993940|184490930|SUPERIORITY_OR_OTHER||LS Mean Difference|2.17|STANDARD_ERROR_OF_MEAN|0.277|<|0.0001|TWO_SIDED|95.0|1.63|2.71|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||2.71|1.63|<0.0001
92293592|NCT01993940|184490931|SUPERIORITY_OR_OTHER||LS Mean Difference|1.15|STANDARD_ERROR_OF_MEAN|0.232|<|0.0001|TWO_SIDED|95.0|0.7|1.61|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.61|0.70|<0.0001
92293593|NCT01993940|184490932|SUPERIORITY_OR_OTHER||LS Mean Difference|0.75|STANDARD_ERROR_OF_MEAN|0.227||0.0011|TWO_SIDED|95.0|0.3|1.19|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.19|0.30|0.0011
92293594|NCT01949532|184490933|SUPERIORITY_OR_OTHER||Ratio of geometric means|132.75|||||TWO_SIDED|90.0|70.6|249.63|||||The point estimates of the geometric mean ratios for the PK parameters were calculated by exponentiation of the differences in the least-squares means between the renal impairment group (test) and participants with normal renal function (reference).|||249.63|70.60|
92293595|NCT01949532|184490934|SUPERIORITY_OR_OTHER||Ratio of geometric means|133.62|||||TWO_SIDED|90.0|70.93|251.73||||||||251.73|70.93|
92144672|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.83||||0.756|TWO_SIDED|95.0|0.649|35.956|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.096||Father's education level, junior high school vs postgraduate or above||35.956|0.649|0.756
92293596|NCT01277510|184491014|SUPERIORITY_OR_OTHER_LEGACY||Difference (Cinacalcet - Placebo)|35.5||||0.017|TWO_SIDED|95.0|8.76|62.24|||Cochran-Mantel-Haenszel|Cochran- Mantel-Haenszel (CMH) test stratified by baseline age group (6 -\<12 years old or 12 - \<18 years old).||A hierarchical testing procedure was used to test the primary and biochemical secondary endpoints (Outcome Measures 1-5). The primary endpoint was tested at a significance level of 0.05. The four biochemical secondary endpoints were to be tested using Holm's method at 0.05 should the primary endpoint achieve a significant result.||62.24|8.76|0.017
92293597|NCT01277510|184491015|SUPERIORITY_OR_OTHER_LEGACY||Difference (Cinacalcet - Placebo)|3.46||||0.826|TWO_SIDED|95.0|-22.58|29.51|||Cochran-Mantel-Haenszel|Cochran- Mantel-Haenszel (CMH) test stratified by baseline age group (6 -\<12 years old or 12 - \<18 years old).||The secondary endpoint with the smallest p-value was first compared at a significance level of 0.0125. If the p-value was \> 0.0125, all 4 secondary endpoints were non-significant; if ≤ 0.0125, the null hypothesis for that endpoint was rejected. Next, the 2nd smallest p-value was compared at a level of 0.0167; if \> 0.0167, the remaining 3 endpoints were not significant, or, the null hypothesis of that endpoint was rejected. The other 2 endpoints were analyzed similarly, at 0.025 and 0.05.||29.51|-22.58|0.826
92293598|NCT01277510|184491016|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.7||||0.147|TWO_SIDED|95.0|-8.6|1.3|||ANCOVA|Baseline age group was used as covariate.|Cinacalcet-Placebo|The secondary endpoint with the smallest p-value was first compared at a significance level of 0.0125. If the p-value was \> 0.0125, all 4 secondary endpoints were non-significant; if ≤ 0.0125, the null hypothesis for that endpoint was rejected. Next, the 2nd smallest p-value was compared at a level of 0.0167; if \> 0.0167, the remaining 3 endpoints were not significant, or, the null hypothesis of that endpoint was rejected. The other 2 endpoints were analyzed similarly, at 0.025 and 0.05.||1.3|-8.6|0.147
92293599|NCT01277510|184491017|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.3||||0.454|TWO_SIDED|95.0|-19.4|8.9|||ANCOVA|Baseline age group was used as covariate|Cinacalcet-Placebo|The secondary endpoint with the smallest p-value was first compared at a significance level of 0.0125. If the p-value was \> 0.0125, all 4 secondary endpoints were non-significant; if ≤ 0.0125, the null hypothesis for that endpoint was rejected. Next, the 2nd smallest p-value was compared at a level of 0.0167; if \> 0.0167, the remaining 3 endpoints were not significant, or, the null hypothesis of that endpoint was rejected. The other 2 endpoints were analyzed similarly, at 0.025 and 0.05.||8.9|-19.4|0.454
92293600|NCT01277510|184491018|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-10.0||||0.117|TWO_SIDED|95.0|-22.5|2.6|||ANCOVA|Baseline age group was used as covariate.|Cinacalcet-Placebo|The secondary endpoint with the smallest p-value was first compared at a significance level of 0.0125. If the p-value was \> 0.0125, all 4 secondary endpoints were non-significant; if ≤ 0.0125, the null hypothesis for that endpoint was rejected. Next, the 2nd smallest p-value was compared at a level of 0.0167; if \> 0.0167, the remaining 3 endpoints were not significant, or, the null hypothesis of that endpoint was rejected. The other 2 endpoints were analyzed similarly, at 0.025 and 0.05.||2.6|-22.5|0.117
92144673|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.513||||0.179|TWO_SIDED|95.0|0.474|26.03|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=1.807||Father's education level, senior high school/vocational high school/technical secondary school vs postgraduate or above||26.030|0.474|0.179
92293601|NCT01277510|184491019|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.896|TWO_SIDED|95.0|-3.1|3.6||No adjustments for multiplicity were made.|ANCOVA|Baseline age group was used as covariate.|Cinacalcet-Placebo|||3.6|-3.1|0.896
92293602|NCT01277510|184491021|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8||||0.854|TWO_SIDED|95.0|-9.4|7.9|||ANCOVA|Baseline age group was used as covariate.|Cinacalcet-Placebo|||7.9|-9.4|0.854
92293603|NCT01874535|184491045|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.009|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92293604|NCT00784095|184491046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9||||0.047|TWO_SIDED|95.0|0.04|5.7|||Mixed Models Analysis|||Intervention (Preparation and Completion) versus True Control at 8 weeks||5.7|.04|.047
92293605|NCT00784095|184491046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|||||TWO_SIDED|95.0|-1.1|4.7||||||Intervention (Preparation and Completion) versus Attention Control at 8 weeks||4.7|-1.1|
92293606|NCT00784095|184491047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|-3.2|5.6||||||Intervention (Preparation and Completion) versus True Control at 8 weeks||5.6|-3.2|
92293607|NCT00784095|184491047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-5.6|3.3||||||Intervention (Preparation and Completion) versus Attention Control at 8 weeks||3.3|-5.6|
92293608|NCT00784095|184491048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|||||TWO_SIDED|95.0|-6.2|2.9||||||Intervention (Preparation and Completion) versus True Control at 8 weeks||2.9|-6.2|
92293609|NCT00784095|184491048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|||||TWO_SIDED|95.0|-8.2|1.0||||||Intervention (Preparation and Completion) versus Attention Control at 8 weeks||1.0|-8.2|
92293610|NCT00784095|184491049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-4.5|3.4||||||Intervention (Preparation and Completion) versus True Control at 8 weeks||3.4|-4.5|
92293611|NCT00784095|184491049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-5.1|3.0||||||Intervention versus Attention Control at 8 weeks.||3.0|-5.1|
92293612|NCT00784095|184491050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-4.8|3.7||||||Intervention (Preparation and Completion) versus True Control at 8 weeks||3.7|-4.8|
92293613|NCT00784095|184491050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|||||TWO_SIDED|95.0|-1.9|6.7||||||Intervention (Preparation and Completion) versus Attention Control at 8 weeks.||6.7|-1.9|
92293614|NCT02616380|184491052|OTHER||||||<|0.0001|||||||Paired t-test|The mean change was tested with a paired t-test without adjusting for baseline disease severity.||||||<0.0001
92293615|NCT02616380|184491053|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Physical Component Score at Week 12||||<0.0001
92293616|NCT02616380|184491053|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Physical Component Score at Week 24||||<0.0001
92293617|NCT02616380|184491053|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Mental Component Score at Week 12||||<0.0001
92144674|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.029||||0.077|TWO_SIDED|95.0|0.412|22.292|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=3.131||Father's education level, college/university vs postgraduate or above||22.292|0.412|0.077
92293618|NCT02616380|184491053|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Mental Component Score at Week 24||||<0.0001
92293619|NCT02616380|184491054|OTHER||||||<|0.0001|||||||Paired t-test|||Change from Baseline in EQ-5D-3L at 12 weeks||||<0.0001
92293620|NCT02616380|184491054|OTHER||||||<|0.0001|||||||Paired t-test|||Change from Baseline in EQ-5D-3L at 24 weeks||||<0.0001
92144675|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.984||||0.056|TWO_SIDED|95.0|0.968|1.0|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=3.648||Living space per capita, continuous variables||1.000|0.968|0.056
92144676|NCT00952367|184173702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.729||||0.064|TWO_SIDED|95.0|0.522|1.018|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=3.432||Vaccination history of Hib, no vs yes||1.018|0.522|0.064
92144677|NCT00952367|184173703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.438||||0.019|TWO_SIDED|95.0|0.221|0.871|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=5.538||Birth information, preterm birth vs full-term birth||0.871|0.221|0.019
92293621|NCT02616380|184491055|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Overall Work Impairment at Week 12||||<0.0001
92293622|NCT02616380|184491055|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Overall Work Impairment at Week 24||||<0.0001
92293623|NCT02616380|184491055|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Activity Impairment at Week 12||||<0.0001
92293624|NCT02616380|184491055|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Activity Impairment at Week 24||||<0.0001
92293625|NCT02616380|184491056|OTHER||||||<|0.0001|||||||Paired t-test|The mean change was tested with a paired t-test without adjusting for baseline disease severity.||||||<0.0001
92293626|NCT00421304|184491102|SUPERIORITY|||||||0.218|||||||Wilcoxon's rank-sum test|||||||0.218
92293627|NCT00421304|184491102|SUPERIORITY|||||||0.643|||||||Wilcoxon's rank-sum test|||||||0.643
92293628|NCT00421304|184491102|SUPERIORITY|||||||0.677|||||||Wilcoxon's rank-sum test|||||||0.677
92293629|NCT00421304|184491103|SUPERIORITY|||||||0.257|||||||Wilcoxon's rank-sum test|||||||0.257
92293630|NCT00421304|184491103|SUPERIORITY|||||||0.726|||||||Wilcoxon's rank-sum test|||||||0.726
92293631|NCT00421304|184491103|SUPERIORITY|||||||0.551|||||||Wilcoxon's rank-sum test|||||||0.551
92293632|NCT00421304|184491104|SUPERIORITY|||||||0.591|||||||Wilcoxon's rank-sum test|||||||0.591
92293633|NCT00421304|184491104|SUPERIORITY|||||||0.393|||||||Wilcoxon's rank-sum test|||||||0.393
92293634|NCT00421304|184491104|SUPERIORITY|||||||0.586|||||||Wilcoxon's rank-sum test|||||||0.586
92293635|NCT00421304|184491105|SUPERIORITY|||||||0.894|||||||Wilcoxon's rank-sum test|||||||0.894
92293636|NCT00421304|184491105|SUPERIORITY|||||||0.674|||||||Wilcoxon's rank-sum test|||||||0.674
92293637|NCT00421304|184491105|SUPERIORITY|||||||0.636|||||||Wilcoxon's rank-sum test|||||||0.636
92293638|NCT00421304|184491106|SUPERIORITY|||||||0.397|||||||Wilcoxon's rank-sum test|||||||0.397
92293639|NCT00421304|184491106|SUPERIORITY|||||||0.238|||||||Wilcoxon's rank-sum test|||||||0.238
92293640|NCT00421304|184491106|SUPERIORITY|||||||0.461|||||||Wilcoxon's rank-sum test|||||||0.461
92293641|NCT00421304|184491107|SUPERIORITY|||||||0.322|||||||Wilcoxon's rank-sum test|||||||0.322
92293642|NCT00421304|184491107|SUPERIORITY|||||||0.747|||||||Wilcoxon's rank-sum test|||||||0.747
92293643|NCT00421304|184491107|SUPERIORITY|||||||0.717|||||||Wilcoxon's rank-sum test|||||||0.717
92293644|NCT00421304|184491108|SUPERIORITY|||||||0.847|||||||Wilcoxon's rank-sum test|||||||0.847
92293645|NCT00421304|184491108|SUPERIORITY|||||||1|||||||Wilcoxon's rank-sum test|||||||1.000
92293646|NCT00421304|184491108|SUPERIORITY|||||||1|||||||Wilcoxon's rank-sum test|||||||1.000
92293647|NCT00421304|184491109|SUPERIORITY|||||||0.653|||||||Wilcoxon's rank-sum test|||||||0.653
92293648|NCT00421304|184491109|SUPERIORITY|||||||0.283|||||||Wilcoxon's rank-sum test|||||||0.283
92293649|NCT00421304|184491109|SUPERIORITY|||||||0.411|||||||Wilcoxon's rank-sum test|||||||0.411
92293650|NCT00421304|184491110|SUPERIORITY|||||||0.988|||||||Wilcoxon's rank-sum test|||||||0.988
92293651|NCT00421304|184491110|SUPERIORITY|||||||0.832|||||||Wilcoxon's rank-sum test|||||||0.832
92293652|NCT00421304|184491110|SUPERIORITY|||||||0.748|||||||Wilcoxon's rank-sum test|||||||0.748
92293653|NCT00421304|184491111|SUPERIORITY|||||||0.28|||||||Wilcoxon's rank-sum test|||||||0.280
92293654|NCT00421304|184491111|SUPERIORITY|||||||0.108|||||||Wilcoxon's rank-sum test|||||||0.108
92293655|NCT00421304|184491111|SUPERIORITY|||||||1|||||||Wilcoxon's rank-sum test|||||||1.000
92293656|NCT00421304|184491112|SUPERIORITY|||||||0.742|||||||Wilcoxon's rank-sum test|||||||0.742
92293657|NCT00421304|184491112|SUPERIORITY|||||||0.486|||||||Wilcoxon's rank-sum test|||||||0.486
92293658|NCT00421304|184491112|SUPERIORITY|||||||0.49|||||||Wilcoxon's rank-sum test|||||||0.490
92293659|NCT00421304|184491113|SUPERIORITY|||||||1|||||||Wilcoxon's rank-sum test|||||||1.000
92293660|NCT00421304|184491114|SUPERIORITY|||||||0.05|||||||Wilcoxon's rank-sum test|||||||0.050
92293661|NCT00421304|184491115|SUPERIORITY|||||||0.008|||||||Wilcoxon's rank-sum test|||||||0.008
92293662|NCT00421304|184491116|SUPERIORITY|||||||0.012|||||||Wilcoxon's rank-sum test|||||||0.012
92293663|NCT00421304|184491117|SUPERIORITY||||||<|0.001|||||||Wilcoxon's rank-sum test|||||||<0.001
92293664|NCT00919711|184491136|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.6|||<|0.0001|TWO_SIDED|95.0|1.2|2.0|||ANCOVA||Denosumab - Risedronate|||2.0|1.2|<0.0001
92293665|NCT00919711|184491137|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92293666|NCT00919711|184491138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.4|||<|0.0001|TWO_SIDED|95.0|0.9|1.8|||ANCOVA||Denosumab - Risedronate|||1.8|0.9|<0.0001
92293667|NCT00919711|184491139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.3|||<|0.0001|TWO_SIDED|95.0|1.8|2.8|||ANCOVA||Denosumab - Risedronate|||2.8|1.8|<0.0001
92293668|NCT01680016|184491263|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was achieved if the lower limit of the two-sided 95% CI around the observed ratio of GMCs between the groups (GMCGroup Zagreb / GMCGroup Essen) was greater than 0.5|Ratio of GMCs between two groups(Day 15)|0.84|||||TWO_SIDED|95.0|0.69|1.02|||ANOVA|||To demonstrate noninferiority in immune response of the Zagreb post-exposure schedule of Rabipur to that of the conventional Essen post-exposure schedule at day 15 in children aged ≥6 to ≤17 years||1.02|0.69|
92293669|NCT01680016|184491264|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was achieved if the lower limit of the two-sided 95% CI around the observed ratio of GMCs between the groups (GMCGroup Zagreb / GMCGroup Essen) was greater than 0.5|Ratio of GMCs between two groups(Day 15)|1.09|||||TWO_SIDED|95.0|0.87|1.35|||ANOVA|||To demonstrate noninferiority in immune response of the Zagreb post-exposure schedule of Rabipur to that of the conventional Essen post-exposure schedule at day 15 in older adults aged ≥51 years||1.35|0.87|
92293670|NCT03460990|184491283|SUPERIORITY||Least Squares (LS) Mean Difference|10.0|||<|0.0001|TWO_SIDED|95.0|7.4|12.5|||Mixed-effects model for repeated measure|||||12.5|7.4|< 0.0001
92293671|NCT03460990|184491284|SUPERIORITY||LS Mean Difference|-48.7|||<|0.0001|TWO_SIDED|95.0|-53.9|-43.5|||Mixed-effects model for repeated measure|||||-43.5|-53.9|<0.0001
92293672|NCT03460990|184491285|SUPERIORITY||LS Mean Difference|13.5|||<|0.0001|TWO_SIDED|95.0|8.8|18.3|||Mixed-effects model for repeated measure|||||18.3|8.8|<0.0001
92144678|NCT00952367|184173703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.546|||<|0.001|TWO_SIDED|95.0|0.423|0.703|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=21.938||Household register, local vs nonlocal||0.703|0.423|<0.001
92293673|NCT01958060|184491289|SUPERIORITY_OR_OTHER||Slope|1.0604|STANDARD_ERROR_OF_MEAN|0.0337|||TWO_SIDED|95.0|0.9901|1.1308|||||Dose proportionality was explored using linear regression model (ANOVA).The perfect dose proportionality would correspond to a slope β of 1.PK endpoints on the log-transformed scale.Standard error (SE) of the mean is actually the SE of the slope.|This was non confirmatory testing (Single dose). Dose proportionality of BI 1034020 following iv administration of single rising doses of 5 mg, 10 mg, 20 mg and 50 mg for Cmax was analysed.||1.1308|0.9901|
92293674|NCT01958060|184491291|SUPERIORITY_OR_OTHER||Slope|1.5629|STANDARD_ERROR_OF_MEAN|0.1056|||TWO_SIDED|95.0|1.3426|1.7833|||||Dose proportionality was explored using the linear regression model.The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.Standard error of the mean is actually the standard error of the slope.|This was non confirmatory testing (Single dose). Dose proportionality of BI 1034020 following iv administration of single rising doses of 5 mg, 10 mg, 20 mg and 50 mg for AUClast was analysed.||1.7833|1.3426|
92293675|NCT00769314|184491292|SUPERIORITY_OR_OTHER||Treatment difference|0.0685||||0.0419|TWO_SIDED|95.0|0.0025|0.1339||p-value \< 0.05 considered significant|Chi-squared||Treatment difference was the proportion of patients with aborted lesions in the acyclovir Lauriad group minus the proportion of patients with aborted lesions in the placebo group.|||0.1339|0.0025|0.0419
92293676|NCT00769314|184491293|SUPERIORITY_OR_OTHER|||||||0.0683||||||p-value \< 0.05 considered significant|Log Rank|||||||0.0683
92293677|NCT00769314|184491294|SUPERIORITY_OR_OTHER|||||||0.0033||||||p-value \< 0.05 considered significant|Log Rank|||||||0.0033
92293678|NCT00769314|184491295|SUPERIORITY_OR_OTHER|||||||0.0098||||||p-value \< 0.05 considered significant|Log Rank|||||||0.0098
92293679|NCT00769314|184491296|SUPERIORITY_OR_OTHER|||||||0.8005||||||p-value \< 0.05 considered significant|Log Rank|||||||0.8005
92293680|NCT00769314|184491297|SUPERIORITY_OR_OTHER|||||||0.015||||||p-value \< 0.05 considered significant|Log Rank|||||||0.015
92293681|NCT00769314|184491298|SUPERIORITY_OR_OTHER|||||||0.0412||||||p-value \< 0.05 considered significant|Log Rank|||||||0.0412
92293682|NCT00769314|184491299|SUPERIORITY_OR_OTHER|||||||0.0271||||||p-value \< 0.05 considered significant|Chi-squared|||||||0.0271
92293683|NCT00769314|184491300|SUPERIORITY_OR_OTHER|||||||0.5695||||||p-value \< 0.05 considered significant|Wilcoxon (Mann-Whitney)|||Analysis conducted between treatment groups at Day 1 timepoint.||||0.5695
92293684|NCT00769314|184491300|SUPERIORITY_OR_OTHER|||||||0.1824||||||p-value \< 0.05 considered significant|Wilcoxon (Mann-Whitney)|||Analysis conducted between treatment groups at Day 3 timepoint||||0.1824
92293685|NCT00769314|184491300|SUPERIORITY_OR_OTHER|||||||0.0078||||||p-value \< 0.05 considered significant|Wilcoxon (Mann-Whitney)|||Analysis conducted between treatment groups at the Day 5 timepoint||||0.0078
92293686|NCT00769314|184491300|SUPERIORITY_OR_OTHER|||||||0.3303||||||p-value \< 0.05 considered significant|Wilcoxon (Mann-Whitney)|||Analysis conducted between treatment groups at the Day 7 timepoint||||0.3303
92293687|NCT00769314|184491300|SUPERIORITY_OR_OTHER|||||||0.6045||||||p-value \< 0.05 considered significant|Wilcoxon (Mann-Whitney)|||Analysis conducted between treatment groups at the Day 14 timepoint||||0.6045
92293688|NCT00769314|184491301|SUPERIORITY_OR_OTHER|||||||0.0022||||||p-value \< 0.05 considered significant|Chi-squared|||||||0.0022
92293689|NCT02846883|184491311|SUPERIORITY|These power estimates are based on linear regression of regulatory T-cell counts at each time point. These data will be summarized with the mean, median, standard deviation, standard error, minimum and maximum.|Mean Difference (Final Values)|81.0|||<|0.05|TWO_SIDED|95.0||||P value is adjusted for multiple comparisons|Regression, Cox|See above|Estimates for the differences in the secondary endpoints will be used to perform a power estimation using a Monte Carlo simulation method.|The primary statistical evaluation for Aim 1 will focus on the chronologically increasing counts of T-regulatory cells over time following MSC administration in both delivery groups. Using the pattern of increased counts with time and the standard deviation reported by Ito and colleagues in healthy subjects, 36 subjects provides 81.0% power to detect such a change.A p value of \<0.05 will be considered significant.||||<0.05
92293690|NCT00500318|184491353|SUPERIORITY_OR_OTHER||Least Square Mean|116.44|STANDARD_ERROR_OF_MEAN|40.113||0.0042|TWO_SIDED|95.0|37.28|195.61|||ANCOVA|||||195.610|37.280|0.0042
92293691|NCT04284553|184491361|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.97|1.49|||||"The Odds Ratio compares having open encounter as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having an open encounter alert in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the trial and adjusting for provider-level clustering.||1.49|0.97|
92293692|NCT04284553|184491361|SUPERIORITY||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.83|1.59|||||"The OR compares between having boostering as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having boostering in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||1.59|0.83|
92293693|NCT04284553|184491361|SUPERIORITY||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.61|1.16|||||"The OR compares between having cold-state priming as an intervention factor in the arm the patient's primary care providers were assigned to vs. all others not having cold-state priming in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||1.16|0.61|
92293694|NCT04284553|184491361|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.88|1.64|||||"The OR compares between having simplification as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having simplification in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||1.64|0.88|
92293695|NCT04284553|184491361|SUPERIORITY||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.52|0.98|||||"The OR compares between having sign-off approval as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having sign-off approval in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||0.98|0.52|
92293696|NCT04284553|184491361|SUPERIORITY||Odds Ratio (OR)|1.21|||||TWO_SIDED|95.0|0.89|1.64|||||"The OR compares between having pre-commitment as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having pre-commitment in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||1.64|0.89|
92293697|NCT04284553|184491361|SUPERIORITY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.55|1.19|||||"The OR compares patients having risk framing as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having risk framing in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||1.19|0.55|
92184798|NCT03879538|184268142|SUPERIORITY||Mean Difference (Net)|0.087||||0.66|TWO_SIDED|95.0|-0.31|0.48||a priori threshold for statistical significance is p\<0.05.|Mixed Models Analysis||Mean difference is Nitrous oxide minus control.|Null hypothesis for testing difference in means of mental health Z-score between two study groups: mean of mental health Z-score assessed at one-week and one-month follow-ups for Nitrous Oxide group was equal to that assessed at the same follow-up time points for Control group.||0.48|-0.31|0.66
92293698|NCT04284553|184491363|SUPERIORITY||Mean Difference (Final Values)|1.78|||||TWO_SIDED|95.0|-17.6|21.2|||||"The estimate compares having open encounter as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having open encounter in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||21.2|-17.6|
92293699|NCT04284553|184491363|SUPERIORITY||Mean Difference (Final Values)|-12.1|||||TWO_SIDED|95.0|-41.8|17.5|||||"The estimate compares having boostering as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having boostering in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||17.5|-41.8|
92293700|NCT04284553|184491363|SUPERIORITY||Mean Difference (Final Values)|39.5|||||TWO_SIDED|95.0|11.6|67.4|||||"The estimate compares having cold-state priming as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having cold-state priming in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||67.4|11.6|
92293701|NCT04284553|184491363|SUPERIORITY||Mean Difference (Final Values)|-1.74|||||TWO_SIDED|95.0|-30.4|26.9|||||"The estimate compares having simplification as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having simplification in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||26.9|-30.4|
92293702|NCT04284553|184491363|SUPERIORITY||Mean Difference (Final Values)|-10.1|||||TWO_SIDED|95.0|-37.6|17.4|||||"The estimate compares having sign-off approval as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having sign-off approval in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||17.4|-37.6|
92293703|NCT04284553|184491363|SUPERIORITY||Mean Difference (Final Values)|4.2|||||TWO_SIDED|95.0|-24.1|32.5|||||"The estimate compares having pre-commitment as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having pre-commitment in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||32.5|-24.1|
92293704|NCT04284553|184491363|SUPERIORITY||Mean Difference (Final Values)|-12.0|||||TWO_SIDED|95.0|-45.5|21.5|||||"The estimate compares having risk framing as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having risk framing in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||21.5|-45.5|
92293705|NCT00603564|184491366|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||endpoint was analyzed in terms of time by comparison of mean +- SD||||<0.001
92293706|NCT00603564|184491367|SUPERIORITY_OR_OTHER|||||||7e-06||95.0|||||Chi-squared|||||||0.000007
92293707|NCT01350934|184491368|SUPERIORITY_OR_OTHER_LEGACY||Estimated Difference|1.95|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|0.8|3.1|||Longitudinal data analysis|||||3.1|0.8|<0.001
92293708|NCT01350934|184491369|SUPERIORITY_OR_OTHER_LEGACY||Estimated Difference|2.92|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|1.8|4.1|||Longitudinal data analysis|||||4.1|1.8|<0.001
92293709|NCT01350934|184491370|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-42.37|||<|0.001|TWO_SIDED|95.0|-48.16|-36.67|||Constrained longitudinal data analysis|||||-36.67|-48.16|<0.001
92293710|NCT01350934|184491371|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-52.03|||<|0.001|TWO_SIDED|95.0|-59.04|-45.3|||Constrained longitudinal data analysis|||||-45.30|-59.04|<0.001
92293711|NCT01350934|184491372|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-51.07|||<|0.001|TWO_SIDED|95.0|-57.29|-44.99|||Constrained longitudinal data analysis|||||-44.99|-57.29|<0.001
92293712|NCT01350934|184491373|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-51.96|||<|0.001|TWO_SIDED|95.0|-58.77|-45.39|||Constrained longitudinal data analysis|||||-45.39|-58.77|<0.001
92293713|NCT01350934|184491374|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0279|||<|0.001|TWO_SIDED|95.0|0.0074|0.1048|||Cochran-Mantel-Haenszel|||Odds Ratio comparison of percentage of participants with \<20 ng/mL of serum 25-hydroxyvitamin (OH) D between Fosamax Plus group and Calcitriol group.||0.1048|0.0074|<0.001
92293714|NCT02435433|184491377|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0199|TWO_SIDED|95.0|0.531|0.949|||Log Rank||Stratified analysis|||0.949|0.531|0.0199
92293715|NCT02435433|184491378|SUPERIORITY||Hazard Ratio (HR)|0.452|||<|0.0001|TWO_SIDED|95.0|0.339|0.603|||Log Rank||Stratified analysis|||0.603|0.339|<0.0001
92293716|NCT02435433|184491379|SUPERIORITY||Hazard Ratio (HR)|0.427|||<|0.0001|TWO_SIDED|95.0|0.313|0.582|||Log Rank||Stratified analysis|||0.582|0.313|<0.0001
92293717|NCT02435433|184491380|SUPERIORITY||Odds Ratio (OR)|4.6||||0.1697|TWO_SIDED|95.0|0.6|37.3|||Cochran-Mantel-Haenszel||Stratified analysis|||37.3|0.6|0.1697
92293718|NCT02435433|184491384|SUPERIORITY||Hazard Ratio (HR)|0.799||||0.2382|TWO_SIDED|95.0|0.545|1.171|||Log Rank||Stratified analysis|||1.171|0.545|0.2382
92293719|NCT01579006|184491428|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92293720|NCT01579006|184491429|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92293721|NCT01579006|184491430|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92293722|NCT01579006|184491432|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92293723|NCT01579006|184491433|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92293724|NCT01579006|184491439|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92184799|NCT03879538|184268143|SUPERIORITY||Mean Difference (Net)|-0.7||||0.23|TWO_SIDED|95.0|-1.85|0.46||a priori threshold for statistical significance is p = 0.05.|Mixed Models Analysis||Mean difference is Nitrous Oxide minus Control.|Null hypothesis: Mean of PGIC scale assessed at one-week and one-month follow-up time points for Nitrous Oxide patients is equal to that assessed at the same time points for Control patients.||0.46|-1.85|0.23
92293725|NCT01579006|184491440|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92293726|NCT01579006|184491441|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92293727|NCT01579006|184491442|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92293728|NCT01579006|184491443|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92293729|NCT01579006|184491445|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
92293730|NCT00799708|184491452|SUPERIORITY_OR_OTHER|||||||0.345||95.0|||||ANOVA|||||||0.345
92293731|NCT00799708|184491452|SUPERIORITY_OR_OTHER|||||||0.166||95.0|||||ANOVA|||||||0.166
92293732|NCT00799708|184491453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.12|TWO_SIDED|90.0|-0.16|0.92|||ANCOVA|||||0.92|-0.16|0.120
92293733|NCT01708954|184491473|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.37|||||TWO_SIDED|80.0|0.25|0.53|||||Hazard ratio of Arm C/Arm A|||0.53|0.25|
92293734|NCT01708954|184491473|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.39|||||TWO_SIDED|80.0|0.27|0.55|||||Hazard ratio of Arm B/Arm A|||0.55|0.27|
92293735|NCT01192776|184491478|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.23|||||TWO_SIDED|95.0|0.76|1.98||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.98|0.76|
92293736|NCT01192776|184491478|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.78|1.87||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.87|0.78|
92293737|NCT01192776|184491478|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.85|||||TWO_SIDED|95.0|0.53|1.35||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.35|0.53|
92293738|NCT01192776|184491479|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|2.16|||||TWO_SIDED|95.0|0.55|8.49||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||8.49|0.55|
92293739|NCT01192776|184491479|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|2.52|||||TWO_SIDED|95.0|1.06|5.95||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||5.95|1.06|
92293740|NCT01192776|184491479|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.85|||||TWO_SIDED|95.0|0.79|4.31||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||4.31|0.79|
92293741|NCT01192776|184491484|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.23|||||TWO_SIDED|95.0|0.64|2.38||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.38|0.64|
92293742|NCT01192776|184491484|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.36|1.9||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.90|0.36|
92293743|NCT01192776|184491484|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.64|||||TWO_SIDED|95.0|0.26|1.57||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.57|0.26|
92293744|NCT01192776|184491486|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.33|||||TWO_SIDED|95.0|0.63|2.77||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.77|0.63|
92293745|NCT01192776|184491486|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.42|||||TWO_SIDED|95.0|0.09|2.04||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.04|0.09|
92293746|NCT01192776|184491486|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.2|2.99||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.99|0.20|
92293747|NCT01192776|184491487|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.65|||||TWO_SIDED|95.0|0.14|3.01||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||3.01|0.14|
92293748|NCT01192776|184491487|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.44|3.91||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||3.91|0.44|
92293749|NCT01192776|184491487|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.28|||||TWO_SIDED|95.0|0.03|2.89||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.89|0.03|
92293750|NCT01192776|184491488|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.87|||||TWO_SIDED|95.0|0.37|2.07||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.07|0.37|
92293751|NCT01192776|184491488|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.64|||||TWO_SIDED|95.0|0.3|1.35||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.35|0.30|
92293752|NCT01192776|184491488|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.47|||||TWO_SIDED|95.0|0.13|1.64||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.64|0.13|
92293753|NCT01721772|184491537|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.3|0.6|||Stratified Log Rank Test|||||0.60|0.30|<0.0001
92293754|NCT01721772|184491538|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.34|0.56|||Stratified Log Rank Test|||||0.56|0.34|<0.0001
92293755|NCT01721772|184491540|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.43|||<|0.0001|TWO_SIDED|95.0|2.75|7.13|||Cochran-Mantel-Haenszel|||||7.13|2.75|<0.0001
92293756|NCT01721772|184491541|SUPERIORITY_OR_OTHER_LEGACY||Unstratified Hazard Ratio|0.37|||||TWO_SIDED|95.0|0.24|0.56|||||PD-L1 positive group|||0.56|0.24|
92293757|NCT01721772|184491541|SUPERIORITY_OR_OTHER_LEGACY||Unstratified Hazard Ratio|0.6|||||TWO_SIDED|95.0|0.45|0.8|||||PD-L1 negative group|||0.80|0.45|
92293758|NCT01721772|184491544|SUPERIORITY||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.41|0.65||||||||0.65|0.41|
92293759|NCT04542694|184491546|SUPERIORITY||The difference in proportions|0.1313||||0.0372|TWO_SIDED|95.0|-0.0004|0.2367|||Chi-squared|||A comparative analysis of the rate of clinical status improvement by 2 or more categories. The difference in percentages between the AREPLIVIR arm and the standard therapy arm (pa-pb)||0.2367|-0.0004|0.0372
92293760|NCT04542694|184491547|SUPERIORITY||The difference in days|4.0|||<|0.0001|TWO_SIDED||||||Log Rank|||Comparative analysis of time to clinical status improvement by categorical ordinal clinical improvement scale between the AREPLIVIR arm and the standard therapy arm||||<0.0001
92293761|NCT04542694|184491548|SUPERIORITY||The difference in percentages|22.5||||0.00016|TWO_SIDED||||||Chi-squared|||||||0.00016
92293762|NCT04542694|184491549|SUPERIORITY||Median Difference (Final Values)|1.55||||0.052|TWO_SIDED||||||Log Rank|||||||0.052
92293763|NCT04542694|184491550|SUPERIORITY|||||||0.1953|||||||Chi-squared|||||||0.1953
92293764|NCT04542694|184491551|SUPERIORITY|||||||0.4975|||||||Chi-squared|||||||0.4975
92293765|NCT04633642|184491560|SUPERIORITY||Mean Difference (Final Values)|1.05|STANDARD_DEVIATION|0.74|<|0.01|TWO_SIDED|||||The threshold for statistical significances was p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.01
92293766|NCT04633642|184491561|SUPERIORITY||Mean Difference (Final Values)|1.61|STANDARD_DEVIATION|0.17|<|0.01|TWO_SIDED|||||The threshold for statistical significance was p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.01
92293767|NCT04633642|184491562|SUPERIORITY||Mean Difference (Final Values)|0.56|STANDARD_DEVIATION|0.79|<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92293768|NCT04633642|184491563|SUPERIORITY||Mean Difference (Final Values)|-2.28|STANDARD_DEVIATION|0.44||0.01|TWO_SIDED|||||The threshold for statistical significance was p\<0.05|t-test, 2 sided|||We analyzed 51 patients (24 in surgical group and 27 in UAW group) with a statistical power of 0.80 and an alpha of 0.05, with a power of the clinical di↵erence of 37% to detect a statistically significant between groups.||||0.01
92293769|NCT04633642|184491564|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.93|TWO_SIDED|||||The threshold for statistics significance was p\<0.05|t-test, 2 sided|||||||0.93
92293770|NCT04633642|184491565|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.18||0.711|TWO_SIDED||||||t-test, 2 sided|||We analyzed 51 patients (24 in surgical group and 27 in UAW group) with a statistical power of 0.80 and an alpha of 0.05, with a power of the clinical difference of 37% to detect a statistically significant between groups.||||0.711
92293771|NCT01207752|184491587|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|TWO_SIDED||||||t-test, 2 sided|||||||0.550
92293772|NCT01943435|184491592|SUPERIORITY|For this superiority study, sample size estimation was based upon hypothesized changes in our primary outcome measure, the Swiss Spinal Stenosis (SSS) questionnaire. We calculated that a total sample size of 180 subjects (n=60 per group) would give us 80% power to detect a difference as small as 3.6 points on the Swiss Spinal Stenosis questionnaire score. Sample size was increased at the request of the funding agency without any interim analysis performed.|Mean Difference (Final Values)|0.3||||0.73|TWO_SIDED|95.0|-1.5|2.2|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||The primary analysis was a between-groups comparison of means using linear mixed models with SSS total score as the dependent variable, while adjusting for randomization stratification factors.||2.2|-1.5|0.73
92293773|NCT01943435|184491592|SUPERIORITY|For this superiority study, sample size estimation was based upon hypothesized changes in our primary outcome measure, the Swiss Spinal Stenosis (SSS) questionnaire. We calculated that a total sample size of 180 subjects (n=60 per group) would give us 80% power to detect a difference as small as 3.6 points on the Swiss Spinal Stenosis questionnaire score. Sample size was increased at the request of the funding agency without any interim analysis performed.|Mean Difference (Final Values)|-2.1||||0.02|TWO_SIDED|95.0|-3.9|-0.3|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||The primary analysis was a between-groups comparison of means using linear mixed models with SSS total score as the dependent variable, while adjusting for randomization stratification factors.||-0.3|-3.9|0.02
92293774|NCT01943435|184491592|SUPERIORITY|For this superiority study, sample size estimation was based upon hypothesized changes in our primary outcome measure, the Swiss Spinal Stenosis (SSS) questionnaire. We calculated that a total sample size of 180 subjects (n=60 per group) would give us 80% power to detect a difference as small as 3.6 points on the Swiss Spinal Stenosis questionnaire score. Sample size was increased at the request of the funding agency without any interim analysis performed.|Mean Difference (Final Values)|2.4||||0.01|TWO_SIDED|95.0|0.6|4.3|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||The primary analysis was a between-groups comparison of means using linear mixed models with SSS total score as the dependent variable, while adjusting for randomization stratification factors.||4.3|0.6|0.01
92293775|NCT01943435|184491593|SUPERIORITY||Mean Difference (Final Values)|87.0||||0.29|TWO_SIDED|95.0|-75.2|249.2|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This analysis consisted of a between-groups comparison of means using linear mixed models with SPWT as the dependent variable, while adjusting for randomization stratification factors.||249.2|-75.2|0.29
92293776|NCT01943435|184491593|SUPERIORITY||Mean Difference (Final Values)|129.7||||0.1|TWO_SIDED|95.0|-27.2|286.6|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This analysis consisted of a between-groups comparison of means using linear mixed models with SPWT as the dependent variable, while adjusting for randomization stratification factors.||286.6|-27.2|0.10
92293777|NCT01943435|184491593|SUPERIORITY||Mean Difference (Final Values)|-42.7||||0.61|TWO_SIDED|95.0|-205.4|120.0|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This analysis consisted of a between-groups comparison of means using linear mixed models with SPWT as the dependent variable, while adjusting for randomization stratification factors.||120.0|-205.4|0.61
92293778|NCT01943435|184491594|SUPERIORITY||Mean Difference (Final Values)|30.5||||0.03|TWO_SIDED|95.0|3.1|57.9|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This secondary analysis consisted of a between-groups comparison of means using linear regression with physical activity as the dependent variable (average number of minutes spent daily in activities \>1.5 METs), while adjusting for randomization stratification factors.||57.9|3.1|0.03
92293779|NCT01943435|184491594|SUPERIORITY||Mean Difference (Final Values)|18.7||||0.16|TWO_SIDED|95.0|-7.6|45.0|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This secondary analysis consisted of a between-groups comparison of means using linear regression with physical activity as the dependent variable (average number of minutes spent daily in activities \>1.5 METs), while adjusting for randomization stratification factors.||45.0|-7.6|0.16
92293780|NCT01943435|184491594|SUPERIORITY||Mean Difference (Final Values)|11.8||||0.4|TWO_SIDED|95.0|-15.6|39.1|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This secondary analysis consisted of a between-groups comparison of means using linear regression with physical activity as the dependent variable (average number of minutes spent daily in activities \>1.5 METs), while adjusting for randomization stratification factors.||39.1|-15.6|0.40
92293781|NCT04535986|184491595|SUPERIORITY||LS mean difference|0.0868|STANDARD_ERROR_OF_MEAN|0.0162|<|0.0001|TWO_SIDED|95.0|0.0551|0.1185||The analysis of covariance (ANCOVA) model was used to model the change from baseline FEV1 to average FEV1 AUC0-12h with treatment, region, background medication strata and smoking strata as fixed effects and baseline FEV1 as covariate.|ANCOVA|||||0.1185|0.0551|<0.0001
92144679|NCT00952367|184173703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.137||||0.559|TWO_SIDED|95.0|0.473|9.652|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.341||Mother's education level, illiteracy vs graduate or above||9.652|0.473|0.559
92144680|NCT00952367|184173703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.793||||0.626|TWO_SIDED|95.0|0.596|5.394|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.238||Mother's education level, elementary school vs graduate or above||5.394|0.596|0.626
92293782|NCT04561115|184491606|EQUIVALENCE|The relative alpha level for statistical significance was 0.1 (alpha=0.05 for one-sided test), or a 90% CI was used for the bioequivalence test.|Geometric Least Square Mean Ratio|0.948|||||TWO_SIDED|90.0|0.926|0.972||||||||0.972|0.926|
92293783|NCT04561115|184491607|EQUIVALENCE|The relative alpha level for statistical significance was 0.1 (alpha=0.05 for one-sided test), or a 90% CI was used for the bioequivalence test.|Geometric Least Square Mean Ratio|0.978|||||TWO_SIDED|90.0|0.937|1.021||||||||1.021|0.937|
92293784|NCT00021541|184491673|SUPERIORITY|||||||0.012|||||||Repeated measures ANOVA|||||||0.012
92293785|NCT00021541|184491673|OTHER|||||||0.015|||||||Repeated measures ANOVA|||Post hoc test: tipifarnib group F=7.40||||0.015
92293786|NCT00021541|184491673|OTHER|||||||0.66|||||||Repeated measures ANOVA|||Post hoc test: placebo group F=0.19||||0.66
92293787|NCT01929681|184491676|SUPERIORITY||||||<|0.049|||||||Regression, Linear|||||||<0.049
92293788|NCT01929681|184491677|SUPERIORITY||||||<|0.182|||||||Regression, Linear|||||||<0.182
92293789|NCT01929681|184491678|SUPERIORITY||||||<|0.449|||||||Regression, Linear|Mixed effects analysis||||||<0.449
92144681|NCT00952367|184173703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.972||||0.193|TWO_SIDED|95.0|0.699|5.562|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=1.691||Mother's education level, junior middle school vs graduate or above||5.562|0.699|0.193
92144682|NCT00952367|184173703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.907||||0.298|TWO_SIDED|95.0|0.679|5.353|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=1.081||Mother's education level, senior high school/vocational high school/technical secondary school vs postgraduate or above||5.353|0.679|0.298
92144683|NCT00952367|184173703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.233||||0.122|TWO_SIDED|95.0|0.439|3.464|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=2.395||Mother's education level, college/university vs postgraduate or above||3.464|0.439|0.122
92144684|NCT00952367|184173703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.666||||0.001|TWO_SIDED|95.0|0.52|0.855|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=10.233||Whether have brothers or sisters, no vs yes||0.855|0.520|0.001
92144685|NCT00736645|184173765|OTHER|||||||0.5137|||||||Wilcoxon (Mann-Whitney)|||||||0.5137
92293790|NCT01929681|184491679|SUPERIORITY||||||<|0.444|||||||Regression, Linear|Mixed effects analysis||||||<0.444
92293791|NCT01929681|184491680|SUPERIORITY||||||<|0.182|||||||Regression, Linear|Mixed effects analysis||||||<0.182
92293792|NCT03505151|184491681|OTHER||Ratio T/R|44.63|STANDARD_ERROR_OF_MEAN|36.9||||90.0|32.62|61.06|||||Standard Error of the mean is actually Intra-individual geometric coefficient of variation (gCV) of the mean|Absolute bioavailability was evaluated using an Analysis of variance model (ANOVA) on BI 409306 AUC0-inf versus 0.1 mg BI 409306 C-13/N-15 i.v. This model included effects accounting for the following sources of variation: 'subjects' and 'formulation'. The effect 'subjects' was considered as random, whereas 'formulation' was considered as fixed. The dose normalised PK endpoints were log transformed (natural logarithm) prior to fitting the ANOVA model.||61.06|32.62|
92293793|NCT03505151|184491682|OTHER||Ratio T/R|47.25|STANDARD_ERROR_OF_MEAN|68.8||||90.0|27.38|81.55|||||Standard Error of the mean is actually Intra-individual geometric coefficient of variation (gCV) of the mean|Ratios of BI 409306 for Cmax versus 0.1 mg BI 409306 C-13/N-15 i.v. was evaluated using ANOVA model. This model included effects accounting for the following sources of variation: 'subjects' and 'formulation'. The effect 'subjects' was considered as random, whereas 'formulation' was considered as fixed. The dose normalised PK endpoints were log transformed (natural logarithm) prior to fitting the ANOVA model.||81.55|27.38|
92293794|NCT00087529|184491697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.773||||0.1442|TWO_SIDED|95.0|0.546|1.093||Stratified using the following variables: Baseline EDSS (less than or equal to \[≤\] 4.0 versus \>4.0 points) and prior treatment with interferon-beta or glatiramer acetate.|Log Rank|||||1.093|0.546|0.1442
92293795|NCT00087529|184491699|SUPERIORITY_OR_OTHER||LS mean difference|-718.24||||0.0008|TWO_SIDED|95.0|-1504.48|68.0|||Friedman ranked ANOVA test|||Treatment difference in least-squares (LS) means and the associated 95% confidence intervals were estimated from the analysis of variance (ANOVA) model, which included the following factors: Baseline EDSS (≤ 4.0 versus \>4.0 points), prior treatment with interferon-beta or glatiramer acetate, and treatment group.||68.00|-1504.48|0.0008
92293796|NCT00087529|184491700|SUPERIORITY_OR_OTHER||LS mean difference|-1.08||||0.6237|TWO_SIDED|95.0|-9.49|7.34|||Friedman ranked ANOVA test|||Treatment difference in LS means and the associated 95% confidence intervals were estimated from the ANOVA model, which included the following factors: Baseline EDSS (≤ 4.0 versus \>4.0 points), prior treatment with interferon-beta or glatiramer acetate, and treatment group.||7.34|-9.49|0.6237
92293797|NCT02535923|184491701|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||.04
92293798|NCT02535923|184491701|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||||||.83
92293799|NCT02535923|184491702|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||||||.83
92293800|NCT02535923|184491703|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|||||||.003
92293801|NCT02535923|184491704|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|||||||.16
92293802|NCT02535923|184491705|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||||||.82
92293803|NCT04980456|184491734|NON_INFERIORITY|Noninferiority in distance VA was declared if the least squares means difference upper confidence limit was less than 0.05.|Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.003|||ONE_SIDED|95.0||0.01||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens by visit interaction, period, and sequence) and random (subject) effects. Difference = TOTAL30 minus Biofinity|||0.01||
92293804|NCT00122447|184491735|SUPERIORITY_OR_OTHER||Slope|-0.941|STANDARD_ERROR_OF_MEAN|1.229||0.449|TWO_SIDED|95.0|-3.435|1.552||Association between treatment arm, compared to placebo, on change in hsCRP from baseline to 12 months of intervention, adjusted for age, sex, and race.|Regression, Linear|||||1.552|-3.435|0.449
92293805|NCT00122447|184491735|SUPERIORITY_OR_OTHER||Slope|-2.677|STANDARD_ERROR_OF_MEAN|1.211||0.034|TWO_SIDED|95.0|-5.133|-0.221||Association between treatment arm, compared to placebo, on change in hsCRP from baseline to 12 months of intervention, adjusted for age, sex, and race.|Regression, Linear|||||-0.221|-5.133|0.034
92293806|NCT00122447|184491735|SUPERIORITY_OR_OTHER||Slope|0.088|STANDARD_ERROR_OF_MEAN|1.21||0.943|TWO_SIDED|95.0|-2.367|2.542||Association between treatment arm, compared to placebo, on change in hsCRP from baseline to 12 months of intervention, adjusted for age, sex, and race.|Regression, Linear|||||2.542|-2.367|0.943
92293807|NCT00122447|184491736|SUPERIORITY_OR_OTHER||Slope|-0.001|STANDARD_ERROR_OF_MEAN|0.012||0.943|TWO_SIDED|95.0|-0.025|0.023||Association between treatment arm, compared to placebo, on change in FMD from baseline to 12 months of intervention, adjusted for age, sex, race, and LDL-cholesterol.|Regression, Linear|||Null hypothesis: no difference between active treatment group compared to placebo.||0.023|-0.025|0.943
92293808|NCT00122447|184491736|SUPERIORITY_OR_OTHER||Slope|0.014|STANDARD_ERROR_OF_MEAN|0.013||0.28|TWO_SIDED|95.0|-0.012|0.039||Association between treatment arm, compared to placebo, on change in FMD from baseline to 12 months of intervention, adjusted for age, sex, race, and LDL-cholesterol.|Regression, Linear|||||0.039|-0.012|0.280
92293809|NCT00122447|184491736|SUPERIORITY_OR_OTHER||Slope|0.012|STANDARD_ERROR_OF_MEAN|0.012||0.313|TWO_SIDED|95.0|-0.012|0.037||Association between treatment arm, compared to placebo, on change in FMD from baseline to 12 months of intervention, adjusted for age, sex, race, and LDL-cholesterol.|Regression, Linear|||||0.037|-0.012|0.313
92293810|NCT00578968|184491738|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||||||0.01
92293811|NCT00578968|184491739|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92293812|NCT00578968|184491740|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92293813|NCT00578968|184491741|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92293814|NCT00578968|184491742|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||ANOVA|||Comparison between the two groups at baseline resting.||||0.13
92293815|NCT00578968|184491742|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANOVA|||Comparison was made between the two groups at baseline peak exercise||||<0.01
92293816|NCT00578968|184491743|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92293817|NCT00578968|184491744|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92293818|NCT00578968|184491745|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANOVA|||||||0.15
92144686|NCT00736645|184173765|OTHER|||||||0.8994|||||||Wilcoxon (Mann-Whitney)|||||||0.8994
92144687|NCT00736645|184173765|OTHER|||||||0.3463|||||||Wilcoxon (Mann-Whitney)|||||||0.3463
92144688|NCT00736645|184173766|OTHER|||||||0.2609|||||||Wilcoxon (Mann-Whitney)|||||||0.2609
92144689|NCT00736645|184173766|OTHER|||||||0.7504|||||||Wilcoxon (Mann-Whitney)|||||||0.7504
92144690|NCT00736645|184173766|OTHER|||||||0.9727|||||||Wilcoxon (Mann-Whitney)|||||||0.9727
92293819|NCT00578968|184491746|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||||||0.01
92293820|NCT00578968|184491747|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANOVA|||||||0.85
92293821|NCT00578968|184491748|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|||||||0.03
92293822|NCT00578968|184491749|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANOVA|||||||0.009
92293823|NCT00578968|184491750|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANOVA|||||||0.005
92293824|NCT00578968|184491751|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANOVA|||||||0.06
92293825|NCT00578968|184491752|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANOVA|||||||0.003
92293826|NCT00578968|184491753|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||ANOVA|||||||0.60
92293827|NCT00578968|184491754|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||||||0.35
92293828|NCT00578968|184491755|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||ANOVA|||||||0.65
92293829|NCT00578968|184491756|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||ANOVA|||||||0.43
92293830|NCT00578968|184491757|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||ANOVA|||Comparison was made between groups at pretreatment resting time period.||||0.73
92144691|NCT02300220|184173768|SUPERIORITY||Cox Proportional Hazard|1.071||||0.764|TWO_SIDED|95.0|0.684|1.676|||Regression, Cox|||The primary endpoint was assessed using a Cox's proportional hazard model with pre-specified adjustment for patient's self-reported history of exacerbations over the previous year and with stratification for study centre. The onset of exacerbation will be monitored up to 90 days or at patient withdrawal.||1.676|0.684|0.764
92144692|NCT02300220|184173769|SUPERIORITY|||||||0.703|||||||Wilcoxon (Mann-Whitney)|||||||0.703
92144693|NCT02300220|184173771|SUPERIORITY|||||||0.239|||||||t-test, 2 sided|||||||0.239
92144694|NCT04322682|184173774|SUPERIORITY||Odds Ratio (OR)|0.79||||0.081|TWO_SIDED|95.1|0.61|1.03|||Chi-squared|||||1.03|0.61|0.081
92144695|NCT04322682|184173775|SUPERIORITY||Odds Ratio (OR)|0.56||||0.291|TWO_SIDED|95.0|0.19|1.67|||Chi-squared|||||1.67|0.19|0.291
92144696|NCT04322682|184173776|SUPERIORITY||Odds Ratio (OR)|0.79||||0.077|TWO_SIDED|95.0|0.6|1.03|||Chi-squared|||||1.03|0.60|0.077
92144697|NCT04322682|184173777|SUPERIORITY||Odds Ratio (OR)|0.53||||0.08|TWO_SIDED|95.0|0.25|1.09|||Chi-squared|||||1.09|0.25|0.080
92144698|NCT04322682|184173778|SUPERIORITY||Odds Ratio (OR)|0.75||||0.042|TWO_SIDED|95.0|0.57|0.99||P-Value is for the comparison of the treatment group within patients with Covid-19 confirmed by PCR.|Regression, Logistic|Logistic-regression model including the treatment group, the PCR-confirmed Covid-19 subgroup factor (yes/no) and their interaction was performed.||||0.99|0.57|0.042
92293831|NCT00578968|184491757|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||Comparison was made between groups at pretreatment peak exercise time period.||||0.11
92293832|NCT00578968|184491758|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|||||||0.22
92293833|NCT00578968|184491759|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANOVA|||||||0.06
92293834|NCT00578968|184491760|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||ANOVA|||||||0.09
92293835|NCT00578968|184491761|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||||||0.04
92293836|NCT00578968|184491762|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||||||0.04
92293837|NCT00578968|184491763|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||ANOVA|||||||0.19
92293838|NCT00578968|184491764|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||||||0.16
92293839|NCT00578968|184491765|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||||||0.04
92293840|NCT02733627|184491785|OTHER||Slope|3.8266|STANDARD_ERROR_OF_MEAN|0.2967|||TWO_SIDED|95.0|3.2155|4.4376||||||The basic model for the investigation of dose proportionality was a power model. The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate. The assumption of a linear relationship between the log-transformed pharmacokinetic endpoint and the log-transformed dose was checked.|Standard Error of the mean is actually Standard Error of the slope. Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|4.4376|3.2155|
92293841|NCT02733627|184491786|OTHER||Slope|4.181|STANDARD_ERROR_OF_MEAN|0.3247|||TWO_SIDED|95.0|3.5094|4.8527||||||The basic model for the investigation of dose proportionality was a power model. The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate. The assumption of a linear relationship between the log-transformed pharmacokinetic endpoint and the log-transformed dose was checked.|Standard Error of the mean is actually Standard Error of the slope. Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|4.8527|3.5094|
92293842|NCT02733627|184491787|OTHER||Slope|1.8868|STANDARD_ERROR_OF_MEAN|0.3069|||TWO_SIDED|95.0|1.2503|2.5234||||||The basic model for the investigation of dose proportionality was a power model. The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate. The assumption of a linear relationship between the log-transformed pharmacokinetic endpoint and the log-transformed dose was checked.|Standard Error of the mean is actually Standard Error of the slope. Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|2.5234|1.2503|
92293843|NCT02733627|184491788|OTHER||Slope|3.0677|STANDARD_ERROR_OF_MEAN|0.4844|||TWO_SIDED|95.0|2.0631|4.0723||||||The basic model for the investigation of dose proportionality was a power model. The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate. The assumption of a linear relationship between the log-transformed pharmacokinetic endpoint and the log-transformed dose was checked.|Standard Error of the mean is actually Standard Error of the slope. Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|4.0723|2.0631|
92293844|NCT02048813|184491820|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.001|TWO_SIDED|95.0|0.22|0.56|||Log Rank|||||0.56|0.22|<.001
92293845|NCT02048813|184491821|SUPERIORITY||Hazard Ratio (HR)|0.17|||<|0.001|TWO_SIDED|95.0|0.05|0.54|||Log Rank|||||0.54|0.05|<.001
92293846|NCT02754492|184491840|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 5.0 × 10\^6 for the single platelet product group. The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|0.989|STANDARD_ERROR_OF_MEAN|0.0107|||ONE_SIDED|95.0|0.95|||||||Up to 350 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.950|
92293847|NCT02754492|184491840|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 8.0 × 10\^6 for the double platelet product group, or \< 5.0 × 10\^6 for each transfusable unit . The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 350 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.968|
92293848|NCT02754492|184491840|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 12.0 × 10\^6 for the triple platelet product group, or \< 5.0 × 10\^6 for each transfusable unit . The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 350 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.968|
92293849|NCT02754492|184491841|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 3.0 × 10\^11 for the single platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|0.989|STANDARD_ERROR_OF_MEAN|0.0107|||ONE_SIDED|95.0|0.95|||||||Up to 350 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.950|
92293850|NCT02754492|184491841|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 6.2 × 10\^11 for the double platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 350 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.968|
92293851|NCT02754492|184491841|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 9.3 × 10\^11 for the triple platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 350 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.968|
92293852|NCT01717313|184491848|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.39|||<|0.001|TWO_SIDED|95.0|-0.59|-0.19|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior antihyperglycemic agent (AHA) therapy status, interaction of time by treatment, and time by prior AHA therapy status||||-0.19|-0.59|<0.001
92293853|NCT01717313|184491849|SUPERIORITY_OR_OTHER||Differences in percentages vs. placebo|-8.2|||||TWO_SIDED|95.0|-18.8|2.6||||||||2.6|-18.8|
92293854|NCT01717313|184491850|SUPERIORITY_OR_OTHER||Difference in percentages vs. placebo|0.6|||||TWO_SIDED|95.0|-3.1|4.5||||||||4.5|-3.1|
92293855|NCT01717313|184491851|SUPERIORITY_OR_OTHER||Difference in percentages vs. placebo|-5.8|||||TWO_SIDED|95.0|-16.4|4.9||||||||4.9|-16.4|
92293856|NCT01717313|184491852|SUPERIORITY_OR_OTHER||Difference in percentages vs. placebo|0.6|||||TWO_SIDED|95.0|-3.5|4.8||||||||4.8|-3.5|
92293857|NCT01717313|184491853|SUPERIORITY_OR_OTHER||Between-group rate difference|20.3|||<|0.001|TWO_SIDED|95.0|10.5|29.8|||Miettinen & Nurminen method|||||29.8|10.5|<0.001
92293858|NCT01717313|184491854|SUPERIORITY_OR_OTHER||Between-group rate difference|11.4||||0.001|TWO_SIDED|95.0|4.8|18.6|||Miettinen & Nurminen method|||||18.6|4.8|0.001
92293859|NCT01717313|184491855|SUPERIORITY_OR_OTHER||Difference in the least squares means|-10.3||||0.036|TWO_SIDED|95.0|-19.9|-0.7|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior AHA therapy status, the interaction of time by treatment, and time by prior AHA therapy status||||-0.7|-19.9|0.036
92293860|NCT01717313|184491856|SUPERIORITY_OR_OTHER||Difference in the least squares means|-11.6||||0.177|TWO_SIDED|95.0|-28.6|5.3|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior AHA therapy status, the interaction of time by treatment, and time by prior AHA therapy status||||5.3|-28.6|0.177
92293861|NCT01717313|184491861|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.53|||<|0.001|TWO_SIDED|95.0|-0.75|-0.32|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior AHA therapy status, the interaction of time by treatment, and time by prior AHA therapy status||||-0.32|-0.75|<0.001
92293862|NCT01717313|184491862|SUPERIORITY_OR_OTHER||Difference in the least squares means|-13.2||||0.014|TWO_SIDED|95.0|-23.7|-2.7|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior AHA therapy status, the interaction of time by treatment, and time by prior AHA therapy status||||-2.7|-23.7|0.014
92293863|NCT01717313|184491863|SUPERIORITY_OR_OTHER||Difference in the least squares means|-20.5||||0.031|TWO_SIDED|95.0|-39.0|-1.9|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior AHA therapy status, the interaction of time by treatment, and time by prior AHA therapy status||||-1.9|-39.0|0.031
92293864|NCT02533466|184491873|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Median Difference (Final Values)|-0.08||||0.2673|TWO_SIDED|95.0|-1.0|0.0||P-value was calculated from Wilcoxon Rank Sum test.|Wilcoxon Rank Sum test||"Median difference and 95% CI intervals were calculated from the Hodges Lehnmann estimate.~Difference was calculated as reference product minus test product."|||0.0|-1.0|0.2673
92293865|NCT02533466|184491874|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods|Median Difference (Final Values)|-0.92||||0.069|TWO_SIDED|95.0|-1.8|0.0||P-value was calculated from Wilcoxon Rank Sum test.|Wilcoxon Rank Sum Test||"Median difference and 95% CI intervals were calculated from the Hodges Lehnmann estimate.~Difference was calculated as reference product minus test product."|||0.0|-1.8|0.0690
92293866|NCT02533466|184491875|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods|Median Difference (Final Values)|-1.5||||0.068|TWO_SIDED|95.0|-2.7|0.0||P-value was calculated from Wilcoxon Rank Sum test.|Wilcoxon Rank Sum test||"Median difference and 95% CI intervals were calculated from the Hodges Lehnmann estimate.~Difference was calculated as reference product minus test product."|||0.0|-2.7|0.0680
92293867|NCT02533466|184491876|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods|Median Difference (Final Values)|-1.83||||0.0654|TWO_SIDED|95.0|-3.0|0.0||P-value is calculated from Wilcoxon Rank Sum test.|Wilcoxon Rank Sum test.||"Median difference and 95% CI intervals were calculated from the Hodges Lehnmann estimate.~Difference was calculated as reference product minus test product"|||0.0|-3.0|0.0654
92293868|NCT02533466|184491877|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Mean Difference (Final Values)|-1.4||||0.6061|TWO_SIDED|95.0|-6.8|4.1||P value obtained from the ANCOVA analysis|ANCOVA||Difference and 95 % CI obtained from the ANCOVA analysis. Difference was calculated as reference product minus test product.|||4.1|-6.8|0.6061
92293869|NCT02533466|184491878|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Mean Difference (Final Values)|-2.3||||0.408|TWO_SIDED|95.0|-7.9|3.3||P value obtained from the ANCOVA analysis.|ANCOVA||Difference and 95 % CI obtained from the ANCOVA analysis. Difference was calculated as reference product minus test product|||3.3|-7.9|0.4080
92293870|NCT02533466|184491879|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Median Difference (Final Values)|0.21||||0.4611|TWO_SIDED|95.0|-0.4|0.8||P value obtained from the ANCOVA analysis.|ANCOVA||Difference and 95 % CI obtained from the ANCOVA analysis. Difference was calculated as reference product minus test product.|||0.8|-0.4|0.4611
92293871|NCT02533466|184491880|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Mean Difference (Net)|0.09||||0.3939|TWO_SIDED|95.0|-0.1|0.3||P value obtained from the ANCOVA analysis.|ANCOVA|||||0.3|-0.1|0.3939
92293872|NCT02533466|184491881|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Mean Difference (Final Values)|0.34||||0.7829|TWO_SIDED|95.0|-2.2|2.8||P value obtained from the ANCOVA analysis.|ANCOVA||Difference and 95 % CI obtained from the ANCOVA analysis. Difference was calculated as reference product minus test product.|||2.8|-2.2|0.7829
92293873|NCT02533466|184491882|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods|Mean Difference (Final Values)|-0.08||||0.9121|TWO_SIDED|95.0|-1.6|1.4||P value obtained from the ANCOVA analysis.|ANCOVA||Difference and 95 % CI obtained from the ANCOVA analysis. Difference was calculated as reference product minus test product.|||1.4|-1.6|0.9121
92293874|NCT01196390|184491883|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.85|TWO_SIDED|95.0|0.69|1.36|||Log Rank|Two-sided significance level = 0.05|Reference level = Chemoradiation arm|Assuming a median DFS time of 15 months (Arm 2), hypothesized increase in DFS corresponding to median DFS time of 25 months (Arm 1). Assuming an exponential distribution and constant hazards, 183 HER2-positive participants accrued over 5 years and followed for 3 years would result in 162 disease-free survival events and provide 90% statistical power to detect this difference with a 2-sided α of 0.05 and 2 interim analyses. See Limitations and Caveats section.||1.36|0.69|0.85
92293875|NCT01196390|184491884|SUPERIORITY|||||||0.71|||||||Chi-squared|Two-sided significance level = 0.05||||||0.71
92293876|NCT01196390|184491885|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.95|TWO_SIDED|95.0|0.69|1.47|||Log Rank|Two-sided significance level = 0.05|Reference level = Chemoradiation arm|||1.47|0.69|0.95
92293877|NCT01196390|184491887|SUPERIORITY|||||||0.39||||||One-side significance level = 0.05|Chi-squared|||6-8 weeks||||0.39
92293878|NCT01196390|184491887|SUPERIORITY|||||||0.78||||||One-side significance level = 0.05|Chi-squared|||1 year||||0.78
92293879|NCT01196390|184491887|SUPERIORITY|||||||0.28||||||One-side significance level = 0.05|Chi-squared|||2 years||||0.28
92293880|NCT01196390|184491890|SUPERIORITY||Odds Ratio (OR)|2.35||||0.021|TWO_SIDED|95.0|1.13|4.86|||Regression, Logistic|||Logistic regression was used to model the association of treatment arm (Arm 1 vs. 2 \[reference level(RL)\]), T stage (T3 vs.T1,T2 \[RL\]), Zubrod (1,2 vs. 0 \[RL\]), gender (male vs. female \[RL\]), presence of adenopathy (yes vs. no \[RL\]), and age (≥ 60 vs. \<60 \[RL\]) with the occurrence of any cardiac AE, using backwards step-wise model selection requiring p≤0.05 for a covariate to remain in the model. Final model covariates are reported. Age is reported here. No other covariates reported.||4.86|1.13|0.021
92144699|NCT02238379|184173782|SUPERIORITY_OR_OTHER|||||||0.003||||||Main Effect of Emotion|ANOVA|Spray (Oxytocin, Placebo) by Face Type (Infant, Adult) by Emotion (Distress, Neutral) by Hemisphere (Left, Right) ANOVA||N170 Analysis||||.003
92144700|NCT02238379|184173782|SUPERIORITY_OR_OTHER|||||||0.034||||||Main Effect of Face Type|ANOVA|Spray (Oxytocin, Placebo) by Face Type (Infant, Adult) by Emotion (Distress, Neutral) by Hemisphere (Left, Right) ANOVA||N170 Analysis||||.034
92293881|NCT03480022|184491901|SUPERIORITY||||||<|0.002|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.002
92184800|NCT00666705|184268188|SUPERIORITY_OR_OTHER||Ratio (percent)|85.76||||||90.0|79.89|92.07|||Mixed Models Analysis|Natural log transformed AUCτ was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|The alternate hypothesis of bioequivalence is that there is no difference between treatment groups. For maraviroc, a sample size of 18 subjects provided 99% power that the 90% confidence interval (CI) for the ratio of Test (raltegravir co-administered with maraviroc) to Reference (maraviroc administered alone) treatment for the area under the plasma concentration-time profile over the dosing interval (AUCτ) would lie within the acceptance region of (80%, 125%).||92.07|79.89|
92293882|NCT03480022|184491902|SUPERIORITY||||||<|0.006|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.006
92293883|NCT03480022|184491903|SUPERIORITY||||||<|0.001|||||||ANOVA|Repeated measures nested design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.001
92293884|NCT03480022|184491904|SUPERIORITY||||||<|0.002|||||||ANOVA|one-way ANOVA||||||<0.002
92293885|NCT03480022|184491905|SUPERIORITY||||||<|0.007|||||||Wilcoxon (Mann-Whitney)|||||||<0.007
92293886|NCT03480022|184491906|SUPERIORITY||||||<|0.049|||||||Wilcoxon (Mann-Whitney)|||||||<0.049
92293887|NCT03480022|184491907|SUPERIORITY||||||<|0.011|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.011
92293888|NCT03480022|184491908|SUPERIORITY||||||<|0.038|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.038
92293889|NCT03480022|184491909|SUPERIORITY||||||<|0.048|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.048
92293890|NCT03480022|184491910|SUPERIORITY||||||<|0.018|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.018
92144701|NCT02238379|184173782|SUPERIORITY_OR_OTHER|||||||0.03||||||Main Effect of Face Type|ANOVA|Spray Type (Oxytocin, Placebo) by Face Type (Infant, Adult) by Emotion (Distress, Neutral) ANOVA||P300 Analysis||||.03
92293891|NCT03480022|184491911|SUPERIORITY||||||<|0.028|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.028
92293892|NCT03480022|184491912|SUPERIORITY||||||<|0.034|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.034
92293893|NCT03480022|184491913|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.035
92293894|NCT03480022|184491914|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.0001
92293895|NCT03480022|184491915|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
92293896|NCT03480022|184491916|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
92293897|NCT03480022|184491917|SUPERIORITY||||||<|0.021|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.021
92293898|NCT03480022|184491918|SUPERIORITY||||||<|0.009|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.009
92293899|NCT03480022|184491919|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.035
92293900|NCT03480022|184491920|SUPERIORITY||||||<|0.028|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.028
92144702|NCT02238379|184173782|SUPERIORITY_OR_OTHER|||||||0.03||||||Spray Type by Face Type Interaction|ANOVA|Spray Type (Oxytocin, Placebo) by Face Type (Infant, Adult) by Emotion (Distress, Neutral) ANOVA||P300 Analysis||||.03
92144703|NCT02238379|184173782|SUPERIORITY_OR_OTHER||||||>|0.22||||||No Main Effects or Interactions|ANOVA|Spray Type (Oxytocin, Placebo) by Face Type (Infant, Adult) by Emotion (Distress, Neutral) ANOVA||LPP Analysis||||>.22
92293901|NCT03480022|184491921|SUPERIORITY||||||<|0.042|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.042
92293902|NCT03480022|184491922|SUPERIORITY||||||<|0.033|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.033
92293903|NCT03480022|184491923|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
92293904|NCT03480022|184491924|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
92293905|NCT03480022|184491925|SUPERIORITY||||||<|0.016|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.016
92293906|NCT03480022|184491926|SUPERIORITY||||||<|0.028|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.028
92293907|NCT03480022|184491927|SUPERIORITY||||||<|0.01|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.01
92293908|NCT03480022|184491928|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
92293909|NCT03480022|184491929|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
92293910|NCT05068661|184491970|SUPERIORITY||Risk Ratio (RR)|0.75||||0.486|TWO_SIDED|95.0|0.4|1.39|||Chi-squared|||||1.39|0.40|0.486
92293911|NCT05068661|184491971|SUPERIORITY||Risk Ratio (RR)|0.85||||0.148|TWO_SIDED|95.0|0.69|1.06||This is adjusted P value for hypotension|Chi-squared|||||1.06|0.69|0.148
92293912|NCT05068661|184491972|SUPERIORITY||Risk Ratio (RR)|1.04|||>|0.999|TWO_SIDED|95.0|0.98|1.1||This is adjusted P value|Chi-squared|||||1.10|0.98|>0.999
92144704|NCT02238379|184173783|SUPERIORITY_OR_OTHER||||||>|0.14||||||No Main Effects or Interactions|ANOVA|Spray Type (Oxytocin, Placebo) and Hemisphere (left, right) ANOVA||N170 Analysis||||>.14
92293913|NCT05068661|184491973|SUPERIORITY||Mean Ratio|1.9||||0.128|TWO_SIDED|95.0|1.14|3.18||Adjusted P value|Regression, Linear|||||3.18|1.14|0.128
92293914|NCT05068661|184491974|SUPERIORITY||Mean Ratio|1.04|||>|0.999|TWO_SIDED|95.0|0.8|1.35||Adjusted P value|Regression, Linear|||||1.35|0.80|>0.999
92293915|NCT05068661|184491975|SUPERIORITY||Mean Ratio|0.97|||>|0.999|TWO_SIDED|95.0|0.93|1.3||Adjusted P value|Regression, Linear|||||1.30|0.93|>0.999
92144705|NCT02238379|184173783|SUPERIORITY_OR_OTHER||||||>|0.17||||||No difference between Spray Types|t-test, 2 sided|Paired samples t-test comparing Spray Type (Oxytocin vs Placebo)||P300 Analysis||||>.17
92144706|NCT02238379|184173783|SUPERIORITY_OR_OTHER||||||>|0.27||||||No difference between Spray Types|t-test, 2 sided|Paired samples t-test comparing Spray Type (Oxytocin vs Placebo)||LPP Analysis||||>.27
92184801|NCT00666705|184268189|SUPERIORITY_OR_OTHER||Ratio (percent)|79.48||||||90.0|67.19|94.02|||Mixed Models Analysis|Natural log transformed Cmax was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|The alternate hypothesis of bioequivalence is that there is no difference between treatment groups. For maraviroc, a sample size of 18 subjects provided 91% power that the 90% CI for the ratio of Test (raltegravir co-administered with maraviroc) to Reference (maraviroc administered alone) treatment for the maximum concentration (Cmax) would lie within the acceptance region of (80%, 125%).||94.02|67.19|
92293916|NCT05068661|184491976|SUPERIORITY||Risk Ratio (RR)|0.81|||>|0.999|TWO_SIDED|95.0|0.52|1.25||Adjusted P value|Chi-squared|||||1.25|0.52|>0.999
92293917|NCT05068661|184491977|SUPERIORITY||Risk Ratio (RR)|0.85|||>|0.999|TWO_SIDED|95.0|0.58|1.24||Adjusted P value|Chi-squared|||||1.24|0.58|>0.999
92293918|NCT05068661|184491978|SUPERIORITY||Mean Ratio|1.03|||>|0.999|TWO_SIDED|95.0|0.86|1.22||Adjusted P value|Regression, Linear|||||1.22|0.86|>0.999
92293919|NCT01567527|184491979|SUPERIORITY||Hazard Ratio (HR)|0.451|||<|0.0001|TWO_SIDED|95.0|0.299|0.678|||Log Rank||"Using the Cox proportional hazards model with term for treatment group.~HR is estimated for Aripiprazole IM depot relative to Placebo."|Significance level 0.05.||0.678|0.299|< 0.0001
92293920|NCT01567527|184491979|SUPERIORITY|Using the Cox proportional hazards model with term for treatment group.|Hazard Ratio (HR)|2.22|||||TWO_SIDED|95.0|1.475|3.34|||||HR is estimated for Placebo relative to Aripiprazole IM depot.|||3.34|1.475|
92293921|NCT01567527|184491980|SUPERIORITY|Using a hierarchical procedure to preserve the overall Type I error rate at 0.05, after testing the primary outcome.|Percentage Difference (Final Values)|-24.6|||<|0.0001|TWO_SIDED|95.0|-36.7|-12.5|||Fisher Exact|||Statistical analysis for any mood episode||-12.5|-36.7|< 0.0001
92293922|NCT01567527|184491981|SUPERIORITY|Using mixed model repeated measures (MMRM) analysis with a restricted maximum likelihood (REML) approach. Analyses included the categorically fixed effects of treatment, region, trial week, and treatment-by-week interaction, as well as the continuously fixed covariates of baseline-score-by-week interaction. An unstructured covariance structure was used to model the within-subject errors and Kenward-Rodger degree of freedom was used to test the fixed effects.|Mean Difference (Final Values)|-0.43|||=|0.0011|TWO_SIDED|95.0|-0.69|-0.17|||Mixed model repeated measure analysis|||||-0.17|-0.69|= 0.0011
92293923|NCT01567527|184491982|SUPERIORITY||Hazard Ratio (HR)|0.137|||=|0.0002|TWO_SIDED|95.0|0.04|0.465|||Log Rank||"Using the Cox proportional hazards model with term for treatment group.~HR is estimated for Aripiprazole IM depot relative to Placebo."|||0.465|0.04|= 0.0002
92293924|NCT01567527|184491982|SUPERIORITY|Using the Cox proportional hazards model with term for treatment group.|Hazard Ratio (HR)|7.313|||||TWO_SIDED|95.0|2.151|24.865|||||HR is estimated for Placebo relative to Aripiprazole IM depot.|||24.865|2.151|
92293925|NCT02004691|184491984|SUPERIORITY||Least Squares Mean Difference|19.008|STANDARD_ERROR_OF_MEAN|4.7576|=|0.0004|TWO_SIDED|95.0|9.319|28.696||Threshold for significance was 0.05.|Mixed model for repeated measures||The 95% Confidence Interval (CI) and p-values were based on mixed model for repeated measures approach with Baseline Derived % Predicted DLco adjusted for Hb and pressure, age, treatment group, visit, and study visit by treatment group as covariates.|||28.696|9.319|=0.0004
92293926|NCT02004691|184491986|SUPERIORITY||Least Squares Mean Difference|-39.927|STANDARD_ERROR_OF_MEAN|3.4957|<|0.0001|TWO_SIDED|95.0|-47.051|-32.803||Threshold for significance was 0.05.|Mixed model for repeated measures||The 95% CI and p-values were based on a mixed model for repeated measures approach with Baseline Spleen Volume (MN), Baseline age, treatment group, study visit, and study visit by treatment group interaction as covariates.|||-32.803|-47.051|<.0001
92293927|NCT02004691|184491988|SUPERIORITY||Least Squares Mean Difference|1.618|STANDARD_ERROR_OF_MEAN|3.3877|=|0.6364|TWO_SIDED|95.0|-5.302|8.538||Threshold for significance was 0.15.|Mixed model for repeated measures||The 95% CI and p-values are based on a mixed model for repeated measures approach with Baseline Splenomegaly Related Score, Baseline age, treatment group, study visit, and study visit by treatment group interaction as covariates.|||8.538|-5.302|=0.6364
92293928|NCT02004691|184491993|SUPERIORITY||Least Squares Mean Difference|-26.596|STANDARD_ERROR_OF_MEAN|3.5862|<|0.0001|TWO_SIDED|95.0|-33.911|-19.281||Threshold for significance was 0.05.|Mixed model for repeated measures||The 95% CI and p-values are based on a mixed model for repeated measures approach with Baseline Liver Volume (MN), Baseline age, treatment group, study visit, and study visit by treatment group interaction as covariates.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in an order the outcome measure were reported and continued when previous endpoint was statistically significant at two-sided 0.05.||-19.281|-33.911|<.0001
92293929|NCT02004691|184491994|SUPERIORITY||Least Squares Mean Difference|14.332|STANDARD_ERROR_OF_MEAN|5.7822|=|0.0185|TWO_SIDED|95.0|2.564|26.099||Threshold for significance was 0.05.|Mixed model for repeated measures||The 95% CI and p-values are based on a mixed model for repeated measures approach with Baseline Platelets, Baseline age, treatment group, study visit, and study visit by treatment group interaction as covariates.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in an order the outcome measure were reported and continued when previous endpoint was statistically significant at two-sided 0.05.||26.099|2.564|=0.0185
92293930|NCT02004691|184491995|SUPERIORITY||Least Squares Mean Difference|-0.056|STANDARD_ERROR_OF_MEAN|0.7384|=|0.94|TWO_SIDED|95.0|-1.566|1.454||Threshold for significance was 0.05.|Mixed model for repeated measures||The 95% CI and p-values are based on a mixed model for repeated measures approach with Baseline BFI item 3 (Worst Fatigue), Baseline age, treatment group, study visit, and study visit by treatment group interaction as covariates.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in an order the outcome measure were reported and continued when previous endpoint was statistically significant at two-sided 0.05.||1.454|-1.566|=0.9400
92293931|NCT03980522|184492023|OTHER||Inter-subject variance|19.1908|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and standard deviation (SD) from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293932|NCT03980522|184492023|OTHER||Inter-subject variance|0.0018|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293933|NCT03980522|184492023|OTHER||Inter-subject variance|0.0|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293934|NCT03980522|184492023|OTHER||Intra-subject variance|12.6852|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293935|NCT03980522|184492023|OTHER||Intra-subject variance|0.1842|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293936|NCT03980522|184492023|OTHER||Intra-subject variance|1.0|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293937|NCT03980522|184492024|OTHER||Inter-subject variance|34.1446|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92293938|NCT03980522|184492024|OTHER||Inter-subject variance|0.1326|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92144707|NCT02238379|184173784|SUPERIORITY_OR_OTHER|||||||0.006||||||Main Effect of Emotion|ANOVA|Spray Type (Oxytocin, Placebo), Face Type (Infant, Adult), Emotion (Neutral, Distressed), and Hemisphere (left, right) ANOVA||Only relevant for N170||||.006
92144708|NCT02238379|184173784|SUPERIORITY_OR_OTHER|||||||0.01||||||Main Effect of Hemisphere|ANOVA|Spray Type (Oxytocin, Placebo), Face Type (Infant, Adult), Emotion (Neutral, Distressed), and Hemisphere (left, right) ANOVA||Only relevant for N170||||.01
92144709|NCT02238379|184173785|SUPERIORITY_OR_OTHER|||||||0.03||||||Main Effect of Spray|ANOVA|Spray (oxytocin, placebo) by Hemisphere (left, right) ANOVA||Only relevant for N170||||.03
92293939|NCT03980522|184492024|OTHER||Inter-subject variance|0.0|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92293940|NCT03980522|184492024|OTHER||Intra-subject variance|0.0548|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92293941|NCT03980522|184492024|OTHER||Intra-subject variance|0.0134|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92293942|NCT03980522|184492024|OTHER||Intra-subject variance|1.0|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92293943|NCT03980522|184492025|OTHER||Inter-subject variance|2.8139|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293944|NCT03980522|184492025|OTHER||Inter-subject variance|6.9999|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293945|NCT03980522|184492025|OTHER||Inter-subject variance|0.0|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293946|NCT03980522|184492025|OTHER||Intra-subject variance|0.9693|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293947|NCT03980522|184492025|OTHER||Intra-subject variance|0.0|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293948|NCT03980522|184492025|OTHER||Intra-subject variance|1.0|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
92293949|NCT03980522|184492026|OTHER||Inter-subject variance|1.9968|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92293950|NCT03980522|184492026|OTHER||Inter-subject variance|0.9047|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92293951|NCT03980522|184492026|OTHER||Inter-subject variance|0.0|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92184802|NCT00666705|184268190|SUPERIORITY_OR_OTHER||Ratio (percent)|63.25||||||90.0|44.27|90.39|||Mixed Models Analysis|Natural log transformed AUCτ was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|For raltegravir, a sample size of 18 subjects provided 90% CIs for the difference between treatments of raltegravir (±0.205) on the natural log scale for AUCτ, with 90% coverage probability.||90.39|44.27|
92184803|NCT00666705|184268191|SUPERIORITY_OR_OTHER||Ratio (percent)|90.33||||||90.0|85.28|95.68|||Mixed Models Analysis|Natural log transformed C12 was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|The alternate hypothesis of bioequivalence is that there is no difference between treatment groups.||95.68|85.28|
92293952|NCT03980522|184492026|OTHER||Intra-subject variance|1.7598|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92293953|NCT03980522|184492026|OTHER||Intra-subject variance|2.849|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92293954|NCT03980522|184492026|OTHER||Intra-subject variance|1.0|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
92293955|NCT01320722|184492029|SUPERIORITY|||||||0.72|||||||Repeated Measures Analysis|||Week 8||||0.72
92293956|NCT01320722|184492030|SUPERIORITY|||||||0.77||||||Statistical significance was set for P\>0.05.|t-test, 2 sided|||Week 8||||0.77
92293957|NCT01320722|184492031|SUPERIORITY|||||||0.57||||||Statistical significance was set for P\>0.05.|t-test, 2 sided|||Week 8||||0.57
92293958|NCT01320722|184492032|SUPERIORITY|||||||0.8|||||||Repeated Measures Analysis|||||||0.8
92293959|NCT01320722|184492032|SUPERIORITY|||||||0.6|||||||Repeated Measures Analysis|||||||0.6
92293960|NCT01320722|184492033|SUPERIORITY|||||||0.6|||||||Repeated Measures Analysis|||||||0.6
92293961|NCT01320722|184492033|SUPERIORITY|||||||0.7|||||||Repeated Measures Analysis|||||||0.7
92293962|NCT01320722|184492034|SUPERIORITY|||||||0.3|||||||Repeated Measures Analysis|||||||0.3
92293963|NCT01320722|184492034|SUPERIORITY|||||||0.1|||||||Repeated Measures Analysis|||||||0.1
92293964|NCT01320722|184492035|SUPERIORITY_OR_OTHER|||||||0.35|||||||t-test, 2 sided|Statistical significance was set for a 2-tailed P \<0.05.||Week 8||||0.35
92293965|NCT01320722|184492035|SUPERIORITY|||||||0.7||||||Statistical significance was set for a 2-tailed P \<0.05.|t-test, 2 sided|||Week 8||||0.7
92293966|NCT01320722|184492035|SUPERIORITY|||||||0.06||||||Statistical significance was set for a 2-tailed P \<0.05.|t-test, 2 sided|||Week 8||||0.06
92293967|NCT01320722|184492036|SUPERIORITY|||||||0.92||||||Statistical significance was set for P\>0.05.|Repeated Measures Analysis|||Overall SBP||||0.92
92293968|NCT01320722|184492036|SUPERIORITY|||||||0.64||||||Statistical significance was set for P\>0.05.|Repeated Measures Analysis|||Overall DBP||||0.64
92293969|NCT01320722|184492036|SUPERIORITY|||||||0.8||||||Statistical significance was set for P\>0.05.|Repeated Measures Analysis|||Awake SBP||||0.80
92293970|NCT01320722|184492036|SUPERIORITY|||||||0.97||||||Statistical significance was set for P\>0.05.|Repeated Measures Analysis|||Asleep SBP at Week 8||||0.97
92293971|NCT01320722|184492036|SUPERIORITY|||||||0.34|||||||Repeated Measures Analysis|||Overall SBP||||0.34
92293972|NCT01320722|184492036|SUPERIORITY|||||||0.59|||||||Repeated Measures Analysi|||Overall DBP||||0.59
92293973|NCT01320722|184492036|SUPERIORITY|||||||0.57|||||||Repeated Measures Analysis|||Awake SBF||||0.57
92293974|NCT01320722|184492036|SUPERIORITY|||||||0.08|||||||Repeated Measures Analysis|||Asleep SBP||||0.08
92293975|NCT01320722|184492036|SUPERIORITY|||||||0.59|||||||Repeated Measures Analysis|||Overall SBP||||0.59
92293976|NCT01320722|184492036|SUPERIORITY|||||||0.53|||||||Repeated Measures Analysis|||||||0.53
92293977|NCT01320722|184492036|SUPERIORITY|||||||0.55|||||||Repeated Measures Analysis|||Awake SBP||||0.55
92293978|NCT01320722|184492036|SUPERIORITY|||||||0.8|||||||Repeated Measures Analysis|||Asleep SBP||||0.80
92293979|NCT01320722|184492037|SUPERIORITY|||||||0.98|||||||Repeated Measures Analysis|||||||0.98
92293980|NCT01320722|184492037|SUPERIORITY|||||||0.07|||||||Repeated Measures Analysis|||||||0.07
92293981|NCT01320722|184492037|SUPERIORITY|||||||0.97|||||||Repeated Measures Analysis|||||||0.97
92293982|NCT01091363|184492038|SUPERIORITY||Odds Ratio (OR)|4.67|||<|0.01|TWO_SIDED|95.0|1.67|12.99|||Regression, Logistic|||||12.99|1.67|<0.01
92293983|NCT01091363|184492039|SUPERIORITY_OR_OTHER|Hayes' PROCESS computation tool for a serial multiple mediator model predicting a binary logistic outcome.|Mean Difference (Net)|1.92||||0.02|TWO_SIDED|95.0|0.34|6.32|||Mediation Analysis|||Mediation analyses were performed to examine the effect of the intervention on abstinence via the three theoretic variables (attitudes, perceived family norms, and self-efficacy), using the Hayes' PROCESS computation tool for a serial multiple mediator model with a binary outcome variable (quitting vs. smoking).||6.32|0.34|0.02
92293984|NCT04892147|184492049|OTHER|"Mean value of Enjoyment (8-item summed scale) tested against the value of a Neutral Likert response (Neutral value = 3)."|||||<|0.001||||||The threshold for statistical significance was p = 0.05. The reported value is a calculated -p-value.|t-test, 2 sided|||||||<0.001
92293985|NCT04892147|184492050|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.259||||||The threshold for statistical significance was p = 0.05|Regression, Linear|||||||0.259
92293986|NCT04892147|184492051|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.711||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||||||0.711
92293987|NCT04892147|184492052|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.214||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||||||0.214
92293988|NCT04892147|184492053|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.317||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||||||0.317
92293989|NCT04892147|184492054|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.056||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||||||0.056
92293990|NCT04892147|184492055|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.562||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||||||0.562
92293991|NCT03407729|184492074|OTHER|Using seed-based analysis with a 1) Left Thalamus seed and 2) Left Middle Temporal Gyrus seed, cluster size was set at 50 voxels and p-value was thresholded at p\<0.05. This was used to compare the differences between the two study groups in terms of number of activated voxels during during cognitive testing using the N-back.|||||<|0.05||||||The a priori threshold for statistical significance was p\<0.05 and statistical power was set at a minimum of 0.80.|t-test, 2 sided|||||||<0.05
92293992|NCT01849458|184492077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.6|STANDARD_DEVIATION|26.0||0.0001|TWO_SIDED|95.0|25.2|40.0|||2-sided, paired t-test|||Difference from baseline (6M-Baseline)||40|25.2|0.0001
92293993|NCT01849458|184492078|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.7|STANDARD_DEVIATION|23.6||0.0001|TWO_SIDED|95.0|28.7|42.7|||2-sided, paired t-test|||Difference from baseline (12M-Baseline)||42.7|28.7|0.0001
92293994|NCT01849458|184492079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.8|STANDARD_DEVIATION|22.2||0.0001|TWO_SIDED|95.0|37.4|50.1|||2-sided, paired t-test|||Difference from baseline (6M-Baseline)||50.1|37.4|0.0001
92293995|NCT01849458|184492080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.2|STANDARD_DEVIATION|20.2||0.0001|TWO_SIDED|95.0|43.2|55.2|||2-sided, paired t-test|||Difference from baseline (12M-Baseline)||55.2|43.2|0.0001
92293996|NCT04387617|184492083|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_DEVIATION|2.6||0.5|TWO_SIDED|95.0|-0.8|1.6|||t-test, 2 sided|||||1.6|-0.8|0.5
92293997|NCT00360490|184492094|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis: the absolute change from Baseline MBL to End of Study MBL is equal in the LNG IUS group and the MPA group.||||<0.001
92293998|NCT00360490|184492095|SUPERIORITY_OR_OTHER||Risk Difference (RD)|62.59|||<|0.001||95.0|50.56|74.61|||Chi-squared|||The null hypothesis: the proportion of subjects with successful treatment is equal in the LNG IUS group and the MPA group.||74.61|50.56|<0.001
92293999|NCT00360490|184492096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-49.2|||<|0.001||95.0|-70.2|-28.3|||t-test, 2 sided|||The null hypothesis: the percent change from Baseline MBL to End of Study MBL is equal in the LNG IUS group and the MPA group.||-28.3|-70.2|<0.001
92294000|NCT00360490|184492097|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis: the absolute change from Baseline MBL to Mid-study MBL is equal in the LNG IUS group and the MPA group.||||<0.001
92294001|NCT00360490|184492098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.6|||<|0.001||95.0|-63.8|-37.4|||t-test, 2 sided|||The null hypothesis: the percent change from Baseline MBL to Mid-study MBL is equal in the LNG IUS group and the MPA group.||-37.4|-63.8|<0.001
92294002|NCT00360490|184492108|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.06||||||95.0|14.75|37.36||||||A two-sided 95% confidence interval for the improvement rate will be provided for cycle 6||37.36|14.75|
92294003|NCT00556673|184492138|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|||<|0.0001|TWO_SIDED|90.0|0.28|0.51||"Linear mixed effect model fitting treatment, sequence and period as fixed factors, patient within sequence as a random factor and pre-dose FEV1 as covariate.~A significance level of 5% was used to determine statistical significance."|1-sided|||The primary hypothesis tested was that the change from period baseline of trough FEV1 for placebo and indacaterol/mometasone was equal. The one-sided alternative was that the increase from period baseline of trough FEV1 for indacaterol/mometasone was higher than for placebo.||0.51|0.28|< 0.0001
92294004|NCT01971554|184492153|SUPERIORITY_OR_OTHER||Difference in the least squares means|30.8|||||TWO_SIDED|90.0|11.3|50.3|||||A constrained longitudinal data analysis (cLDA) model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||50.3|11.3|
92294005|NCT01971554|184492153|SUPERIORITY_OR_OTHER||Difference in the least squares means|36.0|||||TWO_SIDED|90.0|20.0|51.9|||||A cLDA model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||51.9|20.0|
92294006|NCT01971554|184492153|SUPERIORITY_OR_OTHER||Difference in the least squares means|54.1|||||TWO_SIDED|90.0|38.1|70.0|||||A cLDA model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||70.0|38.1|
92294007|NCT01971554|184492159|SUPERIORITY_OR_OTHER||Difference in the least squares means|22.3|||||TWO_SIDED|90.0|6.2|38.4|||||A cLDA model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||38.4|6.2|
92294008|NCT01971554|184492159|SUPERIORITY_OR_OTHER||Difference in the least squares means|30.6|||||TWO_SIDED|90.0|17.4|43.8|||||A cLDA model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||43.8|17.4|
92294009|NCT01971554|184492159|SUPERIORITY_OR_OTHER||Difference in the least squares means|48.8|||||TWO_SIDED|90.0|35.6|62.0|||||A cLDA model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||62.0|35.6|
92144710|NCT02238379|184173785|SUPERIORITY_OR_OTHER|||||||0.008||||||Main Effect of Hemisphere|ANOVA|Spray (oxytocin, placebo) by Hemisphere (left, right) ANOVA||Only relevant for N170||||.008
92144711|NCT02238379|184173786|SUPERIORITY_OR_OTHER|||||||0.05|||||||correlation|||||||.05
92144712|NCT02238379|184173788|SUPERIORITY_OR_OTHER|||||||0.05|||||||correlation|||||||.05
92144713|NCT02238379|184173789|SUPERIORITY_OR_OTHER|||||||0.05|||||||correlation|||||||.05
92144714|NCT02238379|184173790|SUPERIORITY_OR_OTHER|||||||0.05|||||||correlation|||||||.05
92144715|NCT00605280|184173808|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.0047|TWO_SIDED|95.0|1.32|4.3||Adjusted for glycolated hemoglobin (HbA1c), systolic blood pressure (BP), diastolic BP, and baseline VA. Baseline values not carried forward for missing post-baseline data.|Cochran-Mantel-Haenszel|||||4.30|1.32|0.0047
92144716|NCT00605280|184173809|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.1904|TWO_SIDED|95.0|0.85|2.53|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||2.53|0.85|0.1904
92144717|NCT00605280|184173810|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.2466|TWO_SIDED|95.0|0.74|3.34|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||3.34|0.74|0.2466
92144718|NCT00605280|184173811|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.1388|TWO_SIDED|95.0|0.86|3.26|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||3.26|0.86|0.1388
92184804|NCT00666705|184268192|SUPERIORITY_OR_OTHER||Ratio (percent)|66.77||||||90.0|41.22|108.15|||Mixed Models Analysis|Natural log transformed Cmax was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|For raltegravir, a sample size of 18 subjects provided 90% CIs for the difference between treatments of raltegravir (±0.293) on the natural log scale for Cmax, with 90% coverage probability.||108.15|41.22|
92184805|NCT00666705|184268193|SUPERIORITY_OR_OTHER||ratio (percent)|72.42||||||90.0|57.82|90.71|||Mixed Models Analysis|Natural log transformed C12 was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|||90.71|57.82|
92184806|NCT01029704|184268204|SUPERIORITY||Difference of LS Means|-16.923||||0.0989|TWO_SIDED|95.0|-37.076|3.23||P-values are from two-sided test at 5% level|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||3.230|-37.076|0.0989
92294010|NCT00950300|184492160|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the 90% confidence interval (CI) was greater than or equal to (≥) 0.8 for the geometric mean ratio.|Geometric mean ratio|1.33|||||TWO_SIDED|90.0|1.24|1.44|||||Ratio of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|PK sample size calculations based on percentage of coefficient of variation (CV%) for Ctrough of trastuzumab from previous metastatic breast cancer (MBC) and early breast cancer (EBC) studies. Because pre-surgery situation was comparable to MBC setting, interpatient CV% of 60 percent (%) was assumed and 130 participants per arm (260 participants total) were needed to demonstrate Ctrough comparability with 80% power if the true means of the two formulations did not differ by greater than (\>) 5%.||1.44|1.24|
92294011|NCT00950300|184492161|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the one-sided 97.5% CI was above -12.5% for the difference in response (pCR) rates.|Difference in response rates|4.7|||||ONE_SIDED|97.5|-4.0||||||The one-sided 97.5% CI for the difference in response (pCR) rates was calculated using the Anderson-Hauck continuity correction.|Assuming pCR rates of at least 40% in both arms, 552 participants were necessary to conclude non-inferiority in pCR rate with a power of 80% using a one-sided 97.5% CI for the difference of the response rates and a non-inferiority margin of 12.5%.|||-4.0|
92294012|NCT00950300|184492162|OTHER||Geometric mean ratio|1.51|||||TWO_SIDED|90.0|1.4|1.63|||||Ratio of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|Additional supportive analysis.||1.63|1.40|
92184807|NCT01029704|184268204|SUPERIORITY||Difference of LS Means|-17.834||||0.0964|TWO_SIDED|95.0|-38.909|3.242||P-values are from two-sided test at 5% level|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||3.242|-38.909|0.0964
92184808|NCT01029704|184268204|SUPERIORITY||Difference of LS Means|-19.991||||0.0465|TWO_SIDED|95.0|-39.67|-0.312||P-values are from two-sided test at 5% level|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.312|-39.670|0.0465
92294013|NCT00950300|184492163|OTHER||Geometric mean ratio|1.55|||||TWO_SIDED|90.0|1.46|1.64|||||Ratio of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|Additional supportive analysis.||1.64|1.46|
92144719|NCT00605280|184173812|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.0468|TWO_SIDED|95.0|0.07|0.99|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||0.99|0.07|0.0468
92144720|NCT00605280|184173813|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.1124|TWO_SIDED|95.0|0.73|11.55|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||11.55|0.73|0.1124
92144721|NCT00605280|184173814|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48||||0.1788|TWO_SIDED|95.0|0.16|1.42|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||1.42|0.16|0.1788
92144722|NCT00605280|184173815|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.12||||0.0048|TWO_SIDED|95.0|1.45|18.06|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||18.06|1.45|0.0048
92144723|NCT00605280|184173816|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean|3.9||||0.004|TWO_SIDED|95.0|1.25|6.54|||ANCOVA|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||6.54|1.25|0.0040
92144724|NCT00605280|184173817|SUPERIORITY_OR_OTHER||LS Mean|4.57||||0.0011|TWO_SIDED|95.0|1.85|7.29|||ANCOVA|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post baseline data.||||7.29|1.85|0.0011
92294014|NCT00950300|184492164|OTHER||Geometric mean ratio|1.55|||||TWO_SIDED|90.0|1.45|1.64|||||Ratio of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|Additional supportive analysis.||1.64|1.45|
92294015|NCT00950300|184492173|OTHER||Difference in response rates|5.01|||||TWO_SIDED|95.0|-3.5|13.5|||||The 95% CI for the difference in response (tpCR) rates was calculated using the Anderson-Hauck continuity correction.|||13.5|-3.5|
92294016|NCT00950300|184492174|OTHER||Difference in response rates|-1.64|||||TWO_SIDED|95.0|-7.4|4.2|||||The 95% CI for the difference in response (CR+PR) rates was calculated using the Anderson-Hauck continuity correction.|||4.2|-7.4|
92294017|NCT00950300|184492174|OTHER||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.5|1.46|||||OR of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|||1.46|0.50|
92294018|NCT00950300|184492177|OTHER||Hazard Ratio (HR)|0.98||||0.8651|TWO_SIDED|95.0|0.74|1.29|||Log Rank||HR of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|||1.29|0.74|0.8651
92294019|NCT00950300|184492179|OTHER||Hazard Ratio (HR)|0.94||||0.7767|TWO_SIDED|95.0|0.61|1.45|||Log Rank||HR of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|||1.45|0.61|0.7767
92294020|NCT04388787|184492185|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.03
92294021|NCT04388787|184492186|SUPERIORITY|||||||0.0008|||||||ANCOVA|||||||0.0008
92294022|NCT05186415|184492189|OTHER||Intraclass coefficient|0.84|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular end-diastolic volumes were compared between two groups using an intraclass coefficient||||
92294023|NCT05186415|184492189|OTHER||Intraclass coefficient|0.77|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular end-diastolic volumes were compared between two groups using an intraclass coefficient||||
92294024|NCT05186415|184492189|OTHER||Intraclass coefficient|0.71|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular end-systolic volumes were compared between two groups using an intraclass coefficient||||
92144725|NCT00605280|184173818|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.0023|TWO_SIDED|95.0|0.24|0.74|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||0.74|0.24|0.0023
92144726|NCT00605280|184173819|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.0008|TWO_SIDED|95.0|0.23|0.69|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||0.69|0.23|0.0008
92294025|NCT05186415|184492189|OTHER||Intraclass coefficient|0.685|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular end-systolic volumes were compared between two groups using an intraclass coefficient||||
92294026|NCT05186415|184492190|OTHER||Intraclass Coefficient|0.44|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular ejection fraction were compared between non-contrast echocardiogram and cardiac MRI using an intraclass coefficient||||
92294027|NCT05186415|184492190|OTHER||Intraclass coefficient|0.13|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular ejection fraction were compared between contrast echocardiogram and cardiac MRI using an intraclass coefficient||||
92294028|NCT05186415|184492192|OTHER|Intraclass coefficient used to assess agreement between non-contrast echocardiographic values and cardiac MRI global longitudinal strain|Intraclass coefficient|0.419|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|||||
92294029|NCT05186415|184492192|OTHER|Intraclass coefficient used to assess agreement between contrast echocardiographic values and cardiac MRI global longitudinal strain|Intraclass coefficient|0.0|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|||||
92294030|NCT04662710|184492200|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0244|TWO_SIDED|95.0|0.71|1.0||One-sided p-value based on log-rank test stratified by region, ECOG performance status, and chemotherapy type|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by region, ECOG performance status, and chemotherapy type|||1.00|0.71|.0244
92294031|NCT04662710|184492201|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.033|TWO_SIDED|95.0|0.75|1.01||One-sided p-value based on log-rank test stratified by region, ECOG performance status and chemotherapy type.|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by region, ECOG performance status, and chemotherapy|||1.01|0.75|0.0330
92294032|NCT04662710|184492202|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0012|TWO_SIDED|95.0|0.62|0.9||One-sided p-value based on log-rank test stratified by region, performance status, and chemotherapy type|Log Rank||HR Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by region, ECOG performance status, and chemotherapy type.|||0.90|0.62|.0012
92294033|NCT04662710|184492203|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0019|TWO_SIDED|95.0|0.66|0.92||One-sided p-value based on log-rank test stratified by region, ECOG performance status, and chemotherapy type.|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by region, ECOG performance status, and chemotherapy type.|||0.92|0.66|0.0019
92294034|NCT04662710|184492204|SUPERIORITY||Difference in Percentage|14.3|||<|0.0001|TWO_SIDED|95.0|6.9|21.5|||t-test, 1 sided|||ORR comparison between groups is based on Miettinen \& Nurminen method stratified by region, ECOG performance status, and type of chemotherapy||21.5|6.9|<0.0001
92294035|NCT04662710|184492205|SUPERIORITY||Difference in Percentage|14.2|||<|0.0001|TWO_SIDED|95.0|7.7|20.6|||t-test, 1 sided|||ORR comparison between groups is based on Miettinen \& Nurminen method stratified by region, ECOG performance status, and type of chemotherapy||20.6|7.7|<0.0001
92294036|NCT01453153|184492278|SUPERIORITY||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|60.0||||||||60|0|
92294037|NCT01453153|184492278|SUPERIORITY||percentage of participants|50.0|||||TWO_SIDED|95.0|7.0|93.0||||||||93|7|
92294038|NCT01453153|184492278|SUPERIORITY||percentage of participants|40.0|||||TWO_SIDED|95.0|19.0|64.0||||||||64|19|
92294039|NCT01453153|184492279|SUPERIORITY||percentage of participants|25.0|||||TWO_SIDED|95.0|1.0|81.0||||||||81|1|
92294040|NCT01453153|184492279|SUPERIORITY||percentage of participants|100.0|||||TWO_SIDED|95.0|40.0|100.0||||||||100|40|
92294041|NCT01453153|184492279|SUPERIORITY||percentage of participants|70.0|||||TWO_SIDED|95.0|46.0|88.0||||||||88|46|
92294042|NCT01196117|184492286|SUPERIORITY|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||||||0.0009
92294043|NCT01196117|184492287|SUPERIORITY|||||||0.8938|||||||Wilcoxon (Mann-Whitney)|||||||0.8938
92294044|NCT01196117|184492288|SUPERIORITY||||||<|0.014|||||||Wilcoxon (Mann-Whitney)|||||||<0.014
92294045|NCT01196117|184492289|SUPERIORITY||||||<|0.02|||||||Wilcoxon (Mann-Whitney)|||||||<0.0200
92294046|NCT01196117|184492290|SUPERIORITY|||||||0.1321|||||||Wilcoxon (Mann-Whitney)|||||||0.1321
92294047|NCT01196117|184492291|SUPERIORITY||||||<|0.249|||||||Wilcoxon (Mann-Whitney)|||||||<0.2490
92294048|NCT01196117|184492292|SUPERIORITY|||||||0.5139|||||||Wilcoxon (Mann-Whitney)|||||||0.5139
92294049|NCT01196117|184492293|SUPERIORITY|||||||0.0597|||||||Wilcoxon (Mann-Whitney)|||||||0.0597
92294050|NCT01196117|184492294|SUPERIORITY|||||||0.2134|||||||Wilcoxon (Mann-Whitney)|||||||0.2134
92294051|NCT02153723|184492326|OTHER|Wilcoxon signed rank sum test|Median Difference (Final Values)|21.6||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.03
92294052|NCT02153723|184492327|OTHER|Wilcoxon signed rank sum test|Median Difference (Final Values)|-2.0||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.03
92294053|NCT02153723|184492328|OTHER|Wilcoxon signed rank sum test|Median Difference (Final Values)|-0.1||||0.004|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.004
92294054|NCT02153723|184492329|OTHER|Wilcoxon signed rank sum test|Median Difference (Final Values)|15.9||||0.08|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.08
92294055|NCT02153723|184492330|OTHER|Wilcoxon signed rank sum test|Mean Difference (Final Values)|0.8||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.86
92294056|NCT02153723|184492331|OTHER|Wilcoxon signed rank sum test|Median Difference (Final Values)|0.0||||0.44|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.44
92294057|NCT02274558|184492339|OTHER||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-4.2|-2.0|||Mixed-effect Model Repeated Measures|||"Control for multiplicity was accomplished through the a fixed-sequence testing procedure for Week 6 outcomes:~* AIMS dyskinesia total score mean change from baseline (CFB): valbenazine 80 mg vs. placebo.~* CGI-TD mean score: VBZ 80 mg vs. PBO.~* AIMS: VBZ 40 mg vs. PBO.~* CGI-TD: VBZ 40 mg vs. PBO.~For a test result in the above list to be considered statistically significant, all of the test results higher in the list must have been significant at the 0.05 level of significance."||-2.0|-4.2|<0.0001
92294058|NCT02274558|184492339|OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.6||0.0021|TWO_SIDED|95.0|-3.0|-0.7||Nominal P-value, not adjusted for multiplicity. See comments in above statistical analysis overview regarding the fixed-sequence testing procedure to control for multiplicity.|Mixed-effect Model Repeated Measures|||||-0.7|-3.0|0.0021
92294059|NCT02274558|184492340|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0742|TWO_SIDED|95.0|-0.5|0.0|||Mixed-effect Model Repeated Measures|||||0.0|-0.5|0.0742
92294060|NCT02274558|184492340|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.056|TWO_SIDED|95.0|-0.5|0.0|||Mixed-effect Model Repeated Measures|||||0.0|-0.5|0.0560
92294061|NCT02274558|184492341|OTHER|||||||0.02|||||||Cochran-Mantel-Haenszel|||||||0.0200
92294062|NCT02274558|184492341|OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92294063|NCT00059332|184492354|SUPERIORITY_OR_OTHER|||||||0.28|ONE_SIDED||||||Cochran-Mantel-Haenszel|||For the primary efficacy analysis, data were analyzed to test the null hypothesis that the distribution of scores over all 7 levels of the modified Rankin Scale at Day 90 was identical in the magnesium sulfate and placebo groups, vs. the one-sided alternative that the distribution of scores is shifted lower in the active magnesium sulfate therapy group. The statistic used to test the primary hypothesis was the Cochran-Mantel-Haenszel test statistic stratified by transport vehicle.||||0.28
92294064|NCT00059332|184492355|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.87|TWO_SIDED|95.0|0.81|1.2|||Chi-squared|||||1.20|0.81|0.87
92294065|NCT00059332|184492356|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.87|TWO_SIDED|95.0|0.81|1.19|||Chi-squared|||||1.19|0.81|0.87
92294066|NCT00059332|184492357|SUPERIORITY_OR_OTHER|||||||0.276|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.2760
92294067|NCT00059332|184492358|SUPERIORITY_OR_OTHER|||||||0.3912|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3912
92294068|NCT00059332|184492359|SUPERIORITY_OR_OTHER|||||||0.323|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3230
92294069|NCT00059332|184492360|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.95|TWO_SIDED|95.0|0.87|1.27|||Chi-squared|||||1.27|0.87|0.95
92294070|NCT00059332|184492361|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62||||0.12|TWO_SIDED|95.0|0.34|1.14|||Chi-squared|||||1.14|0.34|0.12
92294071|NCT00059332|184492362|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.95|TWO_SIDED|95.0|0.76|1.29|||Chi-squared|||||1.29|0.76|0.95
92294072|NCT00487695|184492368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED|95.0|||||Wilcoxon signed rank|||Our hypothesis was that the yield for neoplasia would be higher using confocal laser endomicroscopy compared to standard endoscopy. The null hypothesis would be that there is no difference in yield for neoplasia when CLE is used compared to standard endoscopy. We estimated that the yield for neoplasia would increase from 10% to 40% using CLE and the calculated sample size was 37. We planned to enroll 48 patients to allow for possible dropouts.||||0.01
92294073|NCT00487695|184492369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89||95.0|||||Wilcoxon signed-rank|||The number of biopsies showing neoplasia was determined for each procedure (confocal laser endomicroscopy, standard EGD). These were compared.||||0.89
92294074|NCT00487695|184492370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||wilcoxon signed rank test|||The null hypothesis would be that CLE does not decrease the number of biopsies needed to make a diagnosis compared to standard endoscopy||||0.002
92294075|NCT00487695|184492372|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank|||The number of biopsies showing neoplasia was determined for each procedure (confocal laser endomicroscopy, standard EGD). These were compared. This analysis looks at the patients referred for Barrett's surveillance EGD (no suspected neoplasia).||||1.0
92294076|NCT00487695|184492373|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed-rank|||The null hypothesis would be that CLE does not decrease the number of biopsies needed to make a diagnosis compared to standard endoscopy||||<0.0001
92294077|NCT01358877|184492375|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.043|TWO_SIDED|95.0|0.68|0.99||Statistical significance was controlled at a two-sided alpha level of 0.05.|Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||0.99|0.68|0.0430
92294078|NCT01358877|184492378|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0327|TWO_SIDED|95.0|0.67|0.98||Statistical significance was controlled at a two-sided alpha level of 0.05.|Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||0.98|0.67|0.0327
92294079|NCT01358877|184492381|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.4673|TWO_SIDED|95.0|0.66|1.21||The O'Brien-Fleming stopping boundary of the Lan-DeMets alpha-spending function for the first interim OS analysis was HR\<0.52; p\<0.00001.|Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||1.21|0.66|0.4673
92294080|NCT01358877|184492382|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0441|TWO_SIDED|95.0|0.69|1.0||The p-value threshold according to the alpha-spending function at this final analysis was 0.0496.|Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||1.00|0.69|0.0441
92294081|NCT01358877|184492385|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.043|TWO_SIDED|95.0|0.63|0.99|||Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||0.99|0.63|0.0430
92294082|NCT01358877|184492388|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.1007|TWO_SIDED|95.0|0.64|1.04|||Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||1.04|0.64|0.1007
92294083|NCT01358877|184492391|SUPERIORITY||Treatment Difference|0.4|||||TWO_SIDED|95.0|0.0|0.8|||||The difference in percentage of participants with a primary cardiac event between the pertuzumab and placebo arms. The 95% confidence interval (CI) was estimated using Hauck-Anderson correction.|||0.8|0.0|
92294084|NCT01358877|184492392|SUPERIORITY||Treatment Difference|0.4|||||TWO_SIDED|95.0|-0.1|0.9|||||The difference in percentage of participants with a primary cardiac event between the pertuzumab and placebo arms. The 95% confidence interval (CI) was estimated using Hauck-Anderson correction.|||0.9|-0.1|
92294085|NCT01358877|184492393|SUPERIORITY||Treatment Difference|-0.1|||||TWO_SIDED|95.0|-1.0|0.9|||||95% CI was estimated using Hauck-Anderson correction.|||0.9|-1.0|
92294086|NCT01358877|184492394|SUPERIORITY||Treatment Difference|-0.1|||||TWO_SIDED|95.0|-1.1|0.9|||||95% CI was estimated using Hauck-Anderson correction.|||0.9|-1.1|
92294087|NCT01358877|184492395|SUPERIORITY||Treatment Difference|0.1|||||TWO_SIDED|95.0|-0.3|0.5|||||95% CI was estimated using Hauck-Anderson correction.|||0.5|-0.3|
92294088|NCT01358877|184492396|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-0.4|0.4|||||95% CI was estimated using Hauck-Anderson correction.|||0.4|-0.4|
92294089|NCT01358877|184492412|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0446|TWO_SIDED|95.0|0.66|1.0||Statistical significance was controlled at a two-sided alpha level of 0.05.|Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||1.00|0.66|0.0446
92294090|NCT00323258|184492454|NON_INFERIORITY_OR_EQUIVALENCE|"Equivalence analysis. Null hypothesis: The will be no difference in proportion of participants adherent to triple therapy in the treatment arm compared to those who receive usual care."||||||0.5|||||||Chi-squared|||Sample size of 286 patients(143 patients per group).Based on an estimated absolute improvement in medication adherence of 15% in the intervention group (eg, 85% in the intervention group, 70% in the control group), a 2-sided test with α level of .05, a 15% dropout rate, and power of 0.80.||||.50
92294091|NCT00323258|184492455|NON_INFERIORITY_OR_EQUIVALENCE|"Equivalence analysis. Null hypothesis: The will be no difference in the proportion of participants who are \>/= 75% adherent to combined beta-blocker and statin therapy in the treatment arm compared to those who receive usual care."|||||=|0.11|||||||Chi-squared|||Sample Size calculated as 286 total or 143 patient per treatment group. Based on a baseline adherence rate of 70%, an estimated absolute improvement in medication adherence of 15.0% in the intervention group, we would require 122 patients per group assuming a 2-sided test with alpha-level of .05 and power of .80. To sustain a 15% dropout/ loss to follow-up rate, about 143 patients per group (286 patients total) would need to be consented.||||=0.11
92294092|NCT00323258|184492456|NON_INFERIORITY_OR_EQUIVALENCE|"Equivalence analysis. Null hypothesis: The will be no difference in the proportion of participants who are \>/= 75% adherent to beta-blockers in the treatment arm compared to those who receive usual care."||||||0.03|||||||Chi-squared|||Sample Size calculated as 286 total or 143 patient per treatment group. Based on a baseline adherence rate of 70%, an estimated absolute improvement in medication adherence of 15.0% in the intervention group, we would require 122 patients per group assuming a 2-sided test with alpha-level of .05 and power of .80. To sustain a 15% dropout/ loss to follow-up rate, about 143 patients per group (286 patients total) would need to be consented.||||0.03
92144727|NCT01311674|184173824|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
92144728|NCT01311674|184173825|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
92144729|NCT01311674|184173826|SUPERIORITY|||||||0.84|||||||Log Rank|||||||0.84
92144730|NCT01311674|184173827|SUPERIORITY|||||||0.24|||||||Log Rank|||||||0.24
92144731|NCT01311674|184173828|SUPERIORITY|||||||0.27|||||||Log Rank|||||||0.27
92144732|NCT02959996|184173831|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
92144733|NCT02959996|184173832|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||.14
92144734|NCT02959996|184173833|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
92144735|NCT01329029|184173862|SUPERIORITY_OR_OTHER||Rate ratio|0.868|STANDARD_ERROR_OF_MEAN|0.0633||0.0529|TWO_SIDED|95.0|0.753|1.002||Level of significance: 5% 2-sided|Generalized Linear Regression|Poisson regression model (estimates of exacerbation rates using time in trial as model offset).|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|||1.002|0.753|0.0529
92144736|NCT01329029|184173863|SUPERIORITY_OR_OTHER||LS Mean difference|0.056|STANDARD_ERROR_OF_MEAN|0.0089|<|0.0001|TWO_SIDED|95.0|0.038|0.073|||ANCOVA|Analysis of Covariance (ANCOVA) including treatment by time interaction.||||0.073|0.038|<0.0001
92294093|NCT00323258|184492457|NON_INFERIORITY_OR_EQUIVALENCE|"Equivalence analysis. Null hypothesis: The will be no difference in the proportion of participants who are \>/= 75% adherent to statins in the treatment arm compared to those who receive usual care."||||||0.34|||||||Chi-squared|||Sample Size calculated as 286 total or 143 patient per treatment group. Based on a baseline adherence rate of 70%, an estimated absolute improvement in medication adherence of 15.0% in the intervention group, we would require 122 patients per group assuming a 2-sided test with alpha-level of .05 and power of .80. To sustain a 15% dropout/ loss to follow-up rate, about 143 patients per group (286 patients total) would need to be consented.||||0.34
92294094|NCT01728636|184492459|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||.05
92294095|NCT01097694|184492495|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||"Our null hypothesis was that the mean of this ratio will be 0 after log2-transformed.~The target enrollment was 60 assuming 10% drop-out for 54 completions which gave us 80% power to detect a doubling-dose change in PC20."||||<0.05
92294096|NCT01097694|184492496|SUPERIORITY||||||<|0.05|||||||Regression, Linear|Adjusted for baseline.||||||<0.05
92294097|NCT01097694|184492497|SUPERIORITY|||||||0.12|||||||Regression, Linear|Adjusted for baseline.||||||0.12
92294098|NCT01097694|184492498|SUPERIORITY|||||||0.1|||||||Regression, Linear|Adjusted for baseline.||||||0.10
92294099|NCT01097694|184492499|SUPERIORITY|||||||0.36|||||||Poisson regression model|||||||0.36
92294100|NCT01097694|184492500|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|adjusted for baseline values||For FEV1 we used a linear mixed-effects model to assess the between-group difference in the change from baseline over weeks 8-24.||||<0.05
92294101|NCT01097694|184492501|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|Adjusted for baseline.||For FEV1% we used a linear mixed-effects model to assess the between-group difference in the change from baseline over weeks 8-24.||||0.06
92294102|NCT01097694|184492502|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|Adjusted for baseline||||||0.38
92294103|NCT01097694|184492503|SUPERIORITY|||||||0.31|||||||Mixed Models Analysis|Adjusted for baseline.||||||0.31
92294104|NCT01097694|184492504|SUPERIORITY|||||||0.11|||||||Regression, Linear|Adjusted for baseline||||||0.11
92294105|NCT01097694|184492505|SUPERIORITY|||||||0.31|||||||Regression, Linear|Adjusted for baseline.||||||0.31
92294106|NCT01097694|184492506|SUPERIORITY|||||||0.11|||||||Regression, Linear|Adjusted for baseline||||||0.11
92294107|NCT01097694|184492507|SUPERIORITY|||||||0.62|||||||Regression, Linear|Adjusted for baseline.||||||0.62
92294108|NCT01097694|184492508|SUPERIORITY|||||||0.57|||||||Regression, Linear|Adjusted for baseline.||||||0.57
92294109|NCT01097694|184492509|SUPERIORITY|||||||0.15|||||||Regression, Linear|Adjusted for baseline||||||0.15
92294110|NCT01097694|184492510|SUPERIORITY|||||||0.33|||||||Regression, Linear|Adjusted for baseline.||||||0.33
92294111|NCT01097694|184492511|SUPERIORITY|||||||0.11|||||||Regression, Linear|Adjusted for baseline.||||||0.11
92294112|NCT01097694|184492512|SUPERIORITY|||||||0.07|||||||Regression, Linear|Adjusted for baseline.||||||0.07
92294113|NCT01097694|184492513|SUPERIORITY|||||||0.94|||||||Regression, Linear|Adjusted for baseline.||||||0.94
92294114|NCT01097694|184492514|SUPERIORITY|||||||0.13|||||||Regression, Linear|Adjusted for baseline||||||0.13
92294115|NCT01097694|184492515|SUPERIORITY|||||||0.25|||||||Regression, Linear|Adjusted for baseline||||||0.25
92294116|NCT01097694|184492516|SUPERIORITY|||||||0.54|||||||Regression, Linear|Adjusted for baseline.||||||0.54
92294117|NCT01097694|184492517|SUPERIORITY|||||||0.18|||||||Regression, Linear|Adjusted for baseline.||||||0.18
92294118|NCT01097694|184492518|SUPERIORITY|||||||0.56|||||||Regression, Linear|Adjusted for baseline.||||||0.56
92294119|NCT01097694|184492519|SUPERIORITY|||||||0.47|||||||Regression, Linear|Adjusted for baseline.||||||0.47
92294120|NCT00766493|184492529|SUPERIORITY_OR_OTHER||Proportion|0.043|STANDARD_ERROR_OF_MEAN|0.013||0.0001|TWO_SIDED|95.0|0.021|0.077||Reject H0 if z\<-1.96, or 1-sided p\<0.025.|One Sample Binomial|Significance test was based on a one-sample normal approximation to the binomial test.|The 2-sided 95% CI is reported for descriptive purposes; the statistical hypothesis test is 1-sided.|"This study is designed to test the primary null hypothesis that the composite MAE outcome of all death, stroke, and/or MI when using the GORE Embolic Filter is equal to or higher than a Performance Goal (PG) of 6.4% established from published carotid stenting studies utilizing distal embolic protection, versus the alternative hypothesis that the composite MAE outcome is less than the performance goal.~The sample size was calculated based on 80% power and a 1-sided Type I error rate of 0.025."||0.077|0.021|0.0001
92294121|NCT03950674|184492540|OTHER||Hazard Ratio (HR)|0.62||||0.12511|TWO_SIDED|95.0|0.27|1.42||One-sided p-value based on unstratified log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||1.42|0.27|0.12511
92294122|NCT03950674|184492541|OTHER||Hazard Ratio (HR)|0.29||||0.03127|TWO_SIDED|95.0|0.07|1.15||One-sided p-value based on unstratified log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||1.15|0.07|0.03127
92294123|NCT00830167|184492549|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.17||0.0046|TWO_SIDED|95.0|-0.78|-0.11||The analysis was conducted using 1-sided test with the significance level of 0.025. Actual significance level was calculated based on O'Brien-Fleming type alpha spending function of Lan and DeMets (1983).|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.11|-0.78|0.0046
92294124|NCT00830167|184492550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0078|TWO_SIDED|||||The analysis was conducted using 2-sided test with the significance level of 0.05.|Chi-squared|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that there was a difference between the pregabalin and the placebo groups.||||0.0078
92294125|NCT00830167|184492551|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.48|STANDARD_ERROR_OF_MEAN|1.85|<|0.0001|TWO_SIDED|95.0|-13.12|-5.85||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-5.85|-13.12|<0.0001
92294126|NCT00830167|184492552|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.98|STANDARD_ERROR_OF_MEAN|1.88||0.9958|TWO_SIDED|95.0|1.29|8.68||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||8.68|1.29|0.9958
92294127|NCT00830167|184492553|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.99|STANDARD_ERROR_OF_MEAN|1.92||0.0049|TWO_SIDED|95.0|-8.77|-1.21||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-1.21|-8.77|0.0049
92294128|NCT00830167|184492554|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.09||0.0007|TWO_SIDED|95.0|0.11|0.47||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.47|0.11|0.0007
92294129|NCT00830167|184492555|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.48|STANDARD_ERROR_OF_MEAN|1.99|<|0.0001|TWO_SIDED|95.0|3.58|11.38||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||11.38|3.58|<0.0001
92294130|NCT00830167|184492556|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.31|STANDARD_ERROR_OF_MEAN|1.82||1|TWO_SIDED|95.0|7.74|14.87||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||14.87|7.74|1.0000
92294131|NCT00830167|184492557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.99|STANDARD_ERROR_OF_MEAN|1.35||0.0137|TWO_SIDED|95.0|-5.65|-0.33||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.33|-5.65|0.0137
92294132|NCT00830167|184492558|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45||||0.0687|TWO_SIDED|95.0|0.9|2.35||The analysis was conducted using 1-sided test with the significance level of 0.025.|Regression, Logistic|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||2.35|0.90|0.0687
92294133|NCT00830167|184492559|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.06|-0.4||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.40|-1.06|<0.0001
92294134|NCT00830167|184492560|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.33|STANDARD_ERROR_OF_MEAN|1.52||0.0144|TWO_SIDED|95.0|-6.31|-0.35||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.35|-6.31|0.0144
92294135|NCT00830167|184492561|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.16||0.0376|TWO_SIDED|95.0|-0.59|0.03||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.03|-0.59|0.0376
92294136|NCT00830167|184492562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.25||0.0052|TWO_SIDED|95.0|-1.12|-0.15||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.15|-1.12|0.0052
92294137|NCT00830167|184492563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.21||0.4768|TWO_SIDED|95.0|-0.42|0.4||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.40|-0.42|0.4768
92294138|NCT00830167|184492564|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.21||0.0729|TWO_SIDED|95.0|-0.74|0.11||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.11|-0.74|0.0729
92294139|NCT00830167|184492565|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.21||0.0238|TWO_SIDED|95.0|-0.81|0.0||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.00|-0.81|0.0238
92144737|NCT01329029|184173864|SUPERIORITY_OR_OTHER||Rate ratio|0.757|STANDARD_ERROR_OF_MEAN|0.0889||0.0175|TWO_SIDED|95.0|0.601|0.952|||Generalized Linear Regression|Analyzed using a negative binomial regression model excluding a correction for overdispersion.|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|||0.952|0.601|0.0175
92144738|NCT01329029|184173865|SUPERIORITY_OR_OTHER||Rate ratio|0.914|STANDARD_ERROR_OF_MEAN|0.0771||0.2875|TWO_SIDED|95.0|0.775|1.078||Level of significance: 5% 2-sided|Generalized Linear Regression|Poisson regression model (estimates of exacerbation rates using time in trial as model offset).|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|Moderate COPD Exacerbations||1.078|0.775|0.2875
92294140|NCT00830167|184492566|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.2||0.0075|TWO_SIDED|95.0|-0.89|-0.1||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.10|-0.89|0.0075
92294141|NCT00830167|184492567|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.21||0.0023|TWO_SIDED|95.0|-1.01|-0.18||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.18|-1.01|0.0023
92294142|NCT00830167|184492568|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.22||0.2568|TWO_SIDED|95.0|-0.57|0.29||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.29|-0.57|0.2568
92294143|NCT00830167|184492569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.22||0.1011|TWO_SIDED|95.0|-0.72|0.15||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.15|-0.72|0.1011
92294144|NCT00830167|184492570|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.2||0.4165|TWO_SIDED|95.0|-0.44|0.35||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.35|-0.44|0.4165
92294145|NCT00830167|184492571|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.29|STANDARD_ERROR_OF_MEAN|1.32||0.0006|TWO_SIDED|95.0|1.7|6.88||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||6.88|1.70|0.0006
92294146|NCT00830167|184492572|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.68|STANDARD_ERROR_OF_MEAN|1.84||0.1805|TWO_SIDED|95.0|-1.93|5.29||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||5.29|-1.93|0.1805
92294147|NCT00830167|184492573|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|1.5||0.077|TWO_SIDED|95.0|-0.81|5.1||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||5.10|-0.81|0.0770
92294148|NCT00830167|184492574|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.83|STANDARD_ERROR_OF_MEAN|1.2||0.0648|TWO_SIDED|95.0|-0.54|4.19||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||4.19|-0.54|0.0648
92294149|NCT00830167|184492575|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.59|STANDARD_ERROR_OF_MEAN|1.94||0.2068|TWO_SIDED|95.0|-2.23|5.41||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||5.41|-2.23|0.2068
92294150|NCT00830167|184492576|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|1.92||0.548|TWO_SIDED|95.0|-4.0|3.54||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||3.54|-4.00|0.5480
92294151|NCT00830167|184492577|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.42|STANDARD_ERROR_OF_MEAN|1.72||0.0052|TWO_SIDED|95.0|1.04|7.8||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||7.80|1.04|0.0052
92294152|NCT00830167|184492578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.64|STANDARD_ERROR_OF_MEAN|1.39||0.0287|TWO_SIDED|95.0|-0.08|5.37||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||5.37|-0.08|0.0287
92294153|NCT00830167|184492579|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.25||0.0262|TWO_SIDED|95.0|-0.97|0.01||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.01|-0.97|0.0262
92294154|NCT00830167|184492580|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.28||0.1561|TWO_SIDED|95.0|-0.83|0.27||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.27|-0.83|0.1561
92294155|NCT00830167|184492581|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.19|STANDARD_ERROR_OF_MEAN|2.04||0.0013|TWO_SIDED|95.0|-10.2|-2.18||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-2.18|-10.20|0.0013
92294156|NCT01801917|184492603|SUPERIORITY_OR_OTHER_LEGACY||Bayesian|0.586||||||||||||||It was a Bayesian analysis with non-informative prior for co-primary endpoints, MMT-24 and CK, with dual criteria for statistical significance: ≥ 90% posterior probability (PP) of achieving an increase from baseline in MMT24 and decrease in CK and clinical relevance: ≥ 50% PP achieving an increase of 15 points in MMT24 and a decrease of 30% in CK vs. placebo. For this table the value is the posterior probability of achieving an increase in MMT24 and a decrease in CK in 2mg group vs. placebo||||
92294157|NCT01801917|184492603|SUPERIORITY_OR_OTHER_LEGACY||Bayesian|0.022||||||||||||||It was a Bayesian analysis with non-informative prior for co-primary endpoints, MMT-24 and CK, with dual criteria for statistical significance: ≥ 90% posterior probability (PP) of achieving an increase from baseline in MMT24 and decrease in CK and clinical relevance: ≥ 50% PP achieving an increase of 15 points in MMT24 and a decrease of 30% in CK vs. placebo. . For this table the value is the PP of achieving an increase of 15 points in MMT24 and a decrease of 30% in CK in 2mg group vs. placebo||||
92294158|NCT01801917|184492603|SUPERIORITY_OR_OTHER_LEGACY||Bayesian|0.963||||||||||||||It was a Bayesian analysis with non-informative prior for co-primary endpoints, MMT-24 and CK, with dual criteria for statistical significance: ≥ 90% posterior probability (PP) of achieving an increase from baseline in MMT24 and decrease in CK and clinical relevance: ≥ 50% PP achieving an increase of 15 points in MMT24 and a decrease of 30% in CK vs. placebo. For this table the value is the posterior probability of achieving an increase in MMT24 and a decrease in CK in 10mg group vs. placebo||||
92294159|NCT01801917|184492603|SUPERIORITY_OR_OTHER_LEGACY||Bayesian|0.837||||||||||||||It was a Bayesian analysis with non-informative prior for co-primary endpoints, MMT-24 and CK, with dual criteria for statistical significance: ≥ 90% posterior probability (PP) of achieving an increase from baseline in MMT24 and decrease in CK and clinical relevance: ≥ 50% PP achieving an increase of 15 points in MMT24 and a decrease of 30% in CK vs. placebo. . For this table the value is the PP of achieving an increase of 15 points in MMT24 and a decrease of 30% in CK in 10mg group vs. placebo||||
92294160|NCT03919695|184492614|SUPERIORITY||Odds Ratio (OR)|0.29||||0.002|TWO_SIDED|95.0|0.11|0.73|||GEE model specifying a logistic distribu||time x arm effect for the comparison at 6-month follow-up|Generalized Estimating Equations (GEE) model specifying a logistic distribution examining the time x arm interaction||.73|.11|.002
92144739|NCT01329029|184173865|SUPERIORITY_OR_OTHER||Rate Ratio|0.794|STANDARD_ERROR_OF_MEAN|0.0654||0.005|TWO_SIDED|95.0|0.675|0.933||Level of significance: 5% 2-sided|Generalized Linear Regression|Poisson regression model (estimates of exacerbation rates using time in trial as model offset).|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|Mild, Moderate or Severe COPD Exacerbations||0.933|0.675|0.0050
92294161|NCT02614196|184492626|SUPERIORITY||LSMean Difference|-2.02|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.55|-1.48|||Mixed Models Analysis|||||-1.48|-2.55|<.001
92294162|NCT02614196|184492626|SUPERIORITY||LSMean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.44|-1.36|||Mixed Models Analysis|||||-1.36|-2.44|<.001
92294163|NCT02614196|184492627|SUPERIORITY||Odds Ratio (OR)|2.6|||||TWO_SIDED|95.0|2.03|3.32||||||Reduction from Baseline ≥50%||3.32|2.03|
92144740|NCT01329029|184173865|SUPERIORITY_OR_OTHER||Rate ratio|0.854|STANDARD_ERROR_OF_MEAN|0.0605||0.0262|TWO_SIDED|95.0|0.744|0.982||Level of significance: 5% 2-sided|Generalized Linear Regression|Poisson regression model (estimates of exacerbation rates using time in trial as model offset).|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|COPD Exacerbations treated with Glucocorticosteroids and/or Antibiotics||0.982|0.744|0.0262
92144741|NCT01329029|184173865|SUPERIORITY_OR_OTHER||Rate ratio|0.837|STANDARD_ERROR_OF_MEAN|0.0528||0.0047|TWO_SIDED|95.0|0.739|0.947||Level of significance: 5% 2-sided|Generalized Linear Regression|Poisson regression model (estimates of exacerbation rates using time in trial as model offset).|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|Moderate or Severe COPD Exacerbations and/or treated with Antibiotics||0.947|0.739|0.0047
92144742|NCT01329029|184173865|SUPERIORITY_OR_OTHER||Rate ratio|0.761|STANDARD_ERROR_OF_MEAN|0.0899||0.0209|TWO_SIDED|95.0|0.604|0.96||Level of significance: 5% 2-sided.|Generalized Linear Regression|Negative binomial regression model (estimates of exacerbation rates)|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|Leading to Hospitalisation||0.960|0.604|0.0209
92144743|NCT01329029|184173867|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.917|STANDARD_ERROR_OF_MEAN|0.0549||0.1461|TWO_SIDED|95.0|0.815|1.031||Level of significance: 5% 2-sided.|Cox proportional hazards model||A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||1.031|0.815|0.1461
92144744|NCT01329029|184173868|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79|STANDARD_ERROR_OF_MEAN|0.0842||0.027|TWO_SIDED|95.0|0.641|0.974||Level of significance: 5% 2-sided|Wei-Lin-Weissfeld Method||A hazard ratio of \<1 represents a favourable outcome for the test treatment|||0.974|0.641|0.0270
92294164|NCT02614196|184492627|SUPERIORITY||Odds Ratio (OR)|2.31|||||TWO_SIDED|95.0|1.81|2.96||||||Reduction from Baseline ≥50%||2.96|1.81|
92294165|NCT02614196|184492627|SUPERIORITY||Odds Ratio (OR)|2.34|||||TWO_SIDED|95.0|1.78|3.06||||||Reduction from Baseline ≥75%||3.06|1.78|
92294166|NCT02614196|184492627|SUPERIORITY||Odds Ratio (OR)|2.42|||||TWO_SIDED|95.0|1.84|3.17||||||Reduction from Baseline ≥75%||3.17|1.84|
92294167|NCT02614196|184492627|SUPERIORITY||Odds Ratio (OR)|2.16|||||TWO_SIDED|95.0|1.5|3.12||||||Reduction from Baseline ≥100%||3.12|1.50|
92294168|NCT02614196|184492627|SUPERIORITY||Odds Ratio (OR)|2.67|||||TWO_SIDED|95.0|1.87|3.81||||||Reduction from Baseline ≥100%||3.81|1.87|
92294169|NCT02614196|184492628|SUPERIORITY||LSMean Difference|8.82|STANDARD_ERROR_OF_MEAN|1.27|<|0.001|TWO_SIDED|95.0|6.33|11.31|||Mixed Models Analysis|||||11.31|6.33|<.001
92294170|NCT02614196|184492628|SUPERIORITY||LSMean Difference|7.39|STANDARD_ERROR_OF_MEAN|1.28|<|0.001|TWO_SIDED|95.0|4.88|9.9|||Mixed Models Analysis|||||9.90|4.88|<.001
92294171|NCT02614196|184492629|SUPERIORITY||LSMean Difference|-1.82|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.29|-1.36|||Mixed Models Analysis|||||-1.36|-2.29|<.001
92294172|NCT02614196|184492629|SUPERIORITY||LSMean Difference|-1.78|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.25|-1.31|||Mixed Models Analysis|||||-1.31|-2.25|<.001
92294173|NCT02614196|184492630|SUPERIORITY||LSMean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.09||0.002|TWO_SIDED|95.0|-0.47|-0.11|||Mixed Models Analysis|||||-0.11|-0.47|.002
92294174|NCT02614196|184492630|SUPERIORITY||LSMean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.09||0.012|TWO_SIDED|95.0|-0.41|-0.05|||Mixed Models Analysis|||||-0.05|-0.41|.012
92294175|NCT02614196|184492631|SUPERIORITY||LSMean Difference|-15.19|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-20.27|-10.11|||Mixed Models Analysis|||||-10.11|-20.27|<.001
92294176|NCT02614196|184492631|SUPERIORITY||LSMean Difference|-13.56|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-18.67|-8.44|||Mixed Models Analysis|||||-8.44|-18.67|<.001
92294177|NCT02614196|184492632|SUPERIORITY||LSMean Difference|-9.15|STANDARD_ERROR_OF_MEAN|1.76|<|0.001|TWO_SIDED|95.0|-12.61|-5.69|||Mixed Models Analysis|||||-5.69|-12.61|<.001
92294178|NCT02614196|184492632|SUPERIORITY||LSMean Difference|-8.22|STANDARD_ERROR_OF_MEAN|1.78|<|0.001|TWO_SIDED|95.0|-11.71|-4.72|||Mixed Models Analysis|||||-4.72|-11.71|<.001
92294179|NCT02614196|184492633|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||TE ADA Positive.||||<.001
92294180|NCT02614196|184492633|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||TE ADA Positive||||<.001
92294181|NCT00633022|184492639|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.4519|TWO_SIDED|95.0|-0.14|0.06|||ANCOVA|ANCOVA model, fitting fixed effect treatment term, and including baseline TBR value as a covariate.ANCOVA model, fitting fixed effect treatment term,|The point estimate was calculated as least square mean difference (final values) of Losmapimod 7.5 mg twice daily and Placebo.|Losmapimod 7.5 mg BID versus Placebo||0.06|-0.14|0.4519
92294182|NCT00633022|184492639|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.5789|TWO_SIDED|95.0|-0.11|0.06|||ANCOVA|ANCOVA model, fitting fixed effect treatment term, and including baseline TBR value as a covariate.|The point estimate was calculated as least square mean difference (final values) of Losmapimod 7.5 mg once daily and Placebo.|Losmapimod 7.5 mg once daily versus Placebo||0.06|-0.11|0.5789
92294183|NCT00633022|184492640|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.6986|TWO_SIDED|95.0|-0.15|0.1|||ANCOVA|ANCOVA model, fitting fixed effect treatment term, and including baseline TBR value as a covariate.|The point estimate was calculated as least square mean difference (final values) of Losmapimod 7.5 mg twice daily and Placebo.|Losmapimod 7.5 mg twice daily versus placebo||0.10|-0.15|0.6986
92294184|NCT00633022|184492640|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9486|TWO_SIDED|95.0|-0.13|0.12|||ANCOVA|ANCOVA model, fitting fixed effect treatment term, and including baseline TBR value as a covariate.|The point estimate was calculated as least square mean difference (final values) of Losmapimod 7.5 mg once daily and Placebo.|Losmapimod 7.5 mg once daily versus Placebo||0.12|-0.13|0.9486
92294185|NCT01374451|184492672|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.991||||0.488|TWO_SIDED|95.0|0.636|1.543|||Log Rank|||||1.543|0.636|0.488
92294186|NCT04640194|184492684|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.39|2.61|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Unadjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment. The confidence intervals was determined using the Wald method to determine the variance.||2.61|0.39|
92294187|NCT04640194|184492684|OTHER||Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|0.46|3.27|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Adjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment,ventilation status at baseline and age. The confidence intervals was determined using the Wald method to determine the variance.||3.27|0.46|
92294188|NCT04640194|184492684|OTHER||Hazard Ratio (HR)|1.75|||||TWO_SIDED|95.0|0.73|4.15|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Unadjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment. The confidence intervals was determined using the Wald method to determine the variance.||4.15|0.73|
92294189|NCT04640194|184492684|OTHER||Hazard Ratio (HR)|2.04|||||TWO_SIDED|95.0|0.83|5.01|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Adjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment,ventilation status at baseline and age. The confidence intervals was determined using the Wald method to determine the variance.||5.01|0.83|
92294190|NCT04640194|184492684|OTHER||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.35|3.66|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Unadjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment. The confidence intervals was determined using the Wald method to determine the variance.||3.66|0.35|
92294191|NCT04640194|184492684|OTHER||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.33|4.22|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Adjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment,ventilation status at baseline and age. The confidence intervals was determined using the Wald method to determine the variance.||4.22|0.33|
92144745|NCT01329029|184173869|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.749|STANDARD_ERROR_OF_MEAN|0.1209||0.0731|TWO_SIDED|95.0|0.546|1.027||Level of significance: 5% 2-sided|Wei-Lin-Weissfeld Method||A hazard ratio of \<1 represents a favourable outcome for the test treatment.|||1.027|0.546|0.0731
92294192|NCT04640194|184492685|OTHER||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-10.892|24.8734|||||Chan and Zhang exact confidence interval.|||24.8734|-10.892|
92294193|NCT04640194|184492685|OTHER||Risk Difference (RD)|20.0|||||TWO_SIDED|95.0|2.3075|43.6615|||||Chan and Zhang exact confidence interval.|||43.6615|2.3075|
92294194|NCT04640194|184492685|OTHER||Risk Difference (RD)|11.76|||||TWO_SIDED|95.0|-24.127|36.9012|||||Chan and Zhang exact confidence interval.|||36.9012|-24.127|
92294195|NCT04640194|184492686|OTHER||Risk Difference (RD)|-16.6|||||TWO_SIDED|95.0|-38.6|5.5|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||5.5|-38.6|
92294196|NCT04640194|184492686|OTHER||Risk Difference (RD)|-11.8|||||TWO_SIDED|95.0|-35.1|11.6|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||11.6|-35.1|
92294197|NCT04640194|184492686|OTHER||Risk Difference (RD)|-19.1||||0.2419|TWO_SIDED|95.0|-51.1|12.9|||The delta method and average marginal.||Calculated as alteplase dose group - standard of care alone.|Unadjusted risk difference and 95% CI is based upon average marginal effect Delta method, adjusting for treatment.||12.9|-51.1|0.2419
92294198|NCT04640194|184492687|OTHER||Risk Difference (RD)|-9.0|||||TWO_SIDED|95.0|-37.1|19.1|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||19.1|-37.1|
92294199|NCT04640194|184492687|OTHER||Risk Difference (RD)|-9.1|||||TWO_SIDED|95.0|-37.2|19.0|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||19.0|-37.2|
92294200|NCT04640194|184492687|OTHER||Risk Difference (RD)|14.5||||0.2523|TWO_SIDED|95.0|-10.3|39.3|||The delta method and average marginal.||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% CI is based upon average marginal effect Delta method, adjusting for baseline D-dimer status, age, days of NIV support and treatment.||39.3|-10.3|0.2523
92294201|NCT04640194|184492688|OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-4.4|10.6|||||Calculated as alteplase dose group - standard of care alone.|Parameters included in model: treatment,ventilation status at baseline, and age.||10.6|-4.4|
92294202|NCT04640194|184492688|OTHER||Median Difference (Final Values)|4.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-3.2|11.8|||||Calculated as alteplase dose group - standard of care alone.|Parameters included in model: treatment,ventilation status at baseline, and age.||11.8|-3.2|
92294203|NCT04640194|184492689|OTHER||Risk Difference (RD)|-4.9|||||TWO_SIDED|95.0|-29.0|19.2|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||19.2|-29.0|
92294204|NCT04640194|184492689|OTHER||Risk Difference (RD)|-15.2|||||TWO_SIDED|95.0|-36.8|6.3|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||6.3|-36.8|
92294205|NCT04640194|184492690|OTHER||Median Difference (Net)|17.193|||||TWO_SIDED|95.0|-28.45|52.33|||||Calculated as alteplase dose group - standard of care alone.|Based upon Hedges-Lehmann estimator handling deaths as failure and Wilcoxon rank sum test methodology.||52.33|-28.45|
92294206|NCT04640194|184492690|OTHER||Median Difference (Final Values)|54.436|||||TWO_SIDED|95.0|0.49|110.36|||||Calculated as alteplase dose group - standard of care alone.|Based upon Hedges-Lehmann estimator handling deaths as failure and Wilcoxon rank sum test methodology.||110.36|0.49|
92294207|NCT04640194|184492692|OTHER||Median Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|3.6||0.9856|TWO_SIDED|95.0|-7.5|7.6|||ANCOVA||Calculated as alteplase dose group - standard of care alone.|Unadjusted mean difference: A restricted maximum likelihood (REML) based Analysis of Covariance (ANCOVA) was used. Adjustment was made for treatment.||7.6|-7.5|0.9856
92184809|NCT01029704|184268204|SUPERIORITY||Difference of LS Means|-32.01||||0.0015|TWO_SIDED|95.0|-51.487|-12.533||P-values are from two-sided test at 5% level|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-12.533|-51.487|0.0015
92294208|NCT04640194|184492692|OTHER||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|3.8||0.8729|TWO_SIDED|95.0|-8.5|7.3|||ANCOVA||Calculated as alteplase dose group - standard of care alone.|Adjusted mean difference: A restricted maximum likelihood (REML) based Analysis of Covariance (ANCOVA) was used. Adjustment was made for treatment, the number of days under NIV support, baseline D-Dimer level and age.||7.3|-8.5|0.8729
92294209|NCT04640194|184492693|OTHER||Mean Difference (Net)|70.9|STANDARD_ERROR_OF_MEAN|35.8||0.0603|TWO_SIDED|95.0|-3.3|145.1|||ANCOVA||Calculated as alteplase dose group - standard of care alone.|Unadjusted mean difference: A restricted maximum likelihood (REML) based Analysis of Covariance (ANCOVA) was used. Adjustment was made for treatment.||145.1|-3.3|0.0603
92294210|NCT04640194|184492693|OTHER||Mean Difference (Final Values)|87.2|STANDARD_ERROR_OF_MEAN|38.5||0.0362|TWO_SIDED|95.0|6.3|168.0|||ANCOVA||Calculated as alteplase dose group - standard of care alone.|Adjusted mean difference: A restricted maximum likelihood (REML) based Analysis of Covariance (ANCOVA) was used. Adjustment was made for treatment, the number of days under NIV support, baseline D-Dimer level, baseline PaO2/FiO2 ratio and age.||168.0|6.3|0.0362
92294211|NCT03201003|184492694|SUPERIORITY||Risk Difference (RD)|56.0|||<|0.0001|TWO_SIDED|95.0|44.1|65.2|||Fisher Exact|||Treatment difference at 1000 mg||65.2|44.1|<0.0001
92184810|NCT01029704|184268206|SUPERIORITY||Difference of LS Means|-1.434||||0.0025|TWO_SIDED|95.0|-2.349|-0.52||P-values are from a two-sided test.|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.520|-2.349|0.0025
92294212|NCT03201003|184492695|SUPERIORITY||Risk Difference (RD)|58.9|||<|0.0001|TWO_SIDED|95.0|44.2|69.3|||Fisher Exact|||Treatment difference at 600 mg||69.3|44.2|<0.0001
92294213|NCT03201003|184492696|SUPERIORITY||Risk Difference (RD)|57.2|||<|0.0001|TWO_SIDED|95.0|41.2|69.1|||Fisher Exact|||Treatment difference at 300 mg||69.1|41.2|<0.0001
92294214|NCT03201003|184492697|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic (with equally spaced scores) stratified by country||Treatment difference in Maximum Severity||||<0.0001
92294215|NCT00834613|184492698|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.45||||||90.0|99.87|107.15|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.15|99.87|
92294216|NCT00834613|184492699|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.63||||||90.0|95.21|100.11|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.11|95.21|
92294217|NCT00834613|184492700|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.63||||||90.0|95.22|100.1|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.1|95.22|
92294218|NCT00840840|184492732|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|101.45||||||90.0|97.71|105.33|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.33|97.71|
92294219|NCT00840840|184492733|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|103.05||||||90.0|101.25|104.88|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.88|101.25|
92294220|NCT00840840|184492734|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|102.94||||||90.0|101.08|104.83|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.83|101.08|
92294221|NCT00840840|184492735|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|99.68||||||90.0|92.41|107.52|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||107.52|92.41|
92294222|NCT00840840|184492736|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|101.48||||||90.0|94.73|108.71|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||108.71|94.73|
92294223|NCT00840840|184492737|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|100.17||||||90.0|91.95|109.13|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||109.13|91.95|
92294224|NCT00697619|184492794|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.370
92294225|NCT00697619|184492794|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92294226|NCT00697619|184492794|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
92294227|NCT03403439|184492802|OTHER||Geometric Mean (T/R) ratio (%)|222.13|||||TWO_SIDED|90.0|203.47|242.49|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 14.2.|The analysis of variance (ANOVA) model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. No hypothesis was tested and no acceptance range was specified.||242.49|203.47|
92294228|NCT03403439|184492803|OTHER||Geometric Mean (T/R) ratio (%)|127.96|||||TWO_SIDED|90.0|117.65|139.17|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 13.6.|The analysis of variance (ANOVA) model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. No hypothesis was tested and no acceptance range was specified.||139.17|117.65|
92294229|NCT03403439|184492804|OTHER||Geometric Mean (T/R) ratio (%)|229.26|||||TWO_SIDED|90.0|207.82|252.93|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 15.9.|The analysis of variance (ANOVA) model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. No hypothesis was tested and no acceptance range was specified.||252.93|207.82|
92294230|NCT01705717|184492817|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||Chi-squared|||||||0.034
92294231|NCT01705717|184492818|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Chi-squared|||||||0.007
92294232|NCT02293460|184492823|SUPERIORITY|The response rate was tested against the historical response rate of 33.3%.|Responder rate|76.2|||<|0.0001|TWO_SIDED|95.0|60.5|87.9||One-sided test at nominal level of significance alpha = 2.5 %|exact binomial Clopper-Pearson|||"For this single-arm study, the response rate was tested against the historical response rate of 33.3% with a 1-sided Clopper-Pearson exact test at the nominal level of significance of 2.5% on the Full Analysis Set. The null and alternative hypotheses were as follows:~H0: pI10E \<= 33.3% H1: pI10E \> 33.3%"||87.9|60.5|<0.0001
92144746|NCT01329029|184173870|SUPERIORITY_OR_OTHER||NNTB|9.0|||||TWO_SIDED|95.0|4.0|31.0||||||||31|4|
92144747|NCT01329029|184173873|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.092|STANDARD_ERROR_OF_MEAN|0.0159|<|0.0001|TWO_SIDED|95.0|0.061|0.124||Level of significance: 5% 2-sided.|Repeated measurement model|Unstructured covariance structure and restricted maximum likelihood (REML).||||0.124|0.061|<0.0001
92144748|NCT01329029|184173874|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.025|STANDARD_ERROR_OF_MEAN|0.0062|<|0.0001|TWO_SIDED|95.0|0.013|0.038||Level of significance: 5% 2-sided.|Repeated measurement model|Unstructured covariance structure and REML.||||0.038|0.013|<0.0001
92294233|NCT00706719|184492824|SUPERIORITY_OR_OTHER|||||||0.118|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Baseline.||||0.118
92294234|NCT00706719|184492824|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 3.||||0.006
92294235|NCT00706719|184492824|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 6.||||0.009
92294236|NCT00706719|184492824|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Follow-up (Month 7).||||0.0024
92294237|NCT00706719|184492825|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of Group A and B observed values at Baseline.||||0.15
92294238|NCT00706719|184492825|SUPERIORITY_OR_OTHER|||||||0.0067|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of Group A and B observed values at Month 3.||||0.0067
92294239|NCT00706719|184492825|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of Group A and B observed values at Month 6.||||0.10
92294240|NCT00706719|184492825|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Follow-up (Month 7).||||0.26
92294241|NCT00706719|184492826|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Baseline.||||0.880
92294242|NCT00706719|184492826|SUPERIORITY_OR_OTHER|||||||0.612|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 3.||||0.612
92294243|NCT00706719|184492826|SUPERIORITY_OR_OTHER|||||||0.488|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 6.||||0.488
92294244|NCT00706719|184492826|SUPERIORITY_OR_OTHER|||||||0.054|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Follow-up (Month 7).||||0.054
92294245|NCT00706719|184492827|SUPERIORITY_OR_OTHER|||||||0.705|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Baseline.||||0.705
92294246|NCT00706719|184492827|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 3.||||0.013
92294247|NCT00706719|184492827|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 6.||||0.004
92294248|NCT00706719|184492827|SUPERIORITY_OR_OTHER|||||||0.808|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Follow-up (Month 7).||||0.808
92294249|NCT00706719|184492828|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Baseline.||||0.008
92294250|NCT00706719|184492828|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 3.||||0.015
92294251|NCT00706719|184492828|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 6.||||0.003
92294252|NCT00706719|184492828|SUPERIORITY_OR_OTHER|||||||0.109|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Follow-up (Month 7).||||0.109
92294253|NCT01074008|184492831|SUPERIORITY_OR_OTHER||||||<|0.001||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-450/r group and 11 participants in the placebo group would provide \> 95% power to detect a 1.0 log10 difference with a common standard deviation of 0.5 log10 IU/mL using a two-sided, two-sample t-test with a significance level of 0.05.||||<0.001
92294254|NCT01074008|184492831|SUPERIORITY_OR_OTHER||||||<|0.001||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-450/r group and 11 participants in the placebo group would provide \> 95% power to detect a 1.0 log10 difference with a common standard deviation of 0.5 log10 IU/mL using a two-sided, two-sample t-test with a significance level of 0.05.||||<0.001
92294255|NCT01074008|184492831|SUPERIORITY_OR_OTHER||||||<|0.001||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-450/r group and 11 participants in the placebo group would provide \> 95% power to detect a 1.0 log10 difference with a common standard deviation of 0.5 log10 IU/mL using a two-sided, two-sample t-test with a significance level of 0.05.||||<0.001
92294256|NCT01074008|184492831|SUPERIORITY_OR_OTHER|||||||0.009||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-072 and 11 participants in the placebo group would provide 92% power to detect a 1.0 log10 difference with a standard deviation of 0.6 log10 IU/mL and a two-sided, two-sample t-test with a significance level of 0.05.||||0.009
92294257|NCT01074008|184492831|SUPERIORITY_OR_OTHER|||||||0.012||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-072 and 11 participants in the placebo group would provide 92% power to detect a 1.0 log10 difference with a standard deviation of 0.6 log10 IU/mL and a two-sided, two-sample t-test with a significance level of 0.05.||||0.012
92294258|NCT01074008|184492831|SUPERIORITY_OR_OTHER||||||<|0.001||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-072 and 11 participants in the placebo group would provide 92% power to detect a 1.0 log10 difference with a standard deviation of 0.6 log10 IU/mL and a two-sided, two-sample t-test with a significance level of 0.05.||||<0.001
92294259|NCT01074008|184492831|SUPERIORITY_OR_OTHER|||||||0.032||||||There was no adjustment for multiple comparisons and the pre-specified, 2-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight subjects per ABT-333 group and 11 subjects in the placebo group would provide 82% power to detect a 1.0 log10 IU/mL difference with a standard deviation of 0.7 log10 IU/mL and a 2-sided 2-sample t-test with a significance level of 0.05.||||0.032
92294260|NCT01074008|184492831|SUPERIORITY_OR_OTHER|||||||0.053||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-333 group and 11 participants in the placebo group would provide 82% power to detect a 1.0 log10 IU/mL difference with a standard deviation of 0.7 log10 IU/mL and a two-sided, two-sample t-test with a significance level of 0.05.||||0.053
92294261|NCT01074008|184492832|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.001
92294262|NCT01074008|184492832|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.006
92294263|NCT01074008|184492832|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||<0.001
92294264|NCT01074008|184492832|SUPERIORITY_OR_OTHER|||||||0.262|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.262
92294265|NCT01074008|184492832|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||1.000
92294266|NCT01074008|184492832|SUPERIORITY_OR_OTHER|||||||0.245|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.245
92294267|NCT01074008|184492832|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.111
92294268|NCT01074008|184492832|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.111
92294269|NCT01074008|184492833|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
92294270|NCT01074008|184492833|SUPERIORITY_OR_OTHER|||||||0.059|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.059
92294271|NCT01074008|184492833|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
92294272|NCT01074008|184492833|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
92294273|NCT01074008|184492833|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.370
92294274|NCT01074008|184492833|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
92294275|NCT01074008|184492833|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
92294276|NCT01074008|184492833|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
92294277|NCT01074008|184492846|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.005
92294278|NCT01074008|184492846|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.005
92294279|NCT01074008|184492846|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||<0.001
92294280|NCT01074008|184492846|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.024
92294281|NCT01074008|184492846|SUPERIORITY_OR_OTHER|||||||0.319|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.319
92294282|NCT01074008|184492846|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
92294283|NCT01074008|184492846|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.005
92294284|NCT01074008|184492846|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.074
92294285|NCT03239496|184492870|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 1 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
92294286|NCT03239496|184492871|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 2 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
92294287|NCT03239496|184492872|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 2 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
92294288|NCT03239496|184492873|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.0001
92294289|NCT03239496|184492874|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.0001
92294290|NCT03239496|184492875|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 2 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
92294291|NCT03239496|184492876|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 2 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
92294292|NCT03239496|184492877|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 2 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
92294293|NCT02339415|184492883|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.07||0.26|TWO_SIDED|95.0|-0.06|0.21|||Mixed Models Analysis|included predictors: treatment, assigned treatment sequence and pre-treatment biomarker level.|because biomarkers were analyzed on natural log scale, the estimated parameter is the log-transformed mean percent difference in treatment effect on Edoxaban vs. Placebo.|||0.21|-0.06|0.26
92294294|NCT02339415|184492884|SUPERIORITY||Mean Difference (Net)|-0.54|STANDARD_ERROR_OF_MEAN|0.17||0.002|TWO_SIDED|95.0|-0.88|-0.2|||Mixed Models Analysis|included predictors: treatment, assigned treatment sequence and pre-treatment biomarker level.|because biomarkers were analyzed on natural log scale, the estimated parameter is the log-transformed mean percent difference in treatment effect on Edoxaban vs. Placebo.|||-0.20|-0.88|0.002
92294295|NCT01841736|184492886|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0005|TWO_SIDED|80.0|0.42|0.69|||Log Rank|Stratified log rank||||0.69|0.42|0.0005
92294296|NCT01841736|184492888|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.7|TWO_SIDED|80.0|0.84|1.51|||Log Rank|Stratified Log-Rank||||1.51|0.84|0.7
92294297|NCT00003404|184492897|OTHER||rate of occurance|0.35|||||TWO_SIDED|95.0|0.0|8.0|||||The local recurrence rate was estimated by dividing the number of recurrences by the total sample size. An exact 95% confidence interval (95% CI) for this rate was determined by binomial distribution.|||8|0|
92294298|NCT05480800|184492920|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.44||||||95.0|0.06|3.43|||ANOVA||The Unadjusted Geometric Mean Ratio (GMR) is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 29||3.43|0.06|
92294299|NCT05480800|184492920|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.66||||||95.0|0.25|1.7|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 29||1.70|0.25|
92294300|NCT05480800|184492920|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.43||||||95.0|0.06|2.94|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 57||2.94|0.06|
92294301|NCT05480800|184492920|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.51||||||95.0|0.19|1.37|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 57||1.37|0.19|
92294302|NCT05480800|184492920|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.59||||||95.0|0.13|2.65|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 85||2.65|0.13|
92294303|NCT05480800|184492920|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.66||||||95.0|0.3|1.43|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 85||1.43|0.30|
92294304|NCT05480800|184492920|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.96||||||95.0|0.18|5.12|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 169||5.12|0.18|
92294305|NCT05480800|184492920|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.76||||||95.0|0.36|1.6|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 169||1.60|0.36|
92294306|NCT05480800|184492920|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.16||||||95.0|0.23|5.79|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 197||5.79|0.23|
92144749|NCT01329029|184173875|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.094|STANDARD_ERROR_OF_MEAN|0.0131|<|0.0001|TWO_SIDED|95.0|0.069|0.12||Level of significance: 5% 2-sided.|Repeated measurement model|Unstructured covariance structure and REML.||||0.120|0.069|<0.0001
92144750|NCT01329029|184173877|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.283|STANDARD_ERROR_OF_MEAN|0.0941||0.0027|TWO_SIDED|95.0|-0.467|-0.098||Level of significance: 5% 2-sided.|Repeated measurement model|Compound symmetry covariance structure and REML.||||-0.098|-0.467|0.0027
92144751|NCT01329029|184173878|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.015|STANDARD_ERROR_OF_MEAN|0.0439||0.7392|TWO_SIDED|95.0|-0.101|0.071||Level of significance: 5% 2-sided.|Repeated measurement model|Compound symmetry covariance structure and REML.||||0.071|-0.101|0.7392
92144752|NCT01329029|184173881|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.285|STANDARD_ERROR_OF_MEAN|0.2175||0.1909|TWO_SIDED|95.0|-0.711|0.142||Level of significance: 5% 2-sided.|Repeated measurement model|Unstructured covariance structure and REML.||||0.142|-0.711|0.1909
92294307|NCT05480800|184492920|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.9||||||95.0|0.44|1.84|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 197||1.84|0.44|
92294308|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|2.92||||||95.0|0.48|17.8|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 29||17.80|0.48|
92294309|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.95||||||95.0|0.41|2.19|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 29||2.19|0.41|
92294310|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|3.03||||||95.0|0.43|21.45|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 57||21.45|0.43|
92294311|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.89||||||95.0|0.33|2.45|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 57||2.45|0.33|
92294312|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.69||||||95.0|0.26|10.96|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 85||10.96|0.26|
92294313|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.76||||||95.0|0.29|2.0|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 85||2.00|0.29|
92294314|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|2.49||||||95.0|0.24|26.3|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 169||26.30|0.24|
92294315|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.74||||||95.0|0.26|2.11|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 169||2.11|0.26|
92184811|NCT01029704|184268206|SUPERIORITY||Difference of LS Means|-1.037||||0.0269|TWO_SIDED|95.0|-1.952|-0.122||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.122|-1.952|0.0269
92294316|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.53||||||95.0|0.19|12.41|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 197||12.41|0.19|
92294317|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.85||||||95.0|0.34|2.15|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 197||2.15|0.34|
92294318|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|5.43||||||95.0|0.61|48.17|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 29||48.17|0.61|
92294319|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.19||||||95.0|0.43|3.26|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 29||3.26|0.43|
92184812|NCT01029704|184268206|SUPERIORITY||Difference of LS Means|-2.054|||<|0.0001|TWO_SIDED|95.0|-2.938|-1.17||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-1.170|-2.938|< 0.0001
92294320|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|5.88||||||95.0|0.58|59.45|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 57||59.45|0.58|
92294321|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.35||||||95.0|0.41|4.45|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 57||4.45|0.41|
92294322|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|4.22||||||95.0|0.48|37.19|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 85||37.19|0.48|
92294323|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.13||||||95.0|0.37|3.48|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 85||3.48|0.37|
92294324|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|13.24||||||95.0|1.02|172.55|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 169||172.55|1.02|
92294325|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.24||||||95.0|0.4|3.88|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 169||3.88|0.40|
92294326|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|5.56||||||95.0|0.53|58.61|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 197||58.61|0.53|
92294327|NCT05480800|184492921|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.37||||||95.0|0.48|3.86|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 197||3.86|0.48|
92294328|NCT05480800|184492925|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.92||||||95.0|0.54|1.58|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG Day 29||1.58|0.54|
92294329|NCT05480800|184492925|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.93||||||95.0|0.54|1.59|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG Day 57||1.59|0.54|
92294330|NCT05480800|184492925|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.95||||||95.0|0.61|1.49|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG Day 85||1.49|0.61|
92294331|NCT05480800|184492925|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.78||||||95.0|0.45|1.34|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG Day 169||1.34|0.45|
92144753|NCT01329029|184173883|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.025|STANDARD_ERROR_OF_MEAN|0.3468||0.9414|TWO_SIDED|95.0|0.528|1.99||Level of significance: 5% 2-sided.|Cox-proportional hazards model||A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||1.990|0.528|0.9414
92144754|NCT01329029|184173884|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.078|STANDARD_ERROR_OF_MEAN|0.5765||0.8876|TWO_SIDED|95.0|0.378|3.075|||Cox-proportional hazards model|Level of significance: 5% 2-sided.|A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||3.075|0.378|0.8876
92144755|NCT01329029|184173885|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.529|STANDARD_ERROR_OF_MEAN|0.1463|<|0.0001|TWO_SIDED|95.0|1.268|1.845|||Cox-proportional hazards model|Level of significance: 5% 2-sided.|A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||1.845|1.268|<0.0001
92144756|NCT01329029|184173886|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.695|STANDARD_ERROR_OF_MEAN|0.2691||0.3477|TWO_SIDED|95.0|0.326|1.484||Level of significance: 5% 2-sided.|Cox-proportional hazards model||A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||1.484|0.326|0.3477
92144757|NCT01329029|184173888|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.083|STANDARD_ERROR_OF_MEAN|0.3832||0.8208|TWO_SIDED|95.0|0.542|2.167||Level of significance: 5% 2-sided.|Cox-proportional hazards model||A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||2.167|0.542|0.8208
92144758|NCT01329029|184173890|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.977|STANDARD_ERROR_OF_MEAN|0.0865||0.7943|TWO_SIDED|95.0|0.821|1.162||Level of significance: 5% 2-sided.|Cox-proportional hazards model|||||1.162|0.821|0.7943
92144759|NCT01321554|184173901|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.21|||||TWO_SIDED|99.0|0.14|0.31||||||||0.31|0.14|
92144760|NCT04128293|184173908|OTHER||Ratio of Geometric Least Square Mean|0.877|||||TWO_SIDED|90.0|0.7585|1.0152|||||Relative bioavailability between treatment A and B assessed using analysis of variance with treatment, period, and sequence as fixed effects, participant as a random effect was performed on the natural log-transformed parameter of AUC(0-infinity).|||1.0152|0.7585|
92144761|NCT04128293|184173910|OTHER||Ratio of Geometric Least Square Mean|0.892|||||TWO_SIDED|90.0|0.7778|1.0239|||||Relative bioavailability between treatment A and B assessed using analysis of variance with treatment, period, and sequence as fixed effects, participant as a random effect was performed on the natural log-transformed parameter of AUC(0-t).|||1.0239|0.7778|
92294332|NCT05480800|184492925|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.94||||||95.0|0.63|1.4|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG Day 197||1.40|0.63|
92294333|NCT05480800|184492926|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Adjusted GMR|0.95||||||95.0|0.69|1.32|||Mixed Models Analysis||Results based on a linear mixed model with fixed effects; denominator degrees of freedom adjusted using Satterthwaite's method.|Anti-S.Typhimurium OAg IgG Day 29|Heterogeneity was observed at baseline for S. Typhimurium in Africa between iNTS - GMMA + TCV Full dose and iNTS-TCV Ful dose, which influenced other timepoints. Hence, adjusted GMRs are presented.|1.32|0.69|
92294334|NCT05480800|184492926|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Adjusted GMR|1.01||||||95.0|0.74|1.37|||Mixed Models Analysis||Results based on a linear mixed model with fixed effects; denominator degrees of freedom adjusted using Satterthwaite's method.|Anti-S.Typhimurium OAg IgG Day 57|Heterogeneity was observed at baseline for S. Typhimurium in Africa between iNTS - GMMA + TCV Full dose and iNTS-TCV Ful dose, which influenced other timepoints. Hence, adjusted GMRs are presented.|1.37|0.74|
92294335|NCT05480800|184492926|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Adjusted GMR|1.04||||||95.0|0.77|1.41|||Mixed Models Analysis||Results based on a linear mixed model with fixed effects; denominator degrees of freedom adjusted using Satterthwaite's method.|Anti-S.Typhimurium OAg IgG Day 85|Heterogeneity was observed at baseline for S. Typhimurium in Africa between iNTS - GMMA + TCV Full dose and iNTS-TCV Ful dose, which influenced other timepoints. Hence, adjusted GMRs are presented.|1.41|0.77|
92294336|NCT05480800|184492926|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Adjusted GMR|1.2||||||95.0|0.81|1.77|||Mixed Models Analysis||Results based on a linear mixed model with fixed effects; denominator degrees of freedom adjusted using Satterthwaite's method.|Anti-S.Typhimurium OAg IgG Day 169|Heterogeneity was observed at baseline for S. Typhimurium in Africa between iNTS - GMMA + TCV Full dose and iNTS-TCV Ful dose, which influenced other timepoints. Hence, adjusted GMRs are presented.|1.77|0.81|
92294337|NCT05480800|184492926|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Adjusted GMR|0.97||||||95.0|0.65|1.44|||Mixed Models Analysis||Results based on a linear mixed model with fixed effects; denominator degrees of freedom adjusted using Satterthwaite's method.|Anti-S.Typhimurium OAg IgG Day 197|Heterogeneity was observed at baseline for S. Typhimurium in Africa between iNTS - GMMA + TCV Full dose and iNTS-TCV Ful dose, which influenced other timepoints. Hence, adjusted GMRs are presented.|1.44|0.65|
92294338|NCT05480800|184492926|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.82||||||95.0|0.49|1.37|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 29||1.37|0.49|
92294339|NCT05480800|184492926|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.97||||||95.0|0.59|1.59|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 57||1.59|0.59|
92294340|NCT05480800|184492926|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.03||||||95.0|0.64|1.67|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 85||1.67|0.64|
92294341|NCT05480800|184492926|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.93||||||95.0|0.56|1.54|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 169||1.54|0.56|
92294342|NCT05480800|184492926|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.82||||||95.0|0.51|1.33|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 197||1.33|0.51|
92294343|NCT00377156|184492977|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|-28.2|||<|0.001|TWO_SIDED|90.0|-41.9|-14.4|||Fisher Exact||Cognitive deterioration, the primary end point in evaluable patients at 3 months, was less frequent after Arm I than Arm II (40/63 \[63.5%\] vs 44/48 \[91.7%\],\> respectively. The percent difference was -28.2%; 90% CI, -41.9% to -14.4%; P \< .001).|||-14.4|-41.9|<0.001
92144762|NCT04128293|184173912|OTHER||Ratio of Geometric Least Square Mean|0.946|||||TWO_SIDED|90.0|0.8594|1.0404|||||Relative bioavailability between treatment A and B assessed using analysis of variance with treatment, period, and sequence as fixed effects, participant as a random effect was performed on the natural log-transformed parameter of Cmax.|||1.0404|0.8594|
92144763|NCT04128293|184173915|OTHER||Median Difference (Final Values)|0.533||||0.4252|TWO_SIDED|90.0|-1.0|2.0||The p-value was assessed based on the Wilcoxon signed-rank test.|Wilcoxon signed-rank test||The median difference and the 90 percent (%) confidence interval of the median difference was estimated from Hodges-Lehmann estimate.|||2.0000|-1.0000|0.4252
92144764|NCT04128293|184173915|OTHER||Median Difference (Final Values)|1.0||||0.3125|TWO_SIDED|90.0|-0.75|5.25||The p-value was assessed based on the Wilcoxon rank sum test.|Wilcoxon rank sum test||The median difference and the 90% confidence interval of the median difference were estimated from Hodges-Lehmann estimate.|||5.2500|-0.7500|0.3125
92294344|NCT00377156|184492978|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|-18.4|||<|0.001|TWO_SIDED|95.0|-29.0|-7.8|||Fisher Exact|||||-7.8|-29.0|<0.001
92294345|NCT00377156|184492979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.9||||0.001|TWO_SIDED|95.0|4.8|19.0|||t-test, 2 sided|||||19.0|4.8|0.001
92294346|NCT00377156|184492980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-34.4||||0.04|TWO_SIDED|95.0|-74.4|5.5|||Fisher Exact||The incidence of cognitive deterioration was less in Arm I than Arm II at 12 months (6/10 \[60%\] vs 17/18 \[94.4%\]. The percent difference was -34.4% (95% CI: -74.4% to 5.5%; P = .04)|||5.5|-74.4|0.04
92294347|NCT00377156|184492981|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.02||||0.92|TWO_SIDED|95.0|0.75|1.38|||Regression, Cox|||||1.38|0.75|0.92
92294348|NCT00288704|184492982|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Comparison of p-value was a parametric ANCOVA main effects model with part A Baseline variable as covariate and treatment.||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<.0001
92294349|NCT00288704|184492983|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Comparison of p-value was a parametric ANCOVA main effects model with part A Baseline variable as covariate and treatment.||"Subjects received rilonacept 160 mg for 9 weeks (weeks 6-15), and then were re-randomized 1:1 into either Placebo or rilonacept 160 mg. The endpoint for the period was 9 weeks later (week 24).~The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used."||||<0.001
92294350|NCT00288704|184492984|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Comparison of p-value was a parametric ANCOVA main effects model with part A Baseline variable as covariate and treatment.||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<.0001
92294351|NCT00288704|184492985|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Comparison P-Value was a parametric ANCOVA main effects model with Part A Baseline variable as covariate and treatment.||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<0.0001
92294352|NCT00288704|184492986|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Comparison p-value is a parametric ANCOVA main effects model with Part A Baseline variable as covariate and treatment.||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<.0001
92294353|NCT00288704|184492987|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Comparison p-value was a parametric ANCOVA main effects model with Part A Baseline variable as covariate and treatment.||"Please note that the changes are medians (not means).~The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used."||||<0.0001
92294354|NCT00288704|184492988|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|Comparison p-value was a parametric ANCOVA main effects model with Part A Baseline variable as covariate and treatment.||"Please note that the changes are medians (not means).~The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used."||||<0.01
92184813|NCT01029704|184268206|SUPERIORITY||Difference of LS Means|-1.172||||0.009|TWO_SIDED|95.0|-2.044|-0.301||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.301|-2.044|0.0090
92294355|NCT00288704|184492989|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<0.0001
92294356|NCT00288704|184492990|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<0.0001
92294357|NCT00288704|184492991|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<0.0001
92184814|NCT01029704|184268207|SUPERIORITY||Difference of LS Means|-0.353||||0.0281|TWO_SIDED|95.0|-0.668|-0.039||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.039|-0.668|0.0281
92294358|NCT00676650|184492997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.914||||0.1678|TWO_SIDED|95.0|0.762|1.097||1-sided p-value from the stratified log-rank test|Log Rank||Based on the Cox Proportional hazards model stratified by Eastern Cooperative Oncology Group (ECOG) and Disease Progression Base.|||1.097|0.762|0.1678
92294359|NCT00676650|184492998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.725|||<|0.001|TWO_SIDED|95.0|0.591|0.89||1-sided p-value from the stratified log-rank test.|Log Rank||Based on Cox Proportional Hazards Model stratified by ECOG and Disease Progression Base.|||0.890|0.591|<0.001
92294360|NCT00676650|184492999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.561||||0.04|TWO_SIDED|95.0|1.0|19.0||p-value from 2-sided Fisher's Exact test.|Fisher Exact|||||19.0|1.0|0.040
92294361|NCT05061992|184493008|SUPERIORITY|||||||0.6|||||||ANCOVA|||Change in SF-8||||0.6
92294362|NCT05061992|184493008|SUPERIORITY|||||||0.2|||||||ANCOVA|||End of trial SF-8||||0.2
92294363|NCT05061992|184493009|SUPERIORITY|||||||0.001|||||||ANCOVA|||Change in ANT||||0.001
92294364|NCT05061992|184493009|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||End of trial ANT||||0.09
92294365|NCT05061992|184493010|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
92294366|NCT05061992|184493011|SUPERIORITY|||||||0.02|||||||ANCOVA|||||||0.02
92294367|NCT05061992|184493012|SUPERIORITY|||||||0.6|||||||Fisher Exact|||||||0.6
92294368|NCT05061992|184493013|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.2
92294369|NCT01157234|184493033|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|28.73|||||TWO_SIDED|95.0|1.93|55.53||||||||55.53|1.93|
92294370|NCT01157234|184493034|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|8.27|||||TWO_SIDED|95.0|-12.58|29.12||||||||29.12|-12.58|
92294371|NCT01157234|184493035|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.23|STANDARD_ERROR_OF_MEAN|3.87|||TWO_SIDED|95.0|-6.74|9.2||||||||9.20|-6.74|
92294372|NCT01157234|184493039|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|11.94|||||TWO_SIDED|95.0|0.48|23.4||||||||23.40|0.48|
92294373|NCT01157234|184493040|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|69.54|STANDARD_ERROR_OF_MEAN|19.83|||TWO_SIDED|99.7|12.71|126.37||||||||126.37|12.71|
92294374|NCT01157234|184493041|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|68.19|STANDARD_ERROR_OF_MEAN|19.24|||TWO_SIDED|99.17|13.02|123.36||||||||123.36|13.02|
92294375|NCT01157234|184493042|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.39|STANDARD_ERROR_OF_MEAN|17.32|||TWO_SIDED|99.17|-48.25|51.03||||||||51.03|-48.25|
92294376|NCT01157234|184493043|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.74|STANDARD_ERROR_OF_MEAN|17.96|||TWO_SIDED|99.17|-48.74|54.22||||||||54.22|-48.74|
92294377|NCT01742208|184493090|SUPERIORITY||LS Mean Difference|-25.14||||0.007|TWO_SIDED|95.0|-42.78|-7.49||Threshold for significance at 0.05 level.|ANCOVA||Difference is sotagliflozin - placebo|Between-group comparison of the 2 Expansion Groups was based on an ANCOVA model with covariates of baseline mean total daily bolus insulin, treatment group, factor used to stratify the randomization (screening A1C \<= 8%, \> 8%), and random effect of participant\*treatment group.||-7.49|-42.78|0.007
92294378|NCT02707276|184493098|SUPERIORITY||Mean Difference (Final Values)|-0.625|STANDARD_DEVIATION|12.0|<|0.76|TWO_SIDED||||||ANCOVA|repeated measures ANCOVA|mean raw change active-sham; pooled standard deviation|Repeated measures ANCOVA with baseline MADRS scores as covariate for treatment and order effects of difference in MADRS scores.||||<0.76
92294379|NCT02707276|184493098|SUPERIORITY||Mean Difference (Final Values)|-5.17|STANDARD_DEVIATION|4.96|<|0.33|TWO_SIDED||||||ANCOVA|Baseline covariate|Pooled deviation|ANCOVA: Analysis of group differences in change scores with baseline as a covariate||||<0.33
92294380|NCT02707276|184493099|SUPERIORITY||Mean Difference (Net)|2.0|STANDARD_DEVIATION|9.1|<|0.61|TWO_SIDED||||||ANCOVA|repeated measures ANCOVA|raw change active-sham mean; pooled standard deviation|Repeated measures ANCOVA with baseline HARS scores as covariate for treatment and order effects of difference in HARS scores.||||<0.61
92294381|NCT02707276|184493099|SUPERIORITY||Mean Difference (Final Values)|-4.33|STANDARD_DEVIATION|4.0|<|0.32|TWO_SIDED||||||ANCOVA|baseline as covariate|pooled deviation|ANCOVA: Analysis of group differences in change scores with baseline as a covariate||||<0.32
92294382|NCT02707276|184493100|SUPERIORITY||Mean Difference (Final Values)|-1.625|STANDARD_DEVIATION|10.2|<|0.78|TWO_SIDED||||||ANCOVA|repeated measures ANCOVA|raw active-sham mean; pooled standard deviation|Repeated measures ANCOVA with baseline PANAS (Positive sub scale) scores as covariate for treatment and order effects of difference in PANAS (Positive sub scale) scores.||||<0.78
92294383|NCT02707276|184493100|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_DEVIATION|2.42|<|0.99|TWO_SIDED||||||ANCOVA|baseline as covariate|pooled deviation|ANCOVA: Analysis of group differences in change scores with baseline as a covariate||||<0.99
92294384|NCT02786927|184493116|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92294385|NCT02786927|184493117|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92294386|NCT02786927|184493118|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92294387|NCT02416934|184493125|SUPERIORITY||Mean Difference (Final Values)|-1.5392|STANDARD_ERROR_OF_MEAN|0.7176||0.036|TWO_SIDED|95.0|-2.9761|-0.1022|||t-test, 2 sided|||Comparing DSQ between Dexamethasone and Saline at Day 1 post-op||-.1022|-2.9761|0.036
92294388|NCT02416934|184493125|SUPERIORITY||Mean Difference (Final Values)|-0.604|STANDARD_ERROR_OF_MEAN|0.2543|<|0.05|TWO_SIDED|95.0|-1.1151|-0.093|||t-test, 2 sided|||Comparing Bazaz between Dexamethasone and Saline at 6 months post-op||-.0930|-1.1151|<.05
92294389|NCT02416934|184493126|SUPERIORITY||Mean Difference (Final Values)|1.7874|STANDARD_ERROR_OF_MEAN|3.1273|<|0.05|TWO_SIDED|95.0|-4.5153|8.0902|||t-test, 2 sided|||Comparing the changes in VNDI between Dexamethasone and Saline from baseline to last visit||8.0902|-4.5153|<.05
92294390|NCT02416934|184493127|SUPERIORITY|||||||0.375||||||Fisher's Exact Test|Fisher Exact|||||||.375
92294391|NCT00494013|184493128|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority margin was 0.4%.|Mean Difference (Net)|-0.21||||0.026||95.0|-0.39|-0.03|||ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Determir).|Hypothesis: Basal analog insulin lispro protamine suspension, injected once or twice daily is noninferior to basal analog insulin determir, injected once or twice daily, with regard to glycemic control as measured by change in HbA1c from baseline to endpoint (last observation carried forward).||-0.03|-0.39|0.026
92294392|NCT00494013|184493129|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.213||95.0|-0.28|0.06||P-value for 12 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Detemir).|||0.06|-0.28|0.213
92294393|NCT00494013|184493129|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.213||95.0|-0.28|0.06||P-value for 12 Week HbA1c.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Detemir).|||0.06|-0.28|0.213
92294394|NCT00494013|184493129|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.038||95.0|-0.38|-0.01||P-value for 24 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Detemir).|||-0.01|-0.38|0.038
92294395|NCT00494013|184493129|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.038||95.0|-0.38|-0.01||P-value for Week 24 HbA1c.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Detemir).|||-0.01|-0.38|0.038
92294396|NCT00494013|184493130|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||P-value for HbA1c \<7.0%.|Fisher Exact|||||||0.463
92294397|NCT00494013|184493130|SUPERIORITY_OR_OTHER|||||||0.135||95.0||||P-value for HbA1c ≤6.5%.|Fisher Exact|||||||0.135
92294398|NCT00494013|184493131|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin of 0.8 millimoles per Liter (mmol/L).|Mean Difference (Net)|0.1||||0.107||95.0|-0.02|0.23|||ANOVA|ANOVA model: Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Determir).|The first gatekeeping hypothesis was that Insulin Lispro Protamine Suspension was noninferior to determir.||0.23|-0.02|0.107
92294399|NCT00494013|184493132|SUPERIORITY_OR_OTHER|||||||0.952||95.0||||P-value for Average 7-Point SMBG.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.952
92294400|NCT00494013|184493132|SUPERIORITY_OR_OTHER|||||||0.856||95.0||||P-value for Average Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.856
92294401|NCT00494013|184493132|SUPERIORITY_OR_OTHER|||||||0.79||95.0||||P-value for Average Post-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.790
92294402|NCT00494013|184493132|SUPERIORITY_OR_OTHER|||||||0.632||95.0||||P-value for Average Morning+Evening Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.632
92294403|NCT00494013|184493133|SUPERIORITY_OR_OTHER|||||||0.472||95.0||||P-value for All Hypoglycemic Events.|Fisher Exact|||||||0.472
92294404|NCT00494013|184493133|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Nocturnal Hypoglycemic Events.|Fisher Exact|||||||0.005
92294405|NCT00494013|184493133|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||P-value for Severe Hypoglycemic Events.|Fisher Exact|||||||0.450
92294406|NCT00494013|184493134|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.001
92184815|NCT01029704|184268207|SUPERIORITY||Difference of LS Means|-0.155||||0.3215|TWO_SIDED|95.0|-0.464|0.154||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||0.154|-0.464|0.3215
92294407|NCT00494013|184493134|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Nocturnal Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.001
92294408|NCT00494013|184493134|SUPERIORITY_OR_OTHER|||||||0.226||95.0||||P-value for Severe Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.226
92294409|NCT00494013|184493136|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin of 1.5 kilograms (kg).|Mean Difference (Net)|1.5|||<|0.001||95.0|0.93|2.06||P-value for Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Country + Baseline HbA1c + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Determir).|The second gatekeeping hypothesis was that Insulin Lispro Protamine Suspension was noninferior to detemir with regard to change in absolute body weight from baseline to endpoint (last observation carried forward).||2.06|0.93|<0.001
92184816|NCT01029704|184268207|SUPERIORITY||Difference of LS Means|-0.004||||0.9776|TWO_SIDED|95.0|-0.304|0.295||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||0.295|-0.304|0.9776
92294410|NCT00494013|184493137|SUPERIORITY_OR_OTHER|||||||0.074||95.0|||||ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group + Change in HbA1c from Baseline.||||||0.074
92294411|NCT00494013|184493138|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group + Change in HbA1c from Baseline.||||||0.039
92294412|NCT00494013|184493139|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Fisher Exact|||||||0.026
92294413|NCT01994980|184493202|SUPERIORITY||||||<|0.01||||||This is a calculated p value.|Wilcoxon (Mann-Whitney)|||||||<0.01
92294414|NCT00096460|184493212|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Survival Probability|62.7|||||TWO_SIDED|95.0|43.8|89.6||||||||89.6|43.8|
92294415|NCT00096460|184493212|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Survival Probability|85.7||||||95.0|63.3|100.0||||||||100|63.3|
92294416|NCT02459418|184493236|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline corrected AUC(0-last) were used to assess bioequivalence between Gonal-f® RFF and AFOLIA using the bioequivalence interval of 80.00% to 125.00%.|Geometric LS Mean Ratio|164.96|||||TWO_SIDED|90.0|137.82|197.45||||||A mixed-effects analysis of variance (ANOVA) model with sequence, treatment and period as fixed effects, and subject nested within sequence as random effect was used. Least squares (LS) means and 90% confidence intervals (CIs) for treatment differences on log-scale were obtained and back transformed to provide geometric LS mean ratios of AFOLIA over Gonal-f® RFF.||197.45|137.82|
92294417|NCT02459418|184493237|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline corrected Cmax were used to assess bioequivalence between Gonal-f® RFF and AFOLIA using the bioequivalence interval of 80.00% to 125.00%.|Geometric LS Mean Ratio|123.15|||||TWO_SIDED|90.0|108.12|140.28||||||An ANOVA model with sequence, treatment and period as fixed effects, and subject nested within sequence as random effect was used. LS means and 90% CIs for treatment differences on log-scale were obtained and back-transformed to provide geometric LS mean ratios of AFOLIA over Gonal-f® RFF.||140.28|108.12|
92294418|NCT02459418|184493238|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline corrected AUC(0-∞) were used to assess bioequivalence between Gonal-f® RFF and AFOLIA using the bioequivalence interval of 80.00% to 125.00%.|Geometric LS mean ratio|133.68|||||TWO_SIDED|90.0|102.42|174.49||||||An ANOVA model with sequence, treatment and period as fixed effects, and subject nested within sequence as random effect was used. LS means and 90% CIs for treatment differences on log-scale were obtained and back-transformed to provide geometric LS mean ratios of AFOLIA over Gonal-f® RFF.||174.49|102.42|
92294419|NCT02459418|184493239|OTHER||Median Difference (Net)|7.5|||||TWO_SIDED|90.0|4.5|11.5||||||Non-transformed Tmax was tested using the non-parametric Wilcoxon signed rank test to assess the differences between Gonal-f® RFF and AFOLIA. Median differences and corresponding 90% CIs were calculated using an exact Hodges-Lehmann estimate.||11.5|4.5|
92294420|NCT02459418|184493241|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline corrected AUC(0-last) were used to assess bioequivalence between Gonal-f® RFF and AFOLIA using the bioequivalence interval of 80.00% to 125.00%.|Geometric LS Mean Ratio|163.0|||||TWO_SIDED|90.0|94.0|282.67||||||An ANOVA model with sequence, treatment and period as fixed effects, and subject nested within sequence as random effect was used. LS means and 90% CIs for treatment differences on log-scale were obtained and back-transformed to provide geometric LS mean ratios of AFOLIA over Gonal-f® RFF.||282.67|94|
92294421|NCT02459418|184493242|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline corrected Cmax were used to assess bioequivalence between Gonal-f® RFF and AFOLIA using the bioequivalence interval of 80.00% to 125.00%.|Geometric LS Mean Ratio|177.17|||||TWO_SIDED|90.0|125.65|249.81||||||An ANOVA model with sequence, treatment and period as fixed effects, and subject nested within sequence as random effect was used. LS means and 90% CIs for treatment differences on log-scale were obtained and back-transformed to provide geometric LS mean ratios of AFOLIA over Gonal-f® RFF.||249.81|125.65|
92294422|NCT02459418|184493243|OTHER||Median Difference (Net)|2.14|||||TWO_SIDED|90.0|-9.91|12.29||||||Non-transformed Tmax was tested using the non-parametric Wilcoxon signed rank test to assess the differences between Gonal-f® RFF and AFOLIA. Median difference and corresponding 90% CIs were was calculated using an Exact Hodges-Lehmann estimate with an exact confidence interval.||12.29|-9.91|
92294423|NCT00653159|184493244|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4003|||||||Fisher Exact|Two-sided test||Fisher's exact test was used to examine the significance of the association between IUD type (Paragard or Mirena) and whether or not the subject completed the final study visit at 6 months. Under the null hypothesis, study completion rates are similar for both IUD types.||||0.4003
92294424|NCT00653159|184493245|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4136|||||||Fisher Exact|Two-sided test||Fisher's exact test was used to examine the significance of the association between IUD type (Paragard or Mirena) and whether or not the subject experienced heavy bleeding. Under the null hypothesis, heavy bleeding rates are similar for both IUD types.||||0.4136
92294425|NCT00653159|184493246|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4783|||||||Fisher Exact|Two-sided test||Fisher's exact test was used to examine the significance of the association between IUD type (Paragard or Mirena) and whether or not the subject became pregnant within 6 months of IUD insertion. Under the null hypothesis, pregnancy rates are similar for both IUD types.||||0.4783
92294426|NCT00653159|184493247|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2174|||||||Fisher Exact|Two-sided test||Fisher's exact test was used to examine the significance of the association between IUD type (Paragard or Mirena) and whether or not the subject experienced expulsion of the IUD. Under the null hypothesis, expulsion rates are similar for both IUD types.||||0.2174
92294427|NCT00653159|184493248|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|Two-sided test||"Fisher's exact test was used to examine the significance of the association between IUD type (Paragard or Mirena) and whether or not the subject reported being satisfied (happy or very happy) at the 6 month study visit. Under the null hypothesis, satisfaction rates are similar for both IUD types."||||1.0000
92294428|NCT03978598|184493253|NON_INFERIORITY|We used a 15% difference in our primary outcome for the non-inferiority margin as this is the upper end of the estimated prevalence of lactation failure in the literature and is consistent with previous studies (Neifert 2001, Gurtcheff 2011, Turok 2017).|Risk Difference (RD)|3.7|||||ONE_SIDED|95.0|-16.7|||||||To achieve 80% power with a 1-sided type 1 error of 5% utilizing the Z-test (unpooled), 62 participants would be required in each group, for a total of 124 participants. Accounting for expected loss to follow-up of 20%, we aimed to recruit 149 participants and rounded up to final recruitment goal of 150.|The risk-difference between immediate and standard placement in the modified intention-to-treat analysis (mITT) was -0.6% with a -12.8% lower limit of the 95% confidence interval. In the mITT analysis, 78.3% (54/69) and 78.9% (45/57) of participants were breastfeeding at 8 weeks in the immediate and delayed groups, respectively.||-16.7|
92294429|NCT03978598|184493255|OTHER|||||||0.221|||||||Wilcoxon (Mann-Whitney)|||Baby had trouble sucking or latching||||0.221
92294430|NCT03978598|184493255|OTHER|||||||0.786|||||||Wilcoxon (Mann-Whitney)|||Baby got sick||||0.786
92294431|NCT03978598|184493255|OTHER|||||||0.064|||||||Wilcoxon (Mann-Whitney)|||I was sick||||0.064
92294432|NCT03978598|184493255|OTHER|||||||0.044|||||||Wilcoxon (Mann-Whitney)|||Provider said baby was underweight||||0.044
92294433|NCT03978598|184493255|OTHER|||||||0.666|||||||Wilcoxon (Mann-Whitney)|||Insufficient milk||||0.666
92294434|NCT03978598|184493255|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||I had trouble; breast issues||||0.006
92294435|NCT03978598|184493255|OTHER|||||||0.476|||||||Wilcoxon (Mann-Whitney)|||I quit breastfeeding; life issues||||0.476
92294436|NCT03978598|184493256|OTHER|||||||0.717|||||||Wilcoxon (Mann-Whitney)|||Respecting me as a person||||0.717
92294437|NCT03978598|184493256|OTHER|||||||0.808|||||||Wilcoxon (Mann-Whitney)|||Letting me say what mattered to me about my birth control method||||0.808
92294438|NCT03978598|184493256|OTHER|||||||0.967|||||||Wilcoxon (Mann-Whitney)|||Taking my preferences about my birth control seriously||||0.967
92294439|NCT03978598|184493256|OTHER|||||||0.826|||||||Wilcoxon (Mann-Whitney)|||Giving me enough information to make the best decision about my birth control method||||0.826
92294440|NCT03978598|184493257|OTHER|||||||0.264|||||||Wilcoxon (Mann-Whitney)|||2 weeks postpartum||||0.264
92294441|NCT03978598|184493257|OTHER|||||||0.414|||||||Wilcoxon (Mann-Whitney)|||4 weeks postpartum||||0.414
92294442|NCT03978598|184493257|OTHER|||||||0.482|||||||Wilcoxon (Mann-Whitney)|||8 weeks postpartum||||0.482
92294443|NCT03978598|184493258|OTHER|||||||0.583|||||||Wilcoxon (Mann-Whitney)|||4 weeks postpartum||||0.583
92294444|NCT03978598|184493258|OTHER|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||8 weeks postpartum||||0.062
92294445|NCT03978598|184493258|OTHER|||||||0.705|||||||Wilcoxon (Mann-Whitney)|||12 weeks postpartum||||0.705
92294446|NCT03978598|184493259|OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||2 weeks postpartum||||0.60
92294447|NCT03978598|184493259|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||4 weeks postpartum||||0.07
92294448|NCT03978598|184493259|OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||8 weeks postpartum||||0.36
92294449|NCT03978598|184493260|OTHER|||||||0.0376|||||||Wilcoxon (Mann-Whitney)|||||||0.0376
92294450|NCT00683592|184493262|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean Change|-2.5||||0.009|TWO_SIDED|95.0|-4.4|-0.6|||ANCOVA|||The model was an analysis of covariance (ANCOVA), with terms for treatment group and center, adjusting for baseline MADRS total score. Missing values at week 8 were handled using the last observation carried forward (LOCF) approach.||-0.6|-4.4|0.009
92294451|NCT00683592|184493263|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean Change|-1.6||||0.026|TWO_SIDED|95.0|-3.1|-0.2|||ANCOVA|||The model was an analysis of covariance (ANCOVA), with terms for treatment group and center, adjusting for baseline HAM-D 17 total score. Missing values at week 8 were handled using the last observation carried forward (LOCF) approach.||-0.2|-3.1|0.026
92294452|NCT00683592|184493264|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean Improve|-0.3||||0.004|TWO_SIDED|95.0|-0.5|-0.1|||ANOVA|||The model was an analysis of variance (ANOVA), with terms for treatment group and center. Missing values at week 8 were handled using the last observation carried forward (LOCF) approach.||-0.1|-0.5|0.004
92294453|NCT00683592|184493265|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean Change|-1.2||||0.037|TWO_SIDED|95.0|-2.4|-0.1|||ANCOVA|||The model was an analysis of covariance (ANCOVA), with terms for treatment group and center, adjusting for baseline HAM-A total score. Missing values at week 8 were handled using the last observation carried forward (LOCF) approach.||-0.1|-2.4|0.037
92294454|NCT00683592|184493266|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.134||||0.002|TWO_SIDED|95.0|0.047|0.221|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel tests were used to compare MADRS response rates between the treatment groups, stratifying by center. The asymptotic confidence interval of the risk difference was estimated by the normal approximation to the binomial distribution.||0.221|0.047|0.002
92294455|NCT00683592|184493267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.069||||0.066|TWO_SIDED|95.0|-0.008|0.147|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel tests were used to compare MADRS remission rates between the treatment groups, stratifying by center. The asymptotic confidence interval of the risk difference was estimated by the normal approximation to the binomial distribution.||0.147|-0.008|0.066
92294456|NCT02697617|184493275|SUPERIORITY|||||||0.024||||||First analyzed using a Linear Mixed Model to assess if there were carryover effects and then subsequently analyzed using paired t-tests to compare the mean differences between treatments.|Paired t-test|||||||0.024
92294457|NCT02697617|184493276|SUPERIORITY|||||||0.14||||||First analyzed using a Linear Mixed Model to assess if there were carryover effects and then subsequently analyzed using paired t-tests to compare the mean differences between treatments.|Paired t-test|||||||0.14
92294458|NCT02697617|184493278|OTHER||||||||||||||||||comparison by paired t-test|||
92294459|NCT02697617|184493279|SUPERIORITY|||||||0.15||||||First analyzed using a Linear Mixed Model to assess if there were carryover effects and then subsequently analyzed using paired t-tests to compare the mean differences between treatments.|Paired t-test|||||||0.15
92294460|NCT02697617|184493280|SUPERIORITY|||||||0.4||||||First analyzed using a Linear Mixed Model to assess if there were carryover effects and then subsequently analyzed using paired t-tests to compare the mean differences between treatments.|paired t test|||||||0.4
92294461|NCT01848210|184493286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.65||||0.531|TWO_SIDED|95.0|-19.81|10.51|||Regression, Linear|||||10.51|-19.81|0.531
92294462|NCT00381849|184493290|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of CaOx between baseline and after 6 weeks' treatment on placebo.||||0.32
92294463|NCT00381849|184493290|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of CaOx between baseline and after 6 weeks' treatment on cystone.||||0.23
92294464|NCT00381849|184493290|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of CaOx between six weeks' treatment on cystone and 6 weeks' treatment on placebo.||||0.41
92184817|NCT01029704|184268207|SUPERIORITY||Difference of LS Means|-0.344||||0.0242|TWO_SIDED|95.0|-0.642|-0.046||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.046|-0.642|0.0242
92294465|NCT00381849|184493290|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of CaOx between baseline and after 46 weeks' treatment on cystone.||||0.32
92294466|NCT00381849|184493291|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of Brushite between baseline and after 6 weeks' treatment on placebo.||||0.49
92294467|NCT00381849|184493291|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of Brushite between baseline and after 6 weeks' treatment on cystone.||||0.64
92294468|NCT00381849|184493291|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of Brushite between six weeks' treatment on cystone and 6 weeks' treatment on placebo.||||0.72
92294469|NCT00381849|184493291|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of Brushite between baseline and after 46 weeks' treatment on cystone.||||0.84
92294470|NCT00381849|184493294|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||t-test, 1 sided|||Paired t test for urinary cystine between baseline and after 6 weeks' treatment on placebo.||||0.69
92294471|NCT00381849|184493294|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||t-test, 1 sided|||Paired t test for urinary cystine between baseline and after 6 weeks' treatment on cystone.||||0.25
92294472|NCT00381849|184493294|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||t-test, 1 sided|||Paired t test for urinary cystine between six weeks' treatment on cystone and 6 weeks' treatment on placebo.||||0.15
92294473|NCT00381849|184493294|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||t-test, 1 sided|||Paired t test for urinary cystine between baseline and after 46 weeks' treatment on cystone.||||0.20
92294474|NCT00381849|184493295|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||t-test, 2 sided|||Right Kidney Stone Density; P-value comparing one year to baseline||||0.85
92294475|NCT00381849|184493295|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||t-test, 2 sided|||Left Kidney Stone Density; P-value comparing one year to baseline||||0.63
92294476|NCT00381849|184493295|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||t-test, 2 sided|||Right Kidney Stone Density; P-value comparing one year to baseline||||0.97
92294477|NCT00381849|184493295|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||t-test, 2 sided|||Left Kidney Stone Density; P-value comparing one year to baseline||||0.15
92294478|NCT00381849|184493296|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||t-test, 2 sided|||Right Kidney Stone Volume; P-value comparing one year to baseline||||0.81
92294479|NCT00381849|184493296|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||t-test, 2 sided|||Left Kidney Stone Volume; P-value comparing one year to baseline||||0.78
92294480|NCT00381849|184493296|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||t-test, 2 sided|||Right Kidney Stone Volume; P-value comparing one year to baseline||||0.96
92294481|NCT00381849|184493296|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||t-test, 2 sided|||Left Kidney Stone Volume; P-value comparing one year to baseline||||0.13
92294482|NCT05661344|184493351|OTHER||Ratio of adjusted geometric means [%]|104.56|||||TWO_SIDED|90.0|91.89|118.98|||||"Ratio \[%\] = (adjusted geometric mean of mild hepatic impairment / adjusted geometric mean of normal hepatic function matched to mild hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 13.7"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||118.98|91.89|
92294483|NCT05661344|184493351|OTHER||Ratio of adjusted geometric means [%]|130.89|||||TWO_SIDED|90.0|89.34|191.75|||||"Ratio \[%\] = (adjusted geometric mean of moderate hepatic impairment / adjusted geometric mean of normal hepatic function matched to moderate hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 42.0"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||191.75|89.34|
92294484|NCT05661344|184493352|OTHER||Ratio of adjusted geometric means [%]|83.29|||||TWO_SIDED|90.0|60.47|114.71|||||"Ratio \[%\] = (adjusted geometric mean of mild hepatic impairment / adjusted geometric mean of normal hepatic function matched to mild hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 34.8"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||114.71|60.47|
92294485|NCT05661344|184493352|OTHER||Ratio of adjusted geometric means [%]|68.65|||||TWO_SIDED|90.0|46.48|101.41|||||"Ratio \[%\] = (adjusted geometric mean of moderate hepatic impairment / adjusted geometric mean of normal hepatic function matched to moderate hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 43.0"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||101.41|46.48|
92294486|NCT05661344|184493353|OTHER||Ratio of adjusted geometric means [%]|105.44|||||TWO_SIDED|90.0|92.36|120.38|||||"Ratio \[%\] = (adjusted geometric mean of mild hepatic impairment / adjusted geometric mean of normal hepatic function matched to mild hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 14.1"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||120.38|92.36|
92294487|NCT05661344|184493353|OTHER||Ratio of adjusted geometric means [%]|131.1|||||TWO_SIDED|90.0|89.96|191.05|||||"Ratio \[%\] = (adjusted geometric mean of moderate hepatic impairment / adjusted geometric mean of normal hepatic function matched to moderate hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 41.4"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||191.05|89.96|
92294488|NCT05212948|184493354|OTHER|Vaccine Efficacy|Efficacy|34.2||||0.2409|TWO_SIDED|95.0|21.9|44.6||One-sided P-value was calculated to test the null hypothesis, vaccine efficacy ≤30%.|Poisson Regression Model|Robust Error Variance||Vaccine efficacy was calculated with its 95% confidence interval and defined as 1 minus the relative risk (S-268019-b versus placebo), which included the intervention group, baseline age (continuous) as factors as well as the log of the follow-up time as an offset.||44.6|21.9|0.2409
92294489|NCT05347693|184493371|EQUIVALENCE|"Prespecified estimates for sample size calculation~* Equivalence margin: 0.29~* Sample size estimate parameters:~  * Two-group χ² test~ * Significance level (α): 5% (two-sided)~ * Power: 80%~* Assumed proportions with NK (K+ between 3.5 and 5.0 mmol/L, inclusive) at 180 days post-discharge:~  * Arm A: 0.88~ * Arm B: 0.59~Note: Assumed proportions for statistical planning; not actual results."|Odds Ratio (OR)|0.81||||0.558|TWO_SIDED|95.0|0.39|1.66|||Regression, Logistic|Model included response as the dependent variable, and randomised treatment and participant recruitment country as independent factors.|OR \>1 indicated increased odds of K+ between 3.5 and 5.0 mmol/L on SZC compared to SoC.|||1.66|0.39|0.558
92294490|NCT05347693|184493372|EQUIVALENCE|"Prespecified estimates for sample size calculation~* Equivalence margin: 0.262~* Sample size estimate parameters:~  * Log-Rank Test for Equality of Survival Curves~ * α: 5%~ * Power: 80%~* HR (SZC/SoC): 0.329~* Assumed proportions without the main secondary composite outcome (event-free) at 180 days post-discharge~  * Arm A: 83% (17% with the outcome/event of interest)~ * Arm B: 56.8% (43.2% with the outcome/event of interest)~Note: Assumed proportions for statistical planning; not actual results"|Hazard Ratio (HR)|0.92||||0.743|TWO_SIDED|95.0|0.56|1.51|||Regression, Cox|Randomised treatment group and participant recruitment country were used as the independent variables. SoC group used as reference level in Cox model.|An HR \<1 favoured SZC to be associated with a longer time to first component of composite endpoint than SoC.|||1.51|0.56|0.743
92184818|NCT01029704|184268209|SUPERIORITY||Difference of LS Means|17.688||||0.1613|TWO_SIDED|95.0|-7.21|42.587||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||42.587|-7.210|0.1613
92294491|NCT05347693|184493373|EQUIVALENCE|This outcome is unpowered.|Hazard Ratio (HR)|1.02||||0.951|TWO_SIDED|95.0|0.58|1.79|||Regression, Cox|Randomised treatment group and participant recruitment country were used as the independent variables. SoC group used as reference level in Cox model.|An HR \<1 favoured SZC to be associated with a longer time to first component of composite endpoint than SoC.|||1.79|0.58|0.951
92294492|NCT05347693|184493374|EQUIVALENCE|This outcome is unpowered.|Incidence rate ratio|1.48|STANDARD_ERROR_OF_MEAN|0.4||0.152|TWO_SIDED|95.0|0.86|2.53|||Negative binomial regression model|Model included the randomised treatment group as the independent variable and duration of time in study as an offset.|A rate ratio \<1 favours SZC compared to SoC.|||2.53|0.86|0.152
92294493|NCT05347693|184493375|EQUIVALENCE|This outcome is unpowered.|Hazard Ratio (HR)|1.42||||0.515|TWO_SIDED|95.0|0.5|4.35|||Regression, Cox|Randomised treatment group and participant recruitment country were used as the independent variables. SoC group used as reference level in Cox model.|An HR \<1 favoured SZC to be associated with a longer time to first component of composite endpoint than SoC.|||4.35|0.50|0.515
92294494|NCT05347693|184493376|EQUIVALENCE|This outcome is unpowered.|Hazard Ratio (HR)|0.41||||0.258|TWO_SIDED|95.0|0.07|1.83|||Regression, Cox|Randomised treatment group and participant recruitment country were used as the independent variables. SoC group used as reference level in Cox model.|An HR \<1 favoured SZC to be associated with a longer time to first component of composite endpoint than SoC.|||1.83|0.07|0.258
92294495|NCT05347693|184493377|EQUIVALENCE|This outcome is unpowered.|Incidence risk ratio|0.42|STANDARD_ERROR_OF_MEAN|0.31||0.239|TWO_SIDED|95.0|0.1|1.81|||Negative binomial regression model|Model included the randomised treatment group as the independent variable and duration of time in study as an offset.|A rate ratio \<1 favours SZC compared to SoC.|||1.81|0.10|0.239
92294496|NCT01884844|184493397|SUPERIORITY|||||||0.89|||||||Fisher Exact|||||||0.89
92294497|NCT03653026|184493416|SUPERIORITY||Adjusted Response Rate Difference|29.0|||<|0.001|TWO_SIDED|95.0|23.2|34.7||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||34.7|23.2|<0.001
92294498|NCT03653026|184493417|SUPERIORITY||Adjusted Response Rate Difference|35.1|||<|0.001|TWO_SIDED|95.0|28.6|41.6||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||41.6|28.6|<0.001
92294499|NCT03653026|184493418|SUPERIORITY||Adjusted Response Rate Difference|15.9|||<|0.001|TWO_SIDED|95.0|11.4|20.3||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||20.3|11.4|<0.001
92294500|NCT03653026|184493419|SUPERIORITY||Adjusted Response Rate Difference|49.4|||<|0.001|TWO_SIDED|95.0|41.7|57.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||57.1|41.7|<0.001
92294501|NCT03653026|184493420|SUPERIORITY||Adjusted Response Rate Difference|37.0|||<|0.001|TWO_SIDED|95.0|28.8|45.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||45.1|28.8|<0.001
92294502|NCT03653026|184493421|SUPERIORITY||Adjusted Response Rate Difference|30.1|||<|0.001|TWO_SIDED|95.0|24.1|36.2||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - placebo|||36.2|24.1|<0.001
92294503|NCT03653026|184493422|SUPERIORITY||Adjusted Response Rate Difference|27.1|||<|0.001|TWO_SIDED|95.0|19.0|35.3||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (\<= 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||35.3|19.0|<0.001
92294504|NCT03653026|184493423|SUPERIORITY||Adjusted Response Rate Difference|29.1|||<|0.001|TWO_SIDED|95.0|20.9|37.4||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||37.4|20.9|<0.001
92184819|NCT01029704|184268209|SUPERIORITY||Difference of LS Means|17.091||||0.2079|TWO_SIDED|95.0|-9.696|43.877||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||43.877|-9.696|0.2079
92294505|NCT03653026|184493424|SUPERIORITY||Adjusted Response Rate Difference|37.9|||<|0.001|TWO_SIDED|95.0|29.8|46.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||46.1|29.8|<0.001
92294506|NCT03653026|184493425|SUPERIORITY||Least Squares (LS) Mean Difference|31.2|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|24.98|37.36||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Mixed-effect model repeated measurement|MMRM with Baseline, treatment, visit, treatment-by-visit interaction, and strata (Baseline Adapted Mayo score, corticosteroid use, and bio-IR status).|Difference = Upadacitinib 45 mg - Placebo|||37.36|24.98|<0.001
92294507|NCT03653026|184493426|SUPERIORITY||Adjusted Response Rate Difference|11.3|||<|0.001|TWO_SIDED|95.0|7.2|15.3||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||15.3|7.2|<0.001
92294508|NCT03653026|184493427|SUPERIORITY||LS Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|4.19|7.73||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Mixed-effect model repeated measurement|MMRM with Baseline, treatment, visit, treatment-by-visit interaction, and strata (Baseline Adapted Mayo score, corticosteroid use, and bio-IR status).|Difference = Upadacitinib 45 mg - Placebo|||7.73|4.19|<0.001
92294509|NCT02104817|184493462|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.837|TWO_SIDED|95.0|0.9|1.09||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||1.09|0.90|0.837
92294510|NCT02104817|184493463|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.269|TWO_SIDED|95.0|0.84|1.05||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||1.05|0.84|0.269
92294511|NCT02104817|184493464|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.402|TWO_SIDED|95.0|0.93|1.19||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing|Regression, Cox|||||1.19|0.93|0.402
92294512|NCT02104817|184493465|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.87|1.16||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing|Regression, Cox|||||1.16|0.87|0.940
92294513|NCT02104817|184493466|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.092|TWO_SIDED|95.0|0.81|1.02||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing|Regression, Cox|||||1.02|0.81|0.092
92294514|NCT02104817|184493467|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.016|TWO_SIDED|95.0|0.75|0.97||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||0.97|0.75|0.016
92294515|NCT02104817|184493468|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.372|TWO_SIDED|95.0|0.9|1.31||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing|Regression, Cox|||||1.31|0.90|0.372
92294516|NCT02104817|184493469|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.336|TWO_SIDED|95.0|0.89|1.41||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||1.41|0.89|0.336
92294517|NCT02104817|184493470|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.112|TWO_SIDED|95.0|0.97|1.31||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||1.31|0.97|0.112
92294518|NCT02104817|184493471|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.091|TWO_SIDED|95.0|0.97|1.42||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||1.42|0.97|0.091
92294519|NCT02104817|184493472|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.408|TWO_SIDED|95.0|0.83|1.08||This endpoint was not in the testing sequence and therefore not under type I error control.|Regression, Cox|||||1.08|0.83|0.408
92184820|NCT01029704|184268209|SUPERIORITY||Difference of LS Means|24.379||||0.041|TWO_SIDED|95.0|1.028|47.731||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||47.731|1.028|0.0410
92294520|NCT02104817|184493473|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.233|TWO_SIDED|95.0|0.63|1.12||This endpoint was not in the testing sequence and therefore not under type I error control.|Regression, Cox|||||1.12|0.63|0.233
92294521|NCT02104817|184493474|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.77|TWO_SIDED|95.0|0.81|1.17||This endpoint was not in the testing sequence and therefore not under type I error control.|Regression, Cox|||||1.17|0.81|0.770
92294522|NCT02104817|184493475|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.278|TWO_SIDED|95.0|0.9|1.45||This endpoint was not in the testing sequence and therefore not under type I error control.|Regression, Cox|||||1.45|0.90|0.278
92294523|NCT01405469|184493503|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.44|STANDARD_DEVIATION|2.66|<|0.001||95.0|||||t-test, 2 sided|||this pilot study was created ro evaluate sample size for the following multicenter study, based on manometric outcomes. Mean values between baseline and follow-up were compared using Student ' s t -test for paired samples. P values less then 0.05, two-sided, were considered significant.R 2.13.1(R Development Core Team (2011). Subgroups (partial vs. complete myotomy) were compared using an analysis of variance test adjusted for initial values.||||<0.001
92294524|NCT01841073|184493540|SUPERIORITY|||||||0.005||||||p-value was calculated, and is not attempting to indicate the threshold for statistical significance|ANCOVA|||||||0.005
92294525|NCT01841073|184493541|SUPERIORITY|||||||0.027|||||||ANCOVA|||||||0.027
92294526|NCT01841073|184493542|SUPERIORITY|||||||0.13|||||||ANCOVA|||||||0.13
92294527|NCT04404907|184493543|OTHER|ANOVA||||||0.02|||||||ANOVA|||feel more attractive||||0.02
92294528|NCT04404907|184493543|OTHER|ANOVA||||||0.001|||||||ANOVA|||tanning helps relax||||0.001
92294529|NCT04404907|184493543|OTHER|||||||0.34|||||||ANOVA|||confident with a tan||||0.34
92294530|NCT04404907|184493543|OTHER|||||||0.0004|||||||ANOVA|||Social activity||||0.0004
92294531|NCT04404907|184493543|OTHER|||||||0.66|||||||ANOVA|||Important to protect skin from the sun||||0.66
92294532|NCT04404907|184493543|OTHER|||||||0.16|||||||ANOVA|||Concern about develop skin cancer||||0.16
92294533|NCT04404907|184493543|OTHER|||||||0.29|||||||ANOVA|||Chances of getting skin cancer are high||||0.29
92294534|NCT01653405|184493548|SUPERIORITY||||||<|0.001|||||||Difference in differences|||||||<0.001
92294535|NCT01653405|184493549|SUPERIORITY|||||||0.43|||||||test of differences|||||||0.43
92294536|NCT01653405|184493550|SUPERIORITY||||||<|0.001|||||||difference in differences|||||||<0.001
92294537|NCT01653405|184493551|SUPERIORITY||||||<|0.001|||||||Difference in differences|||||||<0.001
92294538|NCT01653405|184493552|SUPERIORITY|||||||0.002|||||||difference in differences|||||||0.002
92294539|NCT03174158|184493553|SUPERIORITY|||||||0.07||||||a priori p value threshold \< 0.05|Chi-squared|||||||0.07
92294540|NCT03174158|184493553|SUPERIORITY|||||||0.18|||||||Chi-squared|a priori threshold p\<0.05||||||0.18
92294541|NCT03174158|184493553|SUPERIORITY|||||||0.21||||||a priori threshold p\<0.05|Chi-squared|||||||0.21
92294542|NCT00283842|184493562|SUPERIORITY_OR_OTHER|||||||0.084|||||||Hochberg|||Statistical analysis provided for 50mg.||||0.084
92294543|NCT00283842|184493562|SUPERIORITY_OR_OTHER|||||||0.084|||||||Hochberg|||Statistical analysis provided for 100mg.||||0.084
92294544|NCT00283842|184493562|SUPERIORITY_OR_OTHER|||||||0.001|||||||Hochberg|||Statistical analysis provided for 200mg.||||0.001
92294545|NCT00283842|184493562|SUPERIORITY_OR_OTHER|||||||0.027|||||||Hochberg|||Statistical analysis provided for 400mg.||||0.027
92144765|NCT00514943|184173965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.49||||0.7606|TWO_SIDED|95.0|-11.188|8.202||P-value obtained from fitting an ANCOVA model including treatment, stratification factor prior chemotherapy for recurrent/metastatic disease and the baseline sum of longest distance of target lesions.|ANCOVA|Receipt of prior chemotherapy for recurrent/metastatic disease and the baseline sum of longest distance for target lesions are covariates|Mean difference calculated is actually the adjusted mean difference.|||8.202|-11.188|0.7606
92144766|NCT00514943|184173978|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.942||||0.764|TWO_SIDED|95.0|0.64|1.387|||Regression, Cox||Hazard ratio, 95% CI and p-value are calculated from the Cox proportional hazards model stratified by the number of prior chemotherapies for R/M setting (0 or \>=1)|||1.387|0.640|0.764
92144767|NCT00514943|184173979|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.725||||0.219|TWO_SIDED|95.0|0.434|1.212|||Regression, Cox||Hazard ratio, 95% CI and p-value are calculated from the Cox proportional hazards model stratified by the number of prior chemotherapies for R/M setting (0 or \>=1)|||1.212|0.434|0.219
92294546|NCT00283842|184493563|SUPERIORITY_OR_OTHER|||||||0.375|||||||Hochberg|||Statistical analysis provided for 50mg.||||0.375
92294547|NCT00283842|184493563|SUPERIORITY_OR_OTHER|||||||0.342|||||||Hochberg|||Statistical analysis provided for 100mg.||||0.342
92294548|NCT00283842|184493563|SUPERIORITY_OR_OTHER|||||||0.342|||||||Hochberg|||Statistical analysis provided for 200mg.||||0.342
92294549|NCT00283842|184493563|SUPERIORITY_OR_OTHER|||||||0.375|||||||Hochberg|||Statistical analysis provided for 400mg.||||0.375
92294550|NCT00550147|184493564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.125|STANDARD_ERROR_OF_MEAN|0.1933|<|0.05|TWO_SIDED|95.0|-1.52|-0.72|||t-test, 2 sided|Paired t-test (comparing augmentation period start score with end score), 23 df. Value is Visit 10 score minus Visit 5 score (null hypothesis=0).|This was a comparison of pre-post change in a single group, with treatment administered open-label.|This was a repeated-measures analysis, using a single group of subjects who were administered quetiapine in addition to OROS mph. See Kronenberger et al. (2007, Journal of Child and Adolescent Psychopharmacology) for additional information.||-0.72|-1.52|<0.05
92294551|NCT00550147|184493565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.2056|<|0.05||95.0|-1.75|-0.91|||t-test, 2 sided|Paired t-test (comparing augmentation period start score with end score), 23 df. Value is Visit 10 score minus Visit 5 score (null hypothesis=0).|This was a comparison of pre-post change in a single group, with treatment administered open-label.|This was a repeated-measures analysis, using a single group of subjects who were administered quetiapine in addition to OROS mph. Results reported here are for the augmentation period (Visit 5-10). See Kronenberger et al. (2007, Journal of Child and Adolescent Psychopharmacology) for additional information.||-0.91|-1.75|<0.05
92294552|NCT00550147|184493566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.3|STANDARD_ERROR_OF_MEAN|13.06|<|0.05||95.0|-74.3|-20.2|||t-test, 2 sided|Paired t-test (comparing augmentation period start score with end score), 23 df. Value is Visit 10 score minus Visit 5 score (null hypothesis=0).|This was a comparison of pre-post change in a single group, with treatment administered open-label.|This was a repeated-measures analysis, using a single group of subjects who were administered quetiapine in addition to OROS mph. Results reported here are for the augmentation period (Visit 5-10). See Kronenberger et al. (2007, Journal of Child and Adolescent Psychopharmacology) for additional information.||-20.2|-74.3|<0.05
92294553|NCT00550147|184493567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.17|STANDARD_ERROR_OF_MEAN|1.39|<|0.05|TWO_SIDED|95.0|-7.04|-1.29|||t-test, 2 sided|Paired t-test (comparing augmentation period start score with end score), 23 df. Value is Visit 10 score minus Visit 5 score (null hypothesis=0).|This was a comparison of pre-post change in a single group, with treatment administered open-label.|This was a repeated-measures analysis, using a single group of subjects who were administered quetiapine in addition to OROS mph. Results reported here are for the augmentation period (Visit 5-10). See Kronenberger et al. (2007, Journal of Child and Adolescent Psychopharmacology) for additional information.||-1.29|-7.04|<0.05
92294554|NCT00550147|184493568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.29|STANDARD_ERROR_OF_MEAN|2.16|<|0.05||95.0|-17.76|-8.82|||t-test, 2 sided|Paired t-test (comparing augmentation period start score with end score), 23 df. Value is Visit 10 score minus Visit 5 score (null hypothesis=0).|This was a comparison of pre-post change in a single group, with treatment administered open-label.|This was a repeated-measures analysis, using a single group of subjects who were administered quetiapine in addition to OROS mph. Results reported here are for the augmentation period (Visit 5-10). See Kronenberger et al. (2007, Journal of Child and Adolescent Psychopharmacology) for additional information.||-8.82|-17.76|<0.05
92294555|NCT00715676|184493627|SUPERIORITY_OR_OTHER|||||||0.641||||||The Hochberg method was used to compare dose groups to placebo and control the Type 1 error rate.|ANOVA|||A sample size of 49 per treatment group was calculated to have at least 90% power to detect a 2% or greater increase over placebo assuming the following: (1) a standard deviation of the percent change of 2.75% (2) a dropout rate of 30%, and (3) one-sided 0.05 level of significance||||0.641
92144768|NCT00514943|184173980|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.067||||0.758|TWO_SIDED|95.0|0.708|1.608|||Regression, Cox||Hazard ratio, 95% CI and p-value are calculated from the Cox proportional hazards model stratified by the number of prior chemotherapies for R/M setting (0 or \>=1)|||1.608|0.708|0.758
92294556|NCT00715676|184493627|SUPERIORITY_OR_OTHER|||||||0.243||95.0||||The Hochberg method was used to compare dose groups to placebo and control the Type 1 error rate.|ANOVA|||A sample size of 49 per treatment group was calculated to have at least 90% power to detect a 2% or greater increase over placebo assuming the following: (1) a standard deviation of the percent change of 2.75% (2) a dropout rate of 30%, and (3) one-sided 0.05 level of significance||||0.243
92294557|NCT00715676|184493628|SUPERIORITY_OR_OTHER|||||||0.778||95.0|||||ANOVA|||||||0.778
92294558|NCT00715676|184493628|SUPERIORITY_OR_OTHER|||||||0.173||95.0|||||ANOVA|||||||0.173
92294559|NCT00715676|184493629|SUPERIORITY_OR_OTHER|||||||0.395||95.0|||||ANOVA|||||||0.395
92294560|NCT00715676|184493629|SUPERIORITY_OR_OTHER|||||||0.523||95.0|||||ANOVA|||||||0.523
92294561|NCT00715676|184493630|SUPERIORITY_OR_OTHER|||||||0.928||95.0|||||ANOVA|||||||0.928
92294562|NCT00715676|184493630|SUPERIORITY_OR_OTHER|||||||0.124||95.0|||||ANOVA|||||||0.124
92294563|NCT00715676|184493631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.173||||||90.0|0.164|0.181||||||||0.181|0.164|
92294564|NCT00715676|184493631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.582||||||90.0|0.573|0.591||||||||0.591|0.573|
92294565|NCT03828539|184493634|OTHER||Odds Ratio (OR)|0.19|||<|0.001|TWO_SIDED|95.0|0.13|0.27|||Regression, Logistic|Odds ratio is obtained from a logistic regression model that includes treatment group and stratification factor (MMD at baseline)||||0.27|0.13|<.001
92294566|NCT03828539|184493635|OTHER||Odds Ratio (OR)|2.76|||<|0.001|TWO_SIDED|95.0|2.06|3.71|||Regression, Logistic|Odds ratio is obtained from a logistic regression model that includes treatment group and stratification factor (MMD at baseline)||||3.71|2.06|<.001
92144769|NCT02298361|184173994|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76|||||TWO_SIDED|95.0|1.6|1.93|||Generalized estimating equation|GEE model clustered by clinic, adjusted for demographics, number of visits, new/established patient at first visit, and household factors.|Adjusted odds of gaining Medicaid: intervention patients (numerator) relative to within-clinic comparison patients (denominator)|||1.93|1.60|
92294567|NCT03828539|184493636|OTHER||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.7|3.12|||Regression, Logistic|Odds ratio is obtained from a logistic regression model that includes treatment group and stratification factor (MMD at baseline)||||3.12|1.70|<.001
92144770|NCT02298361|184173994|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.28|||||TWO_SIDED|95.0|1.91|2.72|||Generalized estimating equation|GEE model clustered by clinic, adjusted for demographics, number of visits, new/established patient at first visit, and household factors.|Adjusted odds of gaining Medicaid: intervention patients (numerator) relative to control clinic comparison patients (denominator)|||2.72|1.91|
92144771|NCT02298361|184173995|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.53|0.94|||Generalized estimating equation|GEE model clustered by clinic, adjusted for demographics, number of visits, new/established patient at first visit, and household factors.|Adjusted odds of losing Medicaid: intervention patients (numerator) relative to within-clinic comparison patients (denominator)|||0.94|0.53|
92294568|NCT03828539|184493637|OTHER||Odds Ratio (OR)|1.75|||<|0.001|TWO_SIDED|95.0|1.26|2.43|||Regression, Logistic|Odds ratio is obtained from a logistic regression model that includes treatment group and stratification factor (MMD at baseline)||Physical Component Summary (PCS)||2.43|1.26|<0.001
92294569|NCT03828539|184493637|OTHER||Odds Ratio (OR)|1.79||||0.005|TWO_SIDED|95.0|1.29|2.69|||Regression, Logistic|Odds ratio is obtained from a logistic regression model that includes treatment group and stratification factor (MMD at baseline)||Mental Component Summary (MCS)||2.69|1.29|0.005
92294570|NCT02224053|184493638|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geometric mean ratio|106.66|||||TWO_SIDED|90.0|100.26|113.46|||||AZD9291+omeprazole / AZD9291 alone|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being within 80% to 125% was 90% (95% for each parameter). Within subject CV assumed to be 23%. 5% change in exposure also assumed.||113.46|100.26|
92294571|NCT02224053|184493639|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geometric mean ratio|101.65|||||TWO_SIDED|90.0|94.65|109.16|||||AZD9291+omeprazole / AZD9291 alone|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being within 80% to 125% was 90% (95% for each parameter). Within subject CV assumed to be 23%. 5% change in exposure also assumed.||109.16|94.65|
92294572|NCT02224053|184493648|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geometric mean ratio|94.79|||||TWO_SIDED|90.0|88.77|101.21||||||AZ5104||101.21|88.77|
92294573|NCT02224053|184493648|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geomteric mean ratio|89.7|||||TWO_SIDED|90.0|83.89|95.91||||||AZ7550||95.91|83.89|
92294574|NCT02224053|184493649|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geometric mean ratio|102.32|||||TWO_SIDED|90.0|96.87|108.07|||||AZD9291+omeprazole / AZD9291 alone|AZ5104||108.07|96.87|
92294575|NCT02224053|184493649|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geometric mean ratio|94.03|||||TWO_SIDED|90.0|89.92|98.33||||||AZ7550||98.33|89.92|
92294576|NCT01898598|184493662|SUPERIORITY_OR_OTHER||Difference in Clinical Response Rates|-21.8|||||TWO_SIDED|95.0|-71.6|32.1||||||The 95 % confidence interval (CI) for the difference in response rates was computed using the exact unconditional confidence limits method.||32.1|-71.6|
92294577|NCT01898598|184493663|SUPERIORITY_OR_OTHER||Percentage Difference|-40.0|||||TWO_SIDED|95.0|-85.3|14.2||||||||14.2|-85.3|
92294578|NCT02033317|184493692|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.14|TWO_SIDED||||||paired t-test|||||||= 0.14
92294579|NCT02033317|184493693|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.02|TWO_SIDED||||||paired t-test|||||||= 0.02
92294580|NCT00608634|184493707|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.10
92294581|NCT00608634|184493707|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
92294582|NCT00608634|184493708|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92294583|NCT00593827|184493709|SUPERIORITY_OR_OTHER|||||||0.03|||||||Log Rank|||||||0.03
92294584|NCT00593827|184493710|SUPERIORITY_OR_OTHER|||||||0.05|||||||Log Rank|||||||0.05
92294585|NCT00593827|184493713|SUPERIORITY_OR_OTHER|||||||0.11|||||||Log Rank|||||||0.11
92294586|NCT04592419|184493738|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept among BRVO participants to be considered non-inferior is 4.5 ETDRS letters, i.e. the non-inferiority margin (NI) is 4.5 letters.|Adjusted mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.87||0.0004|TWO_SIDED|95.02|-3.11|0.3|||Mixed Models Analysis|MMRM model with treatment, visit, treatment × visit interaction, baseline BCVA, disease duration, and geographical location as covariates.||||0.30|-3.11|.0004
92294587|NCT04592419|184493739|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept among BRVO participants to be considered non-inferior is 4.5 ETDRS letters, i.e. the non-inferiority margin (NI) is 4.5 letters.|Adjusted mean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.9||0.0243|TWO_SIDED|95.02|-4.24|-0.71|||Mixed Models Analysis|MMRM model treatment, visit, treatment × visit interaction, RVO subtype, baseline BCVA, disease duration, and geographical location as covariates.||||-0.71|-4.24|.0243
92294588|NCT04254198|184493788|SUPERIORITY||Slope|0.231|STANDARD_ERROR_OF_MEAN|0.116||0.0473|TWO_SIDED|98.3|-0.0474|0.509||To adjust for multiplicity due to three primary outcomes, the p-value should be compared to a Bonferroni-corrected type-I error level of 0.05/3 = 0.017.|Mixed Models Analysis|Model is adjusted for cohort, site, marital status, and overall health status.|The beta coefficient (0.231) is for the treatment x time interaction effect on log-transformed CES-D scores. Delta method used for calculating confidence intervals for the Least Squares (LS) Mean changes over time per arm with cov=compound symmetry.|||0.509|-0.0474|0.0473
92294589|NCT04254198|184493789|SUPERIORITY||Slope|0.383|STANDARD_ERROR_OF_MEAN|0.14||0.0067|TWO_SIDED|98.3|0.0464|0.72||To adjust for multiplicity due to three primary outcomes, the p-value should be compared to a Bonferroni-corrected type-I error level of 0.05/3 = 0.017.|Mixed Models Analysis|Model is adjusted for cohort, site, overall health status and the interaction between cohort and site.|The beta coefficient (0.383) is for the treatment x time interaction effect on log-transformed CD-RISC scores. Delta method used for calculating confidence intervals for the LS Mean changes over time per arm with cov=compound symmetry.|||0.720|0.0464|0.0067
92294590|NCT04254198|184493790|SUPERIORITY||Slope|-0.747|STANDARD_ERROR_OF_MEAN|0.194||0.0002|TWO_SIDED|98.3|-1.215|-0.28||To adjust for multiplicity due to three primary outcomes, the p-value should be compared to a Bonferroni-corrected type-I error level of 0.05/3 = 0.017.|Mixed Models Analysis|Generalized linear mixed model with beta distribution, adjusted for cohort, site, overall health status and interaction between arm and cohort.|The beta coefficient (-0.747) is for the treatment x time interaction effect on MOS-SS scores on a logit scale. The CIs for the LS Mean changes over time per arm were estimated via the delta method and are reported on the original MOS-SS scale.|||-0.280|-1.215|0.0002
92294591|NCT04254198|184493791|SUPERIORITY||Slope|-0.913|STANDARD_ERROR_OF_MEAN|1.21||0.451|TWO_SIDED|95.0|-3.82|2.0||P-value not adjusted for multiple comparisons|Mixed Models Analysis|Model is adjusted for cohort and site.|The beta coefficient (-0.913) is for the treatment x time interaction effect on non-transformed PSS scores.|||2.00|-3.82|0.4510
92294592|NCT02152982|184493792|SUPERIORITY|||||||0.1673|||||||Log Rank|||||||0.1673
92294593|NCT02152982|184493793|OTHER|Interaction test|Cox Proportional Hazard|0.89||||0.6659|TWO_SIDED|95.0|0.53|1.5|||Type 3 likelihood-ratio p-value|||||1.50|0.53|0.6659
92294594|NCT02152982|184493794|SUPERIORITY||Stratified Cox Proportional Hazard|1.05||||0.3164|TWO_SIDED|95.0|0.86|1.29|||Stratified Log Rank|||||1.29|0.86|0.3164
92294595|NCT02152982|184493795|SUPERIORITY|||||||0.7018|||||||Chi-squared|||||||0.7018
92294596|NCT02152982|184493796|SUPERIORITY|||||||0.0003|||||||Chi-squared|||||||0.0003
92294597|NCT04968925|184493799|NON_INFERIORITY|A non-inferiority margin of 10% was used.|Odds Ratio (OR)|4.24|||||TWO_SIDED|95.0|0.8|22.54|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|Phase I was not powered to test for non-inferiority for any endpoints. The data collected from this Phase was used to estimate the sample size required to achieve the primary endpoints for Phase II of the study.||22.54|0.80|
92294598|NCT04968925|184493800|NON_INFERIORITY|A non-inferiority margin of 10% was used.|Odds Ratio (OR)|3.44|||||TWO_SIDED|95.0|1.16|10.16|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|Phase I was not powered to test for non-inferiority for any endpoints. The data collected from this Phase was used to estimate the sample size required to achieve the primary endpoints for Phase II of the study.||10.16|1.16|
92144772|NCT02298361|184173995|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.45|0.67|||Generalized estimating equation|GEE model clustered by clinic, adjusted for demographics, number of visits, new/established patient at first visit, and household factors.|Adjusted odds of losing Medicaid: intervention patients (numerator) relative to control clinic comparison patients (denominator)|||0.67|0.45|
92144773|NCT05072457|184173996|OTHER||||||<|0.05|||||||ANOVA|||"MANOVA analysis with independent variable being the intervention condition (type of microphone used) and dependent variable being the performance on lateralization task.~Null hypothesis: There will be no statistically significant difference in lateralization test scores between the Roger On and the Roger Select in the experimental group."||||<.05
92294599|NCT04968925|184493801|NON_INFERIORITY|A non-inferiority margin of 10% was used.|Odds Ratio (OR)|2.67|||||TWO_SIDED|95.0|1.05|6.76|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|Phase I was not powered to test for non-inferiority for any endpoints. The data collected from this Phase was used to estimate the sample size required to achieve the primary endpoints for Phase II of the study.||6.76|1.05|
92294600|NCT04968925|184493802|SUPERIORITY|"The Fallback Method was used to test primary hypotheses in Phase II. An alpha of 0.167 was allocated for each test. Every successful test passed the unused alpha to the next."|Odds Ratio (OR)|1.76|||||TWO_SIDED|98.33|1.09|2.83|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|It was calculated based on Phase I using Stroup's Method that 200 subjects were required to test superiority for each endpoint in Phase II.||2.83|1.09|
92294601|NCT04968925|184493803|SUPERIORITY|"The Fallback Method was used to test primary hypotheses in Phase II. An alpha of 0.167 was allocated for each test. Every successful test passed the unused alpha to the next."|Odds Ratio (OR)|1.52|||||TWO_SIDED|96.66|1.02|2.28|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|It was calculated based on Phase I using Stroup's Method that 200 subjects were required to test superiority for each endpoint in Phase II.||2.28|1.02|
92294602|NCT04968925|184493804|SUPERIORITY|"The Fallback Method was used to test primary hypotheses in Phase II. An alpha of 0.167 was allocated for each test. Every successful test passed the unused alpha to the next."|Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.77|2.03|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|It was calculated based on Phase I using Stroup's Method that 200 subjects were required to test superiority for each endpoint in Phase II.||2.03|0.77|
92294603|NCT00835796|184493813|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|94.2|109.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109|94.2|
92294604|NCT00835796|184493814|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.7||||||90.0|94.0|104.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104|94.0|
92294605|NCT00835796|184493815|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.8||||||90.0|94.5|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|94.5|
92294606|NCT00876265|184493816|NON_INFERIORITY_OR_EQUIVALENCE|If the 95% CI or the difference between LS mean (Belotero) and LS mean (Zyplast) lies entirely above -Δ, noninferiority of Belotero will be concluded (first step). If, in addition, the CI lies entirely above 0, superiority of Belotero over Zyplast will be concluded (second step).|Adjusted (LS) mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.139||0.733|TWO_SIDED|95.0|-0.228|0.323||Treatment term and all significant (p ≤ 0.10) covariate and covariate by treatment interactions will be retained in the final ANCOVA model. From the final ANCOVA model, adjusted (LS) means for Belotero and Zyplast was computed.|ANCOVA|||"The null, H0, and the alternative hypothesis, H1, are as follows:~H0(1): adjusted mean(dadj\[i\]) ≤ -Δ versus H1(1): adjusted mean(dadj\[i\]) \> -Δ H0(2): adjusted mean(dadj\[i\]) ≤ 0 versus H1(2): adjusted mean(dadj\[i\]) \> 0 The sample size calculation was based on the following assumptions: Type I error α = 0.025 (one sided); Power = 90%; Non-inferiority margin Δ = 0.25; Estimated common standard deviation (SD) = 0.75. Under these assumptions, a total of 100 evaluable subjects were needed."||0.323|-0.228|0.733
92294607|NCT02780167|184493891|OTHER||Estimate difference|1.8|STANDARD_ERROR_OF_MEAN|0.99||0.121|TWO_SIDED|95.0|-0.7|4.4|||Emax model|Emax model with non-responder imputation (NRI)|Test group: PF-04965842 10 mg QD, Reference group: Placebo.|||4.4|-0.7|0.1210
92294608|NCT02780167|184493891|OTHER||Estimate difference|6.0|STANDARD_ERROR_OF_MEAN|3.05||0.1065|TWO_SIDED|95.0|-1.8|13.8|||Emax model|Emax model with non-responder imputation (NRI)|Test group: PF-04965842 30 mg QD, Reference group: Placebo.|||13.8|-1.8|0.1065
92294609|NCT02780167|184493891|OTHER||Estimate difference|21.5|STANDARD_ERROR_OF_MEAN|6.25||0.0184|TWO_SIDED|95.0|5.5|37.6|||Emax model|Emax model with non-responder imputation (NRI)|Test group: PF-04965842 100 mg QD, Reference group: Placebo.|||37.6|5.5|0.0184
92294610|NCT02780167|184493891|OTHER||Mean Difference (Final Values)|38.2|STANDARD_ERROR_OF_MEAN|7.18||0.0032|TWO_SIDED|95.0|19.7|56.6|||Emax model|Emax model with non-responder imputation (NRI)|Test group: PF-04965842 200 mg QD, Reference group: Placebo.|||56.6|19.7|0.0032
92294611|NCT02780167|184493892|OTHER||LS mean difference|4.08|STANDARD_ERROR_OF_MEAN|9.667||0.6731|TWO_SIDED|90.0|-11.88|20.05|||Mixed Models Analysis|Mixed-effects model repeated measures (MMRM) with observed cases (OC)|Test group: PF-04965842 10 mg QD, Reference group: Placebo.|||20.05|-11.88|0.6731
92294612|NCT02780167|184493892|OTHER||LS mean difference|-5.52|STANDARD_ERROR_OF_MEAN|9.474||0.561|TWO_SIDED|90.0|-21.16|10.13|||Mixed Models Analysis|MMRM with OC|Test group: PF-04965842 30 mg QD, Reference group: Placebo.|||10.13|-21.16|0.5610
92294613|NCT02780167|184493892|OTHER||LS mean difference|-23.82|STANDARD_ERROR_OF_MEAN|9.043||0.0091|TWO_SIDED|90.0|-38.76|-8.88|||Mixed Models Analysis|MMRM with OC|Test group: PF-04965842 100 mg QD, Reference group: Placebo.|||-8.88|-38.76|0.0091
92294614|NCT02780167|184493892|OTHER||LS mean difference|-47.35|STANDARD_ERROR_OF_MEAN|9.008|<|0.0001|TWO_SIDED|90.0|-62.23|-32.47|||Mixed Models Analysis|MMRM with OC|Test group: PF-04965842 200 mg QD, Reference group: Placebo.|||-32.47|-62.23|<0.0001
92294615|NCT02003222|184493972|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.003|TWO_SIDED|95.0|0.25|0.76|||Log Rank||hazard ratio: blinatumomab + chemotherapy vs. chemotherapy alone|||0.76|0.25|0.003
92184821|NCT01029704|184268209|SUPERIORITY||Difference of LS Means|20.749||||0.0862|TWO_SIDED|95.0|-3.019|44.518||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||44.518|-3.019|0.0862
92294616|NCT02003222|184493973|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.015|TWO_SIDED|95.0|0.31|0.89|||Log Rank||hazard ratio: Blinatumomab + Chemotherapy vs. Chemotherapy alone|||0.89|0.31|0.015
92294617|NCT02003222|184493974|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.67|TWO_SIDED|95.0|0.22|2.65|||Log Rank|||||2.65|0.22|0.67
92294618|NCT02003222|184493975|SUPERIORITY||Hazard Ratio (HR)|1.0||||1|TWO_SIDED|95.0|0.28|3.63|||Log Rank|||||3.63|0.28|1.00
92294619|NCT02003222|184493976|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.41|TWO_SIDED|95.0|0.17|2.11|||Log Rank||hazard ratio: blinatumomab + chemotherapy vs. chemotherapy alone|||2.11|0.17|0.41
92294620|NCT03302078|184494030|OTHER||Geometric Mean (T/R) ratio (%)|102.63|||||TWO_SIDED|90.0|98.31|107.15|||||To get geometric mean ratio and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 5.5|The analysis of variance (ANOVA) model on a logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually only 12 subjects were analyzed.||107.15|98.31|
92294621|NCT03302078|184494031|OTHER||Geometric Mean (T/R) ratio (%)|79.08|||||TWO_SIDED|90.0|69.96|89.4|||||To get geometric mean ratio and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 16.0|The analysis of variance (ANOVA) model on a logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually only 12 subjects were analyzed.||89.40|69.96|
92294622|NCT03302078|184494032|OTHER||Geometric Mean (T/R) ratio (%)|102.44|||||TWO_SIDED|90.0|97.8|107.3|||||To get geometric mean ratio and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 5.9|The analysis of variance (ANOVA) model on a logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually only 12 subjects were analyzed.||107.30|97.80|
92294623|NCT01886872|184494033|SUPERIORITY||Hazard Ratio (HR)|0.39|||<|0.001|TWO_SIDED|95.0|0.26|0.58||(1-sided)|Log Rank|||Arm B (Ibrutinib) versus Arm A (Rituximab, Bendamustine Hydrochloride)||0.58|0.26|<0.001
92294624|NCT01886872|184494033|SUPERIORITY||Hazard Ratio (HR)|0.38|||<|0.001|TWO_SIDED|95.0|0.25|0.59||(1-sided)|Log Rank|||Arm C (Ibrutinib, Rituximab) versus Arm A (Rituximab, Bendamustine Hydrochloride)||0.59|0.25|<0.001
92294625|NCT01886872|184494033|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.49|TWO_SIDED|95.0|0.62|1.62||(1-sided)|Log Rank|||Arm C (Ibrutinib, Rituximab) versus Arm B (Ibrutinib)||1.62|0.62|0.49
92294626|NCT01957150|184494083|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of 95 % confidence interval (CI) for the overall treatment difference change from Baseline between FF/VI and VI was greater than -1 % year|Percentage Change from Baseline|-0.46|||||TWO_SIDED|95.0|-0.97|0.06|||||Treatment comparison for overall weeks|||0.06|-0.97|
92294627|NCT01957150|184494084|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of 95% CI for the overall treatment difference change from Baseline between FF/VI and VI was greater than -1 % year|Percentage Change from Baseline|-0.47|||||TWO_SIDED|95.0|-1.17|0.24|||||Overall Weeks for Male|||0.24|-1.17|
92294628|NCT01957150|184494085|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of 95% CI for the overall treatment difference change from Baseline between FF/VI and VI was greater than -1 % year|Percentage Change from Baseline|-0.4|||||TWO_SIDED|95.0|-1.16|0.36|||||Overall Weeks for female|||0.36|-1.16|
92294629|NCT01957150|184494086|OTHER||Percentage Change from Baseline|-1.02|||||TWO_SIDED|95.0|-1.9|-0.13|||||Overall Weeks for Male|||-0.13|-1.90|
92294630|NCT01957150|184494087|OTHER||Percentage Change from Baseline|-0.05|||||TWO_SIDED|95.0|-0.87|0.78|||||Overall Weeks for female|||0.78|-0.87|
92294631|NCT01957150|184494088|OTHER||Percentage Change from Baseline|-0.51|||||TWO_SIDED|95.0|-1.11|0.1|||||Overall week|||0.10|-1.11|
92294632|NCT01856192|184494089|SUPERIORITY|||||||0.03|||||||Log Rank|Stratified log rank test||||||0.03
92144774|NCT05072457|184173997|OTHER||||||>|0.05|||||||ANOVA|||Independent variable: intervention condition (type of microphone used), Dependent variable: performance on spatial hearing task. Null hypothesis: There will be no statistically significant difference in spatial hearing test scores between the Roger On and the Roger Select in the experimental group.||||>.05
92144775|NCT00605293|184174021|SUPERIORITY_OR_OTHER|||||||0.4778|||||||Fisher Exact|||||||0.4778
92144776|NCT03581981|184174027|SUPERIORITY|see statistical plan|Mean Difference (Final Values)|-3.6||||0.33|TWO_SIDED|95.0|-10.7|3.6|||Mixed Models Analysis|||||3.6|-10.7|0.33
92294633|NCT00098475|184494095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The low-dose response would be considered unacceptable if the difference in response rates was 15% or greater (the upper confidence limit exceeds the 15% acceptable difference) regardless of a decrease in toxicity rate.|Difference in response rate between arms|0.107|||||TWO_SIDED|80.0|0.052|0.162||||||The study was designed to determine if a reduced dose of dexamethasone in combination with CC-5013 reduced toxicity rate without reducing response rate. The standard-dose response was expected to be 70%. The low dose would be deemed unacceptable if the difference in response rate between arms was \>=15%. The null hypothesis was that response rates were equal and the alternative was that the low-dose response was no worse than 55%. The design had a 1-sided 0.10 type I error rate and 95% power.||0.162|0.052|
92294634|NCT01321177|184494127|SUPERIORITY|||||||0.0145|||||||Regression, Linear|||||||0.0145
92294635|NCT00936351|184494148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.21||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||.04
92294636|NCT01540045|184494151|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.013
92294637|NCT01540045|184494152|SUPERIORITY_OR_OTHER_LEGACY|||||||0.671|TWO_SIDED||||||t-test, 2 sided|||we evaluated body fat before and after 2 cycles of cisplatin/paclitaxel based chemotheprapy||||0.671
92294638|NCT01540045|184494152|SUPERIORITY_OR_OTHER_LEGACY|||||||0.694|TWO_SIDED||||||t-test, 2 sided|||we evaluated lean body mass before and after 2 cycles of cisplatin/paclitaxel based chemotheprapy||||0.694
92294639|NCT01540045|184494153|SUPERIORITY_OR_OTHER_LEGACY|||||||0.118|TWO_SIDED||||||t-test, 2 sided|||||||0.118
92144777|NCT03581981|184174028|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.89|TWO_SIDED||||||Mixed Models Analysis|||||||0.89
92294640|NCT01540045|184494154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.607|TWO_SIDED||||||McNemar|||Subjective global assessment (PG-SGA) was used to assess and classify patients as having severe or moderate malnourishment (B or C) or as being well nourished (A).||||0.607
92294641|NCT01540045|184494155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|TWO_SIDED||||||t-test, 2 sided|||protein consumption was estimated by questionnaire SNUT difference between ≥ Sweet perception thresholds compared to \< Sweet perception thresholds after chemotherapy||||0.015
92294642|NCT01540045|184494155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||animal protein consumption was estimated by questionnaire SNUT difference between ≥ Sweet perception thresholds vs \< Sweet perception thresholds after chemotherapy||||0.010
92294643|NCT01540045|184494155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||FAT consumption was estimated by questionnaire SNUT difference between ≥ Sweet perception thresholds vs \< Sweet perception thresholds after chemotherapy||||0.004
92294644|NCT01540045|184494157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.28
92294645|NCT01540045|184494158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.889|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change in status global of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.889
92294646|NCT01540045|184494158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.293|TWO_SIDED|||||clinically significant|Wilcoxon (Mann-Whitney)|||change in functional role of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.293
92294647|NCT01540045|184494158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change in emotional functioning of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.009
92294648|NCT01540045|184494158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.213|TWO_SIDED|||||clinically significant|Wilcoxon (Mann-Whitney)|||change in fatigue scale of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.213
92294649|NCT01540045|184494158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.595|TWO_SIDED|||||clinically significant|Wilcoxon (Mann-Whitney)|||change in appetite loss of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.595
92294650|NCT01540045|184494158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068|TWO_SIDED|||||clinically significant|Wilcoxon (Mann-Whitney)|||change in constipation scale of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.068
92294651|NCT01540045|184494159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92294652|NCT01540045|184494160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED|||||clinically significant|Wilcoxon (Mann-Whitney)|||change in peripheral neuropathy scale of quality of life between \> ó = compared to \< umami recognition threshold after chemotherapy by EORT questionnaire||||0.240
92294653|NCT01540045|184494161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change in status global of quality of life between \> ó = compared to \< umami recognition threshold after chemotherapy by EORT questionnaire||||0.036
92294654|NCT01540045|184494162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.312|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.312
92294655|NCT01540045|184494163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.608|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.608
92144778|NCT03581981|184174029|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.89|TWO_SIDED||||||Mixed Models Analysis|||||||0.89
92144779|NCT03581981|184174030|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.99|TWO_SIDED|95.0|-3.6|3.6|||Mixed Models Analysis|||||3.6|-3.6|0.99
92144780|NCT03581981|184174031|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.52|TWO_SIDED|95.0|-7.3|3.7|||Mixed Models Analysis|||||3.7|-7.3|0.52
92144781|NCT03581981|184174032|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.5|TWO_SIDED|95.0|-1.4|2.9|||Mixed Models Analysis|||||2.9|-1.4|0.50
92144782|NCT03581981|184174033|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED||||||Mixed Models Analysis|||||||0.99
92294656|NCT01540045|184494164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.035
92294657|NCT01540045|184494165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.402|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.402
92294658|NCT01540045|184494166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.109|TWO_SIDED||||||McNemar|||for the paired analysis of taste acuity, we used Mc Nemar test for dividing into high and low sensibility to umami, bitter and sweet tastes.||||0.109
92294659|NCT01540045|184494167|SUPERIORITY_OR_OTHER_LEGACY|||||||0.092|TWO_SIDED||||||McNemar|||for the paired analysis of taste acuity, we used Mc Nemar test for dividing into high and low sensibility to umami, bitter and sweet tastes.||||0.092
92294660|NCT01540045|184494168|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|TWO_SIDED||||||McNemar|||We divide dilutions in two groups and dichotomized the patients into high and low sensibility to bitter taste. (PERCEPTION)||||0.022
92294661|NCT02760433|184494173|SUPERIORITY||Risk Difference (RD)|0.19||||0.004|TWO_SIDED|97.5|0.03|0.337|||Chi-squared|2x2 chi-square test||The ACR20 response rate at Week 12 for the placebo group is estimated to be 20% in this study population. The OKZ ACR20 response rate for 64 mg q4w treatment group at Week 12 are expected to be at least 45%, resulting in an expected difference in ACR20 response rates of 25 percentage points between the respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis||0.337|0.030|0.004
92294662|NCT02760433|184494173|SUPERIORITY||Risk Difference (RD)|0.203||||0.0029|TWO_SIDED|97.5|0.038|0.353|||Chi-squared|2x2 chi-square test||The ACR20 response rate at Week 12 for the placebo group is estimated to be 20% in this study population .The OKZ ACR20 response rate for 64 mg q2w treatment group at Week 12 is expected to be at least 50%, resulting in an expected difference in ACR20 response rates of 30 percentage points between the respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis||0.353|0.038|0.0029
92294663|NCT02760433|184494174|SUPERIORITY||Risk Difference (RD)|0.176||||0.0021|TWO_SIDED|97.5|0.041|0.281|||Chi-squared|2x2 chi-square test||The DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 was estimated to be 5% in the placebo group and 18% and 21% in 64 mg q4w and q2w OKZ groups, respectively, resulting in an expected difference of 13 and 16 percentage points between respective OKZ groups and placebo.||0.281|0.041|0.0021
92144783|NCT03581981|184174034|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED||||||Mixed Models Analysis|||||||0.99
92144784|NCT03581981|184174035|SUPERIORITY||Mean Difference (Final Values)|1.45||||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||0.69
92144785|NCT03581981|184174036|SUPERIORITY||Mean Difference (Final Values)|1.45||||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||0.69
92184822|NCT03845517|184268211|SUPERIORITY||Risk Difference (RD)|-7.5||||0.8076|TWO_SIDED|95.0|-24.5|9.5||One sided p-value.|Cochran-Mantel-Haenszel|||||9.5|-24.5|0.8076
92294664|NCT02760433|184494174|SUPERIORITY||Risk Difference (RD)|0.283|||<|0.0001|TWO_SIDED|97.5|0.139|0.396|||Chi-squared|2x2 chi-square test||The DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 was estimated to be 5% in the placebo group and 18% and 21% in 64 mg q4w and q2w OKZ groups, respectively, resulting in an expected difference of 13 and 16 percentage points between respective OKZ groups and placebo.||0.396|0.139|<0.0001
92294665|NCT02760433|184494175|SUPERIORITY||Least Squares Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.081|=|0.1814|TWO_SIDED|97.5|-0.26|0.11||p-value was greater than the threshold p-value of 0.0125|ANCOVA|||||0.11|-0.26|=0.1814
92294666|NCT02760433|184494175|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.083|=|0.0227|TWO_SIDED|97.5|-0.35|0.02||p-value was greater than the threshold p-value of 0.0125|ANCOVA|||||0.02|-0.35|=0.0227
92294667|NCT02760433|184494176|SUPERIORITY||Risk Difference (RD)|0.164|||||TWO_SIDED|97.5|0.02|0.278||Due to the hierarchical nature of pre-planned statistical testing (gate-keeping strategy) a formal statement could not be made||||||0.278|0.020|
92294668|NCT02760433|184494176|SUPERIORITY||Risk Difference (RD)|0.174|||||TWO_SIDED|97.5|0.027|0.294||Due to the hierarchical nature of pre-planned statistical testing (gate-keeping strategy) a formal statement could not be made||||||0.294|0.027|
92294669|NCT02760433|184494177|SUPERIORITY||Risk Difference (RD)|0.031|||||TWO_SIDED|97.5|-0.052|0.083||Due to the hierarchical nature of pre-planned statistical testing (gate-keeping strategy) a formal statement could not be made|||means continuity correction applied because expected cell counts \< 5|||0.083|-0.052|
92294670|NCT02760433|184494177|SUPERIORITY||Risk Difference (RD)|0.065|||||TWO_SIDED|97.5|-0.023|0.134||Due to the hierarchical nature of pre-planned statistical testing (gate-keeping strategy) a formal statement could not be made|||means continuity correction applied because expected cell counts \< 5|||0.134|-0.023|
92294671|NCT02151149|184494178|SUPERIORITY||Risk Ratio (RR)|1.01||||0.9258|TWO_SIDED|95.0|0.84|1.21|||Cochran-Mantel-Haenszel|Based on stratification factors of ECOG PS at screening (0 vs. 1) and histology (squamous cell carcinoma vs. non-squamous cell carcinoma).||||1.21|0.84|0.9258
92294672|NCT02151149|184494185|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.0036|TWO_SIDED|95.0|0.33|0.81|||Stratified Log Rank|Based on stratification factors of ECOG PS at screening (0 vs. 1) and histology (squamous cell carcinoma vs. non-squamous cell carcinoma).||||0.81|0.33|0.0036
92294673|NCT02151149|184494186|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.3537|TWO_SIDED|95.0|0.54|1.25|||Stratified log-rank test|Based on stratification factors of ECOG PS at screening (0 vs. 1) and histology (squamous cell carcinoma vs. non-squamous cell carcinoma).||||1.25|0.54|0.3537
92294674|NCT02151149|184494187|SUPERIORITY||Risk Ratio (RR)|1.56||||0.0597|TWO_SIDED|95.0|0.971|2.511|||Cochran-Mantel-Haenszel|Based on stratification factors of ECOG PS at screening (0 vs. 1) and histology (squamous cell carcinoma vs. non-squamous cell carcinoma)..||||2.511|0.971|0.0597
92294675|NCT01499160|184494207|OTHER|Not done due to low accrual||||||||||||Not done due to low accrual|Not done due to low accrual|Not done due to low accrual||Not done due to low accrual|Not done due to low accrual|||
92294676|NCT02911935|184494216|SUPERIORITY||Hazard Ratio (HR)|1.49||||0.08|TWO_SIDED|95.0|0.95|2.34||unadjusted P-value. The threshold for statistical significance was p = 0.05|Log Rank|||The primary analysis tested the statistical null hypothesis of equal recurrent wheeze rates between the azithromycin and placebo groups.||2.34|0.95|0.08
92294677|NCT02911935|184494216|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.11|TWO_SIDED|95.0|0.92|2.29||p-value is adjusted for race, parental history of asthma, ever exposed to smoke and ever exposed to pets. The threshold for statistical significance was p = 0.05|Regression, Cox|||||2.29|0.92|0.11
92294678|NCT02911935|184494217|SUPERIORITY||Hazard Ratio (HR)|1.95||||0.12|TWO_SIDED|95.0|0.83|4.61||Unadjusted. The threshold for statistical significance was p = 0.05|Log Rank|||||4.61|0.83|0.12
92184823|NCT03845517|184268211|SUPERIORITY||Risk Difference (RD)|5.2||||0.2189|TWO_SIDED|95.0|-7.9|18.3||One sided p-value.|Cochran-Mantel-Haenszel|||||18.3|-7.9|0.2189
92144786|NCT03581981|184174037|SUPERIORITY||Mean Difference (Final Values)|2.87||||0.41|TWO_SIDED||||||Mixed Models Analysis|||||||0.41
92144787|NCT03581981|184174038|SUPERIORITY||Mean Difference (Final Values)|2.87||||0.41|TWO_SIDED||||||Mixed Models Analysis|||||||0.41
92294679|NCT02911935|184494218|SUPERIORITY||Rate Ratio|1.18||||0.31|TWO_SIDED|95.0|0.86|1.62||Unadjusted. The threshold for statistical significance was p = 0.05|Negative Binomial Regression Analysis|||||1.62|0.86|0.31
92294680|NCT02911935|184494219|SUPERIORITY||Rate Ratio|1.22||||0.57|TWO_SIDED|95.0|0.6|2.48||Unadjusted. The threshold for statistical significance was p = 0.05|Negative Binomial Regression Analysis|||||2.48|0.6|0.57
92294681|NCT02911935|184494220|SUPERIORITY||Rate Ratio|1.34||||0.38|TWO_SIDED|95.0|0.7|2.57||unadjusted P-value. The threshold for statistical significance was p = 0.05|Negative Binomial Regression Analysis|||||2.57|0.70|0.38
92294682|NCT02911935|184494221|SUPERIORITY||Rate Ratio|0.92||||0.56|TWO_SIDED|95.0|0.7|1.22||Unadjusted. The threshold for statistical significance was p = 0.05|Negative Binomial Regression Analysis|||||1.22|0.7|0.56
92294683|NCT04979858|184494250|OTHER|The statistical analysis involved the use of a single-factor ANOVA test to assess the importance of the various factors associated with the design of the Focal Mask (the Treatment) that would impact its performance in reducing the spread of COVID-19, which is caused by the SARS-CoV-2 virus. The Bonferroni t-test was conducted post hoc to assess the statistical significance of the various factors.|||||<|0.01|||||||ANOVA|||||||<0.01
92294684|NCT03259789|184494279|SUPERIORITY||Difference of LS Means|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.32|||Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||||-0.32|-0.74|< 0.0001
92294685|NCT03259789|184494281|SUPERIORITY||Difference of LS Means|-1.35|||<|0.0001|TWO_SIDED|95.0|-1.83|-0.86|||Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||||-0.86|-1.83|< 0.0001
92294686|NCT03259789|184494283|SUPERIORITY||Difference of LS Means|-7.07|||<|0.0001|TWO_SIDED|95.0|-9.83|-4.32|||Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||||-4.32|-9.83|< 0.0001
92294687|NCT03259789|184494284|SUPERIORITY||Odds Ratio (OR)|4.69||||0.0014|TWO_SIDED|95.0|1.7|12.95||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates|The odds ratios of bexagliflozin group over the placebo group at each visit will be estimated from LS means based on the model with the corresponding p-values and their two-sided 95% CIs presented.|Odds ratio at Week 6 was calculated as the odds ratio of bexagliflozin group over placebo group.||12.95|1.70|0.0014
92294688|NCT03259789|184494284|SUPERIORITY||Odds Ratio (OR)|4.18||||0.0001|TWO_SIDED|95.0|1.96|8.92||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates|The odds ratios of bexagliflozin group over the placebo group at each visit will be estimated from LS means based on the model with the corresponding p-values and their two-sided 95% CIs presented.|Odds ratio at Week 12 was calculated as the odds ratio of bexagliflozin group over placebo group.||8.92|1.96|0.0001
92294689|NCT03259789|184494284|SUPERIORITY||Odds Ratio (OR)|2.57||||0.003|TWO_SIDED|95.0|1.31|5.04||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates|The odds ratios of bexagliflozin group over the placebo group at each visit will be estimated from LS means based on the model with the corresponding p-values and their two-sided 95% CIs presented.|Odds ratio at Week 18 was calculated as the odds ratio of bexagliflozin group over placebo group.||5.04|1.31|0.0030
92294690|NCT03259789|184494284|SUPERIORITY||Odds Ratio (OR)|3.88|||<|0.0001|TWO_SIDED|95.0|1.99|7.58||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates|The odds ratios of bexagliflozin group over the placebo group at each visit will be estimated from LS means based on the model with the corresponding p-values and their two-sided 95% CIs presented.|Odds ratio at Week 24 was calculated as the odds ratio of bexagliflozin group over placebo group.||7.58|1.99|< 0.0001
92294691|NCT03259789|184494286|SUPERIORITY||Difference of LS Means|-2.51|||<|0.0001|TWO_SIDED|95.0|-3.45|-1.57|||ANCOVA|ANCOVA analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||||-1.57|-3.45|< 0.0001
92294692|NCT03259789|184494288|SUPERIORITY||Difference of LS Means|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.38||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||Model-adjusted change from baseline at week 6 was calculated as the difference in LS Mean between bexagliflozin group and placebo group.||-0.38|-0.74|< 0.0001
92294693|NCT03259789|184494288|SUPERIORITY||Difference of LS Means|-0.66|||<|0.0001|TWO_SIDED|95.0|-0.86|-0.46||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||Model-adjusted change from baseline at week 12 was calculated as the difference in LS Mean between bexagliflozin group and placebo group.||-0.46|-0.86|< 0.0001
92294694|NCT03259789|184494288|SUPERIORITY||Difference of LS Means|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.69|-0.3||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||Model-adjusted change from baseline at week 18 was calculated as the difference in LS Mean between bexagliflozin group and placebo group.||-0.30|-0.69|< 0.0001
92294695|NCT03259789|184494288|SUPERIORITY||Difference of LS Means|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.32||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||Model-adjusted change from baseline at week 24 was calculated as the difference in LS Mean between bexagliflozin group and placebo group.||-0.32|-0.74|< 0.0001
92294696|NCT02063217|184494290|SUPERIORITY|Mixed linear models|Mean Difference (Net)|17.0||||0.07|TWO_SIDED|||||Bonferroni correction was used for multiple comparisons.|Mixed Models Analysis||Mean (standard error), units = %. 17(7.2) increase in overnight amyloid-beta 40 concentrations over waking baseline between the sleep deprivation group and controls.|Mixed linear modeling of change in overnight amyloid beta concentrations from waking baseline between 01:00 and 11:00. Data provided for amyloid beta-40.||||0.07
92294697|NCT02063217|184494290|SUPERIORITY|Mixed linear models|Mean Difference (Net)|7.0||||1|TWO_SIDED|||||Bonferroni correction was used for multiple comparisons.|Mixed Models Analysis||Mean= 7%, standard error = 7.6%. 7% increase in overnight amyloid beta 40 concentrations over the waking baseline between the sleep induction group and control group.|Mixed linear modeling of change in overnight amyloid beta concentrations from waking baseline between 01:00 and 11:00. Data provided for amyloid beta-40.||||1.0
92294698|NCT04291508|184494310|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.65|TWO_SIDED|95.0|-1.6|2.5|||t-test, 2 sided|||||2.5|-1.6|0.65
92294699|NCT04291508|184494310|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.464|TWO_SIDED|95.0|-3.5|7.6|||t-test, 2 sided|||||7.6|-3.5|0.464
92294700|NCT04291508|184494311|SUPERIORITY||Risk Difference (RD)|-4.3||||0.26|TWO_SIDED|95.0|-12.0|3.3|||Chi-squared|||||3.3|-12.0|0.26
92184824|NCT03845517|184268211|SUPERIORITY||Risk Difference (RD)|1.7||||0.401|TWO_SIDED|95.0|-11.8|15.3||One sided p-value.|Cochran-Mantel-Haenszel|||||15.3|-11.8|0.4010
92294701|NCT04291508|184494311|SUPERIORITY||Risk Difference (RD)|-13.6||||0.31|TWO_SIDED|95.0|-35.8|8.7|||Fisher Exact|||||8.7|-35.8|0.31
92294702|NCT04291508|184494312|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.35|TWO_SIDED|95.0|-1.0|2.9|||t-test, 2 sided|||||2.9|-1.0|0.35
92294703|NCT04291508|184494312|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.45|TWO_SIDED|95.0|-3.4|7.6|||t-test, 2 sided|||||7.6|-3.4|0.45
92294704|NCT04291508|184494313|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.83|TWO_SIDED|95.0|-1.9|1.5|||t-test, 2 sided|||||1.5|-1.9|0.83
92184825|NCT03845517|184268212|SUPERIORITY||Risk Difference (RD)|-2.1||||0.595|TWO_SIDED|95.0|-19.1|14.9||One sided p-value.|Cochran-Mantel-Haenszel|||||14.9|-19.1|0.5950
92184826|NCT03845517|184268212|SUPERIORITY||Risk Difference (RD)|8.6||||0.1125|TWO_SIDED|95.0|-5.3|22.6||One sided p-value.|Cochran-Mantel-Haenszel|||||22.6|-5.3|0.1125
92184827|NCT03845517|184268212|SUPERIORITY||Risk Difference (RD)|9.6||||0.0891|TWO_SIDED|95.0|-4.4|23.6||One sided p-value.|Cochran-Mantel-Haenszel|||||23.6|-4.4|0.0891
92184828|NCT01109979|184268233|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.04
92184829|NCT02580799|184268235|SUPERIORITY_OR_OTHER||||||=|0.137|TWO_SIDED||||||Chi-squared|||Site A: Site B variability assessment||||=0.137
92184830|NCT02580799|184268235|SUPERIORITY_OR_OTHER||||||=|0.454|TWO_SIDED||||||Chi-squared|||Site A: Site C variability assessment||||=0.454
92184831|NCT02580799|184268235|SUPERIORITY_OR_OTHER||||||=|0.211|TWO_SIDED||||||Chi-squared|||Site A: Site D variability assessment||||=0.211
92184832|NCT02580799|184268235|SUPERIORITY_OR_OTHER||||||=|0.294|TWO_SIDED||||||Chi-squared|||Site A: Site E variability assessment||||=0.294
92184833|NCT02580799|184268237|SUPERIORITY_OR_OTHER||||||=|0.054|TWO_SIDED||||||Chi-squared|||Site B: Site C variability assessment||||=0.054
92184834|NCT02580799|184268237|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Chi-squared|||Site B: Site D variability assessment||||=1.000
92184835|NCT02580799|184268237|SUPERIORITY_OR_OTHER||||||=|0.968|TWO_SIDED||||||Chi-squared|||Site B: Site E variability assessment||||=0.968
92184836|NCT02580799|184268250|SUPERIORITY_OR_OTHER||||||=|0.246|TWO_SIDED||||||Chi-squared|||Site C: Site D variability assessment||||=0.246
92184837|NCT02580799|184268250|SUPERIORITY_OR_OTHER||||||=|0.032|TWO_SIDED||||||Chi-squared|||Site C: Site E variability assessment||||=0.032
92184838|NCT02580799|184268250|SUPERIORITY_OR_OTHER||||||=|0.007|TWO_SIDED||||||Chi-squared|||Site D: Site E variability assessment||||=0.007
92184839|NCT02580799|184268252|SUPERIORITY_OR_OTHER||||||=|0.988|TWO_SIDED||||||Chi-squared|||Abroad: Site A variability assessment||||=0.988
92184840|NCT02580799|184268252|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||Chi-squared|||Abroad: Site B variability assessment||||=0.008
92184841|NCT02580799|184268252|SUPERIORITY_OR_OTHER||||||=|0.031|TWO_SIDED||||||Chi-squared|||Abroad: Site C variability assessment||||=0.031
92184842|NCT02580799|184268252|SUPERIORITY_OR_OTHER||||||=|0.554|TWO_SIDED||||||Chi-squared|||Abroad: Site D variability assessment||||=0.554
92184843|NCT02580799|184268252|SUPERIORITY_OR_OTHER||||||=|0.709|TWO_SIDED||||||Chi-squared|||Abroad: Site E variability assessment||||=0.709
92184844|NCT03136861|184268257|SUPERIORITY||Odds Ratio (OR)|1.89||||0.0264|TWO_SIDED|95.0|1.08|3.33|||Regression, Logistic|Logistic regression model: logit (proportion) = treatment + stratification factor of prior exposure to TNF inhibitors (i.e. TNF-naïve or TNFα-IR).||Average Spinal Pain Score \<4 at Week 8||3.33|1.08|0.0264
92184845|NCT03136861|184268257|SUPERIORITY||Odds Ratio (OR)|1.72||||0.072|TWO_SIDED|95.0|0.95|3.1|||Regression, Logistic|Logistic regression model: logit (proportion) = treatment + stratification factor of prior exposure to TNF inhibitors (i.e. TNF-naïve or TNFα-IR)||Total Spinal Pain Score \<4 at Week 8||3.10|0.95|0.0720
92294705|NCT04291508|184494313|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.1|TWO_SIDED|95.0|-0.8|8.9|||t-test, 2 sided|||||8.9|-0.8|0.10
92184846|NCT03136861|184268257|SUPERIORITY||Odds Ratio (OR)|2.38||||0.0043|TWO_SIDED|95.0|1.31|4.31|||Regression, Logistic|Logistic regression model: logit (proportion) = treatment + stratification factor of prior exposure to TNF inhibitors (i.e. TNF-naïve or TNFα-IR)||Nocturnal Spinal Pain Score||4.31|1.31|0.0043
92184847|NCT03136861|184268258|SUPERIORITY||Odds Ratio (OR)|1.75||||0.0466|TWO_SIDED|95.0|1.01|3.04|||Regression, Logistic|Logistic regression model: logit (proportion) = treatment + stratification factor of prior exposure to TNF inhibitors (i.e. TNF-naïve or TNFα-IR).||BASDAI Score \<4 at Week 8||3.04|1.01|0.0466
92184848|NCT01934452|184268276|SUPERIORITY||Hodges Lehmann estimator|2.8|||<|0.001|TWO_SIDED|95.0|2.2|3.8|||Wilcoxon (Mann-Whitney)|||||3.8|2.2|<0.001
92184849|NCT01934452|184268277|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
92184850|NCT01934452|184268278|SUPERIORITY|||||||1|||||||Fisher Exact|||Extended or partial nephrectomy||||1.000
92184851|NCT01934452|184268278|SUPERIORITY|||||||0.809|||||||Chi-squared|||Nephrectomy with or without adrenalectomy||||0.809
92184852|NCT01934452|184268278|SUPERIORITY|||||||0.019|||||||Chi-squared|||Nephrectomy with or without curettage||||0.019
92184853|NCT01934452|184268278|SUPERIORITY|||||||0.734|||||||Fisher Exact|||Open or laparoscopic nephrectomy||||0.734
92184854|NCT01934452|184268279|SUPERIORITY||Hodges Lehmann estimator|-3.7||||0.23|TWO_SIDED|95.0|-13.2|1.6|||Wilcoxon (Mann-Whitney)|||||1.6|-13.2|0.230
92184855|NCT01934452|184268280|SUPERIORITY|||||||0.695|||||||Fisher Exact|||Sarcomatoid contingent||||0.695
92184856|NCT01934452|184268281|SUPERIORITY|||||||0.316|||||||Chi-squared|||M class||||0.316
92184857|NCT01934452|184268282|SUPERIORITY||Hodges Lehmann estimator|-2.0||||0.778|TWO_SIDED|95.0|-22.0|18.0|||Wilcoxon (Mann-Whitney)|||||18.0|-22.0|0.778
92184858|NCT01934452|184268283|SUPERIORITY|||||||0.812|||||||Fisher Exact|||||||0.812
92184859|NCT01934452|184268284|SUPERIORITY||Odds Ratio (OR)|2.47||||0.077|TWO_SIDED|95.0|0.9|6.77|||Chi-squared|||Presence of necrosis||6.77|0.90|0.077
92184860|NCT01934452|184268284|SUPERIORITY||Odds Ratio (OR)|1.25||||0.673|TWO_SIDED|95.0|0.44|3.52|||Chi-squared|||Vascular embolism||3.52|0.44|0.673
92184861|NCT01934452|184268284|SUPERIORITY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.27|3.97|||Fisher Exact|||Sarcomatoid component||3.97|0.27|1.000
92184862|NCT01934452|184268285|SUPERIORITY||Hodges Lehmann estimator|-0.2||||0.865|TWO_SIDED|95.0|-1.5|1.6|||Wilcoxon (Mann-Whitney)|||||1.6|-1.5|0.865
92184863|NCT01934452|184268286|SUPERIORITY|||||||0.011|||||||Chi-squared|||Lung||||0.011
92184864|NCT01934452|184268286|SUPERIORITY|||||||0.132|||||||Chi-squared|||Bones||||0.132
92184865|NCT01934452|184268286|SUPERIORITY|||||||0.473|||||||Chi-squared|||Liver||||0.473
92184866|NCT01934452|184268286|SUPERIORITY|||||||0.101|||||||Fisher Exact|||Adrenal glands||||0.101
92184867|NCT01934452|184268286|SUPERIORITY|||||||0.445|||||||Fisher Exact|||Pancreas||||0.445
92294706|NCT04291508|184494314|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.55|TWO_SIDED|95.0|-1.2|2.4|||t-test, 2 sided|||||2.4|-1.2|0.55
92294707|NCT04291508|184494314|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.18|TWO_SIDED|95.0|-1.6|8.7|||t-test, 2 sided|||||8.7|-1.6|0.18
92144788|NCT00781391|184174039|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary|Hazard Ratio (HR)|0.79|||<|0.0001|TWO_SIDED|97.5|0.632|0.985||Two stratification factor covariates: 1) CHADS2 score 2) dose-adjustment factor. If upper limit of CI of HR was below 1.38, then non-inferiority to warfarin was established for group.|Cox proportional hazards model|||The primary efficacy endpoint, time to the first occurrence of stroke/SEE, was first compared concurrently between each of the 2 edoxaban groups and warfarin group using the mITT Analysis Set in the on-treatment period for non-inferiority. In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively.||.985|.632|<.0001
92294708|NCT04291508|184494315|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.21|TWO_SIDED|95.0|-0.8|3.6|||t-test, 2 sided|||||3.6|-0.8|0.21
92294709|NCT04291508|184494315|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.4|TWO_SIDED|95.0|-3.4|8.5|||t-test, 2 sided|||||8.5|-3.4|0.40
92294710|NCT04291508|184494316|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.23|TWO_SIDED|95.0|-0.8|3.4|||t-test, 2 sided|||||3.4|-0.8|0.23
92294711|NCT04291508|184494316|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.22|TWO_SIDED|95.0|-2.2|9.4|||t-test, 2 sided|||||9.4|-2.2|0.22
92294712|NCT04291508|184494317|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.58|TWO_SIDED|95.0|-1.6|2.8|||t-test, 2 sided|||||2.8|-1.6|0.58
92294713|NCT04291508|184494317|SUPERIORITY||Mean Difference (Final Values)|4.5||||0.13|TWO_SIDED|95.0|-1.4|10.5|||t-test, 2 sided|||||10.5|-1.4|0.13
92294714|NCT04291508|184494318|SUPERIORITY||Risk Difference (RD)|-4.3||||0.26|TWO_SIDED|95.0|-11.8|3.2|||Chi-squared|||||3.2|-11.8|0.26
92294715|NCT04291508|184494318|SUPERIORITY||Risk Difference (RD)|-13.6||||0.31|TWO_SIDED|95.0|-35.8|8.7|||Fisher Exact|||||8.7|-35.8|0.31
92294716|NCT04291508|184494319|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.76|TWO_SIDED|95.0|-1.6|2.2|||t-test, 2 sided|||||2.2|-1.6|0.76
92294717|NCT04291508|184494319|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.78|TWO_SIDED|95.0|-4.9|6.5|||t-test, 2 sided|||||6.5|-4.9|0.78
92144789|NCT00781391|184174039|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary|Hazard Ratio (HR)|1.07||||0.0055|TWO_SIDED|97.5|0.874|1.314||Two stratification factor covariates: 1) CHADS2 score 2) dose-adjustment factor. If upper limit of CI of HR was below 1.38, then non-inferiority to warfarin was established for group.|Cox proportional hazards model|||The primary efficacy endpoint, time to the first occurrence of stroke/SEE, was first compared concurrently between each of the 2 edoxaban groups and warfarin group using the mITT Analysis Set in the on-treatment period for non-inferiority. In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively.||1.314|.874|.0055
92184868|NCT01934452|184268286|SUPERIORITY|||||||0.04|||||||Chi-squared|||Lymph nodes||||0.040
92184869|NCT01934452|184268287|SUPERIORITY|||||||1|||||||Fisher Exact|||Supradiaphragmatic||||1.000
92184870|NCT01934452|184268287|SUPERIORITY|||||||0.295|||||||Fisher Exact|||Infradiaphragmatic||||0.295
92184871|NCT01934452|184268288|SUPERIORITY|||||||0.042|||||||Fisher Exact|||||||0.042
92294718|NCT04291508|184494320|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.84|TWO_SIDED|95.0|-2.3|1.9|||t-test, 2 sided|||||1.9|-2.3|0.84
92294719|NCT04291508|184494320|SUPERIORITY||Mean Difference (Final Values)|4.5||||0.1|TWO_SIDED|95.0|-0.9|10.0|||t-test, 2 sided|||||10.0|-0.9|0.10
92294720|NCT04291508|184494321|SUPERIORITY||Risk Difference (RD)|-1.3||||0.79|TWO_SIDED|95.0|-10.9|8.3|||Chi-squared|||||8.3|-10.9|0.79
92294721|NCT04291508|184494321|SUPERIORITY||Risk Difference (RD)|4.9||||1|TWO_SIDED|95.0|-17.5|27.3|||Fisher Exact|||||27.3|-17.5|1.00
92294722|NCT04291508|184494322|SUPERIORITY||Risk Difference (RD)|1.7||||0.53|TWO_SIDED|95.0|-3.7|7.2|||Chi-squared|||||7.2|-3.7|0.53
92294723|NCT04291508|184494322|SUPERIORITY||Risk Difference (RD)|-2.0||||1|TWO_SIDED|95.0|-17.0|13.0|||Fisher Exact|||||13.0|-17.0|1.00
92294724|NCT04291508|184494323|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.7|TWO_SIDED|95.0|-0.9|0.6|||t-test, 2 sided|||||0.6|-0.9|0.70
92294725|NCT04291508|184494323|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.96|TWO_SIDED|95.0|-2.7|2.5|||t-test, 2 sided|||||2.5|-2.7|0.96
92294726|NCT04291508|184494324|SUPERIORITY||Risk Difference (RD)|2.5||||1|TWO_SIDED|95.0|-2.3|7.3|||Fisher Exact|||||7.3|-2.3|1.00
92294727|NCT04291508|184494325|SUPERIORITY||Risk Difference (RD)|-4.4||||0.31|TWO_SIDED|95.0|-13.1|4.2|||Chi-squared|||||4.2|-13.1|0.31
92294728|NCT04291508|184494325|SUPERIORITY||Risk Difference (RD)|-27.9||||0.02|TWO_SIDED|95.0|-51.7|-4.0|||Chi-squared|||||-4.0|-51.7|0.02
92294729|NCT04291508|184494326|SUPERIORITY||Risk Difference (RD)|-0.5||||0.9|TWO_SIDED|95.0|-8.5|7.5|||Chi-squared|||||7.5|-8.5|0.90
92294730|NCT04291508|184494326|SUPERIORITY||Risk Difference (RD)|-27.9||||0.02|TWO_SIDED|95.0|-51.7|-4.0|||Chi-squared|||||-4.0|-51.7|0.02
92294731|NCT04291508|184494327|SUPERIORITY||Risk Difference (RD)|-7.3||||0.003|TWO_SIDED|95.0|-12.2|-2.4|||Chi-squared|||||-2.4|-12.2|0.003
92294732|NCT04291508|184494327|SUPERIORITY||Risk Difference (RD)|6.7||||0.52|TWO_SIDED|95.0|-2.3|15.6|||Fisher Exact|||||15.6|-2.3|0.52
92294733|NCT04291508|184494328|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.68|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|||||0.2|-0.2|0.68
92294734|NCT04291508|184494328|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.62|TWO_SIDED|95.0|-0.7|0.4|||Fisher Exact|||||0.4|-0.7|0.62
92294735|NCT04291508|184494329|SUPERIORITY||Risk Difference (RD)|0.5||||0.9|TWO_SIDED|95.0|-7.8|8.8|||Chi-squared|||||8.8|-7.8|0.90
92294736|NCT04291508|184494329|SUPERIORITY||Risk Difference (RD)|-15.6||||0.2|TWO_SIDED|95.0|-40.1|8.9|||Chi-squared|||||8.9|-40.1|0.2
92294737|NCT04291508|184494330|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.88|TWO_SIDED|95.0|-1.1|1.3|||t-test, 2 sided|||||1.3|-1.1|0.88
92294738|NCT04291508|184494330|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.1|TWO_SIDED|95.0|-0.6|6.6|||t-test, 2 sided|||||6.6|-0.6|0.10
92184872|NCT01934452|184268289|SUPERIORITY|||||||0.027|||||||Chi-squared|||||||0.027
92184873|NCT01934452|184268290|SUPERIORITY||Hodges Lehmann estimator|-1.0|||<|0.001|TWO_SIDED|95.0|-1.0|-1.0|||Wilcoxon (Mann-Whitney)|||||-1.0|-1.0|<0.001
92144790|NCT00781391|184174040|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of this CI of the hazard ratio was below 1.38, then non-inferiority to warfarin was considered established for the edoxaban treatment group.|Hazard Ratio (HR)|0.86|||<|0.0001|TWO_SIDED|97.5|0.719|1.029|||Cox proportional hazards model|||Non-inferiority or equivalence analysis; Non-inferiority analysis. The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary.||1.029|.719|<.0001
92144791|NCT00781391|184174040|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of this CI of the hazard ratio was below 1.38, then non-inferiority to warfarin was considered established for the edoxaban treatment group.|Hazard Ratio (HR)|1.13||||0.0074|TWO_SIDED|97.5|0.955|1.336|||Cox proportional hazards model|||Non-inferiority or equivalence analysis; Non-inferiority analysis. The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary.||1.336|.955|.0074
92144792|NCT00781391|184174041|NON_INFERIORITY_OR_EQUIVALENCE|The primary efficacy endpoint, time to the first occurrence of stroke/SEE, was first compared concurrently between each of the 2 edoxaban groups and warfarin group using the mITT Analysis Set in the on-treatment period for non-inferiority. In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively|Hazard Ratio (HR)|0.79|||<|0.0001|TWO_SIDED|97.5|0.634|0.989|||Cox proportional hazards model|||The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary.||.989|.634|<.0001
92144793|NCT00781391|184174041|NON_INFERIORITY_OR_EQUIVALENCE|The primary efficacy endpoint, time to the first occurrence of stroke/SEE, was first compared concurrently between each of the 2 edoxaban groups and warfarin group using the mITT Analysis Set in the on-treatment period for non-inferiority. In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively.|Hazard Ratio (HR)|1.08||||0.0064|TWO_SIDED|97.5|0.878|1.32|||Cox proportional hazards model|||The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary.||1.32|.878|.0064
92144794|NCT00781391|184174042|NON_INFERIORITY_OR_EQUIVALENCE|"In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively.~If the upper limit of this CI of the hazard ratio was below 1.38, then non-inferiority to warfarin was considered established for the edoxaban treatment group."|Hazard Ratio (HR)|0.86|||<|0.0001|TWO_SIDED|97.5|0.72|1.032|||Cox proportional hazards model|||The non-inferiority analysis included the mITT and PP analysis sets for both the on-treatment and overall study period, although mITT on-treatment was considered primary.||1.032|.720|<.0001
92144795|NCT00781391|184174042|NON_INFERIORITY_OR_EQUIVALENCE|"In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively.~If the upper limit of this CI of the hazard ratio was below 1.38, then non-inferiority to warfarin was considered established for the edoxaban treatment group."|Hazard Ratio (HR)|1.13||||0.0084|TWO_SIDED|97.5|0.958|1.34|||Cox proportional hazards model|||The non-inferiority analysis included the mITT and PP analysis sets for both the on-treatment and overall study period, although mITT on-treatment was considered primary.||1.34|.958|.0084
92184874|NCT01934452|184268291|SUPERIORITY|||||||0.009|||||||Fisher Exact|||||||0.009
92184875|NCT01328756|184268348|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to LOTA value was assessed for differences from zero using a 2-sided, 1 sample t-test at a 0.05 significance level.||||< 0.001
92184876|NCT00257309|184268352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.21|TWO_SIDED|95.0|0.38|1.23||Unadjusted analysis|Chi-squared|||||1.23|0.38|0.21
92144796|NCT00781391|184174043|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.081|TWO_SIDED|99.0|0.709|1.068|||Log Rank|||The superiority analysis included the ITT analysis set||1.068|.709|.081
92144797|NCT00781391|184174044|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.0053|TWO_SIDED|95.0|0.786|0.959|||Log Rank|||the time to first event was estimated by a KM estimate and was compared between the edoxaban 60 mg group and the warfarin group using a log-rank test at a pairwise comparison significance level of α=0.01.||.959|.786|.0053
92144798|NCT00781391|184174045|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.0109|TWO_SIDED|95.0|0.806|0.972|||Log Rank|||the time to first event was estimated by a KM estimate and was compared between the edoxaban 60 mg group and the warfarin group using a log-rank test at a pairwise comparison significance level of α=0.01.||.972|.806|.0109
92144799|NCT00781391|184174046|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.0168|TWO_SIDED|95.0|0.823|0.981|||Log Rank|||the time to first event was estimated by a KM estimate and was compared between the edoxaban 60 mg group and the warfarin group using a log-rank test at a pairwise comparison significance level of α=0.01.||.981|.823|.0168
92144800|NCT00781391|184174047|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8||||0.0009|TWO_SIDED|95.0|0.707|0.914|||Regression, Cox|||All Major Adjudicated Bleeding Events, Safety Analysis Set On-treatment period||.914|.707|.0009
92184877|NCT00849485|184268353|NON_INFERIORITY_OR_EQUIVALENCE|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Geometric Test/Ref Ratio x 100|98.0||||||90.0|94.5|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102|94.5|
92184878|NCT00849485|184268354|NON_INFERIORITY_OR_EQUIVALENCE|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Geometric Test/Ref Ratio x 100|99.9||||||90.0|97.6|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102|97.6|
92184879|NCT00849485|184268355|NON_INFERIORITY_OR_EQUIVALENCE|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|98.1|104.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104|98.1|
92184880|NCT00186446|184268356|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|t(19)= -8.93||||||<.001
92294739|NCT03566238|184494331|SUPERIORITY||percentage difference|0.435||||0.0015|TWO_SIDED|95.0|0.2195|0.6551|||Cochran-Mantel-Haenszel|||"Analysis was based on the Cochran Mantel Haenszel test adjusting PFIC type. A pooled analysis for the closed testing procedure was applied to control multiplicity. The 1-sided adjusted p-value for an individual dose was calculated as the maximum value of the unadjusted p-value for the pooled analysis and the unadjusted p-value for the individual doses.~1-sided adjusted p-value was reported."||0.6551|0.2195|0.0015
92294740|NCT03566238|184494331|SUPERIORITY||percentage difference|0.211||||0.0174|TWO_SIDED|95.0|0.021|0.4557|||Cochran-Mantel-Haenszel|||"Analysis was based on the Cochran Mantel Haenszel test adjusting PFIC type. A pooled analysis for the closed testing procedure was applied to control multiplicity. The 1-sided adjusted p-value for an individual dose was calculated as the maximum value of the unadjusted p-value for the pooled analysis and the unadjusted p-value for the individual doses.~1-sided adjusted p-value was reported."||0.4557|0.021|0.0174
92294741|NCT03566238|184494332|SUPERIORITY|"Analysis of Covariance (ANCOVA) model including treatment, baseline pruritus score at AM and PM, PFIC type, and age category was used for treatment comparisons. A pooled analysis for the closed testing procedure was applied to control multiplicity. The 1-sided adjusted p-value for an individual dose was calculated as the maximum value of the unadjusted p-value for the pooled analysis and the unadjusted p-value for the individual doses.~1-sided adjusted p-value was reported."|Least Square (LS) mean difference|28.23|STANDARD_ERROR_OF_MEAN|9.182||0.0019|TWO_SIDED|95.0|9.83|46.64|||ANCOVA|||Analysis of the Proportion of Positive Pruritus Assessments at Participant Level over the 24-Week Treatment Period - Albireo ObsRO Instrument (AM and PM Scores).||46.64|9.83|0.0019
92294742|NCT03566238|184494332|SUPERIORITY|"An ANCOVA model including treatment, baseline pruritus score at AM and PM, PFIC type, and age category was used for treatment comparisons. A pooled analysis for the closed testing procedure was applied to control multiplicity. The 1-sided adjusted p-value for an individual dose was calculated as the maximum value of the unadjusted p-value for the pooled analysis and the unadjusted p-value for the individual doses.~1-sided adjusted p-value was reported."|LS mean difference|21.71|STANDARD_ERROR_OF_MEAN|9.892||0.0163|TWO_SIDED|95.0|1.87|41.54|||ANCOVA|||Analysis of the Proportion of Positive Pruritus Assessments at Participant Level over the 24-Week Treatment Period - Albireo ObsRO Instrument (AM and PM Scores).||41.54|1.87|0.0163
92294743|NCT02627001|184494380|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Ranks|||||||<0.001
92294744|NCT01049581|184494393|NON_INFERIORITY_OR_EQUIVALENCE|ANCOVA was used and the result reveled (F1, 17 = 7.565, η2= 0.308, p = 0.007)||||||0.007|ONE_SIDED|95.0|||||ANCOVA|||null hypothesis : there is no difference in gross motor performance in pediatric aquatic therapy group and conventional therapy group||||0.007
92294745|NCT01049581|184494394|NON_INFERIORITY_OR_EQUIVALENCE|ANCOVA : p value 0.393|Mean Difference (Net)|1.762||||0.393|ONE_SIDED|95.0||||"Effect Size η2~0.023"|ANCOVA|F1,17= 0.380||We hypothesize that Children with CP receiving PAT would have better outcomes in motor function and translate to ADL||||0.393
92294746|NCT01049581|184494395|SUPERIORITY_OR_OTHER|||||||0.332|ONE_SIDED|95.0|||||ANCOVA|||null hypothesis : there is no difference in social participation between pediatric aquatic therapy group and conventional therapy group||||0.332
92294747|NCT00493792|184494396|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.47|TWO_SIDED|95.0|0.29|1.77|||Regression, Cox|||||1.77|0.29|0.47
92294748|NCT00493792|184494397|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.06|TWO_SIDED|95.0|0.23|1.03|||Regression, Cox|||||1.03|0.23|0.06
92294749|NCT00493792|184494398|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.193|TWO_SIDED|95.0|0.45|1.18|||Regression, Cox|||||1.18|.45|0.193
92294750|NCT00685035|184494404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_DEVIATION|0.23||0.02|TWO_SIDED|95.0|||||ANCOVA|||||||.02
92184881|NCT00556478|184268361|SUPERIORITY_OR_OTHER||Ratio (over 3 months/Baseline)|3.05|||<|0.0001|TWO_SIDED|95.0|2.29|4.06|||ANCOVA|||||4.06|2.29|<0.0001
92184882|NCT00556478|184268362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|||<|0.0001|TWO_SIDED|95.0|3.61|6.34|||ANCOVA|||Analysis of IPE domain ejaculatory control||6.34|3.61|<0.0001
92184883|NCT00556478|184268362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6|||<|0.0001|TWO_SIDED|95.0|3.3|5.84|||ANCOVA|||IPE domain sexual satisfaction||5.84|3.30|<0.0001
92184884|NCT00556478|184268362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||<|0.0001|TWO_SIDED|95.0|1.86|3.2|||ANCOVA|||IPE domain distress||3.20|1.86|<0.0001
92294751|NCT02426541|184494411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68||||0.3794|TWO_SIDED|95.0|-2.18|5.54|||ANCOVA|Adjusted for sex and baseline||||5.54|-2.18|0.3794
92294752|NCT02426541|184494412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32||||0.5317|TWO_SIDED|95.0|-5.6|2.96|||ANCOVA|Adjusted for sex and baseline||||2.96|-5.60|0.5317
92294753|NCT02426541|184494413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003||||0.9984|TWO_SIDED|95.0|-3.07|3.07|||ANCOVA|Adjusted for sex and baseline||||3.07|-3.07|0.9984
92294754|NCT00745134|184494416|OTHER|||||||0.33|||||||ANOVA|||||||0.33
92294755|NCT04241133|184494444|OTHER|The experimental and control groups were not compared due to the inability to collect post data with the control group because of stay at home orders during the COVID-19 pandemic.|||||<|0.05||||||The reported P-value was calculated.|t-test, 2 sided|The a priori threshold for statistical significance was P\<0.05.||The experimental group was tested for significant difference in Healthy Eating Index 2015 (HEI-2015) scores at baseline and 12 weeks. SAS macros provided by the National Cancer Institute were used to compute HEI-2015 scores for each dietary recall at pre- (baseline) and post-intervention (12 weeks) using the Simple HEI Scoring Algorithm.||||<0.05
92294756|NCT01503333|184494445|EQUIVALENCE|Linear mixed-effect models were applied to examine the intervention effect on MVPA at post-intervention. Models included the group variable, cluster random effect of school, and the following fixed effects: age, BMI z-score, race, SES, ethnicity, pubertal stage, and study year. Baseline MVPA was included when evaluating the intervention effect at post-intervention.|parameter estimate|-0.08||||0.207|TWO_SIDED|95.0|-0.21|0.05|||Mixed Models Analysis|||Hypotheses: Post-intervention, weighted mean minutes of MVPA/week will be greater by 16 minutes among girls in intervention than control schools. Mean minutes per week is determined by multiplying mean minutes/hour by 90 hours that girls are awake in a week (10 hours awake on each weekend day; 14 hours awake on each weekday).||0.05|-0.21|.207
92294757|NCT01503333|184494446|EQUIVALENCE|Linear mixed models were used to analyze intervention effect on CV fitness according to intention-to-treat, with school pairs treated as random effect and students nested within school and treatment condition. Models included main intervention predictor (control or intervention), incorporated cluster random effect, specified school pairs (random intercept), and controlled for baseline CV fitness, physical activity, race, socioeconomic status, ethnicity, pubertal stage, and study year cohort.|parameter estimate|0.2|STANDARD_ERROR_OF_MEAN|0.08||0.018|TWO_SIDED|95.0|0.03|0.36|||Mixed Models Analysis|||Immediately post-intervention, cardiovascular (CV) fitness will be higher among girls in the intervention than control schools.||0.36|0.03|.018
92294758|NCT01503333|184494447|OTHER|Linear mixed models were used to analyze intervention effect on BMI-z according to intention-to-treat, with school pairs treated as random effect and students nested within school and treatment condition. Models for BMI-z included main intervention predictor (control or intervention), incorporated cluster random effect, specified school pairs (random intercept), and controlled for baseline BMI-z, physical activity, race, socioeconomic status, ethnicity, pubertal stage, and study year cohort.|parameter estimate|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.191|TWO_SIDED|95.0|-0.05|0.01|||Mixed Models Analysis|||Immediately post-intervention, BMI z-score will be significantly lower among girls in the intervention than control schools.||0.01|-0.05|.191
92294759|NCT01503333|184494448|EQUIVALENCE|Linear mixed models were used to analyze intervention effect on % body fat according to intention-to-treat, with school pairs treated as random effect and students nested within school and treatment condition. Models included main intervention predictor (control or intervention), incorporated cluster random effect, specified school pairs (random intercept), and controlled for baseline % body fat, age, physical activity, race, socioeconomic status, ethnicity, pubertal stage, and year cohort.|parameter estimate|-0.37|STANDARD_ERROR_OF_MEAN|0.14||0.007|TWO_SIDED|95.0|-0.64|-0.1|||Mixed Models Analysis|||Immediately post-intervention, percent body fat will be significantly lower among girls in the intervention than control schools.||-0.10|-0.64|.007
92294760|NCT01503333|184494449|EQUIVALENCE|Linear mixed-effect models were applied to examine the intervention effect on MVPA at 9-month follow up. Models included the group variable, cluster random effect of school, and the following fixed effects: age, BMI z-score, race, SES, ethnicity, pubertal stage, and study year. Baseline MVPA was included when evaluating the intervention effect at follow up.|parameter estimate|-0.09||||0.118|TWO_SIDED|95.0|-0.21|0.02|||Mixed Models Analysis|||||0.02|-0.21|.118
92294761|NCT01503333|184494450|OTHER||parameter estimate|-0.97|||||TWO_SIDED|||||||||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-square test p\>.05.26.||||
92294762|NCT01503333|184494451|OTHER||parameter estimate|2.9|||||TWO_SIDED|||||||||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-squar||||
92294763|NCT01503333|184494452|OTHER||parameter estimate|0.47|||||TWO_SIDED|||||||||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-squar||||
92294764|NCT01503333|184494453|OTHER||parameter estimate|30.48|||<|0.001|TWO_SIDED||||||Path analysis|||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-squar||||<.001
92294765|NCT01503333|184494454|OTHER||parameter estimate|24.48|||<|0.001|TWO_SIDED||||||Path analysis|||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-squar||||<.001
92294766|NCT01503333|184494455|OTHER||parameter estimate|3.19|||||TWO_SIDED|||||||||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-squar||||
92294767|NCT02327325|184494512|SUPERIORITY||Mean Difference (Final Values)|-2.94||||0.08|TWO_SIDED|95.0|-6.24|0.35|||Mixed Models Analysis|||This is the comparison between physical activity only and the wait list group. Rejection of the null hypothesis means that the physical activity group had greater improvement than the wait list group.||0.35|-6.24|0.08
92294768|NCT02327325|184494512|SUPERIORITY||Mean Difference (Final Values)|-3.26||||0.06|TWO_SIDED|95.0|-6.69|0.06|||Mixed Models Analysis|||This is the comparison of the PA \& CBT group to the wait list group. Rejection of the null hypothesis means that the PA + CBT group was superior on this outcome to the wait list group.||0.06|-6.69|0.06
92294769|NCT02327325|184494513|SUPERIORITY||Mean Difference (Net)|-6.11||||0.07|TWO_SIDED|95.0|-12.85|0.64|||Mixed Models Analysis|||This is the comparison of the PA only group with the wait list control. Rejection of the null hypothesis means that the PA group was superior to the wait list group.||0.64|-12.85|0.07
92294770|NCT02327325|184494513|SUPERIORITY||Mean Difference (Final Values)|-4.1||||0.28|TWO_SIDED|95.0|-11.69|3.48|||Mixed Models Analysis|||This is the comparison of the PA + CBT only group with the wait list control. Rejection of the null hypothesis means that the PA + CBT group was superior to the wait list group.||3.48|-11.69|0.28
92294771|NCT02327325|184494514|SUPERIORITY||Mean Difference (Final Values)|3.64||||0.097|TWO_SIDED|95.0|-0.69|7.96|||Mixed Models Analysis|||This is the comparison of the PA only group with the wait list control. Rejection of the null hypothesis means that the PA group was superior to the wait list group.||7.96|-0.69|0.097
92294772|NCT02327325|184494514|SUPERIORITY||Mean Difference (Final Values)|2.91||||0.196|TWO_SIDED|95.0|-1.55|7.39|||Mixed Models Analysis|||This is the comparison of the PA+CBT group with the wait list control. Rejection of the null hypothesis means that the PA+CBT group was superior to the wait list group.||7.39|-1.55|0.196
92294773|NCT02327325|184494515|SUPERIORITY||Mean Difference (Final Values)|-4.1|||<|0.01|TWO_SIDED|95.0|-6.85|-1.34|||Mixed Models Analysis|||This is the comparison of the PA only group with the wait list control. Rejection of the null hypothesis means that the PA group was superior to the wait list group.||-1.34|-6.85|<0.01
92184885|NCT02233998|184268392|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.234|STANDARD_ERROR_OF_MEAN|0.0162|<|0.001|TWO_SIDED|95.0|-0.266|-0.202||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate Whole Mouth Mean MGI at Wk 3 and Whole Mouth Mean PI at Wk 3 for both Listerine rinses vs control. Family-wise error controlled at 0.05.|ANCOVA|Terms included treatment with baseline whole mouth mean modified gingival index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.202|-0.266|<0.001
92184886|NCT02233998|184268392|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.197|STANDARD_ERROR_OF_MEAN|0.0161|<|0.001|TWO_SIDED|95.0|-0.228|-0.165||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate Whole Mouth Mean MGI at Wk 3 and Whole Mouth Mean PI at Wk 3 for both Listerine rinses vs control. Family-wise error controlled at 0.05.|ANCOVA|Terms included treatment with baseline whole mouth mean modified gingival index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.165|-0.228|<0.001
92184887|NCT02233998|184268393|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.469|STANDARD_ERROR_OF_MEAN|0.0286|<|0.001|TWO_SIDED|95.0|-0.526|-0.413||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate Whole Mouth Mean MGI at Wk 3 and Whole Mouth Mean PI at Wk 3 for both Listerine rinses vs control. Family-wise error controlled at 0.05.|ANCOVA|Terms included treatment with baseline whole mouth mean plaque index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.413|-0.526|<0.001
92184888|NCT02233998|184268393|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.379|STANDARD_ERROR_OF_MEAN|0.0286|<|0.001|TWO_SIDED|95.0|-0.435|-0.322||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate Whole Mouth Mean MGI at Wk 3 and Whole Mouth Mean PI at Wk 3 for both Listerine rinses vs control. Family-wise error controlled at 0.05.|ANCOVA|Terms included treatment with baseline whole mouth mean plaque index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.322|-0.435|<0.001
92184889|NCT02233998|184268394|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.006|<|0.001|TWO_SIDED|95.0|-0.042|-0.019||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment with baseline whole mouth mean gingival bleeding index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.019|-0.042|<0.001
92184890|NCT02233998|184268394|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.026|STANDARD_ERROR_OF_MEAN|0.0059|<|0.001|TWO_SIDED|95.0|-0.038|-0.014||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment with baseline whole mouth mean gingival bleeding index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.014|-0.038|<0.001
92184891|NCT02233998|184268395|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|23.24|||<|0.001|TWO_SIDED|95.0|20.75|25.85||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||25.85|20.75|<0.001
92184892|NCT02233998|184268395|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|19.444|||<|0.001|TWO_SIDED|95.0|17.09|22.22||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||22.22|17.09|<0.001
92184893|NCT02233998|184268396|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|19.048|||<|0.001|TWO_SIDED|95.0|15.94|21.73||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||21.73|15.94|<0.001
92294774|NCT02327325|184494515|SUPERIORITY||Mean Difference (Final Values)|-1.99||||0.17|TWO_SIDED|95.0|-4.85|0.86|||Mixed Models Analysis|||This is the comparison of the PA + CBT only group with the wait list control. Rejection of the null hypothesis means that the PA + CBT group was superior to the wait list group.||0.86|-4.85|0.17
92184894|NCT02233998|184268396|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|15.939|||<|0.001|TWO_SIDED|95.0|12.5|18.67||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||18.67|12.50|<0.001
92294775|NCT02327325|184494516|SUPERIORITY||Median Difference (Final Values)|0.16||||0.95|TWO_SIDED|95.0|-4.86|5.19|||Mixed Models Analysis|||This is the comparison of the PA only group with the wait list control. Rejection of the null hypothesis means that the PA group was superior to the wait list group.||5.19|-4.86|0.95
92294776|NCT02327325|184494516|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.97|TWO_SIDED|95.0|-7.07|1.07|||Mixed Models Analysis|||This is the comparison of the PA+CBT group with the wait list control. Rejection of the null hypothesis means that the PA+CBT group was superior to the wait list group.||1.07|-7.07|0.97
92294777|NCT04443569|184494535|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Post-Op Day 1||||0.3
92294778|NCT04443569|184494535|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||Post-Op Day 2||||0.9
92294779|NCT04443569|184494535|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||Post-Op Day 3||||0.07
92294780|NCT04443569|184494535|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Post-Op Day 4||||0.09
92294781|NCT04443569|184494536|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92294782|NCT01118026|184494537|SUPERIORITY|||||||0.9669|||||||Log Rank|||||||0.9669
92294783|NCT00108082|184494577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.7651||95.0|-1.83|2.49|||ANCOVA|||The null hypotheses (tested hierarchically) were that the effect of carvedilol CR + lisinopril on LV mass regression was no different than the effect of atenolol + lisinopril, and that the effect of carvedilol CR + lisinopril was no different than the effect of lisinopril + lisinopril. The primary analysis was based on an analysis of covariance (ANCOVA) with a model adjusting for treatment, stratification by hypertension class, region, and baseline value, at a 0.05 level of significance.||2.49|-1.83|0.7651
92294784|NCT00108082|184494577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.1711||95.0|-0.7|3.9|||ANCOVA|||||3.90|-0.70|0.1711
92294785|NCT01091103|184494599|SUPERIORITY_OR_OTHER|||||||0.9427|TWO_SIDED|||||The p-value was not adjusted for multiplicity.|t-test, 2 sided|||||||0.9427
92294786|NCT01091103|184494600|SUPERIORITY_OR_OTHER|||||||0.337|TWO_SIDED|||||The p-value was not adjusted for multiplicity.|t-test, 2 sided|||||||0.3370
92294787|NCT04269993|184494644|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.04|TWO_SIDED||||||t-test, 1 sided|||||||0.04
92294788|NCT01067521|184494686|SUPERIORITY||Risk Ratio (RR)|0.656|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|0.539|0.799||The overall significance level for this study is 5%|Negative Binomial Regression||GA 40 mg vs. placebo|"Relapses were estimated by a baseline-adjusted, Negative Binomial Regression with an offset based on the log of subject's exposure to treatment. The model included the following covariates: - Baseline EDSS score. - Log of the prior 2-year number of relapses. - Volume of T2 lesions at baseliner. - Status of Gd-enhancing T1 activity at baseline (=0 no Gd-enhancing T1 at baseline; =1 at least one Gd-enhancing T1 at baseline). - CGR."||0.799|0.539|<0.0001
92294789|NCT01067521|184494687|SUPERIORITY||Risk Ratio (RR)|0.653|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|95.0|0.546|0.78||The overall significance level for this study is 5%|Negative binomial regression||GA 40 mg vs. placebo|Negative binomial regression||0.780|0.546|<.0001
92294790|NCT01067521|184494688|SUPERIORITY||Risk Ratio (RR)|0.552|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|0.436|0.699||The overall significance level for this study is 5%|Negative Binomial Regression||GA 40 mg vs. placebo|||0.699|0.436|<0.0001
92294791|NCT01067521|184494689|SUPERIORITY||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.048||0.2058|TWO_SIDED|95.0|-0.154|0.033||The overall significance level for this study is 5%|ANCOVA||GA 40 mg vs Placebo|||0.033|-0.154|0.2058
92294792|NCT01067521|184494690|SUPERIORITY||Risk Ratio (RR)|0.8332|STANDARD_ERROR_OF_MEAN|0.0744||0.0409|TWO_SIDED|95.0|0.6995|0.9925||not adjusted for multiplicity|Negative Binomial Regression||Early Start vs Delayed Start|Entire Study The Negative Binomial Regression model covariates: • treatment group • PCBL (Placebo-Controlled Baseline) Kurtzke's Expanded Disability Status Scale (EDSS) score as 1 degree of freedom variable • Log of the # of relapses in the 2 years prior to PCBL • Volume of T2 lesions at PCBL • Status of Gd-enhancing T1 lesion activity at PCBL (=0 if no Gd-enhancing T1 lesions at PCBL; =1 if at least one Gd-enhancing T1 lesion at PCBL) • Country or Geographical Region (CGR)||0.9925|0.6995|0.0409
92294793|NCT01067521|184494691|SUPERIORITY||Risk Ratio (RR)|0.736|STANDARD_ERROR_OF_MEAN|0.081||0.0056|TWO_SIDED|95.0|0.592|0.914||not adjusted for multiplicity|Negative binomial regression||Early Start vs Delayed Start|Month 6 Negative binomial regression||0.914|0.592|0.0056
92294794|NCT01067521|184494691|SUPERIORITY||Risk Ratio (RR)|0.633|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|0.524|0.765||not adjusted for multiplicity|Negative binomial regression||Early Start vs Delayed Start|Month 12 Negative binomial regression||0.765|0.524|<0.0001
92294795|NCT01067521|184494691|SUPERIORITY||Risk Ratio (RR)|0.666|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|0.557|0.797||not adjusted for multiplicity|Negative binomial regression||Early Start vs Delayed Start|Month 36 Negative binomial regression||0.797|0.557|<0.0001
92294796|NCT01067521|184494692|SUPERIORITY||Risk Ratio (RR)|0.556|STANDARD_ERROR_OF_MEAN|0.093||0.0005|TWO_SIDED|95.0|0.4|0.773||not adjusted for multiplicity|Negative Binomial Regression||Early Start vs Delayed Start|Month 6||0.773|0.4|0.0005
92294797|NCT01067521|184494692|SUPERIORITY||Risk Ratio (RR)|0.514|STANDARD_ERROR_OF_MEAN|0.073|<|0.0001|TWO_SIDED|95.0|0.388|0.679||not adjusted for multiplicity|Negative binomial regression||Early Start vs Delayed Start|Month 12||0.679|0.388|<0.0001
92294798|NCT01067521|184494692|SUPERIORITY||Risk Ratio (RR)|0.663|STANDARD_ERROR_OF_MEAN|0.086||0.0015|TWO_SIDED|95.0|0.514|0.854||not adjusted for multiplicity|Negative binomial regression||Early Start vs Delayed Start|Month 36||0.854|0.514|0.0015
92294799|NCT01067521|184494693|SUPERIORITY||Mean Difference (Final Values)|-0.084|STANDARD_ERROR_OF_MEAN|0.041||0.0425|TWO_SIDED|95.0|-0.166|-0.003||not adjusted for multiplicity|Mixed model for repeated measures (MMRM)||Early Start vs Delayed Start|Month 6||-0.003|-0.166|0.0425
92294800|NCT01067521|184494693|SUPERIORITY||Mean Difference (Final Values)|-0.086|STANDARD_ERROR_OF_MEAN|0.05||0.0844|TWO_SIDED|95.0|-0.184|0.012||not adjusted for multiplicity|Mixed model for repeated measures (MMRM)||Early Start vs Delayed Start|Month 12||0.012|-0.184|0.0844
92294801|NCT01067521|184494693|SUPERIORITY||Mean Difference (Final Values)|0.017|STANDARD_ERROR_OF_MEAN|0.106||0.8701|TWO_SIDED|95.0|-0.91|0.225||not adjusted for multiplicity|Mixed model for repeated measures (MMRM)||Early Start vs Delayed Start|Month 36||0.225|-0.91|0.8701
92294802|NCT02413008|184494706|OTHER|The primary endpoint, the variation of FSH between week 12 and baseline and also comparing by arm will be analyzed using a non-parametric test (Mann-Whitney-Wilcoxon test).||||||0.1|||||||Wilcoxon (Mann-Whitney)|||"The variations of the levels of FSH after treatment was studied in each women at baseline, week 3 and week12 weeks, the variation of levels between two arms were analysed using a non-parametric test Mann-Whitney-Wilcoxon.~The intra individual variation (differences between the pre study determinations screening and baseline) was compared to the variation between baseline and the values obtained at every study visit."||||0.10
92294803|NCT02413008|184494706|OTHER|The primary endpoint, the variation of FSH between week 12 and baseline and also comparing by arm will be analyzed using a non-parametric test (Mann-Whitney-Wilcoxon test).||||||0.413|||||||Wilcoxon (Mann-Whitney)|||The variations in the intensities for each one of the symptoms and signs of the vaginal atrophy, after 3 and 12 weeks, in each treatment arm, will be compared using the non-parametric test Mann-Whitney-Wilcoxon.||||0.413
92294804|NCT02413008|184494706|OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
92294805|NCT02413008|184494707|OTHER||||||<|0.05|||||||Dunn Test|||Variation in serum levels of FSH at week 1||||<0.05
92184895|NCT02233998|184268397|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|2.05|||<|0.001|TWO_SIDED|95.0|1.3|2.78||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||2.78|1.30|<0.001
92184896|NCT02233998|184268397|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|1.19|||<|0.001|TWO_SIDED|95.0|0.93|2.06||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||2.06|0.93|<0.001
92184897|NCT02233998|184268398|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|1.316||||0.016|TWO_SIDED|95.0|0.0|2.78||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||2.78|0.00|0.016
92294806|NCT02413008|184494707|OTHER||||||<|0.05|||||||Dunn Test|||Variation in serum levels of FSH at week 3||||<0.05
92294807|NCT02413008|184494707|OTHER||||||>|0.05|||||||Dunn Test|||Variation in serum levels of FSH at week 8||||>0.05
92294808|NCT02413008|184494708|OTHER||||||>|0.05|||||||Dunn Test|||Change in serum levels of Luteinizing hormone (LH) from baseline to week 1||||>0.05
92294809|NCT02413008|184494708|OTHER||||||>|0.05|||||||Dunn Test|||Change in serum levels of Luteinizing hormone (LH) from baseline to week 3||||>0.05
92294810|NCT02413008|184494708|OTHER||||||>|0.05|||||||Dunn Test|||Change in serum levels of Luteinizing hormone (LH) from baseline to week 8||||>0.05
92294811|NCT02413008|184494708|OTHER|||||||0.135|||||||Wilcoxon (Mann-Whitney)|||Change in serum levels of Luteinizing hormone (LH) from baseline to week 12||||0.135
92294812|NCT02413008|184494709|OTHER|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 1 in plasma levels of estriol||||0.043
92294813|NCT02413008|184494709|OTHER|||||||0.649|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 3 in plasma levels of estriol||||0.649
92294814|NCT02413008|184494709|OTHER|||||||0.588|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 8 in plasma levels of estriol||||0.588
92294815|NCT02413008|184494709|OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 12 in plasma levels of estriol||||0.67
92294816|NCT02413008|184494710|OTHER|||||||0.342|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 1 in plasma levels of estradiol.||||0.342
92294817|NCT02413008|184494710|OTHER|||||||0.523|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 3 in plasma levels of estradiol.||||0.523
92294818|NCT02413008|184494710|OTHER|||||||0.523|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estradiol from baseline to week 8||||0.523
92294819|NCT02413008|184494710|OTHER|||||||0.163|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estradiol from baseline to week 12||||0.163
92294820|NCT02413008|184494711|OTHER|||||||0.418|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estrona from baseline to week 1||||0.418
92294821|NCT02413008|184494711|OTHER|||||||0.642|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estrona from baseline to week 3||||0.642
92294822|NCT02413008|184494711|OTHER|||||||0.175|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estrona from baseline to week 8||||0.175
92294823|NCT02413008|184494711|OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estrona from baseline to week 12||||0.084
92294824|NCT02413008|184494712|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Change in pH between baseline and week 3||||<0.01
92294825|NCT02413008|184494712|OTHER|||||||0.057|||||||Wilcoxon (Mann-Whitney)|||Change in pH between baseline and week 12||||0.057
92294826|NCT02413008|184494713|OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Changes in dyspareunia from baseline to week 3||||0.14
92294827|NCT02413008|184494713|OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Changes in dyspareunia from baseline to week 12||||0.25
92294828|NCT02413008|184494714|OTHER|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 3||||0.28
92294829|NCT02413008|184494714|OTHER|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 12||||0.34
92294830|NCT02413008|184494715|OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Changes in vaginal dryness from baseline to week 3||||0.14
92294831|NCT02413008|184494715|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Changes in vaginal dryness from baseline to week 12||||<0.01
92294832|NCT02413008|184494716|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Changes in total score of symptoms of vaginal atrophy from baseline to week 3||||0.03
92294833|NCT02413008|184494716|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Changes in total score of symptoms of vaginal atrophy from baseline to week 12||||0.04
92294834|NCT02413008|184494717|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Changes in dryness of the mucosa between baseline and week 3||||<0.001
92294835|NCT02413008|184494717|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Changes in dryness of the mucosa betweeen baseline and week 12||||<0.01
92294836|NCT02413008|184494718|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Changes in dryness of the mucosa between baseline and week 3||||0.13
92294837|NCT02413008|184494718|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Changes in dryness of the mucosa between baseline and week 12||||<0.01
92294838|NCT02413008|184494719|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 3||||<0.001
92294839|NCT02413008|184494719|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 12||||<0.001
92294840|NCT02413008|184494720|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change in total score of signs between week 3 and baseline||||<0.001
92294841|NCT02413008|184494720|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change in total score of signs between week 12 and baseline||||<0.001
92294842|NCT02413008|184494721|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Change in maturation value from baseline to week 3||||<0.0001
92294843|NCT02413008|184494721|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Change in maturation value from baseline to week 12||||0.006
92294844|NCT03538262|184494728|OTHER|||||||0.006|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.006
92184898|NCT02233998|184268398|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|0.926||||0.197|TWO_SIDED|95.0|-0.16|1.85||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||1.85|-0.16|0.197
92184899|NCT02233998|184268399|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|23.214|||<|0.001|TWO_SIDED|95.0|18.21|28.77||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||28.77|18.21|<0.001
92184900|NCT02233998|184268399|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|18.59|||<|0.001|TWO_SIDED|95.0|13.69|23.81||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||23.81|13.69|<0.001
92184901|NCT02233998|184268400|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|19.048|||<|0.001|TWO_SIDED|95.0|15.94|21.73||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||21.73|15.94|<0.001
92184902|NCT02233998|184268400|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|15.939|||<|0.001|TWO_SIDED|95.0|12.5|18.67||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||18.67|12.50|<0.001
92184903|NCT03292692|184268415|SUPERIORITY||Slope|0.372|||<|0.001|TWO_SIDED|95.0|0.279|0.465|||Regression, Linear|Multi-level regression|Slope of intervention group compared to slope of the control group|||0.465|0.279|<0.001
92184904|NCT03292692|184268416|SUPERIORITY||Slope|0.17|||<|0.001|TWO_SIDED|95.0|0.105|0.235|||Regression, Linear|Multilevel linear modeling|Slope of the intervention group compared to slope of the control group|||0.235|0.105|<0.001
92184905|NCT03292692|184268417|SUPERIORITY||Mean Difference (Final Values)|-2.149|||<|0.001|TWO_SIDED|95.0|-2.974|-1.324|||Regression, Linear|Multilevel linear regression|Multilevel linear modeling, with time modeled as change from pre-post.|||-1.324|-2.974|<0.001
92184906|NCT03292692|184268418|SUPERIORITY||Mean Difference (Final Values)|-1.144||||0.002|TWO_SIDED|95.0|-1.871|-0.417|||Regression, Linear||Multilevel linear modeling, with time modeled as change from pre to post.|||-0.417|-1.871|0.002
92184907|NCT01915914|184268431|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|13.4993|||<|0.0001|TWO_SIDED|95.0|4.1113|44.325|||Log Rank|||||44.3250|4.1113|<0.0001
92184908|NCT01915914|184268432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.9524|||<|0.0001|TWO_SIDED|95.0|2.4258|10.1105|||Log Rank|||||10.1105|2.4258|<0.0001
92184909|NCT01915914|184268433|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92184910|NCT01915914|184268434|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
92184911|NCT01915914|184268436|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92184912|NCT01915914|184268437|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
92184913|NCT01915914|184268442|SUPERIORITY_OR_OTHER|||||||0.701||95.0||||Week 20, CA|Wilcoxon (Mann-Whitney)|||||||0.7010
92184914|NCT01915914|184268442|SUPERIORITY_OR_OTHER|||||||0.0042||95.0||||Week 20, ET/L|Wilcoxon (Mann-Whitney)|||||||0.0042
92184915|NCT01915914|184268442|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||Week 20, AP|Wilcoxon (Mann-Whitney)|||||||0.0810
92184916|NCT01915914|184268442|SUPERIORITY_OR_OTHER|||||||0.2799||95.0||||Week 32, CA|Wilcoxon (Mann-Whitney)|||||||0.2799
92184917|NCT01915914|184268442|SUPERIORITY_OR_OTHER|||||||0.1375||95.0||||Week 32, ET/L|Wilcoxon (Mann-Whitney)|||||||0.1375
92184918|NCT01915914|184268442|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||Week 32, AP|Wilcoxon (Mann-Whitney)|||||||0.1100
92184919|NCT01915914|184268442|SUPERIORITY_OR_OTHER|||||||0.0394||95.0||||Week 20, Total VAS Score|Wilcoxon (Mann-Whitney)|||||||0.0394
92184920|NCT01915914|184268442|SUPERIORITY_OR_OTHER|||||||0.2237||95.0||||Week 32, Total VAS Score|Wilcoxon (Mann-Whitney)|||||||0.2237
92184921|NCT00286325|184268446|SUPERIORITY_OR_OTHER||||||=|0.0156||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon comparing week zero antibody value in units to week 24 antibody value in units||||=0.0156
92184922|NCT00286325|184268447|SUPERIORITY_OR_OTHER||||||=|0.0078|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Comparison of B cell number at week 0 to b cell number in participants at week 24||||=0.0078
92184923|NCT00210236|184268455|EQUIVALENCE|The two groups will be considered equivalent if the 5-year survival rate for group B (without lymph node dissection) is not less than 92%. This corresponds to hazard ratio (HR) of less than 1.6.|Hazard Ratio (HR)|3.067||||0.013|TWO_SIDED|95.0|1.4|6.7|||Log Rank|||||6.7|1.4|0.013
92184924|NCT03786471|184268471|SUPERIORITY||marginal difference of LS means|0.3||||0.33|TWO_SIDED|97.5|-0.18|0.78||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.78|-0.18|0.33
92184925|NCT03786471|184268471|SUPERIORITY||marginal difference of LS means|-0.62||||0.33|TWO_SIDED|97.5|-1.61|0.37||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.37|-1.61|0.33
92184926|NCT03786471|184268471|SUPERIORITY||marginal difference of LS means|-0.33||||0.46|TWO_SIDED|97.5|-1.32|0.67||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.67|-1.32|0.46
92184927|NCT03786471|184268478|SUPERIORITY||marginal difference of LS means|0.25||||0.54|TWO_SIDED|97.5|-0.16|0.66||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.66|-0.16|0.54
92184928|NCT03786471|184268478|SUPERIORITY||marginal difference of LS means|-0.1||||0.79|TWO_SIDED|97.5|-0.94|0.74||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.74|-0.94|0.79
92294845|NCT03538262|184494728|OTHER|Statistical analysis for BL to Month 24|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92294846|NCT03538262|184494729|OTHER|||||||0.011|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.011
92294847|NCT03538262|184494729|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
92294848|NCT03538262|184494730|OTHER|||||||0.007|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 3||||0.007
92144801|NCT00781391|184174047|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.47|||<|0.0001|TWO_SIDED|95.0|0.406|0.548|||Regression, Cox|||"All Major Adjudicated Bleeding Events, Safety Analysis Set On-treatment period.~The HR, two-sided CI, and p-value for pairwise comparisons versus Warfarin are based on the Cox regression model with counting process approach for on-treatment including treatment and the two stratification factors as covariates: the dichotomized CHADS2 score and the dichotomized dose-adjustment factor"||.548|.406|<.0001
92144802|NCT00781391|184174047|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86|||<|0.0001|TWO_SIDED|95.0|0.8|0.918|||Regression, Cox|||Major or Clinically Relevant Non-Major, high dose vs. warfarin||.918|.800|<.0001
92144803|NCT00781391|184174047|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.62|||<|0.0001|TWO_SIDED|95.0|0.575|0.666|||Regression, Cox|||Major or Clinically Relevant Non-Major, low dose vs. warfarin||.666|.575|<.0001
92144804|NCT01984684|184174048|NON_INFERIORITY|A 2-sided 95% confidence interval (CI) for noninferiority testing was computed based on the difference in responder rates for vancomycin + aztreonam and delafloxacin at the primary endpoint. If the upper limit (UL) of the CI was less than 0.10, delafloxacin would be considered noninferior to vancomycin + aztreonam.|Difference in Responder Rates|3.1|||||TWO_SIDED|95.0|-2.0|8.3||||||||8.3|-2.0|
92144805|NCT01984684|184174049|NON_INFERIORITY|Analysis of the investigator's assessment of response of signs and symptoms of infection (cure only) was performed using the Miettinen-Nurminen method without stratification for the ITT analysis set.|Difference in Cure Rates|-2.0|||||TWO_SIDED|95.0|-8.6|4.6||||||||4.6|-8.6|
92184929|NCT03786471|184268478|SUPERIORITY||marginal difference of LS means|0.14||||0.79|TWO_SIDED|97.5|-0.7|0.99||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.99|-0.70|0.79
92294849|NCT03538262|184494730|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||<0.001
92294850|NCT03538262|184494730|OTHER|||||||0.004|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 9||||0.004
92294851|NCT03538262|184494730|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||<0.001
92144806|NCT01984684|184174050|NON_INFERIORITY|Analysis of the investigator's assessment of response (cure only) at the Late Follow-up Visit was assessed using the Miettinen-Nurminen method without stratification.|Difference in Cure Rates|-3.1|||||TWO_SIDED|95.0|-9.3|3.1||||||||3.1|-9.3|
92144807|NCT04322604|184174051|SUPERIORITY||Percent Difference from Placebo|80.1|||<|0.0001|TWO_SIDED|95.0|70.1|87.9|||Fisher Exact|||||87.9|70.1|<0.0001
92144808|NCT04322604|184174052|SUPERIORITY||LSM Difference from Placebo|1.5||||0.3427|TWO_SIDED|95.0|-1.6|4.7|||ANCOVA|||||4.7|-1.6|0.3427
92294852|NCT03538262|184494730|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 15||||<0.001
92144809|NCT04322604|184174053|SUPERIORITY||LSM Difference from Placebo|-41.2|||<|0.0001|TWO_SIDED|95.0|-48.1|-34.2|||ANCOVA|||||-34.2|-48.1|<0.0001
92144810|NCT04322604|184174054|SUPERIORITY||Percent Difference from Placebo|81.3|||<|0.0001|TWO_SIDED|95.0|71.7|88.8|||Fisher Exact|||||88.8|71.7|<0.0001
92144811|NCT04322604|184174055|SUPERIORITY||Percent Difference from Placebo|39.5|||<|0.0001|TWO_SIDED|95.0|25.4|52.2|||Fisher Exact|||||52.2|25.4|<0.0001
92144812|NCT04322604|184174056|SUPERIORITY||Percent Difference from Placebo|7.0||||0.3549|TWO_SIDED|95.0|-7.4|21.6|||Fisher Exact|||||21.6|-7.4|0.3549
92144813|NCT04322604|184174057|SUPERIORITY||Percent Difference from Placebo|8.3||||0.2262|TWO_SIDED|95.0|-6.3|22.7|||Fisher Exact|||||22.7|-6.3|0.2262
92144814|NCT04322604|184174058|SUPERIORITY||LSM Difference from Placebo|5.0||||0.3812|TWO_SIDED|95.0|-6.1|16.0|||Mixed Models Analysis|||Week 24 Percent Change from Baseline||16.0|-6.1|0.3812
92144815|NCT00689221|184174085|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.021||||0.8623|TWO_SIDED|95.0|0.808|1.291||P-value is not adjusted for multiple testing.|Log Rank|||||1.291|0.808|0.8623
92144816|NCT00295022|184174110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12|||<|0.001|TWO_SIDED|95.0|-4.35|-1.88|||ANCOVA|||||-1.88|-4.35|<0.001
92144817|NCT00295022|184174110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|||=|0.001|TWO_SIDED|95.0|-2.04|0.18|||ANCOVA|||||0.18|-2.04|=0.001
92144818|NCT00295022|184174110|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.19|||<|0.001|TWO_SIDED|95.0|-3.43|-0.95|||ANCOVA|||||-0.95|-3.43|<0.001
92144819|NCT01239030|184174141|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0046|||||||ANCOVA|||||||0.0046
92144820|NCT04403698|184174142|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||linear mixed models were used to compare bone turnover markers (CTX-I) between both treatment groups. These models were performed with an intention to treat approach, where drop-outs were considered as non-responders. The models accounted for repeated measures.||||<0.01
92184930|NCT03786471|184268485|SUPERIORITY||marginal difference of LS means|0.52||||0.48|TWO_SIDED|95.0|-0.09|1.13||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||1.13|-.09|0.48
92294853|NCT03538262|184494730|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||<0.001
92294854|NCT03538262|184494730|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 21||||<0.001
92294855|NCT03538262|184494730|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
92294856|NCT03538262|184494731|OTHER|||||||0.996|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||0.996
92294857|NCT03538262|184494731|OTHER|||||||0.054|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.054
92294858|NCT03538262|184494731|OTHER|||||||0.025|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||0.025
92294859|NCT03538262|184494731|OTHER|||||||0.006|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.006
92294860|NCT03538262|184494732|OTHER|||||||0.145|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.145
92294861|NCT03538262|184494732|OTHER|||||||0.029|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.029
92294862|NCT03538262|184494733|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||<.001
92294863|NCT03538262|184494733|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
92184931|NCT03786471|184268485|SUPERIORITY||marginal difference of LS means|-0.81||||0.62|TWO_SIDED|95.0|-2.07|0.45||Alpha = 0.05; Hochberg correction for three pairwise comparisons \*three secondary outcomes|Mixed Models Analysis|||||0.45|-2.07|0.62
92184932|NCT03786471|184268485|SUPERIORITY||marginal difference of LS means|-1.33||||0.23|TWO_SIDED|95.0|-2.58|-0.07||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||-0.07|-2.58|0.23
92184933|NCT03786471|184268492|SUPERIORITY||marginal difference of LS means|0.28||||0.23|TWO_SIDED|95.0|0.01|0.54||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||.54|.01|0.23
92184934|NCT03786471|184268492|SUPERIORITY||marginal difference of LS means|0.01||||0.98|TWO_SIDED|95.0|-0.53|0.55||Alpha = 0.05; Hochberg correction for three pairwise comparisons \*three secondary outcomes|Mixed Models Analysis|||||.55|-.53|.98
92184935|NCT03786471|184268492|SUPERIORITY||marginal difference of LS means|-0.27||||0.65|TWO_SIDED|95.0|-0.81|0.27||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||0.27|-0.81|0.65
92184936|NCT03786471|184268497|SUPERIORITY||marginal difference of LS means|-0.16||||0.62|TWO_SIDED|95.0|-0.37|0.06||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||0.06|-0.37|0.62
92184937|NCT03786471|184268497|SUPERIORITY||marginal difference of LS means|0.7||||0.01|TWO_SIDED|95.0|0.26|1.14||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||1.14|0.26|0.01
92184938|NCT03786471|184268497|SUPERIORITY||marginal difference of LS means|0.85||||0.001|TWO_SIDED|95.0|0.42|1.29||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||1.29|0.42|0.001
92184939|NCT03346200|184268520|NON_INFERIORITY|The non-inferiority margin was based on the proportion of responders and was set to 17%. That is, we defined non-inferiority to mean that the proportion of responders in the non-referent study arms is not less than one third of the responders in the 20 mg group (50% minus 33% = 17%)|Median Difference (Final Values)|52.5|||<|0.01|TWO_SIDED|97.5|41.9|100.0|||one-sided Wald tests|P-values were corrected for multiple comparisons using the Holm-Bonferroni method. Non-inferiority p-values were declared if less than a=0.025||||100|41.9|<0.01
92184940|NCT02489799|184268538|EQUIVALENCE|The study was powered based on two former studies utilizing RIAS, (both powered =.8 and alpha =.05). With a 0.6 effect size, the required sample size is 72 patients (36 per group) for a one-tailed test of study hypotheses (power =.8 and alpha =.05).|Incidence Rate Ratio|1.06||||0.545|TWO_SIDED|95.0|0.87|1.3|||Poisson model using GEE|We fit a Poisson model using generalized estimating equations. No adjustments were made for degrees of freedom.|The incidence rate ratio compares intervention to control.|We employed two ways of interpreting this data. The first treats the outcome continuously, which is described in the results section. Here we describe the outcome treating it as a ratio. We created a variable representing the numerator of the ratio (type 1) and the denominator of the ratio (type 2) thereby treating the information in both the numerator and denominator as random (each a Poisson variable).||1.30|0.87|0.545
92184941|NCT00569166|184268616|SUPERIORITY_OR_OTHER|||||||0.3679||95.0|||||Wilcoxon rank-sum|||Treatment effectiveness was measured using pairwise comparisons of hot flash score change from baseline in each paced breathing arm.||||0.3679
92184942|NCT00569166|184268616|SUPERIORITY_OR_OTHER|||||||0.4715||95.0|||||Wilcoxon rank-sum|||Treatment effectiveness was measured using pairwise comparisons of hot flash score change from baseline in each paced breathing arm.||||0.4715
92184943|NCT01853384|184268625|SUPERIORITY_OR_OTHER|||||||0.5348||||||Analysis adjusted for sites, with significance being at P \< 0.05|Cochran-Mantel-Haenszel|||||||.5348
92184944|NCT01853384|184268626|SUPERIORITY_OR_OTHER|||||||0.9456|||||||Regression, Cox|||||||.9456
92184945|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.6194||||||Treatment Week 01|Cochran-Mantel-Haenszel|||||||.6194
92184946|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.793||||||Treatment Week 02|Cochran-Mantel-Haenszel|||||||.7930
92184947|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.3362||||||Treatment Week 03|Cochran-Mantel-Haenszel|||||||0.3362
92184948|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.5263||||||Treatment Week 04|Cochran-Mantel-Haenszel|||||||0.5263
92184949|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.1997||||||Treatment Week 05|Cochran-Mantel-Haenszel|||||||0.1997
92184950|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.1617||||||Treatment Week 06|Cochran-Mantel-Haenszel|||||||0.1617
92184951|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.2611||||||Treatment Week 07|Cochran-Mantel-Haenszel|||||||0.2611
92184952|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.7232||||||Treatment Week 08|Cochran-Mantel-Haenszel|||||||0.7232
92184953|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.4405||||||Treatment Week 09|Cochran-Mantel-Haenszel|||||||0.4405
92184954|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.3516||||||Treatment Week 10|Cochran-Mantel-Haenszel|||||||0.3516
92184955|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.2821||||||Treatment Week 11|Cochran-Mantel-Haenszel|||||||0.2821
92184956|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.3722||||||Treatment Week 12|Cochran-Mantel-Haenszel|||||||0.3722
92184957|NCT01853384|184268628|SUPERIORITY_OR_OTHER|||||||0.5348||||||Week 12 - Primary Endpoint|Cochran-Mantel-Haenszel|||||||0.5348
92184958|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.5909||||||Week 01|ANCOVA|||||||0.5909
92184959|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.8234||||||Week 02|ANCOVA|||||||0.8234
92184960|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.1556||||||Week 03|ANCOVA|||||||0.1556
92184961|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.3487||||||Week 04|ANCOVA|||||||0.3487
92184962|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.1064||||||Week 05|ANCOVA|||||||0.1064
92184963|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.2888||||||Week 06|ANCOVA|||||||0.2888
92184964|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.6095||||||Week 07|ANCOVA|||||||0.6095
92184965|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.1566||||||Week 08|ANCOVA|||||||0.1566
92184966|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.4216||||||Week 09|ANCOVA|||||||0.4216
92184967|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.8166||||||Week10|ANCOVA|||||||0.8166
92184968|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.9114||||||Week 11|ANCOVA|||||||0.9114
92184969|NCT01853384|184268630|SUPERIORITY_OR_OTHER|||||||0.9733||||||Week 12|ANCOVA|||||||0.9733
92184970|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.7439||||||Week 01|ANCOVA|||||||0.7439
92294864|NCT03538262|184494734|OTHER|||||||0.382|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.382
92294865|NCT03538262|184494734|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
92294866|NCT03538262|184494735|OTHER|||||||0.688|||||||Mixed Models Analysis|||Secondary analysis for BL to Month 12||||0.688
92294867|NCT03538262|184494735|OTHER|||||||0.293|||||||Mixed Models Analysis|||Secondary analysis for BL to Month 24||||0.293
92294868|NCT03538262|184494736|OTHER|||||||0.446|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.446
92294869|NCT03538262|184494736|OTHER|||||||0.565|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.565
92294870|NCT03538262|184494737|OTHER|||||||0.006|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.006
92144821|NCT04403698|184174143|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||linear mixed models were used to compare bone turnover markers (PINP) between both treatment groups. These models were performed with an intention to treat approach, where drop-outs were considered as non-responders. The models accounted for repeated measures.||||0.05
92144822|NCT04403698|184174144|SUPERIORITY|||||||0.042|||||||Fisher Exact|||A Fisher's exact test was used to assess differences in patient numbers exceeding reference ranges between both treatment groups at week 48||||0.042
92294871|NCT03538262|184494737|OTHER|||||||0.937|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.937
92294872|NCT03538262|184494738|OTHER|||||||0.041|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 3||||0.041
92294873|NCT03538262|184494738|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||<0.001
92294874|NCT03538262|184494738|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 9||||<0.001
92294875|NCT03538262|184494738|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||<0.001
92294876|NCT03538262|184494738|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 15||||<0.001
92294877|NCT03538262|184494738|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||<0.001
92294878|NCT03538262|184494738|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 21||||<0.001
92184971|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.6992||||||Week 02|ANCOVA|||||||0.6992
92294879|NCT03538262|184494738|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
92294880|NCT03538262|184494739|OTHER|||||||0.595|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||0.595
92144823|NCT04403698|184174145|SUPERIORITY|||||||0.042|||||||Fisher Exact|||A Fisher's exact test was used to assess differences in patient numbers exceeding reference ranges between both treatment groups.||||0.042
92184972|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.0867||||||Week 03|ANCOVA|||||||0.0867
92184973|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.5739||||||Week 04|ANCOVA|||||||0.5739
92184974|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.6497||||||Week 05|ANCOVA|||||||0.6497
92184975|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.1427||||||Week 06|ANCOVA|||||||0.1427
92184976|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.0682||||||Week 07|ANCOVA|||||||0.0682
92294881|NCT03538262|184494739|OTHER|||||||0.44|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.440
92294882|NCT03538262|184494739|OTHER|||||||0.909|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||0.909
92294883|NCT03538262|184494739|OTHER|||||||0.068|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.068
92294884|NCT03538262|184494740|OTHER|||||||0.074|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 3||||0.074
92294885|NCT03538262|184494740|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||<0.001
92294886|NCT03538262|184494740|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 9||||<0.001
92294887|NCT03538262|184494740|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||<0.001
92294888|NCT03538262|184494740|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 15||||<0.001
92294889|NCT03538262|184494740|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||<0.001
92294890|NCT03538262|184494740|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 21||||<0.001
92294891|NCT03538262|184494740|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
92294892|NCT03538262|184494741|OTHER|||||||0.2|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 3||||0.200
92294893|NCT03538262|184494741|OTHER|||||||0.888|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||0.888
92294894|NCT03538262|184494741|OTHER|||||||0.837|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 9||||0.837
92294895|NCT03538262|184494741|OTHER|||||||0.394|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.394
92294896|NCT03538262|184494741|OTHER|||||||0.268|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 15||||0.268
92294897|NCT03538262|184494741|OTHER|||||||0.039|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||0.039
92294898|NCT03538262|184494741|OTHER|||||||0.979|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 21||||0.979
92294899|NCT03538262|184494741|OTHER|||||||0.014|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.014
92294900|NCT03538262|184494742|OTHER|||||||0.285|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 3||||0.285
92294901|NCT03538262|184494742|OTHER|||||||0.267|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 9||||0.267
92294902|NCT03538262|184494742|OTHER|||||||0.564|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 15||||0.564
92294903|NCT03538262|184494742|OTHER|||||||0.034|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 21||||0.034
92294904|NCT03538262|184494743|OTHER|||||||0.409|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.409
92294905|NCT03538262|184494743|OTHER|||||||0.149|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 0.149||||0.149
92294906|NCT01294449|184494744|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.37|TWO_SIDED|95.0|0.67|1.161|||Regression, Cox||The hazard ratio was calculated as the hazard rate of mortality in the CRT-D group over the hazard rate of mortality in the ICD group. A hazard ratio lower than 1 represents a reduction in relative risk of mortality for CRT-D compared to ICD.|The sample size for the analysis included subjects from the original MADIT-CRT IDE (NCT00180271) that did not participate in the Registry portion, these subjects are censored at the time of study conclusion, withdrawal or death during the IDE. This was done as the Registry is a post approval continuation of the follow-up from the MADIT-CRT IDE trial. This is not a pooled analysis from separate studies.||1.161|0.670|0.370
92294907|NCT01294449|184494744|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.028|TWO_SIDED|95.0|0.484|0.96|||Regression, Cox||The hazard ratio was calculated as the hazard rate of mortality in the CRT-D arm over the hazard rate of mortality in the ICD arm. A hazard ratio lower than 1 represents a reduction in relative risk of mortality for CRT-D compared to ICD.|These data represent the indicated sub population of left bundle branch block subjects only. (Left bundle branch block N= 110 ICD group: 181 CRT-D group)||0.960|0.484|0.028
92294908|NCT04718129|184494782|SUPERIORITY||Mean Difference (Net)|0.044|STANDARD_ERROR_OF_MEAN|0.021||0.048|TWO_SIDED|95.0|0.003|0.085|||Regression, Linear|||||.085|.003|.048
92294909|NCT02212457|184494783|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded when, at 1 month after the second meningococcal vaccination (Visit Month 3), the lower limit of the two-sided 95% confidence interval for the between-group ratios of GMTs (ABCWY\_0\_2 versus rMenB\_0\_2) was greater than 0.5 for each of the four serogroup B test strains.|Geometric Mean Ratio|0.74|||||TWO_SIDED|95.0|0.53|1.02|||ANCOVA|||Non-inferiority response against N. meningitidis serogroup B test strain M14459 of the MenABCWY vaccine to that of the Bexsero vaccine, administered according to 0, 2 month schedule.||1.02|0.53|
92294910|NCT02212457|184494783|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded when, at 1 month after the second meningococcal vaccination (Visit Month 3), the lower limit of the two-sided 95% confidence interval for the between-group ratios of GMTs (ABCWY\_0\_2 versus rMenB\_0\_2) was greater than 0.5 for each of the four serogroup B test strains.|Geometric Mean Ratio|0.71|||||TWO_SIDED|95.0|0.54|0.94|||ANCOVA|||Non-inferiority response against N. meningitidis serogroup B test strain M07-0241084 of the MenABCWY vaccine to that of the Bexsero vaccine, administered according to 0, 2 month schedule.||0.94|0.54|
92294911|NCT02212457|184494783|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded when, at 1 month after the second meningococcal vaccination (Visit Month 3), the lower limit of the two-sided 95% confidence interval for the between-group ratios of GMTs (ABCWY\_0\_2 versus rMenB\_0\_2) was greater than 0.5 for each of the four serogroup B test strains.|Geometric Mean Ratio|0.66|||||TWO_SIDED|95.0|0.51|0.85|||ANCOVA|||Non-inferiority response against N. meningitidis serogroup B test strain 96217 of the MenABCWY vaccine to that of the Bexsero vaccine, administered according to 0, 2 month schedule.||0.85|0.51|
92294912|NCT02212457|184494783|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded when, at 1 month after the second meningococcal vaccination (Visit Month 3), the lower limit of the two-sided 95% confidence interval for the between-group ratios of GMTs (ABCWY\_0\_2 versus rMenB\_0\_2) was greater than 0.5 for each of the four serogroup B test strains.|Geometric Mean Ratio|0.49|||||TWO_SIDED|95.0|0.37|0.66|||ANCOVA|||Non-inferiority response against N. meningitidis serogroup B test strain NZ98/254 of the MenABCWY vaccine to that of the Bexsero vaccine, administered according to 0, 2 month schedule.||0.66|0.37|
92294913|NCT00688844|184494814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.655574|STANDARD_DEVIATION|8.060658||0.692782|||||||t-test, 2 sided|||Objective was to evaluate BMI across one year in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.692782
92184977|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.0161||||||Week 08|ANCOVA|||||||0.0161
92184978|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.0973||||||Week 09|ANCOVA|||||||0.0973
92184979|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.4661||||||Week 10|ANCOVA|||||||0.4661
92294914|NCT00688844|184494815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005401|STANDARD_DEVIATION|0.0243|<|0.001|||||||t-test, 2 sided|||Objective was to evaluate total body bone mineral density (BMD) one year via DXA in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||<0.001
92294915|NCT00688844|184494816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.419224|STANDARD_DEVIATION|3.4666||0.017941|||||||t-test, 2 sided|||Objective was to evaluate % lean mass across one year via DXA in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.017941
92294916|NCT00688844|184494817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.208889|STANDARD_DEVIATION|3.51967||0.026009|||||||t-test, 2 sided|||Objective was to evaluate % fat mass across one year via DXA in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.026009
92294917|NCT00688844|184494818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-67.5187|STANDARD_DEVIATION|362.9412||0.303864|||||||t-test, 2 sided|||Objective was to evaluate plasma phenylalanine across one year in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.303864
92294918|NCT00688844|184494819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9549|STANDARD_DEVIATION|20.10814||0.00088|||||||t-test, 2 sided|||Objective was to evaluate protein intake (grams per day) across one year in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.00088
92294919|NCT00688844|184494820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131676|STANDARD_DEVIATION|0.797247||0.3811|||||||t-test, 2 sided|||Objective was to evaluate dietary phenylalanine intake across one year in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.3811
92294920|NCT01745952|184494837|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9819|TWO_SIDED||||||negative binomial model + overdispersion|||||||0.9819
92184980|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.601||||||Week 11|ANCOVA|||||||0.6010
92184981|NCT01853384|184268631|SUPERIORITY_OR_OTHER|||||||0.3369||||||Week 12|ANCOVA|||||||0.3369
92184982|NCT00486954|184268643|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.2088|TWO_SIDED|95.0|0.64|1.11|||Log Rank|||||1.11|0.64|0.2088
92184983|NCT02753075|184268700|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.09||||0.829|TWO_SIDED|95.0|-0.289|0.461||For the Week 8 comparisons of two Oral Rinses against the Placebo Rinse, Dunnett's multiplicity adjustment is applied.|ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.461|-0.289|0.8290
92294921|NCT05718648|184494858|OTHER||Ratio of adjusted geometric means [%]|129.24|||||TWO_SIDED|90.0|91.62|182.31|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 37.5|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||182.31|91.62|
92294922|NCT05718648|184494858|OTHER||Ratio of adjusted geometric means [%]|137.44|||||TWO_SIDED|90.0|89.06|212.12|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 52.4|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||212.12|89.06|
92294923|NCT05718648|184494859|OTHER||Ratio of adjusted geometric means [%]|131.83|||||TWO_SIDED|90.0|93.32|186.22|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 37.7|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||186.22|93.32|
92294924|NCT05718648|184494859|OTHER||Ratio of adjusted geometric means [%]|127.43|||||TWO_SIDED|90.0|85.92|188.99|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 43.5|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||188.99|85.92|
92294925|NCT05718648|184494860|OTHER||Ratio of adjusted geometric means [%]|86.06|||||TWO_SIDED|90.0|64.88|114.15|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 30.5|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||114.15|64.88|
92294926|NCT05718648|184494860|OTHER||Ratio of adjusted geometric means [%]|96.57|||||TWO_SIDED|90.0|56.8|164.16|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 66.2|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||164.16|56.80|
92294927|NCT05718648|184494861|OTHER||Ratio of adjusted geometric means [%]|83.15|||||TWO_SIDED|90.0|60.91|113.51|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 33.8|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||113.51|60.91|
92294928|NCT05718648|184494861|OTHER||Ratio of adjusted geometric means [%]|90.49|||||TWO_SIDED|90.0|52.4|156.26|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 68.5|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||156.26|52.40|
92184984|NCT02753075|184268700|SUPERIORITY_OR_OTHER||LS mean difference|-0.01||||0.9993|TWO_SIDED|95.0|-0.372|0.362||For the Week 8 comparisons of two Oral Rinses against the Placebo Rinse, Dunnett's multiplicity adjustment is applied.|ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.362|-0.372|0.9993
92184985|NCT02753075|184268701|SUPERIORITY_OR_OTHER||LS mean difference|0.09||||0.5892|TWO_SIDED|95.0|-0.242|0.424|||ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.424|-0.242|0.5892
92184986|NCT02753075|184268702|SUPERIORITY_OR_OTHER||LS mean difference|0.14||||0.2825|TWO_SIDED|95.0|-0.116|0.396|||ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.396|-0.116|0.2825
92184987|NCT02753075|184268702|SUPERIORITY_OR_OTHER||LS mean difference|0.03||||0.8448|TWO_SIDED|95.0|-0.229|0.28|||ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.280|-0.229|0.8448
92184988|NCT02753075|184268702|SUPERIORITY_OR_OTHER||LS mean difference|0.11||||0.3784|TWO_SIDED|95.0|-0.141|0.371|||ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.371|-0.141|0.3784
92184989|NCT02753075|184268703|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.1688|TWO_SIDED|95.0|-10.0|0.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. Median Difference has been calculated from non-parametric Hodges-Lehmann estimations.|||0.000|-10.00|0.1688
92184990|NCT02753075|184268703|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.438|TWO_SIDED|95.0|-5.0|0.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. Median Difference has been calculated from non-parametric Hodges-Lehmann estimations.|||0.000|-5.000|0.4380
92184991|NCT02753075|184268703|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.5693|TWO_SIDED|95.0|-5.0|0.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. Median Difference has been calculated from non-parametric Hodges-Lehmann estimations.|||0.000|-5.000|0.5693
92184992|NCT02753075|184268704|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.7789|TWO_SIDED|95.0|-5.0|0.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||0.000|-5.000|0.7789
92184993|NCT02753075|184268704|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.7214|TWO_SIDED|95.0|-5.0|0.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||0.000|-5.000|0.7214
92184994|NCT02753075|184268704|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.896|TWO_SIDED|95.0|-5.0|5.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||5.000|-5.000|0.8960
92184995|NCT02753075|184268705|SUPERIORITY_OR_OTHER||LS mean difference|0.45||||0.0978|TWO_SIDED|95.0|-0.084|0.987|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.987|-0.084|0.0978
92184996|NCT02753075|184268705|SUPERIORITY_OR_OTHER||LS mean difference|0.2||||0.4607|TWO_SIDED|95.0|-0.333|0.732|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.732|-0.333|0.4607
92184997|NCT02753075|184268705|SUPERIORITY_OR_OTHER||LS mean difference|0.25||||0.3542|TWO_SIDED|95.0|-0.283|0.787|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.787|-0.283|0.3542
92184998|NCT02753075|184268706|SUPERIORITY_OR_OTHER||LS mean difference|0.02||||0.9474|TWO_SIDED|95.0|-0.665|0.711|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.711|-0.665|0.9474
92184999|NCT02753075|184268706|SUPERIORITY_OR_OTHER||LS mean difference|-0.09||||0.7987|TWO_SIDED|95.0|-0.76|0.586|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.586|-0.760|0.7987
92185000|NCT02753075|184268706|SUPERIORITY_OR_OTHER||LS mean difference|0.11||||0.7525|TWO_SIDED|95.0|-0.578|0.798|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.798|-0.578|0.7525
92185001|NCT01215253|184268725|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.117|TWO_SIDED|95.0|0.67|1.05|||Regression, Cox|||||1.05|0.67|0.117
92185002|NCT01215253|184268726|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.891|TWO_SIDED|95.0|0.76|1.26|||Regression, Cox|||||1.26|0.76|0.891
92185003|NCT01215253|184268727|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.028|TWO_SIDED|95.0|0.51|0.96|||Anderson-Gill analysis|||||0.96|0.51|0.028
92185004|NCT01215253|184268728|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.398|TWO_SIDED|95.0|0.38|1.47|||Regression, Cox|||||1.47|0.38|0.398
92185005|NCT01215253|184268729|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.316|TWO_SIDED|95.0|0.91|1.34|||Regression, Cox|||||1.34|0.91|0.316
92185006|NCT01215253|184268730|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.577|TWO_SIDED|95.0|0.84|1.37|||Regression, Cox|||||1.37|0.84|0.577
92185007|NCT01215253|184268731|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.871|TWO_SIDED|95.0|0.69|1.37|||Regression, Cox|||||1.37|0.69|0.871
92185008|NCT01215253|184268732|SUPERIORITY|||||||0.508|||||||nonparametric Wilcoxon rank-sum test|||||||0.508
92185009|NCT01215253|184268733|SUPERIORITY|||||||0.948|||||||nonparametric Wilcoxon rank-sum test|||||||0.948
92185010|NCT01215253|184268734|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.038|TWO_SIDED|95.0|0.55|0.98|||Regression, Cox|||||0.98|0.55|0.038
92185011|NCT01215253|184268735|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.947|TWO_SIDED|95.0|0.73|1.41|||Regression, Cox|||||1.41|0.73|0.947
92185012|NCT01215253|184268736|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.414|TWO_SIDED|95.0|0.36|1.52|||Anderdon-Gill analysis|||||1.52|0.36|0.414
92294929|NCT05718648|184494862|OTHER||Ratio of adjusted geometric means [%]|128.55|||||TWO_SIDED|90.0|87.42|189.02|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 39.8|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||189.02|87.42|
92294930|NCT05718648|184494862|OTHER||Ratio of adjusted geometric means [%]|136.16|||||TWO_SIDED|90.0|88.41|209.69|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 52.1|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||209.69|88.41|
92144824|NCT00977665|184174148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.603||||0.6984|TWO_SIDED|95.0|-3.677|2.47||A priori threshold for statistical significance is 0.05.|repeated measures model|Fixed effects: categorical week in trial by treatment interaction, center, and baseline UMSARS score.||||2.470|-3.677|0.6984
92144825|NCT00977665|184174157|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.189|||||TWO_SIDED|95.0|0.646|2.186||||||||2.186|0.646|
92144826|NCT01662882|184174202|SUPERIORITY_OR_OTHER|||||||0.0253||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups.||||0.0253
92144827|NCT01662882|184174202|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups.||||0.0004
92144828|NCT01662882|184174202|SUPERIORITY_OR_OTHER|||||||0.4184||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups.||||0.4184
92185013|NCT00080119|184268737|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.93|TWO_SIDED|95.0|0.67|1.44||Threshold p-value for significance = 0.0492|Log Rank||Hazard ratio for INH relative to Placebo|||1.44|0.67|0.93
92185014|NCT00080119|184268738|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.43|TWO_SIDED|95.0|0.55|1.3||Threshold p-value for significance = 0.0493|Log Rank||Hazard ratio for INH relative to Placebo|||1.30|0.55|0.43
92144829|NCT01662882|184174202|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups.||||0.0008
92144830|NCT01662882|184174203|SUPERIORITY_OR_OTHER|||||||0.0039||95.0|||||ANOVA|||Analysis of variance P value testing for an overall difference in the mean cortical SUVR between the clinical diagnostic groups.||||0.0039
92144831|NCT01662882|184174203|SUPERIORITY_OR_OTHER|||||||0.0357||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||0.0357
92144832|NCT01662882|184174203|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||0.0010
92185015|NCT02291861|184268787|SUPERIORITY||LSM difference|-1.9||||0.001|TWO_SIDED|95.0|-3.09|-0.79||Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~The primary endpoint compared the change in total motor AIMS score from baseline to week 12 between the SD-809 36 mg/day group and the placebo group."||-0.79|-3.09|0.001
92144833|NCT01662882|184174203|SUPERIORITY_OR_OTHER|||||||0.2118||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||0.2118
92144834|NCT00518115|184174204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.2968|TWO_SIDED|95.0|-0.18|0.59|||ANCOVA|||||0.59|-0.18|0.2968
92144835|NCT00518115|184174204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.186|TWO_SIDED|95.0|-0.64|0.12|||ANCOVA|||||0.12|-0.64|0.1860
92144836|NCT00518115|184174204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.0027|TWO_SIDED|95.0|-1.03|-0.22|||ANCOVA|||||-0.22|-1.03|0.0027
92144837|NCT00518115|184174204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.2766|TWO_SIDED|95.0|-0.62|0.18|||ANCOVA|||||0.18|-0.62|0.2766
92144838|NCT00518115|184174204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0057|TWO_SIDED|95.0|-0.94|-0.16|||ANCOVA|||||-0.16|-0.94|0.0057
92144839|NCT00518115|184174204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0032|TWO_SIDED|95.0|-0.96|-0.19|||ANCOVA|||||-0.19|-0.96|0.0032
92144840|NCT00518115|184174204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.0786|TWO_SIDED|95.0|-0.72|0.04|||ANCOVA|||||0.04|-0.72|0.0786
92144841|NCT00518115|184174204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0022|TWO_SIDED|95.0|-0.99|-0.22|||ANCOVA|||||-0.22|-0.99|0.0022
92144842|NCT04891419|184174223|SUPERIORITY||Rate Difference|91.1|||<|0.0001|TWO_SIDED|95.0|83.7|95.9||P-value is based on the Fisher's Exact Test.|Fisher Exact||95% exact unconditional confidence interval for between-group difference in responder rate.|||95.9|83.7|<.0001
92144843|NCT04891419|184174224|SUPERIORITY||Control Difference|54.5|STANDARD_ERROR_OF_MEAN|2.69|<|0.0001|TWO_SIDED|95.0|49.2|59.9||P-value estimated using mixed effects model.|Mixed Models Analysis||95% CI estimated using mixed effects model.|||59.9|49.2|<.0001
92144844|NCT04891419|184174225|SUPERIORITY||Control Difference|42.8|STANDARD_ERROR_OF_MEAN|2.63|<|0.0001|TWO_SIDED|95.0|37.6|48.0||95% CI and p-value estimated using mixed effects model.|Mixed Models Analysis|||||48.0|37.6|<.0001
92144845|NCT04891419|184174226|SUPERIORITY||Rate Difference|93.1|||<|0.0001|TWO_SIDED|95.0|86.1|97.2||P-value is based on Fisher's Exact Test.|Fisher Exact||95% exact unconditional confidence interval for between-group difference in responder rate.|||97.2|86.1|<.0001
92144846|NCT04891419|184174227|SUPERIORITY||Rate Difference|92.1|||<|0.0001|TWO_SIDED|95.0|84.9|96.5||P-value is based on Fisher's Exact Test.|Fisher Exact||95% exact unconditional confidence interval for between-group difference in responder rate.|||96.5|84.9|<.0001
92294931|NCT05718648|184494863|OTHER||Ratio of adjusted geometric means [%]|125.06|||||TWO_SIDED|90.0|85.27|183.4|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 39.6|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||183.40|85.27|
92294932|NCT05718648|184494863|OTHER||Ratio of adjusted geometric means [%]|126.61|||||TWO_SIDED|90.0|85.3|187.92|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 43.6|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||187.92|85.30|
92294933|NCT00401245|184494908|SUPERIORITY_OR_OTHER|||||||0.024||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|Chi-squared|||Overall comparison was made between each titration regimen and the control regimen (100 mg).||||0.024
92294934|NCT00401245|184494909|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50 mg QOD, analysis of variance (ANOVA) was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||< 0.001
92294935|NCT00401245|184494909|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50/25 mg, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||<0.001
92294936|NCT00401245|184494909|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50 mg/Placebo, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||<0.001
92294937|NCT00401245|184494910|SUPERIORITY_OR_OTHER|||||||0.092||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50 mg QOD, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor||||0.092
92294938|NCT00401245|184494910|SUPERIORITY_OR_OTHER|||||||0.997||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50/25 mg, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor||||0.997
92144847|NCT02235493|184174228|SUPERIORITY_OR_OTHER|||||||0.0625|TWO_SIDED|||||The p-value is based on a nonparametric sign test to determine whether the median of change from Baseline in MPOMA-G score differs from 0. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||Videos were reviewed and scored by 3 independent raters who were masked to patient identifiers and the clinic visits and dates when the videos were recorded. Each rater scored the individual components required for the calculation of the total MPOMA-G score for each evaluable patient video. The median of the scores across the 3 raters was obtained for each individual component and summed to generate the median MPOMA-G score used in the analyses.||||0.0625
92185016|NCT02291861|184268787|SUPERIORITY||LSM difference|-1.8||||0.003|TWO_SIDED|95.0|-3.0|-0.63||Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~This key secondary endpoint compared the change in total motor AIMS score from baseline to week 12 between the SD-809 24 mg/day group and the placebo group, and is the third analysis in the fixed-sequence."||-0.63|-3.00|0.003
92294939|NCT00401245|184494910|SUPERIORITY_OR_OTHER|||||||0.009||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50 mg/Placebo, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor||||0.009
92294940|NCT00401245|184494911|SUPERIORITY_OR_OTHER|||||||0.078|TWO_SIDED|||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50 mg QOD, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||0.078
92294941|NCT00401245|184494911|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50/25 mg, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||0.005
92294942|NCT00401245|184494911|SUPERIORITY_OR_OTHER|||||||0.929||95.0||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50mg/Placebo, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||0.929
92294943|NCT00401245|184494913|SUPERIORITY_OR_OTHER|||||||0.017||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|Chi-squared|||Overall comparison was made between each titration regimen and the control regimen (100 mg).||||0.017
92294944|NCT00401245|184494920|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|t-test, 2 sided|||Comparison was made between the difference in the means from the baseline value and post-baseline (Week 4) value with 0.||||<0.001
92185017|NCT02291861|184268787|SUPERIORITY||LSM difference|-0.7||||0.217|TWO_SIDED|95.0|-1.84|0.42||Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~This key secondary endpoint compared the change in total motor AIMS score from baseline to week 12 between the SD-809 12 mg/day group and the placebo group, and is the fifth analysis in the fixed-sequence."||0.42|-1.84|0.217
92185018|NCT02291861|184268788|SUPERIORITY||Odds Ratio (OR)|2.11||||0.059|TWO_SIDED|95.0|0.96|4.645|||Cochran-Mantel-Haenszel|The statistical test was a Cochran-Mantel-Haenszel (CMH) test stratified by baseline use of dopamine receptor antagonist (DRAs).|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~This key secondary endpoint compared the percentage of patients considered a treatment success at week 12 between the SD-809 36 mg/day group and the placebo group, and is the second analysis in the fixed-sequence."||4.645|0.960|0.059
92185019|NCT02291861|184268788|SUPERIORITY||Odds Ratio (OR)|2.71||||0.014|TWO_SIDED|95.0|1.211|6.052|||Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~This key secondary endpoint compared the percentage of patients considered a treatment success at week 12 between the SD-809 24 mg/day group and the placebo group, and is the fourth analysis in the fixed-sequence."||6.052|1.211|0.014
92185020|NCT02291861|184268788|SUPERIORITY||Odds Ratio (OR)|1.15||||0.734|TWO_SIDED|95.0|0.509|2.61|||Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~This key secondary endpoint compared the percentage of patients considered a treatment success at week 12 between the SD-809 12 mg/day group and the placebo group, and is the sixth (last) analysis in the fixed-sequence."||2.610|0.509|0.734
92185021|NCT02291861|184268789|SUPERIORITY||LSM difference|-3.6||||0.207|TWO_SIDED|95.0|-9.18|2.0||5% level of significance (2-sided)|ANCOVA|The statistical model was an ANCOVA with treatment group and baseline use of DRAs as fixed effects and the baseline value as a covariate.|SD-809 - placebo|||2.00|-9.18|0.207
92185022|NCT02291861|184268789|SUPERIORITY||LSM difference|-3.1||||0.281|TWO_SIDED|95.0|-8.86|2.59||5% level of significance (2-sided)|ANCOVA|The statistical model was an ANCOVA with treatment group and baseline use of DRAs as fixed effects and the baseline value as a covariate.|SD-809 - placebo|||2.59|-8.86|0.281
92185023|NCT02291861|184268789|SUPERIORITY||LSM difference|1.3||||0.627|TWO_SIDED|95.0|-4.1|6.79||5% level of significance (2-sided)|ANCOVA|The statistical model was an ANCOVA with treatment group and baseline use of DRAs as fixed effects and the baseline value as a covariate.|SD-809 - placebo|||6.79|-4.10|0.627
92185024|NCT02291861|184268790|SUPERIORITY||Odds Ratio (OR)|1.51||||0.296|TWO_SIDED|95.0|0.694|3.285||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||3.285|0.694|0.296
92185025|NCT02291861|184268790|SUPERIORITY||Odds Ratio (OR)|1.82||||0.134|TWO_SIDED|95.0|0.826|3.994||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||3.994|0.826|0.134
92185026|NCT02291861|184268790|SUPERIORITY||Odds Ratio (OR)|0.69||||0.372|TWO_SIDED|95.0|0.302|1.563||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||1.563|0.302|0.372
92185027|NCT02291861|184268791|SUPERIORITY||Odds Ratio (OR)|3.8||||0.007|TWO_SIDED|95.0|1.395|10.359||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||10.359|1.395|0.007
92185028|NCT02291861|184268791|SUPERIORITY||Odds Ratio (OR)|3.96||||0.005|TWO_SIDED|95.0|1.46|10.716||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||10.716|1.460|0.005
92185029|NCT02291861|184268791|SUPERIORITY||Odds Ratio (OR)|1.13||||0.829|TWO_SIDED|95.0|0.383|3.316||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||3.316|0.383|0.829
92185030|NCT02291861|184268792|SUPERIORITY||Mean Difference (Final Values)|-21.5|||<|0.001|TWO_SIDED|95.0|-33.44|-9.52||5% level of significance (2-sided). Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|||-9.52|-33.44|<0.001
92294945|NCT00401245|184494920|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|t-test, 2 sided|||Comparison was made between the difference in the means from the baseline value and post-baseline (Week 8) value with 0.||||< 0.001
92294946|NCT00401245|184494920|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|t-test, 2 sided|||Comparison was made between the difference in the means from the base value and post-baseline (Week 12) value with 0.||||<0.001
92294947|NCT00401245|184494920|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|t-test, 2 sided|||Comparison was made between the difference in the means from the baseline value and post-baseline (Week 16) value with 0.||||<0.001
92294948|NCT02344745|184494923|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92294949|NCT02344745|184494924|SUPERIORITY_OR_OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.70
92185031|NCT02291861|184268792|SUPERIORITY||Mean Difference (Final Values)|-20.2||||0.001|TWO_SIDED|95.0|-32.57|-7.92||5% level of significance (2-sided). Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|||-7.92|-32.57|0.001
92185032|NCT02291861|184268792|SUPERIORITY||Mean Difference (Final Values)|-8.4||||0.16|TWO_SIDED|95.0|-20.15|3.34||5% level of significance (2-sided). Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|||3.34|-20.15|0.160
92185033|NCT04332991|184268795|SUPERIORITY||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.73|1.42|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group.|Outcome measure was adjusted for age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization.||1.42|0.73|
92185034|NCT04332991|184268796|SUPERIORITY||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.9|1.81|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.81|0.90|
92185035|NCT04332991|184268797|SUPERIORITY||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.84|1.61|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.61|0.84|
92185036|NCT04332991|184268798|SUPERIORITY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.69|1.38|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure is adjusted for : age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization.||1.38|0.69|
92185037|NCT04332991|184268799|SUPERIORITY||Odds Ratio (OR)|1.56|||||TWO_SIDED|95.0|0.68|3.57|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||3.57|0.68|
92185038|NCT04332991|184268800|SUPERIORITY||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.54|2.09|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||2.09|0.54|
92185039|NCT04332991|184268801|SUPERIORITY||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.6|2.14|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||2.14|0.60|
92185040|NCT04332991|184268802|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.68|1.34|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.34|0.68|
92185041|NCT04332991|184268803|SUPERIORITY||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|0.76|2.08|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||2.08|0.76|
92185042|NCT04332991|184268804|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.61|1.72|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.72|0.61|
92294950|NCT02344745|184494925|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92294951|NCT02344745|184494926|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.50
92185043|NCT04332991|184268805|SUPERIORITY||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|0.84|1.88|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.88|0.84|
92185044|NCT04332991|184268806|SUPERIORITY||Odds Ratio (OR)|1.17|||||TWO_SIDED|95.0|0.85|1.61|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.61|0.85|
92185045|NCT04332991|184268807|SUPERIORITY||Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-1.0|1.8||||||||1.8|-1.0|
92185046|NCT04332991|184268808|SUPERIORITY||Odds Ratio (OR)|1.36|||||TWO_SIDED|95.0|0.61|3.02|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||3.02|0.61|
92185047|NCT04332991|184268809|SUPERIORITY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.24|2.7|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||2.70|0.24|
92185048|NCT04332991|184268810|SUPERIORITY||Odds Ratio (OR)|2.51|||||TWO_SIDED|95.0|0.78|8.12|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||8.12|0.78|
92294952|NCT02788513|184494927|OTHER|||||||0.9931||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod Beta model fit.|Model assumption: 75% of max effect is achieved at 2 mg, 87.5% at 5 mg, 25% at 25 mg, max effect achieved at 10 mg of BI 425809, scalar parameter = 26||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.9931
92185049|NCT04332991|184268811|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.45|1.05|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||1.05|0.45|
92185050|NCT04332991|184268812|SUPERIORITY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.24|2.7|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||2.70|0.24|
92185051|NCT04332991|184268813|SUPERIORITY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.59|1.59|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||1.59|0.59|
92185052|NCT04332991|184268814|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.3|1.58|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||1.58|0.30|
92185053|NCT04332991|184268815|SUPERIORITY||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|0.48|3.18|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||3.18|0.48|
92185054|NCT04332991|184268816|SUPERIORITY||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.24|3.96|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||3.96|0.24|
92185055|NCT04332991|184268817|SUPERIORITY||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.73|1.53|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||1.53|0.73|
92185056|NCT04332991|184268818|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.92|1.89|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||1.89|0.92|
92185057|NCT04332991|184268819|SUPERIORITY||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.21|2.94|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||2.94|0.21|
92185058|NCT04332991|184268820|SUPERIORITY||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.06|15.74|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||15.74|0.06|
92185059|NCT04332991|184268821|SUPERIORITY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.69|1.35|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.35|0.69|
92185060|NCT02336958|184268830|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0
92294953|NCT02788513|184494927|OTHER|||||||0.9225||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod Emax model fit.|Model assumption: 20% of the maximum effect is achieved at 2 mg||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.9225
92294954|NCT02788513|184494927|OTHER|||||||0.9287||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod Sigmoidal Emax model fit.|Model assumption: 25% of max effect achieved at 5 mg and 75% of max effect achieved at 10 mg of BI 425809.||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.9287
92294955|NCT02788513|184494927|OTHER|||||||0.7646||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod linear model fit.|No assumption needed.||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.7646
92294956|NCT02788513|184494927|OTHER|||||||0.9335||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod linear in log model fit.|No assumption needed.||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.9335
92185061|NCT02336958|184268831|SUPERIORITY_OR_OTHER|||||||0.459|TWO_SIDED||||||t-test, 2 sided|||||||0.459
92185062|NCT03547154|184268832|SUPERIORITY_OR_OTHER|||||||0.322||||||Analysis of Major Response|Fisher Exact|Missing data considered failures||||||0.322
92185063|NCT03547154|184268833|SUPERIORITY_OR_OTHER||||||>|0.999||||||Analysis of Major Response|Fisher Exact|Missing data considered failures||||||>0.999
92294957|NCT02788513|184494927|OTHER|||||||0.8199||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod logistic model fit.|Model assumption: 10% of max effect achieved at 5 mg and 50% of max effect achieved at 10 mg of BI 425809.||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.8199
92185064|NCT03547154|184268834|SUPERIORITY_OR_OTHER|||||||0.588||||||Analysis of Complete Response|Fisher Exact|Missing data considered failures||||||0.588
92185065|NCT03547154|184268835|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.859|||||TWO_SIDED|95.0|0.429|1.721|||||Overall survival was analyzed using the log-rank statistic. The HR and 95% CI for the HR were obtained using Cox's proportional hazards model.|||1.721|0.429|
92185066|NCT01762982|184268844|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0654||95.0|||||Signed Rank Test|||Null hypothesis considered no treatment difference between the treatments being compared.||||0.0654
92185067|NCT01762982|184268847|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0078||95.0|||||Signed Rank Test|||Null hypothesis considered no treatment difference between the treatments being compared.||||0.0078
92185068|NCT01762982|184268848|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0547||95.0|||||Signed Rank Test|||Null hypothesis considered no treatment difference between the treatments being compared.||||0.0547
92294958|NCT02788513|184494927|OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.58||0.934|TWO_SIDED|95.0|-1.09|1.18||p-values are nominal without multiplicity adjustment.|MMRM|MMRM information is described in the description section.||Mixed model repeated measures (MMRM)||1.18|-1.09|0.9340
92185069|NCT01262456|184268870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||<|0.0001|TWO_SIDED|95.0|-0.61|-0.22||A priori threshold for significance was p\<=0.05.|ANCOVA|Repeated measures ANCOVA of change from baseline at Week 1, Months 1, 2, 3, adjusted for age (\<65, ≥65 years), visit, and baseline nocturnal voids.||"Superiority to placebo was to be simultaneously demonstrated on the 2 co-primary outcomes in a step-down approach from highest (75 μg) to lowest dose (50 μg), thereby controlling the family-wise error rate at the 5% nominal significance level.~A summary of mean change in nocturnal voids, assessed longitudinally during 3 months of treatment, is presented below for the FAS using LOCF."||-0.22|-0.61|<0.0001
92185070|NCT01262456|184268870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.0003|TWO_SIDED|95.0|-0.57|-0.17||A priori threshold for significance was p\<=0.05|ANCOVA|Repeated measures ANCOVA of change from baseline at Week 1, Months 1, 2, 3, adjusted for age (\<65, ≥65 years), visit, and baseline nocturnal voids.||"Superiority to placebo was to be simultaneously demonstrated on the 2 co-primary outcomes in a step-down approach from highest (75 μg) to lowest dose (50 μg), thereby controlling the family-wise error rate at the 5% nominal significance level.~A summary of mean change in nocturnal voids, assessed longitudinally during 3 months of treatment, is presented below for the FAS using LOCF."||-0.17|-0.57|0.0003
92185071|NCT01262456|184268871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04||||0.0004|TWO_SIDED|95.0|1.38|3.03||A priori threshold for significance was p\<=0.05.|Generalized Estimating Equation (GEE)|GEE Method for 33% responder status at Week 1, Month 1, Month 2, and Month 3, adjusted for age (\<65, ≥65 years), visit, and baseline nocturnal voids.||Superiority to placebo was to be simultaneously demonstrated on the 2 co-primary endpoints in a step-down approach from highest (75 μg) to lowest dose (50 μg), thereby controlling the family-wise error rate at the 5% nominal significance level.||3.03|1.38|0.0004
92185072|NCT01262456|184268871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98||||0.0009|TWO_SIDED|95.0|1.32|2.96||A priori threshold for significance was p\<=0.05.|Generalized Estimating Equation (GEE)|GEE Method for 33% responder status at Week 1, Month 1, Month 2, and Month 3, adjusted for age (\<65, ≥65 years), visit, and baseline nocturnal voids.||Superiority to placebo was to be simultaneously demonstrated on the 2 co-primary endpoints in a step-down approach from highest (75 μg) to lowest dose (50 μg), thereby controlling the family-wise error rate at the 5% nominal significance level.||2.96|1.32|0.0009
92185073|NCT01262456|184268872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0029|TWO_SIDED|95.0|-0.57|-0.12||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal voids using last observation carried forward.||"Change from baseline in the adjusted mean number of nocturnal voids in the FAS using LOCF.~The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg)."||-0.12|-0.57|0.0029
92185074|NCT01262456|184268872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.0128|TWO_SIDED|95.0|-0.52|-0.06||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal voids.||"Change from baseline in the adjusted mean number of nocturnal voids in the FAS using LOCF.~The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg)."||-0.06|-0.52|0.0128
92185075|NCT01262456|184268873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.0233|TWO_SIDED|95.0|1.08|3.02||A priori threshold for significance was p\<=0.05.|Regression, Logistic|Logistical regression of 33% responder status adjusted for age (\<65, \>=65) and baseline nocturnal voids using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||3.02|1.08|0.0233
92185076|NCT01262456|184268873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||0.0386|TWO_SIDED|95.0|1.03|2.87||A priori threshold for significance was p\<=0.05.|Regression, Logistic|Logistical regression of 33% responder status adjusted for age (\<65, \>=65) and baseline nocturnal voids using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||2.87|1.03|0.0386
92185077|NCT01262456|184268874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.76||||0.0026|TWO_SIDED|95.0|15.02|70.51||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline time to first nocturnal void using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||70.51|15.02|0.0026
92294959|NCT02788513|184494927|OTHER||Median Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.58||0.6041|TWO_SIDED|95.0|-0.84|1.44||p-values are nominal without multiplicity adjustment.|MMRM|MMRM information is described in the description section.||Mixed model repeated measures (MMRM)||1.44|-0.84|0.6041
92294960|NCT02788513|184494927|OTHER||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.58||0.1926|TWO_SIDED|95.0|-0.38|1.9||p-values are nominal without multiplicity adjustment.|MMRM|MMRM information is described in the description section.||Mixed model repeated measures (MMRM)||1.90|-0.38|0.1926
92185078|NCT01262456|184268874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.95||||0.0064|TWO_SIDED|95.0|11.03|66.88||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline time to first nocturnal void using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||66.88|11.03|0.0064
92185079|NCT01262456|184268875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-86.17||||0.0034|TWO_SIDED|95.0|-143.69|-28.64||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal urine volume using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||-28.64|-143.69|0.0034
92294961|NCT02788513|184494927|OTHER||Median Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.58||0.9739|TWO_SIDED|95.0|-1.16|1.12||p-values are nominal without multiplicity adjustment.|MMRM|MMRM information is described in the description section.||Mixed model repeated measures (MMRM)||1.12|-1.16|0.9739
92294962|NCT02788513|184494928|OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.76||0.979|TWO_SIDED|95.0|-1.48|1.52||p-values are nominal without multiplicity adjustment.|ANCOVA|Analysis of Covariance model included baseline value for the secondary endpoint measure, MMSE stratification (\>=20, \<20) at baseline and treatment.||Analysis of Covariance (ANCOVA)||1.52|-1.48|0.979
92294963|NCT02788513|184494928|OTHER||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.77||0.521|TWO_SIDED|95.0|-1.01|2.0||p-values are nominal without multiplicity adjustment.|ANCOVA|Analysis of Covariance model included baseline value for the secondary endpoint measure, MMSE stratification (\>=20, \<20) at baseline and treatment.||Analysis of Covariance (ANCOVA)||2.00|-1.01|0.521
92294964|NCT02788513|184494928|OTHER||Mean Difference (Final Values)|-1.53|STANDARD_ERROR_OF_MEAN|0.77||0.047|TWO_SIDED|95.0|-3.04|-0.02||p-values are nominal without multiplicity adjustment.|ANCOVA|Analysis of Covariance model included baseline value for the secondary endpoint measure, MMSE stratification (\>=20, \<20) at baseline and treatment.||Analysis of Covariance (ANCOVA)||-0.02|-3.04|0.047
92294965|NCT02788513|184494928|OTHER||Mean Difference (Final Values)|-2.16|STANDARD_ERROR_OF_MEAN|0.76||0.005|TWO_SIDED|95.0|-3.65|-0.67||p-values are nominal without multiplicity adjustment.|ANCOVA|Analysis of Covariance model included baseline value for the secondary endpoint measure, MMSE stratification (\>=20, \<20) at baseline and treatment.||Analysis of Covariance (ANCOVA)||-0.67|-3.65|0.005
92294966|NCT02788513|184494929|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.343|TWO_SIDED|95.0|-0.32|0.11||p-values are nominal without multiplicity adjustment.|ANCOVA|ANCOVA included MMSE stratification (\>=20, \<20) at baseline (BL) and treatment, CIBIS is included as BL adjustment term.||Analysis of Covariance (ANCOVA)||0.11|-0.32|0.343
92294967|NCT02788513|184494929|OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.645|TWO_SIDED|95.0|-0.26|0.16||p-values are nominal without multiplicity adjustment.|ANCOVA|ANCOVA included MMSE stratification (\>=20, \<20) at baseline (BL) and treatment, CIBIS is included as BL adjustment term.||Analysis of Covariance (ANCOVA)||0.16|-0.26|0.645
92144848|NCT02235493|184174229|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED|||||The p-value is based on a nonparametric sign test to determine whether the median of change from Baseline in POMA-G score differs from 0. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||Videos were reviewed and scored by 3 independent raters who were masked to patient identifiers and the clinic visits and dates when the videos were recorded. Each rater scored the individual components required for the calculation of the total POMA-G score for each evaluable patient video. The median of the scores across the 3 raters was obtained for each individual component and summed to generate the median POMA-G score used in the analyses.||||0.1250
92294968|NCT02788513|184494929|OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.11||0.448|TWO_SIDED|95.0|-0.13|0.3||p-values are nominal without multiplicity adjustment.|ANCOVA|ANCOVA included MMSE stratification (\>=20, \<20) at baseline (BL) and treatment, CIBIS is included as BL adjustment term.||Analysis of Covariance (ANCOVA)||0.30|-0.13|0.448
92144849|NCT01055769|184174230|NON_INFERIORITY_OR_EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Linezolid 600 mg oral suspension was the Test treatment, while linezolid 600 mg tablet was the Reference treatment.|Adjusted Geometric Means Ratio|97.81|||||TWO_SIDED|90.0|93.11|102.75||||||Natural log transformed AUClast of linezolid was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||102.75|93.11|
92144850|NCT01055769|184174231|NON_INFERIORITY_OR_EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Linezolid 600 mg oral suspension was the Test treatment, while linezolid 600 mg tablet was the Reference treatment.|Adjusted Geometric Means Ratio|113.67|||||TWO_SIDED|90.0|105.26|122.75||||||Natural log transformed Cmax of linezolid was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||122.75|105.26|
92185080|NCT01262456|184268875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-77.8||||0.0086|TWO_SIDED|95.0|-135.7|-19.89||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal urine volume using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||-19.89|-135.70|0.0086
92294969|NCT02788513|184494929|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.11||0.34|TWO_SIDED|95.0|-0.11|0.32||p-values are nominal without multiplicity adjustment.|ANCOVA|ANCOVA included MMSE stratification (\>=20, \<20) at baseline (BL) and treatment, CIBIS is included as BL adjustment term.||Analysis of Covariance (ANCOVA)||0.32|-0.11|0.340
92294970|NCT01933919|184494951|SUPERIORITY||LS Mean Difference (Fluvoxamine-Placebo)|-4.3|STANDARD_ERROR_OF_MEAN|2.07||0.044|TWO_SIDED|95.0|-8.5|-0.1|||ANCOVA|ANCOVA with baseline JCY-BOCS (10-item) total score and age as covariates and treatment as fixed effect.|The model included the fixed effects of treatment, with baseline JCY-BOCS (10-item) total score and age as covariates.|||-0.1|-8.5|0.044
92294971|NCT00809965|184494972|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.02|TWO_SIDED|95.0|0.72|0.97|||Log Rank||Based upon the Cox proportional hazards model|||0.97|0.72|0.020
92294972|NCT00809965|184494972|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.028|TWO_SIDED|95.0|0.73|0.98|||Log Rank||Based upon the Cox proportional hazards model|||0.98|0.73|0.028
92294973|NCT00809965|184494973|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.016|TWO_SIDED|95.0|0.72|0.97|||Log Rank||Based on the Cox proportional hazards model|||0.97|0.72|0.016
92144851|NCT01055769|184174232|NON_INFERIORITY_OR_EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Linezolid 600 mg oral suspension was the Test treatment, while linezolid 600 mg tablet was the Reference treatment.|Adjusted Geometric means ratio|97.65|||||TWO_SIDED|90.0|92.92|102.63||||||Natural log transformed AUCinf of linezolid was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||102.63|92.92|
92144852|NCT00827918|184174235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.859|TWO_SIDED|95.0|-7.0|5.8|||Difference in the Least Squares Mean|||||5.8|-7.0|0.8590
92294974|NCT00809965|184494973|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.025|TWO_SIDED|95.0|0.73|0.98|||Log Rank||Based on the Cox proportional hazards model|||0.98|0.73|0.025
92294975|NCT00809965|184494974|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.32|TWO_SIDED|95.0|0.81|1.07|||Log Rank||Based upon the Cox proportional hazards model|||1.07|0.81|0.320
92144853|NCT00827918|184174235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.2534|TWO_SIDED|95.0|-11.7|3.1|||Difference in the Least Squares Mean|||||3.1|-11.7|0.2534
92294976|NCT00809965|184494974|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.508|TWO_SIDED|95.0|0.83|1.1|||Log Rank||Based upon the Cox proportional hazards model|||1.10|0.83|0.508
92294977|NCT00809965|184494975|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.185|TWO_SIDED|95.0|0.8|1.04|||Log Rank||Based upon the Cox proportional hazards model|||1.04|0.80|0.185
92294978|NCT00809965|184494975|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.081|TWO_SIDED|95.0|0.78|1.01|||Log Rank||Based upon the Cox proportional hazards model|||1.01|0.78|0.081
92294979|NCT00809965|184494976|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.011|TWO_SIDED|95.0|0.73|0.96|||Log Rank||Based upon the Cox proportional hazards model|||0.96|0.73|0.011
92294980|NCT00809965|184494976|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.07|TWO_SIDED|95.0|0.78|1.01|||Log Rank||Based upon the Cox proportional hazards model|||1.01|0.78|0.070
92294981|NCT05552261|184494982|OTHER||Mean Difference (Final Values)|-2.8||||0.5158|TWO_SIDED|95.0|-6.7|1.2|||Wilcoxon signed-rank|||||1.2|-6.7|0.5158
92144854|NCT00827918|184174238|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.4976|TWO_SIDED|95.0|0.62|2.64|||Generalized linear mixed analysis model|||||2.64|0.62|0.4976
92144855|NCT00827918|184174238|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.0653|TWO_SIDED|95.0|0.95|5.09|||Generalized linear mixed analysis model|||||5.09|0.95|0.0653
92144856|NCT00827918|184174239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8199|TWO_SIDED|95.0|-0.4|0.3|||Constrained longitudinal data analysis|||||0.3|-0.4|0.8199
92294982|NCT05552261|184494982|OTHER||Mean Difference (Final Values)|-4.9||||0.067|TWO_SIDED|95.0|-9.2|-0.6|||Wilcoxon signed-rank|||||-0.6|-9.2|0.0670
92294983|NCT05552261|184494982|OTHER||Mean Difference (Final Values)|-0.8||||0.6307|TWO_SIDED|95.0|-4.4|2.8|||Wilcoxon signed-rank|||||2.8|-4.4|0.6307
92294984|NCT05552261|184494982|OTHER||Mean Difference (Final Values)|-3.1||||0.0357|TWO_SIDED|95.0|-5.6|-0.6|||Wilcoxon signed-rank|||||-0.6|-5.6|0.0357
92294985|NCT05552261|184494983|OTHER||Mean Difference (Final Values)|0.695||||0.2836|TWO_SIDED|95.0|-0.353|1.743|||Wilcoxon signed-rank|||||1.743|-0.353|0.2836
92294986|NCT05552261|184494983|OTHER||Mean Difference (Final Values)|0.539||||0.5153|TWO_SIDED|95.0|-0.55|1.628|||Wilcoxon signed-rank|||||1.628|-0.550|0.5153
92294987|NCT05552261|184494983|OTHER||Mean Difference (Final Values)|-0.384||||0.253|TWO_SIDED|95.0|-1.295|0.527|||Wilcoxon signed-rank|||||0.527|-1.295|0.2530
92294988|NCT05552261|184494983|OTHER||Mean Difference (Final Values)|-0.561||||0.3828|TWO_SIDED|95.0|-1.574|0.451|||Wilcoxon signed-rank|||||0.451|-1.574|0.3828
92144857|NCT00827918|184174239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9486|TWO_SIDED|95.0|-0.4|0.4|||Constrained longitudinal data analysis|||||0.4|-0.4|0.9486
92144858|NCT00827918|184174240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9937|TWO_SIDED|95.0|-2.0|2.0|||Constrained longitudinal data analysis|||||2.0|-2.0|0.9937
92144859|NCT00827918|184174240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.2406|TWO_SIDED|95.0|-3.6|0.9|||Constrained longitudinal data analysis|||||0.9|-3.6|0.2406
92144860|NCT00827918|184174241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.5953|TWO_SIDED|95.0|-2.0|1.2|||Constrained longitudinal data analysis|||||1.2|-2.0|0.5953
92144861|NCT00827918|184174241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.8567|TWO_SIDED|95.0|-2.0|1.6|||Constrained longitudinal data analysis|||||1.6|-2.0|0.8567
92294989|NCT05552261|184494985|OTHER||Mean Difference (Final Values)|-0.023||||0.745|TWO_SIDED|95.0|-0.11|0.064|||Wilcoxon signed-rank|||||0.064|-0.110|0.7450
92144862|NCT02979262|184174249|SUPERIORITY||||||>|0.1|||||||Repeated Measures GLM|Time 2 at 16 weeks||||||>.10
92144863|NCT02979262|184174250|SUPERIORITY||||||<|0.01|||||||GEE|||||||<.01
92144864|NCT02979262|184174251|SUPERIORITY||||||>|0.1|||||||GEE|||||||>.10
92144865|NCT02979262|184174252|SUPERIORITY||||||>|0.1|||||||GEE|||||||>.10
92144866|NCT02979262|184174253|SUPERIORITY||||||>|0.1|||||||GEE|||||||>.10
92144867|NCT02979262|184174254|SUPERIORITY||||||<|0.01|||||||GEE|||||||<.01
92144868|NCT01565707|184174337|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|12.1|STANDARD_ERROR_OF_MEAN|6.0||0.046|TWO_SIDED|95.0|0.2|24.0|||ANCOVA|From an ANCOVA (analysis of covariance) model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||"The following hypotheses were tested at the 2-sided significance level 0.05:~* H0: Change from baseline to EoT in mean MVV per micturition is the same for placebo and solifenacin succinate oral suspension~* H1: Change from baseline to EoT in mean MVV per micturition is not the same for placebo and solifenacin succinate oral suspension"||24.0|0.2|0.046
92144869|NCT01565707|184174337|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-4.7|STANDARD_ERROR_OF_MEAN|15.7|||TWO_SIDED|95.0|-36.7|27.4|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||27.4|-36.7|
92144870|NCT01565707|184174338|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|31.9|STANDARD_ERROR_OF_MEAN|13.9||0.024|TWO_SIDED|95.0|4.3|59.5|||ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||59.5|4.3|0.024
92294990|NCT05552261|184494985|OTHER||Mean Difference (Final Values)|0.124|||<|0.0001|TWO_SIDED|95.0|0.071|0.177|||Wilcoxon signed-rank|||||0.177|0.071|<0.0001
92294991|NCT05552261|184494985|OTHER||Mean Difference (Final Values)|-0.056||||0.1619|TWO_SIDED|95.0|-0.134|0.021|||Wilcoxon signed-rank|||||0.021|-0.134|0.1619
92294992|NCT05552261|184494985|OTHER||Mean Difference (Final Values)|0.087||||0.01|TWO_SIDED|95.0|0.02|0.154|||Wilcoxon signed-rank|||||0.154|0.020|0.0100
92294993|NCT00337428|184494990|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92294994|NCT00337428|184494991|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92294995|NCT00337428|184494992|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92294996|NCT00337428|184494993|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92294997|NCT00337428|184494994|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -5%|||||<|0.001|||||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
92294998|NCT00337428|184494995|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -5%|||||<|0.001|||||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
92294999|NCT00337428|184494996|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -5%|||||<|0.001|||||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
92295000|NCT00337428|184494997|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -5%|||||<|0.001|||||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
92295001|NCT00337428|184494998|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -10%|||||<|0.001||95.0|||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
92295002|NCT00337428|184494999|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -10%|||||<|0.001||95.0|||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
92295003|NCT00337428|184495000|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -10%|||||<|0.001||95.0|||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
92295004|NCT00337428|184495001|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -10%|||||<|0.001||95.0|||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
92295005|NCT00337428|184495002|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -10%|||||<|0.001||95.0|||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
92144871|NCT01565707|184174338|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-17.3|STANDARD_ERROR_OF_MEAN|29.1|||TWO_SIDED|95.0|-76.5|41.9|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||41.9|-76.5|
92295006|NCT00337428|184495003|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.67.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92295007|NCT00337428|184495004|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.67.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92295008|NCT00337428|184495005|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.67.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92295009|NCT00337428|184495006|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.67.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
92295010|NCT02618382|184495008|SUPERIORITY||||||<|0.05||||||The P values for differences among time point means were determined by ANOVA for continuous variables|ANOVA|||Nonparametric tests were used for statistical comparison, including the Kruskal-Wallis rank-sum test for multiple groups and the Mann-Whitney U test for 2 groups. P values \<0.05 were considered statistically significant. Data tabulation and analysis were performed using R statistical software version 3.4.2 (R Foundation for Statistical Computing, Vienna, Austria).||||<0.05
92295011|NCT02618382|184495009|SUPERIORITY||||||<|0.05||||||Paired comparison of hematoma thickness at defined time point means determined by ANOVA for continuous variables.|ANOVA|||Nonparametric tests were used for statistical comparison, including the Kruskal-Wallis rank-sum test for multiple groups and the Mann-Whitney U test for 2 groups. P values \<0.05 were considered statistically significant. Data tabulation and analysis were performed using R statistical software version 3.4.2 (R Foundation for Statistical Computing, Vienna, Austria).||||<0.05
92295012|NCT02618382|184495010|OTHER||||||<|0.05||||||The P values for differences among time point means were determined by ANOVA for continuous variables and by chi-squared test for categorical values in grouped mRS scores.|ANOVA|||Nonparametric tests were used for statistical comparison, including the Kruskal-Wallis rank-sum test for multiple groups and the Mann-Whitney U test for 2 groups. P values \<0.05 were considered statistically significant. Data tabulation and analysis were performed using R statistical software version 3.4.2 (R Foundation for Statistical Computing, Vienna, Austria).||||<0.05
92295013|NCT01628549|184495011|SUPERIORITY||Difference in Least Squares Means|1.53||||0.4344|TWO_SIDED|95.0|-2.32|5.38|||ANCOVA|||||5.38|-2.32|0.4344
92295014|NCT01628549|184495011|SUPERIORITY||Difference in Least Squares Means|4.46||||0.0266|TWO_SIDED|95.0|0.52|8.4|||ANCOVA|||||8.40|0.52|0.0266
92295015|NCT01628549|184495011|SUPERIORITY||Difference in Least Squares Means|4.37||||0.0317|TWO_SIDED|95.0|0.39|8.36|||ANCOVA|||||8.36|0.39|0.0317
92295016|NCT01628549|184495012|SUPERIORITY||Difference vs placebo in success rate|3.4||||0.33|TWO_SIDED|95.0|-7.82|14.38|||Cochran-Mantel-Haenszel|||||14.38|-7.82|0.3300
92295017|NCT01628549|184495012|SUPERIORITY||Difference vs placebo in success rate|13.2||||0.0159|TWO_SIDED|95.0|0.54|25.6|||Cochran-Mantel-Haenszel|||||25.60|0.54|0.0159
92295018|NCT01628549|184495012|SUPERIORITY||Difference vs placebo in success rate|4.1||||0.4834|TWO_SIDED|95.0|-7.44|15.87|||Cochran-Mantel-Haenszel|||||15.87|-7.44|0.4834
92295019|NCT03807440|184495046|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
92295020|NCT03807440|184495047|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295021|NCT03807440|184495048|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
92295022|NCT03807440|184495049|OTHER|||||||0.8071|||||||Chi-squared|||||||0.8071
92295023|NCT03807440|184495049|OTHER|||||||0.764|||||||Fisher Exact|||||||0.7640
92295024|NCT03807440|184495050|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
92295025|NCT03807440|184495051|OTHER|||||||0.0042|||||||Chi-squared|||||||0.0042
92295026|NCT03807440|184495052|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
92144872|NCT01565707|184174339|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.763|TWO_SIDED|95.0|-0.3|0.4||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.4|-0.3|0.763
92144873|NCT01565707|184174339|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-0.8|1.0|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||1.0|-0.8|
92295027|NCT03807440|184495053|OTHER|||||||0.399|||||||Chi-squared|||||||0.3990
92144874|NCT01565707|184174340|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.402|TWO_SIDED|95.0|-0.5|0.3||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.3|-0.5|0.402
92144875|NCT01565707|184174340|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-1.5|0.4|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||0.4|-1.5|
92144876|NCT01565707|184174341|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.63|TWO_SIDED|95.0|0.0|0.2||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.2|0.0|0.630
92144877|NCT01565707|184174341|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.2|0.2|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate..|||0.2|-0.2|
92295028|NCT03807440|184495053|OTHER|||||||0.3842|||||||Fisher Exact|||||||0.3842
92295029|NCT03807440|184495054|OTHER|||||||0.0605|||||||Kruskal-Wallis|||||||0.0605
92295030|NCT03807440|184495055|OTHER|||||||0.6329|||||||Chi-squared|||||||0.6329
92144878|NCT01565707|184174342|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.563|TWO_SIDED|95.0|-1.0|0.3||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.3|-1.0|0.563
92144879|NCT01565707|184174342|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|95.0|-1.6|1.9|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||1.9|-1.6|
92144880|NCT01565707|184174343|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.77|TWO_SIDED|95.0|-0.9|0.3||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.3|-0.9|0.770
92144881|NCT01565707|184174343|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-0.4|1.3|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||1.3|-0.4|
92144882|NCT01565707|184174344|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.303|TWO_SIDED|95.0|-0.8|0.2||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|ANCOVA|||||0.2|-0.8|0.303
92144883|NCT01565707|184174344|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-0.9|1.1|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||1.1|-0.9|
92144884|NCT01565707|184174345|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.3||0.64|TWO_SIDED|95.0|-0.8|0.5|||ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.5|-0.8|0.640
92144885|NCT01565707|184174345|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-0.9|1.4|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||1.4|-0.9|
92144886|NCT01565707|184174346|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.846|TWO_SIDED|95.0|-0.3|0.1||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.1|-0.3|0.846
92144887|NCT01565707|184174346|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.0|0.5|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||0.5|-1.0|
92144888|NCT01565707|184174347|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-1.4|0.8|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||0.8|-1.4|
92144889|NCT01371851|184174357|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0529||||0.05|TWO_SIDED||||||Regression, Logistic|||The analysis was applied to urine data obtained at all time points during weeks 1-8.||||0.05
92295031|NCT03807440|184495055|OTHER|||||||0.7181|||||||Fisher Exact|||||||0.7181
92295032|NCT03807440|184495056|OTHER|||||||0.5233|||||||Kruskal-Wallis|||||||0.5233
92295033|NCT03807440|184495058|OTHER|||||||0.3662|||||||Kruskal-Wallis|||||||0.3662
92295034|NCT03807440|184495059|OTHER|||||||0.511|||||||Kruskal-Wallis|||||||0.5110
92295035|NCT03807440|184495060|OTHER|||||||0.0921|||||||Kruskal-Wallis|||||||0.0921
92295036|NCT03807440|184495061|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
92295037|NCT03807440|184495062|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295038|NCT03807440|184495063|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
92295039|NCT03807440|184495064|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295040|NCT03807440|184495065|OTHER|||||||0.3201|||||||Kruskal-Wallis|||||||0.3201
92295041|NCT03807440|184495066|OTHER|||||||0.3288|||||||Chi-squared|||||||0.3288
92295042|NCT03807440|184495066|OTHER|||||||0.171|||||||Fisher Exact|||||||0.1710
92295043|NCT03807440|184495067|OTHER|||||||0.013|||||||Kruskal-Wallis|||||||0.0130
92295044|NCT03807440|184495068|OTHER|||||||0.0026|||||||Kruskal-Wallis|||||||0.0026
92295045|NCT03807440|184495069|OTHER|||||||0.3978|||||||Kruskal-Wallis|||||||0.3978
92144890|NCT00450411|184174358|OTHER|||||||||||||||||It was projected that ≤10% of patients would experience late treatment-related GI/GU AEs under the protocol treatment (alternative hypothesis). A rate of ≥20% was considered unacceptable (null hypothesis). With a one-sided significance level of 0.05, it was estimated that 87 analyzable patients were required to detect the above-mentioned effect size with an 85% statistical power using Fleming's multiple testing procedure with two interim analyses and one final analysis.|Stopping Rules for a Late GI/GU Adverse Event: For 44 patients, if ≤2 then reject H0, if ≥8 then reject HA; for 73 patients, if ≤7 then reject H0, if ≥10 then reject HA; for 87 patients, if ≤10 then reject H0, if ≥11 then reject HA.|||
92144891|NCT03969719|184174370|EQUIVALENCE|The comparisons of PF-06835919 to placebo was performed at a Type I error rate of 10%.|Mean Difference (Final Values)|-12.44||||0.0696|TWO_SIDED|90.0|-22.37|-1.25|||ANCOVA|||||-1.25|-22.37|0.0696
92295046|NCT03807440|184495070|OTHER|||||||0.0055|||||||Chi-squared|||||||0.0055
92295047|NCT03807440|184495070|OTHER|||||||0.0041|||||||Fisher Exact|||||||0.0041
92144892|NCT03969719|184174370|EQUIVALENCE|The comparisons of PF-06835919 to placebo was performed at a Type I error rate of 10%.|Mean Difference (Final Values)|-14.64||||0.0288|TWO_SIDED|90.0|-24.18|-3.89|||ANCOVA|||||-3.89|-24.18|0.0288
92144893|NCT03969719|184174371|EQUIVALENCE|The comparisons of PF-06835919 to placebo was performed at a Type I error rate of 10%.|Mean Difference (Final Values)|-0.08||||0.6336|TWO_SIDED|90.0|-0.36|0.2|||Mixed Models Analysis|||||0.20|-0.36|0.6336
92144894|NCT03969719|184174371|EQUIVALENCE|The comparisons of PF-06835919 to placebo was performed at a Type I error rate of 10%.|Mean Difference (Final Values)|-0.25||||0.1266|TWO_SIDED|90.0|-0.52|0.02|||Mixed Models Analysis|||||0.02|-0.52|0.1266
92185081|NCT01262456|184268876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-45.31||||0.4126|TWO_SIDED|95.0|-153.94|63.32||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline 24-hour urine volume using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||63.32|-153.94|0.4126
92295048|NCT03807440|184495071|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295049|NCT03807440|184495072|OTHER|||||||0.0399|||||||Chi-squared|||||||0.0399
92295050|NCT03807440|184495072|OTHER|||||||0.0401|||||||Fisher Exact|||||||0.0401
92144895|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.87|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.87
92144896|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.78|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.78
92144897|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.67|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.67
92144898|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.52|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.52
92144899|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.39|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.39
92144900|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.26|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.26
92144901|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.31|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.31
92144902|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.22|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.22
92295051|NCT03807440|184495090|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295052|NCT03807440|184495091|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295053|NCT03807440|184495092|OTHER|||||||0.0008|||||||Chi-squared|||||||0.0008
92295054|NCT03807440|184495094|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295055|NCT03807440|184495095|OTHER|||||||0.0001|||||||Chi-squared|||||||0.0001
92295056|NCT03807440|184495096|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295057|NCT03807440|184495097|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295058|NCT03807440|184495098|OTHER|||||||0.9184|||||||Chi-squared|||||||0.9184
92295059|NCT03807440|184495098|OTHER|||||||0.9911|||||||Fisher Exact|||||||0.9911
92295060|NCT03807440|184495099|OTHER|||||||0.6967|||||||Chi-squared|||||||0.6967
92295061|NCT03807440|184495099|OTHER|||||||0.6439|||||||Fisher Exact|||||||0.6439
92295062|NCT03807440|184495100|OTHER|||||||0.9414|||||||Chi-squared|||||||0.9414
92295063|NCT03807440|184495100|OTHER|||||||0.8142|||||||Fisher Exact|||||||0.8142
92295064|NCT03807440|184495101|OTHER|||||||0.7837|||||||Chi-squared|||||||0.7837
92295065|NCT03807440|184495101|OTHER|||||||0.7538|||||||Fisher Exact|||||||0.7538
92295066|NCT03807440|184495102|OTHER|||||||0.0012|||||||Chi-squared|||||||0.0012
92295067|NCT03807440|184495103|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295068|NCT03807440|184495104|OTHER|||||||0.1906|||||||Chi-squared|||||||0.1906
92185082|NCT01262456|184268876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.79||||0.7353|TWO_SIDED|95.0|-127.99|90.41||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline 24-hour urine volume using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||90.41|-127.99|0.7353
92295069|NCT03807440|184495105|OTHER|||||||0.6198|||||||Chi-squared|||||||0.6198
92295070|NCT03807440|184495105|OTHER|||||||0.7297|||||||Fisher Exact|||||||0.7297
92295071|NCT03807440|184495107|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92144903|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.14|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.14
92144904|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.09|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.09
92144905|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.05|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.05
92144906|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.03|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.03
92295072|NCT03807440|184495108|OTHER|||||||0.0012|||||||Chi-squared|||||||0.0012
92295073|NCT03807440|184495108|OTHER|||||||0.0002|||||||Fisher Exact|||||||0.0002
92295074|NCT03807440|184495109|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92295075|NCT03807440|184495112|OTHER|||||||0.003|||||||Log Rank|||||||0.0030
92295076|NCT01344018|184495113|SUPERIORITY|"Time assessment biases were taken into account for the primary endpoint:~* Surgery alone arm: abdominal recurrence occurring prior to week 14 assessment was counted as occurring at week 14; progression occurring after the week 14 was counted as occurring at week 24.~* Preoperative RT arm: abdominal recurrence occurring was counted as occurring at week 14; and any abdominal recurrence occurring after and prior to or during the week 24 will be counted as occurring at week 24."|Hazard Ratio (HR)|1.01||||0.955|TWO_SIDED|95.0|0.71|1.44||A 5% significance level was considered as a threshold for statistical significance.|Regression, Cox|The time assessment biases correction described before was not applied to patients for whom death was the first event.|The arm having surgery alone was the reference arm.|Sample size was determined to provide 90% power for detecting a Hazard Ratio (HR)=0.52 (which corresponds to a 20% difference in ARFS rate at 5 years, from 50% in the surgery arm to 70% in the experimental arm) at a global 2-sided 5% significance level assuming ARFS followed an exponential distribution in both arms. This test required 102 events at the time of the statistical analysis.||1.44|0.71|0.955
92144907|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.85|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.85
92144908|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.79|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.79
92144909|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.71|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.71
92144910|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.61|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.61
92144911|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.51|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.51
92144912|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.41|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.41
92295077|NCT01344018|184495118|SUPERIORITY|ARFI was described using cumulative incidence curves. ARFI was compared between the two treatment arms using a Fine and Gray model.|Hazard Ratio (HR)|1.09||||0.658|TWO_SIDED|95.0|0.74|1.6||A 5% significance level was considered as a threshold for statistical significance.|Fine and Gray model|||||1.60|0.74|0.658
92295078|NCT01344018|184495119|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.595|TWO_SIDED|95.0|0.58|1.36||A 5% significance level was considered as a threshold for statistical significance.|Regression, Cox|||||1.36|0.58|0.595
92295079|NCT01344018|184495120|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.615|TWO_SIDED|95.0|0.65|2.05|||Regression, Cox|||||2.05|0.65|0.615
92295080|NCT04010227|184495122|SUPERIORITY||partial correlation|0.08||||0.6|TWO_SIDED|95.0|-0.23|0.4||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. multiply imputed data were used in analyses.||||0.40|-0.23|0.60
92295081|NCT04010227|184495123|SUPERIORITY||partial correlation|0.02||||0.96|TWO_SIDED|95.0|-0.29|0.34||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.34|-0.29|0.96
92295082|NCT04010227|184495124|SUPERIORITY||partial correlation|0.06||||0.75|TWO_SIDED|95.0|-0.25|0.38||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.38|-0.25|0.75
92295083|NCT04010227|184495125|SUPERIORITY||partial correlation|0.09||||0.33|TWO_SIDED|95.0|-0.23|0.4||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 144. Multiply imputed data were used.||||0.40|-0.23|0.33
92295084|NCT04010227|184495126|SUPERIORITY||partial correlation|0.03||||0.91|TWO_SIDED|95.0|-0.29|0.34||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 144. Multiply imputed data were used.||||0.34|-0.29|0.91
92295085|NCT04010227|184495127|SUPERIORITY||partial correlation|0.06||||0.74|TWO_SIDED|95.0|-0.25|0.38||P-value for study group x time interaction for patient physical quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.38|-0.25|0.74
92295086|NCT04010227|184495127|SUPERIORITY||partial correlation|0.14||||0.24|TWO_SIDED|95.0|-0.18|0.45||P-value for study group x time interaction for patient psychological quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.45|-0.18|0.24
92295087|NCT04010227|184495127|SUPERIORITY||partial correlation|0.06||||0.78|TWO_SIDED|95.0|-0.26|0.37||P-value for study group x time interaction for patient existential quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.37|-0.26|0.78
92295088|NCT04010227|184495127|SUPERIORITY||partial correlation|0.13||||0.29|TWO_SIDED|95.0|-0.19|0.44||P-value for study group x time interaction for patient social quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.44|-0.19|0.29
92295089|NCT04010227|184495128|SUPERIORITY||partial correlation|0.03||||0.92|TWO_SIDED|95.0|-0.28|0.35||P-value for study group x time interaction for caregiver physical quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.35|-0.28|0.92
92185083|NCT02102724|184268890|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||The null hypotheses were that there are no differences between the two groups' change scores for any study outcomes. The power analysis was based on a study of krill oil for reducing CRP levels in persons with arthritis (N = 90) that yielded an effect size (Cohen's d) of 1.2. A sample size of 37 was determined to yield a power of 0.80 to detect an effect size of 1.0 with a two-tailed alpha of 0.05.|The change scores of the two groups (week 12 minus baseline) were compared using Wilcoxon rank sum tests.|||< 0.05
92295090|NCT04010227|184495128|SUPERIORITY||partial correlation|0.06||||0.79|TWO_SIDED|95.0|-0.26|0.37||P-value for study group x time interaction for caregiver psychological quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.37|-0.26|0.79
92295091|NCT04010227|184495129|SUPERIORITY||partial correlation|0.02||||0.94|TWO_SIDED|95.0|-0.3|0.34||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 144. Multiply imputed data were used.||||0.34|-0.30|0.94
92295092|NCT01332968|184495130|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66||||0.0012|TWO_SIDED|95.0|0.51|0.85|||Log Rank|Stratified by chemotherapy regimen and Follicular Lymphoma International Prognostic Index (FLIPI) risk group.||||0.85|0.51|0.0012
92185084|NCT04821271|184268891|OTHER|Treatment comparison||||||0.91|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.91
92295093|NCT01332968|184495131|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.0055|TWO_SIDED|95.0|0.64|0.93|||Log Rank|Stratified by chemotherapy regimen and Follicular Lymphoma International Prognostic Index (FLIPI) risk group.||||0.93|0.64|0.0055
92295094|NCT01332968|184495132|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0028|TWO_SIDED|95.0|0.65|0.91|||Log Rank|||||0.91|0.65|0.0028
92295095|NCT01332968|184495133|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0118|TWO_SIDED|95.0|0.56|0.93|||Log Rank|||||0.93|0.56|0.0118
92295096|NCT01332968|184495134|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0038||95.0|0.57|0.9|||Log Rank|||||0.90|0.57|0.0038
92295097|NCT01332968|184495135|SUPERIORITY||Absolute difference in %|1.8||||0.3|TWO_SIDED|95.0|-2.02|5.68|||Log Rank|||Without PET||5.68|-2.02|0.30
92295098|NCT01332968|184495135|SUPERIORITY||Absolute difference in %|4.3||||0.17|TWO_SIDED|95.0|-1.8|10.5|||Log Rank|||With PET||10.5|-1.8|0.17
92295099|NCT01332968|184495136|SUPERIORITY||Absolute difference in %|1.6||||0.33|TWO_SIDED|95.0|-2.0|5.3|||Log Rank|||Without PET||5.3|-2.0|0.33
92295100|NCT01332968|184495136|SUPERIORITY||Absolute difference in %|3.5||||0.17|TWO_SIDED|95.0|-2.3|9.4|||Log Rank|||With PET||9.4|-2.3|0.17
92295101|NCT01332968|184495137|SUPERIORITY||Absolute difference in %|-5.5||||0.02|TWO_SIDED|95.0|-10.2|-0.78|||Log Rank|||Without PET||-0.78|-10.2|0.02
92295102|NCT01332968|184495137|SUPERIORITY||Absolute difference in %|5.2||||0.32|TWO_SIDED|95.0|-2.8|13.3|||Log Rank|||With PET||13.3|-2.8|0.32
92295103|NCT01332968|184495138|SUPERIORITY||Absolute difference in %|-4.9||||0.02||95.0|-9.3|0.6|||Log Rank|||Without PET||0.6|-9.3|0.02
92295104|NCT01332968|184495138|SUPERIORITY||Absolute difference in %|4.1||||0.33||95.0|-3.6|11.8|||Log Rank|||With PET||11.8|-3.6|0.33
92295105|NCT01332968|184495139|SUPERIORITY||Absolute difference in %|3.3||||0.052|TWO_SIDED|95.0|-0.19|6.85|||Log Rank|||Without PET||6.85|-0.19|0.052
92295106|NCT01332968|184495139|SUPERIORITY||Absolute difference in %|3.3||||0.3|TWO_SIDED|95.0|-2.3|8.9|||Log Rank|||With PET||8.9|-2.3|0.30
92295107|NCT01332968|184495140|SUPERIORITY||Absolute difference in %|3.2||||0.049|TWO_SIDED|95.0|-0.3|6.6|||Log Rank|||Without PET||6.6|-0.3|0.049
92295108|NCT01332968|184495140|SUPERIORITY||Absolute difference in %|3.9||||0.22|TWO_SIDED|95.0|-1.7|9.5|||Log Rank|||With PET||9.5|-1.7|0.22
92295109|NCT01332968|184495141|SUPERIORITY||Absolute difference in %|1.7||||0.58|TWO_SIDED|95.0|-3.5|6.8|||Log Rank|||Without PET||6.8|-3.5|0.58
92144913|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.47|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.47
92144914|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.36|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.36
92144915|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.26|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.26
92185085|NCT04821271|184268892|OTHER|Treatment comparison||||||0.47|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.47
92295110|NCT01332968|184495141|SUPERIORITY||Absolute difference in %|11.7||||0.006|TWO_SIDED|95.0|3.9|19.4|||Log Rank|||||19.4|3.9|0.006
92295111|NCT01332968|184495142|SUPERIORITY||Absolute difference in %|0.7||||0.8|TWO_SIDED|95.0|-4.0|5.5|||Log Rank|||Without PET||5.5|-4.0|0.80
92295112|NCT01332968|184495142|SUPERIORITY||Absolute difference in %|10.1||||0.009||95.0|2.6|17.6|||Log Rank|||With PET||17.6|2.6|0.009
92144916|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.19|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.19
92144917|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.13|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.13
92144918|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.09|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.09
92144919|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.78|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.78
92144920|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.69|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.69
92144921|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.59|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.59
92295113|NCT01332968|184495143|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.3577||95.0|0.63|1.18|||Log Rank|||||1.18|0.63|0.3577
92295114|NCT01332968|184495144|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.25||95.0|0.58|1.16|||Log Rank|||||1.16|0.58|0.25
92295115|NCT01332968|184495145|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0015|TWO_SIDED|95.0|0.62|0.89|||Log Rank|||||0.89|0.62|0.0015
92295116|NCT01332968|184495146|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0004||95.0|0.56|0.85|||Log Rank|||||0.85|0.56|0.0004
92295117|NCT01332968|184495147|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.71|1.27|||Log Rank|||||1.27|0.71|
92295118|NCT01332968|184495148|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.5|1.19||||||||1.19|0.50|
92295119|NCT01332968|184495149|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.63|0.93|||Log Rank|||||0.93|0.63|
92295120|NCT01332968|184495150|SUPERIORITY||Hazard Ratio (HR)|0.69||||||95.0|0.55|0.88||||||||0.88|0.55|
92295121|NCT01332968|184495151|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.001|TWO_SIDED|95.0|0.58|0.87|||Log Rank|||||0.87|0.58|0.001
92295122|NCT01332968|184495152|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.004||95.0|0.54|0.89|||Log Rank|||||0.89|0.54|0.004
92295123|NCT00721955|184495171|SUPERIORITY|LS mean was used in the primary efficacy analysis|||||<|0.0001||||||p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||<0.0001
92295124|NCT00721955|184495171|SUPERIORITY|p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|||||<|0.0001||||||p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||<0.0001
92295125|NCT00721955|184495172|SUPERIORITY|LS mean was used in the primary efficacy analysis|||||<|0.0001||||||p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||<0.0001
92295126|NCT00721955|184495172|SUPERIORITY||||||<|0.0001||||||-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||<0.0001
92295127|NCT03702816|184495174|OTHER|Linear Regression||||||0.6|||||||Regression, Linear|F=0.308||Linear Regression of Memory Composite Scores and Frontal GE180 SUVR in Control Subjects||||0.60
92295128|NCT03702816|184495174|OTHER|Linear Regression||||||0.56|||||||Regression, Linear|F=0.367||Linear Regression of Executive Function Composite Scores and Frontal GE180 SUVR in Control Subjects||||0.56
92295129|NCT03702816|184495174|OTHER|Linear regression||||||0.44|||||||Regression, Linear|||Linear Regression of Speed Composite Scores and Frontal GE180 SUVR in Control Subjects||||0.44
92295130|NCT03702816|184495174|OTHER|Linear Regression||||||0.15|||||||Regression, Linear|F=2.55||Linear Regression of Language Composite Scores and Frontal GE180 SUVR in Control Subjects||||0.15
92295131|NCT03702816|184495174|OTHER|Linear Regression||||||0.39|||||||Regression, Linear|F=0.947||Linear Regression of Memory Composite Scores and Frontal GE180 SUVR in MCI Subjects||||0.39
92295132|NCT03702816|184495174|OTHER|Linear Regression||||||0.95|||||||Regression, Linear|F=0.004||Linear Regression of Executive Function Composite Scores and Frontal GE180 SUVR in MCI Subjects||||0.95
92295133|NCT03702816|184495174|OTHER|Linear Regulation||||||0.53|||||||Regression, Linear|F=0.483||Linear Regression of Speed Composite Scores and Frontal GE180 SUVR in MCI Subjects||||0.53
92295134|NCT03702816|184495174|OTHER|Linear Regression||||||0.19|||||||Regression, Linear|F=2.543||Linear Regression of Language Composite Scores and Frontal GE180 SUVR in MCI Subjects||||0.19
92295135|NCT03702816|184495174|OTHER|Linear Regression||||||0.32|||||||Regression, Linear|F=3.430||Linear Regression of Memory Composite Scores and Frontal GE180 SUVR in AD Subjects||||0.32
92295136|NCT03702816|184495174|OTHER|Linear Regression||||||0.11|||||||Regression, Linear|F=32.844||Linear Regression of Executive Function Composite Scores and Frontal GE180 SUVR in AD Subjects||||0.11
92295137|NCT03702816|184495174|OTHER|Linear Regression||||||0.31|||||||Regression, Linear|F=3.559||Linear Regression of Speed Composite Scores and Frontal GE180 SUVR in AD Subjects||||0.31
92295138|NCT03702816|184495174|OTHER|Linear Regression||||||0.005|||||||Regression, Linear|F=14362.699||Linear Regression of Language Composite Scores and Frontal GE180 SUVR in AD Subjects||||0.005
92295139|NCT03702816|184495174|OTHER|Linear Regression||||||0.84|||||||Regression, Linear|F=0.056||Linear Regression of Memory Composite Scores and Frontal GE180 SUVR in PD Subjects||||0.84
92144922|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.5|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.50
92295140|NCT03702816|184495174|OTHER|Linear Regression||||||0.94|||||||Regression, Linear|F=0.008||Linear Regression of Executive Function Composite Scores and Frontal GE180 SUVR in PD Subjects||||0.94
92295141|NCT03702816|184495174|OTHER|Linear Regression||||||0.29|||||||Regression, Linear|F=2.01||Linear Regression of Speed Composite Scores and Frontal GE180 SUVR in PD Subjects||||0.29
92295142|NCT03702816|184495174|OTHER|Linear Regression||||||0.72|||||||Regression, Linear|F=0.173||Linear Regression of Language Composite Scores and Frontal GE180 SUVR in PD Subjects||||0.72
92295143|NCT03702816|184495175|OTHER|Linear Regression||||||0.54|||||||Regression, Linear|F=0.424||Linear Regression of Memory Composite Scores and Cingulate GE180 SUVR in Control Subjects||||0.54
92295144|NCT03702816|184495175|OTHER|Linear Regression||||||0.53|||||||Regression, Linear|F=0.447||Linear Regression of Executive Function Composite Scores and Cingulate GE180 SUVR in Control Subjects||||0.53
92295145|NCT03702816|184495175|OTHER|Linear Regression||||||0.23|||||||Regression, Linear|F=1.773||Linear Regression of Speed Composite Scores and Cingulate GE180 SUVR in Control Subjects||||0.23
92295146|NCT03702816|184495175|OTHER|Linear Regression||||||0.01|||||||Regression, Linear|F=3.615||Linear Regression of Language Composite Scores and Cingulate GE180 SUVR in Control Subjects||||0.01
92295147|NCT03702816|184495175|OTHER|Linear Regression||||||0.039|||||||Regression, Linear|F=9.204||Linear Regression of Memory Composite Scores and Cingulate GE180 SUVR in MCI Subjects||||0.039
92295148|NCT03702816|184495175|OTHER|Linear Regression||||||0.33|||||||Regression, Linear|F=1.209||Linear Regression of Executive Function Composite Scores and Cingulate GE180 SUVR in MCI Subjects||||0.33
92295149|NCT03702816|184495175|OTHER|Linear Regression||||||0.07|||||||Regression, Linear|F=5.801||Linear Regression of Speed Composite Scores and Cingulate GE180 SUVR in MCI Subjects||||0.07
92295150|NCT03702816|184495175|OTHER|Linear Regression||||||0.03|||||||Regression, Linear|F=10.374||Linear Regression of Language Composite Scores and Cingulate GE180 SUVR in MCI Subjects||||0.03
92295151|NCT03702816|184495175|OTHER|Linear Regression||||||0.27|||||||Regression, Linear|F=5.024||Linear Regression of Memory Composite Scores and Cingulate GE180 SUVR in AD Subjects||||0.27
92295152|NCT03702816|184495175|OTHER|Linear Regression||||||0.16|||||||Regression, Linear|F=15.568||Linear Regression of Executive Function Composite Scores and Cingulate GE180 SUVR in AD Subjects||||0.16
92295153|NCT03702816|184495175|OTHER|Linear Regression||||||0.262|||||||Regression, Linear|F=5.238||Linear Regression of Speed Composite Scores and Cingulate GE180 SUVR in AD Subjects||||0.262
92295154|NCT03702816|184495175|OTHER|Linear Regression||||||0.043|||||||Regression, Linear|F=221.308||Linear Regression of Language Composite Scores and Cingulate GE180 SUVR in AD Subjects||||0.043
92295155|NCT03702816|184495175|OTHER|Linear Regression||||||0.26|||||||Regression, Linear|F=2.430||Linear Regression of Memory Composite Scores and Cingulate GE180 SUVR in PD Subjects||||0.26
92295156|NCT03702816|184495175|OTHER|Linear Regression||||||0.38|||||||Regression, Linear|F=1.269||Linear Regression of Executive Function Composite Scores and Cingulate GE180 SUVR in PD Subjects||||0.38
92295157|NCT03702816|184495175|OTHER|Linear Regression||||||0.07|||||||Regression, Linear|F=13.164||Linear Regression of Speed Composite Scores and Cingulate GE180 SUVR in PD Subjects||||0.07
92295158|NCT03702816|184495175|OTHER|Linear Regression||||||0.37|||||||Regression, Linear|F=1.312||Linear Regression of Language Composite Scores and Cingulate GE180 SUVR in PD Subjects||||0.37
92295159|NCT03702816|184495176|OTHER|Linear Regression||||||0.64|||||||Regression, Linear|F=0.233||Linear Regression of Memory Composite Scores and Parietal GE180 SUVR in Control Subjects||||0.64
92295160|NCT03702816|184495176|OTHER|Linear Regression||||||0.92|||||||Regression, Linear|F=0.011||Linear Regression of Executive Function Composite Scores and Parietal GE180 SUVR in Control Subjects||||0.92
92295161|NCT03702816|184495176|OTHER|Linear Regression||||||0.22|||||||Regression, Linear|F=1.790||Linear Regression of Speed Composite Scores and Parietal GE180 SUVR in Control Subjects||||0.22
92185086|NCT04821271|184268893|OTHER|Treatment comparison||||||0.14|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.14
92185087|NCT04821271|184268894|OTHER|Treatment comparison||||||0.12|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.12
92185088|NCT04821271|184268895|OTHER|Treatment comparison||||||0.69|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.69
92185089|NCT04821271|184268896|OTHER|Treatment comparison||||||0.73|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.73
92295162|NCT03702816|184495176|OTHER|Linear Regression||||||0.42|||||||Regression, Linear|F=0.720||Linear Regression of Language Composite Scores and Parietal GE180 SUVR in Control Subjects||||0.42
92295163|NCT03702816|184495176|OTHER|Linear Regression||||||0.61|||||||Regression, Linear|F=0.305||Linear Regression of Memory Composite Scores and Parietal GE180 SUVR in MCI Subjects||||0.61
92295164|NCT03702816|184495176|OTHER|Linear Regression||||||0.95|||||||Regression, Linear|F=0.005||Linear Regression of Executive Function Composite Scores and Parietal GE180 SUVR in MCI Subjects||||0.95
92295165|NCT03702816|184495176|OTHER|Linear Regression||||||0.55|||||||Regression, Linear|F=0.435||Linear Regression of Speed Composite Scores and Parietal GE180 SUVR in MCI Subjects||||0.55
92295166|NCT03702816|184495176|OTHER|Linear Regression||||||0.43|||||||Regression, Linear|F=0.787||Linear Regression of Language Composite Scores and Parietal GE180 SUVR in MCI Subjects||||0.43
92295167|NCT03702816|184495176|OTHER|Linear Regression||||||0.036|||||||Regression, Linear|F=316.379||Linear Regression of Memory Composite Scores and Parietal GE180 SUVR in AD Subjects||||0.036
92295168|NCT03702816|184495176|OTHER|Linear Regression||||||0.39|||||||Regression, Linear|F=2.032||Linear Regression of Executive Function Composite Scores and Parietal GE180 SUVR in AD Subjects||||0.39
92295169|NCT03702816|184495176|OTHER|Linear Regression||||||0.031|||||||Regression, Linear|F=425.337||Linear Regression of Speed Composite Scores and Parietal GE180 SUVR in AD Subjects||||0.031
92295170|NCT03702816|184495176|OTHER|Linear Regression||||||0.274|||||||Regression, Linear|F=4.739||Linear Regression of Language Composite Scores and Parietal GE180 SUVR in AD Subjects||||0.274
92295171|NCT03702816|184495176|OTHER|Linear Regression||||||0.66|||||||Regression, Linear|F=0.263||Linear Regression of Memory Composite Scores and Parietal GE180 SUVR in PD Subjects||||0.66
92295172|NCT03702816|184495176|OTHER|Linear Regression||||||0.07|||||||Regression, Linear|F=12.244||Linear Regression of Executive Function Composite Scores and Parietal GE180 SUVR in PD Subjects||||0.07
92295173|NCT03702816|184495176|OTHER|Linear Regression||||||0.48|||||||Regression, Linear|F=0.762||Linear Regression of Speed Composite Scores and Parietal GE180 SUVR in PD Subjects||||0.48
92295174|NCT03702816|184495176|OTHER|Linear Regression||||||0.12|||||||Regression, Linear|F=7.107||Linear Regression of Language Composite Scores and Parietal GE180 SUVR in PD Subjects||||0.12
92295175|NCT03702816|184495177|OTHER|Linear Regression||||||0.85|||||||Regression, Linear|F=0.038||Linear Regression of Memory Composite Scores and Temporal GE180 SUVR in Control Subjects||||0.85
92295176|NCT03702816|184495177|OTHER|Linear Regression||||||0.84|||||||Regression, Linear|F=0.042||Linear Regression of Executive Function Composite Scores and Temporal GE180 SUVR in Control Subjects||||0.84
92295177|NCT03702816|184495177|OTHER|Linear Regression||||||0.35|||||||Regression, Linear|F=1.021||Linear Regression of Speed Composite Scores and Temporal GE180 SUVR in Control Subjects||||0.35
92295178|NCT03702816|184495177|OTHER|Linear Regression||||||0.25|||||||Regression, Linear|F=1.610||Linear Regression of Language Composite Scores and Temporal GE180 SUVR in Control Subjects||||0.25
92295179|NCT03702816|184495177|OTHER|Linear Regression||||||0.25|||||||Regression, Linear|F=1.779||Linear Regression of Memory Composite Scores and Temporal GE180 SUVR in MCI Subjects||||0.25
92295180|NCT03702816|184495177|OTHER|Linear Regression||||||0.54|||||||Regression, Linear|F=0.455||Linear Regression of Executive Function Composite Scores and Temporal GE180 SUVR in MCI Subjects||||0.54
92295181|NCT03702816|184495177|OTHER|Linear Regression||||||0.47|||||||Regression, Linear|F=0.650||Linear Regression of Speed Composite Scores and Temporal GE180 SUVR in MCI Subjects||||0.47
92295182|NCT03702816|184495177|OTHER|Linear Regression||||||0.74|||||||Regression, Linear|F=0.131||Linear Regression of Language Composite Scores and Temporal GE180 SUVR in MCI Subjects||||0.74
92295183|NCT03702816|184495177|OTHER|Linear Regression||||||0.83|||||||Regression, Linear|F=0.075||Linear Regression of Memory Composite Scores and Temporal GE180 SUVR in AD Subjects||||0.83
92295184|NCT03702816|184495177|OTHER|Linear Regression||||||0.41|||||||Regression, Linear|F=1.831||Linear Regression of Executive Function Composite Scores and Temporal GE180 SUVR in AD Subjects||||0.41
92295185|NCT03702816|184495177|OTHER|Linear Regression||||||0.83|||||||Regression, Linear|F=0.079||Linear Regression of Speed Composite Scores and Temporal GE180 SUVR in AD Subjects||||0.83
92295186|NCT03702816|184495177|OTHER|Linear Regression||||||0.52|||||||Regression, Linear|F=0.879||Linear Regression of Language Composite Scores and Temporal GE180 SUVR in AD Subjects||||0.52
92295187|NCT03702816|184495177|OTHER|Linear Regression||||||0.98|||||||Regression, Linear|F=0.001||Linear Regression of Memory Composite Scores and Temporal GE180 SUVR in PD Subjects||||0.98
92295188|NCT03702816|184495177|OTHER|Linear Regression||||||0.95|||||||Regression, Linear|F=0.005||Linear Regression of Executive Function Composite Scores and Temporal GE180 SUVR in PD Subjects||||0.95
92295189|NCT03702816|184495177|OTHER|Linear Regression||||||0.32|||||||Regression, Linear|F=1.733||Linear Regression of Speed Composite Scores and Temporal GE180 SUVR in PD Subjects||||0.32
92295190|NCT03702816|184495177|OTHER|Linear Regression||||||0.67|||||||Regression, Linear|F=0.249||Linear Regression of Language Composite Scores and Temporal GE180 SUVR in PD Subjects||||0.67
92295191|NCT03702816|184495178|OTHER|Linear Regression||||||0.76|||||||Regression, Linear|F=0.098||Linear Regression of DRS Scores and Whole Brain GE180 SUVR in Control Subjects||||0.76
92295192|NCT03702816|184495178|OTHER|Linear Regression||||||0.49|||||||Regression, Linear|F=0.513||Linear Regression of MoCA Scores and Whole Brain GE180 SUVR in Control Subjects||||0.49
92295193|NCT03702816|184495178|OTHER|Linear Regression||||||0.93|||||||Regression, Linear|F=0.008||Linear Regression of DRS Scores and Whole Brain GE180 SUVR in MCI Subjects||||0.93
92295194|NCT03702816|184495178|OTHER|Linear Regression||||||0.54|||||||Regression, Linear|F=0.430||Linear Regression of MoCA Scores and Whole Brain GE180 SUVR in MCI Subjects||||0.54
92295195|NCT03702816|184495178|OTHER|Linear Regression||||||0.77|||||||Regression, Linear|F=0.142||Linear Regression of DRS Scores and Whole Brain GE180 SUVR in AD Subjects||||0.77
92295196|NCT03702816|184495178|OTHER|Linear Regression||||||0.61|||||||Regression, Linear|F=0.496||Linear Regression of MoCA Scores and Whole Brain GE180 SUVR in AD Subjects||||0.61
92295197|NCT03702816|184495178|OTHER|Linear Regression||||||0.11|||||||Regression, Linear|F=8.046||Linear Regression of DRS Scores and Whole Brain GE180 SUVR in PD Subjects||||0.11
92295198|NCT03702816|184495178|OTHER|Linear Regression||||||0.84|||||||Regression, Linear|F=0.051||Linear Regression of MoCA Scores and Whole Brain GE180 SUVR in PD Subjects||||0.84
92295199|NCT02522780|184495227|SUPERIORITY||Odds Ratio (OR)|1.57|||>|0.05|TWO_SIDED|95.0|0.96|2.54||The p-value was based on Cochran-Mantel-Haenszel test by controlling pathway of randomization, at a 0.05 significance level.|Cochran-Mantel-Haenszel|||Proportions were compared between treatment groups at Month 6.||2.54|0.96|>0.05
92295200|NCT02522780|184495228|SUPERIORITY||Odds Ratio (OR)|1.24|||>|0.05|TWO_SIDED|95.0|0.76|2.03||The p-value was based on Generalized estimating equations (GEE) approach with binary outcomes (clinical remission) and an unstructured working correlation matrix, at a 0.05 significance level.|Generalised estimating equation approach|||Proportions were compared between treatment groups over 6 months.||2.03|0.76|>0.05
92295201|NCT02522780|184495229|SUPERIORITY||Hazard Ratio (HR)|0.6|||>|0.05|TWO_SIDED|95.0|0.25|1.44||The p-value was based on log-rank test using pathway of randomization as the stratification factor, at a 0.05 significance level.|Log Rank|||Times to relapse were compared between treatment groups up to 6 months.||1.44|0.25|>0.05
92144923|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.39|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.39
92295202|NCT02522780|184495230|SUPERIORITY||Odds Ratio (OR)|0.39|||<|0.05|TWO_SIDED|95.0|0.19|0.79||The p-value was based on Cochran-Mantel-Haenszel test by controlling pathway of randomization, at a 0.05 significance level.|Cochran-Mantel-Haenszel|||Proportions were compared between treatment groups at Month 6.||0.79|0.19|<0.05
92295203|NCT02522780|184495231|SUPERIORITY||Mean difference|-1.0|||>|0.05|TWO_SIDED|95.0|-2.7|0.7||The p-value was based on a repeated-measures analysis of covariance (ANCOVA) model with an unstructured correlation matrix , at a 0.05 significance level.|ANCOVA|||Adjusted mean treatment difference in CRP levels over 6 months was reported.||0.7|-2.7|>0.05
92295204|NCT02522780|184495232|SUPERIORITY||Mean difference|-66.92|||>|0.05|TWO_SIDED|95.0|-140.2|6.36||The p-value was based on a repeated-measures ANCOVA model with an unstructured correlation matrix, at a 0.05 significance level.|ANCOVA|||Adjusted mean treatment difference in fecal calprotectin levels over 6 months was reported.||6.36|-140.2|>0.05
92295205|NCT02522780|184495233|SUPERIORITY||Mean difference|-0.32|||>|0.05|TWO_SIDED|95.0|-4.41|3.77||The p-value was based on a repeated-measures ANCOVA model with an unstructured correlation matrix, at a 0.05 significance level.|ANCOVA|||Adjusted mean treatment difference in IBDQ total scores over 6 months was reported.||3.77|-4.41|>0.05
92295206|NCT00926367|184495239|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Dunn's Multiple Comparisons Test|A two-tailed p≤ 0.05 was taken as the level of significance for all comparisons.||||||>0.05
92295207|NCT00926367|184495241|SUPERIORITY_OR_OTHER||||||>|0.05||||||A two-tailed p≤ 0.05 was taken as the level of significance for all comparisons.|Dunn's Multiple Comparisons Test|||||||>0.05
92295208|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.38|0.35||||||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.35|-0.38|
92295209|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|-0.6|0.13||||||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.13|-0.60|
92295210|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.7|0.15||||||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.15|-0.70|
92144924|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.3|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.30
92295211|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.93|-0.07||||||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.07|-0.93|
92295212|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.69|0.33||||||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.33|-0.69|
92295213|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-1.09|-0.06||||||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.06|-1.09|
92295214|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-0.94|0.27||||||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.27|-0.94|
92295215|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-1.21|0.0||||||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.00|-1.21|
92295216|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-1.24|-0.03||||||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.03|-1.24|
92295217|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-0.84|0.38||||||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.38|-0.84|
92295218|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-1.53|0.01||||||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.01|-1.53|
92295219|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-1.07|0.47||||||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.47|-1.07|
92295220|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.65|-0.08||||||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.08|-1.65|
92295221|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.06|0.55||||||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.55|-1.06|
92295222|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.72|-0.15||||||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.15|-1.72|
92295223|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.05|0.54||||||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.54|-1.05|
92295224|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.8|-0.15||||||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.15|-1.80|
92295225|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.04|0.61||||||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.61|-1.04|
92144925|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.68|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.68
92144926|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.59|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.59
92295226|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.65|-0.05||||||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.05|-1.65|
92295227|NCT02725411|184495292|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.88|0.71||||||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.71|-0.88|
92295228|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.77|0.04||||||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.04|-1.77|
92295229|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.96|-0.14||||||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||-0.14|-1.96|
92295230|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-1.48|0.43||||||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.43|-1.48|
92295231|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-1.43|0.51||||||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.51|-1.43|
92295232|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-1.04|0.91||||||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.91|-1.04|
92295233|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-1.53|0.44||||||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.44|-1.53|
92295234|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-1.06|1.05||||||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.05|-1.06|
92295235|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-1.6|0.53||||||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.53|-1.60|
92295236|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-1.71|0.88||||||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.88|-1.71|
92295237|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-1.47|1.14||||||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.14|-1.47|
92295238|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|-1.9|0.71||||||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.71|-1.90|
92295239|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-1.44|1.25||||||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.25|-1.44|
92295240|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.43|0.28||||||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.28|-2.43|
92295241|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-1.41|1.32||||||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.32|-1.41|
92295242|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-2.17|0.57||||||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.57|-2.17|
92295243|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|-1.16|1.64||||||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.64|-1.16|
92144927|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.5|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.50
92144928|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.4|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.40
92144929|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.3|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.30
92144930|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.22|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.22
92144931|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.41|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.41
92144932|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.32|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.32
92185090|NCT04821271|184268897|OTHER|Treatment comparison||||||0.28|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.28
92295244|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.37|0.35||||||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.35|-2.37|
92144933|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.24|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.24
92144934|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.16|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.16
92144935|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.11|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.11
92144936|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.07|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.07
92144937|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.41|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.41
92144938|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.32|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.32
92144939|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.25|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.25
92144940|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.18|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.18
92295245|NCT02725411|184495294|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|-1.35|1.42||||||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.42|-1.35|
92295246|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|13.0|||||TWO_SIDED|95.0|-0.8|26.3||||||Week 16: \>=30%||26.3|-0.8|
92295247|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|-1.7|||||TWO_SIDED|95.0|-15.8|12.4||||||Week 16: \>=30%||12.4|-15.8|
92295248|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|18.5|||||TWO_SIDED|95.0|4.2|32.0||||||Week 16: \>=50%||32.0|4.2|
92295249|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|2.9|||||TWO_SIDED|95.0|-10.7|16.3||||||Week 16: \>=50%||16.3|-10.7|
92295250|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|10.9|||||TWO_SIDED|95.0|0.6|20.7||||||Week 16: \>=70%||20.7|0.6|
92295251|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|8.5|||||TWO_SIDED|95.0|-1.4|18.1||||||Week 16: \>=70%||18.1|-1.4|
92295252|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|1.1|||||TWO_SIDED|95.0|-4.3|6.5||||||Week 16: \>=90%||6.5|-4.3|
92295253|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|2.1|||||TWO_SIDED|95.0|-3.7|7.8||||||Week 16: \>=90%||7.8|-3.7|
92295254|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|12.0|||||TWO_SIDED|95.0|-2.3|25.7||||||Week 24: \>=30%||25.7|-2.3|
92295255|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|-1.6|||||TWO_SIDED|95.0|-15.9|12.6||||||Week 24: \>=30%||12.6|-15.9|
92295256|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|12.0|||||TWO_SIDED|95.0|-2.4|25.8||||||Week 24: \>=50%||25.8|-2.4|
92295257|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|5.0|||||TWO_SIDED|95.0|-9.1|18.9||||||Week 24: \>=50%||18.9|-9.1|
92295258|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|14.1|||||TWO_SIDED|95.0|2.9|24.8||||||Week 24: \>=70%||24.8|2.9|
92295259|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|10.6|||||TWO_SIDED|95.0|-0.2|21.0||||||Week 24: \>=70%||21.0|-0.2|
92295260|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|5.4|||||TWO_SIDED|95.0|-0.7|11.4||||||Week 24: \>=90%||11.4|-0.7|
92295261|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|3.2|||||TWO_SIDED|95.0|-2.2|8.5||||||Week 24: \>=90%||8.5|-2.2|
92295262|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|17.4|||||TWO_SIDED|95.0|3.1|30.9||||||Week 40: \>=30%||30.9|3.1|
92295263|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|-0.5|||||TWO_SIDED|95.0|-14.8|13.7||||||Week 40: \>=30%||13.7|-14.8|
92295264|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|17.4|||||TWO_SIDED|95.0|3.0|31.0||||||Week 40: \>=50%||31.0|3.0|
92295265|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|5.0|||||TWO_SIDED|95.0|-9.0|18.7||||||Week 40: \>=50%||18.7|-9.0|
92295266|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|17.4|||||TWO_SIDED|95.0|4.6|29.4||||||Week 40: \>=70%||29.4|4.6|
92295267|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|7.3|||||TWO_SIDED|95.0|-4.5|18.9||||||Week 40: \>=70%||18.9|-4.5|
92295268|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|7.6|||||TWO_SIDED|95.0|1.4|13.5||||||Week 40: \>=90%||13.5|1.4|
92295269|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|5.4|||||TWO_SIDED|95.0|-0.1|10.6||||||Week 40: \>=90%||10.6|-0.1|
92295270|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|12.0|||||TWO_SIDED|95.0|-2.4|25.8||||||Week 56: \>=30%||25.8|-2.4|
92295271|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|-3.8|||||TWO_SIDED|95.0|-17.9|10.5||||||Week 56: \>=30%||10.5|-17.9|
92295272|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|12.0|||||TWO_SIDED|95.0|-2.5|25.9||||||Week 56: \>=50%||25.9|-2.5|
92295273|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|-2.6|||||TWO_SIDED|95.0|-16.5|11.4||||||Week 56: \>=50%||11.4|-16.5|
92295274|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|18.5|||||TWO_SIDED|95.0|5.6|30.5||||||Week 56: \>=70%||30.5|5.6|
92185091|NCT02008916|184268928|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0093|TWO_SIDED|95.0|1.24|4.69|||Regression, Logistic|||||4.69|1.24|0.0093
92295275|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|8.4|||||TWO_SIDED|95.0|-3.6|20.0||||||Week 56: \>=70%||20.0|-3.6|
92295276|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|8.7|||||TWO_SIDED|95.0|1.6|15.4||||||Week 56: \>=90%||15.4|1.6|
92295277|NCT02725411|184495298|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|3.2|||||TWO_SIDED|95.0|-2.2|8.5||||||Week 56: \>=90%||8.5|-2.2|
92295278|NCT02725411|184495314|OTHER|No formal hypotheses were tested in the study.|Difference in proportion|0.0|||||TWO_SIDED|95.0|-4.1|4.1||||||95% CI of proportion is the Agresti-Coull confidence limit.||4.1|-4.1|
92295279|NCT02725411|184495314|OTHER|No formal hypotheses were tested in the study.|Difference in proportion|3.2|||||TWO_SIDED|95.0|-2.2|8.5||||||95% CI of proportion is the Agresti-Coull confidence limit.||8.5|-2.2|
92295280|NCT02418754|184495357|SUPERIORITY|Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurements as covariate and treatment group, baseline angiographic choroidal neovascularization (CNV) subtype (predominantly or minimally classic versus occult versus occult with no classic lesions) as fixed factors.|Least Squares (LS) Mean Difference|-1.58||||0.2052|TWO_SIDED|95.0|-4.37|1.22||Threshold for significance at 0.025 level.|ANCOVA|||To control for the family-wise type I error rate of 5%, for each of the 2 REGN2176-3 groups the 2-sided hypothesis comparing REGN2176-3 (1 mg: 2 mg) vs. Intravitreal Aflibercept Injection (IAI) 2 mg was tested at a significance level of α = 2.5%.||1.22|-4.37|0.2052
92295281|NCT02418754|184495357|SUPERIORITY|Analysis was performed using ANCOVA model with baseline measurements as covariate and treatment group, baseline angiographic choroidal neovascularization (CNV) subtype (predominantly or minimally classic versus occult versus occult with no classic lesions) as fixed factors.|Least Squares (LS) Mean Difference|-1.7||||0.0982|TWO_SIDED|95.0|-4.0|0.61||Threshold for significance at 0.025 level.|ANCOVA|||To control for the family-wise type I error rate of 5%, for each of the 2 REGN2176-3 groups the 2-sided hypothesis comparing REGN2176-3 (1 mg: 2 mg) vs. Intravitreal Aflibercept Injection (IAI) 2 mg was tested at a significance level of α = 2.5%.||0.61|-4.00|0.0982
92295282|NCT00462839|184495365|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||Post-hoc comparison of 500ml, 1000ml and 2000ml volumes were greater in the non-calibrated drape first group. Post-hoc comparisons made using Bonferroni correct t-test for 8 comparisons.|ANOVA|||Repeated measures ANOVA comparing all levels of blood estimation (P=0.0002). Post-hoc comparisons using Bonferroni corrects t-tests.||||<0.05
92295283|NCT00462839|184495366|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Chi-squared, Corrected|||||||0.76
92295284|NCT00462839|184495367|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Chi-squared, Corrected|||||||0.72
92295285|NCT00462839|184495368|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Chi-squared, Corrected|||||||0.89
92295286|NCT04784637|184495370|SUPERIORITY|||||||0.064|||||||t-test, 2 sided|||||||0.064
92295287|NCT04784637|184495370|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
92185092|NCT02008916|184268928|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0037|TWO_SIDED|95.0|1.38|5.21|||Regression, Logistic|||||5.21|1.38|0.0037
92295288|NCT04784637|184495371|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92295289|NCT04784637|184495371|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||0.93
92295290|NCT05103657|184495390|OTHER||Mean Difference (Net)|0.06||||0.9726|TWO_SIDED|95.0|-3.31|3.43|||Mixed Models for repeated measures||"Least Squares mean of BI 1358894 125 mg - Least Square mean of Placebo."|Least Squares (LS) means differences and confidence intervals were estimated by REML-based MMRM including the fixed categorical covariates of treatment, and the stratification indicator of presence of significant childhood trauma (yes vs. no), the continuous fixed covariate of baseline CAPS-5 total severity score, time since index event (in years) and the treatment-by-visit interaction. Patient is considered as random. Unstructured covariance matrix was used.||3.43|-3.31|0.9726
92295291|NCT05103657|184495391|OTHER||Odds Ratio (OR)|1.002||||0.9945|TWO_SIDED|95.0|0.608|1.65|||Regression, Logistic||BI 1358894 125 mg vs. Placebo|Logistic regression was adjusted for fixed factors of treatment and presence of significant childhood trauma (yes vs. no).||1.650|0.608|0.9945
92295292|NCT05103657|184495392|OTHER||Odds Ratio (OR)|0.912||||0.7167|TWO_SIDED|95.0|0.552|1.504|||Regression, Logistic||BI 1358894 125 mg vs. Placebo|Logistic regression was adjusted for fixed factors of treatment and presence of significant childhood trauma (yes vs. no).||1.504|0.552|0.7167
92295293|NCT05103657|184495393|OTHER||Mean Difference (Net)|0.66||||0.723|TWO_SIDED|95.0|-3.0|4.32|||Mixed Models for Repeated Measures||"Least Square mean of BI 1358894 125 mg - Least Square mean of Placebo."|Least Square (LS) means differences and confidence intervals were estimated by REML-based MMRM including the fixed categorical covariates of treatment, and the stratification indicator of presence of significant childhood trauma (yes vs. no), the continuous fixed covariate of baseline CAPS-5 total severity score, time since index event (in years) and the treatment-by-visit interaction. Patient is considered as random. Unstructured covariance matrix was used.||4.32|-3.00|0.7230
92295294|NCT02020967|184495398|OTHER||Odds Ratio (OR)|7.34||||0.0196|TWO_SIDED|95.0|1.38|39.11|||Regression, Logistic|||Predictor variable: Lips enlargement||39.11|1.38|0.0196
92295295|NCT00860262|184495401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.6|STANDARD_ERROR_OF_MEAN|1.18|<|0.0001|TWO_SIDED|95.0|-12.9|-8.3|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus Telmisartan 80 mg|||-8.3|-12.9|<0.0001
92295296|NCT00860262|184495401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4|STANDARD_ERROR_OF_MEAN|1.18||0.0002|TWO_SIDED|95.0|-6.7|-2.1|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus amlodipine 10 mg|||-2.1|-6.7|0.0002
92295297|NCT00860262|184495402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.6|STANDARD_ERROR_OF_MEAN|1.25|<|0.0001|TWO_SIDED|95.0|-13.1|-8.2|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus telmisartan 80 mg|||-8.2|-13.1|<0.0001
92295298|NCT00860262|184495402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|1.24||0.0001|TWO_SIDED|95.0|-7.3|-2.4|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus amlodipine 10 mg|||-2.4|-7.3|0.0001
92295299|NCT00860262|184495403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2|STANDARD_ERROR_OF_MEAN|1.24|<|0.0001|TWO_SIDED|95.0|-12.6|-7.7|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus telmisartan 80 mg|||-7.7|-12.6|<0.0001
92295300|NCT00860262|184495403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|1.24||0.0001|TWO_SIDED|95.0|-7.2|-2.4|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus amlodipine 10 mg|||-2.4|-7.2|0.0001
92295301|NCT00860262|184495404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-10.2|-5.4|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus telmisartan 80 mg|||-5.4|-10.2|<0.0001
92295302|NCT00860262|184495404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.21||0.0001|TWO_SIDED|95.0|-7.0|-2.3|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus amlodipine 10 mg|||-2.3|-7.0|0.0001
92185093|NCT02008916|184268929|SUPERIORITY||Odds Ratio (OR)|2.59||||0.01|TWO_SIDED|95.0|1.26|5.35|||Regression, Logistic|||||5.35|1.26|0.0100
92185094|NCT02008916|184268929|SUPERIORITY||Odds Ratio (OR)|2.81||||0.0051|TWO_SIDED|95.0|1.36|5.78|||Regression, Logistic|||||5.78|1.36|0.0051
92185095|NCT02008916|184268930|SUPERIORITY||Relative treatment effect|0.51|||<|0.0001|TWO_SIDED|95.0|0.38|0.68|||Mixed Models Analysis||Relative treatment effect = exponential of the difference in LSM on the log e scale or the geometric LSM ratio on the original scale. For values less than 1, AIN457 has a greater reduction than Placebo.|||0.68|0.38|<0.0001
92185096|NCT02008916|184268930|SUPERIORITY||Relative treatment effect|0.44|||<|0.0001|TWO_SIDED|95.0|0.33|0.6|||Mixed Models Analysis||Relative treatment effect = exponential of the difference in LSM on the log e scale or the geometric LSM ratio on the original scale. For values less than 1, AIN457 has a greater reduction than Placebo.|||0.60|0.33|<0.0001
92185097|NCT02008916|184268931|SUPERIORITY||Odds Ratio (OR)|4.46||||0.0002|TWO_SIDED|95.0|2.01|9.92|||Regression, Logistic|||||9.92|2.01|0.0002
92185098|NCT02008916|184268931|SUPERIORITY||Odds Ratio (OR)|4.21||||0.0004|TWO_SIDED|95.0|1.89|9.38|||Regression, Logistic|||||9.38|1.89|0.0004
92185099|NCT02008916|184268932|SUPERIORITY||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.39||0.0347|TWO_SIDED|95.0|-1.6|-0.06|||Mixed Models Analysis|||||-0.06|-1.60|0.0347
92185100|NCT02008916|184268932|SUPERIORITY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|0.39||0.0018|TWO_SIDED|95.0|-2.0|-0.46|||Mixed Models Analysis|||||-0.46|-2.00|0.0018
92185101|NCT02008916|184268936|SUPERIORITY||Odds Ratio (OR)|7.71||||0.0593|TWO_SIDED|95.0|0.92|64.42|||Regression, Logistic|||||64.42|0.92|0.0593
92185102|NCT02008916|184268936|SUPERIORITY||Odds Ratio (OR)|19.39||||0.0046|TWO_SIDED|95.0|2.49|150.79|||Regression, Logistic|||||150.79|2.49|0.0046
92185103|NCT01213940|184268983|EQUIVALENCE|95% confidence limit from standard deviation of mean|||||<|0.05|||||||ANOVA|||one -way ANOVA was used for the analysis||||<0.05
92185104|NCT03242863|184268999|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92295303|NCT00860262|184495405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|1.23|<|0.0001|TWO_SIDED|95.0|-8.8|-4.0|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus telmisartan 80 mg|||-4.0|-8.8|<0.0001
92295304|NCT00860262|184495405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|1.23||0.0077|TWO_SIDED|95.0|-5.7|-0.9|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus amlodipine 10 mg|||-0.9|-5.7|0.0077
92295305|NCT00420095|184495444|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority hypothesis testing where paired t-test for equivalence of means was used to estimate the sample size.~Pre-defined non-inferiority margin of 0.3%."|Mean Difference (Net)|-0.05||||0.497||95.0|-0.2|0.1|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate the denominator degrees of freedom. Adjusted means were presented.||Mixed model where period, sequence, treatment are fixed effects and patient within sequence are random effects.||0.10|-0.20|0.497
92295306|NCT00420095|184495445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.497||95.0|-0.1|0.2||All comparisons were conducted using a 2-sided significance level of 0.05.|Mixed Models Analysis|Adjusted means||||0.20|-0.10|0.497
92185105|NCT03242863|184269000|SUPERIORITY|||||||0.0015|||||||Mixed Models Analysis|||||||0.0015
92185106|NCT03242863|184269001|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92185107|NCT03242863|184269002|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92185108|NCT03365622|184269037|SUPERIORITY||Mean Difference (Final Values)|6.306|STANDARD_ERROR_OF_MEAN|7.379||0.3938|TWO_SIDED|95.0|-8.242|20.854|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the total opioid dose administered intraoperatively and postoperatively, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||20.854|-8.242|0.3938
92295307|NCT00420095|184495446|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.419||95.0|-0.48|0.2||All comparisons were conducted using a 2-sided significance level of 0.05.|Mixed Models Analysis|Adjusted means||||0.20|-0.48|0.419
92295308|NCT00420095|184495447|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16||||0.741||95.0|-1.09|0.78||All comparisons were conducted using a 2-sided significance level of 0.05.|Mixed Models Analysis|Adjusted means||||0.78|-1.09|0.741
92185109|NCT03365622|184269038|SUPERIORITY||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.283||0.7051|TWO_SIDED|95.0|-0.451|0.666|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 20-24 hours post-op average surgical pain, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||0.666|-0.451|0.7051
92185110|NCT03365622|184269039|SUPERIORITY||Mean Difference (Final Values)|0.276|STANDARD_ERROR_OF_MEAN|0.317||0.3852|TWO_SIDED|95.0|-0.349|0.901|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 1-2 hours post-op average surgical pain, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||0.901|-0.349|0.3852
92295309|NCT00420095|184495448|SUPERIORITY_OR_OTHER|||||||0.644||95.0||||P-value for the HbA1c Percentage Criteria (7%)|Fisher Exact|||||||0.644
92295310|NCT00420095|184495448|SUPERIORITY_OR_OTHER|||||||0.672||95.0||||P-value for the HbA1c Percentage Criteria (6.5%)|Fisher Exact|||||||0.672
92295311|NCT00420095|184495450|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.67||95.0|-0.16|0.11||All comparisons were conducted using a 2-sided significance level of 0.05.|Mixed Models Analysis|Adjusted means||||0.11|-0.16|0.670
92295312|NCT00393705|184495451|SUPERIORITY_OR_OTHER|||||||0.2519||95.0|||||ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.2519
92295313|NCT00393705|184495452|SUPERIORITY_OR_OTHER|||||||0.0287||95.0||||P-value for HbA1c \<7%. Additional statistically significant terms from the model below were baseline HbA1c and treatment by lead-in interaction.|Regression, Logistic|Model: Logit(p(response)/1-p(response)) = U + r' X, where u = intercept parameter, X = vector of parameters (treatment, baseline value, lead-in).||||||0.0287
92295314|NCT00393705|184495452|SUPERIORITY_OR_OTHER|||||||0.0471||95.0||||P-value for HbA1c ≤6.5%. Additional statistically significant term from the model below was baseline HbA1c.|Regression, Logistic|Model: Logit(p(response)/1-p(response)) = U + r' X, where u = intercept parameter, X = vector of parameters (treatment, baseline value, lead-in).||||||0.0471
92295315|NCT00393705|184495454|SUPERIORITY_OR_OTHER|||||||0.0077||95.0|||||ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0077
92295316|NCT00393705|184495455|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0002
92295317|NCT00393705|184495456|SUPERIORITY_OR_OTHER|||||||0.0129||95.0||||P-value for Fasting.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0129
92295318|NCT00393705|184495456|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||P-value for 2-Hours After Breakfast.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0027
92144941|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.12|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.12
92144942|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.07|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.07
92295319|NCT00393705|184495456|SUPERIORITY_OR_OTHER|||||||0.1947||95.0||||P-value for Pre-Lunch.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.1947
92295320|NCT00393705|184495456|SUPERIORITY_OR_OTHER|||||||0.0077||95.0||||P-value for 2-Hours After Lunch.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0077
92295321|NCT00393705|184495456|SUPERIORITY_OR_OTHER|||||||0.1885||95.0||||P-value for Pre-Dinner.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.1885
92295322|NCT00393705|184495456|SUPERIORITY_OR_OTHER|||||||0.5525||95.0||||P-value for 2-Hours After Dinner.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.5525
92295323|NCT00393705|184495456|SUPERIORITY_OR_OTHER|||||||0.4994||95.0||||P-value for 3:00 A.M.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.4994
92295324|NCT00393705|184495458|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||P-value for Total Hypoglycemic Episodes/30 Days.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.7230
92295325|NCT00393705|184495458|SUPERIORITY_OR_OTHER|||||||0.0063||95.0||||P-value for Nocturnal Hypoglycemic Episodes/30 Days.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0063
92295326|NCT00393705|184495458|SUPERIORITY_OR_OTHER|||||||0.8876||95.0||||P-value for Severe Hypoglycemic Episodes/30 Days.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.8876
92295327|NCT00393705|184495459|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0009
92295328|NCT00393705|184495460|SUPERIORITY_OR_OTHER|||||||0.0056||95.0||||P-value for Week 4|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0056
92295329|NCT00393705|184495460|SUPERIORITY_OR_OTHER|||||||0.0421||95.0||||P-value for Week 12|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0421
92295330|NCT01525628|184495493|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|251.37|STANDARD_DEVIATION|31.0||1|TWO_SIDED|90.0|205.54|307.43|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||307.43|205.54|1.0000
92295331|NCT01525628|184495493|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|131.3|STANDARD_DEVIATION|32.5||0.6514|TWO_SIDED|90.0|105.4|163.57|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||163.57|105.40|0.6514
92295332|NCT01525628|184495494|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|381.11|STANDARD_DEVIATION|28.1||1|TWO_SIDED|90.0|317.01|458.19|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||458.19|317.01|1.0000
92295333|NCT01525628|184495494|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|123.65|STANDARD_DEVIATION|40.0||0.4718|TWO_SIDED|90.0|94.66|161.51|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||161.51|94.66|0.4718
92295334|NCT01525628|184495495|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|306.45|STANDARD_DEVIATION|30.7||1|TWO_SIDED|90.0|250.93|374.26|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||374.26|250.93|1.0000
92295335|NCT01525628|184495495|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|129.85|STANDARD_DEVIATION|32.5||0.6185|TWO_SIDED|90.0|104.26|161.71|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||161.71|104.26|0.6185
92295336|NCT01525628|184495496|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|286.01|STANDARD_DEVIATION|39.4||1|TWO_SIDED|90.0|228.51|357.97|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||357.97|228.51|1.0000
92295337|NCT01525628|184495496|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|150.45|STANDARD_DEVIATION|55.1||0.821|TWO_SIDED|90.0|106.81|211.91|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||211.91|106.81|0.8210
92295338|NCT01525628|184495497|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|349.9|STANDARD_DEVIATION|46.4||1|TWO_SIDED|90.0|269.12|454.93|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||454.93|269.12|1.0000
92295339|NCT01525628|184495497|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|176.56|STANDARD_DEVIATION|50.1||0.9533|TWO_SIDED|90.0|125.95|247.5|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||247.50|125.95|0.9533
92295340|NCT01525628|184495498|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|322.68|STANDARD_DEVIATION|40.4||1|TWO_SIDED|90.0|256.24|406.34|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||406.34|256.24|1.0000
92144943|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.45|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.45
92295341|NCT01525628|184495498|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|145.93|STANDARD_DEVIATION|66.2||0.7461|TWO_SIDED|90.0|97.83|217.69|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||217.69|97.83|0.7461
92295342|NCT01525628|184495499|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|355.04|STANDARD_DEVIATION|29.9||1|TWO_SIDED|90.0|298.13|422.83|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||422.83|298.13|1.0000
92295343|NCT01525628|184495499|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|120.67|STANDARD_DEVIATION|58.3||0.4337|TWO_SIDED|90.0|83.68|174.01|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||174.01|83.68|0.4337
92295344|NCT01525628|184495500|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|397.73|STANDARD_DEVIATION|31.6||1|TWO_SIDED|90.0|330.79|478.22|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||478.22|330.79|1.0000
92295345|NCT01525628|184495500|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|142.27|STANDARD_DEVIATION|53.1||0.7346|TWO_SIDED|90.0|99.49|203.44|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||203.44|99.49|0.7346
92185111|NCT03365622|184269040|SUPERIORITY||Mean Difference (Final Values)|0.534|STANDARD_ERROR_OF_MEAN|2.816||0.8498|TWO_SIDED|95.0|-5.02|6.088|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 1-2 hours post-op inspiratory capacity percentage, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||6.088|-5.02|0.8498
92185112|NCT03365622|184269041|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|3.007||0.5839|TWO_SIDED|95.0|-7.579|4.28|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 20-24 hours post-op inspiratory capacity percentage, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||4.28|-7.579|0.5839
92185113|NCT03365622|184269042|SUPERIORITY||Mean Difference (Final Values)|0.399|STANDARD_ERROR_OF_MEAN|0.344||0.2479|TWO_SIDED|95.0|-0.28|1.078|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 1-2 hours post-op dynamic pain score, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||1.078|-0.280|0.2479
92185114|NCT03365622|184269043|SUPERIORITY||Mean Difference (Final Values)|0.484|STANDARD_ERROR_OF_MEAN|0.335||0.1502|TWO_SIDED|95.0|-0.177|1.145|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 20-24 hours post-op dynamic pain score, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||1.145|-0.177|0.1502
92185115|NCT03365622|184269044|SUPERIORITY||Mean Difference (Final Values)|0.339|STANDARD_ERROR_OF_MEAN|0.313||0.2797|TWO_SIDED|95.0|-0.278|0.955|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 20-24 hours post-op surgical pain score, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||0.955|-0.278|0.2797
92295346|NCT01525628|184495501|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|403.86|STANDARD_DEVIATION|33.6||1|TWO_SIDED|90.0|332.19|490.99|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||490.99|332.19|1.0000
92295347|NCT01525628|184495501|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|116.96|STANDARD_DEVIATION|73.1||0.3968|TWO_SIDED|90.0|75.38|181.47|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||181.47|75.38|0.3968
92295348|NCT01525628|184495502|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|408.66|STANDARD_DEVIATION|45.9||1|TWO_SIDED|90.0|315.15|529.9|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||529.90|315.15|1.0000
92295349|NCT01525628|184495502|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|301.19|STANDARD_DEVIATION|62.1||0.9993|TWO_SIDED|90.0|204.61|443.35|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||443.35|204.61|0.9993
92295350|NCT01525628|184495503|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|450.51|STANDARD_DEVIATION|48.0||1|TWO_SIDED|90.0|343.67|590.57|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||590.57|343.67|1.0000
92295351|NCT01525628|184495503|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|341.96|STANDARD_DEVIATION|61.1||0.9996|TWO_SIDED|90.0|229.22|510.13|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||510.13|229.22|0.9996
92295352|NCT01525628|184495504|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|466.92|STANDARD_DEVIATION|47.6||1|TWO_SIDED|90.0|357.02|610.66|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||610.66|357.02|1.0000
92144944|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.37|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.37
92144945|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.3|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.30
92144946|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.22|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.22
92144947|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.17|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.17
92144948|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.12|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.12
92144949|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.72|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.72
92295353|NCT01525628|184495504|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|298.57|STANDARD_DEVIATION|79.2||0.9972|TWO_SIDED|90.0|187.22|476.15|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||476.15|187.22|0.9972
92295354|NCT01525628|184495505|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|528.95|STANDARD_DEVIATION|42.0||1|TWO_SIDED|90.0|415.88|672.75|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||672.75|415.88|1.0000
92144950|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.65|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.65
92144951|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.57|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.57
92144952|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.48|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.48
92144953|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.39|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.39
92144954|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.3|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.30
92144955|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.76|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.76
92144956|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.71|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.71
92144957|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.65|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.65
92295355|NCT01525628|184495505|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|384.0|STANDARD_DEVIATION|69.2||0.9998|TWO_SIDED|90.0|251.56|586.16|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||586.16|251.56|0.9998
92295356|NCT01525628|184495506|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|569.81|STANDARD_DEVIATION|42.2||1|TWO_SIDED|90.0|447.49|725.57|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||725.57|447.49|1.0000
92295357|NCT01525628|184495506|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|441.89|STANDARD_DEVIATION|66.9||0.9999|TWO_SIDED|90.0|286.81|680.82|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||680.82|286.81|0.9999
92295358|NCT01525628|184495507|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|606.29|STANDARD_DEVIATION|44.2||1|TWO_SIDED|90.0|471.42|779.74|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||779.74|471.42|1.0000
92295359|NCT01525628|184495507|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|377.98|STANDARD_DEVIATION|82.0||0.9994|TWO_SIDED|90.0|233.48|611.91|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||611.91|233.48|0.9994
92295360|NCT01525628|184495508|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|97.03|STANDARD_DEVIATION|30.8||0.05|TWO_SIDED|90.0|80.0|117.69|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||117.69|80.00|0.0500
92295361|NCT01525628|184495508|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|97.1|STANDARD_DEVIATION|31.2||0.0564|TWO_SIDED|90.0|79.37|118.79|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||118.79|79.37|0.0564
92295362|NCT01525628|184495508|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|114.38|STANDARD_DEVIATION|31.9||0.2375|TWO_SIDED|90.0|92.36|141.66|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||141.66|92.36|0.2375
92295363|NCT01525628|184495508|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|139.07|STANDARD_DEVIATION|22.8||0.9082|TWO_SIDED|90.0|121.63|159.0|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||159.00|121.63|0.9082
92295364|NCT01525628|184495508|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|122.37|STANDARD_DEVIATION|29.3||0.4111|TWO_SIDED|90.0|104.11|143.84|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||143.84|104.11|0.4111
92295365|NCT01525628|184495508|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|121.43|STANDARD_DEVIATION|24.7||0.3719|TWO_SIDED|90.0|104.24|141.45|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||141.45|104.24|0.3719
92295366|NCT01525628|184495509|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|88.37|STANDARD_DEVIATION|20.8||0.1037|TWO_SIDED|90.0|77.39|100.89|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||100.89|77.39|0.1037
92295367|NCT01525628|184495509|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|159.11|STANDARD_DEVIATION|57.8||0.8723|TWO_SIDED|90.0|111.06|227.93|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||227.93|111.06|0.8723
92295368|NCT01525628|184495509|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|259.57|STANDARD_DEVIATION|92.5||0.983|TWO_SIDED|90.0|150.65|447.21|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||447.21|150.65|0.9830
92144958|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.59|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.59
92144959|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.53|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.53
92144960|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.46|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.46
92144961|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.68|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.68
92144962|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.61|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.61
92144963|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.55|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.55
92144964|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.46|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.46
92144965|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.4|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.40
92144966|NCT02130193|184174402|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.33|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.33
92144967|NCT02130193|184174406|SUPERIORITY_OR_OTHER||Posterior mean difference|2.48|STANDARD_DEVIATION|0.977||0.013|TWO_SIDED|95.0|0.92|4.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 1.0 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||4.43|0.92|0.013
92144968|NCT02130193|184174406|SUPERIORITY_OR_OTHER||Posterior mean difference|2.48|STANDARD_DEVIATION|0.977||0.006|TWO_SIDED|95.0|0.92|4.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.9 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||4.43|0.92|0.006
92144969|NCT02130193|184174406|SUPERIORITY_OR_OTHER||Posterior mean difference|2.48|STANDARD_DEVIATION|0.977||0.003|TWO_SIDED|95.0|0.92|4.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.8 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||4.43|0.92|0.003
92144970|NCT02130193|184174406|SUPERIORITY_OR_OTHER||Posterior mean difference|2.48|STANDARD_DEVIATION|0.977||0.001|TWO_SIDED|95.0|0.92|4.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.7 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||4.43|0.92|0.001
92144971|NCT02130193|184174406|SUPERIORITY_OR_OTHER||Posterior mean difference|2.48|STANDARD_DEVIATION|0.977|<|0.001|TWO_SIDED|95.0|0.92|4.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.6 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||4.43|0.92|<0.001
92144972|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|1.29||0.6|TWO_SIDED|95.0|-2.81|2.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 1 month. Data presented are for 95% equal-tailed credible intervals|||2.17|-2.81|0.60
92295369|NCT01525628|184495509|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|163.95|STANDARD_DEVIATION|38.1||0.9689|TWO_SIDED|90.0|129.52|207.52|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||207.52|129.52|0.9689
92185116|NCT03365622|184269045|SUPERIORITY||Mean Difference (Final Values)|-0.333|STANDARD_ERROR_OF_MEAN|0.739||0.6527|TWO_SIDED|95.0|-1.792|1.125|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and time to first narcotic use, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||1.125|-1.792|0.6527
92185117|NCT03365622|184269046|SUPERIORITY||Odds Ratio (OR)|0.465||||0.0499|TWO_SIDED|95.0|0.217|1.0|||Regression, Logistic|Adjusted for age, sex, BMI, type of surgery and TAP block.||A logistic regression model was used to examine the association between treatment assignment and incidence of nausea, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||1.000|0.217|0.0499
92185118|NCT03365622|184269047|SUPERIORITY||Mean Difference (Final Values)|24.492|STANDARD_ERROR_OF_MEAN|18.165||0.179|TWO_SIDED|95.0|-11.321|60.304|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and time to discharge from PACU, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||60.304|-11.321|0.179
92185119|NCT03365622|184269048|SUPERIORITY||Mean Difference (Final Values)|0.274|STANDARD_ERROR_OF_MEAN|0.253||0.2811|TWO_SIDED|95.0|-0.226|0.773|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and time to hospital discharge, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||0.773|-0.226|0.2811
92185120|NCT01513447|184269081|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Fisher Exact|||||||0.67
92185121|NCT01513447|184269082|SUPERIORITY_OR_OTHER||Mean Difference (Net)|102.0||||0.29|TWO_SIDED|95.0|-230.0|171.0|||Wilcoxon (Mann-Whitney)|||||171|-230|0.29
92185122|NCT03141177|184269083|SUPERIORITY|Treatment A over Treatment C|Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.41|0.64|||Stratified Log-Rank|||||0.64|0.41|<0.0001
92185123|NCT03141177|184269084|SUPERIORITY|Treatment A over Treatment C|Hazard Ratio (HR)|0.6||||0.001|TWO_SIDED|98.89|0.4|0.89|||Stratified Log-Rank|||||0.89|0.40|0.0010
92185124|NCT03141177|184269085|SUPERIORITY|Treatment A over Treatment C|Odds Ratio (OR)|3.52|||<|0.0001|TWO_SIDED|95.0|2.51|4.95|||Stratified Cochran-Mantel-Haenszel|||||4.95|2.51|<0.0001
92185125|NCT03141177|184269085|OTHER|Treatment A - Treatment C|Difference of Objective Response Rates|28.6|||||TWO_SIDED|95.0|21.7|35.6|||||Strata adjusted difference in objective response rate (Nivolumab+Cabozantinib - Sunitinib) based on DerSimonian and Laird.|||35.6|21.7|
92185126|NCT00092456|184269097|NON_INFERIORITY_OR_EQUIVALENCE|If equivalence was established in all 3 pairwise comparisons for a given serotype, the 3 lots were considered consistent for that serotype. Each comparison consisted of 2 one-sided tests of equivalence with α=0.05. Statistical significance for the 2 one-sided equivalence tests for each pair of lots was established if the p-values for the hypothesis tests were each less than 0.05. This corresponds to the 2-sided 90% CI for the fold difference in the 2 lots being contained entirely within (0.5,2).|||||<|0.001||95.0||||The reported p-value is for all 5 serotypes, no multiplicity adjustment made, and Type I error rate controlled at the 0.05 level. P\<0.05 implies that the difference is statistically significantly less than the prespecified difference of 2 fold.|ANOVA|||A pairwise comparison of lots was made for each serotype, for each pair of lots.||||<0.001
92185127|NCT00092456|184269097|NON_INFERIORITY_OR_EQUIVALENCE|If equivalence was established in all 3 pairwise comparisons for a given serotype, the 3 lots were considered consistent for that serotype. Each comparison consisted of 2 one-sided tests of equivalence with α=0.05. Statistical significance for the 2 one-sided equivalence tests for each pair of lots was established if the p-values for the hypothesis tests were each less than 0.05. This corresponds to the 2-sided 90% CI for the fold difference in the 2 lots being contained entirely within (0.5,2)|||||<|0.001||95.0||||The reported p-value is for all 5 serotypes, no multiplicity adjustment made, and Type I error rate controlled at the 0.05 level. P\<0.05 implies that the difference is statistically significantly less than the prespecified difference of 2 fold.|ANOVA|||A pairwise comparison of lots was made for each serotype, for each pair of lots.||||<0.001
92185128|NCT00092456|184269097|NON_INFERIORITY_OR_EQUIVALENCE|If equivalence was established in all 3 pairwise comparisons for a given serotype, the 3 lots were considered consistent for that serotype. Each comparison consisted of 2 one-sided tests of equivalence with α=0.05. Statistical significance for the 2 one-sided equivalence tests for each pair of lots was established if the p-values for the hypothesis tests were each less than 0.05. This corresponds to the 2-sided 90% CI for the fold difference in the 2 lots being contained entirely within (0.5,2).|||||<|0.001||95.0||||The reported p-value is for all 5 serotypes, no multiplicity adjustment made, and Type I error rate controlled at the 0.05 level. P\<0.05 implies that the difference is statistically significantly less than the prespecified difference of 2 fold.|ANCOVA|||A pairwise comparison of lots was made for each serotype, for each pair of lots.||||<0.001
92295370|NCT01525628|184495509|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|219.88|STANDARD_DEVIATION|70.4||0.9933|TWO_SIDED|90.0|153.84|314.26|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||314.26|153.84|0.9933
92295371|NCT01525628|184495509|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|214.4|STANDARD_DEVIATION|66.8||0.9865|TWO_SIDED|90.0|145.88|315.09|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||315.09|145.88|0.9865
92295372|NCT01525628|184495510|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|96.06|STANDARD_DEVIATION|14.2||0.0015|TWO_SIDED|90.0|87.77|105.13|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||105.13|87.77|0.0015
92144973|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.58|STANDARD_DEVIATION|1.42||0.65|TWO_SIDED|95.0|-3.11|2.37||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 2 month. Data presented are for 95% equal-tailed credible intervals|||2.37|-3.11|0.65
92144974|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.46|STANDARD_DEVIATION|1.52||0.83|TWO_SIDED|95.0|-4.43|1.45||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 3 month. Data presented are for 95% equal-tailed credible intervals|||1.45|-4.43|0.83
92144975|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.2|STANDARD_DEVIATION|1.53||0.78|TWO_SIDED|95.0|-4.07|1.9||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 4 month. Data presented are for 95% equal-tailed credible intervals|||1.90|-4.07|0.78
92144976|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.96|STANDARD_DEVIATION|1.56||0.73|TWO_SIDED|95.0|-3.82|2.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 5 month. Data presented are for 95% equal-tailed credible intervals|||2.28|-3.82|0.73
92144977|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.93|STANDARD_DEVIATION|1.58||0.72|TWO_SIDED|95.0|-4.01|2.26||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 6 month. Data presented are for 95% equal-tailed credible intervals|||2.26|-4.01|0.72
92144978|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.0|STANDARD_DEVIATION|1.58||0.73|TWO_SIDED|95.0|-4.15|2.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 7 month. Data presented are for 95% equal-tailed credible intervals|||2.09|-4.15|0.73
92144979|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.48|STANDARD_DEVIATION|1.69||0.81|TWO_SIDED|95.0|-4.71|1.76||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 8 month. Data presented are for 95% equal-tailed credible intervals|||1.76|-4.71|0.81
92144980|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.23|STANDARD_DEVIATION|1.75||0.76|TWO_SIDED|95.0|-4.66|2.22||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 9 month. Data presented are for 95% equal-tailed credible intervals|||2.22|-4.66|0.76
92144981|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-2.26|STANDARD_DEVIATION|1.74||0.91|TWO_SIDED|95.0|-5.66|0.99||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.99|-5.66|0.91
92144982|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.05|STANDARD_DEVIATION|1.73||0.71|TWO_SIDED|95.0|-4.73|2.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 11 month. Data presented are for 95% equal-tailed credible intervals|||2.13|-4.73|0.71
92144983|NCT02130193|184174407|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.35|STANDARD_DEVIATION|1.74||0.78|TWO_SIDED|95.0|-4.77|2.04||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 12 month. Data presented are for 95% equal-tailed credible intervals|||2.04|-4.77|0.78
92144984|NCT02130193|184174411|SUPERIORITY_OR_OTHER||Posterior mean difference|1.15|STANDARD_DEVIATION|0.242||0.278|TWO_SIDED|95.0|0.71|1.63||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 1.0 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.63|0.71|0.278
92144985|NCT02130193|184174411|SUPERIORITY_OR_OTHER||Posterior mean difference|1.15|STANDARD_DEVIATION|0.242||0.138|TWO_SIDED|95.0|0.71|1.63||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.9 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.63|0.71|0.138
92295373|NCT01525628|184495510|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|85.41|STANDARD_DEVIATION|17.2||0.1617|TWO_SIDED|90.0|76.32|95.57|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||95.57|76.32|0.1617
92295374|NCT01525628|184495510|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|73.26|STANDARD_DEVIATION|17.5||0.893|TWO_SIDED|90.0|65.03|82.54|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||82.54|65.03|0.8930
92144986|NCT02130193|184174411|SUPERIORITY_OR_OTHER||Posterior mean difference|1.15|STANDARD_DEVIATION|0.242||0.05|TWO_SIDED|95.0|0.71|1.63||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.8 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.63|0.71|0.05
92144987|NCT02130193|184174411|SUPERIORITY_OR_OTHER||Posterior mean difference|1.15|STANDARD_DEVIATION|0.242||0.011|TWO_SIDED|95.0|0.71|1.63||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.7 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.63|0.71|0.011
92144988|NCT02130193|184174411|SUPERIORITY_OR_OTHER||Posterior mean difference|1.15|STANDARD_DEVIATION|0.242||0.002|TWO_SIDED|95.0|0.71|1.63||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.6 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.63|0.71|0.002
92144989|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.57|STANDARD_DEVIATION|2.04||0.62|TWO_SIDED|95.0|-4.55|3.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 1 month. Data presented are for 95% equal-tailed credible intervals|||3.23|-4.55|0.62
92144990|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.72|STANDARD_DEVIATION|2.21||0.64|TWO_SIDED|95.0|-5.03|3.6||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 2 month. Data presented are for 95% equal-tailed credible intervals|||3.60|-5.03|0.64
92144991|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.99|STANDARD_DEVIATION|2.29||0.81|TWO_SIDED|95.0|-6.6|2.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 3 month. Data presented are for 95% equal-tailed credible intervals|||2.27|-6.60|0.81
92295375|NCT01525628|184495510|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|92.23|STANDARD_DEVIATION|10.5||0.0005|TWO_SIDED|90.0|86.67|98.13|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||98.13|86.67|0.0005
92144992|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.64|STANDARD_DEVIATION|2.31||0.77|TWO_SIDED|95.0|-5.92|3.07||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 4 month. Data presented are for 95% equal-tailed credible intervals|||3.07|-5.92|0.77
92144993|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.3|STANDARD_DEVIATION|2.4||0.71|TWO_SIDED|95.0|-5.7|3.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 5 month. Data presented are for 95% equal-tailed credible intervals|||3.55|-5.70|0.71
92144994|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.31|STANDARD_DEVIATION|2.42||0.7|TWO_SIDED|95.0|-6.46|3.05||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 6 month. Data presented are for 95% equal-tailed credible intervals|||3.05|-6.46|0.70
92144995|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.6|STANDARD_DEVIATION|2.45||0.74|TWO_SIDED|95.0|-6.75|2.9||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 7 month. Data presented are for 95% equal-tailed credible intervals|||2.90|-6.75|0.74
92144996|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-2.1|STANDARD_DEVIATION|2.63||0.79|TWO_SIDED|95.0|-6.93|3.3||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 8 month. Data presented are for 95% equal-tailed credible intervals|||3.30|-6.93|0.79
92144997|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.92|STANDARD_DEVIATION|2.63||0.77|TWO_SIDED|95.0|-7.04|3.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 9 month. Data presented are for 95% equal-tailed credible intervals|||3.18|-7.04|0.77
92144998|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-3.44|STANDARD_DEVIATION|2.72||0.9|TWO_SIDED|95.0|-8.74|1.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 10 month. Data presented are for 95% equal-tailed credible intervals|||1.87|-8.74|0.90
92144999|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.16|STANDARD_DEVIATION|2.72||0.66|TWO_SIDED|95.0|-6.2|4.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 11 month. Data presented are for 95% equal-tailed credible intervals|||4.20|-6.20|0.66
92295376|NCT01525628|184495510|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|73.93|STANDARD_DEVIATION|21.6||0.8646|TWO_SIDED|90.0|65.55|83.39|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||83.39|65.55|0.8646
92295377|NCT01525628|184495510|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|75.42|STANDARD_DEVIATION|16.4||0.8378|TWO_SIDED|90.0|68.15|83.45|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||83.45|68.15|0.8378
92295378|NCT01525628|184495511|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|98.17|STANDARD_DEVIATION|12.3||0.0005|TWO_SIDED|90.0|90.15|106.91|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||106.91|90.15|0.0005
92295379|NCT01525628|184495511|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|81.26|STANDARD_DEVIATION|11.7||0.3638|TWO_SIDED|90.0|75.19|87.82|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||87.82|75.19|0.3638
92295380|NCT01525628|184495511|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|70.93|STANDARD_DEVIATION|22.6||0.8975|TWO_SIDED|90.0|60.44|83.22|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||83.22|60.44|0.8975
92295381|NCT01525628|184495511|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|86.37|STANDARD_DEVIATION|18.1||0.1144|TWO_SIDED|90.0|77.62|96.11|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||96.11|77.62|0.1144
92185129|NCT02065895|184269129|OTHER|ANOVA was used to first tests the hypothesis that there is a difference among the three groups.|Mean Difference (Final Values)|66.8||||0.0011|TWO_SIDED|95.0|33.4|80.3||The p value was adjusted for multiple comparisons using Sidak's correction. A priori the pimary outcome was defined as blood glucose AUC from 8 am - 12pm; however we used blood glucose AUC from 8am - 2pm to capture the entire meal response.|ANOVA|||Differences among the 3 groups were assessed by repeated measures ANOVA using Sidak's correction for multiple comparisons. All subjects were analyzed as a single group, no comparison group.||80.3|33.4|0.0011
92295382|NCT01525628|184495511|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|64.66|STANDARD_DEVIATION|11.8||1|TWO_SIDED|90.0|60.42|69.2|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||69.20|60.42|1.0000
92295383|NCT01525628|184495511|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|63.75|STANDARD_DEVIATION|17.3||0.9988|TWO_SIDED|90.0|57.19|71.07|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||71.07|57.19|0.9988
92295384|NCT01525628|184495512|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|144.78|STANDARD_DEVIATION|19.0||0.9749|TWO_SIDED|90.0|128.3|163.36|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||163.36|128.30|0.9749
92295385|NCT01525628|184495512|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|152.94|STANDARD_DEVIATION|26.8||0.9703|TWO_SIDED|90.0|128.6|181.89|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||181.89|128.60|0.9703
92185130|NCT02065895|184269130|OTHER|||||||0.0059|||||||ANOVA|||||||0.0059
92185131|NCT03740737|184269132|OTHER||Treatment difference|63.0|||<|0.001|TWO_SIDED|95.0|55.5|67.1|||Fisher Exact||95% exact Agresti-Min confidence intervals.|||67.1|55.5|<0.001
92185132|NCT03740737|184269133|OTHER||Treatment difference|29.5|||<|0.001|TWO_SIDED|95.0|22.5|33.7|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Ongoing Pregnancy Rate in the Fresh Cycle||33.7|22.5|<0.001
92185133|NCT03740737|184269137|OTHER||Treatment difference|31.8|||<|0.001|TWO_SIDED|95.0|24.7|36.0|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Clinical pregnancy rate in the fresh cycle||36.0|24.7|<0.001
92145000|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.73|STANDARD_DEVIATION|2.7||0.74|TWO_SIDED|95.0|-6.91|3.45||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 12 month. Data presented are for 95% equal-tailed credible intervals|||3.45|-6.91|0.74
92295386|NCT01525628|184495512|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|102.99|STANDARD_DEVIATION|29.3||0.05|TWO_SIDED|90.0|84.85|124.99|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||124.99|84.85|0.0500
92295387|NCT01525628|184495512|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|124.22|STANDARD_DEVIATION|24.1||0.4697|TWO_SIDED|90.0|107.91|142.99|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||142.99|107.91|0.4697
92295388|NCT01525628|184495512|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|120.74|STANDARD_DEVIATION|19.2||0.2906|TWO_SIDED|90.0|108.47|134.38|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||134.38|108.47|0.2906
92295389|NCT01525628|184495512|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|93.95|STANDARD_DEVIATION|25.2||0.046|TWO_SIDED|90.0|80.33|109.86|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||109.86|80.33|0.0460
92295390|NCT01525628|184495513|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|151.66|STANDARD_DEVIATION|18.5||0.9941|TWO_SIDED|90.0|134.79|170.64|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||170.64|134.79|0.9941
92145001|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.57|STANDARD_DEVIATION|2.04||0.43|TWO_SIDED|95.0|-4.55|3.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 1 month. Data presented are for 95% equal-tailed credible intervals|||3.23|-4.55|0.43
92145002|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.72|STANDARD_DEVIATION|2.21||0.45|TWO_SIDED|95.0|-5.03|3.6||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 2 month. Data presented are for 95% equal-tailed credible intervals|||3.60|-5.03|0.45
92145003|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.99|STANDARD_DEVIATION|2.29||0.67|TWO_SIDED|95.0|-6.6|2.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 3 month. Data presented are for 95% equal-tailed credible intervals|||2.27|-6.60|0.67
92145004|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.64|STANDARD_DEVIATION|2.31||0.62|TWO_SIDED|95.0|-5.92|3.07||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 4 month. Data presented are for 95% equal-tailed credible intervals|||3.07|-5.92|0.62
92145005|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.3|STANDARD_DEVIATION|2.4||0.55|TWO_SIDED|95.0|-5.7|3.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 5 month. Data presented are for 95% equal-tailed credible intervals|||3.55|-5.70|0.55
92145006|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.31|STANDARD_DEVIATION|2.42||0.55|TWO_SIDED|95.0|-6.46|3.05||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 6 month. Data presented are for 95% equal-tailed credible intervals|||3.05|-6.46|0.55
92145007|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.6|STANDARD_DEVIATION|2.45||0.59|TWO_SIDED|95.0|-6.75|2.9||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 7 month. Data presented are for 95% equal-tailed credible intervals|||2.90|-6.75|0.59
92145008|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-2.1|STANDARD_DEVIATION|2.63||0.65|TWO_SIDED|95.0|-6.93|3.3||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 8 month. Data presented are for 95% equal-tailed credible intervals|||3.30|-6.93|0.65
92145009|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.92|STANDARD_DEVIATION|2.63||0.63|TWO_SIDED|95.0|-7.04|3.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 9 month. Data presented are for 95% equal-tailed credible intervals|||3.18|-7.04|0.63
92145010|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-3.44|STANDARD_DEVIATION|2.72||0.81|TWO_SIDED|95.0|-8.74|1.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 10 month. Data presented are for 95% equal-tailed credible intervals|||1.87|-8.74|0.81
92295391|NCT01525628|184495513|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|163.42|STANDARD_DEVIATION|26.0||0.9926|TWO_SIDED|90.0|137.91|193.64|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||193.64|137.91|0.9926
92295392|NCT01525628|184495513|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|98.14|STANDARD_DEVIATION|28.1||0.0392|TWO_SIDED|90.0|81.2|118.63|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||118.63|81.20|0.0392
92145011|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.16|STANDARD_DEVIATION|2.72||0.52|TWO_SIDED|95.0|-6.2|4.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 11 month. Data presented are for 95% equal-tailed credible intervals|||4.20|-6.20|0.52
92145012|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.73|STANDARD_DEVIATION|2.7||0.6|TWO_SIDED|95.0|-6.91|3.45||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 12 month. Data presented are for 95% equal-tailed credible intervals|||3.45|-6.91|0.60
92145013|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.57|STANDARD_DEVIATION|2.04||0.24|TWO_SIDED|95.0|-4.55|3.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 1 month. Data presented are for 95% equal-tailed credible intervals|||3.23|-4.55|0.24
92145014|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.72|STANDARD_DEVIATION|2.21||0.28|TWO_SIDED|95.0|-5.03|3.6||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 2 month. Data presented are for 95% equal-tailed credible intervals|||3.60|-5.03|0.28
92145015|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.99|STANDARD_DEVIATION|2.29||0.5|TWO_SIDED|95.0|-6.6|2.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 3 month. Data presented are for 95% equal-tailed credible intervals|||2.27|-6.60|0.50
92145016|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.64|STANDARD_DEVIATION|2.31||0.43|TWO_SIDED|95.0|-5.92|3.07||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 4 month. Data presented are for 95% equal-tailed credible intervals|||3.07|-5.92|0.43
92145017|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.3|STANDARD_DEVIATION|2.4||0.37|TWO_SIDED|95.0|-5.7|3.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 5 month. Data presented are for 95% equal-tailed credible intervals|||3.55|-5.70|0.37
92145018|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.31|STANDARD_DEVIATION|2.42||0.38|TWO_SIDED|95.0|-6.46|3.05||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 6 month. Data presented are for 95% equal-tailed credible intervals|||3.05|-6.46|0.38
92145019|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.6|STANDARD_DEVIATION|2.45||0.43|TWO_SIDED|95.0|-6.75|2.9||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 7 month. Data presented are for 95% equal-tailed credible intervals|||2.90|-6.75|0.43
92145020|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-2.1|STANDARD_DEVIATION|2.63||0.51|TWO_SIDED|95.0|-6.93|3.3||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 8 month. Data presented are for 95% equal-tailed credible intervals|||3.30|-6.93|0.51
92145021|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.92|STANDARD_DEVIATION|2.63||0.5|TWO_SIDED|95.0|-7.04|3.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 9 month. Data presented are for 95% equal-tailed credible intervals|||3.18|-7.04|0.50
92145022|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-3.44|STANDARD_DEVIATION|2.72||0.7|TWO_SIDED|95.0|-8.74|1.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 10 month. Data presented are for 95% equal-tailed credible intervals|||1.87|-8.74|0.70
92145023|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.16|STANDARD_DEVIATION|2.72||0.38|TWO_SIDED|95.0|-6.2|4.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 11 month. Data presented are for 95% equal-tailed credible intervals|||4.20|-6.20|0.38
92145024|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.73|STANDARD_DEVIATION|2.7||0.45|TWO_SIDED|95.0|-6.91|3.45||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 12 month. Data presented are for 95% equal-tailed credible intervals|||3.45|-6.91|0.45
92145025|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.57|STANDARD_DEVIATION|2.04||0.11|TWO_SIDED|95.0|-4.55|3.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 1 month. Data presented are for 95% equal-tailed credible intervals|||3.23|-4.55|0.11
92185134|NCT03740737|184269137|OTHER||Treatment difference|68.2|||<|0.001|TWO_SIDED|95.0|61.2|72.1|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Clinical pregnancy rate cumulatively||72.1|61.2|<0.001
92185135|NCT03740737|184269138|OTHER||Treatment difference|30.5|||<|0.001|TWO_SIDED|95.0|23.4|34.6|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Vital pregnancy rate in the fresh cycle||34.6|23.4|<0.001
92185136|NCT03740737|184269138|OTHER||Treatment difference|65.1|||<|0.001|TWO_SIDED|95.0|57.5|69.1|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Vital pregnancy rate cumulatively||69.1|57.5|<0.001
92185137|NCT03740737|184269140|OTHER||Treatment difference|35.0|||<|0.001|TWO_SIDED|95.0|28.1|39.2|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Positive βhCG rate in the fresh cycle||39.2|28.1|<0.001
92185138|NCT03740737|184269140|OTHER||Treatment difference|72.4|||<|0.001|TWO_SIDED|95.0|65.3|76.2|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Positive βhCG rate cumulatively||76.2|65.3|<0.001
92185139|NCT03740737|184269152|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
92185140|NCT03740737|184269153|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
92185141|NCT03740737|184269154|OTHER|||||||0.22|||||||Fisher Exact|||||||0.220
92185142|NCT03740737|184269155|OTHER|||||||0.588|||||||Fisher Exact|||||||0.588
92295393|NCT01525628|184495513|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|122.58|STANDARD_DEVIATION|37.2||0.4374|TWO_SIDED|90.0|99.15|151.55|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||151.55|99.15|0.4374
92295394|NCT01525628|184495513|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|130.44|STANDARD_DEVIATION|35.3||0.647|TWO_SIDED|90.0|107.57|158.18|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||158.18|107.57|0.6470
92295395|NCT01525628|184495513|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|87.77|STANDARD_DEVIATION|36.9||0.2372|TWO_SIDED|90.0|70.32|109.54|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||109.54|70.32|0.2372
92295396|NCT01525628|184495514|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|117.67|STANDARD_DEVIATION|15.6||0.1519|TWO_SIDED|90.0|106.49|130.0|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||130.00|106.49|0.1519
92185143|NCT00507429|184269201|SUPERIORITY_OR_OTHER|||||||0.223|||||||Log Rank|||||||0.223
92185144|NCT03137784|184269220|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.089|||<|0.001|TWO_SIDED|95.0|0.047|0.132|||Linear Mixed Model|||||0.132|0.047|<0.001
92185145|NCT03137784|184269220|OTHER||Linear Mixed Model (LMM)|0.09|||<|0.001|TWO_SIDED|95.0|0.047|0.132|||Linear Mixed Model|||||0.132|0.047|<0.001
92185146|NCT03137784|184269221|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.165|||<|0.001|TWO_SIDED|95.0|0.127|0.203|||Linear Mixed Model|||||0.203|0.127|<0.001
92185147|NCT03137784|184269221|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.168|||<|0.001|TWO_SIDED|95.0|0.129|0.206|||Linear Mixed Model|||||0.206|0.129|<0.001
92185148|NCT03137784|184269222|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.176|||<|0.001|TWO_SIDED|95.0|0.141|0.212|||Linear Mixed Model|||||0.212|0.141|<0.001
92185149|NCT03137784|184269222|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.179|||<|0.001|TWO_SIDED|95.0|0.144|0.215|||Linear Mixed Model|||||0.215|0.144|<0.001
92185150|NCT03137784|184269223|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.139|||<|0.001|TWO_SIDED|95.0|0.106|0.173|||Linear Mixed Model|||||0.173|0.106|<0.001
92185151|NCT03137784|184269223|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.146|||<|0.001|TWO_SIDED|95.0|0.112|0.179|||Linear Mixed Model|||||0.179|0.112|<0.001
92185152|NCT03137784|184269224|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.164|||<|0.001|TWO_SIDED|95.0|0.127|0.201|||Linear Mixed Model|||||0.201|0.127|<0.001
92185153|NCT03137784|184269224|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.174|||<|0.001|TWO_SIDED|95.0|0.137|0.211|||Linear Mixed Model|||||0.211|0.137|<0.001
92185154|NCT03137784|184269225|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.036||||0.079|TWO_SIDED|95.0|-0.004|0.077|||Linear Mixed Model|||||0.077|-0.004|0.079
92185155|NCT03137784|184269225|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.058||||0.006|TWO_SIDED|95.0|0.017|0.099|||Linear Mixed Model|||||0.099|0.017|0.006
92185156|NCT03137784|184269227|OTHER|Treatment difference|Linear Mixed Model (LMM)|25.51|||<|0.001|TWO_SIDED|95.0|19.22|31.79|||Linear Mixed Model||LS Mean of change from baseline in mean morning PEF is calculated with the ANCOVA model using treatment, stratification group, dosing schedule, gender, center grouping, smoking status, and baseline mean morning PEF as covariates|||31.79|19.22|<0.001
92185157|NCT03137784|184269227|OTHER|Treatment difference|Linear Mixed Model (LMM)|24.29|||<|0.001|TWO_SIDED|95.0|17.99|30.59|||Linear Mixed Model|||||30.59|17.99|<0.001
92185158|NCT03137784|184269228|OTHER|Treatment difference|Linear Mixed Model (LMM)|30.95|||<|0.001|TWO_SIDED|95.0|25.07|36.82|||Linear Mixed Model||LS Mean of change from baseline in mean morning PEF is calculated with the ANCOVA model using treatment, stratification group, dosing schedule, gender, center grouping, smoking status, and baseline mean morning PEF as covariates|||36.82|25.07|<0.001
92185159|NCT03137784|184269228|OTHER|Treatment difference|Linear Mixed Model (LMM)|29.37|||<|0.001|TWO_SIDED|95.0|23.47|35.26|||Linear Mixed Model||LS Mean of change from baseline in mean morning PEF is calculated with the ANCOVA model using treatment, stratification group, dosing schedule, gender, center grouping, smoking status, and baseline mean morning PEF as covariates|||35.26|23.47|<0.001
92295397|NCT01525628|184495514|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|117.01|STANDARD_DEVIATION|30.9||0.2827|TWO_SIDED|90.0|96.06|142.52|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day17 vs. Day 1||142.52|96.06|0.2827
92145026|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.72|STANDARD_DEVIATION|2.21||0.15|TWO_SIDED|95.0|-5.03|3.6||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 2 month. Data presented are for 95% equal-tailed credible intervals|||3.60|-5.03|0.15
92145027|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.99|STANDARD_DEVIATION|2.29||0.32|TWO_SIDED|95.0|-6.6|2.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 3 month. Data presented are for 95% equal-tailed credible intervals|||2.27|-6.60|0.32
92145028|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.64|STANDARD_DEVIATION|2.31||0.28|TWO_SIDED|95.0|-5.92|3.07||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 4 month. Data presented are for 95% equal-tailed credible intervals|||3.07|-5.92|0.28
92145029|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.3|STANDARD_DEVIATION|2.4||0.23|TWO_SIDED|95.0|-5.7|3.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 5 month. Data presented are for 95% equal-tailed credible intervals|||3.55|-5.70|0.23
92145030|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.31|STANDARD_DEVIATION|2.42||0.24|TWO_SIDED|95.0|-6.46|3.05||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 6 month. Data presented are for 95% equal-tailed credible intervals|||3.05|-6.46|0.24
92145031|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.6|STANDARD_DEVIATION|2.45||0.29|TWO_SIDED|95.0|-6.75|2.9||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 7 month. Data presented are for 95% equal-tailed credible intervals|||2.90|-6.75|0.29
92145032|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-2.1|STANDARD_DEVIATION|2.63||0.36|TWO_SIDED|95.0|-6.93|3.3||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 8 month. Data presented are for 95% equal-tailed credible intervals|||3.30|-6.93|0.36
92145033|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.92|STANDARD_DEVIATION|2.63||0.35|TWO_SIDED|95.0|-7.04|3.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 9 month. Data presented are for 95% equal-tailed credible intervals|||3.18|-7.04|0.35
92145034|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-3.44|STANDARD_DEVIATION|2.72||0.57|TWO_SIDED|95.0|-8.74|1.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 10 month. Data presented are for 95% equal-tailed credible intervals|||1.87|-8.74|0.57
92145035|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.16|STANDARD_DEVIATION|2.72||0.25|TWO_SIDED|95.0|-6.2|4.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 11 month. Data presented are for 95% equal-tailed credible intervals|||4.20|-6.20|0.25
92145036|NCT02130193|184174412|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.73|STANDARD_DEVIATION|2.7||0.32|TWO_SIDED|95.0|-6.91|3.45||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 12 month. Data presented are for 95% equal-tailed credible intervals|||3.45|-6.91|0.32
92145037|NCT02130193|184174413|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.477|TWO_SIDED|95.0|0.55|1.82||Posterior probability that the treatment ratio (DNX 75 mg/ placebo) is less than 1.0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.82|0.55|0.477
92145038|NCT02130193|184174413|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.343|TWO_SIDED|95.0|0.55|1.82||Posterior probability that the treatment ratio (DNX 75 mg/ placebo) is less than 0.9 is presented.|Bayesian analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.82|0.55|0.343
92145039|NCT02130193|184174413|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.221|TWO_SIDED|95.0|0.55|1.82||Posterior probability that the treatment ratio (DNX 75 mg/ placebo) is less than 0.8 is presented.|Bayesian analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.82|0.55|0.221
92145040|NCT02130193|184174413|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.116|TWO_SIDED|95.0|0.55|1.82||Posterior probability that the treatment ratio (DNX 75 mg/ placebo) is less than 0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.82|0.55|0.116
92145041|NCT02130193|184174413|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.052|TWO_SIDED|95.0|0.55|1.82||Posterior probability that the treatment ratio (DNX 75 mg/ placebo) is less than 0.6 is presented.|Bayesian analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.82|0.55|0.052
92145042|NCT02130193|184174414|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.212|TWO_SIDED|95.0|0.73|2.11||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 1.0 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||2.11|0.73|0.212
92185160|NCT03137784|184269229|OTHER|Treatment difference|Linear Mixed Model (LMM)|-0.15||||0.053|TWO_SIDED|95.0|-0.31|0.0|||Linear Mixed Model|||||0.00|-0.31|0.053
92295398|NCT01525628|184495514|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|92.11|STANDARD_DEVIATION|32.6||0.1326|TWO_SIDED|90.0|74.38|114.07|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||114.07|74.38|0.1326
92295399|NCT01525628|184495514|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|95.55|STANDARD_DEVIATION|29.2||0.0432|TWO_SIDED|90.0|80.63|113.24|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||113.24|80.63|0.0432
92145043|NCT02130193|184174414|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.111|TWO_SIDED|95.0|0.73|2.11||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.9 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||2.11|0.73|0.111
92145044|NCT02130193|184174414|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.049|TWO_SIDED|95.0|0.73|2.11||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.8 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||2.11|0.73|0.049
92145045|NCT02130193|184174414|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.012|TWO_SIDED|95.0|0.73|2.11||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.7 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||2.11|0.73|0.012
92145046|NCT02130193|184174414|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.001|TWO_SIDED|95.0|0.73|2.11||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.6 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||2.11|0.73|0.001
92145047|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.23|STANDARD_DEVIATION|0.72||0.64|TWO_SIDED|95.0|-1.53|1.25||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 1 month. Data presented are for 95% equal-tailed credible intervals|||1.25|-1.53|0.64
92145048|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.53|STANDARD_DEVIATION|0.78||0.75|TWO_SIDED|95.0|-1.91|1.1||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 2 month. Data presented are for 95% equal-tailed credible intervals|||1.10|-1.91|0.75
92145049|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.6|STANDARD_DEVIATION|0.8||0.77|TWO_SIDED|95.0|-2.09|0.98||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.98|-2.09|0.77
92145050|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.55|STANDARD_DEVIATION|0.81||0.74|TWO_SIDED|95.0|-2.23|0.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.87|-2.23|0.74
92145051|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.83||0.67|TWO_SIDED|95.0|-1.88|1.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 5 month. Data presented are for 95% equal-tailed credible intervals|||1.27|-1.88|0.67
92145052|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.86||0.69|TWO_SIDED|95.0|-1.99|1.26||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 6 month. Data presented are for 95% equal-tailed credible intervals|||1.26|-1.99|0.69
92145053|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.85||0.72|TWO_SIDED|95.0|-2.1|1.08||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 7 month. Data presented are for 95% equal-tailed credible intervals|||1.08|-2.10|0.72
92145054|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.87||0.71|TWO_SIDED|95.0|-2.11|1.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 8 month. Data presented are for 95% equal-tailed credible intervals|||1.14|-2.11|0.71
92145055|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.34|STANDARD_DEVIATION|0.88||0.66|TWO_SIDED|95.0|-2.14|1.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 9 month. Data presented are for 95% equal-tailed credible intervals|||1.23|-2.14|0.66
92145056|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.89|STANDARD_DEVIATION|0.89||0.84|TWO_SIDED|95.0|-2.71|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-2.71|0.84
92145057|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.91||0.65|TWO_SIDED|95.0|-2.15|1.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 11 month. Data presented are for 95% equal-tailed credible intervals|||1.41|-2.15|0.65
92185161|NCT03137784|184269229|OTHER|Treatment difference|Linear Mixed Model (LMM)|-0.11||||0.163|TWO_SIDED|95.0|-0.27|0.05|||Linear Mixed Model|||||0.05|-0.27|0.163
92145058|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.9||0.71|TWO_SIDED|95.0|-2.36|1.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 12 month. Data presented are for 95% equal-tailed credible intervals|||1.13|-2.36|0.71
92145059|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.23|STANDARD_DEVIATION|0.72||0.13|TWO_SIDED|95.0|-1.53|1.25||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 1 month. Data presented are for 95% equal-tailed credible intervals|||1.25|-1.53|0.13
92145060|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.53|STANDARD_DEVIATION|0.78||0.27|TWO_SIDED|95.0|-1.91|1.1||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 2 month. Data presented are for 95% equal-tailed credible intervals|||1.10|-1.91|0.27
92145061|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.6|STANDARD_DEVIATION|0.8||0.31|TWO_SIDED|95.0|-2.09|0.98||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.98|-2.09|0.31
92145062|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.55|STANDARD_DEVIATION|0.81||0.29|TWO_SIDED|95.0|-2.23|0.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.87|-2.23|0.29
92145063|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.83||0.23|TWO_SIDED|95.0|-1.88|1.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 5 month. Data presented are for 95% equal-tailed credible intervals|||1.27|-1.88|0.23
92145064|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.86||0.26|TWO_SIDED|95.0|-1.99|1.26||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 6 month. Data presented are for 95% equal-tailed credible intervals|||1.26|-1.99|0.26
92145065|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.85||0.28|TWO_SIDED|95.0|-2.1|1.08||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 7 month. Data presented are for 95% equal-tailed credible intervals|||1.08|-2.10|0.28
92145066|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.87||0.29|TWO_SIDED|95.0|-2.11|1.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 8 month. Data presented are for 95% equal-tailed credible intervals|||1.14|-2.11|0.29
92145067|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.34|STANDARD_DEVIATION|0.88||0.23|TWO_SIDED|95.0|-2.14|1.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 9 month. Data presented are for 95% equal-tailed credible intervals|||1.23|-2.14|0.23
92145068|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.89|STANDARD_DEVIATION|0.89||0.45|TWO_SIDED|95.0|-2.71|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-2.71|0.45
92145069|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.91||0.24|TWO_SIDED|95.0|-2.15|1.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 11 month. Data presented are for 95% equal-tailed credible intervals|||1.41|-2.15|0.24
92145070|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.9||0.28|TWO_SIDED|95.0|-2.36|1.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 12 month. Data presented are for 95% equal-tailed credible intervals|||1.13|-2.36|0.28
92145071|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.23|STANDARD_DEVIATION|0.72||0.26|TWO_SIDED|95.0|-1.53|1.25||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 1 month. Data presented are for 95% equal-tailed credible intervals|||1.25|-1.53|0.26
92145072|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.53|STANDARD_DEVIATION|0.78||0.41|TWO_SIDED|95.0|-1.91|1.1||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 2 month. Data presented are for 95% equal-tailed credible intervals|||1.10|-1.91|0.41
92145073|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.6|STANDARD_DEVIATION|0.8||0.46|TWO_SIDED|95.0|-2.09|0.98||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.98|-2.09|0.46
92145074|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.55|STANDARD_DEVIATION|0.81||0.43|TWO_SIDED|95.0|-2.23|0.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.87|-2.23|0.43
92145075|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.83||0.36|TWO_SIDED|95.0|-1.88|1.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 5 month. Data presented are for 95% equal-tailed credible intervals|||1.27|-1.88|0.36
92145076|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.86||0.39|TWO_SIDED|95.0|-1.99|1.26||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 6 month. Data presented are for 95% equal-tailed credible intervals|||1.26|-1.99|0.39
92145077|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.85||0.42|TWO_SIDED|95.0|-2.1|1.08||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 7 month. Data presented are for 95% equal-tailed credible intervals|||1.08|-2.10|0.42
92145078|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.87||0.42|TWO_SIDED|95.0|-2.11|1.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 8 month. Data presented are for 95% equal-tailed credible intervals|||1.14|-2.11|0.42
92145079|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.34|STANDARD_DEVIATION|0.88||0.35|TWO_SIDED|95.0|-2.14|1.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 9 month. Data presented are for 95% equal-tailed credible intervals|||1.23|-2.14|0.35
92145080|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.89|STANDARD_DEVIATION|0.89||0.58|TWO_SIDED|95.0|-2.71|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-2.71|0.58
92145081|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.91||0.36|TWO_SIDED|95.0|-2.15|1.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 11 month. Data presented are for 95% equal-tailed credible intervals|||1.41|-2.15|0.36
92145082|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.9||0.41|TWO_SIDED|95.0|-2.36|1.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 12 month. Data presented are for 95% equal-tailed credible intervals|||1.13|-2.36|0.41
92185162|NCT04803734|184269232|EQUIVALENCE|To establish bioequivalence of albuterol under fasting conditions, the 90% confidence interval for the ratio of the geometric means between the products should fall within the FDA defined acceptance range of 80.00%-125.00% interval for ln-transformed Cmax.|Ratio of geometric least square mean|0.862||||0.0328|TWO_SIDED|90.0|0.807|0.922|||ANOVA|||||0.922|0.807|0.0328
92145083|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.14|STANDARD_DEVIATION|0.35||0.66|TWO_SIDED|95.0|-0.84|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 1 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-0.84|0.66
92145084|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.17|STANDARD_DEVIATION|0.39||0.66|TWO_SIDED|95.0|-0.94|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 2 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-0.94|0.66
92145085|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.56|STANDARD_DEVIATION|0.43||0.91|TWO_SIDED|95.0|-1.46|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.46|0.91
92145086|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.41||0.79|TWO_SIDED|95.0|-1.16|0.44||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.44|-1.16|0.79
92145087|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.4|STANDARD_DEVIATION|0.42||0.84|TWO_SIDED|95.0|-1.24|0.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 5 month. Data presented are for 95% equal-tailed credible intervals|||0.41|-1.24|0.84
92145088|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.39|STANDARD_DEVIATION|0.44||0.81|TWO_SIDED|95.0|-1.23|0.47||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 6 month. Data presented are for 95% equal-tailed credible intervals|||0.47|-1.23|0.81
92145089|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.44||0.76|TWO_SIDED|95.0|-1.14|0.56||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 7 month. Data presented are for 95% equal-tailed credible intervals|||0.56|-1.14|0.76
92145090|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.48|STANDARD_DEVIATION|0.48||0.84|TWO_SIDED|95.0|-1.43|0.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 8 month. Data presented are for 95% equal-tailed credible intervals|||0.43|-1.43|0.84
92145091|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.46|STANDARD_DEVIATION|0.49||0.83|TWO_SIDED|95.0|-1.49|0.38||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 9 month. Data presented are for 95% equal-tailed credible intervals|||0.38|-1.49|0.83
92185163|NCT04803734|184269233|EQUIVALENCE|To establish bioequivalence of albuterol under fasting conditions, the 90% confidence interval for the ratio of the geometric means between the products should fall within the FDA defined acceptance range of 80.00%-125.00% interval for ln-transformed AUC(0-t).|Ratio of geometric least square mean|0.941|||<|0.0001|TWO_SIDED|90.0|0.909|0.976|||ANOVA|||||0.976|0.909|<0.0001
92185164|NCT04803734|184269234|EQUIVALENCE|To establish bioequivalence of albuterol under fasting conditions, the 90% confidence interval for the ratio of the geometric means between the products should fall within the FDA defined acceptance range of 80.00%-125.00% interval for ln-transformed AUC(0-inf).|Ratio of geometric least square mean|0.942|||<|0.0001|TWO_SIDED|90.0|0.91|0.975|||ANOVA|||||0.975|0.910|<0.0001
92185165|NCT00854594|184269303|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis: pre-intervention efficacies will be equal in the two study arms.||||0.26
92185166|NCT00854594|184269304|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis: post-intervention efficacies will be equal in the two study arms.||||0.74
92185167|NCT04471805|184269306|SUPERIORITY||||||<|0.05||||||Post hoc analyses (paired t-tests and Bonferroni correction) and effect size (Cohen's d) were calculated to clarify significant main effects and interactions.|ANOVA|Normality and sphericity evaluated with Shapiro-Wilk test and Mauchly's test. Greenhouse-Geisser corrections used when sphericity was violated.||||||<0.05
92185168|NCT04471805|184269307|SUPERIORITY||||||<|0.05||||||Post hoc analyses (paired t-tests and Bonferroni correction) and effect size (Cohen's d) were calculated to clarify significant main effects and interactions.|ANOVA|Normality and sphericity evaluated with Shapiro-Wilk test and Mauchly's test. Greenhouse-Geisser corrections used when sphericity was violated.||||||<0.05
92145092|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.73|STANDARD_DEVIATION|0.49||0.94|TWO_SIDED|95.0|-1.68|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.68|0.94
92145093|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.5||0.84|TWO_SIDED|95.0|-1.45|0.48||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 11 month. Data presented are for 95% equal-tailed credible intervals|||0.48|-1.45|0.84
92145094|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.5||0.81|TWO_SIDED|95.0|-1.36|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 12 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-1.36|0.81
92145095|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.14|STANDARD_DEVIATION|0.35||0.01|TWO_SIDED|95.0|-0.84|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 1 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-0.84|0.01
92145096|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.17|STANDARD_DEVIATION|0.39||0.02|TWO_SIDED|95.0|-0.94|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 2 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-0.94|0.02
92145097|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.56|STANDARD_DEVIATION|0.43||0.15|TWO_SIDED|95.0|-1.46|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.46|0.15
92145098|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.41||0.05|TWO_SIDED|95.0|-1.16|0.44||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.44|-1.16|0.05
92145099|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.4|STANDARD_DEVIATION|0.42||0.08|TWO_SIDED|95.0|-1.24|0.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 5 month. Data presented are for 95% equal-tailed credible intervals|||0.41|-1.24|0.08
92145100|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.39|STANDARD_DEVIATION|0.44||0.08|TWO_SIDED|95.0|-1.23|0.47||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 6 month. Data presented are for 95% equal-tailed credible intervals|||0.47|-1.23|0.08
92145101|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.44||0.06|TWO_SIDED|95.0|-1.14|0.56||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 7 month. Data presented are for 95% equal-tailed credible intervals|||0.56|-1.14|0.06
92145102|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.48|STANDARD_DEVIATION|0.48||0.14|TWO_SIDED|95.0|-1.43|0.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 8 month. Data presented are for 95% equal-tailed credible intervals|||0.43|-1.43|0.14
92145103|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.46|STANDARD_DEVIATION|0.49||0.14|TWO_SIDED|95.0|-1.49|0.38||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 9 month. Data presented are for 95% equal-tailed credible intervals|||0.38|-1.49|0.14
92145104|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.73|STANDARD_DEVIATION|0.49||0.29|TWO_SIDED|95.0|-1.68|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.68|0.29
92145105|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.5||0.15|TWO_SIDED|95.0|-1.45|0.48||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 11 month. Data presented are for 95% equal-tailed credible intervals|||0.48|-1.45|0.15
92145106|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.5||0.13|TWO_SIDED|95.0|-1.36|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 12 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-1.36|0.13
92145107|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.14|STANDARD_DEVIATION|0.35||0.06|TWO_SIDED|95.0|-0.84|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 1 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-0.84|0.06
92145108|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.17|STANDARD_DEVIATION|0.39||0.09|TWO_SIDED|95.0|-0.94|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 2 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-0.94|0.09
92145109|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.56|STANDARD_DEVIATION|0.43||0.37|TWO_SIDED|95.0|-1.46|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.46|0.37
92145110|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.41||0.18|TWO_SIDED|95.0|-1.16|0.44||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.44|-1.16|0.18
92145111|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.4|STANDARD_DEVIATION|0.42||0.24|TWO_SIDED|95.0|-1.24|0.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 5 month. Data presented are for 95% equal-tailed credible intervals|||0.41|-1.24|0.24
92145112|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.39|STANDARD_DEVIATION|0.44||0.24|TWO_SIDED|95.0|-1.23|0.47||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 6 month. Data presented are for 95% equal-tailed credible intervals|||0.47|-1.23|0.24
92145113|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.44||0.19|TWO_SIDED|95.0|-1.14|0.56||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 7 month. Data presented are for 95% equal-tailed credible intervals|||0.56|-1.14|0.19
92145114|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.48|STANDARD_DEVIATION|0.48||0.32|TWO_SIDED|95.0|-1.43|0.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 8 month. Data presented are for 95% equal-tailed credible intervals|||0.43|-1.43|0.32
92145115|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.46|STANDARD_DEVIATION|0.49||0.32|TWO_SIDED|95.0|-1.49|0.38||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 9 month. Data presented are for 95% equal-tailed credible intervals|||0.38|-1.49|0.32
92145116|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.73|STANDARD_DEVIATION|0.49||0.52|TWO_SIDED|95.0|-1.68|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.68|0.52
92145117|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.5||0.33|TWO_SIDED|95.0|-1.45|0.48||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 11 month. Data presented are for 95% equal-tailed credible intervals|||0.48|-1.45|0.33
92145118|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.5||0.29|TWO_SIDED|95.0|-1.36|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 12 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-1.36|0.29
92145119|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.31||0.43|TWO_SIDED|95.0|-0.59|0.62||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 1 month. Data presented are for 95% equal-tailed credible intervals|||0.62|-0.59|0.43
92145120|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|0.19|STANDARD_DEVIATION|0.35||0.29|TWO_SIDED|95.0|-0.53|0.85||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 2 month. Data presented are for 95% equal-tailed credible intervals|||0.85|-0.53|0.29
92145121|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.2|STANDARD_DEVIATION|0.38||0.7|TWO_SIDED|95.0|-0.94|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-0.94|0.70
92145122|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.21|STANDARD_DEVIATION|0.37||0.71|TWO_SIDED|95.0|-0.92|0.5||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.50|-0.92|0.71
92145123|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.11|STANDARD_DEVIATION|0.37||0.61|TWO_SIDED|95.0|-0.82|0.61||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 5 month. Data presented are for 95% equal-tailed credible intervals|||0.61|-0.82|0.61
92295400|NCT01525628|184495514|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|75.19|STANDARD_DEVIATION|30.3||0.7367|TWO_SIDED|90.0|63.64|88.82|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||88.82|63.64|0.7367
92295401|NCT01525628|184495514|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|70.14|STANDARD_DEVIATION|34.3||0.8547|TWO_SIDED|90.0|56.84|86.56|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||86.56|56.84|0.8547
92295402|NCT01525628|184495515|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|102.7|STANDARD_DEVIATION|45.9||0.1159|TWO_SIDED|90.0|77.89|135.39|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||135.39|77.89|0.1159
92145124|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|0.02|STANDARD_DEVIATION|0.36||0.48|TWO_SIDED|95.0|-0.69|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 6 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-0.69|0.48
92145125|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.08|STANDARD_DEVIATION|0.36||0.58|TWO_SIDED|95.0|-0.79|0.62||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 7 month. Data presented are for 95% equal-tailed credible intervals|||0.62|-0.79|0.58
92145126|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.39|STANDARD_DEVIATION|0.4||0.83|TWO_SIDED|95.0|-1.12|0.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 8 month. Data presented are for 95% equal-tailed credible intervals|||0.43|-1.12|0.83
92145127|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.26|STANDARD_DEVIATION|0.41||0.74|TWO_SIDED|95.0|-1.07|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 9 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-1.07|0.74
92145128|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.53|STANDARD_DEVIATION|0.43||0.89|TWO_SIDED|95.0|-1.4|0.29||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.29|-1.40|0.89
92145129|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.1|STANDARD_DEVIATION|0.41||0.59|TWO_SIDED|95.0|-0.89|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 11 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-0.89|0.59
92145130|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.3|STANDARD_DEVIATION|0.42||0.77|TWO_SIDED|95.0|-1.12|0.54||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 12 month. Data presented are for 95% equal-tailed credible intervals|||0.54|-1.12|0.77
92145131|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.31||0.01|TWO_SIDED|95.0|-0.59|0.62||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 1 month. Data presented are for 95% equal-tailed credible intervals|||0.62|-0.59|0.01
92145132|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|0.19|STANDARD_DEVIATION|0.35||0.01|TWO_SIDED|95.0|-0.53|0.85||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 2 month. Data presented are for 95% equal-tailed credible intervals|||0.85|-0.53|0.01
92145133|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.2|STANDARD_DEVIATION|0.38||0.09|TWO_SIDED|95.0|-0.94|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-0.94|0.09
92145134|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.21|STANDARD_DEVIATION|0.37||0.09|TWO_SIDED|95.0|-0.92|0.5||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.50|-0.92|0.09
92145135|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.11|STANDARD_DEVIATION|0.37||0.05|TWO_SIDED|95.0|-0.82|0.61||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 5 month. Data presented are for 95% equal-tailed credible intervals|||0.61|-0.82|0.05
92145136|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|0.02|STANDARD_DEVIATION|0.36||0.02|TWO_SIDED|95.0|-0.69|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 6 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-0.69|0.02
92145137|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.08|STANDARD_DEVIATION|0.36||0.04|TWO_SIDED|95.0|-0.79|0.62||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 7 month. Data presented are for 95% equal-tailed credible intervals|||0.62|-0.79|0.04
92145138|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.39|STANDARD_DEVIATION|0.4||0.22|TWO_SIDED|95.0|-1.12|0.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 8 month. Data presented are for 95% equal-tailed credible intervals|||0.43|-1.12|0.22
92145139|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.26|STANDARD_DEVIATION|0.41||0.14|TWO_SIDED|95.0|-1.07|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 9 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-1.07|0.14
92145140|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.53|STANDARD_DEVIATION|0.43||0.36|TWO_SIDED|95.0|-1.4|0.29||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.29|-1.40|0.36
92145141|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.1|STANDARD_DEVIATION|0.41||0.07|TWO_SIDED|95.0|-0.89|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 11 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-0.89|0.07
92145142|NCT02130193|184174417|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.3|STANDARD_DEVIATION|0.42||0.17|TWO_SIDED|95.0|-1.12|0.54||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 12 month. Data presented are for 95% equal-tailed credible intervals|||0.54|-1.12|0.17
92145143|NCT01212770|184174422|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|22.3|||<|0.0001|TWO_SIDED|95.0|13.0|31.6|||Cochran-Mantel-Haenszel|Adjusted for baseline disease modifying antirheumatic drug (DMARD) use and and ≥ 3% body surface area (BSA) psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|The percentage of participants with an ACR20 response was compared using a Cochran-Mantel- Haenszel (CMH) test. The Hochberg procedure was used to maintain the Type 1 error at the 0.05 significance level. The results were considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||31.6|13.0|<0.0001
92145144|NCT01212770|184174422|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|9.8||||0.0295|TWO_SIDED|95.0|1.1|18.6|||Cochran-Mantel-Haenszel|2-sided p-value based on the Cochran-Mantel-Haenszel test adjusting for baseline DMARD use and ≥ 3% BSA psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||18.6|1.1|0.0295
92145145|NCT01212770|184174423|SUPERIORITY||LS Mean Difference|-0.127||||0.0073|TWO_SIDED|95.0|-0.22|-0.034|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.034|-0.220|0.0073
92145146|NCT01212770|184174423|SUPERIORITY||LS Mean Difference|-0.066||||0.1619|TWO_SIDED|95.0|-0.158|0.027|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||0.027|-0.158|0.1619
92145147|NCT01212770|184174424|SUPERIORITY||Adjusted Difference|15.5||||0.0007|TWO_SIDED|95.0|6.7|24.3||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use and ≥ 3% BSA psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||24.3|6.7|0.0007
92145148|NCT01212770|184174424|SUPERIORITY||Adjusted Difference|11.1||||0.011|TWO_SIDED|95.0|2.7|19.5||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use and ≥ 3% BSA psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||19.5|2.7|0.0110
92145149|NCT01212770|184174425|SUPERIORITY||LS Mean Difference|-0.139||||0.005|TWO_SIDED|95.0|-0.236|-0.042|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||-0.042|-0.236|0.0050
92185169|NCT04540952|184269309|SUPERIORITY|Power analysis indicated that with a sample size of 34 per arm, would provide 81% power to detect an effect size of 0.7 (0.7\*SD of fluid deficit) with a two-sided, two sample t test (a=0.05).|Mean Difference (Final Values)|11.3||||0.93|TWO_SIDED|95.0|-260.7|283.4|||t-test, 2 sided|||||283.4|-260.7|0.93
92145150|NCT01212770|184174425|SUPERIORITY||LS Mean Difference|-0.084||||0.086|TWO_SIDED|95.0|-0.181|0.012|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||0.012|-0.181|0.0860
92145151|NCT01212770|184174426|SUPERIORITY||LS Mean Difference|2.32||||0.0053|TWO_SIDED|95.0|0.69|3.95|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||3.95|0.69|0.0053
92145152|NCT01212770|184174426|SUPERIORITY||LS mean Difference|1.15||||0.1658|TWO_SIDED|95.0|-0.48|2.77|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||2.77|-0.48|0.1658
92145153|NCT01212770|184174427|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|25.4|||<|0.0001|TWO_SIDED|95.0|15.5|35.3|||Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use and ≥ 3% BSA psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||35.3|15.5|<0.0001
92145154|NCT01212770|184174427|SUPERIORITY||Adjusted Difference|10.4||||0.0372|TWO_SIDED|95.0|0.8|20.0|||Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use and ≥ 3% BSA psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||20.0|0.8|0.0372
92145155|NCT01212770|184174428|SUPERIORITY||Adjusted Difference|14.6||||0.0062|TWO_SIDED|95.0|4.5|24.8|||Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across 2 strata of baseline DMARD use with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||24.8|4.5|0.0062
92145156|NCT01212770|184174428|SUPERIORITY||Adjusted Difference|13.0||||0.0134|TWO_SIDED|95.0|3.0|23.1|||Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across 2 strata of baseline DMARD use with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||23.1|3.0|0.0134
92145157|NCT01212770|184174429|SUPERIORITY||LS Mean Difference|-7.8||||0.0021|TWO_SIDED|95.0|-12.8|-2.9|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||-2.9|-12.8|0.0021
92145158|NCT01212770|184174429|SUPERIORITY||LS Mean Difference|-3.6||||0.1482|TWO_SIDED|95.0|-8.6|1.3|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||1.3|-8.6|0.1482
92145159|NCT01212770|184174430|SUPERIORITY||LS Mean Difference|-0.2||||0.5349|TWO_SIDED|95.0|-1.0|0.5|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.5|-1.0|0.5349
92145160|NCT01212770|184174430|SUPERIORITY||LS Mean Difference|0.1||||0.8231|TWO_SIDED|95.0|-0.7|0.9|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.9|-0.7|0.8231
92145161|NCT01212770|184174431|SUPERIORITY||LS Mean Difference|-0.8||||0.072|TWO_SIDED|95.0|-1.7|0.1|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.1|-1.7|0.0720
92145162|NCT01212770|184174431|SUPERIORITY||LS Mean Difference|-0.4||||0.3641|TWO_SIDED|95.0|-1.3|0.5|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.5|-1.3|0.3641
92145163|NCT01212770|184174432|SUPERIORITY||LS Mean Difference|-4.94||||0.0001|TWO_SIDED|95.0|-7.34|-2.53|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-2.53|-7.34|0.0001
92145164|NCT01212770|184174432|SUPERIORITY||LS Mean Difference|-1.85||||0.1325|TWO_SIDED|95.0|-4.27|0.56|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.56|-4.27|0.1325
92145165|NCT01212770|184174433|SUPERIORITY||LS Mean Difference|-0.47||||0.0001|TWO_SIDED|95.0|-0.7|-0.24|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.24|-0.70|0.0001
92185170|NCT01799993|184269312|SUPERIORITY||Odds Ratio (OR)|0.841||||0.4263|TWO_SIDED|95.0|0.554|1.277|||Cochran-Mantel-Haenszel|||||1.277|0.554|0.4263
92295403|NCT01525628|184495515|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|99.99|STANDARD_DEVIATION|38.7||0.0651|TWO_SIDED|90.0|78.33|127.64|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||127.64|78.33|0.0651
92295404|NCT01525628|184495515|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|78.29|STANDARD_DEVIATION|34.3||0.5658|TWO_SIDED|90.0|62.5|98.07|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||98.07|62.50|0.5658
92145166|NCT01212770|184174433|SUPERIORITY||LS Mean Difference|-0.27||||0.0237|TWO_SIDED|95.0|-0.5|-0.04|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.04|-0.50|0.0237
92145167|NCT01212770|184174434|SUPERIORITY||LS Mean Difference|2.54||||0.0049|TWO_SIDED|95.0|0.77|4.3|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||4.30|0.77|0.0049
92145168|NCT01212770|184174434|SUPERIORITY||LS Mean Difference|0.68||||0.4505|TWO_SIDED|95.0|-1.09|2.44|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||2.44|-1.09|0.4505
92145169|NCT01212770|184174435|SUPERIORITY||LS Mean Difference|2.34||||0.0043|TWO_SIDED|95.0|0.74|3.94|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||3.94|0.74|0.0043
92145170|NCT01212770|184174435|SUPERIORITY||LS Mean Difference|1.67||||0.0404|TWO_SIDED|95.0|0.07|3.27|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||3.27|0.07|0.0404
92145171|NCT01212770|184174436|SUPERIORITY||Adjusted Difference|21.2|||<|0.0001|TWO_SIDED|95.0|11.5|30.9|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use and and involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||30.9|11.5|< 0.0001
92145172|NCT01212770|184174436|SUPERIORITY||Adjusted Difference|8.7||||0.0661|TWO_SIDED|95.0|-0.5|18.0|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||18.0|-0.5|0.0661
92145173|NCT01212770|184174437|SUPERIORITY||Adjusted Difference|14.8||||0.0099|TWO_SIDED|95.0|3.8|25.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use|Adjusted difference is the weighted average of the treatment differences across 2 strata of baseline DMARD use with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||25.7|3.8|0.0099
92145174|NCT01212770|184174437|SUPERIORITY||Adjusted Difference|10.8||||0.0515|TWO_SIDED|95.0|0.1|21.4|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use|Adjusted difference is the weighted average of the treatment differences across 2 strata of baseline DMARD use with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||21.4|0.1|0.0515
92145175|NCT01212770|184174438|SUPERIORITY||LS mean Difference|-6.6||||0.008|TWO_SIDED|95.0|-11.4|-1.7|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-1.7|-11.4|0.0080
92145176|NCT01212770|184174438|SUPERIORITY||LS Mean Difference|-3.8||||0.1218|TWO_SIDED|95.0|-8.6|1.0|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||1.0|-8.6|0.1218
92145177|NCT01212770|184174439|SUPERIORITY||LS Mean Difference|-0.4||||0.2761|TWO_SIDED|95.0|-1.3|0.4|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.4|-1.3|0.2761
92145178|NCT01212770|184174439|SUPERIORITY||LS Mean Difference|-0.3||||0.5012|TWO_SIDED|95.0|-1.1|0.6|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.6|-1.1|0.5012
92145179|NCT01212770|184174440|SUPERIORITY||LS Mean Difference|-1.0||||0.0399|TWO_SIDED|95.0|-1.9|0.0|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.0|-1.9|0.0399
92145180|NCT01212770|184174440|SUPERIORITY||LS Mean Difference|-0.4||||0.4413|TWO_SIDED|95.0|-1.3|0.6|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.6|-1.3|0.4413
92145181|NCT01212770|184174441|SUPERIORITY||LS Mean Difference|-5.27|||<|0.0001|TWO_SIDED|95.0|-7.73|-2.82|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-2.82|-7.73|< 0.0001
92145182|NCT01212770|184174441|SUPERIORITY||LS Mean Difference|-2.65||||0.0349|TWO_SIDED|95.0|-5.11|-0.19|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.19|-5.11|0.0349
92145183|NCT01212770|184174442|SUPERIORITY||LS Mean Difference|-0.48||||0.0001|TWO_SIDED|95.0|-0.72|-0.24|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.24|-0.72|0.0001
92185171|NCT01799993|184269313|SUPERIORITY|||||||0.6421|||||||Chi-squared|||||||0.6421
92185172|NCT01799993|184269314|SUPERIORITY|||||||0.7984|||||||Chi-squared|||||||0.7984
92295405|NCT01525628|184495515|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|108.25|STANDARD_DEVIATION|37.2||0.1286|TWO_SIDED|90.0|87.46|133.99|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||133.99|87.46|0.1286
92295406|NCT01525628|184495515|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|87.59|STANDARD_DEVIATION|31.8||0.1898|TWO_SIDED|90.0|73.56|104.3|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||104.30|73.56|0.1898
92295407|NCT01525628|184495515|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|78.42|STANDARD_DEVIATION|36.3||0.5575|TWO_SIDED|90.0|61.81|99.51|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||99.51|61.81|0.5575
92295408|NCT00178711|184495532|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08|||=|0.67|TWO_SIDED|95.0|0.76|1.53|||Regression, Logistic|||The primary hypothesis was a two-sided test assessing whether the induction of hypothermia modified the percentage of subjects with poor outcomes at 6 months after injury. Percentages in each group were compared using a generalized linear model with a binomial distribution and log link function, logistic regression model with admission age and baseline GCS as covariates.||1.53|0.76|=0.67
92295409|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|51.08|||||TWO_SIDED|95.0|35.22|74.08||||||TAK-272F: Least square mean (LS) mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95 percent (%) confidence intervals (CI) were calculated using an analysis of variance (ANOVA) model for natural log-transformed data.||74.08|35.22|
92295410|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|117.95|||||TWO_SIDED|95.0|81.32|171.07||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||171.07|81.32|
92295411|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|272.87|||||TWO_SIDED|95.0|188.14|395.76||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||395.76|188.14|
92295412|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|183.27|||||TWO_SIDED|95.0|126.36|265.81||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||265.81|126.36|
92295413|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|101.67|||||TWO_SIDED|95.0|68.95|149.9||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||149.90|68.95|
92295414|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|135.98|||||TWO_SIDED|95.0|92.23|200.5||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||200.50|92.23|
92295415|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|62.34|||||TWO_SIDED|95.0|36.17|107.45||||||M-I: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||107.45|36.17|
92295416|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|93.2|||||TWO_SIDED|95.0|54.08|160.64||||||M-I: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||160.64|54.08|
92145184|NCT01212770|184174442|SUPERIORITY||LS Mean Difference|-0.3||||0.0147|TWO_SIDED|95.0|-0.54|-0.06|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.06|-0.54|0.0147
92185173|NCT01799993|184269315|SUPERIORITY|||||||0.7144|||||||ANOVA|||||||0.7144
92295417|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|274.21|||||TWO_SIDED|95.0|159.1|472.63||||||M-I: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||472.63|159.10|
92295418|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|261.12|||||TWO_SIDED|95.0|151.5|450.05||||||M-I: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||450.05|151.50|
92295419|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|112.47|||||TWO_SIDED|95.0|69.34|182.41||||||M-I: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||182.41|69.34|
92295420|NCT02367872|184495564|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|176.75|||||TWO_SIDED|95.0|108.97|286.67||||||M-I: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||286.67|108.97|
92295421|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|57.36|||||TWO_SIDED|95.0|37.76|87.14||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||87.14|37.76|
92295422|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|77.04|||||TWO_SIDED|95.0|50.72|117.03||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||117.03|50.72|
92295423|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|206.41|||||TWO_SIDED|95.0|135.88|313.54||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||313.54|135.88|
92295424|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|143.11|||||TWO_SIDED|95.0|94.21|217.39||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||217.39|94.21|
92295425|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|85.31|||||TWO_SIDED|95.0|51.03|142.61||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||142.61|51.03|
92295426|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|131.63|||||TWO_SIDED|95.0|78.74|220.04||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||220.04|78.74|
92295427|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|70.38|||||TWO_SIDED|95.0|40.42|122.53||||||M-I: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||122.53|40.42|
92295428|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|55.03|||||TWO_SIDED|95.0|31.61|95.81||||||M-I: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||95.81|31.61|
92295429|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|125.96|||||TWO_SIDED|95.0|72.35|219.3||||||M-I: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||219.30|72.35|
92295430|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|103.93|||||TWO_SIDED|95.0|59.7|180.95||||||M-I: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||180.95|59.70|
92295431|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|91.97|||||TWO_SIDED|95.0|49.45|171.06||||||M-I: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||171.06|49.45|
92295432|NCT02367872|184495565|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|139.33|||||TWO_SIDED|95.0|74.91|259.15||||||M-I: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||259.15|74.91|
92295433|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|51.39|||||TWO_SIDED|95.0|35.45|74.49||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||74.49|35.45|
92295434|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|118.43|||||TWO_SIDED|95.0|81.7|171.68||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||171.68|81.70|
92185174|NCT01799993|184269316|SUPERIORITY|||||||0.4278|||||||ANOVA|||||||0.4278
92295435|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|272.83|||||TWO_SIDED|95.0|188.21|395.5||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||395.50|188.21|
92295436|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|184.13|||||TWO_SIDED|95.0|127.02|266.91||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||266.91|127.02|
92295437|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|101.64|||||TWO_SIDED|95.0|69.04|149.64||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||149.64|69.04|
92295438|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|136.59|||||TWO_SIDED|95.0|92.78|201.09||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||201.09|92.78|
92295439|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|59.17|||||TWO_SIDED|95.0|33.99|102.99||||||M-I: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||102.99|33.99|
92185175|NCT01263223|184269334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7|||<|0.0001|TWO_SIDED|95.0|7.4|12.0||P-value is for the Mean Change in ABPM heart rate.|Mixed Models Analysis|||||12.0|7.4|<0.0001
92185176|NCT01263223|184269334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.4|||<|0.0001|TWO_SIDED|95.0|17.9|30.9||P-value is for the Maximum Change in ABPM heart rate.|Mixed Models Analysis|||||30.9|17.9|<0.0001
92295440|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|97.04|||||TWO_SIDED|95.0|55.75|168.9||||||M-I: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||168.90|55.75|
92295441|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|260.03|||||TWO_SIDED|95.0|149.39|452.6||||||M-I: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||452.60|149.39|
92295442|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|319.06|||||TWO_SIDED|95.0|183.31|555.34||||||M-I: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||555.34|183.31|
92295443|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|130.07|||||TWO_SIDED|95.0|81.66|207.18||||||M-I: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||207.18|81.66|
92295444|NCT02367872|184495566|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|192.63|||||TWO_SIDED|95.0|120.94|306.83||||||M-I: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||306.83|120.94|
92295445|NCT02367872|184495567|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|60.22|||||TWO_SIDED|95.0|40.05|90.56||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||90.56|40.05|
92295446|NCT02367872|184495567|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|97.39|||||TWO_SIDED|95.0|64.77|146.46||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||146.46|64.77|
92295447|NCT02367872|184495567|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|111.6|||||TWO_SIDED|95.0|74.21|167.82||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||167.82|74.21|
92295448|NCT02367872|184495567|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|138.79|||||TWO_SIDED|95.0|92.29|208.7||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||208.70|92.29|
92295449|NCT02367872|184495567|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|135.18|||||TWO_SIDED|95.0|87.91|207.87||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||207.87|87.91|
92295450|NCT02367872|184495567|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|323.75|||||TWO_SIDED|95.0|210.54|497.85||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||497.85|210.54|
92295451|NCT02367872|184495568|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|67.61|||||TWO_SIDED|95.0|42.17|108.39||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||108.39|42.17|
92295452|NCT02367872|184495568|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|63.7|||||TWO_SIDED|95.0|39.73|102.12||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||102.12|39.73|
92295453|NCT02367872|184495568|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|84.45|||||TWO_SIDED|95.0|52.67|135.38||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||135.38|52.67|
92295454|NCT02367872|184495568|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|108.54|||||TWO_SIDED|95.0|67.7|174.01||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||174.01|67.70|
92145185|NCT01212770|184174443|SUPERIORITY||LS Mean Difference|2.44||||0.0078|TWO_SIDED|95.0|0.64|4.24|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||4.24|0.64|0.0078
92145186|NCT01212770|184174443|SUPERIORITY||LS Mean Difference|1.19||||0.1936|TWO_SIDED|95.0|-0.61|2.98|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||2.98|-0.61|0.1936
92145187|NCT01212770|184174444|SUPERIORITY||Adjusted Difference|2.1||||0.7585|TWO_SIDED|95.0|-10.9|15.0|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use and involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||15.0|-10.9|0.7585
92145188|NCT01212770|184174444|SUPERIORITY||Adjusted Difference|-3.9||||0.5808|TWO_SIDED|95.0|-17.4|9.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||9.7|-17.4|0.5808
92295455|NCT02367872|184495568|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|113.25|||||TWO_SIDED|95.0|69.62|184.24||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||184.24|69.62|
92295456|NCT02367872|184495568|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|312.89|||||TWO_SIDED|95.0|192.34|509.0||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||509.00|192.34|
92295457|NCT02367872|184495569|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|60.68|||||TWO_SIDED|95.0|40.35|91.27||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||91.27|40.35|
92295458|NCT02367872|184495569|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|98.01|||||TWO_SIDED|95.0|65.17|147.41||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||147.41|65.17|
92295459|NCT02367872|184495569|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|111.68|||||TWO_SIDED|95.0|74.25|167.96||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||167.96|74.25|
92295460|NCT02367872|184495569|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|139.7|||||TWO_SIDED|95.0|92.88|210.11||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||210.11|92.88|
92295461|NCT02367872|184495569|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|135.08|||||TWO_SIDED|95.0|87.75|207.92||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||207.92|87.75|
92295462|NCT02367872|184495569|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|325.28|||||TWO_SIDED|95.0|211.32|500.7||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||500.70|211.32|
92295463|NCT05707403|184495592|OTHER||Ratio (T/R) [%]|73.15|||||TWO_SIDED|90.0|67.32|79.48|||||Ratio \[%\] is calculated as Test / Reference Intra-individual geometric Coefficient of Variation (gCV) = 8.8 %.|Analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model and then then back-transformed to the original scale to provide the point estimate and 90% confidence interval. The model included effects accounting for the following sources of variation: 'subjects' and 'formulation'. The effect 'subjects' was considered as random, whereas the 'formulation' effect was considered as fixed.||79.48|67.32|
92295464|NCT05707403|184495593|OTHER||Ratio (T/R) [%]|33.58|||||TWO_SIDED|90.0|29.4|38.36|||||Ratio \[%\] is calculated as Test / Reference Intra-individual geometric Coefficient of Variation (gCV) = 14.1 %|Analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model and then then back-transformed to the original scale to provide the point estimate and 90% confidence interval. The model included effects accounting for the following sources of variation: 'subjects' and 'formulation'. The effect 'subjects' was considered as random, whereas the 'formulation' effect was considered as fixed.||38.36|29.40|
92185177|NCT01263223|184269335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3|||<|0.0001|TWO_SIDED|95.0|3.9|8.8||P-value is for the Mean Change in ABPM systolic BP.|Mixed Models Analysis|||||8.8|3.9|<0.0001
92185178|NCT01263223|184269335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1||||0.0025|TWO_SIDED|95.0|2.6|11.6||P-value is for the Maximum Change in ABPM systolic BP.|Mixed Models Analysis|||||11.6|2.6|0.0025
92185179|NCT01263223|184269335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.51|||<|0.0001|TWO_SIDED|95.0|3.81|7.21||P-value is for the Mean Change in ABPM diastolic BP.|Mixed Models Analysis|||||7.21|3.81|<0.0001
92185180|NCT01263223|184269335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.66||||0.002|TWO_SIDED|95.0|2.13|9.2||P-value is for the Maximum Change in ABPM diastolic BP.|Mixed Models Analysis|||||9.20|2.13|0.0020
92185181|NCT01263223|184269336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9||||0.0224|TWO_SIDED|95.0|0.418|5.38||P-value is for the Mean Change in ABPM systolic BP.|Mixed Models Analysis|||||5.38|0.418|0.0224
92185182|NCT01263223|184269336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7||||0.2453|TWO_SIDED|95.0|-1.88|7.29||P-value is for the Maximum Change in ABPM systolic BP.|Mixed Models Analysis|||||7.29|-1.88|0.2453
92185183|NCT01263223|184269336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|||<|0.0001|TWO_SIDED|95.0|3.37|6.82||P-value if for the Mean Change in ABPM diastolic BP.|Mixed Models Analysis|||||6.82|3.37|<0.0001
92185184|NCT01263223|184269336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.53||||0.0005|TWO_SIDED|95.0|2.95|10.1||P-value is for the Maximum Change in ABPM diastolic BP.|Mixed Models Analysis|||||10.1|2.95|0.0005
92295465|NCT02156154|184495736|SUPERIORITY||Median Difference (Final Values)|-0.04||||0.29|TWO_SIDED|95.0|-0.18|0.11||significance criterion of P \< .044.|Wilcoxon (Mann-Whitney)||Difference = IV Acetaminophen - Placebo group|A total of 28 patients (5%) were missing monitoring data (14 patients in each group). Values for these patients were obtained using multivariable imputation with 5 imputation data sets. The imputation regression model included all of the baseline, intraoperative, surgical, and postanesthesia care unit variables and all of the secondary outcomes||0.11|-0.18|0.29
92295466|NCT02156154|184495737|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.07|TWO_SIDED|99.4|-0.71|0.15||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|t-test, 2 sided||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|||0.15|-0.71|0.07
92295467|NCT02156154|184495738|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.46|TWO_SIDED|99.4|-0.51|0.29||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|t-test, 2 sided||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|||0.29|-0.51|0.46
92185185|NCT01263223|184269337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.8|||<|0.0001|TWO_SIDED|95.0|8.7|16.9||P-value is for the Mean Change in ABPM heart rate.|Mixed Models Analysis|||||16.9|8.7|<0.0001
92185186|NCT01263223|184269337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.0||||0.0001|TWO_SIDED|95.0|11.4|34.5||P-value is for the Maximum Change in ABPM heart rate.|Mixed Models Analysis|||||34.5|11.4|0.0001
92185187|NCT01263223|184269338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8||||0.212|TWO_SIDED|95.0|-1.6|7.2||P-value is for the Mean Change in ABPM Systolic BP.|Mixed Models Analysis|||||7.2|-1.6|0.2120
92185188|NCT01263223|184269338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.6||||0.064|TWO_SIDED|95.0|-0.4|15.5||P-value is for the Maximum Change in ABPM Systolic BP.|Mixed Models Analysis|||||15.5|-0.4|0.0640
92185189|NCT01263223|184269338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6||||0.0211|TWO_SIDED|95.0|0.5|6.7||P-value is for the Mean Change in ABPM Diastolic BP.|Mixed Models Analysis|||||6.7|0.5|0.0211
92185190|NCT01263223|184269338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.8719|TWO_SIDED|95.0|-5.7|6.8||P-value is for the Maximum Change in ABPM Diastolic BP.|Mixed Models Analysis|||||6.8|-5.7|0.8719
92185191|NCT01263223|184269339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.7133|TWO_SIDED|95.0|-5.3|3.7||P-value is for the Mean Change in ABPM heart rate.|Mixed Models Analysis|||||3.7|-5.3|0.7133
92185192|NCT01263223|184269339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.4638|TWO_SIDED|95.0|-17.2|7.9||P-value is for the Maximum Change in ABPM heart rate.|Mixed Models Analysis|||||7.9|-17.2|0.4638
92185193|NCT01263223|184269340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.6|||<|0.0001|TWO_SIDED|95.0|11.3|15.9||P-value is for the Mean Change in ABPM heart rate.|Mixed Models Analysis|||||15.9|11.3|<0.0001
92185194|NCT01263223|184269340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.6|||<|0.0001|TWO_SIDED|95.0|21.1|34.2||P-value is for the Maximum Change in ABPM heart rate.|Mixed Models Analysis|||||34.2|21.1|<0.0001
92185195|NCT01263223|184269341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.9609|TWO_SIDED|95.0|-4.9|4.7||P-value is for the Mean Change in ABPM Systolic BP.|Mixed Models Analysis|||||4.7|-4.9|0.9609
92185196|NCT01263223|184269341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8||||0.2731|TWO_SIDED|95.0|-3.9|13.6||P-value is for the Maximum Change in ABPM Systolic BP.|Mixed Models Analysis|||||13.6|-3.9|0.2731
92185197|NCT01263223|184269341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.3779|TWO_SIDED|95.0|-4.8|1.8||P-value is for the Mean Change in ABPM Diastolic BP.|Mixed Models Analysis|||||1.8|-4.8|0.3779
92185198|NCT01263223|184269341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0||||0.0828|TWO_SIDED|95.0|-12.8|0.8||P-value is for the Maximum Change in ABPM Diastolic BP.|Mixed Models Analysis|||||0.8|-12.8|0.0828
92185199|NCT03692871|184269370|OTHER||Difference in Percentage|7.9|||=|0.003|TWO_SIDED|95.0|2.8|12.8|||Miettinen & Nurminen method|||Injection-site erythema||12.8|2.8|= 0.003
92185200|NCT03692871|184269370|OTHER||Difference in Percentage|-0.3|||=|0.882|TWO_SIDED|95.0|-5.0|4.0|||Miettinen & Nurminen method|||Injection-site induration||4.0|-5.0|= 0.882
92185201|NCT03692871|184269370|OTHER||Difference in Percentage|6.4|||=|0.014|TWO_SIDED|95.0|1.3|11.3|||Miettinen & Nurminen method|||Injection-site pain||11.3|1.3|= 0.014
92185202|NCT03692871|184269370|OTHER||Difference in Percentage|4.6|||=|0.051|TWO_SIDED|95.0|0.0|8.9|||Miettinen & Nurminen method|||Injection-site swelling||8.9|0.0|= 0.051
92185203|NCT03692871|184269371|OTHER||Difference in Percentage|5.5|||=|0.033|TWO_SIDED|95.0|0.4|10.5|||Miettinen & Nurminen method|||Decreased appetite||10.5|0.4|= 0.033
92185204|NCT03692871|184269371|OTHER||Difference in Percentage|5.6|||=|0.016|TWO_SIDED|95.0|1.0|10.5|||Miettinen & Nurminen method|||Irritability||10.5|1.0|= 0.016
92185205|NCT03692871|184269371|OTHER||Difference in Percentage|0.4|||=|0.878|TWO_SIDED|95.0|-4.7|5.6|||Miettinen & Nurminen method|||Somnolence||5.6|-4.7|= 0.878
92185206|NCT03692871|184269371|OTHER||Difference in Percentage|-0.8|||=|0.503|TWO_SIDED|95.0|-3.8|1.5|||Miettinen & Nurminen method|||Urticaria||1.5|-3.8|= 0.503
92185207|NCT03692871|184269372|OTHER||Difference in Percentage|0.1|||||TWO_SIDED|95.0|-0.8|0.4||||||Percentage of participants with a vaccine-related SAE||0.4|-0.8|
92185208|NCT00257894|184269377|SUPERIORITY_OR_OTHER|||||||0.57||||||Effect size close to zero (eta squared of .01)|ANOVA|Interaction effect term from group by time ANOVA||||||.57
92185209|NCT00257894|184269378|SUPERIORITY_OR_OTHER|||||||0.6||||||Effect size about zero (eta squared = .01)|ANOVA|Interaction term from a group by time ANOVA||||||.60
92185210|NCT00257894|184269379|SUPERIORITY_OR_OTHER|||||||0.79||||||Effect size (eta squared) = 0|ANOVA|Interaction term of a group by time ANOVA||||||.79
92185211|NCT00257894|184269380|SUPERIORITY_OR_OTHER|||||||0.21||||||For test of drug by time interaction effect|ANOVA|Medium effect size, eta squared = .061||Analysis of variance, group by time (Day 0 vs. Day 10).||||.21
92185212|NCT02852824|184269383|OTHER||Slope|0.9058|STANDARD_ERROR_OF_MEAN|0.0523|||TWO_SIDED|95.0|0.7973|1.0142||||||Dose proportionality was explored using a regression model. A 95% confidence interval (CI) for the slope was computed. Power model is used a statistical method.||1.0142|0.7973|
92185213|NCT02852824|184269384|OTHER||Slope|0.9528|STANDARD_ERROR_OF_MEAN|0.0454|||TWO_SIDED|95.0|0.8581|1.0475||||||Dose proportionality was explored using a regression model. A 95% confidence interval (CI) for the slope was computed. Power model is used as statistical method.||1.0475|0.8581|
92185214|NCT02852824|184269385|OTHER||Slope|0.9439|STANDARD_ERROR_OF_MEAN|0.0358|||TWO_SIDED|95.0|0.8697|1.0182||||||Dose proportionality was explored using a regression model. A 95% confidence interval (CI) for the slope was computed. Power model is used as statistical method.||1.0182|0.8697|
92185215|NCT02852824|184269386|OTHER||Slope|0.9708|STANDARD_ERROR_OF_MEAN|0.0351|||TWO_SIDED|95.0|0.8975|1.044||||||Dose proportionality was explored using a regression model. A 95% confidence interval (CI) for the slope was computed. Power model is used as statistical method.||1.0440|0.8975|
92185216|NCT01316913|184269387|SUPERIORITY_OR_OTHER||Least squares mean difference|0.022||||0.377|TWO_SIDED|95.0|-0.027|0.072|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus UMEC 125 µg.|||0.072|-0.027|0.377
92185217|NCT01316913|184269387|SUPERIORITY_OR_OTHER||Least squares mean difference|0.06||||0.018|TWO_SIDED|95.0|0.01|0.109||nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus TIO 18 µg.|||0.109|0.010|0.018
92185218|NCT01316913|184269387|SUPERIORITY_OR_OTHER||Least squares mean difference|0.037||||0.142|TWO_SIDED|95.0|-0.012|0.087|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 µg minus UMEC 125 µg.|||0.087|-0.012|0.142
92185219|NCT01316913|184269387|SUPERIORITY_OR_OTHER||Least squares mean difference|0.074||||0.003|TWO_SIDED|95.0|0.025|0.123|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 µg minus TIO 18 µg.|||0.123|0.025|0.003
92185220|NCT01860079|184269390|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared, Corrected|||Categorical data were analyzed with χ2.Comparisons were also analyzed by χ2 between the early discharge and standard treatment arm for the primary outcomes.||||<0.05
92185221|NCT02144285|184269422|SUPERIORITY_OR_OTHER||Absolute Bioavailability|0.45|||||TWO_SIDED|90.0|0.34|0.6||||||||0.60|0.34|
92185222|NCT02507297|184269453|SUPERIORITY|||||||0.367|||||||t-test, 2 sided|||Baseline to 8 weeks after baseline||||.367
92185223|NCT02507297|184269453|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Baseline to 12 weeks postpartum||||.48
92185224|NCT02507297|184269454|SUPERIORITY|||||||0.136|||||||t-test, 2 sided|||Baseline to 8 weeks after baseline||||.136
92185225|NCT02507297|184269454|SUPERIORITY|||||||0.324|||||||t-test, 2 sided|||Baseline to 12 weeks postpartum||||.324
92185226|NCT02507297|184269455|SUPERIORITY|||||||0.916|||||||t-test, 2 sided|||Baseline to 8 weeks after baseline||||.916
92185227|NCT02507297|184269455|SUPERIORITY|||||||0.752|||||||t-test, 2 sided|||Baseline to 12 weeks postpartum||||.752
92185228|NCT02507297|184269456|SUPERIORITY|||||||0.568|||||||t-test, 2 sided|||Baseline to 8 weeks after baseline||||.568
92185229|NCT02507297|184269456|SUPERIORITY|||||||0.568|||||||t-test, 2 sided|||Baseline to 12 weeks postpartum||||.568
92185230|NCT02507297|184269457|SUPERIORITY|||||||0.486|||||||t-test, 2 sided|||||||.486
92185231|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.101|||||||ANOVA|||Baseline (AM)||||0.101
92185232|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.168|||||||ANOVA|||Change at Week 1 (AM)||||0.168
92185233|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|||||||ANOVA|||Change at Week 2 (AM)||||0.930
92185234|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.487|||||||ANOVA|||Change at Week 3 (AM)||||0.487
92185235|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.914|||||||ANOVA|||Change at Week 4 (AM)||||0.914
92185236|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.977|||||||ANOVA|||Change at Final Week (AM)||||0.977
92185237|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.109|||||||ANOVA|||Baseline (PM)||||0.109
92185238|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.291|||||||ANOVA|||Change at Week 1 (PM)||||0.291
92185239|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.984|||||||ANOVA|||Change at Week 2 (PM)||||0.984
92185240|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.373|||||||ANOVA|||Change at Week 3 (PM)||||0.373
92185241|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.623|||||||ANOVA|||Change at Week 4 (PM)||||0.623
92185242|NCT00070707|184269473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.978|||||||ANOVA|||Change at Final Week (PM)||||0.978
92185243|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|||||||ANOVA|||Baseline (AM)||||0.023
92185244|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.693|||||||ANOVA|||Change at Week 1 (AM)||||0.693
92185245|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.483|||||||ANOVA|||Change at Week 2 (AM)||||0.483
92185246|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.088|||||||ANOVA|||Change at Week 3 (AM)||||0.088
92185247|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|||||||ANOVA|||Change at Week 4 (AM)||||0.210
92185248|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.178|||||||ANOVA|||Change at Final Week (AM)||||0.178
92185249|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.055|||||||ANOVA|||Baseline (PM)||||0.055
92185250|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.915|||||||ANOVA|||Change at Week 1 (PM)||||0.915
92185251|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.471|||||||ANOVA|||Change at Week 2 (PM)||||0.471
92185252|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|||||||ANOVA|||Change at Week 3 (PM)||||0.110
92185253|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.305|||||||ANOVA|||Change at Week 4 (PM)||||0.305
92185254|NCT00070707|184269474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.461|||||||ANOVA|||Change at Final Week (PM)||||0.461
92185255|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068|||||||ANOVA|||Baseline (AM)||||0.068
92185256|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116|||||||ANOVA|||Change at Week 1 (AM)||||0.116
92185257|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.749|||||||ANOVA|||Change at Week 2 (AM)||||0.749
92185258|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.289|||||||ANOVA|||Change at Week 3 (AM)||||0.289
92185259|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.982|||||||ANOVA|||Change at Week 4 (AM)||||0.982
92185260|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.941|||||||ANOVA|||Change at Final Week (AM)||||0.941
92185261|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.128|||||||ANOVA|||Baseline (PM)||||0.128
92185262|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.484|||||||ANOVA|||Change at Week 1 (PM)||||0.484
92185263|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.673|||||||ANOVA|||Change at Week 2 (PM)||||0.673
92185264|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|||||||ANOVA|||Change at Week 3 (PM)||||0.250
92185265|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45|||||||ANOVA|||Change at Week 4 (PM)||||0.450
92185266|NCT00070707|184269475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.774|||||||ANOVA|||Change at Final Week (PM)||||0.774
92185267|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.078|||||||ANOVA|||Baseline (AM)||||0.078
92185268|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.492|||||||ANOVA|||Change at Week 1 (AM)||||0.492
92185269|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.945|||||||ANOVA|||Change at Week 2 (AM)||||0.945
92185270|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.359|||||||ANOVA|||Change at Week 3 (AM)||||0.359
92185271|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.802|||||||ANOVA|||Change at Week 4 (AM)||||0.802
92185272|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.716|||||||ANOVA|||Change at Final Week (AM)||||0.716
92185273|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.158|||||||ANOVA|||Baseline (PM)||||0.158
92185274|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.281|||||||ANOVA|||Change at Week 1 (PM)||||0.281
92185275|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.901|||||||ANOVA|||Change at Week 2 (PM)||||0.901
92185276|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.433|||||||ANOVA|||Change at Week 3 (PM)||||0.433
92185277|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.73|||||||ANOVA|||Change at Week 4 (PM)||||0.730
92185278|NCT00070707|184269476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.819|||||||ANOVA|||Change at Final Week (PM)||||0.819
92185279|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.629|||||||ANOVA|||Baseline (AM)||||0.629
92185280|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038|||||||ANOVA|||Change at Week 1 (AM)||||0.038
92185281|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.182|||||||ANOVA|||Change at Week 2 (AM)||||0.182
92185282|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.149|||||||ANOVA|||Change at Week 3 (AM)||||0.149
92185283|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|||||||ANOVA|||Change at Week 4 (AM)||||0.035
92185284|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.056|||||||ANOVA|||Change at Final Week (AM)||||0.056
92185285|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.711|||||||ANOVA|||Baseline (PM)||||0.711
92185286|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.098|||||||ANOVA|||Change at Week 1 (PM)||||0.098
92185287|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.356|||||||ANOVA|||Change at Week 2 (PM)||||0.356
92185288|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.529|||||||ANOVA|||Change at Week 3 (PM)||||0.529
92185289|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.617|||||||ANOVA|||Change at Week 4 (PM)||||0.617
92185290|NCT00070707|184269477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.422|||||||ANOVA|||Change at Final Week (PM)||||0.422
92295468|NCT02156154|184495739|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.56|TWO_SIDED|99.4|-0.49|0.76||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|t-test, 2 sided||Treatment effect data are reported as differences in means between the study groups, assessed using a 2-sample t test.|||0.76|-0.49|0.56
92295469|NCT02156154|184495740|SUPERIORITY||Mean Difference (Net)|-0.08||||0.3|TWO_SIDED|99.4|-0.29|0.13||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|t-test, 2 sided||Treatment effect data are reported as differences in means between the study groups, assessed using a 2-sample t test.|||0.13|-0.29|0.30
92295470|NCT02156154|184495741|SUPERIORITY||Ratios of geometric means|0.94||||0.65|TWO_SIDED|99.4|0.63|1.39||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|t-test, 2 sided||Treatment effect data are reported as ratios of geometric means, assessed using a 2-sample t test after logarithmic transformation of outcomes.|||1.39|0.63|0.65
92295471|NCT02156154|184495742|SUPERIORITY||Ratios of geometric means|0.86||||0.22|TWO_SIDED|99.4|0.61|1.21|||t-test, 2 sided||Treatment effect data are reported as ratios of geometric means, assessed using a 2-sample t test after logarithmic transformation of outcomes.|||1.21|0.61|0.22
92295472|NCT02156154|184495743|SUPERIORITY||Risk Ratio (RR)|1.13||||0.18|TWO_SIDED|99.4|0.88|1.45||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|Chi-squared||Risk ratio = Treatment/Placebo|||1.45|0.88|0.18
92295473|NCT02156154|184495744|SUPERIORITY||Risk Ratio (RR)|0.9||||0.53|TWO_SIDED|99.4|0.57|1.43||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|Chi-squared||RR = Treatment/Placebo|||1.43|0.57|0.53
92145189|NCT01212770|184174445|SUPERIORITY||Adjusted Difference|12.0||||0.1303|TWO_SIDED|95.0|-3.1|27.0|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD useinvolvement of \>= 3% BSA with psoriasis at baseline..|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||27.0|-3.1|0.1303
92145190|NCT01212770|184174445|SUPERIORITY||Adjusted Difference|7.5||||0.361|TWO_SIDED|95.0|-8.3|23.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||23.2|-8.3|0.3610
92145191|NCT01212770|184174446|SUPERIORITY||Adjusted Difference|22.5|||<|0.0001|TWO_SIDED|95.0|12.4|32.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||32.6|12.4|< 0.0001
92145192|NCT01212770|184174446|SUPERIORITY||Adjusted Difference|11.0||||0.0309|TWO_SIDED|95.0|1.2|20.9|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||20.9|1.2|0.0309
92145193|NCT01212770|184174447|SUPERIORITY||Adjusted Difference|3.8||||0.5731|TWO_SIDED|95.0|-9.1|16.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||16.7|-9.1|0.5731
92185291|NCT00070707|184269478|SUPERIORITY_OR_OTHER_LEGACY|Baseline||||||0.532|||||||Cochran-Mantel-Haenszel|||||||0.532
92185292|NCT00070707|184269478|SUPERIORITY_OR_OTHER_LEGACY|Day 15||||||0.739|||||||Cochran-Mantel-Haenszel|||||||0.739
92185293|NCT00070707|184269478|SUPERIORITY_OR_OTHER_LEGACY|Day 29||||||0.227|||||||Cochran-Mantel-Haenszel|||||||0.227
92185294|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.104|||||||ANOVA|||Baseline (AM)||||0.104
92185295|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|||||||ANOVA|||Change at Week 1 (AM)||||0.022
92185296|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||ANOVA|||Change at Week 2 (AM)||||0.012
92185297|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANOVA|||Change at Week 3 (AM)||||0.001
92185298|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033|||||||ANOVA|||Change at Week 4 (AM)||||0.033
92185299|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047|||||||ANOVA|||Change at Final Week (AM)||||0.047
92295474|NCT02156154|184495745|SUPERIORITY||Median Difference (Final Values)|0.0||||0.99|TWO_SIDED|99.4|-0.39|0.36||Adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|Wilcoxon (Mann-Whitney)||Treatment effect is reported as median difference, estimated using the Hodges-Lehmann estimator of location shift.|||0.36|-0.39|0.99
92295475|NCT02051595|184495746|SUPERIORITY_OR_OTHER||estimate (beta) from mixed model|-0.068|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|-0.098|-0.039||A priori threshold was set to p \< 0.05.|Mixed Models Analysis|Analyses modeled change in vancomycin concentrations (independent variable defined by time). Analyses were adjusted for covariates.|Negative beta value indicates that vancomycin concentration decreased following cardiopulmonary bypass (CPB).|||-0.039|-0.098|<0.0001
92145194|NCT01212770|184174447|SUPERIORITY||Adjusted Difference|1.0||||0.8876|TWO_SIDED|95.0|-12.6|14.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||14.6|-12.6|0.8876
92145195|NCT01212770|184174448|SUPERIORITY||Adjusted Difference|12.2||||0.1172|TWO_SIDED|95.0|-2.5|26.9|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||26.9|-2.5|0.1172
92145196|NCT01212770|184174448|SUPERIORITY||Adjusted Difference|7.2||||0.3695|TWO_SIDED|95.0|-8.2|22.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||22.6|-8.2|0.3695
92145197|NCT01212770|184174449|SUPERIORITY||Adjusted Difference|22.5|||<|0.0001|TWO_SIDED|95.0|13.0|32.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||32.1|13.0|< 0.0001
92145198|NCT01212770|184174449|SUPERIORITY||Adjusted Difference|11.7||||0.0123|TWO_SIDED|95.0|2.7|20.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||20.7|2.7|0.0123
92145199|NCT01212770|184174450|SUPERIORITY||Adjusted Difference|6.8||||0.052|TWO_SIDED|95.0|0.0|13.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||13.5|0.0|0.0520
92145200|NCT01212770|184174450|SUPERIORITY||Adjusted Difference|4.2||||0.2052|TWO_SIDED|95.0|-2.2|10.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||10.6|-2.2|0.2052
92145201|NCT01212770|184174451|SUPERIORITY||Adjusted Difference|1.2||||0.5154|TWO_SIDED|95.0|-2.4|4.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||4.8|-2.4|0.5154
92145202|NCT01212770|184174451|SUPERIORITY||Adjusted Difference|2.3||||0.2527|TWO_SIDED|95.0|-1.5|6.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||6.2|-1.5|0.2527
92145203|NCT01212770|184174452|SUPERIORITY||Adjusted Difference|8.3||||0.018|TWO_SIDED|95.0|1.6|15.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||15.1|1.6|0.0180
92145204|NCT01212770|184174452|SUPERIORITY||Adjusted Difference|5.8||||0.0807|TWO_SIDED|95.0|-0.6|12.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||12.3|-0.6|0.0807
92145205|NCT01212770|184174453|SUPERIORITY||Adjusted Difference|1.8||||0.423|TWO_SIDED|95.0|-2.6|6.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||6.2|-2.6|0.4230
92145206|NCT01212770|184174453|SUPERIORITY||Adjusted Difference|0.6||||0.787|TWO_SIDED|95.0|-3.5|4.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||4.6|-3.5|0.7870
92145207|NCT01212770|184174454|SUPERIORITY||Adjusted Difference|-4.1||||0.4707|TWO_SIDED|95.0|-14.8|6.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||6.5|-14.8|0.4707
92185300|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.269|||||||ANOVA|||Baseline (PM)||||0.269
92295476|NCT01729026|184495794|SUPERIORITY_OR_OTHER_LEGACY||Effect size (Cohen's d)|-0.75||||0.141|TWO_SIDED|95.0|-1.85|0.35||Between baseline and 3-month follow-up, subjects in the Adoption group had a mean improvement of 15.20 points on the PCL-5 compared to 7.77 points in the Wait-list group.|Mixed effects regression models|||The analyses were mixed effect regression models with repeated measures at randomization (baseline) and at the 3-month post-randomization follow-up using a 2 x 2 design. Treatment (Adoption group vs Wait-list group), time (baseline and 3-month follow-up) and their interaction were the fixed design effects. The treatment by time interaction tests the significance of the difference between baseline and 3-month follow-up between the Adoption and Wait-list groups.||0.35|-1.85|0.141
92295477|NCT01729026|184495795|SUPERIORITY||effect size (Cohen's d)|0.0||||0.982|TWO_SIDED||||||effect size (Cohen's d)|||||||0.982
92295478|NCT01729026|184495796|SUPERIORITY||effect size (Cohen's d)|-0.5||||0.16|TWO_SIDED||||||effect size (Cohen's d)|||||||0.160
92295479|NCT01729026|184495797|SUPERIORITY||effect size (Cohen's d)|-1.36||||0.015|TWO_SIDED|95.0|-2.49|-0.23|||effect size (Cohen's d)|||||-0.23|-2.49|0.015
92145208|NCT01212770|184174454|SUPERIORITY||Adjusted Difference|-5.4||||0.3547|TWO_SIDED|95.0|-16.6|5.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||5.7|-16.6|0.3547
92145209|NCT01212770|184174455|SUPERIORITY||Adjusted Difference|6.6||||0.4175|TWO_SIDED|95.0|-8.6|21.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||21.8|-8.6|0.4175
92145210|NCT01212770|184174455|SUPERIORITY||Adjusted Difference|6.4||||0.437|TWO_SIDED|95.0|-9.1|21.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||21.8|-9.1|0.4370
92145211|NCT01212770|184174456|SUPERIORITY||Adjusted Difference|-0.4||||0.9463|TWO_SIDED|195.0|-12.1|11.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||11.3|-12.1|0.9463
92145212|NCT01212770|184174456|SUPERIORITY||Adjusted Difference|-7.7||||0.2032|TWO_SIDED|95.0|-19.3|3.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||3.8|-19.3|0.2032
92145213|NCT01212770|184174457|SUPERIORITY||Adjusted Difference|9.8||||0.2321|TWO_SIDED|95.0|-5.8|25.4|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||25.4|-5.8|0.2321
92145214|NCT01212770|184174457|SUPERIORITY||Adjusted Difference|9.6||||0.252|TWO_SIDED|95.0|-6.2|25.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||25.3|-6.2|0.2520
92145215|NCT01297959|184174478|SUPERIORITY|||||||0.39|||||||Regression, Logistic|p-value was based on a logistic regression (Chi-square test) model with treatment group as a factor, adjusting for the stratification factors.||||||0.39
92185301|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.308|||||||ANOVA|||Change at Week 1 (PM)||||0.308
92145216|NCT01297959|184174479|SUPERIORITY|||||||0.34|||||||Regression, Logistic|p-value was based on a logistic regression (Chi-square test) model with treatment group as a factor, adjusting for the stratification factors.||||||0.34
92185302|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||ANOVA|||Change at Week 2 (PM)||||0.050
92185303|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|||||||ANOVA|||Change at Week 3 (PM)||||0.014
92185304|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|||||||ANOVA|||Change at Week 4 (PM)||||0.100
92185305|NCT00070707|184269479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.139|||||||ANOVA|||Change at Final Week (PM)||||0.139
92185306|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.136|||||||ANOVA|||Baseline (AM)||||0.136
92185307|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.126|||||||ANOVA|||Change at Week 1 (AM)||||0.126
92185308|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.107|||||||ANOVA|||Change at Week 2 (AM)||||0.107
92185309|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|||||||ANOVA|||Change at Week 3 (AM)||||0.006
92185310|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||ANOVA|||Change at Week 4 (AM)||||0.030
92295480|NCT01729026|184495798|SUPERIORITY||effect size (Cohen's d)|0.2||||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||0.59
92295481|NCT01729026|184495799|SUPERIORITY||mixed effects regression models|-1.41||||0.01|TWO_SIDED|95.0|-2.5|-0.31|||effect size (Cohen's d)|||||-0.31|-2.50|0.010
92295482|NCT01729026|184495800|SUPERIORITY|||||||0.13|||||||Fisher Exact|||||||0.13
92295483|NCT01729026|184495801|SUPERIORITY||effect size (Cohen's d)|0.9||||0.188|TWO_SIDED||||||effect size (Cohen's d)|||||||0.188
92295484|NCT01729026|184495803|SUPERIORITY||effect size (Cohen's d)|1.2||||0.031|TWO_SIDED||||||mixed effects regression models|||||||0.031
92185311|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037|||||||ANOVA|||Change at Final Week (AM)||||0.037
92185312|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.146|||||||ANOVA|||Baseline (PM)||||0.146
92185313|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.426|||||||ANOVA|||Change at Week 1 (PM)||||0.426
92185314|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.259|||||||ANOVA|||Change at Week 2 (PM)||||0.259
92185315|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026|||||||ANOVA|||Change at Week 3 (PM)||||0.026
92295485|NCT01729026|184495804|SUPERIORITY||effect size (Cohen's d)|0.3||||0.541|TWO_SIDED|95.0|-0.8|1.4|||effect size (Cohen's d)|||||1.40|-0.80|0.541
92295486|NCT01729026|184495805|SUPERIORITY||effect size (Cohen's d)|0.6||||0.139|TWO_SIDED||||||effect size (Cohen's d)|||Please note that a minus number indicates an increase in pain ratings.||||0.139
92295487|NCT00955552|184495817|NON_INFERIORITY|Non-inferiority test of Ártico vs Cosamin DS® regarding the decrease of pain scale (VAS) in the PP population (N = 86).|||||<|0.05||||||For numeric variables Test -t student or ANOVA will be used. It will be considered statistically significant P-value less than 0,05.|t-test, 1 sided|||||||<0.05
92145217|NCT00707031|184174511|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit of the 2-sided 95% confidence interval of the difference between lixisenatide and exenatide on mITT population was \<=0.4%.|Least squares (LS) mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.067|||TWO_SIDED|95.0|0.033|0.297||Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0, \>=8.0%), BMI (\<30, \>=30 kg/m\^2), country as fixed effects, baseline HbA1c as covariate.||||To detect that upper confidence limit of 2-sided 95% confidence interval for least square (LS) mean difference between the 2 arms do not exceed 0.4% HbA1c, 300 patients per group would provide 96% power assuming a standard deviation of 1.3 and true difference in HbA1c between the 2 arms as 0.||0.297|0.033|
92145218|NCT02460692|184174547|SUPERIORITY|||||||0.78||||||The average pain change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|unstructured covariance model|||This is the primary comparison.||||0.78
92145219|NCT02460692|184174547|SUPERIORITY|||||||0.07||||||The average pain change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|Unstructured covariance model|||This is the secondary comparison.||||0.070
92145220|NCT02460692|184174547|SUPERIORITY|||||||0.044||||||The average pain change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|Unstructured covariance model|||This is an exploratory comparison||||0.044
92145221|NCT02460692|184174548|SUPERIORITY|||||||0.27||||||The average change of impact scores at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.27
92145222|NCT02460692|184174548|SUPERIORITY|||||||0.96||||||The average change of impact scores at the treatment period (weeks 5-8) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect.|unstructured covariance model|||||||0.96
92145223|NCT02460692|184174548|SUPERIORITY|||||||0.3||||||The average change of impact scores at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.30
92145224|NCT02460692|184174549|SUPERIORITY|||||||0.44||||||The average NPS change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.44
92145225|NCT02460692|184174549|SUPERIORITY|||||||0.53||||||The average pain change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect|Unstructured covariance model|||||||0.53
92185316|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|||||||ANOVA|||Change at Week 4 (PM)||||0.022
92185317|NCT00070707|184269480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|||||||ANOVA|||Change at Final Week (PM)||||0.043
92185318|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.181|||||||ANOVA|||Baseline (AM)||||0.181
92185319|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|||||||ANOVA|||Change at Week 1 (AM)||||0.014
92185320|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||ANOVA|||Change at Week 2 (AM)||||0.004
92185321|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANOVA|||Change at Week 3 (AM)||||0.002
92185322|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027|||||||ANOVA|||Change at Week 4 (AM)||||0.027
92185323|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069|||||||ANOVA|||Change at Final Week (AM)||||0.069
92185324|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.373|||||||ANOVA|||Baseline (PM)||||0.373
92185325|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.148|||||||ANOVA|||Change at Week 1 (PM)||||0.148
92185326|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|||||||ANOVA|||Change at Week 2 (PM)||||0.009
92185327|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016|||||||ANOVA|||Change at Week 3 (PM)||||0.016
92185328|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113|||||||ANOVA|||Change at Week 4 (PM)||||0.113
92185329|NCT00070707|184269481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.173|||||||ANOVA|||Change at Final Week (PM)||||0.173
92185330|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.089|||||||ANOVA|||Baseline (AM)||||0.089
92185331|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|||||||ANOVA|||Change at Week 1 (AM)||||0.014
92185332|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||ANOVA|||Change at Week 2 (AM)||||0.004
92185333|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANOVA|||Change at Week 3 (AM)||||0.001
92185334|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.041|||||||ANOVA|||Change at Week 4 (AM)||||0.041
92185335|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|||||||ANOVA|||Change at Final Week (AM)||||0.036
92185336|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17|||||||ANOVA|||Baseline (PM)||||0.170
92185337|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.237|||||||ANOVA|||Change at Week 1 (PM)||||0.237
92185338|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019|||||||ANOVA|||Change at Week 2 (PM)||||0.019
92145226|NCT02460692|184174549|SUPERIORITY|||||||0.18||||||The average NPS change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect|Unstructured covariance model|||||||0.18
92145227|NCT02460692|184174550|SUPERIORITY|||||||0.95||||||The average change of learning scores at the treatment period (weeks 5-8) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.95
92185339|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||ANOVA|||Change at Week 3 (PM)||||0.018
92185340|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.149|||||||ANOVA|||Change at Week 4 (PM)||||0.149
92185341|NCT00070707|184269482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.231|||||||ANOVA|||Change at Final Week (PM)||||0.231
92185342|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.745|||||||ANOVA|||Baseline (AM)||||0.745
92145228|NCT02460692|184174550|SUPERIORITY|||||||0.94||||||The average change of learning scores at the treatment period (weeks 5-8) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.94
92145229|NCT02460692|184174550|SUPERIORITY|||||||0.9||||||The average change of learning score at the treatment period (weeks 5-8) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||.90
92145230|NCT02460692|184174551|SUPERIORITY|||||||0.93||||||The average change of total time completing task in grooved pegboard test on dominant hand (weeks 5-8 at the treatment period) from baseline were compared between the two arms using an unstructured covariance model|unstructured covariance model|||||||0.93
92145231|NCT02460692|184174551|SUPERIORITY|||||||0.92||||||The average change of total time completing task in grooved pegboard test on dominant hand (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model|unstructured covariance model|||||||0.92
92185343|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|||||||ANOVA|||Change at Week 1 (AM)||||0.250
92185344|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 2 (AM)||||||0.202|||||||ANOVA|||||||0.202
92185345|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 3 (AM)||||||0.104|||||||ANOVA|||||||0.104
92185346|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 4 (AM)||||||0.348|||||||ANOVA|||||||0.348
92185347|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|Change at Final Week (AM)||||||0.355|||||||ANOVA|||||||0.355
92185348|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|Baseline (PM)||||||0.851|||||||ANOVA|||||||0.851
92185349|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 1 (PM)||||||0.993|||||||ANOVA|||||||0.993
92185350|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 2 (PM)||||||0.476|||||||ANOVA|||||||0.476
92185351|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 3 (PM)||||||0.149|||||||ANOVA|||||||0.149
92185352|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 4 (PM)||||||0.616|||||||ANOVA|||||||0.616
92185353|NCT00070707|184269483|SUPERIORITY_OR_OTHER_LEGACY|Change at Final Week (PM)||||||0.527|||||||ANOVA|||||||0.527
92185354|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116|||||||ANOVA|||Baseline (AM)||||0.116
92185355|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.994|||||||ANOVA|||Change at Week 1 (AM)||||0.994
92185356|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.961|||||||ANOVA|||Change at Week 2 (AM)||||0.961
92185357|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.183|||||||ANOVA|||Change at Week 3 (AM)||||0.183
92185358|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44|||||||ANOVA|||Change at Week 4 (AM)||||0.440
92185359|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.838|||||||ANOVA|||Change at Final Week (AM)||||0.838
92185360|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.096|||||||ANOVA|||Baseline (PM)||||0.096
92185361|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.362|||||||ANOVA|||Change at Week 1 (PM)||||0.362
92185362|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.693|||||||ANOVA|||Change at Week 2 (PM)||||0.693
92185363|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.603|||||||ANOVA|||Change at Week 3 (PM)||||0.603
92185364|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.579|||||||ANOVA|||Change at Week 4 (PM)||||0.579
92185365|NCT00070707|184269484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.413|||||||ANOVA|||Change at Final Week (PM)||||0.413
92185366|NCT00070707|184269485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.823|||||||ANOVA|||Baseline||||0.823
92185367|NCT00070707|184269485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.744|||||||ANOVA|||Change at Day 15||||0.744
92185368|NCT00070707|184269485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.675|||||||ANOVA|||Change at Day 29||||0.675
92185369|NCT00070707|184269486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.693|||||||ANOVA|||Baseline||||0.693
92185370|NCT00070707|184269486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.818|||||||ANOVA|||Change at Day 15||||0.818
92185371|NCT00070707|184269486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.915|||||||ANOVA|||Change at Day 29||||0.915
92185372|NCT00070707|184269487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.823|||||||ANOVA|||Baseline||||0.823
92185373|NCT00070707|184269487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.202|||||||ANOVA|||Change at Day 15||||0.202
92185374|NCT00070707|184269487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.199|||||||ANOVA|||Change at Day 29||||0.199
92185375|NCT00070707|184269488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.375|||||||ANOVA|||Baseline||||0.375
92185376|NCT00070707|184269488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71|||||||ANOVA|||Change at Week 1||||0.710
92185377|NCT00070707|184269488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.597|||||||ANOVA|||Change at Week 2||||0.597
92295488|NCT00483548|184495828|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.36|STANDARD_ERROR_OF_MEAN|1.37||0.7921||95.0|-3.07|2.34||Due to planned interim analysis of primary endpoint, to control type I error at 2-sided alpha=0.05, a nominal 2-sided p-value ≤0.0476 needed at final analysis to reject the null hypothesis of no treatment effect.|ANCOVA Mixed-effects repeated-measures|No other adjustment made for multiple comparisons since all comparisons, except for single primary comparison, are considered secondary.|Mixed-effects repeated-measures (MMRM) analysis of covariance model: fixed categorical effects of treatment, country, mood stabilizer type, visit, treatment-by-visit interaction, fixed continuous effect of baseline value and subject as random effect.|N=141 per arm (282 total) needed for 85% power for 2-sided alpha=0.05 based on true mean difference=4.0 and standard deviation (SD)=11.0 for primary endpoint. Interim Analysis (IA) planned when 60% of subjects had completed study or discontinued prematurely to assess efficacy (nominal 2-sided p-value less than or equal to \[≤\] 0.0076) or futility (nominal 2-sided p-value greater than or equal to \[≥\] 0.5099).||2.34|-3.07|0.7921
92295489|NCT00483548|184495829|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.7223||95.0|-0.25|0.36|||ANCOVA Mixed-effects repeated-measures|||Week 6; MMRM analysis of covariance model with fixed categorical effects of treatment, country, type of mood stabilizer, visit, treatment-by-visit interaction, fixed continuous effect of baseline value and subject as random effect.||0.36|-0.25|0.7223
92295490|NCT00483548|184495830|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.846||||0.5029||95.0|0.52|1.38|||Regression, Logistic||Odds ratio measures the odds of achieving remission (MADRS total score ≤ 12) from ziprasidone treated subjects versus placebo; a value \> 1 favors ziprasidone.|Week 6; LOCF; Logistic regression model with treatment, country, and type of mood stabilizer.||1.38|0.52|0.5029
92295491|NCT00483548|184495831|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.949||||0.8266||95.0|0.59|1.52|||Regression, Logistic||Odds ratio measures the odds of achieving response (≥ 50 % reduction in MADRS total score) from ziprasidone treated subjects versus placebo; a value \> 1 favors ziprasidone.|Week 6; LOCF; Logistic regression model with treatment, country, and type of mood stabilizer.||1.52|0.59|0.8266
92295492|NCT00483548|184495832|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.939||||0.7924||95.0|0.59|1.5||Logistic regression model with treatment, country, and type of mood stabilizer.|Regression, Logistic|||Week 6; LOCF; Logistic regression model with treatment, country, and type of mood stabilizer.||1.50|0.59|0.7924
92145232|NCT02460692|184174551|SUPERIORITY|||||||0.85||||||The average change of total time completing task in grooved pegboard test on dominant hand (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model|unstructured covariance model|||||||0.85
92145233|NCT02460692|184174552|SUPERIORITY|||||||0.89||||||The average change in Wechsler Adult Intelligence Scale (WAIS)-III test score (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model.|Unstructured covariance model|||||||0.89
92145234|NCT02460692|184174552|SUPERIORITY|||||||0.13||||||The average change in WAIS-III test score (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model|unstructured covariance model|||||||0.13
92145235|NCT02460692|184174552|SUPERIORITY|||||||0.14||||||The average change in WAIS-III test score (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model|unstructured covariance model|||||||0.14
92145236|NCT02460692|184174553|SUPERIORITY|||||||0.1||||||The average change of total mood disturbance scores (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|Unstructured covariance model|||||||0.10
92145237|NCT02460692|184174553|SUPERIORITY|||||||0.67||||||The average change of total mood disturbance scores (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|unstructured covariance model|||||||0.67
92145238|NCT02460692|184174553|SUPERIORITY|||||||0.25||||||The average change of total mood disturbance scores (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|unstructured covariance model|||||||0.25
92145239|NCT02460692|184174554|SUPERIORITY|||||||0.84||||||The average change of beck score (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.84
92145240|NCT02460692|184174554|SUPERIORITY|||||||0.91||||||The average change of beck score (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.91
92145241|NCT02460692|184174554|SUPERIORITY|||||||0.75||||||The average change of beck score (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.75
92145242|NCT02460692|184174555|SUPERIORITY|||||||0.24||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.24
92145243|NCT02460692|184174555|SUPERIORITY|||||||0.08||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.080
92145244|NCT02460692|184174555|SUPERIORITY|||||||0.005||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.005
92145245|NCT02460692|184174556|SUPERIORITY|||||||0.6|||||||unstructured covariance model|||||||0.60
92145246|NCT02460692|184174556|SUPERIORITY|||||||0.4|||||||unstructured covariance model|||||||0.40
92145247|NCT02460692|184174556|SUPERIORITY|||||||0.72|||||||unstructured covariance model|||||||0.72
92145248|NCT02460692|184174557|SUPERIORITY|||||||0.19||||||The average change of pain sensitivity (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model.|unstructured covariance model|||||||0.19
92145249|NCT02460692|184174557|SUPERIORITY|||||||0.7||||||The average change of pain sensitivity (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model.|unstructured covariance model|||||||0.70
92295493|NCT00483548|184495833|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-1.68|STANDARD_ERROR_OF_MEAN|0.89||0.0594||95.0|-3.42|0.07|||ANCOVA|||Week 1; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.07|-3.42|0.0594
92185378|NCT00070707|184269488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.242|||||||ANOVA|||Change at Week 3||||0.242
92185379|NCT00070707|184269488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.696|||||||ANOVA|||Change at Week 4||||0.696
92185380|NCT00070707|184269488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.67|||||||ANOVA|||Change at Final Week||||0.670
92185381|NCT00070707|184269489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.865|||||||ANOVA|||Baseline||||0.865
92185382|NCT00070707|184269489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025|||||||ANOVA|||Change at Week 1||||0.025
92185383|NCT00070707|184269489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.288|||||||ANOVA|||Change at Week 2||||0.288
92185384|NCT00070707|184269489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79|||||||ANOVA|||Change at Week 3||||0.790
92185385|NCT00070707|184269489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.211|||||||ANOVA|||Change at Week 4||||0.211
92185386|NCT00070707|184269489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.136|||||||ANOVA|||Change at Final Week||||0.136
92295494|NCT00483548|184495833|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-1.25|STANDARD_ERROR_OF_MEAN|1.03||0.223||95.0|-3.27|0.77|||ANCOVA|||Week 2; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.77|-3.27|0.2230
92185387|NCT00070707|184269490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.667|||||||ANOVA|||Baseline||||0.667
92185388|NCT00070707|184269490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.656|||||||ANOVA|||Change at Week 1||||0.656
92295495|NCT00483548|184495833|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.43|STANDARD_ERROR_OF_MEAN|1.09||0.6971||95.0|-2.57|1.72|||ANCOVA|||Week 3; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.72|-2.57|0.6971
92295496|NCT00483548|184495833|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.68|STANDARD_ERROR_OF_MEAN|1.12||0.5485||95.0|-2.89|1.54|||ANCOVA|||Week 4; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.54|-2.89|0.5485
92185389|NCT00070707|184269490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.458|||||||ANOVA|||Change at Week 2||||0.458
92185390|NCT00070707|184269490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22|||||||ANOVA|||Change at Week 3||||0.220
92185391|NCT00070707|184269490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.775|||||||ANOVA|||Change at Week 4||||0.775
92185392|NCT00070707|184269490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.994|||||||ANOVA|||Change at Final Week||||0.994
92185393|NCT00070707|184269491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.363|||||||ANOVA|||Baseline||||0.363
92185394|NCT00070707|184269491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262|||||||ANOVA|||Change at Week 1||||0.262
92185395|NCT00070707|184269491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.386|||||||ANOVA|||Change at Week 2||||0.386
92185396|NCT00070707|184269491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.167|||||||ANOVA|||Change at Week 3||||0.167
92185397|NCT00070707|184269491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.505|||||||ANOVA|||Change at Week 4||||0.505
92185398|NCT00070707|184269491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.725|||||||ANOVA|||Change at Final Week||||0.725
92185399|NCT00070707|184269492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.954|||||||Cochran-Mantel-Haenszel|Stratified by center||Asthma Symptoms: Day 15||||0.954
92185400|NCT00070707|184269492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295|||||||Cochran-Mantel-Haenszel|Stratified by center||Asthma Symptoms: Day 29||||0.295
92185401|NCT00070707|184269493|SUPERIORITY_OR_OTHER_LEGACY|||||||0.268|||||||Cochran-Mantel-Haenszel|Stratified by center||SAR Nasal Symptoms: Day 15||||0.268
92185402|NCT00070707|184269493|SUPERIORITY_OR_OTHER_LEGACY|||||||0.154|||||||Cochran-Mantel-Haenszel|Stratified by center||SAR Nasal Symptoms: Day 29||||0.154
92185403|NCT01366976|184269500|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Mixed Models Analysis|||We hypothesized that acetaminophen would reduce peak isofuran concentrations by 22 pg/mL (40% reduction from peak concentrations). If the true difference in the acetaminophen and placebo group means is 22 pg/mL (SD=30 pg/mL), we would need to study 30 experimental subjects and 30 control subjects to be able to reject the null hypothesis that the population means of the acetaminophen and placebo groups are equal with probability (power) 0.8.||||0.05
92185404|NCT01366976|184269502|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||0.12
92185405|NCT01241448|184269514|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.29||||0.094|TWO_SIDED|90.0|-0.58|-0.01||No multiplicity adjustments were used to calculate the p-value.|Mixed Models Analysis|||Sixty-five randomized patients (45 completers) per arm were expected to provide at least 90% power to detect 0.8% HbA1c difference with placebo assuming a SD for change in HbA1c of 1.2% (0.05 1-sided type I error).||-0.01|-0.58|0.094
92185406|NCT01241448|184269514|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.62|||<|0.001|TWO_SIDED|90.0|-0.9|-0.34||No multiplicity adjustments were used to calculate the p-value.|Mixed Models Analysis|||Sixty-five randomized patients (45 completers) per arm were expected to provide at least 90% power to detect 0.8% HbA1c difference with placebo assuming a SD for change in HbA1c of 1.2% (0.05 1-sided type I error).||-0.34|-0.90|<0.001
92185407|NCT01241448|184269514|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.77|||<|0.01|TWO_SIDED|90.0|-1.05|-0.48||No multiplicity adjustments were used to calculate the p-value.|Mixed Models Analysis|||Sixty-five randomized patients (45 completers) per arm were expected to provide at least 90% power to detect 0.8% HbA1c difference with placebo assuming a SD for change in HbA1c of 1.2% (0.05 1-sided type I error).||-0.48|-1.05|<0.01
92185408|NCT01286311|184269568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.99|TWO_SIDED|95.0|0.54|1.86|||Generalized Logistic Regression|||||1.86|0.54|0.99
92185409|NCT01286311|184269569|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.27|TWO_SIDED|95.0|0.84|1.85|||Generalized Logistic Regression|||||1.85|0.84|0.27
92295497|NCT00483548|184495833|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.25|STANDARD_ERROR_OF_MEAN|1.19||0.8322||95.0|-2.6|2.1|||ANCOVA|||Week 5; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||2.10|-2.60|0.8322
92295498|NCT00483548|184495834|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.12|STANDARD_ERROR_OF_MEAN|0.09||0.1771||95.0|-0.29|0.05|||ANCOVA|||Week 1; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.05|-0.29|0.1771
92295499|NCT00483548|184495834|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.1765||95.0|-0.37|0.07|||ANCOVA|||Week 2; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.07|-0.37|0.1765
92145250|NCT02460692|184174557|SUPERIORITY|||||||0.36||||||The average change of pain sensitivity (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model|unstructured covariance model|||||||0.36
92145251|NCT02460692|184174558|SUPERIORITY|||||||0.14|||||||Regression, Linear|||Change in withdrawal intensity from week 8 to week 10 was compared between the two arms.||||.14
92145252|NCT02460692|184174558|SUPERIORITY|||||||0.6|||||||Regression, Linear|||Change in withdrawal intensity from week 8 to week 10 was compared between the two arms.||||.60
92145253|NCT02460692|184174558|SUPERIORITY|||||||0.34|||||||Regression, Linear|||Change in withdrawal intensity from week 8 to week 10 was compared between the two arms.||||.34
92145254|NCT02460692|184174559|SUPERIORITY|||||||0.34|||||||unstructured covariance model|||||||0.34
92145255|NCT02460692|184174559|SUPERIORITY|||||||0.007|||||||unstructured covariance model|||||||0.007
92145256|NCT02460692|184174559|SUPERIORITY|||||||0.055|||||||unstructured covariance model|||||||0.055
92145257|NCT02460692|184174560|SUPERIORITY|||||||0.69|||||||unstructured covariance model|||||||0.69
92145258|NCT02460692|184174560|SUPERIORITY|||||||0.79|||||||unstructured covariance model|||||||0.79
92145259|NCT02460692|184174560|SUPERIORITY|||||||0.97|||||||unstructured covariance model|||||||0.97
92145260|NCT02460692|184174561|SUPERIORITY|||||||0.21||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.21
92145261|NCT02460692|184174561|SUPERIORITY|||||||0.029||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.029
92145262|NCT02460692|184174561|SUPERIORITY|||||||0.001||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.001
92145263|NCT02460692|184174562|SUPERIORITY|||||||0.084|||||||Regression, Linear|||Change in negative impact of withdrawal from week 8 to week 10 was compared between the two arms.||||0.084
92145264|NCT02460692|184174562|SUPERIORITY|||||||0.98|||||||Regression, Linear|||Change in negative impact of withdrawal from week 8 to week 10 was compared between the two arms.||||0.98
92145265|NCT02460692|184174562|SUPERIORITY|||||||0.085|||||||Regression, Linear|||Change in negative impact of withdrawal from week 8 to week 10 was compared between the two arms.||||0.085
92145266|NCT02460692|184174563|SUPERIORITY|||||||0.95||||||The average change of pain tolerance (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model|unstructured covariance model|||||||0.95
92145267|NCT02460692|184174563|SUPERIORITY|||||||0.78||||||The average change of pain tolerance (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model.|unstructured covariance model|||||||0.78
92145268|NCT02460692|184174563|SUPERIORITY|||||||0.99||||||The average change of pain tolerance (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model.|unstructured covariance model|||||||0.99
92145269|NCT02048072|184174579|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 1 sided|||||||0.02
92145270|NCT00251745|184174629|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
92145271|NCT00251745|184174629|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
92145272|NCT00251745|184174629|SUPERIORITY_OR_OTHER|||||||0.15505||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.15505
92145273|NCT00251745|184174631|SUPERIORITY_OR_OTHER|||||||1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.00001
92145274|NCT00251745|184174631|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
92145275|NCT00251745|184174631|SUPERIORITY_OR_OTHER|||||||0.3874||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.38740
92145276|NCT00789815|184174644|NON_INFERIORITY_OR_EQUIVALENCE|A preliminary study was performed to determine the sample size before this trial. 15 and 15 patients undergoing FB received BIS-guided propofol sedation and clinical-judged midazolam sedation, respectively. The incidences of hypoxemia were 0.33 and 0.20, respectively. The selected sample size of 225 in each group will yield 90% power for detecting a clinically meaningful difference of 0.13 at the 5.0% level of significance. To allow for 10% missing data, we recruited 250 patients per group.||||||0.05||95.0|||||Chi-squared|||"The null hypothesis: the incidence of hypoxemia occured during FB with BIS-guided propofol infusion is higher than that with clinical-judged midazolam administration.~Power calculation is described below."||||0.05
92145277|NCT00789815|184174645|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||The null hypothesis: the incidence of hypotension during FB in patients of study group is higher than that in the control group.||||0.05
92145278|NCT00789815|184174646|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||||||0.05
92145279|NCT00789815|184174647|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||||||0.05
92145280|NCT00789815|184174648|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||||||0.05
92145281|NCT00789815|184174649|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Wilcoxon (Mann-Whitney)|||The null hypothesis: the global tolerance of patients in study is worse than that in the control group.||||0.05
92145282|NCT00789815|184174650|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||||||0.05
92145283|NCT00789815|184174651|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||||||0.05
92145284|NCT01490502|184174695|SUPERIORITY|||||||0.6|||||||Log Rank|||||||0.60
92185410|NCT01286311|184269570|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.038|TWO_SIDED|95.0|1.05|4.32|||Generalized Logistic Regression|||||4.32|1.05|0.038
92185411|NCT01286311|184269571|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.72||||0.13|TWO_SIDED|95.0|0.73|10.1|||Generalized Logistic Regression|||||10.1|0.73|0.13
92185412|NCT01286311|184269572|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.18||||0.3|TWO_SIDED|95.0|0.5|9.5|||Generalized Logistic Regression|||||9.5|0.50|0.30
92185413|NCT03034863|184269573|SUPERIORITY||Slope|-0.37|STANDARD_ERROR_OF_MEAN|0.17||0.03|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.03
92185414|NCT03034863|184269574|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.69|TWO_SIDED||||||Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.69
92185415|NCT03034863|184269575|SUPERIORITY|||||||0.49||||||All p-values are two-tailed|Fisher Exact|Compares veterans who reported 1+ attempts at any follow-up wave out of total number of veterans in each group (i.e., 0/19 for SAFER; 2/20 for I-SPI).||||||.49
92185416|NCT03034863|184269576|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.04||0.03|TWO_SIDED||||||Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.03
92185417|NCT03034863|184269577|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.87|TWO_SIDED||||||Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.87
92185418|NCT03034863|184269578|SUPERIORITY||Slope|0.17|STANDARD_ERROR_OF_MEAN|0.08||0.03|TWO_SIDED||||||Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.03
92145285|NCT01490502|184174695|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.57|TWO_SIDED|95.0|0.67|2.05|||Regression, Cox|||||2.05|0.67|0.57
92185419|NCT03034863|184269579|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.16|TWO_SIDED||||||Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.16
92185420|NCT03034863|184269580|SUPERIORITY||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.35||0.81|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.81
92185421|NCT03034863|184269581|SUPERIORITY||Slope|-0.37|STANDARD_ERROR_OF_MEAN|0.62||0.55|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.55
92145286|NCT01490502|184174696|OTHER|||||||0.07|||||||Andersen Gill model for recurrent events|||||||0.07
92145287|NCT01490502|184174697|SUPERIORITY||Rate Ratio|1.8||||0.07|TWO_SIDED|95.0|0.94|3.45|||Negative Binomial Model|||||3.45|0.94|0.07
92145288|NCT01490502|184174698|SUPERIORITY||Rate Ratio|1.47||||0.14|TWO_SIDED|95.0|0.88|2.46|||Negative Binomial Model|||||2.46|0.88|0.14
92145289|NCT01490502|184174699|SUPERIORITY|||||||0.6|||||||Log Rank|||||||0.60
92185422|NCT03034863|184269582|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.64|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.64
92185423|NCT03034863|184269583|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.62|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.62
92185424|NCT03034863|184269584|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.03||0.16|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.16
92145290|NCT01490502|184174700|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||The average rate of change in MSFC Z-score over time was analyzed using a linear mixed-effects model with unstructured covariance structure and random intercepts. The p-value is a test of whether there is a difference in the rate of change in the MSFC Z-score between treatment arms.||||0.20
92185425|NCT03331978|184269589|SUPERIORITY||Mean Difference (Net)|6.89|STANDARD_ERROR_OF_MEAN|3.91||0.08|TWO_SIDED|95.0|-0.82|14.61|||Regression, Linear|Model is adjusted for participant sex, which was found to be significantly associated with adherence in a similar repeated measures model.|Values entered are for regression coefficient for intervention indicator (versus control) and represents the adjusted difference across all follow-up time points.|Tested with repeated measures linear regression where all 6 past-month post-intervention measurements of adherence were stacked together such that each participant could contribute up to 6 records. Standard errors were adjusted for clustering on participant, and weights for presence of data were used. Fixed effects were an intervention indicator and continuous adherence measured at baseline. Model included all participants with adherence data (a) at baseline and (b) at least one follow-up month.||14.61|-0.82|.08
92185426|NCT03331978|184269590|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0257|TWO_SIDED|95.0|1.09|3.6||Per above, p-value is from repeated measures logistic regression with standard errors adjusted for clustering on participant.|Regression, Logistic||Odds ratio is for intervention indicator (versus controls).|Tested with repeated measures logistic regression where all 6 past-month post-intervention measurements of adherence were stacked together such that each participant could contribute up to 6 records. Standard errors were adjusted for clustering on participant, and weights for presence of data were used. Fixed effects were an intervention indicator and baseline dichotomous adherence. Model included all participants with adherence data (a) at baseline and (b) at least one follow-up month.||3.60|1.09|.0257
92185427|NCT03331978|184269591|SUPERIORITY||Odds Ratio (OR)|1.82||||0.26|TWO_SIDED|95.0|0.64|5.18||As mentioned above, p-value comes from repeated measures regression with standard errors adjusted for clustering on participant.|Regression, Logistic||Odds ratio is for intervention indicator (versus controls).|Tested with repeated measures logistic regression where both post-intervention measurements were stacked together such that each participant could contribute up to 2 records. Standard errors were adjusted for clustering on participant, and weights for presence of viral suppression data were used. Fixed effects were an intervention indicator and baseline viral suppression. Model included all viral suppression data (a) at baseline and (b) close to either of the two follow-up surveys.||5.18|0.64|.26
92185428|NCT03331978|184269592|SUPERIORITY||Odds Ratio (OR)|0.57||||0.05|TWO_SIDED|95.0|0.32|1.0||As mentioned above, p-value is from repeated measures regression with standard errors adjusted for clustering on participant.|Regression, Logistic||Odds ratio is for intervention indicator (versus controls).|Tested with repeated measures logistic regression where both post-intervention responses were stacked together such that each participant could contribute up to 2 records. Standard errors were adjusted for clustering on participant, and weights for follow-up response were used. Fixed effects were an intervention indicator and baseline stigma. Model included all participants with responses (a) at baseline and (b) at least one of the two follow-up surveys.||1.00|0.32|.05
92185429|NCT03331978|184269593|SUPERIORITY||Mean Difference (Net)|-0.215|STANDARD_ERROR_OF_MEAN|0.091||0.0199|TWO_SIDED|95.0|-0.395|-0.034||As described above, p-value is from repeated measures regression with standard errors adjusted for clustering on participant|Regression, Linear||Estimation parameter is the regression coefficient for intervention indicator (vs. control) and represents the adjusted difference across both follow-up time points.|Tested with repeated measures linear regression where both post-intervention responses were stacked together such that each participant could contribute up to 2 records. Standard errors were adjusted for clustering on participant, and weights for follow-up response were used. Fixed effects were an intervention indicator and baseline stigma. Model included all participants with responses (a) at baseline and (b) at least one of the two follow-up surveys.||-0.034|-0.395|.0199
92185430|NCT01393600|184269642|OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|1.3||0.588|TWO_SIDED|95.0|-3.3|1.9|||ANOVA|||||1.9|-3.3|0.5880
92185431|NCT01393600|184269642|OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|1.3||0.4184|TWO_SIDED|95.0|-3.8|1.6|||ANOVA|||||1.6|-3.8|0.4184
92185432|NCT01393600|184269644|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.0||0.6761|TWO_SIDED|95.0|-2.4|1.6|||ANOVA|||||1.6|-2.4|0.6761
92295500|NCT00483548|184495834|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.6765||95.0|-0.27|0.18|||ANCOVA|||Week 3; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.18|-0.27|0.6765
92185433|NCT01393600|184269644|OTHER||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|1.1||0.0015|TWO_SIDED|95.0|-6.6|-1.8|||ANOVA|||||-1.8|-6.6|0.0015
92185434|NCT01163214|184269650|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||t-test, 2 sided|||||||0.78
92185435|NCT01163214|184269650|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.58
92185436|NCT01163214|184269651|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||t-test, 2 sided|||||||0.76
92185437|NCT01163214|184269651|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.59
92185438|NCT01163214|184269652|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Comparison of arms for intraoperative narcotic use.||||<0.001
92185439|NCT01163214|184269652|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Comparison of arms for narcotic use on day of surgery as needed.||||<0.001
92185440|NCT01163214|184269652|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||t-test, 2 sided|||Comparison of arms for narcotic use on post operative day 1 as needed.||||0.17
92185441|NCT01163214|184269652|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|||Comparison of arms for narcotic use on post operative day 2 as needed.||||0.51
92185442|NCT01163214|184269653|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for postoperative day 1 morning.||||<0.001
92185443|NCT01163214|184269653|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for postoperative day 1 afternoon.||||<0.001
92185444|NCT01163214|184269653|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for postoperative day 2 morning.||||0.002
92185445|NCT01163214|184269653|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for postoperative day 2 afternoon.||||0.97
92295501|NCT00483548|184495834|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.977||95.0|-0.24|0.25|||ANCOVA|||Week 4; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.25|-0.24|0.9770
92185446|NCT01163214|184269654|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for length of stay in the hospital.||||0.02
92185447|NCT01163214|184269655|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for femoral nerve.||||0.49
92185448|NCT01163214|184269655|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for common peroneal nerve.||||0.01
92295502|NCT00483548|184495834|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.04|STANDARD_ERROR_OF_MEAN|0.13||0.7907||95.0|-0.3|0.23|||ANCOVA|||Week 5; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.23|-0.30|0.7907
92295503|NCT00483548|184495835|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.0392||95.0|-0.43|-0.01|||ANOVA|||Week 1; LOCF; Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.||-0.01|-0.43|0.0392
92295504|NCT00483548|184495835|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.2803||95.0|-0.38|0.11|||ANOVA|||Week 2; LOCF; Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.||0.11|-0.38|0.2803
92145291|NCT01490502|184174701|SUPERIORITY|||||||0.67|||||||Mixed Models Analysis|||Rate of change in 2.5% low-contrast acuity was analyzed using a linear mixed effects model with unstructured covariance structure and random intercepts. The p-value is a test of whether there is a difference in the rate of change in low-contrast acuity between treatment arms.||||0.67
92145292|NCT01490502|184174702|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||Rate of change in quality of life was analyzed using a linear mixed effects model with unstructured covariance structure and random intercepts. The p-value is a test of whether there is a difference in the rate of change in health-related quality of life between treatment arms.||||0.21
92145293|NCT01490502|184174703|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||||||0.13
92145294|NCT01490502|184174704|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
92145295|NCT00772590|184174708|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||ANOVA|||||||<0.01
92145296|NCT03813238|184174723|SUPERIORITY||LS mean difference|-1.2||||0.335|TWO_SIDED|95.0|-3.49|1.19|||Mixed Models Analysis|||The LS mean of the change in MDCRS part II total score from baseline to Week 15 was compared (TEV-50717 arm versus placebo) using a 1-sided test for superiority at a nominal significance level of α=0.025.||1.19|-3.49|0.335
92145297|NCT02066402|184174752|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority (NI) hypothesis test is a 1-sided hypothesis test performed at the 2.5% level of significance. Predefined margin for non-inferiority is -10%.|Difference of responder rate|-4.6||||0.2027|TWO_SIDED|95.0|-11.2|2.2|||Fisher Exact|||||2.2|-11.2|0.2027
92145298|NCT02066402|184174753|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority (NI) hypothesis test is a 1-sided hypothesis test performed at the 2.5% level of significance.|Difference of responder rate|-2.2|||||TWO_SIDED|95.0|-8.3|3.8||||||||3.8|-8.3|
92145299|NCT02066402|184174754|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority (NI) hypothesis test is a 1-sided hypothesis test performed at the 2.5% level of significance.|Difference of responder rate|-2.1|||||TWO_SIDED|95.0|-7.4|3.2||||||||3.2|-7.4|
92145300|NCT02066402|184174755|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority (NI) hypothesis test is a 1-sided hypothesis test performed at the 2.5% level of significance.|Difference of responder rate|-2.2|||||TWO_SIDED|95.0|-8.6|4.1||||||||4.1|-8.6|
92145301|NCT02066402|184174756|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority (NI) hypothesis test is a 1-sided hypothesis test performed at the 2.5% level of significance.|Difference of responder rate|-3.1|||||TWO_SIDED|95.0|-8.4|2.0||||||||2.0|-8.4|
92145302|NCT00152464|184174763|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.002|||=|0.991|TWO_SIDED|95.0|0.75|1.338|||Regression, Cox|||||1.338|0.750|=0.991
92145303|NCT00863655|184174816|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.35|0.54|||Log Rank|||||0.54|0.35|<0.0001
92145304|NCT00716092|184174843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001||95.0|-28.0|-11.9||There was no adjustment for multiple primary endpoints, however a hierarchy approach to control for the Type-I error was used. If the endpoint WMG was not successful, any analysis of the GLP-1 (AUEC 0-24h) was to be considered descriptive.|ANCOVA|The primary analyses are based upon a model containing only BI1356 and Placebo. Sitagliptin values come from a different model containing all 3 groups||BI1356 minus Placebo||-11.9|-28.0|<0.0001
92185449|NCT01163214|184269655|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for tibial nerve.||||0.62
92185450|NCT01163214|184269655|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for femoral, peroneal, or tibial nerves.||||0.009
92185451|NCT00988429|184269656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058||95.0|||||ANCOVA|||||||0.058
92185452|NCT00988429|184269656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0|||||ANCOVA|||||||0.004
92185453|NCT00988429|184269657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068|||||||ANCOVA|||||||0.068
92185454|NCT00988429|184269657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
92295505|NCT00483548|184495835|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.9835||95.0|-0.26|0.26|||ANOVA|||Week 3; LOCF; Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.||0.26|-0.26|0.9835
92295506|NCT00483548|184495835|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.06|STANDARD_ERROR_OF_MEAN|0.15||0.7062||95.0|-0.34|0.23|||ANOVA|||Week 4; LOCF; Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.||0.23|-0.34|0.7062
92295507|NCT00483548|184495835|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.01|STANDARD_ERROR_OF_MEAN|0.15||0.9518||95.0|-0.31|0.29|||ANOVA|||Week 5; LOCF; Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.||0.29|-0.31|0.9518
92295508|NCT00483548|184495835|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.11|STANDARD_ERROR_OF_MEAN|0.16||0.4757||95.0|-0.2|0.42||Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.|ANOVA|||Week 6; LOCF||0.42|-0.20|0.4757
92295509|NCT00483548|184495836|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.35|STANDARD_ERROR_OF_MEAN|0.75||0.6362||95.0|-1.12|1.82|||ANCOVA|||Week 2; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.82|-1.12|0.6362
92185455|NCT02964234|184269658|SUPERIORITY||Odds Ratio (OR)|10.59||||0.005|TWO_SIDED|95.0|2.01|56.31||We clustered by cohort, given both interventions used a group format, and adjusted for age, socioeconomic status (education, income, insurance status) baseline mammography history, and baseline mammography intention.|Regression, Logistic|||We conducted logistic regressions, clustering by cohort, given both interventions used a group format, and adjusting for age, education, income, insurance status, baseline mammography history, and baseline mammography intention. The null hypothesis was there would be no study arm differences. A priori power analysis suggested that a sample size of 150, assuming alpha = .05, power = .80 would lead us to detect medium/large effects (OR = 2.8).||56.31|2.01|.005
92185456|NCT02964234|184269659|SUPERIORITY||Slope|-0.19||||0.03|TWO_SIDED|95.0|-0.34|-0.04|||Regression, Linear|With GEE. Models had exchangeable correlation structure, a gamma distribution, and log link.||Analyses were conducted using GEE with an exchangeable correlation structure and a gamma distribution with log link. All models included study arm, time, and the study arm\*time. Covariates included age, education, and mammography history. With 150 Latinas, alpha = 0.05, power = 0.80, ICC = 0.0-0.05, we expected to detect small/medium interaction effects.||-0.04|-0.34|0.03
92185457|NCT02964234|184269660|SUPERIORITY||Odds Ratio (OR)|6.15|||<|0.0001|TWO_SIDED|95.0|2.82|13.32||Analyses clustered by cohort and adjusted for age, SES (education, income, insurance), mammography history, mammography intention, and baseline supportive breast cancer social network size.|Ordinal regression|||We used ordinal regression, given the non-normal distribution revealed by preliminary analyses. Analyses clustered by cohort and adjusted for age, SES (education, income, insurance), mammography history, mammography intention, and baseline supportive breast cancer social network size. Power analyses suggested that with 150 Latinas, alpha = .05, power = .80, we would be able to detect a small effect (Cohen's f = 0.05).||13.32|2.82|<0.0001
92185458|NCT02246647|184269673|OTHER||Mean Difference (Final Values)|0.01||||0.87|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.87
92185459|NCT04387773|184269688|SUPERIORITY||Mean Difference (Final Values)|2.3|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||We hypothesized that GOCOVRI would result in an increase of daily activity due to improvement in LID symptoms.||||>.05
92185460|NCT04387773|184269689|SUPERIORITY||Mean Difference (Final Values)|14.98|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||We hypothesized that GOCOVRI would result in an increase of daily activity due to improvement in LID symptoms.||||>.05
92185461|NCT04387773|184269690|SUPERIORITY||Mean Difference (Final Values)|2393.2||||0.037|TWO_SIDED||||||t-test, 2 sided|||||||0.037
92185462|NCT04387773|184269691|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.012|TWO_SIDED||||||t-test, 2 sided|||||||0.012
92185463|NCT04387773|184269692|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
92185464|NCT04405180|184269723|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|4.0||0.9017|TWO_SIDED|||||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data|ANCOVA|||||||0.9017
92185465|NCT04405180|184269724|SUPERIORITY||Mean Difference (Net)|0.0342|STANDARD_ERROR_OF_MEAN|0.0417||0.4215|TWO_SIDED||||||ANCOVA|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.4215
92185466|NCT04405180|184269725|SUPERIORITY||Mean Difference (Net)|6.0|STANDARD_ERROR_OF_MEAN|53.0||0.9024|TWO_SIDED||||||ANCOVA|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||.9024
92185467|NCT04405180|184269726|SUPERIORITY||Mean Difference (Net)|-59.0|STANDARD_ERROR_OF_MEAN|42.0||0.1646|TWO_SIDED||||||Mixed Models Analysis|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.1646
92185468|NCT04405180|184269727|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.2||0.9814|TWO_SIDED||||||ANCOVA|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.9814
92185469|NCT04405180|184269728|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.6217|TWO_SIDED||||||Mixed Models Analysis|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.6217
92185470|NCT04405180|184269729|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.7981|TWO_SIDED||||||Mixed Models Analysis|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.7981
92185471|NCT04405180|184269730|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.6677|TWO_SIDED||||||Mixed Models Analysis|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.6677
92185472|NCT04405180|184269731|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|1.1||0.3745|TWO_SIDED||||||Mixed Models Analysis|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.3745
92185473|NCT04405180|184269732|SUPERIORITY||Mean Difference (Net)|243.0|STANDARD_ERROR_OF_MEAN|400.0||0.5496|TWO_SIDED||||||ANCOVA|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.5496
92185474|NCT00687297|184269762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||1||95.0|||||Fisher Exact|||Fisher's exact test with two-sided Type I error of 5% was used to test the null hypothesis of no difference in response rate between arms.||||1.00
92185475|NCT00687297|184269763|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||0.02|TWO_SIDED|95.0|1.07|2.07||p-value from Wald test|Regression, Cox|The model was adjusted for gender (male vs. female) and stage (Stage IIIB vs. Stage IV/Recurrent)||There was 80% power to detect a 50% improvement in median progression-free survival, using a stratified log-rank test with one-sided Type I error of 10%.||2.07|1.07|0.02
92185476|NCT03031782|184269807|SUPERIORITY||Cox Proportional Hazard|0.28|||<|0.001|TWO_SIDED|95.0|0.13|0.63|||Log Rank|Hazard ratios and associated 95% confidence intervals are based on a Cox proportional hazards model with treatment and analysis factors||Survival analysis of time to flare - TP2 (FAS2)||0.63|0.13|<0.001
92185477|NCT04867382|184269819|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.27||0.63|TWO_SIDED||||||t-test, 2 sided|||||||.63
92185478|NCT04867382|184269820|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.17||0.27|TWO_SIDED||||||t-test, 2 sided|||||||0.27
92185479|NCT04867382|184269821|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.22||0.37|TWO_SIDED||||||t-test, 2 sided|||||||.37
92185480|NCT04867382|184269822|SUPERIORITY||Odds Ratio (OR)|1.75||||0.12|TWO_SIDED|95.0|0.86|3.57|||Regression, Logistic|||||3.57|0.86|.12
92145305|NCT00716092|184174844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.1|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001||95.0|12.4|23.9||There was no adjustment for multiple primary endpoints, however a hierarchy approach to control for the Type-I error was used. If the endpoint WMG was not successful, any analysis of the GLP-1 (AUEC 0-24h) will be considered descriptive.|ANCOVA|The primary analyses are based upon a model containing only BI1356 and Placebo. Sitagliptin values come from a different model containing all 3 groups||BI1356 minus Placebo||23.9|12.4|<0.0001
92145306|NCT00716092|184174845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|STANDARD_ERROR_OF_MEAN|4.8||0.0283||95.0|-20.4|-1.2|||ANCOVA|The primary analyses are based upon a model containing only BI1356 and Placebo. Sitagliptin values come from a different model containing all 3 groups||BI1356 minus Placebo||-1.2|-20.4|0.0283
92145307|NCT00716092|184174846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-106.5|STANDARD_ERROR_OF_MEAN|20.3|<|0.0001||95.0|-147.0|-66.0|||ANCOVA|The primary analyses are based upon a model containing only BI1356 and Placebo. Sitagliptin values come from a different model containing all 3 groups||BI1356 minus Placebo||-66.0|-147.0|<0.0001
92145308|NCT00716092|184174847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0|STANDARD_ERROR_OF_MEAN|3.9||0.1274||95.0|-1.7|13.8|||ANCOVA|These measured values and statistical analysis come from a mixed model containing all three treatment groups, and adjusted as already described.||BI 1356 minus Sitagliptin. This analysis comparing BI1356 to Sitagliptin was conducted as an exploratory analysis at the time of analysing the study data. The study was not powered for such a comparison.||13.8|-1.7|0.1274
92145309|NCT00716092|184174848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|2.7||0.313||95.0|-2.7|8.2|||ANCOVA|These measured values and statistical analysis come from a mixed model containing all three treatment groups, and adjusted as already described.||BI 1356 minus Sitagliptin. This analysis comparing BI1356 to Sitagliptin was conducted as an exploratory analysis at the time of analysing the study data. The study was not powered for such a comparison.||8.2|-2.7|0.3130
92145310|NCT00716092|184174849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|4.3||0.2281||95.0|-3.3|13.8|||ANCOVA|These measured values and statistical analysis come from a mixed model containing all three treatment groups, and adjusted as already described.||BI 1356 minus Sitagliptin. This analysis comparing BI1356 to Sitagliptin was conducted as an exploratory analysis at the time of analysing the study data. The study was not powered for such a comparison.||13.8|-3.3|0.2281
92145311|NCT00716092|184174850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.7|STANDARD_ERROR_OF_MEAN|18.6||0.223||95.0|-14.0|59.5|||ANCOVA|These measured values and statistical analysis come from a mixed model containing all three treatment groups, and adjusted as already described.||BI 1356 minus Sitagliptin. This analysis comparing BI1356 to Sitagliptin was conducted as an exploratory analysis at the time of analysing the study data. The study was not powered for such a comparison.||59.5|-14.0|0.2230
92145312|NCT02436330|184174851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0615||||0.0967|TWO_SIDED|95.0|-0.1344|0.0115||We checked the distribution of bmiz changes between baseline and 6 months, and there is one subject from control group had bigger changes than others. After excluding this subject, the results are still similar with previous.|t-test, 2 sided|||||0.0115|-0.1344|0.0967
92145313|NCT02436330|184174852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0775||||0.0335|TWO_SIDED|95.0|-0.1485|-0.00652|||t-test, 2 sided|||||-0.00652|-0.1485|0.0335
92145314|NCT02436330|184174853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.991|TWO_SIDED|95.0|-5.2|5.1|||t-test, 2 sided|||||5.1|-5.2|0.991
92145315|NCT02436330|184174854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||0.851|TWO_SIDED|95.0|-9.0|11.0|||t-test, 2 sided|||||11|-9|0.851
92145316|NCT02436330|184174855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9||||0.501|TWO_SIDED|95.0|-11.7|5.8|||t-test, 2 sided|||||5.8|-11.7|0.501
92145317|NCT02436330|184174856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2971||||0.035|TWO_SIDED|95.0|0.0224|0.5718|||t-test, 2 sided|||||0.5718|0.0224|0.035
92145318|NCT02436330|184174857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9464||||0.2207|TWO_SIDED|95.0|-2.4954|0.6025|||t-test, 2 sided|||||0.6025|-2.4954|0.2207
92145319|NCT02436330|184174858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0491||||0.4164|TWO_SIDED|95.0|-3.6407|1.5425|||t-test, 2 sided|||||1.5425|-3.6407|0.4164
92145320|NCT02436330|184174859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2433.7||||0.812|TWO_SIDED|95.0|-18579.7|23447.2|||t-test, 2 sided|||||23447.2|-18579.7|0.812
92145321|NCT02436330|184174860|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2837||||0.3326|TWO_SIDED|95.0|-0.3037|0.8711|||t-test, 2 sided|||||0.8711|-0.3037|0.3326
92145322|NCT02436330|184174861|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2995||||0.1856|TWO_SIDED|95.0|-0.2051|0.8041|||t-test, 2 sided|||||0.8041|-0.2051|0.1856
92145323|NCT02436330|184174862|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-247.9||||0.0849|TWO_SIDED|95.0|-531.7|35.8686|||t-test, 2 sided|||||35.8686|-531.7|0.0849
92145324|NCT02436330|184174863|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.2048||||0.176|TWO_SIDED|95.0|-10.3835|1.974|||t-test, 2 sided|||||1.9740|-10.3835|0.176
92145325|NCT02436330|184174864|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.2151||||0.0247|TWO_SIDED|95.0|0.973|13.457|||t-test, 2 sided|||||13.457|0.973|0.0247
92145326|NCT02436330|184174865|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8169||||0.2764|TWO_SIDED|95.0|-2.4147|0.7808|||t-test, 2 sided|||||0.7808|-2.4147|0.2764
92145327|NCT02436330|184174866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7958||||0.0008|TWO_SIDED|95.0|-1.235|-0.3566|||t-test, 2 sided|||||-0.3566|-1.2350|0.0008
92145328|NCT02436330|184174867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7024||||0.6974|TWO_SIDED|95.0|-2.9377|4.3425|||t-test, 2 sided|||||4.3425|-2.9377|0.6974
92145329|NCT02436330|184174869|SUPERIORITY_OR_OTHER|||||||0.2122|TWO_SIDED||||||t-test, 2 sided|||||||0.2122
92145330|NCT02436330|184174870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.61||||0.1265|TWO_SIDED|95.0|-1.15|8.33|||t-test, 2 sided|||||8.33|-1.15|0.1265
92145331|NCT02436330|184174871|SUPERIORITY_OR_OTHER|||||||0.3671|TWO_SIDED||||||t-test, 2 sided|||||||0.3671
92145332|NCT02436330|184174872|SUPERIORITY_OR_OTHER|||||||0.4892|TWO_SIDED||||||t-test, 2 sided|||||||0.4892
92145333|NCT00677235|184174887|SUPERIORITY_OR_OTHER|||||||0.449|||||||Fisher Exact|||||||0.449
92145334|NCT05120115|184174898|EQUIVALENCE|Examined differences between conditions||||||0.05||||||Used Tukey Honestly Significant Difference post-hoc test|ANOVA|||||||0.05
92185481|NCT01323790|184269834|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.188||||0.202|TWO_SIDED|95.0|0.911|1.548|||Cochran-Mantel-Haenszel|||Analysis via Cochran Mantel-Haenszel test stratified by response to laxatives at baseline (LIR, LAR, LUR).||1.548|0.911|0.202
92185482|NCT01323790|184269834|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.348||||0.021|TWO_SIDED|95.0|1.045|1.739|||Cochran-Mantel-Haenszel|||Analysis via Cochran Mantel-Haenszel test stratified by response to laxatives at baseline (LIR, LAR, LUR).||1.739|1.045|0.021
92185483|NCT01323790|184269835|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.35||||0.074|TWO_SIDED|95.0|0.967|1.884||Response rate over Weeks 1 to 12 in the LIR subgroup is a key secondary endpoint included in the multiple testing procedure.|Cochran-Mantel-Haenszel|||||1.884|0.967|0.074
92185484|NCT01323790|184269835|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.489||||0.014|TWO_SIDED|95.0|1.078|2.058||Response rate over Weeks 1 to 12 in the LIR subgroup is a key secondary endpoint included in the multiple testing procedure.|Cochran-Mantel-Haenszel|||||2.058|1.078|0.014
92185485|NCT01323790|184269837|SUPERIORITY_OR_OTHER||LS mean difference|0.39||||0.01|TWO_SIDED|95.0|0.09|0.69|||Mixed Models Analysis|||Analysis via Mixed Model Repeated Measures (MMRM) with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.69|0.09|0.010
92185486|NCT01323790|184269837|SUPERIORITY_OR_OTHER||Ls mean difference|0.68|||<|0.001|TWO_SIDED|95.0|0.37|0.98|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.98|0.37|<0.001
92185487|NCT01323790|184269838|SUPERIORITY_OR_OTHER||LS mean difference|-0.19||||0.005|TWO_SIDED|95.0|-0.32|-0.06|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.06|-0.32|0.005
92185488|NCT01323790|184269838|SUPERIORITY_OR_OTHER||LS mean difference|-0.32|||<|0.001|TWO_SIDED|95.0|-0.45|-0.18|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.18|-0.45|<0.001
92295510|NCT00483548|184495836|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.59|STANDARD_ERROR_OF_MEAN|0.8||0.4565||95.0|-0.98|2.17|||ANCOVA|||Week 4; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||2.17|-0.98|0.4565
92295511|NCT00483548|184495836|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.61|STANDARD_ERROR_OF_MEAN|0.86||0.477||95.0|-1.08|2.3|||ANCOVA|||Week 6; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||2.30|-1.08|0.4770
92295512|NCT00483548|184495837|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.7|STANDARD_ERROR_OF_MEAN|0.46||0.1277||95.0|-0.2|1.6|||ANCOVA|||Week 1; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.60|-0.20|0.1277
92185489|NCT01323790|184269839|SUPERIORITY_OR_OTHER||LS mean difference|0.28||||0.001|TWO_SIDED|95.0|0.12|0.45|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.45|0.12|0.001
92185490|NCT01323790|184269839|SUPERIORITY_OR_OTHER||LS mean difference|0.45|||<|0.001|TWO_SIDED|95.0|0.29|0.62|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.62|0.29|<0.001
92185491|NCT01323790|184269840|SUPERIORITY_OR_OTHER||LS mean difference|6.72||||0.002|TWO_SIDED|95.0|2.37|11.06|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||11.06|2.37|0.002
92185492|NCT01323790|184269840|SUPERIORITY_OR_OTHER||LS mean difference|10.43|||<|0.001|TWO_SIDED|95.0|6.03|14.84|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||14.84|6.03|<0.001
92185493|NCT01323790|184269841|SUPERIORITY_OR_OTHER||LS mean difference|0.52||||0.028|TWO_SIDED|95.0|0.06|0.98|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.98|0.06|0.028
92185494|NCT01323790|184269841|SUPERIORITY_OR_OTHER||LS mean difference|1.04|||<|0.001|TWO_SIDED|95.0|0.58|1.51|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||1.51|0.58|<0.001
92185495|NCT01323790|184269843|SUPERIORITY_OR_OTHER||LS mean difference|-0.12||||0.08|TWO_SIDED|95.0|-0.26|0.01||Analysis for change in PAC-SYM total score from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.01|-0.26|0.080
92185496|NCT01323790|184269843|SUPERIORITY_OR_OTHER||LS mean difference|-0.18||||0.011|TWO_SIDED|95.0|-0.32|-0.04||Analysis for change in PAC-SYM total score from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.04|-0.32|0.011
92295513|NCT00483548|184495837|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.64|STANDARD_ERROR_OF_MEAN|0.53||0.2345||95.0|-0.41|1.68|||ANCOVA|||Week 2; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.68|-0.41|0.2345
92295514|NCT00483548|184495837|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.13|STANDARD_ERROR_OF_MEAN|0.6||0.8337||95.0|-1.05|1.3|||ANCOVA|||Week 3; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.30|-1.05|0.8337
92295515|NCT00483548|184495837|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.43|STANDARD_ERROR_OF_MEAN|0.59||0.4646||95.0|-0.73|1.59|||ANCOVA|||Week 4; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.59|-0.73|0.4646
92295516|NCT00483548|184495837|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.5|STANDARD_ERROR_OF_MEAN|0.59||0.3993||95.0|-0.67|1.67|||ANCOVA|||Week 5; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.67|-0.67|0.3993
92295517|NCT00483548|184495837|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.19|STANDARD_ERROR_OF_MEAN|0.65||0.7647||95.0|-1.08|1.46|||ANCOVA|||Week 6; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.46|-1.08|0.7647
92295518|NCT00483548|184495838|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|4.24|STANDARD_ERROR_OF_MEAN|1.65||0.0108||95.0|0.99|7.5|||ANCOVA|||Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||7.50|0.99|0.0108
92295519|NCT00483548|184495839|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-4.56|STANDARD_ERROR_OF_MEAN|1.35||0.001||95.0|-7.24|-1.87|||ANCOVA|||Total SDS: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||-1.87|-7.24|0.0010
92295520|NCT00483548|184495840|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.44|STANDARD_ERROR_OF_MEAN|0.28||0.123|TWO_SIDED|95.0|-1.0|0.12|||ANCOVA|||Days Lost: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.12|-1.00|0.1230
92145335|NCT05120115|184174899|EQUIVALENCE|Differences between conditions||||||0.05||||||Used Tukey Honestly Significant Difference post-hoc test|Mixed Models Analysis|||||||0.05
92145336|NCT05120115|184174900|EQUIVALENCE|Differences between conditions||||||0.05||||||Used Tukey Honestly Significant Difference post-hoc test|Mixed Models Analysis|||||||0.05
92145337|NCT03871595|184174901|OTHER|Relative bioavailability|Adjusted Geometric Mean Ratio T/R [%]|99.51|STANDARD_DEVIATION|6.3|||TWO_SIDED|90.0|95.36|103.83|||||The Adjusted Geometric Mean is adjusted by treatment. The standard deviation is actually the intraindividual geometric Coefficient of Variation \[%\].|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'sequence' (fixed effect), 'subjects within sequences' (random effect), 'period' (fixed effect) and 'treatment' (fixed effect).||103.83|95.36|
92145338|NCT03871595|184174902|OTHER|Relative bioavailability|Adjusted Geometric Mean Ratio T/R [%]|70.11|STANDARD_DEVIATION|16.8|||TWO_SIDED|90.0|62.67|78.44|||||The Adjusted Geometric Mean is adjusted by treatment. The standard deviation is actually the intraindividual geometric Coefficient of Variation \[%\].|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'sequence' (fixed effect), 'subjects within sequences' (random effect), 'period' (fixed effect) and 'treatment' (fixed effect).||78.44|62.67|
92145339|NCT03871595|184174903|OTHER|Relative bioavailability|Adjusted Geometric Mean Ratio T/R [%]|99.78|STANDARD_DEVIATION|6.3|||TWO_SIDED|90.0|95.64|104.11|||||The Adjusted Geometric Mean is adjusted by treatment. The standard deviation is actually the intraindividual geometric Coefficient of Variation \[%\].|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'sequence' (fixed effect), 'subjects within sequences' (random effect), 'period' (fixed effect) and 'treatment' (fixed effect).||104.11|95.64|
92145340|NCT03923959|184174927|SUPERIORITY||Odds Ratio (OR)|1.013|STANDARD_ERROR_OF_MEAN|0.307||0.966|TWO_SIDED|95.0|0.5597|1.834|||Regression, Logistic||||A two-sample proportion test was also completed; the test utilized an α \< 0.049 to account for the O'Brien-Fleming adjustment. The p-value for the two-sample proportion test was 0.966.|1.834|0.5597|0.966
92145341|NCT03923959|184174928|SUPERIORITY|||||||0.183||||||a priori threshold for statistical significance was the standard α = 0.05.|Chi-squared|||||||0.183
92145342|NCT03923959|184174929|SUPERIORITY|||||||0.729||||||a priori threshold for statistical significance was the standard α = 0.05.|Chi-squared|||||||0.729
92145343|NCT03923959|184174930|SUPERIORITY|||||||0.655||||||a priori threshold for statistical significance was the standard α = 0.05|Chi-squared|||||||0.655
92145344|NCT03923959|184174931|SUPERIORITY|||||||0.7832||||||a priori threshold for statistical significance was the standard α = 0.05.|t-test, 2 sided|||||||0.7832
92145345|NCT04575051|184174947|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.58|TWO_SIDED|95.0|-1.1|1.96|||Mixed Models Analysis||Difference in the adjusted means for the Consult model and HearCARE model.|The null hypothesis is that the HearCARE intervention does not improve satisfaction with social participation.||1.96|-1.10|0.58
92145346|NCT04575051|184174948|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.95|TWO_SIDED|95.0|-1.13|1.1|||Mixed Models Analysis||The estimated parameter represents the difference between the adjusted means for the Consult and HearCARE models.|The null hypothesis is that the HearCARE intervention does not improve hearing related quality of life.||1.10|-1.13|0.95
92145347|NCT04575051|184174949|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.96|TWO_SIDED|95.0|-1.2|1.14|||Mixed Models Analysis||Estimated Value represents the difference in the means for the Consult and HearCARE models.|||1.14|-1.20|0.96
92145348|NCT04575051|184174950|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.13|TWO_SIDED|95.0|-0.07|0.48|||Mixed Models Analysis||The Estimated Value is the difference between the means of the Consult and HearCARE models.|||0.48|-0.07|0.13
92145349|NCT00951483|184174951|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-2.65||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that C-reactive protein (CRP) is no different between the experimental and healthy control cohorts at 12 weeks.||||.001
92145350|NCT00951483|184174952|SUPERIORITY_OR_OTHER||z-score|-4.544|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline HAM-D-7 score and end of treatment (i.e., 12 week) HAM-D-7 score.||||<.001
92145351|NCT00951483|184174953|SUPERIORITY_OR_OTHER||z-score|-4.627|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline HAMD-17 score and end of treatment (i.e., 12 week) HAMD-17 score.||||<.001
92145352|NCT00951483|184174954|SUPERIORITY_OR_OTHER||z-score|-4.624|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline HAMD-21 score and end of treatment (i.e., 12 week) HAMD-21 score.||||<.001
92145353|NCT00951483|184174955|SUPERIORITY_OR_OTHER||z-score|-4.51|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline HAM-A score and end of treatment (i.e., 12 week) HAM-A score.||||<.001
92145354|NCT00951483|184174956|SUPERIORITY_OR_OTHER||z-score|-4.435|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline BDI score and end of treatment (i.e., 12 week) BDI score.||||<.001
92145355|NCT00951483|184174957|SUPERIORITY_OR_OTHER||z-score|-3.911|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline PSS-14 score and end of treatment (i.e., 12 week) PSS-14 score.||||<.001
92145356|NCT03565887|184174958|SUPERIORITY|The primary efficacy endpoints were tested sequentially. The Day 1 Hour 6 time point was tested first and if P\<0.05, the Day 14 Hour 2 time point was tested at a significance level of 0.05. If the Day 1 Hour 6 endpoint is statistically significant (at the 0.05 level) but Day 14 Hour 2 was not statistically significant (at the 0.05 level), the study will still be considered positive.|||||<|0.0001||||||If both primary endpoints (LPFT) are significant at 0.05 significance level, then the secondary efficacy endpoints (MRD) were also tested sequentially. Testing stopped if a P≥ 0.05 for a comparison.|ANCOVA|2 sided t-test with treatment as fixed factor and baseline as covariate.||A two group t-test with a 0.05 two-sided significance level had 90% power to detect a difference in LPFT means of 3.50 assuming that the common standard deviation was 6.0, when the sample sizes in the 2 groups were 94 and 47, respectively (a total sample size of 141).||||<0.0001
92145357|NCT03565887|184174959|SUPERIORITY|If both primary endpoints (LPFT) are significant at 0.05 significance level, then the secondary efficacy endpoints (MRD) were also tested sequentially. Testing stopped if a P≥ 0.05 for a comparison.|||||<|0.0151|||||||ANCOVA|||A two group t-test with a 0.05 two-sided significance level had 90% power to detect a difference in LPFT means of 3.50 assuming that the common standard deviation was 6.0, when the sample sizes in the 2 groups were 94 and 47, respectively (a total sample size of 141).||||<0.0151
92145358|NCT01292239|184174960|SUPERIORITY_OR_OTHER||(see comment)|27.5|||<|0.0001|TWO_SIDED|95.0|14.38|40.56||The p-value was based on the asymptomatic distribution of the generalized Cochran-Mantel-Haenszel (CMH) statistic controlling for stratification factors.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for stratification factors (age and IL28B genotype).|The parameter estimated was the difference of stratum adjusted proportion between groups.|||40.56|14.38|<0.0001
92145359|NCT01292239|184174961|SUPERIORITY_OR_OTHER||(see comment)|32.6|||<|0.0001|TWO_SIDED|95.0|19.75|45.4||The p-value was based on the asymptomatic distribution of the generalized Cochran-Mantel-Haenszel (CMH) statistic controlling for stratification factors.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for stratification factors (age and IL28B genotype).|The parameter estimated was the difference of stratum adjusted proportion between groups.|||45.40|19.75|<0.0001
92145360|NCT00765388|184174971|SUPERIORITY_OR_OTHER|||||||0.96|||||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference in the multinomial distributions defined by products||||||0.96
92145361|NCT00765388|184174973|SUPERIORITY_OR_OTHER|||||||0.92|||||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference in the multinomial distributions defined by products||||||0.92
92145362|NCT00765388|184174975|SUPERIORITY_OR_OTHER|||||||0.4||0.0|||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference inthe multinomial distributions defined by products||||||0.40
92145363|NCT00765388|184174976|SUPERIORITY_OR_OTHER|||||||0.64|||||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference inthe multinomial distributions defined by products||||||0.64
92145364|NCT00765388|184174977|SUPERIORITY_OR_OTHER|||||||0.55|||||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference inthe multinomial distributions defined by products||||||0.55
92145365|NCT00765388|184174978|SUPERIORITY_OR_OTHER|||||||0.48|||||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference inthe multinomial distributions defined by products||||||0.48
92145366|NCT03923933|184174982|SUPERIORITY||||||<|0.001|||||||ANOVA|anova repeated measures||||||<0.001
92145367|NCT03923933|184174983|SUPERIORITY|||||||0.006|||||||ANOVA|Repeated Measures||||||0.006
92145368|NCT03923933|184174984|SUPERIORITY|||||||0.371|||||||ANOVA|||||||0.371
92145369|NCT03923933|184174985|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92145370|NCT03923933|184174987|SUPERIORITY|||||||0.028|||||||ANOVA|||||||0.028
92145371|NCT03923933|184174988|SUPERIORITY|||||||0.018|||||||ANOVA|||||||0.018
92145372|NCT01995461|184174989|SUPERIORITY_OR_OTHER|||||||0.0252|TWO_SIDED||||||t-test, 2 sided|paired t-test||||||0.0252
92145373|NCT01995461|184174990|SUPERIORITY_OR_OTHER|||||||0.0154|TWO_SIDED||||||t-test, 2 sided|paired t-test||||||0.0154
92145374|NCT01995461|184174991|SUPERIORITY_OR_OTHER|||||||0.1349|TWO_SIDED||||||t-test, 2 sided|paired t-test||||||0.1349
92145375|NCT01939548|184174999|SUPERIORITY_OR_OTHER||Least Squares Mean (LSM) Difference|3.11|STANDARD_ERROR_OF_MEAN|2.409||0.1991|TWO_SIDED|80.0|0.01|6.21||Primary analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), PANSS Total baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value of PANSS Total by treatment interaction and background antipsychotics.||6.21|0.01|0.1991
92145376|NCT01939548|184174999|SUPERIORITY_OR_OTHER||LSM Difference|2.3|STANDARD_ERROR_OF_MEAN|2.445||0.3488|TWO_SIDED|80.0|-0.85|5.45||Primary analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), PANSS Total baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value of PANSS Total by treatment interaction and background antipsychotics.||5.45|-0.85|0.3488
92295521|NCT00483548|184495840|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.17|STANDARD_ERROR_OF_MEAN|0.34||0.6232|TWO_SIDED|95.0|-0.84|0.5|||ANCOVA|||Days Unproductive: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.50|-0.84|0.6232
92145377|NCT01939548|184175000|SUPERIORITY_OR_OTHER||LSM Difference|-0.23|STANDARD_ERROR_OF_MEAN|1.476||0.8786|TWO_SIDED|80.0|-2.13|1.67||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Analysis of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.67|-2.13|0.8786
92145378|NCT01939548|184175000|SUPERIORITY_OR_OTHER||LSM Difference|-1.14|STANDARD_ERROR_OF_MEAN|1.502||0.4483|TWO_SIDED|80.0|-3.08|0.79||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Analysis of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.79|-3.08|0.4483
92145379|NCT01939548|184175001|SUPERIORITY_OR_OTHER||LSM Difference|0.81|STANDARD_ERROR_OF_MEAN|0.809||0.3201|TWO_SIDED|80.0|-0.23|1.85||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Positive Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.85|-0.23|0.3201
92145380|NCT01939548|184175001|SUPERIORITY_OR_OTHER||LSM Difference|0.85|STANDARD_ERROR_OF_MEAN|0.813||0.2961|TWO_SIDED|80.0|-0.19|1.9||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Positive Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.90|-0.19|0.2961
92145381|NCT01939548|184175001|SUPERIORITY_OR_OTHER||LSM Difference|0.39|STANDARD_ERROR_OF_MEAN|0.743||0.6015|TWO_SIDED|80.0|-0.57|1.35||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Negative Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.35|-0.57|0.6015
92145382|NCT01939548|184175001|SUPERIORITY_OR_OTHER||LSM Difference|0.21|STANDARD_ERROR_OF_MEAN|0.761||0.7787|TWO_SIDED|80.0|-0.77|1.19||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Negative Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.19|-0.77|0.7787
92145383|NCT01939548|184175001|SUPERIORITY_OR_OTHER||LSM Difference|1.63|STANDARD_ERROR_OF_MEAN|1.285||0.2068|TWO_SIDED|80.0|-0.02|3.29||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|General Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||3.29|-0.02|0.2068
92145384|NCT01939548|184175001|SUPERIORITY_OR_OTHER||LSM Difference|0.98|STANDARD_ERROR_OF_MEAN|1.326||0.4611|TWO_SIDED|80.0|-0.73|2.69||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|General Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||2.69|-0.73|0.4611
92145385|NCT01939548|184175002|SUPERIORITY_OR_OTHER||LSM Difference|0.96|STANDARD_ERROR_OF_MEAN|0.591||0.1083|TWO_SIDED|80.0|0.19|1.72||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Anxiety/depression symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.72|0.19|0.1083
92145386|NCT01939548|184175002|SUPERIORITY_OR_OTHER||LSM Difference|1.05|STANDARD_ERROR_OF_MEAN|0.611||0.0869|TWO_SIDED|80.0|0.27|1.84||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Anxiety/depression symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.84|0.27|0.0869
92145387|NCT01939548|184175002|SUPERIORITY_OR_OTHER||LSM Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.575||0.8601|TWO_SIDED|80.0|-0.84|0.64||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Disorganized thought symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.64|-0.84|0.8601
92295522|NCT00483548|184495841|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.17|STANDARD_ERROR_OF_MEAN|0.07||0.0096||95.0|0.04|0.31|||ANCOVA|||Week 2; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.31|0.04|0.0096
92145388|NCT01939548|184175002|SUPERIORITY_OR_OTHER||LSM Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.593||0.3454|TWO_SIDED|80.0|-1.33|0.2||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Disorganized thought symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.20|-1.33|0.3454
92145389|NCT01939548|184175002|SUPERIORITY_OR_OTHER||LSM Difference|0.78|STANDARD_ERROR_OF_MEAN|0.789||0.3273|TWO_SIDED|80.0|-0.24|1.79||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Negative symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.79|-0.24|0.3273
92145390|NCT01939548|184175002|SUPERIORITY_OR_OTHER||LSM Difference|0.69|STANDARD_ERROR_OF_MEAN|0.806||0.3963|TWO_SIDED|80.0|-0.35|1.72||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Negative symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.72|-0.35|0.3963
92145391|NCT01939548|184175002|SUPERIORITY_OR_OTHER||LSM Difference|0.64|STANDARD_ERROR_OF_MEAN|0.888||0.4713|TWO_SIDED|80.0|-0.5|1.78||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Positive symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.78|-0.50|0.4713
92145392|NCT01939548|184175002|SUPERIORITY_OR_OTHER||LSM Difference|1.21|STANDARD_ERROR_OF_MEAN|0.895||0.1787|TWO_SIDED|80.0|0.06|2.36||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Positive symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||2.36|0.06|0.1787
92145393|NCT01939548|184175002|SUPERIORITY_OR_OTHER||LSM Difference|0.35|STANDARD_ERROR_OF_MEAN|0.426||0.4123|TWO_SIDED|80.0|-0.2|0.9||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Uncontrolled hostility/excitement symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.90|-0.20|0.4123
92145394|NCT01939548|184175002|SUPERIORITY_OR_OTHER||LSM Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.441||0.3202|TWO_SIDED|80.0|-1.01|0.13||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Uncontrolled hostility/excitement symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.13|-1.01|0.3202
92185497|NCT01323790|184269843|SUPERIORITY_OR_OTHER||Slope|0.05||||0.552|TWO_SIDED|95.0|-0.11|0.2||Analysis for change in PAC-SYM abdominal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.20|-0.11|0.552
92185498|NCT01323790|184269843|SUPERIORITY_OR_OTHER||LS mean difference|0.09||||0.236|TWO_SIDED|95.0|-0.06|0.25||Analysis for change in PAC-SYM abdominal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.25|-0.06|0.236
92145395|NCT01939548|184175003|SUPERIORITY_OR_OTHER||LSM Difference|0.04|STANDARD_ERROR_OF_MEAN|0.119||0.7399|TWO_SIDED|80.0|-0.11|0.19||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Analysis of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.19|-0.11|0.7399
92185499|NCT01323790|184269843|SUPERIORITY_OR_OTHER||LS mean difference|-0.11||||0.095|TWO_SIDED|95.0|-0.24|0.02||Analysis for change in PAC-SYM rectal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.02|-0.24|0.095
92295523|NCT00483548|184495841|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.8134||95.0|-0.13|0.16|||ANCOVA|||Week 4; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.16|-0.13|0.8134
92145396|NCT01939548|184175003|SUPERIORITY_OR_OTHER||LSM Difference|0.13|STANDARD_ERROR_OF_MEAN|0.122||0.2747|TWO_SIDED|80.0|-0.02|0.29||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Analysis of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.29|-0.02|0.2747
92145397|NCT01939548|184175004|SUPERIORITY_OR_OTHER||LSM Difference|0.07|STANDARD_ERROR_OF_MEAN|0.188||0.7219|TWO_SIDED|80.0|-0.17|0.31||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|ANOVA|||Analysis of change at Week 12. Mixed effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site, visit and visit-by-treatment interaction; random effect: participant.||0.31|-0.17|0.7219
92145398|NCT01939548|184175004|SUPERIORITY_OR_OTHER||LSM Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.192||0.9315|TWO_SIDED|80.0|-0.26|0.23||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|ANOVA|||Analysis of change at Week 12. Mixed effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site, visit and visit-by-treatment interaction; random effect: participant.||0.23|-0.26|0.9315
92145399|NCT01022762|184175036|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be shown if the upper limit of the 95% confidence interval was less than 0.4%. This corresponds to a one-sided test with a significance level of 2.5% of the hypothesis.|Mean Difference (Net)|0.014|STANDARD_ERROR_OF_MEAN|0.066||||95.0|-0.115|0.143||The p-value corresponds to one-sided hypotheses of superiority with a significance level of 2.5%.|ANCOVA|ANCOVA model was with treatment, centre as explanatory variables and baseline HbA1c value as covariate.|If non-inferiority of repaglinide alone was shown, a test for superiority would be performed based on FAS. Superiority of repaglinide alone over gliclazide alone would be claimed if the upper limit of the 95% CI for the difference was lower than 0%.|H0: Change from baseline in HbA1c of repaglinide therapy at 16 weeks of treatment - change from baseline in HbA1c of gliclazide therapy at 16 weeks of treatment \>= 0.4%. H1: Change from baseline in HbA1c of repaglinide therapy at 16 weeks of treatment - change from baseline in HbA1c of gliclazide therapy at 16 weeks of treatment \< 0.4%. Sample size was calculated to achieve a power of at least 85%, assuming an equal change in HbA1c and a common standard deviation of 1.2%.||0.143|-0.115|
92145400|NCT01302119|184175047|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92145401|NCT01302119|184175048|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92145402|NCT01302119|184175049|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92145403|NCT01302119|184175050|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92145404|NCT00205348|184175091|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Burden was tested with the Wilcoxon signed-rank test.||||0.0007
92145405|NCT00205348|184175091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Physical was tested with the Wilcoxon signed-rank test.||||<0.0001
92145406|NCT00205348|184175091|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Mental was tested with the Wilcoxon signed-rank test.||||0.0002
92145407|NCT00205348|184175091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Fear was tested with the Wilcoxon signed-rank test.||||<0.0001
92145408|NCT00205348|184175091|SUPERIORITY_OR_OTHER|||||||0.0973|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Eating Desire was tested with the Wilcoxon signed-rank test.||||0.0973
92145409|NCT00205348|184175091|SUPERIORITY_OR_OTHER|||||||0.1772|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Eating Duration was tested with the Wilcoxon signed-rank test.||||0.1772
92145410|NCT00205348|184175091|SUPERIORITY_OR_OTHER|||||||0.0062|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Food Selection was tested with the Wilcoxon signed-rank test.||||0.0062
92145411|NCT00205348|184175091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Sleep was tested with the Wilcoxon signed-rank test.||||<0.0001
92145412|NCT00205348|184175091|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Fatigue was tested with the Wilcoxon signed-rank test.||||0.0002
92145413|NCT00205348|184175091|SUPERIORITY_OR_OTHER|||||||0.2125|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Social was tested with the Wilcoxon signed-rank test.||||0.2125
92145414|NCT00205348|184175091|SUPERIORITY_OR_OTHER|||||||0.0332|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Communication was tested with the Wilcoxon signed-rank test.||||0.0332
92145415|NCT05725317|184175092|NON_INFERIORITY|Noninferiority in distance visual acuity was declared if the upper confidence limit was less than 0.05.|LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.004|||ONE_SIDED|95.0||0.0||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens-by-visit interaction and sequence) and random (subject) effects. Difference = LID220365 minus LID006961. Sign is retained with the rounded value.|||0.00||
92145416|NCT00829387|184175093|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.39||||0.47|TWO_SIDED|95.0|-1.47|0.69|||Linear mixed model|||||0.69|-1.47|0.47
92145417|NCT00829387|184175094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.4|TWO_SIDED|95.0|-1.15|0.47|||linear mixed model|||baseline to 36 weeks post-baseline||0.47|-1.15|0.40
92145418|NCT00829387|184175095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35||||0.31|TWO_SIDED|95.0|-7.02|2.32|||Linear mixed model|||baseline to 12 weeks post-baseline||2.32|-7.02|0.31
92145419|NCT00829387|184175096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.98|TWO_SIDED|95.0|-1.03|1.06|||linear mixed model|||baseline to 12 weeks comparison||1.06|-1.03|0.98
92145420|NCT00829387|184175097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.03|TWO_SIDED|95.0|-1.76|-0.07|||linear mixed model|||baseline to 36 weeks post-baseline||-0.07|-1.76|0.03
92145421|NCT00829387|184175098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.16||||0.15|TWO_SIDED|95.0|-9.86|1.55|||linear mixed model|||baseline to 36 weeks post-baseline||1.55|-9.86|0.15
92145422|NCT02085252|184175099|SUPERIORITY_OR_OTHER|||||||0.0318||||||A 2-sided significance level of 5% was used. There was no adjustment for multiple comparisons.|Chi-squared|||The null hypothesis was that there was no difference between the two treatment strategies.||||0.0318
92145423|NCT05540522|184175150|OTHER||RVE|34.5|||||TWO_SIDED|95.0|7.4|53.9||||||||53.9|7.4|
92145424|NCT05540522|184175151|OTHER||RVE|-5.8|||||TWO_SIDED|95.0|-47.2|23.8||||||||23.8|-47.2|
92145425|NCT05540522|184175172|OTHER||GMR|1.23|||||TWO_SIDED|95.0|1.1|1.38||||||A/H3N2||1.38|1.10|
92145426|NCT05540522|184175172|OTHER||GMR|1.24|||||TWO_SIDED|95.0|1.1|1.39||||||A/H1N1||1.39|1.10|
92145427|NCT05540522|184175172|OTHER||GMR|0.73|||||TWO_SIDED|95.0|0.67|0.8||||||B/Yamagata||0.80|0.67|
92145428|NCT05540522|184175172|OTHER||GMR|0.3|||||TWO_SIDED|95.0|0.26|0.35||||||B/Victoria||0.35|0.26|
92145429|NCT05540522|184175173|OTHER||GMR|1.65|||||TWO_SIDED|95.0|1.47|1.84||||||A/H3N2||1.84|1.47|
92145430|NCT05540522|184175173|OTHER||GMR|1.71|||||TWO_SIDED|95.0|1.51|1.92||||||A/H1N1||1.92|1.51|
92145431|NCT05540522|184175173|OTHER||GMR|1.04|||||TWO_SIDED|95.0|0.95|1.14||||||B/Yamagata||1.14|0.95|
92145432|NCT05540522|184175173|OTHER||GMR|0.61|||||TWO_SIDED|95.0|0.54|0.69||||||B/Victoria||0.69|0.54|
92145433|NCT05540522|184175174|OTHER||Difference in percentage|11.4|||||TWO_SIDED|95.0|6.4|16.4||||||A/H3N2: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||16.4|6.4|
92145434|NCT05540522|184175174|OTHER||Difference in percentage|13.6|||||TWO_SIDED|95.0|8.6|18.6||||||A/H1N1: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||18.6|8.6|
92145435|NCT05540522|184175174|OTHER||Difference in percentage|-15.3|||||TWO_SIDED|95.0|-19.5|-11.2||||||B/Yamagata: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-11.2|-19.5|
92145436|NCT05540522|184175174|OTHER||Difference in percentage|-40.5|||||TWO_SIDED|95.0|-44.7|-36.1||||||B/Victoria: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-36.1|-44.7|
92145437|NCT05540522|184175175|OTHER||Difference in percentage|21.6|||||TWO_SIDED|95.0|16.7|26.5||||||A/H3N2: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||26.5|16.7|
92145438|NCT05540522|184175175|OTHER||Difference in percentage|25.7|||||TWO_SIDED|95.0|20.9|30.4||||||A/H1N1: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||30.4|20.9|
92145439|NCT05540522|184175175|OTHER||Difference in percentage|-2.1|||||TWO_SIDED|95.0|-4.8|0.6||||||B/Yamagata: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||0.6|-4.8|
92145440|NCT05540522|184175175|OTHER||Difference in percentage|-22.6|||||TWO_SIDED|95.0|-26.7|-18.5||||||B/Victoria: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-18.5|-26.7|
92145441|NCT05540522|184175176|OTHER||GMR|1.92|||||TWO_SIDED|95.0|1.78|2.07||||||A/H3N2||2.07|1.78|
92145442|NCT05540522|184175176|OTHER||GMR|1.68|||||TWO_SIDED|95.0|1.55|1.82||||||A/H1N1||1.82|1.55|
92145443|NCT05540522|184175176|OTHER||GMR|0.88|||||TWO_SIDED|95.0|0.82|0.94||||||B/Yamagata||0.94|0.82|
92145444|NCT05540522|184175176|OTHER||GMR|0.58|||||TWO_SIDED|95.0|0.53|0.63||||||B/Victoria||0.63|0.53|
92145445|NCT05540522|184175177|OTHER||GMR|2.38|||||TWO_SIDED|95.0|2.23|2.54||||||A/H3N2||2.54|2.23|
92145446|NCT05540522|184175177|OTHER||GMR|2.37|||||TWO_SIDED|95.0|2.22|2.54||||||A/H1N1||2.54|2.22|
92145447|NCT05540522|184175177|OTHER||GMR|1.36|||||TWO_SIDED|95.0|1.29|1.43||||||B/Yamagata||1.43|1.29|
92145448|NCT05540522|184175177|OTHER||GMR|0.76|||||TWO_SIDED|95.0|0.71|0.81||||||B/Victoria||0.81|0.71|
92145449|NCT05540522|184175178|OTHER||Difference in Percentage|26.8|||||TWO_SIDED|95.0|23.7|29.9||||||A/H3N2: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||29.9|23.7|
92145450|NCT05540522|184175178|OTHER||Difference in Percentage|26.9|||||TWO_SIDED|95.0|23.9|29.8||||||A/H1N1: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||29.8|23.9|
92145451|NCT05540522|184175178|OTHER||Difference in Percentage|-3.6|||||TWO_SIDED|95.0|-6.6|-0.6||||||B/Yamagata: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-0.6|-6.6|
92145452|NCT05540522|184175178|OTHER||Difference in Percentage|-19.2|||||TWO_SIDED|95.0|-21.9|-16.6||||||B/Victoria: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-16.6|-21.9|
92145453|NCT05540522|184175179|OTHER||Difference in Percentage|37.9|||||TWO_SIDED|95.0|35.2|40.5||||||A/H3N2: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||40.5|35.2|
92145454|NCT05540522|184175179|OTHER||Difference in Percentage|44.9|||||TWO_SIDED|95.0|42.4|47.4||||||A/H1N1: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||47.4|42.4|
92145455|NCT05540522|184175179|OTHER||Difference in Percentage|10.6|||||TWO_SIDED|95.0|8.5|12.8||||||B/Yamagata: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||12.8|8.5|
92145456|NCT05540522|184175179|OTHER||Difference in Percentage|-13.8|||||TWO_SIDED|95.0|-16.3|-11.3||||||B/Victoria: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-11.3|-16.3|
92145457|NCT02459574|184175208|SUPERIORITY||Hazard Ratio (HR)|0.156|||<|0.0001|TWO_SIDED|95.0|0.097|0.25||Bonferonni corrected alpha of 0.05/2 = 0.025|Log Rank||95% Wald Confidence Limits Point estimate relates to AVATAR-AF in relation to Anti-Arrhythmic Therapy|Primary Analysis - AVATAR-AF vs Anti-Arrhythmic Therapy||0.250|0.097|<0.0001
92145458|NCT02459574|184175208|SUPERIORITY||Hazard Ratio (HR)|1.173||||0.6061|TWO_SIDED|95.0|0.639|2.154||Bonferonni corrected alpha 0.05/2 = 0.025|Log Rank||95% Wald Confidence Limits Point estimate relates to AVATAR-AF in relation to Conventional Ablation|Secondary analysis of Primary Outcome measure - AVATAR-AF vs Conventional Ablation||2.154|0.639|0.6061
92145459|NCT00636649|184175214|SUPERIORITY_OR_OTHER|||||||0.993|||||||ANCOVA|||CISS-TASK||||0.993
92145460|NCT00636649|184175214|SUPERIORITY_OR_OTHER|||||||0.185|||||||ANCOVA|||CISS-EMOT||||0.185
92145461|NCT00636649|184175214|SUPERIORITY_OR_OTHER|||||||0.196|||||||ANCOVA|||CISS-DIS||||0.196
92145462|NCT00636649|184175214|SUPERIORITY_OR_OTHER|||||||0.759|||||||ANCOVA|||CISS-AVD||||0.759
92145463|NCT00636649|184175214|SUPERIORITY_OR_OTHER|||||||0.396|||||||ANCOVA|||CISS-SOC||||0.396
92145464|NCT00636649|184175215|SUPERIORITY_OR_OTHER|||||||0.579|||||||ANCOVA|||||||0.579
92185500|NCT01323790|184269843|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|||<|0.001|TWO_SIDED|95.0|-0.37|-0.1||Analysis for change in PAC-SYM rectal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.10|-0.37|<0.001
92185501|NCT01323790|184269843|SUPERIORITY_OR_OTHER||LS mean difference|-0.27||||0.002|TWO_SIDED|95.0|-0.44|-0.1||Analysis for change in PAC-SYM stool symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.10|-0.44|0.002
92185502|NCT01323790|184269843|SUPERIORITY_OR_OTHER||LS mean difference|-0.38|||<|0.001|TWO_SIDED|95.0|-0.56|-0.21||Analysis for change in PAC-SYM stool symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.21|-0.56|<0.001
92185503|NCT01323790|184269844|SUPERIORITY_OR_OTHER||LS mean difference|-0.31||||0.011|TWO_SIDED|95.0|-0.54|-0.07|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.07|-0.54|0.011
92185504|NCT01323790|184269844|SUPERIORITY_OR_OTHER||LS mean difference|-0.49|||<|0.001|TWO_SIDED|95.0|-0.73|-0.25|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.25|-0.73|<0.001
92185505|NCT00046475|184269845|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 1 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||||||<0.001
92185506|NCT00046475|184269846|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||||||0.011
92185507|NCT00046475|184269847|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 2 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 2||||<0.001
92185508|NCT00046475|184269847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 3 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 3||||0.002
92185509|NCT00046475|184269847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 4 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 4||||0.004
92185510|NCT00046475|184269847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 5 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 5||||0.026
92185511|NCT00046475|184269847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.226|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 6 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 6||||0.226
92185512|NCT00046475|184269848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment composite symptom score as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||||||0.002
92185513|NCT00046475|184269849|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHDAS Item 1 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 1||||<0.001
92145465|NCT00636649|184175216|SUPERIORITY_OR_OTHER|||||||0.225|||||||ANCOVA|||TFEQ-RES||||0.225
92185514|NCT00046475|184269849|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHDAS Item 2 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 2||||<0.001
92185515|NCT00046475|184269849|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is based on an ANOVA model with post-treatment responses for OHDAS Item 3 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 3||||<0.001
92145466|NCT00636649|184175216|SUPERIORITY_OR_OTHER|||||||0.498|||||||ANCOVA|||TFEQ-DIS||||0.498
92145467|NCT00636649|184175216|SUPERIORITY_OR_OTHER|||||||0.724|||||||ANCOVA|||TFEQ-HUN||||0.724
92145468|NCT04508699|184175224|OTHER|||||||0.36|||||||t-test, 1 sided|||||||0.36
92145469|NCT04508699|184175225|OTHER||||||<|0.05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|ANOVA|||||||<0.05
92145470|NCT04508699|184175226|OTHER||||||<|0.05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|ANOVA|||||||<0.05
92145471|NCT04508699|184175227|OTHER||||||<|0.05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|ANOVA|||||||<0.05
92145472|NCT04508699|184175228|OTHER||||||<|0.05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|ANOVA|||||||<0.05
92145473|NCT04508699|184175229|OTHER||||||<|1e-05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|t-test, 1 sided|||||||<0.00001
92145474|NCT04508699|184175230|OTHER||||||<|1e-05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|t-test, 1 sided|||||||<0.00001
92145475|NCT04508699|184175231|OTHER||||||<|1e-05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|t-test, 1 sided|||||||<0.00001
92185516|NCT00046475|184269849|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHDAS Item 4 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 4||||0.001
92185517|NCT00046475|184269850|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment global daily activity score as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||||||<0.001
92185518|NCT00046475|184269853|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||The P-value is based on an ANOVA model with change from baseline standing systolic blood pressure as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of standing systolic blood pressure||||0.002
92185519|NCT00046475|184269853|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED|||||The P-value is based on an ANOVA model with change from baseline standing diastolic blood pressure as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of standing diastolic blood pressure||||0.010
92185520|NCT00046475|184269854|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with change from baseline supine systolic blood pressure as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of supine systolic blood pressure||||<0.001
92185521|NCT00046475|184269854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||The P-value is based on an ANOVA model with change from baseline supine diastolic blood pressure as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of supine diastolic blood pressure||||0.002
92185522|NCT00046475|184269855|SUPERIORITY_OR_OTHER_LEGACY|||||||0.569|TWO_SIDED|||||The P-value is based on an ANOVA model with SF-36 general health score as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of general health||||0.569
92295524|NCT00483548|184495841|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.0226||95.0|0.02|0.29|||ANCOVA|||Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.29|0.02|0.0226
92185523|NCT00046475|184269855|SUPERIORITY_OR_OTHER_LEGACY|||||||0.578|TWO_SIDED|||||The P-value is based on an ANOVA model with SF-36 physical functioning score as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of physical functioning||||0.578
92185524|NCT00046475|184269859|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED|||||The p-value is based on an ANOVA model with post-treatment responses for OHSA Item 1 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and subject-within sequence as random effect.|ANOVA|||Analysis of US participants with mild or moderate disease severity||||0.370
92185525|NCT00046475|184269860|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|TWO_SIDED|||||The p-value is based on an ANOVA model with post-treatment responses for OHSA Item 1 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and subject-within sequence as random effect.|ANOVA|||Analysis of US participants with marked or severe disease severity||||0.007
92185526|NCT02432274|184269900|OTHER||||||=|0.20359|||||||Wilcoxon Rank-Sum Test|||C2D1: FGF 19 (PFS-4, Yes) vs. C2D1: FGF 19 (PFS-4, No)||||=0.20359
92185527|NCT02432274|184269900|OTHER||||||=|0.50068|||||||Wilcoxon Rank-Sum Test|||C2D1: FGF 19 (PFS-4, Yes) vs. C2D1: FGF 19 (PFS-4, No)||||=0.50068
92295525|NCT00483548|184495842|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0193||95.0|0.02|0.23|||ANCOVA|||Week 2; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.23|0.02|0.0193
92185528|NCT02432274|184269900|OTHER||||||=|0.05512|||||||Wilcoxon Rank-Sum Test|||C3D1: FGF 19 (PFS-4, Yes) vs. C3D1: FGF 19 (PFS-4, No)||||=0.05512
92185529|NCT02432274|184269900|OTHER||||||=|0.50382|||||||Wilcoxon Rank-Sum Test|||C4D1: FGF 19 (PFS-4, Yes) vs. C4D1: FGF 19 (PFS-4, No)||||=0.50382
92185530|NCT02432274|184269900|OTHER||||||=|0.0476|||||||Wilcoxon Rank-Sum Test|||C2D1: FGF 21 (PFS-4, Yes) vs. C2D1: FGF 21 (PFS-4, No)||||=0.04760
92185531|NCT02432274|184269900|OTHER||||||=|0.2142|||||||Wilcoxon Rank-Sum Test|||C2D1: FGF 21 (PFS-4, Yes) vs. C2D1: FGF 21 (PFS-4, No)||||=0.21420
92185532|NCT02432274|184269900|OTHER||||||=|0.42542|||||||Wilcoxon Rank-Sum Test|||C3D1: FGF 21 (PFS-4, Yes) vs. C3D1: FGF 21 (PFS-4, No)||||=0.42542
92185533|NCT02432274|184269900|OTHER||||||=|0.73573|||||||Wilcoxon Rank-Sum Test|||C4D1: FGF 21 (PFS-4, Yes) vs. C4D1: FGF 21 (PFS-4, No)||||=0.73573
92185534|NCT02432274|184269900|OTHER||||||=|0.35754|||||||Wilcoxon Rank-Sum Test|||C2D1: VEGF (PFS-4, Yes) vs. C2D1: VEGF (PFS-4, No)||||=0.35754
92185535|NCT02432274|184269900|OTHER||||||=|0.59903|||||||Wilcoxon Rank-Sum Test|||C2D1: VEGF (PFS-4, Yes) vs. C2D1: VEGF (PFS-4, No)||||=0.59903
92185536|NCT02432274|184269900|OTHER||||||=|1|||||||Wilcoxon Rank-Sum Test|||C3D1: VEGF (PFS-4, Yes) vs. C3D1: VEGF (PFS-4, No)||||=1.00000
92185537|NCT01736475|184269905|SUPERIORITY_OR_OTHER_LEGACY||Ratio of means|0.1|||<|0.0001|TWO_SIDED|95.0|0.06|0.19|||Regression, Negative binomial|||Ratio Annualized Bleeding Rate (ABR) Prophylaxis/On-demand: Prophylaxis treatment w ill be considered to be successful if the upper limit of the 95% CI for the ratio between treatment regimen does not exceed 0.5 (corresponding to a 50% reduction of the mean ABR compared to the on-demand treatment). H01: μ1 ≥0.5\*μ2 Ha1: μ1\<0.5\*μ2 w here μ1 and μ2 are the mean ABRs in on prophylaxis and on-demand, respectively||0.19|0.06|<0.0001
92185538|NCT01079949|184269969|SUPERIORITY_OR_OTHER|||||||0.5739||95.0|||||Wilcoxon two sample test|||||||0.5739
92185539|NCT01079949|184269974|SUPERIORITY_OR_OTHER|||||||0.1734||95.0|||||Wilcoxon two sample test|||||||0.1734
92185540|NCT01079949|184269975|SUPERIORITY_OR_OTHER|||||||0.0642||95.0|||||Wilcoxon two sample test|||||||0.0642
92185541|NCT01079949|184269979|SUPERIORITY_OR_OTHER|||||||0.408||95.0|||||Wilcoxon two sample test|||||||0.4080
92295526|NCT00483548|184495842|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.4745||0.16|-0.07|0.16|||ANCOVA|||Week 4; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.16|-0.07|0.4745
92185542|NCT01079949|184269982|SUPERIORITY_OR_OTHER|||||||0.0648||95.0|||||Wilcoxon two sample test|||||||0.0648
92185543|NCT01079949|184269983|SUPERIORITY_OR_OTHER|||||||0.6799||95.0|||||ANOVA|||||||0.6799
92185544|NCT01079949|184269984|SUPERIORITY_OR_OTHER|||||||0.0634||95.0|||||Wilcoxon two sample test|||||||0.0634
92185545|NCT01079949|184269986|SUPERIORITY_OR_OTHER|||||||0.0166||95.0|||||Wilcoxon two sample test|||||||0.0166
92185546|NCT01079949|184269987|SUPERIORITY_OR_OTHER|||||||0.8812||95.0|||||ANOVA|||||||0.8812
92185547|NCT02834624|184270026|OTHER||||||<|0.05|||||||t-test, 1 sided|||Sample size calculations used a Chi-square for independence, u = 1, p =.05, power = .80, effect size = .60, which required 22 total subjects.||||<.05
92185548|NCT02834624|184270028|OTHER|||||||0.63|||||||t-test, 1 sided|||||||0.63
92185549|NCT01250717|184270046|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.12||||||||0.12|0|
92185550|NCT02164578|184270047|SUPERIORITY|||||||0.004|||||||ANCOVA|ANCOVA for repeated measurements with baseline as covariate||The hypothesis H0 is tested against the one-sided alternative hypothesis H1 H0: µ∆FBF,Riva, week 20 ≤ µ∆FBF, ASA, week 20 versus H1: µΔFBF, Riva, week 20 \> µΔFBF, ASA, week 20 by test procedures for continuous data.||||0.004
92185551|NCT02164578|184270048|OTHER|||||||0.07|||||||ANCOVA|||||||0.070
92185552|NCT02164578|184270049|OTHER|||||||0.045|||||||ANCOVA|ANCOVA for repeated measurements with baseline as covariate||||||0.045
92185553|NCT02164578|184270050|OTHER|||||||0.125|||||||ANCOVA|||||||0.125
92295527|NCT00483548|184495842|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.07|STANDARD_ERROR_OF_MEAN|0.06||0.2613||95.0|-0.05|0.19|||ANCOVA|||Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.19|-0.05|0.2613
92185554|NCT02164578|184270051|OTHER|||||||0.217|||||||Wilcoxon (Mann-Whitney)|||||||0.217
92185555|NCT02164578|184270052|OTHER|||||||0.589|||||||Wilcoxon (Mann-Whitney)|||||||0.589
92185556|NCT01877720|184270084|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||||||<0.001
92185557|NCT01877720|184270085|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Paired t-test|||||||0.001
92185558|NCT01877720|184270086|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Paired t-test|||||||0.74
92185559|NCT01877720|184270087|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Paired t-test|||||||0.003
92185560|NCT01877720|184270088|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Paired t-test|||||||0.002
92185561|NCT01877720|184270089|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Paired t-test|||||||0.003
92185562|NCT01877720|184270090|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Paired t-test|||||||0.012
92185563|NCT01877720|184270091|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Paired t-test|||||||0.67
92185564|NCT01877720|184270092|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon signed-rank test|||||||<0.001
92185565|NCT01877720|184270093|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon signed-rank test|||||||<0.001
92185566|NCT00267956|184270106|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The study is designed to maintain a Type I error of 0.05 or less for the primary analysis|Cochran-Mantel-Haenszel (CMH) chi-square|Stratified by subject's prior anti-Tumor Necrosis Factor (TNF) exposure status (Yes/No).||Hypothesis: No difference between ustekinumab x 4 and placebo at a significant level of 0.05. Sample Size and power: With 70 partcipants in each treatment group, 5000 repetitions. Assuming a 20% ACR20 response in placebo participants regardless of prior anti-TNF exposure and a 35% ACR 20 and 45% ACR20 response in ustekinumab group for participants who had prior anti-TNF exposure, and who had no prior anti-TNF exposures, the power to detect the treatment difference is 0.85.||||<0.001
92185567|NCT00267956|184270107|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||No multiplicity adjustment was made and nominal p-value was reported.|Cochran-Mantel-Haenszel (CMH) chi-square|Stratified by participant's prior anti-TNF exposure status (Yes/No).||Hypothesis: No difference between Group II and Group I at a significant level of 0.05.||||0.004
92185568|NCT00267956|184270108|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||No multiplicity adjustment was made and nominal p-value was reported.|Cochran-Mantel-Haenszel (CMH) chi-square|Stratified by participant's prior anti-TNF exposure status (Yes/No).||Hypothesis: No difference between ustekinumab x 4 and placebo at a significant level of 0.05.||||0.005
92185569|NCT00267956|184270109|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No multiplicity adjustment was made and nominal p-value was reported.|ANOVA on van der Waerden normal scores|Treatment and prior anti-TNF exposure (Yes/No) as factors in the model.||Hypothesis: No difference between ustekinumab x 4 and placebo at a significant level of 0.05.||||<0.001
92185570|NCT00267956|184270110|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No multiplicity adjustment was made and nominal p-value was reported.|Cochran-Mantel-Haenszel (CMH) chi-square|Stratified by participant's prior anti-TNF exposure status (Yes/No).||Hypothesis: No difference between ustekinumab x 4 and placebo at a significant level of 0.05.||||<0.001
92185571|NCT00267956|184270111|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No multiplicity adjustment was made and nominal p-value was reported.|ANOVA on van der Waerden normal scores|Treatment and prior anti-TNF exposure (Yes/No) as factors in the model.||Hypothesis: No difference between ustekinumab x 4 and placebo at asignificant level of 0.05.||||<0.001
92185572|NCT01393964|184270112|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|104.096||||0.704|TWO_SIDED|90.0|86.983|124.576|||ANOVA|||The reference arm is NRF participants.||124.576|86.983|0.704
92185573|NCT01393964|184270112|SUPERIORITY_OR_OTHER||ratio of adjusted means|100.454||||0.965|TWO_SIDED|90.0|84.453|119.488|||ANOVA|||The reference arm is NRF participants.||119.488|84.453|0.965
92185574|NCT01393964|184270113|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|126.596||||0.164|TWO_SIDED|90.0|95.52|167.783|||ANOVA|||AUC(0-T). The reference arm is NRF participants.||167.783|95.52|0.164
92185575|NCT01393964|184270113|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|116.123||||0.355|TWO_SIDED|90.0|88.458|152.439|||ANOVA|||AUC(0-T). The reference arm is NRF participants.||152.439|88.458|0.355
92185576|NCT01393964|184270113|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|129.858||||0.228|TWO_SIDED|90.0|90.366|186.609|||ANOVA|||AUC (INF). The reference arm is NRF participants.||186.609|90.366|0.228
92185577|NCT01393964|184270113|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|110.4||||0.642|TWO_SIDED|90.0|76.825|158.647|||ANOVA|||AUC(INF). The reference arm is NRF participants.||158.647|76.825|0.642
92295528|NCT00483548|184495843|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.11|STANDARD_ERROR_OF_MEAN|0.05||0.0271||95.0|0.01|0.21|||ANCOVA|||Total score: Week 2; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.21|0.01|0.0271
92185578|NCT01918033|184270123|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares (LS) Means|-0.09||||0.661|TWO_SIDED|95.0|-0.49|0.31|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Week 2|||0.31|-0.49|0.661
92185579|NCT01918033|184270123|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.08||||0.707|TWO_SIDED|95.0|-0.48|0.32|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Week 2|||0.32|-0.48|0.707
92185580|NCT01918033|184270126|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.48||||0.01|TWO_SIDED|95.0|-0.84|-0.11|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Day 3|||-0.11|-0.84|0.010
92145476|NCT05520138|184175232|SUPERIORITY|With a 2-sided Type I of 0.05 significance.|Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|1.04|1.16|||||A weighted Cox proportional hazard model with an independent variable for treatment group were fitted, using a robust variance estimator.|||1.16|1.04|
92145477|NCT05520138|184175233|SUPERIORITY|With a 2-sided Type I of 0.05 significance.|Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|1.06|1.27|||||A weighted Cox proportional hazard model with an independent variable for treatment group were fitted, using a robust variance estimator.|||1.27|1.06|
92185581|NCT01918033|184270126|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.46||||0.013|TWO_SIDED|95.0|-0.82|-0.1|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Day 3|||-0.10|-0.82|0.013
92185582|NCT01918033|184270126|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.12||||0.569|TWO_SIDED|95.0|-0.29|0.53|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Week 1|||0.53|-0.29|0.569
92185583|NCT01918033|184270126|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.09||||0.685|TWO_SIDED|95.0|-0.33|0.5|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Week 1|||0.50|-0.33|0.685
92185584|NCT01918033|184270127|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.547|TWO_SIDED|95.0|-0.15|0.08|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Sneezing Nasal Symptom Sub-Score at Week 2|||0.08|-0.15|0.547
92295529|NCT00483548|184495843|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.7462||95.0|-0.07|0.05|||ANCOVA|||Total score: Week 4; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.05|-0.07|0.7462
92295530|NCT00483548|184495843|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.04||0.9574||95.0|-0.08|0.08|||ANCOVA|||Total score: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.08|-0.08|0.9574
92295531|NCT00483548|184495843|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.0844||95.0|-0.01|0.1|||ANCOVA|||Global severity score: Week 2; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.10|-0.01|0.0844
92145478|NCT05520138|184175234|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.99|1.1|||||A weighted Cox proportional hazard model with an independent variable for treatment group were fitted, using a robust variance estimator.|||1.10|0.99|
92145479|NCT05520138|184175235|OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|1.06|1.22|||||A weighted Cox proportional hazard model with an independent variable for treatment group were fitted, using a robust variance estimator.|||1.22|1.06|
92145480|NCT02586025|184175248|SUPERIORITY||Difference in response rates|17.45||||0.0014|TWO_SIDED|95.0|6.89|28.01||Two-sided significance level of 5%|Cochran-Mantel-Haenszel|Stratified by disease category (early-stage and locally advanced) and hormone-receptor status (positive for ER and/or PgR or negative for both)|Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm. Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||28.01|6.89|0.0014
92185585|NCT01918033|184270127|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.1||||0.067|TWO_SIDED|95.0|-0.22|0.01|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Sneezing Nasal Symptom Sub-Score at Week 2|||0.01|-0.22|0.067
92185586|NCT01918033|184270127|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.01||||0.895|TWO_SIDED|95.0|-0.15|0.13|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Rhinorrhea Nasal Symptom Sub-Score at Week 2|||0.13|-0.15|0.895
92185587|NCT01918033|184270127|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.03||||0.627|TWO_SIDED|95.0|-0.1|0.17|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Rhinorrhea Nasal Symptom Sub-Score at Week 2|||0.17|-0.10|0.627
92295532|NCT00483548|184495843|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.5779||95.0|-0.04|0.06|||ANCOVA|||Global severity score: Week 4; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.06|-0.04|0.5779
92295533|NCT00483548|184495843|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.7455||95.0|-0.05|0.06|||ANCOVA|||Global severity score: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.06|-0.05|0.7455
92295534|NCT00483548|184495843|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.3278||95.0|-0.02|0.05|||ANCOVA|||Incapacitation score: Week 2; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.05|-0.02|0.3278
92295535|NCT00483548|184495843|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9097||95.0|-0.03|0.03|||ANCOVA|||Incapacitation score: Week 4; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.03|-0.03|0.9097
92295536|NCT00483548|184495843|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.9864||95.0|-0.04|0.04|||ANCOVA|||Incapacitation score: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.04|-0.04|0.9864
92295537|NCT00483548|184495844|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|1.52|STANDARD_ERROR_OF_MEAN|2.54||0.5519||95.0|-3.5|6.53|||ANCOVA|||Total Q-LES-Q: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||6.53|-3.50|0.5519
92295538|NCT00483548|184495844|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.09|STANDARD_ERROR_OF_MEAN|0.13||0.5238||95.0|-0.35|0.18|||ANCOVA|||Medications: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.18|-0.35|0.5238
92295539|NCT00483548|184495844|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.09|STANDARD_ERROR_OF_MEAN|0.14||0.536||95.0|-0.19|0.36|||ANCOVA|||Overall life satisfaction: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.36|-0.19|0.5360
92145481|NCT02586025|184175249|SUPERIORITY||Difference in response rates|18.36||||0.0008|TWO_SIDED|95.0|7.89|28.83||Two-sided significance level of 5%|Cochran-Mantel-Haenszel|Stratified by disease category (early-stage and locally advanced) and hormone-receptor status (positive for ER and/or PgR or negative for both)|Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm. Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||28.83|7.89|0.0008
92145482|NCT02586025|184175250|SUPERIORITY||Difference in response rates|18.37||||0.001|TWO_SIDED|95.0|7.6|29.15||Two-sided significance level of 5%|Cochran-Mantel-Haenszel|Stratified by disease category (early-stage and locally advanced) and hormone-receptor status (positive for ER and/or PgR or negative for both)|Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm. Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||29.15|7.60|0.0010
92145483|NCT02586025|184175251|SUPERIORITY||Difference in response rates|18.83||||0.0006|TWO_SIDED|95.0|8.14|29.51||Two-sided significance level of 5%|Cochran-Mantel-Haenszel|Stratified by disease category (early-stage and locally advanced) and hormone-receptor status (positive for ER and/or PgR or negative for both)|Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm. Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||29.51|8.14|0.0006
92145484|NCT02586025|184175253|SUPERIORITY||Difference in response rates|10.4||||0.0125|TWO_SIDED|95.0|1.12|19.69||Two-sided significance level of 5%|Cochran-Mantel-Haenszel|Stratified by disease category (early-stage and locally advanced) and hormone-receptor status (positive for ER and/or PgR or negative for both)|Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm|||19.69|1.12|0.0125
92145485|NCT02586025|184175254|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.014|TWO_SIDED|95.0|0.32|0.89|||Stratified log-rank|Two-sided log-rank test used, stratified by disease category (early-stage/locally advanced) \& hormone-receptor status (ER+ \&/or PgR+ or ER- \& PgR-)|The hazard ratio was calculated by stratified Cox proportional hazards model.|Hazard Ratio for EFS Event in the Pertuzumab arm vs. Placebo arm||0.89|0.32|0.0140
92145486|NCT02586025|184175254|SUPERIORITY||Difference in EFS Event-Free Rates|-8.16||||0.0062|TWO_SIDED|95.0|-14.0|-2.32|||Z-test||The difference in EFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in EFS Event-Free Rates at 1 year||-2.32|-14.00|0.0062
92145487|NCT02586025|184175254|SUPERIORITY||Difference in EFS Event-Free Rates|-9.17||||0.0429|TWO_SIDED|95.0|-18.05|-0.29|||Z-test||The difference in EFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in EFS Event-Free Rates at 3 years||-0.29|-18.05|0.0429
92145488|NCT02586025|184175254|SUPERIORITY||Difference in EFS Event-Free Rates|-11.1||||0.0274|TWO_SIDED|95.0|-20.95|-1.24|||Z-test||The difference in EFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in EFS Event-Free Rates at 5 Years||-1.24|-20.95|0.0274
92145489|NCT02586025|184175255|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.014|TWO_SIDED|95.0|0.3|0.88|||Stratified log-rank|Two-sided log-rank test used, stratified by disease category (early-stage/locally advanced) \& hormone-receptor status (ER+ \&/or PgR+ or ER- \& PgR-)|The hazard ratio was calculated by stratified Cox proportional hazards model.|Hazard Ratio for DFS Event in the Pertuzumab arm vs. Placebo arm||0.88|0.30|0.0140
92295540|NCT00979212|184495869|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96||||||One-sided test at significance level of 0.05|Fisher Exact|||Null hypothesis (H0) was that the experimental treatment was not effective vs the alternative hypothesis (HA) that it was. H0: OR ≤ 1 vs. HA: OR \> 1, where odds ratio (OR)= \[p2\*(1- p1)\]/ \[p1\*(1- p2)\], p1 denotes the mediastinal clearance rate (MCR) on Induction chemoradiation; p2 denotes the MCR on Induction chemoradiation + panitumumab. Fisher's exact test was used to compare the MCRs; the 95% confidence interval was calculated using Clopper-Pearson method. 97 patients were required.||||0.96
92295541|NCT03223909|184495888|NON_INFERIORITY|"it was considered as not inferior when the treatments did not present differences greater than 20%~Statistical analysis of groups in the baseline visit versus final visit"||||||0.08|||||||ANOVA|||||||0.080
92295542|NCT03223909|184495888|NON_INFERIORITY|"it was considered as not inferior when the treatments did not present differences greater than 20%~Statistical analysis between groups in the final visit"||||||0.848|||||||ANOVA|||||||0.848
92295543|NCT03223909|184495889|NON_INFERIORITY|it was considered as not inferior when the treatments did not present differences greater than 20%||||||0.468|||||||Chi-squared, Corrected|||||||0.468
92295544|NCT03223909|184495890|NON_INFERIORITY|population analysis was per protocol||||||0.0001|||||||ANOVA|||||||0.0001
92295545|NCT03223909|184495890|NON_INFERIORITY|population analysis was per protocol||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.650
92266725|NCT05182840|184434905|OTHER|Null hypothesis: The dose-response curve is flat across the 3 BI 690517 doses and the placebo.||||||0||||||P-value was rounded to four decimal places.|MCPMod linear model fit|Linear model fit assumption: No assumption is needed.||"A flat vs. non-flat dose-response relationship across the 3 doses of BI 690517 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod).~MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient."||||0.0000
92295546|NCT03223909|184495891|NON_INFERIORITY|"It was considered as not inferior when the treatments did not present differences greater than 20%~Statistical analysis of Humylub® Ofteno (PRO-087) versus Systane® Ultra PF at the final visit."||||||0.003|||||||ANOVA|||||||0.003
92295547|NCT03223909|184495891|NON_INFERIORITY|It was considered as not inferior when the treatments did not present differences greater than 20% Statistical analysis of Humylub® Ofteno (PRO-087) versus Systane® Ultra PF at the final visit.||||||0.003|||||||ANOVA|||||||0.003
92145490|NCT02586025|184175255|SUPERIORITY||Difference in DFS Event-Free Rates|-5.47||||0.0592|TWO_SIDED|95.0|-11.15|0.21|||Z-test||The difference in DFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in DFS Event-Free Rates at 1 year||0.21|-11.15|0.0592
92145491|NCT02586025|184175255|SUPERIORITY||Difference in DFS Event-Free Rates|-9.0||||0.0426|TWO_SIDED|95.0|-17.69|-0.3|||Z-test||The difference in DFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in DFS Event-Free Rates at 3 years||-0.30|-17.69|0.0426
92145492|NCT02586025|184175255|SUPERIORITY||Difference in DFS Event-Free Rates|-10.97||||0.0276|TWO_SIDED|95.0|-20.73|-1.21|||Z-test||The difference in DFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in DFS Event-Free Rates at 5 years||-1.21|-20.73|0.0276
92145493|NCT02586025|184175256|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.1181|TWO_SIDED|95.0|0.23|1.19|||Stratified log-rank|Two-sided log-rank test used, stratified by disease category (early-stage/locally advanced) \& hormone-receptor status (ER+ \&/or PgR+ or ER- \& PgR-)|The hazard ratio was calculated by stratified Cox proportional hazards model.|Hazard Ratio for OS Event in the Pertuzumab arm vs. Placebo arm||1.19|0.23|0.1181
92145494|NCT02586025|184175256|SUPERIORITY||Difference in OS Event-Free Rates|0.46||||0.3162|TWO_SIDED|95.0|-0.44|1.36|||Z-test||The difference in OS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in OS Event-Free Rates at 1 year||1.36|-0.44|0.3162
92145495|NCT02586025|184175256|SUPERIORITY||Difference in OS Event-Free Rates|-6.02||||0.0529|TWO_SIDED|95.0|-12.11|0.08|||Z-test||The difference in OS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in OS Event-Free Rates at 3 years||0.08|-12.11|0.0529
92145496|NCT02586025|184175256|SUPERIORITY||Difference in OS Event-Free Rates|-3.89||||0.2616|TWO_SIDED|95.0|-10.69|2.9|||Z-test||The difference in OS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in OS Event-Free Rates at 5 years||2.90|-10.69|0.2616
92145497|NCT02586025|184175262|OTHER||Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-1.62|0.93|||||Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm|||0.93|-1.62|
92145498|NCT00415610|184175273|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||The repeated measure analysis of the hourly average SBP was calculated with and without adjusting for baseline NIHSS and age.|repeated measure|Adjusted for initial deficit severity of using baseline NIHSS instead of GCS to better discriminate among patients with GCS score \> 8.||The hourly average (of maximum and minimum) SBP measurements were graphed with box-and-whiskers plot. In addition, a repeated measures analysis of the 25 average SBP (baseline and subsequent 24 hourly measures) was conducted with a mixed effects model (assuming autoregressive covariance structure in SAS version 9.1 PROC MIXED) to determine statistically the effect of treatment intensity (tier) on the average SBP over the 24 hrs with and without adjustment for baseline NIHSS score and age.||||< 0.01
92145499|NCT00415610|184175274|SUPERIORITY_OR_OTHER||||||<|0.5|TWO_SIDED|||||Observed average SBP change at 2 hrs after treatment initiation between subjects who did or did not have neurologic deterioration within 24 hrs.|Wilcoxon rank sum test|Mean decrease measured for subjects with neurological deterioration and subjects without neurological deterioration.||Done as a surrogate to evaluate the relationship between early SBP reduction and safety events.||||< .5
92145500|NCT04186780|184175305|SUPERIORITY|"The differences between Shiitake and placebo groups were analyzed by the Chi-square test, Exact of Fisher test and Student's t-test.~Descriptions of all biochemical parameters were expressed as mean ± standard deviation. To investigate the differences in biochemical parameters between the groups, Analysis of Variance (ANOVA) with repeated measurements was applied. All results of biochemical parameters were normalized to logarithmic scale."|Mean Difference (Net)|2.5||||0.59|TWO_SIDED|95.0||||P \< 0.05 was accepted as statistically significant.|ANOVA||Difference between T0 and T66 in the placebo group and intervention group in total cholesterol.|||||0.59
92145501|NCT04186780|184175306|SUPERIORITY|"The differences between Shiitake and placebo groups were analyzed by the Chi-square test, Exact of Fisher test and Student's t-test.~Descriptions of all biochemical and oxidative stress parameters were expressed as mean ± standard deviation. To investigate the differences in biochemical parameters between the groups, Analysis of Variance (ANOVA) with repeated measurements was applied. All results of biochemical parameters and oxidative stress were normalized to logarithmic scale."|Mean Difference (Net)|0.4||||0.8284|TWO_SIDED|95.0||||P \< 0.05 was accepted as statistically significant.|ANOVA||Difference between T0 and T66 in the placebo group and intervention group.|||||0.8284
92145502|NCT04186780|184175307|SUPERIORITY||Median Difference (Net)|0.1||||0.0058|TWO_SIDED|95.0||||P \< 0.05 was accepted as statistically significant.|ANOVA||Difference between T0 and T66 in the placebo group compared to the intervention group.|||||0.0058
92295548|NCT03223909|184495892|NON_INFERIORITY|"the statistical analysis was carried out by intention to treat~It was considered as not inferior when the treatments did not present differences greater than 20%"||||||0.93|||||||Chi-squared|||||||0.930
92295549|NCT03223909|184495893|NON_INFERIORITY|it was considered as not inferior when the treatments did not present differences greater than 20%||||||0.548|||||||ANOVA|||||||0.548
92295550|NCT03223909|184495894|NON_INFERIORITY|it was considered as not inferior when the treatments did not present differences greater than 20%||||||0.17|||||||ANOVA|||||||0.170
92295551|NCT03223909|184495895|NON_INFERIORITY|it was considered as not inferior when the treatments did not present differences greater than 20%||||||0.085|||||||Chi-squared, Corrected|||||||0.085
92145503|NCT04186780|184175308|SUPERIORITY||Median Difference (Net)|0.8||||0.0384|TWO_SIDED|95.0||||P \< 0.05 was accepted as statistically significant.|ANOVA||Reduced difference in TBARS in the placebo group compared to the intervention group at T66.|||||0.0384
92145504|NCT04186780|184175309|SUPERIORITY|"The differences between Shiitake and placebo groups were analyzed by the Chi-square test, Exact of Fisher test and Student's t-test.~Descriptions of all biochemical and oxidative stress parameters were expressed as mean ± standard deviation. To investigate the differences in biochemical parameters between the groups, Analysis of Variance (ANOVA) with repeated measurements was applied. All results of biochemical parameters and oxidative stress were normalized to logarithmic scale."|Mean Difference (Net)|47.0||||0.0352|TWO_SIDED|95.0||||P \< 0.05 was accepted as statistically significant.|ANOVA||Difference between placebo group and intervention group of T66.|||||0.0352
92145505|NCT02606903|184175344|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means (%)|110.19|STANDARD_DEVIATION|33.603|||TWO_SIDED|90.0|96.8|125.44|||ANOVA||Relative bioavailability was estimated by the ratio (AI/PFS) of the adjusted geometric means (gMean). Standard deviation is actually inter-individual geometric coefficient of variation (%).|Analysis of variance (ANOVA) model on the log scale was used including treatment and body mass index (BMI) group as fixed effects||125.44|96.80|
92145506|NCT02606903|184175345|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means (%)|100.14|STANDARD_DEVIATION|42.354|||TWO_SIDED|90.0|85.15|117.76|||ANOVA||Relative bioavailability was estimated by the ratio (AI/PFS) of the adjusted geometric means (gMean). Standard deviation is actually inter-individual geometric coefficient of variation (%).|Analysis of variance (ANOVA) model on the log scale was used including treatment and BMI group as fixed effects||117.76|85.15|
92145507|NCT02606903|184175346|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means (%)|100.22|STANDARD_DEVIATION|53.137|||TWO_SIDED|90.0|82.13|122.29|||ANOVA||Relative bioavailability was estimated by the ratio (AI/PFS) of the adjusted geometric means (gMean). Standard deviation is actually inter-individual geometric coefficient of variation (%).|Analysis of variance (ANOVA) model on the log scale was used including treatment and BMI group as fixed effects||122.29|82.13|
92145508|NCT00430248|184175357|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of febuxostat 40 mg to allopurinol was declared if the value of the lower bound of the 95% confidence interval for the difference was greater than -10%.|Difference in percentage|3.1||||||95.0|-1.9|8.1||||||The primary comparison was between febuxostat 40 mg and allopurinol treatment groups.||8.1|-1.9|
92145509|NCT00430248|184175357|SUPERIORITY_OR_OTHER|||||||0.233||95.0||||The test for superiority was performed using Fisher's exact test (two-tailed 0.05 significance level).|Fisher Exact|||||||0.233
92145510|NCT00430248|184175357|SUPERIORITY_OR_OTHER||Difference in percentage|24.9|||<|0.001||95.0|20.1|29.8||Comparisons between treatment groups were performed using Fisher's exact test (two-tailed 0.05 significance level).|Fisher Exact|||||29.8|20.1|<0.001
92145511|NCT00430248|184175357|SUPERIORITY_OR_OTHER||Difference in percentage|21.9|||<|0.001||95.0|17.0|26.8||Comparisons between treatment groups were performed using Fisher's exact test (two-tailed 0.05 significance level).|Fisher Exact|||||26.8|17.0|<0.001
92145512|NCT00430248|184175358|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.021
92145513|NCT00430248|184175358|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145514|NCT00430248|184175358|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145515|NCT00430248|184175359|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.031
92145516|NCT00430248|184175359|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92266726|NCT05182840|184434905|OTHER|Null hypothesis: The dose-response curve is flat across the 3 BI 690517 doses and the placebo.||||||0.0003|||||||MCPMod exponential model fit|Exponential model fit assumption: 15% of the maximum effect is achieved at 10 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of BI 690517 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod). MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||||0.0003
92266727|NCT05182840|184434906|OTHER||Median Difference (Net)|-15.5|||||TWO_SIDED|95.0|-28.6|0.0|||||"Median of 3 mg BI 690517 - Median of Placebo to BI 690517."|||-0.0|-28.6|
92266728|NCT05182840|184434906|OTHER||Median Difference (Net)|-38.5|||||TWO_SIDED|95.0|-48.3|-26.8|||||"Median of 10 mg BI 690517 - Median of Placebo to BI 690517."|||-26.8|-48.3|
92266729|NCT05182840|184434906|OTHER||Median Difference (Net)|-34.3|||||TWO_SIDED|95.0|-44.9|-21.8|||||"Median of 20 mg BI 690517 - Median of Placebo to BI 690517."|||-21.8|-44.9|
92266730|NCT05182840|184434907|OTHER||Mean Difference (Net)|-0.227||||0.0867|TWO_SIDED|95.0|-0.488|0.033|||MMRM||"Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 - Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||0.033|-0.488|0.0867
92266731|NCT05182840|184434907|OTHER||Mean Difference (Net)|-0.469||||0.0007|TWO_SIDED|95.0|-0.737|-0.201|||MMRM||"Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 - Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.201|-0.737|0.0007
92295552|NCT00974350|184495902|SUPERIORITY||LS Mean Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.353||0.0031|TWO_SIDED|95.0|-1.84|-0.44|||ANOVA|LS Mean difference from SABER-Placebo||Pain Intensity on Movement AUCs1-72 hours Including Pain Assessed Upon Taking Opioid Rescue - ITT||-0.44|-1.84|0.0031
92185588|NCT01918033|184270127|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.04||||0.535|TWO_SIDED|95.0|-0.09|0.18|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Nasal Congestion Nasal Symptom Sub-Score at Week 2|||0.18|-0.09|0.535
92185589|NCT01918033|184270127|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.04||||0.557|TWO_SIDED|95.0|-0.1|0.18|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Nasal Congestion Nasal Symptom Sub-Score at Week 2|||0.18|-0.10|0.557
92185590|NCT01918033|184270127|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.11||||0.119|TWO_SIDED|95.0|-0.25|0.03|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Nasal Itching Nasal Symptom Sub-Score at Week 2|||0.03|-0.25|0.119
92185591|NCT01918033|184270127|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.06||||0.403|TWO_SIDED|95.0|-0.2|0.08|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Nasal Itching Nasal Symptom Sub-Score at Week 2|||0.08|-0.20|0.403
92185592|NCT01918033|184270128|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.06||||0.376|TWO_SIDED|95.0|-0.2|0.07|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Swelling of INCM at Week 2|||0.07|-0.20|0.376
92266732|NCT05182840|184434907|OTHER||Mean Difference (Net)|-0.429||||0.0027|TWO_SIDED|95.0|-0.707|-0.151|||MMRM||"Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 6905177 - Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.151|-0.707|0.0027
92266733|NCT05182840|184434908|OTHER||Median Difference (Net)|-20.3|||||TWO_SIDED|95.0|-38.6|3.4|||||"Median of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 - median of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|||3.4|-38.6|
92266734|NCT05182840|184434908|OTHER||Median Difference (Net)|-37.4|||||TWO_SIDED|95.0|-52.2|-18.2|||||"Median of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 - median of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517"|||-18.2|-52.2|
92266735|NCT05182840|184434908|OTHER||Median Difference (Net)|-34.9|||||TWO_SIDED|95.0|-50.7|-14.0|||||"Median of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 6905177 - median of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|||-14.0|-50.7|
92266736|NCT05182840|184434909|OTHER||Mean Difference (Net)|-0.098||||0.3737|TWO_SIDED|95.0|-0.316|0.119|||MMRM||"Least Squares Mean of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 - Least Squares Mean of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||0.119|-0.316|0.3737
92266737|NCT05182840|184434909|OTHER||Mean Difference (Net)|-0.502|||<|0.0001|TWO_SIDED|95.0|-0.73|-0.275|||MMRM||"Least Squares Mean of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 - Least Squares Mean of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.275|-0.730|<.0001
92266738|NCT05182840|184434909|OTHER||Mean Difference (Net)|-0.404||||0.0004|TWO_SIDED|95.0|-0.625|-0.184|||MMRM||"Least Squares Mean of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 - Least Squares Mean of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.184|-0.625|0.0004
92266739|NCT05182840|184434910|OTHER||Median Difference (Net)|-9.4|||||TWO_SIDED|95.0|-27.1|12.7|||||"Median of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 - median of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|||12.7|-27.1|
92266740|NCT05182840|184434910|OTHER||Median Difference (Net)|-39.5|||||TWO_SIDED|95.0|-51.8|-24.0|||||"Median of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 - median of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|||-24.0|-51.8|
92266741|NCT05182840|184434910|OTHER||Median Difference (Net)|-33.2|||||TWO_SIDED|95.0|-46.5|-16.8|||||"Median of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 - median of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|||-16.8|-46.5|
92266742|NCT05182840|184434911|OTHER||Odds Ratio (OR)|2.08||||0.0136|TWO_SIDED|95.0|1.16|3.72||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.72|1.16|0.0136
92295553|NCT00974350|184495903|SUPERIORITY|||||||0.0909|||||||Cochran-Mantel-Haenszel|Stratified by pooled study sites||Proportion of Patients Not Taking Any Supplemental Opioid Analgesic Medication||||0.0909
92145517|NCT00430248|184175359|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145518|NCT00430248|184175360|SUPERIORITY_OR_OTHER|||||||0.578||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.578
92145519|NCT00430248|184175360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145520|NCT00430248|184175360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92266743|NCT05182840|184434911|OTHER||Odds Ratio (OR)|7.02||||0|TWO_SIDED|95.0|3.94|12.49||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||12.49|3.94|0.0000
92266744|NCT05182840|184434911|OTHER||Odds Ratio (OR)|5.48||||0|TWO_SIDED|95.0|3.09|9.71||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.71|3.09|0.0000
92266745|NCT05182840|184434912|OTHER||Odds Ratio (OR)|2.15||||0.0111|TWO_SIDED|95.0|1.19|3.88||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.88|1.19|0.0111
92145521|NCT00430248|184175361|SUPERIORITY_OR_OTHER|||||||0.426||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.426
92145522|NCT00430248|184175361|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145523|NCT00430248|184175361|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92266746|NCT05182840|184434912|OTHER||Odds Ratio (OR)|6.33||||0|TWO_SIDED|95.0|3.49|11.49||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||11.49|3.49|0.0000
92266747|NCT05182840|184434912|OTHER||Odds Ratio (OR)|5.21||||0|TWO_SIDED|95.0|2.88|9.44||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.44|2.88|0.0000
92145524|NCT00430248|184175362|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.050
92145525|NCT00430248|184175362|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145526|NCT00430248|184175362|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145527|NCT00430248|184175363|SUPERIORITY_OR_OTHER|||||||0.428||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.428
92145528|NCT00430248|184175363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145529|NCT00430248|184175363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145530|NCT00430248|184175364|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.041
92266748|NCT05182840|184434913|OTHER||Odds Ratio (OR)|1.8||||0.0348|TWO_SIDED|95.0|1.04|3.09||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.09|1.04|0.0348
92266749|NCT05182840|184434913|OTHER||Odds Ratio (OR)|4.12||||0|TWO_SIDED|95.0|2.4|7.08||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.08|2.40|0.0000
92266750|NCT05182840|184434913|OTHER||Odds Ratio (OR)|5.02||||0|TWO_SIDED|95.0|2.91|8.67||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.67|2.91|0.0000
92295554|NCT05070754|184495908|SUPERIORITY|||||||0.534|||||||Chi-squared|||Outcome measures 1-3 were all tested together. Null hypothesis was that there was no difference in the degree of lesion resolution between the two treatment methods.||||0.534
92295555|NCT05070754|184495909|SUPERIORITY|||||||0.534|||||||Chi-squared|||Outcome measures 1-3 were all tested together. Null hypothesis was that there was no difference in the degree of lesion resolution between the two treatment methods.||||0.534
92295556|NCT05070754|184495910|SUPERIORITY|||||||0.534|||||||Chi-squared|||Outcome measures 1-3 were all tested together. Null hypothesis was that there was no difference in the degree of lesion resolution between the two treatment methods.||||0.534
92295557|NCT05070754|184495911|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92295558|NCT05070754|184495912|SUPERIORITY|||||||0.142|||||||Wilcoxon Signed Rank Test|||Null hypothesis: there was no difference in median pain levels between SOC and NTAP treated lesions.||||0.142
92295559|NCT02958319|184495932|SUPERIORITY||Median Difference (Final Values)|4.1||||0.82|TWO_SIDED|||||p \< 0.05 was considered statistically significant|GENERAL LINEAL MODEL|GENERAL LINEAL MODEL OF REPEATED MEASURES||||||0.82
92295560|NCT00702507|184495948|SUPERIORITY_OR_OTHER||Percentage of participants|29.2|||||TWO_SIDED|95.0|22.4|36.7|||||Percentage of participants with overall cure at the test-of-cure visit (Day 14) of the initial episode for participants in the MITT Population|||36.7|22.4|
92295561|NCT00372996|184495968|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.912||||0.56|TWO_SIDED|80.0|0.744|1.118|||Log Rank|2-sided p-value from an unstratified log-rank text|Hazard ratio was based on Cox proportional hazards model.|||1.118|0.744|0.560
92295562|NCT00372996|184495969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.764||||0.331|TWO_SIDED|70.0|0.572|1.02||2-sided p-value from unstratified log-rank test|Log Rank||Hazard ratio was based on the Cox proportional hazards model.|||1.020|0.572|0.331
92295563|NCT00372996|184495970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.79||||0.463|TWO_SIDED|95.0|-8.0|17.6|||Pearson chi-square test|||||17.6|-8.0|0.463
92295564|NCT00781079|184495988|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|||||Models included site, age, race, ethnicity.|Regression, Linear|||comparisons between the PS and Usual Care groups were completed with a regression testing the interaction of group (PS vs Usual Care) and time (baseline vs follow-up) for the outcome measure. The measure was analyzed with mixed effect hierarchical regressions which accounted for the nesting of site under treatment, subjects within sites, and subjects over time.||||.5
92295565|NCT00781079|184495989|SUPERIORITY||Z tests if Reg coeff are diff from 0|-0.58||||0.56|TWO_SIDED||||||Regression, Linear|||||||.56
92145531|NCT00430248|184175364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145532|NCT00430248|184175364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145533|NCT00430248|184175365|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.083
92145534|NCT00430248|184175365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145535|NCT00430248|184175365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145536|NCT00430248|184175366|SUPERIORITY_OR_OTHER|||||||0.421||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.421
92145537|NCT00430248|184175366|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92295566|NCT00781079|184495990|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|||||Models included site, age, race, ethnicity. This is the calculated p value.|Regression, Linear|||comparisons between the PS and Usual Care groups were completed with a regression testing the interaction of group (PS vs Usual Care) and time (baseline vs follow-up) for the outcome measure. The measure was analyzed with mixed effect hierarchical regressions which accounted for the nesting of site under treatment, subjects within sites, and subjects over time.||||.05
92295567|NCT00781079|184495991|SUPERIORITY||Z test if reg coeff is diff from 0|0.56||||0.58|TWO_SIDED||||||Regression, Linear|||||||.58
92295568|NCT00781079|184495992|SUPERIORITY||Z test if reg coeff is diff than 0|-0.16||||0.87|TWO_SIDED||||||Regression, Linear|||||||.87
92295569|NCT00781079|184495993|SUPERIORITY||Z test if ref coeff is diff than 0|0.03||||0.98|TWO_SIDED||||||Regression, Linear|||||||.98
92295570|NCT04254809|184495994|SUPERIORITY||Slope|-0.64|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|95.0|-1.02|-0.25||Threshold for statistical significance was p = .05|Regression, Linear||REST coded as 0, HSL coded as 1; negative slope reflects greater standardized reductions in outcome among REST compared to HSL|Intention to treat analyses carried last observation forward for all participants enrolled at baseline. Standardized residual change score calculated by regressing scores at one-week follow-up onto scores at baseline.||-0.25|-1.02|.001
92295571|NCT04254809|184495995|SUPERIORITY||Slope|-0.61|STANDARD_ERROR_OF_MEAN|0.19||0.002|TWO_SIDED|95.0|-0.99|-0.23||Threshold for significance was p = .05|Regression, Linear||REST coded as 0, HSL coded as 1; negative slope reflects greater standardized reductions in outcome among REST compared to HSL|Intention to treat analyses carried last observation forward for all participants enrolled at baseline. Standardized residual change score calculated by regression scores at one-month follow-up onto scores at baseline.||-0.23|-0.99|.002
92295572|NCT04254809|184495996|SUPERIORITY||Slope|-0.45|STANDARD_ERROR_OF_MEAN|0.2||0.03|TWO_SIDED|95.0|-0.86|-0.05||Threshold for statistical significance was p = .05|Regression, Linear||REST coded as -, HSL coded as 1; negative slope reflects greater standardized reductions in outcome among REST compared to HSL.|Intention to treat analyses carried last observation forward for all participants enrolled at baseline. Standardized residual change score calculated by regression scores at one-week follow-up onto scores at baseline.||-.05|-0.86|.03
92295573|NCT03604549|184496106|SUPERIORITY||Risk Ratio (RR)|0.44||||0.1|TWO_SIDED|95.0|0.16|1.25|||Chi-squared||Lipiodol UF is the numerator and Saline is the denominator for RR|||1.25|0.16|0.10
92295574|NCT03604549|184496107|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.96|TWO_SIDED|95.0|-1.59|1.68|||t-test, 2 sided||Difference reported as Lipiodol UF - Saline|||1.68|-1.59|0.96
92295575|NCT01160640|184496130|SUPERIORITY_OR_OTHER|||||||0.046||||||P-value for proportion of women who had clearance of anaerobic organisms from the endometrium at the 30-day visit|Fisher Exact|||||||0.046
92295576|NCT01160640|184496132|SUPERIORITY_OR_OTHER|||||||0.16||||||P-value for proportion of women who did not have M. genitalium detected in the cervix or endometrium at the 30-day visit|Fisher Exact|||||||0.16
92295577|NCT01160640|184496133|SUPERIORITY_OR_OTHER|||||||0.74||||||P-value for proportion of women who experienced resolution of clinical signs and symptoms of PID at the 3-day visit|Fisher Exact|||||||0.74
92295578|NCT00243152|184496157|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Visual analog scale (VAS) ratings in the scanner. Measures of pain ratings to evoked stimuli during scanning for heat applied to the affected side.||||<0.05
92295579|NCT00243152|184496157|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||VAS rating in the scanner. Measures of pain rating to evoke stimuli during scanning for heat applied to the unaffected side.||||>0.05
92295580|NCT00243152|184496157|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||VAS rating in the scanner. Measures of pain rating to evoke stimuli during scanning for cold applied to the affected side.||||>0.05
92295581|NCT00243152|184496157|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||VAS rating in the scanner. Measures of pain rating to evoke stimuli during scanning for cold applied to the unaffected side.||||>0.05
92295582|NCT00243152|184496157|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||VAS rating in the scanner. Measures of pain rating to evoke stimuli during scanning for brush applied to the affected side.||||>0.05
92295583|NCT00243152|184496157|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||VAS rating in the scanner. Measures of pain rating to evoke stimuli during scanning for brush applied to the unaffected side.||||>0.05
92295584|NCT01560819|184496187|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||Wilcoxon signed rank test|||A power calculation was not done for this pilot study. Changes in PUCAI post-treatment were compared with baseline using the Wilcoxon signed rank test. P value \<0.05 was considered statistically significant.||||0.03
92295585|NCT00951093|184496188|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P value adjusted for multiple comparisons|Friedman´s test|followed by nonparametric pairwise multiple comparisons||||||<0.001
92295586|NCT00951093|184496189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||Friedman´s test|followed by nonparametric pairwise multiple comparisons||||||0.002
92295587|NCT00951093|184496190|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Friedman´s test|||||||< 0.001
92295588|NCT00951093|184496191|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.02||95.0|||||Wilcoxon (Mann-Whitney)|followed by nonparametric pairwise multiple comparisons||||||< 0.020
92295589|NCT00951093|184496192|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|followed by nonparametric pairwise multiple comparisons||||||< 0.001
92295590|NCT00951093|184496193|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|followed by nonparametric pairwise multiple comparisons||||||0.001
92295591|NCT00951093|184496194|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Friedman´s test|followed by nonparametric pairwise multiple comparisons||||||< 0.001
92295592|NCT00996437|184496195|SUPERIORITY_OR_OTHER||Treatment Difference in Cumulative Prob|4.0||||0.37|TWO_SIDED|95.0|-4.0|13.0|||Log Rank|After adjusting for potential confounding factors, time to vitrectomy remained similar between treatment groups.||The cumulative probabilities of vitrectomy by 16 weeks in each group were computed using the life-table method. Treatment group comparisons were performed using the log-rank test. The treatment difference in cumulative probabilities and 95% confidence interval were reported.||13|-4|0.37
92295593|NCT00996437|184496196|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value corresponds with recurrent vitreous hemorrhage evaluated on clinical exam between the two treatment arms.|Fisher Exact|||||||0.01
92295594|NCT00996437|184496197|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.54||||0.05|TWO_SIDED|95.0|1.03|2.3|||Log Rank|||||2.30|1.03|0.05
92145538|NCT00430248|184175366|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145539|NCT00430248|184175367|SUPERIORITY_OR_OTHER|||||||0.52||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.520
92295595|NCT00996437|184496198|SUPERIORITY_OR_OTHER|||||||0.87||95.0||||P-value corresponds to the 12 week visit treatment comparison.|GLM with GEE method|Number of subjects with baseline OCT ss=0 and OCT ss\>0 and no vitrectomy at follow up. A generalized GLM with GEE was used for treatment comparisons.||Signal strength was analyzed as a composite outcome defined as OCT signal strength \> = and no vitrectomy vs. OCT signal strength = 0.||||0.87
92295596|NCT00996437|184496199|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||P-value corresponds to the 12 week visit treatment comparison.|Mixed Models Analysis|Treatment comparisons were performed using a longitudinal mixed model adjusting for baseline visual acuity.||||||.04
92295597|NCT00996437|184496201|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value corresponds with the 12 week visit treatment comparison|Fisher Exact|At the each time point, treatment comparison analysis was performed using a Fisher Exact test.||||||.023
92295598|NCT00996437|184496202|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Fisher Exact|At each time point, treatment comparison analysis was performed using a Fisher Exact Test.||||||0.27
92295599|NCT00407745|184496272|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.198||0.0032|TWO_SIDED|95.0|-0.98|-0.2||Significance was declared if the 2-tailed test for the difference between treatment groups was significant at the 0.05 level.|ANCOVA|||"Null hypothesis - the mean DAAC for the pregabalin group is equal to the mean DAAC for the placebo group; Alternative hypothesis - the mean DAAC for the placebo group differs from the mean DAAC for the pregabalin group.~ANCOVA model included baseline severity of pain and Baseline Pain Catastrophizing Scale (PCS) Total Score as covariates and pooled center and treatment as fixed (class) cofactors."||-0.20|-0.98|0.0032
92295600|NCT00407745|184496273|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.255||0.0066|TWO_SIDED|95.0|-1.2|-0.2||Serial gate-keeping multiple testing procedure was used. If primary comparison for DAAC was significant, then variables were assessed in a hierarchical manner. Significance was declared if unadjusted p-value was significant at 0.05 level (\<=0.05).|ANCOVA|ANCOVA model included baseline severity (pain) and baseline PCS as covariates and effects for treatment and pooled center as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.20|-1.20|0.0066
92295601|NCT00407745|184496274|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.85||||0.039|TWO_SIDED|95.0|1.032|3.328||Serial gate-keeping multiple testing was used. If primary comparison for DAAC was significant, then variables were assessed in hierarchical manner. Significance was declared if unadjusted p-value at 0.05 level and preceding tests were significant.|Regression, Logistic|Logistic regression model used terms for baseline pain score and baseline PCS total score as covariate, and pooled center and treatment as cofactor.||Null hypothesis - The rate of responder for the pregabain group was equal to the rate of responder for the placebo group; Alternative hypothesis - The rate of responder for the pregabain group was not equal to the rate of responder for the placebo group||3.328|1.032|0.0390
92295602|NCT00407745|184496275|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006||95.0||||Serial gate-keeping multiple testing was used. If primary comparison for DAAC was significant, then variables were assessed in hierarchical manner. Significance was declared if unadjusted p-value at 0.05 level and preceding tests were significant.|Cochran-Mantel-Haenszel|Modified ridit transformation with the Cochran-Mantel- Haenszel test was used with adjusting for pooled center.||Null hypothesis - The raw mean score for the pregabain group was equal to the raw mean score for the placebo group; Alternative hypothesis - The raw mean score for the pregabain group was not equal to the raw mean score for the placebo group.||||0.0006
92295603|NCT00407745|184496276|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.265|<|0.0001|TWO_SIDED|95.0|-1.6|-0.56||Serial gate-keeping multiple testing was used. If primary comparison for DAAC was significant, then variables were assessed in hierarchical manner. Significance was declared if unadjusted p-value at 0.05 level and preceding tests were significant.|ANCOVA|ANCOVA model included baseline sleep interference score as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.56|-1.60|<0.0001
92295604|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.23||0.0295|TWO_SIDED|95.0|-0.94|-0.05||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 1~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.05|-0.94|0.0295
92295605|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.23||0.0033|TWO_SIDED|95.0|-1.11|-0.22||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 2~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.22|-1.11|0.0033
92295606|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.23||0.0185|TWO_SIDED|95.0|-0.98|-0.09||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 3~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.09|-0.98|0.0185
92145540|NCT00430248|184175367|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92295607|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.23||0.004|TWO_SIDED|95.0|-1.1|-0.21||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 4~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.21|-1.10|0.0040
92295608|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.23||0.0004|TWO_SIDED|95.0|-1.26|-0.36||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 5~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.36|-1.26|0.0004
92295609|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.23||0.0018|TWO_SIDED|95.0|-1.17|-0.27||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 6~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.27|-1.17|0.0018
92295610|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.23||0.0027|TWO_SIDED|95.0|-1.14|-0.24||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 7~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.24|-1.14|0.0027
92145541|NCT00430248|184175367|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145542|NCT00430248|184175368|SUPERIORITY_OR_OTHER|||||||0.195||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.195
92295611|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.23||0.0041|TWO_SIDED|95.0|-1.11|-0.21||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 8~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.21|-1.11|0.0041
92295612|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.23||0.0058|TWO_SIDED|95.0|-1.09|-0.18||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 9~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.18|-1.09|0.0058
92295613|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.23||0.0031|TWO_SIDED|95.0|-1.14|-0.23||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 10~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.23|-1.14|0.0031
92295614|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.23||0.0076|TWO_SIDED|95.0|-1.08|-0.17||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 11~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.17|-1.08|0.0076
92295615|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.23||0.0328|TWO_SIDED|95.0|-0.95|-0.04||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 12~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.04|-0.95|0.0328
92295616|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.23||0.015|TWO_SIDED|95.0|-1.02|-0.11||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 13~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.11|-1.02|0.0150
92295617|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.23||0.0048|TWO_SIDED|95.0|-1.11|-0.2||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 14~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.20|-1.11|0.0048
92295618|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.23||0.003|TWO_SIDED|95.0|-1.15|-0.24||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 15~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.24|-1.15|0.0030
92295619|NCT00407745|184496277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.23||0.0011|TWO_SIDED|95.0|-1.22|-0.3||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 16~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.30|-1.22|0.0011
92295620|NCT00407745|184496278|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.24||||0.0256|TWO_SIDED|95.0|1.103|4.546||Significance was declared if p-value \<=0.05|Regression, Logistic|Logistic regression used terms for treatment, baseline pain score as covariate, baseline PCS total score, and pooled center as cofactor.||Null hypothesis - The rate of responder for the pregabain group was equal to the rate of responder for the placebo group; Alternative hypothesis - The rate of responder for the pregabain group was not equal to the rate of responder for the placebo group.||4.546|1.103|0.0256
92145543|NCT00430248|184175368|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145544|NCT00430248|184175368|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92295621|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.22||0.0004|TWO_SIDED|95.0|-1.23|-0.35||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 1.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.35|-1.23|0.0004
92295622|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.31|-0.43||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week2~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.43|-1.31|<0.0001
92295623|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.22||0.0004|TWO_SIDED|95.0|-1.24|-0.36||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 3.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.36|-1.24|0.0004
92295624|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.23||0.0008|TWO_SIDED|95.0|-1.2|-0.32||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 4.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.32|-1.20|0.0008
92295625|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.38|-0.49||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 5.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.49|-1.38|<0.0001
92145545|NCT00430248|184175369|SUPERIORITY_OR_OTHER|||||||0.196||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.196
92145546|NCT00430248|184175369|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145547|NCT00430248|184175369|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
92145548|NCT00430248|184175370|SUPERIORITY_OR_OTHER|||||||0.079||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||0.079
92145549|NCT00430248|184175370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
92145550|NCT00430248|184175370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
92145551|NCT00430248|184175371|SUPERIORITY_OR_OTHER|||||||0.685||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||0.685
92145552|NCT00430248|184175371|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
92145553|NCT00430248|184175371|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
92145554|NCT00430248|184175372|SUPERIORITY_OR_OTHER|||||||0.153||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||0.153
92145555|NCT00430248|184175372|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
92145556|NCT00430248|184175372|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
92145557|NCT00430248|184175373|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||0.050
92145558|NCT00430248|184175373|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
92145559|NCT00430248|184175373|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
92145560|NCT01624948|184175374|SUPERIORITY_OR_OTHER|||||||0.53|||||||Fisher Exact|||||||0.53
92145561|NCT01624948|184175376|SUPERIORITY_OR_OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Difference in p70S6 kinase phosphorylation as measured by mean fluorescence intensity (MFI) between those patients who reached the primary endpoint and those who did not||||0.67
92145562|NCT01624948|184175377|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92145563|NCT01624948|184175379|SUPERIORITY_OR_OTHER|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||||||0.49
92145564|NCT02219048|184175413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0719|STANDARD_ERROR_OF_MEAN|0.0909|||TWO_SIDED|90.0|-0.2243|0.0805|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline at Week 1||0.0805|-0.2243|
92295626|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.93|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.37|-0.48||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 6.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.48|-1.37|<0.0001
92295627|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.91|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.35|-0.47||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 7.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.47|-1.35|<0.0001
92145565|NCT02219048|184175413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.092|STANDARD_ERROR_OF_MEAN|0.086|||TWO_SIDED|90.0|-0.2362|0.0523|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline at Week 2||0.0523|-0.2362|
92145566|NCT02219048|184175413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1131|STANDARD_ERROR_OF_MEAN|0.0837|||TWO_SIDED|90.0|-0.2536|0.0274|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline at Week 3||0.0274|-0.2536|
92145567|NCT02219048|184175413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.058|STANDARD_ERROR_OF_MEAN|0.0829|||TWO_SIDED|90.0|-0.1971|0.0812|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline at Week 4||0.0812|-0.1971|
92145568|NCT02219048|184175413|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.0837|STANDARD_ERROR_OF_MEAN|0.0742|||TWO_SIDED|90.0|-0.2081|0.0406|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline Over Week 1 to 4||0.0406|-0.2081|
92145569|NCT02219048|184175416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|90.0|-0.285|0.106|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline Averaged Over Week 1 to 4||0.106|-0.285|
92145570|NCT02219048|184175418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.017|STANDARD_ERROR_OF_MEAN|10.003|||TWO_SIDED|90.0|-10.76|22.794|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Morning PEF: CFB at Week 1||22.794|-10.760|
92145571|NCT02219048|184175418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.591|STANDARD_ERROR_OF_MEAN|12.228|||TWO_SIDED|90.0|-13.926|27.108|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Morning PEF: CFB at Week 2||27.108|-13.926|
92145572|NCT02219048|184175418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.954|STANDARD_ERROR_OF_MEAN|11.673|||TWO_SIDED|90.0|-18.644|20.552|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Morning PEF: CFB at Week 3||20.552|-18.644|
92145573|NCT02219048|184175418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.368|STANDARD_ERROR_OF_MEAN|12.92|||TWO_SIDED|90.0|-26.069|17.333|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Morning PEF: CFB at Week 4||17.333|-26.069|
92145574|NCT02219048|184175418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.299|STANDARD_ERROR_OF_MEAN|10.503|||TWO_SIDED|90.0|-15.323|19.92|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Morning PEF: CFB Averaged Over 4 Weeks||19.920|-15.323|
92145575|NCT02219048|184175418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.135|STANDARD_ERROR_OF_MEAN|10.961|||TWO_SIDED|90.0|-17.248|19.519|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Evening PEF: CFB at Week 1||19.519|-17.248|
92145576|NCT02219048|184175418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.834|STANDARD_ERROR_OF_MEAN|9.956|||TWO_SIDED|90.0|-13.871|19.54|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Evening PEF: CFB at Week 2||19.540|-13.871|
92145577|NCT02219048|184175418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.374|STANDARD_ERROR_OF_MEAN|11.652|||TWO_SIDED|90.0|-27.933|11.185|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Evening PEF: CFB at Week 3||11.185|-27.933|
92145578|NCT02219048|184175418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.445|STANDARD_ERROR_OF_MEAN|13.573|||TWO_SIDED|90.0|-23.245|22.356|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Evening PEF: CFB at Week 4||22.356|-23.245|
92145579|NCT02219048|184175418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.212|STANDARD_ERROR_OF_MEAN|10.317|||TWO_SIDED|90.0|-18.52|16.096|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Evening PEF: CFB Averaged Over 4 Weeks||16.096|-18.520|
92145580|NCT00995501|184175424|SUPERIORITY||Odds Ratio (OR)|0.96||||0.86|TWO_SIDED|99.6|0.45|2.0|||Regression, Logistic|||Compare 4 arms with intensive glucose control vs. 4 arms with conventional glucose control||2|0.45|0.86
92295628|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.35|-0.46||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 8.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.46|-1.35|<0.0001
92145581|NCT00995501|184175424|SUPERIORITY||Odds Ratio (OR)|0.96||||0.87|TWO_SIDED|99.6|0.45|2.0|||Regression, Logistic|||Compare 4 arms with Dexamethasone vs. 4 arms with Placebo||2|0.45|0.87
92145582|NCT00995501|184175424|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9|TWO_SIDED|99.6|0.49|2.2|||Regression, Logistic|||Compare 4 arms with light anesthesia vs. 4 arms with deep anesthesia||2.2|0.49|0.90
92145583|NCT00995501|184175425|SUPERIORITY||Odds Ratio (OR)|0.92||||0.8|TWO_SIDED|99.6|0.37|2.3|||Regression, Logistic|||Compare 4 arms with intensive glucose control vs. 4 arms with conventional glucose control||2.3|0.37|0.8
92145584|NCT00995501|184175425|SUPERIORITY||Odds Ratio (OR)|1.1||||0.84|TWO_SIDED|99.6|0.43|2.7|||Regression, Logistic|||Compare 4 arms with Dexamethasone vs. 4 arms with Placebo||2.7|0.43|0.84
92145585|NCT00995501|184175425|SUPERIORITY||Odds Ratio (OR)|1.1||||0.87|TWO_SIDED|99.6|0.42|2.7|||Regression, Logistic|||||2.7|0.42|0.87
92145586|NCT01274182|184175462|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.106|||||TWO_SIDED|90.0|1.01|1.21|||||GP2013 arm is the numerator and MabThera arm is the denominator|PK bioequivalence is defined as AUC(0-inf) of the drugs being comparable, i.e. the two-sided 90% CI for the ratio of the geometric means (GP2013/MabThera) is within the predefined bioequivalence limits of 0.8 to 1.25.||1.210|1.010|
92145587|NCT01274182|184175462|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.012|||||TWO_SIDED|90.0|0.925|1.108|||||GP2013 arm is the numerator and Rituxan arm is the denominator|PK bioequivalence is defined as AUC(0-inf) of the drugs being comparable, i.e. the two-sided 90% CI for the ratio of the geometric means (GP2013/MabThera) is within the predefined bioequivalence limits of 0.8 to 1.25.||1.108|0.925|
92145588|NCT01274182|184175462|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.093|||||TWO_SIDED|90.0|0.989|1.208|||||Rituxan arm is the numerator and MabThera arm is the denominator|PK bioequivalence is defined as AUC(0-inf) of the drugs being comparable, i.e. the two-sided 90% CI for the ratio of the geometric means (GP2013/MabThera) is within the predefined bioequivalence limits of 0.8 to 1.25.||1.208|0.989|
92145589|NCT01274182|184175463|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.076|||||TWO_SIDED|90.0|0.979|1.184|||||GP2013 arm is the numerator and Rituxan arm is the denominator|To conclude bioequivalence the 90% CI must be entirely within the standard equivalence limits of 0.8-1.25.||1.184|0.979|
92145590|NCT01274182|184175463|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.131|||||TWO_SIDED|90.0|1.027|1.244|||||GP2013 arm is the numerator and MabThera arm is the denominator|To conclude bioequivalence the 90% CI must be entirely within the standard equivalence limits of 0.8-1.25||1.244|1.027|
92145591|NCT01274182|184175463|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.05|||||TWO_SIDED|90.0|0.946|1.167|||||Rituxan arm is the numerator and MabThera arm is the denominator|To conclude bioequivalence the 90% CI must be entirely within the standard equivalence limits of 0.8-1.25.||1.167|0.946|
92145592|NCT01274182|184175464|EQUIVALENCE|Ratio of geometric means and 95% confidence interval were estimated by an analysis of variance (ANOVA) on log-transformed PD parameter with treatment as the factor. Results were then back-transformed to the original scale.|Geometric mean ratio|0.989|||||TWO_SIDED|95.0|0.974|1.004|||||GP2013 arm is the numerator and Rituxan arm is the denominator|To conclude equivalence the 95% CI must be entirely within the standard equivalencelimits of 0.8-1.25||1.004|0.974|
92145593|NCT01274182|184175464|EQUIVALENCE|Ratio of geometric means and 95% confidence interval were estimated by an analysis of variance (ANOVA) on log-transformed PD parameter with treatment as the factor. Results were then back-transformed to the original scale.|Geometric mean ratio|1.021|||||TWO_SIDED|95.0|1.003|1.04|||||GP2013 arm is the numerator and MabThera arm is the denominator|To conclude equivalence the 95% CI must be entirely within the standard equivalencelimits of 0.8-1.25||1.040|1.003|
92185593|NCT01918033|184270128|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.714|TWO_SIDED|95.0|-0.16|0.11|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Swelling of INCM at Week 2|||0.11|-0.16|0.714
92185594|NCT01918033|184270128|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.725|TWO_SIDED|95.0|-0.19|0.13|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Coloring of INCM at Week 2|||0.13|-0.19|0.725
92185595|NCT01918033|184270128|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.708|TWO_SIDED|95.0|-0.19|0.13|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Coloring of INCM at Week 2|||0.13|-0.19|0.708
92185596|NCT01918033|184270128|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.03||||0.68|TWO_SIDED|95.0|-0.1|0.16|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in NDP at Week 2|||0.16|-0.10|0.680
92145594|NCT01274182|184175464|EQUIVALENCE|Ratio of geometric means and 95% confidence interval were estimated by an analysis of variance (ANOVA) on log-transformed PD parameter with treatment as the factor. Results were then back-transformed to the original scale.|Geometric mean ratio|1.033|||||TWO_SIDED|95.0|1.016|1.05|||||Rituxan arm is the numerator and MabThera arm is the denominator|To conclude equivalence the 95% CI must be entirely within the standard equivalence limits of 0.8-1.25||1.050|1.016|
92145595|NCT01274182|184175465|NON_INFERIORITY|"The non-inferiority margin is further justified by the EULAR criteria which define no response as change from baseline being \< 0.6.~LS means, standard errors and 95% CI were estimated by a repeated measures mixed model with treatment, time and treatment\*time interaction term as categorical variables and baseline DAS28 as a continuous variable.~A negative change from baseline represents an improvement in assessment of rheumatoid arthritis."|LS Mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|95.0|-0.397|0.24|||||The direction of comparison is LS mean of GP2013 - LS mean of Rituxan|To conclude non-inferiority the upper 95% CI should be less than or equal to 0.6. This margin was statistically justified by the results of the REFLEX (Randomized Evaluation of Long-Term Efficacy of Rituximab in RA) trial (Cohen et al 2006) providing a 95% CI for the mean difference between rituximab/MTX and MTX alone of (-1.74;-1.25). The margin of 0.6 was determined by retaining more than 50% of the reference treatment effect which was considered clinically acceptable.||0.240|-0.397|
92145596|NCT01274182|184175465|NON_INFERIORITY|"The non-inferiority margin is further justified by the EULAR criteria which define no response as change from baseline being \< 0.6. LS means, standard errors and 95% CI were estimated by a repeated measures mixed model with treatment, time and treatment\*time interaction term as categorical variables and baseline DAS28 as a continuous variable.~A negative change from baseline represents an improvement in assessment of rheumatoid arthritis."|LS Mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.201|||TWO_SIDED|95.0|-0.328|0.462|||||The direction of comparison is LS mean of GP2013 Part I - LS mean of MabThera|To conclude non-inferiority the upper 95% CI should be less than or equal to 0.6. This margin was statistically justified by the results of the REFLEX (Randomized Evaluation of Long-Term Efficacy of Rituximab in RA) trial (Cohen et al 2006) providing a 95% CI for the mean difference between rituximab/MTX and MTX alone of (-1.74;-1.25). The margin of 0.6 was determined by retaining more than 50% of the reference treatment effect which was considered clinically acceptable.||0.462|-0.328|
92145597|NCT01274182|184175466|NON_INFERIORITY|The predefined noninferiority margin of 0.15 for ACR20 is based on the historical placebo-controlled phase III study to evaluate the response rate benefit of adding rituximab to the conventional small molecule-based treatment of patients with RA (Cohen et al. 2006).|Response rate difference (%)|9.77|STANDARD_ERROR_OF_MEAN|6.79|||TWO_SIDED|95.0|-3.54|23.08|||||The direction of comparison is response rate of GP2013 - response rate of Rituxan|To conclude non-inferiority the lower 95% CI should be greater than -15.0%.||23.08|-3.54|
92185597|NCT01918033|184270128|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.06||||0.373|TWO_SIDED|95.0|-0.07|0.19|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in NDP at Week 2|||0.19|-0.07|0.373
92185598|NCT01918033|184270129|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.01||||0.849|TWO_SIDED|95.0|-0.14|0.12|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Eye Symptom Score at Week 2|||0.12|-0.14|0.849
92266751|NCT05182840|184434914|OTHER||Odds Ratio (OR)|2.15||||0.0111|TWO_SIDED|95.0|1.19|3.88||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.88|1.19|0.0111
92266752|NCT05182840|184434914|OTHER||Odds Ratio (OR)|6.33||||0|TWO_SIDED|95.0|3.49|11.49||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||11.49|3.49|0.0000
92266753|NCT05182840|184434914|OTHER||Odds Ratio (OR)|5.21||||0|TWO_SIDED|95.0|2.88|9.44||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.44|2.88|0.0000
92185599|NCT01918033|184270129|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.07||||0.26|TWO_SIDED|95.0|-0.2|0.06|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Eye Symptom Score at Week 2|||0.06|-0.20|0.260
92185600|NCT01918033|184270130|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.826||||0.34|TWO_SIDED|95.0|0.558|1.223|||Regression, Logistic|Logistic model with global improvement rate as response variable and treatment, age strata, and severity as factors|Difference in the number of participants with moderate or remarkable improvement at Week 2. An odds ratio \>1 is in favor of the first group of the pairwise comparison.|||1.223|0.558|0.340
92185601|NCT01918033|184270130|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.755||||0.159|TWO_SIDED|95.0|0.51|1.116|||Regression, Logistic|Logistic model with global improvement rate as response variable and treatment, age strata, and severity as factors|Difference in the number of participants with moderate or remarkable improvement at Week 2. An odds ratio \>1 is in favor of the first group of the pairwise comparison.|||1.116|0.510|0.159
92185602|NCT01918033|184270131|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.02||||0.705|TWO_SIDED|95.0|-0.09|0.14|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Interference with Daily Activities at Week 2|||0.14|-0.09|0.705
92295629|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.39|-0.5||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 9.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.50|-1.39|<0.0001
92295630|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.53|-0.63||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 10.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.63|-1.53|<0.0001
92295631|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.39|-0.49||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 11.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.49|-1.39|<0.0001
92295632|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.37|-0.47||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 12.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.47|-1.37|<0.0001
92185603|NCT01918033|184270131|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.02||||0.782|TWO_SIDED|95.0|-0.13|0.1|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Interference with Daily Activities at Week 2|||0.10|-0.13|0.782
92185604|NCT01918033|184270132|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.1||||0.175|TWO_SIDED|95.0|-0.24|0.04|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Sneezing at Week 2|||0.04|-0.24|0.175
92185605|NCT01918033|184270132|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.12||||0.098|TWO_SIDED|95.0|-0.26|0.02|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Sneezing at Week 2|||0.02|-0.26|0.098
92185606|NCT01918033|184270132|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.12||||0.13|TWO_SIDED|95.0|-0.04|0.27|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Rhinorrhea at Week 2|||0.27|-0.04|0.130
92185607|NCT01918033|184270132|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.07||||0.375|TWO_SIDED|95.0|-0.08|0.22|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Rhinorrhea at Week 2|||0.22|-0.08|0.375
92185608|NCT01918033|184270132|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.08||||0.285|TWO_SIDED|95.0|-0.07|0.24|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Nasal Congestion at Week 2|||0.24|-0.07|0.285
92185609|NCT01918033|184270132|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.05||||0.49|TWO_SIDED|95.0|-0.1|0.21|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Nasal Congestion at Week 2|||0.21|-0.10|0.490
92145598|NCT01274182|184175466|NON_INFERIORITY|The predefined noninferiority margin of 0.15 for ACR20 is based on the historical placebo-controlled phase III study to evaluate the response rate benefit of adding rituximab to the conventional small molecule-based treatment of patients with RA (Cohen et al. 2006).|Response rate difference (%)|-0.57|STANDARD_ERROR_OF_MEAN|7.23|||TWO_SIDED|95.0|-14.74|13.6|||||The direction of comparison is response rate of GP2013 Part I - response rate of MabThera|To conclude non-inferiority the lower 95% CI should be greater than -15.0%.||13.60|-14.74|
92295633|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.38|-0.47||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 13.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.47|-1.38|<0.0001
92295634|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.41|-0.51||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 14.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.51|-1.41|<0.0001
92295635|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.53|-0.63||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 15.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.63|-1.53|<0.0001
92295636|NCT00407745|184496279|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.51|-0.61||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 16.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.61|-1.51|<0.0001
92295637|NCT00407745|184496280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.269||0.0438|TWO_SIDED|95.0|-1.08|-0.02||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline mBPI-10 Total Score as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.02|-1.08|0.0438
92295638|NCT00407745|184496281|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.448||0.7103|TWO_SIDED|95.0|-1.06|0.72||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Static Mechanical Allodynia as a covariate and pooled center and treatment as fixed (class) cofactors.||"At/above level: within 2 dermatomes above or below the neurological level of injury (NLI).~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.72|-1.06|0.7103
92145599|NCT01970982|184175471|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|23.09|||<|0.001|TWO_SIDED|95.0|18.41|28.95||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||28.95|18.41|<0.001
92295639|NCT00407745|184496281|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.34||0.0747|TWO_SIDED|95.0|-1.28|0.06||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Static Mechanical Allodynia as a covariate and pooled center and treatment as fixed (class) cofactors.||"Below level: more than 2 dermatomes below the NLI.~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.06|-1.28|0.0747
92145600|NCT01970982|184175472|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|52.86|||<|0.001|TWO_SIDED|95.0|45.67|61.17||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on 3-HPMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||61.17|45.67|<0.001
92185610|NCT01918033|184270132|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.08||||0.345|TWO_SIDED|95.0|-0.23|0.08|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Nasal Itching at Week 2|||0.08|-0.23|0.345
92295640|NCT00407745|184496282|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.379||0.5689|TWO_SIDED|95.0|-0.97|0.54||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Dynamic Mechanical Allodynia as covariate and pooled center and treatment as fixed (class) cofactors.||"At/Above level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.54|-0.97|0.5689
92295641|NCT00407745|184496282|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.322||0.4764|TWO_SIDED|95.0|-0.87|0.41||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Dynamic Mechanical Allodynia as covariate and pooled center and treatment as fixed (class) cofactors.||"Below level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.41|-0.87|0.4764
92295642|NCT00407745|184496283|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.474||0.3362|TWO_SIDED|95.0|-1.4|0.48||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Punctate Hyperalgesia as a covariate and pooled center and treatment as fixed (class) cofactors.||"At/Above level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.48|-1.40|0.3362
92295643|NCT00407745|184496283|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.321||0.3113|TWO_SIDED|95.0|-0.96|0.31||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Punctate Hyperalgesia as a covariate and pooled center and treatment as fixed (class) cofactors.||"Below level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.31|-0.96|0.3113
92295644|NCT00407745|184496284|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.539||0.2721|TWO_SIDED|95.0|-1.67|0.48||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Temporal Summation to stimuli as covariate and pooled center and treatment as fixed (class) cofactors.||"At/Above level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.48|-1.67|0.2721
92295645|NCT00407745|184496284|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.337||0.4906|TWO_SIDED|95.0|-0.43|0.9||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Temporal Summation to stimuli as covariate and pooled center and treatment as fixed (class) cofactors.||"Below level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.90|-0.43|0.4906
92295646|NCT00407745|184496285|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.472||0.3123|TWO_SIDED|95.0|-1.42|0.46||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Cold Allodynia as a covariate and pooled center and treatment as fixed (class) cofactors.||"At/Above level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.46|-1.42|0.3123
92295647|NCT00407745|184496285|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.368||0.136|TWO_SIDED|95.0|-1.28|0.18||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Cold Allodynia as a covariate and pooled center and treatment as fixed (class) cofactors.||"Below level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.18|-1.28|0.1360
92295648|NCT00407745|184496286|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.549||0.4257|TWO_SIDED|95.0|-1.53|0.65||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Cold Hyperalgesia Subscales as a covariate and pooled center and treatment as fixed (class) cofactors.||"At/Above level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.65|-1.53|0.4257
92145601|NCT01970982|184175473|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|15.68|||<|0.001|TWO_SIDED|95.0|13.09|18.78||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on S-PMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||18.78|13.09|<0.001
92185611|NCT01918033|184270132|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.699|TWO_SIDED|95.0|-0.19|0.13|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Nasal Itching at Week 2|||0.13|-0.19|0.699
92185612|NCT01918033|184270133|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.06||||0.414|TWO_SIDED|95.0|-0.2|0.08|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Eye Symptom Score at Week 2|||0.08|-0.20|0.414
92185613|NCT01918033|184270133|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.08||||0.281|TWO_SIDED|95.0|-0.22|0.06|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Eye Symptom Score at Week 2|||0.06|-0.22|0.281
92185614|NCT04679675|184270134|SUPERIORITY||Risk Ratio (RR)|1.3||||0.05|TWO_SIDED|95.0|1.23|1.36|||Poisson Regression with GEE|||Primary analysis stratified by screening history. These results are for Screening-Adherent (population):Direct-Mail versus Education analysis.||1.36|1.23|0.05
92185615|NCT04679675|184270134|SUPERIORITY||Risk Ratio (RR)|1.07||||0.05|TWO_SIDED|95.0|1.02|1.12|||Poisson Regression with GEE|||Primary analysis stratified by screening history. These results are for Screening-Adherent (population):Opt-In versus Education analysis.||1.12|1.02|.05
92185616|NCT04679675|184270134|SUPERIORITY||Risk Ratio (RR)|1.9||||0.05|TWO_SIDED|95.0|1.68|2.16|||Poisson Regression with GEE|||Primary analysis stratified by screening history. These results are for Screening-Overdue (population):Direct-Mail versus Education analysis.||2.16|1.68|.05
92185617|NCT04679675|184270134|SUPERIORITY||Risk Ratio (RR)|1.14||||0.05|TWO_SIDED|95.0|1.03|1.25|||Poisson Regression with GEE|||Primary analysis stratified by screening history. These results are for Screening-Unknown (population):Opt-In versus Education analysis.||1.25|1.03|.05
92185618|NCT01702259|184270150|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92185619|NCT01702259|184270151|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
92185620|NCT01702259|184270152|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92185621|NCT01702259|184270153|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92185622|NCT01494467|184270155|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92295649|NCT00407745|184496286|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.412||0.2005|TWO_SIDED|95.0|-1.34|0.28||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Cold Hyperalgesia Subscales as a covariate and pooled center and treatment as fixed (class) cofactors.||"Below level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.28|-1.34|0.2005
92295650|NCT00407745|184496287|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.025||0.1377|TWO_SIDED|95.0|-0.09|0.01||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - 12 Items Total Intensity Score as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.01|-0.09|0.1377
92185623|NCT01494467|184270156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.22|||<|0.001|TWO_SIDED|95.0|-10.18|-6.25|||ANCOVA|||||-6.25|-10.18|<0.001
92185624|NCT01494467|184270157|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92185625|NCT01137682|184270191|SUPERIORITY||Odds Ratio (OR)|16.63||||0.0006|TWO_SIDED|95.0|3.32||infinity||Regression, Logistic|An exact logistic regression model that adjusts for the randomization stratification factors was used to test the null hypothesis.|||||3.32|0.0006
92185626|NCT01137682|184270191|SUPERIORITY||Odds Ratio (OR)|23.03|||<|0.0001|TWO_SIDED|95.0|4.72||infinity||Regression, Logistic|An exact logistic regression model that adjusts for the randomization stratification factors was used to test the null hypothesis.|||||4.72|<0.0001
92185627|NCT02009332|184270206|OTHER||maximum deliverable dose (MDD)|400.0|||||TWO_SIDED||||||||Maximum deliverable dose (MDD) was not reached in the Phase 1 study as no DLTs were observed in any of the dose groups up to ABI-009 400 mg/week.|||||
92185628|NCT03386344|184270231|SUPERIORITY||Difference in Least Squares (LS) Means|-0.45|STANDARD_ERROR_OF_MEAN|0.102|<|0.0001|TWO_SIDED|95.0|-0.649|-0.25|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline HbA1c as a covariate.||-0.250|-0.649|<0.0001
92185629|NCT03386344|184270231|SUPERIORITY||Difference in LS Means|-0.43|STANDARD_ERROR_OF_MEAN|0.102|<|0.0001|TWO_SIDED|95.0|-0.634|-0.235|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline HbA1c as a covariate.||-0.235|-0.634|<0.0001
92185630|NCT03386344|184270232|SUPERIORITY||Difference in LS Means|-0.24|STANDARD_ERROR_OF_MEAN|0.423||0.5707|TWO_SIDED|95.0|-1.07|0.59|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline BMD as a covariate.||0.590|-1.070|0.5707
92185631|NCT03386344|184270232|SUPERIORITY||Difference in LS Means|-0.15|STANDARD_ERROR_OF_MEAN|0.419||0.7247|TWO_SIDED|95.0|-0.969|0.674|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline BMD as a covariate.||0.674|-0.969|0.7247
92185632|NCT03386344|184270233|SUPERIORITY||Difference in LS Means|0.14|STANDARD_ERROR_OF_MEAN|0.308||0.6454|TWO_SIDED|95.0|-0.462|0.745|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline lumbar spine as a covariate.||0.745|-0.462|0.6454
92185633|NCT03386344|184270233|SUPERIORITY||Difference in LS Means|0.19|STANDARD_ERROR_OF_MEAN|0.308||0.5289|TWO_SIDED|95.0|-0.41|0.798|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline lumbar spine as a covariate.||0.798|-0.410|0.5289
92145602|NCT01970982|184175474|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|47.1|||<|0.001|TWO_SIDED|95.0|44.3|50.08||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on COHb levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||50.08|44.30|<0.001
92145603|NCT03364751|184175516|OTHER||LS Mean Difference|0.068||||0.297|TWO_SIDED|95.0|-0.06|0.196|||Mixed Models Analysis|||Month 6: Difference between Cigarette and IQOS||0.196|-0.060|0.297
92145604|NCT03364751|184175516|OTHER||LS Mean Difference|-0.064||||0.55|TWO_SIDED|95.0|-0.273|0.146|||Mixed Models Analysis|||Month 6: Difference between Cigarette and Dual Use||0.146|-0.273|0.550
92185634|NCT03386344|184270234|SUPERIORITY||Difference in LS Means|0.75|STANDARD_ERROR_OF_MEAN|0.462||0.105|TWO_SIDED|95.0|-0.157|1.654|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline BMD as a covariate.||1.654|-0.157|0.1050
92185635|NCT03386344|184270234|SUPERIORITY||Difference in LS Means|0.32|STANDARD_ERROR_OF_MEAN|0.46||0.4804|TWO_SIDED|95.0|-0.577|1.226|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline BMD as a covariate.||1.226|-0.577|0.4804
92145605|NCT03364751|184175517|OTHER||LS Mean Difference|0.043||||0.502|TWO_SIDED|95.0|-0.084|0.171|||Mixed Models Analysis|||Month 3: Difference between Cigarette and IQOS||0.171|-0.084|0.502
92145606|NCT03364751|184175517|OTHER||LS Mean Difference|-0.02||||0.851|TWO_SIDED|95.0|-0.229|0.189|||Mixed Models Analysis|||Month 3: Difference between Cigarette and Dual Use||0.189|-0.229|0.851
92145607|NCT03364751|184175518|OTHER||LS Mean Difference|0.07||||0.376|TWO_SIDED|95.0|-0.085|0.224|||Mixed Models Analysis|||Month 3: Difference between Cigarette and IQOS||0.224|-0.085|0.376
92145608|NCT03364751|184175518|OTHER||LS Mean Difference|0.025||||0.848|TWO_SIDED|95.0|-0.229|0.279|||Mixed Models Analysis|||Month 3: Difference between Cigarette and DualUse||0.279|-0.229|0.848
92145609|NCT03364751|184175518|OTHER||LS Mean Difference|0.092||||0.246|TWO_SIDED|95.0|-0.064|0.247|||Mixed Models Analysis|||Month 6: Difference between Cigarette and IQOS||0.247|-0.064|0.246
92295651|NCT00407745|184496288|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.038||0.3312|TWO_SIDED|95.0|-0.11|0.04||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Burning Spontaneous Pain as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.04|-0.11|0.3312
92145610|NCT03364751|184175518|OTHER||LS Mean Difference|-0.105||||0.417|TWO_SIDED|95.0|-0.359|0.15|||Mixed Models Analysis|||Month 6: Difference between Cigarette and Dual Use||0.150|-0.359|0.417
92145611|NCT02413580|184175534|OTHER|The hypothesis test is to test the null hypothesis: H0: μd = 0 versus alternative hypothesis Ha: μd ≠ 0 where μd is the mean change from Baseline to Day 14. The Shapiro-Wilk test is used to test the normality. If the assumptions for parametric test are met, a paired t-test (comparison between the pre- and post-treatment) is used to test for the treatment effect. Otherwise, a non-parametric test (Wilcoxon signed rank test) is used.|Mean Difference (Final Values)|-6.4|||<|0.001|TWO_SIDED|95.0|-7.957|-4.787|||Paired t-test|||||-4.787|-7.957|<0.001
92145612|NCT02342886|184175538|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% confidence interval (CI) for the difference between the percentage of patients who are classified as having an unfavourable status on the intervention (6 months moxifloxacin + 200 mg PA-824 + pyrazinamide) and the control regimen (2 months HRZE/ 4 months HR). The intervention was considered to be non-inferior to the control arm if the upper bound 95% CI was \< 12%.|Treatment difference: unfavourable rate|9.88|||||TWO_SIDED|95.0|-4.13|23.89|||||(DS-TB: 6 Months Moxifloxacin + PA-824 (200 mg) + Pyrazinamide) - (DS-TB: 2 Months HRZE/ 4 Months HR).|||23.89|-4.13|
92145613|NCT02342886|184175539|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavourable status on the intervention (6 months moxifloxacin + 200 mg PA-824 + pyrazinamide) and the control regimen (2 months HRZE/ 4 months HR). The intervention was considered to be non-inferior to the control arm if the upper bound 95% CI was \< 12%.|Treatment difference: unfavourable rate|6.62|||||TWO_SIDED|95.0|-2.15|15.4|||||(DS-TB: 6 Months Moxifloxacin + PA-824 (200 mg) + Pyrazinamide) - (DS-TB: 2 Months HRZE/ 4 Months HR).|||15.40|-2.15|
92145614|NCT03015402|184175547|SUPERIORITY|Pre-randomization characteristics of 2 groups will be presented using the median (IQR) or frequency tables at each study sequence. The difference of mPAP during submax exercise compared between placebo and nitrite at 10 weeks (i.e. week 10 RHC of placebo vs week 10 RHC of nitrite) using parametric PK-cross analysis (i.e. ANOVA to determine the sequence, period, carryover, \& treatment effects). Post-exercise values before \& after crossover will be compared between 2 groups using similar approach.||||||0.2|||||||ANOVA|||||||0.20
92185636|NCT03386344|184270235|SUPERIORITY||Difference in LS Means|-1.91|STANDARD_ERROR_OF_MEAN|0.336|<|0.0001|TWO_SIDED|95.0|-2.568|-1.252|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline body weight as a covariate.||-1.252|-2.568|<0.0001
92145615|NCT01163097|184175585|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence of the treatments was assessed using the 90% confidence interval (CI) of the geometric mean ratio for Ki67. The lower bound of the CI needed to be greater than 0.70 and the upper bound needed to be below 1.43 for the treatments to be considered equivalent.|Geometric mean ratio|0.863|||||TWO_SIDED|90.0|0.759|0.982|||ANCOVA|ANCOVA was used to estimate the treatment effect and the Schuirmann's two one-sided test was used to test for statistical equivalence.||H0: mean ratio\<0.7 or mean ratio\>1.43; H1: 0.7\< mean ratio \<1.43 Sample size calculation assumed change in Ki67 expression following palifermin administration would not be affected by co-administration of heparin. With n=26 (13 + 13), an approx. 80% probability that the 90% CI of the ratio of geometric means of Ki67 for palifermin when co-administered with heparin compared to palifermin alone would fall in the interval (0.7, 1.43). This assumed a Coefficient of Variation (CV) for Ki67 of 31%.||0.982|0.759|
92145616|NCT01163097|184175587|SUPERIORITY_OR_OTHER||Geometric mean|0.737|||||TWO_SIDED|95.0|0.614|0.885|||ANCOVA|ANCOVA (with dependent variable:natural log of the ratio to baseline, independent variable:treatment, covariate:natural log of the baseline value)||80% power achieved for detecting a 20% increase (or 17% reduction) when Treatment A was compared to Treatment B; assuming that the coefficient of variation of amylase would be 14% (as observed in other study)||0.885|0.614|
92145617|NCT01163097|184175588|SUPERIORITY_OR_OTHER||Geometric mean|0.373|||||TWO_SIDED|95.0|0.216|0.645|||ANCOVA|ANCOVA (with dependent variable:natural log of the ratio to baseline, independent variable:treatment, covariate:natural log of the baseline value)||80% power achieved for detecting a 70% increase (or 41% reduction) when Treatment A was compared to Treatment B; assuming that the coefficient of variation of lipase would be 49% (as observed in other study)||0.645|0.216|
92145618|NCT01163097|184175589|SUPERIORITY_OR_OTHER||Geometric mean|0.972|||||TWO_SIDED|95.0|0.768|1.231|||ANCOVA|ANCOVA (with dependent variable:natural log of the ratio to baseline, independent variable:treatment, covariate:natural log of the baseline value)||80% power achieved for detecting a 140% increase with 13 and 6 subjects (respectively) when Treatment B was compared to Treatment C; assuming that the coefficient of variation of the protein/creatinine ratio would be 67% (Ginsberg et al 1983)||1.231|0.768|
92145619|NCT01163097|184175590|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
92145620|NCT01163097|184175591|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
92145621|NCT01163097|184175592|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
92145622|NCT01163097|184175593|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
92145623|NCT01163097|184175594|SUPERIORITY_OR_OTHER|||||||0.4123||90.0|||||ANOVA|||||||0.4123
92185637|NCT03386344|184270235|SUPERIORITY||Difference in LS Means|-1.7|STANDARD_ERROR_OF_MEAN|0.335|<|0.0001|TWO_SIDED|95.0|-2.36|-1.046|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline body weight as a covariate.||-1.046|-2.360|<0.0001
92185638|NCT03386344|184270236|SUPERIORITY||Difference in LS Means|-18.891|STANDARD_ERROR_OF_MEAN|4.5766|<|0.0001|TWO_SIDED|95.0|-27.8605|-9.9205|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, baseline fasting plasma glucose as a covariate.||-9.9205|-27.8605|<0.0001
92145624|NCT01163097|184175595|SUPERIORITY_OR_OTHER|||||||0.9944||90.0|||||ANOVA|||||||0.9944
92145625|NCT01163097|184175596|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
92145626|NCT01163097|184175597|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
92145627|NCT02510144|184175614|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||Negative cultures were compared on the treated side vs the non-treated side||||0.68
92145628|NCT02510144|184175614|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||Negative cultures were compared on the treated side versus the non-treated side||||<0.01
92145629|NCT00182754|184175623|SUPERIORITY|||||||0.17|||||||Log Rank|||||||0.17
92145630|NCT00541450|184175629|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|For Least Squares Mean, the ANCOVA model included a term for treatment and the baseline value as a covariate.||||||0.002
92145631|NCT00541450|184175630|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|For Least Squares Mean, the ANCOVA model included a term for treatment and the baseline value as a covariate.||||||0.001
92145632|NCT00541450|184175631|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.16||||||95.0|-0.37|0.05|||ANCOVA|For Least Squares Mean, the ANCOVA model included a term for treatment and the baseline value as a covariate.||||0.05|-0.37|
92145633|NCT00541450|184175633|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANCOVA|For Least Squares Mean, the ANCOVA model included a term for treatment and the baseline value as a covariate.||||||0.030
92145634|NCT00981084|184175635|SUPERIORITY_OR_OTHER||||||=|0.19||95.0|||||t-test, 2 sided|||We used a crossover design to exame whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the RVLT learning, yeilding a difference score. we conducted an independent samples t test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||= .19
92145635|NCT00981084|184175635|SUPERIORITY_OR_OTHER||||||=|0.0005||95.0|||||t-test, 2 sided|||We used a crossover design to exame whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the RVLT delay, yielding a difference score. we conducted an independent samples t test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||= .0005
92145636|NCT00981084|184175635|SUPERIORITY_OR_OTHER||||||=|0.21||95.0|||||t-test, 2 sided|||We used a crossover design to exame whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the BVMT learning, yeilding a difference score. we conducted an independent samples t test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||= .21
92295652|NCT00407745|184496289|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.033||0.044|TWO_SIDED|95.0|-0.13|0.0||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Pressing Spontaneous Pain as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.00|-0.13|0.0440
92145637|NCT00981084|184175635|SUPERIORITY_OR_OTHER||||||=|0.1||95.0|||||t-test, 2 sided|||We used a crossover design to exame whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the BVMT delay, yielding a difference score. we conducted an independent samples t test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||= .10
92145638|NCT00981084|184175636|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||t-test, 2 sided|||We used a crossover design to exame whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the CPT, yielding a difference score. we conducted an independent samples t test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||.33
92145639|NCT00981084|184175637|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||t-test, 2 sided|||We used a crossover design to examine whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the Stroop, yielding a difference score. We conducted an independent samples t-test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||.37
92145640|NCT00981084|184175638|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||t-test, 2 sided|||We used a crossover design to examine whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the Word Generation, yielding a difference score. We conducted an independent samples t-test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||.53
92145641|NCT01112579|184175639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4||||0.3|TWO_SIDED|95.0|-2.0|14.9|||ANCOVA|||||14.9|-2.0|0.3
92145642|NCT01112579|184175640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-106.1||||0.79|TWO_SIDED|95.0|-845.8|633.6|||ANCOVA|||||633.6|-845.8|0.79
92145643|NCT01112579|184175641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.93|TWO_SIDED|95.0|-1.6|3.2|||ANCOVA|||||3.2|-1.6|0.93
92145644|NCT03053050|184175694|SUPERIORITY||Percentage Difference|-2.1||||0.4941|TWO_SIDED|95.0|-8.3|4.0||Difference between SEL 18 mg and Placebo, 95% confidence interval (CI) and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and Enhanced Liver Fibrosis (ELF) test score as stratification factors.|Mantel Haenszel|||||4.0|-8.3|0.4941
92145645|NCT03053050|184175694|SUPERIORITY||Percentage Difference|-0.3||||0.9321|TWO_SIDED|95.0|-6.6|6.0||Difference between SEL 6 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||6.0|-6.6|0.9321
92145646|NCT03053050|184175696|SUPERIORITY||Percentage Difference|-4.0||||0.2593|TWO_SIDED|95.0|-10.8|2.9||Difference between SEL 18 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||2.9|-10.8|0.2593
92145647|NCT03053050|184175696|SUPERIORITY||Percentage Difference|-0.9||||0.808|TWO_SIDED|95.0|-7.9|6.1||Difference between SEL 6 mg vs Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||6.1|-7.9|0.8080
92145648|NCT03053050|184175698|SUPERIORITY||Percentage Difference|-2.0||||0.5636|TWO_SIDED|95.0|-8.7|4.8||Difference between SEL 18 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||4.8|-8.7|0.5636
92145649|NCT03053050|184175698|SUPERIORITY||Percentage Difference|-1.9||||0.5915|TWO_SIDED|95.0|-8.6|4.9||Difference between SEL 6 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||4.9|-8.6|0.5915
92145650|NCT03053050|184175700|SUPERIORITY||Percentage Difference|-3.2||||0.2455|TWO_SIDED|95.0|-8.5|2.2||Difference between SEL 18 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||2.2|-8.5|0.2455
92145651|NCT03053050|184175700|SUPERIORITY||Percentage Difference|-4.0||||0.1371|TWO_SIDED|95.0|-9.3|1.3||Difference between SEL 6 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||1.3|-9.3|0.1371
92145652|NCT01337674|184175738|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Met versus PBO + Met is \<20 mmHg|Mean Difference (Final Values)|-1.22|||||TWO_SIDED|90.0|-8.42|5.98|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Semi-recumbent, Day 1||5.98|-8.42|
92145653|NCT01337674|184175738|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Met versus PBO + Met is \<20 mmHg|Mean Difference (Final Values)|2.29|||||TWO_SIDED|90.0|-4.92|9.49|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Semi-recumbent, Day 7||9.49|-4.92|
92145654|NCT01337674|184175738|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Met versus PBO + Met is \<20 mmHg|Mean Difference (Final Values)|1.65|||||TWO_SIDED|90.0|-5.31|8.62|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Standing, Day 1||8.62|-5.31|
92145655|NCT01337674|184175738|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Met versus PBO + Met is \<20 mmHg|Mean Difference (Final Values)|-1.09|||||TWO_SIDED|90.0|-8.06|5.88|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Standing, Day 7||5.88|-8.06|
92145656|NCT01337674|184175739|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Amlo versus PBO + Amlo is \<20 mmHg|Mean Difference (Final Values)|1.95|||||TWO_SIDED|90.0|-2.85|6.75|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Semi-recumbent, Day 1||6.75|-2.85|
92145657|NCT01337674|184175739|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Amlo versus PBO + Amlo is \<20 mmHg|Mean Difference (Final Values)|-5.91|||||TWO_SIDED|90.0|-10.71|-1.11|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Semi-recumbent, Day 7||-1.11|-10.71|
92145658|NCT01337674|184175739|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Amlo versus PBO + Amlo is \<20 mmHg|Mean Difference (Final Values)|-6.25|||||TWO_SIDED|90.0|-11.47|-1.03|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Standing, Day 1||-1.03|-11.47|
92145659|NCT01337674|184175739|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Amlo versus PBO + Amlo is \<20 mmHg|Mean Difference (Final Values)|-1.57|||||TWO_SIDED|90.0|-6.79|3.65|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Standing, Day 7||3.65|-6.79|
92145660|NCT01787097|184175755|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92145661|NCT02293395|184175781|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.584|TWO_SIDED|95.0|0.8|1.5|||Log Rank|||||1.5|0.8|0.584
92145662|NCT01023568|184175801|NON_INFERIORITY_OR_EQUIVALENCE|The GlideScope and Truview PCD video laryngoscopes were individually assessed for non-inferiority on time to intubation vs direct laryngoscopy at the 0.025 significance level using an a priori specified non-inferiority delta of seven seconds (about 40% of the expected standard deviation of 18 sec and not thought to be clinically important).|Median Difference (Final Values)|14.0|||>|0.99|TWO_SIDED|95.0|7.0|26.0|||Wilcoxon (Mann-Whitney)||Glidescope - direct laryngoscopy|||26|7|>0.99
92145663|NCT01023568|184175801|NON_INFERIORITY_OR_EQUIVALENCE|The GlideScope and Truview PCD video laryngoscopes were individually assessed for non-inferiority on time to intubation vs direct laryngoscopy at the 0.025 significance level using an a priori specified non-inferiority delta of seven seconds (about 40% of the expected standard deviation of 18 sec and not thought to be clinically important).|Median Difference (Final Values)|17.0|||>|0.99|TWO_SIDED|95.0|6.0|28.0|||Wilcoxon (Mann-Whitney)||Truview PCD - direct laryngoscopy|||28|6|>0.99
92185639|NCT03386344|184270236|SUPERIORITY||Difference in LS Means|-21.333|STANDARD_ERROR_OF_MEAN|4.5902|<|0.0001|TWO_SIDED|95.0|-30.3294|-12.336|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, baseline fasting plasma glucose as a covariate.||-12.3360|-30.3294|<0.0001
92145664|NCT01023568|184175802|SUPERIORITY_OR_OTHER|||||||0.28|||||||ANOVA|||||||0.28
92145665|NCT01023568|184175803|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0|||>|0.99|TWO_SIDED|95.0|1.0|2.0|||Wilcoxon (Mann-Whitney)|1-tailed Wilcoxon sum-rank test|"The median difference was Hodges-Lehmann estimation and the confidence intervals were exact confidence limits. The SAS NPAR1WAY procedure was used for test and estimation."|The Cormack-Lehane grade with a grade 1 (best grade) to 4 (worst grade) was analyzed as an ordinal outcome.||2|1|> 0.99
92145666|NCT01023568|184175803|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.18|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|1-tailed Wilcoxon sum-rank test|"The median difference was Hodges-Lehmann estimation and the confidence intervals were exact confidence limits. The SAS NPAR1WAY procedure was used for test and estimation."|The Cormack-Lehane grade with a grade 1 (best grade) to 4 (worst grade) was analyzed as an ordinal outcome.||0|0|0.18
92145667|NCT01023568|184175804|SUPERIORITY_OR_OTHER|||||||0.26|||||||ANOVA|||||||0.26
92145668|NCT01023568|184175805|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Chi-squared|||||||>0.99
92145669|NCT00224770|184175806|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.3|STANDARD_ERROR_OF_MEAN|6.6||0.324|ONE_SIDED|95.0||16.2|||Fisher Exact|One-sided test|MISTIE rate=14.8, 95% upper limit=25.1; medical rate=9.5, 95% upper limit=20.5; comparison considers MISTIE rate minus medical rate.|Null hypothesis is that rate of mortality within 30 days is the same between the two groups. The alternative hypothesis tests whether MISTIE surgical management has a higher rate of mortality than the medical arm.||16.2||0.324
92145670|NCT00224770|184175806|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.4|STANDARD_ERROR_OF_MEAN|8.2||0.633|ONE_SIDED|95.0||11.2|||Fisher Exact|One-sided test|ICES rate=7.1, 95% upper limit=29.7; medical rate=9.5, 95% upper limit=20.5; comparison considers ICES rate minus medical rate.|Null hypothesis is that rate of mortality within 30 days is the same between the two groups. The alternative hypothesis tests whether ICES surgical management has a higher rate of mortality than the medical arm.||11.2||0.633
92185640|NCT03386344|184270237|SUPERIORITY||Difference in LS Means|-0.8|STANDARD_ERROR_OF_MEAN|1.48||0.5864|TWO_SIDED|95.0|-3.705|2.095|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline SBP as a covariate.||2.095|-3.705|0.5864
92185641|NCT03386344|184270237|SUPERIORITY||Difference in LS Means|-1.16|STANDARD_ERROR_OF_MEAN|1.478||0.4315|TWO_SIDED|95.0|-4.058|1.734|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline SBP as a covariate.||1.734|-4.058|0.4315
92185642|NCT03386344|184270238|SUPERIORITY||Percentage Difference|10.5||||0.0172|TWO_SIDED|95.0|1.78|19.23|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups from randomization strata of HbA1c (≤8.5, \>8.5%) at screening and randomization strata of sex (male, female) using Cochran-Mantel-Haenszel weights.||19.23|1.78|0.0172
92185643|NCT03386344|184270238|SUPERIORITY||Percentage Difference|12.0||||0.0076|TWO_SIDED|95.0|3.23|20.86|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups from randomization strata of HbA1c (≤8.5, \>8.5%) at screening and randomization strata of sex (male, female) using Cochran-Mantel-Haenszel weights.||20.86|3.23|0.0076
92185644|NCT01077284|184270240|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.001
92295653|NCT00407745|184496290|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.033||0.137|TWO_SIDED|95.0|-0.12|0.02||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Paroxysmal Pain as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.02|-0.12|0.1370
92185645|NCT01077284|184270240|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||0.003
92185646|NCT01077284|184270241|SUPERIORITY_OR_OTHER|||||||0.13||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||0.130
92185647|NCT01077284|184270241|SUPERIORITY_OR_OTHER|||||||0.348||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||0.348
92185648|NCT01077284|184270242|SUPERIORITY_OR_OTHER|||||||0.403||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||0.403
92185649|NCT01077284|184270242|SUPERIORITY_OR_OTHER|||||||0.413||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||0.413
92185650|NCT01077284|184270243|SUPERIORITY_OR_OTHER|||||||0.5535||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|ANOVA|P-values are from ANOVA with treatment as a fixed effect.||||||0.5535
92185651|NCT01077284|184270243|SUPERIORITY_OR_OTHER|||||||0.94||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|ANOVA|P-values are from ANOVA with treatment as a fixed effect.||||||0.9400
92185652|NCT02791308|184270244|EQUIVALENCE|Proportion of Subjects with Treatment Success at Visit 4/Day 15|Other|0.407|||||TWO_SIDED|90.0|-15.57|3.53||||||Percentage of Subjects with Treatment Success at Visit 4/Day 15||3.53|-15.57|
92185653|NCT00674765|184270262|SUPERIORITY_OR_OTHER|||||||0.388|||||||t-test, 2 sided|t=.87||||||.388
92185654|NCT00700999|184270270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92|STANDARD_DEVIATION|0.9||0.001|TWO_SIDED|95.0|-1.38|-0.45|||t-test, 2 sided|||||-0.45|-1.38|.001
92185655|NCT00700999|184270270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_DEVIATION|1.78||0.869|TWO_SIDED|95.0|-0.84|0.99|||t-test, 2 sided|||||.99|-.84|.869
92185656|NCT02379078|184270271|SUPERIORITY|||||||0.0246|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.0246
92185657|NCT02379078|184270272|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
92185658|NCT02379078|184270273|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|||||||0.12
92185659|NCT02379078|184270274|SUPERIORITY|||||||0.468|||||||Mixed Models Analysis|||||||0.468
92185660|NCT02379078|184270275|SUPERIORITY|||||||0.6|||||||ANOVA|||||||0.60
92185661|NCT00244751|184270285|SUPERIORITY_OR_OTHER|||||||0.3608|||||||reduced regression model|||||||0.3608
92185662|NCT00244751|184270285|SUPERIORITY_OR_OTHER|||||||0.3575|||||||reduced regression model|||||||0.3575
92185663|NCT00244751|184270286|SUPERIORITY_OR_OTHER|||||||0.9157|||||||reduced regression model|||||||0.9157
92185664|NCT00244751|184270286|SUPERIORITY_OR_OTHER|||||||0.9501|||||||reduced regression model|||||||0.9501
92185665|NCT00244751|184270287|SUPERIORITY_OR_OTHER|||||||0.6483|||||||Cochran-Mantel-Haenszel Test|||Comparison for Ranked assessment (fibrosis)||||0.6483
92185666|NCT00244751|184270287|SUPERIORITY_OR_OTHER|||||||0.1776|||||||Cochran-Mantel-Haenszel Test|||Comparison for Ranked assessment (necrosis)||||0.1776
92185667|NCT02077374|184270313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.0||||0.0195|TWO_SIDED|95.0|-30.7|-2.5|||Wilcoxon (Mann-Whitney)||Based on Hodges-Lehmann estimator|Statistical Analysis for the difference in mean change in alanine aminotransferase (ALT) from Baseline to Day28/ET between IDN-6556 and placebo||-2.5|-30.7|0.0195
92295654|NCT00407745|184496291|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.028||0.8911|TWO_SIDED|95.0|-0.06|0.05||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Evoked pain as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.05|-0.06|0.8911
92185668|NCT02077374|184270315|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.8||||0.8724|TWO_SIDED|95.0|-14.5|11.2|||Wilcoxon (Mann-Whitney)||Based on Hodges-Lehmann estimator|Statistical Analysis for the difference in change in aspartate aminotransferase (AST) from baseline to Day 28/ET between IDN-6556 and placebo||11.2|-14.5|0.8724
92295655|NCT00407745|184496292|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.034||0.3731|TWO_SIDED|95.0|-0.1|0.04||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Paresthesia/Dysesthesia as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.04|-0.10|0.3731
92145671|NCT00224770|184175807|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.6|STANDARD_ERROR_OF_MEAN|3.1||0.174|ONE_SIDED|95.0||11.7|||Fisher Exact|One-sided test|MISTIE rate=5.6, 95% upper limit=13.7; medical rate=0.0, 95% upper limit=6.9; comparison considers MISTIE rate minus medical rate.|Null hypothesis is that rate of procedure-related mortality within 7 days is the same between the two groups. The alternative hypothesis tests whether MISTIE surgical management has a higher rate of procedure-related mortality than the medical arm.||11.7||0.174
92145672|NCT00224770|184175808|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.4|STANDARD_ERROR_OF_MEAN|2.4||0.437|ONE_SIDED|95.0||1.5|||Fisher Exact|One-sided test|MISTIE rate=0.0, 95% upper limit=5.4; medical rate=2.4, 95% upper limit=10.8; comparison considers MISTIE rate minus medical rate.|Null hypothesis is that rate of cerebritis, meningitis and ventriculitis within 30 days is the same between the two groups. The alternative hypothesis tests whether MISTIE surgical management has a higher rate of these infections than medical.||1.5||0.437
92145673|NCT00224770|184175808|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.4|STANDARD_ERROR_OF_MEAN|2.4||0.75|ONE_SIDED|95.0||1.5|||Fisher Exact|One-sided test|ICES rate=0.0, 95% upper limit=19.3; medical rate=2.4, 95% upper limit=10.8; comparison considers ICES rate minus medical rate.|Null hypothesis is that rate of cerebritis, meningitis and ventriculitis within 30 days is the same between the two groups. The alternative hypothesis tests whether ICES surgical management has a higher rate of these infections than medical.||1.5||0.750
92145674|NCT00224770|184175809|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.2|STANDARD_ERROR_OF_MEAN|3.9||0.409|ONE_SIDED|95.0||9.6|||Fisher Exact|One-sided test|MISTIE rate=5.6, 95% upper limit=13.7; medical rate=2.4, 95% upper limit=10.8; comparison considers MISTIE rate minus medical rate|Null hypothesis is that rate of symptomatic rebleeding 72 hours post last dose is the same between the two groups. The alternative hypothesis tests whether MISTIE surgical management has a higher rate of symptomatic rebleeding than the medical arm.||9.6||0.409
92145675|NCT00224770|184175809|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.4|STANDARD_ERROR_OF_MEAN|2.4||0.75|ONE_SIDED|95.0||2.2|||Fisher Exact|One-sided test|ICES rate=0.0, 95% upper limit=19.3; medical rate=2.4, 95% upper limit=10.8; comparison considers ICES rate minus medical rate|Null hypothesis is that rate of symptomatic rebleeding 72 hours post last dose is the same between the two groups. The alternative hypothesis tests whether ICES surgical management has a higher rate of symptomatic rebleeding than the medical arm.||2.2||0.750
92145676|NCT00224770|184175810|SUPERIORITY_OR_OTHER|||||||0.468|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of the mRS values for both groups are the same. The alternative hypothesis is that the distributions are not the same.||||0.468
92145677|NCT00224770|184175810|SUPERIORITY_OR_OTHER|||||||0.294|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of the mRS values for both groups are the same. The alternative hypothesis is that the distributions are not the same.||||0.294
92145678|NCT00224770|184175811|SUPERIORITY_OR_OTHER|||||||0.395|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of the mRS values for both groups are the same. The alternative hypothesis is that the distributions are not the same.||||0.395
92145679|NCT00224770|184175811|SUPERIORITY_OR_OTHER|||||||0.175|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of the mRS values for both groups are the same. The alternative hypothesis is that the distributions are not the same.||||0.175
92145680|NCT00224770|184175812|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of percentage of blood clot resolved are the same between the two groups. The alternative hypothesis is that the distributions are not the same.||||<0.0001
92145681|NCT00224770|184175812|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of percentage of blood clot resolved are the same between the two groups. The alternative hypothesis is that the distributions are not the same.||||<0.0001
92145682|NCT00224770|184175813|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Sign test|Two-sided test||Null hypothesis is that the median percent resolved is 0. The alternative hypothesis is that the median percent resolved is not equal to 0.||||<0.0001
92145683|NCT00224770|184175813|SUPERIORITY_OR_OTHER|||||||0.791|TWO_SIDED||||||Sign test|Two-sided||Null hypothesis is that the median percent resolved is 0. The alternative hypothesis is that the median percent resolved is not equal to 0.||||0.791
92145684|NCT00224770|184175814|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.9|STANDARD_ERROR_OF_MEAN|9.5||0.189|ONE_SIDED|95.0||26.6|||Fisher Exact|One-sided test|MISTIE rate=34.6, 95% upper limit=46.9; medical rate=23.7, 95% upper limit=37.7; comparison considers MISTIE rate minus medical rate.|Null hypothesis is that the proportion with mRS score of 0-3 at 180 days is the same between the two groups. The alternative hypothesis tests whether MISTIE surgical management has a higher proportion than the medical arm.||26.6||0.189
92145685|NCT00224770|184175814|SUPERIORITY_OR_OTHER||Risk Difference (RD)|19.2|STANDARD_ERROR_OF_MEAN|14.9||0.156|ONE_SIDED|95.0||43.7|||Fisher Exact|One-sided test|ICES rate=42.9, 95% upper limit=67.5; medical rate=23.7, 95% upper limit=37.7; comparison considers ICES rate minus medical rate.|Null hypothesis is that the proportion with mRS score of 0-3 at 180 days is the same between the two groups. The alternative hypothesis tests whether ICES surgical management has a higher proportion than the medical arm.||43.7||0.156
92145686|NCT01106430|184175815|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.001||95.0|||||Peto-Peto-Prentice Wilcoxon Test|||||||=0.001
92145687|NCT01106430|184175816|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.1||||0.001|TWO_SIDED|95.0|7.5|28.7|||Cochran-Mantel-Haenszel|||||28.7|7.5|0.001
92145688|NCT01106430|184175817|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-6.5|||<|0.001|TWO_SIDED|95.0|-9.3|-3.6|||ANCOVA|||||-3.6|-9.3|<0.001
92145689|NCT01106430|184175818|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.09||||0.046|TWO_SIDED|95.0|-0.17|0.0|||ANCOVA|||||-0.00|-0.17|0.046
92145690|NCT00437645|184175823|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis for non-inferiority of valsartan/amlodipine 160/5 mg to amlodipine 10 mg alone with a non-inferiority margin of 3 mm Hg|Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|95.0|-3.0|-0.44|||ANCOVA|||||-0.44|-3.00|
92145691|NCT00297115|184175828|SUPERIORITY_OR_OTHER||Mean Difference (Net)|58.0|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|95.0|41.0|75.0||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||75|41|<0.0001
92145692|NCT00297115|184175829|SUPERIORITY_OR_OTHER||Rate ratio|0.815|STANDARD_ERROR_OF_MEAN|0.057||0.0035|TWO_SIDED|95.0|0.71|0.935||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|Poisson regression|||||0.935|0.710|0.0035
92295656|NCT00407745|184496293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.383||0.3312|TWO_SIDED|95.0|-1.13|0.38||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 1 - Burning pain~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.38|-1.13|0.3312
92145693|NCT00297115|184175830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|61.0|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|95.0|44.0|79.0||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||79|44|<0.0001
92295657|NCT00407745|184496293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.377||0.0976|TWO_SIDED|95.0|-1.37|0.12||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 2 - Squeezing pain~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.12|-1.37|0.0976
92145694|NCT00297115|184175831|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.213|STANDARD_ERROR_OF_MEAN|0.35||0.5028|TWO_SIDED|95.0|0.689|2.137||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|Cox proportional hazards regression||The statistical analysis is based on the ITT Analysis Set (n= 772 in the roflumilast group, n= 796 in the placebo group).|||2.137|0.689|0.5028
92145695|NCT00297115|184175832|SUPERIORITY_OR_OTHER||Mean Difference calculated as ratio|1.0593||||0.3627|TWO_SIDED|95.0|0.9356|1.1994||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|ANCOVA model including last observation carried forward (LOCF) method||||1.1994|0.9356|0.3627
92145696|NCT00297115|184175833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.286|STANDARD_ERROR_OF_MEAN|0.104||0.0059|TWO_SIDED|95.0|0.082|0.489||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||0.489|0.082|0.0059
92145697|NCT00175825|184175845|SUPERIORITY_OR_OTHER||Percent reduction over Placebo|9.8|||=|0.24|TWO_SIDED|95.0|-7.2|24.0|||ANCOVA|||ANCOVA with baseline seizure frequency per week and each of the stratification factors as independent variables.||24.0|-7.2|=0.240
92145698|NCT00175825|184175845|SUPERIORITY_OR_OTHER||Percent reduction over Placebo|14.9|||=|0.062|TWO_SIDED|95.0|-0.8|28.2|||ANCOVA|||ANCOVA with baseline seizure frequency per week and each of the stratification factors as independent variables.||28.2|-0.8|=0.062
92145699|NCT00175825|184175845|SUPERIORITY_OR_OTHER||Percent reduction over Placebo|22.1|||=|0.004|TWO_SIDED|95.0|7.6|34.3|||ANCOVA|||ANCOVA with baseline seizure frequency per week and each of the stratification factors as independent variables.||34.3|7.6|=0.004
92145700|NCT03466086|184175914|SUPERIORITY|This was a pilot study and the sample size was not based on any empirical power calculation.|Mean Difference (Final Values)|0.13|STANDARD_DEVIATION|1.238|||TWO_SIDED|95.0|-2.35|2.59||Superiority will be declared if the lower bound of the 2-sided 95% credible interval of the difference between Test and Control is greater than 0.|Multivariate Bayesian Model|The correlation between measurements across periods were modeled using unstructured variance-covariance matrix.|Mean Difference was calculated as Test minus Control.|||2.59|-2.35|
92145701|NCT03466086|184175915|SUPERIORITY|Superiority will be declared if the lower bound of the 2-sided 95% credible interval of the difference between Test and Control is less than 0.|Mean Difference (Final Values)|1.49|STANDARD_DEVIATION|0.951|||TWO_SIDED|95.0|-0.4|3.37|||Multivariate Bayesian Analysis|The correlation between measurements across periods were modeled using unstructured variance-covariance matrix.||This was a pilot study and the sample size was not based on any empirical power calculation.|Mean difference was calculated as Test - Control|3.37|-0.40|
92145702|NCT01113502|184175916|OTHER||Maximum Tolerated Dose (mg)|300.0|||||TWO_SIDED|||||||||||||
92145703|NCT03440372|184175933|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0049|TWO_SIDED|95.0|1.19|2.7|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.70|1.19|0.0049
92145704|NCT03440372|184175934|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0179|TWO_SIDED|95.0|1.09|2.43|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.43|1.09|0.0179
92185669|NCT02077374|184270316|SUPERIORITY_OR_OTHER||Median Difference (Net)|-145.0||||0.1149|TWO_SIDED|95.0|-336.0|55.0|||Wilcoxon (Mann-Whitney)||Based on Hodges-Lehmann estimator|Statistical Analysis for the difference in change for cCK18/M30 from Baseline to Day 28/ET between IDN-6556 and Placebo||55|-336|0.1149
92185670|NCT02077374|184270317|SUPERIORITY_OR_OTHER||Median Difference (Net)|-250.0||||0.1365|TWO_SIDED|95.0|-590.0|63.0|||Wilcoxon (Mann-Whitney)||Based on Hodges-Lehmann estimator|Statistical Analysis for the difference in change for caspase 3/7 from Baseline to Day 28/ET between IDN-6556 and Placebo||63|-590|0.1365
92185671|NCT02077374|184270318|SUPERIORITY_OR_OTHER||Median Difference (Net)|-327.0||||0.0471|TWO_SIDED|95.0|-628.0|-7.0|||Wilcoxon (Mann-Whitney)||Based on Hodges-Lehmann estimator|Statistical Analysis of the difference in the change in full-length cytokeratine 18 (flCK18/M65) from Baseline to Day 28/ET between IDN-6556 and placebo||-7|-628|0.0471
92185672|NCT04604652|184270330|OTHER||||||=|0.077|||||||t-test, 1 sided|||A t-test was performed to test for the percent change from baseline to Week 12. This analysis was based on observed data without imputation. Testing was one sided using a 5% alpha level. No multiplicity adjustment was used, and the p-values reported for the endpoints were descriptive in nature.||||=0.077
92185673|NCT00068107|184270341|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||eGFR measured pre-study was compared to eGFR during the study||||0.01
92185674|NCT00068107|184270341|SUPERIORITY_OR_OTHER||Average Delay in time to ESRD|166.0|||||TWO_SIDED|95.0|8.4|323.8|||||The average delay in end stage renal disease (ESRD) calculated from the eGFR values and represents the estimated difference in time to ESRD between Relagal administered every 2 weeks and Relagal administered weekly. Units = months|||323.8|8.4|
92185675|NCT03989232|184270347|SUPERIORITY||Treatment difference|-0.23||||0.0003|TWO_SIDED|95.0|-0.36|-0.11|||ANCOVA|||On-treatment without rescue medication observation period: Imputation of missing data was handled by multiple imputation (MI) assuming that missing data were missed at random (MAR). The imputation was performed separately within each treatment group defined by randomised treatment.||-0.11|-0.36|0.0003
92185676|NCT03989232|184270347|SUPERIORITY||Treatment difference|-0.18||||0.0098|TWO_SIDED|95.0|-0.31|-0.04|||ANCOVA|||In-trial observation period: Imputation of missing data was handled by MI assuming that missing data were missed at random. The imputation was performed by imputing missing week 40 data separately within groups defined by randomised treatment and treatment status at week 40.||-0.04|-0.31|0.0098
92185677|NCT01930188|184270358|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated treatment difference between semaglutide 1.0 mg and sitagliptin was below the pre-specified non-inferiority margin (0.3 %).|treatment difference|-1.06|||<|0.0001|TWO_SIDED|95.0|-1.21|-0.91|||Mixed Models Analysis|Post-baseline responses analysed with mixed model for repeated measurements-treatment \& country (fixed) \& baseline (covariate) all nested within visit||||-0.91|-1.21|<0.0001
92185678|NCT01930188|184270358|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated treatment difference between semaglutide 0.5 mg and sitagliptin was below the pre-specified non-inferiority margin (0.3 %).|treatment difference|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.21|-0.62|||Mixed Models Analysis|Analysis done with mixed model for repeated measurements (treatment \& country as fixed factors \& baseline value as covariate) all nested within visit||||-0.62|-1.21|<0.0001
92185679|NCT00657709|184270369|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for 44/76-SL strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.9|||||TWO_SIDED|95.0|0.81|0.99|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot2 for 44/76-SL strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||0.99|0.81|
92185680|NCT00657709|184270369|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for 44/76-SL strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.02|||||TWO_SIDED|95.0|0.93|1.13|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot3 for 44/76-SL strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.13|0.93|
92185681|NCT00657709|184270369|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for 44/76-SL strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.14|||||TWO_SIDED|95.0|1.03|1.27|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot2 to rMenB Lot3 for 44/76-SL strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.27|1.03|
92295658|NCT00407745|184496293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.393||0.0538|TWO_SIDED|95.0|-1.54|0.01||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 3 - Pain like pressure~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.01|-1.54|0.0538
92185682|NCT00657709|184270369|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for 5/99 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.88|||||TWO_SIDED|95.0|0.78|0.98|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot2 for 5/99 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||0.98|0.78|
92185683|NCT00657709|184270369|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for 5/99 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.99|||||TWO_SIDED|95.0|0.88|1.1|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot3 for 5/99 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.1|0.88|
92185684|NCT00657709|184270369|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for 5/99 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.12|||||TWO_SIDED|95.0|1.0|1.26|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot2 to rMenB Lot3 for 5/99 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.26|1.0|
92185685|NCT00657709|184270369|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for for NZ98/254 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.04||||||95.0|0.88|1.23|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot2 for NZ98/254 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.23|0.88|
92185686|NCT00657709|184270369|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for for NZ98/254 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.96||||||95.0|0.81|1.13|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot3 for NZ98/254 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.13|0.81|
92185687|NCT00657709|184270369|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for for NZ98 /254 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.92|||||TWO_SIDED|95.0|0.78|1.08|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||"The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot2 to rMenB Lot3 for NZ98~/254 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0)."||1.08|0.78|
92185688|NCT00657709|184270371|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for 44/76-SL strain.|Vaccines Group Differences|0.0|||||TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at one month after the third vaccination, were entirely within the interval \[-10%, 10%\].||1|-1|
92185689|NCT00657709|184270371|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for 44/76-SL strain.|Vaccines Group Differences|1.0|||||TWO_SIDED|95.0|0.0|2.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1month after the third dose, were entirely within the interval \[-10%, 10%\].||2|0|
92185690|NCT00657709|184270371|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for 44/76-SL strain.|Vaccines Group Differences|1.0|||||TWO_SIDED|95.0|0.0|2.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1month after the third dose, were entirely within the interval \[-10%, 10%\].||2|0|
92295659|NCT00407745|184496293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.389||0.3239|TWO_SIDED|95.0|-1.15|0.38||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 5 - Electric shocks~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.38|-1.15|0.3239
92295660|NCT00407745|184496293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.376||0.1912|TWO_SIDED|95.0|-1.23|0.25||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 6 - Stabbing pain~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.25|-1.23|0.1912
92295661|NCT00407745|184496293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.353||0.672|TWO_SIDED|95.0|-0.55|0.85||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 8 - By light touching~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.85|-0.55|0.6720
92295662|NCT00407745|184496293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.33||0.7821|TWO_SIDED|95.0|-0.74|0.56||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 9 - By pressure~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.56|-0.74|0.7821
92295663|NCT00407745|184496293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.352||0.6851|TWO_SIDED|95.0|-0.84|0.55||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 10 - By something cold~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.55|-0.84|0.6851
92295664|NCT00407745|184496293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.387||0.361|TWO_SIDED|95.0|-1.12|0.41||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 11 - Pins and needles~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.41|-1.12|0.3610
92145705|NCT03440372|184175935|SUPERIORITY||Odds Ratio (OR)|1.27||||0.272|TWO_SIDED|95.0|0.83|1.93|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||1.93|0.83|0.2720
92145706|NCT03440372|184175936|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0193|TWO_SIDED|95.0|1.07|2.15|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.15|1.07|0.0193
92145707|NCT03440372|184175937|SUPERIORITY||Odds Ratio (OR)|1.28||||0.3167|TWO_SIDED|95.0|0.79|2.05|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.05|0.79|0.3167
92145708|NCT03440372|184175938|SUPERIORITY||Odds Ratio (OR)|1.28||||0.3167|TWO_SIDED|95.0|0.79|2.05|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.05|0.79|0.3167
92145709|NCT03440372|184175939|SUPERIORITY||Odds Ratio (OR)|1.42||||0.2978|TWO_SIDED|95.0|0.73|2.77|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.77|0.73|0.2978
92145710|NCT03440372|184175940|SUPERIORITY||Odds Ratio (OR)|1.49||||0.1895|TWO_SIDED|95.0|0.82|2.72|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.72|0.82|0.1895
92145711|NCT03440372|184175941|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0452|TWO_SIDED|95.0|1.0|2.97|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.97|1.00|0.0452
92145712|NCT03440372|184175942|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0173|TWO_SIDED|95.0|1.08|2.14|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.14|1.08|0.0173
92145713|NCT03440372|184175943|SUPERIORITY||Odds Ratio (OR)|1.46||||0.067|TWO_SIDED|95.0|0.97|2.2|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.20|0.97|0.0670
92145714|NCT03440372|184175944|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0835|TWO_SIDED|95.0|0.95|2.16|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.16|0.95|0.0835
92145715|NCT05711641|184175945|OTHER|VAS was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).|Generalized Estimating Equations|||||||||||||||"The alternative hypothesis of this study is that 10% lidocaine, applied topically to the external auditory canal (EAC), acts on tinnitus intensity differently than placebo, while the null hypothesis is that there is no difference between the action of lidocaine and placebo on tinnitus intensity.~The analyses were performed using the IBM-SPSS for Windows software version 22.0 and tabulated using the Microsoft-Excel 2010 software, and the tests were performed with a significance level of 5%."|VAS was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).|||
92295665|NCT00407745|184496293|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.402||0.4915|TWO_SIDED|95.0|-1.07|0.52||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 12 - Tingling~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.52|-1.07|0.4915
92295666|NCT00407745|184496294|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0536||95.0||||p-values are adjusted for baseline score. Significance was declared if p-value \<=0.05.|Cochran-Mantel-Haenszel|||Null hypothesis - The rate of subjects with improvement for the pregabain group was equal to the rate of subjects with improvement for the placebo group; Alternative hypothesis - The rate of subjects with improvement for the pregabain group was not equal to the rate of subjects with improvement for the placebo group.||||0.0536
92145716|NCT05711641|184175946|OTHER|Tinnitus loudness was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).||||||||||||||||"The alternative hypothesis of this study is that 10% lidocaine, applied topically to the external auditory canal (EAC), acts on tinnitus intensity differently than placebo, while the null hypothesis is that there is no difference between the action of lidocaine and placebo on tinnitus intensity.~The analyses were performed using the IBM-SPSS for Windows software version 22.0 and tabulated using the Microsoft-Excel 2010 software, and the tests were performed with a significance level of 5%."|Tinnitus loudness was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).|||
92145717|NCT05711641|184175947|OTHER|MML was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).||||||||||||||||"The alternative hypothesis of this study is that 10% lidocaine, applied topically to the external auditory canal (EAC), acts on tinnitus intensity differently than placebo, while the null hypothesis is that there is no difference between the action of lidocaine and placebo on tinnitus intensity.~The analyses were performed using the IBM-SPSS for Windows software version 22.0 and tabulated using the Microsoft-Excel 2010 software, and the tests were performed with a significance level of 5%."|MML was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).|||
92145718|NCT03574597|184175948|SUPERIORITY||Hazard Ratio (HR)|0.8|||<|0.0001|TWO_SIDED|95.0|0.72|0.89|||Regression, Cox|||Data from the in-trial period. The outcome measure was analysed using a Cox proportional hazards model with treatment as categorical fixed factor. Participants without events of interest were censored at the end of their in-trial period.||0.89|0.72|< 0.0001
92145719|NCT01215292|184176010|NON_INFERIORITY_OR_EQUIVALENCE|80% power to detect 20% difference in ITT|||||<|0.05|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||<0.05
92145720|NCT01215292|184176011|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||<0.05
92145721|NCT01215292|184176012|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||<0.05
92145722|NCT01596582|184176029|SUPERIORITY|||||||0.4|||||||Chi-squared|||||||0.40
92145723|NCT01596582|184176030|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
92295667|NCT00407745|184496295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3107||95.0||||p-values are adjusted for baseline score. Significance was declared if p-value \<=0.05.|Cochran-Mantel-Haenszel|||Null hypothesis - The rate of subjects with improvement for the pregabain group was equal to the rate of subjects with improvement for the placebo group; Alternative hypothesis - The rate of subjects with improvement for the pregabain group was not equal to the rate of subjects with improvement for the placebo group.||||0.3107
92145724|NCT01596582|184176031|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92145725|NCT01596582|184176032|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92145726|NCT01596582|184176033|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
92145727|NCT01596582|184176034|SUPERIORITY||||||>|0.05||||||The p-value for each comparison was non-significanct.|Wilcoxon (Mann-Whitney)|||||||>0.05
92145728|NCT01596582|184176035|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
92145729|NCT01596582|184176036|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
92145730|NCT01596582|184176037|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92145731|NCT01596582|184176038|SUPERIORITY|||||||0.39|||||||Fisher Exact|||||||0.39
92145732|NCT01786967|184176042|SUPERIORITY|This was a pilot study to provide preliminary data to inform future sample size estimates for a larger more definitive trial|Risk Ratio (RR)|0.96||||1|TWO_SIDED|95.0|0.53|1.71|||Fisher Exact|||Null hypothesis was that there will be no difference in treatment benefit scale between the two groups||1.71|0.53|1.0
92145733|NCT01786967|184176043|SUPERIORITY||Risk Ratio (RR)|0.85||||1|TWO_SIDED|95.0|0.76|0.95|||Fisher Exact|||Null hypothesis was that there was no difference in the rate of moderate to severe adverse events.||.95|.76|1.0
92145734|NCT02816138|184176094|OTHER||||||<|0.001|||||||Regression, Linear|For change in depression severity (MADRS) over time, we used a linear mixed effects model with autoregressive of order 1 (AR(1)) temporal process.||||||<0.001
92145735|NCT02816138|184176095|OTHER|||||||0.761|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed-rank test||||||0.761
92145736|NCT02816138|184176096|OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed-rank test assessing for change from baseline to 12-weeks||||0.084
92145737|NCT02816138|184176097|OTHER|||||||0.073|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed-rank test assessing for change from baseline to 12-weeks||||0.073
92145738|NCT02816138|184176098|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed-rank test||||||0.002
92295668|NCT00407745|184496296|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.89|STANDARD_ERROR_OF_MEAN|2.182||0.0262|TWO_SIDED|95.0|-9.19|-0.59||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS 9-item Sleep Problems Index as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.59|-9.19|0.0262
92295669|NCT00407745|184496297|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.67|STANDARD_ERROR_OF_MEAN|2.985||0.0041|TWO_SIDED|95.0|-14.55|-2.78||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS - Sleep disturbance as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-2.78|-14.55|0.0041
92295670|NCT00407745|184496298|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.78|STANDARD_ERROR_OF_MEAN|3.492||0.0998|TWO_SIDED|95.0|-1.11|12.66||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS - Sleep Adequacy as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||12.66|-1.11|0.0998
92295671|NCT00407745|184496299|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.7|STANDARD_ERROR_OF_MEAN|3.501||0.1048|TWO_SIDED|95.0|-1.2|12.61||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS - Snoring as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||12.61|-1.20|0.1048
92295672|NCT00407745|184496300|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-5.14|STANDARD_ERROR_OF_MEAN|2.417||0.0347|TWO_SIDED|95.0|-9.91|-0.37||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included baseline MOS - Awaken Short of Breath or with headache as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.37|-9.91|0.0347
92295673|NCT00407745|184496301|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.38|STANDARD_ERROR_OF_MEAN|0.189||0.0436|TWO_SIDED|95.0|0.01|0.76||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS - Sleep Quantity as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.76|0.01|0.0436
92145739|NCT02816138|184176099|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||<0.001
92145740|NCT02816138|184176100|OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed-rank test||||||0.049
92295674|NCT00407745|184496302|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.02|STANDARD_ERROR_OF_MEAN|2.77||0.2761|TWO_SIDED|95.0|-2.44|8.49||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS - Somnolence as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||8.49|-2.44|0.2761
92185691|NCT00657709|184270371|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for 5/99 strain.|Vaccines Group Differences|0.0|||||TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1month after the third dose, were entirely within the interval \[-10%, 10%\].||1|-1|
92145741|NCT02816138|184176101|OTHER|||||||0.502|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||0.502
92145742|NCT02816138|184176102|OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||0.049
92145743|NCT02816138|184176103|OTHER|||||||0.068|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||0.068
92145744|NCT00818753|184176104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||||95.0|0.08|12.76||p-values were not presented as the study was exploratory and not powered to to detect a difference in the treatments|Cochran-Mantel-Haenszel|||Dabigatran 110mg BID vs Heparin||12.76|0.08|
92145745|NCT00818753|184176104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||||95.0|0.13|16.82||p-values were not presented as the study was exploratory and not powered to to detect a difference in the treatments|Cochran-Mantel-Haenszel|||Dabigatran 150mg BID vs Heparin||16.82|0.13|
92145746|NCT00902694|184176109|SUPERIORITY||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-2.6|-0.4||||||6 month intervention versus control||-0.4|-2.6|
92145747|NCT00902694|184176109|SUPERIORITY||Mean Difference (Net)|-3.2|||||TWO_SIDED|95.0|-5.1|-1.2||||||18 month intervention versus control||-1.2|-5.1|
92145748|NCT00902694|184176111|SUPERIORITY||Mean Difference (Net)|-2.0|||||TWO_SIDED|95.0|-3.6|-0.4||||||6 month intervention versus control||-0.4|-3.6|
92145749|NCT00902694|184176111|SUPERIORITY||Mean Difference (Net)|-1.9|||||TWO_SIDED|95.0|-4.1|0.3||||||18 month intervention versus control||0.3|-4.1|
92295675|NCT00407745|184496303|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.81||||0.0024|TWO_SIDED|95.0|1.443|5.491||Significance was declared if p-value \<=0.05|Regression, Logistic|Logistic Regression Model included Pooled Center and Treatment as the categorical factors, and Optimal Sleep Score at Baseline as the covariate.||Null hypothesis - The rate of subjects with optimal sleep for the pregabain group was equal to the rate of subjects with optimal sleep for the placebo group; Alternative hypothesis - The rate of subjects with optimal sleep for the pregabain group was not equal to the rate of subjects with optimal sleep for the placebo group.||5.491|1.443|0.0024
92295676|NCT00407745|184496304|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.433||0.1164|TWO_SIDED|95.0|-1.54|0.17||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline HADS - Anxiety as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.17|-1.54|0.1164
92295677|NCT00407745|184496305|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|0.447||0.0279|TWO_SIDED|95.0|-1.87|-0.11||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline HADS - Depression as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.11|-1.87|0.0279
92295678|NCT02960438|184496306|SUPERIORITY||Difference of arms|2.2||||0.374|TWO_SIDED|95.0|-19.96|24.46|||Regression, Logistic||Estimate was calculated based on the normal approximation to the binomial distribution.|||24.46|-19.96|0.374
92295679|NCT02960438|184496306|SUPERIORITY||Difference of arms|11.1||||0.102|TWO_SIDED|95.0|-7.42|29.64|||Regression, Logistic||Estimate was calculated based on the normal approximation to the binomial distribution.|||29.64|-7.42|0.102
92145750|NCT00902694|184176112|SUPERIORITY||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-3.2|2.4||||||6 month systolic intervention versus control||2.4|-3.2|
92145751|NCT00902694|184176112|SUPERIORITY||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-1.6|2.1||||||6 month diastolic intervention versus control||2.1|-1.6|
92145752|NCT00902694|184176112|SUPERIORITY||Mean Difference (Net)|1.6|||||TWO_SIDED|95.0|-1.6|4.8||||||18 month systolic intervention versus control||4.8|-1.6|
92295680|NCT02960438|184496306|SUPERIORITY||Difference of arms|9.3||||0.188|TWO_SIDED|95.0|-9.25|27.77|||Regression, Logistic||Estimate was calculated based on the normal approximation to the binomial distribution.|||27.77|-9.25|0.188
92295681|NCT03449199|184496340|SUPERIORITY||LS Mean Difference|-0.05||||0.7953|TWO_SIDED|95.0|-0.44|0.34|||ANCOVA|||Change from baseline in log-transformed UACR was analyzed using an ANCOVA model with randomized treatment, and randomization strata of sUA and UACR as independent variables. The last observation carried forward imputation was used for missing data. In this study, multiplicity was not considered since the study objective is exploratory.||0.34|-0.44|0.7953
92295682|NCT03449199|184496340|SUPERIORITY||LS Mean Difference|-0.43||||0.0311|TWO_SIDED|95.0|-0.82|-0.04|||ANCOVA|||Change from baseline in log-transformed UACR was analyzed using an ANCOVA model with randomized treatment, and randomization strata of sUA and UACR as independent variables. The last observation carried forward imputation was used for missing data. In this study, multiplicity was not considered since the study objective is exploratory.||-0.04|-0.82|0.0311
92295683|NCT03449199|184496341|SUPERIORITY||LS Mean Difference|1.71||||0.4055|TWO_SIDED|95.0|-2.35|5.78|||ANCOVA|||For Week 12 (visit of the primary outcome), ANCOVA model with treatment, randomization strata of sUA and UACR levels as independent variables, Baseline eGFR as covariate is fitted. The last observation carried forward imputation was used for missing data.||5.78|-2.35|0.4055
92295684|NCT03449199|184496341|SUPERIORITY||LS Mean Difference|3.42||||0.096|TWO_SIDED|95.0|-0.62|7.46|||ANCOVA|||For Week 12 (visit of the primary outcome), an ANCOVA model with treatment, randomization strata of sUA and UACR levels as independent variables, Baseline eGFR as covariate is fitted. The last observation carried forward imputation was used for missing data.||7.46|-0.62|0.0960
92295685|NCT03449199|184496342|SUPERIORITY||LS Mean Difference|-2.43|||<|0.0001|TWO_SIDED|95.0|-3.13|-1.74|||ANCOVA|||For Week 12 (visit of the primary outcome), an ANCOVA model with treatment, randomization strata of UACR levels as independent variables is fitted. The last observation carried forward imputation was used for missing data.||-1.74|-3.13|<0.0001
92145753|NCT00902694|184176112|SUPERIORITY||Mean Difference (Net)|1.2|||||TWO_SIDED|95.0|-0.9|3.4||||||18 month diastolic intervention versus control||3.4|-0.9|
92145754|NCT00902694|184176113|SUPERIORITY||Mean Difference (Net)|-2.9|||||TWO_SIDED|95.0|-9.9|4.1||||||6 month total chol intervention versus control||4.1|-9.9|
92145755|NCT00902694|184176113|SUPERIORITY||Mean Difference (Net)|-5.2|||||TWO_SIDED|95.0|-14.9|4.4||||||18 month total chol intervention versus control||4.4|-14.9|
92145756|NCT00902694|184176113|SUPERIORITY||Mean Difference (Net)|-1.2|||||TWO_SIDED|95.0|-7.5|5.1||||||6 month LDL chol intervention versus control||5.1|-7.5|
92145757|NCT00902694|184176113|SUPERIORITY||Mean Difference (Net)|-4.6|||||TWO_SIDED|95.0|-13.1|3.9||||||18 month LDL chol intervention versus control||3.9|-13.1|
92145758|NCT00902694|184176113|SUPERIORITY||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-2.9|1.7||||||6 month HDL chol intervention versus control||1.7|-2.9|
92145759|NCT00902694|184176113|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|-1.8|3.1||||||18 month HDL intervention versus control||3.1|-1.8|
92145760|NCT00902694|184176113|SUPERIORITY||Mean Difference (Net)|-5.5|||||TWO_SIDED|95.0|-23.5|12.4||||||6 month TRIG intervention versus control||12.4|-23.5|
92145761|NCT00902694|184176113|SUPERIORITY||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-27.0|23.9||||||18 month TRIG intervention versus control||23.9|-27.0|
92145762|NCT04154787|184176117|SUPERIORITY|Comparison of adjusted geometric mean ratios on Day 169|Adjusted geometric mean ratio|1.37||||0.267|TWO_SIDED|95.0|0.9|2.08||Calculated at one-sided 10% level from a lower-tailed test|Mixed Models Analysis|||||2.08|0.90|0.2670
92145763|NCT04154787|184176120|SUPERIORITY||Adjusted geometric mean ratios|0.81||||0.4598|TWO_SIDED|95.0|0.47|1.42||Calculated from a two-sided test at the 0.05 significance level|Mixed Model for Repeated Measures||Comparison of adjusted geometric mean ratios: Test vs Ref.|Day 15||1.42|0.47|0.4598
92295686|NCT03449199|184496342|SUPERIORITY||LS Mean Difference|-3.23|||<|0.0001|TWO_SIDED|95.0|-3.91|-2.54|||ANCOVA|||For Week 12 (visit of the primary outcome), an ANCOVA model with treatment, randomization strata of UACR levels as independent variables is fitted. The last observation carried forward imputation was used for missing data.||-2.54|-3.91|<0.0001
92295687|NCT03449199|184496343|SUPERIORITY||LS Mean Difference|-102.02||||0.3955|TWO_SIDED|95.0|-338.81|134.78|||ANCOVA|||For Week 12 (visit of the primary outcome), an ANCOVA model with treatment, randomization strata of UACR levels as independent variables is fitted. The last observation carried forward imputation was used for missing data.||134.78|-338.81|0.3955
92295688|NCT03449199|184496343|SUPERIORITY||LS Mean Difference|-197.49||||0.0991|TWO_SIDED|95.0|-432.73|37.75|||ANCOVA|||For Week 12 (visit of the primary outcome), ANCOVA model with treatment, randomization strata of UACR levels as independent variables is fitted. The last observation carried forward imputation was used for missing data.||37.75|-432.73|0.0991
92295689|NCT03449199|184496344|SUPERIORITY||Odds Ratio (OR)|1.72||||0.2791|TWO_SIDED||||||Regression, Logistic||Missing observations at Study Week 12 are imputed as nonresponse.|Odds ratio, 95% CLs, and p-values are obtained from logistic regression model adjusting for treatment group, randomization strata of Baseline sUA (\<6.0 vs ≥6.0 mg/dL) and Baseline UACR (200 to \<300 mg/g vs 300 to ≤3000 mg/g), Baseline UACR and Baseline sUA levels. Odds ratio for a baseline covariate is the ratio of odds over one unit increase of the covariate and it is assumed constant. P-value represents the statistical significance level of odds ratio differing from 1.||||0.2791
92295690|NCT03449199|184496344|SUPERIORITY||Odds Ratio (OR)|2.57||||0.0507|TWO_SIDED||||||Regression, Logistic|||Odds ratio, 95% CLs, and p-values are obtained from logistic regression model adjusting for treatment group, randomization strata of Baseline sUA (\<6.0 vs ≥6.0 mg/dL) and Baseline UACR (200 to \<300 mg/g vs 300 to ≤3000 mg/g), Baseline UACR and Baseline sUA levels. Odds ratio for a baseline covariate is the ratio of odds over one unit increase of the covariate and it is assumed constant. P-value represents the statistical significance level of odds ratio differing from 1.||||0.0507
92295691|NCT02744755|184496377|EQUIVALENCE|A 0.6 change in DAS28-CRP score is considered as no clinically meaningful difference by EULAR criteria and is therefore used as the equivalence margin limits \[0.6,-0.6\].|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.129|||TWO_SIDED|95.0|-0.24|0.27||||||Therapeutic equivalence in terms of change from baseline in DAS28-CRP at week 12 will be concluded if the 95% confidence interval for the LS mean difference between GP2017 and Humira is contained within the interval \[-0.6; 0.6\]. A mixed-model repeated measures analysis was performed for DAS28-CRP change from baseline including treatment, stratification factors, time, the interaction between time (visits) and treatment all as categorical variables, and baseline DAS28-CRP as a continuous variable.||0.27|-0.24|
92295692|NCT02744755|184496377|EQUIVALENCE|A 0.6 change in DAS28-CRP score is considered as no clinically meaningful difference by EULAR criteria and is therefore used as the equivalence margin limits \[0.6,-0.6\].|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.129|||TWO_SIDED|90.0|-0.19|0.23||||||Therapeutic equivalence in terms of change from baseline in DAS28-CRP at week 12 will be concluded if the 90% confidence interval for the LS mean difference between GP2017 and Humira is contained within the interval \[-0.6; 0.6\]. A mixed-model repeated measures analysis was performed for DAS28-CRP change from baseline including treatment, stratification factors, time, the interaction between time (visits) and treatment all as categorical variables, and baseline DAS28-CRP as a continuous variable.||0.23|-0.19|
92295693|NCT02744755|184496378|EQUIVALENCE|A 0.6 change in DAS28-CRP score is considered as no clinically meaningful difference by EULAR criteria and is therefore used as the equivalence margin limits \[0.6,-0.6\].|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.096|||TWO_SIDED|95.0|-0.11|0.27|||ANCOVA|||ANCOVA model included treatment, body weight as per CRF, prior therapy as per CRF, region as per CRF as fixed effects and baseline DAS28-CRP values as covariate.||0.27|-0.11|
92295694|NCT02744755|184496378|EQUIVALENCE|A 0.6 change in DAS28-CRP score is considered as no clinically meaningful difference by EULAR criteria and is therefore used as the equivalence margin limits \[0.6,-0.6\].|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.096|||TWO_SIDED|90.0|-0.08|0.24|||ANCOVA|||ANCOVA model included treatment, body weight as per CRF, prior therapy as per CRF, region as per CRF as fixed effects and baseline DAS28-CRP values as covariate.||0.24|-0.08|
92295695|NCT01652729|184496400|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.2167||0.001|TWO_SIDED|95.0|-1.15|-0.3|||mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||-0.30|-1.15|0.0010
92295696|NCT01652729|184496400|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.1638||0.0209|TWO_SIDED|95.0|-0.7|-0.06|||mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||-0.06|-0.70|0.0209
92295697|NCT01652729|184496400|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.2278||0.1347|TWO_SIDED|95.0|-0.79|0.11|||mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||0.11|-0.79|0.1347
92295698|NCT01652729|184496401|SUPERIORITY_OR_OTHER|||||||0.0489|||||||Cochran-Mantel-Haenszel|||Percentage of Subjects Achieving HbA1c \<7% at Week 28.||||0.0489
92295699|NCT01652729|184496401|SUPERIORITY_OR_OTHER|||||||0.0103|||||||Cochran-Mantel-Haenszel|||Percentage of Subjects Achieving HbA1c \<7% at Week 28.||||0.0103
92295700|NCT01652729|184496402|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.1|STANDARD_ERROR_OF_MEAN|5.96||0.0924|TWO_SIDED|95.0|-21.8|1.7|||mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||1.7|-21.8|0.0924
92295701|NCT01652729|184496402|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.9|STANDARD_ERROR_OF_MEAN|8.037||0.0001|TWO_SIDED|95.0|-46.7|-15.1|||mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||-15.1|-46.7|0.0001
92295702|NCT01652729|184496403|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.4058||0.8625|TWO_SIDED|95.0|-0.73|0.87||Nominal p-value|mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||0.87|-0.73|0.8625
92295703|NCT01652729|184496403|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.5419||0.0198|TWO_SIDED|95.0|-2.34|-0.2||Nominal p-value|mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||-0.20|-2.34|0.0198
92295704|NCT01652729|184496404|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.96|STANDARD_ERROR_OF_MEAN|15.71||0.0248|TWO_SIDED|95.0|-67.23|-4.68||Nominal p-value|general linear model|Includes treatment and baseline HbA1c (\< 9% or ≥ 9%) as fixed factors, and baseline 2-hour postprandial plasma glucose concentrations as a covariate.||||-4.68|-67.23|0.0248
92295705|NCT01652729|184496404|SUPERIORITY_OR_OTHER||LS Mean Difference|-20.89|STANDARD_ERROR_OF_MEAN|19.66||0.2914|TWO_SIDED|95.0|-60.02|18.25||Nominal p-value|general linear model|Includes treatment and baseline HbA1c (\< 9% or ≥ 9%) as fixed factors, and baseline 2-hour postprandial plasma glucose concentrations as a covariate.||||18.25|-60.02|0.2914
92295706|NCT00112294|184496414|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.902||||0.2358|TWO_SIDED|95.0|0.761|1.069||Since only 1 primary comparison was conducted, no adjustment for multiple comparisons was needed.|Log Rank||The hazard ratio of C/T/C to T/C was estimated by means of a stratified Cox's proportional hazard model, with treatment as the single covariate.|Confidence intervals calculated using Brookmeyer and Crowley method. Primary analysis was comparison of PFS between arms performed by 2-sided alpha=0.05 level, log-rank test, stratified by ECOG PS (0/1) and intended on-study taxane (docetaxel or paclitaxel). Null hypothesis was that PFS was equal in both groups. Power calculations indicated that \>=510 events (IRRC progressions/deaths) would lead to \>=90% power at the 5% level for rejecting the null hypothesis, given a true hazard ratio of 0.75.||1.069|0.761|0.2358
92295707|NCT00112294|184496415|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.675||||0.0066|TWO_SIDED|95.0|1.152|2.436|||Cochran-Mantel-Haenszel||The odds ratio is presented for C/T/C to T/C.|The 2 groups were compared by means of a Cochran-Mantel-Haenszel (CMH) (alpha = 0.05 level) test stratified by ECOG PS (0 or 1) and intended on-study taxane (paclitaxel, docetaxel), as recorded at the time of randomization.||2.436|1.152|0.0066
92295708|NCT00112294|184496416|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.265||||0.1501|TWO_SIDED|95.0|0.918|1.741|||Cochran-Mantel-Haenszel||The odds ratio is presented for C/T/C to T/C.|The 2 groups were compared by means of a CMH (alpha = 0.05 level) test stratified by ECOG PS (0 or 1) and intended on-study taxane (paclitaxel, docetaxel), as recorded at the time of randomization.||1.741|0.918|0.1501
92295709|NCT00112294|184496419|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.1685|TWO_SIDED|95.0|0.754|1.051||An interim analysis on survival was performed. Final p-value was adjusted using an alpha spending function. At the interim analysis (data not reported here) the type 1 error was 0.0001, and the rest is for the final look.|Log Rank||The hazard ratio of C/T/C to T/C was estimated by means of a stratified Cox's proportional hazard model with treatment as the single covariate.|Confidence intervals were calculated using Brookmeyer and Crowley method. Analysis was a comparison of survival between groups by means of a 2-sided, alpha=0.05 level, log-rank test, stratified by ECOG PS (0/1) and intended on-study taxane (docetaxel or paclitaxel). Null hypothesis was that survival was equal in both treatment arms. Power calculations indicated that \>= 558 events would lead to at \>=75% power at the 5% level for rejecting the null hypothesis, given a true hazard ratio of 0.8.||1.051|0.754|0.1685
92295710|NCT00112294|184496420|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Cochran-Mantel-Haenszel|||Improvement of symptoms was compared between groups by means of a CMH (alpha = 0.05 level) test stratified by ECOG PS (0 or 1) and intended on-study taxane (paclitaxel, docetaxel), as recorded at the time of randomization.||||0.26
92295711|NCT03440424|184496431|OTHER||Percent ratio of geometric mean|157.86|||||TWO_SIDED|90.0|118.18|210.87|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||210.87|118.18|
92295712|NCT03440424|184496431|OTHER||Percent ratio of geometric mean|122.2|||||TWO_SIDED|90.0|91.49|163.24|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||163.24|91.49|
92295713|NCT03440424|184496432|OTHER||Percent ratio of geometric mean|122.31|||||TWO_SIDED|90.0|98.95|151.17|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||151.17|98.95|
92295714|NCT03440424|184496432|OTHER||Percent ratio of geometric mean|103.24|||||TWO_SIDED|90.0|83.53|127.61|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||127.61|83.53|
92295715|NCT03440424|184496433|OTHER||Percent ratio of geometric mean|125.26|||||TWO_SIDED|90.0|96.76|162.16|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||162.16|96.76|
92295716|NCT03440424|184496433|OTHER||Percent ratio of geometric mean|115.2|||||TWO_SIDED|90.0|88.98|149.13|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||149.13|88.98|
92295717|NCT03440424|184496434|OTHER||Percent ratio of geometric mean|131.91|||||TWO_SIDED|90.0|96.46|180.4|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||180.40|96.46|
92295718|NCT03440424|184496434|OTHER||Percent ratio of geometric mean|149.52|||||TWO_SIDED|90.0|109.34|204.47|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||204.47|109.34|
92295719|NCT03440424|184496435|OTHER||Percent ratio of geometric mean|125.03|||||TWO_SIDED|90.0|87.96|177.74|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||177.74|87.96|
92295720|NCT03440424|184496435|OTHER||Percent ratio of geometric mean|153.56|||||TWO_SIDED|90.0|106.39|221.66|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||221.66|106.39|
92295721|NCT03440424|184496436|OTHER||Percent ratio of geometric mean|128.88|||||TWO_SIDED|90.0|88.35|188.02|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||188.02|88.35|
92295722|NCT03440424|184496436|OTHER||Percent ratio of geometric mean|166.55|||||TWO_SIDED|90.0|112.31|246.99|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||246.99|112.31|
92295723|NCT03440424|184496437|OTHER||Percent ratio of geometric mean|96.97|||||TWO_SIDED|90.0|70.15|134.06|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||134.06|70.15|
92295724|NCT03440424|184496437|OTHER||Percent ratio of geometric mean|72.05|||||TWO_SIDED|90.0|52.12|99.6|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||99.60|52.12|
92295725|NCT03440424|184496437|OTHER||Percent ratio of geometric mean|84.36|||||TWO_SIDED|90.0|60.21|118.19|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||118.19|60.21|
92295726|NCT03440424|184496437|OTHER||Percent ratio of geometric mean|65.7|||||TWO_SIDED|90.0|46.89|92.05|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||92.05|46.89|
92295727|NCT03440424|184496437|OTHER||Percent ratio of geometric mean|94.74|||||TWO_SIDED|90.0|68.37|131.3|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||131.30|68.37|
92295728|NCT03440424|184496437|OTHER||Percent ratio of geometric mean|76.56|||||TWO_SIDED|90.0|55.24|106.09|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||106.09|55.24|
92295729|NCT03440424|184496439|OTHER||Percent ratio of geometric mean|99.14|||||TWO_SIDED|90.0|76.91|127.81|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||127.81|76.91|
92295730|NCT03440424|184496439|OTHER||Percent ratio of geometric mean|69.66|||||TWO_SIDED|90.0|54.03|89.79|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||89.79|54.03|
92295731|NCT03440424|184496439|OTHER||Percent ratio of geometric mean|78.98|||||TWO_SIDED|90.0|62.88|99.21|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||99.21|62.88|
92145764|NCT04154787|184176120|SUPERIORITY||Geometric mean ratios|1.3||||0.4528|TWO_SIDED|95.0|0.65|2.61||Calculated from a two-sided test at the 0.05 significance level|Mixed Model for Repeated Measures||Comparison of adjusted geometric mean ratios: Test vs Ref.|Day 169||2.61|0.65|0.4528
92295732|NCT03440424|184496439|OTHER||Percent ratio of geometric mean|63.2|||||TWO_SIDED|90.0|50.31|79.38|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||79.38|50.31|
92295733|NCT03440424|184496439|OTHER||Percent ratio of geometric mean|94.56|||||TWO_SIDED|90.0|68.5|130.51|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||130.51|68.50|
92295734|NCT03440424|184496439|OTHER||Percent ratio of geometric mean|71.81|||||TWO_SIDED|90.0|52.03|99.12|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||99.12|52.03|
92295735|NCT03440424|184496440|OTHER||Percent ratio of geometric mean|106.7|||||TWO_SIDED|90.0|83.95|135.62|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||135.62|83.95|
92295736|NCT03440424|184496440|OTHER||Percent ratio of geometric mean|85.68|||||TWO_SIDED|90.0|67.41|108.9|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||108.90|67.41|
92295737|NCT03440424|184496440|OTHER||Percent ratio of geometric mean|75.41|||||TWO_SIDED|90.0|62.28|91.31|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||91.31|62.28|
92295738|NCT03440424|184496440|OTHER||Percent ratio of geometric mean|76.0|||||TWO_SIDED|90.0|62.76|92.02|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||92.02|62.76|
92295739|NCT03440424|184496440|OTHER||Percent ratio of geometric mean|95.55|||||TWO_SIDED|90.0|71.92|126.94|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||126.94|71.92|
92295740|NCT03440424|184496440|OTHER||Percent ratio of geometric mean|74.48|||||TWO_SIDED|90.0|56.06|98.94|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||98.94|56.06|
92295741|NCT03440424|184496441|OTHER||Percent ratio of geometric mean|113.04|||||TWO_SIDED|90.0|85.16|150.05|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||150.05|85.16|
92295742|NCT03440424|184496441|OTHER||Percent ratio of geometric mean|103.74|||||TWO_SIDED|90.0|78.16|137.7|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||137.70|78.16|
92295743|NCT03440424|184496441|OTHER||Percent ratio of geometric mean|78.62|||||TWO_SIDED|90.0|62.57|98.78|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||98.78|62.57|
92295744|NCT03440424|184496441|OTHER||Percent ratio of geometric mean|101.0|||||TWO_SIDED|90.0|80.38|126.9|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||126.90|80.38|
92295745|NCT03440424|184496441|OTHER||Percent ratio of geometric mean|109.49|||||TWO_SIDED|90.0|81.07|147.88|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||147.88|81.07|
92145765|NCT02532179|184176135|SUPERIORITY||Mean Ratio|3.0|||<|0.001|TWO_SIDED|95.0|2.09|4.29||Null hypothesis: there is no difference in immune modulation over time|Mixed Models Analysis|||||4.29|2.09|<0.001
92295746|NCT03440424|184496441|OTHER||Percent ratio of geometric mean|105.2|||||TWO_SIDED|90.0|77.89|142.08|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||142.08|77.89|
92145766|NCT02532179|184176136|SUPERIORITY||Mean Ratio|3.82|||<|0.001|TWO_SIDED|95.0|2.77|5.25||Null hypothesis: there is no difference in immune modulation over time|Mixed Models Analysis|||||5.25|2.77|<0.001
92145767|NCT02532179|184176137|SUPERIORITY||Mean Ratio|6.55|||<|0.001|TWO_SIDED|95.0|3.87|11.06||Null hypothesis: there is no difference in immune modulation over time|Mixed Models Analysis|||||11.06|3.87|<0.001
92145768|NCT02713711|184176153|SUPERIORITY|ANOVA. Sample was calculated with power of 80% and alpha of 0.05.||||||0.3262|||||||ANOVA|repeated measures ANOVA (Bonferroni post-test) for intragroup analysis||||||0.3262
92145769|NCT02713711|184176153|SUPERIORITY|ANOVA. Sample was calculated with power of 80% and alpha of 0.05.||||||0.01|||||||ANOVA|repeated measures ANOVA (Bonferroni post-test) for intragroup analysis||||||0.01
92295747|NCT03440424|184496442|OTHER||Percent ratio of geometric mean|115.38|||||TWO_SIDED|90.0|83.51|159.42|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||159.42|83.51|
92145770|NCT02713711|184176153|SUPERIORITY|ANOVA. Sample was calculated with power of 80% and alpha of 0.05.||||||0.0646|||||||ANOVA|repeated measures ANOVA (Bonferroni post-test) for intragroup analysis||||||0.0646
92145771|NCT02713711|184176153|SUPERIORITY|ANOVA. Sample was calculated with power of 80% and alpha of 0.05.|||||<|0.001|||||||ANOVA|repeated measures ANOVA (Bonferroni post-test) for intragroup analysis||||||<0.001
92145772|NCT02713711|184176153|SUPERIORITY|Two-way ANOVA (Bonferroni post-test) for intergroup analysis.|||||<|0.001|||||||ANOVA|||||||<0.001
92145773|NCT02713711|184176154|SUPERIORITY|paired-t test (intragroup analysis)||||||0.208|||||||t-test, 2 sided|||||||0.2080
92145774|NCT02713711|184176154|SUPERIORITY|paired-t test (intragroup analysis)||||||0.0136|||||||t-test, 2 sided|||||||0.0136
92145775|NCT02713711|184176154|SUPERIORITY|paired-t test (intragroup analysis)||||||0.2987|||||||t-test, 2 sided|||||||0.2987
92145776|NCT02713711|184176154|SUPERIORITY|paired-t test (intragroup analysis)||||||0.8347|||||||t-test, 2 sided|||||||0.8347
92145777|NCT02713711|184176154|SUPERIORITY|two-way ANOVA with Bonferroni post hoc test (intergroup analysis)||||||0.0001|||||||ANOVA|||||||0.0001
92145778|NCT02274857|184176258|SUPERIORITY|||||||0.2179|||||||Chi-squared|||||||0.2179
92145779|NCT02274857|184176259|SUPERIORITY|||||||0.2782|||||||Chi-squared|||||||0.2782
92145780|NCT02274857|184176260|SUPERIORITY|||||||0.7266|||||||Chi-squared|||||||0.7266
92145781|NCT02274857|184176261|SUPERIORITY|||||||0.3522|||||||Chi-squared|||||||0.3522
92145782|NCT00117676|184176265|NON_INFERIORITY_OR_EQUIVALENCE|With a sample size of 200 subjects in the tenofovir DF group and 100 subjects in the adefovir dipivoxil group, a two group large-sample normal approximation test of proportions with a one-sided 0.025 significance level would have 95% power to reject the null hypothesis that the tenofovir DF treatment was inferior to the adefovir dipivoxil treatment (difference in proportions was less than -0.100) in favor of the alternative hypothesis that the tenofovir DF treatment was not inferior.|Difference in proportions|23.5|STANDARD_ERROR_OF_MEAN|5.2|<|0.001|TWO_SIDED|95.0|13.2|33.8||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted (baseline ALT ≥ 2 x ULN or \> 2 x ULN) difference is 0.|Z-test|||A two-sided 95% confidence interval (CI), stratified by baseline ALT (≤ 2 x ULN or \> 2 x ULN) was used to evaluate the difference (tenofovir DF - adefovir dipivoxil) in the proportion of complete responders between treatment groups.||33.8|13.2|<0.001
92145783|NCT00117676|184176266|SUPERIORITY_OR_OTHER||Difference in proportions|30.3|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|21.3|39.2||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference is zero. Difference, standard error of the difference, and the CI are stratum adjusted based on baseline ALT category (≤ 2 x ULN or \> 2 x ULN).|Z-test|||||39.2|21.3|<0.001
92145784|NCT00117676|184176267|SUPERIORITY_OR_OTHER||Difference in proportions|1.4|STANDARD_ERROR_OF_MEAN|3.4||0.672|TWO_SIDED|95.0|-5.2|8.0||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference is zero. Two-sided 95% confidence intervals, stratified by baseline ALT (baseline ALT ≤ 2 x ULN, \> 2 x ULN), were used to evaluate treatment arm differences.|Z-test|||||8.0|-5.2|0.672
92145785|NCT00117676|184176272|SUPERIORITY_OR_OTHER||Difference in proportions|5.2|STANDARD_ERROR_OF_MEAN|5.0||0.293|TWO_SIDED|95.0|-4.5|14.9||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference is zero. Confidence interval stratum adjusted based on baseline ALT (≤ 2 x ULN, \> 2 x ULN).|Z-test|||||14.9|-4.5|0.293
92145786|NCT00117676|184176278|SUPERIORITY_OR_OTHER||Difference in proportions|-0.8|STANDARD_ERROR_OF_MEAN|4.8||0.859|TWO_SIDED|95.0|-10.2|8.5||Statistical tests were not adjusted for baseline ALT stratum. Analysis set included only randomized and treated participants with baseline ALT \> ULN (biochemically evaluable analysis set).|Z-test|P-value corresponds to a Z-test of the null hypothesis that the ALT stratum-adjusted difference is zero.||||8.5|-10.2|0.859
92145787|NCT00117676|184176279|SUPERIORITY_OR_OTHER||Difference in proportions|4.9|STANDARD_ERROR_OF_MEAN|5.3||0.359|TWO_SIDED|95.0|-5.5|15.3||P-value corresponds to a Z-test of the null hypothesis that the ALT stratum-adjusted difference is zero.|Z-test|Difference, standard error of the difference, and confidence interval are stratum adjusted (baseline ALT ≤ 2 x ULN or \> 2 x ULN).||||15.3|-5.5|0.359
92145788|NCT00952822|184176297|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence limits of -0.223 to 0.223 in accordance with FDA Guidance for Industry: Statistical Approaches to Establishing Bioequivalence; 2001.|Difference of Least-Squares Means|-0.052||||||90.0|-0.117|0.012||||||||0.012|-0.117|
92145789|NCT00952822|184176298|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence limits of -0.223 to 0.223 in accordance with FDA Guidance for Industry: Statistical Approaches to Establishing Bioequivalence; 2001.|Difference of Least-Squares Means|-0.016||||||90.0|-0.076|0.043||||||||0.043|-0.076|
92295748|NCT03440424|184496442|OTHER||Percent ratio of geometric mean|116.97|||||TWO_SIDED|90.0|84.66|161.62|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||161.62|84.66|
92295749|NCT03440424|184496442|OTHER||Percent ratio of geometric mean|78.46|||||TWO_SIDED|90.0|61.06|100.81|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||100.81|61.06|
92295750|NCT03440424|184496442|OTHER||Percent ratio of geometric mean|116.76|||||TWO_SIDED|90.0|89.95|151.56|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||151.56|89.95|
92295751|NCT03440424|184496442|OTHER||Percent ratio of geometric mean|94.97|||||TWO_SIDED|90.0|70.31|128.28|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||128.28|70.31|
92295752|NCT03440424|184496442|OTHER||Percent ratio of geometric mean|103.59|||||TWO_SIDED|90.0|75.43|142.28|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||142.28|75.43|
92295753|NCT02418455|184496498|SUPERIORITY||LS Mean|-61.0|STANDARD_ERROR_OF_MEAN|6.409|<|0.0001|TWO_SIDED|95.0|-73.56|-48.44||P-values are from generalized estimating equation (GEE) model including baseline value and visit as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||||-48.44|-73.56|< 0.0001
92295754|NCT02418455|184496506|SUPERIORITY|||||||0.2655|||||||t-test|||||||0.2655
92295755|NCT02418455|184496507|SUPERIORITY||LS Mean|-0.99|STANDARD_ERROR_OF_MEAN|0.396||0.0122|TWO_SIDED|95.0|-1.77|-0.22||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 12||-0.22|-1.77|0.0122
92295756|NCT02418455|184496507|SUPERIORITY||LS Mean|-1.21|STANDARD_ERROR_OF_MEAN|0.461||0.0086|TWO_SIDED|95.0|-2.12|-0.31||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 24||-0.31|-2.12|0.0086
92295757|NCT02418455|184496507|SUPERIORITY||LS Mean|-0.98|STANDARD_ERROR_OF_MEAN|0.31||0.0016|TWO_SIDED|95.0|-1.58|-0.37||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 48||-0.37|-1.58|0.0016
92145790|NCT01250990|184176329|SUPERIORITY_OR_OTHER|||||||0.8||||||p value is for comparison between changes in reverse cholesterol transport in niacin versus placebo groups after 12 weeks of treatment.|t-test, 2 sided|||This is a pilot study to assess the effects of niacin on reverse cholesterol transport. The null hypothesis is that niacin has no effect on reverse cholesterol transport.||||0.8
92145791|NCT03786952|184176330|SUPERIORITY|||||||0.453|||||||ANOVA|||||||0.453
92145792|NCT03786952|184176331|SUPERIORITY|||||||0.931|||||||ANOVA|||||||0.931
92145793|NCT03786952|184176332|SUPERIORITY|||||||0.923|||||||ANOVA|||||||0.923
92145794|NCT03786952|184176333|SUPERIORITY|||||||0.399|||||||ANOVA|||||||0.399
92145795|NCT03786952|184176334|SUPERIORITY|||||||0.872|||||||ANOVA|||||||0.872
92145796|NCT03786952|184176335|SUPERIORITY|||||||0.998|||||||ANOVA|||||||0.998
92145797|NCT03786952|184176336|SUPERIORITY|||||||0.1|||||||ANOVA|||||||0.10
92145798|NCT03786952|184176337|SUPERIORITY|||||||0.992|||||||ANOVA|||||||0.992
92145799|NCT03786952|184176338|SUPERIORITY|||||||0.519|||||||ANOVA|||||||0.519
92145800|NCT03786952|184176339|SUPERIORITY|||||||0.007|||||||ANOVA|||||||0.007
92145801|NCT03786952|184176340|SUPERIORITY|||||||0.457|||||||ANOVA|||||||0.457
92145802|NCT03786952|184176341|SUPERIORITY|||||||0.415|||||||ANOVA|||||||0.415
92145803|NCT03786952|184176342|SUPERIORITY|||||||0.923|||||||ANOVA|||||||0.923
92145804|NCT03786952|184176343|SUPERIORITY|||||||0.981|||||||ANOVA|||||||0.981
92145805|NCT03786952|184176344|SUPERIORITY|||||||0.627|||||||ANOVA|||||||0.627
92145806|NCT03786952|184176345|SUPERIORITY|||||||0.901|||||||ANOVA|||||||0.901
92145807|NCT03786952|184176346|SUPERIORITY|||||||0.166|||||||ANOVA|||||||0.166
92145808|NCT03786952|184176347|SUPERIORITY|||||||0.252|||||||ANOVA|||||||0.252
92145809|NCT03292146|184176360|SUPERIORITY|||||||0.009|||||||Mixed Models Analysis|||||||0.009
92145810|NCT03292146|184176361|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
92145811|NCT03292146|184176362|SUPERIORITY|||||||0.06|||||||Matched pairs|||||||0.06
92145812|NCT03292146|184176362|SUPERIORITY|||||||0.01|||||||Matched pairs|||||||0.01
92145813|NCT03905330|184176378|SUPERIORITY||Least-Square mean|-1.089|STANDARD_ERROR_OF_MEAN|0.3691|=|0.0063|TWO_SIDED|95.0|-1.845|-0.334|||Mixed Models Analysis|||The difference between maralixibat and placebo treatment groups in the mean change in the average ItchRO(Obs) severity score between baseline and Weeks 15-26||-0.334|-1.845|= 0.0063
92295758|NCT02418455|184496507|SUPERIORITY||LS Mean|-0.57|STANDARD_ERROR_OF_MEAN|0.428||0.1792|TWO_SIDED|95.0|-1.41|0.26||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 96||0.26|-1.41|0.1792
92295759|NCT02418455|184496507|SUPERIORITY||LS Mean|-0.35|STANDARD_ERROR_OF_MEAN|0.255||0.1731|TWO_SIDED|95.0|-0.85|0.15||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 144||0.15|-0.85|0.1731
92295760|NCT02418455|184496508|SUPERIORITY||LS Mean|-0.37|STANDARD_ERROR_OF_MEAN|0.213||0.0843|TWO_SIDED|95.0|-0.78|0.05||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 12||0.05|-0.78|0.0843
92295761|NCT02418455|184496508|SUPERIORITY||LS Mean|-0.02|STANDARD_ERROR_OF_MEAN|0.513||0.9618|TWO_SIDED|95.0|-1.03|0.98||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 24||0.98|-1.03|0.9618
92295762|NCT02418455|184496508|SUPERIORITY||LS Mean|-0.15|STANDARD_ERROR_OF_MEAN|0.391||0.6954|TWO_SIDED|95.0|-0.92|0.61||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|GEE model|||Change at Week 48||0.61|-0.92|0.6954
92295763|NCT02418455|184496508|SUPERIORITY||LS Mean|0.22|STANDARD_ERROR_OF_MEAN|0.364||0.5492|TWO_SIDED|95.0|-0.5|0.93||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 96||0.93|-0.50|0.5492
92295764|NCT02418455|184496508|SUPERIORITY||LS Mean|-0.56|STANDARD_ERROR_OF_MEAN|0.503||0.2618|TWO_SIDED|95.0|-1.55|0.42||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 144||0.42|-1.55|0.2618
92295765|NCT02445287|184496509|SUPERIORITY_OR_OTHER|||||||0.92||||||Level of significance (alpha) = 0.05|t-test, 2 sided|||||||0.920
92295766|NCT02445287|184496510|SUPERIORITY_OR_OTHER|||||||0||||||Level of significance (alpha) = 0.05|t-test, 1 sided|||||||0.000
92295767|NCT02445287|184496511|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence interval = (-0.25, 0.25)||||||0||||||level of significance (alpha) = 0.05|Equivalence test|||||||0.000
92145814|NCT03905330|184176379|SUPERIORITY||Least-Square mean|-186.723|STANDARD_ERROR_OF_MEAN|51.9501|=|0.0013|TWO_SIDED|95.0|-293.454|-79.992|||Mixed Models Analysis|||||-79.992|-293.454|= 0.0013
92145815|NCT03905330|184176380|SUPERIORITY||Least-Square mean|-1.2|STANDARD_ERROR_OF_MEAN|0.263|<|0.0001|TWO_SIDED|95.0|-1.727|-0.674|||Mixed Models Analysis|||||-0.674|-1.727|< 0.0001
92145816|NCT03905330|184176381|SUPERIORITY||Least-Square mean|-160.403|STANDARD_ERROR_OF_MEAN|30.1827|<|0.0001|TWO_SIDED|95.0|-220.836|-99.97|||Mixed Models Analysis|||||-99.970|-220.836|< 0.0001
92145817|NCT03905330|184176382|OTHER||||||=|0.0736|||||||Bernard's exact test|||||||= 0.0736
92145818|NCT03905330|184176383|SUPERIORITY||||||=|0.041|||||||Bernard's exact test|||||||= 0.0410
92145819|NCT03905330|184176384|SUPERIORITY||||||=|0.0023|||||||Bernard's exact test|||||||= 0.0023
92145820|NCT03905330|184176385|SUPERIORITY||||||=|0.0004|||||||Bernard's exact test|||||||= 0.0004
92145821|NCT03624504|184176405|OTHER|Assume expected performance to be 94%. The Objective Performance Criterion (OPC) is set at 83% (same performance threshold in FDA approved global study). Assumes 0.05 significance level, 2-sided, 80% power and 10% study attrition.|Kaplan-Meier survival probability (%)|97.6||||0.0021|TWO_SIDED|95.0|90.6|99.4||The threshold for significance was 0.05.|z test, 1-sided||The major complication free rate (i.e. survival probability) was estimated using the Kaplan-Meier method.|"Null hypothesis: Major complication free rate at 6 months post-implant is less than or equal to 83%~Alternative hypothesis: Major complication free rate at 6 months post-implant is greater than 83%."||99.4|90.6|0.0021
92145822|NCT01812655|184176414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.7||||0.029|TWO_SIDED|95.0|2.4|45.0|||Regression, Linear||Mean difference = PD group - VR group|||45.0|2.4|0.029
92145823|NCT01812655|184176414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7||||0.32|TWO_SIDED|95.0|-9.5|28.9|||Regression, Linear||Mean difference = VR group - SC group|||28.9|-9.5|0.32
92145824|NCT01812655|184176415|SUPERIORITY_OR_OTHER||Semipartial correlation|0.223||||0.26||95.0|||||Semipartial correlation||Semipartial correlation between desire for distraction and STAIC State Anxiety measured at Baseline for all participants|||||.26
92145825|NCT01812655|184176415|SUPERIORITY_OR_OTHER||Semipartial correlation|0.119||||0.59||95.0|||||Semipartial correlation||Semipartial correlation between desire for distraction and STAIC Trait Anxiety measured at Baseline for all participants|||||.59
92145826|NCT01812655|184176415|SUPERIORITY_OR_OTHER||Semipartial correlation|-0.059||||0.6||95.0|||||Semipartial correlation||Semipartial correlation between desire for distraction and Procedural Pain (Outcome Measure #1) for all participants|||||.60
92145827|NCT01812655|184176416|SUPERIORITY_OR_OTHER||semipartial correlation|-0.276||||0.15||95.0|||||Semipartial Correlation||Semipartial correlation between Engagement with Distraction and STAIC State Anxiety measured at Baseline for all participants|||||0.15
92145828|NCT01812655|184176416|SUPERIORITY_OR_OTHER||Semipartial correlation|-0.347||||0.18||95.0|||||Semipartial correlation||Semipartial correlation between Engagement with Distraction and STAIC Trait Anxiety measured at Baseline for all participants|||||0.18
92145829|NCT01812655|184176416|SUPERIORITY_OR_OTHER||Semipartial correlation|0.21||||0.054||95.0|||||Semipartial correlation||Semipartial correlation between Engagement with Distraction and Procedural Pain (Outcome Measure #1) for all participants|||||0.054
92145830|NCT01812655|184176416|SUPERIORITY_OR_OTHER||Semipartial Correlation|-0.102||||0.61||95.0|||||Semipartial Correlation||Semipartial correlation between Belief in Distraction's Efficacy and STAIC State Anxiety measured at Baseline for all participants|||||0.61
92295768|NCT02445287|184496512|SUPERIORITY_OR_OTHER|||||||0.012||||||level of significance (alpha) = 0.05|t-test, 1 sided|||||||0.012
92295769|NCT04205162|184496529|OTHER|||||||0.331|||||||Wilcoxon (Mann-Whitney)|||Comparison of etafilcon A||||0.331
92295770|NCT04205162|184496529|OTHER|||||||0.122|||||||Wilcoxon (Mann-Whitney)|||Comparison of verofilcon A||||0.122
92295771|NCT04205162|184496530|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Comparison of etafilcon A||||0.130
92295772|NCT04205162|184496530|OTHER|||||||0.924|||||||Wilcoxon (Mann-Whitney)|||Comparison of verofilcon A||||0.924
92295773|NCT01546519|184496534|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.3|||||TWO_SIDED|90.0|0.95|1.78||||||Cmax Mild HI vs. Normal: Based on pooled variance estimates||1.78|0.95|
92295774|NCT01546519|184496534|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.3|||||TWO_SIDED|90.0|0.92|1.83||||||Cmax Moderate HI vs. Normal: Based on pooled variance estimates||1.83|0.92|
92295775|NCT01546519|184496534|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.55|1.37||||||Cmax Severe HI vs. Normal: Based on pooled variance estimates||1.37|0.55|
92295776|NCT01546519|184496534|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.24|||||TWO_SIDED|90.0|0.9|1.71||||||Css Mild HI vs. Normal: Based on pooled variance estimates||1.71|0.90|
92295777|NCT01546519|184496534|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.27|||||TWO_SIDED|90.0|0.89|1.8||||||Css Moderate HI vs. Normal: Based on pooled variance estimates||1.80|0.89|
92295778|NCT01546519|184496534|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.88|||||TWO_SIDED|90.0|0.55|1.41||||||Css Severe HI vs. Normal: Based on pooled variance estimates||1.41|0.55|
92295779|NCT01546519|184496535|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.24|||||TWO_SIDED|90.0|0.89|1.73||||||AUC0-24hr Mild HI vs. Normal: Based on pooled variance estimates||1.73|0.89|
92295780|NCT01546519|184496535|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.31|||||TWO_SIDED|90.0|0.91|1.89||||||AUC0-24hr Moderate HI vs. Normal: Based on pooled variance estimates||1.89|0.91|
92295781|NCT01546519|184496535|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.86|||||TWO_SIDED|90.0|0.53|1.39||||||AUC0-24hr Severe HI vs. Normal: Based on pooled variance estimates||1.39|0.53|
92295782|NCT01589601|184496545|SUPERIORITY||Mean Difference (Net)|4.8719||||0.1641|TWO_SIDED|95.0|-2.0289|11.7728|||Mixed Models Analysis|Baseline||||11.7728|-2.0289|0.1641
92295783|NCT01589601|184496545|SUPERIORITY|6 Months|Mean Difference (Net)|9.4938||||0.0299|TWO_SIDED|95.0|0.9406|18.047|||Mixed Models Analysis|||||18.0470|0.9406|0.0299
92145831|NCT01812655|184176416|SUPERIORITY_OR_OTHER||Semipartial Correlation|-0.622||||0.007||95.0|||||Semipartial Correlation||Semipartial correlation between Belief in Distraction's Efficacy and STAIC Trait Anxiety measured at Baseline for all participants|||||0.007
92295784|NCT01589601|184496546|SUPERIORITY||Mean Difference (Net)|2.7157||||0.5531|TWO_SIDED|95.0|-6.3054|11.7368|||Mixed Models Analysis|Baseline||||11.7368|-6.3054|0.5531
92145832|NCT01812655|184176416|SUPERIORITY_OR_OTHER||Semipartial correlation|-0.217||||0.045||95.0|||||Semipartial correlation||Semipartial correlation between Belief in Distraction's Efficacy and Procedural Pain (Outcome Measure #1) for all participants|||||0.045
92295785|NCT01589601|184496546|SUPERIORITY||Mean Difference (Net)|11.773||||0.035|TWO_SIDED|95.0|0.8409|22.7052|||Mixed Models Analysis|6 Months||||22.7052|0.8409|0.0350
92295786|NCT01589601|184496547|SUPERIORITY|HADS Anxiety 2 weeks|Mean Difference (Net)|-1.2436||||0.1592|TWO_SIDED|95.0|-2.9817|0.4945|||Mixed Models Analysis|||||0.4945|-2.9817|0.1592
92295787|NCT01589601|184496547|SUPERIORITY|HADS Anxiety 3 months|Mean Difference (Net)|-0.7946||||0.3657|TWO_SIDED|95.0|-2.5285|0.9393|||Mixed Models Analysis|||||0.9393|-2.5285|0.3657
92295788|NCT01589601|184496547|SUPERIORITY|HADS Anxiety 6 months|Mean Difference (Net)|-1.8269||||0.048|TWO_SIDED|95.0|-3.6375|-0.0164|||Mixed Models Analysis|||||-0.0164|-3.6375|0.0480
92295789|NCT01589601|184496547|SUPERIORITY|HADS Depression at 2 weeks|Mean Difference (Net)|-0.9097||||0.2372|TWO_SIDED|95.0|-2.4253|0.6058|||Mixed Models Analysis|||||0.6058|-2.4253|0.2372
92295790|NCT01589601|184496547|SUPERIORITY|HADS Depression 3 months|Mean Difference (Net)|-0.6592||||0.4237|TWO_SIDED|95.0|-2.2862|0.9678|||Mixed Models Analysis|||||0.9678|-2.2862|0.4237
92295791|NCT01589601|184496547|SUPERIORITY|HADS Depression at 6 months|Mean Difference (Net)|-1.9379||||0.0202|TWO_SIDED|95.0|-3.5672|-0.3085|||Mixed Models Analysis|||||-0.3085|-3.5672|0.0202
92145833|NCT00419263|184176434|SUPERIORITY_OR_OTHER|||||||0.377|TWO_SIDED||||||Regression, Cox|P-value is based on the treatment parameter from the Cox Regression Model including treatment, current smoking behavior, and geographic region.||||||0.377
92145834|NCT00419263|184176435|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|||||P-value is based on the log-rank statistic controlling for current smoking behavior and geographic region.|Log Rank|||||||0.007
92145835|NCT00419263|184176436|SUPERIORITY_OR_OTHER|||||||0.537|TWO_SIDED|||||P-value is based on the log-rank statistic controlling for current smoking behavior and geographic region.|Log Rank|||||||0.537
92145836|NCT00419263|184176437|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||The differences between the treatment groups were evaluated using a Wilcoxon Rank Sum Test controlling for current smoking behavior.|Wilcoxon (Mann-Whitney)|||||||0.002
92295792|NCT01589601|184496549|SUPERIORITY|FACIT-Sp at 2 weeks|Mean Difference (Net)|0.9413||||0.5857|TWO_SIDED|95.0|-2.4666|4.3493|||Mixed Models Analysis|||||4.3493|-2.4666|0.5857
92295793|NCT01589601|184496549|SUPERIORITY|FACIT-Sp at 3 months|Mean Difference (Net)|1.1174||||0.5655|TWO_SIDED|95.0|-2.7246|4.9594|||Mixed Models Analysis|||||4.9594|-2.7246|0.5655
92295794|NCT01589601|184496549|SUPERIORITY|FACIT-Sp at 6 months|Mean Difference (Net)|3.9809||||0.0271|TWO_SIDED|95.0|0.4581|7.5036|||Mixed Models Analysis|||||7.5036|0.4581|0.0271
92295795|NCT01589601|184496551|SUPERIORITY|All-cause readmissions, Poisson regression with log link and Pearson scale||||||0.56|||||||Poisson regression|||||||0.56
92295796|NCT01589601|184496551|SUPERIORITY|Cardiovascular readmissions, Poisson regression with log link and Pearson scale||||||0.8|||||||Poisson regression|||||||0.80
92295797|NCT01589601|184496551|SUPERIORITY|Heart failure readmissions, Poisson regression with log link and Pearson scale||||||0.92|||||||Poisson regression|||||||0.92
92295798|NCT01589601|184496551|SUPERIORITY|Non-cardiovascular readmissions, Poisson regression with log link and Pearson scale||||||0.12|||||||Poisson regression|||||||0.12
92295799|NCT00434837|184496574|SUPERIORITY|||||||0.27|||||||ANOVA|||These results are from the 3-year analysis.||||.27
92295800|NCT00434837|184496575|SUPERIORITY|||||||0.08|||||||ANOVA|||These results are from the 7-year analysis.||||.08
92295801|NCT00434837|184496576|SUPERIORITY|||||||0.22|||||||ANOVA|||These results are from the 15-year analysis.||||.22
92295802|NCT00434837|184496577|SUPERIORITY|||||||0.0078|||||||ANOVA|||These results are from the 15-year analysis.||||.0078
92295803|NCT00434837|184496578|SUPERIORITY|||||||0.0018|||||||ANOVA|||These results are from the 15-year analysis.||||.0018
92295804|NCT00434837|184496579|SUPERIORITY|||||||0.015|||||||ANOVA|||These results are from the 15-year analysis.||||.015
92295805|NCT00434837|184496580|SUPERIORITY|||||||0.003|||||||ANOVA|||These results are from the 15-year analysis.||||.003
92295806|NCT00434837|184496581|SUPERIORITY|||||||0.0006|||||||ANOVA|||These results are from the 15-year analysis.||||.0006
92295807|NCT00434837|184496582|SUPERIORITY|||||||0.15|||||||ANOVA|||These results are from the 15-year analysis.||||.15
92295808|NCT00434837|184496583|SUPERIORITY|||||||0.34|||||||Chi-squared|||These results are from the 15-year analysis.||||.34
92295809|NCT00434837|184496584|SUPERIORITY|||||||0.17|||||||ANOVA|||These results are from the 15-year analysis.||||.17
92295810|NCT00434837|184496585|SUPERIORITY|||||||0.25|||||||ANOVA|||These results are from the 15-year analysis.||||.25
92295811|NCT00434837|184496586|SUPERIORITY|||||||0.61|||||||ANOVA|||These results are from the 15-year analysis.||||.61
92295812|NCT00434837|184496587|SUPERIORITY|||||||0.15|||||||ANOVA|||These results are from the 15-year analysis.||||.15
92295813|NCT00434837|184496588|SUPERIORITY|||||||0.53|||||||ANOVA|||These results are from the 15-year analysis.||||.53
92295814|NCT00434837|184496589|SUPERIORITY|||||||0.82|||||||ANOVA|||These results are from the 15-year analysis.||||.82
92295815|NCT00434837|184496590|SUPERIORITY|||||||0.03|||||||ANOVA|||These results are from the 15-year analysis.||||.03
92295816|NCT00434837|184496591|SUPERIORITY|||||||0.67|||||||ANOVA|||These results are from the 15-year analysis.||||.67
92295817|NCT00434837|184496593|SUPERIORITY|||||||0.051|||||||ANOVA|||These results are from the 15-year analysis.||||.051
92295818|NCT00434837|184496594|SUPERIORITY|||||||0.14|||||||ANOVA|||These results were from the 15-year analysis.||||.14
92295819|NCT00434837|184496595|SUPERIORITY|||||||0.067|||||||ANOVA|||These results are from the 15-year analysis.||||.067
92295820|NCT00434837|184496596|SUPERIORITY|||||||0.54|||||||ANOVA|||These results were from the 7-year analysis.||||.54
92295821|NCT00434837|184496597|SUPERIORITY|||||||0.08|||||||ANOVA|||These results are from the 15-year analysis.||||.08
92295822|NCT00345033|184496612|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in total cholesterol is over 99%.||||||0.125||95.0|||||ANCOVA|||||||0.125
92295823|NCT00345033|184496613|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in weight will be over 99%.||||||0.109||95.0|||||ANCOVA|||||||0.109
92295824|NCT00345033|184496614|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in Body Mass Index (BMI) will be over 99%.||||||0.229||95.0|||||ANCOVA|||||||0.229
92295825|NCT00345033|184496615|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in glucose metabolism to be 90%.||||||0.01||95.0|||||ANCOVA|||||||0.010
92295826|NCT00345033|184496616|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in triglycerides will be 81%.||||||0.982||95.0|||||ANCOVA|||||||0.982
92295827|NCT00345033|184496617|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in Insulin Resistance will be 90%.||||||0.082||95.0|||||ANCOVA|||||||0.082
92295828|NCT01881737|184496619|SUPERIORITY_OR_OTHER|||||||0.848|||||||Paired t test|||Effect Size Cohen's d = -0.05||||0.848
92295829|NCT01881737|184496620|SUPERIORITY_OR_OTHER|||||||0.009|||||||Paired t test|Effect Size Cohen's d = 0.53||||||0.009
92295830|NCT01881737|184496621|SUPERIORITY_OR_OTHER|||||||0.38|||||||paired t test|Effect size Cohen's d = 0.38||||||0.38
92295831|NCT01881737|184496623|SUPERIORITY_OR_OTHER|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92295832|NCT02102932|184496624|SUPERIORITY_OR_OTHER||Ratio of the geometric means|105.29|STANDARD_DEVIATION|6.6||0|TWO_SIDED|90.0|101.92|108.78||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||108.78|101.92|0.0000
92295833|NCT02102932|184496624|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.23|STANDARD_DEVIATION|6.6||0|TWO_SIDED|90.0|99.91|106.65||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||106.65|99.91|0.0000
92295834|NCT02102932|184496624|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.56|STANDARD_DEVIATION|7.6||0|TWO_SIDED|90.0|99.73|107.54||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||107.54|99.73|0.0000
92295835|NCT02102932|184496624|SUPERIORITY_OR_OTHER||Ratio of the geometric means|102.81|STANDARD_DEVIATION|6.9||0|TWO_SIDED|90.0|99.36|106.37||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||106.37|99.36|0.0000
92295836|NCT02102932|184496625|SUPERIORITY_OR_OTHER||Ratio of the geometric means|104.56|STANDARD_DEVIATION|14.0||0.0001|TWO_SIDED|90.0|97.56|112.07||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||112.07|97.56|0.0001
92295837|NCT02102932|184496625|SUPERIORITY_OR_OTHER||Ratio of the geometric means|105.8|STANDARD_DEVIATION|12.8||0.0001|TWO_SIDED|90.0|99.32|112.7||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||112.70|99.32|0.0001
92295838|NCT02102932|184496625|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.75|STANDARD_DEVIATION|11.2||0|TWO_SIDED|90.0|98.18|109.63||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||109.63|98.18|0.0000
92295839|NCT02102932|184496625|SUPERIORITY_OR_OTHER||Ratio of the geometric means|95.77|STANDARD_DEVIATION|12.8||0|TWO_SIDED|90.0|89.88|102.03||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||102.03|89.88|0.0000
92295840|NCT02102932|184496626|SUPERIORITY_OR_OTHER||Ratio of the geometric means|106.44|STANDARD_DEVIATION|11.8||0|TWO_SIDED|90.0|100.44|112.8||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||112.80|100.44|0.0000
92295841|NCT02102932|184496626|SUPERIORITY_OR_OTHER||Ratio of the geometric means|110.78|STANDARD_DEVIATION|13.2||0.0021|TWO_SIDED|90.0|103.8|118.24||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||118.24|103.80|0.0021
92295842|NCT02102932|184496626|SUPERIORITY_OR_OTHER||Ratio of the geometric means|101.38|STANDARD_DEVIATION|13.6||0|TWO_SIDED|90.0|94.82|108.39||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||108.39|94.82|0.0000
92295843|NCT02102932|184496626|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.02|STANDARD_DEVIATION|16.3||0.0002|TWO_SIDED|90.0|95.08|111.63||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||111.63|95.08|0.0002
92295844|NCT02102932|184496627|SUPERIORITY_OR_OTHER||Ratio of the geometric means|104.91|STANDARD_DEVIATION|11.2||0|TWO_SIDED|90.0|99.29|110.86||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||110.86|99.29|0.0000
92295845|NCT02102932|184496627|SUPERIORITY_OR_OTHER||Ratio of the geometric means|106.32|STANDARD_DEVIATION|15.7||0.0008|TWO_SIDED|90.0|98.39|114.88||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||114.88|98.39|0.0008
92145837|NCT00419263|184176438|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The differences between the treatment groups were evaluated using a Wilcoxon Rank Sum Test controlling for current smoking behavior.|Wilcoxon (Mann-Whitney)|||||||< 0.001
92295846|NCT02102932|184496627|SUPERIORITY_OR_OTHER||Ratio of the geometric means|104.44|STANDARD_DEVIATION|15.7||0.0003|TWO_SIDED|90.0|96.68|112.82||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||112.82|96.68|0.0003
92145838|NCT00419263|184176439|SUPERIORITY_OR_OTHER|||||||0.409|TWO_SIDED|||||The differences between the treatment groups were evaluated using a Wilcoxon Rank Sum Test controlling for current smoking behavior.|Wilcoxon (Mann-Whitney)|||||||0.409
92145839|NCT00419263|184176440|SUPERIORITY_OR_OTHER|||||||0.327|TWO_SIDED|||||The differences between the treatment groups were evaluated using a Wilcoxon Rank Sum Test controlling for current smoking behavior.|Wilcoxon (Mann-Whitney)|||||||0.327
92145840|NCT00540124|184176442|SUPERIORITY_OR_OTHER|||||||0.073||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.073
92145841|NCT00540124|184176442|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.186
92266754|NCT05182840|184434915|OTHER||Odds Ratio (OR)|2.44||||0.0419|TWO_SIDED|95.0|1.03|5.74||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||5.74|1.03|0.0419
92145842|NCT00540124|184176443|SUPERIORITY_OR_OTHER|||||||0.155||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.155
92145843|NCT00540124|184176443|SUPERIORITY_OR_OTHER|||||||0.155||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.155
92145844|NCT00540124|184176443|SUPERIORITY_OR_OTHER|||||||0.108||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.108
92145845|NCT00540124|184176443|SUPERIORITY_OR_OTHER|||||||0.112||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.112
92266755|NCT05182840|184434915|OTHER||Odds Ratio (OR)|6.09||||0|TWO_SIDED|95.0|2.64|14.08||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||14.08|2.64|0.0000
92266756|NCT05182840|184434915|OTHER||Odds Ratio (OR)|6.13||||0|TWO_SIDED|95.0|2.64|14.25||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||14.25|2.64|0.0000
92266757|NCT05182840|184434916|OTHER||Odds Ratio (OR)|2.88||||0.0195|TWO_SIDED|95.0|1.19|7.02||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.02|1.19|0.0195
92266758|NCT05182840|184434916|OTHER||Odds Ratio (OR)|6.38||||0|TWO_SIDED|95.0|2.65|15.35||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.35|2.65|0.0000
92266759|NCT05182840|184434916|OTHER||Odds Ratio (OR)|6.39||||0.0001|TWO_SIDED|95.0|2.6|15.67||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.67|2.60|0.0001
92266760|NCT05182840|184434917|OTHER||Odds Ratio (OR)|2.03||||0.0767|TWO_SIDED|95.0|0.93|4.42||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.42|0.93|0.0767
92266761|NCT05182840|184434917|OTHER||Odds Ratio (OR)|4.11||||0.0003|TWO_SIDED|95.0|1.89|8.91||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.91|1.89|0.0003
92266762|NCT05182840|184434917|OTHER||Odds Ratio (OR)|4.69||||0.0001|TWO_SIDED|95.0|2.15|10.24||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||10.24|2.15|0.0001
92295847|NCT02102932|184496627|SUPERIORITY_OR_OTHER||Ratio of the geometric means|96.61|STANDARD_DEVIATION|16.9||0.0004|TWO_SIDED|90.0|88.9|104.99||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||104.99|88.90|0.0004
92295848|NCT02102932|184496628|SUPERIORITY_OR_OTHER||Ratio of the geometric means|105.16|STANDARD_DEVIATION|6.2||0|TWO_SIDED|90.0|101.97|108.45||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||108.45|101.97|0.0000
92295849|NCT02102932|184496628|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.07|STANDARD_DEVIATION|6.6||0|TWO_SIDED|90.0|99.75|106.5||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||106.50|99.75|0.0000
92295850|NCT02102932|184496628|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.14|STANDARD_DEVIATION|7.5||0|TWO_SIDED|90.0|99.37|107.04||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||107.04|99.37|0.0000
92295851|NCT02102932|184496628|SUPERIORITY_OR_OTHER||Ratio of the geometric means|102.61|STANDARD_DEVIATION|7.0||0|TWO_SIDED|90.0|99.1|106.25||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||106.25|99.10|0.0000
92295852|NCT02102932|184496629|SUPERIORITY_OR_OTHER||Ratio of the geometric means|105.33|STANDARD_DEVIATION|11.9||0|TWO_SIDED|90.0|99.34|111.68||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||111.68|99.34|0.0000
92295853|NCT02102932|184496629|SUPERIORITY_OR_OTHER||Ratio of the geometric means|105.75|STANDARD_DEVIATION|13.2||0.0001|TWO_SIDED|90.0|99.09|112.85||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||112.85|99.09|0.0001
92295854|NCT02102932|184496629|SUPERIORITY_OR_OTHER||Ratio of the geometric means|102.9|STANDARD_DEVIATION|11.7||0|TWO_SIDED|90.0|97.11|109.03||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||109.03|97.11|0.0000
92295855|NCT02102932|184496629|SUPERIORITY_OR_OTHER||Ratio of the geometric means|93.84|STANDARD_DEVIATION|13.6||0.0002|TWO_SIDED|90.0|87.74|100.36||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||100.36|87.74|0.0002
92145846|NCT00540124|184176444|SUPERIORITY_OR_OTHER|||||||0.137||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.137
92145847|NCT00540124|184176444|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.009
92295856|NCT03496298|184496650|NON_INFERIORITY|Non-inferiority of efpeglenatide 4 mg+6 mg versus placebo was to be claimed if the upper bound of the 2-sided 95% CI of the hazard ratio for the incidence of both 1.8 and less and 1.3 or less.|Hazard Ratio (HR)|0.732|||<|0.0001|TWO_SIDED|95.0|0.583|0.918||One-sided p-value based on log rank test of hazard ratio for the incidence of both 1.8 and less and 1.3 or less.|Log Rank|||Hazard ratio and 95% Confidence Interval (CI) were obtained from a Cox proportional hazards model with region (North America, Latin America, Europe, other), randomization stratum of SGLT2 inhibitor use (current use, potential future use, neither current nor potential future use) and treatment (efpeglenatide 4 mg, efpeglenatide 6 mg, placebo) as fixed effect factor.||0.918|0.583|<.0001
92295857|NCT03496298|184496651|SUPERIORITY|Superiority was claimed when the upper bound of the 2-sided 95% CI of hazard ratio was less than 1.|Hazard Ratio (HR)|0.732||||0.0069|TWO_SIDED|95.0|0.583|0.918||Two-sided p-values based on log rank test of hazard ratio.|Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model with region (North America, Latin America, Europe, other), randomization stratum of SGLT2 inhibitor use (current use, potential future use, neither current nor potential future use) and treatment (efpeglenatide 4 mg, efpeglenatide 6 mg, placebo) as fixed effect factor.||0.918|0.583|0.0069
92295858|NCT03496298|184496652|SUPERIORITY|Superiority was claimed when the upper bound of the 2-sided 95% CI of hazard ratio was less than 1.|Hazard Ratio (HR)|0.79||||0.02|TWO_SIDED|95.0|0.65|0.96||Two-sided p-values based on log rank test of hazard ratio.|Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model with region (North America, Latin America, Europe, other), randomization stratum of SGLT2 inhibitor use (current use, potential future use, neither current nor potential future use) and treatment (efpeglenatide 4 mg, efpeglenatide 6 mg, placebo) as fixed effect factor.||0.96|0.65|0.02
92295859|NCT03496298|184496653|SUPERIORITY|Superiority was claimed when the upper bound of the 2-sided 95% CI of hazard ratio was less than 1.|Hazard Ratio (HR)|0.675|||<|0.0001|TWO_SIDED|95.0|0.574|0.794||Two-sided p-values based on log rank test of hazard ratio.|Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model with region (North America, Latin America, Europe, other), randomization stratum of SGLT2 inhibitor use (current use, potential future use, neither current nor potential future use) and treatment (efpeglenatide 4 mg, efpeglenatide 6 mg, placebo) as fixed effect factor.||0.794|0.574|<.0001
92295860|NCT01658995|184496654|SUPERIORITY||Risk Difference (RD)|-9.9||||0.37|TWO_SIDED|95.0|-31.4|11.6|||Chi-squared|||||11.6|-31.4|0.37
92295861|NCT01658995|184496655|SUPERIORITY|||||||0.46|||||||Chi-squared|||||||0.46
92295862|NCT02058160|184496657|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.633|-0.397||Threshold for significance at 0.05 level.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Analysis was performed using Mixed-effect model with repeated measures (MMRM) with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use at screening, visits, treatment-by-visit interaction and country as fixed effects and baseline HbA1c value-by-visit interaction as covariates. A hierarchical testing procedure was used to control type I error and handle multiple endpoint analyses.||-0.397|-0.633|<0.0001
92295863|NCT02058160|184496658|SUPERIORITY_OR_OTHER||Difference in percentage|25.52|||<|0.0001|TWO_SIDED|95.0|18.94|32.1||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|"HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Insulin Glargine.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of metformin use at screening. This analysis was out of testing order."||32.10|18.94|<0.0001
92295864|NCT02058160|184496658|SUPERIORITY_OR_OTHER||Difference in percentage|19.76|||<|0.0001|TWO_SIDED|95.0|13.9|25.62|||Cochran-Mantel-Haenszel||HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|"HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Insulin Glargine.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of metformin use at screening. This analysis was out of testing order."||25.62|13.90|<0.0001
92295865|NCT02058160|184496659|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.43|STANDARD_ERROR_OF_MEAN|0.251|<|0.0001|TWO_SIDED|95.0|-3.925|-2.939||Threshold for significance at 0.05 level.|ANCOVA||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use at screening and country as fixed effects and baseline 2-hour plasma glucose excursion value as a covariate.||-2.939|-3.925|<0.0001
92145848|NCT00540124|184176444|SUPERIORITY_OR_OTHER|||||||0.118||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.118
92145849|NCT00540124|184176444|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.018
92145850|NCT00540124|184176444|SUPERIORITY_OR_OTHER|||||||0.207||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.207
92295866|NCT02058160|184496660|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.224|<|0.0001|TWO_SIDED|95.0|-1.808|-0.93||Threshold for significance at 0.05 level.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use at screening, scheduled visits, treatment-by-visit interaction and country as fixed effects and baseline body weight value-by-visit interaction as covariates.||-0.93|-1.808|<0.0001
92295867|NCT02058160|184496661|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.131|<|0.0001|TWO_SIDED|95.0|-1.154|-0.64||Threshold for significance at 0.05 level.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use at screening, scheduled visits, treatment-by-visit interaction and country as fixed effects and baseline average SMPG value-by-visit interaction as covariates.||-0.64|-1.154|<0.0001
92295868|NCT02058160|184496662|SUPERIORITY_OR_OTHER||difference in percentage|20.82|||<|0.0001|TWO_SIDED|95.0|14.98|26.66||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of metformin use at screening.||26.66|14.98|<0.0001
92295869|NCT02058160|184496663|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.766||0.7362|TWO_SIDED|95.0|-1.762|1.246||Threshold for significance at 0.05 level.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use at screening, scheduled visits, treatment-by-visit interaction and country as fixed effects and baseline daily insulin glargine dose-by-visit interaction as a covariate.||1.246|-1.762|0.7362
92295870|NCT00749658|184496710|OTHER|Two tailed testing||||||0.07|||||||SAS|||||||0.07
92295871|NCT03298880|184496732|SUPERIORITY||Mean Difference (Net)|3.7|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|2.1|5.3|||mixed linear regression|||||5.3|2.1|<0.001
92295872|NCT03298880|184496732|SUPERIORITY||Mean Difference (Net)|2.3||||0.003|TWO_SIDED|95.0|0.8|3.8|||mixed linear regression|||||3.8|0.8|0.003
92295873|NCT01488448|184496740|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.73
92295874|NCT01488448|184496741|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Fisher Exact|||||||0.77
92295875|NCT01488448|184496742|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Fisher Exact|||||||0.97
92295876|NCT01488448|184496743|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Fisher Exact|||||||0.67
92145851|NCT00540124|184176444|SUPERIORITY_OR_OTHER|||||||0.581||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.581
92295877|NCT01488448|184496744|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.39
92295878|NCT01488448|184496745|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.18
92295879|NCT01488448|184496748|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.96
92295880|NCT01475487|184496750|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 21 participants per group was required to detect a 40% absolute difference in the complication rate between DP and US guided techniques assuming a 45% complication rate in the DP (control) group and using the Fisher's exact test for the comparison of independent proportions. A total of 23 and 24 participants were recruited in the DP and US group, respectively.|||||<|0.01|TWO_SIDED||||||Fisher Exact|||||||<0.01
92295881|NCT01475487|184496751|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.88||||0.001|TWO_SIDED|95.0|1.39|5.94|||Fisher Exact||Risk of injury ( none-mild vs moderate -severe) for all participants|||5.94|1.39|0.001
92295882|NCT01475487|184496751|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Grade 3-4 comparison of None-mild and moderate-severe||||<0.001
92295883|NCT01475487|184496752|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.91||||0.701|TWO_SIDED|95.0|0.12|2.72|||Fisher Exact||This is the risk ratio for 1 vs 2 attempts|||2.72|0.12|0.701
92295884|NCT01475487|184496753|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|5.6||||0.043|TWO_SIDED|95.0|0.79|39.48|||Fisher Exact|||Comparison for Grade 3-4||39.48|0.79|0.043
92295885|NCT01992094|184496754|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT|1.0|||||TWO_SIDED|95.0|0.9|1.1|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain H1N1||1.1|0.9|
92295886|NCT01992094|184496754|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT|1.0|||||TWO_SIDED|95.0|0.9|1.1|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain H3N2||1.1|0.9|
92295887|NCT01992094|184496754|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT|0.9|||||TWO_SIDED|95.0|0.8|1.0|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain B1||1.0|0.8|
92295888|NCT01992094|184496754|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV2c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT|0.9|||||TWO_SIDED|95.0|0.9|1.0|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV2c, assessed in terms of ratios of GMT against influenza strain B2||1.0|0.9|
92295889|NCT01992094|184496755|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference between seroconversion rates|-0.5|||||TWO_SIDED|95.0|-5.3|4.2|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strain H1N1||4.2|-5.3|
92145852|NCT00540124|184176445|SUPERIORITY_OR_OTHER|||||||0.306||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.306
92145853|NCT00540124|184176445|SUPERIORITY_OR_OTHER|||||||0.762||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.762
92295890|NCT01992094|184496755|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference between seroconversion rates|-2.7|||||TWO_SIDED|95.0|-7.2|1.9|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strainH3N2||1.9|-7.2|
92295891|NCT01992094|184496755|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference between seroconversion rates|-1.8|||||TWO_SIDED|95.0|-6.2|2.8|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strain B1||2.8|-6.2|
92295892|NCT01992094|184496755|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV2c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference between seroconversion rates|-4.4|||||TWO_SIDED|95.0|-8.9|0.2|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV2c in terms of differences in seroconversion rates against influenza strain B2||0.2|-8.9|
92295893|NCT01992094|184496761|NON_INFERIORITY_OR_EQUIVALENCE|The upper bound of the 2-sided 95% CI for the ratio of GMTs (GMT TIV1c or TIV2c /GMT QIVc) for HI antibody should not exceed the superiority margin of 1.|Ratios of GMT|0.6|||||TWO_SIDED|95.0|0.6|0.7||||||Superiority of immune responses of QIVc to TIV1c in terms of ratios of GMT against influenza strain B2||0.7|0.6|
92295894|NCT01992094|184496762|NON_INFERIORITY_OR_EQUIVALENCE|The upper bound of the 2-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c or TIV2c - % seroconversion QIVc) for HI antibody should not exceed the margin of 0 points.|Difference between seroconversion rates|-19.4|||||TWO_SIDED|95.0|-23.2|-15.5||||||Superiority of immune responses of QIVc to TIV1c in terms of seroconversion rates against influenza strain B2||-15.5|-23.2|
92295895|NCT01992094|184496763|NON_INFERIORITY_OR_EQUIVALENCE|The upper bound of the 2-sided 95% CI for the ratio of GMTs (GMT TIV1c or TIV2c /GMT QIVc) for HI antibody should not exceed the superiority margin of 1.|Ratios of GMT|0.5|||||TWO_SIDED|95.0|0.5|0.5||||||Superiority of immune responses of QIVc to TIV2c in terms of ratios of GMT against influenza strain B1||0.5|0.5|
92295896|NCT01992094|184496764|NON_INFERIORITY_OR_EQUIVALENCE|The upper bound of the 2-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c or TIV2c - %seroconversion QIVc) for HI antibody should not exceed the margin of 0 points.|Difference between seroconversion rates|-21.7|||||TWO_SIDED|95.0|-25.5|-17.7||||||Superiority of immune responses of QIVc to TIV2c in terms of seroconversion rates against influenza strain B1||-17.7|-25.5|
92295897|NCT01214239|184496767|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.71|-0.28|||ANCOVA|||||-0.28|-0.71|<0.0001
92145854|NCT00540124|184176445|SUPERIORITY_OR_OTHER|||||||0.203||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.203
92145855|NCT00540124|184176445|SUPERIORITY_OR_OTHER|||||||0.464||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.464
92145856|NCT00540124|184176445|SUPERIORITY_OR_OTHER|||||||0.169||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.169
92145857|NCT00540124|184176445|SUPERIORITY_OR_OTHER|||||||0.243||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.243
92145858|NCT00540124|184176446|SUPERIORITY_OR_OTHER|||||||0.206||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.206
92145859|NCT00540124|184176446|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.457
92295898|NCT01214239|184496768|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.383|STANDARD_ERROR_OF_MEAN|0.074|<|0.0001||95.0|-0.527|-0.238|||ANCOVA|||||-0.238|-0.527|<0.0001
92295899|NCT01214239|184496769|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.677|-0.323|||ANCOVA|||||-0.323|-0.677|<0.0001
92295900|NCT01214239|184496770|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.512|STANDARD_ERROR_OF_MEAN|0.098|<|0.0001||95.0|-0.705|-0.318|||ANCOVA|||||-0.318|-0.705|<0.0001
92295901|NCT01214239|184496771|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.12||0.0001||95.0|-0.69|-0.23|||ANCOVA|||||-0.23|-0.69|0.0001
92295902|NCT01214239|184496772|SUPERIORITY_OR_OTHER||Adjusted mean difference|-11.2|STANDARD_ERROR_OF_MEAN|3.1||0.0003||95.0|-17.2|-5.2|||ANCOVA|||||-5.2|-17.2|0.0003
92295903|NCT01214239|184496773|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.8|STANDARD_ERROR_OF_MEAN|3.3||0.0086||95.0|-15.4|-2.3|||ANCOVA|||||-2.3|-15.4|0.0086
92295904|NCT01214239|184496774|SUPERIORITY_OR_OTHER||Adjusted mean difference|-9.5|STANDARD_ERROR_OF_MEAN|3.8||0.0135||95.0|-17.0|-2.0|||ANCOVA|||||-2.0|-17.0|0.0135
92295905|NCT01214239|184496775|SUPERIORITY_OR_OTHER||Adjusted mean difference|-9.6|STANDARD_ERROR_OF_MEAN|3.8||0.0113||95.0|-17.1|-2.2|||ANCOVA|||||-2.2|-17.1|0.0113
92295906|NCT01214239|184496777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.552||||0.0021||95.0|1.407|4.629|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication||Comparison by odds ratio for the patients with a baseline HbA1c \>= 7.0%||4.629|1.407|0.0021
92295907|NCT01214239|184496779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.583||||0.25||95.0|0.724|3.46|||Regression, Logistic|||Comparison by odds ratio for the patients with a baseline HbA1c \>= 6.5%||3.46|0.724|0.2500
92295908|NCT01214239|184496780|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.527||||0.0005||95.0|1.494|4.276|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication||||4.276|1.494|0.0005
92295909|NCT00810602|184496781|SUPERIORITY_OR_OTHER||Percent Cumulative Incidence of GVHD|22.0|||||TWO_SIDED|95.0|13.0|36.0||||||Hypothesis: The addition of vorinostat will reduce the incidence of grade 2-4 acute graft versus host disease (GVHD) to 25% or lower by day 100.||36|13|
92295910|NCT00810602|184496783|SUPERIORITY_OR_OTHER||Percent Cumulative Incidence of GVHD|16.0|||||TWO_SIDED|95.0|8.0|30.0||||||||30|8|
92295911|NCT03429049|184496801|SUPERIORITY||Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.256||0.1904|TWO_SIDED|95.0|-0.84|0.17|||Mixed Models Analysis|||The NRS least squares mean difference in change from baseline between treatment arms was analyzed with a mixed model for repeated measures (MMRM). It included terms for treatment, pooled study center, baseline K L grade category for the index knee, baseline BMI category, sex, study week, treatment by visit study week interaction, and baseline average daily pain with walking NPRS (0-10) score as covariates, using an unstructured covariance structure.||0.17|-0.84|0.1904
92295912|NCT03429049|184496802|SUPERIORITY||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|1.206||0.0257|TWO_SIDED|95.0|-5.07|-0.33|||Mixed Models Analysis|||The WOMAC A least squares mean difference in change from baseline between treatment arms was analyzed with a mixed model for repeated measures (MMRM). It included terms for treatment, pooled study center, baseline K L grade category for the index knee, baseline BMI category, sex, study week, treatment by visit study week interaction, and baseline average daily pain with walking NPRS (0-10) score as covariates, using an unstructured covariance structure.||-0.33|-5.07|0.0257
92295913|NCT03429049|184496803|SUPERIORITY||Least Squares Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.545||0.0855|TWO_SIDED|95.0|-2.01|0.13|||Mixed Models Analysis|||The WOMAC B least squares mean difference in change from baseline between treatment arms was analyzed with a mixed model for repeated measures (MMRM). It included terms for treatment, pooled study center, baseline K L grade category for the index knee, baseline BMI category, sex, study week, treatment by visit study week interaction, and baseline average daily pain with walking NPRS (0-10) score as covariates, using an unstructured covariance structure.||0.13|-2.01|0.0855
92295914|NCT03429049|184496804|SUPERIORITY||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|4.096||0.055|TWO_SIDED|95.0|-15.86|0.26|||Mixed Models Analysis|||The WOMAC C least squares mean difference in change from baseline between treatment arms was analyzed with a mixed model for repeated measures (MMRM). It included terms for treatment, pooled study center, baseline K L grade category for the index knee, baseline BMI category, sex, study week, treatment by visit study week interaction, and baseline average daily pain with walking NPRS (0-10) score as covariates, using an unstructured covariance structure.||0.26|-15.86|0.0550
92295915|NCT04403399|184496835|SUPERIORITY||Mean Difference (Final Values)|-3.62||||0.003|TWO_SIDED||||||Mixed Models Analysis|||||||0.003
92295916|NCT04403399|184496836|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.73|TWO_SIDED||||||Mixed Models Analysis|||||||0.73
92145860|NCT00540124|184176446|SUPERIORITY_OR_OTHER|||||||0.892||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.892
92145861|NCT00540124|184176446|SUPERIORITY_OR_OTHER|||||||0.593||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.593
92295917|NCT04403399|184496837|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.03|TWO_SIDED||||||Mixed Models Analysis|||||||0.03
92295918|NCT04412057|184496849|SUPERIORITY||Odds Ratio (OR)|2.86||||0.044|TWO_SIDED|90.0|1.04|7.88|||Regression, Logistic|||The sample size provided greater than 80% power to detect a difference of 0.25 in the proportion of subjects alive and free of respiratory failure using a Chi-square exact test at a one-sided significance level of 0.05. This calculation assumed that the proportion alive and free of respiratory failure will be 0.60 in the placebo group and 0.85 in the CERC-002 group.||7.88|1.04|0.0440
92295919|NCT04412057|184496850|SUPERIORITY||Odds Ratio (OR)|2.0||||0.1762|TWO_SIDED|90.0|0.59|6.82|||Regression, Logistic|||The proportion of subjects alive at Day 28/ET in the CERC-002 group was compared to that in the placebo group using logistic regression methods. The logistic regression model included terms for treatment group. Model based point estimate (i.e., odds ratio \[OR\]), 90% confidence interval \[CI\], and one-sided p-value were reported.||6.82|0.59|0.1762
92295920|NCT00831233|184496858|NON_INFERIORITY_OR_EQUIVALENCE|"The trial was positive if the treatment contrast of degarelix versus goserelin plus bicalutamide in adjusted (for baseline total IPSS, age, and country) mean change from baseline in total IPSS was statistically significantly smaller (two-sided at α=0.05 level) than Δ=3 points in both the FAS and the PP analysis set.~If the Week 12 treatment assessment of IPSS was missing the LOCF approach was used, i.e., the IPSS closest to and before Week 12 was used."|Mean Difference (Final Values)|-2.95||||0.1973|TWO_SIDED|95.0|-7.51|1.61||FAS.|ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis.||Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||1.61|-7.51|0.1973
92295921|NCT00831233|184496858|NON_INFERIORITY_OR_EQUIVALENCE|"The trial was positive if the treatment contrast of degarelix versus goserelin plus bicalutamide in adjusted (for baseline total IPSS, age, and country) mean change from baseline in total IPSS was statistically significantly smaller (two-sided at α=0.05 level) than Δ=3 points in both the FAS and the PP analysis set.~If the Week 12 treatment assessment of IPSS was missing the LOCF approach was used, i.e., the IPSS closest to and before Week 12 was used."|Mean Difference (Final Values)|-5.88||||0.0398|TWO_SIDED|95.0|-11.5|-0.291||PP analysis set.|ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis.||Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||-0.291|-11.5|0.0398
92295922|NCT00831233|184496859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.47||||0.2298|TWO_SIDED|95.0|-6.58|1.64|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 4. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||1.64|-6.58|0.2298
92295923|NCT00831233|184496859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.983||||0.6917|TWO_SIDED|95.0|-5.98|4.02|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 8. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||4.02|-5.98|0.6917
92295924|NCT00831233|184496860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.553||||0.8151|TWO_SIDED|95.0|-5.33|4.22|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 4. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||4.22|-5.33|0.8151
92295925|NCT00831233|184496860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46||||0.455|TWO_SIDED|95.0|-2.46|5.38|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 8. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||5.38|-2.46|0.455
92295926|NCT00831233|184496860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.02||||0.3186|TWO_SIDED|95.0|-2.04|6.08|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 12. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||6.08|-2.04|0.3186
92295927|NCT00831233|184496861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.2||||0.5627|TWO_SIDED|95.0|-37.8|68.2|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 4. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||68.2|-37.8|0.5627
92295928|NCT00831233|184496861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.91||||0.8284|TWO_SIDED|95.0|-49.1|60.9|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 8. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||60.9|-49.1|0.8284
92295929|NCT00831233|184496861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.2||||0.5984|TWO_SIDED|95.0|-34.4|58.8|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 12. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||58.8|-34.4|0.5984
92295930|NCT00831233|184496862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.83||||0.1018|TWO_SIDED|95.0|-17.3|1.64|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||1.64|-17.3|0.1018
92295931|NCT00513617|184496897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1254|STANDARD_ERROR_OF_MEAN|0.0705||0.08||||||Alpha was set at 0.05|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo was subtracted from the Low dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.080
92145862|NCT00540124|184176446|SUPERIORITY_OR_OTHER|||||||0.887||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.887
92295932|NCT00513617|184496897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.098|STANDARD_ERROR_OF_MEAN|0.0713||0.133||||||Alpha was set at 0.05|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo was subtracted from High dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.133
92295933|NCT00513617|184496899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1826|STANDARD_ERROR_OF_MEAN|0.0713||0.915||||||Alpha was set at 0.5|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo subtracted from Low dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.915
92295934|NCT00513617|184496899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3582|STANDARD_ERROR_OF_MEAN|4.1047||0.918||||||Alpha was set at 0.05|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo subtracted from High dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.918
92295935|NCT00513617|184496900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7867|STANDARD_ERROR_OF_MEAN|1.1101||0.015||||||Alpha was set at 0.05|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo subtracted from Low dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.015
92295936|NCT00513617|184496900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5213|STANDARD_ERROR_OF_MEAN|1.1553||0.557||||||Alpha was set at 0.05|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo subtracted from High dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.557
92295937|NCT00573170|184496904|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.378|TWO_SIDED|95.0|0.7|2.5||Compares odds ratio.|Generalized Estimating Equations|||||2.5|0.7|0.378
92295938|NCT00779402|184496935|OTHER||Hazard Ratio (HR)|0.997||||0.65|TWO_SIDED|95.0|0.693|1.433|||Log Rank|Log Rank Test (two sided) stratified by Gleason Score and Radiation Therapy||||1.433|0.693|0.65
92295939|NCT00693225|184496943|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92295940|NCT01186016|184496947|OTHER||||||<|0.01||||||A priori threshold for the P-Value was.05 or less.|ANOVA|||The scores on the Genetic Knowledge Test for both groups between baseline and the end of the educational sessions were analyzed with repeated measures ANOVA.||||<0.01
92295941|NCT01186016|184496948|OTHER|||||||0.44||||||The a priori threshold for statistical significance was a P-Value of .05 or less.|ANOVA|||Data for Self-Efficacy for Quitting/Resisting Smoking were analyzed with repeated measures ANOVA using three time points: baseline, end of the educational sessions, and end of the smoking cessation sessions.||||0.44
92295942|NCT01186016|184496949|OTHER|Nominal data were analyzed with Chi Square.||||||0.88||||||The a priori threshold P-Value for statistical significance was .05 or less.|Chi-squared|||||||.88
92295943|NCT03750695|184496952|OTHER||||||<|0.05|||||||Regression, Linear|||Repeated measures linear regression||||<0.05
92295944|NCT03173560|184496953|NON_INFERIORITY|Odd ratio for ORR24W was analyzed along with 90% CI for each treatment arm using Cochran-Mantel-Haenszel (CMH) method, stratified by Memorial Sloan-Kettering Cancer Center (MSKCC) prognostic group and prior programmed cell death protein 1/ programmed cell death protein ligand 1 (PD-1/PD-L1) treatment from IxRS data. Non-inferiority would be claimed if 1-sided P value is \<=0.045 at the final analysis for the non-inferiority test with the non-inferiority margin of the odd ratio =0.76.|Odds Ratio (OR)|0.88||||0.2676|TWO_SIDED|90.0|0.59|1.32|||Cochran-Mantel-Haenszel|||||1.32|0.59|0.2676
92295945|NCT03173560|184496954|SUPERIORITY|Percentage of participants with intolerable Grade 2 or any Grade \>=Grade 3 TEAEs within 24 weeks was tested using CMH method at 2-sided α=0.05, stratified by MSKCC prognostic group and prior PD-1/PD-L1 treatment from IxRS data. The treatment difference and 95% CI were also calculated based on asymptotic normal approximation.|Difference|3.2||||0.4763|TWO_SIDED|95.0|-5.5|11.9|||Cochran-Mantel-Haenszel|||||11.9|-5.5|0.4763
92295946|NCT03173560|184496955|OTHER|The hazard ratio and the corresponding 90% CIs were estimated using the Cox regression model with Efron's method for ties, stratified by MSKCC prognostic group and prior PD-1/PD-L1 treatment.|Hazard Ratio (HR)|1.42|||||TWO_SIDED|90.0|1.08|1.86||||||||1.86|1.08|
92295947|NCT03173560|184496956|OTHER|Odd ratio for ORR was analyzed along with 90% CI for each treatment arm using CMH method stratified by MSKCC prognostic group and PD-1/PD-L1 treatment from IxRS data.|Odds Ratio (OR)|0.77|||||TWO_SIDED|90.0|0.52|1.14||||||||1.14|0.52|
92295948|NCT00216060|184496971|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.08||||0.3|TWO_SIDED|95.0|0.51|8.4|||Regression, Cox|||||8.40|0.51|0.3
92295949|NCT00216060|184496972|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||univariate analysis|||||||0.12
92295950|NCT00216060|184496974|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
92295951|NCT00216060|184496976|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
92145863|NCT00540124|184176446|SUPERIORITY_OR_OTHER|||||||0.762||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.762
92145864|NCT00540124|184176447|SUPERIORITY_OR_OTHER|||||||0.691||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.691
92295952|NCT00216060|184496977|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Kruskal-Wallis|||||||0.010
92295953|NCT00216060|184496978|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
92295954|NCT02174276|184496979|SUPERIORITY|Estimated differences in treatment effects between GS-4774 treatment groups and the TDF only group at Week 24 are presented with the 95% CIs and unadjusted P-values.|Least Square Mean Difference|-0.017||||0.805|TWO_SIDED|95.0|-0.155|0.12|||Mixed-Effect Model for Repeated Measures|||The null hypotheses was that the mean change from baseline in serum HBsAg in each of the TDF + GS-4774 groups was equal to the mean change from baseline in serum HBsAg in the TDF only group. Each null hypothesis was tested against the 2-sided alternative hypothesis that the mean change from baseline in serum HBsAg was not equal between each of the respective GS-4774 dose groups and the TDF only group.||0.120|-0.155|0.805
92295955|NCT02174276|184496979|SUPERIORITY|Estimated differences in treatment effects between GS-4774 treatment groups and the TDF only group at Week 24 are presented with the 95% CIs and unadjusted P-values.|Least Square Mean Difference|0.063||||0.37|TWO_SIDED|95.0|-0.075|0.202|||Mixed-Effect Model for Repeated Measures|||The null hypotheses was that the mean change from baseline in serum HBsAg in each of the TDF + GS-4774 groups was equal to the mean change from baseline in serum HBsAg in the TDF only group. Each null hypothesis was tested against the 2-sided alternative hypothesis that the mean change from baseline in serum HBsAg was not equal between each of the respective GS-4774 dose groups and the TDF only group.||0.202|-0.075|0.370
92295956|NCT02174276|184496979|SUPERIORITY|Estimated differences in treatment effects between GS-4774 treatment groups and the TDF only group at Week 24 are presented with the 95% CIs and unadjusted P-values.|Least Square Mean Difference|-0.056||||0.426|TWO_SIDED|95.0|-0.194|0.082|||Mixed-Effect Model for Repeated Measures|||The null hypotheses was that the mean change from baseline in serum HBsAg in each of the TDF + GS-4774 groups was equal to the mean change from baseline in serum HBsAg in the TDF only group. Each null hypothesis was tested against the 2-sided alternative hypothesis that the mean change from baseline in serum HBsAg was not equal between each of the respective GS-4774 dose groups and the TDF only group.||0.082|-0.194|0.426
92295957|NCT04480307|184497025|SUPERIORITY||LS Mean Difference|-0.031||||0.5084|TWO_SIDED|95.0|-0.124|0.063|||ANCOVA|||||0.063|-0.124|0.5084
92295958|NCT04480307|184497025|SUPERIORITY||Difference of change from Baseline|-0.021|||||TWO_SIDED|95.0|-0.121|0.057|||Bayesian|Difference of change from baseline a posteriori||Bayesian analysis is done using a non-informative prior on the mean observed difference.||0.057|-0.121|
92295959|NCT04480307|184497026|SUPERIORITY||LS Mean Difference|-0.002||||0.9472|TWO_SIDED|95.0|-0.052|0.049|||ANCOVA|||||0.049|-0.052|0.9472
92295960|NCT04480307|184497026|SUPERIORITY||Difference of change from Baseline|0.012|||||TWO_SIDED|95.0|-0.036|0.059|||Bayesian|Difference of change from Baseline a posteriori.||Bayesian analysis is done using a non-informative prior on the mean observed difference.||0.059|-0.036|
92295961|NCT04480307|184497027|SUPERIORITY||LS Mean Difference|0.154||||0.4027|TWO_SIDED|95.0|-0.216|0.524|||ANCOVA|||ANCOVA analysis for T1 lesion volume parameter||0.524|-0.216|0.4027
92295962|NCT04480307|184497027|SUPERIORITY||LS Mean Difference|0.01||||0.7428|TWO_SIDED|95.0|-0.051|0.071|||ANCOVA|||ANCOVA analysis for T2 lesion volume parameter||0.071|-0.051|0.7428
92295963|NCT04480307|184497028|SUPERIORITY||LS Mean Difference|0.003||||0.7314|TWO_SIDED|95.0|-0.013|0.018|||ANCOVA|||||0.018|-0.013|0.7314
92295964|NCT04480307|184497028|SUPERIORITY||Difference of change from Baseline|0.005|||||TWO_SIDED|95.0|-0.01|0.023|||Bayesian|Difference of change from Baseline a posteriori||Bayesian analysis is done using a non-informative prior on the mean observed difference.||0.023|-0.010|
92295965|NCT04480307|184497029|SUPERIORITY||LS Mean Difference|0.0||||0.7662|TWO_SIDED|95.0|0.0|0.0|||ANCOVA|||||0|0|0.7662
92295966|NCT00108550|184497044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0305|STANDARD_ERROR_OF_MEAN|0.038||0.4237|TWO_SIDED|95.0|-0.044|0.105||There was no need for multiple comparisons adjustment for the primary outcome, since there was only one. However, secondary analyses were adjusted for multiple comparisons.|Mixed Models Analysis|Effect of covariates (age, gender, etc) was evaluated (modeled as fixed effects) in secondary analyses.|The analysis was performed on transformed (rather than raw) Descriptor Differential Score Pain Intensity scores.|The null hypothesis was that Gabapentin is no better than placebo in reducing back pain. A mean-matching variance stabilizing transformation was applied to Descriptor Differential Scale Pain intensity (DDS) scores. Scores were modeled as a function of time (week) and group (gabapentin, placebo) in a mixed effects model. Random (subject-specific)intercept and slopes were fitted to the data. With alpha = .05 and N = 65 per group power is .8 to detect effect size =.4 standard deviations (SD).||0.105|-0.044|0.4237
92295967|NCT00108550|184497045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5343|STANDARD_ERROR_OF_MEAN|0.7174||0.458|TWO_SIDED|95.0|-1.94|0.872||Primary analyses was multivariable linear regression with fixed and random effects. After the Bonferroni adjustment a p-value would have been considered significant at 0.05 level if \<0.01.|Mixed Models Analysis|||This is a secondary analysis; the null hypothesis is that Gabapentin performs no better than placebo in reducing the Roland and Morris score.||0.872|-1.940|0.458
92295968|NCT01263561|184497208|NON_INFERIORITY_OR_EQUIVALENCE|A sample size calculation determined that 52 eyes were required to detect a 2.0 mmHg IOP difference with a power of 80%.||||||0.85|TWO_SIDED||||||t-test, 2 sided|||||||.85
92295969|NCT01263561|184497209|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation only for main outcome measure of IOP.||||||0.24|TWO_SIDED||||||Kaplan Meier|||||||.24
92295970|NCT01263561|184497210|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation only performed for main outcome measure of IOP.||||||0.8|TWO_SIDED|||||Above p is for number of subjects with any complication. P values above 0.05 are considered statistically insignificant in this study.|Chi-squared|||||||0.80
92295971|NCT04728620|184497236|SUPERIORITY|single group|mean|79.3||||0.001|TWO_SIDED||||||t-test, 1 sided|||"One-sample t-test comparing the sample mean to the threshold value of 71 indicative of good usability. The null hypothesis: true mean is 71 or less."||||0.001
92145865|NCT00540124|184176447|SUPERIORITY_OR_OTHER|||||||0.415||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.415
92295972|NCT04728620|184497238|OTHER||Mean Difference (Net)|0.57||||0.005|TWO_SIDED||||||t-test, 2 sided|||||||0.005
92295973|NCT04728620|184497239|OTHER||Mean Difference (Net)|-0.85||||0.19|TWO_SIDED||||||t-test, 2 sided|||||||0.19
92295974|NCT04728620|184497240|OTHER|||||||1|||||||McNemar|||Analysis for pre-post change in knowledge of recommended A1c monitoring frequency||||1
92295975|NCT04728620|184497240|OTHER|||||||1|||||||McNemar|||Analysis for pre-post change in knowledge of recommended urine microalbumin screening frequency||||1
92295976|NCT04728620|184497240|OTHER|||||||1|||||||McNemar|||Analysis for pre-post change in knowledge of recommended pneumonia vaccination frequency||||1
92295977|NCT04728620|184497240|OTHER|||||||1|||||||McNemar|||Analysis for pre-post change in knowledge of recommended diabetes eye exam frequency||||1
92295978|NCT04511208|184497278|SUPERIORITY||Difference in means|-2.2|||<|0.001|TWO_SIDED|95.0|-2.7|-1.7|||Repeated measures linear model|||||-1.7|-2.7|<0.001
92295979|NCT04511208|184497279|SUPERIORITY||Difference in means|-0.26||||0.006|TWO_SIDED|95.0|-0.44|-0.08|||Repeated measures linear model|||||-0.08|-0.44|0.006
92295980|NCT04511208|184497280|SUPERIORITY||Difference in means|-0.23||||0.046|TWO_SIDED|95.0|-0.45|-0.005|||Repeated measures linear model|||||-0.005|-0.45|0.046
92295981|NCT04511208|184497281|SUPERIORITY||Difference in means|-0.07||||0.955|TWO_SIDED|95.0|-2.51|2.38|||Repeated measures linear model|||C3B PST Score||2.38|-2.51|0.955
92295982|NCT04511208|184497281|SUPERIORITY||Difference in means|0.62||||0.686|TWO_SIDED|95.0|-2.48|3.71|||Repeated measures linear model|||C3B VMT Score||3.71|-2.48|0.686
92295983|NCT04511208|184497282|SUPERIORITY||Odds Ratio (OR)|2.5||||0.007|TWO_SIDED|95.0|1.28|4.68|||Generalized linear mixed effects model|||||4.68|1.28|0.007
92295984|NCT04511208|184497282|SUPERIORITY||Difference in means|-1.1||||0.009|TWO_SIDED|95.0|-1.82|-0.28|||Repeated measures linear model|||Sensitivity analysis||-0.28|-1.82|0.009
92295985|NCT04511208|184497283|SUPERIORITY||Difference in means|-1.06||||0.004|TWO_SIDED|95.0|-1.75|-0.38|||Repeated measures linear model|||||-0.38|-1.75|0.004
92295986|NCT04511208|184497284|SUPERIORITY||Difference in means|-2.97|||<|0.001|TWO_SIDED|95.0|-3.8|-2.13|||Repeated measures linear model|||||-2.13|-3.80|<0.001
92295987|NCT02625298|184497285|OTHER||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
92295988|NCT04773600|184497318|SUPERIORITY||Odds Ratio (OR)|3.19|||<|0.0001|TWO_SIDED|95.0|1.962|5.183|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA Success at Week 4||5.183|1.962|<0.0001
92295989|NCT04773600|184497319|SUPERIORITY||Odds Ratio (OR)|3.37|||<|0.0001|TWO_SIDED|95.0|1.996|5.687|||Cochran-Mantel-Haenszel|Stratified by pooled study site|Stratified by pooled study site|vIGA Success at Week 4 in Participants with Baseline vIGA = 'Moderate'||5.687|1.996|<0.0001
92295990|NCT04773600|184497320|SUPERIORITY||Odds Ratio (OR)|4.42|||<|0.0001|TWO_SIDED|95.0|2.281|8.658|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA-AD Success at Week 2||8.658|2.281|<0.0001
92295991|NCT04773600|184497321|SUPERIORITY||Odds Ratio (OR)|1.99||||0.1156|TWO_SIDED|95.0|0.832|4.782|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA-AD Success at Week 1||4.782|0.832|0.1156
92295992|NCT04773600|184497322|SUPERIORITY||Odds Ratio (OR)|2.71||||0.0014|TWO_SIDED|95.0|1.448|5.066|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|≥4-Point Reduction in WI-NRS at Week 4||5.066|1.448|0.0014
92295993|NCT04773600|184497323|SUPERIORITY||Odds Ratio (OR)|3.55||||0.0015|TWO_SIDED|95.0|1.591|7.927|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|≥4-Point Reduction in WI-NRS at Week 2||7.927|1.591|0.0015
92295994|NCT04773600|184497324|SUPERIORITY||Odds Ratio (OR)|7.84||||0.002|TWO_SIDED|95.0|1.717|35.764|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|≥4-Point Reduction in WI-NRS at Week 1||35.764|1.717|0.0020
92295995|NCT04773600|184497325|SUPERIORITY||Odds Ratio (OR)|3.23|||<|0.0001|TWO_SIDED|95.0|2.108|4.964|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|EASI-75 at Week 4||4.964|2.108|<0.0001
92295996|NCT04773600|184497326|SUPERIORITY||Odds Ratio (OR)|3.39|||<|0.0001|TWO_SIDED|95.0|2.191|5.24|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 4||5.240|2.191|<0.0001
92295997|NCT04773600|184497327|SUPERIORITY||Odds Ratio (OR)|3.5|||<|0.0001|TWO_SIDED|95.0|2.097|5.854|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 2||5.854|2.097|<0.0001
92295998|NCT04773600|184497328|SUPERIORITY||Odds Ratio (OR)|2.56||||0.005|TWO_SIDED|95.0|1.312|4.993|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 1||4.993|1.312|0.0050
92295999|NCT03581188|184497336|SUPERIORITY||Odds Ratio (OR)|3.5|||||TWO_SIDED|95.0|0.9|14.0||||||Odds ratios report differences between groups at follow-up.||14|0.9|
92296000|NCT03581188|184497337|SUPERIORITY||Odds Ratio (OR)|2.2|||||TWO_SIDED|95.0|0.8|5.7||||||||5.7|0.8|
92296001|NCT03581188|184497339|SUPERIORITY||Risk Ratio (RR)|1.5|||||TWO_SIDED|95.0|1.1|2.1||||||||2.1|1.1|
92296002|NCT03581188|184497340|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.6|2.0||||||||2|0.6|
92296003|NCT03581188|184497341|SUPERIORITY||Risk Difference (RD)|10.0|||||TWO_SIDED|95.0|-2.0|23.0||||||For new melanoma diagnoses, we calculated the difference in proportions and confidence intervals using the χ2 method without continuity correction. We included baseline measurement of the outcome in the models as a covariate to estimate between group difference in change from baseline.||23|-2|
92296004|NCT03581188|184497342|SUPERIORITY||Risk Difference (RD)|10.0|||||TWO_SIDED|95.0|2.0|19.0||||||New melanoma diagnoses prompted at unscheduled visit||19|2|
92296005|NCT03581188|184497342|SUPERIORITY||Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|-9.0|10.0||||||New melanoma diagnoses prompted at scheduled visit||10|-9|
92296006|NCT03581188|184497343|SUPERIORITY||Mean Difference (Net)|-1.4|||||TWO_SIDED|95.0|-5.8|3.0||||||||3|-5.8|
92296007|NCT01923311|184497355|EQUIVALENCE|A total of 12 test study participants compared to 334 HIV-infected reference study participants will provide at least 90% power to conclude exposure equivalence of EVG AUCtau in test study vs reference study, assuming the expected geometric mean ratio is 1, equivalency boundary is 70% to 143%, 2 one-sided tests are each performed at an alpha level of 0.05, and the standard deviation of EVG AUCtau is 0.36 ng•h/mL (natural log scale, estimated from EVG population PK modeling).|GLSM Ratio (%) (Test/Reference)|135.73|||||TWO_SIDED|90.0|116.24|158.49||||||To determine whether the proposed EVG dose in children achieved similar systemic exposure to adults, statistical comparisons were performed with PK data from the current study (test) and adult data from population PK modeling in study GS-US-183-0145 (NCT00708162) (reference).||158.49|116.24|
92296008|NCT01923311|184497356|EQUIVALENCE|A total of 12 test study participants compared to 334 HIV-infected reference study participants will provide at least 90% power to conclude exposure equivalence of EVG Cmax in test study vs reference study, assuming the expected geometric mean ratio is 1, equivalency boundary is 70% to 143%, 2 one-sided tests are each performed at an alpha level of 0.05, and the standard deviation of EVG Cmax is 0.28 ng•h/mL (natural log scale, estimated from EVG population PK modeling).|GLSM Ratio (%) (Test/Reference)|146.68|||||TWO_SIDED|90.0|127.35|168.94||||||To determine whether the proposed EVG dose in children achieves similar systemic exposure to adults, statistical comparisons were performed with PK data from the current study (test) and adult data from population PK modeling in study GS-US-183-0145 (NCT00708162) (reference).||168.94|127.35|
92296009|NCT02304406|184497378|OTHER||Odds Ratio (OR)|1.85||||0.1304|TWO_SIDED|95.0|0.8|4.77|||Cochran-Mantel-Haenszel|||||4.77|0.80|0.1304
92296010|NCT02304406|184497379|OTHER|||||||0.6422|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.6422
92296011|NCT02304406|184497380|OTHER|||||||0.4524|||||||Cochran-Mantel-Haenszel|||||||0.4524
92296012|NCT02304406|184497381|OTHER|||||||0.901|||||||Cochran-Mantel-Haenszel|||||||0.9010
92296013|NCT02304406|184497382|OTHER|||||||0.9067|||||||Cochran-Mantel-Haenszel|||||||0.9067
92296014|NCT02304406|184497383|OTHER|||||||0.8785|||||||Cochran-Mantel-Haenszel|||||||0.8785
92296015|NCT02304406|184497384|OTHER|||||||0.9231|||||||Cochran-Mantel-Haenszel|||||||0.9231
92296016|NCT02304406|184497385|OTHER|||||||0.978|||||||Cochran-Mantel-Haenszel|||||||0.9780
92296017|NCT02304406|184497386|OTHER|||||||0.1144|||||||Cochran-Mantel-Haenszel|||||||0.1144
92296018|NCT02304406|184497387|OTHER|||||||0.0862|||||||Cochran-Mantel-Haenszel|||||||0.0862
92296019|NCT02304406|184497388|OTHER|||||||0.0294|||||||Cochran-Mantel-Haenszel|||||||0.0294
92296020|NCT02304406|184497389|OTHER|||||||0.6877|||||||Cochran-Mantel-Haenszel|||||||0.6877
92296021|NCT00991510|184497391|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was accepted if the calculated 90 % CIs were within 0.80-1.25.|adjusted least-squares mean ratio|0.923|||||TWO_SIDED|90.0|0.865|0.984|||ANOVA|||A total of 100 subjects were planned to be enrolled, allowing for 10% drop-out rate. Based on previous single dose studies, the intra-subject coefficients of variation were 14% and 50% for AUC and Cmax, respectively. Based on the literature similar intra subject coefficients of variation were observed in steady-state patients. With these expected CV(%) and an expected ratio of Cmax within 0.95 and 1.05, the study should have a power of at least 80 % to show bioequivalence with 80 subjects.||0.984|0.865|
92296022|NCT00991510|184497392|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was accepted if the calculated 90 % CIs were within 0.80-1.25.|adjusted least-squares mean ratio|0.959|||||TWO_SIDED|90.0|0.899|1.023|||ANOVA|||||1.023|0.899|
92296023|NCT00991510|184497393|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was accepted if the calculated 90 % CIs were within 0.80-1.25.|adjusted least-squares mean ratio|0.873|||||TWO_SIDED|90.0|0.787|0.968|||ANOVA|||||0.968|0.787|
92296024|NCT00991510|184497394|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was accepted if the calculated 90 % CIs were within 0.80-1.25.|adjusted least-squares mean ratio|0.985|||||TWO_SIDED|90.0|0.877|1.106|||ANOVA|||||1.106|0.877|
92296025|NCT01976728|184497416|SUPERIORITY|The hypotheses were tested using a stratified one-sided Fisher's exact test in the FAS including the randomization scheme as the stratification factor.||||||0.012||||||The SAS PROC FREQ with permutation-based Cochran-Mantel-Haenszel test with exact p-value derived from all possible permutations was employed for the calculation of p-value for the stratified Fisher's exact test.|Fisher Exact|The success threshold at each analysis corresponded to a nominal p-value \<0.0130 to maintain an overall one-sided type I error rate of 0.025.||The primary efficacy analysis compared the pooled ovulation rate of the LutrePulse 15 μg and 20 μg group to placebo.||||0.0120
92296026|NCT01976728|184497417|SUPERIORITY|The hypotheses were tested using a stratified one-sided Fisher's exact test in the FAS including the randomization scheme as the stratification factor.||||||0.0553||||||The SAS PROC FREQ with permutation-based Cochran-Mantel-Haenszel test with exact p-value derived from all possible permutations was employed for the calculation of p-value for the stratified Fisher's exact test.|Fisher Exact|The success threshold at each analysis corresponded to a nominal p-value \<0.0130 to maintain an overall one-sided type I error rate of 0.025.||P4 levels of the pooled LutrePulse 15 μg and 20 μg group were compared to placebo.||||0.0553
92145866|NCT00540124|184176448|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||P-value based on Cochran-Mantel-Haenszel Test with modified ridit scores controlling for alpha block use (yes/no) and lower urinary tract symptom severity as stratification factors.|Cochran-Mantel-Haenszel|||||||0.176
92145867|NCT00540124|184176448|SUPERIORITY_OR_OTHER|||||||0.921||95.0||||P-value based on Cochran-Mantel-Haenszel Test with modified ridit scores controlling for alpha block use (yes/no) and lower urinary tract symptom severity as stratification factors.|Cochran-Mantel-Haenszel|||||||0.921
92145868|NCT00540124|184176449|SUPERIORITY_OR_OTHER|||||||0.429||95.0||||P-value based on Cochran-Mantel-Haenszel Test with modified ridit scores controlling for alpha block use (yes/no) and lower urinary tract symptom severity as stratification factors.|Cochran-Mantel-Haenszel|||||||0.429
92185692|NCT00657709|184270371|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for 5/99 strain.|Vaccines Group Differences|1.0|||||TWO_SIDED|95.0|0.0|2.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1month after the third dose, were entirely within the interval \[-10%, 10%\].||2|0|
92185693|NCT00657709|184270371|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for 5/99 strain.|Vaccines Group Differences|1.0|||||TWO_SIDED|95.0|0.0|2.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1month after the third dose, were entirely within the interval \[-10%, 10%\].||2|0|
92296027|NCT01976728|184497418|SUPERIORITY|The hypotheses was tested using a stratified one-sided Fisher's exact test in the FAS including the randomization scheme as the stratification factor.||||||0.0383||||||The SAS PROC FREQ with permutation-based Cochran-Mantel-Haenszel test with exact p-value derived from all possible permutations was employed for the calculation of p-value for the stratified Fisher's exact test.|Fisher Exact|The success threshold at each analysis corresponded to a nominal p-value \<0.0130 to maintain an overall one-sided type I error rate of 0.025.||Clinical pregnancy rates of the pooled LutrePulse 15 μg and 20 μg group were compared to placebo.||||0.0383
92296028|NCT01976728|184497419|SUPERIORITY|The hypotheses were tested using a stratified one-sided Fisher's exact test in the FAS including the randomization scheme as the stratification factor.||||||0.0246||||||The SAS PROC FREQ with permutation-based Cochran-Mantel-Haenszel test with exact p-value derived from all possible permutations was employed for the calculation of p-value for the stratified Fisher's exact test.|Fisher Exact|The success threshold at each analysis corresponded to a nominal p-value \<0.0130 to maintain an overall one-sided type I error rate of 0.025.||Biochemical pregnancy rates of the pooled LutrePulse 15 μg and 20 μg group were compared to placebo.||||0.0246
92145869|NCT00540124|184176449|SUPERIORITY_OR_OTHER|||||||0.304||95.0||||P-value based on Cochran-Mantel-Haenszel Test with modified ridit scores controlling for alpha block use (yes/no) and lower urinary tract symptom severity as stratification factors.|Cochran-Mantel-Haenszel|||||||0.304
92145870|NCT00540124|184176450|SUPERIORITY_OR_OTHER|||||||0.254||95.0||||P-value for 12 Week Change Waking Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.254
92145871|NCT00540124|184176450|SUPERIORITY_OR_OTHER|||||||0.359||95.0||||P-value for 12 Week Change Waking Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.359
92145872|NCT00540124|184176450|SUPERIORITY_OR_OTHER|||||||0.098||95.0||||P-value for 12 Week Change Sleeping Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.098
92145873|NCT00540124|184176450|SUPERIORITY_OR_OTHER|||||||0.632||95.0||||P-value for 12 Week Change Sleeping Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.632
92145874|NCT00540124|184176450|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||P-value for 12 Week Change Total Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.102
92145875|NCT00540124|184176450|SUPERIORITY_OR_OTHER|||||||0.348||95.0||||P-value for 12 Week Change Total Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.348
92145876|NCT00540124|184176451|SUPERIORITY_OR_OTHER|||||||0.208||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.208
92145877|NCT00540124|184176451|SUPERIORITY_OR_OTHER|||||||0.985||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.985
92145878|NCT00540124|184176452|SUPERIORITY_OR_OTHER|||||||0.385||95.0||||P-value for 12 Week Change Terminal Micturation Dribble. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.385
92145879|NCT00540124|184176452|SUPERIORITY_OR_OTHER|||||||0.595||95.0||||P-value for 12 Week Change Terminal Micturation Dribble. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.595
92296029|NCT01976728|184497420|SUPERIORITY|The hypotheses were tested using a stratified one-sided Fisher's exact test in the FAS including the randomization scheme as the stratification factor.||||||0.0011||||||The SAS PROC FREQ with permutation-based Cochran-Mantel-Haenszel test with exact p-value derived from all possible permutations was employed for the calculation of p-value for the stratified Fisher's exact test.|Fisher Exact|The success threshold at each analysis corresponded to a nominal p-value \<0.0130 to maintain an overall one-sided type I error rate of 0.025.||LH surge detection of the pooled LutrePulse 15 μg and 20 μg group were compared to placebo.||||0.0011
92296030|NCT01976728|184497421|SUPERIORITY|||||||0.1344||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 10: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.1344
92296031|NCT01976728|184497421|SUPERIORITY|||||||0.2726||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 10: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.2726
92296032|NCT01976728|184497421|SUPERIORITY|||||||0.3173||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 10: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3173
92296033|NCT01976728|184497421|SUPERIORITY|||||||0.1275||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 12: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.1275
92145880|NCT00540124|184176452|SUPERIORITY_OR_OTHER|||||||0.704||95.0||||P-value for 12 Week Change Post Micturation Dribble. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.704
92296034|NCT01976728|184497421|SUPERIORITY|||||||0.1088||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 12: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.1088
92145881|NCT00540124|184176452|SUPERIORITY_OR_OTHER|||||||0.439||95.0||||P-value for 12 Week Change Post Micturation Dribble. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.439
92145882|NCT00540124|184176453|SUPERIORITY_OR_OTHER|||||||0.838||95.0||||P-value for 12 Week Change Qmax. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.838
92145883|NCT00540124|184176453|SUPERIORITY_OR_OTHER|||||||0.831||95.0||||P-value for 12 Week Change Qmax. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.831
92296035|NCT01976728|184497421|SUPERIORITY|||||||0.2374||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 12: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.2374
92145884|NCT00540124|184176453|SUPERIORITY_OR_OTHER|||||||0.696||95.0||||P-value for 12 Week Change Qmean. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.696
92145885|NCT00540124|184176453|SUPERIORITY_OR_OTHER|||||||0.257||95.0||||P-value for 12 Week Change Qmean. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.257
92145886|NCT00540124|184176454|SUPERIORITY_OR_OTHER|||||||0.709||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.709
92145887|NCT00540124|184176454|SUPERIORITY_OR_OTHER|||||||0.494||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.494
92296036|NCT01976728|184497421|SUPERIORITY|||||||0.0796||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test||||0.0796
92296037|NCT01976728|184497421|SUPERIORITY|||||||0.1757||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test||||0.1757
92296038|NCT01976728|184497421|SUPERIORITY|||||||0.0584||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.0584
92296039|NCT01976728|184497421|SUPERIORITY|||||||0.3711||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3711
92296040|NCT01976728|184497421|SUPERIORITY|||||||0.0143||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.0143
92296041|NCT01976728|184497421|SUPERIORITY|||||||0.006||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.0060
92296042|NCT01976728|184497421|SUPERIORITY|||||||0.1573||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 21: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.1573
92296043|NCT01976728|184497422|SUPERIORITY|||||||0.4142||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 12: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.4142
92296044|NCT01976728|184497422|SUPERIORITY|||||||0.2374||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Number of follicles with a mean diameter ≥18 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.2374
92296045|NCT01976728|184497422|SUPERIORITY|||||||0.2636||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.2636
92145888|NCT02291679|184176474|SUPERIORITY||Odds Ratio (OR)|3.03|||<|0.0001|TWO_SIDED|95.0|1.76|5.2||P-value is obtained from the Cochran-Mantel-Haenszel (CMH) tests controlling for baseline SBM stratum and geographic region.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% confidence interval (CI) for the odds ratio are obtained from the CMH tests controlling for baseline SBM stratum and geographic region.|||5.20|1.76|< 0.0001
92296046|NCT01976728|184497422|SUPERIORITY|||||||0.4795||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.4795
92145889|NCT02291679|184176475|SUPERIORITY||LS Mean Difference|0.841|||<|0.0001|TWO_SIDED|95.0|0.505|1.176||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||1.176|0.505|< 0.0001
92296047|NCT01976728|184497422|SUPERIORITY|||||||0.3173||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3173
92296048|NCT01976728|184497422|SUPERIORITY|||||||0.3711||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3711
92296049|NCT01976728|184497422|SUPERIORITY|||||||0.4142||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.4142
92296050|NCT01976728|184497422|SUPERIORITY|||||||0.0838||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.0838
92296051|NCT01976728|184497422|SUPERIORITY|||||||0.3173||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 21: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3173
92296052|NCT01976728|184497422|SUPERIORITY|||||||0.3778||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 21: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3778
92296053|NCT01976728|184497423|SUPERIORITY||Least square mean (LSM) difference|1.35||||0.6732|TWO_SIDED|95.0|-5.16|7.87||p-value for the LutrePulse 10 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% confidence interval (CI) for the LutrePulse 10 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Maximum P4 levels in the LutrePulse 10 µg group were compared to placebo using an analysis of covariance (ANCOVA) model including the randomization scheme and treatment group as factors and baseline value as covariate.||7.87|-5.16|0.6732
92296054|NCT01976728|184497423|SUPERIORITY||LSM|5.7||||0.0814|TWO_SIDED|95.0|-0.76|12.15||p-value for the LutrePulse 15 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% CI for the LutrePulse 15 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Maximum P4 levels in the LutrePulse 15 µg group were compared to placebo using an ANCOVA model including treatment group as factors and baseline value as covariate.||12.15|-0.76|0.0814
92296055|NCT01976728|184497423|SUPERIORITY||LSM difference|7.55||||0.0223|TWO_SIDED|95.0|1.16|13.93||p-value for the LutrePulse 20 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% CI for the LutrePulse 20 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Maximum P4 levels in the LutrePulse 20 µg group were compared to placebo using an ANCOVA model including the randomization scheme and treatment group as factors and baseline value as covariate.||13.93|1.16|0.0223
92296056|NCT01976728|184497424|SUPERIORITY||LSM difference|0.679||||0.7355|TWO_SIDED|95.0|-3.404|4.762||p-value for the LutrePulse 10 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% CI for the LutrePulse 10 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Mean P4 levels in the LutrePulse 10 µg group were compared to placebo using an ANCOVA model including the randomization scheme and treatment group as factors and baseline value as covariate.||4.762|-3.404|0.7355
92296057|NCT01976728|184497424|SUPERIORITY||LSM difference|2.602||||0.198|TWO_SIDED|95.0|-1.444|6.648||p-value for the LutrePulse 15 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% CI for the LutrePulse 15 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Mean P4 levels in the LutrePulse 15 µg group were compared to placebo using an ANCOVA model including treatment group as factors and baseline value as covariate.||6.648|-1.444|0.1980
92296058|NCT01976728|184497424|SUPERIORITY||LSM difference|4.88||||0.0187|TWO_SIDED|95.0|0.878|8.882||p-value for the LutrePulse 10 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% CI for the LutrePulse 20 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Mean P4 levels in the LutrePulse 20 µg group were compared to placebo using an ANCOVA model including the randomization scheme and treatment group as factors and baseline value as covariate.||8.882|0.878|0.0187
92296059|NCT01976728|184497425|SUPERIORITY||LSM difference|0.03||||0.8772|TWO_SIDED|95.0|-0.39|0.46||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in FSH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 10 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||0.46|-0.39|0.8772
92296060|NCT01976728|184497425|SUPERIORITY||LSM difference|0.07||||0.7805|TWO_SIDED|95.0|-0.44|0.58||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in FSH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 15 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||0.58|-0.44|0.7805
92145890|NCT02291679|184176476|SUPERIORITY||LS Mean Difference|1.037|||<|0.0001|TWO_SIDED|95.0|0.636|1.438||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a LS mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||1.438|0.636|< 0.0001
92296061|NCT01976728|184497425|SUPERIORITY||LSM difference|0.12||||0.6095|TWO_SIDED|95.0|-0.35|0.58||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in FSH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 20 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||0.58|-0.35|0.6095
92296062|NCT01976728|184497426|SUPERIORITY||LSM difference|0.51||||0.152|TWO_SIDED|95.0|-0.2|1.22||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in LH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 10 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||1.22|-0.20|0.1520
92296063|NCT01976728|184497426|SUPERIORITY||LSM difference|0.93||||0.0221|TWO_SIDED|95.0|0.14|1.72||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in LH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 15 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||1.72|0.14|0.0221
92296064|NCT01976728|184497426|SUPERIORITY||LSM difference|0.76||||0.0316|TWO_SIDED|95.0|0.07|1.44||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in LH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 20 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||1.44|0.07|0.0316
92296065|NCT01976728|184497428|SUPERIORITY||LSM difference|73.0||||0.3147|TWO_SIDED|95.0|-72.66|218.65||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in E2 levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 10 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||218.65|-72.66|0.3147
92296066|NCT01976728|184497428|SUPERIORITY||LSM difference|95.18||||0.229|TWO_SIDED|95.0|-63.01|253.36||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in E2 levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 15 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||253.36|-63.01|0.2290
92145891|NCT02291679|184176477|SUPERIORITY||LS Mean Difference|0.628|||<|0.0001|TWO_SIDED|95.0|0.45|0.806||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a LS mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||0.806|0.450|< 0.0001
92145892|NCT02291679|184176478|SUPERIORITY||LS Mean Difference|-0.329|||<|0.0001|TWO_SIDED|95.0|-0.449|-0.21||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a LS mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||-0.210|-0.449|< 0.0001
92145893|NCT02291679|184176479|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0008|TWO_SIDED|95.0|1.47|4.87||P-value is obtained from the CMH tests controlling for geographic region.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% CI for the odds ratio are obtained from the CMH tests controlling for geographic region.|||4.87|1.47|0.0008
92145894|NCT02291679|184176480|SUPERIORITY||Odds Ratio (OR)|2.58|||<|0.0001|TWO_SIDED|95.0|1.58|4.2||P-value is obtained from the CMH tests controlling for geographic region and baseline stratum.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% CI for the odds ratio are obtained from the CMH tests controlling for geographic region and baseline stratum.|||4.20|1.58|< 0.0001
92185694|NCT00657709|184270371|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for NZ98/254 strain.|Percentage group difference|3.0|||||TWO_SIDED|95.0|-2.0|8.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentages of subjects with hSBA titers ≥ 1:5 at 1 month after the third dose, were entirely within the interval \[-10%, 10%\].||8|-2|
92145895|NCT02291679|184176481|SUPERIORITY||Odds Ratio (OR)|2.15||||0.0002|TWO_SIDED|95.0|1.42|3.26||P-value is obtained from the CMH tests controlling for geographic region and baseline stratum.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% CI for the odds ratio are obtained from the CMH tests controlling for geographic region and baseline stratum.|||3.26|1.42|0.0002
92296067|NCT01976728|184497428|SUPERIORITY||LSM difference|46.99||||0.5066|TWO_SIDED|95.0|-95.64|189.61||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in E2 levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 20 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||189.61|-95.64|0.5066
92296068|NCT01316419|184497457|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Mean SBP change from baseline at the last visit will be analyzed by paired t-test|Paired t test|||||||<0.0001
92296069|NCT01316419|184497460|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Mean DBP change from baseline at the last visit will be analyzed by paired t-test|Paired t test|||||||<0.0001
92296070|NCT01316419|184497462|SUPERIORITY_OR_OTHER|||||||0.1099|TWO_SIDED|||||The change of QOL data collected using the WHOQOL-BREF is analyzed by paired t-test|Paired t test|||||||0.1099
92296071|NCT01316419|184497463|SUPERIORITY_OR_OTHER|||||||0.0197|TWO_SIDED|||||The change of QOL data collected using the WHOQOL-BREF is analyzed by paired t-test|Paired t test|||||||0.0197
92296072|NCT01316419|184497464|SUPERIORITY_OR_OTHER|||||||0.4543|TWO_SIDED|||||The change of QOL data collected using the WHOQOL-BREF is analyzed by paired t-test|Paired t test|||||||0.4543
92296073|NCT01316419|184497465|SUPERIORITY_OR_OTHER|||||||0.0152|TWO_SIDED|||||The change of QOL data collected using the WHOQOL-BREF is analyzed by paired t-test|Paired t test|||||||0.0152
92296074|NCT01316419|184497466|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||The change of QOL data collected using the WHOQOL-BREF is analyzed by paired t-test|Paired t test|||||||0.0013
92296075|NCT01316419|184497467|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The change of QOL data collected using the EQ VAS is analyzed by paired t-test|Paired t test|||||||<0.0001
92296076|NCT01316419|184497469|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||Mean LDL-C change from baseline at the last visit will be analyzed by paired t-test|Paired t test|||||||0.0006
92185695|NCT00657709|184270371|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for NZ 98/254 strain.|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-6.0|4.0|||Miettinen and Nurminen|The lot-to-lot difference in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1 month after the third dise, were entirely within the interval \[-10%, 10%\].||4|-6|
92296077|NCT01316419|184497470|SUPERIORITY_OR_OTHER|||||||0.4248|TWO_SIDED|||||Mean HDL-C change from baseline at the last visit will be analyzed by paired t-test|Paired t test|||||||0.4248
92296078|NCT01316419|184497471|SUPERIORITY_OR_OTHER|||||||0.5579|TWO_SIDED|||||Mean Triglyceride change from baseline at the last visit will be analyzed by paired t-test|Paired t test|||||||0.5579
92296079|NCT01316419|184497472|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||Mean total cholesterol change from baseline at the last visit will be analyzed by paired t-test|Paired t-test|||||||0.0006
92296080|NCT00412737|184497477|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.283||||0.772|TWO_SIDED|95.0|-2.3|4.1|||Fisher Exact||Relative Risk Reduction = (1.0 - Relative Risk).|The null hypothesis tested was that there was no difference between the proportions of participants who met the primary endpoint in the two treatment groups.||4.1|-2.3|0.772
92296081|NCT00412737|184497478|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.37||||0.534|TWO_SIDED|95.0|-2.1|4.5|||Fisher Exact||Relative Risk Reduction = (1.0 - Relative Risk).|||4.5|-2.1|0.534
92296082|NCT00412737|184497479|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.431||||0.381|TWO_SIDED|95.0|-1.7|4.6|||Fisher Exact||Relative Risk Reduction = (1.0 - Relative Risk).|||4.6|-1.7|0.381
92296083|NCT00412737|184497480|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.713|||||TWO_SIDED|95.0|-0.6|5.2|||||Relative Risk Reduction = (1.0 - Relative Risk).|||5.2|-0.6|
92296084|NCT00412737|184497481|SUPERIORITY_OR_OTHER||Slope|0.858|||||TWO_SIDED|95.0|0.1|5.7|||||Relative Risk Reduction = (1.0 - Relative Risk).|||5.7|0.1|
92296085|NCT00412737|184497482|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.372|||||TWO_SIDED|95.0|-1.9|4.6|||||Relative Risk Reduction = (1.0 - Relative Risk).|||4.6|-1.9|
92296086|NCT00412737|184497483|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.502|||||TWO_SIDED|95.0|-1.4|5.1|||||Relative Risk Reduction = (1.0 - Relative Risk).|||5.1|-1.4|
92296087|NCT03244475|184497495|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.|Mean Difference (Final Values)|1.6||||0.01|TWO_SIDED|95.0|1.1|2.2||The corrected p-value of 0.01 was chosen after the standard cluster analysis for correcting family-wise error across different voxels.|Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||The analysis was performed for the voxel-wise delta-band activity from the frontal pole and inferior frontal gyri. Spatial smoothing and logarithm transformation (e-based) were performed. Resting-state MEG activity differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||2.2|1.1|0.01
92296088|NCT03244475|184497496|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296089|NCT03244475|184497497|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296090|NCT03244475|184497498|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296091|NCT03244475|184497499|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296092|NCT03244475|184497500|SUPERIORITY|Statistical analysis was carried out for the DIFFERENCE scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296093|NCT03244475|184497501|SUPERIORITY|Statistical analysis was carried out for the DIFFERENCE scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296094|NCT03244475|184497502|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296095|NCT03244475|184497503|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296096|NCT03244475|184497504|SUPERIORITY|Statistical analysis was carried out for the DIFFERENCE scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296097|NCT03244475|184497505|SUPERIORITY|Statistical analysis was carried out for the DIFFERENCE scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296098|NCT03244475|184497506|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
92296099|NCT02285634|184497520|SUPERIORITY|||||||0.42|||||||Fisher Exact|||||||0.42
92296100|NCT02285634|184497520|SUPERIORITY|||||||0.52|||||||Fisher Exact|||||||0.52
92296101|NCT02285634|184497520|SUPERIORITY|||||||0.93|||||||Fisher Exact|||||||0.93
92296102|NCT02285634|184497521|SUPERIORITY|||||||0.06|||||||Fisher Exact|||||||0.06
92296103|NCT02285634|184497521|SUPERIORITY|||||||0.61|||||||Fisher Exact|||||||0.61
92296104|NCT02285634|184497521|SUPERIORITY|||||||0.78|||||||Fisher Exact|||||||0.78
92296105|NCT02285634|184497522|SUPERIORITY|||||||0.27|||||||Fisher Exact|||||||0.27
92296106|NCT02285634|184497522|SUPERIORITY|||||||0.17|||||||Fisher Exact|||||||0.17
92296107|NCT02285634|184497522|SUPERIORITY|||||||0.56|||||||Fisher Exact|||||||0.56
92296108|NCT02285634|184497523|SUPERIORITY|||||||0.78|||||||Fisher Exact|||||||0.78
92296109|NCT02285634|184497523|SUPERIORITY|||||||0.1|||||||Fisher Exact|||||||0.10
92296110|NCT02285634|184497523|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
92296111|NCT03180801|184497536|OTHER|||||||0.03|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower MMID rate than placebo.||||0.03
92296112|NCT03180801|184497536|OTHER|||||||0.07|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower MMID rate than placebo.||||0.07
92296113|NCT03180801|184497537|OTHER|One sided Fisher's exact test is used to test if TEAE rates of vaccine group is higher than the placebo group.||||||0.647|||||||Fisher Exact|||One sided Fisher's exact test is used to test if the TEAE rates pre-inoculation recorded for the treatment group are higher than for placebo.||||0.647
92296114|NCT03180801|184497537|OTHER|||||||1|||||||Fisher Exact|||One-sided Fisher's exact test is used to test if TEAE rate of vaccine group recorded pre-inoculation is higher than placebo.||||1.00
92296115|NCT03180801|184497537|OTHER|||||||0.024|||||||Fisher Exact|||One sided Fisher's exact test is used to test if TEAE rate of vaccine group post-inoculation is higher than the placebo group.||||0.0240
92296116|NCT03180801|184497537|OTHER|||||||0.186|||||||Fisher Exact|||One sided Fisher's exact test is used to test if TEAE rate of vaccine group post-inoculation is higher than the placebo group.||||0.186
92296117|NCT03180801|184497539|OTHER|||||||0.465|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects experiencing at least one symptom||||0.465
92296118|NCT03180801|184497539|OTHER|||||||0.074|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects experiencing at least one symptom||||0.074
92296119|NCT03180801|184497539|OTHER|||||||0.024|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects experiencing at least two symptoms||||0.024
92296120|NCT03180801|184497539|OTHER|||||||0.23|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects experiencing at least two symptoms.||||0.230
92296121|NCT03180801|184497539|OTHER|||||||0.09|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects with detectable virus shedding||||0.09
92145896|NCT02291679|184176482|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0342|TWO_SIDED|95.0|1.03|2.17||P-value is obtained from the CMH tests controlling for geographic region and baseline stratum.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% CI for the odds ratio are obtained from the CMH tests controlling for geographic region and baseline stratum.|||2.17|1.03|0.0342
92145897|NCT02291679|184176483|SUPERIORITY||LS Mean Difference|-0.319||||0.0063|TWO_SIDED|95.0|-0.548|-0.09||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a LS mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||-0.090|-0.548|0.0063
92145898|NCT02291679|184176484|SUPERIORITY||LS Mean Difference|-0.178||||0.1028|TWO_SIDED|95.0|-0.391|0.036||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a LS mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||0.036|-0.391|0.1028
92145899|NCT02291679|184176485|SUPERIORITY||Odds Ratio (OR)|2.78||||0.0001|TWO_SIDED|95.0|1.61|4.8||P-value is obtained from the CMH tests controlling for baseline SBM stratum and geographic region.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% CI for the odds ratio are obtained from the CMH tests controlling for baseline SBM stratum and geographic region.|||4.80|1.61|0.0001
92145900|NCT02276222|184176508|SUPERIORITY||Least Squares Mean (SE)|0.0084|STANDARD_ERROR_OF_MEAN|0.01012||0.4041|TWO_SIDED|95.0|-0.0114|0.0283|||ANCOVA|||||0.0283|-0.0114|0.4041
92296122|NCT03180801|184497539|OTHER|||||||0.22|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects with detectable virus shedding||||0.22
92296123|NCT03180801|184497539|OTHER|||||||0.23|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects asymptomatic with detectable virus shedding||||0.23
92145901|NCT02170025|184176509|OTHER||Bayesian analysis|-1.3|||||TWO_SIDED|90.0|-8.7|6.0||||||Treatment effect describes the difference in outcomes between 0.5 mg riociguat and placebo on Day 14. This was an exploratory analysis. For sample size determination a probabilistic assessment on predicted point estimates and width of credible intervals was performed.||6.0|-8.7|
92145902|NCT02170025|184176509|OTHER||Bayesian analysis|-5.0|||||TWO_SIDED|90.0|-12.4|2.4||||||Treatment effect describes the difference in outcomes between 1.0 mg riociguat and placebo on Day 28. This was an exploratory analysis. For sample size determination a probabilistic assessment on predicted point estimates and width of credible intervals was performed.||2.4|-12.4|
92296124|NCT03180801|184497539|OTHER|||||||0.12|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects asymptomatic with detectable virus shedding||||0.12
92296125|NCT03180801|184497540|OTHER|||||||0.0501|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has shorter shedding duration than placebo.||||0.0501
92296126|NCT03180801|184497540|OTHER|||||||0.3139|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has shorter shedding duration than placebo.||||0.3139
92296127|NCT03180801|184497541|OTHER|||||||0.102|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has smaller shedding AUC than placebo.||||0.102
92296128|NCT03180801|184497541|OTHER|||||||0.481|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has a smaller shedding AUC than placebo.||||0.481
92145903|NCT01031810|184176524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.56|STANDARD_DEVIATION|10.81||0.012|TWO_SIDED|95.0|3.25|19.86|||paired t-test 2 sided|||Compare the mean differences between baseline (week00) and week12 hamd17 summary scores||19.86|3.25|0.012
92296129|NCT03180801|184497542|OTHER|||||||0.128|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has lower peak viral shedding than placebo.||||0.128
92296130|NCT03180801|184497542|OTHER|||||||0.601|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has lower peak viral shedding than placebo.||||0.601
92296131|NCT03180801|184497543|OTHER|||||||0.142|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has shorter duration of symptoms than placebo.||||0.142
92296132|NCT03180801|184497543|OTHER|||||||0.147|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has shorter duration of symptoms than placebo.||||0.147
92296133|NCT03180801|184497544|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has fewer average number of symptoms than placebo.||||0.080
92296134|NCT03180801|184497544|OTHER|||||||0.271|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has fewer average number of symptoms than placebo.||||0.271
92296135|NCT03180801|184497545|OTHER|||||||0.099|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has fewer peak symptoms than placebo.||||0.099
92296136|NCT03180801|184497545|OTHER|||||||0.178|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has fewer peak symptoms than placebo.||||0.178
92296137|NCT03180801|184497546|OTHER|||||||0.064|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has lower FLU-PRO scores than placebo.||||0.064
92296138|NCT03180801|184497546|OTHER|||||||0.201|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has lower FLU-PRO scores than placebo.||||0.201
92296139|NCT03180801|184497547|OTHER||||||<|0.001|||||||t-test, 2 sided|||comparison on day -2||||<0.001
92296140|NCT03180801|184497547|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparion on day -2||||<0.001
92296141|NCT03180801|184497547|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison on day 35||||<0.001
92296142|NCT03180801|184497547|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison on day 35||||<0.001
92296143|NCT03180801|184497547|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison on day 63||||<0.001
92296144|NCT03180801|184497547|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison on day 63||||<0.001
92296145|NCT01049412|184497548|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.55|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|90.0|-0.81|-0.29||The statistical significance level is 0.10.|Mixed Models Analysis|||||-0.29|-0.81|<0.001
92296146|NCT01049412|184497549|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.56|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|90.0|-0.83|-0.29||The statistical significance level is 0.10.|Mixed Models Analysis|||||-0.29|-0.83|<0.001
92296147|NCT01049412|184497550|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.11|STANDARD_ERROR_OF_MEAN|0.1||0.242|TWO_SIDED|90.0|-0.28|0.05||The statistical significance level is 0.10.|Mixed Models Analysis|||||0.05|-0.28|0.242
92296148|NCT01049412|184497551|SUPERIORITY_OR_OTHER|||||||0.276||95.0||||"The statistical significance level is 0.10.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.276
92296149|NCT01049412|184497551|SUPERIORITY_OR_OTHER|||||||0.119||95.0||||"The statistical significance level is 0.10.~P-value is for HbA1c ≤6.5%."|Fisher Exact|||||||0.119
92296150|NCT01049412|184497553|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.3|STANDARD_ERROR_OF_MEAN|0.35||0.392|TWO_SIDED|90.0|-0.28|0.88||"The statistical significance level is 0.10.~P-value is for 0300 hour BG."|Mixed Models Analysis|||||0.88|-0.28|0.392
92296151|NCT01049412|184497553|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.24|STANDARD_ERROR_OF_MEAN|0.33||0.464|TWO_SIDED|90.0|-0.79|0.3||"The statistical significance level is 0.10.~P-value is for morning FBG."|Mixed Models Analysis|||||0.30|-0.79|0.464
92296152|NCT01049412|184497553|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.48|STANDARD_ERROR_OF_MEAN|0.33||0.151|TWO_SIDED|90.0|-1.04|0.07||"The statistical significance level is 0.10.~P-value is for morning 2-hr postprandial BG."|Mixed Models Analysis|||||0.07|-1.04|0.151
92296153|NCT01049412|184497553|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.54|STANDARD_ERROR_OF_MEAN|0.3||0.079|TWO_SIDED|90.0|-1.05|-0.03||"The statistical significance level is 0.10.~P-value is for midday pre-meal BG."|Mixed Models Analysis|||||-0.03|-1.05|0.079
92296154|NCT01049412|184497553|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.52|STANDARD_ERROR_OF_MEAN|0.28||0.07|TWO_SIDED|90.0|-0.99|-0.05||"The statistical significance level is 0.10.~P-value is for midday 2-hr postprandial BG."|Mixed Models Analysis|||||-0.05|-0.99|0.070
92296155|NCT01049412|184497553|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.86|STANDARD_ERROR_OF_MEAN|0.32||0.008|TWO_SIDED|90.0|-1.39|-0.34||"The statistical significance level is 0.10.~P-value is for evening pre-meal BG."|Mixed Models Analysis|||||-0.34|-1.39|0.008
92296156|NCT01049412|184497553|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.89|STANDARD_ERROR_OF_MEAN|0.29||0.003|TWO_SIDED|90.0|-1.38|-0.41||"The statistical significance level is 0.10.~P-value is for evening 2-hr postprandial BG."|Mixed Models Analysis|||||-0.41|-1.38|0.003
92296157|NCT01049412|184497553|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-1.1|STANDARD_ERROR_OF_MEAN|0.33||0.001|TWO_SIDED|90.0|-1.64|-0.55||"The statistical significance level is 0.10.~P-value is for bed time BG."|Mixed Models Analysis|||||-0.55|-1.64|0.001
92296158|NCT01049412|184497558|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||The statistical significance level is 0.10.|Negative Binomial Model|||||||0.037
92296159|NCT01049412|184497559|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.47|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|90.0|-0.69|-0.25||The statistical significance level is 0.10.|Mixed Models Analysis|||||-0.25|-0.69|<0.001
92145904|NCT00506493|184176553|SUPERIORITY_OR_OTHER_LEGACY||Binomial Proportions|42.6|STANDARD_ERROR_OF_MEAN|6.3|<|0.01|ONE_SIDED|97.5|30.0|||The percent of patients off Class I and III AADs and successfully converted out of AF following treatment (ptest) will exceed the percent of patients off Class I and III AADs and convereted out of AF, as reported in literature (pcontrol=22.1%)|Fisher Exact|||"The specific test hypothesis is as follows:~H0: ptest ≤ 22.1% Ha: ptest \> 22.1%"|||30.0|<0.01
92296160|NCT03173170|184497564|OTHER||Mean ratio|1.0622|||||TWO_SIDED|90.0|0.9569|1.1792||||||A paired t-test on the natural log-transformed parameters was performed. The means and difference of means for the log-transformed parameters were exponentiated to obtain the point estimates of the itraconazole effect and 90 percent (%) confidence intervals (CIs).||1.1792|0.9569|
92296161|NCT03173170|184497565|OTHER||Mean ratio|1.4892|||||TWO_SIDED|90.0|1.3851|1.6012||||||A paired t-test on the natural log-transformed parameters was performed. The means and difference of means for the log-transformed parameters were exponentiated to obtain the point estimates of the itraconazole effect and 90% CIs.||1.6012|1.3851|
92296162|NCT05966090|184497566|NON_INFERIORITY|Non - Inferiority (NI) was to be demonstrated if the upper limit of the 2 sided 95% confidence interval (CI) of the GMC ratio between the Control group (at Day 91) versus Co-administration group (at Day 91) for anti-gE Ab 1-month after the second HZ/su vaccine dose was \<=1.5.|Ratio|1.24|||||TWO_SIDED|95.0|1.08|1.42|||||The analysis of covariance (ANCOVA) model, for logarithm-transformed concentration, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as a covariate.|To demonstrate non-inferiority of the humoral immune response to 2 doses of HZ/su vaccine when the first dose of HZ/su vaccine was co-administered with RSVPreF3 OA investigational vaccine, compared to 2 doses of HZ/su vaccine administered alone.||1.42|1.08|
92296163|NCT05966090|184497567|NON_INFERIORITY|NI was to be demonstrated if upper limit of the 2 sided 95% CI of the GMT ratio between the Control group (at Day 61) versus Co-administration group (at Day 31) for RSV-A neutralizing titer 1-month after the RSVPreF3 OA investigational vaccine dose was \<=1.5|ratio|1.14|||||TWO_SIDED|95.0|0.97|1.35|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as a covariate.|To demonstrate the non-inferiority of RSVPreF3 OA investigational vaccine when co-administered with the first dose of HZ/su vaccine, compared to RSVPreF3 OA investigational vaccine administered alone.||1.35|0.97|
92296164|NCT05966090|184497568|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2 sided 95% CI of the GMT ratio between the Control group (at Day 61) versus Co-administration group (at Day 31) for RSV-B neutralizing titer 1-month after the RSVPreF3 OA investigational vaccine dose was \<=1.5.|ratio|0.98|||||TWO_SIDED|95.0|0.84|1.15|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as a covariate.|To demonstrate the non-inferiority of RSVPreF3 OA investigational vaccine when co-administered with the first dose of HZ/su vaccine, compared to RSVPreF3 OA investigational vaccine administered alone.||1.15|0.84|
92296165|NCT01142908|184497586|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1||||0.93|TWO_SIDED|95.0|-2.8|3.1|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||3.1|-2.8|0.93
92296166|NCT01142908|184497587|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.4||||0.34|TWO_SIDED|95.0|-1.5|4.3|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months.||4.3|-1.5|0.34
92296167|NCT01142908|184497589|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.91|TWO_SIDED|95.0|-2.0|1.8|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||1.8|-2.0|0.91
92296168|NCT01142908|184497590|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.4||||0.7|TWO_SIDED|95.0|-1.5|2.2|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months.||2.2|-1.5|0.70
92296169|NCT01142908|184497591|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.8||||0.1|TWO_SIDED|95.0|-3.9|0.3|||Mixed Models Analysis||Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||0.3|-3.9|0.1
92296170|NCT01142908|184497592|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.3||||0.74|TWO_SIDED|95.0|-2.4|1.7|||Mixed Models Analysis||Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months||1.7|-2.4|0.74
92296171|NCT01142908|184497594|SUPERIORITY_OR_OTHER_LEGACY||logit-difference (Net)|-0.03||||0.87|TWO_SIDED|95.0|-0.4|0.3|||Gen. Est. Equation with a Logit Link|Method Used Expanded: Generalized Estimating Equation with a Logit Link. Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||0.3|-0.4|0.87
92296172|NCT01142908|184497595|SUPERIORITY_OR_OTHER_LEGACY||logit-difference (Net)|0.2||||0.36|TWO_SIDED|95.0|-0.2|0.5|||Gen. Est. Equation with a Logit Link|Method Used Expanded: Generalized Estimating Equation with a Logit Link. Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months.||0.5|-0.2|0.36
92296173|NCT01142908|184497597|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.9||||0.08|TWO_SIDED|95.0|-10.3|0.6|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||0.6|-10.3|0.08
92296174|NCT01142908|184497598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.8||||0.79|TWO_SIDED|95.0|-6.6|5.0|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months.||5.0|-6.6|0.79
92296175|NCT01142908|184497600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.02||||0.83|TWO_SIDED|95.0|-0.2|0.2|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||0.2|-0.2|0.83
92296176|NCT01142908|184497601|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.54|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months.||0.2|-0.4|0.54
92296177|NCT01142908|184497603|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.2||||0.29|TWO_SIDED|95.0|-0.6|0.2|||Mixed Models Analysis|Adjusted for gender and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||0.2|-0.6|0.29
92296178|NCT01142908|184497604|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.72|TWO_SIDED|95.0|-0.5|0.4|||Mixed Models Analysis|Adjusted for gender and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months||0.4|-0.5|0.72
92296179|NCT03235479|184497608|SUPERIORITY||Risk Difference (RD)|4.9||||0.0298|TWO_SIDED|95.0|0.5|9.3|||Cochran-Mantel-Haenszel|||||9.3|0.5|0.0298
92296180|NCT03235479|184497609|SUPERIORITY||Risk Difference (RD)|8.9||||0.0016|TWO_SIDED|95.0|3.4|14.4|||Cochran-Mantel-Haenszel|||||14.4|3.4|0.0016
92296181|NCT03235479|184497610|SUPERIORITY||Risk Difference (RD)|10.2||||0.0005|TWO_SIDED|95.0|4.4|15.9|||Cochran-Mantel-Haenszel|||||15.9|4.4|0.0005
92296182|NCT03235479|184497611|SUPERIORITY||Risk Difference (RD)|7.7||||0.0299|TWO_SIDED|95.0|0.8|14.6|||Cochran-Mantel-Haenszel|||||14.6|0.8|0.0299
92296183|NCT03235479|184497612|SUPERIORITY||Risk Difference (RD)|10.3||||0.0006|TWO_SIDED|95.0|4.4|16.2|||Cochran-Mantel-Haenszel|||||16.2|4.4|0.0006
92296184|NCT03235479|184497613|SUPERIORITY||Risk Difference (RD)|5.2||||0.1815|TWO_SIDED|95.0|-2.4|12.9||P-value ≥ 0.05; therefore, all secondary outcome measures listed after this outcome measure in the hierarchy were not tested.|Cochran-Mantel-Haenszel|||||12.9|-2.4|0.1815
92296185|NCT01077817|184497649|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.7|1.5|||Logistic Regression Model|The case-cohort hazard ratio estimate for drug exposure was based on analysis of all cases of esophageal cancer and their comparison sample.||A hazard ratio estimate was calculated from the case-control matched set to measure the risk association between exposure to alendronate treatment and incidence of esophageal cancer.||1.5|0.7|
92296186|NCT01077817|184497649|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.9|2.0|||Logistic Regression Model|The case-cohort hazard ratio estimate for drug exposure was based on analysis of all cases of esophageal cancer and their comparison sample.||A hazard ratio estimate was calculated from the case-control matched set to measure the risk association between exposure to etidronate treatment and incidence of esophageal cancer.||2.0|0.9|
92296187|NCT01077817|184497649|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|4.9|||||TWO_SIDED|95.0|1.4|16.7|||Logistic Regression Model|The case-cohort hazard ratio estimate for drug exposure was based on analysis of all cases of esophageal cancer and their comparison sample.||A hazard ratio estimate was calculated from the case-control matched set to measure the risk association between exposure to ibandronate treatment and incidence of esophageal cancer.||16.7|1.4|
92296188|NCT01077817|184497649|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.6|||||TWO_SIDED|95.0|1.0|2.5|||Logistic Regression Model|The case-cohort hazard ratio estimate for drug exposure was based on analysis of all cases of esophageal cancer and their comparison sample.||A hazard ratio estimate was calculated from the case-control matched set to measure the risk association between exposure to risedronate treatment and incidence of esophageal cancer.||2.5|1.0|
92296189|NCT01077817|184497649|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.2|2.2|||Logistic Regression Model|The case-cohort hazard ratio estimate for drug exposure was based on analysis of all cases of esophageal cancer and their comparison sample.||A hazard ratio estimate was calculated from the case-control matched set to measure the risk association between exposure to raloxifene treatment and incidence of esophageal cancer.||2.2|0.2|
92296190|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.7|1.3|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of alendronate~compared to non-initiators of alendronate. For calculation of this hazard ratio, esophageal cancer cases occurring during the entire follow-up period were used."||1.3|0.7|
92296191|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.8|2.0|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of etidronate~compared to non-initiators of etidronate. For calculation of this hazard ratio, esophageal cancer cases occurring during the entire follow-up period were used."||2.0|0.8|
92296192|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.5|3.4|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of ibandronate~compared to non-initiators of ibandronate. For calculation of this hazard ratio, esophageal cancer cases occurring during the entire follow-up period were used."||3.4|0.5|
92296193|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.9|2.0|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of risendronate~compared to non-initiators of risendronate. For calculation of this hazard ratio, esophageal cancer cases occurring during the entire follow-up period were used."||2.0|0.9|
92296194|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.3|2.3|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of raloxifene~compared to non-initiators of raloxifene. For calculation of this hazard ratio, esophageal cancer cases occurring during the entire follow-up period were used."||2.3|0.3|
92296195|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.7|1.5|||Proportional Hazards Regression Model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of~alendronate compared to non-initiators of alendronate. For calculation of 721+ day hazard ratios, only esophageal cancer cases occurring at least 721 days from initiation of study drug (data not shown) were used."||1.5|0.7|
92296196|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.7|1.9|||Proportional Hazards Regression Model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of~etidronate compared to non-initiators of etidronate. For calculation of 721+ day hazard ratios, only~esophageal cancer cases occurring at least 721 days from initiation of study drug (data not shown) were used."||1.9|0.7|
92296197|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|3.0|||||TWO_SIDED|95.0|0.8|11.1|||Proportional Hazards Regression Model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of~ibandronate compared to non-initiators of ibandronate. For calculation of 721+ day hazard ratios,~only esophageal cancer cases occurring at least 721 days from initiation of study drug (data not shown) were used."||11.1|0.8|
92296198|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.8|||||TWO_SIDED|95.0|1.1|3.0|||Proportional Hazards Regression Model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of~risedronate compared to non-initiators of risedronate. For calculation of 721+ day hazard ratios,~only esophageal cancer cases occurring at least 721 days from initiation of study drug (data not shown) were used."||3.0|1.1|
92296199|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.1|2.7|||Proportional Hazards Regression Model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of~raloxifene compared to non-initiators of raloxifene. For calculation of 721+ day hazard ratios, only~esophageal cancer cases occurring at least 721 days from initiation of study drug (data not shown) were used."||2.7|0.1|
92296200|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.5|1.6|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of alendronate~compared to non-initiators of alendronate. For calculation of 1441+ day hazard ratios, only esophageal cancer cases occurring at least 1441 days from initiation of study drug (data not shown) were used."||1.6|0.5|
92145905|NCT00506493|184176554|SUPERIORITY_OR_OTHER_LEGACY||binomial proportions|6.7|||<|0.0001|ONE_SIDED|97.5||14.9|||Fisher Exact|||||14.9||<0.0001
92145906|NCT04958785|184176589|SUPERIORITY||Hazard Ratio (HR)|0.456||||0.1617|TWO_SIDED|95.0|0.147|1.409|||Log Rank||Hazard Ratio (HR) along with its 2-sided 95% confidence interval (CI) were estimated using the Cox proportional hazards regression model.|||1.409|0.147|0.1617
92145907|NCT04958785|184176591|SUPERIORITY||Odds Ratio (OR)|2.037|||||TWO_SIDED|95.0|0.379|10.938|||||Odds ratios and corresponding 95% CIs were estimated using chi-square test.|||10.938|0.379|
92296201|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.6|2.0||Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.|Proportional hazards regression model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of etidronate~compared to non-initiators of etidronate. For calculation of 1441+ day hazard ratios, only esophageal cancer cases occurring at least 1441 days from initiation of study drug (data not shown) were used."||2.0|0.6|
92296202|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.4|2.5|||Proportional hazards regression model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of risedronate~compared to non-initiators of risedronate. For calculation of 1441+ day hazard ratios, only esophageal cancer cases occurring at least 1441 days from initiation of study drug (data not shown) were used."||2.5|0.4|
92296203|NCT01077817|184497650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.2|3.9|||Proportional hazards regression model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of raloxifene~compared to non-initiators of raloxifene. For calculation of 1441+ day hazard ratios, only esophageal cancer cases occurring at least 1441 days from initiation of study drug (data not shown) were used."||3.9|0.2|
92296204|NCT01098539|184497651|NON_INFERIORITY_OR_EQUIVALENCE|The p-value was from a 1-sided t test to test whether the difference of LS means (albiglutide - sitagliptin) was less than or equal to the prespecified noninferiority margin of 0.4%.|Median Difference (Final Values)|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.49|-0.15|||t-test, 1 sided|||||-0.15|-0.49|<0.0001
92296205|NCT01386125|184497681|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.14||||0.0007|TWO_SIDED|95.0|-0.22|-0.06|||ANCOVA|||||-0.06|-0.22|0.0007
92296206|NCT01386125|184497682|SUPERIORITY_OR_OTHER_LEGACY||Difference is LS Means|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.45|-0.15|||Constrained longitudinal data analysis|||||-0.15|-0.45|<0.0001
92296207|NCT03222037|184497782|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 97.5% confidence interval was below 0.05.|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|97.5|-0.09|-0.02|||Linear Mixed Model|Linear mixed model with Kenward and Roger method for degrees of freedom|Mean difference was calculated as Test- SCR. This comparison is for high lumniance low contrast|Comparison between the Test and the SCR treatments was carried out using 97.5% confidence intervals for the least-square mean differences.||-0.02|-0.09|
92296208|NCT03222037|184497782|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 97.5% confidence interval was below 0.05|Median Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|97.5|-0.06|-0.01|||Linear Mixed Model|Linear mixed model with Kenward and Roger method for denominator degrees of freedom|Mean difference was calculated as Test- SCR. This comparison is for Low luminance high contrast|||-0.01|-0.06|
92296209|NCT03222037|184497783|EQUIVALENCE|Statistical significance is declared if the lower limit of the 95% confidence interval is above 0 or if the upper limit of the 95% confidence interval is below 0.|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.0066|TWO_SIDED|95.0|0.01|0.08|||Linear Mixed Model|Linear Mixed Model with Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - SCR.|Comparison between the Test and SCR treatments was carried out using least-square mean differences||0.08|0.01|0.0066
92296210|NCT04974580|184497784|SUPERIORITY||Odds Ratio (OR)|1.3||||0.14|TWO_SIDED|95.0|0.91|1.84||A priori threshold was 0.10|Regression, Logistic||Reported OR is NRT receipt vs. not, so values \>1 indicate higher odds of abstinence among those receiving NRT.|Comparison of NRT vs. no-NRT in model adjusted for receipt of digital component||1.84|0.91|0.14
92296211|NCT04974580|184497784|SUPERIORITY||Odds Ratio (OR)|1.04||||0.84|TWO_SIDED|95.0|0.73|1.47||A priori threshold was 0.10|Regression, Logistic||Reported OR is Digital receipt vs. not, so values \>1 indicate higher odds of abstinence among those receiving the Digital component.|Comparison of Digital vs. no Digital in model adjusted for receipt of NRT component||1.47|0.73|0.84
92296212|NCT04381481|184497789|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Logistic|||beverages with claim compared to control beverage||||<0.001
92296213|NCT04381481|184497790|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Logistic|||snacks with warning compared to control snack||||<0.001
92296214|NCT04381481|184497791|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Logistic|||beverages with claim compared to control beverage||||<0.001
92296215|NCT04381481|184497792|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Logistic|||beverages with claim compared to control beverage||||<0.001
92296216|NCT04381481|184497793|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||Beverages with claim compared to control beverage||||<0.01
92296217|NCT04381481|184497794|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
92296218|NCT04381481|184497795|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
92296219|NCT04381481|184497796|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
92296220|NCT04381481|184497797|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
92145908|NCT01224925|184176604|SUPERIORITY||Log Rank (Mantel-Cox)|842.0|||<|0.01|TWO_SIDED|95.0|693.0|991.0|||Log Rank|||The power calculation was based on the intention to show a 30% difference in success rates. The following parameters were used (binomial scale): type I error: 5%; expected success rate in the CH group: 55% (based on Barthel et al. 2000); minimal difference between success rates not to be overlooked: 30%; type II error: 5%. The calculations revealed the need for 64 subjects in each group. After adding 20% for eventual drop-outs, we planned to recruit 160 subjects in one year.||991|693|<0.01
92145909|NCT01224925|184176604|SUPERIORITY||Log Rank (Mantel-Cox)|1201.0|||<|0.01|TWO_SIDED|95.0|1068.0|1335.0|||Log Rank|||||1335|1068|<0.01
92145910|NCT01224925|184176605|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
92145911|NCT04149925|184176607|SUPERIORITY|||||||0.01||||||Significant when p\<0.05|t-test, 2 sided|||||||0.01
92296221|NCT04381481|184497798|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Logistic|||beverages with claim compared to control beverage||||<0.01
92296222|NCT04381481|184497799|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.01
92296223|NCT04381481|184497800|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
92296224|NCT04381481|184497801|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
92296225|NCT04381481|184497802|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
92296226|NCT04381481|184497803|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296227|NCT04381481|184497804|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92145912|NCT02472652|184176614|OTHER||change in prolactin|30.0|||||TWO_SIDED|||||||||||||
92145913|NCT03675451|184176626|OTHER|Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.|Proportion of Participants|0.95|||||TWO_SIDED|95.0|0.74|0.99|||||Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.|Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.||0.99|0.74|
92145914|NCT03675451|184176627|OTHER|Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.|Proportion of Participants|1.0|||||TWO_SIDED|95.0|0.66|1.0|||||Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.|Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.||1.00|0.66|
92145915|NCT05131165|184176768|SUPERIORITY|||||||0.056||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.056
92296228|NCT04381481|184497805|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92145916|NCT05131165|184176768|SUPERIORITY|||||||0.062||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.062
92296229|NCT04381481|184497806|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296230|NCT04381481|184497807|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296231|NCT04381481|184497808|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296232|NCT04381481|184497809|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296233|NCT04381481|184497810|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296234|NCT04381481|184497811|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296235|NCT04381481|184497812|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296236|NCT04381481|184497813|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296237|NCT04381481|184497814|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296238|NCT04381481|184497815|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296239|NCT04381481|184497816|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
92296240|NCT02508116|184497822|SUPERIORITY||Odds Ratio (OR)|1.6||||0.03|TWO_SIDED|95.0|1.07|2.42|||Regression, Logistic|||The sample size calculation was based on two factors: 1) the rate of pre-study prasugrel/ticagrelor use (\~20%) and 2) anticipated increase in prasugrel/ticagrelor prescribing based on the frequency CYP2C19 LOF variants (\~30-35%). We estimated a 15% difference in the use of prasugrel/ticagrelor in the two groups (35% in the genotyped group and 20% in the control group). A sample size of 138 per group (a total of 276) would provide 80% power at an alpha level of 0.05 to detect this difference.||2.42|1.07|0.03
92296241|NCT02508116|184497824|SUPERIORITY|||||||0.27|||||||Log Rank|||The incidence of first MACE between the groups were compared by use of Kaplan-Meier estimators; statistical tests were based on log-rank tests.||||0.27
92296242|NCT00987831|184497844|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|30.0||||0.2738|TWO_SIDED|95.0|5.0|95.0||Definition of Moderate Disease was \</= 3 BILAG B (moderate) organ scores, no A (severe) scores and SLEDAI \</=10. Severe disease was \> 3 BILAG B or \>/= BILAG A or SLEDAI \> 10 or meets definition for severe flare on the SELENA SLEDAI Flare Index|Log Rank|||||95|5|0.2738
92296243|NCT02413294|184497854|SUPERIORITY|||||||0.37||||||This t-test analyzes the change in mean between the midpoint interview immediately prior to the start of the intervention and the follow-up interview at the conclusion of the intervention.|Paired T test, 2-sided|||The analysis, like the measures themselves, tracks the significance of the change from end of pre-intervention period to end of intervention period, so while only a single comparison group is listed, because it is all one population group, there are two sets of data for that group.||||0.37
92296244|NCT02413294|184497855|SUPERIORITY|||||||0.42|||||||Paired T test, 2-sided|||The analysis, like the measures themselves, tracks the significance of the change from end of pre-intervention period to end of intervention period, so while only a single comparison group is listed, because it is all one population group, there are two sets of data for that group.||||0.42
92296245|NCT02413294|184497856|SUPERIORITY|||||||0.65|||||||Paired T test, 2-sided|||The analysis, like the measures themselves, tracks the significance of the change from end of pre-intervention period to end of intervention period, so while only a single comparison group is listed, because it is all one population group, there are two sets of data for that group.||||0.65
92296246|NCT02413294|184497857|SUPERIORITY|||||||1|||||||Fisher Exact|||The analysis, like the measures themselves, tracks the significance of the change from end of pre-intervention period to end of intervention period, so while only a single comparison group is listed, because it is all one population group, there are two sets of data for that group.||||1.0
92296247|NCT02413294|184497858|SUPERIORITY|||||||0.65|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.65
92296248|NCT02413294|184497859|SUPERIORITY|||||||0.65|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.65
92296249|NCT02413294|184497860|SUPERIORITY|||||||0.94|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.94
92296250|NCT02413294|184497861|SUPERIORITY|||||||0.81|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.81
92296251|NCT02413294|184497862|SUPERIORITY|||||||0.4|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.40
92296252|NCT02413294|184497863|SUPERIORITY|||||||0.46|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.46
92296253|NCT02413294|184497864|SUPERIORITY||||||<|0.01|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||<0.01
92296254|NCT02413294|184497865|SUPERIORITY|||||||0.28|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.28
92296255|NCT02413294|184497866|SUPERIORITY|||||||0.67|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.67
92296256|NCT02413294|184497867|SUPERIORITY|||||||0.56|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.56
92296257|NCT02413294|184497868|SUPERIORITY|||||||0.82|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.82
92296258|NCT02625974|184497869|OTHER|A direct comparison|Difference in cure rate|14.0|||||TWO_SIDED|95.0|3.7|24.2||||||||24.2|3.7|
92296259|NCT02625974|184497870|OTHER|Incidence rate and 95% CI of seronegative conversion|Risk Ratio (RR)|2.12|||||TWO_SIDED|95.0|1.21|3.45|||||Person-year = 754|||3.45|1.21|
92296260|NCT02625974|184497875|OTHER|Incidence rate and 95% CI of seronegative conversion|Risk Ratio (RR)|2.11|||||TWO_SIDED|95.0|0.91|4.16|||||Person-year = 379|||4.16|0.91|
92296261|NCT03941834|184497911|OTHER||Least square (LS) mean difference|0.7|||||TWO_SIDED|95.0|0.1|1.2||||||Analysis were performed using a mixed model with fixed effects for treatment, period and sequence; baseline NPRS as a covariate; and participant as a random effect.||1.2|0.1|
92296262|NCT03941834|184497916|OTHER||LS mean difference|2.4|||||TWO_SIDED|95.0|-6.8|11.5||||||Analysis was performed using a mixed model with fixed effects for treatment, period and sequence; baseline Penn-FPS-R as a covariate; and participant as a random effect.||11.5|-6.8|
92296263|NCT03941834|184497917|OTHER||LS Mean Difference|1.5|||||TWO_SIDED|95.0|-3.8|6.9||||||Analysis was performed using a mixed model with fixed effects for treatment, period and sequence; baseline pain disability index as a covariate; and participant as a random effect.||6.9|-3.8|
92296264|NCT03941834|184497918|OTHER||LS Mean Difference|-0.1|||||TWO_SIDED|95.0|-0.7|0.5||||||Analysis was performed using a mixed model with fixed effects for treatment, period and sequence; and participant as a random effect.||0.5|-0.7|
92296265|NCT03941834|184497919|OTHER||LS Mean Difference|0.7|||||TWO_SIDED|95.0|0.1|1.4||||||Analysis was performed using a mixed model with fixed effects for treatment, period and sequence; baseline NPRS as a covariate; and participant as a random effect.||1.4|0.1|
92296266|NCT03941834|184497920|OTHER||Odds Ratio (OR)|12.6|||||TWO_SIDED|95.0|0.7|229.6||||||Analysis was performed using a logistic regression model, including fixed effects for treatment, sequence, period and baseline NPRS score as a covariate.||229.6|0.7|
92296267|NCT01115855|184497938|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.53|1.36||||||Cox Proportional Hazard Model with baseline New York Heart Association (NYHA) cohort (II, III/IV) and baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) covariates.||1.36|0.53|
92296268|NCT01115855|184497939|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.56|1.31||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||1.31|0.56|
92296269|NCT01115855|184497940|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.77|||||TWO_SIDED|95.0|0.81|3.87||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||3.87|0.81|
92296270|NCT01115855|184497941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.4|||||TWO_SIDED|95.0|0.92|6.24||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||6.24|0.92|
92296271|NCT01115855|184497942|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.44|0.97||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||0.97|0.44|
92296272|NCT01115855|184497943|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.45|1.25||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||1.25|0.45|
92296273|NCT01115855|184497944|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.45|0.97||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||0.97|0.45|
92296274|NCT01115855|184497945|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.49|1.33||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>=-50 ml/min/1.73 m\^2) covariates.||1.33|0.49|
92296275|NCT01115855|184497946|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.45|1.1||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||1.10|0.45|
92296276|NCT01115855|184497947|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.53|1.28||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||1.28|0.53|
92296277|NCT01115855|184497948|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.18|3.53||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||3.53|0.18|
92296278|NCT01115855|184497949|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.07|17.85||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||17.85|0.07|
92296279|NCT01115855|184497950|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.11|||||TWO_SIDED|95.0|0.39|11.56||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||11.56|0.39|
92296280|NCT01115855|184497951|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.05|5.66||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||5.66|0.05|
92296281|NCT01115855|184497952|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.16|8.04||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||8.04|0.16|
92145917|NCT05131165|184176769|SUPERIORITY|||||||0.364||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.364
92296282|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-102.93|STANDARD_ERROR_OF_MEAN|47.13|||TWO_SIDED|95.0|-195.92|-9.94||||||Change from baseline at Month 5 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-9.94|-195.92|
92296283|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-95.77|STANDARD_ERROR_OF_MEAN|44.54|||TWO_SIDED|95.0|-184.51|-7.04||||||Change from baseline at Month 9 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-7.04|-184.51|
92145918|NCT05131165|184176769|SUPERIORITY|||||||0.409||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.409
92296284|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-125.09|STANDARD_ERROR_OF_MEAN|35.15|||TWO_SIDED|95.0|-195.5|-54.68||||||Change from baseline at Month 13 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-54.68|-195.50|
92296285|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-31.94|STANDARD_ERROR_OF_MEAN|51.12|||TWO_SIDED|95.0|-232.77|-31.11||||||Change from baseline at Month 17 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-31.11|-232.77|
92296286|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-132.39|STANDARD_ERROR_OF_MEAN|52.77|||TWO_SIDED|95.0|-240.94|-23.84||||||Change from baseline at Month 21 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-23.84|-240.94|
92296287|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-117.18|STANDARD_ERROR_OF_MEAN|51.76|||TWO_SIDED|95.0|-221.49|-12.87||||||Change from baseline at Month 25 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-12.87|-221.49|
92296288|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-101.5|STANDARD_ERROR_OF_MEAN|61.05|||TWO_SIDED|95.0|-267.36|64.36||||||Change from baseline at Month 29 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||64.36|-267.36|
92296289|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-110.78|STANDARD_ERROR_OF_MEAN|92.42|||TWO_SIDED|95.0|-307.49|85.93||||||Change from baseline at Month 33 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||85.93|-307.49|
92296290|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-119.62|STANDARD_ERROR_OF_MEAN|158.84|||TWO_SIDED|95.0|-2137.82|1898.59||||||Change from baseline at Month 37 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||1898.59|-2137.82|
92296291|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-144.6|STANDARD_ERROR_OF_MEAN|200.56|||TWO_SIDED|90.0|-2692.95|2403.76||||||Change from baseline at Month 42 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||2403.76|-2692.95|
92296292|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-77.26|STANDARD_ERROR_OF_MEAN|966.09|||TWO_SIDED|95.0|-2131.88|1977.37||||||Change from baseline at Month 48 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||1977.37|-2131.88|
92296293|NCT01115855|184497954|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-102.3|STANDARD_ERROR_OF_MEAN|35.67|||TWO_SIDED|95.0|-172.61|-32.0||||||Change from baseline at Month 13 : ANCOVA with treatment effect and covariates of the NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-32.00|-172.61|
92296294|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-364.65|STANDARD_ERROR_OF_MEAN|763.83|||TWO_SIDED|95.0|-1863.06|1133.76||||||Change from baseline at Month 5 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||1133.76|-1863.06|
92296295|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-247.14|STANDARD_ERROR_OF_MEAN|711.26|||TWO_SIDED|95.0|-1642.43|1148.14||||||Change from baseline at Month 9 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||1148.14|-1642.43|
92145919|NCT05131165|184176770|SUPERIORITY|||||||0.158||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.158
92296296|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-370.14|STANDARD_ERROR_OF_MEAN|699.58|||TWO_SIDED|95.0|-1742.51|1002.22||||||Change from baseline at Month 13 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||1002.22|-1742.51|
92296297|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-664.09|STANDARD_ERROR_OF_MEAN|11059.62|||TWO_SIDED|95.0|-141189.93|139861.75||||||Change from baseline at Month 17 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||139861.75|-141189.93|
92296298|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-414.99|STANDARD_ERROR_OF_MEAN|3071.77|||TWO_SIDED|95.0|-39445.52|38615.54||||||Change from baseline at Month 21 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||38615.54|-39445.52|
92296299|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|23.86|STANDARD_ERROR_OF_MEAN|10794.85|||TWO_SIDED|95.0|-21649.89|21697.6||||||Change from baseline at Month 25 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||21697.60|-21649.89|
92296300|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-245.23|STANDARD_ERROR_OF_MEAN|6698.57|||TWO_SIDED|95.0|-85358.69|84868.22||||||Change from baseline at Month 29 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||84868.22|-85358.69|
92296301|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|170.49|STANDARD_ERROR_OF_MEAN|10730.38|||TWO_SIDED|95.0|-21375.69|21716.66||||||Change from baseline at Month 33 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||21716.66|-21375.69|
92296302|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-58.77|STANDARD_ERROR_OF_MEAN|12765.3|||TWO_SIDED|95.0|-30160.25|30042.7||||||Change from baseline at Month 37 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||30042.70|-30160.25|
92296303|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-212.25|STANDARD_ERROR_OF_MEAN|11073.11|||TWO_SIDED|90.0|-22723.82|22299.33||||||Change from baseline at Month 42 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||22299.33|-22723.82|
92296304|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-80.16|STANDARD_ERROR_OF_MEAN|11486.21|||TWO_SIDED|95.0|-146026.28|145865.96||||||Change from baseline at Month 48 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||145865.96|-146026.28|
92296305|NCT01115855|184497955|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-187.72|STANDARD_ERROR_OF_MEAN|240.96|||TWO_SIDED|95.0|-662.67|287.23||||||Change from baseline at Month 13 : ANCOVA with treatment effect and covariates of the NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||287.23|-662.67|
92296306|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.71|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|95.0|-0.55|3.96||||||Change from baseline at Month 5 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||3.96|-0.55|
92296307|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|2.74|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|95.0|0.07|5.42||||||Change from baseline at Month 9 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||5.42|0.07|
92296308|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.86|STANDARD_ERROR_OF_MEAN|1.39|||TWO_SIDED|95.0|1.11|6.6||||||Change from baseline at Month 13 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||6.60|1.11|
92296309|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|4.86|STANDARD_ERROR_OF_MEAN|1.54|||TWO_SIDED|95.0|1.81|7.9||||||Change from baseline at Month 17 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||7.90|1.81|
92296310|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|5.65|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|2.36|8.94||||||Change from baseline at Month 21 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||8.94|2.36|
92296311|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.44|STANDARD_ERROR_OF_MEAN|1.68|||TWO_SIDED|95.0|0.12|6.75||||||Change from baseline at Month 25 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||6.75|0.12|
92296312|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.6|STANDARD_ERROR_OF_MEAN|1.85|||TWO_SIDED|95.0|-0.06|7.25||||||Change from baseline at Month 29 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||7.25|-0.06|
92296313|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|4.65|STANDARD_ERROR_OF_MEAN|1.92|||TWO_SIDED|95.0|0.86|8.44||||||Change from baseline at Month 33 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||8.44|0.86|
92296314|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.85|STANDARD_ERROR_OF_MEAN|1.94|||TWO_SIDED|95.0|0.02|7.68||||||Change from baseline at Month 37 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||7.68|0.02|
92296315|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|4.67|STANDARD_ERROR_OF_MEAN|2.31|||TWO_SIDED|90.0|0.08|9.25||||||Change from baseline at Month 42 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||9.25|0.08|
92296316|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|4.13|STANDARD_ERROR_OF_MEAN|2.98|||TWO_SIDED|95.0|-1.82|10.07||||||Change from baseline at Month 48 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||10.07|-1.82|
92296317|NCT01115855|184497956|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.18|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|95.0|0.56|5.8||||||Change from baseline at Month 13 : ANCOVA with treatment effect and covariates of the NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||5.80|0.56|
92296318|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-61.53|STANDARD_ERROR_OF_MEAN|59.75|||TWO_SIDED|95.0|-186.44|63.37||||||Change from baseline at Month 5: Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||63.37|-186.44|
92296319|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-24.94|STANDARD_ERROR_OF_MEAN|54.2|||TWO_SIDED|95.0|-131.27|81.39||||||Change from baseline at Month 9 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||81.39|-131.27|
92296320|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.57|STANDARD_ERROR_OF_MEAN|43.18|||TWO_SIDED|95.0|-97.28|72.13||||||Change from baseline at Month 13 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||72.13|-97.28|
92296321|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-78.47|STANDARD_ERROR_OF_MEAN|72.78|||TWO_SIDED|95.0|-221.25|64.31||||||Change from baseline at Month 17 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||64.31|-221.25|
92296322|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-79.63|STANDARD_ERROR_OF_MEAN|67.42|||TWO_SIDED|95.0|-211.88|52.63||||||Change from baseline at Month 21 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||52.63|-211.88|
92296323|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|19.35|STANDARD_ERROR_OF_MEAN|88.95|||TWO_SIDED|95.0|-230.01|268.71||||||Change from baseline at Month 25 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||268.71|-230.01|
92296324|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-21.05|STANDARD_ERROR_OF_MEAN|88.27|||TWO_SIDED|95.0|-194.21|152.11||||||Change from baseline at Month 29: Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||152.11|-194.21|
92296325|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-40.79|STANDARD_ERROR_OF_MEAN|79.91|||TWO_SIDED|95.0|-197.55|115.97||||||Change from baseline at Month 33: Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||115.97|-197.55|
92296326|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-44.48|STANDARD_ERROR_OF_MEAN|103.29|||TWO_SIDED|95.0|-247.11|158.15||||||Change from baseline at Month 37 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||158.15|-247.11|
92296327|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-27.69|STANDARD_ERROR_OF_MEAN|107.06|||TWO_SIDED|90.0|-238.31|182.93||||||Change from baseline at Month 42 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||182.93|-238.31|
92296328|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-31.46|STANDARD_ERROR_OF_MEAN|96.48|||TWO_SIDED|95.0|-221.17|158.24||||||Change from baseline at Month 48: Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||158.24|-221.17|
92296329|NCT01115855|184497957|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.04|STANDARD_ERROR_OF_MEAN|28.85|||TWO_SIDED|95.0|-58.91|54.83||||||Change from baseline at Month 13 :ANCOVA with treatment effect and covariates of the NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||54.83|-58.91|
92296330|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.21|0.37||||||Change from baseline at Month 5 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.37|-0.21|
92296331|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.34|0.3||||||Change from baseline at Month 9 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.30|-0.34|
92296332|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-0.27|0.39||||||Change from baseline at Month 13: Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.39|-0.27|
92296333|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.41|0.45||||||Change from baseline at Month 17 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.45|-0.41|
92296334|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.56|0.24||||||Change from baseline at Month 21 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.24|-0.56|
92296335|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.55|0.25||||||Change from baseline at Month 25 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.25|-0.55|
92296336|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.49|0.31||||||Change from baseline at Month 29 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.31|-0.49|
92266763|NCT05182840|184434918|OTHER||Odds Ratio (OR)|2.88||||0.0195|TWO_SIDED|95.0|1.19|7.02||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.02|1.19|0.0195
92296337|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.57|0.44||||||Change from baseline at Month 33 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.44|-0.57|
92296338|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.5|0.54||||||Change from baseline at Month 37 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.54|-0.50|
92296339|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.44|0.83||||||Change from baseline at Month 42 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.83|-0.44|
92296340|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-0.63|0.89||||||Change from baseline at Month 48 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.89|-0.63|
92296341|NCT01115855|184497959|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.36|0.11||||||Change from baseline at Week 4 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.11|-0.36|
92296342|NCT04100096|184497960|SUPERIORITY||Least Square (LS) Mean Difference|-1.02||||0.243|TWO_SIDED|95.0|-2.75|0.7||Comparison was carried out using MMRM, with study center (pooled), treatment group (TG), visit, ADT status, and TG by visit interaction (BVI), gender BVI, age BVI as factors and baseline BVI as covariate. An unstructured covariance was used.|MMRM|||||0.70|-2.75|0.2430
92296343|NCT04100096|184497961|SUPERIORITY||LS Mean Difference|-0.04||||0.7759|TWO_SIDED|95.0|-0.35|0.27||Comparison was carried out using MMRM, with study center (pooled), TG, visit, ADT status, and TG BVI, gender BVI, age BVI as factors and baseline BVI as covariate. An unstructured covariance was used.|MMRM|||||0.27|-0.35|0.7759
92296344|NCT04100096|184497962|SUPERIORITY||LS Mean Difference|-0.06||||0.6585|TWO_SIDED|95.0|-0.32|0.2||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 2||0.20|-0.32|0.6585
92296345|NCT04100096|184497962|SUPERIORITY||LS Mean Difference|-0.25||||0.1181|TWO_SIDED|95.0|-0.57|0.06||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 4||0.06|-0.57|0.1181
92296346|NCT04100096|184497962|SUPERIORITY||LS Mean Difference|-0.19||||0.2431|TWO_SIDED|95.0|-0.51|0.13||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 6||0.13|-0.51|0.2431
92296347|NCT04100096|184497962|SUPERIORITY||LS Mean Difference|-0.3||||0.0638|TWO_SIDED|95.0|-0.61|0.02||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 8||0.02|-0.61|0.0638
92296348|NCT04100096|184497962|SUPERIORITY||LS Mean Difference|-0.11||||0.505|TWO_SIDED|95.0|-0.44|0.22||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 10||0.22|-0.44|0.5050
92296349|NCT04100096|184497962|SUPERIORITY||LS Mean Difference|-0.14||||0.4277|TWO_SIDED|95.0|-0.48|0.21||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 12||0.21|-0.48|0.4277
92266764|NCT05182840|184434918|OTHER||Odds Ratio (OR)|6.38||||0|TWO_SIDED|95.0|2.65|15.35||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.35|2.65|0.0000
92296350|NCT04100096|184497963|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.6225|TWO_SIDED|95.0|-0.18|0.3||Comparison between TGs was carried out using the Cochran-Mantel-Haenszel (CMH) Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 2||0.30|-0.18|0.6225
92296351|NCT04100096|184497963|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.9145|TWO_SIDED|95.0|-0.35|0.31||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 4||0.31|-0.35|0.9145
92145920|NCT05131165|184176770|SUPERIORITY|||||||0.017||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.017
92145921|NCT05131165|184176771|SUPERIORITY|||||||0.654||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.654
92145922|NCT05131165|184176771|SUPERIORITY|||||||0.035||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.035
92145923|NCT05131165|184176773|SUPERIORITY|||||||0.5468|||||||t-test, 2 sided|||The analyses compared the change in viral suppression status of the participants from baseline to month 9. For each participant, we derived the change in viral suppression status by subtracting two binary variables - one indicating whether the participant was virally suppressed at baseline (based on their chart records from around 3 months prior to baseline) and the other indicating whether the participant was virally suppressed at around month 9 of the study.||||0.5468
92145924|NCT05131165|184176773|SUPERIORITY|||||||0.5255|||||||t-test, 2 sided|||The analyses compared the change in viral suppression status of the participants from baseline to month 9. For each participant, we derived the change in viral suppression status by subtracting two binary variables - one indicating whether the participant was virally suppressed at baseline (based on their chart records from around 3 months prior to baseline) and the other indicating whether the participant was virally suppressed at around month 9 of the study.||||0.5255
92145925|NCT01904864|184176782|SUPERIORITY||Mean Difference (Net)|1.0|||<|0.001|TWO_SIDED|95.0|0.4|1.6|||Regression, Linear||Change at 12 weeks compared|||1.6|0.4|<0.001
92145926|NCT05674890|184176806|EQUIVALENCE|"Any deviation greater that +/- 0.60 (Effect size/Stdev OR 0.15/0.25=0.60) between device means was considered non-equivalent."|Mean Difference (Net)|-0.29|STANDARD_DEVIATION|2.49||0.297|TWO_SIDED||||||t-test, 2 sided|||Prior to patient enrollment, a power calculation was conducted to assess the ability of our analyses to reliably detect differences between the HFA and SSVR. With a sample size of 80, assumed effect size of 0.15, standard deviation of 0.25, intraclass correlation coefficient of 0.50, and significance level of 0.05, our analysis reaches a power of 0.87.||||0.297
92145927|NCT05674890|184176807|EQUIVALENCE|"Any deviation greater that +/- 0.60 (Effect size/Stdev OR 0.15/0.25=0.60) between device means was considered non-equivalent."|Mean Difference (Net)|-2.11|STANDARD_DEVIATION|2.81|<|0.001|TWO_SIDED||||||t-test, 2 sided|||Prior to patient enrollment, a power calculation was conducted to assess the ability of our analyses to reliably detect differences between the HFA and SSVR. With a sample size of 80, assumed effect size of 0.15, standard deviation of 0.25, intraclass correlation coefficient of 0.50, and significance level of 0.05, our analysis reaches a power of 0.87.||||<0.001
92145928|NCT05674890|184176808|EQUIVALENCE|"Any deviation greater that +/- 0.60 (Effect size/Stdev OR 0.15/0.25=0.60) between device means was considered non-equivalent."|Mean Difference (Net)|-48.75|STANDARD_DEVIATION|56.48|<|0.001|TWO_SIDED||||||t-test, 2 sided|||Prior to patient enrollment, a power calculation was conducted to assess the ability of our analyses to reliably detect differences between the HFA and SSVR. With a sample size of 80, assumed effect size of 0.15, standard deviation of 0.25, intraclass correlation coefficient of 0.50, and significance level of 0.05, our analysis reaches a power of 0.87.||||<0.001
92145929|NCT03387579|184176883|SUPERIORITY|||||||0.59|||||||Fisher Exact|||||||0.590
92145930|NCT03387579|184176883|SUPERIORITY|||||||0.224|||||||Fisher Exact|||||||0.224
92145931|NCT03387579|184176883|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92185696|NCT00657709|184270371|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided (5% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for NZ98/254 strain.|Percentage group difference|-4.0|||||TWO_SIDED|95.0|-9.0|1.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at one month after the third dose, were entirely within the interval \[-10%, 10%\].||1|-9|
92145932|NCT03387579|184176884|SUPERIORITY|||||||0.471|||||||Kruskal-Wallis|||||||0.471
92145933|NCT03387579|184176885|SUPERIORITY|||||||0.525|||||||Kruskal-Wallis|||||||0.525
92145934|NCT03387579|184176886|SUPERIORITY|||||||0.753|||||||Kruskal-Wallis|||||||0.753
92145935|NCT03387579|184176887|SUPERIORITY|||||||0.008|||||||Kruskal-Wallis|||||||0.008
92145936|NCT03387579|184176888|SUPERIORITY|||||||0.127|||||||Fisher Exact|||||||0.127
92145937|NCT03387579|184176889|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92145938|NCT03387579|184176890|SUPERIORITY||estimate|8.553||||0.046|TWO_SIDED|||||Intralipid 20% reduction versus smoflipid 20%|Mixed Models Analysis||standard error 4.249|||||0.046
92145939|NCT03387579|184176890|SUPERIORITY||estimate|7.023||||0.04|TWO_SIDED|||||Intralipid 20% historic versus smoflipid|Mixed Models Analysis||standard error 3.376|||||0.040
92145940|NCT03387579|184176890|SUPERIORITY||estimate|-1.53||||0.718|TWO_SIDED|||||Intralipid 20% Historic versus Intralipid 20% reduction|Mixed Models Analysis||standard error 4.231|||||0.718
92145941|NCT03387579|184176891|SUPERIORITY||estimate|13.436||||0.003|TWO_SIDED|||||Intralipid 20% reduction versus Smoflipid 20%|Mixed Models Analysis||standard error 4.440|||||0.003
92296352|NCT04100096|184497963|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.1535|TWO_SIDED|95.0|-0.52|0.08||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 6||0.08|-0.52|0.1535
92296353|NCT04100096|184497963|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.1922|TWO_SIDED|95.0|-0.5|0.1||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 8||0.10|-0.50|0.1922
92296354|NCT04100096|184497963|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.6488|TWO_SIDED|95.0|-0.4|0.25||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 10||0.25|-0.40|0.6488
92145942|NCT03387579|184176891|SUPERIORITY||estimate|3.936||||0.27|TWO_SIDED|||||Intralipid 20% historic versus Smoflipid 20%|Mixed Models Analysis||standard error 3.553|||||0.270
92145943|NCT03387579|184176891|SUPERIORITY||estimate|-9.5||||0.034|TWO_SIDED|||||Intralipid 20% historic versus Intralipid 20% reduction|Mixed Models Analysis||standard error 4.416|||||0.034
92145944|NCT03387579|184176892|SUPERIORITY||estimate|42.674||||0.006|TWO_SIDED|||||Intralipid 20% reduction versus Smoflipid 20%|Mixed Models Analysis||standard error 15.216|||||0.006
92145945|NCT03387579|184176892|SUPERIORITY||estimate|11.117||||0.305|TWO_SIDED|||||Intralipid 20% historic versus smoflipid 20%|Mixed Models Analysis||standard error 10.771|||||0.305
92145946|NCT03387579|184176892|SUPERIORITY||estimate|-31.557|||<|0.001|TWO_SIDED|||||Intralipid 20% historic versus Intralipid 20% reduction|Mixed Models Analysis||standard error 67.673|||||<0.001
92145947|NCT03387579|184176893|SUPERIORITY||estimate|-0.593||||0.835|TWO_SIDED|||||Intralipid 20% reduction versus smoflipid 20%|Mixed Models Analysis||standard error 2.848|||||0.835
92145948|NCT03387579|184176893|SUPERIORITY||estimate|-0.522||||0.799|TWO_SIDED|||||Intralipid 20% historic versus smoflipid 20%|Mixed Models Analysis||standard error 2.050|||||0.799
92145949|NCT03387579|184176893|SUPERIORITY||estimate|0.714||||0.714|TWO_SIDED|||||Intralipid 20% historic versus Intralipid 20% reduction|Mixed Models Analysis||standard error 2.758|||||0.714
92145950|NCT03387579|184176894|SUPERIORITY||estimate|11.162||||0.379|TWO_SIDED||||||Mixed Models Analysis|Intralipid 20% reduction versus smoflipid 20%|standard error 12.626|||||0.379
92145951|NCT03387579|184176894|SUPERIORITY||estimate|3.853||||0.717|TWO_SIDED|||||Intralipid 20% historic versus smoflipid 20%|Mixed Models Analysis||standard error 10.615|||||0.717
92145952|NCT03387579|184176894|SUPERIORITY|Intralipid 20% historic versus intralipid 20% reduction|estimate|-7.31||||0.576|TWO_SIDED||||||Mixed Models Analysis||standard error 13.025|||||0.576
92145953|NCT03387579|184176895|SUPERIORITY|||||||1|||||||Fisher Exact|||ROP||||1.00
92296355|NCT04100096|184497963|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.5992|TWO_SIDED|95.0|-0.4|0.23||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 12||0.23|-0.40|0.5992
92296356|NCT04100096|184497964|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.6579|TWO_SIDED|95.0|-0.29|0.19||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 2||0.19|-0.29|0.6579
92145954|NCT03387579|184176895|SUPERIORITY|||||||1|||||||Fisher Exact|||ROP||||1.00
92145955|NCT03387579|184176896|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92145956|NCT03387579|184176896|SUPERIORITY|||||||0.64|||||||Fisher Exact|||||||0.640
92145957|NCT03387579|184176896|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92145958|NCT03387579|184176897|SUPERIORITY|||||||0.211|||||||Kruskal-Wallis|||||||0.211
92145959|NCT03387579|184176898|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.720
92145960|NCT03387579|184176899|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.500
92145961|NCT03387579|184176900|SUPERIORITY|||||||0.774|||||||t-test, 2 sided|||||||0.774
92145962|NCT03387579|184176901|SUPERIORITY|||||||0.457|||||||Wilcoxon (Mann-Whitney)|||||||0.457
92145963|NCT03387579|184176902|SUPERIORITY|||||||0.475|||||||Wilcoxon (Mann-Whitney)|||||||0.475
92145964|NCT01804816|184176923|EQUIVALENCE|a=0.05||||||0.063|||||||t-test, 2 sided|||||||0.063
92145965|NCT01804816|184176924|EQUIVALENCE|a = 0.05||||||0.005|||||||t-test, 2 sided|||Based on results from prior small clinical trials we estimate the need for 20 patients enrolled to reach 80% statistical power.||||0.005
92145966|NCT01804816|184176924|EQUIVALENCE|a=0.05||||||0.002|||||||t-test, 2 sided|||||||0.002
92145967|NCT01804816|184176924|EQUIVALENCE|a=0.05||||||0.441|||||||t-test, 2 sided|||||||0.441
92145968|NCT01804816|184176925|EQUIVALENCE|a=0.05||||||0.729|||||||t-test, 2 sided|||||||0.729
92145969|NCT01123382|184176940|SUPERIORITY_OR_OTHER|||||||0.04||||||Group X time interaction|Mixed Models Analysis|we included a random intercept for each individual participant. We used a first-order antedependent covariance structure.||To detect a minimum clinically important difference of 2 points2 on the BPI-SF3 with an anticipated standard deviation for each mean of 2.5, estimated from a prior study, with an alpha level of 0.05 and a power of 80%, for five waves of data, a sample size of 10 participants per group was necessary. With anticipated dropouts, a sample size of at least 12 participants per group was required.||||0.04
92145970|NCT01123382|184176941|SUPERIORITY_OR_OTHER|||||||0.059|TWO_SIDED|||||group x time interaction 0.059|Mixed Models Analysis|||||||0.059
92145971|NCT01123382|184176942|SUPERIORITY_OR_OTHER|||||||0.543||||||group x time interaction 0.543|Mixed Models Analysis|||||||0.543
92296357|NCT04100096|184497964|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.3728|TWO_SIDED|95.0|-0.43|0.16||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 4||0.16|-0.43|0.3728
92296358|NCT04100096|184497964|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.1684|TWO_SIDED|95.0|-0.5|0.09||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 6||0.09|-0.50|0.1684
92296359|NCT04100096|184497964|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.0046|TWO_SIDED|95.0|-0.74|-0.13||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 8||-0.13|-0.74|0.0046
92296360|NCT04100096|184497964|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.2087|TWO_SIDED|95.0|-0.51|0.11||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 10||0.11|-0.51|0.2087
92296361|NCT04100096|184497964|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.0389|TWO_SIDED|95.0|-0.64|-0.02||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 12||-0.02|-0.64|0.0389
92145972|NCT01123382|184176943|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED|||||group x time interaction 0.33|Mixed Models Analysis|||||||0.33
92145973|NCT01123382|184176944|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED|||||group x time 0.61|Mixed Models Analysis|||||||0.61
92145974|NCT01123382|184176945|SUPERIORITY_OR_OTHER|||||||0.398||||||group x time interaction 0.398|Mixed Models Analysis|||||||0.398
92145975|NCT01123382|184176946|SUPERIORITY_OR_OTHER|||||||0.46||||||group x time interaction 0.46|Mixed Models Analysis|||||||0.46
92145976|NCT01123382|184176947|SUPERIORITY_OR_OTHER|||||||0.59||||||group x time interaction 0.59|Mixed Models Analysis|||||||0.59
92145977|NCT01123382|184176948|SUPERIORITY_OR_OTHER|||||||0.69||||||group x time interaction 0.69|Mixed Models Analysis|||||||0.69
92145978|NCT00330174|184176949|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED|95.0|||||Mixed Models Analysis|||Drinking outcomes were analyzed using multiple linear regression, controlling for site and baseline drinking level. Drinking and psychiatric symptoms assessed over time were examined using repeated measures (intercept only) mixed linear models (PROC MIXED in SAS). Analyses were performed using SAS statistical software (version 9.2; SAS Institute, Inc., Cary, NC). All tests were two-tailed and p-values less than 0.05 were considered statistically significant.||||0.64
92145979|NCT01032733|184176953|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.06|STANDARD_DEVIATION|0.5|<|0.05|ONE_SIDED|95.0|||||ANCOVA|||This trial represented a pilot study, which was designed to demonstrate the feasibility, acceptability, and efficacy of the intervention; therefore, a power analysis was not conducted. The statistical analyses consisted of descriptive and intent-to-treat (ITT) modeling procedures.||||<0.05
92145980|NCT01032733|184176954|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0|STANDARD_DEVIATION|5.0|<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92145981|NCT01032733|184176955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_DEVIATION|2.0|<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
92145982|NCT01032733|184176956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0|STANDARD_DEVIATION|15.0|<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
92145983|NCT01032733|184176957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
92145984|NCT00834106|184176958|SUPERIORITY_OR_OTHER||Vaccine efficacy|76.0|||||TWO_SIDED|95.0|43.7|91.1|||||Vaccine efficacy = 100 \* \[1 - (incidence rate with V501 / incidence rate with placebo)\]. The pre-specified success criterion was that the lower bound of the 95% confidence interval for vaccine efficacy excludes 0%.|||91.1|43.7|
92145985|NCT00834106|184176959|SUPERIORITY_OR_OTHER||Vaccine efficacy|82.3|||||TWO_SIDED|95.0|38.3|96.7|||||Vaccine efficacy = 100 \* \[1 - (incidence rate with V501 / incidence rate with placebo)\]. The pre-specified success criterion was that the lower bound of the 95% confidence interval for vaccine efficacy excludes 0%.|||96.7|38.3|
92145986|NCT00834106|184176960|SUPERIORITY_OR_OTHER||Vaccine efficacy|100.0||||0.0072|TWO_SIDED|95.0|32.3|100.0|||Exact test, 1-sided||Vaccine efficacy = 100 \* \[1 - (incidence rate with V501 / incidence rate with placebo)\]. The pre-specified success criterion was that the lower bound of the 95% confidence interval for vaccine efficacy excludes 0%.|||100|32.3|0.0072
92145987|NCT00834106|184176966|SUPERIORITY_OR_OTHER||Vaccine efficacy|91.8|||||TWO_SIDED|95.0|79.8|97.4|||||Vaccine efficacy = 100 \* \[1 - (incidence rate with V501 / incidence rate with placebo)\].|||97.4|79.8|
92145988|NCT00834106|184176967|SUPERIORITY_OR_OTHER||Vaccine efficacy|93.2|||||TWO_SIDED|95.0|72.9|99.2|||||Vaccine efficacy = 100 \* \[1 - (incidence rate with V501 / incidence rate with placebo)\].|||99.2|72.9|
92145989|NCT01755702|184176993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.284|TWO_SIDED|95.0|0.83|1.9|||Cox Proportional Hazard Model|||Null hypothesis considered no difference between the treatments in comparison.||1.90|0.83|0.2840
92145990|NCT01755702|184176993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.2008|TWO_SIDED|95.0|0.86|2.01|||Cox Proportional Hazard Model|||Null hypothesis considered no difference between the treatments in comparison.||2.01|0.86|0.2008
92145991|NCT01755702|184176993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.4552|TWO_SIDED|95.0|0.78|1.74|||Cox Proportional Hazard Model|||Null hypothesis considered no difference between the treatments in comparison.||1.74|0.78|0.4552
92145992|NCT01755702|184176993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.5579|TWO_SIDED|95.0|0.75|1.71|||Cox Proportional Hazard Model|||||1.71|0.75|0.5579
92145993|NCT01755702|184176993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.7214|TWO_SIDED|95.0|0.72|1.61|||Cox Proportional Hazard Model|||Null hypothesis considered no difference between the treatments in comparison.||1.61|0.72|0.7214
92145994|NCT01755702|184176993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.8192|TWO_SIDED|95.0|0.62|1.45|||Cox Proportional Hazard Model|||Null hypothesis considered no difference between the treatments in comparison.||1.45|0.62|0.8192
92145995|NCT03882879|184177007|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||0.64
92145996|NCT03882879|184177008|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
92145997|NCT03882879|184177009|SUPERIORITY|||||||0.76||||||Between-group two-sided t-test|t-test, 2 sided|||||||0.76
92145998|NCT03882879|184177010|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
92145999|NCT03882879|184177011|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.20
92146000|NCT04496219|184177021|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||This p value relates to instillation adherence||||0.97
92146001|NCT04496219|184177021|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||This p value relates to missed visits.||||0.17
92296362|NCT04100096|184497969|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.272|TWO_SIDED|95.0|-0.14|0.5||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 2||0.50|-0.14|0.2720
92296363|NCT04100096|184497969|SUPERIORITY||Mean Difference (Final Values)|1.09||||0|TWO_SIDED|95.0|0.63|1.56||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 4||1.56|0.63|0
92296364|NCT04100096|184497969|SUPERIORITY||Mean Difference (Final Values)|1.18||||0|TWO_SIDED|95.0|0.63|1.73||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons|ANCOVA|||Week 6||1.73|0.63|0
92296365|NCT04100096|184497969|SUPERIORITY||Mean Difference (Final Values)|1.57||||0|TWO_SIDED|95.0|0.92|2.21||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 8||2.21|0.92|0
92296366|NCT04100096|184497969|SUPERIORITY||Mean Difference (Final Values)|1.72||||0|TWO_SIDED|95.0|0.99|2.45||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 10||2.45|0.99|0
92296367|NCT04100096|184497969|SUPERIORITY||Mean Difference (Final Values)|1.44||||0.0002|TWO_SIDED|95.0|0.68|2.19||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 12||2.19|0.68|0.0002
92296368|NCT04100096|184497970|SUPERIORITY||Mean Difference (Final Values)|1.31||||0.062|TWO_SIDED|95.0|-0.07|2.68|||ANCOVA|ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.||Week 12||2.68|-0.07|0.0620
92296369|NCT04100096|184497971|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.4613|TWO_SIDED|95.0|-0.08|0.17|||ANCOVA|ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.||Week 2||0.17|-0.08|0.4613
92296370|NCT04100096|184497971|SUPERIORITY||Mean Difference (Final Values)|0.38||||0|TWO_SIDED|95.0|0.21|0.55||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 4||0.55|0.21|0
92146002|NCT04496219|184177022|SUPERIORITY|||||||0.5638|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Constipation Symptoms.||||0.5638
92146003|NCT04496219|184177022|SUPERIORITY|||||||0.1753|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Diarrhea Symptoms.||||0.1753
92146004|NCT04496219|184177022|SUPERIORITY|||||||0.2062|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Urinary Symptoms.||||0.2062
92146005|NCT04496219|184177023|SUPERIORITY|||||||0.8092|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Global Health.||||0.8092
92146006|NCT04496219|184177023|SUPERIORITY|||||||0.5492|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Physical Function.||||0.5492
92146007|NCT04496219|184177023|SUPERIORITY|||||||0.6464|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Emotional Function.||||0.6464
92146008|NCT04496219|184177023|SUPERIORITY|||||||0.586|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Social Function.||||0.586
92146009|NCT04496219|184177023|SUPERIORITY|||||||0.8999|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Fatigue Symptoms.||||0.8999
92146010|NCT04496219|184177023|SUPERIORITY|||||||0.2007|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Pain Symptoms.||||0.2007
92146011|NCT04496219|184177023|SUPERIORITY|||||||0.9921|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Malaise Symptoms.||||0.9921
92146012|NCT04496219|184177023|SUPERIORITY|||||||0.5723|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Role Function.||||0.5723
92296371|NCT04100096|184497971|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.0001|TWO_SIDED|95.0|0.21|0.61||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 6||0.61|0.21|0.0001
92296372|NCT04100096|184497971|SUPERIORITY||Mean Difference (Final Values)|0.56||||0|TWO_SIDED|95.0|0.33|0.8||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 8||0.80|0.33|0
92296373|NCT04100096|184497971|SUPERIORITY||Mean Difference (Final Values)|0.61||||0|TWO_SIDED|95.0|0.34|0.88||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 10||0.88|0.34|0
92296374|NCT04100096|184497971|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.0004|TWO_SIDED|95.0|0.23|0.8||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 12||0.80|0.23|0.0004
92296375|NCT04100096|184497973|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.1687|TWO_SIDED|95.0|-0.04|0.25||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 6||0.25|-0.04|0.1687
92146013|NCT04496219|184177023|SUPERIORITY|||||||0.812|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Cognitive Function.||||0.812
92146014|NCT04496219|184177023|SUPERIORITY|||||||0.96|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Nausea Symptoms.||||0.96
92146015|NCT04496219|184177023|SUPERIORITY|||||||0.1062|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Dyspnoea Symptoms.||||0.1062
92146016|NCT04496219|184177023|SUPERIORITY|||||||0.3259|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Insomnia Symptoms.||||0.3259
92146017|NCT04496219|184177023|SUPERIORITY|||||||0.9664|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Appetite Loss Symptoms.||||0.9664
92296376|NCT04100096|184497973|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.1874|TWO_SIDED|95.0|-0.06|0.29||Analysis of covariance (ANCOVA) model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 12||0.29|-0.06|0.1874
92296377|NCT04100096|184497974|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.0974|TWO_SIDED|95.0|-0.25|0.02||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons|ANCOVA|||Week 6||0.02|-0.25|0.0974
92296378|NCT04100096|184497974|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.391|TWO_SIDED|95.0|-0.2|0.08||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons|ANCOVA|||Week 12||0.08|-0.20|0.3910
92296379|NCT04100096|184497975|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.0063|TWO_SIDED|9.0|0.04|0.26||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 6||0.26|0.04|0.0063
92296380|NCT04100096|184497975|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.067|TWO_SIDED|95.0|-0.01|0.19||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 12||0.19|-0.01|0.0670
92296381|NCT00784134|184498018|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.027||||0.554|TWO_SIDED|95.0|-0.062|0.115|||Chi-squared|||||0.115|-0.062|0.554
92296382|NCT00784134|184498018|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.465|TWO_SIDED|95.0|0.75|1.87||Multivariable logit model adjusted for age, GCS, thalamus, stability ICH volume and stability IVH volume.|Multivariable Logit Model|||||1.87|0.75|0.465
92296383|NCT00784134|184498019|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.484|TWO_SIDED|95.0|0.63|1.25||Generalized ordered logit model adjusted for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical) compares odds ratio for mRS score \> K v. \<= K for K = 1 - 4; Alt v. Sal.|Generalized ordered Logit Model|||||1.25|0.63|0.484
92296384|NCT00784134|184498019|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.44|||<|0.001|TWO_SIDED|95.0|0.28|0.71||The same generalized ordered logit model, adjusting for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical), compares odds ratio for mRS score greater than 5 versus mRS score equal or less than 5 (dead versus alive).|Generalized ordered Logit Model|||||0.71|0.28|<0.001
92296385|NCT00784134|184498020|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.026||||0.552|TWO_SIDED|95.0|-0.059|0.111|||Chi-squared|||||0.111|-0.059|0.552
92296386|NCT00784134|184498020|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.35|TWO_SIDED|95.0|0.8|1.9||Multivariable logit model adjusting for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical).|Multivariable Logit Model|||||1.90|0.80|0.350
92296387|NCT00784134|184498021|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.428|TWO_SIDED|95.0|0.78|1.8||Random effects model with site as random effect adjusted for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical).|Random Effects Model|||||1.80|0.78|0.428
92296388|NCT00784134|184498022|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.384|TWO_SIDED|95.0|0.75|2.1|||Generalized Estimating Equation Model|Generalized estimating equation model adjusting for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical).||Logit mRS scores 0-3 at 30 days||2.10|0.75|0.384
92296389|NCT00784134|184498022|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.964|TWO_SIDED|95.0|0.62|1.64|||Generalized Estimating Equation Model|Generalized estimating equation model adjusting for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical).||Logit mRS scores 0-3 at 180 days||1.64|0.62|0.964
92296390|NCT00784134|184498023|SUPERIORITY_OR_OTHER|||||||0.0056|||||||Log Rank|||||||0.0056
92296391|NCT00784134|184498024|SUPERIORITY_OR_OTHER||||||<|0.001|||||||AUC/ Logit Model|||||||<0.001
92296392|NCT00784134|184498025|SUPERIORITY_OR_OTHER|||||||0.771|||||||Kruskal-Wallis|||||||0.771
92296393|NCT00784134|184498026|SUPERIORITY_OR_OTHER|||||||0.098|||||||Kruskal-Wallis|||||||0.098
92296394|NCT00784134|184498027|SUPERIORITY_OR_OTHER|||||||0.45|||||||Generalized Linear Models|||||||0.450
92296395|NCT00784134|184498028|SUPERIORITY_OR_OTHER|||||||0.501|||||||Chi-squared|||||||0.501
92296396|NCT00784134|184498029|SUPERIORITY_OR_OTHER|||||||0.795|||||||Chi-squared|||||||0.795
92296397|NCT00784134|184498030|SUPERIORITY_OR_OTHER|||||||0.784|||||||Chi-squared|||||||0.784
92296398|NCT00784134|184498031|SUPERIORITY_OR_OTHER|||||||0.592|||||||Chi-squared|||||||0.592
92296399|NCT00784134|184498032|SUPERIORITY_OR_OTHER|||||||0.105|||||||Chi-squared|||||||0.105
92296400|NCT00784134|184498033|SUPERIORITY_OR_OTHER|||||||0.152|||||||Chi-squared|||||||0.152
92296401|NCT00784134|184498034|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.055||||0.055|TWO_SIDED|95.0|-0.111|0.008|||Fisher Exact|||||0.008|-0.111|0.055
92296402|NCT00784134|184498035|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.035||||0.202|TWO_SIDED|95.0|-0.084|0.014|||Fisher Exact|||||0.014|-0.084|0.202
92296403|NCT00784134|184498036|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.004||||0.771|TWO_SIDED|95.0|-0.022|0.03|||Fisher Exact|||||0.030|-0.022|0.771
92296404|NCT00784134|184498037|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.004||||0.811|TWO_SIDED|95.0|-0.028|0.036|||Fisher Exact|||||0.036|-0.028|0.811
92296405|NCT00784134|184498038|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.144||||0.0017|TWO_SIDED|95.0|-0.23|-0.057|||Fisher Exact|||||-0.057|-0.230|0.0017
92296406|NCT00784134|184498039|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.006|TWO_SIDED|95.0|0.41|0.86|||Cox Proportional Hazards Model|Adjusted Cox Proportional Hazards Model adjusting for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical).||||0.86|0.41|0.006
92296407|NCT00784134|184498040|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.064||||0.41|TWO_SIDED|95.0|-0.088|0.217|||Chi-squared|||||0.217|-0.088|0.410
92296408|NCT00784134|184498041|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.016||||0.781|TWO_SIDED|95.0|-0.096|0.128|||Chi-squared|||||0.128|-0.096|0.781
92296409|NCT00784134|184498042|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.02||||0.773|TWO_SIDED|95.0|-0.113|0.152|||Chi-squared|||||0.152|-0.113|0.773
92296410|NCT00784134|184498043|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.032||||0.587|TWO_SIDED|95.0|-0.085|0.151|||Chi-squared|||||0.151|-0.085|0.587
92296411|NCT00784134|184498044|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.015||||0.775|TWO_SIDED|95.0|-0.09|0.121|||Chi-squared|||||0.121|-0.09|0.775
92296412|NCT00784134|184498045|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.019||||0.808|TWO_SIDED|95.0|-0.132|0.169|||Chi-squared|||||0.169|-0.132|0.808
92296413|NCT00784134|184498046|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.033||||0.625|TWO_SIDED|95.0|-0.165|0.099|||Chi-squared|||||0.099|-0.165|0.625
92296414|NCT00784134|184498047|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.087||||0.191|TWO_SIDED|95.0|-0.043|0.218|||Chi-squared|||||0.218|-0.043|0.191
92296415|NCT00784134|184498048|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0066||||0.949|TWO_SIDED|95.0|-0.197|0.211|||Chi-squared|||||0.211|-0.197|0.949
92296416|NCT00784134|184498049|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.014||||0.812|TWO_SIDED|95.0|-0.098|0.126|||Chi-squared|||||0.126|-0.098|0.812
92296417|NCT00784134|184498050|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.059||||0.394|TWO_SIDED|95.0|-0.076|0.194|||Chi-squared|||||0.194|-0.076|0.394
92296418|NCT00784134|184498051|SUPERIORITY_OR_OTHER|||||||0.312|||||||Wilcoxon (Mann-Whitney)|||||||0.312
92296419|NCT00784134|184498052|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.075||||0.087|TWO_SIDED|95.0|-0.011|0.16||Analysis of dichotomous eGOS, comparing Upper Severe Disability scores to Lower Severe Disability scores|Chi-squared|||||0.160|-0.011|0.087
92296420|NCT00784134|184498052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.064|TWO_SIDED|95.0|0.98|2.43||Adjusted Multivariable Logit Model comparing eGOS scores of Upper Severe Disability or greater versus Lower Severe Disability and worse; Alteplase versus Saline|Multivariable Logit Model|||||2.43|0.98|0.064
92296421|NCT00784134|184498052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.336|TWO_SIDED|95.0|0.7|2.89||Adjusted generalized ordered logit model odds ratios for eGOS scores of Moderate Disability or worse versus Good Recovery; Alteplase versus Saline|Generalized Ordered Logit Model|||||2.89|0.70|0.336
92296422|NCT00784134|184498052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.783|TWO_SIDED|95.0|0.57|1.52||Adjusted generalized ordered logit model odds ratios for eGOS scores of Upper Severe Disability or worse versus Moderate Disability + Good Recovery; Alteplase versus Saline|Generalized Ordered Logit Model|||||1.52|0.57|0.783
92296423|NCT00784134|184498053|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
92296424|NCT00784134|184498054|SUPERIORITY_OR_OTHER|||||||0.312|||||||t-test, 2 sided|||||||0.312
92296425|NCT00784134|184498055|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
92296426|NCT00784134|184498056|SUPERIORITY_OR_OTHER|||||||0.478|||||||t-test, 2 sided|||||||0.478
92296427|NCT00784134|184498057|SUPERIORITY_OR_OTHER|||||||0.634|||||||t-test, 2 sided|||||||0.634
92296428|NCT00784134|184498058|SUPERIORITY_OR_OTHER|||||||0.255|||||||t-test, 2 sided|||||||0.255
92296429|NCT00784134|184498059|SUPERIORITY_OR_OTHER|||||||0.224|||||||t-test, 2 sided|||||||0.224
92296430|NCT00784134|184498060|SUPERIORITY_OR_OTHER|||||||0.882|||||||t-test, 2 sided|||||||0.882
92296431|NCT00784134|184498061|SUPERIORITY_OR_OTHER|||||||0.551|||||||t-test, 2 sided|||||||0.551
92296432|NCT00784134|184498062|SUPERIORITY_OR_OTHER|||||||0.224|||||||t-test, 2 sided|||||||0.224
92296433|NCT00784134|184498063|SUPERIORITY_OR_OTHER|||||||0.376|||||||t-test, 2 sided|||||||0.376
92296434|NCT01796964|184498122|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority at week 12 is concluded at one-sided alpha level of 0.10 if the lower limit of the corresponding two-sided 80% confidence interval for the treatment difference (ESBA 1008 - EYLEA) is greater than -5 letters.|Treatment difference (ESBA - Eylea)|-1.13|||||TWO_SIDED|80.0|-4.19|1.93|||||Treatment differences were based on least squares estimates.|An analysis of variance (ANOVA) model with treatment and baseline BCVA categories (\< 55 and ≥ 55 letters) as class variables was used to estimate the treatment group differences (ESBA1008 - EYLEA) in the primary efficacy endpoint, BCVA Change from baseline to Week 12.||1.93|-4.19|
92296435|NCT01796964|184498123|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority at week 16 is concluded at one-sided alpha level of 0.10 if the lower limit of the corresponding two-sided 80% confidence interval for the treatment difference (ESBA 1008 - EYLEA) is greater than -5 letters.|Treatment difference (ESBA - Eylea)|-0.58|||||TWO_SIDED|80.0|-3.72|2.56|||||Treatment differences were based on least squares estimates.|An analysis of variance (ANOVA) model with treatment and baseline BCVA categories (\< 55 and ≥ 55 letters) as class variables was used to estimate the treatment group differences (ESBA1008 - EYLEA) in the primary efficacy endpoint, BCVA Change from baseline to Week 16.||2.56|-3.72|
92296436|NCT04025684|184498131|SUPERIORITY||Adjusted Mean Change|-0.1|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.11|-0.08||Analysis was performed using ANCOVA Model with product group as a fixed effect and the baseline mean RPI overall value as a covariate.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.08|-0.11|<.0001
92296437|NCT04025684|184498131|SUPERIORITY||Adjusted Mean Change|-0.12|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.14|-0.1||Analysis was performed using ANCOVA model with product group as a fixed effect and the baseline mean RPI overall value as a covariate.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.10|-0.14|<0.0001
92296438|NCT04025684|184498131|SUPERIORITY||Adjusted Mean Change|-0.1|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.12|-0.08||Analysis was performed using ANCOVA model with product group as a fixed effect and the baseline mean RPI overall value as a covariate.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.08|-0.12|<0.0001
92296439|NCT04025684|184498131|SUPERIORITY||Adjusted Mean Change|-0.1|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.12|-0.08||Analysis was performed using ANCOVA model with product group as a fixed effect and the baseline mean RPI overall value as a covariate.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.08|-0.12|<0.0001
92296440|NCT04025684|184498132|SUPERIORITY||Adjusted Mean Change|-0.5|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001|TWO_SIDED|95.0|-0.62|-0.37||Analysis was performed using ANCOVA model with product group as a fixed effect, and the baseline mean TPI overall value and RPI stratification level as covariates.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.37|-0.62|<0.0001
92296441|NCT04025684|184498132|SUPERIORITY||Adjusted Mean Change|-0.62|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.75|-0.49||Analysis was performed using ANCOVA model with product group as a fixed effect, and the baseline mean TPI overall value and RPI stratification level as covariates.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.49|-0.75|<0.0001
92296442|NCT04025684|184498132|SUPERIORITY||Adjusted Mean Change|-0.55|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.68|-0.42||Analysis was performed using ANCOVA model with product group as a fixed effect, and the baseline mean TPI overall value and RPI stratification level as covariates.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.42|-0.68|<0.0001
92296443|NCT04025684|184498132|SUPERIORITY||Adjusted Mean Change|-0.57|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.7|-0.44||Analysis was performed using ANCOVA model with product group as a fixed effect, and the baseline mean TPI overall value and RPI stratification level as covariates.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.44|-0.70|<0.0001
92296444|NCT00868296|184498149|SUPERIORITY_OR_OTHER|||||||0.857||||||Analysis with treatment as factor; baseline as covariate|ANCOVA|||Between group comparison for change from baseline in length z-score.||||0.857
92296445|NCT00868296|184498149|SUPERIORITY_OR_OTHER|||||||0.901||||||Analysis with treatment as factor; baseline as covariate|ANCOVA|||Between group comparison for change from baseline in weight z-score.||||0.901
92296446|NCT00868296|184498149|SUPERIORITY_OR_OTHER|||||||0.807||||||Analysis with treatment as factor; baseline as covariate|ANCOVA|||Between group comparison for change from baseline in head circumference z-score.||||0.807
92296447|NCT00868296|184498149|SUPERIORITY_OR_OTHER|||||||0.595|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for length z-score.||||0.595
92296448|NCT00868296|184498149|SUPERIORITY_OR_OTHER|||||||0.016|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for length z-score.||||0.016
92296449|NCT00868296|184498149|SUPERIORITY_OR_OTHER|||||||0.347|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for weight z-score.||||0.347
92296450|NCT00868296|184498149|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for weight z-score.||||0.040
92296451|NCT00868296|184498149|SUPERIORITY_OR_OTHER|||||||0.892|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for head circumference z-score.||||0.892
92296452|NCT00868296|184498149|SUPERIORITY_OR_OTHER|||||||0.006|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for head circumference z-score.||||0.006
92296453|NCT03110380|184498150|NON_INFERIORITY|A sample size of 260 participants per treatment group would provide at least 90% power to detect a non-inferiority margin of 4% in difference in percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48 between the two treatment groups. This was based on the assumptions that both treatment groups have 2% of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48 (based on Gilead Genvoya and Stribild studies) and that the significance level of the test is at a one-sided 0.025 level.|Difference in Percentages|-0.7|||||TWO_SIDED|95.001|-2.8|1.0|||||The differences in percentages of participants between treatment groups and their 95.001% confidence intervals (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The null hypothesis was that the B/F/TAF group is at least 4% higher than the DTG + F/TAF group with respect to the percentage of participants with HIV-1 RNA ≥ 50 copies/mL as determined by the US FDA-defined snapshot algorithm at Week 48; the alternative hypothesis was that the B/F/TAF group is less than 4% higher than the DTG + F/TAF group with respect to the percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48.||1.0|-2.8|
92296454|NCT03110380|184498150|SUPERIORITY|||||||0.37|||||||Fisher Exact|||||||0.37
92296455|NCT03110380|184498151|NON_INFERIORITY|It would be concluded that B/F/TAF is noninferior to DTG+F/TAF if the lower bound of the 2-sided 95.001% CI of the difference between treatment groups (B/F/TAF group -DTG+F/TAF group) in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10%.|Difference in Percentages|2.2|||||TWO_SIDED|95.001|-2.3|6.8|||||The differences in percentages of participants between treatment groups and their 95.001% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||6.8|-2.3|
92296456|NCT03110380|184498152|SUPERIORITY||Difference in LSM|-18.0||||0.23|TWO_SIDED|95.0|-46.0|11.0|||ANOVA|P-value, difference in least squares means (LSM), and its 95% CI were from ANOVA model with treatment group as a fixed effect in the model.||||11|-46|0.23
92296457|NCT00452543|184498154|NON_INFERIORITY_OR_EQUIVALENCE|This was a test of non-inferiority between the effects of acamprosate vs. placebo. Power analysis was originally based on ITT analysis with 40 subjects, and assumed 30% difference in alcohol consumption (50% vs. 20% reduction in the acamprosate and placebo groups, respectively). With alpha of 0.05, we estimated 74% power to detect a difference between the two groups. Results would be used to estimate effect size to set the stage for an adequately powered larger study in the future.|||||<|0.05||95.0||||Threshold for significance was set a priori at p\<0.05.|Wilcoxon (Mann-Whitney)|||Statistical analyses evaluated the null hypothesis that there would be no difference in the effect of acamprosate vs. placebo on total drinking days.Power analysis was originally based on ITT analysis with 40 subjects, and assumed 30% difference in alcohol consumption (50% vs. 20% reduction in the acamprosate and placebo groups, respectively). With alpha of 0.05, we estimated 74% power to detect a difference between the two groups.||||<0.05
92296458|NCT00452543|184498155|NON_INFERIORITY_OR_EQUIVALENCE|This was a test of non-inferiority between the effects of acamprosate vs. placebo.|||||<|0.05||95.0||||This p \<0.05 was set a priori.|Wilcoxon (Mann-Whitney)|||Statistical analyses evaluated the null hypothesis that there would be no difference in the effect of acamprosate vs. placebo on total drinks consumed per week.Power analysis was originally based on ITT analysis with 40 subjects, and assumed 30% difference in alcohol consumption (50% vs. 20% reduction in the acamprosate and placebo groups, respectively). With alpha of 0.05, we estimated 74% power to detect a difference between the two groups.||||<0.05
92296459|NCT00452543|184498156|NON_INFERIORITY_OR_EQUIVALENCE|"This was a test of non-inferiority between the effects of acamprosate vs. placebo. Statistical analyses evaluated the null hypothesis that there would be no difference in the effect of acamprosate vs. placebo on total drinks consumed per drinking day.~Power analysis is discussed above."|||||<|0.05||95.0||||This p\<0.05 was set a priori.|Wilcoxon (Mann-Whitney)|||"Statistical analyses evaluated the null hypothesis that there would be no difference in the effect of acamprosate vs. placebo on total drinks consumed per drinking day.~Power analysis was originally based on ITT analysis with 40 subjects, and assumed 30% difference in alcohol consumption (50% vs. 20% reduction in the acamprosate and placebo groups, respectively). With alpha of 0.05, we estimated 74% power to detect a difference between the two groups."||||<0.05
92296460|NCT02795676|184498168|NON_INFERIORITY|Non-inferiority was to be declared if the lower bound of the confidence interval for the treatment difference is above the non-inferiority margin, which was met. No p-value was calculated as this is not relevant for non-inferiority.|Median Difference (Final Values)|-0.359|||||TWO_SIDED|95.0|-2.444|1.726|||Regression, Linear|The primary efficacy analysis compared eGFR slope between the treatment arms using a 2-stage model with quantile regression.||||1.726|-2.444|
92185697|NCT00657709|184270374|NON_INFERIORITY_OR_EQUIVALENCE|GMCs (GMCrMenB+OMV NZ lot1+lot2+lot3+InfanrixHexa / GMCInfanrixHexa)|Geometric group difference|0.84|||||TWO_SIDED|95.0|0.76|0.94|||ANOVA|GMCs and 95% CIs were constructed by exponentiating (base 10) the least squares means of the log10-transformed titers and their associated 95% CIs.||Immunogenicity of the pertussis components (FHA) of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 would be considered non-inferior to that of routine vaccines given alone if the lower limit of the two-sided CI for the ratio of GMCs one month after the third vaccination is ≥0.67.||0.94|0.76|
92185698|NCT00657709|184270374|NON_INFERIORITY_OR_EQUIVALENCE|GMCs (GMCrMenB+OMV NZ lot1+lot2+lot3+InfanrixHexa / GMCInfanrixHexa)|Geometric group difference|0.77|||||TWO_SIDED|95.0|0.67|0.89|||ANOVA|GMCs and 95% CIs were constructed by exponentiating (base 10) the least square means of the log10-transformed titers and their associated 95% CIs.||Immunogenicity of the pertussis component (Pertactin) of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 would be considered non-inferior to that of the routine vaccines given alone if the lower limit of the two-sided CI for the ratio of GMCs one month after the third vaccination is ≥0.67.||0.89|0.67|
92185699|NCT00657709|184270374|NON_INFERIORITY_OR_EQUIVALENCE|GMCs (GMCrMenB+OMV NZ lot1+lot2+lot3+InfanrixHexa / GMCInfanrixHexa)|Geometric group difference|0.8|||||TWO_SIDED|95.0|0.71|0.91|||ANOVA|GMCs and 95% CIs were constructed by exponentiating (base 10) the least squares means of the log10-transformed titers and their associated 95% CIS.||Immunogenicity of the pertussis components (PT) of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 would be considered non-inferior to that of the routine vaccines given alone if the lower limit of the two-sided CI for the ratio of GMCs one month after the third vaccination is ≥0.67.||0.91|0.71|
92185700|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|0.0|||||TWO_SIDED|95.0|-1.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the routine infant vaccines, when given concomitantly with rMenB+OMV NZ at 2, 4, and 6 months of age,would be considered non-inferior to that of routine infant vaccines given alone, for diphtheria toxoids antigen, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than or equal to the cut-off level ≥0.1 IU/mL for that antigen.||2|-1|
92296461|NCT01201486|184498176|SUPERIORITY_OR_OTHER||Percentage Sensitivity|23.0|||||TWO_SIDED||||||Percentage Sensitivity|||||||
92296462|NCT00496262|184498228|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.9|STANDARD_DEVIATION|4.4|<|0.0001||90.0|||||2-sided, 1-sample t-test||The entire ITT population was used for a conservative analysis of the mean change in MCF. The mean change was set to 0 for any subject with missing MCF data.|This is an open-label study with statistical comparison between MCF pre-infusion and 1 hour post-infusion.||||<0.0001
92296463|NCT02010996|184498246|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Chi-squared|||||||0.05
92296464|NCT01493596|184498247|OTHER|Comparison of event rates across dose groups.|percentage|14.3|||||TWO_SIDED||||||||There were a total of 5 non-serious adverse events for an AE rate of 14.3%|Descriptive statistics for evaluation of AEs|Descriptive statistics of adverse events|||
92296465|NCT04234464|184498248|SUPERIORITY||Mean Difference (Final Values)|13.51|||<|0.001|TWO_SIDED|95.0|10.09|16.94|||Mixed Models Analysis|||Maximum percentage fall in post-dose pre-exercise FEV₁ up to 60 minutes post-exercise challenge is analyzed using a mixed effects model adjusted for treatment, treatment period, treatment sequence as categorical fixed effects, period-specific pre-dose baseline FEV₁ and average pre-dose baseline FEV₁ as continuous covariates, and a random subject within treatment sequence effect.||16.94|10.09|<0.001
92296466|NCT04234464|184498249|SUPERIORITY||Odds Ratio (OR)|10.548|||<|0.001|TWO_SIDED|95.0|4.311|25.805|||Mixed Models Analysis|||A generalized linear mixed model with logit link adjusted for treatment, treatment period and treatment sequence as fixed effects, pre-dose baseline FEV₁ and average pre-dose baseline FEV₁ as continuous covariates, and a random subject within treatment sequence effect.||25.805|4.311|<0.001
92296467|NCT00476593|184498250|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED|95.0||||Hypothesis: the use of diclofenac/dexamethasone does not influence macular thickness in treated eyes compared with untreated eyes of same subject.|t-test, 2 sided|The possible effect of both anti-inflammatory medications was tested in relation to participants' age and gender||Subjects who received diclofenac or dexamethasone eye drops in one eye. Macular thickness in both were compared between same subjects' eyes after 3 day's treatment. Diclofenac and dexamethasone treated eyes were not compared with each other, but with the contralateral eye of same subject by a paired Student's t-test in each medication group||||0.018
92296468|NCT00476593|184498250|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED|95.0|||||t-test, 2 sided|||Patient's healthy eyes were compared with sex and age matched healthy controls with Two Sample Student't t-test. Null hypothesis was that quiet, currently unaffected eyes of patients had same macular thickness as age and sex matched controls.||||0.024
92296469|NCT00559364|184498282|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Analysis of covariance (ANCOVA) model using treatment group and pooled site as fixed effects and wash-out phase CFA% value as covariate was used.||||<0.0001
92296470|NCT01235442|184498304|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05|||<|0.001|TWO_SIDED|95.0|1.46|2.87||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is stratified by baseline BMI(=\<35 or \>35) and prior anti-TNF exposure(Yes or no).||||2.87|1.46|<0.001
92296471|NCT01235442|184498305|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96|||<|0.001|TWO_SIDED|95.0|1.4|2.75||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is stratified by baseline BMI (=\<35 or \>35) and prior anti-TNF exposure (Yes or No).||||2.75|1.40|<0.001
92296472|NCT01235442|184498306|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78||||0.009|TWO_SIDED|95.0|1.21|2.64||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is stratified by baseline BMI (=\<35 or \>35) and prior anti-TNF exposure (Yes or No).||||2.64|1.21|0.009
92296473|NCT01235442|184498307|SUPERIORITY_OR_OTHER|||||||0.006||||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is stratified by baseline BMI (=\<35 or \>35) and prior anti-TNF exposure (Yes or No) with with modified ridit scores.||||||0.006
92296474|NCT01235442|184498308|SUPERIORITY_OR_OTHER||||||<|0.001||||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|van Elteren test|The test is stratified by baseline BMI (=\<35 or \>35) and prior anti-TNF exposure (Yes or No).||||||<0.001
92296475|NCT01235442|184498309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.135|TWO_SIDED|95.0|0.92|1.85||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is adjusted for baseline BMI (=\<35 or \>35) and prior anti-TNF (Yes or No).||||1.85|0.92|0.135
92296476|NCT01235442|184498310|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.135|TWO_SIDED|95.0|0.96|1.87||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is stratified by baseline BMI (=\<35 or \>35) and prior anti-TNF exposure (Yes or No).||||1.87|0.96|0.135
92296477|NCT02663882|184498339|SUPERIORITY|||||||0.503||||||the a priori threshold for statistical significance was p\<0.05|ANOVA|||The non-smoking-related self control task was the comparison group in relation to the smoking-related self control task||||0.503
92296478|NCT02663882|184498340|SUPERIORITY|||||||0.765||||||the a priori threshold for statistical significance was p\<0.05|ANOVA|||The non-smoking-related self control task was the comparison group in relation to the smoking-related self control task||||0.765
92296479|NCT02663882|184498341|SUPERIORITY|||||||0.717||||||the a priori threshold for statistical significance was p=0.05|ANOVA|||The non-smoking-related self control task was the comparison group in relation to the smoking-related self control task||||0.717
92296480|NCT02663882|184498342|SUPERIORITY|||||||0.302||||||the a priori threshold for statistical significance was p=0.05|ANOVA|||The non-smoking-related self control task was the comparison group in relation to the smoking-related self control task||||0.302
92296481|NCT03712124|184498343|OTHER||Least Square (LS) Mean Difference|-6.44||||0.903|TWO_SIDED|95.0|-116.18|103.31|||ANCOVA|||Analysis was performed using an analysis of covariance (ANCOVA) model with change from baseline at Day 14 as the dependent variable and baseline maximum tolerated volume and treatment as covariates.||103.31|-116.18|0.9030
92296482|NCT03712124|184498344|OTHER||LS Mean Difference|98.45||||0.0042|TWO_SIDED|95.0|35.81|161.08|||ANCOVA|||Analysis was performed using ANCOVA model with change from baseline at Day 28 as the dependent variable and baseline maximum tolerated volume and treatment as covariates.||161.08|35.81|0.0042
92296483|NCT00104247|184498387|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92296484|NCT00109837|184498412|SUPERIORITY_OR_OTHER||Proportion in 1-year CCR|0.36|STANDARD_DEVIATION|0.06|||ONE_SIDED|95.0|0.25|||||||The regimen would be of no further interest if the true 1-year continuous complete remission (CCR) rate was less than 45% (null). Sample size was chosen for an alternative of 65%, power of 92% and type-1 error of 4.6%.|||0.25|
92296485|NCT01989676|184498414|EQUIVALENCE|The hypothesis to be tested in this study was that the risk ratio of ORR of PF-05280014 versus that of trastuzumab-EU by Week 25 (+/-14 days) was within a pre-specified margin of 0.80 to 1.25.|Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.842|1.049||||||Risk Ratio and associated 95% confidence interval (CI) are unstratified and based on the Miettinen and Nurminen method.||1.049|0.842|
92296486|NCT01989676|184498415|SUPERIORITY||Cox Proportional Hazard|1.0||||0.505|TWO_SIDED|95.0|0.8|1.26||1-sided log-rank test was used to compare the PFS distribution between the two treatment groups and was stratified by prior trastuzumab exposure (Yes/No) and estrogen receptor (ER) status (ER positive vs. ER negative).|Log Rank||The 95% CI for the hazard ratio was based on the Cox's proportional hazard model.|||1.26|0.80|0.505
92296487|NCT01989676|184498416|SUPERIORITY||Cox Proportional Hazard|0.92||||0.304|TWO_SIDED|95.0|0.67|1.27||1-sided log-rank test was used to compare the DOR distribution between the two treatment groups and was stratified by prior trastuzumab exposure (Yes/No) and ER status (ER positive vs. ER negative).|Log Rank||The 95% CI for the hazard ratio was based on the Cox's proportional hazard model.|||1.27|0.67|0.304
92296488|NCT01989676|184498417|SUPERIORITY||Cox Proportional Hazard|0.929||||0.339|TWO_SIDED|95.0|0.656|1.316||1-sided log-rank test was used to compare the OS distribution between the two treatment groups and was stratified by prior trastuzumab exposure (Yes/No) and ER status (ER positive vs. ER negative).|Log Rank||The 95% CI for the hazard ratio was based on the Cox's proportional hazard model.|||1.316|0.656|0.339
92146018|NCT04496219|184177023|SUPERIORITY|||||||0.4564|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Finances.||||0.4564
92296489|NCT02688387|184498462|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0667|||||TWO_SIDED|90.0|0.9657|1.1784|||||X1 Vs R1, ambrisentan|||1.1784|0.9657|
92296490|NCT02688387|184498462|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0353|||||TWO_SIDED|90.0|0.9293|1.1534|||||X2 Vs R2, ambrisentan|||1.1534|0.9293|
92296491|NCT02688387|184498462|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|0.9839|||||TWO_SIDED|90.0|0.9288|1.0423|||||X1 Vs R1, tadalafil|||1.0423|0.9288|
92296492|NCT02688387|184498462|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|0.9656|||||TWO_SIDED|90.0|0.9151|1.0188|||||X2 Vs R2, tadalafil|||1.0188|0.9151|
92296493|NCT02688387|184498463|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.03|||||TWO_SIDED|90.0|0.9965|1.0646|||||X1 Vs R1, ambrisentan|||1.0646|0.9965|
92146019|NCT04496219|184177023|SUPERIORITY|||||||0.1036|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Intravesical Symptoms.||||0.1036
92296494|NCT02688387|184498463|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0141|||||TWO_SIDED|90.0|0.982|1.0473|||||X2 Vs R2, ambrisentan|||1.0473|0.9820|
92296495|NCT02688387|184498463|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|0.9693|||||TWO_SIDED|90.0|0.931|1.0092|||||X1 Vs R1, tadalafil|||1.0092|0.9310|
92296496|NCT02688387|184498463|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0157|||||TWO_SIDED|90.0|0.9553|1.0799|||||X2 Vs R2, tadalafil|||1.0799|0.9553|
92296497|NCT02688387|184498464|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0278|||||TWO_SIDED|90.0|0.9943|1.0623|||||X1 Vs R1, ambrisentan|||1.0623|0.9943|
92296498|NCT02688387|184498464|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0144|||||TWO_SIDED|90.0|0.9832|1.0466|||||X2 Vs R2, ambrisentan|||1.0466|0.9832|
92296499|NCT02688387|184498464|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|0.9612|||||TWO_SIDED|90.0|0.9265|0.9972|||||X1 Vs R1, tadalafil|||0.9972|0.9265|
92296500|NCT02688387|184498464|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0122|||||TWO_SIDED|90.0|0.9562|1.0715|||||X2 Vs R2, tadalafil|||1.0715|0.9562|
92296501|NCT02688387|184498465|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0153|||||TWO_SIDED|90.0|0.9348|1.1027|||||Y1 Vs R3, ambrisentan|||1.1027|0.9348|
92296502|NCT02688387|184498465|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|0.9758|||||TWO_SIDED|90.0|0.9044|1.0529|||||Y1 Vs R3, tadalafil|||1.0529|0.9044|
92296503|NCT02688387|184498466|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.039|||||TWO_SIDED|90.0|1.0168|1.0617|||||Y1 Vs R3, ambrisentan|||1.0617|1.0168|
92296504|NCT02688387|184498466|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|0.9806|||||TWO_SIDED|90.0|0.9106|1.056|||||Y1 Vs R3, tadalafil|||1.0560|0.9106|
92296505|NCT02688387|184498467|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0365|||||TWO_SIDED|90.0|1.0138|1.0596|||||Y1 Vs R3, ambrisentan|||1.0596|1.0138|
92296506|NCT02688387|184498467|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|0.9821|||||TWO_SIDED|90.0|0.9145|1.0547|||||Y1 Vs R3, tadalafil|||1.0547|0.9145|
92146020|NCT04496219|184177023|SUPERIORITY|||||||0.1789|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Worries.||||0.1789
92146021|NCT04496219|184177023|SUPERIORITY|||||||0.5186|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Bloating Symptoms.||||0.5186
92146022|NCT04496219|184177023|SUPERIORITY|||||||0.0757|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Sexual Function.||||0.0757
92146023|NCT04496219|184177023|SUPERIORITY|||||||0.1174|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Male Sex Problems.||||0.1174
92296507|NCT02688387|184498468|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.1176|||||TWO_SIDED|90.0|1.0166|1.2287|||||Y2 Vs R4, ambrisentan|||1.2287|1.0166|
92296508|NCT02688387|184498468|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.1196|||||TWO_SIDED|90.0|1.0429|1.2019|||||Y2 Vs R4, tadalafil|||1.2019|1.0429|
92296509|NCT02688387|184498469|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0353|||||TWO_SIDED|90.0|1.0009|1.071|||||Y2 Vs R4, ambrisentan|||1.0710|1.0009|
92296510|NCT02688387|184498469|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0362|||||TWO_SIDED|90.0|0.991|1.0834|||||Y2 Vs R4, tadalafil|||1.0834|0.9910|
92296511|NCT02688387|184498470|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0351|||||TWO_SIDED|90.0|1.0002|1.0713|||||Y2 Vs R4, ambrisentan|||1.0713|1.0002|
92296512|NCT02688387|184498470|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0324|||||TWO_SIDED|90.0|0.9929|1.0734|||||Y2 Vs R4, tadalafil|||1.0734|0.9929|
92296513|NCT02190279|184498519|OTHER|||||||0.0033|||||||ANOVA|||At 1 hour post injection.||||0.0033
92146024|NCT04496219|184177023|SUPERIORITY|||||||0.3129|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Intimacy.||||0.3129
92296514|NCT02190279|184498519|OTHER|||||||0.012|||||||ANOVA|||At 2 hour post injection.||||0.012
92296515|NCT02190279|184498520|EQUIVALENCE|One way analysis variance.|||||<|0.05|||||||variance|||||||<0.05
92296516|NCT00966381|184498554|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92296517|NCT00966381|184498555|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92296518|NCT00966381|184498556|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92296519|NCT03686150|184498563|OTHER|This was a population PK analysis of 25(OH)D after oral administration of Vitamin D.||||||||||||||||Part 1 of this study was to perform a population PK analysis of 25(OH)D after oral administration of Vitamin D in children who are overweight or obese and have asthma. Based on the interim analysis of the VDORA study, the PK of 25(OH)D after Vitamin D supplementation in children was well characterized by a 2-compartment population PK model with linear absorption and elimination kinetics. A loading dose of 50,000 IU followed by a daily dose of 8,000 IU was recommended.|Based on the interim analysis of the VDORA study, the PK of 25(OH)D after Vitamin D supplementation in children was well characterized by a 2-compartment population PK model with linear absorption and elimination kinetics. A loading dose of 50,000 IU followed by a daily dose of 8,000 IU was recommended.|||
92296520|NCT03686150|184498564|OTHER|This is one-sample test of proportion testing the null hypothesis that the proportion of participants with 25(OH)D level \>= 40 ng/mL is 50%.||||||0.0001|||||||z-test|||This is a one-sample test of proportion.||||0.0001
92296521|NCT03346070|184498575|SUPERIORITY||Hazard Ratio (HR)|1.92||||0.0075|TWO_SIDED|95.0|1.18|3.1|||Log Rank||Cox regression model|||3.10|1.18|0.0075
92296522|NCT03346070|184498575|SUPERIORITY||Hazard Ratio (HR)|25.9|||<|0.0001|TWO_SIDED|95.0|9.72|69.03|||Log Rank||Cox regression model|||69.03|9.72|<0.0001
92296523|NCT03346070|184498575|SUPERIORITY||Hazard Ratio (HR)|61.4|||<|0.0001|TWO_SIDED|95.0|14.13|266.77|||Log Rank||Cox regression model|||266.77|14.13|<0.0001
92296524|NCT03346070|184498575|SUPERIORITY||Hazard Ratio (HR)|2.38||||0.0005|TWO_SIDED|95.0|1.44|3.93|||Log Rank||Cox regression model|||3.93|1.44|0.0005
92146025|NCT02279043|184177030|SUPERIORITY||Odds Ratio (OR)|0.88||||0.89|TWO_SIDED|95.0|0.16|4.88|||Regression, Logistic|||||4.88|0.16|0.89
92146026|NCT02279043|184177031|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.28
92146027|NCT02279043|184177032|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92296525|NCT03346070|184498575|SUPERIORITY||Hazard Ratio (HR)|2.13|||<|0.0001|TWO_SIDED|95.0|1.5|3.01|||Log Rank||Cox regression model|||3.01|1.50|<0.0001
92296526|NCT03346070|184498576|SUPERIORITY||Difference in percentage|2.3||||0.602|TWO_SIDED|95.0|-9.6|15.0|||Miettinen & Nurminen method|||||15.0|-9.6|0.602
92296527|NCT03346070|184498576|SUPERIORITY||Difference in percentage|0.2||||0.969|TWO_SIDED|95.0|-13.4|13.5|||Miettinen & Nurminen method|||||13.5|-13.4|0.969
92296528|NCT03346070|184498576|SUPERIORITY||Difference in percentage|2.6||||0.567|TWO_SIDED|95.0|-8.7|15.0|||Miettinen & Nurminen method|||||15.0|-8.7|0.567
92296529|NCT03346070|184498576|SUPERIORITY||Difference in percentage|2.6||||0.571|TWO_SIDED|95.0|-8.8|15.0|||Miettinen & Nurminen method|||||15.0|-8.8|0.571
92146028|NCT02279043|184177032|SUPERIORITY||Slope|0.59||||0.02|TWO_SIDED|95.0|0.08|1.11|||Regression, Linear|||Multivariate analysis adjusting for cluster, as association was significant in bivariate test.||1.11|0.08|0.02
92146029|NCT02279043|184177033|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
92146030|NCT02279043|184177034|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
92146031|NCT02279043|184177035|SUPERIORITY||Odds Ratio (OR)|1.29||||0.34|TWO_SIDED|95.0|0.75|2.2|||Regression, Logistic|||||2.20|0.75|0.34
92146032|NCT02279043|184177036|SUPERIORITY||Odds Ratio (OR)|1.0||||0.99|TWO_SIDED|95.0|0.49|2.05|||Regression, Logistic|||||2.05|0.49|0.99
92296530|NCT03346070|184498576|SUPERIORITY||Difference in percentage|-0.2||||0.95|TWO_SIDED|95.0|-11.6|10.9|||Miettinen & Nurminen method|||||10.9|-11.6|0.950
92296531|NCT03346070|184498576|SUPERIORITY||Difference in percentage|2.9||||0.528|TWO_SIDED|95.0|-8.4|15.9|||Miettinen & Nurminen method|||||15.9|-8.4|0.528
92296532|NCT03346070|184498576|SUPERIORITY||Difference in percentage|1.3||||0.709|TWO_SIDED|95.0|-6.8|9.6|||Miettinen & Nurminen method|||||9.6|-6.8|0.709
92296533|NCT03346070|184498577|SUPERIORITY||Difference in percentage|2.2||||0.738|TWO_SIDED|95.0|-12.3|17.4|||Miettinen & Nurminen method|||||17.4|-12.3|0.738
92296534|NCT03346070|184498577|SUPERIORITY||Difference in percentage|11.1||||0.077|TWO_SIDED|95.0|-1.7|26.3|||Miettinen & Nurminen method|||||26.3|-1.7|0.077
92296535|NCT03346070|184498577|SUPERIORITY||Difference in percentage|2.4||||0.717|TWO_SIDED|95.0|-12.0|16.4|||Miettinen & Nurminen method|||||16.4|-12.0|0.717
92296536|NCT03346070|184498577|SUPERIORITY||Difference in percentage|5.0||||0.486|TWO_SIDED|95.0|-9.9|19.7|||Miettinen & Nurminen method|||||19.7|-9.9|0.486
92296537|NCT03346070|184498577|SUPERIORITY||Difference in percentage|-1.2||||0.849|TWO_SIDED|95.0|-16.2|12.4|||Miettinen & Nurminen method|||||12.4|-16.2|0.849
92296538|NCT03346070|184498577|SUPERIORITY||Difference in percentage|-4.9||||0.339|TWO_SIDED|95.0|-18.2|6.7|||Miettinen & Nurminen method|||||6.7|-18.2|0.339
92296539|NCT03346070|184498577|SUPERIORITY||Difference in percentage|6.6||||0.149|TWO_SIDED|95.0|-2.6|16.8|||Miettinen & Nurminen method|||||16.8|-2.6|0.149
92296540|NCT03346070|184498578|SUPERIORITY||Difference in percentage|-2.7||||0.299|TWO_SIDED|95.0|-13.9|6.7|||Miettinen & Nurminen method|||||6.7|-13.9|0.299
92296541|NCT03346070|184498578|SUPERIORITY||Difference in percentage|0.0|||>|0.999|TWO_SIDED|95.0|-9.9|9.4|||Miettinen & Nurminen method|||||9.4|-9.9|>0.999
92296542|NCT03346070|184498578|SUPERIORITY||Difference in percentage|-2.6||||0.326|TWO_SIDED|95.0|-13.7|7.0|||Miettinen & Nurminen method|||||7.0|-13.7|0.326
92296543|NCT03346070|184498578|SUPERIORITY||Difference in percentage|-2.5||||0.335|TWO_SIDED|95.0|-13.6|7.1|||Miettinen & Nurminen method|||||7.1|-13.6|0.335
92296544|NCT03346070|184498578|SUPERIORITY||Difference in percentage|0.3||||0.935|TWO_SIDED|95.0|-11.1|11.9|||Miettinen & Nurminen method|||||11.9|-11.1|0.935
92296545|NCT03346070|184498578|SUPERIORITY||Difference in percentage|-2.7||||0.326|TWO_SIDED|95.0|-13.8|7.3|||Miettinen & Nurminen method|||||7.3|-13.8|0.326
92296546|NCT03346070|184498578|SUPERIORITY||Difference in percentage|-1.4||||0.299|TWO_SIDED|95.0|-7.5|3.5|||Miettinen & Nurminen method|||||3.5|-7.5|0.299
92296547|NCT03346070|184498579|SUPERIORITY||Difference in percentage|0.1|||||TWO_SIDED|95.0|-12.7|13.1|||||Miettinen and Nurminen method|||13.1|-12.7|
92296548|NCT03346070|184498579|SUPERIORITY||Difference in percentage|-3.6|||||TWO_SIDED|95.0|-19.6|12.2|||||Miettinen and Nurminen method|||12.2|-19.6|
92296549|NCT03346070|184498579|SUPERIORITY||Difference in percentage|5.1|||||TWO_SIDED|95.0|-8.1|19.7|||||Miettinen and Nurminen method|||19.7|-8.1|
92296550|NCT03346070|184498579|SUPERIORITY||Difference in percentage|-2.6|||||TWO_SIDED|95.0|-18.0|13.1|||||Miettinen and Nurminen method|||13.1|-18.0|
92296551|NCT03346070|184498579|SUPERIORITY||Difference in percentage|4.4|||||TWO_SIDED|95.0|-9.6|19.2|||||Miettinen and Nurminen method|||19.2|-9.6|
92296552|NCT03346070|184498579|SUPERIORITY||Difference in percentage|2.2|||||TWO_SIDED|95.0|-12.5|17.0|||||Miettinen and Nurminen method|||17.0|-12.5|
92296553|NCT03346070|184498579|SUPERIORITY||Difference in percentage|-1.8|||||TWO_SIDED|95.0|-11.4|7.8|||||Miettinen and Nurminen method|||7.8|-11.4|
92296554|NCT03346070|184498580|SUPERIORITY||Difference in percentage|-2.6|||||TWO_SIDED|95.0|-15.2|9.1|||||Miettinen and Nurminen method|||9.1|-15.2|
92296555|NCT03346070|184498580|SUPERIORITY||Difference in percentage|-8.5|||||TWO_SIDED|95.0|-22.3|1.3|||||Miettinen and Nurminen method|||1.3|-22.3|
92146033|NCT02279043|184177037|SUPERIORITY||Odds Ratio (OR)|1.48||||0.08|TWO_SIDED|95.0|0.95|2.29|||Regression, Logistic|||||2.29|0.95|0.08
92296556|NCT03346070|184498580|SUPERIORITY||Difference in percentage|-5.3|||||TWO_SIDED|95.0|-18.8|6.8|||||Miettinen and Nurminen method|||6.8|-18.8|
92296557|NCT03346070|184498580|SUPERIORITY||Difference in percentage|-8.0|||||TWO_SIDED|95.0|-21.2|1.8|||||Miettinen and Nurminen method|||1.8|-21.2|
92296558|NCT03346070|184498580|SUPERIORITY||Difference in percentage|-2.9|||||TWO_SIDED|95.0|-17.0|10.5|||||Miettinen and Nurminen method|||10.5|-17.0|
92296559|NCT03346070|184498580|SUPERIORITY||Difference in percentage|0.5|||||TWO_SIDED|95.0|-14.0|15.5|||||Miettinen and Nurminen method|||15.5|-14.0|
92296560|NCT03346070|184498580|SUPERIORITY||Difference in percentage|-5.5|||||TWO_SIDED|95.0|-13.9|1.2|||||Miettinen and Nurminen method|||1.2|-13.9|
92296561|NCT03346070|184498581|SUPERIORITY||Difference in percentage|-2.4|||||TWO_SIDED|95.0|-13.4|7.3|||||Miettinen and Nurminen method|||7.3|-13.4|
92296562|NCT03346070|184498581|SUPERIORITY||Difference in percentage|-0.4|||||TWO_SIDED|95.0|-12.3|10.8|||||Miettinen and Nurminen method|||10.8|-12.3|
92296563|NCT03346070|184498581|SUPERIORITY||Difference in percentage|-2.6|||||TWO_SIDED|95.0|-13.7|7.0|||||Miettinen and Nurminen method|||7.0|-13.7|
92296564|NCT03346070|184498581|SUPERIORITY||Difference in percentage|0.2|||||TWO_SIDED|95.0|-11.2|11.7|||||Miettinen and Nurminen method|||11.7|-11.2|
92296565|NCT03346070|184498581|SUPERIORITY||Difference in percentage|-0.2|||||TWO_SIDED|95.0|-11.5|11.0|||||Miettinen and Nurminen method|||11.0|-11.5|
92296566|NCT03346070|184498581|SUPERIORITY||Difference in percentage|0.2|||||TWO_SIDED|95.0|-11.0|12.0|||||Miettinen and Nurminen method|||12.0|-11.0|
92296567|NCT03346070|184498582|SUPERIORITY||Difference in percentage|3.0|||||TWO_SIDED|95.0|-10.8|16.9|||||Miettinen and Nurminen method|||16.9|-10.8|
92296568|NCT03346070|184498582|SUPERIORITY||Difference in percentage|-76.1|||||TWO_SIDED|95.0|-87.2|-57.6|||||Miettinen and Nurminen method|||-57.6|-87.2|
92296569|NCT03346070|184498582|SUPERIORITY||Difference in percentage|-78.7|||||TWO_SIDED|95.0|-88.8|-61.1|||||Miettinen and Nurminen method|||-61.1|-88.8|
92296570|NCT03346070|184498582|SUPERIORITY||Difference in percentage|2.8|||||TWO_SIDED|95.0|-7.2|14.2|||||Miettinen and Nurminen method|||14.2|-7.2|
92296571|NCT03346070|184498582|SUPERIORITY||Difference in percentage|2.9|||||TWO_SIDED|95.0|-4.8|11.0|||||Miettinen and Nurminen method|||11.0|-4.8|
92296572|NCT03346070|184498583|SUPERIORITY||Ratio of geometric means|0.64|||||TWO_SIDED|95.0|0.48|0.86|||||Log transformation and t-distribution|||0.86|0.48|
92296573|NCT03346070|184498583|SUPERIORITY||Ratio of geometric means|0.09|||||TWO_SIDED|95.0|0.06|0.12|||||Log transformation and t-distribution|||0.12|0.06|
92296574|NCT03346070|184498583|SUPERIORITY||Ratio of geometric means|0.14|||||TWO_SIDED|95.0|0.1|0.19|||||Log transformation and t-distribution|||0.19|0.10|
92296575|NCT03346070|184498583|SUPERIORITY||Ratio of geometric means|0.54|||||TWO_SIDED|95.0|0.4|0.71|||||Log transformation and t-distribution|||0.71|0.40|
92296576|NCT03346070|184498583|SUPERIORITY||Ratio of geometric means|0.59|||||TWO_SIDED|95.0|0.48|0.72|||||Log transformation and t-distribution|||0.72|0.48|
92146034|NCT02279043|184177038|SUPERIORITY||Odds Ratio (OR)|1.63||||0.03|TWO_SIDED|95.0|1.05|2.58|||Regression, Logistic|||||2.58|1.05|0.03
92296577|NCT03346070|184498584|SUPERIORITY||Ratio of geometric means|0.63|||||TWO_SIDED|95.0|0.5|0.8|||||Log transformation and t-distribution|||0.80|0.50|
92296578|NCT03346070|184498584|SUPERIORITY||Ratio of geometric means|0.09|||||TWO_SIDED|95.0|0.07|0.13|||||Log transformation and t-distribution|||0.13|0.07|
92296579|NCT03346070|184498584|SUPERIORITY||Ratio of geometric means|0.15|||||TWO_SIDED|95.0|0.11|0.2|||||Log transformation and t-distribution|||0.20|0.11|
92296580|NCT03346070|184498584|SUPERIORITY||Ratio of geometric means|0.56|||||TWO_SIDED|95.0|0.44|0.72|||||Log transformation and t-distribution|||0.72|0.44|
92296581|NCT03346070|184498584|SUPERIORITY||Ratio of geometric means|0.6|||||TWO_SIDED|95.0|0.51|0.7|||||Log transformation and t-distribution|||0.70|0.51|
92296582|NCT03346070|184498585|SUPERIORITY||Ratio of geometric means|0.66|||||TWO_SIDED|95.0|0.54|0.81|||||Log transformation and t-distribution|||0.81|0.54|
92296583|NCT03346070|184498585|SUPERIORITY||Ratio of geometric means|0.13|||||TWO_SIDED|95.0|0.09|0.17|||||Log transformation and t-distribution|||0.17|0.09|
92296584|NCT03346070|184498585|SUPERIORITY||Ratio of geometric means|0.19|||||TWO_SIDED|95.0|0.14|0.27|||||Log transformation and t-distribution|||0.27|0.14|
92296585|NCT03346070|184498585|SUPERIORITY||Ratio of geometric means|0.66|||||TWO_SIDED|95.0|0.52|0.83|||||Log transformation and t-distribution|||0.83|0.52|
92296586|NCT03346070|184498585|SUPERIORITY||Ratio of geometric means|0.66|||||TWO_SIDED|95.0|0.57|0.77|||||Log transformation and t-distribution|||0.77|0.57|
92296587|NCT03404401|184498586|NON_INFERIORITY|Non-inferiority margin was set at 10%.|||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92296588|NCT00988208|184498598|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.53||||0.0017|TWO_SIDED|95.0|1.17|2.0||p-value is based on unstratified log-rank test|Log Rank|||||2.00|1.17|0.0017
92296589|NCT00988208|184498599|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.0187|TWO_SIDED|95.0|1.05|1.66|||Log Rank|P-value is based on unstratified log-rank test||||1.66|1.05|0.0187
92296590|NCT00988208|184498600|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.884||||0.3975|TWO_SIDED|95.0|0.665|1.176|||Chi-squared|||||1.176|0.665|0.3975
92296591|NCT03008837|184498605|OTHER|Using seed-based analysis with a right posterior insula seed, cluster size was set at 40 voxels, and p-value was thresholded at p\<0.05 to compare the differences between the two groups in terms of connectivity between the right posterior insula and areas of the DMN identified based on a priori hypotheses.|Mean Difference (Final Values)|40.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided||Standard therapy control (post-pre) was subtracted from PENFS (post-pre).|PENFS (post-pre) - Standard Therapy (post-pre)||||<0.05
92296592|NCT04894084|184498612|SUPERIORITY||Risk Ratio (RR)|0.18|||<|0.001|TWO_SIDED|95.0|0.07|0.49|||Poisson loglinear model|||||0.49|0.07|<0.001
92296593|NCT04894084|184498613|OTHER||Exact test in the binomial distribution|91.3|||<|0.0001|TWO_SIDED|95.0|72.0|99.0||"Low degree + Very low degree / Not at all were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."||99|72|<0.0001
92296594|NCT04894084|184498614|OTHER||Exact test in the binomial distribution|78.3||||0.0106|TWO_SIDED|95.0|56.0|93.0||"Some degree, High degree and Very high degree were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||For secondary endpoints an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For reliability answered on a 5-point scale the answers some, high, or very high degree was considered acceptable and grouped against answers of 'low or very low' degree of reliability.||93|56|0.0106
92296595|NCT04894084|184498615|OTHER||Exact test in the binomial distribution|95.7|||<|0.0001|TWO_SIDED|95.0|78.0|100.0||"Same, Better and Much better were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||For secondary endpoints an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. For ability to move with test product it was tested if the proportion evaluating same or better was significantly different from 50% when using a 5% test level. The answers of 'same, better or much better' was grouped against the answers of 'worse or much worse' ability to move.||100|78|<0.0001
92296596|NCT04894084|184498616|OTHER|Users worry of leakage given on a 5-point scale was analyzed by a proportional odds ratio model taken the paired design into consideration to compare the results from V1 and V2.|||||<|0.001|||||||Proportional odds ratio model|||||||<0.001
92296597|NCT04894084|184498617|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level."|Exact test in the binomial distribution|78.3||||0.0106|TWO_SIDED|95.0|56.0|93.0|||Exact test in the binomial distribution|||||93|56|0.0106
92296598|NCT04894084|184498618|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."|Exact test in the binomial distribution|65.2||||0.21|TWO_SIDED|95.0|43.0|84.0||"Higher degree and Much higher degree were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||||84|43|0.21
92296599|NCT04894084|184498619|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."|Exact test in the binomial distribution|78.3||||0.0106|TWO_SIDED|95.0|56.0|93.0|||Exact test in the binomial distribution|||||93|56|0.0106
92296600|NCT04894084|184498620|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level."|Exact test in the binomial distribution|69.6||||0.093|TWO_SIDED|95.0|47.0|87.0|||Exact test in the binomial distribution|||||87|47|0.093
92296601|NCT04894084|184498621|OTHER|By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion with a positive response was significantly different from 50% when using a 5% test level.|Exact test in the binomial distribution|95.7|||<|0.0001|TWO_SIDED|95.0|78.0|100.0|||Exact test in the binomial distribution|||||100|78|<0.0001
92296602|NCT04894084|184498622|OTHER|By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion answering I felt more confident was significantly different from 50% when using a 5% test level.|Exact test in the binomial distribution|91.3|||<|0.0001|TWO_SIDED|95.0|72.0|99.0|||Exact test in the binomial distribution|||||99|72|<0.0001
92296603|NCT04894084|184498623|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."|Exact test in the binomial distribution|34.8||||0.21|TWO_SIDED|95.0|16.0|57.0||"Yes, to the better was tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||||57|16|0.21
92296604|NCT04894084|184498624|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."|Exact test in the binomial distribution|47.8||||1|TWO_SIDED|95.0|27.0|69.0||"Higher degree and Much higher degree were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||||69|27|1.00
92296605|NCT04894084|184498625|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level."|Exact test in the binomial distribution|56.5||||0.678|TWO_SIDED|95.0|34.0|77.0|||Exact test in the binomial distribution|||||77|34|0.678
92296606|NCT04894084|184498627|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."|Exact test in the binomial distribution|69.6||||0.0931|TWO_SIDED|95.0|47.0|87.0||"High degree and Very high degree were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||||87|47|0.0931
92296607|NCT04894084|184498628|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level."|Exact test in the binomial distribution|87.0||||0.0005|TWO_SIDED|95.0|66.0|97.0|||Exact test in the binomial distribution|||||97|66|0.0005
92296608|NCT01573533|184498631|SUPERIORITY|||||||0.49|||||||ANOVA|||Baseline vs 12 months||||0.49
92296609|NCT01573533|184498632|SUPERIORITY|||||||0.41|||||||ANOVA|||Baseline vs 12 months||||0.41
92296610|NCT01573533|184498633|SUPERIORITY|||||||0.06|||||||ANOVA|||Baseline vs 12 months||||0.06
92296611|NCT02551679|184498635|SUPERIORITY||Cox Proportional Hazard|2.046||||0.258|TWO_SIDED|95.0|0.577|7.255|||ANCOVA|||The primary hypothesis of this study is that ACP-01 is superior to placebo in terms of the earlier time from treatment with Investigational Medicinal Product (IMP) to either de-novo gangrene, or doubling of wound size, or major amputation, or death.||7.255|0.577|0.258
92296612|NCT00317642|184498656|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9951|TWO_SIDED|95.0|0.78|1.28|||Log Rank|||Full Analysis Set (FAS) population||1.28|0.78|0.9951
92296613|NCT00317642|184498656|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.4674|TWO_SIDED|95.0|0.81|1.57|||Log Rank|||Participants stratified by calculated strata remission after first pre-study induction regimen (CR1) \< 6 months||1.57|0.81|0.4674
92146035|NCT02279043|184177038|SUPERIORITY||Slope|0.5||||0.03|TWO_SIDED|95.0|0.04|0.97|||Mixed Models Analysis|Mixed effects logistic regression||Multivariate analysis adjusting for cluster, as association was significant in bivariate test.||0.97|0.04|0.03
92296614|NCT00317642|184498656|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.3963|TWO_SIDED|95.0|0.58|1.24|||Log Rank|||Participants stratified by calculated strata CR1\>= 6 months||1.24|0.58|0.3963
92296615|NCT00317642|184498657|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Full Analysis Set (FAS) population - overall remission (OR)||||<0.0001
92296616|NCT00317642|184498657|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Cochran-Mantel-Haenszel|||Full Analysis Set (FAS) population - Complete Remission (CR)||||0.0005
92296617|NCT00317642|184498657|SUPERIORITY_OR_OTHER|||||||0.0022||95.0|||||Fisher Exact|||Participants stratified by calculated strata - CR1 \<6 months \[Overall Remission (CR+CRi)\]||||0.0022
92296618|NCT00317642|184498657|SUPERIORITY_OR_OTHER|||||||0.0019||95.0|||||Fisher Exact|||Participants stratified by calculated strata - CR1 \>=6 months \[Overall Remission (CR+CRi)\]||||0.0019
92296619|NCT00317642|184498657|SUPERIORITY_OR_OTHER|||||||0.0353||95.0|||||Fisher Exact|||Participants stratified by calculated strata - CR1 \<6 months \[Complete Remission (CR)\]||||0.0353
92296620|NCT00317642|184498657|SUPERIORITY_OR_OTHER|||||||0.0096||95.0|||||Fisher Exact|||Participants stratified by calculated strata - CR1 \>=6 months \[Complete Remission (CR)\]||||0.0096
92296621|NCT00317642|184498662|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63||||0.0001|TWO_SIDED|95.0|0.49|0.8|||Log Rank|||Full Analysis Set (FAS) population.||0.80|0.49|0.0001
92296622|NCT00317642|184498662|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.0131|TWO_SIDED|95.0|0.49|0.93|||Log Rank|Comparison P-value is from a log-rank test with no strata||Participants stratified by randomization strata CR1 \<6 months||0.93|0.49|0.0131
92296623|NCT00317642|184498662|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.0022||95.0|0.4|0.83|||Log Rank|Comparison p-value is from a log-rank test with no strata.||Participants stratified by randomization strata CR1 \>=6 months||0.83|0.40|0.0022
92296624|NCT00317642|184498663|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.8209|TWO_SIDED|95.0|0.77|1.23|||Log Rank|||Full Analysis Set (FAS) population||1.23|0.77|0.8209
92296625|NCT00317642|184498663|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.5071|TWO_SIDED|95.0|0.81|1.53|||Log Rank|||||1.53|0.81|0.5071
92146036|NCT02279043|184177039|SUPERIORITY||Odds Ratio (OR)|2.25|||<|0.01|TWO_SIDED|95.0|1.42|3.56|||Regression, Logistic|||||3.56|1.42|<0.01
92146037|NCT02279043|184177039|SUPERIORITY||Slope|0.84|||<|0.01|TWO_SIDED|95.0|0.33|1.35|||Mixed Models Analysis|Mixed effects logistic regression||Multivariate analysis adjusting for cluster, as association was significant in bivariate test.||1.35|0.33|<0.01
92146038|NCT02279043|184177040|SUPERIORITY||Odds Ratio (OR)|1.02||||0.93|TWO_SIDED|95.0|0.52|2.74|||Regression, Logistic|||||2.74|0.52|0.93
92146039|NCT02279043|184177041|SUPERIORITY||Odds Ratio (OR)|1.19||||0.68|TWO_SIDED|95.0|0.52|2.74|||Regression, Logistic|||||2.74|0.52|0.68
92296626|NCT00317642|184498663|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.2906|TWO_SIDED|95.0|0.59|1.17|||Log Rank|||||1.17|0.59|0.2906
92296627|NCT00317642|184498664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.49|0.79|||Log Rank|||Full Analysis Set (FAS) population.||0.79|0.49|<.0001
92296628|NCT00317642|184498664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0486|TWO_SIDED|95.0|0.53|1.01|||Log Rank|||||1.01|0.53|0.0486
92296629|NCT00317642|184498664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52||||0.0002|TWO_SIDED|95.0|0.37|0.74|||Log Rank|||||0.74|0.37|0.0002
92296630|NCT00317642|184498665|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Full Analysis Set (FAS) population||||<0.0001
92296631|NCT00317642|184498665|SUPERIORITY_OR_OTHER|||||||0.0088||95.0|||||Fisher Exact|||Participants stratified by randomization strata CR1 \<6 months.||||0.0088
92296632|NCT00317642|184498665|SUPERIORITY_OR_OTHER|||||||0.0017||95.0|||||Fisher Exact|||Participants stratified by randomization strata CR1 \>=6 months||||0.0017
92296633|NCT00317642|184498666|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92296634|NCT00317642|184498666|SUPERIORITY_OR_OTHER|||||||0.0506||95.0|||||Fisher Exact|||||||0.0506
92296635|NCT00317642|184498666|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92296636|NCT00880087|184498668|SUPERIORITY||Risk Difference (RD)|-2.6||||0.63|TWO_SIDED|95.0|-14.5|9.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was used adjusting for age category at time of randomization (\<2 years, 2 to \<12 years, or \>=12 years)||||9.2|-14.5|0.63
92296637|NCT00880087|184498669|SUPERIORITY||Risk Difference (RD)|2.8||||0.56|TWO_SIDED|95.0|-8.0|13.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was used adjusting for age category at time of randomization (\<2 years, 2 to \<12 years, or \>=12 years)||||13.7|-8.0|0.56
92296638|NCT00880087|184498670|SUPERIORITY|||||||0.7|||||||Stratified Mann-Whitney Test|Test stratified by age category (\<2 years, 2 to \<12 years, or \>=12 years), for continuous (NOT categorized as reported above) 1-year change in VABS-II|||As the (nonparametric) comparison treated 1-year deaths as worst possible outcomes and worst possible 1-year VABS-II as next worst possible outcomes, using change in VABS-II for other participants alive at 1 year, no relevant estimation of effect size is possible for this secondary outcome.|||0.70
92296639|NCT00880087|184498671|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|"Test used the continuous (NOT categorized as reported above) neuropsychological scores, with Lowest Possible Score treated as lowest possible value."||||||0.46
92296640|NCT01002794|184498673|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||Power calculation: The sample size calculation was based on the change in KOOS4 from baseline to two year follow-up. To detect a 10 point difference with a standard deviation of 15, with a level of power of 90%, level of significance of 0.05, and an estimated 15% dropout rate at two years, we determined that we would need 56 participants in each group. To allow for a 20% crossover rate, we randomised 140 participants.||||<0.05
92296641|NCT01239472|184498709|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92296642|NCT01239472|184498710|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92296643|NCT03662308|184498711|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92296644|NCT00418522|184498718|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority test utilized a one-sided 2.5% level of significance.|Mean Difference (Final Values)|-0.19|||<|0.0001||95.0|-0.38|0.0|||ANCOVA||A confidence interval (CI) approach was presented with a two-sided 95% CI of the difference between treatment and control.|The null hypothesis was that the inhaled human insulin group was inferior to the insulin glargine group with respect to 26-week change from baseline in HbA1c, while the alternate hypothesis is that the inhaled human insulin group was not inferior to the insulin glargine group with respect to 26-week change from baseline in HbA1c, given the predetermined non-inferiority margin of 0.4%.||0|-0.38|<0.0001
92296645|NCT00418522|184498718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0516||95.0|-0.38|0.0|||ANCOVA||The superiority test used a one-sided 2.5% level of significance.|With an established non-inferiority claim, an additional test for superiority was conducted (ie, the margin was 0.0%).||0|-0.38|0.0516
92296646|NCT00418522|184498719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96||||0.0052||95.0|1.22|3.14|||Regression, Logistic|||||3.14|1.22|0.0052
92296647|NCT00418522|184498720|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01||||0.0022||95.0|1.29|3.15|||Regression, Logistic|||||3.15|1.29|0.0022
92296648|NCT00418522|184498721|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.248||95.0|0.4|1.27|||Regression, Logistic|||||1.27|0.40|0.2480
92296649|NCT00418522|184498722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.57||||0.6091||95.0|-7.31|12.46|||ANCOVA|||||12.46|-7.31|0.6091
92296650|NCT00418522|184498723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.96|||<|0.0001||95.0|22.66|43.25|||ANCOVA|||Time 0 (fasting) at Week 26.||43.25|22.66|<0.0001
92296651|NCT00418522|184498723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.57|||<|0.0001||95.0|16.55|40.59|||ANCOVA|||Time 30 at Week 26.||40.59|16.55|<0.0001
92296652|NCT00418522|184498723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.96||||0.0044||95.0|5.96|31.96|||ANCOVA|||Time 60 at Week 26.||31.96|5.96|0.0044
92296653|NCT00418522|184498723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.69||||0.3168||95.0|-6.45|19.83|||ANCOVA|||Time 90 at Week 26.||19.83|-6.45|0.3168
92296654|NCT00418522|184498723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.9222||95.0|-12.12|13.39|||ANCOVA|||Time 120 at Week 26.||13.39|-12.12|0.9222
92296655|NCT00418522|184498723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.41||||0.695||95.0|-14.51|9.69|||ANCOVA|||Time 180 at Week 26.||9.69|-14.51|0.6950
92296656|NCT00418522|184498724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.61||||0.1207||95.0|-21.76|2.54|||ANCOVA|||Post-Breakfast, Week 26.||2.54|-21.76|0.1207
92296657|NCT00418522|184498724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.11|||<|0.0001||95.0|-39.77|-18.44|||ANCOVA|||Post-Lunch, Week 26.||-18.44|-39.77|<0.0001
92296658|NCT00418522|184498724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.76|||<|0.0001||95.0|-44.17|-23.35|||ANCOVA|||Post-Dinner, Week 26.||-23.35|-44.17|<0.0001
92296659|NCT00418522|184498725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.21||||0.0735||95.0|-0.5|10.91|||ANCOVA|||Total Cholesterol at Week 26.||10.91|-0.50|0.0735
92296660|NCT00418522|184498725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09||||0.0017||95.0|0.79|3.39|||ANCOVA|||HDL-c at Week 26.||3.39|0.79|0.0017
92296661|NCT00418522|184498725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.43||||0.1369||95.0|-1.1|7.96|||ANCOVA|||LDL-c at Week 26.||7.96|-1.10|0.1369
92296662|NCT00418522|184498725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26||||0.5684||95.0|-10.4|18.92|||ANCOVA|||Triglycerides at Week 26.||18.92|-10.40|0.5684
92296663|NCT00418522|184498726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.5673||95.0|-0.58|1.06|||ANCOVA|||hs-CRP at Week 26.||1.06|-0.58|0.5673
92296664|NCT00418522|184498726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.6099||95.0|-2.97|1.75|||ANCOVA|||Leptin at Week 26.||1.75|-2.97|0.6099
92296665|NCT00418522|184498726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.28||||0.7684||95.0|-12.94|17.51|||ANCOVA|||Spot urine microalbumin at Week 26.||17.51|-12.94|0.7684
92296666|NCT00418522|184498727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36||||0.5005||95.0|-0.69|1.42|||ANCOVA|||Adiponectin at Week 26.||1.42|-0.69|0.5005
92296667|NCT00418522|184498727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.685||95.0|-0.03|0.04|||ANCOVA|||ApoB at Week 26.||0.04|-0.03|0.6850
92296668|NCT00418522|184498728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|58.7||||0.1856||95.0|-43.37|160.77|||ANCOVA|||||160.77|-43.37|0.1856
92296669|NCT00418522|184498729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.72||||0.1862||95.0|-51.34|13.89|||ANCOVA|||||13.89|-51.34|0.1862
92296670|NCT00418522|184498735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.0055||95.0|0.35|2.04|||ANCOVA|||||2.04|0.35|0.0055
92296671|NCT00418522|184498736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.0053||95.0|0.12|0.71|||ANCOVA|||||0.71|0.12|0.0053
92146040|NCT02279043|184177042|SUPERIORITY||Odds Ratio (OR)|1.24||||0.33|TWO_SIDED|95.0|0.08|1.93|||Regression, Logistic|||||1.93|0.08|0.33
92146041|NCT00374322|184177045|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.286|TWO_SIDED|95.0|0.77|1.08||The p-value was calculated from a stratified log-rank test, stratifying for hormone receptor status, time since initial diagnosis, and lymph node involvement.|Log Rank||Estimate of the treatment hazard ratio (HR) was calcuated using the pike estimator.|||1.08|0.77|0.286
92146042|NCT00313820|184177072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.29||0.578||95.0|-0.7|0.4|||ANCOVA|ANCOVA with treatment and country as factors and baseline pain score as covariate.||Modelled Results: Endpoint Mean Pain Score Pregabalin vs Placebo||0.4|-0.7|0.578
92146043|NCT00313820|184177072|SUPERIORITY_OR_OTHER_LEGACY|||||||0.294||95.0||||Interaction p-value based on adding interaction term to the main model.|ANCOVA|||Modelled Results: Treatment by country interaction||||0.294
92146044|NCT00313820|184177073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.161||95.0|-0.8|0.1||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 1 Modelled Results||0.1|-0.8|0.161
92146045|NCT00313820|184177073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.25||0.062||95.0|-1.0|0.0||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 2 Modelled Results||0.0|-1.0|0.062
92296672|NCT00418522|184498738|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority test utilized a one-sided 2.5% level of significance.|Mean Difference (Final Values)|-0.27|||<|0.0001||95.0|-0.47|-0.08|||ANCOVA||A CI approach was presented with a two-sided 95% CI of the difference between treatment and control.|The null hypothesis was that the inhaled human insulin group was inferior to the insulin glargine group with respect to 26-week change from baseline in HbA1c, while the alternate hypothesis is that the inhaled human insulin group was not inferior to the insulin glargine group with respect to 26-week change from baseline in HbA1c, given the predetermined non-inferiority margin of 0.4%.||-0.08|-0.47|<0.0001
92296673|NCT00418522|184498738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.0062||95.0|-0.47|-0.08|||ANCOVA||The superiority test used a one-sided 2.5% level of significance.|With an established non-inferiority claim, an additional test for superiority was conducted (ie, the margin was 0.0%).||-0.08|-0.47|0.0062
92296674|NCT02695719|184498739|SUPERIORITY||Median Values of CI|1.0||||0.007|TWO_SIDED|95.0|0.1|1.9||No adjustment was made as there was only one primary comparison.|Van Elteren Test|The Van Elteren test is a stratified version of the Wilcoxon-Mann-Whitney test which provides approximate sample size for the van Elteren analysis.|CI was estimated by inverting the hypothesis test.|Assuming equal allocation, a power of 90%, an alpha level of 0.05 for a 2-sided test, a placebo mean of 4 (standard deviation of 2.7), and a treatment mean of 5.9 (standard deviation of 4) for SBM frequency at Week 1 and using Wilcoxon-Mann-Whitney test, a total sample size of 146 is required. Analysis was conducted using van Elteren test.||1.9|0.1|0.007
92296675|NCT01005329|184498754|OTHER||||||||||||||||||The rate of the acute specified AEs (adverse events) from previous (and prior to ClinicalTrials.gov requirements) Radiation Therapy Oncology Group (RTOG) trial 9708 of RT + cisplatin was 44% and the hypothesis is that the addition of bevacizumab to IMRT + cisplatin will not increase this rate beyond 60%. This study was designed with a 1-sided, upper bound confidence interval to estimate this AE rate. Twenty-seven evaluable patients were required to have 95% confidence that the true grade 3+ non-hematologic treatment-related AE rate is not greater than 60%. Please note that this is a 95% ONE-SIDED confidence bound which is equivalent to the upper bound of a two-sided 90% confidence interval.|||
92296676|NCT02250651|184498794|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.41||0.3738|TWO_SIDED|95.0|-1.17|0.44|||MMRM|||Change from Baseline at Week 12, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.44|-1.17|0.3738
92296677|NCT02250651|184498794|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.41||0.8514|TWO_SIDED|95.0|-0.88|0.73|||MMRM|||Change from Baseline at Week 12, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.73|-0.88|0.8514
92296678|NCT02250651|184498794|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.39||0.0401|TWO_SIDED|95.0|-1.57|-0.04|||MMRM|||Change from Baseline at Week 12, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Week 12).||-0.04|-1.57|0.0401
92296679|NCT02250651|184498794|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.39||0.3621|TWO_SIDED|95.0|-1.12|0.41|||MMRM|||Change from Baseline at Week 12, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.41|-1.12|0.3621
92296680|NCT02250651|184498795|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.36||0.0382||95.0|-1.48|-0.04|||MMRM|||Week 2, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.04|-1.48|0.0382
92296681|NCT02250651|184498795|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.36||0.1133||95.0|-1.29|0.14|||MMRM|||Week 2, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.14|-1.29|0.1133
92296682|NCT02250651|184498796|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.34||0.0013||95.0|-1.76|-0.43|||MMRM|||Week 2, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.43|-1.76|0.0013
92296683|NCT02250651|184498796|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.34||0.0364||95.0|-1.38|-0.05|||MMRM|||Week 2, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.05|-1.38|0.0364
92296684|NCT02250651|184498797|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.38||0.2304||95.0|-1.22|0.29|||MMRM|||Week 6, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.29|-1.22|0.2304
92296685|NCT02250651|184498797|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.38||0.1272||95.0|-1.34|0.17|||MMRM|||Week 6, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.17|-1.34|0.1272
92296686|NCT02250651|184498798|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.36||0.0038||95.0|-1.76|-0.34|||MMRM|||Week 6, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.34|-1.76|0.0038
92146046|NCT00313820|184177073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.25||0.024||95.0|-1.1|-0.1||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 3 Modelled Results||-0.1|-1.1|0.024
92146047|NCT00313820|184177073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.25||0.026||95.0|-1.1|-0.1||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 6 Modelled Results||-0.1|-1.1|0.026
92296687|NCT02250651|184498798|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.36||0.0741||95.0|-1.36|0.06|||MMRM|||Week 6, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.06|-1.36|0.0741
92296688|NCT02250651|184498799|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.41||0.3738||95.0|-1.17|0.44|||MMRM|||Week 12, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.44|-1.17|0.3738
92296689|NCT02250651|184498799|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.41||0.8514||95.0|-0.88|0.73|||MMRM|||Week 12, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.73|-0.88|0.8514
92296690|NCT02250651|184498800|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.39||0.0401||95.0|-1.57|-0.04|||MMRM|||Week 12, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.04|-1.57|0.0401
92296691|NCT02250651|184498800|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.39||0.3621|TWO_SIDED|95.0|-1.12|0.41|||MMRM|||Week 12, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.41|-1.12|0.3621
92296692|NCT02250651|184498801|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.36||0.0382|TWO_SIDED|95.0|-1.48|-0.04|||MMRM|||Change from Baseline at Week 2, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.04|-1.48|0.0382
92296693|NCT02250651|184498801|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.36||0.1133|TWO_SIDED|95.0|-1.29|0.14|||MMRM|||Change from Baseline at Week 2, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.14|-1.29|0.1133
92296694|NCT02250651|184498801|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.34||0.0013|TWO_SIDED|95.0|-1.76|-0.43|||MMRM|||Change from Baseline at Week 2, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.43|-1.76|0.0013
92296695|NCT02250651|184498801|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.34||0.0364|TWO_SIDED|95.0|-1.38|-0.05|||MMRM|||Change from Baseline at Week 2, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.05|-1.38|0.0364
92296696|NCT02250651|184498801|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.38||0.2304|TWO_SIDED|95.0|-1.22|0.29|||MMRM|||Change from Baseline at Week 6, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.29|-1.22|0.2304
92296697|NCT02250651|184498801|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.38||0.1272|TWO_SIDED|95.0|-1.34|0.17|||MMRM|||Change from Baseline at Week 6, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.17|-1.34|0.1272
92296698|NCT02250651|184498801|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.36||0.0038|TWO_SIDED|95.0|-1.76|-0.34|||MMRM|||Change from Baseline at Week 6, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.34|-1.76|0.0038
92296699|NCT02250651|184498801|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.36||0.0741|TWO_SIDED|95.0|-1.36|0.06|||MMRM|||Change from Baseline at Week 6, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.06|-1.36|0.0741
92296700|NCT01557920|184498809|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||pathological swallows under anesthesia vs. wakefulness: 25.9% vs. 4.9%|Mixed Models Analysis|||||||0.001
92296701|NCT01557920|184498809|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Comparison of pathological swallow-rate increase by carbon-dioxide during anesthesia and wakefulness||||<0.001
92296702|NCT01557920|184498814|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The number of swallows per hour: 1.7±3.3 during anesthesia vs. 28.0±22.3 during wakefulness|Mixed Models Analysis|||||||<0.001
92296703|NCT02690935|184498827|SUPERIORITY|||||||0.642||||||No adjustment of the p-value|t-test, 2 sided|||H0: The efficacy of 2LALERG and placebo are similar H1: The efficacy of 2LALERG and placebo are different||||0.642
92296704|NCT02690935|184498828|SUPERIORITY|||||||0.829||||||No adjustment for multiplicity|t-test, 2 sided|||H0: 2LALERG and placebo have the same effect on the quality of life H1: 2LALERG and placebo do not have the same effect on the quality of life||||0.829
92296705|NCT01175473|184498829|SUPERIORITY_OR_OTHER||Least squares (LS) Mean Difference|-154.42|||<|0.0001|TWO_SIDED|95.0|-180.3|-128.54||Linear fixed effects model with fixed terms for treatment, study site and GLU-AUC(0:30-4:30h) at baseline as covariate was used (using Statistical Analysis System \[SAS®\] PROC MIXED procedure).|Linear fixed effects model|No alpha adjustment was performed.||To detect a difference of 100 or 150 h\*mg/dL in change from baseline to Day 28 in GLU-AUC(0:30-4:30h) between lixisenatide and liraglutide, 60 patients per group would provide a power of 90% assuming common standard deviation of 170 or 250 h\*mg/dL, respectively, with a 2-sided test at 5% significance level.||-128.54|-180.30|<0.0001
92296706|NCT02630316|184498839|SUPERIORITY||Hodges-Lehmann|21.0||||0.0043|TWO_SIDED|95.0|7.0|37.0||p-value is obtained from nonparametric ANCOVA adjusted for Baseline 6MWD category.|ANCOVA|||||37.0|7.0|0.0043
92296707|NCT02630316|184498840|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92296708|NCT02630316|184498841|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.041|TWO_SIDED|95.0|0.4|0.92||p-value is calculated with log-rank test stratified by baseline 6MWD category.|Log Rank||p-value was 0.0202 for the proportional hazard model. Hazard ratio, 95% confidence interval (CI), and p-values are calculated with proportional hazards model with treatment and Baseline 6MWD (continuous) as explanatory variables.|||0.92|0.40|0.0410
92296709|NCT02630316|184498842|SUPERIORITY||Hodges-Lehmann|20.0||||0.0041|TWO_SIDED|95.0|7.0|34.0||p-value is obtained from nonparametric ANCOVA adjusted for Baseline 6MWD category|ANCOVA|||||34.0|7.0|0.0041
92296710|NCT02630316|184498843|SUPERIORITY||Hodges-Lehmann|15.0||||0.0432|TWO_SIDED|95.0|0.0|29.0||p-value is obtained from nonparametric ANCOVA adjusted for Baseline 6MWD category.|ANCOVA|||||29.0|0.0|0.0432
92296711|NCT03635983|184498849|SUPERIORITY||Estimate of Odds Ratio (OR)|0.66||||0.0311|TWO_SIDED|95.0|0.45|0.96|||Stratified Cochran-Mantel-Haenszel|two-sided|Strata adjusted odds ratio (NKTR-214 + Nivolumab over Nivolumab) using Mantel-Haenszel method.|Bempegaldesleukin+Nivolumab over Nivolumab||0.96|0.45|0.0311
92296712|NCT03635983|184498850|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.3988||95.0|0.89|1.33||Log-rank stratified 2-sided. Boundary for statistical significance p-value \< 0.03|Log Rank||Stratified Cox proportional hazard model. Hazard Ratio is NKTR-214 + Nivolumab over Nivolumab|||1.33|0.89|0.3988
92296713|NCT03635983|184498851|SUPERIORITY|Bempegaldesleukin+Nivolumab over Nivolumab|Hazard Ratio (HR)|0.94||||0.6361|TWO_SIDED|95.0|0.72|1.22|||Log Rank|2-sided p-value. Boundary for statistical significance p-value \< 0.00071|Stratified Cox proportional hazard model. Hazard Ratio is NKTR-214 + Nivolumab over Nivolumab.|||1.22|0.72|0.6361
92296714|NCT03635983|184498855|SUPERIORITY||Estimate of Odds Ratio (OR)|0.7||||0.0626|TWO_SIDED|95.0|0.48|1.02|||Stratified Cochran-Mantel-Haenszel|two-sided|Strata adjusted odds ratio (NKTR-214 + Nivolumab over Nivolumab) using Mantel-Haenszel method.|Bempegaldesleukin+Nivolumab over Nivolumab||1.02|0.48|0.0626
92296715|NCT03635983|184498856|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.3713||95.0|0.9|1.33||Log-rank stratified 2-sided. Boundary for statistical significance p-value \< 0.03|Log Rank||Stratified Cox proportional hazard model. Hazard Ratio is NKTR-214 + Nivolumab over Nivolumab|||1.33|0.90|0.3713
92296716|NCT03635983|184498860|SUPERIORITY||Odds Ratio (OR)|0.63||||||95.0|0.32|1.24|||||Logistic regression model with treatment, PD-L1 Status and treatment by PD-L1 Status interaction. Responders includes CR+PR|Bempegaldesleukin+Nivolumab vs. Nivolumab (PD-L1 Negative: \<1%)||1.24|0.32|
92296717|NCT03635983|184498860|SUPERIORITY||Odds Ratio (OR)|0.63||||0.9939|TWO_SIDED|95.0|0.39|1.02|||Stratified Cochran-Mantel-Haenszel|Interaction P-value|Logistic regression model with treatment, PD-L1 Status and treatment by PD-L1 Status interaction. Responders includes CR+PR|Bempegaldesleukin+Nivolumab vs. Nivolumab (PD-L1 Positive: \>=1%)||1.02|0.39|0.9939
92296718|NCT03635983|184498861|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.81|1.43|||||Unstratified Hazard Ratio|Bempegaldesleukin+Nivolumab vs. Nivo (PD-L1 negative: \<1%)||1.43|0.81|
92296719|NCT03635983|184498861|SUPERIORITY||Hazard Ratio (HR)|1.12||||||95.0|0.83|1.51|||||Unstratified Hazard Ratio|Bempegaldesleukin+Nivolumab vs. Nivo (PD-L1 positive: \>=1%)||1.51|0.83|
92296720|NCT03635983|184498862|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.66|1.4|||||Unstratified Hazard Ratio|Bempegaldesleukin+Nivolumab vs. Nivo (PD-L1 negative: \<1%)||1.40|0.66|
92296721|NCT03635983|184498862|SUPERIORITY||Hazard Ratio (HR)|0.88||||||95.0|0.58|1.33|||||Unstratified Hazard Ratio|Bempegaldesleukin+Nivolumab vs. Nivo (PD-L1 positive: \>=1%)||1.33|0.58|
92296722|NCT02578745|184498869|SUPERIORITY||Risk Ratio (RR)|1.67||||0.72|TWO_SIDED|95.0|0.42|6.67|||Chi-squared|||||6.67|.42|0.72
92296723|NCT02578745|184498870|SUPERIORITY||Risk Ratio (RR)|1.67||||0.72|TWO_SIDED|95.0|0.42|6.67|||Chi-squared|||||6.67|.42|0.72
92296724|NCT02578745|184498871|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
92296725|NCT02578745|184498872|SUPERIORITY||||||>|0.99|TWO_SIDED|95.0|||||Chi-squared|||||||>0.99
92296726|NCT02578745|184498873|SUPERIORITY||||||>|0.99|||||||Chi-squared|||||||>0.99
92296727|NCT02578745|184498874|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.50
92296728|NCT00330460|184498875|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -1.22%.|Mean Difference (Final Values)|1.0|||<|0.0001||95.0|0.7|1.2|||ANCOVA|||||1.2|0.7|<0.0001
92296729|NCT00330460|184498876|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -2.29%.|Mean Difference (Final Values)|1.1|||<|0.0001||95.0|0.7|1.4||The reported p-value was the one-sided adjusted p-valued based on multiplicity adjustment of the secondary efficacy endpoints|ANCOVA|||||1.4|0.7|<0.0001
92296730|NCT00330460|184498877|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -1.65%|Mean Difference (Final Values)|1.0|||<|0.0001||95.0|0.6|1.4||The reported p-value was the one-sided adjusted p-valued based on multiplicity adjustment of the secondary efficacy endpoints|ANCOVA|||||1.4|0.6|<0.0001
92296731|NCT00330460|184498878|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -1.04%|Mean Difference (Final Values)|0.6|||<|0.0001||95.0|0.3|1.0||The reported p-value was the one-sided adjusted p-valued based on multiplicity adjustment of the secondary efficacy endpoints|ANCOVA|||||1|0.3|<0.0001
92296732|NCT00330460|184498879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.0001||95.0|0.3|0.9||The reported p-value was the one-sided adjusted p-valued based on multiplicity adjustment of the secondary efficacy endpoints|ANCOVA|||||0.9|0.3|0.0001
92296733|NCT04458467|184498880|SUPERIORITY|||||||0.033|||||||t-test, 2 sided|||||||0.033
92296734|NCT04458467|184498881|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92296735|NCT03297294|184498906|SUPERIORITY|at week 12|least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.39||0.101|TWO_SIDED|95.0|-1.4|0.1|||ANCOVA|||||0.1|-1.4|0.101
92296736|NCT03297294|184498907|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.168|TWO_SIDED|95.0|-1.3|0.2|||ANCOVA|||At week 12||0.2|-1.3|0.168
92296737|NCT03297294|184498911|SUPERIORITY||Odds Ratio (OR)|1.6||||0.255|TWO_SIDED|95.0|0.7|3.9|||Regression, Logistic|||Week 12||3.9|0.7|0.255
92296738|NCT03297294|184498912|SUPERIORITY||Odds Ratio (OR)|2.8||||0.1|TWO_SIDED|95.0|0.8|9.6|||Regression, Logistic|||||9.6|0.8|0.100
92296739|NCT01917968|184499069|SUPERIORITY||Adjusted difference in percentages|6.5||||0.056|TWO_SIDED|90.0|-0.2|13.2||Statistical significance is considered at 0.05 level.|Z statistics|P-value is calculated using a Z statistics from the propensity score adjusted estimates. Missing values are handled using multiple imputation.||||13.2|-0.2|0.056
92296740|NCT01917968|184499070|NON_INFERIORITY|With type I error of 0.05 and type II error of 0.20 (power 80%), 298 subjects (149 subjects per arm) are needed to detect non-inferiority with a margin of 10%.|Adjusted difference in percentages|-0.4|||||TWO_SIDED|90.0|-2.7|1.9|||||The propensity score adjusted difference in SAE rate of Uphold LITE transvaginal mesh (TVM) vs. NTR was estimated.|||1.9|-2.7|
92296741|NCT02030535|184499087|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.219|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.187|0.252||Mixed effect model repeated measures (MMRM) including fixed effects of treatment and period; patient baseline and period baseline as covariates; patient as a random effect|Mixed models repeated measures analysis|Kenward-Roger approximation of denominator degrees of freedom. Compound symmetry covariance structure for within-patient variation|Tio+Olo 5/5μg minus Placebo.|||0.252|0.187|<0.0001
92296742|NCT02030535|184499087|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.252|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.22|0.284||Mixed effect model repeated measures (MMRM) including fixed effects of treatment and period; patient baseline and period baseline as covariates; patient as a random effect|Mixed models repeated measures analysis|Kenward-Roger approximation of denominator degrees of freedom. Compound symmetry covariance structure for within-patient variation.|Tiotropium 5μg + Olodaterol 5μg minus Placebo.|||0.284|0.220|<0.0001
92296743|NCT02030535|184499087|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.033|STANDARD_ERROR_OF_MEAN|0.016|||TWO_SIDED|95.0|-0.065|-0.001|||||Tio+Olo 5/5μg minus Tiotropium 5μg + Olodaterol 5μg.|Descriptive comparison. Statistical Analyses 1 \& 2 were included in the hierarchical testing sequence (alpha protected), and analysis 3 was not included in the hierarchical testing sequence (not alpha protected)||-0.001|-0.065|
92296744|NCT01435928|184499104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.039|TWO_SIDED|95.0|0.45|0.98|||Log Rank|||||0.98|0.45|0.039
92296745|NCT01435928|184499105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.07|TWO_SIDED|95.0|0.54|1.03|||Log Rank|||||1.03|0.54|0.070
92296746|NCT01435928|184499106|SUPERIORITY_OR_OTHER|||||||0.029|||||||ANCOVA|LOCF||||||0.029
92296747|NCT01435928|184499107|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANCOVA|LOCF||||||0.015
92296748|NCT01435928|184499108|SUPERIORITY_OR_OTHER|||||||0.218|||||||ANCOVA|LOCF||||||0.218
92296749|NCT01435928|184499109|SUPERIORITY_OR_OTHER|||||||0.021|||||||ANCOVA|LOCF||||||0.021
92296750|NCT01435928|184499110|SUPERIORITY_OR_OTHER|||||||0.056|||||||ANCOVA|LOCF||||||0.056
92296751|NCT01634854|184499115|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92296752|NCT00739973|184499131|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-9.97|STANDARD_ERROR_OF_MEAN|1.45|<|0.001|TWO_SIDED|95.0|-12.81|-7.12|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-7.12|-12.81|<0.001
92296753|NCT00739973|184499132|SUPERIORITY_OR_OTHER||Least Square mean Difference|-4.82|STANDARD_ERROR_OF_MEAN|1.47||0.001|TWO_SIDED|95.0|-7.7|-1.94|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-1.94|-7.70|0.001
92296754|NCT00739973|184499133|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-13.85|STANDARD_ERROR_OF_MEAN|1.44|<|0.001|TWO_SIDED|95.0|-16.68|-11.0|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-11.0|-16.68|<0.001
92296755|NCT00739973|184499134|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-13.2|STANDARD_ERROR_OF_MEAN|1.45|<|0.001|TWO_SIDED|95.0|-16.04|-10.4|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-10.4|-16.04|<0.001
92296756|NCT00739973|184499135|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-7.77|-4.22|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-4.22|-7.77|<0.001
92296757|NCT00739973|184499136|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.98|STANDARD_ERROR_OF_MEAN|0.91||0.001|TWO_SIDED|95.0|-4.77|-1.19|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-1.19|-4.77|0.001
92296758|NCT00739973|184499137|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-8.63|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-10.39|-6.87|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-6.87|-10.39|<0.001
92296759|NCT00739973|184499138|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-8.17|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-9.94|-6.4|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-6.40|-9.94|<0.001
92296760|NCT00739973|184499139|SUPERIORITY_OR_OTHER||Least Sqaure Mean Difference|-2.33|STANDARD_ERROR_OF_MEAN|0.92||0.011|TWO_SIDED|95.0|-4.14|-0.53|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-0.53|-4.14|0.011
92296761|NCT00739973|184499140|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-10.81|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-12.57|-9.05|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-9.05|-12.57|<0.001
92296762|NCT00739973|184499141|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-4.79|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-6.56|-3.03|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-3.03|-6.56|<0.001
92146048|NCT00313820|184177073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.25||0.105||95.0|-0.9|0.1||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 9 Modelled Results||0.1|-0.9|0.105
92146049|NCT00313820|184177073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.25||0.592||95.0|-0.6|0.4||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 12 Modelled Results||0.4|-0.6|0.592
92146050|NCT00313820|184177074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.087||95.0||||Cochran-Mantel-Haenszel (CMH) test comparing pregabalin to placebo adjusted for country under the null hypothesis of no treatment difference.|Cochran-Mantel-Haenszel|||30% Responders||||0.087
92296763|NCT00739973|184499142|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.98|STANDARD_ERROR_OF_MEAN|0.92|<|0.001|TWO_SIDED|95.0|-5.78|-2.18|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-2.18|-5.78|<0.001
92296764|NCT00739973|184499143|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-9.64|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-11.41|-7.87|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-7.87|-11.41|<0.001
92296765|NCT00739973|184499144|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.26|STANDARD_ERROR_OF_MEAN|0.89|<|0.001|TWO_SIDED|95.0|-8.0|-4.51|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-4.51|-8.00|<0.001
92296766|NCT00739973|184499145|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.63|STANDARD_ERROR_OF_MEAN|0.92||0.004|TWO_SIDED|95.0|-4.42|-0.83|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-0.83|-4.42|0.004
92296767|NCT00739973|184499146|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-11.1|STANDARD_ERROR_OF_MEAN|0.89|<|0.001|TWO_SIDED|95.0|-12.85|-9.35|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-9.35|-12.85|<0.001
92296768|NCT00739973|184499147|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.83|STANDARD_ERROR_OF_MEAN|1.48||0.056|TWO_SIDED|95.0|-5.73|-0.07|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-0.07|-5.73|0.056
92296769|NCT00739973|184499148|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-17.08|STANDARD_ERROR_OF_MEAN|1.44|<|0.001||95.0|-19.91|-14.3|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-14.3|-19.91|<0.001
92296770|NCT00739973|184499149|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.45|STANDARD_ERROR_OF_MEAN|1.45|<|0.001|TWO_SIDED|95.0|-9.29|-3.62|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-3.62|-9.29|<0.001
92296771|NCT00739973|184499150|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.48|<|0.001|TWO_SIDED|95.0|-8.9|-3.11|||ANCOVA|A two-way analysis of covariance model with treatment and region asntwo factors, and the baseline as a covariate.||||-3.11|-8.90|<0.001
92146051|NCT00313820|184177075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.622||95.0||||Cochran-Mantel-Haenszel (CMH) test comparing pregabalin to placebo adjusted for country under the null hypothesis of no treatment difference.|Cochran-Mantel-Haenszel|||50% Responders||||0.622
92296772|NCT00739973|184499151|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-15.03|STANDARD_ERROR_OF_MEAN|1.45|<|0.001|TWO_SIDED|95.0|-17.88|-12.2|||ANCOVA|||||-12.2|-17.88|<0.001
92296773|NCT00739973|184499152|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-7.82|STANDARD_ERROR_OF_MEAN|1.43|<|0.001|TWO_SIDED|95.0|-10.63|-5.02|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-5.02|-10.63|<0.001
92296774|NCT00739973|184499153|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.16|STANDARD_ERROR_OF_MEAN|1.47||0.143|TWO_SIDED|95.0|-5.04|0.73|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||0.73|-5.04|0.143
92296775|NCT00739973|184499154|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-16.4|STANDARD_ERROR_OF_MEAN|1.43|<|0.001|TWO_SIDED|95.0|-19.21|-13.6|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-13.6|-19.21|<0.001
92296776|NCT02875028|184499162|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
92296777|NCT05068284|184499174|SUPERIORITY||Risk Difference (RD)|7.1|||||TWO_SIDED|95.0|-6.3|20.6|||||Risk difference = (ABBV-154 - placebo)|||20.6|-6.3|
92296778|NCT05068284|184499174|SUPERIORITY||Risk Difference (RD)|33.3|||||TWO_SIDED|95.0|6.7|60.0|||||Risk difference = (ABBV-154 - placebo)|||60.0|6.7|
92296779|NCT05068284|184499174|SUPERIORITY||Risk Difference (RD)|28.6|||||TWO_SIDED|95.0|4.9|52.2|||||Risk difference = (ABBV-154 - placebo)|||52.2|4.9|
92296780|NCT05068284|184499174|SUPERIORITY||Risk Difference (RD)|27.3|||||TWO_SIDED|95.0|1.0|53.6|||||Risk difference = (ABBV-154 - placebo)|||53.6|1.0|
92296781|NCT05068284|184499175|SUPERIORITY||Risk Difference (RD)|11.9|||||TWO_SIDED|95.0|-19.8|43.6|||||Risk difference = (ABBV-154 - placebo)|||43.6|-19.8|
92296782|NCT05068284|184499175|SUPERIORITY||Risk Difference (RD)|29.5|||||TWO_SIDED|95.0|-4.8|63.8|||||Risk difference = (ABBV-154 - placebo)|||63.8|-4.8|
92296783|NCT05068284|184499175|SUPERIORITY||Risk Difference (RD)|19.0|||||TWO_SIDED|95.0|-13.7|51.8|||||Risk difference = (ABBV-154 - placebo)|||51.8|-13.7|
92296784|NCT05068284|184499175|SUPERIORITY||Risk Difference (RD)|23.3|||||TWO_SIDED|95.0|-13.6|60.3|||||Risk difference = (ABBV-154 - placebo)|||60.3|-13.6|
92296785|NCT05068284|184499176|SUPERIORITY||Risk Difference (RD)|11.3|||||TWO_SIDED|95.0|-18.5|41.0|||||Risk difference = (ABBV-154 - placebo)|||41.0|-18.5|
92296786|NCT05068284|184499176|SUPERIORITY||Risk Difference (RD)|38.5|||||TWO_SIDED|95.0|5.0|71.9|||||Risk difference = (ABBV-154 - placebo)|||71.9|5.0|
92296787|NCT05068284|184499176|SUPERIORITY||Risk Difference (RD)|24.6|||||TWO_SIDED|95.0|-7.0|56.2|||||Risk difference = (ABBV-154 - placebo)|||56.2|-7.0|
92296788|NCT05068284|184499176|SUPERIORITY||Risk Difference (RD)|39.2|||||TWO_SIDED|95.0|3.8|74.5|||||Risk difference = (ABBV-154 - placebo)|||74.5|3.8|
92296789|NCT01844531|184499180|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|97.92|STANDARD_ERROR_OF_MEAN|8.4||0|TWO_SIDED|90.0|93.529|102.52||Model included effects:sequence;subjects within sequences;period and treatment with subjects within sequences as random effect.|ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUCinfpred \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA). The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale.||102.520|93.529|0.0000
92296790|NCT01844531|184499180|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|98.0|STANDARD_ERROR_OF_MEAN|8.3|<|0.0001|TWO_SIDED|90.0|93.57|102.65||Model included effects:sequence;subjects within sequences;period and treatment with all effects as fixed.|ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUCinfpred \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA). The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale.||102.65|93.57|<.0001
92296791|NCT01844531|184499180|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.79|STANDARD_ERROR_OF_MEAN|6.7||0|TWO_SIDED|90.0|99.077|106.633||Model included effects:sequence;subjects within sequences;period and treatment with subjects within sequences as random effect.|ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500 , PK set AUCinfpred \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA). The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale.||106.633|99.077|0.0000
92296792|NCT01844531|184499180|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.5|STANDARD_ERROR_OF_MEAN|6.7|<|0.0001|TWO_SIDED|90.0|98.78|106.36|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 (T2) : Empa5 + Met500 (R2), PK set AUCinfpred \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||106.36|98.78|<.0001
92296793|NCT01844531|184499181|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|96.25|STANDARD_ERROR_OF_MEAN|15.4||0.0006|TWO_SIDED|90.0|88.542|104.628|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUCinfpred \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||104.628|88.542|0.0006
92296794|NCT01844531|184499181|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|97.21|STANDARD_ERROR_OF_MEAN|15.1||0.0004|TWO_SIDED|90.0|89.41|105.68|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 (T1) : Empa12.5 + Met500 (R1), PK set AUCinfpred \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||105.68|89.41|0.0004
92296795|NCT01844531|184499181|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|96.79|STANDARD_ERROR_OF_MEAN|9.8||0|TWO_SIDED|90.0|91.772|102.093|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500, PK set AUCinfpred \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||102.093|91.772|0.0000
92146052|NCT00313820|184177076|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.23||0.027||95.0|-1.0|-0.1||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 1; Modelled Results||-0.1|-1.0|0.027
92185701|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-5.0|||||TWO_SIDED|95.0|-12.0|1.0|||Miettinen and Nurminen|||Immunogenicity of the routine infant vaccines, when given concomitantly with rMenB+OMV NZ at 2, 4, and 6 months of age, would be considered non-inferior to that of routine infant vaccines given alone, for diphtheria toxoids antigen, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than or equal to the cut-off level ≥1.0 IU/mL for that antigen.||1|-12|
92185702|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the routine infant vaccines, when given concomitantly with rMenB+OMV NZ at 2, 4, and 6 months of age, would be considered non-inferior to that of routine infant vaccines given alone, for Tetanus toxoids antigen, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than or equal to the cut-off level ≥0.1 IU/mL for that antigen.||2|-2|
92296796|NCT01844531|184499181|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|96.91|STANDARD_ERROR_OF_MEAN|9.8|<|0.0001|TWO_SIDED|90.0|91.79|102.32|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 : Empa5 + Met500, PK set AUCinfpred \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||102.32|91.79|<.0001
92296797|NCT01844531|184499182|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|98.0|STANDARD_ERROR_OF_MEAN|8.5||0|TWO_SIDED|90.0|93.53|102.686|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUClast \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||102.686|93.530|0.0000
92296798|NCT01844531|184499182|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|98.07|STANDARD_ERROR_OF_MEAN|8.5|<|0.0001|TWO_SIDED|90.0|93.55|102.81|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUClast \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||102.81|93.55|<.0001
92296799|NCT01844531|184499182|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.77|STANDARD_ERROR_OF_MEAN|6.5||0|TWO_SIDED|90.0|99.146|106.522|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500, PK set AUClast \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||106.522|99.146|0.0000
92296800|NCT01844531|184499182|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.49|STANDARD_ERROR_OF_MEAN|6.5|<|0.0001|TWO_SIDED|90.0|98.85|106.25|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 : Empa5 + Met500, PK set AUClast \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||106.25|98.85|<.0001
92296801|NCT01844531|184499183|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|104.61|STANDARD_ERROR_OF_MEAN|8.4||0|TWO_SIDED|90.0|99.882|109.555|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set Cmax \[nmol/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||109.555|99.882|0.0000
92296802|NCT01844531|184499183|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|104.53|STANDARD_ERROR_OF_MEAN|8.4|<|0.0001|TWO_SIDED|90.0|99.76|109.53|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 : Empa12.5 + Met500, PK set Cmax \[nmol/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||109.53|99.76|<.0001
92296803|NCT01844531|184499183|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.96|STANDARD_ERROR_OF_MEAN|9.2||0|TWO_SIDED|90.0|97.917|108.258|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500, PK set Cmax \[nmol/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||108.258|97.917|0.0000
92296804|NCT01844531|184499183|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.8|STANDARD_ERROR_OF_MEAN|9.2|<|0.0001|TWO_SIDED|90.0|97.72|108.14|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 : Empa5 + Met500, PK set Cmax \[nmol/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||108.14|97.72|<.0001
92296805|NCT01844531|184499184|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|94.76|STANDARD_ERROR_OF_MEAN|11.4||0.0001|TWO_SIDED|90.0|89.056|100.819|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set Cmax \[ng/mL\] for METFORMIN (PLASMA EDTA)||100.819|89.056|0.0001
92296806|NCT01844531|184499184|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|94.4|STANDARD_ERROR_OF_MEAN|11.4||0.0001|TWO_SIDED|90.0|88.64|100.54|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 : Empa12.5 + Met500, PK set Cmax \[ng/mL\] for METFORMIN (PLASMA EDTA)||100.54|88.64|0.0001
92146053|NCT00313820|184177076|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.038||95.0|-1.0|0.0||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 2; Modelled Results||-0.0|-1.0|0.038
92296807|NCT01844531|184499184|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|93.83|STANDARD_ERROR_OF_MEAN|11.9||0.0002|TWO_SIDED|90.0|88.006|100.034|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500, PK set Cmax \[ng/mL\] for METFORMIN (PLASMA EDTA)||100.034|88.006|0.0002
92296808|NCT01844531|184499184|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|93.98|STANDARD_ERROR_OF_MEAN|12.0||0.0003|TWO_SIDED|90.0|87.94|100.43|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 : Empa5 + Met500, PK set Cmax \[ng/mL\] for METFORMIN (PLASMA EDTA)||100.43|87.94|0.0003
92296809|NCT01844531|184499185|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|95.78|STANDARD_ERROR_OF_MEAN|15.7||0.0008|TWO_SIDED|90.0|88.0|104.256|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUClast \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||104.256|88.000|0.0008
92296810|NCT01844531|184499185|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|96.74|STANDARD_ERROR_OF_MEAN|15.5||0.0006|TWO_SIDED|90.0|88.78|105.41|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUClast \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||105.41|88.78|0.0006
92296811|NCT01844531|184499185|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|95.94|STANDARD_ERROR_OF_MEAN|9.3||0|TWO_SIDED|90.0|91.199|100.934|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500, PK set AUClast \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||100.934|91.199|0.0000
92185703|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-4.0|||||TWO_SIDED|95.0|-9.0|1.0|||Miettinen and Nurminen|||Immunogenicity of the routine infant vaccines, when given concomitantly with rMenB+OMV NZ at 2, 4, and 6 months of age, would be considered non-inferior to that of routine infant vaccines given alone, for Tetanus toxoids antigen, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than or equal to the cut-off level ≥1.0 IU/mL for that antigen.||1|-9|
92296812|NCT01844531|184499185|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|96.1|STANDARD_ERROR_OF_MEAN|9.3|<|0.0001|TWO_SIDED|90.0|91.28|101.19|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 : Empa5 + Met500, PK set AUClast \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||101.19|91.28|<.0001
92296813|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.861||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Rivermead Behavioural Memory Test (RBMT) - Immediate memory||||0.861
92296814|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.668||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||RBMT - Delayed memory||||0.668
92296815|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.713||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||RBMT-Delayed corrected for immediate memory||||0.713
92296816|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.028||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test - Short-term memory||||0.028
92296817|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.227||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test - Total immediate memory||||0.227
92296818|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.13||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test - Learning Score||||0.130
92296819|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.106||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test- Delayed memory||||0.106
92296820|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.35||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test - Delayed corrected for total memory||||0.350
92296821|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.093||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test - Recognition||||0.093
92296822|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.614||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Digit Span forward - Short-term memory||||0.614
92296823|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.111||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Rey Complex Figure - Immediate memory||||0.111
92296824|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.451||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Rey Complex Figure - Delayed memory||||0.451
92296825|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.905||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Divided attention-Reaction time auditory response||||0.905
92296826|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.502||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Divided attention-Reaction time visual response||||0.502
92296827|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.531||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Divided attention-Number of omission errors||||0.531
92296828|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.681||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Divided attention-Number of commission errors||||0.681
92296829|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.713||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Visual scanning - Reaction time for target stimuli||||0.713
92296830|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.229||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Visual scanning - Number of omission errors||||0.229
92296831|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.329||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Visual scanning - Number of commission errors||||0.329
92296832|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.192||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Alertness - Reaction time tonic alertness||||0.192
92296833|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.164||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Alertness - Reaction time phasic alertness||||0.164
92296834|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.536||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Semantic fluency||||0.536
92296835|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.572||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Phonemic fluency||||0.572
92296836|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.632||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Digit span backward - Working memory||||0.632
92296837|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.512||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Trail Making Test - Time condition A||||0.512
92296838|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.861||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Trail Making Test - Time condition B||||0.861
92296839|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.958||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Trail Making Test - Condition B/A||||0.958
92296840|NCT01546922|184499186|SUPERIORITY_OR_OTHER|||||||0.819||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Social cognition||||0.819
92296841|NCT02000531|184499205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26|||>|0.05|TWO_SIDED|95.0|0.61|2.62|||Log Rank|||||2.62|0.61|>0.05
92296842|NCT01280617|184499225|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|Continuous variables analyzed using 2-tailed t test or Mann Whitney tes.. Categorical variables analyzed using Chi-Square or Fisher's Exact test||||||<0.05
92296843|NCT01280617|184499225|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92296844|NCT01311557|184499232|NON_INFERIORITY_OR_EQUIVALENCE|"A two-sided 95% confidence interval (CI) was constructed around each of the ratios: Pertussis toxoid (PT) GMT Group 1 / GMT Group 2.~The GMT hypothesis was supported by the data if the lower bound of the calculated 95% CI was \> 0.67. This was the equivalent of testing the null hypothesis using a one-sided type I error rate of 0.025."|GMT Ratio|0.94|||||TWO_SIDED|95.0|0.843|1.05||||||||1.05|0.843|
92296845|NCT01311557|184499232|NON_INFERIORITY_OR_EQUIVALENCE|"A two-sided 95% CI was constructed around each of the ratios: anti-Filamentous hemagglutinin (FHA) GMT Group 1 / GMT Group 2.~The GMT hypothesis was supported by the data if the lower bound of the calculated 95% CI was \> 0.67. This was the equivalent of testing the null hypothesis using a one-sided type I error rate of 0.025."|GMT Ratio|1.03|||||TWO_SIDED|95.0|0.944|1.13||||||||1.13|0.944|
92146054|NCT00313820|184177076|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.004||95.0|-1.2|-0.2||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 3; Modelled Results||-0.2|-1.2|0.004
92146055|NCT00313820|184177076|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.005||95.0|-1.1|-0.2||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 6; Modelled Results||-0.2|-1.1|0.005
92146056|NCT00313820|184177076|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.078||95.0|-0.9|0.0||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 9; Modelled Results||0.0|-0.9|0.078
92296846|NCT01311557|184499232|NON_INFERIORITY_OR_EQUIVALENCE|"A two-sided 95% CI was constructed around each of the ratios: Anti-Pertactin (PRN) GMT Group 1 / GMT Group 2.~The GMT hypothesis was supported by the data if the lower bound of the calculated 95% CI was \> 0.67. This was the equivalent of testing the null hypothesis using a one-sided type I error rate of 0.025."|GMT Ratio|1.05|||||TWO_SIDED|95.0|0.928|1.18||||||||1.18|0.928|
92296847|NCT01311557|184499232|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was constructed around each of the ratios: anti-Fimbriae types 2 and 3 (FIM) GMT Group 1 / GMT Group 2. The GMT hypothesis was supported by the data if the lower bound of the calculated 95% CI was \> 0.67. This was the equivalent of testing the null hypothesis using a one-sided type I error rate of 0.025.|GMT Ratio|0.882|||||TWO_SIDED|95.0|0.731|1.06||||||||1.06|0.731|
92296848|NCT00572039|184499245|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.079||||0.47|TWO_SIDED|95.0|-0.14|0.29|||ANCOVA|||To test the efficacy of PST to improve TVF functional reserve measures at 3 months, we used an analysis of covariance in which group differences (PST vs ST) in 3-month average TVF scores were examined, adjusting for baseline TVF score and the vision severity stratification variable. To approximate an interval scale and compensate for ceiling and floor effects, we linearized TVF scores using a logit transform. 106 PST and 112 ST participants provided data at 3 months.||0.29|-0.14|.47
92296849|NCT00572039|184499246|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.4||||0.7|TWO_SIDED|95.0|-1.96|2.77|||ANCOVA|||To test the efficacy of PST to improve NE-VFQ scores at 3 months, we used an analysis of covariance in which group differences (PST vs ST) in 3-month average NEI-VFQ scores were examined, adjusting for baseline score and the vision severity stratification variable.||2.77|-1.96|.7
92296850|NCT03852524|184499249|SUPERIORITY||Median Difference (Net)|11.0||||0.81|TWO_SIDED||||||Log Rank|||The sample size (41 patients per study group; 82 patients total) for this superiority trial was calculated with a power of 90% (alpha = 0.05) and based on the assumption that 50% of subjects in the placebo group would experience a bowel movement by postoperative day 3, as compared to 85% in the treatment group. Additionally, a 10% lost-to-follow up rate was assumed.||||0.81
92296851|NCT01098110|184499259|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-11.29|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED|95.0|-15.42|-7.16||Statistical significant: p=\<0.05, two sided|ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-7.16|-15.42|<0.0001
92296852|NCT01098110|184499259|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-13.22|STANDARD_ERROR_OF_MEAN|2.09|<|0.0001|TWO_SIDED|95.0|-17.33|-9.12||Statistical significant: p=\<0.05, two sided|ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-9.12|-17.33|<0.0001
92296853|NCT01098110|184499260|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-3.47|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED|95.0|-4.8|-2.13|||ANCOVA|Change from baseline a response variable, baseline score a covariate.|Asenapine 5 mg BID minus Placebo BID|||-2.13|-4.80|<0.0001
92296854|NCT01098110|184499260|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.79|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-5.11|-2.46|||ANCOVA|Change from baseline a response variable, baseline score a covariate.|Asenapine 10 mg BID minus Placebo BID|||-2.46|-5.11|<0.0001
92296855|NCT01098110|184499261|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-2.47|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-3.53|-1.41|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-1.41|-3.53|<0.0001
92296856|NCT01098110|184499261|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.03|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-4.08|-1.97|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-1.97|-4.08|<0.0001
92296857|NCT01098110|184499262|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-5.46|STANDARD_ERROR_OF_MEAN|1.07|<|0.0001|TWO_SIDED|95.0|-7.56|-3.35|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-3.35|-7.56|<0.0001
92296858|NCT01098110|184499262|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.53|STANDARD_ERROR_OF_MEAN|1.06|<|0.0001|TWO_SIDED|95.0|-8.62|-4.44||Statistical significant: p=\<0.05, two sided|ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-4.44|-8.62|<0.0001
92296859|NCT01098110|184499263|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-3.41|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-4.72|-2.09|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-2.09|-4.72|<0.0001
92296860|NCT01098110|184499263|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.66|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-4.97|-2.35|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-2.35|-4.97|<0.0001
92296861|NCT01098110|184499264|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-2.36|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|-3.47|-1.26|||ANCOVA|Change from baseline a response variable, baseline score a covariate.|Asenapine 5 mg BID minus Placebo BID|||-1.26|-3.47|<0.0001
92146057|NCT00313820|184177076|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.663||95.0|-0.6|0.4||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 12; Modelled Results||0.4|-0.6|0.663
92146058|NCT00313820|184177076|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.627||95.0|-0.6|0.4||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Endpoint \[Week 12 or ET\]; Modelled Results||0.4|-0.6|0.627
92296862|NCT01098110|184499264|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.94|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|-4.03|-1.84|||ANCOVA|Change from baseline a response variable, baseline score a covariate.|Asenapine 10 mg BID minus Placebo BID|||-1.84|-4.03|<0.0001
92296863|NCT01098110|184499265|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-2.72|STANDARD_ERROR_OF_MEAN|0.52|<|0.0001|TWO_SIDED|95.0|-3.73|-1.7|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-1.70|-3.73|<0.0001
92296864|NCT01098110|184499265|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.08|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|95.0|-4.09|-2.08|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-2.08|-4.09|<0.0001
92296865|NCT01098110|184499266|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-1.62|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.41|-0.83|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-0.83|-2.41|<0.0001
92296866|NCT01098110|184499266|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.26|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-3.04|-1.47|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-1.47|-3.04|<0.0001
92296867|NCT01098110|184499267|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-1.41|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-2.04|-0.78|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-0.78|-2.04|<0.0001
92296868|NCT01098110|184499267|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.53|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-2.16|-0.91|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-0.91|-2.16|<0.0001
92296869|NCT01098110|184499268|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.6||||0.0001|TWO_SIDED|95.0|9.2|28.1||Adjusted for region.|Cochran-Mantel-Haenszel||Asenapine 5 mg BID minus Placebo BID|||28.1|9.2|0.0001
92296870|NCT01098110|184499268|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|23.1|||<|0.0001|TWO_SIDED|95.0|13.7|32.6||Adjusted for region.|Cochran-Mantel-Haenszel||Asenapine 10 mg BID minus Placebo BID|||32.6|13.7|<0.0001
92296871|NCT01098110|184499269|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-0.52|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.75|-0.28|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-0.28|-0.75|<0.0001
92296872|NCT01098110|184499269|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.82|-0.36|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-0.36|-0.82|<0.0001
92296873|NCT01098110|184499270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.2|||<|0.0001|TWO_SIDED|95.0|12.0|32.4||Adjusted for region.|Cochran-Mantel-Haenszel||Asenapine 5 mg BID minus Placebo BID|||32.4|12.0|<0.0001
92296874|NCT01098110|184499270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|28.8|||<|0.0001|TWO_SIDED|95.0|18.9|38.8||Adjusted for region.|Cochran-Mantel-Haenszel||Asenapine 10 mg BID minus Placebo BID|||38.8|18.9|<0.0001
92296875|NCT02147587|184499271|SUPERIORITY_OR_OTHER||Ratio of GMFR|1.213|||||TWO_SIDED|80.0|1.033|1.424|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMFRs are adjusted for baseline factors. GMFRs and 80% CIs are back-transformed from log scale.|Ratio of GMFRs (Tofacitinib/Placebo) at Week 4|Geometric Mean Fold Rise (GMFR) for Tofacitinib versus Placebo (Week 4)||1.424|1.033|
92296876|NCT02147587|184499272|SUPERIORITY_OR_OTHER||Ratio of GMFR|1.03|||||TWO_SIDED|80.0|0.877|1.209|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMFRs are adjusted for baseline factors. GMFRs and 80% CIs are back-transformed from log scale.|Ratio of GMFRs (Tofacitinib/Placebo) at Day 1|GMFR for Tofacitinib versus Placebo (Day 1)||1.209|0.877|
92296877|NCT02147587|184499272|SUPERIORITY_OR_OTHER||Ratio of GMFR|1.093|||||TWO_SIDED|80.0|0.924|1.294|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMFRs are adjusted for baseline factors. GMFRs and 80% CIs are back-transformed from log scale.|Ratio of GMFRs (Tofacitinib/Placebo) at Week 12|GMFR for Tofacitinib versus Placebo (Week 12)||1.294|0.924|
92296878|NCT02147587|184499273|SUPERIORITY_OR_OTHER||Ratio of GMT|1.063|||||TWO_SIDED|80.0|0.821|1.375|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMTs are adjusted for baseline factors. GMTs and 80% CIs are back-transformed from log scale.|Ratio of GMTs (Tofacitinib/Placebo) at Day 1|Geometric Mean Titer (GMT) for Tofacitinib versus Placebo (Day 1)||1.375|0.821|
92296879|NCT02147587|184499273|SUPERIORITY_OR_OTHER||Ratio of GMT|1.251|||||TWO_SIDED|80.0|0.967|1.618|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMTs are adjusted for baseline factors. GMTs and 80% CIs are back-transformed from log scale.|Ratio of GMTs (Tofacitinib/Placebo) at Week 4|GMT for Tofacitinib versus Placebo (Week 4)||1.618|0.967|
92296880|NCT02147587|184499273|SUPERIORITY_OR_OTHER||Ratio of GMT|1.121|||||TWO_SIDED|80.0|0.862|1.459|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMTs are adjusted for baseline factors. GMTs and 80% CIs are back-transformed from log scale.|Ratio of GMTs (Tofacitinib/Placebo) at Week 12|GMT for Tofacitinib versus Placebo (Week 12)||1.459|0.862|
92296881|NCT02147587|184499274|SUPERIORITY_OR_OTHER||Difference in percentages|8.39|||||TWO_SIDED|80.0|-4.05|20.56|||80% CI based on Chan and Zhang method|||Tofacitinib versus Placebo (Day 1)||20.56|-4.05|
92296882|NCT02147587|184499274|SUPERIORITY_OR_OTHER||Difference in percentages|14.01|||||TWO_SIDED|80.0|1.57|26.03|||80% CI based on Chan and Zhang method|||Tofacitinib versus Placebo (Week 4)||26.03|1.57|
92296883|NCT02147587|184499274|SUPERIORITY_OR_OTHER||Difference in percentages|2.65|||||TWO_SIDED|80.0|-10.66|15.83|||80% CI based on Chan and Zhang method|||Tofacitinib versus Placebo (Week 12)||15.83|-10.66|
92296884|NCT01315028|184499295|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
92296885|NCT01315028|184499296|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||ANOVA|||Parametric and non-parametric descriptive data were summarised and presented. All data analyses were based on the Intention to Treat (ITT) principle. For the main analysis, Repeated Measures Analysis of Variance was performed to identify signals suggesting treatment effects on the outcome measures. Effect sizes were also calculated in order to further examine suggestive trends in the data indicating appropriate outcomes for further research.||||0.996
92296886|NCT01315028|184499297|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92296887|NCT01315028|184499298|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
92296888|NCT03476317|184499316|EQUIVALENCE|Median difference in calprotectin for controls from day 12 to baseline||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
92296889|NCT04364763|184499380|SUPERIORITY|||||||0.0352||||||p-value is for Day 7|Mixed Models Analysis|||||||0.0352
92296890|NCT04364763|184499380|SUPERIORITY|||||||0.235||||||p-value is for Day 28|Mixed Models Analysis|||Comparison made for Day 7 and Day 28||||0.2350
92296891|NCT00436917|184499400|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0|||||Kruskal-Wallis|||A sample of 60 participants was estimated to provide percentage statistics accuracy to within 13% with 95% confidence.||||0.01
92296892|NCT02438540|184499416|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296893|NCT02438540|184499417|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296894|NCT02438540|184499418|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296895|NCT02438540|184499419|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296896|NCT02438540|184499420|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|90.0|||||ANOVA|||||||0.04
92296897|NCT02438540|184499421|NON_INFERIORITY_OR_EQUIVALENCE|multiple comparatives||||||0.082|TWO_SIDED|90.0||||CRP is known to be an independent parameter|ANOVA|||||||0.082
92296898|NCT02438540|184499421|NON_INFERIORITY_OR_EQUIVALENCE|from 0.60±0.03 mg/dl before treatment to 0.57±0.03 mg/dl after treatment, P=0.082||||||0.082|TWO_SIDED|90.0||||CRP is known to be an independent parameter|ANOVA|||||||0.082
92296899|NCT02438540|184499421|NON_INFERIORITY_OR_EQUIVALENCE|from 0.59±0.03 mg/dl before treatment to 0.57±0.03 mg/dl after treatment, P=0.082||||||0.082|TWO_SIDED|90.0||||CRP is known to be an independent parameter|ANOVA|||||||0.082
92296900|NCT02438540|184499422|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296901|NCT02438540|184499423|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296902|NCT02438540|184499424|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296903|NCT02438540|184499425|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296904|NCT02438540|184499426|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296905|NCT02438540|184499427|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296906|NCT02438540|184499428|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296907|NCT02438540|184499429|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296908|NCT02438540|184499430|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296909|NCT02438540|184499431|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296910|NCT02438540|184499432|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296911|NCT02438540|184499433|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
92296912|NCT00373425|184499446|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.3235|TWO_SIDED|95.0|0.741|1.104||If the primary analysis of DFS was not statistically significant, the hierarchical testing procedure would stop and all key secondary efficacy analyses would be nonsignificant; any further analysis of these outcomes would be considered exploratory.|Log Rank||Hazard ratio: erlotinib to placebo|The null hypothesis that DFS distributions of the 2 arms were equivalent was tested using an unstratified 2-sided log-rank test at the 0.05 level. The primary analysis of DFS was performed when at least 410 events had accrued. If the result of the primary analysis of DFS was statistically significant favoring the erlotinib treatment arm, the null hypothesis of no treatment difference of key secondary efficacy variables was tested under a hierarchical testing procedure.||1.104|0.741|0.3235
92296913|NCT00373425|184499451|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.562|TWO_SIDED|95.0|0.78|1.144|||Log Rank|||The null hypothesis that DFS distributions of the 2 arms were equivalent was tested using an unstratified 2-sided log-rank test at the 0.05 level.||1.144|0.780|0.5620
92296914|NCT00551616|184499469|OTHER||% of observed pregnancies|1.78|||<|0.001|TWO_SIDED|95.0|1.04|2.98|||Chi-squared||Expected pregnancy rate = 5.58%|Comparison of % of observed pregnancies vs % of expected pregnancies based on Trussell 1998||2.98|1.04|<0.001
92296915|NCT00551616|184499469|OTHER||% of observed pregnancies|2.59|||<|0.001|TWO_SIDED|95.0|1.68|3.94|||Chi-squared||Expected pregnancy rate = 5.43%|Comparison of % of observed pregnancies vs % of expected pregnancies based on Trussell 1998||3.94|1.68|<0.001
92296916|NCT03314662|184499524|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% confidence interval (CI) for the ratios of GMTs (aTIV/aQIV) do not exceed 1.5|GMT ratio (aTIV/aQIV)|1.16|||||TWO_SIDED|95.0|1.05|1.27|||||GMT ratios (adjusted) obtained from a GLM fitted on log-transformed (base 10) post-vaccination HI titer as outcome variable and covariate terms: treatment, pre-vaccination HI titer (log10 transformed), age, sex, vaccination history, study site|Comparison Group Selection: aTIV/aQIV - for strain A/H1N1||1.27|1.05|
92296917|NCT03314662|184499524|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% confidence interval (CI) for the ratios of GMTs (aTIV/aQIV) do not exceed 1.5|GMT ratio: (aTIV/aQIV|0.99|||||TWO_SIDED|95.0|0.9|1.09|||||GMT ratios (adjusted) obtained from a GLM fitted on log-transformed (base 10) post-vaccination HI titer as outcome variable and covariate terms: treatment, pre-vaccination HI titer (log 10 transformed), age, sex, vaccination history, study site|Comparison Group Selection: aTIV/aQIV - performed for strain A/H3N2||1.09|0.90|
92296918|NCT03314662|184499524|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% confidence interval (CI) for the ratios of GMTs (aTIV/aQIV) do not exceed 1.5.|GMT ratio: aTIV/aQIV|0.99|||||TWO_SIDED|95.0|0.9|1.08|||||GMT ratios (adjusted) obtained from a GLM fitted on log-transformed (base 10) post-vaccination HI titer as outcome variable and covariate terms: treatment, pre-vaccination HI titer (log10 transformed), age, sex, vaccination history, study site|Comparison Group Selection: aQIV/aTIV - performed for strain B/Yamagata||1.08|0.90|
92296919|NCT03314662|184499524|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% confidence interval (CI) for the ratios of GMTs (aTIV/aQIV) do not exceed 1.5.|GMT ratio: (aTIV/aQIV)]|0.98|||||TWO_SIDED|95.0|0.89|1.08|||||GMT ratios (adjusted) obtained from a GLM fitted on log-transformed (base 10) post-vaccination HI titer as outcome variable and covariate terms: treatment, pre-vaccination HI titer (log10 transformed), age, sex, vaccination history, study site|Comparison Group Selection: aQIV/aTIV - performed for strain B/Victoria||1.08|0.89|
92296920|NCT03314662|184499525|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% CI for the differences between the SCRs (aTIV - aQIV) do not exceed 10% for each of the four strains|SCR difference (aTIV minus aQIV)|3.23|||||TWO_SIDED|95.0|-1.3|7.76||||||Comparison Group Selection: aTIV minus aQIV - for strain A/H1N1||7.76|-1.30|
92296921|NCT03314662|184499525|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% CI for the differences between the SCRs (aTIV - aQIV) do not exceed 10% for each of the four strains|SCR difference (aTIV minus aQIV)|0.37|||||TWO_SIDED|95.0|-4.23|4.96||||||Comparison Group Selection: aTIV minus aQIV - for strain A/H3N2||4.96|-4.23|
92146059|NCT00313820|184177077|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|3.05||0.741||95.0|-7.0|5.0||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline value as a covariate|ANCOVA|||Modelled Results||5.0|-7.0|0.741
92296922|NCT03314662|184499525|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% CI for the differences between the SCRs (aTIV - aQIV) do not exceed 10% for each of the four strains|SCR difference (aTIV minus aQIV)]|-0.93|||||TWO_SIDED|95.0|-5.13|3.27||||||Comparison Group Selection: aTIV minus aQIV - for strain B-Yamagata||3.27|-5.13|
92296923|NCT03314662|184499525|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% CI for the differences between the SCRs (aTIV - aQIV) do not exceed 10% for each of the four strains|Other [SCR difference (aTIV minus aQIV)]|-1.26|||||TWO_SIDED|95.0|-5.07|2.55||||||Comparison Group Selection: aTIV minus aQIV - for strain B-Victoria||2.55|-5.07|
92296924|NCT03314662|184499528|SUPERIORITY|Superiority of aQIV vs. aTIV-1 for the alternate B strain was assessed using the GMT ratio (GMTaTIV/GMTaQIV); Superiority was declared if the upper limit of the two-sided 95% CI for the GMT ratio (aTIV/aQIV) was \<1. The superiority comparison was based on the Full Analysis Set (FAS) Immunogenicity comprised all subjects who were randomized, received at least 1 study vaccination, and provided immunogenicity data at Day 1 and Day 22.|GMT ratio|0.64|||||TWO_SIDED|95.0|0.58|0.7||||||B/Yamagata strain: GMT Ratio (aTIV/aQIV)||0.70|0.58|
92296925|NCT03314662|184499528|SUPERIORITY|Superiority of aQIV vs. aTIV-2 for the alternate B strain was assessed using the GMT ratio (GMTaTIV/GMTaQIV); Superiority was declared if the upper limit of the two-sided 95% CI for the GMT ratio (aTIV/aQIV) was \<1. The superiority comparison was based on the FAS Immunogenicity.|GMT ratio|0.71|||||TWO_SIDED|95.0|0.64|0.78||||||B/Victoria Strain: GMT Ratio (aTIV/aQIV)||0.78|0.64|
92296926|NCT03314662|184499531|SUPERIORITY|Superiority of aQIV vs. aTIV-1 for the alternate B strain was assessed using the difference in SCR (SCRaTIV-SCRaQIV) at Day 22. Superiority was declared if the upper limit of the two-sided 95% CI for the difference in SCRs (aTIV-aQIV) was \<0, for both B strains. The superiority comparison was based on the FAS Immunogenicity.|SCR difference|-11.96|||||TWO_SIDED|95.0|-15.12|-8.81||||||B/Yamagata Strain: SCR Difference (aTIV-1 - aQIV).||-8.81|-15.12|
92296927|NCT03314662|184499531|SUPERIORITY|Superiority of aQIV vs. aTIV-2 for the alternate B strain was assessed using the difference in SCR (SCRaTIV-SCRaQIV) at Day 22. Superiority was declared if the upper limit of the two-sided 95% CI for the difference in SCRs (aTIV-aQIV) was \<0, for both B strains. The superiority comparison was based on the FAS Immunogenicity.|SCR difference|-10.82|||||TWO_SIDED|95.0|-13.54|-8.11||||||B/Victoria Strain: SCR Difference (aTIV-2 - aQIV)||-8.11|-13.54|
92296928|NCT01117766|184499537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.537||0.7319|TWO_SIDED|95.0|-1.29|0.92|||ANCOVA|||Week 3 (Visits 3 and 6)||0.92|-1.29|0.7319
92296929|NCT01117766|184499537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.536||0.3404|TWO_SIDED|95.0|-1.61|0.57|||ANCOVA|||Week 4 (Visits 4 and 7)||0.57|-1.61|0.3404
92296930|NCT01117766|184499538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.32|STANDARD_ERROR_OF_MEAN|26.872||0.6539|TWO_SIDED|95.0|-70.2|45.56|||ANCOVA|||Week 3 (Visits 3 and 6)||45.56|-70.20|0.6539
92296931|NCT01117766|184499538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.91|STANDARD_ERROR_OF_MEAN|25.807||0.3678|TWO_SIDED|95.0|-78.54|30.72|||ANCOVA|||Week 4 (Visits 4 and 7)||30.72|-78.54|0.3678
92296932|NCT01117766|184499539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09|STANDARD_ERROR_OF_MEAN|0.342||0.0071|TWO_SIDED|95.0|-1.84|-0.35|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 3 (Visits 3 and 6)||-0.35|-1.84|0.0071
92296933|NCT01117766|184499539|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59|STANDARD_ERROR_OF_MEAN|0.37||0.1294|TWO_SIDED|95.0|-1.36|0.19|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 4 (Visits 4 and 7)||0.19|-1.36|0.1294
92296934|NCT01117766|184499540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-61.54|STANDARD_ERROR_OF_MEAN|25.298||0.03|TWO_SIDED|95.0|-116.12|-6.96|||ANCOVA|||Week 3 (Visits 3 and 6)||-6.96|-116.12|0.0300
92296935|NCT01117766|184499540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-49.06|STANDARD_ERROR_OF_MEAN|26.501||0.0844|TWO_SIDED|95.0|-105.67|7.55|||ANCOVA|||Week 4 (Visits 4 and 7)||7.55|-105.67|0.0844
92296936|NCT01117766|184499541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.478||0.7506|TWO_SIDED|95.0|-0.83|1.14|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 3 (Visits 3 and 6)||1.14|-0.83|0.7506
92296937|NCT01117766|184499541|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.299||0.9673|TWO_SIDED|95.0|-0.61|0.64|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 4 (Visits 4 and 7)||0.64|-0.61|0.9673
92296938|NCT01117766|184499542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|0.642||0.5502|TWO_SIDED|95.0|-0.99|1.78|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 3 (Visits 3 and 6)||1.78|-0.99|0.5502
92296939|NCT01117766|184499542|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.5||0.8536|TWO_SIDED|95.0|-1.15|0.96|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 4 (Visits 4 and 7)||0.96|-1.15|0.8536
92296940|NCT01117766|184499543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.54|STANDARD_ERROR_OF_MEAN|0.586||0.0132|TWO_SIDED|95.0|-2.73|-0.34|||ANCOVA||In statistical analyses, scores were further grouped to 1-3 'improved', 4 'no change' and 5-7 'worsened'.|Week 3 (Visits 3 and 6)||-0.34|-2.73|0.0132
92296941|NCT01117766|184499543|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|0.467||0.0403|TWO_SIDED|95.0|-1.95|-0.05|||ANCOVA||In statistical analyses, scores were further grouped to 1-3 'improved', 4 'no change' and 5-7 'worsened'.|Week 4 (Visits 4 and 7)||-0.05|-1.95|0.0403
92296942|NCT01117766|184499544|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.433||0.6631|TWO_SIDED|95.0|-1.12|0.74|||ANCOVA|||Week 3 (Visits 3 and 6)||0.74|-1.12|0.6631
92296943|NCT01117766|184499544|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.54|STANDARD_ERROR_OF_MEAN|0.465||0.0022|TWO_SIDED|95.0|-2.48|-0.59|||ANCOVA|||Week 4 (Visits 4 and 7)||-0.59|-2.48|0.0022
92296944|NCT01117766|184499545|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.04|STANDARD_ERROR_OF_MEAN|0.722||0.1753|TWO_SIDED|95.0|-2.6|0.53|||ANCOVA|||Week 3 (Visits 3 and 6)||0.53|-2.60|0.1753
92296945|NCT01117766|184499545|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.51|STANDARD_ERROR_OF_MEAN|0.588||0.0198|TWO_SIDED|95.0|-2.75|-0.27|||ANCOVA|||Week 4 (Visits 4 and 7)||-0.27|-2.75|0.0198
92296946|NCT01117766|184499546|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.29|STANDARD_ERROR_OF_MEAN|6.292||0.4999|TWO_SIDED|95.0|-17.13|8.54|||ANCOVA|||||8.54|-17.13|0.4999
92296947|NCT05766787|184499550|NON_INFERIORITY|Noninferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.003|||ONE_SIDED|95.0||-0.01||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, period, sequence, visit, and lens by visit interaction) and random (subject) effects. Difference = LID022821 minus AOHG. Sign is retained with the rounded value.|||-0.01||
92296948|NCT00438659|184499551|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||||||0.18
92296949|NCT01867606|184499562|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||0.29
92296950|NCT01867606|184499564|SUPERIORITY|||||||0.62|||||||Chi-squared|||||||0.62
92296951|NCT02248662|184499597|OTHER|The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|Odds Ratio (OR)|1.0|||<|0.05|TWO_SIDED|95.0||||A two-sided p value of less than 0.05 was considered to indicate statistical significance.|Regression, Logistic|Adjusted percentages for receipt of mastectomy were calculated by setting covariates to their observed mean values.|This group is the reference group.|Unadjusted associations between patient characteristics and the three-level cluster of treatment intensity for primary DCIS were evaluated using Chi-squared tests. We used multivariable modeling to adjust for potential confounders. We also conducted a sensitivity analysis using propensity score matching to balance regional treatment intensity for primary DCIS with respect to the covariates included in the multivariable models.||||<0.05
92296952|NCT02248662|184499597|OTHER|The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|Odds Ratio (OR)|1.05|||<|0.05|TWO_SIDED|95.0|0.71|1.56||A two-sided p value of less than 0.05 was considered to indicate statistical significance.|Chi-squared|||Unadjusted associations between patient characteristics and the three-level cluster of treatment intensity for primary DCIS were evaluated using Chi-squared tests. We used multivariable modeling to adjust for potential confounders. We also conducted a sensitivity analysis using propensity score matching to balance regional treatment intensity for primary DCIS with respect to the covariates included in the multivariable models.||1.56|0.71|<0.05
92296953|NCT02248662|184499597|OTHER||Odds Ratio (OR)|1.9|||<|0.05|TWO_SIDED|95.0|1.27|2.84|||Chi-squared|||||2.84|1.27|<0.05
92296954|NCT01835548|184499598|SUPERIORITY||Least Square Mean Difference|-11.04|STANDARD_ERROR_OF_MEAN|1.4239|<|0.0001|TWO_SIDED|95.0|-13.9|-8.2|||ANCOVA|||||-8.20|-13.9|<0.0001
92296955|NCT03203642|184499655|SUPERIORITY||LS mean difference|-0.0052|STANDARD_ERROR_OF_MEAN|0.0082||0.5265|TWO_SIDED|95.0|-0.0217|||Threshold for significance at 0.05 level.|ANCOVA|||An ANCOVA model included treatment group as a factor and the Baseline htTKV (log10 transformed) as a covariate for the analysis. The outcome measure was tested at 2-sided 0.05 level to control Type I error rate.||- 0.0112|-0.0217|0.5265
92296956|NCT03203642|184499656|SUPERIORITY||LS mean difference|-0.0042|STANDARD_ERROR_OF_MEAN|0.0111||0.7076|TWO_SIDED|95.0|-0.0264|||Threshold for significance at 0.05 level.|ANCOVA|||An ANCOVA model included treatment group as a factor and the Baseline htTKV (log10 transformed) as a covariate for the analysis. The outcome measure was tested at 2-sided 0.05 level to control Type I error rate.||- 0.0180|-0.0264|0.7076
92296957|NCT03203642|184499657|SUPERIORITY||LS mean difference|-0.0122|STANDARD_ERROR_OF_MEAN|0.014||0.3895|TWO_SIDED|95.0|-0.0404|||Threshold for significance at 0.05 level.|ANCOVA|||An ANCOVA model included treatment group as a factor and the Baseline htTKV (log10 transformed) as a covariate for the analysis. The outcome measure was tested at 2-sided 0.05 level to control Type I error rate.||- 0.0160|-0.0404|0.3895
92296958|NCT03203642|184499658|SUPERIORITY||LS mean difference|0.0015|STANDARD_ERROR_OF_MEAN|0.0131||0.9093|TWO_SIDED|95.0|-0.0248|||Threshold for significance at 0.05 level.|ANCOVA|||An ANCOVA model included treatment group as a factor and the Baseline htTKV (log10 transformed) as a covariate for the analysis. The outcome measure was tested at 2-sided 0.05 level to control Type I error rate.||- 0.0278|-0.0248|0.9093
92296959|NCT02760264|184499674|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
92296960|NCT02760264|184499676|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
92296961|NCT02760264|184499678|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
92296962|NCT02760264|184499679|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
92296963|NCT02760264|184499681|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
92296964|NCT02760264|184499683|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
92296965|NCT05918822|184499691|OTHER|A mixed-effects model was applied to log (ln)-transformed plasma maribavir Cmax with treatment, period, and sequence as fixed effects, and participant within sequence as random effect. Point estimates and their associated 90% confidence intervals (CIs) were constructed for differences between Treatment B (test) versus Treatment A (reference). Point estimate and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (GMR) (%)|82.19|||||TWO_SIDED|90.0|74.31|90.91|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of Cmax of Maribavir: Part 1: Treatment B (Test) versus Treatment A (Reference)||90.91|74.31|
92296966|NCT05918822|184499691|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir Cmax with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90 percent (%) CIs were constructed for differences between Treatment C (test) versus Treatment B (reference). Point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment B.|Geometric Mean Ratio (GMR) (%)|57.72|||||TWO_SIDED|90.0|52.18|63.84|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of Cmax of Maribavir: Part 1: Treatment C (Test) versus Treatment B (Reference)||63.84|52.18|
92146060|NCT00313820|184177078|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.31||0.216||95.0|-1.0|0.2||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Burning Pain Week 12 \[LOCF\]; Modelled Results||0.2|-1.0|0.216
92296967|NCT05918822|184499691|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir Cmax with treatment as a fixed effect, and participant as a random effect. Point estimates and their associated 90% CIs were constructed for the differences between Treatment E (test) versus Treatment D (reference). The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for the ratios of Treatment E versus Treatment D.|Geometric Mean Ratio (GMR) (%)|49.03|||||TWO_SIDED|90.0|40.07|60.0|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of Cmax of Maribavir: Part 2: Treatment E (Test) versus Treatment D (Reference)||60.00|40.07|
92296968|NCT05918822|184499692|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUClast with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs were constructed for differences between Treatment B (test) versus Treatment A (reference). Point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (GMR) (%)|97.59|||||TWO_SIDED|90.0|91.39|104.2|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of AUClast of Maribavir: Part 1: Treatment B (Test) versus Treatment A (Reference)||104.20|91.39|
92296969|NCT05918822|184499692|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUClast with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs were constructed for differences between Treatment C (test) versus Treatment B (reference). Point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment B.|Geometric Mean Ratio (GMR) (%)|82.05|||||TWO_SIDED|90.0|76.84|87.61|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of AUClast of Maribavir: Part 1: Treatment C (Test) versus Treatment B (Reference)||87.61|76.84|
92296970|NCT05918822|184499692|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUClast with treatment as a fixed effect, and participant as a random effect. Point estimates and their associated 90% CIs were constructed for the differences between Treatment E (test) versus Treatment D (reference). The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for the ratios of Treatment E versus Treatment D.|Geometric Mean Ratio (GMR) (%)|70.0|||||TWO_SIDED|90.0|60.11|81.51|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of AUClast of Maribavir: Part 2: Treatment E (Test) versus Treatment D (Reference)||81.51|60.11|
92296971|NCT05918822|184499693|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUC0-infinity with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs were constructed for differences between Treatment B (test) versus Treatment A (reference). Point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (GMR) (%)|99.94|||||TWO_SIDED|90.0|94.12|106.11|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of AUC0-infinity of Maribavir: Part 1: Treatment B (Test) versus Treatment A (Reference)||106.11|94.12|
92296972|NCT05918822|184499693|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUC0-infinity with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs were constructed for differences between Treatment C (test) versus Treatment B (reference). Point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment B.|Geometric Mean Ratio (GMR) (%)|81.68|||||TWO_SIDED|90.0|76.93|86.73||||||Comparison of AUC0-infinity of Maribavir: Part 1: Treatment C (Test) versus Treatment B (Reference)||86.73|76.93|
92296973|NCT05918822|184499693|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUC0-infinity with treatment as a fixed effect, and participant as a random effect. Point estimates and their associated 90% CIs were constructed for the differences between Treatment E (test) versus Treatment D (reference). The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for the ratios of Treatment E versus Treatment D.|Geometric Mean Ratio (GMR) (%)|88.92|||||TWO_SIDED|90.0|76.94|102.78|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of AUC0-infinity of Maribavir: Part 2: Treatment E (Test) versus Treatment D (Reference)||102.78|76.94|
92296974|NCT01546142|184499746|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.983|||<|0.001|TWO_SIDED|95.0|2.311|3.849|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) method stratified by pooled study center.|A risk ratio greater than 1 favors deoxycholic acid injection treatment, and between 0 and 1 favors placebo.|The primary analysis was satisfied if both null hypotheses (that there is no treatment difference in 1-grade or 2-grade response rate) were rejected in favor of the two-tailed alternative at the 0.05 level of significance for both primary efficacy endpoints, and the response rates were higher for the deoxycholic acid injection treatment group than the placebo group. Because both hypotheses must be rejected, the type I error was preserved when testing the primary endpoints.||3.849|2.311|<0.001
92296975|NCT01546142|184499747|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|6.271|||<|0.001|TWO_SIDED|95.0|2.908|13.52|||Cochran-Mantel-Haenszel|CMH method stratified by pooled study center.|A risk ratio greater than 1 favors deoxycholic acid injection treatment, and between 0 and 1 favors placebo.|The primary analysis was satisfied if both null hypotheses (that there is no treatment difference in 1-grade or 2-grade response rate) were rejected in favor of the two-tailed alternative at the 0.05 level of significance for both primary efficacy endpoints, and the response rates were higher for the deoxycholic acid injection treatment group than the placebo group. Because both hypotheses must be rejected, the type I error was preserved when testing the primary endpoints.||13.520|2.908|<0.001
92185704|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-5.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the polio type 1 of Diphtheria-Tetanus-Acellular Pertussis, Hepatitis B, Inactivated Poliovirus and Haemophilus influenzae type b (DTPa-HBV-IPV) when given concomitantly with rMenB and Pneumococcal 7-valent conjugate vaccine (PCV7) at 2, 4, and 6 months of age would be considered non-inferior to that of the confidence interval for the difference in the percentage of subjects with NT titers ≥1:8 was greater than -10%.||2|-5|
92296976|NCT01546142|184499748|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|7.838|||<|0.001|TWO_SIDED|95.0|3.299|18.622|||Cochran-Mantel-Haenszel|CMH method stratified by pooled study center|A risk ratio greater than 1 favors deoxycholic acid injection treatment, and between 0 and 1 favors placebo.|If both primary endpoints were statistically significant, testing continued to the 2 secondary endpoints using the Bonferroni-Holm method. The smaller of the 2 p-values for the treatment difference was tested at the 0.025 level. If significant, testing proceeded for the remaining secondary endpoint at the 0.05 level. If the smaller p-value was \> 0.025, the null hypothesis for the associated variable would not be rejected, and testing of the second endpoint would not proceed.||18.622|3.299|<0.001
92296977|NCT01546142|184499749|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|Analysis of covariance (ANCOVA) model included treatment and Baseline PR-SMFIS total scale score.||If both primary endpoints were statistically significant, testing continued to the 2 secondary endpoints using the Bonferroni-Holm method. The smaller of the 2 p-values for the treatment difference was tested at the 0.025 level. If significant, testing proceeded for the remaining secondary endpoint at the 0.05 level. If the smaller p-value was \> 0.025, the null hypothesis for the associated variable would not be rejected, and testing of the second endpoint would not proceed.||||<0.001
92296978|NCT00255151|184499766|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
92296979|NCT00255151|184499766|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
92296980|NCT00255151|184499766|SUPERIORITY_OR_OTHER|||||||0.80473||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.80473
92296981|NCT00255151|184499767|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92296982|NCT00255151|184499767|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92296983|NCT00255151|184499767|SUPERIORITY_OR_OTHER|||||||0.76046||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.76046
92296984|NCT00255151|184499769|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
92296985|NCT00255151|184499769|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
92296986|NCT00255151|184499769|SUPERIORITY_OR_OTHER|||||||0.37161||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Log Rank|||||||0.37161
92296987|NCT00255151|184499770|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92146061|NCT00313820|184177078|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.25||0.76||95.0|-0.4|0.6||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Pressing Pain Week 12 \[LOCF\]; Modelled Results||0.6|-0.4|0.760
92146062|NCT00313820|184177078|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.36||95.0|-0.7|0.3||Estimated from ANCOVA (general linear model) general linear model with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Paroxysmal Pain Week 12 \[LOCF\]; Modelled Results||0.3|-0.7|0.360
92146063|NCT00313820|184177078|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.239||95.0|-0.8|0.2||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Evoked Pain Week 12 \[LOCF\]; Modelled Results||0.2|-0.8|0.239
92146064|NCT00313820|184177078|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.118||95.0|-1.0|0.1||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||P/D Week 12 \[LOCF\]; Modelled Results||0.1|-1.0|0.118
92296988|NCT00255151|184499770|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92146065|NCT00313820|184177078|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8|STANDARD_ERROR_OF_MEAN|1.87||0.138||95.0|-6.5|0.9||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Total Score Week 12 \[LOCF\]; Modelled Results||0.9|-6.5|0.138
92296989|NCT00255151|184499770|SUPERIORITY_OR_OTHER|||||||0.597||95.0||||Statistical significance was determined at the 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.59700
92296990|NCT00934596|184499774|SUPERIORITY_OR_OTHER||Median Difference (Net)|57.0|||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
92296991|NCT00934596|184499777|SUPERIORITY_OR_OTHER||Median Difference (Net)|72.0|||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92296992|NCT00934596|184499782|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.0|||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||As data for these small groups were non-parametric the median and quartiles were used for comparison of groups by the Wilcoxon Rank Sum test.||||<0.001
92296993|NCT02973321|184499832|OTHER|The overall Type 1 error for multiple comparisons of the HbA1c and body weight was controlled by a Hierarchical testing procedure. Testing was performed in following sequence: 1. 1st trend test for HbA1c, 2. 1st trend test for body weight, 3. 2nd trend test for HbA1c, 4. 2nd trend test for body weight, 5. 3rd trend test for HbA1c, 6. 3rd trend test for body weight.|||||<|0.0001||||||Hierarchical testing procedure continued only, if the previous comparison was statistically significant. Threshold for significance at 0.05 level.|ANCOVA|1st trend test||Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Visit 4 (Day 1) BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline HbA1c as a covariate. Overall 1st trend test based on a contrast with coefficients of +3, +1, -1, -3 and 0 for SAR425899 0.20 mg, 0.16 mg, 0.12 mg, placebo and liraglutide. Here it is test 1 of testing order.||||< 0.0001
92296994|NCT02973321|184499832|OTHER|Hierarchical testing procedure continued only, if the previous comparison was statistically significant.|LS Mean difference|-0.956|STANDARD_ERROR_OF_MEAN|0.206|<|0.0001|TWO_SIDED|95.0|-1.359|-0.552||Threshold for significance at 0.05 level.|ANCOVA|2nd Trend test||Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Visit 4 (Day 1) BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline HbA1c as a covariate. Second Trend test based on a contrast with coefficients of 0, +1, 0, -1 and 0 for SAR425899 0.20 mg, 0.16 mg, 0.12 mg, placebo and liraglutide, respectively. Here, it is test no. 3 of hierarchical testing sequence.||-0.552|-1.359|< 0.0001
92296995|NCT02973321|184499832|OTHER|Hierarchical testing procedure continued only, if the previous comparison was statistically significant.|LS Mean difference|-0.854|STANDARD_ERROR_OF_MEAN|0.209|<|0.0001|TWO_SIDED|95.0|-1.264|-0.444||Threshold for significance at 0.05 level.|ANCOVA|3rd Trend test||Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Visit 4 (Day 1) BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline HbA1c as a covariate. Third Trend test based on a contrast with coefficients of 0, 0, +1, -1 and 0 for SAR425899 0.20 mg, 0.16 mg, 0.12 mg, placebo and liraglutide, respectively. Here, it is test no. 5 of hierarchical testing sequence.||-0.444|-1.264|< 0.0001
92296996|NCT02973321|184499833|OTHER|Hierarchical testing procedure continued only, if the previous comparison was statistically significant.||||||0.0012||||||Threshold for significance at 0.05 level.|ANCOVA|1st Trend test||Placebo, SAR425899 0.12,0.16,0.20 mg: Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Day 1 BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline body weight as a covariate. Here, it is test no. 2 of hierarchical testing sequence.||||0.0012
92296997|NCT02973321|184499833|OTHER|Hierarchical testing procedure continued only, if the previous comparison was statistically significant|LS Mean difference|-3.57|STANDARD_ERROR_OF_MEAN|0.887|<|0.0001|TWO_SIDED|95.0|-5.309|-1.832||Threshold for significance at 0.05 level.|ANCOVA|2nd Trend test||SAR425899 0.16 mg vs Placebo: Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Day 1 BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline body weight as a covariate. Here, it is test no. 4 of hierarchical testing sequence.||-1.832|-5.309|< 0.0001
92296998|NCT02973321|184499833|OTHER|Hierarchical testing procedure continued only, if the previous comparison was statistically significant.|LS Mean difference|-2.517|STANDARD_ERROR_OF_MEAN|0.891||0.0047|TWO_SIDED|95.0|-4.264|-0.77||Threshold for significance at 0.05 level.|ANCOVA|3rd Trend test||3rd Trend Test: SAR425899 0.12 mg vs Placebo: Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Day 1 BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline body weight as a covariate. Here, it is test no. 6 of hierarchical testing sequence.||-0.77|-4.264|0.0047
92296999|NCT00263887|184499842|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||ANCOVA|||The main effect ANCOVA model includes the change from baseline to endpoint as the dependent variable, treatment and center as fixed factors, change in logarithm of total lung volume and baseline measurement as covariates.||||0.049
92297000|NCT01028911|184499879|SUPERIORITY_OR_OTHER||Adjusted Geometric Means Ratio|128.4|||||TWO_SIDED|90.0|75.9|217.21||||||Day 30: Natural log transformed AUCtau of donepezil was analyzed using a mixed effect model with sequence, day and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% confidence intervals for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% confidence intervals for the ratios. Values were back-transformed from the log scale.||217.21|75.90|
92297001|NCT01028911|184499880|SUPERIORITY_OR_OTHER||Adjusted Geometric Means Ratio|119.82|||||TWO_SIDED|90.0|75.9|189.16||||||Day 30: Natural log transformed AUCtau of donepezil was analyzed using a mixed effect model with sequence, day and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% confidence intervals for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% confidence intervals for the ratios. Values were back-transformed from the log scale.||189.16|75.90|
92297002|NCT05212883|184499888|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.8|1.3||||||Comparison of the likelihood to test before gathering for age \< 18 vs. age \>= 18.||1.3|0.8|
92297003|NCT02502734|184499900|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be demonstrated if the lower limit of the confidence interval (0.025, 1-sided significance test level) for the mean difference in lower-leg growth rate of FF 50 mcg OD versus Placebo was greater than -0.20mm/week.|Mean Difference (Final Values)|-0.052|||||TWO_SIDED|95.0|-0.1217|0.0176||Non-inferiority would be demonstrated if the lower limit of the confidence interval (0.025,1-sided significance test level) for the mean difference in lower-leg growth rate of FF 50 mcg OD versus Placebo was greater than -0.20mm/week.|ANCOVA|Analysis performed using ANCOVA with covariates period-level baseline and subject-level baseline lower-leg length, age, gender, treatment and period.||||0.0176|-0.1217|
92297004|NCT03095118|184499910|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Proteinuria baseline values compared to 6 month follow up values||||0.001
92297005|NCT03095118|184499911|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||Proteinuria baseline values compared to 12 month follow up values||||0.004
92297006|NCT03095118|184499913|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||Serum creatinine baseline values compared to 6 month follow up values||||0.15
92297007|NCT03095118|184499914|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Serum creatinine baseline values comparted to 12 month follow up values||||0.16
92297008|NCT00530348|184499915|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.2173|TWO_SIDED|95.0|0.4|1.23||Hochberg method was used to adjust for the two co-primary outcomes.|Cox Proportional Hazards Regression|||Cox proportional hazards (PH) regression model with robust variance estimation using treatment group and geographic region as covariates was used.||1.23|0.40|0.2173
92297009|NCT00530348|184499916|SUPERIORITY_OR_OTHER||Rate ratio|0.45|||<|0.0001|TWO_SIDED|95.0|0.32|0.63||Hochberg method was used to adjust for the two co-primary outcomes.|Proportional means regression|||Proportional means regression model with robust variance estimation and covariate adjustment for geographic region was used.||0.63|0.32|<0.0001
92297010|NCT00530348|184499917|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.33|0.61|||Cox Proportional Hazards Regression|||Cox PH regression model with robust variance estimation, covariate adjustment for geographic region, was used. Secondary endpoints were analyzed sequentially as: Proportion of participants relapse free at Year 2, Change from baseline in EDSS, Percent change from Baseline in magnetic resonance imaging-T2 hyperintense lesion volume at Year 2, Acquisition of disability measured by multiple sclerosis functional composite. Each endpoint could only be formally tested if prior endpoint was significant.||0.61|0.33|<0.0001
92297011|NCT00530348|184499918|SUPERIORITY_OR_OTHER|||||||0.4188|||||||Wei-Lachin|||The analysis was performed using Wei-Lachin method for non-parametric analysis of repeated measures. Secondary endpoints were analyzed sequentially as: Proportion of participants relapse free at Year 2, Change from baseline in EDSS, Percent change from Baseline in magnetic resonance imaging-T2 hyperintense lesion volume at Year 2, Acquisition of disability measured by multiple sclerosis functional composite. Each endpoint could only be formally tested if prior endpoint was significant.||||0.4188
92297012|NCT00530348|184499919|SUPERIORITY_OR_OTHER|||||||0.0115|||||||Wei-Lachin|||Change at Year 2: analysis was performed using Wei-Lachin method for non-parametric analysis of repeated measures. Secondary endpoints were analyzed sequentially as: Proportion of participants relapse free at Year 2, Change from baseline in EDSS, Percent change from Baseline in magnetic resonance imaging-T2 hyperintense lesion volume at Year 2, Acquisition of disability measured by MSFC. Each endpoint could only be formally tested if prior endpoint was significant.||||0.0115
92297013|NCT00530348|184499920|SUPERIORITY_OR_OTHER|||||||0.308|TWO_SIDED||||||Ranked ANCOVA|||Ranked ANCOVA models with covariate adjustment for geographic region and baseline T2 lesion volume was used. Secondary endpoints were analyzed sequentially as: Proportion of participants relapse free at Year 2, Change from baseline in EDSS, Percent change from Baseline in magnetic resonance imaging-T2 hyperintense lesion volume at Year 2, Acquisition of disability measured by multiple sclerosis functional composite. Each endpoint could only be formally tested if prior endpoint was significant.||||0.3080
92297014|NCT05070390|184500020|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|Geometric Mean Ratio (GMR)|1.23|||||TWO_SIDED|90.0|0.62|2.44|||||GMR and 90% confidence interval (CI) were estimated using a linear mixed effects model and referencing a t-distribution.|||2.44|0.62|
92297015|NCT05070390|184500021|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|1.63|||||TWO_SIDED|90.0|0.55|4.83|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||4.83|0.55|
92297016|NCT05070390|184500022|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|1.45|||||TWO_SIDED|90.0|0.7|2.99|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||2.99|0.70|
92297017|NCT05070390|184500025|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|0.82|||||TWO_SIDED|90.0|0.41|1.62|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||1.62|0.41|
92297018|NCT05070390|184500026|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|0.92|||||TWO_SIDED|90.0|0.6|1.42|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||1.42|0.60|
92185705|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|vaccine group difference|-5.0|||||TWO_SIDED|95.0|-11.0|-1.0|||Miettinen and Nurminen|||Immunogenicity of the polio type 2 of Diphtheria-Tetanus-Acellular Pertussis, Hepatitis B, Inactivated Poliovirus and Haemophilus influenzae type b (DTPa-HBVIPV) when given concomitantly with rMenB and Pneumococcal 7-valent conjugate vaccine (PCV7) at 2, 4, and 6 months of age would be considered non-inferior to that of the confidence interval for the difference in the percentage of subjects with NT titers ≥1:8 was greater than -10%.||-1|-11|
92297019|NCT05070390|184500029|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|0.82|||||TWO_SIDED|90.0|0.22|3.1|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||3.10|0.22|
92297020|NCT05070390|184500030|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|0.82|||||TWO_SIDED|90.0|0.22|3.1|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||3.10|0.22|
92297021|NCT05070390|184500031|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|0.38|||||TWO_SIDED|90.0|0.13|1.13|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||1.13|0.13|
92297022|NCT00346164|184500038|OTHER||||||<|0.0001|||||||Regression, Cox|||The Cox proportional hazards model was used to evaluate prognostic impact of disease extent (non-metastatic; metastatic) after accounting for the effects of site of the primary tumor (body wall; extremity; head/neck; visceral), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), extent of resection of the primary tumor (less than total resection; margin -; margin +), and histologic (POG) grade.||||<0.0001
92297023|NCT00346164|184500039|OTHER|||||||0.0049|||||||Regression, Cox|||The Cox proportional hazards model was used to evaluate prognostic impact of histologic (POG) grade after accounting for the effects of disease extent (non-metastatic; metastatic), site of the primary tumor (body wall; extremity; head/neck; visceral), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), and extent of resection of the primary tumor (less than total resection; margin -; margin +) .||||0.0049
92297024|NCT00346164|184500040|OTHER||||||<|0.0001|||||||Regression, Cox|||The Cox proportional hazards model was used to evaluate prognostic impact of disease extent (non-metastatic; metastatic) after accounting for the effects of site of the primary tumor (body wall; extremity; head/neck; visceral), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), extent of resection of the primary tumor (less than total resection; margin -; margin +), and histologic (POG) grade.||||<0.0001
92146066|NCT00313820|184177079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|2.79||0.086||95.0|-10.3|0.7||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Sleep disturbance; Modelled Results||0.7|-10.3|0.086
92146067|NCT00313820|184177079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.7|STANDARD_ERROR_OF_MEAN|3.72||0.039||95.0|0.4|15.1||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Snoring score; Modelled Results||15.1|0.4|0.039
92146068|NCT00313820|184177079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|2.71||0.169||95.0|-9.1|1.6||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Awaken SOB or headache; Modelled Results||1.6|-9.1|0.169
92146069|NCT00313820|184177079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.17||0.03||95.0|0.0|0.7||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Sleep quantity; Modelled Results||0.7|0.0|0.030
92146070|NCT00313820|184177079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|3.44||0.013||95.0|1.8|15.4||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Sleep adequacy; Modelled Results||15.4|1.8|0.013
92146071|NCT00313820|184177079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|2.51||0.399||95.0|-2.8|7.1||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Somnolence; Modelled Results||7.1|-2.8|0.399
92146072|NCT00313820|184177079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|2.13||0.049||95.0|-8.4|0.0||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Overall sleep problems index; Modelled Results||-0.0|-8.4|0.049
92297025|NCT00346164|184500041|OTHER|||||||0.0096|||||||Regression, Cox|||The Cox proportional hazards model was used to evaluate prognostic impact of the resection extent of the primary tumor (less than total resection; margin -; margin +) after accounting for the effects of site of the primary tumor (body wall; extremity; head/neck; visceral), disease extent (non-metastatic; metastatic), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), and histologic (POG) grade.||||0.0096
92297026|NCT00346164|184500042|OTHER||||||<|0.0001|||||||Regression, Logistic|Firth logistic regression is used to overcome the issue of quasi-complete separation of data points.||The logistic regression model was used to evaluate prognostic impact of disease extent (non-metastatic; metastatic) after accounting for the effects of site of the primary tumor (body wall; extremity; head/neck; visceral), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), extent of resection of the primary tumor (less than total resection; margin -; margin +), and histologic (POG) grade.||||<0.0001
92297027|NCT00346164|184500043|OTHER|||||||0.0228|||||||Regression, Logistic|Firth logistic regression is used to overcome the issue of quasi-complete separation of data points.||The logistic regression model was used to evaluate prognostic impact of histologic (POG) grade after accounting for the effects of disease extent (non-metastatic; metastatic), site of the primary tumor (body wall; extremity; head/neck; visceral), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), and extent of resection of the primary tumor (less than total resection; margin -; margin +) .||||0.0228
92297028|NCT00346164|184500045|OTHER||Kappa statistic|0.82|||||TWO_SIDED|95.0|0.76|0.88||||||Kappa statistic and its 95% confidence interval are used to assess agreement beyond random.||0.88|0.76|
92146073|NCT00313820|184177080|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.5|STANDARD_ERROR_OF_MEAN|0.5||0.201||95.0|0.8|2.9||Estimated from a logistic regression model with treatment and the baseline assessment as factors.|Regression, Logistic||Standard error of the mean = standard error of the odds ratio.|Modelled Results||2.9|0.8|0.201
92297029|NCT00346164|184500046|OTHER||Kappa statistic|0.42|||||TWO_SIDED|95.0|0.36|0.48||||||Kappa statistic and its 95% confidence interval are used to assess agreement beyond random.||0.48|0.36|
92297030|NCT00127166|184500057|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-3.25||||0.009||95.0|-5.66|-0.84|||ANOVA|Model terms: participant, treatment and period. The treatment test is adjusted for period||||-0.84|-5.66|0.009
92297031|NCT00127166|184500058|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-52.71||||0.006||95.0|-89.76|-15.66|||ANOVA|Model terms: participant, treatment and period. The treatment test is adjusted for period.||||-15.66|-89.76|0.006
92146074|NCT00313820|184177081|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.015||95.0|-1.8|-0.2||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Week 12 \[LOCF\] Anxiety score; Modelled Results||-0.2|-1.8|0.015
92297032|NCT00127166|184500059|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.11|||<|0.001||95.0|2.58|5.64|||ANCOVA|Participant, treatment, period \& covariate for FEV1 %-predicted Treatment test is adjusted for period \& FEV1 %-predicted at pre-exercise baseline||||5.64|2.58|<0.001
92297033|NCT00127166|184500060|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.26||||0.035||95.0|1.02|1.55|||Cox Proportional Hazards Model|Model terms: treatment and period|Dispersion not applicable to time to event data|||1.55|1.02|0.035
92146075|NCT00313820|184177081|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.41||0.6||95.0|-0.6|1.0||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Week 12 \[LOCF\] Depression score; Modelled Results||1.0|-0.6|0.600
92146076|NCT00313820|184177082|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.04||0.566||95.0|-0.1|0.1||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Modelled Results||0.1|-0.1|0.566
92146077|NCT00313820|184177083|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|2.47||0.22||95.0|-1.8|7.9||Estimated from ANCOVA (general linear model) with treatment and coutntry as factors and baseline score as a covariate.|ANCOVA|||Modelled Results||7.9|-1.8|0.220
92146078|NCT00313820|184177084|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.144||95.0|-0.5|0.1||Estimated from ANCOVA (general linear model) with treament and country as factors.|ANCOVA|||Modelled Results||0.1|-0.5|0.144
92146079|NCT00313820|184177085|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.049||95.0|-0.6|0.0||Estimated from ANCOVA (general linear model) with treatment and country as factors.|ANCOVA|||Modelled Results||-0.0|-0.6|0.049
92146080|NCT00416182|184177093|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED|95.0||||P-value of \< 0.05 is considered significant|t-test, 2 sided|||||||0.2
92146081|NCT00416182|184177094|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|95.0||||P-value of \< 0.05 is considered significant.|t-test, 2 sided|||||||0.048
92297034|NCT00127166|184500061|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|3.8|||<|0.001||95.0|2.28|5.32|||ANOVA|Model terms: participant, treatment and period. The treatment test is adjusted for period.||||5.32|2.28|<0.001
92297035|NCT01396421|184500062|SUPERIORITY_OR_OTHER||Treatment difference|-8.18|||<|0.0001|TWO_SIDED|95.0|-12.0|-4.4||Primary analysis was performed by fitting a Mixed Model Repeated Measures (MMRM) which included fixed class effect terms for treatment, trial site, visit week, and an interaction term of treatment by visit week.|Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||Difference between average effect of brexpiprazole 2 and 4 mg/day and placebo was tested first at alpha level of 0.05. If statistically significant, then comparisons for each group (brexpiprazole 2 and 4 mg/day) versus placebo were performed.||-4.40|-12.0|<0.0001
92297036|NCT01396421|184500062|SUPERIORITY_OR_OTHER||Treatment difference|-7.64||||0.0006|TWO_SIDED|95.0|-12.0|-3.3|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||Sample size was determined to achieve 90% power at alpha level of 0.025 (two-sided) to a detect treatment difference of -7.5 points in change from baseline in PANSS Total Score at Week 6 (last observation carried forward) between a brexpiprazole treatment of 4 mg/day (or 2 mg/day) and placebo using a two-sided z-test||-3.30|-12.0|0.0006
92297037|NCT01396421|184500062|SUPERIORITY_OR_OTHER||Traetment difference|-8.72|||<|0.0001|TWO_SIDED|95.0|-13.1|-4.37|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||Sample size was determined to achieve 90% power at alpha level of 0.025 (two-sided) to a detect treatment difference of -7.5 points in change from baseline in PANSS Total Score at Week 6 (last observation carried forward) between a brexpiprazole treatment of 4 mg/day (or 2 mg/day) and placebo using a two-sided z-test||-4.37|-13.1|<0.0001
92297038|NCT01396421|184500062|SUPERIORITY_OR_OTHER||Treatment difference|-2.89||||0.291|TWO_SIDED|95.0|-8.27|2.49|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||Sample size was determined to achieve 90% power at alpha level of 0.025 (two-sided) to a detect treatment difference of -7.5 points in change from baseline in PANSS Total Score at Week 6 (last observation carried forward) between a brexpiprazole treatment of 4 mg/day (or 2 mg/day) and placebo using a two-sided z-test||2.49|-8.27|0.2910
92297039|NCT01396421|184500063|SUPERIORITY_OR_OTHER||Treatment difference|-0.36||||0.0006|TWO_SIDED|95.0|-0.56|-0.15|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||Difference between the average effect of brexpiprazole 2 and 4 mg/day and placebo was tested first at alpha level of 0.05. If statistically significant, then comparisons for each group (brexpiprazole 2 and 4 mg/day) versus placebo were performed at a significance level of 0.05.||-0.15|-0.56|0.0006
92297040|NCT01396421|184500063|SUPERIORITY_OR_OTHER||Treatment difference|-0.38||||0.0012|TWO_SIDED|95.0|-0.61|-0.15|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||||-0.15|-0.61|0.0012
92297041|NCT01396421|184500063|SUPERIORITY_OR_OTHER||Treatment difference|-0.33||||0.0056|TWO_SIDED|95.0|-0.56|-0.1|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||||-0.10|-0.56|0.0056
92297042|NCT01396421|184500063|SUPERIORITY_OR_OTHER||Treatment difference|-0.03||||0.8491|TWO_SIDED|95.0|-0.31|0.26|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||||0.26|-0.31|0.8491
92297043|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-1.5||||0.0644|TWO_SIDED|95.0|-3.09|0.09||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, and baseline visit interaction as covariates.|Mixed Models Analysis|Week 1||||0.09|-3.09|0.0644
92146082|NCT00416182|184177095|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|95.0||||P-value \< 0.05 is considered significant|t-test, 2 sided|||||||0.003
92146083|NCT00416182|184177096|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED|||||P \<0.05 is considered significant|t-test, 2 sided|||||||0.4
92146084|NCT04102579|184177115|OTHER||Least Squares (LS) Means Difference|-3.16|STANDARD_ERROR_OF_MEAN|0.61|<|0.0001|TWO_SIDED|95.0|-4.37|-1.95||Statistical significance achieved if p-value \<0.05.|MMRM||LS Means Difference = Valbenazine - Placebo|Results were analyzed using a mixed-effect model repeated measures (MMRM) analysis. The model included the screening period baseline TMC as a covariate, and treatment group, visit, treatment group-by-visit interaction, and baseline-by-visit interaction as fixed effects. Participant was included as a random effect.||-1.95|-4.37|<0.0001
92146085|NCT04102579|184177116|OTHER||Percent Difference in Responders|29.65||||0.0007|TWO_SIDED|95.0|10.77|45.37||Statistical significance achieved if p-value \<0.05.|Fisher Exact||Percent Difference in Responders (%) = Valbenazine - Placebo|||45.37|10.77|0.0007
92146086|NCT04102579|184177117|OTHER||Percent Difference in Responders|26.31||||0.0062|TWO_SIDED|95.0|6.32|43.74||Statistical significance achieved if p-value \<0.05.|Fisher Exact||Percent Difference in Responders (%) = Valbenazine - Placebo|||43.74|6.32|0.0062
92146087|NCT04102579|184177118|OTHER||LS Means Difference|1.42|STANDARD_ERROR_OF_MEAN|1.46||0.3304|TWO_SIDED|95.0|-1.46|4.31||Statistical significance achieved if p-value \<0.05.|MMRM||LS Means Difference = Valbenazine - Placebo|LS mean was based on the MMRM model which included corresponding baseline value of the Neuro-QoL Upper Extremity Function T-score as a covariate; treatment group, visit, baseline-by-visit interaction, and treatment group-by-visit interaction as fixed effects; and participant as a random effect.||4.31|-1.46|0.3304
92297044|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-1.99||||0.0139|TWO_SIDED|95.0|-3.58|-0.41||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 1||||-0.41|-3.58|0.0139
92297045|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|0.35||||0.7231|TWO_SIDED|95.0|-1.61|2.32||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 1||||2.32|-1.61|0.7231
92297046|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-5.14||||0.0018|TWO_SIDED|95.0|-8.36|-1.93||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||-1.93|-8.36|0.0018
92297047|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-3.75||||0.0045|TWO_SIDED|95.0|-6.33|-1.17||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates|Mixed Models Analysis|Week 2||||-1.17|-6.33|0.0045
92297048|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|1.84||||0.2568|TWO_SIDED|95.0|-1.34|5.02||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 2||||5.02|-1.34|0.2568
92297049|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-4.4||||0.0009|TWO_SIDED|95.0|-6.97|-1.82||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 2||||-1.82|-6.97|0.0009
92297050|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-3.45||||0.036|TWO_SIDED|95.0|-6.67|-0.23||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||-0.23|-6.67|0.0360
92297051|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|0.04||||0.9876|TWO_SIDED|95.0|-4.53|4.6||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 4||||4.60|-4.53|0.9876
92146088|NCT05899686|184177120|EQUIVALENCE|Equivalence was defined as ANOVA p\<0.05||||||0.65|||||||ANOVA|||Maximum percent change from baseline (light transmittance) during 60 heart beats after the tetanic stimulus were compared between the three stimulus locations using ANOVA||||0.65
92297052|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-7.61|||<|0.0001|TWO_SIDED|95.0|-11.3|-3.93||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 4||||-3.93|-11.3|<0.0001
92297053|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-5.16||||0.0062|TWO_SIDED|95.0|-8.85|-1.47||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates|Mixed Models Analysis|Week 4||||-1.47|-8.85|0.0062
92297054|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|1.93||||0.3407|TWO_SIDED|95.0|-2.05|5.9||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||5.90|-2.05|0.3407
92297055|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-7.86||||0.0001|TWO_SIDED|95.0|-11.9|-3.86||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates|Mixed Models Analysis|Week 5||||-3.86|-11.9|0.0001
92297056|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-7.15||||0.0005|TWO_SIDED|95.0|-11.2|-3.14||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 5||||-3.14|-11.2|0.0005
92297057|NCT01396421|184500064|SUPERIORITY_OR_OTHER||Treatment difference|-1.12||||0.657|TWO_SIDED|95.0|-6.07|3.83||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 5|Because only the comparison of brexpiprazole 4 mg/day versus placebo met the threshold in the primary analysis, the following analysis is not part for the formal statistical testing and is descriptive only.|||3.83|-6.07|0.6570
92297058|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|-0.02||||0.6553|TWO_SIDED|95.0|-0.13|0.08||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 1||||0.08|-0.13|0.6553
92297059|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|-0.03||||0.617|TWO_SIDED|95.0|-0.13|0.08||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 1||||0.08|-0.13|0.6170
92297060|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|0.03||||0.6446|TWO_SIDED|95.0|-0.1|0.15||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates..|Mixed Models Analysis|Week 1||||0.15|-0.10|0.6446
92297061|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|-0.15||||0.0347|TWO_SIDED|95.0|-0.29|-0.01||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 2||||-0.01|-0.29|0.0347
92297062|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Leasr squares mean|-0.12||||0.0825|TWO_SIDED|95.0|-0.27|0.02||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.02|-0.27|0.0825
92297063|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|0.12||||0.1678|TWO_SIDED|95.0|-0.05|0.3||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 2||||0.30|-0.05|0.1678
92146089|NCT00572195|184177121|OTHER||Wilson score interval|77.0|||||TWO_SIDED|95.0|71.1|81.9|||||The value is for all serious adverse events, regardless of device relation.||95% confidence interval estimated using the Wilson score interval|81.9|71.1|
92297064|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|-0.21||||0.0219|TWO_SIDED|95.0|-0.39|-0.03||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||-0.03|-0.39|0.0219
92297065|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Least squares mean|-0.09||||0.3275|TWO_SIDED|95.0|-0.27|0.09||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||0.09|-0.27|0.3275
92297066|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|0.18||||0.1173|TWO_SIDED|95.0|-0.04|0.4||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||0.40|-0.04|0.1173
92297067|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.63|-0.21||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 4||||-0.21|-0.63|<0.0001
92297068|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Least squares mean|-0.19||||0.0662|TWO_SIDED|95.0|-0.4|0.01||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 4||||0.01|-0.40|0.0662
92297069|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|-0.04||||0.7587|TWO_SIDED|95.0|-0.3|0.22||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 4||||0.22|-0.30|0.7587
92297070|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|-0.39||||0.0006|TWO_SIDED|95.0|-0.61|-0.17||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 5||||-0.17|-0.61|0.0006
92297071|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Least squares mean|-0.34||||0.0032|TWO_SIDED|95.0|-0.56|-0.11||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 5||||-0.11|-0.56|0.0032
92297072|NCT01396421|184500065|SUPERIORITY_OR_OTHER||Treatment difference|-0.04||||0.7619|TWO_SIDED|95.0|-0.32|0.23||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 5||||0.23|-0.32|0.7619
92146090|NCT00572195|184177122|OTHER||||||<|0.05||||||For all 6-month periods, from 6 months through 9 years post-implant, p \<0.05.|Wilcoxon Signed Rank Test|||||||<0.05
92297073|NCT01396421|184500066|SUPERIORITY_OR_OTHER||Treatment difference|2.46||||0.0557|TWO_SIDED|95.0|-0.06|4.98||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 6||||4.98|-0.06|0.0557
92146091|NCT00572195|184177124|OTHER||GEE estimated intercept|48.0|||<|0.0001|TWO_SIDED|95.0|46.8|49.2|||Generalized estimating equation (GEE)|||||49.2|46.8|<0.0001
92297074|NCT01396421|184500066|SUPERIORITY_OR_OTHER||Treatment difference|2.89||||0.025|TWO_SIDED|95.0|0.37|5.42||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 6||||5.42|0.37|0.0250
92297075|NCT01396421|184500066|SUPERIORITY_OR_OTHER||Treatment difference|1.58||||0.3264|TWO_SIDED|95.0|-1.58|4.74||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 6||||4.74|-1.58|0.3264
92297076|NCT01396421|184500067|SUPERIORITY_OR_OTHER||Treatment difference|-2.44||||0.001|TWO_SIDED|95.0|-3.88|-0.99||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.99|-3.88|0.0010
92297077|NCT01396421|184500067|SUPERIORITY_OR_OTHER||Treatment difference|-2.22||||0.0029|TWO_SIDED|95.0|-3.67|-0.77||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.77|-3.67|0.0029
92297078|NCT01396421|184500067|SUPERIORITY_OR_OTHER||Treatment difference|-1.11||||0.2227|TWO_SIDED|95.0|-2.9|0.68||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.68|-2.90|0.2227
92297079|NCT01396421|184500068|SUPERIORITY_OR_OTHER||Treatment difference|-1.41||||0.0069|TWO_SIDED|95.0|-2.44|0.39||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.39|-2.44|0.0069
92146092|NCT00572195|184177124|OTHER||Slope|0.0||||0.6729|TWO_SIDED|95.0|-0.2|0.1|||Generalized estimating equation (GEE)|||||0.1|-0.2|0.6729
92146093|NCT00949884|184177144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|-3.8|-1.3|||ANCOVA|The ANCOVA model included treatment as a fixed effect and the baseline DBP as a covariate.||Null hypothesis was that there was no difference in change in seated diastolic blood pressure from baseline to end of treatment. Sample size of 900, this study had 90% power to detect a true difference in mean change from baseline in mean trough SDBP of 2.0 mmHg for Combined Olmesartan vs Losartan.||-1.3|-3.8|<0.0001
92146094|NCT00949884|184177145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|0.88|<|0.0001|TWO_SIDED|95.0|-5.3|-1.8|||ANCOVA|The ANCOVA model included treatment as a fixed effect and baseline SSBP as a covariate.||||-1.8|-5.3|<0.0001
92146095|NCT00949884|184177146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|0.99||0.0001|TWO_SIDED|95.0|-5.8|-1.9|||ANCOVA|The ANCOVA model included treatment as a fixed effect and baseline SSBP as a covariate.||||-1.9|-5.8|0.0001
92146096|NCT00949884|184177147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.58|<|0.0001|TWO_SIDED|95.0|-3.8|-1.5|||ANCOVA|ANCOVA model included treatment as a fixed effect and baseline blood pressure value as a covariate.||||-1.5|-3.8|<0.0001
92146097|NCT00949884|184177149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.55||0.1121|TWO_SIDED|95.0|-2.0|0.2|||ANCOVA|Treatment as a fixed effect and the seated cuff diastolic blood pressure value at week 4 (with last observation carried forward) as a covariate.||||0.2|-2.0|0.1121
92146098|NCT00949884|184177149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.54||0.0783|TWO_SIDED|95.0|-2.0|0.1|||ANCOVA|Treatment as a fixed effect and the seated cuff diastolic blood pressure value at week 4 (with last observation carried forward) as a covariate.||||0.1|-2.0|0.0783
92146099|NCT00949884|184177150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.92||0.2312|TWO_SIDED|95.0|-2.9|0.7|||ANCOVA|Treatment as a fixed effect and the seated cuff diastolic blood pressure value at week 4 (with last observation carried forward) as a covariate.||||0.7|-2.9|0.2312
92185706|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-4.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the polio type 3 of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 at 2,4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two sided 95% confidence interval for the difference in the percentage of subjects with NT titers ≥1:8 was greater than -10%.||2|-4|
92185707|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|percentage group difference|-2.0|||||TWO_SIDED|95.0|-5.0|-1.0|||Miettinen and Nurminen|||Immunogenicity of the hepatitis B surface antigen component of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two sided 95% confidence interval for the difference in the percentage of subjects with NT ≥10.0 mIU/ml was greater than -10%||-1|-5|
92297080|NCT01396421|184500068|SUPERIORITY_OR_OTHER||Least squares mean|-1.78||||0.0007|TWO_SIDED|95.0|-2.81|-0.76||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.76|-2.81|0.0007
92297081|NCT01396421|184500068|SUPERIORITY_OR_OTHER||Treatmetn difference|-1.07||||0.0996|TWO_SIDED|95.0|-2.33|0.2||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.20|-2.33|0.0996
92297082|NCT01396421|184500069|SUPERIORITY_OR_OTHER||Treatment difference|-0.5||||0.0004|TWO_SIDED|95.0|-0.77|-0.22||The Cochran-Mantel-Haenzel (CMH) row mean scores differ test controlling for trial center was applied to CGI-I score.|Cochran-Mantel-Haenszel|||||-0.22|-0.77|0.0004
92297083|NCT01396421|184500069|SUPERIORITY_OR_OTHER||Treatment difference|-0.54||||0.0002|TWO_SIDED|95.0|-0.82|-0.26||The CMH row mean scores differ test controlling for trial center was applied to CGI-I score.|Cochran-Mantel-Haenszel|||||-0.26|-0.82|0.0002
92297084|NCT01396421|184500069|SUPERIORITY_OR_OTHER||Treatment difference|-0.14||||0.4505|TWO_SIDED|95.0|-0.5|0.22||The CMH row mean scores differ test controlling for trial center was applied to CGI-I score.|Cochran-Mantel-Haenszel|||||0.22|-0.50|0.4505
92297085|NCT01396421|184500070|SUPERIORITY_OR_OTHER||Relative risk|1.48||||0.0032|TWO_SIDED|95.0|1.14|1.91||CMH general association test controlling for trial was applied to the analysis of response rate.|Cochran-Mantel-Haenszel|||||1.91|1.14|0.0032
92297086|NCT01396421|184500070|SUPERIORITY_OR_OTHER||Relative risk|1.59||||0.0004|TWO_SIDED|95.0|1.23|2.05||CMH general association test controlling for trial was applied to the analysis of response rate.|Cochran-Mantel-Haenszel|||||2.05|1.23|0.0004
92297087|NCT01396421|184500070|SUPERIORITY_OR_OTHER||Relative risk|1.27||||0.1576|TWO_SIDED|95.0|0.92|1.76||CMH general association test controlling for trial was applied to the analysis of response rate.|Cochran-Mantel-Haenszel|||||1.76|0.92|0.1576
92297088|NCT01396421|184500071|SUPERIORITY_OR_OTHER||Treatment difference|-1.1||||0.0246|TWO_SIDED|95.0|-2.06|-0.14||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.14|-2.06|0.0246
92297089|NCT01396421|184500071|SUPERIORITY_OR_OTHER||Treatment difference|-1.22||||0.0131|TWO_SIDED|95.0|-2.19|-0.26||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.26|-2.19|0.0131
92297090|NCT01396421|184500071|SUPERIORITY_OR_OTHER||Treatment difference|-0.34||||0.5706|TWO_SIDED|95.0|-1.53|0.85||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.85|-1.53|0.5706
92297091|NCT01396421|184500072|SUPERIORITY_OR_OTHER||Relative risk|0.39||||0.0143|TWO_SIDED|95.0|0.18|0.85|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial center was applied to the analysis of discontinuation rate.||||0.85|0.18|0.0143
92297092|NCT01396421|184500072|SUPERIORITY_OR_OTHER||Relative risk|0.87||||0.6606|TWO_SIDED|95.0|0.46|1.65||CMH general association test controlling for trial center was applied to the analysis of discontinuation rate.|Cochran-Mantel-Haenszel|||||1.65|0.46|0.6606
92297093|NCT01396421|184500072|SUPERIORITY_OR_OTHER||Relative risk|0.77||||0.5115|TWO_SIDED|95.0|0.35|1.68||CMH general association test controlling for trial center was applied to the analysis of discontinuation rate.|Cochran-Mantel-Haenszel|||||1.68|0.35|0.5115
92297094|NCT01396421|184500073|SUPERIORITY_OR_OTHER||Treatment difference|-2.34||||0.0014|TWO_SIDED|95.0|-3.77|-0.91||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.91|-3.77|0.0014
92297095|NCT01396421|184500073|SUPERIORITY_OR_OTHER||Treatment difference|-2.47||||0.0008|TWO_SIDED|95.0|-3.91|-1.04||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-1.04|-3.91|0.0008
92297096|NCT01396421|184500073|SUPERIORITY_OR_OTHER||Treatment difference|-0.89||||0.3263|TWO_SIDED|95.0|-2.66|0.89||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates|Mixed Models Analysis|||||0.89|-2.66|0.3263
92297097|NCT01396421|184500074|SUPERIORITY_OR_OTHER||Treatment difference|-1.3||||0.0155|TWO_SIDED|95.0|-2.35|-0.25||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.25|-2.35|0.0155
92297098|NCT01396421|184500074|SUPERIORITY_OR_OTHER||Treatment difference|-1.68||||0.0019|TWO_SIDED|95.0|-2.73|-0.62||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.62|-2.73|0.0019
92297099|NCT01396421|184500074|SUPERIORITY_OR_OTHER||Treatment difference|-0.86||||0.1956|TWO_SIDED|95.0|-2.17|0.44||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.44|-2.17|0.1956
92297100|NCT01396421|184500075|SUPERIORITY_OR_OTHER||Treatment difference|-1.75||||0.0007|TWO_SIDED|95.0|-2.76|-0.75||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.75|-2.76|0.0007
92297101|NCT01396421|184500075|SUPERIORITY_OR_OTHER||Treatment difference|-1.98||||0.0001|TWO_SIDED|95.0|-2.98|-0.97||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.97|-2.98|0.0001
92297102|NCT01396421|184500075|SUPERIORITY_OR_OTHER||Treatment difference|-0.72||||0.2572|TWO_SIDED|95.0|-1.96|0.52||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.52|-1.96|0.2572
92297103|NCT01396421|184500076|SUPERIORITY_OR_OTHER||Treatment difference|-1.07||||0.0085|TWO_SIDED|95.0|-1.87|-0.28||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.28|-1.87|0.0085
92297104|NCT01396421|184500076|SUPERIORITY_OR_OTHER||Treatment difference|-1.08||||0.0081|TWO_SIDED|95.0|-1.88|-0.28||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.28|-1.88|0.0081
92297105|NCT01396421|184500076|SUPERIORITY_OR_OTHER||Treatment difference|-0.33||||0.5172|TWO_SIDED|95.0|-1.31|0.66||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.66|-1.31|0.5172
92297106|NCT01396421|184500077|SUPERIORITY_OR_OTHER||Treatment difference|-0.34||||0.3284|TWO_SIDED|95.0|-1.03|0.35||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.35|-1.03|0.3284
92297107|NCT01396421|184500077|SUPERIORITY_OR_OTHER||Treatment difference|-0.65||||0.0655|TWO_SIDED|95.0|-1.34|0.04||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.04|-1.34|0.0655
92297108|NCT01396421|184500077|SUPERIORITY_OR_OTHER||Treatment difference|-0.21||||0.6251|TWO_SIDED|95.0|-1.07|0.64||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.64|-1.07|0.6251
92297109|NCT01506908|184500128|SUPERIORITY_OR_OTHER||Least squares means difference|-15.9|||<|0.0001|TWO_SIDED|95.0|-21.6|-10.2|||ANCOVA||Treatment comparisons were made between 4 mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered the population's change from post-cue baseline in craving score mean to be equal in both treatment groups at 5 minutes||-10.2|-21.6|<0.0001
92297110|NCT01506908|184500129|SUPERIORITY_OR_OTHER||Least squares means difference|-4.2||||0.0511|TWO_SIDED|95.0|-8.4|0.0|||ANCOVA||Treatment comparisons were made between 4 mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered the population's change from post-cue baseline in craving score mean to be equal in both treatment groups at 1 minute.||0.0|-8.4|0.0511
92297111|NCT01506908|184500130|SUPERIORITY_OR_OTHER||Least squares means difference|-11.6|||<|0.0001|TWO_SIDED|95.0|-16.7|-6.4|||ANCOVA||Treatment comparisons were made between 4 mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered the population's change from post-cue baseline in craving score mean to be equal in both treatment groups at 3 minutes.||-6.4|-16.7|<0.0001
92297112|NCT01506908|184500131|SUPERIORITY_OR_OTHER||Least squares means difference|-17.8|||<|0.0001|TWO_SIDED|95.0|-23.8|-11.7|||ANCOVA||Treatment comparisons were made between 4 mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered the population's change from post-cue baseline in craving score mean to be equal in both treatment groups at 7 minutes.||-11.7|-23.8|<0.0001
92297113|NCT01506908|184500132|SUPERIORITY_OR_OTHER||Least square mean difference|-17.9|||<|0.0001|TWO_SIDED|95.0|-24.4|-11.4|||ANCOVA||Treatment comparisons were made between 4 mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered the population's change from post-cue baseline in craving score mean to be equal in both treatment groups at 10 minutes.||-11.4|-24.4|<0.0001
92297114|NCT01610063|184500134|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Comparison for QIDS-C16||||<0.0001
92297115|NCT01610063|184500135|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Comparison between groups for HAMD-17||||<0.0001
92297116|NCT01610063|184500136|OTHER|||||||0.002|||||||t-test, 2 sided|||Comparison for PHQ-9||||0.002
92297117|NCT00948792|184500167|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Wilcoxon (Mann-Whitney)|||"The null hypothesis is that there would be no difference in post-transfusion platelet counts (30-minutes post-transfusion) between the two groups.~We opted to determine the number of transfusions that would be required to detect difference of 20,000 platelets/mm3 (with a standard deviation of 20,000). The number shown to demonstrate this was 44."||||0.8
92297118|NCT00948792|184500168|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Wilcoxon (Mann-Whitney)|||"The null hypothesis is that there would be no difference in post-transfusion platelet counts (6-hour post-transfusion) between the two groups.~We opted to determine the number of transfusions that would be required to detect difference of 20,000 platelets/mm3 (with a standard deviation of 20,000). The number shown to demonstrate this was 44."||||0.26
92297119|NCT00948792|184500169|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Wilcoxon (Mann-Whitney)|||"The null hypothesis is that there would be no difference in the change in post-transfusion platelet counts (30 minutes and 6 hours post-transfusion) between the two groups.~We opted to determine the number of transfusions that would be required to detect difference of 20,000 platelets/mm3 (with a standard deviation of 20,000). The number shown to demonstrate this was 44."||||0.09
92297120|NCT02339090|184500172|NON_INFERIORITY|Threshold for significance: annualized height velocity between somavaratan and daily rhGH ≤ -2.0 cm/year|LS Mean Difference|-1.28|||||TWO_SIDED|95.0|-2.32|-0.24||||||An ANCOVA model will be used to determine the adjusted (least squares) means and standard error (SE) to determine the confidence interval (CI) of the difference. ANCOVA model included treatment group, region, and gender as fixed effects; with baseline age and baseline IGF-I SDS as covariates.||-0.24|-2.32|
92146100|NCT00949884|184177150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.9||0.0979|TWO_SIDED|95.0|-3.2|0.3|||ANCOVA|Treatment as a fixed effect and the seated cuff diastolic blood pressure value at week 4 (with last observation carried forward) as a covariate.||||0.3|-3.2|0.0979
92146101|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<140 mmHg||||<0.0001
92146102|NCT00949884|184177151|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<140 mmHg||||0.0001
92297121|NCT00442546|184500180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.37||0.9185||95.0|-0.766|0.691||A step-down procedure was used for multiple comparisons adjustment. If the difference between the high dose and placebo groups was statistically significant (p\<0.05), then the next step conducted where the low dose group was compared to placebo.|ANOVA|Least squares means from the analysis of variance (ANOVA) model with main effects of treatment and center and Baseline mean worst pain score.|Mean difference (final values) = Least squares mean difference|||0.691|-0.766|0.9185
92297122|NCT00442546|184500180|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.339|STANDARD_ERROR_OF_MEAN|0.371||0.3619||95.0|-1.07|0.392||A step-down procedure was used for multiple comparisons adjustment. If the difference between the high dose and placebo groups was statistically significant (p\<0.05), then the next step conducted where the low dose group was compared to placebo.|ANOVA|Least squares means from the ANOVA model with main effects of treatment and center and Baseline mean worst pain score.|Mean difference (final values) = Least squares mean difference|||0.392|-1.070|0.3619
92297123|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.065|STANDARD_ERROR_OF_MEAN|19.426||0.4091||95.0|-54.332|22.203|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||22.203|-54.332|0.4091
92297124|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.548|STANDARD_ERROR_OF_MEAN|19.388||0.4234||95.0|-53.74|22.645|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||22.645|-53.740|0.4234
92297125|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-36.428|STANDARD_ERROR_OF_MEAN|16.517||0.0284||95.0|-68.972|-3.884|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||-3.884|-68.972|0.0284
92297126|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-28.985|STANDARD_ERROR_OF_MEAN|16.57||0.0816||95.0|-61.632|3.663|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||3.663|-61.632|0.0816
92297127|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.759|STANDARD_ERROR_OF_MEAN|11.752||0.8147||95.0|-20.446|25.964|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||25.964|-20.446|0.8147
92297128|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.182|STANDARD_ERROR_OF_MEAN|11.589||0.7187||95.0|-27.064|18.7|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||18.700|-27.064|0.7187
92297129|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.356|STANDARD_ERROR_OF_MEAN|10.148||0.7416||95.0|-23.516|16.804|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||16.804|-23.516|0.7416
92146103|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<135 mmHg||||<0.0001
92146104|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<135 mmHg||||<0.0001
92146105|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<130 mmHg||||<0.0001
92146106|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<130 mmHg||||<0.0001
92146107|NCT00949884|184177151|SUPERIORITY_OR_OTHER|||||||0.2755||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<120 mmHg||||0.2755
92146108|NCT00949884|184177151|SUPERIORITY_OR_OTHER|||||||0.1646||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<120 mmHg||||0.1646
92297130|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.574|STANDARD_ERROR_OF_MEAN|9.283||0.2577||95.0|-29.017|7.869|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||7.869|-29.017|0.2577
92297131|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|17.387||0.9982||95.0|-36.431|36.352|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||36.352|-36.431|0.9982
92297132|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.325|STANDARD_ERROR_OF_MEAN|22.184||0.5552||95.0|-59.756|33.107|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||33.107|-59.756|0.5552
92297133|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-40.0|STANDARD_ERROR_OF_MEAN|24.655||0.2032||95.0|-118.463|38.463|||ANOVA||Mean difference (final values) = Least squares mean difference|144 hours||38.463|-118.463|0.2032
92297134|NCT00442546|184500181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-138.5|STANDARD_ERROR_OF_MEAN|37.661||0.0348||95.0|-258.354|-18.646|||ANOVA||Mean difference (final values) = Least squares mean difference|144 hours||-18.646|-258.354|0.0348
92297135|NCT00442546|184500182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.136|STANDARD_ERROR_OF_MEAN|4.499||0.3602||95.0|-4.79|13.062|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 2||13.062|-4.790|0.3602
92146109|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<90 mmHg||||<0.0001
92146110|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<90 mmHg||||<0.0001
92297136|NCT00442546|184500182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.573|STANDARD_ERROR_OF_MEAN|4.637||0.7352||95.0|-7.626|10.771|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 2||10.771|-7.626|0.7352
92297137|NCT00442546|184500182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.86|STANDARD_ERROR_OF_MEAN|6.156||0.6435||95.0|-9.392|15.111|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 4||15.111|-9.392|0.6435
92297138|NCT00442546|184500182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.237|STANDARD_ERROR_OF_MEAN|6.361||0.6123||95.0|-9.422|15.895|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 4||15.895|-9.422|0.6123
92297139|NCT00442546|184500182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.65|STANDARD_ERROR_OF_MEAN|7.663||0.6356||95.0|-11.683|18.984|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 6/ET||18.984|-11.683|0.6356
92297140|NCT00442546|184500182|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.909|STANDARD_ERROR_OF_MEAN|7.747||0.907||95.0|-14.593|16.411|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 6/ET||16.411|-14.593|0.9070
92297141|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1190.65|STANDARD_ERROR_OF_MEAN|123.062||0.0656||95.0|-2754.304|373.004|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Acetylsalicylic Acid, 72 hours||373.004|-2754.304|0.0656
92297142|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.2|STANDARD_ERROR_OF_MEAN|142.1||0.9277||95.0|-1789.352|1821.752|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Acetylsalicylic Acid, 72 hours||1821.752|-1789.352|0.9277
92297143|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.771|STANDARD_ERROR_OF_MEAN|62.692||0.935||95.0|-263.972|275.515|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Ketorolac, 24 hours||275.515|-263.972|0.9350
92297144|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|26.243|STANDARD_ERROR_OF_MEAN|44.33||0.6139||95.0|-164.494|216.98|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Ketorolac, 24 hours||216.980|-164.494|0.6139
92297145|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.92|STANDARD_ERROR_OF_MEAN|9.96||0.776||95.0|-25.451|19.611|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Ketorolac, 48 hours||19.611|-25.451|0.7760
92297146|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.61|STANDARD_ERROR_OF_MEAN|6.833||0.819||95.0|-17.066|13.846|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Ketorolac, 48 hours||13.846|-17.066|0.8190
92297147|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-69.235|STANDARD_ERROR_OF_MEAN|390.483||0.8603||95.0|-861.171|722.7|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 24 hours||722.700|-861.171|0.8603
92146111|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.|Regression, Logistic|||Percentage of participants achieving diastolic blood pressure goal of \<85 mmHg||||<0.0001
92146112|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<85 mmHg||||<0.0001
92146113|NCT00949884|184177151|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<80 mmHg||||0.0010
92297148|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.395|STANDARD_ERROR_OF_MEAN|384.376||0.9642||95.0|-796.945|762.155|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 24 hours||762.155|-796.945|0.9642
92297149|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|93.693|STANDARD_ERROR_OF_MEAN|484.957||0.8476||95.0|-880.865|1068.251|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 48 hours||1068.251|-880.865|0.8476
92297150|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|105.543|STANDARD_ERROR_OF_MEAN|457.374||0.8185||95.0|-813.584|1024.67|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 48 hours||1024.670|-813.584|0.8185
92297151|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-682.304|STANDARD_ERROR_OF_MEAN|495.241||0.1792||95.0|-1696.759|332.15|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 72 hours||332.150|-1696.759|0.1792
92297152|NCT00442546|184500183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-250.439|STANDARD_ERROR_OF_MEAN|501.808||0.6216||95.0|-1278.347|777.469|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 72 hours||777.469|-1278.347|0.6216
92297153|NCT00442546|184500184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-494.0|STANDARD_ERROR_OF_MEAN|301.253||0.1996||95.0|-1452.72|464.72|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Acetylsalicylic Acid, Week 2.||464.720|-1452.720|0.1996
92297154|NCT00442546|184500184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-195.15|STANDARD_ERROR_OF_MEAN|368.958||0.6335||95.0|-1369.338|979.038|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Acetylsalicylic Acid, Week 2.||979.038|-1369.338|0.6335
92297155|NCT00442546|184500184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.291|STANDARD_ERROR_OF_MEAN|302.355||0.929||95.0|-657.992|603.41|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 2||603.410|-657.992|0.9290
92297156|NCT00442546|184500184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|34.787|STANDARD_ERROR_OF_MEAN|256.969||0.8937||95.0|-501.241|570.815|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 2||570.815|-501.241|0.8937
92297157|NCT00442546|184500184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|198.937|STANDARD_ERROR_OF_MEAN|491.153||0.6912||95.0|-847.93|1245.804|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 4||1245.804|-847.930|0.6912
92297158|NCT00442546|184500184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|185.728|STANDARD_ERROR_OF_MEAN|349.047||0.6024||95.0|-558.248|929.704|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 4||929.704|-558.248|0.6024
92297159|NCT00442546|184500184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-256.921|STANDARD_ERROR_OF_MEAN|407.391||0.5372||95.0|-1120.551|606.709|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 6/ET||606.709|-1120.551|0.5372
92297160|NCT00442546|184500184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-287.032|STANDARD_ERROR_OF_MEAN|328.227||0.3948||95.0|-982.843|408.778|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 6/ET||408.778|-982.843|0.3948
92297161|NCT00442546|184500185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-121.5|STANDARD_ERROR_OF_MEAN|1169.654||0.9341|TWO_SIDED|95.0|-14983.36|14740.362|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|||14740.362|-14983.36|0.9341
92297162|NCT00442546|184500187|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|302.9|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|TWO_SIDED|95.0|302.9|302.9|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|||302.900|302.900|<0.0001
92297163|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.121|STANDARD_ERROR_OF_MEAN|0.087||0.1661||95.0|-0.293|0.051|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.051|-0.293|0.1661
92297164|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.081|STANDARD_ERROR_OF_MEAN|0.088||0.3604||95.0|-0.254|0.093|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.093|-0.254|0.3604
92297165|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.126|STANDARD_ERROR_OF_MEAN|0.083||0.1299||95.0|-0.29|0.037|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.037|-0.290|0.1299
92297166|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.129|STANDARD_ERROR_OF_MEAN|0.082||0.1167||95.0|-0.29|0.032|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.032|-0.290|0.1167
92146114|NCT00949884|184177151|SUPERIORITY_OR_OTHER|||||||0.0011||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<80 mmHg||||0.0011
92146115|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<140/90 mmHg||||<0.0001
92146116|NCT00949884|184177151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<140/90 mmHg||||<0.0001
92297167|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.057|STANDARD_ERROR_OF_MEAN|0.09||0.5271||95.0|-0.234|0.12|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.120|-0.234|0.5271
92297168|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.09||0.6731||95.0|-0.215|0.139|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.139|-0.215|0.6731
92297169|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.098||0.5936||95.0|-0.247|0.142|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.142|-0.247|0.5936
92297170|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.094||0.8368||95.0|-0.206|0.167|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.167|-0.206|0.8368
92297171|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.111||0.8659||95.0|-0.242|0.204|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.204|-0.242|0.8659
92297172|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.041|STANDARD_ERROR_OF_MEAN|0.112||0.7151||95.0|-0.266|0.184|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.184|-0.266|0.7151
92297173|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.097|STANDARD_ERROR_OF_MEAN|0.077||0.2121||95.0|-0.249|0.056|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.056|-0.249|0.2121
92297174|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.077||0.5607||95.0|-0.197|0.107|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.107|-0.197|0.5607
92297175|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.077||0.7797||95.0|-0.13|0.173|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.173|-0.130|0.7797
92297176|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.079||0.8761||95.0|-0.143|0.167|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.167|-0.143|0.8761
92297177|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.067||0.8619||95.0|-0.121|0.144|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.144|-0.121|0.8619
92297178|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.068||0.7256||95.0|-0.111|0.159|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.159|-0.111|0.7256
92297179|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.061||0.8659||95.0|-0.11|0.131|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.131|-0.110|0.8659
92297180|NCT00442546|184500191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.146|STANDARD_ERROR_OF_MEAN|0.063||0.0203||95.0|0.023|0.27|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.270|0.023|0.0203
92297181|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.041|STANDARD_ERROR_OF_MEAN|0.074||0.5791||95.0|-0.187|0.105|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.105|-0.187|0.5791
92297182|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.031|STANDARD_ERROR_OF_MEAN|0.075||0.6829||95.0|-0.178|0.117|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.117|-0.178|0.6829
92297183|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.07||0.4516||95.0|-0.19|0.085|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.085|-0.190|0.4516
92297184|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.071|STANDARD_ERROR_OF_MEAN|0.069||0.3014||95.0|-0.207|0.064|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.064|-0.207|0.3014
92297185|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.075||0.7628||95.0|-0.171|0.125|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.125|-0.171|0.7628
92297186|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.075||0.711||95.0|-0.176|0.12|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.120|-0.176|0.7110
92146117|NCT00949884|184177151|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<135/80 mmHg||||0.0005
92185708|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|percentage group difference|-1.0|||||TWO_SIDED|95.0|-3.0|1.0|||Miettinen and Nurminen|||Immunogenicity of the PRP-Hib component of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 vaccine at 2, 4, and 6 months of age would be considered non-inferiority that of the routine vaccinations given alone, if the lower limit of the two sided 95% confidence interval for the difference in the percentage of subjects with Hib capsular polysaccharide (PRP) antibody response greater than the protective cutoff of ≥0.15 μg/mL was greater than -10%.||1|-3|
92146118|NCT00949884|184177151|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<135/80 mmHg||||0.0004
92146119|NCT00949884|184177151|SUPERIORITY_OR_OTHER|||||||0.0023||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<130/80 mmHg||||0.0023
92297187|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.079||0.7382||95.0|-0.183|0.13|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.130|-0.183|0.7382
92297188|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.034|STANDARD_ERROR_OF_MEAN|0.076||0.6586||95.0|-0.183|0.116|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.116|-0.183|0.6586
92297189|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.084||0.7691||95.0|-0.195|0.145|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.145|-0.195|0.7691
92297190|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.057|STANDARD_ERROR_OF_MEAN|0.085||0.507||95.0|-0.229|0.115|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.115|-0.229|0.5070
92297191|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.036|STANDARD_ERROR_OF_MEAN|0.066||0.5802||95.0|-0.166|0.093|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.093|-0.166|0.5802
92297192|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.065||0.919||95.0|-0.122|0.136|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.136|-0.122|0.9190
92297193|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.026|STANDARD_ERROR_OF_MEAN|0.059||0.6559||95.0|-0.09|0.143|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.143|-0.090|0.6559
92297194|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.06||0.8552||95.0|-0.108|0.13|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.130|-0.108|0.8552
92297195|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.048||0.6364||95.0|-0.072|0.117|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.117|-0.072|0.6364
92297196|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.049||0.2127||95.0|-0.035|0.157|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.157|-0.035|0.2127
92297197|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.047||0.8746||95.0|-0.086|0.101|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.101|-0.086|0.8746
92297198|NCT00442546|184500192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.048||0.0286||95.0|0.011|0.202|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.202|0.011|0.0286
92297199|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.165|STANDARD_ERROR_OF_MEAN|0.102||0.1078||95.0|-0.367|0.036|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.036|-0.367|0.1078
92297200|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.048|STANDARD_ERROR_OF_MEAN|0.103||0.6406||95.0|-0.252|0.155|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.155|-0.252|0.6406
92297201|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.108|STANDARD_ERROR_OF_MEAN|0.092||0.2404||95.0|-0.289|0.073|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.073|-0.289|0.2404
92297202|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.149|STANDARD_ERROR_OF_MEAN|0.09||0.1005||95.0|-0.327|0.029|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.029|-0.327|0.1005
92297203|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.136|STANDARD_ERROR_OF_MEAN|0.108||0.2109||95.0|-0.349|0.078|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.078|-0.349|0.2109
92297204|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.128|STANDARD_ERROR_OF_MEAN|0.108||0.2399||95.0|-0.342|0.086|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.086|-0.342|0.2399
92297205|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.131|STANDARD_ERROR_OF_MEAN|0.108||0.2272||95.0|-0.346|0.083|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.083|-0.346|0.2272
92297206|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.104||0.4417||95.0|-0.285|0.125|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.125|-0.285|0.4417
92297207|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.009|STANDARD_ERROR_OF_MEAN|0.144||0.9502||95.0|-0.299|0.281|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.281|-0.299|0.9502
92297208|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.135|STANDARD_ERROR_OF_MEAN|0.144||0.355||95.0|-0.426|0.156|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.156|-0.426|0.3550
92297209|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.122|STANDARD_ERROR_OF_MEAN|0.092||0.1888||95.0|-0.304|0.06|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.060|-0.304|0.1888
92297210|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.081|STANDARD_ERROR_OF_MEAN|0.092||0.3774||95.0|-0.262|0.1|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.100|-0.262|0.3774
92297211|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.087||0.9452||95.0|-0.178|0.166|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.166|-0.178|0.9452
92297212|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.089||0.7663||95.0|-0.201|0.148|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.148|-0.201|0.7663
92297213|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.041|STANDARD_ERROR_OF_MEAN|0.074||0.5777||95.0|-0.104|0.186|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.186|-0.104|0.5777
92297214|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.075||0.2916||95.0|-0.069|0.227|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.227|-0.069|0.2916
92297215|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.069||0.8389||95.0|-0.15|0.122|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.122|-0.150|0.8389
92297216|NCT00442546|184500193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.07||0.0734||95.0|-0.012|0.266|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.266|-0.012|0.0734
92297217|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.084||0.1949||95.0|-0.276|0.057|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.057|-0.276|0.1949
92297218|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.052|STANDARD_ERROR_OF_MEAN|0.085||0.5431||95.0|-0.22|0.116|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.116|-0.220|0.5431
92297219|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.095|STANDARD_ERROR_OF_MEAN|0.077||0.2164||95.0|-0.247|0.056|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.056|-0.247|0.2164
92297220|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.117|STANDARD_ERROR_OF_MEAN|0.076||0.1251||95.0|-0.266|0.033|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.033|-0.266|0.1251
92297221|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.073|STANDARD_ERROR_OF_MEAN|0.088||0.4079||95.0|-0.247|0.101|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.101|-0.247|0.4079
92297222|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.088||0.4562||95.0|-0.24|0.108|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.108|-0.240|0.4562
92297223|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.093||0.4526||95.0|-0.254|0.114|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.114|-0.254|0.4526
92297224|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.089||0.6186||95.0|-0.221|0.132|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.132|-0.221|0.6186
92297225|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.109||0.8712||95.0|-0.237|0.202|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.202|-0.237|0.8712
92297226|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.078|STANDARD_ERROR_OF_MEAN|0.11||0.4784||95.0|-0.3|0.143|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.143|-0.300|0.4784
92297227|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.084|STANDARD_ERROR_OF_MEAN|0.075||0.2635||95.0|-0.232|0.064|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.064|-0.232|0.2635
92297228|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.075||0.6009||95.0|-0.187|0.108|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.108|-0.187|0.6009
92297229|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.013|STANDARD_ERROR_OF_MEAN|0.073||0.8559||95.0|-0.13|0.156|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.156|-0.130|0.8559
92297230|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.074||0.9841||95.0|-0.147|0.144|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.144|-0.147|0.9841
92297231|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.025|STANDARD_ERROR_OF_MEAN|0.061||0.6771||95.0|-0.095|0.146|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.146|-0.095|0.6771
92297232|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.062||0.3717||95.0|-0.067|0.178|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.178|-0.067|0.3717
92297233|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.058||0.9863||95.0|-0.114|0.116|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.116|-0.114|0.9863
92297234|NCT00442546|184500194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.059||0.0355||95.0|0.009|0.243|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.243|0.009|0.0355
92297235|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.049|STANDARD_ERROR_OF_MEAN|0.202||0.8071||95.0|-0.35|0.449|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.449|-0.350|0.8071
92297236|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.204||0.8282||95.0|-0.359|0.447|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.447|-0.359|0.8282
92297237|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.025|STANDARD_ERROR_OF_MEAN|0.192||0.8972||95.0|-0.353|0.403|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.403|-0.353|0.8972
92297238|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.19||0.8159||95.0|-0.329|0.418|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.418|-0.329|0.8159
92297239|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.034|STANDARD_ERROR_OF_MEAN|0.188||0.8577||95.0|-0.337|0.405|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.405|-0.337|0.8577
92297240|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.044|STANDARD_ERROR_OF_MEAN|0.188||0.8158||95.0|-0.415|0.327|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.327|-0.415|0.8158
92297241|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.195||0.4243||95.0|-0.229|0.541|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.541|-0.229|0.4243
92297242|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.205|STANDARD_ERROR_OF_MEAN|0.187||0.2742||95.0|-0.164|0.574|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.574|-0.164|0.2742
92297243|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.069|STANDARD_ERROR_OF_MEAN|0.116||0.5569||95.0|-0.302|0.165|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.165|-0.302|0.5569
92297244|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.116||0.3762||95.0|-0.13|0.336|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.336|-0.130|0.3762
92297245|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.155||0.6203||95.0|-0.229|0.383|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.383|-0.229|0.6203
92297246|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.155||0.3343||95.0|-0.155|0.455|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.455|-0.155|0.3343
92297247|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.128||0.2213||95.0|-0.096|0.41|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.410|-0.096|0.2213
92297248|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.131||0.2863||95.0|-0.118|0.399|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.399|-0.118|0.2863
92297249|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.082||0.305||95.0|-0.077|0.245|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.245|-0.077|0.3050
92297250|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.083||0.0155||95.0|0.039|0.368|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.368|0.039|0.0155
92297251|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.087||0.9243||95.0|-0.164|0.181|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.181|-0.164|0.9243
92297252|NCT00442546|184500195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.089||0.0201||95.0|0.033|0.386|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.386|0.033|0.0201
92297253|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.321||0.1537||95.0|-1.093|0.173|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.173|-1.093|0.1537
92297254|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.398|STANDARD_ERROR_OF_MEAN|0.324||0.2208||95.0|-1.038|0.241|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.241|-1.038|0.2208
92297255|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.068|STANDARD_ERROR_OF_MEAN|0.325||0.8355||95.0|-0.707|0.572|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.572|-0.707|0.8355
92297256|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.222|STANDARD_ERROR_OF_MEAN|0.331||0.5024||95.0|-0.875|0.43|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.430|-0.875|0.5024
92297257|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.282||0.8116||95.0|-0.489|0.624|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.624|-0.489|0.8116
92297258|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.099|STANDARD_ERROR_OF_MEAN|0.288||0.7325||95.0|-0.667|0.469|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.469|-0.667|0.7325
92297259|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.278||0.8133||95.0|-0.614|0.482|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.482|-0.614|0.8133
92297260|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.285||0.9307||95.0|-0.588|0.538|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.538|-0.588|0.9307
92297261|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.439||0.2682||95.0|-1.364|0.385|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.385|-1.364|0.2682
92297262|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.294|STANDARD_ERROR_OF_MEAN|0.413||0.4784||95.0|-1.116|0.528|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.528|-1.116|0.4784
92297263|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.661|STANDARD_ERROR_OF_MEAN|0.298||0.0255||95.0|0.084|1.239|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.239|0.084|0.0255
92297264|NCT00442546|184500196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.448|STANDARD_ERROR_OF_MEAN|0.314||0.1591||95.0|-0.18|1.076|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.076|-0.180|0.1591
92297265|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.786|STANDARD_ERROR_OF_MEAN|0.372||0.0359||95.0|-1.52|-0.052|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||-0.052|-1.520|0.0359
92297266|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.907|STANDARD_ERROR_OF_MEAN|0.374||0.0161||95.0|-1.644|-0.17|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||-0.170|-1.644|0.0161
92297267|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.105|STANDARD_ERROR_OF_MEAN|0.319||0.7416||95.0|-0.733|0.523|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.523|-0.733|0.7416
92297268|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.301|STANDARD_ERROR_OF_MEAN|0.324||0.3527||95.0|-0.939|0.336|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.336|-0.939|0.3527
92297269|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.184|STANDARD_ERROR_OF_MEAN|0.3||0.5419||95.0|-0.776|0.409|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.409|-0.776|0.5419
92297270|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.305||0.9333||95.0|-0.628|0.577|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.577|-0.628|0.9333
92297271|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.354|STANDARD_ERROR_OF_MEAN|0.24||0.142||95.0|-0.827|0.12|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.120|-0.827|0.1420
92297272|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.245||0.829||95.0|-0.535|0.429|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.429|-0.535|0.8290
92297273|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.111|STANDARD_ERROR_OF_MEAN|0.441||0.0138||95.0|-1.989|-0.233|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||-0.233|-1.989|0.0138
92297274|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.503|STANDARD_ERROR_OF_MEAN|0.416||0.23||95.0|-1.332|0.325|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.325|-1.332|0.2300
92297275|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.268||0.5151||95.0|-0.36|0.711|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||0.711|-0.360|0.5151
92297276|NCT00442546|184500197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.433|STANDARD_ERROR_OF_MEAN|0.295||0.146||95.0|-0.155|1.022|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.022|-0.155|0.1460
92297277|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.258|STANDARD_ERROR_OF_MEAN|0.463||0.5786||95.0|-1.17|0.655|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.655|-1.170|0.5786
92297278|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.025|STANDARD_ERROR_OF_MEAN|0.467||0.957||95.0|-0.895|0.946|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.946|-0.895|0.9570
92297279|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.434||0.986||95.0|-0.862|0.847|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.847|-0.862|0.9860
92297280|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.151|STANDARD_ERROR_OF_MEAN|0.442||0.7336||95.0|-1.021|0.72|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.720|-1.021|0.7336
92297281|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.384|STANDARD_ERROR_OF_MEAN|0.365||0.2939||95.0|-0.336|1.104|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||1.104|-0.336|0.2939
92297282|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.274|STANDARD_ERROR_OF_MEAN|0.372||0.4615||95.0|-0.459|1.008|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||1.008|-0.459|0.4615
92297283|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.161|STANDARD_ERROR_OF_MEAN|0.347||0.6433||95.0|-0.845|0.523|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.523|-0.845|0.6433
92297284|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.356||0.9466||95.0|-0.678|0.726|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.726|-0.678|0.9466
92297285|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.424|STANDARD_ERROR_OF_MEAN|0.621||0.4967||95.0|-1.66|0.812|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.812|-1.660|0.4967
92297286|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.582||0.8659||95.0|-1.06|1.257|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||1.257|-1.060|0.8659
92297287|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.994|STANDARD_ERROR_OF_MEAN|0.451||0.0311||95.0|0.093|1.895|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.895|0.093|0.0311
92297288|NCT00442546|184500198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.995|STANDARD_ERROR_OF_MEAN|0.485||0.0441||95.0|0.027|1.962|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.962|0.027|0.0441
92297289|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.969|STANDARD_ERROR_OF_MEAN|0.439||0.0284||95.0|-1.835|-0.104|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||-0.104|-1.835|0.0284
92297290|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.265|STANDARD_ERROR_OF_MEAN|0.444||0.5516||95.0|-1.141|0.611|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.611|-1.141|0.5516
92297291|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.38||0.479||95.0|-1.02|0.48|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.480|-1.020|0.4790
92297292|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.39||0.9947||95.0|-0.765|0.77|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.770|-0.765|0.9947
92297293|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.329||0.8943||95.0|-0.605|0.692|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.692|-0.605|0.8943
92297294|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.336||0.9767||95.0|-0.674|0.654|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.654|-0.674|0.9767
92297295|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.34||0.8117||95.0|-0.59|0.752|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.752|-0.590|0.8117
92297296|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.125|STANDARD_ERROR_OF_MEAN|0.351||0.7216||95.0|-0.818|0.567|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.567|-0.818|0.7216
92297297|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.108|STANDARD_ERROR_OF_MEAN|0.592||0.8558||95.0|-1.286|1.07|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||1.070|-1.286|0.8558
92297298|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.422|STANDARD_ERROR_OF_MEAN|0.556||0.4501||95.0|-1.53|0.685|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.685|-1.530|0.4501
92297299|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.328|STANDARD_ERROR_OF_MEAN|0.45||0.4682||95.0|-0.57|1.227|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.227|-0.570|0.4682
92297300|NCT00442546|184500199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.307|STANDARD_ERROR_OF_MEAN|0.492||0.5347||95.0|-0.675|1.289|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.289|-0.675|0.5347
92297301|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.765|STANDARD_ERROR_OF_MEAN|0.407||0.0613||95.0|-1.568|0.037|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.037|-1.568|0.0613
92297302|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.936|STANDARD_ERROR_OF_MEAN|0.409||0.023||95.0|-1.741|-0.13|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||-0.130|-1.741|0.0230
92297303|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.4||0.8306||95.0|-0.703|0.875|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.875|-0.703|0.8306
92297304|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.439|STANDARD_ERROR_OF_MEAN|0.407||0.2814||95.0|-1.242|0.363|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.363|-1.242|0.2814
92297305|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.353||0.8637||95.0|-0.636|0.757|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.757|-0.636|0.8637
92297306|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.359||0.9585||95.0|-0.727|0.689|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.689|-0.727|0.9585
92297307|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.272|STANDARD_ERROR_OF_MEAN|0.321||0.3975||95.0|-0.906|0.361|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.361|-0.906|0.3975
92297308|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.154|STANDARD_ERROR_OF_MEAN|0.327||0.6386||95.0|-0.799|0.491|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.491|-0.799|0.6386
92297309|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.702|STANDARD_ERROR_OF_MEAN|0.397||0.0813||95.0|-1.493|0.089|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.089|-1.493|0.0813
92297310|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.378|STANDARD_ERROR_OF_MEAN|0.37||0.31||95.0|-1.114|0.358|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.358|-1.114|0.3100
92297311|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.831|STANDARD_ERROR_OF_MEAN|0.357||0.0231||95.0|0.118|1.545|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.545|0.118|0.0231
92297312|NCT00442546|184500200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.463|STANDARD_ERROR_OF_MEAN|0.388||0.2367||95.0|-0.311|1.237|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.237|-0.311|0.2367
92297313|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.064|STANDARD_ERROR_OF_MEAN|0.448||0.8868||95.0|-0.947|0.82|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.820|-0.947|0.8868
92297314|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.254|STANDARD_ERROR_OF_MEAN|0.45||0.5733||95.0|-1.142|0.634|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.634|-1.142|0.5733
92297315|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.128|STANDARD_ERROR_OF_MEAN|0.384||0.7385||95.0|-0.884|0.628|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.628|-0.884|0.7385
92297316|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.081|STANDARD_ERROR_OF_MEAN|0.39||0.8353||95.0|-0.849|0.687|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.687|-0.849|0.8353
92297317|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.362||0.5737||95.0|-0.51|0.918|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.918|-0.510|0.5737
92297318|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.335|STANDARD_ERROR_OF_MEAN|0.368||0.364||95.0|-1.06|0.391|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.391|-1.060|0.3640
92297319|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.332||0.4315||95.0|-0.393|0.917|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.917|-0.393|0.4315
92297320|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.339||0.6727||95.0|-0.525|0.812|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.812|-0.525|0.6727
92297321|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.489|STANDARD_ERROR_OF_MEAN|0.505||0.3361||95.0|-1.496|0.517|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.517|-1.496|0.3361
92297322|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.022|STANDARD_ERROR_OF_MEAN|0.469||0.9634||95.0|-0.955|0.912|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.912|-0.955|0.9634
92297323|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.446|STANDARD_ERROR_OF_MEAN|0.352||0.2098||95.0|-0.257|1.15|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.150|-0.257|0.2098
92297324|NCT00442546|184500201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.382||0.49||95.0|-0.497|1.027|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.027|-0.497|0.4900
92297325|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.546||0.9912||95.0|-1.07|1.082|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||1.082|-1.070|0.9912
92297326|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.135|STANDARD_ERROR_OF_MEAN|0.554||0.8076||95.0|-1.227|0.957|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.957|-1.227|0.8076
92297327|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.46||0.6978||95.0|-0.727|1.085|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||1.085|-0.727|0.6978
92297328|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.293|STANDARD_ERROR_OF_MEAN|0.47||0.5344||95.0|-1.219|0.634|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.634|-1.219|0.5344
92297329|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.062|STANDARD_ERROR_OF_MEAN|0.384||0.8721||95.0|-0.819|0.695|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.695|-0.819|0.8721
92297330|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.395|STANDARD_ERROR_OF_MEAN|0.394||0.3179||95.0|-1.173|0.383|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.383|-1.173|0.3179
92297331|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.376||0.8037||95.0|-0.648|0.835|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.835|-0.648|0.8037
92146120|NCT00949884|184177151|SUPERIORITY_OR_OTHER|||||||0.0012||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<130/80 mmHg||||0.0012
92297332|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.39||0.7731||95.0|-0.656|0.881|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.881|-0.656|0.7731
92297333|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.468|STANDARD_ERROR_OF_MEAN|0.611||0.4461||95.0|-1.684|0.748|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.748|-1.684|0.4461
92297334|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.533|STANDARD_ERROR_OF_MEAN|0.575||0.3568||95.0|-1.679|0.612|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.612|-1.679|0.3568
92297335|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.598|STANDARD_ERROR_OF_MEAN|0.315||0.0623||95.0|-0.032|1.227|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.227|-0.032|0.0623
92297336|NCT00442546|184500202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.343||0.3529||95.0|-0.364|1.005|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.005|-0.364|0.3529
92297337|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.611|STANDARD_ERROR_OF_MEAN|0.417||0.1448||95.0|-1.434|0.212|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.212|-1.434|0.1448
92297338|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.665|STANDARD_ERROR_OF_MEAN|0.42||0.1148||95.0|-1.494|0.163|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.163|-1.494|0.1148
92297339|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.448|STANDARD_ERROR_OF_MEAN|0.458||0.3285||95.0|-1.35|0.454|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.454|-1.350|0.3285
92297340|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.572|STANDARD_ERROR_OF_MEAN|0.466||0.2205||95.0|-1.49|0.346|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.346|-1.490|0.2205
92297341|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.389||0.6266||95.0|-0.958|0.578|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.578|-0.958|0.6266
92297342|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.502|STANDARD_ERROR_OF_MEAN|0.397||0.2077||95.0|-1.284|0.281|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.281|-1.284|0.2077
92297343|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.223|STANDARD_ERROR_OF_MEAN|0.385||0.5626||95.0|-0.982|0.536|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.536|-0.982|0.5626
92297344|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.368|STANDARD_ERROR_OF_MEAN|0.394||0.3507||95.0|-1.145|0.408|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.408|-1.145|0.3507
92297345|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.224|STANDARD_ERROR_OF_MEAN|0.64||0.7276||95.0|-1.498|1.05|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||1.050|-1.498|0.7276
92297346|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.558|STANDARD_ERROR_OF_MEAN|0.598||0.353||95.0|-1.748|0.631|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.631|-1.748|0.3530
92297347|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.186|STANDARD_ERROR_OF_MEAN|0.529||0.0283||95.0|0.13|2.242|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||2.242|0.130|0.0283
92297348|NCT00442546|184500203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.227|STANDARD_ERROR_OF_MEAN|0.573||0.6934||95.0|-0.918|1.372|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.372|-0.918|0.6934
92297349|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.553|STANDARD_ERROR_OF_MEAN|0.77||0.0476||95.0|-3.089|-0.017|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||-0.017|-3.089|0.0476
92297350|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.768|STANDARD_ERROR_OF_MEAN|0.764||0.0237||95.0|-3.293|-0.243|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||-0.243|-3.293|0.0237
92297351|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.276|STANDARD_ERROR_OF_MEAN|0.402||0.4925||95.0|-0.516|1.069|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||1.069|-0.516|0.4925
92297352|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.414||0.8299||95.0|-0.727|0.905|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.905|-0.727|0.8299
92297353|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.37||0.9185||95.0|-0.766|0.691|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.691|-0.766|0.9185
92297354|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.339|STANDARD_ERROR_OF_MEAN|0.371||0.3619||95.0|-1.07|0.392|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.392|-1.070|0.3619
92297355|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.358|STANDARD_ERROR_OF_MEAN|0.453||0.4309||95.0|-0.538|1.254|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||1.254|-0.538|0.4309
92297356|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.013|STANDARD_ERROR_OF_MEAN|0.459||0.9778||95.0|-0.895|0.921|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.921|-0.895|0.9778
92297357|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.777||0.8503||95.0|-1.411|1.706|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||1.706|-1.411|0.8503
92297358|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.845|STANDARD_ERROR_OF_MEAN|0.757||0.0183||95.0|-3.364|-0.326|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||-0.326|-3.364|0.0183
92146121|NCT00949884|184177152|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<140 mmHg||||<0.0001
92146122|NCT00949884|184177152|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<140 mmHg||||<0.0001
92146123|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<135 mmHg||||0.0009
92297359|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.141|STANDARD_ERROR_OF_MEAN|0.956||0.286||95.0|-3.598|1.316|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||1.316|-3.598|0.2860
92297360|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.71|STANDARD_ERROR_OF_MEAN|1.856||0.204||95.0|-7.479|2.06|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||2.060|-7.479|0.2040
92297361|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.141|STANDARD_ERROR_OF_MEAN|0.295||0.6332||95.0|-0.722|0.44|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.440|-0.722|0.6332
92146124|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0007||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<135 mmHg||||0.0007
92146125|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0347||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<130 mmHg||||0.0347
92297362|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.303||0.5183||95.0|-0.402|0.794|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.794|-0.402|0.5183
92297363|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.146|STANDARD_ERROR_OF_MEAN|0.306||0.6341||95.0|-0.75|0.458|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.458|-0.750|0.6341
92297364|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.236|STANDARD_ERROR_OF_MEAN|0.32||0.4607||95.0|-0.868|0.395|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.395|-0.868|0.4607
92297365|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.327||0.7499||95.0|-0.541|0.75|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.750|-0.541|0.7499
92297366|NCT00442546|184500204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.333||0.8231||95.0|-0.584|0.733|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.733|-0.584|0.8231
92297367|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.036|STANDARD_ERROR_OF_MEAN|0.709||0.1486||95.0|-2.452|0.379|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||0.379|-2.452|0.1486
92297368|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.903|STANDARD_ERROR_OF_MEAN|0.706||0.0089||95.0|-3.311|-0.494|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||-0.494|-3.311|0.0089
92297369|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.344||0.8995||95.0|-0.635|0.722|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.722|-0.635|0.8995
92297370|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.303|STANDARD_ERROR_OF_MEAN|0.354||0.3918||95.0|-1.0|0.394|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.394|-1.000|0.3918
92297371|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.33||0.9942||95.0|-0.648|0.652|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.652|-0.648|0.9942
92297372|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.206|STANDARD_ERROR_OF_MEAN|0.332||0.5352||95.0|-0.859|0.448|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.448|-0.859|0.5352
92297373|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.382||0.8055||95.0|-0.662|0.85|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.850|-0.662|0.8055
92297374|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.446|STANDARD_ERROR_OF_MEAN|0.391||0.256||95.0|-1.22|0.327|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.327|-1.220|0.2560
92297375|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.641||0.8744||95.0|-1.184|1.387|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||1.387|-1.184|0.8744
92146126|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<130 mmHg||||0.0280
92297376|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.614|STANDARD_ERROR_OF_MEAN|0.616||0.0115||95.0|-2.851|-0.378|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||-0.378|-2.851|0.0115
92297377|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|1.155||0.9497||95.0|-3.047|2.893|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||2.893|-3.047|0.9497
92297378|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.347|STANDARD_ERROR_OF_MEAN|1.992||0.5288||95.0|-6.467|3.773|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||3.773|-6.467|0.5288
92297379|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.296|STANDARD_ERROR_OF_MEAN|0.262||0.2595||95.0|-0.813|0.22|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.220|-0.813|0.2595
92297380|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.27||0.9605||95.0|-0.546|0.519|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.519|-0.546|0.9605
92297381|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.207|STANDARD_ERROR_OF_MEAN|0.251||0.4107||95.0|-0.702|0.288|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.288|-0.702|0.4107
92297382|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.318|STANDARD_ERROR_OF_MEAN|0.263||0.2271||95.0|-0.836|0.2|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.200|-0.836|0.2271
92297383|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.263||0.9552||95.0|-0.535|0.506|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.506|-0.535|0.9552
92297384|NCT00442546|184500205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.268||0.9899||95.0|-0.533|0.526|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.526|-0.533|0.9899
92297385|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.578|STANDARD_ERROR_OF_MEAN|0.471||0.2211||95.0|-0.35|1.506|||ANOVA||Mean difference (final values) = Least squares mean difference|4 hours||1.506|-0.350|0.2211
92297386|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.809|STANDARD_ERROR_OF_MEAN|0.477||0.0916||95.0|-1.75|0.132|||ANOVA||Mean difference (final values) = Least squares mean difference|4 hours||0.132|-1.750|0.0916
92297387|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.036|STANDARD_ERROR_OF_MEAN|0.42||0.9312||95.0|-0.863|0.791|||ANOVA||Mean difference (final values) = Least squares mean difference|8 hours||0.791|-0.863|0.9312
92297388|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.591|STANDARD_ERROR_OF_MEAN|0.425||0.1658||95.0|-1.428|0.247|||ANOVA||Mean difference (final values) = Least squares mean difference|8 hours||0.247|-1.428|0.1658
92146127|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0519||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<120 mmHg||||0.0519
92146128|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0605||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<120 mmHg||||0.0605
92297389|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.483||0.9921||95.0|-0.958|0.948|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||0.948|-0.958|0.9921
92297390|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.715|STANDARD_ERROR_OF_MEAN|0.479||0.1367||95.0|-1.66|0.229|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||0.229|-1.660|0.1367
92297391|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.336|STANDARD_ERROR_OF_MEAN|0.364||0.3561||95.0|-1.053|0.38|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.380|-1.053|0.3561
92297392|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.291|STANDARD_ERROR_OF_MEAN|0.366||0.426||95.0|-1.012|0.429|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.429|-1.012|0.4260
92297393|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.105|STANDARD_ERROR_OF_MEAN|0.41||0.7975||95.0|-0.703|0.914|||ANOVA||Mean difference (final values) = Least squares mean difference|32 hours||0.914|-0.703|0.7975
92297394|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.412||0.6947||95.0|-0.65|0.974|||ANOVA||Mean difference (final values) = Least squares mean difference|32 hours||0.974|-0.650|0.6947
92297395|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.182|STANDARD_ERROR_OF_MEAN|0.465||0.6954||95.0|-1.101|0.736|||ANOVA||Mean difference (final values) = Least squares mean difference|40 hours||0.736|-1.101|0.6954
92297396|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.081|STANDARD_ERROR_OF_MEAN|0.481||0.8665||95.0|-1.032|0.87|||ANOVA||Mean difference (final values) = Least squares mean difference|40 hours||0.870|-1.032|0.8665
92297397|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.311|STANDARD_ERROR_OF_MEAN|0.386||0.4216||95.0|-0.45|1.072|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||1.072|-0.450|0.4216
92297398|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.285|STANDARD_ERROR_OF_MEAN|0.391||0.4673||95.0|-0.487|1.056|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||1.056|-0.487|0.4673
92297399|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.255|STANDARD_ERROR_OF_MEAN|0.44||0.5624||95.0|-0.614|1.125|||ANOVA||Mean difference (final values) = Least squares mean difference|56 hours||1.125|-0.614|0.5624
92297400|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.402|STANDARD_ERROR_OF_MEAN|0.448||0.3705||95.0|-1.286|0.482|||ANOVA||Mean difference (final values) = Least squares mean difference|56 hours||0.482|-1.286|0.3705
92297401|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.358|STANDARD_ERROR_OF_MEAN|0.476||0.4539||95.0|-1.302|0.586|||ANOVA||Mean difference (final values) = Least squares mean difference|64 hours||0.586|-1.302|0.4539
92297402|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.086|STANDARD_ERROR_OF_MEAN|0.515||0.0373||95.0|-2.107|-0.065|||ANOVA||Mean difference (final values) = Least squares mean difference|64 hours||-0.065|-2.107|0.0373
92297403|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.146|STANDARD_ERROR_OF_MEAN|0.476||0.76||95.0|-0.796|1.087|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||1.087|-0.796|0.7600
92297404|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.555|STANDARD_ERROR_OF_MEAN|0.481||0.2506||95.0|-1.507|0.397|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.397|-1.507|0.2506
92297405|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.027|STANDARD_ERROR_OF_MEAN|0.895||0.2567||95.0|-0.77|2.823|||ANOVA||Mean difference (final values) = Least squares mean difference|80 hours||2.823|-0.770|0.2567
92297406|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.882|STANDARD_DEVIATION|0.76||0.0167||95.0|-3.408|-0.356|||ANOVA||Mean difference (final values) = Least squares mean difference|80 hours||-0.356|-3.408|0.0167
92297407|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.352|STANDARD_ERROR_OF_MEAN|0.89||0.6953||95.0|-1.456|2.159|||ANOVA||Mean difference (final values) = Least squares mean difference|88 hours||2.159|-1.456|0.6953
92297408|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.147|STANDARD_ERROR_OF_MEAN|0.894||0.208||95.0|-2.962|0.668|||ANOVA||Mean difference (final values) = Least squares mean difference|88 hours||0.668|-2.962|0.2080
92297409|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.867|STANDARD_ERROR_OF_MEAN|0.975||0.3805||95.0|-1.116|2.849|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||2.849|-1.116|0.3805
92297410|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.126|STANDARD_ERROR_OF_MEAN|0.905||0.89||95.0|-1.965|1.713|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||1.713|-1.965|0.8900
92297411|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.672|STANDARD_ERROR_OF_MEAN|1.08||0.1821||95.0|-1.103|4.448|||ANOVA||Mean difference (final values) = Least squares mean difference|104 hours||4.448|-1.103|0.1821
92297412|NCT00442546|184500206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.851|STANDARD_ERROR_OF_MEAN|1.768||0.6505||95.0|-3.693|5.395|||ANOVA||Mean difference (final values) = Least squares mean difference|104 hours||5.395|-3.693|0.6505
92297413|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.029|STANDARD_ERROR_OF_MEAN|0.495||0.0388||95.0|-2.004|-0.053|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||-0.053|-2.004|0.0388
92297414|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.501||0.0004||95.0|-2.798|-0.822|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||-0.822|-2.798|0.0004
92297415|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.197|STANDARD_ERROR_OF_MEAN|0.405||0.6274||95.0|-0.995|0.601|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.601|-0.995|0.6274
92297416|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.619|STANDARD_ERROR_OF_MEAN|0.413||0.135||95.0|-1.432|0.194|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.194|-1.432|0.1350
92297417|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.719|STANDARD_ERROR_OF_MEAN|0.448||0.1106||95.0|-1.605|0.166|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.166|-1.605|0.1106
92297418|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.036|STANDARD_ERROR_OF_MEAN|0.457||0.0248||95.0|-1.939|-0.133|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||-0.133|-1.939|0.0248
92297419|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.874|STANDARD_ERROR_OF_MEAN|0.725||0.2335||95.0|-0.582|2.33|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||2.330|-0.582|0.2335
92297420|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.568|STANDARD_ERROR_OF_MEAN|0.682||0.0258||95.0|-2.939|-0.198|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||-0.198|-2.939|0.0258
92297421|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.866|STANDARD_ERROR_OF_MEAN|1.973||0.3878||95.0|-3.207|6.939|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||6.939|-3.207|0.3878
92297422|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.909|STANDARD_ERROR_OF_MEAN|3.754||0.1762||95.0|-3.74|15.559|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||15.559|-3.740|0.1762
92297423|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.515|STANDARD_ERROR_OF_MEAN|0.379||0.1754||95.0|-1.261|0.231|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.231|-1.261|0.1754
92297424|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.569|STANDARD_ERROR_OF_MEAN|0.386||0.1413||95.0|-1.329|0.191|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.191|-1.329|0.1413
92297425|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.419|STANDARD_ERROR_OF_MEAN|0.306||0.1731||95.0|-1.023|0.185|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.185|-1.023|0.1731
92297426|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.128|STANDARD_ERROR_OF_MEAN|0.314||0.6829||95.0|-0.747|0.49|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.490|-0.747|0.6829
92297427|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.351|STANDARD_ERROR_OF_MEAN|0.3||0.2436||95.0|-0.943|0.241|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.241|-0.943|0.2436
92297428|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.313||0.119||95.0|-1.108|0.127|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.127|-1.108|0.1190
92297429|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.264|STANDARD_ERROR_OF_MEAN|0.321||0.4117||95.0|-0.897|0.369|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.369|-0.897|0.4117
92297430|NCT00442546|184500207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.156|STANDARD_ERROR_OF_MEAN|0.323||0.6294||95.0|-0.794|0.482|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.482|-0.794|0.6294
92297431|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.859|STANDARD_ERROR_OF_MEAN|3.315||0.7958||95.0|-7.391|5.673|||ANOVA||Mean difference (final values) = Least squares mean difference|Day 1||5.673|-7.391|0.7958
92297432|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|3.322||0.9733||95.0|-6.436|6.659|||ANOVA||Mean difference (final values) = Least squares mean difference|Day 1||6.659|-6.436|0.9733
92297433|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.889|STANDARD_ERROR_OF_MEAN|3.946||0.822||95.0|-6.898|8.675|||ANOVA||Mean difference (final values) = Least squares mean difference|1 hour||8.675|-6.898|0.8220
92297434|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.813|STANDARD_ERROR_OF_MEAN|3.917||0.4736||95.0|-10.542|4.917|||ANOVA||Mean difference (final values) = Least squares mean difference|1 hour||4.917|-10.542|0.4736
92297435|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.662|STANDARD_ERROR_OF_MEAN|4.045||0.5113||95.0|-10.639|5.316|||ANOVA||Mean difference (final values) = Least squares mean difference|2 hours||5.316|-10.639|0.5113
92297436|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.365|STANDARD_ERROR_OF_MEAN|3.95||0.9266||95.0|-7.425|8.154|||ANOVA||Mean difference (final values) = Least squares mean difference|2 hours||8.154|-7.425|0.9266
92297437|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|4.347||0.9699||95.0|-8.423|8.751|||ANOVA||Mean difference (final values) = Least squares mean difference|3 hours||8.751|-8.423|0.9699
92297438|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.275|STANDARD_ERROR_OF_MEAN|4.232||0.9482||95.0|-8.085|8.635|||ANOVA||Mean difference (final values) = Least squares mean difference|3 hours||8.635|-8.085|0.9482
92297439|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.915|STANDARD_ERROR_OF_MEAN|7.391||0.7969||95.0|-16.842|13.012|||ANOVA||Mean difference (final values) = Least squares mean difference|4 hours||13.012|-16.842|0.7969
92297440|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.023|STANDARD_ERROR_OF_MEAN|7.68||0.1991||95.0|-25.533|5.487|||ANOVA||Mean difference (final values) = Least squares mean difference|4 hours||5.487|-25.533|0.1991
92297441|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|86.335|STANDARD_ERROR_OF_MEAN|22.737||0.0321||95.0|13.976|158.693|||ANOVA||Mean difference (final values) = Least squares mean difference|5 hours||158.693|13.976|0.0321
92297442|NCT00442546|184500208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|44.964|STANDARD_ERROR_OF_MEAN|12.295||0.0353||95.0|5.837|84.091|||ANOVA||Mean difference (final values) = Least squares mean difference|5 hours||84.091|5.837|0.0353
92297443|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.812|STANDARD_ERROR_OF_MEAN|12.055||0.5736||95.0|-30.792|17.169|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||17.169|-30.792|0.5736
92297444|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.991|STANDARD_ERROR_OF_MEAN|11.786||0.8003||95.0|-26.438|20.455|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||20.455|-26.438|0.8003
92297445|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.815|STANDARD_ERROR_OF_MEAN|10.371||0.5125||95.0|-27.369|13.74|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||13.740|-27.369|0.5125
92297446|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.294|STANDARD_ERROR_OF_MEAN|10.227||0.4773||95.0|-27.563|12.976|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||12.976|-27.563|0.4773
92297447|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.915|STANDARD_ERROR_OF_MEAN|11.101||0.2142||95.0|-36.055|8.226|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||8.226|-36.055|0.2142
92297448|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.769|STANDARD_ERROR_OF_MEAN|11.245||0.2989||95.0|-34.197|10.659|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||10.659|-34.197|0.2989
92297449|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.51|STANDARD_ERROR_OF_MEAN|45.612||0.3829||95.0|-53.429|134.449|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||134.449|-53.429|0.3829
92297450|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.25|STANDARD_ERROR_OF_MEAN|45.322||0.5531||95.0|-120.59|66.092|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||66.092|-120.59|0.5531
92297451|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.513|STANDARD_ERROR_OF_MEAN|8.491||0.2738||95.0|-89.376|126.402|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||126.402|-89.376|0.2738
92297452|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.644|STANDARD_ERROR_OF_MEAN|2.519||0.7987||95.0|-4.343|5.63|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||5.630|-4.343|0.7987
92297453|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.346|STANDARD_ERROR_OF_MEAN|2.441||0.8875||95.0|-5.177|4.485|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||4.485|-5.177|0.8875
92297454|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.537|STANDARD_ERROR_OF_MEAN|1.949||0.4319||95.0|-2.324|5.398|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||5.398|-2.324|0.4319
92185709|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|vaccine group difference|0.0|||||TWO_SIDED|95.0|-7.0|7.0|||Miettinen and Nurminen|||Immunogenicity of the PRP-Hib component of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two sided 95% confidence interval for the difference in the percentage of subjects with Hib capsular polysaccharide (PRP) antibody response greater than the protective cutoff of ≥1.0 μg/mL was greater than -10%.||7|-7|
92185710|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|percentage group difference|-2.0|||||TWO_SIDED|95.0|-4.0|0.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa-HBV-IPV at 2, 4 and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% confidence interval for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL was, for the pneumococcal antigen PnC4.||0|-4|
92185711|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|2.0|||||TWO_SIDED|95.0|-4.0|8.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa-HBV-IPV at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was, for PnC 6B antigen greater than -10%.||8|-4|
92297455|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.61|STANDARD_ERROR_OF_MEAN|1.935||0.407||95.0|-2.223|5.443|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||5.443|-2.223|0.4070
92297456|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.119|STANDARD_ERROR_OF_MEAN|1.641||0.4968||95.0|-4.371|2.133|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||2.133|-4.371|0.4968
92297457|NCT00442546|184500209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.327|STANDARD_ERROR_OF_MEAN|1.665||0.427||95.0|-1.972|4.626|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||4.626|-1.972|0.4270
92297458|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.862|STANDARD_ERROR_OF_MEAN|2.999||0.7742||95.0|-6.775|5.052|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||5.052|-6.775|0.7742
92297459|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.006|STANDARD_ERROR_OF_MEAN|3.025||0.0996||95.0|-0.96|10.971|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||10.971|-0.960|0.0996
92297460|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.803|STANDARD_ERROR_OF_MEAN|2.79||0.7738||95.0|-4.698|6.304|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||6.304|-4.698|0.7738
92297461|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.192|STANDARD_ERROR_OF_MEAN|2.778||0.1328||95.0|-1.284|9.669|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||9.669|-1.284|0.1328
92297462|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.928|STANDARD_ERROR_OF_MEAN|3.012||0.7585||95.0|-5.027|6.882|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||6.882|-5.027|0.7585
92297463|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.946|STANDARD_ERROR_OF_MEAN|2.997||0.19||95.0|-1.979|9.871|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||9.871|-1.979|0.1900
92297464|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.43|STANDARD_ERROR_OF_MEAN|3.693||0.2365||95.0|-3.004|11.865|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||11.865|-3.004|0.2365
92297465|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.306|STANDARD_ERROR_OF_MEAN|3.73||0.1616||95.0|-2.202|12.814|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||12.814|-2.202|0.1616
92297466|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.071|STANDARD_ERROR_OF_MEAN|6.911||0.8819||95.0|-17.98|15.838|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||15.838|-17.98|0.8819
92297467|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.071|STANDARD_ERROR_OF_MEAN|11.7||0.4676||95.0|-37.7|19.558|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||19.558|-37.70|0.4676
92297468|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.925|STANDARD_ERROR_OF_MEAN|2.195||0.3813||95.0|-2.403|6.254|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||6.254|-2.403|0.3813
92297469|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.341|STANDARD_ERROR_OF_MEAN|2.236||0.2966||95.0|-2.07|6.751|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||6.751|-2.070|0.2966
92297470|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.962|STANDARD_ERROR_OF_MEAN|2.576||0.4474||95.0|-3.122|7.046|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||7.046|-3.122|0.4474
92297471|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.316|STANDARD_ERROR_OF_MEAN|2.59||0.0416||95.0|0.204|10.427|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||10.427|0.204|0.0416
92297472|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.372|STANDARD_ERROR_OF_MEAN|2.566||0.5935||95.0|-3.694|6.438|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||6.438|-3.694|0.5935
92297473|NCT00442546|184500210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.272|STANDARD_ERROR_OF_MEAN|2.674||0.3966||95.0|-3.006|7.551|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||7.551|-3.006|0.3966
92297474|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.729|STANDARD_ERROR_OF_MEAN|2.631||0.5117||95.0|-3.457|6.916|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||6.916|-3.457|0.5117
92297475|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.532|STANDARD_ERROR_OF_MEAN|2.675||0.0154||95.0|1.258|11.805|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||11.805|1.258|0.0154
92297476|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.901|STANDARD_ERROR_OF_MEAN|2.353||0.7022||95.0|-3.738|5.54|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||5.540|-3.738|0.7022
92297477|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.509|STANDARD_ERROR_OF_MEAN|2.343||0.0557||95.0|-0.11|9.129|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||9.129|-0.110|0.0557
92297478|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.171|STANDARD_ERROR_OF_MEAN|2.552||0.2161||95.0|-1.874|8.215|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||8.215|-1.874|0.2161
92297479|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.135|STANDARD_ERROR_OF_MEAN|2.548||0.0058||95.0|2.098|12.172|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||12.172|2.098|0.0058
92297480|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.185|STANDARD_ERROR_OF_MEAN|3.993||0.1283||95.0|-1.853|14.223|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||14.223|-1.853|0.1283
92297481|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.173|STANDARD_ERROR_OF_MEAN|4.033||0.008||95.0|3.056|19.291|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||19.291|3.056|0.0080
92146129|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<90 mmHg||||0.0001
92297482|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.941|STANDARD_ERROR_OF_MEAN|2.15||0.0018||95.0|7.414|18.468|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||18.468|7.414|0.0018
92297483|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|17.941|STANDARD_ERROR_OF_MEAN|3.533||0.0038||95.0|8.859|27.023|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||27.023|8.859|0.0038
92297484|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.125|STANDARD_ERROR_OF_MEAN|2.115||0.5953||95.0|-3.045|5.296|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||5.296|-3.045|0.5953
92297485|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.331|STANDARD_ERROR_OF_MEAN|2.172||0.1267||95.0|-0.952|7.613|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||7.613|-0.952|0.1267
92297486|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.617|STANDARD_ERROR_OF_MEAN|2.339||0.2647||95.0|-1.997|7.231|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||7.231|-1.997|0.2647
92146130|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<90 mmHg||||0.0003
92297487|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.771|STANDARD_ERROR_OF_MEAN|2.421||0.0181||95.0|0.995|10.548|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||10.548|0.995|0.0181
92297488|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.374|STANDARD_ERROR_OF_MEAN|2.299||0.5507||95.0|-3.161|5.91|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||5.910|-3.161|0.5507
92297489|NCT00442546|184500211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.404|STANDARD_ERROR_OF_MEAN|2.393||0.3164||95.0|-2.317|7.124|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||7.124|-2.317|0.3164
92297490|NCT00442546|184500212|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4365||95.0|||||Log Rank|||||||0.4365
92297491|NCT00442546|184500212|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4023||95.0|||||Log Rank|||||||0.4023
92297492|NCT00442546|184500213|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4024||95.0|||||Log Rank|||||||0.4024
92297493|NCT00442546|184500213|SUPERIORITY_OR_OTHER_LEGACY|||||||0.191||95.0|||||Log Rank|||||||0.1910
92297494|NCT00442546|184500214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.347|STANDARD_ERROR_OF_MEAN|2.497||0.3483||95.0|-2.573|7.268|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||7.268|-2.573|0.3483
92297495|NCT00442546|184500214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.155|STANDARD_ERROR_OF_MEAN|2.498||0.2078||95.0|-1.766|8.077|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||8.077|-1.766|0.2078
92297496|NCT00442546|184500214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.126|STANDARD_ERROR_OF_MEAN|6.436||0.4299||95.0|-7.836|18.088|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||18.088|-7.836|0.4299
92297497|NCT00442546|184500214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.146|STANDARD_ERROR_OF_MEAN|6.726||0.4482||95.0|-8.4|18.693|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||18.693|-8.400|0.4482
92146131|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<85 mmHg||||0.0070
92146132|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0066||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<85 mmHg||||0.0066
92146133|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0061||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<80 mmHg||||0.0061
92146134|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0096||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<80 mmHg||||0.0096
92146135|NCT00949884|184177152|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<140/90 mmHg||||<0.0001
92146136|NCT00949884|184177152|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<140/90 mmHg||||<0.0001
92297498|NCT00442546|184500214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.036|STANDARD_ERROR_OF_MEAN|4.426||0.6472||95.0|-6.818|10.89|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||10.890|-6.818|0.6472
92146137|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0047||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<135/80 mmHg||||0.0047
92146138|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0063||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<135/80 mmHg||||0.0063
92146139|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0589||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates||Percentage of participants achieving blood pressure goal of \<130/80 mmHg||||0.0589
92146140|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0594||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<130/80 mmHg||||0.0594
92146141|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0476||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<120/80 mmHg||||0.0476
92297499|NCT00442546|184500214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.156|STANDARD_ERROR_OF_MEAN|4.642||0.4992||95.0|-6.129|12.442|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||12.442|-6.129|0.4992
92146142|NCT00949884|184177152|SUPERIORITY_OR_OTHER|||||||0.0657||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<120/80 mmHg||||0.0657
92146143|NCT00949884|184177153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.325|TWO_SIDED|95.0|-4.4|1.5|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure as a covariate.||Change from baseline at week 4 in systolic blood pressure.||1.5|-4.4|0.3250
92146144|NCT00949884|184177153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.3491|TWO_SIDED|95.0|-4.4|1.5|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure as a covariate.||Change from baseline at week 4 in systolic blood pressure.||1.5|-4.4|0.3491
92146145|NCT00949884|184177153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.2085|TWO_SIDED|95.0|-3.2|0.7|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 4 in diastolic blood pressure.||0.7|-3.2|0.2085
92146146|NCT00949884|184177153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.2542|TWO_SIDED|95.0|-3.0|0.8|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 4 in diastolic blood pressure.||0.8|-3.0|0.2542
92146147|NCT00949884|184177154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.0209|TWO_SIDED|95.0|-6.6|-0.5|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 8 in systolic blood pressure.||-0.5|-6.6|0.0209
92146148|NCT00949884|184177154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.0186|TWO_SIDED|95.0|-6.6|-0.6|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 8 in systolic blood pressure.||-0.6|-6.6|0.0186
92146149|NCT00949884|184177154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.0175|TWO_SIDED|95.0|-4.5|-0.4|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 8 in diastolic blood pressure.||-0.4|-4.5|0.0175
92146150|NCT00949884|184177154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.0177|TWO_SIDED|95.0|-4.4|-0.4|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 8 in diastolic blood pressure.||-0.4|-4.4|0.0177
92146151|NCT00949884|184177155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.3104|TWO_SIDED|95.0|-5.2|1.7|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime systolic blood pressure||1.7|-5.2|0.3104
92146152|NCT00949884|184177155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.3653|TWO_SIDED|95.0|-4.9|1.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime systolic blood pressure||1.8|-4.9|0.3653
92297500|NCT00442546|184500214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.656|STANDARD_ERROR_OF_MEAN|5.149||0.6072||95.0|-7.578|12.891|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||12.891|-7.578|0.6072
92297501|NCT00442546|184500214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.963|STANDARD_ERROR_OF_MEAN|4.906||0.3146||95.0|-4.789|14.714|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||14.714|-4.789|0.3146
92297502|NCT00442546|184500215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.177|STANDARD_ERROR_OF_MEAN|2.326||0.0739||95.0|-0.407|8.76|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||8.760|-0.407|0.0739
92146153|NCT00949884|184177155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.1197|TWO_SIDED|95.0|-4.1|0.5|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime diastolic blood pressure||0.5|-4.1|0.1197
92297503|NCT00442546|184500215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.176|STANDARD_ERROR_OF_MEAN|2.327||0.074||95.0|-0.409|8.761|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||8.761|-0.409|0.0740
92297504|NCT00442546|184500215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.298|STANDARD_ERROR_OF_MEAN|6.418||0.2615||95.0|-5.628|20.224|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||20.224|-5.628|0.2615
92297505|NCT00442546|184500215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.286|STANDARD_ERROR_OF_MEAN|6.707||0.6266||95.0|-10.22|16.795|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||16.795|-10.22|0.6266
92297506|NCT00442546|184500215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.17|STANDARD_ERROR_OF_MEAN|3.958||0.2963||95.0|-3.747|12.086|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||12.086|-3.747|0.2963
92297507|NCT00442546|184500215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.248|STANDARD_ERROR_OF_MEAN|4.151||0.1375||95.0|-2.054|14.55|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||14.550|-2.054|0.1375
92297508|NCT00442546|184500215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.431|STANDARD_ERROR_OF_MEAN|4.895||0.2703||95.0|-4.298|15.161|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||15.161|-4.298|0.2703
92297509|NCT00442546|184500215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.663|STANDARD_ERROR_OF_MEAN|4.664||0.104||95.0|-1.607|16.933|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||16.933|-1.607|0.1040
92297510|NCT00442546|184500216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.579|STANDARD_ERROR_OF_MEAN|3.154||0.8545||95.0|-5.635|6.793|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||6.793|-5.635|0.8545
92297511|NCT00442546|184500216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.128|STANDARD_ERROR_OF_MEAN|3.155||0.5006||95.0|-4.088|8.344|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||8.344|-4.088|0.5006
92297512|NCT00442546|184500216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.956|STANDARD_ERROR_OF_MEAN|8.248||0.7217||95.0|-13.66|19.569|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||19.569|-13.66|0.7217
92297513|NCT00442546|184500216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.011|STANDARD_ERROR_OF_MEAN|8.62||0.4203||95.0|-10.35|24.372|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||24.372|-10.35|0.4203
92297514|NCT00442546|184500216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|5.6||0.9859||95.0|-11.3|11.102|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||11.102|-11.30|0.9859
92297515|NCT00442546|184500216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|5.873||0.9915||95.0|-11.68|11.811|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||11.811|-11.68|0.9915
92297516|NCT00442546|184500216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.128|STANDARD_ERROR_OF_MEAN|6.508||0.9843||95.0|-13.06|12.808|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||12.808|-13.06|0.9843
92297517|NCT00442546|184500216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.351|STANDARD_ERROR_OF_MEAN|6.201||0.7055||95.0|-9.974|14.677|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||14.677|-9.974|0.7055
92146154|NCT00949884|184177155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.1654|TWO_SIDED|95.0|-3.9|0.7|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime diastolic blood pressure||0.7|-3.9|0.1654
92297518|NCT00442546|184500217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.315||0.9405||95.0|-0.614|0.661|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.661|-0.614|0.9405
92297519|NCT00442546|184500217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.167|STANDARD_ERROR_OF_MEAN|0.287||0.5641||95.0|-0.749|0.415|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.415|-0.749|0.5641
92297520|NCT00442546|184500217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.755||0.5226||95.0|-1.181|2.181|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||2.181|-1.181|0.5226
92297521|NCT00442546|184500217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.167|STANDARD_ERROR_OF_MEAN|0.893||0.8557||95.0|-2.156|1.823|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||1.823|-2.156|0.8557
92297522|NCT00442546|184500217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.328|STANDARD_ERROR_OF_MEAN|0.882||0.1925||95.0|-3.596|0.94|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.940|-3.596|0.1925
92297523|NCT00442546|184500217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.982||0.9654||95.0|-2.568|2.479|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||2.479|-2.568|0.9654
92297524|NCT00442546|184500217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.352|STANDARD_ERROR_OF_MEAN|1.782||0.235||95.0|-6.712|2.008|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||2.008|-6.712|0.2350
92297525|NCT00442546|184500217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.296|STANDARD_ERROR_OF_MEAN|0.859||0.742||95.0|-1.806|2.399|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||2.399|-1.806|0.7420
92297526|NCT00442546|184500218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.208|STANDARD_ERROR_OF_MEAN|0.329||0.5299||95.0|-0.458|0.874|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.874|-0.458|0.5299
92297527|NCT00442546|184500218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.355|STANDARD_ERROR_OF_MEAN|0.3||0.2442||95.0|-0.964|0.253|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.253|-0.964|0.2442
92297528|NCT00442546|184500218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.755||0.5226||95.0|-1.181|2.181|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||2.181|-1.181|0.5226
92297529|NCT00442546|184500218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.167|STANDARD_ERROR_OF_MEAN|0.893||0.8557||95.0|-2.156|1.823|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||1.823|-2.156|0.8557
92297530|NCT00442546|184500218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.119|STANDARD_ERROR_OF_MEAN|1.024||0.324||95.0|-3.751|1.512|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||1.512|-3.751|0.3240
92297531|NCT00442546|184500218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|1.139||0.9503||95.0|-2.853|3.003|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||3.003|-2.853|0.9503
92297532|NCT00442546|184500218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.833|STANDARD_ERROR_OF_MEAN|1.858||0.3618||95.0|-6.379|2.712|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||2.712|-6.379|0.3618
92297533|NCT00442546|184500218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.333|STANDARD_ERROR_OF_MEAN|0.896||0.7226||95.0|-1.859|2.525|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||2.525|-1.859|0.7226
92146155|NCT00949884|184177155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.4362|TWO_SIDED|95.0|-4.4|1.9|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime systolic blood pressure||1.9|-4.4|0.4362
92146156|NCT00949884|184177155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.4039|TWO_SIDED|95.0|-4.5|1.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime systolic blood pressure||1.8|-4.5|0.4039
92297534|NCT00442546|184500219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2473||95.0|||||Cochran-Mantel-Haenszel|||Discharge||||0.2473
92297535|NCT00442546|184500219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0239||95.0|||||Cochran-Mantel-Haenszel|||Discharge||||0.0239
92297536|NCT00442546|184500219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6118||95.0|||||Cochran-Mantel-Haenszel|||Week 2||||0.6118
92297537|NCT00442546|184500219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.673||95.0|||||Cochran-Mantel-Haenszel|||Week 2||||0.6730
92297538|NCT00442546|184500219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5954||95.0|||||Cochran-Mantel-Haenszel|||Week 4||||0.5954
92297539|NCT00442546|184500219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7784||95.0|||||Cochran-Mantel-Haenszel|||Week 4||||0.7784
92297540|NCT00442546|184500219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7293||95.0|||||Cochran-Mantel-Haenszel|||Week 6/ET||||0.7293
92297541|NCT00442546|184500219|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5202||95.0|||||Cochran-Mantel-Haenszel|||Week 6/ET||||0.5202
92297542|NCT00442546|184500220|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1509||95.0|||||Cochran-Mantel-Haenszel|||Month 3||||0.1509
92146157|NCT00949884|184177155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.3929|TWO_SIDED|95.0|-3.1|1.2|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime diastolic blood pressure||1.2|-3.1|0.3929
92146158|NCT00949884|184177155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.4259|TWO_SIDED|95.0|-3.0|1.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime diastolic blood pressure||1.3|-3.0|0.4259
92297543|NCT00442546|184500220|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3822||95.0|||||Cochran-Mantel-Haenszel|||Month 3||||0.3822
92297544|NCT00442546|184500220|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2825||95.0|||||Cochran-Mantel-Haenszel|||Month 6||||0.2825
92297545|NCT00442546|184500220|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7733||95.0|||||Cochran-Mantel-Haenszel|||Month 6||||0.7733
92297546|NCT04052698|184500236|NON_INFERIORITY|1-sided test where the mean ratio is less than 0.5 utilizing a negative binomial counting regression model. One-sided alpha level of 2.5%.|Mean Difference (Final Values)|0.1645|||<|0.0001|TWO_SIDED|95.0|0.10194|0.26558|||Regression, Linear|||||0.26558|0.10194|<0.0001
92297547|NCT04052698|184500238|NON_INFERIORITY|1-sided test where the mean ratio is less than 0.5 utilizing a negative binomial counting regression model. One-sided alpha level of 2.5%.|Mean Difference (Final Values)|0.1389|||<|0.0001|TWO_SIDED|95.0|0.07664|0.25187|||Regression, Linear|||||0.25187|0.07664|<0.0001
92297548|NCT06442410|184500250|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297549|NCT06442410|184500251|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297550|NCT06442410|184500252|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297551|NCT06442410|184500253|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297552|NCT06442410|184500254|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297553|NCT06442410|184500255|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297554|NCT06442410|184500257|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS.|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297555|NCT06442410|184500258|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297556|NCT06442410|184500259|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS.|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297557|NCT06442410|184500260|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297558|NCT06442410|184500261|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297559|NCT06442410|184500262|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297560|NCT06442410|184500263|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92297561|NCT02449473|184500283|SUPERIORITY|The model included treatment group as fixed effect and baseline log-transformed airway submucosal eosinophils as a continuous covariate. No interaction terms were included in the model. The analysis was performed using log-transformed data. All group comparisons from analysis of covariance (ANCOVA) model were based on Type III sums of squares.|Least square (LS) geometric mean ratio|1.43||||0.3862|TWO_SIDED|95.0|0.63|3.27|||ANCOVA|||Comparison of change from baseline, expressed as a ratio, in airway submucosal eosinophils; Tralo 300 mg Q2W vs placebo. The null hypothesis was that the change in airway submucosal eosinophils at Week 12 on tralokinumab was equal to the corresponding change on placebo.||3.27|0.63|0.3862
92297562|NCT02449473|184500284|SUPERIORITY|The repeated measures analysis included treatment group, baseline log-transformed eosinophils and visit as fixed effects. Treatment-by-visit interaction was also included. The analysis was performed using log-transformed data. A restricted maximum likelihood (REML) approach was used. An unstructured variance-covariance matrix was used to model the within-subject errors.|LS geometric mean ratio|1.21||||0.0546|TWO_SIDED|95.0|1.0|1.48|||Repeated measures analysis|||Comparison of change from baseline, expressed as a ratio, in blood eosinophil count; Tralo 300 mg Q2W vs placebo.||1.48|1.00|0.0546
92297563|NCT02449473|184500285|SUPERIORITY|The repeated measures analysis included treatment group, baseline log-transformed differential sputum eosinophils and visit as fixed effects. Treatment-by-visit interaction was also included. The analysis was performed using log-transformed data. A REML approach was used. An unstructured variance-covariance matrix was used to model the within-subject errors.|LS geometric mean ratio|0.57||||0.6334|TWO_SIDED|95.0|0.06|6.0|||Repeated measures analysis|||Comparison of change from baseline, expressed as a ratio, in differential sputum eosinophils; Tralo 300 mg Q2W vs placebo.||6.00|0.06|0.6334
92297564|NCT02449473|184500286|SUPERIORITY|The repeated measures analysis included treatment group, baseline log-transformed blood free ECP and visit as fixed effects. Treatment-by-visit interaction was also included. The analysis was performed using log-transformed data. A REML approach was used. An unstructured variance-covariance matrix was used to model the within-subject errors.|LS geometric mean ratio|1.11||||0.3769|TWO_SIDED|95.0|0.88|1.4|||Repeated measures analysis|||Comparison of change from baseline, expressed as a ratio, in blood free ECP concentration; Tralo 300 mg Q2W vs placebo.||1.40|0.88|0.3769
92297565|NCT02449473|184500287|SUPERIORITY|The repeated measures analysis included treatment group, baseline log-transformed sputum free ECP and visit as fixed effects. Treatment-by-visit interaction was also included. The analysis was performed using log-transformed data. A REML approach was used. An unstructured variance-covariance matrix was used to model the within-subject errors.|LS geometric mean ratio|0.49||||0.1126|TWO_SIDED|95.0|0.2|1.2|||Repeated measures analysis|||Comparison of change from baseline, expressed as a ratio, in sputum free ECP concentration; Tralo 300 mg Q2W vs placebo.||1.20|0.20|0.1126
92297566|NCT03535857|184500288|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.546|TWO_SIDED|95.0|||||Pairwise t- test|||||||0.546
92297567|NCT00546910|184500297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|||<|0.001|TWO_SIDED|95.0|0.52|0.87||P-value is for Time Active overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Time Active was tested at rank 8.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.87|0.52|<0.001
92297568|NCT00546910|184500297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27|||<|0.001|TWO_SIDED|95.0|0.98|1.57||P-value is for Distance overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Distance was tested at rank 5.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.57|0.98|<0.001
92297569|NCT00546910|184500297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08|||<|0.001|TWO_SIDED|95.0|0.81|1.35||P-value is for Area overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Area was tested at rank 6.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.35|0.81|<0.001
92297570|NCT00546910|184500297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|95.0|0.78|1.22||P-value is for Microevents overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Microevents was tested at rank 3.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.22|0.78|<0.001
92146159|NCT00949884|184177156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.0396|TWO_SIDED|95.0|-6.8|-0.2|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime systolic blood pressure||-0.2|-6.8|0.0396
92146160|NCT00949884|184177156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.0345|TWO_SIDED|95.0|-6.8|-0.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime systolic blood pressure||-0.3|-6.8|0.0345
92185712|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|0.0|||||TWO_SIDED|95.0|-2.0|1.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa\_HBV-IPV vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was, for PnC 9V, greater than -10%.||1|-2|
92297571|NCT00546910|184500297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38|||<|0.001|TWO_SIDED|95.0|0.18|0.58||P-value is for Motion Simplicity overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Motion Simplicity was tested at rank 9.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.58|0.18|<0.001
92297572|NCT00546910|184500298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.6|||<|0.001|TWO_SIDED|95.0|8.2|14.99||P-value for ADHD-RS Total Score|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||Comparison of atomoxetine vs. placebo at Visit 7 (Week 8)||14.99|8.20|<0.001
92146161|NCT00949884|184177156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.0324|TWO_SIDED|95.0|-4.8|-0.2|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime diastolic blood pressure||-0.2|-4.8|0.0324
92297573|NCT00546910|184500299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.11|||<|0.001|TWO_SIDED|95.0|0.76|1.46||P-value for CGI-S ADHD score|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||Comparison of atomoxetine vs. placebo at Visit 7 (Week 8)||1.46|0.76|<0.001
92297574|NCT00546910|184500300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.74|||<|0.001|TWO_SIDED|95.0|3.55|7.92||P-value for Total Score|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||7.92|3.55|<0.001
92297575|NCT00546910|184500300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.96||||0.001|TWO_SIDED|95.0|2.49|5.44||P-value for Evening subscore|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||5.44|2.49|0.001
92297576|NCT00546910|184500300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.18|||<|0.002|TWO_SIDED|95.0|0.42|1.93||P-value for Morning subscore|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.93|0.42|<0.002
92297577|NCT00546910|184500300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62|||<|0.001|TWO_SIDED|95.0|0.31|0.93||P-value for Item 11 (difficulty falling asleep).|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.93|0.31|<0.001
92297578|NCT00546910|184500301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01|||<|0.001|TWO_SIDED|95.0|0.66|1.35||P-value is for Reaction Time Variation overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Reaction time variation was tested at rank 1.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.35|0.66|<0.001
92297579|NCT00546910|184500301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|||<|0.001|TWO_SIDED|95.0|0.46|0.93||P-value is for Omission Error overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Omission error was tested at rank 7.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.93|0.46|<0.001
92297580|NCT00546910|184500301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|||<|0.001|TWO_SIDED|95.0|0.17|0.65||P-value is for Mean Reaction Time overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Mean reaction time was tested at rank 2.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.65|0.17|<0.001
92297581|NCT00546910|184500301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||<|0.001|TWO_SIDED|95.0|0.26|0.73||P-value is for Normalized Variation of Reaction Time overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Normalized Variation of Reaction Time was tested at rank 10.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.73|0.26|<0.001
92297582|NCT00546910|184500302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||<|0.001|TWO_SIDED|95.0|0.31|0.68||P-value is for Commission Error overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Commission Error was tested at rank 4.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.68|0.31|<0.001
92297583|NCT00546910|184500302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.022|TWO_SIDED|95.0|0.02|0.31||P-value is for Anticipatory Response overall for morning, noon and evening. Anticipatory Response was not tested in the primary analysis but is a secondary endpoint.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.31|0.02|0.022
92146162|NCT00949884|184177156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.0363|TWO_SIDED|95.0|-4.7|-0.2|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime diastolic blood pressure||-0.2|-4.7|0.0363
92146163|NCT00949884|184177156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.0988|TWO_SIDED|95.0|-6.5|0.6|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime systolic blood pressure||0.6|-6.5|0.0988
92146164|NCT00949884|184177156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.0926|TWO_SIDED|95.0|-6.4|0.5|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime systolic blood pressure||0.5|-6.4|0.0926
92297584|NCT00546910|184500303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94|||<|0.001|TWO_SIDED|95.0|0.69|1.18||P-value is for Error Rate overall for morning, noon and evening. Error Rate was not tested in the primary analysis but is a secondary endpoint.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.18|0.69|<0.001
92297585|NCT00546910|184500303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.178|TWO_SIDED|95.0|0.05|0.28||P-value is for Multi Response overall for morning, noon and evening. Multi Response was not tested in the primary analysis but is a secondary endpoint.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.28|0.05|0.178
92297586|NCT04039919|184500337|OTHER||Geometric LS Mean ratio|0.785|||||TWO_SIDED|90.0|0.6513|0.9461||||||The log-transformed PK parameters was analyzed by a mixed analysis of variance (ANOVA) with period and treatment as fixed effects and study participant as the random effect. The estimates and confidence intervals are back-transformed after the analysis.||0.9461|0.6513|
92297587|NCT04039919|184500338|OTHER||Geometric LS Mean Ratio|0.8342|||||TWO_SIDED|90.0|0.6999|0.9942||||||The log-transformed PK parameters was analyzed by a mixed ANOVA with period and treatment as fixed effects and study participant as the random effect. The estimates and confidence intervals are back-transformed after the analysis.||0.9942|0.6999|
92185713|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|0.0|||||TWO_SIDED|95.0|-4.0|3.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 vaccine when given concomitantly with rMenB and DTPa-HBV-IPV at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was, for PnC14 antigen, greater than -10%.||3|-4|
92297588|NCT03460158|184500365|OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.1524||0.8822|TWO_SIDED|95.0|||||t-test, 2 sided|||Two-sample t test with equal variances the null hypothesis is the relative change in volume and relative change in patient reported outcomes will be the same at 2 weeks post injection||||0.8822
92297589|NCT03460158|184500365|OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.1466||0.2223|TWO_SIDED|95.0|||||t-test, 2 sided|||Two-sample t test with equal variances the null hypothesis is the change in volume and change in patient reported outcomes will be the same at 4 weeks post injection||||0.2223
92297590|NCT03460158|184500365|OTHER||Mean Difference (Final Values)|-0.369|STANDARD_ERROR_OF_MEAN|0.113||0.0015|TWO_SIDED|95.0|||||t-test, 2 sided|||Two-sample t test with equal variances the null hypothesis is the change in volume and change in patient reported outcomes will be the same at 12 weeks post injection||||0.0015
92297591|NCT01011556|184500367|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 3.5% was used.|Difference in Least Square Means|-7.17|||<|0.001|TWO_SIDED|90.0|-8.489|-5.851|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-5.851|-8.489|<0.001
92297592|NCT01011556|184500367|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 3.5% was used.|Difference in Least Square Means|-7.48|||<|0.001|TWO_SIDED|90.0|-8.822|-6.144|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-6.144|-8.822|<0.001
92297593|NCT01011556|184500367|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 3.5% was used.|Difference in Least Square Means|-6.17|||<|0.001|TWO_SIDED|90.0|-7.448|-4.891|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-4.891|-7.448|<0.001
92297594|NCT01011556|184500368|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-4.58|||<|0.001|TWO_SIDED|90.0|-5.716|-3.452|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-3.452|-5.716|<0.001
92297595|NCT01011556|184500368|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-3.87|||<|0.001|TWO_SIDED|90.0|-5.006|-2.727|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-2.727|-5.006|<0.001
92297596|NCT01011556|184500368|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-3.56|||<|0.001|TWO_SIDED|90.0|-4.652|-2.464|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-2.464|-4.652|<0.001
92297597|NCT01011556|184500369|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-4.53|STANDARD_ERROR_OF_MEAN|0.687|<|0.001|TWO_SIDED|90.0|-5.663|-3.392||p-value is for change in BMD at 6 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-3.392|-5.663|<0.001
92297598|NCT01011556|184500369|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-3.94|STANDARD_ERROR_OF_MEAN|0.692|<|0.001|TWO_SIDED|90.0|-5.086|-2.8||p-value is for change in BMD at 6 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-2.800|-5.086|<0.001
92297599|NCT01011556|184500369|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-3.53|STANDARD_ERROR_OF_MEAN|0.665|<|0.001|TWO_SIDED|90.0|-4.627|-2.43||p-value is for change in BMD at 6 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-2.430|-4.627|<0.001
92297600|NCT01011556|184500369|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-7.5|STANDARD_ERROR_OF_MEAN|0.818|<|0.001|TWO_SIDED|90.0|-8.856|-6.151||p-value is for change in BMD at 12 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-6.151|-8.856|<0.001
92297601|NCT01011556|184500369|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-7.46|STANDARD_ERROR_OF_MEAN|0.83||0.001|TWO_SIDED|90.0|-8.835|-6.091||p-value for change in BMD at 12 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-6.091|-8.835|0.001
92297602|NCT01011556|184500369|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-6.19|STANDARD_ERROR_OF_MEAN|0.802||0.001|TWO_SIDED|90.0|-7.51|-4.86||p-value is for change in BMD at 12 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-4.860|-7.510|0.001
92297603|NCT01011556|184500370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
92297604|NCT01011556|184500370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
92297605|NCT01011556|184500370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
92297606|NCT01011556|184500370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||<0.001
92297607|NCT01011556|184500370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||<0.001
92297608|NCT01011556|184500370|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||0.003
92297609|NCT01011556|184500370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||<0.001
92297610|NCT01011556|184500370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||<0.001
92297611|NCT01011556|184500370|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||0.029
92297612|NCT01011556|184500370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||<0.001
92297613|NCT01011556|184500370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||<0.001
92297614|NCT01011556|184500370|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||0.047
92297615|NCT01011556|184500371|SUPERIORITY_OR_OTHER|||||||0.822||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||0.822
92297616|NCT01011556|184500371|SUPERIORITY_OR_OTHER|||||||0.406||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||0.406
92297617|NCT01011556|184500371|SUPERIORITY_OR_OTHER|||||||0.312||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||0.312
92297618|NCT01011556|184500371|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||<0.001
92297619|NCT01011556|184500371|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||<0.001
92297620|NCT01011556|184500371|SUPERIORITY_OR_OTHER|||||||0.952||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||0.952
92297621|NCT01011556|184500371|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||<0.001
92297622|NCT01011556|184500371|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||0.011
92297623|NCT01011556|184500371|SUPERIORITY_OR_OTHER|||||||0.997||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||0.997
92297624|NCT01011556|184500371|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||0.003
92297625|NCT01011556|184500371|SUPERIORITY_OR_OTHER|||||||0.112||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||0.112
92297626|NCT01011556|184500371|SUPERIORITY_OR_OTHER|||||||0.988||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||0.988
92297627|NCT01011556|184500372|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
92297628|NCT01011556|184500372|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
92297629|NCT01011556|184500372|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
92297630|NCT02075606|184500394|OTHER||Odds Ratio (OR)|0.17|||=|0.126|TWO_SIDED|95.0|0.02|1.65|||Regression, Logistic|||Clinical symptomatic response as dependent variable and CTC presence at baseline as explanatory variable was used to perform the logistic regression analysis.||1.65|0.02|=0.126
92185714|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-3.0|1.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa-HBV-IPV vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was, for PnC 18C antigen greater than -10%.||1|-3|
92297631|NCT03420768|184500401|SUPERIORITY||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.13|17.7||||||||17.70|0.13|
92297632|NCT03420768|184500401|SUPERIORITY||Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|0.26|20.23||||||||20.23|0.26|
92297633|NCT00983476|184500408|SUPERIORITY_OR_OTHER||Slope|2.2||||0.11|TWO_SIDED||||||Mixed Models Analysis||Reference group is Web-based MOVE SMI: In-person MOVE SMI visit x group Beta estimate is .27 (p=.08); Reference group is Web-based MOVE SMI: Usual care plus handouts visit x group Beta estimate is .29 (p=.06).|Difference in Body Mass Index (BMI) by study arm at 6 months after controlling for BMI 6 months prior to baseline using a repeated measures mixed model with arm, time, and the interaction of arm by time||||0.11
92297634|NCT00983476|184500409|SUPERIORITY_OR_OTHER||Slope|4.02||||0.02|TWO_SIDED||||||Mixed Models Analysis||Reference group is Web-based MOVE SMI: In-person MOVE SMI visit x group Beta estimate is .40 (p=.02); Reference group is Web-based MOVE SMI: Usual care plus handouts visit x group Beta estimate is .44 (p=.01).|In the obese sample, difference in Body Mass Index (BMI) by study arm at 6 months after controlling for BMI 6 months prior to baseline using a repeated measures mixed model with arm, time, and the interaction of arm by time||||0.02
92297635|NCT00983476|184500410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.14||||0.32|TWO_SIDED||||||ANOVA||No comparison between groups was conducted because overall model test was not statistically significant.|||||0.32
92297636|NCT00983476|184500411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.23||||0.11|TWO_SIDED||||||ANOVA||No comparison between groups was conducted because overall model test was NS.|||||0.11
92297637|NCT00983476|184500412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75||||0.47|TWO_SIDED||||||ANOVA||No comparison between groups was conducted because overall model test was NS.|||||0.47
92297638|NCT00983476|184500413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67||||0.51|TWO_SIDED||||||ANOVA||No comparison between groups was conducted because overall model test was NS.|||||0.51
92297639|NCT00983476|184500414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.83|TWO_SIDED||||||ANOVA||No comparison between groups was conducted because overall model test was NS.|||||0.83
92297640|NCT01439724|184500420|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.158||||0.05|TWO_SIDED|95.0|0.05|0.498|||Chi-squared|||The primary end point of the study was the incidence of grade 3-4 oral mucositis (OM) according to the WHO scale. Assuming an α =0.05 and a β = 0.20, with the estimates of proportion being 0.40 for placebo (P0) and 0.15 for LLLT (P1) a total of 94 patients were evaluated. One-sided test error was the basis for the sample size determination and all the reported P-values were derived from two-sided statistical tests. P-values less than or equal to 0.05 were considered statistically significant.||0.498|0.050|0.05
92297641|NCT01483625|184500428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0569|STANDARD_ERROR_OF_MEAN|0.055||0.3025|TWO_SIDED|95.0|-0.0516|0.1654|||Mixed effect repeated measures (MMRM)|Fixed effects:treatment,visit,treatment by visit,baseline and baseline by visit. Random:Patient. A spatial power covariance structure was used.||Tiotropium 18 mcg minus Placebo||0.1654|-0.0516|0.3025
92297642|NCT01483625|184500429|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.99|STANDARD_ERROR_OF_MEAN|0.44||0.7823|TWO_SIDED|95.0|0.9053|1.078|||2sample t quantiles with pooled variance|||Comparison Tiotropium 18 mcg Vs Placebo||1.0780|0.9053|0.7823
92297643|NCT01483625|184500430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0099|STANDARD_ERROR_OF_MEAN|0.0806||0.9025|TWO_SIDED|95.0|-0.1489|0.1686||Comparison Tiotropium 18 mcg Vs Placebo at Week 12|Mixed effects repeated measures (MMRM)|Fixed effects:treatment,visit,treatment by visit,baseline and baseline by visit. Patient was random. A spatial power covariance structure was used.||||0.1686|-0.1489|0.9025
92297644|NCT01483625|184500433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.061|STANDARD_ERROR_OF_MEAN|3.0115||0.1797|TWO_SIDED|95.0|-10.0157|1.8938|||t-test, 2 sided|95% confidence interval is based on 2 sample t quantiles using pooled variance.||Comparison Tiotropium 18 mcg Vs Placebo Over 12 Weeks||1.8938|-10.0157|0.1797
92297645|NCT04019054|184500441|SUPERIORITY|Repeated-measure MANOVA was utilized to compare control and active group.||||||0.518|||||||ANOVA|||||||0.518
92297646|NCT04019054|184500442|SUPERIORITY|Repeated-measure MANOVA was utilized to compare control and active group. This allowed for examination between and within each group. Analysis described here is within-group differences.||||||0.008||||||a priori threshold for significance of p=0.05. Observed power η2=0.39.|ANOVA|||||||0.008
92297647|NCT04019054|184500442|SUPERIORITY|Repeated-measure MANOVA was utilized to compare control and active group. This allowed for examination between and within each group. Analysis described here is between-group differences.|||||>|0.05||||||a priori threshold for significance of p=0.05.|ANOVA|||||||>0.05
92297648|NCT04019054|184500443|SUPERIORITY|Repeated-measure MANOVA was utilized to compare control and active group. This allowed for examination between and within each group. Result described here is within-group difference over time.||||||0.004||||||a priori threshold for significance p=0.05. Result above describes within group testing over time. Observed power η2=0.43.|ANOVA|||||||0.004
92297649|NCT04019054|184500443|SUPERIORITY|Repeated-measure MANOVA was utilized to compare control and active group. This allowed for examination between and within each group. Result described here is the between-group comparison|||||>|0.05||||||a priori threshold for significance p=0.05|ANOVA|||||||>0.05
92297650|NCT04019054|184500444|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.01||||||Threshold for significance was p=0.05.|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of skin conductance level (SCL) as a function of step and timepoint. This multi-level model was generated using the menbreg function in Stata 16||||<0.01
92297651|NCT04019054|184500444|SUPERIORITY|||||||0.029||||||a priori threshold for significance of 0.05|Mixed Models Analysis|||The second statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of skin conductance level (SCL) (as a function of step and timepoint).||||0.029
92297652|NCT04019054|184500445|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance was p=0.05.|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of anticipatory distress as a function of step and timepoint. This multi-level model was generated using the menbreg function in Stata 16||||<0.001
92297653|NCT04019054|184500445|SUPERIORITY|||||||0.63||||||a priori threshold for significance of 0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of anticipatory distress as a function of step and timepoint.||||0.63
92185715|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|0.0|||||TWO_SIDED|95.0|-3.0|4.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa-HBV-IPV vaccine at 2, 4 and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was for PnC 19F antigen, greater than -10%.||4|-3|
92297654|NCT04019054|184500445|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance of p=0.05|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of anticipatory distress as a function of treatment group and timepoint. This multi-level model was generated using the menbreg function in Stata 16||||<.001
92297655|NCT04019054|184500445|SUPERIORITY||||||<|0.001||||||a priori threshold for significance of 0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of anticipatory distress as a function of group and timepoint.||||<0.001
92297656|NCT04019054|184500445|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance was p=0.05.|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of anticipatory distress as a function of step and group. This multi-level model was generated using the menbreg function in Stata 16||||<0.001
92297657|NCT04019054|184500445|SUPERIORITY|||||||0.047||||||a priori threshold for significance of 0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of anticipatory distress as a function of step and group.||||0.047
92297658|NCT04019054|184500446|SUPERIORITY||Mann Whitney U statistic|13.5|STANDARD_ERROR_OF_MEAN|9.58||0.027|TWO_SIDED|||||a priori threshold for significance of p=0.05|Wilcoxon (Mann-Whitney)|||2-sided Mann-Whitney U Test (nonparametric) utilized to compare the ability of the groups to tolerate treatment intensity.||||0.027
92297659|NCT04019054|184500448|OTHER|A pair of chi-square analyses were performed to validate blinding of the study (based on questionnaires completed by subjects and raters). Given the small sample size, Fisher's exact method was utilized. The number of correct and incorrect guesses for each group were examined once for the subject guesses and once for the rater's guesses.|||||>|0.05|||||||Fisher Exact|For the subjects, p=0.64 using Fisher's exact method. For the raters, p=1 using Fisher's exact method.||||||>.05
92297660|NCT04019054|184500449|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance was p=0.05.|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of maximum distress as a function of step and timepoint. This multi-level model was generated using the menbreg function in Stata 16||||<.001
92297661|NCT04019054|184500449|SUPERIORITY||||||>|0.05||||||a priori threshold for significance of 0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of maximum distress as a function of step and timepoint.||||>.05
92297662|NCT04019054|184500449|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance of p=0.05|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of maximum distress as a function of treatment group and timepoint. This multi-level model was generated using the menbreg function in Stata 16||||<.001
92297663|NCT04019054|184500449|SUPERIORITY||||||<|0.001||||||a priori threshold for significance of p=0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of maximum distress as a function of group and timepoint.||||<.001
92297664|NCT04019054|184500449|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance was p=0.05.|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of maximum distress as a function of step and group. This multi-level model was generated using the menbreg function in Stata 16||||<0.001
92297665|NCT04019054|184500449|SUPERIORITY|||||||0.024||||||a priori threshold for significance of p=0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of maximum distress as a function of step and group.||||0.024
92297666|NCT01040793|184500459|SUPERIORITY_OR_OTHER||Ratio to placebo|1.118|STANDARD_ERROR_OF_MEAN|0.04||0.0018||95.0|1.043|1.199|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline endurance time and period as fixed and patient as random effect. Means, CI back-transformed.|Olo 5 mcg divided by Placebo|||1.199|1.043|0.0018
92297667|NCT01040793|184500459|SUPERIORITY_OR_OTHER||Ratio to placebo|1.105|STANDARD_ERROR_OF_MEAN|0.039||0.0052||95.0|1.03|1.184|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline endurance time and period as fixed and patient as random effect. Means, CI back-transformed.|Olo 10 mcg divided by Placebo|||1.184|1.030|0.0052
92297668|NCT01040793|184500460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.035||0.0155||95.0|0.016|0.152|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.152|0.016|0.0155
92297669|NCT01040793|184500460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.098|0.234|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.234|0.098|<0.0001
92297670|NCT01040793|184500461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.366|STANDARD_ERROR_OF_MEAN|0.214||0.1176||95.0|-0.757|0.085|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.085|-0.757|0.1176
92297671|NCT01040793|184500461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.214||0.7591||95.0|-0.486|0.355|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.355|-0.486|0.7591
92297672|NCT01040793|184500462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.094|0.234|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.234|0.094|<0.0001
92297673|NCT01040793|184500462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.195|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.125|0.265|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.265|0.125|<0.0001
92297674|NCT01040793|184500463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|STANDARD_ERROR_OF_MEAN|0.034||0.0245||95.0|0.01|0.146|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.146|0.010|0.0245
92297675|NCT01040793|184500463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.105|0.24|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.240|0.105|<0.0001
92297676|NCT01040793|184500464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.074|STANDARD_ERROR_OF_MEAN|0.07||0.2897||95.0|-0.211|0.063|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.063|-0.211|0.2897
92297677|NCT01040793|184500464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.069||0.7199||95.0|-0.162|0.112|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.112|-0.162|0.7199
92297678|NCT01040793|184500465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.146||0.5313||95.0|-0.196|0.379|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.379|-0.196|0.5313
92297679|NCT01040793|184500465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.341|STANDARD_ERROR_OF_MEAN|0.146||0.0198||95.0|0.055|0.628|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.628|0.055|0.0198
92297680|NCT01040793|184500466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.086|STANDARD_ERROR_OF_MEAN|0.053||0.1048||95.0|-0.19|0.018|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.018|-0.190|0.1048
92297681|NCT01040793|184500466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.053||0.0246||95.0|-0.224|-0.015|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||-0.015|-0.224|0.0246
92146165|NCT00949884|184177156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.09|TWO_SIDED|95.0|-4.5|0.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime diastolic blood pressure||0.3|-4.5|0.0900
92146166|NCT00949884|184177156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.0942|TWO_SIDED|95.0|-4.4|0.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime diastolic blood pressure||0.3|-4.4|0.0942
92146167|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.3229|TWO_SIDED|95.0|-5.4|1.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour systolic blood pressure||1.8|-5.4|0.3229
92146168|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.3863|TWO_SIDED|95.0|-5.1|2.0|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour systolic blood pressure||2.0|-5.1|0.3863
92146169|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.1277|TWO_SIDED|95.0|-4.5|0.6|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour diastolic blood pressure||0.6|-4.5|0.1277
92146170|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.1799|TWO_SIDED|95.0|-4.3|0.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour diastolic blood pressure||0.8|-4.3|0.1799
92146171|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.2708|TWO_SIDED|95.0|-5.1|1.4|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour systolic blood pressure||1.4|-5.1|0.2708
92297682|NCT01040793|184500467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.213|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001||95.0|-0.318|-0.108|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||-0.108|-0.318|<0.0001
92297683|NCT01040793|184500467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.187|STANDARD_ERROR_OF_MEAN|0.054||0.0005||95.0|-0.293|-0.082|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||-0.082|-0.293|0.0005
92297684|NCT01040793|184500468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.04||0.0002||95.0|0.071|0.228|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.228|0.071|0.0002
92146172|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.3133|TWO_SIDED|95.0|-5.0|1.6|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour systolic blood pressure||1.6|-5.0|0.3133
92146173|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.1621|TWO_SIDED|95.0|-3.9|0.7|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour diastolic blood pressure||0.7|-3.9|0.1621
92146174|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.2314|TWO_SIDED|95.0|-3.7|0.9|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour diastolic blood pressure||0.9|-3.7|0.2314
92146175|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.2461|TWO_SIDED|95.0|-5.0|1.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour systolic blood pressure||1.3|-5.0|0.2461
92297685|NCT01040793|184500468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.04||0.0001||95.0|0.076|0.233|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.233|0.076|0.0001
92297686|NCT01040793|184500469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.162|0.303|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.303|0.162|<0.0001
92297687|NCT01040793|184500469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.133|0.273|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.273|0.133|<0.0001
92297688|NCT01040793|184500470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.056||0.3109||95.0|-0.053|0.166|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.166|-0.053|0.3109
92297689|NCT01040793|184500470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029|STANDARD_ERROR_OF_MEAN|0.056||0.608||95.0|-0.081|0.138|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.138|-0.081|0.6080
92146176|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.2558|TWO_SIDED|95.0|-5.0|1.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour systolic blood pressure||1.3|-5.0|0.2558
92146177|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.17|TWO_SIDED|95.0|-3.8|0.7|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour diastolic blood pressure||0.7|-3.8|0.1700
92146178|NCT00949884|184177157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.2011|TWO_SIDED|95.0|-3.7|0.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour diastolic blood pressure||0.8|-3.7|0.2011
92146179|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.1895|TWO_SIDED|95.0|-7.0|1.4|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour systolic blood pressure||1.4|-7.0|0.1895
92146180|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.2701|TWO_SIDED|95.0|-6.5|1.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour systolic blood pressure||1.8|-6.5|0.2701
92297690|NCT01040793|184500471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.056||0.6809||95.0|-0.087|0.133|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.133|-0.087|0.6809
92297691|NCT01040793|184500471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.056||0.858||95.0|-0.1|0.12|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.120|-0.100|0.8580
92297692|NCT01040793|184500472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.073|0.148|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.148|0.073|<0.0001
92297693|NCT01040793|184500472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.073|0.148|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.148|0.073|<0.0001
92297694|NCT01040793|184500473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.151|0.233|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.233|0.151|<0.0001
92297695|NCT01040793|184500473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.195|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.153|0.236|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.236|0.153|<0.0001
92297696|NCT01040793|184500474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.036||0.0013||95.0|0.047|0.191|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.191|0.047|0.0013
92297697|NCT01040793|184500474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.037||0.0013||95.0|0.047|0.191|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.191|0.047|0.0013
92297698|NCT01040793|184500475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.196|0.333|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.333|0.196|<0.0001
92297699|NCT01040793|184500475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.212|0.35|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.350|0.212|<0.0001
92297700|NCT01040793|184500476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.156|0.405|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.405|0.156|<0.0001
92297701|NCT01040793|184500476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.291|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.166|0.416|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.416|0.166|<0.0001
92297702|NCT01040793|184500477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|0.441|0.719|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.719|0.441|<0.0001
92297703|NCT01040793|184500477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.552|STANDARD_ERROR_OF_MEAN|0.071|<|0.0001||95.0|0.412|0.691|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.691|0.412|<0.0001
92297704|NCT02412722|184500494|SUPERIORITY||Geometric Mean Ratio|0.59|||||TWO_SIDED|90.0|0.46|0.76||||||||0.76|0.46|
92297705|NCT02412722|184500495|SUPERIORITY||Geometric Mean Ratio|0.9|||||TWO_SIDED|90.0|0.59|1.36||||||||1.36|0.59|
92297706|NCT02412722|184500496|SUPERIORITY||Geometric Mean Ratio|1.04|||||TWO_SIDED|90.0|0.72|1.49||||||||1.49|0.72|
92297707|NCT02412722|184500500|SUPERIORITY||Geometric Mean Ratio|1.07|||||TWO_SIDED|90.0|0.78|1.47||||||||1.47|0.78|
92297708|NCT02412722|184500501|SUPERIORITY||Geometric Mean Ratio|1.12|||||TWO_SIDED|90.0|0.75|1.68||||||||1.68|0.75|
92297709|NCT02412722|184500502|SUPERIORITY||Geometric Mean Ratio|0.92|||||TWO_SIDED|90.0|0.67|1.26||||||||1.26|0.67|
92297710|NCT03877926|184500513|EQUIVALENCE|The 95% CIs for the Day 64 TNA NF50 GMT ratios between AV7909 Lot 1 and Lot 2 had to be within 0.5 to 2.0 equivalence margin.|Ratio|1.01|||||TWO_SIDED|95.0|0.93|1.1||||||||1.10|0.93|
92297711|NCT03877926|184500513|EQUIVALENCE|The 95% CIs for the Day 64 TNA NF50 GMT ratios between AV7909 Lot 1 and Lot 3 had to be within 0.5 to 2.0 equivalence margin.|Ratio|1.05|||||TWO_SIDED|95.0|0.96|1.14||||||||1.14|0.96|
92297712|NCT03877926|184500513|EQUIVALENCE|The 95% CIs for the Day 64 TNA NF50 GMT ratios between AV7909 Lot 2 and Lot 3 had to be within 0.5 to 2.0 equivalence margin.|Ratio|1.04|||||TWO_SIDED|95.0|0.95|1.13||||||||1.13|0.95|
92297713|NCT03877926|184500515|OTHER||Percentage of participants|66.3|||||TWO_SIDED|95.0|64.5|68.1||||||||68.1|64.5|
92297714|NCT03877926|184500516|NON_INFERIORITY|A non-inferiority margin of -15% was used for the difference in percentage of AV7909 participants (pooled from three AV7909 study groups \[Lot 1, 2, and 3\]) vs. BioThrax participants who achieved TNA NF50 ≥0.29 at Day 64. The success criterion was defined as the lower bound of 95% confidence interval of the difference in the percentage of AV7909 vs. BioThrax participants being greater than -15%.|Difference in percentage|24.5|||||TWO_SIDED|95.0|20.0|29.2||||||||29.2|20.0|
92297715|NCT03877926|184500517|OTHER|Relative risk of serious adverse events incidence between AV7909 (combined from all three AV7909 lots) and BioThrax.|Relative risk (AV7909/BioThrax)|2.5|||||TWO_SIDED|95.0|0.9|6.5|||||The 95% CI of the relative risk was derived using the Farrington-Manning relative risk score statistic.|||6.5|0.9|
92297716|NCT03877926|184500518|OTHER|Success criteria was defined as the lower bound for the 95% CI for the proportion of participants pooled from all three AV7909 study groups with TNA NF50 ≥0.15 to be ≥67%.|Percentage of participants|97.8|||||TWO_SIDED|95.0|97.2|98.3||||||||98.3|97.2|
92297717|NCT03877926|184500520|OTHER|Relative risk of adverse events of special interest (events of autoimmune etiology) incidence between AV7909 (combined from all three AV7909 lots) and BioThrax.|Relative risk (AV7909/BioThrax)|1.3|||||TWO_SIDED|95.0|0.3|5.0|||||The 95% CI of the relative risk was derived using the Farrington-Manning relative risk score statistic.|||5.0|0.3|
92297718|NCT02240186|184500523|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.01
92297719|NCT02240186|184500524|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.01
92297720|NCT02240186|184500525|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.01
92297721|NCT00588731|184500560|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.90
92297722|NCT00588731|184500561|SUPERIORITY_OR_OTHER|||||||0.76|||||||ANOVA|||||||0.76
92297723|NCT00680186|184500569|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin was set up to 2.75 for the HR analysis|Hazard Ratio (HR)|1.13||||0.0002||95.0|0.69|1.85||Non-inferiority P-Value.Two co-primary analyses performed on primary endpoint. Both non inferiority for the risk difference (RD) (at day 180) and for the HR (up to end of ptp) analyses to be reached in order to conclude positively on primary endpoint|Regression, Cox|Patients without events are censored at the end of ptp.||Hazard ratio (HR) vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the primary endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.85|0.69|0.0002
92297724|NCT00680186|184500569|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin was set up to 3.6% for the RD based on KM estimates|Risk Difference (Percentage)|0.2|||<|0.0001||95.0|-1.0|1.3||Non-inferiority P-Value.Two co-primary analyses performed on primary endpoint. Both non inferiority for the RD (at day 180) and for the HR (events up to end of ptp) analyses to be reached in order to conclude positively on the primary endpoint.|Kaplan Meier weighted estimates|||RD vs. Warfarin for Proportion of patients with VTE or death related to VTE at 6 months. Point estimate and 95% CI for the overall RD obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.3|-1.0|<0.0001
92297725|NCT00680186|184500569|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||||95.0|0.64|1.8|||Regression, Cox|Patients without events are censored at the earliest of last contact date or day 180.||HR vs. Warfarin (events occurring between randomisation and day 180). The time to first occurrence of the primary endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE. This analysis was performed as sensitivity analysis for statistical analysis 1.||1.8|0.64|
92297726|NCT00680186|184500570|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.3||||0.6932||95.0|-1.1|1.6|||Kaplan Meier weighted estimates|||RD vs. Warfarin for Proportion of patients with VTE or death at 6 months. Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.6|-1.1|0.6932
92297727|NCT00680186|184500570|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.6383||95.0|0.75|1.6|||Regression, Cox|Patients without events are censored at the end of ptp.||HR vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.60|0.75|0.6383
92297728|NCT00680186|184500571|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.6||||0.1703||95.0|-0.3|1.5|||Kaplan Meier weighted estimates|||RD vs. Warfarin for Proportion of patients with symptomatic DVT at 6 months. Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.5|-0.3|0.1703
92146181|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.1328|TWO_SIDED|95.0|-5.2|0.7|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour diastolic blood pressure||0.7|-5.2|0.1328
92185716|NCT00657709|184270375|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-3.0|||||TWO_SIDED|95.0|-8.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa-HBV-IPV vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was for PnC 23F antigen, greater than -10%.||2|-8|
92146182|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.1778|TWO_SIDED|95.0|-4.9|0.9|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour diastolic blood pressure||0.9|-4.9|0.1778
92146183|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.062|TWO_SIDED|95.0|-7.3|0.2|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour systolic blood pressure||0.2|-7.3|0.0620
92297729|NCT00680186|184500571|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.65||||0.1054||95.0|0.9|3.01|||Regression, Cox|Patients without events are censored at the end of ptp.||HR vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||3.01|0.90|0.1054
92297730|NCT00680186|184500572|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.4||||0.2283||95.0|-1.1|0.3|||Kaplan Meier weighted estimates|||RD vs. Warfarin for Proportion of patients with symptomatic non-fatal PE at 6 months. Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.3|-1.1|0.2283
92297731|NCT00680186|184500572|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59||||0.2101||95.0|0.26|1.35|||Regression, Cox|||HR vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.35|0.26|0.2101
92146184|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.1011|TWO_SIDED|95.0|-6.9|0.6|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour systolic blood pressure||0.6|-6.9|0.1011
92297732|NCT00680186|184500573|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.2||||0.083||95.0|0.0|0.5|||Kaplan Meier weighted estimates|||RD at 6 months vs. Warfarin for Proportion of patients who died due to VTE . Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.5|0.0|0.0830
92297733|NCT00680186|184500574|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.1||||0.7348||95.0|-0.7|1.0|||Kaplan Meier weighted estimates|||RD at 6 months vs. Warfarin for Proportion of patients who died from any cause. Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.0|-0.7|0.7348
92297734|NCT00680186|184500574|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.8939||95.0|0.61|1.77|||Regression, Cox|Patients without events are censored at the end of ptp.||HR vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.77|0.61|0.8939
92297735|NCT00680186|184500575|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.3||||0.321|TWO_SIDED|95.0|-1.0|0.3|||Kaplan Meier weighted estimates|||RD vs. Warfarin for Proportion of patients with symptomatic fatal and non-fatal PE at 6 months. Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.3|-1.0|0.3210
92297736|NCT00680186|184500575|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.3021|TWO_SIDED|95.0|0.29|1.46|||Regression, Cox|||HR vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.46|0.29|0.3021
92297737|NCT00680186|184500576|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||||95.0|0.36|1.32|||Regression, Cox||This is the analysis of the time to the first MBE.|HR vs. Warfarin (events occurring between 1st intake of study drug and last intake of study drug + 6 days). The time to first occurrence of MBE was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.32|0.36|
92297738|NCT00680186|184500576|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67|||<|0.0001|TWO_SIDED|95.0|0.56|0.81|||Regression, Cox||This is the analysis of the time to the first occurrence of any bleeding event.|HR vs. Warfarin (events occurring between 1st intake of study drug and last intake of study drug + 6 days). The time to first occurrence of any bleeding was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||0.81|0.56|<0.0001
92297739|NCT01684878|184500587|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.88||||0.4983|TWO_SIDED|95.0|0.62|1.27|||2 sided log-rank|||The stratified time-to-event analysis included the treatment group variable plus the following stratification factors: selected chemotherapy cohort (gemcitabine versus topotecan vs paclitaxel), previous anti-angiogenic therapy (yes versus no), and progression-free interval (PFI) since platinum therapy (\< 3 months versus 3-6 months). A hazard ratio \< 1 favored the pertuzumab + chemotherapy treatment arm.||1.27|0.62|0.4983
92297740|NCT01684878|184500589|SUPERIORITY_OR_OTHER||Difference in response rate|6.06||||0.4102|TWO_SIDED|95.0|6.0|18.3|||Fisher Exact||Approximate 95% CI for difference of 2 rates using Hauck-Anderson method.|||18.3|6.0|0.4102
92297741|NCT01684878|184500594|SUPERIORITY_OR_OTHER||Hazard ratio (stratified)|0.9||||0.596|TWO_SIDED|95.0|0.61|1.32|||2 sided log-rank||A hazard ratio \< 1 favored the Pertuzumab + Chemotherapy treatment group|The stratified time-to-event analysis included the treatment group variable plus the following stratification factors: selected chemotherapy cohort (gemcitabine versus topotecan versus paclitaxel), previous angiogenic therapy (yes versus no) and PFI since platinum therapy (\<3 months versus 3-6 months).||1.32|0.61|0.5960
92297742|NCT00810888|184500595|SUPERIORITY|||||||1||||||not adjusted for multiple comparisons as a prior hypothesis critical value \<0.05|Fisher Exact|||Fisher's exact test||||1.00
92146185|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.0249|TWO_SIDED|95.0|-5.6|-0.4|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour diastolic blood pressure||-0.4|-5.6|0.0249
92146186|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.0497|TWO_SIDED|95.0|-5.2|0.0|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour diastolic blood pressure||0.0|-5.2|0.0497
92146187|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.0552|TWO_SIDED|95.0|-7.1|0.1|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour systolic blood pressure||0.1|-7.1|0.0552
92185717|NCT00657709|184270376|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-3.0|||||TWO_SIDED|95.0|-9.0|4.0|||Miettinen and Nurminen|||Immunogenicity of the FHA antigen of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 vaccine at 2, 4 and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects was greater than -10%.||4|-9|
92297743|NCT00810888|184500596|SUPERIORITY|||||||0.66|||||||Fisher Exact|||Only the randomized subjects will be compared||||0.66
92297744|NCT00810888|184500597|SUPERIORITY||Sensitivity|38.5||||0.004|TWO_SIDED|95.0|17.6|64.6|||Fisher Exact|||||64.6|17.6|0.004
92297745|NCT00810888|184500598|SUPERIORITY||Specificity|94.2||||0.004|TWO_SIDED|95.0|85.6|98.1|||Fisher Exact|||||98.1|85.6|0.004
92297746|NCT00810888|184500599|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
92297747|NCT00810888|184500600|SUPERIORITY|||||||0.58|||||||Fisher Exact|||||||0.58
92297748|NCT00810888|184500601|OTHER|A Kappa test of overall agreement was used|Kappa|0.77|||||TWO_SIDED|95.0|0.61|0.93|||||A kappa of \>0.75 is considered excellent agreement|||0.93|0.61|
92146188|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2||||0.0767|TWO_SIDED|95.0|-6.8|0.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour systolic blood pressure||0.3|-6.8|0.0767
92297749|NCT00810888|184500602|SUPERIORITY|||||||0.25|||||||Kruskal-Wallis|||Groups 1 and 2 only the spot positive subjects randomized to interventional drug or placebo||||0.25
92297750|NCT00479388|184500625|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|1.6||0.006||95.0|-7.7|-1.3|||Repeated measures analysis|Study times: 4, 8 and 12 weeks. Terms: treatment-by-time, gender-by-time, baseline LDL-C-by-time and concomitant statin group-by-time interaction.||||-1.3|-7.7|0.006
92297751|NCT00479388|184500626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.6|STANDARD_ERROR_OF_MEAN|1.2|<=|0.001||95.0|13.4|17.9|||Repeated measures analysis|Study times: 4, 8 and 12 weeks. Terms: treatment-by-time, gender-by-time, baseline HDL-C-by-time and concomitant statin group-by-time interaction.||||17.9|13.4|<=0.001
92297752|NCT00479388|184500627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.4|||<=|0.001||95.0|-19.2|-11.7|||Repeated measures analysis|ANCOVA model based on Tukey's normalized ranks with term for treatment, gender, concomitant statin group and Tukey's normal score of baseline.||||-11.7|-19.2|<=0.001
92297753|NCT01876368|184500636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.19|STANDARD_ERROR_OF_MEAN|0.78|<|0.001|TWO_SIDED|95.0|-4.73|-1.65|||ANCOVA|||||-1.65|-4.73|<0.001
92297754|NCT01955044|184500648|SUPERIORITY||Median Difference (Final Values)|1.23||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||DHA levels||||0.05
92297755|NCT01886937|184500666|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||||||0.26
92297756|NCT00605917|184500669|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was starting dose. The null hypothesis is there is no difference between three types of starting dose in the participants of responders."||||<0.001
92146189|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.0279|TWO_SIDED|95.0|-5.3|-0.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour diastolic blood pressure||-0.3|-5.3|0.0279
92146190|NCT00949884|184177158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.0434|TWO_SIDED|95.0|-5.0|-0.1|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour diastolic blood pressure||-0.1|-5.0|0.0434
92146191|NCT00949884|184177159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.0009|TWO_SIDED|95.0|-6.8|-1.8|||ANCOVA|Treatment is a fixed effect and baseline blood pressure is a covariate.||Diastolic blood pressure||-1.8|-6.8|0.0009
92146192|NCT00949884|184177159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6|||<|0.0001|TWO_SIDED|95.0|-12.5|-4.7|||ANCOVA|Treatment is a fixed effect and baseline blood pressure is a covariate.||Systolic blood pressure||-4.7|-12.5|<0.0001
92297757|NCT00605917|184500670|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was concomitant drug. The null hypothesis is there is no difference between with and without concomitant drug in the participants of responders."||||0.002
92297758|NCT00605917|184500671|SUPERIORITY_OR_OTHER_LEGACY|||||||0.032|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was family history of psychiatric disorder. The null hypothesis is there is no difference between with and without family history of psychiatric disorder in the participants of responders."||||0.032
92297759|NCT00605917|184500672|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was smoking status. The null hypothesis is there is no difference between three types of smoking status in the participants of responders."||||<0.001
92297760|NCT00605917|184500673|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was past medical history of other illness. The null hypothesis is there is no difference between with and without past medical history of other illness in the participants of responders."||||<0.001
92297761|NCT00605917|184500674|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was non-pharmaceutical therapies. The null hypothesis is there is no difference between with and without non-pharmaceutical therapies in the participants of responders."||||0.001
92297762|NCT00605917|184500675|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was history of treatment prior to administration of Sertraline. The null hypothesis is there is no difference between with and without history of treatment prior to administration of Sertraline in the participants of responders."||||0.028
92297763|NCT00605917|184500676|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was average daily dose. The null hypothesis is there is no difference of five types of average daily dose in the participants of responders."||||<0.001
92297764|NCT00605917|184500677|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|TWO_SIDED|||||"The risk factor tested was complications. The null hypothesis is there is no difference between with and without complications in the participants of responders."|Chi-squared|not adjusted, p=0.050||"The risk factor tested was complications. The null hypothesis is there is no difference between with and without complications in the participants of responders."||||0.030
92297765|NCT00605917|184500678|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was concomitant drug. The null hypothesis is there is no difference between with and without concomitant drug in the participants of responders."||||0.013
92297766|NCT00605917|184500679|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was complications. The null hypothesis is there is no difference between with or without complications in the participants of responders."||||0.004
92297767|NCT00605917|184500680|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was drinking status. The null hypothesis is there is no difference between five types of drinking status in the participants of responders."||||0.004
92297768|NCT00925301|184500681|SUPERIORITY||Difference|12.5||||0.2996|TWO_SIDED|95.0|-13.4|37.3|||Cochran-Mantel-Haenszel|p-value from Cochran-Mantel-Haenszel test stratified by sex|The difference between the percentage of successes between migalastat and placebo treatment groups|||37.3|-13.4|0.2996
92297769|NCT00925301|184500684|OTHER|Mixed effects model for repeated measures (MMRM) approach with fixed effects of treatment, time (Month 6 and Month 12), mutation type (amenable or non-amenable), time by treatment interaction, time by mutation type interaction, and the baseline value as a covariate. An unstructured covariance matrix to account for repeated measures within a participant was assumed.||||||0.014||||||Significant at the 0.050 level|MMRM|||||||0.014
92185718|NCT00657709|184270376|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-9.0|||||TWO_SIDED|95.0|-16.0|-3.0|||Miettinen and Nurminen|||Immunogenicity of the Pertactin antigen of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 at 2, 4 and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects was greater than -10%.||-3|-16|
92185719|NCT00657709|184270376|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-2.0|||||TWO_SIDED|95.0|-7.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the PT antigen of DTPa-HBV-IPV vaccine given concomitantly with rMenB and PCV7 vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects was greater than -10%.||2|-7|
92185720|NCT03122860|184270380|SUPERIORITY||Median Difference (Final Values)|-0.46||||0.179|TWO_SIDED|95.0|-1.13|0.21|||ANCOVA|||||0.21|-1.13|0.179
92185721|NCT03122860|184270380|SUPERIORITY||Median Difference (Final Values)|-0.7||||0.031|TWO_SIDED|95.0|-1.34|-0.06|||ANCOVA|||||-0.06|-1.34|0.031
92185722|NCT03122860|184270380|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.675|TWO_SIDED|95.0|-0.81|0.52|||ANCOVA|||||0.52|-0.81|0.675
92185723|NCT03122860|184270380|SUPERIORITY||Mean Difference (Final Values)|-0.82||||0.022|TWO_SIDED|95.0|-1.51|-0.12|||ANCOVA|||||-0.12|-1.51|0.022
92185724|NCT03122860|184270380|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.78|TWO_SIDED|95.0|-0.79|0.59|||ANCOVA|||||0.59|-0.79|0.780
92185725|NCT03122860|184270381|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.612|TWO_SIDED|95.0|-8.32|4.91|||ANCOVA|||||4.91|-8.32|0.612
92185726|NCT03122860|184270381|SUPERIORITY||Mean Difference (Final Values)|-4.01||||0.223|TWO_SIDED|95.0|-10.47|2.46|||ANCOVA|||||2.46|-10.47|0.223
92185727|NCT03122860|184270381|SUPERIORITY||Mean Difference (Final Values)|1.84||||0.59|TWO_SIDED|95.0|-4.89|8.57|||ANCOVA|||||8.57|-4.89|0.590
92185728|NCT03122860|184270381|SUPERIORITY||Mean Difference (Final Values)|-7.36||||0.031|TWO_SIDED|95.0|-14.03|-0.69|||ANCOVA|||||-0.69|-14.03|0.031
92185729|NCT03122860|184270381|SUPERIORITY||Mean Difference (Final Values)|-2.89||||0.403|TWO_SIDED|95.0|-9.7|3.92|||ANCOVA|||||3.92|-9.70|0.403
92185730|NCT03122860|184270382|SUPERIORITY||Mean Difference (Final Values)|-2.58||||0.432|TWO_SIDED|95.0|-9.04|3.88|||ANCOVA|||||3.88|-9.04|0.432
92185731|NCT03122860|184270382|SUPERIORITY||Mean Difference (Final Values)|-4.34||||0.18|TWO_SIDED|95.0|-10.69|2.02|||ANCOVA|||||2.02|-10.69|0.180
92185732|NCT03122860|184270382|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.718|TWO_SIDED|95.0|-5.33|7.72|||ANCOVA|||||7.72|-5.33|0.718
92185733|NCT03122860|184270382|SUPERIORITY||Mean Difference (Final Values)|-7.99||||0.017|TWO_SIDED|95.0|-14.54|-1.45|||ANCOVA|||||-1.45|-14.54|0.017
92297770|NCT00925301|184500685|OTHER||Difference LSMeans|-0.3||||0.0078|TWO_SIDED|95.0|-0.6|-0.1||Significant at the 0.010 level|ANCOVA|||The change from Baseline in the average number of kidney ICs was analyzed using an ANCOVA model with covariate adjustment for the baseline value and factors for treatment group and the treatment by baseline interaction.||-0.1|-0.6|0.0078
92297771|NCT00292227|184500695|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.75||||||90.0|-2.63|1.12|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.12|-2.63|
92185734|NCT03122860|184270382|SUPERIORITY||Mean Difference (Final Values)|-1.39||||0.682|TWO_SIDED|95.0|-8.06|5.29|||ANCOVA|||||5.29|-8.06|0.682
92185735|NCT03122860|184270383|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.822|TWO_SIDED|95.0|-0.16|0.21|||ANCOVA|||||0.21|-0.16|0.822
92185736|NCT03122860|184270383|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.162|TWO_SIDED|95.0|-0.27|0.04|||ANCOVA|||||0.04|-0.27|0.162
92185737|NCT03122860|184270383|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.267|TWO_SIDED|95.0|-0.34|0.09|||ANCOVA|||||0.09|-0.34|0.267
92185738|NCT03122860|184270383|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.685|TWO_SIDED|95.0|-0.18|0.12|||ANCOVA|||||0.12|-0.18|0.685
92185739|NCT03122860|184270383|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.342|TWO_SIDED|95.0|-0.09|0.24|||ANCOVA|||||0.24|-0.09|0.342
92185740|NCT03122860|184270384|SUPERIORITY||Mean Difference (Final Values)|-2.13||||0.5|TWO_SIDED|95.0|-8.36|4.1|||ANCOVA|||||4.10|-8.36|0.500
92185741|NCT03122860|184270384|SUPERIORITY||Mean Difference (Final Values)|-5.54||||0.082|TWO_SIDED|95.0|-11.8|0.72|||ANCOVA|||||0.72|-11.80|0.082
92185742|NCT03122860|184270384|SUPERIORITY||Mean Difference (Final Values)|-1.94||||0.552|TWO_SIDED|95.0|-8.36|4.48|||ANCOVA|||||4.48|-8.36|0.552
92185743|NCT03122860|184270384|SUPERIORITY||Mean Difference (Final Values)|-6.86||||0.033|TWO_SIDED|95.0|-13.16|-0.56|||ANCOVA|||||-0.56|-13.16|0.033
92185744|NCT03122860|184270384|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.887|TWO_SIDED|95.0|-5.79|6.68|||ANCOVA|||||6.68|-5.79|0.887
92185745|NCT03122860|184270385|SUPERIORITY||Mean Difference (Final Values)|-2.14||||0.473|TWO_SIDED|95.0|-7.99|3.72|||ANCOVA|||||3.72|-7.99|0.473
92185746|NCT03122860|184270385|SUPERIORITY||Mean Difference (Final Values)|-6.31||||0.04|TWO_SIDED|95.0|-12.33|-0.29|||ANCOVA|||||-0.29|-12.33|0.040
92185747|NCT03122860|184270385|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.577|TWO_SIDED|95.0|-4.35|7.79|||ANCOVA|||||7.79|-4.35|0.577
92185748|NCT03122860|184270385|SUPERIORITY||Mean Difference (Final Values)|-8.95||||0.003|TWO_SIDED|95.0|-14.9|-3.01|||ANCOVA|||||-3.01|-14.90|0.003
92297772|NCT00292227|184500696|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.01||||||90.0|-2.21|2.19|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.19|-2.21|
92185749|NCT03122860|184270385|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.947|TWO_SIDED|95.0|-6.37|5.96|||ANCOVA|||||5.96|-6.37|0.947
92297773|NCT00292227|184500697|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.84||||||90.0|-1.12|2.8|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.80|-1.12|
92297774|NCT00292227|184500698|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.26||||||90.0|-1.8|2.32|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.32|-1.80|
92297775|NCT00292227|184500699|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.11||||||90.0|-2.25|2.02|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.02|-2.25|
92297776|NCT00292227|184500700|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.07||||||90.0|-2.14|2.28|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.28|-2.14|
92297777|NCT00292227|184500701|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.56||||||90.0|-2.84|1.72|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.72|-2.84|
92297778|NCT00292227|184500702|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.26||||||90.0|-2.29|1.78|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.78|-2.29|
92297779|NCT00292227|184500703|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-1.17||||||90.0|-3.25|0.91|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||0.91|-3.25|
92185750|NCT03122860|184270386|SUPERIORITY||Mean Difference (Final Values)|-3.05||||0.299|TWO_SIDED|95.0|-8.83|2.73|||ANCOVA|||||2.73|-8.83|0.299
92185751|NCT03122860|184270386|SUPERIORITY||Mean Difference (Final Values)|-7.18||||0.021|TWO_SIDED|95.0|-13.24|-1.12|||ANCOVA|||||-1.12|-13.24|0.021
92185752|NCT03122860|184270386|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.675|TWO_SIDED|95.0|-4.75|7.33|||ANCOVA|||||7.33|-4.75|0.675
92297780|NCT00292227|184500704|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|1.69||||||90.0|-0.34|3.73|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||3.73|-0.34|
92297781|NCT00292227|184500705|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.31||||||90.0|-1.7|2.32|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.32|-1.70|
92297782|NCT00292227|184500706|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|1.65||||||90.0|-0.65|3.96|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||3.96|-0.65|
92297783|NCT00292227|184500707|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.21||||||90.0|-1.78|1.36|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.36|-1.78|
92297784|NCT00292227|184500708|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.53||||||90.0|-2.37|1.3|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.30|-2.37|
92297785|NCT00292227|184500709|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.41||||||90.0|-2.3|1.49|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.49|-2.30|
92297786|NCT00292227|184500710|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.5||||||90.0|-2.34|1.35|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.35|-2.34|
92297787|NCT00292227|184500711|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.21||||||90.0|-1.76|2.17|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.17|-1.76|
92146193|NCT03896009|184177232|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92146194|NCT03896009|184177233|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
92185753|NCT03122860|184270386|SUPERIORITY||Mean Difference (Final Values)|-8.63||||0.006|TWO_SIDED|95.0|-14.7|-2.55|||ANCOVA|||||-2.55|-14.70|0.006
92297788|NCT00292227|184500712|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-1.23||||||90.0|-2.99|0.53|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||0.53|-2.99|
92297789|NCT00292227|184500713|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-1.62||||||90.0|-3.87|0.63|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||0.63|-3.87|
92297790|NCT00292227|184500714|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.81||||||90.0|-2.55|0.93|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||0.93|-2.55|
92297791|NCT00292227|184500715|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.37||||||90.0|-2.13|1.39|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.39|-2.13|
92297792|NCT00292227|184500716|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.68||||||90.0|-2.6|1.25|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.25|-2.60|
92297793|NCT00292227|184500717|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|1.17||||||90.0|-0.69|3.03|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||3.03|-0.69|
92297794|NCT00292227|184500718|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.8||||||90.0|-1.14|2.73|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.73|-1.14|
92185754|NCT03122860|184270386|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.925|TWO_SIDED|95.0|-5.99|6.59|||ANCOVA|||||6.59|-5.99|0.925
92185755|NCT03122860|184270387|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.062|TWO_SIDED|95.0|-1.18|0.03|||ANCOVA|||||0.03|-1.18|0.062
92185756|NCT03122860|184270387|SUPERIORITY||Mean Difference (Final Values)|-0.96||||0.001|TWO_SIDED|95.0|-1.54|-0.37|||ANCOVA|||||-0.37|-1.54|0.001
92185757|NCT03122860|184270387|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.693|TWO_SIDED|95.0|-0.75|0.5|||ANCOVA|||||0.50|-0.75|0.693
92185758|NCT03122860|184270387|SUPERIORITY||Mean Difference (Final Values)|-0.78||||0.012|TWO_SIDED|95.0|-1.39|-0.17|||ANCOVA|||||-0.17|-1.39|0.012
92185759|NCT03122860|184270387|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.697|TWO_SIDED|95.0|-0.49|0.74|||ANCOVA|||||0.74|-0.49|0.697
92185760|NCT03122860|184270388|SUPERIORITY||Mean Difference (Final Values)|-3.32||||0.254|TWO_SIDED|95.0|-9.04|2.4|||ANCOVA|||||2.40|-9.04|0.254
92185761|NCT03122860|184270388|SUPERIORITY||Mean Difference (Final Values)|-6.86||||0.031|TWO_SIDED|95.0|-13.1|-0.63|||ANCOVA|||||-0.63|-13.10|0.031
92185762|NCT03122860|184270388|SUPERIORITY||Mean Difference (Final Values)|-1.46||||0.616|TWO_SIDED|95.0|-7.2|4.28|||ANCOVA|||||4.28|-7.20|0.616
92185763|NCT03122860|184270388|SUPERIORITY||Mean Difference (Final Values)|-7.62||||0.01|TWO_SIDED|95.0|-13.41|-1.82|||ANCOVA|||||-1.82|-13.41|0.010
92297795|NCT00292227|184500719|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.42||||||90.0|-2.33|1.5|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.50|-2.33|
92297796|NCT00292227|184500720|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.34||||||95.0|-1.04|1.71|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||1.71|-1.04|
92297797|NCT00292227|184500721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.48||||||95.0|-0.72|1.68|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||1.68|-0.72|
92297798|NCT00292227|184500722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.51||||||95.0|0.3|2.73|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||2.73|0.30|
92297799|NCT00292227|184500723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.5||||||95.0|11.78|15.22|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||15.22|11.78|
92297800|NCT00292227|184500724|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.02||||||95.0|9.12|12.93|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||12.93|9.12|
92297801|NCT00292227|184500725|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.3||||||95.0|9.94|12.67|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||12.67|9.94|
92297802|NCT00292227|184500726|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.28||||||95.0|6.85|9.7|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||9.70|6.85|
92297803|NCT00292227|184500727|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.3||||||95.0|7.57|11.02|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||11.02|7.57|
92297804|NCT00292227|184500728|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.87||||||95.0|7.47|10.28|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||10.28|7.47|
92297805|NCT00292227|184500729|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.6||||||95.0|7.25|9.96|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||9.96|7.25|
92185764|NCT03122860|184270388|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.961|TWO_SIDED|95.0|-5.74|5.46|||ANCOVA|||||5.46|-5.74|0.961
92297806|NCT00292227|184500730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.52||||||95.0|6.31|8.72|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||8.72|6.31|
92297807|NCT00292227|184500731|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.58||||||95.0|6.21|8.95|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||8.95|6.21|
92297808|NCT00292227|184500732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.19||||||95.0|4.94|7.45|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||7.45|4.94|
92297809|NCT03234608|184500737|SUPERIORITY||Slope|0.18|STANDARD_ERROR_OF_MEAN|0.32||0.56|TWO_SIDED|95.0|-0.44|0.81||The threshold for statistical significance was p\<0.05.|Regression, Linear|||||0.81|-0.44|0.56
92297810|NCT03234608|184500738|SUPERIORITY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.79||0.73|TWO_SIDED|95.0|-1.28|1.84||The threshold for statistical significance was p\<0.05.|Regression, Linear|||||1.84|-1.28|0.73
92297811|NCT03234608|184500739|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.17||0.94|TWO_SIDED|95.0|-0.35|0.33||The threshold for statistical significance was p\<0.05.|Regression, Linear|||Statistical analysis for Individual Level Healthcare Self-Efficacy Sub-scale.||0.33|-0.35|0.94
92297812|NCT03234608|184500739|SUPERIORITY||Slope|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.65|TWO_SIDED|95.0|-0.33|0.52|||Regression, Linear|||Statistical analysis for Relationship-Dependent Healthcare Self-Efficacy Sub-scale||0.52|-0.33|0.65
92297813|NCT03234608|184500740|SUPERIORITY||Slope|-0.23|STANDARD_ERROR_OF_MEAN|0.52||0.66|TWO_SIDED|95.0|-1.25|0.79||The threshold for statistical significance was p\<0.05.|Regression, Linear|||||0.79|-1.25|0.66
92297814|NCT03234608|184500741|SUPERIORITY||Slope|0.15|STANDARD_ERROR_OF_MEAN|0.78||0.85|TWO_SIDED|95.0|-1.4|1.69||The threshold for statistical significance was p\<0.05.|Regression, Linear|||||1.69|-1.40|0.85
92297815|NCT02105701|184500751|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR12 rate \>58%.||||<0.001
92297816|NCT02105701|184500751|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR12 rate \>58%.||||<0.001
92297817|NCT02105701|184500751|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR12 rate \>58%.||||<0.001
92185765|NCT01138657|184270389|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.36|0.7|||Log Rank|||The primary analysis of the primary endpoint was performed on Main Study data, excluding the Japanese sub-study. The statistical test was performed at a 2-sided significance level of 0.05. The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment as factor.||0.70|0.36|<0.001
92297818|NCT02105701|184500751|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR12 rate \>58%.||||<0.001
92297819|NCT02105701|184500754|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR24 rate \>58%.||||<0.001
92297820|NCT02105701|184500754|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR24 rate \>58%.||||<0.001
92297821|NCT02105701|184500754|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR24 rate \>58%.||||<0.001
92297822|NCT02105701|184500754|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR24 rate \>58%.||||<0.001
92297823|NCT01362296|184500755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.5197|TWO_SIDED|95.0|0.75|1.75||P-value from the stratified log-rank was adjusted for gender (male versus female).|Log Rank||HRs were estimated using a Pike estimator. The HR from the stratified log-rank test was adjusted for gender (male versus female).|||1.75|0.75|0.5197
92297824|NCT00248170|184500777|SUPERIORITY_OR_OTHER|||||||0.315|||||||Log Rank|||||||0.3150
92297825|NCT01557582|184500785|SUPERIORITY_OR_OTHER||EDV percent difference|4.8|||||TWO_SIDED|95.0|2.24|7.56|||||Mean percent difference and 95% CI for EDV|||7.56|2.24|
92297826|NCT01557582|184500785|SUPERIORITY_OR_OTHER||ESV percent difference|1.76|||||TWO_SIDED|95.0|-1.17|4.76|||||Mean percent difference and 95% CI for ESV|||4.76|-1.17|
92297827|NCT01557582|184500785|SUPERIORITY_OR_OTHER||EF percent difference|2.03|||||TWO_SIDED|95.0|0.72|3.33|||||Mean percent difference and 95% CI for EF|||3.33|0.72|
92297828|NCT04947150|184500807|SUPERIORITY|||||||0.255||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA were used.||||||.255
92297829|NCT04947150|184500808|SUPERIORITY|||||||0.56||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.560
92297830|NCT04947150|184500809|SUPERIORITY|||||||0.319||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.319
92297831|NCT04947150|184500810|SUPERIORITY|||||||0.032||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.032
92297832|NCT04947150|184500811|SUPERIORITY|||||||0.044||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.044
92297833|NCT04947150|184500812|SUPERIORITY|||||||0.01||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated Measures ANOVA||||||.010
92297834|NCT04947150|184500813|SUPERIORITY|||||||0.073||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.073
92297835|NCT04947150|184500814|SUPERIORITY|||||||0.872||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.872
92297836|NCT04947150|184500815|SUPERIORITY|||||||0.145||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated Measures ANOVA||||||.145
92297837|NCT04947150|184500816|SUPERIORITY|||||||0.173||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||.173
92297838|NCT04947150|184500817|SUPERIORITY|||||||0.012||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||.012
92297839|NCT04947150|184500818|SUPERIORITY|||||||0.008||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||.008
92297840|NCT04947150|184500819|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||<.001
92297841|NCT04947150|184500820|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||<.001
92297842|NCT04947150|184500821|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||<.001
92297843|NCT04947150|184500822|SUPERIORITY|||||||0.382||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||.382
92297844|NCT04947150|184500823|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated Measures ANOVA||||||<.001
92297845|NCT04947150|184500824|SUPERIORITY|||||||0.178||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.178
92297846|NCT04947150|184500825|SUPERIORITY|||||||0.081||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.081
92185766|NCT01138657|184270389|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56|||<|0.001|TWO_SIDED|95.0|0.4|0.76|||Log Rank|||An additional analysis of the primary endpoint was performed using the Integrated Study data (Main Study + Japan sub-study). The statistical test was performed at a 2-sided significance level of 0.05. The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment and race (Japanese versus non-Japanese) as factors.||0.76|0.40|< 0.001
92297847|NCT04947150|184500826|SUPERIORITY|||||||0.343||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.343
92297848|NCT04947150|184500827|SUPERIORITY|||||||0.369||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.369
92297849|NCT04947150|184500828|SUPERIORITY|||||||0.055||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.055
92297850|NCT04947150|184500831|SUPERIORITY|||||||0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.001
92297851|NCT04947150|184500832|SUPERIORITY|||||||0.079||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.079
92297852|NCT04947150|184500833|SUPERIORITY|||||||0.581||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.581
92297853|NCT04947150|184500834|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
92297854|NCT04947150|184500835|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
92297855|NCT04947150|184500836|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
92297856|NCT04947150|184500837|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
92297857|NCT04947150|184500841|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|Paired Sample T-test||||||<.05
92297858|NCT04947150|184500843|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|Paired samples t-test||||||.006
92297859|NCT04947150|184500844|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|Paired samples t-test||||||<.001
92297860|NCT04947150|184500845|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|Paired samples t-test||||||.220
92297861|NCT04947150|184500846|SUPERIORITY|||||||0.623|||||||t-test, 2 sided|Paired samples t-test||||||.623
92297862|NCT04947150|184500847|SUPERIORITY|||||||0.577||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.577
92297863|NCT04947150|184500848|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
92297864|NCT04947150|184500849|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
92297865|NCT04947150|184500850|SUPERIORITY|||||||0.008||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.008
92297866|NCT04947150|184500851|SUPERIORITY|||||||0.601||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated Measures ANOVA||||||.601
92297867|NCT04947150|184500852|SUPERIORITY|||||||0.088||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.088
92297868|NCT04947150|184500853|SUPERIORITY|||||||0.21||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.210
92297869|NCT04947150|184500854|SUPERIORITY|||||||0.06||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.060
92297870|NCT04947150|184500855|SUPERIORITY|||||||0.37||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.370
92297871|NCT04947150|184500856|SUPERIORITY|||||||0.556||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated Measures ANOVA||||||.556
92297872|NCT04947150|184500857|SUPERIORITY|||||||0.913||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.913
92297873|NCT04947150|184500858|SUPERIORITY|||||||0.241||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated Measures ANOVA||||||.241
92297874|NCT02953678|184500859|OTHER||Exact method for binomial distributions|54.9|||||TWO_SIDED|95.0|42.7|66.8||||||||66.8|42.7|
92297875|NCT04034355|184500874|SUPERIORITY||Risk Ratio (RR)|1.521||||0.028|TWO_SIDED|95.0|1.0462|2.2113|||Cochran-Mantel-Haenszel|||||2.2113|1.0462|0.0280
92297876|NCT03064438|184500882|SUPERIORITY||Difference of Least Squares (LS) Mean|1.8|STANDARD_ERROR_OF_MEAN|1.95||0.366|TWO_SIDED|95.0|-2.162|5.727|||t-test, 2 sided|||||5.727|-2.162|0.366
92297877|NCT03064438|184500883|SUPERIORITY|||||||0.1099|||||||Van Elteren test|||Percent change from baseline at Week 2||||0.1099
92297878|NCT03064438|184500883|SUPERIORITY|||||||0.1653|||||||Van Elteren test|||Percent change from baseline at Week 4||||0.1653
92297879|NCT03064438|184500883|SUPERIORITY|||||||0.8437|||||||Van Elteren test|||Percent change from baseline at Week 8||||0.8437
92297880|NCT03064438|184500883|SUPERIORITY|||||||0.4644|||||||Van Elteren test|||Percent change from baseline at Week 12||||0.4644
92297881|NCT03064438|184500884|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92146195|NCT00662857|184177234|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.982|||||TWO_SIDED|90.0|0.846|1.141|||||"Geometric Mean Ratio of serum insulin from a single 30 U cartridge to 2 x 15 U cartridges of TI.~Based on pair-wise comparisons from analysis of covariance fitting the model: natural log of parameter = cohort, treatment, visit, subject (cohort)."|||1.141|0.846|
92185767|NCT01138657|184270390|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.29||||0.011|TWO_SIDED|95.0|-0.51|-0.07|||ANOVA|ANOVA with treatment as factor adjusted for clustered observations (i.e., observations from each of the participant's eyes).|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.07|-0.51|0.011
92297882|NCT03064438|184500885|SUPERIORITY||Difference of LS Mean|1.3|STANDARD_ERROR_OF_MEAN|1.91||0.495|TWO_SIDED|95.0|-2.571|5.211|||t-test, 2 sided|||Change from baseline at Week 2||5.211|-2.571|0.495
92297883|NCT03064438|184500885|SUPERIORITY||Difference of LS Mean|-1.5|STANDARD_ERROR_OF_MEAN|1.74||0.399|TWO_SIDED|95.0|-5.014|2.045|||t-test, 2 sided|||Change from baseline at Week 4||2.045|-5.014|0.399
92297884|NCT03064438|184500885|SUPERIORITY||Difference of LS Mean|2.2|STANDARD_ERROR_OF_MEAN|2.07||0.29|TWO_SIDED|95.0|-1.965|6.407|||t-test, 2 sided|||Change from baseline at Week 8||6.407|-1.965|0.290
92297885|NCT03064438|184500885|SUPERIORITY||Difference of LS Mean|1.8|STANDARD_ERROR_OF_MEAN|1.83||0.343|TWO_SIDED|95.0|-1.953|5.469|||t-test, 2 sided|||Change from baseline at Week 12||5.469|-1.953|0.343
92297886|NCT03064438|184500886|SUPERIORITY||Difference of LS Mean|0.6|STANDARD_ERROR_OF_MEAN|0.75||0.407|TWO_SIDED|95.0|-0.894|2.155|||t-test, 2 sided|||Change from baseline at Week 2||2.155|-0.894|0.407
92297887|NCT03064438|184500886|SUPERIORITY||Difference of LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.36||0.291|TWO_SIDED|95.0|-0.342|1.109|||t-test, 2 sided|||Change from baseline at Week 4||1.109|-0.342|0.291
92297888|NCT03064438|184500886|SUPERIORITY||Difference of LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.45||0.734|TWO_SIDED|95.0|-0.763|1.073|||t-test, 2 sided|||Change from baseline at Week 8||1.073|-0.763|0.734
92297889|NCT03064438|184500886|SUPERIORITY||Difference of LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.57||0.952|TWO_SIDED|95.0|-1.128|1.197|||t-test, 2 sided|||Change from baseline in pustule lesions at Week 12||1.197|-1.128|0.952
92297890|NCT03064438|184500887|SUPERIORITY||Difference of LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.313|TWO_SIDED|95.0|-0.215|0.069|||t-test, 2 sided|||Change from baseline at Week 2||0.069|-0.215|0.313
92297891|NCT03064438|184500887|SUPERIORITY||Difference of LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.942|TWO_SIDED|95.0|-0.141|0.152|||t-test, 2 sided|||Change from baseline at Week 4||0.152|-0.141|0.942
92297892|NCT03064438|184500887|SUPERIORITY||Difference of LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.284|TWO_SIDED|95.0|-0.067|0.226|||t-test, 2 sided|||Change from baseline in nodule lesions at Week 8||0.226|-0.067|0.284
92297893|NCT03064438|184500887|SUPERIORITY||Difference of LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.542|TWO_SIDED|95.0|-0.198|0.105|||t-test, 2 sided|||Change from baseline at Week 12||0.105|-0.198|0.542
92146196|NCT00662857|184177235|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.951|||||TWO_SIDED|90.0|0.823|1.099|||||"Geometric Mean Ratio of serum insulin from a single 30 U cartridge to 2 x 15 U cartridges of TI.~Based on pair-wise comparisons from analysis of covariance fitting the model: natural log of parameter = cohort, treatment, visit, subject (cohort)."|||1.099|0.823|
92297894|NCT03064438|184500888|SUPERIORITY||Difference of LS Mean|2.0|STANDARD_ERROR_OF_MEAN|2.04||0.333|TWO_SIDED|95.0|-2.135|6.139|||t-test, 2 sided|||Change from baseline at Week 2||6.139|-2.135|0.333
92297895|NCT03064438|184500888|SUPERIORITY||Difference of LS Mean|-1.0|STANDARD_ERROR_OF_MEAN|1.9||0.591|TWO_SIDED|95.0|-4.882|2.822|||t-test, 2 sided|||Change from baseline at Week 4||2.822|-4.882|0.591
92297896|NCT03064438|184500888|SUPERIORITY||Difference of LS Mean|2.5|STANDARD_ERROR_OF_MEAN|2.12||0.254|TWO_SIDED|95.0|-1.84|6.758|||t-test, 2 sided|||Change from baseline at Week 8||6.758|-1.840|0.254
92297897|NCT03064438|184500888|SUPERIORITY||Difference of LS Mean|1.8|STANDARD_ERROR_OF_MEAN|1.95||0.356|TWO_SIDED|95.0|-2.131|5.779|||t-test, 2 sided|||Change from baseline at Week 12||5.779|-2.131|0.356
92297898|NCT02070757|184500916|NON_INFERIORITY|Meropenem minus ceftolozane/tazobactam. For ceftolozane/tazobactam to be non-inferior to meropenem the lower bound of a 2-sided 95% confidence interval (CI) for the difference between treatment groups had to be ≥ -10%.|Difference in Percentage of Participants|1.1|||||TWO_SIDED|95.0|-5.13|7.39|||||The % difference between groups is the weighted proportion difference using MRc stratum weights for diagnosis and age categories. The 95% CI was stratified Wilson intervals for group percentages and a stratified Newcombe interval for the difference.|||7.39|-5.13|
92297899|NCT02070757|184500917|NON_INFERIORITY|Clinical Response difference is calculated as ceftolozane/tazobactam minus meropenem. For ceftolozane/tazobactam to be non-inferior to meropenem the lower bound of a 2-sided 95% confidence interval (CI) for the difference between treatment groups had to be ≥ -12.5%.|Difference in percentage of participants|1.1|||||TWO_SIDED|95.0|-6.17|8.29|||||The % difference between groups is the weighted proportion difference using MRc stratum weights for diagnosis and age categories. The 95% CI was stratified Wilson intervals for group percentages and a stratified Newcombe interval for the difference.|||8.29|-6.17|
92297900|NCT02070757|184500918|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|4.4|||||TWO_SIDED|95.0|-2.83|11.75|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||11.75|-2.83|
92146197|NCT00662857|184177236|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.3531|||||||Signed Rank Test|||||||0.3531
92297901|NCT02070757|184500919|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|-1.3|||||TWO_SIDED|95.0|-10.21|7.67|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||7.67|-10.21|
92297902|NCT02070757|184500920|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|7.0||||||95.0|-5.11|18.93|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||18.93|-5.11|
92297903|NCT02070757|184500922|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|-1.4|||||TWO_SIDED|95.0|-6.41|3.57|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||3.57|-6.41|
92297904|NCT02070757|184500923|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|-0.8|||||TWO_SIDED|95.0|-7.67|6.04|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||6.04|-7.67|
92297905|NCT02070757|184500924|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|1.6|||||TWO_SIDED|95.0|-8.91|12.02|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||12.02|-8.91|
92297906|NCT02070757|184500925|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|3.3|||||TWO_SIDED|95.0|-3.38|10.44|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||10.44|-3.38|
92297907|NCT02597582|184500940|NON_INFERIORITY_OR_EQUIVALENCE|"A previous study found that the mean operation time was 165 minutes for patients undergoing LigaSure vessel sealing system-assisted total laryngectomy plus neck dissection and 195 minutes for those receiving conventional hemostasis.~With a difference in operative duration of 30 minutes between the two groups,9 the estimated sample size needed to demonstrate a two-sided significance level of 0.05 with 80% power should be at least 18 participants in each treatment arm."||||||0.022|||||||t-test, 2 sided|||||||0.022
92297908|NCT02597582|184500941|NON_INFERIORITY_OR_EQUIVALENCE|As above||||||0.266|||||||t-test, 2 sided|||||||0.266
92297909|NCT02597582|184500942|NON_INFERIORITY_OR_EQUIVALENCE|as above||||||0.06|||||||t-test, 2 sided|||||||0.060
92297910|NCT02597582|184500944|NON_INFERIORITY_OR_EQUIVALENCE|as above||||||0.524|||||||t-test, 2 sided|||||||0.524
92297911|NCT02597582|184500945|NON_INFERIORITY_OR_EQUIVALENCE|as above||||||0.037|||||||Wilcoxon (Mann-Whitney)|||||||0.037
92297912|NCT00707447|184501068|SUPERIORITY_OR_OTHER||||||<|0.05||||||There was only one primary outcome variable, thus no adjustments for multiple comparisons were made.|t-test, 2 sided|||independent t-tests for between group comparisons, dependent t-tests for within group comparisons||||<.05
92297913|NCT00707447|184501069|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||independent t-tests for between group comparisons, dependent t-tests for within group comparisons||||<.05
92297914|NCT00707447|184501070|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92297915|NCT00707447|184501071|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92297916|NCT00707447|184501072|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92297917|NCT00707447|184501073|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92297918|NCT00707447|184501074|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92297919|NCT00707447|184501075|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92297920|NCT00707447|184501076|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92297921|NCT00707447|184501077|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92146198|NCT00662857|184177237|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.46|||||TWO_SIDED|90.0|0.366|0.578|||||"Geometric Mean Ratio of serum insulin from a single 30 U cartridge of TI to 10 U sc insulin lispro.~Based on pair-wise comparisons from analysis of covariance fitting the model: natural log of parameter = cohort, treatment, visit, subject (cohort)."|||0.578|0.366|
92146199|NCT00998400|184177250|SUPERIORITY|||||||0.03|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||0.030
92146200|NCT00998400|184177251|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
92297922|NCT00508027|184501078|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|STANDARD_DEVIATION|1.7|<|0.05|||||||t-test, 2 sided|||Ho: There is no change in plasma biomarker levels before and after simivastatin treatment. With 12 patients in each group and assuming a 5% risk of Type I error (two-tailed α = 0.05) and estimated SD for the change in NOx (or sVCAM-1) of 48%, power will be 80% to detect a 40% change from baseline for each group, and a 55% difference in the change in biomarker levels between dose groups. Matched paired t-tests were used to measure changes in biomarker levels from baseline.||||<0.05
92297923|NCT02013531|184501099|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||The null hypothesis of zero in mean change from Baseline in the MADRS total score at Week 6 was tested at a significance level of 0.05. Because this was an exploratory trial, no methods to control type I error rate were performed.||||<0.0001
92146201|NCT00998400|184177252|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
92146202|NCT00998400|184177253|SUPERIORITY||||||>|0.05|||||||Kaplan-Meier Survival analysis|||||||>0.05
92146203|NCT00998400|184177254|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
92297924|NCT02013531|184501100|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measure (MMRM) with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 6.||||<0.0001
92297925|NCT02013531|184501106|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measure (MMRM) with model terms: Baseline, visit, and Baseline by visit interaction||The null hypothesis of zero in Mean change from Baseline in HAM-A total score at Week 6 was tested at a significance level of 0.05. Because this was an exploratory trial, no methods to control type I error rate were performed.||||<0.0001
92297926|NCT00860743|184501137|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P values less than 0.05 are considered statistically significant in this study.|ANOVA|||||||0.001
92297927|NCT00860743|184501138|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||ANOVA|||||||0.2
92297928|NCT02776553|184501144|SUPERIORITY|||||||0.49|||||||ANCOVA|||||||0.49
92297929|NCT02776553|184501145|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.03
92297930|NCT02776553|184501146|SUPERIORITY|||||||0.37|||||||ANCOVA|||||||0.37
92297931|NCT03827018|184501155|SUPERIORITY||Hazard Ratio (HR)|0.38||||0.0263|TWO_SIDED|95.0|0.15|0.92||Comparison of KPL-301 and placebo with respect to time to flare calculated by using a log-rank test stratified by randomization strata.|Log Rank||95% confidence interval was calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata.|||0.92|0.15|0.0263
92297932|NCT03827018|184501156|SUPERIORITY||Difference in proportions|33.3||||0.0038|TWO_SIDED|95.0|10.7|55.8||Two-sided p-value and 95% CI for the difference in sustained remission between two arms using normal approximation. Placebo arm is the reference.|normal approximation|||Secondary endpoints were analyzed in hierarchical order.||55.8|10.7|0.0038
92146204|NCT00998400|184177255|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
92146205|NCT00998400|184177256|SUPERIORITY|||||||0.013|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||0.013
92146206|NCT00998400|184177257|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
92146207|NCT00998400|184177258|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
92146208|NCT00998400|184177259|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
92146209|NCT00998400|184177260|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
92146210|NCT00998400|184177261|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
92297933|NCT03827018|184501157|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0277|TWO_SIDED|95.0|0.27|0.95||Calculated by using a log-rank test stratified by randomization strata.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate, and stratified by randomization strata.|Secondary endpoints were analyzed in hierarchical order.||0.95|0.27|0.0277
92297934|NCT03827018|184501158|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.0378|TWO_SIDED|95.0|0.19|0.98||Calculated by using a log-rank test stratified by randomization strata.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate, and stratified by randomization strata.|Secondary endpoints were analyzed in hierarchical order.||0.98|0.19|0.0378
92297935|NCT03827018|184501159|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0651|TWO_SIDED|95.0|0.22|1.06||Calculated by using a log-rank test stratified by randomization strata.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate, and stratified by randomization strata.|Secondary endpoints were analyzed in hierarchical order.||1.06|0.22|0.0651
92297936|NCT03827018|184501160|OTHER|Descriptive statistic|Least Squares (LS) means difference|-326.45||||0.0667|TWO_SIDED|95.0|-675.99|23.09||Calculated using ANCOVA with treatment arm and randomization strata as discrete variables, and corticosteroid starting dose as a continuous variable.|ANCOVA|||||23.09|-675.99|0.0667
92297937|NCT03827018|184501161|OTHER|Descriptive statistic|Difference in percentages|31.0||||0.0201|TWO_SIDED|95.0|11.1|50.8||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata|Cochran-Mantel-Haenszel|||||50.8|11.1|0.0201
92297938|NCT03827018|184501162|OTHER|Descriptive statistic|Difference in percentages|9.5||||0.5533|TWO_SIDED|95.0|-8.7|27.8||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata|Cochran-Mantel-Haenszel|||||27.8|-8.7|0.5533
92297939|NCT03827018|184501163|OTHER|Descriptive statistics|Difference in percentages|39.3||||0.0031|TWO_SIDED|95.0|17.2|61.3||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata|Cochran-Mantel-Haenszel|||||61.3|17.2|0.0031
92297940|NCT03827018|184501164|OTHER|Descriptive statistics|Least Squares (LS) means difference|-380.82||||0.1629|TWO_SIDED|95.0|-919.66|158.02||Calculated using ANCOVA with treatment arm and randomization strata as discrete variables, and corticosteroid starting dose as a continuous variable|ANCOVA|||||158.02|-919.66|0.1629
92297941|NCT01998243|184501165|SUPERIORITY||Risk Ratio (RR)|1.2||||0.689|TWO_SIDED|95.0|0.53|2.6|||Chi-squared||risk ratio (RR)|||2.60|0.53|0.689
92297942|NCT01998243|184501166|SUPERIORITY||Risk Ratio (RR)|1.59||||0.144|TWO_SIDED|95.0|0.84|3.01|||Chi-squared||all in all balloon and postsurgical morbidity in group A vs. group B.|||3.01|0.84|0.144
92146211|NCT00105235|184177282|SUPERIORITY_OR_OTHER||Proportion|0.22|||||TWO_SIDED|95.0|0.086|0.423|||Exact Binomial Confidence Interval|||||.423|.086|
92297943|NCT01998243|184501167|SUPERIORITY|||||||0.937|||||||Wilcoxon (Mann-Whitney)|||||||0.937
92297944|NCT01998243|184501168|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92297945|NCT01998243|184501169|SUPERIORITY|||||||0.673|||||||Fisher Exact|||||||0.673
92297946|NCT02646917|184501211|SUPERIORITY||||||<|0.008|||||||Wilcoxon (Mann-Whitney)|||Goodman and Baron's qualitative acne scar severity scores. Calculated from Wilcoxon signed-rank test. Testing hypothesis is that the mean change from baseline is equal to zero.||||<0.008
92297947|NCT02646917|184501212|SUPERIORITY||||||<|0.001|||||||Wilcoxen signed-rank test|||Null hypothesis 4 (no change).||||<.001
92297948|NCT02646917|184501213|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Calculated from Wilcoxon signed-rank test. The testing hypothesis is that the mean change from baseline is equal to zero||||<0.01
92146212|NCT00105235|184177283|SUPERIORITY_OR_OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|0.3|||Exact Binomial Confidence Interval|||||0.3|0|
92146213|NCT00105235|184177285|SUPERIORITY_OR_OTHER||Proportion|0.2|||||TWO_SIDED|95.0|0.04|0.3|||Exact Binomial Confidence Interval|||||0.3|0.04|
92297949|NCT02646917|184501214|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Calculated from Wilcoxon signed-rank test. The testing hypothesis is that the mean score is equal to 0 (no change in the appearance of acne scars).||||<0.01
92297950|NCT02646917|184501215|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|Calculated from Wilcoxon signed-rank test. Testing hypothesis is that the mean score is equal to 4 (no change).||||||<0.01
92297951|NCT04569786|184501221|SUPERIORITY|A conclusion of superiority is based on the lower limit of the 90% CI for the estimated GMT ratio (V590/Placebo) being \>1.0 (one-sided p-value \<0.05).|GMT Ratio|0.92||||0.649|TWO_SIDED|90.0|0.63|1.34||1-sided|Longitudinal data analysis (LDA) method|GMT ratios and 90% CIs, and p-values are estimated from an LDA model and are provided in accordance with the statistical analysis plan.||||1.34|0.63|0.649
92297952|NCT04569786|184501221|SUPERIORITY|A conclusion of superiority is based on the lower limit of the 90% CI for the estimated GMT ratio (V590/Placebo) being \>1.0 (one-sided p-value \<0.05).|GMT Ratio|1.0||||0.495||90.0|0.68|1.48||1-sided|LDA model|GMT ratios and 90% CIs, and p-values are estimated from an LDA model and are provided in accordance with the statistical analysis plan.||||1.48|0.68|0.495
92297953|NCT04569786|184501221|SUPERIORITY|A conclusion of superiority is based on the lower limit of the 90% CI for the estimated GMT ratio (V590/Placebo) being \>1.0 (one-sided p-value \<0.05).|GMT Ratio|1.1||||0.339|TWO_SIDED|90.0|0.75|1.6||1-sided|LDA Model|GMT ratios and 90% CIs, and p-values are estimated from an LDA model and are provided in accordance with the statistical analysis plan.||||1.60|0.75|0.339
92297954|NCT04569786|184501221|SUPERIORITY|A conclusion of superiority is based on the lower limit of the 90% CI for the estimated GMT ratio (V590/Placebo) being \>1.0 (one-sided p-value \<0.05).|GMT Ratio|2.26|||<|0.001|TWO_SIDED|90.0|1.56|3.28||1-sided|LDA Model|GMT ratios and 90% CIs, and p-values are estimated from an LDA model and are provided in accordance with the statistical analysis plan.||||3.28|1.56|<0.001
92146214|NCT00105235|184177286|SUPERIORITY_OR_OTHER||Proportion|0.1|||||TWO_SIDED|95.0|0.01|0.2|||Exact Binomial Confidence Interval|||||0.2|0.01|
92146215|NCT02052310|184177287|NON_INFERIORITY|Non-inferiority was established if the 2-sided 95% confidence interval (CI) for the treatment difference in least square (LS) means from MI ANCOVA model between the 2 treatment groups lay entirely above -0.75 g/dL.|LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.053||0.0005|TWO_SIDED|95.0|0.079|0.287|||ANCOVA|ANCOVA with multiple imputation||Treatment comparison was made using the multiple imputation (MI) strategy by combining the results of analysis of covariance (ANCOVA) model with baseline Hb as a covariate, and treatment, region and cardiovascular/cerebrovascular/thromboembolic medical history (yes vs. no) as factors.||0.287|0.079|0.0005
92146216|NCT02052310|184177288|NON_INFERIORITY|Non-inferiority was established if the lower bound of the 2-sided 95% CI for the treatment difference for the responder rates (roxadustat minus epoetin alfa) calculated based on the Miettinen \& Nurminen approach, adjusting for stratification factors, was greater than -15%.|Responder Rate Difference|3.5|||||TWO_SIDED|95.0|-0.7|7.7||||||For the difference of responder rates between 2 treatment groups, the CI was analyzed from the Miettinen \& Nurminen approach adjusting for randomization stratification factors.||7.7|-0.7|
92297955|NCT02260258|184501264|EQUIVALENCE|Time variable log transformed and compared using linear regression controlling for shock stratification and site. Effect estimate represents geometric mean difference. Values above 1.0 favor longer duration in the NMB arm.|Geometric mean difference|1.0||||0.82|TWO_SIDED|95.0|0.7|1.4||A priori threshold for significance 0.05|Regression, Linear|||||1.4|0.7|0.82
92297956|NCT02260258|184501265|EQUIVALENCE|LOS truncated at 28 days and compared using negative binomial regression controlling for stratification and site. Effect estimates represent incidence rate ratios. The parameter estimate, p value and CI provided below are from the negative binomial regression carried out all patients (N = 37 in NMB and 43 in Usual Care)|Incidence rate ratio|1.4||||0.09|TWO_SIDED|95.0|1.0|1.9|||Negative binomial regression|||All patients analyzed (N = 37 in NMB and 43 in Usual Care)||1.9|1.0|0.09
92297957|NCT02260258|184501265|EQUIVALENCE|LOS truncated at 28 days and compared using negative binomial regression controlling for stratification and site. Effect estimates represent incidence rate ratios. The parameter estimate, p value and CI provided below are from the negative binomial regression carried out on ICU survivors alone (n = 14 in NMB and 14 in Control)|Incidence rate ratio|1.3||||0.35|TWO_SIDED|95.0|0.8|2.0|||Negative binomial regression|||ICU survivors alone analyzed (n = 14 in each arm)||2.0|0.8|0.35
92297958|NCT02260258|184501266|EQUIVALENCE|Duration log transformed and compared using linear regression controlling for shock stratification and site. Includes all patients (n=37 in NMB and n = 43 in control). Effect estimates represent geometric mean difference. Values above 1.0 favor longer duration in the NMB arm.|Geometric mean difference|1.3||||0.18|TWO_SIDED|95.0|0.9|1.9|||Regression, Linear|Duration log transformed and so parameter estimate represents geometric mean difference.||Anaysis for the full data (n= 37 in NMB and 43 in Control)||1.9|0.9|0.18
92297959|NCT02260258|184501266|EQUIVALENCE|Duration log transformed and compared using linear regression controlling for shock stratification and site. Includes patients surviving to discontinuation of mechanical ventilation (n=14 in each group). Two patients discharged from the hospital on mechanical ventilation have duration truncated at time of discharge and are considered survivors to extubation. Effect estimates represent geometric mean difference. Values above 1.0 favor longer duration in the NMB arm.|Geometric mean difference|1.4||||0.32|TWO_SIDED|95.0|0.7|2.9|||Regression, Linear|Duration log transformed and so parameter estimate represents geometric mean difference.||Anaysis for the patients surviving to extubation (n= 14 in both groups)||2.9|0.7|0.32
92297960|NCT02260258|184501267|EQUIVALENCE|Comparison made using logistic regression controlling for shock stratification and site. Effect estimates represent odds ratios|Odds Ratio (OR)|1.3||||0.63|TWO_SIDED|95.0|0.5|3.3|||Regression, Logistic|||||3.3|0.5|0.63
92297961|NCT02260258|184501268|EQUIVALENCE|Comparison made using logistic regression controlling for shock stratification and site. Effect estimates represent odds ratios|Odds Ratio (OR)|1.7||||0.35|TWO_SIDED|95.0|0.6|4.7|||Regression, Logistic|||||4.7|0.6|0.35
92297962|NCT04230876|184501318|SUPERIORITY||partial eta squared|0.047|||=|0.269|TWO_SIDED|||||Within the 28 participants, changes in the COSI scores after four weeks using the Amptify were compared to the changes after four weeks watching 20 minutes of CC TV (F(1,26)=1.28).|ANOVA|||||||=0.269
92297963|NCT04230876|184501319|SUPERIORITY||partial eta squared|0.031|||=|0.401|TWO_SIDED|||||Changes in the IOI-HA scores measured after four weeks using the Amptify were compared to the changes seen after four weeks of CC TV every day (F(1,23)=.733).|ANOVA|||||||=0.401
92297964|NCT04230876|184501320|SUPERIORITY||partial eta squared|0.0|||=|0.968|TWO_SIDED|||||Changes in the APHAB benefit scores after four weeks using the Amptify were compared to the improvements seen after four weeks of CC TV every day (F(1,25)=.002).|ANOVA|||||||=0.968
92297965|NCT04230876|184501321|SUPERIORITY||partial eta squared|0.028|||=|0.392|TWO_SIDED|||||Changes in the SSQ-12 scores after four weeks using the Amptify were compared to the improvements seen after four weeks watching 20 minutes of CC TV (F(1,26)=.756).|ANOVA|||||||=0.392
92297966|NCT04230876|184501322|SUPERIORITY||partial eta squared|0.005|||=|0.72|TWO_SIDED|||||Among the 28 participants, changes in the hours per day of hearing aid usage seen after four weeks using the Amptify were compared to the changes seen after four weeks of CC TV every day (F(1,26)=.131).|ANOVA|||||||=0.720
92297967|NCT04230876|184501323|SUPERIORITY||partial eta squared|0.052|||=|0.242|TWO_SIDED|||||Changes in the NU-6 seen after four weeks using the Amptify were compared to the changes seen after four weeks watching 20 minutes of CC TV (F(1,26)=1.43).|ANOVA|||||||=0.242
92297968|NCT01181531|184501324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|5.3||0.346|TWO_SIDED|95.0|-15.4|5.4||Unadjusted. Model contains baseline stratification factor for type of Vitamin D administered at the site|Mixed Models Analysis||Cinacalcet - Vitamin D|Null hypothesis: no difference in % change from baseline in PTH comparing the two treatment arms.||5.4|-15.4|0.346
92297969|NCT01181531|184501325|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.11|TWO_SIDED|95.0|0.92|2.29||Stratified by type of Vitamin D at site|Cochran-Mantel-Haenszel||OR is Cinacalcet: Vitamin D|||2.29|0.92|0.110
92297970|NCT01181531|184501326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.346|TWO_SIDED|95.0|0.74|2.39||stratified by type of Vitamin D at site|Cochran-Mantel-Haenszel||OR is Cinacalcet: Vitamin D|||2.39|0.74|0.346
92146217|NCT02052310|184177289|NON_INFERIORITY|Non-inferiority was established if the lower bound of the 2-sided 95% CI for the treatment difference for the responder rates (roxadustat minus epoetin alfa) calculated based on the Miettinen \& Nurminen approach, adjusting for stratification factors, was greater than -15%.|Responder Rate Difference|4.3|||||TWO_SIDED|95.0|-0.1|8.7||||||For the difference of responder rates between 2 treatment groups, the CI analyzed was from the Miettinen \& Nurminen approach adjusting for randomization stratification factors.||8.7|-0.1|
92297971|NCT00545688|184501328|SUPERIORITY_OR_OTHER||Difference in Response rates|16.82||||0.0094|TWO_SIDED|95.0|3.5|30.1||Cochran-Mantel-Haenszel test stratified by breast cancer type (operable, locally advanced, or inflammatory) and estrogen and or progesterone positivity (either positive versus both negative).|Cochran-Mantel-Haenszel|||||30.1|3.5|0.0094
92297972|NCT00545688|184501328|SUPERIORITY_OR_OTHER|||||||0.0141|TWO_SIDED|||||P-value from Cochran-Mantel-Haenszel test, with Simes multiplicity adjustment.|Cochran-Mantel-Haenszel|||||||0.0141
92297973|NCT00545688|184501328|SUPERIORITY_OR_OTHER||Difference in Response rates|-12.15||||0.0198|TWO_SIDED|95.0|-23.8|-0.5||Cochran-Mantel-Haenszel test stratified by breast cancer type (operable, locally advanced, or inflammatory) and estrogen and or progesterone positivity (either positive versus both negative).|Cochran-Mantel-Haenszel|||||-0.5|-23.8|0.0198
92297974|NCT00545688|184501328|SUPERIORITY_OR_OTHER|||||||0.0198|TWO_SIDED|||||P-value from Cochran-Mantel-Haenszel test, with Simes multiplicity adjustment.|Cochran-Mantel-Haenszel|||||||0.0198
92297975|NCT00545688|184501328|SUPERIORITY_OR_OTHER||Difference in Response rates|-21.84||||0.001|TWO_SIDED|95.0|-35.1|-8.5||Cochran-Mantel-Haenszel test stratified by breast cancer type (operable, locally advanced, or inflammatory) and estrogen and or progesterone positivity (either positive versus both negative).|Cochran-Mantel-Haenszel|||||-8.5|-35.1|0.0010
92297976|NCT00545688|184501328|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||P-value from Cochran-Mantel-Haenszel test, with Simes multiplicity adjustment.|Cochran-Mantel-Haenszel|||||||0.0030
92297977|NCT00545688|184501343|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.2983|TWO_SIDED|95.0|0.34|1.4|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|PFS||1.40|0.34|0.2983
92297978|NCT00545688|184501343|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.4722|TWO_SIDED|95.0|0.68|2.3|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|PFS||2.30|0.68|0.4722
92297979|NCT00545688|184501343|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.05||||0.0268|TWO_SIDED|95.0|1.07|3.93|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|PFS||3.93|1.07|0.0268
92297980|NCT00545688|184501343|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.1805|TWO_SIDED|95.0|0.28|1.27|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|DFS||1.27|0.28|0.1805
92297981|NCT00545688|184501343|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.5901|TWO_SIDED|95.0|0.42|1.64|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|DFS||1.64|0.42|0.5901
92297982|NCT00545688|184501343|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.16||||0.025|TWO_SIDED|95.0|1.08|4.32|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|DFS||4.32|1.08|0.0250
92297983|NCT04243096|184501347|OTHER||Mean Difference (Final Values)|4.62|||<|0.0001|TWO_SIDED|95.0|2.6|6.64|||Mixed Models Analysis|||||6.64|2.60|<0.0001
92146218|NCT02052310|184177290|NON_INFERIORITY|Non-inferiority was established if the 2-sided 95% CI for the treatment difference in LS means of change from baseline Hb averaged over Weeks 28 to 52 lay entirely above -0.75 g/dL.|LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.067||0.0148|TWO_SIDED|95.0|0.032|0.296|||Mixed Models Analysis|||Treatment comparison was made using mixed model for repeated measures (MMRM) with baseline Hb as a covariate, and treatment, visit, visit-by-treatment interaction and randomization stratification factors except mean qualifying screening hemoglobin (≤8.0 vs. \>8.0 g/dL) as fixed effects.||0.296|0.032|0.0148
92146219|NCT02052310|184177291|SUPERIORITY|Superiority was declared if the upper bound of the 2-sided 95% CI of the difference between roxadustat and epoetin alfa (roxadustat - epoetin alpha) was less than 0.|LS Mean Difference|-18.34|STANDARD_ERROR_OF_MEAN|1.584|<|0.0001|TWO_SIDED|95.0|-21.448|-15.232|||Mixed Models Analysis|||Treatment comparison was made using a MMRM with baseline LDL cholesterol as a covariate, and treatment, visit, visit-by-treatment interaction and randomization stratification factors as fixed effects.||-15.232|-21.448|<0.0001
92146220|NCT02052310|184177292|NON_INFERIORITY|The non-inferiority margin was fixed as a difference of -0.75.|LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.099||0.8178|TWO_SIDED|95.0|-0.171|0.217|||ANCOVA|ANCOVA multiple imputation||Treatment comparison was made using the multiple imputation strategy by combining the results of ANCOVA model with baseline Hb as a covariate, and treatment, region and cardiovascular/cerebrovascular/thromboembolic medical history (yes vs. no) as factors.||0.217|-0.171|0.8178
92146221|NCT02052310|184177293|SUPERIORITY|||||||0.00028||||||Threshold for significance at 0.05 level.|Rank ANCOVA|||Treatment comparison was made using an ANCOVA model with baseline iron repletion status, treatment, and randomization stratification factors as fixed effects.||||0.00028
92297984|NCT04243096|184501348|OTHER||Mean Difference (Final Values)|-0.04|||<|0.0001|TWO_SIDED|95.0|-0.06|-0.02|||Mixed Models Analysis|||||-0.02|-0.06|<0.0001
92297985|NCT04243096|184501349|OTHER||Mean Difference (Final Values)|-0.02|||<|0.0001|TWO_SIDED|95.0|-0.03|-0.01|||Mixed Models Analysis|||||-0.01|-0.03|<0.0001
92297986|NCT04243096|184501350|OTHER||Mean Difference (Final Values)|-0.03|||<|0.0001|TWO_SIDED|95.0|-0.04|-0.02|||Mixed Models Analysis|||||-0.02|-0.04|<0.0001
92297987|NCT04243096|184501351|OTHER||Mean Difference (Final Values)|-0.01|||<|0.0001|TWO_SIDED|95.0|-0.01|0.0|||Mixed Models Analysis|||||0.00|-0.01|<0.0001
92297988|NCT04243096|184501352|OTHER||Mean Difference (Final Values)|-0.01||||0.0013|TWO_SIDED|95.0|-0.02|-0.01|||Mixed Models Analysis|||||-0.01|-0.02|0.0013
92146222|NCT02052310|184177294|NON_INFERIORITY|The non-inferiority margin for the difference between groups was 1.8.|Hazard Ratio (HR)|1.26||||0.3284|TWO_SIDED|95.0|0.791|2.016|||Cox Proportional Hazards model|||Analysis was done using a Cox Proportional Hazards model adjusting for baseline Hb and other stratification factors except mean qualifying screening hemoglobin (\<= 8.0 vs. \>8.0 g/dL) as fixed effects.||2.016|0.791|0.3284
92146223|NCT02563002|184177308|OTHER||Hazard Ratio (HR)|0.59||||0.0001|TWO_SIDED|95.0|0.45|0.79|||Log Rank|One-sided p-value based on log rank test|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||0.79|0.45|0.0001
92146224|NCT02563002|184177309|OTHER||Hazard Ratio (HR)|0.74||||0.0359|TWO_SIDED|95.0|0.53|1.03|||Log Rank|One-sided p-value based on log rank test|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.03|0.53|0.0359
92146225|NCT02563002|184177310|OTHER||Difference in percentage|12.0||||0.0159|TWO_SIDED|95.0|1.0|22.6||One-sided p-value based on Miettinen \& Nurminen method.|Miettinen & Nurminen method||Based on Miettinen \& Nurminen method.|||22.6|1.0|0.0159
92297989|NCT04243096|184501353|OTHER||Mean Difference (Final Values)|-0.02||||0.0003|TWO_SIDED|95.0|-0.02|-0.01|||Mixed Models Analysis|||||-0.01|-0.02|0.0003
92297990|NCT04243096|184501354|OTHER||Mean Difference (Final Values)|0.03|||<|0.0001|TWO_SIDED|95.0|0.02|0.04|||Mixed Models Analysis|||||0.04|0.02|<0.0001
92297991|NCT04243096|184501355|OTHER||Mean Difference (Final Values)|0.09|||<|0.0001|TWO_SIDED|95.0|0.06|0.13|||Mixed Models Analysis|||||0.13|0.06|<0.0001
92297992|NCT04243096|184501359|OTHER||Mean Difference (Final Values)|9.96|||<|0.0001|TWO_SIDED|95.0|6.6|13.31|||Mixed Models Analysis|||||13.31|6.60|<0.0001
92297993|NCT04243096|184501360|OTHER||Mean Difference (Final Values)|13.07|||<|0.0001|TWO_SIDED|95.0|9.65|16.48|||Mixed Models Analysis|adjusted for age, sex, BMI, and presence of comorbidities.|Change from baseline to week 12|||16.48|9.65|<0.0001
92297994|NCT04243096|184501361|OTHER||Median Difference (Final Values)|-17.5||||0.1196|TWO_SIDED|95.0|-39.7|4.61|||Mixed Models Analysis|||||4.61|-39.7|0.1196
92297995|NCT04243096|184501363|OTHER||Mean Difference (Final Values)|0.11|||<|0.0001|TWO_SIDED|95.0|-0.04|0.25|||Mixed Models Analysis|||||0.25|-0.04|<0.0001
92297996|NCT04243096|184501364|OTHER||Mean Difference (Final Values)|-1.83|||<|0.0001|TWO_SIDED|95.0|-5.76|2.09|||Mixed Models Analysis|||||2.09|-5.76|<0.0001
92297997|NCT04243096|184501365|OTHER||Mean Difference (Final Values)|-0.15|||<|0.0001|TWO_SIDED|95.0|-0.46|0.16|||Mixed Models Analysis|||||0.16|-0.46|<0.0001
92297998|NCT04243096|184501366|OTHER||Mean Difference (Final Values)|-1.15|||<|0.0001|TWO_SIDED|95.0|-2.22|-0.08|||Mixed Models Analysis|||||-0.08|-2.22|<0.0001
92297999|NCT04243096|184501367|OTHER||Mean Difference (Final Values)|-0.08|||<|0.0001|TWO_SIDED|95.0|-3.37|3.22|||Mixed Models Analysis|||||3.22|-3.37|<0.0001
92298000|NCT04243096|184501368|OTHER||Mean Difference (Final Values)|6.21||||0.0134|TWO_SIDED|95.0|1.31|11.11|||Mixed Models Analysis|||||11.11|1.31|0.0134
92298001|NCT04243096|184501369|OTHER||Median Difference (Final Values)|1.75|||<|0.0001|TWO_SIDED|95.0|1.16|2.34|||Mixed Models Analysis|||||2.34|1.16|<0.0001
92298002|NCT04243096|184501370|OTHER||Median Difference (Final Values)|-1.19||||0.003|TWO_SIDED|95.0|-1.97|-0.41|||Mixed Models Analysis|||||-0.41|-1.97|0.0030
92298003|NCT04243096|184501371|OTHER||Mean Difference (Final Values)|0.45|||<|0.0001|TWO_SIDED|95.0|0.23|0.67|||Mixed Models Analysis|||||0.67|0.23|<0.0001
92298004|NCT04243096|184501372|OTHER||Mean Difference (Final Values)|35.18|||<|0.0001|TWO_SIDED|95.0|18.7|51.67|||Mixed Models Analysis|||||51.67|18.70|<0.0001
92298005|NCT04243096|184501373|OTHER||Mean Difference (Final Values)|-1.98|||<|0.0001|TWO_SIDED|95.0|-2.57|-1.39|||Mixed Models Analysis|||||-1.39|-2.57|<0.0001
92298006|NCT02792218|184501389|SUPERIORITY||rate ratio|0.495|||<|0.001|TWO_SIDED|95.0|0.375|0.655|||negative binomial regression model|||Obtained from fitting a negative binomial regression model with log-link to the number of relapses, adjusted for treatment and region as factors, number of relapses in previous year, baseline EDSS, baseline number of Gd-enhancing lesions and the patient's age at baseline as covariates. The natural log of the time-in-study was used as offset to annualize the relapse rate.||0.655|0.375|<0.001
92298007|NCT02792218|184501390|SUPERIORITY||Hazard Ratio (HR)|0.657||||0.003|TWO_SIDED|95.0|0.5|0.863|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||0.863|0.500|0.003
92298008|NCT02792218|184501391|SUPERIORITY||Hazard Ratio (HR)|0.652||||0.029|TWO_SIDED|95.0|0.445|0.956|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||0.956|0.445|0.029
92298009|NCT02792218|184501392|SUPERIORITY||Hazard Ratio (HR)|0.676||||0.012|TWO_SIDED|95.0|0.498|0.917|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||0.917|0.498|0.012
92298010|NCT02792218|184501393|SUPERIORITY||Hazard Ratio (HR)|0.607||||0.022|TWO_SIDED|95.0|0.396|0.93|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||0.930|0.396|0.022
92298011|NCT02792218|184501394|SUPERIORITY||Hazard Ratio (HR)|1.355||||0.092|TWO_SIDED|95.0|0.952|1.952|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||1.952|0.952|0.092
92298012|NCT02792218|184501395|SUPERIORITY||Hazard Ratio (HR)|1.186||||0.516|TWO_SIDED|95.0|0.709|1.983|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||1.983|0.709|0.516
92146226|NCT02416492|184177328|SUPERIORITY||Least Square (LS) Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|2.9||0.0401|TWO_SIDED|95.0||||MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|||Adjusted LS mean and treatment group difference in change from baseline at Week 24 were modeled using an MMRM including the following variables: treatment, visit, treatment by visit interaction, baseline FMMS score, baseline FMMS score by visit interaction, GOS-E score at screening, and GOS-E score at screening by visit interaction.||||0.0401
92298013|NCT02792218|184501396|SUPERIORITY||rate ratio|0.025|||<|0.001|TWO_SIDED|95.0|0.013|0.049|||negative binomial regression model|||||0.049|0.013|<.001
92298014|NCT02792218|184501397|SUPERIORITY||rate ratio|0.26|||<|0.001|TWO_SIDED|95.0|0.21|0.33|||negative binomial regression model|||Month 12||0.33|0.21|<.001
92298015|NCT02792218|184501397|SUPERIORITY||rate ratio|0.22|||<|0.001|TWO_SIDED|95.0|0.15|0.34|||negative binomial regression model|||Month 24||0.34|0.15|<.001
92298016|NCT02792218|184501397|SUPERIORITY||rate ratio|0.18|||<|0.001|TWO_SIDED|95.0|0.15|0.22|||negative binomial regression model|||End of Study||0.22|0.15|<.001
92298017|NCT02792218|184501398|SUPERIORITY||Geo-mean ratio|0.93||||0.011|TWO_SIDED|95.0|0.89|0.98|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 3||0.98|0.89|0.011
92298018|NCT02792218|184501398|SUPERIORITY||Geo-mean ratio|0.73|||<|0.001|TWO_SIDED|95.0|0.69|0.77|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 12||0.77|0.69|<.001
92298019|NCT02792218|184501398|SUPERIORITY||Geo-mean ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.72|0.82|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 24||0.82|0.72|<.001
92298020|NCT02792218|184501399|SUPERIORITY||Mean Difference (Net)|0.07||||0.118|TWO_SIDED|95.0|-0.02|0.15|||random coefficient model|||||0.15|-0.02|0.118
92298021|NCT02792218|184501402|SUPERIORITY||Hazard Ratio (HR)|0.641||||0.002|TWO_SIDED|95.0|0.486|0.847|||Regression, Cox|||||0.847|0.486|0.002
92298022|NCT02792218|184501403|SUPERIORITY||Hazard Ratio (HR)|0.657||||0.008|TWO_SIDED|95.0|0.481|0.898|||Regression, Cox|||||0.898|0.481|0.008
92298023|NCT00749411|184501446|NON_INFERIORITY|GSK233705/GW642444 were declared non-inferior to placebo for heart rate if the upper limit of the 95% confidence interval for the estimated treatment difference for weighted mean heart rate was less than +10bpm.|Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-5.5|3.5|||||Analysis performed using a Repeated Measures Model with covariates of baseline pulse rate, sex, age, smoking status, treatment and Day and Day by treatment and Day by baseline interactions.|||3.5|-5.5|
92298024|NCT03694808|184501448|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|ratio of GMT (Fluzone/Fluad)|1.23|||||TWO_SIDED|95.0|0.8|1.89|||t-test, 2 sided|||Statistical Analysis for Year 1 (2018-2019)||1.89|0.8|
92146227|NCT02416492|184177329|SUPERIORITY||Least Square (LS) Mean Difference|-0.7||||0.1655|TWO_SIDED|95.0|-1.7|0.3||MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|||Adjusted LS mean and treatment group difference in change from baseline at Week 24 were modeled using an MMRM including the following variables: treatment, visit, treatment by visit interaction, baseline FMMS score, baseline FMMS score by visit interaction, GOS-E score at screening, and GOS-E score at screening by visit interaction.||0.3|-1.7|0.1655
92146228|NCT02416492|184177330|SUPERIORITY||Least Square (LS) Mean Difference|2.7||||0.3398|TWO_SIDED|95.0|-2.9|8.3|||Mixed Models Analysis|MMRM included treatment, visit, baseline endpoints \& GOS-E scores, baseline endpoints \& GOS-E by visit interaction, treatment-by-visit interaction||Adjusted LS mean and treatment group difference in change from baseline at Week 24 were modeled using an MMRM including the following variables: treatment, visit, treatment by visit interaction, baseline FMMS score, baseline FMMS score by visit interaction, GOS-E score at screening, and GOS-E score at screening by visit interaction.||8.3|-2.9|0.3398
92146229|NCT02416492|184177331|SUPERIORITY||Least Square (LS) Mean Difference|-2.6||||0.8974|TWO_SIDED|95.0|-42.2|37.1||MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|||Adjusted LS mean and treatment group difference in change from baseline at Week 24 were modeled using an MMRM including the following variables: treatment, visit, treatment by visit interaction, baseline FMMS score, baseline FMMS score by visit interaction, GOS-E score at screening, and GOS-E score at screening by visit interaction.||37.1|-42.2|0.8974
92298025|NCT03694808|184501448|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.95|||||TWO_SIDED|95.0|0.66|1.38|||t-test, 2 sided|||Statistical Analysis for Year 2 (2019-2020)||1.38|0.66|
92298026|NCT03694808|184501449|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|1.38|||||TWO_SIDED|95.0|0.88|2.15|||t-test, 2 sided|||Statistical Analysis for Year 1 (2018-2019)||2.15|0.88|
92298027|NCT03694808|184501449|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.86|||||TWO_SIDED|95.0|0.53|1.4|||t-test, 2 sided|||Statistical Analysis for Year 2 (2019-2020)||1.4|0.53|
92298028|NCT03694808|184501450|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|1.85|||||TWO_SIDED|95.0|1.23|2.79|||t-test, 2 sided|||Statistical Analysis Year 1 (2018-2019)||2.79|1.23|
92298029|NCT03694808|184501450|NON_INFERIORITY|2-sided t-test performed on log-transformed titers; estimate and 95% confidence interval of log-scale difference exponentiated to generate GMT ratio and its 95% CI below.|Ratio of GMT (Fluzone/Fluad)|0.88|||||TWO_SIDED|95.0|0.61|1.26|||t-test, 2 sided|||Statistical Analysis Year 2 (2019-2020)||1.26|0.61|
92298030|NCT03694808|184501451|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|0.154|||||TWO_SIDED|95.0|-0.001|0.308|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 1 (2018-2019)||0.308|-0.001|
92298031|NCT03694808|184501451|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|-0.056|||||TWO_SIDED|95.0|-0.2|0.089|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 2 (2019-2020)||0.089|-0.2|
92298032|NCT03694808|184501452|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|0.218|||||TWO_SIDED|95.0|0.063|0.373|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 1 (2018-2019)||0.373|0.063|
92298033|NCT03694808|184501452|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|-0.008|||||TWO_SIDED|95.0|-0.139|0.123|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 2 (2019-2020)||0.123|-0.139|
92298034|NCT03694808|184501453|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|0.136|||||TWO_SIDED|95.0|-0.019|0.291|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 1 (2018-2019)||0.291|-0.019|
92298035|NCT03694808|184501453|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|0.024|||||TWO_SIDED|95.0|-0.117|0.164|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 2 (2019-2020)||0.164|-0.117|
92146230|NCT02416492|184177332|SUPERIORITY||Least Square (LS) Mean Difference|-0.49||||0.8534|TWO_SIDED|95.0|-5.77|4.8||MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|MMRM included treatment, visit, baseline endpoints \& GOS-E scores, baseline endpoints \& GOS-E by visit interaction, treatment-by-visit interaction||Change from Baseline in NeuroQOL Upper Extremity Function T Score at Week 24||4.80|-5.77|0.8534
92298036|NCT03694808|184501454|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.43|||||TWO_SIDED|95.0|0.29|0.64|||t-test, 2 sided|||Statistical Analysis Year 1 (2018-2019)||0.64|0.29|
92298037|NCT03694808|184501454|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.45|||||TWO_SIDED|95.0|0.29|0.69|||t-test, 2 sided|||Statistical Analysis Year 2 (2019-2020)||0.69|0.29|
92298038|NCT03694808|184501455|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.91|||||TWO_SIDED|95.0|0.71|1.16|||t-test, 2 sided|||Statistical Analysis Year 1 (2018-2019)||1.16|0.71|
92146231|NCT02416492|184177332|SUPERIORITY||Least Square (LS) Mean Difference|0.41||||0.8443|TWO_SIDED|95.0|-3.78|4.6||MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|MMRM included treatment, visit, baseline endpoints \& GOS-E scores, baseline endpoints \& GOS-E by visit interaction, treatment-by-visit interaction||Change from Baseline in NeuroQOL Lower Extremity Function T Score at Week 24||4.60|-3.78|0.8443
92146232|NCT02093663|184177334|OTHER||Odds Ratio (OR)|3.21||||0.039|TWO_SIDED|95.0|1.04|9.88|||Uncorrected Chi-squared Test|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (last observation carried forward \[LOCF\] and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||9.88|1.04|0.039
92298039|NCT03694808|184501455|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.96|||||TWO_SIDED|95.0|0.69|1.33|||t-test, 2 sided|||Statistical Analysis Year 2 (2019-2020)||1.33|0.69|
92298040|NCT03694808|184501456|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|-0.544|||||TWO_SIDED|95.0|-0.674|-0.414|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 1 (2018-2019)||-0.414|-0.674|
92298041|NCT03694808|184501456|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|-0.168|||||TWO_SIDED|95.0|-0.311|-0.025|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 2 (2019-2020)||-0.025|-0.311|
92298042|NCT03694808|184501457|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|-0.104|||||TWO_SIDED|95.0|-0.221|0.013|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 1 (2018-2019)||0.013|-0.221|
92298043|NCT03694808|184501457|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference of proportions|-0.113|||||TWO_SIDED|95.0|-0.241|0.015|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 2 (2019-2020)||0.015|-0.241|
92298044|NCT02322788|184501466|SUPERIORITY_OR_OTHER||Estimated mean ratio|1.87|||<|0.001|TWO_SIDED|95.0|1.52|2.29|||Mixed Models Analysis|||A linear mixed effect model based on restricted maximum likelihood analysis is used to estimate the treatment effect. PC20 in natural log scale is the response variable, treatment and period are the fixed effects, and patient within sequence is a random effect.||2.29|1.52|<0.001
92298045|NCT02322788|184501466|SUPERIORITY_OR_OTHER||Estimated mean ratio|1.79|||<|0.001|TWO_SIDED|95.0|1.46|2.2|||Mixed Models Analysis|||A linear mixed effect model based on restricted maximum likelihood analysis is used to estimate the treatment effect. PC20 in natural log scale is the response variable, treatment and period are the fixed effects, and patient within sequence is a random effect.||2.20|1.46|<0.001
92146233|NCT02093663|184177335|OTHER||Odds Ratio (OR)|0.99||||0.981|TWO_SIDED|95.0|0.42|2.34||P-value were based on a Cochran-Mantel-Haenszel test stratified by prior response status.|Cochran-Mantel-Haenszel|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-value s were presented as descriptive statistics.||2.34|0.42|0.981
92298046|NCT02322788|184501466|NON_INFERIORITY_OR_EQUIVALENCE|The details of the sample size calculation is document at Section 8.2 the study protocol.|Estimated mean ratio|0.92|||||TWO_SIDED|95.0|0.75|1.13|||Mixed Models Analysis|||A linear mixed effect model based on restricted maximum likelihood analysis is used to estimate the treatment effect. PC20 in natural log scale is the response variable, treatment and period are the fixed effects, and patient within sequence is a random effect.||1.13|0.75|
92298047|NCT02322788|184501466|NON_INFERIORITY_OR_EQUIVALENCE|The details of the sample size calculation is document at Section 8.2 the study protocol.|Estimated mean ratio|0.88|||||TWO_SIDED|95.0|0.72|1.08|||Mixed Models Analysis|||A linear mixed effect model based on restricted maximum likelihood analysis is used to estimate the treatment effect. PC20 in natural log scale is the response variable, treatment and period are the fixed effects, and patient within sequence is a random effect.||1.08|0.72|
92298048|NCT00455962|184501467|SUPERIORITY|||||||0.69|||||||t-test, 2 sided|||Using previously collected data from a group of 18 predominantly Caucasian women undergoing a similar infusion we determined that 22 women would be necessary to identify a 30% difference in peak LH levels, the primary outcome measure, between AAW and CW with 80% power at a significance level of 0.05.||||0.69
92298049|NCT03135899|184501471|OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.064|||TWO_SIDED|90.0|-0.048|0.165|||Mixed Models Analysis||BI 443651 100 μg is compared to placebo.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||0.165|-0.048|
92298050|NCT03135899|184501471|OTHER||Mean Difference (Final Values)|-0.037|STANDARD_ERROR_OF_MEAN|0.064|||TWO_SIDED|90.0|-0.144|0.07|||Mixed Models Analysis||BI 443651 400 μg is compared to placebo.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||0.070|-0.144|
92298051|NCT03135899|184501471|OTHER||Mean Difference (Final Values)|-0.157|STANDARD_ERROR_OF_MEAN|0.066|||TWO_SIDED|90.0|-0.266|-0.047|||Mixed Models Analysis||BI 443651 1200 μg is compared to placebo.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||-0.047|-0.266|
92298052|NCT03135899|184501473|OTHER||Geometric Mean Ratio|0.77|STANDARD_ERROR_OF_MEAN|1.168|||TWO_SIDED|90.0|0.595|0.977|||Mixed Models Analysis||BI 443651 100 μg is compared to placebo. Standard error of the mean is actually geometric standard error.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||0.977|0.595|
92146234|NCT02093663|184177336|OTHER||Difference in proportions|50.0||||0.4|TWO_SIDED|95.0|-19.3|100.0||P-value was calculated based on Fisher's exact test.|Fisher Exact|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||100.0|-19.3|0.400
92298053|NCT03135899|184501473|OTHER||Geometric Mean Ratio|0.926|STANDARD_ERROR_OF_MEAN|1.168|||TWO_SIDED|90.0|0.715|1.199|||Mixed Models Analysis||BI 443651 400 μg is compared to placebo. Standard error of the mean is actually geometric standard error.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||1.199|0.715|
92298054|NCT03135899|184501473|OTHER||Geometric Mean Ratio|0.845|STANDARD_ERROR_OF_MEAN|1.169|||TWO_SIDED|90.0|0.651|1.095|||Mixed Models Analysis||BI 443651 1200 μg is compared to placebo. Standard error of the mean is actually geometric standard error.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||1.095|0.651|
92298055|NCT03135899|184501475|OTHER||Hazard Ratio (HR)|2.27|||||TWO_SIDED|95.0|1.31|3.95|||Regression, Cox||BI 443651 100 μg is compared to placebo.|The cox proportional hazard model included treatment and period as fixed effect and patient baseline as covariate. No hypothesis was tested. The patient baseline was obtained by calculating the median of the period baselines for each patient. A hazard ratio greater than 1 gives that active treatment is not-inferior to placebo.||3.95|1.31|
92298056|NCT03135899|184501475|OTHER||Hazard Ratio (HR)|2.08|||||TWO_SIDED|95.0|1.22|3.53|||Regression, Cox||BI 443651 400 μg is compared to placebo.|The cox proportional hazard model included treatment and period as fixed effect and patient baseline as covariate. No hypothesis was tested. The patient baseline was obtained by calculating the median of the period baselines for each patient. A hazard ratio greater than 1 gives that active treatment is not-inferior to placebo.||3.53|1.22|
92298057|NCT03135899|184501475|OTHER||Hazard Ratio (HR)|2.59|||||TWO_SIDED|95.0|1.5|4.47|||Regression, Cox||BI 443651 1200 μg is compared to placebo.|The cox proportional hazard model included treatment and period as fixed effect and patient baseline as covariate. No hypothesis was tested. The patient baseline was obtained by calculating the median of the period baselines for each patient. A hazard ratio greater than 1 gives that active treatment is not-inferior to placebo.||4.47|1.50|
92298058|NCT01332578|184501488|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-20.92||||0.0004|TWO_SIDED|95.0|-27.31|-15.81|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimate of median difference was determined.|Null hypothesis was no difference between test hot drink and standard paracetamol tablets.||-15.81|-27.31|0.0004
92298059|NCT02129647|184501506|OTHER||||||||||||||||||10 tissue matched historical controls were analyzed. The Median (Full Range) of the histoscore was 122 (60 to 265)|||
92298060|NCT02129647|184501507|OTHER||||||||||||||||||10 tissue matched historical controls were analyzed. The Median (Full Range) of the histoscore was 135 (100 to 240)|||
92298061|NCT02129647|184501508|OTHER||||||||||||||||||10 tissue matched historical controls were analyzed. The Median (Full Range) of the histoscore was 12 (0 to 100)|||
92298062|NCT01045993|184501520|SUPERIORITY_OR_OTHER|||||||0.046|TWO_SIDED|||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|Proportional hazards regression model|P-value calculated using proportional hazards model with treatment term only in the model.||||||0.046
92146235|NCT02093663|184177337|OTHER||Difference in proportions|50.0||||0.333|TWO_SIDED|95.0|-19.3|100.0||P-value was based on a Fisher's exact test.|Fisher Exact|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate.||100.0|-19.3|0.333
92298063|NCT01045993|184501521|NON_INFERIORITY_OR_EQUIVALENCE|The statistical alternative hypothesis tested is that the survival curves of time to first perceptible relief confirmed by meaningful relief are not identical between two treatment groups, or equivalently, the hazard ratio between two treatment groups is not equal to 1.||||||0.046|TWO_SIDED|||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|Proportional hazards regression model|P-value calculated using proportional hazards model with treatment term only in the model.||||||0.046
92298064|NCT01045993|184501522|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value calculated using analysis of variance (ANOVA) model with treatment term only in the model.||||||<0.001
92298065|NCT01045993|184501523|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value calculated using ANOVA model with treatment term only in the model.||||||0.002
92298066|NCT01045993|184501525|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||60 minutes timepoint||||0.012
92146236|NCT02093663|184177338|OTHER||Difference in Least squares Mean|-5.4||||0.168|TWO_SIDED|95.0|-13.1|2.4||P-value is based on an analysis of covariance (ANCOVA) including treatment arm as a factor and baseline DUCS score as a covariate.|ANCOVA|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||2.4|-13.1|0.168
92298067|NCT01045993|184501525|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||120 minutes timepoint||||0.016
92298068|NCT01045993|184501525|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||180 minutes timepoint||||<0.001
92298069|NCT01045993|184501525|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||240 minutes timepoint||||0.002
92298070|NCT01045993|184501525|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||300 minutes timepoint||||<0.001
92298071|NCT01045993|184501525|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||360 minutes timepoint||||<0.001
92298072|NCT01045993|184501525|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||420 minutes timepoint||||0.003
92298073|NCT01045993|184501525|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||480 minutes timepoint||||0.001
92298074|NCT01045993|184501526|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||60 minutes timepoint||||0.012
92298075|NCT01045993|184501526|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||120 minutes timepoint||||0.002
92298076|NCT01045993|184501526|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||180 minutes timepoint||||0.033
92298077|NCT01045993|184501526|SUPERIORITY_OR_OTHER|||||||0.096||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||240 minutes timepoint||||0.096
92298078|NCT01045993|184501526|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||300 minutes timepoint||||0.002
92298079|NCT01045993|184501526|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||360 minutes timepoint||||0.005
92298080|NCT01045993|184501526|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||420 minutes timepoint||||0.008
92298081|NCT01045993|184501526|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||480 minutes timepoint||||0.004
92298082|NCT01045993|184501527|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.268
92146237|NCT02093663|184177339|OTHER||Difference in proportions|24.5||||0.131|TWO_SIDED|95.0|-1.6|50.6||P-value was based on a continuity-corrected chi-squared test. PUCAI Score was compared between treatment arms using a continuity corrected chi-squared test. Expected cell counts are very low (\< 5), then Fisher's Exact Test is alternative method.|Chi-squared, Corrected|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||50.6|-1.6|0.131
92146238|NCT02093663|184177340|OTHER||Difference in Proportions Percentage|-6.5||||0.539|TWO_SIDED|95.0|-25.3|12.3||P-value is based on a CMH test adjusted by prior response status.|Cochran-Mantel-Haenszel|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||12.3|-25.3|0.539
92298083|NCT01045993|184501527|SUPERIORITY_OR_OTHER|||||||0.419||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.419
92298084|NCT01045993|184501527|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.086
92298085|NCT01045993|184501528|SUPERIORITY_OR_OTHER|||||||0.067||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.067
92298086|NCT01045993|184501528|SUPERIORITY_OR_OTHER|||||||0.757||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.757
92298087|NCT01045993|184501528|SUPERIORITY_OR_OTHER|||||||0.219||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.219
92298088|NCT01045993|184501529|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.043
92298089|NCT01045993|184501529|SUPERIORITY_OR_OTHER|||||||0.388||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.388
92298090|NCT01045993|184501529|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.039
92298091|NCT01045993|184501530|SUPERIORITY_OR_OTHER|||||||0.797||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||||||0.797
92298092|NCT01045993|184501531|SUPERIORITY_OR_OTHER|||||||0.371||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||||||0.371
92298093|NCT01045993|184501532|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||||||0.122
92298094|NCT01045993|184501533|SUPERIORITY_OR_OTHER|||||||0.355||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.355
92298095|NCT01045993|184501533|SUPERIORITY_OR_OTHER|||||||0.371||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.371
92298096|NCT01045993|184501533|SUPERIORITY_OR_OTHER|||||||0.216||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-values from ANOVA model with treatment treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.216
92298097|NCT01045993|184501534|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.054
92298098|NCT01045993|184501534|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.600
92298099|NCT01045993|184501534|SUPERIORITY_OR_OTHER|||||||0.294||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.294
92298100|NCT01045993|184501535|SUPERIORITY_OR_OTHER|||||||0.088||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.088
92146239|NCT02093663|184177341|OTHER||Difference in proportions|-16.2||||0.129|TWO_SIDED|95.0|-36.0|3.6||P-value was based on a Cochran-Mantel-Haenszel (CMH) test adjusted by prior response status.|Cochran-Mantel-Haenszel|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||3.6|-36.0|0.129
92298101|NCT01045993|184501535|SUPERIORITY_OR_OTHER|||||||0.625||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.625
92298102|NCT01045993|184501535|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.034
92146240|NCT02093663|184177342|OTHER||Difference in Least squares Mean|3.0||||0.182|TWO_SIDED|95.0|-1.4|7.4||P-value was based on an analysis of covariance (ANCOVA) including treatment arm and with prior response status.|ANCOVA|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||7.4|-1.4|0.182
92298103|NCT01045993|184501536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|Cochran-Mantel-Haenszel|P-value from the Cochran-Mantel-Haenszel test with modified ridit scores.||||||<0.001
92298104|NCT01659736|184501537|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||p-value is for the condition (active TMS versus Sham) by time (pre, post, 3-month follow-up) interaction|ANOVA|||||||0.006
92298105|NCT00474851|184501547|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED|||||p (within group for subjects receiving norethindrone + conjugated estrogens)=0.05 p (within group for subjects receiving norethindrone + placebo)=0.65 p (between the two groups)=0.10|RMANOVA|||"Analysis followed the intention-to-treat principle. The time course of each measurement from baseline to 3, 6, 9, and 12 months was compared between arms by repeated-measures analysis of variance (RM-ANOVA), with an autoregressive covariance model to account for visit-to-visit correlation within subjects.~The primary test of treatment efficacy was time × treatment interaction. Adjusted changes over time and differences between trial arms were constructed from parameters of the RMANOVA."||||0.10
92298106|NCT00474851|184501548|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||p (within group for participants receiving norethindrone + estrogens)=0.0001 p (within group for participants receiving norethindrone + placebo)=0.31 p (between groups)=0.02|RMANOVA|||"The time course of each measurement from baseline to 3, 6, 9, and 12 months was compared between arms by repeated-measures analysis of variance (RM-ANOVA), with an autoregressive covariance model to account for visit-to-visit correlation within subjects.~The primary test of treatment efficacy was time × treatment interaction. Adjusted changes over time and differences between trial arms were constructed from parameters of the RMANOVA."||||0.02
92298107|NCT01833533|184501554|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333, plus placebo RBV treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 65% to achieve noninferiority.|Percentage of Participants|90.2|||||TWO_SIDED|95.0|86.2|94.3|||||95% CI was calculated using the normal approximation to the binomial distribution.|Based on a 2-sided significance level of 0.05 and an underlying rate of ≥90% in the ABT-450/r/ABT-267 and ABT-333, plus RBV arm (100 participants) and ≥85% in the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (200 participants) provides \>95% power to demonstrate noninferiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (75%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||94.3|86.2|
92298108|NCT01833533|184501554|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks for the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 65% to achieve noninferiority.|Percentage of Participants|97.0|||||TWO_SIDED|95.0|93.7|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution.|Based on a 2-sided significance level of 0.05 and an underlying rate of ≥90% in the ABT-450/r/ABT-267 and ABT-333, plus RBV arm (100 participants) and ≥85% in the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (200 participants) provides \>95% power to demonstrate noninferiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (75%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|93.7|
92298109|NCT01833533|184501555|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92298110|NCT01833533|184501556|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|97.0|||||TWO_SIDED|95.0|93.7|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 75% to achieve superiority.|Based on a 2-sided significance level of 0.05 and an underlying rate of ≥90% in the ABT-450/r/ABT-267 and ABT-333, plus RBV arm (100 participants) and ≥85% in the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (200 participants) provides \>90% power to demonstrate superiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (75%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|93.7|
92298111|NCT01833533|184501556|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|90.2|||||TWO_SIDED|95.0|86.2|94.3|||||95% CI was calculated using the normal approximation to the binomial distribution; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 75% to achieve superiority.|Based on a 2-sided significance level of 0.05 and an underlying rate of ≥90% in the ABT-450/r/ABT-267 and ABT-333, plus RBV arm (100 participants) and ≥85% in the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (200 participants) provides \>90% power to demonstrate superiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (75%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||94.3|86.2|
92298112|NCT01833533|184501556|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority of the rate of sustained virologic response at 12 weeks after treatment in the ABT-450/r/ABT-267 and ABT-333, plus placebo RBV treatment group as compared with the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group was analyzed using a noninferiority margin of -10.5%; the lower confidence bound of the 2-sided 95% CI (calculated using normal approximation to the binomial distribution)for the difference in percentage of participants must exceed -10.5% to achieve noninferiority.|Difference in Percentage of Participants|-6.8|||||TWO_SIDED|95.0|-12.0|-1.5|||||95% CI was calculated using the normal approximation to the binomial distribution.|Based on a 2-sided significance level of 0.05 and an underlying rate of ≥90% in the ABT-450/r/ABT-267 and ABT-333, plus RBV arm (100 participants) and ≥85% in the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (200 participants) provides \>95% power to demonstrate noninferiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV arm compared with the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (normal approximation of a single binomial proportion in a one-sample test for superiority).||-1.5|-12.0|
92298113|NCT03478865|184501564|SUPERIORITY||Mean Difference (Final Values)|-2.54||||0.259|TWO_SIDED|95.0|-7.91|2.83||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the treatment completion visit (Month 2 for Cohort 1)."||2.83|-7.91|0.259
92298114|NCT03478865|184501564|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.818|TWO_SIDED|95.0|-4.66|4.12||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the treatment completion visit (Month 1 for Cohort 2)."||4.12|-4.66|0.818
92146241|NCT02093663|184177343|OTHER||Difference in proportions|-9.0||||0.194|TWO_SIDED|95.0|-29.1|11.0||P-value was based on a CMH test adjusted by prior response status. Participants with remission (PUCAI \<10) at double-blind maintenance phase at Week 26 was compared between treatment arms using a CMH test stratifying by Week 8 responder status.|Cochran-Mantel-Haenszel|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||11.0|-29.1|0.194
92298115|NCT03478865|184501565|SUPERIORITY||Mean Difference (Final Values)|-3.56||||0.365|TWO_SIDED|95.0|-13.24|6.12||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the post-treatment follow-up visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the post-treatment follow-up visit (Month 3 for Cohort 1)."||6.12|-13.24|0.365
92298116|NCT03478865|184501565|SUPERIORITY||Mean Difference (Final Values)|3.23||||0.48|TWO_SIDED|95.0|-12.94|19.41||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the post-treatment follow-up visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the post-treatment follow-up visit (Month 2 for Cohort 2)."||19.41|-12.94|0.480
92298117|NCT00754442|184501578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|TWO_SIDED|95.0||||see above|t-test, 2 sided|95%||The null hypothesis is that there is no statistical difference between patients and controls at baseline||||0.1
92298118|NCT00754442|184501578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|95.0|||||t-test, 2 sided|||The null hypothesis is that there is no statistical difference between patients and controls at 4 hours||||0.002
92298119|NCT00754442|184501578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0|||||t-test, 2 sided|||The null hypothesis is that there is no statistical difference between patients and controls at 8 hrs||||0.003
92298120|NCT02296853|184501582|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|54.04|||||TWO_SIDED|90.0|41.98|69.56|||||Here, GLSM is geometric least square mean.|TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||69.56|41.98|
92298121|NCT02296853|184501582|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|63.06|||||TWO_SIDED|90.0|42.9|92.7||||||TFV: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||92.70|42.90|
92298122|NCT02296853|184501582|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|94.42|||||TWO_SIDED|90.0|72.48|122.99||||||Free (unbound) TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||122.99|72.48|
92298123|NCT02296853|184501583|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|45.1|||||TWO_SIDED|90.0|31.66|64.25||||||TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||64.25|31.66|
92298124|NCT02296853|184501583|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|89.88|||||TWO_SIDED|90.0|64.77|124.72||||||TFV: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||124.72|64.77|
92146242|NCT00508404|184177344|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.12|||||TWO_SIDED|95.0|1.02|4.45|||||The odds ratio is defined as the odds of having an objective response in the KRAS Wild-type group relative to the odds in the KRAS Mutant group.|||4.45|1.02|
92146243|NCT00508404|184177345|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.86|||||TWO_SIDED|95.0|0.88|3.93|||||The odds ratio is defined as the odds of having an objective response in the KRAS Wild-type group relative to the odds in the KRAS Mutant group.|||3.93|0.88|
92298125|NCT02296853|184501583|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|82.16|||||TWO_SIDED|90.0|56.58|119.31||"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."||||Free (unbound) TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||119.31|56.58|
92298126|NCT02296853|184501584|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|51.2|||||TWO_SIDED|90.0|40.11|65.36||||||TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||65.36|40.11|
92298127|NCT02296853|184501584|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|62.04|||||TWO_SIDED|90.0|41.92|91.82||||||TFV: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||91.82|41.92|
92298128|NCT02296853|184501584|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|93.28|||||TWO_SIDED|90.0|72.62|119.8||||||Free (unbound) TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||119.8|72.62|
92298129|NCT01352182|184501589|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
92298130|NCT01352182|184501590|SUPERIORITY|||||||1||||||threshold for significance p\<0.05|Wilcoxon (Mann-Whitney)|||||||1.0
92298131|NCT01352182|184501591|SUPERIORITY|||||||0.154||||||threshold for significance p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.154
92298132|NCT01352182|184501592|SUPERIORITY|||||||0.683||||||significance threshold p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.683
92298133|NCT01352182|184501593|SUPERIORITY|||||||0.08||||||significance threshold p\<0.05|t-test, 2 sided|||||||0.08
92298134|NCT01352182|184501594|OTHER|linear regression|Slope|-1.44|STANDARD_ERROR_OF_MEAN|0.3741||0.003|TWO_SIDED||||||Regression, Linear|||||||0.003
92298135|NCT01043926|184501674|NON_INFERIORITY_OR_EQUIVALENCE|"AUC(0-∞) GMR = AUC(0-∞) GM for Moderate Hepatic Insufficiency Participants ÷ AUC(0-∞) GM for Healthy Participants~A 90% CI for the AUC(0-∞) GMR was computed from the ANCOVA model. As prespecified by the analysis plan, if the upper limit bound of the 90% CI for the AUC(0-∞) GMR fell below 2.00, then the hypothesis would be met and the AUC(0-∞) of suvorexant would be similar in both groups of participants. That is, if the true ratio of the GM AUC(0-∞) is no more than 2.00."|AUC(0-∞) Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.74|1.43|||ANCOVA|||"The geometric mean (GM) for each participant group and the corresponding 95% confidence interval (CI) were calculated for AUC(0-∞) using an analysis of covariance (ANCOVA) model.~The AUC(0-∞) geometric mean ratio (GMR) of the 2 participant groups was used to test the primary hypothesis, which was that the AUC(0-∞) of suvorexant following a single 20-mg oral dose would be similar between participants with moderate hepatic insufficiency and healthy matched control participants."||1.43|0.74|
92298136|NCT01043926|184501675|NON_INFERIORITY_OR_EQUIVALENCE|"Cmax GMR = Cmax GM for Moderate Hepatic Insufficiency Participants ÷ Cmax GM for Healthy Participants~A 90% CI for the Cmax GMR was computed from the ANCOVA model. As prespecified by the analysis plan, if the upper limit bound of the 90% CI for the Cmax GMR fell below 2.00, then the hypothesis would be met and the Cmax of suvorexant would be similar in both groups of participants. That is, if the true ratio of the geometric mean Cmax is no more than 2.00."|Cmax Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.68|1.29|||ANCOVA|||"The GM for each participant group and the corresponding 95% CI were calculated for Cmax using an ANCOVA model.~The Cmax GMR of the 2 participant groups was used to test the primary hypothesis, which was that the Cmax of suvorexant following a single 20-mg oral dose would be similar between participants with moderate hepatic insufficiency and healthy matched control participants."||1.29|0.68|
92298137|NCT00562120|184501723|SUPERIORITY_OR_OTHER|||||||0.302|TWO_SIDED|||||P-value was based on one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An analysis of variance (ANOVA) mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.302
92298138|NCT00562120|184501723|SUPERIORITY_OR_OTHER|||||||0.134|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.134
92298139|NCT00562120|184501723|SUPERIORITY_OR_OTHER|||||||0.229|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.229
92298140|NCT00562120|184501723|SUPERIORITY_OR_OTHER|||||||0.544|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.544
92298141|NCT00562120|184501723|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.710
92298142|NCT00562120|184501723|SUPERIORITY_OR_OTHER|||||||0.816|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.816
92298143|NCT00562120|184501724|SUPERIORITY_OR_OTHER|||||||0.269|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An analysis of variance (ANOVA) mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.269
92298144|NCT00562120|184501724|SUPERIORITY_OR_OTHER|||||||0.097|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.097
92298145|NCT00562120|184501724|SUPERIORITY_OR_OTHER|||||||0.252|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.252
92298146|NCT00562120|184501724|SUPERIORITY_OR_OTHER|||||||0.479|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.479
92298147|NCT00562120|184501724|SUPERIORITY_OR_OTHER|||||||0.521|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.521
92298148|NCT00562120|184501724|SUPERIORITY_OR_OTHER|||||||0.952|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.952
92298149|NCT00562120|184501725|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An analysis of variance (ANOVA) mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.130
92298150|NCT00562120|184501725|SUPERIORITY_OR_OTHER|||||||0.663|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.663
92146244|NCT00508404|184177346|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.3|3.89|||||The odds ratio is defined as the odds of having an objective response in the KRAS Wild-type group relative to the odds in the KRAS Mutant group.|||3.89|0.30|
92298151|NCT00562120|184501725|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.138
92298152|NCT00562120|184501725|SUPERIORITY_OR_OTHER|||||||0.124|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.124
92298153|NCT00562120|184501725|SUPERIORITY_OR_OTHER|||||||0.134|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.134
92298154|NCT00562120|184501725|SUPERIORITY_OR_OTHER|||||||0.978|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.978
92298155|NCT00562120|184501726|SUPERIORITY_OR_OTHER|||||||0.357|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An analysis of variance (ANOVA) mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.357
92298156|NCT00562120|184501726|SUPERIORITY_OR_OTHER|||||||0.952|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.952
92298157|NCT00562120|184501726|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.480
92298158|NCT00562120|184501726|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.043
92298159|NCT00562120|184501726|SUPERIORITY_OR_OTHER|||||||0.087|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.087
92298160|NCT00562120|184501726|SUPERIORITY_OR_OTHER|||||||0.753|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.753
92146245|NCT00508404|184177347|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.283|||||TWO_SIDED|95.0|0.13|0.614|||||Hazard ratio is presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||0.614|0.130|
92146246|NCT00508404|184177348|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.642|||||TWO_SIDED|95.0|0.99|2.721|||||Hazard ratio is presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||2.721|0.990|
92146247|NCT00508404|184177349|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.464|||||TWO_SIDED|95.0|0.306|0.703|||||Hazard ratio presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||0.703|0.306|
92146248|NCT00508404|184177350|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.395|||||TWO_SIDED|95.0|0.252|0.618|||||Hazard ratio is presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||0.618|0.252|
92298161|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.011
92298162|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.127|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.127
92298163|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.103
92298164|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.218|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.218
92298165|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.905|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.905
92298166|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.273|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.273
92298167|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.000
92298168|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.055|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.055
92298169|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.012
92298170|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.048
92298171|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.496|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.496
92298172|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.190
92298173|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.000
92298174|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.019
92298175|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.009
92298176|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.061|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.061
92298177|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.778|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.778
92298178|NCT00562120|184501727|SUPERIORITY_OR_OTHER|||||||0.102|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.102
92298179|NCT00562120|184501728|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An analysis of variance (ANOVA) mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.000
92298180|NCT00562120|184501728|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.000
92298181|NCT00562120|184501728|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.000
92298182|NCT00562120|184501728|SUPERIORITY_OR_OTHER|||||||0.217|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.217
92298183|NCT00562120|184501728|SUPERIORITY_OR_OTHER|||||||0.156|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.156
92298184|NCT00562120|184501728|SUPERIORITY_OR_OTHER|||||||0.848|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.848
92298185|NCT02148445|184501730|SUPERIORITY|Based on prior studies using precessation NRT, we estimate a 2-fold increase in cessation outcomes in the GMT group compared to the SC group. Given our recruitment of patients at all levels of readiness to quit, we estimate a 12 month cessation rate of 10%. With 199 participants, in each arm, we will have an 80% power to detect a 2-fold difference or greater with a Type I error rate of 5%.||||||0.88|||||||Chi-squared|||||||0.88
92146249|NCT00508404|184177351|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.756|||||TWO_SIDED|95.0|0.4|1.43|||||Hazard ratio is presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||1.430|0.400|
92298186|NCT02148445|184501731|SUPERIORITY|Based on prior studies using precessation NRT, we estimate a 2-fold increase in cessation outcomes in the GMT group compared to the SC group. Given our recruitment of patients at all levels of readiness to quit, we estimate a 12 month cessation rate of 10%. With 199 participants, in each arm, we will have an 80% power to detect a 2-fold difference or greater with a Type I error rate of 5%. This sample size will provide comparable power for looking at 6 month sustained cessation.||||||0.55|||||||Chi-squared|||||||0.55
92146250|NCT00508404|184177352|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.503|1.002|||||Hazard ratio is presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||1.002|0.503|
92146251|NCT00508404|184177354|SUPERIORITY_OR_OTHER_LEGACY||Difference in rates|8.34|||||TWO_SIDED|95.0|-4.01|19.08||||||||19.08|-4.01|
92146252|NCT01197508|184177364|SUPERIORITY_OR_OTHER||LS mean|1.1|STANDARD_ERROR_OF_MEAN|0.84||1|TWO_SIDED|95.0|-0.53|2.79||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.79|-0.53|1.000
92298187|NCT02148445|184501732|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||0.40
92298188|NCT02148445|184501733|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92298189|NCT02148445|184501734|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92298190|NCT02148445|184501735|SUPERIORITY|||||||0.39|||||||Mixed Models Analysis|||||||0.39
92298191|NCT02148445|184501736|SUPERIORITY|||||||0.42|||||||t-test, 1 sided|||||||0.42
92298192|NCT02148445|184501737|SUPERIORITY|||||||0.27|||||||Mixed Models Analysis|||||||0.27
92298193|NCT02148445|184501738|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||||||0.06
92298194|NCT02148445|184501740|SUPERIORITY|||||||0.08|||||||Chi-squared|||Month 3 self-reported abstinence||||0.08
92146253|NCT01197508|184177364|SUPERIORITY_OR_OTHER||LS mean|0.5|STANDARD_ERROR_OF_MEAN|0.85||1|TWO_SIDED|95.0|-1.22|2.13|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.13|-1.22|1.000
92146254|NCT01197508|184177364|SUPERIORITY_OR_OTHER||LS mean|0.5|STANDARD_ERROR_OF_MEAN|0.88||1|TWO_SIDED|95.0|-1.21|2.22|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.22|-1.21|1.000
92146255|NCT01197508|184177365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71|STANDARD_ERROR_OF_MEAN|0.17||0.144|TWO_SIDED|95.0|0.45|1.12|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.12|0.45|0.144
92298195|NCT02148445|184501740|SUPERIORITY|||||||0.06|||||||Chi-squared|||Month 3 biochemically verified abstinence||||0.06
92146256|NCT01197508|184177365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74|STANDARD_ERROR_OF_MEAN|0.17||0.203|TWO_SIDED|95.0|0.47|1.17|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.17|0.47|0.203
92146257|NCT01197508|184177365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52|STANDARD_ERROR_OF_MEAN|0.12||0.005|TWO_SIDED|95.0|0.32|0.82|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||0.82|0.32|0.005
92298196|NCT02148445|184501740|SUPERIORITY|||||||0.22|||||||Chi-squared|||Month 6, self-reported abstinence||||0.22
92298197|NCT02148445|184501740|SUPERIORITY|||||||0.34|||||||Chi-squared|||Month 6, biochemically verified abstinence||||0.34
92298198|NCT02148445|184501740|SUPERIORITY|||||||0.66|||||||Chi-squared|||Month 12, self-reported abstinence||||0.66
92298199|NCT02148445|184501741|SUPERIORITY|||||||0.0149|||||||Mixed Models Analysis|||||||0.0149
92298200|NCT02148445|184501742|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92298201|NCT02148445|184501743|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
92298202|NCT02148445|184501744|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||||||0.77
92298203|NCT02148445|184501745|SUPERIORITY|||||||0.0918|||||||Mixed Models Analysis|||||||0.0918
92298204|NCT03450629|184501746|EQUIVALENCE|8 AM +/- 30 min||||||0.0006|||||||t-test, 2 sided|||||||0.0006
92298205|NCT03450629|184501746|EQUIVALENCE|10 AM +/- 30 min||||||0.0291|||||||t-test, 2 sided|||||||0.0291
92298206|NCT03450629|184501746|EQUIVALENCE|4 PM +/- 30 min||||||0.0002|||||||t-test, 2 sided|||||||0.0002
92298207|NCT02093923|184501756|SUPERIORITY||Percent Change in Mean Rate|-100.0|||<|0.0001|TWO_SIDED|95.0|-100.0|-100.0|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-100.00|-100.00|<.0001
92298208|NCT02093923|184501756|SUPERIORITY||Percent Change in Mean Rate|-87.77||||0.005|TWO_SIDED|95.0|-97.18|-46.9|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-46.90|-97.18|0.0050
92298209|NCT02093923|184501756|SUPERIORITY||Percent Change in Mean Rate|-91.08||||0.0012||95.0|-97.93|-61.57|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-61.57|-97.93|0.0012
92298210|NCT02093923|184501757|SUPERIORITY||Percent Change in Mean Rate|-100.0|||<|0.0001|TWO_SIDED|95.0|-100.0|-100.0|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-100.00|-100.00|<.0001
92298211|NCT02093923|184501757|SUPERIORITY||Percent Change in Mean Rate|-84.08|||<|0.0001|TWO_SIDED|95.0|-93.07|-63.46|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-63.46|-93.07|<.0001
92298212|NCT02093923|184501757|SUPERIORITY||Percent Change in Mean Rate|-87.84|||<|0.0001|TWO_SIDED|95.0|-94.81|-71.5|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-71.50|-94.81|<.0001
92298213|NCT02093923|184501758|SUPERIORITY||Percent Change in Mean Rate|-100.0|||<|0.0001|TWO_SIDED|95.0|-100.0|-100.0|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-100.00|-100.00|<.0001
92298214|NCT02093923|184501758|SUPERIORITY||Percent Change in Mean Rate|-82.38|||<|0.0001|TWO_SIDED|95.0|-92.5|-58.64|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-58.64|-92.50|<.0001
92298215|NCT02093923|184501758|SUPERIORITY||Percent Change in Mean Rate|-87.02|||<|0.0001|TWO_SIDED|95.0|-94.55|-69.06|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-69.06|-94.55|<.0001
92298216|NCT02093923|184501759|SUPERIORITY||Percent Change in Mean Rate|-100.0|||<|0.0001|TWO_SIDED|95.0|-100.0|-100.0|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-100.00|-100.00|<.0001
92298217|NCT02093923|184501759|SUPERIORITY||Percent Change in Mean Rate|-85.24||||0.0141||95.0|-96.79|-32.03|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-32.03|-96.79|0.0141
92298218|NCT02093923|184501759|SUPERIORITY||Percent Change in Mean Rate|-89.35||||0.004|TWO_SIDED|95.0|-97.68|-51.13|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-51.13|-97.68|0.0040
92298219|NCT01631682|184501770|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||This study used a within-groups design. Each subject provides his/her own comparison data. It was predicted that that a conditioned stimulus that was reactivated (CS+R) after propranolol was administered would result in a smaller SCR than a conditioned stimulus that was not reactivated (CS+N).||||>.05
92298220|NCT01631682|184501770|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||This study used a within-groups design. Each subject provides his/her own comparison data. It was predicted that that a conditioned stimulus that was initially presented (CS+R) and then followed by a series of extinction trials after a 10-min delay would result in a smaller SCR than a conditioned stimulus (CS+N) that was not extinguished without a 10-min delay.||||>.05
92298221|NCT01631682|184501770|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||This study used a within-groups design. Each subject provides his/her own comparison data. It was predicted that that a conditioned stimulus that was reactivated (CS+R) after mifepristone was administered would result in a smaller SCR than a conditioned stimulus that was not reactivated (CS+N).||||<.05
92298222|NCT01631682|184501770|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||This study used a within-groups design. Each subject provides his/her own comparison data. It was predicted that that a conditioned stimulus that was reactivated (CS+R) after intranasal oxytocin was administered would result in a smaller SCR than a conditioned stimulus that was not reactivated (CS+N).||||>.05
92298223|NCT01552369|184501802|SUPERIORITY|||||||0.0396|||||||Mantel Haenszel|||||||0.0396
92298224|NCT01552369|184501802|SUPERIORITY||Hazard Ratio (HR)|2.22||||0.048|TWO_SIDED|95.0|1.01|7.3|||Competing risk regression|Death was considered a competing risk.|The risk of CMV disease is 2.2x higher in the prophylaxis group when compared to the preemptive group|||7.3|1.01|0.048
92298225|NCT01552369|184501803|SUPERIORITY|log-rank test for equality of survivor functions||||||0.19|||||||Log Rank|||||||0.19
92146258|NCT01197508|184177366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89|STANDARD_ERROR_OF_MEAN|0.22||0.636|TWO_SIDED|95.0|0.54|1.45|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.45|0.54|0.636
92298226|NCT01552369|184501804|SUPERIORITY||Odds Ratio (OR)|0.85||||0.6|TWO_SIDED|95.0|0.45|1.58|||Mantel Haenszel||The odds of rejection in prophylaxis group compared to preemptive group|||1.58|0.45|0.60
92298227|NCT01552369|184501805|SUPERIORITY||Odds Ratio (OR)|0.95||||0.96|TWO_SIDED|95.0|0.13|6.92|||Mantel Haenszel||The odds of graft loss in prophylaxis group compared to preemptive group|||6.92|0.13|0.96
92298228|NCT01552369|184501806|SUPERIORITY||Odds Ratio (OR)|3.24||||0.014|TWO_SIDED|95.0|1.21|8.69|||Mantel Haenszel||Odds of late disease in prophylaxis group compared to preemptive|||8.69|1.21|0.014
92298229|NCT01552369|184501807|SUPERIORITY||Odds Ratio (OR)|1.17||||0.64|TWO_SIDED|95.0|0.61|2.23|||Mantel Haenszel||Odds of bacterial infection in prophylaxis subjects compared to preemptive|||2.23|0.61|0.64
92298230|NCT01552369|184501808|SUPERIORITY||Odds Ratio (OR)|2.25||||0.18|TWO_SIDED|95.0|0.66|7.62|||Mantel Haenszel||Odds of fungal disease in prophylaxis group compared to preemptive|||7.62|0.66|0.18
92298231|NCT01552369|184501809|SUPERIORITY|||||||0.24|||||||Fisher Exact|||||||0.24
92298232|NCT01552369|184501810|SUPERIORITY|||||||0.69|||||||Chi-squared|||||||0.69
92146259|NCT01197508|184177366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73|STANDARD_ERROR_OF_MEAN|0.19||0.215|TWO_SIDED|95.0|0.44|1.2|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.20|0.44|0.215
92298233|NCT01552369|184501811|SUPERIORITY|||||||0.57|||||||Chi-squared|||||||0.57
92298234|NCT01552369|184501812|SUPERIORITY|||||||0.61|||||||Chi-squared|||||||0.61
92298235|NCT02631837|184501832|NON_INFERIORITY|Our hypothesis was that women would accept a higher conversion rate of 15% for vNOTESbased on a telephone interview of 10 women treated by total vaginal NOTES hysterectomy. Women were asked to choose among ﬁve cut-off rates (5, 10, 15, 20 or 25%). Most women indicated 15%. We would conclude non-inferiority when the upper limit of the one-sided 95% conﬁdence interval for the difference in the proportions of women between both comparisons would be below 15%.||||||0.0221||||||The Farrington-Manning test for non-inferiority was performed with 5% significance level and yielded P = 0.0221 in a sensitivity analysis assuming one conversion in the vNOTES and 0 conversions in the laparoscopy group.|Farrington-Manning|||||||0.0221
92298236|NCT02631837|184501833|SUPERIORITY||Risk Difference (RD)|-0.34||||0.007|TWO_SIDED|95.0|-0.56|-0.13|||Fisher Exact|||||-0.13|-0.56|0.007
92298237|NCT02631837|184501833|SUPERIORITY|||||||0.007|||||||Fisher Exact|||||||0.007
92298238|NCT02631837|184501835|SUPERIORITY||Mean Difference (Final Values)|-5.9||||0.006|TWO_SIDED|95.0|-10.0|-1.8|||Mann-Whitney U test|Two-sided test||||-1.8|-10|0.006
92298239|NCT02631837|184501836|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92298240|NCT02631837|184501837|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||> 0.05
92298241|NCT02631837|184501838|SUPERIORITY||Risk Difference (RD)|-0.29||||0.009|TWO_SIDED|95.0|-0.47|-0.1|||Fisher Exact|||||-0.10|-0.47|0.009
92298242|NCT02631837|184501839|SUPERIORITY|||||||0.106|||||||Fisher Exact|||||||0.106
92298243|NCT02631837|184501840|SUPERIORITY||Median Difference (Final Values)|-34.0|||<|0.01|TWO_SIDED|95.0|-46.0|-22.0|||Mann-Whitney U test|||||-22|-46|< 0.01
92298244|NCT02631837|184501841|SUPERIORITY|||||||0.7604||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.7604
92298245|NCT02631837|184501842|SUPERIORITY|||||||0.3071||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.3071
92298246|NCT02631837|184501843|SUPERIORITY|||||||0.4541||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.4541
92298247|NCT02631837|184501844|SUPERIORITY|||||||0.4514||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.4514
92298248|NCT02631837|184501845|SUPERIORITY|||||||0.3473||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.3473
92298249|NCT02631837|184501846|SUPERIORITY|We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.||||||0.3473||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.3473
92298250|NCT02631837|184501848|SUPERIORITY||Mean Difference (Final Values)|-555.8||||0.11|TWO_SIDED|95.0||36.0|||Mann-Whitney U test|||||36|-1,044|0.110
92298251|NCT01197417|184501862|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||Van Elteren test|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment||Null hypothesis of equal distributions of primary length of stay between treatment arms within all randomization strata||||0.24
92298252|NCT01197417|184501863|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Van Elteren test|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||0.12
92298253|NCT01197417|184501864|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Mantel Haenszel|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||0.39
92298254|NCT01197417|184501865|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mantel Haenszel|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||<0.01
92298255|NCT01197417|184501866|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Mantel Haenszel|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||0.11
92298256|NCT01197417|184501867|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Van Elteren test|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||0.78
92298257|NCT01197417|184501868|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Van Elteren test|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||0.46
92298258|NCT01252719|184501869|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test was a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% CI for the difference in response rates in the mITT population was greater than -10%, the NI of oritavancin to vancomycin was concluded.|Difference in Proportions|-0.4|||||TWO_SIDED|95.0|-5.5|4.7||||||||4.7|-5.5|
92298259|NCT01252719|184501870|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test was a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% confidence interval (CI) for the difference in response rates in the mITT population was greater than -10% the non-inferiority (NI) of oritavancin to vancomycin was concluded.|Difference in Proportions|3.4|||||TWO_SIDED|95.0|-1.6|8.4||||||||8.4|-1.6|
92298260|NCT01252719|184501871|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test was a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% CI for the difference in response rates in the mITT population was greater than -10% the NI of oritavancin to vancomycin was concluded.|Difference in Proportions|4.1|||||TWO_SIDED|95.0|-0.5|8.6||||||||8.6|-0.5|
92146260|NCT01197508|184177366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58|STANDARD_ERROR_OF_MEAN|0.15||0.034|TWO_SIDED|95.0|0.35|0.96|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||0.96|0.35|0.034
92146261|NCT01197508|184177367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85|STANDARD_ERROR_OF_MEAN|0.37||0.711|TWO_SIDED|95.0|0.36|1.99|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.99|0.36|0.711
92146262|NCT01197508|184177367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79|STANDARD_ERROR_OF_MEAN|0.34||0.594|TWO_SIDED|95.0|0.34|1.85|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.85|0.34|0.594
92298261|NCT02914236|184501888|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Hypothesis was that the mean improvement in NOSE score exceeded 15 points||||||<0.0001
92298262|NCT02914236|184501889|SUPERIORITY||||||<|0.0001|||||||binomial test|Success threshold required at least 55% of subjects to be responders||||||<0.0001
92298263|NCT00441350|184501893|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92298264|NCT00441350|184501894|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||< 0.0001
92298265|NCT00441350|184501895|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||< 0.0001
92298266|NCT00441350|184501896|SUPERIORITY|||||||0.0001|||||||ANCOVA|||||||0.0001
92146263|NCT01197508|184177367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15|STANDARD_ERROR_OF_MEAN|0.49||0.749|TWO_SIDED|95.0|0.5|2.65|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.65|0.50|0.749
92146264|NCT01197508|184177368|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52|STANDARD_ERROR_OF_MEAN|0.16||0.037|TWO_SIDED|95.0|0.28|0.96|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||0.96|0.28|0.037
92146265|NCT01197508|184177368|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|STANDARD_ERROR_OF_MEAN|0.21||0.222|TWO_SIDED|95.0|0.38|1.25|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.25|0.38|0.222
92298267|NCT01221090|184501897|SUPERIORITY_OR_OTHER|||||||0.771||95.0||||A priori threshold for statistical significance is \<0.05|Likelihood Ratio Tests|||We used a multilevel statistical model including time (in days) as a continuous variable, where 0=baseline. The lowest level of the hierarchy was repeated measurements of HbA1c on each subject, with participants themselves constituting the 2nd level. Forward selection was utilized, in which powers of time were added one at a time to the base model including treatment group effects. Interaction terms between time \& treatment effects were added gradually and evaluated with likelihood ratio tests.||||0.771
92298268|NCT01221090|184501898|SUPERIORITY_OR_OTHER|||||||0.2176||95.0||||A priori threshold for statistical significance is \<0.05|Regression, Linear|Robust variance estimates.||||||0.2176
92298269|NCT01221090|184501899|SUPERIORITY_OR_OTHER|||||||0.572||95.0||||A priori threshold for statistical significance was \<0.05|Fisher Exact|||||||0.572
92298270|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Test blood sugar."||||0.26
92298271|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.21||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Test blood sugar the recommended times."||||0.21
92298272|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Exercise at least 30 minutes."||||0.53
92298273|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.24||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Participate in a specific exercise session."||||0.24
92298274|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.18||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Check feet."||||0.18
92298275|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Wash feet."||||0.19
92298276|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.87||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Soak feet."||||0.87
92298277|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Dry between toes."||||0.53
92298278|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Inspect inside of shoes."||||0.32
92298279|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Follow healthful eating plan."||||0.37
92298280|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Space carbohydrates."||||0.72
92298281|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Eat 5+ servings of fruits and vegetables."||||0.59
92146266|NCT01197508|184177368|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52|STANDARD_ERROR_OF_MEAN|0.17||0.042|TWO_SIDED|95.0|0.28|0.98|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||0.98|0.28|0.042
92298282|NCT01221090|184501900|SUPERIORITY_OR_OTHER||||||<|0.004||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Eat high-fat foods."||||<0.004
92298283|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Eat packaged foods (e.g., sweets and desserts)."||||0.66
92298284|NCT01221090|184501900|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Followed a healthful eating plan."||||0.68
92298285|NCT01221090|184501901|SUPERIORITY_OR_OTHER|||||||0.685||95.0||||A priori threshold for statistical significance is \<0.05|Regression, Linear|Robust Variance Estimation.||"This analysis was to compare the quality of life measure, Number of days physical health was not good in the past 30 days at the 12 month follow-up visit."||||0.685
92298286|NCT01221090|184501901|SUPERIORITY_OR_OTHER|||||||0.997||95.0||||A priori threshold for statistical significance is \<0.05|Regression, Linear|Robust variance estimation.||"This analysis was to compare the quality of life measure, Number of days mental health was not good in the past 30 days at the 12 month follow-up visit."||||0.997
92298287|NCT01221090|184501901|SUPERIORITY_OR_OTHER|||||||0.3067||95.0||||A priori threshold for statistical significance is \<0.05|Regression, Linear|Robust variance estimation.||"This analysis was to compare the quality of life measure, Number of days poor physical/mental health prevented usual activity in the past 30 days at the 12 month follow-up visit."||||0.3067
92298288|NCT00440466|184501921|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a difference in the mean change in hemoglobin from baseline to the average of the last 12 weeks of treatment of -0.3 g/dL between QW and Q2W groups, a pooled standard deviation of 1.5 g/dL, and a noninferiority margin of 1 g/dL, a sample size of approximately 200 subjects (100 per group) would provide 90% power to demonstrate that Q2W group would not inferior to QW group for an overall 2-sided 0.05 significance level.|Difference of Least Squares Means|-0.03|STANDARD_ERROR_OF_MEAN|0.092|||TWO_SIDED|95.0|-0.208|0.153|||ANCOVA|||The null hypothesis was that the lower limit of the 95% confidence interval (CI) for the difference in mean change in hemoglobin from baseline to the average of the last 12 weeks of treatment between the every-2-weeks (Q2W) and once-weekly (QW) groups would be lower than -1 g/dL.||0.153|-0.208|
92298289|NCT00440466|184501921|NON_INFERIORITY_OR_EQUIVALENCE|Under the same assumptions in the sample size calculation for the QW and the Q2W, 100 subjects would be needed for the Q4W. However, because Study EPO-AKD-3001 and the current study both included QW and Q2W groups, the sample size would add up to 200 for each group if combined, the sample size in the Q4W group in the current study was increased to 200 subjects in order to enroll a comparable and sufficiently large number of subjects in each of the 3 extended dosing groups across the 2 studies.|Difference of Least Squares Means|-0.09|STANDARD_ERROR_OF_MEAN|0.079|||TWO_SIDED|95.0|-0.249|0.063|||ANCOVA|||The null hypothesis was that the lower limit of the 95% confidence interval (CI) for the difference in mean change in hemoglobin from baseline to the average of the last 12 weeks of treatment between the every-4-weeks (Q4W) and once-weekly (QW) groups would be lower than -1 g/dL.||0.063|-0.249|
92298290|NCT00440466|184501923|SUPERIORITY_OR_OTHER||Difference in percentage of participants|10.9|||||TWO_SIDED|95.0|0.1|21.7|||95% Confidence Interval|||||21.7|0.1|
92298291|NCT00440466|184501923|SUPERIORITY_OR_OTHER||Difference in percentage of participants|1.1|||||TWO_SIDED|95.0|-9.1|11.2|||95% of Confidence Interval|||||11.2|-9.1|
92298292|NCT00440466|184501924|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.13|||||TWO_SIDED|95.0|-0.113|0.372|||ANOVA|||||0.372|-0.113|
92298293|NCT00440466|184501924|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.11|||||TWO_SIDED|95.0|-0.098|0.32|||ANOVA|||||0.320|-0.098|
92298294|NCT00440466|184501925|SUPERIORITY_OR_OTHER||Difference in percentage of participants|8.2|||||TWO_SIDED|95.0|-2.0|18.3|||95% of Confidence Interval|||||18.3|-2.0|
92298295|NCT00440466|184501925|SUPERIORITY_OR_OTHER||Difference in percentage of participants|10.3||||||95.0|1.5|19.2|||95% of Confidence Interval|||||19.2|1.5|
92298296|NCT00440466|184501926|SUPERIORITY_OR_OTHER||Difference in percentage of participants|5.7|||||TWO_SIDED|95.0|-7.7|19.1|||95% of Confidence Interval|||||19.1|-7.7|
92298297|NCT00440466|184501926|SUPERIORITY_OR_OTHER||Difference in percentage of participants|9.1|||||TWO_SIDED|95.0|-2.5|20.6|||95% of Confidence Interval|||||20.6|-2.5|
92298298|NCT00440466|184501927|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-3.2|||||TWO_SIDED|95.0|-15.8|9.5|||95% of Confidence Interval|||||9.5|-15.8|
92298299|NCT00440466|184501927|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-3.0|||||TWO_SIDED|95.0|-13.9|8.0|||95% of Confidence Interval|||||8.0|-13.9|
92298300|NCT00440466|184501928|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.08||||||95.0|-0.367|0.208|||ANOVA|||||0.208|-0.367|
92298301|NCT00440466|184501928|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.04|||||TWO_SIDED|95.0|-0.206|0.289|||ANOVA|||||0.289|-0.206|
92298302|NCT03614494|184501934|SUPERIORITY||Risk Difference (RD)|31.4|||<|0.0001|TWO_SIDED|95.0|26.2|36.4|||Chi-squared|||||36.4|26.2|<0.0001
92298303|NCT03614494|184501935|SUPERIORITY||Odds Ratio (OR)|0.197||||0.036|TWO_SIDED|95.0|0.021|0.906|||Logistic regression, Firth's bias reduct|||||0.906|0.021|0.036
92298304|NCT02997657|184501936|SUPERIORITY|||||||0.71|||||||Chi-squared|||||||0.71
92298305|NCT02997657|184501937|SUPERIORITY|||||||0.81|||||||Chi-squared|||||||0.81
92298306|NCT02997657|184501938|SUPERIORITY|||||||0.69|||||||Chi-squared|||||||0.69
92298307|NCT02997657|184501939|SUPERIORITY|||||||0.96|||||||Chi-squared|||||||0.96
92298308|NCT02997657|184501940|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
92298309|NCT02997657|184501941|SUPERIORITY|||||||0.9|||||||Chi-squared|||||||0.90
92298310|NCT02997657|184501942|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||||||0.82
92298311|NCT01715896|184501953|SUPERIORITY_OR_OTHER||Percent difference|-3.5||||0.666|TWO_SIDED|90.0|-16.8|9.8|||Logit response Model||P-value and 90% unconditional exact confidence interval (CI) was calculated using the model of logit (response) = strata + treatment.|||9.8|-16.8|0.666
92298312|NCT01715896|184501954|SUPERIORITY_OR_OTHER||Percent difference|-8.6||||0.293|TWO_SIDED|90.0|-22.0|4.8|||Logit response Model||P-value and 90% unconditional exact CI was calculated using the model of logit (response) = strata + treatment.|||4.8|-22.0|0.293
92298313|NCT01715896|184501955|SUPERIORITY_OR_OTHER||Percent difference|-9.8||||0.156|TWO_SIDED|90.0|-21.1|1.4|||Logit Response Model||P-value and 90% unconditional exact CI was calculated using the model of logit (response) = strata + treatment.|||1.4|-21.1|0.156
92298314|NCT01715896|184501956|SUPERIORITY_OR_OTHER||Percent difference|-11.6||||0.108|TWO_SIDED|90.0|-23.2|0.0|||Logit Response Model||P-value and 90% unconditional exact CI was calculated using the model of logit (response) = strata + treatment.|||0.0|-23.2|0.108
92298315|NCT01715896|184501957|SUPERIORITY_OR_OTHER||Percent difference|-10.3||||0.208|TWO_SIDED|90.0|-23.7|3.0|||Logit Response Model||P-value and 90% unconditional exact CI was calculated using the model of logit (response) = strata + treatment.|||3.0|-23.7|0.2080
92298316|NCT01715896|184501964|SUPERIORITY_OR_OTHER||Adjusted Mean difference|-7.42||||0.213|TWO_SIDED|90.0|-17.24|2.4|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term.|||2.40|-17.24|0.213
92298317|NCT01715896|184501966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.129|TWO_SIDED|90.0|0.36|1.04|||Proportional odds analysis||Odds ratio, 90% CI and p-value were was calculated using proportional odds analysis of response model including treatment as a factor.|||1.04|0.36|0.129
92298318|NCT01715896|184501967|SUPERIORITY_OR_OTHER||Percent difference|-11.6||||0.108||90.0|-23.2|0.0|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|DAS28 (CRP) remission: p-value estimated from fisher's exact test when number of golimumab or active responders was less than 5.||0.0|-23.2|0.108
92298319|NCT01715896|184501967|SUPERIORITY_OR_OTHER||Percent difference|-11.7||||0.145|TWO_SIDED|90.0|-24.8|1.4|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|The analysis reported DAS28 (CRP) low disease activity response.||1.4|-24.8|0.145
92298320|NCT01715896|184501968|SUPERIORITY_OR_OTHER|||||||0.328|||||||Log Rank|P-value was calculated using the Log rank test.||||||0.328
92298321|NCT01715896|184501969|SUPERIORITY_OR_OTHER|||||||0.003|||||||Weibull model|P-value was calculated using an Weibull model.||||||0.003
92298322|NCT01715896|184501970|SUPERIORITY_OR_OTHER||Percent difference|-1.7||||0.795|TWO_SIDED|90.0|-12.4|9.0|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|P-value estimated from fisher's exact test when number of golimumab or active responders was less than 5.||9.0|-12.4|0.795
92298323|NCT01715896|184501971|SUPERIORITY_OR_OTHER||Percent difference|-11.7||||0.048|TWO_SIDED|90.0|-21.0|-2.5|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|||-2.5|-21.0|0.048
92298324|NCT01715896|184501972|SUPERIORITY_OR_OTHER||Percent difference|-11.9||||0.035|TWO_SIDED|90.0|-20.6|-3.1|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|||-3.1|-20.6|0.035
92298325|NCT01715896|184501973|SUPERIORITY_OR_OTHER||Percent difference|-7.5||||0.061|TWO_SIDED|90.0|-13.6|-1.5|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|||-1.5|-13.6|0.061
92298326|NCT01715896|184501974|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.01||||0.993|TWO_SIDED|90.0|-1.33|1.32|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|Analysis reported for change from baseline in swollen joint count at Day 169.||1.32|-1.33|0.993
92298327|NCT01715896|184501974|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.23||||0.424|TWO_SIDED|90.0|-1.31|3.77|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|Analysis reported for change from baseline in Tender joint count at Day 169.||3.77|-1.31|0.424
92298328|NCT01715896|184501975|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.89||||0.272|TWO_SIDED|90.0|-2.46|12.24|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|||12.24|-2.46|0.272
92298329|NCT01715896|184501976|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.46||||0.319|TWO_SIDED|90.0|-2.92|11.84|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|||11.84|-2.92|0.319
92298330|NCT01715896|184501977|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.16||||0.64|TWO_SIDED|90.0|-0.42|0.74|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|||0.74|-0.42|0.640
92298331|NCT01715896|184501978|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.18||||0.055|TWO_SIDED|90.0|0.03|0.34|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|||0.34|0.03|0.055
92298332|NCT01715896|184501979|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.06||||0.752|TWO_SIDED|90.0|0.79|1.41|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis.|||1.41|0.79|0.752
92298333|NCT01715896|184501980|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.05||||0.725|TWO_SIDED|90.0|0.84|1.3|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis.|||1.30|0.84|0.725
92298334|NCT03756883|184501983|EQUIVALENCE|The 90% Confidence Interval for the test-to-reference ratio was calculated using a procedure similar to Fieller's method.|Test-to-Reference Ratio|101.8|||||TWO_SIDED|90.0|92.68|111.94||||||||111.94|92.68|
92298335|NCT03756883|184501984|EQUIVALENCE|The 90% confidence interval for the test-to-reference ratio was calculated using a procedure similar to Fieller's method.|Test-to-Reference Ratio|98.09|||||TWO_SIDED|90.0|87.1|110.61||||||||110.61|87.10|
92298336|NCT03756883|184501985|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Superiority of the test product over the placebo.||||<0.0001
92298337|NCT03756883|184501985|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Superiority of Reference to placebo.||||<0.0001
92298338|NCT03756883|184501986|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Superiority of test over placebo.||||<0.0001
92298339|NCT03756883|184501986|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Superiority of reference to placebo.||||<0.0001
92146267|NCT01197508|184177369|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04|STANDARD_ERROR_OF_MEAN|0.41||0.913|TWO_SIDED|95.0|0.48|2.27|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.27|0.48|0.913
92298340|NCT03005067|184501998|OTHER||Mean Difference (Net)|0.137||||0.516|TWO_SIDED|95.0|-0.279|0.553||P-value was based on the Wald statistic Chi-Square test, from an ANCOVA model with treatment, center, and Day 1 dosing time stratification as factors and baseline NSS (Day 1 prior to the first dose) as a covariate.|ANCOVA||Difference of LS mean is 1146A Formulation Nasal Spray - Placebo Nasal Spray. 95% CI is for difference of LS means.|||0.553|-0.279|0.516
92298341|NCT03233958|184502002|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|-0.24|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
92298342|NCT03233958|184502003|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|5.55|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
92298343|NCT03233958|184502004|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|-0.54||||0.002|TWO_SIDED||||||ANOVA|||||||0.002
92298344|NCT03233958|184502005|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|-0.18||||0.076|TWO_SIDED||||||ANOVA|||||||0.076
92298345|NCT03233958|184502006|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|-0.51||||0.147|TWO_SIDED||||||ANOVA|||||||0.147
92298346|NCT03233958|184502007|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|1.07||||0.197|TWO_SIDED||||||ANOVA|||||||0.197
92298347|NCT03233958|184502008|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|1.25|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
92298348|NCT02462486|184502101|NON_INFERIORITY|For hypothesis testing, if the lower limit of the 95.1% confidence interval for the difference between an abicipar group and ranibizumab is greater than or equal to -10%, non-inferiority of abicipar group is established.|Percentage Difference|-1.2|||||TWO_SIDED|95.0|-5.0|2.4|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as stratification factor.|||2.4|-5.0|
92298349|NCT02462486|184502101|NON_INFERIORITY|For hypothesis testing, if the lower limit of the 95.1% confidence interval for the difference between an abicipar group and ranibizumab is greater than or equal to -10%, non-inferiority of abicipar group is established.|Percentage Difference|-4.6|||||TWO_SIDED|95.0|-9.0|-0.5|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as stratification factor.|||-0.5|-9.0|
92298350|NCT02462486|184502102|NON_INFERIORITY|For hypothesis testing, non-inferiority of abicipar is established if the lower limit of the CI is \> - 5.0 letters.|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.1|-2.4|2.0|||||MMRM included treatment, region, BL BCVA, BL CRT ≤400 or \>400, choroidal neovascularization lesion type, visit, visit-by-BL BCVA interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||2.0|-2.4|
92298351|NCT02462486|184502102|NON_INFERIORITY|For hypothesis testing, non-inferiority of abicipar is established if the lower limit of the CI is \> - 5.0 letters.|Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.1|-3.8|0.6|||||MMRM included treatment, region, BL BCVA, BL CRT ≤400 or \>400, choroidal neovascularization lesion type, visit, visit-by-BL BCVA interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||0.6|-3.8|
92298352|NCT02462486|184502103|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|Least Squares Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.1|-7.1|14.0|||||MMRM included treatment, region, BL BCVA, BL CRT, choroidal neovascularization lesion type, visit, visit-by-baseline CRT interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||14.0|-7.1|
92298353|NCT02462486|184502103|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|Least Squares Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.1|-4.7|16.5|||||MMRM included treatment, region, BL BCVA, BL CRT, choroidal neovascularization lesion type, visit, visit-by-baseline CRT interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||16.5|-4.7|
92298354|NCT02462486|184502104|SUPERIORITY||Percentage Difference|1.4|||||TWO_SIDED|95.0|-5.5|8.4|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as the stratification factor.|||8.4|-5.5|
92298355|NCT02462486|184502104|SUPERIORITY||Percentage Difference|-2.3|||||TWO_SIDED|95.0|-9.1|4.5|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as the stratification factor.|||4.5|-9.1|
92298356|NCT02462486|184502105|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.1|-3.5|0.3|||||MMRM included treatment group, region, baseline BCVA in the study eye, baseline VFQ score, visit, and treatment by visit interaction as fixed covariates using an unstructured covariance matrix.|||0.3|-3.5|
92298357|NCT02462486|184502105|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.1|-3.9|-0.1|||||MMRM included treatment group, region, baseline BCVA in the study eye, baseline VFQ score, visit, and treatment by visit interaction as fixed covariates using an unstructured covariance matrix.|||-0.1|-3.9|
92298358|NCT02740179|184502114|SUPERIORITY|||||||0.72||||||P value for Change in Coronary Flow Reserve on Cardiac PET|t-test, 2 sided|||||||0.72
92298359|NCT02740179|184502115|SUPERIORITY|||||||0.03||||||P value for Change in Stress Myocardial Blood Flow on Cardiac MRI|t-test, 2 sided|||||||0.03
92146268|NCT01197508|184177369|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92|STANDARD_ERROR_OF_MEAN|0.37||0.841|TWO_SIDED|95.0|0.42|2.01|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.01|0.42|0.841
92146269|NCT01197508|184177369|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61|STANDARD_ERROR_OF_MEAN|0.26||0.239|TWO_SIDED|95.0|0.26|1.39|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.39|0.26|0.239
92146270|NCT01197508|184177370|SUPERIORITY_OR_OTHER||LS mean|1.1|STANDARD_ERROR_OF_MEAN|0.705||0.12|TWO_SIDED|95.0|-0.288|2.481|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||2.481|-0.288|0.120
92298360|NCT02740179|184502116|SUPERIORITY|||||||0.38|||||||Kruskal-Wallis|||||||0.38
92298361|NCT02740179|184502117|SUPERIORITY|||||||0.09|||||||Kruskal-Wallis|||||||0.09
92298362|NCT02740179|184502118|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|Analyses performed on log transformation of data||||||0.03
92298363|NCT02740179|184502119|SUPERIORITY|||||||0.09||||||P value for Change in Plasma IL-6|t-test, 2 sided|Analyses performed after log transformation of data||||||0.09
92298364|NCT02740179|184502120|SUPERIORITY|||||||0.36||||||P value for Change in Plasma hsCRP|t-test, 2 sided|Analyses performed after log transformation of data||||||0.36
92298365|NCT02740179|184502121|SUPERIORITY|||||||0.88||||||P value for Change in Plasma MCP-1|t-test, 2 sided|Analyses performed after log transformation of data||||||0.88
92298366|NCT02740179|184502122|SUPERIORITY|||||||0.17||||||P value for Change in Plasma sCD163|t-test, 2 sided|Analyses performed after log transformation of data||||||0.17
92298367|NCT02740179|184502123|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|Analyses performed after log transformation of data||||||0.28
92298368|NCT02740179|184502124|SUPERIORITY|||||||0.32|||||||Kruskal-Wallis|||||||0.32
92298369|NCT02740179|184502125|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
92298370|NCT02740179|184502126|SUPERIORITY|||||||0.73|||||||Kruskal-Wallis|||||||0.73
92298371|NCT02740179|184502127|SUPERIORITY|||||||0.56|||||||Kruskal-Wallis|||||||0.56
92298372|NCT02740179|184502128|SUPERIORITY|||||||0.03|||||||Kruskal-Wallis|||||||0.03
92298373|NCT02740179|184502129|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92298374|NCT01192399|184502130|OTHER||||||<|0.0001|||||||Sign test|||||||<0.0001
92298375|NCT02697773|184502146|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.24||0.0129|TWO_SIDED|95.0|-1.07|-0.13||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.13|-1.07|0.0129
92298376|NCT02697773|184502146|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.24||0.0023|TWO_SIDED|95.0|-1.2|-0.26||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.26|-1.20|0.0023
92146271|NCT01197508|184177370|SUPERIORITY_OR_OTHER||LS mean|0.95|STANDARD_ERROR_OF_MEAN|0.715||0.184|TWO_SIDED|95.0|-0.452|2.354|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||2.354|-0.452|0.184
92146272|NCT01197508|184177370|SUPERIORITY_OR_OTHER||LS mean|2.09|STANDARD_ERROR_OF_MEAN|0.711||0.003|TWO_SIDED|95.0|0.692|3.484|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||3.484|0.692|0.003
92146273|NCT01197508|184177371|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.12||0.131||95.0|-0.05|0.42|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.42|-0.05|0.131
92146274|NCT01197508|184177371|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.551|TWO_SIDED|95.0|-0.17|0.31|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.31|-0.17|0.551
92146275|NCT01197508|184177371|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.645|TWO_SIDED|95.0|-0.19|0.3|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.30|-0.19|0.645
92146276|NCT01197508|184177372|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62|STANDARD_ERROR_OF_MEAN|0.15||0.046|TWO_SIDED|95.0|0.38|0.99|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||0.99|0.38|0.046
92146277|NCT01197508|184177372|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62|STANDARD_ERROR_OF_MEAN|0.15||0.051|TWO_SIDED|95.0|0.38|1.0|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.00|0.38|0.051
92146278|NCT01197508|184177372|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6|STANDARD_ERROR_OF_MEAN|0.15||0.04|TWO_SIDED|95.0|0.37|0.98|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||0.98|0.37|0.040
92146279|NCT01197508|184177373|SUPERIORITY_OR_OTHER||LS mean|0.7|STANDARD_ERROR_OF_MEAN|0.66||0.273|TWO_SIDED|95.0|-0.58|2.03|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||2.03|-0.58|0.273
92146280|NCT01197508|184177373|SUPERIORITY_OR_OTHER||LS mean|0.7|STANDARD_ERROR_OF_MEAN|0.67||0.315|TWO_SIDED|95.0|-0.65|2.0|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||2.00|-0.65|0.315
92146281|NCT01197508|184177373|SUPERIORITY_OR_OTHER||LS mean|1.2|STANDARD_ERROR_OF_MEAN|0.67||0.078|TWO_SIDED|95.0|-0.13|2.51|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||2.51|-0.13|0.078
92146282|NCT01197508|184177374|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.47||0.59|TWO_SIDED|95.0|-0.68|1.19|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.19|-0.68|0.590
92146283|NCT01197508|184177374|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.48||0.679|TWO_SIDED|95.0|-0.74|1.14|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.14|-0.74|0.679
92146284|NCT01197508|184177374|SUPERIORITY_OR_OTHER||LS mean|0.6|STANDARD_ERROR_OF_MEAN|0.48||0.215|TWO_SIDED|95.0|-0.35|1.53|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.53|-0.35|0.215
92146285|NCT01197508|184177375|SUPERIORITY_OR_OTHER||LS mean|1.2|STANDARD_ERROR_OF_MEAN|0.61||0.052|TWO_SIDED|95.0|-0.01|2.38|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.38|-0.01|0.052
92146286|NCT01197508|184177375|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.61||0.874|TWO_SIDED|95.0|-1.11|1.3|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.30|-1.11|0.874
92298377|NCT02697773|184502147|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.24||0.0065|TWO_SIDED|95.0|-1.14|-0.19||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed data sets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.19|-1.14|0.0065
92298378|NCT02697773|184502147|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.24||0.0002|TWO_SIDED|95.0|-1.37|-0.42||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.42|-1.37|0.0002
92298379|NCT02697773|184502148|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.09||0.0109|TWO_SIDED|95.0|-0.39|-0.05||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.39|0.0109
92298380|NCT02697773|184502148|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.09||0.0038|TWO_SIDED|95.0|-0.41|-0.08||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.08|-0.41|0.0038
92298381|NCT02697773|184502149|SUPERIORITY||Least Square Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.21||0.002|TWO_SIDED|95.0|-1.08|-0.24|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.24|-1.08|0.0020
92298382|NCT02697773|184502149|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.21||0.0014|TWO_SIDED|95.0|-1.1|-0.26|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.26|-1.10|0.0014
92298383|NCT02697773|184502149|SUPERIORITY||Least Square Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.31|-0.45|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.45|-1.31|<.0001
92298384|NCT02697773|184502149|SUPERIORITY||Least Square Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.3|-0.44|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.44|-1.30|<.0001
92298385|NCT02697773|184502149|SUPERIORITY||Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.23||0.0085|TWO_SIDED|95.0|-1.03|-0.15|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.15|-1.03|0.0085
92146287|NCT01197508|184177375|SUPERIORITY_OR_OTHER||LS mean|1.0|STANDARD_ERROR_OF_MEAN|0.62||0.099|TWO_SIDED|95.0|-0.19|2.24|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.24|-0.19|0.099
92146288|NCT01197508|184177376|SUPERIORITY_OR_OTHER||LS mean|0.6|STANDARD_ERROR_OF_MEAN|0.69||0.394|TWO_SIDED|95.0|-0.77|1.95|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.95|-0.77|0.394
92298386|NCT02697773|184502149|SUPERIORITY||Least Square Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.22||0.0657|TWO_SIDED|95.0|-0.85|0.03|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||0.03|-0.85|0.0657
92298387|NCT02697773|184502149|SUPERIORITY||Least Square Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.24||0.0012|TWO_SIDED|95.0|-1.25|-0.31|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.31|-1.25|0.0012
92298388|NCT02697773|184502149|SUPERIORITY||Least Square Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.24||0.0004|TWO_SIDED|95.0|-1.33|-0.38|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.38|-1.33|0.0004
92298389|NCT02697773|184502151|SUPERIORITY||Least Mean Square Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.21||0.0004|TWO_SIDED|95.0|-1.17|-0.34|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.34|-1.17|0.0004
92298390|NCT02697773|184502151|SUPERIORITY||Least Square Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.33|-0.5|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.50|-1.33|<.0001
92298391|NCT02697773|184502151|SUPERIORITY||Least Square Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.45|-0.6|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.60|-1.45|<.0001
92298392|NCT02697773|184502151|SUPERIORITY||Least Square Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.53|-0.68|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.68|-1.53|<.0001
92298393|NCT02697773|184502151|SUPERIORITY||Least Square Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.23||0.0057|TWO_SIDED|95.0|-1.07|-0.18|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.18|-1.07|0.0057
92298394|NCT02697773|184502151|SUPERIORITY||Least Square Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.23||0.0114|TWO_SIDED|95.0|-1.02|-0.13|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.13|-1.02|0.0114
92298395|NCT02697773|184502151|SUPERIORITY||Least Square Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.24||0.0004|TWO_SIDED|95.0|-1.33|-0.38|||ANCOVA|||Week 12:Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.38|-1.33|0.0004
92298396|NCT02697773|184502151|SUPERIORITY||Least Square Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.52|-0.58|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.58|-1.52|<.0001
92298397|NCT02697773|184502153|SUPERIORITY||Least Mean Square Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.0236|TWO_SIDED|95.0|-0.32|-0.02|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.02|-0.32|0.0236
92146289|NCT01197508|184177376|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.712|TWO_SIDED|95.0|-1.11|1.63|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.63|-1.11|0.712
92185768|NCT01138657|184270390|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.25||||0.019|TWO_SIDED|95.0|-0.46|-0.04|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations (from each of the participant's eyes).|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.04|-0.46|0.019
92298398|NCT02697773|184502153|SUPERIORITY||Least Square Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.0958|TWO_SIDED|95.0|-0.27|0.02|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis subscale and baseline diary average pain as covariate, and study site as a random effect.||0.02|-0.27|0.0958
92298399|NCT02697773|184502153|SUPERIORITY||Least Square Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.07||0.0007|TWO_SIDED|95.0|-0.4|-0.11|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.11|-0.40|0.0007
92298400|NCT02697773|184502153|SUPERIORITY||Least Mean Square Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.07||0.004|TWO_SIDED|95.0|-0.36|-0.07|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.07|-0.36|0.0040
92298401|NCT02697773|184502153|SUPERIORITY||Least Square Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.08||0.0498|TWO_SIDED|95.0|-0.31|0.0|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.00|-0.31|0.0498
92298402|NCT02697773|184502153|SUPERIORITY||Least Square Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.08||0.238|TWO_SIDED|95.0|-0.24|0.06|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||0.06|-0.24|0.2380
92298403|NCT02697773|184502153|SUPERIORITY||Least Square Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.09||0.0426|TWO_SIDED|95.0|-0.34|-0.01|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.01|-0.34|0.0426
92298404|NCT02697773|184502153|SUPERIORITY||Least Square Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.09||0.0014|TWO_SIDED|95.0|-0.45|-0.11|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.11|-0.45|0.0014
92298405|NCT02697773|184502155|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0027|TWO_SIDED|95.0|1.22|2.61|||Regression, Logistic|||Week 2: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.61|1.22|0.0027
92185769|NCT01138657|184270391|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.27|||<|0.001|TWO_SIDED|95.0|-0.43|-0.11|||ANOVA|ANOVA with treatment as factor adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.11|-0.43|<0.001
92298406|NCT02697773|184502155|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0004|TWO_SIDED|95.0|1.36|2.89|||Regression, Logistic|||Week 2: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.89|1.36|0.0004
92298407|NCT02697773|184502155|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0008|TWO_SIDED|95.0|1.33|2.95|||Regression, Logistic|||Week 4: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.95|1.33|0.0008
92185770|NCT01138657|184270391|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.28|||<|0.001|TWO_SIDED|95.0|-0.43|-0.12|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.12|-0.43|<0.001
92185771|NCT01138657|184270392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.07||||0.003|TWO_SIDED|95.0|-0.11|-0.02|||ANOVA|ANOVA with treatment as factor adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.02|-0.11|0.003
92298408|NCT02697773|184502155|SUPERIORITY||Odds Ratio (OR)|2.04||||0.0004|TWO_SIDED|95.0|1.37|3.04|||Regression, Logistic|||Week 4: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.04|1.37|0.0004
92298409|NCT02697773|184502155|SUPERIORITY||Odds Ratio (OR)|1.27||||0.2283|TWO_SIDED|95.0|0.86|1.87|||Regression, Logistic|||Week 8: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.87|0.86|0.2283
92298410|NCT02697773|184502155|SUPERIORITY||Odds Ratio (OR)|1.38||||0.1066|TWO_SIDED|95.0|0.93|2.03|||Regression, Logistic|||Week 8: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.03|0.93|0.1066
92298411|NCT02697773|184502155|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0154|TWO_SIDED|95.0|1.1|2.54|||Regression, Logistic|||Week 12: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.54|1.10|0.0154
92298412|NCT02697773|184502155|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0006|TWO_SIDED|95.0|1.38|3.27|||Regression, Logistic|||Week 12: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.27|1.38|0.0006
92298413|NCT02697773|184502155|SUPERIORITY||Odds Ratio (OR)|1.39||||0.1139|TWO_SIDED|95.0|0.92|2.07|||Regression, Logistic|||Week 16: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.07|0.92|0.1139
92298414|NCT02697773|184502155|SUPERIORITY||Odds Ratio (OR)|1.99||||0.0014|TWO_SIDED|95.0|1.31|3.04|||Regression, Logistic|||Week 16: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.04|1.31|0.0014
92298415|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0009|TWO_SIDED|95.0|1.3|2.78|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.78|1.30|0.0009
92298416|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.99||||0.0004|TWO_SIDED|95.0|1.36|2.9|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.90|1.36|0.0004
92298417|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0015|TWO_SIDED|95.0|1.29|2.96|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.96|1.29|0.0015
92298418|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0008|TWO_SIDED|95.0|1.34|3.07|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.07|1.34|0.0008
92298419|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0251|TWO_SIDED|95.0|1.07|2.75|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.75|1.07|0.0251
92298420|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0276|TWO_SIDED|95.0|1.06|2.72|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.72|1.06|0.0276
92298421|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0404|TWO_SIDED|95.0|1.03|3.71|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.71|1.03|0.0404
92298422|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.38||||0.3486|TWO_SIDED|95.0|0.7|2.72|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.72|0.70|0.3486
92298423|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.07||||0.0002|TWO_SIDED|95.0|1.42|3.02|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.02|1.42|0.0002
92146290|NCT01197508|184177376|SUPERIORITY_OR_OTHER||LS mean|1.0|STANDARD_ERROR_OF_MEAN|0.71||0.167|TWO_SIDED|95.0|-0.41|2.38|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.38|-0.41|0.167
92298424|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.92||||0.0006|TWO_SIDED|95.0|1.32|2.79|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.79|1.32|0.0006
92298425|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.07||||0.0002|TWO_SIDED|95.0|1.41|3.05|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.05|1.41|0.0002
92298426|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.15|||<|0.0001|TWO_SIDED|95.0|1.46|3.15|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.15|1.46|<.0001
92298427|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.02||||0.0024|TWO_SIDED|95.0|1.28|3.18|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.18|1.28|0.0024
92298428|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0011|TWO_SIDED|95.0|1.35|3.34|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.34|1.35|0.0011
92298429|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.06||||0.0172|TWO_SIDED|95.0|1.14|3.72|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.72|1.14|0.0172
92298430|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.06||||0.0173|TWO_SIDED|95.0|1.14|3.72|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.72|1.14|0.0173
92298431|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0118|TWO_SIDED|95.0|1.11|2.35|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.35|1.11|0.0118
92298432|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0132|TWO_SIDED|95.0|1.1|2.32|||Regression, Logistic|||Week 8, \>=30%:Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.32|1.10|0.0132
92298433|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.99||||0.0005|TWO_SIDED|95.0|1.35|2.92|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.92|1.35|0.0005
92298434|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.66||||0.01|TWO_SIDED|95.0|1.13|2.45|||Regression, Logistic|||Week 8, \>=50%:Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.45|1.13|0.0100
92298435|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0023|TWO_SIDED|95.0|1.28|3.12|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.12|1.28|0.0023
92298436|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0322|TWO_SIDED|95.0|1.04|2.58|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.58|1.04|0.0322
92298437|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.48||||0.2005|TWO_SIDED|95.0|0.81|2.67|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.67|0.81|0.2005
92298438|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.48||||0.1923|TWO_SIDED|95.0|0.82|2.68|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.68|0.82|0.1923
92298439|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.89||||0.0013|TWO_SIDED|95.0|1.28|2.79|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.79|1.28|0.0013
92146291|NCT01197508|184177377|SUPERIORITY_OR_OTHER||LS mean|1.5|STANDARD_ERROR_OF_MEAN|0.75||0.046|TWO_SIDED|95.0|0.02|2.95|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects the model; pooled center is a random effect.||2.95|0.02|0.046
92146292|NCT01197508|184177377|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.75||0.681|TWO_SIDED|95.0|-1.17|1.79|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.79|-1.17|0.681
92298440|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.5|||<|0.0001|TWO_SIDED|95.0|1.68|3.73|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.73|1.68|<.0001
92298441|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.12|||<|0.0001|TWO_SIDED|95.0|1.45|3.1|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.10|1.45|<.0001
92146293|NCT01197508|184177377|SUPERIORITY_OR_OTHER||LS mean|1.3|STANDARD_ERROR_OF_MEAN|0.77||0.087|TWO_SIDED|95.0|-0.19|2.84|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.84|-0.19|0.087
92146294|NCT01197508|184177378|SUPERIORITY_OR_OTHER||LS mean|0.98|STANDARD_ERROR_OF_MEAN|0.736||1|TWO_SIDED|95.0|-0.464|2.427||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.427|-0.464|1.000
92146295|NCT01197508|184177378|SUPERIORITY_OR_OTHER||LS mean|0.72|STANDARD_ERROR_OF_MEAN|0.746||1|TWO_SIDED|95.0|-0.74|2.188||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.188|-0.740|1.000
92146296|NCT01197508|184177378|SUPERIORITY_OR_OTHER||LS mean|0.85|STANDARD_ERROR_OF_MEAN|0.762||1|TWO_SIDED|95.0|-0.649|2.346||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.346|-0.649|1.000
92146297|NCT01197508|184177379|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.29||0.914|TWO_SIDED|95.0|-0.54|0.61|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.61|-0.54|0.914
92146298|NCT01197508|184177379|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.446|TWO_SIDED|95.0|-0.36|0.81|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.81|-0.36|0.446
92146299|NCT01197508|184177379|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.31||0.656|TWO_SIDED|95.0|-0.47|0.75|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.75|-0.47|0.656
92146300|NCT01197508|184177380|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.26||0.248|TWO_SIDED|95.0|-0.21|0.82|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.82|-0.21|0.248
92146301|NCT01197508|184177380|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.27||0.498|TWO_SIDED|95.0|-0.34|0.7|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.70|-0.34|0.498
92146302|NCT01197508|184177380|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.27||0.441|TWO_SIDED|95.0|-0.32|0.74|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.74|-0.32|0.441
92146303|NCT01197508|184177381|SUPERIORITY_OR_OTHER||LS mean|0.4|STANDARD_ERROR_OF_MEAN|0.26||0.174|TWO_SIDED|95.0|-0.16|0.87|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.87|-0.16|0.174
92146304|NCT01197508|184177381|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.27||0.402|TWO_SIDED|95.0|-0.3|0.74|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.74|-0.30|0.402
92146305|NCT01197508|184177381|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.197|TWO_SIDED|95.0|-0.18|0.88|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.88|-0.18|0.197
92185772|NCT01138657|184270392|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.06||||0.008|TWO_SIDED|95.0|-0.1|-0.02|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.02|-0.10|0.008
92298442|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0014|TWO_SIDED|95.0|1.26|2.67|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.67|1.26|0.0014
92298443|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0008|TWO_SIDED|95.0|1.33|2.99|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.99|1.33|0.0008
92298444|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.05||||0.0005|TWO_SIDED|95.0|1.37|3.06|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.06|1.37|0.0005
92298445|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0127|TWO_SIDED|95.0|1.16|3.49|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.49|1.16|0.0127
92298446|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|2.11||||0.0075|TWO_SIDED|95.0|1.22|3.64|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.64|1.22|0.0075
92298447|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0061|TWO_SIDED|95.0|1.17|2.52|||Regression, Logistic|||Week 16 \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.52|1.17|0.0061
92298448|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0007|TWO_SIDED|95.0|1.33|2.88|||Regression, Logistic|||Week 16 \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.88|1.33|0.0007
92298449|NCT02697773|184502156|SUPERIORITY|The two comparisons for 'Participants with \>=50% reduction from baseline in WOMAC Pain at Week 16' (tanezumab 2.5 mg treatment group versus placebo and tanezumab 2.5/5 mg treatment group versus placebo) were adjusted for multiple comparisons using the Hochberg procedure and an overall significance level of 0.05.|Odds Ratio (OR)|1.89||||0.001|TWO_SIDED|95.0|1.29|2.76|||Regression, Logistic|||Week 16 \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.76|1.29|0.0010
92298450|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.53||||0.0411|TWO_SIDED|95.0|1.02|2.31|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.31|1.02|0.0411
92298451|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.72||||0.009|TWO_SIDED|95.0|1.14|2.57|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.57|1.14|0.0090
92298452|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.6||||0.1149|TWO_SIDED|95.0|0.89|2.86|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.86|0.89|0.1149
92298453|NCT02697773|184502156|SUPERIORITY||Odds Ratio (OR)|1.56||||0.1351|TWO_SIDED|95.0|0.87|2.79|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.79|0.87|0.1351
92298454|NCT02697773|184502156|SUPERIORITY|The two comparisons for 'Participants with ≥50% reduction from baseline in WOMAC Pain at Week 16' (tanezumab 2.5 mg treatment group versus placebo and tanezumab 2.5/5 mg treatment group versus placebo) were adjusted for multiple comparisons using the Hochberg procedure and an overall significance level of 0.05.|Odds Ratio (OR)|2.17|||<|0.0001|TWO_SIDED|95.0|1.48|3.16|||Regression, Logistic|||Week 16 \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.16|1.48|<.0001
92298455|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0001|TWO_SIDED|95.0|1.45|3.11|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.11|1.45|0.0001
92298456|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.32|||<|0.0001|TWO_SIDED|95.0|1.59|3.4|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.40|1.59|<.0001
92298457|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.58||||0.0312|TWO_SIDED|95.0|1.04|2.39|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.39|1.04|0.0312
92298458|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0003|TWO_SIDED|95.0|1.4|3.19|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.19|1.40|0.0003
92298459|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.44||||0.0005|TWO_SIDED|95.0|1.48|4.01|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.01|1.48|0.0005
92298460|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.39||||0.0006|TWO_SIDED|95.0|1.45|3.94|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.94|1.45|0.0006
92298461|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.1||||0.0436|TWO_SIDED|95.0|1.02|4.32|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.32|1.02|0.0436
92298462|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.76||||0.1348|TWO_SIDED|95.0|0.84|3.69|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.69|0.84|0.1348
92298463|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.58|3.36|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.36|1.58|<.0001
92298464|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.12|||<|0.0001|TWO_SIDED|95.0|1.46|3.09|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.09|1.46|<.0001
92298465|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.41|||<|0.0001|TWO_SIDED|95.0|1.62|3.57|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.57|1.62|<.0001
92298466|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.57|||<|0.0001|TWO_SIDED|95.0|1.74|3.82|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.82|1.74|<.0001
92298467|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0003|TWO_SIDED|95.0|1.47|3.7|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.70|1.47|0.0003
92298468|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.45||||0.0001|TWO_SIDED|95.0|1.55|3.89|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.89|1.55|0.0001
92298469|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.02||||0.031|TWO_SIDED|95.0|1.07|3.82|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.82|1.07|0.0310
92298470|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.31||||0.0088|TWO_SIDED|95.0|1.24|4.34|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.34|1.24|0.0088
92298471|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.49||||0.036|TWO_SIDED|95.0|1.03|2.16|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.16|1.03|0.0360
92298472|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0039|TWO_SIDED|95.0|1.19|2.51|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.51|1.19|0.0039
92298473|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0002|TWO_SIDED|95.0|1.43|3.13|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.13|1.43|0.0002
92298474|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.77||||0.004|TWO_SIDED|95.0|1.2|2.62|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.62|1.20|0.0040
92298475|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0175|TWO_SIDED|95.0|1.1|2.74|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.74|1.10|0.0175
92298476|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.87||||0.0065|TWO_SIDED|95.0|1.19|2.94|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.94|1.19|0.0065
92298477|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0796|TWO_SIDED|95.0|0.94|3.23|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.23|0.94|0.0796
92298478|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0718|TWO_SIDED|95.0|0.95|3.27|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.27|0.95|0.0718
92298479|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0004|TWO_SIDED|95.0|1.36|2.96|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.96|1.36|0.0004
92298480|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.64|||<|0.0001|TWO_SIDED|95.0|1.78|3.93|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.93|1.78|<.0001
92298481|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.11||||0.0001|TWO_SIDED|95.0|1.44|3.09|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.09|1.44|0.0001
92298482|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.08||||0.0002|TWO_SIDED|95.0|1.42|3.04|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.04|1.42|0.0002
92298483|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0003|TWO_SIDED|95.0|1.41|3.23|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.23|1.41|0.0003
92298484|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.29|||<|0.0001|TWO_SIDED|95.0|1.52|3.46|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.46|1.52|<.0001
92298485|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.09||||0.0113|TWO_SIDED|95.0|1.18|3.68|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.68|1.18|0.0113
92298486|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.19||||0.0064|TWO_SIDED|95.0|1.25|3.85|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.85|1.25|0.0064
92298487|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.58||||0.02|TWO_SIDED|95.0|1.07|2.31|||Regression, Logistic|||Week 16 \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.31|1.07|0.0200
92298488|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0002|TWO_SIDED|95.0|1.43|3.14|||Regression, Logistic|||Week 16 \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.14|1.43|0.0002
92298489|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.96||||0.0005|TWO_SIDED|95.0|1.34|2.87|||Regression, Logistic|||Week 16 \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.87|1.34|0.0005
92298490|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.69||||0.0141|TWO_SIDED|95.0|1.11|2.56|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.56|1.11|0.0141
92298491|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0022|TWO_SIDED|95.0|1.26|2.87|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.87|1.26|0.0022
92298492|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.42||||0.2286|TWO_SIDED|95.0|0.8|2.5|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.50|0.80|0.2286
92298493|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|1.47||||0.1808|TWO_SIDED|95.0|0.84|2.57|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.57|0.84|0.1808
92298494|NCT02697773|184502158|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.57|3.36|||Regression, Logistic|||Week 16, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.36|1.57|<.0001
92298495|NCT02697773|184502160|SUPERIORITY||Odds Ratio (OR)|1.44||||0.1463|TWO_SIDED|95.0|0.88|2.34|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.34|0.88|0.1463
92298496|NCT02697773|184502160|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9644|TWO_SIDED|95.0|0.6|1.62|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.62|0.60|0.9644
92298497|NCT02697773|184502160|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0422|TWO_SIDED|95.0|1.02|2.59|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.59|1.02|0.0422
92298498|NCT02697773|184502160|SUPERIORITY||Odds Ratio (OR)|1.36||||0.1995|TWO_SIDED|95.0|0.85|2.16|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.16|0.85|0.1995
92298499|NCT02697773|184502160|SUPERIORITY||Odds Ratio (OR)|1.17||||0.4878|TWO_SIDED|95.0|0.75|1.84|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.84|0.75|0.4878
92298500|NCT02697773|184502160|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7856|TWO_SIDED|95.0|0.68|1.67|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.67|0.68|0.7856
92298501|NCT02697773|184502160|SUPERIORITY||Odds Ratio (OR)|1.55||||0.0476|TWO_SIDED|95.0|1.0|2.39|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.39|1.00|0.0476
92298502|NCT02697773|184502160|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0124|TWO_SIDED|95.0|1.12|2.63|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.63|1.12|0.0124
92298503|NCT02697773|184502160|SUPERIORITY||Odds Ratio (OR)|1.66||||0.0307|TWO_SIDED|95.0|1.05|2.62|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.62|1.05|0.0307
92298504|NCT02697773|184502160|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0846|TWO_SIDED|95.0|0.95|2.35|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.35|0.95|0.0846
92298505|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.15||0.0319|TWO_SIDED|95.0|-0.63|-0.03|||ANCOVA|||Week 1: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.03|-0.63|0.0319
92298506|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.15||0.0139|TWO_SIDED|95.0|-0.68|-0.08|||ANCOVA|||Week 1:Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.08|-0.68|0.0139
92298507|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.2||0.0011|TWO_SIDED|95.0|-1.03|-0.25|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.25|-1.03|0.0011
92298508|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.2||0.0053|TWO_SIDED|95.0|-0.93|-0.16|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.16|-0.93|0.0053
92298509|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.21||0.0014|TWO_SIDED|95.0|-1.08|-0.26|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.26|-1.08|0.0014
92298510|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.21||0.0002|TWO_SIDED|95.0|-1.17|-0.36|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.36|-1.17|0.0002
92298511|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.33|-0.49|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.49|-1.33|<.0001
92298512|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.36|-0.52|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.52|-1.36|<.0001
92298513|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.23||0.0015|TWO_SIDED|95.0|-1.16|-0.28|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.28|-1.16|0.0015
92298514|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.22||0.0023|TWO_SIDED|95.0|-1.12|-0.24|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.24|-1.12|0.0023
92298515|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.23||0.0512|TWO_SIDED|95.0|-0.89|0.0|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||0.00|-0.89|0.0512
92298516|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.22||0.0693|TWO_SIDED|95.0|-0.85|0.03|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||0.03|-0.85|0.0693
92298517|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.24||0.0043|TWO_SIDED|95.0|-1.14|-0.21|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.21|-1.14|0.0043
92298518|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.23||0.0041|TWO_SIDED|95.0|-1.13|-0.21|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.21|-1.13|0.0041
92298519|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.24||0.0024|TWO_SIDED|95.0|-1.19|-0.26|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.26|-1.19|0.0024
92298520|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.24||0.0015|TWO_SIDED|95.0|-1.22|-0.29|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.29|-1.22|0.0015
92298521|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.25||0.0063|TWO_SIDED|95.0|-1.16|-0.19|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.19|-1.16|0.0063
92298522|NCT02697773|184502161|SUPERIORITY||Least Square Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.24||0.0008|TWO_SIDED|95.0|-1.3|-0.34|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.34|-1.30|0.0008
92146306|NCT01197508|184177382|SUPERIORITY_OR_OTHER||LS mean|-1.47|STANDARD_ERROR_OF_MEAN|1.643||0.371|TWO_SIDED|95.0|-4.697|1.756|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.756|-4.697|0.371
92146307|NCT01197508|184177382|SUPERIORITY_OR_OTHER||LS mean|-1.32|STANDARD_ERROR_OF_MEAN|1.672||0.432|TWO_SIDED|95.0|-4.597|1.967|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.967|-4.597|0.432
92146308|NCT01197508|184177382|SUPERIORITY_OR_OTHER||LS mean|-2.71|STANDARD_ERROR_OF_MEAN|1.672||0.105|TWO_SIDED|95.0|-5.992|0.573|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.573|-5.992|0.105
92298523|NCT02697773|184502163|SUPERIORITY||Least Square Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.47|-0.61|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.61|-1.47|<.0001
92298524|NCT02697773|184502163|SUPERIORITY||Least Mean Square Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.47|-0.62|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.62|-1.47|<.0001
92298525|NCT02697773|184502163|SUPERIORITY||Least Square Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.67|-0.81|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.81|-1.67|<.0001
92298526|NCT02697773|184502163|SUPERIORITY||Least Square Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.66|-0.8|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.80|-1.66|<.0001
92298527|NCT02697773|184502163|SUPERIORITY||Least Square Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.23||0.0007|TWO_SIDED|95.0|-1.25|-0.33|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.33|-1.25|0.0007
92298528|NCT02697773|184502163|SUPERIORITY||Least Square Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.23||0.0013|TWO_SIDED|95.0|-1.2|-0.29|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.29|-1.20|0.0013
92298529|NCT02697773|184502163|SUPERIORITY||Least Square Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.51|-0.55|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.55|-1.51|<.0001
92298530|NCT02697773|184502163|SUPERIORITY||Least Square Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.67|-0.73|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.73|-1.67|<.0001
92298531|NCT02697773|184502163|SUPERIORITY||Least Square Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.25||0.0007|TWO_SIDED|95.0|-1.32|-0.35|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-1.32|0.0007
92298532|NCT02697773|184502163|SUPERIORITY||Least Square Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.48|-0.51|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.51|-1.48|<.0001
92298533|NCT02697773|184502165|SUPERIORITY||Least Square Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.22|-0.41|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.41|-1.22|<.0001
92298534|NCT02697773|184502165|SUPERIORITY||Least Square Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.29|-0.48|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.48|-1.29|<.0001
92185773|NCT01138657|184270393|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7||||0.231|TWO_SIDED|95.0|0.39|1.26|||Log Rank||The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment as factor.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||1.26|0.39|0.231
92298535|NCT02697773|184502165|SUPERIORITY||Least Square Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.46|-0.63|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.63|-1.46|<.0001
92298536|NCT02697773|184502165|SUPERIORITY||Least Square Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.49|-0.66|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.66|-1.49|<.0001
92298537|NCT02697773|184502165|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.22||0.0024|TWO_SIDED|95.0|-1.12|-0.24|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.24|-1.12|0.0024
92298538|NCT02697773|184502165|SUPERIORITY||Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.22||0.0078|TWO_SIDED|95.0|-1.03|-0.16|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.16|-1.03|0.0078
92298539|NCT02697773|184502165|SUPERIORITY||Least Square Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.24||0.0002|TWO_SIDED|95.0|-1.35|-0.43|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.43|-1.35|0.0002
92298540|NCT02697773|184502165|SUPERIORITY||Least Square Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.5|-0.57|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.57|-1.50|<.0001
92298541|NCT02697773|184502165|SUPERIORITY||Least Square Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.0034|TWO_SIDED|95.0|-1.16|-0.23|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.23|-1.16|0.0034
92298542|NCT02697773|184502165|SUPERIORITY||Least Square Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.24||0.0003|TWO_SIDED|95.0|-1.33|-0.4|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.40|-1.33|0.0003
92298543|NCT02697773|184502167|SUPERIORITY||Least Square Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.22||0.0026|TWO_SIDED|95.0|-1.1|-0.23|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.23|-1.10|0.0026
92298544|NCT02697773|184502167|SUPERIORITY||Least Mean Square Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.22||0.0023|TWO_SIDED|95.0|-1.1|-0.24|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.24|-1.10|0.0023
92298545|NCT02697773|184502167|SUPERIORITY||Least Square Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.23||0.0002|TWO_SIDED|95.0|-1.29|-0.4|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.40|-1.29|0.0002
92298546|NCT02697773|184502167|SUPERIORITY||Least Square Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.35|-0.47|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.47|-1.35|<.0001
92298547|NCT02697773|184502167|SUPERIORITY||Least Square Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.24||0.0066|TWO_SIDED|95.0|-1.11|-0.18|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.18|-1.11|0.0066
92298548|NCT02697773|184502167|SUPERIORITY||Least Square Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.23||0.1506|TWO_SIDED|95.0|-0.79|0.12|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.12|-0.79|0.1506
92298549|NCT02697773|184502167|SUPERIORITY||Least Square Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.25||0.0021|TWO_SIDED|95.0|-1.25|-0.28|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.28|-1.25|0.0021
92298550|NCT02697773|184502167|SUPERIORITY||Least Square Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.25||0.0008|TWO_SIDED|95.0|-1.32|-0.35|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-1.32|0.0008
92298551|NCT02697773|184502167|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.25||0.0167|TWO_SIDED|95.0|-1.09|-0.11|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.11|-1.09|0.0167
92298552|NCT02697773|184502167|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.25||0.0073|TWO_SIDED|95.0|-1.17|-0.18|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.18|-1.17|0.0073
92298553|NCT02697773|184502169|SUPERIORITY||Least Square Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.23||0.0058|TWO_SIDED|95.0|-1.09|-0.18|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.18|-1.09|0.0058
92298554|NCT02697773|184502169|SUPERIORITY||Least Square Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.23||0.0002|TWO_SIDED|95.0|-1.31|-0.41|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.41|-1.31|0.0002
92298555|NCT02697773|184502169|SUPERIORITY||Least Square Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.44|-0.51|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.51|-1.44|<.0001
92298556|NCT02697773|184502169|SUPERIORITY||Least Square Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.56|-0.64|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.64|-1.56|<.0001
92298557|NCT02697773|184502169|SUPERIORITY||Least Square Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.24||0.0091|TWO_SIDED|95.0|-1.11|-0.16|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.16|-1.11|0.0091
92298558|NCT02697773|184502169|SUPERIORITY||Least Square Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.24||0.0668|TWO_SIDED|95.0|-0.92|0.03|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.03|-0.92|0.0668
92298559|NCT02697773|184502169|SUPERIORITY||Least Square Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.26||0.0011|TWO_SIDED|95.0|-1.36|-0.34|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.34|-1.36|0.0011
92146309|NCT01197508|184177383|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.312|TWO_SIDED|95.0|-0.29|0.09|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.09|-0.29|0.312
92298560|NCT02697773|184502169|SUPERIORITY||Least Square Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.26||0.0002|TWO_SIDED|95.0|-1.48|-0.46|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.46|-1.48|0.0002
92298561|NCT02697773|184502169|SUPERIORITY||Least Square Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.25||0.0059|TWO_SIDED|95.0|-1.2|-0.2|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.20|-1.20|0.0059
92298562|NCT02697773|184502169|SUPERIORITY||Least Square Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.25||0.0005|TWO_SIDED|95.0|-1.39|-0.39|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-1.39|0.0005
92298563|NCT02697773|184502172|SUPERIORITY||Least Square Mean Difference|0.61|STANDARD_ERROR_OF_MEAN|1.56||0.6984|TWO_SIDED|95.0|-2.48|3.7|||ANCOVA|||Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||3.70|-2.48|0.6984
92298564|NCT02697773|184502172|SUPERIORITY||Least Square Mean Difference|-1.68|STANDARD_ERROR_OF_MEAN|1.6||0.2953|TWO_SIDED|95.0|-4.84|1.48|||ANCOVA|||Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||1.48|-4.84|0.2953
92298565|NCT02697773|184502172|SUPERIORITY||Least Square Mean Difference|-5.43|STANDARD_ERROR_OF_MEAN|4.14||0.1911|TWO_SIDED|95.0|-13.59|2.74|||ANCOVA|||Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||2.74|-13.59|0.1911
92298566|NCT02697773|184502172|SUPERIORITY||Least Square Mean Difference|-5.59|STANDARD_ERROR_OF_MEAN|4.2||0.1857|TWO_SIDED|95.0|-13.89|2.71|||ANCOVA|||Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||2.71|-13.89|0.1857
92298567|NCT02697773|184502172|SUPERIORITY||Least Square Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|4.21||0.1707|TWO_SIDED|95.0|-14.12|2.52|||ANCOVA|||Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||2.52|-14.12|0.1707
92298568|NCT02697773|184502172|SUPERIORITY||Least Square Mean Difference|-6.39|STANDARD_ERROR_OF_MEAN|4.29||0.138|TWO_SIDED|95.0|-14.85|2.07|||ANCOVA|||Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||2.07|-14.85|0.1380
92298569|NCT02697773|184502172|SUPERIORITY||Least Square Mean Difference|-3.82|STANDARD_ERROR_OF_MEAN|2.42||0.1151|TWO_SIDED|95.0|-8.58|0.94|||ANCOVA|||Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||0.94|-8.58|0.1151
92298570|NCT02697773|184502172|SUPERIORITY||Least Square Mean Difference|-3.77|STANDARD_ERROR_OF_MEAN|2.41||0.1195|TWO_SIDED|95.0|-8.51|0.98|||ANCOVA|||Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||0.98|-8.51|0.1195
92298571|NCT02697773|184502183|SUPERIORITY||Odds Ratio (OR)|0.48||||0.1444|TWO_SIDED|95.0|0.18|1.29|||Regression, Logistic|||Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.29|0.18|0.1444
92298572|NCT02697773|184502183|SUPERIORITY||Odds Ratio (OR)|0.29||||0.0335|TWO_SIDED|95.0|0.09|0.91|||Regression, Logistic|||Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.91|0.09|0.0335
92298573|NCT02697773|184502184|SUPERIORITY|||||||0.0809||||||P-value was based on the log-rank test.|Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0809
92298574|NCT02697773|184502184|SUPERIORITY|||||||0.0239||||||P-value was based on the log-rank test.|Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0239
92298575|NCT02697773|184502185|SUPERIORITY||Odds Ratio (OR)|0.7||||0.0761|TWO_SIDED|95.0|0.48|1.04|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.04|0.48|0.0761
92298576|NCT02697773|184502185|SUPERIORITY||Odds Ratio (OR)|0.65||||0.0312|TWO_SIDED|95.0|0.44|0.96|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.96|0.44|0.0312
92298577|NCT02697773|184502185|SUPERIORITY||Odds Ratio (OR)|0.65||||0.0262|TWO_SIDED|95.0|0.45|0.95|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.95|0.45|0.0262
92298578|NCT02697773|184502185|SUPERIORITY||Odds Ratio (OR)|0.54||||0.0013|TWO_SIDED|95.0|0.37|0.79|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.79|0.37|0.0013
92298579|NCT02697773|184502185|SUPERIORITY||Odds Ratio (OR)|0.92||||0.6706|TWO_SIDED|95.0|0.64|1.33|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.33|0.64|0.6706
92298580|NCT02697773|184502185|SUPERIORITY||Odds Ratio (OR)|0.99||||0.972|TWO_SIDED|95.0|0.69|1.43|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.43|0.69|0.9720
92298581|NCT02697773|184502185|SUPERIORITY||Odds Ratio (OR)|0.89||||0.5311|TWO_SIDED|95.0|0.61|1.29|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.29|0.61|0.5311
92298582|NCT02697773|184502185|SUPERIORITY||Odds Ratio (OR)|0.77||||0.1712|TWO_SIDED|95.0|0.53|1.12|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.12|0.53|0.1712
92298583|NCT02697773|184502185|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7475|TWO_SIDED|95.0|0.73|1.54|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.54|0.73|0.7475
92298584|NCT02697773|184502185|SUPERIORITY||Odds Ratio (OR)|0.92||||0.6564|TWO_SIDED|95.0|0.63|1.33|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.33|0.63|0.6564
92298585|NCT02697773|184502187|SUPERIORITY||LS Mean Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.11||0.4833|TWO_SIDED|95.0|0.73|1.16|||Negative binomial model|||Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.16|0.73|0.4833
92298586|NCT02697773|184502187|SUPERIORITY|Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.|LS Mean Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.1||0.0942|TWO_SIDED|95.0|0.65|1.03|||Negative binomial model|||||1.03|0.65|0.0942
92298587|NCT02697773|184502187|SUPERIORITY||LS Mean Ratio|0.88|STANDARD_ERROR_OF_MEAN|0.12||0.3371|TWO_SIDED|95.0|0.67|1.15|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.15|0.67|0.3371
92298588|NCT02697773|184502187|SUPERIORITY||LS Mean Ratio|0.76|STANDARD_ERROR_OF_MEAN|0.11||0.0508|TWO_SIDED|95.0|0.58|1.0|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.00|0.58|0.0508
92298589|NCT02697773|184502187|SUPERIORITY||LS Mean Ratio|0.95|STANDARD_ERROR_OF_MEAN|0.14||0.728|TWO_SIDED|95.0|0.71|1.27|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.27|0.71|0.7280
92298590|NCT02697773|184502187|SUPERIORITY||LS Mean Ratio|0.87|STANDARD_ERROR_OF_MEAN|0.13||0.3244|TWO_SIDED|95.0|0.65|1.15|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.15|0.65|0.3244
92298591|NCT02697773|184502187|SUPERIORITY||LS Mean Ratio|0.91|STANDARD_ERROR_OF_MEAN|0.16||0.5681|TWO_SIDED|95.0|0.65|1.27|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.27|0.65|0.5681
92298592|NCT02697773|184502187|SUPERIORITY||LS Mean Ratio|0.77|STANDARD_ERROR_OF_MEAN|0.13||0.1387|TWO_SIDED|95.0|0.55|1.09|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.09|0.55|0.1387
92298593|NCT02697773|184502187|SUPERIORITY||LS Mean Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.18||0.7275|TWO_SIDED|95.0|0.76|1.48|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.48|0.76|0.7275
92298594|NCT02697773|184502187|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.16||0.709|TWO_SIDED|95.0|0.67|1.31|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.31|0.67|0.7090
92298595|NCT02697773|184502189|SUPERIORITY||LS Mean Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.25||0.9164|TWO_SIDED|95.0|0.58|1.62|||Negative binomial model|||Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.62|0.58|0.9164
92298596|NCT02697773|184502189|SUPERIORITY|Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.|LS Mean Ratio|0.79|STANDARD_ERROR_OF_MEAN|0.2||0.3542|TWO_SIDED|95.0|0.47|1.31|||Negative binomial model|||||1.31|0.47|0.3542
92298597|NCT02697773|184502189|SUPERIORITY||LS Mean Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.28||0.8065|TWO_SIDED|95.0|0.51|1.68|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.68|0.51|0.8065
92298598|NCT02697773|184502189|SUPERIORITY||LS Mean Ratio|0.66|STANDARD_ERROR_OF_MEAN|0.2||0.1752|TWO_SIDED|95.0|0.36|1.2|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.20|0.36|0.1752
92298599|NCT02697773|184502189|SUPERIORITY||LS Mean Ratio|0.91|STANDARD_ERROR_OF_MEAN|0.3||0.7837|TWO_SIDED|95.0|0.48|1.73|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.73|0.48|0.7837
92298600|NCT02697773|184502189|SUPERIORITY||LS Mean Ratio|0.81|STANDARD_ERROR_OF_MEAN|0.26||0.5062|TWO_SIDED|95.0|0.43|1.52|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.52|0.43|0.5062
92298601|NCT02697773|184502189|SUPERIORITY||LS Mean Ratio|0.85|STANDARD_ERROR_OF_MEAN|0.33||0.6821|TWO_SIDED|95.0|0.4|1.82|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.82|0.40|0.6821
92298602|NCT02697773|184502189|SUPERIORITY||LS Mean Ratio|0.77|STANDARD_ERROR_OF_MEAN|0.3||0.5032|TWO_SIDED|95.0|0.36|1.65|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.65|0.36|0.5032
92298603|NCT02697773|184502189|SUPERIORITY||LS Mean Ratio|1.24|STANDARD_ERROR_OF_MEAN|0.47||0.5796|TWO_SIDED|95.0|0.58|2.61|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||2.61|0.58|0.5796
92298604|NCT02697773|184502189|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.36||0.8725|TWO_SIDED|95.0|0.44|2.0|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||2.00|0.44|0.8725
92298605|NCT00842530|184502207|SUPERIORITY|The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant only if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|30.2|||||TWO_SIDED|95.0|-13.4|56.6||||||Vaccine efficacy of CYD dengue vaccine: The statistical methodology was based on the use of the two-sided 95% confidence interval (CI) of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups.||56.6|-13.4|
92298606|NCT00842530|184502208|OTHER|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|75.2|||||TWO_SIDED|95.0|-377.0|99.6||||||Vaccine efficacy against severe VCD (IDMC)||99.6|-377|
92298607|NCT00842530|184502208|OTHER|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|50.3|||||TWO_SIDED|95.0|-585.0|96.4||||||Vaccine efficacy of against severe VCD (WHO 1999)||96.4|-585|
92298608|NCT00842530|184502209|SUPERIORITY|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant only if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|41.5|||||TWO_SIDED|95.0|-38.4|74.9||||||Vaccine efficacy:- 28 days Post-Inj. 2 up to Inj. 3||74.9|-38.4|
92298609|NCT00842530|184502209|SUPERIORITY|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant only if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|35.3|||||TWO_SIDED|95.0|3.3|56.5||||||Vaccine efficacy: 28 days Post-Inj. 2 up to end of Active Phase||56.5|3.3|
92298610|NCT00842530|184502215|OTHER|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|33.4|||||TWO_SIDED|95.0|4.1|53.5||||||Vaccine efficacy: 28 days Post-Inj. 1 up to end of Active Phase||53.5|4.1|
92146310|NCT01197508|184177383|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.885|TWO_SIDED|95.0|-0.18|0.21|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.21|-0.18|0.885
92298611|NCT00842530|184502215|OTHER|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|34.9|||||TWO_SIDED|95.0|6.7|54.3||||||Vaccine efficacy: Day 0 up to end of Active Phase||54.3|6.7|
92298612|NCT02243293|184502222|NON_INFERIORITY|The non-inferiority of the rate of sustained virologic response at 12 weeks after treatment as compared to historical control (in genotype 2 (GT2) DAA-naive participants in Part 4, arm S) was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 89% to achieve noninferiority.|Percentage of Participants|98.5|||||TWO_SIDED|95.0|96.5|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution.|||100.0|96.5|
92298613|NCT02377063|184502227|OTHER||Mean Difference (Final Values)|-11.2||||0.014|TWO_SIDED|||||p\<0.05 was defined as significant|ANOVA|||Comparison was made to day 4 minus day 0 (baseline) change of phylum Firmicutes after juice consumption||||0.014
92298614|NCT02377063|184502227|OTHER||Mean Difference (Final Values)|10.5||||0.026|TWO_SIDED|||||p\<0.05 was defined as significant|ANOVA|||Comparison was made to day 4 minus day 0 (baseline) change of phylum Bacteroidetes after juice consumption||||0.026
92298615|NCT02723773|184502232|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|79.77|||||TWO_SIDED|95.0|73.72|84.61|||Poisson regression method||VE=1 - the relative risk (RR). RR=the ratio of the incidence rates of LTFU+Control \>=50YOA Group over Historical Control \>=50YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between LTFU+Control \>=50 YOA Group and Historical Control \>=50 YOA Group.||84.61|73.72|
92298616|NCT02723773|184502233|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|86.67|||||TWO_SIDED|95.0|75.55|93.36|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control 50-59 YOA Group over Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between LTFU+Control 50-59 YOA Group and Historical Control 50-59 YOA Group.||93.36|75.55|
92298617|NCT02723773|184502233|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.14|||||TWO_SIDED|95.0|74.17|94.35|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control 60-69 YOA Group over Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between LTFU+Control 60-69 YOA Group and Historical Control 60-69 YOA Group.||94.35|74.17|
92298618|NCT02723773|184502233|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|77.11|||||TWO_SIDED|95.0|69.37|83.14|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control \>=60 YOA Group over Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between LTFU+Control \>=60 YOA Group and Historical Control \>=60 YOA Group.||83.14|69.37|
92298619|NCT02723773|184502233|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|73.18|||||TWO_SIDED|95.0|62.94|80.92|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control \>=70 YOA Group over Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between LTFU+Control \>=70 YOA Group and Historical Control \>=70 YOA Group.||80.92|62.94|
92298620|NCT02723773|184502234|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.73|||||TWO_SIDED|95.0|84.89|90.12|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control 50 YOA Group.||90.12|84.89|
92298621|NCT02723773|184502234|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|91.74|||||TWO_SIDED|95.0|86.25|95.37|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group.||95.37|86.25|
92298622|NCT02723773|184502234|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.57|||||TWO_SIDED|95.0|86.66|96.24|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group.||96.24|86.66|
92146311|NCT01197508|184177383|SUPERIORITY_OR_OTHER||LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.067|TWO_SIDED|95.0|-0.37|0.01|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.01|-0.37|0.067
92185774|NCT01138657|184270393|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.68||||0.191|TWO_SIDED|95.0|0.38|1.21|||Log Rank||The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment and race (Japanese versus non-Japanese) as factors.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||1.21|0.38|0.191
92185775|NCT01138657|184270394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-11.4||||0.02|TWO_SIDED|95.0|-20.9|-1.8|||ANOVA|ANOVA with treatment and OCT machine as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-1.8|-20.9|0.020
92185776|NCT01138657|184270394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-5.1||||0.428|TWO_SIDED|95.0|-17.7|7.5|||Chi-squared, Corrected|ANOVA with treatment, race (Japanese versus non-Japanese) and OCT machine as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||7.5|-17.7|0.428
92185777|NCT01138657|184270395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|4.2||||0.01|TWO_SIDED|95.0|1.02|7.38|||ANOVA|ANOVA with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||7.38|1.02|0.010
92298623|NCT02723773|184502234|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|86.45|||||TWO_SIDED|95.0|82.98|89.33|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group.||89.33|82.98|
92298624|NCT02723773|184502234|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|84.33|||||TWO_SIDED|95.0|79.91|87.93|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group.||87.93|79.91|
92298625|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|97.68|||||TWO_SIDED|95.0|93.07|99.53|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 1.||99.53|93.07|
92298626|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|96.76|||||TWO_SIDED|95.0|80.57|99.92|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 1.||99.92|80.57|
92146312|NCT01197508|184177384|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.152|TWO_SIDED|95.0|-0.33|0.05|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.05|-0.33|0.152
92146313|NCT01197508|184177384|SUPERIORITY_OR_OTHER||LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.078|TWO_SIDED|95.0|-0.37|0.02|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.02|-0.37|0.078
92146314|NCT01197508|184177384|SUPERIORITY_OR_OTHER||LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.033|TWO_SIDED|95.0|-0.41|-0.02|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||-0.02|-0.41|0.033
92185778|NCT01138657|184270395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|3.67||||0.019|TWO_SIDED|95.0|0.62|6.71|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||6.71|0.62|0.019
92185779|NCT01138657|184270396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|1.86||||0.346|TWO_SIDED|95.0|-2.03|5.75|||ANOVA|ANOVA with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||5.75|-2.03|0.346
92185780|NCT01138657|184270396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|1.31||||0.496|TWO_SIDED|95.0|-2.47|5.09|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||5.09|-2.47|0.496
92146315|NCT01197508|184177385|SUPERIORITY_OR_OTHER||LS mean|-0.011|STANDARD_ERROR_OF_MEAN|0.0181||0.543|TWO_SIDED|95.0|-0.0465|0.0245||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0245|-0.0465|0.543
92298627|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|79.32|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 1.||100.00|79.32|
92298628|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|97.97|||||TWO_SIDED|95.0|92.46|99.76|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 1.||99.76|92.46|
92298629|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|97.57|||||TWO_SIDED|95.0|90.96|99.71|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 1.||99.71|90.96|
92298630|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.69|||||TWO_SIDED|95.0|86.15|96.57|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 2.||96.57|86.15|
92298631|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.66|||||TWO_SIDED|95.0|70.78|99.15|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 2.||99.15|70.78|
92298632|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|95.49|||||TWO_SIDED|95.0|72.11|99.89|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 2.||99.89|72.11|
92298633|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.71|||||TWO_SIDED|95.0|85.13|96.93|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 2.||96.93|85.13|
92146316|NCT01197508|184177385|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.0183||0.998|TWO_SIDED|95.0|-0.036|0.0361||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0361|-0.0360|0.998
92146317|NCT01197508|184177385|SUPERIORITY_OR_OTHER||LS mean|-0.006|STANDARD_ERROR_OF_MEAN|0.0188||0.743|TWO_SIDED|95.0|-0.0432|0.0308||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0308|-0.0432|0.743
92298634|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.01|||||TWO_SIDED|95.0|82.82|96.88|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 2.||96.88|82.82|
92298635|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.36|||||TWO_SIDED|95.0|84.98|96.59|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 3.||96.59|84.98|
92298636|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|89.2|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 3.||100.00|89.20|
92298637|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|89.39|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 3.||100.00|89.39|
92298638|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|89.84|||||TWO_SIDED|95.0|79.81|95.51|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 3.||95.51|79.81|
92298639|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|84.74|||||TWO_SIDED|95.0|68.99|93.35|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 3.||93.35|68.99|
92298640|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|89.75|||||TWO_SIDED|95.0|80.31|95.24|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 4.||95.24|80.31|
92298641|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|93.88|||||TWO_SIDED|95.0|60.62|99.85|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 4.||99.85|60.62|
92298642|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|91.62|||||TWO_SIDED|95.0|66.1|99.04|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 4.||99.04|66.10|
92298643|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|88.96|||||TWO_SIDED|95.0|77.96|95.13|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 4.||95.13|77.96|
92298644|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.86|||||TWO_SIDED|95.0|73.3|95.33|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 4.||95.33|73.30|
92298645|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|83.87|||||TWO_SIDED|95.0|68.31|92.63|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 6.||92.63|68.31|
92298646|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.5|||||TWO_SIDED|95.0|46.83|98.61|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 6.||98.61|46.83|
92146318|NCT01197508|184177385|SUPERIORITY_OR_OTHER||LS mean|-2.3|STANDARD_ERROR_OF_MEAN|1.95||0.244|TWO_SIDED|95.0|-6.1|1.56||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.56|-6.10|0.244
92298647|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.31|||||TWO_SIDED|95.0|48.79|99.82|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 6.||99.82|48.79|
92298648|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|82.98|||||TWO_SIDED|95.0|63.64|93.05|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 6.||93.05|63.64|
92298649|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|80.0|||||TWO_SIDED|95.0|54.3|92.5|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 6.||92.50|54.30|
92298650|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|83.61|||||TWO_SIDED|95.0|67.76|92.51|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 7.||92.51|67.76|
92298651|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|93.33|||||TWO_SIDED|95.0|56.67|99.84|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 7.||99.84|56.67|
92298652|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|84.62|||||TWO_SIDED|95.0|32.04|98.31|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 7.||98.31|32.04|
92298653|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|80.43|||||TWO_SIDED|95.0|59.54|91.58|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 7.||91.58|59.54|
92298654|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|78.79|||||TWO_SIDED|95.0|51.24|92.08|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 7.||92.08|51.24|
92298655|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|82.76|||||TWO_SIDED|95.0|65.98|92.14|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 8.||92.14|65.98|
92146319|NCT01197508|184177385|SUPERIORITY_OR_OTHER||LS mean|-1.7|STANDARD_ERROR_OF_MEAN|1.98||0.389|TWO_SIDED|95.0|-5.59|2.18||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.18|-5.59|0.389
92185781|NCT01138657|184270397|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|5.12||||0.036|TWO_SIDED|95.0|0.34|9.9|||ANOVA|ANOVA with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||9.90|0.34|0.036
92298656|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|86.67|||||TWO_SIDED|95.0|42.67|98.52|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 8.||98.52|42.67|
92298657|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|84.62|||||TWO_SIDED|95.0|32.04|98.31|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 8.||98.31|32.04|
92298658|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|81.4|||||TWO_SIDED|95.0|59.97|92.45|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 8.||92.45|59.97|
92298659|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|80.65|||||TWO_SIDED|95.0|52.91|93.4|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 8.||93.40|52.91|
92298660|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|73.68|||||TWO_SIDED|95.0|52.89|86.16|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 9.||86.16|52.89|
92298661|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|66.67|||||TWO_SIDED|95.0|3.52|90.52|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 9.||90.52|3.52|
92298662|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|72.73|||||TWO_SIDED|95.0|-3.24|95.11|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 9.||95.11|-3.24|
92298663|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|76.19|||||TWO_SIDED|95.0|51.78|89.35|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 9.||89.35|51.78|
92298664|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|75.86|||||TWO_SIDED|95.0|43.69|91.07|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 9.||91.07|43.69|
92298665|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|71.7|||||TWO_SIDED|95.0|49.03|85.18|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 10.||85.18|49.03|
92185782|NCT01138657|184270397|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|4.14||||0.077|TWO_SIDED|95.0|-0.45|8.72|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||8.72|-0.45|0.077
92298666|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|77.89|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 10.||100.00|77.89|
92298667|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|90.0|||||TWO_SIDED|95.0|29.71|99.77|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 10.||99.77|29.71|
92298668|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|60.53|||||TWO_SIDED|95.0|26.55|79.83|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 10.||79.83|26.55|
92298669|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|48.15|||||TWO_SIDED|95.0|-2.41|74.87|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 10.||74.87|-2.41|
92146320|NCT01197508|184177385|SUPERIORITY_OR_OTHER||LS mean|-2.8|STANDARD_ERROR_OF_MEAN|2.02||0.165|TWO_SIDED|95.0|-6.79|1.16||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.16|-6.79|0.165
92146321|NCT02629991|184177395|SUPERIORITY|||||||0.059||||||Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.|Mixed effects model|||||||0.059
92146322|NCT02629991|184177396|SUPERIORITY|||||||0.088||||||Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.|Mixed effects model|||||||0.088
92146323|NCT02629991|184177397|SUPERIORITY|||||||0.027|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.027
92146324|NCT02629991|184177398|SUPERIORITY|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.16|||||||Mixed effects model|||||||0.16
92146325|NCT02629991|184177399|SUPERIORITY|||||||0.69|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.69
92146326|NCT02629991|184177400|SUPERIORITY|||||||0.034||||||Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.|Mixed effects model|||||||0.034
92146327|NCT02629991|184177401|SUPERIORITY|||||||0.009|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.009
92146328|NCT02629991|184177402|SUPERIORITY|||||||0.033|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.033
92146329|NCT02629991|184177403|SUPERIORITY|||||||0.78|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.78
92146330|NCT02629991|184177404|SUPERIORITY|||||||0.53|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.53
92146331|NCT02799784|184177405|NON_INFERIORITY|If the lower bound of the two-sided 95% confidence interval around the (UMEC/VI 62.5/25 mcg versus TIO/OLO 5/5 mcg) treatment difference is above -50 milliliter then UMEC/VI 62.5/25 mcg was to be considered non-inferior to TIO/OLO 5/5 mcg.|Mean Difference (Final Values)|0.053|||<|0.001|TWO_SIDED|95.0|0.026|0.08|||Mixed Models Analysis|||||0.080|0.026|<0.001
92146332|NCT03086330|184177461|OTHER||Treatment difference|-1.42|||<|0.0001|TWO_SIDED|95.0|-1.61|-1.24|||ANCOVA|||The responses were analysed using an analysis of covariance (ANCOVA) with treatment, stratification factor and region as fixed factors and baseline value as covariate. Before analysis, missing data were multiple imputed using observed data from participants within the same group defined by randomised treatment, using a regression model including stratification factor and region as categorical effects and data from baseline and all previous visits as covariates.||-1.24|-1.61|<0.0001
92146333|NCT03086330|184177462|OTHER||Treatment difference|-3.81|||<|0.0001|TWO_SIDED|95.0|-4.7|-2.93|||ANCOVA|||The responses were analysed using an ANCOVA with treatment, stratification factor and region as fixed factors and baseline value as covariate. Before analysis, missing data were multiple imputed using observed data from participants within the same group defined by randomised treatment, using a regression model including stratification factor and region as categorical effects and data from baseline and all previous visits as covariates.||-2.93|-4.70|<0.0001
92298670|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|82.0|||||TWO_SIDED|95.0|63.03|92.22|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 11.||92.22|63.03|
92298671|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|86.67|||||TWO_SIDED|95.0|42.67|98.52|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 11.||98.52|42.67|
92298672|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|65.07|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 11.||100.00|65.07|
92298673|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|79.41|||||TWO_SIDED|95.0|52.82|92.3|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 11.||92.30|52.82|
92298674|NCT02723773|184502235|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|72.0|||||TWO_SIDED|95.0|33.41|89.77|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 11.||89.77|33.41|
92298675|NCT02723773|184502236|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.5|||||TWO_SIDED|95.0|64.75|96.79|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control \>=50 YOA Group over Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between LTFU+Control \>=50 YOA Group and Historical Control\>=50 YOA Group.||96.79|64.75|
92146334|NCT02740049|184177523|SUPERIORITY|||||||0.0002||||||P value is the comparison between the IFN/TNF induction group versus the VR588 (10-7M) treatment group.|Wilcoxon (Mann-Whitney)|||Statistical differences is determined using the Kruskal-Wallis test followed by Dunn's multiple comparison test or a Wilcoxon signed rank test as appropriate.||||0.0002
92185783|NCT01138657|184270398|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|10.02|||<|0.001|TWO_SIDED|95.0|4.86|15.19|||ANOVA|ANOVA with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||15.19|4.86|<0.001
92298676|NCT02723773|184502236|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|46.59|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control 50-59 YOA Group over Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between LTFU+Control 50-59 YOA Group and Historical Control 50-59 YOA Group.||100.00|46.59|
92298677|NCT02723773|184502236|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|50.0|||||TWO_SIDED|95.0|-860.45|99.15|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control 60-69 YOA Group over Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between LTFU+Control 60-69 YOA Group and Historical Control 60-69 YOA Group.||99.15|-860.45|
92298678|NCT02723773|184502236|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|84.0|||||TWO_SIDED|95.0|53.66|95.95|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control \>=60 YOA Group over Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of PHN between LTFU+Control \>=60 YOA Group and Historical Control \>=60 YOA Group.||95.95|53.66|
92146335|NCT02740049|184177524|SUPERIORITY|||||||0.3994||||||P value is the comparison between the IFN/TNF induction group versus the VR588 (10-7M) treatment group|Wilcoxon (Mann-Whitney)|||Statistical differences is determined using the Kruskal-Wallis test followed by Dunn's multiple comparison test or Wilcoxon signed rank test as appropriate.||||0.3994
92146336|NCT02740049|184177525|SUPERIORITY|||||||0.0104||||||P value is the comparison between the IFN/TNF induction group versus VR588 (10-7M) treatment group.|Wilcoxon (Mann-Whitney)|||Statistical difference is determined using the Kruskal-Wallis test followed by Dunn's multiple comparison test or a Wilcoxon signed rank test as appropriate.||||0.0104
92146337|NCT04570436|184177532|SUPERIORITY||Mean Difference (Final Values)|30.9|STANDARD_ERROR_OF_MEAN|2.85|<|0.0001|ONE_SIDED|95.0|26.2||||Mixed Models Analysis|||"The sensitivity and integrity of the study was validated by comparing the mean responses of diazepam, the positive control (C), to the placebo (P):~H0: μC - μP ≤ δ1 versus Ha: μC - μP \> δ1 where δ1 = 15"|||26.2|<0.0001
92146338|NCT04570436|184177532|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|2.84||0.3581|ONE_SIDED|95.0||14.7|||Mixed Models Analysis|||"The primary analysis evaluated whether gabapentin (T) produced mean responses that show abuse potential similar to placebo.~H0: μT - μP ≥ δ3 versus Ha: μT - μP \< δ3 where δ3 =11"||14.7||0.3581
92146339|NCT04570436|184177532|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|9.5|STANDARD_ERROR_OF_MEAN|2.85||0.3051|ONE_SIDED|95.0||14.3|||Mixed Models Analysis|||"The primary analysis evaluated whether gabapentin (T) produced mean responses that show abuse potential similar to placebo.~H0: μT - μP ≥ δ3 versus Ha: μT - μP \< δ3 where δ3 =11"||14.3||0.3051
92146340|NCT04570436|184177532|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|8.8|STANDARD_ERROR_OF_MEAN|2.83||0.2179|ONE_SIDED|95.0||13.5|||Mixed Models Analysis|||"The primary analysis evaluated whether gabapentin (T) produced mean responses that show abuse potential similar to placebo.~H0: μT - μP ≥ δ3 versus Ha: μT - μP \< δ3 where δ3 =11"||13.5||0.2179
92146341|NCT04570436|184177532|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|20.9|STANDARD_ERROR_OF_MEAN|2.84|<|0.0001|ONE_SIDED|95.0|16.3||||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (T) produced mean responses that show less abuse potential than diazepam (C) were:~H0: μC - μT ≤ δ2 versus Ha: μC - μT \> δ2 where δ2 =0"|||16.3|<0.0001
92146342|NCT04570436|184177532|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|21.4|STANDARD_ERROR_OF_MEAN|2.84|<|0.0001|ONE_SIDED|95.0|16.7||||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (T) produced mean responses that show less abuse potential than diazepam (C) were:~H0: μC - μT ≤ δ2 versus Ha: μC - μT \> δ2 where δ2 =0"|||16.7|<0.0001
92146343|NCT04570436|184177532|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|22.1|STANDARD_ERROR_OF_MEAN|2.85|<|0.0001|ONE_SIDED|95.0|17.4||||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (T) produced mean responses that show less abuse potential than diazepam (C) were:~H0: μC - μT ≤ δ2 versus Ha: μC - μT \> δ2 where δ2 =0"|||17.4|<0.0001
92146344|NCT04570436|184177534|OTHER||Mean Difference (Final Values)|325.8|STANDARD_ERROR_OF_MEAN|113.38||0.0023|ONE_SIDED|90.0|138.2||||Mixed Models Analysis||||||138.2|0.0023
92146345|NCT04570436|184177534|OTHER||Mean Difference (Final Values)|140.5|STANDARD_ERROR_OF_MEAN|113.01||0.2157|TWO_SIDED|90.0|-82.7|363.7|||Mixed Models Analysis|||||363.7|-82.7|0.2157
92146346|NCT04570436|184177534|OTHER||Mean Difference (Final Values)|155.4|STANDARD_ERROR_OF_MEAN|113.25||0.172|TWO_SIDED|90.0|-68.3|379.1|||Mixed Models Analysis|||||379.1|-68.3|0.1720
92146347|NCT04570436|184177534|OTHER||Mean Difference (Final Values)|212.2|STANDARD_ERROR_OF_MEAN|113.01||0.0622|TWO_SIDED|90.0|-11.0|435.5|||Mixed Models Analysis|||||435.5|-11.0|0.0622
92146348|NCT04570436|184177534|OTHER||Mean Difference (Final Values)|-185.0|STANDARD_ERROR_OF_MEAN|113.04||0.1031|TWO_SIDED|90.0|-409.0|37.94|||Mixed Models Analysis|||||37.94|-409|0.1031
92146349|NCT04570436|184177534|OTHER||Mean Difference (Final Values)|-170.0|STANDARD_ERROR_OF_MEAN|112.97||0.1334|TWO_SIDED|90.0|-394.0|52.71|||Mixed Models Analysis|||||52.71|-394|0.1334
92146350|NCT04570436|184177534|OTHER||Mean Difference (Final Values)|-114.0|STANDARD_ERROR_OF_MEAN|113.59||0.3189|TWO_SIDED|90.0|-338.0|110.8|||Mixed Models Analysis|||||110.8|-338|0.3189
92146351|NCT04570436|184177535|OTHER||Mean Difference (Final Values)|55.77|STANDARD_ERROR_OF_MEAN|5.362|<|0.0001|ONE_SIDED|90.0|46.89||||Mixed Models Analysis||||||46.89|<0.0001
92146352|NCT04570436|184177535|OTHER||Mean Difference (Final Values)|17.18|STANDARD_ERROR_OF_MEAN|5.348||0.0016|TWO_SIDED|90.0|6.61|27.74|||Mixed Models Analysis|||||27.74|6.61|0.0016
92146353|NCT04570436|184177535|OTHER||Mean Difference (Final Values)|21.38|STANDARD_ERROR_OF_MEAN|5.36||0.0001|TWO_SIDED|90.0|10.79|31.96|||Mixed Models Analysis|||||31.96|10.79|0.0001
92146354|NCT04570436|184177535|OTHER||Mean Difference (Final Values)|22.5|STANDARD_ERROR_OF_MEAN|5.352|<|0.0001|TWO_SIDED|90.0|11.92|33.07|||Mixed Models Analysis|||||33.07|11.92|<0.0001
92146355|NCT04570436|184177535|OTHER||Mean Difference (Final Values)|-38.6|STANDARD_ERROR_OF_MEAN|5.312|<|0.0001|TWO_SIDED|90.0|-49.1|-28.1|||Mixed Models Analysis|||||-28.1|-49.1|<0.0001
92146356|NCT04570436|184177535|OTHER||Mean Difference (Final Values)|-34.4|STANDARD_ERROR_OF_MEAN|5.308|<|0.0001|TWO_SIDED|90.0|-44.9|-23.9|||Mixed Models Analysis|||||-23.9|-44.9|<0.0001
92146357|NCT04570436|184177535|OTHER||Mean Difference (Final Values)|-33.3|STANDARD_ERROR_OF_MEAN|5.337|<|0.0001|TWO_SIDED|90.0|-43.8|-22.7|||Mixed Models Analysis|||||-22.7|-43.8|<0.0001
92146358|NCT04570436|184177537|OTHER||Mean Difference (Final Values)|234.9|STANDARD_ERROR_OF_MEAN|38.174|<|0.0001|ONE_SIDED|90.0|171.7||||Mixed Models Analysis||||||171.7|<0.0001
92146359|NCT04570436|184177537|OTHER||Mean Difference (Final Values)|66.3|STANDARD_ERROR_OF_MEAN|38.048||0.0834|TWO_SIDED|90.0|-8.86|141.5|||Mixed Models Analysis|||||141.5|-8.86|0.0834
92146360|NCT04570436|184177537|OTHER||Mean Difference (Final Values)|99.06|STANDARD_ERROR_OF_MEAN|38.128||0.0103|TWO_SIDED|90.0|23.75|174.4|||Mixed Models Analysis|||||174.4|23.75|0.0103
92146361|NCT04570436|184177537|OTHER||Mean Difference (Final Values)|97.2|STANDARD_ERROR_OF_MEAN|38.048||0.0116|TWO_SIDED|90.0|22.05|172.4|||Mixed Models Analysis|||||172.4|22.05|0.0116
92146362|NCT04570436|184177537|OTHER||Mean Difference (Final Values)|-169.0|STANDARD_ERROR_OF_MEAN|38.06|<|0.0001|TWO_SIDED|90.0|-244.0|-93.4|||Mixed Models Analysis|||||-93.4|-244|<0.0001
92146363|NCT04570436|184177537|OTHER||Mean Difference (Final Values)|-136.0|STANDARD_ERROR_OF_MEAN|38.036||0.0005|TWO_SIDED|90.0|-211.0|-60.7|||Mixed Models Analysis|||||-60.7|-211|0.0005
92146364|NCT04570436|184177537|OTHER||Mean Difference (Final Values)|-138.0|STANDARD_ERROR_OF_MEAN|38.243||0.0004|TWO_SIDED|90.0|-213.0|-62.2|||Mixed Models Analysis|||||-62.2|-213|0.0004
92298679|NCT02723773|184502236|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|86.96|||||TWO_SIDED|95.0|56.83|97.49|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control \>=70 YOA Group over Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of PHN between LTFU+Control \>=70 YOA Group and Historical Control \>=70 YOA Group.||97.49|56.83|
92298680|NCT02723773|184502237|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|89.69|||||TWO_SIDED|95.0|78.67|95.7|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group.||95.70|78.67|
92298681|NCT02723773|184502237|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|77.79|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group.||100.00|77.79|
92298682|NCT02723773|184502237|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|74.75|||||TWO_SIDED|95.0|-155.17|99.49|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group.||99.49|-155.17|
92298683|NCT02723773|184502237|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.24|||||TWO_SIDED|95.0|73.29|94.72|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group.||94.72|73.29|
92298684|NCT02723773|184502237|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|88.08|||||TWO_SIDED|95.0|73.87|95.41|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group.||95.41|73.87|
92298685|NCT02723773|184502238|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|91.67|||||TWO_SIDED|95.0|43.68|99.81|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of LTFU+Control \>=50 YOA Group over Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between LTFU+Control \>=50 YOA Group and Historical Control \>=50 YOA Group.||99.81|43.68|
92298686|NCT02723773|184502238|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|-247.21|100.0|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of LTFU+Control 60-69YOA Group over Historical Control 60-69YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between LTFU+Control 60-69 YOA Group and Historical Control 60-69 YOA Group.||100.00|-247.21|
92146365|NCT00162370|184177597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|||||||Regression, Cox|||The null hypothesis evaluated is that the scores are not associated with outcome. Of the two measures, wall motion index is considered to be the primary endpoint measure. The cardiac event rate will be summarized by categorical levels of wall motion index score and the difference in wall motion index score.||||0.014
92146366|NCT00162370|184177598|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Regression, Cox|||||||<0.0001
92146367|NCT03088267|184177645|SUPERIORITY||Mean Difference (Final Values)|-8.6||||0.0118|TWO_SIDED|95.0|-14.94|-2.17|||ANCOVA|||||-2.17|-14.94|0.0118
92146368|NCT03088267|184177646|SUPERIORITY||Mean Difference (Final Values)|18.8||||0.1128|TWO_SIDED|95.0|-4.94|42.5|||ANCOVA|||Comparison at 30 minutes post-dose||42.50|-4.94|0.1128
92146369|NCT03088267|184177646|SUPERIORITY||Mean Difference (Final Values)|60.3||||0.0003|TWO_SIDED|95.0|32.91|87.75|||ANCOVA|||Comparison at 3 hours postdose||87.75|32.91|0.0003
92146370|NCT00774579|184177647|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.6
92146371|NCT00774579|184177648|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
92146372|NCT01218126|184177653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.517|TWO_SIDED|95.0|-10.4|5.2|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 4.||5.2|-10.4|0.517
92146373|NCT01218126|184177653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.763|TWO_SIDED|95.0|-8.9|6.5|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 4||6.5|-8.9|0.763
92298687|NCT02723773|184502238|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|90.91|||||TWO_SIDED|95.0|37.45|99.79|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of LTFU+Control \>=60YOA Group over Historical Control \>=60YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of HZ related complications between LTFU+Control \>=60 YOA Group and Historical Control \>=60 YOA Group.||99.79|37.45|
92298688|NCT02723773|184502238|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|88.89|||||TWO_SIDED|95.0|19.81|99.75|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of LTFU+Control \>=70YOA Group over Historical Control \>=70YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between LTFU+Control \>=70 YOA Group and Historical Control \>=70 YOA Group.||99.75|19.81|
92298689|NCT02723773|184502239|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.83|||||TWO_SIDED|95.0|71.57|99.17|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group.||99.17|71.57|
92298690|NCT02723773|184502239|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|-1830.98|100.0|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of HZ/su 50-59YOA Group over Placebo/Historical Control 50-59YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group.||100.00|-1830.98|
92298691|NCT02723773|184502239|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|17.55|100.0|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of HZ/su 60-69YOA Group over Placebo/Historical Control 60-69YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group.||100.00|17.55|
92298692|NCT02723773|184502239|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.28|||||TWO_SIDED|95.0|69.17|99.11|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group.||99.11|69.17|
92298693|NCT02723773|184502239|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|90.45|||||TWO_SIDED|95.0|60.93|98.91|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group.||98.91|60.93|
92298694|NCT01730040|184502313|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.1|||<|0.0001|TWO_SIDED|99.0|-55.9|-22.2|||Mixed Models Analysis|Threshold for significance ≤ 0.01.||Alirocumab group was compared to the corresponding active control group using an appropriate contrast statement.||-22.2|-55.9|< 0.0001
92146374|NCT01218126|184177653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.5||||0.164|TWO_SIDED|95.0|-2.3|13.3|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 4||13.3|-2.3|0.164
92146375|NCT01218126|184177653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.9|TWO_SIDED|95.0|-9.2|10.5|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 12||10.5|-9.2|0.900
92146376|NCT01218126|184177653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.788|TWO_SIDED|95.0|-11.1|8.4|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 12||8.4|-11.1|0.788
92146377|NCT01218126|184177653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8||||0.722|TWO_SIDED|95.0|-8.2|11.8|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 12||11.8|-8.2|0.722
92146378|NCT01218126|184177653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.7||||0.26|TWO_SIDED|95.0|-18.2|4.9|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 24||4.9|-18.2|0.260
92298695|NCT01730040|184502313|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.6|||=|0.0004|TWO_SIDED|99.0|-40.7|-6.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||As described in statistical analysis 1 of the endpoint.||-6.5|-40.7|= 0.0004
92146379|NCT01218126|184177653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7||||0.422|TWO_SIDED|95.0|-16.1|6.8|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 24||6.8|-16.1|0.422
92146380|NCT01218126|184177653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4||||0.564|TWO_SIDED|95.0|-15.1|8.2|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 24||8.2|-15.1|0.564
92146381|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.968|TWO_SIDED|95.0|-39.0|38.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 4||38|-39|0.968
92146382|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.0||||0.715|TWO_SIDED|95.0|-45.0|31.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 Placebo versus Losmapimod 7.5 mg at Week 4||31|-45|0.715
92146383|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.0||||0.152|TWO_SIDED|95.0|-10.0|66.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 4||66|-10|0.152
92185784|NCT01138657|184270398|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|8.83|||<|0.001|TWO_SIDED|95.0|3.88|13.79|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%||13.79|3.88|<0.001
92185785|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|4.1|||||TWO_SIDED|95.0|-0.9|9.2||||||Tx 1 - SBP (Unadjusted)||9.2|-0.9|
92298696|NCT01730040|184502313|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.2|||<|0.0001|TWO_SIDED|99.0|-65.0|-33.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-33.5|-65|< 0.0001
92298697|NCT01730040|184502313|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.6|||<|0.0001|TWO_SIDED|99.0|-48.4|-16.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-16.9|-48.4|< 0.0001
92298698|NCT01730040|184502313|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.4|||<|0.0001|TWO_SIDED|99.0|-47.4|-15.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.4|-47.4|<0.0001
92298699|NCT01730040|184502314|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.5|||<|0.0001|TWO_SIDED|99.0|-59.2|-25.7||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 1% level.||-25.7|-59.2|< 0.0001
92298700|NCT01730040|184502314|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.9|||=|0.0002|TWO_SIDED|99.0|-41.9|-7.8||Threshold for significance≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.8|-41.9|= 0.0002
92298701|NCT01730040|184502314|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.8|||<|0.0001|TWO_SIDED|99.0|-69.2|-36.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-36.5|-69.2|< 0.0001
92185786|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-0.4|5.3||||||Tx 1 - DBP (Unadjusted)||5.3|-0.4|
92185787|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-6.2|5.6||||||Wk 3 - SBP (Unadjusted)||5.6|-6.2|
92185788|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-4.0|3.5||||||Wk 3 - DBP (Unadjusted)||3.5|-4.0|
92185789|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|3.5|||||TWO_SIDED|95.0|-1.9|8.9||||||Wk 6 - SBP (Unadjusted)||8.9|-1.9|
92185790|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0|-2.1|5.0||||||Wk 6 - DBP (Unadjusted)||5.0|-2.1|
92298702|NCT01730040|184502314|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.0|||<|0.0001|TWO_SIDED|99.0|-51.3|-18.6|||Mixed Models Analysis|Threshold for significance ≤ 0.01.||Analysis description as per the statistical analysis 1 of this endpoint.||-18.6|-51.3|< 0.0001
92298703|NCT01730040|184502314|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.4|||<|0.0001|TWO_SIDED|99.0|-50.0|-16.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-16.8|-50.0|< 0.0001
92298704|NCT01730040|184502315|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.8|||<|0.0001|TWO_SIDED|99.0|-54.0|-25.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-25.6|-54|<0.0001
92298705|NCT01730040|184502315|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.8|||<|0.0001|TWO_SIDED|99.0|-40.0|-11.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.6|-40.0|<0.0001
92298706|NCT01730040|184502315|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.0|||<|0.0001|TWO_SIDED|99.0|-47.7|-24.3||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-24.3|-47.7|<0.0001
92298707|NCT01730040|184502315|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.3|||<|0.0001|TWO_SIDED|99.0|-39.2|-15.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.4|-39.2|<0.0001
92298708|NCT01730040|184502315|SUPERIORITY_OR_OTHER||LS Mean Difference|-20.9|||<|0.0001|TWO_SIDED|99.0|-32.8|-8.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-8.9|-32.8|<0.0001
92298709|NCT01730040|184502316|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.5|||<|0.0001|TWO_SIDED|99.0|-55.8|-33.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-33.1|-55.8|<0.0001
92298710|NCT01730040|184502316|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.6|||<|0.0001|TWO_SIDED|99.0|-38.0|-15.2||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.2|-38.0|<0.0001
92146384|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.922|TWO_SIDED|95.0|-45.0|40.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 8||40|-45|0.922
92146385|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.0||||0.694|TWO_SIDED|95.0|-34.0|50.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 8||50|-34|0.694
92146386|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.0||||0.094|TWO_SIDED|95.0|-6.3|79.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 8||79|-6.3|0.094
92146387|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.0||||0.456|TWO_SIDED|95.0|-26.0|58.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 12||58|-26|0.456
92146388|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.0||||0.355|TWO_SIDED|95.0|-22.0|61.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 12||61|-22|0.355
92146389|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.0||||0.023|TWO_SIDED|95.0|6.7|91.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 12||91|6.7|0.023
92146390|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.0||||0.32|TWO_SIDED|95.0|-21.0|65.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 16||65|-21|0.320
92185791|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|4.7|||||TWO_SIDED|95.0|-0.4|9.8||||||Tx 1 - SBP (Adjusted)||9.8|-0.4|
92146391|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.0||||0.267|TWO_SIDED|95.0|-19.0|67.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 16||67|-19|0.267
92146392|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.0||||0.289|TWO_SIDED|95.0|-20.0|67.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 16||67|-20|0.289
92146393|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.0||||0.786|TWO_SIDED|95.0|-37.0|49.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 20||49|-37|0.786
92146394|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|33.0||||0.134|TWO_SIDED|95.0|-10.0|76.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 20||76|-10|0.134
92146395|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|29.0||||0.191|TWO_SIDED|95.0|-15.0|74.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 20||74|-15|0.191
92185792|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|3.6|||||TWO_SIDED|95.0|0.6|6.5||||||Tx 1 - DBP (Adjusted)||6.5|0.6|
92185793|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-5.0|6.9||||||Wk 3 - SBP (Adjusted)||6.9|-5.0|
92185794|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.8|4.9||||||Wk 3 - DBP (Adjusted)||4.9|-2.8|
92185795|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|4.8|||||TWO_SIDED|95.0|-0.4|10.0||||||Wk 6 - SBP (Adjusted)||10.0|-0.4|
92298711|NCT01730040|184502316|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.3|||<|0.0001|TWO_SIDED|99.0|-48.1|-24.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-24.5|-48.1|<0.0001
92298712|NCT01730040|184502316|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.7|||<|0.0001|TWO_SIDED|99.0|-39.6|-15.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.8|-39.6|<0.0001
92298713|NCT01730040|184502316|SUPERIORITY_OR_OTHER||LS Mean Difference|-20.2|||<|0.0001|TWO_SIDED|99.0|-32.2|-8.2||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-8.2|-32.2|<0.0001
92298714|NCT01730040|184502317|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.3|||<|0.0001|TWO_SIDED|99.0|-42.0|-16.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-16.6|-42.0|<0.0001
92298715|NCT01730040|184502317|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.6|||<|0.0001|TWO_SIDED|99.0|-36.6|-10.7||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-10.7|-36.6|<0.0001
92298716|NCT01730040|184502317|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.4|||<|0.0001|TWO_SIDED|99.0|-50.8|-26.0||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-26.0|-50.8|<0.0001
92298717|NCT01730040|184502317|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.9|||<|0.0001|TWO_SIDED|99.0|-43.2|-18.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-18.6|-43.2|<0.0001
92185796|NCT01020435|184270426|OTHER||Mean Difference (Final Values)|2.3|||||TWO_SIDED|95.0|-1.2|5.8||||||Wk 6 - DBP (Adjusted)||5.8|-1.2|
92185797|NCT00346398|184270429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.28|TWO_SIDED|95.0|0.5|10.5||Odds Ratios are calculated using a logistic regression with a Wald chi square test. Experimental group participants had a higher proportion of allergic sensitization than participants who received placebo|Chi-squared|||Participants who drop out (have missing efficacy endpoints) are considered treatment failures.||10.5|0.5|0.28
92185798|NCT00346398|184270430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.85|TWO_SIDED|95.0|0.2|6.1||Odds Ratios are calculated using unadjusted exact logistic regression with mid p-value to adjust for the discreteness of the distribution|Chi-squared|||Participants who drop out (have missing efficacy endpoints) are considered treatment failures.||6.1|0.2|0.85
92298718|NCT01730040|184502317|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.6|||<|0.0001|TWO_SIDED|99.0|-40.1|-15.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.1|-40.1|<0.0001
92298719|NCT01730040|184502318|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.6|||<|0.0001|TWO_SIDED|99.0|-44.6|-20.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-20.6|-44.6|<0.0001
92298720|NCT01730040|184502318|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.1|||<|0.0001|TWO_SIDED|99.0|-37.3|-12.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.8|-37.3|<0.0001
92298721|NCT01730040|184502318|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.3|||<|0.0001|TWO_SIDED|99.0|-51.2|-25.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-25.4|-51.2|<0.0001
92185799|NCT00346398|184270431|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8||||0.28|TWO_SIDED|95.0|0.6|5.6||P-value is calculated using a log-rank test|Regression, Logistic||Hazard ratio and 95% confidence intervals are calculated using an unadjusted Cox regression|||5.6|0.6|0.28
92185800|NCT02607956|184270432|NON_INFERIORITY|A sample of approximately 600 participants randomized 1:1 achieves at least 95% power using a non-inferiority margin of 12% assuming a response rate in both groups of 91% (Reference Genvoya studies) and a one-sided alpha level of 0.025.|Difference in Percentages|-3.5|||||TWO_SIDED|95.002|-7.9|1.0|||||Differences in percentages of participants between groups and their 95.002% CIs were calculated based on Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||1.0|-7.9|
92185801|NCT02607956|184270432|SUPERIORITY|||||||0.12|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.12
92298722|NCT01730040|184502318|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.8|||<|0.0001|TWO_SIDED|99.0|-42.6|-17.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-17.1|-42.6|<0.0001
92298723|NCT01730040|184502318|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.4|||<|0.0001|TWO_SIDED|99.0|-39.4|-13.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-13.4|-39.4|<0.0001
92298724|NCT01730040|184502319|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.4|||<|0.0001|TWO_SIDED|99.0|-44.7|-16.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-16.1|-44.7|<0.0001
92298725|NCT01730040|184502319|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.6|||=|0.0002|TWO_SIDED|99.0|-36.1|-7.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.1|-36.1|=0.0002
92298726|NCT01730040|184502319|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.1|||<|0.0001|TWO_SIDED|99.0|-54.7|-27.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-27.5|-54.7|<0.0001
92298727|NCT01730040|184502319|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.2|||<|0.0001|TWO_SIDED|99.0|-43.7|-16.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-16.6|-43.7|<0.0001
92298728|NCT01730040|184502319|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.6|||<|0.0001|TWO_SIDED|99.0|-40.3|-12.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.8|-40.3|<0.0001
92298729|NCT01730040|184502320|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.0|||<|0.0001|TWO_SIDED|99.0|-47.0|-19.0||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-19.0|-47.0|<0.0001
92298730|NCT01730040|184502320|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.4|||<|0.0001|TWO_SIDED|99.0|-36.6|-8.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-8.1|-36.6|<0.0001
92298731|NCT01730040|184502320|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.6|||<|0.0001|TWO_SIDED|99.0|-57.4|-29.7||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-29.7|-57.4|<0.0001
92298732|NCT01730040|184502320|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.1|||<|0.0001|TWO_SIDED|99.0|-46.0|-18.3||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-18.3|-46.0|<0.0001
92298733|NCT01730040|184502320|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.3|||<|0.0001|TWO_SIDED|99.0|-41.4|-13.2||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-13.2|-41.4|<0.0001
92298734|NCT01730040|184502321|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.1|||<|0.0001|TWO_SIDED|99.0|-32.9|-13.2||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-13.2|-32.9|<0.0001
92298735|NCT01730040|184502321|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.8|||<|0.0001|TWO_SIDED|99.0|-25.8|-5.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-5.8|-25.8|<0.0001
92298736|NCT01730040|184502321|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.9|||<|0.0001|TWO_SIDED|99.0|-39.4|-18.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-18.4|-39.4|<0.0001
92298737|NCT01730040|184502321|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.9|||<|0.0001|TWO_SIDED|99.0|-32.4|-11.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.4|-32.4|<0.0001
92298738|NCT01730040|184502321|SUPERIORITY_OR_OTHER||LS Mean Difference|-18.4|||<|0.0001|TWO_SIDED|99.0|-29.1|-7.7||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.7|-29.1|<0.0001
92298739|NCT01730040|184502322|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.5|||<|0.0001|TWO_SIDED|99.0|-41.6|-21.3||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-21.3|-41.6|<0.0001
92298740|NCT01730040|184502322|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.3|||<|0.0001|TWO_SIDED|99.0|-35.4|-15.2||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.2|-35.4|<0.0001
92298741|NCT01730040|184502322|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.7|||<|0.0001|TWO_SIDED|99.0|-35.9|-17.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-17.5|-35.9|<0.0001
92298742|NCT01730040|184502322|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.2|||<|0.0001|TWO_SIDED|99.0|-31.5|-12.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.9|-31.5|<0.0001
92298743|NCT01730040|184502322|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.9|||<|0.0001|TWO_SIDED|99.0|-25.2|-6.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-6.6|-25.2|<0.0001
92298744|NCT01730040|184502323|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.5|||<|0.0001|TWO_SIDED|99.0|-45.3|-21.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-21.6|-45.3|<0.0001
92298745|NCT01730040|184502323|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.4|||<|0.0001|TWO_SIDED|99.0|-35.2|-11.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.6|-35.2|<0.0001
92146396|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.852|TWO_SIDED|95.0|-38.0|46.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 24||46|-38|0.852
92298746|NCT01730040|184502323|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.3|||<|0.0001|TWO_SIDED|99.0|-39.0|-19.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-19.6|-39.0|<0.0001
92298747|NCT01730040|184502323|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.5|||<|0.0001|TWO_SIDED|99.0|-32.3|-12.7||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.7|-32.3|<0.0001
92298748|NCT01730040|184502323|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.8|||<|0.0001|TWO_SIDED|99.0|-24.7|-4.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-4.9|-24.7|<0.0001
92298749|NCT01730040|184502324|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.6|||<|0.0001|TWO_SIDED|99.0|-31.4|-13.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-13.8|-31.4|<0.0001
92298750|NCT01730040|184502324|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.8|||<|0.0001|TWO_SIDED|99.0|-24.6|-7.0||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.0|-24.6|<0.0001
92298751|NCT01730040|184502324|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.1|||<|0.0001|TWO_SIDED|99.0|-26.9|-11.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.4|-26.9|<0.0001
92298752|NCT01730040|184502324|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.4|||<|0.0001|TWO_SIDED|99.0|-23.3|-7.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.6|-23.3|<0.0001
92298753|NCT01730040|184502324|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.8|||=|0.0015|TWO_SIDED|99.0|-17.7|-1.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-1.9|-17.7|=0.0015
92298754|NCT01730040|184502325|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.7|||<|0.0001|TWO_SIDED|99.0|3.9|71.7||Threshold for significance ≤ 0.01.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||71.7|3.9|<0.0001
92298755|NCT01730040|184502325|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.4|||=|0.0284|TWO_SIDED|99.0|0.8|14.6||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||14.6|0.8|=0.0284
92298756|NCT01730040|184502325|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|83.2|||<|0.0001|TWO_SIDED|99.0|11.6|596.8||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||596.8|11.6|<0.0001
92298757|NCT01730040|184502325|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.2|||=|0.0025|TWO_SIDED|99.0|1.3|38.3||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||38.3|1.3|=0.0025
92298758|NCT01730040|184502325|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.1|||=|0.0011|TWO_SIDED|99.0|1.6|52.2||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||52.2|1.6|=0.0011
92298759|NCT01730040|184502326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|128.4|||<|0.0001|TWO_SIDED|99.0|14.2|1157.0||Threshold for significance ≤ 0.01.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant) for atorvastatin 40 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||1157|14.2|<0.0001
92298760|NCT01730040|184502326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.9|||=|0.0015|TWO_SIDED|99.0|1.6|75.4||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||75.4|1.6|=0.0015
92298761|NCT01730040|184502326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.7|||=|0.0008|TWO_SIDED|99.0|1.8|101.1||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||101.1|1.8|=0.0008
92298762|NCT01730040|184502327|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|116.8|||<|0.0001|TWO_SIDED|99.0|14.7|927.5||Threshold for significance ≤ 0.01.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant) for atorvastatin 40 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||927.5|14.7|<0.0001
92298763|NCT01730040|184502327|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.2|||<|0.0001|TWO_SIDED|99.0|2.5|68.8||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||68.8|2.5|<0.0001
92146397|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.0||||0.397|TWO_SIDED|95.0|-24.0|60.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 24||60|-24|0.397
92298764|NCT01730040|184502327|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.9|||=|0.0004|TWO_SIDED|99.0|1.9|51.9||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||51.9|1.9|=0.0004
92298765|NCT01730040|184502328|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|162.1|||<|0.0001|TWO_SIDED|99.0|17.3|1520.5||Threshold for significance ≤ 0.01.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant) for atorvastatin 40 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||1520.5|17.3|<0.0001
92298766|NCT01730040|184502328|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|19.8|||<|0.0001|TWO_SIDED|99.0|3.1|126.3||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||126.3|3.1|<0.0001
92298767|NCT01730040|184502328|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.9|||=|0.0002|TWO_SIDED|99.0|2.2|88.1||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||88.1|2.2|=0.0002
92298768|NCT01730040|184502329|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-21.1|||=|0.0004|TWO_SIDED|99.0|-36.3|-5.9||Threshold for significance ≤ 0.01.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant) for atorvastatin 40 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-5.9|-36.3|=0.0004
92298769|NCT01730040|184502329|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.9|||<|0.0001|TWO_SIDED|99.0|-40.2|-11.6||Threshold for significance ≤ 0.01.|Regression, Robust|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.6|-40.2|<0.0001
92298770|NCT01730040|184502329|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-31.0|||<|0.0001|TWO_SIDED|99.0|-45.6|-16.4||Threshold for significance ≤ 0.01.|Regression, Robust|||Analysis description as per the statistical analysis 1 of this endpoint.||-16.4|-45.6|<0.0001
92298771|NCT01730040|184502330|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|||=|0.4456|TWO_SIDED|99.0|-7.0|12.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant) for atorvastatin 40 mg baseline stratification).||12.9|-7.0|=0.4456
92298772|NCT03407612|184502339|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.67|||||||t-test, 2 sided|||This analysis considers the baseline HOS-ADL measures.||||0.67
92298773|NCT03407612|184502339|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.73|||||||t-test, 2 sided|||This analysis considers the 6 week postoperative HOS-ADL measures.||||0.73
92298774|NCT03407612|184502339|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.87|||||||t-test, 2 sided|||This analysis considers the 12 week postoperative HOS-ADL measures.||||0.87
92298775|NCT03407612|184502339|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.78|||||||t-test, 2 sided|||This analysis considers the 6 month postoperative HOS-ADL measures.||||0.78
92298776|NCT03407612|184502340|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.25|||||||t-test, 2 sided|||||||0.25
92298777|NCT03407612|184502341|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.04|||||||t-test, 2 sided|||||||0.04
92298778|NCT00380692|184502357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.7|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-10.0|-3.4||P-value for treatment group differences over time.|Mixed Models Analysis|||||-3.4|-10.0|<0.001
92298779|NCT00380692|184502358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.921||95.0|-0.5|0.4||P-value for treatment differences over time.|Mixed Models Analysis|||||0.4|-0.5|0.921
92298780|NCT00380692|184502359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.61||0.369||95.0|-1.8|0.7||P-value for treatment differences in Oppositional Score at 8 weeks.|ANCOVA|||||0.7|-1.8|0.369
92146398|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.0||||0.494|TWO_SIDED|95.0|-28.0|58.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 24||58|-28|0.494
92298781|NCT00380692|184502359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|0.87||0.024||95.0|-3.7|-0.3||P-value for treatment differences in Hyperactivity score at 8 weeks|ANCOVA|||||-0.3|-3.7|0.024
92298782|NCT00380692|184502359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.51||0.179||95.0|-1.7|0.3||P-value for treatment differences in Cognititve/Attention score at 8 weeks.|ANCOVA|||||0.3|-1.7|0.179
92298783|NCT00380692|184502359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|1.48||0.077||95.0|-5.6|0.3||P-value for treatment differences in ADHD score at 8 weeks|ANCOVA|||||0.3|-5.6|0.077
92298784|NCT00380692|184502361|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.028||95.0|-1.0|-0.1||P-value for treatment differences in Time to fall asleep score at 8 weeks.|ANCOVA|||||-0.1|-1.0|0.028
92298785|NCT00380692|184502361|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.407||95.0|-0.3|0.9||P-value for treatment differences in Difficulty falling asleep score at 8 weeks.|ANCOVA|||||0.9|-0.3|0.407
92298786|NCT00380692|184502361|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.652||95.0|-0.6|0.4||P-value for treatment differences in Total hours of sleep score at 8 weeks.|ANCOVA|||||0.4|-0.6|0.652
92298787|NCT00380692|184502361|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.49||0.112||95.0|-1.7|0.2||P-value for treatment differences in Quality of sleep score at 8 weeks.|ANCOVA|||||0.2|-1.7|0.112
92298788|NCT00380692|184502361|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.87||0.188||95.0|-2.9|0.6||P-value for treatment differences in Functional outcome during day score at 8 weeks.|ANCOVA|||||0.6|-2.9|0.188
92298789|NCT00380692|184502362|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|1.29||0.452||95.0|-3.5|1.6||P-value for treatment differences in Irritability score at 8 weeks.|ANCOVA|||||1.6|-3.5|0.452
92298790|NCT00380692|184502362|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|1.1||0.85||95.0|-2.4|2.0||P-value for treatment differences in Lethargy score at 8 weeks.|ANCOVA|||||2.0|-2.4|0.850
92298791|NCT00380692|184502362|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|0.63||0.014||95.0|-2.8|-0.3||P-value for treatment differences in Stereotypic score at 8 weeks.|ANCOVA|||||-0.3|-2.8|0.014
92298792|NCT00380692|184502362|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.4|STANDARD_ERROR_OF_MEAN|1.68||0.01||95.0|-7.8|-1.1||P-value for treatment differences in Hyperactivity score at 8 weeks.|ANCOVA|||||-1.1|-7.8|0.010
92298793|NCT00380692|184502362|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|0.42||0.045||95.0|-1.7|0.0||P-value for treatment differences in Inappropriate speech score at 8 weeks.|ANCOVA|||||-0.0|-1.7|0.045
92298794|NCT00380692|184502363|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.9|STANDARD_ERROR_OF_MEAN|2.13||0.069||95.0|-8.1|0.3||P-value for treatment differences in Total score at 8 weeks.|ANCOVA|||||0.3|-8.1|0.069
92298795|NCT00380692|184502364|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.64||0.598||95.0|-1.6|0.9||P-value for treatment differences in Total score at 8 weeks.|ANCOVA|||||0.9|-1.6|0.598
92298796|NCT00380692|184502365|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.2|STANDARD_ERROR_OF_MEAN|11.12||0.318||95.0|-33.3|11.0||P-value for treatment differences in Total score at 8 weeks.|ANCOVA|||||11.0|-33.3|0.318
92298797|NCT00380692|184502366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|2.7||0.948||95.0|-5.5|5.2||P-value for treatment differences in Error Rate over time.|Mixed Models Analysis|||||5.2|-5.5|0.948
92298798|NCT00380692|184502366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9|STANDARD_ERROR_OF_MEAN|3.5||0.399||95.0|-9.7|3.9||P-value for Treatment\*Condition Error Rate irrelevant targets over time.|Mixed Models Analysis|||||3.9|-9.7|0.399
92298799|NCT00380692|184502366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.7|STANDARD_DEVIATION|3.1||0.57||95.0|-4.3|7.8||P-value for Treatment\*Condition Error Rate relevant nontargets over time.|Mixed Models Analysis|||||7.8|-4.3|0.570
92298800|NCT00380692|184502367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-61.9|STANDARD_ERROR_OF_MEAN|66.0||0.352||95.0|-193.5|69.8||P-value for Treatment differences in Reaction time over time.|Mixed Models Analysis|||||69.8|-193.5|0.352
92298801|NCT00380692|184502367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-37.1|STANDARD_ERROR_OF_MEAN|62.3||0.553||95.0|-160.3|86.2||P-value for Treatment\*Condition Mean Reaction Time correct rejections irrelevant target over time.|Mixed Models Analysis|||||86.2|-160.3|0.553
92298802|NCT00380692|184502367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.0|STANDARD_ERROR_OF_MEAN|57.7||0.904||95.0|-107.1|121.1||P-value for Treatment\*Condition Mean Reaction Time correct rejections relevant nontarget over time.|Mixed Models Analysis|||||121.1|-107.1|0.904
92298803|NCT00380692|184502368|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.3|STANDARD_ERROR_OF_MEAN|65.9||0.748||95.0|-152.8|110.3||P-value for Treatment differences in Standard Deviation of Reaction Time over time.|Mixed Models Analysis|||||110.3|-152.8|0.748
92298804|NCT00380692|184502368|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-80.9|STANDARD_ERROR_OF_MEAN|77.5||0.299||95.0|-234.3|72.5||P-value for Treatment\*Condition Standard Deviation correct rejections irrelevant target over time.|Mixed Models Analysis|||||72.5|-234.3|0.299
92298805|NCT00380692|184502368|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.6|STANDARD_ERROR_OF_MEAN|67.1||0.84||95.0|-119.3|146.5||P-value for Treatment\*Condition Standard Deviation correct rejections relevant nontarget over time.|Mixed Models Analysis|||||146.5|-119.3|0.840
92298806|NCT00380692|184502369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3|STANDARD_ERROR_OF_MEAN|2.8||0.126||95.0|-1.2|9.9||P-value for Treatment differences in Error Rate over time.|Mixed Models Analysis|||||9.9|-1.2|0.126
92298807|NCT00380692|184502369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|1.7||0.297||95.0|-5.2|1.6||P-value for Treatment\*Error Rate absent over time.|Mixed Models Analysis|||||1.6|-5.2|0.297
92298808|NCT00380692|184502369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.1|STANDARD_ERROR_OF_MEAN|2.1||0.023||95.0|-9.4|-0.7||P-value for Treatment\*Targets Load 1 over time.|Mixed Models Analysis|||||-0.7|-9.4|0.023
92298809|NCT00380692|184502370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-87.2|STANDARD_ERROR_OF_MEAN|71.7||0.228||95.0|-230.4|56.0||P-value for Treatment differences in Reaction Time over time.|Mixed Models Analysis|||||56.0|-230.4|0.228
92298810|NCT00380692|184502370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|87.6|STANDARD_ERROR_OF_MEAN|77.3||0.26||95.0|-65.6|240.8||P-value for Treatment\*Condition Mean Reaction Time correct rejections Load 1 over time.|Mixed Models Analysis|||||240.8|-65.6|0.260
92298811|NCT00380692|184502370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|70.4|STANDARD_ERROR_OF_MEAN|59.5||0.239||95.0|-47.3|188.2||P-value for Treatment\*Condition Mean Reaction Time correct rejections Load 2 over time.|Mixed Models Analysis|||||188.2|-47.3|0.239
92298812|NCT00380692|184502370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|122.7|STANDARD_ERROR_OF_MEAN|80.1||0.128||95.0|-35.9|281.4||P-value for Treatment\*Condition Mean Reaction Time hits Load 1 over time.|Mixed Models Analysis|||||281.4|-35.9|0.128
92298813|NCT00380692|184502371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-175.5|STANDARD_ERROR_OF_MEAN|88.0||0.051||95.0|-351.5|0.5||P-value for Treatment differences in Standard Deviation of Reaction Time over time.|Mixed Models Analysis|||||0.5|-351.5|0.051
92298814|NCT00380692|184502371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|218.1|STANDARD_ERROR_OF_MEAN|90.8||0.018||95.0|38.0|398.2||P-value for Treatment\*Condition Standard Deviation correct rejections Load 1 over time.|Mixed Models Analysis|||||398.2|38.0|0.018
92298815|NCT00380692|184502371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|173.6|STANDARD_ERROR_OF_MEAN|105.6||0.103||95.0|-35.7|383.0||P-value for Treatment\*Condition Standard Deviation correct rejections Load 2 over time.|Mixed Models Analysis|||||383.0|-35.7|0.103
92146399|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.807|TWO_SIDED|95.0|-31.0|40.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 4||40|-31|0.807
92146400|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.0||||0.386|TWO_SIDED|95.0|-20.0|51.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 4||51|-20|0.386
92146401|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.0||||0.089|TWO_SIDED|95.0|-4.8|67.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 4||67|-4.8|0.089
92146402|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.958|TWO_SIDED|95.0|-45.0|43.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 8||43|-45|0.958
92146403|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.0||||0.766|TWO_SIDED|95.0|-37.0|50.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 8||50|-37|0.766
92146404|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|43.0||||0.06||95.0|-1.7|87.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 8||87|-1.7|0.060
92298816|NCT00380692|184502371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|205.5|STANDARD_ERROR_OF_MEAN|99.9||0.042||95.0|7.5|403.6||P-value for Treatment\*Condition Standard Deviation hits Load 1 over time.|Mixed Models Analysis|||||403.6|7.5|0.042
92298817|NCT00380692|184502372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.3|STANDARD_ERROR_OF_MEAN|4.6||0.128||95.0|-16.9|2.3||P-value for Treatment difference in Accuracy over time.|Mixed Models Analysis|||||2.3|-16.9|0.128
92298818|NCT00380692|184502373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|2.4||0.022||95.0|-11.2|-1.0||P-value for Treatment difference in Stability of Movement over time.|Mixed Models Analysis|||||-1.0|-11.2|0.022
92298819|NCT00380692|184502374|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|2.0||0.43||95.0|-2.4|5.7||P-value for Treatment difference in Error Rate over time.|Mixed Models Analysis|||||5.7|-2.4|0.430
92298820|NCT00380692|184502374|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.0|STANDARD_ERROR_OF_MEAN|2.4||0.005||95.0|-11.8|-2.2||P-value for Treatment\*Condition Error Rate irrelevant targets over time.|Mixed Models Analysis|||||-2.2|-11.8|0.005
92298821|NCT00380692|184502375|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.6|STANDARD_ERROR_OF_MEAN|2.9||0.221||95.0|-9.6|2.3||P-value for Treatment differences in Error Rates over time.|Mixed Models Analysis|||||2.3|-9.6|0.221
92298822|NCT00380692|184502375|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.1|STANDARD_ERROR_OF_MEAN|2.0||0.307||95.0|-2.1|6.3||P-value for Treatment\*Condition Error Rates compatible signals over time.|Mixed Models Analysis|||||6.3|-2.1|0.307
92298823|NCT00380692|184502376|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.0|STANDARD_ERROR_OF_MEAN|68.9||0.752||95.0|-163.1|119.1||P-value for Treatment differences in Reaction Time over time.|Mixed Models Analysis|||||119.1|-163.1|0.752
92298824|NCT00380692|184502376|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.6|STANDARD_ERROR_OF_MEAN|31.9||0.564||95.0|-47.0|84.3||P-value for Treatment\*Condition Mean Reaction Time correct rejections Load 2 over time.|Mixed Models Analysis|||||84.3|-47.0|0.564
92298825|NCT02065713|184502430|SUPERIORITY||||||=|0.026|||||||Wilcoxon (Mann-Whitney)|||||||=0.026
92298826|NCT02062801|184502438|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Chi-squared|||||||0.18
92298827|NCT02062801|184502439|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Chi-squared|||||||0.97
92298828|NCT02062801|184502440|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Chi-squared|||||||.56
92298829|NCT00296491|184502445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.2|STANDARD_ERROR_OF_MEAN|5.41|<|0.001||95.0|12.5|33.8|||t-test, 2 sided||Treatment Difference = FSC - MON|||33.8|12.5|<0.001
92146405|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0||||0.678|TWO_SIDED|95.0|-53.0|35.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 12||35|-53|0.678
92146406|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.0||||0.636|TWO_SIDED|95.0|-33.0|54.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 12||54|-33|0.636
92146407|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|38.0||||0.094|TWO_SIDED|95.0|-6.5|83.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 12||83|-6.5|0.094
92146408|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.0||||0.772|TWO_SIDED|95.0|-49.0|37.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 16||37|-49|0.772
92146409|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.0||||0.387|TWO_SIDED|95.0|-24.0|61.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 16||61|-24|0.387
92146410|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.0||||0.243|TWO_SIDED|95.0|-18.0|69.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 16||69|-18|0.243
92146411|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.0||||0.398|TWO_SIDED|95.0|-62.0|25.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 20||25|-62|0.398
92146412|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.0||||0.214|TWO_SIDED|95.0|-16.0|70.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 20||70|-16|0.214
92146413|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.0||||0.526|TWO_SIDED|95.0|-30.0|58.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 20||58|-30|0.526
92146414|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0||||0.671|TWO_SIDED|95.0|-53.0|34.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 24||34|-53|0.671
92146415|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.0||||0.355|TWO_SIDED|95.0|-23.0|64.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 24||64|-23|0.355
92146416|NCT01218126|184177654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.0||||0.781|TWO_SIDED|95.0|-38.0|50.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 24||50|-38|0.781
92146417|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.0||||0.742|TWO_SIDED|95.0|-66.0|93.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 4||93|-66|0.742
92185802|NCT02607956|184270433|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-7.9|3.2|||||Differences in percentages of participants between groups and their 95% CIs were calculated based on MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.2|-7.9|
92185803|NCT02607956|184270433|OTHER|||||||0.41|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.41
92298830|NCT00296491|184502446|NON_INFERIORITY_OR_EQUIVALENCE|Given estimates, and assuming a significance level of a=0.05, a sample size of 133 subjects per treatment was determined to be sufficient to provide 80% power to show equivalance.|Mean Difference (Net)|-8.9|STANDARD_ERROR_OF_MEAN|8.0|<|0.127||95.0|-24.6|6.9|||t-test, 2 sided||Treatment Difference=FSC+MON-FSC|||6.9|-24.6|<0.127
92298831|NCT03347838|184502455|SUPERIORITY||Observed response rate|0.526||||0.03|TWO_SIDED|95.0|0.32|1.0|||Fisher Exact|||The null hypothesis is that the 6-month response rate is less than or equal to 0.3.||1|0.32|0.03
92298832|NCT04706507|184502494|SUPERIORITY|||||||0.098|||||||t-test, 2 sided|||The null hypothesis is that there is no significant difference in the number of respiratory support free days between the active drug arm and the placebo drug arm based on the student's t-test.||||0.098
92298833|NCT04706507|184502495|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.040
92298834|NCT04706507|184502496|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||The null hypothesis is that there is no significant difference in the number of respiratory support free days between the active drug arm and the placebo drug arm based on the student's t-test.||||0.130
92298835|NCT04706507|184502497|SUPERIORITY||Hazard Ratio (HR)|2.65||||0.003|TWO_SIDED|95.0|1.4|5.02|||Regression, Cox||The placebo arm is the comparison arm (denominator). The incidence rate uses the person-years at risk for each of the study arms.|The null hypothesis is that there is no difference between the two arms. The placebo arm is the comparison group.||5.02|1.40|0.003
92298836|NCT04706507|184502498|SUPERIORITY||Hazard Ratio (HR)|2.21||||0.002|TWO_SIDED|95.0|1.32|3.68|||Regression, Cox||The placebo arm is the comparison arm (denominator). The incidence rate uses the person-years at risk for each of the study arms.|the null hypothesis is that there is no difference between the two arms. The placebo group is the comparator group.||3.68|1.32|0.002
92298837|NCT04706507|184502499|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||||||0.83
92298838|NCT04706507|184502500|SUPERIORITY|||||||0.457|||||||t-test, 2 sided|||||||0.457
92146418|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-30.0||||0.446|TWO_SIDED|95.0|-109.0|48.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 4||48|-109|0.446
92146419|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|57.0||||0.157|TWO_SIDED|95.0|-22.0|137.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 4||137|-22|0.157
92146420|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0||||0.826|TWO_SIDED|95.0|-93.0|74.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 8||74|-93|0.826
92185804|NCT02607956|184270434|OTHER||Difference in Percentages|-1.9|||||TWO_SIDED|95.0|-7.8|3.9|||||Differences in percentages of participants between groups and their 95% CIs were calculated based on MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.9|-7.8|
92185805|NCT02607956|184270434|OTHER|||||||0.52|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.52
92298839|NCT04706507|184502502|SUPERIORITY|||||||0.037|||||||t-test, 2 sided|||The null hypothesis is that there is no significant difference in the number of ICU free days between the active drug arm and the placebo drug arm based on the student's t-test.||||0.037
92298840|NCT04706507|184502503|SUPERIORITY||||||<|0.001||||||This analysis evaluated any level of CMV reactivation.|Fine-Gray competing risks regression|This analysis will include death as a competing risk if it occurs on the same day of the last negative CMV test date.||||||<0.001
92298841|NCT04706507|184502503|SUPERIORITY|||||||0.3||||||This analysis evaluate CMV reactivation \> 1000 UI/mL.|Fine-Gray competing risks regression|This analysis will include death as a competing risk if it occurs on the same day of the last negative CMV test date.||||||0.3
92298842|NCT02310763|184502526|SUPERIORITY||Mean Difference (Net)|1.293|STANDARD_ERROR_OF_MEAN|1.022||0.2088|TWO_SIDED|95.0|-0.7343|3.32||The significance level is 0.05.|ANCOVA||Least square mean difference was calculated by placebo minus domagrozumab.|||3.3200|-0.7343|0.2088
92298843|NCT02310763|184502530|SUPERIORITY||Mean Difference (Net)|-0.0845||||0.9191|TWO_SIDED|95.0|-1.7354|1.5663||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||1.5663|-1.7354|0.9191
92298844|NCT02310763|184502530|SUPERIORITY||Mean Difference (Net)|0.5837||||0.7642|TWO_SIDED|95.0|-3.2978|4.4652||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||4.4652|-3.2978|0.7642
92298845|NCT02310763|184502530|SUPERIORITY||Mean Difference (Net)|0.2712||||0.9423|TWO_SIDED|95.0|-7.3799|7.9223||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||7.9223|-7.3799|0.9423
92298846|NCT02310763|184502531|SUPERIORITY||Mean Difference (Net)|0.0||||0.9993|TWO_SIDED|95.0|-0.0693|0.0693||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||0.0693|-0.0693|0.9993
92298847|NCT02310763|184502531|SUPERIORITY||Mean Difference (Net)|-0.0259||||0.5464|TWO_SIDED|95.0|-0.1107|0.0589||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||0.0589|-0.1107|0.5464
92298848|NCT02310763|184502531|SUPERIORITY||Mean Difference (Net)|-0.042||||0.3041|TWO_SIDED|95.0|-0.1227|0.0386||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||0.0386|-0.1227|0.3041
92298849|NCT02310763|184502532|SUPERIORITY||Mean Difference (Net)|0.8||||0.3522|TWO_SIDED|95.0|-0.9|2.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||2.5|-0.9|0.3522
92298850|NCT02310763|184502532|SUPERIORITY||Mean Difference (Net)|2.5||||0.0061|TWO_SIDED|95.0|0.7|4.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||4.2|0.7|0.0061
92298851|NCT02310763|184502532|SUPERIORITY|Week 49|Mean Difference (Net)|1.6||||0.1268|TWO_SIDED|95.0|-0.5|3.8||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|||3.8|-0.5|0.1268
92298852|NCT02310763|184502533|SUPERIORITY||Mean Difference (Net)|-0.4||||0.7337|TWO_SIDED|95.0|-2.9|2.1||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left ankle, Week 17||2.1|-2.9|0.7337
92298853|NCT02310763|184502533|SUPERIORITY||Mean Difference (Net)|0.2||||0.8893|TWO_SIDED|95.0|-2.4|2.7||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left ankle, Week 33||2.7|-2.4|0.8893
92298854|NCT02310763|184502533|SUPERIORITY||Mean Difference (Net)|-1.5||||0.2939|TWO_SIDED|95.0|-4.3|1.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left ankle, Week 49||1.3|-4.3|0.2939
92298855|NCT02310763|184502533|SUPERIORITY||Mean Difference (Net)|0.8||||0.5995|TWO_SIDED|95.0|-2.1|3.6||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right ankle, Week 17||3.6|-2.1|0.5995
92298856|NCT02310763|184502533|SUPERIORITY||Mean Difference (Net)|2.9||||0.0385|TWO_SIDED|95.0|0.2|5.6||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right ankle, Week 33||5.6|0.2|0.0385
92298857|NCT02310763|184502533|SUPERIORITY||Mean Difference (Net)|0.0||||0.9927|TWO_SIDED|95.0|-3.3|3.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right ankle, Week 49||3.2|-3.3|0.9927
92298858|NCT02310763|184502534|SUPERIORITY||Mean Difference (Net)|-0.3||||0.6049|TWO_SIDED|95.0|-1.7|1.0||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||1.0|-1.7|0.6049
92298859|NCT02310763|184502534|SUPERIORITY||Mean Difference (Net)|1.7||||0.2065|TWO_SIDED|95.0|-1.0|4.4||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||4.4|-1.0|0.2065
92298860|NCT02310763|184502534|SUPERIORITY||Mean Difference (Net)|0.0||||0.9391|TWO_SIDED|95.0|-1.3|1.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||1.2|-1.3|0.9391
92146421|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.0||||0.773||95.0|-95.0|70.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 8||70|-95|0.773
92146422|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|47.0||||0.277|TWO_SIDED|95.0|-38.0|131.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 8||131|-38|0.277
92185806|NCT02607956|184270435|OTHER||Difference in Percentages|-3.9|||||TWO_SIDED|95.0|-9.4|1.5|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||1.5|-9.4|
92298861|NCT02310763|184502535|SUPERIORITY||Mean Difference (Net)|1.8||||0.8499|TWO_SIDED|95.0|-16.7|20.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||20.3|-16.7|0.8499
92298862|NCT02310763|184502535|SUPERIORITY||Mean Difference (Net)|8.9||||0.4008|TWO_SIDED|95.0|-12.0|29.8||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||29.8|-12.0|0.4008
92298863|NCT02310763|184502535|SUPERIORITY||Mean Difference (Net)|-1.5||||0.916|TWO_SIDED|95.0|-30.0|27.0||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||27.0|-30.0|0.9160
92298864|NCT02310763|184502536|SUPERIORITY||Mean Difference (Net)|0.115||||0.5726|TWO_SIDED|95.0|-0.287|0.517||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow extension, Week 17||0.517|-0.287|0.5726
92298865|NCT02310763|184502536|SUPERIORITY||Mean Difference (Net)|-0.163||||0.4334|TWO_SIDED|95.0|-0.574|0.248||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow extension, Week 33||0.248|-0.574|0.4334
92298866|NCT02310763|184502536|SUPERIORITY||Mean Difference (Net)|-0.126||||0.5767|TWO_SIDED|95.0|-0.573|0.321||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow extension, Week 49||0.321|-0.573|0.5767
92298867|NCT02310763|184502536|SUPERIORITY||Mean Difference (Net)|-0.022||||0.9274|TWO_SIDED|95.0|-0.489|0.446||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow extension, Week 17||0.446|-0.489|0.9274
92298868|NCT02310763|184502536|SUPERIORITY||Mean Difference (Net)|-0.439||||0.0469|TWO_SIDED|95.0|-0.872|-0.006||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow extension, Week 33||-0.006|-0.872|0.0469
92298869|NCT02310763|184502536|SUPERIORITY||Mean Difference (Net)|-0.166||||0.4362|TWO_SIDED|95.0|-0.587|0.255||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow extension, Week 49||0.255|-0.587|0.4362
92298870|NCT02310763|184502537|SUPERIORITY||Mean Difference (Net)|-0.156||||0.5557|TWO_SIDED|95.0|-0.679|0.367||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow flexion, Week 17||0.367|-0.679|0.5557
92298871|NCT02310763|184502537|SUPERIORITY||Mean Difference (Net)|-0.303||||0.2669|TWO_SIDED|95.0|-0.841|0.235||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow flexion, Week 33||0.235|-0.841|0.2669
92298872|NCT02310763|184502537|SUPERIORITY||Mean Difference (Net)|-0.161||||0.4665|TWO_SIDED|95.0|-0.598|0.276||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow flexion, Week 49||0.276|-0.598|0.4665
92298873|NCT02310763|184502537|SUPERIORITY||Mean Difference (Net)|-0.083||||0.7335|TWO_SIDED|95.0|-0.564|0.399||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow flexion, Week 17||0.399|-0.564|0.7335
92298874|NCT02310763|184502537|SUPERIORITY||Mean Difference (Net)|-0.361||||0.1695|TWO_SIDED|95.0|-0.877|0.156||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow flexion, Week 33||0.156|-0.877|0.1695
92298875|NCT02310763|184502537|SUPERIORITY||Mean Difference (Net)|-0.189||||0.3783|TWO_SIDED|95.0|-0.612|0.234||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow flexion, Week 49||0.234|-0.612|0.3783
92298876|NCT02310763|184502538|SUPERIORITY||Mean Difference (Net)|-0.586||||0.1078|TWO_SIDED|95.0|-1.303|0.13||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left hip abduction, Week 17||0.130|-1.303|0.1078
92298877|NCT02310763|184502538|SUPERIORITY||Mean Difference (Net)|0.046||||0.8967|TWO_SIDED|95.0|-0.654|0.746||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left hip abduction, Week 33||0.746|-0.654|0.8967
92298878|NCT02310763|184502538|SUPERIORITY||Mean Difference (Net)|-0.378||||0.3196|TWO_SIDED|95.0|-1.128|0.371||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left hip abduction, Week 49||0.371|-1.128|0.3196
92298879|NCT02310763|184502538|SUPERIORITY||Mean Difference (Net)|-0.689||||0.0526|TWO_SIDED|95.0|-1.386|0.008||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right hip abduction, Week 17||0.008|-1.386|0.0526
92298880|NCT02310763|184502538|SUPERIORITY||Mean Difference (Net)|-0.336||||0.3739|TWO_SIDED|95.0|-1.082|0.41||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right hip abduction, Week 33||0.410|-1.082|0.3739
92298881|NCT02310763|184502538|SUPERIORITY||Mean Difference (Net)|-0.322||||0.4019|TWO_SIDED|95.0|-1.079|0.436||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right hip abduction, Week 49||0.436|-1.079|0.4019
92146423|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|45.0||||0.319|TWO_SIDED|95.0|-43.0|132.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 12||132|-43|0.319
92185807|NCT02607956|184270435|OTHER|||||||0.16|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.16
92185808|NCT02607956|184270436|OTHER||Difference in Percentages|-2.5|||||TWO_SIDED|95.0|-8.8|3.8|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.8|-8.8|
92185809|NCT02607956|184270436|OTHER|||||||0.44|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.44
92185810|NCT02607956|184270437|OTHER||Difference in Percentages|-1.1|||||TWO_SIDED|95.0|-7.4|5.3|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||5.3|-7.4|
92185811|NCT02607956|184270437|OTHER|||||||0.74|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.74
92185812|NCT02607956|184270438|OTHER||Difference in LSM|0.08||||0.081|TWO_SIDED|95.0|-0.01|0.17|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in least-squares mean (LSM), and its 95% confidence interval (CI) were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.17|-0.01|0.081
92298882|NCT02310763|184502539|SUPERIORITY||Mean Difference (Net)|-0.107||||0.7676|TWO_SIDED|95.0|-0.825|0.61||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left knee extension, Week 17||0.610|-0.825|0.7676
92298883|NCT02310763|184502539|SUPERIORITY||Mean Difference (Net)|-0.322||||0.4127|TWO_SIDED|95.0|-1.098|0.454||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left knee extension, Week 33||0.454|-1.098|0.4127
92298884|NCT02310763|184502539|SUPERIORITY||Mean Difference (Net)|0.113||||0.7815|TWO_SIDED|95.0|-0.693|0.919||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left knee extension, Week 49||0.919|-0.693|0.7815
92298885|NCT02310763|184502539|SUPERIORITY||Mean Difference (Net)|-0.236||||0.4975|TWO_SIDED|95.0|-0.924|0.451||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right knee extension, Week 17||0.451|-0.924|0.4975
92298886|NCT02310763|184502539|SUPERIORITY||Mean Difference (Net)|-0.467||||0.2646|TWO_SIDED|95.0|-1.294|0.359||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right knee extension, Week 33||0.359|-1.294|0.2646
92298887|NCT02310763|184502539|SUPERIORITY||Mean Difference (Net)|-0.149||||0.732|TWO_SIDED|95.0|-1.008|0.71||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right knee extension, Week 49||0.710|-1.008|0.7320
92146424|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.0||||0.716|TWO_SIDED|95.0|-71.0|103.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 12||103|-71|0.716
92298888|NCT02310763|184502540|SUPERIORITY||Mean Difference (Net)|-0.044||||0.8569|TWO_SIDED|95.0|-0.525|0.437||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left shoulder abduction, Week 17||0.437|-0.525|0.8569
92298889|NCT02310763|184502540|SUPERIORITY||Mean Difference (Net)|-0.154||||0.5495|TWO_SIDED|95.0|-0.663|0.355||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left shoulder abduction, Week 33||0.355|-0.663|0.5495
92298890|NCT02310763|184502540|SUPERIORITY||Mean Difference (Net)|-0.023||||0.934|TWO_SIDED|95.0|-0.566|0.521||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left shoulder abduction, Week 49||0.521|-0.566|0.9340
92298891|NCT02310763|184502540|SUPERIORITY||Mean Difference (Net)|-0.236||||0.3279|TWO_SIDED|95.0|-0.711|0.239||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right shoulder abduction, Week 17||0.239|-0.711|0.3279
92298892|NCT02310763|184502540|SUPERIORITY||Mean Difference (Net)|-0.757||||0.0086|TWO_SIDED|95.0|-1.318|-0.196||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right shoulder abduction, Week 33||-0.196|-1.318|0.0086
92298893|NCT02310763|184502540|SUPERIORITY||Mean Difference (Net)|-0.439||||0.2328|TWO_SIDED|95.0|-1.165|0.286||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right shoulder abduction, Week 49||0.286|-1.165|0.2328
92298894|NCT02310763|184502541|EQUIVALENCE|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|0.211||||0.8908|TWO_SIDED|95.0|-2.8353|3.2573|||Mixed Models Analysis||Mean difference was calculated by Sequence 3 minus natural history control group.|||3.2573|-2.8353|0.8908
92298895|NCT02310763|184502542|SUPERIORITY|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|0.819||||0.4748|TWO_SIDED|95.0|-1.4514|3.0895|||Mixed Models Analysis||Mean difference was calculated by Sequence 1 minus natural history control group.|||3.0895|-1.4514|0.4748
92298896|NCT02310763|184502543|EQUIVALENCE|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|0.0097||||0.807|TWO_SIDED|95.0|-0.0692|0.0887|||Mixed Models Analysis||Mean difference was calculated by Sequence 3 minus natural history control group.|||0.0887|-0.0692|0.8070
92298897|NCT02310763|184502544|SUPERIORITY|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|0.0506||||0.3643|TWO_SIDED|95.0|-0.0594|0.1607|||Mixed Models Analysis||Mean difference was calculated by Sequence 1 minus natural history control group.|||0.1607|-0.0594|0.3643
92298898|NCT02310763|184502545|EQUIVALENCE|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|-2.9||||0.0483|TWO_SIDED|95.0|-5.7|0.0|||Mixed Models Analysis||Mean difference was calculated by Sequence 3 minus natural history control group.|||0|-5.7|0.0483
92298899|NCT02310763|184502546|SUPERIORITY|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|-3.9||||0.0146|TWO_SIDED|95.0|-7.0|-0.8|||Mixed Models Analysis||Mean difference was calculated by Sequence 1 minus natural history control group.|||-0.8|-7.0|0.0146
92298900|NCT02310763|184502547|EQUIVALENCE|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|-31.6||||0.1669|TWO_SIDED|95.0|-76.9|13.6|||Mixed Models Analysis||Mean difference was calculated by Sequence 3 minus natural history control group.|||13.6|-76.9|0.1669
92298901|NCT02310763|184502548|SUPERIORITY|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|-66.3||||0.0267|TWO_SIDED|95.0|-124.5|-8.1|||Mixed Models Analysis||Mean difference was calculated by Sequence 1 minus natural history control group.|||-8.1|-124.5|0.0267
92185813|NCT02607956|184270439|OTHER||Difference in LSM|0.06||||0.18|TWO_SIDED|95.0|-0.03|0.15|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.15|-0.03|0.18
92185814|NCT02607956|184270440|OTHER||Difference in LSM|0.09||||0.054|TWO_SIDED|95.0|0.0|0.18|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.18|0.00|0.054
92298902|NCT02310763|184502549|SUPERIORITY||Mean Difference (Net)|-0.0692||||0.7033|TWO_SIDED|95.0|-0.4345|0.2961||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.2961|-0.4345|0.7033
92298903|NCT02310763|184502549|SUPERIORITY||Mean Difference (Net)|0.2114||||0.6893|TWO_SIDED|95.0|-0.8472|1.27||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||1.27|-0.8472|0.6893
92298904|NCT02310763|184502549|SUPERIORITY||Mean Difference (Net)|-2.6439||||0.6469|TWO_SIDED|95.0|-14.4292|9.1414||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||9.1414|-14.4292|0.6469
92298905|NCT02310763|184502550|SUPERIORITY||Mean Difference (Net)|-0.3289||||0.1353|TWO_SIDED|95.0|-0.7649|0.1072||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.1072|-0.7649|0.1353
92298906|NCT02310763|184502550|SUPERIORITY||Mean Difference (Net)|0.3457||||0.7648|TWO_SIDED|95.0|-1.9614|2.6528||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||2.6528|-1.9614|0.7648
92298907|NCT02310763|184502550|SUPERIORITY||Mean Difference (Net)|8.2893||||0.3562|TWO_SIDED|95.0|-9.6409|26.2194||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||26.2194|-9.6409|0.3562
92298908|NCT02310763|184502551|SUPERIORITY||Mean Difference (Net)|-0.5582||||0.1163||95.0|-1.2615|0.1451||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.1451|-1.2615|0.1163
92298909|NCT02310763|184502551|SUPERIORITY||Mean Difference (Net)|0.0944||||0.9503|TWO_SIDED|95.0|-3.0798|3.2686||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||3.2686|-3.0798|0.9503
92298910|NCT02310763|184502551|SUPERIORITY||Mean Difference (Net)|-11.2881||||0.2947|TWO_SIDED|95.0|-32.8328|10.2566||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||10.2566|-32.8328|0.2947
92298911|NCT02310763|184502552|SUPERIORITY||Mean Difference (Net)|0.0159||||0.8229|TWO_SIDED|95.0|-0.127|0.1588||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.1588|-0.1270|0.8229
92298912|NCT02310763|184502552|SUPERIORITY||Mean Difference (Net)|-0.0132||||0.7709|TWO_SIDED|95.0|-0.1036|0.0772||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||0.0772|-0.1036|0.7709
92298913|NCT02310763|184502552|SUPERIORITY||Mean Difference (Net)|0.0889||||0.3746|TWO_SIDED|95.0|-0.1219|0.2996||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||0.2996|-0.1219|0.3746
92298914|NCT02310763|184502553|SUPERIORITY||Mean Difference (Net)|-0.0934||||0.2294|TWO_SIDED|95.0|-0.2481|0.0613||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.0613|-0.2481|0.2294
92298915|NCT02310763|184502553|SUPERIORITY||Mean Difference (Net)|-0.0117||||0.8485|TWO_SIDED|95.0|-0.1339|0.1105||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||0.1105|-0.1339|0.8485
92146425|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|75.0||||0.098|TWO_SIDED|95.0|-14.0|163.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 12||163|-14|0.098
92298916|NCT02310763|184502553|SUPERIORITY||Mean Difference (Net)|0.0562||||0.6645|TWO_SIDED|95.0|-0.2187|0.3312||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||0.3312|-0.2187|0.6645
92298917|NCT02310763|184502554|SUPERIORITY||Mean Difference (Net)|-0.1013||||0.2101|TWO_SIDED|95.0|-0.2622|0.0597||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.0597|-0.2622|0.2101
92298918|NCT02310763|184502554|SUPERIORITY||Mean Difference (Net)|-0.0359||||0.4603|TWO_SIDED|95.0|-0.1326|0.0608||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||0.0608|-0.1326|0.4603
92298919|NCT02310763|184502554|SUPERIORITY||Mean Difference (Net)|0.1039||||0.3739|TWO_SIDED|95.0|-0.1386|0.3463||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||0.3463|-0.1386|0.3739
92298920|NCT02310763|184502555|SUPERIORITY||Mean Difference (Net)|-0.3||||0.8925|TWO_SIDED|95.0|-4.5|3.9||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||3.9|-4.5|0.8925
92298921|NCT02310763|184502555|SUPERIORITY||Mean Difference (Net)|1.2||||0.2107|TWO_SIDED|95.0|-0.7|3.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||3.2|-0.7|0.2107
92298922|NCT02310763|184502555|SUPERIORITY||Mean Difference (Net)|1.3||||0.2298|TWO_SIDED|95.0|-0.9|3.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||3.5|-0.9|0.2298
92298923|NCT02310763|184502556|SUPERIORITY||Mean Difference (Net)|3.5||||0.0554|TWO_SIDED|95.0|-0.1|7.1||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||7.1|-0.1|0.0554
92146426|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.0||||0.832|TWO_SIDED|95.0|-80.0|100.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 16||100|-80|0.832
92185815|NCT02607956|184270441|OTHER||Difference in LSM|-23.0||||0.096|TWO_SIDED|95.0|-49.0|4.0|||ANOVA|P-value was adjusted by the baseline HIV-1 RNA and region stratum.|Difference in LSM, and its 95% CI were adjusted by the baseline HIV-1 RNA and region stratum.|||4|-49|0.096
92298924|NCT02310763|184502556|SUPERIORITY||Mean Difference (Net)|1.6||||0.2027|TWO_SIDED|95.0|-0.9|4.0||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||4.0|-0.9|0.2027
92298925|NCT02310763|184502556|SUPERIORITY||Mean Difference (Net)|2.9||||0.0926|TWO_SIDED|95.0|-0.5|6.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||6.3|-0.5|0.0926
92298926|NCT02310763|184502557|SUPERIORITY||Mean Difference (Net)|2.0||||0.3597|TWO_SIDED|95.0|-2.4|6.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||6.3|-2.4|0.3597
92298927|NCT02310763|184502557|SUPERIORITY||Mean Difference (Net)|0.5||||0.7345|TWO_SIDED|95.0|-2.3|3.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||3.3|-2.3|0.7345
92298928|NCT02310763|184502557|SUPERIORITY||Mean Difference (Net)|4.0||||0.032|TWO_SIDED|95.0|0.4|7.7||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||7.7|0.4|0.0320
92298929|NCT02310763|184502558|SUPERIORITY||Mean Difference (Net)|1.2||||0.3345|TWO_SIDED|95.0|-1.3|3.8||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||3.8|-1.3|0.3345
92298930|NCT02310763|184502558|SUPERIORITY||Mean Difference (Net)|-1.2||||0.14|TWO_SIDED|95.0|-2.9|0.4||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||0.4|-2.9|0.1400
92298931|NCT02310763|184502558|SUPERIORITY||Mean Difference (Net)|-0.9||||0.6764|TWO_SIDED|95.0|-5.4|3.6||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||3.6|-5.4|0.6764
92298932|NCT02310763|184502559|SUPERIORITY||Mean Difference (Net)|6.5||||0.097|TWO_SIDED|95.0|-1.2|14.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||14.2|-1.2|0.0970
92298933|NCT02310763|184502559|SUPERIORITY||Mean Difference (Net)|-0.3||||0.6919|TWO_SIDED|95.0|-1.9|1.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||1.3|-1.9|0.6919
92298934|NCT02310763|184502559|SUPERIORITY||Mean Difference (Net)|-1.0||||0.6736|TWO_SIDED|95.0|-5.8|3.9||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||3.9|-5.8|0.6736
92298935|NCT02310763|184502560|SUPERIORITY||Mean Difference (Net)|0.0||||0.9582|TWO_SIDED|95.0|-1.5|1.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||1.5|-1.5|0.9582
92298936|NCT02310763|184502560|SUPERIORITY||Mean Difference (Net)|-0.1||||0.8629|TWO_SIDED|95.0|-1.8|1.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||1.5|-1.8|0.8629
92298937|NCT02310763|184502560|SUPERIORITY||Mean Difference (Net)|-0.9||||0.6746|TWO_SIDED|95.0|-5.5|3.7||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||3.7|-5.5|0.6746
92298938|NCT02310763|184502561|SUPERIORITY||Mean Difference (Net)|-5.8||||0.7483|TWO_SIDED|95.0|-42.4|30.7||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||30.7|-42.4|0.7483
92185816|NCT02607956|184270442|OTHER||Difference in LSM|-47.0||||0.008|TWO_SIDED|95.0|-81.0|-12.0|||ANOVA|P-value was adjusted by the baseline HIV-1 RNA and region stratum.|Difference in LSM, and its 95% CI were adjusted by the baseline HIV-1 RNA and region stratum.|||-12|-81|0.008
92185817|NCT02607956|184270443|OTHER||Difference in LSM|-14.0||||0.48|TWO_SIDED|95.0|-52.0|25.0|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||25|-52|0.48
92298939|NCT02310763|184502561|SUPERIORITY||Mean Difference (Net)|-1.3||||0.9053|TWO_SIDED|95.0|-23.9|21.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||21.2|-23.9|0.9053
92298940|NCT02310763|184502561|SUPERIORITY||Mean Difference (Net)|13.1||||0.6896|TWO_SIDED|95.0|-53.4|79.7||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||79.7|-53.4|0.6896
92298941|NCT02310763|184502562|SUPERIORITY||Mean Difference (Net)|-3.7||||0.8117|TWO_SIDED|95.0|-34.8|27.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||27.5|-34.8|0.8117
92298942|NCT02310763|184502562|SUPERIORITY||Mean Difference (Net)|7.3||||0.6018|TWO_SIDED|95.0|-20.6|35.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||35.2|-20.6|0.6018
92298943|NCT02310763|184502562|SUPERIORITY||Mean Difference (Net)|16.3||||0.7152|TWO_SIDED|95.0|-73.4|106.0||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||106.0|-73.4|0.7152
92298944|NCT02310763|184502563|SUPERIORITY||Mean Difference (Net)|7.0||||0.719|TWO_SIDED|95.0|-32.1|46.1||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||46.1|-32.1|0.7190
92298945|NCT02310763|184502563|SUPERIORITY||Mean Difference (Net)|-15.8||||0.4634|TWO_SIDED|95.0|-58.9|27.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||27.3|-58.9|0.4634
92298946|NCT02310763|184502563|SUPERIORITY||Mean Difference (Net)|3.9||||0.94|TWO_SIDED|95.0|-100.7|108.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||108.5|-100.7|0.9400
92185818|NCT00090519|184270465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.969|TWO_SIDED|95.0|-0.714|0.686|||ANOVA|||||0.686|-0.714|0.969
92298947|NCT02310763|184502567|SUPERIORITY||Mean Difference (Net)|2.945||||0.0087|TWO_SIDED|95.0|0.7597|5.1309||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||5.1309|0.7597|0.0087
92185819|NCT00090519|184270466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09||||0.015|TWO_SIDED|95.0|0.21|1.97||P-value is for change from baseline.|ANCOVA|||||1.97|0.21|0.015
92185820|NCT00090519|184270467|SUPERIORITY_OR_OTHER|||||||0.577||95.0||||P-value is for first occurrence of focal/grid photocoagulation yes versus no.|Chi-squared|||||||0.577
92298948|NCT02310763|184502567|SUPERIORITY||Mean Difference (Net)|2.918||||0.0536|TWO_SIDED|95.0|-0.0461|5.8811||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||5.8811|-0.0461|0.0536
92298949|NCT02310763|184502567|SUPERIORITY||Mean Difference (Net)|4.087||||0.0298|TWO_SIDED|95.0|0.4069|7.7677||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||7.7677|0.4069|0.0298
92298950|NCT02310763|184502568|SUPERIORITY||Mean Difference (Net)|1.575||||0.0684|TWO_SIDED|95.0|-0.1213|3.2715||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||3.2715|-0.1213|0.0684
92298951|NCT02310763|184502568|SUPERIORITY||Mean Difference (Net)|2.612||||0.0376|TWO_SIDED|95.0|0.1521|5.0711||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||5.0711|0.1521|0.0376
92298952|NCT02310763|184502568|SUPERIORITY||Mean Difference (Net)|3.208||||0.0411|TWO_SIDED|95.0|0.1318|6.2844||The significance level is 0.05|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||6.2844|0.1318|0.0411
92298953|NCT03396874|184502625|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|PPV|87.3|||<|1e-07|TWO_SIDED|95.0|81.58|100.0||The exact p-value cannot be entered as it is equal to 2.2e-16.|Exact binomial proportion test|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)||We determined the positive predictive value (PPV) (true positives / (true positives + false positives)) of 68Ga-PSMA-11 PET for presence or absence of prostate cancer confirmed by histopathology on a per-patient basis. On a per-patient basis, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100.00|81.58|<0.0000001
92298954|NCT03396874|184502626|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|PPV|92.3|||<|1e-07|TWO_SIDED|95.0|90.0|100.0||Per patient basis p-value = 2.2e-16|binomial proportion test|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)||PPV, composite standard, per-patient basis: We determined the positive predictive value (PPV) of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy where available. On a per-patient basis, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100|90.0|<0.0000001
92298955|NCT03396874|184502626|OTHER|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|95.29|||<|1e-07|TWO_SIDED|95.0|93.3|100.0||Per patient basis p-value = 2.2e-16|Sensitivity|||Sensitivity, composite standard, per-patient basis: We determined the sensitivity of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy (composite standard of truth). On a per-patient basis, the sensitivity of conventional imaging ranges between 30-50%. The null hypothesis is that the sensitivity at 50% will be tested against the alternative hypothesis that the sensitivity is greater than 50%.||100.00|93.3|<0.0000001
92298956|NCT03396874|184502626|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|91.1|||<|1e-07|TWO_SIDED|95.0|86.2|100.0||p-value = 2.2e-16|Exact binomial proportion test|||PPV, composite standard, prostate or prostate bed: PPV of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy where available (composite standard of truth). In the prostate or prostate bed, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100.00|86.2|<0.0000001
92298957|NCT03396874|184502626|OTHER|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|91.72|||<|1e-07|TWO_SIDED|95.0|86.74|100.0||p-value = 2.2e-16 Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Exact binomial proportion test|||Sensitivity, composite standard, prostate/prostate bed: We determined the sensitivity of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy (composite standard of truth). In the prostate or prostate bed, the sensitivity of conventional imaging ranges between 30-50%. The null hypothesis is that the sensitivity at 50% will be tested against the alternative hypothesis that the sensitivity is greater than 50%.||100.00|86.74|<0.0000001
92298958|NCT03396874|184502626|OTHER|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|PPV|90.78|||<|1e-07|TWO_SIDED|95.0|85.74|100.0||p-value = 2.2e-16|Exact binomial proportion test|||PPV, composite standard, pelvic lymph nodes: PPV of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy where available (composite standard of truth). In the prostate or prostate bed, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100.00|85.74|<0.0000001
92298959|NCT03396874|184502626|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|96.97|||<|1e-07|TWO_SIDED|95.0|93.2|100.0||p-value = 2.2e-16|Exact binomial proportion test|||Sensitivity, composite standard, pelvic lymph nodes: We determined the sensitivity of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy (composite standard of truth). In pelvic lymph nodes, the sensitivity of conventional imaging ranges between 30-50%. The null hypothesis is that the sensitivity at 50% will be tested against the alternative hypothesis that the sensitivity is greater than 50%.||100.00|93.20|<0.0000001
92298960|NCT03396874|184502626|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|PPV|91.25|||<|1e-07|TWO_SIDED|95.0|84.19|100.0||p-value = 2.9e-15|Exact binomial proportion test|||PPV, composite standard, soft tissues: PPV of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy where available (composite standard of truth). In soft tissues, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100.00|84.19|<0.0000001
92298961|NCT03396874|184502626|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|93.59|||<|1e-07|TWO_SIDED|95.0|86.99|100.0||p-value = 2.2e-16|Exact binomial proportion test|||Sensitivity, composite standard, soft tissues: We determined the sensitivity of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy (composite standard of truth). In soft tissues, the sensitivity of conventional imaging ranges between 30-50%. The null hypothesis is that the sensitivity at 50% will be tested against the alternative hypothesis that the sensitivity is greater than 50%.||100.00|86.99|<0.0000001
92298962|NCT03396874|184502626|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|PPV|95.17|||<|1e-07|TWO_SIDED|95.0|91.12|100.0||p-value = 2.2e-16|Exact binomial proportion test|||PPV, composite standard, bone: PPV of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy where available (composite standard of truth). In bone tissues, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100.00|91.12|<0.0000001
92298963|NCT03396874|184502626|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|100.0|||<|1e-07|TWO_SIDED|95.0|97.85|100.0||p-value = 2.2e-16|Exact binomial proportion test|||Sensitivity, composite standard, bone: We determined the sensitivity of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy (composite standard of truth). In bone, the sensitivity of conventional imaging ranges between 30-50%. The null hypothesis is that the sensitivity at 50% will be tested against the alternative hypothesis that the sensitivity is greater than 50%.||100.00|97.85|<0.0000001
92298964|NCT02563769|184502727|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
92146427|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|25.0||||0.579|TWO_SIDED|95.0|-64.0|114.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 16||114|-64|0.579
92185821|NCT00090519|184270468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.041|TWO_SIDED|95.0|0.02|0.87||P-value is for change from baseline.|ANCOVA|||||0.87|0.02|0.041
92185822|NCT00090519|184270469|SUPERIORITY_OR_OTHER|||||||0.475||95.0||||P-value is for progression of nonproliferative diabetic retinopathy (DR) by seven-field stereo fundus photography progression versus no progression.|Chi-squared|||||||0.475
92185823|NCT00090519|184270470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.52||||0.211|TWO_SIDED|95.0|-0.87|3.92||P-value is for change from baseline.|ANCOVA|||||3.92|-0.87|0.211
92298965|NCT02563769|184502727|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
92298966|NCT02598895|184502731|OTHER|||||||||||||||||The primary efficacy endpoint was percent patients achieving PSA decline of 50% or more from baseline (PSA50), assessed in the time prior to disease progression, unacceptable toxicity or 1 year after the last study medication. The historical comparison was PSA50 of 26%. The target response rate was 60%. The study followed an optimal two-stage Simon design (Simon, 1989) where the null hypothesis that the true PSA response rate PSA50 was 0.26 was tested against a one-sided alternative.|See above|||
92298967|NCT01523587|184502742|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.814||||0.0103|TWO_SIDED|95.0|0.693|0.956||P-value from log-rank stratified by Race (two-sided). Hazard ratio (Afatinib vs Erlotinib) from Cox proportional hazards model stratified by Race.|Log Rank|||A Cox proportional hazards model without the randomization stratification variable was used for each subgroup category, along with the corresponding log-rank test.||0.956|0.693|0.0103
92298968|NCT01523587|184502743|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.841||||0.0193|TWO_SIDED|95.0|0.727|0.973||P-value from log-rank stratified by Race (two-sided). Hazard ratio (Afatinib vs Erlotinib) from Cox proportional hazards model stratified by Race.|Log Rank|||A Cox proportional-hazards model, stratified by race, was used to estimate the hazard ratio and 95% confidence interval (CI) between the two treatment groups.||0.973|0.727|0.0193
92298969|NCT01523587|184502744|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.0551|TWO_SIDED|95.0|0.98|4.32||Odds ratio (Afatinib vs Erlotinib), 95% CI and p-value (two-sided) from logistic regression stratified by race.|Regression, Logistic|||||4.32|0.98|0.0551
92298970|NCT01523587|184502745|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.002|TWO_SIDED|95.0|1.18|2.06|||Regression, Logistic|Odds ratio (Afatinib vs Erlotinib), 95% CI and p-value (two-sided) from logistic regression stratified by race.||||2.06|1.18|0.0020
92298971|NCT01523587|184502746|SUPERIORITY_OR_OTHER||Adjusted mean|-1.2|STANDARD_ERROR_OF_MEAN|1.77||0.5|TWO_SIDED|95.0|-4.67|2.28|||ANCOVA||Mean was adjusted for baseline sum of diameters and race.|The analysis will compare the treatments using analysis of covariance (ANCOVA) for minimum sum of diameters, using baseline sum of diameters as a covariate. The randomization strata will be included as classification factors.||2.28|-4.67|0.500
92298972|NCT01523587|184502748|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.2562|TWO_SIDED|95.0|0.72|1.09||p-value calculated using log rank test stratified by race.|Regression, Cox||Hazard ratio (Afatinib vs Erlotinib) from Cox proportional hazard model stratified by race.|The results shown relate to Time to Deterioration in Coughing.||1.09|0.72|0.2562
92298973|NCT01523587|184502748|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0078|TWO_SIDED|95.0|0.66|0.94||p-value calculated using log rank test stratified by race.|Regression, Cox||Hazard ratio (Afatinib vs Erlotinib) from Cox proportional hazard model stratified by race.|The results shown relate to Time to Deterioration in Dyspnoea||0.94|0.66|0.0078
92146428|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|42.0||||0.369|TWO_SIDED|95.0|-49.0|133.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 16||133|-49|0.369
92146429|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-32.0||||0.487|TWO_SIDED|95.0|-121.0|58.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 20||58|-121|0.487
92146430|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.0||||0.887|TWO_SIDED|95.0|-82.0|95.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 20||95|-82|0.887
92185824|NCT00090519|184270471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|63.22||||0.365|TWO_SIDED|95.0|-73.68|200.12||P-value is for change from baseline.|t-test, 2 sided|||||200.12|-73.68|0.365
92185825|NCT00090519|184270472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.52||||0.009|TWO_SIDED|95.0|0.38|2.66||P-value is for change from baseline.|ANCOVA|||||2.66|0.38|0.009
92185826|NCT00090519|184270474|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.081|TWO_SIDED|95.0|0.2|1.12||P-value is for occurrence of sustained moderate visual loss (SMVL) in a diabetic retinopathy (DR) study eye yes versus no.|Chi-squared|||||1.12|0.20|0.081
92185827|NCT00960206|184270475|SUPERIORITY_OR_OTHER|||||||0.0832|||||||Log Rank|||To compare the Kaplan-Meier survivorship between the two systems||||0.0832
92185828|NCT00960206|184270475|SUPERIORITY_OR_OTHER|||||||0.1657|||||||Log Rank|||To compare the Kaplan-Meier survivorship between the two systems||||0.1657
92298974|NCT01523587|184502748|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.869|TWO_SIDED|95.0|0.82|1.18||p-value calculated using log rank test stratified by race|Regression, Cox||Hazard ratio (Afatinib vs Erlotinib) from Cox proportional hazard model stratified by race.|The results shown relate to Time to Deterioration in Pain||1.18|0.82|0.8690
92298975|NCT01523587|184502749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|1.34||0.0091|TWO_SIDED|95.0|-6.15|-0.88|||Regression, Cox|||The results shown relate to Change in scores over time for: Coughing.||-0.88|-6.15|0.0091
92298976|NCT01523587|184502749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|1.15||0.0024|TWO_SIDED|95.0|-5.75|-1.25|||Regression, Cox|||The results shown relate to Change in scores over time for: Dyspnoea.||-1.25|-5.75|0.0024
92298977|NCT01523587|184502749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|1.32||0.0384|TWO_SIDED|95.0|-5.33|-0.15|||Regression, Cox|||The results shown relate to Change in scores over time for: Pain.||-0.15|-5.33|0.0384
92298978|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-3.5|||||TWO_SIDED|90.0|-5.41|-1.59|||Mixed Models Analysis|||30 minutes postdose||-1.59|-5.41|
92298979|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-3.54|||||TWO_SIDED|90.0|-5.18|-1.89|||Mixed Models Analysis|||1 hour postdose||-1.89|-5.18|
92298980|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-4.1|||||TWO_SIDED|90.0|-5.77|-2.43|||Mixed Models Analysis|||1.5 hours postdose||-2.43|-5.77|
92298981|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-3.21|||||TWO_SIDED|90.0|-5.14|-1.28|||Mixed Models Analysis|||2 hours postdose||-1.28|-5.14|
92298982|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.46|||||TWO_SIDED|90.0|-4.41|-0.51|||Mixed Models Analysis|||2.5 hours postdose||-0.51|-4.41|
92298983|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.91|||||TWO_SIDED|90.0|-2.84|1.03|||Mixed Models Analysis|||3 hours postdose||1.03|-2.84|
92298984|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.62|||||TWO_SIDED|90.0|-2.53|1.29|||Mixed Models Analysis|||3.5 hours postdose||1.29|-2.53|
92298985|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|0.07|||||TWO_SIDED|90.0|-1.84|1.99|||Mixed Models Analysis|||4 hours postdose||1.99|-1.84|
92298986|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-1.06|||||TWO_SIDED|90.0|-3.22|1.1|||Mixed Models Analysis|||6 hours postdose||1.10|-3.22|
92298987|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.73|||||TWO_SIDED|90.0|-4.88|-0.57|||Mixed Models Analysis|||8 hours postdose||-0.57|-4.88|
92298988|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.05|||||TWO_SIDED|90.0|-3.77|-0.32|||Mixed Models Analysis|||12 hours postdose||-0.32|-3.77|
92298989|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|0.21|||||TWO_SIDED|90.0|-1.9|2.33|||Mixed Models Analysis|||24 hours postdose||2.33|-1.90|
92146431|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.0||||0.486|TWO_SIDED|95.0|-59.0|123.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 20||123|-59|0.486
92146432|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.0||||0.604||95.0|-113.0|66.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 24||66|-113|0.604
92146433|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.0||||0.872|TWO_SIDED|95.0|-97.0|82.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 24||82|-97|0.872
92185829|NCT00960206|184270476|SUPERIORITY_OR_OTHER|||||||0.3701|||||||Fisher Exact|||To compare the # of cases at 10 years for those that have a HHS ≥ 80 to those that have \< 80 for all three arms||||0.3701
92146434|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|43.0||||0.355|TWO_SIDED|95.0|-48.0|134.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 24||134|-48|0.355
92185830|NCT00960206|184270478|SUPERIORITY_OR_OTHER|||||||0.6011|||||||Fisher Exact|||Compare the # of cases at 10 years satisfied with their total hip replacement for all three groups||||0.6011
92185831|NCT00960206|184270478|SUPERIORITY_OR_OTHER|||||||0.206|||||||Fisher Exact|||Compare the # of cases at 10 years for having pain in their hip for all three groups||||0.2060
92298990|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-3.83|||||TWO_SIDED|90.0|-5.56|-2.11|||Mixed Models Analysis|||30 minutes postdose||-2.11|-5.56|
92298991|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.75|||||TWO_SIDED|90.0|-2.75|1.25|||Mixed Models Analysis|||1 hour postdose||1.25|-2.75|
92298992|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|0.45|||||TWO_SIDED|90.0|-1.49|2.38|||Mixed Models Analysis|||1.5 hours postdose||2.38|-1.49|
92298993|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|2.58|||||TWO_SIDED|90.0|0.58|4.58|||Mixed Models Analysis|||2 hours postdose||4.58|0.58|
92298994|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|2.85|||||TWO_SIDED|90.0|0.73|4.98|||Mixed Models Analysis|||2.5 hours postdose||4.98|0.73|
92185832|NCT02725372|184270502|SUPERIORITY||Mean Difference (Final Values)|1.99||||0.87|TWO_SIDED|95.0|-22.47|26.45|||Mixed Models Analysis|||||26.45|-22.47|0.87
92185833|NCT02725372|184270503|SUPERIORITY|||||||0.55|||||||Log Rank|||||||0.55
92185834|NCT02725372|184270505|SUPERIORITY||Mean Difference (Final Values)|-89.1||||0.01|TWO_SIDED|95.0|-156.0|-22.1|||ANCOVA|||||-22.1|-156.0|0.01
92298995|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|3.94|||||TWO_SIDED|90.0|1.85|6.03|||Mixed Models Analysis|||3 hours postdose||6.03|1.85|
92298996|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|5.28|||||TWO_SIDED|90.0|3.61|6.95|||Mixed Models Analysis|||3.5 hours postdose||6.95|3.61|
92298997|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|6.94|||||TWO_SIDED|90.0|4.99|8.89|||Mixed Models Analysis|||4 hours postdose||8.89|4.99|
92298998|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|3.13|||||TWO_SIDED|90.0|0.93|5.34|||Mixed Models Analysis|||6 hours postdose||5.34|0.93|
92298999|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|2.09|||||TWO_SIDED|90.0|-0.23|4.4|||Mixed Models Analysis|||8 hours postdose||4.40|-0.23|
92299000|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|1.37|||||TWO_SIDED|90.0|-0.57|3.3|||Mixed Models Analysis|||12 hours postdose||3.30|-0.57|
92299001|NCT03465436|184502768|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.29|||||TWO_SIDED|90.0|-2.21|1.63|||Mixed Models Analysis|||24 hours postdose||1.63|-2.21|
92146435|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.0||||0.839|TWO_SIDED|95.0|-65.0|80.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 4||80|-65|0.839
92299002|NCT03465436|184502768|SUPERIORITY||LS Mean|7.32|||||TWO_SIDED|90.0|5.03|9.6|||Mixed Models Analysis|||30 minutes postdose||9.60|5.03|
92299003|NCT03465436|184502768|SUPERIORITY||LS Mean|12.28|||||TWO_SIDED|90.0|10.47|14.1|||Mixed Models Analysis|||1 hour postdose||14.10|10.47|
92299004|NCT03465436|184502768|SUPERIORITY||LS Mean|11.27|||||TWO_SIDED|90.0|9.54|13.0|||Mixed Models Analysis|||1.5 hours postdose||13.00|9.54|
92299005|NCT03465436|184502768|SUPERIORITY||LS Mean|11.92|||||TWO_SIDED|90.0|9.97|13.87|||Mixed Models Analysis|||2 hours postdose||13.87|9.97|
92299006|NCT03465436|184502768|SUPERIORITY||LS Mean|10.98|||||TWO_SIDED|90.0|9.17|12.79|||Mixed Models Analysis|||2.5 hours postdose||12.79|9.17|
92146436|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.0||||0.741|TWO_SIDED|95.0|-60.0|84.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 4||84|-60|0.741
92146437|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|71.0||||0.056|TWO_SIDED|95.0|-1.8|143.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 4||143|-1.8|0.056
92146438|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.0||||0.554|TWO_SIDED|95.0|-107.0|57.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 8||57|-107|0.554
92185835|NCT02725372|184270506|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.47|TWO_SIDED|95.0|-0.89|0.41|||ANCOVA|||||0.41|-0.89|0.47
92146439|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-30.0||||0.472|TWO_SIDED|95.0|-110.0|51.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 8||51|-110|0.472
92146440|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|66.0||||0.116|TWO_SIDED|95.0|-16.0|149.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 8||149|-16|0.116
92146441|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.0||||0.805|TWO_SIDED|95.0|-98.0|76.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 12||76|-98|0.805
92185836|NCT02725372|184270507|SUPERIORITY||Odds Ratio (OR)|1.05||||0.26|TWO_SIDED|95.0|0.48|2.29|||Cochran-Mantel-Haenszel|||||2.29|0.48|0.26
92185837|NCT02548585|184270508|SUPERIORITY||||||<|0.0001|||||||ANCOVA|p-value was based on pairwise comparison using analysis of covariance (ANCOVA) adjusted by baseline value.||||||< 0.0001
92299007|NCT03465436|184502768|SUPERIORITY||LS Mean|11.99|||||TWO_SIDED|90.0|10.1|13.87|||Mixed Models Analysis|||3 hours postdose||13.87|10.10|
92185838|NCT02548585|184270509|SUPERIORITY|||||||0.0008|||||||ANCOVA|p-value was based on pairwise comparison using ANCOVA adjusted by baseline value.||||||0.0008
92299008|NCT03465436|184502768|SUPERIORITY||LS Mean|12.19|||||TWO_SIDED|90.0|10.32|14.05|||Mixed Models Analysis|||3.5 hours postdose||14.05|10.32|
92299009|NCT03465436|184502768|SUPERIORITY||LS Mean|11.68|||||TWO_SIDED|90.0|9.83|13.52|||Mixed Models Analysis|||4 hours postdose||13.52|9.83|
92299010|NCT03465436|184502768|SUPERIORITY||LS Mean|8.24|||||TWO_SIDED|90.0|6.1|10.39|||Mixed Models Analysis|||6 hours postdose||10.39|6.10|
92299011|NCT03465436|184502768|SUPERIORITY||LS Mean|7.87|||||TWO_SIDED|90.0|5.66|10.07|||Mixed Models Analysis|||8 hours postdose||10.07|5.66|
92299012|NCT03465436|184502768|SUPERIORITY||LS Mean|6.35|||||TWO_SIDED|90.0|4.32|8.38|||Mixed Models Analysis|||12 hours postdose||8.38|4.32|
92299013|NCT03465436|184502768|SUPERIORITY||LS Mean|6.13|||||TWO_SIDED|90.0|3.88|8.38|||Mixed Models Analysis|||24 hours postdose||8.38|3.88|
92299014|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-4.49|||||TWO_SIDED|90.0|-6.47|-2.52|||Mixed Models Analysis|||30 minutes postdose||-2.52|-6.47|
92299015|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-5.3|||||TWO_SIDED|90.0|-7.18|-3.42|||Mixed Models Analysis|||1 hour postdose||-3.42|-7.18|
92299016|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-5.7|||||TWO_SIDED|90.0|-7.57|-3.82|||Mixed Models Analysis|||1.5 hours postdose||-3.82|-7.57|
92299017|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-4.47|||||TWO_SIDED|90.0|-6.64|-2.3|||Mixed Models Analysis|||2 hours postdose||-2.30|-6.64|
92299018|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-4.53|||||TWO_SIDED|90.0|-6.87|-2.19|||Mixed Models Analysis|||2.5 hours postdose||-2.19|-6.87|
92299019|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.74|||||TWO_SIDED|90.0|-4.9|-0.59|||Mixed Models Analysis|||3 hours postdose||-0.59|-4.90|
92299020|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-1.74|||||TWO_SIDED|90.0|-3.86|0.39|||Mixed Models Analysis|||3.5 hours postdose||0.39|-3.86|
92299021|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-1.66|||||TWO_SIDED|90.0|-3.77|0.44|||Mixed Models Analysis|||4 hours postdose||0.44|-3.77|
92299022|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-1.11|||||TWO_SIDED|90.0|-3.17|0.94|||Mixed Models Analysis|||6 hours postdose||0.94|-3.17|
92299023|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.47|||||TWO_SIDED|90.0|-4.58|-0.35|||Mixed Models Analysis|||8 hours postdose||-0.35|-4.58|
92299024|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.15|||||TWO_SIDED|90.0|-3.87|-0.43|||Mixed Models Analysis|||12 hours postdose||-0.43|-3.87|
92299025|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|0.79|||||TWO_SIDED|90.0|-1.14|2.72|||Mixed Models Analysis|||24 hours postdose||2.72|-1.14|
92299026|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-4.64|||||TWO_SIDED|90.0|-6.57|-2.71|||Mixed Models Analysis|||30 minutes postdose||-2.71|-6.57|
92299027|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.49|||||TWO_SIDED|90.0|-4.59|-0.39|||Mixed Models Analysis|||1 hour postdose||-0.39|-4.59|
92299028|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.96|||||TWO_SIDED|90.0|-3.02|1.09|||Mixed Models Analysis|||1.5 hours postdose||1.09|-3.02|
92299029|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|1.64|||||TWO_SIDED|90.0|-0.46|3.73|||Mixed Models Analysis|||2 hours postdose||3.73|-0.46|
92146442|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.0||||0.763|TWO_SIDED|95.0|-73.0|100.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 12||100|-73|0.763
92146443|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|75.0||||0.096|TWO_SIDED|95.0|-13.0|163.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 12||163|-13|0.096
92299030|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|1.61|||||TWO_SIDED|90.0|-0.59|3.81|||Mixed Models Analysis|||2.5 hours postdose||3.81|-0.59|
92299031|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|2.41|||||TWO_SIDED|90.0|0.25|4.57|||Mixed Models Analysis|||3 hours postdose||4.57|0.25|
92299032|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|4.3|||||TWO_SIDED|90.0|2.48|6.12|||Mixed Models Analysis|||3.5 hours postdose||6.12|2.48|
92299033|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|5.15|||||TWO_SIDED|90.0|3.02|7.27|||Mixed Models Analysis|||4 hours postdose||7.27|3.02|
92299034|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|2.77|||||TWO_SIDED|90.0|0.75|4.79|||Mixed Models Analysis|||6 hours postdose||4.79|0.75|
92299035|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|1.75|||||TWO_SIDED|90.0|-0.55|4.05|||Mixed Models Analysis|||8 hours postdose||4.05|-0.55|
92299036|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|1.75|||||TWO_SIDED|90.0|-0.19|3.69|||Mixed Models Analysis|||12 hours postdose||3.69|-0.19|
92299037|NCT03465436|184502769|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.48|||||TWO_SIDED|90.0|-2.44|1.48|||Mixed Models Analysis|||24 hours postdose||1.48|-2.44|
92299038|NCT03465436|184502769|SUPERIORITY||LS Mean|7.07|||||TWO_SIDED|90.0|4.72|9.41|||Mixed Models Analysis|||30 minutes postdose||9.41|4.72|
92299039|NCT03465436|184502769|SUPERIORITY||LS Mean|11.81|||||TWO_SIDED|90.0|9.94|13.69|||Mixed Models Analysis|||1 hour postdose||13.69|9.94|
92299040|NCT03465436|184502769|SUPERIORITY||LS Mean|10.95|||||TWO_SIDED|90.0|9.16|12.74|||Mixed Models Analysis|||1.5 hours postdose||12.74|9.16|
92299041|NCT03465436|184502769|SUPERIORITY||LS Mean|11.5|||||TWO_SIDED|90.0|9.5|13.43|||Mixed Models Analysis|||2 hours postdose||13.43|9.5|
92299042|NCT03465436|184502769|SUPERIORITY||LS Mean|10.81|||||TWO_SIDED|90.0|8.9|12.71|||Mixed Models Analysis|||2.5 hours postdose||12.71|8.9|
92299043|NCT03465436|184502769|SUPERIORITY||LS Mean|12.35|||||TWO_SIDED|90.0|10.42|14.28|||Mixed Models Analysis|||3 hours postdose||14.28|10.42|
92299044|NCT03465436|184502769|SUPERIORITY||LS Mean|12.65|||||TWO_SIDED|90.0|10.76|14.54|||Mixed Models Analysis|||3.5 hours postdose||14.54|10.76|
92299045|NCT03465436|184502769|SUPERIORITY||LS Mean|11.17|||||TWO_SIDED|90.0|9.23|13.1|||Mixed Models Analysis|||4 hours postdose||13.10|9.23|
92299046|NCT03465436|184502769|SUPERIORITY||LS Mean|8.12|||||TWO_SIDED|90.0|6.02|10.22|||Mixed Models Analysis|||6 hours postdose||10.22|6.02|
92299047|NCT03465436|184502769|SUPERIORITY||LS Mean|8.1|||||TWO_SIDED|90.0|6.01|10.19|||Mixed Models Analysis|||8 hours postdose||10.19|6.01|
92299048|NCT03465436|184502769|SUPERIORITY||LS Mean|6.26|||||TWO_SIDED|90.0|4.23|8.28|||Mixed Models Analysis|||12 hours postdose||8.28|4.23|
92299049|NCT03465436|184502769|SUPERIORITY||LS Mean|5.74|||||TWO_SIDED|90.0|3.47|8.01|||Mixed Models Analysis|||24 hours postdose||8.01|3.47|
92299050|NCT03465436|184502770|SUPERIORITY||LS Mean|32.89|||||TWO_SIDED|90.0|11.5|54.28|||Mixed Models Analysis|||30 minutes postdose||54.28|11.50|
92299051|NCT03465436|184502770|SUPERIORITY||LS Mean|100.15|||||TWO_SIDED|90.0|77.81|122.5|||Mixed Models Analysis|||1 hour postdose||122.50|77.81|
92299052|NCT03465436|184502770|SUPERIORITY||LS Mean|107.11|||||TWO_SIDED|90.0|83.31|130.91|||Mixed Models Analysis|||1.5 hours postdose||130.91|83.31|
92299053|NCT03465436|184502770|SUPERIORITY||LS Mean|74.48|||||TWO_SIDED|90.0|56.32|92.63|||Mixed Models Analysis|||2 hours postdose||92.63|56.32|
92299054|NCT03465436|184502770|SUPERIORITY||LS Mean|89.19|||||TWO_SIDED|90.0|68.77|109.61|||Mixed Models Analysis|||2.5 hours postdose||109.61|68.77|
92299055|NCT03465436|184502770|SUPERIORITY||LS Mean|74.98|||||TWO_SIDED|90.0|55.41|94.55|||Mixed Models Analysis|||3 hours postdose||94.55|55.41|
92299056|NCT03465436|184502770|SUPERIORITY||LS Mean|52.83|||||TWO_SIDED|90.0|36.03|69.63|||Mixed Models Analysis|||3.5 hours postdose||69.63|36.03|
92299057|NCT03465436|184502770|SUPERIORITY||LS Mean|42.1|||||TWO_SIDED|90.0|24.86|59.35|||Mixed Models Analysis|||4 hours postdose||59.35|24.86|
92299058|NCT03465436|184502770|SUPERIORITY||LS Mean|62.61|||||TWO_SIDED|90.0|42.39|82.83|||Mixed Models Analysis|||6 hours postdose||82.83|42.39|
92146444|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.0||||0.485|TWO_SIDED|95.0|-118.0|56.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 16||56|-118|0.485
92146445|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.0||||0.704|TWO_SIDED|95.0|-69.0|103.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 16||103|-69|0.704
92146446|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|72.0||||0.108|TWO_SIDED|95.0|-16.0|159.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 16||159|-16|0.108
92185839|NCT01075152|184270534|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.73||||0.03|TWO_SIDED|95.0|1.06|2.82||A Lan-DeMets spending function analog of the O'Brien-Fleming boundaries was proposed to control the type-I error resulting from multiple interim analyses.|Regression, Cox||Hazard Ratio describes the risk of earlier HIV therapy in comparison to deferred HIV therapy initiation as the reference group.|"We compared the randomization arms for the primary endpoint of survival using time-to-event methods of Cox proportional hazards models by the intention-to-treat principle, based on two-sided type-I error with alpha=0.05.~The trial was statistically powered to detect a 25% relative survival benefit (15% absolute benefit) with 90% power and overall two-sided alpha=0.05 with an intended sample size of 500 participants. The trial was halted early by the Data and Safety Monitoring Board."||2.82|1.06|0.03
92299059|NCT03465436|184502770|SUPERIORITY||LS Mean|56.05|||||TWO_SIDED|90.0|32.49|79.61|||Mixed Models Analysis|||8 hours postdose||79.61|32.49|
92146447|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-64.0||||0.147||95.0|-151.0|23.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 20||23|-151|0.147
92299060|NCT03465436|184502770|SUPERIORITY||LS Mean|35.71|||||TWO_SIDED|90.0|11.79|59.63|||Mixed Models Analysis|||12 hours postdose||59.63|11.79|
92299061|NCT03465436|184502770|SUPERIORITY||LS Mean|-4.59|||||TWO_SIDED|90.0|-24.66|15.47|||Mixed Models Analysis|||24 hours postdose||15.47|-24.66|
92299062|NCT03465436|184502770|SUPERIORITY||LS Mean|56.53|||||TWO_SIDED|90.0|36.72|76.35|||Mixed Models Analysis|||30 minutes postdose||76.35|36.72|
92299063|NCT03465436|184502770|SUPERIORITY||LS Mean|103.3|||||TWO_SIDED|90.0|83.88|122.72|||Mixed Models Analysis|||1 hour postdose||122.72|83.88|
92299064|NCT03465436|184502770|SUPERIORITY||LS Mean|94.21|||||TWO_SIDED|90.0|75.15|113.26|||Mixed Models Analysis|||1.5 hours postdose||113.26|75.15|
92299065|NCT03465436|184502770|SUPERIORITY||LS Mean|83.49|||||TWO_SIDED|90.0|67.98|99.0|||Mixed Models Analysis|||2 hours postdose||99.00|67.98|
92299066|NCT03465436|184502770|SUPERIORITY||LS Mean|103.64|||||TWO_SIDED|90.0|87.28|120.0|||Mixed Models Analysis|||2.5 hours postdose||120.00|87.28|
92299067|NCT03465436|184502770|SUPERIORITY||LS Mean|89.26|||||TWO_SIDED|90.0|71.24|107.29|||Mixed Models Analysis|||3 hours postdose||107.29|71.24|
92299068|NCT03465436|184502770|SUPERIORITY||LS Mean|65.29|||||TWO_SIDED|90.0|48.28|82.3|||Mixed Models Analysis|||3.5 hours postdose||82.30|48.28|
92299069|NCT03465436|184502770|SUPERIORITY||LS Mean|52.85|||||TWO_SIDED|90.0|36.1|69.6|||Mixed Models Analysis|||4 hours postdose||69.60|36.10|
92299070|NCT03465436|184502770|SUPERIORITY||LS Mean|86.09|||||TWO_SIDED|90.0|66.36|105.82|||Mixed Models Analysis|||6 hours postdose||105.82|66.36|
92299071|NCT03465436|184502770|SUPERIORITY||LS Mean|80.12|||||TWO_SIDED|90.0|58.32|101.91|||Mixed Models Analysis|||8 hours postdose||101.91|58.32|
92146448|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.0||||0.792|TWO_SIDED|95.0|-98.0|75.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 20||75|-98|0.792
92299072|NCT03465436|184502770|SUPERIORITY||LS Mean|67.58|||||TWO_SIDED|90.0|44.64|90.51|||Mixed Models Analysis|||12 hours postdose||90.51|44.64|
92299073|NCT03465436|184502770|SUPERIORITY||LS Mean|7.77|||||TWO_SIDED|90.0|-10.01|25.55|||Mixed Models Analysis|||24 hours postdose||25.55|-10.01|
92299074|NCT03465436|184502770|SUPERIORITY||LS Mean|-22.02|||||TWO_SIDED|90.0|-38.44|-5.6|||Mixed Models Analysis|||30 minutes postdose||-5.60|-38.44|
92299075|NCT03465436|184502770|SUPERIORITY||LS Mean|-38.87|||||TWO_SIDED|90.0|-57.15|-20.6|||Mixed Models Analysis|||1 hour postdose||-20.60|-57.15|
92299076|NCT03465436|184502770|SUPERIORITY||LS Mean|-22.13|||||TWO_SIDED|90.0|-39.35|-4.91|||Mixed Models Analysis|||1.5 hours postdose||-4.91|-39.35|
92299077|NCT03465436|184502770|SUPERIORITY||LS Mean|-17.35|||||TWO_SIDED|90.0|-32.15|-2.56|||Mixed Models Analysis|||2 hours postdose||-2.56|-32.15|
92299078|NCT03465436|184502770|SUPERIORITY||LS Mean|-1.03|||||TWO_SIDED|90.0|-18.17|16.12|||Mixed Models Analysis|||2.5 hours postdose||16.12|-18.17|
92299079|NCT03465436|184502770|SUPERIORITY||LS Mean|-4.77|||||TWO_SIDED|90.0|-21.81|12.27|||Mixed Models Analysis|||3 hours postdose||12.27|-21.81|
92299080|NCT03465436|184502770|SUPERIORITY||LS Mean|-16.56|||||TWO_SIDED|90.0|-33.36|0.24|||Mixed Models Analysis|||3.5 hours postdose||0.24|-33.36|
92299081|NCT03465436|184502770|SUPERIORITY||LS Mean|-15.29|||||TWO_SIDED|90.0|-32.94|2.37|||Mixed Models Analysis|||4 hours postdose||2.37|-32.94|
92299082|NCT03465436|184502770|SUPERIORITY||LS Mean|6.13|||||TWO_SIDED|90.0|-10.86|23.11|||Mixed Models Analysis|||6 hours postdose||23.11|-10.86|
92299083|NCT03465436|184502770|SUPERIORITY||LS Mean|2.27|||||TWO_SIDED|90.0|-15.25|19.8|||Mixed Models Analysis|||8 hours postdose||19.80|-15.25|
92299084|NCT03465436|184502770|SUPERIORITY||LS Mean|-11.95|||||TWO_SIDED|90.0|-33.46|9.56|||Mixed Models Analysis|||12 hours postdose||9.56|-33.46|
92299085|NCT03465436|184502770|SUPERIORITY||LS Mean|-0.31|||||TWO_SIDED|90.0|-17.32|16.69|||Mixed Models Analysis|||24 hours postdose||16.69|-17.32|
92299086|NCT03465436|184502771|SUPERIORITY||LS Mean|0.02|||||TWO_SIDED|90.0|-0.37|0.41|||Mixed Models Analysis|||30 minutes postdose||0.41|-0.37|
92299087|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.23|||||TWO_SIDED|90.0|-0.61|0.15|||Mixed Models Analysis|||1 hour postdose||0.15|-0.61|
92299088|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.12|||||TWO_SIDED|90.0|-0.47|0.23|||Mixed Models Analysis|||1.5 hours postdose||0.23|-0.47|
92299089|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.44|||||TWO_SIDED|90.0|-0.81|-0.07|||Mixed Models Analysis|||2 hours postdose||-0.07|-0.81|
92299090|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.55|||||TWO_SIDED|90.0|-0.95|-0.15|||Mixed Models Analysis|||2.5 hours postdose||-0.15|-0.95|
92146449|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.0||||0.275||95.0|-39.0|138.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 20||138|-39|0.275
92299091|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.38|||||TWO_SIDED|90.0|-0.77|0.0|||Mixed Models Analysis|||3 hours postdose||0.00|-0.77|
92299092|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.41|||||TWO_SIDED|90.0|-0.72|-0.1|||Mixed Models Analysis|||3.5 hours postdose||-0.10|-0.72|
92299093|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.35|||||TWO_SIDED|90.0|-0.66|-0.04|||Mixed Models Analysis|||4 hours postdose||-0.04|-0.66|
92299094|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.54|||||TWO_SIDED|90.0|-0.98|-0.09|||Mixed Models Analysis|||6 hours postdose||-0.09|-0.98|
92299095|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.14|||||TWO_SIDED|90.0|-0.58|0.31|||Mixed Models Analysis|||8 hours postdose||0.31|-0.58|
92299096|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.29|||||TWO_SIDED|90.0|-0.7|0.12|||Mixed Models Analysis|||12 hours postdose||0.12|-0.70|
92299097|NCT03465436|184502771|SUPERIORITY||LS Mean|0.43|||||TWO_SIDED|90.0|0.01|0.84|||Mixed Models Analysis|||24 hours postdose||0.84|0.01|
92299098|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.19|||||TWO_SIDED|90.0|-0.59|0.21|||Mixed Models Analysis|||30 minutes postdose||0.21|-0.59|
92299099|NCT03465436|184502771|SUPERIORITY||LS Mean|0.48|||||TWO_SIDED|90.0|0.06|0.89|||Mixed Models Analysis|||1 hour postdose||0.89|0.06|
92146450|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.0||||0.53|TWO_SIDED|95.0|-115.0|59.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 24||59|-115|0.530
92299100|NCT03465436|184502771|SUPERIORITY||LS Mean|0.56|||||TWO_SIDED|90.0|0.19|0.93|||Mixed Models Analysis|||1.5 hours postdose||0.93|0.19|
92299101|NCT03465436|184502771|SUPERIORITY||LS Mean|0.4|||||TWO_SIDED|90.0|0.02|0.77|||Mixed Models Analysis|||2 hours postdose||0.77|0.02|
92299102|NCT03465436|184502771|SUPERIORITY||LS Mean|0.51|||||TWO_SIDED|90.0|0.13|0.88|||Mixed Models Analysis|||2.5 hours postdose||0.88|0.13|
92299103|NCT03465436|184502771|SUPERIORITY||LS Mean|0.33|||||TWO_SIDED|90.0|-0.05|0.71|||Mixed Models Analysis|||3 hours postdose||0.71|-0.05|
92299104|NCT03465436|184502771|SUPERIORITY||LS Mean|0.32|||||TWO_SIDED|90.0|-0.02|0.67|||Mixed Models Analysis|||3.5 hours postdose||0.67|-0.02|
92299105|NCT03465436|184502771|SUPERIORITY||LS Mean|0.5|||||TWO_SIDED|90.0|0.16|0.84|||Mixed Models Analysis|||4 hours postdose||0.84|0.16|
92299106|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.1|||||TWO_SIDED|90.0|-0.56|0.36|||Mixed Models Analysis|||6 hours postdose||0.36|-0.56|
92299107|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.11|||||TWO_SIDED|90.0|-0.56|0.33|||Mixed Models Analysis|||8 hours postdose||0.33|-0.56|
92299108|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.39|||||TWO_SIDED|90.0|-0.84|0.06|||Mixed Models Analysis|||12 hours postdose||0.06|-0.84|
92299109|NCT03465436|184502771|SUPERIORITY||LS Mean|0.04|||||TWO_SIDED|90.0|-0.37|0.45|||Mixed Models Analysis|||24 hours postdose||0.45|-0.37|
92299110|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.09|||||TWO_SIDED|90.0|-0.45|0.28|||Mixed Models Analysis|||30 minutes postdose||0.28|-0.45|
92299111|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.1|||||TWO_SIDED|90.0|-0.46|0.27|||Mixed Models Analysis|||1 hour postdose||0.27|-0.46|
92299112|NCT03465436|184502771|SUPERIORITY||LS Mean|0.25|||||TWO_SIDED|90.0|-0.1|0.6|||Mixed Models Analysis|||1.5 hours postdose||0.60|-0.10|
92299113|NCT03465436|184502771|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|90.0|-0.38|0.4|||Mixed Models Analysis|||2 hours postdose||0.40|-0.38|
92299114|NCT03465436|184502771|SUPERIORITY||LS Mean|0.02|||||TWO_SIDED|90.0|-0.34|0.37|||Mixed Models Analysis|||2.5 hours postdose||0.37|-0.34|
92299115|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.09|||||TWO_SIDED|90.0|-0.44|0.25|||Mixed Models Analysis|||3 hours postdose||0.25|-0.44|
92299116|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.39|||||TWO_SIDED|90.0|-0.76|-0.03|||Mixed Models Analysis|||3.5 hours postdose||-0.03|-0.76|
92299117|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.38|||||TWO_SIDED|90.0|-0.73|-0.03|||Mixed Models Analysis|||4 hours postdose||-0.03|-0.73|
92299118|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.6|||||TWO_SIDED|90.0|-1.03|-0.17|||Mixed Models Analysis|||6 hours postdose||-0.17|-1.03|
92299119|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.39|||||TWO_SIDED|90.0|-0.82|0.04|||Mixed Models Analysis|||8 hours postdose||0.04|-0.82|
92299120|NCT03465436|184502771|SUPERIORITY||LS Mean|-0.31|||||TWO_SIDED|90.0|-0.7|0.09|||Mixed Models Analysis|||12 hours postdose||0.09|-0.70|
92299121|NCT03465436|184502771|SUPERIORITY||LS Mean|0.19|||||TWO_SIDED|90.0|-0.23|0.61|||Mixed Models Analysis|||24 hours postdose||0.61|-0.23|
92299122|NCT03465436|184502772|SUPERIORITY||LS Mean|-1.53|||||TWO_SIDED|90.0|-2.9|-0.16|||Mixed Models Analysis|||30 minutes postdose||-0.16|-2.90|
92299123|NCT03465436|184502772|SUPERIORITY||LS Mean|-5.09|||||TWO_SIDED|90.0|-6.29|-3.88|||Mixed Models Analysis|||1 hour postdose||-3.88|-6.29|
92299124|NCT03465436|184502772|SUPERIORITY||LS Mean|-5.57|||||TWO_SIDED|90.0|-6.81|-4.32|||Mixed Models Analysis|||1.5 hours postdose||-4.32|-6.81|
92299125|NCT03465436|184502772|SUPERIORITY||LS Mean|-4.01|||||TWO_SIDED|90.0|-5.0|-3.01|||Mixed Models Analysis|||2 hours postdose||-3.01|-5.00|
92299126|NCT03465436|184502772|SUPERIORITY||LS Mean|-4.78|||||TWO_SIDED|90.0|-5.91|-3.65|||Mixed Models Analysis|||2.5 hours postdose||-3.65|-5.91|
92299127|NCT03465436|184502772|SUPERIORITY||LS Mean|-4.14|||||TWO_SIDED|90.0|-5.2|-3.08|||Mixed Models Analysis|||3 hours postdose||-3.08|-5.20|
92299128|NCT03465436|184502772|SUPERIORITY||LS Mean|-2.94|||||TWO_SIDED|90.0|-3.87|-2.01|||Mixed Models Analysis|||3.5 hours postdose||-2.01|-3.87|
92299129|NCT03465436|184502772|SUPERIORITY||LS Mean|-2.42|||||TWO_SIDED|90.0|-3.42|-1.42|||Mixed Models Analysis|||4 hours postdose||-1.42|-3.42|
92299130|NCT03465436|184502772|SUPERIORITY||LS Mean|-4.61|||||TWO_SIDED|90.0|-6.17|-3.06|||Mixed Models Analysis|||6 hours postdose||-3.06|-6.17|
92299131|NCT03465436|184502772|SUPERIORITY||LS Mean|-3.82|||||TWO_SIDED|90.0|-5.38|-2.26|||Mixed Models Analysis|||8 hours postdose||-2.26|-5.38|
92299132|NCT03465436|184502772|SUPERIORITY||LS Mean|-2.65|||||TWO_SIDED|90.0|-4.33|-0.97|||Mixed Models Analysis|||12 hours postdose||-0.97|-4.33|
92299133|NCT03465436|184502772|SUPERIORITY||LS Mean|0.12|||||TWO_SIDED|90.0|-1.22|1.46|||Mixed Models Analysis|||24 hours postdose||1.46|-1.22|
92299134|NCT03465436|184502772|SUPERIORITY||LS Mean|-3.09|||||TWO_SIDED|90.0|-4.16|-2.02|||Mixed Models Analysis|||30 minutes postdose||-2.02|-4.16|
92146451|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.0||||0.827|TWO_SIDED|95.0|-77.0|96.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 24||96|-77|0.827
92299135|NCT03465436|184502772|SUPERIORITY||LS Mean|-5.61|||||TWO_SIDED|90.0|-6.65|-4.58|||Mixed Models Analysis|||1 hour postdose||-4.58|-6.65|
92299136|NCT03465436|184502772|SUPERIORITY||LS Mean|-5.39|||||TWO_SIDED|90.0|-6.42|-4.35|||Mixed Models Analysis|||1.5 hours postdose||-4.35|-6.42|
92299137|NCT03465436|184502772|SUPERIORITY||LS Mean|-4.64|||||TWO_SIDED|90.0|-5.55|-3.72|||Mixed Models Analysis|||2 hours postdose||-3.72|-5.55|
92299138|NCT03465436|184502772|SUPERIORITY||LS Mean|-5.82|||||TWO_SIDED|90.0|-6.77|-4.87|||Mixed Models Analysis|||2.5 hours postdose||-4.87|-6.77|
92299139|NCT03465436|184502772|SUPERIORITY||LS Mean|-4.99|||||TWO_SIDED|90.0|-6.03|-3.96|||Mixed Models Analysis|||3 hours postdose||-3.96|-6.03|
92299140|NCT03465436|184502772|SUPERIORITY||LS Mean|-3.69|||||TWO_SIDED|90.0|-4.68|-2.71|||Mixed Models Analysis|||3.5 hours postdose||-2.71|-4.68|
92299141|NCT03465436|184502772|SUPERIORITY||LS Mean|-3.19|||||TWO_SIDED|90.0|-4.21|-2.17|||Mixed Models Analysis|||4 hours postdose||-2.17|-4.21|
92299142|NCT03465436|184502772|SUPERIORITY||LS Mean|-6.29|||||TWO_SIDED|90.0|-7.83|-4.95|||Mixed Models Analysis|||6 hours postdose||-4.95|-7.83|
92299143|NCT03465436|184502772|SUPERIORITY||LS Mean|-5.37|||||TWO_SIDED|90.0|-6.73|-4.02|||Mixed Models Analysis|||8 hours postdose||-4.02|-6.73|
92146452|NCT01218126|184177655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|35.0||||0.434|TWO_SIDED|95.0|-53.0|124.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 24||124|-53|0.434
92299144|NCT03465436|184502772|SUPERIORITY||LS Mean|-4.71|||||TWO_SIDED|90.0|-6.25|-3.17|||Mixed Models Analysis|||12 hours postdose||-3.17|-6.25|
92299145|NCT03465436|184502772|SUPERIORITY||LS Mean|-0.55|||||TWO_SIDED|90.0|-1.74|0.63|||Mixed Models Analysis|||24 hours postdose||0.63|-1.74|
92299146|NCT03465436|184502772|SUPERIORITY||LS Mean|1.32|||||TWO_SIDED|90.0|0.32|2.33|||Mixed Models Analysis|||30 minutes postdose||2.33|0.32|
92299147|NCT03465436|184502772|SUPERIORITY||LS Mean|2.29|||||TWO_SIDED|90.0|1.19|3.4|||Mixed Models Analysis|||1 hour postdose||3.40|1.19|
92299148|NCT03465436|184502772|SUPERIORITY||LS Mean|1.3|||||TWO_SIDED|90.0|0.31|2.28|||Mixed Models Analysis|||1.5 hours postdose||2.28|0.31|
92299149|NCT03465436|184502772|SUPERIORITY||LS Mean|1.07|||||TWO_SIDED|90.0|0.17|1.97|||Mixed Models Analysis|||2 hours postdose||1.97|0.17|
92299150|NCT03465436|184502772|SUPERIORITY||LS Mean|0.21|||||TWO_SIDED|90.0|-0.81|1.23|||Mixed Models Analysis|||2.5 hours postdose||1.23|-0.81|
92299151|NCT03465436|184502772|SUPERIORITY||LS Mean|0.53|||||TWO_SIDED|90.0|-0.5|1.56|||Mixed Models Analysis|||3 hours postdose||1.56|-0.50|
92299152|NCT03465436|184502772|SUPERIORITY||LS Mean|1.36|||||TWO_SIDED|90.0|0.29|2.44|||Mixed Models Analysis|||3.5 hours postdose||2.44|0.29|
92299153|NCT03465436|184502772|SUPERIORITY||LS Mean|1.21|||||TWO_SIDED|90.0|0.09|2.34|||Mixed Models Analysis|||4 hours postdose||2.34|0.09|
92299154|NCT03465436|184502772|SUPERIORITY||LS Mean|-0.49|||||TWO_SIDED|90.0|-1.97|0.99|||Mixed Models Analysis|||6 hours postdose||0.99|-1.97|
92299155|NCT03465436|184502772|SUPERIORITY||LS Mean|-0.36|||||TWO_SIDED|90.0|-1.54|0.83|||Mixed Models Analysis|||8 hours postdose||0.83|-1.54|
92299156|NCT03465436|184502772|SUPERIORITY||LS Mean|0.73|||||TWO_SIDED|90.0|-0.87|2.34|||Mixed Models Analysis|||12 hours postdose||2.34|-0.87|
92299157|NCT03465436|184502772|SUPERIORITY||LS Mean|-0.12|||||TWO_SIDED|90.0|-1.29|1.04|||Mixed Models Analysis|||24 hours postdose||1.04|-1.29|
92299158|NCT04117945|184502776|SUPERIORITY|||||||0.8874|||||||One-sided unstratified log-rank|||||||0.8874
92299159|NCT04117945|184502777|SUPERIORITY|||||||0.9683|||||||One-sided unstratified log-rank|||||||0.9683
92299160|NCT04117945|184502778|SUPERIORITY|||||||0.0448|||||||One-sided unstratified log-rank|||||||0.0448
92299161|NCT04117945|184502779|SUPERIORITY|||||||0.9007|||||||One-sided unstratified log-rank|||||||0.9007
92299162|NCT01769274|184502796|OTHER|||||||1|||||||Hierarchical rank test|||||||1.0000
92299163|NCT01769274|184502796|OTHER|||||||1|||||||Hierarchical rank test|||||||1.0000
92299164|NCT02409329|184502815|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.313||||0.0493|TWO_SIDED|95.0|-0.61|-0.017||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. For the HbA1c model, we allowed for a three-way interaction between time, treatment group, and baseline HbA1c because there was descriptive evidence that the effect was modified by baseline HbA1c values. Multiply imputed data (m=1,000) using chained equations.||-0.017|-0.610|.0493
92299165|NCT02409329|184502815|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.07||||0.26|TWO_SIDED|95.0|-0.38|0.24||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. For the HbA1c model, we allowed for a three-way interaction between time, treatment group, and baseline HbA1c because there was descriptive evidence that the effect was modified by baseline HbA1c values. Multiply imputed data (m=1,000) using chained equations.||0.240|-0.380|0.260
92299166|NCT02409329|184502816|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.406|||<|0.001|TWO_SIDED|95.0|0.196|0.615||A priori threshold p\<.05.|Wald statistic|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.615|0.196|<.001
92299167|NCT02409329|184502816|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.21||||0.003|TWO_SIDED|95.0|-0.031|0.45||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. For the HbA1c model, we allowed for a three-way interaction between time, treatment group, and baseline HbA1c because there was descriptive evidence that the effect was modified by baseline HbA1c values. Multiply imputed data (m=1,000) using chained equations.||0.450|-0.031|0.003
92299168|NCT02409329|184502817|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.54||||0.376|TWO_SIDED|95.0|-0.012|1.09||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||1.090|-0.012|0.376
92299169|NCT02409329|184502817|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.278||||0.434|TWO_SIDED|95.0|-0.319|0.875||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.875|-0.319|0.434
92299170|NCT02409329|184502818|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.399||||0.0012|TWO_SIDED|95.0|0.16|0.637||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations||0.637|0.160|0.0012
92299171|NCT02409329|184502818|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.152||||0.003|TWO_SIDED|95.0|-0.121|0.426||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.426|-0.121|0.003
92146453|NCT01218126|184177656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.686|TWO_SIDED|95.0|-3.3|2.2|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 12||2.2|-3.3|0.686
92146454|NCT01218126|184177656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5||||0.279|TWO_SIDED|95.0|-1.2|4.2|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 12||4.2|-1.2|0.279
92299172|NCT02409329|184502819|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.061||||0.632|TWO_SIDED|95.0|-0.218|0.095||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.095|-0.218|0.632
92299173|NCT02409329|184502819|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.005||||0.572|TWO_SIDED|95.0|-0.202|1.1||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||1.100|-0.202|0.572
92299174|NCT02409329|184502820|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|369.0||||0.703|TWO_SIDED|95.0|-142.0|881.0||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||881|-142|0.703
92299175|NCT02409329|184502820|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|26.0||||0.465|TWO_SIDED|95.0|-459.0|511.0||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||511|-459|0.465
92299176|NCT02409329|184502821|SUPERIORITY|Testing superiority of REACH only relative to control. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.75|||||TWO_SIDED|95.0|-1.38|-0.12|||||6-month point estimate|To evaluate if REACH only and REACH+FAMS had similar effects on HbA1c relative to control, we subsetted to participants with baseline HbA1c greater than or equal to 8.5% to maximize our power for these analyses. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||-0.12|-1.38|
92299177|NCT02409329|184502821|SUPERIORITY|Testing superiority of REACH only relative to control. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.31|||||TWO_SIDED|95.0|-1.0|0.39|||||12-month point estimate|To evaluate if REACH only and REACH+FAMS had similar effects on HbA1c relative to control, we subsetted to participants with baseline HbA1c greater than or equal to 8.5% to maximize our power for these analyses. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.39|-1.00|
92299178|NCT02409329|184502821|SUPERIORITY|Testing superiority of REACH\_FAMS relative to control. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.65|||||TWO_SIDED|95.0|-1.26|-0.05|||||6-month point estimate|To evaluate if REACH only and REACH+FAMS had similar effects on HbA1c relative to control, we subsetted to participants with baseline HbA1c greater than or equal to 8.5% to maximize our power for these analyses. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||-0.05|-1.26|
92146455|NCT01218126|184177656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8||||0.193|TWO_SIDED|95.0|-4.6|0.9|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 12||0.9|-4.6|0.193
92146456|NCT01218126|184177656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.803|TWO_SIDED|95.0|-2.7|3.5|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 24||3.5|-2.7|0.803
92185840|NCT01075152|184270535|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32|||||||Gray's method of cumulative incidence|||To account for the competing risk of death, the cumulative incidence function compared the randomized groups for endpoints of IRIS, relapse, and adverse events (Gray's method).||||0.32
92185841|NCT01075152|184270536|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06|||||||Gray's method of cumulative incidence|||To account for the competing risk of death, the cumulative incidence function compared the randomized groups for endpoints of IRIS, relapse, and adverse events (Gray's method).||||0.06
92299179|NCT02409329|184502821|SUPERIORITY|Testing superiority of REACH+FAMS relative to control. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.31|||||TWO_SIDED|95.0|-0.96|0.51|||||12-month point estimate|To evaluate if REACH only and REACH+FAMS had similar effects on HbA1c relative to control, we subsetted to participants with baseline HbA1c greater than or equal to 8.5% to maximize our power for these analyses. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.51|-0.96|
92299180|NCT03200535|184502840|SUPERIORITY|Superiority analysis|||||<|0.001|||||||Chi-squared|||||||<0.001
92299181|NCT03200535|184502841|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92299182|NCT03291041|184502842|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|34.75||||0.0354|TWO_SIDED||||||ANCOVA|||||||0.0354
92299183|NCT03291041|184502843|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|-0.63||||0.0168|TWO_SIDED||||||ANCOVA|||||||0.0168
92299184|NCT03291041|184502844|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|90.56||||0.0785|TWO_SIDED||||||ANCOVA|||||||0.0785
92299185|NCT03291041|184502845|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|78.45||||0.0225|TWO_SIDED||||||ANCOVA|||||||0.0225
92299186|NCT03291041|184502846|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|0.95||||0.0198|TWO_SIDED||||||ANCOVA|||||||0.0198
92299187|NCT03291041|184502847|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|-26.55||||0.0347|TWO_SIDED||||||ANCOVA|||||||0.0347
92299188|NCT03291041|184502848|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|-56.44||||0.084|TWO_SIDED||||||ANCOVA|||||||0.0840
92146457|NCT01218126|184177656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9||||0.229|TWO_SIDED|95.0|-1.2|5.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 24||5.0|-1.2|0.229
92299189|NCT03291041|184502849|SUPERIORITY||Mean Difference (Net)|-1.0||||0.0765|TWO_SIDED||||||ANCOVA|||||||0.0765
92299190|NCT04184999|184502863|SUPERIORITY||F-Statistic|207.4|||<|0.01|TWO_SIDED||||||ANOVA|||||||<.01
92299191|NCT01172821|184502864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.211|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.159|0.264|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.264|0.159|<0.0001
92299192|NCT01172821|184502864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.116|0.222|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.222|0.116|<0.0001
92299193|NCT01172821|184502865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.12|0.233|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.233|0.120|<0.0001
92299194|NCT01172821|184502865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.076|0.19|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.190|0.076|<0.0001
92299195|NCT01172821|184502866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.03||0.0002|TWO_SIDED|95.0|0.052|0.168|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.168|0.052|0.0002
92299196|NCT01172821|184502866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.03||0.0031|TWO_SIDED|95.0|0.03|0.147|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.147|0.030|0.0031
92299197|NCT01172821|184502867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.032||0.0061|TWO_SIDED|95.0|0.025|0.149|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.149|0.025|0.0061
92146458|NCT01218126|184177656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4||||0.39|TWO_SIDED|95.0|-4.5|1.8|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 24||1.8|-4.5|0.390
92146459|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.96||||0.157|TWO_SIDED|95.0|0.91|1.01|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 4||1.01|0.91|0.157
92146460|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.91||||0|TWO_SIDED|95.0|0.86|0.95|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 4||0.95|0.86|0.000
92185842|NCT01075152|184270537|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98|||||||Fisher Exact|||Categorical secondary endpoints were compared with Fisher's exact tests.||||0.98
92266765|NCT05182840|184434918|OTHER||Odds Ratio (OR)|6.39||||0.0001|TWO_SIDED|95.0|2.6|15.67||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.67|2.60|0.0001
92266766|NCT05182840|184434919|OTHER||Odds Ratio (OR)|1.82||||0.1398|TWO_SIDED|95.0|0.82|4.04||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.04|0.82|0.1398
92266767|NCT05182840|184434919|OTHER||Odds Ratio (OR)|8.42||||0|TWO_SIDED|95.0|3.73|19.02||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||19.02|3.73|0.0000
92266768|NCT05182840|184434919|OTHER|P-value was rounded to four decimal places.|Odds Ratio (OR)|4.98||||0.0001|TWO_SIDED|95.0|2.28|10.9|||Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||10.90|2.28|0.0001
92266769|NCT05182840|184434920|OTHER||Odds Ratio (OR)|1.71||||0.1884|TWO_SIDED|95.0|0.77|3.79||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.79|0.77|0.1884
92266770|NCT05182840|184434920|OTHER||Odds Ratio (OR)|6.8||||0|TWO_SIDED|95.0|2.94|15.72||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.72|2.94|0.0000
92266771|NCT05182840|184434920|OTHER||Odds Ratio (OR)|4.46||||0.0003|TWO_SIDED|95.0|2.0|9.94||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.94|2.00|0.0003
92266772|NCT05182840|184434921|OTHER||Odds Ratio (OR)|1.62||||0.214|TWO_SIDED|95.0|0.76|3.46||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.46|0.76|0.2140
92266773|NCT05182840|184434921|OTHER||Odds Ratio (OR)|4.13||||0.0003|TWO_SIDED|95.0|1.93|8.85||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.85|1.93|0.0003
92299198|NCT01172821|184502867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.032||0.0093|TWO_SIDED|95.0|0.021|0.146|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.146|0.021|0.0093
92299199|NCT01172821|184502868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.15|0.252|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.252|0.150|<0.0001
92299200|NCT01172821|184502868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.112|0.215|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.215|0.112|<0.0001
92299201|NCT01172821|184502869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108|STANDARD_ERROR_OF_MEAN|0.029||0.0002|TWO_SIDED|95.0|0.052|0.164|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.164|0.052|0.0002
92299202|NCT01172821|184502869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.029||0.0019|TWO_SIDED|95.0|0.033|0.145|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.145|0.033|0.0019
92299203|NCT01172821|184502870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.759|STANDARD_ERROR_OF_MEAN|4.963|<|0.0001|TWO_SIDED|95.0|19.025|38.494|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||38.494|19.025|<0.0001
92146461|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.91||||0|TWO_SIDED|95.0|0.86|0.96|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 4||0.96|0.86|0.000
92266774|NCT05182840|184434921|OTHER||Odds Ratio (OR)|5.43||||0|TWO_SIDED|95.0|2.52|11.71||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||11.71|2.52|0.0000
92266775|NCT05182840|184434922|OTHER||Odds Ratio (OR)|1.71||||0.1884|TWO_SIDED|95.0|0.77|3.79||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.79|0.77|0.1884
92266776|NCT05182840|184434922|OTHER||Odds Ratio (OR)|6.8||||0|TWO_SIDED|95.0|2.94|15.72||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.72|2.94|0.0000
92266777|NCT05182840|184434922|OTHER||Odds Ratio (OR)|4.46||||0.0003|TWO_SIDED|95.0|2.0|9.94||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.94|2.00|0.0003
92266778|NCT05182840|184434923|OTHER||Odds Ratio (OR)|2.18||||0.0024|TWO_SIDED|95.0|1.32|3.61||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.61|1.32|0.0024
92146462|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.95||||0.072||95.0|0.9|1.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 8||1.00|0.90|0.072
92299204|NCT01172821|184502870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.178|STANDARD_ERROR_OF_MEAN|4.985|<|0.0001|TWO_SIDED|95.0|18.401|37.956|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||37.956|18.401|<0.0001
92299205|NCT01172821|184502871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.068||0.87|TWO_SIDED|95.0|-0.122|0.144|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.144|-0.122|0.8700
92299206|NCT01172821|184502871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.068||0.9612|TWO_SIDED|95.0|-0.137|0.13|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.130|-0.137|0.9612
92299207|NCT01172821|184502872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.127|STANDARD_ERROR_OF_MEAN|0.059||0.0305|TWO_SIDED|95.0|-0.241|-0.012|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||-0.012|-0.241|0.0305
92299208|NCT01172821|184502872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083|STANDARD_ERROR_OF_MEAN|0.059||0.1602|TWO_SIDED|95.0|-0.198|0.033|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.033|-0.198|0.1602
92299209|NCT01172821|184502873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.4012|TWO_SIDED|95.0|0.81|1.74||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R2.5 / Placebo|||1.74|0.81|0.4012
92299210|NCT01172821|184502873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||1.1727|TWO_SIDED|95.0|0.67|1.42||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|||1.42|0.67|1.1727
92299211|NCT01172821|184502874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.613|STANDARD_ERROR_OF_MEAN|4.496|<|0.0001|TWO_SIDED|95.0|11.795|29.431|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||29.431|11.795|<0.0001
92299212|NCT01172821|184502874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.757|STANDARD_ERROR_OF_MEAN|4.513|<|0.0001|TWO_SIDED|95.0|15.907|33.607|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||33.607|15.907|<0.0001
92146463|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9||||0|TWO_SIDED|95.0|0.85|0.95|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 8||0.95|0.85|0.000
92146464|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.88||||0|TWO_SIDED|95.0|0.83|0.94|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 8||0.94|0.83|0.000
92299213|NCT01172821|184502875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.991|STANDARD_ERROR_OF_MEAN|4.547||0.0004|TWO_SIDED|95.0|7.074|24.908|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||24.908|7.074|0.0004
92299214|NCT01172821|184502875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.247|STANDARD_ERROR_OF_MEAN|4.561|<|0.0001|TWO_SIDED|95.0|12.302|30.193|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||30.193|12.302|<0.0001
92299215|NCT01172821|184502876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.953|STANDARD_ERROR_OF_MEAN|0.598||0.1114|TWO_SIDED|95.0|-2.125|0.22|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.220|-2.125|0.1114
92299216|NCT01172821|184502876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.178|STANDARD_ERROR_OF_MEAN|0.6||0.7665|TWO_SIDED|95.0|-1.355|0.999|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.999|-1.355|0.7665
92299217|NCT01172821|184502877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.031||0.0111|TWO_SIDED|95.0|0.018|0.14|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.140|0.018|0.0111
92299218|NCT01172821|184502877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064|STANDARD_ERROR_OF_MEAN|0.031||0.0395|TWO_SIDED|95.0|0.003|0.126|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.126|0.003|0.0395
92299219|NCT01172821|184502878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.032||0.0357|TWO_SIDED|95.0|0.005|0.131|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.131|0.005|0.0357
92299220|NCT01172821|184502878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.032||0.0422|TWO_SIDED|95.0|0.002|0.129|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.129|0.002|0.0422
92299221|NCT01172821|184502879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.171|STANDARD_ERROR_OF_MEAN|0.131||0.1927|TWO_SIDED|95.0|-0.427|0.086|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.086|-0.427|0.1927
92299222|NCT01172821|184502879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.109|STANDARD_ERROR_OF_MEAN|0.131||0.4053|TWO_SIDED|95.0|-0.148|0.367|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.367|-0.148|0.4053
92299223|NCT01172821|184502880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.027||0.3501|TWO_SIDED|95.0|-0.079|0.028|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.028|-0.079|0.3501
92299224|NCT01172821|184502880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.028||0.8045|TWO_SIDED|95.0|-0.047|0.061|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.061|-0.047|0.8045
92146465|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.99||||0.728|TWO_SIDED|95.0|0.93|1.05|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 12||1.05|0.93|0.728
92146466|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.91||||0.002|TWO_SIDED|95.0|0.86|0.97|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 12||0.97|0.86|0.002
92146467|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9||||0.001|TWO_SIDED|95.0|0.84|0.95|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 12||0.95|0.84|0.001
92299225|NCT01172821|184502881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.0308|TWO_SIDED|95.0|1.03|1.72||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R2.5 / Placebo|||1.72|1.03|0.0308
92299226|NCT01172821|184502881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.0348|TWO_SIDED|95.0|1.02|1.71||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|||1.71|1.02|0.0348
92299227|NCT02756637|184502884|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.98|1.11||||||The Hazard Ration is the ratio of survival rates between patients with high NLR and low NLR.||1.11|0.98|
92299228|NCT02756637|184502884|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.9|1.14||||||The Hazard Ration is the ratio of survival rates between patients with high NLR and low NLR.||1.14|0.90|
92299229|NCT02985879|184502885|SUPERIORITY|The primary efficacy analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.34|=|0.998|TWO_SIDED|95.0|-2.63|2.63|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||2.63|-2.63|=0.998
92299230|NCT02985879|184502885|SUPERIORITY|The primary efficacy analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.32|=|0.464|TWO_SIDED|95.0|-1.63|3.58|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||3.58|-1.63|=0.464
92299231|NCT02985879|184502887|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.88|=|0.812|TWO_SIDED|95.0|-1.52|1.93|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||1.93|-1.52|=0.812
92299232|NCT02985879|184502887|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.88|=|0.104|TWO_SIDED|95.0|-0.3|3.16|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||3.16|-0.30|=0.104
92299233|NCT02985879|184502888|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.16|=|0.756|TWO_SIDED|95.0|-0.36|0.26|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||0.26|-0.36|=0.756
92299234|NCT02985879|184502888|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.16|=|0.409|TWO_SIDED|95.0|-0.44|0.18|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||0.18|-0.44|=0.409
92299235|NCT02985879|184502889|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|13.54|=|0.597|TWO_SIDED|95.0|-33.86|19.53|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||19.53|-33.86|=0.597
92299236|NCT02985879|184502889|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|13.56|=|0.642|TWO_SIDED|95.0|-33.04|20.42|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||20.42|-33.04|=0.642
92299237|NCT02985879|184502890|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|2.53|=|0.323|TWO_SIDED|95.0|-2.48|7.51|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||7.51|-2.48|=0.323
92146468|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.01||||0.823|TWO_SIDED|95.0|0.95|1.07|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 24||1.07|0.95|0.823
92146469|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.96||||0.153|TWO_SIDED|95.0|0.9|1.02|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 24||1.02|0.90|0.153
92299238|NCT02985879|184502890|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|2.51|=|0.974|TWO_SIDED|95.0|-4.86|5.02|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||5.02|-4.86|=0.974
92299239|NCT02985879|184502895|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.14|=|0.761|TWO_SIDED|95.0|-0.31|0.23|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||0.23|-0.31|=0.761
92299240|NCT02985879|184502895|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13|=|0.678|TWO_SIDED|95.0|-0.32|0.21|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||0.21|-0.32|=0.678
92299241|NCT02985879|184502896|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|2.3|=|0.653|TWO_SIDED|95.0|-3.5|5.57|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||5.57|-3.50|=0.653
92299242|NCT02985879|184502896|SUPERIORITY|The primary efficacy analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|2.3|=|0.748|TWO_SIDED|95.0|-3.5|5.57|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||5.57|-3.50|=0.748
92299243|NCT02985879|184502897|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.34|=|0.828|TWO_SIDED|95.0|-0.6|0.74|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||0.74|-0.60|=0.828
92299244|NCT02985879|184502897|SUPERIORITY|The primary efficacy analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.34|=|0.543|TWO_SIDED|95.0|-0.46|0.87|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||0.87|-0.46|=0.543
92299245|NCT02985879|184502898|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|25.44|=|0.829|TWO_SIDED|95.0|-55.66|44.63|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||44.63|-55.66|=0.829
92146470|NCT01218126|184177658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.95||||0.126|TWO_SIDED|95.0|0.9|1.01|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 24||1.01|0.90|0.126
92146471|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.87||||0.291|TWO_SIDED|95.0|0.68|1.12|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 4||1.12|0.68|0.291
92146472|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.78||||0.046|TWO_SIDED|95.0|0.61|1.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 4||1.00|0.61|0.046
92299246|NCT02985879|184502898|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-32.9|STANDARD_ERROR_OF_MEAN|25.92|=|0.206|TWO_SIDED|95.0|-83.94|18.23|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||18.23|-83.94|=0.206
92299247|NCT02985879|184502899|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|3.88|=|0.304|TWO_SIDED|95.0|-3.65|11.65|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||11.65|-3.65|=0.304
92299248|NCT02985879|184502899|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|4.5|STANDARD_ERROR_OF_MEAN|3.88|=|0.243|TWO_SIDED|95.0|-3.11|12.19|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||12.19|-3.11|=0.243
92299249|NCT02985879|184502900|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-26.4|STANDARD_ERROR_OF_MEAN|53.86||0.625|TWO_SIDED|95.0|-132.76|79.94|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||79.94|-132.76|0.625
92299250|NCT02985879|184502900|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|33.2|STANDARD_ERROR_OF_MEAN|55.47|=|0.55|TWO_SIDED|95.0|-76.34|142.71|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||142.71|-76.34|=0.550
92299251|NCT02985879|184502901|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|1739.1|STANDARD_ERROR_OF_MEAN|2502.95|=|0.488|TWO_SIDED|95.0|-3201.75|6680.02|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||6680.02|-3201.75|=0.488
92299252|NCT02985879|184502901|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|3684.9|STANDARD_ERROR_OF_MEAN|2487.32|=|0.14|TWO_SIDED|95.0|-1225.46|8595.29|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||8595.29|-1225.46|=0.140
92299253|NCT02985879|184502902|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|207.9|STANDARD_ERROR_OF_MEAN|592.68|=|0.726|TWO_SIDED|95.0|-962.98|1378.88|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||1378.88|-962.98|=0.726
92299254|NCT02985879|184502902|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|133.6|STANDARD_ERROR_OF_MEAN|611.91|=|0.828|TWO_SIDED|95.0|-1075.26|1342.4|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||1342.40|-1075.26|=0.828
92299255|NCT03660241|184502970|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|138.49|||||TWO_SIDED|90.0|93.74|204.61|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group.||204.61|93.74|
92299256|NCT03660241|184502970|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|99.11|||||TWO_SIDED|90.0|57.3|171.43|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||171.43|57.30|
92146473|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.73||||0.014|TWO_SIDED|95.0|0.57|0.94|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 4||0.94|0.57|0.014
92299257|NCT03660241|184502971|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|182.91|||||TWO_SIDED|90.0|117.09|285.71|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||285.71|117.09|
92299258|NCT03660241|184502971|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|121.32|||||TWO_SIDED|90.0|68.32|215.41|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||215.41|68.32|
92146474|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.04||||0.755|TWO_SIDED|95.0|0.82|1.32|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 8||1.32|0.82|0.755
92146475|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77||||0.029|TWO_SIDED|95.0|0.6|0.97|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 8||0.97|0.60|0.029
92266779|NCT05182840|184434923|OTHER||Odds Ratio (OR)|4.05||||0|TWO_SIDED|95.0|2.39|6.86||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.86|2.39|0.0000
92266780|NCT05182840|184434923|OTHER||Odds Ratio (OR)|3.87||||0|TWO_SIDED|95.0|2.29|6.55||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.55|2.29|0.0000
92146476|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74||||0.015|TWO_SIDED|95.0|0.58|0.94|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 8||0.94|0.58|0.015
92146477|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.91||||0.468|TWO_SIDED|95.0|0.71|1.17|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 12||1.17|0.71|0.468
92266781|NCT05182840|184434924|OTHER||Odds Ratio (OR)|2.26||||0.0019|TWO_SIDED|95.0|1.35|3.77||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.77|1.35|0.0019
92266782|NCT05182840|184434924|OTHER||Odds Ratio (OR)|3.81||||0|TWO_SIDED|95.0|2.2|6.59||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.59|2.20|0.0000
92266783|NCT05182840|184434924|OTHER||Odds Ratio (OR)|3.67||||0|TWO_SIDED|95.0|2.12|6.35||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.35|2.12|0.0000
92266784|NCT05182840|184434925|OTHER||Odds Ratio (OR)|1.67||||0.0418|TWO_SIDED|95.0|1.02|2.74||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||2.74|1.02|0.0418
92266785|NCT05182840|184434925|OTHER||Odds Ratio (OR)|3.91||||0|TWO_SIDED|95.0|2.3|6.65||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.65|2.30|0.0000
92266786|NCT05182840|184434925|OTHER||Odds Ratio (OR)|3.58||||0|TWO_SIDED|95.0|2.11|6.05||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.05|2.11|0.0000
92266787|NCT05182840|184434926|OTHER||Odds Ratio (OR)|2.26||||0.0019|TWO_SIDED|95.0|1.35|3.77||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.77|1.35|0.0019
92146478|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.73||||0.011||95.0|0.57|0.93|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 12||0.93|0.57|0.011
92146479|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.64||||0|TWO_SIDED|95.0|0.5|0.82|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 12||0.82|0.50|0.000
92146480|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.95||||0.696|TWO_SIDED|95.0|0.74|1.22|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 24||1.22|0.74|0.696
92146481|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.81||||0.099|TWO_SIDED|95.0|0.64|1.04|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 24||1.04|0.64|0.099
92146482|NCT01218126|184177659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.86||||0.256|TWO_SIDED|95.0|0.67|1.11|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 24||1.11|0.67|0.256
92146483|NCT01218126|184177660|SUPERIORITY_OR_OTHER||Rate ratio|1.0||||0.989|TWO_SIDED|95.0|0.64|1.54|||Negative Binomial regression model|Covariates of treatment, group, smoking status, history of exacerbations and region, with logarithm of time on treatment as an offset variable.|Rate ratio= (Rate of exacerbation in Losmapimod 2.5 mg arm) / (Rate of exacerbation in placebo arm)|Losmapimod 2.5 mg versus Placebo||1.54|0.64|0.989
92146484|NCT01218126|184177660|SUPERIORITY_OR_OTHER||Rate ratio|0.98||||0.915||95.0|0.64|1.5|||Negative Binomial regression model|Covariates of treatment, group, smoking status, history of exacerbations and region, with logarithm of time on treatment as an offset variable.|Rate ratio= (Rate of exacerbation in Losmapimod 7.5 mg arm) / (Rate of exacerbation in placebo arm)|Placebo versus Losmapimod 7.5 mg||1.50|0.64|0.915
92146485|NCT01218126|184177660|SUPERIORITY_OR_OTHER||Rate ratio|0.74||||0.21|TWO_SIDED|95.0|0.47|1.18|||Negative Binomial regression model|Covariates of treatment, group, smoking status, history of exacerbations and region, with logarithm of time on treatment as an offset variable.|Rate ratio= (Rate of exacerbation in Losmapimod 15 mg arm) / (Rate of exacerbation in placebo arm)|Placebo versus Losmapimod 15 mg||1.18|0.47|0.210
92146486|NCT02963974|184177672|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analyzed CNC Word scores from 3 months through 24 months to evaluate change over time with device use. Scores were converted to Rau prior to analysis.||||< 0.001
92146487|NCT02963974|184177672|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||Analyzed pre-op to 3 month post activation CNC Word scores to test superiority of cochlear implant use to pre-operative hearing aid use.||||< 0.001
92146488|NCT02963974|184177674|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was \< 0.05. This was a two-way repeated measures ANOVA.|ANOVA|||Analyzed BKB-SIN SNR-50 scores at 12 months post activation to evaluate the impact of device use (CI off vs on) and masker location (front, to the affected ear, or to the normal hearing ear) on hearing in noise.||||< 0.001
92146489|NCT02963974|184177675|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analyzed BKB-SIN SNR-50 scores across all time points (6, 12, and 24 months post activation) to evaluate the impact of time, device use (CI off vs on), and masker location (front, to the affected ear, or to the normal hearing ear) on hearing in noise.||||< 0.001
92146490|NCT02963974|184177679|SUPERIORITY|||||||0.01911||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analyzed overall RMS error at 3, 9, 18, and 24 months post activation to evaluate the impact of device use (CI off vs on) and time on localization.||||0.01911
92146491|NCT02963974|184177680|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was p \< 0.05|Mixed Models Analysis|||Comparison of scores across time to investigate change in scores over time: Speech subtest.||||< 0.001
92266788|NCT05182840|184434926|OTHER||Odds Ratio (OR)|3.81||||0|TWO_SIDED|95.0|2.2|6.59||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.59|2.20|0.0000
92266789|NCT05182840|184434926|OTHER||Odds Ratio (OR)|3.67||||0|TWO_SIDED|95.0|2.12|6.35||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.35|2.12|0.0000
92266790|NCT05182840|184434927|OTHER||Odds Ratio (OR)|2.2||||0.0285|TWO_SIDED|95.0|1.09|4.45||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.45|1.09|0.0285
92299259|NCT03660241|184502972|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|99.51|||||TWO_SIDED|90.0|59.8|165.57|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||165.57|59.80|
92299260|NCT03660241|184502972|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|167.79|||||TWO_SIDED|90.0|97.2|289.64|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||289.64|97.20|
92299261|NCT03660241|184502973|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|154.22|||||TWO_SIDED|90.0|105.11|226.26|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||226.26|105.11|
92299262|NCT03660241|184502973|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|287.06|||||TWO_SIDED|90.0|196.72|418.89|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||418.89|196.72|
92299263|NCT03660241|184502974|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|137.43|||||TWO_SIDED|90.0|106.82|176.81|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||176.81|106.82|
92299264|NCT03660241|184502974|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|177.92|||||TWO_SIDED|90.0|135.91|232.92|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||232.92|135.91|
92146492|NCT02963974|184177680|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|||Comparison of scores across time to investigate change in scores over time: Spatial subtest.||||0.001
92299265|NCT03660241|184502975|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|269.78|||||TWO_SIDED|90.0|196.61|370.18|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||370.18|196.61|
92299266|NCT03660241|184502975|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|571.43|||||TWO_SIDED|90.0|447.27|730.05|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||730.05|447.27|
92299267|NCT03660241|184502980|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|133.87|||||TWO_SIDED|90.0|102.45|174.92|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||174.92|102.45|
92299268|NCT03660241|184502980|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|129.49|||||TWO_SIDED|90.0|92.86|180.57|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||180.57|92.86|
92299269|NCT03660241|184502981|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|210.2|||||TWO_SIDED|90.0|154.6|285.8|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||285.80|154.60|
92299270|NCT03660241|184502981|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|290.68|||||TWO_SIDED|90.0|217.39|388.69|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||388.69|217.39|
92299271|NCT03919448|184502989|EQUIVALENCE|The comparable bioavailability was achieved if 90 % confidence intervals (CIs) for the test-to-reference ratios of the geometric means of Cmax, Area Under the Serum Concentration-time Curve of Bevacizumab (ABC0-t) fell within the 80.00-125.00 % acceptance criteria.|Hazard Ratio (HR)|101.55||||0.9766|TWO_SIDED|90.0|90.19|114.34||Power of ANOVA: 0,93|ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||114.34|90.19|0.9766
92299272|NCT03919448|184502989|EQUIVALENCE|The comparable bioavailability was achieved if 90 % confidence intervals (CIs) for the test-to-reference ratios of the geometric means of Cmax, Area Under the Serum Concentration-time Curve of Bevacizumab (ABC0-t) fell within the 80.00-125.00 % acceptance criteria.|Hazard Ratio (HR)|100.95||||0.9766|TWO_SIDED|90.0|89.75|113.55||Power of ANOVA: 0,93|ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||113.55|89.75|0.9766
92299273|NCT03919448|184502989|EQUIVALENCE|As supplementary information, Test Product 1 vs. Test Product 2 shall also be compared. The comparable bioavailability was achieved if 90 % confidence intervals (CIs) for the test1-to-test2 ratios of the geometric means of Cmax, Area Under the Serum Concentration-time Curve of Bevacizumab (ABC0-t) fell within the 80.00-125.00 % acceptance criteria.|Hazard Ratio (HR)|100.59||||0.9766|TWO_SIDED|90.0|88.16|114.77|||ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||114.77|88.16|0.9766
92299274|NCT03919448|184502990|EQUIVALENCE|The comparable bioavailability was achieved if 90% confidence intervals (CIs) for the test to reference ratios of the geometric means of Cmax, Area under the serum concentration-time curve of bevacizumab (ABC0-t) fell within the 80.00-125.00% acceptance criteria.|Hazard Ratio (HR)|90.82||||0.3617|TWO_SIDED|90.0|81.21|101.57||Power of ANOVA: 0,95|ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||101.57|81.21|0.3617
92299275|NCT03919448|184502990|EQUIVALENCE|The comparable bioavailability was achieved if 90% confidence intervals (CIs) for the test to reference ratios of the geometric means of Cmax, Area under the serum concentration-time curve of bevacizumab (ABC0-t) fell within the 80.00-125.00% acceptance criteria.|Hazard Ratio (HR)|94.87||||0.3617|TWO_SIDED|90.0|84.91|105.99||Power of ANOVA: 0.95|ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||105.99|84.91|0.3617
92146493|NCT02963974|184177680|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|||Comparison of scores across time to investigate change in scores over time: Qualities subtest.||||< 0.001
92146494|NCT02963974|184177681|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was p \< 0.05|Mixed Models Analysis|||Comparison of scores over time.||||< 0.001
92299276|NCT03919448|184502990|EQUIVALENCE|As supplementary information, Test Product 1 vs. Test Product 2 shall also be compared. The comparable bioavailability was achieved if 90 % confidence intervals (CIs) for the test1-to-test2 ratios of the geometric means of Cmax, Area under the serum concentration-time curve of bevacizumab (ABC0-t) fell within the 80.00-125.00 % acceptance criteria.|Hazard Ratio (HR)|95.73||||0.3617|TWO_SIDED|90.0|84.82|108.05|||ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||108.05|84.82|0.3617
92299277|NCT03919448|184502991|EQUIVALENCE|80.00-125.00% acceptance criteria.|Hazard Ratio (HR)|90.46||||0.3529|TWO_SIDED|90.0|80.64|101.47||Power of ANOVA: 0.94|ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||101.47|80.64|0.3529
92299278|NCT03919448|184502991|EQUIVALENCE|80.00-125.00% acceptance criteria.|Hazard Ratio (HR)|95.02||||0.3529|TWO_SIDED|90.0|84.8|106.49||Power of ANOVA: 0.94|ANOVA|||||106.49|84.80|0.3529
92299279|NCT03919448|184502991|EQUIVALENCE|As supplementary information, Test Product 1 vs. Test Product 2 shall also be compared. The comparable bioavailability was achieved if 90 % confidence intervals (CIs) for the test1-to-test2 ratios of the geometric means of Cmax, Area under the serum concentration-time curve of bevacizumab (ABC0-t) fell within the 80.00-125.00 % acceptance criteria.|Hazard Ratio (HR)|95.19||||0.3529|TWO_SIDED|90.0|84.17|107.67|||ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||107.67|84.17|0.3529
92299280|NCT01567826|184503012|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANCOVA|||||||0.01
92299281|NCT01567826|184503013|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANCOVA|||||||0.02
92299282|NCT01612884|184503020|OTHER|Student's T-test||||||0.85|||||||t-test, 2 sided|||||||0.85
92299283|NCT01612884|184503021|OTHER|Chi-Square||||||0.93|||||||Chi-squared|||||||0.93
92299284|NCT01612884|184503022|OTHER|Chi-Square|||||>|0.05|||||||Chi-squared|||||||>0.05
92299285|NCT03923699|184503052|SUPERIORITY||Risk Ratio (RR)|0.96||||0.41|TWO_SIDED|95.0|0.85|1.08||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.08|0.85|0.41
92299286|NCT03923699|184503053|SUPERIORITY||Risk Ratio (RR)|1.0||||0.92|TWO_SIDED|95.0|0.92|1.1||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.10|0.92|0.92
92299287|NCT03923699|184503054|SUPERIORITY||Risk Ratio (RR)|0.98||||0.68|TWO_SIDED|95.0|0.89|1.09||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.09|0.89|0.68
92299288|NCT03923699|184503055|SUPERIORITY||Risk Ratio (RR)|0.98||||0.42|TWO_SIDED|95.0|0.92|1.05||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.05|0.92|0.42
92299289|NCT03923699|184503056|SUPERIORITY||Risk Ratio (RR)|1.0||||0.99|TWO_SIDED|95.0|0.98|1.02||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.02|0.98|0.99
92299290|NCT03923699|184503057|SUPERIORITY||Risk Ratio (RR)|1.0||||0.95|TWO_SIDED|95.0|0.95|1.05||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.05|0.95|0.95
92299291|NCT03923699|184503058|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.29|TWO_SIDED|95.0|0.0|0.0||Not adjusted for multiple comparisons.|Regression, Linear|||||0.00|-0.00|0.29
92146495|NCT02963974|184177682|SUPERIORITY|||||||0.1009||||||The a priori threshold for statistical significance was p \< 0.05|Mixed Models Analysis|||Comparison of scores to evaluation change over time: General Fatigue Subtest||||0.1009
92299292|NCT03923699|184503059|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.37|TWO_SIDED|95.0|-0.01|0.0||Not adjusted for multiple comparisons.|Regression, Linear|||||0.00|-0.01|0.37
92299293|NCT03923699|184503060|SUPERIORITY||Risk Ratio (RR)|1.03||||0.3|TWO_SIDED|95.0|0.95|1.13||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.13|0.95|0.30
92299294|NCT03923699|184503061|SUPERIORITY||Risk Ratio (RR)|1.0||||0.85|TWO_SIDED|95.0|0.98|1.02||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.02|0.98|0.85
92299295|NCT03923699|184503062|SUPERIORITY||Risk Ratio (RR)|0.99||||0.51|TWO_SIDED|95.0|0.97|1.02||Not adjusted for multiple comparisons.|Regression, poisson|||||1.02|0.97|0.51
92299296|NCT04578886|184503063|SUPERIORITY||Mean Difference (Final Values)|3.4|STANDARD_DEVIATION|3.7||0.22|TWO_SIDED|95.0|2.3|4.4|||t-test, 2 sided|||||4.4|2.3|0.22
92299297|NCT04578886|184503063|SUPERIORITY||Risk Ratio (RR)|1.3307||||0.015|TWO_SIDED|95.0|1.0571|1.6751||unadjusted for covariates|Regression, Linear|||"Null Hypothesis: The administration of guanfacine in critically ill patients in the intensive unit has no effect on the duration of delirium.~Continuous variables will be summarized using sample mean and sample variance whereas categorical variables will be summarized as proportions. Logistic regression models will examine whether age, gender, or comorbities associated with incidence of delirium when Guanfacine is administered."||1.6751|1.0571|0.0150
92146496|NCT02963974|184177682|SUPERIORITY|||||||0.109||||||The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|||Comparison of scores to evaluation change over time: Sleep Fatigue Subtest||||0.109
92146497|NCT02963974|184177682|SUPERIORITY|||||||0.1733||||||The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|||Comparison of scores to evaluation change over time: Cognitive Fatigue Subtest||||0.1733
92146498|NCT05380947|184177683|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T1/R)|135.2|||||TWO_SIDED|90.0|99.7|183.6|||||Unit of adjusted geometric means ratio (T1/R) is %. Unit of 90% Confidence Interval is %. Intra-individual geometric coefficient of variation (gCV) = 39.7%|||183.6|99.7|
92185843|NCT01075152|184270538|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.66||||0.04|TWO_SIDED|95.0|1.03|2.68|||Regression, Cox|||We compared the randomization arms for survival using time-to-event methods of Cox proportional hazards models.||2.68|1.03|0.04
92299298|NCT05611996|184503067|SUPERIORITY||Mean Difference (Net)|-1.783|STANDARD_ERROR_OF_MEAN|0.772||0.025|TWO_SIDED|95.0|-3.336|-0.23||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis||Score difference = Post-intervention - Baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to post-intervention for all study participants.||-0.230|-3.336|0.025
92146499|NCT05380947|184177683|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T2/T1)|74.2|||||TWO_SIDED|90.0|67.6|81.6|||||Unit of adjusted geometric means ratio (T2/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual geometric coefficient of variation (gCV) = 9.8%|||81.6|67.6|
92146500|NCT05380947|184177683|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T3/T1)|97.1|||||TWO_SIDED|90.0|85.8|110.0|||||Unit of adjusted geometric means ratio (T3/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual geometric coefficient of variation (gCV) = 13.8%|||110.0|85.8|
92146501|NCT05380947|184177684|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T1/R)|139.3|||||TWO_SIDED|90.0|87.7|221.3|||||Unit of adjusted geometric means ratio (T1/R) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) = 62.3%|||221.3|87.7|
92146502|NCT05380947|184177684|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T2/T1)|53.5|||||TWO_SIDED|90.0|40.5|70.8|||||Unit of adjusted geometric means ratio (T2/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) = 31.0%|||70.8|40.5|
92146503|NCT05380947|184177684|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T3/T1)|87.0|||||TWO_SIDED|90.0|66.8|113.2|||||Unit of adjusted geometric means ratio (T3/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) = 30.5%|||113.2|66.8|
92146504|NCT05380947|184177685|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T1/R)|129.1|||||TWO_SIDED|90.0|96.2|173.4|||||Unit of adjusted geometric means ratio (T1/R) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) =36.6%|||173.4|96.2|
92146505|NCT05380947|184177685|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T2/T1)|74.9|||||TWO_SIDED|90.0|68.6|81.7|||||Unit of adjusted geometric means ratio (T2/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) = 9.0%|||81.7|68.6|
92299299|NCT05611996|184503067|SUPERIORITY||Mean Difference (Net)|-2.42|STANDARD_ERROR_OF_MEAN|0.814||0.005|TWO_SIDED|95.0|-4.057|-0.784||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis||Score difference = 3-month - Baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to 3-month for all study participants.||-0.784|-4.057|0.005
92299300|NCT05611996|184503067|SUPERIORITY||Mean Difference (Net)|-0.5468|STANDARD_ERROR_OF_MEAN|0.1744||0.004|TWO_SIDED|95.0|-0.9039|-0.1897||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis||The mean difference of the PHQ-9 score by each unit increase of the time(each week increase)|Null hypothesis: There is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores over time for all study participants.||-0.1897|-0.9039|0.0040
92299301|NCT03053583|184503068|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|||Posthoc analysis of POGO scores were compared using the Kruskall Wallis test with Mann-WHitney test for pairwise comparisons||||<0.05
92299302|NCT04479475|184503107|OTHER|The Wilcoxon signed-rank test is a non-parametric statistical test. We used it to assess repeated measures of missed methadone doses.|Mean Difference (Final Values)|7.9|STANDARD_DEVIATION|10.8||0.0094|TWO_SIDED|||||Exact p-value reported due to small sample size|Wilcoxon signed-rank test||We opted not to include the 95% confidence interval due to the non-parametric nature of the data.|||||0.0094
92299303|NCT05363683|184503109|SUPERIORITY|||||||0.293|||||||ANCOVA|||||||0.293
92299304|NCT05363683|184503111|SUPERIORITY|||||||0.114|||||||ANCOVA|||||||0.114
92299305|NCT05363683|184503112|SUPERIORITY|||||||0.017|||||||ANCOVA|||||||0.017
92299306|NCT05363683|184503113|SUPERIORITY|||||||0.021|||||||ANCOVA|||||||0.021
92299307|NCT05363683|184503114|SUPERIORITY|||||||0.936|||||||Wilcoxon (Mann-Whitney)|||||||0.936
92299308|NCT05363683|184503115|SUPERIORITY|||||||0.867|||||||Wilcoxon (Mann-Whitney)|||||||0.867
92299309|NCT05363683|184503116|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.370
92299310|NCT05363683|184503117|SUPERIORITY|||||||0.379|||||||Wilcoxon (Mann-Whitney)|||||||0.379
92299311|NCT00619359|184503127|NON_INFERIORITY_OR_EQUIVALENCE|If the CI for the difference in response rates (Fosaprepitant minus Aprepitant), calculated using the methodology of Miettinen and Nurminen, had a lower limit ≥7 percentage points, fosaprepitant was considered at least as effective as aprepitant for Complete Response in the overall phase. Study had 90% power to detect non-inferiority for this outcome measure.|Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|3.7||||95.0|-4.1|3.3||||||||3.3|-4.1|
92299312|NCT00619359|184503128|NON_INFERIORITY_OR_EQUIVALENCE|If the CI for the difference in response rates, calculated using the methodology of Miettinen and Nurminen, had a lower limit ≥7.3 percentage points, fosaprepitant was considered at least as effective as aprepitant for Complete Response in the delayed phase.|Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|3.6||||95.0|-3.5|3.7||||||||3.7|-3.5|
92299313|NCT00619359|184503129|NON_INFERIORITY_OR_EQUIVALENCE|If the CI for the difference in response rates, calculated using the methodology of Miettinen and Nurminen, had a lower limit ≥8.2 percentage points, fosaprepitant was considered at least as effective as aprepitant for No Vomiting in the overall phase.|Risk Difference (RD)|-1.7|STANDARD_ERROR_OF_MEAN|3.6||||95.0|-5.3|2.0||||||||2.0|-5.3|
92299314|NCT05575063|184503134|NON_INFERIORITY|All analyzed numbers are in percentage. The success criterion for the primary safety endpoint was met (Safety Population), as the investigational device (HEALON EndoCoat OVD) demonstrated non-inferiority to the control device (HEALON EndoCoat OVD) with respect to the difference in IOP spike rate, estimated to be 0.08% (with the 95% confidence interval of \[-5.07%; 5.23%\]).|Not Measured|0.08|STANDARD_ERROR_OF_MEAN|2.63|||TWO_SIDED|95.0|-5.07|5.23|||Mixed Models Analysis||All values in this section are in percentage.|||5.23|-5.07|
92299315|NCT05575063|184503135|NON_INFERIORITY|All analyzed numbers are in percentage. The success criterion for the primary effectiveness endpoint was met (modified ITT Population) as the investigational device (HEALON EndoCoat OVD) demonstrated non-inferiority to the control device (HEALON EndoCoat OVD) with respect to the difference in mean ECC percent change, estimated to be -0.50% (with the 95% confidence interval of \[-3.37%; 2.37%\]).|Difference in Percent Change|-0.5|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-3.37|2.37|||Mixed Models Analysis||All values are in percentage.|||2.37|-3.37|
92299316|NCT00484419|184503137|SUPERIORITY_OR_OTHER|||||||0.0061||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||0.0061
92299317|NCT00484419|184503137|SUPERIORITY_OR_OTHER|||||||0.109||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||0.1090
92299318|NCT00484419|184503137|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||<0.0001
92299319|NCT00484419|184503138|SUPERIORITY_OR_OTHER|||||||0.0234||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||0.0234
92299320|NCT00484419|184503138|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||<0.0001
92299321|NCT00484419|184503138|SUPERIORITY_OR_OTHER|||||||0.0011||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||0.0011
92299322|NCT00484419|184503141|SUPERIORITY_OR_OTHER|||||||0.0077||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0077
92299323|NCT00484419|184503141|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0004
92299324|NCT00484419|184503141|SUPERIORITY_OR_OTHER|||||||0.0483||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0483
92299325|NCT00484419|184503142|SUPERIORITY_OR_OTHER|||||||0.0133||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0133
92299326|NCT00484419|184503142|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0004
92299327|NCT00484419|184503142|SUPERIORITY_OR_OTHER|||||||0.0125||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0125
92299328|NCT00484419|184503145|SUPERIORITY_OR_OTHER|||||||0.8596||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.8596
92299329|NCT00484419|184503145|SUPERIORITY_OR_OTHER|||||||0.0257||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0257
92299330|NCT00484419|184503145|SUPERIORITY_OR_OTHER|||||||0.1862||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.1862
92299331|NCT00484419|184503146|SUPERIORITY_OR_OTHER|||||||0.7094||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.7094
92299332|NCT00484419|184503146|SUPERIORITY_OR_OTHER|||||||0.1394||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.1394
92299333|NCT00484419|184503146|SUPERIORITY_OR_OTHER|||||||0.4528||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.4528
92299334|NCT00484419|184503148|SUPERIORITY_OR_OTHER|||||||0.0374||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0374
92299335|NCT00484419|184503148|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||<0.0001
92299336|NCT00484419|184503148|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0001
92299337|NCT00484419|184503149|SUPERIORITY_OR_OTHER|||||||0.2701||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.2701
92299338|NCT00484419|184503149|SUPERIORITY_OR_OTHER|||||||0.6117||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.6117
92299339|NCT00484419|184503149|SUPERIORITY_OR_OTHER|||||||0.2007||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.2007
92299340|NCT00484419|184503151|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||<0.0001
92299341|NCT00484419|184503151|SUPERIORITY_OR_OTHER|||||||0.1864||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.1864
92299342|NCT00484419|184503151|SUPERIORITY_OR_OTHER|||||||0.0999||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0999
92299343|NCT00484419|184503152|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||<0.0001
92299344|NCT00484419|184503152|SUPERIORITY_OR_OTHER|||||||0.0566||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0566
92299345|NCT00484419|184503152|SUPERIORITY_OR_OTHER|||||||0.0217||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0217
92299346|NCT00285584|184503169|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.5||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.9
92299347|NCT00285584|184503170|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.5||||0.3|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank test||||0.3
92299348|NCT00285584|184503171|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.15||||0.3|TWO_SIDED|95.0|0.4|27.8|||Fisher Exact|||Comparison of cumulative incidence proportions||27.8|0.4|0.3
92299349|NCT00285584|184503172|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.5||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
92299350|NCT02709486|184503191|SUPERIORITY|Step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.18||0.0088|TWO_SIDED|95.0|-0.81|-0.12||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. Analysis of covariance (ANCOVA) model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.12|-0.81|0.0088
92299351|NCT02709486|184503191|SUPERIORITY|A step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. A tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.18||0.0006|TWO_SIDED|95.0|-0.97|-0.26||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.26|-0.97|0.0006
92299352|NCT02709486|184503192|SUPERIORITY|Step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.18||0.0008|TWO_SIDED|95.0|-0.93|-0.24||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.24|-0.93|0.0008
92299353|NCT02709486|184503192|SUPERIORITY|Step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.05|-0.36||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.36|-1.05|<.0001
92146506|NCT05380947|184177685|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T3/T1)|96.9|||||TWO_SIDED|90.0|85.3|110.2|||||Unit of adjusted geometric means ratio (T3/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) = 14.2%|||110.2|85.3|
92146507|NCT01563536|184177696|SUPERIORITY_OR_OTHER||Mean Difference (Maximal Decrease)|-1.5||||0.035|TWO_SIDED|95.0|-2.81|-0.13||Pre-specified 2-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with the baseline log10 HCV RNA values as a covariate and with an effect for treatment arm.||||-0.13|-2.81|0.035
92146508|NCT01860703|184177698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.01|||||TWO_SIDED|90.0|1.02|5.01||||||||5.01|1.02|
92146509|NCT01860703|184177704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.23|||||TWO_SIDED|90.0|3.26|7.19||||||||7.19|3.26|
92146510|NCT01860703|184177707|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|13.42|||||TWO_SIDED|90.0|11.1|15.75||||||||15.75|11.10|
92146511|NCT02532556|184177710|SUPERIORITY||||||<|0.05|||||||Wilcoxan signed-rank test|||||||<0.05
92146512|NCT02532556|184177711|SUPERIORITY||||||<|0.05|||||||Wilcoxan signed-rank test|||||||<0.05
92299354|NCT02709486|184503193|SUPERIORITY|A step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. A tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.1092|TWO_SIDED|95.0|-0.24|0.02||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||0.02|-0.24|0.1092
92299355|NCT02709486|184503193|SUPERIORITY|A step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. A tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.07||0.0051|TWO_SIDED|95.0|-0.32|-0.06||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.32|0.0051
92299356|NCT02709486|184503194|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.94|-0.4|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.40|-0.94|<.0001
92299357|NCT02709486|184503194|SUPERIORITY||Least Square Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.14||0.0149|TWO_SIDED|95.0|-0.61|-0.07|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.07|-0.61|0.0149
92299358|NCT02709486|184503194|SUPERIORITY||Least Square Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.08|-0.5|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.08|<.0001
92299359|NCT02709486|184503194|SUPERIORITY||Least Square Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.07|-0.5|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.07|<.0001
92299360|NCT02709486|184503194|SUPERIORITY||Least Square Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.92|-0.32|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.32|-0.92|<.0001
92146513|NCT00538590|184177725|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||ANOVA|||Null hypothesis: post-operative intraocular pressure change in ologen group is equal to that in Mitomycin-C group.||||0.95
92146514|NCT00538590|184177727|SUPERIORITY_OR_OTHER|||||||1||95.0|||||ANOVA|||Null hypothesis: post-operative intraocular pressure change in ologen group is equal to that in Mitomycin-C group.||||1.00
92299361|NCT02709486|184503194|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.07|-0.47|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.47|-1.07|<.0001
92299362|NCT02709486|184503194|SUPERIORITY||Least Square Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.05|-0.39|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-1.05|<.0001
92146515|NCT00538590|184177728|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||ANOVA|||Null hypothesis: post-operative intraocular pressure change in ologen group is equal to that in Mitomycin-C group.||||0.40
92146516|NCT00538590|184177729|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||ANOVA|||Null hypothesis: post-operative intraocular pressure change in ologen group is equal to that in Mitomycin-C group.||||0.91
92146517|NCT00567190|184177737|SUPERIORITY||Cox Proportional Hazard|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.75||Tested at two-sided 5% significance level|Log Rank (stratified)|Stratified by prior treatment status and region|Hazard ratio is comparing Pertuzumab arm with Placebo arm.|The null hypothesis (H0) was that the survival distributions of PFS in the two treatments arms (pertuzumab vs. placebo) are the same. The alternative hypothesis (H1) was that the survival distribution of PFS in the experimental arm (pertuzumab) and control arm (placebo) are different.||0.75|0.51|<0.0001
92299363|NCT02709486|184503194|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.09|-0.44|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.44|-1.09|<.0001
92299364|NCT02709486|184503194|SUPERIORITY||Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.17||0.0005|TWO_SIDED|95.0|-0.93|-0.26|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.26|-0.93|0.0005
92299365|NCT02709486|184503194|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17||0.0004|TWO_SIDED|95.0|-0.93|-0.27|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.27|-0.93|0.0004
92299366|NCT02709486|184503196|SUPERIORITY||Least Square Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.95|-0.42|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.42|-0.95|<.0001
92299367|NCT02709486|184503196|SUPERIORITY||Least Square Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.14||0.0014|TWO_SIDED|95.0|-0.7|-0.17|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.17|-0.70|0.0014
92146518|NCT00567190|184177737|SUPERIORITY||Cox Proportional Hazard|0.63|||<|0.0001|TWO_SIDED|95.0|0.52|0.76||Tested at two-sided 5% significance level|Log Rank (unstratified)|Unstratified|Hazard ratio is comparing Pertuzumab arm with Placebo arm.|The null hypothesis (H0) was that the survival distributions of PFS in the two treatments arms (pertuzumab vs. placebo) are the same. The alternative hypothesis (H1) was that the survival distribution of PFS in the experimental arm (pertuzumab) and control arm (placebo) are different.||0.76|0.52|<0.0001
92146519|NCT00567190|184177738|SUPERIORITY|Exploratory|Cox Proportional Hazard|0.69|||<|0.0001|TWO_SIDED|95.0|0.58|0.82||Exploratory|Log Rank (stratified)|Stratified by prior treatment status and region.|Hazard ratio is comparing Pertuzumab arm with Placebo arm.|End-of-Study OS Analysis: This end-of-study OS analysis is considered exploratory only as the confirmatory OS analysis for statistical interpretation had previously occurred at the second interim OS analysis.||0.82|0.58|<0.0001
92146520|NCT00567190|184177738|SUPERIORITY|Exploratory|Cox Proportional Hazard|0.68||||0.0002|TWO_SIDED|95.0|0.56|0.84||Exploratory|Log Rank (stratified)|Stratified by prior treatment status and region.|Hazard ratio is comparing Pertuzumab arm with Placebo arm.|Event-Driven Final OS Analysis: This final OS analysis was event-driven and planned to take place after a total of 385 deaths had occurred. It is considered exploratory only as the confirmatory OS analysis for statistical interpretation had previously occurred at the second interim OS analysis.||0.84|0.56|0.0002
92146521|NCT00567190|184177738|SUPERIORITY||Cox Proportional Hazard|0.66||||0.0008|TWO_SIDED|95.0|0.52|0.84||The threshold for statistical significance was HR≤0.739, p≤0.0138.|Log Rank (stratified)|Stratified by prior treatment status and region.|Hazard ratio (HR) is comparing Pertuzumab arm with Placebo arm.|Second Interim OS Analysis: For this second interim OS analysis, the pre-defined O'Brien-Fleming stopping boundary for the Lan-DeMets α-spending function was: HR≤0.739, p≤0.0138.||0.84|0.52|0.0008
92146522|NCT00567190|184177738|SUPERIORITY||Cox Proportional Hazard|0.64||||0.005|TWO_SIDED|95.0|0.47|0.88||The threshold for statistical significance was HR≤0.603, p≤0.0012.|Log Rank (stratified)|Stratified by prior treatment status and region.|Hazard ratio (HR) is comparing pertuzumab with placebo arms.|First Interim OS Analysis: For this first interim OS analysis, the pre-defined O'Brien-Fleming stopping boundary for the Lan-DeMets α-spending function was: HR≤0.603, p≤0.0012.||0.88|0.47|0.0050
92299368|NCT02709486|184503196|SUPERIORITY||Least Square Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.09|-0.53|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.53|-1.09|<.0001
92299369|NCT02709486|184503196|SUPERIORITY||Least Square Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.08|-0.51|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.51|-1.08|<.0001
92146523|NCT00567190|184177739|SUPERIORITY||Cox Proportional Hazard|0.69|||<|0.0001|TWO_SIDED|95.0|0.59|0.81|||Log Rank (stratified)|Stratified by prior treatment status and region.|Hazard ratio is comparing Pertuzumab arm with Placebo arm.|PFS by Investigator - Stratified||0.81|0.59|<0.0001
92146524|NCT00567190|184177740|SUPERIORITY||Difference in Objective Response Rates|10.83||||0.0011|TWO_SIDED|95.0|4.2|17.5|||Mantel Haenszel|Stratified by prior treatment status and region.|Difference in the objective response rates between arms is calculated as Pertuzumab arm minus Placebo arm. The 95% CI was calculated using the Hauck-Anderson method.|Difference in Objective Response (CR + PR) Between Arms||17.5|4.2|0.0011
92146525|NCT00567190|184177740|SUPERIORITY||Odds Ratio (OR)|1.79|||||TWO_SIDED|95.0|1.26|2.54||||||Odds Ratio for Objective Response (CR + PR)||2.54|1.26|
92299370|NCT02709486|184503196|SUPERIORITY||Least Square Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.93|-0.33|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.33|-0.93|<.0001
92299371|NCT02709486|184503196|SUPERIORITY||Least Square Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.06|-0.47|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.47|-1.06|<.0001
92299372|NCT02709486|184503196|SUPERIORITY||Least Square Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.11|-0.46|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.46|-1.11|<.0001
92299373|NCT02709486|184503196|SUPERIORITY||Least Square Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.15|-0.5|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.15|<.0001
92299374|NCT02709486|184503196|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.0|-0.34|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.34|-1.00|<.0001
92299375|NCT02709486|184503196|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.0|-0.35|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-1.00|<.0001
92146526|NCT00567190|184177741|SUPERIORITY||Cox Proportional Hazard|0.66|||||TWO_SIDED|95.0|0.51|0.85||||||||0.85|0.51|
92146527|NCT00567190|184177742|SUPERIORITY||Cox Proportional Hazard|0.97||||0.7161|TWO_SIDED|95.0|0.81|1.16||Stratified by prior treatment status and region.|Log Rank (stratified)||Hazard ratio is comparing Pertuzumab arm with Placebo arm.|||1.16|0.81|0.7161
92299376|NCT02709486|184503198|SUPERIORITY||Least Square Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.33|-0.12|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.12|-0.33|<.0001
92299377|NCT02709486|184503198|SUPERIORITY||Least Square Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.05||0.0022|TWO_SIDED|95.0|-0.27|-0.06|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.27|0.0022
92299378|NCT02709486|184503198|SUPERIORITY||Least Square Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.35|-0.14|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.14|-0.35|<.0001
92299379|NCT02709486|184503198|SUPERIORITY||Least Square Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.43|-0.22|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.22|-0.43|<.0001
92146528|NCT00567190|184177751|OTHER|||||||0.7174|||||||Wilcoxon Rank Sum Test|||Wilcoxon Test of Maximum Decrease in LVEF From BL||||0.7174
92146529|NCT03184792|184177781|SUPERIORITY||Mean Difference (Final Values)|9.5|||<|0|TWO_SIDED|95.0|6.6|12.4|||ANOVA|||||12.4|6.6|<0.000
92146530|NCT03184792|184177781|SUPERIORITY||Median Difference (Final Values)|10.4||||0.01|TWO_SIDED|95.0|3.7|17.0|||t-test, 2 sided|||||17.0|3.7|0.010
92146531|NCT03184792|184177782|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92146532|NCT02453685|184177790|SUPERIORITY_OR_OTHER||Treatment difference at week 32|0.18||||0.0435|TWO_SIDED|95.0|0.01|0.36|||Mixed Models Analysis||"'Treatment difference' refers to BIAsp 30 minus Basal-bolus"|Analysis was performed using mixed model repeated measurements including treatment, region, and strata as fixed effects, HbA1c at baseline as covariate, interactions between all fixed effects and visit and using an unstructured residual covariance matrix.||0.36|0.01|0.0435
92185844|NCT01075152|184270539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.26|||||||Fisher Exact|||Categorical secondary endpoints were compared with Fisher's exact tests.||||0.26
92185845|NCT01075152|184270540|SUPERIORITY_OR_OTHER_LEGACY|||||||0.23|||||||Fisher Exact|||Categorical secondary endpoints were compared with Fisher's exact tests.||||0.23
92299380|NCT02709486|184503198|SUPERIORITY||Least Square Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.0029|TWO_SIDED|95.0|-0.28|-0.06|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.28|0.0029
92299381|NCT02709486|184503198|SUPERIORITY||Least Square Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.37|-0.15|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.15|-0.37|<.0001
92299382|NCT02709486|184503198|SUPERIORITY||Least Square Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.4|-0.17|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.17|-0.40|<.0001
92299383|NCT02709486|184503198|SUPERIORITY||Least Square Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.43|-0.2|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.20|-0.43|<.0001
92299384|NCT02709486|184503198|SUPERIORITY||Least Square Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.0352|TWO_SIDED|95.0|-0.26|-0.01|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.01|-0.26|0.0352
92185846|NCT01075152|184270541|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34|||||||repeated measure analysis|||The overall change from baseline in Karnofsky performance status scores was compared between groups via a repeated measure analysis, unstructured covariance matrix, adjusted for baseline value.||||0.34
92185847|NCT01075152|184270542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44|||||||Regression, Linear|a linear mixed effects regression model fit with a random intercept and slope estimated the rate of clearance||To describe early fungicidal activity, a linear mixed effects regression model fit with a random intercept and slope estimated the rate of clearance of log10 colony forming units (CFU) of Cryptococcus, per mL of CSF per day, for all participants with \>2 cultures obtained.||||0.44
92185848|NCT01075152|184270543|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||||||This is the interaction p-value for CSF white cell count at randomization (implying there is a statistical difference in the outcome by arm based on this parameter).|Regression, Cox|||Pre-specified subgroups formed by baseline characteristics were compared for 26 week survival with models including an interaction term between treatment arm and subgroup.||||0.02
92185849|NCT03659136|184270552|OTHER||Hazard Ratio (HR)|1.19||||0.6534|TWO_SIDED|95.0|0.55|2.59|||Log-rank test|Two-sided log-rank test stratified for presence of baseline bone-only metastases, prior (CDK) 4/6 inhibitor treatment and menopause status.|Comparison vs. Placebo+Everolimus+Exemestane.|Cox proportional hazards model stratified for presence of baseline bone-only metastases, prior cyclin-dependent kinase (CDK) 4/6 inhibitor treatment and menopause status.||2.59|0.55|0.6534
92185850|NCT03659136|184270553|OTHER||Hazard Ratio (HR)|0.5||||0.1797|TWO_SIDED|95.0|0.18|1.4|||Log rank test|Two-sided log-rank test stratified for presence of baseline bone-only metastases, prior CDK 4/6 inhibitor treatment and menopause status.|Comparison vs. Placebo+Everolimus+Exemestane.|Cox proportional hazards model stratified for presence of baseline bone-only metastases, prior cyclin-dependent kinase (CDK) 4/6 inhibitor treatment and menopause status.||1.40|0.18|0.1797
92185851|NCT03659136|184270554|OTHER||Odds Ratio (OR)|1.31||||0.4932|TWO_SIDED|95.0|0.6|2.86|||Regression, Logistic|Logistic regression model adjusted for presence of baseline bone-only metastases, prior CDK 4/6 inhibitor treatment and menopause status.|Comparison vs. Placebo+everolimus+exemestane. An odds ratio \>1 indicates a benefit to the xentuzumab arm.|||2.86|0.60|0.4932
92299385|NCT02709486|184503198|SUPERIORITY||Least Square Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.37|-0.13|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.13|-0.37|<.0001
92299386|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|2.23|||<|0.0001|TWO_SIDED|95.0|1.59|3.14|||Regression, Logistic|||Week 2: Odds ratio and 95 percent (%) confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.14|1.59|<.0001
92299387|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0085|TWO_SIDED|95.0|1.12|2.18|||Regression, Logistic|||Week 2: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.18|1.12|0.0085
92185852|NCT03659136|184270556|OTHER||Odds Ratio (OR)|1.2||||0.7759|TWO_SIDED|95.0|0.34|4.43|||Regression, Logistic|Logistic regression model adjusted for presence of baseline bone-only metastases, prior CDK 4/6 inhibitor treatment and menopause status.|Comparison vs. Placebo+everolimus+exemestane. An odds ratio \>1 indicates a benefit to the xentuzumab arm.|||4.43|0.34|0.7759
92299388|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|2.71|||<|0.0001|TWO_SIDED|95.0|1.89|3.88|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.88|1.89|<.0001
92299389|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|2.31|||<|0.0001|TWO_SIDED|95.0|1.62|3.28|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.28|1.62|<.0001
92299390|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|1.91||||0.0005|TWO_SIDED|95.0|1.33|2.75|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.75|1.33|0.0005
92299391|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0005|TWO_SIDED|95.0|1.32|2.73|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.73|1.32|0.0005
92299392|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|1.94||||0.0009|TWO_SIDED|95.0|1.31|2.86|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.86|1.31|0.0009
92299393|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0008|TWO_SIDED|95.0|1.32|2.89|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.89|1.32|0.0008
92185853|NCT03659136|184270557|OTHER||Cox Proportional Hazard|0.97||||0.9279|TWO_SIDED|95.0|0.54|1.76|||Log Rank|Two-sided log-rank test stratified for presence of baseline bone-only metastases, prior CDK4/6 inhibitor treatment and menopause status.|Comparison versus Placebo+everolimus+exemestane.|Cox proportional hazards model stratified for presence of baseline bone-only metastases, prior cyclin-dependent kinase (CDK) 4/6 inhibitor treatment and menopause status.||1.76|0.54|0.9279
92185854|NCT05066230|184270558|SUPERIORITY||Difference of weighted percentages|39.7|||<|0.0001|TWO_SIDED|95.02|31.3|48.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by baseline DRSS level (≤level 47 vs. ≥level 53) and HbA1c level (≤8.5% vs. \>8.5%).|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||48.1|31.3|<0.0001
92185855|NCT05066230|184270559|SUPERIORITY||Difference of weighted percentages|-18.7|||<|0.0001|TWO_SIDED|95.02|-26.2|-11.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by baseline DRSS level (≤level 47 vs. ≥level 53) and HbA1c level (≤8.5% vs. \>8.5%).|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||-11.2|-26.2|<0.0001
92185856|NCT05066230|184270560|SUPERIORITY||Difference of weighted percentages|5.6||||0.0058|TWO_SIDED|95.02|1.6|9.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by baseline DRSS level (≤level 47 vs. ≥level 53), HbA1c level (≤8.5% vs. \>8.5%).|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||9.5|1.6|0.0058
92299394|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|2.06||||0.0002|TWO_SIDED|95.0|1.41|3.01|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.01|1.41|0.0002
92299395|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0022|TWO_SIDED|95.0|1.23|2.57|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment||2.57|1.23|0.0022
92299396|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|1.75||||0.0032|TWO_SIDED|95.0|1.21|2.54|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment||2.54|1.21|0.0032
92299397|NCT02709486|184503200|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0013|TWO_SIDED|95.0|1.27|2.69|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment||2.69|1.27|0.0013
92299398|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0006|TWO_SIDED|95.0|1.3|2.59|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.59|1.30|0.0006
92299399|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.53||||0.016|TWO_SIDED|95.0|1.08|2.16|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.16|1.08|0.0160
92299400|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0008|TWO_SIDED|95.0|1.34|3.07|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.07|1.34|0.0008
92299401|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.16||||0.5118|TWO_SIDED|95.0|0.75|1.8|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.80|0.75|0.5118
92299402|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.45||||0.0093|TWO_SIDED|95.0|1.25|4.81|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.81|1.25|0.0093
92185857|NCT05066230|184270561|SUPERIORITY||Difference of weighted percentages|-6.5||||0.0149|TWO_SIDED|95.02|-11.8|-1.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by baseline DRSS level (≤level 47 vs. ≥level 53) and HbA1c level (≤8.5% vs. \>8.5%).|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||-1.3|-11.8|0.0149
92185858|NCT00307489|184270573|SUPERIORITY_OR_OTHER|||||||0.544||95.0||||P-values were from a Cochran-Mantel-Haenszel test, controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||.544
92185859|NCT00307489|184270574|SUPERIORITY_OR_OTHER|||||||0.208||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|van Elteren|||||||0.208
92185860|NCT00307489|184270575|SUPERIORITY_OR_OTHER|||||||0.712||95.0||||Controlling for baseline HBeAg and prior lamivudine use.|van Elteren|||||||0.712
92185861|NCT00307489|184270576|SUPERIORITY_OR_OTHER|||||||0.988||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.988
92185862|NCT00307489|184270577|SUPERIORITY_OR_OTHER|||||||0.423||95.0||||Controlling for baseline HBeAg status and prior lamivudine use|Cochran-Mantel-Haenszel|||||||0.423
92266791|NCT05182840|184434927|OTHER||Odds Ratio (OR)|2.9||||0.0038|TWO_SIDED|95.0|1.41|5.96||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||5.96|1.41|0.0038
92266792|NCT05182840|184434927|OTHER||Odds Ratio (OR)|4.15||||0.0002|TWO_SIDED|95.0|1.97|8.72||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.72|1.97|0.0002
92266793|NCT05182840|184434928|OTHER||Odds Ratio (OR)|2.56||||0.0116|TWO_SIDED|95.0|1.23|5.31||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||5.31|1.23|0.0116
92266794|NCT05182840|184434928|OTHER||Odds Ratio (OR)|3.08||||0.0032|TWO_SIDED|95.0|1.46|6.52||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.52|1.46|0.0032
92266795|NCT05182840|184434928|OTHER||Odds Ratio (OR)|4.07||||0.0004|TWO_SIDED|95.0|1.86|8.91||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.91|1.86|0.0004
92266796|NCT05182840|184434929|OTHER||Odds Ratio (OR)|1.34||||0.4092|TWO_SIDED|95.0|0.67|2.69||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||2.69|0.67|0.4092
92266797|NCT05182840|184434929|OTHER||Odds Ratio (OR)|3.66||||0.0005|TWO_SIDED|95.0|1.77|7.58||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.58|1.77|0.0005
92266798|NCT05182840|184434929|OTHER||Odds Ratio (OR)|4.04||||0.0002|TWO_SIDED|95.0|1.92|8.49||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.49|1.92|0.0002
92266799|NCT05182840|184434930|OTHER||Odds Ratio (OR)|2.16||||0.0348|TWO_SIDED|95.0|1.06|4.43||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.43|1.06|0.0348
92299403|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.46||||0.3017|TWO_SIDED|95.0|0.71|3.01|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.01|0.71|0.3017
92299404|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.4||||0.216|TWO_SIDED|95.0|0.6|9.58|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||9.58|0.60|0.2160
92299405|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.33||||0.7174|TWO_SIDED|95.0|0.29|6.08|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||6.08|0.29|0.7174
92299406|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.04|||<|0.0001|TWO_SIDED|95.0|1.45|2.87|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.87|1.45|<.0001
92299407|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.81||||0.0006|TWO_SIDED|95.0|1.29|2.54|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.54|1.29|0.0006
92299408|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.81||||0.0024|TWO_SIDED|95.0|1.23|2.65|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.65|1.23|0.0024
92299409|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.17|||<|0.0001|TWO_SIDED|95.0|1.49|3.16|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.16|1.49|<.0001
92185863|NCT00307489|184270578|SUPERIORITY_OR_OTHER|||||||0.109||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.109
92185864|NCT00307489|184270579|SUPERIORITY_OR_OTHER|||||||0.952||95.0|||||Cochran-Mantel-Haenszel|Controlling for baseline HBeAg and prior lamivudine use.||||||0.952
92299410|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0373|TWO_SIDED|95.0|1.04|3.14|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.14|1.04|0.0373
92299411|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.17||||0.0046|TWO_SIDED|95.0|1.27|3.72|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.72|1.27|0.0046
92299412|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.95||||0.0683|TWO_SIDED|95.0|0.92|9.47|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||9.47|0.92|0.0683
92299413|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|3.77||||0.0214|TWO_SIDED|95.0|1.22|11.66|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||11.66|1.22|0.0214
92299414|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0006|TWO_SIDED|95.0|1.3|2.58|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.58|1.30|0.0006
92299415|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0048|TWO_SIDED|95.0|1.16|2.28|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.28|1.16|0.0048
92299416|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0012|TWO_SIDED|95.0|1.27|2.65|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.65|1.27|0.0012
92299417|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.41|||<|0.0001|TWO_SIDED|95.0|1.68|3.47|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.47|1.68|<.0001
92185865|NCT00307489|184270580|SUPERIORITY_OR_OTHER|||||||0.655||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.655
92185866|NCT00307489|184270581|SUPERIORITY_OR_OTHER|||||||0.401||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.401
92185867|NCT00307489|184270582|SUPERIORITY_OR_OTHER|||||||0.401||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.401
92185868|NCT00307489|184270583|SUPERIORITY_OR_OTHER|||||||0.103||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|van Elteren|||||||0.103
92299418|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0537|TWO_SIDED|95.0|0.99|2.74|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.74|0.99|0.0537
92299419|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0001|TWO_SIDED|95.0|1.58|4.13|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.13|1.58|0.0001
92299420|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.26||||0.1155|TWO_SIDED|95.0|0.82|6.27|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||6.27|0.82|0.1155
92299421|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|3.0||||0.0271|TWO_SIDED|95.0|1.13|7.96|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||7.96|1.13|0.0271
92299422|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0007|TWO_SIDED|95.0|1.3|2.63|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.63|1.30|0.0007
92185869|NCT00307489|184270584|SUPERIORITY_OR_OTHER|||||||0.999||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|van Elteren|||||||0.999
92185870|NCT00307489|184270585|SUPERIORITY_OR_OTHER|||||||0.781||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.781
92185871|NCT00307489|184270586|SUPERIORITY_OR_OTHER|||||||0.936||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.936
92185872|NCT00307489|184270587|SUPERIORITY_OR_OTHER|||||||0.784||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.784
92299423|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0011|TWO_SIDED|95.0|1.26|2.56|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.56|1.26|0.0011
92299424|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0009|TWO_SIDED|95.0|1.27|2.52|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.52|1.27|0.0009
92299425|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.07|||<|0.0001|TWO_SIDED|95.0|1.47|2.91|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.91|1.47|<.0001
92299426|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.81||||0.0064|TWO_SIDED|95.0|1.18|2.78|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.78|1.18|0.0064
92299427|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.68||||0.018|TWO_SIDED|95.0|1.09|2.58|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.58|1.09|0.0180
92299428|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|5.61||||0.0006|TWO_SIDED|95.0|2.09|15.08|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||15.08|2.09|0.0006
92185873|NCT00307489|184270588|SUPERIORITY_OR_OTHER|||||||0.703||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.703
92185874|NCT00307489|184270589|SUPERIORITY_OR_OTHER|||||||0.254||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.254
92185875|NCT00307489|184270590|SUPERIORITY_OR_OTHER|||||||0.254||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.254
92185876|NCT00307489|184270591|SUPERIORITY_OR_OTHER|||||||0.878||95.0|||||Cochran-Mantel-Haenszel|||||||0.878
92185877|NCT01301183|184270655|OTHER|ANCOVA||||||0.109||||||Adjusted for baseline age, height, bone density and 12-month weight change|ANCOVA|||||||.109
92185878|NCT01301183|184270656|OTHER|||||||0.344||||||Adjusted for age, height, baseline trabecular number and change in weight over 12 months|ANCOVA|||||||0.344
92185879|NCT01345253|184270685|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.99||||0.0001|TWO_SIDED|95.0|1.4|2.82|||Regression, Logistic||Odds Ratio (95% CI) and p-value were estimated by a logistic regression model with independent variables treatment group, country, Baseline SELENA SLEDAI score (\<=9 vs. \>=10) and complement (C) levels (low C3 and/or C4 vs. no low C3 or C4).|||2.82|1.40|0.0001
92185880|NCT01345253|184270686|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.0||||0.0001|TWO_SIDED|95.0|1.41|2.83|||Regression, Logistic||Odds Ratio (95% CI) and p-value were estimated by a logistic regression model with independent variables treatment group, country, Baseline SELENA SLEDAI score (\<=9 vs. \>=10) and complement levels (low C3 and/or C4 vs. no low C3 or C4).|||2.83|1.41|0.0001
92185881|NCT01345253|184270687|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.76||||0.0116|TWO_SIDED|95.0|1.13|2.74|||Regression, Logistic||Odds Ratio (95% CI) and p-value were estimated by a logistic regression model with independent variables treatment group, country, baseline SELENA SLEDAI score (\<=9 vs. \>=10) and complement levels (low C3 and/or C4 vs. no low C3 or C4).|||2.74|1.13|0.0116
92185882|NCT01345253|184270688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0288|||||||Rank ANCOVA|||||||0.0288
92299429|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|4.46||||0.0034|TWO_SIDED|95.0|1.64|12.13|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||12.13|1.64|0.0034
92299430|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0022|TWO_SIDED|95.0|1.22|2.44|||Regression, Logistic|||Week 16, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.44|1.22|0.0022
92299431|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0014|TWO_SIDED|95.0|1.25|2.5|||Regression, Logistic|||Week 16, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.50|1.25|0.0014
92299432|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.87||||0.0003|TWO_SIDED|95.0|1.33|2.64|||Regression, Logistic|||Week 16, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.64|1.33|0.0003
92299433|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.68||||0.003|TWO_SIDED|95.0|1.19|2.36|||Regression, Logistic|||Week 16, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.36|1.19|0.0030
92299434|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0754|TWO_SIDED|95.0|0.96|2.24|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.24|0.96|0.0754
92185883|NCT01345253|184270689|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5||||0.0004|TWO_SIDED|95.0|0.34|0.73|||Regression, Cox|||||0.73|0.34|0.0004
92185884|NCT00759681|184270691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.208|STANDARD_ERROR_OF_MEAN|0.0538||0.05|TWO_SIDED|95.0|0.103|0.314|||Exact binomial confidence limit|Effectiveness: 95% confidence limits of the difference between groups, and ensuring that the lower limit of the difference was greater than 10%.||Effectiveness was evaluated using a superiority hypothesis, comparing treatment sites with regards to the proportion achieving immediate suture line sealing between the groups. Effectiveness was based on a two-tailed, 0.05 hypothesis test, with a minimum effect size set at 10%. The mean difference in the proportion of sites achieving immediate suture line sealing was compared between the Control and Investigation Device groups.||0.314|0.103|0.05
92299435|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0253|TWO_SIDED|95.0|1.06|2.44|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.44|1.06|0.0253
92299436|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|2.98||||0.0098|TWO_SIDED|95.0|1.3|6.83|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||6.83|1.30|0.0098
92299437|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.72||||0.223|TWO_SIDED|95.0|0.72|4.13|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.13|0.72|0.2230
92299438|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.5||||0.0201|TWO_SIDED|95.0|1.07|2.12|||Regression, Logistic|||Week 24, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.12|1.07|0.0201
92299439|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0021|TWO_SIDED|95.0|1.22|2.44|||Regression, Logistic|||Week 24, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.44|1.22|0.0021
92299440|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0022|TWO_SIDED|95.0|1.22|2.43|||Regression, Logistic|||Week 24, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.43|1.22|0.0022
92299441|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.87||||0.0004|TWO_SIDED|95.0|1.32|2.64|||Regression, Logistic|||Week 24, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.64|1.32|0.0004
92299442|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.32||||0.2031|TWO_SIDED|95.0|0.86|2.01|||Regression, Logistic|||Week 24, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.01|0.86|0.2031
92299443|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.44||||0.0867|TWO_SIDED|95.0|0.95|2.18|||Regression, Logistic|||Week 24, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.18|0.95|0.0867
92299444|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.8||||0.1746|TWO_SIDED|95.0|0.77|4.22|||Regression, Logistic|||Week 24, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.22|0.77|0.1746
92185885|NCT00759681|184270692|NON_INFERIORITY_OR_EQUIVALENCE|Safety was evaluated using non-inferiority hypothesis evaluating the proportion of cases with any instance of sign. bleeding, neurological deficit or immune/inflammatory allergic response. Safety based on one-tailed, 0.05 alpha, with equivalence limit set at 15%.|Mean Difference (Final Values)|-0.135|STANDARD_ERROR_OF_MEAN|0.0671||0.05|ONE_SIDED|95.0||-0.003|||Exact binomial confidence limit|Safety: 95% confidence limits of the difference between groups, and ensuring that the upper limit of the difference was less than or equal to 15%.|The cumulative incidence of safety endpoints for the Investigational Treatment group was an average of 13.5% less than for the Control group.|The mean difference is equivalent to the proportion of Investigational Device patients minus the proportion of Control patients experiencing any instance of significant bleeding, neurological deficit or immune/inflammatory allergic response.||-0.003||0.05
92185886|NCT02410278|184270697|SUPERIORITY||Odds Ratio (OR)|3.931||||0.0617|TWO_SIDED|95.0|0.938|20.832|||weighted logistic regression model|||Odds ratio is the odds of an event in the Montelukast treatment group divided by the odds of an event in the placebo treatment group. P-value is from the likelihood ratio test that the odds ratio is 1. CI = profile likelihood confidence interval.||20.832|0.938|0.0617
92185887|NCT02410278|184270698|SUPERIORITY||adjusted mean difference|0.084||||0.3753|TWO_SIDED|95.0|-0.104|0.273|||ANCOVA|||Results are obtained from an ANCOVA model for comparing average change of the GSRS score in the two treatment groups, adjusted for age, weight and baseline GSRS score. Weights, defined as the proportions of days with GSRS score recorded during the Day 1 - Day 10 period are applied to adjust for missing data.||0.273|-0.104|0.3753
92185888|NCT02410278|184270699|SUPERIORITY||adjusted mean difference|0.081||||0.0376|TWO_SIDED|95.0|0.005|0.158|||Repeated measures model|||Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and Week 10.||0.158|0.005|0.0376
92185889|NCT02410278|184270700|SUPERIORITY||Hazard Ratio (HR)|1.094||||0.7952|TWO_SIDED|95.0|0.554|2.164|||Regression, Cox|||Hazard ratio and the P-value are based on the Cox's proportional hazard regression model, adjusted for age, weight and baseline GSRS score. Hazard ratio (HR) is the ratio of hazard rates of Montelukast and placebo treatment groups. P-value is from the Wald test that HR is 1. CI = Wald confidence interval.||2.164|0.554|0.7952
92185890|NCT02410278|184270701|SUPERIORITY||Hazard Ratio (HR)|0.946||||0.8328|TWO_SIDED|95.0|0.563|1.589|||Regression, Cox|||Hazard ratio and the P-value are based on the Cox's proportional hazard regression model, adjusted for age, weight and baseline GSRS score. Hazard ratio (HR) is the ratio of hazard rates of Montelukast and placebo treatment groups. P-value is from the Wald test that HR is 1. CI = Wald confidence interval.||1.589|0.563|0.8328
92266800|NCT05182840|184434930|OTHER||Odds Ratio (OR)|6.08||||0|TWO_SIDED|95.0|2.73|13.57||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||13.57|2.73|0.0000
92266801|NCT05182840|184434930|OTHER||Odds Ratio (OR)|3.58||||0.0007|TWO_SIDED|95.0|1.71|7.52||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.52|1.71|0.0007
92266802|NCT05182840|184434931|OTHER||Odds Ratio (OR)|2.01||||0.0578|TWO_SIDED|95.0|0.98|4.14||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.14|0.98|0.0578
92266803|NCT05182840|184434931|OTHER||Odds Ratio (OR)|5.12||||0.0001|TWO_SIDED|95.0|2.23|11.78||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||11.78|2.23|0.0001
92266804|NCT05182840|184434931|OTHER||Odds Ratio (OR)|3.32||||0.0022|TWO_SIDED|95.0|1.54|7.16||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.16|1.54|0.0022
92266805|NCT05182840|184434932|OTHER||Odds Ratio (OR)|2.17||||0.0342|TWO_SIDED|95.0|1.06|4.44||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.44|1.06|0.0342
92299445|NCT02709486|184503202|SUPERIORITY||Odds Ratio (OR)|1.99||||0.1039|TWO_SIDED|95.0|0.87|4.57|||Regression, Logistic|||Week 24, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.57|0.87|0.1039
92299446|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.89||||0.0003|TWO_SIDED|95.0|1.33|2.68|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.68|1.33|0.0003
92299447|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0286|TWO_SIDED|95.0|1.04|2.1|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.10|1.04|0.0286
92299448|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.45||||0.1031|TWO_SIDED|95.0|0.93|2.27|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.27|0.93|0.1031
92299449|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.34||||0.2033|TWO_SIDED|95.0|0.85|2.1|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.10|0.85|0.2033
92185891|NCT02410278|184270702|SUPERIORITY||adjusted mean difference|0.115||||0.1743|TWO_SIDED|95.0|-0.052|0.283|||Repeated measures model|||Change from Day 1 to Week 1: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.283|-0.052|0.1743
92185892|NCT02410278|184270702|SUPERIORITY||adjusted mean difference|0.079||||0.2677|TWO_SIDED|95.0|-0.063|0.221|||Repeated measures model|||Change from Day 1 to Week 2: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.221|-0.063|0.2677
92185893|NCT02410278|184270702|SUPERIORITY||adjusted mean difference|0.085||||0.1788|TWO_SIDED|95.0|-0.04|0.211|||Repeated measures model|||Change from Day 1 to Week 3: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.211|-0.040|0.1788
92185894|NCT02410278|184270702|SUPERIORITY||adjusted mean difference|0.1||||0.0866|TWO_SIDED|95.0|-0.015|0.216|||Repeated measures model|||Change from Day 1 to Week 4: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.216|-0.015|0.0866
92185895|NCT02410278|184270702|SUPERIORITY||adjusted mean difference|0.1||||0.0509|TWO_SIDED|95.0|0.0|0.201|||Repeated measures model|||Change from Day 1 to Week 5: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.201|-0.000|0.0509
92299450|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.8||||0.0064|TWO_SIDED|95.0|1.34|5.86|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||5.86|1.34|0.0064
92299451|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.44||||0.3706|TWO_SIDED|95.0|0.65|3.23|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.23|0.65|0.3706
92299452|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.39||||0.2121|TWO_SIDED|95.0|0.61|9.41|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||9.41|0.61|0.2121
92299453|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.67||||0.4859|TWO_SIDED|95.0|0.39|7.11|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||7.11|0.39|0.4859
92299454|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.25|||<|0.0001|TWO_SIDED|95.0|1.6|3.17|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.17|1.60|<.0001
92185896|NCT02410278|184270702|SUPERIORITY||adjusted mean difference|0.088||||0.0649|TWO_SIDED|95.0|-0.006|0.182|||Repeated measures model|||Change from Day 1 to Week 6: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.182|-0.006|0.0649
92185897|NCT02410278|184270702|SUPERIORITY||adjusted mean difference|0.088||||0.0479|TWO_SIDED|95.0|0.001|0.176|||Repeated measures model|||Change from Day 1 to Week 7: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.176|0.001|0.0479
92185898|NCT02410278|184270702|SUPERIORITY||adjusted mean difference|0.082||||0.054|TWO_SIDED|95.0|-0.001|0.166|||Repeated measures model|||Change from Day 1 to Week 8: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.166|-0.001|0.0540
92185899|NCT02410278|184270703|SUPERIORITY||adjusted mean difference|0.129||||0.2469|TWO_SIDED|95.0|-0.092|0.349|||Repeated measures model|||Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight (kg) and baseline GSRS score, and has unstructured variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and Day 3.||0.349|-0.092|0.2469
92185900|NCT02410278|184270704|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0000
92185901|NCT02410278|184270705|SUPERIORITY|||||||1|||||||Fisher's Exact|||||||1.0000
92185902|NCT02410278|184270706|SUPERIORITY|||||||0.2604|||||||Chi-squared|||||||0.2604
92185903|NCT02584257|184270707|SUPERIORITY||Least Square Means Differences|3.171|STANDARD_ERROR_OF_MEAN|0.238|<|0.0001|TWO_SIDED|95.0|2.732|3.61||Fixed effects of dose, week, and sequence and the random effect of the patient was carried out to ensure that the overall treatment effect was significant at p\<0.05|Brief Mixed Models Analysis|For this model, the dependent variable was log2(PC20FEV1) values where PC20FEV1 was measured in mg/mL||||3.610|2.732|<0.0001
92185904|NCT02584257|184270707|SUPERIORITY||Least Square Means Differences|3.824|STANDARD_ERROR_OF_MEAN|0.238|<|0.0001|TWO_SIDED|95.0|3.384|4.263||Fixed effects of dose, week, and sequence and the random effect of the patient was carried out to ensure that the overall treatment effect was significant at p\<0.05.|Brief Mixed Models Analysis|For this model, the dependent variable was log2(PC20FEV1) values where PC20FEV1 was measured in mg/mL||||4.263|3.384|<0.0001
92185905|NCT02584257|184270707|SUPERIORITY||Least Square Means Differences|3.32|STANDARD_ERROR_OF_MEAN|0.241|<|0.0001|TWO_SIDED|95.0|2.876|3.764||Fixed effects of dose, week, and sequence and the random effect of the patient was carried out to ensure that the overall treatment effect was significant at p\<0.05.|Brief Mixed Models Analysis|For this model, the dependent variable was log2(PC20FEV1) values where PC20FEV1 was measured in mg/mL.||||3.764|2.876|<0.0001
92185906|NCT02584257|184270707|SUPERIORITY||Least Square Means Differences|3.872|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|3.43|4.315||Fixed effects of dose, week, and sequence and the random effect of the patient was carried out to ensure that the overall treatment effect was significant at p\<0.05.|Brief Mixed Models Analysis|For this model, the dependent variable was log2(PC20FEV1) values where PC20FEV1 was measured in mg/mL||||4.315|3.430|<0.0001
92185907|NCT02584257|184270707|EQUIVALENCE|A blinded interim analysis was performed after 60 patients completed all treatment visits which determined that 80 subjects would be sufficient to complete the study with 90% power.|Frel|1.15|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.93|1.48|||||Frel is the relative bioavailability of the test versus reference product. The CI was a bias corrected and accelerated CI based on a bootstrapping procedure. The FDA acceptable CI was between 0.67 and 1.50.|An Emax model was developed and the 90% confidence interval of Frel was a bias corrected accelerated confidence interval based on a bootstrapping procedure. The bootstrapping procedure used for this analysis was residual resampling. The Per-Protocol population was the primary population for bioequivalence analysis. Patients in the PP population must have completed at least 2 treatment periods with valid PC20FEV1 measurements and had no major protocol deviations within those intervals.||1.48|0.93|
92185908|NCT01180400|184270777|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.91||0.944|TWO_SIDED|95.0|-1.86|1.73||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.73|-1.86|0.944
92185909|NCT01180400|184270778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|0.26||0.974|TWO_SIDED|95.0|0.61|1.66|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.66|0.61|0.974
92185910|NCT01180400|184270779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45|STANDARD_ERROR_OF_MEAN|0.41||0.184|TWO_SIDED|95.0|0.84|2.53|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.53|0.84|0.184
92185911|NCT01180400|184270780|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44|STANDARD_ERROR_OF_MEAN|0.71||0.461|TWO_SIDED|95.0|0.55|3.78|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||3.78|0.55|0.461
92299455|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.1|||<|0.0001|TWO_SIDED|95.0|1.5|2.96|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.96|1.50|<.0001
92299456|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.91||||0.002|TWO_SIDED|95.0|1.27|2.87|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.87|1.27|0.0020
92299457|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.28|||<|0.0001|TWO_SIDED|95.0|1.53|3.4|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.40|1.53|<.0001
92299458|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.23||||0.0107|TWO_SIDED|95.0|1.21|4.14|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.14|1.21|0.0107
92299459|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.18||||0.0126|TWO_SIDED|95.0|1.18|4.02|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.02|1.18|0.0126
92185912|NCT01180400|184270781|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87|STANDARD_ERROR_OF_MEAN|0.31||0.689|TWO_SIDED|95.0|0.43|1.75|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.75|0.43|0.689
92185913|NCT01180400|184270782|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.44||0.831|TWO_SIDED|95.0|0.35|2.32|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.32|0.35|0.831
92299460|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.67||||0.1516|TWO_SIDED|95.0|0.7|10.26|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||10.26|0.70|0.1516
92185914|NCT01180400|184270783|SUPERIORITY_OR_OTHER||LS mean|0.5|STANDARD_ERROR_OF_MEAN|0.72||0.525|TWO_SIDED|95.0|-0.96|1.89|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.89|-0.96|0.525
92185915|NCT01180400|184270784|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.964||95.0|-0.28|0.26|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.26|-0.28|0.964
92185916|NCT01180400|184270785|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93|STANDARD_ERROR_OF_MEAN|0.25||0.783|TWO_SIDED|95.0|0.54|1.58|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.58|0.54|0.783
92185917|NCT01180400|184270786|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.51||0.832|TWO_SIDED|95.0|-0.89|1.11||Analysis for change in MADRS total score from randomization to Week 9.|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.11|-0.89|0.832
92185918|NCT01180400|184270787|SUPERIORITY_OR_OTHER||LS mean|0.5|STANDARD_ERROR_OF_MEAN|0.67||0.468|TWO_SIDED|95.0|-0.84|1.82|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.82|-0.84|0.468
92299461|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|4.49||||0.021|TWO_SIDED|95.0|1.25|16.05|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||16.05|1.25|0.0210
92299462|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0034|TWO_SIDED|95.0|1.18|2.31|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.31|1.18|0.0034
92299463|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.75||||0.001|TWO_SIDED|95.0|1.26|2.45|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.45|1.26|0.0010
92299464|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0014|TWO_SIDED|95.0|1.27|2.71|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.71|1.27|0.0014
92299465|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.13|||<|0.0001|TWO_SIDED|95.0|1.46|3.1|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.10|1.46|<.0001
92299466|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.61||||0.0007|TWO_SIDED|95.0|1.49|4.55|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.55|1.49|0.0007
92299467|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0018|TWO_SIDED|95.0|1.39|4.24|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.24|1.39|0.0018
92299468|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|4.1||||0.015|TWO_SIDED|95.0|1.31|12.79|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||12.79|1.31|0.0150
92299469|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|3.79||||0.0211|TWO_SIDED|95.0|1.22|11.78|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||11.78|1.22|0.0211
92299470|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.01|||<|0.0001|TWO_SIDED|95.0|1.43|2.84|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.84|1.43|<.0001
92299471|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.19|||<|0.0001|TWO_SIDED|95.0|1.55|3.1|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.10|1.55|<.0001
92299472|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.1|||<|0.0001|TWO_SIDED|95.0|1.47|3.0|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.00|1.47|<.0001
92185919|NCT01180400|184270788|SUPERIORITY_OR_OTHER||LS mean|1.0|STANDARD_ERROR_OF_MEAN|0.77||0.187|TWO_SIDED|95.0|-0.49|2.52|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.52|-0.49|0.187
92185920|NCT01180400|184270789|SUPERIORITY_OR_OTHER||LS mean|1.3|STANDARD_ERROR_OF_MEAN|0.86||0.145|TWO_SIDED|95.0|-0.44|2.95|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects the model; pooled center is a random effect.||2.95|-0.44|0.145
92185921|NCT01180400|184270790|SUPERIORITY_OR_OTHER||LS mean|-0.04|STANDARD_ERROR_OF_MEAN|0.766||0.956|TWO_SIDED|95.0|-1.549|1.466||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.466|-1.549|0.956
92299473|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.08|||<|0.0001|TWO_SIDED|95.0|1.46|2.96|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.96|1.46|<.0001
92299474|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.74||||0.018|TWO_SIDED|95.0|1.1|2.76|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.76|1.10|0.0180
92299475|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0072|TWO_SIDED|95.0|1.18|2.94|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.94|1.18|0.0072
92299476|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|10.84||||0.0015|TWO_SIDED|95.0|2.49|47.22|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||47.22|2.49|0.0015
92299477|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|8.62||||0.0044|TWO_SIDED|95.0|1.96|37.96|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||37.96|1.96|0.0044
92299478|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0018|TWO_SIDED|95.0|1.22|2.43|||Regression, Logistic|||Week 16, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.43|1.22|0.0018
92299479|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0011|TWO_SIDED|95.0|1.26|2.5|||Regression, Logistic|||Week 16, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.50|1.26|0.0011
92299480|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0035|TWO_SIDED|95.0|1.19|2.38|||Regression, Logistic|||Week 16, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.38|1.19|0.0035
92299481|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0022|TWO_SIDED|95.0|1.22|2.43|||Regression, Logistic|||Week 16, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.43|1.22|0.0022
92299482|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0155|TWO_SIDED|95.0|1.11|2.72|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.72|1.11|0.0155
92299483|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.39||||0.1549|TWO_SIDED|95.0|0.88|2.2|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.20|0.88|0.1549
92299484|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.94||||0.0212|TWO_SIDED|95.0|1.18|7.37|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||7.37|1.18|0.0212
92299485|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0373|TWO_SIDED|95.0|1.06|6.57|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||6.57|1.06|0.0373
92299486|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0006|TWO_SIDED|95.0|1.29|2.57|||Regression, Logistic|||Week 24, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.57|1.29|0.0006
92299487|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|2.13|||<|0.0001|TWO_SIDED|95.0|1.51|3.02|||Regression, Logistic|||Week 24, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.02|1.51|<.0001
92299488|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.54||||0.0152|TWO_SIDED|95.0|1.09|2.18|||Regression, Logistic|||Week 24, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.18|1.09|0.0152
92299489|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0018|TWO_SIDED|95.0|1.23|2.45|||Regression, Logistic|||Week 24, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.45|1.23|0.0018
92185922|NCT01180400|184270791|SUPERIORITY_OR_OTHER||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.201|TWO_SIDED|95.0|-0.98|0.21||Analysis for change in SDS work/school domain score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.21|-0.98|0.201
92185923|NCT01180400|184270792|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.756|TWO_SIDED|95.0|-0.62|0.45|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.45|-0.62|0.756
92299490|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.47||||0.097|TWO_SIDED|95.0|0.93|2.31|||Regression, Logistic|||Week 24, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.31|0.93|0.0970
92299491|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|1.25||||0.3435|TWO_SIDED|95.0|0.79|1.98|||Regression, Logistic|||Week 24, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.98|0.79|0.3435
92299492|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|3.3||||0.0236|TWO_SIDED|95.0|1.17|9.27|||Regression, Logistic|||Week 24, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||9.27|1.17|0.0236
92299493|NCT02709486|184503203|SUPERIORITY||Odds Ratio (OR)|3.14||||0.0296|TWO_SIDED|95.0|1.12|8.81|||Regression, Logistic|||Week 24, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||8.81|1.12|0.0296
92185924|NCT01180400|184270793|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.62|TWO_SIDED|95.0|-0.4|0.68|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.68|-0.40|0.620
92299494|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|2.14||||0.0132|TWO_SIDED|95.0|1.17|3.9|||Regression, Logistic|||Week 2: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.90|1.17|0.0132
92299495|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|1.62||||0.1274|TWO_SIDED|95.0|0.87|3.02|||Regression, Logistic|||Week 2: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.02|0.87|0.1274
92299496|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0016|TWO_SIDED|95.0|1.44|4.76|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.76|1.44|0.0016
92299497|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|3.34|||<|0.0001|TWO_SIDED|95.0|1.84|6.03|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||6.03|1.84|<.0001
92299498|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|2.04||||0.0089|TWO_SIDED|95.0|1.2|3.49|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.49|1.20|0.0089
92299499|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0012|TWO_SIDED|95.0|1.42|4.1|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.10|1.42|0.0012
92185925|NCT01180400|184270794|SUPERIORITY_OR_OTHER||LS mean|0.15|STANDARD_ERROR_OF_MEAN|1.592||0.924|TWO_SIDED|95.0|-2.981|3.286|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||3.286|-2.981|0.924
92185926|NCT01180400|184270795|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.345|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.10|-0.30|0.345
92185927|NCT01180400|184270796|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.942|TWO_SIDED|95.0|-0.2|0.19|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.19|-0.20|0.942
92185928|NCT01180400|184270797|SUPERIORITY_OR_OTHER||LS mean|-0.011|STANDARD_ERROR_OF_MEAN|0.0198||0.576|TWO_SIDED|95.0|-0.05|0.0279||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0279|-0.0500|0.576
92185929|NCT01180400|184270797|SUPERIORITY_OR_OTHER||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|2.11||0.842|TWO_SIDED|95.0|-4.58|3.73||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||3.73|-4.58|0.842
92185930|NCT00795639|184270798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.0||||0.0104|TWO_SIDED|95.0|3.0|26.0||Significance test performed using non-parametric analysis of covariance controlling for Baseline 6MWD and PAH etiology and PAH not secondary to a connective tissue disease (other).|ANCOVA||Missing value at Week 12 assigned as zero if the subject had a predefined clinical worsening event, otherwise, missing value at Week 12 imputed with the last non-missing 6MWD based on LOCF.|||26|3|0.0104
92185931|NCT00795639|184270799|SUPERIORITY_OR_OTHER|||||||0.2908|TWO_SIDED|||||Significance tests of WHO Functional Class performed using the Cochran-Mantel-Haenszel (CMH) test, stratified by Baseline 6MWD (less than 310 meters and greater than or equal to 310 meters) and PAH Etiology (Connective Tissue Disease and others).|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores, and the p-value corresponding to ANCOVA (row mean scores) statistics were used.||Week 12||||0.2908
92185932|NCT00248794|184270809|SUPERIORITY_OR_OTHER||||||<|0.97|||||||ANOVA|||||||<.97
92185933|NCT00248794|184270810|SUPERIORITY_OR_OTHER|||||||0.77|||||||ANOVA|||||||.77
92299500|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|2.4||||0.0006|TWO_SIDED|95.0|1.45|3.98|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.98|1.45|0.0006
92299501|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|3.16|||<|0.0001|TWO_SIDED|95.0|1.92|5.21|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||5.21|1.92|<.0001
92299502|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0203|TWO_SIDED|95.0|1.1|3.06|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.06|1.10|0.0203
92299503|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|2.94|||<|0.0001|TWO_SIDED|95.0|1.77|4.86|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.86|1.77|<.0001
92299504|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0775|TWO_SIDED|95.0|0.95|2.55|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.55|0.95|0.0775
92299505|NCT02709486|184503205|SUPERIORITY||Odds Ratio (OR)|1.97||||0.0064|TWO_SIDED|95.0|1.21|3.21|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.21|1.21|0.0064
92299506|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.7|-0.27|||ANCOVA|||Week 1: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.27|-0.70|<.0001
92299507|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.11||0.0009|TWO_SIDED|95.0|-0.58|-0.15|||ANCOVA|||Week 1: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.15|-0.58|0.0009
92299508|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.0|-0.48|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.48|-1.00|<.0001
92299509|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.13||0.0001|TWO_SIDED|95.0|-0.77|-0.25|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.25|-0.77|0.0001
92185934|NCT03449979|184270814|SUPERIORITY|||||||0.0852|||||||ANOVA|degrees of freedom = (1,39); F-statistic = 3.119||Interaction in the effect of tACS on left frontal alpha oscillation in the depressed group. Two-way interaction of within-participant factor of before/after tACS and between-participant factor of alpha-tACS/placebo.||||0.0852
92185935|NCT03449979|184270814|SUPERIORITY|||||||0.6676|||||||ANOVA|degrees of freedom = (1,39); F-statistic = 0.187||Interaction in the effect of tACS on left frontal alpha oscillation in the healthy group. Two-way interaction of within-participant factor of before/after tACS and between-participant factor of alpha-tACS/placebo.||||0.6676
92185936|NCT03449979|184270814|SUPERIORITY|||||||0.929||||||degrees of freedom = (1,41); F-statistic = 0.008|ANOVA|||Main effect of alpha-tACS on session (before and after) on left frontal alpha oscillations across both groups (healthy and patient).||||0.929
92185937|NCT03449979|184270814|SUPERIORITY|||||||0.195|||||||t-test, 1 sided|degrees of freedom = 20; t-statistic = -0.08789||Difference in alpha oscillations after versus before in the depressed cohort (one-tailed Student's t-test) with the hypothesis to decrease pathologically elevate left frontal alpha oscillations||||0.1950
92185938|NCT03449979|184270814|SUPERIORITY|||||||0.8603|||||||t-test, 1 sided|degrees of freedom = 20; t-statistic = 1.1117||Difference in alpha oscillations after versus before in the healthy cohort (one-tailed Student's t-test) run as a control analysis||||0.8603
92185939|NCT01358175|184270815|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.76|||<|0.0001|TWO_SIDED|95.0|2.2|6.42|||Regression, Logistic|||||6.42|2.20|<0.0001
92299510|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.06|-0.5|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.50|-1.06|<.0001
92185940|NCT01358175|184270815|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.89|||<|0.0001|TWO_SIDED|95.0|2.28|6.65|||Regression, Logistic|||||6.65|2.28|<0.0001
92185941|NCT04908488|184270823|NON_INFERIORITY|Noninferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least Squares Means Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.004|||ONE_SIDED|95.0||-0.01|||Mixed effects repeated measures model|Within subject correlation due to eye and the crossover design were accounted for in the model.|Lens difference (P1fA minus AMfA)|||-0.01||
92185942|NCT01694199|184270830|SUPERIORITY_OR_OTHER|||||||0.3529|||||||ANCOVA|||||||0.3529
92185943|NCT01694199|184270831|SUPERIORITY_OR_OTHER|||||||0.2766|||||||ANCOVA|||||||0.2766
92185944|NCT01694199|184270832|SUPERIORITY_OR_OTHER|||||||0.1467|||||||ANOVA|||P=0.1467||||0.1467
92185945|NCT01694199|184270833|SUPERIORITY_OR_OTHER|||||||0.5009|||||||ANOVA|||P = 0.5009||||0.5009
92299511|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.14||0.0006|TWO_SIDED|95.0|-0.77|-0.21|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.21|-0.77|0.0006
92299512|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.2|-0.62|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.62|-1.20|<.0001
92185946|NCT01694199|184270834|SUPERIORITY_OR_OTHER|||||||0.9038|||||||ANOVA|||||||0.9038
92185947|NCT01133678|184270864|OTHER|||||||0.19||||||A recommendation to stop the trial early was stipulated if the conditional power at the interim analysis (after 50 patients) was \<10% using a stochastic curtailment approach.. This would occur if the interim test statistic is t \< -0.287.|t-test, 2 sided|t-statistic = -1.330, exceeding threshold (\<-0.287, conditional power\<10%) for early termination.||||||0.190
92185948|NCT02206607|184270865|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR1/IR|31.27|||||TWO_SIDED|90.0|28.09|34.8||||||||34.80|28.09|
92185949|NCT02206607|184270865|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR2/IR|25.56|||||TWO_SIDED|90.0|23.11|28.27||||||||28.27|23.11|
92185950|NCT02206607|184270865|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR3/IR|32.04|||||TWO_SIDED|90.0|28.93|35.49||||||||35.49|28.93|
92185951|NCT02206607|184270866|SUPERIORITY_OR_OTHER||Least Square Mean|15.72|STANDARD_ERROR_OF_MEAN|3.357||1|TWO_SIDED|80.0|11.39|20.06||1-sided p-value|Mixed Models Analysis|Treatment, period, sequence as fixed effects and subjects-within-sequence as random effects.||||20.06|11.39|1.0000
92185952|NCT02206607|184270866|SUPERIORITY_OR_OTHER||Least Square Mean|16.31|STANDARD_ERROR_OF_MEAN|3.399||1|TWO_SIDED|80.0|11.93|20.7||1-sided p-value|Mixed Models Analysis|Treatment, period, sequence as fixed effects and subjects-within-sequence as random effects.||||20.70|11.93|1.000
92299513|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.06|-0.47|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.47|-1.06|<.0001
92299514|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.2|-0.59|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.59|-1.20|<.0001
92299515|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.25|-0.64|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.64|-1.25|<.0001
92299516|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.16||0.0001|TWO_SIDED|95.0|-0.93|-0.3|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.30|-0.93|0.0001
92299517|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.13|-0.5|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.50|-1.13|<.0001
92299518|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.05|-0.39|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.39|-1.05|<.0001
92299519|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.1|-0.44|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.44|-1.10|<.0001
92299520|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.06|-0.39|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.39|-1.06|<.0001
92185953|NCT02206607|184270866|SUPERIORITY_OR_OTHER||Least Square Mean|20.38|STANDARD_ERROR_OF_MEAN|3.291||1|TWO_SIDED|80.0|16.13|24.62||1-sided p-value|Mixed Models Analysis|||||24.62|16.13|1.0000
92185954|NCT02206607|184270867|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR1/IR|25.21|||||TWO_SIDED|90.0|23.28|27.31||||||||27.31|23.28|
92185955|NCT02206607|184270867|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR2/IR|26.38|||||TWO_SIDED|90.0|24.36|28.57||||||||28.57|24.36|
92185956|NCT02206607|184270867|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR3/IR|36.94|||||TWO_SIDED|90.0|34.09|40.02||||||||40.02|34.09|
92185957|NCT02206607|184270873|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR1/IR|31.06|||||TWO_SIDED|90.0|28.28|34.1||||||||34.10|28.28|
92185958|NCT02206607|184270873|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR2/IR|24.96|||||TWO_SIDED|90.0|22.73|27.4||||||||27.40|22.73|
92185959|NCT02206607|184270873|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR3/IR|31.69|||||TWO_SIDED|90.0|28.86|34.81||||||||34.81|28.86|
92185960|NCT03014726|184270923|OTHER|Recurrence \< 0.5 as defined by an IPSS score of less than or equal to 11. The performance goal is met if the upper limit of the one-sided 95% confidence interval for recurrence is less than 50%.|||||<|0.001|||||||1-sample binomial z-test|||||||<0.001
92299521|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.13|-0.46|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.46|-1.13|<.0001
92299522|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.18||0.004|TWO_SIDED|95.0|-0.87|-0.16|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.16|-0.87|0.0040
92185961|NCT00424476|184270973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.0006||95.0|1.3|2.59||For the primary analysis of the primary efficacy endpoint, a step-down sequential testing procedure was used to control the type 1 error.|Regression, Logistic|Adjusted for baseline stratification factors (SELENA SLEDAI Score: ≤9 vs ≥10; proteinuria: \<2g vs ≥2g per 24hr; Race: African/indig-American vs Other)||||2.59|1.30|0.0006
92185962|NCT00424476|184270973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.0129|TWO_SIDED|95.0|1.1|2.19||After superiority of 10 mg/kg vs placebo was established, the 1 mg/kg group was tested vs placebo (2-sided alpha=0.05).|Regression, Logistic|Adjusted for baseline stratification factors.||||2.19|1.10|0.0129
92185963|NCT00424476|184270974|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.0024|TWO_SIDED|95.0|1.21|2.41|||Regression, Logistic|Adjusted for baseline stratification factors.||||2.41|1.21|0.0024
92185964|NCT00424476|184270974|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.0189|TWO_SIDED|95.0|1.07|2.14|||Regression, Logistic|Adjusted for baseline stratification factors.||||2.14|1.07|0.0189
92185965|NCT00424476|184270975|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||ANCOVA|Adjusted for baseline PGA score and baseline stratification factors.||||||0.0003
92185966|NCT00424476|184270975|SUPERIORITY_OR_OTHER|||||||0.2712||95.0|||||ANCOVA|Adjusted for baseline PGA score and baseline stratification factors.||||||0.2712
92185967|NCT00424476|184270976|SUPERIORITY_OR_OTHER|||||||0.887|||||||ANCOVA|Adjusted for the baseline PCS score and baseline stratification factors.||||||0.8870
92185968|NCT00424476|184270976|SUPERIORITY_OR_OTHER|||||||0.8127|||||||ANCOVA|Adjusted for the baseline PCS score and baseline stratification factors.||||||0.8127
92185969|NCT00424476|184270977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.0526|TWO_SIDED|95.0|0.99|3.08|||Regression, Logistic|Adjusted for baseline prednisone dose level and baseline stratification factors.||||3.08|0.99|0.0526
92185970|NCT00424476|184270977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89||||0.0252|TWO_SIDED|95.0|1.08|3.31|||Regression, Logistic|Adjusted for baseline prednisone dose level and baseline stratification factors.||||3.31|1.08|0.0252
92185971|NCT02159352|184270985|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.384|||||TWO_SIDED|90.0|0.348|0.423||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed Cmax.||0.423|0.348|
92185972|NCT02159352|184270985|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.337|||||TWO_SIDED|90.0|0.306|0.371||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed Cmax.||0.371|0.306|
92185973|NCT02159352|184270986|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.703|||||TWO_SIDED|90.0|0.658|0.75||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed AUC(TAU).||0.750|0.658|
92185974|NCT02159352|184270986|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.577|||||TWO_SIDED|90.0|0.535|0.622||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed AUC(TAU).||0.622|0.535|
92185975|NCT02159352|184270989|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.768|||||TWO_SIDED|90.0|0.697|0.846||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed Cmax/D.||0.846|0.697|
92185976|NCT02159352|184270989|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.673|||||TWO_SIDED|90.0|0.611|0.742||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed Cmax/D.||0.742|0.611|
92185977|NCT02159352|184270990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|1.406|||||TWO_SIDED|90.0|1.317|1.501||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed (AUC(TAU)/D).||1.501|1.317|
92185978|NCT02159352|184270990|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|1.154|||||TWO_SIDED|90.0|1.07|1.244||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed (AUC(TAU)/D).||1.244|1.070|
92185979|NCT00337610|184271013|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.02|STANDARD_DEVIATION|1.19|<|0.001||95.0|-1.36|-0.67|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic agent (AHA) \[medication\] (on Monotherapy AHA or on Metformin-based combination therapy)||||-0.67|-1.36|<0.001
92185980|NCT00337610|184271014|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.5|STANDARD_DEVIATION|42.2|<|0.001||95.0|-37.7|-13.3|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic medication (on Monotherapy AHA or on Metformin-based combination therapy)||||-13.3|-37.7|<0.001
92185981|NCT00337610|184271015|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.1|STANDARD_DEVIATION|63.8|<|0.001||95.0|-74.7|-33.6|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic medication (on Monotherapy AHA or on Metformin-based combination therapy)||||-33.6|-74.7|<0.001
92299523|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.18||0.0005|TWO_SIDED|95.0|-0.98|-0.27|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.27|-0.98|0.0005
92299524|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.19||0.0002|TWO_SIDED|95.0|-1.06|-0.33|||ANCOVA|||Week 20: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.33|-1.06|0.0002
92299525|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.19||0.0002|TWO_SIDED|95.0|-1.05|-0.32|||ANCOVA|||Week 20: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.32|-1.05|0.0002
92185982|NCT00337610|184271016|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.01|STANDARD_DEVIATION|1.34|<|0.001||95.0|-1.4|-0.62|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic medication (on Monotherapy AHA or on Metformin-based combination therapy)||||-0.62|-1.40|<0.001
92299526|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.2||0.0506|TWO_SIDED|95.0|-0.78|0.0|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.00|-0.78|0.0506
92299527|NCT02709486|184503206|SUPERIORITY||Least Square Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.2||0.0086|TWO_SIDED|95.0|-0.91|-0.13|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.13|-0.91|0.0086
92185983|NCT03979040|184271017|NON_INFERIORITY|A non-inferiority margin of -.5 was set for outcome analysis with a one-sided alpha of .025.|Mean Difference (Net)|-0.5||||0.025|ONE_SIDED|97.5||||P value = .025 (one-sided) and sign test below|Sign test|||||||.025
92185984|NCT03979040|184271018|NON_INFERIORITY|A non-inferiority margin of -.5 was set for outcome analysis with a one-sided alpha of .025.|Mean Difference (Net)|-0.5||||0.025|ONE_SIDED|97.5|||||Sign test|||||||.025
92185985|NCT03979040|184271019|NON_INFERIORITY|A non-inferiority margin of -.5 was set for outcome analysis with a one-sided alpha of .025.|Mean Difference (Net)|-0.5||||0.025|ONE_SIDED|97.5|||||Sign test|||||||.025
92185986|NCT04012970|184271023|SUPERIORITY||||||<|0.05|||||||ANOVA|2-way, repeated measures||||||<0.05
92185987|NCT04012970|184271023|SUPERIORITY||||||<|0.01|||||||ANCOVA|||Stiffness change ran with covariates (baseline stiffness, BMI, ODI, waist circumference, height and gender).||||<0.01
92299528|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.07|-0.48|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.48|-1.07|<.0001
92299529|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.94|-0.35|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-0.94|<.0001
92299530|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.03|-0.41|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.41|-1.03|<.0001
92185988|NCT04012970|184271024|SUPERIORITY||||||<|0.01|||||||ANOVA|2-way, repeated measures||||||<0.01
92185989|NCT04012970|184271024|SUPERIORITY||||||<|0.01|||||||ANCOVA|||Stiffness change ran with covariates (baseline stiffness, BMI, ODI, waist circumference, height and gender).||||<0.01
92185990|NCT04012970|184271025|SUPERIORITY||||||<|0.01|||||||ANOVA|2-way, repeated measures||||||<0.01
92185991|NCT04012970|184271025|SUPERIORITY||||||<|0.05|||||||ANCOVA|||Tone change ran with covariates (baseline stiffness, BMI, ODI, waist circumference, height and gender).||||<0.05
92185992|NCT04012970|184271026|SUPERIORITY||||||<|0.01|||||||ANOVA|2-way, repeated measures||||||<0.01
92185993|NCT04012970|184271026|SUPERIORITY||||||<|0.05|||||||ANCOVA|||Tone change ran with covariates (baseline stiffness, BMI, ODI, waist circumference, height and gender).||||<0.05
92185994|NCT04012970|184271027|SUPERIORITY||||||<|0.01|||||||ANOVA|2-way, repeated measures||||||<0.01
92185995|NCT04012970|184271028|SUPERIORITY||||||<|0.001|||||||ANOVA|2-way, repeated measures||||||<0.001
92185996|NCT02978183|184271029|SUPERIORITY|||||||0.0882||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.0882
92185997|NCT02978183|184271029|SUPERIORITY|||||||0.8032||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 5 Minutes Post-CAC||||0.8032
92185998|NCT02978183|184271029|SUPERIORITY|||||||0.9003||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 7 Minutes Post-CAC||||0.9003
92185999|NCT02978183|184271029|SUPERIORITY|||||||0.9523||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.9523
92186000|NCT02978183|184271029|SUPERIORITY|||||||0.9071||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.9071
92186001|NCT02978183|184271029|SUPERIORITY|||||||0.7509||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.7509
92299531|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.15|-0.53|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.53|-1.15|<.0001
92299532|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.17||0.0004|TWO_SIDED|95.0|-0.91|-0.26|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.26|-0.91|0.0004
92299533|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.31|-0.67|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.67|-1.31|<.0001
92299534|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.14|-0.46|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.46|-1.14|<.0001
92299535|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.18|-0.5|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.18|<.0001
92299536|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.18||0.0002|TWO_SIDED|95.0|-1.0|-0.3|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.30|-1.00|0.0002
92299537|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.12|-0.43|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.43|-1.12|<.0001
92299538|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.19||0.0013|TWO_SIDED|95.0|-0.99|-0.24|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.24|-0.99|0.0013
92186002|NCT02978183|184271029|SUPERIORITY|||||||0.2824||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.2824
92186003|NCT02978183|184271029|SUPERIORITY|||||||0.4017||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.4017
92186004|NCT02978183|184271029|SUPERIORITY|||||||0.4497||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.4497
92186005|NCT02978183|184271029|SUPERIORITY|||||||0.165||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.1650
92186006|NCT02978183|184271029|SUPERIORITY|||||||0.3494||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 5 Minutes Post-CAC||||0.3494
92186007|NCT02978183|184271029|SUPERIORITY|||||||0.4781||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 7 Minutes Post-CAC||||0.4781
92186008|NCT02978183|184271029|SUPERIORITY|||||||0.9847||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.9847
92186009|NCT02978183|184271029|SUPERIORITY|||||||0.9731||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.9731
92186010|NCT02978183|184271029|SUPERIORITY|||||||0.6984||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.6984
92186011|NCT02978183|184271029|SUPERIORITY|||||||0.6265||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.6265
92186012|NCT02978183|184271029|SUPERIORITY|||||||0.7848||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.7848
92186013|NCT02978183|184271029|SUPERIORITY|||||||0.5789||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.5789
92186014|NCT02978183|184271030|SUPERIORITY|||||||0.8165||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.8165
92186015|NCT02978183|184271030|SUPERIORITY|||||||0.659||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.6590
92186016|NCT02978183|184271030|SUPERIORITY|||||||0.7455||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.7455
92299539|NCT02709486|184503208|SUPERIORITY||Least Square Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.25|-0.5|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.25|<.0001
92299540|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.96|-0.45|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.45|-0.96|<.0001
92299541|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.13||0.0004|TWO_SIDED|95.0|-0.73|-0.21|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.21|-0.73|0.0004
92299542|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.04|-0.49|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.49|-1.04|<.0001
92299543|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.08|-0.53|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.53|-1.08|<.0001
92299544|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.9|-0.32|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.32|-0.90|<.0001
92299545|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.13|-0.56|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.56|-1.13|<.0001
92299546|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.09|-0.47|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.47|-1.09|<.0001
92299547|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.12|-0.5|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.12|<.0001
92186017|NCT02978183|184271030|SUPERIORITY|||||||0.9212||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.9212
92186018|NCT02978183|184271030|SUPERIORITY|||||||0.9509||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.9509
92186019|NCT02978183|184271030|SUPERIORITY|||||||0.7897||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.7897
92186020|NCT02978183|184271030|SUPERIORITY|||||||0.3183||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.3183
92186021|NCT02978183|184271030|SUPERIORITY|||||||0.7604||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.7604
92186022|NCT02978183|184271030|SUPERIORITY|||||||0.7343||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.7343
92186023|NCT02978183|184271030|SUPERIORITY|||||||0.153||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.1530
92186024|NCT02978183|184271030|SUPERIORITY|||||||0.3307||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.3307
92186025|NCT02978183|184271030|SUPERIORITY|||||||0.3399||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.3399
92186026|NCT02978183|184271030|SUPERIORITY|||||||0.5137||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.5137
92186027|NCT02978183|184271030|SUPERIORITY|||||||0.9962||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.9962
92186028|NCT02978183|184271031|SUPERIORITY|||||||0.3259||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.3259
92186029|NCT02978183|184271031|SUPERIORITY|||||||0.9785||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.9785
92186030|NCT02978183|184271031|SUPERIORITY|||||||0.5112||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.5112
92186031|NCT02978183|184271031|SUPERIORITY|||||||0.7771||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.7771
92186032|NCT02978183|184271031|SUPERIORITY|||||||0.6232||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.6232
92299548|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.16||0.0001|TWO_SIDED|95.0|-0.95|-0.35|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-0.95|0.0001
92186033|NCT02978183|184271031|SUPERIORITY|||||||0.8895||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.8895
92299549|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-0.99|-0.35|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-0.99|<.0001
92299550|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.17||0.0015|TWO_SIDED|95.0|-0.89|-0.21|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.21|-0.89|0.0015
92299551|NCT02709486|184503210|SUPERIORITY||Least Square Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.07|-0.39|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-1.07|<.0001
92299552|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.96|-0.38|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.38|-0.96|<.0001
92186034|NCT02978183|184271031|SUPERIORITY|||||||0.8974||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.8974
92186035|NCT02978183|184271031|SUPERIORITY|||||||0.9604||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.9604
92186036|NCT02978183|184271031|SUPERIORITY|||||||0.5301||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 minutes Post-CAC||||0.5301
92186037|NCT02978183|184271031|SUPERIORITY|||||||0.0386||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.0386
92186038|NCT02978183|184271031|SUPERIORITY|||||||0.1034||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.1034
92186039|NCT02978183|184271031|SUPERIORITY|||||||0.0985||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.0985
92186040|NCT02978183|184271031|SUPERIORITY|||||||0.2342||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.2342
92186041|NCT02978183|184271031|SUPERIORITY|||||||0.3016||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.3016
92186042|NCT02978183|184271032|SUPERIORITY|||||||0.4927||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.4927
92186043|NCT02978183|184271032|SUPERIORITY|||||||0.8686||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 minutes Post-CAC||||0.8686
92299553|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.15||0.0139|TWO_SIDED|95.0|-0.67|-0.08|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.08|-0.67|0.0139
92299554|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.13|-0.51|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.51|-1.13|<.0001
92186044|NCT02978183|184271032|SUPERIORITY|||||||0.5772||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.5772
92186045|NCT02978183|184271032|SUPERIORITY|||||||0.97||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.9700
92186046|NCT02978183|184271032|SUPERIORITY|||||||0.7516||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.7516
92186047|NCT02978183|184271032|SUPERIORITY|||||||0.9532||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.9532
92186048|NCT02978183|184271032|SUPERIORITY|||||||0.7522||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.7522
92186049|NCT02978183|184271032|SUPERIORITY|||||||0.6804||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.6804
92186050|NCT02978183|184271032|SUPERIORITY|||||||0.6267||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.6267
92186051|NCT02978183|184271032|SUPERIORITY|||||||0.0976||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.0976
92186052|NCT02978183|184271032|SUPERIORITY|||||||0.4687|||||||ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.4687
92186053|NCT02978183|184271032|SUPERIORITY|||||||0.0421||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.0421
92186054|NCT02978183|184271032|SUPERIORITY|||||||0.6085||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.6085
92299555|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.16|-0.55|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.55|-1.16|<.0001
92299556|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.91|-0.27|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.27|-0.91|0.0003
92299557|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.04|-0.4|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.40|-1.04|<.0001
92299558|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.08|-0.39|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-1.08|<.0001
92299559|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.14|-0.44|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.44|-1.14|<.0001
92299560|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.18||0.0006|TWO_SIDED|95.0|-0.98|-0.27|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.27|-0.98|0.0006
92186055|NCT02978183|184271032|SUPERIORITY|||||||0.9634||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.9634
92186056|NCT02978183|184271033|SUPERIORITY|||||||0.3322||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.3322
92186057|NCT02978183|184271033|SUPERIORITY|||||||0.8026||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Pre-CAC||||0.8026
92186058|NCT02978183|184271033|SUPERIORITY|||||||0.9981||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Pre-CAC||||0.9981
92186059|NCT02978183|184271033|SUPERIORITY|||||||0.5645||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.5645
92186060|NCT02978183|184271033|SUPERIORITY|||||||0.5455||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.5455
92186061|NCT02978183|184271033|SUPERIORITY|||||||0.698||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.6980
92186062|NCT02978183|184271033|SUPERIORITY|||||||0.6115||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.6115
92186063|NCT02978183|184271033|SUPERIORITY|||||||0.4528||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.4528
92186064|NCT02978183|184271033|SUPERIORITY|||||||0.7551||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.7551
92186065|NCT02978183|184271033|SUPERIORITY|||||||0.5318||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.5318
92186066|NCT02978183|184271033|SUPERIORITY|||||||0.9748||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.9748
92186067|NCT02978183|184271033|SUPERIORITY|||||||0.7706||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.7706
92186068|NCT02978183|184271033|SUPERIORITY|||||||0.3414||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.3414
92186069|NCT02978183|184271033|SUPERIORITY|||||||0.4361||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.4361
92186070|NCT02978183|184271034|SUPERIORITY|||||||0.0603||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.0603
92186071|NCT02978183|184271034|SUPERIORITY|||||||0.4857||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 minutes Post-CAC||||0.4857
92186072|NCT02978183|184271034|SUPERIORITY|||||||0.9815||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.9815
92186073|NCT02978183|184271034|SUPERIORITY|||||||0.6213||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.6213
92186074|NCT02978183|184271034|SUPERIORITY|||||||0.1831||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.1831
92186075|NCT02978183|184271034|SUPERIORITY|||||||0.6489||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.6489
92186076|NCT02978183|184271034|SUPERIORITY|||||||0.2622||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.2622
92186077|NCT02978183|184271034|SUPERIORITY|||||||0.2397||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.2397
92186078|NCT02978183|184271034|SUPERIORITY|||||||0.3202||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.3202
92186079|NCT02978183|184271034|SUPERIORITY|||||||0.2663||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.2663
92186080|NCT02978183|184271034|SUPERIORITY|||||||0.5672||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.5672
92186081|NCT02978183|184271034|SUPERIORITY|||||||0.5055||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.5055
92186082|NCT02978183|184271034|SUPERIORITY|||||||0.8143||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.8143
92299561|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18||0.0009|TWO_SIDED|95.0|-0.96|-0.25|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.25|-0.96|0.0009
92299562|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0377|TWO_SIDED|95.0|-0.78|-0.02|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.02|-0.78|0.0377
92299563|NCT02709486|184503212|SUPERIORITY||Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.19||0.0019|TWO_SIDED|95.0|-0.96|-0.22|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.22|-0.96|0.0019
92186083|NCT02978183|184271034|SUPERIORITY|||||||0.6901||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.6901
92186084|NCT02978183|184271035|SUPERIORITY|||||||0.4032||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.4032
92186085|NCT02978183|184271035|SUPERIORITY|||||||0.2946||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.2946
92186086|NCT02978183|184271035|SUPERIORITY|||||||0.2863||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.2863
92186087|NCT02978183|184271035|SUPERIORITY|||||||0.0891||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.0891
92186088|NCT02978183|184271035|SUPERIORITY|||||||0.5347||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.5347
92186089|NCT02978183|184271035|SUPERIORITY|||||||0.3733||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.3733
92186090|NCT02978183|184271035|SUPERIORITY|||||||0.2506||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.2506
92186091|NCT02978183|184271035|SUPERIORITY|||||||0.8667||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.8667
92266806|NCT05182840|184434932|OTHER||Odds Ratio (OR)|4.23||||0.0003|TWO_SIDED|95.0|1.93|9.24||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.24|1.93|0.0003
92266807|NCT05182840|184434932|OTHER||Odds Ratio (OR)|3.19||||0.0023|TWO_SIDED|95.0|1.52|6.73||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.73|1.52|0.0023
92266808|NCT05182840|184434933|OTHER||Odds Ratio (OR)|2.56||||0.0116|TWO_SIDED|95.0|1.23|5.31||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||5.31|1.23|0.0116
92186092|NCT02978183|184271035|SUPERIORITY|||||||0.764||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.7640
92266809|NCT05182840|184434933|OTHER||Odds Ratio (OR)|3.08||||0.0032|TWO_SIDED|95.0|1.46|6.52||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.52|1.46|0.0032
92266810|NCT05182840|184434933|OTHER||Odds Ratio (OR)|4.07||||0.0004|TWO_SIDED|95.0|1.86|8.91||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.91|1.86|0.0004
92266811|NCT05182840|184434934|OTHER||Odds Ratio (OR)|2.01||||0.0578|TWO_SIDED|95.0|0.98|4.14||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.14|0.98|0.0578
92299564|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.99|-0.39|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-0.99|<.0001
92299565|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.15||0.0002|TWO_SIDED|95.0|-0.87|-0.27|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.27|-0.87|0.0002
92299566|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.29|-0.65|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.65|-1.29|<.0001
92299567|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.28|-0.65|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.65|-1.28|<.0001
92299568|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.11|-0.42|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.42|-1.11|<.0001
92299569|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.35|-0.67|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.67|-1.35|<.0001
92299570|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.11|-0.39|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-1.11|<.0001
92186093|NCT02978183|184271035|SUPERIORITY|||||||0.8008||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.8008
92299571|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.23|-0.51|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.51|-1.23|<.0001
92299572|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.19||0.0005|TWO_SIDED|95.0|-1.03|-0.29|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.29|-1.03|0.0005
92186094|NCT02978183|184271035|SUPERIORITY|||||||0.4729||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.4729
92186095|NCT02978183|184271035|SUPERIORITY|||||||0.4742||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.4742
92186096|NCT02978183|184271035|SUPERIORITY|||||||0.2922||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.2922
92186097|NCT02978183|184271035|SUPERIORITY|||||||0.3657||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.3657
92186098|NCT02978183|184271036|SUPERIORITY|||||||0.66||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.6600
92186099|NCT02978183|184271036|SUPERIORITY|||||||0.6877||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 minutes Post-CAC||||0.6877
92186100|NCT02978183|184271036|SUPERIORITY|||||||0.334||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.3340
92186101|NCT02978183|184271036|SUPERIORITY|||||||0.7874||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.7874
92186102|NCT02978183|184271036|SUPERIORITY|||||||0.3812||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.3812
92186103|NCT02978183|184271036|SUPERIORITY|||||||0.6987|||||||ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.6987
92186104|NCT02978183|184271036|SUPERIORITY|||||||0.6832||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.6832
92299573|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.13|-0.4|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.40|-1.13|<.0001
92299574|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.2||0.0246|TWO_SIDED|95.0|-0.82|-0.06|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.82|0.0246
92299575|NCT02709486|184503214|SUPERIORITY||Least Square Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.2||0.0003|TWO_SIDED|95.0|-1.1|-0.33|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.33|-1.10|0.0003
92299576|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|2.57||0.6427|TWO_SIDED|95.0|-3.9|6.29|||ANCOVA|||Week 8: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||6.29|-3.90|0.6427
92186105|NCT02978183|184271036|SUPERIORITY|||||||0.8521||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.8521
92186106|NCT02978183|184271036|SUPERIORITY|||||||0.7516||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.7516
92186107|NCT02978183|184271036|SUPERIORITY|||||||0.6252||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.6252
92186108|NCT02978183|184271036|SUPERIORITY|||||||0.8321||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.8321
92266812|NCT05182840|184434934|OTHER||Odds Ratio (OR)|5.12||||0.0001|TWO_SIDED|95.0|2.23|11.78||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||11.78|2.23|0.0001
92266813|NCT05182840|184434934|OTHER||Odds Ratio (OR)|3.32||||0.0022|TWO_SIDED|95.0|1.54|7.16||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.16|1.54|0.0022
92186109|NCT02978183|184271036|SUPERIORITY|||||||0.8173||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.8173
92186110|NCT02978183|184271036|SUPERIORITY|||||||0.5445||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.5445
92186111|NCT02978183|184271036|SUPERIORITY|||||||0.681||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.6810
92186112|NCT02978183|184271037|SUPERIORITY|||||||0.0111||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.0111
92186113|NCT02978183|184271037|SUPERIORITY|||||||0.3391||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.3391
92186114|NCT02978183|184271037|SUPERIORITY|||||||0.239||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.2390
92186115|NCT02978183|184271037|SUPERIORITY|||||||0.3068||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.3068
92186116|NCT02978183|184271037|SUPERIORITY|||||||0.4914||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.4914
92266814|NCT04242498|184434936|SUPERIORITY||Odds Ratio (OR)|2.422||||0.004|TWO_SIDED|97.5|1.221|4.804|||Regression, Logistic|||||4.804|1.221|0.004
92266815|NCT04242498|184434936|SUPERIORITY||Odds Ratio (OR)|2.287||||0.003|TWO_SIDED|97.5|1.22|4.291|||Regression, Logistic|||||4.291|1.220|0.003
92266816|NCT04242498|184434937|SUPERIORITY||Odds Ratio (OR)|2.722||||0.007|TWO_SIDED|97.5|1.182|6.267|||Regression, Logistic|||||6.267|1.182|0.007
92266817|NCT04242498|184434937|SUPERIORITY||Odds Ratio (OR)|3.007||||0.002|TWO_SIDED|97.5|1.374|6.581|||Regression, Logistic|||||6.581|1.374|0.002
92266818|NCT04242498|184434938|SUPERIORITY||Odds Ratio (OR)|0.798||||0.497|TWO_SIDED|97.5|0.378|1.683|||Regression, Logistic|||||1.683|0.378|0.497
92266819|NCT04242498|184434938|SUPERIORITY||Odds Ratio (OR)|1.05||||0.868|TWO_SIDED|97.5|0.541|2.041|||Regression, Logistic|||||2.041|0.541|0.868
92266820|NCT04242498|184434939|SUPERIORITY||LS mean difference|-2.393|||<|0.001|TWO_SIDED|97.5|-3.92|-0.867||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|ANCOVA|||||-0.867|-3.920|<0.001
92266821|NCT04242498|184434939|SUPERIORITY||LS mean difference|-2.309|||<|0.001||97.5|-3.705|-0.914||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|ANCOVA|||||-0.914|-3.705|<0.001
92266822|NCT04242498|184434940|SUPERIORITY||LS mean difference|-0.898||||0.01|TWO_SIDED|97.5|-1.684|-0.113||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|ANCOVA|||||-0.113|-1.684|0.010
92186117|NCT02978183|184271037|SUPERIORITY|||||||0.5185||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.5185
92186118|NCT02978183|184271037|SUPERIORITY|||||||0.5262||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.5262
92186119|NCT02978183|184271037|SUPERIORITY|||||||0.6098||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.6098
92186120|NCT02978183|184271037|SUPERIORITY|||||||0.8849||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.8849
92186121|NCT02978183|184271037|SUPERIORITY|||||||0.6941||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.6941
92186122|NCT02978183|184271037|SUPERIORITY|||||||0.5728||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.5728
92266823|NCT04242498|184434940|SUPERIORITY||LS mean difference|-1.265|||<|0.001|TWO_SIDED|97.5|-1.978|-0.552||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|ANCOVA|||||-0.552|-1.978|<0.001
92266824|NCT04242498|184434941|SUPERIORITY||Odds Ratio (OR)|3.273||||0.028|TWO_SIDED|97.5|0.974|10.997||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|Regression, Logistic|||||10.997|0.974|0.028
92266825|NCT04242498|184434941|SUPERIORITY||Odds Ratio (OR)|3.756||||0.01|TWO_SIDED|97.5|1.189|11.867||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|Regression, Logistic|||||11.867|1.189|0.010
92266826|NCT00931515|184434967|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
92266827|NCT01375491|184435034|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||See published paper.|ANOVA|See published paper.||See published paper.||||<0.05
92266828|NCT02260804|184435040|EQUIVALENCE|The equivalence margin of ±17% was predefined.|Difference in proportion|1.8|||||TWO_SIDED|90.0|-6.43|10.2||||||||10.2|-6.43|
92266829|NCT02985541|184435049|OTHER||3-year probability of getting pregnant|0.68|||||TWO_SIDED|95.0|0.17|2.71||||||Cumulative failure rate (Kaplan-Meier) during Years 6-8||2.71|0.17|
92266830|NCT02383966|184435055|OTHER||Hazard Ratio (HR)|0.566|||||TWO_SIDED|95.0|0.4|0.803||||||||0.803|0.400|
92266831|NCT02383966|184435056|OTHER||Hazard Ratio (HR)|0.568|||||TWO_SIDED|95.0|0.406|0.795||||||||0.795|0.406|
92266832|NCT02383966|184435057|OTHER||Hazard Ratio (HR)|0.705|||||TWO_SIDED|95.0|0.502|0.991||||||||0.991|0.502|
92266833|NCT02383966|184435058|OTHER||Odds Ratio (OR)|2.76|||||TWO_SIDED|95.0|1.52|5.45||||||||5.45|1.52|
92266834|NCT02383966|184435059|OTHER||Odds Ratio (OR)|2.14|||||TWO_SIDED|95.0|1.15|3.95||||||||3.95|1.15|
92266835|NCT03965754|184435065|SUPERIORITY||Odds Ratio (OR)|5.96|||<|0.001|TWO_SIDED|95.0|4.0|9.18||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who previously enrolled in the program).||9.18|4.00|<.001
92266836|NCT03965754|184435065|SUPERIORITY||Odds Ratio (OR)|5.02|||<|0.001|TWO_SIDED|95.0|3.36|7.76||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who previously enrolled in the program).||7.76|3.36|<.001
92266837|NCT03965754|184435065|SUPERIORITY||Odds Ratio (OR)|3.3|||<|0.001|TWO_SIDED|95.0|2.17|5.17||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who previously enrolled in the program).||5.17|2.17|<.001
92266838|NCT03965754|184435065|SUPERIORITY||Odds Ratio (OR)|3.28||||0.038|TWO_SIDED|95.0|1.16|11.71||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who never enrolled in the program).||11.71|1.16|.038
92266839|NCT03965754|184435065|SUPERIORITY||Odds Ratio (OR)|2.01||||0.256|TWO_SIDED|95.0|0.63|7.54||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who never enrolled in the program).||7.54|0.63|.256
92266840|NCT03965754|184435065|SUPERIORITY||Odds Ratio (OR)|1.5||||0.531|TWO_SIDED|95.0|0.43|5.89||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who never enrolled in the program).||5.89|0.43|.531
92266841|NCT03965754|184435065|SUPERIORITY||Odds Ratio (OR)|1.19||||0.202|TWO_SIDED|95.0|0.91|1.54||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who previously enrolled in the program).||1.54|0.91|.202
92266842|NCT03965754|184435065|SUPERIORITY||Odds Ratio (OR)|0.66||||0.005|TWO_SIDED|95.0|0.49|0.88||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who previously enrolled in the program).||0.88|0.49|.005
92266843|NCT03965754|184435065|SUPERIORITY||Odds Ratio (OR)|0.75||||0.276|TWO_SIDED|95.0|0.69|4.16||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who never enrolled in the program).||4.16|0.69|.276
92266844|NCT03965754|184435065|SUPERIORITY||Odds Ratio (OR)|0.75||||0.592|TWO_SIDED|95.0|0.25|2.16||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who never enrolled in the program).||2.16|0.25|.592
92266845|NCT03965754|184435066|SUPERIORITY|We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who previously enrolled).|Odds Ratio (OR)|1.31||||0.02|TWO_SIDED|95.0|1.04|1.65||We used an a priori threshold of p \< .05.|Regression, Logistic|||||1.65|1.04|.020
92266846|NCT03965754|184435066|SUPERIORITY||Odds Ratio (OR)|0.58|||<|0.001|TWO_SIDED|95.0|0.44|0.75||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who previously enrolled).||0.75|0.44|<.001
92266847|NCT03965754|184435066|SUPERIORITY||Odds Ratio (OR)|0.75||||0.359|TWO_SIDED|95.0|0.41|1.38||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who never enrolled).||1.38|0.41|.359
92299577|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-2.09|STANDARD_ERROR_OF_MEAN|2.59||0.4208|TWO_SIDED|95.0|-7.22|3.04|||ANCOVA|||Week 8: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||3.04|-7.22|0.4208
92299578|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|2.73||0.8204|TWO_SIDED|95.0|-6.03|4.79|||ANCOVA|||Week 16: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||4.79|-6.03|0.8204
92299579|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-4.52|STANDARD_ERROR_OF_MEAN|2.85||0.1157|TWO_SIDED|95.0|-10.16|1.13|||ANCOVA|||Week 16: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||1.13|-10.16|0.1157
92299580|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|2.41||0.5845|TWO_SIDED|95.0|-6.12|3.47|||ANCOVA|||Week 24: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||3.47|-6.12|0.5845
92186123|NCT02978183|184271037|SUPERIORITY|||||||0.5931||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.5931
92186124|NCT02978183|184271037|SUPERIORITY|||||||0.7513||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.7513
92186125|NCT02978183|184271037|SUPERIORITY|||||||0.7297||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.7297
92186126|NCT02978183|184271038|SUPERIORITY|||||||0.1259||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.1259
92186127|NCT02978183|184271038|SUPERIORITY|||||||0.9234||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.9234
92186128|NCT02978183|184271038|SUPERIORITY|||||||0.8816||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.8816
92299581|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|2.54||0.2514|TWO_SIDED|95.0|-7.97|2.11|||ANCOVA|||Week 24: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||2.11|-7.97|0.2514
92299582|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-6.68|STANDARD_ERROR_OF_MEAN|3.67||0.0717|TWO_SIDED|95.0|-13.97|0.6|||ANCOVA|||Week 8: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||0.60|-13.97|0.0717
92299583|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-12.69|STANDARD_ERROR_OF_MEAN|3.74||0.001|TWO_SIDED|95.0|-20.11|-5.26|||ANCOVA|||Week 8: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-5.26|-20.11|0.0010
92299584|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-10.31|STANDARD_ERROR_OF_MEAN|3.8||0.0079|TWO_SIDED|95.0|-17.85|-2.77|||ANCOVA|||Week 16: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-2.77|-17.85|0.0079
92299585|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-10.56|STANDARD_ERROR_OF_MEAN|4.0||0.0096|TWO_SIDED|95.0|-18.49|-2.63|||ANCOVA|||Week 16: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-2.63|-18.49|0.0096
92186129|NCT02978183|184271038|SUPERIORITY|||||||0.5703||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.5703
92186130|NCT02978183|184271038|SUPERIORITY|||||||0.5428||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.5428
92186131|NCT02978183|184271038|SUPERIORITY|||||||0.7454||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.7454
92186132|NCT02978183|184271038|SUPERIORITY|||||||0.8195||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.8195
92186133|NCT02978183|184271038|SUPERIORITY|||||||0.0909||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.0909
92186134|NCT02978183|184271038|SUPERIORITY|||||||0.4881||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.4881
92186135|NCT02978183|184271038|SUPERIORITY|||||||0.3391||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.3391
92186136|NCT02978183|184271038|SUPERIORITY|||||||0.6065||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.6065
92186137|NCT02978183|184271038|SUPERIORITY|||||||0.3393||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.3393
92186138|NCT02978183|184271038|SUPERIORITY|||||||0.8364||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.8364
92186139|NCT02978183|184271038|SUPERIORITY|||||||0.8858||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.8858
92186140|NCT02978183|184271039|SUPERIORITY|||||||0.8818||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.8818
92186141|NCT02978183|184271039|SUPERIORITY|||||||0.8679||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 minutes Post-CAC||||0.8679
92186142|NCT02978183|184271039|SUPERIORITY|||||||0.7856||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.7856
92186143|NCT02978183|184271039|SUPERIORITY|||||||0.7507||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.7507
92186144|NCT02978183|184271039|SUPERIORITY|||||||0.8189||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.8189
92186145|NCT02978183|184271039|SUPERIORITY|||||||0.9206||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.9206
92186146|NCT02978183|184271039|SUPERIORITY|||||||0.9591||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.9591
92186147|NCT02978183|184271039|SUPERIORITY|||||||0.5302||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.5302
92186148|NCT02978183|184271039|SUPERIORITY|||||||0.7591||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.7591
92186149|NCT02978183|184271039|SUPERIORITY|||||||0.8978||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.8978
92266848|NCT03965754|184435066|SUPERIORITY|We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who never enrolled).|Odds Ratio (OR)|1.72||||0.035|TWO_SIDED|95.0|1.05|2.9|||Regression, Logistic|We used an a priori threshold of p \< .05.||||2.90|1.05|.035
92266849|NCT02983305|184435067|EQUIVALENCE|Mann-Whitney U test was used to test equivalence of this outcome measure for the two study arms at baseline.||||||0.0001||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Test of equivalence of visual field area at baseline.||||.0001
92266850|NCT02983305|184435067|EQUIVALENCE|Mann-Whitney U test was used to test equivalence of this outcome measure for the two study arms under intervention conditions.||||||0.0001||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Test of equivalence of visual field area under intervention conditions.||||0.0001
92266851|NCT02983305|184435067|EQUIVALENCE|Mann-Whitney U test was used to test non-equivalence of this outcome measure for the two study arms under intervention conditions.||||||0.003||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Comparison between study arms of the change in the visual field area (average of both eyes) detected between baseline and intervention.||||.003
92266852|NCT02983305|184435068|EQUIVALENCE|Mann-Whitney U test was used to test equivalence of this outcome measure for the two study arms at baseline.||||||0.38||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Test of equivalence of gait speed at baseline.||||0.38
92266853|NCT02983305|184435068|EQUIVALENCE|Mann-Whitney U test was used to test equivalence of this outcome measure for the two study arms under intervention conditions.||||||0.27||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Test of equivalence of gait speed under intervention conditions.||||0.27
92266854|NCT02983305|184435068|EQUIVALENCE|Mann-Whitney U test was used to test non-equivalence of this outcome measure for the two study arms under intervention conditions.||||||0.79||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Comparison between study arms of the change in the gait speed detected between baseline and intervention.||||0.79
92266855|NCT03433482|184435070|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% confidence interval (CI) for the hSBA GMT ratio for serogroup A between the MenACWY liquid vaccine aged for approximately 24 months and the licensed MenACWY vaccine is \> 0.5.|GMT ratio|1.21|||||TWO_SIDED|95.0|0.94|1.57|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To demonstrate non-inferiority of the MenACWY liquid vaccine aged for approximately 24 months to that of currently licensed MenACWY vaccine, as measured by the adjusted hSBA GMTs directed against N. meningitidis serogroup A at Day 29 after a single dose vaccination||1.57|0.94|
92266856|NCT03433482|184435070|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the hSBA GMT ratios for serogroup A between the MenACWY liquid vaccine aged for approximately 30 months and the licensed MenACWY vaccine is \> 0.5. Non-inferiority hypotheses testing will be conducted sequentially, starting from MenACWY liquid vaccine aged for approximately 24 months and subsequently with MenACWY liquid vaccine aged for approximately 30 months.|GMT ratio|1.11|||||TWO_SIDED|95.0|0.87|1.42|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To demonstrate non-inferiority of the MenACWY liquid vaccine aged for approximately 30 months to that of currently licensed MenACWY vaccine, as measured by the adjusted hSBA GMTs directed against N. meningitidis serogroup A at Day 29 after a single dose vaccination.||1.42|0.87|
92266857|NCT03433482|184435071|OTHER||GMT ratio|0.84|||||TWO_SIDED|95.0|0.58|1.19|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq24 and ACWY\_1, at Day 29 against serogroup C||1.19|0.58|
92266858|NCT03433482|184435071|OTHER||GMT ratio|0.94|||||TWO_SIDED|95.0|0.72|1.24|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq24 and ACWY\_1, at Day 29 against serogroup W||1.24|0.72|
92266859|NCT03433482|184435071|OTHER||GMT ratio|1.09|||||TWO_SIDED|95.0|0.82|1.44|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq24 and ACWY\_1, at Day 29 against serogroup Y||1.44|0.82|
92266860|NCT03433482|184435071|OTHER||GMT ratio|1.14|||||TWO_SIDED|95.0|0.79|1.64|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq30 and ACWY\_2, at Day 29 against serogroup C||1.64|0.79|
92266861|NCT03433482|184435071|OTHER||GMT ratio|1.1|||||TWO_SIDED|95.0|0.84|1.45|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq30 and ACWY\_2, at Day 29 against serogroup W||1.45|0.84|
92299586|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-4.28|STANDARD_ERROR_OF_MEAN|4.37||0.3302|TWO_SIDED|95.0|-12.97|4.41|||ANCOVA|||Week 24: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||4.41|-12.97|0.3302
92299587|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-2.74|STANDARD_ERROR_OF_MEAN|4.54||0.5483|TWO_SIDED|95.0|-11.78|6.3|||ANCOVA|||Week 24: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||6.30|-11.78|0.5483
92299588|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-6.75|STANDARD_ERROR_OF_MEAN|3.79||0.0774|TWO_SIDED|95.0|-14.26|0.76|||ANCOVA|||Week 8: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||0.76|-14.26|0.0774
92299589|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-12.48|STANDARD_ERROR_OF_MEAN|3.87||0.0017|TWO_SIDED|95.0|-20.15|-4.81|||ANCOVA|||Week 8: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-4.81|-20.15|0.0017
92299590|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-9.41|STANDARD_ERROR_OF_MEAN|3.74||0.0135|TWO_SIDED|95.0|-16.83|-1.99|||ANCOVA|||Week 16: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-1.99|-16.83|0.0135
92299591|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-10.04|STANDARD_ERROR_OF_MEAN|3.97||0.0129|TWO_SIDED|95.0|-17.91|-2.17|||ANCOVA|||Week 16: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-2.17|-17.91|0.0129
92299592|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-3.85|STANDARD_ERROR_OF_MEAN|4.43||0.3869|TWO_SIDED|95.0|-12.66|4.96|||ANCOVA|||Week 24: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||4.96|-12.66|0.3869
92299593|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-2.11|STANDARD_ERROR_OF_MEAN|4.62||0.6485|TWO_SIDED|95.0|-11.31|7.08|||ANCOVA|||Week 24: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||7.08|-11.31|0.6485
92299594|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-6.18|STANDARD_ERROR_OF_MEAN|1.61||0.0001|TWO_SIDED|95.0|-9.34|-3.03|||ANCOVA|||Week 8: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-3.03|-9.34|0.0001
92299595|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-9.13|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001|TWO_SIDED|95.0|-12.26|-6.0|||ANCOVA|||Week 8: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-6.00|-12.26|<.0001
92299596|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.79||0.0008|TWO_SIDED|95.0|-9.51|-2.5|||ANCOVA|||Week 16: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-2.50|-9.51|0.0008
92299597|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-6.97|STANDARD_ERROR_OF_MEAN|1.77|<|0.0001|TWO_SIDED|95.0|-10.44|-3.51|||ANCOVA|||Week 16: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-3.51|-10.44|<.0001
92299598|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-3.08|STANDARD_ERROR_OF_MEAN|1.87||0.1004|TWO_SIDED|95.0|-6.76|0.6|||ANCOVA|||Week 24: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||0.60|-6.76|0.1004
92299599|NCT02709486|184503217|SUPERIORITY||Least Square Mean Difference|-4.94|STANDARD_ERROR_OF_MEAN|1.86||0.0079|TWO_SIDED|95.0|-8.59|-1.3|||ANCOVA|||Week 24: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect||-1.30|-8.59|0.0079
92299600|NCT02709486|184503232|SUPERIORITY||Odds Ratio (OR)|0.1||||0.0027|TWO_SIDED|95.0|0.02|0.46|||Regression, Logistic|||Logistic regression model included baseline diary average pain, baseline WOMAC pain score, classification variables index joint, highest Kellgren-Lawrence grade and treatment. Odds ratio and 95% CI estimated from logistic regression model.||0.46|0.02|0.0027
92299601|NCT02709486|184503232|SUPERIORITY||Odds Ratio (OR)|0.16||||0.0033|TWO_SIDED|95.0|0.05|0.54|||Regression, Logistic|||Logistic regression model included baseline diary average pain, baseline WOMAC pain score, classification variables index joint, highest Kellgren-Lawrence grade and treatment. Odds ratio and 95% CI estimated from logistic regression model.||0.54|0.05|0.0033
92299602|NCT02709486|184503233|SUPERIORITY|||||||0.0002||||||P-value based on the log-rank test.|Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0002
92186150|NCT02978183|184271039|SUPERIORITY|||||||0.7179||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.7179
92186151|NCT02978183|184271039|SUPERIORITY|||||||0.7262||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.7262
92186152|NCT02978183|184271039|SUPERIORITY|||||||0.8275||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.8275
92186153|NCT02978183|184271039|SUPERIORITY|||||||0.618||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.6180
92186154|NCT02978183|184271040|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity were not employed|Fisher Exact|||Day 7: 10 minutes post-CAC||||>0.9999
92186155|NCT02978183|184271040|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 7: 15 minutes post-CAC||||>0.9999
92266862|NCT03433482|184435071|OTHER||GMT ratio|0.96|||||TWO_SIDED|95.0|0.72|1.26|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq30 and ACWY\_2, at Day 29 against serogroup Y||1.26|0.72|
92266863|NCT03433482|184435073|OTHER||Difference in percentage of subjects|2.21|||||TWO_SIDED|95.0|-1.94|6.4|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup A at Day 29.||6.40|-1.94|
92266864|NCT03433482|184435073|OTHER||Difference in percentage of subjects|-2.12|||||TWO_SIDED|95.0|-8.94|4.72|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup C at Day 29.||4.72|-8.94|
92266865|NCT03433482|184435073|OTHER||Difference in percentage of subjects|-1.16|||||TWO_SIDED|95.0|-8.11|5.8|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup W at Day 29.||5.80|-8.11|
92266866|NCT03433482|184435073|OTHER||Difference in percentage of subjects|-1.57|||||TWO_SIDED|95.0|-7.88|4.74|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup Y at Day 29.||4.74|-7.88|
92266867|NCT03433482|184435073|OTHER||Difference in percentage of subjects|-0.12|||||TWO_SIDED|95.0|-4.29|4.07|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup A at Day 29.||4.07|-4.29|
92266868|NCT03433482|184435073|OTHER||Difference in percentage of subjects|2.85|||||TWO_SIDED|95.0|-3.63|9.3|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup C at Day 29.||9.30|-3.63|
92266869|NCT03433482|184435073|OTHER||Difference in percentage of subjects|4.01|||||TWO_SIDED|95.0|-2.89|10.88|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup W at Day 29.||10.88|-2.89|
92266870|NCT03433482|184435073|OTHER||Difference in percentage of subjects|-2.84|||||TWO_SIDED|95.0|-8.91|3.26|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup Y at Day 29.||3.26|-8.91|
92266871|NCT03433482|184435074|OTHER||Difference in percentage of subjects|1.79|||||TWO_SIDED|95.0|-2.69|6.32|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A on Day 1.||6.32|-2.69|
92266872|NCT03433482|184435074|OTHER||Difference in percentage of subjects|6.96|||||TWO_SIDED|95.0|0.01|13.84|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C on Day 1.||13.84|0.01|
92266873|NCT03433482|184435074|OTHER||Difference in percentage of subjects|3.13|||||TWO_SIDED|95.0|-3.33|9.58|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup W on Day 1.||9.58|-3.33|
92266874|NCT03433482|184435074|OTHER||Difference in percentage of subjects|0.96|||||TWO_SIDED|95.0|-4.86|6.8|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y on Day 1.||6.80|-4.86|
92266875|NCT03433482|184435074|OTHER||Difference in percentage of subjects|1.46|||||TWO_SIDED|95.0|-2.24|5.22|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A on Day 29.||5.22|-2.24|
92266876|NCT03433482|184435074|OTHER||Difference in percentage of subjects|-0.43|||||TWO_SIDED|95.0|-6.32|5.46|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C on Day 29.||5.46|-6.32|
92266877|NCT03433482|184435074|OTHER||Difference in percentage of subjects|-1.43|||||TWO_SIDED|95.0|-7.05|4.18|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup W on Day 29.||4.18|-7.05|
92266878|NCT03433482|184435074|OTHER||Difference in percentage of subjects|2.04|||||TWO_SIDED|95.0|-2.81|6.9|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y on Day 29.||6.90|-2.81|
92266879|NCT03433482|184435074|OTHER||Difference in percentage of subjects|1.5|||||TWO_SIDED|95.0|-3.32|6.33|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A on Day 1.||6.33|-3.32|
92266880|NCT03433482|184435074|OTHER||Difference in percentage of subjects|0.38|||||TWO_SIDED|95.0|-6.6|7.35|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C on Day 1.||7.35|-6.60|
92266881|NCT03433482|184435074|OTHER||Difference in percentage of subjects|-1.26|||||TWO_SIDED|95.0|-7.75|5.23|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup W on Day 1.||5.23|-7.75|
92266882|NCT03433482|184435074|OTHER||Difference in percentage of subjects|-0.85|||||TWO_SIDED|95.0|-6.69|4.98|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y on Day 1.||4.98|-6.69|
92266883|NCT03433482|184435074|OTHER||Difference in percentage of subjects|-0.64|||||TWO_SIDED|95.0|-4.24|2.96|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A on Day 29.||2.96|-4.24|
92299603|NCT02709486|184503233|SUPERIORITY|||||||0.0007||||||P-value based on the log-rank test.|Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0007
92299604|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.29|0.59|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.59|0.29|<.0001
92299605|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.55||||0.001|TWO_SIDED|95.0|0.38|0.78|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.78|0.38|0.0010
92299606|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.36|0.7|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.70|0.36|<.0001
92299607|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.62||||0.0067|TWO_SIDED|95.0|0.44|0.88|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.88|0.44|0.0067
92299608|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.64||||0.0087|TWO_SIDED|95.0|0.45|0.89|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.89|0.45|0.0087
92299609|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.74||||0.0787|TWO_SIDED|95.0|0.53|1.04|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.04|0.53|0.0787
92186156|NCT02978183|184271040|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 7: 20 minutes post-CAC||||>0.9999
92186157|NCT02978183|184271040|SUPERIORITY|||||||0.7312||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 7: 25 minutes post-CAC||||0.7312
92186158|NCT02978183|184271040|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 7: 30 minutes post-CAC||||>0.9999
92186159|NCT02978183|184271040|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 8: 10 minutes post-CAC||||>0.9999
92299610|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.65||||0.0129|TWO_SIDED|95.0|0.47|0.91|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.91|0.47|0.0129
92299611|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.65||||0.0124|TWO_SIDED|95.0|0.47|0.91|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.91|0.47|0.0124
92299612|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.7||||0.0399|TWO_SIDED|95.0|0.5|0.98|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.98|0.50|0.0399
92299613|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.62||||0.006|TWO_SIDED|95.0|0.45|0.87|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.87|0.45|0.0060
92299614|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9449|TWO_SIDED|95.0|0.72|1.42|||Regression, Logistic|||Week 24: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.42|0.72|0.9449
92299615|NCT02709486|184503234|SUPERIORITY||Odds Ratio (OR)|0.84||||0.3238|TWO_SIDED|95.0|0.6|1.18|||Regression, Logistic|||Week 24: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.18|0.60|0.3238
92186160|NCT02978183|184271040|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 8: 15 minutes post-CAC||||>0.9999
92186161|NCT02978183|184271040|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 8: 20 minutes post-CAC||||>0.9999
92186162|NCT02978183|184271040|SUPERIORITY|||||||0.4297||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 8: 25 minutes post-CAC||||0.4297
92186163|NCT02978183|184271040|SUPERIORITY|||||||0.4791||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 8: 30 minutes post-CAC||||0.4791
92186164|NCT04620733|184271057|SUPERIORITY||Risk Difference (RD)|41.7|||<|0.0001|TWO_SIDED|95.0|27.7|53.4||Two-sided p-value for pair-wise comparison was based on the CMH test adjusted for both randomization stratification variables (baseline ALP level: \< 350 U/L and ≥ 350 U/L; baseline Pruritus NRS: \< 4 and ≥ 4).|Cochran-Mantel-Haenszel|||||53.4|27.7|< 0.0001
92186165|NCT04620733|184271060|SUPERIORITY||Risk Difference (RD)|25.0|||<|0.0001|TWO_SIDED|95.0|18.3|33.2|||Cochran-Mantel-Haenszel||Two-sided p-value for pair-wise comparison is based on the Cochran Mantel Haenszel test adjusted for both stratification variables (baseline ALP level: \< 350 U/L and \>= 350 U/L; baseline pruritus NRS: \< 4 and \>= 4).|||33.2|18.3|< 0.0001
92186166|NCT04620733|184271061|SUPERIORITY||Least Squares (LS) Mean Difference|-1.5||||0.0047|TWO_SIDED|95.0|-2.5|-0.5|||MMRM|Mixed-Effect Model Repeated Measure (MMRM)||||-0.5|-2.5|0.0047
92186167|NCT02221934|184271062|SUPERIORITY||Risk Difference (RD)|0.176||||0.002|TWO_SIDED|95.0|0.07|0.283|||Regression, Logistic||Difference in Responders between groups presented.|||0.283|0.070|0.002
92266884|NCT03433482|184435074|OTHER||Difference in percentage of subjects|1.32|||||TWO_SIDED|95.0|-3.99|6.64|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C on Day 29.||6.64|-3.99|
92266885|NCT03433482|184435074|OTHER||Difference in percentage of subjects|4.09|||||TWO_SIDED|95.0|-1.11|9.33|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 the N. meningitidis serogroup W on Day 29.||9.33|-1.11|
92266886|NCT03433482|184435074|OTHER||Difference in percentage of subjects|0.48|||||TWO_SIDED|95.0|-4.16|5.13|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y on Day 29.||5.13|-4.16|
92266887|NCT03433482|184435075|OTHER||Difference in percentage of subjects|1.29|||||TWO_SIDED|95.0|-3.37|5.99|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 1||5.99|-3.37|
92266888|NCT03433482|184435075|OTHER||Difference in percentage of subjects|7.23|||||TWO_SIDED|95.0|0.25|14.13|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 1||14.13|0.25|
92266889|NCT03433482|184435075|OTHER||Difference in percentage of subjects|3.92|||||TWO_SIDED|95.0|-2.57|10.39|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 1||10.39|-2.57|
92266890|NCT03433482|184435075|OTHER||Difference in percentage of subjects|1.49|||||TWO_SIDED|95.0|-4.44|7.44|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 1||7.44|-4.44|
92266891|NCT03433482|184435075|OTHER||Difference in percentage of subjects|1.73|||||TWO_SIDED|95.0|-1.94|5.46|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 29||5.46|-1.94|
92266892|NCT03433482|184435075|OTHER||Difference in percentage of subjects|-0.99|||||TWO_SIDED|95.0|-6.66|4.7|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 29||4.70|-6.66|
92266893|NCT03433482|184435075|OTHER||Difference in percentage of subjects|-1.43|||||TWO_SIDED|95.0|-7.05|4.18|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 29||4.18|-7.05|
92266894|NCT03433482|184435075|OTHER||Difference in percentage of subjects|2.06|||||TWO_SIDED|95.0|-2.67|6.8|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 29||6.80|-2.67|
92266895|NCT03433482|184435075|OTHER||Difference in percentage of subjects|1.75|||||TWO_SIDED|95.0|-3.32|6.83|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 1||6.83|-3.32|
92266896|NCT03433482|184435075|OTHER||Difference in percentage of subjects|3.87|||||TWO_SIDED|95.0|-3.0|10.71|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 1||10.71|-3.00|
92266897|NCT03433482|184435075|OTHER||Difference in percentage of subjects|-0.73|||||TWO_SIDED|95.0|-7.24|5.77|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 1||5.77|-7.24|
92266898|NCT03433482|184435075|OTHER||Difference in percentage of subjects|-1.12|||||TWO_SIDED|95.0|-6.99|4.75|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 1||4.75|-6.99|
92266899|NCT03433482|184435075|OTHER||Difference in percentage of subjects|-0.64|||||TWO_SIDED|95.0|-4.24|2.96|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 29||2.96|-4.24|
92266900|NCT03433482|184435075|OTHER||Difference in percentage of subjects|0.0|||||TWO_SIDED|95.0|-5.16|5.16|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 29||5.16|-5.16|
92266901|NCT03433482|184435075|OTHER||Difference in percentage of subjects|4.09|||||TWO_SIDED|95.0|-1.11|9.33|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 29||9.33|-1.11|
92266902|NCT03433482|184435075|OTHER||Difference in percentage of subjects|0.73|||||TWO_SIDED|95.0|-3.88|5.37|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 29||5.37|-3.88|
92266903|NCT00437294|184435081|SUPERIORITY_OR_OTHER_LEGACY|||||||0.237||||||The 1-sided significance level was 0.20.|Log Rank|||||||0.237
92266904|NCT00437294|184435086|SUPERIORITY_OR_OTHER_LEGACY|||||||1||||||1-sided significance level was 0.20.|Fisher Exact|||||||1.00
92266905|NCT00437294|184435087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.812|||||||Log Rank|||||||0.812
92266906|NCT00437294|184435088|SUPERIORITY_OR_OTHER_LEGACY|||||||0.181|||||||Log Rank|||||||0.181
92266907|NCT00518531|184435093|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|10.5||||0.0259|TWO_SIDED|95.0|1.3|19.7||All statistical hypothesis tests were conducted at the 0.05 significance level. No adjustment was employed for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture|Positive values for absolute risk reduction favor denosumab.|||19.7|1.3|0.0259
92266908|NCT00518531|184435094|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|30.9|||<|0.0001|TWO_SIDED|95.0|20.6|41.3||All statistical hypothesis tests were conducted at the 0.05 significance level. No adjustment was employed for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture|Positive values for absolute risk reduction favor denosumab.|||41.3|20.6|<0.0001
92266909|NCT00518531|184435095|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.0||||0.0138|TWO_SIDED|95.0|2.2|19.7|||Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture.|Positive values for absolute risk reduction favor denosumab.|||19.7|2.2|0.0138
92266910|NCT00518531|184435096|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|27.7|||<|0.0001|TWO_SIDED|95.0|17.6|37.7|||Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture.|Positive values for absolute risk reduction favor denosumab.|||37.7|17.6|<0.0001
92266911|NCT00518531|184435097|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.8||||0.0291|TWO_SIDED|95.0|1.1|18.5|||Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture.|Positive values for absolute risk reduction favor denosumab.|||18.5|1.1|0.0291
92266912|NCT00518531|184435098|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|27.4|||<|0.0001|TWO_SIDED|95.0|18.1|36.7|||Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture.|Positive values for absolute risk reduction favor denosumab.|||36.7|18.1|<0.0001
92266913|NCT04888377|184435114|NON_INFERIORITY|The primary hypothesis of non-inferiority was tested by calculating the mean difference between treatment arms and its associated 90% confidence interval for the primary outcome. If the lower bound of the 90% confidence interval was greater than -4, then LDA was assumed to be non-inferior to placebo. If non-inferiority were assumed, a one-sided t-test would test the benefit of LDA compared to placebo. All models controlled for site as the original randomization stratification factor.|Mean Difference (Final Values)|-0.8||||0.25|TWO_SIDED|95.0|-2.2|0.6||For each outcome, the adjusted mean difference between treatment groups and the associated 95% confidence interval based on an ANCOVA model is presented.|ANCOVA||Mean difference is Aspirin-Placebo.|Assuming a non-inferiority margin of 4 points in the BSID-III cognitive score as clinically significant, and a true effect of LDA of not more than a 1 point decrease, a total sample size of 620 was determined to provide 80% power for a one-sided test for non-inferiority with a type I error of 5%. To test this secondary hypothesis, the sample size also provided over 90% power, at a two-sided type I error of 5%, to detect a difference of 4 points between LDA and placebo based on a two-sided test.||0.6|-2.2|0.25
92266914|NCT00526162|184435133|OTHER||percentage|0.0|||<|0.03|ONE_SIDED|97.0||||Using a confidence interval of 97%, the exact binomial upper confidence bound was 9.5% which is lower than the 10% set for the primary safety objective. Therefore, the actual p-value has not been calculated further.|One proportion binomial exact||The confidence interval was calculated based on 35 patients who completed 1-month follow-up at interim analysis.|||||<0.03
92266915|NCT05279807|184435138|SUPERIORITY||Mean difference pre vs post treatment|-13.5|||<|0.001|TWO_SIDED|95.0|-14.5|-12.5|||Paired Samples T-Test|||Primary endpoint, verified on the single cohort of patients who completed the monotherapy run-in period, is calculated as the mean difference in sitting diastolic blood pressure between Visit 2 (Week 0, Baseline Visit of the combination therapy) and Visit 4 (Week 8, End of Study Visit). This is not a comparison of two different arms, but a comparison of two measurements taken from the same patient treated with combination therapy (single arm paired pre- vs. post-combination therapy comparison)||-12.5|-14.5|< 0.001
92266916|NCT01169259|184435139|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.47|TWO_SIDED|95.0|0.88|1.06|||Regression, Cox|||||1.06|0.88|0.47
92266917|NCT01169259|184435139|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.56|TWO_SIDED|95.0|0.93|1.13|||Regression, Cox|||||1.13|0.93|0.56
92266918|NCT01169259|184435140|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.69|TWO_SIDED|95.0|0.85|1.12|||Regression, Cox|||||1.12|0.85|0.69
92266919|NCT01169259|184435140|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.24|TWO_SIDED|95.0|0.8|1.06|||Regression, Cox|||||1.06|0.80|0.24
92266920|NCT01169259|184435141|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.08|TWO_SIDED|95.0|0.67|1.02|||Regression, Cox|||||1.02|0.67|0.08
92266921|NCT01169259|184435141|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.79|TWO_SIDED|95.0|0.79|1.2|||Regression, Cox|||||1.20|0.79|0.79
92266922|NCT01169259|184435142|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.9|TWO_SIDED|95.0|0.79|1.31|||Regression, Cox|||||1.31|0.79|0.90
92266923|NCT01169259|184435142|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.43|TWO_SIDED|95.0|0.7|1.16|||Regression, Cox|||||1.16|0.70|0.43
92266924|NCT01169259|184435143|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.19|TWO_SIDED|95.0|0.72|1.07|||Regression, Cox|||||1.07|0.72|0.19
92266925|NCT01169259|184435143|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.17|TWO_SIDED|95.0|0.94|1.39|||Regression, Cox|||||1.39|0.94|0.17
92266926|NCT01169259|184435144|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.67|TWO_SIDED|95.0|0.73|1.62|||Regression, Cox|||||1.62|0.73|0.67
92266927|NCT01169259|184435144|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.31|TWO_SIDED|95.0|0.83|1.83|||Regression, Cox|||||1.83|0.83|0.31
92266928|NCT01169259|184435145|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.53|TWO_SIDED|95.0|0.86|1.08|||Regression, Cox|||||1.08|0.86|0.53
92266929|NCT01169259|184435145|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.21|TWO_SIDED|95.0|0.82|1.04|||Regression, Cox|||||1.04|0.82|0.21
92266930|NCT01169259|184435146|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.73|TWO_SIDED|95.0|0.78|1.19|||Regression, Cox|||||1.19|0.78|0.73
92266931|NCT01169259|184435146|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.003|TWO_SIDED|95.0|0.59|0.9|||Regression, Cox|||||0.90|0.59|0.003
92266932|NCT01169259|184435147|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.68|TWO_SIDED|95.0|0.76|1.2|||Regression, Cox|||||1.20|0.76|0.68
92266933|NCT01169259|184435147|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.72|TWO_SIDED|95.0|0.83|1.31|||Regression, Cox|||||1.31|0.83|0.72
92266934|NCT01169259|184435148|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.38|TWO_SIDED|95.0|0.88|1.4|||Regression, Cox|||||1.40|0.88|0.38
92266935|NCT01169259|184435148|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.73|TWO_SIDED|95.0|0.76|1.21|||Regression, Cox|||||1.21|0.76|0.73
92266936|NCT01169259|184435149|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.87|TWO_SIDED|95.0|0.87|1.12|||Regression, Cox|||||1.12|0.87|0.87
92266937|NCT01169259|184435149|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.79|TWO_SIDED|95.0|0.9|1.15|||Regression, Cox|||||1.15|0.90|0.79
92266938|NCT01169259|184435150|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.33|TWO_SIDED|95.0|0.83|1.06|||Regression, Cox|||||1.06|0.83|0.33
92266939|NCT01169259|184435150|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.056|TWO_SIDED|95.0|1.0|1.28|||Regression, Cox|||||1.28|1.00|0.056
92266940|NCT01169259|184435151|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.38|TWO_SIDED|95.0|0.79|1.09|||Regression, Cox|||||1.09|0.79|0.38
92266941|NCT01169259|184435151|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.18|TWO_SIDED|95.0|0.76|1.05|||Regression, Cox|||||1.05|0.76|0.18
92266942|NCT01169259|184435152|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.024|TWO_SIDED|95.0|0.59|0.96|||Regression, Cox|||||0.96|0.59|0.024
92266943|NCT01169259|184435152|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.58|TWO_SIDED|95.0|0.73|1.19|||Regression, Cox|||||1.19|0.73|0.58
92186168|NCT00805792|184271104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Regression, Linear|||The statistical significance of the change was assessed by the P value associated with estimated regression coefficient (beta coefficient or slope).||||<.001
92186169|NCT00805792|184271105|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Regression, Linear|||The statistical significance of the change was assessed by the P value associated with estimated regression coefficient (beta coefficient or slope).||||<.001
92186170|NCT00805792|184271106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Regression, Linear|||The statistical significance of the change was assessed by the P value associated with estimated regression coefficient (beta coefficient or slope).||||<.001
92186171|NCT04351243|184271108|SUPERIORITY||Risk Difference (RD)|0.05||||0.1885|TWO_SIDED|95.0|-0.06|0.17||one-sided p value|Mantel Haenszel|||||0.17|-0.06|0.1885
92186172|NCT01416285|184271112|SUPERIORITY|||||||0.004|||||||Kaplan-Meier and COX regression|Univariate and multi-variable||All-cause death||||0.004
92266944|NCT01169259|184435153|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.62|TWO_SIDED|95.0|0.84|1.11|||Regression, Cox|||||1.11|0.84|0.62
92266945|NCT01169259|184435153|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.72|TWO_SIDED|95.0|0.84|1.12|||Regression, Cox|||||1.12|0.84|0.72
92266946|NCT01169259|184435154|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.78|TWO_SIDED|95.0|0.79|1.19|||Regression, Cox|||||1.19|0.79|0.78
92266947|NCT01169259|184435154|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.016|TWO_SIDED|95.0|0.63|0.95|||Regression, Cox|||||0.95|0.63|0.016
92266948|NCT01169259|184435155|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.058|TWO_SIDED|95.0|0.55|1.01|||Regression, Cox|||||1.01|0.55|0.058
92266949|NCT01169259|184435155|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.94|TWO_SIDED|95.0|0.73|1.33|||Regression, Cox|||||1.33|0.73|0.94
92266950|NCT01169259|184435156|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.61|TWO_SIDED|95.0|0.83|1.12|||Regression, Cox|||||1.12|0.83|0.61
92266951|NCT01169259|184435156|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.016|TWO_SIDED|95.0|0.71|0.97|||Regression, Cox|||||0.97|0.71|0.016
92266952|NCT01169259|184435157|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.61|TWO_SIDED|95.0|0.83|1.39|||Regression, Cox|||||1.39|0.83|0.61
92266953|NCT01169259|184435157|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.74|TWO_SIDED|95.0|0.74|1.24|||Regression, Cox|||||1.24|0.74|0.74
92266954|NCT01169259|184435158|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.37|TWO_SIDED|95.0|0.42|1.38|||Regression, Cox|||||1.38|0.42|0.37
92266955|NCT01169259|184435158|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.37|TWO_SIDED|95.0|0.72|2.39|||Regression, Cox|||||2.39|0.72|0.37
92266956|NCT01169259|184435159|SUPERIORITY||Hazard Ratio (HR)|1.6||||0.15|TWO_SIDED|95.0|0.84|3.06|||Regression, Cox|||||3.06|0.84|0.15
92266957|NCT01169259|184435159|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.04|TWO_SIDED|95.0|0.26|0.97|||Regression, Cox|||||0.97|0.26|0.04
92266958|NCT01169259|184435160|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.27|TWO_SIDED|95.0|0.83|1.95|||Regression, Cox|||||1.95|0.83|0.27
92266959|NCT01169259|184435160|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.198|TWO_SIDED|95.0|0.49|1.16|||Regression, Cox|||||1.16|0.49|0.198
92266960|NCT01169259|184435161|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.58|TWO_SIDED|95.0|0.46|1.54|||Regression, Cox|||||1.54|0.46|0.58
92266961|NCT01169259|184435161|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.76|TWO_SIDED|95.0|0.6|2.01|||Regression, Cox|||||2.01|0.60|0.76
92266962|NCT01169259|184435162|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.56|TWO_SIDED|95.0|0.71|1.2|||Regression, Cox|||||1.20|0.71|0.56
92266963|NCT01169259|184435162|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.014|TWO_SIDED|95.0|0.55|0.93|||Regression, Cox|||||0.93|0.55|0.014
92266964|NCT01169259|184435163|SUPERIORITY||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.92|1.27||||||||1.27|0.92|
92266965|NCT01169259|184435163|SUPERIORITY||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.83|1.15||||||||1.15|0.83|
92266966|NCT01169259|184435164|SUPERIORITY||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.82|1.26||||||||1.26|0.82|
92266967|NCT01169259|184435164|SUPERIORITY||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.84|1.29||||||||1.29|0.84|
92266968|NCT05299359|184435165|NON_INFERIORITY|If the lower limit of the 95% CI is \>= 0.67, then the immune response to a single heterologous booster vaccination of TAK-019 is considered to be non-inferior of that to the primary series of TAK-019.|LS Mean Difference|1.18|||||TWO_SIDED|95.0|0.95|1.47||||||GMT ratio was calculated GMT of TAK-019-3001 on Day 15 divided by GMT of TAK-019-1501 study on Day 36.||1.47|0.95|
92266969|NCT04242446|184435204|SUPERIORITY||Odds Ratio (OR)|2.0||||0.03|TWO_SIDED|97.5|0.979|4.089|||Regression, Logistic|||||4.089|0.979|0.030
92266970|NCT04242446|184435204|SUPERIORITY||Odds Ratio (OR)|2.234||||0.006|TWO_SIDED|97.5|1.159|4.307|||Regression, Logistic|||||4.307|1.159|0.006
92266971|NCT04242446|184435205|SUPERIORITY||Odds Ratio (OR)|1.416||||0.35|TWO_SIDED|97.5|0.615|3.26||Nominal p-value only due to the testing hierarchy failing on the HISCR50 outcome.|Regression, Logistic|||||3.260|0.615|0.350
92266972|NCT04242446|184435205|SUPERIORITY||Odds Ratio (OR)|2.175||||0.021|TWO_SIDED|97.5|1.021|4.635|||Regression, Logistic|||||4.635|1.021|0.021
92266973|NCT04242446|184435206|SUPERIORITY||LS mean difference|-2.574||||0.002|TWO_SIDED|97.5|-4.472|-0.675||Nominal p-value only due to the testing hierarchy failing on the HISCR50 outcome.|ANCOVA|||||-0.675|-4.472|0.002
92266974|NCT04242446|184435206|SUPERIORITY||LS mean difference|-2.682|||<|0.001|TWO_SIDED|97.5|-4.394|-0.97|||ANCOVA|||||-0.970|-4.394|<0.001
92266975|NCT04242446|184435207|SUPERIORITY||LS mean difference|-0.551||||0.201|TWO_SIDED|97.5|-1.521|0.418||Nominal p-value only due to the testing hierarchy failing on the HISCR50 outcome.|ANCOVA|||||0.418|-1.521|0.201
92266976|NCT04242446|184435207|SUPERIORITY||LS mean difference|-1.186||||0.002|TWO_SIDED|97.5|-2.05|-0.322|||ANCOVA|||||-0.322|-2.050|0.002
92266977|NCT04242446|184435208|SUPERIORITY||Odds Ratio (OR)|1.618||||0.367|TWO_SIDED|97.5|0.489|5.352||Nominal p-value only due to the testing hierarchy failing on the HISCR50 outcome.|Regression, Logistic|||||5.352|0.489|0.367
92266978|NCT04242446|184435208|SUPERIORITY||Odds Ratio (OR)|2.757||||0.041|TWO_SIDED|97.5|0.909|8.364|||Regression, Logistic|||||8.364|0.909|0.041
92266979|NCT05644756|184435262|OTHER|The primary analysis examined changes in measurement-based care (MBC) collection over time using ANOVA. The study was not designed as a superiority, non-inferiority, or equivalence trial.|||||>|0.01|||||||ANOVA|||||||>.01
92266980|NCT04058990|184435286|NON_INFERIORITY|13.2% non-inferiority margin||||||0.0012|||||||Farrington-Manning|||\[Not Specified\]||||0.0012
92266981|NCT03985982|184435288|SUPERIORITY||||||<|0.001||||||This outcome measure is the first to be assessed in a hierarchical testing sequence using a one-sided alpha of 0.025.|Cochran-Mantel-Haenszel|||||||<0.001
92266982|NCT03985982|184435289|SUPERIORITY||||||<|0.001||||||The statistical significance is set to 0.025. This is the second test in a hierarchical testing sequence. Statistical significance will only be assessed if the previous test shows statistical significance at the 1-sided alpha level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Emotional domain - Change from Baseline at Week 4||||<0.001
92266983|NCT03985982|184435289|SUPERIORITY||||||<|0.001||||||The statistical significance is set to 0.025. This is the third test in a hierarchical testing sequence. Statistical significance will only be assessed if the previous two tests show statistical significance at the alpha level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Social Functioning domain - Change from Baseline at Week 4||||<0.001
92266984|NCT03985982|184435289|SUPERIORITY||||||<|0.001||||||The statistical significance is set to 0.025. This is the forth test in a hierarchical testing sequence. Statistical significance will only be assessed if the previous three tests show statistical significance at the 1-sided alpha level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Overall score - Change from Baseline at Week 4.||||<0.001
92266985|NCT03985982|184435289|SUPERIORITY||||||<|0.001||||||The statistical significance is set to 0.025. This is the fifth test in a hierarchical testing sequence. Statistical significance will only be assessed if the previous four tests show statistical significance at the 1-sided alpha level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for FACE-Q Appraisal of Lines Between Eyebrows - Change from Baseline at Week 4||||<0.001
92266986|NCT03985982|184435289|SUPERIORITY||||||<|0.001||||||The statistical significance is set to 0.025. This is the sixth test in a hierarchical testing sequence. Statistical significance will only be assessed if the previous five tests show statistical significance at the 1-sided alpha level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for FACE-Q Age Appraisal VAS score||||<0.001
92266987|NCT05981365|184435327|OTHER||Ratio of Geometric LS Means|1.2629|||||TWO_SIDED|90.0|1.1673|1.3663||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3663|1.1673|
92266988|NCT05981365|184435327|OTHER||Ratio of Geometric LS Means|1.1845|||||TWO_SIDED|95.0|1.0758|1.3042||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3042|1.0758|
92266989|NCT05981365|184435328|OTHER||Ratio of Geometric LS Means|1.1929|||||TWO_SIDED|90.0|1.0215|1.393||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3930|1.0215|
92266990|NCT05981365|184435329|OTHER||Ratio of Geometric LS Means|1.1311|||||TWO_SIDED|90.0|1.0496|1.2189||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.2189|1.0496|
92266991|NCT05981365|184435330|OTHER||Ratio of Geometric LS Means|0.8228||||||90.0|0.6992|0.9683||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.9683|0.6992|
92266992|NCT05981365|184435331|OTHER||Ratio of Geometric LS Means|1.5738|||||TWO_SIDED|90.0|1.4523|1.7054||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.7054|1.4523|
92266993|NCT05981365|184435332|OTHER||Ratio of Geometric LS Means|1.1491|||||TWO_SIDED|90.0|1.0807|1.222||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.2220|1.0807|
92266994|NCT05981365|184435332|OTHER||Ratio of Geometric LS Means|0.9494|||||TWO_SIDED|90.0|0.8759|1.0291||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.0291|0.8759|
92266995|NCT05981365|184435333|OTHER||Ratio of Geometric LS Means|1.3316|||||TWO_SIDED|90.0|1.2558|1.4121||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.4121|1.2558|
92266996|NCT05981365|184435334|OTHER||Ratio of Geometric LS Means|1.1282|||||TWO_SIDED|90.0|1.07|1.1896||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.1896|1.0700|
92266997|NCT05981365|184435335|OTHER||Ratio of Geometric LS Means|0.8047|||||TWO_SIDED|90.0|0.7173|0.9027||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.9027|0.7173|
92266998|NCT05981365|184435336|OTHER||Ratio of Geometric LS Means|2.0611|||||TWO_SIDED|90.0|1.8789|2.2609||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||2.2609|1.8789|
92266999|NCT05981365|184435337|OTHER||Ratio of Geometric LS Means|1.1374|||||TWO_SIDED|90.0|1.0672|1.2122||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.2122|1.0672|
92267000|NCT05981365|184435337|OTHER||Ratio of Geometric LS Means|0.9371|||||TWO_SIDED|90.0|0.8643|1.0162||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.0162|0.8643|
92267001|NCT05981365|184435338|OTHER||Ratio of Geometric LS Means|1.2713|||||TWO_SIDED|90.0|1.1939|1.3538||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3538|1.1939|
92267002|NCT05981365|184435339|OTHER||Ratio of Geometric LS Means|1.127|||||TWO_SIDED|90.0|1.0688|1.1883||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.1883|1.0688|
92267003|NCT05981365|184435340|OTHER||Ratio of Geometric LS Means|0.7973|||||TWO_SIDED|90.0|0.7039|0.9031||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.9031|0.7039|
92267004|NCT05981365|184435341|OTHER||Ratio of Geometric LS Means|2.026|||||TWO_SIDED|90.0|1.8496|2.2193||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||2.2193|1.8496|
92267005|NCT05981365|184435342|OTHER||Ratio of Geometric LS Means|0.7909|||||TWO_SIDED|90.0|0.716|0.8737||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.8737|0.7160|
92267006|NCT05981365|184435343|OTHER||Ratio of Geometric LS Means|1.0831|||||TWO_SIDED|90.0|0.9723|1.2065||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.2065|0.9723|
92186173|NCT01416285|184271112|SUPERIORITY|||||||0.003|||||||Kaplan-Meier and COX regression|Univariate and multi-variable||Heart failure-related re-hospitalizations||||0.003
92186174|NCT01416285|184271112|SUPERIORITY||||||<|0.001|||||||Kaplan-Meier and COX regression|Univariate and multi-variable||a composite outcome of both death and heart failure-related re-hospitalizations||||<0.001
92299616|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.67|STANDARD_ERROR_OF_MEAN|0.07||0.0001|TWO_SIDED|95.0|0.54|0.82|||Negative binomial model|||Week 2: Least square (LS) Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.82|0.54|0.0001
92299617|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.08||0.0067|TWO_SIDED|95.0|0.61|0.92|||Negative binomial model|||Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.92|0.61|0.0067
92186175|NCT01690000|184271113|SUPERIORITY_OR_OTHER||||||<|0.05||||||The p-value was calculated|t-test, 2 sided|||The p-value was calculated||||<0.05
92299618|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.64|STANDARD_ERROR_OF_MEAN|0.08||0.0003|TWO_SIDED|95.0|0.51|0.82|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.82|0.51|0.0003
92299619|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.74|STANDARD_ERROR_OF_MEAN|0.09||0.0112|TWO_SIDED|95.0|0.58|0.93|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.93|0.58|0.0112
92299620|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.72|STANDARD_ERROR_OF_MEAN|0.09||0.0093|TWO_SIDED|95.0|0.56|0.92|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.92|0.56|0.0093
92299621|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.09||0.0237|TWO_SIDED|95.0|0.59|0.96|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.96|0.59|0.0237
92299622|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.74|STANDARD_ERROR_OF_MEAN|0.11||0.0374|TWO_SIDED|95.0|0.56|0.98|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.98|0.56|0.0374
92299623|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.11||0.0468|TWO_SIDED|95.0|0.57|1.0|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.00|0.57|0.0468
92299624|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.78|STANDARD_ERROR_OF_MEAN|0.11||0.0751|TWO_SIDED|95.0|0.59|1.03|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.03|0.59|0.0751
92186176|NCT01248715|184271118|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||.460
92186177|NCT01248715|184271119|SUPERIORITY|||||||0.9999|||||||Wilcoxon (Mann-Whitney)|||||||.9999
92299625|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.81|STANDARD_ERROR_OF_MEAN|0.11||0.1305|TWO_SIDED|95.0|0.61|1.06|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.06|0.61|0.1305
92299626|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.85|STANDARD_ERROR_OF_MEAN|0.13||0.3057|TWO_SIDED|95.0|0.63|1.16|||Negative binomial model|||Week 24: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.16|0.63|0.3057
92299627|NCT02709486|184503236|SUPERIORITY||LS Mean Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.13||0.2056|TWO_SIDED|95.0|0.61|1.11|||Negative binomial model|||Week 24: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.11|0.61|0.2056
92299628|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.62|STANDARD_ERROR_OF_MEAN|0.15||0.0441|TWO_SIDED|95.0|0.39|0.99|||Negative binomial model|||Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.99|0.39|0.0441
92186178|NCT01248715|184271120|SUPERIORITY|||||||0.732|||||||Wilcoxon (Mann-Whitney)|||||||.732
92186179|NCT01248715|184271121|SUPERIORITY|||||||0.9999|||||||Wilcoxon (Mann-Whitney)|||||||.9999
92186180|NCT01248715|184271122|SUPERIORITY|||||||0.685|||||||Wilcoxon (Mann-Whitney)|||||||.685
92186181|NCT01248715|184271123|SUPERIORITY|||||||0.796|||||||Wilcoxon (Mann-Whitney)|||||||.796
92186182|NCT01248715|184271124|SUPERIORITY|||||||0.9999|||||||Wilcoxon (Mann-Whitney)|||||||.9999
92186183|NCT00813709|184271125|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.555||||0.002|TWO_SIDED|95.0|0.378|0.816|||Log Rank|||||0.816|0.378|0.002
92186184|NCT00813709|184271125|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.573||||0.006|TWO_SIDED|95.0|0.391|0.839|||Log Rank|||||0.839|0.391|0.006
92186185|NCT00813709|184271125|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.993||||0.941|TWO_SIDED|95.0|0.654|1.51|||Log Rank|||||1.510|0.654|0.941
92186186|NCT00813709|184271126|SUPERIORITY_OR_OTHER|||||||0.205||95.0|||||Log Rank|||||||0.205
92299629|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.73|STANDARD_ERROR_OF_MEAN|0.17||0.1895|TWO_SIDED|95.0|0.46|1.17|||Negative binomial model|||Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.17|0.46|0.1895
92299630|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0567|TWO_SIDED|95.0|0.35|1.01|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.01|0.35|0.0567
92299631|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.2||0.296|TWO_SIDED|95.0|0.44|1.28|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.28|0.44|0.2960
92299632|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.65|STANDARD_ERROR_OF_MEAN|0.18||0.1215|TWO_SIDED|95.0|0.37|1.12|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.12|0.37|0.1215
92299633|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.77|STANDARD_ERROR_OF_MEAN|0.22||0.3569|TWO_SIDED|95.0|0.44|1.34|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.34|0.44|0.3569
92299634|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.67|STANDARD_ERROR_OF_MEAN|0.21||0.2096|TWO_SIDED|95.0|0.36|1.25|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.25|0.36|0.2096
92299635|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.69|STANDARD_ERROR_OF_MEAN|0.22||0.2387|TWO_SIDED|95.0|0.37|1.28|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.28|0.37|0.2387
92186187|NCT00813709|184271126|SUPERIORITY_OR_OTHER|||||||0.263||95.0|||||Log Rank|||||||0.263
92186188|NCT00813709|184271126|SUPERIORITY_OR_OTHER|||||||0.629||95.0|||||Log Rank|||||||0.629
92299636|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.71|STANDARD_ERROR_OF_MEAN|0.22||0.2627|TWO_SIDED|95.0|0.39|1.29|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.29|0.39|0.2627
92299637|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.72|STANDARD_ERROR_OF_MEAN|0.22||0.2863|TWO_SIDED|95.0|0.4|1.31|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group||1.31|0.40|0.2863
92299638|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.27||0.556|TWO_SIDED|95.0|0.43|1.58|||Negative binomial model|||Week 24: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.58|0.43|0.5560
92299639|NCT02709486|184503238|SUPERIORITY||LS Mean Ratio|0.8|STANDARD_ERROR_OF_MEAN|0.26||0.5076|TWO_SIDED|95.0|0.42|1.53|||Negative binomial model|||Week 24: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.53|0.42|0.5076
92299640|NCT00536484|184503259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0002||95.0|-1.1|-0.4||Significance level p \<0.05|ANCOVA|Terms for treatment, center and baseline as covariate and baseline by treatment interaction.|The LS mean difference \& 95% CI were calculated at mean baseline = 12.9 (centered baseline used in model)|Null hypothesis: the mean change from baseline in micturitions per 24 hours in the fesoterodine group is the same as in the placebo group at Week 12. A sample size of 350 in each arm had at least 85% power to detect a difference of 0.8 between flexible dose fesoterodine \& placebo assuming a standard deviation of 3.52 using a 2-sample t-test with a 0.05 2-sided significance level. Accounting for 10% of randomized subjects not having the primary endpoint data, 390 subjects were needed in each arm||-0.4|-1.1|0.0002
92186189|NCT01129011|184271247|SUPERIORITY_OR_OTHER||proportions|11.9||||0.001|TWO_SIDED|95.0|7.9|17.1|||Cochran-Mantel-Haenszel|CMH test stratified by use of low-dose aspirin (Yes/No) at randomization.||The primary efficacy endpoint was the proportion of subjetcs developing gastric ulcers throughout 6 months of study treatment. A summary, including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of gastric ulcers at 6 months. The cumulative proportion of subjects developing gastric ulcers at 6 months was analyzed using the CMH test stratified by use of low-dose aspirin (Yes/No) at randomization.||17.1|7.9|0.001
92186190|NCT01129011|184271248|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92299641|NCT00536484|184503260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0136||95.0|-0.8|-0.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment, baseline covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 2 minus Baseline||-0.1|-0.8|0.0136
92186191|NCT01129011|184271249|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Cochran-Mantel-Haenszel|||||||0.009
92186192|NCT01129011|184271250|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Cochran-Mantel-Haenszel|||||||0.007
92186193|NCT01129011|184271251|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92186194|NCT02432183|184271258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0061|||||||Kruskal-Wallis|post-hoc comparison with Dunn's multiple comparison test: p=0.0326 between arm 1 and 2; p=0.0147 between arm 1 and 3||||||0.0061
92299642|NCT00536484|184503260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0002||95.0|-1.1|-0.3||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 6 minus Baseline||-0.3|-1.1|0.0002
92299643|NCT00536484|184503261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.1057||95.0|-0.9|0.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 2 minus Baseline||0.1|-0.9|0.1057
92299644|NCT00536484|184503261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.0338||95.0|-1.1|0.0||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 6 minus Baseline||-0.0|-1.1|0.0338
92299645|NCT00536484|184503261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.3||0.0003||95.0|-1.5|-0.5||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 12 minus Baseline||-0.5|-1.5|0.0003
92299646|NCT00536484|184503262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1666||95.0|-0.6|0.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 2 minus Baseline||0.1|-0.6|0.1666
92299647|NCT00536484|184503262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0506||95.0|-0.8|0.0||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 6 minus Baseline||0.0|-0.8|0.0506
92299648|NCT00536484|184503262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0014||95.0|-1.0|-0.2||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 12 minus Baseline||-0.2|-1.0|0.0014
92299649|NCT00536484|184503263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.2054||95.0|-0.4|0.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 2 minus Baseline||0.1|-0.4|0.2054
92186195|NCT01124916|184271263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8728.0|STANDARD_ERROR_OF_MEAN|853.129|<|0.001|TWO_SIDED|95.0|7028.846|10427.154|||t-test, 2 sided|||The null hypothesis is that there is no difference in the total cost of care between standard and robotic-assisted laparoscopic abdominal sacrocolpopexy six weeks after surgery.||10427.154|7028.846|<.001
92186196|NCT01124916|184271264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.2|STANDARD_ERROR_OF_MEAN|7.846||0.43|TWO_SIDED|95.0|-21.769|9.369|||t-test, 2 sided|||The null hypothesis is that there is no difference in urinary distress between women assigned to LASC and those assigned to RASC six months after intervention as measured by the UDI.||9.369|-21.769|.43
92186197|NCT02707952|184271279|NON_INFERIORITY|The percentage of participants achieving SVR12 was calculated for each arm and a 2-sided 95% CI for the difference in SVR12 rates (Arm A minus Arm B) was calculated using the normal approximation to the binomial distribution to assess non-inferiority in SVR12 rates of arm A to arm B. If the lower bound of the confidence interval (CI) for the difference was above the non-inferiority margin of -10%, then arm A was considered non-inferior to arm B.|Rate Difference|-0.9|||||TWO_SIDED|95.0|-2.8|0.9|||||95% CI was calculated using the normal approximation to the binomial distribution.|||0.9|-2.8|
92299650|NCT00536484|184503263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0225||95.0|-0.6|0.0||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 6 minus Baseline||-0.0|-0.6|0.0225
92299651|NCT00536484|184503263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0167||95.0|-0.6|-0.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 12 minus Baseline||-0.1|-0.6|0.0167
92299652|NCT00536484|184503264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8019||95.0|-0.2|0.1||Significance level p \<0.05|ANOVA|||Week 2 minus Baseline||0.1|-0.2|0.8019
92299653|NCT00536484|184503264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3881||95.0|-0.2|0.1||Significance level p \<0.05|ANOVA|||Week 6 minus Baseline||0.1|-0.2|0.3881
92299654|NCT00536484|184503264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.324||95.0|-0.2|0.1||Significance level p \<0.05|ANOVA|||Week 12 minus Baseline||0.1|-0.2|0.3240
92299655|NCT00536484|184503265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8279||95.0|-0.2|0.1||Significance level p \<0.05|ANOVA|||Week 2 minus Baseline||0.1|-0.2|0.8279
92299656|NCT00536484|184503265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5059||95.0|-0.2|0.1||Significance level p \<0.05|ANOVA|||Week 6 minus Baseline||0.1|-0.2|0.5059
92299657|NCT00536484|184503265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0806||95.0|-0.4|0.0||Significance level p \<0.05|ANOVA|||Week 12 minus Baseline||0.0|-0.4|0.0806
92299658|NCT00536484|184503266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.0203||95.0|-3.2|-0.3||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 2 minus Baseline||-0.3|-3.2|0.0203
92299659|NCT00536484|184503266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.8||0.0007||95.0|-4.2|-1.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 6 minus Baseline||-1.1|-4.2|0.0007
92299660|NCT00536484|184503266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001||95.0|-4.9|-1.7||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 12 minus Baseline||-1.7|-4.9|<0.0001
92186198|NCT01326455|184271293|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|TWO_SIDED|95.0|||||Chi-squared|||Lancaster et. al. (2004) quoted the number 30 as a general sample size for a pilot study. Each arm of this study had 25 people (due to time constraints), giving a total of 75 people. The data were analyzed using t-tests for equality of means, a two-way analysis of variance (ANOVA), and chi-square. Significance was set at p \< 0.05.||||0.25
92186199|NCT01326455|184271294|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|||||||Chi-squared|||||||0.47
92299661|NCT00536484|184503267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|1.5|<|0.0001||95.0|-10.7|-4.9||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 12 minus Baseline||-4.9|-10.7|<0.0001
92299662|NCT00536484|184503268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001||95.0|5.3|11.5||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|"Week 12 minus Baseline~Concern domain"||11.5|5.3|<0.0001
92299663|NCT00536484|184503268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001||95.0|3.9|10.2||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|"Week 12 minus Baseline~Coping domain"||10.2|3.9|<0.0001
92299664|NCT00536484|184503268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|1.6||0.0036||95.0|1.5|7.8||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate||"Week 12 minus Baseline~Sleep domain"||7.8|1.5|0.0036
92299665|NCT00536484|184503268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7|STANDARD_ERROR_OF_MEAN|1.1||0.0007||95.0|1.6|5.8||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|"Week 12 minus Baseline~Social interaction domain"||5.8|1.6|0.0007
92299666|NCT00536484|184503268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2|STANDARD_ERROR_OF_MEAN|1.3|<|0.0001||95.0|3.6|8.9||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|"Week 12 minus Baseline~HRQL scale score total"||8.9|3.6|<0.0001
92299667|NCT00536484|184503269|SUPERIORITY_OR_OTHER|||||||0.0087||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 2||||0.0087
92299668|NCT00536484|184503269|SUPERIORITY_OR_OTHER|||||||0.0008||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 6||||0.0008
92299669|NCT00536484|184503269|SUPERIORITY_OR_OTHER|||||||0.0006||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 12||||0.0006
92299670|NCT00536484|184503270|SUPERIORITY_OR_OTHER|||||||0.0129||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 2||||0.0129
92299671|NCT00536484|184503270|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 6||||0.0100
92299672|NCT00536484|184503270|SUPERIORITY_OR_OTHER|||||||0.0009||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 12||||0.0009
92299673|NCT00536484|184503271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.9|-0.4||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 2 minus Baseline||-0.4|-0.9|<0.0001
92299674|NCT00536484|184503271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-1.1|-0.5||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 6 minus Baseline||-0.5|-1.1|<0.0001
92299675|NCT00536484|184503271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-1.3|-0.7||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 12 minus Baseline||-0.7|-1.3|<0.0001
92299676|NCT01770431|184503286|SUPERIORITY||chi-squared|14.7315||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0001
92299677|NCT01770431|184503287|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.0001|TWO_SIDED|95.0|0.55|0.81|||Regression, Cox|||||0.81|0.55|<0.0001
92299678|NCT02610816|184503307|SUPERIORITY|||||||0.04||||||P-values are not adjusted for multiplicity, since a single primary endpoint is analyzed|Mixed Models Analysis|No adjustment of degrees of freedom is needed.||The primary treatment comparison was to compare change in PEESS V2.0 scores of 1FED versus 4FED. The primary null hypothesis was 4FED would be no more effective than 1FED. This was designed as a superiority trial.||||0.04
92299679|NCT02610816|184503308|SUPERIORITY||||||<|0.0001||||||This is a calculated p-value. The threshold for statistical significance is p \<0.05.|Mixed Models Analysis|||||||<0.0001
92299680|NCT02610816|184503308|SUPERIORITY||||||<|0.0001||||||This is a calculated p-value. The threshold for statistical significance is p \<0.05|Mixed Models Analysis|||||||<0.0001
92299681|NCT02610816|184503309|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92299682|NCT02610816|184503312|SUPERIORITY|||||||0.93|||||||Mixed Models Analysis|||||||0.93
92299683|NCT02610816|184503313|SUPERIORITY|||||||0.74|||||||Mixed Models Analysis|||||||0.74
92299684|NCT02610816|184503314|SUPERIORITY|||||||0.36|||||||Mixed Models Analysis|||||||0.36
92299685|NCT02691741|184503316|NON_INFERIORITY|Non-inferiority is demonstrated if the upper confidence limit of the two-sided 90% confidence interval on the treatment difference is less than 0.1 logMAR unit.|Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.0193|||TWO_SIDED|90.0|-0.093|-0.029||||||||-0.029|-0.093|
92299686|NCT02691741|184503317|SUPERIORITY||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.0193||0.002|TWO_SIDED|90.0|-0.093|-0.029|||Repeated Measures Analysis of Variance|||||-0.029|-0.093|0.002
92299687|NCT02691741|184503318|NON_INFERIORITY|Non-inferiority is demonstrated if the upper confidence limit of the two-sided 90% confidence interval on the treatment difference is less than 0.1 logMAR unit.|Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.0157|||TWO_SIDED|95.0|-0.019|0.043||||||||0.043|-0.019|
92186200|NCT01326455|184271295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|95.0|||||ANOVA|||||||0.002
92186201|NCT01326455|184271295|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
92186202|NCT01326455|184271295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.144|||||||ANOVA|||||||0.144
92186203|NCT01326455|184271296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.372|||||||ANOVA|||||||0.372
92186204|NCT01326455|184271297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.468|||||||Chi-squared|||||||0.468
92186205|NCT03015220|184271331|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.5||||0.2963|TWO_SIDED|95.0|0.7|3.2||Unadjusted two-sided p-value for the test of no difference from 1.|Regression, Cox||"Oral Semaglutide 3 mg~/Dulaglutide 0.75 mg"|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||3.20|0.70|0.2963
92186206|NCT03015220|184271331|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.8||||0.5997|TWO_SIDED|95.0|0.35|1.83||Unadjusted two-sided p-value for the test of no difference from 1.|Regression, Cox||"Oral Semaglutide 7 mg~/Dulaglutide 0.75 mg"|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.83|0.35|0.5997
92267007|NCT05981365|184435344|OTHER||Ratio of Geometric LS Means|1.3138|||||TWO_SIDED|90.0|1.1871|1.4541||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.4541|1.1871|
92267008|NCT05981365|184435345|OTHER||Ratio of Geometric LS Means|0.7958|||||TWO_SIDED|90.0|0.742|0.8534||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.8534|0.7420|
92267009|NCT05981365|184435346|OTHER||Ratio of Geometric LS Means|1.0322|||||TWO_SIDED|90.0|0.9531|1.1179||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.1179|0.9531|
92267010|NCT05981365|184435347|OTHER||Ratio of Geometric LS Means|1.1975|||||TWO_SIDED|90.0|1.0972|1.3069||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3069|1.0972|
92267011|NCT05981365|184435348|OTHER||Ratio of Geometric LS Means|0.8018|||||TWO_SIDED|90.0|0.7472|0.8604||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.8604|0.7472|
92267012|NCT05981365|184435349|OTHER||Ratio of Geometric LS Means|1.063|||||TWO_SIDED|90.0|0.9888|1.1427||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.1427|0.9888|
92267013|NCT05981365|184435350|OTHER||Ratio of Geometric LS Means|1.2197|||||TWO_SIDED|90.0|1.1114|1.3385||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3385|1.1114|
92267014|NCT02203305|184435421|SUPERIORITY||||||<|0.001||||||Percent correct converted to rationalized arcsine units (RAU) prior to analysis.|Mixed Models Analysis|Main effects: interval (p\<0.001) and condition (p\<0.001). Interaction: Interval and condition (p\<0.001).||Recorded 50-word consonant-nucleus-consonant (CNC) words were evaluated for the poorer hearing ear 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction. Percent correct converted to RAU.||||<0.001
92267015|NCT02203305|184435421|SUPERIORITY||||||<|0.001||||||Percent correct converted to rationalized arcsine units (RAU) prior to analysis.|Mixed Models Analysis|Main effects: interval (p\<0.001) and condition (p\<0.001). Interaction: interval and condition (p\<0.001).||Recorded 50-word CNC words were evaluated for the poorer hearing ear 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction. Percent correct converted to RAU.||||<0.001
92267016|NCT02203305|184435421|SUPERIORITY||||||<|0.001||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.||Recorded 50-word CNC words were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||<0.001
92267017|NCT02203305|184435421|SUPERIORITY||||||<|0.001||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|||Recorded 50-word CNC words were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||<0.001
92267018|NCT02203305|184435421|SUPERIORITY||||||<|0.429||||||A logit transformation was applied to proportion correct data prior to analysis.|Mixed Models Analysis|Main effects: interval (p\<0.001) and group (p=0.429). Interaction: group and interval (p=0.387).||Comparison of word recognition between groups (UHL/SSD and AHL) over the post-activation intervals (1, 3, 6, 9, and 12 months).||||<0.429
92267019|NCT02203305|184435422|SUPERIORITY||||||<|0.019||||||The Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p=0.19) and condition (p\<0.001). Interaction: interval and condition (p\<0.019).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.019
92299688|NCT02691741|184503318|SUPERIORITY|||||||0.455|||||||Repeated Measures Analysis of Variance|||||||0.455
92299689|NCT02691741|184503319|NON_INFERIORITY|Non-inferiority is demonstrated if the upper confidence limit of the two-sided 90% confidence interval on the treatment difference is less than 0.1 logMAR unit.|Mean Difference (Final Values)|-0.051|STANDARD_ERROR_OF_MEAN|0.0168|||TWO_SIDED|90.0|-0.078|-0.023||||||||-0.023|-0.078|
92299690|NCT02691741|184503319|SUPERIORITY|||||||0.003|||||||Repeated Measures Analysis of Variance|||||||0.003
92299691|NCT05626803|184503329|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299692|NCT05626803|184503329|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299693|NCT05626803|184503329|SUPERIORITY|||||||0.0003|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.0003
92299694|NCT05626803|184503331|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299695|NCT05626803|184503331|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299696|NCT05626803|184503331|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299697|NCT05626803|184503333|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299698|NCT05626803|184503333|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299699|NCT05626803|184503333|SUPERIORITY|||||||0.0017|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.0017
92299700|NCT05626803|184503335|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299701|NCT05626803|184503335|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299702|NCT05626803|184503335|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299703|NCT05626803|184503337|SUPERIORITY|||||||0.0059|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.0059
92299704|NCT05626803|184503337|SUPERIORITY|||||||0.002|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.0020
92299705|NCT05626803|184503337|SUPERIORITY|||||||0.1899|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.1899
92299706|NCT05626803|184503339|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299707|NCT05626803|184503339|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
92299708|NCT05626803|184503339|SUPERIORITY|||||||0.002|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.0020
92299709|NCT04146363|184503385|SUPERIORITY||Risk Difference (RD)|29.7|||<|1e-06|TWO_SIDED|95.0|21.6|37.8|||Cochran-Mantel-Haenszel|||||37.8|21.6|<0.000001
92299710|NCT04146363|184503386|SUPERIORITY||Risk Difference (RD)|42.0|||<|1e-06|TWO_SIDED|95.0|33.3|50.6|||Cochran-Mantel-Haenszel|||||50.6|33.3|<0.000001
92299711|NCT04146363|184503387|SUPERIORITY||Risk Difference (RD)|1.7||||0.218644|TWO_SIDED|95.0|-0.6|4.0|||Cochran-Mantel-Haenszel|||||4.0|-0.6|0.218644
92299712|NCT04146363|184503388|SUPERIORITY||Risk Difference (RD)|9.6||||0.000498|TWO_SIDED|95.0|5.7|13.6|||Cochran-Mantel-Haenszel|||||13.6|5.7|0.000498
92299713|NCT04146363|184503389|SUPERIORITY||Risk Difference (RD)|30.8|||<|1e-06|TWO_SIDED|95.0|22.1|39.4|||Cochran-Mantel-Haenszel|||||39.4|22.1|<0.000001
92299714|NCT04146363|184503390|SUPERIORITY||Risk Difference (RD)|28.8|||<|1e-06|TWO_SIDED|95.0|21.3|36.3|||Cochran-Mantel-Haenszel|||||36.3|21.3|<0.000001
92186207|NCT03015220|184271331|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.55||||0.1871|TWO_SIDED|95.0|0.23|1.33||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||"Oral Semaglutide 14 mg~/Dulaglutide 0.75 mg"|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.33|0.23|0.1871
92299715|NCT04146363|184503391|SUPERIORITY||LS Mean Difference (Final Values)|-30.42|STANDARD_ERROR_OF_MEAN|3.915|<|1e-06|TWO_SIDED|95.0|-38.1|-22.7|||ANCOVA|||||-22.7|-38.1|<0.000001
92299716|NCT04146363|184503392|SUPERIORITY||Risk Difference (RD)|32.9|||<|1e-06|TWO_SIDED|95.0|24.6|41.3|||Cochran-Mantel-Haenszel|||||41.3|24.6|<0.000001
92299717|NCT04146363|184503393|SUPERIORITY||Risk Difference (RD)|35.1|||<|1e-06|TWO_SIDED|95.0|26.3|43.9|||Cochran-Mantel-Haenszel|||||43.9|26.3|<0.000001
92299718|NCT04146363|184503394|SUPERIORITY||LS Mean Difference (Final Values)|-38.31|STANDARD_ERROR_OF_MEAN|4.151|<|1e-06|TWO_SIDED|95.0|-46.4|-30.2|||ANCOVA|||||-30.2|-46.4|<0.000001
92299719|NCT04146363|184503395|SUPERIORITY||LS Mean Difference (Final Values)|-18.5|STANDARD_ERROR_OF_MEAN|2.0|<|1e-06|TWO_SIDED|95.0|-22.4|-14.5|||Mixed Models Analysis|||||-14.5|-22.4|<0.000001
92299720|NCT04146363|184503396|SUPERIORITY||Risk Difference (RD)|10.7||||0.000412|TWO_SIDED|95.0|6.2|15.2|||Cochran-Mantel-Haenszel|||||15.2|6.2|0.000412
92299721|NCT04146363|184503397|SUPERIORITY||LS Mean Difference (Final Values)|-5.8|STANDARD_ERROR_OF_MEAN|0.68|<|1e-06|TWO_SIDED|95.0|-7.1|-4.5|||ANCOVA|||||-4.5|-7.1|<0.000001
92299722|NCT04146363|184503398|SUPERIORITY||Risk Difference (RD)|38.8|||<|1e-06|TWO_SIDED|95.0|28.3|49.3|||Cochran-Mantel-Haenszel|||||49.3|28.3|<0.000001
92299723|NCT04146363|184503399|SUPERIORITY||Risk Difference (RD)|41.8|||<|1e-06|TWO_SIDED|95.0|31.2|52.3|||Cochran-Mantel-Haenszel|||||52.3|31.2|<0.000001
92299724|NCT04146363|184503400|SUPERIORITY||LS Mean Difference (Final Values)|-32.35|STANDARD_ERROR_OF_MEAN|5.23|<|1e-06|TWO_SIDED|95.0|-42.6|-22.1|||ANCOVA|||||-22.1|-42.6|<0.000001
92299725|NCT04146363|184503401|SUPERIORITY||LS Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.098|<|1e-06|TWO_SIDED|95.0|-0.9|-0.6|||ANCOVA|||||-0.6|-0.9|<0.000001
92299726|NCT04146363|184503402|SUPERIORITY||Risk Difference (RD)|34.6|||<|1e-06|TWO_SIDED|95.0|26.2|43.0|||Cochran-Mantel-Haenszel|||||43.0|26.2|<0.000001
92299727|NCT04146363|184503403|SUPERIORITY||Risk Difference (RD)|1.5||||0.275529|TWO_SIDED|95.0|-0.8|3.9|||Cochran-Mantel-Haenszel|||||3.9|-0.8|0.275529
92299728|NCT04146363|184503404|SUPERIORITY||Risk Difference (RD)|5.3||||0.016656|TWO_SIDED|95.0|1.9|8.6|||Cochran-Mantel-Haenszel|||||8.6|1.9|0.016656
92299729|NCT04146363|184503405|SUPERIORITY||Risk Difference (RD)|19.3||||3e-06|TWO_SIDED|95.0|13.7|25.0|||Cochran-Mantel-Haenszel|||||25.0|13.7|0.000003
92299730|NCT04146363|184503406|SUPERIORITY||Risk Difference (RD)|1.8||||0.244105|TWO_SIDED|95.0|-0.8|4.3|||Cochran-Mantel-Haenszel|||||4.3|-0.8|0.244105
92299731|NCT04146363|184503407|SUPERIORITY||Risk Difference (RD)|5.8||||0.01445|TWO_SIDED|95.0|2.2|9.4|||Cochran-Mantel-Haenszel|||||9.4|2.2|0.014450
92299732|NCT04146363|184503408|SUPERIORITY||Risk Difference (RD)|20.9||||2e-06|TWO_SIDED|95.0|14.9|26.9|||Cochran-Mantel-Haenszel|||||26.9|14.9|0.000002
92299733|NCT04146363|184503409|SUPERIORITY||LS Mean Difference (Final Values)|-30.29|STANDARD_ERROR_OF_MEAN|3.203|<|1e-06|TWO_SIDED|95.0|-36.59|-24.0|||ANCOVA|||||-24.00|-36.59|<0.000001
92186208|NCT03015220|184271332|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.9||||0.1672|TWO_SIDED|95.0|0.76|4.72||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||"Oral Semaglutide 3 mg~/Dulaglutide 0.75 mg"|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||4.72|0.76|0.1672
92186209|NCT03015220|184271332|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.6||||0.3391|TWO_SIDED|95.0|0.21|1.72||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||"Oral Semaglutide 7 mg~/Dulaglutide 0.75 mg"|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.72|0.21|0.3391
92299734|NCT04146363|184503411|SUPERIORITY||Risk Difference (RD)|17.9||||0.072375|TWO_SIDED|95.0|-2.3|38.1|||Cochran-Mantel-Haenszel|||||38.1|-2.3|0.072375
92299735|NCT04146363|184503411|SUPERIORITY||Risk Difference (RD)|17.5||||0.106653|TWO_SIDED|95.0|-4.5|39.5|||Cochran-Mantel-Haenszel|||||39.5|-4.5|0.106653
92299736|NCT04146363|184503412|SUPERIORITY||Risk Difference (RD)|28.0||||0.029857|TWO_SIDED|95.0|2.8|53.2|||Cochran-Mantel-Haenszel|||||53.2|2.8|0.029857
92299737|NCT04146363|184503412|SUPERIORITY||Risk Difference (RD)|29.0||||0.019744|TWO_SIDED|95.0|4.6|53.3|||Cochran-Mantel-Haenszel|||||53.3|4.6|0.019744
92299738|NCT04146363|184503413|SUPERIORITY||Risk Difference (RD)|15.8||||0.268265|TWO_SIDED|95.0|-12.2|43.8|||Cochran-Mantel-Haenszel|||||43.8|-12.2|0.268265
92299739|NCT04146363|184503413|SUPERIORITY||Risk Difference (RD)|16.6||||0.192776|TWO_SIDED|95.0|-9.4|42.7|||Cochran-Mantel-Haenszel|||||42.7|-9.4|0.192776
92299740|NCT04146363|184503414|SUPERIORITY||Risk Difference (RD)|18.6||||0.185361|TWO_SIDED|95.0|-9.3|46.6|||Cochran-Mantel-Haenszel|||||46.6|-9.3|0.185361
92299741|NCT04146363|184503414|SUPERIORITY||Risk Difference (RD)|16.6||||0.192776|TWO_SIDED|95.0|-9.4|42.7|||Cochran-Mantel-Haenszel|||||42.7|-9.4|0.192776
92299742|NCT04146363|184503415|SUPERIORITY||LS Mean Difference (Final Values)|-1.75|STANDARD_ERROR_OF_MEAN|4.756||0.714208|TWO_SIDED|95.0|-11.15|7.66|||ANCOVA|||||7.66|-11.15|0.714208
92299743|NCT04146363|184503415|SUPERIORITY||LS Mean Difference (Final Values)|-5.63|STANDARD_ERROR_OF_MEAN|4.4748||0.237855|TWO_SIDED|95.0|-15.01|3.76|||ANCOVA|||||3.76|-15.01|0.237855
92299744|NCT04146363|184503416|SUPERIORITY||LS Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.02|<|1e-06|TWO_SIDED|95.0|0.1|0.2|||ANCOVA|||UK||0.2|0.1|<0.000001
92299745|NCT04146363|184503416|SUPERIORITY||LS Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.01|<|1e-06|TWO_SIDED|95.0|0.1|0.1|||ANCOVA|||US||0.1|0.1|<0.000001
92299746|NCT04146363|184503417|SUPERIORITY||LS Mean Difference (Final Values)|8.3|STANDARD_ERROR_OF_MEAN|1.66|<|1e-06|TWO_SIDED|95.0|5.0|11.5|||ANCOVA|||||11.5|5.0|<0.000001
92299747|NCT04146363|184503418|SUPERIORITY||LS Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|0.8|<|1e-06|TWO_SIDED|95.0|-8.9|-5.7|||Mixed Models Analysis|||||-5.7|-8.9|<0.000001
92299748|NCT04146363|184503419|SUPERIORITY||LS Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|2.917||0.716224|TWO_SIDED|95.0|-6.93|4.8|||ANCOVA|||||4.80|-6.93|0.716224
92299749|NCT04146363|184503420|SUPERIORITY||LS Mean Difference (Final Values)|-4.51|STANDARD_ERROR_OF_MEAN|2.599||0.089275|TWO_SIDED|95.0|-9.73|0.72|||ANCOVA|||||0.72|-9.73|0.089275
92299750|NCT04146363|184503421|SUPERIORITY||LS Mean Difference (Final Values)|-3.31|STANDARD_ERROR_OF_MEAN|0.796||4e-05|TWO_SIDED|95.0|-4.88|-1.75|||ANCOVA|||||-1.75|-4.88|0.000040
92299751|NCT04146363|184503422|SUPERIORITY||LS Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.697||0.000127|TWO_SIDED|95.0|-4.07|-1.33|||ANCOVA|||||-1.33|-4.07|0.000127
92299752|NCT04146363|184503423|SUPERIORITY||LS Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.121||0.455291|TWO_SIDED|95.0|-0.33|0.15|||ANCOVA|||||0.15|-0.33|0.455291
92299753|NCT04146363|184503424|SUPERIORITY||LS Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|1.52||6.9e-05|TWO_SIDED|95.0|-10.1|-3.9|||Mixed Models Analysis|||||-3.9|-10.1|0.000069
92299754|NCT00107042|184503425|SUPERIORITY_OR_OTHER|||||||0.2954|||||||Fisher Exact|||The study wasn't powered to compare the 2 arms but to detect a large difference. A quantitative antibody (a'body) response was measured, but for sample size and power considerations, the outcome was considered to be binary. The primary analysis involved straightforward computation of point estimates and exact confidence intervals of immunogenicity in each arm. The data for primary analysis used the Intent-to-Treat for subjects who were vaccinated at least once. Missing titers were not imputed.||||0.2954
92299755|NCT00107042|184503425|SUPERIORITY_OR_OTHER||Response Rate|87.23|||||TWO_SIDED|95.0|74.26|95.17|||95% confidence interval|||"Two-sided confidence intervals (CI) were calculated for both the Recombivax and Twinrix arms. The CI for the Recombivax arm is presented here."||95.17|74.26|
92299756|NCT00107042|184503425|SUPERIORITY_OR_OTHER||Response Rate|94.55|||||TWO_SIDED|95.0|84.88|98.86|||95% confidence interval|||"Two-sided confidence intervals (CI) were calculated for both the Recombivax and Twinrix arms. The CI for the 'Twinrix arm is presented here."||98.86|84.88|
92299757|NCT00107042|184503426|SUPERIORITY_OR_OTHER|||||||0.0608|||||||Wilcoxon (Mann-Whitney)|||Analysis included an assessment of quantitative titer values in each of the two arms using confidence intervals and examining the frequency distributions of the titers in each arm. Transformations were considered (log10) for the titers based on the distributional properties observed in the sample, with the goal of attaining approximate normality of the transformed data.||||0.0608
92299758|NCT00107042|184503426|SUPERIORITY_OR_OTHER||Mean response|2.29|||||TWO_SIDED|95.0|2.05|2.53|||95% confidence interval|||"Two-sided confidence intervals (CI) were calculated for both the Recombivax and Twinrix arms. The CI for the Recombivax arm is presented here."||2.53|2.05|
92299759|NCT00107042|184503426|SUPERIORITY_OR_OTHER||Response rate|2.58|||||TWO_SIDED|95.0|2.4|2.76|||95% confidence interval|||"Two-sided confidence intervals (CI) were calculated for both the Recombivax and Twinrix arms. The CI for the Twinrix arm is presented here."||2.76|2.40|
92299760|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|0.2455|STANDARD_ERROR_OF_MEAN|0.1757||0.1667|||||||Regression, Linear|||This is a regression analysis for testing the effect of treatment arm (Recombivax vs. Twinrix) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.1667
92299761|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficent|-0.0025|STANDARD_ERROR_OF_MEAN|0.1792||0.989||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of site effect(Other sites vs. Baltimore) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.9890
92299762|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coeffcient|0.2053|STANDARD_ERROR_OF_MEAN|0.1885||0.2796||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of age(15 - 17 year old particpants vs. 12 - 14 year old participants) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.2796
92299763|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regresssion coeffcient|-0.4726|STANDARD_ERROR_OF_MEAN|0.1734||0.008||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of gender(Females vs. Males) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.0080
92299764|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|0.2189|STANDARD_ERROR_OF_MEAN|0.1905||0.2543||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Hispanic ethnicity (Not Hispanic vs. Hispanic) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.2543
92299765|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|0.2994|STANDARD_ERROR_OF_MEAN|0.3292||0.3661||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of racial background(White vs. Other/Mixed vs. Black/African American) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between White vs. Other/Mixed Race is presented.||||0.3661
92299766|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|0.0083|STANDARD_ERROR_OF_MEAN|0.3497||0.9812||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of racial background(White vs. Other/Mixed vs. Black/African American) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between White vs. Black/African American is presented.||||0.9812
92299767|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.0663|STANDARD_ERROR_OF_MEAN|0.2314||0.7766||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Tanner Stage for Females(Stage 5 vs. Stages 1 - 4) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.7766
92299768|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.2929|STANDARD_ERROR_OF_MEAN|0.2508||0.2492||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Tanner Stage for Males(Stage 5 vs. Stages 1 - 4) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.2492
92299769|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coeffcient|-0.316|STANDARD_ERROR_OF_MEAN|0.1826||0.0877||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of BMI at Baseline(Normal and Underweight (\<25.0) vs. Overweight and Obsese (\>= 25.0)) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.0877
92299770|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.0292|STANDARD_ERROR_OF_MEAN|0.0113||0.0117||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of BMI at Baseline(continuous variable) on vaccine response as measured in log10 titers.||||0.0117
92299771|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.0578|STANDARD_ERROR_OF_MEAN|0.2163||0.7899||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of smokng cigarettes(Never Smoked vs. Has Smoked) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.7899
92299772|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.5339|STANDARD_ERROR_OF_MEAN|0.2803||0.0607||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of sexual identity(Straight (heterosexual) vs. Gay (homosexual), Bi (bisexual), and Not Sure or Undecided) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.0607
92299773|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.3883|STANDARD_ERROR_OF_MEAN|0.2779||0.167||95.0|||||Regression, Linear|||"This is a regression analysis for testing the effect of age at which the subject first had unforced sex (Never vs. \<= 14 year olds vs. 15-17 year olds) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between never vs. \<= 14 year olds is presented."||||0.1670
92299774|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|0.0344|STANDARD_ERROR_OF_MEAN|0.2065||0.8682||95.0|||||Regression, Linear|||"This is a regression analysis for testing the effect of age at which subject had first unforced sex (Never vs. \<= 14 year olds vs. 15 - 17 year olds) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between never vs. 15-17 year olds is presented."||||0.8682
92299775|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|0.1532|STANDARD_ERROR_OF_MEAN|0.1896||0.4219||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of total number of lifetime sex partners (0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. 1-5 partners is presented.||||0.4219
92299776|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.7752|STANDARD_ERROR_OF_MEAN|0.242||0.002||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Total Number of Lifetime Sex Partners(0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. \>= 6 partners is presented.||||0.0020
92299777|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|0.2921|STANDARD_ERROR_OF_MEAN|0.2086||0.1659||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Total Number of Male Lifetime Sex Partners(0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. 1-5 partners is presented.||||0.1659
92299778|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-1.6163|STANDARD_ERROR_OF_MEAN|0.2839||0||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Total Number of Male Lifetime Sex Partners(0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. \>= 6 partners is presented.||||0.0000
92299779|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.1788|STANDARD_ERROR_OF_MEAN|0.2463||0.4701||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Total Number of Female Lifetime Sex Partners(0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. 1-5 partners is presented.||||0.4701
92299780|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|0.1083|STANDARD_ERROR_OF_MEAN|0.3488||0.7572||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Total Number of Female Lifetime Sex Partners(0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. \>= 6 partners is presented.||||0.7572
92299781|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.0307|STANDARD_ERROR_OF_MEAN|0.1809||0.8657||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of whether a subject ever drank alcohol (No vs. Yes) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.8657
92186210|NCT03015220|184271332|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.12||||0.011|TWO_SIDED|95.0|0.02|0.62||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||"Oral Semaglutide 14 mg~/Dulaglutide 0.75 mg"|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.62|0.02|0.0110
92299782|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.3548|STANDARD_ERROR_OF_MEAN|0.2076||0.0917||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of whether a subject ever smoked marijuana(No vs. Yes) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.0917
92299783|NCT00107042|184503429|SUPERIORITY_OR_OTHER||Regression coefficient|-0.3474|STANDARD_ERROR_OF_MEAN|0.3924||0.3788||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of whether a subject ever used drugs not prescribed(No vs. Yes) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.3788
92299784|NCT00107042|184503430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.54||||0.2068|TWO_SIDED|95.0|0.6|10.76|||Univariate regression, logistic||The reference group is the 'Recombivax' group.|||10.76|0.60|0.2068
92299785|NCT00107042|184503431|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.5524|TWO_SIDED|95.0|0.38|6.01|||Univariate regression, logistic||The reference group is the 'Other Sites' group.|||6.01|0.38|0.5524
92186211|NCT03055988|184271348|SUPERIORITY||Adjusted mean difference|-0.537|STANDARD_ERROR_OF_MEAN|1.12||0.6331|TWO_SIDED|95.0|-2.779|1.705|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|Mixed model repeated measures (MMRM) model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation. H0: Mean change from baseline in LVEDVI for (Tiotropium + Olodaterol) = Mean change from baseline in LVEDVI for (Fluticasone propionate + Salmeterol)||1.705|-2.779|0.6331
92299786|NCT00107042|184503432|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.4646|TWO_SIDED|95.0|0.36|9.36|||Univariate regression, logistic||The reference group is the '15-17 year' age group|||9.36|0.36|0.4646
92299787|NCT00107042|184503433|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.45||||0.339|TWO_SIDED|95.0|0.09|2.3|||Univariate regression, logistic||The reference group is the 'Female' group.|||2.30|0.09|0.3390
92299788|NCT00107042|184503434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.86||||0.0102|TWO_SIDED|95.0|1.58|29.78|||Univariate regression, logistic||The reference group is the 'Hispanic: NO' group.|||29.78|1.58|0.0102
92299789|NCT00107042|184503434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.38||||0.0118|TWO_SIDED|95.0|1.56|34.95||Since Hispanic (no, yes) was a factor with a p-value of \< 0.15 in the unadjusted univariate regression analysis, it was entered into the initial full multivariate model.|Multivariate regression, logistic||"The reference group is the Hispanic: NO group."|||34.95|1.56|0.0118
92299790|NCT00107042|184503435|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.4241|TWO_SIDED|95.0|0.04|3.84|||Univariate regression, logistic||The reference group is the 'White' group.|||3.84|0.04|0.4241
92299791|NCT00107042|184503435|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12||||0.2685|TWO_SIDED|95.0|0.34|50.76|||Univariate regression, logistic||The reference group is the 'White' group.|||50.76|0.34|0.2685
92299792|NCT00107042|184503436|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.939|TWO_SIDED|95.0|0.05|15.44|||Univariate regression, logistic||The reference group is the 'Stage 5' group.|||15.44|0.05|0.9390
92299793|NCT00107042|184503437|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.6181|TWO_SIDED|95.0|0.3|7.39|||Univariate regression, logistic||"The reference group is the Stage 5 group."|||7.39|0.30|0.6181
92299794|NCT00107042|184503438|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.1943|TWO_SIDED|95.0|0.1|1.6|||Univariate regression, logistic||"The reference group is the Normal and Underweight (\<25.0) group."|||1.60|0.10|0.1943
92299795|NCT00107042|184503439|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.2542|TWO_SIDED|95.0|0.1|1.86|||Univariate regression, logistic||"The reference group is the Ever smoked cigarettes: NO group."|||1.86|0.10|0.2542
92299796|NCT00107042|184503440|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.14||||0.0161|TWO_SIDED|95.0|0.03|0.69|||Univariate regression, logistic||"The reference group is the Straight (heterosexual) group."|||0.69|0.03|0.0161
92299797|NCT00107042|184503440|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.12||||0.0222|TWO_SIDED|95.0|0.02|0.74||Since sexual identity was a factor with a p-value of \< 0.15 in the unadjusted univariate regression analysis, it was entered into the initial full multivariate model.|Multivariate regression, logistic||"The reference group is the Straight (heterosexual) group."|||0.74|0.02|0.0222
92299798|NCT00107042|184503441|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.8945|TWO_SIDED|95.0|0.12|11.83|||Univariate regression, logistic||"The reference group is the Never (had sex)group."|||11.83|0.12|0.8945
92299799|NCT00107042|184503441|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.12||||0.019|TWO_SIDED|95.0|0.02|0.7|||Univariate regression, logistic||"The reference group is the Never (had sex) group."|||0.70|0.02|0.0190
92299800|NCT00107042|184503442|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.08||||0.0042|TWO_SIDED|95.0|0.01|0.48|||Univariate regression, logistic||"The reference group is the 0 partners group"|||0.48|0.01|0.0042
92299801|NCT00107042|184503442|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.6893||95.0|||||Univariate regression, Logistic||"The reference group is the 0 partners group.~Two sided 95% confidence interval: Lower Limit = 0.17; upper limit = infinity"|||||0.6893
92299802|NCT00107042|184503443|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.015||||0.0003|TWO_SIDED|95.0|0.0|0.19|||Univariate regression, logistic||"The reference group is hte 0 Partners group."|||0.19|0.00|0.0003
92299803|NCT00107042|184503443|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||1|TWO_SIDED|95.0|0.0|10.01|||Univariate regression, Logistic||"The reference group is the 0 Partners group"|||10.01|0.00|1.0000
92186212|NCT03055988|184271349|SUPERIORITY||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.036||0.9817|TWO_SIDED|95.0|-0.072|0.074|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||0.074|-0.072|0.9817
92299804|NCT00107042|184503444|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.5503|TWO_SIDED|95.0|0.05|4.86|||Univariate regression, logistic||"The reference group is the 0 Partners group"|||4.86|0.05|0.5503
92299805|NCT00107042|184503444|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.8904|TWO_SIDED|95.0|0.13|10.46|||Univariate Regression, Logistic||"The reference group is the 0 Partners group."|||10.46|0.13|0.8904
92299806|NCT00107042|184503445|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48||||0.301|TWO_SIDED|95.0|0.12|1.92|||Univariate regression, logistic||"The reference group is the Ever drank alcohol: NO group."|||1.92|0.12|0.3010
92299807|NCT00107042|184503446|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.24||||0.0501|TWO_SIDED|95.0|0.06|1.0|||Univariate regression, logistic||"The reference group is the Ever smoked marijuana: NO group."|||1.00|0.06|0.0501
92299808|NCT00107042|184503447|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.3846|TWO_SIDED|95.0|0.04|3.61|||Univariate regression, logistic||"The reference group is the Ever used drugs not prescribed: NO group."|||3.61|0.04|0.3846
92299809|NCT00107042|184503448|SUPERIORITY_OR_OTHER|||||||0.3827||95.0|||||Fisher Exact|||||||0.3827
92299810|NCT00107042|184503448|SUPERIORITY_OR_OTHER||Responding Rate|81.08|||||TWO_SIDED|95.0|68.84|92.04|||||Response rate=Total number subjects responded/Total number subjects in arm|||92.04|68.84|
92299811|NCT00107042|184503448|SUPERIORITY_OR_OTHER||Responding Rate|88.0|||||TWO_SIDED|95.0|75.69|95.47|||||Response rate=Total number subjects responded/Total number subjects in arm|||95.47|75.69|
92299812|NCT00107042|184503449|SUPERIORITY_OR_OTHER||Responding rate|98.08|||||TWO_SIDED|95.0|89.74|99.95||A p-value has not been entered because there is only one study arm in this analysis.|Exact 95% CI|||||99.95|89.74|
92299813|NCT00107042|184503450|SUPERIORITY_OR_OTHER||Responding Rate|91.49||||||95.0|79.62|97.63||A p-value has not been entered because there is only one study arm in this analysis.|Exact 95 % confidence interval|||||97.63|79.62|
92299814|NCT00107042|184503451|SUPERIORITY_OR_OTHER||Responding Rate %|98.11|||||TWO_SIDED|95.0|89.93|99.95||A p-value has not been entered because there is only one study arm in this analysis.|Exact 95% confidence interval||"For overall response, if a subject is reactive at either 1-month or 12-month, then the overall response is considered Positive. If a subject is non-reactive at both 1-month and 12-month, then the overall response for this subject is Negative."|||99.95|89.93|
92299815|NCT00107042|184503452|SUPERIORITY_OR_OTHER|||||||0.2938||95.0|||||Fisher Exact|||||||0.2938
92299816|NCT00107042|184503452|SUPERIORITY_OR_OTHER||Responding Rate %|85.37|||||TWO_SIDED|95.0|70.83|94.43|||95 % confidence interval|||||94.43|70.83|
92299817|NCT00107042|184503452|SUPERIORITY_OR_OTHER||Responding Rate %|93.62|||||TWO_SIDED|95.0|82.46|98.66|||95% confidence interval|||||98.66|82.46|
92299818|NCT03265288|184503478|SUPERIORITY||Least square means difference|0.7716||||0.3449|TWO_SIDED|95.0|-0.8397|2.3828||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|Primary analysis of the treatment effect at the Week 24 visit on the intent to treat population (ITT) Null hypothesis is no treatment difference||2.3828|-0.8397|0.3449
92299819|NCT03265288|184503478|SUPERIORITY||Least square means difference|1.0053||||0.0667|TWO_SIDED|95.0|-0.07|2.0807||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|Analysis of the overall treatment effect from baseline through Week 24 in the intent to treat population (ITT), Null hypothesis is no treatment difference||2.0807|-0.0700|0.0667
92299820|NCT03265288|184503478|SUPERIORITY||Least square means difference|1.2258||||0.0486|TWO_SIDED|95.0|0.0078|2.4438||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|Secondary analysis of the overall treatment effect from baseline through Week 24 on the per protocol population (PP), null hypothesis is no treatment difference||2.4438|0.0078|0.0486
92186213|NCT03055988|184271350|SUPERIORITY||Adjusted mean difference|1.28|STANDARD_ERROR_OF_MEAN|1.995||0.5238|TWO_SIDED|95.0|-2.719|5.279|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||5.279|-2.719|0.5238
92186214|NCT03055988|184271351|SUPERIORITY||Adjusted mean difference|2.069|STANDARD_ERROR_OF_MEAN|1.853||0.2687|TWO_SIDED|95.0|-1.64|5.779|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||5.779|-1.640|0.2687
92299821|NCT03265288|184503478|SUPERIORITY||Least square means difference|2.6628||||0.0687|TWO_SIDED|95.0|-0.2069|5.5325||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|"Secondary analysis of treatment effect at the Week 24 visit for stratification factor ppFEV1 (\<70% or ≥70%) in intent to treat population (ITT), null hypothesis is no treatment difference.~Here presented is the analysis for subgroup ≥70%, n=29 (LAU-7b), n=27 (Placebo)"||5.5325|-0.2069|0.0687
92186215|NCT03055988|184271352|SUPERIORITY||Adjusted mean difference|0.409|STANDARD_ERROR_OF_MEAN|1.335||0.7604|TWO_SIDED|95.0|-2.264|3.082|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||3.082|-2.264|0.7604
92186216|NCT03055988|184271353|SUPERIORITY||Adjusted mean difference|-0.32|STANDARD_ERROR_OF_MEAN|1.509||0.833|TWO_SIDED|95.0|-3.341|2.702|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||2.702|-3.341|0.8330
92299822|NCT03265288|184503478|SUPERIORITY||Least square means difference|1.391||||0.236|TWO_SIDED|95.0|-0.922|3.7041||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|"Secondary analysis of treatment effect at the Week 24 visit for stratification factor co-administration of CFTR modulator (yes/no) in intent to treat population (ITT), null hypothesis is no treatment difference.~Here presented is the analysis for subgroup receiving CFTR modulators, n=41 (LAU-7b), n=46 (Placebo)"||3.7041|-0.9220|0.236
92299823|NCT03265288|184503478|SUPERIORITY||Least square means difference|1.1302||||0.5323|TWO_SIDED|95.0|-2.4447|4.7052||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|"Secondary analysis of treatment effect at the Week 24 visit for à priori defined subgroup co-administration of ETI - elexacaftor/tezacaftor/ivacaftor (yes/no) in intent to treat population (ITT), null hypothesis is no treatment difference.~Here presented is the analysis for subgroup receiving ETI, n=18 (LAU-7b), n=23 (Placebo)"||4.7052|-2.4447|0.5323
92186217|NCT03055988|184271354|SUPERIORITY||Adjusted mean difference|-7.957|STANDARD_ERROR_OF_MEAN|2.452||0.0019|TWO_SIDED|95.0|-12.865|-3.05|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||-3.050|-12.865|0.0019
92186218|NCT03055988|184271355|SUPERIORITY||Adjusted mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.121|0.24|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||0.240|0.121|<0.0001
92186219|NCT03055988|184271356|SUPERIORITY||Adjusted mean difference|0.286|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001|TWO_SIDED|95.0|0.171|0.4|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||0.400|0.171|<0.0001
92186220|NCT02312258|184271360|SUPERIORITY||Hazard Ratio (HR)|1.09|||=|0.473|TWO_SIDED|95.0|0.861|1.381|||Log Rank||||"P-value comparing OS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), International Staging System (ISS) stage before initial therapy (stage I or II vs stage III), age (\<75 versus \[vs\] \>=75 years) at randomization, and best response to initial therapy (complete response (CR) or very good partial response (VGPR) vs partial response (PR)).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 versus\[vs\] \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.381|0.861|=0.473
92267020|NCT02203305|184435422|SUPERIORITY||||||<|0.012||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p=0.012) and condition (p\<0.001). Interaction: interval and condition (p=0.004).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.012
92299824|NCT03265288|184503480|SUPERIORITY||Odds Ratio (OR)|0.5036||||0.1047|TWO_SIDED|95.0|0.2199|1.1532||alpha is set to 0.05|Regression, Logistic||Odds ratio \< 1 means lower odds of normalization with LAU-7b, odds ratio \> 1 means higher odds of normalization with LAU-7b|Highest normalization of Arachidonic Acid (AA) during treatment Intent to treat population (ITT), null hypothesis is no treatment effect||1.1532|0.2199|0.1047
92299825|NCT03265288|184503480|SUPERIORITY||Odds Ratio (OR)|0.8773||||0.7596|TWO_SIDED|95.0|0.3793|2.0291||alpha is set to 0.05|Regression, Logistic||Odds ratio \< 1 means lower odds of normalization with LAU-7b, odds ratio \> 1 means higher odds of normalization with LAU-7b|Highest normalization of Docosahexaenoic Acid (DHA) during treatment Intent to treat population (ITT, null hypothesis is no treatment effect||2.0291|0.3793|0.7596
92299826|NCT03265288|184503480|SUPERIORITY||Odds Ratio (OR)|1.0532||||0.8852|TWO_SIDED|95.0|0.5209|2.1296||alpha is set to 0.05|Regression, Logistic||Odds ratio \< 1 means lower odds of normalization with LAU-7b, odds ratio \> 1 means higher odds of normalization with LAU-7b|Highest normalization of AA/DHA ratio during treatment Intent to treat population (ITT), null hypothesis is no treatment effect||2.1296|0.5209|0.8852
92299827|NCT03265288|184503483|SUPERIORITY|||||||0.3025|||||||Log Rank|||||||0.3025
92299828|NCT03265288|184503484|SUPERIORITY||Risk Ratio (RR)|1.55||||0.3366|TWO_SIDED|95.0|0.63|3.8||alpha is set to 0.05|Regression, Cox||Odds ratio \< 1 means lower odds of a pulmonary exacerbation with LAU-7b, odds ratio close to 1 means similar odds of a pulmonary exacerbation for LAU-7b and placebo, odds ratio \> 1 means higher odds of a pulmonary exacerbation with LAU-7b|Protocol-Defined IV antibiotics-treated pulmonary exacerbation events. Intent to treat population (ITT), null hypothesis is no treatment effect||3.80|0.63|0.3366
92186221|NCT02312258|184271362|SUPERIORITY||Hazard Ratio (HR)|0.655|||<|0.001|TWO_SIDED|95.0|0.537|0.799|||Log Rank||||"P-value comparing TTP between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|0.799|0.537|<0.001
92186222|NCT02312258|184271363|SUPERIORITY||Hazard Ratio (HR)|0.984|||=|0.893|TWO_SIDED|95.0|0.777|1.246|||Log Rank||||"P-value comparing PFS2 between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.246|0.777|=0.893
92186223|NCT02312258|184271364|SUPERIORITY||Hazard Ratio (HR)|0.777|||=|0.018|TWO_SIDED|95.0|0.631|0.957|||Log Rank||||"P-value comparing TTNT between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|0.957|0.631|=0.018
92267021|NCT02203305|184435422|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. A repeated-measures ANOVA evaluated the effect of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
92299829|NCT03265288|184503484|OTHER||Risk Ratio (RR)|1.34||||0.3936|TWO_SIDED|95.0|0.68|2.64||alpha is set to 0.05|Regression, Cox||Odds ratio \< 1 means lower odds of a pulmonary exacerbation with LAU-7b, odds ratio close to 1 means similar odds of a pulmonary exacerbation for LAU-7b and placebo, odds ratio \> 1 means higher odds of a pulmonary exacerbation with LAU-7b|ALL IV antibiotics-treated pulmonary exacerbation events. Intent to treat population (ITT), null hypothesis is no treatment effect||2.64|0.68|0.3936
92299830|NCT03265288|184503484|SUPERIORITY||Risk Ratio (RR)|1.16||||0.5011|TWO_SIDED|95.0|0.75|1.79||alpha is set to 0.05|Regression, Cox||Odds ratio \< 1 means lower odds of a pulmonary exacerbation with LAU-7b, odds ratio close to 1 means similar odds of a pulmonary exacerbation for LAU-7b and placebo, odds ratio \> 1 means higher odds of a pulmonary exacerbation with LAU-7b|Combined IV- or Oral antibiotics-treated pulmonary exacerbation events. Intent to treat population (ITT), null hypothesis is no treatment effect||1.79|0.75|0.5011
92299831|NCT03265288|184503485|SUPERIORITY|||||||0.1955|||||||Log Rank|||||||0.1955
92299832|NCT03265288|184503486|SUPERIORITY||Risk Ratio (RR)|1.35||||0.1909|TWO_SIDED|95.0|0.86|2.12||alpha is set to 0.05|Poisson regression||Odds ratio \< 1 means lower odds of an antibiotic treatment with LAU-7b, odds ratio \> 1 means higher odds of an antibiotic treatment with LAU-7b|Number per subject of intravenous antibiotic treatments required for a pulmonary exacerbation, excludes Cycle 1 pulmonary exacerbations Intent to treat population (ITT), null hypothesis is no treatment effect||2.12|0.86|0.1909
92299833|NCT03265288|184503487|SUPERIORITY||Risk Ratio (RR)|1.11||||0.7473|TWO_SIDED|95.0|0.6|2.04||alpha is set to 0.05|Poisson regression||Odds ratio \< 1 means lower odds in terms of days of antibiotics with LAU-7b, odds ratio close to 1 means similar odds in terms of days of antibiotics with LAU-7b or placebo, odds ratio \> 1 means higher odds in terms of days of antibiotics with LAU-7b|Number of days of intravenous antibiotics required for a pulmonary exacerbation, excludes Cycle 1 pulmonary exacerbations, Intent to treat population (ITT), null hypothesis is no treatment effect||2.04|0.60|0.7473
92299834|NCT03265288|184503488|SUPERIORITY||Least Squares Means difference|-2.89||||0.0822|TWO_SIDED|95.0|-6.154|0.374||alpha is set to 0.05|Mixed Model for Repeated Measures||A negative difference favours LAU-7b, a positive difference favours placebo|C-Reactive Protein (CRP), Intent-to-Treat population (ITT), null hypothesis is no treatment effect||0.374|-6.154|0.0822
92299835|NCT03265288|184503488|SUPERIORITY||Least Squares Means difference|-576.0||||0.0603|TWO_SIDED|95.0|-1177.0|25.4||alpha is set to 0.05|Mixed Model for Repeated Measures||A negative difference favours LAU-7b, a positive difference favours placebo|Calprotectin, Intent-to-Treat population (ITT), null hypothesis is no treatment effect||25.4|-1177|0.0603
92299836|NCT03265288|184503488|SUPERIORITY||Least Square Means difference|-3.853||||0.0287|TWO_SIDED|95.0|-7.297|-0.408||alpha is set to 0.05|Mixed Model for Repeated Measures||A negative difference favours LAU-7b, a positive difference favours placebo|C-Reactive Protein (CRP), Per-Protocol population (PP), null hypothesis is no treatment effect||-0.408|-7.297|0.0287
92299837|NCT03265288|184503488|SUPERIORITY||Least Square Means difference|-620.0||||0.0459|TWO_SIDED|95.0|-1228.0|12.0||alpha is set to 0.05|Mixed Model for Repeated Measures||A negative difference favours LAU-7b, a positive difference favours placebo|Calprotectin, Per-Protocol population (PP), null hypothesis is no treatment effect||12|-1228|0.0459
92299838|NCT03265288|184503489|SUPERIORITY||Least Squares Means difference|-0.39||||0.1006|TWO_SIDED|95.0|-0.86|0.08||alpha is set to 0.05|Mixed Model for Repeated Measures|||Body weight, Intent to treat population (ITT), null hypothesis is no treatment effect||0.08|-0.86|0.1006
92299839|NCT03265288|184503490|SUPERIORITY||Least Squares Means difference|-0.137||||0.1246|TWO_SIDED|95.0|-0.312|0.038||alpha is set to 0.05|Mixed Model for Repeated Measures|||Body mass index, intent to treat population (ITT), null hypothesis is no treatment effect||0.038|-0.312|0.1246
92299840|NCT03265288|184503491|SUPERIORITY|||||||0.764||||||alpha is set to 0.05|ANOVA|||Intent to treat population (ITT), null hypothesis is no treatment effect||||0.7640
92186224|NCT02312258|184271365|SUPERIORITY||Hazard Ratio (HR)|1.111|||=|0.462|TWO_SIDED|95.0|0.839|1.47|||Log Rank||||"P-value comparing Time to End of Next Line Therapy between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.470|0.839|=0.462
92186225|NCT02312258|184271366|SUPERIORITY||Hazard Ratio (HR)|1.293|||||TWO_SIDED|95.0|0.968|1.727|||||||Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant.|1.727|0.968|
92186226|NCT02312258|184271369|SUPERIORITY||Hazard Ratio (HR)|0.582|||=|0.001|TWO_SIDED|95.0|0.425|0.796|||Log Rank|||PFS for Participants with Known MRD+ at Study Entry|"P-value comparing PFS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|0.796|0.425|=0.001
92186227|NCT02312258|184271369|SUPERIORITY||Hazard Ratio (HR)|1.537|||=|0.398|TWO_SIDED|95.0|0.563|4.194|||Log Rank|||PFS for Participants with Known MRD- at Study Entry|"P-value comparing PFS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|4.194|0.563|=0.398
92267022|NCT02203305|184435422|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. A repeated-measures ANOVA evaluated the effects of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
92299841|NCT03265288|184503492|SUPERIORITY||Least Squares Means difference|-2.758||||0.2996|TWO_SIDED|95.0|-7.998|2.482||alpha is set to 0.05|Mixed Model for Repeated Measures|||CFQ-R Respiratory subscore, intent to treat population (ITT), null hypothesis is no treatment effect||2.482|-7.998|0.2996
92299842|NCT02790034|184503497|SUPERIORITY||Mean Difference (Final Values)|-5.292|STANDARD_ERROR_OF_MEAN|11.3184||0.6411|TWO_SIDED|95.0|-27.741|17.157|||Mixed Models Analysis|||Primary inferential comparison between treatment groups used a restricted maximum likelihood (REML)-based, mixed-effects repeated measures model approach (MMRM) with 95% CI for the difference between treatment groups for % change from baseline in the number of apnea episodes. Model included % change from baseline as response, the fixed, categorical effects of treatment group, visit, treatment group-by-visit interaction, and the continuous terms age and baseline value as covariate.||17.157|-27.741|0.6411
92186228|NCT02312258|184271369|SUPERIORITY||Hazard Ratio (HR)|10.173|||=|0.012|TWO_SIDED|95.0|1.194|86.649|||Log Rank|||OS for Participants with Known MRD Status (MRD- Status, MRD+ Status) at Study Entry|"P-value comparing OS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|86.649|1.194|=0.012
92186229|NCT02312258|184271371|SUPERIORITY||Hazard Ratio (HR)|1.011|||=|0.963|TWO_SIDED|95.0|0.631|1.621|||Log Rank||||"P-value comparing PFS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.621|0.631|=0.963
92186230|NCT02312258|184271375|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.387|0.727|||Log Rank|||PFS Based on Frailty Status of Fit|"P-value comparing PFS between treatment groups was based on Log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization.~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization, comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|0.727|0.387|<0.001
92186231|NCT02312258|184271375|SUPERIORITY||Hazard Ratio (HR)|0.746|||=|0.098|TWO_SIDED|95.0|0.526|1.058|||Log Rank|||PFS Based on Frailty Status of Unfit|"P-value comparing PFS between treatment groups was based on Log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization.~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization, comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.058|0.526|=0.098
92267023|NCT02203305|184435422|OTHER|correlation|bivariate pearson correlation|0.42|||=|0.033|TWO_SIDED||||||bivariate pearson correlation|||Association of age at implantation and sound source localization (RMS) at the 12-month interval with the cochlear implant, analyzed with a Bivariate Pearson correlation (one-tailed).||||=0.033
92267024|NCT02203305|184435422|SUPERIORITY||||||<|0.249||||||There were significant main effects of group (p\<0.001) and interval (p\<0.001). There was a non-significant interaction between group and interval (p=0.249).|Mixed Models Analysis|Main effects: group (p\<0.001) and interval (p\<0.001). Interaction: group and interval (p=0.249).||Comparison of sound source localization between groups (UHL/SSD and AHL) over the post-activation intervals (1, 3, 6, 9, and 12 months).||||<0.249
92267025|NCT02203305|184435423|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Responses on the Speech, Spatial, \& Qualities of hearing scale (SSQ) as measured with the total score were compared over the post-activation period (i.e., 1, 3, 6, 9, and 12 months).||||<0.001
92267026|NCT02203305|184435423|SUPERIORITY||||||=|0.056||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Responses on the SSQ as measured with the total score were compared over the post-activation period (i.e., 1, 3, 6, 9, and 12 months).||||=0.056
92267027|NCT02203305|184435423|SUPERIORITY||||||<|0.448||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p\<0.001) and subscale (p\<0.001). Interaction: interval and subscale (p=0.488).||Responses on the SSQ over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). Subscales include: speech, spatial, and qualities of hearing. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.448
92267028|NCT02203305|184435423|SUPERIORITY||||||<|0.299||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: subscale (p\<0.001) and interval (p=0.072). Interaction: subscale and interval (p=0.299).||Responses on the SSQ over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). Subscales include: speech, spatial, and qualities of hearing. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.299
92267029|NCT02203305|184435423|SUPERIORITY||||||<|0.018||||||There were significant main effects of interval (p\<0.001) and pragmatic subscale (p\<0.001), and their interaction (p\<0.018).|Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p\<0.018).||Responses on the SSQ Speech pragmatic subscale over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.018
92267030|NCT02203305|184435423|SUPERIORITY||||||<|0.767|||||||Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p=0.767). Interaction: interval and pragmatic subscale (p=0.542).||Responses on the SSQ Spatial pragmatic subscale over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.767
92299843|NCT02790034|184503497|SUPERIORITY||Mean Difference (Final Values)|-16.966|STANDARD_ERROR_OF_MEAN|13.1869||0.2011|TWO_SIDED|95.0|-43.119|9.186|||Mixed Models Analysis|||Primary inferential comparison between treatment groups used a restricted maximum likelihood (REML)-based, mixed-effects repeated measures model approach (MMRM) with 95% CI for the difference between treatment groups for % change from baseline in the number of apnea episodes. Model included % change from baseline as response, the fixed, categorical effects of treatment group, visit, treatment group-by-visit interaction, and the continuous terms age and baseline value as covariate.||9.186|-43.119|0.2011
92299844|NCT03575871|184503510|SUPERIORITY||Difference in Percentage|19.3||||0.0008|TWO_SIDED|95.0|9.6|29.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and confidence interval (CI) for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||29.0|9.6|0.0008
92299845|NCT03575871|184503510|SUPERIORITY||Difference in Percentage|28.7|||<|0.0001|TWO_SIDED|95.0|18.6|38.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.8|18.6|<0.0001
92299846|NCT03575871|184503511|SUPERIORITY||Difference in Percentage|33.9|||<|0.0001|TWO_SIDED|95.0|23.3|44.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||44.4|23.3|<0.0001
92299847|NCT03575871|184503511|SUPERIORITY||Difference in Percentage|50.5|||<|0.0001|TWO_SIDED|95.0|40.0|60.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||60.9|40.0|<0.0001
92299848|NCT03575871|184503512|SUPERIORITY||Difference in Percentage|19.2||||0.0002|TWO_SIDED|95.0|11.0|27.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||27.4|11.0|0.0002
92299849|NCT03575871|184503512|SUPERIORITY||Difference in Percentage|31.2|||<|0.0001|TWO_SIDED|95.0|22.3|40.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||40.2|22.3|<0.0001
92299850|NCT03575871|184503512|SUPERIORITY||Difference in Percentage|27.5|||<|0.0001|TWO_SIDED|95.0|18.9|36.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||36.2|18.9|<0.0001
92299851|NCT03575871|184503512|SUPERIORITY||Difference in Percentage|46.4|||<|0.0001|TWO_SIDED|95.0|37.2|55.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.7|37.2|<0.0001
92299852|NCT03575871|184503512|SUPERIORITY||Difference in Percentage|27.4|||<|0.0001|TWO_SIDED|95.0|16.8|38.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.0|16.8|<0.0001
92299853|NCT03575871|184503512|SUPERIORITY||Difference in Percentage|39.8|||<|0.0001|TWO_SIDED|95.0|28.9|50.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||50.6|28.9|<0.0001
92186232|NCT02312258|184271375|SUPERIORITY||Hazard Ratio (HR)|0.733|||=|0.147|TWO_SIDED|95.0|0.481|1.117|||Log Rank|||PFS Based on Frailty Status of Frail|"P-value comparing PFS between treatment groups was based on Log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization.~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization, comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.117|0.481|=0.147
92299854|NCT03575871|184503512|SUPERIORITY||Difference in Percentage|29.3|||<|0.0001|TWO_SIDED|95.0|18.9|39.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||39.6|18.9|<0.0001
92299855|NCT03575871|184503512|SUPERIORITY||Difference in Percentage|38.6|||<|0.0001|TWO_SIDED|95.0|28.1|49.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||49.1|28.1|<0.0001
92299856|NCT03575871|184503513|SUPERIORITY||Difference in LS mean|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.3|-1.1|||Mixed Models Analysis|||Mixed Model Repeated Measure (MMRM) contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.1|-2.3|<0.0001
92299857|NCT03575871|184503513|SUPERIORITY||Difference in LS mean|-2.2|||<|0.0001|TWO_SIDED|95.0|-2.8|-1.6|||Mixed Models Analysis|||Mixed Model Repeated Measure (MMRM) contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.6|-2.8|<0.0001
92299858|NCT03575871|184503515|SUPERIORITY||Difference in Percentage|8.8||||0.015|TWO_SIDED|95.0|2.8|14.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||14.9|2.8|0.0150
92299859|NCT03575871|184503515|SUPERIORITY||Difference in Percentage|22.7|||<|0.0001|TWO_SIDED|95.0|15.0|30.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.3|15.0|<0.0001
92299860|NCT03575871|184503515|SUPERIORITY||Difference in Percentage|20.0||||0.0004|TWO_SIDED|95.0|10.9|29.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||29.0|10.9|0.0004
92299861|NCT03575871|184503515|SUPERIORITY||Difference in Percentage|44.3|||<|0.0001|TWO_SIDED|95.0|34.8|53.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||53.8|34.8|<0.0001
92299862|NCT03575871|184503515|SUPERIORITY||Difference in Percentage|30.4|||<|0.0001|TWO_SIDED|95.0|19.7|41.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||41.2|19.7|<0.0001
92299863|NCT03575871|184503515|SUPERIORITY||Difference in Percentage|47.4|||<|0.0001|TWO_SIDED|95.0|36.8|58.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||58.0|36.8|<0.0001
92186233|NCT02312258|184271375|SUPERIORITY||Hazard Ratio (HR)|0.897|||=|0.714|TWO_SIDED|95.0|0.502|1.602|||Log Rank|||OS Based on Frailty Status of Fit|"P-value comparing OS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.602|0.502|=0.714
92186234|NCT02312258|184271375|SUPERIORITY||Hazard Ratio (HR)|1.75|||=|0.124|TWO_SIDED|95.0|0.85|3.601|||Log Rank|||OS Based on Frailty Status of Unfit|"P-value comparing OS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|3.601|0.850|=0.124
92186235|NCT02312258|184271375|SUPERIORITY||Hazard Ratio (HR)|0.854|||=|0.63|TWO_SIDED|95.0|0.448|1.627|||Log Rank|||OS Based on Frailty Status of Frail|"P-value comparing OS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.627|0.448|=0.630
92186236|NCT01528605|184271379|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||The null hypothesis was no group difference||||<0.05
92186237|NCT01528605|184271380|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||The null hypothesis was no group difference||||<0.05
92299864|NCT03575871|184503516|SUPERIORITY||Difference in Percentage|5.1||||0.0459|TWO_SIDED|95.0|0.2|10.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.0|0.2|0.0459
92299865|NCT03575871|184503516|SUPERIORITY||Difference in Percentage|14.2||||0.0005|TWO_SIDED|95.0|7.8|20.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||20.5|7.8|0.0005
92299866|NCT03575871|184503516|SUPERIORITY||Difference in Percentage|12.9||||0.0019|TWO_SIDED|95.0|6.3|19.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||19.4|6.3|0.0019
92186238|NCT01528605|184271381|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||"The null hypothesis is no group difference"||||>0.05
92186239|NCT01970527|184271412|SUPERIORITY|||||||0.67|||||||Log Rank|||||||0.67
92186240|NCT01970527|184271414|SUPERIORITY|||||||0.71|||||||Log Rank|||||||0.71
92186241|NCT01974102|184271418|SUPERIORITY||||||<|0.015|||||||t-test, 2 sided|||||||<0.015
92186242|NCT01974102|184271419|SUPERIORITY||||||<|0.03|||||||t-test, 2 sided|||||||<0.03
92299867|NCT03575871|184503516|SUPERIORITY||Difference in Percentage|31.8|||<|0.0001|TWO_SIDED|95.0|23.6|39.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||39.9|23.6|<0.0001
92299868|NCT03575871|184503516|SUPERIORITY||Difference in Percentage|11.9||||0.0246|TWO_SIDED|95.0|2.4|21.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||21.4|2.4|0.0246
92299869|NCT03575871|184503516|SUPERIORITY||Difference in Percentage|26.9|||<|0.0001|TWO_SIDED|95.0|17.0|36.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||36.9|17.0|<0.0001
92299870|NCT03575871|184503517|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.7|3.7||P-value was not estimable since there were no events.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.7|-3.7|
92299871|NCT03575871|184503517|SUPERIORITY||Difference in Percentage|1.9||||0.2262|TWO_SIDED|95.0|-2.2|6.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.1|-2.2|0.2262
92299872|NCT03575871|184503517|SUPERIORITY||Difference in Percentage|1.9||||0.2223|TWO_SIDED|95.0|-2.2|6.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.1|-2.2|0.2223
92299873|NCT03575871|184503517|SUPERIORITY||Difference in Percentage|4.5||||0.0597|TWO_SIDED|95.0|-0.2|9.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.2|-0.2|0.0597
92299874|NCT03575871|184503517|SUPERIORITY||Difference in Percentage|1.3||||0.3207|TWO_SIDED|95.0|-2.7|5.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.2|-2.7|0.3207
92186243|NCT02326220|184271453|SUPERIORITY||H-L estimate of median difference|0.75|||<|0.0001|TWO_SIDED|95.0|0.667|0.833||Threshold for significance at 0.05 level.|ANCOVA||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|"Analysis was performed using the ranked analysis of covariance (ANCOVA) model with baseline frequency of the apheresis procedure (QW or Q2W) and Lp(a) levels (normal or elevated) as fixed effect and the baseline LDL-C level as a covariate. Hodges-Lehmann estimator of median difference (median of all pairwise differences; CI is Moses distribution free CI.~p-value is derived from the rank-based ANCOVA model. The model includes the baseline LDL-C value and stratification factors per IVRS."||0.833|0.667|< 0.0001
92299875|NCT03575871|184503517|SUPERIORITY||Difference in Percentage|4.5||||0.0586|TWO_SIDED|95.0|-0.2|9.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.2|-0.2|0.0586
92299876|NCT03575871|184503517|SUPERIORITY||Difference in Percentage|5.2||||0.0419|TWO_SIDED|95.0|0.3|10.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.1|0.3|0.0419
92186244|NCT02326220|184271454|SUPERIORITY||Least Square (LS) Mean Difference|-55.3|STANDARD_ERROR_OF_MEAN|3.9|<|0.0001|TWO_SIDED|95.0|-63.0|-47.5||Threshold for significance at 0.05 level.|MMRM|MMRM: Mixed-effect model with repeated measures|Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-47.5|-63.0|< 0.0001
92299877|NCT03575871|184503517|SUPERIORITY||Difference in Percentage|6.3||||0.0244|TWO_SIDED|95.0|1.2|11.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.4|1.2|0.0244
92299878|NCT03575871|184503518|SUPERIORITY||Difference in Percentage|25.0|||<|0.0001|TWO_SIDED|95.0|14.8|35.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.2|14.8|<0.0001
92299879|NCT03575871|184503518|SUPERIORITY||Difference in Percentage|44.2|||<|0.0001|TWO_SIDED|95.0|33.9|54.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||54.6|33.9|<0.0001
92299880|NCT03575871|184503518|SUPERIORITY||Difference in Percentage|30.2|||<|0.0001|TWO_SIDED|95.0|17.5|42.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||42.8|17.5|<0.0001
92299881|NCT03575871|184503518|SUPERIORITY||Difference in Percentage|49.8|||<|0.0001|TWO_SIDED|95.0|37.8|61.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||61.7|37.8|<0.0001
92299882|NCT03575871|184503518|SUPERIORITY||Difference in Percentage|31.5|||<|0.0001|TWO_SIDED|95.0|18.8|44.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||44.3|18.8|<0.0001
92299883|NCT03575871|184503518|SUPERIORITY||Difference in Percentage|47.6|||<|0.0001|TWO_SIDED|95.0|35.7|59.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||59.6|35.7|<0.0001
92299884|NCT03575871|184503518|SUPERIORITY||Difference in Percentage|48.7|||<|0.0001|TWO_SIDED|95.0|37.2|60.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||60.1|37.2|<0.0001
92299885|NCT03575871|184503518|SUPERIORITY||Difference in Percentage|60.1|||<|0.0001|TWO_SIDED|95.0|49.1|71.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||71.0|49.1|<0.0001
92299886|NCT03575871|184503519|SUPERIORITY||Difference in Percentage|2.5||||0.1623|TWO_SIDED|95.0|-1.7|6.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.8|-1.7|0.1623
92299887|NCT03575871|184503519|SUPERIORITY||Difference in Percentage|9.1||||0.007|TWO_SIDED|95.0|3.4|14.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||14.7|3.4|0.0070
92299888|NCT03575871|184503519|SUPERIORITY||Difference in Percentage|9.7||||0.0049|TWO_SIDED|95.0|4.0|15.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||15.4|4.0|0.0049
92299889|NCT03575871|184503519|SUPERIORITY||Difference in Percentage|22.9|||<|0.0001|TWO_SIDED|95.0|15.5|30.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.2|15.5|<0.0001
92299890|NCT03575871|184503519|SUPERIORITY||Difference in Percentage|14.6||||0.0013|TWO_SIDED|95.0|7.2|22.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||22.0|7.2|0.0013
92186245|NCT02326220|184271455|SUPERIORITY||H-L estimate of median difference|0.5|||<|0.0001|TWO_SIDED|95.0|0.5|1.0||Threshold for significance at 0.05 level.|ANCOVA||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1.000|0.500|<.0001
92299891|NCT03575871|184503519|SUPERIORITY||Difference in Percentage|31.6|||<|0.0001|TWO_SIDED|95.0|23.1|40.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||40.1|23.1|<0.0001
92299892|NCT03575871|184503519|SUPERIORITY||Difference in Percentage|20.1||||0.0001|TWO_SIDED|95.0|11.9|28.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||28.3|11.9|0.0001
92299893|NCT03575871|184503519|SUPERIORITY||Difference in Percentage|33.5|||<|0.0001|TWO_SIDED|95.0|24.6|42.5|||Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||42.5|24.6|<0.0001
92299894|NCT03575871|184503520|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.7|3.7||P-value could not be calculated since percentage of participants with events was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.7|-3.7|
92299895|NCT03575871|184503520|SUPERIORITY||Difference in Percentage|1.3||||0.3261|TWO_SIDED|95.0|-2.8|5.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.3|-2.8|0.3261
92186246|NCT02326220|184271456|SUPERIORITY||LS Mean Difference|-44.0|||<|0.0001|TWO_SIDED|95.0|-51.3|-36.6||Threshold for significance at 0.05 level.|MMRM||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-36.6|-51.3|< 0.0001
92299896|NCT03575871|184503520|SUPERIORITY||Difference in Percentage|1.3||||0.3207|TWO_SIDED|95.0|-2.7|5.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.3|-2.7|0.3207
92299897|NCT03575871|184503520|SUPERIORITY||Difference in Percentage|3.9||||0.081|TWO_SIDED|95.0|-0.8|8.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||8.5|-0.8|0.0810
92299898|NCT03575871|184503520|SUPERIORITY||Difference in Percentage|1.3||||0.3207|TWO_SIDED|95.0|-2.7|5.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.2|-2.7|0.3207
92299899|NCT03575871|184503520|SUPERIORITY||Difference in Percentage|3.8||||0.081|TWO_SIDED|95.0|-0.7|8.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||8.4|-0.7|0.0810
92186247|NCT02326220|184271457|SUPERIORITY||LS Mean Difference|-50.0|||<|0.0001|TWO_SIDED|95.0|-57.3|-42.7||Threshold for significance at 0.05 level.|MMRM||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-42.7|-57.3|< 0.0001
92186248|NCT02326220|184271458|SUPERIORITY||LS Mean Difference|-39.4|||<|0.0001|TWO_SIDED|95.0|-45.6|-33.2||Threshold for significance at 0.05 level.|MMRM||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-33.2|-45.6|< 0.0001
92186249|NCT02326220|184271459|SUPERIORITY||LS Mean Difference|4.2||||0.3012|TWO_SIDED|95.0|-3.9|12.3||Threshold for significance at 0.05 level.|MMRM||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||12.3|-3.9|0.3012
92186250|NCT02699099|184271476|NON_INFERIORITY|Non-inferiority (1 month post-Dose 3 of SB257049) was defined as the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio (RTS,S group/Coad group) for anti-CS, being below a limit of 2.|Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.07|||ANOVA|||Adjusted GMC ratios for anti-CS antibody: To demonstrate the non-inferiority of the antibody response to the CS antigen when SB257049 is co-administered with YF vaccine and a combined measles and rubella vaccine versus SB257049 administered alone.||1.07|0.81|
92186251|NCT02699099|184271481|NON_INFERIORITY|Non-inferiority was defined as the upper limit of the 95% confidence interval (CI) for the difference in seroconversion rate of the anti-measles antibody, being below 10% for the two groups (Control Group minus Coad Group).|Difference in percentage|2.05|||||TWO_SIDED|95.0|-1.29|5.89|||Miettinen and Nurminen method|Miettinen and Nurminen method was used to construct 95%CI for difference between groups||Difference in seroconversion rates against measles antibodies: To demonstrate the non-inferiority of the antibody response to the measles vaccine antigen when YF vaccine and a combined measles and rubella vaccine are coadministered with SB257049 versus administration without SB257049.||5.89|-1.29|
92186252|NCT02699099|184271484|NON_INFERIORITY|Non-inferiority was defined as the upper limit of the 95% confidence interval (CI) for the difference in seroconversion rates of the anti-rubella antibody, being below 10% for the two groups (Control Group minus Coad Group).|Difference in percentage|0.5|||||TWO_SIDED|95.0|-1.29|2.78|||Miettinen and Nurminen method|Miettinen and Nurminen method was used to construct 95%CI for difference between groups||"Difference in seroconversion rates against Rubella antibodies: To demonstrate the non-inferiority of the antibody response to the rubella vaccine antigen when YF vaccine and a combined measles and rubella vaccine are coadministered.~with SB257049 versus administration without SB257049."||2.78|-1.29|
92186253|NCT02699099|184271487|NON_INFERIORITY|Non-inferiority was defined as the upper limit of the 95% confidence interval (CI) for the difference in seropositivity rates of the anti-yellow fever antibody , being below 10% for the two groups (Control Group minus Coad Group).|Difference in percentage|0.55|||||TWO_SIDED|95.0|-2.3|3.65|||Miettinen and Nurminen method|Miettinen and Nurminen method was used to construct 95%CI for difference between groups||Difference in seropositivity rates against Yellow Fever antibodies: To demonstrate the non-inferiority of the antibody response to the YF vaccine antigen when YF vaccine and a combined measles and rubella vaccine are coadministered with SB257049 versus administration without SB257049.||3.65|-2.30|
92186254|NCT02699099|184271513|NON_INFERIORITY|Non-inferiority (1 month post-Dose 3 of SB257049) was defined as the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio (RTS,S group/Coad group) for anti-CS, being below a limit of 2.|Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.07|||ANOVA|||Adjusted GMC ratios for anti-CS antibody: To demonstrate the non-inferiority of the antibody response to the CS antigen when SB257049 is co-administered with YF vaccine and a combined measles and rubella vaccine versus SB257049 administered alone.||1.07|0.81|
92299900|NCT03575871|184503520|SUPERIORITY||Difference in Percentage|5.2||||0.0419|TWO_SIDED|95.0|0.3|10.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.1|0.3|0.0419
92299901|NCT03575871|184503520|SUPERIORITY||Difference in Percentage|7.0||||0.018|TWO_SIDED|95.0|1.8|12.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||12.2|1.8|0.0180
92299902|NCT03575871|184503521|SUPERIORITY||Difference in LS mean|-30.2|||<|0.0001|TWO_SIDED|95.0|-38.1|-22.3|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-22.3|-38.1|<0.0001
92299903|NCT03575871|184503521|SUPERIORITY||Difference in LS mean|-42.3|||<|0.0001|TWO_SIDED|95.0|-50.3|-34.4|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-34.4|-50.3|<0.0001
92299904|NCT03575871|184503521|SUPERIORITY||Difference in LS mean|-29.9|||<|0.0001|TWO_SIDED|95.0|-38.1|-21.7|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-21.7|-38.1|<0.0001
92299905|NCT03575871|184503521|SUPERIORITY||Difference in LS mean|-44.6|||<|0.0001|TWO_SIDED|95.0|-52.8|-36.3|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-36.3|-52.8|<0.0001
92299906|NCT03575871|184503521|SUPERIORITY||Difference in LS mean|-26.4|||<|0.0001|TWO_SIDED|95.0|-36.2|-16.7|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-16.7|-36.2|<0.0001
92299907|NCT03575871|184503521|SUPERIORITY||Difference in LS mean|-40.2|||<|0.0001|TWO_SIDED|95.0|-50.0|-30.4|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-30.4|-50.0|<0.0001
92299908|NCT03575871|184503521|SUPERIORITY||Difference in LS mean|-31.4|||<|0.0001|TWO_SIDED|95.0|-43.1|-19.7|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-19.7|-43.1|<0.0001
92299909|NCT03575871|184503521|SUPERIORITY||Difference in LS mean|-44.7|||<|0.0001|TWO_SIDED|95.0|-56.4|-33.0|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-33.0|-56.4|<0.0001
92299910|NCT03575871|184503522|SUPERIORITY||Difference in LS mean|-26.5|||<|0.0001|TWO_SIDED|95.0|-35.5|-17.5|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-17.5|-35.5|<0.0001
92299911|NCT03575871|184503522|SUPERIORITY||Difference in LS mean|-34.1|||<|0.0001|TWO_SIDED|95.0|-43.1|-25.1|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-25.1|-43.1|<0.0001
92186255|NCT01094106|184271515|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||In a previous non-randomised study at our institution, the mean oxycodone consumption in the control group was 60.7 mg (SD, 22.2 mg) during the first 48 h after caesarean section. At α = 0.05, 31 patients would be needed in each group to achieve a power of 90% for detecting a 30% reduction in the need for rescue opioids, which we considered a clinically meaningful effect. We decided to enrol 70 patients. The final study population was 67 patients.||||0.10
92186256|NCT01094106|184271516|SUPERIORITY|||||||0.08||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores at rest, 0-6 h||||0.08
92299912|NCT03575871|184503522|SUPERIORITY||Difference in LS mean|-29.7|||<|0.0001|TWO_SIDED|95.0|-39.0|-20.4|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-20.4|-39.0|<0.0001
92299913|NCT03575871|184503522|SUPERIORITY||Difference in LS mean|-40.5|||<|0.0001|TWO_SIDED|95.0|-49.8|-31.1|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-31.1|-49.8|<0.0001
92299914|NCT03575871|184503522|SUPERIORITY||Difference in LS mean|-32.9|||<|0.0001|TWO_SIDED|95.0|-44.6|-21.2|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-21.2|-44.6|<0.0001
92299915|NCT03575871|184503522|SUPERIORITY||Difference in LS mean|-40.6|||<|0.0001|TWO_SIDED|95.0|-52.2|-28.9|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-28.9|-52.2|<0.0001
92299916|NCT03575871|184503522|SUPERIORITY||Difference in LS mean|-39.6|||<|0.0001|TWO_SIDED|95.0|-51.8|-27.4|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-27.4|-51.8|<0.0001
92299917|NCT03575871|184503522|SUPERIORITY||Difference in LS mean|-48.2|||<|0.0001|TWO_SIDED|95.0|-60.4|-36.0|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-36.0|-60.4|<0.0001
92186257|NCT01094106|184271516|SUPERIORITY|||||||0.86||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores at rest, 6-12 h||||0.86
92186258|NCT01094106|184271516|SUPERIORITY|||||||0.66||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores at rest, 12-24 h||||0.66
92299918|NCT03575871|184503523|SUPERIORITY||Difference in Percentage|1.9||||0.2353|TWO_SIDED|95.0|-2.2|6.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.0|-2.2|0.2353
92299919|NCT03575871|184503523|SUPERIORITY||Difference in Percentage|5.8||||0.0332|TWO_SIDED|95.0|0.8|10.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.8|0.8|0.0332
92299920|NCT03575871|184503523|SUPERIORITY||Difference in Percentage|6.5||||0.0227|TWO_SIDED|95.0|1.4|11.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.6|1.4|0.0227
92299921|NCT03575871|184503523|SUPERIORITY||Difference in Percentage|16.8||||0.0001|TWO_SIDED|95.0|10.1|23.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.5|10.1|0.0001
92299922|NCT03575871|184503523|SUPERIORITY||Difference in Percentage|14.5||||0.0008|TWO_SIDED|95.0|7.7|21.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||21.3|7.7|0.0008
92299923|NCT03575871|184503523|SUPERIORITY||Difference in Percentage|25.8|||<|0.0001|TWO_SIDED|95.0|18.1|33.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||33.4|18.1|<0.0001
92299924|NCT03575871|184503523|SUPERIORITY||Difference in Percentage|18.5||||0.0003|TWO_SIDED|95.0|10.5|26.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||26.5|10.5|0.0003
92299925|NCT03575871|184503523|SUPERIORITY||Difference in Percentage|30.2|||<|0.0001|TWO_SIDED|95.0|21.4|39.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||39.0|21.4|<0.0001
92299926|NCT03575871|184503524|SUPERIORITY||Difference in Percentage|12.7||||0.0011|TWO_SIDED|95.0|6.5|18.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||18.9|6.5|0.0011
92299927|NCT03575871|184503524|SUPERIORITY||Difference in Percentage|32.6|||<|0.0001|TWO_SIDED|95.0|24.6|40.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||40.6|24.6|<0.0001
92186259|NCT01094106|184271516|SUPERIORITY|||||||0.79||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores at rest, 24-36 h||||0.79
92186260|NCT01094106|184271516|SUPERIORITY|||||||0.2||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores at rest, 36-48 h||||0.20
92299928|NCT03575871|184503524|SUPERIORITY||Difference in Percentage|28.3|||<|0.0001|TWO_SIDED|95.0|18.5|38.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.2|18.5|<0.0001
92299929|NCT03575871|184503524|SUPERIORITY||Difference in Percentage|52.8|||<|0.0001|TWO_SIDED|95.0|43.2|62.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||62.5|43.2|<0.0001
92299930|NCT03575871|184503524|SUPERIORITY||Difference in Percentage|28.0|||<|0.0001|TWO_SIDED|95.0|17.0|39.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||39.0|17.0|<0.0001
92299931|NCT03575871|184503524|SUPERIORITY||Difference in Percentage|46.1|||<|0.0001|TWO_SIDED|95.0|35.2|57.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||57.1|35.2|<0.0001
92299932|NCT03575871|184503524|SUPERIORITY||Difference in Percentage|36.2|||<|0.0001|TWO_SIDED|95.0|25.4|47.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||47.1|25.4|<0.0001
92299933|NCT03575871|184503524|SUPERIORITY||Difference in Percentage|49.6|||<|0.0001|TWO_SIDED|95.0|38.9|60.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||60.3|38.9|<0.0001
92299934|NCT03575871|184503525|SUPERIORITY||Difference in Percentage|1.9||||0.2261|TWO_SIDED|95.0|-2.2|6.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.0|-2.2|0.2261
92299935|NCT03575871|184503525|SUPERIORITY||Difference in Percentage|5.2||||0.0451|TWO_SIDED|95.0|0.3|10.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.0|0.3|0.0451
92299936|NCT03575871|184503525|SUPERIORITY||Difference in Percentage|7.0||||0.0171|TWO_SIDED|95.0|1.8|12.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||12.3|1.8|0.0171
92299937|NCT03575871|184503525|SUPERIORITY||Difference in Percentage|17.7|||<|0.0001|TWO_SIDED|95.0|10.9|24.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||24.5|10.9|<0.0001
92299938|NCT03575871|184503525|SUPERIORITY||Difference in Percentage|11.5||||0.0018|TWO_SIDED|95.0|5.5|17.5||P-value was adjusted by randomization strata (baseline disease severity and age category)|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.5|5.5|0.0018
92299939|NCT03575871|184503525|SUPERIORITY||Difference in Percentage|25.7|||<|0.0001|TWO_SIDED|95.0|18.3|33.1||P-value was adjusted by randomization strata (baseline disease severity and age category)|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||33.1|18.3|<0.0001
92299940|NCT03575871|184503525|SUPERIORITY||Difference in Percentage|16.2||||0.0005|TWO_SIDED|95.0|8.8|23.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.6|8.8|0.0005
92299941|NCT03575871|184503525|SUPERIORITY||Difference in Percentage|27.6|||<|0.0001|TWO_SIDED|95.0|19.3|35.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.8|19.3|<0.0001
92299942|NCT03575871|184503526|SUPERIORITY||Difference in LS mean|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.3|-1.1|||Mixed Models Analysis|||Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.1|-2.3|<0.0001
92186261|NCT01094106|184271516|SUPERIORITY|||||||0.36||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores when moving, 0-6 h||||0.36
92186262|NCT01094106|184271516|SUPERIORITY|||||||0.43||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores when moving, 6-12 h||||0.43
92299943|NCT03575871|184503526|SUPERIORITY||Difference in LS mean|-2.9|||<|0.0001|TWO_SIDED|95.0|-3.5|-2.3|||Mixed Models Analysis|||Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-2.3|-3.5|<0.0001
92299944|NCT03575871|184503526|SUPERIORITY||Difference in LS mean|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.3|||Mixed Models Analysis|||Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.3|-2.6|<0.0001
92299945|NCT03575871|184503526|SUPERIORITY||Difference in LS mean|-3.1|||<|0.0001|TWO_SIDED|95.0|-3.8|-2.5|||Mixed Models Analysis|||Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-2.5|-3.8|<0.0001
92186263|NCT01094106|184271516|SUPERIORITY|||||||0.68||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores when moving, 12-24 h||||0.68
92299946|NCT03575871|184503526|SUPERIORITY||Difference in LS mean|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.3|-0.9|||Mixed Models Analysis|||Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-0.9|-2.3|<0.0001
92299947|NCT03575871|184503526|SUPERIORITY||Difference in LS mean|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.3|-1.9|||Mixed Models Analysis|||Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.9|-3.3|<0.0001
92299948|NCT03575871|184503526|SUPERIORITY||Difference in LS mean|-1.4||||0.0006|TWO_SIDED|95.0|-2.2|-0.6|||Mixed Models Analysis|||Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-0.6|-2.2|0.0006
92299949|NCT03575871|184503526|SUPERIORITY||Difference in LS mean|-2.2|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.4|||Mixed Models Analysis|||Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.4|-3.0|<0.0001
92186264|NCT01094106|184271516|SUPERIORITY|||||||0.37||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores when moving, 24-36 h||||0.37
92186265|NCT01094106|184271516|SUPERIORITY|||||||0.06||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores when moving, 36-48 h||||0.06
92299950|NCT03575871|184503527|SUPERIORITY||Difference in LS mean|-1.4|||<|0.0001|TWO_SIDED|95.0|-2.0|-0.8|||Mixed Models Analysis|||Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-0.8|-2.0|<0.0001
92299951|NCT03575871|184503527|SUPERIORITY||Difference in LS mean|-2.4|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.8|||Mixed Models Analysis|||Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.8|-3.0|<0.0001
92299952|NCT03575871|184503527|SUPERIORITY||Difference in LS mean|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.4|-1.2|||Mixed Models Analysis|||Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.2|-2.4|<0.0001
92299953|NCT03575871|184503527|SUPERIORITY||Difference in LS mean|-3.0|||<|0.0001|TWO_SIDED|95.0|-3.6|-2.3|||Mixed Models Analysis|||Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-2.3|-3.6|<0.0001
92299954|NCT03575871|184503527|SUPERIORITY||Difference in LS mean|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.3|-0.9|||Mixed Models Analysis|||Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-0.9|-2.3|<0.0001
92299955|NCT03575871|184503527|SUPERIORITY||Difference in LS mean|-2.4|||<|0.0001|TWO_SIDED|95.0|-3.1|-1.7|||Mixed Models Analysis|||Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.7|-3.1|<0.0001
92299956|NCT03575871|184503527|SUPERIORITY||Difference in LS mean|-0.9||||0.0164|TWO_SIDED|95.0|-1.7|-0.2|||Mixed Models Analysis|||Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-0.2|-1.7|0.0164
92299957|NCT03575871|184503527|SUPERIORITY||Difference in LS mean|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.0|||Mixed Models Analysis|||Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.0|-2.5|<0.0001
92299958|NCT03575871|184503528|SUPERIORITY||Difference in LS mean|-20.9|||<|0.0001|TWO_SIDED|95.0|-26.6|-15.1|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-15.1|-26.6|<0.0001
92299959|NCT03575871|184503528|SUPERIORITY||Difference in LS mean|-32.1|||<|0.0001|TWO_SIDED|95.0|-37.9|-26.4|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-26.4|-37.9|<0.0001
92186266|NCT01094106|184271517|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||0.30
92299960|NCT03575871|184503528|SUPERIORITY||Difference in LS mean|-21.6|||<|0.0001|TWO_SIDED|95.0|-28.1|-15.2|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-15.2|-28.1|<0.0001
92299961|NCT03575871|184503528|SUPERIORITY||Difference in LS mean|-35.9|||<|0.0001|TWO_SIDED|95.0|-42.3|-29.4|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-29.4|-42.3|<0.0001
92299962|NCT03575871|184503528|SUPERIORITY||Difference in LS mean|-19.4|||<|0.0001|TWO_SIDED|95.0|-26.8|-12.1|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-12.1|-26.8|<0.0001
92299963|NCT03575871|184503528|SUPERIORITY||Difference in LS mean|-33.6|||<|0.0001|TWO_SIDED|95.0|-41.0|-26.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-26.3|-41.0|<0.0001
92299964|NCT03575871|184503528|SUPERIORITY||Difference in LS mean|-23.1|||<|0.0001|TWO_SIDED|95.0|-32.3|-13.9|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-13.9|-32.3|<0.0001
92186267|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 4: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92299965|NCT03575871|184503528|SUPERIORITY||Difference in LS mean|-33.4|||<|0.0001|TWO_SIDED|95.0|-42.6|-24.3|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-24.3|-42.6|<0.0001
92299966|NCT02791893|184503545|SUPERIORITY|||||||0.47||||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA|||A power analysis was conducted with G\*Power, specifying a standard Type I error (α = .05) and desired power of .80. Results indicated that a total sample of 26 would be sufficient. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention pain severity was regressed on pre-intervention pain severity and condition, using an ANCOVA model.||||0.47
92186268|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186269|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92299967|NCT02791893|184503545|SUPERIORITY|||||||0.58||||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA|||Below are the results of the per protocol analysis. Patients that did not complete the assessment after the blinded phase are not included limiting the sample to 10 subjects in each condition (N=20). Post-intervention pain severity was regressed on pre-intervention pain severity and condition, using an ANCOVA model.||||0.58
92299968|NCT02791893|184503546|SUPERIORITY|||||||0.23||||||The a priori threshold for statistical significance was p = 0.05.|t-test, 2 sided|This was an independent t-test comparing the conditions on their perception of change since starting the intervention.||"A power analysis was conducted with G\*Power, specifying a standard Type I error (α = .05) and desired power of .80. Results indicated that a total sample of 26 would be sufficient. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the blinded phase were assigned a score of 1 indicating no change in their condition. Post-intervention PGIC scores were compared between conditions."||||0.23
92299969|NCT02791893|184503546|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.23|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|t-test, 2 sided|This was an independent t-test comparing the conditions on their perception of change since starting the intervention.|Condition difference = Active - Sham|Below are the results of the per protocol analysis. Post-intervention PGIC scores were compared between conditions.||||0.23
92299970|NCT02791893|184503547|SUPERIORITY||Mean Difference (Final Values)|12.88||||0.13|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA||Condition difference = Active - Sham|A power analysis was conducted with G\*Power, specifying a standard Type I error (α = .05) and desired power of .80. Results indicated that a total sample of 26 would be sufficient. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention physical function scores was regressed on pre-intervention physical function and condition, using an ANCOVA model.||||0.13
92186270|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|2.9|||||TWO_SIDED|95.0|-6.9|14.9||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||14.9|-6.9|
92299971|NCT02791893|184503547|SUPERIORITY||Mean Difference (Final Values)|10.5||||0.12|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA|||Below are the results of the per protocol analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention physical function scores was regressed on pre-intervention physical function and condition, using an ANCOVA model.||||0.12
92299972|NCT02791893|184503548|SUPERIORITY||Mean Difference (Final Values)|-5.71||||0.58|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA||Condition difference = Active - Sham|A power analysis was conducted with G\*Power, specifying a standard Type I error (α = .05) and desired power of .80. Results indicated that a total sample of 26 would be sufficient. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention headache days was regressed on pre-intervention headache days and condition, using an ANCOVA model.||||0.58
92299973|NCT02791893|184503548|SUPERIORITY||Mean Difference (Final Values)|-9.8||||0.49|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA||Condition difference = Active - Sham|Below are the results of the per protocol analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention headache days was regressed on pre-intervention headache days and condition, using an ANCOVA model.||||0.49
92299974|NCT02791893|184503549|SUPERIORITY||Mean Difference (Final Values)|-1.42||||0.18|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA||Condition difference = Active - Sham|A power analysis was conducted with G\*Power, specifying a standard Type I error (α = .05) and desired power of .80. Results indicated that a total sample of 26 would be sufficient. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention depression scores were regressed on pre-intervention depression scores and condition, using an ANCOVA model.||||0.18
92299975|NCT02791893|184503549|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.25|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA||Condition difference = Active - Sham|Below are the results of the per protocol analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention depression scores were regressed on pre-intervention depression scores and condition, using an ANCOVA model.||||0.25
92299976|NCT02791893|184503550|SUPERIORITY|||||||0.004||||||The a priori threshold for statistical significance was p = 0.05.|t-test, 2 sided|This was a dependent t-test comparing pre-intervention scores to the scores collected at the end of the open label phase.||Regardless of original condition assignment, patients' 2.5-month pain scores at the end of the open label phase were compared to their baseline scores using a dependent samples t-test. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the open-label phase had their most recent score carried forward. All patients included in this comparison received at least 10 weeks of VNS therapy.||||0.004
92299977|NCT02791893|184503550|SUPERIORITY|||||||0.005||||||This was a dependent t-test comparing baseline scores to the scores collected at the end of the open label phase.|t-test, 2 sided|||Regardless of original condition assignment, patients' 2.5-month pain scores at the end of the open label phase were compared to their baseline scores using a dependent samples t-test. Below are the results of the per protocol analysis. Patients that did not complete the assessment after the open-label phase were excluded. All patients included in this comparison received at least 10 weeks of VNS therapy.||||0.005
92299978|NCT04976621|184503603|OTHER|Because this was a feasibility study, we did not compute inferential statistics and did not include a power calculation.||||||||||||Because this was a feasibility study, inferential statistics were not computed.||||This feasibility study assessed preliminary evidence of treatment response. We have reported only descriptive statistics for quantitative findings. We have not reported inferential statistics, in keeping with the purpose of the VA SPiRE grant mechanism through which the study was funded. We assessed change in participant response by comparing the mean change in the outcome from baseline to follow-up in Group 1 (BA) and Group 2 (TAU). We inspected trends and directions of change in both groups.|Because this is a feasibility study, inferential statistics were not computed. We examined the trends and direction of change in the baseline mean score and follow-up mean score between the two groups.|||
92299979|NCT04976621|184503604|OTHER|||||||||||||||||This feasibility study assessed preliminary evidence of treatment response. We have reported only descriptive statistics for quantitative findings. We have not reported inferential statistics, in keeping with the purpose of the VA SPiRE grant mechanism through which the study was funded. We assessed change in participant response by comparing the mean change in the outcome from baseline to follow-up in Group 1 (BA) and Group 2 (TAU). We inspected trends and directions of change in both groups.|Because this is a feasibility study, inferential statistics were not computed. We examined the trends and direction of change in the baseline mean score and follow-up mean score between the two groups.|||
92299980|NCT04976621|184503605|OTHER|||||||||||||||||This feasibility study assessed preliminary evidence of treatment response. We have reported only descriptive statistics for quantitative findings. We have not reported inferential statistics, in keeping with the purpose of the VA SPiRE grant mechanism through which the study was funded. We assessed change in participant response by comparing the mean change in the outcome from baseline to follow-up in Group 1 (BA) and Group 2 (TAU). We inspected trends and directions of change in both groups.|Because this is a feasibility study, inferential statistics were not computed. We examined the trends and direction of change in the baseline mean score and follow-up mean score between the two groups.|||
92299981|NCT04976621|184503606|OTHER||||||||||||||||||Descriptive statistics are being used.|||
92299982|NCT04976621|184503607|OTHER|||||||||||||||||Descriptive statistics are used to describe acceptability/satisfaction for those who received the BA intervention. This tool is completed after the last intervention session when the qualitative interview is also conducted.|Descriptive statistics are used in this feasibility study. We are not using inferential statistics to test for statistical significance.|||
92299983|NCT04976621|184503608|OTHER||||||||||||||||||Descriptive statistics are used to describe recruitment.|||
92186271|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186272|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186273|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92299984|NCT04976621|184503609|OTHER||||||||||||||||||One measure of retention was the percent in each group who completed the study, meaning completed the Time 2 follow-up interview (that occurred 3-4 months after the baseline interview). Another measure of retention was the percent in the treatment group that completed four or more treatment sessions.|||
92186274|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92299985|NCT04976621|184503610|OTHER||||||||||||||||||For each of five participants who received the intervention, we reviewed a transcript of 1 intervention session for treatment fidelity. The criterion is that no more than 15% of sessions observed or audiotaped will have a mean less than 2.0.|||
92299986|NCT04323098|184503611|SUPERIORITY|||||||0.0057||||||P-value was based on two-sided t-test against 0.|t-test, 2 sided|||||||0.0057
92299987|NCT03208673|184503655|SUPERIORITY||Ratio of Geometric mean|0.5628||||0.001|TWO_SIDED|95.0|0.4395|0.7204|||t-test, 2 sided|||||0.7204|0.4395|.001
92299988|NCT03208673|184503656|SUPERIORITY|||||||0.025|||||||t-test, 1 sided|||Nasal||||0.025
92299989|NCT03208673|184503656|SUPERIORITY|||||||0.312|||||||t-test, 1 sided|||Temporal||||0.312
92299990|NCT03208673|184503657|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Comfort||||<0.001
92299991|NCT03208673|184503657|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Dry||||<0.001
92299992|NCT03208673|184503657|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Gritty||||<0.001
92186275|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|-2.2|||||TWO_SIDED|95.0|-15.7|10.9||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.9|-15.7|
92186276|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186277|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186278|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92299993|NCT03208673|184503657|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Vision||||<0.001
92299994|NCT03891329|184503659|OTHER|No comparison of two groups, just single arm design|SADE-free rate in the study group|0.98||||0.05|TWO_SIDED|95.0|0.9|1.0|||t-test, 2 sided|||"Serious Adverse Device Effects (SADE) possibly or securely related to the Cor Family devices until the 3- month follow-up are counted for this primary endpoint.~The following hypothesis has been defined:~Ho: SADE-free rate through 3 months post-implant ≤ 90.0% Ha: SADE-free rate through 3 months post-implant \> 90.0%"||1|0.9|0.05
92299995|NCT03891329|184503660|OTHER|Kaplan-Meier method|||||||||||||||||The Kaplan-Meier method will be applied to estimate the 3-month SADE-free rate at 92 days after implantation (sensitivity analysis of the primary endpoint) and the 12-month SADE-free rate at 365 days after implantation.|||
92299996|NCT03176784|184503663|SUPERIORITY||Odds Ratio (OR)|0.9||||0.66|TWO_SIDED|95.0|0.6|1.3|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.3|0.6|.66
92299997|NCT03176784|184503663|SUPERIORITY||Odds Ratio (OR)|1.0||||0.85|TWO_SIDED|95.0|0.7|1.4|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.4|0.7|.85
92299998|NCT03176784|184503663|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.7|1.4|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.4|0.7|1.00
92299999|NCT03176784|184503664|SUPERIORITY||Odds Ratio (OR)|1.2||||0.44|TWO_SIDED|95.0|0.8|1.7||Study site (Madison vs Milwaukee) was included as a covariate.|Regression, Logistic|||||1.7|0.8|.44
92300000|NCT03176784|184503664|SUPERIORITY||Odds Ratio (OR)|1.1||||0.61|TWO_SIDED|95.0|0.8|1.6|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.6|0.8|.61
92300001|NCT03176784|184503664|SUPERIORITY||Odds Ratio (OR)|1.4||||0.12|TWO_SIDED|95.0|0.9|2.0|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||2.0|0.9|.12
92300002|NCT03176784|184503665|SUPERIORITY||Odds Ratio (OR)|0.8||||0.43|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.3|0.5|.43
92300003|NCT03176784|184503665|SUPERIORITY||Odds Ratio (OR)|0.8||||0.37|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.3|0.5|.37
92300004|NCT03176784|184503665|SUPERIORITY||Odds Ratio (OR)|1.1||||0.81|TWO_SIDED|95.0|0.7|1.6|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.6|0.7|.81
92300005|NCT03176784|184503666|SUPERIORITY||Odds Ratio (OR)|0.9||||0.65|TWO_SIDED|95.0|0.6|1.3|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.3|0.6|.65
92300006|NCT03176784|184503666|SUPERIORITY||Odds Ratio (OR)|0.9||||0.6|TWO_SIDED|95.0|0.6|1.3|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.3|0.6|.60
92300007|NCT03176784|184503666|SUPERIORITY||Odds Ratio (OR)|1.0||||0.86|TWO_SIDED|95.0|0.7|1.5|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.5|0.7|.86
92300008|NCT02990806|184503667|EQUIVALENCE|A test for equivalence was carried out using an asymmetric margin (-12%, 15%) pre-specified in protocol and a two 1-sided test (TOST) analysis with α=0.05 for each 1-sided statistical test.|Percentage difference|3.6|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-4.3|11.5||||||||11.5|-4.3|
92300009|NCT04625062|184503702|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.72|TWO_SIDED||||||paired t-test, two-tailed|df = 6|Traditional treatment condition - biofeedback treatment condition|||||.72
92300010|NCT02654587|184503703|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|0.05|TWO_SIDED|95.0|0.38|0.91||OS in patients with ICI secondary resistance|t-test, 2 sided||p=0.017|||0.91|0.38|<0.05
92300011|NCT02654587|184503703|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.36|TWO_SIDED|95.0|0.62|1.19|||t-test, 2 sided|||OS in the ITT population with ICI resistance (primary and secondary resistance)||1.19|0.62|0.36
92300012|NCT02654587|184503704|SUPERIORITY||Hazard Ratio (HR)|0.46||||0.004|TWO_SIDED|95.0|0.27|0.79|||t-test, 2 sided|||Post-progression survival in patients with ICI secondary resistance||0.79|0.27|0.004
92300013|NCT02654587|184503704|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0035|TWO_SIDED|95.0|0.39|0.83|||t-test, 2 sided|||Post-progression survival in ITT population with ICI resistance (primary and secondary)||0.83|0.39|0.0035
92300014|NCT02654587|184503705|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.006|TWO_SIDED|95.0|0.23|0.8|||t-test, 2 sided|||Time to worsening ECOG PS \>1 in patients with ICI secondary resistance||0.80|0.23|0.006
92300015|NCT02654587|184503705|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.02|TWO_SIDED|95.0|0.35|0.92|||t-test, 2 sided|||Time to worsening ECOG PS in the ITT population with ICI resistance (primary and secondary)||0.92|0.35|0.02
92300016|NCT02654587|184503706|SUPERIORITY||P Value|0.045|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||QLQ C30 Global Health Status in Patients with ICI secondary resistance||||<0.05
92300017|NCT02654587|184503706|SUPERIORITY||P Value|0.07||||0.07|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Physical functioning in patients with ICI secondary resistance||||0.07
92300018|NCT02654587|184503706|SUPERIORITY||P Value|0.03|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Role functioning in patients with ICI secondary resistance||||<0.05
92186279|NCT00824850|184271526|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92300019|NCT02654587|184503706|SUPERIORITY||P Value|0.36||||0.36|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Emotional functioning in patients with ICI secondary resistance||||0.36
92300020|NCT02654587|184503706|SUPERIORITY||P Value|0.24||||0.24|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Cognitive functioning in patients with ICI secondary resistance||||0.24
92300021|NCT02654587|184503706|SUPERIORITY|QLQ-C30 Social functioning|P Value|0.11||||0.11|TWO_SIDED||||||Mixed Models Analysis|||||||0.11
92300022|NCT02654587|184503707|SUPERIORITY||P Value|0.06||||0.06|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Fatigue in ICI secondary resistance||||0.06
92300023|NCT02654587|184503707|SUPERIORITY||P Value|0.0003||||0.0003|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Constipation in ICI secondary resistance||||0.0003
92300024|NCT02654587|184503707|SUPERIORITY||P Value|0.8||||0.8|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Dyspnea in ICI secondary resistance||||0.80
92300025|NCT02654587|184503707|SUPERIORITY||P Value|0.21||||0.21|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Nausea and Vomiting in ICI secondary resistance||||0.21
92300026|NCT02654587|184503707|SUPERIORITY||P Value|0.45||||0.45|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Pain in ICI secondary resistance||||0.45
92300027|NCT02654587|184503707|SUPERIORITY||P Value|0.87||||0.87|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Insomnia in ICI secondary resistance||||0.87
92300028|NCT02654587|184503707|SUPERIORITY||P Value|0.59||||0.59|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Appetite loss in ICI secondary resistance||||0.59
92300029|NCT02654587|184503707|SUPERIORITY||P Value|0.88||||0.88|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Diarrhea in ICI secondary resistance||||0.88
92300030|NCT02654587|184503707|SUPERIORITY||P Value|0.37||||0.37|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Financial difficulties in ICI secondary resistance||||0.37
92300031|NCT02654587|184503708|SUPERIORITY||P Value|0.0001|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Alopecia in ICI secondary resistance||||<0.0001
92300032|NCT02654587|184503708|SUPERIORITY||P Value|0.03||||0.03|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC 13 Peripheral neuropathy in ICI secondary resistance||||0.03
92300033|NCT02654587|184503708|SUPERIORITY||P Value|0.01||||0.01|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Sore mouth in ICI secondary resistance||||0.01
92300034|NCT02654587|184503708|SUPERIORITY||P Value|0.01||||0.01|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Dysphagia in ICI secondary resistance||||0.01
92300035|NCT02654587|184503708|SUPERIORITY||P Value|0.35||||0.35|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Pain in arm and shoulder||||0.35
92186280|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|9.0|||||TWO_SIDED|95.0|-5.6|25.5||||||7vPnC serotype 4: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||25.5|-5.6|
92300036|NCT02654587|184503708|SUPERIORITY||P Value|0.43||||0.43|TWO_SIDED||||||Mantel Haenszel|||QLQ-LC13 Pain in chest in ICI secondary resistance||||0.43
92186281|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186282|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|2.9|||||TWO_SIDED|95.0|-6.9|14.9||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||14.9|-6.9|
92186283|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|5.7|||||TWO_SIDED|95.0|-4.2|19.2||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||19.2|-4.2|
92186284|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|3.1|||||TWO_SIDED|95.0|-9.3|17.0||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||17.0|-9.3|
92186285|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186286|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186287|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|2.9|||||TWO_SIDED|95.0|-6.9|14.9||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||14.9|-6.9|
92186288|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|6.9|||||TWO_SIDED|95.0|-7.4|23.4||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||23.4|-7.4|
92186289|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186290|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186291|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186292|NCT00824850|184271527|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186293|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.2|10.9||||||7vPnC serotype 4: difference in proportions, \[7vPnC / 13vPnC) - (MnCC / 13vPnC), expressed as a percentage, along with exact 2-sided confidence interval.||10.9|-10.2|
92186294|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
92186295|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186296|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186297|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92267031|NCT02203305|184435423|SUPERIORITY||||||<|0.242|||||||Mixed Models Analysis|Main effects: interval (p=0.003) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p=0.242).||Responses on the SSQ Qualities of Hearing pragmatic subscale over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.242
92267032|NCT02203305|184435423|OTHER|Bivariate pearson correlation||||||0.37|||||||bivariate pearson correlation|||Association of subjective benefit (Speech Subscale) at the preoperative interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||0.370
92267033|NCT02203305|184435423|OTHER|bivariate pearson correlation|||||=|0.865||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Speech Subscale) at the preoperative interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.865
92267034|NCT02203305|184435423|OTHER|bivariate pearson correlation|bivariate pearson correlation|0.6|||=|0.005|TWO_SIDED|||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Speech Subscale) at the 12-month interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.005
92300037|NCT02654587|184503708|SUPERIORITY||P Value|0.78||||0.78|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Pain in other parts||||0.78
92300038|NCT02654587|184503708|SUPERIORITY||P Value|0.23||||0.23|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC 13 Hemoptysis in ICI secondary resistance||||0.23
92300039|NCT02654587|184503708|SUPERIORITY||P Value|0.54||||0.54|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Coughing in ICI secondary resistance||||0.54
92300040|NCT02654587|184503709|SUPERIORITY||Odds Ratio (OR)|1.09||||0.87|TWO_SIDED|95.0|0.43|2.75|||Mantel Haenszel|||DCR at 6 months in patients with ICI secondary resistance||2.75|0.43|0.87
92300041|NCT02654587|184503709|SUPERIORITY||Odds Ratio (OR)|0.73||||0.37|TWO_SIDED|95.0|0.36|1.46|||Mantel Haenszel|||DCR at 6 months in ITT patients with ICI resistance (primary and secondary)||1.46|0.36|0.37
92300042|NCT02654587|184503710|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.29|TWO_SIDED|95.0|0.82|2.0|||t-test, 2 sided|||Median PFS in patients with ICI secondary resistance||2.0|0.82|0.29
92300043|NCT02654587|184503710|SUPERIORITY||Hazard Ratio (HR)|1.64|||<|0.05|TWO_SIDED|95.0|1.18|2.28|||t-test, 2 sided|||Median PFS in ITT patients with ICI resistance (primary and secondary)||2.28|1.18|<0.05
92300044|NCT02654587|184503711|SUPERIORITY|ORR in ICI secondary resistance|Odds Ratio (OR)|0.33||||0.07|TWO_SIDED|95.0|0.1|1.11|||Mantel Haenszel|||||1.11|0.10|0.07
92300045|NCT02654587|184503711|SUPERIORITY|ORR in ITT population with ICI resistance (primary and secondary)|Odds Ratio (OR)|0.22||||0.002|TWO_SIDED|95.0|0.08|0.59|||Mantel Haenszel|||||0.59|0.08|0.002
92300046|NCT02654587|184503712|SUPERIORITY|Duration of response at 6 months in ICI secondary resistance|Hazard Ratio (HR)|1.14||||0.88|TWO_SIDED|95.0|0.25|5.3|||Regression, Cox|||||5.30|0.25|0.88
92300047|NCT02654587|184503712|SUPERIORITY|Duration of Response at 6 months in ITT population with ICI resistance (primary and secondary)|Hazard Ratio (HR)|1.41||||0.57|TWO_SIDED|95.0|0.43|4.6|||Regression, Cox|||||4.60|0.43|0.57
92186298|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|8.0||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||8.0|-13.9|
92186299|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
92300048|NCT02654587|184503713|SUPERIORITY|Time to next lung cancer therapy in ICI secondary resistance|Hazard Ratio (HR)|1.85||||0.04|TWO_SIDED|95.0|1.03|3.31|||Regression, Cox|||||3.31|1.03|0.04
92300049|NCT02654587|184503713|SUPERIORITY|Time to next lung cancer therapy in ITT population with ICI resistance (primary and secondary)|Hazard Ratio (HR)|1.59||||0.02|TWO_SIDED|95.0|1.07|2.36|||Regression, Cox|||||2.36|1.07|0.02
92300050|NCT02654587|184503714|SUPERIORITY||Hazard Ratio (HR)|1.36|||<|0.05|TWO_SIDED|95.0|1.0|1.86|||t-test, 2 sided|||||1.86|1.00|<0.05
92300051|NCT00904748|184503721|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20.0%.|ratio between geometric means|98.68|||||TWO_SIDED|90.0|92.03|105.82|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 1 study treatment (chewable without water) and reference study treatment (coated with water).||105.82|92.03|
92300052|NCT00904748|184503721|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20.0%.|ratio between geometric means|97.23|||||TWO_SIDED|90.0|90.67|104.26|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 2 study treatment (chewable with water) and reference study treatment (coated with water).||104.26|90.67|
92300053|NCT00904748|184503722|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20%.|ratio between geometric means|80.83|||||TWO_SIDED|90.0|72.38|90.26|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 1 study treatment (chewable without water) and reference study treatment (coated with water).||90.26|72.38|
92300054|NCT00904748|184503722|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20%.|ratio between geometric means|78.76|||||TWO_SIDED|90.0|70.53|87.96|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 2 study treatment (chewable with water) and reference study treatment (coated with water).||87.96|70.53|
92300055|NCT00904748|184503723|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20.0%.|ratio between geometric means|99.12|||||TWO_SIDED|90.0|92.76|105.93|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 1 study treatment (chewable without water) and reference study treatment (coated with water).||105.93|92.76|
92300056|NCT00904748|184503723|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20.0%.|ratio between geometric means|97.84|||||TWO_SIDED|90.0|91.56|104.56|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 2 study treatment (chewable with water) and reference study treatment (coated with water).||104.56|91.56|
92186300|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|2.9|||||TWO_SIDED|95.0|-6.7|15.3||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||15.3|-6.7|
92186301|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186302|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|0.9|||||TWO_SIDED|95.0|-15.0|17.6||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||17.6|-15.0|
92300057|NCT00904748|184503724|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|90.0|-0.14|0.5|||ANOVA|||Difference in Tmax between Test 1 study treatment (chewable without water) and reference study treatment (coated with water).||0.50|-0.14|
92300058|NCT00904748|184503724|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|90.0|-0.27|0.28|||ANOVA|||Difference in Tmax between Test 2 study treatment (chewable with water) and reference study treatment (coated with water).||0.28|-0.27|
92300059|NCT01682148|184503727|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a responder rate (π) of 63% in the reference group, a clinically relevant delta (Δ) of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|-0.1673||||0.0986|TWO_SIDED|95.0|-0.363|0.0284||Based on a generalised linear model including factors for treatment.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.0284|-0.3630|0.0986
92186303|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186304|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
92186305|NCT00824850|184271528|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|7.6||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||7.6|-13.9|
92186306|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|8.0||||||7vPnC serotype 4: difference in proportions, \[7vPnC / 13vPnC) - (MnCC / 13vPnC), expressed as a percentage, along with exact 2-sided confidence interval.||8.0|-13.9|
92186307|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.2|10.6||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.6|-10.2|
92267035|NCT02203305|184435423|OTHER|bivariate pearson correlation|bivariate pearson correlation|0.67|||=|0.006|TWO_SIDED|||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Speech Subscale) at the 12-month interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.006
92267036|NCT02203305|184435423|OTHER|bivariate pearson correlation|bivariate pearson correlation|-0.33|||=|0.152|TWO_SIDED||||||bivariate pearson correlation|||Association of subjective benefit (Spatial Subscale) at the preoperative interval and sound source localization (RMS error).||||=0.152
92267037|NCT02203305|184435423|OTHER|bivariate pearson correlation|||||=|0.761|||||||bivariate pearson correlation|||Association of subjective benefit (Spatial Subscale) at the preoperative interval and sound source localization (RMS error).||||=0.761
92267038|NCT02203305|184435423|OTHER|bivariate pearson correlation|||||=|0.315|||||||bivariate pearson correlation|||Association of subjective benefit (Spatial Subscale) at the 12-month interval and sound source localization (RMS error).||||=0.315
92267039|NCT02203305|184435423|OTHER|bivariate pearson correlation|||||=|0.666|||||||bivariate pearson correlation|||Association of subjective benefit (Spatial Subscale) at the 12-month interval and sound source localization (RMS error).||||=0.666
92267040|NCT02203305|184435423|SUPERIORITY||||||>|0.175|||||||Mixed Models Analysis|Main effects: cohort (p=0.912), interval (p=0.463), and subscale (p=0.483). Interactions: 2-way or 3-way (p\>0.175).||Comparison of subjective benefit between groups (UHL/SSD and AHL) on the speech, spatial, and qualities of hearing subscales during the post-activation intervals (1, 3, 6, 9, and 12 months).||||>0.175
92267041|NCT02203305|184435424|SUPERIORITY||||||<|0.161||||||"Significant effect of interval (p=0.046) and of condition (p\<0.001) and a non-significant interaction (p=0.161).~Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis."|Mixed Models Analysis|Main effects: interval (p=0.046) and condition (p\<0.001). Interaction: interval and condition (p=0.161).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.161
92267042|NCT02203305|184435424|SUPERIORITY||||||>|0.107||||||"Significant effect of condition (p\<0.001) and the interaction (p\<0.001). Non-significant effect of interval (p=0.107).~Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis."|Mixed Models Analysis|Main effects: condition (p\<0.001) and interval p=0.107). Interaction of condition and interval (p\<0.001).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||>0.107
92267043|NCT02203305|184435424|SUPERIORITY||||||<|0.001||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||<0.001
92267044|NCT02203305|184435424|SUPERIORITY||||||<|0.001||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||<0.001
92267045|NCT02203305|184435424|OTHER|bivariate pearson correlation|||||=|0.58||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of age at implantation and speech recognition in noise at the 12-month interval with the cochlear implant, analyzed with a Bivariate Pearson correlation.||||=0.580
92267046|NCT02203305|184435424|SUPERIORITY||||||<|0.743||||||A logit transformation was applied to proportion correct data prior to analysis.|Mixed Models Analysis|Effects: SNR (p=0.026) \& masker condition (p\<0.001). Interactions: cohort \& condition (p\<0.001), interval \& condition (p=0.015). Others (p\>0.140).||Comparison of speech recognition between groups (UHL/SSD and AHL) for the three masker configurations (noise towards the better hearing ear, noise towards the poorer hearing ear, and noise from the front) and signal-to-noise ratio (SNR; 0, 5, or 10 dB SNR) over the post-activation intervals (1, 3, 6, 9, and 12 months).||||<0.743
92267047|NCT02203305|184435424|OTHER|pearson correlation|||||=|0.036||||||Percent correct converted to rationalized arcsine units (RAU) prior to analysis.|bivariate pearson correlation|||Association of word recognition and speech recognition in noise, analyzed with a Bivariate Pearson correlation. Scores were averaged between 3 and 12 months post-activation as an estimate of asymptotic performance.||||=0.036
92300060|NCT01682148|184503727|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|-0.1673||||0.5682|TWO_SIDED|95.0|-0.363|0.0284||Based on a generalised linear model including factors for spasticity pattern.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.0284|-0.3630|0.5682
92300061|NCT01682148|184503727|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|-0.1673||||0.8543|TWO_SIDED|5.0|-0.363|0.0284||Based on a generalised linear model including factors for country.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.0284|-0.3630|0.8543
92300062|NCT01682148|184503727|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|-0.1673||||0.9167|TWO_SIDED|95.0|-0.363|0.0284||Based on a generalised linear model including factors for MAS at Baseline.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.0284|-0.3630|0.9167
92300063|NCT01682148|184503727|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|0.0707||||0.6052|TWO_SIDED|95.0|-0.1948|0.3362||Based on a generalised linear model including factors for treatment.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.3362|-0.1948|0.6052
92300064|NCT01682148|184503727|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|0.0707||||0.5369|TWO_SIDED|95.0|-0.1948|0.3362||Based on a generalised linear model including factors for spasticity pattern.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.3362|-0.1948|0.5369
92300065|NCT01682148|184503727|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|0.0707||||0.7732|TWO_SIDED|95.0|-0.1948|0.3362||Based on a generalised linear model including factors for country.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.3362|-0.1948|0.7732
92300066|NCT01682148|184503727|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|0.0707||||0.1758|TWO_SIDED|95.0|-0.1948|0.3362||Based on a generalised linear model including factors for MAS at Baseline.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.3362|-0.1948|0.1758
92300067|NCT01682148|184503729|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|-0.1324||||0.24|TWO_SIDED|95.0|-0.3531|0.0884||Based on a generalised linear model including factors for treatment, spasticity pattern, country and MAS baseline score.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.0884|-0.3531|0.2400
92300068|NCT01682148|184503730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9448|TWO_SIDED|95.0|||||ANOVA|Analysis of variance (ANOVA) included factors for treatment, spasticity pattern and country, and Baseline VAS as a covariate.||Mean change in VAS from Baseline to Week 4.||||0.9448
92300069|NCT01682148|184503730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5458|||||||ANOVA|ANOVA included factors for treatment, spasticity pattern and country, and Baseline VAS as a covariate.||Mean change in VAS from Baseline to Week 12.||||0.5458
92300070|NCT01682148|184503731|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4006|||||||ANOVA|ANOVA included factors for treatment, spasticity pattern and country.||||||0.4006
92300071|NCT01682148|184503732|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5747|||||||Mann-Whitney U-test|||||||0.5747
92300072|NCT01682148|184503733|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1802|||||||Mann-Whitney U-test|||||||0.1802
92300073|NCT04844021|184503756|OTHER|We used a multiple hypothesis testing framework to evaluate the effectiveness of Nudge+ vs. Nudge, considering: 1) Nudge+ is more effective than Nudge by over 10 percentage points (PP); 2) Nudge+ is as effective as Nudge, with a difference of no greater than 10 PP in either direction; and 3) Nudge+ is less effective than Nudge by over 10 PP. The 10 PP margin was selected based on discussions with health system leaders and previous studies to ensure the differences were clinically meaningful.|Marginal probability|0.22|||||TWO_SIDED|95.0|0.13|0.31||If the 95% confidence interval for the risk difference did not contain any values within a region (Nudge+ superior, equivalence, Nudge+ inferior), that region could be rejected.||||The primary analysis involved fitting generalized estimating equations (GEE) with a binomial distribution and logit link to estimate reach (primary endpoint) for Nudge and Nudge+ along with the risk difference between conditions.||0.31|0.13|
92300074|NCT04844021|184503756|OTHER|We used a multiple hypothesis testing framework to evaluate the effectiveness of Nudge+ vs. Nudge, considering: 1) Nudge+ is more effective than Nudge by over 10 percentage points (PP); 2) Nudge+ is as effective as Nudge, with a difference of no greater than 10 PP in either direction; and 3) Nudge+ is less effective than Nudge by over 10 PP. The 10 PP margin was selected based on discussions with health system leaders and previous studies to ensure the differences were clinically meaningful.|Marginal probability|0.49|||||TWO_SIDED|95.0|0.37|0.61||If the 95% confidence interval for the risk difference did not contain any values within a region (Nudge+ superior, equivalence, Nudge+ inferior), that region could be rejected.||||The primary analysis involved fitting generalized estimating equations (GEE) with a binomial distribution and logit link to estimate reach (primary endpoint) for Nudge and Nudge+ along with the risk difference between conditions.||0.61|0.37|
92300075|NCT01103479|184503765|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.65||||0.32|TWO_SIDED|95.0|0.62|4.38||Random effects model adjusting for clustering by clinic|Mixed Models Analysis|||||4.38|0.62|0.32
92300076|NCT01103479|184503766|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8||||0.28|TWO_SIDED|95.0|0.53|1.2||Linear model adjusting for stratification by clinic and participant age|Mixed Models Analysis|||||1.20|0.53|0.28
92300077|NCT01103479|184503767|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.43||||0.42|TWO_SIDED|95.0|0.6|3.43||Random effects model adjusted for clustering by clinic|Mixed Models Analysis|||||3.43|0.60|0.42
92300078|NCT01103479|184503768|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.05||||0.38|TWO_SIDED|95.0|0.94|1.18||Linear model adjusting for stratification by clinic and participant age|Mixed Models Analysis|||||1.18|0.94|0.38
92300079|NCT01298778|184503773|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||acute pain scores with movement at 24 hours||||0.05
92300080|NCT02377921|184503781|SUPERIORITY||Least Squares (LS) Mean Difference|0.74||||0.5387|TWO_SIDED|95.0|-1.61|3.09||Generalized estimating equation (GEE) model includes change from Baseline (BL) as dependent variable, visit, treatment and visit by treatment as fixed factors, and BL values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference = Ace-ER - placebo|||3.09|-1.61|0.5387
92300081|NCT02377921|184503782|SUPERIORITY||LS Mean Difference|-0.4||||0.6938|TWO_SIDED|95.0|-2.38|1.58||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference = Ace-ER - placebo|||1.58|-2.38|0.6938
92300082|NCT02377921|184503783|SUPERIORITY||LS Mean Difference|-1.49||||0.5023|TWO_SIDED|95.0|-5.83|2.86||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference = Ace-ER - placebo|||2.86|-5.83|0.5023
92300083|NCT02377921|184503784|SUPERIORITY||LS Mean Difference|-0.72||||0.2739|TWO_SIDED|95.0|-2.01|0.57||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference = Ace-ER - placebo|||0.57|-2.01|0.2739
92300084|NCT02377921|184503785|SUPERIORITY||LS Mean Difference|-2.76||||0.1235|TWO_SIDED|95.0|-6.27|0.75||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference: Ace-ER 6 g/day - placebo|||0.75|-6.27|0.1235
92300085|NCT02377921|184503786|SUPERIORITY||LS Mean Difference|-0.43||||0.3907|TWO_SIDED|95.0|-1.4|0.55||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference: Ace-ER 6 g/day - placebo|||0.55|-1.40|0.3907
92300086|NCT02377921|184503787|OTHER||LS Mean Difference|-10.98||||0.1964|TWO_SIDED|95.0|-27.64|5.68||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference: Ace-ER 6 g/day - placebo|||5.68|-27.64|0.1964
92186308|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186309|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.3||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.5|
92300087|NCT02377921|184503788|SUPERIORITY||LS Mean Difference|-1.4||||0.2241|TWO_SIDED|95.0|-3.66|0.86||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference: Ace-ER - placebo|||0.86|-3.66|0.2241
92300088|NCT02377921|184503789|OTHER||LS Mean Difference|-0.32||||0.5608|TWO_SIDED|95.0|-1.39|0.75||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference: Ace-ER 6 g/day - placebo|||0.75|-1.39|0.5608
92300089|NCT02443545|184503798|OTHER|One-sample t-test, to determine whether the change from baseline in LIC was significantly different from 0.||||||0|||||||t-test, 2 sided|||Change from baseline after 1 year of deferiprone therapy||||0.0000
92186310|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
92186311|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|-2.8|||||TWO_SIDED|95.0|-16.8|10.1||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-16.8|
92186312|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|3.0|||||TWO_SIDED|95.0|-9.1|16.6||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||16.6|-9.1|
92186313|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|2.9|||||TWO_SIDED|95.0|-7.1|15.0||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||15.0|-7.1|
92300090|NCT02443545|184503798|OTHER|One-sample t-test, to determine whether the change from baseline in LIC was significantly different from 0.||||||0|||||||t-test, 2 sided|||Change from baseline after 2 years of deferiprone therapy||||0.0000
92300091|NCT02443545|184503798|OTHER|One-sample t-test, to determine whether the change from baseline in LIC was significantly different from 0.||||||0|||||||t-test, 2 sided|||Change from baseline after 3 years of deferiprone therapy||||0.0000
92300092|NCT02443545|184503799|OTHER|One-sample t-test, to determine whether the change from baseline in MRI T2\* was significantly different from 0.||||||0.3146|||||||t-test, 2 sided|||Change from baseline after 1 year of deferiprone therapy||||0.3146
92300093|NCT02443545|184503799|OTHER|One-sample t-test, to determine whether the change from baseline in MRI T2\* was significantly different from 0.||||||0.9454|||||||t-test, 2 sided|||Change from baseline after 2 years of deferiprone therapy||||0.9454
92300094|NCT02443545|184503799|OTHER|One-sample t-test, to determine whether the change from baseline in MRI 2\* was significantly different from 0.||||||0.4336|||||||t-test, 2 sided|||Change from baseline after 3 years of deferiprone therapy||||0.4336
92300095|NCT02443545|184503800|OTHER|One-sample t-test, to determine whether the change from baseline in serum ferritin was significantly different from 0||||||0.9952|||||||t-test, 2 sided|||Change from baseline after 1 year of deferiprone therapy||||0.9952
92300096|NCT02443545|184503800|OTHER|One-sample t-test, to determine whether the change from baseline in serum ferritin was significantly different from 0||||||0.0008|||||||t-test, 2 sided|||Change from baseline after 2 years of deferiprone therapy||||0.0008
92300097|NCT02443545|184503800|OTHER|One-sample t-test, to determine whether the change from baseline in serum ferritin was significantly different from 0||||||0.042|||||||t-test, 2 sided|||Change from baseline after 3 years of deferiprone therapy||||0.0420
92186314|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|8.0||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||8.0|-13.9|
92186315|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|1.2|||||TWO_SIDED|95.0|-14.8|18.2||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||18.2|-14.8|
92300098|NCT02139124|184503806|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.675|TWO_SIDED|95.0|-6.6|2.6||The model includes terms for treatment and baseline Clinician ADHD-5-RS score as a covariate.|ANCOVA|Analyses utilize ANCOVA models with Dunnett's adjustments for multiple pairwise comparisons for each active dose group with placebo.||"The null hypothesis is the mean Clinician ADHD-5-RS total score at Visit 6 is not different between the active treatment and placebo."||2.6|-6.6|0.6750
92300099|NCT02139124|184503806|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.0013|TWO_SIDED|95.0|-11.5|-2.2||The model includes terms for treatment and baseline Clinician ADHD-5-RS score as a covariate.|ANCOVA|Analyses utilize ANCOVA models with Dunnett's adjustments for multiple pairwise comparisons for each active dose group with placebo.||The null hypothesis is the mean Clinician ADHD-5-RS total score at Visit 6 is not different between the active treatment and placebo||-2.2|-11.5|0.0013
92186316|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186317|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|3.0|||||TWO_SIDED|95.0|-6.8|15.8||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||15.8|-6.8|
92186318|NCT00824850|184271529|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|7.6||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||7.6|-13.9|
92186319|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|29.47|||||TWO_SIDED|95.0|17.61|49.33|||||Confidence intervals (CI) for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: Geometric mean fold rises (GMFRs) were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||49.33|17.61|
92300100|NCT02139124|184503806|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.672|TWO_SIDED|95.0|-6.8|2.7||The model includes terms for treatment and baseline Clinician ADHD-5-RS score as a covariate.|ANCOVA|Analyses utilize ANCOVA models with Dunnett's adjustments for multiple pairwise comparisons for each active dose group with placebo.||"The null hypothesis is the mean Clinician ADHD-5-RS total score at Visit 6 is not different between the active treatment and placebo"||2.7|-6.8|0.6720
92300101|NCT02139124|184503806|SUPERIORITY||Mean Difference (Final Values)|-8.1||||0.0002|TWO_SIDED|95.0|-12.9|-3.2||The model include terms for treatment and baseline Clinician ADHD-5-RS score as a covariate.|ANCOVA|Analyses utilize ANCOVA models with Dunnett's adjustments for multiple pairwise comparisons for each active dose group with placebo.||"The null hypothesis is the mean Clinician ADHD-5-RS total score at Visit 6 is not different between the active treatment and placebo"||-3.2|-12.9|0.0002
92300102|NCT00560937|184503826|SUPERIORITY_OR_OTHER|||||||0.048|||||||t-test, 2 sided|||T-test of change scores, pregnenolone vs. placebo post-treatment compared to baseline.||||.048
92300103|NCT00560937|184503827|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||t-test, 2 sided|||||||0.79
92300104|NCT00560937|184503828|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||t-test, 2 sided|||||||0.22
92300105|NCT00560937|184503829|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||T-test of change scores, pregnenolone compared to placebo post-treatment vs. pre-randomization.||||1.0
92300106|NCT00560937|184503830|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||t-test, 2 sided|||||||0.014
92300107|NCT03078478|184503832|SUPERIORITY||Treatment rate ratio|0.88||||0.1715|TWO_SIDED|95.0|0.73|1.06|||Regression, Cox|||The number of episodes is analysed using a negative binomial regression model (log link) with the logarithm of the time period in which a hypoglycaemic episode was considered treatment emergent as offset. The model includes treatment, number of OADs, region, sex and dosing time as fixed factors, and age as a covariate. Missing values are imputed through multiple imputation by treatment arm, based on a Poisson model.||1.06|0.73|0.1715
92300108|NCT03821272|184503872|SUPERIORITY||non-recurrence rate|0.45||||0.31|TWO_SIDED|95.0|0.17|0.77|||Fisher Exact|||||0.77|0.17|0.31
92300109|NCT03821272|184503873|SUPERIORITY||non-recurrence rate|0.8||||0.31|TWO_SIDED|95.0|0.28|0.99|||Fisher Exact|||||0.99|0.28|0.31
92300110|NCT03821272|184503874|SUPERIORITY||non-recurrence rate|0.56||||0.58|TWO_SIDED|95.0|0.21|0.86|||Fisher Exact|||||0.86|0.21|0.58
92300111|NCT03821272|184503875|SUPERIORITY||non-recurrence rate|0.8||||0.58|TWO_SIDED|95.0|0.28|0.99|||Fisher Exact|||||0.99|0.28|0.58
92300112|NCT02516410|184503885|SUPERIORITY||Least squares (LS) mean difference|1.2|||=|0.1176|TWO_SIDED|95.0|-0.3|2.6|||Mixed-effect repeated measure (MMRM)|||||2.6|-0.3|= 0.1176
92300113|NCT01286558|184503897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46||||||95.0|-0.22|3.14|||ANCOVA|||||3.14|-0.22|
92300114|NCT01286558|184503898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.14||||||95.0|-0.36|4.64|||ANCOVA|||||4.64|-0.36|
92300115|NCT01286558|184503899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||||95.0|-2.58|0.15|||ANCOVA|||||0.15|-2.58|
92300116|NCT01286558|184503900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||||95.0|-4.16|0.35|||ANCOVA|||||0.35|-4.16|
92300117|NCT01286558|184503901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89||||||95.0|-2.57|0.79|||ANCOVA|||||0.79|-2.57|
92300118|NCT01286558|184503902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.64||||||95.0|-4.27|0.99|||ANCOVA|||||0.99|-4.27|
92300119|NCT01287039|184503921|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio (reslizumab vs placebo)|0.501|||<|0.0001|TWO_SIDED|95.0|0.3726|0.6737||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||0.6737|0.3726|<0.0001
92300120|NCT01287039|184503922|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.137|STANDARD_ERROR_OF_MEAN|0.0311|<|0.0001|TWO_SIDED|95.0|0.076|0.198|||Mixed Model Repeated Measures|||For each week and overall change, inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment and sex as fixed factors, and covariates for height and baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures.||0.198|0.076|<0.0001
92300121|NCT01287039|184503923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.238|STANDARD_ERROR_OF_MEAN|0.0967||0.0143|TWO_SIDED|95.0|0.048|0.428|||Mixed model repeated measures|||For each week and overall change, inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment and sex as fixed factors, and covariates for height and baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures.||0.428|0.048|0.0143
92300122|NCT01287039|184503924|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.266|STANDARD_ERROR_OF_MEAN|0.0681||0.0001|TWO_SIDED|95.0|-0.399|-0.132|||Mixed model repeated measures|||For each week and overall change, inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment and sex as fixed factors, and covariates for height and baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures.||-0.132|-0.399|0.0001
92300123|NCT01287039|184503925|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.575|||<|0.0001|TWO_SIDED|95.0|0.44|0.75|||Regression, Cox|Stratified by baseline usage of oral corticosteroid (yes or no) and geographical region (US or other).|Reslizumab vs placebo|Kaplan-Meier estimate of probability (5) of not experiencing a CAE by week 52. The first CAEs for each patient occurring after randomization and up to 2 weeks after the end of treatment period were analyzed. Patients without a CAE within this time frame were censored at two weeks after the treatment completion date or study discontinuation, whichever came first.||0.750|0.440|<0.0001
92300124|NCT01287039|184503926|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.0125|<|0.0001|TWO_SIDED|95.0|0.034|0.083|||Mixed model repeated measures|||For each week, inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment as fixed factor, and covariate baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures.||0.083|0.034|<0.0001
92300125|NCT01287039|184503927|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.276|STANDARD_ERROR_OF_MEAN|0.1632||0.0919|TWO_SIDED|95.0|-0.597|0.045|||Mixed model repeated measures|||Inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, OCS use at enrollment as fixed factors, and covariate for baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures.||0.045|-0.597|0.0919
92300126|NCT01287039|184503928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.466|STANDARD_ERROR_OF_MEAN|0.0244|<|0.0001|TWO_SIDED|95.0|-0.514|-0.418|||Mixed model repeated measures|||"Eosinophil Count Over 16 Weeks~Inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment as fixed factor, and covariate baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures."||-0.418|-0.514|<0.0001
92300127|NCT01287039|184503928|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.455|STANDARD_ERROR_OF_MEAN|0.0182|<|0.0001|TWO_SIDED|95.0|-0.491|-0.419|||Mixed model repeated measures|||"Eosinophil Count Over 52 Weeks~Inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment as fixed factor, and covariate baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures."||-0.419|-0.491|<0.0001
92300128|NCT01287039|184503930|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio (reslizumab vs placebo)|0.4499|||<|0.0001|TWO_SIDED|95.0|0.3255|0.622||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||CAE Due to Requiring Systemic Corticosteroids The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||0.6220|0.3255|<0.0001
92186320|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.34|||||TWO_SIDED|95.0|8.49|15.13|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||15.13|8.49|
92300129|NCT01287039|184503930|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio (reslizumab vs placebo)|0.6595||||0.2572|TWO_SIDED|95.0|0.321|1.355||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||CAE Due to Hospitalization or ER visit The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||1.3550|0.3210|0.2572
92300130|NCT02678442|184503977|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92300131|NCT02678442|184503979|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92300132|NCT02678442|184503980|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92300133|NCT02678442|184503981|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||.001
92300134|NCT01117337|184503994|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Fisher Exact|||||||0.2
92186321|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.58|||||TWO_SIDED|95.0|4.06|7.67|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||7.67|4.06|
92186322|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|71.09|||||TWO_SIDED|95.0|40.74|124.08|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||124.08|40.74|
92186323|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.91|||||TWO_SIDED|95.0|4.92|12.73|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||12.73|4.92|
92186324|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.56|||||TWO_SIDED|95.0|2.87|7.26|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||7.26|2.87|
92186325|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.85|||||TWO_SIDED|95.0|4.51|10.42|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||10.42|4.51|
92186326|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.1|||||TWO_SIDED|95.0|6.98|17.64|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||17.64|6.98|
92186327|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.68|||||TWO_SIDED|95.0|1.37|2.07|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.07|1.37|
92186328|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.52|2.9|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.90|1.52|
92300135|NCT01117337|184503995|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Fisher Exact|||||||0.56
92300136|NCT01746264|184503996|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||P-value for change from baseline to 3 month follow-up.||||0.59
92300137|NCT01746264|184503997|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow up visit.||||<0.001
92300138|NCT01746264|184503998|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||<0.01
92300139|NCT01746264|184504000|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.32
92300140|NCT01746264|184504001|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3-month follow-up.||||0.21
92300141|NCT01746264|184504002|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.02
92300142|NCT01746264|184504003|SUPERIORITY_OR_OTHER|||||||0.0123|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.0123
92300143|NCT01746264|184504004|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.09
92300144|NCT01746264|184504005|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.27
92300145|NCT01746264|184504006|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.18
92300146|NCT01746264|184504007|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.33
92300147|NCT01746264|184504008|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.05
92300148|NCT01746264|184504009|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.41
92186329|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.7|||||TWO_SIDED|95.0|4.77|12.42|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||12.42|4.77|
92300149|NCT01746264|184504010|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.32
92300150|NCT01746264|184504011|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.47
92300151|NCT04060719|184504027|OTHER|No formal hypotheses were tested.|Adjusted Geometric Mean Ratio T/R [%]|10.48|||||TWO_SIDED|90.0|9.74|11.28|||Mixed Models Analysis|Mixed effects model on the logarithmic scale including effects for 'subject' (random) and 'treatment' (fixed).|Confidence intervals were calculated based on the residual error from the mixed effects model. Ratio is calculated as Test/Reference. Intra-individual geometric coefficient of variation (gCV) = 11.8.|Relative bioavailability||11.28|9.74|
92300152|NCT04060719|184504028|OTHER|No formal hypotheses were tested.|Adjusted Geometric Mean Ratio T/R [%]|30.03|||||TWO_SIDED|90.0|25.76|35.02|||Mixed Models Analysis|Mixed effects model on the logarithmic scale including effects for 'subject' (random) and 'treatment' (fixed).|Confidence intervals were calculated based on the residual error from the mixed effects model. Ratio is calculated as Test/Reference. Intra-individual geometric coefficient of variation (gCV) = 25.2.|Relative bioavailability||35.02|25.76|
92300153|NCT04060719|184504029|OTHER|No formal hypotheses were tested.|Adjusted Geometric Mean Ratio T/R [%]|10.39|||||TWO_SIDED|90.0|9.66|11.18|||Mixed Models Analysis|Mixed effects model on the logarithmic scale including effects for 'subject' (random) and 'treatment' (fixed).|Confidence intervals were calculated based on the residual error from the mixed effects model. Ratio is calculated as Test/Reference. Intra-individual geometric coefficient of variation (gCV) = 11.8.|Relative bioavailability||11.18|9.66|
92300154|NCT03998436|184504030|SUPERIORITY||Odds Ratio (OR)|2.126||||0.0276|TWO_SIDED|95.0|1.08|4.17|||Chi-squared|||||4.17|1.08|0.0276
92300155|NCT03998436|184504031|SUPERIORITY||Odds Ratio (OR)|2.708||||0.0126|TWO_SIDED|95.0|1.22|5.99|||Chi-squared|||||5.99|1.22|0.0126
92300156|NCT00350402|184504085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.254|STANDARD_ERROR_OF_MEAN|2.028|<|0.001|TWO_SIDED|95.0|3.147|11.362|||t-test, 2 sided|df = 38; t = 3.576|Treatment effect size: Cohen's D =1.142|Hypothesis: Parkinson patients assigned to high intensity IMST will show greater improvement in facial movement (entropy) relative to those undergoing Sham IMST.||11.362|3.147|< 0.001
92300157|NCT00350402|184504086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.36|STANDARD_ERROR_OF_MEAN|4.955|<|0.459|TWO_SIDED|95.0|-16.41|3.68|||t-test, 2 sided|||Hypothesis: Scores on PDQ-39 would show bigger change for the IMST group than the Sham treatment group. The sample size was not powered for the PDQ-39 (but rather for the primary outcome variable).||3.68|-16.41|<0.459
92300158|NCT00350402|184504087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.426|STANDARD_ERROR_OF_MEAN|4.221|<|0.018|TWO_SIDED|95.0|1.874|18.978|||t-test, 2 sided|t-value = 2.47, with 37 df||Hypothesis: Changes in MIP following treatment would be greater for participants in the IMST versus the Sham treatment group. This is a validity check on for the IMST intervention.||18.978|1.874|<0.018
92300159|NCT00350402|184504088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.129|STANDARD_ERROR_OF_MEAN|2.492|<|0.047|TWO_SIDED|95.0|0.0834|10.17||No adjustment necessary|t-test, 2 sided|38 df, t= 2.058 However, due to inequality of variance (Levine test), the adjusted p-value = \<0.049, and adjusted df = 27.3||Hypothesis: Facial entropy changes would be greater in IMST group than sham treatment group. Sample size was based on preliminary data suggesting total N of 40 would be adequate for detecting change in entropy (of approximately 50%).||10.17|.0834|<0.047
92300160|NCT00645944|184504090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.039|TWO_SIDED|95.0|-7.5|-0.2|||Mixed Models Analysis|||||-0.2|-7.5|0.039
92186330|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.2|||||TWO_SIDED|95.0|4.95|10.48|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||10.48|4.95|
92300161|NCT04070287|184504108|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92300162|NCT04070287|184504109|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92300163|NCT04070287|184504110|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92186331|NCT00824850|184271530|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.02|||||TWO_SIDED|95.0|2.23|4.1|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||4.10|2.23|
92300164|NCT04070287|184504111|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92300165|NCT04070287|184504112|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92300166|NCT04070287|184504113|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92300167|NCT00606502|184504114|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.84|||||TWO_SIDED|95.0|0.61|1.14||||||||1.14|0.61|
92300168|NCT03069417|184504165|SUPERIORITY|Conducted at post-treatment time point.||||||0.11|||||||Mixed Models Analysis|||||||0.11
92300169|NCT03069417|184504165|SUPERIORITY|Conducted at 3-month follow-up time point.||||||0.56|||||||Mixed Models Analysis|||||||0.56
92300170|NCT03069417|184504166|SUPERIORITY|Main effect for time calculated at 3-month follow-up time point.|Fixed effects coefficient (β)|-12.7|||<|0.05|TWO_SIDED|95.0|-22.29|-3.15||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||-3.15|-22.29|< 0.05
92300171|NCT03069417|184504167|SUPERIORITY|Interaction evaluated at post-treatment time point.|Fixed effects coefficient (β)|-11.1|||<|0.005|TWO_SIDED|95.0|-18.41|-3.83||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||-3.83|-18.41|< 0.005
92300172|NCT03069417|184504167|SUPERIORITY|Main effect for time at 3-month follow-up time point.|Fixed effects coefficient (β)|-13.8|||<|0.005|TWO_SIDED|95.0|-22.5|-5.17||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||-5.17|-22.50|< 0.005
92300173|NCT03069417|184504169|SUPERIORITY|Main effect for condition.|Fixed effects coefficient (β)|-10.1|||<|0.05|TWO_SIDED|95.0|-19.58|-0.67||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||-0.67|-19.58|< 0.05
92300174|NCT03069417|184504169|SUPERIORITY|Main effect for time at post-treatment time point.|Fixed effects coefficient (β)|-12.8|||<|0.01|TWO_SIDED|95.0|-22.14|-3.37||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||-3.37|-22.14|< 0.01
92300175|NCT03069417|184504170|SUPERIORITY|Main effect for condition.|Fixed effects coefficient (β)|6.2|||<|0.05|TWO_SIDED|95.0|0.5|11.88||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||11.88|0.50|< 0.05
92300176|NCT00440115|184504171|SUPERIORITY|Power calculations demonstrated that 250 participants per group would have 95% power to compare combined high-intensity disease management and moderate-intensity disease management with pharmacotherapy management, on the basis of 10% (pharmacotherapy management), 15% (moderate-intensity disease management), and 25% (high-intensity disease management) self-reported quit rates.|Odds Ratio (OR)|1.12||||0.54|TWO_SIDED|95.0|0.78|1.61|||Mixed Models Analysis||(High-intensity disease management and moderate-intensity disease management) vs pharmacotherapy management|||1.61|0.78|0.54
92300177|NCT00440115|184504171|SUPERIORITY|Power calculations indicated that 250 participants per group would have 80% power to compare high-intensity disease management and moderate-intensity disease management with pharmacotherapy management, on the basis of 10% (pharmacotherapy management), 15% (moderate-intensity disease management), and 25% (high-intensity disease management) self-reported quit rates.|Odds Ratio (OR)|1.33||||0.18|TWO_SIDED|95.0|0.88|2.02|||Mixed Models Analysis||High-intensity disease management vs moderate-intensity disease management|||2.02|0.88|0.18
92300178|NCT03360539|184504182|SUPERIORITY||Adjusted between-group difference|0.5|||||TWO_SIDED|95.0|-2.1|3.1|||||Adjusted between-group difference in the percentage of participants|||3.1|-2.1|
92300179|NCT03360539|184504183|SUPERIORITY||Adjusted between-group difference|0.4|||||TWO_SIDED|95.0|-2.3|3.0|||||Adjusted between-group difference in the percentage of participants|||3.0|-2.3|
92300180|NCT03360539|184504184|SUPERIORITY||Adjusted between-group difference|-1.1|||||TWO_SIDED|95.0|-2.9|0.8|||||Adjusted between-group difference in the percentage of participants|||0.8|-2.9|
92300181|NCT03360539|184504185|SUPERIORITY||Adjusted between-group difference|0.7|||||TWO_SIDED|95.0|-1.5|2.9|||||Adjusted between-group difference in the percentage of participants|||2.9|-1.5|
92300182|NCT03360539|184504186|SUPERIORITY||Adjusted between-group difference|-0.9|||||TWO_SIDED|95.0|-2.3|0.4|||||Adjusted between-group difference in the percentage of participants|||0.4|-2.3|
92300183|NCT03360539|184504187|SUPERIORITY||Adjusted between-group difference|-0.4|||||TWO_SIDED|95.0|-2.4|1.6|||||Adjusted between-group difference in the percentage of participants|||1.6|-2.4|
92300184|NCT03360539|184504188|SUPERIORITY||Adjusted between-group difference|-0.7|||||TWO_SIDED|95.0|-1.6|0.3|||||Adjusted between-group difference in the percentage of participants|||0.3|-1.6|
92300185|NCT03360539|184504189|SUPERIORITY||Adjusted between-group difference|-7.8|||||TWO_SIDED|95.0|-43.7|28.0|||||Adjusted between-group difference, in grams|||28.0|-43.7|
92300186|NCT03360539|184504190|SUPERIORITY||Adjusted between-group difference|-0.5|||||TWO_SIDED|95.0|-2.4|1.3|||||Adjusted between-group difference in the percentage of participants|||1.3|-2.4|
92300187|NCT03360539|184504191|SUPERIORITY||Adjusted between-group difference|0.0|||||TWO_SIDED|95.0|-0.6|0.5|||||Adjusted between-group difference in the percentage of participants|||0.5|-0.6|
92186332|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|19.68|||||TWO_SIDED|95.0|9.99|38.77|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||38.77|9.99|
92186333|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.7|||||TWO_SIDED|95.0|3.9|8.33|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||8.33|3.90|
92186334|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.78|||||TWO_SIDED|95.0|2.16|3.57|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.57|2.16|
92300188|NCT03360539|184504192|SUPERIORITY||Adjusted between-group difference|0.1|||||TWO_SIDED|95.0|0.0|0.2|||||Adjusted between-group difference, in weeks|||0.2|0.0|
92300189|NCT03360539|184504193|SUPERIORITY||Adjusted between-group difference|0.3|||||TWO_SIDED|95.0|-0.3|0.8|||||Adjusted between-group difference in the percentage of participants|||0.8|-0.3|
92300190|NCT03360539|184504194|SUPERIORITY||Adjusted between-group difference|-0.8|||||TWO_SIDED|95.0|-2.5|0.9|||||Adjusted between-group difference in the percentage of participants|||0.9|-2.5|
92300191|NCT03360539|184504195|SUPERIORITY||Adjusted between-group difference|0.7|||||TWO_SIDED|95.0|-1.1|2.4|||||Adjusted between-group difference in the percentage of participants|||2.4|-1.1|
92300192|NCT03360539|184504196|SUPERIORITY||Adjusted between-group difference|-2.0|||||TWO_SIDED|95.0|-4.7|0.7|||||Adjusted between-group difference in the percentage of participants|||0.7|-4.7|
92300193|NCT03360539|184504197|SUPERIORITY||Adjusted between-group difference|0.2|||||TWO_SIDED|95.0|-0.5|0.9|||||Adjusted between-group difference in the percentage of participants|||0.9|-0.5|
92300194|NCT03360539|184504201|SUPERIORITY||Adjusted between-group difference|-0.3|||||TWO_SIDED|95.0|-3.2|2.5|||||Adjusted between-group difference in the percentage of participants|||2.5|-3.2|
92300195|NCT03360539|184504202|SUPERIORITY||Adjusted between-group difference|-0.66|||||TWO_SIDED|95.0|-3.0|1.7|||||Adjusted between-group difference in the percentage of participants|||1.7|-3.0|
92300196|NCT03360539|184504203|SUPERIORITY||Adjusted between-group difference|1.01|||||TWO_SIDED|95.0|0.95|1.08|||||Adjusted between-group difference, in number of visits|||1.08|0.95|
92186335|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|23.46|||||TWO_SIDED|95.0|13.17|41.79|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||41.79|13.17|
92300197|NCT03360539|184504204|SUPERIORITY||Adjusted between-group difference|2.47|||||TWO_SIDED|95.0|0.1|4.9|||||Adjusted between-group difference in the percentage of participants|||4.9|0.1|
92300198|NCT03360539|184504205|SUPERIORITY||Adjusted between-group difference|0.44|||||TWO_SIDED|95.0|-2.1|3.0|||||Adjusted between-group difference in the percentage of participants|||3.0|-2.1|
92300199|NCT03360539|184504207|SUPERIORITY||Adjusted between-group difference|-0.12|||||TWO_SIDED|95.0|-3.1|2.9|||||Adjusted between-group difference in the percentage of participants|||2.9|-3.1|
92300200|NCT03360539|184504208|SUPERIORITY||Adjusted between-group difference|0.65|||||TWO_SIDED|95.0|-2.4|3.7|||||Adjusted between-group difference in the percentage of participants|||3.7|-2.4|
92300201|NCT03360539|184504209|SUPERIORITY||Adjusted between-group difference|-4.18|||||TWO_SIDED|95.0|-8.0|-0.4|||||Adjusted between-group difference in the percentage of participants|||-0.4|-8.0|
92300202|NCT03360539|184504217|SUPERIORITY||Adjusted between-group difference|0.2|||||TWO_SIDED|95.0|-2.4|2.8|||||Adjusted between-group difference in the percentage of participants|||2.8|-2.4|
92300203|NCT03360539|184504218|SUPERIORITY||Adjusted between-group difference|0.1|||||TWO_SIDED|95.0|-1.1|1.3|||||Adjusted between-group difference in the percentage of participants|||1.3|-1.1|
92300204|NCT03360539|184504219|SUPERIORITY||Adjusted between-group difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1|||||Adjusted between-group difference, in number of injuries|||0.1|-0.1|
92300205|NCT03360539|184504220|SUPERIORITY||Adjusted between-group difference|-2.7|||||TWO_SIDED|95.0|-5.3|-0.1|||||Adjusted between-group difference in the percentage of participants|||-0.1|-5.3|
92300206|NCT03360539|184504221|SUPERIORITY||Adjusted between-group difference|-0.3|||||TWO_SIDED|95.0|-0.7|0.1|||||Adjusted between-group difference, in number of visits|||0.1|-0.7|
92186336|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|13.68|||||TWO_SIDED|95.0|8.94|20.92|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||20.92|8.94|
92186337|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.98|||||TWO_SIDED|95.0|6.21|12.97|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||12.97|6.21|
92300207|NCT03360539|184504222|SUPERIORITY||Adjusted between-group difference|0.3|||||TWO_SIDED|95.0|-0.4|1.0|||||Adjusted between-group difference in the percentage of participants|||1.0|-0.4|
92300208|NCT03360539|184504223|SUPERIORITY||Adjusted between-group difference|2.3|||||TWO_SIDED|95.0|-0.4|5.0|||||Adjusted between-group difference in the percentage of participants|||5.0|-0.4|
92186338|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|9.0|||||TWO_SIDED|95.0|5.91|13.72|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||13.72|5.91|
92300209|NCT03360539|184504224|SUPERIORITY||Adjusted between-group difference|0.5|||||TWO_SIDED|95.0|-2.3|3.2|||||Adjusted between-group difference in the percentage of participants|||3.2|-2.3|
92300210|NCT03360539|184504225|SUPERIORITY||Adjusted between-group difference|-0.7|||||TWO_SIDED|95.0|-3.4|2.0|||||Adjusted between-group difference in the percentage of participants|||2.0|-3.4|
92300211|NCT03360539|184504226|SUPERIORITY||Adjusted between-group difference|1.7|||||TWO_SIDED|95.0|-1.0|4.5|||||Adjusted between-group difference in the percentage of participants|||4.5|-1.0|
92300212|NCT03360539|184504227|SUPERIORITY||Adjusted between-group difference|0.2|||||TWO_SIDED|95.0|-2.6|3.1|||||Adjusted between-group difference in the percentage of participants|||3.1|-2.6|
92300213|NCT03360539|184504228|SUPERIORITY||Adjusted between-group difference|-0.3|||||TWO_SIDED|95.0|-2.4|1.7|||||Adjusted between-group difference in the percentage of participants|||1.7|-2.4|
92300214|NCT03360539|184504229|SUPERIORITY||Adjusted between-group difference|-0.7|||||TWO_SIDED|95.0|-1.9|0.6|||||Adjusted between-group difference in the percentage of participants|||0.6|-1.9|
92300215|NCT03360539|184504231|SUPERIORITY||Adjusted between-group difference|-1.5|||||TWO_SIDED|95.0|-4.3|1.3|||||Adjusted between-group difference in the percentage of participants|||1.3|-4.3|
92300216|NCT03360539|184504232|SUPERIORITY||Adjusted between-group difference|-0.7|||||TWO_SIDED|95.0|-3.4|2.0|||||Adjusted between-group difference in the percentage of participants|||2.0|-3.4|
92300217|NCT03360539|184504233|SUPERIORITY||Adjusted between-group difference|0.8|||||TWO_SIDED|95.0|-1.0|2.7|||||Adjusted between-group difference in the percentage of participants|||2.7|-1.0|
92300218|NCT03360539|184504234|SUPERIORITY||Adjusted between-group difference|-0.4|||||TWO_SIDED|95.0|-3.0|2.2|||||Adjusted between-group difference in the percentage of participants|||2.2|-3.0|
92300219|NCT03360539|184504235|SUPERIORITY||Adjusted between-group difference|0.1|||||TWO_SIDED|95.0|-2.6|2.9|||||Adjusted between-group difference in the percentage of participants|||2.9|-2.6|
92300220|NCT03360539|184504236|SUPERIORITY||Adjusted between-group difference|0.5|||||TWO_SIDED|95.0|-1.5|2.6|||||Adjusted between-group difference in the percentage of participants|||2.6|-1.5|
92300221|NCT03360539|184504237|SUPERIORITY||Adjusted between-group difference|0.13|||||TWO_SIDED|95.0|-0.1|0.37|||||Adjusted between-group difference, in months|||0.37|-0.1|
92300222|NCT03360539|184504238|SUPERIORITY||Adjusted between-group difference|0.03|||||TWO_SIDED|95.0|-0.45|0.5|||||Adjusted between-group difference, in months|||0.5|-0.45|
92300223|NCT03360539|184504239|SUPERIORITY||Adjusted between-group difference|2.1|||||TWO_SIDED|95.0|0.3|4.0|||||Adjusted between-group difference in the percentage of participants|||4.0|0.3|
92300224|NCT03360539|184504240|SUPERIORITY||Adjusted between-group difference|0.6|||||TWO_SIDED|95.0|0.1|1.1|||||Adjusted between-group difference, in months|||1.1|0.1|
92300225|NCT03360539|184504241|SUPERIORITY||Adjusted between-group difference|1.1|||||TWO_SIDED|95.0|-0.7|3.0|||||Adjusted between-group difference in the percentage of participants|||3.0|-0.7|
92186339|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.58|||||TWO_SIDED|95.0|5.36|10.72|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||10.72|5.36|
92186340|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.56|||||TWO_SIDED|95.0|1.3|1.86|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1.86|1.30|
92300226|NCT03545191|184504242|OTHER||LS mean difference to placebo|-12.2|||<|0.0001|TWO_SIDED|95.0|-17.435|-6.961||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in WASO (min) to Month 1 (Daridorexant 25 mg vs placebo).||-6.961|-17.435|<0.0001
92300227|NCT03545191|184504242|OTHER||LS mean difference to placebo|-22.78|||<|0.0001|TWO_SIDED|95.0|-27.996|-17.567||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in WASO (min) to Month 1 (Daridorexant 50 mg vs placebo).||-17.567|-27.996|<0.0001
92300228|NCT03545191|184504243|OTHER||LS mean difference to placebo|-11.86|||<|0.0001|TWO_SIDED|95.0|-17.494|-6.23||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in WASO (min) to Month 3 (Daridorexant 25 mg vs placebo).||-6.23|-17.494|<0.0001
92300229|NCT03545191|184504243|OTHER||LS mean difference to placebo|-18.3|||<|0.0001|TWO_SIDED|95.0|-23.945|-12.661||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in WASO (min) to Month 3 (Daridorexant 50 mg vs placebo).||-12.661|-23.945|<0.0001
92300230|NCT03545191|184504244|OTHER||LS mean difference to placebo|-8.32||||0.0005|TWO_SIDED|95.0|-13.014|-3.629||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in LPS (min) to Month 1 (Daridorexant 25 mg vs placebo).||-3.629|-13.014|0.0005
92300231|NCT03545191|184504244|OTHER||LS mean difference to placebo|-11.35|||<|0.0001|TWO_SIDED|95.0|-16.022|-6.687||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in LPS (min) to Month 1 (Daridorexant 50 mg vs placebo).||-6.687|-16.022|<0.0001
92300232|NCT03545191|184504245|OTHER||LS mean difference to placebo|-7.59||||0.0015|TWO_SIDED|95.0|-12.265|-2.923||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in LPS (min) to Month 3 (Daridorexant 25 mg vs placebo).||-2.923|-12.265|0.0015
92300233|NCT03545191|184504245|OTHER||LS mean difference to placebo|-11.67|||<|0.0001|TWO_SIDED|95.0|-16.348|-6.994||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in LPS (min) to Month 3 (Daridorexant 50 mg vs placebo).||-6.994|-16.348|<0.0001
92300234|NCT03545191|184504246|OTHER||LS mean difference to placebo|12.62|||=|0.0013|TWO_SIDED|95.0|4.953|20.288||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in sTST (min) to Month 1 (Daridorexant 25 mg vs placebo).||20.288|4.953|= 0.0013
92186341|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.93|||||TWO_SIDED|95.0|1.43|2.6|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.60|1.43|
92186342|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.46|||||TWO_SIDED|95.0|3.09|6.45|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||6.45|3.09|
92186343|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.32|||||TWO_SIDED|95.0|3.65|7.75|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||7.75|3.65|
92300235|NCT03545191|184504246|OTHER||LS mean difference to placebo|22.06|||<|0.0001|TWO_SIDED|95.0|14.405|29.708||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in sTST (min) to Month 1 (Daridorexant 25 mg vs placebo).||29.708|14.405|< 0.0001
92300236|NCT03545191|184504247|OTHER||LS mean difference to placebo|9.93|||=|0.0334|TWO_SIDED|95.0|0.782|19.082||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in sTST (min) to Month 3 (Daridorexant 25 mg vs placebo).||19.082|0.782|= 0.0334
92300237|NCT03545191|184504247|OTHER||LS mean difference to placebo|19.77|||<|1e-05|TWO_SIDED|95.0|10.623|28.918||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in sTST (min) to Month 3 (Daridorexant 50 mg vs placebo).||28.918|10.623|< .00001
92186344|NCT00824850|184271531|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.27|||||TWO_SIDED|95.0|2.49|4.28|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||4.28|2.49|
92300238|NCT03545191|184504248|OTHER||LS mean difference to placebo|-0.75|||=|0.0547|TWO_SIDED|95.0|-1.515|0.015||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 1 (Daridorexant 25 mg vs placebo).||0.015|-1.515|= 0.0547
92300239|NCT03545191|184504248|OTHER||LS mean difference to placebo|-1.75|||<|1e-05|TWO_SIDED|95.0|-2.508|-0.983||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 1 (Daridorexant 50 mg vs placebo).||-0.983|-2.508|< .00001
92300240|NCT03545191|184504249|OTHER||LS mean difference to placebo|-0.99||||0.0534|TWO_SIDED|95.0|-1.99|0.014||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 3 (Daridorexant 25 mg vs placebo).||0.014|-1.990|0.0534
92300241|NCT03545191|184504249|OTHER||LS mean difference to placebo|-1.9|||=|0.0002|TWO_SIDED|95.0|-2.905|-0.905|||Mixed Models Analysis|||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 3 (Daridorexant 50 mg vs placebo).||-0.905|-2.905|= 0.0002
92186345|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|15.86|||||TWO_SIDED|95.0|9.16|27.46|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||27.46|9.16|
92186346|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.01|||||TWO_SIDED|95.0|3.5|7.16|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||7.16|3.50|
92186347|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.86|||||TWO_SIDED|95.0|2.93|5.09|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||5.09|2.93|
92186348|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|17.57|||||TWO_SIDED|95.0|11.11|27.79|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||27.79|11.11|
92186349|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.22|||||TWO_SIDED|95.0|2.86|6.23|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||6.23|2.86|
92186350|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.54|||||TWO_SIDED|95.0|1.78|3.62|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.62|1.78|
92186351|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.21|||||TWO_SIDED|95.0|2.86|6.19|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||6.19|2.86|
92186352|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.23|||||TWO_SIDED|95.0|2.79|6.42|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||6.42|2.79|
92186353|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.63|||||TWO_SIDED|95.0|1.3|2.05|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.05|1.30|
92300242|NCT03545191|184504250|OTHER||LSGM ratio to placebo|0.79||||0.0003|TWO_SIDED|95.0|0.7|0.9||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 1 (Daridorexant 25 mg vs placebo).||0.90|0.70|0.0003
92300243|NCT03545191|184504250|OTHER||LSGM ratio to placebo|0.73|||<|0.0001|TWO_SIDED|95.0|0.65|0.82||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 1 (Daridorexant 50 mg vs placebo).||0.82|0.65|<0.0001
92300244|NCT03545191|184504251|OTHER||LSGM ratio to placebo|0.78||||0.0002|TWO_SIDED|95.0|0.68|0.89||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 3 (Daridorexant 25 mg vs placebo).||0.89|0.68|0.0002
92300245|NCT03545191|184504251|OTHER||LSGM ratio to placebo|0.73|||<|0.0001|TWO_SIDED|95.0|0.64|0.83||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 3 (Daridorexant 50 mg vs placebo).||0.83|0.64|<0.0001
92300246|NCT03179163|184504255|OTHER||Mean Difference (Net)|0.01|||=|0.01|TWO_SIDED||||||ANOVA|||A priori power analysis (power = 0.80,a= 0.05) confirmed a sample size of n= 10 was needed to determine a meaningful difference of 10% in the (flux/MAP)\*logAch(mol/L) . All data were analyzed with repeated-measures ANOVA . When appropriate, post hoc Tukey-Kramer corrections were applied to correct for multiple comparisons. Significance was set a priori at a\<0.05.||||=0.01
92300247|NCT01277718|184504258|SUPERIORITY_OR_OTHER||Ratio of Least Squares (LS) Means (in %)|111.0|||||TWO_SIDED|90.0|98.02|124.99|||||LS mean was calculated from Analysis of variance (ANOVA). Data for AUCinf were natural log-transformed prior to analysis. Ratio of AUCinf LS means for log-transformed parameter (expressed as a percent).|||124.99|98.02|
92300248|NCT01277718|184504258|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|96.2|||||TWO_SIDED|90.0|85.06|108.77|||||LS mean was calculated from ANOVA. Data for AUCinf were natural log-transformed prior to analysis. Ratio of AUCinf LS means for log-transformed parameter (expressed as a percent).|||108.77|85.06|
92300249|NCT01277718|184504258|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|106.0|||||TWO_SIDED|90.0|94.53|119.91|||||LS mean was calculated from ANOVA. Data for AUCinf were natural log-transformed prior to analysis. Ratio of AUCinf LS means for log-transformed parameter (expressed as a percent).|||119.91|94.53|
92300250|NCT01277718|184504259|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|100.0|||||TWO_SIDED|90.0|85.09|118.03|||||LS mean was calculated from ANOVA. Data for Cmax were natural log-transformed prior to analysis. Ratio of Cmax LS means for log-transformed parameter (expressed as a percent).|||118.03|85.09|
92300251|NCT01277718|184504259|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|85.7|||||TWO_SIDED|90.0|72.51|101.33|||||LS mean was calculated from ANOVA. Data for Cmax were natural log-transformed prior to analysis. Ratio of Cmax LS means for log-transformed parameter (expressed as a percent).|||101.33|72.51|
92300252|NCT01277718|184504259|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|85.9|||||TWO_SIDED|90.0|72.94|101.17|||||LS mean was calculated from ANOVA. Data for Cmax were natural log-transformed prior to analysis. Ratio of Cmax LS means for log-transformed parameter (expressed as a percent).|||101.17|72.94|
92300253|NCT03919162|184504264|SUPERIORITY||Difference LS Mean|0.058|STANDARD_ERROR_OF_MEAN|0.048||0.2261|TWO_SIDED|95.0|-0.036|0.152||"Null hypothesis was that there was no difference in change of ABC score between the PQ912 and Placebo group after 24 weeks of treatment.~P-values \<0.05 were considered to be statistically significant."|Mixed Models Analysis|Fixed effect covariates: APOE status, initial diagnosis, site, baseline ABC score, time, treatment group, and time by treatment group interaction.|Treatment difference = PQ912 - Placebo|Initially after Phase 2A, a futility analysis was planned with a sample size of 90 participants per treatment group to test the 1-sided hypothesis that the rate of decrease of ABC score is greater for the PQ912 group than for the Placebo group. The test should be carried out at a 1-sided 40% significance level, using the mixed effects model. Due to early termination of the study and limited sample size, analysis of Phase 2A data was done in the same manner as final analysis of Phase 2B data.||0.152|-0.036|0.2261
92300254|NCT03919162|184504265|SUPERIORITY||Difference LS Mean|-0.00526|STANDARD_ERROR_OF_MEAN|0.00742||0.4814|TWO_SIDED|95.0|-0.02017|0.00964||"Null hypothesis was that there was no difference in change of EEG theta power between the PQ912 and Placebo groups after 24 weeks of treatment.~Tests were declared statistically significant if the calculated p-value was ≤ 0.05."|Mixed Models Analysis|Fixed effect covariates: APOE status, initial diagnosis, site, baseline qEEG data, time, treatment group, and time by treatment group interaction.|Treatment difference = PQ912 - Placebo|"Initially after Phase 2A, a futility analysis was planned with a sample size of 90 participants per treatment group to test the hypothesis that increase in EEG theta power is greater for Placebo than for PQ912 (1-sided, alpha = 0.05). Higher theta power is worse; hence this alternative hypothesis indicates benefit of the drug.~Due to early termination of the study and limited sample size, analysis of Phase 2A data was done in the same manner as final analysis of Phase 2B data."||0.00964|-0.02017|0.4814
92300255|NCT03919162|184504266|SUPERIORITY||Difference LS Mean|-0.05|STANDARD_ERROR_OF_MEAN|0.49||0.9135|TWO_SIDED|95.0|-1.03|0.92||Tests were declared statistically significant if the calculated p-value is ≤ 0.05.|Mixed Models Analysis|Fixed effect covariates: APOE status, initial diagnosis, site, baseline CDR-SB score, time, treatment group, and time by treatment group interaction.|Treatment difference = PQ912 - Placebo|Null hypothesis is that there was no difference in the change of CDR-SB scores between the PQ912 and the Placebo arms. The primary analysis used a mixed model for repeated measures (MMRM) with within-participant change in CDR-SB score as the outcome. The study planned with 207 participants (including 25% drop-out) per group to have 80% power to detect an effect size of 0.7 points in CDR-SB score. Power calculation was based on a 2-sided t-test with significance level of 0.05.||0.92|-1.03|0.9135
92300256|NCT03919162|184504267|SUPERIORITY||Difference LS Mean|0.969|STANDARD_ERROR_OF_MEAN|2.14||0.6528|TWO_SIDED|95.0|-3.345|5.238||The secondary analysis used a mixed model for repeated measures (MMRM) with the within-participant change compared between active arm and placebo in CFC2 as the outcome.|Mixed Models Analysis|Fixed effect covariates: APOE status, initial diagnosis, site, baseline CFC2, time, treatment group, time by treatment group interaction.|Treatment difference = PQ912 - Placebo|A hierarchical approach is taken: The key secondary CFC2 follows the primary endpoint (Clinical Dementia Rating - Sum of Boxes), if it is statistically significant, followed by the remaining secondary endpoints in the order defined per Statistical Analysis Plan. Hierarchical testing is stopped as soon as a non-significant result is encountered. If the primary hypothesis is met, then a test for a statistically significant difference will be conducted for the CFC2, however at 4% significance level||5.238|-3.345|0.6528
92300257|NCT03919162|184504268|SUPERIORITY||Difference LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.101||0.3241|TWO_SIDED|95.0|-0.103|0.303||The secondary analysis used a mixed model for repeated measures (MMRM) with the within-participant change compared between active arm and placebo in ABC as the outcome.|Mixed Models Analysis|Fixed effect covariates: APOE status, initial diagnosis, site, baseline ABC score, time, treatment group, time by treatment group interaction|Treatment difference = PQ912 - Placebo|A hierarchical approach is taken: If the primary and key secondary endpoint are both statistically significant the remaining secondary endpoints will be tested in the hierarchical order defined per Statistical Analysis Plan until a non-significant result is encountered: Alzheimer's Disease Neuroimaging Initiative (ADNI) Battery Composite Score, Quantitative EEG, Functional Activities Questionnaire, Alzheimer's Disease Assessment Scale - Cognitive Subscale 13, Neuropsychiatric Inventory.||0.303|-0.103|0.3241
92300258|NCT03919162|184504269|SUPERIORITY||Difference LS Mean|-0.02857|STANDARD_ERROR_OF_MEAN|0.01846||0.1398|TWO_SIDED|95.0|-0.06746|0.01032||The secondary analysis used a mixed model for repeated measures (MMRM) with the within-participant change compared between active arm and placebo in qEEG as the outcome.|Mixed Models Analysis|Fixed effect covariates: APOE status, initial diagnosis, site, baseline qECG data, time, treatment group, time by treatment group interaction|Treatment difference = PQ912 - Placebo|A hierarchical approach is taken: If the primary and key secondary endpoint are both statistically significant the remaining secondary endpoints will be tested in the hierarchical order defined per Statistical Analysis Plan until a non-significant result is encountered: Alzheimer's Disease Neuroimaging Initiative (ADNI) Battery Composite Score, Quantitative EEG, Functional Activities Questionnaire, Alzheimer's Disease Assessment Scale - Cognitive Subscale 13, Neuropsychiatric Inventory.||0.01032|-0.06746|0.1398
92300259|NCT03919162|184504270|SUPERIORITY||Difference LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|1.79||0.7377|TWO_SIDED|95.0|-4.22|3.01||The analysis used a mixed model for repeated measures (MMRM) with the within-participant change compared between active arm and placebo in FAQ as the outcome.|Mixed Models Analysis|Fixed effect covariates: APOE status, initial diagnosis, site, baseline FAQ score, time, treatment group, time by treatment group interaction.|Treatment difference = PQ912 - Placebo|A hierarchical approach is taken: If the primary and key secondary endpoint are both statistically significant the remaining secondary endpoints will be tested in the hierarchical order defined per Statistical Analysis Plan until a non-significant result is encountered: Alzheimer's Disease Neuroimaging Initiative (ADNI) Battery Composite Score, Quantitative EEG, Functional Activities Questionnaire, Alzheimer's Disease Assessment Scale - Cognitive Subscale 13, Neuropsychiatric Inventory.||3.01|-4.22|0.7377
92300260|NCT03919162|184504271|SUPERIORITY||Difference LS Mean|2.034|STANDARD_ERROR_OF_MEAN|2.154||0.3496|TWO_SIDED|95.0|-2.292|6.36||The secondary analysis used a mixed model for repeated measures (MMRM) with the within-participant change compared between active arm and placebo in ADAS-Cog-13 as the outcome.|Mixed Models Analysis|Fixed effect covariates: APOE status, initial diagnosis, site, baseline ADAS-Cog-13 score, time, treatment group, time by treatment group interaction|Treatment difference = PQ912 - Placebo|A hierarchical approach is taken: If the primary and key secondary endpoint are both statistically significant the remaining secondary endpoints will be tested in the hierarchical order defined per Statistical Analysis Plan until a non-significant result is encountered: Alzheimer's Disease Neuroimaging Initiative (ADNI) Battery Composite Score, Quantitative EEG, Functional Activities Questionnaire, Alzheimer's Disease Assessment Scale - Cognitive Subscale 13, Neuropsychiatric Inventory.||6.360|-2.292|0.3496
92300261|NCT03919162|184504272|SUPERIORITY||Difference LS Mean|-3.09|STANDARD_ERROR_OF_MEAN|2.34||0.1933|TWO_SIDED|95.0|-7.81|1.62||The secondary analysis used a mixed model for repeated measures (MMRM) with the within-participant change compared between active arm and placebo in NPI as the outcome.|Mixed Models Analysis||Treatment difference = PQ912 - Placebo|A hierarchical approach is taken: If the primary and key secondary endpoint are both statistically significant the remaining secondary endpoints will be tested in the hierarchical order defined per Statistical Analysis Plan until a non-significant result is encountered: Alzheimer's Disease Neuroimaging Initiative (ADNI) Battery Composite Score, Quantitative EEG, Functional Activities Questionnaire, Alzheimer's Disease Assessment Scale - Cognitive Subscale 13, Neuropsychiatric Inventory.||1.62|-7.81|0.1933
92300262|NCT02858726|184504286|SUPERIORITY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-2.8|-0.8|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||-0.8|-2.8|<0.001
92300263|NCT02858726|184504286|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.107|TWO_SIDED|95.0|-1.9|0.2|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||0.2|-1.9|0.107
92186354|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.67|||||TWO_SIDED|95.0|1.3|2.14|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.14|1.30|
92186355|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.6|||||TWO_SIDED|95.0|2.39|5.42|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||5.42|2.39|
92300264|NCT02858726|184504286|SUPERIORITY||Median Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.5||0.019|TWO_SIDED|95.0|-2.3|-0.2|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||-0.2|-2.3|0.019
92300265|NCT02858726|184504287|SUPERIORITY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-16.0|-4.8|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||-4.8|-16.0|<0.001
92300266|NCT02858726|184504287|SUPERIORITY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|3.0||0.016|TWO_SIDED|95.0|-13.1|-1.4|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||-1.4|-13.1|0.016
92300267|NCT02858726|184504287|SUPERIORITY||Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|3.0||0.026|TWO_SIDED|95.0|-12.8|-0.8|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||-0.8|-12.8|0.026
92186356|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.41|||||TWO_SIDED|95.0|2.42|4.82|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||4.82|2.42|
92186357|NCT00824850|184271532|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.6|2.26|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.26|1.60|
92186358|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.36|||||TWO_SIDED|95.0|4.5|15.56|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||15.56|4.50|
92300268|NCT00710749|184504295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44||95.0|||||Wilcoxon signed rank test|||||||0.44
92186359|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.37|||||TWO_SIDED|95.0|1.78|3.16|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.16|1.78|
92186360|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.02|||||TWO_SIDED|95.0|1.63|2.49|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.49|1.63|
92300269|NCT00710749|184504295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Wilcoxon signed rank test|||||||0.0001
92186361|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.61|||||TWO_SIDED|95.0|4.31|10.15|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||10.15|4.31|
92186362|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.92|||||TWO_SIDED|95.0|3.34|7.26|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||7.26|3.34|
92186363|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.73|||||TWO_SIDED|95.0|2.08|3.57|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.57|2.08|
92300270|NCT00710749|184504295|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
92300271|NCT05478252|184504296|NON_INFERIORITY|Non-inferiority of insulin semaglutide J versus insulin semaglutide B was considered as confirmed if the 95% confidence interval (CI) for the mean treatment difference lied entirely below 2.5%. Non-inferiority was investigated on the FAS.|Treatment difference|-0.11|||<|0.0001|TWO_SIDED|95.0|-0.3|0.08|||ANCOVA|||||0.08|-0.30|<.0001
92300272|NCT02287909|184504313|SUPERIORITY||least square mean difference|-6.9|||>|0.05|TWO_SIDED|985.0|-38.0|24.0|||ANCOVA|||||24|-38|>0.05
92186364|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.82|||||TWO_SIDED|95.0|2.08|3.83|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.83|2.08|
92186365|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.79|||||TWO_SIDED|95.0|2.8|5.13|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||5.13|2.80|
92300273|NCT03861481|184504351|SUPERIORITY||LS Mean difference (Rozimab - Placebo)|-0.052|||||TWO_SIDED|90.0|-0.892|0.788|||||MMRM analysis (fixed effect terms: treatment, baseline iRODS score, prior Ig therapy administration route, assessment week, treatment by week interaction; random effect term: study participant). LS Mean Difference \> 0 favours rozanolixizumab.|||0.788|-0.892|
92300274|NCT00773734|184504352|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|5.6||||0.1846|TWO_SIDED|95.0|-2.6|13.7|||Chi-squared|||||13.7|-2.6|0.1846
92300275|NCT00773734|184504352|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|23.1|||<|0.0001|TWO_SIDED|95.0|12.4|33.7|||Chi-squared|||||33.7|12.4|<0.0001
92300276|NCT00773734|184504352|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|35.2|||<|0.0001|TWO_SIDED|95.0|23.9|46.6|||Chi-squared|||||46.6|23.9|<0.0001
92300277|NCT00773734|184504354|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|13.2||||0.059|TWO_SIDED|95.0|-0.4|26.8|||Chi-squared|||||26.8|-0.4|0.0590
92300278|NCT00773734|184504354|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|22.1||||0.0023|TWO_SIDED|95.0|8.3|36.0|||Chi-squared|||||36.0|8.3|0.0023
92300279|NCT00773734|184504354|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|35.2|||<|0.0001|TWO_SIDED|95.0|21.6|48.9|||Chi-squared|||||48.9|21.6|<0.0001
92300280|NCT00773734|184504356|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|3.4||||0.1776|TWO_SIDED|95.0|-1.5|8.2|||Chi-squared|||||8.2|-1.5|0.1776
92300281|NCT00773734|184504356|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|8.1||||0.0158|TWO_SIDED|95.0|1.6|14.5|||Chi-squared|||||14.5|1.6|0.0158
92300282|NCT00773734|184504356|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|10.2||||0.0051|TWO_SIDED|95.0|3.2|17.2|||Chi-squared|||||17.2|3.2|0.0051
92300283|NCT00773734|184504361|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.7||||0.0156|TWO_SIDED|95.0|-24.8|-2.6|||ANCOVA|Analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||-2.6|-24.8|0.0156
92300284|NCT00773734|184504361|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.1|||<|0.0001|TWO_SIDED|95.0|-36.4|-13.9|||ANCOVA|Analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||-13.9|-36.4|<0.0001
92300285|NCT00773734|184504361|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-32.9|||<|0.0001|TWO_SIDED|95.0|-44.0|-21.7|||ANCOVA|Analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||-21.7|-44.0|<0.0001
92300286|NCT00773734|184504363|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-2.2||||0.6541|TWO_SIDED|95.0|-11.7|7.3|||Chi-squared|||||7.3|-11.7|0.6541
92300287|NCT00773734|184504363|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|12.4||||0.0402|TWO_SIDED|95.0|0.6|24.1|||Chi-squared|||||24.1|0.6|0.0402
92300288|NCT00773734|184504363|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|21.1||||0.0011|TWO_SIDED|95.0|8.8|33.4|||Chi-squared|||||33.4|8.8|0.0011
92300289|NCT00773734|184504367|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.2||||0.002|TWO_SIDED|95.0|-33.0|-7.5|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate||||-7.5|-33.0|0.0020
92300290|NCT00773734|184504367|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-29.9|||<|0.0001|TWO_SIDED|95.0|-42.9|-17.0|||ANCOVA|based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate||||-17.0|-42.9|<0.0001
92300291|NCT00773734|184504367|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-42.4|||<|0.0001|TWO_SIDED|95.0|-55.2|-29.5||Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate|ANCOVA|||||-29.5|-55.2|<0.0001
92300292|NCT00773734|184504369|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.3||||0.1322|TWO_SIDED|95.0|-3.1|0.4|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||0.4|-3.1|0.1322
92300293|NCT00773734|184504369|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-4.1|||<|0.0001|TWO_SIDED|95.0|-5.9|-2.3|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||-2.3|-5.9|<0.0001
92300294|NCT00773734|184504369|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.6||||0.0047|TWO_SIDED|95.0|-4.3|-0.8|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||-0.8|-4.3|0.0047
92300295|NCT00773734|184504371|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|3.3||||0.0078|TWO_SIDED|95.0|0.9|5.8|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||5.8|0.9|0.0078
92300296|NCT00773734|184504371|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|3.5||||0.0068|TWO_SIDED|95.0|1.0|6.0|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||6.0|1.0|0.0068
92300297|NCT00773734|184504371|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|3.6||||0.0045|TWO_SIDED|95.0|1.1|6.1|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||6.1|1.1|0.0045
92300298|NCT00773734|184504372|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.6||||0.6097|TWO_SIDED|95.0|-1.6|2.8|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||2.8|-1.6|0.6097
92300299|NCT00773734|184504372|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|1.3||||0.2424|TWO_SIDED|95.0|-0.9|3.6|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||3.6|-0.9|0.2424
92300300|NCT00773734|184504372|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.1||||0.9528|TWO_SIDED|95.0|-2.2|2.3|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||2.3|-2.2|0.9528
92300301|NCT00391079|184504524|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.17||||0.468|TWO_SIDED|95.0|-0.62|0.29|||ANCOVA|||The change in pain NRS score from baseline to the end of study was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and centre group and treatment as factors.||0.29|-0.62|0.468
92300302|NCT00391079|184504525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.309||||0.2338|TWO_SIDED|95.0|0.84|2.038|||Regression, Logistic|||The proportions of responders were compared between the treatment groups using logistic regression with region and treatment groups as factors. The null hypothesis was that there was no difference between each Sativex and placebo.||2.038|0.840|0.2338
92300303|NCT00391079|184504526|SUPERIORITY_OR_OTHER||Estimated treatment effect|-1.83||||0.3103|TWO_SIDED|95.0|-5.39|1.72|||ANOVA||A negative difference in estimated treatment effect indicates an improvement in pain in favour of Sativex.|The change in NPS score from baseline to the end of study was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and centre group and treatment as factors.||1.72|-5.39|0.3103
92300304|NCT00391079|184504527|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.24||||0.1567|TWO_SIDED|95.0|-0.57|0.09|||ANCOVA||A negative difference in estimated treatment difference indicates a reduction in breakthrough analgesic medication in favour of Sativex.|The change in average number of tablets taken daily from baseline to the end of study was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and centre group and treatment as factors.||0.09|-0.57|0.1567
92300305|NCT00391079|184504528|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.12||||0.5643|TWO_SIDED|95.0|-0.53|0.29|||ANCOVA||A negative difference in estimated means indicates an improvement in pain in favour of Sativex.|||0.29|-0.53|0.5643
92300306|NCT00391079|184504529|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.47||||0.0552|TWO_SIDED|95.0|0.991|2.179|||Regression, Logistic||An odds ratio of greater than 1 indicates and improvement in favour of Sativex.|||2.179|0.991|0.0552
92300307|NCT00391079|184504530|SUPERIORITY_OR_OTHER||estimated treatment difference|0.05||||0.833|TWO_SIDED|95.0|-0.39|0.48|||ANCOVA||A negative difference in estimated treatment difference indicates an improvement in sleep quality in favour of Sativex.|||0.48|-0.39|0.8330
92300308|NCT03438396|184504540|OTHER|The statistical hypotheses was tested to address ORR \<= 11% vs. ORR \> 11%.||||||0.0002|||||||one-sided exact test|||||||0.0002
92300309|NCT01744093|184504553|OTHER|Descriptive proportion|Proportion (percent)|18.8|||||TWO_SIDED|95.0|4.0|45.6|||||Exact two-sided 95% Clopper-Pearson confidence interval.|||45.6|4.0|
92300310|NCT01744093|184504554|SUPERIORITY||Proportion (percent)|6.3||||0.002|TWO_SIDED|95.0|0.16|30.2|||Fisher Exact||Exact two-sided 95% Clopper-Pearson confidence interval.|Null hypothesis adverse event rate (grade 2 or higher toxicity) = 45.5%||30.2|0.16|0.002
92300311|NCT02006628|184504559|SUPERIORITY||Treatment difference (GWP42003-placebo)|-2.8||||0.1332|TWO_SIDED|95.0|-6.5|0.9|||ANCOVA|Change from baseline as the response variable, treatment as fixed effect, and individual baseline subscore and age as covariates.||||0.9|-6.5|0.1332
92300312|NCT02006628|184504560|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0896|TWO_SIDED|95.0|0.86|8.0|||Regression, Logistic|Responder (yes/no) is the dependent variable with treatment included as factor and age and baseline P, G, and N scores included as covariates.||||8.00|0.86|0.0896
92300313|NCT02006628|184504561|SUPERIORITY||Treatment difference (GWP42003-placebo)|-1.4||||0.0188|TWO_SIDED|95.0|-2.5|-0.2|||ANCOVA|||||-0.2|-2.5|0.0188
92300314|NCT02006628|184504562|SUPERIORITY||Treatment difference (GWP42003-placebo)|0.0||||0.9647|TWO_SIDED|95.0|-1.3|1.4|||ANCOVA|||||1.4|-1.3|0.9647
92300315|NCT02006628|184504563|SUPERIORITY||Treatment difference (GWP42003-placebo)|-1.3||||0.1963|TWO_SIDED|95.0|-3.2|0.7|||ANCOVA|||||0.7|-3.2|0.1963
92300316|NCT02006628|184504564|SUPERIORITY||Treatment difference (GWP42003-placebo)|-3.5||||0.1167|TWO_SIDED|95.0|-7.9|0.9|||ANCOVA|||||0.9|-7.9|0.1167
92186366|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.32|||||TWO_SIDED|95.0|1.11|1.57|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1.57|1.11|
92186367|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.05|1.61|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1.61|1.05|
92300317|NCT02006628|184504565|SUPERIORITY||Treatment difference (GWP42003-placebo)|-0.3||||0.0443|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|||||0.0|-0.5|0.0443
92300318|NCT02006628|184504566|SUPERIORITY||Treatment difference (GWP42003-placebo)|-0.5||||0.0182|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||||-0.1|-0.8|0.0182
92186368|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.04|||||TWO_SIDED|95.0|1.51|2.75|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.75|1.51|
92300319|NCT02006628|184504567|SUPERIORITY||Treatment difference (GWP42003-placebo)|1.31||||0.0677|TWO_SIDED|95.0|-0.1|2.72|||ANCOVA|||||2.72|-0.10|0.0677
92186369|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.87|||||TWO_SIDED|95.0|2.19|3.77|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.77|2.19|
92300320|NCT00262041|184504568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad+ vaccine against the serogroup A was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad+ vaccine group against serogroup A compared with that of MenACWY PS vaccine.||||<0.001
92300321|NCT00262041|184504568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad- vaccine against the serogroup A was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad- vaccine group against serogroup A compared with that of MenACWY PS vaccine.||||<0.001
92300322|NCT00262041|184504568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad+ vaccine against the serogroup C was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad+ vaccine group against serogroup C compared with that of MenACWY PS vaccine.||||<0.001
92300323|NCT00262041|184504568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad- vaccine against the serogroup C was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.||||||0.003||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad- vaccine group against serogroup C compared with that of MenACWY PS vaccine.||||0.003
92300324|NCT00262041|184504568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad+ vaccine against the serogroup W was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad+ vaccine group against serogroup W compared with that of MenACWY PS vaccine.||||<0.001
92300325|NCT00262041|184504568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad- vaccine against the serogroup W was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.||||||0.071||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad- vaccine group against serogroup W compared with that of MenACWY PS vaccine.||||0.071
92300326|NCT00262041|184504568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad+ vaccine against the serogroup Y was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad+ vaccine group against serogroup Y compared with that of MenACWY PS vaccine.||||<0.001
92300327|NCT00262041|184504568|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad- vaccine against the serogroup Y was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad- vaccine group against serogroup Y compared with that of MenACWY PS vaccine.||||<0.001
92300328|NCT00834652|184504573|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92300329|NCT01173471|184504588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|5.352||0.822|TWO_SIDED|95.0|-15.2|12.6|||Mixed Models Analysis||Difference is (AZD4017 200 mg OD - Placebo OD)|||12.6|-15.2|0.822
92300330|NCT01173471|184504588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|3.516||0.413|TWO_SIDED|95.0|-10.1|4.3|||Mixed Models Analysis||Difference is (AZD4017 400 mg BID - Placebo BID)|||4.3|-10.1|0.413
92300331|NCT01173471|184504590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|1.57||0.758|TWO_SIDED|95.0|-4.8|3.7|||Mixed Models Analysis||Difference is (AZD4017 200 mg OD - Placebo OD)|||3.7|-4.8|0.758
92300332|NCT01173471|184504590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.909||0.467|TWO_SIDED|95.0|-2.5|1.2|||Mixed Models Analysis||Difference is (AZD4017 400 mg BID - Placebo BID)|||1.2|-2.5|0.467
92300333|NCT03028740|184504595|SUPERIORITY||Percentage Difference|-3.2||||0.2067|TWO_SIDED|95.0|-8.2|1.9||P-value was based on Cochran-Mantel-Haenszel general association test comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of Type 2 diabetes mellitus (T2DM) at Baseline).|Cochran-Mantel-Haenszel|||||1.9|-8.2|0.2067
92300334|NCT03028740|184504595|SUPERIORITY||Odds Ratio (OR)|0.8369|||||TWO_SIDED|95.0|0.6341|1.1044|||||Odds Ratio was based on Mantel-Haenszel estimates comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of T2DM at Baseline).|||1.1044|0.6341|
92300335|NCT03028740|184504597|SUPERIORITY||Percentage Difference|-1.7||||0.2827|TWO_SIDED|95.0|-4.8|1.5||P-value was based on Cochran-Mantel-Haenszel general association test comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of T2DM at Baseline).|Cochran-Mantel-Haenszel|||||1.5|-4.8|0.2827
92186370|NCT00824850|184271533|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.95|||||TWO_SIDED|95.0|1.59|2.39|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.39|1.59|
92300336|NCT03028740|184504597|SUPERIORITY||Odds Ratio (OR)|0.7844|||||TWO_SIDED|95.0|0.5032|1.2229|||||Odds Ratio was based on Mantel-Haenszel estimates comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of T2DM at Baseline).|||1.2229|0.5032|
92300337|NCT03028740|184504598|SUPERIORITY||Percentage Difference|-2.7||||0.4054|TWO_SIDED|95.0|-8.7|3.3||P-value was based on Cochran-Mantel-Haenszel general association test comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of T2DM at Baseline).|Cochran-Mantel-Haenszel|||||3.3|-8.7|0.4054
92300338|NCT03028740|184504598|SUPERIORITY||Odds Ratio (OR)|0.8877|||||TWO_SIDED|95.0|0.6709|1.1744|||||Odds Ratio was based on Mantel-Haenszel estimates comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of T2DM at Baseline).|||1.1744|0.6709|
92300339|NCT01138826|184504619|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUC\[0- ∞\] of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|105.57|||||TWO_SIDED|90.0|98.09|113.61||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1036 on the natural log scale for AUCinf with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1234 for loge AUCinf.||113.61|98.09|
92300340|NCT01138826|184504619|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUC\[0- ∞\] of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|107.55|||||TWO_SIDED|90.0|99.98|115.69||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1036 on the natural log scale for AUCinf with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1234 for loge AUCinf.||115.69|99.98|
92300341|NCT01138826|184504619|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUC\[0- ∞\] of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|101.88|||||TWO_SIDED|90.0|94.7|109.6||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1036 on the natural log scale for AUCinf with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1234 for loge AUCinf.||109.60|94.70|
92300342|NCT01138826|184504620|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUClast of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|103.88|||||TWO_SIDED|90.0|97.27|110.94||||||||110.94|97.27|
92300343|NCT01138826|184504620|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUClast of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|104.26|||||TWO_SIDED|90.0|97.67|111.3||||||||111.30|97.67|
92300344|NCT01138826|184504620|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUClast of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|100.37|||||TWO_SIDED|90.0|94.02|107.15||||||||107.15|94.02|
92300345|NCT01138826|184504621|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed Cmax of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|98.39|||||TWO_SIDED|90.0|91.05|106.33||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1146 on the natural log scale for Cmax with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1366 for loge Cmax.||106.33|91.05|
92300346|NCT01138826|184504621|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed Cmax of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|95.22|||||TWO_SIDED|90.0|88.16|102.84||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1146 on the natural log scale for Cmax with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1366 for loge Cmax.||102.84|88.16|
92300347|NCT01138826|184504621|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed Cmax of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|96.77|||||TWO_SIDED|90.0|89.58|104.54||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1146 on the natural log scale for Cmax with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1366 for loge Cmax.||104.54|89.58|
92300348|NCT02566993|184504624|SUPERIORITY||Hazard Ratio (HR)|0.967||||0.9029|TWO_SIDED|95.0|0.815|1.148|||Log Rank|Stratified log-rank test||||1.148|0.815|0.9029
92300349|NCT02566993|184504625|SUPERIORITY|||||||0.2826|||||||Normal test|||||||0.2826
92300350|NCT02566993|184504626|SUPERIORITY|||||||0.6216|||||||Normal test|||||||0.6216
92300351|NCT02566993|184504627|SUPERIORITY|||||||0.9708|||||||Normal test|||||||0.9708
92300352|NCT02566993|184504628|SUPERIORITY||Hazard Ratio (HR)|0.831||||0.3257|TWO_SIDED|95.0|0.693|0.996|||Log Rank|Stratified log-rank test||||0.996|0.693|0.3257
92300353|NCT02566993|184504629|SUPERIORITY|||||||0.0851|||||||Normal test|||||||0.0851
92300354|NCT02566993|184504630|SUPERIORITY|||||||0.0129|||||||Normal test|||||||0.0129
92300355|NCT02566993|184504632|SUPERIORITY|||||||0.6616|||||||Binomial test|||||||0.6616
92300356|NCT02566993|184504633|SUPERIORITY||Hazard Ratio (HR)|0.581||||0.0012|TWO_SIDED|95.0|0.416|0.812|||Log Rank|||||0.812|0.416|0.0012
92300357|NCT02566993|184504634|SUPERIORITY||Hazard Ratio (HR)|0.921|||||TWO_SIDED|95.0|0.744|1.14||||||||1.140|0.744|
92300358|NCT02566993|184504635|SUPERIORITY||Hazard Ratio (HR)|0.688|||||TWO_SIDED|95.0|0.549|0.863||||||||0.863|0.549|
92300359|NCT02566993|184504637|SUPERIORITY||Hazard Ratio (HR)|0.921|||||TWO_SIDED|95.0|0.616|1.376||||||||1.376|0.616|
92300360|NCT02566993|184504638|SUPERIORITY||Hazard Ratio (HR)|0.504|||||TWO_SIDED|95.0|0.346|0.736||||||||0.736|0.346|
92300361|NCT02566993|184504639|SUPERIORITY||Hazard Ratio (HR)|1.122|||||TWO_SIDED|95.0|0.84|1.5||||||||1.500|0.840|
92300362|NCT02566993|184504640|SUPERIORITY||Hazard Ratio (HR)|1.306|||||TWO_SIDED|95.0|0.955|1.786||||||||1.786|0.955|
92300363|NCT02566993|184504642|SUPERIORITY||Hazard Ratio (HR)|0.915|||||TWO_SIDED|95.0|0.455|1.843||||||||1.843|0.455|
92300364|NCT02566993|184504643|SUPERIORITY||Hazard Ratio (HR)|1.092|||||TWO_SIDED|95.0|0.506|2.36||||||||2.360|0.506|
92300365|NCT02566993|184504644|SUPERIORITY||Hazard Ratio (HR)|0.923|||||TWO_SIDED|95.0|0.765|1.113||||||||1.113|0.765|
92186371|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|201.8|||||TWO_SIDED|95.0|55.11|739.05|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||739.05|55.11|
92300366|NCT02566993|184504645|SUPERIORITY||Hazard Ratio (HR)|0.788|||||TWO_SIDED|95.0|0.645|0.961||||||||0.961|0.645|
92300367|NCT02566993|184504647|SUPERIORITY||Hazard Ratio (HR)|0.903|||||TWO_SIDED|95.0|0.624|1.307||||||||1.307|0.624|
92300368|NCT02566993|184504648|SUPERIORITY||Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.392|0.799||||||||0.799|0.392|
92300369|NCT02566993|184504649|SUPERIORITY||Hazard Ratio (HR)|1.291|||||TWO_SIDED|95.0|0.838|1.99||||||||1.990|0.838|
92300370|NCT02566993|184504650|SUPERIORITY||Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.824|2.019||||||||2.019|0.824|
92300371|NCT02566993|184504652|SUPERIORITY||Hazard Ratio (HR)|1.032|||||TWO_SIDED|95.0|0.403|2.641||||||||2.641|0.403|
92300372|NCT02566993|184504653|SUPERIORITY||Hazard Ratio (HR)|1.013|||||TWO_SIDED|95.0|0.373|2.75||||||||2.750|0.373|
92300373|NCT04572243|184504671|SUPERIORITY||Median Difference (Final Values)|-86.08|||||TWO_SIDED|95.0|-144.01|-28.14||||||||-28.14|-144.01|
92300374|NCT04572243|184504672|SUPERIORITY||Odds Ratio (OR)|6.0|||||TWO_SIDED|95.0|0.81|44.35||||||||44.35|0.81|
92300375|NCT02278718|184504687|SUPERIORITY|||||||0.0008|||||||Generalized Wilcoxon-Gehan Test|||Wilcoxon test statistic was estimated using generalized Wilcoxon-Gehan test stratified by center group, age group, % TBSA group, proportion of FT area group and number of TWs group. A negative (positive) statistic is associated with longer (shorter) time to the event when treated with NexoBrid vs. Standard of Care. P-value was calculated using the re-randomization test.||||0.0008
92300376|NCT02278718|184504688|SUPERIORITY||Odds Ratio (OR)|0.025|||<|0.0001|TWO_SIDED|95.0|0.007|0.09|||Fisher Exact|||Incidence of Surgical Excision for Eschar Removal for NexoBrid vs SOC||0.090|0.007|<0.0001
92300377|NCT02278718|184504689|SUPERIORITY|||||||0.1374|||||||t-test, 2 sided|||||||0.1374
92300378|NCT02278718|184504690|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.5045|TWO_SIDED||||||t-test, 2 sided|||||||0.5045
92300379|NCT02278718|184504691|SUPERIORITY||Odds Ratio (OR)|0.414||||0.0545|TWO_SIDED|95.0|0.163|1.054|||t-test, 2 sided|||||1.054|0.163|0.0545
92300380|NCT04440449|184504692|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92186372|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.7|||||TWO_SIDED|95.0|5.2|26.1|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||26.10|5.20|
92300381|NCT04440449|184504693|SUPERIORITY|||||||0.108|||||||t-test, 2 sided|||||||0.108
92300382|NCT03212794|184504701|SUPERIORITY||||||=|0.87||||||Threshold for significance p\<0.05|Chi-squared|||||||=0.87
92300383|NCT03212794|184504702|SUPERIORITY||||||=|0.82||||||Threshold for significance p\<0.05|Chi-squared|||||||=0.82
92300384|NCT03212794|184504703|OTHER||||||=|0.92||||||Threshold for significance p\<0.05|Log Rank|If no event occurred, the data from those individuals were right censored.||||||=0.92
92300385|NCT03212794|184504704|OTHER||||||=|0.85||||||Threshold for significance p\<0.05|Log Rank|If no event occurred, the data from those individuals were right censored.||||||=0.85
92300386|NCT00754494|184504708|SUPERIORITY_OR_OTHER|||||||0.762|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.762
92300387|NCT00754494|184504708|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.125
92300388|NCT00754494|184504708|SUPERIORITY_OR_OTHER|||||||0.855|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.855
92300389|NCT00754494|184504709|SUPERIORITY_OR_OTHER|||||||0.369|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.369
92300390|NCT00754494|184504709|SUPERIORITY_OR_OTHER|||||||0.085|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.085
92300391|NCT00754494|184504709|SUPERIORITY_OR_OTHER|||||||0.233|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.233
92300392|NCT00754494|184504710|SUPERIORITY_OR_OTHER|||||||0.651|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.651
92300393|NCT00754494|184504710|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.030
92300394|NCT00754494|184504710|SUPERIORITY_OR_OTHER|||||||0.261|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.261
92300395|NCT00754494|184504711|SUPERIORITY_OR_OTHER|||||||0.654|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.654
92300396|NCT00754494|184504711|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.030
92300397|NCT00754494|184504711|SUPERIORITY_OR_OTHER|||||||0.083|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.083
92300398|NCT04179019|184504754|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||The intra-individual, paired, 24h urine aldosterone excretion rate following 2 weeks of amlodipine therapy was compared to the baseline pre-treatment 24h urine aldosterone excretion rate. The null hypothesis was that amlodipine therapy would result in no change in the 24h urine aldosterone excretion rate. Because only 2 participants completed the pilot study, the validity of the results is low.||||0.96
92300399|NCT04179019|184504755|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||The intra-individual, paired, plasma aldosterone concentration following 2 weeks of amlodipine therapy was compared to the baseline pre-treatment aldosterone concentration. The null hypothesis was that amlodipine therapy would result in no change in the plasma aldosterone value. Because only 2 participants completed the pilot study, the validity of the results is low.||||0.29
92300400|NCT04179019|184504756|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||The intra-individual, paired, change in plasma aldosterone concentration in response to an acute dose of amlodipine (6h post-dose) was compared to the baseline pre-treatment response to an acute dose of amlodipine. The null hypothesis was that an acute amlodipine dose would result in no acute change in the plasma aldosterone levels. Because only 2 participants completed the pilot study, the validity of the results is low.||||0.83
92300401|NCT01949116|184504757|NON_INFERIORITY|The P-value for the risk difference is from an asymptotic non-inferiority analysis for the proportion (risk) difference with a 15% non-inferiority margin.|Risk Difference (RD)|0.072||||0.0367|ONE_SIDED|90.0||0.134|||Farrington-Manning score (exact)||LDMTX - Placebo|||0.134||0.0367
92300402|NCT01949116|184504758|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.55|TWO_SIDED|95.0|-0.67|0.85|||Wilcoxon (Mann-Whitney)|Stratified by Statin Use (study stratification factor)||||0.85|-0.67|0.55
92300403|NCT03399318|184504771|SUPERIORITY||||||<|0.0001||||||treatment group as the factor of interest, country and disease severity 207 (CM=yes, no) as stratification factors, and admission temperature as a covariate. A t-test for significance of the treatment effect, were derived from this model.|t-test, 2 sided|||The analysis of the primary outcome variable, Tmax, involved fitting an analysis of 206 covariance model with treatment group as the factor of interest, country and disease severity 207 (CM=yes, no) as stratification factors, and admission temperature as a covariate. The estimated 208 treatment effect and associated 95% confidence interval, as well as a t-test for significance of the treatment effect, were derived from this model.||||<0.0001
92300404|NCT03399318|184504772|SUPERIORITY||Odds Ratio (OR)|0.09|||<|0.05|TWO_SIDED|95.0|0.03|0.27|||Regression, Logistic|||Seizure occurrence defined as a three-level ordinal variable was analyzed using a 223 multinomial logistic regression model because there was evidence that the proportional odds 224 assumption did not hold. This model included treatment group as the factor of interest and 225 country and disease severity as stratification factors. The adjusted treatment group odds ratio, 226 and its associated 95% confidence interval were derived from this model.||.27|.03|<0.05
92186373|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|156.4|||||TWO_SIDED|95.0|48.72|501.86|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||501.86|48.72|
92186374|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|37.4|||||TWO_SIDED|95.0|13.71|102.31|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||102.31|13.71|
92300405|NCT03399318|184504773|SUPERIORITY||Odds Ratio, log|6.3|||<|0.05|TWO_SIDED|95.0|-5.1|17.7||The covariance matrix for the within-participant observations was 232 modeled using an unstructured pattern.|ANCOVA|Time to parasite clearance was 235 evaluated using a discrete-time proportional hazards model with a complementary log-log link.|The adjusted treatment group difference in mean area 233 under the log10(HRP2 level) × time curve was estimated using appropriate contrasts among the 234 treatment group means over time that quantify this comparison.|Parasite clearance measured by log10 (HRP2 level) was analyzed with a repeated 228 measures analysis of covariance model (mixed model repeated measures)35 with terms for 229 treatment group, country, disease severity, log10(HRP2 level) at admission, time (treated as a 230 categorical variable), and interaction terms for admission log10(HRP2 level) and time, and for 231 treatment group and time.|The model included terms for treatment group, country, and disease severity.|17.7|-5.1|<0.05
92300406|NCT03399318|184504774|SUPERIORITY||Odds Ratio (OR)|0.32|||<|0.05|TWO_SIDED|95.0|0.2|0.52||An ordinal logistic regression model assuming 216 proportional odds with terms for treatment group, country, and disease severity as covariates was used to derive the estimated adjusted treatment group odds ratio and 95%CI|Regression, Logistic|Sensitivity analyses with best-case and worst-case imputation were 219 performed to accommodate missing data||A secondary efficacy measure included fever exposure as measured by the area under 214 the temperature × time curve for T≥38.5°C during the 72-hour follow-up period, categorized as 215 0, \> 0 and \< 2, and ≥ 2 degree-hours.||.52|.20|<0.05
92300407|NCT04632706|184504779|OTHER|||||||0.803||||||If the p-value is more than 0.05 then dose proportionality can not be confirmed.|Mixed Models Analysis|||Assessment of dose proportionality on D2 and D28||||0.803
92300408|NCT04632706|184504781|OTHER|||||||0.689||||||If the p-value is more than 0.05 then dose proportionality can not be confirmed.|Mixed Models Analysis|||Assessment of dose proportionality on D2 and D28||||0.689
92300409|NCT02508259|184504810|EQUIVALENCE|The null hypothesis was that before and after treatment ADOS scores were equivalent.|Mean Difference (Net)|-1.6|STANDARD_DEVIATION|0.55||0.0028|TWO_SIDED|95.0|-2.3|-0.9|||t-test, 2 sided|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||-0.9|-2.3|0.0028
92300410|NCT02508259|184504811|EQUIVALENCE|The child-specific difference in EOWPVT scores were compared for equivalence before and 6-weeks after suramin treatment|Mean Difference (Net)|-4.2|STANDARD_DEVIATION|8.3||0.32|TWO_SIDED|95.0|-14.5|6.1|||t-test, 2 sided|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||6.1|-14.5|0.32
92300411|NCT02508259|184504812|EQUIVALENCE|In this analysis, the null hypothesis was tested that the child-specific ABC subscores for stereotypy were unchanged before and after suramin treatment.|Mean Difference (Net)|-4.0|STANDARD_DEVIATION|2.3||0.019|TWO_SIDED|95.0|-6.9|-1.1|||t-test, 2 sided|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||-1.1|-6.9|0.019
92300412|NCT02508259|184504813|EQUIVALENCE|In this analysis, we tested the equivalence of the child-specific ATEC subscore for language before and 6-weeks after treatment with suramin.|Mean Difference (Net)|-2.0|STANDARD_DEVIATION|1.4||0.034|TWO_SIDED|95.0|-2.7|-0.49|||t-test, 2 sided|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||-0.49|-2.7|0.034
92300413|NCT02508259|184504814|EQUIVALENCE|In this analysis, overall ASD symptom scores, measured by CGI were compared between suramin and placebo groups.|Mean Difference (Final Values)|-1.8|STANDARD_DEVIATION|1.04||0.05|TWO_SIDED|95.0|-3.4|-0.15|||ANOVA|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||-0.15|-3.4|0.05
92300414|NCT02508259|184504815|EQUIVALENCE|In this analysis, the child-specific RBQ score was tested for equivalence before and 6-weeks after suramin treatment.|Mean Difference (Net)|-3.2|STANDARD_DEVIATION|5.8||0.28|TWO_SIDED|95.0|-10.4|4.0|||t-test, 2 sided|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||4.0|-10.4|0.28
92300415|NCT06400745|184504824|NON_INFERIORITY|Study success will be concluded if the upper bound of the one-sided 95.1% confidence interval does not exceed the noninferiority margin of 0.1 logMAR.|Difference in Means|0.009|STANDARD_ERROR_OF_MEAN|0.0085|||ONE_SIDED|95.1||0.0232||The upper boundary of the confidence interval is reported instead of a p-value.|t-test, 1 sided|The upper bound of the one-sided 95.1% confidence limit will be compared to the margin, 0.10 logMAR.|Difference in Means = CPO Pro IOL minus CPO|||0.0232||
92300416|NCT04846881|184504825|SUPERIORITY||Mean Difference (Net)|0.722|STANDARD_ERROR_OF_MEAN|0.4753||0.1291|TWO_SIDED|95.0|-0.211|1.656|||Mixed Models Analysis|The Kenward-Roger method estimated denominator degrees of freedom and adjusted standard errors.|Adjusted mean difference in overall composite T-score of the MCCB at Week 26 between the iclepertin 10 mg and the Placebo group.|The model included fixed categorical effects of treatment at each visit and the stratification factor (screening MCCB overall composite T-score) and fixed effects for the continuous covariate of baseline at each visit. Visit was treated as a repeated measure with unstructured covariance structure for within-participant dependencies. The primary comparison was iclepertin 10 mg daily vs. placebo at Week 26.||1.656|-0.211|0.1291
92300417|NCT04846881|184504826|SUPERIORITY||Mean Difference (Net)|0.714|STANDARD_ERROR_OF_MEAN|0.6042||0.2375|TWO_SIDED|95.0|-0.472|1.901|||Mixed Models Analysis|The Kenward-Roger method estimated denominator degrees of freedom and adjusted standard errors.|Adjusted mean difference in SCoRS at Week 26 between the iclepertin 10 mg and the Placebo group.|The model included the discrete fixed effects of treatment at each visit, fixed categorical covariate of the stratification factor using the screening MCCB overall composite T-score, and continuous fixed effects for the corresponding baseline endpoint value at each visit. Visit was treated as the repeated measure with an unstructured covariance structure to model the within-subject measurements. Subjects were considered as a random effect.||1.901|-0.472|0.2375
92300418|NCT04846881|184504827|SUPERIORITY||Mean Difference (Net)|0.333|STANDARD_ERROR_OF_MEAN|1.062||0.7541|TWO_SIDED|95.0|-1.753|2.419|||Mixed Models Analysis|The Kenward-Roger method estimated denominator degrees of freedom and adjusted standard errors.|Adjusted mean difference in VRFCAT at Week 26 between the iclepertin 10 mg and the Placebo group.|The model included the discrete fixed effects of treatment at each visit, fixed categorical covariate of the stratification factor using the screening MCCB overall composite T-score, and continuous fixed effects for the corresponding baseline endpoint value at each visit. Visit was treated as the repeated measure with an unstructured covariance structure to model the within-subject measurements. Subjects were considered as a random effect.||2.419|-1.753|0.7541
92300419|NCT04846881|184504828|SUPERIORITY||Mean Difference (Net)|0.012|STANDARD_ERROR_OF_MEAN|0.044||0.7769|TWO_SIDED|95.0|-0.074|0.099|||Mixed Models Analysis|The Kenward-Roger method estimated denominator degrees of freedom and adjusted standard errors.|Adjusted mean difference in PRECIS at Week 24 between the iclepertin 10 mg and the Placebo group.|The model included the discrete fixed effects of treatment at each visit, fixed categorical covariate of the stratification factor using the screening MCCB overall composite T-score, and continuous fixed effects for the corresponding baseline endpoint value at each visit. Visit was treated as the repeated measure with an unstructured covariance structure to model the within-subject measurements. Subjects were considered as a random effect.||0.099|-0.074|0.7769
92300420|NCT04846881|184504829|SUPERIORITY||Mean Difference (Net)|-1.135|STANDARD_ERROR_OF_MEAN|0.911||0.2133|TWO_SIDED|95.0|-2.925|0.654|||ANCOVA||Adjusted mean difference in ToL at Week 26 between the iclepertin 10 mg and the Placebo group.|For change from baseline to Week 26 in the T-score of the number of correct responses on ToL, an analysis of covariance (ANCOVA) model including treatment, stratification factor of screening MCCB overall composite T-score (\<30, ≥30), and baseline number of correct responses on ToL T-score were fitted to the data.||0.654|-2.925|0.2133
92300421|NCT04560998|184504830|SUPERIORITY||The Hodges-Lehmann estimate|1.13||||0.0004|TWO_SIDED|95.0|1.056|1.211|||Wilcoxon (Mann-Whitney)|||||1.211|1.056|0.0004
92300422|NCT04560998|184504831|SUPERIORITY||The Hodges-Lehmann estimate|1.08||||0.038|TWO_SIDED|95.0|1.004|1.156|||Wilcoxon (Mann-Whitney)|||||1.156|1.004|0.0380
92300423|NCT04560998|184504832|SUPERIORITY||The Hodges-Lehmann estimate|1.0||||0.0108|TWO_SIDED|95.0|0.478|1.518|||Wilcoxon (Mann-Whitney)|||||1.518|0.478|0.0108
92300424|NCT04560998|184504833|SUPERIORITY||The Hodges-Lehmann Estimate|1.11||||0.0046|TWO_SIDED|95.0|1.033|1.197|||Wilcoxon (Mann-Whitney)|||||1.197|1.033|0.0046
92300425|NCT04495283|184504878|SUPERIORITY||LS Mean Difference|-114.43|STANDARD_ERROR_OF_MEAN|26.65|<|0.001|ONE_SIDED|90.0||-80.01|||ANOVA|||||-80.01||<0.001
92300426|NCT04495283|184504879|SUPERIORITY||LS Mean Difference|-70.16|STANDARD_ERROR_OF_MEAN|21.549|<|0.001|ONE_SIDED|90.0||-42.32|||ANOVA|||||-42.32||<0.001
92300427|NCT04843566|184504908|SUPERIORITY|||||||0.04|||||||Fisher Exact|||Infection||||0.04
92300428|NCT04843566|184504908|SUPERIORITY|||||||0.3|||||||Fisher Exact|||Urinary retention||||0.30
92300429|NCT04843566|184504908|SUPERIORITY|||||||0.31|||||||Fisher Exact|||Bleeding requiring intervention||||0.31
92300430|NCT04843566|184504909|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Immediately following biopsy - Pain||||0.002
92186375|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|93.9|||||TWO_SIDED|95.0|30.99|284.31|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||284.31|30.99|
92186376|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|48.7|||||TWO_SIDED|95.0|23.27|101.97|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||101.97|23.27|
92300431|NCT04843566|184504909|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||Immediately following biopsy - Discomfort||||0.05
92300432|NCT04843566|184504909|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||7-day post biopsy - Pain||||<0.0001
92300433|NCT04843566|184504909|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||7-day post biopsy - Discomfort||||0.07
92300434|NCT04843566|184504910|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
92300435|NCT04843566|184504911|SUPERIORITY|||||||0.59|||||||Chi-squared|||Gleason grade \>=2||||0.59
92300436|NCT04843566|184504912|SUPERIORITY|||||||0.04|||||||Fisher Exact|||Infection||||0.04
92300437|NCT04843566|184504912|SUPERIORITY|||||||0.3|||||||Fisher Exact|||Urinary retention||||0.30
92300438|NCT04843566|184504912|SUPERIORITY|||||||0.31|||||||Fisher Exact|||Bleeding requiring intervention||||0.31
92300439|NCT02177136|184504925|SUPERIORITY|||||||0.0434|||||||ANCOVA|ANCOVA model with treatment group and randomization stratification factors as fixed effects and baseline as covariate.||||||0.0434
92300440|NCT02177136|184504925|SUPERIORITY|||||||0.0665|||||||ANCOVA|ANCOVA model with treatment group and randomization stratification factors as fixed effects and baseline as covariate.||||||0.0665
92300441|NCT02130583|184504986|SUPERIORITY||Mean Difference (Net)|2.06||||0.034|TWO_SIDED||||||ANOVA|||||||.034
92300442|NCT00836719|184504998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|||<|0.01||95.0|3.4|16.2|||Mixed Models Analysis|Anisotropic power spatial covariance matrix with terms for time and the registered voxel. Kenward Rogers approx. for degrees of freedom.|Dependent variable: NAA. Main effect: visit. Covariates Cre, %GM, %WM, %CSF and %lesion in the voxel.|N-Acetylaspartate acid (NAA) levels were measured at baseline and exit (6 months). Voxels with less than 30% error in NAA and Creatine (Cre) were used.NAA, Cre and Proton Density were log transformed.||16.2|3.4|<0.01
92300443|NCT02119286|184505016|SUPERIORITY_OR_OTHER||Least squared mean difference|0.122|||<|0.001|TWO_SIDED|95.0|0.091|0.152|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.152|0.091|<0.001
92300444|NCT02119286|184505016|SUPERIORITY_OR_OTHER||Least squared mean difference|0.111|||<|0.001|TWO_SIDED|95.0|0.081|0.141|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.141|0.081|<0.001
92300445|NCT02119286|184505017|SUPERIORITY_OR_OTHER||Least squared mean difference|0.147|||<|0.001|TWO_SIDED|95.0|0.114|0.179|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.179|0.114|<0.001
92300446|NCT02119286|184505017|SUPERIORITY_OR_OTHER||Least squared mean difference|0.135|||<|0.001|TWO_SIDED|95.0|0.103|0.167|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.167|0.103|<0.001
92300447|NCT03702049|184505042|OTHER|Change in score at 3 months|Mean Difference (Final Values)|-0.24||||0.603|TWO_SIDED||||||Mixed Models Analysis|||Change in score at 3 months||||0.603
92300448|NCT03702049|184505042|OTHER|Change at 6 months|Mean Difference (Final Values)|-0.12||||0.805|TWO_SIDED||||||Mixed Models Analysis|||6 month outcome||||0.805
92300449|NCT03702049|184505043|OTHER||Odds Ratio (OR)|0.83||||0.672|TWO_SIDED|95.0|0.39|1.79|||Regression, Logistic|||3 month outcome||1.79|0.39|0.672
92300450|NCT03702049|184505043|OTHER||Odds Ratio (OR)|0.49||||0.165|TWO_SIDED|95.0|0.18|1.34|||Regression, Logistic|||6 month outcome||1.34|0.18|0.165
92300451|NCT03702049|184505044|OTHER||Mean Difference (Final Values)|-0.31||||0.719|TWO_SIDED||||||Mixed Models Analysis|||3 month outcome||||0.719
92300452|NCT03702049|184505044|OTHER||Mean Difference (Final Values)|0.43||||0.626|TWO_SIDED||||||Mixed Models Analysis|||6 month outcome||||0.626
92300453|NCT03702049|184505045|OTHER||Mean Difference (Final Values)|0.83||||0.1668|TWO_SIDED|95.0|-0.36|2.03|||t-test, 2 sided|||||2.03|-0.36|0.1668
92300454|NCT03702049|184505046|OTHER||Mean Difference (Final Values)|1.5||||0.9198|TWO_SIDED|95.0|-29.6|32.7|||t-test, 2 sided|||3 month outcome||32.7|-29.6|0.9198
92300455|NCT03702049|184505046|OTHER||Mean Difference (Final Values)|12.5||||0.5015|TWO_SIDED|95.0|-25.6|50.7|||t-test, 2 sided|||6 month||50.7|-25.6|0.5015
92300456|NCT01763918|184505047|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-59.23|STANDARD_ERROR_OF_MEAN|2.98|<|0.001|TWO_SIDED|95.0|-65.11|-53.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||Within each dose frequency, the null hypothesis was that there was no mean difference in the percent change from baseline at week 12 or in the percent change from baseline at the mean of weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-53.35|-65.11|<0.001
92300457|NCT01763918|184505047|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-61.27|STANDARD_ERROR_OF_MEAN|3.91|<|0.001|TWO_SIDED|95.0|-69.0|-53.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||Within each dose frequency, the null hypothesis was that there was no mean difference in the percent change from baseline at week 12 or in the percent change from baseline at the mean of weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-53.55|-69.00|<0.001
92300458|NCT01763918|184505048|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.15|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-65.83|-54.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||Within each dose frequency, the null hypothesis was that there was no mean difference in the percent change from baseline at week 12 or in the percent change from baseline at the mean of weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-54.46|-65.83|<0.001
92300459|NCT01763918|184505048|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-65.55|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-71.27|-59.83||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||Within each dose frequency, the null hypothesis was that there was no mean difference in the percent change from baseline at week 12 or in the percent change from baseline at the mean of weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-59.83|-71.27|<0.001
92300460|NCT01763918|184505049|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-95.2|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-105.1|-85.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-85.2|-105.1|<0.001
92300461|NCT01763918|184505049|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-97.4|STANDARD_ERROR_OF_MEAN|4.9|<|0.001|TWO_SIDED|95.0|-107.1|-87.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-87.7|-107.1|<0.001
92300462|NCT01763918|184505050|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-92.9|STANDARD_ERROR_OF_MEAN|5.1|<|0.001|TWO_SIDED|95.0|-102.9|-82.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-82.8|-102.9|<0.001
92300463|NCT01763918|184505050|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-91.3|STANDARD_ERROR_OF_MEAN|6.3|<|0.001|TWO_SIDED|95.0|-103.8|-78.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-78.9|-103.8|<0.001
92300464|NCT01763918|184505051|SUPERIORITY_OR_OTHER||Treatment Difference|65.1|||<|0.001|TWO_SIDED|95.0|52.8|73.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and ezetimibe use.||||73.4|52.8|<0.001
92300465|NCT01763918|184505051|SUPERIORITY_OR_OTHER||Treatment Difference|78.5|||<|0.001|TWO_SIDED|95.0|66.9|85.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and ezetimibe use.||||85.1|66.9|<0.001
92300466|NCT01763918|184505052|SUPERIORITY_OR_OTHER||Treatment Difference|66.3|||<|0.001|TWO_SIDED|95.0|53.7|74.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and ezetimibe use||||74.6|53.7|<0.001
92300467|NCT01763918|184505052|SUPERIORITY_OR_OTHER||Treatment Difference|60.9|||<|0.001|TWO_SIDED|95.0|47.6|69.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and ezetimibe use.||||69.8|47.6|<0.001
92300468|NCT01763918|184505053|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-56.0|STANDARD_ERROR_OF_MEAN|2.74|<|0.001|TWO_SIDED|95.0|-61.41|-50.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-50.59|-61.41|<0.001
92300469|NCT01763918|184505053|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.01|STANDARD_ERROR_OF_MEAN|2.65|<|0.001|TWO_SIDED|95.0|-65.24|-54.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-54.77|-65.24|<0.001
92300470|NCT01763918|184505054|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-54.79|STANDARD_ERROR_OF_MEAN|2.87|<|0.001|TWO_SIDED|95.0|-60.47|-49.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-49.12|-60.47|<0.001
92300471|NCT01763918|184505054|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-54.95|STANDARD_ERROR_OF_MEAN|3.54|<|0.001|TWO_SIDED|95.0|-61.95|-47.96||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-47.96|-61.95|<0.001
92300472|NCT01763918|184505055|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.39|STANDARD_ERROR_OF_MEAN|2.5|<|0.001|TWO_SIDED|95.0|-54.32|-44.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-44.46|-54.32|<0.001
92300473|NCT01763918|184505055|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-54.98|STANDARD_ERROR_OF_MEAN|2.33|<|0.001|TWO_SIDED|95.0|-59.58|-50.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-50.38|-59.58|<0.001
92300474|NCT01763918|184505056|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.09|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-54.55|-43.63||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-43.63|-54.55|<0.001
92300475|NCT01763918|184505056|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.41|STANDARD_ERROR_OF_MEAN|3.19|<|0.001|TWO_SIDED|95.0|-55.73|-43.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-43.10|-55.73|<0.001
92300476|NCT01763918|184505057|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-46.59|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|-51.43|-41.76||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-41.76|-51.43|<0.001
92300477|NCT01763918|184505057|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.16|STANDARD_ERROR_OF_MEAN|2.56|<|0.001|TWO_SIDED|95.0|-54.21|-44.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-44.11|-54.21|<0.001
92300478|NCT01763918|184505058|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-46.08|STANDARD_ERROR_OF_MEAN|2.63|<|0.001|TWO_SIDED|95.0|-51.27|-40.88||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-40.88|-51.27|<0.001
92300479|NCT01763918|184505058|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-45.42|STANDARD_ERROR_OF_MEAN|3.77|<|0.001|TWO_SIDED|95.0|-52.86|-37.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-37.98|-52.86|<0.001
92186377|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|32.1|||||TWO_SIDED|95.0|11.99|85.81|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||85.81|11.99|
92300480|NCT01763918|184505059|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-53.17|STANDARD_ERROR_OF_MEAN|2.62|<|0.001|TWO_SIDED|95.0|-58.35|-47.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-47.99|-58.35|<0.001
92300481|NCT01763918|184505059|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-55.56|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-61.08|-50.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-50.05|-61.08|<0.001
92300482|NCT01763918|184505060|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-54.28|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|-60.16|-48.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-48.41|-60.16|<0.001
92300483|NCT01763918|184505060|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.55|STANDARD_ERROR_OF_MEAN|4.35|<|0.001|TWO_SIDED|95.0|-58.14|-40.96||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-40.96|-58.14|<0.001
92300484|NCT01763918|184505061|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-31.37|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|95.0|-38.33|-24.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-24.41|-38.33|<0.001
92300485|NCT01763918|184505061|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-31.0|STANDARD_ERROR_OF_MEAN|3.5|<|0.001|TWO_SIDED|95.0|-37.91|-24.09||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-24.09|-37.91|<0.001
92300486|NCT01763918|184505062|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-31.57|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-39.28|-23.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-23.87|-39.28|<0.001
92186378|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|78.1|||||TWO_SIDED|95.0|50.42|120.94|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||120.94|50.42|
92300487|NCT01763918|184505062|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-28.24|STANDARD_ERROR_OF_MEAN|3.73|<|0.001|TWO_SIDED|95.0|-35.61|-20.88||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-20.88|-35.61|<0.001
92186379|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|10.3|||||TWO_SIDED|95.0|6.8|15.72|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||15.72|6.80|
92300488|NCT01763918|184505063|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-22.36|STANDARD_ERROR_OF_MEAN|3.6|<|0.001|TWO_SIDED|95.0|-29.48|-15.24||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-15.24|-29.48|<0.001
92300489|NCT01763918|184505063|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-16.74|STANDARD_ERROR_OF_MEAN|3.89|<|0.001|TWO_SIDED|95.0|-24.43|-9.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-9.05|-24.43|<0.001
92300490|NCT01763918|184505064|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-19.59|STANDARD_ERROR_OF_MEAN|4.22|<|0.001|TWO_SIDED|95.0|-27.92|-11.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-11.26|-27.92|<0.001
92300491|NCT01763918|184505064|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-11.56|STANDARD_ERROR_OF_MEAN|4.97|<|0.001|TWO_SIDED|95.0|-21.38|-1.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-1.74|-21.38|<0.001
92186380|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|61.7|||||TWO_SIDED|95.0|32.75|116.34|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||116.34|32.75|
92186381|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|536.5|||||TWO_SIDED|95.0|212.04|1357.19|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1357.19|212.04|
92300492|NCT01763918|184505065|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|8.38|STANDARD_ERROR_OF_MEAN|2.04|<|0.001|TWO_SIDED|95.0|4.36|12.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||12.40|4.36|<0.001
92300493|NCT01763918|184505065|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|9.48|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|5.1|13.85||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||13.85|5.10|<0.001
92300494|NCT01763918|184505066|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|9.2|STANDARD_ERROR_OF_MEAN|2.3|<|0.001|TWO_SIDED|95.0|4.66|13.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||13.74|4.66|<0.001
92300495|NCT01763918|184505066|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|9.07|STANDARD_ERROR_OF_MEAN|2.83|<|0.001|TWO_SIDED|95.0|3.48|1466.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||1466|3.48|<0.001
92300496|NCT01763918|184505067|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-22.63|STANDARD_ERROR_OF_MEAN|3.46|<|0.001|TWO_SIDED|95.0|-29.46|-15.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-15.81|-29.46|<0.001
92300497|NCT01763918|184505067|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-15.54|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-23.25|-7.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-7.84|-23.25|<0.001
92300498|NCT01763918|184505068|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-20.97|STANDARD_ERROR_OF_MEAN|4.21|<|0.001|TWO_SIDED|95.0|-29.29|-12.66||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-12.66|-29.29|<0.001
92300499|NCT01763918|184505068|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-9.17|STANDARD_ERROR_OF_MEAN|4.98|<|0.001|TWO_SIDED|95.0|-19.01|0.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||0.68|-19.01|<0.001
92300500|NCT01553747|184505074|SUPERIORITY||||||<|0.001||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||<0.001
92300501|NCT01553747|184505074|SUPERIORITY||||||<|0.001||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||<0.001
92300502|NCT01553747|184505075|SUPERIORITY|||||||0.001||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||0.001
92300503|NCT01553747|184505075|SUPERIORITY||||||<|0.001||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||<0.001
92300504|NCT01490931|184505109|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P value adjusted with Bonferroni corrections for multiple comparisons|t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
92300505|NCT01490931|184505113|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
92300506|NCT01490931|184505114|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
92300507|NCT01490931|184505115|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
92300508|NCT01490931|184505116|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
92300509|NCT01490931|184505117|SUPERIORITY_OR_OTHER||||||<|1|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0001
92300510|NCT01490931|184505118|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
92300511|NCT01490931|184505119|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
92300512|NCT01490931|184505120|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
92300513|NCT05528861|184505154|SUPERIORITY||LSM Difference from Placebo|0.5|STANDARD_ERROR_OF_MEAN|2.1||0.8174|TWO_SIDED|95.0|-3.6|4.5|||ANCOVA|||||4.5|-3.6|0.8174
92300514|NCT05528861|184505155|SUPERIORITY||LSM Difference from Placebo|0.6|STANDARD_ERROR_OF_MEAN|1.1||0.5857|TWO_SIDED|95.0|-1.6|2.8|||Mixed Models Analysis|||||2.8|-1.6|0.5857
92300515|NCT05528861|184505156|SUPERIORITY||LSM Difference from Placebo|-0.1|STANDARD_ERROR_OF_MEAN|1.1||0.9633|TWO_SIDED|95.0|-2.2|2.1|||Mixed Models Analysis|||||2.1|-2.2|0.9633
92300516|NCT05528861|184505157|SUPERIORITY||Risk Difference (RD)|6.25||||0.1201|TWO_SIDED|95.0|-11.4|23.78|||Fisher Exact|||||23.78|-11.40|0.1201
92300517|NCT01602172|184505171|EQUIVALENCE|Results of the regression models were used to reject null hypotheses of equivalence with p-values of comparisons across groups in changes in alcohol related measures using p-values \< 0.05 as significant.||||||0.05||||||First, significance of the regression model was viewed. When the overall model was significant, tests of the co-efficients were viewed. Primary effects of interest were the treatment group X time interactions.|Mixed Models Analysis|||Measures were compared with linear mixed effects regression models to compare impact of BI compared to usual care conditions. Analyses reported here included only those that completed the 6 month interview (71/82 baseline participants).||||.05
92300518|NCT01056640|184505183|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31|STANDARD_ERROR_OF_MEAN|0.2865||0.05|TWO_SIDED|95.0|0.747|2.297|||Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum test, 2-sample t-test and Chi-square analysis were all used.||All analyses were performed using an intent-to-treat method. Wilcoxon rank sum test, 2-sample t test, or Chi-Square analysis was used to compare baseline characteristics. The primary end points of combined and individual percentages of hospitalizations and ED visits were compared using Chi-Square test. Statistical adjustment was planned only if there were statistical differences in clinical variables between the groups. All tests for significance used a 2-sided P value of .05.||2.297|0.747|0.05
92300519|NCT00518882|184505195|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority concluded if upper confidence interval of test is below 0.4%|Estimated treatment difference, LS Mean|-0.33|||<|0.0001||95.0|-0.47|-0.18||No multiplicity concerns|ANCOVA|||"ANCOVA with treatment, country and previous OAD treatment as fixed effects and baseline HbA1c as covariate.~2 hypotheses were tested: H01: µliraglutide ≥ µexenatide + Δ, HA1: µliraglutide \< µexenatide + Δ; Δ=0.4%. If non-inferiority was concluded, a test for superiority was established by a 1-sided test of the hypothesis H02: µliraglutide ≥ µexenatide against HA2: µliraglutide \< µexenatide. Superiority was concluded if the upper limit of the 2-sided 95% CI for the difference was below 0%."||-0.18|-0.47|<.0001
92300520|NCT00518882|184505196|SUPERIORITY_OR_OTHER||Mean|0.25|STANDARD_DEVIATION|0.803|<|0.0001||95.0|0.139|0.364|||Paired t-test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.364|0.139|<0.0001
92300521|NCT00518882|184505196|SUPERIORITY_OR_OTHER||Mean|0.0|STANDARD_DEVIATION|0.924||0.9872||95.0|-1.36|0.134|||Paired t-test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.134|-1.36|0.9872
92300522|NCT00518882|184505197|SUPERIORITY_OR_OTHER||Mean|-0.98|STANDARD_DEVIATION|1.119|<|0.0001||95.0|-1.137|-0.823|||Paired t-test|||The analysis was made with a paired t test within the treatment group and 95% confidence intervals for the difference between Weeks 0 and 78 were constructed. H0 was µ78 - µ0 = 0 against HA: µ78 - µ0 ≠ 0. A difference between the two means (Weeks 0 and 78) was concluded when H0 was rejected at the 5% level.||-0.823|-1.137|<0.0001
92186382|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|116.9|||||TWO_SIDED|95.0|33.28|410.33|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||410.33|33.28|
92300523|NCT00518882|184505197|SUPERIORITY_OR_OTHER||Mean|-0.85|STANDARD_DEVIATION|1.105|<|0.0001||95.0|-1.01|-0.687|||Paired t-test|||The analysis was made with a paired t test within the exenatide→liraglutide group and 95% confidence intervals for the difference between Weeks 0 and 78 were constructed. H0 was µ78 - µ0 = 0 against HA: µ78 - µ0 ≠ 0. A difference between the two means (Weeks 0 and 78) was concluded when H0 was rejected at the 5% level.||-0.687|-1.010|<0.0001
92300524|NCT00518882|184505200|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.38||||0.2235||95.0|-0.99|0.23||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline body weight as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the body weight in the liraglutide arm and exenatide arm, respectively.||0.23|-0.99|0.2235
92300525|NCT00518882|184505201|SUPERIORITY_OR_OTHER||Mean|-0.4|STANDARD_DEVIATION|3.24||0.0793||95.0|-0.86|0.05|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26=0 against HA: µ78 - µ26 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.05|-0.86|0.0793
92300526|NCT00518882|184505201|SUPERIORITY_OR_OTHER||Mean|-0.7|STANDARD_DEVIATION|3.67||0.0075||95.0|-1.26|-0.2|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||-0.20|-1.26|0.0075
92300527|NCT00518882|184505202|SUPERIORITY_OR_OTHER||Mean|-3.3|STANDARD_DEVIATION|4.63|<|0.0001||95.0|-3.9|-2.61|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-2.61|-3.90|<0.0001
92300528|NCT00518882|184505202|SUPERIORITY_OR_OTHER||Mean|-3.2|STANDARD_DEVIATION|4.44|<|0.0001||95.0|-3.85|-2.55|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-2.55|-3.85|<0.0001
92300529|NCT00518882|184505203|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-1.01|||<|0.0001||95.0|-1.37|-0.65||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline fasting plasma glucose as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the fasting plasma glucose in the liraglutide and exenatide arm, respectively.||-0.65|-1.37|<0.0001
92300530|NCT00518882|184505204|SUPERIORITY_OR_OTHER||Mean|0.7|STANDARD_DEVIATION|1.84|<|0.0001||95.0|0.48|1.0|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 26 and 78 were constructed. H0 was µ78- µ26=0 against HA: µ78 - µ26 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||1.00|0.48|<0.0001
92186383|NCT00824850|184271534|SUPERIORITY_OR_OTHER||geometric mean fold rise|24.6|||||TWO_SIDED|95.0|11.3|53.42|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||53.42|11.30|
92186384|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|168.8|||||TWO_SIDED|95.0|20.22|1409.76|||||CI for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1409.76|20.22|
92300531|NCT00518882|184505204|SUPERIORITY_OR_OTHER||Mean|-0.1|STANDARD_DEVIATION|2.42||0.4864||95.0|-0.48|0.23|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.23|-0.48|0.4864
92300532|NCT00518882|184505205|SUPERIORITY_OR_OTHER||Mean|-1.3|STANDARD_DEVIATION|2.5|<|0.0001||95.0|-1.62|-0.92|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78 - µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.92|-1.62|<0.0001
92300533|NCT00518882|184505205|SUPERIORITY_OR_OTHER||Mean|-0.8|STANDARD_DEVIATION|2.76|<|0.0001||95.0|-1.23|-0.42|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78 - µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.42|-1.23|<0.0001
92186385|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|40.3|||||TWO_SIDED|95.0|10.97|148.44|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMRFs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||148.44|10.97|
92300534|NCT00518882|184505206|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|1.33|||<|0.0001||95.0|0.8|1.86||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||1.86|0.80|<.0001
92300535|NCT00518882|184505207|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.01||||0.9849||95.0|-0.52|0.53||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.53|-0.52|0.9849
92186386|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|61.9|||||TWO_SIDED|95.0|18.83|203.72|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||203.72|18.83|
92300536|NCT00518882|184505208|SUPERIORITY_OR_OTHER||LS Mean|1.01||||0.0005||95.0|0.44|1.57||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||1.57|0.44|0.0005
92300537|NCT00518882|184505209|SUPERIORITY_OR_OTHER||Mean|-0.22|STANDARD_DEVIATION|2.866||0.2972||95.0|-0.626|0.192|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.192|-0.626|0.2972
92300538|NCT00518882|184505209|SUPERIORITY_OR_OTHER||Mean|1.15|STANDARD_DEVIATION|3.253|<|0.0001||95.0|0.66|1.637|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||1.637|0.660|<0.0001
92300539|NCT00518882|184505210|SUPERIORITY_OR_OTHER||Mean|0.05|STANDARD_DEVIATION|3.307||0.8396||95.0|-0.424|0.521|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.521|-0.424|0.8396
92300540|NCT00518882|184505210|SUPERIORITY_OR_OTHER||Mean|-0.09|STANDARD_DEVIATION|3.419||0.7278||95.0|-0.604|0.423|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.423|-0.604|0.7278
92300541|NCT00518882|184505211|SUPERIORITY_OR_OTHER||Mean|0.22|STANDARD_DEVIATION|3.053||0.3271||95.0|-0.219|0.654|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.654|-0.219|0.3271
92300542|NCT00518882|184505211|SUPERIORITY_OR_OTHER||Mean|1.07|STANDARD_DEVIATION|3.775||0.0003||95.0|0.497|1.634|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||1.634|0.497|0.0003
92186387|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|26.7|||||TWO_SIDED|95.0|9.67|73.84|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||73.84|9.67|
92300543|NCT00518882|184505212|SUPERIORITY_OR_OTHER||Mean|-1.08|STANDARD_DEVIATION|3.662|<|0.0001||95.0|-1.605|-0.562|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.562|-1.605|<0.0001
92300544|NCT00518882|184505212|SUPERIORITY_OR_OTHER||Mean|-0.99|STANDARD_DEVIATION|3.467||0.0003||95.0|-1.517|-0.458|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.458|-1.517|0.0003
92300545|NCT00518882|184505213|SUPERIORITY_OR_OTHER||Mean|0.26|STANDARD_DEVIATION|4.158||0.3859||95.0|-0.331|0.853|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.853|-0.331|0.3859
92300546|NCT00518882|184505213|SUPERIORITY_OR_OTHER||Mean|-0.37|STANDARD_DEVIATION|3.838||0.2119||95.0|-0.956|0.214|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.214|-0.956|0.2119
92186388|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|226.9|||||TWO_SIDED|95.0|79.81|645.29|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||645.29|79.81|
92186389|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|116.8|||||TWO_SIDED|95.0|54.54|250.13|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||250.13|54.54|
92186390|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|481.0|||||TWO_SIDED|95.0|207.01|1117.69|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1117.69|207.01|
92300547|NCT00518882|184505214|SUPERIORITY_OR_OTHER||Mean|-0.35|STANDARD_DEVIATION|3.975||0.229||95.0|-0.917|0.2211|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.2211|-0.917|0.2290
92300548|NCT00518882|184505214|SUPERIORITY_OR_OTHER||Mean|-0.95|STANDARD_DEVIATION|3.23||0.0002||95.0|-1.449|-0.459|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.459|-1.449|0.0002
92300549|NCT00518882|184505215|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.73||||0.0124||95.0|0.16|1.31||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||1.31|0.16|0.0124
92300550|NCT00518882|184505216|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.39||||0.143||95.0|-0.91|0.13||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.13|-0.91|0.1430
92300551|NCT00518882|184505217|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.54||||0.038||95.0|0.03|1.05||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||1.05|0.03|0.0380
92300552|NCT00518882|184505218|SUPERIORITY_OR_OTHER||Mean|0.06|STANDARD_DEVIATION|2.827||0.77||95.0|-0.344|0.463|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.463|-0.344|0.7700
92300553|NCT00518882|184505218|SUPERIORITY_OR_OTHER||Mean|0.72|STANDARD_DEVIATION|3.27||0.0042||95.0|0.23|1.212|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||1.212|0.230|0.0042
92300554|NCT00518882|184505219|SUPERIORITY_OR_OTHER||Mean|0.67|STANDARD_DEVIATION|3.041||0.0026||95.0|0.238|1.106|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||1.106|0.238|0.0026
92300555|NCT00518882|184505219|SUPERIORITY_OR_OTHER||Mean|-0.09|STANDARD_DEVIATION|2.989||0.6845||95.0|-0.541|0.356|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.356|-0.541|0.6845
92300556|NCT00518882|184505220|SUPERIORITY_OR_OTHER||Mean|0.32|STANDARD_DEVIATION|2.705||0.1041||95.0|-0.066|0.706|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.706|-0.066|0.1041
92300557|NCT00518882|184505220|SUPERIORITY_OR_OTHER||Mean|0.58|STANDARD_DEVIATION|3.114||0.0151||95.0|0.114|1.052|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||1.052|0.114|0.0151
92186391|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|66.5|||||TWO_SIDED|95.0|41.8|105.75|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||105.75|41.80|
92300558|NCT00518882|184505221|SUPERIORITY_OR_OTHER||Mean|-3.31|STANDARD_DEVIATION|3.857|<|0.0001||95.0|-3.861|-2.763|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-2.763|-3.861|<0.0001
92300559|NCT00518882|184505221|SUPERIORITY_OR_OTHER||Mean|-3.13|STANDARD_DEVIATION|3.56|<|0.0001||95.0|-3.673|-2.589|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-2.589|-3.673|<0.0001
92300560|NCT00518882|184505222|SUPERIORITY_OR_OTHER||Mean|-1.93|STANDARD_DEVIATION|3.703|<|0.0001||95.0|-2.457|-1.403|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-1.403|-2.457|<0.0001
92300561|NCT00518882|184505222|SUPERIORITY_OR_OTHER||Mean|-2.17|STANDARD_DEVIATION|3.654|<|0.0001||95.0|-2.731|-1.618|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-1.618|-2.731|<0.0001
92300562|NCT00518882|184505223|SUPERIORITY_OR_OTHER||Mean|-2.21|STANDARD_DEVIATION|3.752|<|0.0001||95.0|-2.747|-1.676|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-1.676|-2.747|<0.0001
92300563|NCT00518882|184505223|SUPERIORITY_OR_OTHER||Mean|-2.55|STANDARD_DEVIATION|3.625|<|0.0001||95.0|-3.104|-1.997|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-1.997|-3.104|<0.0001
92300564|NCT00518882|184505224|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|29.37|||<|0.0001||95.0|16.81|41.93||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||41.93|16.81|<.0001
92300565|NCT00518882|184505225|SUPERIORITY_OR_OTHER||Mean|-18.18|STANDARD_DEVIATION|62.811|<|0.0001||95.0|-26.988|-9.382|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||-9.382|-26.988|<0.0001
92300566|NCT00518882|184505225|SUPERIORITY_OR_OTHER||Mean|2.49|STANDARD_DEVIATION|52.997||0.5304||95.0|-5.327|10.307|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||10.307|-5.327|0.5304
92300567|NCT00518882|184505226|SUPERIORITY_OR_OTHER||Mean|24.86|STANDARD_DEVIATION|59.326|<|0.0001||95.0|16.348|33.374|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||33.374|16.348|<0.0001
92300568|NCT00518882|184505226|SUPERIORITY_OR_OTHER||Mean|11.13|STANDARD_DEVIATION|87.145||0.092||95.0|-1.835|24.093|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||24.093|-1.835|0.0920
92300569|NCT00518882|184505227|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.11||||0.0946||95.0|-0.23|0.02||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.02|-0.23|0.0946
92300570|NCT00518882|184505228|SUPERIORITY_OR_OTHER||Mean|0.11|STANDARD_DEVIATION|0.774||0.0513||95.0|-0.001|0.216|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.216|-0.001|0.0513
92300571|NCT00518882|184505228|SUPERIORITY_OR_OTHER||Mean|0.12|STANDARD_DEVIATION|0.804||0.0513||95.0|-0.001|0.233|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.233|-0.001|0.0513
92186392|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.6|||||TWO_SIDED|95.0|5.36|13.94|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||13.94|5.36|
92300572|NCT00518882|184505229|SUPERIORITY_OR_OTHER||Mean|-0.07|STANDARD_DEVIATION|0.859||0.2764||95.0|-0.187|0.054|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.054|-0.187|0.2764
92300573|NCT00518882|184505229|SUPERIORITY_OR_OTHER||Mean|0.09|STANDARD_DEVIATION|0.89||0.1911||95.0|-0.043|0.216|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.216|-0.043|0.1911
92300574|NCT00518882|184505230|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.04||||0.4412||95.0|-0.15|0.06||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.06|-0.15|0.4412
92300575|NCT00518882|184505231|SUPERIORITY_OR_OTHER||Mean|0.03|STANDARD_DEVIATION|0.606||0.4746||95.0|-0.054|0.115|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.115|-0.054|0.4746
92300576|NCT00518882|184505231|SUPERIORITY_OR_OTHER||Mean|0.08|STANDARD_DEVIATION|0.72||0.1281||95.0|-0.024|0.188|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.188|-0.024|0.1281
92300577|NCT00518882|184505232|SUPERIORITY_OR_OTHER||Mean|-0.3|STANDARD_DEVIATION|0.604|<|0.0001||95.0|-0.39|-0.214|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.214|-0.390|<0.0001
92300578|NCT00518882|184505232|SUPERIORITY_OR_OTHER||Mean|-0.21|STANDARD_DEVIATION|0.647|<|0.0001||95.0|-0.303|-0.11|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.110|-0.303|<0.0001
92300579|NCT00518882|184505233|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.07||||0.0277||95.0|-0.13|-0.01||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||-0.01|-0.13|0.0277
92300580|NCT00518882|184505234|SUPERIORITY_OR_OTHER||Mean|0.06|STANDARD_DEVIATION|0.29||0.003||95.0|0.021|0.102|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.102|0.021|0.0030
92300581|NCT00518882|184505234|SUPERIORITY_OR_OTHER||Mean|0.03|STANDARD_DEVIATION|0.307||0.1452||95.0|-0.012|0.079|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.079|-0.012|0.1452
92300582|NCT00518882|184505235|SUPERIORITY_OR_OTHER||Mean|0.27|STANDARD_DEVIATION|0.306|<|0.0001||95.0|0.223|0.315|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.315|0.223|<0.0001
92300583|NCT00518882|184505235|SUPERIORITY_OR_OTHER||Mean|0.31|STANDARD_DEVIATION|0.346|<|0.0001||95.0|0.259|0.364|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.364|0.259|<0.0001
92300584|NCT00518882|184505236|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.01||||0.5105||95.0|-0.02|0.04||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.04|-0.02|0.5105
92300585|NCT00518882|184505237|SUPERIORITY_OR_OTHER||Mean|-0.01|STANDARD_DEVIATION|0.15||0.222||95.0|-0.034|0.008|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.008|-0.034|0.2220
92300586|NCT00518882|184505237|SUPERIORITY_OR_OTHER||Mean|0.0|STANDARD_DEVIATION|0.141||0.7923||95.0|-0.018|0.024|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.024|-0.018|0.7923
92186393|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|78.2|||||TWO_SIDED|95.0|41.38|147.8|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||147.80|41.38|
92186394|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|438.1|||||TWO_SIDED|95.0|169.52|1132.43|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1132.43|169.52|
92300587|NCT00518882|184505238|SUPERIORITY_OR_OTHER||Mean|-0.03|STANDARD_DEVIATION|0.159||0.0254||95.0|-0.05|-0.003|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.003|-0.050|0.0254
92300588|NCT00518882|184505238|SUPERIORITY_OR_OTHER||Mean|-0.02|STANDARD_DEVIATION|0.165||0.2244||95.0|-0.04|0.009|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.009|-0.040|0.2244
92186395|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|80.0|||||TWO_SIDED|95.0|23.28|274.82|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||274.82|23.28|
92300589|NCT00518882|184505239|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.18||||0.0485||95.0|-0.37|0.0||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||-0.00|-0.37|0.0485
92186396|NCT00824850|184271535|SUPERIORITY_OR_OTHER||geometric mean fold rise|61.5|||||TWO_SIDED|95.0|28.73|131.76|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||131.76|28.73|
92186397|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|281.7|||||TWO_SIDED|95.0|76.65|1035.49|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1035.49|76.65|
92186398|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.6|||||TWO_SIDED|95.0|3.47|16.75|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||16.75|3.47|
92186399|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|151.4|||||TWO_SIDED|95.0|42.01|545.84|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||545.84|42.01|
92186400|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|23.7|||||TWO_SIDED|95.0|8.67|64.54|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||64.54|8.67|
92186401|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|102.1|||||TWO_SIDED|95.0|32.0|325.4|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||325.40|32.00|
92186402|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|31.1|||||TWO_SIDED|95.0|12.71|76.13|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||76.13|12.71|
92186403|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|18.7|||||TWO_SIDED|95.0|6.82|51.39|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||51.39|6.82|
92300590|NCT00518882|184505240|SUPERIORITY_OR_OTHER||Mean|0.1|STANDARD_DEVIATION|0.82||0.1161||95.0|-0.02|0.21|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.21|-0.02|0.1161
92300591|NCT00518882|184505240|SUPERIORITY_OR_OTHER||Mean|0.0|STANDARD_DEVIATION|0.96||0.7888||95.0|-0.16|0.12|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.12|-0.16|0.7888
92186404|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|64.4|||||TWO_SIDED|95.0|37.33|111.18|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||111.18|37.33|
92186405|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.1|||||TWO_SIDED|95.0|6.64|18.52|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||18.52|6.64|
92186406|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|41.2|||||TWO_SIDED|95.0|23.09|73.48|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||73.48|23.09|
92186407|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|479.6|||||TWO_SIDED|95.0|171.63|1339.96|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1339.96|171.63|
92300592|NCT00518882|184505241|SUPERIORITY_OR_OTHER||Mean|-0.3|STANDARD_DEVIATION|1.07||0.0003||95.0|-0.43|-0.13|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.13|-0.43|0.0003
92300593|NCT00518882|184505241|SUPERIORITY_OR_OTHER||Mean|-0.1|STANDARD_DEVIATION|1.47||0.2078||95.0|-0.35|0.08|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.08|-0.35|0.2078
92300594|NCT00518882|184505242|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.07||||0.0014||95.0|-0.11|-0.03||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||-0.03|-0.11|0.0014
92300595|NCT00518882|184505243|SUPERIORITY_OR_OTHER||Mean|0.06|STANDARD_DEVIATION|0.269||0.0018||95.0|0.023|0.098|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.098|0.023|0.0018
92300596|NCT00518882|184505243|SUPERIORITY_OR_OTHER||Mean|0.01|STANDARD_DEVIATION|0.272||0.5499||95.0|-0.028|0.052|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.052|-0.028|0.5499
92300597|NCT00518882|184505244|SUPERIORITY_OR_OTHER||Mean|-0.1|STANDARD_DEVIATION|0.273|<|0.0001||95.0|-0.14|-0.062|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.062|-0.140|<0.0001
92300598|NCT00518882|184505244|SUPERIORITY_OR_OTHER||Mean|-0.07|STANDARD_DEVIATION|0.302||0.0012||95.0|-0.118|-0.03|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||-0.030|-0.118|0.0012
92300599|NCT00518882|184505245|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.02||||0.1119||95.0|-0.05|0.01||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.01|-0.05|0.1119
92300600|NCT00518882|184505246|SUPERIORITY_OR_OTHER||Mean|-0.02|STANDARD_DEVIATION|0.168||0.1342||95.0|-0.041|0.006|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.006|-0.041|0.1342
92300601|NCT00518882|184505246|SUPERIORITY_OR_OTHER||Mean|-0.03|STANDARD_DEVIATION|0.189||0.0344||95.0|-0.057|-0.002|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||-0.002|-0.057|0.0344
92300602|NCT00518882|184505247|SUPERIORITY_OR_OTHER||Mean|-0.08|STANDARD_DEVIATION|0.176|<|0.0001||95.0|-0.105|-0.056|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.056|-0.105|<0.0001
92300603|NCT00518882|184505247|SUPERIORITY_OR_OTHER||Mean|-0.07|STANDARD_DEVIATION|0.192|<|0.0001||95.0|-0.094|-0.038|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.038|-0.094|<0.0001
92300604|NCT04740931|184505252|NON_INFERIORITY|If the lower bound of a two-sided 95% confidence interval (CI) for the difference in adjusted means of the two treatments (faricimab minus aflibercept) is greater than -4 letters (the non-inferiority margin), then faricimab is considered non-inferior to aflibercept.|Difference in Adjusted Means|-0.4|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.5|1.6|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The null hypothesis, H0: μ(faricimab) - μ(aflibercept) ≤-4 letters; the alternative hypothesis, Ha: μ(faricimab) - μ(aflibercept) \>-4 letters. The final sample size provided \>90% power for the non-inferiority assessment (at a one-sided 0.02485 significance level).||1.6|-2.5|
92300605|NCT04740931|184505252|SUPERIORITY||Difference in Adjusted Means|-0.4|STANDARD_ERROR_OF_MEAN|1.04||0.6715|TWO_SIDED|95.0|-2.5|1.6||Tested at a two-sided p\<0.0497 significance level.|Mixed Model of Repeated Measures||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The final sample size provided \>80% power for a 3.5-letter superiority assessment of faricimab over aflibercept (at a two-sided 0.0497 significance level).||1.6|-2.5|0.6715
92300606|NCT04740931|184505254|OTHER||Difference in CMH Weighted Percentage|-1.5|||||TWO_SIDED|95.0|-8.4|5.3||||||||5.3|-8.4|
92300607|NCT04740931|184505270|OTHER||Difference in Adjusted Means|-1.2|STANDARD_ERROR_OF_MEAN|0.77|||TWO_SIDED|95.0|-2.7|0.3||||||||0.3|-2.7|
92300608|NCT02696031|184505305|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0197|TWO_SIDED|95.0|1.09|2.7||unadjusted p-value|Regression, Logistic|||week 16||2.70|1.09|0.0197
92300609|NCT02696031|184505305|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0146|TWO_SIDED|95.0|1.12|2.76||unadjusted p-value|Regression, Logistic|||week 16||2.76|1.12|0.0146
92300610|NCT02696031|184505306|SUPERIORITY||Odds Ratio (OR)|2.21||||0.0017|TWO_SIDED|95.0|1.35|3.63||unadjusted p-value|Regression, Logistic|||week 52||3.63|1.35|0.0017
92300611|NCT02696031|184505306|SUPERIORITY||Odds Ratio (OR)|2.67|||<|0.0001|TWO_SIDED|95.0|1.64|4.36||unadjusted p-value|Regression, Logistic|||week 52||4.36|1.64|<.0001
92186408|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|76.4|||||TWO_SIDED|95.0|21.63|270.02|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||270.02|21.63|
92186409|NCT00824850|184271536|SUPERIORITY_OR_OTHER||geometric mean fold rise|17.7|||||TWO_SIDED|95.0|7.61|41.08|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||41.08|7.61|
92186410|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|170.2|||||TWO_SIDED|95.0|22.24|1301.79|||||CI for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1301.79|22.24|
92186411|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|17.8|||||TWO_SIDED|95.0|5.27|59.91|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMRFs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||59.91|5.27|
92186412|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|67.8|||||TWO_SIDED|95.0|18.45|249.02|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||249.02|18.45|
92186413|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|22.2|||||TWO_SIDED|95.0|7.94|61.88|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||61.88|7.94|
92186414|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|205.5|||||TWO_SIDED|95.0|70.04|602.78|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||602.78|70.04|
92186415|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|90.5|||||TWO_SIDED|95.0|40.28|203.27|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||203.27|40.28|
92186416|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|91.7|||||TWO_SIDED|95.0|36.25|232.13|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||232.13|36.25|
92300612|NCT02696031|184505307|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0108|TWO_SIDED|95.0|1.14|2.74||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|2.74|1.14|0.0108
92186417|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|75.6|||||TWO_SIDED|95.0|47.32|120.91|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||120.91|47.32|
92186418|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.7|||||TWO_SIDED|95.0|5.21|14.4|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||14.40|5.21|
92186419|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|60.0|||||TWO_SIDED|95.0|31.06|115.92|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||115.92|31.06|
92300613|NCT02696031|184505307|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0087|TWO_SIDED|95.0|1.16|2.78||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|2.78|1.16|0.0087
92300614|NCT02696031|184505307|SUPERIORITY|week 52|Odds Ratio (OR)|2.16||||0.0016|TWO_SIDED|95.0|1.34|3.49||unadjusted p-value|Regression, Linear||||Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|3.49|1.34|0.0016
92186420|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|269.8|||||TWO_SIDED|95.0|105.09|692.6|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||692.60|105.09|
92186421|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|37.7|||||TWO_SIDED|95.0|10.85|131.09|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||131.09|10.85|
92186422|NCT00824850|184271537|SUPERIORITY_OR_OTHER||geometric mean fold rise|44.8|||||TWO_SIDED|95.0|21.31|94.01|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||94.01|21.31|
92186423|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.97|||||TWO_SIDED|95.0|1.31|2.95|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 4: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.95|1.31|
92186424|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|2.95|||||TWO_SIDED|95.0|1.78|4.9|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 6B: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||4.90|1.78|
92186425|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.85|||||TWO_SIDED|95.0|1.25|2.75|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 9V: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.75|1.25|
92186426|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|2.24|||||TWO_SIDED|95.0|1.11|4.53|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 14: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||4.53|1.11|
92186427|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|0.63|||||TWO_SIDED|95.0|0.38|1.05|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 18C: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.05|0.38|
92186428|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|0.9|||||TWO_SIDED|95.0|0.5|1.62|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 19F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.62|0.50|
92186429|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|0.83|||||TWO_SIDED|95.0|0.48|1.43|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 23F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.43|0.48|
92186430|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.7|||||TWO_SIDED|95.0|0.96|3.0|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 1: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||3.00|0.96|
92300615|NCT02696031|184505307|SUPERIORITY|week 52|Median Difference (Net)|2.61|||<|0.0001|TWO_SIDED|95.0|1.62|4.19||unadjusted p-value|Regression, Linear||||Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|4.19|1.62|<.0001
92300616|NCT02696031|184505308|SUPERIORITY||Odds Ratio (OR)|1.6||||0.026|TWO_SIDED|95.0|1.06|2.43||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|2.43|1.06|0.0260
92186431|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.25|||||TWO_SIDED|95.0|0.79|1.96|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 3: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.96|0.79|
92186432|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|0.9|||||TWO_SIDED|95.0|0.54|1.52|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 5: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.52|0.54|
92186433|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.81|||||TWO_SIDED|95.0|0.98|3.34|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 6A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||3.34|0.98|
92186434|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.72|||||TWO_SIDED|95.0|1.05|2.83|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 7F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.83|1.05|
92300617|NCT02696031|184505308|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0149|TWO_SIDED|95.0|1.11|2.54||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|2.54|1.11|0.0149
92300618|NCT02696031|184505309|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0005|TWO_SIDED|95.0|1.43|3.58||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNF-alpha status as factors and baseline weight as a covariate.|3.58|1.43|0.0005
92300619|NCT02696031|184505309|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0094|TWO_SIDED|95.0|1.16|2.94||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNF-alpha status as factors and baseline weight as a covariate.|2.94|1.16|0.0094
92300620|NCT02696031|184505310|SUPERIORITY||Odds Ratio (OR)|3.8|||<|0.0001|TWO_SIDED|95.0|1.95|7.39||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNF-alpha status as factors and baseline weight as a covariate.|7.39|1.95|<.0001
92300621|NCT02696031|184505310|SUPERIORITY||Odds Ratio (OR)|3.64||||0.0001|TWO_SIDED|95.0|1.87|7.1||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNF-alpha status as factors and baseline weight as a covariate.|7.10|1.87|0.0001
92300622|NCT02696031|184505311|SUPERIORITY||LS Mean|-0.75|STANDARD_ERROR_OF_MEAN|0.259||0.0041|TWO_SIDED|95.0|-1.26|-0.24||unadjusted p-value|MMRM|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.24|-1.26|0.0041
92300623|NCT02696031|184505311|SUPERIORITY||LS Mean|-0.64|STANDARD_ERROR_OF_MEAN|0.259||0.0143|TWO_SIDED|95.0|-1.15|-0.13||unadjusted p-value|MMRM|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.13|-1.15|0.0143
92300624|NCT02696031|184505312|SUPERIORITY||Odds Ratio (OR)|2.53||||0.0001|TWO_SIDED|95.0|1.58|4.07||unadjusted p-value|Regression, Logistic|||week 16|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders."|4.07|1.58|0.0001
92300625|NCT02696031|184505312|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0002|TWO_SIDED|95.0|1.51|3.89||unadjusted p-value|Regression, Logistic|||week 16|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders."|3.89|1.51|0.0002
92186435|NCT00824850|184271538|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.06|||||TWO_SIDED|95.0|0.67|1.66|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 19A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.66|0.67|
92300626|NCT02696031|184505312|SUPERIORITY||Odds Ratio (OR)|1.99||||0.0056|TWO_SIDED|95.0|1.22|3.24||unadjusted p-value|Regression, Logistic|||week 52|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders."|3.24|1.22|0.0056
92300627|NCT02696031|184505312|SUPERIORITY||Odds Ratio (OR)|2.34||||0.0005|TWO_SIDED|95.0|1.45|3.78||unadjusted p-value|Regression, Logistic|||week 52|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders."|3.78|1.45|0.0005
92300628|NCT02696031|184505313|SUPERIORITY||LS Mean of treatment difference|-0.89|STANDARD_ERROR_OF_MEAN|0.256||0.0006|TWO_SIDED|95.0|-1.39|-0.38||unadjusted p-value|mixed model repeated measures (MMRM)|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.38|-1.39|0.0006
92300629|NCT02696031|184505313|SUPERIORITY||LS Mean of Treatment Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.255||0.0002|TWO_SIDED|95.0|-1.47|-0.47||unadjusted p-value|mixed model repeated measures (MMRM)|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.47|-1.47|0.0002
92300630|NCT02696031|184505314|SUPERIORITY||LS Mean|-1.61|STANDARD_ERROR_OF_MEAN|0.478||0.0008|TWO_SIDED|95.0|-2.54|-0.67||unadjusted p-value|MMRM|||week 16|LS Mean, 95% CI, and p-value are from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.67|-2.54|0.0008
92300631|NCT02696031|184505314|SUPERIORITY||LS Mean|-1.78|STANDARD_ERROR_OF_MEAN|0.479||0.0002|TWO_SIDED|95.0|-2.72|-0.84||unadjusted p-value|MMRM|||week 16|LS Mean, 95% CI, and p-value are from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.84|-2.72|0.0002
92300632|NCT02696031|184505315|SUPERIORITY|||||||0.0012||||||unadjusted p-value|Wilcoxon (Mann-Whitney)|The endpoint was analyzed by composite estimand strategy. Extreme unfavorable value is assigned for patients with treatment escape or missing data.||||||0.0012
92300633|NCT02696031|184505315|SUPERIORITY||||||<|0.0001||||||unadjusted p-value|Wilcoxon (Mann-Whitney)|The endpoint was analyzed by composite estimand strategy. Extreme unfavorable value is assigned for patients with treatment escape or missing data.||||||<.0001
92300634|NCT02696031|184505316|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0577|TWO_SIDED|95.0|0.98|3.45||unadjusted p-value|Regression, Logistic|||week 52|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders. Patients were considered as non-responders after treatment switch decision."|3.45|0.98|0.0577
92186436|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|2.18|||||TWO_SIDED|95.0|1.26|3.79|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 4: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||3.79|1.26|
92300635|NCT02696031|184505316|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0003|TWO_SIDED|95.0|1.65|5.41||unadjusted p-value|Regression, Logistic|||week 52|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders. Patients were considered as non-responders after treatment switch decision."|5.41|1.65|0.0003
92300636|NCT02696031|184505317|SUPERIORITY||Relative Treatment Effect|0.7||||0.0002|TWO_SIDED|95.0|0.58|0.84||unadjusted p-value|MMRM|||week 16|Analysis was done on the log(e) ratio of the treatment value vs. baseline value to normalize the distribution of the hsCRP at each visit. LS Mean, SE, 95% CI and p-value were from mixed-effect model repeated measures (MMRM) with treatment, visit, stratification factor and TNFi status as factors, log(e) baseline and weight as covariates, treatment by visit and log(e) baseline by visit as interaction terms and an unstructured covariance|0.84|0.58|0.0002
92300637|NCT02696031|184505317|SUPERIORITY||Relative Treatment Effect|0.7||||0.0002||95.0|0.58|0.84||unadjusted p-value|MMRM|||week 16|Analysis was done on the log(e) ratio of the treatment value vs. baseline value to normalize the distribution of the hsCRP at each visit. LS Mean, SE, 95% CI and p-value were from mixed-effect model repeated measures (MMRM) with treatment, visit, stratification factor and TNFi status as factors, log(e) baseline and weight as covariates, treatment by visit and log(e) baseline by visit as interaction terms and an unstructured covariance structure.|0.84|0.58|0.0002
92300638|NCT02696031|184505318|SUPERIORITY||LS Mean of Treatment Difference|2.77|STANDARD_ERROR_OF_MEAN|0.799||0.0006|TWO_SIDED|95.0|1.2|4.34||unadjusted p-value|ANCOVA|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|4.34|1.20|0.0006
92300639|NCT02696031|184505318|SUPERIORITY||LS Mean of Treatment Difference|2.64|STANDARD_ERROR_OF_MEAN|0.803||0.0011|TWO_SIDED|95.0|1.06|4.22||unadjusted p-value|ANCOVA|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|4.22|1.06|0.0011
92300640|NCT02696031|184505319|SUPERIORITY||||||<|0.0001||||||unadjusted p-value|ANCOVA|||week 16|"LS Mean, 95% CI, and p-value were from an ANCOVA model with treatment group and stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates.~Missing data were imputed using multiple imputation (MI, MAR assumption) prior to running ANCOVA."|||<0.0001
92300641|NCT02696031|184505319|SUPERIORITY||||||<|0.0001||||||unadjusted p-value|ANCOVA|||week 16|"LS Mean, 95% CI, and p-value were from an ANCOVA model with treatment group and stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates.~Missing data were imputed using multiple imputation (MI, MAR assumption) prior to running ANCOVA."|||<0.0001
92186437|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|3.13|||||TWO_SIDED|95.0|1.84|5.32|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 6B: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||5.32|1.84|
92186438|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.68|||||TWO_SIDED|95.0|1.13|2.51|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 9V: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.51|1.13|
92186439|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.96|||||TWO_SIDED|95.0|0.95|4.07|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 14: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||4.07|0.95|
92300642|NCT02696031|184505320|SUPERIORITY||||||<|0.0001||||||unadjusted p-value|Wilcoxon (Mann-Whitney)|The endpoint was analyzed by composite estimand strategy. Extreme unfavorable value is assigned for patients with treatment escape or missing data.||||||<.0001
92300643|NCT02696031|184505320|SUPERIORITY||||||<|0.0001||||||unadjusted p-value|Wilcoxon (Mann-Whitney)|The endpoint was analyzed by composite estimand strategy. Extreme unfavorable value is assigned for patients with treatment escape or missing data.||||||<.0001
92300644|NCT00063882|184505334|SUPERIORITY||Cox Proportional Hazard|0.82||||0.21|TWO_SIDED|95.0|0.6|1.12||One-sided significance level of 0.025|Greenwood's T||Reference level = Brachytherapy only|Target sample size was 586; 532 patients were needed to test hypothesis of better FFP in the EBRT + Brachytherapy arm over the Brachytherapy Only arm. The trial is designed to detect a 10% improvement in 5-year FFP with 90% power, 1-sided alpha of 0.025. The Z-test statistic for the difference between the 2 5-year FFP rates with the standard errors estimated by Greenwood's method will be used.||1.12|0.60|0.21
92300645|NCT00063882|184505335|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.95|TWO_SIDED|95.0|0.63|1.54||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||1.54|0.63|0.95
92300646|NCT00063882|184505336|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.97|TWO_SIDED|95.0|0.64|1.58||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||1.58|0.64|0.97
92300647|NCT00063882|184505337|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.77|TWO_SIDED|95.0|0.36|3.9||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||3.90|0.36|0.77
92300648|NCT00063882|184505338|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.99|TWO_SIDED|95.0|0.33|3.13||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||3.13|0.33|0.99
92300649|NCT00063882|184505339|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.81|TWO_SIDED|95.0|0.46|2.76||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||2.76|0.46|0.81
92300650|NCT00063882|184505340|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.22|TWO_SIDED|95.0|0.51|1.17||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||1.17|0.51|0.22
92300651|NCT00063882|184505341|SUPERIORITY||Odds Ratio (OR)|1.13||||0.53|TWO_SIDED|95.0|0.76|1.67||One-sided significance level of 0.05|Chi-squared||Reference level = Brachytherapy Only|Grade 2+ GU/GI||1.67|0.76|0.53
92300652|NCT00063882|184505341|SUPERIORITY||Odds Ratio (OR)|1.06||||0.73|TWO_SIDED|95.0|0.73|1.53||One-sided significance level of 0.05|Chi-squared||Reference level = Brachytherapy Only|Grade 2+ Overall||1.53|0.73|0.73
92300653|NCT00063882|184505341|SUPERIORITY||Odds Ratio (OR)|1.09||||0.81|TWO_SIDED|95.0|0.54|2.19||One-sided significance level of 0.05|Chi-squared||Reference level = Brachytherapy Only|Grade 3+ GU/GI||2.19|0.54|0.81
92300654|NCT00063882|184505341|SUPERIORITY||Odds Ratio (OR)|0.93||||0.82|TWO_SIDED|95.0|0.51|1.69||One-sided significance level of 0.05|Chi-squared||Reference level = Brachytherapy Only|Grade 3+ Overall||1.69|0.51|0.82
92300655|NCT00063882|184505342|SUPERIORITY||Hazard Ratio (HR)|2.37||||0.01|TWO_SIDED|95.0|1.2|4.68||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|Grade 3+ GU/GI||4.68|1.20|0.01
92186440|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|0.9|||||TWO_SIDED|95.0|0.51|1.56|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 18C: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.56|0.51|
92186441|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.58|||||TWO_SIDED|95.0|0.93|2.66|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 19F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.66|0.93|
92300656|NCT00063882|184505342|SUPERIORITY||Hazard Ratio (HR)|1.81||||0.029|TWO_SIDED|95.0|1.06|3.1||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|Grade 3+ Overall||3.10|1.06|0.029
92300657|NCT00063882|184505343|SUPERIORITY||Effect size|0.4|||<|0.0001|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary||||<0.0001
92300658|NCT00063882|184505343|SUPERIORITY||Effect size|0.09||||0.33|TWO_SIDED|||||significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary- Incontinence||||0.33
92300659|NCT00063882|184505343|SUPERIORITY||Effect size|0.44|||<|0.0001|TWO_SIDED|||||significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary-Irritative||||<0.0001
92300660|NCT00063882|184505343|SUPERIORITY||Effect size|0.31||||0.001|TWO_SIDED|||||significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Bowel||||0.001
92300661|NCT00063882|184505343|SUPERIORITY||Effect size|0.12||||0.23|TWO_SIDED||||||t-test, 2 sided|||Sexual|Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|||0.23
92300662|NCT00063882|184505344|SUPERIORITY||Effect size|0.38||||0.0002|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary||||0.0002
92300663|NCT00063882|184505344|SUPERIORITY||Effect size|0.08||||0.42|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary-Incontinence||||0.42
92300664|NCT00063882|184505344|SUPERIORITY||Effect size|0.44|||<|0.0001|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary-Irritative||||<0.0001
92300665|NCT00063882|184505344|SUPERIORITY||Effect size|0.42|||<|0.0001|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Bowel||||<0.0001
92300666|NCT00063882|184505344|SUPERIORITY||Effect size|0.27||||0.0072|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Sexual||||0.0072
92300667|NCT02994355|184505360|SUPERIORITY||Prevalence rate ratio|1.33|||<|0.05|TWO_SIDED|95.0|1.16|1.52|||Poisson Regression|||||1.52|1.16|<0.05
92300668|NCT02994355|184505361|SUPERIORITY||Prevalence rate ratio|1.27|||<|0.05|TWO_SIDED|95.0|1.15|1.3|||Poisson regression|||||1.30|1.15|<0.05
92300669|NCT02994355|184505362|SUPERIORITY||Prevalence rate ratio|3.23|||<|0.05|TWO_SIDED|95.0|2.29|4.55|||Poisson regression|||||4.55|2.29|<0.05
92300670|NCT03050918|184505363|SUPERIORITY|||||||0.05||||||we used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Wilcoxon (Mann-Whitney)|||||||.05
92300671|NCT03050918|184505364|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||0.05
92300672|NCT03050918|184505364|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Wilcoxon (Mann-Whitney)|||||||.05
92300673|NCT03050918|184505365|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||0.05
92300674|NCT03050918|184505365|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||.05
92300675|NCT03050918|184505366|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||.05
92300676|NCT03050918|184505367|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Wilcoxon (Mann-Whitney)|||||||0.05
92300677|NCT03050918|184505368|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||0.05
92300678|NCT03050918|184505370|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||0.05
92300679|NCT03832738|184505374|SUPERIORITY||Odds Ratio (OR)|1.5||||0.558|TWO_SIDED|95.0|0.39|5.8||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||5.80|0.39|0.558
92300680|NCT03832738|184505374|SUPERIORITY||Odds Ratio (OR)|3.74||||0.035|TWO_SIDED|95.0|1.07|13.1||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||13.10|1.07|0.035
92186442|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.62|||||TWO_SIDED|95.0|0.97|2.73|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 23F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.73|0.97|
92186443|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.41|||||TWO_SIDED|95.0|0.83|2.39|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 1: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.39|0.83|
92300681|NCT03832738|184505375|SUPERIORITY||Odds Ratio (OR)|2.26||||0.086|TWO_SIDED|95.0|0.89|5.75||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||5.75|0.89|0.086
92300682|NCT03832738|184505375|SUPERIORITY||Odds Ratio (OR)|3.76||||0.006|TWO_SIDED|95.0|1.45|9.75||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||9.75|1.45|0.006
92300683|NCT03832738|184505376|SUPERIORITY||Odds Ratio (OR)|1.0|||>|0.999|TWO_SIDED|95.0|0.06|17.25||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||17.25|0.06|>0.999
92300684|NCT03832738|184505376|SUPERIORITY||Odds Ratio (OR)|3.86||||0.244|TWO_SIDED|95.0|0.36|41.2||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||41.20|0.36|0.244
92300685|NCT03832738|184505378|SUPERIORITY||Odds Ratio (OR)|5.21||||0.009|TWO_SIDED|95.0|1.38|19.62||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||19.62|1.38|0.009
92300686|NCT03832738|184505378|SUPERIORITY||Odds Ratio (OR)|7.35||||0.002|TWO_SIDED|95.0|1.86|29.08||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||29.08|1.86|0.002
92300687|NCT03852459|184505388|SUPERIORITY|||||||0.4272|||||||ANCOVA|||||||0.4272
92300688|NCT05486065|184505404|SUPERIORITY|The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.|Treatment difference|-0.82||||0.0002|TWO_SIDED|95.0|-1.25|-0.39|||ANCOVA|||||-0.39|-1.25|0.0002
92300689|NCT05486065|184505404|SUPERIORITY|The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.|Treatment difference|-0.77||||0.0003|TWO_SIDED|95.0|-1.19|-0.35|||ANCOVA|||||-0.35|-1.19|0.0003
92300690|NCT05486065|184505404|SUPERIORITY|The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.|Treatment difference|-1.07|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.64|||ANCOVA|||||-0.64|-1.50|<.0001
92300691|NCT05486065|184505404|OTHER||Treatment difference|0.05||||0.8305|TWO_SIDED|95.0|-0.38|0.47|||ANCOVA|||The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.||0.47|-0.38|0.8305
92300692|NCT05486065|184505404|OTHER|The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.|Treatment difference|-0.3||||0.1678|TWO_SIDED|95.0|-0.72|0.13|||ANCOVA|||||0.13|-0.72|0.1678
92300693|NCT05486065|184505404|OTHER|The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.|Treatment difference|-0.25||||0.2445|TWO_SIDED|95.0|-0.67|0.17|||ANCOVA|||||0.17|-0.67|0.2445
92300694|NCT00703508|184505427|SUPERIORITY_OR_OTHER|||||||0.0234||||||Ovulation rate vs Testosterone post-treatment, threshold for statistical significance = p\<0.05|Regression, Linear|||||||0.0234
92300695|NCT00703508|184505427|SUPERIORITY_OR_OTHER|||||||0.074||||||Ovulation rate vs Testosterone post-treatment, threshold for statistical significance = p\<0.05|Regression, Linear|||||||0.0740
92300696|NCT00703508|184505427|SUPERIORITY_OR_OTHER|||||||0.4698||||||Ovulation rate vs Testosterone post-treatment, threshold for statistical significance = p\<0.05|Regression, Linear|||||||0.4698
92300697|NCT00703508|184505427|SUPERIORITY_OR_OTHER|||||||0.118||||||Ovulation rate vs Matsuda Index post-treatment, threshold for statistical significance = p \< 0.05.|Regression, Linear|||||||0.1180
92300698|NCT00703508|184505427|SUPERIORITY_OR_OTHER|||||||0.0311||||||Ovulation rate vs Matsuda Index post-treatment, threshold for statistical significance = p \< 0.05.|Regression, Linear|||||||0.0311
92300699|NCT00703508|184505427|SUPERIORITY_OR_OTHER|||||||0.1586||||||Ovulation rate vs Matsuda Index post-treatment, threshold for statistical significance = p \< 0.05.|Regression, Linear|||||||0.1586
92300700|NCT01064323|184505438|OTHER|Paired T-test to detect if there was a change from baseline to 5 minutes into intermittent pneumatic compression (IPC)||||||0.02|||||||Paired t-test|||||||0.02
92300701|NCT01064323|184505445|OTHER|||||||0.2|||||||t-test, 2 sided|||||||0.2
92300702|NCT00486018|184505458|SUPERIORITY_OR_OTHER||Difference in Least Squares means|9.4|||<|0.0001||95.0|6.6|12.2||The Hochberg-Bonferroni multiple comparison procedure was used to adjust for comparisons of the two ranibizumab groups with the sham-injection group to maintain an overall type I error rate of 0.05.|ANOVA|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).||||12.2|6.6|<0.0001
92300703|NCT00486018|184505458|SUPERIORITY_OR_OTHER||Difference in Least Squares means|10.6|||<|0.0001||95.0|7.6|13.6||The Hochberg-Bonferroni multiple comparison procedure was used to adjust for comparisons of the two ranibizumab groups with the sham-injection group to maintain an overall type I error rate of 0.05.|ANOVA|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).||||13.6|7.6|<0.0001
92186444|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.44|||||TWO_SIDED|95.0|0.89|2.34|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 3: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.34|0.89|
92186445|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.06|||||TWO_SIDED|95.0|0.68|1.64|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 5: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.64|0.68|
92300704|NCT00486018|184505459|SUPERIORITY_OR_OTHER||Difference in percentage|26.8|||<|0.0001||95.0|15.6|38.0|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||38.0|15.6|<0.0001
92300705|NCT00486018|184505459|SUPERIORITY_OR_OTHER||Difference in percentage|31.3|||<|0.0001||95.0|20.1|42.6|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||42.6|20.1|<0.0001
92300706|NCT00486018|184505460|SUPERIORITY_OR_OTHER||Difference in percentage|4.5||||0.0141||95.0|1.6|9.9|||Fisher Exact||Exact confidence interval based on inverting the exact two-sided score test.|||9.9|1.6|0.0141
92300707|NCT00486018|184505460|SUPERIORITY_OR_OTHER||Difference in percentage|3.0||||0.2815||95.0|-1.5|8.3|||Fisher Exact||Exact confidence interval based on inverting the exact two-sided score test.|||8.3|-1.5|0.2815
92300708|NCT00486018|184505461|SUPERIORITY_OR_OTHER||Difference in percentage|45.5|||<|0.0001||95.0|36.0|55.0|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||55.0|36.0|<0.0001
92300709|NCT00486018|184505461|SUPERIORITY_OR_OTHER||Difference in percentage|40.1|||<|0.0001||95.0|29.9|50.2|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||50.2|29.9|<0.0001
92300710|NCT00486018|184505462|SUPERIORITY_OR_OTHER||Difference in Least Squares means|-148.7|||<|0.0001||95.0|-183.6|-113.8|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline value of central foveal thickness.||||-113.8|-183.6|<0.0001
92300711|NCT00486018|184505462|SUPERIORITY_OR_OTHER||Difference in Least Squares means|-134.8|||<|0.0001||95.0|-172.7|-96.8|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline value of central foveal thickness.||||-96.8|-172.7|<0.0001
92300712|NCT00486018|184505463|SUPERIORITY_OR_OTHER||Difference in Least Squares means|4.1||||0.0214||95.0|0.6|7.6|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Near Activities Subscale score.||||7.6|0.6|0.0214
92300713|NCT00486018|184505463|SUPERIORITY_OR_OTHER||Difference in Least Squares means|6.4||||0.0002||95.0|3.0|9.8|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Near Activities Subscale score.||||9.8|3.0|0.0002
92300714|NCT00486018|184505464|SUPERIORITY_OR_OTHER||Difference in Least Squares means|3.8||||0.0248||95.0|0.5|7.0|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Distance Activities Subscale score.||||7.0|0.5|0.0248
92300715|NCT00486018|184505464|SUPERIORITY_OR_OTHER||Difference in Least Squares means|5.1||||0.0014||95.0|2.0|8.3|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Distance Activities Subscale score.||||8.3|2.0|0.0014
92300716|NCT01138111|184505465|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||The baseline neocortical SUVR in those subjects who progressed to AD over the 2 year follow-up was compared to the neocortical SUVR of those that did not progress by a Wilcoxon-Mann-Whitney test.||||0.0001
92300717|NCT01138111|184505465|SUPERIORITY_OR_OTHER|||||||0.0011|||||||Wilcoxon (Mann-Whitney)|||The 12 month neocortical SUVR in those subjects who progressed to AD over the 2 year follow-up was compared to the neocortical SUVR of those that did not progress by a Wilcoxon-Mann-Whitney test.||||0.0011
92300718|NCT01138111|184505465|SUPERIORITY_OR_OTHER|||||||0.0008|||||||Wilcoxon (Mann-Whitney)|||The 24 month neocortical SUVR in those subjects who progressed to AD over the 2 year follow-up was compared to the neocortical SUVR of those that did not progress by a Wilcoxon-Mann-Whitney test.||||0.0008
92300719|NCT02149121|184505480|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|97.07|||||TWO_SIDED|90.0|88.08|106.99|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using analysis of covariance (ANCOVA) model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||106.99|88.08|
92300720|NCT02149121|184505480|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|94.18|||||TWO_SIDED|90.0|85.4|103.86|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||103.86|85.40|
92300721|NCT02149121|184505480|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|103.07|||||TWO_SIDED|90.0|93.32|113.85|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||113.85|93.32|
92300722|NCT02149121|184505481|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|95.81|||||TWO_SIDED|90.0|87.39|105.04|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||105.04|87.39|
92300723|NCT02149121|184505481|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|89.89|||||TWO_SIDED|90.0|81.85|98.72|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||98.72|81.85|
92300724|NCT02149121|184505481|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|106.58|||||TWO_SIDED|90.0|97.03|117.08|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||117.08|97.03|
92300725|NCT02149121|184505482|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|94.92|||||TWO_SIDED|90.0|89.61|100.55|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||100.55|89.61|
92300726|NCT02149121|184505482|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|89.0|||||TWO_SIDED|90.0|84.01|94.28|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||94.28|84.01|
92300727|NCT02149121|184505482|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|106.66|||||TWO_SIDED|90.0|100.56|113.13|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||113.13|100.56|
92300728|NCT02149121|184505483|EQUIVALENCE|Therapeutic equivalence was to be concluded if the 90% CI for the treatment difference in the change from baseline of DAS28 (CRP) at Week 24 was entirely within the equivalence margin of ±0.50.|Mean Difference (Final Values)|-0.01|||||TWO_SIDED|90.0|-0.22|0.2|||||Adjusted least squares means and standard error, estimate of treatment difference \[CT-P10 - (Rituxan + MabThera)\] and 2-sided 90% confidence interval calculated from the ANCOVA model.|Primary efficacy analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, study part, interaction of treatment group with study part, prior anti TNF alpha blocker status at baseline (intolerance case versus inadequate response), and RF or anti-CCP status fitted as covariates.||0.20|-0.22|
92300729|NCT02149121|184505488|OTHER||Ratio of geometric least squares means|102.37|||||TWO_SIDED|95.0|92.46|113.33||||||Secondary PD analysis were analyzed using an ANCOVA model with results as the response, treatment group, as fixed effect and baseline values, gender, region, race, study part, interaction of treatment group with study part, prior anti-TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.|Estimate of Geometric Least Square Mean and ratio of Geometric Least Square Means (CT-P10/reference products) were obtained from back transforming the least square means from the ANCOVA.|113.33|92.46|
92300730|NCT07106489|184505494|SUPERIORITY||Mean Difference (Net)|0.04||||0.8705|TWO_SIDED||||||t-test, 2 sided||Beetroot effect|||||0.8705
92300731|NCT07106489|184505495|SUPERIORITY||Mean Difference (Net)|0.01||||0.9161|TWO_SIDED||||||t-test, 2 sided||Beetroot effect|||||0.9161
92300732|NCT07106489|184505496|SUPERIORITY||Mean Difference (Net)|-0.15||||0.4166|TWO_SIDED||||||t-test, 2 sided||Beetroot effect|||||0.4166
92300733|NCT07106489|184505497|SUPERIORITY||Mean Difference (Net)|0.0||||0.9995|TWO_SIDED||||||t-test, 2 sided||Beetroot effect|||||0.9995
92300734|NCT07106489|184505498|SUPERIORITY||Mean Difference (Net)|-0.09||||0.0422|TWO_SIDED||||||t-test, 2 sided||Beetroot effect|||||0.0422
92186446|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.88|||||TWO_SIDED|95.0|1.05|3.35|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 6A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||3.35|1.05|
92186447|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.48|||||TWO_SIDED|95.0|0.9|2.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 7F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.44|0.90|
92186448|NCT00824850|184271539|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.11|||||TWO_SIDED|95.0|0.75|1.66|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 19A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.66|0.75|
92300735|NCT07106489|184505499|SUPERIORITY||Mean Difference (Net)|5.56||||0.0027|TWO_SIDED||||||t-test, 2 sided||Beetroot effect|||||0.0027
92300736|NCT07106489|184505500|SUPERIORITY||Mean Difference (Net)|1.2||||0.2598|TWO_SIDED||||||t-test, 2 sided||Beetroot effect|||||0.2598
92300737|NCT07106489|184505501|SUPERIORITY||Mean Difference (Net)|-0.6||||0.1725|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Beetroot effect|||||0.1725
92300738|NCT00603291|184505502|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.14|||<|0.0001|TWO_SIDED|95.0|2.05|4.8|||Regression, Logistic|Adjustment for baseline body weight, baseline HbA1c stratum, and prior antihyperglycemic medication stratum||||4.80|2.05|<0.0001
92300739|NCT00603291|184505503|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.06|||<|0.0001|TWO_SIDED|95.0|-3.92|-2.2|||ANCOVA|||||-2.20|-3.92|<0.0001
92300740|NCT00595335|184505546|SUPERIORITY_OR_OTHER|||||||0.73|||||||t-test, 2 sided|||Comparison of the change between the two groups' CAS score at 6 months.||||0.73
92300741|NCT00595335|184505547|SUPERIORITY_OR_OTHER|||||||0.75|||||||Fisher Exact|||Comparison of the change between the two groups' failure rate at 6 months.||||0.75
92300742|NCT00595335|184505547|SUPERIORITY_OR_OTHER|||||||0.85|||||||Fisher Exact|||Comparison of the change between the two groups' failure rate at 12 months.||||0.85
92300743|NCT00595335|184505549|SUPERIORITY_OR_OTHER|||||||0.97|||||||t-test, 2 sided|||Comparison of the change between the two groups in proptosis in the right eye at 12 months.||||0.97
92300744|NCT00595335|184505549|SUPERIORITY_OR_OTHER|||||||0.86|||||||t-test, 2 sided|||Comparison of the change between the two groups in change in proptosis in left eye at 12 months.||||0.86
92300745|NCT00595335|184505550|SUPERIORITY_OR_OTHER|||||||0.98|||||||t-test, 2 sided|||Comparison of the change in lid fissure in the right eye between the two groups.||||0.98
92300746|NCT00595335|184505550|SUPERIORITY_OR_OTHER|||||||0.49|||||||t-test, 2 sided|||Comparison of the change in lid fissure in the left eye between the two groups.||||0.49
92300747|NCT00595335|184505551|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||Comparison of change between groups in extraocular motility at 6 months.||||0.21
92300748|NCT00595335|184505551|SUPERIORITY_OR_OTHER|||||||0.64|||||||t-test, 2 sided|||Comparison of change between groups in extraocular motility at 12 months.||||0.64
92300749|NCT00595335|184505552|SUPERIORITY_OR_OTHER|||||||0.36|||||||t-test, 2 sided|||Comparison of the arms for QoL SF-12 physical score at 6 months.||||0.36
92300750|NCT00595335|184505552|SUPERIORITY_OR_OTHER|||||||0.91|||||||t-test, 2 sided|||Comparison of the arms for QoL SF-12 mental score at 6 months.||||0.91
92186449|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.8|||||TWO_SIDED|95.0|0.5|1.17|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 4: ratio of GMTs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.17|0.50|
92186450|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.1|||||TWO_SIDED|95.0|0.7|1.73|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 6B: ratio of GMTs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.73|0.70|
92186451|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.8|||||TWO_SIDED|95.0|0.61|1.15|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 9V: ratio of GMTs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.15|0.61|
92300751|NCT00595335|184505552|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||Comparison of the arms for QoL SF-12 physical score at 12 months.||||0.29
92300752|NCT00595335|184505552|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||Comparison of the arms for QoL SF-12 mental score at 12 months.||||0.18
92300753|NCT00595335|184505553|SUPERIORITY_OR_OTHER|||||||0.85|||||||Fisher Exact|||Comparison of the change between the two groups' failure rate at 12 months.||||0.85
92300754|NCT01013649|184505574|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.62|TWO_SIDED|95.0|0.79|1.38||One-sided significance level = 0.15|Log Rank||Reference level = Arm I|A total of 200 deaths between the arms will provide 80% power to detect a signal for an increase in median overall survival from 22 to 28.8 months and 90% power to detect a signal for an increase in median overall survival from 22 to 30.6 months (HRs of 0.76 and 0.72, respectively, in favor of the erlotinib arm) with the addition of erlotinib and a 1-sided alpha of 0.15||1.38|0.79|0.62
92300755|NCT01013649|184505575|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.38|TWO_SIDED|90.0|0.79|1.18||One-sided significance level = 0.05.|Log Rank||Reference level = Arm III|316 deaths from step 2 randomized patients provides 80% power, with 0.05 1-sided alpha, to detect an OS increase (HR=0.76 in favor of arm IV), corresponding to increasing median OS from 17 to 22.5 months with the addition of RT. For analysis triggered by patients having 5 years potential follow-up from step 2 randomization, it is projected that at least 265 events will be observed, providing at least 72% power. The trigger used for the primary analysis was 5-years of follow-up (270 deaths).||1.18|0.79|0.38
92300756|NCT01013649|184505576|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.8|1.31|||||Reference level = Arm I|||1.31|0.80|
92300757|NCT01013649|184505577|SUPERIORITY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|90.0|0.68|0.99|||||Reference level = Arm III|||0.99|0.68|
92186452|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.8|||||TWO_SIDED|95.0|0.56|1.25|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 14: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.25|0.56|
92186453|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.8|||||TWO_SIDED|95.0|0.51|1.4|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 18C: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.40|0.51|
92186454|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.6|||||TWO_SIDED|95.0|0.32|1.12|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 19F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.12|0.32|
92186455|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.6|||||TWO_SIDED|95.0|0.38|0.85|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 23F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||0.85|0.38|
92186456|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.3|||||TWO_SIDED|95.0|0.75|2.22|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 1: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.22|0.75|
92186457|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.1|||||TWO_SIDED|95.0|0.82|1.61|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 3: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.61|0.82|
92186458|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.36|2.13|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 5: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.13|0.36|
92186459|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.55|1.39|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 6A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.39|0.55|
92186460|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.1|||||TWO_SIDED|95.0|0.73|1.7|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 7F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.70|0.73|
92300758|NCT01131299|184505609|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||The minimum sample size to detect an 8 mg/dl change in total plasma cholesterol between the placebo and alpha cyclodextrin periods is 62 subjects. The power is 80% by using the normal approximation to a one-sample (paired) two-tail t-test at an alpha of 0.05.||||0.82
92300759|NCT01131299|184505610|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
92300760|NCT01131299|184505611|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
92300761|NCT01131299|184505612|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
92300762|NCT00118378|184505644|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||ANCOVA|||||||< 0.001
92300763|NCT00118378|184505645|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.001
92300764|NCT00118378|184505646|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|95.0|||||ANOVA|||Week 4 CD4 cell count||||.150
92300765|NCT00118378|184505647|SUPERIORITY_OR_OTHER|||||||0.459|TWO_SIDED|95.0|||||ANOVA|||||||.459
92186461|NCT00824850|184271540|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.5|1.63|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 19A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.63|0.50|
92186462|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.7|||||TWO_SIDED|95.0|0.35|1.27|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 4: ratio of GMTs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.27|0.35|
92300766|NCT02246439|184505676|SUPERIORITY||Odds Ratio (OR)|1.6081||||0.0406|TWO_SIDED|95.0|1.0194|2.5368||"This P-Value is for the All ages group"|Cochran-Mantel-Haenszel|Stratified by age.||The odds ratio and p-value were from a Cochran-Mantel-Haenszel test. For the 'All ages' category, the odds ratio and p-value were stratified by age.||2.5368|1.0194|0.0406
92300767|NCT02246439|184505676|SUPERIORITY||Odds Ratio (OR)|4.8||||0.0729|TWO_SIDED|95.0|0.847|27.2024||"This P-Value is for the \<18 years of age group."|Cochran-Mantel-Haenszel|||||27.2024|0.8470|0.0729
92300768|NCT02246439|184505676|SUPERIORITY||Odds Ratio (OR)|1.4755||||0.1089|TWO_SIDED|95.0|0.917|2.3741||"This P-Value is for the 18 years of age and older group"|Cochran-Mantel-Haenszel|||||2.3741|0.9170|0.1089
92300769|NCT02246439|184505677|SUPERIORITY||Odds Ratio (OR)|1.3545||||0.1843|TWO_SIDED|95.0|0.8647|2.1216|||Cochran-Mantel-Haenszel|Stratified by age.||||2.1216|0.8647|0.1843
92300770|NCT02246439|184505678|SUPERIORITY||Odds Ratio (OR)|1.752||||0.0166|TWO_SIDED|95.0|1.1058|2.776|||Cochran-Mantel-Haenszel|Stratified by age.||||2.7760|1.1058|0.0166
92300771|NCT02246439|184505679|SUPERIORITY||Odds Ratio (OR)|0.6677||||0.1049|TWO_SIDED|95.0|0.4093|1.0892|||Cochran-Mantel-Haenszel|Stratified by age.||||1.0892|0.4093|0.1049
92300772|NCT02246439|184505680|SUPERIORITY||Odds Ratio (OR)|0.6566||||0.1235|TWO_SIDED|95.0|0.3826|1.1268|||Cochran-Mantel-Haenszel|Stratified by age.||||1.1268|0.3826|0.1235
92186463|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.3|||||TWO_SIDED|95.0|0.77|2.05|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 6B: ratio of GMTs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.05|0.77|
92300773|NCT02246439|184505682|SUPERIORITY|||||||0.589||||||This P-Value is for the BSS=7 group.|Wilcoxon (Mann-Whitney)|||||||0.5890
92300774|NCT02246439|184505683|SUPERIORITY||Hazard Ratio (HR)|0.9782||||0.8487|TWO_SIDED|95.0|0.7803|1.2264||"This P-Value is for the All ages group."|Cox proportioanl hazards method|Stratified by age.||||1.2264|0.7803|0.8487
92186464|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.54|1.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 9V: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.44|0.54|
92186465|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.6|||||TWO_SIDED|95.0|0.38|0.95|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 14: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||0.95|0.38|
92186466|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.1|||||TWO_SIDED|95.0|0.64|1.91|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 18C: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.91|0.64|
92186467|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.7|||||TWO_SIDED|95.0|0.28|1.62|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 19F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.62|0.28|
92186468|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.4|||||TWO_SIDED|95.0|0.68|2.81|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 23F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.81|0.68|
92186469|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.0|||||TWO_SIDED|95.0|0.53|1.77|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 1: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.77|0.53|
92186470|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.1|||||TWO_SIDED|95.0|0.69|1.81|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 3: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.81|0.69|
92186471|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.8|||||TWO_SIDED|95.0|0.32|1.85|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 5: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.85|0.32|
92186472|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.4|||||TWO_SIDED|95.0|0.8|2.36|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 6A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.36|0.80|
92300775|NCT02246439|184505683|SUPERIORITY||Hazard Ratio (HR)|1.4756||||0.3479|TWO_SIDED|95.0|0.6549|3.325||"This P-Value is for the \<18 years of age group."|Cox proportional hazards method|||||3.3250|0.6549|0.3479
92300776|NCT02246439|184505683|SUPERIORITY||Hazard Ratio (HR)|0.9445||||0.6332|TWO_SIDED|95.0|0.7469|1.1943||"This P-Value is for the 18 years of age of older group."|Cox proportional hazards method|||||1.1943|0.7469|0.6332
92300777|NCT02246439|184505684|SUPERIORITY||Hazard Ratio (HR)|1.0275||||0.8289|TWO_SIDED|95.0|0.8036|1.3138||"This P-Value was for the All ages group."|Cox proportional hazards method|Stratified by age.||||1.3138|0.8036|0.8289
92300778|NCT02246439|184505684|SUPERIORITY||Hazard Ratio (HR)|1.5744||||0.3241|TWO_SIDED|95.0|0.6388|3.8802||"This P-Value is for the \<18 years of age group."|Cox proportional hazards method|||||3.8802|0.6388|0.3241
92300779|NCT02246439|184505684|SUPERIORITY||Hazard Ratio (HR)|0.992||||0.9511|TWO_SIDED|95.0|0.7688|1.2801||"This P-Value is for the 18 years of age or older group."|Cox proportional hazards method|||||1.2801|0.7688|0.9511
92300780|NCT02246439|184505685|SUPERIORITY||Odds Ratio (OR)|2.3012||||0.2005|TWO_SIDED|95.0|0.6221|8.5129|||Cochran-Mantel-Haenszel|||||8.5129|0.6221|0.2005
92300781|NCT02246439|184505686|SUPERIORITY||Odds Ratio (OR)|0.6674||||0.572|TWO_SIDED|95.0|0.1638|2.7191|||Cochran-Mantel-Haenszel|||||2.7191|0.1638|0.5720
92300782|NCT02246439|184505687|SUPERIORITY||Odds Ratio (OR)|2.1591||||0.3186|TWO_SIDED|95.0|0.477|9.7735||"This P-Value is for the No nausea or mild nausea group."|Cochran-Mantel-Haenszel|Stratified by age.||||9.7735|0.4770|0.3186
92300783|NCT02246439|184505687|SUPERIORITY||Odds Ratio (OR)|1.575||||0.3473|TWO_SIDED|95.0|0.6096|4.0696||"This P-Value is for the Moderate nausea group."|Cochran-Mantel-Haenszel|Stratified by age.||||4.0696|0.6096|0.3473
92300784|NCT02246439|184505687|SUPERIORITY||Odds Ratio (OR)|2.0971||||0.0633|TWO_SIDED|95.0|0.9614|4.5747||"This P-Value is for the Severe nausea group."|Cochran-Mantel-Haenszel|Stratified by age.||||4.5747|0.9614|0.0633
92300785|NCT02246439|184505687|SUPERIORITY||Odds Ratio (OR)|1.6397||||0.2797|TWO_SIDED|95.0|0.6649|4.0437||"This P-Value is for the Nausea as bad as it could have been group."|Cochran-Mantel-Haenszel|Stratified by age.||||4.0437|0.6649|0.2797
92300786|NCT02246439|184505688|SUPERIORITY||Odds Ratio (OR)|1.8673||||0.0103|TWO_SIDED|95.0|1.1572|3.0131||"This P-Value is for the All ages group."|Cochran-Mantel-Haenszel|Stratified by age.||||3.0131|1.1572|0.0103
92300787|NCT02246439|184505688|SUPERIORITY||Odds Ratio (OR)|4.4||||0.0934|TWO_SIDED|95.0|0.7699|25.145||"This P-Value is for the \<18 years of age group."|Cochran-Mantel-Haenszel|||||25.1450|0.7699|0.0934
92300788|NCT02246439|184505688|SUPERIORITY||Odds Ratio (OR)|1.7356||||0.0303|TWO_SIDED|95.0|1.0527|2.8615||"This P-Value is for the 18 years of age or older group."|Cochran-Mantel-Haenszel|||||2.8615|1.0527|0.0303
92300789|NCT02246439|184505689|SUPERIORITY||Odds Ratio (OR)|4.4||||0.0924|TWO_SIDED|95.0|0.7699|25.145||"This P-Value is for the \<18 years of age group."|Cochran-Mantel-Haenszel|||||25.1450|0.7699|0.0924
92300790|NCT02246439|184505689|SUPERIORITY||Odds Ratio (OR)|1.7356||||0.0303|TWO_SIDED|95.0|1.0527|2.8615||"This P-Value is for the 18 years of age or older group."|Cochran-Mantel-Haenszel|||||2.8615|1.0527|0.0303
92300791|NCT02246439|184505690|SUPERIORITY||Odds Ratio (OR)|1.7922||||0.0152|TWO_SIDED|95.0|1.1188|2.871|||Regression, Logistic|||||2.8710|1.1188|0.0152
92300792|NCT02246439|184505691|SUPERIORITY||Odds Ratio (OR)|2.0789||||0.0037|TWO_SIDED|95.0|1.2676|3.4095|||Regression, Logistic|||||3.4095|1.2676|0.0037
92300793|NCT03439852|184505692|SUPERIORITY||Mean Difference (Net)|0.83|||<|0.05|TWO_SIDED|95.0|0.26|1.39|||Mixed Models Analysis|||Multilevel modeling for repeated measures was conducted to compare 2 conditions over time. The model included group, time, and the interaction between group and time, adjusting for within-subject correlation. The response was transformed using squared root to satisfy the model assumption.||1.39|0.26|<0.05
92300794|NCT03439852|184505693|SUPERIORITY||Median Difference (Net)|1.14||||0.05|TWO_SIDED|95.0|-0.37|2.64||Calculated|Mixed Models Analysis|||Multilevel modeling conducted for repeated measures comparing minutes per week of light-to-moderate physical activity for participants in two conditions over time. In the multilevel models, participants were nested within Catholic Clubs, adjusting for within-club and within-subject correlations. The model includes group, time, and the interaction between group and time, adjusting for within-subject correlation. The response was transformed using squared root to satisfy the model assumption.||2.64|-0.37|0.05
92300795|NCT03439852|184505694|SUPERIORITY||Mean Difference (Net)|-0.72||||0.05|TWO_SIDED|95.0|-2.31|0.88|||Mixed Models Analysis|||Multilevel modeling for the repeated measures was conducted comparing the two conditions over time. In the multilevel models, participants were nested within Catholic Clubs, adjusting for within-club and within-subject correlations. The model includes group, time, and the interaction between group and time, adjusting for within-subject correlation. The response was transformed using squared root to satisfy the model assumption.||0.88|-2.31|0.05
92300796|NCT03439852|184505695|SUPERIORITY||Mean Difference (Net)|0.96|||<|0.05|TWO_SIDED|95.0|-2.67|4.6|||Mixed Models Analysis|||Multilevel modeling for the repeated measures was conducted comparing the two conditions over time. In the multilevel models, participants were nested within Catholic Clubs, adjusting for within-club and within-subject correlations. The model includes group, time, and the interaction between group and time, adjusting for within-subject correlation.||4.60|-2.67|<0.05
92300797|NCT03439852|184505696|SUPERIORITY||Mean Difference (Net)|-0.76|||<|0.05|TWO_SIDED|95.0|-1.11|-0.4|||Mixed Models Analysis|||||-0.40|-1.11|<0.05
92186473|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.3|||||TWO_SIDED|95.0|0.65|2.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 7F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.44|0.65|
92300798|NCT03439852|184505697|SUPERIORITY||Mean Difference (Net)|-0.62|||<|0.05|TWO_SIDED|95.0|-1.15|0.1|||Mixed Models Analysis|||||0.10|-1.15|<0.05
92300799|NCT03439852|184505698|SUPERIORITY||Median Difference (Net)|-0.49|||<|0.05|TWO_SIDED|95.0|-2.1|1.11|||Mixed Models Analysis|Repeated measures generalized linear model test effects of time/group, \& interaction rate met MVPA, adjusting for within subject correlation.||||1.11|-2.10|<0.05
92300800|NCT04551911|184505704|OTHER|||||||0.7856|||||||Regression, Logistic|Logistic regression with treatment as the main effect, and baseline aggregate symptom score, baseline 25D level, and body weight as covariates||||||0.7856
92300801|NCT01383421|184505712|SUPERIORITY||||||<|0.001||||||Statistical significance was set at P = 0.05.|Chi-squared|||||||< 0.001
92300802|NCT01383421|184505714|SUPERIORITY|||||||0.058||||||Statistical significance was set at P = 0.05.|Chi-squared|||||||0.058
92300803|NCT01383421|184505716|SUPERIORITY|||||||0.003||||||Statistical significance was set at P = 0.05.|Chi-squared|||||||0.003
92300804|NCT01383421|184505718|SUPERIORITY||LS Mean Difference|-0.203|STANDARD_ERROR_OF_MEAN|0.092||0.027|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 24||||0.027
92300805|NCT01383421|184505718|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.094||0.006|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 52||||0.006
92300806|NCT01383421|184505718|SUPERIORITY||LS Mean Difference|-0.233|STANDARD_ERROR_OF_MEAN|0.098||0.018|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 78||||0.018
92300807|NCT01383421|184505719|SUPERIORITY||LS Mean Difference|-1.686|STANDARD_ERROR_OF_MEAN|0.893||0.059|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 24||||0.059
92300808|NCT01383421|184505719|SUPERIORITY||LS Mean Difference|-2.697|STANDARD_ERROR_OF_MEAN|0.903||0.003|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 52||||0.003
92300809|NCT01383421|184505719|SUPERIORITY||LS Mean Difference|-2.447|STANDARD_ERROR_OF_MEAN|0.945||0.01|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 78||||0.010
92300810|NCT01383421|184505720|SUPERIORITY||LS Mean Difference|-1.791|STANDARD_ERROR_OF_MEAN|0.788||0.023|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 24||||0.023
92300811|NCT01383421|184505720|SUPERIORITY||LS Mean Difference|-2.549|STANDARD_ERROR_OF_MEAN|0.818||0.002|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 52||||0.002
92300812|NCT01383421|184505720|SUPERIORITY||LS Mean Difference|-2.734|STANDARD_ERROR_OF_MEAN|0.872||0.002|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 78||||0.002
92300813|NCT01383421|184505724|SUPERIORITY||LS Mean Difference|1.333|STANDARD_ERROR_OF_MEAN|2.725||0.625|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI absenteeism||||0.625
92186474|NCT00824850|184271541|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.46|1.57|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 19A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.57|0.46|
92186475|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.2|10.9||||||7vPnC serotype 4: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.9|-10.2|
92186476|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
92186477|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186478|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186479|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186480|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186481|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
92186482|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92300814|NCT01383421|184505724|SUPERIORITY||LS Mean Difference|-0.824|STANDARD_ERROR_OF_MEAN|2.441||0.736|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI presenteeism||||0.736
92300815|NCT01383421|184505724|SUPERIORITY||LS Mean Difference|1.207|STANDARD_ERROR_OF_MEAN|3.126||0.7|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI overall work impairment||||0.700
92300816|NCT01383421|184505724|SUPERIORITY||LS Mean Difference|-3.552|STANDARD_ERROR_OF_MEAN|1.561||0.023|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI activity impairment||||0.023
92300817|NCT01383421|184505725|SUPERIORITY||LS Mean Difference|0.38|STANDARD_ERROR_OF_MEAN|2.736||0.89|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI absenteeism||||0.890
92186483|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186484|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|3.1|||||TWO_SIDED|95.0|-9.3|17.0||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||17.0|-9.3|
92186485|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186486|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
92186487|NCT00824850|184271544|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92300818|NCT01383421|184505725|SUPERIORITY||LS Mean Difference|-0.527|STANDARD_ERROR_OF_MEAN|2.523||0.835|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI presenteeism||||0.835
92300819|NCT01383421|184505725|SUPERIORITY||LS Mean Difference|-0.471|STANDARD_ERROR_OF_MEAN|3.205||0.883|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI overall work impairment||||0.883
92186488|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|8.0||||||7vPnC serotype 4: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||8.0|-13.9|
92186489|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.2|10.6||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.6|-10.2|
92186490|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186491|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.3||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.5|
92186492|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
92186493|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.1|10.5||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.5|-10.1|
92186494|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|3.0|||||TWO_SIDED|95.0|-9.1|16.6||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||16.6|-9.1|
92300820|NCT01383421|184505725|SUPERIORITY||LS Mean Difference|-3.792|STANDARD_ERROR_OF_MEAN|1.611||0.019|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI activity impairment||||0.019
92186495|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
92186496|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
92186497|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|3.3|||||TWO_SIDED|95.0|-8.6|17.2||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||17.2|-8.6|
92186498|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186499|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.7|10.6||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.6|-9.7|
92186500|NCT00824850|184271545|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
92186501|NCT00882050|184271546|OTHER|||||||0.05|||||||Regression, Logistic|||logistic regression|Because we tested interventions against the placebo arm, we increased our subjects to overcome loss of power. 23 per group will provide 80% power assuming a reduced alpha of 0.01 to accommodate the multiple testing issues.|||0.05
92300821|NCT01383421|184505726|SUPERIORITY||LS Mean Difference|-0.409|STANDARD_ERROR_OF_MEAN|2.548||0.873|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI absenteeism||||0.873
92300822|NCT01383421|184505726|SUPERIORITY||LS Mean Difference|-0.817|STANDARD_ERROR_OF_MEAN|2.598||0.753|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI presenteeism||||0.753
92300823|NCT01383421|184505726|SUPERIORITY||LS Mean Difference|-2.334|STANDARD_ERROR_OF_MEAN|3.159||0.461|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI overall work impairment||||0.461
92300824|NCT01383421|184505726|SUPERIORITY||LS Mean Difference|-5.537|STANDARD_ERROR_OF_MEAN|1.624|<|0.001|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI activity impairment||||<0.001
92186502|NCT00882050|184271546|SUPERIORITY|Demographic data analyzed with nominal data tested by chi-square, ordinal data by Mann-Whitney, and normal data by t-test. Further, a linear regression analysis to determine the effect of intervention dose on glucose level and typical confounders such as age, weight, and type of surgery was completed. Adverse and SAEs were analyzed by chi-square for occurrence.||||||0.05||||||Due to have 3 trial groups our p value was adjusted for multiple comparisons as a a priori threshold (if a single comparison) was 0.05.|Regression, Logistic|The regression (see above) is a secondary analysis. Groups had been stratified on diabetic (y/n) to balance this potential confounder||Primary t tests of glucose between the 3 groups at 90 minutes post. Secondary MANOVA to determine the effect over time. Change in mean glucose of 20 mg/dl between all groups detectable by 18 subjects per group assuming a SD of 20mg/dl., an 82% power with an alpha of 0.05. Because we tested interventions against the placebo arm, we increased our subjects to overcome loss of power. 23 per group will provide 80% power assuming a reduced alpha of 0.01 to accommodate the multiple testing issues.||||0.05
92186503|NCT01782209|184271547|OTHER||Incidence|17.3|||||TWO_SIDED|95.0|13.4|21.8|||||95% Clopper-Pearson Confidence Interval|||21.8|13.4|
92186504|NCT03072238|184271601|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0335|TWO_SIDED|95.0|0.61|0.98|||Log Rank|||||0.98|0.61|0.0335
92186505|NCT03072238|184271602|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0431|TWO_SIDED|95.0|0.71|0.99|||Log Rank|||||0.99|0.71|0.0431
92186506|NCT03072238|184271603|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.5698|TWO_SIDED|95.0|0.76|1.17|||Log Rank|||||1.17|0.76|0.5698
92300825|NCT01383421|184505727|SUPERIORITY||LS Mean Difference|2.973|STANDARD_ERROR_OF_MEAN|1.245||0.017|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM convenience||||0.017
92300826|NCT01383421|184505727|SUPERIORITY||LS Mean Difference|2.843|STANDARD_ERROR_OF_MEAN|2.042||0.164|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM effectiveness||||0.164
92300827|NCT01383421|184505727|SUPERIORITY||LS Mean Difference|5.473|STANDARD_ERROR_OF_MEAN|1.866||0.003|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM global satisfaction||||0.003
92186507|NCT03072238|184271604|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.2515|TWO_SIDED|95.0|0.79|1.07|||Log Rank|||||1.07|0.79|0.2515
92186508|NCT03072238|184271605|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.601|TWO_SIDED|95.0|0.58|1.01|||Log Rank|||||1.01|0.58|0.6010
92186509|NCT03072238|184271606|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.1723|TWO_SIDED|95.0|0.72|1.06|||Log Rank|||||1.06|0.72|0.1723
92186510|NCT03072238|184271607|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.1566|TWO_SIDED|95.0|0.65|1.07|||Log Rank|||||1.07|0.65|0.1566
92186511|NCT03072238|184271608|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0419|TWO_SIDED|95.0|0.69|0.99|||Log Rank|||||0.99|0.69|0.0419
92186512|NCT03072238|184271609|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.3198|TWO_SIDED|95.0|0.89|1.45|||Log Rank|||||1.45|0.89|0.3198
92186513|NCT03072238|184271610|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.0071|TWO_SIDED|95.0|1.06|1.47|||Log Rank|||||1.47|1.06|0.0071
92186514|NCT03072238|184271611|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0045|TWO_SIDED|95.0|0.59|0.91|||Log Rank|||||0.91|0.59|0.0045
92186515|NCT03072238|184271612|SUPERIORITY||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.61|0.83|||Log Rank|||||0.83|0.61|< 0.0001
92186516|NCT03072238|184271613|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.1359|TWO_SIDED|95.0|0.57|1.08|||Log Rank|||||1.08|0.57|0.1359
92186517|NCT03072238|184271614|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1398|TWO_SIDED|95.0|0.68|1.06|||Log Rank|||||1.06|0.68|0.1398
92186518|NCT03072238|184271615|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.8239|TWO_SIDED|95.0|0.61|1.48|||Log Rank|||||1.48|0.61|0.8239
92186519|NCT03072238|184271616|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.6018|TWO_SIDED|95.0|0.66|1.27|||Log Rank|||||1.27|0.66|0.6018
92186520|NCT03072238|184271617|SUPERIORITY||Difference in Overall Response Rate|20.93||||0.003|TWO_SIDED|95.0|6.2|35.65|||Cochran-Mantel-Haenszel|||||35.65|6.20|0.0030
92186521|NCT03072238|184271618|SUPERIORITY||Difference in Overall Response Rate|16.46||||0.0008|TWO_SIDED|95.0|6.66|26.27|||Cochran-Mantel-Haenszel|||||26.27|6.66|0.0008
92186522|NCT03072238|184271621|SUPERIORITY||Difference in Overall Response Rate|11.81||||0.0012|TWO_SIDED|95.0|4.34|19.29|||Cochran-Mantel-Haenszel|||||19.29|4.34|0.0012
92186523|NCT03072238|184271622|SUPERIORITY||Difference in Overall Response Rate|5.87||||0.0178|TWO_SIDED|95.0|0.83|10.9|||Cochran-Mantel-Haenszel|||||10.90|0.83|0.0178
92186524|NCT03072238|184271623|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0246|TWO_SIDED|95.0|0.45|0.95|||Log Rank|||||0.95|0.45|0.0246
92186525|NCT01574105|184271627|NON_INFERIORITY_OR_EQUIVALENCE|Sample sizes of 26 in heparin resistant group and 26 in heparin sensitive group achieve 90% power at the 0.025 level of significance to detect a non-inferiority using a one-sided two-sample t-test, assuming a noninferiority margin is 200 milliliters in the postoperative chest tube loss.|||||<|0.1||95.0|||||ANCOVA|||For the analysis of the patient characteristics Wilcoxon, Chi-square and Fischer's exact tests were used. An upper bound of a two-sided 95% confidence interval (CI) of the mean difference between resistant and sensitive groups for all values of chest tube losses was computed by analysis of covariance (ANCOVA), and compared with pre-specified noninferiority limits. Covariates in the ANCOVA model included patient characteristics differing between two groups with a p-value \<0.1.||||<0.1
92186526|NCT00608959|184271629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.91|STANDARD_DEVIATION|1.563|<|0.001||95.0|-2.55|-1.26|||t-test, 2 sided|||Based on a two-sided test at the 5% level of significance, and assuming a SD of 1.3, a sample size of 20 subjects would provide 90% power to detect a mean change of 0.942. No information was available concerning the within-subject variability between the arms.||-1.26|-2.55|<0.001
92186527|NCT00608959|184271629|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.87|STANDARD_DEVIATION|1.656|<|0.001||95.0|-2.57|-1.17|||t-test, 2 sided|||Based on a two-sided test at the 5% level of significance, and assuming a SD of 1.3, a sample size of 20 subjects would provide 90% power to detect a mean change of 0.942. No information was available concerning the within-subject variability between the arms.||-1.17|-2.57|<0.001
92186528|NCT03884478|184271659|OTHER||Mean Difference (Final Values)|3.25|STANDARD_ERROR_OF_MEAN|0.82||0.0001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*T2 interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 2 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||.0001
92186529|NCT03884478|184271659|OTHER||Mean Difference (Final Values)|2.31|STANDARD_ERROR_OF_MEAN|0.77||0.005|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Control Arm\*T2 interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 2 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||.005
92300828|NCT01383421|184505727|SUPERIORITY||LS Mean Difference|1.705|STANDARD_ERROR_OF_MEAN|1.769||0.335|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM side effects||||0.335
92300829|NCT01383421|184505728|SUPERIORITY||LS Mean Difference|2.728|STANDARD_ERROR_OF_MEAN|1.183||0.021|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM convenience||||0.021
92300830|NCT01383421|184505728|SUPERIORITY||LS Mean Difference|3.124|STANDARD_ERROR_OF_MEAN|1.93||0.106|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM effectiveness||||0.106
92186530|NCT03884478|184271659|OTHER||Mean Difference (Final Values)|0.94|STANDARD_ERROR_OF_MEAN|0.82||0.25|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 2 month follow-up in the Alcohol+Coping Arm versus the Alcohol Only Arm.||||.25
92186531|NCT03884478|184271660|OTHER||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.84||0.025|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||.025
92186532|NCT03884478|184271660|OTHER||Mean Difference (Final Values)|1.24|STANDARD_ERROR_OF_MEAN|0.79||0.11|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*T2 interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 4 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||.11
92186533|NCT03884478|184271660|OTHER||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.84||0.66|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Alcohol+Control Arm.||||.66
92186534|NCT03884478|184271661|OTHER||Mean Difference (Final Values)|1.51|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in peak drinks from baseline to the 2 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||<.001
92186535|NCT03884478|184271661|OTHER||Mean Difference (Final Values)|1.48|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on peak drinks. To probe the significant Alcohol+Control Arm\*Time interaction, a Tukey post-hoc test examined the change in peak drinks at the 2 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||<.001
92186536|NCT03884478|184271661|OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.25||0.88|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on peak drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in peak drinks at the 2 month follow-up in the Alcohol+Coping Arm versus the Alcohol+Control Arm.||||.88
92186537|NCT03884478|184271662|OTHER||Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|0.26||0.03|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||.03
92186538|NCT03884478|184271662|OTHER||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.24||0.059|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on peak drinks. To probe the significant Alcohol+Control Arm\*Time interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 4 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||.059
92186539|NCT03884478|184271662|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.26||0.71|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in peak drinks from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Alcohol+Control Arm.||||.71
92186540|NCT03884478|184271663|OTHER||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 2 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||<.001
92186541|NCT03884478|184271663|OTHER||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Control Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 2 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||<.001
92300831|NCT01383421|184505728|SUPERIORITY||LS Mean Difference|5.572|STANDARD_ERROR_OF_MEAN|1.756||0.002|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM global satisfaction||||0.002
92300832|NCT01383421|184505728|SUPERIORITY||LS Mean Difference|1.885|STANDARD_ERROR_OF_MEAN|1.704||0.269|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM side effects||||0.269
92300833|NCT01383421|184505729|SUPERIORITY||LS Mean Difference|2.324|STANDARD_ERROR_OF_MEAN|1.177||0.049|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM convenience||||0.049
92300834|NCT01383421|184505729|SUPERIORITY||LS Mean Difference|4.929|STANDARD_ERROR_OF_MEAN|1.929||0.011|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM effectiveness||||0.011
92186542|NCT03884478|184271663|OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.19||0.87|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 2 month follow-up in the Alcohol+Coping Arm versus the Alcohol+Control Arm.||||.87
92186543|NCT03884478|184271664|OTHER||Median Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||<.001
92186544|NCT03884478|184271664|OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.19||0.002|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Control Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 4 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||.002
92186545|NCT03884478|184271664|OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.2||0.43|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Alcohol+Control Arm.||||.43
92186546|NCT00828139|184271665|SUPERIORITY_OR_OTHER||3-month PFS|0.24|||||TWO_SIDED|90.0|0.14|0.37|||||The estimated value corresponds to the probability of PFS at month 3.|3-month PFS was estimated using the method of Kaplan-Meier. The 3-month PFS estimated value corresponds to the probability of PFS at month 3.||0.37|0.14|
92186547|NCT00828139|184271665|SUPERIORITY_OR_OTHER||3-month PFS|0.15|||||TWO_SIDED|90.0|0.07|0.27|||||The estimated value corresponds to the probability of PFS at month 3.|3-month PFS was estimated using the method of Kaplan-Meier.||0.27|0.07|
92186548|NCT00828139|184271665|SUPERIORITY_OR_OTHER||3-month PFS|0.27|||||TWO_SIDED|90.0|0.18|0.39|||||The estimated value corresponds to the probability of PFS at month 3.|3-month PFS was estimated using the method of Kaplan-Meier.||0.39|0.18|
92186549|NCT00828139|184271665|SUPERIORITY_OR_OTHER||3-month PFS|0.1|||||TWO_SIDED|90.0|0.04|0.2|||||The estimated value corresponds to the probability of PFS at month 3.|3-month PFS was estimated using the method of Kaplan-Meier.||0.2|0.04|
92186550|NCT00828139|184271665|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32|||||TWO_SIDED|90.0|0.91|1.92||||||Hazard Ratio was evaluated using a logrank test.||1.92|0.91|
92186551|NCT00828139|184271665|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51|||||TWO_SIDED|90.0|1.08|2.1||||||Hazard Ratio was evaluated using log-rank test.||2.10|1.08|
92186552|NCT03557307|184271712|OTHER||percentage|62.9|||||TWO_SIDED|95.0|58.86|66.76|||Clopper-Pearson Exact CI|One sample Confidence Interval|Percentage of patients who achieved 100% reduction in daily OCS dose that are sustained over at least 4 weeks without worsening of asthma|||66.76|58.86|
92300835|NCT01383421|184505729|SUPERIORITY||LS Mean Difference|5.997|STANDARD_ERROR_OF_MEAN|1.775|<|0.001|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM global satisfaction||||<0.001
92300836|NCT01383421|184505729|SUPERIORITY||LS Mean Difference|1.823|STANDARD_ERROR_OF_MEAN|1.657||0.272|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM side effects||||0.272
92300837|NCT01383421|184505730|SUPERIORITY||LS Mean Difference|0.817|STANDARD_ERROR_OF_MEAN|0.572||0.154|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 24||||0.154
92300838|NCT01383421|184505730|SUPERIORITY||LS Mean Difference|0.772|STANDARD_ERROR_OF_MEAN|0.599||0.198|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 52||||0.198
92300839|NCT01383421|184505730|SUPERIORITY||LS Mean Difference|0.884|STANDARD_ERROR_OF_MEAN|0.585||0.131|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 78||||0.131
92186553|NCT03557307|184271713|OTHER||percentage|81.9|||||TWO_SIDED|95.0|78.62|84.94|||Clopper-Pearson Exact CI|One sample Confidence Interval|Percentage of patients who achieve 100% reduction or a daily OCS dose of \<=5mg, if reason for no further OCS reduction is Adrenal Insufficiency, that are sustained over at least 4 weeks without worsening of asthma|||84.94|78.62|
92300840|NCT01383421|184505734|SUPERIORITY||LS Mean Between Group Change|0.1|STANDARD_ERROR_OF_MEAN|0.0429||0.019|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|P value is from an ANCOVA model adjusting for Baseline.||Necessity||||0.019
92300841|NCT01383421|184505734|SUPERIORITY||LS Mean Between Group Change|0.0|STANDARD_ERROR_OF_MEAN|0.0526||0.56|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|P value is from an ANCOVA model adjusting for Baseline.||Concern||||0.560
92300842|NCT01272921|184505741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|||<|0.001|TWO_SIDED|95.0|0.49|0.54|||Z score|||||0.54|0.49|<0.001
92300843|NCT01272921|184505741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|||<|0.001|TWO_SIDED|95.0|0.18|0.21|||Z score|||||0.21|0.18|<0.001
92300844|NCT01272921|184505742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0|STANDARD_DEVIATION|0.0||0.05|TWO_SIDED|95.0|-17.0|-6.0||Post hoc comparison were made against the 30-mL volume group and corrected for 6 comparisons using the Wilcoxon rank sum test.|Wilcoxon (Mann-Whitney)|||The sample selected for this study,70 per drug group (or 10 in each of the 7 groups), achieves 88% power to detect a minimal difference of 4 hours in duration at a significance level (α) of 0.05 and a standard deviation of 3 hours using Williams test. We chose a difference of 4 hours as this was the interval used for assessment in the postoperative period at night. We sought to detect a difference that was equal to 1 observation period difference.||-6.00|-17.00|0.05
92300845|NCT01272921|184505742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0|STANDARD_DEVIATION|0.0||0.05|TWO_SIDED|95.0|-15.0|-6.0|||Wilcoxon (Mann-Whitney)|||The sample selected for this study,70 per drug group (or 10 in each of the 7 groups), achieves 88% power to detect a minimal difference of 4 hours in duration at a significance level (α) of 0.05 and a standard deviation of 3 hours using Williams test. We chose a difference of 4 hours as this was the interval used for assessment in the postoperative period at night. We sought to detect a difference that was equal to 1 observation period difference.||-6.00|-15.00|0.05
92300846|NCT01272921|184505742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0|STANDARD_DEVIATION|0.0||0.05|TWO_SIDED|95.0|-10.0|-4.0|||Wilcoxon (Mann-Whitney)|||The sample selected for this study,70 per drug group (or 10 in each of the 7 groups), achieves 88% power to detect a minimal difference of 4 hours in duration at a significance level (α) of 0.05 and a standard deviation of 3 hours using Williams test. We chose a difference of 4 hours as this was the interval used for assessment in the postoperative period at night. We sought to detect a difference that was equal to 1 observation period difference.||-4.00|-10.00|0.05
92300847|NCT01272921|184505742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|STANDARD_DEVIATION|0.0||0.05|TWO_SIDED|95.0|-7.0|-2.0|||Wilcoxon (Mann-Whitney)|||The sample selected for this study,70 per drug group (or 10 in each of the 7 groups), achieves 88% power to detect a minimal difference of 4 hours in duration at a significance level (α) of 0.05 and a standard deviation of 3 hours using Williams test. We chose a difference of 4 hours as this was the interval used for assessment in the postoperative period at night. We sought to detect a difference that was equal to 1 observation period difference.||-2.00|-7.00|0.05
92186554|NCT03557307|184271714|OTHER||percentage|91.5|||||TWO_SIDED|95.0|88.94|93.58|||Clopper-Pearson Exact CI|One sample Confidence Interval|Percentage of patients who achieve a daily OCS dose of ≤5 mg (regardless of reason for no further OCS reduction), that are sustained over at least 4 weeks without worsening of asthma|||93.58|88.94|
92186555|NCT03557307|184271715|OTHER||percentage|64.0|||||TWO_SIDED|95.0|60.06|67.9|||Clopper-Pearson Exact CI|One sample Confidence Interval (≥90% reduction)|Percentage of patients who achieve \>=90% reduction in daily OCS dose that are sustained over at least 4 weeks without worsening of asthma|||67.90|60.06|
92186556|NCT03557307|184271715|OTHER||percentage|68.9|||||TWO_SIDED|95.0|65.02|72.59|||Clopper-Pearson Exact CI|One sample Confidence Interval (\>=75% reduction)|Percentage of patients who achieve \>=75% reduction in daily OCS dose that are sustained over at least 4 weeks without worsening of asthma|||72.59|65.02|
92186557|NCT03557307|184271715|OTHER||percentage|81.8|||||TWO_SIDED|95.0|78.44|84.79|||Clopper-Pearson Exact CI|One sample Confidence Interval (\>=50% reduction)|Percentage of patients who achieve \>=50% reduction in daily OCS dose that are sustained over at least 4 weeks without worsening of asthma|||84.79|78.44|
92186558|NCT03557307|184271716|OTHER||percentage change from baseline|-76.92|||||TWO_SIDED|95.0|-79.9|-73.94|||Clopper-Pearson Exact CI|One sample Confidence Interval|Percentage change from baseline in daily OCS dose at the end of OCS reduction phase|||-73.94|-79.90|
92300848|NCT04271735|184505752|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92300849|NCT02040779|184505762|SUPERIORITY||LSM difference|0.116||||0.001|TWO_SIDED|95.0|0.048|0.185||ANCOVA model with effects due to baseline trough morning FEV1, sex, age, current protocol-allowed asthma therapy (ICS or non-corticosteroid therapy) at the time of screening visit and during the run-in period and treatment.|ANCOVA||BDP 160 mcg BAI - Placebo BAI|A fixed-sequence multiple testing procedure was used while controlling the family-wise error rate at 5%. If the 2-sided p-value resulting from the ANCOVA model for comparing beclomethasone dipropionate BAI 160 mcg/day versus placebo was less than 0.05, then the comparison of the 80 mcg/day versus placebo was to be interpreted inferentially.||0.185|0.048|0.0010
92186559|NCT03745651|184271721|SUPERIORITY||Odds Ratio (OR)|8.84|||<|0.0001|TWO_SIDED|95.0|4.125|21.202||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||21.202|4.125|< 0.0001
92300850|NCT02040779|184505762|SUPERIORITY||LSM difference|0.124||||0.0005|TWO_SIDED|95.0|0.054|0.193||ANCOVA model with effects due to baseline trough morning FEV1, sex, age, current protocol-allowed asthma therapy (ICS or non-corticosteroid therapy) at the time of screening visit and during the run-in period and treatment.|ANCOVA||BDP 80 mcg BAI - Placebo BAI|||0.193|0.054|0.0005
92300851|NCT02040779|184505763|SUPERIORITY||LSM difference|7.911||||0.0443|TWO_SIDED|95.0|0.202|15.621||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||15.621|0.202|0.0443
92300852|NCT02040779|184505763|SUPERIORITY||LSM difference|13.645||||0.0007|TWO_SIDED|95.0|5.843|21.446||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||21.446|5.843|0.0007
92300853|NCT02040779|184505764|SUPERIORITY||LSM difference|5.405||||0.2014|TWO_SIDED|95.0|-2.905|13.715||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||13.715|-2.905|0.2014
92300854|NCT02040779|184505764|SUPERIORITY||LSM difference|10.902||||0.0112|TWO_SIDED|95.0|2.5|19.303||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||19.303|2.500|0.0112
92300855|NCT02040779|184505765|SUPERIORITY||LSM difference|-0.388||||0.0175|TWO_SIDED|95.0|-0.708|-0.068||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||-0.068|-0.708|0.0175
92300856|NCT02040779|184505765|SUPERIORITY||LSM difference|-0.358||||0.0285|TWO_SIDED|95.0|-0.678|-0.038||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 80 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||-0.038|-0.678|0.0285
92300857|NCT02040779|184505766|SUPERIORITY||LSM difference|-0.137||||0.0335|TWO_SIDED|95.0|-0.263|-0.011||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||-0.011|-0.263|0.0335
92300858|NCT02040779|184505766|SUPERIORITY||LSM difference|-0.127||||0.0509|TWO_SIDED|95.0|-0.255|0.001||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 80 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||0.001|-0.255|0.0509
92300859|NCT02040779|184505768|SUPERIORITY|||||||0.2384|||||||Log Rank|||||||0.2384
92300860|NCT02040779|184505768|SUPERIORITY|||||||0.0208|||||||Log Rank|||||||0.0208
92300861|NCT00922272|184505785|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92186560|NCT03745651|184271721|SUPERIORITY||Odds Ratio (OR)|15.8|||<|0.0001|TWO_SIDED|95.0|7.354|38.061||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||38.061|7.354|< 0.0001
92300862|NCT00922272|184505787|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3||||0.4182|TWO_SIDED|95.0|-3.4|8.1|||ANCOVA|||||8.1|-3.4|0.4182
92300863|NCT00922272|184505788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6705||95.0|||||Fisher Exact|||||||0.6705
92300864|NCT00922272|184505789|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Affective Flattening||||<0.0001
92300865|NCT00922272|184505789|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Alogia||||<0.0001
92300866|NCT00922272|184505789|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Avolition-Apathy||||<0.0001
92300867|NCT00922272|184505789|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Anhedonia-Asociality||||<0.0001
92300868|NCT00922272|184505789|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Attention||||<0.0001
92300869|NCT00922272|184505790|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.8771|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||Affective Flattening||0.5|-0.4|0.8771
92300870|NCT00922272|184505790|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6||||0.0584|TWO_SIDED|95.0|0.0|1.1|||ANCOVA|||Alogia||1.1|0.0|0.0584
92300871|NCT00922272|184505790|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.5215|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||Avolition-Apathy||0.6|-0.3|0.5215
92300872|NCT00922272|184505790|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.4835|TWO_SIDED|95.0|-0.3|0.7|||ANCOVA|||Anhedonia-Asociality||0.7|-0.3|0.4835
92300873|NCT00922272|184505790|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.5723|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||Attention||0.7|-0.4|0.5723
92300874|NCT00922272|184505791|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Positive subscale||||<0.0001
92300875|NCT00922272|184505791|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Negative subscale||||<0.0001
92300876|NCT00922272|184505791|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||General Psychopathology subscale||||<0.0001
92300877|NCT00922272|184505792|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6||||0.1975|TWO_SIDED|95.0|-0.3|1.5|||ANCOVA|||Positive subscale||1.5|-0.3|0.1975
92300878|NCT00922272|184505792|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.1228|TWO_SIDED|95.0|-0.3|2.3|||ANCOVA|||Negative subscale||2.3|-0.3|0.1228
92300879|NCT00922272|184505792|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.8||||0.1115|TWO_SIDED|95.0|-0.4|3.9|||ANCOVA|||General Psychopathology subscale||3.9|-0.4|0.1115
92300880|NCT00922272|184505799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0307||95.0|||||t-test, 2 sided|||||||0.0307
92300881|NCT00922272|184505800|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.8||||0.1072|TWO_SIDED|95.0|-0.6|6.2|||ANCOVA|||||6.2|-0.6|0.1072
92300882|NCT00922272|184505801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.366||95.0|||||t-test, 2 sided|||||||0.3660
92300883|NCT00922272|184505802|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.4347|TWO_SIDED|95.0|-5.0|2.2|||ANCOVA|||||2.2|-5.0|0.4347
92300884|NCT00922272|184505803|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4312||95.0|||||t-test, 2 sided|||||||0.4312
92186561|NCT03745651|184271722|SUPERIORITY||Odds Ratio (OR)|6.84|||<|0.0001|TWO_SIDED|95.0|3.723|13.184||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||13.184|3.723|< 0.0001
92186562|NCT03745651|184271722|SUPERIORITY||Odds Ratio (OR)|10.67|||<|0.0001|TWO_SIDED|95.0|5.775|20.732||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||20.732|5.775|< 0.0001
92300885|NCT00922272|184505804|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5||||0.0874|TWO_SIDED|95.0|-5.4|0.4|||ANCOVA|||||0.4|-5.4|0.0874
92300886|NCT00922272|184505805|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Total Skills||||<0.0001
92300887|NCT00922272|184505805|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0|||||t-test, 2 sided|||Communication Skills||||0.0002
92300888|NCT00922272|184505805|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0028||95.0|||||t-test, 2 sided|||Financial Skills||||0.0028
92300889|NCT00922272|184505806|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.4637|TWO_SIDED|95.0|-5.3|2.4|||ANCOVA|||Total Skills||2.4|-5.3|0.4637
92300890|NCT00922272|184505806|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.6137|TWO_SIDED|95.0|-4.1|2.4|||ANCOVA|||Communication Skills||2.4|-4.1|0.6137
92300891|NCT00922272|184505806|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.3482|TWO_SIDED|95.0|-3.5|1.3|||ANCOVA|||Financial Skills||1.3|-3.5|0.3482
92300892|NCT00922272|184505807|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0174||95.0|||||t-test, 2 sided|||Global Executive Composite||||0.0174
92300893|NCT00922272|184505807|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0461||95.0|||||t-test, 2 sided|||Behavioral Recognition Index||||0.0461
92300894|NCT00922272|184505807|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0146||95.0|||||t-test, 2 sided|||Metacognition Index||||0.0146
92300895|NCT00922272|184505808|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.7418|TWO_SIDED|95.0|-3.8|2.7|||ANCOVA|||Global Executive Composite||2.7|-3.8|0.7418
92300896|NCT00922272|184505808|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8||||0.6429|TWO_SIDED|95.0|-2.6|4.1|||ANCOVA|||Behavioral Recognition Index||4.1|-2.6|0.6429
92300897|NCT00922272|184505808|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.4364|TWO_SIDED|95.0|-4.8|2.1|||ANCOVA|||Metacognition Index||2.1|-4.8|0.4364
92300898|NCT03197558|184505819|SUPERIORITY|Upper confidence limit of mean VAS score hypothesized to be less than (superior) to a performance goal of 45 mm.|Bootstrap method|14.35|||||ONE_SIDED|97.5||14.35||||||Mean VAS score compared to performance goal using a bootstrap method test at 2.5% significance.||14.35||
92300899|NCT02384941|184505851|SUPERIORITY||Least squares mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.047|<|0.001|TWO_SIDED|||||Threshold for significance \< 0.05.|MMRM|||||||<0.001
92300900|NCT02384941|184505851|SUPERIORITY||Least squares mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.047|<|0.001|TWO_SIDED|95.0||||Threshold for significance \< 0.05.|MMRM|||||||< 0.001
92300901|NCT02384941|184505852|SUPERIORITY||Percentage difference|11.8||||0.002|TWO_SIDED|95.0|4.28|19.36||Threshold for significance \< 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint of each treatment comparison was statistically significant at 0.05 level.||19.36|4.28|0.002
92300902|NCT02384941|184505852|SUPERIORITY||Percentage difference|21.9|||<|0.001|TWO_SIDED|95.0|14.1|29.64||Threshold for significance \< 0.05.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||29.64|14.10|< 0.001
92300903|NCT02384941|184505853|SUPERIORITY||Least squares mean difference|-2.35|STANDARD_ERROR_OF_MEAN|0.256|<|0.001|TWO_SIDED|95.0|-2.85|-1.85||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-1.85|-2.85|< 0.001
92300904|NCT02384941|184505853|SUPERIORITY||Least squares mean difference|-3.45|STANDARD_ERROR_OF_MEAN|0.256|<|0.001|TWO_SIDED|95.0|-3.95|-2.94||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-2.94|-3.95|< 0.001
92300905|NCT02384941|184505854|SUPERIORITY||Least squares mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.917||0.1|TWO_SIDED|95.0|-3.3|0.3||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||0.30|-3.30|0.10
92300906|NCT02384941|184505854|SUPERIORITY||Least squares mean difference|-3.3|STANDARD_ERROR_OF_MEAN|0.916|<|0.001|TWO_SIDED|95.0|-5.09|-1.5||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-1.50|-5.09|< 0.001
92300907|NCT02384941|184505855|SUPERIORITY||Least squares mean difference|-0.99|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.5|-0.48||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-0.48|-1.50|< 0.001
92300908|NCT02384941|184505856|SUPERIORITY||Least squares mean difference|2.5|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|1.8|3.3||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||3.3|1.8|< 0.001
92300909|NCT02384941|184505857|SUPERIORITY||Least squares mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.0|-0.5||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-0.5|-1.0|< 0.001
92300910|NCT02493777|184505859|SUPERIORITY||||||<|0.001|||||||Mixed model repeated measures analysis|||||||<0.001
92300911|NCT02493777|184505860|SUPERIORITY||||||<|0.001|||||||Mixed model repeated measures analysis|||||||<0.001
92300912|NCT00468728|184505861|NON_INFERIORITY_OR_EQUIVALENCE|The point estimate of the difference and the 2-sided 95% confidence interval (CI) for the difference between treatment groups were computed. If the lower limit of the CI was greater than -10%, the clinical non-inferiority of fidaxomicin was demonstrated. CIs for the difference of cure rates were calculated using the method recommended by Agresti and Caffo.|Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-4.8|6.8||||||H0: C(OPT-80) - C(VAN) \<= -10% Power calculation is based on cure rate of 85% in both treatment groups, non-inferiority margin of 10%, 2.5% (1-sided) type I error rate with approximately 90% power gives a total of 530 subjects.||6.8|-4.8|
92300913|NCT00468728|184505862|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-14.4|||<|0.001|TWO_SIDED|95.0|-21.6|-7.0|||Chi-squared|||||-7.0|-21.6|<0.001
92300914|NCT00468728|184505863|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.4||||0.001||95.0|5.4|21.1|||Chi-squared|||||21.1|5.4|0.001
92186563|NCT03745651|184271723|SUPERIORITY||Odds Ratio (OR)|4.17|||<|0.0001|TWO_SIDED|95.0|2.045|9.036||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||9.036|2.045|< 0.0001
92186564|NCT03745651|184271723|SUPERIORITY||Odds Ratio (OR)|5.8|||<|0.0001|TWO_SIDED|95.0|2.833|12.657||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||12.657|2.833|< 0.0001
92300915|NCT06005597|184505870|SUPERIORITY||Least Squares (LS) Means|-48.61|STANDARD_ERROR_OF_MEAN|4.959|<|0.0001|TWO_SIDED|95.0|-58.33|-38.89|||ANCOVA|||||-38.89|-58.33|<.0001
92300916|NCT06005597|184505871|SUPERIORITY||Least Squares (LS) Means|-27.94|STANDARD_ERROR_OF_MEAN|4.893|<|0.0001|TWO_SIDED|95.0|-37.53|-18.35|||ANCOVA|||||-18.35|-37.53|<.0001
92300917|NCT06005597|184505872|SUPERIORITY||Least Squares (LS) Means|-16.76|STANDARD_ERROR_OF_MEAN|4.918||0.0007|TWO_SIDED|95.0|-26.4|-7.12|||ANCOVA|||||-7.12|-26.40|0.0007
92300918|NCT06005597|184505873|SUPERIORITY||Least Squares (LS) Means|-31.85|STANDARD_ERROR_OF_MEAN|4.993|<|0.0001|TWO_SIDED|95.0|-41.64|-22.07|||ANCOVA|||||-22.07|-41.64|<.0001
92300919|NCT06005597|184505874|SUPERIORITY||Least Squares (LS) Means|-45.13|STANDARD_ERROR_OF_MEAN|4.233|<|0.0001|TWO_SIDED|95.0|-53.43|-36.84|||ANCOVA|||||-36.84|-53.43|<.0001
92300920|NCT06005597|184505875|SUPERIORITY||Least Squares (LS) Means|-29.19|STANDARD_ERROR_OF_MEAN|3.467|<|0.0001|TWO_SIDED|95.0|-35.99|-22.4|||ANCOVA|||||-22.40|-35.99|<.0001
92300921|NCT06005597|184505876|SUPERIORITY||Least Squares (LS) Means|-29.9|STANDARD_ERROR_OF_MEAN|4.274|<|0.0001|TWO_SIDED|95.0|-38.28|-21.53|||ANCOVA|||||-21.53|-38.28|<.0001
92300922|NCT06005597|184505877|SUPERIORITY||Least Squares (LS) Means|-19.78|STANDARD_ERROR_OF_MEAN|3.549|<|0.0001|TWO_SIDED|95.0|-26.73|-12.82|||ANCOVA|||||-12.82|-26.73|<.0001
92300923|NCT06005597|184505878|SUPERIORITY||Least Squares (LS) Means|-25.44|STANDARD_ERROR_OF_MEAN|4.198|<|0.0001|TWO_SIDED|95.0|-33.67|-17.22|||ANCOVA|||||-17.22|-33.67|<.0001
92300924|NCT06005597|184505879|SUPERIORITY||Least Squares (LS) Means|-14.21|STANDARD_ERROR_OF_MEAN|3.495|<|0.0001|TWO_SIDED|95.0|-21.06|-7.36|||ANCOVA|||||-7.36|-21.06|<.0001
92300925|NCT06005597|184505880|SUPERIORITY||Least Squares (LS) Means|-15.23|STANDARD_ERROR_OF_MEAN|4.236||0.0003|TWO_SIDED|95.0|-23.53|-6.93|||ANCOVA|||||-6.93|-23.53|0.0003
92300926|NCT06005597|184505881|SUPERIORITY||Least Squares (LS) Means|-9.42|STANDARD_ERROR_OF_MEAN|3.493||0.007|TWO_SIDED|95.0|-16.26|-2.57|||ANCOVA|||||-2.57|-16.26|0.007
92300927|NCT02312713|184505975|SUPERIORITY||Mean Difference (Final Values)|-3.36||||0.06|TWO_SIDED|95.0|-6.84|0.12|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||0.12|-6.84|0.06
92300928|NCT02312713|184505975|SUPERIORITY||Mean Difference (Final Values)|-1.59||||0.39|TWO_SIDED|95.0|-5.26|2.08|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||2.08|-5.26|0.39
92300929|NCT02312713|184505975|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.14|TWO_SIDED|95.0|-6.24|0.85|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||0.85|-6.24|0.14
92300930|NCT02312713|184505975|SUPERIORITY||Mean Difference (Final Values)|-2.63||||0.17|TWO_SIDED|95.0|-6.37|1.11|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||1.11|-6.37|0.17
92300931|NCT02312713|184505975|NON_INFERIORITY|The IBET intervention will be non-inferior to the standard PT intervention, indicated by a mean WOMAC score less than 5 points higher than standard PT.|Mean Difference (Final Values)|0.67||||0.65|TWO_SIDED|95.0|-2.23|3.56|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||3.56|-2.23|0.65
92300932|NCT02312713|184505975|NON_INFERIORITY|The IBET intervention will be non-inferior to the standard PT intervention, indicated by a mean WOMAC score less than 5 points higher than standard PT.|Mean Difference (Final Values)|-1.04||||0.51|TWO_SIDED|95.0|-4.13|2.05|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||2.05|-4.13|0.51
92300933|NCT02312713|184505976|SUPERIORITY||Median Difference (Final Values)|0.56||||0.01|TWO_SIDED|95.0|0.15|0.98|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||0.98|0.15|0.01
92300934|NCT02312713|184505976|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.28|TWO_SIDED|95.0|-0.19|0.65|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||0.65|-0.19|0.28
92300935|NCT02312713|184505976|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.75|TWO_SIDED|95.0|-0.35|0.49|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||0.49|-0.35|0.75
92300936|NCT02312713|184505976|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.22|TWO_SIDED|95.0|-0.16|0.7|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||0.7|-0.16|0.22
92300937|NCT02312713|184505976|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.5||||0|TWO_SIDED|95.0|-0.84|-0.16|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||-0.16|-0.84|0.00
92300938|NCT02312713|184505976|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.04||||0.83|TWO_SIDED|95.0|-0.31|0.39|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||0.39|-0.31|0.83
92300939|NCT02312713|184505977|SUPERIORITY||Mean Difference (Final Values)|7.75||||0.04|TWO_SIDED|95.0|0.43|15.07|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for the 2 Minute Step Test.||15.07|0.43|0.04
92300940|NCT02312713|184505977|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.78|TWO_SIDED|95.0|-6.59|8.82|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for the 2 Minute Step Test.||8.82|-6.59|0.78
92300941|NCT02312713|184505977|SUPERIORITY||Mean Difference (Final Values)|4.88||||0.2|TWO_SIDED|95.0|-2.56|12.33|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for the 2 Minute Step Test.||12.33|-2.56|0.20
92300942|NCT02312713|184505977|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.78|TWO_SIDED|95.0|-6.74|8.99|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for the 2 Minute Step Test.||8.99|-6.74|.78
92300943|NCT02312713|184505977|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-2.86||||0.35|TWO_SIDED|95.0|-8.94|3.21|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for the 2 Minute Step Test.||3.21|-8.94|0.35
92300944|NCT02312713|184505977|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.01||||1|TWO_SIDED|95.0|-6.4|6.42|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for the 2 Minute Step Test.||6.42|-6.40|1.00
92300945|NCT02312713|184505978|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.19|TWO_SIDED|95.0|-1.56|0.3|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for Unilateral Stand Time.||0.30|-1.56|0.19
92300946|NCT02312713|184505978|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.93|TWO_SIDED|95.0|-0.89|0.98|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for Unilateral Stand Time.||0.98|-0.89|0.93
92300947|NCT02312713|184505978|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.97|TWO_SIDED|95.0|-0.97|0.93|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for Unilateral Stand Time.||0.93|-0.97|0.97
92300948|NCT02312713|184505978|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.93|TWO_SIDED|95.0|-0.91|1.0|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for Unilateral Stand Time||1|-0.91|0.93
92300949|NCT02312713|184505978|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.61||||0.12|TWO_SIDED|95.0|-0.16|1.38|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for Unilateral Stand Time.||1.38|-0.16|0.12
92300950|NCT02312713|184505978|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.78|0.77|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for Unilateral Stand Time.||0.77|-0.78|1.00
92300951|NCT02312713|184505979|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.63|TWO_SIDED|95.0|-1.55|0.94|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for 30 Second Chair Stand.||.94|-1.55|0.63
92300952|NCT02312713|184505979|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.37|TWO_SIDED|95.0|-1.58|0.6|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for 30 Second Chair Stand.||0.6|-1.58|0.37
92300953|NCT02312713|184505979|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.62|TWO_SIDED|95.0|-0.95|1.59|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for 30 Second Chair Stand.||1.59|-0.95|0.62
92300954|NCT02312713|184505979|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.67|TWO_SIDED|95.0|-0.87|1.35|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for 30 Second Chair Stand.||1.35|-0.87|0.67
92186565|NCT03745651|184271724|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8553|TWO_SIDED|95.0|0.598|2.094||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||2.094|0.598|0.8553
92186566|NCT03745651|184271724|SUPERIORITY||Odds Ratio (OR)|1.47||||0.2359|TWO_SIDED|95.0|0.805|2.741||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||2.741|0.805|0.2359
92186567|NCT03745651|184271725|SUPERIORITY||Odds Ratio (OR)|1.62||||0.1784|TWO_SIDED|95.0|0.827|3.342||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||3.342|0.827|0.1784
92186568|NCT03745651|184271725|SUPERIORITY||Odds Ratio (OR)|1.96||||0.0472|TWO_SIDED|95.0|1.007|4.0||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||4.000|1.007|0.0472
92186569|NCT03745651|184271735|SUPERIORITY||Least Squares Mean Difference|-31.91|STANDARD_ERROR_OF_MEAN|4.92|<|0.0001|TWO_SIDED|95.0|-41.57|-22.25|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 2||-22.25|-41.57|<0.0001
92186570|NCT03745651|184271735|SUPERIORITY||Least Squares Mean Difference|-35.13|STANDARD_ERROR_OF_MEAN|4.93|<|0.0001|TWO_SIDED|95.0|-44.81|-25.44|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 2||-25.44|-44.81|<0.0001
92186571|NCT03745651|184271735|SUPERIORITY||Least Squares Mean Difference|-44.56|STANDARD_ERROR_OF_MEAN|4.4|<|0.0001|TWO_SIDED|95.0|-53.19|-35.92|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 4||-35.92|-53.19|<0.0001
92186572|NCT03745651|184271735|SUPERIORITY||Least Squares Mean Difference|-45.91|STANDARD_ERROR_OF_MEAN|4.4|<|0.0001|TWO_SIDED|95.0|-54.55|-37.26|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 4||-37.26|-54.55|<0.0001
92186573|NCT03745651|184271735|SUPERIORITY||Least Squares Mean Difference|-44.53|STANDARD_ERROR_OF_MEAN|4.35|<|0.0001|TWO_SIDED|95.0|-53.08|-35.98|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 8||-35.98|-53.08|<0.0001
92186574|NCT03745651|184271735|SUPERIORITY||Least Squares Mean Difference|-46.0|STANDARD_ERROR_OF_MEAN|4.33|<|0.0001|TWO_SIDED|95.0|-54.51|-37.48|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 8||-37.48|-54.51|<0.0001
92186575|NCT03745651|184271736|SUPERIORITY||Least Squares Mean Difference|-39.4|STANDARD_ERROR_OF_MEAN|3.59|<|0.0001|TWO_SIDED|95.0|-46.48|-32.38|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent change from Baseline in SCORAD score at Week 8||-32.38|-46.48|<0.0001
92186576|NCT03745651|184271736|SUPERIORITY||Least Squares Mean Difference|-43.5|STANDARD_ERROR_OF_MEAN|3.56|<|0.0001|TWO_SIDED|95.0|-50.51|-36.53|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent change from Baseline in SCORAD score at Week 8||-36.53|-50.51|<0.0001
92186577|NCT03745651|184271737|SUPERIORITY||Least Squares Mean Difference|-1.52|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.02|-1.01|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 2||-1.01|-2.02|<0.0001
92186578|NCT03745651|184271737|SUPERIORITY||Least Squares Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.24|-1.24|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 2||-1.24|-2.24|<0.0001
92186579|NCT03745651|184271737|SUPERIORITY||Least Squares Mean Difference|-1.79|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-2.36|-1.23|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 4||-1.23|-2.36|<0.0001
92186580|NCT03745651|184271737|SUPERIORITY||Least Squares Mean Difference|-1.97|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-2.53|-1.4|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 4||-1.40|-2.53|<0.0001
92186581|NCT03745651|184271737|SUPERIORITY||Least Squares Mean Difference|-1.89|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-2.49|-1.29|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 8||-1.29|-2.49|<0.0001
92186582|NCT03745651|184271737|SUPERIORITY||Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.3|-1.1|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 8||-1.10|-2.30|<0.0001
92186583|NCT03745651|184271739|SUPERIORITY||Least Squares Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.94|-0.97|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in Skin Pain NRS score at Week 8||-0.97|-1.94|<0.0001
92186584|NCT03745651|184271739|SUPERIORITY||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.72|-0.76|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in Skin Pain NRS score at Week 8||-0.76|-1.72|<0.0001
92300955|NCT02312713|184505979|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.63||||0.23|TWO_SIDED|95.0|-0.4|1.66|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for 30 Second Chair Stand.||1.66|-0.40|0.23
92300956|NCT02312713|184505979|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.74||||0.11|TWO_SIDED|95.0|-0.17|1.64|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for 30 Second Chair Stand.||1.64|-0.17|0.11
92300957|NCT02312713|184505980|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.52|TWO_SIDED|95.0|-1.58|0.8|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for Timed Up and Go.||0.8|-1.58|0.52
92300958|NCT02312713|184505980|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.46|TWO_SIDED|95.0|-1.86|0.85|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for Timed Up and Go.||0.85|-1.86|0.46
92300959|NCT02312713|184505980|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.3|TWO_SIDED|95.0|-1.85|0.58|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for Timed Up and Go.||0.58|-1.85|0.3
92300960|NCT02312713|184505980|SUPERIORITY||Mean Difference (Final Values)|-1.22||||0.08|TWO_SIDED|95.0|-2.61|0.16|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for Timed Up and Go.||0.16|-2.61|0.08
92300961|NCT02312713|184505980|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.24||||0.63|TWO_SIDED|95.0|-1.23|0.74|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for Timed Up and Go.||0.74|-1.23|0.63
92300962|NCT02312713|184505980|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.72||||0.21|TWO_SIDED|95.0|-1.85|0.41|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for Timed Up and Go.||0.41|-1.85|0.21
92300963|NCT02312713|184505981|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.05|TWO_SIDED|95.0|-1.59|0.02|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||0.02|-1.59|0.05
92300964|NCT02312713|184505981|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.05|TWO_SIDED|95.0|-1.82|0.02|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||0.02|-1.82|0.05
92300965|NCT02312713|184505981|SUPERIORITY||Mean Difference (Final Values)|-0.55||||0.19|TWO_SIDED|95.0|-1.37|0.27|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||0.27|-1.37|0.19
92300966|NCT02312713|184505981|SUPERIORITY||Mean Difference (Final Values)|-0.89||||0.06|TWO_SIDED|95.0|-1.83|0.05|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||0.05|-1.83|0.06
92300967|NCT02312713|184505981|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.23||||0.49|TWO_SIDED|95.0|-0.43|0.89|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||0.89|-0.43|0.49
92300968|NCT02312713|184505981|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|95.0|-0.77|0.78|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||0.78|-0.77|0.99
92300969|NCT02312713|184505982|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|1.57||||0.36|TWO_SIDED|95.0|-1.77|4.92|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for KOOS Pain.||4.92|-1.77|0.36
92300970|NCT02312713|184505982|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|2.51||||0.17|TWO_SIDED|95.0|-1.11|6.14|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months for KOOS Pain.||6.14|-1.11|0.17
92300971|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|3.94||||0.06|TWO_SIDED|95.0|-0.19|8.06|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for KOOS Pain.||8.06|-0.19|0.06
92300972|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|3.36||||0.14|TWO_SIDED|95.0|-1.08|7.79|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for KOOS Pain.||7.79|-1.08|0.14
92300973|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|2.37||||0.25|TWO_SIDED|95.0|-1.67|6.4|||Mixed Models Analysis|||This is the comparison between Standard Physical Therapy and Wait List Control at 4 months for KOOS Pain.||6.4|-1.67|0.25
92300974|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|0.85||||0.7|TWO_SIDED|95.0|-3.48|5.18|||Mixed Models Analysis|||This is the comparison between Standard Physical Therapy and Wait List Control at 12 months for KOOS Pain.||5.18|-3.48|0.70
92300975|NCT02312713|184505982|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-1.32||||0.4|TWO_SIDED|95.0|-4.43|1.79|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for KOOS ADL.||1.79|-4.43|0.40
92300976|NCT02312713|184505982|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.33||||0.84|TWO_SIDED|95.0|-2.93|3.59|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for KOOS ADL.||3.59|-2.93|0.84
92300977|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|2.11||||0.28|TWO_SIDED|95.0|-1.73|5.94|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 month for KOOS ADL.||5.94|-1.73|0.28
92300978|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|2.79||||0.17|TWO_SIDED|95.0|-1.2|6.77|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 month for KOOS ADL.||6.77|-1.2|0.17
92300979|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|3.43||||0.07|TWO_SIDED|95.0|-0.32|7.18|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for KOOS ADL.||7.18|-0.32|0.07
92300980|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|2.45||||0.22|TWO_SIDED|95.0|-1.44|6.34|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for KOOS ADL.||6.34|-1.44|0.22
92300981|NCT02312713|184505982|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.21||||0.92|TWO_SIDED|95.0|-4.47|4.06|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for KOOS Sport/Rec.||4.06|-4.47|.92
92300982|NCT02312713|184505982|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.55||||0.82|TWO_SIDED|95.0|-4.15|5.24|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for KOOS Sport/Rec.||5.24|-4.15|.82
92300983|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|3.71||||0.17|TWO_SIDED|95.0|-1.59|9.0|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for KOOS Sport/Rec.||9|-1.59|0.17
92300984|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|6.01||||0.04|TWO_SIDED|95.0|0.29|11.74|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for KOOS Sport/Rec.||11.74|0.29|0.04
92300985|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|3.91||||0.14|TWO_SIDED|95.0|-1.28|9.1|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for KOOS Sport/Rec.||9.1|-1.28|0.14
92300986|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|5.47||||0.05|TWO_SIDED|95.0|-0.1|11.03|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for KOOS Sport/Rec.||11.03|-0.1|0.05
92300987|NCT02312713|184505982|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.33||||0.86|TWO_SIDED|95.0|-3.29|3.96|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for KOOS QOL.||3.96|-3.29|.86
92300988|NCT02312713|184505982|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|2.59||||0.15|TWO_SIDED|95.0|-0.96|6.13|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for KOOS QOL.||6.13|-0.96|0.15
92300989|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|3.63||||0.11|TWO_SIDED|95.0|-0.85|8.11|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for KOOS QOL.||8.11|-0.85|0.11
92300990|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|7.74||||0|TWO_SIDED|95.0|3.39|12.08|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for KOOS QOL.||12.08|3.39|0
92300991|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|3.29||||0.14|TWO_SIDED|95.0|-1.08|7.67|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for KOOS QOL.||7.67|-1.08|0.14
92300992|NCT02312713|184505982|SUPERIORITY||Mean Difference (Final Values)|5.15||||0.02|TWO_SIDED|95.0|0.92|9.37|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for KOOS QOL.||9.37|0.92|0.02
92300993|NCT02312713|184505983|SUPERIORITY||Mean Difference (Final Values)|-2.58||||0.02|TWO_SIDED|95.0|-4.67|-0.5|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||-0.5|-4.67|0.02
92300994|NCT02312713|184505983|SUPERIORITY||Mean Difference (Final Values)|-1.06||||0.33|TWO_SIDED|95.0|-3.22|1.09|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||1.09|-3.22|0.33
92300995|NCT02312713|184505983|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.72|TWO_SIDED|95.0|-2.52|1.74|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||1.74|-2.52|0.72
92300996|NCT02312713|184505983|SUPERIORITY||Mean Difference (Final Values)|0.65||||0.56|TWO_SIDED|95.0|-1.56|2.86|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||2.86|-1.56|0.56
92300997|NCT02312713|184505983|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|2.19||||0.01|TWO_SIDED|95.0|0.48|3.9|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||3.9|0.48|0.01
92300998|NCT02312713|184505983|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|1.71||||0.06|TWO_SIDED|95.0|-0.1|3.52|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||3.52|-0.1|0.06
92300999|NCT02312713|184505984|SUPERIORITY||Mean Difference (Final Values)|-2.47||||0.03|TWO_SIDED|95.0|-4.67|-0.26|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||-0.26|-4.67|0.03
92301000|NCT02312713|184505984|SUPERIORITY||Mean Difference (Final Values)|-2.43||||0.01|TWO_SIDED|95.0|-4.31|-0.55|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||-0.55|-4.31|0.01
92301001|NCT02312713|184505984|SUPERIORITY||Mean Difference (Final Values)|-0.99||||0.39|TWO_SIDED|95.0|-3.24|1.27|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||1.27|-3.24|0.39
92301002|NCT02312713|184505984|SUPERIORITY||Mean Difference (Final Values)|-1.65||||0.1|TWO_SIDED|95.0|-3.58|0.29|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||0.29|-3.58|0.1
92301003|NCT02312713|184505984|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|1.48||||0.11|TWO_SIDED|95.0|-0.33|3.29|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||3.29|-0.33|0.11
92301004|NCT02312713|184505984|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.79||||0.33|TWO_SIDED|95.0|-0.8|2.37|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||2.37|-0.8|0.33
92301005|NCT02312713|184505985|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.06|TWO_SIDED|95.0|-1.62|0.04|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||0.04|-1.62|0.06
92301006|NCT02312713|184505985|SUPERIORITY||Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-0.77|0.77|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||0.77|-0.77|1.00
92301007|NCT02312713|184505985|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.31|TWO_SIDED|95.0|-1.29|0.41|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||0.41|-1.29|0.31
92186585|NCT03745651|184271742|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.57||0.2903|TWO_SIDED|95.0|-1.71|0.51|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 2||0.51|-1.71|0.2903
92301008|NCT02312713|184505985|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.58|TWO_SIDED|95.0|-1.01|0.57|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||0.57|-1.01|0.58
92301009|NCT02312713|184505985|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.35||||0.32|TWO_SIDED|95.0|-0.33|1.03|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||1.03|-0.33|0.32
92301010|NCT02312713|184505985|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.22||||0.51|TWO_SIDED|95.0|-0.86|0.43|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||0.43|-0.86|0.51
92301011|NCT02312713|184505986|SUPERIORITY||Mean Difference (Final Values)|6.95||||0.48|TWO_SIDED|95.0|-12.31|26.22|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||26.22|-12.31|0.48
92301012|NCT02312713|184505986|SUPERIORITY||Mean Difference (Final Values)|7.11||||0.41|TWO_SIDED|95.0|-9.69|23.91|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||23.91|-9.69|0.41
92301013|NCT02312713|184505986|SUPERIORITY||Mean Difference (Final Values)|-6.82||||0.5|TWO_SIDED|95.0|-26.55|12.91|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||12.91|-26.55|0.50
92301014|NCT02312713|184505986|SUPERIORITY||Mean Difference (Final Values)|7.02||||0.43|TWO_SIDED|95.0|-10.31|24.35|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||24.35|-10.31|0.43
92301015|NCT02312713|184505986|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-13.77||||0.09|TWO_SIDED|95.0|-29.73|2.19|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||2.19|-29.73|0.09
92301016|NCT02312713|184505986|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.09||||0.99|TWO_SIDED|95.0|-14.41|14.23|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||14.23|-14.41|0.99
92301017|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|1.36||||0.04|TWO_SIDED|95.0|0.05|2.66|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for Strengthening Exercises||2.66|0.05|0.04
92301018|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|1.21||||0.09|TWO_SIDED|95.0|-0.18|2.6|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for Strengthening Exercises.||2.6|-0.18|0.09
92301019|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|0.85||||0.22|TWO_SIDED|95.0|-0.49|2.19|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for Strengthening Exercises.||2.19|-0.49|0.22
92186586|NCT03745651|184271742|SUPERIORITY||Least Squares Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.57||0.0837|TWO_SIDED|95.0|-2.09|0.13|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 2||0.13|-2.09|0.0837
92186587|NCT03745651|184271742|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.61||0.6272|TWO_SIDED|95.0|-1.5|0.91|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 4||0.91|-1.50|0.6272
92301020|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|1.35||||0.06|TWO_SIDED|95.0|-0.08|2.78|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for Strengthening Exercises.||2.78|-0.08|0.06
92301021|NCT02312713|184505987|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.51||||0.36|TWO_SIDED|95.0|-1.6|0.58|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for Strength.||0.58|-1.6|0.36
92301022|NCT02312713|184505987|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.14||||0.81|TWO_SIDED|95.0|-1.03|1.31|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for Strength.||1.31|-1.03|0.81
92301023|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|1.85||||0|TWO_SIDED|95.0|0.67|3.03|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for Stretching.||3.03|0.67|0.00
92301024|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|1.62||||0|TWO_SIDED|95.0|0.55|2.68|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for Stretching.||2.68|0.55|0.00
92301025|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|1.37||||0.03|TWO_SIDED|95.0|0.16|2.57|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for Stretching.||2.57|0.16|0.03
92301026|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|2.07||||0|TWO_SIDED|95.0|0.98|3.16|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for Stretching.||3.16|0.98|0.00
92301027|NCT02312713|184505987|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.48||||0.33|TWO_SIDED|95.0|-1.46|0.5|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for Stretching.||0.5|-1.46|0.33
92301028|NCT02312713|184505987|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.45||||0.32|TWO_SIDED|95.0|-0.44|1.34|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for Stretching.||1.34|-0.44|0.32
92301029|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.21|TWO_SIDED|95.0|-0.61|2.8|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for Aerobic Exercise.||2.8|-0.61|0.21
92301030|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|2.07||||0.04|TWO_SIDED|95.0|0.13|4.0|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for Aerobic Exercise.||4|0.13|0.04
92301031|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.03|TWO_SIDED|95.0|0.15|3.62|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for Aerobic Exercise.||3.62|0.15|0.03
92186588|NCT03745651|184271742|SUPERIORITY||Least Squares Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.61||0.1609|TWO_SIDED|95.0|-2.07|0.34|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 4||0.34|-2.07|0.1609
92301032|NCT02312713|184505987|SUPERIORITY||Mean Difference (Final Values)|1.99||||0.05|TWO_SIDED|95.0|0.01|3.97|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for Aerobic Exercise.||3.97|0.01|0.05
92301033|NCT02312713|184505987|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.79||||0.27|TWO_SIDED|95.0|-0.62|2.2|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for Aerobic Exercise.||2.2|-0.62|0.27
92301034|NCT02312713|184505987|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.07||||0.93|TWO_SIDED|95.0|-1.69|1.54|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for Aerobic Exercise.||1.54|-1.69|0.93
92301035|NCT05444543|184505997|SUPERIORITY||Odds Ratio (OR)|0.089||||0.57|TWO_SIDED||||||Chi-squared|||||||0.57
92301036|NCT05444543|184505998|SUPERIORITY||Odds Ratio (OR)|1.1|||>|0.99|TWO_SIDED||||||Chi-squared|||||||>0.99
92301037|NCT00720226|184506053|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||Participants demonstrating 5-35% emphysema on baseline CT scan||||0.06
92301038|NCT00720226|184506054|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Participants with 5-35% emphysema at baseline||||0.55
92301039|NCT01036490|184506195|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
92301040|NCT01036490|184506196|SUPERIORITY_OR_OTHER|||||||0.39|||||||t-test, 2 sided|||||||0.39
92301041|NCT01036490|184506199|SUPERIORITY_OR_OTHER|||||||0.15|||||||t-test, 2 sided|||||||0.15
92186589|NCT03745651|184271742|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.73||0.3362|TWO_SIDED|95.0|-2.13|0.73|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 8||0.73|-2.13|0.3362
92301042|NCT01036490|184506200|SUPERIORITY_OR_OTHER|||||||0.58|||||||t-test, 2 sided|||||||0.58
92301043|NCT02054130|184506252|SUPERIORITY||Rate ratio|0.38|||<|0.001|TWO_SIDED|95.0|0.23|0.63|||Negative binomial regression|||||0.63|0.23|<0.001
92301044|NCT02054130|184506252|SUPERIORITY||Rate ratio|0.29|||<|0.001|TWO_SIDED|95.0|0.16|0.51|||Negative binomial regression|||||0.51|0.16|<0.001
92301045|NCT02054130|184506252|SUPERIORITY||Rate ratio|0.34|||<|0.001|TWO_SIDED|95.0|0.2|0.58|||Negative bnomial regression|||||0.58|0.20|<0.001
92301046|NCT00364949|184506274|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||t-test, 2 sided|||||||0.049
92186590|NCT03745651|184271742|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.73||0.269|TWO_SIDED|95.0|-2.23|0.62|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 8||0.62|-2.23|0.2690
92301047|NCT00364949|184506275|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||t-test, 2 sided|||||||0.042
92301048|NCT00364949|184506276|SUPERIORITY_OR_OTHER|||||||0.156||95.0|||||t-test, 2 sided|||||||0.156
92301049|NCT00364949|184506277|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||t-test, 2 sided|||||||0.770
92301050|NCT00364949|184506278|SUPERIORITY_OR_OTHER|||||||0.325||95.0|||||t-test, 2 sided|||||||0.325
92186591|NCT03745651|184271743|SUPERIORITY||Least Squares Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.54||0.0482|TWO_SIDED|95.0|-2.13|-0.01|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 2||-0.01|-2.13|0.0482
92301051|NCT00866658|184506289|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.88|STANDARD_ERROR_OF_MEAN|0.118|<|0.0001|TWO_SIDED|95.0|-1.116|-0.65||Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance(ANCOVA)included treatment arms, randomization strata of screening HbA1c (\<8.0, \>=8.0%),sulfonylurea use (yes, no), country as fixed effects, baseline HbA1c as covariate.|ANCOVA|||To detect a difference of 0.5% in change from baseline to Week 24 in HbA1c between lixisenatide and placebo, 145 patients in each arm would provide a power of 90% assuming common standard deviation of 1.3% with a 2-sided t test at 5% significance level.||-0.650|-1.116|<0.0001
92301052|NCT01258101|184506418|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to Arms Peginterferon/Ribavirin 800 mg (16 weeks) and Peginterferon/Ribavirin 400 mg (16 weeks).|Risk Difference (RD)|32.0|||||TWO_SIDED|95.0|10.5|53.5||||||||53.5|10.5|
92301053|NCT01258101|184506418|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 400 mg (24 weeks).|Risk Difference (RD)|-3.2|||||TWO_SIDED|95.0|-14.0|7.6||||||||7.6|-14.0|
92301054|NCT01258101|184506418|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 800 mg (16 weeks).|Risk Difference (RD)|7.2|||||TWO_SIDED|95.0|-4.7|19.1||||||||19.1|-4.7|
92301055|NCT01258101|184506418|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 400 mg (16 weeks).|Risk Difference (RD)|-21.1|||||TWO_SIDED|95.0|-42.2|-0.1||||||||-0.1|-42.2|
92301056|NCT01258101|184506420|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (16 weeks) and Peginterferon/Ribavirin 400 mg (16 weeks).|Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-1.0|0.2||||||||0.2|-1.0|
92301057|NCT01258101|184506420|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 400 mg (24 weeks).|Risk Difference (RD)|-2.6|||||TWO_SIDED|95.0|-6.4|1.3||||||||1.3|-6.4|
92301058|NCT01258101|184506420|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 800 mg (16 weeks).|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.4|1.4||||||||1.4|-1.4|
92301059|NCT01258101|184506420|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 400 mg (16 weeks).|Risk Difference (RD)|0.6|||||TWO_SIDED|95.0|-0.5|1.7||||||||1.7|-0.5|
92301060|NCT01258101|184506428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.629||||0.2667|TWO_SIDED||||||Regression, Cox|||||||0.2667
92301061|NCT01258101|184506428|SUPERIORITY_OR_OTHER|||||||0.9999|||||||Regression, Cox|||||||0.9999
92301062|NCT01258101|184506428|SUPERIORITY_OR_OTHER|||||||0.9891|||||||Regression, Cox|||||||0.9891
92301063|NCT03438227|184506505|SUPERIORITY|||||||0.039|||||||Chi-squared|||||||0.039
92301064|NCT03438227|184506506|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||||||0.019
92301065|NCT03438227|184506507|SUPERIORITY|||||||0.029|||||||Fisher Exact|||||||0.029
92301066|NCT03438227|184506508|SUPERIORITY|||||||0.029|||||||Fisher Exact|||||||0.029
92301067|NCT03438227|184506509|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
92301068|NCT03438227|184506510|SUPERIORITY|||||||0.194|||||||Fisher Exact|||||||0.194
92301069|NCT03438227|184506511|SUPERIORITY|||||||0.414|||||||Chi-squared|||||||0.414
92301070|NCT03438227|184506512|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
92301071|NCT03438227|184506513|SUPERIORITY|||||||0.571|||||||t-test, 2 sided|||||||0.571
92301072|NCT03438227|184506514|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||0.12
92301073|NCT03438227|184506515|SUPERIORITY|||||||0.049|||||||Log Rank|||||||0.049
92301074|NCT03438227|184506516|SUPERIORITY|||||||0.933|||||||t-test, 2 sided|||||||0.933
92301075|NCT03438227|184506517|SUPERIORITY|||||||0.66|||||||Fisher Exact|||||||0.66
92301076|NCT03438227|184506518|SUPERIORITY|||||||0.633|||||||t-test, 2 sided|||||||0.633
92301077|NCT00430950|184506521|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.2648||95.0|-1.51|0.42|||ANCOVA|||"The ANCOVA model included treatment as main effect and baseline mean trough sitting dBP as covariate.~Significance level alpha = 5%. Power = 80%.~The following statistical superiority hypothesis was tested:~Superiority of OM/HCTZ combination therapy 40/25 mg over OM/HCTZ 20/25 mg"||0.42|-1.51|0.2648
92301078|NCT00430950|184506522|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.4246||95.0|-1.26|0.53|||ANCOVA|||||0.53|-1.26|0.4246
92301079|NCT00430950|184506523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.7019||95.0|-1.84|1.24|||ANCOVA||refers to 8 week change; from week 8 to week 16|||1.24|-1.84|0.7019
92301080|NCT00430950|184506523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.7328||95.0|-1.71|1.21|||ANCOVA||refers to 4 week change; from week 8 to week 12|||1.21|-1.71|0.7328
92301081|NCT00430950|184506524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.0016||95.0|-2.58|-0.6|||ANCOVA||24 hour Ambulatory Blood Pressure Monitoring (ABPM) diastolic blood pressure (dBP)|||-0.60|-2.58|0.0016
92301082|NCT00430950|184506524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.0031||95.0|-2.61|-0.53|||ANCOVA||daytime Ambulatory Blood Pressure Monitoring (ABPM) diastolic blood pressure (dBP)|||-0.53|-2.61|0.0031
92301083|NCT00430950|184506524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.0073||95.0|-2.58|-0.4|||ANCOVA||night-time Ambulatory Blood Pressure Monitoring (ABPM) diastolic blood pressure (dBP)|||-0.40|-2.58|0.0073
92301084|NCT00430950|184506524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3||||0.0021||95.0|-3.71|-0.82|||ANCOVA||24 hour Ambulatory Blood Pressure Monitoring (ABPM) systolic blood pressure (sBP)|||-0.82|-3.71|0.0021
92301085|NCT00430950|184506524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3||||0.0031||95.0|-3.76|-0.76|||ANCOVA||daytime Ambulatory Blood Pressure Monitoring (ABPM) systolic blood pressure (sBP)|||-0.76|-3.76|0.0031
92301086|NCT00430950|184506524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.0104||95.0|-3.61|-0.48|||ANCOVA||night-time Ambulatory Blood Pressure Monitoring (ABPM) systolic blood pressure (sBP)|||-0.48|-3.61|0.0104
92301087|NCT00430950|184506525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||||95.0|0.85|1.4|||Regression, Logistic|||||1.40|0.85|
92301088|NCT01564459|184506547|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.587||||0.269|TWO_SIDED|95.0|-1.637|0.464|||Constrained longitudinal data analysis|terms for treatment, time and treatment-by-time interaction||||0.464|-1.637|0.269
92301089|NCT01564459|184506548|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.687||||0.108|TWO_SIDED|95.0|-1.527|0.154|||Constrained longitudinal data analysis|terms for treatment, time and treatment-by-time interaction||||0.154|-1.527|0.108
92301090|NCT03864042|184506553|OTHER||Geometric LS Mean Ratio|1.17|||||TWO_SIDED|90.0|0.978|1.4|||||Day 1 / Day -7|||1.40|0.978|
92301091|NCT03864042|184506553|OTHER||Geometric LS Mean Ratio|0.258|||||TWO_SIDED|90.0|0.215|0.308|||||Day 14 / Day -7|||0.308|0.215|
92301092|NCT03864042|184506554|OTHER||Geometric LS Mean Ratio|1.12|||||TWO_SIDED|90.0|0.998|1.25|||||Day 1 / Day -7|||1.25|0.998|
92301093|NCT03864042|184506554|OTHER||Geometric LS Mean Ratio|1.25|||||TWO_SIDED|90.0|1.12|1.4|||||Day 14 / Day -7|||1.40|1.12|
92301094|NCT03864042|184506555|OTHER||Geometric LS Mean Ratio|1.34|||||TWO_SIDED|90.0|1.12|1.62|||||Day 1 / Day -7|||1.62|1.12|
92301095|NCT03864042|184506555|OTHER||Geometric LS Mean Ratio|0.622|||||TWO_SIDED|90.0|0.517|0.748|||||Day 14 / Day -7|||0.748|0.517|
92301096|NCT03864042|184506556|OTHER||Geometric LS Mean Ratio|1.09|||||TWO_SIDED|90.0|0.975|1.23|||||Day 1 / Day -7|||1.23|0.975|
92301097|NCT03864042|184506556|OTHER||Geometric LS Mean Ratio|1.3|||||TWO_SIDED|90.0|1.16|1.46|||||Day 14 / Day -7|||1.46|1.16|
92301098|NCT03864042|184506557|OTHER||Geometric LS Mean Ratio|1.05|||||TWO_SIDED|90.0|0.922|1.2|||||Day 1 / Day -7|||1.20|0.922|
92301099|NCT03864042|184506557|OTHER||Geometric LS Mean Ratio|1.13|||||TWO_SIDED|90.0|0.992|1.29|||||Day 14 / Day -7|||1.29|0.992|
92301100|NCT03864042|184506558|OTHER||Geometric LS Mean Ratio|1.09|||||TWO_SIDED|90.0|0.99|1.19|||||Day 1 / Day -7|||1.19|0.990|
92301101|NCT03864042|184506558|OTHER||Geometric LS Mean Ratio|1.1|||||TWO_SIDED|90.0|1.0|1.22|||||Day 14 / Day -7|||1.22|1.00|
92301102|NCT03864042|184506559|OTHER||Geometric LS Mean Ratio|0.894|||||TWO_SIDED|90.0|0.741|1.08|||||Day 1 / Day -7|||1.08|0.741|
92301103|NCT03864042|184506559|OTHER||Geometric LS Mean Ratio|0.692|||||TWO_SIDED|90.0|0.573|0.835|||||Day 14 / Day -7|||0.835|0.573|
92301104|NCT03864042|184506560|OTHER||Geometric LS Mean Ratio|1.32|||||TWO_SIDED|90.0|0.861|2.04|||||Day 1 / Day -7|||2.04|0.861|
92301105|NCT03864042|184506560|OTHER||Geometric LS Mean Ratio|1.01|||||TWO_SIDED|90.0|0.659|1.56|||||Day 14 / Day -7|||1.56|0.659|
92301106|NCT03864042|184506561|OTHER||Geometric LS Mean Ratio|1.01|||||TWO_SIDED|90.0|0.762|1.33|||||Day 1 / Day -7|||1.33|0.762|
92301107|NCT03864042|184506561|OTHER||Geometric LS Mean Ratio|0.718|||||TWO_SIDED|90.0|0.543|0.948|||||Day 14 / Day -7|||0.948|0.543|
92301108|NCT03864042|184506562|OTHER||Geometric LS Mean Ratio|4.34|||||TWO_SIDED|90.0|2.94|6.4|||||Day 1 / Day -7|||6.40|2.94|
92301109|NCT03864042|184506562|OTHER||Geometric LS Mean Ratio|2.68|||||TWO_SIDED|90.0|1.82|3.96|||||Day 14 / Day -7|||3.96|1.82|
92301110|NCT03864042|184506563|OTHER||Geometric LS Mean Ratio|0.754|||||TWO_SIDED|90.0|0.595|0.954|||||Day 1 / Day -7|||0.954|0.595|
92301111|NCT03864042|184506563|OTHER||Geometric LS Mean Ratio|0.755|||||TWO_SIDED|90.0|0.596|0.957|||||Day 14 / Day -7|||0.957|0.596|
92301112|NCT03864042|184506564|OTHER||Geometric LS Mean Ratio|1.05|||||TWO_SIDED|90.0|0.864|1.27|||||Day 1 / Day -7|||1.27|0.864|
92301113|NCT03864042|184506564|OTHER||Geometric LS Mean Ratio|1.42|||||TWO_SIDED|90.0|1.17|1.72|||||Day 14 / Day -7|||1.72|1.17|
92301114|NCT03864042|184506565|OTHER||Geometric LS Mean Ratio|1.07|||||TWO_SIDED|90.0|0.92|1.25|||||Day 1 / Day -7|||1.25|0.920|
92301115|NCT03864042|184506565|OTHER||Geometric LS Mean Ratio|0.175|||||TWO_SIDED|90.0|0.151|0.204|||||Day 14 / Day -7|||0.204|0.151|
92301116|NCT03864042|184506566|OTHER||Geometric LS Mean Ratio|1.28|||||TWO_SIDED|90.0|1.18|1.38|||||Day 1 / Day -7|||1.38|1.18|
92301117|NCT03864042|184506566|OTHER||Geometric LS Mean Ratio|1.05|||||TWO_SIDED|90.0|0.974|1.14|||||Day 14 / Day -7|||1.14|0.974|
92301118|NCT03864042|184506567|OTHER||Geometric LS Mean Ratio|1.25|||||TWO_SIDED|90.0|1.09|1.43|||||Day 1 / Day -7|||1.43|1.09|
92301119|NCT03864042|184506567|OTHER||Geometric LS Mean Ratio|0.513|||||TWO_SIDED|90.0|0.449|0.587|||||Day 14 / Day -7|||0.587|0.449|
92301120|NCT03864042|184506568|OTHER||Geometric LS Mean Ratio|1.28|||||TWO_SIDED|90.0|1.17|1.39|||||Day 1 / Day -7|||1.39|1.17|
92301121|NCT03864042|184506568|OTHER||Geometric LS Mean Ratio|1.07|||||TWO_SIDED|90.0|0.979|1.16|||||Day 14 / Day -7|||1.16|0.979|
92301122|NCT03864042|184506569|OTHER||Geometric LS Mean Ratio|1.09|||||TWO_SIDED|90.0|0.947|1.26|||||Day 1 / Day -7|||1.26|0.947|
92301123|NCT03864042|184506569|OTHER||Geometric LS Mean Ratio|1.27|||||TWO_SIDED|90.0|1.1|1.46|||||Day 14 / Day -7|||1.46|1.10|
92301124|NCT03864042|184506570|OTHER||Geometric LS Mean Ratio|1.12|||||TWO_SIDED|90.0|1.02|1.23|||||Day 1 / Day -7|||1.23|1.02|
92301125|NCT03864042|184506570|OTHER||Geometric LS Mean Ratio|1.26|||||TWO_SIDED|90.0|1.14|1.38|||||Day 14 / Day -7|||1.38|1.14|
92301126|NCT03864042|184506571|OTHER||Geometric LS Mean Ratio|0.9|||||TWO_SIDED|90.0|0.721|1.12|||||Day 1 / Day -7|||1.12|0.721|
92301127|NCT03864042|184506571|OTHER||Geometric LS Mean Ratio|0.679|||||TWO_SIDED|90.0|0.544|0.848|||||Day 14 / Day -7|||0.848|0.544|
92301128|NCT03864042|184506572|OTHER||Geometric LS Mean Ratio|1.26|||||TWO_SIDED|90.0|0.8|1.98|||||Day 1 / Day -7|||1.98|0.800|
92301129|NCT03864042|184506572|OTHER||Geometric LS Mean Ratio|0.827|||||TWO_SIDED|90.0|0.526|1.3|||||Day 14 / Day -7|||1.30|0.526|
92301130|NCT03864042|184506573|OTHER||Geometric LS Mean Ratio|0.98|||||TWO_SIDED|90.0|0.688|1.39|||||Day 1 / Day -7|||1.39|0.688|
92301131|NCT03864042|184506573|OTHER||Geometric LS Mean Ratio|0.633|||||TWO_SIDED|90.0|0.445|0.9|||||Day 14 / Day -7|||0.900|0.445|
92301132|NCT03864042|184506574|OTHER||Geometric LS Mean Ratio|2.79|||||TWO_SIDED|90.0|2.08|3.74|||||Day 1 / Day -7|||3.74|2.08|
92301133|NCT03864042|184506574|OTHER||Geometric LS Mean Ratio|1.57|||||TWO_SIDED|90.0|1.17|2.11|||||Day 14 / Day -7|||2.11|1.17|
92301134|NCT03864042|184506575|OTHER||Geometric LS Mean Ratio|0.769|||||TWO_SIDED|90.0|0.637|0.928|||||Day 1 / Day -7|||0.928|0.637|
92301135|NCT03864042|184506575|OTHER||Geometric LS Mean Ratio|0.736|||||TWO_SIDED|90.0|0.61|0.889|||||Day 14 / Day -7|||0.889|0.610|
92301136|NCT03864042|184506576|OTHER||Geometric LS Mean Ratio|0.993|||||TWO_SIDED|90.0|0.803|1.23|||||Day 1 / Day -7|||1.23|0.803|
92301137|NCT03864042|184506576|OTHER||Geometric LS Mean Ratio|1.48|||||TWO_SIDED|90.0|1.2|1.83|||||Day 14 / Day -7|||1.83|1.20|
92301138|NCT03864042|184506577|OTHER||Geometric LS Mean Ratio|1.45|||||TWO_SIDED|90.0|0.902|2.32|||||Day 1 / Day -7|||2.32|0.902|
92301139|NCT03864042|184506577|OTHER||Geometric LS Mean Ratio|1.18|||||TWO_SIDED|90.0|0.72|1.93|||||Day 14 / Day -7|||1.93|0.720|
92301140|NCT03864042|184506578|OTHER||Geometric LS Mean Ratio|1.47|||||TWO_SIDED|90.0|0.915|2.36|||||Day 1 / Day -7|||2.36|0.915|
92301141|NCT03864042|184506578|OTHER||Geometric LS Mean Ratio|0.851|||||TWO_SIDED|90.0|0.519|1.39|||||Day 14 / Day -7|||1.39|0.519|
92301142|NCT03864042|184506579|OTHER||Geometric LS Mean Ratio|1.2|||||TWO_SIDED|90.0|0.775|1.87|||||Day 1 / Day -7|||1.87|0.775|
92301143|NCT03864042|184506579|OTHER||Geometric LS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.593|1.49|||||Day 14 / Day -7|||1.49|0.593|
92301144|NCT03864042|184506580|OTHER||Geometric LS Mean Ratio|1.18|||||TWO_SIDED|90.0|0.83|1.67|||||Day 1 / Day -7|||1.67|0.830|
92301145|NCT03864042|184506580|OTHER||Geometric LS Mean Ratio|0.979|||||TWO_SIDED|90.0|0.68|1.41|||||Day 14 / Day -7|||1.41|0.680|
92301146|NCT03864042|184506581|OTHER||Geometric LS Mean Ratio|0.798|||||TWO_SIDED|90.0|0.585|1.09|||||Day 21 / Day 14|||1.09|0.585|
92301147|NCT03864042|184506582|OTHER||Geometric LS Mean Ratio|1.02|||||TWO_SIDED|90.0|0.935|1.11|||||Day 21 / Day 14|||1.11|0.935|
92301148|NCT03864042|184506583|OTHER||Geometric LS Mean Ratio|0.762|||||TWO_SIDED|90.0|0.613|0.945|||||Day 21 / Day 14|||0.945|0.613|
92301149|NCT03864042|184506584|OTHER||Geometric LS Mean Ratio|1.06|||||TWO_SIDED|90.0|0.929|1.22|||||Day 21 / Day 14|||1.22|0.929|
92301150|NCT01698775|184506702|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.33||||0.035|TWO_SIDED|95.0|-0.63|-0.02|||ANCOVA|||||-0.02|-0.63|0.035
92301151|NCT01698775|184506703|SUPERIORITY_OR_OTHER||Difference in percentages|-3.8|||||TWO_SIDED|95.0|-16.3|8.8|||||Based on Miettinen \& Nurminen method stratified by renal status stratum.|||8.8|-16.3|
92301152|NCT01698775|184506704|SUPERIORITY_OR_OTHER||Difference in percentages|1.9|||||TWO_SIDED|95.0|-2.6|7.2|||||Based on Miettinen \& Nurminen method stratified by renal status stratum.|||7.2|-2.6|
92301153|NCT01698775|184506705|SUPERIORITY_OR_OTHER||Difference in percentage|-0.9|||||TWO_SIDED|95.0|-12.2|10.3|||||Based on Miettinen \& Nurminen method stratified by renal status stratum.|||10.3|-12.2|
92301154|NCT01698775|184506706|SUPERIORITY_OR_OTHER||Difference in percentage|2.8|||||TWO_SIDED|95.0|-3.6|9.8||||||||9.8|-3.6|
92301155|NCT01698775|184506707|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.9||||0.54|TWO_SIDED|95.0|-16.5|8.7|||ANCOVA|||||8.7|-16.5|0.540
92301156|NCT01698775|184506710|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.4||||0.72|TWO_SIDED|95.0|-2.7|1.9|||cLDA|||||1.9|-2.7|0.720
92301157|NCT01244061|184506729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.08|||<|0.0001|TWO_SIDED|95.0|4.34|11.55||The statistical significance was declared for each hypothesis firstly for CAR Weeks 9-12, and then secondly for CAR Weeks 9-52 until a p-value \> 0.05 was obtained, at which point the hypothesis would be declared to be not statistically significant.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||The study was conducted on a sample size to achieve at least 90% power for the treatment comparison in the primary efficacy endpoint assuming an odds ratio of 3.36 with a placebo abstinence rate of 12% and varenicline abstinence rate of 31%. The intent of the primary efficacy analysis was to evaluate the hypothesis that varenicline is superior to placebo for smoking cessation after 12 weeks of treatment.||11.55|4.34|<0.0001
92301158|NCT01244061|184506730|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.0|||<|0.0001|TWO_SIDED|95.0|3.97|20.41||Statistical significance was declared for each hypothesis in the order above until a p-value \>0.05 was obtained, at which point the hypothesis was declared to be not statistically significant.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||The sample size was sufficient to achieve 80% power for the treatment comparison in the key secondary end point for an odds ratio of 2.55 with a placebo abstinence rate of 6% and varenicline abstinence rate of 14%. The intent of the key secondary efficacy analysis was to evaluate the hypothesis that varenicline is superior to placebo for smoking cessation from Week 9 to the end of non-treatment follow up period at Week 52.||20.41|3.97|<0.0001
92301159|NCT01244061|184506731|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.83|||<|0.0001|TWO_SIDED|95.0|3.25|10.44||The statistical test was two-sided and at a 0.05 level of significance. No adjustment was made for the analysis of multiple secondary endpoints.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||||10.44|3.25|<0.0001
92301160|NCT01244061|184506732|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.85|||<|0.0001|TWO_SIDED|95.0|4.92|12.51||The statistical test was two-sided and at a 0.05 level of significance. No adjustment was made for the analysis of multiple secondary endpoints.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||Week 12 assessment||12.51|4.92|<0.0001
92301161|NCT01244061|184506732|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.94|||<|0.0001|TWO_SIDED|95.0|1.86|4.64||The statistical test was two-sided and at a 0.05 level of significance. No adjustment was made for the analysis of multiple secondary endpoints.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||Week 24 assessment||4.64|1.86|<0.0001
92301162|NCT01244061|184506732|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.06|||<|0.0001|TWO_SIDED|95.0|1.88|4.97||The statistical test was two-sided and at a 0.05 level of significance. No adjustment was made for the analysis of multiple secondary endpoints.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||Week 52 assessment||4.97|1.88|<0.0001
92301163|NCT03166124|184506733|SUPERIORITY||Ratio of Geometric LSMeans|1.02|||||TWO_SIDED|95.0|0.953|1.1|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.10|0.953|
92301164|NCT03166124|184506733|SUPERIORITY||Ratio of Geometric LSMeans|1.03|||||TWO_SIDED|95.0|0.974|1.09|||Mixed Models Analysis|||Geometric Least Squares Means (LSMeans) were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.09|0.974|
92301165|NCT03166124|184506734|SUPERIORITY||Ratio of Geometric LSMeans|1.04|||||TWO_SIDED|95.0|0.96|1.12|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.12|0.96|
92301166|NCT03166124|184506734|SUPERIORITY||Ratio of Geometric LSMeans|1.02|||||TWO_SIDED|95.0|0.94|1.1|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.10|0.94|
92301167|NCT00788593|184506749|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|1.023||||0.228|TWO_SIDED|95.0|-0.656|2.701|||ANCOVA|||Treatment difference and 95 percent (%) confidence interval (CI) was based on LS mean from analysis of covariance (ANCOVA) which included participant as random effect, treatment, period and sequence as fixed effects, and placebo baseline CFA value as covariate.||2.701|-0.656|0.228
92301168|NCT00788593|184506750|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92301169|NCT00788593|184506750|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92301170|NCT00788593|184506751|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92301171|NCT00788593|184506751|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92301172|NCT00515034|184506755|NON_INFERIORITY_OR_EQUIVALENCE|Percent of participants who are clinically cured including 95% confidence intervals are provided.|Risk Difference (RD)|-13.8|||||TWO_SIDED|95.0|-54.4|26.8|||normal approximation to the binomial||Treatment difference (doripenem minus imipenem/cilastatin) in percent of participants who are clinically cured.|There is no formal hypothesis test for this outcome. Only summary data are provided.||26.8|-54.4|
92301173|NCT00515034|184506756|NON_INFERIORITY_OR_EQUIVALENCE|Percent of participants who are clinically cured including 95% confidence intervals are provided.|Risk Difference (RD)|18.7|||||TWO_SIDED|95.0|-13.2|50.6|||normal approximation to binomial||Treatment difference (doripenem minus imipenem) in percent of participants who are clinically cured.|There is no formal hypothesis test for this outcome. Only summary data are presented.||50.6|-13.2|
92301174|NCT01392326|184506757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.53|||<|0.0001|TWO_SIDED|95.0|3.46|8.85|||Regression, Logistic|||||8.85|3.46|<0.0001
92301175|NCT01392326|184506757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.39|||<|0.0001|TWO_SIDED|95.0|3.37|8.62|||Regression, Logistic|||||8.62|3.37|<0.0001
92301176|NCT02655016|184506795|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.502|0.755||p-value was calculated based on stratified log-rank test using randomization stratification factors: administration of neoadjuvant chemotherapy, best response to platinum therapy and homologous recombination deficiency (HRD) status.|Log Rank||If hazard ratio was found to be \<1 then niraparib can be considered as superior to placebo.|||0.755|0.502|<0.0001
92301177|NCT02655016|184506796|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.1238|TWO_SIDED|95.0|0.442|1.106||p-value was calculated based on stratified log-rank test using randomization stratification factors: administration of neoadjuvant chemotherapy, best response to platinum therapy and HRD status.|Log Rank||If hazard ratio was found to be \<1 then niraparib can be considered as superior to placebo.|||1.106|0.442|0.1238
92301178|NCT02655016|184506797|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0001|TWO_SIDED|95.0|0.521|0.802||p-value was calculated based on stratified log-rank test using randomization stratification factors: administration of neoadjuvant chemotherapy, best response to platinum therapy and HRD status.|Log Rank||If hazard ratio was found to be \<1 then niraparib can be considered as superior to placebo.|||0.802|0.521|0.0001
92301179|NCT02655016|184506798|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.2242|TWO_SIDED|95.0|0.577|1.139||p-value was calculated based on stratified log-rank test using randomization stratification factors: administration of neoadjuvant chemotherapy, best response to platinum therapy and HRD status.|Log Rank||If hazard ratio was found to be \<1 then niraparib can be considered as superior to placebo.|||1.139|0.577|0.2242
92301180|NCT03959527|184506833|NON_INFERIORITY|A single oral 3 g dose of zoliflodacin would be considered as non-inferior to a combination of a single IM 500 mg dose of ceftriaxone and a single 1 g oral dose of azithromycin if the upper bound of the 2-sided 95% CI for the microbiological cure rate of the combination therapy minus zoliflodacin was less than 12% (prespecified non-inferiority \[NI\] margin for the primary endpoint).|Risk Difference (RD)|5.31|||||TWO_SIDED|95.0|1.38|8.65|||||95% CI of the treatment difference of ceftriaxone+ azithromycin combination minus zoliflodacin|Point estimate for the treatment difference in proportion of ceftriaxone/azithromycin combination and zoliflodacin with microbiological cure and 2-sided 95% CI calculated by Newcombe score method.||8.65|1.38|
92301181|NCT02960893|184506870|SUPERIORITY||LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.519|TWO_SIDED|95.0|-0.5|0.9||Significance was evaluated at a 2-sided alpha level of 0.05|Mixed Model with Repeated Measures|Fixed effects: treatment, baseline (BL) gait severity, visit, treatment-by-visit interaction; Covariate: BL Total SARA score; Random effect: subject||||0.9|-0.5|0.519
92301182|NCT03692312|184506876|SUPERIORITY||Mean Difference (Final Values)|1.75|STANDARD_ERROR_OF_MEAN|0.875||0.0514|TWO_SIDED|95.0|-0.01|3.51|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||3.51|-0.01|0.0514
92301183|NCT03692312|184506877|SUPERIORITY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.268||0.2124|TWO_SIDED|95.0|-0.2|0.88|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||0.88|-0.20|0.2124
92186592|NCT03745651|184271743|SUPERIORITY||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.54||0.0271|TWO_SIDED|95.0|-2.26|-0.14|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 2||-0.14|-2.26|0.0271
92186593|NCT03745651|184271743|SUPERIORITY||Least Squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.6||0.2091|TWO_SIDED|95.0|-1.94|0.42|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 4||0.42|-1.94|0.2091
92186594|NCT03745651|184271743|SUPERIORITY||Least Squares Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.6||0.0111|TWO_SIDED|95.0|-2.71|-0.35|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 4||-0.35|-2.71|0.0111
92186595|NCT03745651|184271743|SUPERIORITY||Least Squares Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.68||0.0802|TWO_SIDED|95.0|-2.51|0.14|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 8||0.14|-2.51|0.0802
92301184|NCT03692312|184506878|SUPERIORITY||Mean Difference (Final Values)|4.74|STANDARD_ERROR_OF_MEAN|1.104|<|0.0001|TWO_SIDED|95.0|2.51|6.96|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||6.96|2.51|<0.0001
92301185|NCT03692312|184506879|SUPERIORITY||Mean Difference (Final Values)|3.18|STANDARD_ERROR_OF_MEAN|1.099||0.0059|TWO_SIDED|95.0|0.96|5.39|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||5.39|0.96|0.0059
92301186|NCT03692312|184506880|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.108||0.4634|TWO_SIDED|95.0|-0.3|0.14|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||0.14|-0.30|0.4634
92301187|NCT03692312|184506881|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.564||0.5385|TWO_SIDED|95.0|-1.49|0.79|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||0.79|-1.49|0.5385
92301188|NCT03692312|184506884|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.764||0.711|TWO_SIDED|95.0|-1.26|1.83|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||1.83|-1.26|0.7110
92301189|NCT03692312|184506885|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.326||0.7861|TWO_SIDED|95.0|-0.57|0.75|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||0.75|-0.57|0.7861
92186596|NCT03745651|184271743|SUPERIORITY||Least Squares Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.67||0.0666|TWO_SIDED|95.0|-2.56|0.09|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 8||0.09|-2.56|0.0666
92301190|NCT03692312|184506886|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.123||0.6282|TWO_SIDED|95.0|-0.19|0.31|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. A compound symmetry variance-covariance matrix has been used.||0.31|-0.19|0.6282
92301191|NCT03692312|184506887|SUPERIORITY|||||||0.0428|||||||t-test, 2 sided|||||||0.0428
92301192|NCT03692312|184506888|SUPERIORITY||Ratio|0.77|STANDARD_ERROR_OF_MEAN|0.094||0.0379|TWO_SIDED|95.0|0.6|0.98|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||0.98|0.60|0.0379
92301193|NCT03692312|184506890|SUPERIORITY|||||||0.078|||||||t-test, 2 sided|||Cmax upper quantiles group compared to the placebo group for mean change from baseline; two-tailed t-test assuming unequal variance.||||0.078
92301194|NCT03692312|184506892|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Cmax upper quantiles group compared to the placebo group for mean change from baseline; two-tailed t-test assuming unequal variance.||||0.29
92301195|NCT03692312|184506894|SUPERIORITY|||||||0.077|||||||t-test, 2 sided|||Cmax upper quantiles group compared to the placebo group for mean change from baseline (absolute value); two-tailed t-test assuming unequal variance.||||0.077
92186597|NCT03745651|184271746|SUPERIORITY||Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-4.84|-2.97|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in %BSA at Week 8||-2.97|-4.84|<0.0001
92186598|NCT03745651|184271746|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.47|<|0.0001|TWO_SIDED|95.0|-5.47|-3.63|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in %BSA at Week 8||-3.63|-5.47|<0.0001
92186599|NCT03745651|184271748|SUPERIORITY||Least Squares Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001|TWO_SIDED|95.0|-7.38|-4.86|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in POEM score at Week 8||-4.86|-7.38|<0.0001
92186600|NCT03745651|184271748|SUPERIORITY||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001|TWO_SIDED|95.0|-7.17|-4.67|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in POEM score at Week 8||-4.67|-7.17|<0.0001
92301196|NCT03692312|184506895|SUPERIORITY|||||||0.071|||||||t-test, 2 sided|||Cmax upper quantiles group compared to placebo group for mean Raw Score; two-tailed t-test assuming unequal variance.||||0.071
92186601|NCT03745651|184271750|SUPERIORITY||Least Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-4.19|-2.32|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total DLQI score at Week 8||-2.32|-4.19|<0.0001
92301197|NCT04285567|184506950|SUPERIORITY||Difference in Rates|26.6||||0.0004|TWO_SIDED|95.0|12.33|40.87|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using Cochran-Mantel-Haenszel (CMH) test stratified by the IvRS randomization stratification factors.||40.87|12.33|0.0004
92301198|NCT04285567|184506952|SUPERIORITY||Difference in Rates|20.78||||0.0053|TWO_SIDED|95.0|6.66|34.9|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||34.90|6.66|0.0053
92301199|NCT04285567|184506953|SUPERIORITY||Difference in Rates|31.63|||<|0.0001|TWO_SIDED|95.0|16.55|46.71|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||46.71|16.55|< .0001
92301200|NCT04285567|184506954|SUPERIORITY||Difference in Response Rates|9.68||||0.1119|TWO_SIDED|95.0|-2.05|21.41|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||21.41|-2.05|0.1119
92301201|NCT04285567|184506955|SUPERIORITY||Difference in Response Rates|17.44||||0.0154|TWO_SIDED|95.0|1.96|32.93|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||32.93|1.96|0.0154
92301202|NCT04285567|184506956|SUPERIORITY||Difference in Rates|18.93||||0.0054|TWO_SIDED|95.0|0.91|36.95|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||36.95|0.91|0.0054
92301203|NCT04285567|184506957|SUPERIORITY||Difference in Rates|26.79||||0.0038|TWO_SIDED|95.0|3.86|49.72|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||49.72|3.86|0.0038
92301204|NCT04285567|184506959|SUPERIORITY||Difference in Response Rates|3.05||||0.4199|TWO_SIDED|95.0|-5.73|11.84|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||11.84|-5.73|0.4199
92301205|NCT00605865|184506976|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was complications. The null hypothesis is there is no difference between with and without complications in the participants of responders."||||<0.001
92301206|NCT00605865|184506977|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was concomitant drug. The null hypothesis is there is no difference between with and without concomitant drug in the participants of responders."||||0.039
92301207|NCT00605865|184506978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was renal dysfunction. The null hypothesis is there is no difference between with and without renal dysfunction in the participants of responders."||||0.011
92301208|NCT00605865|184506979|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was past medical history of other illness. The null hypothesis is there is no difference between with and without past medical history of other illness in the participants of responders."||||0.010
92301209|NCT00605865|184506980|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was average daily dose. The null hypothesis is there is no difference of five types of average daily dose in the participants of responders."||||<0.001
92301210|NCT00605865|184506981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was suicidal ideation (including suicide attempt). The null hypothesis is there is no difference between with and without suicidal ideation(including suicide attempt) in the participants of responders."||||0.014
92301211|NCT00605865|184506982|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was 15 years and higher of age or not. The null hypothesis is there is no difference between 15 years and higher of age or not in the participants of responders."||||0.021
92301212|NCT00605865|184506983|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was target disease severity. The null hypothesis is there is no difference between three grade of target disease severity in the participants of responders."||||<0.001
92301213|NCT00605865|184506984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was history of treatment prior to Sertralin. The null hypothesis is there is no difference between with and without history of treatment prior to Sertralin in the participants of responders."||||0.003
92301214|NCT00605865|184506985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was outpatient or inpatient. The null hypothesis is there is no difference between outpatient or inpatient in the participants of responders."||||0.012
92186602|NCT03745651|184271750|SUPERIORITY||Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.47|<|0.0001|TWO_SIDED|95.0|-3.67|-1.83|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total DLQI score at Week 8||-1.83|-3.67|<0.0001
92301215|NCT00605865|184506986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was complications. The null hypothesis is there is no difference between with or without complications in the participants of responders."||||0.019
92301216|NCT00605865|184506987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was 15 years and higher of age or not. The null hypothesis is there is no difference between 15 years and higher of age or not in the participants of responders."||||0.010
92186603|NCT03745651|184271752|SUPERIORITY||Least Squares Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.55||0.0099|TWO_SIDED|95.0|-7.24|-1.03|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total CDLQI score at Week 8||-1.03|-7.24|0.0099
92301217|NCT00605865|184506988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was age. The null hypothesis is there is no difference between four groups of age in the participants of responders."||||0.015
92301218|NCT00605865|184506989|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was suicidal ideation (including suicide attempt). The null hypothesis is there is no difference between with or without suicidal ideation (including suicide attempt) in the participants of responders."||||<0.001
92301219|NCT02856880|184507017|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|40.18|||<|0.0001|TWO_SIDED|95.0|32.37|47.99||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque Glycolysis for the first named treatment.|||47.99|32.37|<0.0001
92301220|NCT02856880|184507018|SUPERIORITY_OR_OTHER||LS mean difference|26.41|||<|0.0001|TWO_SIDED|95.0|18.94|33.88||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||33.88|18.94|<0.0001
92301221|NCT02856880|184507018|SUPERIORITY_OR_OTHER||LS mean difference|-2.91||||0.4823|TWO_SIDED|95.0|-11.18|5.37||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of glycolysis for the first named treatment.|||5.37|-11.18|0.4823
92301222|NCT02856880|184507018|SUPERIORITY_OR_OTHER||LS mean difference|10.86||||0.0072|TWO_SIDED|95.0|3.13|18.59||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||18.59|3.13|0.0072
92301223|NCT02856880|184507018|SUPERIORITY_OR_OTHER||LS mean difference|13.77||||0.0009|TWO_SIDED|95.0|6.01|21.53||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||21.53|6.01|0.0009
92301224|NCT02856880|184507018|SUPERIORITY_OR_OTHER||LS mean difference|8.44||||0.0286|TWO_SIDED|95.0|0.93|15.95||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||15.95|0.93|0.0286
92301225|NCT02856880|184507018|SUPERIORITY_OR_OTHER||LS mean difference|5.32||||0.1573|TWO_SIDED|95.0|-2.15|12.79||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||12.79|-2.15|0.1573
92301226|NCT02856880|184507018|SUPERIORITY_OR_OTHER||LS mean difference|-29.32|||<|0.0001|TWO_SIDED|95.0|-37.2|-21.43||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||-21.43|-37.20|<0.0001
92301227|NCT02856880|184507018|SUPERIORITY_OR_OTHER||LS mean difference|31.74|||<|0.0001|TWO_SIDED|95.0|24.18|39.3||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||39.30|24.18|<0.0001
92301228|NCT02856880|184507018|SUPERIORITY_OR_OTHER||LS mean difference|2.42||||0.5174|TWO_SIDED|95.0|-5.08|9.92||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||9.92|-5.08|0.5174
92301229|NCT02856880|184507019|SUPERIORITY_OR_OTHER||LS mean difference|-233.22|||<|0.0001|TWO_SIDED|95.0|-332.88|-133.55||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||-133.55|-332.88|<0.0001
92186604|NCT03745651|184271752|SUPERIORITY||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|1.59||0.0542|TWO_SIDED|95.0|-6.3|0.06|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total CDLQI score at Week 8||0.06|-6.30|0.0542
92186605|NCT03745651|184271756|SUPERIORITY||Odds Ratio (OR)|5.16|||<|0.0001|TWO_SIDED|95.0|2.987|9.049||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||Percentage of participants with a score of either 1 or 2 on the PGIC at Week 8||9.049|2.987|<0.0001
92186606|NCT03745651|184271756|SUPERIORITY||Odds Ratio (OR)|7.47|||<|0.0001|TWO_SIDED|95.0|4.23|13.415||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||Percentage of participants with a score of either 1 or 2 on the PGIC at Week 8||13.415|4.230|<0.0001
92186607|NCT03745651|184271757|SUPERIORITY||Least Squares Mean Difference|4.4|STANDARD_ERROR_OF_MEAN|1.78||0.015|TWO_SIDED|95.0|0.85|7.86|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in EQ VAS score at Week 8||7.86|0.85|0.0150
92301230|NCT02856880|184507019|SUPERIORITY_OR_OTHER||LS mean difference|35.53||||0.5018|TWO_SIDED|95.0|-69.9|140.96||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||140.96|-69.90|0.5018
92301231|NCT02856880|184507019|SUPERIORITY_OR_OTHER||LS mean difference|-24.73||||0.6325|TWO_SIDED|95.0|-128.07|78.61||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||78.61|-128.07|0.6325
92301232|NCT02856880|184507019|SUPERIORITY_OR_OTHER||LS mean difference|-60.26||||0.2427|TWO_SIDED|95.0|-162.72|42.21||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||42.21|-162.72|0.2427
92301233|NCT02856880|184507019|SUPERIORITY_OR_OTHER||LS mean difference|1.05||||0.9834|TWO_SIDED|95.0|-100.5|102.61||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||102.61|-100.50|0.9834
92301234|NCT02856880|184507019|SUPERIORITY_OR_OTHER||LS mean difference|-61.31||||0.2226|TWO_SIDED|95.0|-161.14|38.52||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||38.52|-161.14|0.2226
92301235|NCT02856880|184507019|SUPERIORITY_OR_OTHER||LS mean difference|268.74|||<|0.0001|TWO_SIDED|95.0|165.98|371.51||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is second named treatment(non-SLS negative control) minus first named treatment (SLS negative control) such that a negative difference indicates a greater inhibition of plaque|||371.51|165.98|<0.0001
92301236|NCT02856880|184507019|SUPERIORITY_OR_OTHER||LS mean difference|-293.47|||<|0.0001|TWO_SIDED|95.0|-396.03|-190.91||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||-190.91|-396.03|<0.0001
92301237|NCT02856880|184507019|SUPERIORITY_OR_OTHER||LS mean difference|-294.53|||<|0.0001|TWO_SIDED|95.0|-395.43|-193.62||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||-193.62|-395.43|<0.0001
92301238|NCT02856880|184507019|SUPERIORITY_OR_OTHER||LS mean difference|-25.78||||0.6086|TWO_SIDED|95.0|-126.53|74.96||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||74.96|-126.53|0.6086
92186608|NCT03745651|184271757|SUPERIORITY||Least Squares Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|1.77||0.0044|TWO_SIDED|95.0|1.59|8.54|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in EQ VAS score at Week 8||8.54|1.59|0.0044
92186609|NCT03745651|184271758|SUPERIORITY||Least Squares Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|3.81||0.142|TWO_SIDED|95.0|-13.12|1.89|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent work time missed due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||1.89|-13.12|0.1420
92186610|NCT03745651|184271758|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|3.82||0.0375|TWO_SIDED|95.0|-15.51|-0.47|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent work time missed due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-0.47|-15.51|0.0375
92186611|NCT03745651|184271758|SUPERIORITY||Least Squares Mean Difference|-9.1|STANDARD_ERROR_OF_MEAN|2.75||0.0012|TWO_SIDED|95.0|-14.48|-3.63|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent impairment while working due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-3.63|-14.48|0.0012
92186612|NCT03745651|184271758|SUPERIORITY||Least Squares Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|2.74||0.0095|TWO_SIDED|95.0|-12.58|-1.77|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent impairment while working due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-1.77|-12.58|0.0095
92186613|NCT03745651|184271758|SUPERIORITY||Least Squares Mean Difference|-15.2|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-22.69|-7.73|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent overall work impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-7.73|-22.69|<0.0001
92301239|NCT02856880|184507020|SUPERIORITY_OR_OTHER||LS mean difference|-273.92||||0.6664|TWO_SIDED|95.0|-1550.45|1002.61||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||1002.61|-1550.45|0.6664
92301240|NCT02856880|184507020|SUPERIORITY_OR_OTHER||LS mean difference|674.06||||0.3249|TWO_SIDED|95.0|-692.21|2040.33||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||2040.33|-692.21|0.3249
92301241|NCT02856880|184507020|SUPERIORITY_OR_OTHER||LS mean difference|677.09||||0.3544|TWO_SIDED|95.0|-784.16|2138.35||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||2138.35|-784.16|0.3544
92301242|NCT02856880|184507020|SUPERIORITY_OR_OTHER||LS mean difference|3.04||||0.9967|TWO_SIDED|95.0|-1469.45|1475.52||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||1475.52|-1469.45|0.9967
92301243|NCT02856880|184507020|SUPERIORITY_OR_OTHER||LS mean difference|766.64||||0.2976|TWO_SIDED|95.0|-703.26|2236.54||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||2236.54|-703.26|0.2976
92301244|NCT02856880|184507020|SUPERIORITY_OR_OTHER||LS mean difference|-763.6||||0.2702|TWO_SIDED|95.0|-2144.45|617.25||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||617.25|-2144.45|0.2702
92301245|NCT02856880|184507020|SUPERIORITY_OR_OTHER||LS mean difference|947.97||||0.1511|TWO_SIDED|95.0|-361.95|2257.9||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||2257.90|-361.95|0.1511
92301246|NCT02856880|184507020|SUPERIORITY_OR_OTHER||LS mean difference|-270.88||||0.6998|TWO_SIDED|95.0|-1680.58|1138.82||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||1138.82|-1680.58|0.6998
92301247|NCT02856880|184507020|SUPERIORITY_OR_OTHER||LS mean difference|-1037.52||||0.121|TWO_SIDED|95.0|-2361.33|286.29||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant -level pre-treatment values and period minus participant -level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||286.29|-2361.33|0.1210
92301248|NCT02856880|184507020|SUPERIORITY_OR_OTHER||LS mean difference|-89.54||||0.8935|TWO_SIDED|95.0|-1439.5|1260.41||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||1260.41|-1439.50|0.8935
92186614|NCT03745651|184271758|SUPERIORITY||Least Squares Mean Difference|-12.6|STANDARD_ERROR_OF_MEAN|3.79||0.001|TWO_SIDED|95.0|-20.1|-5.18|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent overall work impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-5.18|-20.10|0.0010
92186615|NCT03745651|184271758|SUPERIORITY||Least Squares Mean Difference|-12.1|STANDARD_ERROR_OF_MEAN|2.09|<|0.0001|TWO_SIDED|95.0|-16.18|-7.95|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent activity impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-7.95|-16.18|<0.0001
92186616|NCT03745651|184271758|SUPERIORITY||Least Squares Mean Difference|-10.4|STANDARD_ERROR_OF_MEAN|2.08|<|0.0001|TWO_SIDED|95.0|-14.53|-6.37|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent activity impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-6.37|-14.53|<0.0001
92186617|NCT01322347|184271780|SUPERIORITY_OR_OTHER||Difference in LS Means between SFP & PBO|3.6|STANDARD_ERROR_OF_MEAN|1.39||0.011|TWO_SIDED|95.0||||LS Mean (SE) and p-value are from ANCOVA model with baseline Hgb as covariate. Model also includes indicator variable for baseline ESA dose stratum.|ANCOVA|||||||0.011
92186618|NCT04239911|184271799|EQUIVALENCE|A p\<0.05 considered the threshold for statistical significance.|Odds Ratio (OR)|0.97||||0.974|TWO_SIDED|95.0|0.14|6.85|||Regression, Logistic||The comparison group is enhanced usual care arm|"Outcome measures workers' intentions of leaving their current job. Responses included 7-point likert scale of very strongly disagree-very strongly agree. Dichotomized into agree, strongly agree, and very strongly vs. other responses. We used logistic mixed regression model to compare outcome between and within study arm. Mixed effects included a variable for time point (baseline/90 days), indicator for study arm, a study arm by time point interaction and subject random intercept."||6.85|0.14|0.974
92301249|NCT00094458|184507021|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||<0.001
92301250|NCT00094458|184507021|SUPERIORITY_OR_OTHER|||||||0.006|||||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||0.006
92301251|NCT00094458|184507021|SUPERIORITY_OR_OTHER|||||||0.022|||||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||0.022
92301252|NCT00094458|184507022|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||<0.001
92301253|NCT00094458|184507022|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||0.023
92301254|NCT00094458|184507022|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||0.055
92301255|NCT03247517|184507030|SUPERIORITY||Least Square Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.98||0.0232|TWO_SIDED|95.0|-8.4|-0.6|||Mixed Models for Repeated Measures|||||-0.6|-8.4|0.0232
92301256|NCT03247517|184507030|SUPERIORITY||Least Square Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|1.93||0.0091|TWO_SIDED|95.0|-8.9|-1.3|||Mixed Models for Repeated Measures|||||-1.3|-8.9|0.0091
92301257|NCT03247517|184507031|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0042|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.2|-0.8|0.0042
92301258|NCT03247517|184507031|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.3|-0.9|0.0003
92301259|NCT03247517|184507032|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.54||0.6854|TWO_SIDED|95.0|-3.6|2.4|||ANCOVA|||||2.4|-3.6|0.6854
92301260|NCT03247517|184507032|SUPERIORITY||Least Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|1.49||0.0518|TWO_SIDED|95.0|-5.8|0.0|||ANCOVA|||||0.0|-5.8|0.0518
92301261|NCT03247517|184507033|SUPERIORITY||Least Square Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.061||0.2062|TWO_SIDED|95.0|-0.2|0.04|||ANCOVA|||||0.04|-0.20|0.2062
92301262|NCT03247517|184507033|SUPERIORITY||Least Square Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.059||0.0519|TWO_SIDED|95.0|-0.23|0.0|||ANCOVA|||||0.00|-0.23|0.0519
92301263|NCT03247517|184507034|SUPERIORITY||Risk Difference (RD)|18.8||||0.0068|TWO_SIDED|95.0|5.5|32.2|||Regression, Logistic|||||32.2|5.5|0.0068
92301264|NCT03247517|184507034|SUPERIORITY||Risk Difference (RD)|17.6||||0.0095|TWO_SIDED|95.0|4.6|30.5|||Regression, Logistic|||||30.5|4.6|0.0095
92186619|NCT04239911|184271799|EQUIVALENCE|A p\< 0.05 considered the threshold for statistical significance|Odds Ratio (OR)|0.8||||0.846|TWO_SIDED|95.0|0.08|7.72|||Regression, Logistic||The comparison group is enhanced usual care arm|"Outcome measures workers' intentions of searching for a new job. Responses included 7-point likert scale of very strongly disagree-very strongly agree. Dichotomized into agree, strongly agree, and very strongly vs. other responses. We used logistic mixed regression model to compare outcome between and within study arm. Mixed effects included a variable for time point (baseline/90 days), indicator for study arm, a study arm by time point interaction and subject random intercept."||7.72|0.08|0.846
92186620|NCT04239911|184271802|EQUIVALENCE|A p\<0.05 was considered the threshold for statistical significance.|Odds Ratio (OR)|0.18||||0.043|TWO_SIDED|95.0|0.03|0.94|||Regression, Logistic||The comparison group is enhanced usual care arm|"Preventable 911 calls if had been able to reach the doctor. Dichotomized into agree, strongly agree, and very strongly vs. all other responses. We used logistic mixed regression model to compare trajectory of all outcomes between and within study arms. Mixed effects included a fixed effects categorical variable for time point (baseline/90days), and indicator for study arm (enhanced usual care/intervention), a study arm by time point interaction and subject specific random intercept."||0.94|0.03|0.043
92186621|NCT04239911|184271802|EQUIVALENCE|A p\<0.05 considered the threshold for statistical significance.|Odds Ratio (OR)|1.01||||0.99|TWO_SIDED|95.0|0.22|4.58|||Regression, Logistic|||"Preventable 911 calls if had been able to reach the nurse/supervisor. Dichotomized into agree, strongly agree, and very strongly vs. other responses. We used logistic mixed regression model to compare trajectory of all outcomes between and within study arms. Mixed effects included a fixed effects categorical variable for time point (baseline/90days), and indicator for study arm (enhanced usual care/intervention), a study arm by time point interaction and subject specific random intercept."||4.58|0.22|0.99
92301265|NCT03247517|184507035|SUPERIORITY||Least Square Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|5.51||0.7629|TWO_SIDED|95.0|-9.1|12.5|||ANCOVA|||||12.5|-9.1|0.7629
92186622|NCT02137785|184271803|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Analysis uses observed data only. Missing data was not imputed except for subjects with missing CCR are classified as not having a CCR (ie non-responder).|Cochran-Mantel-Haenszel|CMH test stratified by analysis center||A hierarchical procedure was used to control the level of significance. If the primary analysis was sig (p≤0.05), then AKCR at Week 12 were to be compared. If this analysis was significant, then the AKCR at Week 8 were to be compared. If this analysis was significant, then the CCR at Week 8 was to be compared.||||0.0001
92301266|NCT03247517|184507035|SUPERIORITY||Least Square Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|5.36||0.7648|TWO_SIDED|95.0|-12.1|8.9|||ANCOVA|||||8.9|-12.1|0.7648
92301267|NCT03247517|184507036|SUPERIORITY||Least Square Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.99||0.0069|TWO_SIDED|95.0|-4.6|-0.7|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-0.7|-4.6|0.0069
92301268|NCT03247517|184507036|SUPERIORITY||Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.96||0.0005|TWO_SIDED|95.0|-5.2|-1.5|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-1.5|-5.2|0.0005
92301269|NCT03247517|184507036|SUPERIORITY||Least Square Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.05||0.0424|TWO_SIDED|95.0|-4.2|-0.1|||ANCOVA|||This analysis pertains to the Inattention subscale score||-0.1|-4.2|0.0424
92301270|NCT03247517|184507036|SUPERIORITY||Least Square Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.03||0.039|TWO_SIDED|95.0|-4.1|-0.1|||ANCOVA|||This analysis pertains to the Inattention subscale score||-0.1|-4.1|0.0390
92301271|NCT03247517|184507037|SUPERIORITY||Least Square Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.2||0.3813|TWO_SIDED|95.0|-3.4|1.3|||ANCOVA|||||1.3|-3.4|0.3813
92301272|NCT03247517|184507037|SUPERIORITY||Least Square Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.17||0.9506|TWO_SIDED|95.0|-2.4|2.2|||ANCOVA|||||2.2|-2.4|0.9506
92301273|NCT03247517|184507038|SUPERIORITY|||||||0.0254|||||||Chi-squared|||This analysis pertains to Week 1||||0.0254
92301274|NCT03247517|184507038|SUPERIORITY|||||||0.0899|||||||Chi-squared|||This analysis pertains to Week 2||||0.0899
92301275|NCT03247517|184507038|SUPERIORITY|||||||0.007|||||||Chi-squared|||This analysis pertains to Week 3||||0.0070
92301276|NCT03247517|184507038|SUPERIORITY|||||||0.0031|||||||Chi-squared|||This analysis pertains to Week 4||||0.0031
92301277|NCT03247517|184507038|SUPERIORITY|||||||0.0065|||||||Chi-squared|||This analysis pertains to Week 5||||0.0065
92301278|NCT03247517|184507038|SUPERIORITY|||||||0.007|||||||Chi-squared|||This analysis pertains to Week 6||||0.0070
92301279|NCT03247517|184507038|SUPERIORITY|||||||0.0063|||||||Chi-squared|||This analysis pertains to Week 1||||0.0063
92301280|NCT03247517|184507038|SUPERIORITY|||||||0.0123|||||||Chi-squared|||This analysis pertains to Week 2||||0.0123
92301281|NCT03247517|184507038|SUPERIORITY|||||||0.0003|||||||Chi-squared|||This analysis pertains to Week 3||||0.0003
92301282|NCT03247517|184507038|SUPERIORITY|||||||0.0001|||||||Chi-squared|||This analysis pertains to Week 4||||0.0001
92301283|NCT03247517|184507038|SUPERIORITY|||||||0.0025|||||||Chi-squared|||This analysis pertains to Week 5||||0.0025
92301284|NCT03247517|184507038|SUPERIORITY|||||||0.0033|||||||Chi-squared|||This analysis pertains to Week 6||||0.0033
92301285|NCT03573505|184507044|SUPERIORITY||Hazard Ratio (HR)|2.01||||0.112|TWO_SIDED|95.0|0.85|4.73|||Log Rank|||A cox proportional hazards model with terms for treatment (BG00011 vs. placebo) and randomization stratification factor is used. A stratified log-rank test is used to compare the 2 treatment groups using randomization stratus as the stratification factor. An HR (Hazard Ratio) \< 1 indicates lower risk of event for the BG00011 group where HR is based on Cox proportional hazard model with treatment (Placebo, BG00011) as the categorical covariate.||4.73|0.85|0.112
92186623|NCT02137785|184271804|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|linear mixed model with fixed effects for treatment group, time point, and treatment group by time point interaction||||||<0.0001
92301286|NCT00515541|184507064|SUPERIORITY_OR_OTHER|||||||0.01||||||A P-value \<0.05 when compared to baseline is considered significant.|Wilcoxon (Mann-Whitney)|||Group B baseline vs. Group B Week 12||||0.01
92301287|NCT00515541|184507065|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The median of Groups A, B, and C grouped together was compared Baseline to Week 6.||||<0.001
92186624|NCT02137785|184271805|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|linear mixed model with fixed effects for treatment group, time point, and treatment group by time point interaction||||||<0.0001
92186625|NCT02137785|184271806|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Analysis uses observed data only. Missing data was not imputed except for subjects with missing CCR are classified as not having a CCR (ie non-responder).|Cochran-Mantel-Haenszel|CMH test stratified by analysis center||||||0.0001
92186626|NCT03345407|184271866|OTHER||Posterior adjusted median difference|-0.022|||||TWO_SIDED|95.0|-0.143|0.103|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 12.5 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.103|-0.143|
92186627|NCT03345407|184271866|OTHER||Posterior adjusted median difference|-0.027|||||TWO_SIDED|95.0|-0.098|0.036|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 50 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.036|-0.098|
92186628|NCT03345407|184271866|OTHER||Posterior adjusted median difference|-0.038|||||TWO_SIDED|95.0|-0.102|0.028|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 100 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.028|-0.102|
92186629|NCT03345407|184271866|OTHER||Posterior adjusted median difference|0.005|||||TWO_SIDED|95.0|-0.064|0.071|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 250 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.071|-0.064|
92301288|NCT00515541|184507065|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||The median of Groups A, B, and C grouped together was compared Baseline to Week 12.||||<0.001
92186630|NCT03345407|184271866|OTHER||Posterior adjusted median difference|-0.003|||||TWO_SIDED|95.0|-0.075|0.061|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 500 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.061|-0.075|
92186631|NCT03345407|184271866|OTHER||Posterior adjusted median difference|-0.004|||||TWO_SIDED|95.0|-0.051|0.042|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 750 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.042|-0.051|
92186632|NCT03345407|184271867|OTHER||Posterior median exacerbation rate ratio|0.92|||||TWO_SIDED|95.0|0.6|1.4|||||Treatment comparison (posterior median exacerbation rate ratio and 95% HPD CrI) of Nemiralisib 50 mcg and placebo for moderate/severe exacerbations has been presented.|||1.40|0.60|
92186633|NCT03345407|184271867|OTHER||Posterior median exacerbation rate ratio|0.89|||||TWO_SIDED|95.0|0.57|1.35|||||Treatment comparison (posterior median exacerbation rate ratio and 95% HPD CrI) of Nemiralisib 100 mcg and placebo for moderate/severe exacerbations has been presented.|||1.35|0.57|
92186634|NCT03345407|184271867|OTHER||Posterior median exacerbation rate ratio|1.01|||||TWO_SIDED|95.0|0.65|1.5|||||Treatment comparison (posterior median exacerbation rate ratio and 95% HPD CrI) of Nemiralisib 250 mcg and placebo for moderate/severe exacerbations has been presented.|||1.50|0.65|
92186635|NCT03345407|184271867|OTHER||Posterior median exacerbation rate ratio|0.63|||||TWO_SIDED|95.0|0.37|1.02|||||Treatment comparison (posterior median exacerbation rate ratio and 95% HPD CrI) of Nemiralisib 500 mcg and placebo for moderate/severe exacerbations has been presented.|||1.02|0.37|
92186636|NCT03345407|184271867|OTHER||Posterior median exacerbation rate ratio|1.13|||||TWO_SIDED|95.0|0.85|1.52|||||Treatment comparison (posterior median exacerbation rate ratio and 95% HPD CrI) of Nemiralisib 750 mcg and placebo for moderate/severe exacerbations has been presented.|||1.52|0.85|
92301289|NCT01421342|184507089|SUPERIORITY||Odds Ratio (OR)|1.31||||0.076|TWO_SIDED|95.0|0.97|1.75||Co-primary hypothesis: After ordering results from largest p-value to smallest (Hochberg approach) the comparison of Augmenting Antidepressant+Bupropion with Switching to Bupropion-SR was performed at the 0.05 significance level.|Regression, Logistic|Stratified by participating medical center|Represents relative odds of remission for Augmentation Antidepressant + Bupropion-SR / Switching to Bupropion-SR|||1.75|0.97|0.076
92301290|NCT01421342|184507089|SUPERIORITY||Odds Ratio (OR)|1.42||||0.018|TWO_SIDED|95.0|1.06|1.89||Co-primary hypothesis: Second ordered test after ordering largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Aripiprazole with Switching to Bupropion-SR was performed at the 0.025 significance level.|Regression, Logistic|Stratified by participating medical center|Represents relative odds of remission for Augmentation Antidepressant + Aripiprazole / Switching to Bupropion-SR|Co-primary hypothesis: After ordering results form largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Aripiprazole with Switching to Bupropion-SR was performed at the 0.025 significance level.||1.89|1.06|0.018
92301291|NCT01421342|184507089|SUPERIORITY||Odds Ratio (OR)|1.11||||0.46|TWO_SIDED|95.0|0.84|1.48||Following the gate-keeping strategy of the analysis plan, complete the comparison of Augmentation Antidepressant + Aripiprazole vs. Augmentation Antidepressant + Bupropion-SR was evaluated at the 0.05 significance level.|Regression, Logistic||Represents relative odds of remission for Augmentation Antidepressant + Aripiprazole / Augmentation Antidepressant + Bupropion-SR|If either if the first two hypothesis tests for the co-primary hypotheses were significant, perform the test of Augmentation Antidepressant + Aripiprazole vs. Augmentation Antidepressant + Bupropion-SR at the 0.05 significance level.||1.48|0.84|0.46
92301292|NCT01421342|184507090|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.7|TWO_SIDED|95.0|0.78|2.39|||Log Rank||Represents relative odds of relapse for Augmentation Antidepressant + Bupropion-SR / Switching to Bupropion-SR|||2.39|0.78|0.70
92301293|NCT01421342|184507090|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.68|TWO_SIDED|95.0|0.65|1.94|||Log Rank||Represents relative odds of relapse for Augmentation Antidepressant + Aripiprazole / Switching to Bupropion-SR|||1.94|0.65|0.68
92301294|NCT01421342|184507090|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.87|TWO_SIDED|95.0|0.58|1.59|||Log Rank||Represents relative odds of relapse for Augmentation Antidepressant + Aripiprazole / Augmentation Antidepressant + Bupropion-SR|||1.59|0.58|0.87
92301295|NCT01421342|184507091|SUPERIORITY||Odds Ratio (OR)|1.16||||0.28|TWO_SIDED|95.0|0.89|1.5|||Regression, Logistic|Stratified by participating medical center|Represents relative odds of response for Augmentation Antidepressant + Bupropion / Switching to Bupropion|After ordering results form largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Bupropion with Switching to Bupropion was performed at the 0.05 significance level.||1.50|0.89|0.28
92186637|NCT03345407|184271868|OTHER||Posterior median hazard ratio|0.455|||||TWO_SIDED|95.0|0.054|1.103|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 12.5 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||1.103|0.054|
92186638|NCT03345407|184271868|OTHER||Posterior median hazard ratio|0.991|||||TWO_SIDED|95.0|0.58|1.5|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 50 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||1.500|0.580|
92186639|NCT03345407|184271868|OTHER||Posterior median hazard ratio|0.975|||||TWO_SIDED|95.0|0.581|1.467|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 100 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||1.467|0.581|
92186640|NCT03345407|184271868|OTHER||Posterior median hazard ratio|1.132|||||TWO_SIDED|95.0|0.682|1.709|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 250 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||1.709|0.682|
92301296|NCT01421342|184507091|SUPERIORITY||Odds Ratio (OR)|1.74|||<|0.0001|TWO_SIDED|95.0|1.33|2.29|||Regression, Logistic|Stratified by participating medical center (site)|Represents relative odds of response for Augmentation Antidepressant + Aripiprazole / Switching to Bupropion-SR|After ordering results form largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Aripiprazole with Switching to Bupropion-SR was performed at the 0.025 significance level.||2.29|1.33|<0.0001
92186641|NCT03345407|184271868|OTHER||Posterior median hazard ratio|0.556|||||TWO_SIDED|95.0|0.268|0.902|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 500 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||0.902|0.268|
92186642|NCT03345407|184271868|OTHER||Posterior median hazard ratio|1.149|||||TWO_SIDED|95.0|0.8|1.539|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 750 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||1.539|0.800|
92186643|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.01|||||TWO_SIDED|95.0|0.21|2.3|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.30|0.21|
92186644|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.37|||||TWO_SIDED|95.0|0.76|2.17|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.17|0.76|
92186645|NCT03345407|184271871|OTHER||Posterior median odds ratio|0.99|||||TWO_SIDED|95.0|0.54|1.61|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.61|0.54|
92301297|NCT01421342|184507091|SUPERIORITY||Odds Ratio (OR)|1.55||||0.002|TWO_SIDED|95.0|1.17|2.05||Following the gate-keeping strategy of the analysis plan, complete the comparison of Augmentation Antidepressant + Aripiprazole with Augmentation Antidepressant + Bupropion-SR at the 0.05 significance level.|Regression, Logistic|Stratified by participating medical center|Represents relative odds of response for Augmentation Antidepressant + Aripiprazole / Augmentation Antidepressant + Bupropion-SR|||2.05|1.17|0.002
92186646|NCT03345407|184271871|OTHER||Posterior median odds ratio|0.94|||||TWO_SIDED|95.0|0.5|1.49|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.49|0.50|
92186647|NCT03345407|184271871|OTHER||Posterior median odds ratio|0.75|||||TWO_SIDED|95.0|0.38|1.25|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.25|0.38|
92186648|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.16|||||TWO_SIDED|95.0|0.77|1.63|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.63|0.77|
92186649|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.21|||||TWO_SIDED|95.0|0.36|2.69|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.69|0.36|
92186650|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.53|||||TWO_SIDED|95.0|0.82|2.33|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.33|0.82|
92186651|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.16|||||TWO_SIDED|95.0|0.67|1.79|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.79|0.67|
92186652|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.12|||||TWO_SIDED|95.0|0.63|1.74|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.74|0.63|
92301298|NCT01421342|184507092|SUPERIORITY||Odds Ratio (OR)|1.26||||0.11|TWO_SIDED|95.0|0.95|1.68||After ordering results form largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Bupropion with Switching to Bupropion was performed at the 0.05 significance level.|Regression, Logistic|Stratified by participating medical center|Represents relative odds of response for Augmentation Antidepressant + Bupropion / Switching to Bupropion|||1.68|0.95|0.11
92301299|NCT01421342|184507092|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.26|2.29|||Regression, Logistic|Stratified by participating medical center|Represents relative odds of response for Augmentation Antidepressant + Aripiprazole / Switching to Bupropion-SR|After ordering results form largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Aripiprazole with Switching to Bupropion-SR was performed at the 0.025 significance level.||2.29|1.26|<0.001
92301300|NCT01421342|184507092|SUPERIORITY||Odds Ratio (OR)|1.37||||0.043|TWO_SIDED|95.0|1.01|1.86||Following the gate-keeping strategy of the analysis plan, complete the comparison of Augmentation Antidepressant + Aripiprazole with Augmentation Antidepressant + Bupropion-SR at the 0.05 significance level.|Regression, Logistic||Represents relative odds of response for Augmentation Antidepressant + Aripiprazole / Augmentation Antidepressant + Bupropion-SR|||1.86|1.01|0.043
92186653|NCT03345407|184271871|OTHER||Posterior median odds ratio|0.55|||||TWO_SIDED|95.0|0.28|0.88|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||0.88|0.28|
92301301|NCT01939496|184507112|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-3.29|STANDARD_ERROR_OF_MEAN|1.748||0.062|TWO_SIDED|95.0|-6.743|0.163|||ANCOVA|||||0.163|-6.743|0.062
92301302|NCT01939496|184507112|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-4.93|STANDARD_ERROR_OF_MEAN|1.75||0.006|TWO_SIDED|95.0|-8.382|-1.469|||ANCOVA|||||-1.469|-8.382|0.006
92186654|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.08|||||TWO_SIDED|95.0|0.72|1.49|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.49|0.72|
92186655|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.0|||||TWO_SIDED|95.0|0.3|2.17|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.17|0.30|
92186656|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.46|||||TWO_SIDED|95.0|0.84|2.27|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.27|0.84|
92186657|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.15|||||TWO_SIDED|95.0|0.65|1.78|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.78|0.65|
92186658|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.09|||||TWO_SIDED|95.0|0.62|1.67|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.67|0.62|
92186659|NCT03345407|184271871|OTHER||Posterior median odds ratio|0.49|||||TWO_SIDED|95.0|0.26|0.77|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||0.77|0.26|
92186660|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.04|||||TWO_SIDED|95.0|0.71|1.42|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.42|0.71|
92186661|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.08|||||TWO_SIDED|95.0|0.32|2.38|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.38|0.32|
92301303|NCT02274844|184507150|SUPERIORITY|The outcomes were all continuous or ordinal measures, thus unadjusted hypothesis tests used t-tests or the Wilcoxon-Mann-Whitney test, as appropriate, and statistical modeling used linear regression. ANCOVA was used to adjust for baseline covariates with imbalance across treatment arms (race) and baseline values of the measures.|Mean Difference (Final Values)|-0.09||||0.22|TWO_SIDED|95.0|-0.23|0.05||The main hypotheses tested were that intervention participants would have higher medication adherence and significantly greater improvement in A1c, BP, LDL-C, and measures of quality of life, and self-efficacy compared to control participants.|ANCOVA|||The study was powered to detect clinically meaningful differences in physiologic risk factors; it had four primary outcomes.Power estimates accounted for clustering of patients within towns, using a variance inflation factor, conservatively estimating power for ICC=0.01-0.05. Process measures were selected to understand which aspects of the intervention were particularly effective, assessing both program satisfaction and peer coach effectiveness.||0.05|-0.23|0.22
92186662|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.29|||||TWO_SIDED|95.0|0.7|2.0|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.00|0.70|
92186663|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.12|||||TWO_SIDED|95.0|0.63|1.71|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.71|0.63|
92186664|NCT03345407|184271871|OTHER||Posterior median odds ratio|0.95|||||TWO_SIDED|95.0|0.55|1.48|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.48|0.55|
92186665|NCT03345407|184271871|OTHER||Posterior median odds ratio|0.56|||||TWO_SIDED|95.0|0.31|0.87|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||0.87|0.31|
92186666|NCT03345407|184271871|OTHER||Posterior median odds ratio|1.08|||||TWO_SIDED|95.0|0.73|1.47|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.47|0.73|
92186667|NCT03345407|184271872|OTHER||Posterior median hazard ratio|1.053|||||TWO_SIDED|95.0|0.477|1.765|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.765|0.477|
92186668|NCT03345407|184271872|OTHER||Posterior median hazard ratio|1.2|||||TWO_SIDED|95.0|0.84|1.597|||||Treatment comparison between placebo and Nemiralisib 50 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.597|0.840|
92301304|NCT01642914|184507185|SUPERIORITY_OR_OTHER|||||||0.0054|ONE_SIDED||||||Kolmogorov-Smirnov|Kolmogorov-Smirnov test for equality of distribution||||||0.0054
92301305|NCT01642914|184507185|SUPERIORITY_OR_OTHER|||||||0.0012|ONE_SIDED||||||Kolmogorov-Smirnov|Kolmogorov-Smirnov test for equality of distribution||||||0.0012
92301306|NCT01642914|184507198|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.193||||0.0006|TWO_SIDED|95.0|0.086|0.3||p-Values were obtained from the Cochran-Mantel-Haenszel tests controlling for geographic region, comparing each linaclotide dose versus placebo in a pairwise manner.|Cochran-Mantel-Haenszel|||||.300|.086|0.0006
92301307|NCT01642914|184507198|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.17||||0.0022|TWO_SIDED|95.0|0.064|0.227||p-Values were obtained from the Cochran-Mantel-Haenszel tests controlling for geographic region, comparing each linaclotide dose versus placebo in a pairwise manner.|Cochran-Mantel-Haenszel|||||.227|.064|0.0022
92301308|NCT01642914|184507199|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.37||||0.0054|TWO_SIDED|95.0|1.09|1.72|||Log Rank|Log-rank test stratified by geographic region.||||1.72|1.09|.0054
92301309|NCT01642914|184507199|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.24||||0.047|TWO_SIDED|95.0|0.99|1.55|||Log Rank|Log-rank test stratified by geographic region.||||1.55|0.99|0.0470
92301310|NCT01642914|184507205|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.23||||0.0264|TWO_SIDED|95.0|1.09|4.56||p-values were obtained from the Cochran-Mantel-Haenszel tests controlling for geographic region, comparing each linaclotide dose versus placebo in a pairwise manner.|Cochran-Mantel-Haenszel|||||4.56|1.09|0.0264
92301311|NCT04295135|184507206|SUPERIORITY||Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.001|<|0.05|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||<0.05
92301312|NCT04295135|184507207|SUPERIORITY||Median Difference (Net)|0.007|STANDARD_ERROR_OF_MEAN|0.001|<|0.01|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||<0.01
92301313|NCT04295135|184507208|SUPERIORITY||Mean Difference (Net)|0.022|STANDARD_ERROR_OF_MEAN|0.008|<|0.01|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||<0.01
92186669|NCT03345407|184271872|OTHER||Posterior median hazard ratio|1.06|||||TWO_SIDED|95.0|0.734|1.432|||||Treatment comparison between placebo and Nemiralisib 100 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.432|0.734|
92186670|NCT03345407|184271872|OTHER||Posterior median hazard ratio|1.03|||||TWO_SIDED|95.0|0.719|1.413|||||Treatment comparison between placebo and Nemiralisib 250 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.413|0.719|
92186671|NCT03345407|184271872|OTHER||Posterior median hazard ratio|0.751|||||TWO_SIDED|95.0|0.487|1.057|||||Treatment comparison between placebo and Nemiralisib 500 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.057|0.487|
92301314|NCT04295135|184507209|SUPERIORITY||Median Difference (Net)|-0.005|STANDARD_ERROR_OF_MEAN|0.006|>|0.05|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||>0.05
92301315|NCT04295135|184507210|SUPERIORITY||Median Difference (Net)|-0.005|STANDARD_ERROR_OF_MEAN|0.001|<|0.01|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||<0.01
92186672|NCT03345407|184271872|OTHER||Posterior median hazard ratio|1.149|||||TWO_SIDED|95.0|0.899|1.426|||||Treatment comparison between placebo and Nemiralisib 750 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.426|0.899|
92186673|NCT03345407|184271874|OTHER||Posterior median odds ratio|1.22|||||TWO_SIDED|95.0|0.35|2.7|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.70|0.35|
92186674|NCT03345407|184271874|OTHER||Posterior median odds ratio|1.11|||||TWO_SIDED|95.0|0.63|1.77|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.77|0.63|
92186675|NCT03345407|184271874|OTHER||Posterior median odds ratio|1.41|||||TWO_SIDED|95.0|0.77|2.17|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.17|0.77|
92301316|NCT04295135|184507211|SUPERIORITY||Median Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.003|>|0.05|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||>0.05
92301317|NCT02712333|184507253|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|7.53|||<|0.05|TWO_SIDED|95.0|4.65|10.41||the p-value has been adjusted for multiple comparisons|Mixed Models Analysis|||we analyzed the serum cortisol levels (presented as relative intensities in high perfomance liquid chromatography-mass spectrum) by treatments (intervention group vs control group)||10.41|4.65|<0.05
92301318|NCT02712333|184507253|SUPERIORITY_OR_OTHER||fold change|1.33|||<|0.01|TWO_SIDED||||||t-test, 2 sided||fold change is calculated by measurments from the sham purification group/measurements from the real purification group|||||<0.01
92301319|NCT02712333|184507254|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|3.69|||<|0.01|TWO_SIDED|95.0|1.85|5.54||the p-value has been adjusted for multiple comparisons.|Mixed Models Analysis|||we analyzed the serum cortisone levels by treatment (intervention group vs control group)||5.54|1.85|<0.01
92301320|NCT02712333|184507254|SUPERIORITY_OR_OTHER||fold change|1.18|||<|0.01|TWO_SIDED||||||t-test, 2 sided||fold change is calculated by measurments from the sham purification group/measurements from the real purification group|||||<0.01
92301321|NCT02712333|184507255|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|5.17|||<|0.01|TWO_SIDED|95.0|3.21|7.14||the p-value has been adjusted for multiple comparisons.|Mixed Models Analysis|||we analyzed the serum epinephrine levels by treatment (intervention group vs control group)||7.14|3.21|<0.01
92301322|NCT02712333|184507255|SUPERIORITY_OR_OTHER||fold change|1.2|||<|0.01|TWO_SIDED||||||t-test, 2 sided||fold change is calculated by measurments from the sham purification group/measurements from the real purification group|||||<0.01
92301323|NCT02712333|184507256|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|11.28|||<|0.01|TWO_SIDED|95.0|7.37|15.21||the p-value has been adjusted for multiple comparisons|Mixed Models Analysis|||we analyzed the serum norepinephrine levels by treatment (intervention group vs control group)||15.21|7.37|<0.01
92301324|NCT02712333|184507256|SUPERIORITY_OR_OTHER||fold change|1.57|||<|0.01|TWO_SIDED||||||t-test, 2 sided||fold change is calculated by measurments from the sham purification group/measurements from the real purification group|||||<0.01
92301325|NCT02712333|184507257|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|0.84|||<|0.01|TWO_SIDED|95.0|0.09|1.59|||Mixed Models Analysis|||we analyzed the serum SBP levels by treatment (intervention group vs control group)||1.59|0.09|<0.01
92301326|NCT02712333|184507258|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|0.31|||>|0.05|TWO_SIDED|95.0|-1.59|0.96|||Mixed Models Analysis|||we analyzed the serum cortisol levels by treatment (intervention group vs control group)||0.96|-1.59|>0.05
92301327|NCT02712333|184507259|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|1.24|||>|0.05|TWO_SIDED|95.0|-1.14|3.63|||Mixed Models Analysis|||we analyzed the serum cortisol levels by treatment (intervention group vs control group)||3.63|-1.14|>0.05
92186676|NCT03345407|184271874|OTHER||Posterior median odds ratio|1.28|||||TWO_SIDED|95.0|0.71|2.0|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.00|0.71|
92186677|NCT03345407|184271874|OTHER||Posterior median odds ratio|1.11|||||TWO_SIDED|95.0|0.61|1.75|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.75|0.61|
92186678|NCT03345407|184271874|OTHER||Posterior median odds ratio|0.7|||||TWO_SIDED|95.0|0.46|0.99|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||0.99|0.46|
92301328|NCT03463993|184507260|SUPERIORITY|||||||0.549||||||The p-value above is the calculated P value based on hematocrit.|Chi-squared|||The null hypothesis was that intravenous Tranexamic Acid (TXA) 10mg/kg plus Oxytocin 5IU does not result in a lower incidence of primary postpartum haemorrhage compared to Oxytocin alone after elective caesarean section||||0.549
92301329|NCT03463993|184507260|SUPERIORITY|||||||0.138||||||This is the calculated p-value based on hemoglobin .|Chi-squared|||The null hypothesis was that intravenous Tranexamic Acid (TXA)10mg/kg plus Oxytocin 5IU does not result in a lower incidence of primary postpartum haemorrhage compared to Oxytocin alone after elective caesarean section||||0.138
92186679|NCT03345407|184271874|OTHER||Posterior median odds ratio|0.64|||||TWO_SIDED|95.0|0.2|1.41|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.41|0.20|
92186680|NCT03345407|184271874|OTHER||Posterior median odds ratio|1.53|||||TWO_SIDED|95.0|0.84|2.46|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.46|0.84|
92186681|NCT03345407|184271874|OTHER||Posterior median odds ratio|0.95|||||TWO_SIDED|95.0|0.53|1.48|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.48|0.53|
92186682|NCT03345407|184271874|OTHER||Posterior median odds ratio|1.36|||||TWO_SIDED|95.0|0.74|2.16|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.16|0.74|
92301330|NCT03463993|184507261|SUPERIORITY|||||||0.789||||||0.789 is the calculated p-value for visually estimated blood loss: Visually estimated blood loss (ml): Group A mean 483.73 (standard deviation182.56); Group B 479.61 (139.49); p-value 0.789|t-test, 2 sided|||||||0.789
92301331|NCT03463993|184507261|SUPERIORITY|||||||0.968||||||0.968 is the calculated p-value based on hematocrit. Hematocrit-based calculation of estimated blood loss(ml): Group A mean 650.06 (standard deviation 631.50); Group B 653.05 (796.03); p-value 0.968|t-test, 2 sided|||||||0.968
92301332|NCT03463993|184507261|SUPERIORITY|||||||0.447||||||Hemoglobin-based calculation of estimated blood loss(ml) mean(standard deviation): Group A 644.30 (692.27); Group B 707.68 (948.01); p-value 0.447|t-test, 2 sided|||||||0.447
92301333|NCT03463993|184507262|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92301334|NCT03463993|184507263|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92301335|NCT03360916|184507276|SUPERIORITY||Mean Difference (Net)|2.29|STANDARD_DEVIATION|125.59||0.953|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.9530
92301336|NCT03360916|184507276|SUPERIORITY||Mean Difference (Net)|-11.24|STANDARD_DEVIATION|130.12||0.7908|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.7908
92301337|NCT03360916|184507276|SUPERIORITY||Mean Difference (Net)|44.88|STANDARD_DEVIATION|105.19||0.1344|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.1344
92301338|NCT03360916|184507277|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_DEVIATION|0.18||0.0005|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.0005
92301339|NCT03360916|184507277|SUPERIORITY||Mean Difference (Net)|0.23|STANDARD_DEVIATION|0.21||0.0021|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.0021
92301340|NCT03360916|184507277|SUPERIORITY||Mean Difference (Net)|0.21|STANDARD_DEVIATION|0.23||0.0025|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.0025
92301341|NCT01231373|184507281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.34|||<|0.0001|TWO_SIDED|95.0|-4.63|-2.04|||ANCOVA|||Comparison of polidocanol treatment groups versus placebo (absolute change from baseline to week 8 in patient assessment of symptoms of varicose veins (VVSymQ) score.||-2.04|-4.63|<0.0001
92301342|NCT01231373|184507281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.0|||<|0.0001|TWO_SIDED|95.0|-5.26|-2.74|||ANCOVA|||||-2.74|-5.26|<0.0001
92301343|NCT01231373|184507281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.05|||<|0.0001|TWO_SIDED|95.0|-4.33|-1.77|||ANCOVA|||||-1.77|-4.33|<0.0001
92301344|NCT01231373|184507282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.081|<|0.0001|TWO_SIDED|95.0|-0.88|-0.45|||ANCOVA|||||-0.45|-0.88|<0.0001
92301345|NCT01231373|184507282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.078|<|0.0001|TWO_SIDED|95.0|-1.04|-0.61|||ANCOVA|||||-0.61|-1.04|<0.0001
92301346|NCT01231373|184507282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75|||<|0.0001|TWO_SIDED|95.0|-0.97|-0.54|||ANCOVA|||||-0.54|-0.97|<0.0001
92301347|NCT01231373|184507283|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|0.131|<|0.0001|TWO_SIDED|95.0|-1.59|-0.87|||ANCOVA|||||-0.87|-1.59|<0.0001
92301348|NCT01231373|184507283|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|0.129|<|0.0001|TWO_SIDED|95.0|-1.9|-1.18|||ANCOVA|||||-1.18|-1.90|<0.0001
92301349|NCT01231373|184507283|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.83|-1.11|||ANCOVA|||||-1.11|-1.83|<0.0001
92301350|NCT01901874|184507284|OTHER|"Acceptable performance: favorably exclude PG=16.9% with 95.1% confidence.~Wa = expected weight (proportion) anatomic = 35% Pa = CEA expected anatomic MAE = 11% Wc = expected weight (proportion) comorbid = 65% Pc = CEA expected comorbid MAE = 14% D = noninferiority delta = 4%~PG = 0.35 x 11% + 0.65 x 14% + 4% = 16.9%"|Weighted binomial proportion|0.0448|STANDARD_ERROR_OF_MEAN|0.0241|<|1e-05|ONE_SIDED|95.1||0.0846||A priori 1-sided alpha = 0.049 (from simulation) to ensure overall type-1 error rate ≤ 0.05.|Binomial test (normal approximation)||Weighted by expected fractions of anatomic and comorbid high risk subjects (35% and 65%, respectively). Standard error based on H0.|"Test null hypothesis of equal or greater proportion with 1-year MAE compared to a performance goal (PG).~H0: P ≥ 16.9% vs H1: P \< 16.9%, where P is the true proportion of CAS subjects with 1-year MAE and 16.9% is the PG based on outcomes reported for patients treated with carotid endarterectomy (CEA).~N=280 subjects provide ≥90% power to exclude PG with 95.1% confidence if P=10.2% under H1."||0.0846||<0.00001
92301351|NCT01901874|184507292|OTHER||Cumulative probability|0.018|||||TWO_SIDED|95.0|0.007|0.047|||||Kaplan-Meier product-limit method (Greenwood's formula for standard error)|||0.047|0.007|
92301352|NCT01901874|184507293|OTHER||Cumulative probability|0.022|||||TWO_SIDED|95.0|0.009|0.052|||||Kaplan-Meier product-limit method (Greenwood's formula for standard error)|||0.052|0.009|
92186683|NCT03345407|184271874|OTHER||Posterior median odds ratio|0.76|||||TWO_SIDED|95.0|0.43|1.17|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.17|0.43|
92186684|NCT03345407|184271874|OTHER||Posterior median odds ratio|0.93|||||TWO_SIDED|95.0|0.63|1.27|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.27|0.63|
92186685|NCT03345407|184271874|OTHER||Posterior median odds ratio|0.54|||||TWO_SIDED|95.0|0.16|1.2|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.20|0.16|
92186686|NCT03345407|184271874|OTHER||Posterior median odds ratio|1.53|||||TWO_SIDED|95.0|0.79|2.56|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.56|0.79|
92186687|NCT03345407|184271874|OTHER||Posterior median odds ratio|0.83|||||TWO_SIDED|95.0|0.46|1.3|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.30|0.46|
92186688|NCT03345407|184271874|OTHER||Posterior median odds ratio|1.16|||||TWO_SIDED|95.0|0.62|1.86|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.86|0.62|
92301353|NCT00775684|184507376|SUPERIORITY||||||=|0.1|||||||t-test, 2 sided|||Student t test||||=0.1
92301354|NCT00775684|184507376|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||Repeated measure (baseline and 6 months)||||< 0.05
92301355|NCT00775684|184507377|SUPERIORITY||||||>|0.1|||||||t-test, 1 sided|||Within group changes over 6 months (delta= final - baseline) were compared.||||>0.1
92301356|NCT00775684|184507378|SUPERIORITY||||||>|0.1|||||||t-test, 1 sided|||To determine if exenatide or sitagliptin induced significant changes from baseline, the change for each measure (Δ = final - baseline) for each group was compared with the change in the glimepiride group using independent Student t tests||||>0.1
92301357|NCT00775684|184507379|SUPERIORITY||||||>|0.1|||||||t-test, 1 sided|||||||>0.1
92301358|NCT02728752|184507384|SUPERIORITY||Mean Difference (Net)|-8.0|||<|0.0001|TWO_SIDED|95.0|-11.5|-4.6|||ANCOVA|With treatment, stratum and baseline as fixed effects, and site as random effect|Difference in LS Means of changes from baseline to week 16 (Octagam - Placebo)|LS Means difference between changes from baseline to week 16 for Total Activity Score||-4.6|-11.5|<0.0001
92301359|NCT02728752|184507390|SUPERIORITY||Median Difference (Net)|8.6||||0.0001|TWO_SIDED|95.0|4.4|12.8|||ANCOVA|With treatment, stratum and baseline as fixed effects, and site as random effect|Difference in LS Means of changes from baseline to week 16 (Octagam - Placebo)|LS Means difference between changes from baseline to week 16||12.8|4.4|0.0001
92301360|NCT02728752|184507391|SUPERIORITY||Median Difference (Net)|-0.4||||0.0002|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|With treatment, stratum and baseline as fixed effects, and site as random effect|Difference in LS Means of changes from baseline to week 16 (Octagam - Placebo)|LS Means difference between changes from baseline to week 16||-0.2|-0.5|0.0002
92301361|NCT02728752|184507397|SUPERIORITY||Median Difference (Net)|-1.2||||0.001|TWO_SIDED|95.0|-1.9|-0.5|||ANCOVA|With treatment, stratum and baseline as fixed effects, and site as random effect|Difference in LS Means of changes from baseline to week 16 (Octagam - Placebo)|LS Means difference between changes from baseline to week 16||-0.5|-1.9|0.0010
92301362|NCT02025751|184507401|SUPERIORITY|||||||0.597|||||||ANCOVA|||||||0.597
92301363|NCT00653991|184507415|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92301364|NCT01568866|184507421|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.533|||<|0.0001|TWO_SIDED|95.0|0.437|0.651|||Stratified Log Rank|Log rank test stratified by the randomization stratification factors.|The hazard ratio (carfilzomib/bortezomib) was estimated using a Cox proportional hazards model stratified by prior proteasome inhibitor treatment, lines of prior treatment, ISS stage, and choice of route of bortezomib administration.|"The PFS interim analysis was to be performed using a group sequential monitoring plan.~The monitoring plan included an O'Brien-Fleming type of efficacy stopping boundary constructed using the Lan-DeMets alpha spending function to ensure a 1-sided Type I error rate ≤ 0.025."||0.651|0.437|< 0.0001
92301365|NCT01568866|184507422|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.791||||0.01|TWO_SIDED|95.0|0.648|0.964||The multiplicity in testing secondary endpoints was adjusted per group using the sequential Holm procedure to preserve the family-wise error rate at 0.025.|Stratified Log Rank|Log rank test stratified by the randomization stratification factors.|The hazard ratio (carfilzomib/bortezomib) was estimated using a Cox proportional hazards model stratified by prior proteasome inhibitor treatment, lines of prior treatment, ISS stage, and choice of route of bortezomib administration.|The second interim analysis of overall survival was to be conducted after 394 events had been reached. A one-sided significance level was determined using the O'Brien-Fleming-type α spending function based on the actual number of events (α=0.0123).||0.964|0.648|0.0100
92301366|NCT01568866|184507423|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.032|||<|0.0001|TWO_SIDED|95.0|1.519|2.718||The multiplicity in testing secondary endpoints was adjusted per group using the sequential Holm procedure to preserve the family-wise error rate at 0.025.|Stratified Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by the randomization stratification factors.|The odds ratio (carfilzomib/bortezomib) was calculated using the Cochran-Mantel-Haenszel method stratified by prior proteasome inhibitor treatment, lines of prior treatment, ISS stage, and choice of route of bortezomib administration.|||2.718|1.519|< 0.0001
92301367|NCT01568866|184507425|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.137|||<|0.0001|TWO_SIDED|95.0|0.089|0.21||The multiplicity in testing secondary endpoints was adjusted per group using the sequential Holm procedure to preserve the family-wise error rate at 0.025.|Cochran-Mantel-Haenszel||The odds ratio (carfilzomib/bortezomib) was estimated using the unconditional Cochran-Mantel-Haenszel method.|||0.210|0.089|<0.0001
92301368|NCT03261960|184507475|NON_INFERIORITY|Non-inferiority margin was set at 10%.|||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92301369|NCT01300052|184507497|SUPERIORITY_OR_OTHER||Difference in Percentage|3.8|||||TWO_SIDED|95.0|-14.3|21.8||||||Difference in percentage was calculated as values of AN2728 Ointment, 2% group minus values of AN2728 Ointment, Vehicle group.||21.8|-14.3|
92301370|NCT03835325|184507504|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||"The sample size calculation was based on the following hypothesis test:~H0: there is no improvement in memory capacity between the initial (VS) and final (VF) assessments, assessed by the self-efficacy factor of the MIAr questionnaire.~H1: there is an improvement in memory capacity between the initial (VS) and final (VF) assessments, assessed by the self-efficacy factor of the MIAr questionnaire.~or H0: AUTO-EF (VF) - AUTO-EF (VS) ≤ 0 H1: AUTO-EF (VF) - AUTO-EF (VS)\> 0"||||<0.001
92301371|NCT00706381|184507542|SUPERIORITY||Percent change from placebo|7.87|STANDARD_DEVIATION|9.2||0.0001|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||0.0001
92186689|NCT03345407|184271874|OTHER||Posterior median odds ratio|0.65|||||TWO_SIDED|95.0|0.36|1.02|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.02|0.36|
92186690|NCT03345407|184271874|OTHER||Posterior median odds ratio|0.85|||||TWO_SIDED|95.0|0.57|1.17|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.17|0.57|
92186691|NCT03345407|184271875|OTHER||Posterior adjusted median difference|2.4|||||TWO_SIDED|95.0|-0.5|5.2|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||5.2|-0.5|
92186692|NCT03345407|184271875|OTHER||Posterior adjusted median difference|0.7|||||TWO_SIDED|95.0|-0.8|2.3|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.3|-0.8|
92186693|NCT03345407|184271875|OTHER||Posterior adjusted median difference|0.8|||||TWO_SIDED|95.0|-0.8|2.4|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.4|-0.8|
92186694|NCT03345407|184271875|OTHER||Posterior adjusted median difference|-0.3|||||TWO_SIDED|95.0|-2.0|1.2|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.2|-2.0|
92301372|NCT00706381|184507542|SUPERIORITY||Percent change from placebo|9.25|STANDARD_DEVIATION|8.3|<|0.0001|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||<0.0001
92301373|NCT00706381|184507542|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_DEVIATION|6.2||0.89|TWO_SIDED||||||Percent change from placebo|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||0.89
92301374|NCT00706381|184507542|SUPERIORITY||Percent change from placebo|-0.3|STANDARD_DEVIATION|7.2||0.41|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||0.41
92301375|NCT00706381|184507543|SUPERIORITY||Percent change from placebo|40.0|STANDARD_DEVIATION|72.8||0.096|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||0.096
92301376|NCT00706381|184507543|SUPERIORITY||Percent change from placebo|260.4|STANDARD_DEVIATION|191.7|<|0.0001|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||<0.0001
92301377|NCT00706381|184507543|SUPERIORITY||Percent change from placebo|16.4|STANDARD_DEVIATION|56.3||0.83|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||0.83
92301378|NCT00706381|184507543|SUPERIORITY||Percent change from placebo|125.7|STANDARD_DEVIATION|92.2|<|0.0001|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||<0.0001
92301379|NCT03395639|184507568|OTHER|Difference in adjudicated major or CRNM bleeding rates were assessed.|Annualized rate difference|-0.03|||||TWO_SIDED|95.0|-0.18|0.12||||||||0.12|-0.18|
92301380|NCT03395639|184507568|OTHER|Difference in adjudicated major bleeding rates were assessed.|Annualized rate difference|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0|0|
92301381|NCT03395639|184507568|OTHER|Difference in all adjudicated bleeding (major, CRNM, minor) rates were assessed.|Annualized rate difference|0.0|||||TWO_SIDED|95.0|-0.24|0.25||||||||0.25|-0.24|
92301382|NCT01194973|184507614|SUPERIORITY_OR_OTHER||LS mean change from baseline|117.68|||<|0.0001|TWO_SIDED|95.0|92.77|142.59|||ANOVA|||||142.59|92.77|<0.0001
92301383|NCT01194973|184507620|SUPERIORITY_OR_OTHER||LS mean change from baseline|102.49|||<|0.0001|TWO_SIDED|95.0|68.15|136.82|||ANOVA|||||136.82|68.15|<0.0001
92301384|NCT00767520|184507622|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.148|||||||Un-stratified log-rank test|||||||0.148
92301385|NCT01338987|184507639|OTHER|||||||0.0075|||||||Wilcoxon's rank sum test|||||||0.0075
92186695|NCT03345407|184271875|OTHER||Posterior adjacent median difference|1.6|||||TWO_SIDED|95.0|0.0|3.3|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.3|0.0|
92186696|NCT03345407|184271875|OTHER||Posterior adjusted median difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.1|-1.1|
92186697|NCT03345407|184271875|OTHER||Posterior adjusted median difference|2.3|||||TWO_SIDED|95.0|-0.5|5.4|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||5.4|-0.5|
92186698|NCT03345407|184271875|OTHER||Posterior adjusted median difference|0.8|||||TWO_SIDED|95.0|-0.9|2.4|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.4|-0.9|
92186699|NCT03345407|184271875|OTHER||Posterior adjusted median difference|-0.3|||||TWO_SIDED|95.0|-1.9|1.4|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.4|-1.9|
92186700|NCT03345407|184271875|OTHER||Posterior adjusted median difference|-0.5|||||TWO_SIDED|95.0|-2.3|1.0|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.0|-2.3|
92301386|NCT02480582|184507642|SUPERIORITY_OR_OTHER||||||<|0.01||||||Where significant effects were obtained post hoc analyses, with a Bonferroni correction for multiple comparisons were conducted.|ANOVA|Null hypothesis is that there was no difference in energy intake between almonds, cheese savouries and no food.||||||<0.01
92186701|NCT03345407|184271875|OTHER||Posterior adjusted median difference|0.4|||||TWO_SIDED|95.0|-1.2|2.2|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.2|-1.2|
92186702|NCT03345407|184271875|OTHER||Posterior adjusted median difference|-0.2|||||TWO_SIDED|95.0|-1.4|1.0|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.0|-1.4|
92186703|NCT03345407|184271875|OTHER||Posterior adjusted median difference|1.9|||||TWO_SIDED|95.0|-1.4|5.1|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||5.1|-1.4|
92301387|NCT02480582|184507643|SUPERIORITY_OR_OTHER||||||<|0.05||||||Where significant effects were obtained post hoc analyses, with a Bonferroni correction for multiple comparisons were conducted.|ANOVA|Null hypothesis is that there was no difference in wanting for high fat foods between almonds, cheese savouries and no food.||||||<0.05
92301388|NCT02480582|184507644|SUPERIORITY_OR_OTHER||||||<|0.001||||||Where significant effects were obtained post hoc analyses, with a Bonferroni correction for multiple comparisons were conducted.|ANOVA|Null hypothesis is that there was no difference in hunger AUC between almonds, cheese savouries and no food.||||||<0.001
92301389|NCT02480582|184507645|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|Null hypothesis is that there was no difference in energy intake between almonds, cheese savouries and no food.||"Energy intake measured by ad-libitum test meals (breakfast, lunch, dinner) during each intervention condition.~Null hypothesis is that there was no difference in total energy intake between almonds, cheese savouries and no food."||||<0.05
92301390|NCT03020719|184507712|SUPERIORITY||Mean Difference (Final Values)|-0.081||||0.2521|TWO_SIDED|95.0|-0.221|0.059|||Mixed Models Analysis|Model adjusted for randomization strata: sex, baseline age (\< 6 years, ≥ 6 years), and baseline weight-for-age z-score category (\< -0.52, ≥ -0.52).|Model incorporates Week 12 weight-for-age z-score, assumes unstructured covariance for within-subject measurements, and includes a subject-level random intercept.|||0.059|-0.221|0.2521
92301391|NCT03020719|184507713|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.089|TWO_SIDED|95.0|-0.18|0.01|||Mixed Models Analysis|Model adjusted for randomization strata: sex, baseline age (\<6 years, ≥6 years), and baseline weight-for-age z-score category (\< -0.52, ≥-0.52).|Model incorporates Week 12 measurements, assumes unstructured covariance for within-subject measurements, and includes a subject-level random intercept.|||0.01|-0.18|0.0890
92301392|NCT03020719|184507714|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.573|TWO_SIDED|95.0|-0.28|0.15|||Mixed Models Analysis|Model adjusted from randomization strata: sex, baseline age (\<6 years, ≥6 years), and baseline weight-for-age z-score category (\< -0.52, ≥-0.52).|Model incorporates Week 12 measurements, assumes unstructured covariance for within-subject measurements, and includes a subject-level random intercept.|||0.15|-0.28|0.5730
92301393|NCT03020719|184507715|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.4259|TWO_SIDED|95.0|-0.17|0.4|||Mixed Models Analysis|Model adjusted for randomization strata: sex, baseline age (\<6 years, ≥6 years), and baseline weight-for-age z-score category (\< -0.52, ≥-0.52).|Model incorporates Week 12 measurements, assumes unstructured covariance for within-subject measurements, and includes a subject-level random intercept.|||0.40|-0.17|0.4259
92301394|NCT03020719|184507716|SUPERIORITY||Mean Difference (Final Values)|-0.55||||0.4666|TWO_SIDED|95.0|-2.06|0.96|||ANCOVA|Model adjusted for randomization strata: sex, baseline age (\<6 years, ≥6 years), and baseline weight-for-age z-score category (\< -0.52, ≥-0.52).||||0.96|-2.06|0.4666
92301395|NCT03020719|184507717|SUPERIORITY||Difference in % of Participants with AE|0.0||||1|TWO_SIDED|95.0|-13.6|13.6|||Fisher Exact||95% CI calculated using the Newcombe-Wilson method without continuity correction.|||13.6|-13.6|1.0000
92301396|NCT03020719|184507717|SUPERIORITY||Difference in % of Participants with SAE|-13.3||||0.1945|TWO_SIDED|95.0|-30.5|2.9|||Fisher Exact||95% CI calculated using the Newcombe-Wilson method without continuity correction.|||2.9|-30.5|0.1945
92301397|NCT03020719|184507718|SUPERIORITY||Rate Ratio|1.21||||0.1087|TWO_SIDED|95.0|0.96|1.52|||Poisson Regression|||Rate Ratio for Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in months. The total number of follow-up months of all participants (not per participant) in the trial was as follows: in the GSH group was 179.22 and in the Placebo group was 177.19.||1.52|0.96|0.1087
92301398|NCT03020719|184507718|SUPERIORITY||Rate Ratio|0.12||||0.0122|TWO_SIDED|95.0|0.01|0.67|||Poisson Regression|||Rate Ratio for Serious Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in months. The total number of follow-up months of all participants (not per participant) in the trial was as follows: in the GSH group was 179.22 and in the Placebo group was 177.19.||0.67|0.01|0.0122
92301399|NCT02340221|184507722|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0037|TWO_SIDED|95.0|0.56|0.89|||Log Rank|||||0.89|0.56|0.0037
92186704|NCT03345407|184271875|OTHER||Posterior adjusted median difference|1.1|||||TWO_SIDED|95.0|-0.7|2.8|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.8|-0.7|
92186705|NCT03345407|184271875|OTHER||Posterior adjusted median difference|-0.5|||||TWO_SIDED|95.0|-2.3|1.1|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 84 was performed and posterior adjsted median difference and 95% HPD CrI has been presented.|||1.1|-2.3|
92186706|NCT03345407|184271875|OTHER||Posterior adjusted median difference|-0.1|||||TWO_SIDED|95.0|-1.9|1.7|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.7|-1.9|
92186707|NCT03345407|184271875|OTHER||Posterior adjusted median difference|0.8|||||TWO_SIDED|95.0|-0.9|2.8|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.8|-0.9|
92186708|NCT03345407|184271875|OTHER||Posterior adjusted median difference|0.4|||||TWO_SIDED|95.0|-0.8|1.7|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.7|-0.8|
92186709|NCT03345407|184271876|OTHER||Posterior median odds ratio|0.51|||||TWO_SIDED|95.0|0.03|1.41|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.41|0.03|
92186710|NCT03345407|184271876|OTHER||Posterior median odds ratio|0.87|||||TWO_SIDED|95.0|0.42|1.47|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.47|0.42|
92186711|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.37|||||TWO_SIDED|95.0|0.69|2.24|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.24|0.69|
92186712|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.78|||||TWO_SIDED|95.0|0.95|2.91|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.91|0.95|
92186713|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.24|||||TWO_SIDED|95.0|0.61|2.08|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.08|0.61|
92186714|NCT03345407|184271876|OTHER||Posterior median odds ratio|0.95|||||TWO_SIDED|95.0|0.6|1.4|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.40|0.60|
92301400|NCT02340221|184507723|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0008|TWO_SIDED|95.0|0.58|0.87|||Log Rank|||||0.87|0.58|0.0008
92186715|NCT03345407|184271876|OTHER||Posterior median odds ratio|0.54|||||TWO_SIDED|95.0|0.14|1.16|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.16|0.14|
92186716|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.27|||||TWO_SIDED|95.0|0.74|1.98|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.98|0.74|
92186717|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.29|||||TWO_SIDED|95.0|0.73|1.97|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.97|0.73|
92186718|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.47|||||TWO_SIDED|95.0|0.83|2.27|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.27|0.83|
92301401|NCT02340221|184507724|SUPERIORITY||Odds Ratio (OR)|3.0||||0.0002|TWO_SIDED|95.0|1.6|5.4|||Cochran-Mantel-Haenszel|||||5.4|1.6|0.0002
92301402|NCT02340221|184507725|SUPERIORITY||Odds Ratio (OR)|3.1|||<|0.0001|TWO_SIDED|95.0|1.7|5.4|||Cochran-Mantel-Haenszel|||||5.4|1.7|<0.0001
92301403|NCT02340221|184507726|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.4151|TWO_SIDED|95.0|0.58|1.25|||Log Rank|||||1.25|0.58|0.4151
92301404|NCT02340221|184507727|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9974|TWO_SIDED|95.0|0.75|1.33|||Log Rank|||||1.33|0.75|0.9974
92301405|NCT02340221|184507728|SUPERIORITY||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0|1.2|2.9||||||||2.9|1.2|
92301406|NCT02340221|184507729|SUPERIORITY||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0|1.2|3.0||||||||3.0|1.2|
92301407|NCT02340221|184507730|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.6708|TWO_SIDED|95.0|0.23|2.59|||Log Rank|||||2.59|0.23|0.6708
92301408|NCT02340221|184507731|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.8286|TWO_SIDED|95.0|0.51|2.35|||Log Rank|||||2.35|0.51|0.8286
92301409|NCT02340221|184507732|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0023|TWO_SIDED|95.0|0.51|0.86|||Log Rank|||||0.86|0.51|0.0023
92301410|NCT02340221|184507733|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0095|TWO_SIDED|95.0|0.56|0.92|||Log Rank|||||0.92|0.56|0.0095
92301411|NCT00518622|184507741|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.01||||||95.0|-2.87|-1.14|||||Mean (Day 8 - baseline) HCV RNA for MK7009 25 mg bid minus mean (Day 8 - baseline) HCV RNA for placebo|||-1.14|-2.87|
92301412|NCT00518622|184507741|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.64||||||95.0|-3.49|-1.8|||||Mean (Day 8 - baseline) HCV RNA for MK7009 75 mg bid minus mean (Day 8 - baseline) HCV RNA for placebo|||-1.80|-3.49|
92301413|NCT00518622|184507741|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9||||||95.0|-3.9|-1.9|||||Mean (Day 8 - baseline) HCV RNA for MK7009 250 mg bid minus mean (Day 8 - baseline) HCV RNA for placebo|||-1.90|-3.90|
92301414|NCT00518622|184507741|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.38||||||95.0|-4.59|-2.17|||||Mean (Day 8 - baseline) HCV RNA for MK7009 500 mg bid minus mean (Day 8 - baseline) HCV RNA for placebo|||-2.17|-4.59|
92301415|NCT00518622|184507741|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.73||||||95.0|-5.15|-4.31|||||Mean (Day 8 - baseline) HCV RNA for MK7009 700 mg bid minus mean (Day 8 - baseline) HCV RNA for placebo|||-4.31|-5.15|
92301416|NCT00518622|184507741|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.93||||||95.0|-2.68|-1.18|||||Mean (Day 8 - baseline) HCV RNA for MK7009 125 mg qd minus mean (Day 8 - baseline) HCV RNA for placebo|||-1.18|-2.68|
92301417|NCT00518622|184507741|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.46||||||95.0|-2.78|-2.13|||||Mean (Day 8 - baseline) HCV RNA for MK7009 600 mg qd minus mean (Day 8 - baseline) HCV RNA for placebo|||-2.13|-2.78|
92301418|NCT00103402|184507742|SUPERIORITY|The primary analysis compared rates for the primary outcome between study groups, using the exact conditional test version of the Mantel-Haenszel test to control for clustering by clinical center.|Risk Difference (RD)|0.1||||0.99|TWO_SIDED|95.0|-11.2|11.0|||Mantel Haenszel|The exact conditional test version of the Mantel-Haenszel test was used to control for clustering by clinical center.||Sample-size calculations were based on a 2-sided alpha of 0.05 with 80% power to detect a difference of 20 between response rates (40% placebo and 60% alfuzosin) for the Fisher's exact test. We calculated that a total sample of 270 participants would be required (135 per study group). This proposed sample size included a 20% increase to adjust for clustering within clinical sites and a 5% increase for interim monitoring.||11.0|-11.2|0.99
92186719|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.04|||||TWO_SIDED|95.0|0.57|1.62|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.62|0.57|
92186720|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.1|||||TWO_SIDED|95.0|0.75|1.5|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.50|0.75|
92186721|NCT03345407|184271876|OTHER||Posterior median odds ratio|0.63|||||TWO_SIDED|95.0|0.17|1.39|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.39|0.17|
92186722|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.27|||||TWO_SIDED|95.0|0.72|2.01|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.01|0.72|
92301419|NCT00103402|184507743|SUPERIORITY|The primary analysis compared rates for the primary outcome between study groups, using the exact conditional test version of the Mantel-Haenszel test to control for clustering by clinical center.|Risk Difference (RD)|1.8||||0.9|TWO_SIDED|95.0|-9.0|2.5|||Mantel Haenszel|||Marked or moderate improvement at 12 weeks Absolute Difference in Rates % (95% CI)||2.5|-9.0|0.90
92301420|NCT00103402|184507744|SUPERIORITY||Mean Difference (Net)|-0.5||||0.7|TWO_SIDED|95.0|-2.7|1.5|||t-test, 2 sided|||Total score (0-43) change from baseline||1.5|-2.7|0.70
92186723|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.13|||||TWO_SIDED|95.0|0.64|1.79|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.79|0.64|
92186724|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.35|||||TWO_SIDED|95.0|0.75|2.14|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.14|0.75|
92186725|NCT03345407|184271876|OTHER||Posterior median odds ratio|0.94|||||TWO_SIDED|95.0|0.53|1.45|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.45|0.53|
92301421|NCT00103402|184507744|SUPERIORITY||Mean Difference (Net)|-0.3||||0.64|TWO_SIDED|95.0|-1.4|0.8|||t-test, 2 sided|||Pain score (0-21) change from baseline||0.8|-1.4|0.64
92301422|NCT00103402|184507744|SUPERIORITY||Mean Difference (Net)|-0.2||||0.62|TWO_SIDED|95.0|-0.8|0.4|||t-test, 2 sided|||Urinary score (0-10) change from baseline||0.4|-0.8|0.62
92301423|NCT00103402|184507744|SUPERIORITY||Mean Difference (Net)|0.0||||0.99|TWO_SIDED|95.0|-0.4|0.4|||t-test, 2 sided|||Quality of life score (0-12) change from baseline||0.4|-0.4|.99
92301424|NCT00103402|184507745|SUPERIORITY||Mean Difference (Net)|-0.3||||0.45|TWO_SIDED|95.0|-1.8|1.2|||t-test, 2 sided|||McGill Total Score||1.2|-1.8|0.45
92301425|NCT00103402|184507745|SUPERIORITY||Mean Difference (Net)|-0.2||||0.47|TWO_SIDED|95.0|-1.4|1.0|||t-test, 2 sided|||McGill Sensory Score||1.0|-1.4|0.47
92301426|NCT00103402|184507745|SUPERIORITY||Mean Difference (Net)|-0.1||||0.89|TWO_SIDED|95.0|-0.6|0.4|||t-test, 2 sided|||McGill Affective Score||0.4|-0.6|0.89
92301427|NCT00103402|184507746|SUPERIORITY||Mean Difference (Net)|-0.5||||0.6|TWO_SIDED|95.0|-2.3|1.3|||t-test, 2 sided|||Physical component summary (0-100) change in scores||1.3|-2.3|0.60
92301428|NCT00103402|184507746|SUPERIORITY||Mean Difference (Net)|2.1||||0.16|TWO_SIDED|95.0|-0.4|4.6|||t-test, 2 sided|||Mental component summary (0-100) Absolute Difference between Groups (95% CI)||4.6|-0.4|0.16
92301429|NCT00103402|184507747|SUPERIORITY||Mean Difference (Net)|-1.1||||0.08|TWO_SIDED|95.0|-2.4|0.2|||t-test, 2 sided|||||0.2|-2.4|0.08
92301430|NCT00103402|184507748|SUPERIORITY||Risk Difference (RD)|0.7||||0.94|TWO_SIDED|95.0|-2.6|4.0|||t-test, 2 sided|||||4.0|-2.6|0.94
92301431|NCT00103402|184507749|SUPERIORITY||Mean Difference (Net)|1.1||||0.06|TWO_SIDED|95.0|-0.3|2.5|||t-test, 2 sided|||||2.5|-0.3|0.06
92301432|NCT01663727|184507762|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0007|TWO_SIDED|99.0|0.51|0.91|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratification factors were plasma VEGF-A level (low/high), prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||0.91|0.51|0.0007
92301433|NCT01663727|184507762|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0046|TWO_SIDED|99.0|0.55|0.97|||Log Rank|||Unstratified Analysis.||0.97|0.55|0.0046
92301434|NCT01663727|184507762|SUPERIORITY_OR_OTHER|||||||0.4619|TWO_SIDED||||||Wald Test|||A stratified multivariate Cox regression model, including treatment, VEGF-A level, and interaction between treatment and VEGF-A level (low, high) as factors was used to estimate the interaction p-value of the treatment with VEGF-A level for PFS. Analysis for the interaction of treatment effect with the plasma VEGF-A levels was a secondary objective.||||0.4619
92301435|NCT01663727|184507764|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.5877|TWO_SIDED|95.0|0.75|1.18|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratified analysis: Stratification factors were plasma VEGF-A level (low/high), prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||1.18|0.75|0.5877
92301436|NCT01663727|184507764|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.8004|TWO_SIDED|95.0|0.78|1.21|||Log Rank||Hazards ratio was estimated by Cox regression.|Unstratified analysis.||1.21|0.78|0.8004
92301437|NCT01663727|184507766|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.2745|TWO_SIDED|95.0|0.63|1.14|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratification factors were prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||1.14|0.63|0.2745
92301438|NCT01663727|184507766|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.3616|TWO_SIDED|95.0|0.65|1.17|||Log Rank||Hazards ratio was estimated by Cox regression.|Unstratified analysis.||1.17|0.65|0.3616
92301439|NCT01663727|184507767|SUPERIORITY_OR_OTHER||Difference in Response Rates|20.78|||<|0.0001|TWO_SIDED|95.0|11.45|30.11|||Fisher|||||30.11|11.45|<0.0001
92186726|NCT03345407|184271876|OTHER||Posterior median odds ratio|1.03|||||TWO_SIDED|95.0|0.71|1.43|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.43|0.71|
92186727|NCT03345407|184271877|OTHER||Posterior adjusted median difference|2.0|||||TWO_SIDED|95.0|-4.8|8.3|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||8.3|-4.8|
92186728|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-0.5|||||TWO_SIDED|95.0|-4.0|3.1|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.1|-4.0|
92186729|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-2.9|||||TWO_SIDED|95.0|-6.2|1.1|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.1|-6.2|
92186730|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-3.2|||||TWO_SIDED|95.0|-6.7|0.4|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||0.4|-6.7|
92186731|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-0.1|||||TWO_SIDED|95.0|-4.0|3.5|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.5|-4.0|
92301440|NCT01663727|184507769|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.0038|TWO_SIDED|96.0|0.47|0.88|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratification factors were prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||0.88|0.47|0.0038
92301441|NCT01663727|184507769|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0101|TWO_SIDED|96.0|0.5|0.93|||Log Rank|||Unstratified analysis.||0.93|0.50|0.0101
92186732|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-0.2|||||TWO_SIDED|95.0|-2.7|2.3|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.3|-2.7|
92301442|NCT01663727|184507770|SUPERIORITY_OR_OTHER||Difference in Response Rates|21.53||||0.0017|TWO_SIDED|95.0|8.73|34.32|||Fisher|||||34.32|8.73|0.0017
92301443|NCT01663727|184507771|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.2737|TWO_SIDED|95.0|0.54|1.19|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratification factors were plasma VEGF-A level (low/high), prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||1.19|0.54|0.2737
92301444|NCT01663727|184507771|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.2959|TWO_SIDED|95.0|0.56|1.19|||Log Rank||Hazards ratio was estimated by Cox regression.|Unstratified analysis.||1.19|0.56|0.2959
92301445|NCT01663727|184507772|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.1783|TWO_SIDED|95.0|0.41|1.18|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratification factors were prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||1.18|0.41|0.1783
92301446|NCT01663727|184507772|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.2429|TWO_SIDED|95.0|0.45|1.22|||Log Rank||Hazards ratio was estimated by Cox regression.|Unstratified analysis.||1.22|0.45|0.2429
92301447|NCT02588950|184507817|SUPERIORITY||Geometric LSMean Ratio|1.46|||||TWO_SIDED|90.0|1.08|1.97|||Mixed Models Analysis|||||1.97|1.08|
92301448|NCT02588950|184507821|SUPERIORITY||Geometric LSMean Ratio|0.885|||||TWO_SIDED|90.0|0.761|1.03|||Mixed Models Analysis|||||1.03|0.761|
92301449|NCT02588950|184507822|SUPERIORITY||Median Difference (Final Values)|0.9|||||TWO_SIDED|90.0|-1.6|2.6||||||||2.60|-1.60|
92301450|NCT05855616|184507826|OTHER||Odds Ratio (OR)|0.533||||1|TWO_SIDED|95.0|0.048|5.892|||t-test, 1 sided|||||5.892|0.048|1.00
92301451|NCT05855616|184507827|OTHER||Odds Ratio (OR)|0.176||||0.013|TWO_SIDED|95.0|0.039|0.79|||t-test, 1 sided|||||0.790|0.039|0.013
92301452|NCT05855616|184507829|OTHER|||||||0.137|||||||Chi-squared, Corrected|||||||0.137
92301453|NCT05855616|184507830|OTHER|||||||0.764|||||||Chi-squared, Corrected|||||||0.764
92301454|NCT05855616|184507831|OTHER|||||||0.055|||||||Chi-squared, Corrected|||||||0.055
92301455|NCT01936519|184507834|EQUIVALENCE|Mann Whitney U Test was performed|Mean Difference (Net)|27.32|STANDARD_ERROR_OF_MEAN|20.61||0.283|TWO_SIDED|95.0|-16.17|70.8||Cockcroft-Gault Clearance|Wilcoxon (Mann-Whitney)|||Statistical analysis was performed on the Cockcroft Gault Creatinine clearance 2 year data.||70.80|-16.17|0.283
92301456|NCT01936519|184507835|EQUIVALENCE|Wilcoxon Test|Median Difference (Final Values)|34.08|STANDARD_ERROR_OF_MEAN|11.44||0.013|TWO_SIDED|95.0|9.95|58.21|||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed on the MDRD Clearance 2 year data row data.||58.21|9.95|0.013
92301457|NCT01936519|184507836|EQUIVALENCE|Wilcoxon Test|Mean Difference (Final Values)|22.22|STANDARD_ERROR_OF_MEAN|12.09||0.099|TWO_SIDED|95.0|-3.28|47.72|||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed on the Iothalamate Clearance 2 year data.||47.72|-3.28|0.099
92301458|NCT01936519|184507836|EQUIVALENCE|Non-parametric statistical tests were used for all analyses, including the Mann-Whitney U test for continuous outcomes and Pearson's chi-square test for binary outcomes. Univariate statistical tests were used for all comparisons. Cohen's d was utilized for all comparisons to provide information about effect size.|Mean Difference (Final Values)|29.08|STANDARD_ERROR_OF_MEAN|13.29||0.032|TWO_SIDED|95.0|1.04|57.1|||Wilcoxon (Mann-Whitney)|||"Power and sample size. The assumption was made that eGFR would improve from 34 mL/min/1.73 m2 to 43 mL/min/1.73 m2. It was determined that a sample size of 12 in each group would have 80% power to detect a difference in means of -9.0 (the difference between a group 1 mean of 34.0 and a group 2 mean of 43.0) assuming that the common standard deviation was 7.5 using a two group t-test with a 0.05 two-sided significance level.~Data from the 2 year time point was used for analysis."||57.1|1.04|.032
92301459|NCT01936519|184507836|EQUIVALENCE|Difference of zero hypothesized.|Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.263||0.015|TWO_SIDED|95.0|-1.11|-0.003|||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed on 2 year data time point.||-0.003|-1.11|0.015
92301460|NCT02072824|184507847|SUPERIORITY||Least Square Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.153||0.4606|TWO_SIDED|95.0|-0.19|0.42|||ANCOVA|||Linear model with log transformed baseline seizure rate as continuous covariate and treatment, age stratum, and geographical region as fixed factor effects.||0.42|-0.19|0.4606
92186733|NCT03345407|184271877|OTHER||Posterior adjusted median difference|4.1|||||TWO_SIDED|95.0|-2.5|11.0|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||11.0|-2.5|
92186734|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-1.2|||||TWO_SIDED|95.0|-4.8|2.5|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.5|-4.8|
92186735|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-2.7|||||TWO_SIDED|95.0|-6.3|1.1|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.1|-6.3|
92186736|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-3.3|||||TWO_SIDED|95.0|-7.3|0.4|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||0.4|-7.3|
92186737|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-0.8|||||TWO_SIDED|95.0|-4.6|3.0|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.0|-4.6|
92186738|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-0.4|||||TWO_SIDED|95.0|-2.9|2.5|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.5|-2.9|
92186739|NCT03345407|184271877|OTHER||Posterior adjusted median difference|2.4|||||TWO_SIDED|95.0|-4.8|9.4|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||9.4|-4.8|
92186740|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-0.2|||||TWO_SIDED|95.0|-4.1|3.6|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.6|-4.1|
92186741|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-2.3|||||TWO_SIDED|95.0|-6.1|1.8|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.8|-6.1|
92301461|NCT02072824|184507847|SUPERIORITY||Least Square Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.185||0.0223|TWO_SIDED|95.0|-0.8|-0.06|||ANCOVA|||Linear model with log transformed baseline seizure rate as continuous covariate and treatment, age stratum, and geographical region as fixed factor effects.||-0.06|-0.80|0.0223
92186742|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-1.8|||||TWO_SIDED|95.0|-5.7|2.3|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.3|-5.7|
92186743|NCT03345407|184271877|OTHER||Posterior adjusted median difference|-0.3|||||TWO_SIDED|95.0|-4.5|3.8|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.8|-4.5|
92186744|NCT03345407|184271877|OTHER||Posterior adjusted median difference|1.2|||||TWO_SIDED|95.0|-1.7|4.0|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||4.0|-1.7|
92186745|NCT01584648|184271892|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.59|0.91|||||Hazard ratios (HRs) were estimated using a Pike estimator.|||0.91|0.59|
92186746|NCT01584648|184271893|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.64|1.02|||||Hazard ratios (HRs) were estimated using a Pike estimator.|||1.02|0.64|
92186747|NCT00065611|184271900|SUPERIORITY_OR_OTHER|||||||0.9074||95.0|||||Chi-squared|||||||0.9074
92186748|NCT00065611|184271901|SUPERIORITY_OR_OTHER|||||||0.4566||95.0|||||ANOVA|||||||0.4566
92186749|NCT00065611|184271902|SUPERIORITY_OR_OTHER|||||||0.3792||95.0|||||ANOVA|||||||0.3792
92186750|NCT03693989|184271903|OTHER|||||||0.065|||||||t-test, 2 sided|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.065
92301462|NCT02072824|184507848|SUPERIORITY||Odds Ratio (OR)|0.625||||0.2418|TWO_SIDED|95.0|0.284|1.373|||Regression, Logistic|||The dichotomized responder variable was analyzed using a logistic regression model via maximum likelihood estimation with treatment group, age stratum, and geographical region as a fixed effect covariates.||1.373|0.284|0.2418
92301463|NCT02072824|184507848|SUPERIORITY||Odds Ratio (OR)|1.622||||0.305|TWO_SIDED|95.0|0.644|4.086|||Regression, Logistic|||The dichotomized responder variable was analyzed using a logistic regression model via maximum likelihood estimation with treatment group, age stratum, and geographical region as a fixed effect covariates.||4.086|0.644|0.3050
92301464|NCT01388166|184507857|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92301465|NCT01388166|184507858|SUPERIORITY_OR_OTHER|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
92301466|NCT01388166|184507859|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92301467|NCT01429051|184507881|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.002|TWO_SIDED|95.0|0.41|1.179|||Mixed Models Analysis|A mixed effects model with episode baseline PI as a covariate, treatment as a fixed effect and patient as a random effect.||||1.179|0.41|0.002
92301468|NCT00986180|184507951|NON_INFERIORITY_OR_EQUIVALENCE|The sample size was recalculated due to Amendment INT-1. The non-inferiority margin for SPID120 was set as 120. The common standard deviation for the SPID120 data was estimated to be 230. Seventy nine subjects in each arm would have 90% power to demonstrate the non-inferiority of NUCYNTA to oxycodone IR with a 1-sided significance level of 0.025. This would have required enrollment of total 158 mITT subjects for each stratum. The original sample size (292 mITT subjects) was derived for SPID72.|Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|16.02||0.9703|TWO_SIDED|95.0|-32.1|30.9|||ANCOVA|||||30.9|-32.1|0.9703
92301469|NCT00986180|184507952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|6.08||0.7691|TWO_SIDED|95.0|-10.1|13.7|||ANCOVA|||||13.7|-10.1|0.7691
92186751|NCT03693989|184271904|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.223|||||||t-test, 2 sided|||||||0.223
92186752|NCT03693989|184271905|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.621|||||||Chi-squared, Corrected|||||||0.621
92186753|NCT03693989|184271906|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.246|||||||Fisher Exact|||||||0.246
92186754|NCT03693989|184271907|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.497|||||||Fisher Exact|||||||0.497
92186755|NCT03693989|184271908|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.047|||||||t-test, 2 sided|||||||0.047
92186756|NCT03693989|184271909|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.3|||||||Chi-squared, Corrected|||||||0.300
92186757|NCT03693989|184271910|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.045|||||||t-test, 2 sided|||||||0.045
92186758|NCT03693989|184271911|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.346|||||||Fisher Exact|||burning eyes comparison||||0.346
92186759|NCT03693989|184271911|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.489|||||||Fisher Exact|||Itching eyes comparison||||0.489
92186760|NCT03693989|184271911|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.497|||||||Fisher Exact|||foreign body sensation eyes comparison||||0.497
92186761|NCT03693989|184271911|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||1|||||||Fisher Exact|||blurred vision comparison||||1.000
92186762|NCT03403153|184271948|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<0.01
92186763|NCT03403153|184271949|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
92186764|NCT03403153|184271950|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
92186765|NCT03403153|184271951|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
92186766|NCT03403153|184271952|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
92186767|NCT03403153|184271953|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
92186768|NCT03403153|184271954|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
92186769|NCT00113529|184271964|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|37.1||||||95.0|21.5|55.1|||||ORR=proportion of subjects with confirmed CR or PR, relative to total subjects who received at least 1 dose of study medication, had a baseline disease assessment, and had the correct histological cancer type.|||55.1|21.5|
92186770|NCT00113529|184271970|SUPERIORITY_OR_OTHER||probability|82.4||||||95.0|64.9|91.7||||||||91.7|64.9|
92186771|NCT00113529|184271979|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.075
92186772|NCT00113529|184271979|SUPERIORITY_OR_OTHER|||||||0.749||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.749
92186773|NCT00113529|184271979|SUPERIORITY_OR_OTHER|||||||0.834||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.834
92186774|NCT00113529|184271979|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||1.000
92186775|NCT00113529|184271979|SUPERIORITY_OR_OTHER|||||||0.332||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.332
92186776|NCT00113529|184271980|SUPERIORITY_OR_OTHER|||||||0.473||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.473
92186777|NCT00113529|184271980|SUPERIORITY_OR_OTHER|||||||0.286||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.286
92186778|NCT00113529|184271980|SUPERIORITY_OR_OTHER|||||||0.277||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.277
92186779|NCT00113529|184271980|SUPERIORITY_OR_OTHER|||||||0.956||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.956
92186780|NCT00113529|184271980|SUPERIORITY_OR_OTHER|||||||0.278||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.278
92301470|NCT00986180|184507953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|9.24||0.9282|TWO_SIDED|95.0|-17.3|19.0|||ANCOVA|||||19.0|-17.3|0.9282
92301471|NCT00986180|184507954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|29.75||0.9562|TWO_SIDED|95.0|-60.1|56.8|||ANCOVA|||||56.8|-60.1|0.9562
92301472|NCT00986180|184507955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|6.08||0.7973|TWO_SIDED|95.0|-13.5|10.4|||ANCOVA|||||10.4|-13.5|0.7973
92301473|NCT00986180|184507956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|9.3||0.7882|TWO_SIDED|95.0|-20.8|15.8|||ANCOVA|||||15.8|-20.8|0.7882
92301474|NCT00986180|184507957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1|STANDARD_ERROR_OF_MEAN|15.82||0.7491|TWO_SIDED|95.0|-36.1|26.0|||ANCOVA|||||26.0|-36.1|0.7491
92301475|NCT00986180|184507958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|29.03||0.6897|TWO_SIDED|95.0|-68.6|45.4|||ANCOVA|||||45.4|-68.6|0.6897
92301476|NCT00986180|184507959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|7.02||0.8226|TWO_SIDED|95.0|-12.2|15.4|||ANCOVA|||||15.4|-12.2|0.8226
92186781|NCT00113529|184271981|SUPERIORITY_OR_OTHER|||||||0.275||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.275
92186782|NCT00113529|184271981|SUPERIORITY_OR_OTHER|||||||0.227||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.227
92186783|NCT00113529|184271981|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.029
92186784|NCT00113529|184271981|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||1.000
92186785|NCT00113529|184271981|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||1.000
92186786|NCT00113529|184271982|SUPERIORITY_OR_OTHER|||||||0.435||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.435
92186787|NCT00113529|184271982|SUPERIORITY_OR_OTHER|||||||0.722||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.722
92186788|NCT00113529|184271982|SUPERIORITY_OR_OTHER|||||||0.645||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.645
92186789|NCT00113529|184271982|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.140
92186790|NCT00113529|184271982|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.046
92186791|NCT00113529|184271983|SUPERIORITY_OR_OTHER|||||||0.734||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.734
92186792|NCT00113529|184271983|SUPERIORITY_OR_OTHER|||||||0.854||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.854
92186793|NCT00113529|184271983|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.230
92186794|NCT00113529|184271983|SUPERIORITY_OR_OTHER|||||||0.067||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.067
92186795|NCT00113529|184271983|SUPERIORITY_OR_OTHER|||||||0.164||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.164
92186796|NCT00113529|184271983|SUPERIORITY_OR_OTHER|||||||0.121||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.121
92186797|NCT00113529|184271984|SUPERIORITY_OR_OTHER|||||||0.734||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.734
92186798|NCT00113529|184271984|SUPERIORITY_OR_OTHER|||||||0.462||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.462
92186799|NCT00113529|184271984|SUPERIORITY_OR_OTHER|||||||0.423||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.423
92186800|NCT00113529|184271984|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.510
92186801|NCT00113529|184271984|SUPERIORITY_OR_OTHER|||||||0.608||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.608
92186802|NCT00113529|184271984|SUPERIORITY_OR_OTHER|||||||0.121||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.121
92186803|NCT00113529|184271985|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.910
92186804|NCT00113529|184271985|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.020
92186805|NCT00113529|184271985|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||1.000
92186806|NCT00113529|184271985|SUPERIORITY_OR_OTHER|||||||0.509||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.509
92186807|NCT00113529|184271985|SUPERIORITY_OR_OTHER|||||||0.883||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.883
92186808|NCT00113529|184271985|SUPERIORITY_OR_OTHER|||||||0.582||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.582
92186809|NCT00113529|184271986|SUPERIORITY_OR_OTHER|||||||0.428||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.428
92186810|NCT00113529|184271986|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.075
92186811|NCT00113529|184271986|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||1.000
92186812|NCT00113529|184271986|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.019
92186813|NCT00113529|184271986|SUPERIORITY_OR_OTHER|||||||0.124||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.124
92186814|NCT00113529|184271986|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.055
92186815|NCT00113529|184271987|SUPERIORITY_OR_OTHER|||||||0.734||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.734
92186816|NCT00113529|184271987|SUPERIORITY_OR_OTHER|||||||0.854||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.854
92186817|NCT00113529|184271987|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.230
92186818|NCT00113529|184271987|SUPERIORITY_OR_OTHER|||||||0.067||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.067
92186819|NCT00113529|184271987|SUPERIORITY_OR_OTHER|||||||0.164||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.164
92186820|NCT00113529|184271987|SUPERIORITY_OR_OTHER|||||||0.121||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.121
92186821|NCT00113529|184271988|SUPERIORITY_OR_OTHER|||||||0.734||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.734
92186822|NCT00113529|184271988|SUPERIORITY_OR_OTHER|||||||0.462||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.462
92186823|NCT00113529|184271988|SUPERIORITY_OR_OTHER|||||||0.423||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.423
92186824|NCT00113529|184271988|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.510
92186825|NCT00113529|184271988|SUPERIORITY_OR_OTHER|||||||0.608||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.608
92186826|NCT00113529|184271988|SUPERIORITY_OR_OTHER|||||||0.121||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.121
92186827|NCT00113529|184271989|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.910
92186828|NCT00113529|184271989|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.020
92186829|NCT00113529|184271989|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||1.000
92301477|NCT00986180|184507960|SUPERIORITY_OR_OTHER|||||||0.888|||||||Wilcoxon (Mann-Whitney)|||||||0.8880
92301478|NCT00986180|184507961|SUPERIORITY_OR_OTHER|||||||0.4115|||||||Wilcoxon (Mann-Whitney)|||||||0.4115
92301479|NCT00986180|184507962|SUPERIORITY_OR_OTHER|||||||0.8495|||||||Wilcoxon (Mann-Whitney)|||||||0.8495
92301480|NCT00986180|184507963|SUPERIORITY_OR_OTHER|||||||0.7846|||||||Wilcoxon (Mann-Whitney)|||||||0.7846
92301481|NCT00986180|184507964|SUPERIORITY_OR_OTHER|||||||0.479|||||||Wilcoxon (Mann-Whitney)|||||||0.4790
92301482|NCT00986180|184507965|SUPERIORITY_OR_OTHER|||||||0.3147|||||||Wilcoxon (Mann-Whitney)|||||||0.3147
92301483|NCT00986180|184507966|SUPERIORITY_OR_OTHER|||||||0.5411|||||||Wilcoxon (Mann-Whitney)|||||||0.5411
92301484|NCT00986180|184507967|SUPERIORITY_OR_OTHER|||||||0.6137|||||||Wilcoxon (Mann-Whitney)|||||||0.6137
92301485|NCT00986180|184507968|SUPERIORITY_OR_OTHER|||||||0.7246|||||||Wilcoxon (Mann-Whitney)|||||||0.7246
92301486|NCT00986180|184507969|SUPERIORITY_OR_OTHER|||||||0.4882|||||||Wilcoxon (Mann-Whitney)|||||||0.4882
92301487|NCT00986180|184507970|SUPERIORITY_OR_OTHER|||||||0.7201|||||||Cochran-Mantel-Haenszel|||||||0.7201
92186830|NCT00113529|184271989|SUPERIORITY_OR_OTHER|||||||0.509||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.509
92186831|NCT00113529|184271989|SUPERIORITY_OR_OTHER|||||||0.883||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.883
92186832|NCT00113529|184271989|SUPERIORITY_OR_OTHER|||||||0.582||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.582
92186833|NCT00113529|184271990|SUPERIORITY_OR_OTHER|||||||0.428||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.428
92186834|NCT00113529|184271990|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.075
92186835|NCT00113529|184271990|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||1.000
92186836|NCT00113529|184271990|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.019
92186837|NCT00113529|184271990|SUPERIORITY_OR_OTHER|||||||0.124||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.124
92186838|NCT00113529|184271990|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.055
92301488|NCT00986180|184507972|SUPERIORITY_OR_OTHER|||||||0.5208|||||||Cochran-Mantel-Haenszel|||||||0.5208
92301489|NCT00986180|184507974|SUPERIORITY_OR_OTHER|||||||0.0401|||||||Cochran-Mantel-Haenszel|||||||0.0401
92301490|NCT00986180|184507976|SUPERIORITY_OR_OTHER|||||||0.4679|||||||Cochran-Mantel-Haenszel|||||||0.4679
92301491|NCT00986180|184507978|SUPERIORITY_OR_OTHER|||||||0.1454|||||||Fisher Exact|||||||0.1454
92301492|NCT00986180|184507979|SUPERIORITY_OR_OTHER|||||||0.1541|||||||Fisher Exact|||||||0.1541
92301493|NCT00986180|184507981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38|||||TWO_SIDED|95.0|0.92|2.06|||Cochran-Mantel-Haenszel|||||2.06|0.92|
92301494|NCT00986180|184507982|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74|||||TWO_SIDED|95.0|1.17|2.57|||Cochran-Mantel-Haenszel|||||2.57|1.17|
92301495|NCT00986180|184507983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.43|||||TWO_SIDED|95.0|1.45|8.11|||Cochran-Mantel-Haenszel|||||8.11|1.45|
92301496|NCT00986180|184507984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.54|1.67|||Cochran-Mantel-Haenszel|||||1.67|0.54|
92186839|NCT00841321|184272008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.1|TWO_SIDED|95.0|-0.5|0.1||Nominal value. Per protocol univariate tests would only be considered significant in the multivariate test was significant.|ANCOVA|||PASAT Exit Z-score least square means difference adjusted for baseline. Positive values indicate a beneficial effect from treatment with Ginkgo.||0.1|-0.5|.1
92301497|NCT00986180|184507985|SUPERIORITY_OR_OTHER|||||||0.5828|||||||Log Rank|||||||0.5828
92301498|NCT00986180|184507986|SUPERIORITY_OR_OTHER|||||||0.9084|||||||Log Rank|||||||0.9084
92301499|NCT02408068|184508002|SUPERIORITY_OR_OTHER_LEGACY||Geometric LSmean ratio|77.56|||||TWO_SIDED|90.0|70.89|84.86|||ANOVA|||Results obtained using a mixed effects ANOVA with fixed effects for study period, sequence, treatment and subject (sequence) (excl. tmax).||84.86|70.89|
92301500|NCT02408068|184508003|SUPERIORITY_OR_OTHER_LEGACY||Geometric LSmean ratio|108.33|||||TWO_SIDED|90.0|102.3|114.72|||ANOVA|||||114.72|102.30|
92301501|NCT02408068|184508004|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|2.25||||0.0005|TWO_SIDED|95.0|1.25|3.75|||Wilcoxon (Mann-Whitney)|||||3.75|1.25|0.0005
92301502|NCT02408068|184508005|SUPERIORITY_OR_OTHER_LEGACY||Geometric LSmean ratio|83.27|||||TWO_SIDED|90.0|75.58|91.74||||||||91.74|75.58|
92301503|NCT02408068|184508006|SUPERIORITY_OR_OTHER_LEGACY||Geometric LSmean ratio|118.83|||||TWO_SIDED|90.0|111.58|126.54||||||||126.54|111.58|
92301504|NCT02408068|184508007|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|3.5||||0.0014|TWO_SIDED|95.0|2.25|4.38|||Wilcoxon (Mann-Whitney)|||||4.38|2.25|0.0014
92301505|NCT00942331|184508030|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.1707|TWO_SIDED|95.0|0.72|1.06|||Log Rank|Stratified log rank||||1.06|0.72|0.1707
92301506|NCT03856593|184508094|SUPERIORITY||Slope|-0.14|STANDARD_ERROR_OF_MEAN|0.03|<|0.05|TWO_SIDED|95.0|-0.2|-0.07|||Mixed Models Analysis||This is the interaction coefficient for the difference-in-difference in average weekly MME pre-to-post letter between study arms. It was used to acquire the estimated average weekly MME post-letter in the Outcome Measure Data table.|Please note that 10% of means in the pre-intervention period were trimmed to remove outliers.||-0.07|-0.20|<0.05
92301507|NCT03856593|184508095|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.03|<|0.05|TWO_SIDED|95.0|-0.15|-0.02|||Mixed Models Analysis||This is the interaction coefficient for the difference-in-difference in average weekly MME pre-to-post letter between study arms. It was used to acquire the estimated average weekly VME post-letter in the Outcome Measure Data table.|||-0.02|-0.15|<0.05
92301508|NCT03407118|184508097|SUPERIORITY||ratio of least square means|0.967|||||TWO_SIDED|95.0|0.803|1.17||||||||1.17|0.803|
92301509|NCT04017754|184508121|EQUIVALENCE|A p-value \<0.05 was considered significant for at difference in frequency of low p-MBL level(\<500 ug/l) between groups.|Prevalence proportion ratio|1.79|||<|0.001|TWO_SIDED|95.0|1.34|2.38|||Chi-squared||The numerator is the risk of low p-MBL in the study sample with RPL patients and the denominator is the risk of low p-MBL in control group 1 of female blood donors.|Comparing the risk of low p-MBL level between RPL patients and MBL reference group. We hypothesized that more RPL patients had a low p-MBL level; thus, the null hypothesis was that no difference existed.||2.38|1.34|<0.001
92301510|NCT03508687|184508145|OTHER|||||||0.517||||||paired t test; baseline vs. week 12 (n = 5)|t-test, 2 sided|||||||0.517
92301511|NCT03508687|184508145|OTHER|||||||0.345|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Signed Ranks Test (n = 5)||||||0.345
92301512|NCT01635062|184508209|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.3||||0.69|TWO_SIDED||||||ANOVA|||The hypothesis was that calcitriol therapy would lower plasma renin activity (PRA), when sodium restricted, when compared to placebo.||||0.69
92301513|NCT01635062|184508210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.8||||0.89|TWO_SIDED||||||ANOVA|||The hypothesis was that calcitriol therapy would raise renal plasma flow, when sodium loaded, when compared to placebo.||||0.89
92301514|NCT01635062|184508211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.0||||0.8|TWO_SIDED||||||ANOVA|||The hypothesis was that calcitriol therapy would lower urine protein, when sodium loaded, when compared to placebo.||||0.80
92301515|NCT02999477|184508212|EQUIVALENCE|The null hypothesis is no change in the amount of PD-L1 expression from baseline to after a two-week run in of nabpaclitaxel. The test was using one-sided alpha (type I error) of 0.05. The margin is zero.||||||1|||||||McNemar|||||||1.0
92301516|NCT02999477|184508212|EQUIVALENCE|The null hypothesis is no change in the amount of PD-L1 expression from baseline to after a two-week run in of nabpaclitaxel or pembrolizumab. The test was using one-sided alpha (type I error) of 0.05.||||||1|||||||McNemar|||||||1.0
92186840|NCT00841321|184272008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.007|TWO_SIDED|95.0|-0.9|-0.1||Not adjusted for multiple comparison. Nominal value. Per protocol univariate tests would only be considered significant in the multivariate test was significant.|ANCOVA|||Stroop Exit Z-score least square means difference adjusted for baseline.Positive values indicate a beneficial effect from treatment with Ginkgo.||-0.1|-0.9|0.007
92186841|NCT00841321|184272008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.5|TWO_SIDED|95.0|-0.2|0.3||Not adjusted for multiple comparison. Nominal value. Per protocol univariate tests would only be considered significant in the multivariate test was significant.|ANCOVA|||COWAT Exit Z-score least square means difference adjusted for baseline. Positive values indicate a beneficial effect from treatment with Ginkgo.||0.3|-0.2|0.5
92186842|NCT00841321|184272008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.15||0.5||95.0|-0.3|0.3||Not adjusted for multiple comparison. Nominal value. Per protocol univariate tests would only be considered significant in the multivariate test was significant.|ANCOVA|||CVLT-II Delayed Recall Exit Z-score least square means difference adjusted for baseline. Positive values indicate a beneficial effect from treatment with Ginkgo.||0.3|-0.3|0.5
92186843|NCT00841321|184272008|SUPERIORITY_OR_OTHER|||||||0.19|||||||MANCOVA|MANCOVA||MANCOVA for all four cognitive tests at exit adjusting for baseline. Individual ANOVAs were to follow if the multivariate test was significant.||||0.19
92186844|NCT00841321|184272009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|2.7||0.4|TWO_SIDED|95.0|-5.7|4.7|||ANCOVA||Positive values indicate a beneficial effect from Ginkgo.|Perceived Deficits Questionnaire||4.7|-5.7|0.4
92186845|NCT00841321|184272009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|2.0||0.7||95.0|-3.2|4.8|||ANCOVA||Positive values indicate a beneficial effect from Ginkgo.|Multiple Sclerosis Neuropsychological Questionnaire||4.8|-3.2|0.7
92186846|NCT00841321|184272009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.6||0.4||95.0|-1.3|0.8|||ANCOVA|||Community Integration Questionnaire||0.8|-1.3|0.4
92186847|NCT01107912|184272022|NON_INFERIORITY_OR_EQUIVALENCE|The difference of median MPA to 20 μM ADP of a prasugrel 5-mg in the elderly group to the 75th percentile of the MPA to 20 μM ADP of a prasugrel 10 mg MD in the non-elderly group at the end of Period 1 was estimated from the observed data. The upper limit of the one-sided 97.5% confidence interval for the difference was estimated from resampling data with replacement through bootstrap methodology and was used to compare with the non-inferiority margin of 15 percentage points.|Estimate of the difference|6.0|||||TWO_SIDED|95.0|1.0|9.0||||||||9.00|1.00|
92186848|NCT00595959|184272027|SUPERIORITY_OR_OTHER|||||||0.001||||||No adjustments|t-test, 1 sided|||Comparing to an expected value of 20% reduction from initial to post-laser||||0.001
92186849|NCT00886834|184272039|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 2 sided|||||||0.64
92186850|NCT03875729|184272041|SUPERIORITY||Mean Difference (Net)|0.1253|||<|0.001|TWO_SIDED|95.0|0.0852|0.1653||ITT: The ANCOVA model included treatment, age group at randomization, and baseline C-peptide ln(AUC+1) as independent variables. Missing data at Week 78 were multiply imputed using pattern-mixture model under the missing not at random assumption.|ANCOVA||Least squares mean (LSmean) difference = Teplizumab - Placebo|This study was designed to show a difference of at least a 40% in C-peptide response between teplizumab and placebo. In geometric means, this translates to a value of (1.4×0.28) = 0.392. Consequently, approximately 300 participants were planned for enrollment, assuming 2-sided α=0.05, 90% power, 2:1 randomization, and a 10% dropout rate.||0.1653|0.0852|<0.001
92301517|NCT01846273|184508217|NON_INFERIORITY|pre-defined non-inferiority margin of 5 letters|Least Squares Mean|3.2|||<|0.001|ONE_SIDED|95.0|0.38||||ANCOVA||||||0.38|<0.001
92301518|NCT01846273|184508218|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92301519|NCT00359788|184508254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|||<|0.0001|TWO_SIDED|95.0|0.055|0.157|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.157|0.055|<0.0001
92301520|NCT00359788|184508255|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.05 liters|Mean Difference (Final Values)|0.02||||0.0042||95.0|-0.032|0.072|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.072|-0.032|0.0042
92301521|NCT00359788|184508256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|||<|0.0001||95.0|0.098|0.193|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.193|0.098|<0.0001
92301522|NCT00359788|184508257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|||<|0.0001||95.0|-0.114|-0.046|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.046|-0.114|<0.0001
92301523|NCT00359788|184508258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054||||0.0447||95.0|0.001|0.106|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.106|0.001|0.0447
92301524|NCT00359788|184508259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.131|||<|0.0001||95.0|-0.171|-0.092|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.092|-0.171|<0.0001
92301525|NCT00359788|184508260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.152|||<|0.0001||95.0|-0.19|-0.113|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.113|-0.19|<0.0001
92301526|NCT00359788|184508261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.133|||<|0.0001||95.0|-0.175|-0.091|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.091|-0.175|<0.0001
92301527|NCT00359788|184508262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175||||0.0015||95.0|0.067|0.283|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.283|0.067|0.0015
92301528|NCT00359788|184508263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011||||0.835||95.0|-0.092|0.114|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.114|-0.092|0.835
92301529|NCT00359788|184508264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|||<|0.0001||95.0|0.178|0.379|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.379|0.178|<0.0001
92301530|NCT00359788|184508265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.157|||<|0.0001||95.0|-0.236|-0.078|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.078|-0.236|<0.0001
92186851|NCT03875729|184272041|SUPERIORITY||Mean Difference (Net)|0.1385|||<|0.001|TWO_SIDED|95.0|0.0994|0.1776||PP: The ANCOVA model included treatment, age group at randomization, and baseline C-peptide ln(AUC+1) as independent variables. Missing data at Week 78 were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||Least squares mean (LSmean) difference = teplizumab - placebo|||0.1776|0.0994|<0.001
92186852|NCT03875729|184272042|SUPERIORITY||Mean Difference (Final Values)|-0.131||||0.085|TWO_SIDED|95.0|-0.28|0.018||ITT: ANCOVA model included treatment, age group at randomization, and screening peak C-peptide category as independent variables. Missing data at Week 78 were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||LSmean difference = teplizumab - placebo.|||0.018|-0.280|0.085
92186853|NCT03875729|184272042|SUPERIORITY||Mean Difference (Final Values)|-0.167|||<|0.001|TWO_SIDED|95.0|-0.256|-0.078||PP: ANCOVA model included treatment, age group at randomization, and screening peak C-peptide category as independent variables. Missing data at Week 78 were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||LSmean difference = teplizumab - placebo.|||-0.078|-0.256|<0.001
92186854|NCT03875729|184272043|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.606|TWO_SIDED|95.0|-0.42|0.24||ITT: ANCOVA model included treatment, age group at randomization, screening peak C-peptide category, baseline HbA1c as independent variables. Missing data were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA|||||0.24|-0.42|0.606
92186855|NCT03875729|184272043|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.454|TWO_SIDED|95.0|-0.46|0.2||PP: ANOVA model included treatment, age group at randomization, screening peak C-peptide category, baseline HbA1c as independent variables. Missing data were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||LSmean difference = teplizumab - placebo.|||0.20|-0.46|0.454
92186856|NCT03875729|184272044|SUPERIORITY||Mean Difference (Final Values)|4.71||||0.151|TWO_SIDED|95.0|-1.72|11.15||ITT: The ANCOVA model included treatment, age group at randomization, and screening peak C-peptide category as independent variables. Missing data were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||LSmean difference = teplizumab - placebo.|||11.15|-1.72|0.151
92186857|NCT03875729|184272044|SUPERIORITY||Mean Difference (Final Values)|6.17||||0.045|TWO_SIDED|95.0|0.13|12.22||PP: The ANCOVA model included treatment, age group at randomization, and screening peak C-peptide category as independent variables. Missing data were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||LSmean difference = teplizumab - placebo.|||12.22|0.13|0.045
92186858|NCT03875729|184272045|SUPERIORITY||Rate ratio|1.1||||0.634|TWO_SIDED|95.0|0.74|1.64||ITT: Estimates and p-values were obtained from a negative binomial regression model using rate of hypoglycemic episodes as dependent variable and treatment, age group at randomization, and screening peak C-peptide category as independent variables.|Negative binomial regression model||Rate ratio = teplizumab / placebo.|||1.64|0.74|0.634
92186859|NCT03875729|184272045|SUPERIORITY||Rate ratio|1.09||||0.69|TWO_SIDED|95.0|0.72|1.65||PP: Estimates and p-values were obtained from a negative binomial regression model using rate of hypoglycemic episodes as dependent variable and treatment age group at randomization, and screening peak C-peptide category as independent variables.|Rate ratio||Rate ratio = teplizumab / placebo.|||1.65|0.72|0.690
92186860|NCT01280656|184272050|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Chi-squared|||||||0.003
92186861|NCT01280656|184272051|SUPERIORITY_OR_OTHER|||||||0.693|||||||Chi-squared|||||||0.693
92186862|NCT01280656|184272053|SUPERIORITY_OR_OTHER|||||||0.573|TWO_SIDED||||||Chi-squared|||||||0.573
92301531|NCT00359788|184508266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039||||0.4386||95.0|-0.059|0.137|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.137|-0.059|0.4386
92301532|NCT00359788|184508267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.282||||0.0001||95.0|-0.374|-0.191|||ANCOVA|||||-0.191|-0.374|0.0001
92301533|NCT00359788|184508268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.361|||<|0.0001||95.0|-0.449|-0.274|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.274|-0.449|<0.0001
92301534|NCT00359788|184508269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.286|||<|0.0001||95.0|-0.375|-0.196|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.196|-0.375|<0.0001
92301535|NCT00359788|184508270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.175|||<|0.0001||95.0|-0.207|-0.142|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.142|-0.207|<0.0001
92301536|NCT00359788|184508271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.168|||<|0.0001||95.0|-0.205|-0.131|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.131|-0.205|<0.0001
92301537|NCT00359788|184508272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.182|||<|0.0001||95.0|-0.221|-0.143|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.143|-0.221|<0.0001
92301538|NCT00359788|184508273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.136|||<|0.0001||95.0|-0.175|-0.097|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.097|-0.175|<0.0001
92301539|NCT00359788|184508274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.084|||<|0.0001||95.0|-0.125|-0.044|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.044|-0.125|<0.0001
92301540|NCT00359788|184508275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.035||||0.0997||95.0|-0.076|0.007|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.007|-0.076|0.0997
92301541|NCT00359788|184508276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037||||0.101||95.0|-0.007|0.08|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.08|-0.007|0.101
92301542|NCT00359788|184508277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|||<|0.0001||95.0|0.098|0.193|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.193|0.098|<0.0001
92301543|NCT00359788|184508278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.055||||0.0411||95.0|-0.108|-0.002|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.002|-0.108|0.0411
92301544|NCT00359788|184508279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.0354||95.0|-0.116|-0.004|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.004|-0.116|0.0354
92186863|NCT01280656|184272055|SUPERIORITY_OR_OTHER|||||||0.982|TWO_SIDED||||||Chi-squared|||Mean at the site||||0.982
92186864|NCT01280656|184272055|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Chi-squared|||Mean at home||||0.012
92186865|NCT01280656|184272056|SUPERIORITY_OR_OTHER|||||||0.476|||||||t-test, 2 sided|||Responders vs Non-responders||||0.476
92186866|NCT01280656|184272056|SUPERIORITY_OR_OTHER|||||||0.32|||||||t-test, 2 sided|||Responders vs Non-Responders||||0.320
92186867|NCT01280656|184272057|SUPERIORITY_OR_OTHER|||||||0.792|TWO_SIDED||||||Chi-squared|||||||0.792
92186868|NCT01280656|184272058|SUPERIORITY_OR_OTHER|||||||0.202|TWO_SIDED||||||Chi-squared|||||||0.202
92186869|NCT01280656|184272059|SUPERIORITY_OR_OTHER|||||||0.921|TWO_SIDED||||||Chi-squared|||||||0.921
92186870|NCT01280656|184272060|SUPERIORITY_OR_OTHER|||||||0.202|TWO_SIDED||||||Chi-squared|||||||0.202
92186871|NCT01280656|184272061|SUPERIORITY_OR_OTHER|||||||0.973|TWO_SIDED||||||Chi-squared|||Total||||0.973
92301545|NCT00359788|184508280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.062||||0.041||95.0|-0.121|-0.003|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.003|-0.121|0.041
92186872|NCT05265247|184272066|EQUIVALENCE|The two formulations were considered to be bioequivalent if the point estimate for the ratio lies completely within the range of 0.8-1.25.|Ratio of Geometric least squares mean|0.9531|||||TWO_SIDED|90.0|0.851|1.0673||||||||1.0673|0.8510|
92301546|NCT00359788|184508281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018||||0.5387||95.0|-0.076|0.04|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.04|-0.076|0.5387
92301547|NCT00359788|184508282|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061||||0.0372||95.0|0.004|0.118|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.118|0.004|0.0372
92301548|NCT00359788|184508283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|||<|0.0001||95.0|0.066|0.177|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.177|0.066|<0.0001
92301549|NCT00359788|184508284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|||<|0.0001||95.0|0.108|0.216|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.216|0.108|<0.0001
92301550|NCT00359788|184508285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|||<|0.0001||95.0|0.055|0.157|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.157|0.055|<0.0001
92301551|NCT00359788|184508286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083||||0.0023||95.0|-0.136|-0.03|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.03|-0.136|0.0023
92301552|NCT00359788|184508287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.087||||0.0019||95.0|-0.142|-0.033|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.033|-0.142|0.0019
92301553|NCT00359788|184508288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083||||0.0044||95.0|-0.139|-0.026|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.026|-0.139|0.0044
92301554|NCT00359788|184508289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046||||0.1182||95.0|-0.103|0.012|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.012|-0.103|0.1182
92301555|NCT00359788|184508290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.4814||95.0|-0.037|0.078||ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.|ANCOVA|||||0.078|-0.037|0.4814
92301556|NCT00359788|184508291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.074||||0.008||95.0|0.019|0.129|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.129|0.019|0.008
92301557|NCT00359788|184508292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|||<|0.0001||95.0|0.082|0.19|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.19|0.082|<0.0001
92186873|NCT05265247|184272067|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% 2-sided confidence interval (CI) for the ratio lies completely within the range of 0.8-1.25.|Ratio of Geometric least squares mean|0.9538|||||TWO_SIDED|90.0|0.898|1.0132||||||||1.0132|0.8980|
92186874|NCT02516202|184272075|SUPERIORITY|||||||0.25||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.25
92186875|NCT02516202|184272075|SUPERIORITY|||||||0.31||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.31
92186876|NCT02516202|184272076|SUPERIORITY|||||||0.99||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.99
92186877|NCT02516202|184272076|SUPERIORITY|||||||0.05||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.05
92186878|NCT02516202|184272077|SUPERIORITY|||||||0.64||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.64
92301558|NCT00359788|184508293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|||<|0.0001||95.0|-0.449|-0.29|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.29|-0.449|<0.0001
92301559|NCT00359788|184508294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.356|||<|0.0001||95.0|-0.44|-0.272|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.272|-0.44|<0.0001
92301560|NCT00359788|184508295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.357|||<|0.0001||95.0|-0.451|-0.264|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.264|-0.451|<0.0001
92301561|NCT00359788|184508296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.285|||<|0.0001||95.0|-0.376|-0.194|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.194|-0.376|<0.0001
92186879|NCT02516202|184272077|SUPERIORITY|||||||0.17||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.17
92186880|NCT02516202|184272079|SUPERIORITY|||||||0.02||||||p-value calculation includes 195 participants with known responses at week 12.|Chi-squared|||||||0.02
92186881|NCT02516202|184272080|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92186882|NCT02516202|184272080|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.60
92186883|NCT02516202|184272081|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92186884|NCT02516202|184272081|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
92186885|NCT02841449|184272082|OTHER|||||||0.886|||||||t-test, 2 sided|paired sample||||||0.886
92186886|NCT02841449|184272082|OTHER|||||||0.43||||||The above is the trial\*time interaction. trial, p = 0.627; time, p \< 0.001|ANOVA|repeated measures||||||0.430
92301562|NCT00359788|184508297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.0003||95.0|-0.261|-0.079|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.079|-0.261|0.0003
92301563|NCT00359788|184508298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.2992||95.0|-0.143|0.044|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.044|-0.143|0.2992
92301564|NCT00359788|184508299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081||||0.0984||95.0|-0.015|0.177|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.177|-0.015|0.0984
92301565|NCT00359788|184508300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|||<|0.0001||95.0|0.178|0.379|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.379|0.178|<0.0001
92186887|NCT02841449|184272083|OTHER|||||||0.369|||||||t-test, 2 sided|paired samples||||||0.369
92186888|NCT02841449|184272083|OTHER|||||||0.859||||||The above is the trial\*time interaction. trial p = 0.200; time p \< 0.001|ANOVA|repeated measures||||||0.859
92186889|NCT02841449|184272084|OTHER||||||<|0.001|||||||t-test, 2 sided|paired samples||||||<0.001
92186890|NCT02841449|184272084|OTHER|||||||0.261||||||The above is the trial\*time interaction. trial p = 0.002; time p = 0.282|ANOVA|repeated measures||||||0.261
92186891|NCT02841449|184272085|OTHER|||||||0.736|||||||t-test, 2 sided|paired samples||||||0.736
92186892|NCT02841449|184272086|OTHER|||||||0.542|||||||t-test, 2 sided|paired samples||||||0.542
92186893|NCT02841449|184272087|OTHER|||||||0.4|||||||t-test, 2 sided|paired samples||||||0.400
92186894|NCT02841449|184272088|OTHER|||||||0.646|||||||ANOVA|repeated measures||Visual analogue scale for thirst||||0.646
92186895|NCT02841449|184272088|OTHER|||||||0.403|||||||ANOVA|repeated measures||visual analogue scale for desire for savoury||||0.403
92186896|NCT02841449|184272088|OTHER|||||||0.022|||||||ANOVA|repeated measures||visual analogue scale for desire for salt||||0.022
92301566|NCT00359788|184508301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.189||||0.0004||95.0|-0.293|-0.086|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.086|-0.293|0.0004
92301567|NCT00359788|184508302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.204||||0.0003||95.0|-0.314|-0.095|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.095|-0.314|0.0003
92301568|NCT00359788|184508303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1832||||0.012||95.0|-0.293|-0.072|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.072|-0.293|0.012
92301569|NCT00359788|184508304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.097||||0.044||95.0|-0.219|0.003|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.003|-0.219|0.044
92301570|NCT00359788|184508305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.3634||95.0|-0.058|0.158|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.158|-0.058|0.3634
92301571|NCT00359788|184508306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.163||||0.0032||95.0|0.055|0.27|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.27|0.055|0.0032
92301572|NCT00359788|184508307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.275|||<|0.0001||95.0|0.173|0.378|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.378|0.173|<0.0001
92301573|NCT00359788|184508308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175||||0.0015||95.0|0.067|0.283|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.283|0.067|0.0015
92301574|NCT00359788|184508309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.193||||0.0002||95.0|-0.296|-0.091|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.091|-0.296|0.0002
92301575|NCT00359788|184508310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.215|||<|0.0001||95.0|-0.323|-0.108|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.108|-0.323|<0.0001
92301576|NCT00359788|184508311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.198||||0.0006||95.0|-0.309|-0.086|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.086|-0.309|0.0006
92301577|NCT00359788|184508312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.097||||0.0896||95.0|-0.21|0.015|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.015|-0.21|0.0896
92186897|NCT02841449|184272088|OTHER|||||||0.849|||||||ANOVA|repeated measures||visual analogue scale for hunger||||0.849
92186898|NCT02841449|184272088|OTHER|||||||0.062|||||||ANOVA|repeated measures||visual analogue scale for fullness||||0.062
92186899|NCT02841449|184272088|OTHER|||||||0.549|||||||ANOVA|repeated measures||visual analogue scale for how much participants felt they could eat||||0.549
92186900|NCT02841449|184272088|OTHER|||||||0.402|||||||ANOVA|repeated measures||visual analogue scale for sweet desire||||0.402
92186901|NCT02841449|184272088|OTHER|||||||0.138|||||||ANOVA|repeated measures||visual analogue scale for fatty food desire||||0.138
92186902|NCT02841449|184272089|OTHER|||||||0.055||||||Above is trial\*time effect. trial p = 0.135; time p = 0.011|ANOVA|repeated measures||||||0.055
92186903|NCT02841449|184272090|OTHER|||||||0.226|||||||t-test, 2 sided|paired sample||||||0.226
92186904|NCT02841449|184272091|OTHER||||||<|0.001|||||||t-test, 2 sided|paired samples||||||< 0.001
92186905|NCT00946998|184272168|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||||||0.82
92186906|NCT00946998|184272169|SUPERIORITY|||||||0.28||||||Represents the response outcome.|Mixed Models Analysis|||||||0.28
92186907|NCT00946998|184272169|SUPERIORITY|||||||0.86||||||Represents remission outcome.|Mixed Models Analysis|||||||0.86
92186908|NCT00946998|184272170|SUPERIORITY|||||||0.32|||||||Mixed Models Analysis|||||||0.32
92301578|NCT00359788|184508313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008||||0.8937||95.0|-0.103|0.118|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.118|-0.103|0.8937
92186909|NCT00946998|184272171|SUPERIORITY|||||||0.61|||||||Mixed Models Analysis|||||||0.61
92186910|NCT00946998|184272172|SUPERIORITY||||||>|0.99||||||For death|Chi-squared|||||||>.99
92186911|NCT00946998|184272172|SUPERIORITY|||||||0.77||||||For comparison of dialysis initiation between groups.|Chi-squared|||||||0.77
92186912|NCT00946998|184272172|SUPERIORITY||||||>|0.99||||||Hospitalization other than dialysis initiation|Chi-squared|||||||>0.99
92186913|NCT00946998|184272172|SUPERIORITY|||||||0.5||||||For comparison of acute suicidal intent.|Chi-squared|||||||0.5
92186914|NCT00946998|184272172|SUPERIORITY||||||>|0.99||||||For comparison of bleeding requiring blood transfusion or hospitalization.|Chi-squared|||||||>0.99
92186915|NCT00674609|184272203|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-0.67||||0.014|TWO_SIDED|95.0|-1.21|-0.14|||ANCOVA|||The change in mean pain NRS score (average pain) was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and region and treatment group as factors. The null hypothesis was that of no treatment difference.||-0.14|-1.21|0.014
92186916|NCT00674609|184272203|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.32||||0.244|TWO_SIDED|95.0|-0.86|0.22|||ANCOVA|||The change in mean pain NRS score (average pain) was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and region and treatment group as factors. The null hypothesis was that of no treatment difference.||0.22|-0.86|0.244
92186917|NCT00674609|184272204|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.31||||0.346|TWO_SIDED|95.0|-0.97|0.34|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||0.34|-0.97|0.346
92186918|NCT00674609|184272204|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.02||||0.95|TWO_SIDED|95.0|-0.64|0.68|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||0.68|-0.64|0.95
92186919|NCT00674609|184272205|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.49||||0.11|TWO_SIDED|95.0|-0.11|1.09|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.09|-0.11|0.11
92301579|NCT00359788|184508314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125||||0.0269||95.0|0.014|0.236|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.236|0.014|0.0269
92301580|NCT00359788|184508315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223||||0.0001||95.0|0.111|0.335|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.335|0.111|0.0001
92301581|NCT00359788|184508316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042||||0.7196||95.0|-0.275|0.19|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.19|-0.275|0.7196
92301582|NCT00359788|184508317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.069||||0.6189||95.0|-0.343|0.205|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.205|-0.343|0.6189
92301583|NCT00359788|184508318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.073||||0.6197||95.0|-0.36|0.215|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.215|-0.36|0.6197
92301584|NCT00359788|184508319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.112||||0.4582||95.0|-0.408|0.184|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.184|-0.408|0.4582
92301585|NCT00359788|184508320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.6538||95.0|-0.376|0.236|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.236|-0.376|0.6538
92301586|NCT00359788|184508321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.145||||0.4145||95.0|-0.495|0.205|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.205|-0.495|0.4145
92301587|NCT00359788|184508322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.085||||0.6048||95.0|-0.408|0.238|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.238|-0.408|0.6048
92301588|NCT00359788|184508323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.3137||95.0|-0.503|0.162|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.162|-0.503|0.3137
92301589|NCT00359788|184508324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.061||||0.7195||95.0|-0.395|0.273|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.273|-0.395|0.7195
92301590|NCT00359788|184508325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.043||||0.7947||95.0|-0.367|0.282|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.282|-0.367|0.7947
92301591|NCT00359788|184508326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.093||||0.6049||95.0|-0.446|0.26|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.26|-0.446|0.6049
92186920|NCT00674609|184272205|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.46||||0.126|TWO_SIDED|95.0|-0.13|1.05|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.05|-0.13|0.126
92186921|NCT00674609|184272206|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.65||||0.045|TWO_SIDED|95.0|0.01|1.28|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.28|0.01|0.045
92301592|NCT00359788|184508327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.047||||0.8109||95.0|-0.437|0.342|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.342|-0.437|0.8109
92301593|NCT00359788|184508328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.527||||0.1471||95.0|-0.186|1.24|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||1.24|-0.186|0.1471
92301594|NCT00359788|184508329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265||||0.3192||95.0|-0.258|0.788|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.788|-0.258|0.3192
92301595|NCT00359788|184508330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.351||||0.182||95.0|-0.165|0.867|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.867|-0.165|0.182
92301596|NCT00359788|184508331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.363||||0.1777||95.0|-0.166|0.893|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.893|-0.166|0.1777
92301597|NCT00359788|184508332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.363||||0.1805||95.0|-0.169|0.895|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.895|-0.169|0.1805
92301598|NCT00359788|184508333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.372||||0.1777||95.0|-0.17|0.913|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.913|-0.17|0.1777
92301599|NCT00359788|184508334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159||||0.5725||95.0|-0.395|0.714|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.714|-0.395|0.5725
92301600|NCT00359788|184508335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121||||0.6765||95.0|-0.449|0.69|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.69|-0.449|0.6765
92301601|NCT00359788|184508336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.247||||0.3943||95.0|-0.323|0.818|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.818|-0.323|0.3943
92301602|NCT00359788|184508337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.291||||0.3091||95.0|-0.271|0.852|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.852|-0.271|0.3091
92301603|NCT00359788|184508338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.317||||0.2911||95.0|-0.273|0.907|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.907|-0.273|0.2911
92301604|NCT00359788|184508339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108||||0.7458||95.0|-0.549|0.766|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.766|-0.549|0.7458
92301605|NCT00359788|184508340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.698||||0.0004||95.0|4.836|16.56|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||16.56|4.836|0.0004
92301606|NCT00359788|184508341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.257||||0.0023||95.0|4.055|18.458|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||18.458|4.055|0.0023
92301607|NCT00359788|184508342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.772||||0.0015||95.0|4.942|20.602|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||20.602|4.942|0.0015
92301608|NCT00359788|184508343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.568||||0.0013||95.0|5.342|21.795|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||21.795|5.342|0.0013
92301609|NCT00359788|184508344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.052||||0.005||95.0|3.676|20.428|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||20.428|3.676|0.005
92301610|NCT00359788|184508345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.107||||0.0159||95.0|2.095|20.119|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||20.119|2.095|0.0159
92301611|NCT00359788|184508346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.057||||0.0219||95.0|1.613|20.501|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||20.501|1.613|0.0219
92301612|NCT00359788|184508347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.655||||0.0048||95.0|4.207|23.104|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||23.104|4.207|0.0048
92301613|NCT00359788|184508348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.231||||0.0058||95.0|4.153|24.31|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||24.31|4.153|0.0058
92186922|NCT00674609|184272206|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.62||||0.053|TWO_SIDED|95.0|-0.01|1.25|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.25|-0.01|0.053
92186923|NCT00674609|184272207|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|0.83||||0.016|TWO_SIDED|95.0|0.16|1.51|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.51|0.16|0.016
92186924|NCT00674609|184272207|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.66||||0.056|TWO_SIDED|95.0|-0.02|1.33|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.33|-0.02|0.056
92186925|NCT00674609|184272208|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.68||||0.021|TWO_SIDED|95.0|0.1|1.25|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.25|0.10|0.021
92186926|NCT00674609|184272208|SUPERIORITY_OR_OTHER_LEGACY||Estimated treatment difference|0.64||||0.028|TWO_SIDED|95.0|0.07|1.22|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.22|0.07|0.028
92186927|NCT00674609|184272209|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|2.47||||0.443|TWO_SIDED|95.0|-3.87|8.81|||ANCOVA|||Analysis of the change from baseline was assessed using ANCOVA, adjusting for the effects of the baseline value. The significance of the treatment effect, after adjusting for the baseline value, was assessed using the F-test from the ANCOVA. If found significant at the 5% level, then the mean difference between treatments together with 95% CI were presented.||8.81|-3.87|0.443
92186928|NCT00674609|184272209|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|0.84||||0.793|TWO_SIDED|95.0|-5.46|7.13|||ANCOVA|||Analysis of the change from baseline was assessed using ANCOVA, adjusting for the effects of the baseline value. The significance of the treatment effect, after adjusting for the baseline value, was assessed using the F-test from the ANCOVA. If found significant at the 5% level, then the mean difference between treatments together with 95% CI were presented.||7.13|-5.46|0.793
92186929|NCT00674609|184272210|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.04||||0.619|TWO_SIDED|95.0|-5.23|3.15|||ANCOVA|||Change in pain scores on-treatment were be compared between groups using analysis of covariance (ANCOVA). The baseline pain score was fitted as a covariate in the model. The significance of the treatment effect after adjusting for baseline pain score was assessed using the F-test from the ANCOVA. If this was significant at the 5% level, then the mean difference between treatments together with the 95% confidence interval was presented for Sativex versus placebo and THC versus placebo.||3.15|-5.23|0.619
92186930|NCT00674609|184272210|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-4.07||||0.048|TWO_SIDED|95.0|-8.1|-0.05|||ANCOVA|||Change in pain scores on-treatment were be compared between groups using analysis of covariance (ANCOVA). The baseline pain score was fitted as a covariate in the model. The significance of the treatment effect after adjusting for baseline pain score was assessed using the F-test from the ANCOVA. If this was significant at the 5% level, then the mean difference between treatments together with the 95% confidence interval was presented for Sativex versus placebo and THC versus placebo.||-0.05|-8.10|0.048
92186931|NCT00674609|184272211|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-0.04||||0.688|TWO_SIDED|95.0|-0.25|0.16|||Regression, Logistic|||The on-treatment data was calculated from all available data during the last three days. The number of days the escape medication was used out of the last three days taken in the study was compared between treatments using logistic regression with a cumulative logit model. From this analysis the frequency distribution (%) of number days escape medication was used was presented together with the odds ratio, p-value and 95% CI for the treatment contrasts.||0.16|-0.25|0.688
92301614|NCT00359788|184508349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.597||||0.0248||95.0|1.483|21.71|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||21.71|1.483|0.0248
92186932|NCT00674609|184272211|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.01||||0.899|TWO_SIDED|95.0|-0.19|0.22|||Regression, Logistic|||The on-treatment data was calculated from all available data during the last three days. The number of days the escape medication was used out of the last three days taken in the study was compared between treatments using logistic regression with a cumulative logit model. From this analysis the frequency distribution (%) of number days escape medication was used was presented together with the odds ratio, p-value and 95% CI for the treatment contrasts.||0.22|-0.19|0.899
92301615|NCT00359788|184508350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.001||||0.0325||95.0|0.924|21.079|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||21.079|0.924|0.0325
92301616|NCT00359788|184508351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.074||||0.0153||95.0|2.726|25.422|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||25.422|2.726|0.0153
92301617|NCT00359788|184508352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.755||||0.6105||95.0|-8.532|5.022|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||5.022|-8.532|0.6105
92301618|NCT00359788|184508353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.842||||0.8249||95.0|-6.642|8.326|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||8.326|-6.642|0.8249
92301619|NCT00359788|184508354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.71||||0.4896||95.0|-5.001|10.421|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||10.421|-5.001|0.4896
92301620|NCT00359788|184508355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.898||||0.0935||95.0|-1.172|14.968|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||14.968|-1.172|0.0935
92301621|NCT00359788|184508356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.419||||0.4339||95.0|-5.17|12.007|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||12.007|-5.17|0.4339
92301622|NCT00359788|184508357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.971||||0.845||95.0|-10.74|8.799|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||8.799|-10.74|0.845
92301623|NCT00359788|184508358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.194||||0.9696||95.0|-9.811|10.199|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||10.199|-9.811|0.9696
92186933|NCT00234832|184272283|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.162||||0.015|TWO_SIDED|95.0|1.029|1.311||No adjustment for multiple testing or interim analysis was performed. The primary outcome was tested at a 2-sided alpha level of 0.05.|Log Rank||The Cox model included factors for treatment, country, gender, and age (continuous) at Lead-in Period baseline. For the calculation of risk, the sibutramine arm is the numerator and the placebo arm is the denominator.|For the sample size calculation, a two-tailed alpha level of 0.05 was used along with power of 90%. The annual composite event rate in the placebo arm was assumed to be 7.0%. A sample of 3983 subjects in each of the 2 groups, corrected for a 30% noncompliance rate (15% in Year 1 and 6.3% in each year, Years 2 to 4), followed for at least 3 years was expected to have 90% power to detect a relative risk reduction of 15% with sibutramine relative to placebo.||1.311|1.029|0.015
92186934|NCT00234832|184272283|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.01||||0.948|TWO_SIDED|95.0|0.738|1.384|||Log Rank|||This analysis included only subjects with DM only in a comparison of sibutramine and placebo.||1.384|0.738|0.948
92186935|NCT00234832|184272283|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.276||||0.149|TWO_SIDED|95.0|0.916|1.776|||Log Rank|||This analysis included only subjects with CV only in a comparison of sibutramine and placebo.||1.776|0.916|0.149
92186936|NCT00234832|184272283|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.182||||0.022|TWO_SIDED|95.0|1.024|1.365|||Log Rank|||This analysis included only subjects with CV + DM in a comparison of sibutramine and placebo.||1.365|1.024|0.022
92186937|NCT00234832|184272284|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.043||||0.543|TWO_SIDED|95.0|0.91|1.196|||Log Rank|||||1.196|0.910|0.543
92186938|NCT00234832|184272285|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.097||||0.051|TWO_SIDED|95.0|0.999|1.204|||Log Rank|||||1.204|0.999|0.051
92301624|NCT00359788|184508359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.129||||0.3252||95.0|-5.117|15.376|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||15.376|-5.117|0.3252
92301625|NCT00359788|184508360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.062||||0.452||95.0|-6.558|14.683|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||14.683|-6.558|0.452
92301626|NCT00359788|184508361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.14||||0.4388||95.0|-6.372|14.651|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||14.651|-6.372|0.4388
92301627|NCT00359788|184508362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.185||||0.8288||95.0|-9.595|11.964|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||11.964|-9.595|0.8288
92301628|NCT00359788|184508363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.204||||0.4929||95.0|-7.857|16.264|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||16.264|-7.857|0.4929
92301629|NCT00359788|184508364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204||||0.0754||95.0|-0.021|0.429|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.429|-0.021|0.0754
92301630|NCT00359788|184508365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251||||0.0765||95.0|-0.027|0.528|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.528|-0.027|0.0765
92301631|NCT00359788|184508366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151||||0.163||95.0|-0.061|0.363|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.363|-0.061|0.163
92301632|NCT00359788|184508367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.285||||0.0085||95.0|0.073|0.496|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.496|0.073|0.0085
92301633|NCT02220725|184508373|SUPERIORITY||Hodges-Lehman estimate of shift|-70.14|||<|0.0001|TWO_SIDED|95.0|-85.43|-65.91|||2-sided test exact Wilcoxon rank-sum tes|||||-65.91|-85.43|<0.0001
92301634|NCT02220725|184508373|SUPERIORITY||Hodges-Lehman estimate of shift|-51.87|||<|0.0001|TWO_SIDED|95.0|-57.95|-47.03|||2-sided test exact Wilcoxon rank-sum tes|||||-47.03|-57.95|<0.0001
92301635|NCT02220725|184508374|SUPERIORITY||Hodges-Lehman estimate of shift|-74.45|||<|0.0001|TWO_SIDED|95.0|-78.92|-64.45|||2-sided test exact Wilcoxon rank-sum tes|||||-64.45|-78.92|<0.0001
92186939|NCT00234832|184272286|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.276||||0.022|TWO_SIDED|95.0|1.036|1.571|||Log Rank|||||1.571|1.036|0.022
92301636|NCT02220725|184508376|SUPERIORITY||Hodges-Lehmann Estimate of Shift|-18.0|||<|0.0001|TWO_SIDED|95.0|-23.05|-12.73|||2-sided test exact Wilcoxon rank-sum tes|||||-12.73|-23.05|<0.0001
92301637|NCT02220725|184508377|SUPERIORITY||Hodges-Lehman estimate of shift|1142.66|||<|0.0001|TWO_SIDED|95.0|1006.1|1281.4|||2-sided test exact Wilcoxon rank-sum tes|||||1281.40|1006.10|<0.0001
92301638|NCT02220725|184508377|SUPERIORITY||Hodges-Lehman estimate of shift|1205.05|||<|0.0001|TWO_SIDED|95.0|1034.17|1400.79|||2-sided test exact Wilcoxon rank-sum tes|||||1400.79|1034.17|<0.0001
92301639|NCT01673698|184508379|SUPERIORITY_OR_OTHER|||||||0.0041|TWO_SIDED||||||t-test, 1 sided|||||||0.0041
92301640|NCT01673698|184508380|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 1 sided|||||||<0.0001
92301641|NCT01673698|184508381|SUPERIORITY_OR_OTHER|||||||0.561|TWO_SIDED||||||Chi-squared|||||||0.5610
92301642|NCT01583218|184508412|SUPERIORITY||Relative Risk Reduction (RRR)|0.209||||0.038|TWO_SIDED|95.0|0.013|0.366|||Cochran-Mantel-Haenszel|||||0.366|0.013|0.038
92301643|NCT01583218|184508413|SUPERIORITY||Relative Risk Reduction (RRR)|0.216||||0.018|TWO_SIDED|95.0|0.041|0.359|||Cochran-Mantel-Haenszel|||||0.359|0.041|0.018
92301644|NCT01583218|184508414|SUPERIORITY||Relative Risk Reduction (RRR)|0.254||||0.003|TWO_SIDED|95.0|0.092|0.387|||Cochran-Mantel-Haenszel|||||0.387|0.092|0.003
92301645|NCT01583218|184508415|SUPERIORITY|||||||0.554|||||||Chi-squared|||||||0.554
92301646|NCT01583218|184508416|SUPERIORITY||Relative Risk Reduction (RRR)|0.326||||0.092|TWO_SIDED|95.0|-0.069|0.576|||Cochran-Mantel-Haenszel|||||0.576|-0.069|0.092
92301647|NCT01583218|184508417|SUPERIORITY||Relative Risk Reduction (RRR)|0.295||||0.11|TWO_SIDED|95.0|-0.085|0.542|||Cochran-Mantel-Haenszel|||||0.542|-0.085|0.11
92186940|NCT00234832|184272287|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.355||||0.025|TWO_SIDED|95.0|1.038|1.767|||Log Rank|||||1.767|1.038|0.025
92186941|NCT00234832|184272288|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.582||||0.343|TWO_SIDED|95.0|0.613|4.081|||Log Rank|||||4.081|0.613|0.343
92186942|NCT00234832|184272289|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.988||||0.899|TWO_SIDED|95.0|0.822|1.188|||Log Rank|||||1.188|0.822|0.899
92186943|NCT04454125|184272297|SUPERIORITY||Odds Ratio (OR)|0.61||||0.32|TWO_SIDED|95.0|0.23|1.61|||Generalized linear model, repeat measure|Generalized linear model (GLM) fitted with binomial distribution and logit link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group arm, visit, interaction term (arm\*visit) and adjusting for visit 2 severe asthma exacerbation.|Outcome= severe asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).||1.61|0.23|0.32
92186944|NCT04454125|184272297|SUPERIORITY||Odds Ratio (OR)|0.31||||0.29|TWO_SIDED|95.0|0.03|2.76|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the intervention group (AQI intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit) and adjusting for visit 2 severe asthma exacerbation.|Outcome= severe asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).||2.76|0.03|0.29
92301648|NCT01583218|184508418|SUPERIORITY||Relative Risk Reduction (RRR)|0.358||||0.039|TWO_SIDED|95.0|0.02|0.58|||Cochran-Mantel-Haenszel|||||0.580|0.020|0.039
92301649|NCT03182582|184508419|SUPERIORITY|||||||0.003|||||||Paired t test|||A sample size of 22 patients was required to achieve 80% power, using a two-tailed test with α = 0.05.||||0.003
92301650|NCT01232491|184508428|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.49||||0.132||95.0|-0.15|1.13||If the p-value for the two-sided test was less than 5%, and D (the estimated treatment difference \[dietary intervention versus no dietary intervention\]) was less than 0 then superiority for dietary intervention was considered confirmed.|Regression, Linear|||Normal linear regression model with treatment, strata, use of insulin secretagogue at screening, sex and region as factors and age and weight at baseline as covariates. Superiority was considered confirmed if the upper bound of the two-sided 95% CI for the estimated treatment difference (dietary intervention versus no dietary intervention), which was calculated using the FAS, was below 0 kg.||1.13|-0.15|0.132
92301651|NCT01232491|184508429|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.17||||0.137||95.0|-0.05|0.39|||Regression, Linear|||Normal linear regression model with treatment, use of insulin secretagogue at screening, sex and region as factors, and age and BMI at baseline as covariates.||0.39|-0.05|0.137
92301652|NCT01232491|184508430|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.13||||0.053||95.0|0.0|0.26|||Regression, Linear|||Normal linear regression model with treatment, strata, use of insulin secretagogue at screening and region as factors and HbA1c at baseline as covariate.||0.26|-0.00|0.053
92301653|NCT01232491|184508431|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.07||||0.674||95.0|-0.25|0.39|||Regression, Linear|||Normal linear regression model with treatment, strata, use of insulin secretagogue at screening and region as factors and FPG at baseline as covariate.||0.39|-0.25|0.674
92301654|NCT00856973|184508504|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|7.33|STANDARD_ERROR_OF_MEAN|3.91|>|0.05|TWO_SIDED|97.5|-5.17|19.83|||ANCOVA|Bonferroni adjustment was use for multiple comparisons|Difference calculated as Eszopiclone minus placebo|This endpoint was analyzed using ANCOVA with treatment group (pooled low dose eszopiclone, pooled high dose eszopiclone, and placebo) as a fixed effect and the baseline value as a covariate. Contrast statements were used to perform pairwise comparisons of the eszopiclone treatment groups to placebo. A Bonferroni adjustment was used for the 2 pairwise comparisons. Least squares means and the standard errors were presented for each treatment grou||19.83|-5.17|>0.05
92301655|NCT00856973|184508504|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|2.21|STANDARD_ERROR_OF_MEAN|3.91|>|0.05|TWO_SIDED|97.5|-10.23|14.65|||ANCOVA|||This endpoint was analyzed using ANCOVA with treatment group (pooled low dose eszopiclone, pooled high dose eszopiclone, and placebo) as a fixed effect and the baseline value as a covariate. Contrast statements were used to perform pairwise comparisons of the eszopiclone treatment groups to placebo. A Bonferroni adjustment was used for the 2 pairwise comparisons. Least squares means and the standard errors were presented for each treatment group.||14.65|-10.23|>0.05
92301656|NCT02944383|184508577|SUPERIORITY||Median Difference (Net)|-19.02||||0.0063|TWO_SIDED|95.0|-33.07|-4.25|||Ranked ANCOVA|Randomized treatment group \& randomized baseline statin (yes or no) are included as factors, \& outcome (ranked) at baseline is included as covariate.|Estimates generated from Hodges-Lehmann method.|||-4.25|-33.07|0.0063
92301657|NCT02944383|184508577|SUPERIORITY||Median Difference (Net)|-7.63||||0.235|TWO_SIDED|95.0|-25.88|7.05|||Ranked ANCOVA|Randomized treatment group \& randomized baseline statin (yes or no) are included as factors, \& outcome (ranked) at baseline is included as covariate.|Estimates generated from Hodges-Lehmann method.|||7.05|-25.88|0.2350
92301658|NCT02944383|184508578|OTHER|||||||0.1663||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1663
92301659|NCT02944383|184508578|SUPERIORITY|||||||0.6195||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.6195
92301660|NCT02944383|184508578|SUPERIORITY|||||||0.0436||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0436
92301661|NCT02944383|184508578|SUPERIORITY|||||||0.5||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.5000
92301662|NCT02944383|184508578|SUPERIORITY|||||||0.0007||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0007
92301663|NCT02944383|184508578|SUPERIORITY|||||||0.1161||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1161
92301664|NCT02944383|184508578|SUPERIORITY|||||||0.183||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1830
92301665|NCT02944383|184508578|SUPERIORITY|||||||0.8762||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.8762
92186945|NCT04454125|184272297|SUPERIORITY||Odds Ratio (OR)|0.51||||0.58|TWO_SIDED|95.0|0.05|5.68|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link||Outcome= severe asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit) and adjusting for visit 2 severe asthma exacerbation.|5.68|0.05|0.58
92301666|NCT02944383|184508579|SUPERIORITY|||||||0.178||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1780
92301667|NCT02944383|184508579|SUPERIORITY|||||||0.7615||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.7615
92301668|NCT02944383|184508579|SUPERIORITY|||||||0.0162||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0162
92301669|NCT02944383|184508579|SUPERIORITY|||||||0.371||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.3710
92301670|NCT02944383|184508579|SUPERIORITY|||||||0.001||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0010
92301671|NCT02944383|184508579|SUPERIORITY|||||||0.0988||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0988
92301672|NCT02944383|184508579|SUPERIORITY|||||||0.2594||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2594
92301673|NCT02944383|184508579|SUPERIORITY|||||||0.9099||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.9099
92301674|NCT02944383|184508579|SUPERIORITY|||||||0.0219||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0219
92301675|NCT02944383|184508579|SUPERIORITY|||||||0.3494||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.3494
92301676|NCT02944383|184508580|SUPERIORITY|||||||0.0391||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.0391
92301677|NCT02944383|184508580|SUPERIORITY|||||||0.2455||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.2455
92301678|NCT02944383|184508580|SUPERIORITY|||||||0.026||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0260
92301679|NCT02944383|184508580|SUPERIORITY|||||||0.5704||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.5704
92301680|NCT02944383|184508580|SUPERIORITY|||||||0.0009||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0009
92301681|NCT02944383|184508580|SUPERIORITY|||||||0.0846||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0846
92301682|NCT02944383|184508580|SUPERIORITY|||||||0.1763||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1763
92301683|NCT02944383|184508580|SUPERIORITY|||||||0.5576||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.5576
92186946|NCT04454125|184272297|SUPERIORITY||Odds Ratio (OR)|0.5||||0.02|TWO_SIDED|95.0|0.27|0.91|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit) and adjusting for visit 2 moderate asthma exacerbation.|Outcome= moderate asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).||0.91|0.27|0.02
92186947|NCT04454125|184272297|SUPERIORITY||Odds Ratio (OR)|0.23||||0.03|TWO_SIDED|95.0|0.06|0.86|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit) and adjusting for visit 2 moderate asthma exacerbation.|Outcome= moderate asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).||0.86|0.06|0.03
92186948|NCT04454125|184272297|SUPERIORITY||Odds Ratio (OR)|0.47||||0.3|TWO_SIDED|95.0|0.11|1.95|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit) and adjusting for visit 2 moderate asthma exacerbation.|Outcome= moderate asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).||1.95|0.11|0.30
92186949|NCT04454125|184272298|SUPERIORITY||Mean Difference (Net)|0.17||||0.8|TWO_SIDED|95.0|-1.17|1.51|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Asthma Control Test Score. Obtained at all visits.||1.51|-1.17|0.80
92301684|NCT02944383|184508580|SUPERIORITY||Median Difference (Net)|-14.66||||0.0086|TWO_SIDED|95.0|-24.68|-4.39||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-4.39|-24.68|0.0086
92301685|NCT02944383|184508580|SUPERIORITY||Mean Difference (Net)|-5.06||||0.1516|TWO_SIDED|95.0|-15.02|3.64||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||3.64|-15.02|0.1516
92301686|NCT02944383|184508581|SUPERIORITY|||||||0.0386||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.0386
92301687|NCT02944383|184508581|SUPERIORITY|||||||0.1206||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1206
92301688|NCT02944383|184508581|SUPERIORITY|||||||0.0364||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0364
92301689|NCT02944383|184508581|SUPERIORITY|||||||0.4312||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.4312
92301690|NCT02944383|184508581|SUPERIORITY|||||||0.001||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0010
92301691|NCT02944383|184508581|SUPERIORITY|||||||0.0407||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0407
92301692|NCT02944383|184508581|SUPERIORITY|||||||0.1433||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1433
92301693|NCT02944383|184508581|SUPERIORITY|||||||0.2866||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2866
92301694|NCT02944383|184508581|SUPERIORITY|||||||0.0056||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0056
92301695|NCT02944383|184508581|SUPERIORITY|||||||0.0789||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0789
92301696|NCT02944383|184508582|SUPERIORITY|||||||0.0277||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.0277
92301697|NCT02944383|184508582|SUPERIORITY|||||||0.2502||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.2502
92301698|NCT02944383|184508582|SUPERIORITY|||||||0.0161||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0161
92186950|NCT04454125|184272298|SUPERIORITY||Mean Difference (Net)|2.02||||0.001|TWO_SIDED|95.0|0.88|3.15|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Asthma Control Test Score. Obtained at all visits.||3.15|0.88|0.001
92186951|NCT04454125|184272298|SUPERIORITY||Mean Difference (Net)|1.85||||0.04|TWO_SIDED|95.0|0.09|3.61|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Asthma Control Test Score. Obtained at all visits.||3.61|0.09|0.04
92301699|NCT02944383|184508582|SUPERIORITY|||||||0.6567||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.6567
92301700|NCT02944383|184508582|SUPERIORITY|||||||0.001||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0010
92301701|NCT02944383|184508582|SUPERIORITY|||||||0.1257||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1257
92301702|NCT02944383|184508582|SUPERIORITY|||||||0.144||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1440
92301703|NCT02944383|184508582|SUPERIORITY|||||||0.7642||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7642
92301704|NCT02944383|184508582|SUPERIORITY||Median Difference (Net)|-16.4||||0.0107|TWO_SIDED|95.0|-28.31|-4.51||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-4.51|-28.31|0.0107
92301705|NCT02944383|184508582|SUPERIORITY||Median Difference (Net)|-5.32||||0.2466|TWO_SIDED|95.0|-16.73|5.52||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||5.52|-16.73|0.2466
92301706|NCT02944383|184508583|SUPERIORITY|||||||0.0211||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.0211
92301707|NCT02944383|184508583|SUPERIORITY|||||||0.1304||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1304
92301708|NCT02944383|184508583|SUPERIORITY|||||||0.0318||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0318
92301709|NCT02944383|184508583|SUPERIORITY|||||||0.4607||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.4607
92301710|NCT02944383|184508583|SUPERIORITY|||||||0.0012||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0012
92301711|NCT02944383|184508583|SUPERIORITY|||||||0.0592||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0592
92301712|NCT02944383|184508583|SUPERIORITY|||||||0.117||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1170
92301713|NCT02944383|184508583|SUPERIORITY|||||||0.3138||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3138
92301714|NCT02944383|184508583|SUPERIORITY|||||||0.009||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0090
92301715|NCT02944383|184508583|SUPERIORITY|||||||0.1317||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.1317
92186952|NCT04454125|184272298|SUPERIORITY||Mean Difference (Net)|-0.31||||0.7|TWO_SIDED|95.0|-1.87|1.25|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Childhood Asthma Control Test Score. Obtained at all visits.||1.25|-1.87|0.70
92186953|NCT04454125|184272298|SUPERIORITY||Mean Difference (Net)|3.96||||0.14|TWO_SIDED|95.0|-1.27|9.2|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Childhood Asthma Control Test Score. Obtained at all visits.||9.20|-1.27|0.14
92186954|NCT04454125|184272298|SUPERIORITY||Mean Difference (Net)|4.27||||0.13|TWO_SIDED|95.0|-1.19|9.73|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Childhood Asthma Control Test Scores.||9.73|-1.19|0.13
92186955|NCT04454125|184272299|SUPERIORITY||Mean Difference (Net)|0.25||||0.11|TWO_SIDED|95.0|-0.06|0.55|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Pediatric Asthma Quality of Life Questionnaire. Obtained at randomization and exit visits (visit 1 and visit 7).||0.55|-0.06|0.11
92186956|NCT04454125|184272299|SUPERIORITY||Mean Difference (Net)|0.54||||0.002|TWO_SIDED|95.0|0.2|0.88|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Pediatric Asthma Quality of Life Questionnaire. Obtained at randomization and exit visits (visit 1 and visit 7).||0.88|0.20|0.002
92301716|NCT02944383|184508584|SUPERIORITY|||||||0.2395||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.2395
92301717|NCT02944383|184508584|SUPERIORITY|||||||0.638||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.6380
92301718|NCT02944383|184508584|SUPERIORITY|||||||0.7468||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.7468
92301719|NCT02944383|184508584|SUPERIORITY|||||||0.8483||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.8483
92301720|NCT02944383|184508584|SUPERIORITY|||||||0.0008||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0008
92301721|NCT02944383|184508584|SUPERIORITY|||||||0.0938||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0938
92301722|NCT02944383|184508584|SUPERIORITY|||||||0.3201||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3201
92301723|NCT02944383|184508584|SUPERIORITY|||||||0.901||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.9010
92301724|NCT02944383|184508584|SUPERIORITY||Median Difference (Net)|-19.31||||0.0156|TWO_SIDED|95.0|-39.06|-1.49||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-1.49|-39.06|0.0156
92301725|NCT02944383|184508584|SUPERIORITY||Median Difference (Net)|-5.98||||0.3456|TWO_SIDED|95.0|-28.51|17.26||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||17.26|-28.51|0.3456
92301726|NCT02944383|184508585|SUPERIORITY|||||||0.3714||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.3714
92301727|NCT02944383|184508585|SUPERIORITY|||||||0.4415||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.4415
92301728|NCT02944383|184508585|SUPERIORITY|||||||0.7902||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.7902
92301729|NCT02944383|184508585|SUPERIORITY|||||||0.6999||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.6999
92301730|NCT02944383|184508585|SUPERIORITY|||||||0.0015||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0015
92301731|NCT02944383|184508585|SUPERIORITY|||||||0.0796||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0796
92186957|NCT04454125|184272299|SUPERIORITY||Mean Difference (Net)|0.3||||0.2|TWO_SIDED|95.0|-0.16|0.75|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Pediatric Asthma Quality of Life Questionnaire. Obtained at randomization and exit visits (visit 1 and visit 7).||0.75|-0.16|0.20
92301732|NCT02944383|184508585|SUPERIORITY|||||||0.4225||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4225
92301733|NCT02944383|184508585|SUPERIORITY|||||||0.7687||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7687
92301734|NCT02944383|184508585|SUPERIORITY|||||||0.0437||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0437
92301735|NCT02944383|184508585|SUPERIORITY|||||||0.2735||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.2735
92301736|NCT02944383|184508586|SUPERIORITY|||||||0.1042||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1042
92301737|NCT02944383|184508586|SUPERIORITY|||||||0.6204||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.6204
92301738|NCT02944383|184508586|SUPERIORITY|||||||0.8659||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.8659
92301739|NCT02944383|184508586|SUPERIORITY|||||||0.9658||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.9658
92301740|NCT02944383|184508586|SUPERIORITY|||||||0.8238||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.8238
92301741|NCT02944383|184508586|SUPERIORITY|||||||0.4874||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4874
92301742|NCT02944383|184508586|SUPERIORITY|||||||0.9467||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.9467
92301743|NCT02944383|184508586|SUPERIORITY|||||||0.7467||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7467
92301744|NCT02944383|184508586|SUPERIORITY||Median Difference (Net)|-0.41||||0.9081|TWO_SIDED|95.0|-10.77|10.75||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||10.75|-10.77|0.9081
92301745|NCT02944383|184508586|SUPERIORITY||Median Difference (Net)|-2.38||||0.548|TWO_SIDED|95.0|-11.82|6.86||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||6.86|-11.82|0.5480
92301746|NCT02944383|184508587|SUPERIORITY|||||||0.1485||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1485
92301747|NCT02944383|184508587|SUPERIORITY|||||||0.6008||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.6008
92301748|NCT02944383|184508587|SUPERIORITY|||||||0.9409||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.9409
92301749|NCT02944383|184508587|SUPERIORITY|||||||0.9292||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.9292
92301750|NCT02944383|184508587|SUPERIORITY|||||||0.8455||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.8455
92301751|NCT02944383|184508587|SUPERIORITY|||||||0.5256||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.5256
92301752|NCT02944383|184508587|SUPERIORITY|||||||0.9217||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.9217
92301753|NCT02944383|184508587|SUPERIORITY|||||||0.7401||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7401
92301754|NCT02944383|184508587|SUPERIORITY|||||||0.9386||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.9386
92301755|NCT02944383|184508587|SUPERIORITY|||||||0.6352||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.6352
92301756|NCT02944383|184508588|SUPERIORITY|||||||0.0165||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0165
92301757|NCT02944383|184508588|SUPERIORITY|||||||0.3075||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.3075
92301758|NCT02944383|184508588|SUPERIORITY|||||||0.1069||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1069
92301759|NCT02944383|184508588|SUPERIORITY|||||||0.6101||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.6101
92301760|NCT02944383|184508588|SUPERIORITY||Median Difference (Net)|-12.04||||0.0351|TWO_SIDED|95.0|-23.79|-1.08||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-1.08|-23.79|0.0351
92301761|NCT02944383|184508588|SUPERIORITY||Median Difference (Net)|-3.15||||0.3746|TWO_SIDED|95.0|-9.86|4.25||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||4.25|-9.86|0.3746
92301762|NCT02944383|184508589|SUPERIORITY|||||||0.0133||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0133
92301763|NCT02944383|184508589|SUPERIORITY|||||||0.2044||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2044
92301764|NCT02944383|184508589|SUPERIORITY|||||||0.0855||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0855
92186958|NCT04454125|184272300|SUPERIORITY||Odds Ratio (OR)|0.94||||0.87|TWO_SIDED|95.0|0.45|1.96|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported checking the AQI prior to going outside to be active||1.96|0.45|0.87
92301765|NCT02944383|184508589|SUPERIORITY|||||||0.5114||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.5114
92301766|NCT02944383|184508589|SUPERIORITY|||||||0.0289||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0289
92301767|NCT02944383|184508589|SUPERIORITY|||||||0.295||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.2950
92301768|NCT02944383|184508590|SUPERIORITY|||||||0.1992||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1992
92301769|NCT02944383|184508590|SUPERIORITY|||||||0.9945||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.9945
92186959|NCT04454125|184272300|SUPERIORITY||Odds Ratio (OR)|6.89||||0.004|TWO_SIDED|95.0|1.85|25.6|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported checking the AQI prior to going outside to be active||25.6|1.85|0.004
92186960|NCT04454125|184272300|SUPERIORITY||Odds Ratio (OR)|7.31||||0.01|TWO_SIDED|95.0|1.62|32.9|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported checking the AQI prior to going outside to be active||32.9|1.62|0.01
92301770|NCT02944383|184508590|SUPERIORITY|||||||0.5139||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.5139
92301771|NCT02944383|184508590|SUPERIORITY|||||||0.8085||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.8085
92301772|NCT02944383|184508590|SUPERIORITY||Median Difference (Net)|-0.77||||0.7644|TWO_SIDED|95.0|-6.31|4.85||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||4.85|-6.31|0.7644
92301773|NCT02944383|184508590|SUPERIORITY||Mean Difference (Net)|1.33||||0.9499|TWO_SIDED|95.0|-4.34|6.66||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||6.66|-4.34|0.9499
92301774|NCT02944383|184508591|SUPERIORITY|||||||0.1521||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1521
92301775|NCT02944383|184508591|SUPERIORITY|||||||0.8982||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.8982
92301776|NCT02944383|184508591|SUPERIORITY|||||||0.6228||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.6228
92301777|NCT02944383|184508591|SUPERIORITY|||||||0.9622||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.9622
92301778|NCT02944383|184508591|SUPERIORITY|||||||0.6643||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.6643
92301779|NCT02944383|184508591|SUPERIORITY|||||||0.9071||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.9071
92301780|NCT02944383|184508592|SUPERIORITY|||||||0.5647||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.5647
92301781|NCT02944383|184508592|SUPERIORITY|||||||0.1073||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1073
92301782|NCT02944383|184508592|SUPERIORITY|||||||0.3858||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3858
92301783|NCT02944383|184508592|SUPERIORITY|||||||0.0916||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0916
92301784|NCT02944383|184508592|SUPERIORITY||Median Difference (Net)|0.0||||0.9473|TWO_SIDED|95.0|-5.56|5.26||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||5.26|-5.56|0.9473
92301785|NCT02944383|184508592|SUPERIORITY||Median Difference (Net)|4.54||||0.0911|TWO_SIDED|95.0|-1.83|9.95||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||9.95|-1.83|0.0911
92301786|NCT02944383|184508593|SUPERIORITY|||||||0.4623||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4623
92301787|NCT02944383|184508593|SUPERIORITY|||||||0.1678||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1678
92301788|NCT02944383|184508593|SUPERIORITY|||||||0.439||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4390
92301789|NCT02944383|184508593|SUPERIORITY|||||||0.129||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1290
92301790|NCT02944383|184508593|SUPERIORITY|||||||0.9627||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.9627
92301791|NCT02944383|184508593|SUPERIORITY|||||||0.0911||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0911
92301792|NCT02944383|184508594|SUPERIORITY|||||||0.2882||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2882
92301793|NCT02944383|184508594|SUPERIORITY|||||||0.4474||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4474
92301794|NCT02944383|184508594|SUPERIORITY|||||||0.7875||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7875
92301795|NCT02944383|184508594|SUPERIORITY|||||||0.06||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0600
92301796|NCT02944383|184508594|SUPERIORITY||Median Difference (Net)|0.0||||0.9832|TWO_SIDED|95.0|0.0|0.0||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||0.00|0.00|0.9832
92301797|NCT02944383|184508594|SUPERIORITY||Median Difference (Net)|0.0||||0.1352|TWO_SIDED|95.0|0.0|0.0||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||0.00|0.00|0.1352
92301798|NCT02944383|184508595|SUPERIORITY|||||||0.2857||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|ranked ANCOVA|||Week 10||||0.2857
92301799|NCT02944383|184508595|SUPERIORITY|||||||0.4486||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4486
92301800|NCT02944383|184508595|SUPERIORITY|||||||0.764||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7640
92301801|NCT02944383|184508595|SUPERIORITY|||||||0.056||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0560
92186961|NCT04454125|184272301|SUPERIORITY||Odds Ratio (OR)|0.34||||0.15|TWO_SIDED|95.0|0.08|1.47|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported outdoor activity behavioral change in response to the AQI, obtained at all visits.||1.47|0.08|0.15
92301802|NCT02944383|184508595|SUPERIORITY|||||||0.9954||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.9954
92301803|NCT02944383|184508595|SUPERIORITY|||||||0.1298||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.1298
92301804|NCT02944383|184508596|SUPERIORITY|||||||0.0161||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate|Ranked ANCOVA|||Week 10||||0.0161
92301805|NCT02944383|184508596|SUPERIORITY|||||||0.1806||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate|Ranked ANCOVA|||Week 10||||0.1806
92186962|NCT04454125|184272301|SUPERIORITY||Odds Ratio (OR)|0.96||||0.94|TWO_SIDED|95.0|0.35|2.68|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported outdoor activity behavioral change in response to the AQI, obtained at all visits.||2.68|0.35|0.94
92186963|NCT04454125|184272301|SUPERIORITY||Odds Ratio (OR)|2.79||||0.26|TWO_SIDED|95.0|0.47|16.5|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported outdoor activity behavioral change in response to the AQI, obtained at all visits.||16.5|0.47|0.26
92186964|NCT04454125|184272302|SUPERIORITY||Odds Ratio (OR)|0.42||||0.004|TWO_SIDED|95.0|0.24|0.76|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Obtained at all visits||0.76|0.24|0.004
92186965|NCT04454125|184272302|SUPERIORITY||Odds Ratio (OR)|0.13|||<|0.0001|TWO_SIDED|95.0|0.05|0.31|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Obtained at all visits.||0.31|0.05|<0.0001
92301806|NCT02944383|184508596|SUPERIORITY|||||||0.2657||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate|Ranked ANCOVA|||Week 12||||0.2657
92301807|NCT02944383|184508596|SUPERIORITY|||||||0.5996||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate|Ranked ANCOVA|||Week 12||||0.5996
92301808|NCT02944383|184508596|SUPERIORITY||Median Difference (Net)|-11.39||||0.027|TWO_SIDED|95.0|-28.81|2.08||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||2.08|-28.81|0.0270
92301809|NCT02944383|184508596|SUPERIORITY||Median Difference (Net)|-0.92||||0.5263|TWO_SIDED|95.0|-16.88|15.5||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||15.50|-16.88|0.5263
92301810|NCT02944383|184508597|SUPERIORITY|||||||0.0345||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0345
92301811|NCT02944383|184508597|SUPERIORITY|||||||0.2709||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2709
92301812|NCT02944383|184508597|SUPERIORITY|||||||0.3255||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3255
92301813|NCT02944383|184508597|SUPERIORITY|||||||0.7391||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7391
92301814|NCT02944383|184508597|SUPERIORITY|||||||0.0808||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0808
92301815|NCT02944383|184508597|SUPERIORITY|||||||0.6509||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.6509
92301816|NCT02944383|184508598|SUPERIORITY|||||||0.0004||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0004
92301817|NCT02944383|184508598|SUPERIORITY|||||||0.0412||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0412
92301818|NCT02944383|184508598|SUPERIORITY|||||||0.1937||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1937
92301819|NCT02944383|184508598|SUPERIORITY|||||||0.474||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4740
92301820|NCT02944383|184508598|SUPERIORITY||Median Difference (Net)|-14.32||||0.0116|TWO_SIDED|95.0|-34.13|3.89||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||3.89|-34.13|0.0116
92186966|NCT04454125|184272302|SUPERIORITY||Odds Ratio (OR)|0.29||||0.03|TWO_SIDED|95.0|0.1|0.87|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Obtained at all visits.||0.87|0.10|0.03
92267048|NCT02203305|184435425|SUPERIORITY||||||<|0.183||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effect: interval (p=0.183) and condition (p=0.012). Interaction: interval and condition (p=0.081).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Variable error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.183
92301821|NCT02944383|184508598|SUPERIORITY||Median Difference (Net)|-3.66||||0.1109|TWO_SIDED|95.0|-23.85|14.26||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||14.26|-23.85|0.1109
92301822|NCT02944383|184508599|SUPERIORITY|||||||0.0002||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0002
92301823|NCT02944383|184508599|SUPERIORITY|||||||0.0161||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0161
92301824|NCT02944383|184508599|SUPERIORITY|||||||0.3043||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3043
92301825|NCT02944383|184508599|SUPERIORITY|||||||0.4639||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4639
92301826|NCT02944383|184508599|SUPERIORITY|||||||0.021||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0210
92301827|NCT02944383|184508599|SUPERIORITY|||||||0.0992||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0992
92301828|NCT02944383|184508600|SUPERIORITY|||||||0.1512||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1512
92301829|NCT02944383|184508600|SUPERIORITY|||||||0.84||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.8400
92301830|NCT02944383|184508600|SUPERIORITY|||||||0.0244||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0244
92301831|NCT02944383|184508600|SUPERIORITY|||||||0.1803||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1803
92301832|NCT02944383|184508600|SUPERIORITY||Median Difference (Net)|-24.41||||0.0307|TWO_SIDED|95.0|-42.73|-9.94||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-9.94|-42.73|0.0307
92301833|NCT02944383|184508600|SUPERIORITY||Median Difference (Net)|-8.73||||0.5326|TWO_SIDED|95.0|-23.33|7.68||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||7.68|-23.33|0.5326
92301834|NCT02944383|184508601|SUPERIORITY|||||||0.1705||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1705
92301835|NCT02944383|184508601|SUPERIORITY|||||||0.9193||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.9193
92301836|NCT02944383|184508601|SUPERIORITY|||||||0.0224||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0224
92301837|NCT02944383|184508601|SUPERIORITY|||||||0.2387||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2387
92301838|NCT02944383|184508601|SUPERIORITY|||||||0.06||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0600
92301839|NCT02944383|184508601|SUPERIORITY|||||||0.6878||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.6878
92267049|NCT02203305|184435425|SUPERIORITY||||||<|0.196||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effect: interval (p=0.010) and condition (p=0.100). Interaction: interval and condition (p=0.196).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Variable error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.196
92301840|NCT02944383|184508602|SUPERIORITY|||||||0.0298||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0298
92301841|NCT02944383|184508602|SUPERIORITY|||||||0.0196||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0196
92301842|NCT02944383|184508602|SUPERIORITY|||||||0.2219||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2219
92301843|NCT02944383|184508602|SUPERIORITY|||||||0.4078||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4078
92301844|NCT02944383|184508602|SUPERIORITY||Median Difference (Net)|-15.34||||0.0605|TWO_SIDED|95.0|-31.68|1.3||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||1.30|-31.68|0.0605
92301845|NCT02944383|184508602|SUPERIORITY||Median Difference (Net)|-4.08||||0.1768|TWO_SIDED|95.0|-19.91|7.32||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||7.32|-19.91|0.1768
92301846|NCT02944383|184508603|SUPERIORITY|||||||0.0084||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0084
92301847|NCT02944383|184508603|SUPERIORITY|||||||0.0047||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0047
92301848|NCT02944383|184508603|SUPERIORITY|||||||0.1574||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1574
92301849|NCT02944383|184508603|SUPERIORITY|||||||0.3235||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3235
92301850|NCT02944383|184508603|SUPERIORITY|||||||0.0367||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0367
92301851|NCT02944383|184508603|SUPERIORITY|||||||0.0948||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0948
92186967|NCT02301299|184272303|OTHER|For power calculation, we assumed that the intervention would be almost fully implemented in May 2016 and the early hospital arrival would be observed until Dec 2017. Therefore, a post-intervention period would be 20 months. To have one-third of the study period as an intervention period, we planned to analyze five-year (60-month) data from January 2013 to December 2017.|||||<|0.0001|||||||Regression, Linear|Using the seasonally adjusted time series data, we conducted linear regression analysis for time series data in PROC AUTOREG.||The effect size was defined as the sum of expected slope change in monthly early hospital arrival rate over the standard deviation. Assuming an autocorrelation level of 0.3, both level and trend change effect size of 0.5 would be detectable at 90% power at a significance level of 0.05.|Using SAS PROC TIMESERIES, individual admission data were aggregated into monthly time series data to calculate a monthly early arrival rate. In this procedure, we also generated seasonally adjusted time series data to take into account a seasonal pattern. Using the seasonally adjusted time series data, we conducted linear regression analysis for time series data in PROC AUTOREG. The statistical hypothesis of the regression model was that there are a level change and a slope change after the intervention. In the regression model, we included a time variable to account for a natural trend prior to the intervention introduction (or in absence of the intervention). We assumed that the patient population was stable during the five-year period and no other factors than the intervention affected the outcome; no other potential confounding factors were not considered. A backward elimination was used to correct for autocorrelation. Maximum likelihood method was used to estimate parameters.|||<.0001
92186968|NCT02301299|184272304|OTHER|For power calculation, we assumed that the intervention would be almost fully implemented in May 2016 and the EMS use would be observed until Dec 2017. Therefore, a post-intervention period would be 20 months. To have one-third of the study period as an intervention period, we planned to analyze five-year (60-month) data from January 2013 to December 2017.|||||<|0.0001|||||||Regression, Linear|||The effect size was defined as the sum of expected slope change in monthly EMS use rate over the standard deviation. Assuming an autocorrelation level of 0.3, both level and trend change effect size of 0.5 would be detectable at 90% power at a significance level of 0.05. The effect size is measured in slope of change over time (negative values indicate a decrease while positive values indicate an increase in % EMS use/month).|Using SAS PROC TIMESERIES, individual admission data were aggregated into monthly time series data to calculate a monthly EMS arrival rate. In this procedure, we also generated seasonally adjusted time series data to take into account a seasonal pattern. Using the seasonally adjusted time series data, we conducted linear regression analysis for time series data in PROC AUTOREG. The statistical hypothesis of the regression model was that there are a level change and a slope change after the intervention. In the regression model, we included a time variable to account for a natural trend prior to the intervention introduction (or in absence of the intervention). We assumed that the patient population was stable during the five-year period and no other factors than the intervention affected the outcome; no other potential confounding factors were not considered. A backward elimination was used to correct for autocorrelation. Maximum likelihood method was used to estimate parameters.|||<.0001
92186969|NCT00476151|184272337|SUPERIORITY_OR_OTHER|||||||0.083|TWO_SIDED|95.0|||||ANCOVA|||||||0.083
92301852|NCT02944383|184508604|SUPERIORITY|||||||0.0037||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0037
92301853|NCT02944383|184508604|SUPERIORITY|||||||0.1328||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1328
92186970|NCT02068352|184272340|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|11.93||||0.069|TWO_SIDED|95.0|-0.08|23.95||P-value was derived using Cochran-Mantel-Haenszel (CMH) test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||23.95|-0.08|0.0690
92186971|NCT02068352|184272340|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|18.23||||0.0165|TWO_SIDED|95.0|4.99|31.46||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||31.46|4.99|0.0165
92301854|NCT02944383|184508604|SUPERIORITY|||||||0.4364||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4364
92301855|NCT02944383|184508604|SUPERIORITY|||||||0.8129||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.8129
92301856|NCT02944383|184508604|SUPERIORITY||Median Difference (Net)|-15.29||||0.0347|TWO_SIDED|95.0|-36.54|2.35||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||2.35|-36.54|0.0347
92301857|NCT02944383|184508604|SUPERIORITY||Median Difference (Net)|-2.14||||0.3617|TWO_SIDED|95.0|-25.78|23.62||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||23.62|-25.78|0.3617
92301858|NCT02944383|184508605|SUPERIORITY|||||||0.0085||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0085
92301859|NCT02944383|184508605|SUPERIORITY|||||||0.2112||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2112
92186972|NCT02068352|184272340|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|12.3||||0.0617|TWO_SIDED|95.0|0.06|24.53||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||24.53|0.06|0.0617
92301860|NCT02944383|184508605|SUPERIORITY|||||||0.7301||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7301
92301861|NCT02944383|184508605|SUPERIORITY|||||||0.6283||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.6283
92301862|NCT02944383|184508605|SUPERIORITY|||||||0.0919||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0919
92301863|NCT02944383|184508605|SUPERIORITY|||||||0.5497||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.5497
92301864|NCT02944383|184508606|SUPERIORITY|||||||0.0009||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0009
92301865|NCT02944383|184508606|SUPERIORITY|||||||0.0351||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0351
92186973|NCT02068352|184272341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.47||||0.0128|TWO_SIDED|95.0|-0.84|-0.1|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, and interaction of treatment by visit as terms, Baseline score as a covariate.||||-0.10|-0.84|0.0128
92186974|NCT02068352|184272341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46||||0.0134|TWO_SIDED|95.0|-0.81|-0.1|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||-0.10|-0.81|0.0134
92301866|NCT02944383|184508606|SUPERIORITY|||||||0.1561||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1561
92301867|NCT02944383|184508606|SUPERIORITY|||||||0.0268||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0268
92301868|NCT02944383|184508606|SUPERIORITY||Median Difference (Net)|-22.3||||0.0516|TWO_SIDED|95.0|-42.96|-1.67||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-1.67|-42.96|0.0516
92301869|NCT02944383|184508606|SUPERIORITY||Median Difference (Net)|-13.06||||0.0125|TWO_SIDED|95.0|-32.83|4.88||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||4.88|-32.83|0.0125
92301870|NCT02944383|184508607|SUPERIORITY|||||||0.0023||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0023
92301871|NCT02944383|184508607|SUPERIORITY|||||||0.0356||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0356
92301872|NCT02944383|184508607|SUPERIORITY|||||||0.2284||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2284
92301873|NCT02944383|184508607|SUPERIORITY|||||||0.0213||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0213
92186975|NCT02068352|184272342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.0048|TWO_SIDED|95.0|-0.85|-0.16|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.16|-0.85|0.0048
92301874|NCT02944383|184508607|SUPERIORITY|||||||0.033||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0330
92301875|NCT02944383|184508607|SUPERIORITY|||||||0.0221||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0221
92301876|NCT02944383|184508608|SUPERIORITY||Median Difference (Net)|-2.67||||0.2632|TWO_SIDED|95.0|-10.17|5.67||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|VLDL||5.67|-10.17|0.2632
92186976|NCT02068352|184272342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.0045|TWO_SIDED|95.0|-0.84|-0.16|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.16|-0.84|0.0045
92301877|NCT02944383|184508608|SUPERIORITY||Median Difference (Net)|2.02||||0.5382|TWO_SIDED|95.0|-6.77|9.71||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|VLDL||9.71|-6.77|0.5382
92301878|NCT02944383|184508608|SUPERIORITY||Median Difference (Net)|0.0||||0.1727|TWO_SIDED|95.0|-0.51|1.01||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|LDL||1.01|-0.51|0.1727
92301879|NCT02944383|184508608|SUPERIORITY||Median Difference (Net)|0.0||||0.4567|TWO_SIDED|95.0|-0.51|0.51||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|LDL||0.51|-0.51|0.4567
92301880|NCT02944383|184508608|SUPERIORITY||Median Difference (Net)|0.0||||0.6142|TWO_SIDED|95.0|-1.21|1.47||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|HDL||1.47|-1.21|0.6142
92301881|NCT02944383|184508608|SUPERIORITY||Median Difference (Net)|-0.02||||0.2409|TWO_SIDED|95.0|-2.23|1.29||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|HDL||1.29|-2.23|0.2409
92186977|NCT02068352|184272344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.26||||0.4173|TWO_SIDED|95.0|-8.99|21.52||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||21.52|-8.99|0.4173
92186978|NCT02068352|184272344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.47||||0.4895|TWO_SIDED|95.0|-9.43|20.36||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||20.36|-9.43|0.4895
92186979|NCT02068352|184272344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.19||||0.2677|TWO_SIDED|95.0|-6.74|25.12||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||25.12|-6.74|0.2677
92186980|NCT02068352|184272344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.12||||0.2319|TWO_SIDED|95.0|-5.63|25.87||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||25.87|-5.63|0.2319
92186981|NCT02068352|184272345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.11||||0.3213|TWO_SIDED|95.0|-3.33|1.11|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||1.11|-3.33|0.3213
92301882|NCT02944383|184508609|SUPERIORITY|||||||0.2721||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||VLDL||||0.2721
92301883|NCT02944383|184508609|SUPERIORITY|||||||0.5669||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||VLDL||||0.5669
92301884|NCT02944383|184508609|SUPERIORITY|||||||0.1686||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||LDL||||0.1686
92301885|NCT02944383|184508609|SUPERIORITY|||||||0.4308||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||LDL||||0.4308
92301886|NCT02944383|184508609|SUPERIORITY|||||||0.5495||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||HDL||||0.5495
92301887|NCT02944383|184508609|SUPERIORITY|||||||0.2384||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||HDL||||0.2384
92301888|NCT02944383|184508610|SUPERIORITY||Median Difference (Net)|-13.99||||0.0781|TWO_SIDED|95.0|-33.76|2.55||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|VLDL \& Chylomicron particles||2.55|-33.76|0.0781
92301889|NCT02944383|184508610|SUPERIORITY||Median Difference (Net)|-2.1||||0.9901|TWO_SIDED|95.0|-19.36|19.01||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|VLDL \& Chylomicron particles||19.01|-19.36|0.9901
92301890|NCT02944383|184508610|SUPERIORITY||Median Difference (Net)|-25.23||||0.0717|TWO_SIDED|95.0|-43.62|-5.1||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|LDL Particles||-5.10|-43.62|0.0717
92186982|NCT02068352|184272345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.09||||0.0594|TWO_SIDED|95.0|-4.27|0.08|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||0.08|-4.27|0.0594
92301891|NCT02944383|184508610|SUPERIORITY||Median Difference (Net)|-16.09||||0.1548|TWO_SIDED|95.0|-36.78|3.76||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|LDL Particles||3.76|-36.78|0.1548
92301892|NCT02944383|184508610|SUPERIORITY||Median Difference (Net)|-47.16||||0.0428|TWO_SIDED|95.0|-119.58|-5.78||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|IDL Particles||-5.78|-119.58|0.0428
92301893|NCT02944383|184508610|SUPERIORITY||Median Difference (Net)|-26.13||||0.1836|TWO_SIDED|95.0|-121.44|19.48||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|IDL Particles||19.48|-121.44|0.1836
92301894|NCT02944383|184508611|SUPERIORITY|||||||0.1251||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||VLDL \& Chylomicron Particles||||0.1251
92301895|NCT02944383|184508611|SUPERIORITY|||||||0.9047||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||VLDL \& Chylomicron Particles||||0.9047
92186983|NCT02068352|184272345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.03||||0.396|TWO_SIDED|95.0|-3.43|1.37|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||1.37|-3.43|0.396
92186984|NCT02068352|184272345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.1135|TWO_SIDED|95.0|-4.26|0.46|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||0.46|-4.26|0.1135
92186985|NCT02068352|184272346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.49||||0.1703|TWO_SIDED|95.0|-3.63|0.65|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||0.65|-3.63|0.1703
92186986|NCT02068352|184272346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.56||||0.0176|TWO_SIDED|95.0|-4.67|-0.45|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.45|-4.67|0.0176
92186987|NCT02068352|184272346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.41||||0.2381|TWO_SIDED|95.0|-3.78|0.95|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||0.95|-3.78|0.2381
92301896|NCT02944383|184508611|SUPERIORITY|||||||0.0788||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||LDL Particles||||0.0788
92301897|NCT02944383|184508611|SUPERIORITY|||||||0.1222||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||LDL Particles||||0.1222
92301898|NCT02944383|184508611|SUPERIORITY|||||||0.0734||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||IDL Particles||||0.0734
92301899|NCT02944383|184508611|SUPERIORITY|||||||0.421||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||IDL Particles||||0.4210
92301900|NCT02944383|184508612|SUPERIORITY||Median Difference (Net)|0.43||||0.9672|TWO_SIDED|95.0|-8.12|9.07||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|||9.07|-8.12|0.9672
92301901|NCT02944383|184508612|SUPERIORITY||Median Difference (Net)|1.58||||0.7993|TWO_SIDED|95.0|-5.31|8.69||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|||8.69|-5.31|0.7993
92301902|NCT02944383|184508613|SUPERIORITY|||||||0.8602||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||||||0.8602
92301903|NCT02944383|184508613|SUPERIORITY|||||||0.8555||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||||||0.8555
92301904|NCT02944383|184508614|SUPERIORITY|||||||0.0583||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0583
92186988|NCT02068352|184272346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.36||||0.047|TWO_SIDED|95.0|-4.68|-0.03|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.03|-4.68|0.047
92301905|NCT02944383|184508614|SUPERIORITY|||||||0.2289||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2289
92186989|NCT02068352|184272347|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.8196|TWO_SIDED|95.0|-13.5|10.7|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||10.7|-13.5|0.8196
92186990|NCT02068352|184272347|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.83||||0.0503|TWO_SIDED|95.0|-23.69|0.02|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||0.02|-23.69|0.0503
92301906|NCT02944383|184508614|SUPERIORITY|||||||0.0416||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0416
92301907|NCT02944383|184508614|SUPERIORITY|||||||0.015||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0150
92301908|NCT02944383|184508614|SUPERIORITY||Median Difference (Net)|-26.21||||0.0718|TWO_SIDED|95.0|-54.29|-1.26||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-1.26|-54.29|0.0718
92186991|NCT02068352|184272347|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.68||||0.5902|TWO_SIDED|95.0|-17.22|9.85|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||9.85|-17.22|0.5902
92186992|NCT02068352|184272347|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.42||||0.0482|TWO_SIDED|95.0|-26.73|-0.11|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||-0.11|-26.73|0.0482
92186993|NCT02068352|184272348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.8633|TWO_SIDED|95.0|-12.48|10.48|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||10.48|-12.48|0.8633
92186994|NCT02068352|184272348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.54||||0.0452|TWO_SIDED|95.0|-22.83|-0.25|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.25|-22.83|0.0452
92186995|NCT02068352|184272348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.73||||0.6746|TWO_SIDED|95.0|-15.58|10.12|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||10.12|-15.58|0.6746
92186996|NCT02068352|184272348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.05||||0.0432|TWO_SIDED|95.0|-25.69|-0.4|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.4|-25.69|0.0432
92301909|NCT02944383|184508614|SUPERIORITY||Median Difference (Net)|-18.68||||0.1248|TWO_SIDED|95.0|-50.0|7.31||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||7.31|-50.00|0.1248
92301910|NCT02944383|184508615|SUPERIORITY|||||||0.2397||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2397
92301911|NCT02944383|184508615|SUPERIORITY|||||||0.5399||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.5399
92301912|NCT02944383|184508615|SUPERIORITY|||||||0.0409||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0409
92301913|NCT02944383|184508615|SUPERIORITY|||||||0.0073||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0073
92301914|NCT02944383|184508615|SUPERIORITY|||||||0.0976||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0976
92301915|NCT02944383|184508615|SUPERIORITY|||||||0.1899||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.1899
92301916|NCT02944383|184508616|SUPERIORITY|||||||0.1747||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1747
92301917|NCT02944383|184508616|SUPERIORITY|||||||0.4576||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4576
92301918|NCT02944383|184508616|SUPERIORITY|||||||0.1549||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1549
92301919|NCT02944383|184508616|SUPERIORITY|||||||0.2427||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2427
92301920|NCT02944383|184508616|SUPERIORITY||Median Difference (Net)|1.51||||0.1379|TWO_SIDED|95.0|-6.26|8.73||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||8.73|-6.26|0.1379
92301921|NCT02944383|184508616|SUPERIORITY||Median Difference (Net)|-6.02||||0.249|TWO_SIDED|95.0|-13.1|0.51||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||0.51|-13.10|0.2490
92301922|NCT02944383|184508617|SUPERIORITY|||||||0.155||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1550
92301923|NCT02944383|184508617|SUPERIORITY|||||||0.6604||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.6604
92301924|NCT02944383|184508617|SUPERIORITY|||||||0.0952||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0952
92186997|NCT01767376|184272351|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardised asymptotic 95% confidence interval (CI) for rSBA GMT ratios for serogroup A between the two groups (Nimenrix+Boostrix Group minus Nimenrix Group) being greater than or equal to (≥) the pre-defined limit of 0.5.|Adjusted GMT ratio|1.19|||||TWO_SIDED|95.0|0.97|1.48|||ANCOVA|||To demonstrate the non-inferiority of Nimenrix co-administered with Boostrix (Nimenrix+Boostrix Group) compared to Nimenrix administered alone (Nimenrix Group) with respect to serum bactericidal assay using rabbit complement (rSBA) geometric mean titers (GMTs) for serogroup A, one month after Nimenrix vaccination.||1.48|0.97|
92301925|NCT02944383|184508617|SUPERIORITY|||||||0.3006||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3006
92301926|NCT02944383|184508617|SUPERIORITY|||||||0.0642||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0642
92301927|NCT02944383|184508617|SUPERIORITY|||||||0.3185||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.3185
92301928|NCT02944383|184508618|SUPERIORITY|||||||0.0679||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0679
92301929|NCT02944383|184508618|SUPERIORITY|||||||0.4126||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4126
92301930|NCT02944383|184508618|SUPERIORITY|||||||0.0095||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0095
92301931|NCT02944383|184508618|SUPERIORITY|||||||0.0172||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0172
92301932|NCT02944383|184508618|SUPERIORITY||Median Difference (Net)|-23.23||||0.0359|TWO_SIDED|95.0|-41.54|-3.64||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-3.64|-41.54|0.0359
92301933|NCT02944383|184508618|SUPERIORITY||Median Difference (Net)|-16.06||||0.0812|TWO_SIDED|95.0|-38.62|5.61||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||5.61|-38.62|0.0812
92301934|NCT02944383|184508619|SUPERIORITY|||||||0.1362||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1362
92301935|NCT02944383|184508619|SUPERIORITY|||||||0.6458||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.6458
92301936|NCT02944383|184508619|SUPERIORITY|||||||0.0209||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0209
92186998|NCT01767376|184272351|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardised asymptotic 95% confidence interval (CI) for rSBA GMT ratios for serogroup C between the two groups (Nimenrix+Boostrix Group minus Nimenrix Group) being greater than or equal to (≥) the pre-defined limit of 0.5.|Adjusted GMT ratio|1.12|||||TWO_SIDED|95.0|0.85|1.47|||ANCOVA|||To demonstrate the non-inferiority of Nimenrix co-administered with Boostrix (Nimenrix+Boostrix Group) compared to Nimenrix administered alone (Nimenrix Group) with respect to serum bactericidal assay using rabbit complement (rSBA) geometric mean titers (GMTs) for serogroup C, one month after Nimenrix vaccination.||1.47|0.85|
92186999|NCT01767376|184272351|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardised asymptotic 95% confidence interval (CI) for rSBA GMT ratios for serogroup W-135 between the two groups (Nimenrix+Boostrix Group minus Nimenrix Group) being greater than or equal to (≥) the pre-defined limit of 0.5.|Adjusted GMT ratio|1.06|||||TWO_SIDED|95.0|0.86|1.32|||ANCOVA|||To demonstrate the non-inferiority of Nimenrix co-administered with Boostrix (Nimenrix+Boostrix Group) compared to Nimenrix administered alone (Nimenrix Group) with respect to serum bactericidal assay using rabbit complement (rSBA) geometric mean titers (GMTs) for serogroup W-135, one month after Nimenrix vaccination.||1.32|0.86|
92301937|NCT02944383|184508619|SUPERIORITY|||||||0.0822||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0822
92301938|NCT02944383|184508619|SUPERIORITY|||||||0.0504||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0504
92301939|NCT02944383|184508619|SUPERIORITY|||||||0.1315||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.1315
92187000|NCT01767376|184272351|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardised asymptotic 95% confidence interval (CI) for rSBA GMT ratios for serogroup Y between the two groups (Nimenrix+Boostrix Group minus Nimenrix Group) being greater than or equal to (≥) the pre-defined limit of 0.5.|Adjusted GMT ratio|1.27|||||TWO_SIDED|95.0|1.02|1.59|||ANCOVA|||To demonstrate the non-inferiority of Nimenrix co-administered with Boostrix (Nimenrix+Boostrix Group) compared to Nimenrix administered alone (Nimenrix Group) with respect to serum bactericidal assay using rabbit complement (rSBA) geometric mean titers (GMTs) for serogroup Y, one month after Nimenrix vaccination.||1.59|1.02|
92187001|NCT01767376|184272352|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) between the two groups (Nimenrix+Boostrix Group minus Boostrix Group), in terms of percentage of subjects with anti-D concentrations ≥ 1.0 IU/mL, being greater than or equal to (≥) the pre-defined limit of -10%.|Difference in percentage|-2.14|||||TWO_SIDED|95.0|-7.88|3.53||||||To demonstrate the non-inferiority of Boostrix co-administered with Nimenrix (Nimenrix+Boostrix Group) compared to Boostrix administered alone (Boostrix Group) in terms of anti-diphtheria toxoid (anti-D) antibody concentrations one month after Boostrix vaccination.||3.53|-7.88|
92187002|NCT01767376|184272352|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) between the two groups (Nimenrix+Boostrix Group minus Boostrix Group), in terms of percentage of subjects with anti-T concentrations ≥ 1.0 IU/mL, being greater than or equal to (≥) the pre-defined limit of -10%.|Difference in percentage|-0.44|||||TWO_SIDED|95.0|-2.48|1.26||||||To demonstrate the non-inferiority of Boostrix co-administered with Nimenrix (Nimenrix+Boostrix Group) compared to Boostrix administered alone (Boostrix Group) in terms of anti-tetanus toxoid (anti-T) antibody concentrations one month after Boostrix vaccination.||1.26|-2.48|
92187003|NCT01767376|184272353|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) between the two groups (Nimenrix+Boostrix Group minus Boostrix Group) for GMC ratios of antibodies against the pertussis (PT) antigen, being greater than or equal to (≥) the predefined limit of 0.67.|Adjusted GMC ratio|0.76|||||TWO_SIDED|95.0|0.66|0.89|||ANCOVA|||To demonstrate the non-inferiority of Boostrix co-administered with Nimenrix (Nimenrix+Boostrix Group) compared to Boostrix administered alone (Boostrix Group) with respect to geometric mean concentrations (GMCs) of antibodies against pertussis toxoid (PT), one month after Boostrix vaccination.||0.89|0.66|
92301940|NCT02944383|184508620|SUPERIORITY|||||||0.0843||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0843
92301941|NCT02944383|184508620|SUPERIORITY|||||||0.3587||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3587
92301942|NCT02944383|184508620|SUPERIORITY||Median Difference (Net)|12.99||||0.0843|TWO_SIDED|95.0|-0.54|25.51||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||25.51|-0.54|0.0843
92301943|NCT02944383|184508620|SUPERIORITY||Median Difference (Net)|7.98||||0.3587|TWO_SIDED|95.0|-3.7|21.39||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||21.39|-3.70|0.3587
92301944|NCT02944383|184508621|SUPERIORITY|||||||0.0768||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0768
92301945|NCT02944383|184508621|SUPERIORITY|||||||0.4346||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4346
92187004|NCT01767376|184272353|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) between the two groups (Nimenrix+Boostrix Group minus Boostrix Group) for GMC ratios of antibodies against the filamentous haemagglutinin (FHA) antigen, being greater than or equal to (≥) the predefined limit of 0.67.|Adjusted GMC ratio|0.57|||||TWO_SIDED|95.0|0.5|0.65|||ANCOVA|||To demonstrate the non-inferiority of Boostrix co-administered with Nimenrix (Nimenrix+Boostrix Group) compared to Boostrix administered alone (Boostrix Group) with respect to geometric mean concentrations (GMCs) of antibodies against filamentous haemagglutinin (FHA), one month after Boostrix vaccination.||0.65|0.50|
92187005|NCT01767376|184272353|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) between the two groups (Nimenrix+Boostrix Group minus Boostrix Group) for GMC ratios of antibodies against the pertactin (PRN) antigen, being greater than or equal to (≥) the predefined limit of 0.67.|Adjusted GMC ratio|0.72|||||TWO_SIDED|95.0|0.59|0.88|||ANCOVA|||To demonstrate the non-inferiority of Boostrix co-administered with Nimenrix (Nimenrix+Boostrix Group) compared to Boostrix administered alone (Boostrix Group) with respect to geometric mean concentrations (GMCs) of antibodies against pertactin (PRN), one month after Boostrix vaccination.||0.88|0.59|
92187006|NCT04883541|184272368|SUPERIORITY|the t-test in independent groups|Mean Difference (Net)|0.02|STANDARD_DEVIATION|0.8|<|0.05|TWO_SIDED|0.05|||||t-test, 2 sided|||||||<0.05
92187007|NCT03456856|184272376|SUPERIORITY||least square mean difference|-4.5|STANDARD_ERROR_OF_MEAN|1.7||0.013|TWO_SIDED|95.0|-8.0|-1.0|||repeated measures linear model|||The estimated mean treatment difference (95% CI) takes into account a presumed -5 bpm change from baseline heart rate in the absence of ivabradine (as seen in the placebo group in the SHIFT study, (NCT02441218, PMID 20801500).||-1.0|-8.0|0.013
92301946|NCT02944383|184508621|SUPERIORITY|||||||0.0768||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0768
92301947|NCT02944383|184508621|SUPERIORITY|||||||0.4346||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.4346
92187008|NCT04421456|184272410|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect. For the PANSS-T score, baseline PANSS-P, baseline PANSS-N, and baseline PANSS-G are included in the model as fixed effects for the associated baseline instead of baseline PANSS-T.|Least square mean difference|-1.75|STANDARD_ERROR_OF_MEAN|2.33||0.4528|TWO_SIDED|95.0|-6.35|2.84|||Mixed-effects repeated measures model|||||2.84|-6.35|0.4528
92187009|NCT04421456|184272410|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect. For the PANSS-T score, baseline PANSS-P, baseline PANSS-N, and baseline PANSS-G are included in the model as fixed effects for the associated baseline instead of baseline PANSS-T.|Least square mean difference|-1.96|STANDARD_ERROR_OF_MEAN|2.44||0.4226|TWO_SIDED|95.0|-6.76|2.85|||Mixed-effects repeated measures model|||||2.85|-6.76|0.4226
92187010|NCT04421456|184272411|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.83||0.4479|TWO_SIDED|95.0|-2.25|1.0|||Mixed-effects repeated measures model|||||1.00|-2.25|0.4479
92187011|NCT04421456|184272411|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|-1.22|STANDARD_ERROR_OF_MEAN|0.87||0.1616|TWO_SIDED|95.0|-2.92|0.49|||Mixed-effects repeated measures model|||||0.49|-2.92|0.1616
92187012|NCT04421456|184272412|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.76||0.6787|TWO_SIDED|95.0|-1.8|1.18|||Mixed-effects repeated measures model|||||1.18|-1.80|0.6787
92301948|NCT02944383|184508622|SUPERIORITY|||||||0.5411||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.5411
92301949|NCT02944383|184508622|SUPERIORITY|||||||0.2574||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2574
92301950|NCT02944383|184508622|SUPERIORITY||Median Difference (Net)|3.11||||0.5411|TWO_SIDED|95.0|-9.59|14.86||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||14.86|-9.59|0.5411
92301951|NCT02944383|184508622|SUPERIORITY||Median Difference (Net)|-7.31||||0.2574|TWO_SIDED|95.0|-19.3|5.76||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||5.76|-19.30|0.2574
92301952|NCT02944383|184508623|SUPERIORITY|||||||0.3998||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3998
92301953|NCT02944383|184508623|SUPERIORITY|||||||0.3659||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3659
92301954|NCT02944383|184508623|SUPERIORITY|||||||0.3998||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.3998
92301955|NCT02944383|184508623|SUPERIORITY|||||||0.3659||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.3659
92301956|NCT02944383|184508624|SUPERIORITY|||||||0.8823||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.8823
92301957|NCT02944383|184508624|SUPERIORITY|||||||0.3788||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.3788
92301958|NCT02944383|184508624|SUPERIORITY|||||||0.1091||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1091
92187013|NCT04421456|184272412|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|0.76|STANDARD_ERROR_OF_MEAN|0.78||0.3351|TWO_SIDED|95.0|-0.79|2.3|||Mixed-effects repeated measures model|||||2.30|-0.79|0.3351
92187014|NCT04421456|184272413|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.45||0.4504|TWO_SIDED|95.0|-3.96|1.76|||Mixed-effects repeated measures model|||||1.76|-3.96|0.4504
92301959|NCT02944383|184508624|SUPERIORITY|||||||0.6867||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.6867
92301960|NCT02944383|184508624|SUPERIORITY||Median Difference (Net)|9.07||||0.3156|TWO_SIDED|95.0|-12.22|36.34||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||36.34|-12.22|0.3156
92301961|NCT02944383|184508624|SUPERIORITY||Median Difference (Net)|-0.3||||0.9734|TWO_SIDED|95.0|-24.58|25.43||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||25.43|-24.58|0.9734
92301962|NCT02944383|184508625|SUPERIORITY|||||||0.9772||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.9772
92301963|NCT02944383|184508625|SUPERIORITY|||||||0.5213||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.5213
92301964|NCT02944383|184508625|SUPERIORITY|||||||0.1582||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1582
92301965|NCT02944383|184508625|SUPERIORITY|||||||0.4588||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4588
92301966|NCT02944383|184508625|SUPERIORITY|||||||0.4264||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.4264
92301967|NCT02944383|184508625|SUPERIORITY|||||||0.8107||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.8107
92301968|NCT02944383|184508626|SUPERIORITY||Odds Ratio (OR)|5.38||||0.0093|TWO_SIDED|95.0|1.51|19.08||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic||The OR is an estimate of the odds of achieving a TG value \< 500 mg/dL associated with the corresponding Gemcabene group relative to the placebo group at a given visit.|Week 10||19.08|1.51|0.0093
92301969|NCT02944383|184508626|SUPERIORITY||Odds Ratio (OR)|2.57||||0.107|TWO_SIDED|95.0|0.82|8.07||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic||The OR is an estimate of the odds of achieving a TG value \< 500 mg/dL associated with the corresponding Gemcabene group relative to the placebo group at a given visit.|Week 10||8.07|0.82|0.1070
92301970|NCT02944383|184508626|SUPERIORITY||Odds Ratio (OR)|2.57||||0.0865|TWO_SIDED|95.0|0.87|7.53||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic|||Week 12||7.53|0.87|0.0865
92301971|NCT02944383|184508626|SUPERIORITY||Odds Ratio (OR)|1.57||||0.399|TWO_SIDED|95.0|0.55|4.48||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic||The OR is an estimate of the odds of achieving a TG value \< 500 mg/dL associated with the corresponding Gemcabene group relative to the placebo group at a given visit.|Week 12||4.48|0.55|0.3990
92301972|NCT02944383|184508626|SUPERIORITY||Odds Ratio (OR)|2.75||||0.0772|TWO_SIDED|95.0|0.9|8.42||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic||The OR is an estimate of the odds of achieving a TG value \< 500 mg/dL associated with the corresponding Gemcabene group relative to the placebo group at a given visit.|EOS (average of week 10 and 12)||8.42|0.90|0.0772
92301973|NCT02944383|184508626|SUPERIORITY||Odds Ratio (OR)|1.54||||0.4315|TWO_SIDED|95.0|0.53|4.48||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic||The OR is an estimate of the odds of achieving a TG value \< 500 mg/dL associated with the corresponding Gemcabene group relative to the placebo group at a given visit.|EOS (average of week 10 and 12)||4.48|0.53|0.4315
92301974|NCT03623386|184508693|SUPERIORITY|||||||0.981|||||||Wilcoxon (Mann-Whitney)|||||||0.981
92301975|NCT03623386|184508694|SUPERIORITY|||||||0.481|||||||Wilcoxon (Mann-Whitney)|||||||0.481
92187015|NCT04421456|184272413|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|-1.23|STANDARD_ERROR_OF_MEAN|1.52||0.4195|TWO_SIDED|95.0|-4.22|1.76|||Mixed-effects repeated measures model|||||1.76|-4.22|0.4195
92301976|NCT03623386|184508695|SUPERIORITY||||||>|0.05|||||||ANOVA|||Testing for main effects (group), time effect and the interaction of group and time.||||>0.05
92301977|NCT03623386|184508696|SUPERIORITY|||||||0.026||||||p value reflects the effect of time.|ANOVA|||Testing for main effects (group), time effect and the interaction of group and time.||||0.026
92301978|NCT01196078|184508721|SUPERIORITY_OR_OTHER||Difference in Percentages|13.88||||0.0388|TWO_SIDED|95.0|-0.22|26.19||Between-treatment difference computed using logistic regression with treatment and multiple factors (gender, Eastern Cooperative Oncology Group \[ECOG\] status, histology status, and smoking status) as explanatory variables.|Regression, Logistic||95% confidence interval (CI) for the difference in tumor response rate determined using Hauck-Anderson approach.|||26.19|-0.22|0.0388
92301979|NCT01196078|184508722|SUPERIORITY_OR_OTHER||Difference in Percentages|14.79||||0.1061|TWO_SIDED|95.0|-3.54|31.33||Between-treatment difference computed using logistic regression with treatment and multiple factors (gender, ECOG status, histology status, and smoking status) as explanatory variables.|Regression, Logistic||95% CI for the difference in the disease control rate determined using Hauck-Anderson approach.|||31.33|-3.54|0.1061
92301980|NCT01196078|184508723|SUPERIORITY_OR_OTHER|||||||0.9505|||||||Log Rank|||||||0.9505
92301981|NCT01196078|184508725|SUPERIORITY_OR_OTHER|||||||0.2314|||||||Log Rank|Data were stratified by gender, ECOG status, histology status, and smoking status.||||||0.2314
92301982|NCT01196078|184508727|SUPERIORITY_OR_OTHER|||||||0.9894|||||||Log Rank|Data were stratified by gender, ECOG status, histology status, and smoking status.||||||0.9894
92301983|NCT01196078|184508729|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||PWB, Baseline versus Endpoint||||0.0060
92301984|NCT01196078|184508729|SUPERIORITY_OR_OTHER|||||||0.6871|||||||ANOVA|||SWB, Baseline versus Endpoint||||0.6871
92301985|NCT01196078|184508729|SUPERIORITY_OR_OTHER|||||||0.5104|||||||ANOVA|||EWB Baseline versus Endpoint||||0.5104
92301986|NCT01196078|184508729|SUPERIORITY_OR_OTHER|||||||0.9927|||||||ANOVA|||FWB, Baseline versus Endpoint||||0.9927
92301987|NCT01196078|184508729|SUPERIORITY_OR_OTHER|||||||0.3581|||||||ANOVA|||LCS, Baseline versus Endpoint||||0.3581
92301988|NCT03687658|184508740|OTHER|Generalized linear mixed model (GLMM) with a binomial distribution using a logit link function||||||0.066|||||||Generalized linear mixed model|||||||0.066
92301989|NCT03687658|184508741|OTHER|Generalized linear mixed model (GLMM) with a binomial distribution using a logit link function||||||0.273|||||||Generalized linear mixed model|||||||0.273
92301990|NCT03687658|184508742|OTHER|Generalized linear mixed model (GLMM) with a Poisson distribution using a log link function||||||0.403|||||||Generalized linear mixed model|||||||0.403
92301991|NCT04397445|184508743|SUPERIORITY|||||||0.54||||||A 1-sided lower P value \<.05 was considered significant for ranitidine vs. placebo as the aim was to evaluate if ranitidine increased NDMA exposure. Comparisons were performed separately with each diet without adjustment for multiplicity.|Wilcoxon (Mann-Whitney)|||A Wilcoxon signed-rank test was used for analyses, per the statistical analysis plan, as NDMA urine data were not normally distributed|The median of the paired differences (interquartile range) between ranitidine and placebo is 0 (-6.9 to 0) ng. The median of the paired differences is calculated by first determining the difference between the two treatments for each individual participant and then determining the median of those values. The Wilcoxon signed-rank test that was used for NDMA analyses is also based on first determining the difference between the treatment groups for each individual participant.|||0.54
92301992|NCT04397445|184508743|SUPERIORITY|||||||0.71||||||A 1-sided lower P value \<.05 was considered significant for ranitidine vs. placebo as the aim was to evaluate if ranitidine increased NDMA exposure. Comparisons were performed separately with each diet without adjustment for multiplicity.|Wilcoxon (Mann-Whitney)|||A Wilcoxon signed-rank test was used for analyses, per the statistical analysis plan, as NDMA urine data were not normally distributed|The median of the paired differences (interquartile range) between ranitidine and placebo is -1.1 (-9.1 to 11.5) ng. The median of the paired differences is calculated by first determining the difference between the two treatments for each individual participant and then determining the median of those values. The Wilcoxon signed-rank test that was used for NDMA analyses is also based on first determining the difference between the treatment groups for each individual participant.|||0.71
92301993|NCT04397445|184508744|SUPERIORITY|||||||0.005||||||Exploratory analyses on the effect of diet used a 1-sided lower P value \<.05 for NDMA as the cured-meats diet was designed to have higher NDMA.|Wilcoxon (Mann-Whitney)|||A Wilcoxon signed-rank test was used for analyses, per the statistical analysis plan, as NDMA urine data were not normally distributed|The median of the paired differences (interquartile range) between the cured-meats diet and noncured-meats diet is 9.3 (3.8 to 25.0) ng. The median of the paired differences is calculated by first determining the difference between the two treatments for each individual participant and then determining the median of those values. The Wilcoxon signed-rank test that was used for NDMA analyses is also based on first determining the difference between the treatment groups for each individual participant.|||0.005
92301994|NCT04397445|184508744|SUPERIORITY|||||||0.007||||||Exploratory analyses on the effect of diet used a 1-sided lower P value \<.05 for NDMA as the cured-meats diet was designed to have higher NDMA|Wilcoxon (Mann-Whitney)|||A Wilcoxon signed-rank test was used for analyses, per the statistical analysis plan, as NDMA urine data were not normally distributed|The median of the paired differences (interquartile range) between the cured-meats diet and noncured-meats diet is 6.4 (0 to 23.4) ng. The median of the paired differences is calculated by first determining the difference between the two treatments for each individual participant and then determining the median of those values. The Wilcoxon signed-rank test that was used for NDMA analyses is also based on first determining the difference between the treatment groups for each individual participant.|||0.007
92301995|NCT04397445|184508745|OTHER||Geometric Mean Ratio|0.94||||0.92|TWO_SIDED|90.0|0.87|1.01||A 1-sided lower P value \<.05 was considered significant for the exploratory analyses of ranitidine vs. placebo because the study aim was to evaluate if ranitidine increased DMA exposure.|Mixed Models Analysis||This compares the results from ranitidine (numerator) with placebo (denominator).|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence||1.01|0.87|0.92
92187016|NCT04421456|184272414|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm, visit by treatment arm interaction and visit by associated baseline interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.16||0.885|TWO_SIDED|95.0|-0.35|0.3|||Mixed-effects repeated measures model|||||0.30|-0.35|0.8850
92187017|NCT04421456|184272414|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm, visit by treatment arm interaction and visit by associated baseline interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.16||0.7808|TWO_SIDED|95.0|-0.36|0.27|||Mixed-effects repeated measures model|||||0.27|-0.36|0.7808
92187018|NCT04421456|184272415|SUPERIORITY||Odds Ratio (OR)|1.412||||0.6707|TWO_SIDED|95.0|0.288|6.924|||Regression, Logistic|||||6.924|0.288|0.6707
92187019|NCT04421456|184272415|SUPERIORITY||Odds Ratio (OR)|0.576||||0.4883|TWO_SIDED|95.0|0.121|2.744|||Regression, Logistic|||||2.744|0.121|0.4883
92187020|NCT00379210|184272426|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANOVA|||Statistical tests are evaluated at an alpha level of 0.05 (corrected, when appropriate, for multiple comparisons). Analyses are performed on both response latency and accuracy on behavioral data. For latency analyses, mean response times for correct trials are calculated for each subject. Repeated-measures ANOVA are used for omnibus tests; paired t-tests are used for individual planned contrasts, with Bonferroni-corrected significance levels to maintain a .05 alpha level||||<0.01
92187021|NCT02469155|184272437|SUPERIORITY||Least Squares Mean Difference|0.1||||0.972|TWO_SIDED|95.0|-3.39|3.51|||Mixed Models for Repeated Measure|||||3.51|-3.39|0.972
92187022|NCT02469155|184272437|SUPERIORITY||Least Squares Mean Difference|0.5||||0.789|TWO_SIDED|95.0|-2.92|3.84|||Mixed Effects Model for Repeated Measure|||||3.84|-2.92|0.789
92187023|NCT02991118|184272439|SUPERIORITY||Difference in LS mean|-17.42|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-20.951|-13.896|||ANCOVA|||||-13.896|-20.951|<0.001
92187024|NCT02991118|184272440|SUPERIORITY||Difference in LS mean|-14.77|STANDARD_ERROR_OF_MEAN|2.418|<|0.001|TWO_SIDED|95.0|-19.504|-10.027|||ANCOVA|||||-10.027|-19.504|<0.001
92301996|NCT04397445|184508745|OTHER||Geometric Mean Ratio|0.95||||0.74|TWO_SIDED|90.0|0.81|1.1||A 1-sided lower P value \<.05 was considered significant for the exploratory analyses of ranitidine vs. placebo because the study aim was to evaluate if ranitidine increased DMA exposure.|Mixed Models Analysis||This compares the results from ranitidine (numerator) with placebo (denominator).|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence||1.10|0.81|0.74
92301997|NCT04397445|184508745|OTHER||Geometric Mean Ratio|1.05||||0.52|TWO_SIDED|95.0|0.9|1.23||A 2-sided P value \<.05 was used for DMA as the diet was not expected to affect these outcomes|Mixed Models Analysis||This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator)|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence.||1.23|0.90|0.52
92187025|NCT02991118|184272441|SUPERIORITY||Difference in LS mean|-13.03|STANDARD_ERROR_OF_MEAN|1.652|<|0.001|TWO_SIDED|95.0|-16.27|-9.794|||ANCOVA|||||-9.794|-16.270|<0.001
92187026|NCT02991118|184272442|SUPERIORITY||Difference in LS mean|-11.2|STANDARD_ERROR_OF_MEAN|1.224|<|0.001|TWO_SIDED|95.0|-13.599|-8.801|||ANCOVA|||||-8.801|-13.599|<0.001
92301998|NCT04397445|184508745|OTHER||Geometric Mean Ratio|1.05||||0.42|TWO_SIDED|95.0|0.93|1.19||A 2-sided P value \<.05 was used for DMA as the diet was not expected to affect these outcomes|Mixed Models Analysis||This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator)|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence.||1.19|0.93|0.42
92301999|NCT04397445|184508746|OTHER||Geometric Mean Ratio|0.81||||0.001|TWO_SIDED|95.0|0.72|0.91||Exploratory analyses on the effect of diet used a 2-sided P value \<.05 for ranitidine as the diet was not expected to affect these outcomes|Mixed Models Analysis|||As ranitidine data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence|This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator)|0.91|0.72|0.001
92302000|NCT04397445|184508748|OTHER||Geometric Mean Ratio|1.0||||0.46|TWO_SIDED|90.0|0.91|1.11||A 1-sided lower P value \<.05 was considered significant for the exploratory analyses of ranitidine vs. placebo because the study aim was to evaluate if ranitidine increased DMA exposure.|Mixed Models Analysis||This compares the results from ranitidine (numerator) with placebo (denominator)|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence||1.11|0.91|0.46
92302001|NCT04397445|184508748|OTHER||Geometric Mean Ratio|1.0||||0.49|TWO_SIDED|90.0|0.8|1.25||A 1-sided lower P value \<.05 was considered significant for the exploratory analyses of ranitidine vs. placebo because the study aim was to evaluate if ranitidine increased DMA exposure.|Mixed Models Analysis|||As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence|This compares the results from ranitidine (numerator) with placebo (denominator)|1.25|0.80|0.49
92302002|NCT04397445|184508748|OTHER||Geometric Mean Ratio|0.8||||0.02|TWO_SIDED|95.0|0.67|0.95||A 2-sided P value \<.05 was used for DMA as the diet was not expected to affect these outcomes|Mixed Models Analysis||This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator)|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence.||0.95|0.67|0.02
92187027|NCT02991118|184272443|SUPERIORITY||Difference in LS mean|-13.02|STANDARD_ERROR_OF_MEAN|1.587|<|0.001|TWO_SIDED|95.0|-16.13|-9.907|||ANCOVA|||||-9.907|-16.130|<0.001
92187028|NCT02991118|184272444|SUPERIORITY||Location shift|-8.733|||<|0.039|TWO_SIDED|95.0|-17.238|-0.434|||Wilcoxon Rank Sum Test||The location shift and asymptotic 95% confidence interval are based on Hodges-Lehman estimation.|||-0.434|-17.238|<0.039
92187029|NCT02991118|184272447|SUPERIORITY||Difference in LS mean|4.89|STANDARD_ERROR_OF_MEAN|3.258||0.134|TWO_SIDED|95.0|-1.504|11.292|||ANCOVA|||||11.292|-1.504|0.134
92187030|NCT02991118|184272448|SUPERIORITY||Difference in LS mean|-6.13|STANDARD_ERROR_OF_MEAN|1.139|<|0.001|TWO_SIDED|95.0|-8.369|-3.896|||ANCOVA|||||-3.896|-8.369|<0.001
92302003|NCT04397445|184508748|OTHER||Geometric Mean Ratio|0.8||||0.03|TWO_SIDED|95.0|0.65|0.98||A 2-sided P value \<.05 was used for DMA as the diet was not expected to affect these outcomes|Mixed Models Analysis|||As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence|This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator)|0.98|0.65|0.03
92302004|NCT04397445|184508749|OTHER||Geometric Mean Ratio|0.77||||0.002|TWO_SIDED|95.0|0.66|0.89||Exploratory analyses on the effect of diet used a 2-sided P value \<.05 for ranitidine as the diet was not expected to affect these outcomes|Mixed Models Analysis||This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator).|As ranitidine data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence||0.89|0.66|0.002
92302005|NCT03728634|184508786|SUPERIORITY||||||<|0.001|||||||Analysis of Variance(ANOVA)|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 45 mg||||<0.001
92302006|NCT03728634|184508786|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 60 mg||||<0.001
92302007|NCT03728634|184508786|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 90 mg||||<0.001
92302008|NCT03728634|184508786|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 45 mg||||<0.001
92302009|NCT03728634|184508786|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 60 mg||||<0.001
92302010|NCT03728634|184508786|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 90 mg||||<0.001
92302011|NCT03728634|184508786|SUPERIORITY|||||||0.036|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Single-Dose Administration of ION-TTR-LRx at Day 29: 120 mg||||0.036
92302012|NCT03728634|184508787|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 45 mg||||<0.001
92302013|NCT03728634|184508787|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 60 mg||||<0.001
92302014|NCT03728634|184508787|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 90 mg||||<0.001
92302015|NCT03728634|184508787|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 45 mg||||<0.001
92187031|NCT02991118|184272449|SUPERIORITY||Difference in LS mean|-12.27|STANDARD_ERROR_OF_MEAN|2.314|<|0.001|TWO_SIDED|95.0|-16.813|-7.722|||ANCOVA|||||-7.722|-16.813|<0.001
92187032|NCT02991118|184272450|SUPERIORITY||Difference in LS mean|-12.63|STANDARD_ERROR_OF_MEAN|2.01|<|0.001|TWO_SIDED|95.0|-16.58|-8.682|||ANCOVA|||||-8.682|-16.580|<0.001
92187033|NCT02991118|184272451|SUPERIORITY||Difference in LS mean|-9.92|STANDARD_ERROR_OF_MEAN|1.976|<|0.001|TWO_SIDED|95.0|-13.803|-6.037|||ANCOVA|||||-6.037|-13.803|<0.001
92187034|NCT02991118|184272452|SUPERIORITY||Difference in LS mean|-10.77|STANDARD_ERROR_OF_MEAN|1.489|<|0.001|TWO_SIDED|95.0|-13.698|-7.848|||ANCOVA|||||-7.848|-13.698|<0.001
92302016|NCT03728634|184508787|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 60 mg||||<0.001
92302017|NCT03728634|184508787|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 90 mg||||<0.001
92302018|NCT03728634|184508787|SUPERIORITY|||||||0.036|||||||Wilcoxon Rank Sum Exact Test (2-sided)|||Change From Baseline in Plasma RBP4 Levels Following Single-Dose Administration of ION-TTR-LRx at Day 29: 120 mg||||0.036
92187035|NCT02991118|184272453|SUPERIORITY||Difference in LS mean|-8.36|STANDARD_ERROR_OF_MEAN|1.458|<|0.001|TWO_SIDED|95.0|-11.223|-5.493|||ANCOVA|||||-5.493|-11.223|<0.001
92187036|NCT02991118|184272454|SUPERIORITY||Difference in LS mean|-13.0|STANDARD_ERROR_OF_MEAN|2.451|<|0.001|TWO_SIDED|95.0|-17.829|-8.175|||ANCOVA|||||-8.175|-17.829|<0.001
92187037|NCT02991118|184272455|SUPERIORITY||Difference in LS mean|-9.58|STANDARD_ERROR_OF_MEAN|1.796|<|0.001|TWO_SIDED|95.0|-13.107|-6.047|||ANCOVA|||||-6.047|-13.107|<0.001
92187038|NCT02991118|184272456|SUPERIORITY||Location shift|-21.278|||<|0.001|TWO_SIDED|95.0|-32.25|-10.034|||Wilcoxon Rank Sum Test||The location shift and asymptotic 95% confidence interval are based on Hodges-Lehman estimation.|||-10.034|-32.250|<0.001
92187039|NCT02991118|184272457|SUPERIORITY||Location shift|-7.587||||0.102|TWO_SIDED|95.0|-16.978|1.653|||Wilcoxon Rank Sum Test||The location shift and asymptotic 95% confidence interval are based on Hodges-Lehman estimation.|||1.653|-16.978|0.102
92187040|NCT02991118|184272458|SUPERIORITY||Difference in LS mean|-15.07|STANDARD_ERROR_OF_MEAN|2.641|<|0.001|TWO_SIDED|95.0|-20.26|-9.878|||ANCOVA|||||-9.878|-20.260|<0.001
92187041|NCT00999336|184272498|OTHER|Geometric least squares means, ratios, and confidence intervals (CIs) were estimated from an analysis of covariance (ANCOVA) of natural log transformed values.|Ratio|1.89|||||TWO_SIDED|90.0|1.18|3.03|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 186 as a multiplier in the Modified Diet in Renal Disease Study Group (MDRD) equation.|||3.03|1.18|
92187042|NCT00999336|184272498|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.27|||||TWO_SIDED|90.0|1.43|3.59|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||3.59|1.43|
92187043|NCT00999336|184272498|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.63|||||TWO_SIDED|90.0|1.71|4.06|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||4.06|1.71|
92187044|NCT00999336|184272498|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.39|||||TWO_SIDED|90.0|0.888|2.18|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||2.18|0.888|
92302019|NCT02011113|184508840|SUPERIORITY_OR_OTHER|||||||0.0027||||||Based on one sample binomial test for dichotomized response proportion against the null hypothesis(H0: p = 0.1)|Binomial test for dichotomized response|||||||0.0027
92302020|NCT01338649|184508851|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0211|||||||t-test, 2 sided|t-test on two groups of differences||||||0.0211
92302021|NCT04688931|184508852|OTHER|The analysis is descriptive in nature.|Cox Proportional Hazard|0.45|||||TWO_SIDED|95.0|0.29|0.68|||||The hazard ratio represents the relative risk of having an event in the treatment arm (numerator) versus the control arm (denominator).|||0.68|0.29|
92302022|NCT04688931|184508853|OTHER|The analysis is descriptive in nature.|Cox Proportional Hazard|0.46|||||TWO_SIDED|95.0|0.3|0.7|||||The hazard ratio represents the relative risk of having an event in the treatment arm (numerator) versus the control arm (denominator).|||0.70|0.30|
92302023|NCT04688931|184508855|OTHER|The analysis is descriptive in nature.|Cox Proportional Hazard|0.46|||||TWO_SIDED|95.0|0.24|0.86|||||The hazard ratio represents the relative risk of having an event in the treatment arm (numerator) versus the control arm (denominator).|||0.86|0.24|
92302024|NCT00361335|184508864|SUPERIORITY_OR_OTHER|||||||0.051||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups V vs VI at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31 percentage response in the Group VI at α = 0.05.||||0.051
92302025|NCT00361335|184508864|SUPERIORITY_OR_OTHER|||||||0.073||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups I vs V at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31% response in the Group I at α = 0.05.||||0.073
92302026|NCT00361335|184508864|SUPERIORITY_OR_OTHER|||||||0.093||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups III vs V at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31 percentage response in the Group III at α = 0.05.||||0.093
92187045|NCT00999336|184272498|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.94|||||TWO_SIDED|90.0|1.14|3.31|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||3.31|1.14|
92187046|NCT00999336|184272498|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.44|||||TWO_SIDED|90.0|1.41|4.22|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||4.22|1.41|
92187047|NCT00999336|184272498|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.86|||||TWO_SIDED|90.0|1.74|4.7|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||4.7|1.74|
92187048|NCT00999336|184272498|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.47|||||TWO_SIDED|90.0|0.944|2.3|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||2.3|0.944|
92302027|NCT00361335|184508864|SUPERIORITY_OR_OTHER|||||||0.465||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups VII vs V at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31 percentage response in the Group VII at α = 0.05.||||0.465
92302028|NCT00361335|184508864|SUPERIORITY_OR_OTHER|||||||0.872||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups II vs V at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31 percentage response in the Group II at α = 0.05.||||0.872
92302029|NCT00361335|184508864|SUPERIORITY_OR_OTHER|||||||0.175||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups V vs I, V vs III, V vs II, and V vs IV at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31 percentage response in the combined group (I and III) at α = 0.05.||||0.175
92187049|NCT00999336|184272499|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.88|||||TWO_SIDED|90.0|1.05|3.35|||||Statistical comparison of Cmax on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||3.35|1.05|
92187050|NCT00999336|184272499|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.32|||||TWO_SIDED|90.0|1.32|4.07|||||Statistical comparison of Cmax on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||4.07|1.32|
92187051|NCT00999336|184272499|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.52|||||TWO_SIDED|90.0|1.48|4.29|||||Statistical comparison of Cmax on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||4.29|1.48|
92187052|NCT00999336|184272499|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.34|||||TWO_SIDED|90.0|0.772|2.32|||||Statistical comparison of Cmax on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||2.32|0.772|
92187053|NCT00999336|184272499|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.96|||||TWO_SIDED|90.0|1.01|3.78|||||Statistical comparison of Cmax on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||3.78|1.01|
92187054|NCT00999336|184272499|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.38|||||TWO_SIDED|90.0|1.21|4.67|||||Statistical comparison of Cmax on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||4.67|1.21|
92187055|NCT00999336|184272499|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.69|||||TWO_SIDED|90.0|1.46|4.96|||||Statistical comparison of Cmax on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||4.96|1.46|
92302030|NCT00361335|184508865|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups V vs VI at 0.05 level of significance.||||0.002
92302031|NCT00361335|184508865|SUPERIORITY_OR_OTHER|||||||0.032||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups I vs V at 0.05 level of significance.||||0.032
92302032|NCT00361335|184508865|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups III vs V at 0.05 level of significance.||||<0.001
92302033|NCT00361335|184508865|SUPERIORITY_OR_OTHER|||||||0.795||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups V vs VII at 0.05 level of significance.||||0.795
92302034|NCT00361335|184508865|SUPERIORITY_OR_OTHER|||||||0.844||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups II vs V at 0.05 level of significance.||||0.844
92302035|NCT00361335|184508865|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups V vs I, V vs III, V vs II, and V vs IV at 0.05 level of significance.||||0.540
92302036|NCT00361335|184508866|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups V vs VI at 0.05 level of significance.||||<0.001
92302037|NCT00361335|184508866|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups I vs V at 0.05 level of significance.||||<0.001
92302038|NCT00361335|184508866|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups III vs V at 0.05 level of significance.||||<0.001
92302039|NCT00361335|184508866|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups V vs VII at 0.05 level of significance.||||0.002
92302040|NCT00361335|184508866|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups II vs V at 0.05 level of significance.||||0.043
92187056|NCT00999336|184272499|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.37|||||TWO_SIDED|90.0|0.793|2.38|||||Statistical comparison of Cmax on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||2.38|0.793|
92187057|NCT01214109|184272507|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|82.62||||||90.0|74.45|91.69|||ANOVA|||0.125 mg t.i.d. IR is the reference treatment, 0.375 mg q.d. ER is the test treatment||91.69|74.45|
92187058|NCT01214109|184272507|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|96.17||||||90.0|69.33|133.42|||ANOVA|||0.5 mg t.i.d. IR is the reference treatment, 1.5 mg q.d. ER is the test treatment||133.42|69.33|
92187059|NCT01214109|184272508|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|88.01||||||90.0|80.76|95.92|||ANOVA|||0.125 mg t.i.d. IR vs. 0.375 mg q.d. ER 0.125 mg t.i.d. IR is the reference treatment, 0.375 mg q.d. ER is the test treatment||95.92|80.76|
92302041|NCT00361335|184508866|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups V vs I, V vs III, V vs II, and V vs IV at 0.05 level of significance.||||<0.001
92302042|NCT00361335|184508867|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups V vs VI at 0.05 level of significance.||||<0.001
92302043|NCT00361335|184508867|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups I vs V at 0.05 level of significance.||||<0.001
92302044|NCT00361335|184508867|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups III vs V at 0.05 level of significance.||||<0.001
92302045|NCT00361335|184508867|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups V vs VII at 0.05 level of significance.||||<0.001
92302046|NCT00361335|184508867|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups II vs V at 0.05 level of significance.||||0.003
92187060|NCT01214109|184272508|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|89.37||||||90.0|81.16|98.42|||ANOVA|||0.5 mg t.i.d. IR vs. 1.5 mg q.d. ER 0.5 mg t.i.d. IR is the reference treatment, 1.5 mg q.d. ER is the test treatment||98.42|81.16|
92187061|NCT01214109|184272509|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|88.82||||||90.0|79.89|98.76|||ANOVA|||0.125 mg t.i.d. IR vs. 0.375 mg q.d. ER 0.125 mg t.i.d. IR is the reference treatment, 0.375 mg q.d. ER is the test treatment||98.76|79.89|
92302047|NCT00361335|184508867|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|No adjustments were made to control for multiplicity||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups V vs I, V vs III, V vs II, and V vs IV at 0.05 level of significance.||||0.001
92302048|NCT00361335|184508868|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups V vs VI at 0.05 level of significance.||||0.005
92302049|NCT00361335|184508868|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups I vs V at 0.05 level of significance.||||0.014
92302050|NCT00361335|184508868|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups III vs V at 0.05 level of significance.||||0.014
92302051|NCT00361335|184508868|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups I and VII at 0.05 level of significance.||||0.996
92302052|NCT00361335|184508868|SUPERIORITY_OR_OTHER|||||||0.738||95.0|||||2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups II vs V at 0.05 level of significance.||||0.738
92302053|NCT00361335|184508868|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||No adjustments were made to control for multiplicity|2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups V vs I, V vs III, V vs II, and V vs IV at 0.05 level of significance.||||0.788
92302054|NCT01765582|184508884|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.132|TWO_SIDED|90.0|0.96|2.71|||Cochran-Mantel-Haenszel|||Stratified by extent of metastatic disease (liver-limited disease versus non liver-limited disease) and tumor location (right versus left) after correction post-randomization.||2.71|0.96|0.132
92302055|NCT01765582|184508885|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.005|TWO_SIDED|90.0|0.53|0.88|||Log Rank|||Stratified by extent of metastatic disease (liver-limited disease vs. non-liver-limited disease) and tumor location (right vs. left) after correction post-randomization.||0.88|0.53|0.005
92302056|NCT00714493|184508921|SUPERIORITY_OR_OTHER||change from baseline||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
92302057|NCT00714493|184508922|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
92302058|NCT00076804|184508925|SUPERIORITY_OR_OTHER|||||||0.42||||||Logistic regression analysis \& Cox proportional hazards regression analyses were performed to compare outcomes after adjusting for the relevant covariates,including study arm, age, sex, baseline CD4 cell counts and viral load and pill count adherence|Chi-squared|one degree of freedom||Unadjusted endpoint analyses were conducted on an intention-to-treat basis using all patients enrolled to compare outcomes in the DOT vs. Self-ART arm. For viral load analyses, missing values were considered detectable (missing¼failure analysis). As-treated analyses were also conducted using patients remaining in the study with available data.Crosssectional comparisons between study groups were conducted using two sample t-test,Wilcoxon rank-sum test,chi-squared orFisher's exact and Kaplan-Meier||||0.42
92302059|NCT00076804|184508926|SUPERIORITY_OR_OTHER|||||||0.89||||||Logistic regression analysis \& Cox proportional hazards regression analyses were performed to compare outcomes after adjusting for the relevant covariates,including study arm, age, sex, baseline CD4 cell counts and viral load and pill count adherence|Chi-squared|one degree of freedom||Unadjusted endpoint analyses were conducted on an intention-to-treat basis using all patients enrolled to compare outcomes in the DOT vs. Self-ART arm. For viral load analyses, missing values were considered detectable (missing¼failure analysis). As-treated analyses were also conducted using patients remaining in the study with available data.Crosssectional comparisons between study groups were conducted using two sample t-test,Wilcoxon rank-sum test,chi-squared orFisher's exact and Kaplan-Meier||||0.89
92187062|NCT01214109|184272509|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|91.97||||||90.0|60.07|140.25|||ANOVA|||0.5 mg t.i.d. IR vs. 1.5 mg q.d. ER 0.5 mg t.i.d. IR is the reference treatment, 1.5 mg q.d. ER is the test treatment||140.25|60.07|
92302060|NCT00076804|184508927|SUPERIORITY_OR_OTHER|||||||0.14||||||Logistic regression analysis \& Cox proportional hazards regression analyses were performed to compare outcomes after adjusting for the relevant covariates,including study arm, age, sex, baseline CD4 cell counts and viral load and pill count adherence|Wilcoxon (Mann-Whitney)|||Unadjusted endpoint analyses were conducted on an intention-to-treat basis using all patients enrolled to compare outcomes in the DOT vs. Self-ART arm. For viral load analyses, missing values were considered detectable (missing¼failure analysis). As-treated analyses were also conducted using patients remaining in the study with available data.Crosssectional comparisons between study groups were conducted using two sample t-test,Wilcoxon rank-sum test,chi-squared orFisher's exact and Kaplan-Meier||||0.14
92302061|NCT00076804|184508928|SUPERIORITY_OR_OTHER|||||||0.61||||||Logistic regression analysis \& Cox proportional hazards regression analyses were performed to compare outcomes after adjusting for the relevant covariates,including study arm, age, sex, baseline CD4 cell counts and viral load and pill count adherence|Wilcoxon (Mann-Whitney)|||Unadjusted endpoint analyses were conducted on an intention-to-treat basis using all patients enrolled to compare outcomes in the DOT vs. Self-ART arm. For viral load analyses, missing values were considered detectable (missing¼failure analysis). As-treated analyses were also conducted using patients remaining in the study with available data.Crosssectional comparisons between study groups were conducted using two sample t-test,Wilcoxon rank-sum test,chi-squared orFisher's exact and Kaplan-Meier||||0.61
92302062|NCT00354341|184508929|SUPERIORITY_OR_OTHER|||||||0.8811|TWO_SIDED|||||P-value was calculated by ANCOVA with last observation carry forward (LOCF) method.|ANCOVA with LOCF|||||||0.8811
92302063|NCT00354341|184508930|SUPERIORITY_OR_OTHER|||||||0.8864|TWO_SIDED||||||ANCOVA with LOCF|||||||0.8864
92187063|NCT01214109|184272510|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|92.84||||||90.0|83.8|102.86|||ANOVA|||0.125 mg t.i.d. IR is the reference treatment, 0.375 mg q.d. ER is the test treatment||102.86|83.8|
92187064|NCT01214109|184272510|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|95.05||||||90.0|84.88|106.43|||ANOVA|||0.5 mg t.i.d. IR is the reference treatment, 1.5 mg q.d. ER is the test treatment||106.43|84.88|
92187065|NCT01989156|184272533|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|12.58|||<|0.001|TWO_SIDED|95.0|9.27|17.05||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS Mean Ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the biomarkers of exposure (BoExp) was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||17.05|9.27|<0.001
92267050|NCT02203305|184435425|SUPERIORITY|||||||0.056||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Variable error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. A repeated-measures ANOVA evaluated the effect of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||0.056
92267051|NCT02203305|184435425|SUPERIORITY||||||=|0.21||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Variable error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. A repeated-measures ANOVA evaluated the effects of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||=0.210
92302064|NCT00354341|184508931|SUPERIORITY_OR_OTHER|||||||0.5681|TWO_SIDED||||||ANCOVA with LOCF|||||||0.5681
92302065|NCT00354341|184508932|SUPERIORITY_OR_OTHER|||||||0.1578|TWO_SIDED||||||ANCOVA with LOCF|||||||0.1578
92302066|NCT00354341|184508933|SUPERIORITY_OR_OTHER|||||||0.2913|TWO_SIDED||||||ANCOVA with LOCF|||||||0.2913
92302067|NCT00354341|184508934|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared, Corrected|||||||<0.001
92302068|NCT00251719|184508935|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 95% CI was greater than -10%, noninferiority was concluded. Superiority of primary efficacy endpoint was assessed by comparing the crude healing rate of dexlansoprazole MR 60 mg dose to that of lansoprazole 30 mg using a Cochran Mantel Haenszel (CMH) test with baseline LA EE Grade as strata.|Difference in percentage|2.34||||0.234||95.0|-1.45|6.14||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Cochran-Mantel-Haenszel|||||6.14|-1.45|0.234
92302069|NCT00251719|184508935|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 95% CI was greater than -10%, noninferiority was concluded. Superiority of primary efficacy endpoint was assessed by comparing the crude healing rate of dexlansoprazole MR 90 mg dose to that of lansoprazole 30 mg using a Cochran Mantel Haenszel (CMH) test with baseline LA EE Grade as strata.|Difference in percentage|4.85||||0.019||95.0|1.2|8.5||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Cochran-Mantel-Haenszel|||||8.50|1.20|0.019
92302070|NCT00251719|184508935|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.220
92302071|NCT00251719|184508936|SUPERIORITY_OR_OTHER|||||||0.768||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.768
92302072|NCT00251719|184508936|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.064
92302073|NCT00251719|184508936|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.034
92302074|NCT00251719|184508937|SUPERIORITY_OR_OTHER|||||||0.727||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.727
92302075|NCT00251719|184508937|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.064
92302076|NCT00251719|184508937|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Log Rank|||||||0.174
92302077|NCT00251719|184508938|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was supported if the lower bound of the 95% CI for the difference with lansoprazole 30 mg of the estimated 8-week healing rate was greater than -10%. Superiority was assessed based on log-rank tests comparing treatments for the endpoints.|Difference in percentage|1.65||||0.167||95.0|-1.65|4.96||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Log Rank|||||4.96|-1.65|0.167
92302078|NCT00251719|184508938|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was supported if the lower bound of the 95% CI for the difference with lansoprazole 30 mg of the estimated 8-week healing rate was greater than -10%. Superiority was assessed based on log-rank tests comparing treatments for the endpoints.|Difference in percentage|3.39||||0.03||95.0|0.27|6.5||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Log Rank|||||6.50|0.27|0.030
92302079|NCT00251719|184508938|SUPERIORITY_OR_OTHER|||||||0.413||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Log Rank|||||||0.413
92302080|NCT00251719|184508939|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.100
92302081|NCT00251719|184508939|SUPERIORITY_OR_OTHER|||||||0.125||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.125
92187066|NCT01989156|184272534|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|45.77|||<|0.001|TWO_SIDED|95.0|39.22|53.41||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on 3-HPMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||53.41|39.22|<0.001
92187067|NCT01989156|184272535|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|12.58|||<|0.001|TWO_SIDED|95.0|9.54|16.58||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on S-PMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||16.58|9.54|<0.001
92302082|NCT00251719|184508939|SUPERIORITY_OR_OTHER|||||||0.993||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.993
92302083|NCT00251719|184508940|SUPERIORITY_OR_OTHER|||||||0.117||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.117
92302084|NCT00251719|184508940|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.124
92302085|NCT00251719|184508940|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Log Rank|||||||0.949
92302086|NCT03709823|184508948|SUPERIORITY||LS Mean Difference vs. Placebo|-20.48||||0.0002|TWO_SIDED|95.0|-31.141|-9.821||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||-9.821|-31.141|0.0002
92302087|NCT03709823|184508948|SUPERIORITY||LS Mean Difference vs. Placebo|-22.07|||<|0.0001|TWO_SIDED|95.0|-32.791|-11.342||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||-11.342|-32.791|< 0.0001
92302088|NCT03709823|184508948|SUPERIORITY||LS Mean Difference vs. Placebo|-5.9||||0.2708|TWO_SIDED|95.0|-16.463|4.66||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||4.660|-16.463|0.2708
92302089|NCT03709823|184508948|SUPERIORITY||LS Mean Difference vs. Placebo|-2.81||||0.6018|TWO_SIDED|95.0|-13.438|7.82||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||7.820|-13.438|0.6018
92302090|NCT03709823|184508948|SUPERIORITY||LS Mean Difference vs. Commercial Sched.|-12.17||||0.1025|TWO_SIDED|95.0|-26.869|2.535||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||2.535|-26.869|0.1025
92302091|NCT03709823|184508949|SUPERIORITY||LS Mean Difference vs. Placebo|-14.61||||0.001|TWO_SIDED|95.0|-23.216|-6.009||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||-6.009|-23.216|0.0010
92302092|NCT03709823|184508949|SUPERIORITY||LS Mean Difference vs. Placebo|-16.2||||0.0003|TWO_SIDED|95.0|-24.862|-7.548||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||-7.548|-24.862|0.0003
92302093|NCT03709823|184508950|SUPERIORITY||LS Mean Difference vs. Placebo|-12.41||||0.0091|TWO_SIDED|95.0|-21.695|-3.135||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||-3.135|-21.695|0.0091
92302094|NCT03709823|184508950|SUPERIORITY||LS Mean Difference vs. Placebo|-9.3||||0.0518|TWO_SIDED|95.0|-18.667|0.075||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||0.075|-18.667|0.0518
92302095|NCT02737332|184508951|EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio of treatments|1.019||||0.4879|TWO_SIDED|90.0|0.964|1.077||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||1.077|0.964|0.4879
92302096|NCT02737332|184508952|OTHER|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio|0.994||||0.3642|TWO_SIDED|90.0|0.0451|2.192||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||2.192|0.0451|0.3642
92302097|NCT02737332|184508952|EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio|0.81||||0.4069|TWO_SIDED|90.0|0.338|1.939||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||1.939|0.338|0.4069
92302098|NCT02737332|184508952|EQUIVALENCE|One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|Geometric mean ratio|1.039||||0.7186|TWO_SIDED|90.0|0.412|2.617||The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||2.617|0.412|0.7186
92302099|NCT02737332|184508953|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92187068|NCT01989156|184272536|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|26.41|||<|0.001|TWO_SIDED|95.0|17.31|40.26||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on Total NNAL levels with product, sex, cigarette consumption, and baseline value as covariates|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 90 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 90 for mTHS 2.2 and mCC respectively."||40.26|17.31|<0.001
92187069|NCT01989156|184272537|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|38.14|||<|0.001|TWO_SIDED|95.0|34.24|42.47||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on COHb levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 90 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 90 for mTHS 2.2 and mCC respectively."||42.47|34.24|<0.001
92302100|NCT02737332|184508954|EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio|0.999||||0.9211|TWO_SIDED|90.0|0.98|1.018||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.||ANOVA-model-based Least-Square Mean|1.018|0.980|0.9211
92302101|NCT02737332|184508954|EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio|1.168||||0.3037|TWO_SIDED|90.0|0.9|1.515||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||1.515|0.900|0.3037
92302102|NCT02737332|184508954|EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.0||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||1.000|1.000|
92302103|NCT02737332|184508955|OTHER|||||||0.5495|||||||ANOVA|||||||0.5495
92302104|NCT02737332|184508955|OTHER|||||||0.2616|||||||ANOVA|||||||0.2616
92302105|NCT02737332|184508955|OTHER|||||||0.3632|||||||ANOVA|||||||0.3632
92302106|NCT02737332|184508955|OTHER|||||||0.3393|||||||ANOVA|||||||0.3393
92302107|NCT02737332|184508959|OTHER|||||||0.1917|||||||ANOVA|||||||0.1917
92302108|NCT00557076|184508960|NON_INFERIORITY_OR_EQUIVALENCE|Because 50% of the planned sample size was randomized, achieved power for the DOCS is 0.51.|Mean Difference (Final Values)|5.4|STANDARD_ERROR_OF_MEAN|7.0||0.465|TWO_SIDED|95.0|-11.1|21.9|||t-test, 1 sided|DOCS scores were transformed to interval level measures using a many-faceted Rasch model anchored to values from a larger validation data set|The mean difference between the baseline and endpoint DOCS test was compared between the FAST and Sham groups.|The planned sample of 15 per group provided 80% power for a one-sided t-test to detect be-tween group endpoint differences in DOCS averages equivalent to an effect size of .91 (9 units). Clinically, this assumes that the FAST protocol would facilitate progression from one clinical state to another (e.g., vegetative (VS) to minimally conscious (MCS) states). The hypothesized effect was based on average DOCS change for a severe TBI sample receiving three weeks of acute rehabilitation.||21.9|-11.1|.465
92302109|NCT00557076|184508961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|0.346||0.049|TWO_SIDED|95.0|-1.51|-0.00493|||t-test, 1 sided|CNC scores were transformed to interval level measures using Rasch partial credit and Facets models. We then re-scaled these logits to 0-100 scales.|The mean difference was calculated for each group using the eighth CNC measure minus the Baseline CNC measure.|Power was not calculated for the CNC because the effect size was not published.||-.00493|-1.51|0.049
92302110|NCT00557076|184508961|SUPERIORITY_OR_OTHER||Slope|-0.63|STANDARD_ERROR_OF_MEAN|0.2||0.0022|TWO_SIDED|||||To confirm that CNC results were not an anomaly at the final measurement and that the overall CNC response pattern was consistent, mixed-effect longitudinal models were conducted.|t-test, 1 sided||The Baseline CNC measure and seven post-Baseline CNC measures (for a total of eight CNC measures) were used to calculate the slope.|||||.0022
92302111|NCT00688376|184508962|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.8||||0.694|TWO_SIDED|95.0|-3.22|4.8|||ANCOVA|||P-values, least squares (LS) mean, and 95% confidence interval (CI) were obtained from Analysis of Covariance (ANCOVA) model with treatment group as a factor and Baseline value as covariate.||4.8|-3.22|0.694
92187070|NCT01297595|184272541|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|99.58|||||TWO_SIDED|90.0|91.08|108.87||||||Natural log transformed AUC (0 - ∞) of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as a fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. This was an estimation study and there was no formal statistical hypothesis.||108.87|91.08|
92302112|NCT00688376|184508963|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1||||0.9458|TWO_SIDED|95.0|-4.38|4.09|||ANCOVA|||P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||4.09|-4.38|0.9458
92302113|NCT00688376|184508964|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.4||||0.743|TWO_SIDED|95.0|-9.56|6.85|||ANCOVA|||RTVSS Change from Baseline to Week 6 (LOCF). P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||6.85|-9.56|0.743
92302114|NCT00688376|184508964|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.2||||0.9561|TWO_SIDED|95.0|-7.42|7.84|||ANCOVA|||RTVSS Change from Baseline to Week 12 (LOCF). P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||7.84|-7.42|0.9561
92302115|NCT00688376|184508964|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.5||||0.4385|TWO_SIDED|95.0|-3.97|9.04|||ANCOVA|||RTSS Change from Baseline to Week 6 (LOCF). P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||9.04|-3.97|0.4385
92302116|NCT00688376|184508964|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4||||0.9088|TWO_SIDED|95.0|-6.74|6.0|||ANCOVA|||RTSS Change from Baseline to Week 12 (LOCF). P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||6|-6.74|0.9088
92302117|NCT00688376|184508965|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.7||||0.2886|TWO_SIDED|95.0|-1.5|4.96|||ANCOVA|||Global Executive Composite Score Analysis. P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||4.96|-1.5|0.2886
92302118|NCT00688376|184508965|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.1||||0.2555|TWO_SIDED|95.0|-1.54|5.69|||ANCOVA|||Behavioral Regulation Index Analysis. P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||5.69|-1.54|0.2555
92302119|NCT00688376|184508965|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.7||||0.3155|TWO_SIDED|95.0|-1.63|4.99|||ANCOVA|||Metacognition Index Analysis. P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||4.99|-1.63|0.3155
92302120|NCT00688376|184508965|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2||||0.9075|TWO_SIDED|95.0|-3.55|3.16|||ANCOVA|||Working Memory Scale Analysis. P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||3.16|-3.55|0.9075
92302121|NCT00886288|184508971|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92302122|NCT00472797|184508979|SUPERIORITY_OR_OTHER||mean|2.73|||<|0.001||97.5|2.73|2.73||P-Value denotes percent change from baseline to week 12 for all combined subjects.|t-test, 1 sided|||A one-sided paired t-test across all subjects by combining the titrated and non-titrated new formulation groups was performed.||2.73|2.73|<0.001
92302123|NCT00472797|184508980|SUPERIORITY_OR_OTHER|||||||0.466||||||P-value denotes difference between treatment groups|ANOVA|||||||0.466
92302124|NCT00472797|184508980|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value denotes the mean percent change from baseline to week 12.|t-test, 1 sided|||||||<0.001
92187071|NCT01297595|184272543|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|99.35|||||TWO_SIDED|90.0|90.51|109.07||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as a fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. This was an estimation study and there was no formal statistical hypothesis.||109.07|90.51|
92187072|NCT01297595|184272544|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|96.84|||||TWO_SIDED|90.0|88.22|106.32||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as a fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. This was an estimation study and there was no formal statistical hypothesis.||106.32|88.22|
92187073|NCT01697956|184272559|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI for the geometric mean ratio of BDP nasal aerosol versus placebo was greater than 0.80.|ratio of BDP nasal aerosol to placebo|0.91|||||TWO_SIDED|95.0|0.81|1.03||||||The standard deviation of the logarithmically transformed data on the change from baseline (expressed as a ratio) in 24-hr serum cortisol weighted mean is assumed to be 0.30. Using this standard deviation, 90 subjects (approximately 60 and 30 subjects in the BDP Nasal Aerosol and placebo groups, respectively) will yield approximately 90% power to demonstrate non-inferiority between BDP Nasal Aerosol and placebo, if there is no true difference between treatment groups.||1.03|0.81|
92187074|NCT03060525|184272569|SUPERIORITY||Mean Difference (Final Values)|-3.36|STANDARD_ERROR_OF_MEAN|1.51||0.026|TWO_SIDED|95.0|-6.32|-0.41|||Mixed Models Analysis|||Difference in weight change from Baseline to 6months, between Immediate Intervention participants (group and videophone combined) vs. Delayed Intervention participants (group and videophone combined). \[analysis of 2 arms, immediate intervention vs. delayed intervention\]||-0.41|-6.32|0.026
92187075|NCT03060525|184272570|SUPERIORITY||Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|0.59||0.03|TWO_SIDED|95.0|-2.42|-0.12|||Mixed Models Analysis|||Difference in Body Mass Index (BMI) change from Baseline to 6months, between Immediate Intervention participants (group and videophone combined) vs. Delayed Intervention participants (group and videophone combined). \[analysis of 2 arms, immediate intervention vs. delayed intervention\]||-0.12|-2.42|0.03
92187076|NCT03060525|184272571|SUPERIORITY||Median Difference (Net)|247.5||||0.63|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change in amount of physical activity = 6-month MET-minutes/week - baseline MET-minutes/week (change from pre to post intervention), using the International Physical Activity Questionnaire. IPAQ score is a continuous measure and reports median MET-minutes per week (a combination of walking met-minutes/week + moderate activity MET-minutes/week + vigorous activity MET-minutes/week). \[analysis of 2 arms, immediate intervention vs. delayed intervention\]||||0.63
92187077|NCT01964547|184272572|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size is adequate to confirm the non-inferiority of Sativex with a clinical relevant reduction delta of 10%, assuming there is no difference between treatments in the actual change in cognition and also assuming a standard deviation for treatment difference of 10, using a one-tailed 2.5% significance level and power of 90%. Sativex is deemed to be non-inferior to placebo if the lower 1-sided 97.5% CI of the estimated mean treatment difference (Sativex-Placebo) is greater than -10%.|Estimated mean treatment difference|-1.47|STANDARD_ERROR_OF_MEAN|2.492|||ONE_SIDED|97.5|-6.41||||ANCOVA|||The change at end of treatment was compared between treatment groups using ANCOVA. The model included treatment group and center grouping as factors and the baseline score as covariate. The planned sample size was 120 participants(60 patients in the Sativex arm and 60 in the placebo arm).|||-6.41|
92302125|NCT00472797|184508980|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value denotes the mean percent change from baseline to week 12.|t-test, 1 sided|||||||0.003
92302126|NCT00472797|184508981|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value refers to change in total score from baseline to week 12 for all domains, except global side effect score, in the MSTCQ for all subjects combined.|t-test, 1 sided|Paired t-test for change from baseline to week 12||Change in total score from baseline to week 12 for all subjects combined. Lower scores indicate a more favorable response||||<0.001
92302127|NCT00472797|184508981|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||P-value refers to differences between treatment groups in change in total score from baseline to week 12 for all domains, except global side effect score, in the MSTCQ.|ANOVA|||Analysis evaluated differences between treatment groups in change in total score from baseline to week 12 for all domains, except global side effect score, in the MSTCQ. Lower scores indicate a more favorable response.||||0.110
92302128|NCT00472797|184508982|SUPERIORITY_OR_OTHER|||||||0.302||95.0||||P-value refers to differneces in total score from baseline to week 12 between treatment groups.|ANOVA|||Analysis evaluates total score from baseline to week 12 for differences between each treatment group.||||0.302
92302129|NCT00472797|184508984|SUPERIORITY_OR_OTHER|||||||0.899||95.0||||P-value denotes differences between treatment groups in change in diameter of injection site redness from baseline to week 12.|ANOVA|||Analysis evaluates differences between treatment groups in change in diameter of injection site redness from baseline to week 12.||||0.899
92302130|NCT00472797|184508985|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|Paired||Physical Component - Change from Baseline to Week 12||||<0.001
92302131|NCT00472797|184508985|SUPERIORITY_OR_OTHER|||||||0.234||95.0|||||t-test, 2 sided|Paired||Physical Component - Change from Baseline to Week 36||||0.234
92302132|NCT00472797|184508985|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|Paired||Physical Component - Change from Baseline to Extension Visit 1||||0.001
92302133|NCT00472797|184508985|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|Paired||Physical Component - Change from Baseline to Extension Visit 3||||0.004
92302134|NCT00472797|184508985|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||t-test, 2 sided|Paired||Physical Component - Change from Baseline to Exisit Visit LOCF||||0.036
92302135|NCT00472797|184508985|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|Paired||Mental Component - Baseline to Week 12||||0.002
92302136|NCT00472797|184508985|SUPERIORITY_OR_OTHER|||||||0.468||95.0|||||t-test, 2 sided|Paired||Mental Component - Baseline to Week 36||||0.468
92302137|NCT00472797|184508985|SUPERIORITY_OR_OTHER|||||||0.602||95.0|||||t-test, 2 sided|Paired||Mental Component - Change from Baseline to Extension Visit 1||||0.602
92302138|NCT00472797|184508985|SUPERIORITY_OR_OTHER|||||||0.414||95.0|||||t-test, 2 sided|Paired||Change from Baseline to Extension Visit 3||||0.414
92302139|NCT00472797|184508985|SUPERIORITY_OR_OTHER|||||||0.991||95.0|||||t-test, 2 sided|Paired||Change from Baseline to Exit Visit LOCF||||0.991
92302140|NCT00700817|184508987|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority concluded if upper confidence interval of test was below 0.4%. Superiority concluded if upper limit of confidence interval was below 0%.|Estimated treatment difference, LS Mean|-0.6||||0.0001||95.0|-0.77|-0.43||Multiple comparisons not applicable due to the hieracheal testing.|ANCOVA|Adjusted for treatment and country (fixed effects) and baseline HbA1c (covariate).||ANCOVA with treatment and country as fixed effects and baseline HbA1c as covariate. Hieracheal testing of non-inferiority followed by superiority.||-0.43|-0.77|0.0001
92302141|NCT00700817|184508987|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority concluded if upper confidence interval of test was below 0.4%. Superiority concluded if upper limit of confidence interval was below 0%.|Estimated treatment difference, LS Mean|-0.34||||0.0001||95.0|-0.51|-0.16||Multiple comparisons not applicable due to the hieracheal testing.|ANCOVA|Adjusted for treatment and country (fixed effects) and baseline HbA1c (covariate).||ANCOVA with treatment and country as fixed effects and baseline HbA1c as covariate. Hieracheal testing of non-inferiority followed by superiority. Liraglutide 1.2 mg versus sitagliptin only tested if liraglutide 1.8 mg was superior to sitagliptin.||-0.16|-0.51|0.0001
92302142|NCT00700817|184508988|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority concluded if upper confidence interval of test was below 0.4%. Superiority concluded if upper limit of confidence interval was below 0%.|Estimated Treatment Difference, LS Mean|-0.63||||0.0001||95.0|-0.81|-0.44||Multiple comparisons not applicable due to the hieracheal testing.|ANCOVA|Adjusted for treatment and country (fixed effects) and baseline HbA1c (covariate).|Lira 1.8 - Sita|ANCOVA with treatment and country as fixed effects and baseline HbA1c as covariate.||-0.44|-0.81|0.0001
92187078|NCT01964547|184272573|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sativex is deemed to be non-inferior to placebo if the upper 1-sided 97.5% CI of the estimated mean treatment difference (Sativex-Placebo) is less than +5%.|Estimated mean treatment difference|-0.29|STANDARD_ERROR_OF_MEAN|1.323|||ONE_SIDED|97.5||2.33|||ANCOVA|||The change at end of treatment was compared between treatment groups using ANCOVA. The model included treatment group and center grouping as factors and the baseline score as covariate.||2.33||
92302143|NCT00700817|184508988|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority concluded if upper confidence interval of test was below 0.4%. Superiority concluded if upper limit of confidence interval was below 0%.|Estimated Treatment Difference, LS Mean|-0.4||||0.0001||95.0|-0.59|-0.22||Multiple comparisons not applicable due to the hieracheal testing.|ANCOVA|Adjusted for treatment and country (fixed effects) and baseline HbA1c (covariate).|Lira 1.2 - Sita|ANCOVA with treatment and country as fixed effects and baseline HbA1c as covariate.||-0.22|-0.59|0.0001
92302144|NCT00700817|184508990|SUPERIORITY_OR_OTHER||Change within treatment group|-0.24|STANDARD_DEVIATION|0.7||0.006||95.0|-0.41|-0.07||Multiple comparisons is not applicable.|paired t-test|The analysis is not a controlled comparison, and there are no adjustments||The t-test was performed to examine whether the change in HbA1c from week 52 to week 78 were different from 0 within each treatment group.||-0.07|-0.41|0.0060
92302145|NCT00700817|184508990|SUPERIORITY_OR_OTHER||Change within treatment group|-0.45|STANDARD_DEVIATION|0.9||0.0001||95.0|-0.67|-0.23||Multiple comparisons is not applicable.|paired t-test|The analysis is not a controlled comparison, and there are no adjustments||The t-test was performed to examine whether the change in HbA1c from week 52 to week 78 were different from 0 within each treatment group.||-0.23|-0.67|0.0001
92302146|NCT01144364|184509075|SUPERIORITY_OR_OTHER|||||||0.254|||||||Log Rank|||Difference between treatment arms||||0.254
92302147|NCT01144364|184509077|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.105|TWO_SIDED|95.0|0.31|1.12||Overall DFS|Cox proportional-hazards|Adjusted for randomization stratum and the known prognostic factors.||||1.12|0.31|0.105
92302148|NCT01144364|184509078|SUPERIORITY_OR_OTHER|||||||0.751|||||||Log Rank|||||||0.751
92302149|NCT01144364|184509079|SUPERIORITY_OR_OTHER|||||||0.751|||||||Log Rank|||||||0.751
92302150|NCT01144364|184509081|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63||||0.079|TWO_SIDED|95.0|0.38|1.05|||Cox proportional-hazards|||Analysis of overall PFS with Cox proportional-hazards model adjusted for the randomization stratum and the known prognostic factors.||1.05|0.38|0.079
92302151|NCT01144364|184509084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.103|TWO_SIDED|95.0|0.4|1.09||Univariate analysis|Regression, Cox|Cox model stratified for the stratification groups.||||1.09|0.40|0.103
92302152|NCT01144364|184509084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.071|TWO_SIDED|95.0|0.37|1.04||Multivariate analysis|Regression, Cox|Adjusted for stratification group, age, sex, Eastern Cooperative Oncology Group Performance Status, FL International prognostic index (FLIPI) score.||||1.04|0.37|0.071
92302153|NCT01144364|184509085|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.084|TWO_SIDED|95.0|0.39|1.06||Univariate analysis|Fine and Gray model|Fine and Gray model stratified for the stratification groups.||||1.06|0.39|0.084
92302154|NCT01144364|184509085|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.052|TWO_SIDED|95.0|0.38|1.0|||Fine and Gray model|Fine and Gray model adjusted for stratification group, age, sex, Eastern Cooperative Oncology Group Performance Status, and FLIPI score||||1.00|0.38|0.052
92187079|NCT01964547|184272574|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.02||||0.0001|TWO_SIDED|95.0|1.96|8.22|||Regression, Logistic|||Data were analysed using ordinal logistic regression using the cumulative proportional odds model, with global impression of change as the dependent variable and treatment group as factor.||8.22|1.96|0.0001
92302155|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|1.12|STANDARD_ERROR_OF_MEAN|2.0801|||TWO_SIDED|95.0|-3.0|5.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.2|-3.0|
92302156|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|2.66|STANDARD_ERROR_OF_MEAN|2.0796|||TWO_SIDED|95.0|-1.4|6.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||6.8|-1.4|
92302157|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|3.0|STANDARD_ERROR_OF_MEAN|2.0792|||TWO_SIDED|95.0|-1.1|7.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||7.1|-1.1|
92302158|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|2.53|STANDARD_ERROR_OF_MEAN|2.079|||TWO_SIDED|95.0|-1.6|6.6|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||6.6|-1.6|
92302159|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|1.72|STANDARD_ERROR_OF_MEAN|2.0789|||TWO_SIDED|95.0|-2.4|5.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.8|-2.4|
92302160|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.15|STANDARD_ERROR_OF_MEAN|2.079|||TWO_SIDED|95.0|-4.2|3.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.9|-4.2|
92302161|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.15|STANDARD_ERROR_OF_MEAN|2.0792|||TWO_SIDED|95.0|-7.2|0.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.9|-7.2|
92302162|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.31|STANDARD_ERROR_OF_MEAN|2.0796|||TWO_SIDED|95.0|-5.4|2.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-5.4|
92187080|NCT01964547|184272575|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.79||||0.0142|TWO_SIDED|95.0|1.23|6.31|||Regression, Logistic|||Data were analysed using ordinal logistic regression using the cumulative proportional odds model, with global impression of change as the dependent variable and treatment group as factor.||6.31|1.23|0.0142
92187081|NCT01964547|184272576|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.07||||0.0019|TWO_SIDED|95.0|1.51|6.21|||Regression, Logistic|||Data were analysed using ordinal logistic regression using the cumulative proportional odds model, with global impression of change as the dependent variable and treatment group as factor.||6.21|1.51|0.0019
92302163|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.15|STANDARD_ERROR_OF_MEAN|2.0801|||TWO_SIDED|95.0|-4.2|3.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.9|-4.2|
92302164|NCT02037165|184509092|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.68|STANDARD_ERROR_OF_MEAN|2.0282|||TWO_SIDED|95.0|-6.7|1.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.3|-6.7|
92302165|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|1.58|STANDARD_ERROR_OF_MEAN|2.0279|||TWO_SIDED|95.0|-2.4|5.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.6|-2.4|
92302166|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|2.63|STANDARD_ERROR_OF_MEAN|2.0278|||TWO_SIDED|95.0|-1.4|6.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||6.6|-1.4|
92302167|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.17|STANDARD_ERROR_OF_MEAN|2.0277|||TWO_SIDED|95.0|-4.2|3.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.8|-4.2|
92187082|NCT01964547|184272577|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.36|STANDARD_ERROR_OF_MEAN|1.88||0.212|TWO_SIDED|95.0|-6.09|1.37|||ANCOVA|||The change at end of treatment was compared between treatment groups using ANCOVA. The model included treatment group and center grouping as factors and the baseline score as covariate.||1.37|-6.09|0.212
92187083|NCT01964547|184272580|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|4.88|STANDARD_ERROR_OF_MEAN|8.25||0.556|TWO_SIDED|95.0|-11.51|21.27|||ANCOVA|||The change at end of treatment was compared between treatment groups using ANCOVA. The model included treatment group and centre grouping as factors and baseline score as covariate.||21.27|-11.51|0.556
92187084|NCT01964547|184272580|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann median difference|-1.0||||0.088|TWO_SIDED|95.0|-3.0|0.0|||Wilcoxon (Mann-Whitney)|||The change at end of treatment was compared between treatment groups using non-parametric methods as the distribution of data was non-normal.||0|-3|0.088
92187085|NCT01115309|184272583|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
92187086|NCT01115309|184272584|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
92187087|NCT04447287|184272603|OTHER||Geometric LS Mean Ratio|89.72|||||TWO_SIDED|90.0|81.21|99.11||||||||99.11|81.21|
92187088|NCT04447287|184272604|OTHER||Geometric LS Mean Ratio|92.15|||||TWO_SIDED|90.0|80.22|105.86||||||||105.86|80.22|
92187089|NCT04447287|184272605|OTHER||Geometric LS Mean Ratio|109.09|||||TWO_SIDED|90.0|101.1|117.71||||||||117.71|101.10|
92187090|NCT04447287|184272606|OTHER||Geometric LS Mean Ratio|117.77|||||TWO_SIDED|90.0|106.41|130.34||||||||130.34|106.41|
92187091|NCT04447287|184272607|OTHER||Geometric LS Mean Ratio|79.39|||||TWO_SIDED|90.0|68.1|92.55||||||||92.55|68.10|
92187092|NCT04447287|184272608|OTHER||Geometric LS Mean Ratio|74.45|||||TWO_SIDED|90.0|59.28|93.5||||||||93.50|59.28|
92187093|NCT03246724|184272618|NON_INFERIORITY|A non-inferiority margin of 0.5, will assure that, if non-inferiority is proven, the mean patient satisfaction with oral sedation will correspond to scores corresponding to satisfied or higher. A 0.5 margin to be considered clinically similar enough to declare non-inferiority because it allows for expected patient satisfaction variability, and demonstrates ample justification for providers to offer oral sedation as a safe alternative.|||||<|0.05||||||As a sensitivity analysis, an ANCOVA model will be fit to the data adjusting for factors that are out of balance following randomization. The mean difference between the adjusted means will be calculated.|ANCOVA|If lower bound of the 90% two-sided Confidence Interval of mean difference is higher than -0.5, the oral sedation will be deemed non-inferior to IV.||"Testable hypothesis: Patient satisfaction mean will be non-inferior when given oral triazolam in comparison to IV midazolam during all basic cataracts, retina, cornea, and glaucoma ocular procedures.~Null hypothesis: The null hypothesis is that the oral sedation group will have a primary endpoint mean equal to or less than that of the IV sedation group by the non-inferiority margin or more."||||<0.05
92302168|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|1.2|STANDARD_ERROR_OF_MEAN|2.0276|||TWO_SIDED|95.0|-2.8|5.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.2|-2.8|
92302169|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.59|STANDARD_ERROR_OF_MEAN|2.0277|||TWO_SIDED|95.0|-4.6|3.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.4|-4.6|
92302170|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.88|STANDARD_ERROR_OF_MEAN|2.0278|||TWO_SIDED|95.0|-6.9|1.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.1|-6.9|
92302171|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|0.43|STANDARD_ERROR_OF_MEAN|2.0279|||TWO_SIDED|95.0|-3.6|4.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.4|-3.6|
92302172|NCT02037165|184509092|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.04|STANDARD_ERROR_OF_MEAN|2.0282|||TWO_SIDED|95.0|-5.0|2.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.9|-5.0|
92302173|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.94|STANDARD_ERROR_OF_MEAN|1.8566|||TWO_SIDED|95.0|-4.6|2.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.7|-4.6|
92187094|NCT03246724|184272619|NON_INFERIORITY|A non-inferiority margin of 0.5, will assure that, if non-inferiority is proven, the mean patient satisfaction with oral sedation will correspond to scores corresponding to satisfied or higher. We determined a 0.5 margin to be considered clinically similar enough to declare non-inferiority because it allows for expected patient satisfaction variability, and demonstrates ample justification for providers to offer oral sedation as a safe alternative.|||||<|0.05||||||Surgeon satisfaction score will be independently analyzed. Summary statistics including, means, standard deviations along with points estimates of the mean difference between the two groups and 90% Confidence Intervals.|ANCOVA|If lower bound of the 90% two-sided Confidence Interval of mean difference is higher than -0.5, oral sedation will be deemed non-inferior to IV.||"Null hypothesis: Mean surgeon satisfaction score for oral triazolam will be statistically significant in comparison to mean surgeon satisfaction score for IV midazolam during all cataracts, retina, cornea, and glaucoma ocular procedures.~Alternate hypothesis: Mean surgeon satisfaction score for oral triazolam will not be statistically significant in comparison to mean surgeon satisfaction score for IV midazolam during all cataracts, retina, cornea, and glaucoma ocular procedures."||||<0.05
92267052|NCT02203305|184435426|SUPERIORITY||||||<|0.071||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p\<0.071) and condition (p\<0.001). Interaction: interval and condition (p\<0.051)||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.071
92302174|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.87|STANDARD_ERROR_OF_MEAN|1.856|||TWO_SIDED|95.0|-6.5|0.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.8|-6.5|
92302175|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.08|STANDARD_ERROR_OF_MEAN|1.8557|||TWO_SIDED|95.0|-6.7|0.6|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.6|-6.7|
92302176|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.63|STANDARD_ERROR_OF_MEAN|1.8555|||TWO_SIDED|95.0|-5.3|2.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.0|-5.3|
92302177|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|0.11|STANDARD_ERROR_OF_MEAN|1.8554|||TWO_SIDED|95.0|-3.5|3.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.8|-3.5|
92302178|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|0.66|STANDARD_ERROR_OF_MEAN|1.8555|||TWO_SIDED|95.0|-3.0|4.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.3|-3.0|
92302179|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.19|STANDARD_ERROR_OF_MEAN|1.8557|||TWO_SIDED|95.0|-4.8|2.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-4.8|
92187095|NCT03246724|184272620|NON_INFERIORITY|A non-inferiority margin of 0.5, will assure that, if non-inferiority is proven, the mean patient satisfaction with oral sedation will correspond to scores corresponding to satisfied or higher. We determined a 0.5 margin to be considered clinically similar enough to declare non-inferiority because it allows for expected patient satisfaction variability, and demonstrates ample justification for providers to offer oral sedation as a safe alternative.|||||<|0.05||||||Anesthesiologist/CRNA satisfaction score will be independently analyzed. Summary statistics including, means, standard deviations along with points estimates of the mean difference between the two groups and 90% Confidence Intervals.|ANCOVA|If lower bound of the 90% two-sided Confidence Interval of mean difference is higher than -0.5, the oral sedation will be deemed non-inferior to IV.||"Null hypothesis: Mean anesthesiologist/CRNA satisfaction score for oral triazolam will be statistically significant in comparison to mean anesthesiologist/CRNA satisfaction score for IV midazolam during cataracts, retina, cornea, and glaucoma procedures.~Alternate hypothesis:Mean anesthesiologist/CRNA satisfaction score for oral triazolam will not be statistically significant in comparison to mean satisfaction score for IV midazolam during cataracts, retina, cornea, and glaucoma procedures."||||<0.05
92187096|NCT03246724|184272621|OTHER|Additional anesthesia intervention will be using summary statistics including, counts and proportions along with point's estimates of the proportion difference between the two groups and 90% Confidence Intervals.|||||<|0.05|||||||t-test, 2 sided|||"Null hypothesis:The total additional anesthesia interventions for oral triazolam will be statistically significant in comparison to additional anesthesia interventions for IV midazolam during cataracts, retina, cornea, and glaucoma procedures.~Alternate hypothesis:The total additional anesthesia interventions for oral triazolam will not be statistically significant in comparison to additional anesthesia interventions for IV midazolam during cataracts, retina, cornea, and glaucoma procedures"||||<0.05
92187097|NCT03246724|184272622|OTHER|Surgical complications will be using summary statistics including, counts and proportions along with point's estimates of the proportion difference between the two groups and 90% Confidence Intervals.|||||<|0.05|||||||t-test, 2 sided|||"Null hypothesis: The total surgical complications for oral triazolam will be statistically significant in comparison to total surgical complications for IV midazolam during all cataracts, retina, cornea, and glaucoma ocular procedures.~Alternate hypothesis: The total surgical complications for oral triazolam will not be statistically significant in comparison to total surgical complications for IV midazolam during all cataracts, retina, cornea, and glaucoma ocular procedures."||||<0.05
92187098|NCT02978716|184272654|SUPERIORITY||Mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.58||0.7048|TWO_SIDED|95.0|-0.8|1.5||A Hochberg-based gatekeeping procedure was used to control the global family-wise error rate across the multiple null hypotheses in the strong sense at a 1-sided 0.025 level.|Analysis of covariance (ANCOVA)|||Duration of SN in Cycle 1 in Group 3 vs Group 1.||1.5|-0.8|0.7048
92302180|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.34|STANDARD_ERROR_OF_MEAN|1.856|||TWO_SIDED|95.0|-5.0|2.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.3|-5.0|
92302181|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.84|STANDARD_ERROR_OF_MEAN|1.8566|||TWO_SIDED|95.0|-4.5|2.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-4.5|
92302182|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.8257|||TWO_SIDED|95.0|-4.7|2.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-4.7|
92302183|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.98|STANDARD_ERROR_OF_MEAN|1.8254|||TWO_SIDED|95.0|-7.6|-0.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-0.4|-7.6|
92302184|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.43|STANDARD_ERROR_OF_MEAN|1.8252|||TWO_SIDED|95.0|-6.0|1.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-6.0|
92302185|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.29|STANDARD_ERROR_OF_MEAN|1.8251|||TWO_SIDED|95.0|-4.9|2.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.3|-4.9|
92302186|NCT02037165|184509093|SUPERIORITY_OR_OTHER||Slope|-1.72|STANDARD_ERROR_OF_MEAN|1.825|||TWO_SIDED|95.0|-5.3|1.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.9|-5.3|
92187099|NCT02978716|184272654|SUPERIORITY||Mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.71||0.3364|TWO_SIDED|95.0|-0.6|2.3||2-sided p-value was calculated using a ANCOVA with study baseline ANC value as covariate, stratification factors of lines of systemic therapy, liver involvement and treatment as fixed effects.|ANCOVA|||Duration of SN in Cycle 1 in Group 2 vs Group 1.||2.3|-0.6|0.3364
92187100|NCT02978716|184272655|SUPERIORITY||Adjusted rate ratio|0.776|STANDARD_ERROR_OF_MEAN|0.2762||0.7048|TWO_SIDED|95.0|0.386|1.559||A 1-sided p-value was calculated using Hochberg-based gatekeeping procedure to control the global familywise error rate across the multiple null hypotheses.|Modified Poisson method|||Number of participants with SN in Group 3 vs Group 1.||1.559|0.386|0.7048
92187101|NCT02978716|184272655|SUPERIORITY||Adjusted rate ratio|0.961|STANDARD_ERROR_OF_MEAN|0.364||0.9154|TWO_SIDED|95.0|0.457|2.019||The p-value was calculated using modified Poisson method adjusting for number of cycles, accounting for the number of prior lines of therapy (0 versus 1 - 2) and liver involvement as the stratification factors and baseline ANC as a covariate.|Modified Poisson Regression|||Number of participants with SN in Group 2 vs Group 1.||2.019|0.457|0.9154
92187102|NCT02978716|184272658|SUPERIORITY||Adjusted hazard ratio (HR)|0.4|STANDARD_ERROR_OF_MEAN|0.125||0.0004|TWO_SIDED|95.0|0.22|0.74||P-value was calculated using the stratified log-rank test to account for the number of prior lines of therapy (0 versus 1 - 2) and liver involvement as the stratification factors.|stratified log-rank test||Cox regression model.|Overall survival in Group 3 vs Group 1.||0.74|0.22|0.0004
92187103|NCT02978716|184272658|SUPERIORITY||Adjusted HR|0.31|STANDARD_ERROR_OF_MEAN|0.111||0.0016|TWO_SIDED|95.0|0.15|0.63||P-value was calculated using the stratified log-rank test to account for the number of prior lines of therapy (0 versus 1 - 2) and liver involvement as the stratification factors.|stratified log-rank test||Cox regression model.|Overall survival in Group 2 vs Group 1.||0.63|0.15|0.0016
92302187|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.23|STANDARD_ERROR_OF_MEAN|1.8251|||TWO_SIDED|95.0|-3.8|3.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.4|-3.8|
92302188|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.46|STANDARD_ERROR_OF_MEAN|1.8252|||TWO_SIDED|95.0|-5.0|2.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.1|-5.0|
92302189|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.65|STANDARD_ERROR_OF_MEAN|1.8254|||TWO_SIDED|95.0|-6.2|0.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.9|-6.2|
92302190|NCT02037165|184509093|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.31|STANDARD_ERROR_OF_MEAN|1.8257|||TWO_SIDED|95.0|-3.9|3.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.3|-3.9|
92302191|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.16|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-2.8|2.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-2.8|
92187104|NCT02978716|184272678|SUPERIORITY||Adjusted HR|0.493|STANDARD_ERROR_OF_MEAN|0.1957||0.7048|TWO_SIDED|95.0|0.226|1.073||A 1-sided p-value was calculated using Hochberg-based gatekeeping procedure to control the global familywise error rate across the multiple null hypotheses.|modified Poisson regression|||RBC Transfusions in Group 3 vs Group 1.||1.073|0.226|0.7048
92187105|NCT02978716|184272678|SUPERIORITY||Adjusted rate ratio|0.885|STANDARD_ERROR_OF_MEAN|0.3089||0.7272|TWO_SIDED|95.0|0.447|1.754||P-value was calculated using modified Poisson method adjusting for duration of treatment in days accounting for number of prior lines of therapy (0 versus 1 - 2); liver involvement as the stratification factors and baseline hemoglobin as a covariate.|Modified Poisson Regression|||RBC Transfusions in Group 2 vs Group 1.||1.754|0.447|0.7272
92187106|NCT02978716|184272679|SUPERIORITY||Adjusted rate ratio|0.988|STANDARD_ERROR_OF_MEAN|0.6105||0.7048|TWO_SIDED|95.0|0.294|3.317||A 1-sided p-value was calculated using Hochberg-based gatekeeping procedure to control the global familywise error rate across the multiple null hypotheses.|modified Poisson regression|||Platelet Transfusions in Group 3 vs Group 1.||3.317|0.294|0.7048
92187107|NCT02978716|184272679|SUPERIORITY||Adjusted rate ratio|0.527|STANDARD_ERROR_OF_MEAN|0.4077||0.4078|TWO_SIDED|95.0|0.116|2.399||P-value: calculated using modified Poisson method adjusting for duration of treatment in days accounting for number of prior lines of therapy (0 versus 1 - 2); liver involvement as stratification factors and baseline platelet count as a covariate.|Modified Poisson Regression|||Platelet Transfusions in Group 2 vs Group 1.||2.399|0.116|0.4078
92187108|NCT02978716|184272680|SUPERIORITY||Adjusted rate ratio|0.645|STANDARD_ERROR_OF_MEAN|0.1902||0.7048|TWO_SIDED|95.0|0.362|1.15||A 1-sided p-value was calculated using Hochberg-based gatekeeping procedure to control the global familywise error rate across the multiple null hypotheses.|modified Poisson regression|||G-CSF Administration in Group 3 vs Group 1.||1.150|0.362|0.7048
92187109|NCT02978716|184272680|SUPERIORITY||Adjusted rate ratio|0.936|STANDARD_ERROR_OF_MEAN|0.226||0.7835|TWO_SIDED|95.0|0.583|1.502||P-value was calculated using modified Poisson method adjusting for number of cycles, accounting for the number of prior lines of therapy (0 versus 1 - 2) and liver involvement as the stratification factors and baseline ANC as a covariate.|Modified Poisson Regression|||G-CSF Administration in Group 2 vs Group 1.||1.502|0.583|0.7835
92187110|NCT02978716|184272683|SUPERIORITY||Adjusted rate ratio|0.991|STANDARD_ERROR_OF_MEAN|0.3718||0.7048|TWO_SIDED|95.0|0.475|2.067||The 1-sided p-value was calculated using Hochberg-based gatekeeping procedure to control the global family wise error rate across the multiple null hypotheses.|negative binomial regression|||All-cause Dose Reductions in Group 3 vs Group 1.||2.067|0.475|0.7048
92187111|NCT02978716|184272683|SUPERIORITY||Adjusted rate ratio|0.82|STANDARD_ERROR_OF_MEAN|0.2744||0.5541|TWO_SIDED|95.0|0.426|1.58||P-value was calculated using negative binomial method adjusting for number of cycles, accounting for the number of prior lines of therapy (0 versus 1 - 2) and liver involvement as the stratification factors.|negative binomial regression|||All-cause Dose Reductions in Group 2 vs Group 1.||1.580|0.426|0.5541
92187112|NCT01922102|184272690|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.2|||<|0.001|TWO_SIDED|95.0|3.3|7.1||Superiority could be claimed if the corresponding one-sided p-value was ≤ 0.025/2 = 0.0125, or if both one-sided p-values were ≤ 0.025.|Cochran-Mantel-Haenszel||Differences in LS means and the two-sided 95% CIs are estimated from pairwise ANOVA (stratified) model.|2 one-sided hypotheses were tested under the Type I error rate of 0.025, using the Hochberg procedure: H01: μRanibizumab-I - μvPDT ≤ 0 vs. HA1: μRanibizumab-I - μvPDT \> 0 and H02: μRanibizumab-II - μvPDT ≤ 0 vs. HA2: μRanibizumab-II - μvPDT \> 0, where μRanibizumab-I, μRanibizumab-II and μvPDT were the means of the primary efficacy variable for ranibizumab treatment Group I, ranibizumab treatment Group II, and vPDT treatment Group III, respectively.||7.1|3.3|<0.001
92267053|NCT02203305|184435426|SUPERIORITY||||||<|0.109||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p=0.109) and condition (p\<0.001). Interaction: interval and condition (p=0.052).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.109
92267054|NCT02203305|184435426|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. A repeated-measures ANOVA evaluated the effect of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
92267055|NCT02203305|184435426|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. A repeated-measures ANOVA evaluated the effects of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
92267056|NCT02203305|184435427|SUPERIORITY||||||<|0.024||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p=0.018) and condition (p\<0.001). Interaction: interval and condition (p=0.024).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.024
92267057|NCT02203305|184435427|SUPERIORITY||||||<|0.219|||||||Mixed Models Analysis|Main effects: interval (p=0.187) and condition (p\<0.001). Interaction: interval and condition (p=0.219).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.219
92267058|NCT02203305|184435427|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response. A repeated-measures ANOVA evaluated the effect of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
92267059|NCT02203305|184435427|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response. A repeated-measures ANOVA evaluated the effects of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
92267060|NCT02203305|184435428|SUPERIORITY||||||=|0.011||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Responses on the Abbreviated Profile of Hearing Aid Benefit (APHAB) as measured with the global score were compared over the post-activation period (i.e., 1, 3, 6, 9, and 12 months).||||=0.011
92267061|NCT02203305|184435428|SUPERIORITY||||||=|0.264||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. The global score is calculated from the responses on the ease of communication, reverberation, and effectiveness in background noise subscales. Responses were compared to responses over the post-activation period (1, 3, 6, 9, and 12 months) with the cochlear implant using a repeated-measures ANOVA.||||=0.264
92267062|NCT02203305|184435428|SUPERIORITY||||||<|0.023||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p=0.005) and subscales (p=0.001). Interaction: interval and subscales (p=0.023).||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. Subscales include: ease of communication, reverberation, effectiveness in background noise, and reverberation. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.023
92302192|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|2.18|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-0.5|4.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.9|-0.5|
92302193|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|1.01|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-1.7|3.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.7|-1.7|
92302194|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|1.26|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-1.4|3.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.9|-1.4|
92187113|NCT01922102|184272690|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.6|||<|0.001|TWO_SIDED|95.0|3.5|7.6||Superiority could be claimed if the corresponding one-sided p-value was ≤ 0.025/2 = 0.0125, or if both one-sided p-values were ≤ 0.025.|Cochran-Mantel-Haenszel||Differences in LS means and the two-sided 95% CIs are estimated from pairwise ANOVA (stratified) model.|"The following 2 one-sided hypotheses were tested under the Type I error rate of 0.025, using the Hochberg procedure:~H01: μRanibizumab-I - μvPDT ≤ 0 vs. HA1: μRanibizumab-I - μvPDT \> 0 and H02: μRanibizumab-II - μvPDT ≤ 0 vs. HA2: μRanibizumab-II - μvPDT \> 0, where μRanibizumab-I, μRanibizumab-II and μvPDT were the means of the primary efficacy variable for ranibizumab treatment Group I, ranibizumab treatment Group II, and vPDT treatment Group III, respectively."||7.6|3.5|<0.001
92187114|NCT01922102|184272691|NON_INFERIORITY_OR_EQUIVALENCE|"one-sided hypotheses were tested under the Type I error rate of 0.025, if H01 and H02 were rejected: H03: μRanibizumab-II - μRanibizumab-I ≤ -5 vs. HA3: μRanibizumab-II - μRanibizumab-I \> -5.~Otherwise, H03 was not to be considered as rejected."|Mean Difference (Net)|0.4|||<|0.001|TWO_SIDED|95.0|-1.3|2.1||Non-inferiority could be claimed if the corresponding one-sided p-value was ≤ 0.025.|Cochran-Mantel-Haenszel||Differences in LS means and the two-sided 95% CIs are estimated from pairwise ANOVA (stratified) model.|||2.1|-1.3|<0.001
92187115|NCT02105688|184272774|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided exact test|||A one-sided exact test was used to test the null hypothesis, which was that the SVR12 rate for the ITA was less than 67% (historical reference rate derived from NCT01667731). The p-value was based on a one-sided exact test for a binomial proportion. A one-sided p-value \<0.025 supports a conclusion that the true SVR12 is \>67%.||||<0.001
92187116|NCT02105688|184272775|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-8.3|10.0||||||Categorical AE parameters were assessed via point estimates with 95% confidence intervals provided for between-treatment differences in the percentage of participants with events using the Miettinen and Nurminen method, an unconditional, asymptotic method.||10.0|-8.3|
92187117|NCT02105688|184272776|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|-0.5|||||TWO_SIDED|95.0|-5.0|1.9||||||Categorical AE parameters were assessed via point estimates with 95% confidence intervals provided for between-treatment differences in the percentage of participants with events using the Miettinen and Nurminen method, an unconditional, asymptotic method.||1.9|-5.0|
92187118|NCT00887471|184272781|SUPERIORITY_OR_OTHER|||||||0.59||||||A priori threshold for statistical significance was P\<.05.|Mixed Models Analysis|||The relationship of surgical group with AHI change was evaluated by constructing a mixed linear model (MLM). The dependent variable was the logarithm of the ratio of postoperative AHI score to preoperative AHI score; this transformation was chosen in order to minimize skew of model residuals. Surgical group was introduced as a fixed factor; subject pairs constituted levels of a random blocking) factor.||||.590
92187119|NCT00887471|184272781|SUPERIORITY_OR_OTHER|||||||0.022||||||P value for the variances. The a priori threshold for statistical significance was P \< .05.|Mixed Models Analysis|||A mixed linear model was constructed as described above. Variance was estimated separately for each group.||||.022
92187120|NCT00887471|184272782|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||The relationship of surgical group with postoperative AHI ≤ 5 was evaluated by exact conditional logistic regression, predicting AHI ≤ 5 from surgical group with subject pairs as strata.||||1.00
92187121|NCT00696241|184272809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.75|||<|0.001||95.0|-13.17|-8.34||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-8.34|-13.17|<0.001
92187122|NCT00696241|184272809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.08|||<|0.001|TWO_SIDED|95.0|-14.48|-9.67||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-9.67|-14.48|<0.001
92187123|NCT00696241|184272809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.21|||<|0.001|TWO_SIDED|95.0|-15.62|-10.81||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-10.81|-15.62|<0.001
92187124|NCT00696241|184272809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.687|TWO_SIDED|95.0|-1.55|2.35||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||2.35|-1.55|0.687
92187125|NCT00696241|184272809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.352|TWO_SIDED|95.0|-2.87|1.02||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||1.02|-2.87|0.352
92302195|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|0.71|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-2.0|3.4|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.4|-2.0|
92302196|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|0.36|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-2.3|3.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.0|-2.3|
92302197|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.58|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-4.3|1.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.1|-4.3|
92302198|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.51|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-4.2|1.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-4.2|
92302199|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.83|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-3.5|1.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.8|-3.5|
92187126|NCT00696241|184272809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06||||0.038|TWO_SIDED|95.0|-4.0|-0.12||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-0.12|-4.00|0.038
92187127|NCT00696241|184272810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.23|||<|0.001|TWO_SIDED|95.0|-15.45|-9.0||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-9.00|-15.45|<0.001
92187128|NCT00696241|184272810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.42|||<|0.001|TWO_SIDED|95.0|-15.64|-9.2||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-9.20|-15.64|<0.001
92187129|NCT00696241|184272810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.53|||<|0.001|TWO_SIDED|95.0|-18.74|-12.31||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-12.31|-18.74|<0.001
92187130|NCT00696241|184272810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.662|TWO_SIDED|95.0|-2.05|3.22||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||3.22|-2.05|0.662
92187131|NCT00696241|184272810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.768|TWO_SIDED|95.0|-2.24|3.03||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||3.03|-2.24|0.768
92302200|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.64|STANDARD_ERROR_OF_MEAN|1.3254|||TWO_SIDED|95.0|-4.2|1.0|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.0|-4.2|
92302201|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|1.07|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-1.5|3.7|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.7|-1.5|
92302202|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|0.82|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-1.8|3.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.4|-1.8|
92302203|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.32|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-3.9|1.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.3|-3.9|
92302204|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|0.56|STANDARD_ERROR_OF_MEAN|1.3254|||TWO_SIDED|95.0|-2.0|3.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.2|-2.0|
92302205|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.04|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-2.6|2.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.6|-2.6|
92302206|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.05|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-4.7|0.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.6|-4.7|
92302207|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|0.4|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-2.2|3.0|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.0|-2.2|
92187132|NCT00696241|184272810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.71||||0.043|TWO_SIDED|95.0|-5.34|-0.09||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-0.09|-5.34|0.043
92187133|NCT00696241|184272811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.78|||<|0.001|TWO_SIDED|95.0|-8.34|-5.22||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.22|-8.34|<0.001
92187134|NCT00696241|184272811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.68|||<|0.001|TWO_SIDED|95.0|-9.24|-6.13||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.13|-9.24|<0.001
92302208|NCT02037165|184509094|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.26|STANDARD_ERROR_OF_MEAN|1.3254|||TWO_SIDED|95.0|-2.9|2.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.3|-2.9|
92302209|NCT02037165|184509095|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.96|STANDARD_ERROR_OF_MEAN|1.2419|||TWO_SIDED|95.0|-3.4|1.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.5|-3.4|
92302210|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.97|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-4.4|0.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.5|-4.4|
92187135|NCT00696241|184272811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.92|||<|0.001|TWO_SIDED|95.0|-9.47|-6.36||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.36|-9.47|<0.001
92187136|NCT00696241|184272811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.679|TWO_SIDED|95.0|-0.99|1.52||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.52|-0.99|0.679
92187137|NCT00696241|184272811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.319|TWO_SIDED|95.0|-1.89|0.62||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.62|-1.89|0.319
92187138|NCT00696241|184272811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.172|TWO_SIDED|95.0|-2.13|0.38||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.38|-2.13|0.172
92187139|NCT00696241|184272812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.02|||<|0.001|TWO_SIDED|95.0|-8.83|-5.22||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.22|-8.83|<0.001
92187140|NCT00696241|184272812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.07|||<|0.001|TWO_SIDED|95.0|-8.87|-5.27||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.27|-8.87|<0.001
92187141|NCT00696241|184272812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.62|||<|0.001|TWO_SIDED|95.0|-10.42|-6.82||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.82|-10.42|<0.001
92187142|NCT00696241|184272812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.908|TWO_SIDED|95.0|-1.39|1.56||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.56|-1.39|0.908
92187143|NCT00696241|184272812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.956|TWO_SIDED|95.0|-1.43|1.52||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.52|-1.43|0.956
92187144|NCT00696241|184272812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51||||0.044|TWO_SIDED|95.0|-2.98|-0.04||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.04|-2.98|0.044
92187145|NCT00696241|184272813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.03|||<|0.001|TWO_SIDED|95.0|-13.59|-8.48||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.48|-13.59|<0.001
92187146|NCT00696241|184272813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.2|||<|0.001|TWO_SIDED|95.0|-14.75|-9.65||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.65|-14.75|<0.001
92187147|NCT00696241|184272813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.41|||<|0.001|TWO_SIDED|95.0|-15.97|-10.86||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-10.86|-15.97|<0.001
92187148|NCT00696241|184272813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.879|TWO_SIDED|95.0|-1.9|2.22||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.22|-1.90|0.879
92187149|NCT00696241|184272813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.334|TWO_SIDED|95.0|-3.07|1.04||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.04|-3.07|0.334
92187150|NCT00696241|184272813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.22||||0.034|TWO_SIDED|95.0|-4.28|-0.16||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.16|-4.28|0.034
92187151|NCT00696241|184272814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.12|||<|0.001|TWO_SIDED|95.0|-8.79|-5.45||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.45|-8.79|<0.001
92187152|NCT00696241|184272814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.84|||<|0.001|TWO_SIDED|95.0|-9.51|-6.18||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.18|-9.51|<0.001
92187153|NCT00696241|184272814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.28|||<|0.001|TWO_SIDED|95.0|-9.94|-6.61||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.61|-9.94|<0.001
92187154|NCT00696241|184272814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.877|TWO_SIDED|95.0|-1.24|1.45||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.45|-1.24|0.877
92187155|NCT00696241|184272814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.369|TWO_SIDED|95.0|-1.96|0.73||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.73|-1.96|0.369
92187156|NCT00696241|184272814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05||||0.126|TWO_SIDED|95.0|-2.39|0.3||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.30|-2.39|0.126
92187157|NCT00696241|184272815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.13|||<|0.001|TWO_SIDED|95.0|-12.79|-7.48||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.48|-12.79|<0.001
92187158|NCT00696241|184272815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.43|||<|0.001|TWO_SIDED|95.0|-14.07|-8.78||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.78|-14.07|<0.001
92187159|NCT00696241|184272815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.38|||<|0.001|TWO_SIDED|95.0|-15.03|-9.73||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.73|-15.03|<0.001
92187160|NCT00696241|184272815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03||||0.346|TWO_SIDED|95.0|-1.12|3.18||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.18|-1.12|0.346
92187161|NCT00696241|184272815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.811|TWO_SIDED|95.0|-2.4|1.88||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.88|-2.40|0.811
92187162|NCT00696241|184272815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.267|TWO_SIDED|95.0|-3.35|0.93||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.93|-3.35|0.267
92187163|NCT00696241|184272816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.03|||<|0.001|TWO_SIDED|95.0|-7.84|-4.21||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.21|-7.84|<0.001
92187164|NCT00696241|184272816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.94|||<|0.001|TWO_SIDED|95.0|-8.75|-5.13||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.13|-8.75|<0.001
92187165|NCT00696241|184272816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.84|||<|0.001|TWO_SIDED|95.0|-8.65|-5.03||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.03|-8.65|<0.001
92187166|NCT00696241|184272816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64||||0.394|TWO_SIDED|95.0|-0.83|2.1||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.10|-0.83|0.394
92187167|NCT00696241|184272816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.712|TWO_SIDED|95.0|-1.74|1.19||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.19|-1.74|0.712
92187168|NCT00696241|184272816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.818|TWO_SIDED|95.0|-1.63|1.29||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.29|-1.63|0.818
92187169|NCT00696241|184272817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.35|||<|0.001|TWO_SIDED|95.0|-14.05|-8.64||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.64|-14.05|<0.001
92187170|NCT00696241|184272817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.68|||<|0.001|TWO_SIDED|95.0|-15.38|-9.98||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.98|-15.38|<0.001
92187171|NCT00696241|184272817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.81|||<|0.001|TWO_SIDED|95.0|-16.51|-11.11||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-11.11|-16.51|<0.001
92187172|NCT00696241|184272817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.75|TWO_SIDED|95.0|-1.83|2.54||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.54|-1.83|0.750
92187173|NCT00696241|184272817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98||||0.378|TWO_SIDED|95.0|-3.16|1.2||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.20|-3.16|0.378
92187174|NCT00696241|184272817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.059|TWO_SIDED|95.0|-4.28|0.08||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.08|-4.28|0.059
92187175|NCT00696241|184272818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.25|||<|0.001|TWO_SIDED|95.0|-9.02|-5.48||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.48|-9.02|<0.001
92302211|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.64|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-4.1|0.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.8|-4.1|
92302212|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.55|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-3.0|1.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.9|-3.0|
92302213|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.29|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-2.1|2.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.7|-2.1|
92302214|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.39|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-2.1|2.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-2.1|
92302215|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.11|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-2.3|2.6|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.6|-2.3|
92302216|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.54|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-3.0|1.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.9|-3.0|
92187176|NCT00696241|184272818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.16|||<|0.001|TWO_SIDED|95.0|-9.92|-6.4||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.40|-9.92|<0.001
92187177|NCT00696241|184272818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.41|||<|0.001|TWO_SIDED|95.0|-10.17|-6.65||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.65|-10.17|<0.001
92187178|NCT00696241|184272818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.845|TWO_SIDED|95.0|-1.29|1.57||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.57|-1.29|0.845
92187179|NCT00696241|184272818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77||||0.29|TWO_SIDED|95.0|-2.19|0.65||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.65|-2.19|0.290
92187180|NCT00696241|184272818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||0.161|TWO_SIDED|95.0|-2.44|0.41||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.41|-2.44|0.161
92187181|NCT00696241|184272819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.94|||<|0.001|TWO_SIDED|95.0|-13.88|-8.0||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.00|-13.88|<0.001
92187182|NCT00696241|184272819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.18|||<|0.001|TWO_SIDED|95.0|-14.11|-8.24||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.24|-14.11|<0.001
92302217|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.12|STANDARD_ERROR_OF_MEAN|1.2419|||TWO_SIDED|95.0|-3.6|1.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.3|-3.6|
92302218|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.29|STANDARD_ERROR_OF_MEAN|1.2344|||TWO_SIDED|95.0|-3.7|1.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.1|-3.7|
92302219|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.89|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-4.3|0.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.5|-4.3|
92302220|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.16|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-3.6|1.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.3|-3.6|
92302221|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.09|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-2.3|2.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-2.3|
92187183|NCT00696241|184272819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.21|||<|0.001|TWO_SIDED|95.0|-15.15|-9.28||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.28|-15.15|<0.001
92187184|NCT00696241|184272819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05||||0.385|TWO_SIDED|95.0|-3.43|1.33||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.33|-3.43|0.385
92187185|NCT00696241|184272819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29||||0.285|TWO_SIDED|95.0|-3.66|1.08||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.08|-3.66|0.285
92187186|NCT00696241|184272819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33||||0.054|TWO_SIDED|95.0|-4.7|0.04||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.04|-4.70|0.054
92187187|NCT00696241|184272820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.84|||<|0.001|TWO_SIDED|95.0|-8.93|-4.75||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.75|-8.93|<0.001
92187188|NCT00696241|184272820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.8|||<|0.001|TWO_SIDED|95.0|-8.89|-4.72||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.72|-8.89|<0.001
92187189|NCT00696241|184272820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.55|||<|0.001|TWO_SIDED|95.0|-9.64|-5.47||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.47|-9.64|<0.001
92187190|NCT00696241|184272820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.642|TWO_SIDED|95.0|-2.09|1.29||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.29|-2.09|0.642
92187191|NCT00696241|184272820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.672|TWO_SIDED|95.0|-2.05|1.32||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.32|-2.05|0.672
92187192|NCT00696241|184272820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.196|TWO_SIDED|95.0|-2.8|0.57||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.57|-2.80|0.196
92187193|NCT00696241|184272821|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.48|||<|0.001|TWO_SIDED|95.0|2.71|7.39||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||7.39|2.71|<0.001
92302222|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.72|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-3.1|1.7|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.7|-3.1|
92302223|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.42|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-2.0|2.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-2.0|
92302224|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.13|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-2.3|2.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.6|-2.3|
92302225|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.71|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-4.1|0.7|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.7|-4.1|
92302226|NCT02037165|184509095|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.18|STANDARD_ERROR_OF_MEAN|1.2344|||TWO_SIDED|95.0|-3.6|1.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-3.6|
92302227|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|0.79|STANDARD_ERROR_OF_MEAN|1.1758|||TWO_SIDED|95.0|-1.5|3.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.1|-1.5|
92302228|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|0.51|STANDARD_ERROR_OF_MEAN|1.1755|||TWO_SIDED|95.0|-1.8|2.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-1.8|
92302229|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|2.06|STANDARD_ERROR_OF_MEAN|0.1752|||TWO_SIDED|95.0|-0.2|4.4|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.4|-0.2|
92187194|NCT00696241|184272821|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.97|||<|0.001|TWO_SIDED|95.0|3.01|8.2||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||8.20|3.01|<0.001
92187195|NCT00696241|184272821|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.53|||<|0.001|TWO_SIDED|95.0|3.95|10.79||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||10.79|3.95|<0.001
92302230|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|1.33|STANDARD_ERROR_OF_MEAN|1.1751|||TWO_SIDED|95.0|-1.0|3.6|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.6|-1.0|
92187196|NCT00696241|184272821|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.173|TWO_SIDED|95.0|0.57|1.11||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.11|0.57|0.173
92187197|NCT00696241|184272821|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.449|TWO_SIDED|95.0|0.63|1.23||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.23|0.63|0.449
92187198|NCT00696241|184272821|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.402|TWO_SIDED|95.0|0.83|1.62||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.62|0.83|0.402
92187199|NCT00696241|184272822|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.86|||<|0.001|TWO_SIDED|95.0|1.82|4.48||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||4.48|1.82|<0.001
92187200|NCT00696241|184272822|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.39|||<|0.001|TWO_SIDED|95.0|2.15|5.35||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.35|2.15|<0.001
92187201|NCT00696241|184272822|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.81|||<|0.001|TWO_SIDED|95.0|2.41|6.02||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||6.02|2.41|<0.001
92187202|NCT00696241|184272822|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.177|TWO_SIDED|95.0|0.52|1.13||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.13|0.52|0.177
92187203|NCT00696241|184272822|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.628|TWO_SIDED|95.0|0.61|1.35||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.35|0.61|0.628
92187204|NCT00696241|184272822|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.928|TWO_SIDED|95.0|0.68|1.52||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.52|0.68|0.928
92187205|NCT00696241|184272823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.53|||<|0.001|TWO_SIDED|95.0|2.66|7.72||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||7.72|2.66|<0.001
92187206|NCT00696241|184272823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.04|||<|0.001|TWO_SIDED|95.0|2.96|8.58||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||8.58|2.96|<0.001
92187207|NCT00696241|184272823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.75|||<|0.001|TWO_SIDED|95.0|3.96|11.48||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||11.48|3.96|<0.001
92187208|NCT00696241|184272823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.217|TWO_SIDED|95.0|0.58|1.13||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.13|0.58|0.217
92187209|NCT00696241|184272823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.537|TWO_SIDED|95.0|0.64|1.26||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.26|0.64|0.537
92187210|NCT00696241|184272823|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.276|TWO_SIDED|95.0|0.86|1.68||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.68|0.86|0.276
92187211|NCT00762853|184272835|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92187212|NCT02429115|184272847|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92302231|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|1.12|STANDARD_ERROR_OF_MEAN|1.175|||TWO_SIDED|95.0|-1.2|3.4|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.4|-1.2|
92302232|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.57|STANDARD_ERROR_OF_MEAN|1.1751|||TWO_SIDED|95.0|-2.9|1.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.7|-2.9|
92302233|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.43|STANDARD_ERROR_OF_MEAN|1.1752|||TWO_SIDED|95.0|-3.7|0.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.9|-3.7|
92302234|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|0.24|STANDARD_ERROR_OF_MEAN|1.1755|||TWO_SIDED|95.0|-2.1|2.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-2.1|
92302235|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|0.43|STANDARD_ERROR_OF_MEAN|1.1758|||TWO_SIDED|95.0|-1.9|2.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.7|-1.9|
92302236|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.68|STANDARD_ERROR_OF_MEAN|1.1567|||TWO_SIDED|95.0|-4.0|0.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.6|-4.0|
92302237|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|0.52|STANDARD_ERROR_OF_MEAN|1.1566|||TWO_SIDED|95.0|-1.8|2.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-1.8|
92187213|NCT02429115|184272848|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92187214|NCT02429115|184272849|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92187215|NCT01047709|184272905|SUPERIORITY_OR_OTHER||relative % difference|19.5|STANDARD_DEVIATION|23.0||0.011|TWO_SIDED|95.0|4.9|31.9|||GEE||SD of control night|Relative treatment effect on AHI, using GEE modeling, accounting for crossover design.||31.9|4.9|0.011
92187216|NCT01047709|184272905|SUPERIORITY_OR_OTHER||Relative % difference|19.5|STANDARD_DEVIATION|16.0||0.011||95.0|4.9|31.9|||GEE||SD of intervention night|Relative treatment effect on AHI, using GEE modeling, accounting for crossover design.||31.9|4.9|0.011
92187217|NCT02291549|184272906|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.0074|TWO_SIDED|95.0|-0.39|-0.06||The 2-sided alpha was 0.05. P-value was not adjusted for multiple comparison.|ANCOVA|Where appropriate, confidence intervals of the difference were constructed using the estimate of the least-squares means||ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups. The primary efficacy hypothesis was that the use of the S8 Sinus Implant would reduce the Nasal Obstruction/Congestion score compared to the control group. The null hypothesis was H0: β1=0 and alternative hypothesis was H1: β1 ≠ 0. Only a statistically significant, negative estimate of β1 was to constitute evidence of effectiveness.||-0.06|-0.39|0.0074
92302238|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|1.89|STANDARD_ERROR_OF_MEAN|1.1565|||TWO_SIDED|95.0|-0.4|4.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.2|-0.4|
92302239|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|1.25|STANDARD_ERROR_OF_MEAN|1.1564|||TWO_SIDED|95.0|-1.0|3.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.5|-1.0|
92302240|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|0.67|STANDARD_ERROR_OF_MEAN|1.1564|||TWO_SIDED|95.0|-1.6|2.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.9|-1.6|
92302241|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference of 200 mg BI mi|-0.43|STANDARD_ERROR_OF_MEAN|1.1564|||TWO_SIDED|95.0|-2.7|1.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.8|-2.7|
92302242|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.76|STANDARD_ERROR_OF_MEAN|1.1565|||TWO_SIDED|95.0|-3.0|1.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.5|-3.0|
92302243|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|0.09|STANDARD_ERROR_OF_MEAN|1.1566|||TWO_SIDED|95.0|-2.2|2.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.4|-2.2|
92187218|NCT02291549|184272907|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.0073|TWO_SIDED|95.0|-0.6|-0.09||The 2-sided alpha was 0.05. P-value was not adjusted for multiple comparisons.|ANCOVA|ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups.||The between treatment group difference was estimated using the ANCOVA model with site and treatment group as fixed effects. The primary efficacy hypothesis was that the use of the S8 Sinus Implant would reduce the bilateral polyp grade compared to the control group. The null hypothesis was H0: β1=0 and alternative hypothesis was H1: β1 ≠ 0. Only a statistically significant, negative estimate of β1 was to constitute evidence of effectiveness.||-0.09|-0.60|0.0073
92187219|NCT02291549|184272908|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0004|TWO_SIDED|95.0|1.63|4.44||P-value adjusted for multiplicity using the Holm's step-down procedure at a 2-sided significance level of 0.05.|Cochran-Mantel-Haenszel|Adjusted p-value is presented.||Test: H0: OR = 1 vs. OR ≠ 1 by Cochrane-Mantel-Haenszel test||4.44|1.63|0.0004
92187220|NCT02291549|184272909|SUPERIORITY||Mean Difference (Final Values)|-7.96||||0.0007|TWO_SIDED|95.0|-12.1|-3.83||P-value adjusted for multiplicity using the Holm's step-down procedure at a 2-sided significance level of 0.05.|ANCOVA|Adjusted p-value is presented.||ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups.The null hypothesis was H0: β1 = 0 and the alternative hypothesis was H1: β1 ≠ 0. Although the alternative hypothesis was specified as 2-sided, only a statistically significant, negative estimate of β1 constituted evidence of effectiveness. The 2-sided alpha for this test was 0.05.||-3.83|-12.10|0.0007
92187221|NCT02291549|184272910|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.0248|TWO_SIDED|95.0|-0.48|-0.07||P-value adjusted for multiplicity using the Holm's step-down procedure at a 2-sided significance level of 0.05.|ANCOVA|Adjusted p-value is presented.||ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups. The null hypothesis was H0: β1=0 and the alternative hypothesis was H1: β1 ≠ 0. Only a statistically significant, negative estimate of β1 was to constitute evidence of effectiveness.||-0.07|-0.48|0.0248
92302244|NCT02037165|184509096|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.71|STANDARD_ERROR_OF_MEAN|1.1567|||TWO_SIDED|95.0|-3.0|1.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.6|-3.0|
92302245|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.53|STANDARD_ERROR_OF_MEAN|1.1242|||TWO_SIDED|95.0|-2.7|1.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.7|-2.7|
92302246|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.99|STANDARD_ERROR_OF_MEAN|1.124|||TWO_SIDED|95.0|-3.2|1.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-3.2|
92302247|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.1238|||TWO_SIDED|95.0|-3.7|0.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.8|-3.7|
92302248|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.06|STANDARD_ERROR_OF_MEAN|1.1236|||TWO_SIDED|95.0|-3.3|1.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-3.3|
92302249|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.1236|||TWO_SIDED|95.0|-2.3|2.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.1|-2.3|
92187222|NCT02291549|184272911|SUPERIORITY||Mean Difference (Final Values)|-0.46||||0.047|TWO_SIDED|95.0|-0.85|-0.06||P-value adjusted for multiplicity using the Holm's step-down procedure at a 2-sided significance level of 0.05.|ANCOVA|The adjusted p-value is presentenced.||ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups. The null hypothesis was H0: β1=0 and alternative hypothesis was H1: β1 ≠ 0. Only a statistically significant, negative estimate of β1 was to constitute evidence of effectiveness.||-0.06|-0.85|0.0470
92187223|NCT02291549|184272912|SUPERIORITY|||||||0.913||||||P-value adjusted for multiplicity using the Holm's step-down procedure at a 2-sided significance level of 0.05.|ANCOVA|Adjusted p-value is presented.||ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups. The null hypothesis was H0: β1=0 and alternative hypothesis was H1: β1 ≠ 0. Only a statistically significant, negative estimate of β1 was to constitute evidence of effectiveness.||||0.9130
92187224|NCT02470806|184272948|NON_INFERIORITY|Stepwise regression method - Primary efficacy analysis, difference between treatment groups in percentage change in wound area from baseline visit to end of 12-week treatment period for the PP population.||||||0.001|TWO_SIDED|95.0|||||Stepwise regression|||Percentage change in wound area from Baseline to end of 12-week treatment period (PP population - all wounds)||||0.001
92187225|NCT00866619|184272958|SUPERIORITY|Criterion for success = lower limit (LL) of 97.5% confidence interval (CI) of VE \> 0.|Vaccine efficacy|55.8|||<|0.0001|TWO_SIDED|97.5|50.6|60.4|||Regression, Cox|||The analysis aimed to compare RfoCPFMI between groups over the Months 2.5-14 time period. Using RfoCFPMI, a Cox regression model was used to evaluate vaccine efficacy (VE) allowing for adjustment by factors. VE was calculated as 1 minus \[Hazard Ratio (HR) in GSK257049 \[5-17M\] Group (HR1) divided by HR in control VeroRab Comparator \[5-17M\] Group (HR2)\]; i. e. 1 - (HR1/HR2).||60.4|50.6|<0.0001
92302250|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.08|STANDARD_ERROR_OF_MEAN|1.1236|||TWO_SIDED|95.0|-2.3|2.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.1|-2.3|
92302251|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.5|STANDARD_ERROR_OF_MEAN|1.1238|||TWO_SIDED|95.0|-3.7|0.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.7|-3.7|
92302252|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.05|STANDARD_ERROR_OF_MEAN|1.124|||TWO_SIDED|95.0|-3.3|1.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-3.3|
92302253|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.07|STANDARD_ERROR_OF_MEAN|1.1242|||TWO_SIDED|95.0|-2.3|2.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.1|-2.3|
92302254|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.35|STANDARD_ERROR_OF_MEAN|1.0986|||TWO_SIDED|95.0|-2.5|1.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.8|-2.5|
92302255|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.31|STANDARD_ERROR_OF_MEAN|1.0985|||TWO_SIDED|95.0|-4.5|-0.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-0.2|-4.5|
92302256|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.39|STANDARD_ERROR_OF_MEAN|1.0984|||TWO_SIDED|95.0|-3.6|0.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.8|-3.6|
92187226|NCT00866619|184272959|SUPERIORITY|Point estimate of efficacy was adjusted for study site as stratification factor for the analysis. Criterion for success = lower limit (LL) of 97.5% confidence interval (CI) of VE \> 0.|Vaccine efficacy|31.315|||<|0.0001|TWO_SIDED|97.5|23.556|38.286|||Regression, Cox|||The analysis aimed to compare RfoCPFMI between groups over the Months 2.5-14 time period. Using RfoCFPMI, a Cox regression model was used to evaluate vaccine efficacy (VE) allowing for adjustment by factors. VE was calculated as 1 minus \[Hazard Ratio (HR) in GSK257049 \[6-12W\] Group (HR1) divided by HR in control Menjugate Comparator \[6-12W\] Group (HR2)\]; i. e. 1 - (HR1/HR2).||38.286|23.556|<0.0001
92187227|NCT05062343|184273028|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
92187228|NCT05062343|184273029|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92187229|NCT05062343|184273030|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
92187230|NCT05062343|184273031|SUPERIORITY|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
92187231|NCT05062343|184273032|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||||||0.98
92187232|NCT05062343|184273033|SUPERIORITY|||||||0.045|||||||Chi-squared|||||||0.045
92187233|NCT05062343|184273034|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92187234|NCT05062343|184273035|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92187235|NCT01307800|184273038|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.1|STANDARD_ERROR_OF_MEAN|2.4||0.994|TWO_SIDED|95.0|-0.5|8.8||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 1-sided alpha level of 0.025, with adjustment for multiplicity by applying the Step-down Dunnett procedure.|Mixed Models Analysis|||||8.8|-0.5|0.994
92302257|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.38|STANDARD_ERROR_OF_MEAN|1.0984|||TWO_SIDED|95.0|-3.5|0.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.8|-3.5|
92302258|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.15|STANDARD_ERROR_OF_MEAN|1.0983|||TWO_SIDED|95.0|-3.3|1.0|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.0|-3.3|
92302259|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.63|STANDARD_ERROR_OF_MEAN|1.0984|||TWO_SIDED|95.0|-2.8|1.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.5|-2.8|
92302260|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.53|STANDARD_ERROR_OF_MEAN|1.0984|||TWO_SIDED|95.0|-3.7|0.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.6|-3.7|
92302261|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.96|STANDARD_ERROR_OF_MEAN|1.0985|||TWO_SIDED|95.0|-3.1|1.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-3.1|
92302262|NCT02037165|184509097|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.76|STANDARD_ERROR_OF_MEAN|1.0986|||TWO_SIDED|95.0|-1.4|2.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.9|-1.4|
92302263|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-6.13|STANDARD_ERROR_OF_MEAN|3.2064|||TWO_SIDED|95.0|-12.5|0.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.2|-12.5|
92302264|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.88|STANDARD_ERROR_OF_MEAN|3.4032|||TWO_SIDED|95.0|-10.6|2.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.9|-10.6|
92187236|NCT01307800|184273038|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.0|STANDARD_ERROR_OF_MEAN|2.5||0.973|TWO_SIDED|95.0|-1.9|7.9||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 1-sided alpha level of 0.025, with adjustment for multiplicity by applying the Step-down Dunnett procedure.|Mixed Models Analysis|||||7.9|-1.9|0.973
92187237|NCT01307800|184273038|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.8|STANDARD_ERROR_OF_MEAN|2.2||0.896|TWO_SIDED|95.0|-1.6|7.2||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||7.2|-1.6|0.896
92187238|NCT01307800|184273039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.3|STANDARD_ERROR_OF_MEAN|2.5||0.955|TWO_SIDED|95.0|-0.7|9.3||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||9.3|-0.7|0.955
92187239|NCT01307800|184273039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.4|STANDARD_ERROR_OF_MEAN|2.5||0.912|TWO_SIDED|95.0|-1.6|8.4||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||8.4|-1.6|0.912
92302265|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-6.67|STANDARD_ERROR_OF_MEAN|3.3393|||TWO_SIDED|95.0|-13.3|0.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-0.0|-13.3|
92302266|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.8|STANDARD_ERROR_OF_MEAN|3.5727|||TWO_SIDED|95.0|-8.9|5.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.3|-8.9|
92302267|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-4.43|STANDARD_ERROR_OF_MEAN|3.1554|||TWO_SIDED|95.0|-10.7|1.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.8|-10.7|
92302268|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.18|STANDARD_ERROR_OF_MEAN|2.6161|||TWO_SIDED|95.0|-6.4|4.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.0|-6.4|
92302269|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.35|STANDARD_ERROR_OF_MEAN|3.1849|||TWO_SIDED|95.0|-8.7|4.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.0|-8.7|
92302270|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.78|STANDARD_ERROR_OF_MEAN|3.7688|||TWO_SIDED|95.0|-10.3|4.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.7|-10.3|
92187240|NCT01307800|184273039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.9|STANDARD_ERROR_OF_MEAN|2.4||0.223|TWO_SIDED|95.0|-1.8|7.7||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||7.7|-1.8|0.223
92187241|NCT01307800|184273040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|1.5||0.61|TWO_SIDED|95.0|-3.5|2.6||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.6|-3.5|0.610
92187242|NCT01307800|184273040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.3|STANDARD_ERROR_OF_MEAN|1.7||0.223|TWO_SIDED|95.0|-2.0|4.6||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||4.6|-2.0|0.223
92187243|NCT01307800|184273040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|1.5||0.414|TWO_SIDED|95.0|-4.2|1.7||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||1.7|-4.2|0.414
92187244|NCT01307800|184273041|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|1.6||0.603|TWO_SIDED|95.0|-3.7|2.8||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.8|-3.7|0.603
92187245|NCT01307800|184273041|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.5|STANDARD_ERROR_OF_MEAN|1.7||0.192|TWO_SIDED|95.0|-1.9|4.8||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||4.8|-1.9|0.192
92187246|NCT01307800|184273041|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|1.6||0.619|TWO_SIDED|95.0|-3.9|2.3||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.3|-3.9|0.619
92187247|NCT01307800|184273042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|9.5|STANDARD_ERROR_OF_MEAN|4.1||0.022|TWO_SIDED|95.0|1.4|17.6||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||17.6|1.4|0.022
92187248|NCT01307800|184273042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|8.7|STANDARD_ERROR_OF_MEAN|4.6||0.061|TWO_SIDED|95.0|-0.4|17.8||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||17.8|-0.4|0.061
92302271|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.27|STANDARD_ERROR_OF_MEAN|2.857|||TWO_SIDED|95.0|-7.0|4.4|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.4|-7.0|
92302272|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-6.91|STANDARD_ERROR_OF_MEAN|3.1527|||TWO_SIDED|95.0|-13.2|-0.07|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-.07|-13.2|
92302273|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-4.22|STANDARD_ERROR_OF_MEAN|3.3457|||TWO_SIDED|95.0|-10.9|2.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.4|-10.9|
92302274|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.61|STANDARD_ERROR_OF_MEAN|3.2806|||TWO_SIDED|95.0|-10.1|2.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.9|-10.1|
92302275|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|3.5078|||TWO_SIDED|95.0|-7.8|6.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||6.2|-7.8|
92302276|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.05|STANDARD_ERROR_OF_MEAN|3.0965|||TWO_SIDED|95.0|-6.2|6.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||6.1|-6.2|
92302277|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.05|STANDARD_ERROR_OF_MEAN|2.5649|||TWO_SIDED|95.0|-6.1|4.0|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.0|-6.1|
92302278|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.59|STANDARD_ERROR_OF_MEAN|3.125|||TWO_SIDED|95.0|-8.8|3.7|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.7|-8.8|
92187249|NCT01307800|184273042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.2|STANDARD_ERROR_OF_MEAN|4.1||0.304|TWO_SIDED|95.0|-3.9|12.3||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||12.3|-3.9|0.304
92187250|NCT01307800|184273043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.6|STANDARD_ERROR_OF_MEAN|0.8||0.036|TWO_SIDED|95.0|0.1|3.1||The comparison between 80 mg LY2140023, BID and placebo for the change from baseline in PANSS positive subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||3.1|0.1|0.036
92187251|NCT01307800|184273043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.8||0.616|TWO_SIDED|95.0|-1.2|2.0||The comparison between 40 mg LY2140023, BID and placebo for change from baseline in PANSS positive subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.0|-1.2|0.616
92187252|NCT01307800|184273043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.7||0.307|TWO_SIDED|95.0|-0.7|2.2||The comparison between 10 mg LY2140023, BID and placebo for change from baseline in PANSS positive subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.2|-0.7|0.307
92302279|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.84|STANDARD_ERROR_OF_MEAN|3.7013|||TWO_SIDED|95.0|-11.2|3.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.5|-11.2|
92302280|NCT02037165|184509098|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.05|STANDARD_ERROR_OF_MEAN|2.8201|||TWO_SIDED|95.0|-8.7|2.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.6|-8.7|
92302281|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.78|STANDARD_ERROR_OF_MEAN|2.5753|||TWO_SIDED|95.0|-8.9|1.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.3|-8.9|
92302282|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.74|STANDARD_ERROR_OF_MEAN|2.5162|||TWO_SIDED|95.0|-9.8|0.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.3|-9.8|
92302283|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.06|STANDARD_ERROR_OF_MEAN|2.9156|||TWO_SIDED|95.0|-11.9|-0.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-0.3|-11.9|
92302284|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.83|STANDARD_ERROR_OF_MEAN|3.4987|||TWO_SIDED|95.0|-13.8|0.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.1|-13.8|
92302285|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.24|STANDARD_ERROR_OF_MEAN|3.6922|||TWO_SIDED|95.0|-12.6|2.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.1|-12.6|
92187253|NCT01307800|184273043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.7||0.382|TWO_SIDED|95.0|-0.8|2.1||The comparison between 80 mg LY2140023, BID and placebo for the change from baseline in PANSS negative subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.1|-0.8|0.382
92187254|NCT01307800|184273043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.3|STANDARD_ERROR_OF_MEAN|0.8||0.107|TWO_SIDED|95.0|-0.3|2.8||The comparison between 40 mg LY2140023, BID and placebo for the change from baseline in PANSS negative subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.8|-0.3|0.107
92187255|NCT01307800|184273043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.7||0.436|TWO_SIDED|95.0|-0.9|2.0||The comparison between 10 mg LY2140023, BID and placebo for the change from baseline in PANSS negative subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.0|-0.9|0.436
92302286|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.71|STANDARD_ERROR_OF_MEAN|3.6166|||TWO_SIDED|95.0|-11.9|2.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-11.9|
92302287|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.09|STANDARD_ERROR_OF_MEAN|3.7073|||TWO_SIDED|95.0|-10.5|4.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.3|-10.5|
92302288|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.82|STANDARD_ERROR_OF_MEAN|4.186|||TWO_SIDED|95.0|-12.1|4.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.5|-12.1|
92302289|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.67|STANDARD_ERROR_OF_MEAN|3.4254|||TWO_SIDED|95.0|-9.5|4.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.1|-9.5|
92302290|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.64|STANDARD_ERROR_OF_MEAN|2.5461|||TWO_SIDED|95.0|-8.7|1.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.4|-8.7|
92187256|NCT01307800|184273043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.3|STANDARD_ERROR_OF_MEAN|1.3||0.073|TWO_SIDED|95.0|-0.2|4.9||The comparison between 80 mg LY2140023, BID and placebo for the change from baseline in PANSS general psychopathology subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||4.9|-0.2|0.073
92187257|NCT01307800|184273043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.5|STANDARD_ERROR_OF_MEAN|1.4||0.28|TWO_SIDED|95.0|-1.2|4.2||The comparison between 40 mg LY2140023, BID and placebo for the change from baseline in PANSS general psychopathology subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||4.2|-1.2|0.280
92187258|NCT01307800|184273043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.6|STANDARD_ERROR_OF_MEAN|1.3||0.209|TWO_SIDED|95.0|-0.9|4.0||The comparison between 10 mg LY2140023, BID and placebo for the change from baseline in PANSS general psychopathology subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||4.0|-0.9|0.209
92187259|NCT01307800|184273044|SUPERIORITY_OR_OTHER_LEGACY|||||||0.137||95.0||||The p-value was 2-sided without adjustment for multiplicity.|Fisher Exact|||||||0.137
92187260|NCT01307800|184273044|SUPERIORITY_OR_OTHER_LEGACY|||||||0.824||95.0||||The p-value was 2-sided without adjustment for multiplicity.|Fisher Exact|||||||0.824
92187261|NCT01307800|184273044|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999||95.0||||The p-value was 2-sided without adjustment for multiplicity.|Fisher Exact|||||||>0.999
92187262|NCT01307800|184273046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.13||0.34|TWO_SIDED|95.0|-0.13|0.38||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||0.38|-0.13|0.340
92187263|NCT01307800|184273046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.14||0.659|TWO_SIDED|95.0|-0.33|0.21||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||0.21|-0.33|0.659
92187264|NCT01307800|184273046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.413|TWO_SIDED|95.0|-0.14|0.35||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||0.35|-0.14|0.413
92187265|NCT01307800|184273047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|1.5||0.91|TWO_SIDED|95.0|-3.1|2.7||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.7|-3.1|0.910
92187266|NCT01307800|184273047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.8|STANDARD_ERROR_OF_MEAN|1.6||0.265|TWO_SIDED|95.0|-4.9|1.3||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||1.3|-4.9|0.265
92302291|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.46|STANDARD_ERROR_OF_MEAN|2.4848|||TWO_SIDED|95.0|-7.4|2.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-7.4|
92302292|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.27|STANDARD_ERROR_OF_MEAN|2.8811|||TWO_SIDED|95.0|-9.0|2.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-9.0|
92302293|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.91|STANDARD_ERROR_OF_MEAN|3.4569|||TWO_SIDED|95.0|-9.8|4.0|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.0|-9.8|
92302294|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.27|STANDARD_ERROR_OF_MEAN|3.6471|||TWO_SIDED|95.0|-7.0|7.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||7.5|-7.0|
92302295|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.27|STANDARD_ERROR_OF_MEAN|3.5708|||TWO_SIDED|95.0|-9.4|4.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.8|-9.4|
92302296|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.21|STANDARD_ERROR_OF_MEAN|3.6602|||TWO_SIDED|95.0|-11.5|3.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.1|-11.5|
92302297|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.54|STANDARD_ERROR_OF_MEAN|4.1389|||TWO_SIDED|95.0|-7.7|8.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||8.8|-7.7|
92302298|NCT02037165|184509099|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.04|STANDARD_ERROR_OF_MEAN|3.3835|||TWO_SIDED|95.0|-8.8|4.7|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.7|-8.8|
92187267|NCT01307800|184273047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|1.4||0.531|TWO_SIDED|95.0|-3.7|1.9||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||1.9|-3.7|0.531
92187268|NCT01307800|184273048|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|2.62||0.983|TWO_SIDED|95.0|-5.21|5.1||The comparison between 80 mg LY2140023, BID and placebo for the change from baseline in EQ-5D Questionnaire (VAS) was 2-sided without adjustment for multiplicity.|ANCOVA|||||5.10|-5.21|0.983
92187269|NCT01307800|184273048|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.56|STANDARD_ERROR_OF_MEAN|2.74||0.351|TWO_SIDED|95.0|-7.94|2.83||The comparison between 40 mg LY2140023, BID and placebo for the change from baseline in EQ-5D Questionnaire (VAS) was 2-sided without adjustment for multiplicity.|ANCOVA|||||2.83|-7.94|0.351
92302299|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-29.67|STANDARD_ERROR_OF_MEAN|29.5691|||TWO_SIDED|95.0|-88.3|29.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||29.0|-88.3|
92302300|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-16.29|STANDARD_ERROR_OF_MEAN|29.8613|||TWO_SIDED|95.0|-75.5|42.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||42.9|-75.5|
92302301|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|7.63|STANDARD_ERROR_OF_MEAN|25.1035|||TWO_SIDED|95.0|-42.2|57.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||57.5|-42.2|
92302302|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-20.47|STANDARD_ERROR_OF_MEAN|23.311|||TWO_SIDED|95.0|-66.7|25.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||25.8|-66.7|
92302303|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-12.63|STANDARD_ERROR_OF_MEAN|23.1894|||TWO_SIDED|95.0|-58.6|33.4|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||33.4|-58.6|
92302304|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.67|STANDARD_ERROR_OF_MEAN|23.7285|||TWO_SIDED|95.0|-47.8|46.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||46.5|-47.8|
92302305|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-19.27|STANDARD_ERROR_OF_MEAN|27.6359|||TWO_SIDED|95.0|-74.3|35.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||35.7|-74.3|
92302306|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-25.23|STANDARD_ERROR_OF_MEAN|27.5524|||TWO_SIDED|95.0|-79.9|29.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||29.5|-79.9|
92187270|NCT01307800|184273048|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.12|STANDARD_ERROR_OF_MEAN|2.54||0.403|TWO_SIDED|95.0|-2.86|7.11||The comparison between 10 mg LY2140023, BID and placebo for the change from baseline in EQ-5D Questionnaire (VAS) was 2-sided without adjustment for multiplicity.|ANCOVA|||||7.11|-2.86|0.403
92187271|NCT01307800|184273051|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-5.6|STANDARD_ERROR_OF_MEAN|2.4||0.021|TWO_SIDED|95.0|-10.4|-0.8||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||-0.8|-10.4|0.021
92302307|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-17.19|STANDARD_ERROR_OF_MEAN|27.0135|||TWO_SIDED|95.0|-70.9|36.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||36.5|-70.9|
92302308|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-39.62|STANDARD_ERROR_OF_MEAN|29.3023|||TWO_SIDED|95.0|-97.7|18.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||18.5|-97.7|
92302309|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-37.06|STANDARD_ERROR_OF_MEAN|29.5797|||TWO_SIDED|95.0|-95.7|21.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||21.6|-95.7|
92302310|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-52.45|STANDARD_ERROR_OF_MEAN|24.8429|||TWO_SIDED|95.0|-101.8|-3.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-3.1|-101.8|
92302311|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-59.87|STANDARD_ERROR_OF_MEAN|23.0541|||TWO_SIDED|95.0|-105.6|-14.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-14.1|-105.6|
92302312|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-39.96|STANDARD_ERROR_OF_MEAN|22.9336|||TWO_SIDED|95.0|-85.5|5.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.5|-85.5|
92187272|NCT01307800|184273051|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.8|STANDARD_ERROR_OF_MEAN|2.6||0.487|TWO_SIDED|95.0|-3.3|6.9||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||6.9|-3.3|0.487
92187273|NCT01307800|184273051|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|2.4||0.693|TWO_SIDED|95.0|-5.6|3.7||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||3.7|-5.6|0.693
92187274|NCT01307800|184273052|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.661|TWO_SIDED|95.0|-0.1|0.06||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.06|-0.10|0.661
92187275|NCT01307800|184273052|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.04||0.201|TWO_SIDED|95.0|-0.14|0.03||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.03|-0.14|0.201
92187276|NCT01307800|184273052|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.697|TWO_SIDED|95.0|-0.09|0.06||The comparison between 10 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.06|-0.09|0.697
92187277|NCT01307800|184273053|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.13||0.694|TWO_SIDED|95.0|-0.2|0.31||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.31|-0.20|0.694
92187278|NCT01307800|184273053|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.596|TWO_SIDED|95.0|-0.34|0.2||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.20|-0.34|0.596
92187279|NCT01307800|184273053|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.13||0.055|TWO_SIDED|95.0|0.0|0.49||The comparison between 10 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.49|0.00|0.055
92187280|NCT01307800|184273054|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.14||0.929|TWO_SIDED|95.0|-0.27|0.29||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.29|-0.27|0.929
92302313|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-38.99|STANDARD_ERROR_OF_MEAN|23.4683|||TWO_SIDED|95.0|-85.6|7.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||7.6|-85.6|
92302314|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-63.69|STANDARD_ERROR_OF_MEAN|27.3484|||TWO_SIDED|95.0|-118.1|-9.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-9.3|-118.1|
92302315|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-61.36|STANDARD_ERROR_OF_MEAN|27.2866|||TWO_SIDED|95.0|-115.6|-7.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-7.2|-115.6|
92302316|NCT02037165|184509100|SUPERIORITY_OR_OTHER||adjusted mean difference|-49.4|STANDARD_ERROR_OF_MEAN|26.7541|||TWO_SIDED|95.0|-102.6|3.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.8|-102.6|
92302317|NCT03334721|184509194|SUPERIORITY|"Given the crossover design through which the data were collected, the statistical model also included a Visit (1 vs. 2) factor and a Visit by Treatment Condition interaction term. Analysis used Linear Mixed Modeling with Fixed Factors."|Test III Tests of Fixed Effects (F)|0.141||||0.711|TWO_SIDED|||||Treatment Condition Factor (0 = Placebo, 1 = Gabapentin)|Mixed Models Analysis|df = 1, 20.183|||"Given the crossover design through which the data were collected, the statistical model also included a Visit (1 vs. 2) factor and a Visit by Treatment Condition interaction term."|||0.711
92302318|NCT00609518|184509205|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.09|||||TWO_SIDED|95.0|-0.1|0.28|||Linear probability model|||||0.28|-0.10|
92302319|NCT00609518|184509206|SUPERIORITY_OR_OTHER|||||||0.4902||95.0|||||Fisher Exact|||||||0.4902
92302320|NCT00609518|184509207|SUPERIORITY_OR_OTHER|||||||0.6791||95.0|||||Log Rank|||||||0.6791
92187281|NCT01307800|184273054|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.15||0.519|TWO_SIDED|95.0|-0.19|0.38||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.38|-0.19|0.519
92187282|NCT01307800|184273054|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|0.14||0.323|TWO_SIDED|95.0|-0.13|0.4||The comparison between 10 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.40|-0.13|0.323
92187283|NCT01307800|184273055|SUPERIORITY_OR_OTHER_LEGACY|||||||0.758||95.0||||The comparison between 80 mg LY2140023, BID and placebo in the percentage of participants with a change from baseline in C-SSRS suicidal ideation was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Fisher Exact|||||||0.758
92187284|NCT01307800|184273055|SUPERIORITY_OR_OTHER_LEGACY|||||||0.576||95.0||||The comparison between 40 mg LY2140023, BID and placebo in the percentage of participants with a change from baseline in C-SSRS suicidal ideation was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Fisher Exact|||||||0.576
92302321|NCT00609518|184509207|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.54|1.49|||Regression, Cox|Treatment was the covariate included in this model.||||1.49|0.54|
92302322|NCT00609518|184509208|SUPERIORITY_OR_OTHER|||||||0.587||95.0|||||Log Rank|||||||0.5870
92302323|NCT00609518|184509208|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.57|1.38|||Regression, Cox|Treatment was the covariate included in this model.||||1.38|0.57|
92302324|NCT00903448|184509209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED|95.0||||The least squares treatment means, i.e. adjusted treatment means, and standard errors were computed from the analysis of variance models.|Mixed Models Analysis|||This study enrolled 40 subjects in order to complete a target of at least 30 evaluable subjects. For the purpose of determination of sample size, it was assumed that at least 30 subjects would have complete data for all 3 treatment periods. Assuming the true mean difference in % time that gastric pH \> 4.0 between Prilosec OTC and Prevacid was at least 6.5, it was estimated that there would be at least 80% power to detect a treatment difference in 2-sided testing at the 5% significance level.||||< 0.0001
92302325|NCT01517659|184509229|OTHER||Mean Difference (Final Values)|2.61|STANDARD_DEVIATION|2.29|||TWO_SIDED|95.0|2.23|3.27||||||||3.27|2.23|
92302326|NCT02792959|184509270|NON_INFERIORITY|alpha=5%|Mean Difference (Net)|0.273||||0.602|TWO_SIDED||||||Kruskal-Wallis|||||||0.602
92187285|NCT01307800|184273055|SUPERIORITY_OR_OTHER_LEGACY|||||||0.425||95.0||||The comparison between 10 mg LY2140023, BID and placebo in the percentage of participants with a change from baseline in C-SSRS suicidal ideation was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Fisher Exact|||||||0.425
92302327|NCT02792959|184509271|SUPERIORITY|alpha=5%|Mean Difference (Net)|3.361||||0.067|TWO_SIDED||||||Kruskal-Wallis|||||||0.067
92302328|NCT02792959|184509272|SUPERIORITY|alpha=5%|Mean Difference (Net)|4.0||||0.036|TWO_SIDED||||||Kruskal-Wallis|||||||0.036
92302329|NCT02792959|184509273|SUPERIORITY|alpha=5%|Mean Difference (Net)|1.091||||0.296|TWO_SIDED||||||Kruskal-Wallis|||||||0.296
92302330|NCT02792959|184509274|SUPERIORITY|alpha=5%|Mean Difference (Net)|0.068||||0.794|TWO_SIDED||||||Kruskal-Wallis|||||||0.794
92302331|NCT02792959|184509275|SUPERIORITY|alpha=5%|Mean Difference (Net)|3.361||||0.067|TWO_SIDED||||||Kruskal-Wallis|||||||0.067
92302332|NCT02792959|184509276|SUPERIORITY|alpha=5%|Mean Difference (Net)|1.0||||0.296|TWO_SIDED||||||Kruskal-Wallis|||||||0.296
92302333|NCT02792959|184509277|SUPERIORITY|alpha=5%|Mean Difference (Net)|4.39||||0.036|TWO_SIDED||||||Kruskal-Wallis|||||||0.036
92302334|NCT02792959|184509278|SUPERIORITY|alpha=5%|Mean Difference (Net)|0.068||||0.794|TWO_SIDED||||||Kruskal-Wallis|||||||0.794
92302335|NCT02792959|184509279|SUPERIORITY|alpha=5%|Mean Difference (Net)|4.39||||0.036|TWO_SIDED||||||Kruskal-Wallis|||||||0.036
92302336|NCT02792959|184509280|SUPERIORITY|alpha=5%|Mean Difference (Net)|0.273||||0.602|TWO_SIDED||||||Kruskal-Wallis|||||||0.602
92187286|NCT01307800|184273058|SUPERIORITY_OR_OTHER_LEGACY|||||||0.444||95.0||||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|ANOVA|Analysis of variance (ANOVA) model on rank-transformed change.||||||0.444
92187287|NCT01307800|184273058|SUPERIORITY_OR_OTHER_LEGACY|||||||0.799||95.0||||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|ANOVA|ANOVA model on rank-transformed change.||||||0.799
92187288|NCT01307800|184273058|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073||95.0||||The comparison between 10 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|ANOVA|ANOVA model on rank-transformed change.||||||0.073
92302337|NCT02792959|184509281|SUPERIORITY|alpha=5%|Mean Difference (Net)|1.705||||0.192|TWO_SIDED||||||Kruskal-Wallis|||||||0.192
92302338|NCT00894738|184509299|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|||||The p-value listed is for DEXA total percent fat and is not adjusted for multiple comparisons. The alpha level was set to 5%.|ANCOVA|||The null hypothesis is that mean DEXA total percent fat is similar between the two groups of interest. The primary statistical model consisted of treatment group as a 2-level factor (AP-Treated Vs Non-AP Treated) and DEXA total percent fat as a covariate. Carotid intima-media thickness (CIMT) was the dependent variable.||||0.49
92302339|NCT00894738|184509300|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The p-value listed is for DEXA total percent fat and is not adjusted for multiple comparisons. The alpha level was set to 5%.|ANCOVA|||The statistical analysis consisted of treatment group as a 2-level factor variable and DEXA total percent fat as a covariate. An interaction term between treatment group and DEXA total percent fat was also generated. Hepatic triglyceride content was the dependent variable. DEXA total percent fat was found to be significant while treatment group and the interaction between treatment group and DEXA total percent fat were not significant.||||<0.0001
92302340|NCT01340768|184509311|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.52||||0.028|TWO_SIDED|95.0|0.29|0.94||P-value for association between treatment groups and proportions controlling for prior therapy (monotherapy or combination therapy).|Cochran-Mantel-Haenszel|||||0.94|0.29|0.028
92302341|NCT01340768|184509312|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49||||0.006|TWO_SIDED|95.0|0.29|0.83||P-value for association between treatment groups and proportions controlling for prior therapy (monotherapy or combination therapy).|Cochran-Mantel-Haenszel|||||0.83|0.29|0.006
92302342|NCT02397408|184509344|OTHER||||||<|0.008|||||||Wilcoxon (Mann-Whitney)|||||||<.008
92302343|NCT05070546|184509409|NON_INFERIORITY|Non-inferiority of Cohort 3 (Group 5) versus Cohorts 1 (Group 1) and 2 (Group 3) in terms of RSV A2 Strain neutralizing antibody titers against 14 days after vaccination, using a non-inferiority margin of 0.67 for the GMT ratio (Cohort 3 \[Group 5\]/Cohort 1\[Group1\] and 2 \[Group 3\])|Geometric Mean Ratio|1.41|||||TWO_SIDED|95.0|1.25|1.6|||Geometric Mean Ratio|||||1.60|1.25|
92302344|NCT05070546|184509409|NON_INFERIORITY|Non-inferiority of Cohort 3 (Group 5) versus Cohort 2 (Group 3 in terms of RSV A2 Strain neutralizing antibody titers against 14 days after vaccination, using a non-inferiority margin of 0.67 for the GMT ratio (Cohort 3 \[Group 5\]/Cohort 2 \[Group 3\])|Geometric mean ratio|1.54|||||TWO_SIDED|95.0|1.34|1.78|||Geometric Mean Ratio|||||1.78|1.34|
92302345|NCT05070546|184509410|NON_INFERIORITY|Non-inferiority of Cohort 3 (Group 5) versus Cohorts 1 (Group 1) and 2 (Group 3) in terms of RSV A2 Strain neutralizing antibody titers against 14 days after vaccination, using a non-inferiority margin of -10% for the GMT ratio (Cohort 3 \[Group 5\]/Cohort 1\[Group1\] and 2 \[Group 3\]).|Difference in Seroresponse rate|5.4|||||TWO_SIDED|95.0|0.3|10.9|||Difference in Seroresponse rate|||||10.9|0.3|
92302346|NCT05070546|184509410|NON_INFERIORITY|Non-inferiority of Cohort 3 (Group 5) versus Cohorts 1 (Group 1) and 2 (Group 3) in terms of RSV A2 Strain neutralizing antibody titers against 14 days after vaccination, using a non-inferiority margin of -10% for the GMT ratio (Cohort 3 \[Group 5\]/Cohort 2 \[Group 3\]).|Difference in Seroresponse rate|4.4|||||TWO_SIDED|95.0|-1.6|10.5|||Difference in Seroresponse rate|||||10.5|-1.6|
92302347|NCT01974440|184509436|SUPERIORITY||Hazard Ratio (HR)|0.806||||0.0922|TWO_SIDED|95.0|0.626|1.037|||Log Rank|||||1.037|0.626|0.0922
92302348|NCT01974440|184509437|SUPERIORITY||Hazard Ratio (HR)|0.725||||0.4505|TWO_SIDED|95.0|0.312|1.682|||Log Rank|||||1.682|0.312|0.4505
92302349|NCT04988152|184509450|SUPERIORITY||Ratio of geometric least squares means|1.0724|||||TWO_SIDED|90.0|0.8519|1.35|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with Cmax as the dependent variable, and ethnicity and body weight were covariates.|||1.3500|0.8519|
92302350|NCT04988152|184509451|OTHER||Ratio of geometric least squares means|1.0513|||||TWO_SIDED|90.0|0.9281|1.1908|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with AUC(D1-29) as the dependent variable, and ethnicity and body weight were covariates.|||1.1908|0.9281|
92302351|NCT04988152|184509454|OTHER||Ratio of geometric least squares means|1.6999|||||TWO_SIDED|90.0|1.15|2.5129|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with Cmax as the dependent variable, and ethnicity and body weight were covariates.|||2.5129|1.1500|
92302352|NCT04988152|184509455|OTHER||Ratio of geometric least squares means|1.5869|||||TWO_SIDED|90.0|1.1236|2.2413|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with AUC(D1-29) as the dependent variable, and ethnicity and body weight were covariates.|||2.2413|1.1236|
92302353|NCT04988152|184509470|OTHER||Ratio of geometric least squares means|1.0724|||||TWO_SIDED|90.0|0.8519|1.35|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with Cmax as the dependent variable, and ethnicity and body weight were covariates.|||1.3500|0.8519|
92302354|NCT04988152|184509472|OTHER||Ratio of geometric least squares means|1.0673|||||TWO_SIDED|90.0|0.9286|1.2268|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with AUClast as the dependent variable, and ethnicity and body weight were covariates.|||1.2268|0.9286|
92302355|NCT04988152|184509476|OTHER||Ratio of geometric least squares means|1.6999|||||TWO_SIDED|90.0|1.15|2.5129|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with Cmax as the dependent variable, and ethnicity and body weight were covariates.|||2.5129|1.1500|
92302356|NCT04988152|184509478|OTHER||Ratio of geometric least squares means|1.5766|||||TWO_SIDED|90.0|1.1777|2.1106|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with AUClast as the dependent variable, and ethnicity and body weight were covariates|||2.1106|1.1777|
92302357|NCT01610453|184509503|SUPERIORITY_OR_OTHER||||||<|0.01||||||A sample size calculation with alpha 0.05, power 0.8, and cut-off level of HPD at 40 mm. 146 women should be included. The calculation was based from a previous study, in which 93% with HPD ≤40 mm and 57% of with HPD \> 40 mm delivered vaginally.|Chi-squared|||Women were categorized in accordance to fetal descent measured by ultrasound. Head-perineum distance ≤40 mm was used as cut-off level. Vaginal delivery was the primary outcome measure.||||<0.01
92302358|NCT01610453|184509504|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||||||0.01
92302359|NCT00988065|184509511|SUPERIORITY_OR_OTHER||Difference in event rates|0.7||||||95.0|-1.8|3.7|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|||3.7|-1.8|
92302360|NCT00988065|184509511|SUPERIORITY_OR_OTHER||Difference in event rates|4.7||||||95.0|2.1|9.3|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|||9.3|2.1|
92302361|NCT00988065|184509512|SUPERIORITY_OR_OTHER||Difference in event rates|0.7||||||95.0|-1.8|3.7|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|||3.7|-1.8|
92302362|NCT00988065|184509512|SUPERIORITY_OR_OTHER||Difference in event rates|0.0||||||95.0|-2.5|2.5|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|||2.5|-2.5|
92302363|NCT00988065|184509513|SUPERIORITY_OR_OTHER||Difference in event rates|2.0||||||95.0|-0.5|5.7|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|Comparison of participants who had Level 1 or Level 2 diagnostic certainty.||5.7|-0.5|
92302364|NCT00988065|184509513|SUPERIORITY_OR_OTHER||Difference in event rates|0.0||||||95.0|-2.5|2.5|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|Comparison of participants who had Level 1 or Level 2 diagnostic certainty.||2.5|-2.5|
92302365|NCT00985712|184509516|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.6692|TWO_SIDED|95.0|-0.17|0.26|||Mixed Models Analysis|The model details are given in the section of Measure Description.||Superiority criterion is met if the upper limit of Confidence Interval (CI) is below zero.||0.26|-0.17|0.6692
92302366|NCT00985712|184509517|SUPERIORITY_OR_OTHER|||||||0.3551||95.0||||P-value is for HbA1c ≤7.0%.|Chi-squared|||||||0.3551
92302367|NCT00985712|184509517|SUPERIORITY_OR_OTHER|||||||0.2026||95.0||||P-value is for HbA1c ≤7.5%.|Chi-squared|||||||0.2026
92187289|NCT01307800|184273059|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.46||0.761|TWO_SIDED|95.0|-0.76|1.04||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||1.04|-0.76|0.761
92187290|NCT01307800|184273059|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.47||0.761|TWO_SIDED|95.0|-0.78|1.06||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||1.06|-0.78|0.761
92302368|NCT00985712|184509518|SUPERIORITY_OR_OTHER|||||||0.907||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) was adjusted for baseline values.||||||0.9070
92302369|NCT00985712|184509519|SUPERIORITY_OR_OTHER|||||||0.9817||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9817
92302370|NCT00985712|184509520|SUPERIORITY_OR_OTHER|||||||0.1187||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1187
92302371|NCT00279955|184509534|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.07|STANDARD_DEVIATION|0.292||0.0119|TWO_SIDED|95.0|1.17|3.67|||Regression, Cox||The estimated parameter in a Cox regression model was adjusted by age, gender, New York Heart Association (NYHA) class at 6 month visit, Angiotensin Converting Enzyme (ACE)/Angiotensin Receptor Blocker (ARB) at 6 months, and Diuretics at 6 month.|||3.67|1.17|0.0119
92302372|NCT00279955|184509535|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.9|STANDARD_DEVIATION|0.277||0.0185|TWO_SIDED|95.0|1.11|3.27|||Regression, Cox||The estimated parameter in a Cox regression model was adjusted by age, gender, NYHA class at 6 month visit, ACE/ARB at 6 months, and and at least one day where CRT pacing \<90% in last 21 days of DREP.|||3.27|1.11|0.0185
92302373|NCT00279955|184509536|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8|STANDARD_DEVIATION|0.311||0.0578|TWO_SIDED|95.0|0.98|3.31|||Regression, Cox||A Cox regression model has been used here, and the estimated parameter has been adjusted by including covariates age, gender, and NYHA class at 6 months.|||3.31|0.98|0.0578
92302374|NCT04700280|184509597|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|2.69||0.617|TWO_SIDED|90.0|-6.2|3.4|||Mixed Models Analysis|||||3.4|-6.2|0.617
92302375|NCT04700280|184509599|SUPERIORITY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.62||0.3089|TWO_SIDED|90.0|-1.7|0.41|||Mixed Models Analysis|||Week 4||0.41|-1.70|0.3089
92302376|NCT04700280|184509599|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.71||0.2834|TWO_SIDED|90.0|-1.97|0.43|||Mixed Models Analysis|||Week 8||0.43|-1.97|0.2834
92302377|NCT04700280|184509599|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.95||0.7109|TWO_SIDED|90.0|-2.02|1.3|||Mixed Models Analysis|||Week 12||1.30|-2.02|0.7109
92302378|NCT04700280|184509600|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.81||0.859|TWO_SIDED|90.0|-3.6|2.9|||Mixed Models Analysis|||Week 4||2.9|-3.6|0.859
92302379|NCT04700280|184509600|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|2.46||0.837|TWO_SIDED|90.0|-3.8|4.8|||Mixed Models Analysis|||Week 8||4.8|-3.8|0.837
92302380|NCT01843348|184509602|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) with tx, center, donor type factors. Raw and adjusted means were presented with one-sided p-values for un-shifted and shifted hypothesis, respectively. Significance level = 2.5% (one-sided)|Least square mean|-9.35|||<|0.0001|TWO_SIDED|95.0|-13.82|-4.88|||ANOVA|||The trial tests the null hypotheses that the treatment difference (investigational minus reference) in mean eGFR at re-assigned visit Month 12 is lower than the non-inferiority margin (Δ) of 7 mL/min per 1.73m2 versus the alternative that the treatment difference is equal to or greater than the non-inferiority margin||-4.88|-13.82|<0.0001
92302381|NCT01843348|184509602|NON_INFERIORITY_OR_EQUIVALENCE|The trial tests the null hypotheses that the treatment difference (investigational minus reference) in mean eGFR at re-assigned visit Month 12 is lower than the non-inferiority margin (Δ) of 7 mL/min per 1.73m2 versus the alternative that the treatment difference is equal to or greater than the non-inferiority margin|Least squares mean|-5.56||||0.0067|TWO_SIDED|95.0|-9.56|-1.55||Analysis of variance (ANOVA) with tx, center, donor type factors. Raw and adjusted means were presented with one-sided p-values for un-shifted and shifted hypothesis, respectively. Significance level = 2.5% (one-sided)|ANOVA|||||-1.55|-9.56|0.0067
92302382|NCT01843348|184509603|SUPERIORITY_OR_OTHER||Point estimate|0.032|||||TWO_SIDED|95.0|-0.029|0.093||||||TAC+Certican - TAC+MPA - difference between groups||0.093|-0.029|
92302383|NCT01843348|184509603|SUPERIORITY_OR_OTHER||Point estimate|0.149|||||TWO_SIDED|95.0|0.076|0.221||||||CycA+Certican -Tac+MPA - difference between groups||0.221|0.076|
92302384|NCT01843348|184509607|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.028|||<|0.001|TWO_SIDED|95.0|-0.032|0.087|||Pearson's chi-square test|||BPAR - treatment differences at Month 12||0.087|-0.032|< 0.001
92302385|NCT00257920|184509619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.009||0.67||95.0|-0.023|0.015||No adjustment was made for multiple comparisons. A single hypothesis was tested by the primary efficacy analysis. All hypothesis tests were two-tailed and P-values \<= 0.050 were considered statistically significant.|Mixed Models Analysis|||The null hypothesis was that there is no difference in the mean calcium absorption fraction between Zemplar Injection and Hectorol Injection. The power calculation applied to the primary efficacy analysis.||0.015|-0.023|0.670
92302386|NCT00257920|184509620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.009||0.573||95.0|-0.024|0.014||No adjustment was made for multiple comparisons. A single hypothesis was tested by the primary efficacy analysis. All hypothesis tests were two-tailed and P-values \<=0.050 were considered statistically significant.|ANOVA|||The null hypothesis was that there is no difference in mean calcium absorption between Zemplar and Hectorol. Approximately 42 subjects were to be randomized assuming 36 subjects would available in the per-protocol set. A sample size of 36 subjects has 80% power to detect a mean difference of -0.018 assuming the Zemplar group mean is 0.139, the Hectorol group mean is 0.157 and the STD is 0.037. The ANOVA model included effects for sequence, subject-within-sequence, period and treatment regimen.||0.014|-0.024|0.573
92302387|NCT01189500|184509637|SUPERIORITY_OR_OTHER||ratio of adjusted means|100.69|||||TWO_SIDED|90.0|96.7|104.85|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||104.85|96.70|
92302388|NCT01189500|184509639|SUPERIORITY_OR_OTHER||ratio of adjusted means|99.44|||||TWO_SIDED|90.0|94.02|105.17|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||105.17|94.02|
92302389|NCT01189500|184509644|SUPERIORITY_OR_OTHER||ratio of adjusted means|92.04|||||TWO_SIDED|90.0|84.71|100.0|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||100.00|84.71|
92302390|NCT01189500|184509650|SUPERIORITY_OR_OTHER||ratio of adjusted means|112.07|||||TWO_SIDED|90.0|107.44|116.9|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||116.90|107.44|
92302391|NCT01189500|184509655|SUPERIORITY_OR_OTHER||ratio of adjusted means|105.6|||||TWO_SIDED|90.0|99.74|111.81|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||111.81|99.74|
92302392|NCT01189500|184509656|SUPERIORITY_OR_OTHER||ratio of adjusted means|108.47|||||TWO_SIDED|90.0|103.51|113.67|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||113.67|103.51|
92302393|NCT01000493|184509677|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.62||||0.3624|TWO_SIDED|95.0|-17.9|6.65||The mixed effects model repeated measures (MMRM) analysis included treatment, week, Baseline total CAPS score and the treatment by week and Baseline. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between Placebo and Orvepitant 60 mg at Week 12.|||6.65|-17.9|0.3624
92302394|NCT01000493|184509678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.3156|TWO_SIDED|95.0|0.54|6.76|||Logistic regression analysis|The analysis method was logistic regression adjusted for Baseline CAPS total score.|Comparison between Placebo and Orvepitant 60 mg at Week 1. Odds ratios represent the odds of improvement, relative to placebo.|||6.76|0.54|0.3156
92302395|NCT01000493|184509678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.3024|TWO_SIDED|95.0|0.27|1.5|||Logistic regression analysis|The analysis method was logistic regression adjusted for Baseline CAPS total score.|Comparison between Placebo and Orvepitant 60 mg at Week 1. Odds ratios represent the odds of improvement, relative to placebo.|||1.50|0.27|0.3024
92187291|NCT01307800|184273059|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.44||0.489|TWO_SIDED|95.0|-1.17|0.56||The comparison between 10 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.56|-1.17|0.489
92187292|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.77|||||TWO_SIDED|95.0|0.62|0.97|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 4: Ratio of geometric means (13vPnC, 7vPnC)||0.97|0.62|
92302396|NCT01000493|184509678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4||||0.1208|TWO_SIDED|95.0|0.79|7.28|||Logistic regression analysis|The analysis method was logistic regression adjusted for Baseline CAPS total score.|Comparison between Placebo and Orvepitant 60 mg at Week 8. Odds ratios represent the odds of improvement, relative to placebo.|||7.28|0.79|0.1208
92302397|NCT01000493|184509678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.27||||0.1331|TWO_SIDED|95.0|0.7|15.4|||Logistic regression analysis|The analysis method was logistic regression adjusted for Baseline CAPS total score.|Comparison between Placebo and Orvepitant 60 mg at Week 1. Odds ratios represent the odds of improvement, relative to placebo.|||15.4|0.70|0.1331
92302398|NCT01000493|184509680|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87||||0.7015|TWO_SIDED|95.0|-5.35|3.61||The MMRM analysis model included treatment, week, Baseline total CAPS score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 1.|||3.61|-5.35|0.7015
92302399|NCT01000493|184509680|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.81||||0.4292|TWO_SIDED|95.0|-4.22|9.84||The MMRM analysis model included treatment, week, Baseline total CAPS score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||9.84|-4.22|0.4292
92302400|NCT01000493|184509680|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.64||||0.3702|TWO_SIDED|95.0|-14.9|5.62||The MMRM analysis model included treatment, week, Baseline total CAPS score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||5.62|-14.9|0.3702
92302401|NCT01000493|184509681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.5719|TWO_SIDED|95.0|0.04|5.82|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to place. Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||5.82|0.04|0.5719
92302402|NCT01000493|184509681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.908||95.0|0.07|20.1|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to place. Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||20.1|0.07|0.9080
92302403|NCT01000493|184509681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.9486|TWO_SIDED|95.0|0.07|12.5|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to place. Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||12.5|0.07|0.9486
92302404|NCT01000493|184509683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.67||||0.5426|TWO_SIDED|95.0|-1.51|2.85||The MMRM analysis model included treatment, week, Baseline CAPS A/N subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 1.|||2.85|-1.51|0.5426
92302405|NCT01000493|184509683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51||||0.7552|TWO_SIDED|95.0|-2.73|3.75||The MMRM analysis model included treatment, week, Baseline CAPS A/N subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||3.75|-2.73|0.7552
92187293|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.17|||||TWO_SIDED|95.0|0.87|1.57|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 6B: Ratio of geometric means (13vPnC, 7vPnC)||1.57|0.87|
92187294|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.88|||||TWO_SIDED|95.0|0.73|1.07|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 9V: Ratio of geometric means (13vPnC, 7vPnC)||1.07|0.73|
92187295|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.91|||||TWO_SIDED|95.0|0.7|1.19|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 14: Ratio of geometric means (13vPnC, 7vPnC)||1.19|0.70|
92187296|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.97|||||TWO_SIDED|95.0|0.79|1.18|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 18C: Ratio of geometric means (13vPnC, 7vPnC)||1.18|0.79|
92302406|NCT01000493|184509683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.22||||0.3827|TWO_SIDED|95.0|-7.27|2.83||The MMRM analysis model included treatment, week, Baseline CAPS A/N subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||2.83|-7.27|0.3827
92302407|NCT01000493|184509683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.98||||0.4915|TWO_SIDED|95.0|-7.71|3.75||The MMRM analysis model included treatment, week, Baseline CAPS A/N subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||3.75|-7.71|0.4915
92302408|NCT01000493|184509684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.919|TWO_SIDED|95.0|-1.93|1.74||The MMRM analysis model included treatment, week, Baseline CAPS hyperarousal subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 1.|||1.74|-1.93|0.9190
92302409|NCT01000493|184509684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.32||||0.3326|TWO_SIDED|95.0|-1.37|4.0||The MMRM analysis model included treatment, week, Baseline CAPS hyperarousal subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||4.00|-1.37|0.3326
92187297|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.92|||||TWO_SIDED|95.0|0.71|1.19|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 19F: Ratio of geometric means (13vPnC, 7vPnC)||1.19|0.71|
92187298|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.04|||||TWO_SIDED|95.0|0.8|1.36|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 23F: Ratio of geometric means (13vPnC, 7vPnC)||1.36|0.80|
92302410|NCT01000493|184509684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.9712|TWO_SIDED|95.0|-3.91|3.77||The MMRM analysis model included treatment, week, Baseline CAPS hyperarousal subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||3.77|-3.91|0.9712
92302411|NCT01000493|184509684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.92||||0.6711|TWO_SIDED|95.0|-5.22|3.39||The MMRM analysis model included treatment, week, Baseline CAPS hyperarousal subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||3.39|-5.22|0.6711
92302412|NCT01000493|184509685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.5532|TWO_SIDED|95.0|0.36|6.92||The analysis method was logistic regression adjusted for Baseline total Clinical Global Impression-Severity of Illness scales (CGI-S) score.|Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. Comparison between placebo and orvepitant 60 mg once daily at Week 1.|||6.92|0.36|0.5532
92302413|NCT01000493|184509685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.4508|TWO_SIDED|95.0|0.54|3.93|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 2.|||3.93|0.54|0.4508
92302414|NCT01000493|184509685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.9234|TWO_SIDED|95.0|0.42|2.62|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||2.62|0.42|0.9234
92302415|NCT01000493|184509685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.48||||0.0662|TWO_SIDED|95.0|0.94|6.53|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 1|||6.53|0.94|0.0662
92302416|NCT01000493|184509685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.2767|TWO_SIDED|95.0|0.61|5.48|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||5.48|0.61|0.2767
92302417|NCT01000493|184509685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.17||||0.0588|TWO_SIDED|95.0|0.96|10.5|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 10.|||10.5|0.96|0.0588
92302418|NCT01000493|184509685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.33||||0.1032|TWO_SIDED|95.0|0.78|14.1|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||14.1|0.78|0.1032
92302419|NCT01000493|184509686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.1743|TWO_SIDED|95.0|-0.29|0.05||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 1.|||0.05|-0.29|0.1743
92187299|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|329.44|||||TWO_SIDED|95.0|242.98|446.67|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 1: Ratio of geometric means (13vPnC, 7vPnC)||446.67|242.98|
92302420|NCT01000493|184509686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.1181|TWO_SIDED|95.0|-0.46|0.05||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 2.|||0.05|-0.46|0.1181
92302421|NCT01000493|184509686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.9698|TWO_SIDED|95.0|-0.35|0.34||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||0.34|-0.35|0.9698
92302422|NCT01000493|184509686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.1341|TWO_SIDED|95.0|-0.69|0.09||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 6.|||0.09|-0.69|0.1341
92302423|NCT01000493|184509686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.61||||0.0064|TWO_SIDED|95.0|-1.04|-0.18||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||-0.18|-1.04|0.0064
92302424|NCT01000493|184509686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.1095|TWO_SIDED|95.0|-0.98|0.1||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 10.|||0.10|-0.98|0.1095
92302425|NCT01000493|184509686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32||||0.2814|TWO_SIDED|95.0|-0.9|0.27||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||0.27|-0.90|0.2814
92302426|NCT01000493|184509693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.92||||0.0083|TWO_SIDED|95.0|-3.33|-0.5||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 1|||-0.50|-3.33|0.0083
92302427|NCT01000493|184509693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.94||||0.0311|TWO_SIDED|95.0|-3.71|-0.18||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 2.|||-0.18|-3.71|0.0311
92302428|NCT01000493|184509693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.89||||0.1155|TWO_SIDED|95.0|-4.26|0.47||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||0.47|-4.26|0.1155
92302429|NCT01000493|184509693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.89||||0.021|TWO_SIDED|95.0|-5.33|-0.45||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 6.|||-0.45|-5.33|0.0210
92302430|NCT01000493|184509693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.86||||0.0582|TWO_SIDED|95.0|-5.83|0.1||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||0.10|-5.83|0.0582
92302431|NCT01000493|184509693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.88||||0.0927|TWO_SIDED|95.0|-6.25|0.49||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 10.|||0.49|-6.25|0.0927
92302432|NCT01000493|184509693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.8954|TWO_SIDED|95.0|-4.36|3.83||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||3.83|-4.36|0.8954
92302433|NCT04764630|184509700|SUPERIORITY|To demonstrate an increase in naloxone concentration, the lower bound of the one-sided 97.79% interval for the geometric mean ratio must exclude 1. The results will be transformed back to the original scale by exponentiation to provide treatment geometric means.|Geometric mean ratio|1.95||||0.002|ONE_SIDED|95.6|1.28|||Testing will be conducted sequentially (i.e., start at the initial time and progress forward, stopping if success is achieved) at a 1-sided 0.0221 significance level since an increase in naloxone exposure is expected.|t-test, 1 sided||Data is shown for 10-minute timepoint (first time point tested where an increased was observed). This compares results from the 4 naloxone dose arm (1 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Up to three different time points have been pre-specified for the comparison (10, 12.5, and 15 min). Time points will be evaluated from earliest to latest time. Testing will proceed until either one passes or all pre-specified time points fail. Subject-level naloxone concentrations will be log-transformed. Naloxone concentrations below the lower limit of quantification will result in that time point from that subject being removed for comparisons involving that treatment arm.|This was the first timepoint in the comparison that showed an increase in the 4 naloxone dose arm (1 every 2.5 min) compared to the 2 naloxone dose arm (1 every 2.5 min) and is the reported outcome for this endpoint.||1.28|0.002
92302434|NCT04764630|184509701|SUPERIORITY|To demonstrate an increase in naloxone concentration, the lower bound of the one-sided 97.79% interval for the geometric mean ratio must exclude 1. The results will be transformed back to the original scale by exponentiation to provide treatment geometric means.|Geometric mean ratio|1.98||||0.018|ONE_SIDED|95.6|1.03|||Testing will be conducted sequentially (i.e., start at the initial time and progress forward, stopping if success is achieved) at a 1-sided 0.0221 significance level since an increase in naloxone exposure is expected.|t-test, 1 sided||Data is shown for 4.5-minute timepoint (first time point tested where an increased was observed). This compares results from the 4 naloxone dose arm (2 doses every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Up to three different time points have been pre-specified for the comparison (4.5, 7, and 10 minutes). Time points will be evaluated from earliest to latest time. Testing will proceed until either one passes or all pre-specified time points fail. Subject-level naloxone concentrations will be log-transformed. Naloxone concentrations below the lower limit of quantification will result in that time point from that subject being removed for comparisons involving that treatment arm.|This was the first timepoint in the comparison that showed an increase in the 4 naloxone dose arm (2 doses every 2.5 min) compared to the 2 naloxone dose arm (1 every 2.5 min) and is the reported outcome for this endpoint.||1.03|0.018
92302435|NCT04764630|184509702|SUPERIORITY|To demonstrate an increase in naloxone concentration, the lower bound of the one-sided 97.79% interval for the geometric mean ratio must exclude 1. The results will be transformed back to the original scale by exponentiation to provide treatment geometric means.|Geometric mean ratio|1.69||||0.013|ONE_SIDED|95.6|1.06|||Testing will be conducted sequentially (i.e., start at the initial time and progress forward, stopping if success is achieved) at a 1-sided 0.0221 significance level since an increase in naloxone exposure is expected.|t-test, 1 sided||Data is shown for 4.5-minute timepoint (first time point tested where an increased was observed). This compares results from the 4 naloxone dose arm (2 doses every 2.5 min) (numerator) with the 4 naloxone dose arm (1 every 2.5 min) (denominator).|Up to three different time points have been pre-specified for the comparison (4.5, 7, and 10 minutes). Time points will be evaluated from earliest to latest time. Testing will proceed until either one passes or all pre-specified time points fail. Subject-level naloxone concentrations will be log-transformed. Naloxone concentrations below the lower limit of quantification will result in that time point from that subject being removed for comparisons involving that treatment arm.|This was the first timepoint in the comparison that showed an increase in the 4 naloxone dose arm (2 doses every 2.5 min) compared to the 4 naloxone dose arm (1 every 2.5 min) and is the reported outcome for this endpoint.||1.06|0.013
92302436|NCT04764630|184509703|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.89||||0.1|TWO_SIDED|90.0|0.78|1.0|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (1 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for Cmax will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||1.00|0.78|0.10
92302437|NCT04764630|184509703|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.77||||0.018|TWO_SIDED|90.0|0.65|0.92|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for Cmax will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.92|0.65|0.018
92302438|NCT04764630|184509703|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.87||||0.12|TWO_SIDED|90.0|0.75|1.01|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 4 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for Cmax will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||1.01|0.75|0.12
92302439|NCT04764630|184509704|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.83||||0.002|TWO_SIDED|90.0|0.76|0.91|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (1 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-inf will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.91|0.76|0.002
92302440|NCT04764630|184509704|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.75|||<|0.001|TWO_SIDED|90.0|0.7|0.81|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-inf will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.81|0.70|<0.001
92187300|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|40.79|||||TWO_SIDED|95.0|30.27|54.97|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 3: Ratio of geometric means (13vPnC, 7vPnC)||54.97|30.27|
92187301|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|13.12|||||TWO_SIDED|95.0|9.92|17.34|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 5: Ratio of geometric means (13vPnC, 7vPnC)||17.34|9.92|
92302441|NCT04764630|184509704|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.91||||0.014|TWO_SIDED|90.0|0.85|0.97|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 4 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-inf will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.97|0.85|0.014
92302442|NCT04764630|184509705|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.82||||0.001|TWO_SIDED|90.0|0.75|0.89|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (1 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-t will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.89|0.75|0.001
92302443|NCT04764630|184509705|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.74|||<|0.001|TWO_SIDED|90.0|0.69|0.8|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-t will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.80|0.69|<0.001
92302444|NCT04764630|184509705|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.91||||0.014|TWO_SIDED|90.0|0.85|0.96|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 4 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-t will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.96|0.85|0.014
92302445|NCT04319718|184509756|OTHER|||||||0.025|||||||Fisher Exact|||||||.025
92302446|NCT04319718|184509757|OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||.47
92302447|NCT04319718|184509761|OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||||||.67
92302448|NCT04319718|184509762|OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||.51
92302449|NCT04319718|184509763|OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||.09
92302450|NCT04319718|184509764|OTHER|||||||0.65|||||||Mixed Models Analysis|||||||.65
92302451|NCT04319718|184509764|OTHER|||||||0.24|||||||Mixed Models Analysis|||||||.24
92302452|NCT04319718|184509764|OTHER|||||||0.27|||||||Mixed Models Analysis|||||||.27
92187302|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|9.01|||||TWO_SIDED|95.0|6.46|12.56|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 6A: Ratio of geometric means (13vPnC, 7vPnC)||12.56|6.46|
92187303|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|165.9|||||TWO_SIDED|95.0|122.95|223.85|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 7F: Ratio of geometric means (13vPnC, 7vPnC)||223.85|122.95|
92187304|NCT00689351|184273072|SUPERIORITY_OR_OTHER||Ratio of geometric means|2.24|||||TWO_SIDED|95.0|1.83|2.75|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 19A: Ratio of geometric means (13vPnC, 7vPnC)||2.75|1.83|
92302453|NCT01030341|184509816|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Type I error: 0.05; power: 0.9|||||<|0.0001||||||Threshold for statistical significance: p \< 0.05|Regression, Logistic|Generalized estimating equations (GEE) with independent working correlation to account for correlated data comparing screening and treatment phases||Null hypothesis: Difference of 0% in the frequencies of hypoglycemic excursions (\<50 mg/dL) during the screening phase and treatment phase respectively.||||<0.0001
92302454|NCT01030341|184509816|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Type I error: 0.05; power: 0.9|||||<|0.0001||||||Threshold for statistical significance: p \< 0.05|Regression, Logistic|Generalized estimating equations (GEE) with independent working correlation to account for correlated data comparing screening and treatment phases||Null hypothesis: Difference of 0% in the frequencies of hypoglycemic excursions (\<70 mg/dL) during the screening phase and treatment phase respectively.||||<0.0001
92302455|NCT01030341|184509816|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Type I error: 0.05; power: 0.9||||||0.005||||||Threshold for statistical significance: p \< 0.05|Regression, Logistic|Generalized estimating equations (GEE) with independent working correlation to account for correlated data comparing screening and treatment phases||Null hypothesis: Difference of 0% in the frequencies of euglycemic excursions (70-180 mg/dL) during the screening phase and treatment phase respectively.||||0.005
92302456|NCT01030341|184509816|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Type I error: 0.05; power: 0.9||||||0.04||||||Threshold for statistical significance: p \< 0.05|Regression, Logistic|Generalized estimating equations (GEE) with independent working correlation to account for correlated data comparing screening and treatment phases||Null hypothesis: Difference of 0% in the frequencies of hyperglycemic excursions (\>180 mg/dL) during the screening phase and treatment phase respectively.||||0.04
92302457|NCT01030341|184509816|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Type I error: 0.05; power: 0.9|||||<|0.0001||||||Threshold for statistical significance: p \< 0.05|Regression, Logistic|Generalized estimating equations (GEE) with independent working correlation to account for correlated data comparing screening and treatment phases||Null hypothesis: Difference of 0% in the frequencies of hyperglycemic excursions (\>300 mg/dL) during the screening phase and treatment phase respectively.||||<0.0001
92302458|NCT01030341|184509817|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in total GCSI score from screening to 12 weeks of treatment.||||<0.0001
92302459|NCT01030341|184509817|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in total GCSI score from screening to 24 weeks of treatment.||||<0.0001
92302460|NCT01030341|184509817|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in GCSI composite score from screening to 12 weeks of treatment.||||<0.0001
92302461|NCT01030341|184509817|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in GCSI composite score from screening to 24 weeks of treatment.||||<0.0001
92302462|NCT01030341|184509817|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in PAGI-QOL score from screening to 12 weeks of treatment.||||<0.0001
92302463|NCT01030341|184509817|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in PAGI-QOL score from screening to 24 weeks of treatment.||||<0.0001
92302464|NCT01461226|184509818|OTHER|Mixed models analysis|mixed models|0.04|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92302465|NCT01461226|184509818|OTHER||mixed models|0.24||||0.64|TWO_SIDED|||||Baseline difference between groups|Mixed Models Analysis|||||||0.64
92187305|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.78|||||TWO_SIDED|95.0|0.6|1.02|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 4: Ratio of geometric means (13vPnC, 7vPnC)||1.02|0.60|
92187306|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.11|||||TWO_SIDED|95.0|0.83|1.48|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 6B: Ratio of geometric means (13vPnC, 7vPnC)||1.48|0.83|
92187307|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.95|||||TWO_SIDED|95.0|0.76|1.19|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 9V: Ratio of geometric means (13vPnC, 7vPnC)||1.19|0.76|
92302466|NCT01461226|184509818|OTHER|Mixed models|Slope|0.27||||0.6|TWO_SIDED||||||Mixed Models Analysis|||||||0.60
92302467|NCT01461226|184509818|OTHER|mixed models|mixed models|4.2||||0.04|TWO_SIDED||||||Mixed Models Analysis|||change after 10 months between groups||||0.04
92302468|NCT02307266|184509821|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3165|||||||Cochran-Mantel-Haenszel|||||||0.3165
92302469|NCT02307266|184509821|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0206|||||||Cochran-Mantel-Haenszel|||||||0.0206
92302470|NCT01032018|184509828|SUPERIORITY_OR_OTHER||Difference of back-transformed means.|-3.5||||0.01||95.0|-6.1|-0.7|||Mixed Models Analysis|||The trial was powered to detect a between-group difference in the 6-month change in depression symptoms. Assuming 5% attrition rate, we estimated that a sample of 150 patients would be needed to have 80% power to detect a clinically meaningful differential change in depression scores between groups of 0.46 SD.||-0.7|-6.1|0.01
92302471|NCT01796912|184509919|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92302472|NCT01796912|184509920|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92302473|NCT01796912|184509921|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
92302474|NCT01796912|184509922|SUPERIORITY|||||||0.016|||||||t-test, 2 sided|||||||0.016
92302475|NCT01796912|184509923|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92302476|NCT01796912|184509924|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92302477|NCT01796912|184509925|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92302478|NCT00841906|184509941|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
92302479|NCT03537274|184509996|SUPERIORITY|||||||0.078|||||||Chi-squared|||||||0.078
92302480|NCT03537274|184509996|SUPERIORITY|||||||0.005|||||||Chi-squared|||||||0.005
92302481|NCT03537274|184509996|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
92302482|NCT03537274|184509997|SUPERIORITY|||||||0.128|||||||Chi-squared|||||||0.128
92302483|NCT03537274|184509997|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92302484|NCT03537274|184509997|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92302485|NCT00974974|184510020|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<.0001
92302486|NCT00974974|184510021|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<.0001
92302487|NCT01297465|184510023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|0.947|||TWO_SIDED|95.0|-3.15|0.59|||ANOVA|ANOVA model adjusted for treatment and country|The primary efficacy variable was to be analyzed using an analysis of variance (ANOVA) model, adjusted for treatment and country.|The null hypothesis was that the difference between the mean number of oocytes is less than (-3) or greater than (+3) between the two treatment arm. The alternate hypothesis was that the difference is between (-3) and (+3). The study had 80% power to show that the group randomized to Pergoveris® has an absolute difference of no more than 3 oocytes retrieved in comparison to the group randomized to GONAL-f®/Pergoveris®||0.59|-3.15|
92302488|NCT04647721|184510050|NON_INFERIORITY|Non-inferiority margin of 0.5. The two-sided 95% confidence interval (CI) for the treatment difference was constructed using the repeated-measures analysis of covariance (ANCOVA).|Difference in Least Squares Means|0.03|||||TWO_SIDED|95.0|-0.07|0.12||||||||0.12|-0.07|
92302489|NCT04647721|184510051|OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.35|6.35||||||||6.35|-6.35|
92302490|NCT04647721|184510052|OTHER||Risk Difference (RD)|1.75|||||TWO_SIDED|95.0|-3.08|6.74||||||||6.74|-3.08|
92302491|NCT04380090|184510054|SUPERIORITY||Odds Ratio (OR)|1.37||||0.41|TWO_SIDED|95.0|0.65|2.86|||Regression, Logistic||OR for Propylene Glycol use (vs Docusate Sodium), adjusted for operative time and sex (female vs. male)|||2.86|0.65|0.41
92302492|NCT04380090|184510055|SUPERIORITY||Odds Ratio (OR)|0.79||||0.66|TWO_SIDED|95.0|0.28|2.24|||ordinal regression model||OR for Propylene Glycol use (vs Docusate Sodium), adjusted for operative time and sex (female vs. male)|||2.24|0.28|0.66
92187308|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.74|||||TWO_SIDED|95.0|0.57|0.95|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 14: Ratio of geometric means (13vPnC, 7vPnC)||0.95|0.57|
92187309|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.92|||||TWO_SIDED|95.0|0.72|1.19|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 18C: Ratio of geometric means (13vPnC, 7vPnC)||1.19|0.72|
92187310|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.45|||||TWO_SIDED|95.0|1.11|1.88|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 19F: Ratio of geometric means (13vPnC, 7vPnC)||1.88|1.11|
92187311|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.05|||||TWO_SIDED|95.0|0.78|1.4|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 23F: Ratio of geometric means (13vPnC, 7vPnC)||1.40|0.78|
92302493|NCT04380090|184510056|SUPERIORITY||Odds Ratio (OR)|1.28||||0.65|TWO_SIDED|95.0|0.45|3.63|||ordinal regression model||OR for Propylene Glycol use (vs Docusate Sodium), adjusted for operative time and sex (female vs. male)|||3.63|0.45|0.65
92302494|NCT04380090|184510057|EQUIVALENCE|Equivalence is defined as a p-value greater or equal to 0.05 (no difference between groups)||||||0.47|||||||Chi-squared|||||||0.47
92302495|NCT04380090|184510058|EQUIVALENCE|Equivalence is defined as a p-value greater or equal to 0.05 (no difference between groups)||||||0.99|||||||Fisher Exact|||||||0.99
92302496|NCT02749292|184510084|EQUIVALENCE|Using a two-sided log-rank test with an alpha level of 0.05, a projected relapse risk of 15% in the superior group and 30% in the inferior group, and an estimated enrollment time of 36 months, it was determined that 200 patients were required to detect a significant difference with a power of 0.80. Due to the coronavirus disease 2019 (COVID-19) pandemic and the deleterious impact of rituximab on vaccination efficacy, the trial was concluded before reaching the target enrollment of 200.|Hazard Ratio (HR)|0.37||||0.045|TWO_SIDED|95.0|0.15|0.9|||Log Rank|||"The difference between the two treatment strategies was assessed using the log-rank test. P values of 0.05 were considered significant. Both rows were included and combined in the statistical analysis (ANCA-PR3 and ANCA-MPO) to assess the difference in treatment strategies.~Null hypothesis: No difference in the ANCA and B-cell arm in the probability of relapses."||0.90|0.15|0.045
92302497|NCT02749292|184510085|OTHER|chi square test||||||0.87|||||||Chi-squared|||"Null hypothesis: No difference in the proportion of patients with SAEs in each arm"||||0.87
92302498|NCT02749292|184510090|OTHER||||||<|1|TWO_SIDED|95.0|||||t-test, 2 sided|||Null hypothesis: no difference in the mean number of infusions per patient in each arm.||||<0001
92302499|NCT02749292|184510091|OTHER||Mean Difference (Final Values)|-0.14||||0.17|TWO_SIDED|95.0|-0.34|-0.06|||t-test, 2 sided|||Null hypothesis: there is no difference in the mean change from baseline Vasculitis Damage Index between each arm. A t-test was used.||-0.06|-0.34|0.17
92302500|NCT02749292|184510092|OTHER|Using a two-sided log-rank test with an alpha level of 0.05, a projected relapse risk of 15% in the superior group and 30% in the inferior group, and an estimated enrollment time of 36 months, it was determined that 200 patients were required to detect a significant difference with a power of 0.80. Due to the coronavirus disease 2019 (COVID-19) pandemic and the deleterious impact of rituximab on vaccination efficacy, the trial was concluded before reaching the target enrollment of 200.|Hazard Ratio (HR)|1.64||||0.42|TWO_SIDED|95.0|0.5|5.36|||Log Rank|||"The difference between the two treatment strategies was assessed using the log-rank test. P values of 0.05 were considered significant.~Null hypothesis: No difference in the ANCA and B-cell arm in the probability of relapses"||5.36|0.50|0.42
92302501|NCT00251641|184510094|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|Pearson's chi-square test||The treatment comparison for this endpoint was carried at the 4.9% level of significance.||||<0.001
92302502|NCT00251641|184510095|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Multiplicity adjustment was provided using Hochberg test.|Chi-squared|Pearson's chi-square test||||||<0.001
92302503|NCT00251641|184510096|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Multiplicity adjustment was provided using the Hochberg test.|Chi-squared|Pearson's chi-square test||||||<0.001
92302504|NCT00251641|184510097|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Multiplicity adjustment was provided using the Hochberg test.|Chi-squared|Pearson's chi-square test||||||<0.001
92302505|NCT00876018|184510098|OTHER|||||||0.004||95.0|||||Mann Whitney U test|||||||0.004
92302506|NCT00876018|184510098|OTHER|||||||0.147||95.0|||||Mann Whitney U test|||||||0.147
92302507|NCT00876018|184510099|OTHER|||||||0.002||95.0|||||Mann Whitney U test|||||||0.002
92302508|NCT00876018|184510099|OTHER|||||||0.003||95.0|||||Mann Whitney U test|||||||0.003
92302509|NCT00876018|184510100|OTHER|||||||0.153||95.0|||||Mann Whitney U test|||||||0.153
92302510|NCT00876018|184510100|OTHER|||||||0.903||95.0|||||Mann Whitney U test|||||||0.903
92302511|NCT00876018|184510101|OTHER|||||||0.143||95.0|||||Mann Whitney U test|||||||0.143
92187312|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|234.33|||||TWO_SIDED|95.0|176.33|311.41|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 1: Ratio of geometric means (13vPnC, 7vPnC)||311.41|176.33|
92187313|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|16.63|||||TWO_SIDED|95.0|12.19|22.69|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 3: Ratio of geometric means (13vPnC, 7vPnC)||22.69|12.19|
92187314|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|6.84|||||TWO_SIDED|95.0|5.39|8.67|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 5: Ratio of geometric means (13vPnC, 7vPnC)||8.67|5.39|
92302512|NCT00876018|184510101|OTHER|||||||0.678||95.0|||||Mann Whitney U test|||||||0.678
92302513|NCT00888459|184510114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.432||95.0|||||Chi-squared|||||||.432
92302514|NCT03629028|184510115|NON_INFERIORITY|Data compared to meta-analysis conducted in Sardo et al., 2017||||||0.05|||||||Chi-squared|Chi-squared or Fisher's test statistic was used to compare the categorical variables.||The sample size was calculated based on the study of Sardo et al. The website http://powerandsamplesize.com/Calculators was used. As a result of the sample size calculation with 90% power and 0.05 alpha error, it was planned to include 141 patients in each group.||||0.05
92187315|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|4.08|||||TWO_SIDED|95.0|3.07|5.43|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 6A: Ratio of geometric means (13vPnC, 7vPnC)||5.43|3.07|
92302515|NCT02192164|184510126|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.757334|STANDARD_ERROR_OF_MEAN|1.594019|||TWO_SIDED|95.0|-5.916307|0.401638||||||||0.401638|-5.916307|
92302516|NCT02192164|184510127|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.911449|STANDARD_ERROR_OF_MEAN|1.426517|||TWO_SIDED|95.0|-3.73847|1.915572||||||||1.915572|-3.73847|
92302517|NCT03123861|184510133|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92302518|NCT03123861|184510134|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92302519|NCT03123861|184510135|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
92302520|NCT03123861|184510136|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
92302521|NCT04932941|184510137|SUPERIORITY||Common risk difference|-0.276||||0.962|TWO_SIDED|95.0|-11.634|11.081|||Mantel Haenszel||Strata-adjusted Mantel Haenszel (MH) method for difference in proportions controlling for stratification factors (COVID-19 severity: moderate, severe, and age group: less than or equal to 65 years, greater than 65 years).|||11.081|-11.634|0.962
92302522|NCT00986453|184510177|SUPERIORITY_OR_OTHER|||||||0.4697||95.0|||||t-test, 2 sided|||||||0.4697
92302523|NCT00986453|184510178|SUPERIORITY_OR_OTHER|||||||0.147||95.0|||||t-test, 2 sided|||||||0.1470
92302524|NCT00986453|184510179|SUPERIORITY_OR_OTHER|||||||0.0428||95.0|||||t-test, 2 sided|||||||0.0428
92302525|NCT00986453|184510180|SUPERIORITY_OR_OTHER|||||||0.0776||95.0|||||t-test, 2 sided|||||||0.0776
92302526|NCT00986453|184510181|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||t-test, 2 sided|||||||0.0002
92302527|NCT00922987|184510213|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||||||<0.0001
92302528|NCT00375492|184510227|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Mixed Model Repeated Measures|||||||0.0030
92302529|NCT00375492|184510228|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Model Repeated Measures|||||||<0.0001
92302530|NCT00375492|184510230|SUPERIORITY_OR_OTHER|||||||0.1985||95.0|||||Mixed Model Repeated Measures|||||||0.1985
92302531|NCT00375492|184510231|SUPERIORITY_OR_OTHER|||||||0.1827||95.0|||||ANCOVA|||||||0.1827
92302532|NCT00375492|184510232|SUPERIORITY_OR_OTHER|||||||0.1584||95.0|||||ANCOVA|||||||0.1584
92302533|NCT00375492|184510233|SUPERIORITY_OR_OTHER|||||||0.8279||95.0|||||ANCOVA|||||||0.8279
92302534|NCT00375492|184510234|SUPERIORITY_OR_OTHER|||||||0.8334||95.0|||||ANCOVA|||||||0.8334
92302535|NCT00375492|184510235|SUPERIORITY_OR_OTHER|||||||0.2881||95.0|||||ANCOVA|||||||0.2881
92302536|NCT00375492|184510236|SUPERIORITY_OR_OTHER|||||||0.0654||95.0|||||ANCOVA|||||||0.0654
92302537|NCT00375492|184510237|SUPERIORITY_OR_OTHER|||||||0.728||95.0|||||Cochran-Mantel-Haenszel|||||||0.728
92302538|NCT00375492|184510238|SUPERIORITY_OR_OTHER|||||||0.127||95.0|||||ANOVA|||||||0.127
92302539|NCT05011123|184510247|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) was \>-5%|Difference in percentage of participants|-1.2|||||TWO_SIDED|95.0|-3.4|1.8|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|||1.8|-3.4|
92302540|NCT05011123|184510248|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-5%|Difference in percentage of participants|-0.9|||||TWO_SIDED|95.0|-4.0|3.0|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|||3.0|-4.0|
92302541|NCT00461253|184510260|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a prevalence of current Mirena use among fertile women of 8% in Finland and 2% in Germany, it was estimated that 3,500 cases and 14,000 controls would be needed to exclude a 1.5-fold breast cancer risk for Mirena users compared with users of copper IUDs.|Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.88|1.12|||||Breast cancer OR for ever use of LNG-IUD vs. Cu-IUD; adjusted for BMI, family history of breast cancer, age at first birth, age at menarche and physical activity (primary analysis)|In this matched case-control study, conditional logistic regression was used to investigate the relationship between a woman being a breast cancer case or a control (dichotomous dependent variable), and a set of actual or potential prognostic factors (covariates) for breast cancer (incl. the use of Mirena). Conditional logistic regression uses a maximum likelihood approach for estimating the covariates; data are stratified and the likelihoods are computed relative to each stratum.||1.12|0.88|
92302542|NCT00461253|184510260|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a prevalence of current Mirena use among fertile women of 8% in Finland and 2% in Germany, it was estimated that 3,500 cases and 14,000 controls would be needed to exclude a 1.5-fold breast cancer risk for Mirena users compared with users of copper IUDs.|Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.93|1.17|||||Breast cancer OR for ever use of LNG-IUD vs. Cu-IUD, crude|In this matched case-control study, conditional logistic regression was used to investigate the relationship between a woman being a breast cancer case or a control (dichotomous dependent variable), and a set of actual or potential prognostic factors (covariates) for breast cancer (incl. the use of Mirena). Conditional logistic regression uses a maximum likelihood approach for estimating the covariates; data are stratified and the likelihoods are computed relative to each stratum.||1.17|0.93|
92302543|NCT00461253|184510260|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a prevalence of current Mirena use among fertile women of 8% in Finland and 2% in Germany, it was estimated that 3,500 cases and 14,000 controls would be needed to exclude a 1.5-fold breast cancer risk for Mirena users compared with users of copper IUDs.|Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.52|1.39|||||"Breast cancer OR for current use of LNG-IUD vs. Cu-IUD at time of breast cancer diagnosis; adjusted for BMI, family history of breast cancer, age at first birth, age at first menarche, physical activity (primary analysis)"|In this matched case-control study, conditional logistic regression was used to investigate the relationship between a woman being a breast cancer case or a control (dichotomous dependent variable), and a set of actual or potential prognostic factors (covariates) for breast cancer (incl. the use of Mirena). Conditional logistic regression uses a maximum likelihood approach for estimating the covariates; data are stratified and the likelihoods are computed relative to each stratum.||1.39|0.52|
92302544|NCT00461253|184510260|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a prevalence of current Mirena use among fertile women of 8% in Finland and 2% in Germany, it was estimated that 3,500 cases and 14,000 controls would be needed to exclude a 1.5-fold breast cancer risk for Mirena users compared with users of copper IUDs.|Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.58|1.41|||||"Breast cancer OR for current use of LNG-IUD vs. Cu-IUD at time of breast cancer diagnosis, crude"|In this matched case-control study, conditional logistic regression was used to investigate the relationship between a woman being a breast cancer case or a control (dichotomous dependent variable), and a set of actual or potential prognostic factors (covariates) for breast cancer (incl. the use of Mirena). Conditional logistic regression uses a maximum likelihood approach for estimating the covariates; data are stratified and the likelihoods are computed relative to each stratum.||1.41|0.58|
92302545|NCT02297438|184510262|SUPERIORITY||Hazard Ratio (HR)|0.677||||0.0012|TWO_SIDED|95.0|0.529|0.867||1-sided p-value from the adjusted log-rank test.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Letrozole.|Stratified by disease site (visceral vs. non-visceral) per Randomization.||0.867|0.529|0.0012
92302546|NCT02297438|184510263|SUPERIORITY||Hazard Ratio (HR)|0.861||||0.14778|TWO_SIDED|95.0|0.651|1.139||1-sided p-value from the log-rank test.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Letrozole.|Stratified by disease site (visceral versus non-visceral) per Randomization.||1.139|0.651|0.14778
92302547|NCT02297438|184510264|SUPERIORITY||Odds Ratio (OR)|1.301||||0.154|TWO_SIDED|95.0|0.805|2.1||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.100|0.805|0.154
92302548|NCT02297438|184510265|SUPERIORITY||Odds Ratio (OR)|1.255||||0.206|TWO_SIDED|95.0|0.762|2.066||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.066|0.762|0.206
92187316|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|110.92|||||TWO_SIDED|95.0|77.09|159.59|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 7F: Ratio of geometric means (13vPnC, 7vPnC)||159.59|77.09|
92302549|NCT02297438|184510266|SUPERIORITY||Odds Ratio (OR)|1.315||||0.135|TWO_SIDED|95.0|0.825|2.095||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.095|0.825|0.135
92187317|NCT00689351|184273073|SUPERIORITY_OR_OTHER||Ratio of geometric means|4.25|||||TWO_SIDED|95.0|3.39|5.33|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 19A: Ratio of geometric means (13vPnC, 7vPnC)||5.33|3.39|
92187318|NCT00689351|184273074|SUPERIORITY_OR_OTHER|||||||0.862|||||||Fisher Exact|||Comparison between treatments for any tenderness.||||0.862
92187319|NCT00689351|184273074|SUPERIORITY_OR_OTHER|||||||0.157|||||||Fisher Exact|||Comparison between treatments for significant tenderness.||||0.157
92187320|NCT00689351|184273074|SUPERIORITY_OR_OTHER|||||||0.55|||||||Fisher Exact|||Comparison between treatments for any swelling.||||0.550
92187321|NCT00689351|184273074|SUPERIORITY_OR_OTHER|||||||0.052|||||||Fisher Exact|||Comparison between treatments for mild swelling.||||0.052
92187322|NCT00689351|184273074|SUPERIORITY_OR_OTHER|||||||0.366|||||||Fisher Exact|||Comparison between treatments for moderate swelling.||||0.366
92187323|NCT00689351|184273074|SUPERIORITY_OR_OTHER|||||||0.301|||||||Fisher Exact|||Comparison between treatments for any redness.||||0.301
92302550|NCT02297438|184510267|SUPERIORITY||Odds Ratio (OR)|1.392||||0.117|TWO_SIDED|95.0|0.825|2.346||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.346|0.825|0.117
92302551|NCT02297438|184510270|SUPERIORITY||Odds Ratio (OR)|0.945||||0.471|TWO_SIDED|95.0|0.533|1.673||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||1.673|0.533|0.471
92302552|NCT02297438|184510271|SUPERIORITY||Odds Ratio (OR)|0.878||||0.383|TWO_SIDED|95.0|0.474|1.621||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||1.621|0.474|0.383
92302553|NCT02297438|184510272|SUPERIORITY||Odds Ratio (OR)|1.227||||0.248|TWO_SIDED|95.0|0.725|2.082||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.082|0.725|0.248
92302554|NCT02297438|184510273|SUPERIORITY||Odds Ratio (OR)|1.349||||0.189|TWO_SIDED|95.0|0.731|2.509||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.509|0.731|0.189
92302555|NCT02297438|184510274|SUPERIORITY||Hazard Ratio (HR)|0.947||||0.36502|TWO_SIDED|95.0|0.698|1.286||1-sided p-value was from exact test.|Log Rank||Assuming Cox proportional hazards, hazard ratio less than 1 indicates reduction in hazard rate in favor of Palbociclib + Letrozole.|Stratified by disease site (visceral versus non-visceral) per Randomization.||1.286|0.698|0.36502
92302556|NCT02297438|184510281|SUPERIORITY||Mean|0.031||||0.1914|TWO_SIDED|95.0|-0.02|0.08|||Mixed effects model||A positive change indicates improvement from baseline and a negative change indicates deterioration.|The analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||0.08|-0.02|0.1914
92302557|NCT02297438|184510282|SUPERIORITY||Mean|3.358||||0.0078|TWO_SIDED|95.0|0.88|5.83|||Mixed effects model||A positive change indicates improvement from baseline and a negative change indicates deterioration.|The analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||5.83|0.88|0.0078
92302558|NCT02297438|184510283|SUPERIORITY||Mean|0.476||||0.7862|TWO_SIDED|95.0|-2.97|3.92|||Mixed effects model||A positive change indicates improvement from baseline and a negative change indicates deterioration.|The analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||3.92|-2.97|0.7862
92187324|NCT00689351|184273074|SUPERIORITY_OR_OTHER|||||||0.362|||||||Fisher Exact|||Comparison between treatments for mild redness.||||0.362
92302559|NCT02440022|184510294|SUPERIORITY|||||||0.0562|||||||Kaplan-Meier|||||||0.0562
92302560|NCT02440022|184510295|NON_INFERIORITY|Where δ = 10% is the non-inferiority margin, which is the range of difference that is considered not clinically important. A non-inferiority Farrington and Manning Test was used to test the primary safety hypothesis. The test is successful if the one-sided p-value is less than 0.025. In addition to the p-value of the test, the confidence intervals of the rate in each group and the difference between the two groups is calculated.||||||0.002|||||||Binary Analysis|||"H0: The primary safety rate p1 in the DCB treatment group through 30 days post index procedure is inferior to that p2 of the PTA treatment group. (i.e. p1 ≤ p2 - δ)~H1: The primary safety rate p1 in the DCB treatment group through 30 days post index procedure is non-inferior to that p2 of the PTA treatment group. (i.e. p1 \> p2 - δ)"||||0.002
92302561|NCT02440022|184510301|OTHER|||||||0.716||||||P-value was type 3 test of the interaction of treatment group and pre-dilation balloon type.|Regression, Cox|||||||0.7160
92302562|NCT00792935|184510304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|4.4||0.847|TWO_SIDED|95.0|-7.9|9.6|||Constrained longitudinal analysis|||Using a standard deviation of 23.5 mg/dL, a sample size of at least 65 participants per treatment group would be required to have an 80% power to detect a true difference of 12.5 mg/dL between MK-0941 and glimepiride as measured by change from baseline in 24-hour WMG at Week 6.||9.6|-7.9|0.847
92302563|NCT00792935|184510305|SUPERIORITY_OR_OTHER||Proportions|-7.7||||0.361|TWO_SIDED|95.0|-23.6|8.7|||Miettinen & Nurminen method.||The estimated value represents the difference in percentages, MK-0941 minus Glimepiride.|||8.7|-23.6|0.361
92302564|NCT02920918|184510312|SUPERIORITY|||||||0.083|||||||ANOVA|||We expected a baseline peak oxygen consumption (VO2) of 14.5 mL/kg/min. A sample size of 40 patients per group (total of 80 patients) provided sufficient power to detect a mean difference in the interval change in peak VO2 of 1.50±1.76 mL/kg/min (primary endpoint) expected with Canagliflozin compared to Sitagliptin, which we predict to have no significant effect on peak VO2 (0±1.76 mL/kg/min).||||0.083
92302565|NCT02920918|184510313|SUPERIORITY|||||||0.51|||||||ANOVA|||||||0.51
92187325|NCT00689351|184273074|SUPERIORITY_OR_OTHER|||||||0.718|||||||Fisher Exact|||Comparison between treatments for moderate redness.||||0.718
92302566|NCT00450619|184510344|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5019||||0.041|TWO_SIDED|95.0|||||Log Rank|||||||0.041
92302567|NCT00450619|184510344|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5019||||0.046|TWO_SIDED|95.0|||||Hazard Ratio|||||||0.046
92187326|NCT00689351|184273075|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Comparison between treatments for any tenderness.||||>0.99
92187327|NCT00689351|184273075|SUPERIORITY_OR_OTHER|||||||0.245|||||||Fisher Exact|||Comparison between treatments for significant tenderness.||||0.245
92187328|NCT00689351|184273075|SUPERIORITY_OR_OTHER|||||||0.447|||||||Fisher Exact|||Comparison between treatments for any swelling.||||0.447
92187329|NCT00689351|184273075|SUPERIORITY_OR_OTHER|||||||0.684|||||||Fisher Exact|||Comparison between treatments for mild swelling.||||0.684
92187330|NCT00689351|184273075|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Comparison between treatments for moderate swelling.||||>0.99
92187331|NCT00689351|184273075|SUPERIORITY_OR_OTHER|||||||0.578|||||||Fisher Exact|||Comparison between treatments for any redness.||||0.578
92187332|NCT00689351|184273075|SUPERIORITY_OR_OTHER|||||||0.451|||||||Fisher Exact|||Comparison between treatments for mild redness.||||0.451
92302568|NCT00450619|184510348|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.3|TWO_SIDED|95.0|0.37|1.35|||Kaplan Meier|||||1.35|0.37|0.30
92302569|NCT04442490|184510415|SUPERIORITY||Least Squares (LS) Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.0141|TWO_SIDED|95.0|-3.1|-0.3|||MMRM||Model used was the MMRM with treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|||-0.3|-3.1|0.0141
92302570|NCT04442490|184510416|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.1193|TWO_SIDED|95.0|-0.4|0.0|||MMRM||Model used was the MMRM with treatment (SAGE-217 or placebo), baseline CGI-S score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|||0.0|-0.4|0.1193
92302571|NCT04442490|184510417|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.52|<|0.0001|TWO_SIDED|95.0|-4.0|-2.0|||MMRM||Model used was the MMRM with treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from baseline at Day 3||-2.0|-4.0|<0.0001
92302572|NCT04442490|184510417|SUPERIORITY||LS Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.61|<|0.0001|TWO_SIDED|95.0|-3.8|-1.4|||MMRM||Model used was the MMRM with treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from baseline at Day 8||-1.4|-3.8|<0.0001
92302573|NCT04442490|184510417|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.76||0.2344|TWO_SIDED|95.0|-2.4|0.6|||MMRM||Model used was the MMRM with treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from baseline at Day 42||0.6|-2.4|0.2344
92302574|NCT04442490|184510418|SUPERIORITY||Odds Ratio (OR)|1.4||||0.0599|TWO_SIDED|95.0|0.99|1.98|||Generalized Estimating Equation Model|||Day 15|Model used is a GEE for binary response model, with factors for treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction with Unstructured covariance structure. Odds ratio was the estimate of the odds of having HAM-D response for participants treated with SAGE-217 relative to that for participants treated with placebo.|1.98|0.99|0.0599
92302575|NCT04442490|184510418|SUPERIORITY||Odds Ratio (OR)|1.36||||0.0889|TWO_SIDED|95.0|0.95|1.94|||GEE Model|||Day 42|Model used is a GEE for binary response model, with factors for treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction with Unstructured covariance structure.Odds ratio was the estimate of the odds of having HAM-D response for participants treated with SAGE-217 relative to that for participants treated with placebo.|1.94|0.95|0.0889
92302576|NCT04442490|184510419|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5495|TWO_SIDED|95.0|0.76|1.66|||GEE Model|||Day 15|Model used is GEE for binary response model, with factors for treatment, baseline HAM-D total score, antidepressant use at baseline, assessment time point, and time point-by-treatment interaction with Unstructured covariance structure. Odds ratio was the estimate of the odds of having HAM-D remission for participants treated with SAGE-217 relative to that for participants treated with placebo.|1.66|0.76|0.5495
92187333|NCT00689351|184273075|SUPERIORITY_OR_OTHER|||||||0.712|||||||Fisher Exact|||Comparison between treatments for moderate redness.||||0.712
92187334|NCT00689351|184273076|SUPERIORITY_OR_OTHER|||||||0.681|||||||Fisher Exact|||Comparison between treatments for any tenderness.||||0.681
92187335|NCT00689351|184273076|SUPERIORITY_OR_OTHER|||||||0.482|||||||Fisher Exact|||Comparison between treatments for significant tenderness.||||0.482
92302577|NCT04442490|184510419|SUPERIORITY||Odds Ratio (OR)|1.09||||0.679|TWO_SIDED|95.0|0.74|1.6|||GEE Model|||Day 42|Model used is GEE for binary response model, with factors for treatment, baseline HAM-D total score, antidepressant use at baseline, assessment time point, and time point-by-treatment interaction with Unstructured covariance structure. Odds ratio was the estimate of the odds of having HAM-D remission for participants treated with SAGE-217 relative to that for participants treated with placebo.|1.60|0.74|0.6790
92187336|NCT00689351|184273076|SUPERIORITY_OR_OTHER|||||||0.683|||||||Fisher Exact|||Comparison between treatments for any swelling.||||0.683
92187337|NCT00689351|184273076|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Comparison between treatments for mild swelling.||||>0.99
92302578|NCT04442490|184510420|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0191|TWO_SIDED|95.0|1.07|2.16|||GEE Model|||Placebo, SAGE-217|Model used was a GEE for binary response model, with factors for treatment, CGI-S baseline score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction with Unstructured covariance structure. Odds ratio was the estimate of the odds of having CGI-I response for participants treated with SAGE-217 relative to that for participants treated with placebo.|2.16|1.07|0.0191
92187338|NCT00689351|184273076|SUPERIORITY_OR_OTHER|||||||0.533|||||||Fisher Exact|||Comparison between treatments for moderate swelling.||||0.533
92187339|NCT00689351|184273076|SUPERIORITY_OR_OTHER|||||||0.692|||||||Fisher Exact|||Comparison between treatments for any redness.||||0.692
92187340|NCT00689351|184273076|SUPERIORITY_OR_OTHER|||||||0.662|||||||Fisher Exact|||Comparison between treatments for mild redness.||||0.662
92187341|NCT00689351|184273076|SUPERIORITY_OR_OTHER|||||||0.331|||||||Fisher Exact|||Comparison between treatments for moderate redness.||||0.331
92187342|NCT00689351|184273077|SUPERIORITY_OR_OTHER|||||||0.409|||||||Fisher Exact|||Comparison between treatments for any tenderness.||||0.409
92187343|NCT00689351|184273077|SUPERIORITY_OR_OTHER|||||||0.617|||||||Fisher Exact|||Comparison between treatments for significant tenderness.||||0.617
92187344|NCT00689351|184273077|SUPERIORITY_OR_OTHER|||||||0.807|||||||Fisher Exact|||Comparison between treatments for any swelling.||||0.807
92187345|NCT00689351|184273077|SUPERIORITY_OR_OTHER|||||||0.527|||||||Fisher Exact|||Comparison between treatments for mild swelling.||||0.527
92187346|NCT00689351|184273077|SUPERIORITY_OR_OTHER|||||||0.144|||||||Fisher Exact|||Comparison between treatments for moderate swelling.||||0.144
92187347|NCT00689351|184273077|SUPERIORITY_OR_OTHER|||||||0.495|||||||Fisher Exact|||Comparison between treatments for severe swelling.||||0.495
92187348|NCT00689351|184273077|SUPERIORITY_OR_OTHER|||||||0.506|||||||Fisher Exact|||Comparison between treatments for any redness.||||0.506
92187349|NCT00689351|184273077|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Comparison between treatments for mild redness.||||>0.99
92187350|NCT00689351|184273077|SUPERIORITY_OR_OTHER|||||||0.2|||||||Fisher Exact|||Comparison between treatments for moderate redness.||||0.200
92187351|NCT00689351|184273078|SUPERIORITY_OR_OTHER|||||||0.633|||||||Fisher Exact|||Comparison between treatments for fever ≥38 degrees C but but less than or equal to (≤)39 degrees C.||||0.633
92187352|NCT00689351|184273078|SUPERIORITY_OR_OTHER|||||||0.721|||||||Fisher Exact|||Comparison between treatments for decreased appetite.||||0.721
92187353|NCT00689351|184273078|SUPERIORITY_OR_OTHER|||||||0.009|||||||Fisher Exact|||Comparison between treatments for irritability.||||0.009
92187354|NCT00689351|184273078|SUPERIORITY_OR_OTHER|||||||0.253|||||||Fisher Exact|||Comparison between treatments for increased sleep.||||0.253
92187355|NCT00689351|184273078|SUPERIORITY_OR_OTHER|||||||0.143|||||||Fisher Exact|||Comparison between treatments for decreased sleep.||||0.143
92187356|NCT00689351|184273079|SUPERIORITY_OR_OTHER|||||||0.781|||||||Fisher Exact|||Comparison between treatments for fever ≥38 degrees C but ≤39 degrees C.||||0.781
92187357|NCT00689351|184273079|SUPERIORITY_OR_OTHER|||||||0.06|||||||Fisher Exact|||Comparison between treatments for decreased appetite.||||0.060
92187358|NCT00689351|184273079|SUPERIORITY_OR_OTHER|||||||0.159|||||||Fisher Exact|||Comparison between treatments for irritability.||||0.159
92187359|NCT00689351|184273079|SUPERIORITY_OR_OTHER|||||||0.839|||||||Fisher Exact|||Comparison between treatments for increased sleep.||||0.839
92187360|NCT00689351|184273079|SUPERIORITY_OR_OTHER|||||||0.264|||||||Fisher Exact|||Comparison between treatments for decreased sleep.||||0.264
92187361|NCT00689351|184273080|SUPERIORITY_OR_OTHER|||||||0.563|||||||Fisher Exact|||Comparison between treatments for fever ≥38 degrees C but ≤39 degrees C.||||0.563
92187362|NCT00689351|184273080|SUPERIORITY_OR_OTHER|||||||0.468|||||||Fisher Exact|||Comparison between treatments for fever \>39 degrees C but ≤40 degrees C.||||0.468
92187363|NCT00689351|184273080|SUPERIORITY_OR_OTHER|||||||0.535|||||||Fisher Exact|||Comparison between treatments for decreased appetite.||||0.535
92187364|NCT00689351|184273080|SUPERIORITY_OR_OTHER|||||||0.019|||||||Fisher Exact|||Comparison between treatments for irritability.||||0.019
92187365|NCT00689351|184273080|SUPERIORITY_OR_OTHER|||||||0.398|||||||Fisher Exact|||Comparison between treatments for increased sleep.||||0.398
92187366|NCT00689351|184273080|SUPERIORITY_OR_OTHER|||||||0.125|||||||Fisher Exact|||Comparison between treatments for decreased sleep.||||0.125
92187367|NCT00689351|184273081|SUPERIORITY_OR_OTHER|||||||0.596|||||||Fisher Exact|||Comparison between treatments for fever ≥38 degrees C but ≤39 degrees C.||||0.596
92187368|NCT00689351|184273081|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Comparison between treatments for fever \>39 degrees C but ≤40 degrees C.||||>0.99
92187369|NCT00689351|184273081|SUPERIORITY_OR_OTHER|||||||0.663|||||||Fisher Exact|||Comparison between treatments for decreased appetite.||||0.663
92187370|NCT00689351|184273081|SUPERIORITY_OR_OTHER|||||||0.439|||||||Fisher Exact|||Comparison between treatments for irritability.||||0.439
92187371|NCT00689351|184273081|SUPERIORITY_OR_OTHER|||||||0.613|||||||Fisher Exact|||Comparison between treatments for increased sleep.||||0.613
92187372|NCT00689351|184273081|SUPERIORITY_OR_OTHER|||||||0.138|||||||Fisher Exact|||Comparison between treatments for decreased sleep.||||0.138
92187373|NCT01313663|184273092|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|90.0|0.32|2.65|||||HRs were estimated using the Pike estimator. The hazard ratio and p-value from the stratified log-rank test were adjusted for disease stage at Baseline only, due to sparse data.|||2.65|0.32|
92187374|NCT00780741|184273120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.09|TWO_SIDED|95.0|-0.01|0.21|||Point estimate on mean difference|Bootstrap sampling with replacement (N=10,000) was used to calculate the 95% confidence interval.|Mean difference calculated as the proportion with success in immediate group minus proportion with success in deferred group. 95% confidence interval obtained using bootstrap sampling with replacement.|||0.21|-0.01|0.09
92187375|NCT00780741|184273121|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-139.0||||0.24|TWO_SIDED|95.0|-377.0|94.0|||Point estimate on mean difference|Bootstrap sampling with replacement (N=10,000) was used to calculate the 95% confidence interval.|Mean difference calculated as the average cost in immediate group minus average cost in deferred group. 95% confidence interval obtained using bootstrap sampling with replacement.|||94|-377|0.24
92187376|NCT00780741|184273122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|||<|0.0001|TWO_SIDED|95.0|-4.0|-1.8|||Point estimate on mean difference|Bootstrap sampling with replacement (N=10,000) was used to calculate the 95% confidence interval.|Mean difference calculated as the average months of symptoms in immediate group minus average months of symptoms in deferred group. 95% confidence interval obtained using bootstrap sampling with replacement.|||-1.8|-4.0|<0.0001
92187377|NCT00623714|184273153|SUPERIORITY_OR_OTHER||Geometric Mean Fold Difference|0.34||||0.011|TWO_SIDED|90.0|0.16|0.7||1-sided, alpha = 0.05|ANOVA|Analysis performed on log-transformed fold change from baseline and results were back-transformed for reporting.||||0.70|0.16|0.011
92187378|NCT00623714|184273154|SUPERIORITY_OR_OTHER||Geometric Mean Fold Difference|0.4||||0.002|TWO_SIDED|95.0|0.26|0.63||1-sided, alpha = 0.05|ANOVA|Analysis performed on log-transformed fold change from baseline and results were back-transformed for reporting.||||0.63|0.26|0.002
92187379|NCT02367794|184273155|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0006|TWO_SIDED|95.0|0.64|0.88|||Log Rank|||||0.88|0.64|0.0006
92187380|NCT02367794|184273156|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1581|TWO_SIDED|95.0|0.73|1.05|||Log Rank|||||1.05|0.73|0.1581
92187381|NCT02367794|184273157|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.876||||0.4451|TWO_SIDED|95.0|0.623|1.231|||Log Rank|||Teff \>=-1.91 in ITT||1.231|0.623|0.4451
92187382|NCT02367794|184273157|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.941||||0.7343|TWO_SIDED|95.0|0.664|1.335|||Log Rank|||Teff \>=-1.91 in ITT||1.335|0.664|0.7343
92187383|NCT02367794|184273157|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.942||||0.661|TWO_SIDED|95.0|0.72|1.232|||Log Rank|||Teff \<-1.91 Negative in ITT||1.232|0.720|0.6610
92187384|NCT02367794|184273157|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.253||||0.0893|TWO_SIDED|95.0|0.965|1.627|||Log Rank|||Teff \<-1.91 Negative in ITT||1.627|0.965|0.0893
92187385|NCT02367794|184273158|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.61||||0.0006|TWO_SIDED|95.0|0.46|0.81|||Log Rank|||Teff\>=-1.91||0.81|0.46|0.0006
92302579|NCT04442490|184510421|SUPERIORITY||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.05||0.0238|TWO_SIDED|95.0|-4.4|-0.3|||MMRM||Model used was the MMRM with treatment (SAGE-217/placebo), baseline MADRS total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure|Placebo, SAGE-217||-0.3|-4.4|0.0238
92302580|NCT04442490|184510422|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.58||0.0199|TWO_SIDED|95.0|-2.5|-0.2|||MMRM||Model used was MMRM with treatment (SAGE-217/placebo), baseline HAM-A total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Placebo, SAGE-217||-0.2|-2.5|0.0199
92302581|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.5||0.3216|TWO_SIDED|95.0|-0.5|1.5|||MMRM||Model used is MMRM with treatment(SAGE-217/placebo), baseline SF-36v2 domain/component score, antidepressant use at baseline(Yes/No)assessment time point and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Physical Functioning Domain Score: Change from Baseline at Day 8||1.5|-0.5|0.3216
92302582|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.53||0.1247|TWO_SIDED|95.0|-0.2|1.8|||MMRM||Model used is MMRM with treatment(SAGE-217/placebo), baseline SF-36v2 domain/component score, antidepressant use at baseline(Yes/No)assessment time point and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Physical Functioning Domain Score: Change from Baseline at Day 15||1.8|-0.2|0.1247
92302583|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.56||0.1111|TWO_SIDED|95.0|-0.2|2.0|||MMRM||Model used is MMRM with treatment(SAGE-217/placebo), baseline SF-36v2 domain/component score, antidepressant use at baseline(Yes/No)assessment time point and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Physical Functioning Domain Score: Change from Baseline at Day 28||2.0|-0.2|0.1111
92302584|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.59||0.1449|TWO_SIDED|95.0|-0.3|2.0|||MMRM||Model used is MMRM with treatment(SAGE-217/placebo), baseline SF-36v2 domain/component score, antidepressant use at baseline(Yes/No)assessment time point and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Physical Functioning Domain Score: Change from Baseline at Day 42||2.0|-0.3|0.1449
92302585|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.59||0.8242|TWO_SIDED|95.0|-1.3|1.0|||MMRM||Model used is MMRM with treatment(SAGE-217/placebo), baseline SF-36v2 domain/component score, antidepressant use at baseline(Yes/No)assessment time point and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Role-Physical Domain Score: Change from Baseline at Day 8||1.0|-1.3|0.8242
92302586|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.62||0.8329|TWO_SIDED|95.0|-1.4|1.1|||MMRM|||Role-Physical Domain Score: Change from Baseline at Day 15||1.1|-1.4|0.8329
92187386|NCT02367794|184273158|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.06||||0.63|TWO_SIDED|95.0|0.84|1.33|||Log Rank|||Teff\>=-1.91||1.33|0.84|0.630
92187387|NCT02367794|184273158|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.88||||0.258|TWO_SIDED|95.0|0.7|1.1|||Log Rank|||Teff\<-1.91||1.10|0.70|0.258
92302587|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.63||0.8127|TWO_SIDED|95.0|-1.4|1.1|||MMRM|||Role-Physical Domain Score: Change from Baseline at Day 28||1.1|-1.4|0.8127
92187388|NCT02367794|184273158|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.06||||0.63|TWO_SIDED|95.0|0.84|1.33|||Log Rank|||Teff\<-1.91||1.33|0.84|0.630
92187389|NCT02367794|184273159|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.4|0.72|||Log Rank|||||0.72|0.40|<.0001
92187390|NCT02367794|184273159|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.61||||0.0018|TWO_SIDED|95.0|0.45|0.84|||Log Rank|||||0.84|0.45|0.0018
92302588|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.64||0.5435|TWO_SIDED|95.0|-0.9|1.6|||MMRM|||Role-Physical Domain Score: Change from Baseline at Day 42||1.6|-0.9|0.5435
92302589|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.63||0.3551|TWO_SIDED|95.0|-0.7|1.8|||MMRM|||Bodily Pain Domain Score: Change from Baseline at Day 8||1.8|-0.7|0.3551
92302590|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.68||0.7495|TWO_SIDED|95.0|-1.1|1.6|||MMRM|||Bodily Pain Domain Score: Change from Baseline at Day 15||1.6|-1.1|0.7495
92302591|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.6471|TWO_SIDED|95.0|-1.1|1.7|||MMRM|||Bodily Pain Domain Score: Change from Baseline at Day 28||1.7|-1.1|0.6471
92302592|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.75||0.1832|TWO_SIDED|95.0|-0.5|2.5|||MMRM|||Bodily Pain Domain Score: Change from Baseline at Day 42||2.5|-0.5|0.1832
92187391|NCT02367794|184273160|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.48|0.77|||Log Rank|||||0.77|0.48|<.0001
92302593|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.5||0.0168|TWO_SIDED|95.0|0.2|2.2|||MMRM|||General Health Domain Score: Change from Baseline at Day 8||2.2|0.2|0.0168
92187392|NCT02367794|184273160|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.48|0.77|||Log Rank|||||0.77|0.48|<.0001
92187393|NCT02367794|184273161|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.725||||0.0518|TWO_SIDED|95.0|0.524|1.004|||Log Rank|||||1.004|0.524|0.0518
92187394|NCT02367794|184273161|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.832||||0.2841|TWO_SIDED|95.0|0.594|1.165|||Log Rank|||||1.165|0.594|0.2841
92187395|NCT02367794|184273162|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.871||||0.2956|TWO_SIDED|95.0|0.671|1.129|||Log Rank|||||1.129|0.671|0.2956
92187396|NCT02367794|184273162|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.861||||0.2473|TWO_SIDED|95.0|0.668|1.109|||Log Rank|||||1.109|0.668|0.2473
92187397|NCT02367794|184273163|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.41||||0.0248|TWO_SIDED|95.0|1.04|1.91|||Cochran-Mantel-Haenszel|||||1.91|1.04|0.0248
92187398|NCT02367794|184273163|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.4||||0.0308|TWO_SIDED|95.0|1.03|1.9|||Cochran-Mantel-Haenszel|||||1.90|1.03|0.0308
92187399|NCT02367794|184273164|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.408|0.689|||Log Rank|||||0.689|0.408|<.0001
92187400|NCT02367794|184273164|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.64||||0.0007|TWO_SIDED|95.0|0.493|0.831|||Log Rank|||||0.831|0.493|0.0007
92302594|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.54||0.0787|TWO_SIDED|95.0|-0.1|2.0|||MMRM|||General Health Domain Score: Change from Baseline at Day 15||2.0|-0.1|0.0787
92302595|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.59||0.4273|TWO_SIDED|95.0|-0.7|1.6|||MMRM|||General Health Domain Score: Change from Baseline at Day 28||1.6|-0.7|0.4273
92302596|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.62||0.0938|TWO_SIDED|95.0|-0.2|2.2|||MMRM|||General Health Domain Score: Change from Baseline at Day 42||2.2|-0.2|0.0938
92302597|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.88||0.0033|TWO_SIDED|95.0|0.9|4.3|||MMRM|||Vitality Domain Score: Change from Baseline at Day 8||4.3|0.9|0.0033
92302598|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|1.03||0.0029|TWO_SIDED|95.0|1.1|5.1|||MMRM|||Vitality Domain Score: Change from Baseline at Day 15||5.1|1.1|0.0029
92302599|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|1.04||0.0791|TWO_SIDED|95.0|-0.2|3.9|||MMRM|||Vitality Domain Score: Change from Baseline at Day 28||3.9|-0.2|0.0791
92187401|NCT02367794|184273165|SUPERIORITY||Difference in Event Free Rate|0.06||||0.9871|TWO_SIDED|95.0|-7.48|7.61|||Z-test|||Event Free Rate (%) at Year 1||7.61|-7.48|0.9871
92187402|NCT02367794|184273165|SUPERIORITY||Difference in Event Free Rate|5.93||||0.1133|TWO_SIDED|95.0|-1.41|13.26|||Z-test|||Event Free Rate (%) at Year 2||13.26|-1.41|0.1133
92302600|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.12||0.0761|TWO_SIDED|95.0|-0.2|4.2|||MMRM|||Vitality Domain Score: Change from Baseline at Day 42||4.2|-0.2|0.0761
92187403|NCT02367794|184273165|SUPERIORITY||Difference in Event Free Rate|-3.97||||0.3072|TWO_SIDED|95.0|-11.6|3.65|||Z-test|||Event Free Rate (%) at Year 1||3.65|-11.60|0.3072
92187404|NCT02367794|184273165|SUPERIORITY||Difference in Event Free Rate|1.21||||0.743|TWO_SIDED|95.0|-6.01|8.42|||Z-test|||Event Free Rate (%) at Year 2||8.42|-6.01|0.7430
92187405|NCT02367794|184273166|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.797||||0.0461|TWO_SIDED|95.0|0.638|0.996|||Log Rank|||||0.996|0.638|0.0461
92187406|NCT02367794|184273166|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.04||||0.7295|TWO_SIDED|95.0|0.834|1.296|||Log Rank|||||1.296|0.834|0.7295
92302601|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.91||0.1568|TWO_SIDED|95.0|-0.5|3.1|||MMRM|||Social Functioning Domain Score: Change from Baseline at Day 8||3.1|-0.5|0.1568
92302602|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.99||0.2807|TWO_SIDED|95.0|-0.9|3.0|||MMRM|||Social Functioning Domain Score: Change from Baseline at Day 15||3.0|-0.9|0.2807
92302603|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.05||0.7751|TWO_SIDED|95.0|-1.8|2.4|||MMRM|||Social Functioning Domain Score: Change from Baseline at Day 28||2.4|-1.8|0.7751
92302604|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|1.07||0.0913|TWO_SIDED|95.0|-0.3|3.9|||MMRM|||Social Functioning Domain Score: Change from Baseline at Day 42||3.9|-0.3|0.0913
92302605|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.05||0.2863|TWO_SIDED|95.0|-0.9|3.2|||MMRM|||Role-Emotional Domain Score: Change from Baseline at Day 8||3.2|-0.9|0.2863
92302606|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.13||0.1801|TWO_SIDED|95.0|-0.7|3.7|||MMRM|||Role-Emotional Domain Score: Change from Baseline at Day 15||3.7|-0.7|0.1801
92187407|NCT02367794|184273167|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.828||||0.0942|TWO_SIDED|95.0|0.663|1.033|||Log Rank|||||1.033|0.663|0.0942
92302607|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|1.16||0.1107|TWO_SIDED|95.0|-0.4|4.1|||MMRM|||Role-Emotional Domain Score: Change from Baseline at Day 28||4.1|-0.4|0.1107
92302608|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.23||0.3274|TWO_SIDED|95.0|-1.2|3.6|||MMRM|||Role-Emotional Domain Score: Change from Baseline at Day 42||3.6|-1.2|0.3274
92302609|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|0.93||0.0873|TWO_SIDED|95.0|-0.2|3.4|||MMRM|||Mental Health Domain Score: Change from Baseline at Day 8||3.4|-0.2|0.0873
92302610|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|1.05||0.0871|TWO_SIDED|95.0|-0.3|3.9|||MMRM|||Mental Health Domain Score: Change from Baseline at Day 15||3.9|-0.3|0.0871
92187408|NCT02367794|184273167|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.968||||0.7709|TWO_SIDED|95.0|0.776|1.207|||Log Rank|||||1.207|0.776|0.7709
92187409|NCT02367794|184273169|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.93||||0.4007|TWO_SIDED|95.0|0.784|1.102|||Log Rank|||||1.102|0.784|0.4007
92187410|NCT05356130|184273210|SUPERIORITY|||||||0.014|||||||Mixed Models Analysis|||"We conducted the same two independent planned comparisons: Enhanced BLT Encouragement + Adherence Promotion compared to Minimal BLT Encouragement; Minimal BLT Encouragement and Enhanced BLT Encouragement + Adherence Promotion compared to TAU."||||0.014
92187411|NCT02680314|184273225|SUPERIORITY|||||||0.202|||||||Wilcoxon (Mann-Whitney)|||||||0.202
92187412|NCT01020487|184273237|SUPERIORITY_OR_OTHER||Difference|27.8||||0.045|TWO_SIDED|95.0|7.5|52.8|||Fisher Exact|||Treatment effects were evaluated based on a two-sided significance level of 0.050. The primary efficacy analysis was a comparison between the paricalcitol capsules and placebo groups in the percentage of participants achieving 2 consecutive ≥ 30% reductions in iPTH from baseline regardless of CKD stage conducted using Fisher's exact test.||52.8|7.5|0.045
92187413|NCT01020487|184273238|SUPERIORITY_OR_OTHER|||||||0.128|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CHM) test, adjusting for CKD Stage.||||||0.128
92302611|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.12||0.3095|TWO_SIDED|95.0|-1.1|3.3|||MMRM|||Mental Health Domain Score: Change from Baseline at Day 28||3.3|-1.1|0.3095
92302612|NCT04442490|184510424|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|1.17||0.1477|TWO_SIDED|95.0|-0.6|4.0|||MMRM|||Mental Health Domain Score: Change from Baseline at Day 42||4.0|-0.6|0.1477
92302613|NCT04442490|184510425|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.57||0.0828|TWO_SIDED|95.0|-2.1|0.1|||MMRM||Model used was the MMRM with treatment (SAGE-217/placebo), baseline PHQ-9 total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from Baseline at Day 8||0.1|-2.1|0.0828
92302614|NCT04442490|184510425|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.62||0.0606|TWO_SIDED|95.0|-2.4|0.1|||MMRM||Model used was the MMRM with treatment (SAGE-217/placebo), baseline PHQ-9 total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from Baseline at Day 15||0.1|-2.4|0.0606
92302615|NCT04442490|184510425|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.63||0.1079|TWO_SIDED|95.0|-2.3|0.2|||MMRM||Model used was the MMRM with treatment (SAGE-217/placebo), baseline PHQ-9 total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from Baseline at Day 28||0.2|-2.3|0.1079
92302616|NCT04442490|184510425|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.66||0.3951|TWO_SIDED|95.0|-1.9|0.7|||MMRM||Model used was the MMRM with treatment (SAGE-217/placebo), baseline PHQ-9 total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from Baseline at Day 42||0.7|-1.9|0.3951
92302617|NCT02836496|184510432|SUPERIORITY|||||||0.002||||||Cochran-Mantel-Haenszel test stratified by Baseline oral corticosteroid (OCS) (0-\<=20 mg per day and \>20mg perday prednisone or equivalent) and region|Cochran-Mantel-Haenszel|||||||0.002
92302618|NCT02836496|184510432|SUPERIORITY||Odds Ratio (OR)|0.28||||0.003|TWO_SIDED|95.0|0.12|0.64|||Regression, Logistic|Logistic regression analysis adjusted for Baseline OCS dose and region.|Treatment comparison between placebo and mepolizumab 300 mg using odds ratio and 95% confidence interval (CI) has been presented. Odds ratio \<1 indicated lower odds of HES flare with Mepolizumab compared with placebo.|||0.64|0.12|0.003
92187414|NCT01020487|184273239|SUPERIORITY_OR_OTHER||Differenbce|-72.4|||<|0.001|TWO_SIDED|95.0|-108.05|-36.75|||Mixed Models Analysis|||Overall Comparison (all time points): A mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||-36.75|-108.05|< 0.001
92187415|NCT01020487|184273239|SUPERIORITY_OR_OTHER||Difference|-62.55||||0.006|TWO_SIDED|95.0|-105.6|-19.49|||Mixed Models Analysis|||Week 2 Comparison: a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||-19.49|-105.60|0.006
92187416|NCT01020487|184273239|SUPERIORITY_OR_OTHER||Difference|-68.43||||0.032|TWO_SIDED|95.0|-130.39|-6.47|||Mixed Models Analysis|||Week 4 Comparison: a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||-6.47|-130.39|0.032
92187417|NCT01020487|184273239|SUPERIORITY_OR_OTHER||Difference|-70.09||||0.043|TWO_SIDED|95.0|-137.82|-2.37|||Mixed Models Analysis|||Week 8 Comparison: A mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||-2.37|-137.82|0.043
92187418|NCT01020487|184273239|SUPERIORITY_OR_OTHER||Difference|-88.52||||0.002|TWO_SIDED|95.0|-142.04|-35.01|||Mixed Models Analysis|||Week 12 Comparison: A mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||-35.01|-142.04|0.002
92187419|NCT01020487|184273240|SUPERIORITY_OR_OTHER|||||||0.327|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CHM) test, adjusting for CKD Stage.||||||0.327
92187420|NCT01020487|184273241|SUPERIORITY_OR_OTHER|||||||0.194|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CHM) test, adjusting for CKD Stage.||||||0.194
92302619|NCT02836496|184510433|SUPERIORITY|||||||0.02|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline OCS (0-\<=20 mg per day and \>20mg perday prednisone or equivalent) and region||||||0.020
92187421|NCT01020487|184273242|SUPERIORITY_OR_OTHER||Difference|0.14||||0.469|TWO_SIDED|95.0|-0.25|0.53|||Mixed Models Analysis|||Overall Comparison (all time points): a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement||0.53|-0.25|0.469
92302620|NCT02836496|184510433|SUPERIORITY||Odds Ratio (OR)|0.33||||0.022|TWO_SIDED|95.0|0.13|0.85|||Regression, Logistic|Logistic regression analysis adjusted for Baseline OCS dose and region|Treatment comparison between placebo and mepolizumab 300 mg using odds ratio and 95% CI has been presented. Odds ratio \<1 indicated lower odds of HES flare with Mepolizumab compared with placebo.|||0.85|0.13|0.022
92302621|NCT02836496|184510434|SUPERIORITY||Hazard Ratio (HR)|0.34||||0.002|TWO_SIDED|95.0|0.18|0.67||Cox proportional hazards regression analysis adjusted for Baseline OCS dose and region.|Regression, Cox||Treatment comparison between placebo and mepolizumab 300 mg using hazards ratio and its corresponding 95% CI has been presented. Hazard ratio \<1 indicated a lower risk of HES flare with Mepolizumab compared with Placebo.|||0.67|0.18|0.002
92187422|NCT01020487|184273242|SUPERIORITY_OR_OTHER||Difference|-0.01||||0.975|TWO_SIDED|95.0|-0.39|0.37|||Mixed Models Analysis|||Week 4 Comparison: a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||0.37|-0.39|0.975
92187423|NCT01020487|184273242|SUPERIORITY_OR_OTHER||Difference|0.12||||0.567|TWO_SIDED|95.0|-0.32|0.56|||Mixed Models Analysis|||Week 8 Comparison: a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement||0.56|-0.32|0.567
92187424|NCT01020487|184273242|SUPERIORITY_OR_OTHER||Difference|0.3||||0.462|TWO_SIDED|95.0|-0.53|1.12|||Mixed Models Analysis|||Week 12 Comparison: a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement||1.12|-0.53|0.462
92302622|NCT02836496|184510435|SUPERIORITY||Rate Ratio|0.34||||0.002|TWO_SIDED|95.0|0.19|0.63|||Wilcoxon Rank Sum Test|Wilcoxon test stratified by Baseline OCS (0-\<=20 mg/day, \>20 mg/day prednisone or equivalent) and region.|Treatment comparison between placebo and mepolizumab 300 mg using rate ratio and 95% CI has been presented. Rate ratio \<1 indicates a lower flare rate with Mepolizumab compared with Placebo.|||0.63|0.19|0.002
92302623|NCT02836496|184510436|SUPERIORITY|||||||0.036|||||||Wilcoxon Rank Sum Test|P-value was calculated using Wilcoxon Rank Sum Test||||||0.036
92302624|NCT00063635|184510439|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||Since two primary comparisons are planned, a P-value of 0.025 will be considered significant, applying a Bonferroni correction for multiple comparisons.|Mantel Haenszel|||||||0.26
92302625|NCT00063635|184510439|SUPERIORITY_OR_OTHER|||||||0.83||95.0||||Since two primary comparisons are planned, a P-value of 0.025 will be considered significant, applying a Bonferroni correction for multiple comparisons.|Mantel Haenszel|||||||0.83
92302626|NCT00063635|184510440|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||ANCOVA|||||||0.32
92302627|NCT00063635|184510440|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||ANCOVA|||||||0.29
92302628|NCT00063635|184510441|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANCOVA|||||||0.02
92302629|NCT00063635|184510441|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANCOVA|||||||0.25
92302630|NCT00063635|184510442|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Chi-squared|||||||0.71
92187425|NCT01383616|184273271|SUPERIORITY|||||||0.85|||||||t-test, 2 sided|||Comparison of 3 month ODI Score between Unipedicular and Bipedicular kyphoplasty groups||||0.85
92302631|NCT00063635|184510442|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Chi-squared|||||||0.72
92302632|NCT00063635|184510443|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Chi-squared|||||||0.18
92302633|NCT00063635|184510443|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Chi-squared|||||||0.25
92302634|NCT00063635|184510444|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Chi-squared|||||||0.89
92187426|NCT01383616|184273272|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
92302635|NCT00063635|184510444|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Chi-squared|||||||0.73
92302636|NCT00063635|184510445|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared|||||||0.02
92302637|NCT00063635|184510445|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared|||||||0.02
92302638|NCT00063635|184510446|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||ANCOVA|||||||0.77
92302639|NCT00063635|184510446|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANCOVA|||||||0.25
92302640|NCT00063635|184510447|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92187427|NCT01383616|184273273|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92187428|NCT01383616|184273274|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||0.93
92187429|NCT01383616|184273275|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92187430|NCT01383616|184273276|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
92187431|NCT01383616|184273277|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||||||0.90
92302641|NCT00063635|184510447|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||ANCOVA|||||||0.44
92302642|NCT00063635|184510448|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANCOVA|||||||0.08
92302643|NCT00063635|184510448|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||ANCOVA|||||||0.63
92302644|NCT00063635|184510449|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANCOVA|||||||0.15
92302645|NCT00063635|184510449|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANCOVA|||||||0.96
92302646|NCT00415194|184510450|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.082|TWO_SIDED|95.0|0.75|1.02|||Stratified Log Rank|||||1.02|0.75|0.082
92302647|NCT00415194|184510451|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.166|TWO_SIDED|95.0|0.76|1.03|||Stratified Log Rank|||||1.03|0.76|0.166
92302648|NCT00415194|184510452|SUPERIORITY_OR_OTHER|||||||0.061||95.0|||||Unadjusted normal distribution|p-value is based on an unadjusted, normal distribution approximation for differences in rates.||||||0.061
92302649|NCT00415194|184510453|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.811|TWO_SIDED|95.0|0.56|1.53|||Stratified Log Rank|||||1.53|0.56|0.811
92302650|NCT00415194|184510454|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.2|TWO_SIDED|95.0|0.69|1.07|||Stratified Log Rank|||||1.07|0.69|0.20
92302651|NCT01524679|184510466|SUPERIORITY|The Fisher Test with asymptotic test statistic provided by the analysis software was used.|||||<|0.0001||||||This was the only a priori defined primary endpoint. There was no adjustment for multiple comparisons.|Fisher Exact|There was no adjustment for other variables intended for the primary analysis. Confounding variables were analysed in subsequent analyses.||Nullhypothesis was the equality of response rates of the treatment group and the control group. Treatments were compared by a two-sided Fisher test on a level of significance of 0.05. The study was appropriately powered (80%) for this analysis.||||<0.0001
92302652|NCT01524679|184510467|SUPERIORITY||Mean Difference (Final Values)|0.7525||||0.0957|TWO_SIDED|95.0|0.5382|1.0521|||ANCOVA|||||1.0521|0.5382|0.0957
92302653|NCT01524679|184510468|SUPERIORITY||Mean Difference (Final Values)|0.4621||||0.0005|TWO_SIDED|95.0|0.4621|0.7106|||ANCOVA|||||0.7106|0.4621|0.0005
92302654|NCT03801265|184510469|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||.770
92302655|NCT03801265|184510470|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.826|||||||Wilcoxon (Mann-Whitney)|||||||.826
92302656|NCT03801265|184510471|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||.859
92302657|NCT03801265|184510472|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.904|||||||Wilcoxon (Mann-Whitney)|||||||.904
92302658|NCT03801265|184510473|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.122|||||||Wilcoxon (Mann-Whitney)|||||||.122
92302659|NCT03801265|184510474|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.379|||||||Wilcoxon (Mann-Whitney)|||||||.379
92302660|NCT03801265|184510475|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.881|||||||Wilcoxon (Mann-Whitney)|||||||.881
92302661|NCT03801265|184510476|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.818|||||||Wilcoxon (Mann-Whitney)|||||||.818
92302662|NCT03801265|184510477|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.678|||||||Wilcoxon (Mann-Whitney)|||||||.678
92302663|NCT03801265|184510478|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||.002
92302664|NCT03801265|184510479|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.007|||||||Chi-squared|||||||.007
92302665|NCT03801265|184510480|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.271|||||||Wilcoxon (Mann-Whitney)|||||||.271
92187432|NCT01383616|184273278|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
92187433|NCT01383616|184273279|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
92187434|NCT01383616|184273280|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
92302666|NCT03801265|184510481|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||.810
92302667|NCT03801265|184510482|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.676|||||||Wilcoxon (Mann-Whitney)|||||||.676
92302668|NCT03801265|184510483|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.908|||||||Wilcoxon (Mann-Whitney)|||||||.908
92302669|NCT03801265|184510484|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||.270
92302670|NCT03801265|184510485|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||.015
92302671|NCT03801265|184510486|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.203|||||||Wilcoxon (Mann-Whitney)|||||||.203
92302672|NCT03801265|184510487|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.672|||||||Wilcoxon (Mann-Whitney)|||||||.672
92302673|NCT04078126|184510488|OTHER||Mean Difference (Final Values)|-0.017|STANDARD_ERROR_OF_MEAN|0.0179||0.345|TWO_SIDED|95.0|-0.054|0.02|||ANCOVA|||||0.020|-0.054|0.3450
92302674|NCT04078126|184510489|OTHER||Mean Difference (Final Values)|-0.017|STANDARD_ERROR_OF_MEAN|0.0183||0.3675|TWO_SIDED|95.0|-0.054|0.021|||ANCOVA|||||0.021|-0.054|0.3675
92187435|NCT00896389|184273281|OTHER|Association between genotypes and phenotypes were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
92302675|NCT04078126|184510490|OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.0199||0.7563|TWO_SIDED|95.0|-0.047|0.034|||ANCOVA|||||0.034|-0.047|0.7563
92302676|NCT04078126|184510491|OTHER||Mean Difference (Final Values)|-0.032|STANDARD_ERROR_OF_MEAN|0.0521||0.5419|TWO_SIDED|95.0|-0.139|0.075|||ANCOVA|||||0.075|-0.139|0.5419
92302677|NCT04078126|184510492|OTHER||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|2.334||0.1337|TWO_SIDED|95.0|-8.39|1.18|||ANCOVA|||||1.18|-8.39|0.1337
92302678|NCT04078126|184510493|OTHER||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|1.269||0.0431|TWO_SIDED|95.0|-5.29|-0.09|||ANCOVA|||||-0.09|-5.29|0.0431
92302679|NCT04078126|184510494|OTHER||Mean Difference (Final Values)|-1.53|STANDARD_ERROR_OF_MEAN|1.667||0.3625|TWO_SIDED|95.0|-4.87|1.81|||ANCOVA|||||1.81|-4.87|0.3625
92187436|NCT00896389|184273282|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||<|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||||||<0.05
92187437|NCT00896389|184273283|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35909607 genotype group and phenotypes collected in this study.||||>0.05
92187438|NCT00896389|184273284|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35909607 genotype group and phenotypes collected in this study.||||>0.05
92187439|NCT00896389|184273285|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35909607 genotype group and phenotypes collected in this study.||||>0.05
92302680|NCT04078126|184510495|OTHER||Mean Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.0198||0.0375|TWO_SIDED|95.0|0.003|0.084|||ANCOVA|||||0.084|0.003|0.0375
92302681|NCT04078126|184510496|OTHER||Mean Difference (Final Values)|0.005|STANDARD_ERROR_OF_MEAN|0.0443||0.9089|TWO_SIDED|95.0|-0.086|0.096|||ANCOVA|||||0.096|-0.086|0.9089
92302682|NCT03056157|184510497|SUPERIORITY||Slope|-0.236||||0.03|TWO_SIDED|95.0|-3.34|-0.18|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores, t(1519 )= -2.19, d = 0.15.||-0.18|-3.34|0.03
92302683|NCT03056157|184510497|SUPERIORITY||Slope|-8.97|||<|0.001|TWO_SIDED|95.0|-10.12|-6.11|||Mixed Models Analysis|||In a mixed model analysis of intent-to- treat data for SDS scores, t(160)= -15.74, d = 2.97.||-6.11|-10.12|<.001
92302684|NCT03056157|184510497|SUPERIORITY||Slope|-6.62|||<|0.001|TWO_SIDED|95.0|-8.35|-6.11|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores, t(160) = -12.72, d = 1.86.||-6.11|-8.35|<0.001
92302685|NCT03056157|184510497|SUPERIORITY||Slope|-0.65||||0.49|TWO_SIDED|95.0|-2.13|0.86|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores, t(1510) = -0.90, d = 0.05.||0.86|-2.13|0.49
92302686|NCT03056157|184510497|SUPERIORITY||Slope|1.1|||<|0.001|TWO_SIDED|95.0|0.06|2.17|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores, t(1510) = 2.11, d = 0.11.||2.17|0.06|<0.001
92302687|NCT03056157|184510497|SUPERIORITY||Slope|1.75|||<|0.001|TWO_SIDED|95.0|0.75|2.81|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores, t(1510) = 3.45, d = 0.18||2.81|0.75|<0.001
92302688|NCT03056157|184510498|SUPERIORITY||Odds Ratio (OR)|2.35||||0.03|TWO_SIDED|95.0|1.01|5.56|||Fisher Exact|||Odds ratio comparison of the proportions of participants who experienced probable recovery in SDS from baseline to post-treatment in AD-MIL versus PCT.||5.56|1.01|0.03
92302689|NCT03056157|184510498|SUPERIORITY||Odds Ratio (OR)|0.0||||0.01|TWO_SIDED|95.0|0.0|0.71|||Fisher Exact|||Odds ratio comparison of the proportion of participants who experienced improvement from baseline to post-treatment in SDS in AD-MIL versus PCT.||0.71|0|0.01
92302690|NCT03056157|184510498|SUPERIORITY||Odds Ratio (OR)|0.82||||0.69|TWO_SIDED|95.0|0.35|1.87|||Fisher Exact|||Odds ratio comparison of the proportion of participants who experienced no change in SDS from baseline to post-treatment in AD-MIL versus PCT.||1.87|0.35|.69
92302691|NCT03056157|184510498|SUPERIORITY||Odds Ratio (OR)|0.0||||0.5|TWO_SIDED|0.0|0.0|5.83|||Fisher Exact|||Odds ratio comparison of the proportion of participants who experienced deterioration in SDS from baseline to post-treatment in AD-MIL versus PCT.||5.83|0|0.50
92302692|NCT03056157|184510499|SUPERIORITY||Slope|-3.39||||0.35|TWO_SIDED|95.0|-10.57|3.79|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B-IPF scores, t(326) = -0.93, d = 0.10.||3.79|-10.57|0.35
92302693|NCT03056157|184510499|SUPERIORITY||Slope|-8.64||||0.001|TWO_SIDED|95.0|-13.83|-3.44|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for BIPF scores, t(116) = -3.27, d = 0.61.||-3.44|-13.83|0.001
92302694|NCT03056157|184510499|SUPERIORITY||Slope|-5.25||||0.04|TWO_SIDED|95.0|-10.21|-0.29|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B-IPF scores, t(116) = -2.08, d = 0.39.||-0.29|-10.21|0.04
92302695|NCT03056157|184510499|SUPERIORITY||Slope|-5.17||||0.08|TWO_SIDED|95.0|-10.86|0.52|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B-IPF scores, t(326) = -1.79, d = 0.20.||0.52|-10.86|0.08
92302696|NCT03056157|184510499|SUPERIORITY||Slope|-5.64||||0.007|TWO_SIDED|95.0|-9.72|-1.57|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B-IPF scores, t(326) = -2.72, d = 0.30.||-1.57|-9.72|0.007
92302697|NCT03056157|184510499|SUPERIORITY||Slope|-0.47||||0.82|TWO_SIDED|95.0|-4.44|3.5|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B-IPF scores, t(326) = -0.23, d = 0.03.||3.50|-4.44|0.82
92302698|NCT03056157|184510500|SUPERIORITY||Slope|-0.6||||0.75|TWO_SIDED|95.0|-4.68|3.36|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(373) = -0.32, d = 0.03.||3.36|-4.68|0.75
92302699|NCT03056157|184510500|SUPERIORITY||Slope|-9.12|||<|0.001|TWO_SIDED|95.0|-12.12|-6.12|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(37) = -6.01, d = 1.97.||-6.12|-12.12|<0.001
92302700|NCT03056157|184510500|SUPERIORITY||Slope|-8.72|||<|0.001|TWO_SIDED|95.0|-11.16|-5.76|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(37) = -6.11, d = 2.01.||-5.76|-11.16|<0.001
92302701|NCT03056157|184510500|SUPERIORITY||Slope|-2.28||||0.56|TWO_SIDED|95.0|-10.08|5.52|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(373) = -0.59, d = 0.06.||5.52|-10.08|0.56
92302702|NCT03056157|184510500|SUPERIORITY||Slope|4.2||||0.22|TWO_SIDED|95.0|-0.24|10.92|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(373) = 1.25, d = 0.13.||10.92|-0.24|0.22
92302703|NCT03056157|184510500|SUPERIORITY||Slope|6.6||||0.002|TWO_SIDED|95.0|2.52|10.69|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(373) = 3.18, d = 0.33.||10.69|2.52|0.002
92302704|NCT03056157|184510501|SUPERIORITY||Slope|0.48||||0.92|TWO_SIDED|95.0|-9.6|10.69|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores for the COVID-19 cohort, t(367) = 0.10, d = 0.01.||10.69|-9.60|0.92
92302705|NCT03056157|184510501|SUPERIORITY||Slope|-16.08|||<|0.001|TWO_SIDED|95.0|-23.64|-8.52|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores for the COVID-19 cohort, t(37) = -4.23, d = 1.39.||-8.52|-23.64|<0.001
92302706|NCT03056157|184510501|SUPERIORITY||Slope|-16.56|||<|0.001|TWO_SIDED|95.0|-23.4|-9.72|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores for the COVID-19 cohort, t(37) = -4.77, d = 1.57.||-9.72|-23.40|<0.001
92302707|NCT03056157|184510501|SUPERIORITY||Slope|-26.28||||0.002|TWO_SIDED|95.0|-42.6|-9.84|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores for the COVID-19 cohort, t(367) = -3.15, d = 0.33.||-9.84|-42.60|0.002
92187440|NCT00896389|184273286|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
92302708|NCT03056157|184510501|SUPERIORITY||Slope|-18.72||||0.01|TWO_SIDED|95.0|-32.4|-4.92|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores for the COVID-19 cohort, t(37) = -2.67, d = 0.28.||-4.92|-32.40|0.01
92302709|NCT03056157|184510501|SUPERIORITY||Slope|-5.25||||0.04|TWO_SIDED|95.0|-10.21|-0.29|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B- IPF scores, the Pre-Post PCT Time slope was -5.25 \[95% CI = -10.21, -0.29\], p-value = 0.04, t(116) = -2.08, d = 0.39.||-0.29|-10.21|0.04
92302710|NCT03056157|184510502|SUPERIORITY||Slope|-6.38||||0.1|TWO_SIDED|95.0|-13.97|1.22|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(49) = -1.69, d = 0.48.||1.22|-13.97|0.10
92302711|NCT03056157|184510502|SUPERIORITY||Slope|-13.29|||<|0.001|TWO_SIDED|95.0|-18.96|-7.62|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(32) = -4.71, d = 1.67.||-7.62|-18.96|<0.001
92302712|NCT03056157|184510502|SUPERIORITY||Slope|-6.92||||0.001|TWO_SIDED|95.0|-11.96|-1.87|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(32) = -2.75, d = 0.97.||-1.87|-11.96|0.001
92302713|NCT03056157|184510502|SUPERIORITY||Slope|5.22||||0.34|TWO_SIDED|95.0|-5.6|16.05|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(49) = 0.97, d = 0.28.||16.05|-5.60|0.34
92302714|NCT03056157|184510502|SUPERIORITY||Slope|5.93||||0.17|TWO_SIDED|95.0|-2.55|14.41|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(49) = 1.40, d = 0.40.||14.41|-2.55|0.17
92302715|NCT03056157|184510502|SUPERIORITY||Slope|0.7||||0.83|TWO_SIDED|95.0|-6.04|7.44|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(49) = 0.21, d = 0.06.||7.44|-6.04|0.83
92302716|NCT03056157|184510503|SUPERIORITY||Slope|0.6||||0.76|TWO_SIDED|95.0|-3.12|4.2|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(373) = 0.30, d = 0.03.||4.20|-3.12|0.76
92302717|NCT03056157|184510503|SUPERIORITY||Slope|-3.12||||0.002|TWO_SIDED|95.0|-6.96|-1.56|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(37) = -3.14, d = 1.03.||-1.56|-6.96|0.002
92302718|NCT03056157|184510503|SUPERIORITY||Slope|-4.92|||<|0.001|TWO_SIDED|95.0|-7.32|-2.4|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(37) = -3.88, d = 1.27.||-2.40|-7.32|<0.001
92187441|NCT00896389|184273287|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
92187442|NCT00896389|184273288|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
92302719|NCT03056157|184510503|SUPERIORITY||Slope|-4.8||||0.13|TWO_SIDED|95.0|-11.16|1.44|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(373) = -1.50, d = 0.16.||1.44|-11.16|0.13
92302720|NCT03056157|184510503|SUPERIORITY||Slope|-2.4||||0.38|TWO_SIDED|95.0|-7.68|3.0|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(373) = -0.87, d = 0.09.||3.00|-7.68|0.38
92302721|NCT03056157|184510503|SUPERIORITY||Slope|2.4||||0.26|TWO_SIDED|95.0|-0.96|5.88|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(373) = 1.42, d = 0.15.||5.88|-0.96|0.26
92302722|NCT03056157|184510504|SUPERIORITY||Slope|-6.65|||<|0.001|TWO_SIDED|95.0|-10.23|-3.07|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(348) = -3.65, d = 0.39.||-3.07|-10.23|<0.001
92302723|NCT03056157|184510504|SUPERIORITY||Slope|-11.88|||<|0.001|TWO_SIDED|95.0|-14.43|-9.32|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(131) = -9.14, d = 1.60.||-9.32|-14.43|<0.001
92302724|NCT03056157|184510504|SUPERIORITY||Slope|-5.23|||<|0.001|TWO_SIDED|95.0|-7.74|-2.72|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(131) = -4.10, d = 0.72.||-2.72|-7.74|<0.001
92302725|NCT03056157|184510504|SUPERIORITY||Slope|1.36||||0.39|TWO_SIDED|95.0|-1.73|4.45|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(348) = 0.87, d = 0.09.||4.45|-1.73|0.39
92302726|NCT03056157|184510504|SUPERIORITY||Slope|0.08||||0.94|TWO_SIDED|95.0|-2.1|2.26|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(348) = 0.07, d = 0.001.||2.26|-2.10|0.94
92302727|NCT03056157|184510504|SUPERIORITY||Slope|-1.28||||0.25|TWO_SIDED|95.0|-3.48|0.91|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(348) = -1.15, d = 0.12.||0.91|-3.48|0.25
92302728|NCT03056157|184510505|SUPERIORITY||Odds Ratio (OR)|6.44||||0.01|TWO_SIDED|95.0|1.29|63.18|||Fisher Exact|||Odds ratio comparison of the proportions of participants who experienced probable recovery in CAPS-5 from baseline to post-treatment in AD-MIL versus PCT.||63.18|1.29|0.01
92302729|NCT03056157|184510505|SUPERIORITY||Odds Ratio (OR)|1.51||||0.4|TWO_SIDED|95.0|0.61|3.75|||Fisher Exact|||Odds ratio comparison of the proportions of participants who experienced improvement in CAPS-5 from baseline to post-treatment in AD-MIL versus PCT.||3.75|0.61|0.40
92302730|NCT03056157|184510505|SUPERIORITY||Odds Ratio (OR)|0.78||||0.58|TWO_SIDED|95.0|0.36|1.7|||Fisher Exact|||Odds ratio comparison of the proportions of participants who experienced no change in CAPS-5 from baseline to post-treatment in AD-MIL versus PCT.||1.70|0.36|0.58
92302731|NCT03056157|184510505|SUPERIORITY||Odds Ratio (OR)|0.15||||0.06|TWO_SIDED|95.0|0.003|1.2|||Fisher Exact|||Odds ratio comparison of the proportions of participants who experienced deterioration in CAPS-5 from baseline to post-treatment in AD-MIL versus PCT.||1.20|0.003|0.06
92302732|NCT03056157|184510506|SUPERIORITY||Odds Ratio (OR)|0.49||||0.07|TWO_SIDED|95.0|0.22|1.06|||Fisher Exact|||Odds ratio comparison of the proportions of participants with a PTSD Diagnosis in CAPS-5 at post-treatment in AD-MIL versus PCT.||1.06|0.22|0.07
92302733|NCT03056157|184510506|SUPERIORITY||Odds Ratio (OR)|0.66||||0.33|TWO_SIDED|95.0|0.28|1.56|||Fisher Exact|||Odds ratio comparison of the proportions of participants with PTSD Diagnosis in CAPS-5 at 3MFU in AD-MIL versus PCT.||1.56|0.28|0.33
92302734|NCT03056157|184510506|SUPERIORITY||Odds Ratio (OR)|0.42||||0.05|TWO_SIDED|95.0|0.15|1.08|||Fisher Exact|||Odds ratio comparison of the proportions of participants with PTSD Diagnosis in CAPS-5 at 6MFU in AD-MIL versus PCT.||1.08|0.15|0.05
92302735|NCT03056157|184510507|SUPERIORITY||Slope|-4.63||||0.003|TWO_SIDED|95.0|-7.16|-2.1|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(1542) = -3.01, d = 0.13.||-2.10|-7.16|.003
92302736|NCT03056157|184510507|SUPERIORITY||Slope|-12.62|||<|0.001|TWO_SIDED|95.0|-14.43|-10.8|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(161) = -11.50, d = 1.81.||-10.80|-14.43|<0.001
92302737|NCT03056157|184510507|SUPERIORITY||Slope|-7.89|||<|0.001|TWO_SIDED|95.0|-9.77|-6.2|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(161) = -7.40, d = 1.16.||-6.20|-9.77|<0.001
92302738|NCT03056157|184510507|SUPERIORITY||Slope|-0.75||||0.65|TWO_SIDED|95.0|-4.01|2.52|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(1542) = -0.45, d = 0.02.||2.52|-4.01|0.65
92302739|NCT03056157|184510507|SUPERIORITY||Slope|2.3||||0.05|TWO_SIDED|95.0|-0.03|4.63|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(1542) = 1.94, d = 0.10.||4.63|-0.03|0.05
92302740|NCT03056157|184510507|SUPERIORITY||Slope|3.04||||0.001|TWO_SIDED|95.0|0.75|5.34|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(1542) = 2.61, d = 0.13.||5.34|0.75|0.001
92302741|NCT03056157|184510508|SUPERIORITY||Odds Ratio (OR)|2.39||||0.04|TWO_SIDED|95.0|1.01|5.84|||Fisher Exact|||Odds ratio comparison of the proportions of participants experiencing probable recovery in PCL-5 at post-treatment in AD-MIL versus PCT.||5.84|1.01|0.04
92187443|NCT00896389|184273289|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
92187444|NCT00896389|184273290|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05|||||||Chi-squared|Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
92187445|NCT03184519|184273298|SUPERIORITY||Area Under Curve|0.79||||0.025|ONE_SIDED||||||t-test, 1 sided|||||||0.025
92187446|NCT02823574|184273304|SUPERIORITY||Odds Ratio (OR)|0.68||||0.2897|TWO_SIDED|95.5|0.33|1.43|||Mantel Haenszel|||Treatment A over Treatment B||1.43|0.33|0.2897
92187447|NCT02823574|184273309|SUPERIORITY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.78|1.41|||||computed using a cox proportional hazard model stratified by randomization PD-L1 and HPV status|||1.41|0.78|
92187448|NCT02823574|184273310|SUPERIORITY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.78|1.41|||||computed using a cox proportional hazard model stratified by randomization PDL-1 and HPV status|||1.41|0.78|
92187449|NCT02823574|184273311|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.87|1.36|||||computed using a cox proportional hazard model stratified by randomization PDL-1 and HPV status|||1.36|0.87|
92187450|NCT02823574|184273312|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.81|1.45|||||computed using a cox proportional hazard model stratified by randomization PDL-1 and HPV status|||1.45|0.81|
92187451|NCT02823574|184273313|SUPERIORITY||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.81|1.61|||||computed using a cox proportional hazard model stratified by randomization PDL-1 and HPV status|||1.61|0.81|
92187452|NCT02823574|184273338|SUPERIORITY||Odds Ratio (OR)|0.64|||||TWO_SIDED|95.0|0.32|1.29|||Mantel Haenszel|||Treatment A over Treatment B||1.29|0.32|
92187453|NCT01580306|184273343|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|113.57|STANDARD_DEVIATION|93.2|||TWO_SIDED|90.0|41.58|310.17|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison mild : normal||310.17|41.58|
92187454|NCT01580306|184273343|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|178.31|STANDARD_DEVIATION|78.9|||TWO_SIDED|90.0|85.23|373.03|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison moderate : normal||373.03|85.23|
92187455|NCT01580306|184273343|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|169.21|STANDARD_DEVIATION|97.7|||TWO_SIDED|90.0|73.19|391.17|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison severe : normal||391.17|73.19|
92187456|NCT01580306|184273344|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|107.22|STANDARD_DEVIATION|107.7|||TWO_SIDED|90.0|35.16|327.01|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison mild : normal||327.01|35.16|
92187457|NCT01580306|184273344|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|175.52|STANDARD_DEVIATION|70.4|||TWO_SIDED|90.0|89.55|344.06|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison moderate : normal||344.06|89.55|
92187458|NCT01580306|184273344|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|120.98|STANDARD_DEVIATION|115.0|||TWO_SIDED|90.0|47.257|309.736|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison severe : normal||309.736|47.257|
92187459|NCT00901459|184273347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47|STANDARD_ERROR_OF_MEAN|0.44||0.014|TWO_SIDED|95.0|0.51|2.43||A Holm correction to p values was made to control for type 1 error.|t-test, 2 sided|df=14|The parameter estimated is the difference in craving change between smoking cues and neutral cues in the 10Hz sfg condition (Frequency control)and the corresponding craving change in the 1Hz sfg condition (active).|A pairwise t-test was performed to contrast the active rTMS condition with the frequency control condition.||2.43|0.51|0.014
92187460|NCT00901459|184273347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.4||0.49|TWO_SIDED|95.0|-0.64|1.22|||t-test, 2 sided|df=13|The parameter estimated is the difference in craving change between smoking cues and neutral cues in the 1Hz sfg condition (active)and the corresponding craving change in the 1Hz moc condition (location control).|A pairwise t-test was performed to contrast the active rTMS condition with the location control condition.||1.22|-0.64|0.49
92302742|NCT03056157|184510508|SUPERIORITY||Odds Ratio (OR)|0.7||||0.49|TWO_SIDED|95.0|0.25|1.95|||Fisher Exact|||Odds ratio comparison of the proportions of participants experiencing improvement in PCL-5 at post-treatment in AD-MIL versus PCT.||1.95|0.25|0.49
92302743|NCT03056157|184510508|SUPERIORITY||Odds Ratio (OR)|0.58||||0.18|TWO_SIDED|95.0|0.25|1.32|||Fisher Exact|||Odds ratio comparison of the proportions of participants experiencing no change in PCL-5 at post-treatment in AD-MIL versus PCT.||1.32|0.25|0.18
92302744|NCT03056157|184510509|SUPERIORITY||Slope|-0.99||||0.14|TWO_SIDED|95.0|-2.29|0.34|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(1550) = -1.46, d = 0.07||0.34|-2.29|0.14
92302745|NCT03056157|184510509|SUPERIORITY||Slope|-5.87|||<|0.001|TWO_SIDED|95.0|-6.8|-4.9|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(161) = -12.41, d = 1.96.||-4.90|-6.80|<0.001
92302746|NCT03056157|184510509|SUPERIORITY||Slope|-4.89|||<|0.001|TWO_SIDED|95.0|-5.82|-3.94|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(161) = -10.29, d = 1.62.||-3.94|-5.82|<0.001
92187461|NCT00901459|184273347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.95|STANDARD_ERROR_OF_MEAN|0.44||0.09|TWO_SIDED|95.0|0.52|1.39||A Holm correction to p values was made to control for type 1 error.|t-test, 2 sided|df=13|The parameter estimated is the difference in craving change between smoking cues and neutral cues in the 10Hz sfg condition (frequency control)and the corresponding craving change in the 1Hz moc condition (location control).|A pairwise t-test was performed to contrast the location control rTMS condition with the frequency control condition.||1.39|0.52|0.09
92187462|NCT04791917|184273357|SUPERIORITY|||||||0.26|||||||ANCOVA|F(1,41) = 1.32, partial eta squared = .03||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on breakpoint for alcohol including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.26
92302747|NCT03056157|184510509|SUPERIORITY||Slope|0.02||||0.68|TWO_SIDED|95.0|-0.99|1.53|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(1550) = 0.42, d = 0.02.||1.53|-0.99|0.68
92302748|NCT03056157|184510509|SUPERIORITY||Slope|1.36||||0.003|TWO_SIDED|95.0|0.48|2.24|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(1550) = 3.02, d = 0.15.||2.24|0.48|0.003
92302749|NCT03056157|184510509|SUPERIORITY||Slope|1.09||||0.02|TWO_SIDED|95.0|0.19|1.99|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(1550) = 2.37, d = 0.12.||1.99|0.19|0.02
92302750|NCT03056157|184510510|SUPERIORITY||Slope|-0.2||||0.18|TWO_SIDED|95.0|-0.49|0.09|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(314) = -1.35, d = 0.15.||0.09|-0.49|0.18
92302751|NCT03056157|184510510|SUPERIORITY||Slope|-0.26||||0.02|TWO_SIDED|95.0|-0.47|-0.05|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(113) = -2.44, d = 0.46.||-0.05|-0.47|0.02
92302752|NCT03056157|184510510|SUPERIORITY||Slope|-0.06||||0.62|TWO_SIDED|95.0|-0.26|0.14|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(113) = -0.69, d = 0.12.||0.14|-0.26|0.62
92302753|NCT03056157|184510510|SUPERIORITY||Slope|0.16||||0.18|TWO_SIDED|95.0|-0.07|0.39|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(314) = 1.34, d = 0.15.||0.39|-0.07|0.18
92302754|NCT03056157|184510510|SUPERIORITY||Slope|0.13||||0.14|TWO_SIDED|95.0|-0.04|0.3|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(113) = 1.49, d = 0.28.||0.30|-0.04|0.14
92302755|NCT03056157|184510510|SUPERIORITY||Slope|-0.03||||0.71|TWO_SIDED|95.0|-0.19|0.13|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(113) = -0.38, d = 0.07.||0.13|-0.19|0.71
92302756|NCT03056157|184510511|SUPERIORITY||Slope|-0.47|||<|0.001|TWO_SIDED|95.0|-0.74|-0.2|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(314) = -3.41, d = 0.39.||-0.20|-0.74|<0.001
92302757|NCT03056157|184510511|SUPERIORITY||Slope|-0.64|||<|0.001|TWO_SIDED|95.0|-0.83|-0.44|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(113) = -6.41, d = 1.20.||-0.44|-0.83|<0.001
92302758|NCT03056157|184510511|SUPERIORITY||Slope|-0.17||||0.07|TWO_SIDED|95.0|-0.36|0.02|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(113) = -1.83, d = 0.34.||0.02|-0.36|0.07
92302759|NCT03056157|184510511|SUPERIORITY||Slope|0.35||||0.002|TWO_SIDED|95.0|0.13|0.57|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(314) = 3.13, d = 0.06.||0.57|0.13|0.002
92302760|NCT03056157|184510511|SUPERIORITY||Slope|0.18||||0.03|TWO_SIDED|95.0|0.02|0.34|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(113) = 2.21, d = 0.42.||0.34|0.02|0.03
92302761|NCT03056157|184510511|SUPERIORITY||Slope|-0.17||||0.03|TWO_SIDED|95.0|-0.32|-0.02|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(113) = -2.22, d = 0.42.||-0.02|-0.32|0.03
92302762|NCT03056157|184510512|SUPERIORITY||Slope|0.32||||0.01|TWO_SIDED|95.0|0.06|0.57|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Wrongdoing scores, t(314) = 2.46, d = 0.28.||0.57|0.06|0.01
92302763|NCT03056157|184510512|SUPERIORITY||Slope|0.001||||0.95|TWO_SIDED|95.0|-0.17|0.18|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for RGI Wrongdoing scores, t(113) = 0.06, d = 0.01.||0.18|-0.17|0.95
92302764|NCT03056157|184510512|SUPERIORITY||Slope|-0.31||||0.01|TWO_SIDED|95.0|-0.5|-0.13|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for RGI Wrongdoing scores, t(113) = -3.32, d = 0.62.||-0.13|-0.50|0.01
92302765|NCT03056157|184510512|SUPERIORITY||Slope|-0.21||||0.04|TWO_SIDED|95.0|-0.41|-0.01|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Wrongdoing scores, t(314) = -2.02, d = 0.23.||-0.01|-0.41|0.04
92302766|NCT03056157|184510512|SUPERIORITY||Slope|-0.16||||0.03|TWO_SIDED|95.0|-0.3|-0.02|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Wrongdoing scores, t(113) = -2.18, d = 0.03.||-0.02|-0.30|0.03
92302767|NCT03056157|184510512|SUPERIORITY||Slope|0.05||||0.48|TWO_SIDED|95.0|-0.09|0.2|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for RGI Wrongdoing scores, t(113) = 0.70, d = 0.13.||0.20|-0.09|0.48
92302768|NCT03056157|184510513|SUPERIORITY||Slope|0.7||||0.45|TWO_SIDED|95.0|-1.12|2.52|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(317) = 0.76, d = 0.09.||2.52|-1.12|0.45
92302769|NCT03056157|184510513|SUPERIORITY||Slope|-1.2||||0.08|TWO_SIDED|95.0|-2.52|0.12|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(113) = -1.79, d = 0.34.||0.12|-2.52|0.08
92302770|NCT03056157|184510513|SUPERIORITY||Slope|-1.91||||0.003|TWO_SIDED|95.0|-3.15|-0.66|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(113) = -3.00, d = 0.56.||-0.66|-3.15|0.003
92302771|NCT03056157|184510513|SUPERIORITY||standardized effect size of the slope|-0.29||||0.7|TWO_SIDED|95.0|-1.75|1.17|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(317) = -0.39, d = 0.04.||1.17|-1.75|0.70
92302772|NCT03056157|184510513|SUPERIORITY||Slope|-0.59||||0.27|TWO_SIDED|95.0|-1.64|0.46|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(317) = -1.11, d = 0.12.||0.46|-1.64|0.27
92302773|NCT03056157|184510513|SUPERIORITY||Slope|-0.29||||0.57|TWO_SIDED|95.0|-1.32|0.72|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(317) = -0.57, d = 0.06.||0.72|-1.32|0.57
92302774|NCT03056157|184510514|SUPERIORITY||Slope|3.41||||0.02|TWO_SIDED|95.0|0.56|6.25|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(326) = 2.35, d = 0.26.||6.25|0.56|0.02
92302775|NCT03056157|184510514|SUPERIORITY||Slope|6.84|||<|0.001|TWO_SIDED|95.0|4.78|8.9|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(116) = -6.53, d = 1.21.||8.90|4.78|<0.001
92302776|NCT03056157|184510514|SUPERIORITY||Slope|3.43||||0.001|TWO_SIDED|95.0|1.47|5.4|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(116) = 3.44, d = 0.64.||5.40|1.47|0.001
92302777|NCT03056157|184510514|SUPERIORITY||Slope|0.76||||0.51|TWO_SIDED|95.0|-1.5|3.03|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(326) = 0.66, d = 0.07.||3.03|-1.50|0.51
92187463|NCT04791917|184273358|SUPERIORITY|||||||0.11|||||||ANCOVA|F(1,43) = 2.60, partial eta squared = .06||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Omax for alcohol including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.11
92187464|NCT04791917|184273359|SUPERIORITY|||||||0.17|||||||ANCOVA|F(1,42) = 1.95, partial eta squared = .04||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on alcohol Pmax including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.17
92302778|NCT03056157|184510514|SUPERIORITY||Slope|-0.27||||0.75|TWO_SIDED|95.0|-1.89|1.35|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(326) = -0.32, d = 0.04.||1.35|-1.89|0.75
92302779|NCT03056157|184510514|SUPERIORITY||Slope|-1.03||||0.2|TWO_SIDED|95.0|-2.61|0.55|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(326) = -1.28, d = 0.14.||0.55|-2.61|0.20
92302780|NCT03056157|184510515|SUPERIORITY||Slope|0.26||||0.004|TWO_SIDED|95.0|0.08|0.43|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(319) = 2.93, d = 0.33.||0.43|0.08|0.004
92187465|NCT04791917|184273360|SUPERIORITY|||||||0.91|||||||ANCOVA|F(1,43)=.01, partial eta squared = .00||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on alcohol essential value including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.91
92187466|NCT04791917|184273361|SUPERIORITY|||||||0.14|||||||ANCOVA|F(1,41) = 2.24, partial eta squared = .05||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on intensity of cannabis demand including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.14
92302781|NCT03056157|184510515|SUPERIORITY||Slope|0.35|||<|0.001|TWO_SIDED|95.0|0.23|0.48|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(114) = 5.56, d = 1.04.||0.48|0.23|<0.001
92302782|NCT03056157|184510515|SUPERIORITY||Slope|0.1||||0.11|TWO_SIDED|95.0|-0.02|0.22|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(114) = 1.61, d = 0.30.||0.22|-0.02|0.11
92302783|NCT03056157|184510515|SUPERIORITY||Slope|0.007||||0.92|TWO_SIDED|95.0|-0.13|0.15|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(319) = 0.10, d = 0.10.||0.15|-0.13|0.92
92302784|NCT03056157|184510515|SUPERIORITY||Slope|0.02||||0.75|TWO_SIDED|95.0|-0.08|0.12|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(319) = 0.31, d = 0.03.||0.12|-0.08|0.75
92302785|NCT03056157|184510515|SUPERIORITY||Slope|0.01||||0.86|TWO_SIDED|95.0|-0.09|0.11|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(319) = 0.18, d = 0.02.||0.11|-0.09|0.86
92302786|NCT03056157|184510516|SUPERIORITY||Slope|-2.56||||0.15|TWO_SIDED|95.0|-6.1|0.97|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(325) = -1.43, d = 0.16.||0.97|-6.10|0.15
92187467|NCT04791917|184273362|SUPERIORITY|||||||0.83|||||||ANCOVA|F(1,41) = .04, partial eta squared = .001||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on breakpoint of cannabis demand including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.83
92302787|NCT03056157|184510516|SUPERIORITY||Slope|-5.28|||<|0.001|TWO_SIDED|95.0|-7.83|-2.73|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(116) = -4.07, d = 0.76||-2.73|-7.83|<0.001
92302788|NCT03056157|184510516|SUPERIORITY||Slope|-2.71||||0.03|TWO_SIDED|95.0|-5.16|-0.28|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(116) = -2.19, d = 0.41.||-0.28|-5.16|0.03
92302789|NCT03056157|184510516|SUPERIORITY||Slope|-1.38||||0.33|TWO_SIDED|95.0|-4.17|1.42|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(325) = -0.97, d = 0.11.||1.42|-4.17|0.33
92302790|NCT03056157|184510516|SUPERIORITY||Slope|-1.54||||0.13|TWO_SIDED|95.0|-3.54|0.46|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(325) = -1.51, d = 0.17.||0.46|-3.54|0.13
92302791|NCT03056157|184510516|SUPERIORITY||Slope|-0.17||||0.87|TWO_SIDED|95.0|-2.12|1.79|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(325) = -0.17, d = 0.02.||1.79|-2.12|0.87
92302792|NCT03056157|184510517|SUPERIORITY||Slope|-0.37||||0.04|TWO_SIDED|95.0|-0.72|-0.01|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(319) = -2.03, d = 0.23.||-0.01|-0.72|0.04
92302793|NCT03056157|184510517|SUPERIORITY||Slope|-0.83|||<|0.001|TWO_SIDED|95.0|-1.09|-0.58|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(116)= -6.40, d = 1.19.||-0.58|-1.09|<0.001
92302794|NCT03056157|184510517|SUPERIORITY||Slope|-0.47||||0.002|TWO_SIDED|95.0|-0.71|-0.22|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(116) = -3.78, d = 0.70.||-0.22|-0.71|0.002
92302795|NCT03056157|184510517|SUPERIORITY||Slope|-0.08||||0.58|TWO_SIDED|95.0|-0.37|0.21|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(319) = -0.56, d = 0.06.||0.21|-0.37|0.58
92302796|NCT03056157|184510517|SUPERIORITY||Slope|-0.1||||0.34|TWO_SIDED|95.0|-0.31|0.11|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(319) = -0.96, d = 0.11.||0.11|-0.31|0.34
92302797|NCT03056157|184510517|SUPERIORITY||Slope|-0.02||||0.85|TWO_SIDED|95.0|-0.22|0.18|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(319) = -0.19, d = 0.02.||0.18|-0.22|0.85
92302798|NCT03056157|184510518|SUPERIORITY|We log-transformed CTS2 scores because they were heavily positively skewed in conjunction with zero-inflation.|Slope|-0.23||||0.07|TWO_SIDED|95.0|-0.48|0.02|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(319)= -1.82, d = 0.20.||0.02|-0.48|0.07
92302799|NCT03056157|184510518|SUPERIORITY||Slope|-0.13||||0.17|TWO_SIDED|95.0|-0.31|-0.05|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(116) = -1.39, d = 0.16.||-0.05|-0.31|0.17
92302800|NCT03056157|184510518|SUPERIORITY||Slope|0.1||||0.24|TWO_SIDED|95.0|-0.07|0.27|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(116) = 1.18, d = 0.13.||0.27|-0.07|0.24
92302801|NCT03056157|184510518|SUPERIORITY||Slope|0.11||||0.71|TWO_SIDED|95.0|-0.23|0.15|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(319) = -0.37, d = 0.04.||0.15|-0.23|0.71
92302802|NCT03056157|184510518|SUPERIORITY||Slope|-0.07||||0.32|TWO_SIDED|95.0|-0.21|0.07|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(319) = -1.00, d = 0.11.||0.07|-0.21|0.32
92302803|NCT03056157|184510518|SUPERIORITY||Slope|-0.04||||0.61|TWO_SIDED|95.0|-0.17|0.1|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(319) = -0.51, d = 0.06.||0.10|-0.17|0.61
92302804|NCT03056157|184510519|SUPERIORITY||Slope|-0.07||||0.74|TWO_SIDED|95.0|-0.5|0.36|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(318) = -0.33, d = 0.04||0.36|-0.50|0.74
92302805|NCT03056157|184510519|SUPERIORITY||Slope|-0.12||||0.44|TWO_SIDED|95.0|-0.43|0.19|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(114) = -0.77, d = 0.14.||0.19|-0.43|0.44
92302806|NCT03056157|184510519|SUPERIORITY||Slope|-0.06||||0.74|TWO_SIDED|95.0|-0.35|0.24|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(114) = -0.34, d = 0.06.||0.24|-0.35|0.74
92302807|NCT03056157|184510519|SUPERIORITY||Slope|-0.1||||0.57|TWO_SIDED|95.0|-0.45|0.25|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(114) = -0.57, d = 0.11.||0.25|-0.45|0.57
92302808|NCT03056157|184510519|SUPERIORITY||Slope|-0.03||||0.82|TWO_SIDED|95.0|-0.28|0.22|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(114) = -0.23, d = 0.04.||0.22|-0.28|0.82
92302809|NCT03056157|184510519|SUPERIORITY||Slope|0.07||||0.57|TWO_SIDED|95.0|-0.17|0.31|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(114) = 0.58, d = 0.11.||0.31|-0.17|0.57
92302810|NCT03056157|184510520|SUPERIORITY||Slope|-1.1||||0.16|TWO_SIDED|95.0|-2.63|0.43|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(316) = -1.42, d = 0.16.||0.43|-2.63|0.16
92302811|NCT03056157|184510520|SUPERIORITY||Slope|-0.76||||0.18|TWO_SIDED|95.0|-1.87|0.35|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(114)= -1.35, d = 0.25.||0.35|-1.87|0.18
92187468|NCT04791917|184273363|SUPERIORITY|||||||0.15|||||||ANCOVA|F(1,41) = 2.20, partial eta squared = .05||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Omax for cannabis including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.15
92187469|NCT04791917|184273364|SUPERIORITY|||||||0.24|||||||ANCOVA|F(1,41) = 1.41, partial eta squared = .03||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Omax for cannabis including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.24
92187470|NCT04791917|184273365|SUPERIORITY|||||||0.97|||||||ANCOVA|F(1,41) = .001, partial eta squared = .00||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Essential Value for cannabis including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.97
92302812|NCT03056157|184510520|SUPERIORITY||Slope|0.34||||0.53|TWO_SIDED|95.0|-0.71|1.39|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(114) = 0.63, d = 0.12.||1.39|-0.71|0.53
92302813|NCT03056157|184510520|SUPERIORITY||Slope|-0.6||||0.37|TWO_SIDED|95.0|-1.93|0.73|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(316) = -0.89, d = 0.12.||0.73|-1.93|.37
92302814|NCT03056157|184510520|SUPERIORITY||Slope|-0.04||||0.94|TWO_SIDED|95.0|-1.0|0.92|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(114) = -0.08, d = 0.02.||0.92|-1.00|0.94
92302815|NCT03056157|184510520|SUPERIORITY||Slope|0.57||||0.23|TWO_SIDED|95.0|-0.35|1.48|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(114) = 1.21, d = 0.23.||1.48|-0.35|0.23
92302816|NCT03056157|184510521|SUPERIORITY||Slope|3.98||||0.01|TWO_SIDED|95.0|0.83|7.13|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(316) = 2.49, d = 0.28.||7.13|0.83|0.01
92302817|NCT03056157|184510521|SUPERIORITY||Slope|4.84|||<|0.001|TWO_SIDED|95.0|2.55|7.13|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(114) = 4.16, d = 0.78.||7.13|2.55|<0.001
92302818|NCT03056157|184510521|SUPERIORITY||Slope|0.85||||0.44|TWO_SIDED|95.0|-1.31|3.02|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(114) = 0.78, d = 0.15.||3.02|-1.31|0.44
92302819|NCT03056157|184510521|SUPERIORITY||Slope|0.21||||0.88|TWO_SIDED|95.0|-2.32|2.75|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(316) = 0.17, d = 0.02.||2.75|-2.32|0.88
92302820|NCT03056157|184510521|SUPERIORITY||Slope|0.55||||0.55|TWO_SIDED|95.0|-1.27|2.37|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(316) = 0.60, d = 0.07.||2.37|-1.27|0.55
92302821|NCT03056157|184510521|SUPERIORITY||Slope|0.38||||0.7|TWO_SIDED|95.0|-1.42|2.1|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(316) = 0.38, d = 0.04.||2.10|-1.42|0.70
92302822|NCT03056157|184510522|SUPERIORITY||Slope|-0.04||||0.8|TWO_SIDED|95.0|-0.32|0.25|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCBSC scores, t(318) = -0.25, d = 0.03.||0.25|-0.32|0.80
92302823|NCT03056157|184510522|SUPERIORITY||Slope|0.04||||0.57|TWO_SIDED|95.0|-0.09|0.16|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCBSC scores, t(115) = 0.57, d = 0.11.||0.16|-0.09|0.57
92302824|NCT03056157|184510522|SUPERIORITY||Slope|-0.01||||0.82|TWO_SIDED|95.0|-0.14|0.11|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCBSC scores, t(115) = -0.23, d = 0.04.||0.11|-0.14|0.82
92302825|NCT03056157|184510522|SUPERIORITY||Slope|0.05||||0.57|TWO_SIDED|95.0|-0.13|0.23|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCBSC scores, t(320) = 0.57, d = 0.06.||0.23|-0.13|0.57
92302826|NCT03056157|184510523|SUPERIORITY||Slope|3.91||||0.002|TWO_SIDED|95.0|1.48|6.35|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(408) = 3.16, d = 0.32.||6.35|1.48|0.002
92302827|NCT03056157|184510523|SUPERIORITY||Slope|4.16|||<|0.001|TWO_SIDED|95.0|2.41|5.92|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(121) = 4.66, d = 0.85.||5.92|2.41|<0.001
92302828|NCT03056157|184510523|SUPERIORITY||Slope|0.25||||0.78|TWO_SIDED|95.0|-1.44|1.94|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(121) = 0.63, d = 0.11.||1.94|-1.44|0.78
92187471|NCT04791917|184273365|SUPERIORITY|||||||0.03|||||||ANCOVA|F(1,41) = 4.86, partial eta squared = .11||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Essential Value for cannabis including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Time X Group interaction.||||.03
92302829|NCT03056157|184510523|SUPERIORITY||Slope|-0.05||||0.73|TWO_SIDED|95.0|-0.34|0.24|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(408) = -0.34, d = 0.01.||0.24|-0.34|0.73
92302830|NCT03056157|184510523|SUPERIORITY||Slope|0.06||||0.58|TWO_SIDED|95.0|-0.15|0.27|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(408) = 0.56, d = 0.06.||0.27|-0.15|0.58
92302831|NCT03056157|184510523|SUPERIORITY||Slope|0.11||||0.28|TWO_SIDED|95.0|-0.1|0.31|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(408) = 1.07, d = 0.11.||0.31|-0.10|0.28
92302832|NCT00140426|184510529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.55|TWO_SIDED|95.0|0.41|1.74|||Regression, Cox|Time to reaching ease of eating level 3 assessed using Cox regression as some patients did not reach it during the study.|The hazard ratio is for the placebo group versus the treatment group. A hazard ratio \<1 implies that the placebo group had a lower risk of achieving EOE level 3, although not statistically significant. Achieving EOE level 3 was the desired endpoint.|||1.74|0.41|0.55
92187472|NCT04791917|184273366|SUPERIORITY|||||||0.04|||||||ANCOVA|F(1,42) = 4.66, partial eta squared = .10||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on intensity of alcohol demand including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.04
92187473|NCT04791917|184273366|SUPERIORITY||Slope|0.1||||0.26|TWO_SIDED||||||ANCOVA|||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Intensity of alcohol demand including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the effect of Time on Intensity for men in the DOMS group.||||.26
92187474|NCT04791917|184273366|SUPERIORITY||Slope|-0.09||||0.22|TWO_SIDED||||||ANCOVA|||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Intensity of alcohol demand including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the effect of Time on Intensity for women in the DOMS group.||||.22
92187475|NCT04791917|184273366|SUPERIORITY||Slope|-0.1||||0.27|TWO_SIDED||||||ANCOVA|||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Intensity of alcohol demand including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the effect of Time on Intensity for men in the sham DOMS group.||||.27
92302833|NCT00140426|184510533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.38|STANDARD_DEVIATION|3.74||0.1|TWO_SIDED||||||t-test, 2 sided|||||||0.10
92302834|NCT00140426|184510533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.45|STANDARD_DEVIATION|20.88|<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
92302835|NCT00140426|184510535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.26||0.47|TWO_SIDED|95.0|-0.71|0.33|||t-test, 2 sided||The mean difference was for placebo - risperidone.|Null hypothesis: no difference in change from baseline to end of treatment for CAPT total score||0.33|-0.71|0.47
92302836|NCT00140426|184510536|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||t-test, 2 sided|||||||0.57
92302837|NCT00140426|184510537|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.50
92302838|NCT00140426|184510538|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||t-test, 2 sided|||||||0.43
92302839|NCT00140426|184510539|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||t-test, 2 sided|||||||0.12
92302840|NCT02149108|184510540|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.49|0.69||Hazard ratio, confidence interval and p-value obtained from log-rank test stratified by regorafenib pre-treatment (yes vs no), time from onset metastatic disease until randomisation (less than 24 months vs 24 months or more ) and region.|Log Rank||Hazard ratio \<1 favors Nintedanib.|||0.69|0.49|<0.0001
92302841|NCT02149108|184510541|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.8659|TWO_SIDED|95.0|0.86|1.19||Hazard ratio, confidence interval and p-value obtained from log-rank test stratified by regorafenib pre-treatment (yes vs no), time from onset metastatic disease until randomisation (less than 24 months vs 24 months or more ) and region.|Log Rank||Hazard ratio below 1 favors Nintedanib.|||1.19|0.86|0.8659
92302842|NCT02149108|184510543|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96|||<|0.0001|TWO_SIDED|95.0|2.0|4.47||Odds ratio and p-value are obtained from logistic regression model adjusted for regorafenib pre-treatment (yes vs no), time from onset metastatic disease until randomization in the trial (less than 24 months vs. 24 months or more) and region.|Regression, Logistic||An odds ratio \>1 indicates benefit to Nintedanib.|||4.47|2.00|<0.0001
92302843|NCT04168190|184510544|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|-10.0|||||TWO_SIDED|95.0|-29.3|9.0|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Injection site erythema||9.0|-29.3|
92302844|NCT04168190|184510544|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.3|||||TWO_SIDED|95.0|-18.1|24.6|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Injection site erythema||24.6|-18.1|
92302845|NCT04168190|184510544|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|16.7|||||TWO_SIDED|95.0|-7.7|39.3|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Injection site pain||39.3|-7.7|
92302846|NCT04168190|184510544|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|20.0|||||TWO_SIDED|95.0|-4.1|42.1|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Injection site pain||42.1|-4.1|
92187476|NCT04791917|184273366|SUPERIORITY||Slope|0.06||||0.49|TWO_SIDED||||||ANCOVA|||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Intensity of alcohol demand including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the effect of Time on Intensity for women in the sham DOMS group.||||.49
92187477|NCT00850993|184273369|OTHER|Pairwise comparison for each Stannsoporfin treatment group versus placebo.|LS Mean Difference|-13.45|||=|0.04|TWO_SIDED|95.0|-26.27|-0.62|||ANCOVA|||Last Observation Carry Forward (LOCF) is used to impute missing post-baseline TSB. Least-squares means are from an ANCOVA model for adjusted TSB with treatment and gestational age as fixed effects and baseline adjusted TSB as a covariate. TSB is calculated as \[(TSB - Phototherapy(PT) threshold)/ PT threshold \] X 100%.||-0.62|-26.27|=0.040
92187478|NCT00850993|184273369|OTHER||LS Mean Difference|-10.02|||=|0.117|TWO_SIDED|95.0|-22.61|2.58|||ANCOVA|||||2.58|-22.61|=0.117
92187479|NCT00850993|184273369|OTHER||LS Mean Difference|-14.93|||=|0.057|TWO_SIDED|95.0|-30.31|0.44|||ANCOVA|||||0.44|-30.31|=0.057
92302847|NCT04168190|184510544|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|6.7|||||TWO_SIDED|95.0|-13.2|26.5|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Injection site swelling||26.5|-13.2|
92302848|NCT04168190|184510544|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.3|||||TWO_SIDED|95.0|-16.0|22.8|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Injection site swelling||22.8|-16.0|
92187480|NCT00850993|184273370|OTHER|Pairwise comparison for Change from Baseline at 48 hours (Row 3) for Stannsoporfin treatment group versus placebo|LS Mean Difference|-1.81|||=|0.061|TWO_SIDED|95.0|-3.71|0.09|||ANCOVA|||Last Observation Carry Forward (LOCF) is used to impute missing post-baseline TSB. Analysis of covariance (ANCOVA) is conducted for TSB including treatment and gestational age as fixed effects and baseline TSB as a covariate. Least-squares means (LS means) and standard errors (SEM) are estimated for each treatment group and placebo. LS mean difference, 95% Confidence Interval, and p-value are estimated based on LS mean difference between each stannsoporfin group and placebo.||0.09|-3.71|=0.061
92302849|NCT04168190|184510545|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|10.0|||||TWO_SIDED|95.0|-11.4|31.0|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Fatigue||31.0|-11.4|
92302850|NCT04168190|184510545|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|10.0|||||TWO_SIDED|95.0|-11.4|31.0|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Fatigue||31.0|-11.4|
92187481|NCT00850993|184273370|OTHER|Pairwise comparison for Change from Baseline at 48 hours (Row 3) for Stannsoporfin treatment group versus placebo|LS Mean Difference|-1.34|||=|0.163|TWO_SIDED|95.0|-3.24|0.56|||ANCOVA|||Last Observation Carry Forward (LOCF) is used to impute missing post-baseline TSB. Analysis of covariance (ANCOVA) is conducted for TSB including treatment and gestational age as fixed effects and baseline TSB as a covariate. Least-squares means (LS means) and standard errors (SEM) are estimated for each treatment group and placebo. LS mean difference, 95% Confidence Interval, and p-value are estimated based on LS mean difference between each stannsoporfin group and placebo.||0.56|-3.24|=0.163
92302851|NCT04168190|184510545|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|10.0|||||TWO_SIDED|95.0|-7.4|28.3|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Arthralgia||28.3|-7.4|
92302852|NCT04168190|184510545|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.3|||||TWO_SIDED|95.0|-13.1|20.2|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Arthralgia||20.2|-13.1|
92302853|NCT04168190|184510545|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|13.3|||||TWO_SIDED|95.0|-7.5|33.8|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Myalgia||33.8|-7.5|
92302854|NCT04168190|184510545|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|16.7|||||TWO_SIDED|95.0|-4.6|37.3|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Myalgia||37.3|-4.6|
92302855|NCT04168190|184510545|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|13.3|||||TWO_SIDED|95.0|-8.5|34.5|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Headache||34.5|-8.5|
92302856|NCT04168190|184510545|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.3|||||TWO_SIDED|95.0|-17.2|23.8|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Headache||23.8|-17.2|
92302857|NCT04168190|184510546|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-11.5|11.5|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|||11.5|-11.5|
92302858|NCT04168190|184510546|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-11.5|11.5|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|||11.5|-11.5|
92302859|NCT04168190|184510547|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|2.0|||||TWO_SIDED|95.0|-2.8|6.8|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Injection site erythema||6.8|-2.8|
92302860|NCT04168190|184510547|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|8.7|||||TWO_SIDED|95.0|0.1|17.1|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Injection site pain||17.1|0.1|
92302861|NCT04168190|184510547|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.1|||||TWO_SIDED|95.0|-2.0|8.4|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Injection site swelling||8.4|-2.0|
92302862|NCT04168190|184510548|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|7.1|||||TWO_SIDED|95.0|0.8|13.5|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Fatigue||13.5|0.8|
92302863|NCT04168190|184510548|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.8|3.8|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Arthralgia||3.8|-3.8|
92187482|NCT00850993|184273370|OTHER|Pairwise comparison for Change from Baseline at 48 hours (Row 3) for Stannsoporfin treatment group versus placebo|LS Mean Difference|-2.63|||=|0.028|TWO_SIDED|95.0|-4.97|-0.3|||ANCOVA|||Last Observation Carry Forward (LOCF) is used to impute missing post-baseline TSB. Analysis of covariance (ANCOVA) is conducted for TSB including treatment and gestational age as fixed effects and baseline TSB as a covariate. Least-squares means (LS means) and standard errors (SEM) are estimated for each treatment group and placebo. LS mean difference, 95% Confidence Interval, and p-value are estimated based on LS mean difference between each stannsoporfin group and placebo.||-0.3|-4.97|=0.028
92187483|NCT03032965|184273376|SUPERIORITY|||||||0.83|||||||Log Rank|Kaplan Meier log rank||||||.83
92187484|NCT03032965|184273377|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||.35
92187485|NCT03032965|184273379|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
92187486|NCT00636168|184273385|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0013|TWO_SIDED|95.0|0.64|0.9|||Log Rank|stratified 2-sided log-rank test||The hazard ratio, and its 95 % confidence interval was estimated using a Cox proportional hazards model, stratified by stage (IIIa vs. IIIb vs. IIIc with 1-3 positive lymph-nodes vs. IIIc with \>= 4 positive lymph-nodes) as indicated at randomization, with treatment as the single covariate.. The analysis was performed after 528 RFS events per IRC were reported. Two-sided, 95% confidence intervals for median RFS were computed by the Brookmeyer and Crowley method using log-log transformation.||0.90|0.64|0.0013
92187487|NCT00636168|184273388|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0024|TWO_SIDED|95.8|0.64|0.92|||Log Rank|stratified 2-sided log-rank test||Medians and associated 2-sided 95% confidence intervals are calculated using the method of Brookmeyer and Crowley. Analysis was stratified for stage (IIIa vs. IIIb vs. IIIc with 1-3 positive lymph-nodes vs. IIIc with \>= 4 positive lymph-nodes) as recorded at randomization. P-value was based on stratified 2-sided log-rank test. Hazard of 10 mg/kg Ipilimumab over hazard of Placebo, with 2-sided 95.8% confidence interval are based on a stratified Cox proportional hazards model||0.92|0.64|0.0024
92187488|NCT00636168|184273391|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0013|TWO_SIDED|95.1|0.58|0.88|||Log Rank|stratified 2-sided log-rank test||Medians and associated 2-sided 95% confidence intervals are calculated using the method of Brookmeyer and Crowley. Analysis was stratified for stage (IIIa vs. IIIb vs. IIIc with 1-3 positive lymph-nodes vs. IIIc with \>= 4 positive lymph-nodes) as recorded at randomization. P-value was based on stratified 2-sided log-rank test. Hazard of 10 mg/kg Ipilimumab over hazard of Placebo, with 2-sided 95.1% confidence interval are based on a stratified Cox proportional hazards model||0.88|0.58|0.0013
92187489|NCT01842360|184273428|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
92187490|NCT01842360|184273429|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0|||||Poisson|||||||<0.001
92187491|NCT01842360|184273430|SUPERIORITY|||||||0.0094|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||The mean of health care consumption was 17.5±34.7 points in the placebo group versus 9.2±27.9 points in the MV130 group.||||0.0094
92187492|NCT01842360|184273431|SUPERIORITY|||||||0.3917|TWO_SIDED|95.0|||||Log Rank|||||||0.3917
92187493|NCT01842360|184273432|SUPERIORITY|||||||0.0232|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||As for the previous index the number of days with any of these drugs is used.||||0.0232
92302864|NCT04168190|184510548|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|1.6|||||TWO_SIDED|95.0|-3.8|7.0|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Myalgia||7.0|-3.8|
92187494|NCT01842360|184273433|SUPERIORITY|||||||0.0319|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0319
92187495|NCT01842360|184273434|SUPERIORITY|||||||0.0264|||||||Wilcoxon (Mann-Whitney)|||||||0.0264
92187496|NCT01842360|184273435|SUPERIORITY|||||||0.0037|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||The mean number of emergency room visits was 0.37 (±1.15) for the MV130 group and 0.87 (±1.61) for the placebo group.||||0.0037
92187497|NCT01842360|184273436|SUPERIORITY|||||||0.1008|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||The mean number of medical consultations was 0.08 (±0.31) for the MV130 group and 0.31 (±0.88) for the placebo group.||||0.1008
92302865|NCT04168190|184510548|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.5|||||TWO_SIDED|95.0|-2.7|9.9|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Headache||9.9|-2.7|
92302866|NCT04168190|184510549|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-1.5|1.5|||||Phase 2: V116 minus Phase 2: Pneumovax™23|||1.5|-1.5|
92302867|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.82|1.22|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 3. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.22|0.82|<0.001
92187498|NCT01842360|184273437|SUPERIORITY|||||||0.0367|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.0367
92187499|NCT01842360|184273439|SUPERIORITY|||||||0.3234|TWO_SIDED|95.0|||||Fisher Exact|||||||0.3234
92187500|NCT01842360|184273440|SUPERIORITY|||||||0.001|||||||Log Rank|||||||0.001
92302868|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.22|||<|0.001|TWO_SIDED|95.0|0.95|1.56|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 7F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.56|0.95|<0.001
92302869|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.13|||<|0.001|TWO_SIDED|95.0|0.9|1.41|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 19A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.41|0.90|<0.001
92302870|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.58|||<|0.001|TWO_SIDED|95.0|1.16|2.16|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 22F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.16|1.16|<0.001
92302871|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.71|1.24|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 33F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.24|0.71|<0.001
92302872|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|0.99|||<|0.001|TWO_SIDED|95.0|0.8|1.21|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 8. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.21|0.80|<0.001
92302873|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.13|||<|0.001|TWO_SIDED|95.0|0.87|1.47|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 9N. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.47|0.87|<0.001
92302874|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.19|||<|0.001|TWO_SIDED|95.0|0.93|1.52|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 10A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.52|0.93|<0.001
92302875|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|2.27|||<|0.001|TWO_SIDED|95.0|1.78|2.9|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 11A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.90|1.78|<0.001
92302876|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|2.57|||<|0.001|TWO_SIDED|95.0|1.86|3.55|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 12F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||3.55|1.86|<0.001
92302877|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.64|||<|0.001|TWO_SIDED|95.0|1.24|2.16|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 17F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.16|1.24|<0.001
92302878|NCT04168190|184510550|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.84|||<|0.001|TWO_SIDED|95.0|1.43|2.36|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 20A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.36|1.43|<0.001
92302879|NCT04168190|184510551|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|6.03|||<|0.001|TWO_SIDED|95.0|4.23|8.62|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 6A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||8.62|4.23|<0.001
92302880|NCT04168190|184510551|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|6.8|||<|0.001|TWO_SIDED|95.0|5.37|8.62|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 15A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||8.62|5.37|<0.001
92187501|NCT02971683|184273451|SUPERIORITY||Odds Ratio (OR)|1.8||||0.083|TWO_SIDED|95.0|0.9|3.5|||Regression, Logistic|||||3.5|0.9|0.083
92302881|NCT04168190|184510551|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|3.0|||<|0.001|TWO_SIDED|95.0|2.31|3.9|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 15C. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||3.90|2.31|<0.001
92302882|NCT04168190|184510551|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|18.21|||<|0.001|TWO_SIDED|95.0|12.98|25.57|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 16F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||25.57|12.98|<0.001
92302883|NCT04168190|184510551|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|19.45|||<|0.001|TWO_SIDED|95.0|12.87|29.4|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 23A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||29.40|12.87|<0.001
92302884|NCT04168190|184510551|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|29.88|||<|0.001|TWO_SIDED|95.0|20.72|43.09|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 23B. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||43.09|20.72|<0.001
92302885|NCT04168190|184510551|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|32.02|||<|0.001|TWO_SIDED|95.0|22.83|44.89|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 24F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||44.89|22.83|<0.001
92302886|NCT04168190|184510551|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|34.9|||<|0.001|TWO_SIDED|95.0|24.25|50.23|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 31. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||50.23|24.25|<0.001
92302887|NCT04168190|184510551|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|9.0|||<|0.001|TWO_SIDED|95.0|7.19|11.26|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 35B. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||11.26|7.19|<0.001
92302888|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.91|||||TWO_SIDED|95.0|0.58|1.42|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 3||1.42|0.58|
92187502|NCT04206501|184273472|SUPERIORITY|||||||0.064||||||The rate of change in HF medications (beta-blocker, diuretic, and Sacubitril/Valsartan) was compared betweenICM Guidedand usual care control group using chi-square analysis.|Chi-squared|||Due to the unexpected low enrollment during COVID pandemic, we aimed to primarily focus the limited analysis/description on the primary endpoint and exploratory analysis related to QOL||||0.064
92187503|NCT02066389|184273487|SUPERIORITY|||||||0.153||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.153
92187504|NCT02066389|184273487|SUPERIORITY|||||||0.018||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.018
92187505|NCT02066389|184273487|SUPERIORITY|||||||0.001||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.001
92187506|NCT02066389|184273487|SUPERIORITY|||||||0.008||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.008
92302889|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.12|||||TWO_SIDED|95.0|0.71|1.76|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 3||1.76|0.71|
92187507|NCT02066389|184273487|SUPERIORITY|||||||0.001||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.001
92187508|NCT02066389|184273488|SUPERIORITY|||||||0.034||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.034
92187509|NCT02066389|184273488|SUPERIORITY|||||||0.003||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.003
92187510|NCT02066389|184273488|SUPERIORITY|||||||0.002||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.002
92187511|NCT02066389|184273488|SUPERIORITY|||||||0.01||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.010
92187512|NCT02066389|184273488|SUPERIORITY|||||||0.012||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.012
92187513|NCT02066389|184273489|SUPERIORITY|||||||0.023||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.023
92187514|NCT02066389|184273489|SUPERIORITY|||||||0.003||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.003
92187515|NCT02066389|184273489|SUPERIORITY|||||||0.145||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.145
92187516|NCT02066389|184273489|SUPERIORITY|||||||0.007||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.007
92187517|NCT02066389|184273489|SUPERIORITY|||||||0.014||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.014
92187518|NCT02066389|184273490|SUPERIORITY|||||||0.005||||||Statistical tests were 1-sided at a significance level of 0.05.|Fisher Exact|||||||0.005
92187519|NCT02066389|184273490|SUPERIORITY||||||<|0.001||||||Statistical tests were 1-sided at a significance level of 0.05.|Fisher Exact|||||||<0.001
92187520|NCT02066389|184273490|SUPERIORITY|||||||0.01||||||Statistical tests were 1-sided at a significance level of 0.05.|Fisher Exact|||||||0.010
92187521|NCT02066389|184273490|SUPERIORITY|||||||0.002||||||Statistical tests were 1-sided at a significance level of 0.05.|Fisher Exact|||||||0.002
92187522|NCT02066389|184273490|SUPERIORITY|||||||0.024||||||Statistical tests were 1-sided at a significance level of 0.05.|Fisher Exact|||||||0.024
92302890|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.12|||||TWO_SIDED|95.0|0.63|1.99|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 7F||1.99|0.63|
92302891|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|2.14|||||TWO_SIDED|95.0|1.19|3.84|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 7F||3.84|1.19|
92302892|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.27|||||TWO_SIDED|95.0|0.74|2.21|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 19A||2.21|0.74|
92302893|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|2.08|||||TWO_SIDED|95.0|1.19|3.63|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 19A||3.63|1.19|
92302894|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.74|||||TWO_SIDED|95.0|0.37|1.46|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 22F||1.46|0.37|
92302895|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.0|||||TWO_SIDED|95.0|0.5|2.0|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 22F||2.00|0.50|
92302896|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.75|||||TWO_SIDED|95.0|0.4|1.41|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 33F||1.41|0.40|
92302897|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.32|||||TWO_SIDED|95.0|0.7|2.48|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 33F||2.48|0.70|
92187523|NCT02066389|184273491|SUPERIORITY|||||||0.015||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.015
92187524|NCT02066389|184273491|SUPERIORITY|||||||0.008||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.008
92187525|NCT02066389|184273491|SUPERIORITY|||||||0.029||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.029
92187526|NCT02066389|184273491|SUPERIORITY|||||||0.003||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.003
92302898|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.64|||||TWO_SIDED|95.0|0.37|1.08|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 8||1.08|0.37|
92302899|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.99|||||TWO_SIDED|95.0|0.58|1.69|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 8||1.69|0.58|
92302900|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.03|||||TWO_SIDED|95.0|0.57|1.85|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 9N||1.85|0.57|
92302901|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.64|||||TWO_SIDED|95.0|0.9|2.97|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 9N||2.97|0.90|
92302902|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.25|||||TWO_SIDED|95.0|0.67|2.32|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 10A||2.32|0.67|
92302903|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.84|||||TWO_SIDED|95.0|0.98|3.45|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 10A||3.45|0.98|
92302904|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.76|||||TWO_SIDED|95.0|0.42|1.38|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 11A||1.38|0.42|
92187527|NCT02066389|184273491|SUPERIORITY|||||||0.343||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.343
92302905|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.59|||||TWO_SIDED|95.0|0.87|2.91|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 11A||2.91|0.87|
92302906|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.5|2.17|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 12F||2.17|0.50|
92302907|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|2.14|||||TWO_SIDED|95.0|1.02|4.5|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 12F||4.50|1.02|
92187528|NCT02066389|184273492|SUPERIORITY|||||||0.039||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.039
92187529|NCT02066389|184273492|SUPERIORITY|||||||0.039||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.039
92187530|NCT02066389|184273492|SUPERIORITY|||||||0.046||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.046
92187531|NCT02066389|184273492|SUPERIORITY|||||||0.005||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.005
92187532|NCT02066389|184273492|SUPERIORITY|||||||0.096||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.096
92187533|NCT02066389|184273493|SUPERIORITY|||||||0.269||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.269
92187534|NCT02066389|184273493|SUPERIORITY|||||||0.16||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.160
92302908|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|2.11|||||TWO_SIDED|95.0|1.21|3.68|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 17F||3.68|1.21|
92302909|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|2.87|||||TWO_SIDED|95.0|1.64|5.03|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 17F||5.03|1.64|
92302910|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.65|||||TWO_SIDED|95.0|0.93|2.93|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 20A||2.93|0.93|
92302911|NCT04168190|184510552|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.92|||||TWO_SIDED|95.0|1.07|3.43|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 20A||3.43|1.07|
92302912|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|4.29|||||TWO_SIDED|95.0|1.99|9.25|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 6A||9.25|1.99|
92302913|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|5.49|||||TWO_SIDED|95.0|2.53|11.91|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 6A||11.91|2.53|
92302914|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|5.05|||||TWO_SIDED|95.0|2.59|9.85|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 15A||9.85|2.59|
92302915|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|8.92|||||TWO_SIDED|95.0|4.55|17.5|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 15A||17.50|4.55|
92302916|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|4.4|||||TWO_SIDED|95.0|2.38|8.15|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 15C||8.15|2.38|
92187535|NCT02066389|184273493|SUPERIORITY|||||||1||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||1.000
92302917|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|4.92|||||TWO_SIDED|95.0|2.64|9.16|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 15C||9.16|2.64|
92187536|NCT02066389|184273493|SUPERIORITY|||||||0.16||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.160
92187537|NCT02066389|184273493|SUPERIORITY|||||||1||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||1.000
92187538|NCT02033174|184273508|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.05
92302918|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|3.41|||||TWO_SIDED|95.0|1.97|5.91|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 16F||5.91|1.97|
92302919|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|6.58|||||TWO_SIDED|95.0|3.78|11.45|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 16F||11.45|3.78|
92187539|NCT02591056|184273577|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|t=+7.45; df=26||||||<0.0001
92187540|NCT01159600|184273578|SUPERIORITY_OR_OTHER||Mean difference|-1.63|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|97.5|-2.17|-1.08||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|ANCOVA with baseline HbA1c and baseline body weight as linear covariates and baseline eGFR, geographical region and treatment as fixed effects|Difference calculated as Met: empa 10mg minus Met: placebo|Null hypothesis: No difference in change from baseline to week 24 in body weight between Empagliflozin 10mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons (10mg vs placebo and 25mg vs placebo) within each background therapy group (metformin and metformin + SU). If for a specific dose the null hypothesis was rejected for the primary endpoint, the same dose was tested against placebo for the change from baseline in body weight.||-1.08|-2.17|<0.0001
92302920|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|9.42|||||TWO_SIDED|95.0|4.35|20.4|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 23A||20.40|4.35|
92302921|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|9.46|||||TWO_SIDED|95.0|4.34|20.62|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 23A||20.62|4.34|
92302922|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|3.43|||||TWO_SIDED|95.0|1.95|6.05|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 23B||6.05|1.95|
92302923|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|4.77|||||TWO_SIDED|95.0|2.69|8.45|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 23B||8.45|2.69|
92302924|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|8.06|||||TWO_SIDED|95.0|3.36|19.35|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 24F||19.35|3.36|
92302925|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|16.14|||||TWO_SIDED|95.0|6.68|39.01|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 24F||39.01|6.68|
92302926|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|9.14|||||TWO_SIDED|95.0|4.93|16.95|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 31||16.95|4.93|
92302927|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|13.58|||||TWO_SIDED|95.0|7.28|25.32|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 31||25.32|7.28|
92302928|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|9.24|||||TWO_SIDED|95.0|5.56|15.36|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 35B||15.36|5.56|
92302929|NCT04168190|184510553|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|12.5|||||TWO_SIDED|95.0|7.49|20.87|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 35B||20.87|7.49|
92302930|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.99|||||TWO_SIDED|95.0|0.67|1.47|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 3||1.47|0.67|
92302931|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.06|||||TWO_SIDED|95.0|0.72|1.57|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 3||1.57|0.72|
92302932|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.88||||||95.0|0.54|1.42|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 7F||1.42|0.54|
92302933|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.11|||||TWO_SIDED|95.0|0.68|1.8|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 7F||1.80|0.68|
92302934|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.59|1.54|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 19A||1.54|0.59|
92302935|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.32|||||TWO_SIDED|95.0|0.81|2.15|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 19A||2.15|0.81|
92302936|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.65|||||TWO_SIDED|95.0|0.85|3.23|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 22F||3.23|0.85|
92302937|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|2.01|||||TWO_SIDED|95.0|1.03|3.96|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 22F||3.96|1.03|
92302938|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.86|||||TWO_SIDED|95.0|0.44|1.67|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 33F||1.67|0.44|
92302939|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.89|||||TWO_SIDED|95.0|0.97|3.69|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 33F||3.69|0.97|
92187541|NCT01159600|184273578|SUPERIORITY_OR_OTHER||Mean difference|-2.01|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|97.5|-2.56|-1.46||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|ANCOVA with baseline HbA1c and baseline body weight as linear covariates and baseline eGFR, geographical region and treatment as fixed effects|Difference calculated as Met: empa 25mg minus Met: placebo|Null hypothesis: No difference in change from baseline to week 24 in body weight between Empagliflozin 25mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons (10mg vs placebo and 25mg vs placebo) within each background therapy group (metformin and metformin + SU). If for a specific dose the null hypothesis was rejected for the primary endpoint, the same dose was tested against placebo for the change from baseline in body weight.||-1.46|-2.56|<0.0001
92302940|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.46|1.08|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 8||1.08|0.46|
92302941|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.89|||||TWO_SIDED|95.0|0.58|1.38|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 8||1.38|0.58|
92302942|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.15|||||TWO_SIDED|95.0|0.62|2.15|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 9N||2.15|0.62|
92302943|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.09|||||TWO_SIDED|95.0|0.58|2.04|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 9N||2.04|0.58|
92302944|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.56|||||TWO_SIDED|95.0|0.9|2.71|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 10A||2.71|0.90|
92302945|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.87|||||TWO_SIDED|95.0|1.08|3.23|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 10A||3.23|1.08|
92302946|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.89|||||TWO_SIDED|95.0|0.53|1.49|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 11A||1.49|0.53|
92302947|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.11|||||TWO_SIDED|95.0|0.66|1.87|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 11A||1.87|0.66|
92302948|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.7|||||TWO_SIDED|95.0|0.89|3.27|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 12F||3.27|0.89|
92302949|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|2.4|||||TWO_SIDED|95.0|1.24|4.62|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 12F||4.62|1.24|
92302950|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.97|||||TWO_SIDED|95.0|1.16|3.34|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 17F||3.34|1.16|
92302951|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|2.06|||||TWO_SIDED|95.0|1.21|3.51|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 17F||3.51|1.21|
92302952|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.22|||||TWO_SIDED|95.0|0.77|1.91|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 20A||1.91|0.77|
92302953|NCT04168190|184510554|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.56|||||TWO_SIDED|95.0|0.99|2.45|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 20A||2.45|0.99|
92302954|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|13.98|||||TWO_SIDED|95.0|5.9|33.1|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 6A||33.10|5.90|
92302955|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|14.42|||||TWO_SIDED|95.0|6.05|34.35|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 6A||34.35|6.05|
92302956|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|7.39||||||95.0|4.29|12.75|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 15A||12.75|4.29|
92302957|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|9.4|||||TWO_SIDED|95.0|5.42|16.28|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 15A||16.28|5.42|
92302958|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|2.13|||||TWO_SIDED|95.0|1.25|3.63|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 15C||3.63|1.25|
92302959|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|2.8|||||TWO_SIDED|95.0|1.64|4.79|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 15C||4.79|1.64|
92302960|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|3.79|||||TWO_SIDED|95.0|1.88|7.67|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 16F||7.67|1.88|
92302961|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|5.87|||||TWO_SIDED|95.0|2.88|11.94|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 16F||11.94|2.88|
92302962|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|13.76|||||TWO_SIDED|95.0|5.68|33.32|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 23A||33.32|5.68|
92302963|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|19.28|||||TWO_SIDED|95.0|7.91|47.0|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 23A||47.00|7.91|
92302964|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|23.85|||||TWO_SIDED|95.0|8.64|65.82|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 23B||65.82|8.64|
92302965|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|39.39|||||TWO_SIDED|95.0|14.15|109.65|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 23B||109.65|14.15|
92302966|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|19.88|||||TWO_SIDED|95.0|9.03|43.74|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 24F||43.74|9.03|
92302967|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|31.07|||||TWO_SIDED|95.0|13.98|69.03|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 24F||69.03|13.98|
92302968|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|57.79|||||TWO_SIDED|95.0|25.15|132.78|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 31||132.78|25.15|
92302969|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|58.07|||||TWO_SIDED|95.0|25.1|134.33|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 31||134.33|25.10|
92302970|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|6.93|||||TWO_SIDED|95.0|4.45|10.8|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 35B||10.80|4.45|
92302971|NCT04168190|184510555|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|7.82|||||TWO_SIDED|95.0|5.0|12.24|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 35B||12.24|5.00|
92302972|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.9|1.3|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 3. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.30|0.90|<0.001
92302973|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.23|||<|0.001|TWO_SIDED|95.0|0.99|1.52|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 7F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.52|0.99|<0.001
92267063|NCT02203305|184435428|SUPERIORITY||||||<|0.643|||||||Mixed Models Analysis|Main effects: interval (p=0.643) and subscale (p=0.005). Interaction: interval and subscale (p=0.480).||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. Subscales include: ease of communication, reverberation, effectiveness in background noise, and reverberation. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.643
92267064|NCT02203305|184435428|OTHER|bivariate pearson correlation (one-tailed)|||||=|0.947||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Noise Subscale) at the preoperative interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.947
92267065|NCT02203305|184435428|SUPERIORITY||||||=|0.5||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Noise Subscale) at the preoperative interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.500
92267066|NCT02203305|184435428|OTHER|bivariate pearson correlation|bivariate pearson correlation|-0.51|||=|0.023|TWO_SIDED|||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Noise Subscale) at the 12-month interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.023
92267067|NCT02203305|184435428|OTHER|bivariate pearson correlation|bivariate pearson correlation|-0.55|||=|0.033|TWO_SIDED|||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Noise Subscale) at the 12-month interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.033
92267068|NCT02203305|184435428|SUPERIORITY||||||>|0.208|||||||Mixed Models Analysis|Main effects: cohort (p=0.541), interval (p=0.446), and subscale (p=0.208). Interactions: 2-way or 3-way (p\>0.287).||Comparison of subjective benefit between groups (UHL/SSD and AHL) on the ease of communication, background noise, and reverberation subscales over the post-activation intervals (1, 3, 6, 9, and 12 months).||||>0.208
92267069|NCT02203305|184435429|SUPERIORITY||||||=|0.221||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||"The Tinnitus Handicap Inventory is a 25-item questionnaire. The subject answers yes (4 points), sometimes (2 points), or no (0 points) to each question. Responses are added to quantify tinnitus severity: none/slight (0-16), mild (18-36), moderate (38-56), severe (58-76), and catastrophic (78-100). Responses were compared over the post-activation time period (1, 3, 6, 9, and 12 months)."||||=0.221
92267070|NCT02203305|184435429|SUPERIORITY||||||=|0.538||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||"The Tinnitus Handicap Inventory is a 25-item questionnaire. The subject answers yes (4 points), sometimes (2 points), or no (0 points) to each question. Responses are added to quantify tinnitus severity: none/slight (0-16), mild (18-36), moderate (38-56), severe (58-76), and catastrophic (78-100). Responses were compared over the post-activation time period (1, 3, 6, 9, and 12 months)."||||=0.538
92267071|NCT02203305|184435429|SUPERIORITY||||||>|0.218||||||There were no significant main effects of cohort (p=0.265) or interval (p=0.430). There was no significant interaction between cohort and interval (p=0.218).|Mixed Models Analysis|Main effects: cohort (p=0.265) or interval (p=0.430). Interaction: cohort and interval (p=0.218).||Comparison of subjective benefit between groups (UHL/SSD and AHL) on the Tinnitus Handicap Inventory over the post-activation intervals (1, 3, 6, 9, and 12 months).||||>0.218
92267072|NCT02203305|184435430|SUPERIORITY||||||<|0.322||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|Mixed Models Analysis|Main effect: interval (p=0.084) and condition (p=0.322). Interaction: interval and condition (p=0.125).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.322
92267073|NCT02203305|184435430|SUPERIORITY||||||<|0.317||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|Mixed Models Analysis|Main effects: interval (p=0.014) and condition (p=0.317). Interaction: interval and condition (p=0.118).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.317
92267074|NCT02203305|184435430|SUPERIORITY||||||=|0.017||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||=0.017
92267075|NCT02203305|184435430|SUPERIORITY||||||=|0.292||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||=0.292
92267076|NCT02203305|184435430|OTHER|pearson correlation|||||>|0.185|||||||bivariate pearson correlation|||Association of word recognition and speech recognition in noise, analyzed with a Bivariate Pearson correlation. Scores were averaged between 3 and 12 months post-activation as an estimate of asymptotic performance.||||>0.185
92302974|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.24|||<|0.001|TWO_SIDED|95.0|1.02|1.52|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 19A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.52|1.02|<0.001
92302975|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.36|||<|0.001|TWO_SIDED|95.0|1.06|1.75|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 22F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.75|1.06|<0.001
92302976|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.86|||<|0.001|TWO_SIDED|95.0|0.69|1.06|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 33F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.06|0.69|<0.001
92302977|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.78|1.18|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 8. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.18|0.78|<0.001
92302978|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.3|||<|0.001|TWO_SIDED|95.0|1.04|1.64|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 9N. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.64|1.04|<0.001
92302979|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.83|||<|0.001|TWO_SIDED|95.0|1.44|2.32|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 10A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.32|1.44|<0.001
92187542|NCT01159600|184273578|SUPERIORITY_OR_OTHER||Mean difference|-1.76|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|97.5|-2.25|-1.28||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|ANCOVA with baseline HbA1c and baseline body weight as linear covariates and baseline eGFR, geographical region and treatment as fixed effects|Difference calculated as Met+SU: empa 10mg minus Met+SU: placebo|Null hypothesis: No difference in change from baseline to week 24 in body weight between Empagliflozin 10mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons (10mg vs placebo and 25mg vs placebo) within each background therapy group (metformin and metformin + SU). If for a specific dose the null hypothesis was rejected for the primary endpoint, the same dose was tested against placebo for the change from baseline in body weight.||-1.28|-2.25|<0.0001
92302980|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.54|||<|0.001|TWO_SIDED|95.0|1.27|1.86|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 11A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.86|1.27|<0.001
92302981|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|2.3|||<|0.001|TWO_SIDED|95.0|1.75|3.04|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 12F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||3.04|1.75|<0.001
92302982|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.82|||<|0.001|TWO_SIDED|95.0|1.49|2.22|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 17F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.22|1.49|<0.001
92302983|NCT04168190|184510558|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|2.27|||<|0.001|TWO_SIDED|95.0|1.81|2.83|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 20A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.83|1.81|<0.001
92302984|NCT04168190|184510559|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|3.77|||<|0.001|TWO_SIDED|95.0|2.95|4.84|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 6A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||4.84|2.95|<0.001
92302985|NCT04168190|184510559|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|7.68|||<|0.001|TWO_SIDED|95.0|6.12|9.64|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 15A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||9.64|6.12|<0.001
92302986|NCT04168190|184510559|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|3.29|||<|0.001|TWO_SIDED|95.0|2.6|4.17|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 15C. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||4.17|2.60|<0.001
92302987|NCT04168190|184510559|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|8.65|||<|0.001|TWO_SIDED|95.0|7.19|10.41|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 16F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||10.41|7.19|<0.001
92302988|NCT04168190|184510559|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|7.83|||<|0.001|TWO_SIDED|95.0|6.2|9.9|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 23A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model||9.90|6.20|<0.001
92302989|NCT04168190|184510559|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|5.61|||<|0.001|TWO_SIDED|95.0|4.53|6.94|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 23B. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||6.94|4.53|<0.001
92302990|NCT04168190|184510559|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|23.99|||<|0.001|TWO_SIDED|95.0|19.35|29.74|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 24F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||29.74|19.35|<0.001
92302991|NCT04168190|184510559|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|10.13|||<|0.001|TWO_SIDED|95.0|8.32|12.33|||P-value was estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 31. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||12.33|8.32|<0.001
92187543|NCT01159600|184273578|SUPERIORITY_OR_OTHER||Mean difference|-1.99|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|97.5|-2.48|-1.5||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|ANCOVA with baseline HbA1c and baseline body weight as linear covariates and baseline eGFR, geographical region and treatment as fixed effects|Difference calculated as Met+SU: empa 25mg minus Met+SU: placebo|Null hypothesis: No difference in change from baseline to week 24 in body weight between Empagliflozin 25mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons (10mg vs placebo and 25mg vs placebo) within each background therapy group (metformin and metformin + SU). If for a specific dose the null hypothesis was rejected for the primary endpoint, the same dose was tested against placebo for the change from baseline in body weight.||-1.50|-2.48|<0.0001
92302992|NCT04168190|184510559|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|18.29|||<|0.001|TWO_SIDED|95.0|15.59|21.45|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 35B. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||21.45|15.59|<0.001
92302993|NCT01675661|184510565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.985|TWO_SIDED|95.0|0.63|1.59|||Regression, Logistic|OR=1.00||For the primary outcome measure, a repeated-measures logistic regression model was used to analyze the odds of a negative urine cannabinoid test as an indicator of abstinence across all 12 weeks of treatment. A generalized estimating equations (GEEs) were used to adjust for this correlation with multiple samples per participant. The model for the primary analysis included the main effect of treatment, main effect of time, site effects, effect of smoking tobacco, and timeXtreatment interaction.||1.59|0.63|0.985
92302994|NCT02992418|184510601|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% confidence interval (CI) of the ratio of GMCs between groups (Group 1/ Group 2) was greater than (\>) 1/1.5 for each antigen. Overall non-inferiority was demonstrated if the 4 antigens achieved non-inferiority.|GMC ratio|0.848|||||TWO_SIDED|95.0|0.721|0.997||||||Anti-PT||0.997|0.721|
92302995|NCT02992418|184510601|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMCs between groups (Group 1/ Group 2) was \> 1/1.5 for each antigen. Overall non-inferiority was demonstrated if the 4 antigens achieved non-inferiority.|GMC ratio|1.02|||||TWO_SIDED|95.0|0.892|1.18||||||Anti-FHA||1.18|0.892|
92302996|NCT02992418|184510601|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMCs between groups (Group 1/ Group 2) was \> 1/1.5 for each antigen. Overall non-inferiority was demonstrated if the 4 antigens achieved non-inferiority.|GMC ratio|1.11|||||TWO_SIDED|95.0|0.836|1.46||||||Anti-PRN||1.46|0.836|
92302997|NCT02992418|184510601|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMCs between groups (Group 1/ Group 2) was \> 1/1.5 for each antigen. Overall non-inferiority was demonstrated if the 4 antigens achieved non-inferiority.|GMC ratio|1.05|||||TWO_SIDED|95.0|0.827|1.33||||||Anti-FIM2+3||1.33|0.827|
92302998|NCT02992418|184510602|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the percentage difference was \> -10% for all antigens.|Percentage difference|0.26|||||TWO_SIDED|95.0|-4.53|5.04||||||Anti-D||5.04|-4.53|
92302999|NCT02992418|184510602|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the percentage difference was \> -10% for all antigens.|Percentage difference|-0.66|||||TWO_SIDED|95.0|-2.87|1.37||||||Anti-T||1.37|-2.87|
92303000|NCT02992418|184510603|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 1/Group 2) was \> 1/2 for each serotype. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|1.11|||||TWO_SIDED|95.0|0.862|1.44||||||Serotype 1||1.44|0.862|
92303001|NCT02992418|184510603|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 1/Group 2) was \> 1/2 for each serotype. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|1.19|||||TWO_SIDED|95.0|0.97|1.47||||||Serotype 2||1.47|0.97|
92303002|NCT02992418|184510603|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 1/Group 2) was \> 1/2 for each serotype. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.925|||||TWO_SIDED|95.0|0.739|1.16||||||Serotype 3||1.16|0.739|
92303003|NCT02992418|184510603|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 1/Group 2) was \> 1/2 for each serotype. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.802|||||TWO_SIDED|95.0|0.644|0.999||||||Serotype 4||0.999|0.644|
92303004|NCT00289536|184510616|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1662|||||||ANOVA|Repeated measures ANOVA with dose as fixed effect||Null Hypothesis: The mean log initial recovery will be the same in each dose group.||||0.1662
92303005|NCT00289536|184510617|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0965||||||No adjustments were made for multiple comparisons.|ANOVA|Repeated measures ANOVA with dose as fixed effect||Null Hypothesis: The mean log AUC/dose will be the same in each dose group.||||0.0965
92187544|NCT01159600|184273579|SUPERIORITY_OR_OTHER||Mean difference|-7.65|STANDARD_ERROR_OF_MEAN|2.74||0.0055|TWO_SIDED|97.5|-13.81|-1.48||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c and baseline MDG as linear covariates and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met: empa 10mg minus Met: placebo|Null hypothesis (H0): No difference in change from baseline to week 24 in MDG between Empa 10mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons within each background therapy group. If for a specific dose H0 was rejected for the primary endpoint, the same dose was tested against placebo for change from baseline in body weight. If superiority over placebo was shown at this gate level, then testing proceeded to change from baseline in MDG with that dose||-1.48|-13.81|0.0055
92187545|NCT01159600|184273579|SUPERIORITY_OR_OTHER||Mean difference|-12.37|STANDARD_ERROR_OF_MEAN|2.75|<|0.0001|TWO_SIDED|97.5|-18.55|-6.19||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c and baseline MDG as linear covariates and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met: empa 25mg minus Met: placebo|Null hypothesis (H0): No difference in change from baseline to week 24 in MDG between Empa 25mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons within each background therapy group. If for a specific dose H0 was rejected for the primary endpoint, the same dose was tested against placebo for change from baseline in body weight. If superiority over placebo was shown at this gate level, then testing proceeded to change from baseline in MDG with that dose||-6.19|-18.55|<0.0001
92187546|NCT01159600|184273579|SUPERIORITY_OR_OTHER||Mean difference|-10.02|STANDARD_ERROR_OF_MEAN|2.53|<|0.0001|TWO_SIDED|97.5|-15.72|-4.32||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c and baseline MDG as linear covariates and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met+SU: empa 10mg minus Met+SU: placebo|Null hypothesis (H0): No difference in change from baseline to week 24 in MDG between Empa 10mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons within each background therapy group. If for a specific dose H0 was rejected for the primary endpoint, the same dose was tested against placebo for change from baseline in body weight. If superiority over placebo was shown at this gate level, then testing proceeded to change from baseline in MDG with that dose||-4.32|-15.72|<0.0001
92187547|NCT01159600|184273579|SUPERIORITY_OR_OTHER||Mean difference|-13.06|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|97.5|-19.15|-6.98||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c and baseline MDG as linear covariates and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met+SU: empa 25mg minus Met+SU: placebo|Null hypothesis (H0): No difference in change from baseline to week 24 in MDG between Empa 25mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons within each background therapy group. If for a specific dose H0 was rejected for the primary endpoint, the same dose was tested against placebo for change from baseline in body weight. If superiority over placebo was shown at this gate level, then testing proceeded to change from baseline in MDG with that dose||-6.98|-19.15|<0.0001
92303006|NCT00289536|184510618|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5057|||||||ANOVA|Repeated measures ANOVA with dose as fixed effect||Null Hypothesis: The mean terminal half-life will be the same in each dose group.||||0.5057
92303007|NCT00289536|184510626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7048||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: Relationship of initial recovery to pre-infusion level of VWF:Rco with dose groups combined.||||0.7048
92303008|NCT00289536|184510626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0322||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: relationship of AUC/Dose to pre-infusion level of VWF:Rco with dose groups combined.||||.0322
92303009|NCT00289536|184510626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: relationship of terminal half-life to pre-infusion level of VWF:Rco with dose groups combined.||||0.0056
92303010|NCT00289536|184510627|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3696||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: relationship of initial recovery to pre-infusion level of VWF:Ag with dose groups combined.||||0.3696
92303011|NCT00289536|184510627|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: relationship of AUC/Dose to pre-infusion level of VWF:Ag with dose groups combined.||||0.0001
92303012|NCT00289536|184510627|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: relationship of terminal half-life to pre-infusion level of VWF:Ag with dose groups combined.||||<0.0001
92303013|NCT03127644|184510647|SUPERIORITY||Treatment difference in slopes|-0.00496|STANDARD_ERROR_OF_MEAN|0.00038|<|0.0001|TWO_SIDED|95.0|-0.00571|-0.0042|||Mixed Models Analysis|Confirmatory testing proceeded sequentially (ZS 10g TID, then ZS 5g TID).|Negative exponential rate of change relative to placebo indicates more rapid reduction (correction) of S-K.|Exponential rate of change in S-K through to 48 hours was analysed with a mixed effect model (random slope model).||-0.00420|-0.00571|<0.0001
92303014|NCT03127644|184510647|SUPERIORITY||Treatment difference in slopes|-0.00261|STANDARD_ERROR_OF_MEAN|0.000385|<|0.001|TWO_SIDED|95.0|-0.00337|-0.00185|||Mixed Models Analysis|Confirmatory testing proceeded sequentially (ZS 10g TID, then ZS 5g TID).|Negative exponential rate of change relative to placebo indicates more rapid reduction (correction) of S-K.|Exponential rate of change in S-K through to 48 hours was analysed with a mixed effect model (random slope model).||-0.00185|-0.00337|<0.001
92303015|NCT03127644|184510648|SUPERIORITY||Odds Ratio (OR)|46.495|||<|0.0001|TWO_SIDED|95.0|10.142|213.152|||Regression, Logistic|||Logistic regression model including treatment and baseline S-K as explanatory variables was used.||213.152|10.142|<0.0001
92187548|NCT01159600|184273580|SUPERIORITY_OR_OTHER||Mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.72|-0.42||Each of the hypotheses (10mg vs placebo and 25mg vs. placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c as a linear covariate and baseline eGFR (renal function), geographical region and treatment as fixed effects.|Difference calculated as Met: empa 10mg minus Met: placebo|Null hypothesis: No difference in change from baseline to week 24 in HbA1c between Empagliflozin 10mg and placebo. The study consisted of two substudies as defined by the two background medications 'metformin' and 'metformin + SU'. Within each group of background medication, each of the two hypotheses (10mg vs placebo and 25mg vs. placebo) was tested in a two-sided test.||-0.42|-0.72|<0.0001
92187549|NCT01159600|184273580|SUPERIORITY_OR_OTHER||Mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.79|-0.48||Each of the hypotheses (10mg vs placebo and 25mg vs. placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c as a linear covariate and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met: empa 25mg minus Met: placebo|Null hypothesis: No difference in change from baseline to week 24 in HbA1c between Empagliflozin 25mg and placebo. The study consisted of two substudies as defined by the two background medications 'metformin' and 'metformin + SU'. Within each group of background medication, each of the two hypotheses (10mg vs placebo and 25mg vs. placebo) was tested in a two-sided test.||-0.48|-0.79|<0.0001
92187550|NCT01159600|184273580|SUPERIORITY_OR_OTHER||Mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.79|-0.49||Each of the hypotheses (10mg vs placebo and 25mg vs. placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c as a linear covariate and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met+SU: empa 10mg minus Met+SU: placebo|Null hypothesis: No difference in change from baseline to week 24 in HbA1c between Empagliflozin 10mg and placebo. The study consisted of two substudies as defined by the two background medications 'metformin' and 'metformin + SU'. Within each group of background medication, each of the two hypotheses (10mg vs placebo and 25mg vs. placebo) was tested in a two-sided test.||-0.49|-0.79|<0.0001
92187551|NCT01159600|184273580|SUPERIORITY_OR_OTHER||Mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.74|-0.44||Each of the hypotheses (10mg vs placebo and 25mg vs. placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c as a linear covariate and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met+SU: empa 25mg minus Met+SU: placebo|Null hypothesis: No difference in change from baseline to week 24 in HbA1c between Empagliflozin 25mg and placebo. The study consisted of two substudies as defined by the two background medications 'metformin' and 'metformin + SU'. Within each group of background medication, each of the two hypotheses (10mg vs placebo and 25mg vs. placebo) was tested in a two-sided test.||-0.44|-0.74|<0.0001
92187552|NCT04919499|184273586|OTHER|A mixed model with repeated measurements (MMRM) was used for the analysis with fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.|Adjusted mean difference|-0.0252|STANDARD_ERROR_OF_MEAN|0.0376|||TWO_SIDED|95.0|-0.1048|0.0545|||||Calculated as \[high-dose BI 765128\] - \[Sham\]|||0.0545|-0.1048|
92303016|NCT03127644|184510648|SUPERIORITY||Odds Ratio (OR)|71.835|||<|0.0001|TWO_SIDED|95.0|13.497|382.337|||Regression, Logistic|||Logistic regression model including treatment and baseline S-K as explanatory variables was used.||382.337|13.497|<0.0001
92303017|NCT03127644|184510649|SUPERIORITY||Treatment difference in slopes|-0.00231|STANDARD_ERROR_OF_MEAN|0.000645||0.0004|TWO_SIDED|95.0|-0.00359|-0.00104|||Mixed Models Analysis||Negative exponential rate of change relative to placebo indicates more rapid reduction (correction) of S-K.|Exponential rate of change in S-K through to 24 hours was analysed with a mixed effect model (random slope model).||-0.00104|-0.00359|0.0004
92303018|NCT03127644|184510649|OTHER||Treatment difference in slopes|-0.00401|STANDARD_ERROR_OF_MEAN|0.000637|<|0.0001|TWO_SIDED|95.0|-0.00527|-0.00275|||Mixed Models Analysis||Negative exponential rate of change relative to placebo indicates more rapid reduction (correction) of S-K.|Exponential rate of change in S-K through to 24 hours was analysed with a mixed effect model (random slope model).||-0.00275|-0.00527|<0.0001
92303019|NCT03127644|184510650|SUPERIORITY||Odds Ratio (OR)|1.347||||0.6167|TWO_SIDED|95.0|0.419|4.329|||Regression, Logistic|||Logistic regression model including treatment and baseline S-K as explanatory variables was used.||4.329|0.419|0.6167
92303020|NCT03127644|184510650|SUPERIORITY||Odds Ratio (OR)|15.334|||<|0.0001|TWO_SIDED|95.0|4.006|58.697|||Regression, Logistic|||Logistic regression model including treatment and baseline S-K as explanatory variables was used.||58.697|4.006|<0.0001
92303021|NCT03127644|184510654|SUPERIORITY|||||||0.0586||||||Nominal p value|Log Rank|||||||0.0586
92303022|NCT03127644|184510654|SUPERIORITY|||||||0.0006||||||Nominal p value|Log Rank|||||||0.0006
92303023|NCT03127644|184510655|SUPERIORITY|||||||0.025||||||Nominal p value|Log Rank|||||||0.0250
92303024|NCT03127644|184510655|SUPERIORITY|||||||0.0064||||||Nominal p value|Log Rank|||||||0.0064
92303025|NCT04972123|184510656|SUPERIORITY|The primary end point was evaluated via a large sample Z-test for proportions. The test statistic was compared to a Pocock monitoring boundary at both an interim analysis and at the final analysis.||||||0.521||||||The primary end point was evaluated via a large sample Z-test for proportions. The test statistic was compared to a Pocock monitoring boundary at both an interim analysis and at the final analysis.|Large sample Z-test for population prop|The test statistic was compared to a Pocock monitoring boundary at both an interim analysis and at the final analysis.||Primary endpoint -- ITT primary endpoint analysis||||0.521
92303026|NCT04972123|184510657|SUPERIORITY|Time to event was compared between groups via a log-rank test.||||||0.574||||||Time to event was compared between groups via a log-rank test.|Log Rank|||Secondary endpoint -- Time to event for evaluable ITT population who had a primary event.||||0.574
92303027|NCT04972123|184510658|SUPERIORITY|Incidence of asystole were compared between groups using Fisher exact test.||||||1||||||Incidence of asystole were compared between groups using Fisher exact test.|Fisher Exact|Incidence of asystole were compared between groups using Fisher exact test.||Secondary endpoint -- Incidence of asystolic pause \> 3 seconds for evaluable ITT population who had a primary event.||||1.000
92303028|NCT04972123|184510659|SUPERIORITY|Reporting for the 1 hour fatigue score only.||||||0.732||||||Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.|Wilcoxon (Mann-Whitney)|Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.||Secondary endpoint -- Measures of Fatigue for evaluable ITT population who had a primary event.||||0.732
92187553|NCT04919499|184273587|OTHER|A mixed model with repeated measurements (MMRM) was used for the analysis with fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.|Adjusted mean difference|-0.0101|STANDARD_ERROR_OF_MEAN|0.0236|||TWO_SIDED|95.0|-0.0625|0.0422|||||Calculated as \[high-dose BI 765128\] - \[Sham\]|||0.0422|-0.0625|
92303029|NCT04972123|184510659|SUPERIORITY|Reporting for the 4 hour fatigue score only.||||||0.591||||||Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.|Wilcoxon (Mann-Whitney)|Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.||Secondary endpoint -- Measures of Fatigue for evaluable ITT population who had a primary event.||||0.591
92303030|NCT04972123|184510659|SUPERIORITY|Reporting for the 8 hour fatigue score only.||||||0.034||||||Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.|Wilcoxon (Mann-Whitney)|Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.||Secondary endpoint -- Measures of Fatigue for evaluable ITT population who had a primary event.||||0.034
92187554|NCT04919499|184273588|OTHER|A mixed model with repeated measurements (MMRM) was used for the analysis with fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.|Adjusted mean difference|0.0016|STANDARD_ERROR_OF_MEAN|0.0181|||TWO_SIDED|95.0|-0.0504|0.0536|||||Calculated as \[high-dose BI 765128\] - \[Sham\]|||0.0536|-0.0504|
92303031|NCT01156142|184510673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4|||<|0.001|TWO_SIDED|95.0|-6.7|-2.1|||Wilcoxon (Mann-Whitney)|||||-2.1|-6.7|<0.001
92303032|NCT01156142|184510674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.0018|TWO_SIDED|95.0|0.1|5.1|||Wilcoxon (Mann-Whitney)|||||5.1|0.1|0.0018
92303033|NCT01156142|184510675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.6||||0.001|TWO_SIDED|95.0|2.9|8.3|||Wilcoxon (Mann-Whitney)|||||8.3|2.9|0.001
92303034|NCT01156142|184510676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.0297|TWO_SIDED|95.0|-1.2|4.6|||Wilcoxon (Mann-Whitney)|||||4.6|-1.2|0.0297
92303035|NCT01156142|184510677|SUPERIORITY_OR_OTHER|||||||0.1392|||||||Chi-squared|||At 2 hours after initial mouthwash||||0.1392
92303036|NCT01156142|184510677|SUPERIORITY_OR_OTHER|||||||0.6989|||||||Chi-squared|||At 4 hours after initial mouthwash||||0.6989
92303037|NCT01156142|184510678|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Chi-squared|||||||0.0018
92303038|NCT02337959|184510729|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED|||||Level of significance (alpha) = 0.05|t-test, 2 sided|||||||0.028
92303039|NCT02337959|184510730|SUPERIORITY_OR_OTHER|||||||0||||||level of significance (alpha) = 0.05|t-test, 1 sided|||Both the predicate and investigational images were randomized for the monitors. Predicate images could display on the left or the right and vice versa with the investigational. There were formulas in the spreadsheet that gave the preferences a numerical value, and subsequently became part of the analysis.||||0.000
92303040|NCT02623348|184510736|SUPERIORITY||||||<|0.01||||||Threshold for significance: \<0.05|linear mixed modeling|||||||<0.01
92303041|NCT00536263|184510768|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.008||||0.86|TWO_SIDED|95.0|-0.063|0.079||P-values are unadjusted; Hochberg's adjustment for multiple comparisons was used to maintain the overall 0.05 significance level in test of superiority using the Cochran-Mantel-Haenszel test.|Cochran-Mantel-Haenszel|Stratified by genotype||"Null hypothesis: no difference in the proportion with HBeAg loss.~Based on the targeted sample size, there was 80% statistical power (2-sided 0.05 alpha) to detect a true 36% HBeAg loss rate in this treatment arm versus a true rate of 23% in the control arm."||0.079|-0.063|0.860
92303042|NCT00536263|184510768|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.139|||<|0.001|TWO_SIDED|95.0|0.061|0.217||P-values are unadjusted; Hochberg's adjustment for multiple comparisons was used to maintain the overall 0.05 significance level in test of superiority using the Cochran-Mantel-Haenszel test.|Cochran-Mantel-Haenszel|Stratified by genotype||"Null hypothesis: no difference in the proportion with HBeAg loss.~Based on the targeted sample size, there was 80% statistical power (2-sided 0.05 alpha) to detect a true 36% HBeAg loss rate in this treatment arm versus a true rate of 23% in the control arm."||0.217|0.061|<0.001
92303043|NCT00536263|184510768|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority of PEG 1.5 mcg/kg\*24 weeks with respect to PEG 1.5 mcg/kg\*48 weeks was to be concluded if the lower bound of the one-sided 95% confidence interval of the difference of the rates (PEG 1.5 mcg/kg\*24 weeks minus PEG 1.5 mcg/kg\*48 weeks) was greater than the noninferiority margin of -10%.|Pairwise rate difference|-0.132|||||TWO_SIDED|90.0|-0.198|-0.065||||||||-0.065|-0.198|
92303044|NCT00536263|184510769|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.011||||0.7|TWO_SIDED|95.0|-0.074|0.052|||Cochran-Mantel-Haenszel|Stratified by genotype||||0.052|-0.074|0.700
92303045|NCT00536263|184510769|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.054||||0.125|TWO_SIDED|95.0|-0.014|0.123|||Cochran-Mantel-Haenszel|Stratified by genotype||||0.123|-0.014|0.125
92303046|NCT00536263|184510769|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.065|||||TWO_SIDED|90.0|-0.122|-0.008||||||||-0.008|-0.122|
92303047|NCT00536263|184510770|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.016||||0.598|TWO_SIDED|95.0|-0.078|0.047|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.047|-0.078|0.598
92303048|NCT00536263|184510770|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.041||||0.24|TWO_SIDED|95.0|-0.027|0.108|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.108|-0.027|0.24
92303049|NCT00536263|184510770|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.056|||||TWO_SIDED|90.0|-0.112|-0.001||||||End of treatment||-0.001|-0.112|
92303050|NCT00536263|184510770|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.006||||0.83|TWO_SIDED|95.0|-0.075|0.063|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.063|-0.075|0.830
92303051|NCT00536263|184510770|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.13||||0.001|TWO_SIDED|95.0|0.053|0.208|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.208|0.053|0.001
92303052|NCT00536263|184510770|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.136||||||90.0|-0.201|-0.071||||||24 weeks after EOT||-0.071|-0.201|
92303053|NCT00536263|184510771|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.072||||0.076|TWO_SIDED|95.0|-0.007|0.151|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.151|-0.007|0.076
92303054|NCT00536263|184510771|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.135||||0.001|TWO_SIDED|95.0|0.053|0.216|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.216|0.053|0.001
92187555|NCT04919499|184273589|OTHER|A mixed model with repeated measurements (MMRM) was used for the analysis with fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.|Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|2.4|||TWO_SIDED|95.0|-4.7|5.0|||||"Calculated as \[high-dose BI 765128\] - \[Sham\]~Results were rounded to one decimal place."|||5.0|-4.7|
92187556|NCT00760877|184273591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.096||||0.1083|TWO_SIDED|95.0|0.766|5.738|||Cochran-Mantel-Haenszel|||||5.738|0.766|0.1083
92303055|NCT00536263|184510771|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.063|||||TWO_SIDED|90.0|-0.135|0.009||||||End of treatment||0.009|-0.135|
92303056|NCT00536263|184510771|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.017||||0.662|TWO_SIDED|95.0|-0.058|0.092|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.092|-0.058|0.662
92303057|NCT00536263|184510771|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.139|||<|0.001|TWO_SIDED|95.0|0.059|0.22|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.220|0.059|<0.001
92303058|NCT00536263|184510771|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.122|||||TWO_SIDED|90.0|-0.191|-0.053||||||24 weeks after EOT||-0.053|-0.191|
92303059|NCT00536263|184510772|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.019||||0.373|TWO_SIDED|95.0|-0.023|0.061|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.061|-0.023|0.373
92187557|NCT01612221|184273597|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||.65
92187558|NCT01612221|184273598|SUPERIORITY|||||||0.76|||||||ANCOVA|||GCLM Biomarker analysis.||||0.76
92187559|NCT01612221|184273598|SUPERIORITY|||||||0.63|||||||ANCOVA|||SLC1A4 Biomarker analysis.||||0.63
92303060|NCT00536263|184510772|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.049||||0.04|TWO_SIDED|95.0|0.003|0.096|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.096|0.003|0.040
92303061|NCT00536263|184510772|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.03|||||TWO_SIDED|90.0|-0.072|0.011||||||End of treatment||0.011|-0.072|
92303062|NCT00536263|184510772|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.001||||0.969|TWO_SIDED|95.0|-0.041|0.043|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.043|-0.041|0.969
92303063|NCT00536263|184510772|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.045||||0.074|TWO_SIDED|95.0|-0.004|0.094|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.094|-0.004|0.074
92303064|NCT00536263|184510772|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.044|||||TWO_SIDED|90.0|-0.085|-0.003||||||24 weeks after EOT||-0.003|-0.085|
92303065|NCT00536263|184510773|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.004||||0.724|TWO_SIDED|95.0|-0.027|0.019|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.019|-0.027|0.724
92187560|NCT01612221|184273598|SUPERIORITY|||||||0.27|||||||ANCOVA|||SLC7A11 Biomarker analysis.||||0.27
92187561|NCT01857362|184273606|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established if the 90% confidence interval for the ratio is completely within the acceptance range (0.80-1.25)|Ratio of geomectric means|1.0|||||TWO_SIDED|90.0|0.988|1.045|||ANOVA|||||1.045|0.988|
92303066|NCT00536263|184510773|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.018||||0.243|TWO_SIDED|95.0|-0.012|0.048|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.048|-0.012|0.243
92303067|NCT00536263|184510773|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.022|||||TWO_SIDED|90.0|-0.046|0.002||||||End of treatment||0.002|-0.046|
92303068|NCT00536263|184510773|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.004||||0.724|TWO_SIDED|95.0|-0.027|0.019|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.019|-0.027|0.724
92303069|NCT00536263|184510773|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.018||||0.232|TWO_SIDED|95.0|-0.012|0.048|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.048|-0.012|0.232
92303070|NCT00536263|184510773|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.022|||||TWO_SIDED|90.0|-0.046|0.002||||||24 weeks after EOT||0.002|-0.046|
92303071|NCT00536263|184510774|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.056||||0.219|TWO_SIDED|95.0|-0.033|0.145|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.145|-0.033|0.219
92303072|NCT00536263|184510774|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.126||||0.006|TWO_SIDED|95.0|0.037|0.216|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.216|0.037|0.006
92303073|NCT00536263|184510774|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.071|||||TWO_SIDED|90.0|-0.148|0.006||||||End of treatment||0.006|-0.148|
92303074|NCT00536263|184510774|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.082||||0.067|TWO_SIDED|95.0|-0.004|0.168|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.168|-0.004|0.067
92303075|NCT00536263|184510774|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.18|||<|0.001|TWO_SIDED|95.0|0.092|0.268|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.268|0.092|<0.001
92303076|NCT00536263|184510774|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.098|||||TWO_SIDED|90.0|-0.174|-0.021||||||24 weeks after EOT||-0.021|-0.174|
92303077|NCT00536263|184510775|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.001||||0.995|TWO_SIDED|95.0|-0.039|0.041|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.041|-0.039|0.995
92303078|NCT00536263|184510775|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.054||||0.031|TWO_SIDED|95.0|0.005|0.103|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.103|0.005|0.031
92303079|NCT00536263|184510775|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.053|||||TWO_SIDED|90.0|-0.094|-0.012||||||End of treatment||-0.012|-0.094|
92303080|NCT00536263|184510775|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.024||||0.389|TWO_SIDED|95.0|-0.03|0.078|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.078|-0.030|0.389
92187562|NCT01857362|184273607|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established if the 90% confidence interval for the ratio is completely within the acceptance range (0.80-1.25)|ratio of geometric means|0.989|||||TWO_SIDED|90.0|0.945|1.034|||ANOVA|||||1.034|0.945|
92187563|NCT01074229|184273627|SUPERIORITY_OR_OTHER|||||||0.05|||||||Kruskal-Wallis|Using Dunns test with Bonferroni conrrection for individual comparisons.||||||.05
92303081|NCT00536263|184510775|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.121|||<|0.001|TWO_SIDED|95.0|0.058|0.184|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.184|0.058|<0.001
92303082|NCT00536263|184510775|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.097|||||TWO_SIDED|90.0|-0.152|-0.041||||||24 weeks after EOT||-0.041|-0.152|
92303083|NCT00536263|184510776|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.0||||0.991|TWO_SIDED|95.0|-0.012|0.012|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.012|-0.012|0.991
92187564|NCT01074229|184273627|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|28.0||||0.05|TWO_SIDED|95.0|9.0|37.0|||Dunns test|Bonferonni correction||||37|9|.05
92303084|NCT00536263|184510776|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.013||||0.181|TWO_SIDED|95.0|-0.006|0.033|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.033|-0.006|0.181
92303085|NCT00536263|184510776|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.013|||||TWO_SIDED|90.0|-0.03|0.003||||||End of treatment||0.003|-0.030|
92303086|NCT00536263|184510776|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.0||||0.971|TWO_SIDED|95.0|-0.012|0.012|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.012|-0.012|0.971
92303087|NCT00536263|184510776|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.013||||0.179|TWO_SIDED|95.0|-0.006|0.033|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.033|-0.006|0.179
92187565|NCT01074229|184273627|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.0||||0.05|TWO_SIDED|95.0|14.0|42.0|||Dunns Test|Bonferroni correction||||42|14|.05
92303088|NCT00536263|184510776|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.013|||||TWO_SIDED|90.0|-0.03|0.003||||||24 weeks after EOT||0.003|-0.030|
92303089|NCT00536263|184510777|SUPERIORITY_OR_OTHER|||||||0.991|||||||Cochran-Mantel-Haenszel|"Stratified by genotype~Due to zero responses in the 2 arms, pairwise rate difference \& corresponding 95% confidence interval were not applicable."||End of treatment||||0.991
92303090|NCT00536263|184510777|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.004||||0.322|TWO_SIDED|95.0|-0.004|0.013|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.013|-0.004|0.322
92303091|NCT00536263|184510777|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.004|||||TWO_SIDED|90.0|-0.012|0.003||||||End of treatment||0.003|-0.012|
92187566|NCT01074229|184273628|SUPERIORITY_OR_OTHER|||||||0.05|||||||Kruskal-Wallis|With Dunns test and Bonferonni correction.||||||.05
92303092|NCT00536263|184510777|SUPERIORITY_OR_OTHER|||||||0.991||95.0|||||Cochran-Mantel-Haenszel|"Stratified by genotype~Due to zero responses in the 2 arms, pairwise rate difference \& corresponding 95% confidence interval were not applicable."||24 weeks after EOT||||0.991
92303093|NCT00536263|184510777|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.009||||0.157|TWO_SIDED|95.0|-0.003|0.021|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.021|-0.003|0.157
92303094|NCT00536263|184510777|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.009|||||TWO_SIDED|90.0|-0.019|0.001||||||24 weeks after EOT||0.001|-0.019|
92303095|NCT00536263|184510778|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||t-test, 2 sided|comparison of post-treatment versus baseline values||||||0.014
92303096|NCT00536263|184510778|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|comparison of post-treatment versus baseline values||||||<0.001
92303097|NCT00536263|184510778|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|comparison of post-treatment versus baseline values||||||0.010
92303098|NCT00536263|184510778|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.2||||0.631|TWO_SIDED|95.0|-1.2|0.8|||ANCOVA|Treatment group and genotype were the fixed effects and baseline was the covariate.||||0.8|-1.2|0.631
92303099|NCT00536263|184510778|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.3||||0.617|TWO_SIDED|95.0|-1.4|0.8|||ANCOVA|Treatment group and genotype were the fixed effects and baseline was the covariate.||||0.8|-1.4|0.617
92303100|NCT00536263|184510778|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||||1.1|-1.1|
92303101|NCT01640873|184510787|OTHER||Least Squares Mean Difference|-8.5||||0.356|TWO_SIDED|90.0|-47.4|30.4||The posterior probability that the reduction in FPG is ≥ 20 mg/dL is 0.06, and hence, the FPG hypothesis was not met.|Constrained longitudinal data analysis|||||30.4|-47.4|0.356
92303102|NCT01640873|184510789|OTHER||Geometric Mean Ratio|1.05||||0.2714|TWO_SIDED|90.0|0.92|1.19||The posterior probability that the reduction in 24h-WMG is ≥ 20 mg/dL is \< 0.01, and hence, the 24h- WMG hypothesis was not met.|Constrained longitudinal data analysis|||||1.19|0.92|0.2714
92303103|NCT01640873|184510790|OTHER|Day 1|Geometric Mean Ratio|1.22||||0.06|TWO_SIDED|95.0|0.99|1.55|||ANOVA|Placebo-corrected (MK-8655 / placebo)||||1.55|0.99|0.060
92303104|NCT01640873|184510790|OTHER|Day 3|Geometric mean Ratio|1.2||||0.065|TWO_SIDED|95.0|0.98|1.47|||ANOVA|Placebo-corrected (MK-8655 / placebo)||||1.47|0.98|0.065
92187567|NCT01074229|184273628|SUPERIORITY_OR_OTHER||Median Difference (Net)|10.0||||0.003|TWO_SIDED|95.0|3.0|15.0|||Dunns test|||||15|3|0.003
92187568|NCT01074229|184273628|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0||||0.14|TWO_SIDED|95.0|-1.0|12.0|||Dunns test|||||12|-1|0.14
92187569|NCT01951105|184273634|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92187570|NCT00237718|184273638|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92187571|NCT00237718|184273639|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
92187572|NCT05072795|184273640|OTHER|||||||0.005|||||||t-test, 2 sided|||||||0.005
92303105|NCT01640873|184510790|OTHER|Day 16|Geometric Mean Ratio|1.1||||0.217|TWO_SIDED|95.0|0.89|1.37|||ANOVA|Placebo-corrected (MK-8655 / placebo)||||1.37|0.89|0.217
92303106|NCT00534794|184510799|SUPERIORITY_OR_OTHER|||||||0.532||95.0|||||ANCOVA|||ITT (Intent to Treat)||||0.532
92303107|NCT00534794|184510800|SUPERIORITY_OR_OTHER|||||||0.927||95.0|||||Student's t-test|||ITT (Intent to Treat)||||0.927
92303108|NCT03431974|184510801|SUPERIORITY|||||||0.43|||||||Fisher Exact|||The efficacy of LD-AMT established using a step-down analysis approach with one-sided Fisher's exact tests. First, the analysis for subjects attaining PASI 75 will be performed, then, if that analysis shows a significant treatment effect, analysis for subjects attaining a sPGA success will be performed.||||0.43
92303109|NCT01301508|184510809|SUPERIORITY_OR_OTHER|||||||0.008||||||p-value was calculated for the statistical significant difference between greater decrease in vehicle lesion and greater decrease in active lesion for the AN2898 Topical Ointment, 1% + Ointment Vehicle group.|Two-sided sign test|||||||0.008
92303110|NCT01301508|184510809|SUPERIORITY_OR_OTHER|||||||0.017||||||p-value was calculated for the statistical significant difference between greater decrease in vehicle lesion and greater decrease in active lesion for the AN2728 Topical Ointment, 2% + Ointment Vehicle group.|Two-sided sign test|||||||0.017
92303111|NCT01929031|184510823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.738|STANDARD_ERROR_OF_MEAN|4.058|<|0.0001|TWO_SIDED|95.0|33.767|49.708|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Placebo|||49.708|33.767|<0.0001
92303112|NCT01929031|184510823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.467|STANDARD_ERROR_OF_MEAN|4.058|<|0.0001|TWO_SIDED|95.0|28.497|44.437|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Caffeine|||44.437|28.497|<0.0001
92303113|NCT01929031|184510823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.126|STANDARD_ERROR_OF_MEAN|2.868|<|0.0001|TWO_SIDED|95.0|6.493|17.759|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Ibuprofen|||17.759|6.493|<0.0001
92303114|NCT01929031|184510824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.525|STANDARD_ERROR_OF_MEAN|0.808|<|0.0001|TWO_SIDED|95.0|6.937|10.113|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Placebo|||10.113|6.937|<0.0001
92303115|NCT01929031|184510824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.972|STANDARD_ERROR_OF_MEAN|0.808|<|0.0001|TWO_SIDED|95.0|6.384|9.559|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Caffeine|||9.559|6.384|<0.0001
92303116|NCT01929031|184510824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.594|STANDARD_ERROR_OF_MEAN|0.571|<|0.0001|TWO_SIDED|95.0|2.472|4.716|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Ibuprofen|||4.716|2.472|<0.0001
92303117|NCT01929031|184510825|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Placebo||||<0.0001
92303118|NCT01929031|184510825|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Caffeine||||<0.0001
92303119|NCT01929031|184510825|SUPERIORITY_OR_OTHER|||||||0.2389|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Ibuprofen||||0.2389
92303120|NCT01929031|184510826|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Placebo||||<0.0001
92303121|NCT01929031|184510826|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Caffeine||||<0.0001
92303122|NCT01929031|184510826|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Ibuprofen||||0.0001
92303123|NCT01366443|184510827|SUPERIORITY_OR_OTHER||Sensitivity|0.85|||||TWO_SIDED|95.0|0.79|0.89|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Sensitivity = true positives/(true positives + false negatives); It indicates how likely is the test to detect the presence of a characteristic in someone with the characteristic.||0.89|0.79|
92303124|NCT01366443|184510827|SUPERIORITY_OR_OTHER||Specificity|0.98|||||TWO_SIDED|95.0|0.93|0.99|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Specificity = true negatives/(false positives + true negatives); It indicates how likely the test is to detect the absence of a characteristic in someone without the characteristic.||0.99|0.93|
92303125|NCT01366443|184510827|SUPERIORITY_OR_OTHER||Positive Predictive Value|0.99|||||TWO_SIDED|95.0|0.96|1.0|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Positive Predictive Value = true positives/(true positives + false positives); It indicates how likely it is that someone with a positive test result will actually have the characteristic.||1.00|0.96|
92303126|NCT01366443|184510827|SUPERIORITY_OR_OTHER||Negative Predictive Value|0.77|||||TWO_SIDED|95.0|0.69|0.84|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Negative Predictive Value = true negatives/(true negatives + false negatives); It indicates how likely it is that someone with a negative test result will actually not have the characteristic.||0.84|0.69|
92303127|NCT01366443|184510827|SUPERIORITY_OR_OTHER||Sensitivity|0.99|||||TWO_SIDED|95.0|0.97|1.0|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Sensitivity = true positives/(true positives + false negatives); It indicates how likely is the test to detect the presence of a characteristic in someone with the characteristic.||1.00|0.97|
92303128|NCT01366443|184510827|SUPERIORITY_OR_OTHER||Specificity|0.91|||||TWO_SIDED|95.0|0.83|0.95|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Specificity = true negatives/(false positives + true negatives); It indicates how likely the test is to detect the absence of a characteristic in someone without the characteristic.||0.95|0.83|
92187573|NCT00422162|184273644|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||P-value for Change from Baseline. A priori alpha threshold was 0.05 with no adjustment for multiple testing.|ANCOVA|ANCOVA with stratification factors (country and pretreatment for MDD) and MADRS baseline as covariates and treatment regimen as the main factor.||||||0.88
92187574|NCT00422162|184273654|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Change from Baseline (within group)|t-test, 2 sided|paired t-test||||||<0.0001
92303129|NCT01366443|184510827|SUPERIORITY_OR_OTHER||Positive Predictive Value|0.95|||||TWO_SIDED|95.0|0.9|0.98|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Positive Predictive Value = true positives/(true positives + false positives); It indicates how likely it is that someone with a positive test result will actually have the characteristic.||0.98|0.90|
92187575|NCT00422162|184273654|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Change from Baseline (within group)|t-test, 2 sided|paired t-test||||||0.001
92187576|NCT00422162|184273654|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Change from Baseline (within group)|t-test, 2 sided|paired t-test||||||<0.0001
92187577|NCT00422162|184273654|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-value for Change from Baseline (within group)|t-test, 2 sided|paired t-test||||||0.28
92187578|NCT02006641|184273691|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.51||1|TWO_SIDED|95.0|-1.1|0.92||Corrected for multiplicity|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||0.92|-1.10|1.000
92187579|NCT02006641|184273691|SUPERIORITY||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.52||0.2223|TWO_SIDED|95.0|-0.38|1.65||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||1.65|-0.38|0.2223
92187580|NCT02006641|184273692|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.65||1|TWO_SIDED|95.0|-1.11|1.46||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A positive mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||1.46|-1.11|1.000
92187581|NCT02006641|184273692|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.66||1|TWO_SIDED|95.0|-1.27|1.33||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A positive mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||1.33|-1.27|1.000
92187582|NCT02006641|184273693|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.08||1|TWO_SIDED|95.0|-0.23|0.1||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||0.10|-0.23|1.000
92303130|NCT01366443|184510827|SUPERIORITY_OR_OTHER||Negative Predictive Value|0.99|||||TWO_SIDED|95.0|0.94|1.0|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Negative Predictive Value = true negatives/(true negatives + false negatives); It indicates how likely it is that someone with a negative test result will actually not have the characteristic.||1.00|0.94|
92303131|NCT00321594|184510828|OTHER||Maximum Tolerated Dose|1400.0|||||TWO_SIDED||||||||MTD was not reached and the maximum dose of 1400 mg/m2 is used in Phase II portion|MTD is defined as the dose below which \>=2 of 3 or \>= 2 of 6 patients experience DLT||||
92303132|NCT00369382|184510830|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||two-sided alpha = 0.05|ANCOVA|Analysis of covariance (ANCOVA) with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 52||||0.004
92303133|NCT00369382|184510832|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 4||||0.018
92303134|NCT00369382|184510832|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 16||||<.001
92303135|NCT00369382|184510832|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 24||||0.012
92303136|NCT00369382|184510832|SUPERIORITY_OR_OTHER|||||||0.072|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 32||||0.072
92303137|NCT00369382|184510832|SUPERIORITY_OR_OTHER|||||||0.175|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 40||||0.175
92303138|NCT00369382|184510833|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 4||||0.031
92303139|NCT00369382|184510833|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 16||||<0.001
92303140|NCT00369382|184510833|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 24||||0.020
92303141|NCT00369382|184510833|SUPERIORITY_OR_OTHER|||||||0.151|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 32||||0.151
92303142|NCT00369382|184510833|SUPERIORITY_OR_OTHER|||||||0.295|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 40||||0.295
92303143|NCT00369382|184510833|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 52||||0.010
92303144|NCT00369382|184510835|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 4||||0.009
92303145|NCT00369382|184510835|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 16||||<0.001
92303146|NCT00369382|184510835|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 24||||0.002
92267077|NCT02203305|184435431|SUPERIORITY||||||<|0.581||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|Mixed Models Analysis|Main effect: interval (p=0.039) and condition (p=0.007). Interaction: interval and condition (p=0.581).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.581
92303147|NCT00369382|184510835|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 32||||0.030
92303148|NCT00369382|184510835|SUPERIORITY_OR_OTHER|||||||0.121|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 40||||0.121
92303149|NCT00369382|184510835|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 52||||0.001
92303150|NCT00369382|184510837|SUPERIORITY_OR_OTHER||slope difference (CNI - SRL)|-2.311||||0.126|TWO_SIDED|95.0|-5.282|0.66||alpha is unadjusted|Random coefficient model||Random coefficient model with each participant's creatinine clearance function of time on treatment; intra-subject regression coefficients considered random.|||0.660|-5.282|0.126
92303151|NCT00369382|184510839|SUPERIORITY_OR_OTHER|||||||0.206|TWO_SIDED|||||alpha is unadjusted|Fisher Exact|||For-cause Biopsy-Confirmed Acute Rejection compared between treatment groups||||0.206
92303152|NCT00369382|184510839|SUPERIORITY_OR_OTHER|||||||0.476|TWO_SIDED|||||alpha is unadjusted|Fisher Exact|||Standard of Care Biopsy-Confirmed Acute Rejection compared between treatment groups||||0.476
92303153|NCT01565616|184510851|OTHER||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|10.4||0.52|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the anxiety domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.52
92303154|NCT01565616|184510851|OTHER||Mean Difference (Net)|2.7|STANDARD_DEVIATION|6.4||0.12|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the depression domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.12
92303155|NCT01565616|184510851|OTHER||Mean Difference (Net)|-1.3|STANDARD_DEVIATION|8.5||0.54|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the fatigue domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.54
92303156|NCT01565616|184510851|OTHER||Mean Difference (Net)|-7.5|STANDARD_DEVIATION|9.3||0.006|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the pain interference domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.006
92303157|NCT01565616|184510851|OTHER||Mean Difference (Net)|5.8|STANDARD_DEVIATION|10.5||0.044|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the physical function domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.044
92303158|NCT01565616|184510851|OTHER||Mean Difference (Net)|0.6|STANDARD_DEVIATION|11.8||0.85|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the satisfaction with social role domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.85
92303159|NCT01565616|184510851|OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|13.5||0.88|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the sleep disturbances domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.88
92303160|NCT01565616|184510851|OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|3.1||0.53|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in raw scores of the pain intensity domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.53
92303161|NCT00586482|184510854|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||t-test, 2 sided|||A two-sided p value of less than or equal to 0.05 was considered statistically significant.||||0.12
92303162|NCT00586482|184510855|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||0.23
92303163|NCT00586482|184510856|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||||||0.29
92303164|NCT00586482|184510857|SUPERIORITY_OR_OTHER|||||||0.93|||||||t-test, 2 sided|||||||0.93
92303165|NCT00586482|184510858|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
92303166|NCT02358343|184510875|SUPERIORITY|||||||0.77||||||a priori threshold for significance is 0.05.|Likelihood Ratio Test|Likelihood ratio test obtained from logistic regression analysis adjusting for site||||||0.77
92303167|NCT02358343|184510876|SUPERIORITY||Mean Difference (Final Values)|-1.84||||0.035|TWO_SIDED|95.0|-3.54|-0.13||a priori threshold for significance is 0.05.|Wald Test|The Wald test is for the week 12 comparative treatment effect from a longitudinal model of QIDS-C adjusting for clinical site.|The week 12 mean difference estimated from the longitudinal model is the difference between antidepressant drug therapy (drug) and the cognitive behavioral therapy (CBT) at 12 weeks, (drug - CBT).|All participants randomized to treatment (N=120) were included in the pre-specified longitudinal model of QIDS-C used to estimate comparative treatment effect at 12 weeks (primary outcome). The model adjustment for clinical site and included baseline, 6 week and 12 week QIDS-C scores. Week 0 (baseline) and week 6 measurements are not pre-specified primary or secondary outcomes. The Observational Cohort arm was not included in the analysis.||-0.13|-3.54|0.035
92303168|NCT02358343|184510877|SUPERIORITY|||||||0.96||||||a priori threshold for significance is 0.05.|Likelihood Ratio Test|Likelihood Ratio Test from logistic regression analysis adjusting for clinical site.||||||0.96
92303169|NCT02358343|184510878|SUPERIORITY||Mean Difference (Final Values)|-3.7|||||TWO_SIDED|95.0|-7.4|-0.02|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||-0.02|-7.4|
92303170|NCT02358343|184510879|SUPERIORITY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-3.1|0.8|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||0.8|-3.1|
92303171|NCT02358343|184510880|SUPERIORITY||Mean Difference (Final Values)|-3.1|||||TWO_SIDED|95.0|-6.2|-0.1|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||-0.1|-6.2|
92303172|NCT02358343|184510881|SUPERIORITY||Mean Difference (Final Values)|10.2|||||TWO_SIDED|95.0|1.3|19.0|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||19.0|1.3|
92303173|NCT02358343|184510882|SUPERIORITY||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.2|1.4|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||1.4|-0.2|
92303174|NCT02358343|184510883|SUPERIORITY||Mean Difference (Final Values)|2.6|||||TWO_SIDED|95.0|0.1|5.1|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||5.1|0.1|
92303175|NCT02358343|184510884|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.5|0.5|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||0.5|-0.5|
92303176|NCT02358343|184510886|SUPERIORITY||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.5|0.7|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||0.7|-0.5|
92303177|NCT02358343|184510887|SUPERIORITY||Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.55|1.1|||||The mean difference estimate is from a negative binomial model adjusted for clinical site. It is the rate of sessions skipped/shortened in the Drug group (numerator) compared to CBT (denominator).|||1.10|0.55|
92303178|NCT02358343|184510888|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.54|0.34|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||0.34|-0.54|
92303179|NCT02358343|184510889|SUPERIORITY||Mean Difference (Final Values)|0.25|||||TWO_SIDED|95.0|-0.25|0.75|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||0.75|-0.25|
92303180|NCT01276301|184510907|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|102.95|STANDARD_ERROR_OF_MEAN|6.5|||TWO_SIDED|90.0|98.87|107.02|||ANOVA|Based on ANOVA with fixed terms for sequence, period, treatment and random term for subject within sequence.|Standard error of the mean is actually the Intra-Individual geometric coefficient of variation (gCV).|Ratio calculated as empa plus verapamil divided by empa||107.02|98.87|
92303181|NCT01276301|184510908|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|92.39|STANDARD_ERROR_OF_MEAN|12.7|||TWO_SIDED|90.0|85.38|99.97|||ANOVA|Based on ANOVA with fixed terms for sequence, period, treatment and random term for subject within sequence.|Standard error of the mean is actually the Intra-Individual geometric coefficient of variation (gCV).|Ratio calculated as empa plus verapamil divided by empa||99.97|85.38|
92303182|NCT01276301|184510909|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|102.77|STANDARD_ERROR_OF_MEAN|6.2|||TWO_SIDED|90.0|98.87|106.83|||ANOVA|Based on ANOVA with fixed terms for sequence, period, treatment and random term for subject within sequence.|Standard error of the mean is actually the Intra-Individual geometric coefficient of variation (gCV).|Ratio calculated as empa plus verapamil divided by empa||106.83|98.87|
92303183|NCT00368979|184510985|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.003||95.0|-2.7|-0.5|||ANCOVA|||||-0.5|-2.7|0.003
92303184|NCT00912093|184510990|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Peto-Peto Wilcoxon|||||||<0.001
92303185|NCT00912093|184510991|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Peto-Peto Wilcoxon|||||||<0.001
92303186|NCT00912093|184510992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||Peto Peto Wilcoxon|||||||0.012
92303187|NCT00912093|184510993|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Peto-Peto Wilcoxon|||||||<0.001
92303188|NCT00912093|184510994|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Peto-Peto Wilcoxon|||||||<0.001
92303189|NCT01462318|184511002|SUPERIORITY_OR_OTHER||ratio|1.015|||||TWO_SIDED|90.0|0.894|1.153|||||test/reference = midazolam+DAC HYP/midazolam|Pairwise comparison: midazolam. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.153|0.894|
92303190|NCT01462318|184511002|SUPERIORITY_OR_OTHER||ratio|1.005|||||TWO_SIDED|90.0|0.951|1.063|||||test/reference = S-warfarin+DAC HYP/S-warfarin|Pairwise comparison: S-warfarin. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.063|0.951|
92303191|NCT01462318|184511002|SUPERIORITY_OR_OTHER||ratio|0.996|||||TWO_SIDED|90.0|0.88|1.127|||||test/reference = omeprazole+DAC HYP/omeprazole|Pairwise comparison: omeprazole. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.127|0.880|
92303192|NCT01462318|184511002|SUPERIORITY_OR_OTHER||ratio|1.032|||||TWO_SIDED|90.0|0.93|1.145|||||test/reference = caffeine+DAC HYP/caffeine|Pairwise comparison: caffeine. Based on linear mixed model with fixed effect for treatment and random effect for participants. Excludes participants with high predose concentration (\>5% of maximum observed concentration \[Cmax\]).||1.145|0.930|
92303193|NCT01462318|184511003|SUPERIORITY_OR_OTHER||ratio|1.012|||||TWO_SIDED|90.0|0.764|1.342|||||test/reference = dextromethorphan+DAC HYP/dextromethorphan|Pairwise comparison: dextromethorphan. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.342|0.764|
92303194|NCT01462318|184511011|SUPERIORITY_OR_OTHER||ratio|1.079|||||TWO_SIDED|90.0|0.912|1.276|||||test/reference = midazolam+DAC HYP/midazolam|Pairwise comparison: midazolam. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.276|0.912|
92303195|NCT01462318|184511011|SUPERIORITY_OR_OTHER||ratio|1.012|||||TWO_SIDED|90.0|0.952|1.075|||||test/reference = S-warfarin+DAC HYP/S-warfarin|Pairwise comparison: S-warfarin. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.075|0.952|
92303196|NCT01462318|184511011|SUPERIORITY_OR_OTHER||ratio|1.058|||||TWO_SIDED|90.0|0.804|1.392|||||test/reference = omeprazole+DAC HYP/omeprazole|Pairwise comparison: omeprazole. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.392|0.804|
92303197|NCT01462318|184511011|SUPERIORITY_OR_OTHER||ratio|1.116|||||TWO_SIDED|90.0|1.005|1.238|||||test/reference = caffeine+DAC HYP/caffeine|Pairwise comparison: caffeine. Based on linear mixed model with fixed effect for treatment and random effect for participants. Excludes participants with high predose concentration (\>5% of Cmax).||1.238|1.005|
92303198|NCT01462318|184511013|SUPERIORITY_OR_OTHER||ratio|0.878|||||TWO_SIDED|90.0|0.697|1.105|||||test/reference = omeprazole+DAC HYP/omeprazole|Pairwise comparison: omeprazole. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.105|0.697|
92303199|NCT00270257|184511027|SUPERIORITY_OR_OTHER_LEGACY||Incident rate per 100 person-years|1.5|||||TWO_SIDED|95.0|0.7|2.8||||||||2.8|0.7|
92303200|NCT00270257|184511027|SUPERIORITY_OR_OTHER_LEGACY||Incident rate per 100 person-years|2.2|||||TWO_SIDED|95.0|1.2|3.7||||||||3.7|1.2|
92303201|NCT00270257|184511027|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.694||||0.3769|TWO_SIDED|95.0|0.308|1.562|||Regression, Cox|||||1.562|0.308|0.3769
92303202|NCT00270257|184511028|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.844||||0.4325|TWO_SIDED|95.0|0.553|1.289||P value applies for the comparison at visit 104.|Regression, Logistic|adjusted for site||||1.289|0.553|0.4325
92303203|NCT00270257|184511029|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.8||||0.2749|TWO_SIDED|95.0|0.536|1.194||P value applies for the comparison at visit 104 only.|Regression, Logistic|||||1.194|0.536|0.2749
92303204|NCT00270257|184511030|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.746||||0.3446|TWO_SIDED|95.0|0.407|1.369||Analysis is done for visit 104|Regression, Logistic|Adjusted for site||||1.369|0.407|0.3446
92303205|NCT00270257|184511031|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.8712||||0.362|TWO_SIDED|95.0|0.6477|1.1718||P value applies for the comparison at visit 104 only. See the estimation comments for the other visits|Generalized linear model|adjusted for site.||||1.1718|0.6477|0.3620
92303206|NCT00270257|184511032|SUPERIORITY_OR_OTHER_LEGACY||Incident rate of 100 person-years|22.0|||||TWO_SIDED|95.0|14.7|31.6|||||29 events over 132 person-years|||31.6|14.7|
92303207|NCT00270257|184511032|SUPERIORITY_OR_OTHER_LEGACY||Incident rate of 100 person-years|4.59|||||TWO_SIDED|95.0|2.0|9.0|||||8 events over 174 person-years|||9.0|2.0|
92303208|NCT00270257|184511033|SUPERIORITY_OR_OTHER_LEGACY||Incident rate of 100 person-years|2.7|||||TWO_SIDED|95.0|1.22|5.08|||||9 events over 336 person-years|||5.08|1.22|
92303209|NCT00270257|184511033|SUPERIORITY_OR_OTHER_LEGACY||Incident rate of 100 person-years|0.0|||||TWO_SIDED|95.0|0.0|10.1|||||0 events over 37 person-years|||10.1|0.00|
92303210|NCT01155024|184511045|NON_INFERIORITY_OR_EQUIVALENCE|10 participants required to detect one value change in rating for the SCS scale, with 80% power.|||||>|0.4||95.0||||Two-Sided|t-test, 2 sided|||Alpha level of 0.05||||>0.4
92303211|NCT01971970|184511103|EQUIVALENCE|The number of genes with a 1.5 fold change (FDR value ≤ 0.05; paired t-test) from week 0 to week 8 were assessed for pediatric IBD or adult IBD patients.|||||<|0.05|||||||Paired t-test,FDR 1.5fold,FDRvalue≤ 0.05|||The number of genes with a 1.5 fold change (FDR value ≤ 0.05; paired t-test) from week 0 to week 8 were assessed for pediatric IBD or adult IBD patients.||||< 0.05
92267078|NCT02203305|184435431|SUPERIORITY||||||<|0.817||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|Mixed Models Analysis|Main effects: condition (p=0.005) and interval (p=0.528). Interaction: condition and interval (p=0.817).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.817
92267079|NCT02203305|184435431|SUPERIORITY||||||=|0.008||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||=0.008
92267080|NCT02203305|184435431|SUPERIORITY||||||=|0.009|||||||ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||=0.009
92267081|NCT02203305|184435431|OTHER|bivariate correlation|||||=|0.049||||||"Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.~This correlation was no longer significant when controlling for the hearing threshold at 8000 Hz."|bivariate pearson correlation|||Association of age at implantation and performance at the 12-month interval with the cochlear implant, analyzed with a Bivariate Pearson correlation (one-tailed).||||=0.049
92267082|NCT02203305|184435431|OTHER|pearson correlation|||||>|0.185|||||||bivariate pearson correlation|||Association of word recognition and speech recognition in noise, analyzed with a Bivariate Pearson correlation. Scores were averaged between 3 and 12 months post-activation as an estimate of asymptotic performance.||||>0.185
92267083|NCT02203305|184435432|SUPERIORITY||||||<|0.44|||||||Mixed Models Analysis|Main effects: interval (p=0.070) and condition (p=0.440). Interaction: interval and condition (p=0.047).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.440
92267084|NCT02203305|184435432|SUPERIORITY||||||<|0.379|||||||Mixed Models Analysis|Main effects: condition (p\<0.001) and interval (p=0.250). Interaction: interval and condition (p=0.379).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.379
92267085|NCT02203305|184435432|SUPERIORITY||||||=|0.021|||||||ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||=0.021
92267086|NCT02203305|184435432|SUPERIORITY||||||<|0.001|||||||ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||<0.001
92267087|NCT02203305|184435433|SUPERIORITY||||||<|0.639||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effect: condition (p\<0.001) and interval (p=0.639). Interaction: interval and condition (p=0.280).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.639
92267088|NCT02203305|184435433|SUPERIORITY||||||<|0.637|||||||Mixed Models Analysis|Main effects: condition (p\<0.001) and interval (p=0.637). Interaction: interval and condition (p=0.450).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.637
92267089|NCT02203305|184435433|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||<0.001
92267090|NCT02203305|184435433|SUPERIORITY||||||=|0.002|||||||ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||=0.002
92267091|NCT02203305|184435434|SUPERIORITY||||||<|0.671|||||||Mixed Models Analysis|Main effects: interval (p=0.020) and condition (p=0.406). Interaction: interval and condition (p=0.671).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.671
92303212|NCT01971970|184511104|OTHER|||||||0.2616||||||Kaplan-Meier curve comparing the percentage of children and adults on continued anti-TNF therapy over the course of study duration|gehan-breslow-wilcoxon test|||Kaplan-Meier curves were produced by dividing the population in the following groups i) paediatric versus adult patients.These groups were used to statistically compare the proportions of patients over time regarding continued anti-TNF therapy, reflecting maintenance of response at 12 and 18 months.||||0.2616
92303213|NCT01971970|184511105|OTHER|||||||0.0177||||||Kaplan-Meier curve comparing the percentage of children and adults with therapy intensification over the course of study duration|gehan-breslow-wilcoxon test|||Kaplan-Meier curves were produced by dividing the population in the following groups i) paediatric versus adult patients.These groups were used to statistically compare the proportions of patients over time regarding the escalation of anti-TNF therapy (dose increase above 5 mg/kg and/or interval shortening to less than 8 weeks)||||0.0177
92303214|NCT01831765|184511112|NON_INFERIORITY_OR_EQUIVALENCE|The assessment was done by comparing the difference of faster aspart vs. NovoRapid®/NovoLog® in change from baseline in HbA1c after 26 weeks of randomised treatment to a non-inferiority limit of 0.4%.|Mean Difference (Net)|-0.15|||||TWO_SIDED|95.0|-0.23|-0.07||||||Change from baseline in HbA1c analysed using a mixed effect model for repeated measurements including visit 14, 18, 22, 26, 30, 34 and 36. The model included treatment, region and strata (combination of bolus adjusting method, basal treatment regimen and continuous glucose monitoring (CGM) and frequently sampled meal test subgroup) as fixed effects, subject as random effect, baseline HbA1c as covariate and interaction between all fixed effects and visit, and between the covariate and visit.||-0.07|-0.23|
92303215|NCT01831765|184511112|NON_INFERIORITY_OR_EQUIVALENCE|The assessment was done by comparing the difference of faster aspart vs. NovoRapid®/NovoLog® in change from baseline in HbA1c after 26 weeks of randomised treatment to a non-inferiority limit of 0.4%.|Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.04|0.12||||||Change from baseline in HbA1c analysed using a mixedeffect model for repeated measurements including visit 14, 18, 22, 26, 30, 34 and 36. The model included treatment, region and strata (combination of bolus adjusting method, basal treatment regimen and continuous glucose monitoring (CGM) and frequently sampled meal test subgroup) as fixed effects, subject as random effect, baseline HbA1c as covariate and interaction between all fixed effects and visit, and between the covariate and visit.||0.12|-0.04|
92303216|NCT04561375|184511135|SUPERIORITY||Proportional odds ratio|0.37||||0.067|TWO_SIDED|95.0|0.13|1.07|||proportional odds logistic regression|In the analysis, 100 µg and 150 µg were merged as one level since too few cases used 150 µg.||||1.07|0.13|0.067
92303217|NCT04561375|184511136|SUPERIORITY||Mean Difference (Final Values)|10.0||||0.147|TWO_SIDED|97.5|-5.8|26.0|||Regression, Linear|||||26|-5.8|0.147
92303218|NCT04561375|184511137|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.463|TWO_SIDED|97.5|-18.0|34.0|||Regression, Linear|||||34|-18|0.463
92303219|NCT04561375|184511138|SUPERIORITY||Median Difference (Final Values)|-13.0||||0.032|TWO_SIDED|95.0|-25.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|-25|0.032
92303220|NCT00117325|184511171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.335||||0.05|TWO_SIDED|95.0|-0.67|0.0|||ANCOVA|Analysis of covariance (ANCOVA) method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD Week 1-4 analysis.||0.00|-0.67|0.050
92303221|NCT00117325|184511172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.393||||0.027|TWO_SIDED|95.0|-0.74|-0.05||Week 1-4|ANCOVA|ANCOVA method was used adjusting for baseline iTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD Week 1-4 analysis.||-0.05|-0.74|0.027
92303222|NCT00117325|184511173|SUPERIORITY_OR_OTHER|||||||0.184|||||||Regression, Logistic|logistic regression adjusting for age, gender, investigator, and treatment.||Placebo versus Fluticasone Furoate 110 mcg QD up to Week 4 analysis.|Effectiveness of study medication for relieving non-allergic rhinitis symptoms over the entire treatment period (Total response) was analyzed.|||0.184
92187583|NCT02006641|184273693|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.09||1|TWO_SIDED|95.0|-0.12|0.21||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||0.21|-0.12|1.000
92303223|NCT00117325|184511174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.348||||0.051|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD Week 1-4 analysis.||0.00|-0.70|0.051
92303224|NCT00117325|184511175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.304||||0.076|TWO_SIDED|95.0|-0.64|0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD up to Week 4 analysis||0.03|-0.64|0.076
92303225|NCT00117325|184511176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.51||||0.093|TWO_SIDED|95.0|-9.77|0.75|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD Week 1-4 analysis.||0.75|-9.77|0.093
92303226|NCT00117325|184511177|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.372||||0.023|TWO_SIDED|95.0|-11.8|-0.9|||ANCOVA|ANCOVA method was used adjusting for baseline iTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD Week 1-4 analysis.||-0.90|-11.8|0.023
92187584|NCT00872339|184273702|SUPERIORITY_OR_OTHER|||||||0.45|||||||Chi-squared|||||||0.45
92187585|NCT00872339|184273704|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<.001
92187586|NCT02907489|184273715|SUPERIORITY|||||||0.083||||||0.083 for 24 hours, Significant at P ≤ 0.05|Chi-squared|||||||0.083
92187587|NCT02907489|184273715|SUPERIORITY|||||||0.041||||||0.041 for 48 hours, Significant at P ≤ 0.05|Chi-squared|||||||0.041
92187588|NCT02907489|184273715|SUPERIORITY|||||||0.063||||||0.063 for 72 hours, Significant at P ≤ 0.05|Chi-squared|||||||0.063
92303227|NCT00117325|184511178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.118||||0.061|TWO_SIDED|95.0|-0.24|0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for Rhinorrhea||0.01|-0.24|0.061
92303228|NCT00117325|184511178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.124||||0.061|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Placebo versus Fluticasone Furoate 110 mcg QD for Nasal Congestion||0.01|-0.25|0.061
92187589|NCT02907489|184273716|SUPERIORITY|||||||0.982||||||0.982 for S1, Significant at P ≤ 0.05|Chi-squared|||||||0.982
92187590|NCT02907489|184273716|SUPERIORITY|||||||0.467||||||0.467 for S2, Significant at P ≤ 0.05|Chi-squared|||||||0.467
92187591|NCT02907489|184273716|SUPERIORITY|||||||0.01||||||0.01 for S3 Significant at P ≤ 0.05|Chi-squared|||||||0.01
92267092|NCT02203305|184435434|SUPERIORITY||||||>|0.124|||||||Mixed Models Analysis|Main effects: interval (p=0.124) and condition (p=0.845). Interaction: interval and condition (p=0.960).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||>0.124
92267093|NCT02203305|184435434|SUPERIORITY||||||=|0.025|||||||ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||=0.025
92267094|NCT02203305|184435434|SUPERIORITY||||||=|0.442|||||||ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||=0.442
92267095|NCT02203305|184435435|SUPERIORITY||||||<|0.001||||||Percent correct values were converted to rationalized arcsine units prior to analysis.|t-test, 2 sided|||Paired samples t-test comparing word recognition (percent correct for CNC words) with a hearing aid at the pre-operative interval and the cochlear implant at the 12-month interval for the affected ear (masking presented to the contralateral ear).||||<0.001
92267096|NCT02203305|184435435|SUPERIORITY||||||<|0.001||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|t-test, 2 sided|||Paired samples t-test comparing word recognition (percent correct for CNC words) with a hearing aid at the pre-operative interval and the cochlear implant at the 12-month interval for the affected ear (masking presented to the contralateral ear).||||<0.001
92267097|NCT02203305|184435436|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Participants listened with a bone conduction device preoperatively and with the cochlear implant at 1, 3, 6, 9, and 12 months post-activation. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. Repeated-measures ANOVA compared performance over time.||||<0.001
92267098|NCT02203305|184435436|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Participants listening with a bone conduction device preoperatively and with the cochlear implant at 1, 3, 6, 9, and 12 months post-activation. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. Repeated-measures ANOVA compared performance over time.||||<0.001
92267099|NCT02203305|184435436|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Compare localization performance with the cochlear implant to a bone-conduction device at the 12-month interval using a paired samples t-test.||||<0.001
92267100|NCT02203305|184435436|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Compare localization performance with the cochlear implant to a bone-conduction device at the 12-month interval using a paired samples t-test.||||<0.001
92267101|NCT02203305|184435437|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. The global score is calculated from the responses on the ease of communication, reverberation, and effectiveness in background noise subscales. Responses at the preoperative interval (alternative treatments for unilateral hearing loss) were compared to responses over time with the cochlear implant using a repeated-measures ANOVA.||||<0.001
92267102|NCT02203305|184435437|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. The global score is calculated from the responses on the ease of communication, reverberation, and effectiveness in background noise subscales. Responses at the preoperative interval (alternative treatments for unilateral hearing loss) were compared to responses over time with the cochlear implant using a repeated-measures ANOVA.||||<0.001
92267103|NCT02203305|184435437|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p\<0.001) and subscales (p\<0.001). Interaction: interval and subscales (p\<0.001).||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. Subscales include: ease of communication, reverberation, effectiveness in background noise, and reverberation. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction from the preoperative interval (alternative treatments) and over time with the cochlear implant.||||<0.001
92267104|NCT02203305|184435437|SUPERIORITY||||||<|0.01||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p\<0.001) and subscales (p=0.010). Interaction: interval and subscales (p=0.001).||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. Subscales include: ease of communication, reverberation, effectiveness in background noise, and reverberation. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction from the preoperative interval (alternative treatments) and over time with the cochlear implant.||||<0.010
92303229|NCT00117325|184511178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.095||||0.138|TWO_SIDED|95.0|-0.22|0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for post-nasal drip||0.03|-0.22|0.138
92303230|NCT00117325|184511179|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.113||||0.087|TWO_SIDED|95.0|-0.24|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for Rhinorrhea||0.02|-0.24|0.087
92303231|NCT00117325|184511179|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.164||||0.015|TWO_SIDED|95.0|-0.3|-0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for nasal congestion||-0.03|-0.30|0.015
92303232|NCT00117325|184511179|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.112||||0.106|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for post-nasal drip||0.02|-0.25|0.106
92303233|NCT00117325|184511180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.132||||0.048|TWO_SIDED|95.0|-0.26|0.0|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rhinorrhea||-0.00|-0.26|0.048
92187592|NCT00912964|184273717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.005|TWO_SIDED|95.0|-0.74|-0.06||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.06|-0.74|0.005
92303234|NCT00117325|184511180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.124||||0.076|TWO_SIDED|95.0|-0.26|0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for Nasal congestion||0.01|-0.26|0.076
92303235|NCT00117325|184511180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.093||||0.164|TWO_SIDED|95.0|-0.22|0.04|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg for post-nasal drip||0.04|-0.22|0.164
92303236|NCT00117325|184511181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.096||||0.136|TWO_SIDED|95.0|-0.22|0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for Rhinorrhea||0.03|-0.22|0.136
92303237|NCT00117325|184511181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.111||||0.1||95.0|-0.24|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for nasal congestion||0.02|-0.24|0.100
92187593|NCT00912964|184273717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42||||0.001|TWO_SIDED|95.0|-0.76|-0.08||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.08|-0.76|0.001
92303238|NCT00117325|184511181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.111||||0.1|TWO_SIDED|95.0|-0.24|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for post-nasal drip||0.02|-0.24|0.100
92303239|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45||||0.011|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 1||-0.10|-0.80|0.011
92303240|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.325||||0.089|TWO_SIDED|95.0|-0.7|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 2||0.05|-0.70|0.089
92303241|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.393||||0.052|TWO_SIDED|95.0|-0.79|0.0|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 3||0.00|-0.79|0.052
92303242|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.262||||0.187|TWO_SIDED|95.0|-0.65|0.13|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 4||0.13|-0.65|0.187
92303243|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.298||||0.164|TWO_SIDED|95.0|-0.72|0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 5||0.12|-0.72|0.164
92303244|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.573||||0.008|TWO_SIDED|95.0|-1.0|-0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 6||-0.15|-1.00|0.008
92303245|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.376||||0.082|TWO_SIDED|95.0|-0.8|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 7||0.05|-0.80|0.082
92303246|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.231||||0.296|TWO_SIDED|95.0|-0.67|0.2|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 8||0.20|-0.67|0.296
92303247|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.191||||0.383|TWO_SIDED|95.0|-0.62|0.24|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 9||0.24|-0.62|0.383
92303248|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.464||||0.048|TWO_SIDED|95.0|-0.92|0.0|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 10||-0.00|-0.92|0.048
92303249|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.172||||0.469|TWO_SIDED|95.0|-0.64|0.29|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 11||0.29|-0.64|0.469
92303250|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.151|TWO_SIDED|95.0|-0.8|0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 12||0.12|-0.80|0.151
92303251|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.344||||0.145|TWO_SIDED|95.0|-0.81|0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 13||0.12|-0.81|0.145
92303252|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.235||||0.297|TWO_SIDED|95.0|-0.68|0.21|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 14||0.21|-0.68|0.297
92303253|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.38||||0.094|TWO_SIDED|95.0|-0.82|0.07|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 15||0.07|-0.82|0.094
92303254|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.43||||0.064|TWO_SIDED|95.0|-0.89|0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 16||0.03|-0.89|0.064
92303255|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.563||||0.019|TWO_SIDED|95.0|-1.03|-0.09|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 17||-0.09|-1.03|0.019
92303256|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.457||||0.044|TWO_SIDED|95.0|-0.9|-0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 18||-0.01|-0.90|0.044
92303257|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.633||||0.007|TWO_SIDED|95.0|-1.09|-0.17|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 19||-0.17|-1.09|0.007
92303258|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.222||||0.348|TWO_SIDED|95.0|-0.69|0.24|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 20||0.24|-0.69|0.348
92303259|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.281||||0.243|TWO_SIDED|95.0|-0.76|0.19|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 21||0.19|-0.76|0.243
92303260|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.595||||0.014|TWO_SIDED|95.0|-1.07|-0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 22||-0.12|-1.07|0.014
92303261|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.474||||0.055|TWO_SIDED|95.0|-0.96|0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 23||0.01|-0.96|0.055
92303262|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.464||||0.062|TWO_SIDED|95.0|-0.95|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 24||0.02|-0.95|0.062
92303263|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.43||||0.079|TWO_SIDED|95.0|-0.91|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 25||0.05|-0.91|0.079
92303264|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.576||||0.019|TWO_SIDED|95.0|-1.06|-0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 26||-0.10|-1.06|0.019
92187594|NCT00912964|184273718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.6||||0.15|TWO_SIDED|95.0|-1.6|10.8||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||10.8|-1.6|0.15
92303265|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||0.056|TWO_SIDED|95.0|-0.97|0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 27||0.01|-0.97|0.056
92303266|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.659||||0.018|TWO_SIDED|95.0|-1.2|-0.11|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 28||-0.11|-1.20|0.018
92303267|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.222||||0.194|TWO_SIDED|95.0|-0.56|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 1||0.1|-0.56|0.194
92303268|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.263||||0.134|TWO_SIDED|95.0|-0.61|0.08|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 2||0.08|-0.61|0.134
92303269|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31||||0.091|TWO_SIDED|95.0|-0.67|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 3||0.05|-0.67|0.091
92303270|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.278||||0.131|TWO_SIDED|95.0|-0.64|0.08|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 4||0.08|-0.64|0.131
92303271|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.483|TWO_SIDED|95.0|-0.49|0.23|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 5||0.23|-0.49|0.483
92303272|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.301||||0.137|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 6||0.10|-0.70|0.137
92303273|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.297||||0.142|TWO_SIDED|95.0|-0.69|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 7||0.10|-0.69|0.142
92303274|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.245||||0.22|TWO_SIDED|95.0|-0.64|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 8||0.15|-0.64|0.220
92303275|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.373||||0.081|TWO_SIDED|95.0|-0.79|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 9||0.05|-0.79|0.081
92303276|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.453||||0.034|TWO_SIDED|95.0|-0.87|-0.04|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 10||-0.04|-0.87|0.034
92303277|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.314||||0.15|TWO_SIDED|95.0|-0.74|0.11|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 11||0.11|-0.74|0.150
92303278|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.333||||0.111|TWO_SIDED|95.0|-0.74|0.08|||ANCOVA|||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 12||0.08|-0.74|0.111
92303279|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.261|TWO_SIDED|95.0|-0.69|0.19|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 13||0.19|-0.69|0.261
92303280|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.342||||0.123|TWO_SIDED|95.0|-0.78|0.09|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 14||0.09|-0.78|0.123
92303281|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.415||||0.056|TWO_SIDED|95.0|-0.84|0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 15||0.01|-0.84|0.056
92303282|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.566||||0.011|TWO_SIDED|95.0|-1.0|-0.13|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 16||-0.13|-1.00|0.011
92303283|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.009|TWO_SIDED|95.0|-1.03|-0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 17||-0.15|-1.03|0.009
92303284|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.301||||0.175|TWO_SIDED|95.0|-0.74|0.13|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 18||0.13|-0.74|0.175
92303285|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.449||||0.039|TWO_SIDED|95.0|-0.87|-0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 19||-0.02|-0.87|0.039
92303286|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.315||||0.152|TWO_SIDED|95.0|-0.75|0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 20||0.12|-0.75|0.152
92303287|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.424||||0.063|TWO_SIDED|95.0|-0.87|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 21||0.02|-0.87|0.063
92303288|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.454||||0.044|TWO_SIDED|95.0|-0.9|-0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 22||-0.01|-0.90|0.044
92303289|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.312||||0.179|TWO_SIDED|95.0|-0.77|0.14|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 23||0.14|-0.77|0.179
92303290|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.479||||0.034|TWO_SIDED|95.0|-0.92|-0.04|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 24||-0.04|-0.92|0.034
92303291|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.157||||0.505|TWO_SIDED|95.0|-0.62|0.31|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 25||0.31|-0.62|0.505
92303292|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.317||||0.186|TWO_SIDED|95.0|-0.79|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 26||0.15|-0.79|0.186
92303293|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.283||||0.234|TWO_SIDED|95.0|-0.75|0.18|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 27||0.18|-0.75|0.234
92303294|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.645||||0.017|TWO_SIDED|95.0|-1.17|-0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 28||-0.12|-1.17|0.017
92303295|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32||||0.095|TWO_SIDED|95.0|-0.7|0.06|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 1||0.06|-0.70|0.095
92303296|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.231||||0.236|TWO_SIDED|95.0|-0.61|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 2||0.15|-0.61|0.236
92187595|NCT00912964|184273718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|12.4|||<|0.001|TWO_SIDED|95.0|6.3|18.6||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||18.6|6.3|<0.001
92303297|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.255||||0.205|TWO_SIDED|95.0|-0.65|0.14|||ANCOVA|||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 3||0.14|-0.65|0.205
92303298|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.343||||0.084|TWO_SIDED|95.0|-0.73|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 4||0.05|-0.73|0.084
92303299|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.146||||0.475|TWO_SIDED|95.0|-0.55|0.26|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 5||0.26|-0.55|0.475
92303300|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.296||||0.178|TWO_SIDED|95.0|-0.73|0.14|||ANCOVA|||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 6||0.14|-0.73|0.178
92303301|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.406||||0.071|TWO_SIDED|95.0|-0.85|0.04|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 7||0.04|-0.85|0.071
92303302|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.111||||0.621|TWO_SIDED|95.0|-0.55|0.33|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 8||0.33|-0.55|0.621
92303303|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.206||||0.372|TWO_SIDED|95.0|-0.66|0.25|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 9||0.25|-0.66|0.372
92303304|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.452||||0.046|TWO_SIDED|95.0|-0.9|-0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 10||-0.01|-0.90|0.046
92303305|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.302||||0.183|TWO_SIDED|95.0|-0.75|0.14|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 11||0.14|-0.75|0.183
92303306|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.226||||0.32|TWO_SIDED|95.0|-0.67|0.22|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 12||0.22|-0.67|0.320
92303307|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.188||||0.431|TWO_SIDED|95.0|-0.66|0.28|||ANCOVA|||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 13||0.28|-0.66|0.431
92303308|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.299||||0.191|TWO_SIDED|95.0|-0.75|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 14||0.15|-0.75|0.191
92303309|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.475||||0.043|TWO_SIDED|95.0|-0.94|-0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 15||-0.02|-0.94|0.043
92303310|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.619||||0.009|TWO_SIDED|95.0|-1.08|-0.16|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 16||-0.16|-1.08|0.009
92303311|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.495||||0.04|TWO_SIDED|95.0|-0.97|-0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 17||-0.02|-0.97|0.040
92303312|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.262||||0.249|TWO_SIDED|95.0|-0.71|0.18|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 18||0.18|-0.71|0.249
92303313|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.536||||0.023|TWO_SIDED|95.0|-1.0|-0.07|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 19||-0.07|-1.00|0.023
92303314|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24||||0.321|TWO_SIDED|95.0|-0.71|0.23|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 20||0.23|-0.71|0.321
92303315|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.568||||0.019|TWO_SIDED|95.0|-1.04|-0.09|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 21||-0.09|-1.04|0.019
92187596|NCT00912964|184273719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47||||0.007|TWO_SIDED|95.0|-0.82|-0.13||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.13|-0.82|0.007
92187597|NCT00912964|184273719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42||||0.015|TWO_SIDED|95.0|-0.76|-0.08||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.08|-0.76|0.015
92187598|NCT00912964|184273720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34||||0.039|TWO_SIDED|95.0|-0.68|-0.01||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.01|-0.68|0.039
92187599|NCT00912964|184273720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|||<|0.001|TWO_SIDED|95.0|-0.85|-0.17||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.17|-0.85|<0.001
92303316|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.419||||0.092|TWO_SIDED|95.0|-0.91|0.07|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 22||0.07|-0.91|0.092
92303317|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.206||||0.404|TWO_SIDED|95.0|-0.69|0.28|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 23||0.28|-0.69|0.404
92303318|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.546||||0.027|TWO_SIDED|95.0|-1.03|-0.06|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 24||-0.06|-1.03|0.027
92303319|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.227||||0.357|TWO_SIDED|95.0|-0.71|0.26|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 25||0.26|-0.71|0.357
92303320|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.403||||0.114|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 26||0.10|-0.90|0.114
92303321|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.307||||0.228|TWO_SIDED|95.0|-0.81|0.19|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 27||0.19|-0.81|0.228
92303322|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.725||||0.012|TWO_SIDED|95.0|-1.29|-0.16|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 28||-0.16|-1.29|0.012
92303323|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.093||||0.643|TWO_SIDED|95.0|-0.49|0.3|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 1||0.30|-0.49|0.643
92303324|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.279||||0.15|TWO_SIDED|95.0|-0.66|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 2||0.10|-0.66|0.150
92303325|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.291||||0.162|TWO_SIDED|95.0|-0.7|0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 3||0.12|-0.70|0.162
92303326|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.244||||0.242|TWO_SIDED|95.0|-0.65|0.17|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 4||0.17|-0.65|0.242
92303327|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.223||||0.278|TWO_SIDED|95.0|-0.63|0.18|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 5||0.18|-0.63|0.278
92303328|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.282||||0.2|TWO_SIDED|95.0|-0.71|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 6||0.15|-0.71|0.200
92187600|NCT00912964|184273721|SUPERIORITY_OR_OTHER_LEGACY||LS Difference|-0.18||||0.3|TWO_SIDED|95.0|-0.53|0.16||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||0.16|-0.53|0.30
92187601|NCT00912964|184273721|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.37||||0.035|TWO_SIDED|95.0|-0.71|-0.03||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.03|-0.71|0.035
92187602|NCT00912964|184273722|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.07||||0.083|TWO_SIDED|95.0|-0.15|0.01||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||0.01|-0.15|0.083
92303329|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.164||||0.456|TWO_SIDED|95.0|-0.6|0.27|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 7||0.27|-0.60|0.456
92303330|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.385||||0.076|TWO_SIDED|95.0|-0.81|0.04|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 8||0.04|-0.81|0.076
92303331|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.396||||0.084|TWO_SIDED|95.0|-0.85|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 9||0.05|-0.85|0.084
92303332|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.481||||0.04|TWO_SIDED|95.0|-0.94|-0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 10||-0.02|-0.94|0.040
92303333|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.405||||0.09|TWO_SIDED|95.0|-0.87|0.06|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 11||0.06|-0.87|0.090
92303334|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.432||||0.06|TWO_SIDED|95.0|-0.88|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 12||0.02|-0.88|0.060
92303335|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.277||||0.252|TWO_SIDED|95.0|-0.75|0.2|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 13||0.20|-0.75|0.252
92303336|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.229|TWO_SIDED|95.0|-0.79|0.19|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 14||0.19|-0.79|0.229
92303337|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.373||||0.109|TWO_SIDED|95.0|-0.83|0.08|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 15||0.08|-0.83|0.109
92303338|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.484|||||TWO_SIDED|95.0|-0.96|-0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 16||-0.01|-0.96|
92303339|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.003|TWO_SIDED|95.0|-1.17|-0.23|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 17||-0.23|-1.17|0.003
92303340|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.326||||0.182|TWO_SIDED|95.0|-0.81|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 18||0.15|-0.81|0.182
92303341|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.299||||0.194|TWO_SIDED|95.0|-0.75|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 19||0.15|-0.75|0.194
92303342|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.348||||0.129|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 20||0.10|-0.80|0.129
92303343|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.292||||0.232|TWO_SIDED|95.0|-0.77|0.19|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 21||0.19|-0.77|0.232
92187603|NCT00912964|184273722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|||<|0.001|TWO_SIDED|95.0|-0.22|-0.06||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.06|-0.22|<0.001
92187604|NCT00912964|184273723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36||||0.004|TWO_SIDED|95.0|-0.67|-0.05||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.05|-0.67|0.004
92187605|NCT00912964|184273723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39||||0.002|TWO_SIDED|95.0|-0.69|-0.08||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.08|-0.69|0.002
92187606|NCT00912964|184273724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33||||0.13|TWO_SIDED|95.0|-0.76|0.1||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||0.10|-0.76|0.13
92303344|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.499||||0.042|TWO_SIDED|95.0|-0.98|-0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 22||-0.02|-0.98|0.042
92303345|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.356||||0.15|TWO_SIDED|95.0|-0.84|0.13|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 23||0.13|-0.84|0.150
92303346|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.398||||0.09|TWO_SIDED|95.0|-0.86|0.06|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 24||0.06|-0.86|0.090
92303347|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.028||||0.909|TWO_SIDED|95.0|-0.52|0.46|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 25||0.46|-0.52|0.909
92303348|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.233||||0.354|TWO_SIDED|95.0|-0.73|0.26|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 26||0.26|-0.73|0.354
92303349|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29||||0.245|TWO_SIDED|95.0|-0.78|0.2|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 27||0.20|-0.78|0.245
92303350|NCT00117325|184511182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.601||||0.038|TWO_SIDED|95.0|-1.17|-0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 28||-0.03|-1.17|0.038
92303351|NCT00759187|184511183|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Two way Anova general linear model (subject and treatment as factors)|ANOVA|||||||<0.05
92303352|NCT00302081|184511188|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority for SVR was concluded if the lower limit of the one-sided 95% CI was greater than -10%. Otherwise, noninferiority was concluded for both dose and treatment duration comparisons if the lower limits of the two-sided 95% CIs were greater than -10%.|Risk Difference (RD)|-0.02||||0.041||95.0|-0.1|1.0||The Hochberg procedure was used to adjust for the multiple comparisons (\[PEG2b 1.0/R(24 weeks)\] - \[PEG2b 1.5/R(24 weeks\]) and (\[PEG2b 1.5/R(16 weeks)\]-\[PEG2b 1.5/R(24 weeks)\]).|z-test (non-inferiority margin=-0.1)|SVR rates are 0.665 (153/230 subjects) in the 1.5-dose group and 0.643 (144/224 subjects) in the 1.0-dose group, for a risk difference of -0.02.||This is an evaluation of the effect of the peginterferon alfa-2b dose (1.0 vs 1.5 micrograms/kg/week) on the primary outcome measure.||1|-0.10|0.041
92303353|NCT00302081|184511188|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority for SVR was concluded if the lower limit of the one-sided 95% CI was greater than -10%. Otherwise, noninferiority was concluded for both dose and treatment duration comparisons if the lower limits of the two-sided 95% CIs were greater than -10%.|Risk Difference (RD)|-0.1||||0.495||95.0|-0.17|1.0||The Hochberg procedure was used to adjust for the multiple comparisons (\[PEG2b 1.0/R(24 weeks)\] - \[PEG2b 1.5/R(24 weeks\]) and (\[PEG2b 1.5/R(16 weeks\]-\[PEG2b 1.5/R(24 weeks\]).|z-test (non-inferiority margin=-0.1)|SVR rates are 0.665 (153/230 subjects) in the 24-week group and 0.566 (129/228 subjects) in the 16-week group, for a risk difference of -0.10.||This is an evaluation of the effect of treatment duration (24 weeks vs 16 weeks) on the primary outcome measure.||1|-0.17|0.495
92303354|NCT02701413|184511190|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92303355|NCT02701413|184511194|OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
92303356|NCT00535587|184511199|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.05|STANDARD_DEVIATION|2.94|<|0.02|TWO_SIDED|95.0|||||ANCOVA|||||||<0.02
92303357|NCT04795908|184511208|NON_INFERIORITY|looking for statistical significant differences between groups||||||0.1997|||||||ANOVA|||||||0.1997
92303358|NCT04795908|184511209|NON_INFERIORITY|looking for statistical significant differences between groups||||||0.076|||||||ANOVA|||||||0.076
92303359|NCT04795908|184511210|NON_INFERIORITY|looking for statistically significant differences between groups||||||0.6228|||||||ANOVA|||||||0.6228
92303360|NCT04795908|184511211|NON_INFERIORITY|looking for statistically significant differences between groups||||||0.8984|||||||ANOVA|||||||0.8984
92303361|NCT04795908|184511212|NON_INFERIORITY|looking for statistically significant differences between groups||||||0.8188|||||||ANOVA|||||||0.8188
92303362|NCT04795908|184511213|NON_INFERIORITY|Looking for statistically significant differences between groups||||||0.0288|||||||ANOVA|||||||0.0288
92303363|NCT04795908|184511214|NON_INFERIORITY|looking for statistically significant differences between groups||||||0.0524|||||||ANOVA|||||||0.0524
92303364|NCT00311311|184511218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036||||0.0445|TWO_SIDED|95.0|0.001|0.07||P-value and 95% CI for least square (LS) mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|12 months post-transplant||0.070|0.001|0.0445
92303365|NCT00311311|184511218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034||||0.0288|TWO_SIDED|95.0|0.004|0.064||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|18 months post-transplant||0.064|0.004|0.0288
92303366|NCT00311311|184511218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.0269|TWO_SIDED|95.0|0.004|0.06||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|24 months post-transplant||0.060|0.004|0.0269
92303367|NCT00311311|184511218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028||||0.097|TWO_SIDED|95.0|-0.005|0.06||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|36 months post-transplant||0.060|-0.005|0.0970
92303368|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.74|||<|0.0001|TWO_SIDED|95.0|0.39|1.09||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|TC 12 Months Post-transplant||1.09|0.39|<.0001
92303369|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.0022|TWO_SIDED|95.0|0.15|0.67||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|LDL 12 Months Post-transplant||0.67|0.15|0.0022
92303370|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.1612|TWO_SIDED|95.0|-0.03|0.19||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|HDL 12 Months Post-transplant||0.19|-0.03|0.1612
92303371|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56||||0.0005|TWO_SIDED|95.0|0.26|0.86||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|Tg 12 Months Post-transplant||0.86|0.26|0.0005
92303372|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.0006|TWO_SIDED|95.0|0.3|1.02||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|TC 18 Months Post-transplant||1.02|0.30|0.0006
92303373|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.0126|TWO_SIDED|95.0|0.08|0.61||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|LDL 18 Months Post-transplant||0.61|0.08|0.0126
92303374|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.238|TWO_SIDED|95.0|-0.04|0.17||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|HDL 18 Months Post-transplant||0.17|-0.04|0.2380
92303375|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.0003|TWO_SIDED|95.0|0.27|0.88||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|Tg 18 Months Post-transplant||0.88|0.27|0.0003
92303376|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.0065|TWO_SIDED|95.0|0.17|1.0||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|TC 24 Months Post-transplant||1.00|0.17|0.0065
92303377|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.0845|TWO_SIDED|95.0|-0.04|0.6||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|LDL 24 Months Post-transplant||0.60|-0.04|0.0845
92187607|NCT00912964|184273724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59||||0.007|TWO_SIDED|95.0|-1.01|-0.16||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.16|-1.01|0.007
92187608|NCT03905512|184273831|SUPERIORITY|Statistical significance was tested at a level of 0.05.||||||0.181|||||||Cochran-Mantel-Haenszel|||||||0.181
92187609|NCT03293238|184273842|SUPERIORITY|||||||0.527|||||||ANOVA|||||||0.527
92187610|NCT03293238|184273843|SUPERIORITY|||||||0.749|||||||ANOVA|||||||0.749
92187611|NCT01294644|184273880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6|||<|0.001|TWO_SIDED|95.0|1.52|4.43|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|The odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 1 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||4.43|1.52|<0.001
92187612|NCT01294644|184273880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.13|||<|0.001|TWO_SIDED|95.0|1.83|5.36|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|The odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 2 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||5.36|1.83|<0.001
92187613|NCT01294644|184273881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.71||||0.02|TWO_SIDED|95.0|1.48|92.67|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|Odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|||92.67|1.48|0.020
92187614|NCT01294644|184273881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.53||||0.021|TWO_SIDED|95.0|1.46|91.24|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|Odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|||91.24|1.46|0.021
92303378|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.3742|TWO_SIDED|95.0|-0.06|0.16||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|HDL 24 Months Post-transplant||0.16|-0.06|0.3742
92303379|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.0006|TWO_SIDED|95.0|0.27|0.92||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|Tg 24 Months Post-transplant||0.92|0.27|0.0006
92303380|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.1488|TWO_SIDED|95.0|-0.16|1.03||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|TC 36 Months Post-transplant||1.03|-0.16|0.1488
92303381|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.546|TWO_SIDED|95.0|-0.33|0.62||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|LDL 36 Months Post-transplant||0.62|-0.33|0.5460
92303382|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.7511|TWO_SIDED|95.0|-0.12|0.16||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|HDL 36 Months Post-transplant||0.16|-0.12|0.7511
92303383|NCT00311311|184511221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.0048|TWO_SIDED|95.0|0.2|1.06||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|Tg 36 Months Post-transplant||1.06|0.20|0.0048
92303384|NCT00311311|184511222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.78||||0.1757|TWO_SIDED|95.0|-0.36|1.91||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||1.91|-0.36|0.1757
92303385|NCT00311311|184511222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94||||0.0509|TWO_SIDED|95.0|0.0|1.89||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||1.89|-0.00|0.0509
92303386|NCT00311311|184511222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.11||||0.0683|TWO_SIDED|95.0|-0.09|2.31||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||2.31|-0.09|0.0683
92187615|NCT01294644|184273882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.37|||<|0.001|TWO_SIDED|95.0|3.06|9.44|||Regression, Logistic|Logistic regression analysis with treatment and Baseline SSRS value in the model.|Odds ratio was based on a logistic regression model adjusted for Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 1 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||9.44|3.06|<0.001
92187616|NCT01294644|184273882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.62|||<|0.001|TWO_SIDED|95.0|2.65|8.04|||Regression, Logistic|Logistic regression analysis with treatment and Baseline SSRS value in the model|Odds ratio was based on a logistic regression model adjusted for Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 2 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||8.04|2.65|<0.001
92187617|NCT01294644|184273883|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35|||<|0.001|TWO_SIDED|95.0|-0.51|-0.19|||Mixed Models Repeated Measures|The model included the fixed effect factors visit and treatment, the visit\*treatment interaction, and the Baseline CR-SMFRS values as covariate.||||-0.19|-0.51|<0.001
92187618|NCT01294644|184273883|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-0.56|-0.24|||Mixed Models Repeated Measures|The model included the fixed effect factors visit and treatment, the visit\*treatment interaction, and the baseline CR-SMFRS values as covariate.||||-0.24|-0.56|<0.001
92187619|NCT01294644|184273884|SUPERIORITY_OR_OTHER||LS Mean Difference|1.36|||<|0.001|TWO_SIDED|95.0|0.97|1.75|||ANCOVA|The model includes the fixed effect factor treatment and the Baseline values as covariate.||||1.75|0.97|<0.001
92187620|NCT01294644|184273884|SUPERIORITY_OR_OTHER||LS Mean Difference|1.26|||<|0.001|TWO_SIDED|95.0|0.87|1.65|||ANCOVA|The model includes the fixed effect factor treatment and the Baseline values as covariate.||||1.65|0.87|<0.001
92187621|NCT01294644|184273885|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.09|TWO_SIDED|95.0|-1.72|0.13|||Mixed Models Repeated Measures|The model includes the fixed effect factors visit and treatment, the visit\*treatment interaction, and the Baseline values as covariate.||||0.13|-1.72|0.090
92187622|NCT01294644|184273885|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.97||||0.04|TWO_SIDED|95.0|-1.89|-0.05|||Mixed Models Repeated Measures|The model includes the fixed effect factors visit and treatment, the visit\*treatment interaction, and the Baseline values as covariate.||||-0.05|-1.89|0.040
92187623|NCT01294644|184273886|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Pearson's chi-square test|||||||0.009
92303387|NCT00311311|184511223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-37.47||||0.2741|TWO_SIDED|95.0|-105.79|30.85||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||30.85|-105.79|0.2741
92303388|NCT00311311|184511223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.97||||0.4865|TWO_SIDED|95.0|-77.48|37.53||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||37.53|-77.48|0.4865
92303389|NCT00311311|184511223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.48||||0.9339|TWO_SIDED|95.0|-62.54|57.59||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||57.59|-62.54|0.9339
92303390|NCT00311311|184511224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003||||0.4892|TWO_SIDED|95.0|-0.005|0.011||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||0.011|-0.005|0.4892
92303391|NCT00311311|184511224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006||||0.0514|TWO_SIDED|95.0|0.0|0.012||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|LS mean difference||24 months post-transplant||0.012|-0.000|0.0514
92187624|NCT01294644|184273886|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Pearson's chi-square test|||||||0.001
92187625|NCT03444298|184273899|SUPERIORITY|||||||0.67||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||0.67
92303392|NCT00311311|184511224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.009||||0.118|TWO_SIDED|95.0|-0.002|0.02||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||0.020|-0.002|0.1180
92303393|NCT00311311|184511225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56||||0.0016|TWO_SIDED|95.0|2.2|8.93||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||8.93|2.20|0.0016
92303394|NCT00311311|184511225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.91||||0.0091|TWO_SIDED|95.0|1.01|6.8||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||6.80|1.01|0.0091
92303395|NCT00311311|184511225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.25||||0.2468|TWO_SIDED|95.0|-1.6|6.1||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||6.10|-1.60|0.2468
92303396|NCT00311311|184511226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.95||||0.5282|TWO_SIDED|95.0|-2.05|3.94||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||3.94|-2.05|0.5282
92303397|NCT00311311|184511226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27||||0.5057|TWO_SIDED|95.0|-2.53|5.07||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||5.07|-2.53|0.5057
92187626|NCT03444298|184273900|SUPERIORITY|||||||0.43||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.43
92187627|NCT03444298|184273901|SUPERIORITY|||||||0.27||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||0.27
92187628|NCT03444298|184273902|SUPERIORITY|||||||0.92||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||0.92
92303398|NCT00311311|184511226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59||||0.5701|TWO_SIDED|95.0|-4.0|7.18||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||7.18|-4.00|0.5701
92303399|NCT00311311|184511228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.028|TWO_SIDED|95.0|0.03|0.48||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|||12 months post-transplant||0.48|0.03|0.0280
92303400|NCT00311311|184511228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.019|TWO_SIDED|95.0|0.04|0.48||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|||24 months post-transplant||0.48|0.04|0.0190
92303401|NCT00311311|184511228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.1182|TWO_SIDED|95.0|-0.07|0.6||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|||36 months post-transplant||0.60|-0.07|0.1182
92303402|NCT00311311|184511229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.7361|TWO_SIDED|95.0|-2.09|1.49||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||1.49|-2.09|0.7361
92303403|NCT00311311|184511229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.5549|TWO_SIDED|95.0|-2.32|1.26||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||1.26|-2.32|0.5549
92303404|NCT00311311|184511229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76||||0.6058|TWO_SIDED|95.0|-3.69|2.17||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||2.17|-3.69|0.6058
92187629|NCT03444298|184273903|SUPERIORITY|||||||0.99||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.99
92187630|NCT03444298|184273903|SUPERIORITY|||||||0.04||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.04
92187631|NCT03444298|184273904|SUPERIORITY|||||||0.98||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.98
92187632|NCT03444298|184273904|SUPERIORITY|||||||0.02||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.02
92187633|NCT03444298|184273905|SUPERIORITY|||||||0.84||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.84
92187634|NCT03444298|184273906|SUPERIORITY|||||||0.59||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.59
92303405|NCT00311311|184511230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.5902|TWO_SIDED|95.0|-1.63|2.84||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||2.84|-1.63|0.5902
92303406|NCT00311311|184511230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.7536|TWO_SIDED|95.0|-2.68|1.95||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||1.95|-2.68|0.7536
92303407|NCT00311311|184511230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.33||||0.4066|TWO_SIDED|95.0|-4.53|1.86||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||1.86|-4.53|0.4066
92303408|NCT00311311|184511231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.47||||0.3678|TWO_SIDED|95.0|-11.46|30.4||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||30.40|-11.46|0.3678
92303409|NCT00311311|184511231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.72||||0.2179|TWO_SIDED|95.0|-6.53|27.97||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||27.97|-6.53|0.2179
92303410|NCT00311311|184511231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.96||||0.3663|TWO_SIDED|95.0|-14.39|38.32||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||38.32|-14.39|0.3663
92187635|NCT03444298|184273907|SUPERIORITY|||||||0.83||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.83
92187636|NCT03444298|184273908|SUPERIORITY|||||||0.51||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.51
92303411|NCT00311311|184511232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.041|TWO_SIDED|95.0|0.0|0.8||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||0.8|0.0|0.0410
92303412|NCT00311311|184511232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.0275|TWO_SIDED|95.0|0.0|0.6||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||0.6|0.0|0.0275
92303413|NCT00311311|184511232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.1841|TWO_SIDED|95.0|-0.1|0.6||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||0.6|-0.1|0.1841
92303414|NCT00311311|184511233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.3||||0.0797|TWO_SIDED|95.0|-108.9|6.3||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|LS mean difference||12 months post-transplant||6.3|-108.9|0.0797
92303415|NCT00311311|184511233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.3||||0.2341|TWO_SIDED|95.0|-88.7|22.2||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|LS mean difference||24 months post-transplant||22.2|-88.7|0.2341
92303416|NCT00311311|184511233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.2||||0.6854|TWO_SIDED|95.0|-90.3|59.8||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||59.8|-90.3|0.6854
92303417|NCT00311311|184511234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-72.8||||0.0002|TWO_SIDED|95.0|-108.6|-36.9||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||-36.9|-108.6|0.0002
92303418|NCT00311311|184511234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-67.6||||0.0017|TWO_SIDED|95.0|-108.5|-26.6||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||-26.6|-108.5|0.0017
92187637|NCT03444298|184273909|SUPERIORITY|||||||0.48||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||0.48
92187638|NCT03444298|184273910|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||<0.01
92187639|NCT03444298|184273911|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||<0.0001
92187640|NCT02158806|184273919|SUPERIORITY|Participants analysed in the groups to which they were randomised (intention to treat analysis).|Cox Proportional Hazard|0.85|STANDARD_ERROR_OF_MEAN|0.146||0.246|TWO_SIDED|95.0|0.64|1.13|||Log Rank||Placebo group = reference group|Placebo group = reference group||1.13|0.64|0.246
92303419|NCT00311311|184511234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-62.3||||0.0293|TWO_SIDED|95.0|-118.2|-6.5||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||-6.5|-118.2|0.0293
92303420|NCT00311311|184511236|SUPERIORITY_OR_OTHER|||||||0.2573|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Lipid-Lowering From Consent to Conversion||||0.2573
92303421|NCT00311311|184511236|SUPERIORITY_OR_OTHER|||||||0.6386|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Lipid-Lowering From Conversion to Month 12||||0.6386
92303422|NCT00311311|184511236|SUPERIORITY_OR_OTHER|||||||0.0709|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Lipid-Lowering From Month 12 to Month 24||||0.0709
92303423|NCT00311311|184511236|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Lipid-Lowering From Month 24 to Month 36||||1.0000
92303424|NCT00311311|184511237|SUPERIORITY_OR_OTHER|||||||0.4286|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Anti-hypertension From Consent to Conversion||||0.4286
92303425|NCT00311311|184511237|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Anti-hypertension From Conversion to Month 12||||1.0000
92303426|NCT00311311|184511237|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Anti-hypertension From Month 12 to Month 24||||1.0000
92303427|NCT00311311|184511237|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Anti-hypertension From Month 24 to Month 36||||1.0000
92303428|NCT00311311|184511238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.0||||0.2718|TWO_SIDED|95.0|-50.7|14.7||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|18 months post-transplant||14.7|-50.7|0.2718
92303429|NCT00311311|184511238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.7||||0.2729|TWO_SIDED|95.0|-41.6|12.1||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|24 months post-transplant||12.1|-41.6|0.2729
92187641|NCT02158806|184273920|SUPERIORITY|Participants analysed in the groups to which they were randomised (intention to treat analysis).|Risk Ratio (RR)|0.88||||0.073|TWO_SIDED|95.0|0.76|1.01|||Chi-squared|||||1.01|0.76|0.073
92187642|NCT02158806|184273921|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.25|TWO_SIDED|95.0|-1.9|0.5||Adjusted for baseline values.|ANCOVA|One participant in aspirin group had missing data for 24 week endpoint visit; we used the baseline value for imputation.|Placebo group = reference group.|||0.5|-1.9|0.25
92303430|NCT00311311|184511238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2||||0.2902|TWO_SIDED|95.0|-23.8|7.3||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|36 months post-transplant||7.3|-23.8|0.2902
92303431|NCT00975286|184511296|SUPERIORITY_OR_OTHER||[Least squares (LS) mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.074|<|0.0001|TWO_SIDED|95.0|-0.463|-0.171||Statistical testing: 2-sided at significance level=0.05. Analysis of covariance (ANCOVA) included treatment arms; randomization strata of Week -1 HbA1c (\<8.0,\>=8.0%) and TZD use (yes/no); country as fixed effects; baseline HbA1c as covariate.|ANCOVA|||To detect a difference of 0.5% (or 0.4%) in change from baseline to Week 24 in HbA1c between lixisenatide and placebo, 225 patients in each arm would provide a power of 98% (or 90%) assuming common standard deviation of 1.3% with a 2-sided test at 5% significance level.||-0.171|-0.463|<0.0001
92303432|NCT03512262|184511320|SUPERIORITY||Least Squares (LSM) Means Difference|7.3165|||<|0.0001|TWO_SIDED|99.0|5.0668|9.5663||Significance level of 0.01.|ANCOVA|Missing values were imputed using a multiple imputation method.||||9.5663|5.0668|<0.0001
92303433|NCT03512262|184511321|SUPERIORITY||LSM Difference|2.1209|||<|0.0001|TWO_SIDED|99.0|0.9948|3.2469||Significance level of 0.01.|ANCOVA|Missing values were imputed using a multiple imputation method.||||3.2469|0.9948|<0.0001
92303434|NCT03512262|184511322|SUPERIORITY||LSM Difference|2.8221|||<|0.0001|TWO_SIDED|99.0|1.3972|4.2471||Significance level of 0.01.|ANCOVA|Missing values were imputed using a multiple imputation method.||||4.2471|1.3972|<0.0001
92303435|NCT04221789|184511350|OTHER|differences in proportions|Risk Ratio (RR)|1.12||||0.049|TWO_SIDED|95.0|1.02|1.2||Statistical significance threshold p \<0.05|Chi-squared|||Ho no difference in treatment success between groups. The study was originally powered to detect a 15% difference between groups||1.20|1.02|0.049
92303436|NCT04221789|184511351|OTHER|comparison of proportions and relative risk with 95% CI|Risk Ratio (RR)|0.7|||<|0.043|TWO_SIDED|95.0|0.5|0.97||statistical significance if p value \<0.05|Chi-squared||intervention / control|Ho No difference between arms. 80% power to detect a 10% difference||0.97|0.50|<0.043
92303437|NCT04394351|184511354|SUPERIORITY||Odds Ratio (OR)|53.8|||<|0.0001|TWO_SIDED|95.0|7.37|392.82|||Cochran-Mantel-Haenszel|p-value was derived by Cochran-Mantel-Haenszel (CMH) test stratified by baseline weight group.|Odds ratio and corresponding Confidence Interval (CI) are based on CMH test stratified by baseline weight group.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||392.82|7.37|<0.0001
92303438|NCT04394351|184511354|SUPERIORITY||Odds Ratio (OR)|46.7|||<|0.0001|TWO_SIDED|95.0|5.47|399.54|||Cochran-Mantel-Haenszel|p-value was derived by CMH test stratified by baseline weight group.|Odds ratio and corresponding CI are based on CMH test stratified by baseline weight group.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||399.54|5.47|<0.0001
92303439|NCT04394351|184511355|SUPERIORITY||Odds Ratio (OR)|178.0|||<|0.0001|TWO_SIDED|95.0|18.84|1682.4|||Cochran-Mantel-Haenszel|p-value was derived by CMH test stratified by baseline weight group|Odds ratio and corresponding CI are based on CMH test stratified by baseline weight group|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||1682.4|18.84|<0.0001
92303440|NCT04394351|184511355|SUPERIORITY||Odds Ratio (OR)|55.3|||<|0.0001|TWO_SIDED|95.0|7.45|410.23||P-value is not adjusted for multiple comparisons|Cochran-Mantel-Haenszel|p-value was derived by CMH test stratified by baseline weight group|Odds ratio and corresponding CI are based on CMH test stratified by baseline weight group|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||410.23|7.45|<0.0001
92303441|NCT04394351|184511356|SUPERIORITY||LS mean difference|-107.07|||<|0.0001|TWO_SIDED|95.0|-139.249|-74.9|||ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-74.900|-139.249|<0.0001
92303442|NCT04394351|184511356|SUPERIORITY||LS mean difference|-98.92|||<|0.0001|TWO_SIDED|95.0|-132.463|-65.37||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-65.370|-132.463|<0.0001
92303443|NCT04394351|184511357|SUPERIORITY||LS mean difference|-0.902|||<|0.0001|TWO_SIDED|95.0|-1.0325|-0.7714|||ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-0.7714|-1.0325|<0.0001
92303444|NCT04394351|184511357|SUPERIORITY||LS mean difference|-0.78|||<|0.0001|TWO_SIDED|95.0|-0.917|-0.644||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-0.6440|-0.9170|<0.0001
92303445|NCT04394351|184511358|SUPERIORITY||LS mean difference|-0.883|||<|0.0001|TWO_SIDED|95.0|-1.0095|-0.7568|||ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-0.7568|-1.0095|<0.0001
92303446|NCT04394351|184511358|SUPERIORITY||LS mean difference|-0.769|||<|0.0001|TWO_SIDED|95.0|-0.9013|-0.6362||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-0.6362|-0.9013|<0.0001
92303447|NCT04394351|184511359|SUPERIORITY||Hodges-Lehmann estimator|-2.22|||<|0.0001|TWO_SIDED|95.0|-2.44|-1.95|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-1.9500|-2.4400|<0.0001
92303448|NCT04394351|184511359|SUPERIORITY||Hodges-Lehmann estimator|-2.19|||<|0.0001|TWO_SIDED|95.0|-2.45|-1.82||P-value is not adjusted for multiple comparisons|Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-1.8200|-2.4500|<0.0001
92303449|NCT04394351|184511360|SUPERIORITY||Hodges-Lehmann estimator|-2.84|||<|0.0001|TWO_SIDED|95.0|-3.35|-1.96|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-1.9600|-3.3500|<0.0001
92303450|NCT04394351|184511360|SUPERIORITY||Hodges-Lehmann estimator|-2.7|||<|0.0001|TWO_SIDED|95.0|-3.31|-1.62||P-value is not adjusted for multiple comparisons|Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-1.6200|-3.3100|<0.0001
92303451|NCT04394351|184511361|SUPERIORITY||LS mean difference|-3.8|||<|0.0001|TWO_SIDED|95.0|-4.94|-2.63|||ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-2.63|-4.94|<0.0001
92303452|NCT04394351|184511361|SUPERIORITY||LS mean difference|-3.3|||<|0.0001|TWO_SIDED|95.0|-4.59|-2.1||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-2.10|-4.59|<0.0001
92303453|NCT04394351|184511362|SUPERIORITY||LS mean difference|-0.1||||0.1526|TWO_SIDED|95.0|-0.244|0.038|||ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||0.038|-0.244|0.1526
92303454|NCT04394351|184511362|SUPERIORITY||LS mean difference|0.0||||0.9533|TWO_SIDED|95.0|-0.155|0.146||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||0.146|-0.155|0.9533
92187643|NCT02158806|184273922|SUPERIORITY||Mean Difference (Net)|1.1||||0.714|TWO_SIDED|95.0|-5.0|7.2|||Regression, Linear|Adjusted for baseline values||Change in Physical Functioning||7.2|-5.0|0.714
92303455|NCT04394351|184511363|SUPERIORITY||LS mean difference|1.45||||0.1507|TWO_SIDED|95.0|-0.527|3.422||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||3.422|-0.527|0.1507
92303456|NCT04394351|184511363|SUPERIORITY||LS mean difference|0.0||||0.9965|TWO_SIDED|95.0|-2.107|2.117||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||2.117|-2.107|0.9965
92187644|NCT02158806|184273922|SUPERIORITY||Mean Difference (Net)|1.4||||0.768|TWO_SIDED|95.0|-8.0|10.8|||Regression, Linear|Adjusted for baseline values||Change in Role Physical||10.8|-8.0|0.768
92303457|NCT04394351|184511364|SUPERIORITY||LS mean difference|-0.05||||0.2064|TWO_SIDED|95.0|-0.139|0.03||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||0.030|-0.139|0.2064
92303458|NCT04394351|184511364|SUPERIORITY||LS mean difference|0.02||||0.6361|TWO_SIDED|95.0|-0.069|0.112||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||0.112|-0.069|0.6361
92303459|NCT04394351|184511365|SUPERIORITY||LS mean difference|0.13||||0.2086|TWO_SIDED|95.0|-0.072|0.33||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||0.330|-0.072|0.2086
92303460|NCT04394351|184511365|SUPERIORITY||LS mean difference|0.1||||0.2975|TWO_SIDED|95.0|-0.088|0.286||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||0.286|-0.088|0.2975
92303461|NCT04394351|184511366|SUPERIORITY||LS mean difference|-1.8||||0.2085|TWO_SIDED|95.0|-4.615|1.007||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||1.007|-4.615|0.2085
92303462|NCT04394351|184511366|SUPERIORITY||LS mean difference|-1.36||||0.3098|TWO_SIDED|95.0|-3.972|1.26||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||1.260|-3.972|0.3098
92187645|NCT02158806|184273922|SUPERIORITY||Mean Difference (Net)|2.3||||0.449|TWO_SIDED|95.0|-3.7|8.4|||Regression, Linear|Adjusted for baseline values||Change in Bodily Pain||8.4|-3.7|0.449
92303463|NCT04394351|184511367|SUPERIORITY||LS mean difference|0.07||||0.236|TWO_SIDED|95.0|-0.046|0.186||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||0.186|-0.046|0.2360
92303464|NCT04394351|184511367|SUPERIORITY||LS mean difference|0.07||||0.1939|TWO_SIDED|95.0|-0.037|0.181||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||0.181|-0.037|0.1939
92303465|NCT03653507|184511423|SUPERIORITY||Hazard Ratio (HR)|0.689||||0.0005|TWO_SIDED|95.0|0.552|0.86|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||0.860|0.552|0.0005
92303466|NCT03653507|184511424|SUPERIORITY||Hazard Ratio (HR)|0.763||||0.0047|TWO_SIDED|95.0|0.622|0.936|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||0.936|0.622|0.0047
92303467|NCT03653507|184511425|SUPERIORITY||Hazard Ratio (HR)|1.012||||0.4654|TWO_SIDED|95.0|0.772|1.328|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||1.328|0.772|0.4654
92303468|NCT03653507|184511426|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.4478|TWO_SIDED|95.0|0.673|1.577|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||1.577|0.673|0.4478
92303469|NCT03653507|184511427|SUPERIORITY||Hazard Ratio (HR)|0.869||||0.167|TWO_SIDED|95.0|0.655|1.153|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||1.153|0.655|0.1670
92303470|NCT03653507|184511428|SUPERIORITY|||||||0.2219||||||Based on 1-sided Cochran-Mantel-Haenszel (CMH) test. Stratification factors were Region, Number of Metastatic Sites and Prior Gastrectomy.|Cochran-Mantel-Haenszel|||||||0.2219
92303471|NCT03653507|184511429|SUPERIORITY||Hazard Ratio (HR)|0.781||||0.0826|TWO_SIDED|95.0|0.552|1.105|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||1.105|0.552|0.0826
92303472|NCT05205772|184511438|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92303473|NCT05205772|184511438|OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
92303474|NCT05205772|184511438|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92303475|NCT05205772|184511438|SUPERIORITY|||||||0.98|||||||ANOVA|||||||0.98
92303476|NCT05205772|184511438|SUPERIORITY|||||||0.41|||||||ANOVA|||||||0.41
92303477|NCT05205772|184511438|SUPERIORITY|||||||0.63|||||||ANOVA|||||||0.63
92303478|NCT05205772|184511439|OTHER|||||||0.38||||||Adjusted for age.|Regression, Linear|||||||0.38
92187646|NCT02158806|184273922|SUPERIORITY||Mean Difference (Net)|-0.3||||0.873|TWO_SIDED|95.0|-4.3|3.6|||Regression, Linear|Adjusted for baseline values||Change in General Health||3.6|-4.3|0.873
92187647|NCT02158806|184273922|SUPERIORITY||Mean Difference (Net)|4.2||||0.057|TWO_SIDED|95.0|-0.1|8.5|||Regression, Linear|Adjusted for baseline values||Change in Vitality||8.5|-0.1|0.057
92187648|NCT02158806|184273922|SUPERIORITY||Mean Difference (Net)|1.0||||0.756|TWO_SIDED|95.0|-5.1|7.0|||Regression, Linear|Adjusted for baseline values||Change in Social Functioning||7.0|-5.1|0.756
92187649|NCT02158806|184273922|SUPERIORITY||Mean Difference (Net)|3.7||||0.4|TWO_SIDED|95.0|-4.9|12.3|||Regression, Linear|Adjusted for baseline values||Change in Role Emotional||12.3|-4.9|0.400
92303479|NCT05205772|184511440|OTHER|||||||0.67||||||Adjusted for age.|Regression, Linear|||||||0.67
92303480|NCT05205772|184511441|OTHER|||||||0.156|||||||Regression, Linear|||||||0.156
92303481|NCT03188666|184511449|SUPERIORITY||Least Square Mean Difference|-24.6||||0.0741|TWO_SIDED|95.0|-51.8|2.5|||ANCOVA|||||2.5|-51.8|0.0741
92303482|NCT03188666|184511450|SUPERIORITY||Least Square Mean Difference|-24.9||||0.3726|TWO_SIDED|95.0|-80.8|30.9|||Mixed Model with Repeated Measure (MMRM)|||||30.9|-80.8|0.3726
92303483|NCT03188666|184511451|SUPERIORITY|||||||0.0039||||||Week 56 vs. Week 28|Wilcoxon signed rank test|||Compared number of new lesions per participant by CT at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0039
92303484|NCT03188666|184511452|SUPERIORITY||Least Square Mean Difference|-25.6||||0.0756|TWO_SIDED|95.0|-53.9|2.8|||ANCOVA|||||2.8|-53.9|0.0756
92303485|NCT03188666|184511453|SUPERIORITY||Least Square Mean Difference|-27.8||||0.3407|TWO_SIDED|95.0|-86.1|30.5|||Mixed Model with Repeated Measure (MMRM)|||||30.5|-86.1|0.3407
92303486|NCT03188666|184511454|SUPERIORITY||Least Square Mean Difference|-0.34||||0.2656|TWO_SIDED|95.0|-0.96|0.27|||ANCOVA|||||0.27|-0.96|0.2656
92187650|NCT02158806|184273922|SUPERIORITY||Mean Difference (Net)|-2.3||||0.236|TWO_SIDED|95.0|-6.2|1.5|||Regression, Linear|Adjusted for baseline values||Change in Mental Health||1.5|-6.2|0.236
92187651|NCT02158806|184273923|SUPERIORITY||Mean Difference (Net)|3.4||||0.156|TWO_SIDED|95.0|-1.3|8.0||Adjusted for baseline values|Regression, Linear|||||8.0|-1.3|0.156
92303487|NCT03188666|184511455|SUPERIORITY||Least Square Mean Difference|-0.36||||0.2651|TWO_SIDED|95.0|-1.01|0.29|||ANCOVA|||||0.29|-1.01|0.2651
92303488|NCT03188666|184511462|SUPERIORITY|||||||0.0039||||||Week 56 vs. Week 28|Wilcoxon signed rank test|||Compared number of new lesions per participant by PET at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0039
92303489|NCT03188666|184511463|SUPERIORITY|||||||0.0027||||||Week 56 vs. Week 28|McNemar|||Compared percent of participants with new lesions by CT at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0027
92303490|NCT03188666|184511464|SUPERIORITY|||||||0.0047||||||Week 56 vs. Week 28|McNemar|||Compared percent of participants with new lesions by PET at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0047
92303491|NCT03188666|184511467|SUPERIORITY|||||||0.3663||||||Period 2 vs. Period 1|Wilcoxon signed rank test|||||||0.3663
92303492|NCT03188666|184511468|SUPERIORITY|||||||0.001||||||Period 2 vs. Period 1|Wilcoxon signed rank test|||||||0.0010
92187652|NCT02158806|184273924|SUPERIORITY||Mean Difference (Net)|-1.5||||0.438|TWO_SIDED|95.0|-5.2|2.2|||Regression, Linear|Adjusted for baseline values||Change in social function||2.2|-5.2|0.438
92303493|NCT03188666|184511474|SUPERIORITY|||||||0.0039||||||Week 56 vs. Week 28|Wilcoxon signed rank test|||Compared total new lesion volume per participant by CT at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0039
92303494|NCT03188666|184511475|SUPERIORITY|||||||0.0273||||||Week 56 vs. Week 28|Wilcoxon signed rank test|||Compared total lesion activity per participant in new lesions by PET at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0273
92303495|NCT03188666|184511476|SUPERIORITY|||||||0.2123||||||Period 2 vs. Period 1|Wilcoxon signed rank test|||||||0.2123
92303496|NCT03188666|184511477|SUPERIORITY|||||||0.1528||||||Period 2 vs. Period 1|Wilcoxon signed rank test|||||||0.1528
92303497|NCT03696953|184511497|OTHER|t test comparing||||||0.05|||||||t-test, 2 sided|||||||0.05
92303498|NCT03696953|184511498|OTHER|||||||0.73|||||||t-test, 2 sided|||||||0.73
92187653|NCT02158806|184273924|SUPERIORITY||Mean Difference (Net)|-1.3||||0.408|TWO_SIDED|95.0|-4.5|1.9|||Regression, Linear|Adjusted for baseline values||Change in domestic activities||1.9|-4.5|0.408
92187654|NCT02158806|184273924|SUPERIORITY||Mean Difference (Net)|-1.3||||0.568|TWO_SIDED|95.0|-5.6|3.1|||Regression, Linear|Adjusted for baseline values||Change in cosmesis||3.1|-5.6|0.568
92303499|NCT03696953|184511498|OTHER|T test||||||0.05|||||||t-test, 2 sided|||||||0.05
92303500|NCT03696953|184511499|OTHER|T test||||||0.01|||||||t-test, 2 sided|||Comparison of 36 week AP-GI-SA Scores between probiotic and placebo groups at 36 weeks||||0.01
92303501|NCT03696953|184511500|OTHER|T test||||||0.05|||||||t-test, 2 sided|||||||0.05
92303502|NCT03696953|184511501|OTHER|T test||||||0.05|||||||t-test, 2 sided|||||||0.05
92303503|NCT01106014|184511545|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||<|0.0001|TWO_SIDED|99.0|0.46|0.78||one-sided p-value|Log Rank|||The primary analysis was performed on the Full Analysis Set by a one-sided unstratified log-rank test||0.78|0.46|<0.0001
92303504|NCT01106014|184511546|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|12.0||||0.0027|TWO_SIDED|99.0|1.0|24.0||One-sided p-value of the nonparametric ANCOVA, adjusted for 6-minute walk distance at baseline|ANCOVA||Point estimate and 2-sided 99% CI for location shift using the HodgesLehmann method|Non-parametric ANCOVA with 6MWD as covariate at baseline. Missing values were imputed based on the following imputation rules: 1) if patient was unable to walk at week 26, 0 meter was imputed, 2) if rule 1 did not apply, the second lowest observed 6MWD value (10 meters) at Week 26 was imputed. Missing values were imputed for 21.6% of the subjects.||24|1|0.0027
92303505|NCT01106014|184511547|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|It was assumed that the probabilities for absence of worsening in WHO FC at Week 26 were the same for both treatment groups|Odds Ratio, log|1.161||||0.2843|TWO_SIDED|99.0|0.811|1.664||Cochran-Mantel-Haenszel test stratified by WHO FC at baseline. For patients with missing NYHA/WHO FC at Week 26, the NYHA/WHO FC is considered as having worsened from baseline at Week 26. Missing values were imputed for 18.3% of subjects .|Cochran-Mantel-Haenszel|||||1.664|0.811|0.2843
92303506|NCT05071313|184511619|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after vaccination with fluzone, using a non-inferiority margin of 1.5 for the GMT ratio (Group 2/Group 1).|Geometric Mean Ratio|1.01|||||TWO_SIDED|95.0|0.89|1.14||||||A/Victoria||1.14|0.89|
92303507|NCT05071313|184511619|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after vaccination with fluzone, using a non-inferiority margin of 1.5 for the GMT ratio (Group 2/Group 1).|Geometric Mean Ratio|1.11|||||TWO_SIDED|95.0|0.97|1.28||||||A/Tasmania||1.28|0.97|
92303508|NCT05071313|184511619|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after vaccination with fluzone, using a non-inferiority margin of 1.5 for the GMT ratio (Group 2/Group 1).|Geometric Mean Ratio|0.91|||||TWO_SIDED|95.0|0.79|1.05||||||B/Washington||1.05|0.79|
92303509|NCT05071313|184511619|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after vaccination with fluzone, using a non-inferiority margin of 1.5 for the GMT ratio (Group 2/Group 1).|Geometric Mean Ratio|0.97||||||95.0|0.85|1.1||||||B/Phuket||1.10|0.85|
92303510|NCT03107026|184511670|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.187||0.1187|TWO_SIDED|95.0|-0.66|0.08|||Mixed Models Analysis|||||0.08|-0.66|0.1187
92303511|NCT03107026|184511670|SUPERIORITY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.192||0.0045|TWO_SIDED|95.0|-0.93|-0.17|||Mixed Models Analysis|||||-0.17|-0.93|0.0045
92303512|NCT03107026|184511671|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.162||0.0256|TWO_SIDED|95.0|-0.68|-0.04|||Mixed Models Analysis|||||-0.04|-0.68|0.0256
92187655|NCT02158806|184273924|SUPERIORITY||Mean Difference (Net)|-3.0||||0.257|TWO_SIDED|95.0|-8.1|2.2|||Regression, Linear|Adjusted for baseline values||Change in emotional status||2.2|-8.1|0.257
92187656|NCT02158806|184273924|SUPERIORITY||Mean Difference (Net)|-1.9||||0.273|TWO_SIDED|95.0|-5.2|1.5|||Regression, Linear|Adjusted for baseline values||||1.5|-5.2|0.273
92187657|NCT02158806|184273925|SUPERIORITY||Risk Ratio (RR)|1.01||||0.917|TWO_SIDED|95.0|0.87|1.17|||Chi-squared|||||1.17|0.87|0.917
92187658|NCT02158806|184273926|SUPERIORITY||Incidence Rate Ratio|1.1||||0.71|TWO_SIDED|95.0|0.7|1.7|||IRR test statistic|Incidence Rate Ratio (IRR) test statistic compared to probability of the same obtained from standard normal distribution tables.||||1.7|0.7|0.71
92187659|NCT01898299|184273928|SUPERIORITY||Cohen's d effectsize|0.48||||0.036|TWO_SIDED||||||ANCOVA|Control for Chlopromazine equivalents||||||0.036
92187660|NCT02340806|184273929|SUPERIORITY|||||||0.67|||||||Chi-squared, Corrected|||||||.67
92303513|NCT03107026|184511671|SUPERIORITY||Median Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.166||0.0025|TWO_SIDED|95.0|-0.83|-0.18|||Mixed Models Analysis|||||-0.18|-0.83|0.0025
92303514|NCT03107026|184511672|SUPERIORITY||Odds Ratio (OR)|1.16||||0.5342|TWO_SIDED|95.0|0.726|1.854|||Regression, Logistic|||||1.854|0.726|0.5342
92303515|NCT03107026|184511672|SUPERIORITY||Odds Ratio (OR)|1.179||||0.4905|TWO_SIDED|95.0|0.738|1.882|||Regression, Logistic|||||1.882|0.738|0.4905
92303516|NCT03107026|184511673|SUPERIORITY||Mean Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|0.946||0.0154|TWO_SIDED|95.0|-4.16|-0.44|||Mixed Models Analysis|||||-0.44|-4.16|0.0154
92187661|NCT02340806|184273930|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||.08
92303517|NCT03107026|184511673|SUPERIORITY||Mean Difference (Net)|-3.4|STANDARD_ERROR_OF_MEAN|0.969||0.0005|TWO_SIDED|95.0|-5.31|-1.5|||Mixed Models Analysis|||||-1.50|-5.31|0.0005
92303518|NCT00062010|184511684|SUPERIORITY_OR_OTHER_LEGACY||Overall Response Percentage|8.8|||||TWO_SIDED|90.0|2.4|21.3||||||The study was designed to have adequate (90%) power to distinguish a true response rate of 50% from a null rate of 35% assuming total accrual of 76 patients in two stages. The design mandated that at least 13 objective responses be observed among 34 patients in the first stage in order to continue to the second stage. These were not observed, so the study stopped after the first stage. 90% exact binomial confidence intervals are provided for the response rate.||21.3|2.4|
92187662|NCT02340806|184273931|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||||||.21
92303519|NCT04763564|184511689|SUPERIORITY||||||<|0.03||||||A priori threshold for significance was \< 0.05. Significance level liraglutide vs. placebo in percent reduction of bowel frequency at week 4 vs. baseline.|Mixed Models Analysis|||The 2 treatment modalities, Liraglutide and Placebo, were compared. A repeated-measures mixed model was fitted to the data, with treatment (liraglutide or placebo), period, and treatment sequence as fixed effects and the repeated measures within the subject as a random effect.||||<0.03
92303520|NCT04763564|184511692|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||The 2 treatment modalities, Liraglutide and Placebo, were compared. A repeated-measures mixed model was fitted to the data, with treatment (liraglutide or placebo), period, and treatment sequence as fixed effects and the repeated measures within the subject as a random effect.||||0.01
92187663|NCT02340806|184273932|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||.14
92187664|NCT02340806|184273933|SUPERIORITY|||||||0.66|||||||Kruskal-Wallis|||||||.66
92187665|NCT02340806|184273935|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||.92
92187666|NCT02340806|184273936|SUPERIORITY|||||||0.58|||||||Kruskal-Wallis|||||||.58
92187667|NCT02340806|184273937|SUPERIORITY|||||||0.67|||||||Chi-squared|||||||.67
92187668|NCT02340806|184273938|SUPERIORITY|||||||0.99|||||||Chi-squared|||||||.99
92187669|NCT02340806|184273939|SUPERIORITY|||||||0.37|||||||Kruskal-Wallis|||||||.37
92187670|NCT04520256|184273940|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92187671|NCT04520256|184273941|SUPERIORITY||Estimated Change|-0.27||||0.693|TWO_SIDED|95.0|-0.54|0.01|||Mixed Models Analysis|||||0.01|-.54|0.693
92187672|NCT04520256|184273941|SUPERIORITY||Estimated Change|0.09||||0.9|TWO_SIDED|95.0|0.01|0.18|||Mixed Models Analysis|||||0.18|0.01|0.900
92187673|NCT04520256|184273941|SUPERIORITY||Estimated Change|-0.03||||0.96|TWO_SIDED|95.0|-0.06|0.01|||Mixed Models Analysis|||||0.01|-0.06|0.960
92187674|NCT04520256|184273941|SUPERIORITY||Estimated Change|0.44||||0.113|TWO_SIDED|95.0|0.01|0.88|||Mixed Models Analysis|||||0.88|0.01|0.113
92187675|NCT04520256|184273941|SUPERIORITY||Estimated Change|0.92||||0.187|TWO_SIDED|95.0|0.01|1.84|||Mixed Models Analysis|||||1.84|0.01|0.187
92187676|NCT04520256|184273942|SUPERIORITY|||||||0.999|||||||Mixed Models Analysis|||||||0.999
92187677|NCT04520256|184273943|SUPERIORITY||Estimated Proportion|0.12||||0.999|TWO_SIDED|95.0|0.0|0.56|||Mixed Models Analysis|||||.56|0|.999
92187678|NCT04520256|184273943|SUPERIORITY||Estimated Proportion|0.15||||0.999|TWO_SIDED|95.0|0.0|0.68|||Mixed Models Analysis|||||.68|0|.999
92187679|NCT04520256|184273943|SUPERIORITY||Estimated Proportion|0.11||||0.999|TWO_SIDED|95.0|0.0|0.52|||Mixed Models Analysis|||||.52|0|.999
92187680|NCT04520256|184273943|SUPERIORITY||Estimated Proportion|0.11||||0.999|TWO_SIDED|95.0|0.0|0.5|||Mixed Models Analysis|||||.50|0|.999
92303521|NCT02766374|184511701|SUPERIORITY||||||>|0.1|||||||GEE regression|||||||>0.1
92303522|NCT00852969|184511702|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.69||||0.71|TWO_SIDED|95.0|-10.79|7.41|||t-test, 2 sided|||||7.41|-10.79|0.71
92303523|NCT00852969|184511703|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.48||||0.29|TWO_SIDED|95.0|-7.2|2.24|||t-test, 2 sided|||||2.24|-7.20|0.29
92303524|NCT00807248|184511719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.96||0.6405|TWO_SIDED|95.0|-2.34|1.44|||ANCOVA|||||1.44|-2.34|0.6405
92303525|NCT00807248|184511719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.96||0.6227|TWO_SIDED|95.0|-1.41|2.35|||ANCOVA|||||2.35|-1.41|0.6227
92303526|NCT00807248|184511720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.55|STANDARD_ERROR_OF_MEAN|1.24|<|0.0001|TWO_SIDED|95.0|-7.98|-3.11|||ANCOVA|||||-3.11|-7.98|<0.0001
92303527|NCT00807248|184511720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.09|STANDARD_ERROR_OF_MEAN|1.24|<|0.0001|TWO_SIDED|95.0|-7.53|-2.66|||ANCOVA|||||-2.66|-7.53|<0.0001
92303528|NCT00807248|184511720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|STANDARD_ERROR_OF_MEAN|1.24|<|0.0001|TWO_SIDED|95.0|-8.43|-3.56|||ANCOVA|||||-3.56|-8.43|<0.0001
92303529|NCT00807248|184511721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.98|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|95.0|-7.13|-2.84|||ANCOVA|||||-2.84|-7.13|<0.0001
92303530|NCT00807248|184511721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.46|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|95.0|-6.6|-2.32|||ANCOVA|||||-2.32|-6.60|<0.0001
92303531|NCT00807248|184511721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.27|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|95.0|-7.41|-3.13|||ANCOVA|||||-3.13|-7.41|<0.0001
92187681|NCT04520256|184273943|SUPERIORITY||Estimated Proportion|0.1||||0.999|TWO_SIDED|95.0|0.0|0.47|||Mixed Models Analysis|||||.47|0|.999
92187682|NCT02878590|184273944|SUPERIORITY|||||||0.0093|||||||t-test, 2 sided|||||||0.0093
92303532|NCT00807248|184511722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.09|STANDARD_ERROR_OF_MEAN|0.77|<|0.0001|TWO_SIDED|95.0|-4.59|-1.58|||ANCOVA|||||-1.58|-4.59|<0.0001
92303533|NCT00807248|184511722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.64|STANDARD_ERROR_OF_MEAN|0.77||0.0006|TWO_SIDED|95.0|-4.15|-1.14|||ANCOVA|||||-1.14|-4.15|0.0006
92303534|NCT00807248|184511722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.61|STANDARD_ERROR_OF_MEAN|0.77|<|0.0001|TWO_SIDED|95.0|-5.13|-2.1|||ANCOVA|||||-2.10|-5.13|<0.0001
92303535|NCT00807248|184511723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-1.85|-0.64|||ANCOVA|||||-0.64|-1.85|<0.0001
92303536|NCT00807248|184511723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11|STANDARD_ERROR_OF_MEAN|0.31||0.0004|TWO_SIDED|95.0|-1.72|-0.5|||ANCOVA|||||-0.50|-1.72|0.0004
92303537|NCT00807248|184511723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-1.87|-0.65|||ANCOVA|||||-0.65|-1.87|<0.0001
92303538|NCT00807248|184511724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|0.32||0.0007|TWO_SIDED|95.0|-1.72|-0.46|||ANCOVA|||||-0.46|-1.72|0.0007
92303539|NCT00807248|184511724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.33||0.0013|TWO_SIDED|95.0|-1.69|-0.41|||ANCOVA|||||-0.41|-1.69|0.0013
92303540|NCT00807248|184511724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-1.92|-0.66|||ANCOVA|||||-0.66|-1.92|<0.0001
92303541|NCT00807248|184511725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.31||0.0002|TWO_SIDED|95.0|-1.82|-0.58|||ANCOVA|||||-0.58|-1.82|0.0002
92303542|NCT00807248|184511725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.32||0.0006|TWO_SIDED|95.0|-1.72|-0.48|||ANCOVA|||||-0.48|-1.72|0.0006
92303543|NCT00807248|184511725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-2.0|-0.76|||ANCOVA|||||-0.76|-2.00|<0.0001
92303544|NCT00807248|184511726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.89|-0.34|||ANCOVA|||||-0.34|-0.89|<0.0001
92303545|NCT00807248|184511726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.14||0.0001|TWO_SIDED|95.0|-0.82|-0.26|||ANCOVA|||||-0.26|-0.82|0.0001
92303546|NCT00807248|184511726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.99|-0.44|||ANCOVA|||||-0.44|-0.99|<0.0001
92303547|NCT00807248|184511727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.02|-0.5|||ANCOVA|||||-0.50|-1.02|<0.0001
92303548|NCT00807248|184511727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.88|-0.36|||ANCOVA|||||-0.36|-0.88|<0.0001
92303549|NCT00807248|184511727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.97|-0.45|||ANCOVA|||||-0.45|-0.97|<0.0001
92187683|NCT02169089|184274014|SUPERIORITY||Median Difference (Final Values)|-7.78||||0.0293|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0293
92187684|NCT02169089|184274015|SUPERIORITY||Median Difference (Final Values)|-2.6|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The mean reported -3.5 and 2.1 represents the mean change between follow-up \& baseline visit. The statistical test (Mann-Whitney) reported Median difference of -2.6, which corresponds to the difference between the spironolactone and placebo group.|||||<0.0001
92187685|NCT02169089|184274016|SUPERIORITY||Median Difference (Final Values)|-40.7||||0.0189|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The mean reported -10.3 and 17.1 represents the mean change between follow-up \& baseline visit. The statistical test (Mann-Whitney) reported Median difference of -2.6, which corresponds to the difference between the spironolactone and placebo group.|||||0.0189
92303550|NCT02504671|184511787|OTHER||Odds Ratio (OR)|2.12||||0.547|TWO_SIDED|95.0|0.18|24.52|||Regression, Logistic||95% Confidence Intervals (CI) were constructed using asymptotic Wald confidence limits without correction.|||24.52|0.18|0.547
92303551|NCT02504671|184511787|OTHER||Odds Ratio (OR)|7.11||||0.077|TWO_SIDED|95.0|0.81|62.44|||Regression, Logistic||95% CI were constructed using asymptotic Wald confidence limits without correction.|||62.44|0.81|0.077
92303552|NCT02504671|184511787|OTHER||Odds Ratio (OR)|8.39||||0.053|TWO_SIDED|95.0|0.98|72.14|||Regression, Logistic||95% CI were constructed using asymptotic Wald confidence limits without correction.|||72.14|0.98|0.053
92303553|NCT02504671|184511787|OTHER||Odds Ratio (OR)|5.69||||0.122|TWO_SIDED|95.0|0.63|51.4|||Regression, Logistic||95% CI were constructed using asymptotic Wald confidence limits without correction.|||51.40|0.63|0.122
92303554|NCT02504671|184511787|OTHER||Odds Ratio (OR)|5.4||||0.134|TWO_SIDED|95.0|0.6|48.83|||Regression, Logistic||95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.83|0.60|0.134
92303555|NCT02504671|184511788|OTHER||Mean Difference (Net)|0.46||||0.905|TWO_SIDED|95.0|-7.13|8.05||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|Mixed Model Repeated Measures (MMRM)||CRP, Week 12|||8.05|-7.13|0.905
92303556|NCT02504671|184511788|OTHER||Mean Difference (Net)|-3.36||||0.387|TWO_SIDED|95.0|-11.0|4.28||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||CRP, Week 12|||4.28|-11.00|0.387
92303557|NCT02504671|184511788|OTHER||Mean Difference (Net)|-2.58||||0.495|TWO_SIDED|95.0|-10.04|4.87||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||CRP, Week 12|||4.87|-10.04|0.495
92303558|NCT02504671|184511788|OTHER||Mean Difference (Net)|-7.68||||0.14|TWO_SIDED|95.0|-17.92|2.55||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||PtGA, Week 12|||2.55|-17.92|0.140
92303559|NCT02504671|184511788|OTHER||Mean Difference (Net)|-13.68||||0.009|TWO_SIDED|95.0|-23.85|-3.52||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||PtGA, Week 12|||-3.52|-23.85|0.009
92303560|NCT02504671|184511788|OTHER||Mean Difference (Net)|-17.4|||<|0.001|TWO_SIDED|95.0|-27.44|-7.35||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||PtGA, Week 12|||-7.35|-27.44|<0.001
92303561|NCT02504671|184511788|OTHER||Mean Difference (Net)|-2.42||||0.118|TWO_SIDED|95.0|-5.45|0.62||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||SJC28, Week 12|||0.62|-5.45|0.118
92303562|NCT02504671|184511788|OTHER||Mean Difference (Net)|-3.17||||0.041|TWO_SIDED|95.0|-6.2|-0.14||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||SJC28, Week 12|||-0.14|-6.20|0.041
92303563|NCT02504671|184511788|OTHER||Mean Difference (Net)|-4.56||||0.003|TWO_SIDED|95.0|-6.0|0.05||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||SJC28, Week 12|||0.05|-6.00|0.003
92303564|NCT02504671|184511788|OTHER||Mean Difference (Net)|-2.3||||0.172|TWO_SIDED|95.0|-5.61|1.01||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||TC28, Week 12|||1.01|-5.61|0.172
92303565|NCT02504671|184511788|OTHER||Mean Difference (Net)|-3.92||||0.02|TWO_SIDED|95.0|-7.22|-0.62||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||TJC28, Week 12|||-0.62|-7.22|0.020
92303566|NCT02504671|184511788|OTHER||Mean Difference (Net)|-5.72|||<|0.001|TWO_SIDED|95.0|-8.98|-2.45||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||TJC28, Week 12|||-2.45|-8.98|<0.001
92303567|NCT02504671|184511788|OTHER||Mean Difference (Net)|-2.51||||0.518|TWO_SIDED|95.0|-10.13|5.12||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||CRP, Week 12|||5.12|-10.13|0.518
92303568|NCT02504671|184511788|OTHER||Mean Difference (Net)|-2.0||||0.599|TWO_SIDED|95.0|-9.5|5.49||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||CRP, Week 12|||5.49|-9.50|0.599
92303569|NCT02504671|184511788|OTHER||Mean Difference (Net)|-12.63||||0.015|TWO_SIDED|95.0|-22.78|-2.48||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||PtGA, Week 12|||-2.48|-22.78|0.015
92303570|NCT02504671|184511788|OTHER||Mean Difference (Net)|-17.18|||<|0.001|TWO_SIDED|95.0|-27.27|-7.1||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||PtGA, Week 12|||-7.10|-27.27|<0.001
92303571|NCT02504671|184511788|OTHER||Mean Difference (Net)|-2.98||||0.054|TWO_SIDED|95.0|-6.0|0.05||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||SJC28, Week 12|||0.05|-6.00|0.054
92303572|NCT02504671|184511788|OTHER||Mean Difference (Net)|-6.04|||<|0.001|TWO_SIDED|95.0|-9.05|-3.02||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||SJC28, Week 12|||-3.02|-9.05|<0.001
92303573|NCT02504671|184511788|OTHER||Mean Difference (Net)|-3.63||||0.031|TWO_SIDED|95.0|-6.92|-0.33||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||TJC28, Week 12|||-0.33|-6.92|0.031
92303574|NCT02504671|184511788|OTHER||Mean Difference (Net)|-6.32|||<|0.001|TWO_SIDED|95.0|-9.61|-3.02||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||TJC28, Week 12|||-3.02|-9.61|<0.001
92303575|NCT02504671|184511789|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303576|NCT02504671|184511789|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.3|-10.3|
92303577|NCT02504671|184511789|OTHER||Difference|-5.4|||||TWO_SIDED|95.0|-12.7|1.9|||||Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||1.9|-12.7|
92303578|NCT02504671|184511789|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.3|-10.3|
92303579|NCT02504671|184511789|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92303580|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303581|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303582|NCT02504671|184511789|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303583|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303584|NCT02504671|184511789|OTHER||Difference|21.6|||||TWO_SIDED|95.0|6.8|36.4|||||Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||36.4|6.8|
92187686|NCT02169089|184274017|SUPERIORITY||Median Difference (Final Values)|-7.5||||0.1276|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The mean reported -5.95 and 2 represents the mean change between follow-up \& baseline visit. The statistical test (Mann-Whitney) reported Median difference of -2.6, which corresponds to the difference between the spironolactone and placebo group.|||||0.1276
92267105|NCT02203305|184435438|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||"The Tinnitus Handicap Inventory is a 25-item questionnaire. The subject answers yes (4 points), sometimes (2 points), or no (0 points) to each question. Responses are added to quantify tinnitus severity: none/slight (0-16), mild (18-36), moderate (38-56), severe (58-76), and catastrophic (78-100). Responses were compared at the preoperative interval (alternative treatments) and over the post-activation time period (1, 3, 6, 9, and 12 months) with the cochlear implant."||||<0.001
92267106|NCT02203305|184435438|SUPERIORITY||||||=|0.003||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||"The Tinnitus Handicap Inventory is a 25-item questionnaire. The subject answers yes (4 points), sometimes (2 points), or no (0 points) to each question. Responses are added to quantify tinnitus severity: none/slight (0-16), mild (18-36), moderate (38-56), severe (58-76), and catastrophic (78-100). Responses were compared at the preoperative interval (alternative treatments) and over the post-activation time period (1, 3, 6, 9, and 12 months) with the cochlear implant."||||=0.003
92267107|NCT02203305|184435439|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Responses on the SSQ as measured with the total score were compared at the preoperative interval (alternative treatments for SSD) and over the post-activation period (i.e., 1, 3, 6, 9, and 12 months).||||<0.001
92267108|NCT02203305|184435439|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Responses on the SSQ as measured with the total score were compared at the preoperative interval (alternative treatments for asymmetric hearing loss) and over the post-activation period (i.e., 1, 3, 6, 9, and 12 months).||||<0.001
92267109|NCT02203305|184435439|SUPERIORITY||||||<|0.001||||||"There were significant main effects of interval (p\<0.001) and subscale (p\<0.001) and interaction (p=0.001).~A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity."|Mixed Models Analysis|Main effects: interval (p\<0.001) and subscale (p\<0.001). Interaction: interval and subscale (p=0.001).||Responses on the SSQ as measured with the subscales (speech, spatial, \& qualities) were compared at the preoperative interval (alternative treatments for SSD) and over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). A repeated-measures ANOVA assessed the main effects of interval and subscale, and their interaction.||||<0.001
92267110|NCT02203305|184435439|SUPERIORITY||||||<|0.034||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p\<0.001) and subscale (p\<0.001). Interaction: interval and subscale (p=0.034).||Responses on the SSQ as measured with the subscales (speech, spatial, \& qualities) were compared at the preoperative interval (alternative treatments for asymmetric hearing loss) and over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). A repeated-measures ANOVA assessed the main effects of interval and subscale, and their interaction.||||<0.034
92267111|NCT02203305|184435439|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p\<0.001).||Responses on the SSQ Speech pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.001
92267112|NCT02203305|184435439|SUPERIORITY||||||<|0.192|||||||Mixed Models Analysis|Main effect: interval (p\<0.001) and pragmatic subscale (p=0.192). Interaction: interval and pragmatic subscale (p=0.001).||Responses on the SSQ Spatial pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.192
92267113|NCT02203305|184435439|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p\<0.001).||Responses on the SSQ Qualities of Hearing pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.001
92267114|NCT02203305|184435439|SUPERIORITY||||||<|0.479|||||||Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p=0.479).||Responses on the SSQ Speech pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.479
92267115|NCT02203305|184435439|SUPERIORITY||||||<|0.804|||||||Mixed Models Analysis|Main effect: interval (p\<0.001) and pragmatic subscale (p=0.804). Interaction: interval and pragmatic subscale (p=0.090).||Responses on the SSQ Spatial pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.804
92267116|NCT02203305|184435439|SUPERIORITY||||||<|0.005|||||||Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p=0.005).||Responses on the SSQ Qualities of Hearing pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.005
92267117|NCT02203305|184435440|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||=0.001
92187687|NCT05361304|184274025|NON_INFERIORITY||Least square Mean (LSM) Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.012|||TWO_SIDED|95.0|-0.04|0.0|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Senofilcon A contact lenses made with a novel manufacturing technology minus Senofilcon A contact lenses made with the current manufacturing technology|It was calculated using a 2 independent sample means t-test with a 2-sided type I error rate of 5% with at least 80% statistical power, that 100 subjects were required to test for non-inferiority of the Senofilcon A contact lenses made with a novel manufacturing technology compared to the Senofilcon A contact lenses made with the current manufacturing technology for distance (4m) under HLLC.||0.000|-0.040|
92303585|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303586|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92303587|NCT02504671|184511789|OTHER||Difference|27.0|||||TWO_SIDED|95.0|12.7|41.3|||||Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.3|12.7|
92303588|NCT02504671|184511789|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92303589|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303590|NCT02504671|184511789|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303591|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303592|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303593|NCT02504671|184511789|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303594|NCT02504671|184511789|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92303595|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303596|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303597|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303598|NCT02504671|184511789|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
92303599|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303600|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303601|NCT02504671|184511789|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303602|NCT02504671|184511789|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303603|NCT02504671|184511789|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303604|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92303605|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92303606|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303607|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303608|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303609|NCT02504671|184511789|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303610|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92303611|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92303612|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303613|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303614|NCT02504671|184511789|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
92303615|NCT02504671|184511789|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92303616|NCT02504671|184511789|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303617|NCT02504671|184511789|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92303618|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 2. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303619|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303620|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92303621|NCT02504671|184511789|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-11.7|6.3|||||95% CI were constructed using asymptotic Wald confidence limits without correction.|||6.3|-11.7|
92303622|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-8.7|14.1|||||Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-8.7|
92303623|NCT02504671|184511789|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303624|NCT02504671|184511789|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303625|NCT02504671|184511789|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92303626|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92187688|NCT05361304|184274025|NON_INFERIORITY||Least square Mean (LSM) Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.012|||TWO_SIDED|95.0|-0.03|0.02|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Senofilcon A contact lenses made with a novel manufacturing technology minus Senofilcon A contact lenses made with the current manufacturing technology|It was calculated using a 2 independent sample means t-test with a 2-sided type I error rate of 5% with at least 80% statistical power, that 100 subjects were required to test for non-inferiority of the Senofilcon A contact lenses made with a novel manufacturing technology compared to the Senofilcon A contact lenses made with the current manufacturing technology for distance (4m) under LLHC.||0.020|-0.030|
92303627|NCT02504671|184511789|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303628|NCT02504671|184511789|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
92303629|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303630|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303631|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303632|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303633|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303634|NCT02504671|184511789|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
92303635|NCT02504671|184511789|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
92303636|NCT02504671|184511789|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303637|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303638|NCT02504671|184511789|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 36, 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303639|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92303640|NCT02504671|184511789|OTHER||Difference|24.3|||||TWO_SIDED|95.0|10.5|38.1|||||Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||38.1|10.5|
92303641|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303642|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303643|NCT02504671|184511789|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92303644|NCT02504671|184511789|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
92303645|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303646|NCT02504671|184511789|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303647|NCT02504671|184511789|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
92303648|NCT02504671|184511789|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303649|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.32||||0.046|TWO_SIDED|95.0|-0.64|-0.01||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1|||-0.01|-0.64|0.046
92303650|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.3||||0.071|TWO_SIDED|95.0|-0.62|0.03||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1|||0.03|-0.62|0.071
92303651|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.37||||0.022|TWO_SIDED|95.0|-0.69|-0.05||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1|||-0.05|-0.69|0.022
92303652|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.28||||0.16|TWO_SIDED|95.0|-0.67|0.11||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2|||0.11|-0.67|0.160
92303653|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.32||||0.103|TWO_SIDED|95.0|-0.71|0.07||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2|||0.07|-0.71|0.103
92303654|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.42||||0.034|TWO_SIDED|95.0|-0.8|-0.03||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2|||-0.03|-0.80|0.034
92303655|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.4||||0.096|TWO_SIDED|95.0|-0.87|0.07||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4|||0.07|-0.87|0.096
92303656|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.56||||0.02|TWO_SIDED|95.0|-1.02|-0.09||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4|||-0.09|-1.02|0.020
92303657|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.76||||0.001|TWO_SIDED|95.0|-1.22|-0.29||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4|||-0.29|-1.22|0.001
92303658|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.42||||0.11|TWO_SIDED|95.0|-0.93|0.1||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6|||0.10|-0.93|0.110
92303659|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.47||||0.076|TWO_SIDED|95.0|-0.98|0.05||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6|||0.05|-0.98|0.076
92187689|NCT05361304|184274026|NON_INFERIORITY||Least square Mean (LSM) Difference|0.27|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-0.46|1.01|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Senofilcon A contact lenses made with a novel manufacturing technology minus Senofilcon A contact lenses made with the current manufacturing technology|It was calculated using a 2 independent sample means t-test with a 2-sided type I error rate of 5% with at least 80% statistical power, that 100 subjects were required to test for non-inferiority of the Senofilcon A contact lenses made with a novel manufacturing technology compared to the Senofilcon A contact lenses made with the current manufacturing technology.||1.010|-0.460|
92303660|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.61||||0.02|TWO_SIDED|95.0|-1.11|-0.1||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6|||-0.10|-1.11|0.020
92303661|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.42||||0.128|TWO_SIDED|95.0|-0.97|0.12||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8|||0.12|-0.97|0.128
92303662|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.78||||0.005|TWO_SIDED|95.0|-1.33|-0.24||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8|||-0.24|-1.33|0.005
92303663|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.82||||0.003|TWO_SIDED|95.0|-1.36|-0.29||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8|||-0.29|-1.36|0.003
92303664|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.53||||0.11|TWO_SIDED|95.0|-1.17|0.12||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12|||0.12|-1.17|0.110
92303665|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.88||||0.008|TWO_SIDED|95.0|-1.53|-0.23||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12|||-0.23|-1.53|0.008
92303666|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.24|||<|0.001|TWO_SIDED|95.0|-1.88|-0.6||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12|||-0.60|-1.88|<0.001
92303667|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.29||||0.5|TWO_SIDED|95.0|-1.15|0.56||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16|||0.56|-1.15|0.500
92303668|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.99||||0.021|TWO_SIDED|95.0|-1.83|-0.15||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16|||-0.15|-1.83|0.021
92303669|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.0||||0.017|TWO_SIDED|95.0|-1.83|-0.18||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16|||-0.18|-1.83|0.017
92303670|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.07||||0.871|TWO_SIDED|95.0|-0.98|0.83||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20|||0.83|-0.98|0.871
92303671|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.58||||0.19|TWO_SIDED|95.0|-1.46|0.29||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20|||0.29|-1.46|0.190
92303672|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.66||||0.13|TWO_SIDED|95.0|-1.51|0.2||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20|||0.20|-1.51|0.130
92303673|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.22||||0.019|TWO_SIDED|95.0|-2.24|-0.2||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24|||-0.20|-2.24|0.019
92303674|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.53||||0.002|TWO_SIDED|95.0|-2.51|-0.55||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24|||-0.55|-2.51|0.002
92303675|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.39||||0.005|TWO_SIDED|95.0|-2.34|-0.43||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24|||-0.43|-2.34|0.005
92303676|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.41||||0.013|TWO_SIDED|95.0|-0.73|-0.09||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1|||-0.09|-0.73|0.013
92303677|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.49||||0.003|TWO_SIDED|95.0|-0.8|-0.17||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1|||-0.17|-0.80|0.003
92303678|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.47||||0.017|TWO_SIDED|95.0|-0.86|-0.09||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2|||-0.09|-0.86|0.017
92303679|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.52||||0.009|TWO_SIDED|95.0|-0.9|-0.13||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2|||-0.13|-0.90|0.009
92303680|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.67||||0.005|TWO_SIDED|95.0|-1.13|-0.2||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4|||-0.20|-1.13|0.005
92303681|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.01|||<|0.001|TWO_SIDED|95.0|-1.48|-0.55||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4|||-0.55|-1.48|<0.001
92303682|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.47||||0.073|TWO_SIDED|95.0|-0.99|0.04||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6|||0.04|-0.99|0.073
92303683|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.85||||0.001|TWO_SIDED|95.0|-1.36|-0.34||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6|||-0.34|-1.36|0.001
92303684|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.89||||0.001|TWO_SIDED|95.0|-1.43|-0.35||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8|||-0.35|-1.43|0.001
92303685|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.1|||<|0.001|TWO_SIDED|95.0|-1.65|-0.56||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8|||-0.56|-1.65|<0.001
92303686|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.68||||0.039|TWO_SIDED|95.0|-1.32|-0.03||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12|||-0.03|-1.32|0.039
92303687|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.27|||<|0.001|TWO_SIDED|95.0|-1.91|-0.63||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12|||-0.63|-1.91|<0.001
92303688|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.77||||0.073|TWO_SIDED|95.0|-1.61|0.07||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16|||0.07|-1.61|0.073
92303689|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.11||||0.007|TWO_SIDED|95.0|-1.91|-0.3||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16|||-0.30|-1.91|0.007
92303690|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.77||||0.083|TWO_SIDED|95.0|-1.65|0.1||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20|||0.10|-1.65|0.083
92303691|NCT02504671|184511790|OTHER||Mean Difference (Net)|-0.8||||0.059|TWO_SIDED|95.0|-1.63|0.03||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20|||0.03|-1.63|0.059
92303692|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.48||||0.003|TWO_SIDED|95.0|-2.46|-0.5||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24|||-0.50|-2.46|0.003
92303693|NCT02504671|184511790|OTHER||Mean Difference (Net)|-1.82|||<|0.001|TWO_SIDED|95.0|-2.75|-0.89||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24|||-0.89|-2.75|<0.001
92303694|NCT02504671|184511792|OTHER||Difference|16.2||||0.037|TWO_SIDED|95.0|1.1|31.4|||Regression, Logistic||Difference to placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.4|1.1|0.037
92303695|NCT02504671|184511792|OTHER||Difference|10.8||||0.144|TWO_SIDED|95.0|-3.1|24.7|||Regression, Logistic||Difference to placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.7|-3.1|0.144
92303696|NCT02504671|184511792|OTHER||Difference|18.9||||0.033|TWO_SIDED|95.0|3.3|34.5|||Regression, Logistic||Difference to placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||34.5|3.3|0.033
92303697|NCT02504671|184511792|OTHER||Difference|5.4||||0.437|TWO_SIDED|95.0|-11.3|22.2|||Regression, Logistic||Difference to placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||22.2|-11.3|0.437
92187690|NCT05361304|184274027|NON_INFERIORITY||LSM Difference|4.0|STANDARD_ERROR_OF_MEAN|4.06|||TWO_SIDED|95.0|-4.1|12.0|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Senofilcon A contact lenses made with a novel manufacturing technology minus Senofilcon A contact lenses made with the current manufacturing technology|||12.0|-4.1|
92303698|NCT02504671|184511792|OTHER||Difference|2.7||||0.755|TWO_SIDED|95.0|-13.5|18.9|||Regression, Logistic||Difference to placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||18.9|-13.5|0.755
92303699|NCT02504671|184511792|OTHER||Difference|24.3||||0.023|TWO_SIDED|95.0|5.2|43.4|||Regression, Logistic||Difference to placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||43.4|5.2|0.023
92303700|NCT02504671|184511792|OTHER||Difference|29.7||||0.006|TWO_SIDED|95.0|9.8|49.7|||Regression, Logistic||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||49.7|9.8|0.006
92303701|NCT02504671|184511792|OTHER||Difference|21.6||||0.039|TWO_SIDED|95.0|2.0|41.2|||Regression, Logistic||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.2|2.0|0.039
92303702|NCT02504671|184511792|OTHER||Difference|29.7||||0.008|TWO_SIDED|95.0|9.8|49.7|||Regression, Logistic||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||49.7|9.8|0.008
92303703|NCT02504671|184511792|OTHER||Difference|21.6||||0.044|TWO_SIDED|95.0|0.4|42.8|||Regression, Logistic||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.8|0.4|0.044
92303704|NCT02504671|184511792|OTHER||Difference|18.9||||0.083|TWO_SIDED|95.0|-2.2|40.0|||Regression, Logistic||Difference to placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||40.0|-2.2|0.083
92303705|NCT02504671|184511792|OTHER||Difference|27.0|||||TWO_SIDED|95.0|5.8|48.3|||||Difference to placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.3|5.8|
92187691|NCT05361304|184274028|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the confidence interval of the mean difference between Senofilcon A contact lenses made with a novel manufacturing technology and Senofilcon A contact lenses made with the current manufacturing technology is greater than -5.|LSM Differences|-0.3|STANDARD_ERROR_OF_MEAN|3.44|||TWO_SIDED|95.0|-7.1|6.5|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Senofilcon A contact lenses made with a novel manufacturing technology minus Senofilcon A contact lenses made with the current manufacturing technology|||6.5|-7.1|
92187692|NCT03320941|184274029|OTHER|Dose Finding|Mean Difference (Net)|-1.99|||||TWO_SIDED|95.0|-2.92|-0.21||||||||-0.21|-2.92|
92187693|NCT03320941|184274029|OTHER|Dose Finding|Mean Difference (Net)|-3.0|||||TWO_SIDED|95.0|-4.15|-1.7||||||||-1.70|-4.15|
92187694|NCT03320941|184274029|OTHER|Dose Finding|Mean Difference (Net)|-3.54|||||TWO_SIDED|95.0|-4.54|-2.26||||||||-2.26|-4.54|
92187695|NCT03320941|184274029|OTHER|Dose Finding|Mean Difference (Net)|-3.91|||||TWO_SIDED|95.0|-5.01|-2.77||||||||-2.77|-5.01|
92303706|NCT02504671|184511792|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-11.2|32.8|||||Difference to placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.Wald confidence limits without correction.|||32.8|-11.2|
92303707|NCT02504671|184511792|OTHER||Difference|27.0|||||TWO_SIDED|95.0|5.2|48.9|||||Difference to placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.9|5.2|
92303708|NCT02504671|184511792|OTHER||Difference|32.4|||||TWO_SIDED|95.0|10.9|54.0|||||Difference to placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||54.0|10.9|
92303709|NCT02504671|184511792|OTHER||Difference|21.6|||||TWO_SIDED|95.0|0.9|42.4|||||Difference to placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.4|0.9|
92303710|NCT02504671|184511792|OTHER||Difference|29.7|||||TWO_SIDED|95.0|8.9|50.6|||||Difference to placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||50.6|8.9|
92303711|NCT02504671|184511792|OTHER||Difference|45.9|||||TWO_SIDED|95.0|25.9|66.0|||||Difference to placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||66.0|25.9|
92303712|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-6.8|33.8|||||Difference to placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.8|-6.8|
92303713|NCT02504671|184511792|OTHER||Difference|32.4|||||TWO_SIDED|95.0|11.6|53.3|||||Difference to placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||53.3|11.6|
92303714|NCT02504671|184511792|OTHER||Difference|37.8|||||TWO_SIDED|95.0|17.2|58.5|||||Difference to placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||58.5|17.2|
92303715|NCT02504671|184511792|OTHER||Difference|18.9|||||TWO_SIDED|95.0|-0.5|38.4|||||Difference to placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||38.4|-0.5|
92187696|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|2.299||||0.39|TWO_SIDED|95.0|0.344|15.35|||Regression, Logistic|||\>= 3% Percent decrease in body weight||15.350|0.344|0.390
92187697|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|15.78||||0.002|TWO_SIDED|95.0|2.844|87.552|||Regression, Logistic|||\>= 3% Percent decrease in body weight||87.552|2.844|0.002
92187698|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|12.708||||0.002|TWO_SIDED|95.0|2.511|64.32|||Regression, Logistic|||\>= 3% Percent decrease in body weight||64.320|2.511|0.002
92187699|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|16.813|||<|0.001|TWO_SIDED|95.0|3.362|84.085|||Regression, Logistic|||\>= 3% Percent decrease in body weight||84.085|3.362|<0.001
92187700|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|1.697||||0.727|TWO_SIDED|95.0|0.087|33.006|||Regression, Logistic|||\>= 3% Percent decrease in body weight (Dysglycemic)||33.006|0.087|0.727
92187701|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|28.26||||0.012|TWO_SIDED|95.0|2.066|386.473|||Regression, Logistic|||\>= 3% Percent decrease in body weight (Dysglycemic)||386.473|2.066|0.012
92187702|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|10.333||||0.059|TWO_SIDED|95.0|0.914|116.82|||Regression, Logistic|||\>= 3% Percent decrease in body weight (Dysglycemic)||116.820|0.914|0.059
92187703|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|9.456||||0.062|TWO_SIDED|95.0|0.891|100.292|||Regression, Logistic|||\>= 3% Percent decrease in body weight (Dysglycemic)||100.292|0.891|0.062
92187704|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|3.59||||0.336|TWO_SIDED|95.0|0.265|48.552|||Regression, Logistic|||\>= 3% Percent decrease in body weight (T2DM)||48.552|0.265|0.336
92187705|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio, log|9.112||||0.075|TWO_SIDED|95.0|0.799|103.872|||Regression, Logistic|||\>= 3% Percent decrease in body weight (T2DM)||103.872|0.799|0.075
92303716|NCT02504671|184511792|OTHER||Difference|35.1|||||TWO_SIDED|95.0|15.1|55.1|||||Difference to placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||55.1|15.1|
92303717|NCT02504671|184511792|OTHER||Difference|48.6|||||TWO_SIDED|95.0|29.2|68.1|||||Difference to placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.1|29.2|
92303718|NCT02504671|184511792|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-3.0|35.4|||||Difference to placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||35.4|-3.0|
92303719|NCT02504671|184511792|OTHER||Difference|29.7|||||TWO_SIDED|95.0|9.8|49.7|||||Difference to placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||49.7|9.8|
92303720|NCT02504671|184511792|OTHER||Difference|37.8|||||TWO_SIDED|95.0|17.9|57.8|||||Difference to placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||57.8|17.9|
92303721|NCT02504671|184511792|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92187706|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|29.312||||0.006|TWO_SIDED|95.0|2.665|322.412|||Regression, Logistic|||\>= 3% Percent decrease in body weight (T2DM)||322.412|2.665|0.006
92303722|NCT02504671|184511792|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303723|NCT02504671|184511792|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92187707|NCT03320941|184274030|OTHER|Dose Finding|Odds Ratio (OR)|37.949||||0.003|TWO_SIDED|95.0|3.477|414.232|||Regression, Logistic|||\>= 3% Percent decrease in body weight (T2DM)||414.232|3.477|0.003
92303724|NCT02504671|184511792|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303725|NCT02504671|184511792|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Difference to placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
92187708|NCT03320941|184274031|OTHER|Dose Finding|Median Difference (Final Values)|-1.84|||||TWO_SIDED|95.0|-3.56|-0.19||||||Dysglycemic||-0.19|-3.56|
92303726|NCT02504671|184511792|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Difference to placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
92303727|NCT02504671|184511792|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303728|NCT02504671|184511792|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303729|NCT02504671|184511792|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Difference to placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
92303730|NCT02504671|184511792|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303731|NCT02504671|184511792|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303732|NCT02504671|184511792|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Difference to placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
92187709|NCT03320941|184274031|OTHER|Dose Finding|Mean Difference (Final Values)|-2.98|||||TWO_SIDED|95.0|-4.56|-1.46||||||Dysglycemic||-1.46|-4.56|
92187710|NCT03320941|184274031|OTHER|Dose Finding|Mean Difference (Final Values)|-3.33|||||TWO_SIDED|95.0|-4.71|-1.82||||||Dysglycemic||-1.82|-4.71|
92303733|NCT02504671|184511792|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303734|NCT02504671|184511792|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303735|NCT02504671|184511792|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303736|NCT02504671|184511792|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303737|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303738|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303739|NCT02504671|184511792|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Difference to placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303740|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303741|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303742|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Difference to placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
92303743|NCT02504671|184511792|OTHER||Difference|21.6|||||TWO_SIDED|95.0|5.6|37.7|||||Difference to placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||37.7|5.6|
92303744|NCT02504671|184511792|OTHER||Difference|18.9|||||TWO_SIDED|95.0|0.2|37.6|||||Difference to placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||37.6|0.2|
92303745|NCT02504671|184511792|OTHER||Difference|24.3|||||TWO_SIDED|95.0|5.2|43.4|||||Difference to placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||43.4|5.2|
92187711|NCT03320941|184274031|OTHER|Dose Finding|Mean Difference (Final Values)|-3.51|||||TWO_SIDED|95.0|-4.93|-1.74||||||Dysglycemic||-1.74|-4.93|
92187712|NCT03320941|184274031|OTHER|Dose Finding|Mean Difference (Final Values)|-1.96|||||TWO_SIDED|95.0|-3.12|-0.15||||||T2DM||-0.15|-3.12|
92187713|NCT03320941|184274031|OTHER|Dose Finding|Mean Difference (Final Values)|-2.88|||||TWO_SIDED|95.0|-4.37|-0.61||||||T2DM||-0.61|-4.37|
92187714|NCT03320941|184274031|OTHER|Dose Finding|Mean Difference (Final Values)|-3.64|||||TWO_SIDED|95.0|-5.2|-1.52||||||T2DM||-1.52|-5.20|
92303746|NCT02504671|184511792|OTHER||Difference|27.0|||||TWO_SIDED|95.0|7.1|46.9|||||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.9|7.1|
92187715|NCT03320941|184274031|OTHER|Dose Finding|Median Difference (Final Values)|-4.37|||||TWO_SIDED|95.0|-5.93|-2.79||||||T2DM||-2.79|-5.93|
92187716|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|1.011||0.278|TWO_SIDED|95.0|-3.104|0.9|||ANCOVA|||Overall Study||0.900|-3.104|0.278
92187717|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|1.013||0.216|TWO_SIDED|95.0|-3.265|0.747|||ANCOVA|||Overall Study||0.747|-3.265|0.216
92187718|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|0.902||0.158|TWO_SIDED|95.0|-3.069|0.504|||ANCOVA|||Overall Study||0.504|-3.069|0.158
92303747|NCT02504671|184511792|OTHER||Difference|51.4|||||TWO_SIDED|95.0|32.2|70.5|||||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||70.5|32.2|
92187719|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-1.74|STANDARD_ERROR_OF_MEAN|0.89||0.053|TWO_SIDED|95.0|-3.401|0.022|||ANCOVA|||Overall Study||0.022|-3.401|0.053
92303748|NCT02504671|184511792|OTHER||Difference|21.6|||||TWO_SIDED|95.0|0.4|42.8|||||Difference to placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.8|0.4|
92303749|NCT02504671|184511792|OTHER||Difference|40.5|||||TWO_SIDED|95.0|19.9|61.2|||||Difference to placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||61.2|19.9|
92303750|NCT02504671|184511792|OTHER||Difference|27.0|||||TWO_SIDED|95.0|5.2|48.9|||||Difference to placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.9|5.2|
92303751|NCT02504671|184511792|OTHER||Difference|35.1|||||TWO_SIDED|95.0|13.8|56.5|||||Difference to placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||56.5|13.8|
92303752|NCT02504671|184511792|OTHER||Difference|27.0|||||TWO_SIDED|95.0|6.2|47.9|||||Difference to placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||47.9|6.2|
92187720|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-2.36|STANDARD_ERROR_OF_MEAN|1.534||0.13|TWO_SIDED|95.0|-5.444|0.717|||ANCOVA|||Dysglycemic||0.717|-5.444|0.130
92187721|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-4.08|STANDARD_ERROR_OF_MEAN|1.534||0.011|TWO_SIDED|95.0|-7.156|-0.994|||ANCOVA|||Dysglycemic||-0.994|-7.156|0.011
92187722|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-1.66|STANDARD_ERROR_OF_MEAN|1.325||0.215|TWO_SIDED|95.0|-4.322|0.996|||ANCOVA|||Dysglycemic||0.996|-4.322|0.215
92187723|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|1.346||0.184|TWO_SIDED|95.0|-4.515|0.888|||ANCOVA|||Dysglycemic||0.888|-4.515|0.184
92187724|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|1.292||0.982|TWO_SIDED|95.0|-2.611|2.552|||ANCOVA|||T2DM||2.552|-2.611|0.982
92187725|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|1.304||0.544|TWO_SIDED|95.0|-1.809|3.401|||ANCOVA|||T2DM||3.401|-1.809|0.544
92187726|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|1.188||0.552|TWO_SIDED|95.0|-3.084|1.663|||ANCOVA|||T2DM||1.663|-3.084|0.552
92187727|NCT03320941|184274032|OTHER|Dose Finding|Mean Difference (Final Values)|-1.69|STANDARD_ERROR_OF_MEAN|1.139||0.143|TWO_SIDED|95.0|-3.964|0.588|||ANCOVA|||T2DM||0.588|-3.964|0.143
92187728|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.206|STANDARD_ERROR_OF_MEAN|0.086||0.018|TWO_SIDED|95.0|-0.376|-0.035|||ANCOVA|||Overall Study||-0.035|-0.376|0.018
92303753|NCT02504671|184511792|OTHER||Difference|54.1|||||TWO_SIDED|95.0|34.9|73.2|||||Difference to placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||73.2|34.9|
92303754|NCT02504671|184511792|OTHER||Difference|21.6|||||TWO_SIDED|95.0|0.9|42.4|||||Difference to placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.4|0.9|
92303755|NCT02504671|184511792|OTHER||Difference|51.4|||||TWO_SIDED|95.0|31.8|70.9|||||Difference to placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||70.9|31.8|
92303756|NCT02504671|184511792|OTHER||Difference|27.0|||||TWO_SIDED|95.0|7.1|46.9|||||Difference to placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.9|7.1|
92303757|NCT02504671|184511792|OTHER||Difference|56.8|||||TWO_SIDED|95.0|38.2|75.4|||||Difference to placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||75.4|38.2|
92303758|NCT02504671|184511792|OTHER||Difference|27.0|||||TWO_SIDED|95.0|7.1|46.9|||||Difference to placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.9|7.1|
92303759|NCT02504671|184511792|OTHER||Difference|54.1|||||TWO_SIDED|95.0|35.1|73.0|||||Difference to placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||73.0|35.1|
92303760|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303761|NCT02504671|184511792|OTHER||Difference|75.7|||||TWO_SIDED|95.0|61.4|89.9|||||Difference to placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||89.9|61.4|
92303762|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303763|NCT02504671|184511792|OTHER||Difference|70.3|||||TWO_SIDED|95.0|55.0|85.5|||||Difference to placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||85.5|55.0|
92303764|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303765|NCT02504671|184511792|OTHER||Difference|70.3|||||TWO_SIDED|95.0|55.0|85.5|||||Difference to placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||85.5|55.0|
92303766|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303767|NCT02504671|184511792|OTHER||Difference|62.2|||||TWO_SIDED|95.0|45.9|78.4|||||Difference to placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||78.4|45.9|
92303768|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92187729|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.276|STANDARD_ERROR_OF_MEAN|0.0863||0.002|TWO_SIDED|95.0|-0.447|-0.105|||ANCOVA|||Overall Study||-0.105|-0.447|0.002
92303769|NCT02504671|184511792|OTHER||Difference|56.8|||||TWO_SIDED|95.0|40.1|73.4|||||Difference to placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||73.4|40.1|
92303770|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303771|NCT02504671|184511792|OTHER||Difference|62.2|||||TWO_SIDED|95.0|45.9|78.4|||||Difference to placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||78.4|45.9|
92303772|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303773|NCT02504671|184511792|OTHER||Difference|48.6|||||TWO_SIDED|95.0|31.7|65.6|||||Difference to placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||65.6|31.7|
92303774|NCT02504671|184511792|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303775|NCT02504671|184511792|OTHER||Difference|51.4|||||TWO_SIDED|95.0|34.5|68.2|||||Difference to placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.2|34.5|
92303776|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 1, ACR20. Difference to Placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303777|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Week 1, ACR20. Difference to Placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92187730|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.287|STANDARD_ERROR_OF_MEAN|0.076|<|0.001|TWO_SIDED|95.0|-0.437|-0.136|||ANCOVA|||Overall Study||-0.136|-0.437|<0.001
92187731|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.338|STANDARD_ERROR_OF_MEAN|0.0747|<|0.001|TWO_SIDED|95.0|-0.486|-0.19|||ANCOVA|||Overall Study||-0.190|-0.486|<0.001
92303778|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 1, ACR20. Difference to Placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92303779|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 1, ACR50. Difference to Placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303780|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 2, ACR20. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
92303781|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 2, ACR20. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
92303782|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-3.1|24.7|||||Week 2, ACR20. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.7|-3.1|
92303783|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 2, ACR50. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303784|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 2, ACR50. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303785|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Week 2, ACR50. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92303786|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-0.2|32.6|||||Week 4, ACR20. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||32.6|-0.2|
92303787|NCT02504671|184511793|OTHER||Difference|27.0|||||TWO_SIDED|95.0|9.3|44.7|||||Week 4, ACR20. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||44.7|9.3|
92187732|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.089|STANDARD_ERROR_OF_MEAN|0.0775||0.258|TWO_SIDED|95.0|-0.245|0.067|||ANCOVA|||Dysglycemic||0.067|-0.245|0.258
92187733|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.134|STANDARD_ERROR_OF_MEAN|0.0774||0.088|TWO_SIDED|95.0|-0.29|0.021|||ANCOVA|||Dysglycemic||0.021|-0.290|0.088
92187734|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.146|STANDARD_ERROR_OF_MEAN|0.0673||0.035|TWO_SIDED|95.0|-0.282|-0.011|||ANCOVA|||Dysglycemic||-0.011|-0.282|0.035
92187735|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.113|STANDARD_ERROR_OF_MEAN|0.0673||0.1|TWO_SIDED|95.0|-0.248|0.022|||ANCOVA|||Dysglycemic||0.022|-0.248|0.100
92187736|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.313|STANDARD_ERROR_OF_MEAN|0.1399||0.029|TWO_SIDED|95.0|-0.592|-0.033|||ANCOVA|||T2DM||-0.033|-0.592|0.029
92187737|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.399|STANDARD_ERROR_OF_MEAN|0.1411||0.006|TWO_SIDED|95.0|-0.681|-0.117|||ANCOVA|||T2DM||-0.117|-0.681|0.006
92187738|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.409|STANDARD_ERROR_OF_MEAN|0.1253||0.002|TWO_SIDED|95.0|-0.66|-0.159|||ANCOVA|||T2DM||-0.159|-0.660|0.002
92187739|NCT03320941|184274033|OTHER|Dose Finding|Mean Difference (Final Values)|-0.526|STANDARD_ERROR_OF_MEAN|0.1217|<|0.001|TWO_SIDED|95.0|-0.769|-0.282|||ANCOVA|||T2DM||-0.282|-0.769|<0.001
92187740|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|-0.174|STANDARD_ERROR_OF_MEAN|0.2094||0.408|TWO_SIDED|95.0|-0.589|0.241|||ANCOVA|||Overall Study||0.241|-0.589|0.408
92187741|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|-0.505|STANDARD_ERROR_OF_MEAN|0.2115||0.018|TWO_SIDED|95.0|-0.924|-0.087|||ANCOVA|||Overall Study||-0.087|-0.924|0.018
92187742|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|-0.587|STANDARD_ERROR_OF_MEAN|0.1866||0.002|TWO_SIDED|95.0|-0.956|-0.217|||ANCOVA|||Overall Study||-0.217|-0.956|0.002
92187743|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|-0.826|STANDARD_ERROR_OF_MEAN|0.1831|<|0.001|TWO_SIDED|95.0|-1.188|-0.463|||ANCOVA|||Overall Study||-0.463|-1.188|<0.001
92187744|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.2054||0.293|TWO_SIDED|95.0|-0.194|0.631|||ANCOVA|||Dysglycemic||0.631|-0.194|0.293
92187745|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.2068||0.665|TWO_SIDED|95.0|-0.325|0.506|||ANCOVA|||Dysglycemic||0.506|-0.325|0.665
92187746|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.1791||0.803|TWO_SIDED|95.0|-0.405|0.315|||ANCOVA|||Dysglycemic||0.315|-0.405|0.803
92187747|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|-0.256|STANDARD_ERROR_OF_MEAN|0.1787||0.159|TWO_SIDED|95.0|-0.615|0.103|||ANCOVA|||Dysglycemic||0.103|-0.615|0.159
92187748|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|-0.527|STANDARD_ERROR_OF_MEAN|0.3249||0.11|TWO_SIDED|95.0|-1.176|0.122|||ANCOVA|||T2DM||0.122|-1.176|0.110
92187749|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|-1.032|STANDARD_ERROR_OF_MEAN|0.3296||0.003|TWO_SIDED|95.0|-1.691|-0.373|||ANCOVA|||T2DM||-0.373|-1.691|0.003
92187750|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|-1.065|STANDARD_ERROR_OF_MEAN|0.2946|<|0.001|TWO_SIDED|95.0|-1.654|-0.476|||ANCOVA|||T2DM||-0.476|-1.654|<0.001
92187751|NCT03320941|184274034|OTHER|Dose Finding|Mean Difference (Final Values)|-1.298|STANDARD_ERROR_OF_MEAN|0.2855|<|0.001|TWO_SIDED|95.0|-1.869|-0.728|||ANCOVA|||T2DM||-0.728|-1.869|<0.001
92187752|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|2.707||0.865|TWO_SIDED|95.0|-4.898|5.822|||ANCOVA|||Overall Study||5.822|-4.898|0.865
92187753|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|2.765||0.931|TWO_SIDED|95.0|-5.235|5.716|||ANCOVA|||Overall Study||5.716|-5.235|0.931
92187754|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|2.433||0.682|TWO_SIDED|95.0|-5.817|3.82|||ANCOVA|||Overall Study||3.820|-5.817|0.682
92187755|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|2.387||0.508|TWO_SIDED|95.0|-6.312|3.142|||ANCOVA|||Overall Study||3.142|-6.312|0.508
92187756|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|1.31|STANDARD_ERROR_OF_MEAN|4.206||0.757|TWO_SIDED|95.0|-7.138|9.749|||ANCOVA|||Dysglycemic||9.749|-7.138|0.757
92187757|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|4.267||0.999|TWO_SIDED|95.0|-8.571|8.563|||ANCOVA|||Dysglycemic||8.563|-8.571|0.999
92187758|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|3.52|STANDARD_ERROR_OF_MEAN|3.668||0.342|TWO_SIDED|95.0|-3.848|10.88|||ANCOVA|||Dysglycemic||10.880|-3.848|0.342
92187759|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|2.92|STANDARD_ERROR_OF_MEAN|3.673||0.43|TWO_SIDED|95.0|-4.454|10.292|||ANCOVA|||Dysglycemic||10.292|-4.454|0.430
92187760|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|3.461||0.909|TWO_SIDED|95.0|-7.312|6.52|||ANCOVA|||T2DM||6.520|-7.312|0.909
92187761|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|3.563||0.821|TWO_SIDED|95.0|-6.311|7.93|||ANCOVA|||T2DM||7.930|-6.311|0.821
92187762|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|-4.87|STANDARD_ERROR_OF_MEAN|3.19||0.132|TWO_SIDED|95.0|-11.24|1.508|||ANCOVA|||T2DM||1.508|-11.240|0.132
92187763|NCT03320941|184274035|OTHER|Dose Finding|Mean Difference (Final Values)|-5.23|STANDARD_ERROR_OF_MEAN|3.07||0.093|TWO_SIDED|95.0|-11.367|0.905|||ANCOVA|||T2DM||0.905|-11.367|0.093
92187764|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|2.013||0.769|TWO_SIDED|95.0|-4.579|3.393|||ANCOVA|||Overall Study||3.393|-4.579|0.769
92187765|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|2.043||0.839|TWO_SIDED|95.0|-4.462|3.63|||ANCOVA|||Overall Study||3.630|-4.462|0.839
92187766|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|1.807||0.496|TWO_SIDED|95.0|-4.811|2.345|||ANCOVA|||Overall Study||2.345|-4.811|0.496
92187767|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|1.774||0.237|TWO_SIDED|95.0|-5.622|1.402|||ANCOVA|||Overall Study||1.402|-5.622|0.237
92187768|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|3.2||0.758|TWO_SIDED|95.0|-5.435|7.415|||ANCOVA|||Dysglycemic||7.415|-5.435|0.758
92187769|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|3.23||0.978|TWO_SIDED|95.0|-6.574|6.397|||ANCOVA|||Dysglycemic||6.397|-6.574|0.978
92303788|NCT02504671|184511793|OTHER||Difference|24.3|||||TWO_SIDED|95.0|6.9|41.8|||||Week 4, ACR20. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.8|6.9|
92303789|NCT02504671|184511793|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Week 4, ACR50. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.3|-10.3|
92303790|NCT02504671|184511793|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Week 4, ACR50. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.3|-10.3|
92303791|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-7.0|17.8|||||Week 4, ACR50. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||17.8|-7.0|
92303792|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 4, ACR70. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303793|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-9.3|30.9|||||Week 6, ACR20. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||30.9|-9.3|
92187770|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|1.84|STANDARD_ERROR_OF_MEAN|2.79||0.512|TWO_SIDED|95.0|-3.758|7.444|||ANCOVA|||Dysglycemic||7.444|-3.758|0.512
92187771|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|2.792||0.985|TWO_SIDED|95.0|-5.552|5.657|||ANCOVA|||Dysglycemic||5.657|-5.552|0.985
92187772|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|-2.07|STANDARD_ERROR_OF_MEAN|2.599||0.428|TWO_SIDED|95.0|-7.268|3.121|||ANCOVA|||T2DM||3.121|-7.268|0.428
92187773|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|2.669||0.846|TWO_SIDED|95.0|-5.853|4.812|||ANCOVA|||T2DM||4.812|-5.853|0.846
92187774|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|-4.05|STANDARD_ERROR_OF_MEAN|2.388||0.095|TWO_SIDED|95.0|-8.825|0.721|||ANCOVA|||T2DM||0.721|-8.825|0.095
92187775|NCT03320941|184274036|OTHER|Dose Finding|Mean Difference (Final Values)|-3.99|STANDARD_ERROR_OF_MEAN|2.31||0.089|TWO_SIDED|95.0|-8.61|0.623|||ANCOVA|||T2DM||0.623|-8.610|0.089
92187776|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|-15.561|STANDARD_ERROR_OF_MEAN|21.4808||0.47|TWO_SIDED|95.0|-58.106|26.985|||ANCOVA|||Overall Study||26.985|-58.106|0.470
92187777|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|-6.343|STANDARD_ERROR_OF_MEAN|21.6316||0.77|TWO_SIDED|95.0|-49.187|36.501|||ANCOVA|||Overall Study||36.501|-49.187|0.770
92187778|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|26.527|STANDARD_ERROR_OF_MEAN|19.1803||0.169|TWO_SIDED|95.0|-11.462|64.516|||ANCOVA|||Overall Study||64.516|-11.462|0.169
92187779|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|-12.094|STANDARD_ERROR_OF_MEAN|18.8076||0.521|TWO_SIDED|95.0|-49.345|25.157|||ANCOVA|||Overall Study||25.157|-49.345|0.521
92187780|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|-22.115|STANDARD_ERROR_OF_MEAN|38.7858||0.571|TWO_SIDED|95.0|-100.058|55.828|||ANCOVA|||Dysglycemic||55.828|-100.058|0.571
92303794|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-11.7|27.9|||||Week 6, ACR20. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||27.9|-11.7|
92303795|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-9.3|30.9|||||Week 6, ACR20. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||30.9|-9.3|
92303796|NCT02504671|184511793|OTHER||Difference|-5.4|||||TWO_SIDED|95.0|-17.8|7.0|||||Week 6, ACR50. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.0|-17.8|
92303797|NCT02504671|184511793|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-16.0|10.6|||||Week 6, ACR50. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.6|-16.0|
92303798|NCT02504671|184511793|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-14.1|14.1|||||Week 6, ACR50. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-14.1|
92303799|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 6, ACR70. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303800|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 6, ACR70. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303801|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-10.1|26.3|||||Week 8, ACR20. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.3|-10.1|
92303802|NCT02504671|184511793|OTHER||Difference|24.3|||||TWO_SIDED|95.0|4.5|44.1|||||Week 8, ACR20. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||44.1|4.5|
92303803|NCT02504671|184511793|OTHER||Difference|29.7|||||TWO_SIDED|95.0|9.8|49.7|||||Week 8, ACR20. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||49.7|9.8|
92303804|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 8, ACR50. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
92303805|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 8, ACR50. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303806|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 8, ACR50. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303807|NCT02504671|184511793|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Week 8, ACR70. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92303808|NCT02504671|184511793|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Week 8, ACR70. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92303809|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 8, ACR70. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
92303810|NCT02504671|184511793|OTHER||Difference|24.3|||||TWO_SIDED|95.0|6.0|42.7|||||Week 12, ACR20. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.7|6.0|
92303811|NCT02504671|184511793|OTHER||Difference|29.7|||||TWO_SIDED|95.0|11.0|48.4|||||Week 12, ACR20. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.4|11.0|
92303812|NCT02504671|184511793|OTHER||Difference|40.5|||||TWO_SIDED|95.0|21.6|59.5|||||Week 12, ACR20. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||59.5|21.6|
92303813|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-10.6|16.0|||||Week 12, ACR50. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.0|-10.6|
92303814|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|2.1|35.7|||||Week 12, ACR50. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||35.7|2.1|
92187781|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|-22.948|STANDARD_ERROR_OF_MEAN|39.4994||0.564|TWO_SIDED|95.0|-102.325|56.429|||ANCOVA|||Dysglycemic||56.429|-102.325|0.564
92187782|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|31.322|STANDARD_ERROR_OF_MEAN|33.855||0.359|TWO_SIDED|95.0|-36.712|99.356|||ANCOVA|||Dysglycemic||99.356|-36.712|0.359
92187783|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|-6.901|STANDARD_ERROR_OF_MEAN|34.4309||0.842|TWO_SIDED|95.0|-76.093|62.29|||ANCOVA|||Dysglycemic||62.290|-76.093|0.842
92187784|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|-12.79|STANDARD_ERROR_OF_MEAN|24.3259||0.601|TWO_SIDED|95.0|-61.417|35.836|||ANCOVA|||T2DM||35.836|-61.417|0.601
92303815|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-0.2|32.6|||||Week 12, ACR50. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||32.6|-0.2|
92187785|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|9.302|STANDARD_ERROR_OF_MEAN|24.422||0.705|TWO_SIDED|95.0|-39.517|58.121|||ANCOVA|||T2DM||58.121|-39.517|0.705
92187786|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|20.94|STANDARD_ERROR_OF_MEAN|22.0444||0.346|TWO_SIDED|95.0|-23.126|65.007|||ANCOVA|||T2DM||65.007|-23.126|0.346
92187787|NCT03320941|184274037|OTHER|Dose Finding|Mean Difference (Final Values)|-13.863|STANDARD_ERROR_OF_MEAN|21.2205||0.516|TWO_SIDED|95.0|-56.283|28.556|||ANCOVA|||T2DM||28.556|-56.283|0.516
92187788|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|0.955|STANDARD_ERROR_OF_MEAN|3.605||0.792|TWO_SIDED|95.0|-6.185|8.095|||ANCOVA|||Overall Study||8.095|-6.185|0.792
92187789|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|-0.739|STANDARD_ERROR_OF_MEAN|3.7167||0.843|TWO_SIDED|95.0|-8.1|6.623|||ANCOVA|||Overall Study||6.623|-8.100|0.843
92187790|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|3.128|STANDARD_ERROR_OF_MEAN|3.2564||0.339|TWO_SIDED|95.0|-3.322|9.578|||ANCOVA|||Overall Study||9.578|-3.322|0.339
92187791|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|2.546|STANDARD_ERROR_OF_MEAN|3.1859||0.426|TWO_SIDED|95.0|-3.764|8.856|||ANCOVA|||Overall Study||8.856|-3.764|0.426
92187792|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|0.504|STANDARD_ERROR_OF_MEAN|5.8734||0.932|TWO_SIDED|95.0|-11.299|12.307|||ANCOVA|||Dysglycemic||12.307|-11.299|0.932
92187793|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|-2.458|STANDARD_ERROR_OF_MEAN|6.3493||0.7|TWO_SIDED|95.0|-15.217|10.302|||ANCOVA|||Dysglycemic||10.302|-15.217|0.700
92303816|NCT02504671|184511793|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-11.7|6.3|||||Week 12, ACR70. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||6.3|-11.7|
92303817|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 12, ACR70. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
92303818|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 12, ACR70. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
92303819|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-5.4|32.4|||||Week 16, ACR20. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||32.4|-5.4|
92303820|NCT02504671|184511793|OTHER||Difference|29.7|||||TWO_SIDED|95.0|9.8|49.7|||||Week 16, ACR20. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||49.7|9.8|
92303821|NCT02504671|184511793|OTHER||Difference|35.1|||||TWO_SIDED|95.0|15.1|55.1|||||Week 16, ACR20. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||55.1|15.1|
92303822|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-2.4|29.4|||||Week 16, ACR50. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.4|-2.4|
92303823|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|2.1|35.7|||||Week 16, ACR50. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||35.7|2.1|
92303824|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|2.1|35.7|||||Week 16, ACR50. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||35.7|2.1|
92303825|NCT02504671|184511793|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-11.7|6.3|||||Week 16, ACR70. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||6.3|-11.7|
92303826|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 16, ACR70. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
92303827|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 16, ACR70. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
92303828|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-10.1|26.3|||||Week 20, ACR20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.3|-10.1|
92303829|NCT02504671|184511793|OTHER||Difference|21.6|||||TWO_SIDED|95.0|2.0|41.2|||||Week 20, ACR20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.2|2.0|
92303830|NCT02504671|184511793|OTHER||Difference|37.8|||||TWO_SIDED|95.0|17.9|57.8|||||Week 20, ACR20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||57.8|17.9|
92303831|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-10.6|16.0|||||Week 20, ACR50. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.0|-10.6|
92303832|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-0.2|32.6|||||Week 20, ACR50. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||32.6|-0.2|
92303833|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-2.4|29.4|||||Week 20, ACR50. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.4|-2.4|
92303834|NCT02504671|184511793|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-11.7|6.3|||||Week 20, ACR70. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||6.3|-11.7|
92187794|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|7.832|STANDARD_ERROR_OF_MEAN|5.0946||0.131|TWO_SIDED|95.0|-2.406|18.07|||ANCOVA|||Dysglycemic||18.070|-2.406|0.131
92187795|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|1.825|STANDARD_ERROR_OF_MEAN|5.197||0.727|TWO_SIDED|95.0|-8.619|12.269|||ANCOVA|||Dysglycemic||12.269|-8.619|0.727
92303835|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-3.1|24.7|||||Week 20, ACR70. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.7|-3.1|
92303836|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 20, ACR70. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
92303837|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-6.9|28.5|||||Week 24, ACR20. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.5|-6.9|
92303838|NCT02504671|184511793|OTHER||Difference|27.0|||||TWO_SIDED|95.0|7.7|46.3|||||Week 24, ACR20. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.3|7.7|
92303839|NCT02504671|184511793|OTHER||Difference|43.2|||||TWO_SIDED|95.0|23.8|62.6|||||Week 24, ACR20. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||62.6|23.8|
92303840|NCT02504671|184511793|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-14.1|14.1|||||Week 24, ACR50. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-14.1|
92303841|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-1.2|33.7|||||Week 24, ACR50. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.7|-1.2|
92303842|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|1.1|36.7|||||Week 24, ACR50. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||36.7|1.1|
92303843|NCT02504671|184511793|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Week 24, ACR70. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.3|-10.3|
92187796|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|0.828|STANDARD_ERROR_OF_MEAN|4.5876||0.857|TWO_SIDED|95.0|-8.342|9.999|||ANCOVA|||T2DM||9.999|-8.342|0.857
92187797|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|-0.696|STANDARD_ERROR_OF_MEAN|4.7173||0.883|TWO_SIDED|95.0|-10.126|8.734|||ANCOVA|||T2DM||8.734|-10.126|0.883
92303844|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 24, ACR70. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
92303845|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 24, ACR70. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
92303846|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 28, ACR20. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303847|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 28, ACR20. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303848|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 28, ACR20. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303849|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 28, ACR50. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303850|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 28, ACR50. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92187798|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|-0.975|STANDARD_ERROR_OF_MEAN|4.2883||0.821|TWO_SIDED|95.0|-9.547|7.597|||ANCOVA|||T2DM||7.597|-9.547|0.821
92187799|NCT03320941|184274038|OTHER|Dose Finding|Mean Difference (Final Values)|2.488|STANDARD_ERROR_OF_MEAN|4.1111||0.547|TWO_SIDED|95.0|-5.73|10.706|||ANCOVA|||T2DM||10.706|-5.730|0.547
92303851|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 28, ACR50. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303852|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 28, ACR70. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303853|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 28, ACR70. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303854|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 28, ACR70. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92187800|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|4.954|STANDARD_ERROR_OF_MEAN|3.4006||0.148|TWO_SIDED|95.0|-1.781|11.689|||ANCOVA|||Overall Study||11.689|-1.781|0.148
92303855|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 32, ACR20. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303856|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 32, ACR20. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
92303857|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 32, ACR20. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
92303858|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 32, ACR50. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92187801|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|0.993|STANDARD_ERROR_OF_MEAN|3.4645||0.775|TWO_SIDED|95.0|-5.869|7.855|||ANCOVA|||Overall Study||7.855|-5.869|0.775
92303859|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 32, ACR50. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
92303860|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 32, ACR50. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303861|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 32, ACR70. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303862|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 32, ACR70. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303863|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 32, ACR70. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303864|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 36, ACR20. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303865|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 36, ACR20. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303866|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 36, ACR20. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303867|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 36, ACR50. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92187802|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|-1.799|STANDARD_ERROR_OF_MEAN|3.0432||0.556|TWO_SIDED|95.0|-7.826|4.229|||ANCOVA|||Overall Study||4.229|-7.826|0.556
92187803|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|3.566|STANDARD_ERROR_OF_MEAN|3.0079||0.238|TWO_SIDED|95.0|-2.391|9.524|||ANCOVA|||Overall Study||9.524|-2.391|0.238
92187804|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|3.811|STANDARD_ERROR_OF_MEAN|5.4552||0.488|TWO_SIDED|95.0|-7.152|14.774|||ANCOVA|||Dysglycemic||14.774|-7.152|0.488
92187805|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|4.659|STANDARD_ERROR_OF_MEAN|5.4845||0.4|TWO_SIDED|95.0|-6.363|15.68|||ANCOVA|||Dysglycemic||15.680|-6.363|0.400
92303868|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 36, ACR50. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303869|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 36, ACR50. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
92303870|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 36, ACR70. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303871|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 36, ACR70. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
92303872|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 36, ACR70. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92303873|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 40, ACR20. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303874|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 40, ACR20. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303875|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 40, ACR20. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
92303876|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 40, ACR50. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303877|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 40, ACR50. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303878|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 40, ACR50. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303879|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 40, ACR70. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303880|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 40, ACR70. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303881|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 40, ACR70. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303882|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 44, ACR20. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92187806|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|1.05|STANDARD_ERROR_OF_MEAN|4.7651||0.826|TWO_SIDED|95.0|-8.525|10.626|||ANCOVA|||Dysglycemic||10.626|-8.525|0.826
92187807|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|4.182|STANDARD_ERROR_OF_MEAN|4.7627||0.384|TWO_SIDED|95.0|-5.389|13.753|||ANCOVA|||Dysglycemic||13.753|-5.389|0.384
92303883|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 44, ACR20. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303884|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 44, ACR20. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303885|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 44, ACR50. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303886|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 44, ACR50. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303887|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 44, ACR50. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303888|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 44, ACR70. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303889|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 44, ACR70. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
92187808|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|5.563|STANDARD_ERROR_OF_MEAN|4.4636||0.217|TWO_SIDED|95.0|-3.36|14.486|||ANCOVA|||T2DM||14.486|-3.360|0.217
92187809|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|-2.019|STANDARD_ERROR_OF_MEAN|4.5491||0.659|TWO_SIDED|95.0|-11.112|7.074|||ANCOVA|||T2DM||7.074|-11.112|0.659
92187810|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|-4.316|STANDARD_ERROR_OF_MEAN|4.0556||0.291|TWO_SIDED|95.0|-12.423|3.791|||ANCOVA|||T2DM||3.791|-12.423|0.291
92187811|NCT03320941|184274039|OTHER|Dose Finding|Mean Difference (Final Values)|2.913|STANDARD_ERROR_OF_MEAN|4.0035||0.47|TWO_SIDED|95.0|-5.09|10.916|||ANCOVA|||T2DM||10.916|-5.090|0.470
92187812|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|1.308|STANDARD_ERROR_OF_MEAN|5.2049||0.802|TWO_SIDED|95.0|-9.001|11.617|||ANCOVA|||Overall Study||11.617|-9.001|0.802
92303890|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 44, ACR70. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92303891|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 48, ACR20. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303892|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 48, ACR20. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303893|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 48, ACR20. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303894|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 48, ACR50. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303895|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 48, ACR50. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303896|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 48, ACR50. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303897|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 48, ACR70. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303898|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 48, ACR70. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
92303899|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Week 48, ACR70. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92303900|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 52, ACR20. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303901|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR20. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303902|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR20. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303903|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 52, ACR50. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92187813|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|-1.812|STANDARD_ERROR_OF_MEAN|5.4301||0.739|TWO_SIDED|95.0|-12.567|8.943|||ANCOVA|||Overall Study||8.943|-12.567|0.739
92187814|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|0.588|STANDARD_ERROR_OF_MEAN|4.7125||0.901|TWO_SIDED|95.0|-8.745|9.922|||ANCOVA|||Overall Study||9.922|-8.745|0.901
92187815|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|5.278|STANDARD_ERROR_OF_MEAN|4.6095||0.255|TWO_SIDED|95.0|-3.852|14.407|||ANCOVA|||Overall Study||14.407|-3.852|0.255
92303904|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR50. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92187816|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|0.928|STANDARD_ERROR_OF_MEAN|8.5585||0.914|TWO_SIDED|95.0|-16.271|18.127|||ANCOVA|||Dysglycemic||18.127|-16.271|0.914
92303905|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR50. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303906|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 52, ACR70. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303907|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|4.3|28.1|||||Week 52, ACR70. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|4.3|
92303908|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 52, ACR70. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92303909|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 62 (follow-up), ACR20. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303910|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 62 (follow-up), ACR20. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303911|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 62 (follow-up), ACR20. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
92187817|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|9.2308||0.959|TWO_SIDED|95.0|-19.03|18.07|||ANCOVA|||Dysglycemic||18.070|-19.030|0.959
92187818|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|6.572|STANDARD_ERROR_OF_MEAN|7.422||0.38|TWO_SIDED|95.0|-8.343|21.487|||ANCOVA|||Dysglycemic||21.487|-8.343|0.380
92187819|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|6.121|STANDARD_ERROR_OF_MEAN|7.5174||0.419|TWO_SIDED|95.0|-8.986|21.228|||ANCOVA|||Dysglycemic||21.228|-8.986|0.419
92187820|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|0.785|STANDARD_ERROR_OF_MEAN|6.6209||0.906|TWO_SIDED|95.0|-12.45|14.02|||ANCOVA|||T2DM||14.020|-12.450|0.906
92187821|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|-4.504|STANDARD_ERROR_OF_MEAN|6.8489||0.513|TWO_SIDED|95.0|-18.195|9.187|||ANCOVA|||T2DM||9.187|-18.195|0.513
92187822|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|-4.237|STANDARD_ERROR_OF_MEAN|6.23||0.499|TWO_SIDED|95.0|-16.691|8.216|||ANCOVA|||T2DM||8.216|-16.691|0.499
92187823|NCT03320941|184274040|OTHER|Dose Finding|Mean Difference (Final Values)|3.86|STANDARD_ERROR_OF_MEAN|5.9073||0.516|TWO_SIDED|95.0|-7.948|15.669|||ANCOVA|||T2DM||15.669|-7.948|0.516
92303912|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 62 (follow-up), ACR50. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92303913|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 62 (follow-up), ACR50. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303914|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 62 (follow-up), ACR50. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303915|NCT02504671|184511793|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Week 62 (follow-up), ACR70. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92303916|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 62 (follow-up), ACR70. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303917|NCT02504671|184511793|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Week 62 (follow-up), ACR70. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92303918|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 1, ACR20. Difference to Placebo is presented for Week 1. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303919|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 1, ACR20. Difference to Placebo is presented for Week 1. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
92303920|NCT02504671|184511793|OTHER||Difference|29.7|||||TWO_SIDED|95.0|12.7|46.8|||||Week 2, ACR20. Difference to Placebo is presented for Week 2. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.8|12.7|
92303921|NCT02504671|184511793|OTHER||Difference|37.8|||||TWO_SIDED|95.0|20.3|55.4|||||Week 2, ACR20. Difference to Placebo is presented for Week 2. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||55.4|20.3|
92303922|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 2, ACR50. Difference to Placebo is presented for Week 2. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92187824|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|44.82||||0.625|TWO_SIDED|95.0|-136.644|226.284|||ANCOVA|||Overall Study||226.284|-136.644|0.625
92187825|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|162.273||||0.079|TWO_SIDED|95.0|-19.326|343.871|||ANCOVA|||Overall Study||343.871|-19.326|0.079
92303923|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 2, ACR50. Difference to Placebo is presented for Week 2. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303924|NCT02504671|184511793|OTHER||Difference|37.8|||||TWO_SIDED|95.0|19.5|56.1|||||Week 4, ACR20. Difference to Placebo is presented for Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||56.1|19.5|
92303925|NCT02504671|184511793|OTHER||Difference|51.4|||||TWO_SIDED|95.0|19.5|56.1|||||Week 4, ACR20. Difference to Placebo is presented for Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||56.1|19.5|
92303926|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-8.7|14.1|||||Week 4, ACR50. Difference to Placebo is presented for Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-8.7|
92187826|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|69.062||||0.384|TWO_SIDED|95.0|-87.493|225.617|||ANCOVA|||Overall Study||225.617|-87.493|0.384
92187827|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|37.733||||0.627|TWO_SIDED|95.0|-115.58|191.045|||ANCOVA|||Overall Study||191.045|-115.580|0.627
92187828|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|22.879||||0.797|TWO_SIDED|95.0|-155.244|201.003|||ANCOVA|||Dysglycemic||201.003|-155.244|0.797
92187829|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|12.891||||0.882|TWO_SIDED|95.0|-160.215|185.996|||ANCOVA|||Dysglycemic||185.996|-160.215|0.882
92187830|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|-30.447||||0.675|TWO_SIDED|95.0|-175.796|114.902|||ANCOVA|||Dysglycemic||114.902|-175.796|0.675
92187831|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|-37.264||||0.607|TWO_SIDED|95.0|-182.099|107.571|||ANCOVA|||Dysglycemic||107.571|-182.099|0.607
92187832|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|84.822||||0.591|TWO_SIDED|95.0|-229.131|398.775|||ANCOVA|||T2DM||398.775|-229.131|0.591
92187833|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|287.328||||0.066|TWO_SIDED|95.0|-19.533|594.19|||ANCOVA|||T2DM||594.190|-19.533|0.066
92187834|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|156.017||||0.252|TWO_SIDED|95.0|-113.963|425.997|||ANCOVA|||T2DM||425.997|-113.963|0.252
92187835|NCT03320941|184274041|OTHER|Dose Finding|Mean Difference (Final Values)|103.135||||0.431|TWO_SIDED|95.0|-157.287|363.556|||ANCOVA|||T2DM||363.556|-157.287|0.431
92187836|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-65.1|STANDARD_ERROR_OF_MEAN|13.03|<|0.001|TWO_SIDED|95.0|-90.864|-39.251|||ANCOVA|||Overall Study||-39.251|-90.864|<0.001
92187837|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-67.7|STANDARD_ERROR_OF_MEAN|13.21|<|0.001|TWO_SIDED|95.0|-93.848|-41.542|||ANCOVA|||Overall Study||-41.542|-93.848|<0.001
92187838|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-70.8|STANDARD_ERROR_OF_MEAN|11.67|<|0.001|TWO_SIDED|95.0|-93.942|-47.735|||ANCOVA|||Overall Study||-47.735|-93.942|<0.001
92187839|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-74.4|STANDARD_ERROR_OF_MEAN|11.47|<|0.001|TWO_SIDED|95.0|-97.117|-51.704|||ANCOVA|||Overall Study||-51.704|-97.117|<0.001
92187840|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-86.9|STANDARD_ERROR_OF_MEAN|24.35|<|0.001|TWO_SIDED|95.0|-135.78|-38.013|||ANCOVA|||Dysglycemic||-38.013|-135.780|<0.001
92187841|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-86.1|STANDARD_ERROR_OF_MEAN|24.01|<|0.001|TWO_SIDED|95.0|-134.266|-37.874|||ANCOVA|||Dysglycemic||-37.874|-134.266|<0.001
92303927|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-8.7|14.1|||||Week 4, ACR50. Difference to Placebo is presented for Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-8.7|
92303928|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 4, ACR70. Difference to Placebo is presented for Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303929|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-6.8|33.8|||||Week 6, ACR20. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.8|-6.8|
92303930|NCT02504671|184511793|OTHER||Difference|24.3|||||TWO_SIDED|95.0|3.5|45.2|||||Week 6, ACR20. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||45.2|3.5|
92303931|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-12.2|17.6|||||Week 6, ACR50. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||17.6|-12.2|
92303932|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-12.2|17.6|||||Week 6, ACR50. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||17.6|-12.2|
92303933|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 6, ACR70. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92303934|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 6, ACR70. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92303935|NCT02504671|184511793|OTHER||Difference|32.4|||||TWO_SIDED|95.0|12.4|52.4|||||Week 8, ACR20. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||52.4|12.4|
92303936|NCT02504671|184511793|OTHER||Difference|35.1|||||TWO_SIDED|95.0|15.1|55.1|||||Week 8, ACR20. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||55.1|15.1|
92303937|NCT02504671|184511793|OTHER||Difference|21.6|||||TWO_SIDED|95.0|6.8|36.4|||||Week 8, ACR50. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||36.4|6.8|
92303938|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 8, ACR50. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92303939|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 8, ACR70. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92303940|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 8, ACR70. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
92187842|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-81.1|STANDARD_ERROR_OF_MEAN|21.04|<|0.001|TWO_SIDED|95.0|-123.369|-38.883|||ANCOVA|||Dysglycemic||-38.883|-123.369|<0.001
92187843|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-84.9|STANDARD_ERROR_OF_MEAN|21.03|<|0.001|TWO_SIDED|95.0|-127.104|-42.669|||ANCOVA|||Dysglycemic||-42.669|-127.104|<0.001
92303941|NCT02504671|184511793|OTHER||Difference|29.7|||||TWO_SIDED|95.0|11.0|48.4|||||Week 12, ACR20. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.4|11.0|
92303942|NCT02504671|184511793|OTHER||Difference|40.5|||||TWO_SIDED|95.0|21.6|59.5|||||Week 12, ACR20. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||59.5|21.6|
92187844|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-47.5|STANDARD_ERROR_OF_MEAN|13.52|<|0.001|TWO_SIDED|95.0|-74.493|-20.461|||ANCOVA|||T2DM||-20.461|-74.493|<0.001
92187845|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-53.1|STANDARD_ERROR_OF_MEAN|13.93|<|0.001|TWO_SIDED|95.0|-80.914|-25.251|||ANCOVA|||T2DM||-25.251|-80.914|<0.001
92187846|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-61.8|STANDARD_ERROR_OF_MEAN|12.43|<|0.001|TWO_SIDED|95.0|-86.627|-36.937|||ANCOVA|||T2DM||-36.937|-86.627|<0.001
92303943|NCT02504671|184511793|OTHER||Difference|21.6|||||TWO_SIDED|95.0|4.5|38.8|||||Week 12, ACR50. Difference to Placebo is presented for Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||38.8|4.5|
92303944|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-2.4|29.4|||||Week 12, ACR50. Difference to Placebo is presented for Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.4|-2.4|
92187847|NCT03320941|184274042|OTHER|Dose Finding|Mean Difference (Final Values)|-65.0|STANDARD_ERROR_OF_MEAN|12.15|<|0.001|TWO_SIDED|95.0|-89.291|-40.713|||ANCOVA|||T2DM||-40.713|-89.291|<0.001
92187848|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|-0.556|STANDARD_ERROR_OF_MEAN|1.845||0.764|TWO_SIDED|95.0|-4.21|3.098|||ANCOVA|||Overall Study||3.098|-4.210|0.764
92187849|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|1.289|STANDARD_ERROR_OF_MEAN|1.8741||0.493|TWO_SIDED|95.0|-2.423|5.001|||ANCOVA|||Overall Study||5.001|-2.423|0.493
92187850|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|-2.621|STANDARD_ERROR_OF_MEAN|1.6596||0.117|TWO_SIDED|95.0|-5.908|0.666|||ANCOVA|||Overall Study||0.666|-5.908|0.117
92187851|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|-1.818|STANDARD_ERROR_OF_MEAN|1.6349||0.269|TWO_SIDED|95.0|-5.056|1.421|||ANCOVA|||Overall Study||1.421|-5.056|0.269
92187852|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|1.671|STANDARD_ERROR_OF_MEAN|1.1677||0.159|TWO_SIDED|95.0|-0.676|4.017|||ANCOVA|||Dysglycemic||4.017|-0.676|0.159
92187853|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|5.641|STANDARD_ERROR_OF_MEAN|1.1678|<|0.001|TWO_SIDED|95.0|3.294|7.988|||ANCOVA|||Dysglycemic||7.988|3.294|<0.001
92187854|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|1.155|STANDARD_ERROR_OF_MEAN|1.0371||0.271|TWO_SIDED|95.0|-0.929|3.239|||ANCOVA|||Dysglycemic||3.239|-0.929|0.271
92303945|NCT02504671|184511793|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-8.7|14.1|||||Week 12, ACR70. Difference to Placebo is presented for Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-8.7|
92303946|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-7.0|17.8|||||Week 12, ACR70. Difference to Placebo is presented for Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||17.8|-7.0|
92303947|NCT02504671|184511793|OTHER||Difference|24.3|||||TWO_SIDED|95.0|4.5|44.1|||||Week 16, ACR20. Difference to Placebo is presented for Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||44.1|4.5|
92303948|NCT02504671|184511793|OTHER||Difference|51.4|||||TWO_SIDED|95.0|32.2|70.5|||||Week 16, ACR20. Difference to Placebo is presented for Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||70.5|32.2|
92303949|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|2.1|35.7|||||Week 16, ACR50. Difference to Placebo is presented for Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||35.7|2.1|
92303950|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-2.4|29.4|||||Week 16, ACR50. Difference to Placebo is presented for Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.4|-2.4|
92303951|NCT02504671|184511793|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-7.0|17.8|||||Week 16, ACR70. Difference to Placebo is presented for Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||17.8|-7.0|
92303952|NCT02504671|184511793|OTHER||Difference|21.6|||||TWO_SIDED|95.0|2.0|41.2|||||Week 20, ACR20. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.2|2.0|
92303953|NCT02504671|184511793|OTHER||Difference|43.2|||||TWO_SIDED|95.0|23.5|63.0|||||Week 20, ACR20. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||63.0|23.5|
92303954|NCT02504671|184511793|OTHER||Difference|24.3|||||TWO_SIDED|95.0|6.9|41.8|||||Week 20, ACR50. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.8|6.9|
92303955|NCT02504671|184511793|OTHER||Difference|21.6|||||TWO_SIDED|95.0|4.5|38.8|||||Week 20, ACR50. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||38.8|4.5|
92303956|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|3.3|34.5|||||Week 20, ACR70. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||34.5|3.3|
92303957|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 20, ACR70. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
92187855|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|1.019||0.841|TWO_SIDED|95.0|-1.842|2.253|||ANCOVA|||Dysglycemic||2.253|-1.842|0.841
92187856|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|-3.725|STANDARD_ERROR_OF_MEAN|2.518||0.144|TWO_SIDED|95.0|-8.758|1.309|||ANCOVA|||T2DM||1.309|-8.758|0.144
92187857|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|-0.877|STANDARD_ERROR_OF_MEAN|2.5906||0.736|TWO_SIDED|95.0|-6.055|4.302|||ANCOVA|||T2DM||4.302|-6.055|0.736
92187858|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|-3.431|STANDARD_ERROR_OF_MEAN|2.3113||0.143|TWO_SIDED|95.0|-8.051|1.19|||ANCOVA|||T2DM||1.190|-8.051|0.143
92187859|NCT03320941|184274043|OTHER|Dose Finding|Mean Difference (Final Values)|-1.991|STANDARD_ERROR_OF_MEAN|2.2659||0.383|TWO_SIDED|95.0|-6.521|2.538|||ANCOVA|||T2DM||2.538|-6.521|0.383
92187860|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|0.654|STANDARD_ERROR_OF_MEAN|1.1543||0.572|TWO_SIDED|95.0|-1.632|2.941|||ANCOVA|||Overall Study||2.941|-1.632|0.572
92187861|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|0.655|STANDARD_ERROR_OF_MEAN|1.1738||0.578|TWO_SIDED|95.0|-1.67|2.98|||ANCOVA|||Overall Study||2.980|-1.670|0.578
92303958|NCT02504671|184511793|OTHER||Difference|27.0|||||TWO_SIDED|95.0|7.7|46.3|||||Week 24, ACR20. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.3|7.7|
92187862|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|-1.048|STANDARD_ERROR_OF_MEAN|1.0479||0.319|TWO_SIDED|95.0|-3.124|1.028|||ANCOVA|||Overall Study||1.028|-3.124|0.319
92187863|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|-0.374|STANDARD_ERROR_OF_MEAN|1.0303||0.717|TWO_SIDED|95.0|-2.416|1.667|||ANCOVA|||Overall Study||1.667|-2.416|0.717
92187864|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.563||0.317|TWO_SIDED|95.0|-0.562|1.701|||ANCOVA|||Dysglycemic||1.701|-0.562|0.317
92187865|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|1.609|STANDARD_ERROR_OF_MEAN|0.5716||0.007|TWO_SIDED|95.0|0.46|2.758|||ANCOVA|||Dysglycemic||2.758|0.460|0.007
92187866|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|0.352|STANDARD_ERROR_OF_MEAN|0.5029||0.487|TWO_SIDED|95.0|-0.659|1.362|||ANCOVA|||Dysglycemic||1.362|-0.659|0.487
92187867|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.4917||0.833|TWO_SIDED|95.0|-0.884|1.092|||ANCOVA|||Dysglycemic||1.092|-0.884|0.833
92187868|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|0.605|STANDARD_ERROR_OF_MEAN|2.073||0.771|TWO_SIDED|95.0|-3.541|4.752|||ANCOVA|||T2DM||4.752|-3.541|0.771
92187869|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|2.1453||0.991|TWO_SIDED|95.0|-4.315|4.267|||ANCOVA|||T2DM||4.267|-4.315|0.991
92187870|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|-2.166|STANDARD_ERROR_OF_MEAN|1.9486||0.271|TWO_SIDED|95.0|-6.064|1.732|||ANCOVA|||T2DM||1.732|-6.064|0.271
92187871|NCT03320941|184274044|OTHER|Dose Finding|Mean Difference (Final Values)|-0.792|STANDARD_ERROR_OF_MEAN|1.8889||0.676|TWO_SIDED|95.0|-4.57|2.986|||ANCOVA|||T2DM||2.986|-4.570|0.676
92187872|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|4.7535||0.968|TWO_SIDED|95.0|-9.603|9.222|||ANCOVA|||Overall Study||9.222|-9.603|0.968
92187873|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|-1.883|STANDARD_ERROR_OF_MEAN|4.7545||0.693|TWO_SIDED|95.0|-11.297|7.531|||ANCOVA|||Overall Study||7.531|-11.297|0.693
92187874|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|-5.236|STANDARD_ERROR_OF_MEAN|4.2623||0.222|TWO_SIDED|95.0|-13.676|3.203|||ANCOVA|||Overall Study||3.203|-13.676|0.222
92187875|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|-7.403|STANDARD_ERROR_OF_MEAN|4.1637||0.078|TWO_SIDED|95.0|-15.648|0.841|||ANCOVA|||Overall Study||0.841|-15.648|0.078
92187876|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|-1.142|STANDARD_ERROR_OF_MEAN|6.0033||0.85|TWO_SIDED|95.0|-13.194|10.91|||ANCOVA|||Dysglycemic||10.910|-13.194|0.850
92303959|NCT02504671|184511793|OTHER||Difference|45.9|||||TWO_SIDED|95.0|26.7|65.2|||||Week 24, ACR20. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||65.2|26.7|
92303960|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-3.6|30.6|||||Week 24, ACR50. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||30.6|-3.6|
92303961|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-1.2|33.7|||||Week 24, ACR50. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.7|-1.2|
92303962|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 24, ACR70. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
92303963|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 24, ACR70. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
92303964|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 28, ACR20. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303965|NCT02504671|184511793|OTHER||Difference|64.9|||||TWO_SIDED|95.0|48.9|80.8|||||Week 28, ACR20. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||80.8|48.9|
92303966|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 28, ACR50. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303967|NCT02504671|184511793|OTHER||Difference|21.6|||||TWO_SIDED|95.0|6.8|36.4|||||Week 28, ACR50. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||36.4|6.8|
92303968|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 28, ACR70. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
92303969|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 28, ACR70. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303970|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 32, ACR20. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303971|NCT02504671|184511793|OTHER||Difference|51.4|||||TWO_SIDED|95.0|34.5|68.2|||||Week 32, ACR20. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.2|34.5|
92303972|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 32, ACR50. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303973|NCT02504671|184511793|OTHER||Difference|27.0|||||TWO_SIDED|95.0|11.4|42.7|||||Week 32, ACR50. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.7|11.4|
92303974|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 32, ACR70. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303975|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 32, ACR70. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92187877|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|-6.048|STANDARD_ERROR_OF_MEAN|5.7919||0.301|TWO_SIDED|95.0|-17.676|5.58|||ANCOVA|||Dysglycemic||5.580|-17.676|0.301
92187878|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|-5.587|STANDARD_ERROR_OF_MEAN|5.2598||0.293|TWO_SIDED|95.0|-16.147|4.972|||ANCOVA|||Dysglycemic||4.972|-16.147|0.293
92187879|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|-6.943|STANDARD_ERROR_OF_MEAN|5.2191||0.189|TWO_SIDED|95.0|-17.421|3.535|||ANCOVA|||Dysglycemic||3.535|-17.421|0.189
92303976|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 36, ACR20. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303977|NCT02504671|184511793|OTHER||Difference|56.8|||||TWO_SIDED|95.0|40.1|73.4|||||Week 36, ACR20. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||73.4|40.1|
92303978|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 36, ACR50. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303979|NCT02504671|184511793|OTHER||Difference|32.4|||||TWO_SIDED|95.0|16.2|48.7|||||Week 36, ACR50. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.7|16.2|
92303980|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|4.3|28.1|||||Week 36, ACR70. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|4.3|
92303981|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 36, ACR70. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92303982|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 40, ACR20. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303983|NCT02504671|184511793|OTHER||Difference|51.4|||||TWO_SIDED|95.0|34.5|68.2|||||Week 40, ACR20. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.2|34.5|
92303984|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 40, ACR50. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303985|NCT02504671|184511793|OTHER||Difference|29.7|||||TWO_SIDED|95.0|13.8|45.7|||||Week 40, ACR50. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||45.7|13.8|
92303986|NCT02504671|184511793|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 40, ACR70. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
92303987|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 40, ACR70. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303988|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 44, ACR20. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303989|NCT02504671|184511793|OTHER||Difference|51.4|||||TWO_SIDED|95.0|34.5|68.2|||||Week 44, ACR20. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.2|34.5|
92303990|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 44, ACR50. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92303991|NCT02504671|184511793|OTHER||Difference|35.1|||||TWO_SIDED|95.0|18.7|51.6|||||Week 44, ACR50. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||51.6|18.7|
92303992|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 44, ACR70. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92303993|NCT02504671|184511793|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 44, ACR70. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
92303994|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 48, ACR20. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303995|NCT02504671|184511793|OTHER||Difference|51.4|||||TWO_SIDED|95.0|37.3|70.9|||||Week 48, ACR20. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||70.9|37.3|
92303996|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 48, ACR50. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92303997|NCT02504671|184511793|OTHER||Difference|32.4|||||TWO_SIDED|95.0|16.2|48.7|||||Week 48, ACR50. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.7|16.2|
92303998|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 48, ACR70. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92303999|NCT02504671|184511793|OTHER||Difference|21.6|||||TWO_SIDED|95.0|8.4|34.9|||||Week 48, ACR70. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||34.9|8.4|
92304000|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR20. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92187880|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|0.676|STANDARD_ERROR_OF_MEAN|7.2441||0.926|TWO_SIDED|95.0|-13.8|15.152|||ANCOVA|||T2DM||15.152|-13.800|0.926
92187881|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|1.202|STANDARD_ERROR_OF_MEAN|7.5086||0.873|TWO_SIDED|95.0|-13.802|16.207|||ANCOVA|||T2DM||16.207|-13.802|0.873
92187882|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|-5.779|STANDARD_ERROR_OF_MEAN|6.6977||0.391|TWO_SIDED|95.0|-19.164|7.605|||ANCOVA|||T2DM||7.605|-19.164|0.391
92187883|NCT03320941|184274045|OTHER|Dose Finding|Mean Difference (Final Values)|-7.591|STANDARD_ERROR_OF_MEAN|6.3822||0.239|TWO_SIDED|95.0|-20.345|5.163|||ANCOVA|||T2DM||5.163|-20.345|0.239
92187884|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-3.086|STANDARD_ERROR_OF_MEAN|2.8326||0.278|TWO_SIDED|95.0|-8.696|2.525|||ANCOVA|||Overall Study||2.525|-8.696|0.278
92187885|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-0.977|STANDARD_ERROR_OF_MEAN|2.859||0.733|TWO_SIDED|95.0|-6.639|4.686|||ANCOVA|||Overall Study||4.686|-6.639|0.733
92187886|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-4.507|STANDARD_ERROR_OF_MEAN|2.5118||0.075|TWO_SIDED|95.0|-9.482|0.468|||ANCOVA|||Overall Study||0.468|-9.482|0.075
92187887|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-2.268|STANDARD_ERROR_OF_MEAN|2.4659||0.36|TWO_SIDED|95.0|-7.152|2.616|||ANCOVA|||Overall Study||2.616|-7.152|0.360
92187888|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-3.147|STANDARD_ERROR_OF_MEAN|4.1699||0.416|TWO_SIDED|95.0|-11.792|4.959|||ANCOVA|||Dysglycemic||4.959|-11.792|0.416
92187889|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-1.634|STANDARD_ERROR_OF_MEAN|4.1121||0.693|TWO_SIDED|95.0|-9.893|6.625|||ANCOVA|||Dysglycemic||6.625|-9.893|0.693
92304001|NCT02504671|184511793|OTHER||Difference|48.6|||||TWO_SIDED|95.0|31.7|65.6|||||Week 52, ACR20. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||65.6|31.7|
92304002|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR50. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92304003|NCT02504671|184511793|OTHER||Difference|24.3|||||TWO_SIDED|95.0|9.1|39.6|||||Week 52, ACR50. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||39.6|9.1|
92304004|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 52, ACR70. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304005|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 52, ACR70. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304006|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 62 (follow-up), ACR20. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92304007|NCT02504671|184511793|OTHER||Difference|40.5|||||TWO_SIDED|95.0|23.7|57.3|||||Week 62 (follow-up), ACR20. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||57.3|23.7|
92304008|NCT02504671|184511793|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 62 (follow-up), ACR50. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
92304009|NCT02504671|184511793|OTHER||Difference|24.3|||||TWO_SIDED|95.0|9.1|39.6|||||Week 62 (follow-up), ACR50. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||39.6|9.1|
92304010|NCT02504671|184511793|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 62 (follow-up), ACR70. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
92304011|NCT02504671|184511793|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 62 (follow-up), ACR70. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
92304012|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 4. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304013|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304014|NCT02504671|184511794|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Index based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92304015|NCT02504671|184511794|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Index based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92304016|NCT02504671|184511794|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92304017|NCT02504671|184511794|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Index based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92304018|NCT02504671|184511794|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Index based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92304019|NCT02504671|184511794|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92304020|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92187890|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-2.906|STANDARD_ERROR_OF_MEAN|3.6351||0.428|TWO_SIDED|95.0|-10.207|4.396|||ANCOVA|||Dysglycemic||4.396|-10.207|0.428
92304021|NCT02504671|184511794|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304022|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304023|NCT02504671|184511794|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304024|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304025|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92187891|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|2.201|STANDARD_ERROR_OF_MEAN|3.6414||0.548|TWO_SIDED|95.0|-5.113|9.515|||ANCOVA|||Dysglycemic||9.515|-5.113|0.548
92187892|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-2.636|STANDARD_ERROR_OF_MEAN|3.8828||0.5|TWO_SIDED|95.0|-10.4|5.128|||ANCOVA|||T2DM||5.128|-10.400|0.500
92304026|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304027|NCT02504671|184511794|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304028|NCT02504671|184511794|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304029|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304030|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304031|NCT02504671|184511794|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304032|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304033|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92187893|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-0.826|STANDARD_ERROR_OF_MEAN|3.9906||0.837|TWO_SIDED|95.0|-8.805|7.154|||ANCOVA|||T2DM||7.154|-8.805|0.837
92187894|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-5.594|STANDARD_ERROR_OF_MEAN|3.4818||0.113|TWO_SIDED|95.0|-12.556|1.368|||ANCOVA|||T2DM||1.368|-12.556|0.113
92304034|NCT02504671|184511794|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304035|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304036|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304037|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304038|NCT02504671|184511794|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304039|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304040|NCT02504671|184511794|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304041|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92187895|NCT03320941|184274046|OTHER|Dose Finding|Mean Difference (Final Values)|-5.66|STANDARD_ERROR_OF_MEAN|3.3512||0.096|TWO_SIDED|95.0|-12.361|1.041|||ANCOVA|||T2DM||1.041|-12.361|0.096
92187896|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Extinction Learning CS+E Amygdala- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92187897|NCT02069366|184274067|SUPERIORITY|||||||0.041||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Extinction Learning CS+E Hippocampus- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.041
92187898|NCT02069366|184274067|SUPERIORITY|||||||0.04||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Extinction Learning CS+E vmPFC- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U)||||0.040
92187899|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Extinction Learning CS- Amygdala- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92304042|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304043|NCT02504671|184511794|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304044|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304045|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92187900|NCT02069366|184274067|SUPERIORITY|||||||0.041||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Extinction Learning CS- Hippocampus- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.041
92187901|NCT02069366|184274067|SUPERIORITY|||||||0.04||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus time factors.||This analysis corresponds to the row 'Extinction Learning CS- vmPFC- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.040
92187902|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+E Amygdala- Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92187903|NCT02069366|184274067|SUPERIORITY|||||||0.027||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+E Hippocampus-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.027
92187904|NCT02069366|184274067|SUPERIORITY|||||||0.019||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+E vmPFC-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.019
92187905|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS- Amygdala-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92304046|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304047|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 2. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304048|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 4. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304049|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304050|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304051|NCT02504671|184511794|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92304052|NCT02504671|184511794|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92304053|NCT02504671|184511794|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92304054|NCT02504671|184511794|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92304055|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304056|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304057|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|12.7|||||Index based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-2.5|
92304058|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|68.2|||||Index based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.2|-1.9|
92304059|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304060|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304061|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304062|NCT02504671|184511794|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304063|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304064|NCT02504671|184511794|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304065|NCT02504671|184511794|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304066|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304067|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304068|NCT02504671|184511794|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304069|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304070|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304071|NCT02504671|184511794|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304072|NCT02504671|184511794|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304073|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304074|NCT02504671|184511794|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304075|NCT02504671|184511794|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304076|NCT02504671|184511794|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304077|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304078|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304079|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304080|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304081|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304082|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304083|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92187906|NCT02069366|184274067|SUPERIORITY|||||||0.027||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS- Hippocampus-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.027
92187907|NCT02069366|184274067|SUPERIORITY|||||||0.019||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS- vmPFC-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.019
92187908|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+U Amygdala-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92187909|NCT02069366|184274067|SUPERIORITY|||||||0.027||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+U Hippocampus-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.027
92304084|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304085|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304086|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92187910|NCT02069366|184274067|SUPERIORITY|||||||0.019||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+U vmPFC-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.019
92304087|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304088|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304089|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304090|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304091|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304092|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304093|NCT02504671|184511795|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Boolean based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304094|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92187911|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+E Amygdala-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92187912|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+E Hippocampus- Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92304095|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304096|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304097|NCT02504671|184511795|OTHER||Difference|21.6|||||TWO_SIDED|95.0|0.4|42.8|||||Boolean based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.8|0.4|
92304098|NCT02504671|184511795|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Boolean based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304099|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304100|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304101|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304102|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 2. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304103|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92187913|NCT02069366|184274067|SUPERIORITY|||||||0.025||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+E vmPFC- Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.025
92187914|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS- Amygdala- Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92187915|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS- Hippocampus-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92187916|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS- vmPFC-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92304104|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304105|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304106|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304107|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304108|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304109|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304110|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304111|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304112|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304113|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304114|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304115|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304116|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304117|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304118|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304119|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304120|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92187917|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+U Amygdala-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92187918|NCT02069366|184274067|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+U Hippocampus-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
92187919|NCT02069366|184274067|SUPERIORITY|||||||0.025||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+U vmPFC-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.025
92304121|NCT02504671|184511795|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304122|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304123|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304124|NCT02504671|184511795|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Boolean based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304125|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304126|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304127|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304128|NCT02504671|184511795|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304129|NCT02504671|184511795|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304130|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 4, Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304131|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304132|NCT02504671|184511796|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||CDAI, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92304133|NCT02504671|184511796|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||CDAI, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92187920|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS+E Early- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187921|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS+U Early- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187922|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS-Early- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92304134|NCT02504671|184511796|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||CDAI, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92304135|NCT02504671|184511796|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||CDAI, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92304136|NCT02504671|184511796|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||CDAI, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
92304137|NCT02504671|184511796|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||CDAI, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
92304138|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304139|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304140|NCT02504671|184511796|OTHER||Difference|16.2|||||TWO_SIDED|95.0|4.3|28.1|||||CDAI, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|4.3|
92304141|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304142|NCT02504671|184511796|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304143|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304144|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304145|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304146|NCT02504671|184511796|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304147|NCT02504671|184511796|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304148|NCT02504671|184511796|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304149|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304150|NCT02504671|184511796|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304151|NCT02504671|184511796|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304152|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304153|NCT02504671|184511796|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304154|NCT02504671|184511796|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304155|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304156|NCT02504671|184511796|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304157|NCT02504671|184511796|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304158|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304159|NCT02504671|184511796|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304160|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304161|NCT02504671|184511796|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304162|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304163|NCT02504671|184511796|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304164|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304165|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 2. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304166|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 4. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.6|||7.9|-2.5|
92304167|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304168|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304169|NCT02504671|184511796|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||CDAI, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92304170|NCT02504671|184511796|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||CDAI, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92304171|NCT02504671|184511796|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||CDAI, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
92304172|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||CDAI, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
92304173|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304174|NCT02504671|184511796|OTHER||5.4|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304175|NCT02504671|184511796|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
92304176|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304177|NCT02504671|184511796|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304178|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304179|NCT02504671|184511796|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304180|NCT02504671|184511796|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304181|NCT02504671|184511796|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304182|NCT02504671|184511796|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304183|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304184|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304185|NCT02504671|184511796|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
92304186|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304187|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304188|NCT02504671|184511796|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
92304189|NCT02504671|184511796|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304190|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304191|NCT02504671|184511796|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
92304192|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304193|NCT02504671|184511796|OTHER||Difference|16.2|||||TWO_SIDED|95.0|4.3|28.1|||||CDAI, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|4.3|
92304194|NCT02504671|184511796|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
92304195|NCT02504671|184511797|OTHER||Mean Difference (Net)|-4.09||||0.05|TWO_SIDED|95.0|-8.18|0.0||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, SDAI|||0.00|-8.18|0.050
92304196|NCT02504671|184511797|OTHER||Mean Difference (Net)|-3.66||||0.086|TWO_SIDED|95.0|-7.84|0.52||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,SDAI|||0.52|-7.84|0.086
92304197|NCT02504671|184511797|OTHER||Mean Difference (Net)|-4.33||||0.038|TWO_SIDED|95.0|-8.43|-0.23||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,SDAI|||-0.23|-8.43|0.038
92304198|NCT02504671|184511797|OTHER||Mean Difference (Net)|-4.06||||0.119|TWO_SIDED|95.0|-9.18|1.05||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,SDAI|||1.05|-9.18|0.119
92304199|NCT02504671|184511797|OTHER||Mean Difference (Net)|-4.72||||0.071|TWO_SIDED|95.0|-9.85|0.4||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,SDAI|||0.40|-9.85|0.071
92304200|NCT02504671|184511797|OTHER||Mean Difference (Net)|-5.48||||0.034|TWO_SIDED|95.0|-10.53|-0.42||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,SDAI|||-0.42|-10.53|0.034
92304201|NCT02504671|184511797|OTHER||Mean Difference (Net)|-6.78||||0.023|TWO_SIDED|95.0|-12.61|-0.94||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,SDAI|||-0.94|-12.61|0.023
92304202|NCT02504671|184511797|OTHER||Mean Difference (Net)|-7.28||||0.014|TWO_SIDED|95.0|-13.09|-1.47||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,SDAI|||-1.47|-13.09|0.014
92304203|NCT02504671|184511797|OTHER||Mean Difference (Net)|-9.23||||0.002|TWO_SIDED|95.0|-14.99|-3.47||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,SDAI|||-3.47|-14.99|0.002
92187923|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS+E Late- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187924|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS+U Late- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92304204|NCT02504671|184511797|OTHER||Mean Difference (Net)|-5.65||||0.063|TWO_SIDED|95.0|-11.62|0.32||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,SDAI|||0.32|-11.62|0.063
92304205|NCT02504671|184511797|OTHER||Mean Difference (Net)|-6.29||||0.04|TWO_SIDED|95.0|-12.28|-0.3||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,SDAI|||-0.30|-12.28|0.040
92304206|NCT02504671|184511797|OTHER||Mean Difference (Net)|-6.79||||0.024|TWO_SIDED|95.0|-12.69|-0.9||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,SDAI|||-0.90|-12.69|0.024
92304207|NCT02504671|184511797|OTHER||Mean Difference (Net)|-6.58||||0.05|TWO_SIDED|95.0|-13.15|-0.01||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,SDAI|||-0.01|-13.15|0.050
92304208|NCT02504671|184511797|OTHER||Mean Difference (Net)|-9.15||||0.006|TWO_SIDED|95.0|-15.71|-2.6||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,SDAI|||-2.60|-15.71|0.006
92304209|NCT02504671|184511797|OTHER||Mean Difference (Net)|-8.86||||0.007|TWO_SIDED|95.0|-15.32|-2.41||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,SDAI|||-2.41|-15.32|0.007
92304210|NCT02504671|184511797|OTHER||Mean Difference (Net)|-6.91||||0.074|TWO_SIDED|95.0|-14.49|0.68||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,SDAI|||0.68|-14.49|0.074
92304211|NCT02504671|184511797|OTHER||Mean Difference (Net)|-10.37||||0.008|TWO_SIDED|95.0|-17.99|-2.74||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,SDAI|||-2.74|-17.99|0.008
92304212|NCT02504671|184511797|OTHER||Mean Difference (Net)|-14.15|||<|0.001|TWO_SIDED|95.0|-21.64|-6.67||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,SDAI|||-6.67|-21.64|<0.001
92304213|NCT02504671|184511797|OTHER||Mean Difference (Net)|-1.88||||0.656|TWO_SIDED|95.0|-10.19|6.43||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,SDAI|||6.43|-10.19|0.656
92304214|NCT02504671|184511797|OTHER||Mean Difference (Net)|-7.0||||0.093|TWO_SIDED|95.0|-15.19|1.19||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,SDAI|||1.19|-15.19|0.093
92304215|NCT02504671|184511797|OTHER||Mean Difference (Net)|-7.26||||0.076|TWO_SIDED|95.0|-15.3|0.78||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,SDAI|||0.78|-15.30|0.076
92304216|NCT02504671|184511797|OTHER||Mean Difference (Net)|0.8||||0.86|TWO_SIDED|95.0|-8.14|9.74||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,SDAI|||9.74|-8.14|0.860
92304217|NCT02504671|184511797|OTHER||Mean Difference (Net)|-5.71||||0.196|TWO_SIDED|95.0|-14.4|2.99||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,SDAI|||2.99|-14.40|0.196
92304218|NCT02504671|184511797|OTHER||Mean Difference (Net)|-6.0||||0.164|TWO_SIDED|95.0|-14.48|2.48||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,SDAI|||2.48|-14.48|0.164
92304219|NCT02504671|184511797|OTHER||Mean Difference (Net)|-10.65||||0.066|TWO_SIDED|95.0|-21.99|0.69||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,SDAI|||0.69|-21.99|0.066
92304220|NCT02504671|184511797|OTHER||Mean Difference (Net)|-16.37||||0.003|TWO_SIDED|95.0|-27.25|-5.49||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,SDAI|||-5.49|-27.25|0.003
92304221|NCT02504671|184511797|OTHER||Mean Difference (Net)|-15.67||||0.004|TWO_SIDED|95.0|-26.3|-5.03||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,SDAI|||-5.03|-26.30|0.004
92304222|NCT02504671|184511797|OTHER||Mean Difference (Net)|-4.78||||0.024|TWO_SIDED|95.0|-8.91|-0.65||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,SDAI|||-0.65|-8.91|0.024
92187925|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS- Late- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187926|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Extinction CS+E Early- Visit 3' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92304223|NCT02504671|184511797|OTHER||Mean Difference (Net)|-7.77|||<|0.001|TWO_SIDED|95.0|-11.84|-3.7||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,SDAI|||-3.70|-11.84|<0.001
92304224|NCT02504671|184511797|OTHER||Mean Difference (Net)|-6.67||||0.01|TWO_SIDED|95.0|-11.74|-1.6||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,SDAI|||-1.60|-11.74|0.010
92304225|NCT02504671|184511797|OTHER||Mean Difference (Net)|-6.85||||0.008|TWO_SIDED|95.0|-11.91|-1.78||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,SDAI|||-1.78|-11.91|0.008
92187927|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Extinction CS- Early- Visit 3' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187928|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Extinction CS+E Late-Visit 3' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187929|NCT02069366|184274068|SUPERIORITY|||||||0.04||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Extinction CS- Late- Visit 3' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||0.04
92304226|NCT02504671|184511797|OTHER||Mean Difference (Net)|-8.44||||0.004|TWO_SIDED|95.0|-14.2|-2.67||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,SDAI|||-2.67|-14.20|0.004
92304227|NCT02504671|184511797|OTHER||Mean Difference (Net)|-12.51|||<|0.001|TWO_SIDED|95.0|-18.26|-6.75||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,SDAI|||-6.75|-18.26|<0.001
92304228|NCT02504671|184511797|OTHER||Mean Difference (Net)|-7.0||||0.022|TWO_SIDED|95.0|-12.99|-1.01||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,SDAI|||-1.01|-12.99|0.022
92304229|NCT02504671|184511797|OTHER||Mean Difference (Net)|-10.16|||<|0.001|TWO_SIDED|95.0|-16.07|-4.24||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,SDAI|||-4.24|-16.07|<0.001
92304230|NCT02504671|184511797|OTHER||Mean Difference (Net)|-11.18|||<|0.001|TWO_SIDED|95.0|-17.7|-4.66||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,SDAI|||-4.66|-17.70|<0.001
92304231|NCT02504671|184511797|OTHER||Mean Difference (Net)|-14.0|||<|0.001|TWO_SIDED|95.0|-20.57|-7.44||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,SDAI|||-7.44|-20.57|<0.001
92304232|NCT02504671|184511797|OTHER||Mean Difference (Net)|-9.68||||0.013|TWO_SIDED|95.0|-17.26|-2.11||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,SDAI|||-2.11|-17.26|0.013
92304233|NCT02504671|184511797|OTHER||Mean Difference (Net)|-16.86|||<|0.001|TWO_SIDED|95.0|-24.39|-9.32||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,SDAI|||-9.32|-24.39|<0.001
92304234|NCT02504671|184511797|OTHER||Mean Difference (Net)|-6.03||||0.149|TWO_SIDED|95.0|-14.24|2.18||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,SDAI|||2.18|-14.24|0.149
92304235|NCT02504671|184511797|OTHER||Mean Difference (Net)|-9.43||||0.019|TWO_SIDED|95.0|-17.32|-1.55||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,SDAI|||-1.55|-17.32|0.019
92304236|NCT02504671|184511797|OTHER||Mean Difference (Net)|-6.59||||0.138|TWO_SIDED|95.0|-15.32|2.14||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,SDAI|||2.14|-15.32|0.138
92304237|NCT02504671|184511797|OTHER||Mean Difference (Net)|-8.7||||0.04|TWO_SIDED|95.0|-16.99|-0.42||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,SDAI|||-0.42|-16.99|0.040
92304238|NCT02504671|184511797|OTHER||Mean Difference (Net)|-15.88||||0.005|TWO_SIDED|95.0|-26.77|-4.98||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,SDAI|||-4.98|-26.77|0.005
92304239|NCT02504671|184511797|OTHER||Mean Difference (Net)|-20.87|||<|0.001|TWO_SIDED|95.0|-31.2|-10.53||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,SDAI|||-10.53|-31.20|<0.001
92304240|NCT02504671|184511798|OTHER||Mean Difference (Net)|-3.84||||0.063|TWO_SIDED|95.0|-7.89|0.2||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,CDAI|||0.20|-7.89|0.063
92304241|NCT02504671|184511798|OTHER||Mean Difference (Net)|-3.84||||0.067|TWO_SIDED|95.0|-7.95|0.28||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,CDAI|||0.28|-7.95|0.067
92304242|NCT02504671|184511798|OTHER||Mean Difference (Net)|-4.43||||0.032|TWO_SIDED|95.0|-8.46|-0.39||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,CDAI|||-0.39|-8.46|0.032
92187930|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS+E Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92304243|NCT02504671|184511798|OTHER||Mean Difference (Net)|-4.17||||0.102|TWO_SIDED|95.0|-9.17|0.84||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,CDAI|||0.84|-9.17|0.102
92304244|NCT02504671|184511798|OTHER||Mean Difference (Net)|-3.47||||0.17|TWO_SIDED|95.0|-8.43|1.49||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,CDAI|||1.49|-8.43|0.170
92187931|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS+U Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187932|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS- Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187933|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS+E Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187934|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS+U Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92304245|NCT02504671|184511798|OTHER||Mean Difference (Net)|-5.2||||0.039|TWO_SIDED|95.0|-10.13|-0.27||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,CDAI|||-0.27|-10.13|0.039
92304246|NCT02504671|184511798|OTHER||Mean Difference (Net)|-7.2||||0.012|TWO_SIDED|95.0|-12.82|-1.57||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,CDAI|||-1.57|-12.82|0.012
92304247|NCT02504671|184511798|OTHER||Mean Difference (Net)|-6.73||||0.018|TWO_SIDED|95.0|-12.3|-1.16||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,CDAI|||-1.16|-12.30|0.018
92304248|NCT02504671|184511798|OTHER||Mean Difference (Net)|-9.19||||0.001|TWO_SIDED|95.0|-14.73|-3.66||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,CDAI|||-3.66|-14.73|0.001
92304249|NCT02504671|184511798|OTHER||Mean Difference (Net)|-5.48||||0.065|TWO_SIDED|95.0|-11.31|0.35||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,CDAI|||0.35|-11.31|0.065
92304250|NCT02504671|184511798|OTHER||Mean Difference (Net)|-5.85||||0.05|TWO_SIDED|95.0|-11.69|0.0||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,CDAI|||-0.00|-11.69|0.050
92304251|NCT02504671|184511798|OTHER||Mean Difference (Final Values)|-6.63||||0.024|TWO_SIDED|95.0|-12.38|-0.87||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,CDAI|||-0.87|-12.38|0.024
92304252|NCT02504671|184511798|OTHER||Mean Difference (Net)|-6.41||||0.051|TWO_SIDED|95.0|-12.84|0.02||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,CDAI|||0.02|-12.84|0.051
92304253|NCT02504671|184511798|OTHER||Mean Difference (Net)|-8.6||||0.008|TWO_SIDED|95.0|-14.97|-2.22||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,CDAI|||-2.22|-14.97|0.008
92304254|NCT02504671|184511798|OTHER||Mean Difference (Net)|-8.74||||0.007|TWO_SIDED|95.0|-15.06|-2.43||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,CDAI|||-2.43|-15.06|0.007
92304255|NCT02504671|184511798|OTHER||Mean Difference (Net)|-6.8||||0.071|TWO_SIDED|95.0|-14.19|0.58||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,CDAI|||0.58|-14.19|0.071
92304256|NCT02504671|184511798|OTHER||Mean Difference (Net)|-9.8||||0.009|TWO_SIDED|95.0|-17.17|-2.44||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,CDAI|||-2.44|-17.17|0.009
92304257|NCT02504671|184511798|OTHER||Mean Difference (Net)|-13.88|||<|0.001|TWO_SIDED|95.0|-21.17|-6.59||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,CDAI|||-6.59|-21.17|<0.001
92304258|NCT02504671|184511798|OTHER||Mean Difference (Net)|-1.68||||0.676|TWO_SIDED|95.0|-9.63|6.26||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,CDAI|||6.26|-9.63|0.676
92304259|NCT02504671|184511798|OTHER||Mean Difference (Net)|-6.33||||0.11|TWO_SIDED|95.0|-14.11|1.44||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,CDAI|||1.44|-14.11|0.110
92304260|NCT02504671|184511798|OTHER||Mean Difference (Net)|-6.44||||0.099|TWO_SIDED|95.0|-14.12|1.23||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,CDAI|||1.23|-14.12|0.099
92304261|NCT02504671|184511798|OTHER||Mean Difference (Net)|1.04||||0.812|TWO_SIDED|95.0|-7.61|9.69||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,CDAI|||9.69|-7.61|0.812
92304262|NCT02504671|184511798|OTHER||Mean Difference (Net)|-5.39||||0.204|TWO_SIDED|95.0|-13.75|2.96||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,CDAI|||2.96|-13.75|0.204
92304263|NCT02504671|184511798|OTHER||Mean Difference (Net)|-5.9||||0.157|TWO_SIDED|95.0|-14.09|2.3||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,CDAI|||2.30|-14.09|0.157
92304264|NCT02504671|184511798|OTHER||Mean Difference (Net)|-9.37||||0.088|TWO_SIDED|95.0|-20.15|1.42||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,CDAI|||1.42|-20.15|0.088
92304265|NCT02504671|184511798|OTHER||Mean Difference (Net)|-15.12||||0.004|TWO_SIDED|95.0|-25.4|-4.83||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,CDAI|||-4.83|-25.40|0.004
92304266|NCT02504671|184511798|OTHER||Mean Difference (Net)|-14.91||||0.004|TWO_SIDED|95.0|-25.01|-4.8||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,CDAI|||-4.80|-25.01|0.004
92304267|NCT02504671|184511798|OTHER||Mean Difference (Net)|-3.89||||0.06|TWO_SIDED|95.0|-7.96|0.17||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,CDAI|||0.17|-7.96|0.060
92304268|NCT02504671|184511798|OTHER||Mean Difference (Net)|-7.39|||<|0.001|TWO_SIDED|95.0|-11.42|-3.36||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,CDAI|||-3.36|-11.42|<0.001
92304269|NCT02504671|184511798|OTHER||Mean Difference (Net)|-6.1||||0.016|TWO_SIDED|95.0|-11.06|-1.14||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,CDAI|||-1.14|-11.06|0.016
92304270|NCT02504671|184511798|OTHER||Mean Difference (Net)|-6.85||||0.007|TWO_SIDED|95.0|-11.78|-1.91||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,CDAI|||-1.91|-11.78|0.007
92304271|NCT02504671|184511798|OTHER||Mean Difference (Net)|-7.92||||0.005|TWO_SIDED|95.0|-13.48|-2.37||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,CDAI|||-2.37|-13.48|0.005
92304272|NCT02504671|184511798|OTHER||Mean Difference (Net)|-12.19|||<|0.001|TWO_SIDED|95.0|-17.74|-6.64||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,CDAI|||-6.64|-17.74|<0.001
92304273|NCT02504671|184511798|OTHER||Mean Difference (Net)|-5.62||||0.059|TWO_SIDED|95.0|-11.45|0.21||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,CDAI|||0.21|-11.45|0.059
92304274|NCT02504671|184511798|OTHER||Mean Difference (Net)|-10.17|||<|0.001|TWO_SIDED|95.0|-15.97|-4.38||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,CDAI|||-4.38|-15.97|<0.001
92304275|NCT02504671|184511798|OTHER||Mean Difference (Net)|-10.37||||0.002|TWO_SIDED|95.0|-16.75|-4.0||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,CDAI|||-4.00|-16.75|0.002
92304276|NCT02504671|184511798|OTHER||Mean Difference (Net)|-13.79|||<|0.001|TWO_SIDED|95.0|-20.18|-7.41||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,CDAI|||-7.41|-20.18|<0.001
92304277|NCT02504671|184511798|OTHER||Mean Difference (Net)|-9.67||||0.01|TWO_SIDED|95.0|-17.03|-2.31||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,CDAI|||-2.31|-17.03|0.010
92304278|NCT02504671|184511798|OTHER||Mean Difference (Net)|-16.63|||<|0.001|TWO_SIDED|95.0|-23.97|-9.3||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,CDAI|||-9.30|-23.97|<0.001
92304279|NCT02504671|184511798|OTHER||Mean Difference (Net)|-5.53||||0.165|TWO_SIDED|95.0|-13.37|2.3||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,CDAI|||2.30|-13.37|0.165
92304280|NCT02504671|184511798|OTHER||Mean Difference (Net)|-8.85||||0.022|TWO_SIDED|95.0|-16.39|-1.32||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,CDAI|||-1.32|-16.39|0.022
92304281|NCT02504671|184511798|OTHER||Mean Difference (Net)|-6.55||||0.127|TWO_SIDED|95.0|-14.99|1.89||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,CDAI|||1.89|-14.99|0.127
92304282|NCT02504671|184511798|OTHER||Mean Difference (Net)|-8.67||||0.034|TWO_SIDED|95.0|-16.67|-0.67||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,CDAI|||-0.67|-16.67|0.034
92304283|NCT02504671|184511798|OTHER||Mean Difference (Net)|-15.43||||0.004|TWO_SIDED|95.0|-25.78|-5.07||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,CDAI|||-5.07|-25.78|0.004
92187935|NCT02069366|184274068|SUPERIORITY|||||||0.033||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS- Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||0.033
92187936|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS+E Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187937|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS+U Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187938|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS- Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187939|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS+E Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187940|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS+U Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187941|NCT02069366|184274068|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS- Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
92187942|NCT02069366|184274069|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Extinction Learning Pre- Visit 3' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
92187943|NCT02069366|184274069|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Extinction Learning Mid-Visit 3' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
92187944|NCT02069366|184274069|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Extinction Learning Post-Visit 3' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
92187945|NCT02069366|184274069|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Recall Pre-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
92187946|NCT02069366|184274069|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Recall Mid-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
92187947|NCT02069366|184274069|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Recall Post-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
92187948|NCT02069366|184274069|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Renewal Pre-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
92187949|NCT02069366|184274069|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Renewal Mid-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
92187950|NCT02069366|184274069|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Renewal Post-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
92304284|NCT02504671|184511798|OTHER||Mean Difference (Net)|-19.88|||<|0.001|TWO_SIDED|95.0|-29.7|-10.06||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,CDAI|||-10.06|-29.70|<0.001
92304285|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.01||||0.938|TWO_SIDED|95.0|-0.14|0.16||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, HAQ-DI|||0.16|-0.14|0.938
92304286|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.0||||0.981|TWO_SIDED|95.0|-0.15|0.15||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, HAQ-DI|||0.15|-0.15|0.981
92304287|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.01||||0.857|TWO_SIDED|95.0|-0.16|0.14||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, HAQ-DI|||0.14|-0.16|0.857
92304288|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.05||||0.592|TWO_SIDED|95.0|-0.13|0.22||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, HAQ-DI|||0.22|-0.13|0.592
92304289|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.01||||0.917|TWO_SIDED|95.0|-0.16|0.18||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, HAQ-DI|||0.18|-0.16|0.917
92304290|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.05||||0.545|TWO_SIDED|95.0|-0.23|0.12||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, HAQ-DI|||0.12|-0.23|0.545
92304291|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.04||||0.707|TWO_SIDED|95.0|-0.16|0.24||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, HAQ-DI|||0.24|-0.16|0.707
92304292|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.05||||0.603|TWO_SIDED|95.0|-0.15|0.26||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, HAQ-DI|||0.26|-0.15|0.603
92304293|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.07||||0.473|TWO_SIDED|95.0|-0.27|0.13||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, HAQ-DI|||0.13|-0.27|0.473
92304294|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.0||||0.987|TWO_SIDED|95.0|-0.21|0.22||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, HAQ-DI|||0.22|-0.21|0.987
92304295|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.04||||0.713|TWO_SIDED|95.0|-0.25|0.17||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, HAQ-DI|||0.17|-0.25|0.713
92304296|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.1||||0.357|TWO_SIDED|95.0|-0.31|0.11||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, HAQ-DI|||0.11|-0.31|0.357
92187951|NCT00168805|184274090|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 9.2%. This results from the null-hypotheses of non-inferiority testing, where the absolute risk difference has to be below 9.2%. Non-inferiority can only be shown with CI.|Risk Difference (Percentage)|-1.3||||0.6648||95.0|-7.3|4.6||p-value is for superiority testing|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||4.6|-7.3|0.6648
92187952|NCT00168805|184274090|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 9.2%. This results from the null-hypotheses of non-inferiority testing, where the absolute risk difference has to be below 9.2%. Non-inferiority can only be shown with CI.|Risk Difference (Percentage)|2.8||||0.3553||95.0|-3.1|8.7||p-value is for superiority testing|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||8.7|-3.1|0.3553
92187953|NCT00168805|184274091|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-1.0||||0.376||95.0|-3.1|1.2|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.2|-3.1|0.3760
92187954|NCT00168805|184274091|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.3||||0.8151||95.0|-2.0|2.6|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.6|-2.0|0.8151
92187955|NCT00168805|184274092|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.8||||0.4715||95.0|-2.8|1.3|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.3|-2.8|0.4715
92187956|NCT00168805|184274092|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.1||||0.9325||95.0|-2.1|2.3|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.3|-2.1|0.9325
92187957|NCT00168805|184274093|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-1.4||||0.6463||95.0|-7.3|4.5|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||4.5|-7.3|0.6463
92304297|NCT02504671|184511799|OTHER||Mean Difference (Final Values)|0.04||||0.748|TWO_SIDED|95.0|-0.19|0.26||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, HAQ-DI|||0.26|-0.19|0.748
92304298|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.11||||0.327|TWO_SIDED|95.0|-0.34|0.11||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, HAQ-DI|||0.11|-0.34|0.327
92304299|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.1||||0.395|TWO_SIDED|95.0|-0.32|0.13||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, HAQ-DI|||0.13|-0.32|0.395
92304300|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.05||||0.71|TWO_SIDED|95.0|-0.3|0.21||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, HAQ-DI|||0.21|-0.30|0.710
92304301|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.04||||0.74|TWO_SIDED|95.0|-0.3|0.21||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, HAQ-DI|||0.21|-0.30|0.740
92304302|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.11||||0.398|TWO_SIDED|95.0|-0.36|0.14||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, HAQ-DI|||0.14|-0.36|0.398
92304303|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.16||||0.364|TWO_SIDED|95.0|-0.19|0.52||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, HAQ-DI|||0.52|-0.19|0.364
92304304|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.12||||0.503|TWO_SIDED|95.0|-0.23|0.46||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, HAQ-DI|||0.46|-0.23|0.503
92304305|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.08||||0.647|TWO_SIDED|95.0|-0.42|0.26||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, HAQ-DI|||0.26|-0.42|0.647
92304306|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.02||||0.91|TWO_SIDED|95.0|-0.37|0.33||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, HAQ-DI|||0.33|-0.37|0.910
92304307|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.08||||0.66|TWO_SIDED|95.0|-0.42|0.26||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, HAQ-DI|||0.26|-0.42|0.660
92304308|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.16||||0.34|TWO_SIDED|95.0|-0.5|0.17||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, HAQ-DI|||0.17|-0.50|0.340
92304309|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.02||||0.902|TWO_SIDED|95.0|-0.34|0.39||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, HAQ-DI|||0.39|-0.34|0.902
92304310|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.07||||0.687|TWO_SIDED|95.0|-0.42|0.28||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, HAQ-DI|||0.28|-0.42|0.687
92304311|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.09||||0.599|TWO_SIDED|95.0|-0.44|0.25||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, HAQ-DI|||0.25|-0.44|0.599
92304312|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.04||||0.588|TWO_SIDED|95.0|-0.19|0.11||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, HAQ-DI|||0.11|-0.19|0.588
92304313|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.09||||0.259|TWO_SIDED|95.0|-0.23|0.06||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, HAQ-DI|||0.06|-0.23|0.259
92304314|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.08||||0.358|TWO_SIDED|95.0|-0.26|0.09||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, HAQ-DI|||0.09|-0.26|0.358
92304315|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.09||||0.325|TWO_SIDED|95.0|-0.26|0.09||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, HAQ-DI|||0.09|-0.26|0.325
92304316|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.07||||0.473|TWO_SIDED|95.0|-0.28|0.13||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, HAQ-DI|||0.13|-0.28|0.473
92304317|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.18||||0.085|TWO_SIDED|95.0|-0.38|0.02||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, HAQ-DI|||0.02|-0.38|0.085
92304318|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.01||||0.897|TWO_SIDED|95.0|-0.2|0.23||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, HAQ-DI|||0.23|-0.20|0.897
92304319|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.2||||0.065|TWO_SIDED|95.0|-0.42|0.01||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, HAQ-DI|||0.01|-0.42|0.065
92304320|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.14||||0.238|TWO_SIDED|95.0|-0.36|0.09||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, HAQ-DI|||0.09|-0.36|0.238
92304321|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.21||||0.071|TWO_SIDED|95.0|-0.44|0.02||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, HAQ-DI|||0.02|-0.44|0.071
92304322|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.12||||0.34|TWO_SIDED|95.0|-0.38|0.13||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, HAQ-DI|||0.13|-0.38|0.340
92304323|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.24||||0.059|TWO_SIDED|95.0|-0.49|0.01||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, HAQ-DI|||0.01|-0.49|0.059
92304324|NCT02504671|184511799|OTHER||Mean Difference (Net)|0.09||||0.607|TWO_SIDED|95.0|-0.26|0.44||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, HAQ-DI|||0.44|-0.26|0.607
92304325|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.01||||0.959|TWO_SIDED|95.0|-0.34|0.32||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, HAQ-DI|||0.32|-0.34|0.959
92304326|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.15||||0.401|TWO_SIDED|95.0|-0.49|0.2||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, HAQ-DI|||0.20|-0.49|0.401
92304327|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.21||||0.207|TWO_SIDED|95.0|-0.54|0.12||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, HAQ-DI|||0.12|-0.54|0.207
92304328|NCT02504671|184511799|OTHER||Mean Difference (Net)|-0.08||||0.637|TWO_SIDED|95.0|-0.44|0.27||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, HAQ-DI|||0.27|-0.44|0.637
92304329|NCT02504671|184511799|OTHER||Mean Difference (Final Values)|-0.2||||0.251|TWO_SIDED|95.0|-0.53|0.14||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, HAQ-DI|||0.14|-0.53|0.251
92304330|NCT02504671|184511800|OTHER||Mean Difference (Net)|-2.45||||0.511|TWO_SIDED|95.0|-9.81|4.9||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, Pain score|||4.90|-9.81|0.511
92304331|NCT02504671|184511800|OTHER||Mean Difference (Net)|-2.76||||0.461|TWO_SIDED|95.0|-10.13|4.6||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, Pain score|||4.60|-10.13|0.461
92304332|NCT02504671|184511800|OTHER||Mean Difference (Net)|-7.71||||0.039|TWO_SIDED|95.0|-15.03|-0.39||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, Pain score|||-0.39|-15.03|0.039
92304333|NCT02504671|184511800|OTHER||Mean Difference (Net)|-2.92||||0.469|TWO_SIDED|95.0|-10.86|5.01||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, Pain score|||5.01|-10.86|0.469
92304334|NCT02504671|184511800|OTHER||Mean Difference (Net)|-5.99||||0.133|TWO_SIDED|95.0|-13.82|1.85||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, Pain score|||1.85|-13.82|0.133
92304335|NCT02504671|184511800|OTHER||Mean Difference (Net)|-7.58||||0.057|TWO_SIDED|95.0|-15.4|0.23||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, Pain score|||0.23|-15.40|0.057
92304336|NCT02504671|184511800|OTHER||Mean Difference (Net)|-3.03||||0.49|TWO_SIDED|95.0|-11.67|5.61||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Pain score|||5.61|-11.67|0.490
92304337|NCT02504671|184511800|OTHER||Mean Difference (Net)|-9.38||||0.031|TWO_SIDED|95.0|-17.91|-0.86||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Pain score|||-0.86|-17.91|0.031
92304338|NCT02504671|184511800|OTHER||Mean Difference (Net)|-12.21||||0.005|TWO_SIDED|95.0|-20.67|-3.74||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Pain score|||-3.74|-20.67|0.005
92304339|NCT02504671|184511800|OTHER||Mean Difference (Net)|-4.49||||0.345|TWO_SIDED|95.0|-13.83|4.85||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, Pain score|||4.85|-13.83|0.345
92304340|NCT02504671|184511800|OTHER||Mean Difference (Net)|-8.02||||0.09|TWO_SIDED|95.0|-17.3|1.26||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, Pain score|||1.26|-17.30|0.090
92187958|NCT00168805|184274093|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|2.7||||0.374||95.0|-3.2|8.6|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||8.6|-3.2|0.3740
92187959|NCT00168805|184274094|SUPERIORITY_OR_OTHER|||||||0.0385||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0385
92187960|NCT00168805|184274094|SUPERIORITY_OR_OTHER|||||||0.1414||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.1414
92187961|NCT00168805|184274095|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
92304341|NCT02504671|184511800|OTHER||Mean Difference (Net)|-8.36||||0.074|TWO_SIDED|95.0|-17.55|0.83||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, Pain score|||0.83|-17.55|0.074
92304342|NCT02504671|184511800|OTHER||Mean Difference (Net)|-5.61||||0.268|TWO_SIDED|95.0|-15.57|4.34||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, Pain score|||4.34|-15.57|0.268
92304343|NCT02504671|184511800|OTHER||Mean Difference (Net)|-14.57||||0.004|TWO_SIDED|95.0|-24.43|-4.7||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, Pain score|||-4.70|-24.43|0.004
92304344|NCT02504671|184511800|OTHER||Mean Difference (Net)|-13.94||||0.005|TWO_SIDED|95.0|-23.72|-4.16||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, Pain score|||-4.16|-23.72|0.005
92304345|NCT02504671|184511800|OTHER||Mean Difference (Net)|-7.02||||0.182|TWO_SIDED|95.0|-17.36|3.32||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Pain score|||3.32|-17.36|0.182
92187962|NCT00168805|184274095|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
92187963|NCT00168805|184274096|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
92187964|NCT00168805|184274096|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
92304346|NCT02504671|184511800|OTHER||Mean Difference (Net)|-14.15||||0.007|TWO_SIDED|95.0|-24.42|-3.87||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Pain score|||-3.87|-24.42|0.007
92304347|NCT02504671|184511800|OTHER||Mean Difference (Net)|-18.18|||<|0.001|TWO_SIDED|95.0|-28.35|-8.01||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Pain score|||-8.01|-28.35|<0.001
92304348|NCT02504671|184511800|OTHER||Mean Difference (Net)|-4.89||||0.527|TWO_SIDED|95.0|-20.15|10.36||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, Pain score|||10.36|-20.15|0.527
92304349|NCT02504671|184511800|OTHER||Mean Difference (Net)|-15.95||||0.034|TWO_SIDED|95.0|-30.72|-1.19||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, Pain score|||-1.19|-30.72|0.034
92304350|NCT02504671|184511800|OTHER||Mean Difference (Net)|-13.86||||0.062|TWO_SIDED|95.0|-28.42|0.7||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, Pain score|||0.70|-28.42|0.062
92187965|NCT00168805|184274098|SUPERIORITY_OR_OTHER|||||||0.8209||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.8209
92187966|NCT00168805|184274098|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
92187967|NCT01114217|184274102|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92304351|NCT02504671|184511800|OTHER||Mean Difference (Net)|-0.69||||0.924|TWO_SIDED|95.0|-14.85|13.47||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, Pain score|||13.47|-14.85|0.924
92187968|NCT01837719|184274109|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% CI for the ratios of geometric means of the test formulation (fixed-dose combination \[FDC\] tablet of 300/150 mg atazanavir/cobicistat) to the reference formulation (300-mg atazanavir capsule coadministered with 150-mg cobicistat) were contained within 0.80 to 1.25 for atazanavir Cmax, area under the plasma concentration-time curve from time 0 to time of last quantifiable concentration (AUC\[0-T\]) and AUC from time 0 to infinity. (AUC\[0-T\])|Geometric mean ratio|1.073|||||TWO_SIDED|90.0|1.012|1.137|||Mixed Models Analysis||Geometric mean ratio is calculated as Treatment B/Treatment A|To demonstrate bioequivalence for atazanavir between the test (Treatment B) and reference (Treatment A) formulations, a linear mixed-effects model was applied to the natural logarithms of atazanavir Cmax, with treatment, period, and sequence as fixed effects, and participant (sequence) as a random effect.||1.137|1.012|
92304352|NCT02504671|184511800|OTHER||Mean Difference (Net)|-13.17||||0.058|TWO_SIDED|95.0|-26.82|0.48||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, Pain score|||0.48|-26.82|0.058
92304353|NCT02504671|184511800|OTHER||Mean Difference (Net)|-13.49||||0.049|TWO_SIDED|95.0|-26.91|-0.08||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, Pain score|||-0.08|-26.91|0.049
92304354|NCT02504671|184511800|OTHER||Mean Difference (Net)|-6.38||||0.445|TWO_SIDED|95.0|-22.84|10.07||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Pain score|||10.07|-22.84|0.445
92304355|NCT02504671|184511800|OTHER||Mean Difference (Net)|-10.14||||0.205|TWO_SIDED|95.0|-25.87|5.58||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Pain score|||5.58|-25.87|0.205
92304356|NCT02504671|184511800|OTHER||Mean Difference (Net)|-12.07||||0.125|TWO_SIDED|95.0|-27.55|3.41||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Pain score|||3.41|-27.55|0.125
92304357|NCT02504671|184511800|OTHER||Mean Difference (Net)|-4.93||||0.187|TWO_SIDED|95.0|-12.26|2.41||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, Pain score|||2.41|-12.26|0.187
92304358|NCT02504671|184511800|OTHER||Mean Difference (Net)|-5.63||||0.13|TWO_SIDED|95.0|-12.93|1.67||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, Pain score|||1.67|-12.93|0.130
92187969|NCT01837719|184274109|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.423|||||TWO_SIDED|90.0|1.273|1.59|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when given as an FDC||1.590|1.273|
92187970|NCT01837719|184274109|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.137|||||TWO_SIDED|90.0|1.0|1.292|||Mixed Models Analysis||Geometric mean ratio is calculated as Treatment D/Treatment C|To assess the relative bioavailability of atazanavir under fasted (Treatment D) versus fed (Treatment C) states, a linear mixed-effects model was applied to the natural logarithms of atazanavir Cmax with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect.||1.292|1.000|
92304359|NCT02504671|184511800|OTHER||Mean Difference (Net)|-7.85||||0.051|TWO_SIDED|95.0|-15.72|0.03||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, Pain score|||0.03|-15.72|0.051
92304360|NCT02504671|184511800|OTHER||Mean Difference (Net)|-10.44||||0.009|TWO_SIDED|95.0|-18.27|-2.6||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, Pain score|||-2.60|-18.27|0.009
92304361|NCT02504671|184511800|OTHER||Mean Difference (Net)|-7.94||||0.068|TWO_SIDED|95.0|-16.47|0.58||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Pain score|||0.58|-16.47|0.068
92304362|NCT02504671|184511800|OTHER||Mean Difference (Net)|-13.96||||0.001|TWO_SIDED|95.0|-22.47|-5.44||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Pain score|||-5.44|-22.47|0.001
92304363|NCT02504671|184511800|OTHER||Mean Difference (Net)|-7.36||||0.118|TWO_SIDED|95.0|-16.62|1.89||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, Pain score|||1.89|-16.62|0.118
92304364|NCT02504671|184511800|OTHER||Mean Difference (Net)|-12.43||||0.009|TWO_SIDED|95.0|-21.68|-3.19||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, Pain score|||-3.19|-21.68|0.009
92304365|NCT02504671|184511800|OTHER||Mean Difference (Net)|-16.51||||0.001|TWO_SIDED|95.0|-26.38|-6.65||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, Pain score|||-6.65|-26.38|0.001
92304366|NCT02504671|184511800|OTHER||Mean Difference (Net)|-20.39|||<|0.001|TWO_SIDED|95.0|-30.27|-10.52||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, Pain score|||-10.52|-30.27|<0.001
92304367|NCT02504671|184511800|OTHER||Mean Difference (Net)|-12.0||||0.022|TWO_SIDED|95.0|-22.27|-1.73||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Pain score|||-1.73|-22.27|0.022
92304368|NCT02504671|184511800|OTHER||Mean Difference (Net)|-17.94|||<|0.001|TWO_SIDED|95.0|-28.18|-7.7||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Pain score|||-7.70|-28.18|<0.001
92304369|NCT02504671|184511800|OTHER||Mean Difference (Net)|-13.2||||0.084|TWO_SIDED|95.0|-28.18|1.79||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, Pain score|||1.79|-28.18|0.084
92304370|NCT02504671|184511800|OTHER||Mean Difference (Net)|-11.87||||0.099|TWO_SIDED|95.0|-26.02|2.27||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, Pain score|||2.27|-26.02|0.099
92304371|NCT02504671|184511800|OTHER||Mean Difference (Net)|-13.91||||0.048|TWO_SIDED|95.0|-27.68|-0.14||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, Pain score|||-0.14|-27.68|0.048
92304372|NCT02504671|184511800|OTHER||Mean Difference (Net)|-13.22||||0.048|TWO_SIDED|95.0|-26.32|-0.13||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, Pain score|||-0.13|-26.32|0.048
92304373|NCT02504671|184511800|OTHER||Mean Difference (Net)|-13.23||||0.102|TWO_SIDED|95.0|-29.11|2.64||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Pain score|||2.64|-29.11|0.102
92304374|NCT02504671|184511800|OTHER||Mean Difference (Net)|-16.7||||0.03|TWO_SIDED|95.0|-31.79|-1.62||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Pain score|||-1.62|-31.79|0.030
92304375|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.6||||0.683|TWO_SIDED|95.0|-2.31|3.52||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, PCS|||3.52|-2.31|0.683
92304376|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.19||||0.03|TWO_SIDED|95.0|0.31|6.07||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, PCS|||6.07|0.31|0.030
92304377|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.61||||0.074|TWO_SIDED|95.0|-0.25|5.47||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, PCS|||5.47|-0.25|0.074
92304378|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.46||||0.39|TWO_SIDED|95.0|-1.88|4.8||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, PCS|||4.80|-1.88|0.390
92187971|NCT01837719|184274109|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.862|||||TWO_SIDED|90.0|0.701|1.059|||Mixed Models Analysis||Geometric mean ratio is calculated as Treatment E/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a high fat meal and the fasted state on the natural logarithms of exposure of atazanavir when given as an FDC||1.059|0.701|
92304379|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.42||||0.154|TWO_SIDED|95.0|-0.91|5.75||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, PCS|||5.75|-0.91|0.154
92304380|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.73||||0.302|TWO_SIDED|95.0|-1.56|5.02||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, PCS|||5.02|-1.56|0.302
92187972|NCT01837719|184274109|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.643|||||TWO_SIDED|90.0|0.545|0.759|||Mixed Models Analysis||Geometric mean ratio is calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of high fat and light meals on the natural logarithms of exposure of atazanavir when given as an FDC||0.759|0.545|
92304381|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.69||||0.521|TWO_SIDED|95.0|-3.5|6.88||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, PCS|||6.88|-3.50|0.521
92187973|NCT01837719|184274110|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate bioequivalence for atazanavir between the test (Treatment B) and reference (Treatment A) formulations, a linear mixed-effects model was applied to the natural logarithms of atazanavir AUC(0-T), with treatment, period, and sequence as fixed effects, and participant (sequence) as a random effect.|Geometric mean ratio|1.065|||||TWO_SIDED|90.0|1.012|1.12|||Mixed Models Analysis||Geometric mean ratio for AUC(0-T) is calculated as Treatment B/Treatment A|Bioequivalence was concluded if the 90% confidence intervals for the ratios of geometric means of the test formulation (FDC tablet of 300/150 mg atazanavir/cobicistat) to the reference formulation (300-mg atazanavir capsule coadministered with 150-mg cobicistat) were contained within 0.80 to 1.25 for atazanavir Cmax, AUC(0-T) and AUC(INF).||1.120|1.012|
92304382|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.28||||0.606|TWO_SIDED|95.0|-3.63|6.2||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, PCS|||6.20|-3.63|0.606
92304383|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.46||||0.32|TWO_SIDED|95.0|-2.41|7.32||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, PCS|||7.32|-2.41|0.320
92304384|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.5||||0.811|TWO_SIDED|95.0|-4.65|3.64||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, MCS|||3.64|-4.65|0.811
92304385|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.45||||0.83|TWO_SIDED|95.0|-3.65|4.55||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, MCS|||4.55|-3.65|0.830
92304386|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.54||||0.795|TWO_SIDED|95.0|-4.61|3.54||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, MCS|||3.54|-4.61|0.795
92304387|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.32||||0.548|TWO_SIDED|95.0|-3.0|5.64||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, MCS|||5.64|-3.00|0.548
92304388|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.46||||0.505|TWO_SIDED|95.0|-2.85|5.77||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, MCS|||5.77|-2.85|0.505
92304389|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.12||||0.605|TWO_SIDED|95.0|-3.15|5.39||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, MCS|||5.39|-3.15|0.605
92304390|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.43||||0.895|TWO_SIDED|95.0|-6.03|6.9||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, MCS|||6.90|-6.03|0.895
92304391|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.29||||0.461|TWO_SIDED|95.0|-3.84|8.42||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, MCS|||8.42|-3.84|0.461
92304392|NCT02504671|184511801|OTHER||Mean Difference (Net)|-1.05||||0.732|TWO_SIDED|95.0|-7.1|4.99||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, MCS|||4.99|-7.10|0.732
92304393|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.11||||0.941|TWO_SIDED|95.0|-3.11|2.88||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Bodily Pain|||2.88|-3.11|0.941
92304394|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.73||||0.013|TWO_SIDED|95.0|0.78|6.67||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Bodily Pain|||6.67|0.78|0.013
92304395|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.92||||0.051|TWO_SIDED|95.0|-0.01|5.84||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Bodily Pain|||5.84|-0.01|0.051
92304396|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.53||||0.403|TWO_SIDED|95.0|-2.07|5.12||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Bodily Pain|||5.12|-2.07|0.403
92304397|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.82||||0.122|TWO_SIDED|95.0|-0.76|6.4||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Bodily Pain|||6.40|-0.76|0.122
92304398|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.08||||0.247|TWO_SIDED|95.0|-1.45|5.62||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Bodily Pain|||5.62|-1.45|0.247
92304399|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.85||||0.384|TWO_SIDED|95.0|-3.61|9.32||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Bodily Pain|||9.32|-3.61|0.384
92187974|NCT01837719|184274110|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.275|||||TWO_SIDED|90.0|1.166|1.393|||Mixed Models Analysis||Geometric mean ratio for AUC(0-T) was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effect and patient as a random effect was used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as an FDC||1.393|1.166|
92304400|NCT02504671|184511801|OTHER||Mean Difference (Net)|5.05||||0.105|TWO_SIDED|95.0|-1.07|11.16||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Bodily Pain|||11.16|-1.07|0.105
92304401|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.21||||0.29|TWO_SIDED|95.0|-2.76|9.17||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Bodily Pain|||9.17|-2.76|0.290
92304402|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.51||||0.738|TWO_SIDED|95.0|-3.52|2.5||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, General Health|||2.50|-3.52|0.738
92304403|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.99||||0.513|TWO_SIDED|95.0|-1.99|3.97||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, General Health|||3.97|-1.99|0.513
92304404|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.12||||0.934|TWO_SIDED|95.0|-2.83|3.08||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, General Health|||3.08|-2.83|0.934
92187975|NCT01837719|184274110|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.113|||||TWO_SIDED|90.0|0.993|1.248|||Mixed Models Analysis||Geometric mean ratio for AUC(0-T) is calculated as Treatment D/Treatment C|To assess the relative bioavailability of atazanavir under fasted (Treatment D) versus fed (Treatment C) states, a linear mixed-effects model was applied to the natural logarithms of atazanavir AUC(0-T) with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect||1.248|0.993|
92187976|NCT01837719|184274110|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.95|||||TWO_SIDED|90.0|0.804|1.122|||Mixed Models Analysis||Geometric mean ratio of AUC(0-T) was calculated as Treatment E/Treatment D|A linear mixed-effect model with treatment as fixed effect and participant as a random effect will be used to estimate the effect of a high fat meal and the fasted state on the natural logarithms of exposure of atazanavir when given as an FDC.||1.122|0.804|
92304405|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.63||||0.687|TWO_SIDED|95.0|-2.43|3.68||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, General Health|||3.68|-2.43|0.687
92304406|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.85||||0.233|TWO_SIDED|95.0|-1.2|4.91||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, General Health|||4.91|-1.20|0.233
92304407|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.57||||0.708|TWO_SIDED|95.0|-2.44|3.59||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, General Health|||3.59|-2.44|0.708
92304408|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.29||||0.25|TWO_SIDED|95.0|-2.34|8.93||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, General Health|||8.93|-2.34|0.250
92304409|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.76||||0.307|TWO_SIDED|95.0|-2.57|8.09||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, General Health|||8.09|-2.57|0.307
92304410|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.53||||0.345|TWO_SIDED|95.0|-2.74|7.79||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, General Health|||7.79|-2.74|0.345
92304411|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.16||||0.95|TWO_SIDED|95.0|-0.19|0.52||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Mental Health|||0.52|-0.19|0.950
92304412|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.88||||0.664|TWO_SIDED|95.0|-3.11|4.87||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Mental Health|||4.87|-3.11|0.664
92304413|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.01||||0.994|TWO_SIDED|95.0|-3.99|3.96||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Mental Health|||3.96|-3.99|0.994
92304414|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.6||||0.25|TWO_SIDED|95.0|-1.84|7.03||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Mental Health|||7.03|-1.84|0.250
92304415|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.21||||0.154|TWO_SIDED|95.0|-1.22|7.64||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Mental Health|||7.64|-1.22|0.154
92304416|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.5||||0.262|TWO_SIDED|95.0|-1.88|6.89||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Mental Health|||6.89|-1.88|0.262
92304417|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.32||||0.693|TWO_SIDED|95.0|-5.28|7.93||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Mental Health|||7.93|-5.28|0.693
92304418|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.28||||0.302|TWO_SIDED|95.0|-2.98|9.54||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Mental Health|||9.54|-2.98|0.302
92304419|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.61||||0.844|TWO_SIDED|95.0|-5.54|6.77||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Mental Health|||6.77|-5.54|0.844
92187977|NCT01837719|184274110|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.746|||||TWO_SIDED|90.0|0.655|0.849|||Mixed Models Analysis||Geometric mean ratio of AUC(0-T) was calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effect and participant as a random effect will be used to estimate the effect of high fat and light meals on the natural logarithms of exposure of atazanavir when given as an FDC||0.849|0.655|
92304420|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.66||||0.698|TWO_SIDED|95.0|-2.71|4.04||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Physical Functioning|||4.04|-2.71|0.698
92304421|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.38||||0.159|TWO_SIDED|95.0|-0.94|5.7||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Physical Functioning|||5.70|-0.94|0.159
92304422|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.53||||0.36|TWO_SIDED|95.0|-1.76|4.83||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Physical Functioning|||4.83|-1.76|0.360
92304423|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.82||||0.151|TWO_SIDED|95.0|-1.04|6.69||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Physical Functioning|||6.69|-1.04|0.151
92187978|NCT01837719|184274110|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% confidence intervals for the ratios of geometric means of the test formulation (FDC tablet of 300/150 mg atazanavir/cobicistat) to the reference formulation (300-mg atazanavir capsule coadministered with 150-mg cobicistat) were contained within 0.80 to 1.25 for atazanavir Cmax, AUC(0-T) and AUC(INF).|Geometric mean ratio|1.064||||||90.0|1.011|1.12|||Mixed Models Analysis||Geometric mean ration for AUC(INF) is calculated as Treatment B/Treatment A|To demonstrate bioequivalence for atazanavir between the test (Treatment B) and reference (Treatment A) formulations, a linear mixed-effects model was applied to the natural logarithms of atazanavir AUC(0-INF), with treatment period and sequence as fixed effects, and patient (sequence) as a random effect.||1.120|1.011|
92187979|NCT01837719|184274110|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.28|||||TWO_SIDED|90.0|1.171|1.398|||Mixed Models Analysis||Geometric mean ratio for AUC(INF) was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effect and participant as a random effect was used to estimate the effect of a light meal and fthe fasted state on the natural logarithms of exposure of atazanavir when given as an FDC||1.398|1.171|
92304424|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.01||||0.124|TWO_SIDED|95.0|-0.83|6.86||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Physical Functioning|||6.86|-0.83|0.124
92304425|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.0||||0.12|TWO_SIDED|95.0|-0.79|6.8||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Physical Functioning|||6.80|-0.79|0.120
92304426|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.64||||0.814|TWO_SIDED|95.0|-5.98|4.7||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Physical Functioning|||4.70|-5.98|0.814
92304427|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.41||||0.873|TWO_SIDED|95.0|-5.49|4.67||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Physical Functioning|||4.67|-5.49|0.873
92304428|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.23||||0.928|TWO_SIDED|95.0|-4.8|5.26||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Physical Functioning|||5.26|-4.80|0.928
92304429|NCT02504671|184511801|OTHER||Mean Difference (Net)|-1.29||||0.541|TWO_SIDED|95.0|-5.44|2.86||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Emotional|||2.86|-5.44|0.541
92304430|NCT02504671|184511801|OTHER||Mean Difference (Net)|-1.29||||0.535|TWO_SIDED|95.0|-5.39|2.81||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Emotional|||2.81|-5.39|0.535
92304431|NCT02504671|184511801|OTHER||Mean Difference (Net)|-1.03||||0.62|TWO_SIDED|95.0|-5.1|3.05||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Emotional|||3.05|-5.10|0.620
92304432|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.34||||0.881|TWO_SIDED|95.0|-4.08|4.76||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Role Emotional|||4.76|-4.08|0.881
92304433|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.66||||0.767|TWO_SIDED|95.0|-3.74|5.07||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,Role Emotional|||5.07|-3.74|0.767
92304434|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.24||||0.913|TWO_SIDED|95.0|-4.12|4.61||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Role Emotional|||4.61|-4.12|0.913
92304435|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.91||||0.79|TWO_SIDED|95.0|-5.81|7.63||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Emotional|||7.63|-5.81|0.790
92187980|NCT01837719|184274110|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.11|||||TWO_SIDED|90.0|0.991|1.244|||Mixed Models Analysis||Geometric mean ratio of AUC(INF) was calculated as Treatment D/Treatment C|To assess the relative bioavailability of atazanavir under fasted (Treatment D) versus fed (Treatment C) states, a linear mixed-effects model was applied to the natural logarithms of atazanavir AUC(0-INF) with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect||1.244|0.991|
92187981|NCT01837719|184274110|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.956|||||TWO_SIDED|90.0|0.81|1.128|||Mixed Models Analysis||Geometric mean of AUC(INF) was calculated as Treatment E/Treatment D|||1.128|0.810|
92187982|NCT01837719|184274110|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.749|||||TWO_SIDED|90.0|0.658|0.852|||Mixed Models Analysis||Geometric mean ratio of AUC(INF) was calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effect and participant as a random effect was used to estimate the effect of high fat and light meals on the natural logarithms of exposure of atazanavir when administered as an FDC.||0.852|0.658|
92187983|NCT01837719|184274115|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.084|||||TWO_SIDED|90.0|1.014|1.158|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment B/Treatment A|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as a fixed-dose combination.||1.158|1.014|
92304436|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.5||||0.876|TWO_SIDED|95.0|-5.86|6.87||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Emotional|||6.87|-5.86|0.876
92304437|NCT02504671|184511801|OTHER||Mean Difference (Net)|-1.3||||0.684|TWO_SIDED|95.0|-7.59|4.99||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Emotional|||4.99|-7.59|0.684
92187984|NCT01837719|184274115|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.349|||||TWO_SIDED|90.0|1.215|1.498|||Mixed Models Analysis||Geometric mean ratio of C24 was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as a fixed-dose combination.||1.498|1.215|
92304438|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.86||||0.588|TWO_SIDED|95.0|-2.28|4.01||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Physical|||4.01|-2.28|0.588
92304439|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.9||||0.229|TWO_SIDED|95.0|-1.21|5.0||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Physical|||5.00|-1.21|0.229
92304440|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.41||||0.125|TWO_SIDED|95.0|-0.67|5.49||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Physical|||5.49|-0.67|0.125
92304441|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.6||||0.736|TWO_SIDED|95.0|-2.92|4.12||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Role Physical|||4.12|-2.92|0.736
92304442|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.72||||0.338|TWO_SIDED|95.0|-1.8|5.23||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Role Physical|||5.23|-1.80|0.338
92304443|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.92||||0.6|TWO_SIDED|95.0|-2.55|4.4||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Role Physical|||4.40|-2.55|0.600
92304444|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.26||||0.657|TWO_SIDED|95.0|-4.34|6.86||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Physical|||6.86|-4.34|0.657
92304445|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.12||||0.965|TWO_SIDED|95.0|-5.41|5.17||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Physical|||5.17|-5.41|0.965
92304446|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.12||||0.675|TWO_SIDED|95.0|-4.14|6.37||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Physical|||6.37|-4.14|0.675
92304447|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.32||||0.88|TWO_SIDED|95.0|-4.54|3.89||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Social Functioning|||3.89|-4.54|0.880
92304448|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.17||||0.135|TWO_SIDED|95.0|-1.0|7.33||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Social Functioning|||7.33|-1.00|0.135
92304449|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.57||||0.785|TWO_SIDED|95.0|-3.56|4.71||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Social Functioning|||4.71|-3.56|0.785
92304450|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.55||||0.797|TWO_SIDED|95.0|-3.69|4.8||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Social Functioning|||4.80|-3.69|0.797
92304451|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.0|||>|0.999|TWO_SIDED|95.0|-4.23|4.23||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Social Functioning|||4.23|-4.23|>0.999
92304452|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.28||||0.896|TWO_SIDED|95.0|-3.91|4.46||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Social Functioning|||4.46|-3.91|0.896
92187985|NCT01837719|184274115|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.144||||||90.0|1.006|1.3|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment D/Treatment C|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as an FDC||1.300|1.006|
92187986|NCT01837719|184274115|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.231|||||TWO_SIDED|90.0|1.023|1.483|||||Geometric mean ratio was calculated as Treatment E/Treatment D|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as a fixed-dose combination.||1.483|1.023|
92187987|NCT01837719|184274115|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.912||||||90.0|0.789|1.054|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as a fixed-dose combination.||1.054|0.789|
92187988|NCT01837719|184274117|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.023|||||TWO_SIDED|90.0|0.991|1.057|||||Geometric mean ratio was calculated as Treatment B/Treatment A|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when administered as a fixed-dose combination.||1.057|0.991|
92304453|NCT02504671|184511801|OTHER||Mean Difference (Net)|-2.89||||0.424|TWO_SIDED|95.0|-10.02|4.24||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Social Functioning|||4.24|-10.02|0.424
92304454|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.44||||0.898|TWO_SIDED|95.0|-7.16|6.29||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Social Functioning|||6.29|-7.16|0.898
92187989|NCT01837719|184274117|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.305|||||TWO_SIDED|90.0|1.215|1.402|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when administered as a fixed-dose combination.||1.402|1.215|
92304455|NCT02504671|184511801|OTHER||Mean Difference (Net)|-3.79||||0.26|TWO_SIDED|95.0|-10.42|2.84||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Social Functioning|||2.84|-10.42|0.260
92304456|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.02||||0.603|TWO_SIDED|95.0|-2.85|4.9||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Vitality|||4.90|-2.85|0.603
92304457|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.56||||0.068|TWO_SIDED|95.0|-0.26|7.39||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Vitality|||7.39|-0.26|0.068
92304458|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.63||||0.174|TWO_SIDED|95.0|-1.17|6.43||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Vitality|||6.43|-1.17|0.174
92304459|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.97||||0.334|TWO_SIDED|95.0|-2.04|5.98||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Vitality|||5.98|-2.04|0.334
92304460|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.91||||0.153|TWO_SIDED|95.0|-1.09|6.91||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Vitality|||6.91|-1.09|0.153
92304461|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.18||||0.279|TWO_SIDED|95.0|-1.78|6.13||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Vitality|||6.13|-1.78|0.279
92304462|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.94||||0.584|TWO_SIDED|95.0|-5.04|8.91||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,Vitality|||8.91|-5.04|0.584
92304463|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.15||||0.346|TWO_SIDED|95.0|-3.44|9.73||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Vitality|||9.73|-3.44|0.346
92304464|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.97||||0.37|TWO_SIDED|95.0|-3.55|9.48||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Vitality|||9.48|-3.55|0.370
92304465|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.94||||0.045|TWO_SIDED|95.0|0.06|5.83||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, PCS|||5.83|0.06|0.045
92187990|NCT01837719|184274117|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.085|||||TWO_SIDED|90.0|0.925|1.273|||||Geometric mean ratio was calculated as Treatment D/Treatment C|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir cobicistat||1.273|0.925|
92187991|NCT01837719|184274117|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.04|||||TWO_SIDED|90.0|0.937|1.154|||||Geometric mean ratio was calculated asTreatment E/Treatment D|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when administered as a fixed-dose combination.||1.154|0.937|
92187992|NCT01837719|184274117|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.784|||||TWO_SIDED|90.0|0.717|0.858|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when administered as a fixed-dose combination.||0.858|0.717|
92187993|NCT01837719|184274119|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.019|||||TWO_SIDED|90.0|0.983|1.057|||||Geometric mean ratio of AUC(0-T) was calculated as Treatment B/Treatment A|A linear mixed-effect model was applied to the natural logarithms of cobicistat AUC(0-T) with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect.||1.057|0.983|
92187994|NCT01837719|184274119|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.232||||||90.0|1.141|1.331|||||Geometric mean ratio of AUC(0-T) was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when given as an FDC||1.331|1.141|
92187995|NCT01837719|184274119|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.102|||||TWO_SIDED|90.0|0.929|1.307|||||Geometric mean ratio of AUC(0-T) was calculated as Treatment D/Treatment C|A linear mixed-effect model was applied to the natural logarithms of cobicistat AUC(0-T) with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect.||1.307|0.929|
92187996|NCT01837719|184274119|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.127||||||90.0|1.017|1.248|||||Geometric mean ratio of AUC(0-T) was calculated asTreatment E/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a high fat meal and the fasted state on the natural logarithms of exposure of cobicistat when given as an FDC.||1.248|1.017|
92187997|NCT01837719|184274119|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.89|||||TWO_SIDED|90.0|0.825|0.96|||||Geometric mean ratio of AUC(0-T) was calculated asTreatment E/Treatment B|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a high fat meal and a light meal on the natural logarithms of exposure of cobicistat when given as an FDC||0.960|0.825|
92267118|NCT02203305|184435440|SUPERIORITY||||||=|0.034|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||=0.034
92267119|NCT02203305|184435441|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||=0.001
92267120|NCT02203305|184435441|SUPERIORITY||||||=|0.037|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||=0.037
92267121|NCT02203305|184435442|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||<0.001
92267122|NCT02203305|184435442|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||=0.001
92267123|NCT02203305|184435443|SUPERIORITY||||||=|0.004|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) with a bone-conduction device (preoperative interval) and 2) with the cochlear implant (CI) at the 12-month post-activation interval. Results are reported in dB SNR, where a lower value indicates better performance. A paired samples t-test compared the performance with the two devices.||||=0.004
92267124|NCT02203305|184435443|SUPERIORITY||||||=|0.004|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Results are reported in dB SNR, where a lower value indicates better performance.||||=0.004
92267125|NCT02203305|184435444|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Results are reported in dB SNR, where a lower value indicates better performance.||||<0.001
92267126|NCT02203305|184435444|SUPERIORITY||||||=|0.727|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Results are reported in dB SNR, where a lower value indicates better performance.||||=0.727
92304466|NCT02504671|184511801|OTHER||Mean Difference (Net)|4.11||||0.006|TWO_SIDED|95.0|1.22|7.01||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, PCS|||7.01|1.22|0.006
92304467|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.89||||0.264|TWO_SIDED|95.0|-1.44|5.23||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,PCS|||5.23|-1.44|0.264
92304468|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.55||||0.037|TWO_SIDED|95.0|0.22|6.88||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,PCS|||6.88|0.22|0.037
92304469|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.16||||0.392|TWO_SIDED|95.0|-2.81|7.14||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, PCS|||7.14|-2.81|0.392
92304470|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.65||||0.493|TWO_SIDED|95.0|-3.09|6.39||MMRM analysis adjusted for PCS Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, PCS|||6.39|-3.09|0.493
92304471|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.16||||0.577|TWO_SIDED|95.0|-2.94|5.26||MMRM analysis adjusted for MCS Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, MCS|||5.26|-2.94|0.577
92304472|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.1||||0.964|TWO_SIDED|95.0|-4.01|4.2||MMRM analysis adjusted for MCS Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, MCS|||4.20|-4.01|0.964
92304473|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.97||||0.37|TWO_SIDED|95.0|-2.35|6.28||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, MCS|||6.28|-2.35|0.370
92304474|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.25||||0.138|TWO_SIDED|95.0|-1.05|7.54||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, MCS|||7.54|-1.05|0.138
92304475|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.36||||0.667|TWO_SIDED|95.0|-4.85|7.56||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, MCS|||7.56|-4.85|0.667
92304476|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.79||||0.203|TWO_SIDED|95.0|-4.85|7.56||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, MCS|||7.56|-4.85|0.203
92304477|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.45||||0.023|TWO_SIDED|95.0|0.49|6.41||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Bodily pain|||6.41|0.49|0.023
92304478|NCT02504671|184511801|OTHER||Mean Difference (Net)|5.08|||<|0.001|TWO_SIDED|95.0|2.14|8.03||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Bodily pain|||8.03|2.14|<0.001
92304479|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.11||||0.249|TWO_SIDED|95.0|-1.49|5.7||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Bodily pain|||5.70|-1.49|0.249
92304480|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.43||||0.059|TWO_SIDED|95.0|-0.13|6.99||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Bodily pain|||6.99|-0.13|0.059
92304481|NCT02504671|184511801|OTHER||Mean Difference (Net)|4.72||||0.134|TWO_SIDED|95.0|-1.47|10.9||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Bodily pain|||10.90|-1.47|0.134
92304482|NCT02504671|184511801|OTHER||Mean Difference (Net)|5.2||||0.078|TWO_SIDED|95.0|-0.58|10.97||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Bodily pain|||10.97|-0.58|0.078
92304483|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.65||||0.275|TWO_SIDED|95.0|-1.32|4.62||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, General health|||4.62|-1.32|0.275
92304484|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.94||||0.199|TWO_SIDED|95.0|-1.03|4.91||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, General health|||4.91|-1.03|0.199
92304485|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.69||||0.654|TWO_SIDED|95.0|-2.36|3.74||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, General health|||3.74|-2.36|0.654
92304486|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.29||||0.138|TWO_SIDED|95.0|-0.74|5.33||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, General health|||5.33|-0.74|0.138
92304487|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.77||||0.516|TWO_SIDED|95.0|-3.62|7.17||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, General health|||7.17|-3.62|0.516
92304488|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.35||||0.198|TWO_SIDED|95.0|-1.77|8.46||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, General health|||8.46|-1.77|0.198
92304489|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.15||||0.941|TWO_SIDED|95.0|-4.15|3.84||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Mental health|||3.84|-4.15|0.941
92304490|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.05||||0.979|TWO_SIDED|95.0|-3.94|4.05||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Mental health|||4.05|-3.94|0.979
92304491|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.4||||0.287|TWO_SIDED|95.0|-2.03|6.84||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Mental health|||6.84|-2.03|0.287
92304492|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.45||||0.125|TWO_SIDED|95.0|-0.96|7.85||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Mental health|||7.85|-0.96|0.125
92304493|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.15||||0.503|TWO_SIDED|95.0|-4.18|8.49||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Mental health|||8.49|-4.18|0.503
92304494|NCT02504671|184511801|OTHER||Mean Difference (Net)|5.01||||0.099|TWO_SIDED|95.0|-0.96|10.98||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24,Mental health|||10.98|-0.96|0.099
92304495|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.88||||0.268|TWO_SIDED|95.0|-1.45|5.21||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Physical functioning|||5.21|-1.45|0.268
92304496|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.45||||0.147|TWO_SIDED|95.0|-0.87|5.77||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Physical functioning|||5.77|-0.87|0.147
92304497|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.87||||0.145|TWO_SIDED|95.0|-0.99|6.73||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Physical functioning|||6.73|-0.99|0.145
92304498|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.54||||0.014|TWO_SIDED|95.0|0.97|8.61||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Physical functioning|||8.61|0.97|0.014
92304499|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.47||||0.856|TWO_SIDED|95.0|-4.66|5.61||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Physical functioning|||5.61|-4.66|0.856
92304500|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.65||||0.793|TWO_SIDED|95.0|-4.24|5.55||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Physical functioning|||5.55|-4.24|0.793
92304501|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.59||||0.778|TWO_SIDED|95.0|-3.51|4.69||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Role emotional|||4.69|-3.51|0.778
92187998|NCT01837719|184274119|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% CI for the ratios of geometric means of the test formulation (FDC tablet of 300/150 mg atazanavir/cobicistat) to the reference formulation (300-mg atazanavir capsule coadministered with 150-mg cobicistat) were contained within 0.80 to 1.25 for atazanavir Cmax, AUC(0-T), and AUC(INF).|Geometric mean ratio|1.019|||||TWO_SIDED|90.0|0.982|1.058|||||Geometric mean ratio of AUC(INF) was calculated as Treatment B/Treatment A|To demonstrate bioequivalence for atazanavir between the test (Treatment B) and reference (Treatment A) formulations, a linear mixed-effects model was applied to the natural logarithms of atazanavir AUC(0-INF), with treatment, period, and sequence as fixed effects, and participant (sequence) as a random effect.||1.058|0.982|
92187999|NCT01837719|184274119|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.24|||||TWO_SIDED|90.0|1.148|1.34|||||Geometric mean ratio of AUC(INF) was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when given as an FDC||1.340|1.148|
92304502|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.6||||0.773|TWO_SIDED|95.0|-4.7|3.5||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Role emotional|||3.50|-4.70|0.773
92304503|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.08||||0.631|TWO_SIDED|95.0|-3.34|5.49||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Role emotional|||5.49|-3.34|0.631
92304504|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.68||||0.23|TWO_SIDED|95.0|-1.71|7.07||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Role emotional|||7.07|-1.71|0.230
92188000|NCT01837719|184274119|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.976|||||TWO_SIDED|90.0|0.886|1.075|||||Geometric mean ratio of AUC(INF) was calculated as Treatment D/Treatment C|A linear mixed-effect model was applied to the natural logarithms of cobicistat AUC(INF) with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect.||1.075|0.886|
92188001|NCT01837719|184274119|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.116|||||TWO_SIDED|90.0|1.012|1.231|||||Geometric mean ratio of AUC(INF) was calculated as Treatment E/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a high fat meal and fasted on the natural logarithms of exposure of cobicistat when given as an FDC.||1.231|1.012|
92304505|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.41||||0.901|TWO_SIDED|95.0|-6.03|6.84||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Role emotional|||6.84|-6.03|0.901
92304506|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.52||||0.412|TWO_SIDED|95.0|-3.54|8.59||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Role emotional|||8.59|-3.54|0.412
92304507|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.88||||0.234|TWO_SIDED|95.0|-1.22|4.98||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Role physical|||4.98|-1.22|0.234
92304508|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.66||||0.094|TWO_SIDED|95.0|-0.46|5.77||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Role physical|||5.77|-0.46|0.094
92304509|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.43||||0.423|TWO_SIDED|95.0|-2.08|4.94||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Role physical|||4.94|-2.08|0.423
92304510|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.35||||0.061|TWO_SIDED|95.0|-0.16|6.86||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Role physical|||6.86|-0.16|0.061
92304511|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.21||||0.657|TWO_SIDED|95.0|-4.16|6.57||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Role physical|||6.57|-4.16|0.657
92304512|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.87||||0.737|TWO_SIDED|95.0|-4.22|5.95||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Role physical|||5.95|-4.22|0.737
92304513|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.95||||0.165|TWO_SIDED|95.0|-1.22|7.11||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Social Functioning|||7.11|-1.22|0.165
92188002|NCT01837719|184274119|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.904|||||TWO_SIDED|90.0|0.836|0.978|||||Geometric mean ratio of AUC(INF) was calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a high fat meal and light meal on the natural logarithms of exposure of atazanavir when given as an FDC||0.978|0.836|
92188003|NCT02995733|184274131|SUPERIORITY|Asthma exacerbation rates during follow-up between two randomized treatment arms are compared using the Andersen-Gill adaptation of time-to-event Cox proportional hazard model with robust standard errors to account for multiple occurrences of the outcome in each patient (Andersen Gill, 1982). This analysis is based on intention-to-treat (ITT) patient population.|Cox Proportional Hazard|0.85||||0.048|TWO_SIDED|95.0|0.72|0.999|||Cox proportional hazard model|Pre-specified baseline covariates are adjusted in the model. A time-dependent covariate for the COVID pandemic is also included in adjustments.||||0.999|0.720|0.048
92188004|NCT02995733|184274132|SUPERIORITY|Mixed model is used to compare the treatment effects. The response variable is ACT change at each monthly assessment from baseline. The covariates (included as fixed effects) include randomized treatment arm, continuous time of assessment as a linear and quadratic term and the interactions of the treatment arm with the time variables. Independent random effects include intercept and time variables. The model adjusts for all the baseline covariates included in the primary analysis.|Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|0.5|1.2||||||||1.2|0.5|
92188005|NCT02995733|184274133|SUPERIORITY|Mixed model is used to compare the treatment effects. The response variable is ASUI change at each monthly assessment from baseline. The covariates (included as fixed effects) include randomized treatment arm, continuous time of assessment as a linear and quadratic term and the interactions of the treatment arm with the time variables. Independent random effects include intercept and time variables. The model adjusts for all the baseline covariates included in the primary analysis.|Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|0.02|0.05||||||||0.05|0.02|
92188006|NCT02995733|184274134|SUPERIORITY|Negative binomial regression model is used, with time as an offset to account for differential duration of follow-up. The model adjusts for all the baseline covariates included in the primary analysis.|Rate ratio|0.8|||||TWO_SIDED|95.0|0.67|0.95||||||||0.95|0.67|
92188007|NCT01183013|184274136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.1571||95.0|-0.41|0.07||The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.|ANCOVA|||Treatment comparisons are for fixed dose combination versus monotherapy.||0.07|-0.41|0.1571
92188008|NCT01183013|184274136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.0016|TWO_SIDED|95.0|-0.6|-0.14|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-0.14|-0.60|0.0016
92188009|NCT01183013|184274136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0006|TWO_SIDED|95.0|-0.64|-0.18|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-0.18|-0.64|0.0006
92188010|NCT01183013|184274136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.0003|TWO_SIDED|95.0|-0.67|-0.2|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-0.20|-0.67|0.0003
92188011|NCT01183013|184274136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|||<|0.0001|TWO_SIDED|95.0|-0.91|-0.44|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-0.44|-0.91|<0.0001
92304514|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.4||||0.109|TWO_SIDED|95.0|-0.77|7.56||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Social Functioning|||7.56|-0.77|0.109
92188012|NCT01183013|184274136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.12|-0.66|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-0.66|-1.12|<0.0001
92188013|NCT01183013|184274137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.246||||0.4639||95.0|0.692|2.242|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||2.242|0.692|0.4639
92188014|NCT01183013|184274137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.746||||0.0546||95.0|0.989|3.083|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||3.083|0.989|0.0546
92188015|NCT01183013|184274137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.903||||0.0254||95.0|1.083|3.345|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||3.345|1.083|0.0254
92304515|NCT02504671|184511801|OTHER||Mean Difference (Net)|1.98||||0.359|TWO_SIDED|95.0|-2.26|6.21||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Social Functioning|||6.21|-2.26|0.359
92304516|NCT02504671|184511801|OTHER||Mean Difference (Net)|4.35||||0.043|TWO_SIDED|95.0|0.14|8.56||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Social Functioning|||8.56|0.14|0.043
92304517|NCT02504671|184511801|OTHER||Mean Difference (Net)|-0.33||||0.923|TWO_SIDED|95.0|-7.15|6.49||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Social Functioning|||6.49|-7.15|0.923
92304518|NCT02504671|184511801|OTHER||Mean Difference (Net)|0.3||||0.927|TWO_SIDED|95.0|-6.11|6.7||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Social Functioning|||6.70|-6.11|0.927
92304519|NCT02504671|184511801|OTHER||Mean Difference (Net)|4.64||||0.018|TWO_SIDED|95.0|0.82|8.46||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Vitality|||8.46|0.82|0.018
92304520|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.34||||0.087|TWO_SIDED|95.0|-0.49|7.17||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Vitality|||7.17|-0.49|0.087
92304521|NCT02504671|184511801|OTHER||Mean Difference (Net)|2.64||||0.193|TWO_SIDED|95.0|-1.35|6.64||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Vitality|||6.64|-1.35|0.193
92304522|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.97||||0.051|TWO_SIDED|95.0|-0.01|7.95||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Vitality|||7.95|-0.01|0.051
92304523|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.36||||0.321|TWO_SIDED|95.0|-3.31|10.02||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Vitality|||10.02|-3.31|0.321
92304524|NCT02504671|184511801|OTHER||Mean Difference (Net)|3.13||||0.328|TWO_SIDED|95.0|-3.18|9.44||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Vitality|||9.44|-3.18|0.328
92304525|NCT02504671|184511802|OTHER||Mean Difference (Net)|-0.65||||0.701|TWO_SIDED|95.0|-3.97|2.67||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, FACIT score|||2.67|-3.97|0.701
92188016|NCT01183013|184274137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.804||||0.0009||95.0|1.524|5.159|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||5.159|1.524|0.0009
92188017|NCT01183013|184274137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.429|||<|0.0001||95.0|2.947|10.001|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||10.001|2.947|<0.0001
92188018|NCT01183013|184274137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.614|||<|0.0001||95.0|5.187|17.821|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||17.821|5.187|<0.0001
92304526|NCT02504671|184511802|OTHER||Mean Difference (Net)|1.5||||0.37|TWO_SIDED|95.0|-1.79|4.78||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, FACIT score|||4.78|-1.79|0.370
92304527|NCT02504671|184511802|OTHER||Mean Difference (Net)|2.55||||0.125|TWO_SIDED|95.0|-0.71|5.81||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, FACIT score|||5.81|-0.71|0.125
92304528|NCT02504671|184511802|OTHER||Mean Difference (Net)|1.92||||0.292|TWO_SIDED|95.0|-1.66|5.5||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, FACIT score|||5.50|-1.66|0.292
92304529|NCT02504671|184511802|OTHER||Mean Difference (Net)|6.11||||0.163|TWO_SIDED|95.0|-1.04|6.11||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, FACIT sscore|||6.11|-1.04|0.163
92304530|NCT02504671|184511802|OTHER||Mean Difference (Net)|3.08||||0.087|TWO_SIDED|95.0|-0.46|6.61||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, FACIT score|||6.61|-0.46|0.087
92304531|NCT02504671|184511802|OTHER||Mean Difference (Net)|0.76||||0.808|TWO_SIDED|95.0|-5.4|6.92||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, FACIT score|||6.92|-5.40|0.808
92188019|NCT01183013|184274138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.126||||0.7359||95.0|0.565|2.243|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||2.243|0.565|0.7359
92188020|NCT01183013|184274138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.905||||0.0363||95.0|1.042|3.484|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||3.484|1.042|0.0363
92304532|NCT02504671|184511802|OTHER||Mean Difference (Net)|-0.47||||0.874|TWO_SIDED|95.0|-6.31|5.38||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, FACIT score|||5.38|-6.31|0.874
92304533|NCT02504671|184511802|OTHER||Mean Difference (Net)|-0.81||||0.78|TWO_SIDED|95.0|-6.58|4.95||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,FACIT score|||4.95|-6.58|0.780
92304534|NCT02504671|184511802|OTHER||Mean Difference (Net)|3.57||||0.033|TWO_SIDED|95.0|0.29|6.85||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, FACIT score|||6.85|0.29|0.033
92304535|NCT02504671|184511802|OTHER||Mean Difference (Net)|2.81||||0.094|TWO_SIDED|95.0|-0.48|6.1||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, FACIT score|||6.10|-0.48|0.094
92304536|NCT02504671|184511802|OTHER||Mean Difference (Net)|3.92||||0.032|TWO_SIDED|95.0|0.34|7.49||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, FACIT score|||7.49|0.34|0.032
92304537|NCT02504671|184511802|OTHER||Mean Difference (Net)|5.33||||0.004|TWO_SIDED|95.0|1.77|8.89||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, FACIT score|||8.89|1.77|0.004
92304538|NCT02504671|184511802|OTHER||Mean Difference (Net)|0.73||||0.808|TWO_SIDED|95.0|-5.19|6.64||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, FACIT score|||6.64|-5.19|0.808
92304539|NCT02504671|184511802|OTHER||Mean Difference (Net)|1.87||||0.511|TWO_SIDED|95.0|-3.74|7.48||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, FACIT score|||7.48|-3.74|0.511
92304540|NCT02504671|184511803|OTHER||Mean Difference (Net)|-0.07||||0.888|TWO_SIDED|95.0|-1.04|0.9||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, BFI score|||0.90|-1.04|0.888
92304541|NCT02504671|184511803|OTHER||Mean Difference (Net)|-0.5||||0.307|TWO_SIDED|95.0|-1.46|0.46||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, BFI score|||0.46|-1.46|0.307
92304542|NCT02504671|184511803|OTHER||Mean Difference (Net)|-0.99||||0.041|TWO_SIDED|95.0|-1.95|-0.04||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, BFI score|||-0.04|-1.95|0.041
92304543|NCT02504671|184511803|OTHER||Mean Difference (Net)|-0.64||||0.191|TWO_SIDED|95.0|-1.6|0.32||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, BFI score|||0.32|-1.60|0.191
92304544|NCT02504671|184511803|OTHER||Mean Difference (Net)|-1.2||||0.014|TWO_SIDED|95.0|-2.16|-0.24||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, BFI score|||-0.24|-2.16|0.014
92304545|NCT02504671|184511803|OTHER||Mean Difference (Net)|-1.39||||0.004|TWO_SIDED|95.0|-2.34|-0.45||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, BFI score|||-0.45|-2.34|0.004
92304546|NCT02504671|184511803|OTHER||Mean Difference (Net)|-0.36||||0.656|TWO_SIDED|95.0|-1.94|1.23||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, BFI score|||1.23|-1.94|0.656
92304547|NCT02504671|184511803|OTHER||Mean Difference (Net)|0.07||||0.928|TWO_SIDED|95.0|-1.43|1.57||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, BFI score|||1.57|-1.43|0.928
92304548|NCT02504671|184511803|OTHER||Mean Difference (Net)|-0.2||||0.788|TWO_SIDED|95.0|-1.68|1.28||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, BFI score|||1.28|-1.68|0.788
92304549|NCT02504671|184511803|OTHER||Mean Difference (Net)|-1.26||||0.01|TWO_SIDED|95.0|-2.22|-0.3||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, BFI score|||-0.30|-2.22|0.010
92188021|NCT01183013|184274138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.269||||0.4039||95.0|0.726|2.217|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||2.217|0.726|0.4039
92304550|NCT02504671|184511803|OTHER||Mean Difference (Net)|-0.93||||0.059|TWO_SIDED|95.0|-1.89|0.03||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, BFI score|||0.03|-1.89|0.059
92304551|NCT02504671|184511803|OTHER||Mean Difference (Net)|-1.44||||0.003|TWO_SIDED|95.0|-2.4|-0.48||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, BFI score|||-0.48|-2.40|0.003
92304552|NCT02504671|184511803|OTHER||Mean Difference (Net)|-1.57||||0.001|TWO_SIDED|95.0|-2.53|-0.62||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, BFI score|||-0.62|-2.53|0.001
92304553|NCT02504671|184511803|OTHER||Mean Difference (Net)|-0.76||||0.324|TWO_SIDED|95.0|-2.28|0.76||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, BFI score|||0.76|-2.28|0.324
92304554|NCT02504671|184511803|OTHER||Mean Difference (Net)|-0.58||||0.432|TWO_SIDED|95.0|-2.02|0.87||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, BFI score|||0.87|-2.02|0.432
92304555|NCT03222583|184511810|NON_INFERIORITY|The percentage of participants in Arm A with SVR12 was non-inferior to the historical SVR12 rate of 96% if the lower confidence bound (LCB) of the 2-sided 95% confidence interval (CI) for the percentage was \> 90%.|Percentage of Participants with SVR12|97.2|||||TWO_SIDED|95.0|95.5|98.9||||||In order to control the Type I error rate, a fixed sequence testing procedure was used for the 3 ranked primary efficacy endpoints. Only if success had been demonstrated for the first primary endpoint was testing to proceed to the second primary endpoint. Similarly, only if success had been demonstrated for the second primary endpoint was testing to proceed to the third primary endpoint.||98.9|95.5|
92304556|NCT03222583|184511811|NON_INFERIORITY|The percentage of GT1-infected participants in Arm A with SVR12 was non-inferior to the historical SVR12 rate of 97% if the LCB of the 2-sided 95% CI for the percentage was \> 91%.|Percentage of Participants with SVR12|99.4|||||TWO_SIDED|95.0|98.3|100.0||||||In order to control the Type I error rate, a fixed sequence testing procedure was used for the 3 ranked primary efficacy endpoints. Only if success had been demonstrated for the first primary endpoint was testing to proceed to the second primary endpoint. Similarly, only if success had been demonstrated for the second primary endpoint was testing to proceed to the third primary endpoint.||100.0|98.3|
92304557|NCT03222583|184511812|NON_INFERIORITY|The percentage of GT2-infected participants in Arm A with SVR12 was non-inferior to the historical SVR12 rate of 95% if the LCB of the 2-sided 95% CI for the percentage was \> 89%.|Percentage of Participants with SVR12|97.8|||||TWO_SIDED|95.0|95.4|100.0||||||In order to control the Type I error rate, a fixed sequence testing procedure was used for the 3 ranked primary efficacy endpoints. Only if success had been demonstrated for the first primary endpoint was testing to proceed to the second primary endpoint. Similarly, only if success had been demonstrated for the second primary endpoint was testing to proceed to the third primary endpoint.||100.0|95.4|
92304558|NCT04280705|184511823|SUPERIORITY||Cox Proportional Hazard|1.29|||<|0.001|TWO_SIDED|95.0|1.12|1.49|||Log Rank|||||1.49|1.12|<0.001
92304559|NCT04280705|184511847|SUPERIORITY|||||||0.058|||||||Barnard's Exact Test|||||||0.058
92304560|NCT04280705|184511848|SUPERIORITY|||||||0.01|||||||Barnard's Exact Test|||||||0.010
92304561|NCT04280705|184511860|SUPERIORITY||Cox Proportional Hazard|1.23||||0.002|TWO_SIDED|95.0|1.08|1.41|||Log Rank|||||1.41|1.08|0.002
92304562|NCT04280705|184511861|SUPERIORITY||Cox Proportional Hazard|1.29|||<|0.001|TWO_SIDED|95.0|1.12|1.48|||Log Rank|||||1.48|1.12|<0.001
92304563|NCT04280705|184511862|SUPERIORITY||Cox Proportional Hazard|1.27|||<|0.001|TWO_SIDED|95.0|1.1|1.46|||Log Rank|||||1.46|1.10|<0.001
92304564|NCT04280705|184511863|SUPERIORITY||Cox Proportional Hazard|1.07|||||TWO_SIDED|95.0|0.73|1.58||||||This analysis is for Asian participants||1.58|0.73|
92304565|NCT04280705|184511863|SUPERIORITY||Cox Proportional Hazard|1.25|||||TWO_SIDED|95.0|0.91|1.72||||||This analysis is for Black or African American participants||1.72|0.91|
92304566|NCT04280705|184511863|SUPERIORITY||Cox Proportional Hazard|1.29|||||TWO_SIDED|95.0|1.06|1.57||||||This analysis is for White participants||1.57|1.06|
92304567|NCT04280705|184511863|SUPERIORITY||Cox Proportional Hazard|1.68|||||TWO_SIDED|95.0|1.1|2.58||||||This analysis is for Race of Other participants||2.58|1.10|
92304568|NCT04280705|184511864|SUPERIORITY||Cox Proportional Hazard|1.31|||||TWO_SIDED|95.0|1.1|1.55||||||This analysis is for Not Hispanic or Latino participants||1.55|1.10|
92188022|NCT01183013|184274138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.22||||0.0345||95.0|1.06|4.649|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||4.649|1.060|0.0345
92304569|NCT04280705|184511864|SUPERIORITY||Cox Proportional Hazard|1.28|||||TWO_SIDED|95.0|0.94|1.73||||||This analysis is for Hispanic or Latino participants||1.73|0.94|
92304570|NCT04280705|184511865|SUPERIORITY||Cox Proportional Hazard|1.3|||||TWO_SIDED|95.0|1.09|1.56||||||This analysis is for Male participants||1.56|1.09|
92304571|NCT04280705|184511865|SUPERIORITY||Cox Proportional Hazard|1.31|||||TWO_SIDED|95.0|1.03|1.66||||||This analysis is for Female participants||1.66|1.03|
92304572|NCT01951885|184511866|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|47 patients per arm were needed to detect a 25% improvement in mucositis based on a one-sided test with 5% significance and 80% power.||||||0.05
92304573|NCT01951885|184511869|NON_INFERIORITY|Cumulative incidence methods are compared using the Gray test with a p-value \<0.05|||||<|0.05|||||||Log Rank|||||||<0.05
92304574|NCT01951885|184511870|NON_INFERIORITY|Hospital stay will be compared between groups using the Wilcoxon rank sum test with a p value of 0.05.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92304575|NCT01951885|184511871|NON_INFERIORITY|TPN use will be compared using the Chi-square test.|||||<|0.05|||||||Chi-squared|||||||<0.05
92188023|NCT01183013|184274138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.58|||<|0.0001||95.0|2.263|9.266|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||9.266|2.263|<0.0001
92188024|NCT01183013|184274138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.066|||<|0.0001||95.0|2.53|10.145|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||10.145|2.530|<0.0001
92188025|NCT01183013|184274139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.754||95.0|0.637|1.863|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||1.863|0.637|0.7540
92188026|NCT01183013|184274139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.707||||0.0506||95.0|0.999|2.918|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||2.918|0.999|0.0506
92304576|NCT01951885|184511872|NON_INFERIORITY|Overall survival was estimated using the Kaplan-Meier method and compared between patients receiving Tac/MTX versus Tac/mini-MTX/MMF using the log-rank test|||||<|0.05|||||||Log Rank|||||||<0.05
92304577|NCT01951885|184511873|NON_INFERIORITY|Progression-free survival was estimated using the Kaplan-Meier method and compared between patients receiving Tac/MTX versus Tac/mini-MTX/MMF using the log-rank test|||||<|0.05|||||||Log Rank|||||||<0.05
92304578|NCT01951885|184511876|NON_INFERIORITY|Infusion times will be compared using the Wilcoxon rank sum test|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92304579|NCT01951885|184511877|NON_INFERIORITY|100-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
92304580|NCT01951885|184511878|NON_INFERIORITY|100-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
92304581|NCT01951885|184511879|NON_INFERIORITY|100-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Chi-squared|||||||<0.05
92304582|NCT01951885|184511880|NON_INFERIORITY|100-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
92304583|NCT01951885|184511882|NON_INFERIORITY|180-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
92304584|NCT01951885|184511883|NON_INFERIORITY|180-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
92304585|NCT01951885|184511884|NON_INFERIORITY|180-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
92304586|NCT01687478|184511886|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.62|||||TWO_SIDED|95.0|-5.04|1.8|||||The Confidence Interval is based on the treatment difference LS Mean changes from baseline between Olanzapine + Fluoxetine and Placebo + Fluoxetine.|||1.80|-5.04|
92304587|NCT03716076|184511904|OTHER|mixed-effects linear regression|||||||||||||||||To compare time values to baseline, post-hoc Tukey's test was applied|||
92304588|NCT02633488|184511911|EQUIVALENCE|equivalence defined as less that 2 SD in FMD between 2 treatments|||||>|0.05||||||FMD % change exceeded the threshold of our statistical significance test, i.e. the null hypothesis that there was no effect of metformin remained tenable.|t-test, 2 sided|||||||>0.05
92304589|NCT01383135|184511937|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034||||||GraphPad (GraphPad Software, San Diego, Calif) was used for the paired two-sample t test and was performed to compare SUVmax values. P \< .05 was considered to indicate a significant difference|t-test, 2 sided|||Comparison made between baseline tumor values and tumor values 6-weeks post-bevacizumab therapy||||.034
92304590|NCT02605993|184511969|OTHER||||||<|0.0001|TWO_SIDED|95.0||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|Mixed Model for Repeated Measures (MMRM)|||Statistical Analysis presented is of Cohorts 1 to 4 combined at Day 253. A sample size of 20 participants from the combined cohorts was required to provide approximately 95% power to detect a mean paired difference in LDH from Baseline of -40% at Day 253 for Cohorts 1 to 4, with an estimated standard deviation (SD) of 45%. This was based on a 2-sided paired t-test, with 5% type I error rate. To account for a possible 15% dropout rate, up to 26 participants were enrolled.||||<0.0001
92304591|NCT02605993|184511969|OTHER||||||<|0.0001|TWO_SIDED|95.0||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0.|MMRM|||Statistical Analysis presented is of Cohort 4 at Day 281. A sample size of 20 participants from the combined cohorts was required to provide approximately 95% power to detect a mean paired difference in LDH from Baseline of -40% at Day 281 for Cohort 4 only, with an estimated SD of 45%. This was based on a 2-sided paired t-test, with 5% type I error rate. To account for a possible 15% dropout rate, up to 26 participants were enrolled.||||<0.0001
92304592|NCT02605993|184511970|OTHER|||||||0.0214||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|MMRM|||Statistical Analysis presented is of Cohorts 1 to 4 combined at Day 253.||||0.0214
92304593|NCT02605993|184511970|OTHER|||||||0.0313||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0.|MMRM|||Statistical Analysis presented is of Cohort 4 at Day 281.||||0.0313
92304594|NCT02605993|184511971|OTHER|||||||0.0625||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|MMRM|||tatistical Analysis presented is of Cohorts 1 to 4 combined at Day 253.||||0.0625
92304595|NCT02605993|184511971|OTHER|MMRM||||||0.5||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0.|MMRM|||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.||||0.5000
92304596|NCT02605993|184511972|OTHER|||||||0.4871||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|MMRM|||Statistical Analysis presented is of Cohorts 1 to 4 combined at Day 253.||||0.4871
92304597|NCT02605993|184511972|OTHER|||||||0.4688||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0.|MMRM|||Statistical Analysis presented is of Cohort 4 at Day 281.||||0.4688
92304598|NCT02605993|184511973|OTHER|||||||0.0023||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|MMRM|||Statistical Analysis presented is of Cohorts 1 to 4 combined at Day 253.||||0.0023
92304599|NCT02605993|184511974|OTHER|||||||0.0029||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|MMRM|||Statistical Analysis presented is of Cohorts 1 to 4 combined at Day 253.||||0.0029
92304600|NCT02605993|184511974|OTHER|||||||0.125||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0.|MMRM|||Statistical Analysis presented is of Cohort 4 at Day 281.||||0.1250
92304601|NCT03493386|184511978|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geometric mean|1.02|||||TWO_SIDED|90.0|0.97|1.07|||||AUC (0-t)|||1.07|0.97|
92304602|NCT03493386|184511978|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geometric mean|1.02|||||TWO_SIDED|90.0|0.97|1.07|||||AUC(0-inf)|||1.07|0.97|
92304603|NCT03493386|184511979|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geometric mean|1.04|||||TWO_SIDED|90.0|0.97|1.12|||||Cmax|||1.12|0.97|
92304604|NCT03493386|184511986|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geometric mean|0.91|||||TWO_SIDED|90.0|0.82|1.01|||||AUC (0-t)|||1.01|0.82|
92304605|NCT03493386|184511986|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geometric mean|0.91|||||TWO_SIDED|90.0|0.82|1.01|||||AUC (0-inf)|||1.01|0.82|
92304606|NCT03493386|184511987|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geomtric mean|0.89||||||90.0|0.73|1.08||||||||1.08|0.73|
92304607|NCT00988442|184512042|SUPERIORITY_OR_OTHER|||||||1||||||Two-sided 5% significance level.|Fisher Exact|||A Fisher's exact test was used to compare the proportion of participants with virologic suppression, defined as HIV-1 RNA less than 200 copies/mL at week 48 between the standard of care and standard of care + enhanced telephone support groups.||||1.000
92304608|NCT00271154|184512070|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Null hypothesis: mean 12-month change in LVESVi in group 1 = mean 12-month change in LVESVi in group 2.||||<0.0001
92304609|NCT00271154|184512071|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Chi-squared|||Null hypothesis: Percentage worsened in CRT OFF group = Percentage worsened in CRT ON group||||0.10
92188027|NCT01183013|184274139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.966||||0.0005|TWO_SIDED|95.0|1.604|5.485|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||5.485|1.604|0.0005
92304610|NCT04620135|184512072|SUPERIORITY||The least squares (LS) mean difference|-1.74|STANDARD_ERROR_OF_MEAN|0.221|<|1e-05|TWO_SIDED|95.0|-2.17|-1.31||Analyzed as ANCOVA with mean diurnal IOP at Week 4 as the response, baseline mean diurnal IOP as a covariate, and treatment as a main effect, using the ITT population with MCMC and regression-based multiple imputation to impute missing data.|ANCOVA||||The primary analysis of the primary endpoint employed an analysis of covariance (ANCOVA) with mean diurnal IOP at Week 4 as the response, baseline mean diurnal IOP as a covariate, and treatment as a main effect, using the ITT population with Markov Chain Monte Carlo (MCMC) and regression based multiple imputation (MI) techniques to impute missing data. The least squares (LS) mean difference (netarsudil - ripasudil) was presented with a 2-sided p-value and 95% confidence intervals (CIs). A success criterion for the superiority of netarsudil to ripasudil was defined as the 2-sided p value ≤ 0.05 for testing the difference (netarsudil QD - ripasudil BID) to 0 and the point estimate of the LS mean difference of \< 0.|-1.31|-2.17|<0.00001
92304611|NCT01442688|184512076|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.995|1.04|||ANOVA|||||1.04|0.995|
92304612|NCT01442688|184512077|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric mean ratio|0.991|||||TWO_SIDED|90.0|0.94|1.04|||ANOVA|||||1.04|0.940|
92304613|NCT02666352|184512080|OTHER||Geometric least-squares mean ratio|1.43|||||TWO_SIDED|90.0|0.89|2.31||||||||2.31|0.89|
92304614|NCT02666352|184512080|OTHER||Geometric least-squares mean ratio|2.15|||||TWO_SIDED|90.0|1.33|3.47||||||||3.47|1.33|
92304615|NCT02666352|184512081|OTHER||Geometric least-squares mean ratio|1.43|||||TWO_SIDED|90.0|0.88|2.31||||||||2.31|0.88|
92304616|NCT02666352|184512081|OTHER||Geometric least-squares mean ratio|2.15||||||90.0|1.33|3.48||||||||3.48|1.33|
92304617|NCT02666352|184512082|OTHER||Geometric least-squares mean ratio|1.43|||||TWO_SIDED|90.0|0.89|2.31||||||||2.31|0.89|
92304618|NCT02666352|184512082|OTHER||Geometric least-squares mean ratio|2.15|||||TWO_SIDED|90.0|1.33|3.47||||||||3.47|1.33|
92304619|NCT02666352|184512083|OTHER||Geometric least-squares mean ratio|1.32|||||TWO_SIDED|90.0|0.81|2.15||||||||2.15|0.81|
92188028|NCT01183013|184274139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.696||||0.0002||95.0|1.594|4.559|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||4.559|1.594|0.0002
92304620|NCT02666352|184512083|OTHER||Geometric least-squares mean ratio|1.81|||||TWO_SIDED|90.0|1.11|2.94||||||||2.94|1.11|
92304621|NCT02666352|184512089|OTHER||Geometric least-squares mean ratio|0.8|||||TWO_SIDED|90.0|0.58|1.1||||||||1.10|0.58|
92304622|NCT02666352|184512089|OTHER||Geometric least-squares mean ratio|0.84|||||TWO_SIDED|90.0|0.61|1.16||||||||1.16|0.61|
92188029|NCT01183013|184274139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.017|||<|0.0001||95.0|2.348|6.873|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||6.873|2.348|<0.0001
92304623|NCT02666352|184512090|OTHER||Geometric least-squares mean ratio|0.8|||||TWO_SIDED|90.0|0.58|1.11||||||||1.11|0.58|
92304624|NCT02666352|184512090|OTHER||Geometric least-squares mean ratio|0.86||||||90.0|0.62|1.18||||||||1.18|0.62|
92304625|NCT02666352|184512091|OTHER||Geometric least-squares mean ratio|0.77|||||TWO_SIDED|90.0|0.57|1.05||||||||1.05|0.57|
92304626|NCT02666352|184512091|OTHER||Geometric least-squares mean ratio|0.73|||||TWO_SIDED|90.0|0.54|0.99||||||||0.99|0.54|
92304627|NCT02666352|184512092|OTHER||Geometric least-squares mean ratio|0.83|||||TWO_SIDED|90.0|0.61|1.13||||||||1.13|0.61|
92304628|NCT02666352|184512092|OTHER||Geometric least-squares mean ratio|0.75|||||TWO_SIDED|90.0|0.55|1.01||||||||1.01|0.55|
92304629|NCT02666352|184512093|OTHER||Geometric least-squares mean ratio|0.83|||||TWO_SIDED|90.0|0.6|1.15||||||||1.15|0.60|
92304630|NCT02666352|184512093|OTHER||Geometric least-squares mean ratio|0.82|||||TWO_SIDED|90.0|0.59|1.13||||||||1.13|0.59|
92304631|NCT02666352|184512097|OTHER||Geometric least-squares mean ratio|0.68|||||TWO_SIDED|90.0|0.52|0.9||||||||0.90|0.52|
92304632|NCT02666352|184512097|OTHER||Geometric least-squares mean ratio|0.66|||||TWO_SIDED|90.0|0.5|0.86||||||||0.86|0.50|
92304633|NCT02666352|184512098|OTHER||Geometric least-squares mean ratio|0.64|||||TWO_SIDED|90.0|0.48|0.86||||||||0.86|0.48|
92304634|NCT02666352|184512098|OTHER||Geometric least-squares mean ratio|0.61||||||90.0|0.46|0.82||||||||0.82|0.46|
92304635|NCT02666352|184512099|OTHER||Geometric least-squares mean ratio|0.79|||||TWO_SIDED|90.0|0.62|1.01||||||||1.01|0.62|
92304636|NCT02666352|184512099|OTHER||Geometric least-squares mean ratio|0.8|||||TWO_SIDED|90.0|0.63|1.02||||||||1.02|0.63|
92304637|NCT02666352|184512100|OTHER||Geometric least-squares mean ratio|0.8|||||TWO_SIDED|90.0|0.61|1.05||||||||1.05|0.61|
92304638|NCT02666352|184512100|OTHER||Geometric least-squares mean ratio|0.78|||||TWO_SIDED|90.0|0.6|1.03||||||||1.03|0.60|
92304639|NCT02666352|184512101|OTHER||Geometric least-squares mean ratio|0.71|||||TWO_SIDED|90.0|0.57|0.89||||||||0.89|0.57|
92304640|NCT02666352|184512101|OTHER||Geometric least-squares mean ratio|0.73|||||TWO_SIDED|90.0|0.58|0.91||||||||0.91|0.58|
92304641|NCT02666352|184512104|OTHER||Geometric least-squares mean ratio (GMR)|1.16|||||TWO_SIDED|90.0|0.85|1.58||||||||1.58|0.85|
92304642|NCT02666352|184512104|OTHER||Geometric least-squares mean ratio|1.36|||||TWO_SIDED|90.0|1.0|1.85||||||||1.85|1.00|
92304643|NCT02666352|184512105|OTHER||Geometric least-squares mean ratio|1.24|||||TWO_SIDED|90.0|0.91|1.68||||||||1.68|0.91|
92304644|NCT02666352|184512105|OTHER||Geometric least-squares mean ratio|1.58||||||90.0|1.17|2.14||||||||2.14|1.17|
92304645|NCT02666352|184512106|OTHER||Geometric least-squares mean ratio|0.89|||||TWO_SIDED|90.0|0.6|1.33||||||||1.33|0.60|
92304646|NCT02666352|184512106|OTHER||Geometric least-squares mean ratio|0.9|||||TWO_SIDED|90.0|0.6|1.34||||||||1.34|0.60|
92304647|NCT02666352|184512107|OTHER||Geometric least-squares mean ratio|0.77|||||TWO_SIDED|90.0|0.45|1.3||||||||1.30|0.45|
92304648|NCT02666352|184512107|OTHER||Geometric least-squares mean ratio|0.68|||||TWO_SIDED|90.0|0.4|1.14||||||||1.14|0.40|
92304649|NCT02666352|184512108|OTHER||Geometric least-squares mean ratio|1.2|||||TWO_SIDED|90.0|0.9|1.6||||||||1.60|0.90|
92304650|NCT02666352|184512108|OTHER||Geometric least-squares mean ratio|1.41|||||TWO_SIDED|90.0|1.06|1.87||||||||1.87|1.06|
92304651|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.17|1.88|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 1: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.88|1.17|
92304652|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.1|||||TWO_SIDED|95.0|0.91|1.35|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 3: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.35|0.91|
92304653|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|2.7|||||TWO_SIDED|95.0|1.93|3.74|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 4: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||3.74|1.93|
92304654|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|2.0|||||TWO_SIDED|95.0|1.55|2.63|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 5: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.63|1.55|
92304655|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|3.0|||||TWO_SIDED|95.0|2.21|4.13|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 6B: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||4.13|2.21|
92304656|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.07|2.18|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 7F: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.18|1.07|
92304657|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|2.0|||||TWO_SIDED|95.0|1.36|2.97|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 9V: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.||2.97|1.36|
92304658|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.0|||||TWO_SIDED|95.0|0.73|1.33|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 14: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.33|0.73|
92304659|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.9|||||TWO_SIDED|95.0|1.42|2.5|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 18C: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.50|1.42|
92188030|NCT01183013|184274139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.521|||<|0.0001||95.0|4.63|15.681|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||15.681|4.630|<0.0001
92304660|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.8|||||TWO_SIDED|95.0|1.43|2.2|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 19A: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.20|1.43|
92304661|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.17|2.06|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 19F: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.06|1.17|
92304662|NCT00546572|184512129|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|3.7|||||TWO_SIDED|95.0|2.69|5.09|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 23F: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||5.09|2.69|
92304663|NCT00546572|184512130|SUPERIORITY_OR_OTHER||difference in proportions|43.8|||||TWO_SIDED|95.0|37.4|49.9|||||Exact 2-sided CI (based on Chan and Zhang) for the difference in proportions, 13vPnC - 23vPS expressed as a percentage.|"Serotype 6A: difference in proportions, 13vPnC - 23vPS, expressed as a percentage.~Statistical significance was shown if the lower limit of the 95% CI for the difference in proportions (13vPnC - 23vPS) was \> 0."||49.9|37.4|
92304664|NCT00546572|184512131|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|9.6|||||TWO_SIDED|95.0|7.0|13.26|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|"Serotype 6A: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.~Statistical significance was demonstrated if the lower limit of the 2-sided 95% confidence interval for the geometric mean ratio was \>2."||13.26|7.00|
92304665|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.85|1.1|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 1: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.10|0.85|
92304666|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.91|1.11|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 3: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.11|0.91|
92304667|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.68|0.92|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 4: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||0.92|0.68|
92188031|NCT01183013|184274141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.68||||0.4275|TWO_SIDED|95.0|-12.77|5.42|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||5.42|-12.77|0.4275
92188032|NCT01183013|184274141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.84||||0.6839|TWO_SIDED|95.0|-10.69|7.02|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||7.02|-10.69|0.6839
92188033|NCT01183013|184274141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5||||0.1466|TWO_SIDED|95.0|-15.29|2.28|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||2.28|-15.29|0.1466
92188034|NCT01183013|184274141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.38||||0.0002|TWO_SIDED|95.0|-26.35|-8.41|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-8.41|-26.35|0.0002
92188035|NCT01183013|184274141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.87|||<|0.0001|TWO_SIDED|95.0|-34.77|-16.98|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-16.98|-34.77|<0.0001
92188036|NCT01183013|184274141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.73|||<|0.0001|TWO_SIDED|95.0|-42.57|-24.89|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-24.89|-42.57|<0.0001
92304668|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.73|0.94|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 5: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||0.94|0.73|
92304669|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.03|1.4|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 6A: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.40|1.03|
92304670|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.02|1.35|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 6B: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.35|1.02|
92304671|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.65|1.01|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 7F: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.01|0.65|
92304672|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.69|1.15|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 9V: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.15|0.69|
92304673|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.79|1.05|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 14: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.05|0.79|
92304674|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.97|1.23|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 18C: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.23|0.97|
92304675|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.89|1.07|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 19A: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.07|0.89|
92188037|NCT01183013|184274143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.61||||0.0057|TWO_SIDED|95.0|-62.42|-10.8|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-10.80|-62.42|0.0057
92188038|NCT01183013|184274143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.94||||0.7021||95.0|-30.39|20.51|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||20.51|-30.39|0.7021
92188039|NCT01183013|184274143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78||||0.8932|TWO_SIDED|95.0|-27.95|24.38|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||24.38|-27.95|0.8932
92304676|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.83|1.15|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 19F: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.15|0.83|
92188040|NCT01183013|184274143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.65||||0.2706|TWO_SIDED|95.0|-43.6|12.3|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||12.30|-43.60|0.2706
92188041|NCT01183013|184274143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.33||||0.0126|TWO_SIDED|95.0|-64.78|-7.89|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-7.89|-64.78|0.0126
92304677|NCT00546572|184512132|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.6|2.14|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 23F: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||2.14|1.60|
92304678|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.4|||||TWO_SIDED|95.0|1.1|1.76|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 1: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.76|1.10|
92304679|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.1|||||TWO_SIDED|95.0|0.91|1.34|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 3: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.34|0.91|
92188042|NCT01183013|184274143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.16||||0.0167|TWO_SIDED|95.0|-60.23|-6.08|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-6.08|-60.23|0.0167
92188043|NCT01183013|184274145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.649||||0.3052||95.0|0.284|1.482|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||1.482|0.284|0.3052
92188044|NCT01183013|184274145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.456||||0.0844|TWO_SIDED|95.0|0.187|1.112|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||1.112|0.187|0.0844
92188045|NCT01183013|184274145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.443||||0.1561|TWO_SIDED|95.0|0.143|1.365|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||1.365|0.143|0.1561
92188046|NCT01183013|184274145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.368||||0.0146||95.0|0.165|0.821|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||0.821|0.165|0.0146
92188047|NCT01183013|184274145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.238||||0.0009||95.0|0.102|0.557|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||0.557|0.102|0.0009
92188048|NCT01183013|184274145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.141||||0.0002||95.0|0.05|0.397|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||0.397|0.050|0.0002
92188049|NCT04468633|184274148|OTHER|||||||0.687|||||||t-test, 2 sided|||Baseline||||0.687
92188050|NCT04468633|184274148|OTHER|||||||0.384|||||||t-test, 2 sided|||Day 1||||0.384
92188051|NCT04468633|184274148|OTHER|||||||0.597|||||||t-test, 2 sided|||Week 1||||0.597
92188052|NCT04468633|184274148|OTHER|||||||0.86|||||||t-test, 2 sided|||Week 4||||0.860
92188053|NCT04468633|184274148|OTHER|||||||0.032|||||||t-test, 2 sided|||Week 6||||0.032
92188054|NCT04468633|184274148|OTHER|||||||0.026|||||||t-test, 2 sided|||Month 3||||0.026
92304680|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|2.3|||||TWO_SIDED|95.0|1.66|3.25|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 4: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||3.25|1.66|
92304681|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.21|2.06|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 5: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.06|1.21|
92188055|NCT04468633|184274148|OTHER|||||||0.172|||||||t-test, 2 sided|||Month 6||||0.172
92188056|NCT04468633|184274148|OTHER|||||||0.01|||||||t-test, 2 sided|||Year 1||||0.010
92188057|NCT04468633|184274152|OTHER|||||||0.759|||||||Wilcoxon rank sum test|||||||0.759
92188058|NCT04468633|184274153|OTHER|||||||0.603|||||||Wilcoxon rank sum test|||||||0.603
92188059|NCT04468633|184274162|OTHER|||||||0.833|||||||Wilcoxon rank sum test|||||||0.833
92188060|NCT04739306|184274180|EQUIVALENCE|Predefined equivalence margin: -3 letters to +3 letters|Estimated difference in LS means|0.58|||||TWO_SIDED|90.0|-0.52|1.67|||ANCOVA|Analysis conducted for study eye. Primary endpoint as the dependent variable, treatment as a factor, baseline BCVA and country as covariates.||||1.67|-0.52|
92188061|NCT01469819|184274222|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92188062|NCT01469819|184274223|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92188063|NCT01469819|184274224|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92304682|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|3.8|||||TWO_SIDED|95.0|2.78|5.07|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 6B: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||5.07|2.78|
92304683|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.2|||||TWO_SIDED|95.0|0.8|1.67|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 7F: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.67|0.80|
92304684|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.8|||||TWO_SIDED|95.0|1.18|2.62|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 9V: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.62|1.18|
92304685|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|0.8|||||TWO_SIDED|95.0|0.62|1.13|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 14: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.13|0.62|
92304686|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|2.0|||||TWO_SIDED|95.0|1.53|2.69|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 18C: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.69|1.53|
92188064|NCT01469819|184274225|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92188065|NCT03082196|184274234|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.037|TWO_SIDED|95.0|-1.9|-0.1|||t-test, 2 sided||The direction of the comparison (difference) is the test varnish to the standard varnish. A negative value for the difference indicates a lower caries increment in the test varnish as compared to the standard varnish.|||-0.1|-1.9|0.037
92188066|NCT03082196|184274235|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.062|TWO_SIDED|95.0|-1.5|0.1|||t-test, 2 sided||The direction of the comparison (difference) is the test varnish to the standard varnish. A negative value for the difference indicates a lower caries increment in the test varnish as compared to the standard varnish.|||0.1|-1.5|0.062
92304687|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.7|||||TWO_SIDED|95.0|1.37|2.1|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 19A: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.10|1.37|
92304688|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.09|1.93|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 19F: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.93|1.09|
92188067|NCT03082196|184274236|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.11|TWO_SIDED|95.0|-0.5|0.1|||t-test, 2 sided||"The direction of the comparison (difference) is the test varnish to the standard varnish. A negative value for the difference indicates a happier response in the test varnish as compared to the standard varnish."|||0.1|-0.5|0.11
92188068|NCT03082196|184274237|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.74|TWO_SIDED|95.0|-0.2|0.3|||t-test, 2 sided||"The direction of the comparison (difference) is the test varnish to the standard varnish. A positive value for the difference indicates an unhappier response in the test varnish as compared to the standard varnish."|||0.3|-0.2|0.74
92188069|NCT01403805|184274238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Fisher's test 'Vaccine' versus 'Oral Care and Vaccines' and 'phumonia' and 'not pneumonia'|Fisher Exact|||The results were analyzed as means ± standard deviation (SD) or numbers (%). Differences between the 2 nursing homes were compared using Fisher's test.||||<0.001
92188070|NCT01403805|184274239|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Fisher Exact|||The results are expressed as means ± standard deviation (SD) or numbers (%). Differences between the 2 nursing homes were compared using Fisher's test.||||0.05
92188071|NCT01695993|184274244|OTHER|Primary Analysis: The Primary Aim to determine whether acupressure bands provided with efficacy-enhancing supplementary material are more effective in controlling chemotherapy-induced nausea than acupressure bands provided with neutral supplementary material was examined using ANCOVA with Peak Nausea after the first chemotherapy as the response, Arm (Arms 2 and 3) as the factor and expectancy of acupressure bands as the covariate.|Mean Difference (Net)|0.03|STANDARD_DEVIATION|1.9||0.05|TWO_SIDED|||||Not adjusted|ANCOVA|||||||.05
92304689|NCT00546572|184512133|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|7.3|||||TWO_SIDED|95.0|5.36|9.82|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 23F: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||9.82|5.36|
92304690|NCT00546572|184512134|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|12.1|||||TWO_SIDED|95.0|8.92|16.44|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|"Serotype 6A: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.~Statistical significance was demonstrated if the lower limit of the 2-sided 95% confidence interval for the geometric mean ratio was \>2."||16.44|8.92|
92304691|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-11.4|||<|0.001|TWO_SIDED|95.0|-17.3|-5.6|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Redness: any; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-5.6|-17.3|<0.001
92304692|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-4.0||||0.129|TWO_SIDED|95.0|-9.1|1.1|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Redness: mild; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||1.1|-9.1|0.129
92304693|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-6.8||||0.002|TWO_SIDED|95.0|-11.3|-2.3|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Redness: moderate; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-2.3|-11.3|0.002
92304694|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-3.2||||0.028|TWO_SIDED|95.0|-6.3|-0.3|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Redness: severe; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.3|-6.3|0.028
92304695|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-12.7|||<|0.001|TWO_SIDED|95.0|-18.5|-7.0|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Swelling: any; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-7.0|-18.5|<0.001
92304696|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-5.1||||0.048|TWO_SIDED|95.0|-10.2|-0.1|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Swelling: mild; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.1|-10.2|0.048
92188072|NCT00472199|184274245|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|1.0||0.0077||95.0|-4.6|-0.7|||ANCOVA|||Analysis of covariance for changes from baseline with factors treatment and country and using baseline as covariate||-0.7|-4.6|0.0077
92188073|NCT00472199|184274246|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.0010
92188074|NCT00472199|184274247|SUPERIORITY_OR_OTHER|||||||0.0044||95.0|||||Cochran-Mantel-Haenszel|||||||0.0044
92304697|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-9.6|||<|0.001|TWO_SIDED|95.0|-14.2|-5.1|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Swelling: moderate; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-5.1|-14.2|<0.001
92304698|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-4.8|||<|0.001|TWO_SIDED|95.0|-7.9|-2.7|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Swelling: severe; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-2.7|-7.9|<0.001
92304699|NCT00546572|184512135|SUPERIORITY_OR_OTHER||Chan & Zhang|-6.8||||0.062|TWO_SIDED|95.0|-14.0|0.4|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Pain: any; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||0.4|-14.0|0.062
92304700|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-4.0||||0.284|TWO_SIDED|95.0|-11.3|3.3|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Pain: mild; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||3.3|-11.3|0.284
92304701|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-16.1|||<|0.001|TWO_SIDED|95.0|-21.7|-10.6|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Pain: moderate; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-10.6|-21.7|<0.001
92188075|NCT00472199|184274248|SUPERIORITY_OR_OTHER|||||||0.0011||95.0|||||Cochran-Mantel-Haenszel|||||||0.0011
92188076|NCT00472199|184274249|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.0489||95.0|-1.1|-0.9|||Wilcoxon (Mann-Whitney)|||||-0.9|-1.1|0.0489
92188077|NCT00472199|184274250|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0315|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.0315
92188078|NCT00472199|184274251|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0735|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.0735
92188079|NCT00472199|184274252|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.841|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.8410
92188080|NCT00472199|184274253|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.9241|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.9241
92188081|NCT00472199|184274254|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8093|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.8093
92304702|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-0.9||||0.539|TWO_SIDED|95.0|-3.5|1.4|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Pain: severe; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||1.4|-3.5|0.539
92304703|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-17.1|||<|0.001|TWO_SIDED|95.0|-23.1|-11.1|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Limitation of arm movement: any; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-11.1|-23.1|<0.001
92304704|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-14.9|||<|0.001|TWO_SIDED|95.0|-20.8|-9.0|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Limitation of arm movement: mild; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-9.0|-20.8|<0.001
92304705|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-2.3||||0.02|TWO_SIDED|95.0|-4.8|-0.4|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Limitation of arm movement: moderate; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.4|-4.8|0.020
92304706|NCT00546572|184512135|SUPERIORITY_OR_OTHER||difference in proportions|-2.3||||0.042|TWO_SIDED|95.0|-4.9|-0.1|||Limitation of arm movement: any; differe||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Limitation of arm movement: severe; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.1|-4.9|0.042
92304707|NCT00546572|184512140|SUPERIORITY_OR_OTHER||difference in proportions|-7.9||||0.034|TWO_SIDED|95.0|-15.2|-0.6|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|New generalized muscle pain: difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.6|-15.2|0.034
92304708|NCT00546572|184512140|SUPERIORITY_OR_OTHER||difference in proportions|-6.9||||0.039|TWO_SIDED|95.0|-13.6|-0.3|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Aggravated generalized muscle pain: difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.3|-13.6|0.039
92188082|NCT00472199|184274255|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0583|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.0583
92188083|NCT00472199|184274256|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-5.0||||0.0916|TWO_SIDED|95.0|-5.5|-4.5|||Wilcoxon (Mann-Whitney)|||||-4.5|-5.5|0.0916
92188084|NCT00472199|184274257|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.5||||0.5905|TWO_SIDED|95.0|2.2|2.8|||Wilcoxon (Mann-Whitney)|||||2.8|2.2|0.5905
92304709|NCT03979820|184512145|OTHER||Ratio of geometric mean TSFs|544.36|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|340.57|870.09|||ANOVA||"The arm Phenelzine/Phenelzine + Tyramine represented the numerator. The arm Placebo/Placebo + Tyramine represented the denominator."|"The statistical model used for the analysis of the primary endpoint was an analysis of variance (ANOVA) model on the logarithmic scale for each treatment relative to placebo.~TSF was log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included the fixed effects 'treatment'."||870.09|340.57|
92304710|NCT03979820|184512145|OTHER||Ratio of geometric mean TSFs|123.22|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|77.09|196.95|||ANOVA||"The arm 10 mg BI 1467335/10 mg BI 1467335 + Tyramine represented the numerator.~The arm Placebo/Placebo + Tyramine represented the denominator."|"The statistical model used for the analysis of the primary endpoint was an analysis of variance (ANOVA) model on the logarithmic scale for each treatment relative to placebo.~TSF was log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included the fixed effects 'treatment'."||196.95|77.09|
92304711|NCT01229735|184512146|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1|||=|0.7007|TWO_SIDED|95.0|0.7|1.7||P-value is from likelihood ratio test of treatment group regression coefficient against 0.|Regression, Logistic|||The Odds Ratio (OR) for LEV vs TPM is based on logistic regression modeling of subject retention by treatment and center pooling category. A profile likelihood confidence interval for the OR is presented.||1.7|0.7|=0.7007
92304712|NCT00507546|184512184|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED|95.0|||||Friedman|||||||0.70
92304713|NCT00507546|184512185|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||Friedman|||||||0.35
92304714|NCT03736213|184512189|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.13|TWO_SIDED||||||paired t-test, two-tailed|df = 6|Ultrasound biofeedback treatment condition - visual-acoustic biofeedback treatment condition. Because more accurate productions have lower normalized acoustic values, a negative difference indicates an advantage for US biofeedback.|||||.13
92188085|NCT00472199|184274258|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.0||||0.0179|TWO_SIDED|95.0|1.6|2.4|||Wilcoxon (Mann-Whitney)|||||2.4|1.6|0.0179
92188086|NCT00472199|184274259|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.0||||0.545|TWO_SIDED|95.0|1.7|2.3|||Wilcoxon (Mann-Whitney)|||||2.3|1.7|0.5450
92188087|NCT00472199|184274260|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.1456|TWO_SIDED|95.0|-0.3|0.3|||Wilcoxon (Mann-Whitney)|||||0.3|-0.3|0.1456
92188088|NCT00472199|184274261|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.2915|TWO_SIDED|95.0|-0.4|0.4|||Wilcoxon (Mann-Whitney)|||||0.4|-0.4|0.2915
92304715|NCT00609466|184512190|SUPERIORITY_OR_OTHER||Least square mean|70.8|||<|0.0001||95.0|35.9|105.6||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||105.6|35.9|<0.0001
92304716|NCT00609466|184512191|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Test for time (in hours) to first rescue medication use. No multiplicity adjustment.|Log Rank|Adjusted for site||||||<0.0001
92304717|NCT00609466|184512192|SUPERIORITY_OR_OTHER||Least square mean|37.5|||<|0.0001||95.0|22.7|52.2||No multiplicity adjustment used|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||52.2|22.7|<0.0001
92304718|NCT00609466|184512193|SUPERIORITY_OR_OTHER||Least square means|9.9|||<|0.0001||95.0|6.2|13.6||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||13.6|6.2|<0.0001
92304719|NCT00609466|184512194|SUPERIORITY_OR_OTHER||Least square mean|20.6|||<|0.0001||95.0|13.2|28.0||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||28.0|13.2|<0.0001
92304720|NCT00609466|184512195|SUPERIORITY_OR_OTHER||Least square mean|36.4|||<|0.0001||95.0|20.7|52.0||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||52.0|20.7|<0.0001
92304721|NCT00609466|184512196|SUPERIORITY_OR_OTHER||Least square means|108.2||||0.0002||95.0|51.9|164.5||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||164.5|51.9|0.0002
92304722|NCT03986138|184512221|SUPERIORITY||Mean Difference (Final Values)|1.53|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|1.46|1.6||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 1. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||1.60|1.46|< 0.0001
92304723|NCT03986138|184512221|SUPERIORITY||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|0.36|0.58||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 2. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||0.58|0.36|<0.0001
92304724|NCT03986138|184512221|SUPERIORITY||Mean Difference (Final Values)|1.71|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|1.65|1.78||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 3. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||1.78|1.65|<0.0001
92304725|NCT03986138|184512221|SUPERIORITY||Mean Difference (Final Values)|1.81|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|1.76|1.87||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 1. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||1.87|1.76|<0.0001
92304726|NCT03986138|184512221|SUPERIORITY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|0.42|0.64||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 2. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||0.64|0.42|<0.0001
92304727|NCT03986138|184512221|SUPERIORITY||Mean Difference (Final Values)|2.03|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|1.95|2.11||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 3. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||2.11|1.95|<0.0001
92188089|NCT00472199|184274262|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.3131|TWO_SIDED|95.0|-0.4|0.4|||Wilcoxon (Mann-Whitney)|||||0.4|-0.4|0.3131
92304728|NCT03986138|184512221|SUPERIORITY||Mean Difference (Final Values)|2.64|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|2.56|2.72||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement; Reader 1. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||2.72|2.56|<0.0001
92304729|NCT03986138|184512221|SUPERIORITY||Mean Difference (Final Values)|1.82|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|1.68|1.96||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement; Reader 2. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||1.96|1.68|<0.0001
92304730|NCT03986138|184512221|SUPERIORITY||Mean Difference (Final Values)|2.33|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|2.26|2.41||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement; Reader 3. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||2.41|2.26|<0.0001
92304731|NCT03986138|184512222|NON_INFERIORITY|Non-inferiority between gadopiclenol and gadobutrol was concluded if the lower bound of this confidence interval was above the non-inferiority margin set to 0.35 for at least 2 out of 3 blinded readers and for the 3 co-primary criteria simultaneously.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.05|0.05||The Null hypothesis was rejected if the 2-sided 95% Confidence Interval (CI) for the difference \[gadopiclenol scores mean - gadobutrol scores mean\] had its lower limit above -0.35.|t-test, 2 sided|The Student's t-based 95% CIs of the difference between gadopiclenol and gadobutrol were constructed for each of 3 co-primary criteria.||Criterion: Border delineation; Reader 1. The null hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 primary criteria was equal to the non inferiority margin (-0.35). The alternative hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 co-primary criteria was greater than the non inferiority margin.||0.05|-0.05|<0.0001
92188090|NCT00472199|184274263|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.5713|TWO_SIDED|95.0|-0.4|0.4|||Wilcoxon (Mann-Whitney)|||||0.4|-0.4|0.5713
92188091|NCT00472199|184274264|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8432|TWO_SIDED|95.0|-0.4|0.4|||Wilcoxon (Mann-Whitney)|||||0.4|-0.4|0.8432
92188092|NCT00472199|184274265|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.3||||0.0206|TWO_SIDED|95.0|5.9|6.6|||Wilcoxon (Mann-Whitney)|||||6.6|5.9|0.0206
92188093|NCT00472199|184274266|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.6||||0.5602|TWO_SIDED|95.0|0.4|0.8|||Wilcoxon (Mann-Whitney)|||||0.8|0.4|0.5602
92188094|NCT00472199|184274267|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0||||0.136|TWO_SIDED|95.0|0.8|1.1|||Wilcoxon (Mann-Whitney)|||||1.1|0.8|0.1360
92188095|NCT00472199|184274269|SUPERIORITY_OR_OTHER|||||||0.0022||95.0|||||Mantel Haenszel|||||||0.0022
92188096|NCT01601821|184274286|SUPERIORITY_OR_OTHER||percent difference|-2.0||||0.341|TWO_SIDED|90.0|-5.5|1.5|||Chi-squared|||Chi-square test was used to test superiority of arm CsA+Rapamune+CS versus arm CsA+MMF+CS.||1.5|-5.5|0.341
92188097|NCT01601821|184274287|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 3: One-way analysis of variance (ANOVA) was used to test the difference.||||0.870
92188098|NCT01601821|184274287|SUPERIORITY_OR_OTHER|||||||0.381|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 6: One-way ANOVA was used to test the difference.||||0.381
92188099|NCT01601821|184274287|SUPERIORITY_OR_OTHER|||||||0.096|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 12: One-way ANOVA was used to test the difference.||||0.096
92188100|NCT01601821|184274288|SUPERIORITY_OR_OTHER|||||||0.979|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 3: One-way ANOVA was used to test the difference.||||0.979
92188101|NCT01601821|184274288|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 6: One-way ANOVA was used to test the difference.||||0.660
92188102|NCT01601821|184274288|SUPERIORITY_OR_OTHER|||||||0.518|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 12: One-way ANOVA was used to test the difference.||||0.518
92188103|NCT01601821|184274289|SUPERIORITY_OR_OTHER|||||||0.786|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 3: One-way ANOVA was used to test the difference.||||0.786
92188104|NCT01601821|184274289|SUPERIORITY_OR_OTHER|||||||0.738|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 6: One-way ANOVA was used to test the difference.||||0.738
92304732|NCT03986138|184512222|NON_INFERIORITY|Non-inferiority between gadopiclenol and gadobutrol was concluded if the lower bound of this confidence interval was above the non-inferiority margin set to 0.35 for at least 2 out of 3 blinded readers and for the 3 co-primary criteria simultaneously.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.05|0.1||The Null hypothesis was rejected if the 2-sided 95% Confidence Interval (CI) for the difference \[gadopiclenol scores mean - gadobutrol scores mean\] had its lower limit above -0.35.|t-test, 2 sided|The Student's t-based 95% CIs of the difference between gadopiclenol and gadobutrol were constructed for each of 3 co-primary criteria.||Criterion: Border delineation; Reader 2. The null hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 primary criteria was equal to the non inferiority margin (-0.35). The alternative hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 co-primary criteria was greater than the non inferiority margin.||0.10|-0.05|<0.0001
92304733|NCT03986138|184512222|NON_INFERIORITY|Non-inferiority between gadopiclenol and gadobutrol was concluded if the lower bound of this confidence interval was above the non-inferiority margin set to 0.35 for at least 2 out of 3 blinded readers and for the 3 co-primary criteria simultaneously.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.1|0.01||The Null hypothesis was rejected if the 2-sided 95% Confidence Interval (CI) for the difference \[gadopiclenol scores mean - gadobutrol scores mean\] had its lower limit above -0.35.|t-test, 2 sided|The Student's t-based 95% CIs of the difference between gadopiclenol and gadobutrol were constructed for each of 3 co-primary criteria.||Criterion: Border delineation; Reader 3. The null hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 primary criteria was equal to the non inferiority margin (-0.35). The alternative hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 co-primary criteria was greater than the non inferiority margin.||0.01|-0.10|<0.0001
92304734|NCT03986138|184512222|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.06|0.05|||t-test, 2 sided|||Criterion: Internal morphology; Reader 1||0.05|-0.06|<0.0001
92304735|NCT03986138|184512222|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.07|0.07|||t-test, 2 sided|||Criterion: Internal morphology; Reader 2||0.07|-0.07|<0.0001
92304736|NCT03986138|184512222|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|-0.08|0.02|||t-test, 2 sided|||Criterion: Internal morphology; Reader 3||0.02|-0.08|<0.0001
92304737|NCT03986138|184512222|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.06|0.09|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 1||0.09|-0.06|<0.0001
92304738|NCT03986138|184512222|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.07|0.12|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 2||0.12|-0.07|<0.0001
92304739|NCT03986138|184512222|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.08|0.04|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 3||0.04|-0.08|<0.0001
92304740|NCT03182244|184512260|SUPERIORITY||Hazard Ratio (HR)|0.612||||0.00152|TWO_SIDED|95.0|0.451|0.832|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per interactive response technology (IRT).|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||0.832|0.451|0.00152
92304741|NCT03182244|184512261|SUPERIORITY||Hazard Ratio (HR)|0.589||||5e-05|TWO_SIDED|95.0|0.438|0.792|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||0.792|0.438|0.00005
92304742|NCT03182244|184512262|SUPERIORITY||Treatment difference|8.9||||0.04256|TWO_SIDED|95.0|0.3|17.5|||Cochran-Mantel-Haenszel|Stratification factors: first-line AML therapy \& preselected salvage chemotherapy/IRT response. Treatment difference based on stratification factors.||||17.5|0.3|0.04256
92304743|NCT03182244|184512263|SUPERIORITY||Hazard Ratio (HR)|1.163||||0.8871|TWO_SIDED|95.0|0.131|10.338|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||10.338|0.131|0.88710
92304744|NCT03182244|184512264|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.55969|TWO_SIDED|95.0|0.209|2.414|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||2.414|0.209|0.55969
92304745|NCT03182244|184512265|SUPERIORITY||Hazard Ratio (HR)|1.583||||0.66261|TWO_SIDED|95.0|0.192|13.048|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||13.048|0.192|0.66261
92304746|NCT03182244|184512266|SUPERIORITY||Hazard Ratio (HR)|0.756||||0.55731|TWO_SIDED|95.0|0.286|1.999|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||1.999|0.286|0.55731
92304747|NCT03182244|184512267|SUPERIORITY||Treatment difference|17.7||||0.00049|TWO_SIDED|95.0|7.9|27.5|||Cochran-Mantel-Haenszel|Stratification factors: first-line AML therapy \& preselected salvage chemotherapy/IRT response. Treatment difference based on stratification factors.||||27.5|7.9|0.00049
92304748|NCT03182244|184512269|SUPERIORITY||Hazard Ratio (HR)|0.857||||0.56944|TWO_SIDED|95.0|0.494|1.487|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||1.487|0.494|0.56944
92304749|NCT03182244|184512270|SUPERIORITY||Treatment difference|31.2|||<|1e-05|TWO_SIDED|95.0|20.2|42.3|||Cochran-Mantel-Haenszel|Stratification factors: first-line AML therapy \& preselected salvage chemotherapy/IRT response. Treatment difference based on stratification factors.||||42.3|20.2|<0.00001
92304750|NCT03182244|184512276|SUPERIORITY||Treatment difference|14.7||||0.00055|TWO_SIDED|95.0|6.5|22.8|||Cochran-Mantel-Haenszel|Stratification factors: first-line AML therapy \& preselected salvage chemotherapy/IRT response. Treatment difference based on stratification factors.||||22.8|6.5|0.00055
92304751|NCT03182244|184512277|SUPERIORITY||Least square mean difference|0.6||||0.14841||||||Analysis of covariance (ANCOVA) including treatment as a fixed factor, baseline score, response to first-line AML therapy and preselected salvage chemotherapy per IRT as covariates. LS Mean difference was estimated using chemotherapy as control.|ANCOVA|||||||0.14841
92304752|NCT00292188|184512293|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.24||0.01||95.0|-1.09|-0.15|||ANCOVA|ANCOVA adjusted for treatment group, baseline mean pain score and pooled country||The study is powered to detect a clinically significant difference of 1 between treatment groups in the weekly mean pain score. Null hypothesis was that there was no difference in weekly mean pain scores between pregabalin and placebo.||-0.15|-1.09|0.010
92304753|NCT00292188|184512294|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.39||0.031||95.0|-1.6|-0.08|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||||-0.08|-1.60|0.031
92304754|NCT00292188|184512295|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.32||0.003||95.0|-1.61|-0.33|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||||-0.33|-1.61|0.003
92304755|NCT00292188|184512296|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|1.0||0.099||95.0|-3.69|0.32|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||||0.32|-3.69|0.099
92304756|NCT00292188|184512297|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|1.03||0.819||95.0|-1.87|2.34|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||||2.34|-1.87|0.819
92188105|NCT01601821|184274289|SUPERIORITY_OR_OTHER|||||||0.977|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 12: One-way ANOVA was used to test the difference.||||0.977
92304757|NCT00292188|184512298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.15||0.099||95.0|-0.56|0.05|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 1||0.05|-0.56|0.099
92188106|NCT01601821|184274290|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Fisher Exact|||Fisher's exact test was used to test the difference.||||0.999
92304758|NCT00292188|184512298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.18||0.15||95.0|-0.62|0.1|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 2: FAS||0.10|-0.62|0.150
92304759|NCT00292188|184512298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.2||0.01||95.0|-0.93|-0.13|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 3: FAS||-0.13|-0.93|0.010
92304760|NCT00292188|184512298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.21||0.137||95.0|-0.74|0.1|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 4: FAS||0.10|-0.74|0.137
92304761|NCT00292188|184512298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.22||0.041||95.0|-0.9|-0.02|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 5: FAS||-0.02|-0.90|0.041
92304762|NCT00292188|184512298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.22||0.009||95.0|-1.03|-0.15|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 6: FAS||-0.15|-1.03|0.009
92304763|NCT00292188|184512298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.25||0.035||95.0|-1.01|-0.04|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 7: FAS||-0.04|-1.01|0.035
92304764|NCT00292188|184512298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.25||0.019||95.0|-1.1|-0.1|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 8: FAS||-0.10|-1.10|0.019
92304765|NCT00292188|184512299|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.84||||0.032||95.0|1.05|3.21|||Regression, Logistic|logstic regression adjusted for treatment group, baseline pain score and pooled country.||30% responder||3.21|1.05|0.032
92304766|NCT00292188|184512299|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.78||||0.088||95.0|0.92|3.46|||Regression, Logistic|logstic regression adjusted for treatment group, baseline pain score and pooled country.||50% responder||3.46|0.92|0.088
92304767|NCT00292188|184512300|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.23||0.001||95.0|-1.25|-0.34|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||||-0.34|-1.25|0.001
92188107|NCT01601821|184274292|SUPERIORITY_OR_OTHER|||||||0.276|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Fisher Exact|||Fisher's exact test was used to test the difference.||||0.276
92188108|NCT01601821|184274293|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Fisher Exact|||Fisher's exact test was used to test the difference.||||0.999
92188109|NCT01601821|184274294|SUPERIORITY_OR_OTHER|||||||0.868|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Chi-squared|||Chi-square test was used to test the difference.||||0.868
92188110|NCT01601821|184274295|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Fisher Exact|||Fisher's exact test was used to test the difference.||||0.999
92304768|NCT00292188|184512301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.72|STANDARD_ERROR_OF_MEAN|2.62||0||95.0|-15.89|-5.55|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Sleep Disturbance||-5.55|-15.89|0.000
92304769|NCT00292188|184512301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.05|STANDARD_ERROR_OF_MEAN|2.71||0.7||95.0|-4.3|6.4|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Snoring||6.40|-4.30|0.700
92304770|NCT00292188|184512301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.95|STANDARD_ERROR_OF_MEAN|2.88||0.04||95.0|-11.62|-0.28|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Awaken Short of Breath/Headache||-0.28|-11.62|0.040
92304771|NCT00292188|184512301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.42||0.846||95.0|-0.92|0.76|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Sleep Quantity||0.76|-0.92|0.846
92304772|NCT00292188|184512301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.63|STANDARD_ERROR_OF_MEAN|3.27||0.001||95.0|4.19|17.07|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Sleep Adequacy||17.07|4.19|0.001
92304773|NCT00292188|184512301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.31|STANDARD_ERROR_OF_MEAN|2.34||0.324||95.0|-2.3|6.92|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Somnolence||6.92|-2.30|0.324
92304774|NCT00292188|184512301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.52|STANDARD_ERROR_OF_MEAN|2.63||0||95.0|-14.71|-4.33|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Sleep Problems Index-6||-4.33|-14.71|0.000
92304775|NCT00292188|184512301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.54|STANDARD_ERROR_OF_MEAN|2.02||0||95.0|-11.52|-3.56|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Sleep Problems Index-9||-3.56|-11.52|0.000
92188111|NCT01601821|184274296|SUPERIORITY_OR_OTHER|||||||0.985|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Chi-squared|||Chi-square test was used to test the difference.||||0.985
92304776|NCT00292188|184512302|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.42||||0.267||95.0|0.76|2.64|||Regression, Logistic|Logistic regression adjusted for treatment group, baseline score and pooled country.||||2.64|0.76|0.267
92188112|NCT01601821|184274297|SUPERIORITY_OR_OTHER|||||||0.172|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Fisher Exact|||Fisher's exact test was used to test the difference.||||0.172
92188113|NCT01601821|184274298|SUPERIORITY_OR_OTHER|||||||0.978|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Chi-squared|||Chi-square test was used to test the difference.||||0.978
92304777|NCT00292188|184512310|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.84|STANDARD_ERROR_OF_MEAN|2.25||0.09||95.0|-8.28|0.61|||ANCOVA|||||0.61|-8.28|0.090
92188114|NCT00848198|184274318|SUPERIORITY_OR_OTHER||Sensitivity|87.1|||||TWO_SIDED|95.0|83.2|90.9||||||||90.9|83.2|
92304778|NCT04709835|184512334|SUPERIORITY||Difference in Adjusted Means|-0.11|STANDARD_ERROR_OF_MEAN|0.292||0.7144|TWO_SIDED|80.0|-0.49|0.27|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 3||0.27|-0.49|0.7144
92304779|NCT04709835|184512334|SUPERIORITY||Difference in Adjusted Means|0.32|STANDARD_ERROR_OF_MEAN|0.327||0.3373|TWO_SIDED|80.0|-0.11|0.74|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 5||0.74|-0.11|0.3373
92304780|NCT04709835|184512334|SUPERIORITY||Difference in Adjusted Means|-0.25|STANDARD_ERROR_OF_MEAN|0.315||0.426|TWO_SIDED|80.0|-0.66|0.16|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 7||0.16|-0.66|0.4260
92304781|NCT04709835|184512335|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|80.0|0.53|1.74|||||Hazard ratio (80% CI) was estimated with a Cox proportional hazards model (unadjusted).|||1.74|0.53|
92304782|NCT04709835|184512335|SUPERIORITY||Hazard Ratio (HR)|1.33|||||TWO_SIDED|80.0|0.76|2.32|||||Hazard ratio (80% CI) was estimated with a Cox proportional hazards model (unadjusted).|||2.32|0.76|
92304783|NCT04709835|184512336|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|80.0|0.44|1.7|||||Hazard ratio (80% CI) was estimated with a Cox proportional hazards model (unadjusted).|||1.70|0.44|
92304784|NCT04709835|184512336|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|80.0|0.56|2.03|||||Hazard ratio (80% CI) was estimated with a Cox proportional hazards model (unadjusted).|||2.03|0.56|
92304785|NCT04709835|184512337|SUPERIORITY||Difference in Percentage of Positivity|5.0|||||TWO_SIDED|80.0|-0.16|10.16|||||Confidence interval estimated with the Farrington-Manning method.|Day 3||10.16|-0.16|
92304786|NCT04709835|184512337|SUPERIORITY||Difference in Percentage of Positivity|-1.9|||||TWO_SIDED|80.0|-9.2|5.41|||||Confidence interval estimated with the Farrington-Manning method.|Day 3||5.41|-9.20|
92304787|NCT04709835|184512337|SUPERIORITY||Difference in Percentage of Positivity|5.79|||||TWO_SIDED|80.0|-4.82|16.4|||||Confidence interval estimated with the Farrington-Manning method.|Day 5||16.40|-4.82|
92304788|NCT04709835|184512337|SUPERIORITY||Difference in Percentage of Positivity|-0.88|||||TWO_SIDED|80.0|-12.4|10.65|||||Confidence interval estimated with the Farrington-Manning method.|Day 5||10.65|-12.40|
92188115|NCT00848198|184274318|SUPERIORITY_OR_OTHER||Specificity|72.0|||||TWO_SIDED|95.0|66.9|77.1||||||||77.1|66.9|
92188116|NCT00848198|184274319|SUPERIORITY_OR_OTHER||Sensitivity|39.7|||||TWO_SIDED|95.0|34.2|45.3||||||||45.3|34.2|
92188117|NCT00848198|184274319|SUPERIORITY_OR_OTHER||Specificity|82.7|||||TWO_SIDED|95.0|78.4|87.0||||||||87.0|78.4|
92188118|NCT00848198|184274320|SUPERIORITY_OR_OTHER||Sensitivity|71.9|||||TWO_SIDED|95.0|66.8|77.0||||||||77.0|66.8|
92188119|NCT00848198|184274320|SUPERIORITY_OR_OTHER||Specificity|82.7|||||TWO_SIDED|95.0|78.4|87.0||||||||87.0|78.4|
92188120|NCT00848198|184274321|SUPERIORITY_OR_OTHER||Sensitivity|27.2|||||TWO_SIDED|95.0|22.2|32.3||||||||32.3|22.2|
92188121|NCT00848198|184274321|SUPERIORITY_OR_OTHER||Specificity|98.7|||||TWO_SIDED|95.0|97.4|100.0||||||||100.0|97.4|
92188122|NCT00848198|184274322|SUPERIORITY_OR_OTHER||Sensitivity|51.3|||||TWO_SIDED|95.0|45.7|57.0||||||||57.0|45.7|
92188123|NCT00848198|184274322|SUPERIORITY_OR_OTHER||Specificity|94.7|||||TWO_SIDED|95.0|92.1|97.2||||||||97.2|92.1|
92188124|NCT00848198|184274323|SUPERIORITY_OR_OTHER||Sensitivity|61.2|||||TWO_SIDED|95.0|55.6|66.7||||||||66.7|55.6|
92304789|NCT04709835|184512337|SUPERIORITY||Difference in Percentage of Positivity|2.39|||||TWO_SIDED|80.0|-10.64|15.42|||||Confidence interval estimated with the Farrington-Manning method.|Day 7||15.42|-10.64|
92304790|NCT04709835|184512337|SUPERIORITY||Difference in Percentage of Positivity|-0.26|||||TWO_SIDED|80.0|-13.39|12.88|||||Confidence interval estimated with the Farrington-Manning method.|Day 7||12.88|-13.39|
92304791|NCT04709835|184512349|SUPERIORITY||Difference in Adjusted Means|-0.1|STANDARD_ERROR_OF_MEAN|0.294||0.7351|TWO_SIDED|80.0|-0.48|0.28|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 3||0.28|-0.48|0.7351
92304792|NCT04709835|184512349|SUPERIORITY||Difference in Adjusted Means|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.7524|TWO_SIDED|80.0|-0.5|0.3|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 5||0.30|-0.50|0.7524
92304793|NCT04709835|184512349|SUPERIORITY||Difference in Adjusted Means|-0.08|STANDARD_ERROR_OF_MEAN|0.314||0.8083|TWO_SIDED|80.0|-0.48|0.33|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 7||0.33|-0.48|0.8083
92304794|NCT03786718|184512350|OTHER||||||<|0.001|||||||One sample median test|||Due to nonnormality, we used nonparametric tests to analyze the data. This analysis is a one sample median test of participants' median SUS score compared to the threshold score of 68 indicative of 'above average' usability.||||<0.001
92188125|NCT00848198|184274323|SUPERIORITY_OR_OTHER||Specificity|78.7|||||TWO_SIDED|95.0|74.0|83.3||||||||83.3|74.0|
92188126|NCT00848198|184274324|SUPERIORITY_OR_OTHER||Sensitivity|58.5|||||TWO_SIDED|95.0|52.9|64.1||||||||64.1|52.9|
92188127|NCT00848198|184274324|SUPERIORITY_OR_OTHER||Specificity|73.3|||||TWO_SIDED|95.0|68.3|78.3||||||||78.3|68.3|
92188128|NCT02342275|184274372|NON_INFERIORITY|Assuming that the atenolol on the propranolol response rate does not fall by greater than 15%, the noninferiority margin was selected to be -15%.|Odds Ratio (OR)|0.15|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis||Treatment Difference=Propranolol vs Atenolol|The sample size required to compare propranolol and atenolol at month 6 was calculated before enrollment. Assuming the ulceration rate in both groups to be 10%, a sample size of180 patients was required for each group to show the noninferiority ofatenolol treatment with a 2-sidedα level of .05 and approximately 90% power||||<0.05
92188129|NCT02138838|184274408|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|8.1||||0.48|TWO_SIDED|95.0|-13.7|29.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by baseline age group|SOC+Cinacalcet - SOC|||29.9|-13.7|0.48
92188130|NCT02138838|184274409|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-9.9||||0.42|TWO_SIDED|95.0|-33.3|13.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel stratified by baseline age group (6-\<12 years, 12-\<18 years)|SOC+Cinacalcet - SOC|A hierarchical testing procedure was used to test the primary and biochemical secondary endpoints. The primary endpoint was tested at a 2-sided significance level of 0.05. The secondary endpoints were tested using Holm's method at 0.05 (2-sided) should the primary endpoint achieve a significant result.||13.4|-33.3|0.42
92188131|NCT02138838|184274410|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-10.4||||0.25|TWO_SIDED|95.0|-27.7|6.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by baseline age group|SOC+Cinacalcet - SOC|||6.8|-27.7|0.25
92304795|NCT03786718|184512354|OTHER|||||||0.77|||||||Wilcoxon Signed Rank Sum test|||||||0.77
92304796|NCT03786718|184512355|OTHER|||||||0.02|||||||Wilcoxon Signed Rank Sum test|||Analysis for pre-post change in General Diet sub-scale score||||0.02
92304797|NCT03786718|184512355|OTHER|||||||0.13|||||||Wilcoxon Signed Rank Sum test|||Analysis for pre-post change in Specific Diet sub-scale score||||0.13
92304798|NCT03786718|184512355|OTHER|||||||0.35|||||||Wilcoxon Signed Rank Sum test|||Analysis for pre-post change in Exercise sub-scale score||||0.35
92304799|NCT03786718|184512355|OTHER|||||||0.67|||||||Wilcoxon Signed Rank Sum test|||Analysis for pre-post change in Blood-glucose Testing sub-scale score||||0.67
92304800|NCT03786718|184512355|OTHER|||||||0.65|||||||Wilcoxon Signed Rank Sum test|||Analysis for pre-post change in Foot Care sub-scale score||||0.65
92304801|NCT03786718|184512356|OTHER|||||||0.001|||||||Wilcoxon Signed Rank Sum test|||||||0.001
92304802|NCT03786718|184512357|OTHER|||||||0.86|||||||Wilcoxon Signed Rank Sum test|||||||0.86
92304803|NCT03786718|184512358|OTHER|||||||0.3|||||||McNemar|||Analysis for pre-post change in knowledge of definition of A1C||||0.30
92304804|NCT03786718|184512358|OTHER|||||||1|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for hemoglobin A1c.||||1.00
92304805|NCT03786718|184512358|OTHER|||||||0.63|||||||McNemar|||Analysis for pre-post change in knowledge of definition of systolic blood pressure||||0.63
92304806|NCT03786718|184512358|OTHER|||||||0.02|||||||McNemar|||Analysis of pre-post change in knowledge of goal range for systolic blood pressure||||0.02
92188132|NCT02138838|184274411|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|19.0||||0.23|TWO_SIDED|95.0|-12.5|50.5|||ANCOVA|Analysis of covariance (ANCOVA) with baseline age group as the covariate.|SOC+Cinacalcet - SOC|||50.5|-12.5|0.23
92188133|NCT02138838|184274412|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.34||||0.059|TWO_SIDED|95.0|-0.7|0.01|||ANCOVA|Analysis of covariance (ANCOVA) with baseline age group as the covariate.||||0.01|-0.70|0.059
92188134|NCT02138838|184274413|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.76||||0.039|TWO_SIDED|95.0|0.04|1.48|||ANCOVA|Analysis of covariance (ANCOVA) with baseline age group as the covariate.|SOC+Cinacalcet - SOC|||1.48|0.04|0.039
92304807|NCT03786718|184512358|OTHER|||||||0.55|||||||McNemar|||Analysis of pre-post change in knowledge of definition of LDL cholesterol||||0.55
92304808|NCT03786718|184512358|OTHER|||||||0.0009|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for LDL cholesterol||||0.0009
92304809|NCT03786718|184512358|OTHER|||||||1|||||||McNemar|||Analysis of pre-post change in knowledge of definition of flu vaccine||||1.00
92304810|NCT03786718|184512358|OTHER|||||||1|||||||McNemar|||Analysis of pre-post change in knowledge of recommended frequency of flu vaccination||||1.00
92304811|NCT03786718|184512359|OTHER|||||||0.15|||||||Wilcoxon Signed Rank Sum test|||||||0.15
92304812|NCT03786718|184512360|OTHER|||||||0.23|||||||McNemar|||Analysis of pre-post change in interest in information about how my diabetes health data compares to other patients like me (i.e., social comparison information)||||0.23
92304813|NCT03786718|184512360|OTHER|||||||1|||||||McNemar|||Analysis of pre-post change in interest in information about how their diabetes health data compares to the goal range (i.e., goal-based comparison information)||||1.00
92304814|NCT03786718|184512360|OTHER|||||||0.51|||||||McNemar|||Analysis of pre-post change in agreement with statement: 'Information about how my diabetes health data compares to other patients like me \[social comparison information\] is useful.'||||0.51
92304815|NCT03786718|184512360|OTHER|||||||0.63|||||||McNemar|||Analysis of pre-post change in agreement with statement: 'Information about how my diabetes health data compares to the goals range \[goal-based comparison information\] is useful.||||0.63
92304816|NCT03786718|184512361|OTHER|||||||0.01|||||||Wilcoxon Signed Rank Sum test|||||||0.01
92304817|NCT01781481|184512367|SUPERIORITY_OR_OTHER||Inter-rater reliability|0.87|||||TWO_SIDED||||||||Inter rater reliability for a subset of 40 patients whose Pediatric INTERMED was scored by two trained raters. The median inter-rater reliability coefficient was .87.|||||
92304818|NCT01781481|184512367|SUPERIORITY_OR_OTHER||Cronbach's Alpha|0.91|||||TWO_SIDED||||||||Overall internal consistency of the overall Pediatric INTERMED scale (34 items).|||||
92304819|NCT01781481|184512368|SUPERIORITY_OR_OTHER||||||<|0.05||||||Correlation between the biological and psychological domain scores on the Pediatric INTERMED. The threshold for significance is p\< .05.|Pearson Correlation Coefficients|||||||<0.05
92304820|NCT01781481|184512368|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between the Biological and Social domain scores on the Pediatric INTERMED.||||<0.01
92304821|NCT01781481|184512368|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between the Biological and Family/Caregiver Pediatric INTERMED domain scores.||||<0.01
92304822|NCT01781481|184512368|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Biological and Health Service Pediatric INTERMED domain scores.||||<0.01
92304823|NCT01781481|184512368|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Psychology and Social Pediatric INTERMED domain scores.||||<0.01
92188135|NCT05129592|184274478|SUPERIORITY||Mean Difference (Final Values)|15.71|STANDARD_ERROR_OF_MEAN|7.3||0.095|TWO_SIDED|95.0|-1.87|33.3||Sidak's adjusted p-value contrasting marginal linear predictions for the Nicotine corrective control and Nicotine corrective with both components of coherence|ANCOVA|Controlling for baseline nicotine misperception (df=4)|Comparing Nicotine corrective control to the Nicotine corrective with both components of coherence|||33.30|-1.87|0.095
92304824|NCT01781481|184512368|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||||||<0.01
92304825|NCT01781481|184512368|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological and Health Service Pediatric INTERMED domain scores.||||<0.01
92304826|NCT01781481|184512368|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Social and Family/Caregiver Pediatric INTERMED domain scores.||||<0.01
92188136|NCT05129592|184274478|SUPERIORITY||Mean Difference (Final Values)|18.67|STANDARD_ERROR_OF_MEAN|7.3||0.022|TWO_SIDED|95.0|2.02|35.33||Sidak's adjustment for multiple comparisons|ANCOVA|Controlling for baseline nicotine misperception (df=4)|Comparing Nicotine corrective control to the Nicotine corrective with both components of coherence|Sidak's adjusted p-value contrasting marginal linear predictions for the Nicotine corrective with causal explanation and Nicotine corrective with both components of coherence||35.33|2.02|0.022
92304827|NCT01781481|184512368|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Social and Health Service Pediatric INTERMED domain scores.||||<0.01
92304828|NCT01781481|184512368|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Family/Caregiver and Health Service Pediatric INTERMED domain scores.||||<0.01
92304829|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and IBD Disease Severity at Diagnosis||||>0.05
92304830|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and IBD Disease Severity (at time of Study Participation).||||<0.01
92304831|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Functional Disability Index (child rating).||||<0.01
92304832|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Functional Disability Index (parent rating).||||<0.01
92304833|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Impact Quality of Life: General Well Being scale.||||<0.01
92304834|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Number of Surgeries.||||>0.05
92304835|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Number of Courses of Prednisone.||||>0.05
92304836|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Use of Immunomodulators.||||>0.05
92304837|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Use of ant-TNFa medications.||||>0.05
92304838|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Disease Severity at Diagnosis.||||>0.05
92304839|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Disease Severity at time of study participation (Pediatric INTERMED interview).||||>0.05
92304840|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Functional Disability Index (Child Report)||||>0.05
92304841|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Functional Disability Index (Parent)||||<0.01
92304842|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Impact Quality of Life: General Well-Being.||||>0.05
92304843|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Number of Surgeries.||||>0.05
92304844|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Number of Courses of Prednisone.||||>0.05
92304845|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\< 0.05.|Spearman Correlation Coefficent|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Use of Immunomodulators (azathioprine or methotrexate)||||<0.05
92304846|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and use of anti-TNFa medications.||||>0.05
92304847|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current/Biological) and Disease Severity at Diagnosis."||||>0.05
92304848|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current Biological) and IBD Disease Severity at time of study participation."||||<0.01
92304849|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current Biological) and Functional Disability Index (child rating)."||||<0.01
92304850|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current Biological) and Functional Disability Index (Parent Rating)"||||<0.01
92304851|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current Biological) and Impact Quality of Life: General Well-Being Scale"||||<0.01
92304852|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current/Biological) and Number of Surgeries"||||>0.05
92304853|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current/Biological) and Number of Courses of Prednisone."||||>0.05
92304854|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current/Biological) and Use of Immunomodulators."||||>0.05
92304855|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current/Biological) and Use of anti-TNFa Medications."||||>0.05
92304856|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05. The P-Value indicated above was found for all the correlations which were examined.|Spearman Correlation Coefficient|||"Correlations between Pediatric INTERMED Diagnostic Dilemma Item (Historical Biological) and Functional Disability Index (Parent) and each of the following variables: Disease Severity at Diagnosis, Disease Severity at Interview, Functional Disability Index - Child, Functional Disability Index- Parent, Impact Quality of Life: General Well Being, Number of Surgeries, Number of Courses of Prednisone, Use of Immunomodulators, Use of Anti-TNFa Medications."||||>0.05
92304857|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and IBD Disease Severity at Diagnosis."||||>0.05
92304858|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and IBD Disease Severity at time of study participation."||||<0.05
92304859|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Functional Disability Index (Child Rating)"||||<0.05
92304860|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Functional Disability Index (parent rating)."||||>0.05
92304861|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Impact Quality of LIfe: General Well-Being Scale"||||<0.01
92304862|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Number of Surgeries."||||>0.05
92304863|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Number of Courses of Prednisone."||||>0.05
92304864|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Use of Immunomodulators. ."||||>0.05
92304865|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Use of anti-TNFa Medications"||||>0.05
92304866|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Disease Severity at Diagnosis."||||>0.05
92304867|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Disease Severity at time of study participation (Pediatric INTERMED interview)."||||>0.05
92304868|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Functional Disability Index (Child Rating)."||||>0.05
92304869|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Functional Disability Index (Parent Rating)"||||>0.05
92304870|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Impact Quality of Life: General Well-Being"||||>0.05
92304871|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Number of Surgeries."||||>0.05
92304872|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Number of Courses of Prednisone since diagnosis."||||<0.05
92304873|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significiance is p\<0.01.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Use of Immunomodulators (azathioprine or methotrexate)."||||<0.01
92304874|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The Threshold for significance is p\<0.05)|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Use of ant-TNFa Medications (infliximab or adalimumab)."||||<0.01
92304875|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Disease Severity at diagnosis."||||>0.05
92304876|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Disease Severity at study participation."||||<0.05
92304877|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Functional Disability Index (Child Rating)."||||<0.01
92304878|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.01.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Functional Disability Index (parent rating)."||||<0.01
92304879|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Impact Quality of Life: General Well Being Scale."||||<0.05
92304880|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Number of Surgeries."||||>0.05
92304881|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Number of Courses of Prednisone."||||>0.05
92304882|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Use of Immunomodulators (azathioprine or methotrexate)."||||<0.05
92304883|NCT01781481|184512382|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Use of anti-TNFa Medications."||||>0.05
92304884|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Internalizing Problems (Child Behaviour Checklist).||||<0.01
92304885|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Externalizing Problems (Child Behaviour Checklist).||||<0.01
92304886|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Children's Depression Inventory: Total Score||||<0.01
92304887|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Multidimensional Anxiety Scale for Children: Total Score.||||<0.05
92304888|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Impact Quality of Life: Emotional Scale||||<0.01
92304889|NCT01781481|184512383|SUPERIORITY_OR_OTHER|||||||0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Social Competence Scale (Child Behaviour Checklist).||||0.01
92304890|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Activities Competence Scale (Child Behaviour Checklist).||||<0.05
92304891|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Academic Competence Scale (Child Behaviour Checklist).||||<0.01
92304892|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Impact Quality of Life: Social Scale||||<0.01
92304893|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Pediatric Inventory for Parents: Difficulty Score (parenting stress).||||<0.05
92304894|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Family Inventory of Life Events (family stress measure).||||<0.01
92304895|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Family Inventory of Resources for Management (family resources measure).||||<0.01
92304896|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Internalizing Problems (Child Behaviour Checklist).||||<0.01
92304897|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Externalizing Problems (Child Behaviour Checklist).||||<0.01
92304898|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Children's Depression Inventory: Total Score||||<0.01
92304899|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Multidimensional Anxiety Scale for Children: Total Score.||||<0.05
92304900|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Impact Quality of Life: Emotional Scale||||<0.01
92304901|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Social Competence Scale (Child Behaviour Checklist).||||<0.01
92304902|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Activities Competence Scale (Child Behaviour Checklist).||||<0.01
92304903|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Academic Competence Scale (Child Behaviour Checklist).||||<0.01
92304904|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Impact Quality of Life: Social Scale||||<0.01
92304905|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Pediatric Inventory for Parents: Difficulty Score (parenting stress).||||<0.01
92304906|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Family Inventory of Life Events (family stress measure).||||<0.01
92304907|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Family Inventory of Resources for Management (family resources measure).||||<0.01
92304908|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Internalizing Problems (Child Behaviour Checklist).||||<0.01
92304909|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Externalizing Problems (Child Behaviour Checklist).||||<0.01
92304910|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Children's Depression Inventory: Total Score||||<0.01
92304911|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Multidimensional Anxiety Scale for Children: Total Score.||||>0.05
92304912|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Impact Quality of Life: Emotional Scale||||<0.01
92304913|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Social Competence Scale (Child Behaviour Checklist).||||<0.01
92304914|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Activities Competence Scale (Child Behaviour Checklist).||||<0.01
92304915|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Academic Competence Scale (Child Behaviour Checklist).||||<0.01
92304916|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Impact Quality of Life: Social Scale||||<0.01
92188137|NCT05129592|184274478|SUPERIORITY||Mean Difference (Final Values)|3.69|STANDARD_ERROR_OF_MEAN|7.3||0.931|TWO_SIDED|95.0|-12.76|20.15||Sidak's adjustment for multiple comparisons|ANCOVA|Controlling for baseline nicotine misperception (df=4)|Comparing Nicotine corrective with reason for misperception to the Nicotine corrective with both components of coherence|Sidak's adjusted p-value contrasting marginal linear predictions for the Nicotine corrective with reason for misperception and Nicotine corrective with both components of coherence||20.15|-12.76|0.931
92188138|NCT05129592|184274479|SUPERIORITY||Odds Ratio (OR)|1.54||||0.402|TWO_SIDED|95.0|0.56|4.24|||Regression, Logistic||Odds of believing e-cigarettes are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing e-cigarettes are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs||4.24|0.56|0.402
92267127|NCT02203305|184435445|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Results are reported in dB SNR, where a lower value indicates better performance.||||=0.001
92267128|NCT02203305|184435445|SUPERIORITY||||||=|0.09|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Results are reported in dB SNR, where a lower value indicates better performance.||||=0.090
92267129|NCT02203305|184435451|SUPERIORITY||||||<|0.923|||||||Mixed Models Analysis|Main effect: electrode (p\<0.001), target stimulus (p=0.923), and interval (p=0.226). Interaction: electrode and interval (p=0.496).||A linear mixed effects model compared the main effects of target stimulus (click, tone), electrode (1-5), and interval (1, 3, 6, and 12 months) on the normalized pitch match.||||<0.923
92267130|NCT02203305|184435451|OTHER||||||>|0.164|||||||bivariate pearson correlation|||Correlation between pitch perception (normalized mean pitch match) and word recognition with the CI alone.||||>0.164
92267131|NCT02203305|184435451|OTHER|bivariate pearson correlation|||||>|0.367|||||||bivariate pearson correlation|||Correlation between pitch perception (normalized mean pitch match) and speech recognition in noise (masker from the front, masker towards the better hearing ear, and masker towards the poorer hearing ear).||||>0.367
92267132|NCT02203305|184435451|OTHER|bivariate pearson correlation|||||>|0.349|||||||bivariate pearson correlation|||Correlation between pitch perception (normalized mean pitch match) and sound source localization (RMS error).||||>0.349
92267133|NCT02203305|184435452|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||"Comparison of the unaided threshold at 125 Hz at the preoperative and initial activation intervals for the 25 participants with unaided threshold of 80 dB HL or better at the preoperative interval.~The data from the SSD and AHL group were combined to review hearing preservation with long arrays. The inclusion criteria for the implanted ear were the same for the SSD and AHL groups and all subjects received the same 31.5 mm electrode array."||||<0.001
92267134|NCT02203305|184435452|SUPERIORITY||||||=|0.47|||||||ANOVA|generalized linear mixed-effects model||"Comparison of the unaided threshold at 125 Hz from the initial activation to the 12-month post-activation interval for the 9 participants with an unaided threshold of 95 dB HL or better at the initial activation interval.~The data from the SSD and AHL group were combined to review hearing preservation with long arrays. The inclusion criteria for the implanted ear were the same for the SSD and AHL groups and all subjects received the same 31.5 mm electrode array."||||=0.47
92267135|NCT02203305|184435453|SUPERIORITY||||||=|0.739|||||||t-test, 2 sided|||A paired samples t-test compared the performance with the bone-conduction device at the preoperative and 12-month intervals.||||=0.739
92267136|NCT02203305|184435453|SUPERIORITY||||||=|0.553|||||||t-test, 2 sided|||A paired samples t-test compared the performance with the bone-conduction device at the preoperative and 12-month intervals.||||=0.553
92267137|NCT02203305|184435454|SUPERIORITY||||||<|0.345||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|Main effect: interval (p=0.027) and masker condition (p\<0.001). Interaction: interval and masker condition (p=0.345).||A repeated-measures ANOVA assessed the effects of interval (preoperative and 12-months) and masker condition (front, acoustic ear, or affected ear) on performance with the bone conduction device.||||<0.345
92267138|NCT02203305|184435454|SUPERIORITY||||||<|0.577||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|Main effect: masker condition (p\<0.001) and interval (p=0.577). Interaction: interval and masker condition (p=0.055).||A repeated-measures ANOVA assessed the effects of interval (preoperative and 12-months) and masker condition (front, acoustic ear, or affected ear) on performance with the bone conduction device.||||<0.577
92267139|NCT02203305|184435455|SUPERIORITY||||||>|0.023|||||||Mixed Models Analysis|Main effect: coding strategy (p=0.023). Interaction: coding strategy and electrode (p=0.044). All other main effects and interactions were p\>0.160.||A linear mixed effect model assessed the main effects of stimulus, electrode, and coding strategy, and their interactions.||||>0.023
92267140|NCT02203305|184435455|SUPERIORITY||||||>|0.035|||||||t-test, 2 sided|Pitch perception for electrode 1 (p=0.035). All other comparisons were p\>0.318.||Paired samples t-tests evaluated whether pitch perception (mean normalized pitch) differed between coding strategy for each electrode.||||>0.035
92267141|NCT02203305|184435456|SUPERIORITY||||||>|0.084|||||||ANOVA|Main effects: condition (p=0.960) and interval (p=0.084). Interaction: condition and interval (p=0.433).||A repeated-measures ANOVA assessed the effects of condition (unaided, bone-conduction device) and interval (preoperative, 12-month) and their interaction on sound source localization.||||>0.084
92267142|NCT02203305|184435456|SUPERIORITY||||||>|0.434|||||||ANOVA|Main effect: condition (p=0.434) or interval (p=0.687). Interaction: condition and interval (p=0.678).||A repeated-measures ANOVA assessed the effects of condition (unaided, bone-conduction device) and interval (preoperative, 12-month) and their interaction on sound source localization.||||>0.434
92304917|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Pediatric Inventory for Parents: Difficulty Score (parenting stress).||||<0.01
92304918|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Family Inventory of Life Events (family stress measure).||||<0.01
92304919|NCT01781481|184512383|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Family Inventory of Resources for Management (family resources measure).||||<0.01
92304920|NCT01781481|184512384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.33|||||TWO_SIDED|95.0|2.02|34.47||||||||34.47|2.02|
92304921|NCT01781481|184512385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.52|||||TWO_SIDED|95.0|1.7|43.02||||||||43.02|1.70|
92304922|NCT01781481|184512386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.27|||||TWO_SIDED|95.0|2.17|24.36||||||||24.36|2.17|
92304923|NCT01781481|184512387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.79|||||TWO_SIDED|95.0|5.0|122.84||||||||122.84|5.00|
92304924|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Health System Domain Score (health system needs/complexity) and Number of Hospital Services involved in the child's care.||||<0.01
92304925|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Health System Domain Score (health system needs/complexity) and Number of Inpatient Hospitalizations since IBD diagnosis.||||<0.01
92304926|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Health System Domain Score (health system needs/complexity) and Number of Surgeries since IBD diagnosis.||||<0.01
92304927|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Health System Domain Score (health system needs/complexity) and Family Financial Well Being||||<0.01
92304928|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Access to Health Care Item (historical/health system) and Number of Hospital Services Involved in the Child's Care."||||>0.05
92304929|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Access to Health Care Item (historical/health system) and Number of Hospitalizations since Child's IBD Diagnosis."||||<0.01
92304930|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Access to Health Care Item (historical/health system) and Number of Surgeries since Diagnosis."||||<0.01
92304931|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Access to Health Care Item (historical/health system) and Family Financial Well-Being."||||<0.01
92304932|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Treatment Experience Item (historical/health system) and Number of Hospital Services Involved in the Child's Care."||||<0.01
92304933|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Treatment Experience Item (historical/health system) and Number of Hospitalizations since Child's IBD Diagnosis."||||>0.05
92304934|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Treatment Experience Item (historical/health system) and Number of Surgeries since child's diagnosis."||||>0.05
92304935|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Treatment Experience Item (historical/health system) and Family Financial Well-Being."||||>0.05
92304936|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Organization of Care Item (current/health system) and Number of Hospital Services Involved in the Child's Care."||||<0.01
92304937|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Organization of Care Item (current/health system) and Number of Hospitalizations since IBD Diagnosis."||||>0.05
92304938|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Organization of Care Item (current/health system) and Number of Surgeries since Child's IBD Diagnosis."||||>0.05
92304939|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Organization of Care Item (current/health system) and Family Financial Well-Being."||||<0.01
92304940|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Coordination of Care Item (current/health system) and Number of Hospital Services Involved in the Child's Care."||||<0.01
92304941|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Coordination of Care Item (current/health system) and Number of Hospitalizations since Child's IBD Diagnosis."||||>0.05
92304942|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Coordination of Care Item (current/health system) and Number of Surgeries Child's IBD Diagnosis."||||>0.05
92304943|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Coordination of Care Item (current/health system) and Family Financial Well Being."||||>0.05
92304944|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Health System Impediments Item (vulnerability/health system) and Number of Hospital Services Involved in the Child's Care."||||>0.05
92304945|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Health System Impediments Item (vulnerability/health system) and Number of Hospitalizations since Child's IBD Diagnosis. Services Involved in the Child's Care."||||<0.01
92304946|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Health System Impediments Item (vulnerability/health system) and Number of Surgeries since Child's IBD Diagnosis."||||>0.05
92304947|NCT01781481|184512388|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Health System Impediments Item (vulnerability/health system) and Family Financial Well-Being."||||<0.01
92304948|NCT01781481|184512389|SUPERIORITY_OR_OTHER||Rsquare change statistic|0.08|||<|0.01|TWO_SIDED|||||p\<0.05 Threshold for statistical significance|Regression, Linear|||A hierarchical multiple (linear) regression analysis was conducted to determine the predictive relation between the Pediatric INTERMED indicator of case complexity and the number of hospital services involved in child's care. Gender, and time since diagnosis were entered as covariates (Step 1), followed by current disease severity (Step 2) and the Pediatric INTERMED Complexity Index (Step 3). Diagnostic tests for collinearity were conducted and all assumptions for the analysis were met.||||<0.01
92188139|NCT05129592|184274479|SUPERIORITY||Odds Ratio (OR)|1.83||||0.292|TWO_SIDED|95.0|0.59|5.62|||Regression, Logistic||Odds of believing e-cigarettes are somewhat or much less harmful than cigarettes in the control condition/odds of believing e-cigarettes are somewhat or much less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs||5.62|0.59|0.292
92188140|NCT05129592|184274479|SUPERIORITY||Odds Ratio (OR)|0.77||||0.571|TWO_SIDED|95.0|0.3|1.93|||Regression, Logistic||Odds of believing e-cigarettes are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing e-cigarettes are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs||1.93|0.30|0.571
92188141|NCT05129592|184274479|SUPERIORITY||Odds Ratio (OR)|1.98|STANDARD_ERROR_OF_MEAN|1.44||0.349|TWO_SIDED|95.0|0.47|8.26|||Regression, Logistic||Odds of believing e-cigarettes are less harmful than cigarettes in the control condition/odds of believing e-cigarettes are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs controlling for baseline beliefs and e-cigarette use||8.26|0.47|0.349
92188142|NCT05129592|184274479|SUPERIORITY||Odds Ratio (OR)|1.76|STANDARD_ERROR_OF_MEAN|1.07||0.355|TWO_SIDED|95.0|0.53|5.81|||Regression, Logistic||Odds of believing e-cigarettes are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing e-cigarettes are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs controlling for baseline beliefs and e-cigarette use||5.81|0.53|0.355
92188143|NCT05129592|184274479|SUPERIORITY||Odds Ratio (OR)|0.74|STANDARD_ERROR_OF_MEAN|0.42||0.591|TWO_SIDED|95.0|0.24|2.25|||Regression, Logistic||Odds of believing e-cigarettes are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing e-cigarettes are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs controlling for baseline beliefs and e-cigarette use||2.25|0.24|0.591
92304949|NCT01781481|184512390|SUPERIORITY_OR_OTHER||R2Change|0.05|||<|0.01|TWO_SIDED|||||Threshold for statistical significance is p\<0.01|Regression, Linear|||A hierarchical multiple (linear) regression analysis was conducted to determine the predictive relation between the Pediatric INTERMED indicator of case complexity and the number of calls to the IBD Nurse. Gender, and time since diagnosis were entered as covariates (Step 1), followed by current disease severity (Step 2) and the Pediatric INTERMED Complexity Index (Step 3). Diagnostic tests for collinearity were conducted and all assumptions for the analysis were met.||||<0.01
92188144|NCT05129592|184274480|SUPERIORITY|Unadjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs|Odds Ratio (OR)|0.98|STANDARD_ERROR_OF_MEAN|0.99||0.98|TWO_SIDED|95.0|0.13|7.27|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the control condition/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|||7.27|0.13|0.980
92188145|NCT05129592|184274480|SUPERIORITY||Odds Ratio (OR)|0.47|STANDARD_ERROR_OF_MEAN|0.41||0.382|TWO_SIDED|95.0|0.09|2.56|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs||2.56|0.09|0.382
92304950|NCT01781481|184512391|SUPERIORITY_OR_OTHER||Rsquare change statistic|0.05|||<|0.01|TWO_SIDED|||||p\<.05 threshold for statistical significance|Regression, Linear|Diagnostic tests for collinearity were conducted and all assumptions for the analysis were met.||A hierarchical multiple (linear) regression analysis was conducted to determine the predictive relation between the Pediatric INTERMED indicator of case complexity and the number of extra appointments with the IBD team. Gender, and time since diagnosis were entered as covariates (Step 1), followed by current disease severity (Step 2) and the Pediatric INTERMED Complexity Index (Step 3).||||<0.01
92304951|NCT01781481|184512392|SUPERIORITY_OR_OTHER||R2Change|0.03|||<|0.05|TWO_SIDED|||||Threshold for statistical significance is p \<0.05.|Regression, Linear|||A hierarchical multiple (linear) regression analysis was conducted to determine the predictive relation between the Pediatric INTERMED indicator of case complexity and the number of ER Visits. Gender, and time since diagnosis were entered as covariates (Step 1), followed by current disease severity (Step 2) and the Pediatric INTERMED Complexity Index (Step 3). Diagnostic tests for collinearity were conducted and all assumptions for the analysis were met.||||<0.05
92304952|NCT01781481|184512393|SUPERIORITY_OR_OTHER||R2Change|0.07|||<|0.01|TWO_SIDED||||||Regression, Linear|||A hierarchical multiple (linear) regression analysis was conducted to determine the predictive relation between the Pediatric INTERMED indicator of case complexity and the number of hospital services involved in child's care. Gender, and time since diagnosis were entered as covariates (Step 1), followed by current disease severity (Step 2) and the Pediatric INTERMED Complexity Index (Step 3). Diagnostic tests for collinearity were conducted and all assumptions for the analysis were met.||||<0.01
92304953|NCT00372411|184512394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.17||||0.08|TWO_SIDED|95.0|-0.23|4.58||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses|ANCOVA|Analysis is of change at 12 weeks minus baseline adjusted for the study site as a fixed effect, the Comorbidity Disease Index, and baseline FM value.||Because randomization to usual care was stopped after 15 months as specified by the protocol, comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||4.58|-0.23|0.08
92304954|NCT00372411|184512394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.88||||0.02|TWO_SIDED|95.0|0.57|5.18||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||5.18|0.57|0.02
92304955|NCT00372411|184512394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.92|TWO_SIDED|95.0|-2.94|2.65||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses|ANCOVA|Analysis is of change at 12 weeks minus baseline adjusted for the study site as a fixed effect, the Comorbidity Disease Index, and baseline FM value.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||2.65|-2.94|0.92
92304956|NCT00372411|184512394|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.58||||0.63|TWO_SIDED|95.0|-2.97|1.81||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||1.81|-2.97|0.63
92188146|NCT05129592|184274480|SUPERIORITY||Odds Ratio, log|0.83|STANDARD_ERROR_OF_MEAN|0.79||0.846|TWO_SIDED|95.0|0.13|5.23|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs||5.23|0.13|0.846
92188147|NCT05129592|184274480|SUPERIORITY||Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|1.05||0.99|TWO_SIDED|95.0|0.13|7.74|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the control condition/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs controlling for NRT use||7.74|0.13|0.990
92188148|NCT05129592|184274480|SUPERIORITY||Odds Ratio (OR)|0.51|STANDARD_ERROR_OF_MEAN|0.46||0.458|TWO_SIDED|95.0|0.09|3.01|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs controlling for NRT use||3.01|0.09|0.458
92188149|NCT05129592|184274480|SUPERIORITY||Odds Ratio (OR)|0.74|STANDARD_ERROR_OF_MEAN|0.7||0.754|TWO_SIDED|95.0|0.12|4.76|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs controlling for NRT use||4.76|0.12|0.754
92188150|NCT05129592|184274481|SUPERIORITY||Odds Ratio, log|1.69|STANDARD_ERROR_OF_MEAN|0.78||0.256|TWO_SIDED|95.0|0.68|4.15|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the control condition/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs||4.15|0.68|0.256
92304957|NCT00372411|184512395|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.64||||0.009|TWO_SIDED|95.0|2.03|13.24||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses|ANCOVA|Analysis is change at 12 weeks minus baseline, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline SIS value.||Because randomization to usual care was stopped after 15 months as specified by the protocol, comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||13.24|2.03|0.009
92304958|NCT00372411|184512395|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.95||||0.04|TWO_SIDED|95.0|0.34|11.56||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||11.56|0.34|0.04
92304959|NCT00372411|184512395|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.54||||0.81|TWO_SIDED|95.0|-3.87|4.94||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis is change at 12 weeks minus baseline, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline SIS value.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||4.94|-3.87|0.81
92304960|NCT00372411|184512395|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.19||||0.55|TWO_SIDED|95.0|-2.74|5.12||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||5.12|-2.74|0.55
92188151|NCT05129592|184274481|SUPERIORITY||Odds Ratio (OR)|1.02|STANDARD_ERROR_OF_MEAN|0.43||0.961|TWO_SIDED|95.0|0.45|2.32|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs||2.32|0.45|0.961
92188152|NCT05129592|184274481|SUPERIORITY||Odds Ratio (OR)|0.67|STANDARD_ERROR_OF_MEAN|0.28||0.345|TWO_SIDED|95.0|0.3|1.53|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs||1.53|0.30|0.345
92188153|NCT05129592|184274481|SUPERIORITY||Odds Ratio (OR)|1.56|STANDARD_ERROR_OF_MEAN|0.76||0.36|TWO_SIDED|95.0|0.6|4.04|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the control condition/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs controlling for baseline beliefs and VLNC use||4.04|0.60|0.360
92188154|NCT05129592|184274481|SUPERIORITY||Odds Ratio (OR)|1.14|STANDARD_ERROR_OF_MEAN|0.5||0.765|TWO_SIDED|95.0|0.48|2.7|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs controlling for baseline beliefs and VLNC use||2.70|0.48|0.765
92188155|NCT05129592|184274481|SUPERIORITY||Odds Ratio (OR)|0.6|STANDARD_ERROR_OF_MEAN|0.27||0.252|TWO_SIDED|95.0|0.25|1.43|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs controlling for baseline beliefs and VLNC use||1.43|0.25|0.252
92188156|NCT05129592|184274482|SUPERIORITY||Odds Ratio (OR)|0.45|STANDARD_ERROR_OF_MEAN|0.2||0.077|TWO_SIDED|95.0|0.18|1.09|||Regression, Logistic||Odds of believing smokeless tobacco is less harmful than cigarettes in the control condition/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless tobacco relative harm beliefs||1.09|0.18|0.077
92188157|NCT05129592|184274482|SUPERIORITY||Odds Ratio (OR)|0.92|STANDARD_ERROR_OF_MEAN|0.4||0.853|TWO_SIDED|95.0|0.4|2.15|||Regression, Logistic|||Unadjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless tobacco relative harm beliefs|Odds of believing smokeless tobacco is less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|2.15|0.40|0.853
92188158|NCT05129592|184274482|SUPERIORITY||Odds Ratio, log|0.41|STANDARD_ERROR_OF_MEAN|0.18||0.037|TWO_SIDED|95.0|0.18|0.95|||Regression, Logistic||Odds of believing smokeless tobacco is less harmful than cigarettes in the Nicotine corrective with both components of coherence/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless tobacco relative harm beliefs||0.95|0.18|0.037
92304961|NCT00372411|184512396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.41||||0.22|TWO_SIDED|95.0|-11.52|2.7||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis is change at 12 weeks minus baseline adjusted for the study site as a fixed effect, the Comorbidity Disease Index, and baseline WMFT value.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||2.70|-11.52|0.22
92304962|NCT00372411|184512396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.1||||0.005|TWO_SIDED|95.0|-13.61|-2.6||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||-2.60|-13.61|0.005
92304963|NCT00372411|184512396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.93||||0.82|TWO_SIDED|95.0|-7.03|8.89||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis is change at 12 weeks minus baseline adjusted for the study site as a fixed effect, the Comorbidity Disease Index, and baseline WMFT value.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||8.89|-7.03|0.82
92304964|NCT00372411|184512396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.13||||0.55|TWO_SIDED|95.0|-9.2|4.93||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||4.93|-9.20|0.55
92304965|NCT00372411|184512397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.81||||0.08|TWO_SIDED|95.0|-1.73|0.11||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis of covariance at 12 weeks, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline value of the outcome.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||0.11|-1.73|0.08
92304966|NCT00372411|184512397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.84||||0.03|TWO_SIDED|95.0|-1.62|-0.06||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis of covariance at 12 weeks, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline value of the outcome.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||-0.06|-1.62|0.03
92304967|NCT00372411|184512398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.95|TWO_SIDED|95.0|-0.25|0.26||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis of covariance at 12 weeks, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline value of the outcome.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||0.26|-0.25|0.95
92304968|NCT00372411|184512398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19||||0.1|TWO_SIDED|95.0|-0.42|0.04||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis of covariance at 12 weeks, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline value of the outcome.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||0.04|-0.42|0.10
92304969|NCT00667810|184512407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.83||||0.057|TWO_SIDED|95.0|-3.71|0.05||The p-value is not adjusted for multiple comparison. The Hochberg approach is used to control for multiplicity between the two dose levels (0.5 mg/kg and 1.0 mg/kg) of bapineuzumab.|Mixed Models Analysis|||Change from baseline in ADAS-Cog/11 total score was analyzed using a restricted maximum likelihood (REML) based mixed model for repeated-measures (MMRM). The number of participants in each group provided approximately 90% power to detect a 2.65 point advantage at Week 78. This calculation was based on a 2-sided test with alpha set at 0.05, the use of the Hochberg procedure to control for multiplicity.||0.05|-3.71|0.057
92304970|NCT00667810|184512407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.848|TWO_SIDED|95.0|-1.73|2.1||The p-value is not adjusted for multiple comparison. The Hochberg approach is used to control for multiplicity between the two dose levels (0.5 mg/kg and 1.0 mg/kg) of bapineuzumab.|Mixed Models Analysis|||Change from baseline in ADAS-Cog/11 total score was analyzed using a REML based MMRM. The number of participants in each group provided approximately 90% power to detect a 2.65 point advantage at Week 78. This calculation was based on a 2-sided test with alpha set at 0.05, the use of the Hochberg procedure to control for multiplicity.||2.10|-1.73|0.848
92304971|NCT00667810|184512408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51||||0.459|TWO_SIDED|95.0|-2.48|5.49||The p-value is not adjusted for multiple comparison. The Hochberg approach is used to control for multiplicity between the two dose levels (0.5 mg/kg and 1.0 mg/kg) of bapineuzumab.|Mixed Models Analysis|||Change from baseline in DAD total score was analyzed using a REML based MMRM. The number of participants in each group provided approximately 90% power to detect a 6.56 point advantage at Week 78. This calculation was based on a 2-sided test with alpha set at 0.05, the use of the Hochberg procedure to control for multiplicity.||5.49|-2.48|0.459
92304972|NCT00667810|184512408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||0.623|TWO_SIDED|95.0|-3.04|5.07||The p-value is not adjusted for multiple comparison. The Hochberg approach is used to control for multiplicity between the two dose levels (0.5 mg/kg and 1.0 mg/kg) of bapineuzumab.|Mixed Models Analysis|||Change from baseline in DAD total score was analyzed using a REML based MMRM. The number of participants in each group provided approximately 90% power to detect a 6.56 point advantage at Week 78. This calculation was based on a 2-sided test with alpha set at 0.05, the use of the Hochberg procedure to control for multiplicity.||5.07|-3.04|0.623
92304973|NCT00667810|184512409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.654|TWO_SIDED|95.0|-0.15|0.09|||Mixed Models Analysis|||The analysis is based on the pooled bapineuzumab (with subjects in the bapineuzumab 0.5 and 1.0 mg/kg groups combined) treatment difference estimated at Week 71. The number of participants gave 90% power to detect a 0.186 unit advantage for a bapineuzumab dose group over placebo for PiB PET binding at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05 and the use of the Hochberg procedure to control for multiplicity for 2 individual doses.||0.09|-0.15|0.654
92304974|NCT00667810|184512410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.18||||0.085|TWO_SIDED|95.0|-15.38|1.02|||ANCOVA|||The analysis is based on the pooled bapineuzumab (with subjects in the bapineuzumab 0.5 and 1.0 mg/kg groups combined) treatment difference estimated at Week 71. The number of participants gave 90% power to detect a 15 ng/L advantage in p-tau for a bapineuzumab dose group over placebo at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05 and the use of the Hochberg procedure to control for multiplicity for 2 individual doses.||1.02|-15.38|0.085
92304975|NCT00667810|184512411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||0.437|TWO_SIDED|95.0|-1.55|3.57|||Mixed Models Analysis|||Change in MRI BBSI was analyzed using a REML based MMRM. The number of participants gave 90% power to detect a 5.05-cm3 advantage for a bapineuzumab dose group over placebo on reduction in brain volume as measured by the BBSI at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05 and the use of the Hochberg procedure to control for multiplicity for 2 individual doses.||3.57|-1.55|0.437
92304976|NCT00667810|184512411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06||||0.423|TWO_SIDED|95.0|-1.54|3.66|||Mixed Models Analysis|||Change in MRI BBSI was analyzed using a REML based MMRM. The number of participants gave 90% power to detect a 5.05-cm3 advantage for a bapineuzumab dose group over placebo on reduction in brain volume as measured by the BBSI at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05 and the use of the Hochberg procedure to control for multiplicity for 2 individual doses.||3.66|-1.54|0.423
92304977|NCT00667810|184512412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32||||0.212|TWO_SIDED|95.0|-3.4|0.76|||Mixed Models Analysis|||||0.76|-3.40|0.212
92304978|NCT00667810|184512412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.725|TWO_SIDED|95.0|-1.76|2.52|||Mixed Models Analysis|||||2.52|-1.76|0.725
92304979|NCT00667810|184512413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2||||0.149|TWO_SIDED|95.0|-1.15|7.56|||Mixed Models Analysis|||||7.56|-1.15|0.149
92304980|NCT00667810|184512413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.01||||0.375|TWO_SIDED|95.0|-2.44|6.46|||Mixed Models Analysis|||||6.46|-2.44|0.375
92304981|NCT00667810|184512414|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||Not specifed.|Log Rank|||||||0.030
92304982|NCT00667810|184512414|SUPERIORITY_OR_OTHER|||||||0.567|TWO_SIDED||||||Log Rank|||||||0.567
92304983|NCT00667810|184512415|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED||||||Log Rank|||||||0.079
92304984|NCT00667810|184512415|SUPERIORITY_OR_OTHER|||||||0.675|TWO_SIDED||||||Log Rank|||||||0.675
92304985|NCT00667810|184512416|SUPERIORITY_OR_OTHER|||||||0.846|TWO_SIDED||||||Log Rank|||Not spsecified.||||0.846
92304986|NCT00667810|184512416|SUPERIORITY_OR_OTHER|||||||0.797|TWO_SIDED||||||Log Rank|||||||0.797
92304987|NCT00667810|184512417|SUPERIORITY_OR_OTHER|||||||0.933|TWO_SIDED||||||Log Rank|||||||0.933
92304988|NCT00667810|184512417|SUPERIORITY_OR_OTHER|||||||0.714|TWO_SIDED||||||Log Rank|||||||0.714
92188159|NCT05129592|184274482|SUPERIORITY||Odds Ratio (OR)|0.6|STANDARD_ERROR_OF_MEAN|0.33||0.349|TWO_SIDED|95.0|0.21|1.75|||Regression, Logistic||Odds of believing smokeless tobacco is less harmful than cigarettes in the control condition/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless relative harm beliefs controlling for baseline beliefs and smokeless tobacco use||1.75|0.21|0.349
92304989|NCT00667810|184512419|SUPERIORITY_OR_OTHER|||||||0.277|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.277
92304990|NCT00667810|184512419|SUPERIORITY_OR_OTHER|||||||0.996|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.996
92304991|NCT00667810|184512421|SUPERIORITY_OR_OTHER|||||||0.855|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.855
92304992|NCT00667810|184512421|SUPERIORITY_OR_OTHER|||||||0.423|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.423
92304993|NCT00667810|184512422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.516|TWO_SIDED|95.0|-0.65|0.33|||Mixed Models Analysis|||Change in DS score was analyzed using a REML based MMRM.||0.33|-0.65|0.516
92304994|NCT00667810|184512422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.257|TWO_SIDED|95.0|-0.79|0.21|||Mixed Models Analysis|||Change in DS score was analyzed using a REML based MMRM.||0.21|-0.79|0.257
92304995|NCT00667810|184512423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.238|TWO_SIDED|95.0|-0.96|0.24|||Mixed Models Analysis|||Change in CDR-SOB total score was analyzed using a REML based MMRM.||0.24|-0.96|0.238
92304996|NCT00667810|184512423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.564|TWO_SIDED|95.0|-0.78|0.43|||Mixed Models Analysis|||Change in CDR-SOB total score was analyzed using a REML based MMRM.||0.43|-0.78|0.564
92304997|NCT02227147|184512453|SUPERIORITY||Difference in percentage|40.4|||=|0.006|TWO_SIDED|90.0|14.2|66.6|||Chi-squared|||||66.6|14.2|=0.006
92304998|NCT02227147|184512454|SUPERIORITY||Difference in percentage|36.1|||=|0.013|TWO_SIDED|95.0|9.4|62.7|||Chi-squared|||||62.7|9.4|=0.013
92304999|NCT02227147|184512455|SUPERIORITY||difference in percentage|19.0|||=|0.191|TWO_SIDED|95.0|-9.0|47.1|||Chi-squared|||week 4 - central reviewer||47.1|-9.0|=0.191
92305000|NCT02227147|184512455|SUPERIORITY||difference in percentage|10.7|||=|0.464|TWO_SIDED|95.0|-17.7|39.1|||Chi-squared|||week 6 - central reviewer||39.1|-17.7|=0.464
92305001|NCT02227147|184512455|SUPERIORITY||difference in percentage|14.9|||=|0.308|TWO_SIDED|95.0|-13.4|43.1|||Chi-squared|||week 4 - investigator||43.1|-13.4|=0.308
92305002|NCT02227147|184512455|SUPERIORITY||difference in percentage|23.6|||=|0.106|TWO_SIDED|95.0|-4.2|51.3|||Chi-squared|||week 6 - investigator||51.3|-4.2|=0.106
92305003|NCT02227147|184512456|SUPERIORITY||difference in percentage|9.5|||=|0.255|TWO_SIDED|95.0|-6.9|25.9|||Chi-squared|||week 4||25.9|-6.9|=0.255
92305004|NCT02227147|184512456|SUPERIORITY||difference in percentage|0.8|||=|0.927|TWO_SIDED|95.0|-15.6|17.1|||Chi-squared|||week 6||17.1|-15.6|=0.927
92305005|NCT02227147|184512456|SUPERIORITY||difference in percentage|18.6|||=|0.062|TWO_SIDED|95.0|-0.7|37.8|||Chi-squared|||week 8||37.8|-0.7|=0.062
92305006|NCT02227147|184512457|SUPERIORITY||difference in least square means|1.1|||=|0.745|TWO_SIDED|95.0|-5.6|7.7|||ANCOVA|||||7.7|-5.6|=0.745
92305007|NCT02227147|184512458|SUPERIORITY||difference in percentage|-3.8|||=|0.672|TWO_SIDED|95.0|-21.3|13.7|||Chi-squared|||week 4||13.7|-21.3|=0.672
92305008|NCT02227147|184512458|SUPERIORITY||difference in percentage|0.5|||=|0.955|TWO_SIDED|95.0|-18.5|19.6|||Chi-squared|||week 6||19.6|-18.5|=0.955
92305009|NCT02227147|184512458|SUPERIORITY||difference in percentage|-3.6|||=|0.727|TWO_SIDED|95.0|-23.9|16.7|||Chi-squared|||week 8||16.7|-23.9|=0.727
92305010|NCT02227147|184512459|SUPERIORITY||least square mean difference|0.6|||=|0.207|TWO_SIDED|95.0|-0.4|1.5|||ANCOVA|||||1.5|-0.4|=0.207
92305011|NCT02227147|184512460|SUPERIORITY||difference in percentage|-13.3|||=|0.11|TWO_SIDED|95.0|-30.5|3.9|||Chi-squared|||||3.9|-30.5|=0.110
92305012|NCT03514641|184512468|SUPERIORITY||LS Means difference|-2.72||||0.0025|TWO_SIDED|95.0|-4.47|-0.96|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||-0.96|-4.47|0.0025
92305013|NCT03514641|184512469|SUPERIORITY||Mean Difference (Final Values)|-2.43||||0.0117|TWO_SIDED|95.0|-4.32|-0.54|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||-0.54|-4.32|0.0117
92305014|NCT03514641|184512470|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1317|TWO_SIDED|95.0|0.92|1.83||Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP|Covariance|||||1.83|0.92|0.1317
92305015|NCT03514641|184512471|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0113|TWO_SIDED|95.0|1.11|2.3|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||2.30|1.11|0.0113
92305016|NCT03514641|184512472|SUPERIORITY||Mean Difference (Final Values)|-4.63|||<|0.0001|TWO_SIDED|95.0|-6.83|-2.42|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||-2.42|-6.83|<0.0001
92305017|NCT03514641|184512473|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0004|TWO_SIDED|95.0|1.32|2.62|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||2.62|1.32|0.0004
92305018|NCT03514641|184512474|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.0863|TWO_SIDED|95.0|-1.79|0.12|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||0.12|-1.79|0.0863
92305019|NCT03514641|184512475|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0232|TWO_SIDED|95.0|1.06|2.08|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||2.08|1.06|0.0232
92305020|NCT03514641|184512476|SUPERIORITY||Odds Ratio (OR)|1.81||||0.014|TWO_SIDED|95.0|1.13|2.91|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||2.91|1.13|0.0140
92305021|NCT03514641|184512477|SUPERIORITY||Mean Difference (Final Values)|-2.31||||0.0011|TWO_SIDED|95.0|-3.7|-0.92|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||-0.92|-3.70|0.0011
92305022|NCT03514641|184512478|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0094|TWO_SIDED|95.0|1.13|2.35|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||2.35|1.13|0.0094
92305023|NCT03514641|184512479|SUPERIORITY||Mean Difference (Final Values)|-3.2||||0.0083|TWO_SIDED|95.0|-5.57|-0.83|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||-0.83|-5.57|0.0083
92305024|NCT03514641|184512480|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.1085|TWO_SIDED|95.0|-1.87|0.19|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||0.19|-1.87|0.1085
92305025|NCT03514641|184512481|SUPERIORITY||Mean Difference (Final Values)|-1.25||||0.0837|TWO_SIDED|95.0|-2.67|0.17|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||0.17|-2.67|0.0837
92305026|NCT03688282|184512489|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92305027|NCT03347422|184512504|SUPERIORITY||Odds Ratio (OR)|15.94|||<|0.001|TWO_SIDED|95.0|2.88|88.04||Threshold for significance was 0.05.|Cochran-Mantel-Haenszel||Stratified by baseline hemoglobin (\< median versus \>=median) and geographic region (Asia/Other, North America, and Europe).|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when primary outcome measure was statistically significant at two-sided 0.05 level.||88.04|2.88|<0.001
92305028|NCT03347422|184512506|SUPERIORITY||LS mean difference|2.56|STANDARD_ERROR_OF_MEAN|0.408|<|0.001|TWO_SIDED|95.0|1.75|3.38||Threshold of significance at 0.05 level.|Mixed model for repeated measures|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05 level.||3.38|1.75|<0.001
92305029|NCT03347422|184512507|SUPERIORITY||LS mean difference|8.93|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|4.0|13.85||Threshold of significance at 0.05 level.|Mixed model for repeated measures|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05 level.||13.85|4.00|<0.001
92305030|NCT04796779|184512542|SUPERIORITY||||||<|0.001|||||||Direct likelihood model|The model was adjusted for the baseline value of the metric, age, prior CGM and pump use, and site as a random effect.||||||<0.001
92305031|NCT04796779|184512543|SUPERIORITY||||||<|0.001||||||To preserve the overall type I error for the multiple secondary outcomes, a hierarchical gatekeeping approach was used.|Robust regression using M-estimation|The model was adjusted for baseline value of the metric, age, prior CGM and pump use, and site as a fixed effect.||||||<0.001
92305032|NCT04796779|184512544|SUPERIORITY||||||<|0.001||||||To preserve the overall type I error for the multiple secondary outcomes, a hierarchical gatekeeping approach was used.|Direct likelihood model|The model was adjusted for the baseline value of the metric, age, prior CGM and pump use, and site as a random effect.||||||<0.001
92305033|NCT04796779|184512545|SUPERIORITY||||||<|0.001||||||To preserve the overall type I error for the multiple secondary outcomes, a hierarchical gatekeeping approach was used.|Direct likelihood model|The model was adjusted for the baseline value of the metric, age, prior CGM and pump use, and site as a random effect.||||||<0.001
92305034|NCT04796779|184512546|SUPERIORITY|||||||0.57||||||To preserve the overall type I error for the multiple secondary outcomes, a hierarchical gatekeeping approach was used.|Robust regression using M-estimation|The model was adjusted for the baseline value of the metric, age, prior CGM and pump use, and site as a fixed effect.||||||0.57
92305035|NCT01055132|184512603|NON_INFERIORITY_OR_EQUIVALENCE|Based on historical data, a minimum of 42 subjects is needed to achieve 80% power with 0.05 type I error.|Least-square mean difference|-0.037|STANDARD_ERROR_OF_MEAN|0.0072|||TWO_SIDED|95.0|-0.041|-0.0013|||linear mixed model|Sequence of wear, period and lens were included as fixed effects; site, patient, eye\*patient, period\*patient and period\*eye\*patient as random effects.|Comparison between study lenses was carried out using 2-sided 95% confidence interval of the least-square mean difference(test minus control). The non-inferiority was concluded if the upper limit of the confidence limit is below 0.05 LogMAR.|Ho:The test lens is non-inferior to the active comparator lens for monocular visual performance on logMAR scale at 1-week follow-up. A non-inferiority margin of 0.05 logMAR was used.||-0.0013|-0.041|
92305036|NCT01055132|184512604|NON_INFERIORITY_OR_EQUIVALENCE|Based on historical data, a minimum of 42 subjects is needed to achieve a minimum of 80% power with 0.05 type I error.|Least-square mean difference|-0.015|STANDARD_ERROR_OF_MEAN|0.0062|||TWO_SIDED|95.0|-0.027|-0.003|||linear mixed model|Sequence of wear,lens period and lens were included in the model as fixed effects; site, patient, period\*patient were included as random effects.|Comparison between study lenses was carried out using 2-sided 95% confidence interval of the least-square mean difference (test minus control). The non-inferiority was concluded if the upper limit of the confidence limit is below 0.05 LogMAR.|Ho:The test lens is non-inferior to the active comparator lens for Binocular visual performance on logMAR scale at 1-week follow-up. A non-inferiority margin of 0.05 logMAR was used.||-0.003|-0.027|
92305037|NCT01055132|184512605|NON_INFERIORITY_OR_EQUIVALENCE|Based on historical data, a minimum of 42 subjects is needed to achieve a minimum of 80% power with 0.05 type I error.|Least-square mean difference|11.9|STANDARD_ERROR_OF_MEAN|3.93|||TWO_SIDED|95.0|4.05|19.79|||linear mixed model|Sequence of lens wear, lens period and lens type were included in the model as fixed effects; and Site and patient as random effects.|Comparison between study lenses was carried out using 2-sided 95% confidence interval of the least-square mean difference (test minus control). The non-inferiority was concluded if the lower limit of the confidence interval is higher than -5.|Ho:The test lens is non-inferior to the active comparator lens for comfort at 1-week follow-up. A non-inferiority margin of -5 units was used.||19.79|4.05|
92305038|NCT01055132|184512606|NON_INFERIORITY_OR_EQUIVALENCE|Based on historical data, a minimum of 42 subjects is needed to achieve a minimum of 80% power with 0.05 type I error.|least-square mean difference|7.7|STANDARD_ERROR_OF_MEAN|3.55|||TWO_SIDED|95.0|0.58|14.8|||linear mixed model|Sequence of lens wear, lens period and lens type were included in the model as fixed effects; and site and patient as random effects.|Comparison between study lenses was carried out using 2-sided 95% confidence interval of the least-square mean difference (test minus control). The non-inferiority was concluded if the lower limit of the confidence interval is higher than -5.|Ho:The test lens is non-inferior to the active comparator lens for overall quality of vision at 1-week follow-up. A non-inferiority margin of -5 units was used.||14.80|0.58|
92305039|NCT00158600|184512608|SUPERIORITY_OR_OTHER||Difference|28.12||||0.0347||95.0|2.07|54.17||The threshold for determining statistical significance is 0.05. A fixed testing sequence procedure was used to preserve an overall error rate of 5% for the co-primary efficacy endpoints by linking the test of FVC to the result of 6MWT.|ANCOVA|||The difference between alglucosidase alfa and placebo treatment groups in change in distance walked from baseline to last observation was estimated by ANCOVA after adjusting for baseline value and randomization strata.||54.17|2.07|0.0347
92305040|NCT00158600|184512609|SUPERIORITY_OR_OTHER||Difference|3.4||||0.0055||95.0|1.03|5.77||The threshold for determining statistical significance is 0.05. A fixed testing sequence procedure was used to preserve an overall error rate of 5% for the co-primary efficacy endpoints by linking the test of FVC to the result of 6MWT.|ANCOVA|||The difference between alglucosidase alfa and placebo treatment groups in change in % predicted FVC from baseline to last observation was estimated by ANCOVA after adjusting for baseline value and randomization strata.||5.77|1.03|0.0055
92305041|NCT00158600|184512610|SUPERIORITY_OR_OTHER||Difference|3.18||||0.1093||95.0|-0.73|7.08||The threshold for determining statistical significance is 0.05. No adjustment for multiple comparison was made for secondary efficacy endpoints.|ANCOVA|||The difference between alglucosidase alfa and placebo treatment groups in change in QMT from baseline to last observation was estimated by ANCOVA after adjusting for baseline value and randomization strata.||7.08|-0.73|0.1093
92305042|NCT00158600|184512611|SUPERIORITY_OR_OTHER||Difference|-0.37||||0.8333||95.0|-3.83|3.09||The threshold for determining statistical significance is 0.05. No adjustment for multiple comparison was made for secondary efficacy endpoints.|ANCOVA|||The difference between alglucosidase alfa and placebo treatment groups in change in PCS from baseline to last observation was estimated by ANCOVA after adjusting for baseline value and randomization strata.||3.09|-3.83|0.8333
92305043|NCT00910091|184512685|SUPERIORITY_OR_OTHER|||||||0.1895|TWO_SIDED||||||Kaplan-Meier Analysis|||||||0.1895
92305044|NCT00910091|184512686|SUPERIORITY_OR_OTHER|||||||0.0203|TWO_SIDED||||||Kaplan-Meier Analysis|||||||0.0203
92305045|NCT00910091|184512688|SUPERIORITY_OR_OTHER|||||||0.698|TWO_SIDED||||||Kaplan-Meier Analysis|||||||0.6980
92305046|NCT00910091|184512689|SUPERIORITY_OR_OTHER|||||||0.3078|TWO_SIDED||||||Kaplan-Meier Analysis|||||||0.3078
92305047|NCT00910091|184512690|SUPERIORITY_OR_OTHER|||||||0.0484|TWO_SIDED||||||Kaplan-Meier Analysis|||||||0.0484
92305048|NCT01659866|184512700|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92305049|NCT02618408|184512709|SUPERIORITY||Median Difference (Net)|-7.08||||0.0916|TWO_SIDED|95.0|-15.38|1.22|||Wilcoxon (Mann-Whitney)|||||1.22|-15.38|0.0916
92305050|NCT02618408|184512709|SUPERIORITY||Median Difference (Net)|-1.76||||0.7136|TWO_SIDED|95.0|-11.78|8.27|||Wilcoxon (Mann-Whitney)|||Based on the results of a prespecified interim analysis, the enrollment of the low dose SPN-810 arm was halted, and this treatment arm was dropped. Accordingly, all analysis of primary and secondary endpoints focused on the comparison of SPN-810 high dose and placebo||8.27|-11.78|0.7136
92305051|NCT02618408|184512710|SUPERIORITY|This analysis pertains to Visit 4|Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.108||0.0238|TWO_SIDED|95.0|-0.46|-0.03|||Mixed Models Analysis|||||-0.03|-0.46|0.0238
92305052|NCT02618408|184512710|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.123||0.0683|TWO_SIDED|95.0|-0.47|0.02|||Mixed Models Analysis|||This analysis pertains to Visit 5||0.02|-0.47|0.0683
92305053|NCT02618408|184512710|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.136||0.0742|TWO_SIDED|95.0|-0.51|0.02|||Mixed Models Analysis|||This analysis pertains to Visit 6||0.02|-0.51|0.0742
92305054|NCT02618408|184512711|SUPERIORITY|This analysis pertains to Visit 4|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.105||0.3713|TWO_SIDED|95.0|-0.3|0.11|||Mixed Models Analysis|||||0.11|-0.30|0.3713
92305055|NCT02618408|184512711|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.131||0.1367|TWO_SIDED|95.0|-0.45|0.06|||Mixed Models Analysis|||This analysis pertains to Visit 5||0.06|-0.45|0.1367
92305056|NCT02618408|184512711|SUPERIORITY||Median Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.146||0.1729|TWO_SIDED|95.0|-0.49|0.09|||Mixed Models Analysis|||This analysis pertains to Visit 6||0.09|-0.49|0.1729
92305057|NCT02618408|184512712|SUPERIORITY||Mean Difference (Net)|2.15|STANDARD_ERROR_OF_MEAN|1.456||0.1407|TWO_SIDED|95.0|-0.72|5.02|||ANCOVA|||This analysis pertains to the physical functioning summary score at Visit 6.||5.02|-0.72|0.1407
92305058|NCT02618408|184512712|SUPERIORITY||Mean Difference (Net)|-0.53|STANDARD_ERROR_OF_MEAN|0.898||0.5586|TWO_SIDED|95.0|-2.29|1.24|||ANCOVA|||This analysis pertains to the psychosocial health summary score at Visit 6||1.24|-2.29|0.5586
92305059|NCT02618408|184512713|SUPERIORITY||Median Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|2.07||0.7637|TWO_SIDED|95.0|-4.7|3.45|||ANCOVA|||This analysis pertains to the Total Stress summary score Visit 6.||3.45|-4.70|0.7637
92188160|NCT05129592|184274482|SUPERIORITY||Odds Ratio (OR)|1.45|STANDARD_ERROR_OF_MEAN|0.74||0.464|TWO_SIDED|95.0|0.54|3.93|||Regression, Logistic||Odds of believing smokeless tobacco is less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless relative harm beliefs controlling for baseline beliefs and smokeless tobacco use||3.93|0.54|0.464
92188161|NCT05129592|184274482|SUPERIORITY||Odds Ratio (OR)|0.5|STANDARD_ERROR_OF_MEAN|0.26||0.187|TWO_SIDED|95.0|0.18|1.4|||Regression, Logistic||Odds of believing smokeless tobacco is less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless relative harm beliefs controlling for baseline beliefs and smokeless tobacco use||1.40|0.18|0.187
92305060|NCT02618408|184512713|SUPERIORITY||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.895||0.8365|TWO_SIDED|95.0|-1.95|1.58|||ANCOVA|||This analysis pertains to the Parental Distress Domain score at Visit 6.||1.58|-1.95|0.8365
92305061|NCT02618408|184512713|SUPERIORITY||Mean Difference (Net)|-0.61|STANDARD_ERROR_OF_MEAN|0.829||0.4606|TWO_SIDED|95.0|-2.24|1.02|||ANCOVA|||This analysis pertains to the Parent-Child Dysfunctional Interaction score at Visit 6.||1.02|-2.24|0.4606
92305062|NCT02618408|184512713|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.837||0.8222|TWO_SIDED|95.0|-1.84|1.46|||ANCOVA|||This analysis pertains to the Difficult Child Domain score Visit 6.||1.46|-1.84|0.8222
92305063|NCT02618408|184512714|SUPERIORITY|This analysis pertains to Visit 4|Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.121||0.1031|TWO_SIDED|95.0|-0.43|0.04|||Mixed Models Analysis|||||0.04|-0.43|0.1031
92305064|NCT02618408|184512714|SUPERIORITY|This analysis pertains to Visit 5|Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.132||0.025|TWO_SIDED|95.0|-0.56|-0.04|||Mixed Models Analysis|||||-0.04|-0.56|0.0250
92305065|NCT02618408|184512714|SUPERIORITY|This analysis pertains to Visit 6|Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.158||0.0384|TWO_SIDED|95.0|-0.64|-0.02|||Mixed Models Analysis|||||-0.02|-0.64|0.0384
92305066|NCT02618408|184512715|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.084||0.1935|TWO_SIDED|95.0|-0.27|0.06|||ANCOVA|||This analysis pertains to the inattention subscale at Visit 6.||0.06|-0.27|0.1935
92305067|NCT02618408|184512715|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.092||0.1445|TWO_SIDED|95.0|-0.32|0.05|||ANCOVA|||This analysis pertains to hyperactivity/Impulsivity subscale at Visit 6||0.05|-0.32|0.1445
92305068|NCT02618408|184512715|SUPERIORITY||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.1064|TWO_SIDED|95.0|-0.36|0.03|||ANCOVA|||This analysis pertains to the oppositional defiant disorder subscale at Visit 6||0.03|-0.36|0.1064
92305069|NCT02618408|184512715|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.082||0.1418|TWO_SIDED|95.0|-0.28|0.04|||ANCOVA|||This analysis pertains to the combined scale score at Visit 6||0.04|-0.28|0.1418
92305070|NCT04870138|184512716|OTHER|||||||1||||||One-sided Fisher's Exact Test with alpha = 0.05|Fisher Exact|||||||1.000
92188162|NCT05129592|184274483|SUPERIORITY||Odds Ratio (OR)|1.06|STANDARD_ERROR_OF_MEAN|0.66||0.925|TWO_SIDED|95.0|0.31|3.62|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the control condition/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs||3.62|0.31|0.925
92305071|NCT04870138|184512718|OTHER||||||<|0.0001|||||||t-test, 1 sided|One-sided single sample t-test with alpha=0.05||Null hypothesis: The proportion of the strain in the inoculum = 0.5||||<0.0001
92305072|NCT03914950|184512766|OTHER|"The calculation of power and sample size is based on a formula that selects the sample size so that the lower limit of the 95% confidence interval by the expected specificity of the new method most probably exceeds the specificity value of the current method.~Receiver operating characteristics (ROC) analysis of the values of SUVmax of the early and delayed images with and without TOF of all pancreatic lesions was done in correlation with the histopathological findings."||||||0.78|||||||DeLong-test|The threshold for statistical significance was p=0.05.||It was calculated that 118 participants would have at least 90% power to demonstrate an improvement in specificity of 25% (to 70%) with the new method assuming a specificity of the current method of 45% at a prevalence of malignant lesions of 70% (corresponding to 30% benign lesions). Assumptions included a discontinuation rate of 25%.||||0.78
92305073|NCT03914950|184512766|OTHER|||||||0.95|||||||DeLong-test|The threshold for statistical significance was p=0.05.||||||0.95
92305074|NCT03397771|184512771|OTHER||Odds Ratio (OR)|1.0||||0.963|TWO_SIDED||||||Regression, Logistic|||||||0.963
92305075|NCT03397771|184512772|NON_INFERIORITY|The analysis was conducted according to the nul hypothesis, assuming no difference between treatment arms||||||0.022|||||||ANCOVA|||||||0.022
92305076|NCT01355159|184512856|SUPERIORITY||Risk Ratio (RR)|1.1||||0.37|TWO_SIDED|95.0|0.9|1.34|||Chi-squared|||||1.34|0.90|0.37
92305077|NCT01355159|184512858|SUPERIORITY||Risk Ratio (RR)|1.29||||0.37|TWO_SIDED|95.0|0.74|2.28|||Chi-squared|||||2.28|0.74|0.37
92305078|NCT01355159|184512859|SUPERIORITY||Risk Ratio (RR)|0.64||||0.21|TWO_SIDED|95.0|0.31|1.31|||Chi-squared|||||1.31|0.31|0.21
92305079|NCT01355159|184512860|SUPERIORITY||Risk Ratio (RR)|0.97||||0.71|TWO_SIDED|95.0|0.82|1.15|||Chi-squared|||||1.15|0.82|0.71
92188163|NCT05129592|184274483|SUPERIORITY||Odds Ratio (OR)|0.66|STANDARD_ERROR_OF_MEAN|0.43||0.525|TWO_SIDED|95.0|0.19|2.35|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs||2.35|0.19|0.525
92188164|NCT05129592|184274483|SUPERIORITY||Odds Ratio (OR)|0.71|STANDARD_ERROR_OF_MEAN|0.44||0.586|TWO_SIDED|95.0|0.21|2.4|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs||2.40|0.21|0.586
92188165|NCT05129592|184274483|SUPERIORITY||Odds Ratio (OR)|1.1|STANDARD_ERROR_OF_MEAN|0.71||0.883|TWO_SIDED|95.0|0.31|3.9|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the control condition/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs controlling for smokeless tobacco use||3.90|0.31|0.883
92188166|NCT05129592|184274483|SUPERIORITY||Odds Ratio (OR)|0.66|STANDARD_ERROR_OF_MEAN|0.44||0.534|TWO_SIDED|95.0|0.18|2.41|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs controlling for smokeless tobacco use||2.41|0.18|0.534
92188167|NCT05129592|184274483|SUPERIORITY||Odds Ratio (OR)|0.76|STANDARD_ERROR_OF_MEAN|0.48||0.661|TWO_SIDED|95.0|0.22|2.62|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs controlling for smokeless tobacco use||2.62|0.22|0.661
92188168|NCT05129592|184274484|SUPERIORITY||Mean Difference (Final Values)|1.97|STANDARD_ERROR_OF_MEAN|4.66||0.965|TWO_SIDED|95.0|-9.25|13.19|||ANCOVA|Sidak's adjusted p-value (df=4)|Nicotine corrective control - Nicotine corrective with both components of coherence|ANCOVA adjusted for baseline consideration of switching||13.19|-9.25|0.965
92188169|NCT05129592|184274484|SUPERIORITY||Mean Difference (Final Values)|1.57|STANDARD_ERROR_OF_MEAN|4.44||0.979|TWO_SIDED|95.0|-9.13|12.27|||ANCOVA|Sidak's adjusted p-value (df=4)||ANCOVA adjusted for baseline consideration of switching|Nicotine corrective with causal explanation - Nicotine corrective with both components of coherence|12.27|-9.13|0.979
92188170|NCT05129592|184274484|SUPERIORITY||Mean Difference (Final Values)|4.07|STANDARD_ERROR_OF_MEAN|4.37||0.73|TWO_SIDED|95.0|-6.46|14.59|||ANCOVA|Sidak's adjusted p-value (df=4)||ANCOVA adjusted for baseline consideration of switching|Nicotine corrective with reason for misperception - Nicotine corrective with both components of coherence|14.59|-6.46|0.73
92188171|NCT03512041|184274489|SUPERIORITY|||||||0.172|||||||ANOVA|||||||0.172
92188172|NCT03512041|184274490|SUPERIORITY|||||||0.169|||||||ANOVA|||||||0.169
92188173|NCT03512041|184274491|SUPERIORITY|||||||0.501|||||||ANOVA|||||||0.501
92188174|NCT00331799|184274504|SUPERIORITY_OR_OTHER|||||||0.00365|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Signed Rank test on the difference between the baseline and endpoint score on the CD-RISC.||||0.00365
92305080|NCT01355159|184512861|SUPERIORITY||Risk Ratio (RR)|0.99||||0.87|TWO_SIDED|95.0|0.86|1.13|||Chi-squared|||||1.13|0.86|0.87
92305081|NCT01355159|184512862|SUPERIORITY||Risk Ratio (RR)|1.21||||0.75|TWO_SIDED|95.0|0.37|3.96|||Chi-squared|||||3.96|0.37|0.75
92305082|NCT01355159|184512863|SUPERIORITY||Risk Ratio (RR)|1.52||||0.19|TWO_SIDED|95.0|0.81|2.84|||Chi-squared|||||2.84|0.81|0.19
92305083|NCT01355159|184512864|SUPERIORITY||Mean Difference (Final Values)|0.34|STANDARD_DEVIATION|7.0||0.61|TWO_SIDED|95.0|-0.96|1.63|||t-test, 2 sided|||||1.63|-0.96|0.61
92305084|NCT01355159|184512865|SUPERIORITY||Risk Ratio (RR)|0.6||||0.14|TWO_SIDED|95.0|0.3|1.19|||Chi-squared|||||1.19|0.30|0.14
92305085|NCT01355159|184512866|SUPERIORITY||Risk Ratio (RR)|0.76||||0.37|TWO_SIDED|95.0|0.41|1.39|||Chi-squared|||||1.39|0.41|0.37
92305086|NCT01355159|184512867|SUPERIORITY||Risk Ratio (RR)|1.03||||0.82|TWO_SIDED|95.0|0.81|1.3|||Chi-squared|||||1.30|0.81|0.82
92188175|NCT02889809|184274505|OTHER||Least Square (LS) Mean Difference|-0.16|||||TWO_SIDED|95.0|-0.462|0.142|||||Analysis was performed using an analysis of covariance (ANCOVA) model adjusting for Baseline growth velocity, age at Visit 1, gender and country.|||0.142|-0.462|
92305087|NCT01355159|184512868|SUPERIORITY||Risk Ratio (RR)|0.87||||0.79|TWO_SIDED|95.0|0.31|2.44|||Chi-squared|||||2.44|0.31|0.79
92305088|NCT01355159|184512869|SUPERIORITY||Risk Ratio (RR)|0.63||||0.07|TWO_SIDED|95.0|0.37|1.05|||Chi-squared|||||1.05|0.37|0.07
92305089|NCT01355159|184512870|SUPERIORITY||Risk Ratio (RR)|1.2||||0.65|TWO_SIDED|95.0|0.54|2.66|||Chi-squared|||||2.66|0.54|0.65
92305090|NCT01355159|184512871|SUPERIORITY||Risk Ratio (RR)|0.34||||0.1|TWO_SIDED|95.0|0.09|1.23|||Chi-squared|||||1.23|0.09|0.10
92305091|NCT01355159|184512872|SUPERIORITY||Risk Ratio (RR)|2.04||||0.33|TWO_SIDED|95.0|0.49|8.57|||Chi-squared|||||8.57|0.49|0.33
92305092|NCT01355159|184512873|SUPERIORITY||Risk Ratio (RR)|0.97||||0.94|TWO_SIDED|95.0|0.47|2.0|||Chi-squared|||||2.00|0.47|0.94
92305093|NCT01355159|184512874|SUPERIORITY||Risk Ratio (RR)|1.61||||0.06|TWO_SIDED|95.0|0.97|2.66|||Chi-squared|||||2.66|0.97|0.06
92305094|NCT01355159|184512875|SUPERIORITY||Risk Ratio (RR)|2.37||||0.21|TWO_SIDED|95.0|0.61|9.14|||Chi-squared|||||9.14|0.61|0.21
92305095|NCT01355159|184512876|SUPERIORITY||Risk Ratio (RR)|1.2||||0.38|TWO_SIDED|95.0|0.8|1.8|||Chi-squared|||||1.80|0.80|0.38
92305096|NCT01355159|184512877|SUPERIORITY||Mean Difference (Net)|-1.6||||46|TWO_SIDED|95.0|-5.84|2.64|||t-test, 2 sided|||||2.64|-5.84|046
92305097|NCT01355159|184512878|SUPERIORITY||Risk Ratio (RR)|0.87||||0.79|TWO_SIDED|95.0|0.31|2.44|||Chi-squared|||||2.44|0.31|0.79
92305098|NCT01355159|184512879|SUPERIORITY||Risk Ratio (RR)|2.0||||0.42|TWO_SIDED|95.0|0.37|10.92|||Chi-squared|||||10.92|0.37|0.42
92188176|NCT02889809|184274508|OTHER||LS Mean Difference|0.059|||||TWO_SIDED|95.0|-0.455|0.572|||||Analysis was performed using an ANCOVA model adjusting for Baseline growth velocity, age at Visit 1(wk -16), gender and country|||0.572|-0.455|
92305099|NCT03276221|184512881|SUPERIORITY||Slope|-0.19|STANDARD_ERROR_OF_MEAN|0.15||0.215|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the paired associates learning module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making an error for the abstinence group above and beyond the monitoring group (positive values indicate higher error commission for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.215
92305100|NCT03276221|184512882|SUPERIORITY||Slope|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.495|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the paired associates learning module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of picking the correct box for the abstinence group above and beyond the monitoring group (positive values indicate better memory performance for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.495
92305101|NCT03276221|184512883|SUPERIORITY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.14||0.05|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the spatial span module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of reaching a longer span for the abstinence group above and beyond the monitoring group (positive values indicate higher span lengths for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.050
92305102|NCT03276221|184512884|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.12||0.532|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the spatial span module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of reaching a longer span for the abstinence group above and beyond the monitoring group (positive values indicate higher span lengths for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.532
92305103|NCT03276221|184512885|SUPERIORITY||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.07||0.226|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the verbal recognition memory module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making a correct choice for the abstinence group above and beyond the monitoring group (positive values indicate higher memory performance for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.226
92305104|NCT03276221|184512886|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.09||0.369|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the verbal recognition memory module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making a correct choice for the abstinence group above and beyond the monitoring group (positive values indicate higher memory performance for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.369
92188177|NCT04694300|184274512|SUPERIORITY|Lower the maximum pain intensity score the more effective the analgesic|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92188178|NCT04694300|184274513|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92188179|NCT04694300|184274514|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
92188180|NCT04694300|184274515|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92305105|NCT03276221|184512887|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.647|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the verbal recognition memory module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making a correct choice for the abstinence group above and beyond the monitoring group (positive values indicate higher memory performance for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.647
92305106|NCT03276221|184512888|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.511|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the verbal recognition memory module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making a correct choice for the abstinence group above and beyond the monitoring group (positive values indicate higher memory performance for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.511
92305107|NCT03276221|184512889|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.12||0.312|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the multitasking test module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making an error for the abstinence group above and beyond the monitoring group (positive values indicate higher error commission for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.312
92305108|NCT03276221|184512890|SUPERIORITY||Slope|1.92|STANDARD_ERROR_OF_MEAN|9.27||0.836|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the multitasking test module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the median response latency for the abstinence group above and beyond the monitoring group (positive values indicate higher slower responses for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.836
92188181|NCT04694300|184274518|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
92188182|NCT04694300|184274519|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92188183|NCT04694300|184274520|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|Higher percentage inhibition relates to greater selectivity for COX-2||||||0.59
92188184|NCT04694300|184274521|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
92305109|NCT03276221|184512891|SUPERIORITY||Slope|-0.5|STANDARD_ERROR_OF_MEAN|3.93||0.898|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the multitasking test module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the median incongruency cost for the abstinence group above and beyond the monitoring group (positive values indicate higher costs for incongruent trials for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.898
92188185|NCT00113880|184274529|SUPERIORITY_OR_OTHER|||||||0.01||||||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Exact method or Cox model|||Breast lump/cyst event rates were presented per 1,000 person-months. If the control group has no event, the relative risk (RR) or hazard ratio (HR) is not estimable.||||0.01
92188186|NCT00113880|184274529|SUPERIORITY_OR_OTHER|||||||0.01||||||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Exact method or Cox model|||Breast lump/cyst event rates were presented per 1,000 person-months. If the control group has no event, the RR or HR is not estimable.||||0.01
92188187|NCT00113880|184274529|SUPERIORITY_OR_OTHER|||||||0.02||||||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Exact method or Cox model|||Breast lump/cyst event rates were presented per 1,000 person-months. If the control group has no event, the RR or HR is not estimable.||||0.02
92188188|NCT00113880|184274529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.59||||0.02|TWO_SIDED|95.0|0.64|3.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Mastitis event rates were presented per 1,000 person-months.||3.92|0.64|0.02
92188189|NCT00113880|184274529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.35||||0.01|TWO_SIDED|95.0|2.2|24.54||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Mastitis event rates were presented per 1,000 person-months.||24.54|2.20|0.01
92188190|NCT00113880|184274529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.17||||0.01|TWO_SIDED|95.0|2.13|24.13||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Mastitis event rates were presented per 1,000 person-months.||24.13|2.13|0.01
92305110|NCT03276221|184512892|SUPERIORITY||Slope|16.54|STANDARD_ERROR_OF_MEAN|9.05||0.068|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the multitasking test module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the multitasking cost for the abstinence group above and beyond the monitoring group (positive values indicate higher costs for multitasking trials for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.068
92305111|NCT03276221|184512893|SUPERIORITY||Slope|0.15|STANDARD_ERROR_OF_MEAN|0.1||0.15|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the one touch stockings of Cambridge module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making a correct response for the abstinence group above and beyond the monitoring group (positive values indicate higher accuracy for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.150
92305112|NCT03276221|184512894|SUPERIORITY||Slope|179.11|STANDARD_ERROR_OF_MEAN|281.76||0.525|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the one touch stockings of Cambridge module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making an error for the abstinence group above and beyond the monitoring group (positive values indicate higher error commission for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.525
92188191|NCT00113880|184274530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.05||||0.03|TWO_SIDED|95.0|0.0|0.79||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Heart murmur event rates were presented per 1,000 person-months.||0.79|0.00|0.03
92188192|NCT00113880|184274530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.13||||0.05|TWO_SIDED|95.0|0.02|1.0||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox|||Heart murmur event rates were presented per 1,000 person-months.||1.00|0.02|0.05
92188193|NCT00113880|184274530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.11||||0.04|TWO_SIDED|95.0|0.01|0.86||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Heart murmur event rates were presented per 1,000 person-months.||0.86|0.01|0.04
92188194|NCT00113880|184274530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.37||||0.01|TWO_SIDED|95.0|0.2|0.7||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population was the 18-49 year age group.|Pregnancy exam/supervision event rates were presented per 1,000 person-months.||0.70|0.20|0.01
92188195|NCT00113880|184274530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.01|TWO_SIDED|95.0|0.22|0.74||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population was the all ages combined group.|Pregnancy exam/supervision event rates were presented per 1,000 person-months.||0.74|0.22|0.01
92188196|NCT00113880|184274530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.05||||0.01|TWO_SIDED|95.0|0.03|0.08||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population was the 18-49 year age and the all ages combined groups.|Pregnancy exam/supervision event rates were presented per 1,000 person-months.||0.08|0.03|0.01
92188197|NCT00113880|184274530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.02||||0.01|TWO_SIDED|95.0|0.01|0.03|||Regression, Cox||Population was the 18-49 year age and all ages combined groups.|Pregnancy exam/supervision event rates were presented per 1,000 person-months.||0.03|0.01|0.01
92188198|NCT00113880|184274531|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.06||||0.04|TWO_SIDED|95.0|1.02|4.13||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Urticaria event rates were presented per 1,000 person-months.||4.13|1.02|0.04
92188199|NCT00113880|184274533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.71||||0.01|TWO_SIDED|95.0|0.56|0.89||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages combined within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.89|0.56|0.01
92188200|NCT00113880|184274533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.59||||0.01|TWO_SIDED|95.0|0.41|0.83||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 years within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.83|0.41|0.01
92188201|NCT00113880|184274533|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.68||||0.04|TWO_SIDED|95.0|0.46|0.99||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49 years within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in unvaccinated controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.99|0.46|0.04
92188202|NCT00113880|184274534|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.33||||0.01|TWO_SIDED|95.0|0.27|0.41||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages combined within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.41|0.27|0.01
92188203|NCT00113880|184274534|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3||||0.01|TWO_SIDED|95.0|0.22|0.42||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 years within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months||0.42|0.22|0.01
92188204|NCT00113880|184274534|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.34||||0.01|TWO_SIDED|95.0|0.24|0.47||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 years within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.47|0.24|0.01
92188205|NCT00113880|184274534|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.42||||0.01|TWO_SIDED|95.0|0.23|0.75||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49 years within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.75|0.23|0.01
92188206|NCT00113880|184274534|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.38||||0.01|TWO_SIDED|95.0|0.33|0.44||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages combined within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.44|0.33|0.01
92188207|NCT00113880|184274534|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4||||0.01|TWO_SIDED|95.0|0.32|0.5||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 years within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.50|0.32|0.01
92188208|NCT00113880|184274534|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.36||||0.01|TWO_SIDED|95.0|0.28|0.45||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 years within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.45|0.28|0.01
92188209|NCT00113880|184274534|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.41||||0.01|TWO_SIDED|95.0|0.27|0.6||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49 years within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.60|0.27|0.01
92267143|NCT02203305|184435457|SUPERIORITY||||||<|0.935||||||Percent correct converted to rationalized arcsine units (RAU) prior to analysis.|ANOVA|Main effects: condition (p=0.018), interval (p=0.012), and masker (p\<0.001). Interactions: interval and masker (p\<0.001). Other interactions: p\>0.117.||A repeated-measures ANOVA assessed the effects of condition (unaided, bone-conduction device), interval (preoperative, 12-month), and masker condition and their 2-way and 3-way interactions on speech recognition in noise.||||<0.935
92188210|NCT00113880|184274534|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.47||||0.05|TWO_SIDED|95.0|0.21|0.99||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 years, PD2 within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.99|0.21|0.05
92188211|NCT00113880|184274535|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.01|TWO_SIDED|95.0|0.86|0.98||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages combined, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.98|0.86|0.01
92267144|NCT02203305|184435457|SUPERIORITY||||||<|0.977||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|Effects: interval (p=0.012) and masker (p\<0.001). Interactions: interval\&masker (p=0.020) \& condition, interval, \&masker (p=0.035). Others: (p\>0.131).||A repeated-measures ANOVA assessed the effects of condition (unaided, bone-conduction device), interval (preoperative, 12-month), and masker condition and their 2-way and 3-way interactions on speech recognition in noise.||||<0.977
92267145|NCT03586427|184435458|OTHER|Mixed model of repeated measures least square estimates of change compared to placebo|||||>|0.05||||||Comparison of each dose level change from baseline to placebo baseline yielded P values \>0.05|Mixed Models Analysis|||Each dose group was compared to placebo||||>0.05
92267146|NCT03478982|184435472|SUPERIORITY||Difference in percentage|23.3|||=|0.0392|TWO_SIDED|95.0|1.8|44.8|||Chi-squared|||||44.8|1.8|=0.0392
92267147|NCT03478982|184435472|SUPERIORITY||Difference in percentage|23.3|||=|0.0392|TWO_SIDED|95.0|1.8|44.8|||Chi-squared|||||44.8|1.8|=0.0392
92188212|NCT00113880|184274535|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.01|TWO_SIDED|95.0|0.75|0.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 yrs., within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months||0.92|0.75|0.01
92188213|NCT00113880|184274535|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87||||0.01|TWO_SIDED|95.0|0.81|0.94||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: All ages, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.94|0.81|0.01
92188214|NCT00113880|184274535|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79||||0.01|TWO_SIDED|95.0|0.7|0.88||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.88|0.70|0.01
92188215|NCT00113880|184274535|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49||||0.01|TWO_SIDED|95.0|0.29|0.79||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8yrs, within 180 days, PD2. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.79|0.29|0.01
92188216|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.48||||0.01|TWO_SIDED|95.0|0.45|0.51||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages combined, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.51|0.45|0.01
92188217|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.51||||0.01|TWO_SIDED|95.0|0.47|0.56||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months||0.56|0.47|0.01
92188218|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.42||||0.01|TWO_SIDED|95.0|0.38|0.46||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.46|0.38|0.01
92188219|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.57||||0.01|TWO_SIDED|95.0|0.49|0.67||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.67|0.49|0.01
92188220|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.51||||0.01|TWO_SIDED|95.0|0.33|0.76||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 yrs, within 180 days, PD2. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.76|0.33|0.01
92188221|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.42||||0.01|TWO_SIDED|95.0|0.39|0.45||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates event rates were presented per 1,000 person-months.||0.45|0.39|0.01
92188222|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.42||||0.01|TWO_SIDED|95.0|0.38|0.47||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.47|0.38|0.01
92188223|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.37||||0.01|TWO_SIDED|95.0|0.34|0.41||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.41|0.34|0.01
92188224|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.58||||0.05|TWO_SIDED|95.0|0.49|0.68||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.68|0.49|0.05
92188225|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.28||||0.01|TWO_SIDED|95.0|0.15|0.52||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 yrs, within 180 days, PD2. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/Rad event rates were presented per 1,000 person-months.||0.52|0.15|0.01
92188226|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75||||0.01|TWO_SIDED|95.0|0.66|0.85||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Wheezing/SOB event rates were presented per 1,000 person-months.||0.85|0.66|0.01
92188227|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.02|TWO_SIDED|95.0|0.7|0.97||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Wheezing/SOB event rates were presented per 1,000 person-months.||0.97|0.70|0.02
92188228|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.72||||0.01|TWO_SIDED|95.0|0.58|0.88||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Wheezing/SOB event rates were presented per 1,000 person-months.||0.88|0.58|0.01
92188229|NCT00113880|184274536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.47||||0.01|TWO_SIDED|95.0|0.27|0.78||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Wheezing/SOB event rates were presented per 1,000 person-months.||0.78|0.27|0.01
92267148|NCT00593385|184435477|OTHER||Meta-Analysis|9.67||||0.005|ONE_SIDED|95.0||16.57||An exact one sided upper 95% confidence interval of the primary endpoint rate was calculated based on primary analysis population.|Exact test of the binomial distribution||To estimate primary endpoint rate, a meta-analysis was performed on data from 3 previous studies. The meta-analytical rate derived was 9.67%|The composite event rate to determine the performance metric of 16.57% was based on a meta-analysis performed on data from 3 previous studies(9.67%). A 6.9% margin was deemed acceptable at the time of study design. Rejection of the null hypothesis requires that the iCAST Covered Stent primary endpoint rate was significantly below 16.57%. Other assumptions for the analysis included a power of 80% and one-sided alpha error of 5%.||16.57||0.005
92267149|NCT00924313|184435522|SUPERIORITY||||||<|0.0001||||||The reported p-value is representative of the difference in levels of the histopathologic confirmed tumor and normal prostate tissue.|Spearman rank correlation|||||||<0.0001
92267150|NCT00924313|184435522|SUPERIORITY|||||||0.65||||||The reported p-value is representative of the BPH high uptake level.|Spearman rank correlation|||||||0.65
92267151|NCT00924313|184435525|SUPERIORITY|||||||0.55|||||||Spearman rank correlation|||||||0.55
92267152|NCT00924313|184435527|SUPERIORITY|||||||0.407|||||||Spearman rank correlation|||||||0.407
92267153|NCT01207219|184435535|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||The p-value for statistical significance in these analyses was 0.01 adjusted for multiple comparisons .|Mixed Models Analysis|mixed-model analysis with a repeated-measures approach including an unstructured variance matrix||Data analysis was based on the Intention-to-Treatment (ITT) method. Differences between the three intervention groups over time (baseline and 12 weeks) were assessed with a Group x Time interaction term. A priori comparisons of the active intervention groups with the waitlist group were carried out with the same strategy if analyses including all the three groups meet the criterion of statistical significance (P\<0.01).||||<0.01
92267154|NCT00766727|184435540|SUPERIORITY||Mean Difference (Final Values)|-31.88|STANDARD_DEVIATION|14.25|||TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||
92267155|NCT01353586|184435545|SUPERIORITY_OR_OTHER||Proportion of events|71.6|||||TWO_SIDED|95.0|63.3|79.8|||||The above supplemental analysis is to estimate the rate of subjects without documented symptomatic AF at Day 240 using the Kaplan-Meier time-to-event analysis method to accommodate the censored information from the two withdrawn subjects.|||79.8|63.3|
92267156|NCT03992456|184435552|SUPERIORITY|||||||0.5126|||||||Un-Stratified Log-rank|||||||0.5126
92267157|NCT03992456|184435553|SUPERIORITY|||||||0.1512|||||||Un-Stratified Log-rank|||||||0.1512
92267158|NCT03992456|184435554|SUPERIORITY|||||||0.2506|||||||Chi-squared|||||||0.2506
92267159|NCT03992456|184435555|SUPERIORITY|||||||0.8865|||||||Chi-squared|||||||0.8865
92267160|NCT03992456|184435556|SUPERIORITY|||||||0.5455|||||||Fisher Exact|||||||0.5455
92267161|NCT01068418|184435561|SUPERIORITY_OR_OTHER||||||<|0.05||||||Threshold for significance was P\<0.05.|Mixed Models Analysis|||A repeated measures regression analysis model was used to examine the effect of vitamin D3 therapy on the mean arterial pressure (mean of five measurements at each time point) before and during angiotensin II infusions, before and after vitamin D3 therapy.||||<0.05
92267162|NCT01068418|184435562|SUPERIORITY_OR_OTHER||||||<|0.01||||||threshold for significance was P\<0.05.|Mixed Models Analysis|||A repeated measures regression analysis model was used to examine the effect of vitamin D3 therapy on the renal plasma flow (mean of three measurements at each time point) before and during angiotensin II infusions, before and after vitamin D3 therapy.||||<0.01
92267163|NCT00326625|184435569|SUPERIORITY||Slope difference|-0.06|STANDARD_ERROR_OF_MEAN|0.083||0.4807|TWO_SIDED|95.0|-0.22|0.1|||ANCOVA||Glatiramer acetate vs. Placebo|Analysis compares the ALSFRS-R slopes of change from baseline between treatment groups. Analysis includes the following covariates: time from randomization, treatment group, time by treatment interaction, center, Riluzole use, age, site of ALS onset, time from ALS onset and baseline ALSFRS-R score.||0.10|-0.22|0.4807
92267164|NCT00326625|184435570|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.8583|TWO_SIDED|95.0|0.56|2.005|||Regression, Cox||Glatiramer acetate vs. Placebo|Analysis covariates are center, riluzole use, site of ALS onset, time from ALS onset, baseline ALSFRS-R score, baseline slow vital capacity (VC) and baseline body mass index (BMI).||2.005|0.560|0.8583
92267165|NCT00761085|184435694|OTHER|No statistical comparisons||||||||||||||||"No statistical comparisons of methadone concentration in patients receiving methadone vs not receiving methadone (children or adults).~No statistical comparisons of methadone concentration in children vs adults"|No statistical comparisons|||
92267166|NCT00761085|184435695|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92188230|NCT00113880|184274537|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.0||||0.04|TWO_SIDED|95.0|0.0|0.82||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Encephalitis/encephalopathy event rates were presented per 1,000 person-months.||0.82|0.00|0.04
92188231|NCT00113880|184274538|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.01|TWO_SIDED|95.0|0.47|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.91|0.47|0.01
92188232|NCT00113880|184274538|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34||||0.01|TWO_SIDED|95.0|0.21|0.57||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox||Population: 18-49 yrs, within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.57|0.21|0.01
92188233|NCT00113880|184274538|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.01|TWO_SIDED|95.0|0.47|0.77||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.77|0.47|0.01
92188234|NCT00113880|184274538|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.01|TWO_SIDED|95.0|0.23|0.48||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 yrs, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.48|0.23|0.01
92188235|NCT00113880|184274539|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.01|TWO_SIDED|95.0|0.47|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.91|0.47|0.01
92188236|NCT00113880|184274539|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34||||0.01|TWO_SIDED|95.0|0.21|0.57||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox||Population: 18-49 yrs, within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.57|0.21|0.01
92188237|NCT00113880|184274539|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.01|TWO_SIDED|95.0|0.47|0.77||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.77|0.47|0.01
92188238|NCT00113880|184274539|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.01|TWO_SIDED|95.0|0.23|0.48||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 yrs, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.48|0.23|0.01
92188239|NCT00113880|184274540|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.01|TWO_SIDED|95.0|0.57|0.73||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.73|0.57|0.01
92188240|NCT00113880|184274540|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43||||0.01|TWO_SIDED|95.0|0.36|0.51||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox||Population: 18-49 yrs, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.51|0.36|0.01
92188241|NCT00113880|184274541|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||0.01|TWO_SIDED|95.0|0.26|0.33||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.33|0.26|0.01
92188242|NCT00113880|184274541|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.16||||0.01|TWO_SIDED|95.0|0.13|0.18||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox||Population: 18-49 yrs, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.18|0.13|0.01
92188243|NCT00113880|184274542|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.16||||0.04|TWO_SIDED|95.0|0.03|0.93||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Sinusitis event rates were presented per 1,000 person-months.||0.93|0.03|0.04
92305113|NCT03276221|184512895|SUPERIORITY||Slope|-10.86|STANDARD_ERROR_OF_MEAN|5.24||0.038|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the stop signal task module. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the inhibition latency for the abstinence group above and beyond the monitoring group (positive values indicate slower inhibition for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.038
92305114|NCT03276221|184512896|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.576|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the spatial working memory module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making an error for the abstinence group above and beyond the monitoring group (positive values indicate higher error commission for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.576
92305115|NCT03276221|184512897|SUPERIORITY||Slope|-0.15|STANDARD_ERROR_OF_MEAN|0.15||0.296|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the spatial working memory module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of trials with strategic responding for the abstinence group above and beyond the monitoring group (positive values indicate higher rates of strategic responding for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.296
92305116|NCT03276221|184512898|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.65|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the rapid visual information processing module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the discriminability measure for the abstinence group above and beyond the monitoring group (positive values indicate higher discriminability rates for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.650
92188244|NCT00113880|184274542|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.02|TWO_SIDED|95.0|0.4|0.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|URI event rates were presented per 1,000 person-months.||0.92|0.40|0.02
92188245|NCT00113880|184274542|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49||||0.01|TWO_SIDED|95.0|0.28|0.84||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 years, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|URI event rates were presented per 1,000 person-months.||0.84|0.28|0.01
92188246|NCT00113880|184274542|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||0.02|TWO_SIDED|95.0|0.1|0.78||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 years, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|URI event rates were presented per 1,000 person-months.||0.78|0.10|0.02
92188247|NCT00113880|184274542|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.78||||0.02|TWO_SIDED|95.0|0.63|0.96||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Any acute resp. tract event rates were presented per 1,000 person-months.||0.96|0.63|0.02
92188248|NCT00113880|184274542|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.69||||0.03|TWO_SIDED|95.0|0.5|0.97||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 years, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Any acute resp. tract event rates were presented per 1,000 person-months.||0.97|0.50|0.03
92188249|NCT00113880|184274542|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41||||0.01||95.0|0.21|0.79||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 years, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Any acute resp. tract event rates were presented per 1,000 person-months.||0.79|0.21|0.01
92305117|NCT03276221|184512899|SUPERIORITY||Slope|-11.64|STANDARD_ERROR_OF_MEAN|9.55||0.223|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the rapid visual information processing module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the median response latency for the abstinence group above and beyond the monitoring group (positive values indicate slower responses for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.223
92305118|NCT02615171|184512906|OTHER|||||||0.0106|||||||t-test, 2 sided|||||||0.0106
92305119|NCT02615171|184512907|OTHER|||||||0.0027|||||||Chi-squared|||||||0.0027
92305120|NCT02615171|184512908|OTHER|||||||0.7829|||||||Wilcoxon rank sum test|||||||0.7829
92188250|NCT00113880|184274543|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.95||||0.02|TWO_SIDED|95.0|1.14|3.34||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Sinusitis event rates were presented per 1,000 person-months.||3.34|1.14|0.02
92188251|NCT00113880|184274543|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Exact method or Cox model|||Irritable bowel syndrome event rates were presented per 1,000 person-months. If the control group has no event, the RR or HR is not estimable.||||0.02
92188252|NCT00113880|184274544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.01|TWO_SIDED|95.0|0.15|0.57||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.57|0.15|0.01
92188253|NCT00113880|184274544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.03|TWO_SIDED|95.0|0.12|0.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 5-8, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.92|0.12|0.03
92188254|NCT00113880|184274544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.01|TWO_SIDED|95.0|0.13|0.74||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.74|0.13|0.01
92188255|NCT00113880|184274544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.04|TWO_SIDED|95.0|0.55|0.99||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Pharyngitis event rates were presented per 1,000 person-months.||0.99|0.55|0.04
92188256|NCT00113880|184274544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.04|TWO_SIDED|95.0|0.14|0.93||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 years, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Pharyngitis event rates were presented per 1,000 person-months.||0.93|0.14|0.04
92305121|NCT00446199|184512919|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305122|NCT00446199|184512919|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305123|NCT00446199|184512919|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||0.0005
92305124|NCT00446199|184512920|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/ van Elteren|stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305125|NCT00446199|184512920|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305126|NCT00446199|184512920|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305127|NCT00446199|184512921|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305128|NCT00446199|184512921|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305129|NCT00446199|184512921|SUPERIORITY_OR_OTHER|||||||0.0096||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||0.0096
92305130|NCT00446199|184512922|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|Stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305131|NCT00446199|184512922|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|Stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305132|NCT00446199|184512922|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|Stratification by center||Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||0.0005
92305133|NCT00446199|184512923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|Stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal pH is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305134|NCT00446199|184512923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|Stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal pH is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305135|NCT00446199|184512923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|Stratification by center||Comparison between E2 (0.3 mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal pH is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305136|NCT00446199|184512924|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal maturation value is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305137|NCT00446199|184512924|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|Stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal maturation value is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305138|NCT00446199|184512924|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|Stratification by center||Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal maturation value is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
92305139|NCT00446199|184512925|SUPERIORITY_OR_OTHER|||||||0.0314||95.0||||no correction for multiplicity|Cochran-Mantel-Haenszel|stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.0314
92305140|NCT00446199|184512925|SUPERIORITY_OR_OTHER|||||||0.878||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.8780
92305141|NCT00446199|184512925|SUPERIORITY_OR_OTHER|||||||0.5908||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.5908
92305142|NCT00446199|184512926|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||no correction for multiplicity|Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.0027
92305143|NCT00446199|184512926|SUPERIORITY_OR_OTHER|||||||0.4463||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.4463
92305144|NCT00446199|184512926|SUPERIORITY_OR_OTHER|||||||0.0303||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.0303
92305145|NCT00446199|184512927|SUPERIORITY_OR_OTHER|||||||0.4397||95.0||||no correction for multiplicity|Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.4397
92305146|NCT00446199|184512927|SUPERIORITY_OR_OTHER|||||||0.0132||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.0132
92305147|NCT00446199|184512927|SUPERIORITY_OR_OTHER|||||||0.325||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.3250
92305148|NCT00446199|184512928|SUPERIORITY_OR_OTHER|||||||0.9555||95.0||||no correction for multiplicity|Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.9555
92305149|NCT00446199|184512928|SUPERIORITY_OR_OTHER|||||||0.1743||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.1743
92305150|NCT00446199|184512928|SUPERIORITY_OR_OTHER|||||||0.4395||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.4395
92188257|NCT00113880|184274544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.02|TWO_SIDED|95.0|0.71|0.97||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any acute respiratory tract event rates were presented per 1,000 person-months.||0.97|0.71|0.02
92305151|NCT00446199|184512929|SUPERIORITY_OR_OTHER|||||||0.8966||95.0||||no correction for multiplicity|Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.8966
92305152|NCT00446199|184512929|SUPERIORITY_OR_OTHER|||||||0.7512||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.7512
92305153|NCT00446199|184512929|SUPERIORITY_OR_OTHER|||||||0.8751||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.8751
92305154|NCT00446199|184512930|SUPERIORITY_OR_OTHER|||||||0.1067||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.1067
92305155|NCT00446199|184512930|SUPERIORITY_OR_OTHER|||||||0.6011||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.6011
92305156|NCT00446199|184512930|SUPERIORITY_OR_OTHER|||||||0.4408||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.4408
92305157|NCT00446199|184512931|SUPERIORITY_OR_OTHER|||||||0.0144||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.0144
92305158|NCT00446199|184512931|SUPERIORITY_OR_OTHER|||||||0.5589||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.5589
92305159|NCT00446199|184512931|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.5500
92305160|NCT00446199|184512932|SUPERIORITY_OR_OTHER|||||||0.2179||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.2179
92305161|NCT00446199|184512932|SUPERIORITY_OR_OTHER|||||||0.7749||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.7749
92305162|NCT00446199|184512932|SUPERIORITY_OR_OTHER|||||||0.8307||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.8307
92305163|NCT00446199|184512933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.6|||<|0.0001||95.0|-33.2|-22.0||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-22.0|-33.2|<0.0001
92305164|NCT00446199|184512933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.2|||<|0.0001||95.0|-27.8|-16.6||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-16.6|-27.8|<0.0001
92305165|NCT00446199|184512933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.8||||0.0007||95.0|-15.4|-4.2||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline||-4.2|-15.4|0.0007
92305166|NCT00446199|184512934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.9|||<|0.0001||95.0|-29.9|17.8||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||17.8|-29.9|<0.0001
92305167|NCT00446199|184512934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.2|||<|0.0001||95.0|-20.2|-8.1||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-8.1|-20.2|<0.0001
92305168|NCT00446199|184512934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6||||0.0054||95.0|-14.6|-2.5||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-2.5|-14.6|0.0054
92305169|NCT00446199|184512935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.069|||<|0.0001||95.0|-1.28|-0.859||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.859|-1.280|<0.0001
92305170|NCT00446199|184512935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.803|||<|0.0001||95.0|-1.013|-0.593||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.593|-1.013|<0.0001
92188258|NCT00113880|184274544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.01|TWO_SIDED|95.0|0.57|0.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any acute respiratory tract event rates were presented per 1,000 person-months.||0.92|0.57|0.01
92188259|NCT00113880|184274544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.01|TWO_SIDED|95.0|0.22|0.61||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.61|0.22|0.01
92188260|NCT00113880|184274544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.01|TWO_SIDED|95.0|0.16|0.68||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.68|0.16|0.01
92188261|NCT00113880|184274544|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.0||||0.03|TWO_SIDED|95.0|0.0|0.82|||Fisher Exact||Population: 18-49, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.82|0.00|0.03
92188262|NCT00113880|184274545|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.01|TWO_SIDED|95.0|0.58|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.91|0.58|0.01
92188263|NCT00113880|184274545|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.01|TWO_SIDED|95.0|0.49|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.91|0.49|0.01
92305171|NCT00446199|184512935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.361||||0.0007||95.0|-0.57|-0.152||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.152|-0.570|0.0007
92305172|NCT00446199|184512936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.635|||<|0.0001||95.0|-0.813|-0.458||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|Treatment, Center, and Baseline value used as covariate||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.458|-0.813|<0.0001
92305173|NCT00446199|184512936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.382|||<|0.0001||95.0|-0.56|-0.205||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|Treatment, Center, and Baseline value used as covariate||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.205|-0.560|<0.0001
92305174|NCT00446199|184512936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.204||||0.0233||95.0|-0.381|-0.028||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|Treatment, Center, and Baseline value used as covariate||Comparison between E2 (0.3) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.028|-0.381|0.0233
92305175|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.308|||||||t-test, 2 sided|||4 hrs: Visit 3 versus Visit 2||||0.308
92305176|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.415|||||||t-test, 2 sided|||4 hrs: Visit 5 versus Visit 2||||0.415
92305177|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.335|||||||t-test, 2 sided|||4 hrs: Visit 5 versus Visit 3||||0.335
92305178|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 2||||0.120
92305179|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.061|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 3||||0.061
92305180|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.031|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 5||||0.031
92305181|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.131|||||||t-test, 2 sided|||20 hrs: Visit 3 versus Visit 2||||0.131
92188264|NCT00113880|184274545|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.01|TWO_SIDED|95.0|0.61|0.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.92|0.61|0.01
92188265|NCT00113880|184274545|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.01|TWO_SIDED|95.0|0.52|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.91|0.52|0.01
92188266|NCT00113880|184274546|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41||||0.01|TWO_SIDED|95.0|0.33|0.51||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.51|0.33|0.01
92305182|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.202|||||||t-test, 2 sided|||20 hrs: Visit 5 versus Visit 2||||0.202
92305183|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.484|||||||t-test, 2 sided|||20 hrs: Visit 5 versus Visit 3||||0.484
92305184|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.047|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 2||||0.047
92305185|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.285|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 3||||0.285
92305186|NCT01195272|184512961|SUPERIORITY_OR_OTHER|||||||0.315|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 5||||0.315
92305187|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.288|||||||t-test, 2 sided|||4 hrs: Visit 3 versus Visit 2||||0.288
92305188|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.318|||||||t-test, 2 sided|||4 hrs: Visit 5 versus Visit 2||||0.318
92188267|NCT00113880|184274546|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.37||||0.01|TWO_SIDED|95.0|0.26|0.55||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 5-8 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.55|0.26|0.01
92305189|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.4|||||||t-test, 2 sided|||4 hrs: Visit 5 versus Visit 3||||0.400
92305190|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.317|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 2||||0.317
92305191|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.137|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 3||||0.137
92305192|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.052|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 5||||0.052
92305193|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.354|||||||t-test, 2 sided|||20 hrs: Visit 3 versus Visit 2||||0.354
92305194|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.266|||||||t-test, 2 sided|||20 hrs: Visit 5 versus Visit 2||||0.266
92305195|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.378|||||||t-test, 2 sided|||20 hrs: Visit 5 versus Visit 3||||0.378
92305196|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.422|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 2||||0.422
92305197|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.444|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 3||||0.444
92305198|NCT01195272|184512962|SUPERIORITY_OR_OTHER|||||||0.345|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 5||||0.345
92305199|NCT01195272|184512963|SUPERIORITY_OR_OTHER|||||||0.39|||||||ANOVA|||Visit 3 versus Visit 2||||0.39
92305200|NCT01195272|184512963|SUPERIORITY_OR_OTHER|||||||0.08|||||||ANOVA|||Visit 5 versus Visit 3||||0.08
92305201|NCT01195272|184512963|SUPERIORITY_OR_OTHER|||||||0.18|||||||ANOVA|||Visit 5 versus Visit 3||||0.18
92305202|NCT01195272|184512964|SUPERIORITY_OR_OTHER|||||||0.48|||||||ANOVA|||Visit 3 versus Visit 2||||0.48
92305203|NCT01195272|184512964|SUPERIORITY_OR_OTHER|||||||0.3|||||||ANOVA|||Visit 5 versus Visit 2||||0.30
92305204|NCT01195272|184512964|SUPERIORITY_OR_OTHER|||||||0.34|||||||ANOVA|||Visit 5 versus Visit 3||||0.34
92305205|NCT01195272|184512965|SUPERIORITY_OR_OTHER|||||||0.22|||||||ANOVA|||Visit 3 versus Visit 2||||0.22
92305206|NCT01195272|184512965|SUPERIORITY_OR_OTHER|||||||0.44|||||||ANOVA|||Visit 5 versus Visit 2||||0.44
92305207|NCT01195272|184512965|SUPERIORITY_OR_OTHER|||||||0.23|||||||ANOVA|||Visit 5 versus Visit 3||||0.23
92305208|NCT01195272|184512966|SUPERIORITY_OR_OTHER|||||||0.22|||||||ANOVA|||Visit 3 versus Visit 2||||0.22
92305209|NCT01195272|184512966|SUPERIORITY_OR_OTHER|||||||0.46|||||||ANOVA|||Visit 5 versus Visit 2||||0.46
92305210|NCT01195272|184512966|SUPERIORITY_OR_OTHER|||||||0.24|||||||ANOVA|||Visit 5 versus Visit 3||||0.24
92305211|NCT01195272|184512967|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||Visit 3 versus Visit 2||||0.05
92305212|NCT01195272|184512967|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANOVA|||Visit 5 versus Visit 2||||0.01
92305213|NCT01195272|184512967|SUPERIORITY_OR_OTHER|||||||0.18|||||||ANOVA|||Visit 5 versus Visit 3||||0.18
92305214|NCT01195272|184512968|SUPERIORITY_OR_OTHER|||||||0.48|||||||ANOVA|||Visit 3 versus Visit 2||||0.48
92305215|NCT01195272|184512968|SUPERIORITY_OR_OTHER|||||||0.43|||||||ANOVA|||Visit 5 versus Visit 2||||0.43
92305216|NCT01195272|184512968|SUPERIORITY_OR_OTHER|||||||0.44|||||||ANOVA|||Visit 5 versus Visit 3||||0.44
92305217|NCT01195272|184512969|SUPERIORITY_OR_OTHER|||||||0.313|||||||ANOVA|||Visit 3 versus Visit 2||||0.313
92305218|NCT01195272|184512969|SUPERIORITY_OR_OTHER|||||||0.083|||||||ANOVA|||Visit 5 versus Visit 2||||0.083
92305219|NCT01195272|184512969|SUPERIORITY_OR_OTHER|||||||0.092|||||||ANOVA|||Visit 5 versus Visit 3||||0.092
92305220|NCT01195272|184512969|SUPERIORITY_OR_OTHER|||||||0.145|||||||ANOVA|||Visit 8 versus Visit 2||||0.145
92305221|NCT01195272|184512969|SUPERIORITY_OR_OTHER|||||||0.398|||||||ANOVA|||Visit 8 versus Visit 3||||0.398
92305222|NCT01195272|184512969|SUPERIORITY_OR_OTHER|||||||0.138|||||||ANOVA|||Visit 8 versus Visit 5||||0.138
92305223|NCT01195272|184512970|SUPERIORITY_OR_OTHER|||||||0.467|||||||ANOVA|||Visit 3 versus Visit 2||||0.467
92305224|NCT01195272|184512970|SUPERIORITY_OR_OTHER|||||||0.25|||||||ANOVA|||Visit 5 versus Visit 2||||0.250
92305225|NCT01195272|184512970|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||Visit 5 versus Visit 3||||0.060
92305226|NCT01195272|184512970|SUPERIORITY_OR_OTHER|||||||0.149|||||||ANOVA|||Visit 8 versus Visit 2||||0.149
92188268|NCT00113880|184274546|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.42||||0.01|TWO_SIDED|95.0|0.31|0.56||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.56|0.31|0.01
92188269|NCT00113880|184274546|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||0.02|TWO_SIDED|95.0|0.26|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.91|0.26|0.02
92188270|NCT00113880|184274546|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45||||0.01||95.0|0.37|0.55||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.55|0.37|0.01
92188271|NCT00113880|184274546|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49||||0.01|TWO_SIDED|95.0|0.35|0.67||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 5-8 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.67|0.35|0.01
92305227|NCT01195272|184512970|SUPERIORITY_OR_OTHER|||||||0.061|||||||ANOVA|||Visit 8 versus Visit 3||||0.061
92305228|NCT01195272|184512970|SUPERIORITY_OR_OTHER|||||||0.047|||||||ANOVA|||Visit 8 versus Visit 5||||0.047
92305229|NCT01195272|184512971|SUPERIORITY_OR_OTHER|||||||0.169|||||||ANOVA|||Visit 3 versus Visit 2||||0.169
92305230|NCT01195272|184512971|SUPERIORITY_OR_OTHER|||||||0.165|||||||ANOVA|||Visit 5 versus Visit 2||||0.165
92305231|NCT01195272|184512971|SUPERIORITY_OR_OTHER|||||||0.471|||||||ANOVA|||Visit 5 versus Visit 3||||0.471
92305232|NCT01195272|184512971|SUPERIORITY_OR_OTHER|||||||0.243|||||||ANOVA|||Visit 8 versus Visit 2||||0.243
92305233|NCT01195272|184512971|SUPERIORITY_OR_OTHER|||||||0.396|||||||ANOVA|||Visit 8 versus Visit 3||||0.396
92305234|NCT01195272|184512971|SUPERIORITY_OR_OTHER|||||||0.375|||||||ANOVA|||Visit 8 versus Visit 5||||0.375
92305235|NCT01195272|184512972|SUPERIORITY_OR_OTHER|||||||0.496|||||||ANOVA|||Visit 3 versus Visit 2||||0.496
92305236|NCT01195272|184512972|SUPERIORITY_OR_OTHER|||||||0.122|||||||ANOVA|||Visit 5 versus Visit 2||||0.122
92305237|NCT01195272|184512972|SUPERIORITY_OR_OTHER|||||||0.07|||||||ANOVA|||Visit 5 versus Visit 3||||0.070
92305238|NCT01195272|184512972|SUPERIORITY_OR_OTHER|||||||0.135|||||||ANOVA|||Visit 8 versus Visit 2||||0.135
92305239|NCT01195272|184512972|SUPERIORITY_OR_OTHER|||||||0.082|||||||ANOVA|||Visit 8 versus Visit 3||||0.082
92305240|NCT01195272|184512972|SUPERIORITY_OR_OTHER|||||||0.461|||||||ANOVA|||Visit 8 versus Visit 5||||0.461
92305241|NCT01769339|184512977|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92305242|NCT00290251|184512985|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|performed on log-transformed delta change in total fibroid volume from baseline to end of treatment||||||0.43
92305243|NCT00290251|184512985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|95.0|||||ANOVA|Performed on log-transformed delta change||Ulipristal acetate groups one and two were first compared and found to be similar (see statistical analysis 1), so they were combined into a single treatment group for comparison to placebo group||||0.003
92305244|NCT00290251|184512986|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|95.0||||The Delta of scores from treatment end to baseline was used to compare by ANOVA.|ANOVA|Adjustment for age||No sample size calculation was made.||||< 0.05
92305245|NCT03611543|184513009|SUPERIORITY||||||<|0.0001||||||Information related to the INVESTIGATIONAL group.|Wilcoxon Rank-Sum test|||||||<0.0001
92305246|NCT05538065|184513063|SUPERIORITY||Risk Ratio (RR)|1.4||||0.002|TWO_SIDED|95.0|1.1|1.78||Adjusted for multiple comparisons|Regression, Logistic|||Outcomes were evaluated using generalized estimating equations with a log link and binary errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||1.78|1.10|0.002
92305247|NCT05538065|184513063|SUPERIORITY||Risk Ratio (RR)|1.26||||0.039|TWO_SIDED|95.0|1.01|1.57||Adjusted for multiple comparisons|Regression, Logistic|||Outcomes were evaluated using generalized estimating equations with a log link and binary errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||1.57|1.01|0.039
92305248|NCT05538065|184513064|SUPERIORITY||Mean Difference (Final Values)|29.0||||0.386|TWO_SIDED|95.0|-36.6|94.6||Adjusted for multiple testing|Regression, Linear|||Outcomes were evaluated using generalized estimating equations with an identity link and normally-distributed errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||94.6|-36.6|0.386
92305249|NCT05538065|184513064|SUPERIORITY||Mean Difference (Final Values)|38.1||||272|TWO_SIDED|95.0|-29.9|106.1||Adjusted for multiple comparisons|Regression, Linear|||Outcomes were evaluated using generalized estimating equations with an identity link and normally-distributed errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||106.1|-29.9|272
92305250|NCT05538065|184513065|SUPERIORITY||Mean Difference (Final Values)|-13.8||||0.657|TWO_SIDED|95.0|-74.5|47.0||Adjusted for multiple testing|Regression, Linear|||Outcomes were evaluated using generalized estimating equations with an identity link and normally-distributed errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||47.0|-74.5|0.657
92305251|NCT05538065|184513065|SUPERIORITY||Mean Difference (Final Values)|15.1||||0.696|TWO_SIDED|95.0|-60.7|91.0|||Regression, Linear|Adjusted for multiple testing||Outcomes were evaluated using generalized estimating equations with an identity link and normally-distributed errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||91.0|-60.7|0.696
92188272|NCT00113880|184274546|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43||||0.01|TWO_SIDED|95.0|0.33|0.56||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.56|0.33|0.01
92188273|NCT00113880|184274546|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46||||0.01|TWO_SIDED|95.0|0.25|0.85||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.85|0.25|0.01
92188274|NCT00113880|184274547|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.47||||0.01|TWO_SIDED|95.0|0.32|0.69||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.69|0.32|0.01
92188275|NCT00113880|184274547|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.01|TWO_SIDED|95.0|0.17|0.54||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox||Population: 18-49 yrs, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.54|0.17|0.01
92188276|NCT02213458|184274567|SUPERIORITY||Slope|0.539||||0.04|TWO_SIDED|95.0|0.259|1.337|||Mixed Models Analysis|Controlling for dementia severity (QDRS)||Linear mixed effects model||1.337|.259|0.04
92188277|NCT02213458|184274568|SUPERIORITY||Slope|-0.138||||0.05|TWO_SIDED|95.0|-0.295|-0.02|||Mixed Models Analysis|Linear mixed model controlling for dementia severity (QDRS)||||-.020|-.295|.05
92188278|NCT02213458|184274569|SUPERIORITY||Slope|-1.902||||0.07|TWO_SIDED|95.0|-3.885|-0.08|||Mixed Models Analysis|Linear mixed model controlling for dementia severity (QDRS)||||-0.080|-3.885|0.07
92188279|NCT02213458|184274571|SUPERIORITY||Slope|-1.143||||0.03|TWO_SIDED|95.0|-2.154|-0.132|||Mixed Models Analysis|||||-0.132|-2.154|0.03
92305252|NCT04711902|184513072|OTHER|estimation and confidence interval|Marginal difference|39.91|||||TWO_SIDED|95.0|10.87|68.95|||Regression, Logistic|||||68.95|10.87|
92305253|NCT04711902|184513073|OTHER|estimation and confidence interval|Marginal difference|11.86|||||TWO_SIDED|95.0|-7.18|30.91|||Regression, Logistic|||||30.91|-7.18|
92305254|NCT04711902|184513074|OTHER|estimation and confidence interval|Mixed model repeated measures (MMRM)|-1.1|||||TWO_SIDED|95.0|-1.68|-0.52|||Mixed Models Analysis|||||-0.52|-1.68|
92305255|NCT04711902|184513075|OTHER|estimation and confidence interval|Mixed model repeated measures (MMRM)|-1.65|||||TWO_SIDED|95.0|-2.35|-0.94|||Mixed Models Analysis|||||-0.94|-2.35|
92305256|NCT04711902|184513076|OTHER|estimation and confidence interval|Mixed model repeated scores (MMRM)|4.2|||||TWO_SIDED|95.0|0.94|7.46|||Mixed Models Analysis|||||7.46|0.94|
92305257|NCT04711902|184513077|OTHER|estimation and confidence interval|Mixed model repeated measures (MMRM)|-0.4|||||TWO_SIDED|95.0|-0.58|-0.21|||Mixed Models Analysis|||||-0.21|-0.58|
92305258|NCT03244644|184513078|SUPERIORITY||Treatment Difference|13.1|||||TWO_SIDED|95.0|2.3|24.0|||||The Bayesian posterior probability of superiority was 0.99136. This value exceeded the pre-specified threshold of 0.9750338 (nominal 0.025 one-sided level).|A hierarchical, closed-testing procedure (Bayesian hierarchical model) was utilized for the primary endpoint. The Bayesian hierarchical model formally incorporated data from the previous Phase 2B study (NCT02299570) of RBX2660. This analysis tested the hypothesis that the response rate of RBX2660 was superior to Placebo and was performed at the nominal 0.00125 and 0.025 one-sided levels.||24.0|2.3|
92305259|NCT03244644|184513079|SUPERIORITY|||||||0.156||||||P-value for secondary outcome evaluated from baseline through 6 months|Chi-squared|||||||0.156
92305260|NCT03167723|184513095|NON_INFERIORITY|15% Non-Inferiority||||||0.036|||||||Farrington-Manning|||||||0.036
92305261|NCT04040322|184513105|SUPERIORITY||Least squares mean difference in change|-1.26||||0.421|TWO_SIDED|95.0|-4.34|1.82||Threshold for statistical significance was p \< 0.05|ANCOVA|||||1.82|-4.34|0.4210
92305262|NCT00699374|184513131|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.9993|TWO_SIDED|95.0|1.14|1.5||One-sided p-value based on stratified log-rank test controlling the effects of geographic region, prior transarterial chemoembolization (TACE) and tumor invasion condition.|Log Rank|||||1.50|1.14|0.9993
92305263|NCT00699374|184513132|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.8857|TWO_SIDED|95.0|0.99|1.3||One-sided p-value based on stratified log-rank test controlling the effects of geographic region, prior TACE, and tumor invasion condition|Log Rank|||||1.30|0.99|0.8857
92305264|NCT00699374|184513133|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.8459|TWO_SIDED|95.0|0.98|1.31||One-sided p-value based on stratified log-rank test controlling the effects of geographic region, prior TACE and tumor invasion condition|Log Rank|||||1.31|0.98|0.8459
92305265|NCT04536935|184513135|SUPERIORITY|A series of mixed effects models using restricted maximum likelihood estimation were built to test linear time change on the PHQ-9 and to test for condition differences at follow-up and change slope. Models were built in an outwardly nested fashion, such that an initial null model was computed, followed by models that added a random intercept, random time component, condition assignment, and condition x time interaction effects.|Slope|-1.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.8|-1.1|||Mixed Models Analysis|||||-1.1|-1.8|<.001
92305266|NCT04536935|184513136|OTHER|A series of mixed effects models using restricted maximum likelihood estimation were built to test linear time change on the GAD-7 and to test for condition differences at follow-up and change slope. Models were built in an outwardly nested fashion, such that an initial null model was computed, followed by models that added a random intercept, random time component, condition assignment, and condition x time interaction effects.|Slope|-1.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.6|-1.0|||Mixed Models Analysis|||||-1.0|-1.6|<.001
92305267|NCT04536935|184513137|OTHER|A series of mixed effects models using restricted maximum likelihood estimation were built to test linear time change on the DERS and to test for condition differences at follow-up and change slope. Models were built in an outwardly nested fashion, such that an initial null model was computed, followed by models that added a random intercept, random time component, condition assignment, and condition x time interaction effects.||||||0.73|||||||Mixed Models Analysis|||||||.73
92305268|NCT04536935|184513138|OTHER|||||||0.25|||||||Mixed Models Analysis|||||||.25
92305269|NCT04536935|184513139|SUPERIORITY|||||||0.22|||||||ANOVA|||||||.22
92305270|NCT04536935|184513140|SUPERIORITY|||||||0.48|||||||ANOVA|||||||.48
92305271|NCT04536935|184513141|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<.0001
92305272|NCT00123474|184513157|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the QD schedule relative to the BID schedule was deduced if the lower bound of the 95% confidence interval (CI) for the MCyRRQD minus MCyRRBID difference was greater than or equal to -15%.|Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-6.0|11.6||||||6 Month Analysis||11.6|-6.0|
92188280|NCT02213458|184274572|SUPERIORITY||Slope|0.635||||0.11|TWO_SIDED|95.0|-0.135|1.405|||Mixed Models Analysis|Controlling for dementia severity (QDRS)||||1.405|-0.135|0.11
92305273|NCT00123474|184513158|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the QD schedule relative to the BID schedule was deduced if the lower bound of the 95% CI for the MCyRRQD minus MCyRRBID difference was greater than or equal to -15%.|Risk Difference (RD)|1.9|||||TWO_SIDED|95.0|-6.8|10.6||||||||10.6|-6.8|
92305274|NCT00123474|184513158|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of 100 mg total daily dose relative to 140 mg total daily dose was deduced if the lower bound of the 95% CI for the difference was greater than or equal to -15%.|Risk Difference (RD)|-0.2|||||TWO_SIDED|95.0|-8.9|8.5||||||||8.5|-8.9|
92305275|NCT00123474|184513169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the QD schedule relative to the BID schedule was deduced if the lower bound of the 95% CI for the MCyRRQD minus MCyRRBID difference was greater than or equal to -15%.|Risk Difference (RD)|1.8|||||TWO_SIDED|95.0|-11.7|15.3||||||6 Month Analysis||15.3|-11.7|
92305276|NCT00123474|184513169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of 100 mg QD Total Daily Dose relative to 140 mg QD Total Daily Dose was deduced if the lower bound of the 95% CI difference was greater than or equal to -15%.|Risk Difference (RD)|4.2|||||TWO_SIDED|95.0|-9.3|17.6||||||6 Month Analysis||17.6|-9.3|
92305277|NCT00123474|184513169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the QD schedule relative to the BID schedule was deduced if the lower bound of the 95% CI for the MCyRRQD minus MCyRRBID difference was greater than or equal to -15%.|Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-11.2|14.1||||||24 Month Analysis||14.1|-11.2|
92305278|NCT00123474|184513169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of 100 mg QD Total Daily Dose relative to 140 mg QD Total Daily Dose was deduced if the lower bound of the 95% CI difference was greater than or equal to -15%.|Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-11.2|14.1||||||24 Month Analysis||14.1|-11.2|
92305279|NCT01059344|184513179|SUPERIORITY_OR_OTHER|||||||0.069|||||||Chi-squared|||||||0.069
92305280|NCT01059344|184513180|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92305281|NCT01059344|184513181|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92305282|NCT01059344|184513182|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.010
92305283|NCT01059344|184513183|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92305284|NCT01059344|184513184|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92305285|NCT01059344|184513185|SUPERIORITY|||||||0.011|||||||Chi-squared|||||||0.011
92305286|NCT02731326|184513194|EQUIVALENCE|The study was designed to have 80% power to detect a hazard ratio of 2 for recurrence detection (α = .05).|Hazard Ratio (HR)|1.56||||0.05|TWO_SIDED|95.0|1.06|2.3|||Regression, Cox||Treatment arm equals numerator. Control arm=denominator.|The study was designed to have 80% power to detect a hazard ratio of 2 for recurrence detection (α = .05). Kaplan-Meier curves were created for recurrence detection in the intervention and control groups over the 6-month follow-up period. Differences in time to recurrence between groups were assessed using a Cox proportional hazards model. Baseline variables that differed significantly between groups were included as covariates and adjusted Kaplan-Meier curves were constructed.||2.30|1.06|0.05
92305287|NCT02731326|184513195|EQUIVALENCE|The study was designed to have 80% power to detect a hazard ratio of 2 (α = .05).|Hazard Ratio (HR)|0.33||||0.05|TWO_SIDED|95.0|0.09|0.58|||Regression, Cox||Treatment arm equals numerator. Control arm=denominator.|Kaplan-Meier curves were created for assessing time to treatment for intervention and control groups. Time to treatment was defined as the time interval from detection of a recurrent arrhythmia to treatment for that arrhythmia.||0.58|0.09|0.05
92305288|NCT02731326|184513196|SUPERIORITY||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.19|0.58|||Regression, Cox|||||0.58|0.19|<.0001
92305289|NCT02731326|184513197|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
92305290|NCT02731326|184513198|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||||||0.89
92305291|NCT04558918|184513240|SUPERIORITY||Odds Ratio (OR)|338.25|||<|0.0001|TWO_SIDED|95.0|25.07|4564.14||two sided unadjusted p-value|Regression, Logistic|Logistic regression model using Firth||||4564.14|25.07|<0.0001
92305292|NCT04558918|184513240|SUPERIORITY||Difference in marginal proportion|80.2|||||TWO_SIDED|95.0|71.2|87.6||||||||87.6|71.2|
92188281|NCT01357564|184274619|SUPERIORITY||Mean Difference (Net)|-0.72||||0.02|TWO_SIDED|95.0|-1.23|-0.13|||t-test, 2 sided|||Sample size calculation was based on the main study hypothesis tested at 80% power for a 2-sided alternative hypothesis using a t-test comparing the treatment groups on 4-month values. Based on previous trials, we sought a medium effect size of 0.50 using a type I error rate of .05.||-0.13|-1.23|.02
92188282|NCT01357564|184274620|SUPERIORITY||Mean Difference (Net)|-0.1||||0.03|TWO_SIDED|95.0|-0.14|-0.01|||t-test, 2 sided|||Sample size calculation was based on the main study hypothesis tested at 80% power for a 2-sided alternative hypothesis using a t-test comparing the treatment groups on 4-month values. Based on previous trials, we sought a medium effect size of 0.50 using a type I error rate of .05.||-0.01|-0.14|.03
92305293|NCT04558918|184513241|SUPERIORITY||Odds Ratio (OR)|495.74|||<|0.0001|TWO_SIDED|95.0|24.41|10066.53||two sided unadjusted p-value|Regression, Logistic|Logistic regression model using Firth||||10066.53|24.41|<0.0001
92305294|NCT04558918|184513241|SUPERIORITY||Diff. in marginal proportion|67.0|||||TWO_SIDED|95.0|56.4|76.9||||||||76.9|56.4|
92305295|NCT04558918|184513244|OTHER||Adjusted mean difference|-0.01|||||TWO_SIDED|95.0|-0.53|0.51||||||||0.51|-0.53|
92305296|NCT04558918|184513245|OTHER||Adjusted mean difference|-1.17|||||TWO_SIDED|95.0|-4.01|1.68||||||||1.68|-4.01|
92305297|NCT04558918|184513246|SUPERIORITY||Odds Ratio (OR)|108.41|||<|0.0001|TWO_SIDED|95.0|17.25|681.24||two sided unadjusted p-value|Conditional logistic regression|||||681.24|17.25|<0.0001
92305298|NCT04558918|184513246|SUPERIORITY||Diff. in marginal proportion|68.9|||||TWO_SIDED|95.0|51.4|83.9||||||logistic regression model||83.9|51.4|
92305299|NCT04558918|184513247|SUPERIORITY||Adjusted mean diff.|3.66|||<|0.0001|TWO_SIDED|95.0|3.2|4.12||two sided unadjusted p-value|Mixed Model of Repeated Measures (MMRM)|||||4.12|3.20|<0.0001
92305300|NCT04558918|184513248|SUPERIORITY||Mean Difference (Net)|8.29|||<|0.0001|TWO_SIDED|95.0|5.28|11.29||two sided unadjusted p-value|Mixed Model of Repeated Measures (MMRM)|||||11.29|5.28|<0.0001
92305301|NCT04558918|184513249|SUPERIORITY||Mean Difference (Net)|-116.15|||<|0.0001|TWO_SIDED|95.0|-132.04|-100.26||two sided unadjusted p-value|Mixed Model of Repeated Measures (MMRM)|||||-100.26|-132.04|<0.0001
92305302|NCT04558918|184513250|SUPERIORITY||Geometric mean ratio|0.99||||0.8361|TWO_SIDED|95.0|0.89|1.1||two sided unadjusted p-value|Mixed Model of Repeated Measures (MMRM)|||||1.10|0.89|0.8361
92305303|NCT04558918|184513251|SUPERIORITY||Rate ratio|0.1||||0.01183|TWO_SIDED|95.0|0.02|0.61||two sided unadjusted p-value|Negative binomial model|||||0.61|0.02|0.01183
92305304|NCT04558918|184513251|SUPERIORITY||Rate difference|-0.6|||||TWO_SIDED|95.0|-1.24|0.04||||||||0.04|-1.24|
92188283|NCT02282761|184274654|SUPERIORITY||Least Squares Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|1.83||0.182|TWO_SIDED|95.0|-6.17|1.05|||Mixed Effects Model for Repeated Measure|||||1.05|-6.17|0.182
92188284|NCT02282761|184274654|SUPERIORITY||Least Squares Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|1.82||0.045|TWO_SIDED|95.0|-7.75|-0.6|||Mixed Effects Model for Repeated Measure|||||-0.60|-7.75|0.045
92305305|NCT04558918|184513252|SUPERIORITY||rate difference|0.03||||0.31731|TWO_SIDED|95.0|-0.03|0.1||two sided unadjusted p-value|Poisson model|||||0.10|-0.03|0.31731
92305306|NCT04558918|184513253|OTHER||Adjusted mean difference|1.69|||||TWO_SIDED|95.0|-16.86|20.23||||||||20.23|-16.86|
92305307|NCT04558918|184513254|OTHER||Geometric mean ratio|1.12|||||TWO_SIDED|95.0|0.97|1.3||||||||1.30|0.97|
92305308|NCT02256436|184513257|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98||||0.41648|TWO_SIDED|95.0|0.81|1.19||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS - All Participants||1.19|0.81|0.41648
92305309|NCT02256436|184513258|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.00224|TWO_SIDED|95.0|0.59|0.91||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||OS - All Participants (Note: ECOG PS=Eastern Cooperative Oncology Group Performance Status)||0.91|0.59|0.00224
92305310|NCT02256436|184513259|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.26443|TWO_SIDED|95.0|0.68|1.24||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS - PD-L1 positive participants||1.24|0.68|0.26443
92305311|NCT02256436|184513260|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.61||||0.00239|TWO_SIDED|95.0|0.43|0.86||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||OS - PD-L1 positive participants||0.86|0.43|0.00239
92305312|NCT02256436|184513261|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89||||0.23958|TWO_SIDED|95.0|0.61|1.28||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS - Strongly PD-L1 positive participants||1.28|0.61|0.23958
92305313|NCT02256436|184513262|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57||||0.00483|TWO_SIDED|95.0|0.37|0.88||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||OS - Strongly PD-L1 positive participants||0.88|0.37|0.00483
92305314|NCT02256436|184513265|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|17.2||||0.00061|TWO_SIDED|95.0|6.8|29.4||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per RECIST 1.1 - Strongly PD-L1 Positive Participants||29.4|6.8|0.00061
92305315|NCT02256436|184513266|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|15.6||||0.00049|TWO_SIDED|95.0|6.5|25.7||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per RECIST 1.1 - PD-L1 Positive Participants||25.7|6.5|0.00049
92305316|NCT02256436|184513267|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|10.0||||0.00068|TWO_SIDED|95.0|3.9|16.2||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per RECIST 1.1 - All Participants||16.2|3.9|0.00068
92305317|NCT02256436|184513268|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.07066|TWO_SIDED|95.0|0.53|1.11||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS per mRECIST - Strongly PD-L1 Positive Participants||1.11|0.53|0.07066
92305318|NCT02256436|184513269|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.08745|TWO_SIDED|95.0|0.6|1.1||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS per mRECIST - PD-L1 Positive Participants||1.10|0.60|0.08745
92305319|NCT02256436|184513270|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.05328|TWO_SIDED|95.0|0.71|1.04||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS per mRECIST - All Participants||1.04|0.71|0.05328
92188285|NCT02282761|184274655|SUPERIORITY||Least Squares Mean Difference|-0.3||||0.045|TWO_SIDED|95.0|-0.54|-0.12|||Mixed Effects Model for Repeated Measure|||||-0.12|-0.54|0.045
92188286|NCT00515281|184274657|SUPERIORITY|||||||0.017|||||||Chi-squared|||||||0.017
92305320|NCT02256436|184513271|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|21.5||||9e-05|TWO_SIDED|95.0|10.1|34.2||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per mRECIST - Strongly PD-L1 Positive Participants||34.2|10.1|0.00009
92305321|NCT02256436|184513272|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|21.0||||2e-05|TWO_SIDED|95.0|11.1|31.5||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per mRECIST - PD-L1 Positive Participants||31.5|11.1|0.00002
92305322|NCT02256436|184513273|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|13.8||||1e-05|TWO_SIDED|95.0|7.4|20.3||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per mRECIST - All Participants||20.3|7.4|0.00001
92305323|NCT01986010|184513290|OTHER||GMT Ratio|1.5|||||TWO_SIDED|95.0|0.8|2.6||||||GMT Ratio: GMT V160/GMT placebo||2.6|0.8|
92305324|NCT01986010|184513290|OTHER||GMT Ratio|1.9|||||TWO_SIDED|95.0|1.1|3.2||||||GMT Ratio: GMT V160/GMT placebo||3.2|1.1|
92305325|NCT01986010|184513290|OTHER||GMT Ratio|3.5|||||TWO_SIDED|95.0|1.6|7.4||||||GMT Ratio: GMT V160/GMT placebo||7.4|1.6|
92305326|NCT01986010|184513290|OTHER||GMT Ratio|2.6|||||TWO_SIDED|95.0|1.4|4.6||||||GMT Ratio: GMT V160/GMT placebo||4.6|1.4|
92305327|NCT01986010|184513290|OTHER||GMT Ratio|1.6|||||TWO_SIDED|95.0|0.9|3.0||||||GMT Ratio: GMT V160/GMT placebo||3.0|0.9|
92305328|NCT01986010|184513290|OTHER||GMT Ratio|3.9|||||TWO_SIDED|95.0|2.2|7.0||||||GMT Ratio: GMT V160/GMT placebo||7.0|2.2|
92305329|NCT01986010|184513290|OTHER||GMT Ratio|16.4|||<|0.001|TWO_SIDED|95.0|9.5|28.4||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||28.4|9.5|<0.001
92188287|NCT00515281|184274658|SUPERIORITY|||||||0.288|||||||Chi-squared|||||||0.288
92188288|NCT00515281|184274659|SUPERIORITY|||||||0.009|||||||Chi-squared|||||||0.009
92188289|NCT00515281|184274660|SUPERIORITY|||||||0.97|||||||Chi-squared|||||||0.97
92188290|NCT00515281|184274661|SUPERIORITY|||||||0.72|||||||Chi-squared|||||||0.72
92188291|NCT00515281|184274662|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92188292|NCT00515281|184274663|SUPERIORITY|||||||0.28|||||||Chi-squared|||||||0.28
92305330|NCT01986010|184513290|OTHER||GMT Ratio|76.6|||<|0.001|TWO_SIDED|95.0|49.5|118.6||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||118.6|49.5|<0.001
92305331|NCT01986010|184513290|OTHER||GMT Ratio|68.1|||<|0.001|TWO_SIDED|95.0|40.1|115.6||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||115.6|40.1|<0.001
92305332|NCT01986010|184513290|OTHER||GMT Ratio|41.0|||<|0.001|TWO_SIDED|95.0|23.8|70.7||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||70.7|23.8|<0.001
92305333|NCT01986010|184513290|OTHER||GMT Ratio|128.6|||<|0.001|TWO_SIDED|95.0|87.0|190.3||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||190.3|87.0|<0.001
92305334|NCT01986010|184513290|OTHER||GMT Ratio|62.0|||<|0.001|TWO_SIDED|95.0|30.5|126.1||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||126.1|30.5|<0.001
92305335|NCT01986010|184513290|OTHER||GMT Ratio|63.0|||<|0.001|TWO_SIDED|95.0|31.9|124.6||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||124.6|31.9|<0.001
92305336|NCT01394952|184513294|SUPERIORITY|"Superiority was declared if the upper limit of the 2-sided 95.33% confidence interval (CI) of the hazard ratio was below 1.0 (after adjustment for the interim analysis).~Once superiority was achieved for the primary endpoint, multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467."|Hazard Ratio (HR)|0.88||||0.026|TWO_SIDED|95.33|0.79|0.99|||Regression, Cox|||Primary CV endpoint||0.99|0.79|0.026
92305337|NCT01394952|184513295|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.91||||0.211|TWO_SIDED|95.0|0.78|1.06|||Regression, Cox|||Death from CV causes||1.06|0.78|0.211
92305338|NCT01394952|184513295|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.96||||0.652|TWO_SIDED|95.0|0.79|1.16|||Regression, Cox|||Nonfatal MI||1.16|0.79|0.652
92305339|NCT01394952|184513295|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.76||||0.017|TWO_SIDED|95.0|0.61|0.95|||Regression, Cox|||Nonfatal stroke||0.95|0.61|0.017
92305340|NCT01394952|184513296|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.9||||0.067|TWO_SIDED|95.0|0.8|1.01|||Regression, Cox|||Time to all cause mortality||1.01|0.80|0.067
92305341|NCT01394952|184513297|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.86|||<|0.001|TWO_SIDED|95.0|0.79|0.93|||Regression, Cox|||microvascular endpoint||0.93|0.79|<0.001
92188293|NCT06312566|184274667|EQUIVALENCE|Bioequivalence between the BRV tablet (reference) and BRV dry syrup (test) formulations were concluded if the 92.016% CI limits for Cmax,ss was within the 0.80 to 1.25 range.|Ratio of Dry Syrup/ Tablet|0.9726|||||TWO_SIDED|92.016|0.9257|1.022|||Linear mixed model analysis|||||1.022|0.9257|
92188294|NCT06312566|184274668|EQUIVALENCE|Bioequivalence between the BRV tablet (reference) and BRV dry syrup (test) formulations were concluded if the 90% CI limits for AUC(tau) was within the 0.80 to 1.25 range.|Ratio of Dry Syrup/ Tablet|0.9999|||||TWO_SIDED|92.016|0.9881|1.012||||||||1.012|0.9881|
92188295|NCT04551053|184274675|SUPERIORITY|p-value for superiority is half of the CMH p-value.|Odds Ratio (OR)|1.8||||0.2567|TWO_SIDED|95.0|0.65|5.02||CMH test for un-equality stratified by Dynamic International Prognostic Scoring System (DIPSS) category (intermediate 1 versus intermediate 2 and high) and Baseline platelet count (≥100 × 10\^9/Liters \[L\] versus 50 to \<100 × 10\^9/L inclusive)|Cochran-Mantel-Haenszel|||||5.02|0.65|0.2567
92305342|NCT01394952|184513298|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.93||||0.456|TWO_SIDED|95.0|0.77|1.12|||Regression, Cox|||Heart failure requiring hospitalization or an urgent heart failure clinic visit||1.12|0.77|0.456
92305343|NCT01394952|184513299|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|1.14||||0.413|TWO_SIDED|95.0|0.84|1.54|||Regression, Cox|||Hospitalization for unstable angina||1.54|0.84|0.413
92305344|NCT02994940|184513332|SUPERIORITY||Hodges Lehman estimator|21.3||||0.127|TWO_SIDED|95.0|-2.5|44.2|||Wilcoxon (Mann-Whitney)|||||44.2|-2.5|0.127
92305345|NCT02994940|184513333|SUPERIORITY|||||||0.851|||||||Chi-squared|||||||0.851
92305346|NCT02994940|184513334|SUPERIORITY||Hodges Lehman estimator|2.0||||0.109|TWO_SIDED|95.0|-1.0|6.0|||Wilcoxon (Mann-Whitney)|||||6.0|-1.0|0.109
92305347|NCT02994940|184513335|SUPERIORITY||Hodges Lehman estimator|7.0||||0.0001|TWO_SIDED|95.0|4.0|8.0|||Wilcoxon (Mann-Whitney)|||||8.0|4.0|0.0001
92305348|NCT00899470|184513364|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted condition), then 20 subjects provided 97% power to conclude BE with respect to Cmax of saxagliptin. If 5% difference then 20 subjects provided 93% power to conclude BE with respect to Cmax of saxagliptin.|Geometric Mean Ratio, Test vs. Reference|1.011|||||TWO_SIDED|90.0|0.94|1.088|||Mixed Models Analysis|Bioequivalence=90% confidence intervals (CIs) for the test|For Cmax of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: the geometric mean of the Reference formulation in fasted state|To demonstrate bioequivalence (BE) of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted state, linear mixed model analysis was performed on log(Cmax) of saxagliptin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.088|0.940|
92188296|NCT04551053|184274676|SUPERIORITY|p-value for superiority is half of the CMH p-value.|Odds Ratio (OR)|1.34||||0.5349|TWO_SIDED|95.0|0.53|3.39||calculated from Cochran Mantel-Haenszel test for un-equality stratified by DIPSS category (intermediate 1 versus intermediate 2 and high) and Baseline platelet count (≥100 × 10\^9/L versus 50 to \<100 × 10\^9/L inclusive)|Cochran-Mantel-Haenszel|||||3.39|0.53|0.5349
92188297|NCT04551053|184274678|SUPERIORITY|||||||0.2224||||||calculated from log-rank test stratified by DIPSS category (intermediate 1 versus intermediate 2 and high) and Baseline platelet count (≥100 x 10\^9/L versus 50 to \<100 x 10\^9/L inclusive)|Log Rank|||||||0.2224
92305349|NCT00899470|184513364|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed condition), then 20 subjects provided 97% power to conclude BE with respect to Cmax of saxagliptin. If 5% difference then 20 subjects provided 93% power to conclude BE with respect to Cmax of saxagliptin.|Geometric Mean Ratio, Test vs Reference|0.999|||||TWO_SIDED|90.0|0.929|1.075||||Bioequivalence=90% CIs for the test|For Cmax of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log(Cmax) of saxagliptin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.075|0.929|
92305350|NCT00899470|184513365|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted condition), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin. If 5% difference then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin.|Geometric Mean Ratio, Test vs. Reference|1.029|||||TWO_SIDED|90.0|0.993|1.066|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(0-T) of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: geometric mean of the Reference formulation in fasted state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted and fed states, linear mixed model analysis was performed on log\[AUC(0-T)\] of saxagliptin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.066|0.993|
92305351|NCT00899470|184513365|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed condition), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin. If 5% difference then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin.|Geometric Means Ratio|1.021|||||TWO_SIDED|90.0|0.986|1.058|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(0-T) of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log\[AUC(0-T)\] of saxagliptin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.058|0.986|
92305352|NCT00899470|184513366|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted condition), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin. If 5% difference then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin.|Geometric Mean Ratio, Test vs. Reference|1.027|||||TWO_SIDED|90.0|0.99|1.066|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(INF) of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: geometric mean of the Reference formulation in fasted state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted state, linear mixed model analysis was performed on log\[AUC(INF)\] of saxagliptin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.066|0.990|
92305353|NCT00899470|184513366|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed condition), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin. If 5% difference then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin.|Geometric Means Ratio Test vs. Reference|1.022|||||TWO_SIDED|95.0|0.985|1.06|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(INF) of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log\[AUC(INF)\] of saxagliptin and metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.060|0.985|
92188298|NCT00828178|184274712|SUPERIORITY_OR_OTHER|||||||0.87|||||||t-test, 2 sided|||Statistical analysis system (SAS) software was used (SAS Institute Inc. Cary, North Carolina, SAS 9.2). Baseline demographic and clinical characteristics were summarized using appropriate descriptive statistics and compared across treatment groups using Chi-square. Two-sample t tests were used in the statistical analysis of the FMD outcomes. ANCOVA was used to compare the groups with respect to changes in clinical variables adjusting for baseline values.||||0.87
92188299|NCT00828178|184274713|SUPERIORITY_OR_OTHER|||||||0.1801||||||This Statistical Analysis applies category SELENA-SLEDAI|t-test, 2 sided|||||||0.1801
92188300|NCT00645411|184274739|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine was considered non-inferior to egg-derived vaccine in post vaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs (cTIV/eTIV) was \>0.667.|Ratio of GMTs|0.85|||||TWO_SIDED|95.0|0.72|1.01|||ANOVA|||Non-inferiority of cTIV to eTIV against A/H1N1 influenza strain as measured by HI egg-derived antigen assay||1.01|0.72|
92305354|NCT00899470|184513368|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted and fed), then 20 subjects provided 98% power to conclude BE with respect to Cmax of metformin. If 5% difference then 20 subjects provided 93% power to conclude BE with respect to Cmax of metformin, respectively.|Geometric Mean Ratio, Test vs. Reference|1.009|||||TWO_SIDED|90.0|0.939|1.084|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For Cmax of metformin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: geometric mean of the Reference formulation in fasted fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted state, linear mixed model analysis was performed on log(Cmax) of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.084|0.939|
92305355|NCT00899470|184513368|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed), then 20 subjects provided 98% power to conclude BE with respect to Cmax of metformin. If 5% difference then 20 subjects provided 93% power to conclude BE with respect to Cmax of metformin.|Geometric Mean Ratio, Test vs. Reference|1.034|||||TWO_SIDED|90.0|0.962|1.111|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For Cmax of metformin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log(Cmax) of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.111|0.962|
92305356|NCT00899470|184513369|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of metformin. If 5% difference then 20 subjects provided 95% power to conclude BE with respect to AUC(INF) of metformin.|Geometric Mean Ratio, Test vs. Reference|1.024|||||TWO_SIDED|90.0|0.964|1.088|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(0-T) of metformin the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: geometric mean of the Reference formulation in fasted state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted state, linear mixed model analysis was performed on log\[AUC(0-T)\] of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.088|0.964|
92188301|NCT00645411|184274739|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine (cTIV ) was considered non-inferior to egg-derived vaccine (eTIV) in postvaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs(cTIV/eTIV) was \>0.667.|Ratio of GMTs|0.59|||||TWO_SIDED|95.0|0.49|0.72|||ANOVA|||Non-inferiority of cTIV to eTIV against A/H3N2 influenza strain as measured by HI egg-derived antigen assay.||0.72|0.49|
92188302|NCT00645411|184274739|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine (cTIV ) was considered non-inferior to egg-derived vaccine (eTIV)in post vaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs (cTIV/eTIV) was \>0.667.|Ratio of GMTs|0.56|||||TWO_SIDED|95.0|0.46|0.68|||ANOVA|||Non-inferiority of cTIV to eTIV against influenza B strain as measured by HI egg-derived antigen assay.||0.68|0.46|
92267167|NCT05261126|184435735|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-41.2|||<|0.001|TWO_SIDED|95.0|-47.8|-34.7|||cLDA||MK-0616 6 mg minus Placebo|||-34.7|-47.8|<0.001
92267168|NCT05261126|184435735|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-55.7|||<|0.001|TWO_SIDED|95.0|-62.3|-49.1|||cLDA||MK-0616 12 mg minus Placebo|||-49.1|-62.3|<0.001
92267169|NCT05261126|184435735|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-59.1|||<|0.001|TWO_SIDED|95.0|-65.7|-52.5|||cLDA||MK-0616 18 mg minus Placebo|||-52.5|-65.7|<0.001
92267170|NCT05261126|184435735|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-60.9|||<|0.001|TWO_SIDED|95.0|-67.6|-54.3|||cLDA||MK-0616 30 mg minus Placebo|||-54.3|-67.6|<0.001
92267171|NCT05261126|184435736|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in Percentage|0.2|||||TWO_SIDED|95.0|-15.5|15.8|||||MK-0616 6 mg minus Placebo|||15.8|-15.5|
92267172|NCT05261126|184435736|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in Percentage|-4.5|||||TWO_SIDED|95.0|-20.0|11.2|||||MK-0616 12 mg vs Placebo|||11.2|-20.0|
92267173|NCT05261126|184435736|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in Percentage|-0.6|||||TWO_SIDED|95.0|-16.3|15.1|||||MK-0616 18 mg vs Placebo|||15.1|-16.3|
92267174|NCT05261126|184435736|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in Percentage|-1.9|||||TWO_SIDED|95.0|-17.5|13.8|||||MK-0616 30 mg minus Placebo|||13.8|-17.5|
92305357|NCT00899470|184513369|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of metformin. If 5% difference then 20 subjects provided 95% power to conclude BE with respect to AUC(INF) of metformin.|Geometric Mean Ratio, Test vs. Reference|1.042|||||TWO_SIDED|90.0|0.981|1.108|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(0-T) of metformin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log\[AUC(0-T)\] of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.108|0.981|
92305358|NCT00899470|184513370|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted ), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of metformin. If 5% difference then 20 subjects provided 95% power to conclude BE with respect to AUC(INF) of metformin.|Geometric Mean Ratio, Test vs. Reference|1.029|||||TWO_SIDED|90.0|0.973|1.088|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(INF) of metformin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: the geometric mean of the Reference formulation in fasted state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted state, linear mixed model analysis was performed on log\[AUC(INF)\] of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.088|0.973|
92305359|NCT00899470|184513370|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of metformin. If 5% difference then 20 subjects provided 95% power to conclude BE with respect to AUC(INF) of metformin.|Geometric Mean Ratio, Test vs. Reference|1.042|||||TWO_SIDED|90.0|0.986|1.102|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(INF) of metformin, the point estimate and 90% confidence interval (CI) were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log\[AUC(INF)\] of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.102|0.986|
92305360|NCT03456960|184513389|EQUIVALENCE|The difference in the least square means (LSM) between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90 percent (%) confidence interval (CI) were provided using a crossover analysis of variance (ANOVA) model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0059|||||TWO_SIDED|90.0|-0.034|0.0458||||||||0.0458|-0.0340|
92305361|NCT03456960|184513390|EQUIVALENCE|The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0508|||||TWO_SIDED|90.0|-0.0079|0.1096||||||||0.1096|-0.0079|
92305362|NCT03456960|184513391|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0546|||||TWO_SIDED|90.0|-0.0941|0.2034||||||||0.2034|-0.0941|
92188303|NCT00645411|184274739|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine (cTIV) was considered non-inferior to egg-derived vaccine (eTIV) in post vaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs (cTIV/eTIV) was \>0.667.|Ratio of GMTs|0.92|||||TWO_SIDED|95.0|0.79|1.08|||ANOVA|||Non-inferiority of cTIV to eTIV against A/H1N1 influenza strain as measured by HI cell-derived antigen assay.||1.08|0.79|
92305363|NCT03456960|184513391|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model will include a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0912|||||TWO_SIDED|90.0|0.0399|0.1424||||||||0.1424|0.0399|
92305364|NCT03456960|184513392|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0916|||||TWO_SIDED|90.0|-0.133|0.3162||||||||0.3162|-0.1330|
92188304|NCT00645411|184274739|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine (cTIV) was considered non-inferior to egg-derived vaccine (eTIV)in post vaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs (cTIV/eTIV) was \>0.667.|Ratio of GMTs|0.65|||||TWO_SIDED|95.0|0.54|0.78|||ANOVA|||Non-inferiority of cTIV to eTIV against A/H3N2 influenza strain as measured by HI cell-derived antigen assay.||0.78|0.54|
92188305|NCT00645411|184274739|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine (cTIV) was considered non-inferior to egg-derived vaccine (eTIV)in post vaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs (cTIV/eTIV)was \>0.667.|Ratio of GMTs|0.87|||||TWO_SIDED|95.0|0.71|1.06|||ANOVA|||Non-inferiority of cTIV to eTIV against B influenza strain as measured by HI cell-derived antigen assay.||1.06|0.71|
92305365|NCT03456960|184513392|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.2293|||||TWO_SIDED|90.0|0.1519|0.3068||||||||0.3068|0.1519|
92305366|NCT03456960|184513393|EQUIVALENCE|The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.01|||||TWO_SIDED|90.0|-0.0299|0.05||||||||0.0500|-0.0299|
92305367|NCT03456960|184513394|EQUIVALENCE|The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.0281|||||TWO_SIDED|90.0|-0.1662|0.11||||||||0.1100|-0.1662|
92305368|NCT03456960|184513395|EQUIVALENCE|The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.015|||||TWO_SIDED|90.0|-0.0448|0.0149||||||||0.0149|-0.0448|
92305369|NCT03456960|184513396|EQUIVALENCE|The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.0195|||||TWO_SIDED|90.0|-0.0676|0.0286||||||||0.0286|-0.0676|
92188306|NCT00645411|184274740|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%.|Difference in % (cTIV minus eTIV)|-1.0|||||TWO_SIDED|95.0|-4.0|1.0|||binomial or the method of Miettinen and|||Non-inferiority of cTIV to eTIV against A/H1N1 influenza strain as measured by HI egg-derived antigen assay.||1|-4|
92188307|NCT00645411|184274740|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%.|Difference % (cTIV - eTIV)|-9.0|||||TWO_SIDED|95.0|-13.0|-4.0|||binomial or Miettinen & Nurimen method|||Non-inferiority of cTIV to eTIV against A/H3N2 influenza strain as measured by HI egg-derived antigen assay.||-4|-13|
92305370|NCT03456960|184513397|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0547|||||TWO_SIDED|90.0|-0.0937|0.2032||||||||0.2032|-0.0937|
92305371|NCT03456960|184513397|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0654|||||TWO_SIDED|90.0|0.0141|0.1167||||||||0.1167|0.0141|
92305372|NCT03456960|184513398|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.146|||||TWO_SIDED|90.0|-0.2478|-0.0443||||||||-0.0443|-0.2478|
92305373|NCT03456960|184513398|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.1674|||||TWO_SIDED|90.0|-0.2084|-0.1264||||||||-0.1264|-0.2084|
92305374|NCT03456960|184513399|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.1193|||||TWO_SIDED|90.0|-0.2179|-0.0206||||||||-0.0206|-0.2179|
92188308|NCT00645411|184274740|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%.|Difference % (cTIV minus eTIV)|-15.0|||||TWO_SIDED|95.0|-21.0|-9.0|||binominal or Miettinen &Nurimen method|||Non-inferiority of cTIV to eTIV against B influenza strain as measured by HI egg-derived antigen assay.||-9|-21|
92305375|NCT03456960|184513399|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.1366|||||TWO_SIDED|90.0|-0.173|-0.1002||||||||-0.1002|-0.1730|
92305376|NCT03456960|184513400|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0148|||||TWO_SIDED|90.0|-0.0734|0.103||||||||0.1030|-0.0734|
92305377|NCT03456960|184513400|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.002|||||TWO_SIDED|90.0|-0.0463|0.0424||||||||0.0424|-0.0463|
92305378|NCT03456960|184513401|EQUIVALENCE|TAK-438F: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.2138|||||TWO_SIDED|90.0|0.1609|0.2667||||||||0.2667|0.1609|
92305379|NCT03456960|184513402|EQUIVALENCE|TAK-438F: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.2161|||||TWO_SIDED|90.0|0.1652|0.2671||||||||0.2671|0.1652|
92305380|NCT03456960|184513403|EQUIVALENCE|TAK-438F: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.219|||||TWO_SIDED|90.0|0.1675|0.2706||||||||0.2706|0.1675|
92305381|NCT03456960|184513404|EQUIVALENCE|TAK-438F: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.3653|||||TWO_SIDED|90.0|0.218|0.5126||||||||0.5126|0.2180|
92188309|NCT00645411|184274740|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%|Difference % (cTIV minus eTIV)|-1.0|||||TWO_SIDED|95.0|-3.0|2.0|||binominal or Miettinen &Nurimen method|||Non-inferiority of cTIV to eTIV against A/H1N1 influenza strain as measured by HI cell-derived antigen assay.||2|-3|
92305382|NCT03456960|184513407|EQUIVALENCE|Unchanged aspirin: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.2089|||||TWO_SIDED|90.0|-0.0061|0.4239||||||||0.4239|-0.0061|
92305383|NCT03456960|184513407|EQUIVALENCE|Salicylic acid: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.014|||||TWO_SIDED|90.0|-0.0639|0.0918||||||||0.0918|-0.0639|
92305384|NCT03456960|184513408|EQUIVALENCE|Unchanged aspirin: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.2099|||||TWO_SIDED|90.0|-0.0048|0.4246||||||||0.4246|-0.0048|
92305385|NCT03456960|184513408|EQUIVALENCE|Salicylic acid: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.0137|||||TWO_SIDED|90.0|-0.0712|0.0986||||||||0.0986|-0.0712|
92305386|NCT03456960|184513409|EQUIVALENCE|Unchanged aspirin: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.2096|||||TWO_SIDED|90.0|-0.0054|0.4246||||||||0.4246|-0.0054|
92188310|NCT00645411|184274740|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%.|Difference % (cTIV minus eTIV)|-5.0|||||TWO_SIDED|95.0|-9.5|0.0|||binominal or Miettinen &Nurimen method|||Non-inferiority of cTIV to eTIV against A/H3N2 influenza strain as measured by HI cell-derived antigen assay.||0|-9.5|
92188311|NCT00645411|184274740|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%.|Difference % (cTIV minus eTIV)|0.0|||||TWO_SIDED|95.0|-6.0|6.0|||binominal or Miettinen &Nurimen method|||Non-inferiority of cTIV to eTIV against B influenza strain as measured by HI cell-derived antigen assay.||6|-6|
92305387|NCT03456960|184513409|EQUIVALENCE|Salicylic acid: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.0201|||||TWO_SIDED|90.0|-0.069|0.1092||||||||0.1092|-0.0690|
92305388|NCT03456960|184513410|EQUIVALENCE|Unchanged aspirin: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.4058|||||TWO_SIDED|90.0|0.0803|0.7312||||||||0.7312|0.0803|
92305389|NCT03456960|184513410|EQUIVALENCE|Salicylic acid: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.1969|||||TWO_SIDED|90.0|0.1065|0.2873||||||||0.2873|0.1065|
92188312|NCT01867307|184274797|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-220.0|STANDARD_ERROR_OF_MEAN|55.5|<|0.0001|TWO_SIDED|95.0|-440.6|-202.7||P-value is from a paired t-test.|Paired t- test||Difference calculated as (Day 14 - baseline) values|Point estimates of the changes from baseline and 95% Confidence interval around the estimates on treatment day 14 were computed.||-202.7|-440.6|<0.0001
92305390|NCT00532935|184513419|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47|STANDARD_DEVIATION|1.1|<|0.001|TWO_SIDED|95.0|-0.66|-0.28|||ANCOVA|ANCOVA model included a term for treatment and a covariate for the baseline A1C value.||||-0.28|-0.66|<0.001
92305391|NCT00532935|184513420|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-27.6|STANDARD_DEVIATION|29.1|<|0.001|TWO_SIDED|95.0|-32.7|-22.4|||ANCOVA|ANCOVA model included a term for treatment and a covariate for the baseline FPG value.||||-22.4|-32.7|<0.001
92188313|NCT01867307|184274797|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-234.0|STANDARD_ERROR_OF_MEAN|25.8|<|0.0001|TWO_SIDED|95.0|-312.3|-201.5||P-value is from a paired t-test|Paired t-test||Difference calculated as (Day 14 - baseline) values|Point estimates of the changes from baseline and 95% Confidence interval around the estimates on treatment day 14 were computed.||-201.5|-312.3|<0.0001
92188314|NCT02168855|184274806|SUPERIORITY||Odds Ratio (OR)|1.39||||0.46|TWO_SIDED|95.0|0.58|3.29|||Regression, Logistic|This is a logistic regression model of the active versus placebo arm, while controlling for age and cigarettes smoked per day at enrollment.|The active arm is the numerator and the placebo arm is the denominator of the odds ratio|||3.29|0.58|0.46
92188315|NCT02168855|184274807|SUPERIORITY||Odds Ratio (OR)|1.9|||<|0.0001|TWO_SIDED|95.0|1.83|1.98|||Mixed Models Analysis|Includes random subject intercept effect|Reflects an odds ratio relative to a 10-unit increase in craving. Temptations are the numerator and background is the denominator.|||1.98|1.83|<0.0001
92188316|NCT02168855|184274808|SUPERIORITY||Odds Ratio (OR)|1.66|||<|0.0001|TWO_SIDED|95.0|1.51|1.83|||Mixed Models Analysis|Includes random subject intercept effect|Reflects an odds ratio relative to a 10-unit increase in negative affect T-score. Temptations are the numerator and background is the denominator.|||1.83|1.51|<0.0001
92305392|NCT00532935|184513421|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.2|STANDARD_DEVIATION|59.7|<|0.001|TWO_SIDED|95.0|-32.1|-8.3|||ANCOVA|ANCOVA model included a term for treatment and a covariate for the baseline 2-hour PMG value.||||-8.3|-32.1|<0.001
92188317|NCT02168855|184274809|SUPERIORITY||Odds Ratio (OR)|0.18|||<|0.0001|TWO_SIDED|95.0|0.14|0.21|||Regression, Logistic|Includes random subject intercept effect|Odds ratio where temptations are the numerator and background is the denominator, that no smoking cues were seen.|||0.21|0.14|<0.0001
92188318|NCT02168855|184274810|SUPERIORITY||Odds Ratio (OR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.15|0.23|||Regression, Logistic||Odds ratio where temptations are the numerator and background is the denominator, that no other people were seen smoking nearby.|||0.23|0.15|<0.0001
92188319|NCT03000829|184274811|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
92188320|NCT03000829|184274812|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|||||||0.86
92305393|NCT00532935|184513422|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.9|STANDARD_DEVIATION|40.3|<|0.001|TWO_SIDED|95.0|-19.0|-4.9|||ANCOVA|ANCOVA model included a term for treatment and a covariate for the baseline FPG value.||||-4.9|-19.0|<0.001
92305394|NCT00532935|184513423|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||<|0.001|TWO_SIDED|95.0|1.3|2.8||Based on a test of the odds ratio = 1, comparing the odds of having A1C \<7.0% at Week 32 in the Sitagliptin/Metformin 50/1000 mg b.i.d. group vs. the Pioglitazone 45 mg q.d. group.|Regression, Logistic|logistic regression model included a term for treatment and a covariate for the baseline A1C value.|This parameter estimate and 95% confidence interval correspond to the odds of having A1C \<7.0% at Week 32 in the Sitagliptin/Metformin 50/1000 mg b.i.d. group vs. the Pioglitazone 45 mg q.d. group.|||2.8|1.3|<0.001
92305395|NCT04135196|184513437|OTHER|||||||0.119|||||||Regression, Linear|||"The power analysis for the overall study was based on 12-month change in UD iBMC. The power calculation, based on pilot data, determined that 20 participants per group would have 80% power to detect a 1.0±1.1% change.~The null hypothesis was that change in UD iBMC was not proportional to strain magnitude. Raw change in iBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group."|"Overall model fit: R\^2=0.101, F=2.244, df1=2, df2=40, p=0.119~Contrast between the low strain magnitude group and the control group: B=0.015, Std. Error of estimate of B=0.007, Beta=0.374, t=2.114, p=0.041, 95% CI of B: \[0.001, 0.030\]~Contrast between the high strain magnitude group and the control group: B=0.009, Std. Error of estimate of B=0.007, Beta=0.221, t=1.247, p=0.220, 95% CI of B: \[-0.005, 0.022\]"|||0.119
92305396|NCT04135196|184513437|OTHER||||||<|0.01|||||||Regression, Linear|||The null hypothesis was that change in UD iBMC was not proportional to strain rate. Raw change in iBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.438, F=12.836, df1=2, df2=33, p=\<0.001~Contrast between the low strain rate group and the control group: B=0.036, Std. Error of estimate of B=0.009, Beta=0.599, t=4.050, p=\<0.001, 95% CI of B: \[0.018, 0.055\]~Contrast between the high strain rate group and the control group: B=0.041, Std. Error of estimate of B=0.009, Beta=0.678, t=4.589, p=\<0.001, 95% CI of B: \[0.023, 0.060\]"|||<0.01
92305397|NCT04135196|184513438|OTHER|||||||0.809|||||||Regression, Linear|||The null hypothesis was that change in UD cBMC was not proportional to strain magnitude. Raw change in cBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.011, F=0.213, df1=2, df2=40, p=0.809~Contrast between the low strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.006, Beta=0.039, t=0.209, p=0.836, 95% CI of B: \[-0.012, 0.014\]~Contrast between the high strain magnitude group and the control group: B=-0.002, Std. Error of estimate of B=0.006, Beta=-0.077, t=-0.412, p=0.682, 95% CI of B: \[-0.015, 0.010\]"|||0.809
92305398|NCT04135196|184513438|OTHER|||||||0.155|||||||Regression, Linear|||The null hypothesis was that change in UD cBMC was not proportional to strain rate. Raw change in cBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.107, F=1.971, df1=2, df2=33, p=0.155~Contrast between the low strain rate group and the control group: B=0.012, Std. Error of estimate of B=0.008, Beta=0.284, t=1.526, p=0.137, 95% CI of B: \[-0.004, 0.027\]~Contrast between the high strain rate group and the control group: B=0.014, Std. Error of estimate of B=0.008, Beta=0.342, t=1.837, p=0.075, 95% CI of B: \[-0.002, 0.030\]"|||0.155
92305399|NCT04135196|184513439|OTHER|||||||0.991|||||||Regression, Linear|||The null hypothesis was that change in UD ecBMC was not proportional to strain magnitude. Raw change in ecBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=\<0.001, F=0.009, df1=2, df2=40, p=0.991~Contrast between the low strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.009, Beta=0.025, t=0.133, p=0.894, 95% CI of B: \[-0.016, 0.018\]~Contrast between the high strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.008, Beta=0.012, t=0.063, p=0.950, 95% CI of B: \[-0.016, 0.017\]"|||0.991
92305400|NCT04135196|184513439|OTHER|||||||0.018|||||||Regression, Linear|||The null hypothesis was that change in UD ecBMC was not proportional to strain rate. Raw change in ecBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.216, F=4.548, df1=2, df2=33, p=0.018~Contrast between the low strain rate group and the control group: B=0.029, Std. Error of estimate of B=0.011, Beta=0.455, t=2.607, p=0.014, 95% CI of B: \[0.006, 0.052\]~Contrast between the high strain rate group and the control group: B=0.029, Std. Error of estimate of B=0.011, Beta=0.447, t=2.563, p=0.015, 95% CI of B: \[0.006, 0.052\]"|||0.018
92305401|NCT04135196|184513440|OTHER|||||||0.153|||||||Regression, Linear|||The null hypothesis was that change in UD tBMC was not proportional to strain magnitude. Raw change in tBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.090, F=1.968, df1=2, df2=40, p=0.153~Contrast between the low strain magnitude group and the control group: B=0.007, Std. Error of estimate of B=0.003, Beta=0.352, t=1.973, p=0.055, 95% CI of B: \[0.000, 0.013\]~Contrast between the high strain magnitude group and the control group: B=0.003, Std. Error of estimate of B=0.003, Beta=0.156, t=0.874, p=0.387, 95% CI of B: \[-0.004, 0.009\]"|||0.153
92305402|NCT04135196|184513440|OTHER|||||||0.001|||||||Regression, Linear|||The null hypothesis was that change in UD tBMC was not proportional to strain rate. Raw change in tBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.331, F=8.152, df1=2, df2=33, p=0.001~Contrast between the low strain rate group and the control group: B=0.012, Std. Error of estimate of B=0.004, Beta=0.473, t=2.930, p=0.006, 95% CI of B: \[0.004, 0.020\]~Contrast between the high strain rate group and the control group: B=0.016, Std. Error of estimate of B=0.004, Beta=0.617, t=3.828, p=0.001, 95% CI of B: \[0.008, 0.025\]"|||0.001
92188321|NCT03000829|184274813|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
92188322|NCT03000829|184274814|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
92188323|NCT03000829|184274815|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||||||0.63
92188324|NCT03000829|184274816|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|||||||0.62
92188325|NCT03000829|184274817|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
92188326|NCT03000829|184274818|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||0.40
92188327|NCT03000829|184274821|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|||||||0.92
92188328|NCT00091572|184274823|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.2663||95.0|0.8|1.06|||Log Rank||Temozolomide events (progressions/deaths) = 401. Dacarbazine events (progressions/deaths) = 398.|||1.06|0.80|0.2663
92188329|NCT00091572|184274824|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9999||95.0|0.86|1.17|||Log Rank||Temozolomide events (deaths) = 320. Dacarbazine events (deaths) = 325.|||1.17|0.86|0.9999
92188330|NCT00091572|184274825|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43||||0.0718||95.0|0.97|2.12|||Cochran-Mantel-Haenszel||Temozolomide numerator (responders) = 55. Dacarbazine numerator (responders) = 37.|||2.12|0.97|0.0718
92188331|NCT00267774|184274828|OTHER||||||<|0.0001||||||A 2-sided value of P\<0.05 was considered to indicate statistical significance.|t-test, 2 sided|||||||<0.0001
92188332|NCT03677986|184274844|SUPERIORITY||Odds Ratio (OR)|0.92||||0.914|TWO_SIDED|95.0|0.21|4.14|||GEE|||||4.14|.21|0.914
92305403|NCT04135196|184513441|OTHER|||||||0.84|||||||Regression, Linear|||The null hypothesis was that change in UD iBMD was not proportional to strain magnitude. Raw change in iBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.009, F=0.176, df1=2, df2=40, p=0.840~Contrast between the low strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.001, Beta=0.091, t=0.489, p=0.628, 95% CI of B: \[-0.002, 0.003\]~Contrast between the high strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.001, Beta=0.101, t=0.544, p=0.589, 95% CI of B: \[-0.002, 0.003\]"|||0.840
92305404|NCT04135196|184513441|OTHER||||||<|0.001|||||||Regression, Linear|||The null hypothesis was that change in UD iBMD was not proportional to strain rate. Raw change in iBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.563, F=21.225, df1=2, df2=33, p=\<0.001~Contrast between the low strain rate group and the control group: B=0.009, Std. Error of estimate of B=0.002, Beta=0.739, t=5.669, p=\<0.001, 95% CI of B: \[0.005, 0.012\]~Contrast between the high strain rate group and the control group: B=0.008, Std. Error of estimate of B=0.002, Beta=0.716, t=5.495, p=\<0.001, 95% CI of B: \[0.005, 0.012\]"|||<0.001
92305405|NCT04135196|184513442|OTHER|||||||0.202|||||||Regression, Linear|||The null hypothesis was that change in UD cBMD was not proportional to strain magnitude. Raw change in cBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.077, F=1.665, df1=2, df2=40, p=0.202~Contrast between the low strain magnitude group and the control group: B=-0.005, Std. Error of estimate of B=0.003, Beta=-0.303, t=-1.689, p=0.099, 95% CI of B: \[-0.012, 0.001\]~Contrast between the high strain magnitude group and the control group: B=-0.004, Std. Error of estimate of B=0.003, Beta=-0.266, t=-1.484, p=0.146, 95% CI of B: \[-0.010, 0.002\]"|||0.202
92305406|NCT04135196|184513442|OTHER|||||||0.381|||||||Regression, Linear|||The null hypothesis was that change in UD cBMD was not proportional to strain rate. Raw change in cBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.057, F=0.995, df1=2, df2=33, p=0.381~Contrast between the low strain rate group and the control group: B=0.004, Std. Error of estimate of B=0.003, Beta=0.254, t=1.327, p=0.194, 95% CI of B: \[-0.002, 0.011\]~Contrast between the high strain rate group and the control group: B=0.001, Std. Error of estimate of B=0.003, Beta=0.038, t=0.200, p=0.843, 95% CI of B: \[-0.006, 0.008\]"|||0.381
92188333|NCT00424502|184274853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.017|STANDARD_DEVIATION|1.34|<|0.0001|TWO_SIDED|95.0|1.39|2.64|||t-test, 2 sided|||Change from Baseline to Week 24||2.64|1.39|<0.0001
92188334|NCT00424502|184274854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.276|STANDARD_DEVIATION|0.259|<|0.0001|TWO_SIDED|95.0|0.151|0.401|||t-test, 2 sided|||Change from baseline to Week 24||0.401|0.151|<0.0001
92188335|NCT00424502|184274857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.4|STANDARD_DEVIATION|23.24||0.012|TWO_SIDED|95.0|3.52|25.28|||t-test, 2 sided|||Change from baseline to Week 24||25.28|3.52|0.012
92188336|NCT00424502|184274858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81|STANDARD_DEVIATION|8.21||0.337|TWO_SIDED|95.0|-2.03|5.65|||t-test, 2 sided|||Change from baseline to Week 24||5.65|-2.03|0.337
92188337|NCT00635609|184274865|SUPERIORITY_OR_OTHER|||||||0.765||95.0|||||Cochran-Mantel-Haenszel|Stratified on investigational site.||Study not adequately powered to detect differences in efficacy outcomes. Results to provide estimates of safety and efficacy outcomes.||||0.765
92188338|NCT00635609|184274866|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Cochran-Mantel-Haenszel|Stratified on investigational site.||Study not adequately powered to detect differences in efficacy outcomes. Results to provide estimates of safety and efficacy outcomes.||||0.290
92188339|NCT00635609|184274867|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Cochran-Mantel-Haenszel|Stratified on investigational site||Study not adequately powered to detect differences in efficacy outcomes. Results to provide estimates of safety and efficacy outcomes.||||0.033
92188340|NCT01044901|184274872|OTHER|||||||0.0039||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.0039
92188341|NCT01044901|184274873|OTHER||||||<|0.0001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney test).||||<0.0001
92188342|NCT01044901|184274874|OTHER|||||||0.0137|||||||t-test, 2 sided|P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.0137
92188343|NCT01044901|184274875|OTHER|||||||0.0039||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.0039
92188344|NCT01044901|184274876|OTHER|||||||0.16||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.16
92188345|NCT01044901|184274877|OTHER|||||||0.0039||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.0039
92188346|NCT01044901|184274878|OTHER|||||||0.0011||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney) test.||||0.0011
92305407|NCT04135196|184513443|OTHER|||||||0.697|||||||Regression, Linear|||The null hypothesis was that change in UD ecBMD was not proportional to strain magnitude. Raw change in ecBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.018, F=0.365, df1=2, df2=40, p=0.697~Contrast between the low strain magnitude group and the control group: B=-0.004, Std. Error of estimate of B=0.004, Beta=-0.158, t=-0.854, p=0.398, 95% CI of B: \[-0.012, 0.005\]~Contrast between the high strain magnitude group and the control group: B=-0.002, Std. Error of estimate of B=0.004, Beta=-0.078, t=-0.423, p=0.675, 95% CI of B: \[-0.010, 0.006\]"|||0.697
92305408|NCT04135196|184513443|OTHER|||||||0.018|||||||Regression, Linear|||The null hypothesis was that change in UD ecBMD was not proportional to strain rate. Raw change in ecBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.215, F=4.516, df1=2, df2=33, p=0.018~Contrast between the low strain rate group and the control group: B=0.014, Std. Error of estimate of B=0.005, Beta=0.484, t=2.773, p=0.009, 95% CI of B: \[0.004, 0.0524\]~Contrast between the high strain rate group and the control group: B=0.012, Std. Error of estimate of B=0.005, Beta=0.406, t=2.325, p=0.026, 95% CI of B: \[0.001, 0.022\]"|||0.018
92305409|NCT04135196|184513444|OTHER|||||||0.073|||||||Regression, Linear|||The null hypothesis was that change in UD tBMD was not proportional to strain magnitude. Raw change in tBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.123, F=2.799, df1=2, df2=40, p=0.073~Contrast between the low strain magnitude group and the control group: B=0.003, Std. Error of estimate of B=0.001, Beta=0.413, t=2.361, p=0.023, 95% CI of B: \[0.000, 0.006\]~Contrast between the high strain magnitude group and the control group: B=0.002, Std. Error of estimate of B=0.001, Beta=0.198, t=1.129, p=0.265, 95% CI of B: \[-0.001, 0.004\]"|||0.073
92305410|NCT04135196|184513444|OTHER||||||<|0.001|||||||Regression, Linear|||The null hypothesis was that change in UD tBMD was not proportional to strain rate. Raw change in tBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.480, F=15.256, df1=2, df2=33, p=\<0.001~Contrast between the low strain rate group and the control group: B=0.008, Std. Error of estimate of B=0.002, Beta=0.590, t=4.153, p=\<0.001, 95% CI of B: \[0.004, 0.012\]~Contrast between the high strain rate group and the control group: B=0.001, Std. Error of estimate of B=0.002, Beta=0.734, t=5.164, p=\<0.001, 95% CI of B: \[0.006, 0.014\]"|||<0.001
92305411|NCT04135196|184513445|OTHER|||||||0.101|||||||Regression, Linear|||The null hypothesis was that change in UD iBV was not proportional to strain magnitude. Raw change in iBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.108, F=2.428, df1=2, df2=40, p=0.101~Contrast between the low strain magnitude group and the control group: B=0.053, Std. Error of estimate of B=0.024, Beta=0.388, t=2.200, p=0.034, 95% CI of B: \[0.004, 0.101\]~Contrast between the high strain magnitude group and the control group: B=0.029, Std. Error of estimate of B=0.022, Beta=0.226, t=1.280, p=0.208, 95% CI of B: \[-0.017, 0.074\]"|||0.101
92305412|NCT04135196|184513445|OTHER|||||||0.344|||||||Regression, Linear|||The null hypothesis was that change in UD iBV was not proportional to strain rate. Raw change in iBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.063, F=01.103, df1=2, df2=33, p=0.344~Contrast between the low strain rate group and the control group: B=0.015, Std. Error of estimate of B=0.025, Beta=0.113, t=0.595, p=0.556, 95% CI of B: \[-0.036, 0.065\]~Contrast between the high strain rate group and the control group: B=0.038, Std. Error of estimate of B=0.025, Beta=0.283, t=1.481, p=0.148, 95% CI of B: \[-0.014, 0.089\]"|||0.344
92188347|NCT01044901|184274879|OTHER|||||||0.1||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney) test.||||0.10
92305413|NCT04135196|184513446|OTHER|||||||0.676|||||||Regression, Linear|||The null hypothesis was that change in UD cBV was not proportional to strain magnitude. Raw change in cBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.019, F=0.395, df1=2, df2=40, p=0.676~Contrast between the low strain magnitude group and the control group: B=0.012, Std. Error of estimate of B=0.015, Beta=0.146, t=0.787, p=0.436, 95% CI of B: \[-0.019, 0.042\]~Contrast between the high strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.014, Beta=0.013, t=0.070, p=0.945, 95% CI of B: \[-0.028, 0.029\]"|||0.676
92305414|NCT04135196|184513446|OTHER|||||||0.289|||||||Regression, Linear|||The null hypothesis was that change in UD cBV was not proportional to strain rate. Raw change in cBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|Overall model fit: R\^2=0.072, F=1.288, df1=2, df2=33, p=0.289 Contrast between the low strain rate group and the control group: B=0.014, Std. Error of estimate of B=0.018, Beta=0.154, t=0.814, p=0.422, 95% CI of B: \[-0.022, 0.051\] Contrast between the high strain rate group and the control group: B=0.029, Std. Error of estimate of B=0.018, Beta=0.304, t=1.604, p=0.118, 95% CI of B: \[-0.008, 0.066\]|||0.289
92305415|NCT04135196|184513447|OTHER|||||||0.096|||||||Regression, Linear|||The null hypothesis was that change in UD ecBV was not proportional to strain magnitude. Raw change in ecBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.111, F=2.491, df1=2, df2=40, p=0.096~Contrast between the low strain magnitude group and the control group: B=0.026, Std. Error of estimate of B=0.012, Beta=0.391, t=2.222, p=0.032, 95% CI of B: \[0.032, 0.049\]~Contrast between the high strain magnitude group and the control group: B=0.015, Std. Error of estimate of B=0.011, Beta=0.240, t=1.362, p=0.181, 95% CI of B: \[-0.007, 0.037\]"|||0.096
92305416|NCT04135196|184513447|OTHER|||||||0.344|||||||Regression, Linear|||The null hypothesis was that change in UD ecBV was not proportional to strain rate. Raw change in ecBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.063, F=1.103, df1=2, df2=33, p=0.344~Contrast between the low strain rate group and the control group: B=0.014, Std. Error of estimate of B=0.015, Beta=0.113, t=0.595, p=0.556, 95% CI of B: \[-0.036, 0.065\]~Contrast between the high strain rate group and the control group: B=0.038, Std. Error of estimate of B=0.025, Beta=0.283, t=1.481, p=0.148, 95% CI of B: \[-0.014, 0.089\]"|||0.344
92305417|NCT04135196|184513448|OTHER|||||||0.332|||||||Regression, Linear|||The null hypothesis was that change in UD tBV was not proportional to strain magnitude. Raw change in tBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.054, F=1.132, df1=2, df2=40, p=0.332~Contrast between the low strain magnitude group and the control group: B=0.016, Std. Error of estimate of B=0.011, Beta=0.271, t=1.493, p=0.143, 95% CI of B: \[-0.006, 0.039\]~Contrast between the high strain magnitude group and the control group: B=0.007, Std. Error of estimate of B=0.010, Beta=0.115, t=635, p=0.529, 95% CI of B: \[-0.014, 0.028\]"|||0.332
92305418|NCT04135196|184513448|OTHER|||||||0.399|||||||Regression, Linear|||The null hypothesis was that change in UD tBV was not proportional to strain rate. Raw change in tBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.054, F=0.946, df1=2, df2=33, p=0.399~Contrast between the low strain rate group and the control group: B=0.008, Std. Error of estimate of B=0.012, Beta=0.119, t=0.619, p=0.540, 95% CI of B: \[-0.017, 0.032\]~Contrast between the high strain rate group and the control group: B=0.017, Std. Error of estimate of B=0.012, Beta=0.264, t=1.375, p=0.178, 95% CI of B: \[-0.008, 0.042\]"|||0.399
92305419|NCT04135196|184513449|OTHER|||||||||||||||||The null hypothesis was that change in cortical thickness was not proportional to strain magnitude. At each time point, raw change relative to baseline was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"At each time point, the overall fit of the linear regression model was assessed with an F-test of overall significance. Additionally, the significance of each coefficient representing contrasts between each experimental group and the control group was assessed using t-tests.~There were no significant relationships found between change in cortical thickness and strain magnitude group at any time point (p\>0.05)."|||
92188348|NCT01044901|184274880|OTHER|||||||0.48||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.48
92188349|NCT01044901|184274881|OTHER|||||||0.08||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Fisher Exact|||Primary outcome was presented as frequencies and percentages, and then analyzed with a Fisher exact test.||||0.08
92188350|NCT01044901|184274882|OTHER|||||||0.91||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.91
92188351|NCT01044901|184274883|OTHER|||||||0.0038||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney) test.||||0.0038
92188352|NCT01044901|184274884|OTHER|||||||0.034||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.034
92305420|NCT04135196|184513449|OTHER|||||||||||||||||The null hypothesis was that change in cortical thickness was not proportional to strain rate. At each time point, raw change relative to baseline was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"At each time point, the overall fit of the linear regression model was assessed with an F-test of overall significance. Additionally, the significance of each coefficient representing contrasts between each experimental group and the control group was assessed using t-tests.~At 3 months, there was a significant overall linear relationship between change in cortical thickness and strain rate group. Additionally, the coefficient representing the contrast between the control group and the high strain rate group was also significant. All other comparisons were not statistically significant (p\>0.05).~Stats for 3 months:~Overall model fit: R\^2=0.258, F=4.519, df1=2, df2=26, p=0.021~Contrast between the high strain rate group and the control group: B=0.036, Std. Error of estimate of B=0.012, Beta=0.574, t=2.967, p=0.006, 95% CI of B: \[0.011, 0.061\]"|||
92305421|NCT04135196|184513450|OTHER|||||||||||||||||The null hypothesis was that change in bone volume fraction (BV/TV) was not proportional to strain magnitude. At each time point, raw change relative to baseline was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"At each time point, the overall fit of the linear regression model was assessed with an F-test of overall significance. Additionally, the significance of each coefficient representing contrasts between each experimental group and the control group was assessed using t-tests.~At 9 months, there was a significant overall linear relationship between change in BV/TV and strain magnitude group. Additionally, the coefficient representing the contrast between the control group and the low strain magnitude group was also significant. All other comparisons were not statistically significant (p\>0.05).~Stats for 9 months:~Overall model fit: R\^2=0.240, F=5.057, df1=2, df2=32, p=0.012~Contrast between the low strain magnitude group and the control group: B=0.003, Std. Error of estimate of B=0.001, Beta=0.562, t=3.180, p=0.003, 95% CI of B: \[0.001, 0.006\]"|||
92188353|NCT01044901|184274885|OTHER|||||||0.25||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Fisher Exact|||Primary outcome was presented was as frequencies and percentages, and then analyzed with a Fisher exact test.||||0.25
92305422|NCT04135196|184513450|OTHER||||||>|0.05|||||||Regression, Linear|||The null hypothesis was that change in bone volume fraction (BV/TV) was not proportional to strain rate. At each time point, raw change relative to baseline was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|At each time point, the overall fit of the linear regression model was assessed with an F-test of overall significance. Additionally, the significance of each coefficient representing contrasts between each experimental group and the control group was assessed using t-tests.|||>0.05
92305423|NCT01822574|184513509|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||ANOVA|||A p-value less than 0.05 was considered statistically significant.||||0.001
92305424|NCT01822574|184513510|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||A p-value less than 0.05 was considered statistically significant.||||<0.001
92305425|NCT01822574|184513511|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||ANOVA|||A p-value less than 0.05 was considered statistically significant.||||0.240
92305426|NCT04732221|184513526|SUPERIORITY||Treatment difference|-9.2||||0.068|TWO_SIDED|95.0|-21.3|2.9||A 1-sided p-value was obtained from fitting a Robust regression estimate based on a Huber-type M estimator including terms for treatment and WHO-FC (Class II and Class III/IV) at baseline|Robust Regression|Missing data at week 12 due to death were imputed using the worst observed value and other missingness were imputed using J2R method|Least Square Mean of the overall treatment difference with 95% confidence interval (CI) was reported|||2.9|-21.3|0.068
92188354|NCT01044901|184274886|OTHER|||||||0.0288||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney) test.||||0.0288
92188355|NCT01044901|184274887|OTHER|||||||0.14||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney) test.||||0.14
92305427|NCT04732221|184513526|SUPERIORITY||Treatment difference|-22.0|||<|0.001|TWO_SIDED|95.0|-33.7|-10.3||based on a Huber-type M estimator including terms for treatment and WHO-FC (Class II and Class III/IV) at baseline|Robust Regression|Missing data at week 12 due to death were imputed using the worst observed value and other missingness were imputed using J2R method|Least Square Mean of the overall treatment difference with 95% confidence interval (CI) was reported|||-10.3|-33.7|<0.001
92305428|NCT04732221|184513526|SUPERIORITY||Treatment difference|-19.9||||0.002|TWO_SIDED|95.0|-33.4|-6.4||A 1-sided p-value was obtained from fitting a Robust regression estimate based on a Huber-type M estimator including terms for treatment and WHO-FC (Class II and Class III/IV) at baseline|Robust Regression|Missing data at week 12 due to death were imputed using the worst observed value and other missingness were imputed using J2R method|Least Square Mean of the overall treatment difference with 95% confidence interval (CI) was reported|||-6.4|-33.4|0.002
92188356|NCT01044901|184274888|OTHER|||||||0.13||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.13
92188357|NCT01044901|184274889|OTHER|||||||0.81||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.81
92305429|NCT00824616|184513552|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.745|TWO_SIDED|95.0|-0.81|0.58|||Longitudinal Data Analysis (LDA) model|||||0.58|-0.81|0.745
92305430|NCT00824616|184513553|SUPERIORITY_OR_OTHER||Proportions|5.9||||0.537|TWO_SIDED|95.0|-13.7|25.4|||Miettinen & Nurminen method|||Between-treatment difference (MK-0941 group minus Placebo group) in the percentage of participants who experienced one or more episodes of hypoglycemia.||25.4|-13.7|0.537
92305431|NCT01783548|184513571|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.66||||0.002|TWO_SIDED|95.0|-1.08|-0.24||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||Based on other studies, the standard deviation for the change from baseline over the first 6 weeks of treatment in the average of AM and PM rTNSS is assumed to be 2.0. Using this standard deviation, 450 subjects aged 6 to 11 years (300 on active treatment of BDP and 150 on placebo) provide approximately 90% power to detect a difference of 0.65 in rTNSS change from baseline between treatment groups with a two-sided alpha level of 0.05.||-0.24|-1.08|0.002
92305432|NCT01783548|184513572|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.58||||0.004|TWO_SIDED|95.0|-0.99|-0.18||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.18|-0.99|0.004
92305433|NCT01783548|184513573|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.62||||0.002|TWO_SIDED|95.0|-1.0|-0.23||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.23|-1.00|0.002
92305434|NCT01783548|184513574|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.54||||0.004|TWO_SIDED|95.0|-0.91|-0.17||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.17|-0.91|0.004
92305435|NCT00552578|184513611|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.17||||0.523||95.0|0.0098|2.8215|||Fisher Exact|||Intent to treat||2.8215|0.0098|0.523
92305436|NCT00552578|184513613|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||No adjustment|Fisher Exact|||Fisher exact test was used and tested the hypothesis that neither group would be more likely to complete the study protocol.||||0.015
92305437|NCT01992523|184513614|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||t-test, 2 sided|||Continuous data were expressed as mean ± standard deviation or medians (quartiles) as appropriate, and categorical data as proportions (%). Data were compared by means of the chi-2 test or Fisher exact test for categorical variables and unpaired t test or Mann-Whitney U-test for continuous variables, as appropriate. A P value \< .05 was considered statistically significant. All tests were two-sided.||||0.006
92305438|NCT00296231|184513645|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|||Paired Student's t-test was used to compare pre and post intervention pCO2 values.||||0.011
92188358|NCT01044901|184274890|OTHER|||||||0.3||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.30
92188359|NCT03322514|184274892|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
92188360|NCT03322514|184274892|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Baseline to 12 weeks||||0.04
92188361|NCT03322514|184274892|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Baseline to 12 weeks||||0.1
92188362|NCT03322514|184274893|SUPERIORITY|||||||0.8|||||||ANOVA|||||||0.8
92188363|NCT03322514|184274893|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Baseline to 12 weeks||||0.3
92188364|NCT03322514|184274893|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Baseline to 12 weeks||||0.3
92188365|NCT03322514|184274894|SUPERIORITY|||||||0.9|||||||ANOVA|||||||0.9
92188366|NCT03322514|184274894|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||Baseline to 12 weeks||||0.4
92188367|NCT03322514|184274894|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||baseline to 12 weeks||||0.7
92267175|NCT05261126|184435738|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-32.8|||<|0.001|TWO_SIDED|95.0|-38.6|-26.9|||cLDA||MK-0616 6 mg minus Placebo|||-26.9|-38.6|<0.001
92267176|NCT05261126|184435738|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-45.8|||<|0.001|TWO_SIDED|95.0|-51.7|-39.9|||cLDA||MK-0616 12 mg minus Placebo|||-39.9|-51.7|<0.001
92267177|NCT05261126|184435738|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-48.7|||<|0.001|TWO_SIDED|95.0|-54.6|-42.8|||cLDA||MK-0616 18 mg minus Placebo|||-42.8|-54.6|<0.001
92267178|NCT05261126|184435738|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Square Means|-51.8|||<|0.001|TWO_SIDED|95.0|-57.7|-45.9|||cLDA||MK-0616 30 mg minus Placebo|||-45.9|-57.7|<0.001
92267179|NCT05261126|184435739|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-35.9|||<|0.001|TWO_SIDED|95.0|-42.4|-29.4|||cLDA||MK-0616 6 mg minus Placebo|||-29.4|-42.4|<0.001
92267180|NCT05261126|184435739|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-50.5|||<|0.001|TWO_SIDED|95.0|-57.0|-44.0|||cLDA||MK-0616 12 mg minus Placebo|||-44.0|-57.0|<0.001
92267181|NCT05261126|184435739|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-53.2|||<|0.001|TWO_SIDED|95.0|-59.7|-46.7|||cLDA||MK-0616 18 mg minus Placebo|||-46.7|-59.7|<0.001
92267182|NCT05261126|184435739|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-55.8|||<|0.001|TWO_SIDED|95.0|-62.3|-49.3|||cLDA||MK-0616 30 mg minus Placebo|||-49.3|-62.3|<0.001
92267183|NCT05261126|184435740|SUPERIORITY|One-sided p-value and difference in percentage based on Miettinen \& Nurminen method, with sample size weighting, stratified by background statin intensity.|Difference in Percentage|69.2|||<|0.001|TWO_SIDED|95.0|56.2|79.0|||Miettinen & Nurminen||MK-0616 6 mg minus Placebo|||79.0|56.2|<0.001
92267184|NCT05261126|184435740|SUPERIORITY|One-sided p-value and difference in percentage based on Miettinen \& Nurminen method, with sample size weighting, stratified by background statin intensity.|Difference in Percentage|75.2|||<|0.001|TWO_SIDED|95.0|62.9|84.0|||Miettinen & Nurminen method||MK-0616 12 mg minus Placebo|||84.0|62.9|<0.001
92267185|NCT05261126|184435740|SUPERIORITY|One-sided p-value and difference in percentage based on Miettinen \& Nurminen method, with sample size weighting, stratified by background statin intensity.|Difference in Percentage|79.2|||<|0.001|TWO_SIDED|95.0|67.1|87.1|||Miettinen & Nurminen method||MK-0616 18 mg minus Placebo|||87.1|67.1|<0.001
92267186|NCT05261126|184435740|SUPERIORITY|One-sided p-value and difference in percentage based on Miettinen \& Nurminen method, with sample size weighting, stratified by background statin intensity.|Difference in Percentage|79.5|||<|0.001|TWO_SIDED|95.0|67.9|87.4|||Miettinen & Nurminen method||MK-0616 30 mg minus Placebo|||87.4|67.9|<0.001
92267187|NCT03901274|184435755|SUPERIORITY||Slope|-0.16|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|95.0|-0.74|0.42|||||Parameter estimated with full information maximum likelihood|Intent-to-treat on three month outcomes with intake (i.e. Pretest covariate)||0.42|-0.74|
92267188|NCT03901274|184435755|SUPERIORITY||Slope|-0.65|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|95.0|-1.2|-0.09|||||Parameter estimated with full information maximum likelihood|Intent-to-treat on six month outcomes with intake (i.e. Pretest covariate)||-0.09|-1.20|
92267189|NCT04957979|184435808|SUPERIORITY||Mean Difference (Net)|-1.6||||0.19|TWO_SIDED|95.0|-4.1|0.1||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Negative value represents smaller change in Medical/Social clinics as compared to Medical/Nursing.|Null hypothesis: Average change in composite care quality outcome is not different between patients receiving care in Medical/Nursing Model clinics and those receiving care in Medical/Social Model clinics.||0.1|-4.1|0.19
92305439|NCT04091659|184513647|EQUIVALENCE|To determine if the two training approaches were comparable to one another a margin of +/- 1 was used in differences of both OOKS and OOAS scale scores based on previously established literature. An equivalence test of differences using two one-sided tests on data from a cluster-randomized design was conducted using structural equation modeling. Sample sizes of 35 and 57 in group two, obtained by sampling 9 clusters, achieve 85% power to detect equivalence. The significance level is 0.05.|Mean Difference (Final Values)|-0.18||||0.65|TWO_SIDED|95.0|-0.85|0.49|||SEM||||The control group, standard education was the reference for this model.|0.49|-0.85|0.65
92305440|NCT04091659|184513648|EQUIVALENCE|To determine if the two training approaches were comparable to one another a margin of +/- 1 was used in differences of both OOKS and OOAS scale scores based on previously established literature. An equivalence test of differences using two one-sided tests on data from a cluster-randomized design was conducted using structural equation modeling. Sample sizes of 35 and 57 in group two, obtained by sampling 9 clusters, achieve 85% power to detect equivalence. The significance level is 0.05.|Mean Difference (Final Values)|0.26||||0.02|TWO_SIDED|95.0|0.02|0.5|||SEM||The control group, standard education, was the reference|||0.50|0.02|0.02
92305441|NCT01243112|184513649|SUPERIORITY_OR_OTHER|||||||0.359||95.0|||||ANOVA|||Null Hypothesis is that no difference would be measured between treatment arms.||||0.359
92305442|NCT01243112|184513650|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||ANOVA|||||||0.490
92305443|NCT01447420|184513672|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Chi-squared|Participants without measurement at the end of the 24 week untreated follow-up period were considered as non-responders.||IL28B Genotypes (CC, CT or TT)||||0.0007
92305444|NCT01447420|184513675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68|||||TWO_SIDED|95.0|0.69|4.14|||||Odds Ratio for SVR estimated from the logistic regression model.|Anemia after the first month of treatment vs No anemia||4.14|0.69|
92305445|NCT01447420|184513675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.28|2.59|||||Odds Ratio for SVR estimated from the logistic regression model.|Anemia in the first month of treatment vs No anemia||2.59|0.28|
92305446|NCT01447420|184513675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.45|||||TWO_SIDED|95.0|2.27|13.12|||||Odds Ratio for SVR estimated from the logistic regression model.|IL28B - CC vs CT||13.12|2.27|
92305447|NCT01447420|184513675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.03|||||TWO_SIDED|95.0|1.19|13.61|||||Odds Ratio for SVR estimated from the logistic regression model.|IL28B - CC vs TT||13.61|1.19|
92305448|NCT05472662|184513677|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|1.86||||0.113|TWO_SIDED|95.0|-0.48|4.2|||ANCOVA|||"Statistical analysis performed on the data at 15 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||4.20|-0.48|0.113
92305449|NCT05472662|184513678|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|0.58||||0.483|TWO_SIDED|95.0|-1.1|2.25|||ANCOVA|||"Statistical analysis performed on the data at 5 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||2.25|-1.10|0.483
92305450|NCT05472662|184513678|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|0.23||||0.782|TWO_SIDED|95.0|-1.45|1.9|||ANCOVA|||"Statistical analysis performed on the data at 30 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||1.90|-1.45|0.782
92305451|NCT05472662|184513678|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|-0.4||||0.599|TWO_SIDED|95.0|-1.97|1.16|||ANCOVA|||"Statistical analysis performed on the data at 1 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||1.16|-1.97|0.599
92305452|NCT05472662|184513678|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|-0.13||||0.815|TWO_SIDED|95.0|-1.24|0.99|||ANCOVA|||"Statistical analysis performed on the data at 1.5 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||0.99|-1.24|0.815
92305453|NCT05472662|184513678|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|-0.69||||0.294|TWO_SIDED|95.0|-2.01|0.64|||ANCOVA|||"Statistical analysis performed on the data at 3 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||0.64|-2.01|0.294
92305454|NCT05472662|184513679|OTHER||Adjusted mean difference|0.015||||0.519|TWO_SIDED|95.0|-0.032|0.061|||ANCOVA|||"Statistical analysis performed on the data at 5 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.061|-0.032|0.519
92305455|NCT05472662|184513679|OTHER||Adjusted mean difference|0.061||||0.085|TWO_SIDED|95.0|-0.009|0.13|||ANCOVA|||"Statistical analysis performed on the data at 15 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.130|-0.009|0.085
92305456|NCT05472662|184513679|OTHER||Adjusted mean difference|0.004||||0.858|TWO_SIDED|95.0|-0.045|0.054|||ANCOVA|||"Statistical analysis performed on the data at 30 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.054|-0.045|0.858
92267190|NCT04957979|184435808|SUPERIORITY||Mean Difference (Net)|-3.3||||0.005|TWO_SIDED|95.0|-5.6|-1.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Negative value represents smaller change in Medical/Social clinics as compared to Medical/Nursing.|Null hypothesis: Average change in composite care quality outcome is not different between patients receiving care in Medical/Nursing Model clinics and those receiving care in Medical/Social Model clinics.||-1.0|-5.6|0.005
92267191|NCT04957979|184435809|SUPERIORITY||Incidence Rate Ratio|1.28||||0.02|TWO_SIDED|95.0|1.04|1.58||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher rates post-care coordination in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Poisson link function. Pre-care coordination measures were included as an independent variable when modeling post-measures to capture change related to care coordination initiation.||1.58|1.04|0.02
92267192|NCT04957979|184435809|SUPERIORITY||Incidence Rate Ratio|1.09||||0.45|TWO_SIDED|95.0|0.868|1.38||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher rates post-care coordination in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Poisson link function. Pre-care coordination measures were included as an independent variable when modeling post-measures to capture change related to care coordination initiation.||1.38|0.868|0.45
92267193|NCT04957979|184435810|SUPERIORITY||Incidence Rate Ratio|1.35||||0.01|TWO_SIDED|95.0|1.08|1.69||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher rates post-care coordination in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Poisson link function. Pre-care coordination measures were included as an independent variable when modeling post-measures to capture change related to care coordination initiation.||1.69|1.08|0.01
92267194|NCT04957979|184435810|SUPERIORITY||Incidence Rate Ratio|1.33||||0.08|TWO_SIDED|95.0|0.969|1.81||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher rates post-care coordination in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Poisson link function. Pre-care coordination measures were included as an independent variable when modeling post-measures to capture change related to care coordination initiation.||1.81|0.969|0.08
92267195|NCT04957979|184435811|SUPERIORITY||Odds Ratio (OR)|0.64||||0.0001|TWO_SIDED|95.0|0.51|0.81||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher likelihood of positive rating in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Binomial link function.||0.81|0.51|0.0001
92267196|NCT04957979|184435811|SUPERIORITY||Odds Ratio (OR)|1.2||||0.32|TWO_SIDED|95.0|0.84|1.72||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher likelihood of positive rating in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Binomial link function.||1.72|0.84|0.32
92267197|NCT04957979|184435812|SUPERIORITY||Odds Ratio (OR)|0.85||||0.14|TWO_SIDED|95.0|0.69|1.05||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher likelihood of positive rating in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Binomial link function.||1.05|0.69|0.14
92267198|NCT04957979|184435812|SUPERIORITY||Odds Ratio (OR)|0.74||||0.12|TWO_SIDED|95.0|0.51|1.08||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher likelihood of positive rating in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Binomial link function.||1.08|0.51|0.12
92267199|NCT04957979|184435813|SUPERIORITY||Odds Ratio (OR)|1.086||||0.914|TWO_SIDED|95.0|0.243|4.861||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||4.861|0.243|0.914
92267200|NCT04957979|184435813|SUPERIORITY||Odds Ratio (OR)|1.009||||0.987|TWO_SIDED|95.0|0.327|3.114||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||3.114|0.327|0.987
92267201|NCT04957979|184435814|SUPERIORITY||Odds Ratio (OR)|1.257||||0.204|TWO_SIDED|95.0|0.883|1.79||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.79|0.883|0.204
92267202|NCT04957979|184435814|SUPERIORITY||Odds Ratio (OR)|0.399||||0.04|TWO_SIDED|95.0|0.166|0.958|||Mixed Models Analysis|||||0.958|0.166|0.04
92188368|NCT00088452|184274895|SUPERIORITY||Odds Ratio (OR)|2.66|||<|0.001|TWO_SIDED|95.0|1.65|4.28|||Chi-squared||odds ratio with ethosuximide vs. lamotrigine|Calculations of sample size were based on the ability to detect a 20% difference in freedom-from failure rates (three pairwise comparisons) at 16 weeks with 80% power at a two-sided P value of 0.017 and one interim analysis. Sample size of 398 was increased to 446 subjects to account for two stratification factors and a 5% dropout rate; this sample size allowed the detection of a difference of 0.5 SD in the Confidence Index on the Conners' Continuous Performance Test with a power exceeding 80%.||4.28|1.65|<0.001
92188369|NCT00088452|184274895|SUPERIORITY||Odds Ratio (OR)|3.34|||<|0.001|TWO_SIDED|95.0|2.06|5.42|||Chi-squared||odds ratio with valproic acid vs. lamotrigine|Calculations of sample size were based on the ability to detect a 20% difference in freedom-from failure rates (three pairwise comparisons) at 16 weeks with 80% power at a two-sided P value of 0.017 and one interim analysis. Sample size of 398 was increased to 446 subjects to account for two stratification factors and a 5% dropout rate; this sample size allowed the detection of a difference of 0.5 SD in the Confidence Index on the Conners' Continuous Performance Test with a power exceeding 80%.||5.42|2.06|<0.001
92188370|NCT00088452|184274896|SUPERIORITY||Odds Ratio (OR)|1.95||||0.03|TWO_SIDED|95.0|1.12|3.41|||Chi-squared||Percentage of subjects with a Confidence Index score of 0.60 or higher in the valproic acid group than in the ethosuximide group|||3.41|1.12|0.03
92188371|NCT00088452|184274896|SUPERIORITY||Odds Ratio (OR)|3.04|||<|0.001|TWO_SIDED|95.0|1.69|5.49|||Chi-squared||Percentage of subjects with a Confidence Index score of 0.60 or higher in the valproic acid group than in the lamotrigine group|||5.49|1.69|<0.001
92188372|NCT00088452|184274897|SUPERIORITY||Odds Ratio (OR)|3.08|||<|0.001|TWO_SIDED|95.0|1.81|5.33|||Fisher Exact||Odds ratio for FFF for ethosuximide versus lamotrigine|||5.33|1.81|<0.001
92188373|NCT00088452|184274897|SUPERIORITY||Odds Ratio (OR)|2.88|||<|0.001|TWO_SIDED|95.0|1.68|5.02|||Fisher Exact||odds ratio for FFF for valproic acid versus lamotrigine|||5.02|1.68|<0.001
92305457|NCT05472662|184513679|OTHER||Adjusted mean difference|-0.011||||0.632|TWO_SIDED|95.0|-0.058|0.036|||ANCOVA|||"Statistical analysis performed on the data at 1 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.036|-0.058|0.632
92305458|NCT05472662|184513679|OTHER||Adjusted mean difference|-0.003||||0.846|TWO_SIDED|95.0|-0.038|0.031|||ANCOVA|||"Statistical analysis performed on the data at 1.5 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.031|-0.038|0.846
92188374|NCT02081196|184274904|OTHER||Mean Difference (Net)|4.13|STANDARD_DEVIATION|2.45|||TWO_SIDED|95.0|3.08|4.77|||||Treatment Effect =Control Flank Change-Treated Flank Change such (a positive results indicates treated area had a larger reduction in fat thickness than control area, and a negative result indicates that a greater reduction was seen in control area).|H0: μ(Control - Treated) \< +1 versus H1: μ(Control - Treated) \> +1||4.77|3.08|
92188375|NCT02081196|184274905|OTHER||sucess proportion|0.8476|||||TWO_SIDED|95.0|0.784|0.913|||||||Descriptive statistics (tabulation of Independent Panel Reviewer ratings) were used to analyze data.|.913|.784|
92188376|NCT04044352|184274918|OTHER|Likelihood ratio test was the statistical test.|Odds Ratio (OR)|0.81||||0.126|TWO_SIDED|95.0|0.62|1.06|||Wald Chi-Square||A two-fold increase in HAI pre-challenge titer (i.e. one unit increase in log-2 titer) corresponds to a 19% decrease in the odds of developing MMID during the study challenge period (Day 2 through Day 8).|Pre-challenge (baseline) HAI geometric mean titer was log-2 transformed and treated as a continuous variable in the model.||1.06|0.62|0.126
92188377|NCT00097708|184274959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.654|TWO_SIDED|95.0|-2.2|1.4|||ANCOVA|||||1.4|-2.2|0.6540
92188378|NCT00097708|184274959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2||||0.0005|TWO_SIDED|95.0|-5.0|-1.4|||ANCOVA|||||-1.4|-5.0|0.0005
92188379|NCT00097708|184274959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8||||0.0015|TWO_SIDED|95.0|1.1|4.5|||ANCOVA|||||4.5|1.1|0.0015
92305459|NCT05472662|184513679|OTHER||Adjusted mean difference|-0.024||||0.282|TWO_SIDED|95.0|-0.068|0.021|||ANCOVA|||"Statistical analysis performed on the data at 3 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.021|-0.068|0.282
92188380|NCT06091982|184274981|SUPERIORITY||Odds Ratio (OR)|10.6|||<|0.0001|TWO_SIDED|95.0|7.0|16.2|||Chi-squared|||Bivariable analysis of both groups||16.2|7.0|<0.0001
92188381|NCT06091982|184274981|OTHER|Multiple logistic regression|Odds Ratio, log|3.4|||<|0.0001|TWO_SIDED|95.0|2.0|6.1|||Regression, Logistic|||Multivariable analysis||6.1|2.0|<0.0001
92188382|NCT06091982|184274982|SUPERIORITY||Odds Ratio (OR)|12.5|||<|0.0001|TWO_SIDED|95.0|9.1|17.1|||Chi-squared|||||17.1|9.1|<0.0001
92188383|NCT06091982|184274982|SUPERIORITY||Odds Ratio, log|4.4|||<|0.0001|TWO_SIDED|95.0|2.8|7.0|||Regression, Logistic|||||7.0|2.8|<0.0001
92188384|NCT06091982|184274983|SUPERIORITY||Odds Ratio (OR)|15.6|||<|0.0001|TWO_SIDED|95.0|11.3|21.6|||Chi-squared|||||21.6|11.3|<0.0001
92188385|NCT06091982|184274983|OTHER||Odds Ratio, log|5.2|||<|0.0001|TWO_SIDED|95.0|3.3|8.2|||Regression, Logistic|||||8.2|3.3|<0.0001
92188386|NCT04198428|184275000|SUPERIORITY||Odds Ratio (OR)|1.49|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Mixed-model regression adjusted for site and clinic factors balanced at randomization||||||<0.05
92305460|NCT04420273|184513711|OTHER||||||<|0.001|||||||McNemar|McNemar's chi-square with continuity correction||1-month survey||||<0.001
92305461|NCT04420273|184513711|OTHER||||||<|0.001|||||||McNemar|McNemar's chi-square with continuity correction||2- months||||<0.001
92305462|NCT04420273|184513711|OTHER||||||<|0.001|||||||McNemar|McNemar's chi-square with continuity correction||3-months||||<0.001
92305463|NCT04420273|184513712|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92305464|NCT04420273|184513713|OTHER||||||<|0.1|||||||Chi-squared|||||||< 0.1
92305465|NCT04420273|184513714|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92305466|NCT04420273|184513715|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92305467|NCT04420273|184513716|OTHER|||||||0.459|||||||Chi-squared|||||||0.459
92305468|NCT04420273|184513716|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92305469|NCT04420273|184513717|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92305470|NCT02800213|184513745|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.280
92305471|NCT01948986|184513746|SUPERIORITY_OR_OTHER||Ratio (Heathy Normal/T2DM Normal)|103.07|||||TWO_SIDED|90.0|80.32|132.27|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||132.27|80.32|
92305472|NCT01948986|184513746|SUPERIORITY_OR_OTHER||Ratio (Mild Renal Impair./Pooled Norm.)|156.34|||||TWO_SIDED|90.0|127.83|191.23|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||191.23|127.83|
92305473|NCT01948986|184513746|SUPERIORITY_OR_OTHER||Ratio (Mod. Renal Impair./Pooled Norm.)|170.04|||||TWO_SIDED|90.0|139.02|207.98|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||207.98|139.02|
92305474|NCT01948986|184513746|SUPERIORITY_OR_OTHER||Ratio (Severe Renal Impair./Pooled Norm.|155.26|||||TWO_SIDED|90.0|124.38|193.8|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||193.80|124.38|
92305475|NCT01948986|184513747|SUPERIORITY_OR_OTHER||Ratio (Heathy Normal/T2DM Normal)|103.42|||||TWO_SIDED|90.0|80.66|132.61|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||132.61|80.66|
92305476|NCT01948986|184513747|SUPERIORITY_OR_OTHER||Ratio (Mild Renal Impair./Pooled Norm.)|151.63|||||TWO_SIDED|90.0|124.05|185.34|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||185.34|124.05|
92305477|NCT01948986|184513747|SUPERIORITY_OR_OTHER||Ratio (Mod. Renal Impair./Pooled Norm.)|168.11|||||TWO_SIDED|90.0|137.53|205.49|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||205.49|137.53|
92305478|NCT01948986|184513747|SUPERIORITY_OR_OTHER||Ratio (Severe Renal Impair./Pooled Norm.|151.8|||||TWO_SIDED|90.0|121.69|189.36|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||189.36|121.69|
92188387|NCT04198428|184275001|SUPERIORITY||Odds Ratio (OR)|1.76|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Mixed-model regression adjusted for site and clinic factors balanced at randomization||||||<0.05
92188388|NCT04198428|184275002|SUPERIORITY||Odds Ratio (OR)|1.43|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Mixed-model regression adjusted for site and clinic factors balanced at randomization||||||<0.05
92305479|NCT01948986|184513749|SUPERIORITY_OR_OTHER||Ratio (Heathy Normal/T2DM Normal)|101.57|||||TWO_SIDED|90.0|78.83|130.87|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||130.87|78.83|
92305480|NCT01948986|184513749|SUPERIORITY_OR_OTHER||Ratio (Mild Renal Impair./Pooled Norm.)|143.74|||||TWO_SIDED|90.0|117.15|176.37|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||176.37|117.15|
92305481|NCT01948986|184513749|SUPERIORITY_OR_OTHER||Ratio (Mod. Renal Impair./Pooled Norm.)|140.37|||||TWO_SIDED|90.0|114.4|172.23|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||172.23|114.40|
92305482|NCT01948986|184513749|SUPERIORITY_OR_OTHER||Ratio (Severe Renal Impair./Pooled Norm.|90.18|||||TWO_SIDED|90.0|71.99|112.96|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||112.96|71.99|
92305483|NCT01948986|184513756|SUPERIORITY_OR_OTHER||Ratio (Heathy Normal/T2DM Normal)|80.39|||||TWO_SIDED|90.0|59.41|108.76|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||108.76|59.41|
92305484|NCT01948986|184513756|SUPERIORITY_OR_OTHER||Ratio (Mild Renal Impair./Pooled Norm.)|53.46|||||TWO_SIDED|90.0|41.64|68.63|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||68.63|41.64|
92305485|NCT01948986|184513756|SUPERIORITY_OR_OTHER||Ratio (Mod. Renal Impair./Pooled Norm.)|43.45|||||TWO_SIDED|90.0|33.85|55.78|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||55.78|33.85|
92305486|NCT01948986|184513756|SUPERIORITY_OR_OTHER||Ratio (Severe Renal Impair./Pooled Norm.|29.02|||||TWO_SIDED|90.0|22.04|38.21|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||38.21|22.04|
92305487|NCT01948986|184513773|SUPERIORITY_OR_OTHER||Ratio: Mild Ren. Impa./T2DM Norm. Renal|76.73|||||TWO_SIDED|95.0|48.58|121.19|||||Adjusted geometrics mean values were used. The model was an ANOVA model with renal function group as a fixed effect.|||121.19|48.58|
92305488|NCT01948986|184513773|SUPERIORITY_OR_OTHER||Ratio: Mod. Ren. Impa./T2DM Norm. Renal|86.52|||||TWO_SIDED|95.0|54.78|136.65|||||Adjusted geometrics mean values were used. The model was an ANOVA model with renal function group as a fixed effect.|||136.65|54.78|
92305489|NCT01948986|184513773|SUPERIORITY_OR_OTHER||Ratio: Sev. Ren. Impa./T2DM Norm. Renal|72.74|||||TWO_SIDED|95.0|44.63|118.58|||||Adjusted geometrics mean values were used. The model was an ANOVA model with renal function group as a fixed effect.|||118.58|44.63|
92305490|NCT01948986|184513775|SUPERIORITY_OR_OTHER||Ratio (Mild Renal Impair./T2DM Norm. Ren|49.75|||||TWO_SIDED|90.0|27.22|90.93|||||The model was an ANOVA model with renal function group as a fixed effect.|||90.93|27.22|
92305491|NCT01948986|184513775|SUPERIORITY_OR_OTHER||Ratio (Mod. Renal Impair./T2DM Norm. Ren|38.1|||||TWO_SIDED|90.0|20.85|69.64|||||The model was an ANOVA model with renal function group as a fixed effect.|||69.64|20.85|
92305492|NCT01948986|184513775|SUPERIORITY_OR_OTHER||Ratio (Sev. Renal Impair./T2DM Norm. Ren|13.95|||||TWO_SIDED|90.0|7.32|26.58|||||The model was an ANOVA model with renal function group as a fixed effect.|||26.58|7.32|
92305493|NCT01584843|184513789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.83||||0.091|TWO_SIDED|95.0|-21.81|2.14||LSD=Least Significant Difference|Fisher LSD method|||||2.14|-21.81|0.091
92305494|NCT01584843|184513789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.08||||0.338|TWO_SIDED|95.0|-20.39|8.23|||Fisher LSD method|||||8.23|-20.39|0.338
92305495|NCT01584843|184513789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75||||0.524|TWO_SIDED|95.0|-9.83|17.33|||Fisher LSD method|||||17.33|-9.83|0.524
92305496|NCT01584843|184513789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.85||||0.031|TWO_SIDED|95.0|-24.46|-1.24|||Fisher LSD method|||||-1.24|-24.46|0.031
92305497|NCT01584843|184513789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.72||||0.005|TWO_SIDED|95.0|-28.06|-5.38|||Fisher LSD method|||||-5.38|-28.06|0.005
92305498|NCT01584843|184513789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.87||||0.49|TWO_SIDED|95.0|-15.21|7.47|||Fisher LSD method|||||7.47|-15.21|0.490
92305499|NCT00392236|184513806|SUPERIORITY_OR_OTHER|||||||0.083|||||||ANOVA|||||||0.083
92305500|NCT00643565|184513872|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.7189|TWO_SIDED|95.0|0.61|1.41|||Log Rank|||The HR was calculated based on a stratified Cox proportional hazards model, with stratification factors of age and histology/disease risk.||1.41|0.61|0.7189
92305501|NCT00643565|184513873|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.3211|TWO_SIDED|95.0|0.51|1.25|||Log Rank|||The HR was calculated based on a stratified Cox proportional hazards model, with stratification factors of age and histology/disease risk.||1.25|0.51|0.3211
92305502|NCT02283983|184513909|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92305503|NCT03275064|184513910|SUPERIORITY||Mean Difference (Net)|0.48|||||TWO_SIDED|90.0|-30.73|31.69|||Mixed Models Analysis|||Week 16||31.69|-30.73|
92305504|NCT03275064|184513910|SUPERIORITY||Mean Difference (Net)|3.68|||||TWO_SIDED|90.0|-27.04|34.4|||Mixed Models Analysis|||Week 28||34.40|-27.04|
92305505|NCT03275064|184513911|SUPERIORITY||Mean Difference (Final Values)|1.69|||||TWO_SIDED|90.0|-27.7|31.08|||Mixed Models Analysis|||Week 16||31.08|-27.70|
92188389|NCT04198428|184275003|SUPERIORITY||Risk Ratio (RR)|0.99|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Zero-inflated negative binomial mixed-model regression adjusted for site and clinic factors balanced at randomization||||||<0.05
92188390|NCT04198428|184275004|SUPERIORITY||Risk Ratio (RR)|0.93|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Generalized estimating equation comparing post- to pre-index rates in OUD-CDS vs. Usual Care, adjusted for site and balancing factors||||||<0.05
92188391|NCT04198428|184275005|SUPERIORITY||Risk Ratio (RR)|1.01|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Generalized estimating equation comparing post- to pre-index rates in OUD-CDS vs. Usual Care, adjusted for site and balancing factors||||||<0.05
92188392|NCT04198428|184275006|SUPERIORITY||Mean Difference (Net)|-1068.0|||<|0.05|TWO_SIDED||||||Mixed Models Analysis||Generalized estimating equation comparing post- to pre-index costs in OUD-CDS vs. Usual Care, adjusted for site and balancing factors|||||<0.05
92188393|NCT04198428|184275007|SUPERIORITY||Odds Ratio (OR)|1.06|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92188394|NCT04198428|184275008|SUPERIORITY||Risk Ratio (RR)|1.08|||<|0.05|TWO_SIDED||||||Mixed Models Analysis||Generalized estimating equation comparing post- to pre-index rates in OUD-CDS vs. Usual Care, adjusted for site and balancing factors|||||<0.05
92305506|NCT03275064|184513911|SUPERIORITY||Mean Difference (Net)|5.97|||||TWO_SIDED|90.0|-23.03|34.97|||Mixed Models Analysis|||Week 28||34.97|-23.03|
92305507|NCT03275064|184513912|SUPERIORITY||Mean Difference (Net)|0.88|||||TWO_SIDED|90.0|-47.27|49.04|||Mixed Models Analysis|||Week 16||49.04|-47.27|
92305508|NCT03275064|184513912|SUPERIORITY||Mean Difference (Net)|2.27|||||TWO_SIDED|90.0|-43.11|47.65|||Mixed Models Analysis|||Week 28||47.65|-43.11|
92305509|NCT03275064|184513913|SUPERIORITY|Week 29|Mean Difference (Net)|200.18||||0.0131|TWO_SIDED|90.0|54.53|345.83|||Mixed Models Analysis|||||345.83|54.53|0.0131
92305510|NCT03275064|184513913|SUPERIORITY||Mean Difference (Net)|141.87||||0.0544|TWO_SIDED|90.0|-3.83|287.56|||Mixed Models Analysis|||Week 29||287.56|-3.83|0.0544
92305511|NCT03275064|184513913|SUPERIORITY||Mean Difference (Net)|228.27||||0.0067|TWO_SIDED|90.0|80.87|375.67|||Mixed Models Analysis|||Week 53||375.67|80.87|0.0067
92305512|NCT03275064|184513913|SUPERIORITY||Mean Difference (Net)|116.21||||0.0931|TWO_SIDED|90.0|-29.52|261.94|||Mixed Models Analysis|||Week 53||261.94|-29.52|0.0931
92305513|NCT03275064|184513914|SUPERIORITY||Mean Difference (Net)|0.05||||0.0574|TWO_SIDED|90.0|0.0|0.1|||Mixed Models Analysis|||Week 29||0.10|-0.00|0.0574
92305514|NCT03275064|184513914|SUPERIORITY||Mean Difference (Net)|0.06||||0.0248|TWO_SIDED|90.0|0.01|0.11|||Mixed Models Analysis|||Week 29||0.11|0.01|0.0248
92305515|NCT03275064|184513914|SUPERIORITY||Mean Difference (Net)|0.01||||0.3864|TWO_SIDED|90.0|-0.05|0.07|||Mixed Models Analysis|||Week 53||0.07|-0.05|0.3864
92305516|NCT03275064|184513914|SUPERIORITY||Mean Difference (Net)|0.02||||0.329|TWO_SIDED|90.0|-0.05|0.08|||Mixed Models Analysis|||Week 53||0.08|-0.05|0.3290
92305517|NCT03275064|184513915|SUPERIORITY||Mean Difference (Net)|4.75||||0.6184|TWO_SIDED|90.0|-21.36|30.85|||Mixed Models Analysis|||Week 16||30.85|-21.36|0.6184
92305518|NCT03275064|184513915|OTHER||Mean Difference (Net)|-7.32||||0.3194|TWO_SIDED|90.0|-33.16|18.53|||Mixed Models Analysis|||Week 28||18.53|-33.16|0.3194
92305519|NCT03275064|184513916|SUPERIORITY||Mean Difference (Net)|3.38|||||TWO_SIDED|90.0|-1.72|8.47|||Mixed Models Analysis|||Week 29||8.47|-1.72|
92305520|NCT03275064|184513916|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|90.0|-5.22|5.01|||Mixed Models Analysis|||Week 29||5.01|-5.22|
92305521|NCT03275064|184513916|SUPERIORITY||Mean Difference (Net)|-1.14|||||TWO_SIDED|90.0|-6.42|4.15|||Mixed Models Analysis|||Week 53||4.15|-6.42|
92305522|NCT03275064|184513916|SUPERIORITY||Mean Difference (Net)|-7.44|||||TWO_SIDED|90.0|-12.68|-2.2|||Mixed Models Analysis|||Week 53||-2.20|-12.68|
92305523|NCT03275064|184513917|SUPERIORITY||Mean Difference (Net)|2.09|||||TWO_SIDED|90.0|-3.49|7.66|||Mixed Models Analysis|||Week 29||7.66|-3.49|
92305524|NCT03275064|184513917|SUPERIORITY||Mean Difference (Net)|0.82|||||TWO_SIDED|90.0|-4.82|6.45|||Mixed Models Analysis|||Week 29||6.45|-4.82|
92305525|NCT03275064|184513917|SUPERIORITY||Mean Difference (Net)|2.29|||||TWO_SIDED|90.0|-3.54|8.11|||Mixed Models Analysis|||Week 53||8.11|-3.54|
92305526|NCT03275064|184513917|SUPERIORITY||Mean Difference (Net)|-5.96|||||TWO_SIDED|90.0|-11.81|-0.1|||Mixed Models Analysis|||Week 53||-0.10|-11.81|
92305527|NCT03275064|184513918|SUPERIORITY||Mean Difference (Net)|3.47|||||TWO_SIDED|90.0|-2.21|9.15|||Mixed Models Analysis|||Week 29||9.15|-2.21|
92305528|NCT03275064|184513918|SUPERIORITY||Mean Difference (Net)|-0.63|||||TWO_SIDED|90.0|-6.31|5.04|||Mixed Models Analysis|||Week 29||5.04|-6.31|
92305529|NCT03275064|184513918|SUPERIORITY||Mean Difference (Net)|-2.63|||||TWO_SIDED|90.0|-8.07|2.82|||Mixed Models Analysis|||Week 53||2.82|-8.07|
92305530|NCT03275064|184513918|SUPERIORITY||Mean Difference (Net)|-8.16|||||TWO_SIDED|90.0|-13.61|-2.72|||Mixed Models Analysis|||Week 53||-2.72|-13.61|
92305531|NCT03055650|184513930|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.05.||Change from Baseline in Meibomian Gland Secretion Total Score at Week 1||||<0.0001
92305532|NCT03055650|184513930|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.05.||Change from Baseline in Meibomian Gland Secretion Total Score at Month 1||||<0.0001
92305533|NCT03055650|184513931|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.05.||Change From Baseline in Tear Break-Up Time (TBUT) at Week 1||||<0.0001
92305534|NCT03055650|184513931|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.05.||Change From Baseline in Tear Break-Up Time (TBUT) at Month 1||||<0.0001
92305535|NCT03055650|184513932|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.025.||Change From Baseline in Standard Patient Evaluation of Eye Dryness (SPEED) Total Score at Week 1||||<0.0001
92305536|NCT03055650|184513932|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.025.||Change From Baseline in Standard Patient Evaluation of Eye Dryness (SPEED) Total Score at Month 1||||<0.0001
92305537|NCT03055650|184513933|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.025.||||||<0.0001
92305538|NCT04305496|184513952|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.001|TWO_SIDED|95.0|0.51|0.71|||Stratified log rank test|||||0.71|0.51|<0.001
92305539|NCT04305496|184513953|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.001|TWO_SIDED|95.0|0.51|0.71|||Stratified log rank test|||||0.71|0.51|<0.001
92305540|NCT04305496|184513954|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.38|0.65|||Stratified log-rank test|||||0.65|0.38|<0.001
92188395|NCT00627523|184275014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|0.82|1.59||ANCOVA model, fitting treatment as a factor, and the baseline parameter value as covariate was used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference in the mean change from Baseline after 24 months in height SDS between the Genotropin® and the untreated control groups. The alternative hypothesis was that there was a difference between the treatment groups.||1.59|0.82|<0.001
92188396|NCT00627523|184275015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|0.81||0.348|TWO_SIDED|95.0|-0.87|2.42||ANCOVA model, fitting treatment as a factor, and the baseline parameter value as covariate was used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference between the Genotropin® and the untreated control group in terms of the relevant secondary endpoints. The alternative hypothesis was that a difference existed.||2.42|-0.87|0.348
92305541|NCT04305496|184513955|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.38|0.65|||Stratified log-rank test|||||0.65|0.38|<0.001
92305542|NCT04305496|184513956|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.001|TWO_SIDED|95.0|0.34|0.76|||Stratified log rank test|||||0.76|0.34|<0.001
92305543|NCT04305496|184513957|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.001|TWO_SIDED|95.0|0.34|0.76|||Stratified log rank test|||||0.76|0.34|<0.001
92305544|NCT04305496|184513958|SUPERIORITY||Hazard Ratio (HR)|0.41||||0.016|TWO_SIDED|95.0|0.19|0.85|||Stratified log rank test|||||0.85|0.19|0.016
92305545|NCT04305496|184513959|SUPERIORITY||Hazard Ratio (HR)|0.41||||0.016|TWO_SIDED|95.0|0.19|0.85|||Stratified log rank test|||||0.85|0.19|0.016
92305546|NCT02912650|184513976|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|30.08|||<|0.001|TWO_SIDED|95.0|24.14|36.02|||ANCOVA|||Treatment difference and 95 percent (%) confidence interval (CI) were based on LS Mean from analysis of covariance (ANCOVA) with treatment, gender, baseline categorical pain severity rating (PSR) as classification variables and baseline numerical PSR used as a continuous covariate.||36.02|24.14|<0.001
92305547|NCT02912650|184513976|SUPERIORITY_OR_OTHER||LS Mean Difference|5.66||||0.008|TWO_SIDED|95.0|1.51|9.8|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||9.80|1.51|0.008
92305548|NCT02912650|184513976|SUPERIORITY_OR_OTHER||LS Mean Difference|14.76|||<|0.001|TWO_SIDED|95.0|10.55|18.97|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||18.97|10.55|<0.001
92305549|NCT02912650|184513976|SUPERIORITY_OR_OTHER||LS Mean Difference|24.42|||<|0.001|TWO_SIDED|95.0|18.5|30.35|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||30.35|18.50|<0.001
92305550|NCT02912650|184513976|SUPERIORITY_OR_OTHER||LS Mean Difference|15.32|||<|0.001|TWO_SIDED|95.0|9.35|21.29|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||21.29|9.35|<0.001
92305551|NCT02912650|184513976|SUPERIORITY_OR_OTHER||LS Mean Difference|9.1|||<|0.001|TWO_SIDED|95.0|4.9|13.31|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||13.31|4.90|<0.001
92305552|NCT02912650|184513977|SUPERIORITY_OR_OTHER||LS Mean Difference|9.26|||<|0.001|TWO_SIDED|95.0|6.59|11.94|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||11.94|6.59|<0.001
92305553|NCT02912650|184513977|SUPERIORITY_OR_OTHER||LS Mean Difference|1.84||||0.053|TWO_SIDED|95.0|-0.03|3.71|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.71|-0.03|0.053
92305554|NCT02912650|184513977|SUPERIORITY_OR_OTHER||LS Mean Difference|5.59|||<|0.001|TWO_SIDED|95.0|3.69|7.49|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||7.49|3.69|<0.001
92305555|NCT02912650|184513977|SUPERIORITY_OR_OTHER||LS Mean Difference|7.42|||<|0.001|TWO_SIDED|95.0|4.75|10.09|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||10.09|4.75|<0.001
92305556|NCT02912650|184513977|SUPERIORITY_OR_OTHER||LS Mean Difference|3.67||||0.008|TWO_SIDED|95.0|0.98|6.36|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||6.36|0.98|0.008
92305557|NCT02912650|184513977|SUPERIORITY_OR_OTHER||LS Mean Difference|3.75|||<|0.001|TWO_SIDED|95.0|1.85|5.64|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.64|1.85|<0.001
92305558|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|13.05|||<|0.001|TWO_SIDED|95.0|10.39|15.71|||ANOVA|||0-8 hours: Treatment difference and 95% CI were based on LS Mean from analysis of variance (ANOVA) with treatment, gender and baseline categorical PSR.||15.71|10.39|<0.001
92305559|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|3.01||||0.002|TWO_SIDED|95.0|1.15|4.86|||ANOVA|||0 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.86|1.15|0.002
92188397|NCT00627523|184275016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|0.55|1.23||ANCOVA model, fitting treatment as a factor, and the baseline parameter value as covariate was used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference between the Genotropin® and the untreated control group in terms of the relevant secondary endpoints. The alternative hypothesis was that a difference existed.||1.23|0.55|<0.001
92188398|NCT00627523|184275017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.24|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|1.63|4.85||ANCOVA model, fitting treatment as a factor, and the baseline parameter value as covariate was used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference between the Genotropin® and the untreated control group in terms of the relevant secondary endpoints. The alternative hypothesis was that a difference existed.||4.85|1.63|<0.001
92188399|NCT00627523|184275018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.43|STANDARD_ERROR_OF_MEAN|7.19||0.738|TWO_SIDED|95.0|-12.27|17.12||ANCOVA model, fitting treatment as a factor, and the baseline parameter value, age, and gender as covariates were used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference between the Genotropin® and the untreated control group in terms of the relevant secondary endpoints. The alternative hypothesis was that a difference existed.||17.12|-12.27|0.738
92188400|NCT00627523|184275019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.51|STANDARD_ERROR_OF_MEAN|4.27||0.301|TWO_SIDED|95.0|-13.27|4.26||ANCOVA model, fitting treatment as a factor, and the baseline parameter value, age, and gender as covariates were used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference between the Genotropin® and the untreated control group in terms of the relevant secondary endpoints. The alternative hypothesis was that a difference existed.||4.26|-13.27|0.301
92305560|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|6.94|||<|0.001|TWO_SIDED|95.0|5.06|8.83|||ANOVA|||0 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.83|5.06|<0.001
92188401|NCT05030467|184275024|SUPERIORITY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.39|0.31||||||We used generalized estimating equations (GEE) to adjust for the cluster design with an identify link function and normally-distributed errors||0.31|-0.39|
92188402|NCT05030467|184275025|SUPERIORITY||Risk Ratio (RR)|1.02||||0.011|TWO_SIDED|95.0|1.0|1.03|||Regression, Logistic|||Outcomes were evaluated using generalized estimating equations with a log link and Poisson-distributed errors, adjusting for clinic-level clustering.||1.03|1.00|0.011
92188403|NCT05030467|184275028|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.383|TWO_SIDED|95.0|-0.38|0.15|||Regression, Linear|||We used generalized estimating equations (GEE) to adjust for the cluster design with an identify link function and normally-distributed errors||0.15|-0.38|0.383
92305561|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|10.05|||<|0.001|TWO_SIDED|95.0|7.39|12.7|||ANOVA|||0 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||12.70|7.39|<0.001
92305562|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|6.11|||<|0.001|TWO_SIDED|95.0|3.44|8.78|||ANOVA|||0 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.78|3.44|<0.001
92305563|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|3.94|||<|0.001|TWO_SIDED|95.0|2.06|5.81|||ANOVA|||0 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.81|2.06|<0.001
92305564|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|3.84|||<|0.001|TWO_SIDED|95.0|2.63|5.05|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.05|2.63|<0.001
92305565|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07||||0.013|TWO_SIDED|95.0|0.23|1.92|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.92|0.23|0.013
92305566|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|2.69|||<|0.001|TWO_SIDED|95.0|1.83|3.55|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.55|1.83|<0.001
92305567|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|2.77|||<|0.001|TWO_SIDED|95.0|1.56|3.98|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.98|1.56|<0.001
92305568|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|1.15||||0.064|TWO_SIDED|95.0|-0.07|2.37|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.37|-0.07|0.064
92305569|NCT02912650|184513978|SUPERIORITY_OR_OTHER||LS Mean Difference|1.62|||<|0.001|TWO_SIDED|95.0|0.76|2.47|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.47|0.76|<0.001
92305570|NCT02912650|184513979|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
92305571|NCT02912650|184513979|SUPERIORITY_OR_OTHER|||||||0.069|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.069
92305572|NCT02912650|184513979|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
92305573|NCT02912650|184513979|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
92305574|NCT02912650|184513979|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
92305575|NCT02912650|184513979|SUPERIORITY_OR_OTHER|||||||0.005|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.005
92305576|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-45.27|||<|0.001|TWO_SIDED|95.0|-58.96|-31.58|||Cochran-Mantel-Haenszel|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-31.58|-58.96|<0.001
92305577|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-8.88||||0.064|TWO_SIDED|95.0|-18.27|0.5|||Cochran-Mantel-Haenszel|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||0.50|-18.27|0.064
92305578|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-26.98|||<|0.001|TWO_SIDED|95.0|-36.91|-17.05|||ANOVA|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-17.05|-36.91|<0.001
92188404|NCT01136733|184275036|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||=|0.0005|TWO_SIDED|95.0|0.24|0.68|||Log Rank||Hazard ratio between treatment groups and corresponding 95% CI was estimated using the stratified Cox regression model (stratified by hemoglobin and corrected serum calcium) with treatment as a factor.|Null hypothesis of no difference in PFS was analyzed using the stratified log-rank test with hemoglobin (less than or equal to 13 g/dL vs greater than 13 g/dL for males; and less than or equal to 11.5 g/dL vs greater than 11.5 g/dL for females) and corrected serum calcium (greater than or equal to 10 mg/dL vs less than 10 mg/dL) as stratification factors. Each null hypothesis was tested at a nominal alpha=0.05.||0.68|0.24|=0.0005
92188405|NCT01136733|184275036|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.0479|TWO_SIDED|95.0|0.38|0.98|||Log Rank|||||0.98|0.38|0.0479
92188406|NCT01136733|184275036|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.1209|TWO_SIDED|95.0|0.39|1.1|||Log Rank|||||1.10|0.39|0.1209
92305579|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-36.26|||<|0.001|TWO_SIDED|95.0|-50.45|-22.07|||Cochran-Mantel-Haenszel|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-22.07|-50.45|<0.001
92305580|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-18.58||||0.01|TWO_SIDED|95.0|-32.64|-4.52|||Cochran-Mantel-Haenszel|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-4.52|-32.64|0.010
92305581|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-18.17|||<|0.001|TWO_SIDED|95.0|-28.44|-7.9|||Cochran-Mantel-Haenszel|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-7.90|-28.44|<0.001
92305582|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-57.58|||<|0.001|TWO_SIDED|95.0|-70.44|-44.72|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-44.72|-70.44|<0.001
92305583|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.28||||0.004|TWO_SIDED|95.0|-18.99|-3.57|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-3.57|-18.99|0.004
92305584|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-28.06|||<|0.001|TWO_SIDED|95.0|-36.77|-19.35|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-19.35|-36.77|<0.001
92305585|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-46.01|||<|0.001|TWO_SIDED|95.0|-59.98|-32.04|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-32.04|-59.98|<0.001
92305586|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-29.7|||<|0.001|TWO_SIDED|95.0|-43.65|-15.75|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-15.75|-43.65|<0.001
92305587|NCT02912650|184513980|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-16.94|||<|0.001|TWO_SIDED|95.0|-26.59|-7.29|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-7.29|-26.59|<0.001
92305588|NCT02912650|184513981|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
92305589|NCT02912650|184513981|SUPERIORITY_OR_OTHER|||||||0.003|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.003
92305590|NCT02912650|184513981|SUPERIORITY_OR_OTHER|||||||0.031|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.031
92305591|NCT02912650|184513981|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
92305592|NCT02912650|184513981|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
92305593|NCT02912650|184513981|SUPERIORITY_OR_OTHER|||||||0.631|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.631
92305594|NCT02912650|184513982|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
92305595|NCT02912650|184513982|SUPERIORITY_OR_OTHER|||||||0.088|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.088
92305596|NCT02912650|184513982|SUPERIORITY_OR_OTHER|||||||0.133|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.133
92305597|NCT02912650|184513982|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
92305598|NCT02912650|184513982|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
92305599|NCT02912650|184513982|SUPERIORITY_OR_OTHER|||||||0.887|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.887
92305600|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|||<|0.001|TWO_SIDED|95.0|0.14|0.52|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.52|0.14|<0.001
92305601|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15||||0.034|TWO_SIDED|95.0|0.01|0.28|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.28|0.01|0.034
92305602|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.963|TWO_SIDED|95.0|-0.13|0.14|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.14|-0.13|0.963
92188407|NCT01136733|184275037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.514|||=|0.0242|TWO_SIDED|95.0|0.299|0.884|||Log Rank||Hazard ratio between treatment groups and corresponding 95% CI was estimated using the stratified Cox regression model (stratified by hemoglobin and corrected serum calcium) with treatment as a factor.|Planned analyses were performed to test null hypothesis of treatment difference in OS at a nominal significance level of 0.05 (2-sided) using the stratified log-rank test using stratification factors.||0.884|0.299|=0.0242
92188408|NCT01136733|184275037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.684|||=|0.1181|TWO_SIDED|95.0|0.411|1.138|||Log Rank|||||1.138|0.411|=0.1181
92305603|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.062|TWO_SIDED|95.0|-0.01|0.37|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.37|-0.01|0.062
92305604|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.001|TWO_SIDED|95.0|0.13|0.52|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.52|0.13|0.001
92305605|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14||||0.04|TWO_SIDED|95.0|-0.28|-0.01|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||-0.01|-0.28|0.040
92305606|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.99|||<|0.001|TWO_SIDED|95.0|0.7|1.27|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.27|0.70|<0.001
92305607|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17||||0.095|TWO_SIDED|95.0|-0.03|0.37|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.37|-0.03|0.095
92305608|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.414|TWO_SIDED|95.0|-0.12|0.29|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.29|-0.12|0.414
92305609|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81|||<|0.001|TWO_SIDED|95.0|0.52|1.1|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.10|0.52|<0.001
92305610|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|||<|0.001|TWO_SIDED|95.0|0.61|1.19|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.19|0.61|<0.001
92305611|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.406|TWO_SIDED|95.0|-0.29|0.12|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.12|-0.29|0.406
92305612|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.75|||<|0.001|TWO_SIDED|95.0|1.4|2.09|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.09|1.40|<0.001
92305613|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.006|TWO_SIDED|95.0|0.1|0.58|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.58|0.10|0.006
92305614|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33||||0.009|TWO_SIDED|95.0|0.08|0.57|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.57|0.08|0.009
92305615|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.41|||<|0.001|TWO_SIDED|95.0|1.07|1.75|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.75|1.07|<0.001
92305616|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.42|||<|0.001|TWO_SIDED|95.0|1.08|1.77|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.77|1.08|<0.001
92305617|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01||||0.908|TWO_SIDED|95.0|-0.26|0.23|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.23|-0.26|0.908
92305618|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.99|||<|0.001|TWO_SIDED|95.0|1.64|2.35|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.35|1.64|<0.001
92305619|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39||||0.002|TWO_SIDED|95.0|0.15|0.64|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.64|0.15|0.002
92305620|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57|||<|0.001|TWO_SIDED|95.0|0.32|0.82|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.82|0.32|<0.001
92305621|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|||<|0.001|TWO_SIDED|95.0|1.25|1.95|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.95|1.25|<0.001
92305622|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.42|||<|0.001|TWO_SIDED|95.0|1.07|1.78|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.78|1.07|<0.001
92305623|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.157|TWO_SIDED|95.0|-0.07|0.43|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.43|-0.07|0.157
92305624|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1|||<|0.001|TWO_SIDED|95.0|1.73|2.48|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.48|1.73|<0.001
92305625|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.005|TWO_SIDED|95.0|0.11|0.63|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.63|0.11|0.005
92305626|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.79|||<|0.001|TWO_SIDED|95.0|0.52|1.05|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.05|0.52|<0.001
92188409|NCT01136733|184275037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.751|||=|0.3157|TWO_SIDED|95.0|0.433|1.301|||Log Rank|||||1.301|0.433|=0.3157
92305627|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.73|||<|0.001|TWO_SIDED|95.0|1.36|2.1|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.10|1.36|<0.001
92305628|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.31|||<|0.001|TWO_SIDED|95.0|0.94|1.69|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.69|0.94|<0.001
92305629|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.42||||0.002|TWO_SIDED|95.0|0.15|0.68|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.68|0.15|0.002
92305630|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|2.06|||<|0.001|TWO_SIDED|95.0|1.67|2.45|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.45|1.67|<0.001
92305631|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.004|TWO_SIDED|95.0|0.13|0.67|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.67|0.13|0.004
92305632|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|||<|0.001|TWO_SIDED|95.0|0.82|1.37|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.37|0.82|<0.001
92305633|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.66|||<|0.001|TWO_SIDED|95.0|1.27|2.04|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.04|1.27|<0.001
92305634|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.97|||<|0.001|TWO_SIDED|95.0|0.58|1.36|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.36|0.58|<0.001
92305635|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|||<|0.001|TWO_SIDED|95.0|0.42|0.96|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.96|0.42|<0.001
92188410|NCT01136733|184275038|SUPERIORITY_OR_OTHER||Rate ratio|7.2|||<|0.0001|TWO_SIDED|95.0|2.3|22.5||Analysis performed after database lock. P-value was based on the 2-sided Fisher's exact P-value.|Fisher Exact||Rate ratio was based on the normal approximation.|||22.5|2.3|<0.0001
92305636|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0|||<|0.001|TWO_SIDED|95.0|1.6|2.4|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.40|1.60|<0.001
92305637|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44||||0.002|TWO_SIDED|95.0|0.16|0.72|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.72|0.16|0.002
92305638|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.16|||<|0.001|TWO_SIDED|95.0|0.88|1.44|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.44|0.88|<0.001
92305639|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.56|||<|0.001|TWO_SIDED|95.0|1.16|1.96|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.96|1.16|<0.001
92305640|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.84|||<|0.001|TWO_SIDED|95.0|0.44|1.24|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.24|0.44|<0.001
92305641|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72|||<|0.001|TWO_SIDED|95.0|0.44|1.0|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.00|0.44|<0.001
92305642|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.91|||<|0.001|TWO_SIDED|95.0|1.5|2.31|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.31|1.50|<0.001
92305643|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46||||0.001|TWO_SIDED|95.0|0.18|0.74|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.74|0.18|0.001
92188411|NCT01136733|184275038|SUPERIORITY_OR_OTHER||Rate ratio|4.5||||0.0067|TWO_SIDED|95.0|1.4|14.7||Analysis performed after database lock. P-value was based on the 2-sided Fisher's exact P-value.|Fisher Exact|||||14.7|1.4|0.0067
92188412|NCT01136733|184275038|SUPERIORITY_OR_OTHER||Rate ratio|1.6|||=|0.1007|TWO_SIDED|95.0|0.9|2.8||Analysis performed after database lock. P-value was based on the 2-sided Fisher's exact P-value.|Fisher Exact|||||2.8|0.9|=0.1007
92305644|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.14|||<|0.001|TWO_SIDED|95.0|0.85|1.43|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.43|0.85|<0.001
92305645|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.45|||<|0.001|TWO_SIDED|95.0|1.04|1.85|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.85|1.04|<0.001
92305646|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.77|||<|0.001|TWO_SIDED|95.0|0.36|1.17|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.17|0.36|<0.001
92305647|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.68|||<|0.001|TWO_SIDED|95.0|0.39|0.97|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.97|0.39|<0.001
92305648|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.55|||<|0.001|TWO_SIDED|95.0|1.13|1.98|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.98|1.13|<0.001
92188413|NCT01882088|184275051|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||2e-06|||||||Wilcoxon (Mann-Whitney)|||Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||0.000002
92188414|NCT01882088|184275052|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||0.2
92305649|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36||||0.017|TWO_SIDED|95.0|0.06|0.65|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.65|0.06|0.017
92305650|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07|||<|0.001|TWO_SIDED|95.0|0.77|1.37|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.37|0.77|<0.001
92305651|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2|||<|0.001|TWO_SIDED|95.0|0.78|1.62|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.62|0.78|<0.001
92305652|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48||||0.026|TWO_SIDED|95.0|0.06|0.91|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.91|0.06|0.026
92305653|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72|||<|0.001|TWO_SIDED|95.0|0.42|1.01|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.01|0.42|<0.001
92305654|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.27|||<|0.001|TWO_SIDED|95.0|0.84|1.69|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.69|0.84|<0.001
92305655|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36||||0.017|TWO_SIDED|95.0|0.07|0.66|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.66|0.07|0.017
92305656|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|||<|0.001|TWO_SIDED|95.0|0.6|1.2|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.20|0.60|<0.001
92305657|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|||<|0.001|TWO_SIDED|95.0|0.48|1.33|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.33|0.48|<0.001
92305658|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.089|TWO_SIDED|95.0|-0.06|0.8|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.80|-0.06|0.089
92305659|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.53|||<|0.001|TWO_SIDED|95.0|0.24|0.83|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.83|0.24|<0.001
92305660|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|1.02|||<|0.001|TWO_SIDED|95.0|0.6|1.44|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.44|0.60|<0.001
92305661|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35||||0.018|TWO_SIDED|95.0|0.06|0.65|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.65|0.06|0.018
92305662|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72|||<|0.001|TWO_SIDED|95.0|0.42|1.02|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.02|0.42|<0.001
92305663|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.67||||0.002|TWO_SIDED|95.0|0.25|1.09|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.09|0.25|0.002
92305664|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.163|TWO_SIDED|95.0|-0.12|0.72|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.72|-0.12|0.163
92305665|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.016|TWO_SIDED|95.0|0.07|0.66|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.66|0.07|0.016
92305666|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.68||||0.002|TWO_SIDED|95.0|0.26|1.1|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.10|0.26|0.002
92305667|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.496|TWO_SIDED|95.0|-0.19|0.4|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.40|-0.19|0.496
92305668|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46||||0.003|TWO_SIDED|95.0|0.16|0.76|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.76|0.16|0.003
92305669|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.008|TWO_SIDED|95.0|0.15|1.0|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.00|0.15|0.008
92305670|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.315|TWO_SIDED|95.0|-0.21|0.64|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.64|-0.21|0.315
92188415|NCT01882088|184275053|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.002415|||||||Wilcoxon (Mann-Whitney)|||||||0.002415
92188416|NCT01882088|184275054|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.000438|||||||Wilcoxon (Mann-Whitney)|||||||0.000438
92305671|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36||||0.019|TWO_SIDED|95.0|0.06|0.66|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.66|0.06|0.019
92305672|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.45||||0.038|TWO_SIDED|95.0|0.02|0.87|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.87|0.02|0.038
92305673|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.918|TWO_SIDED|95.0|-0.28|0.31|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.31|-0.28|0.918
92305674|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.105|TWO_SIDED|95.0|-0.05|0.55|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.55|-0.05|0.105
92305675|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.43||||0.045|TWO_SIDED|95.0|0.01|0.85|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.85|0.01|0.045
92305676|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.355|TWO_SIDED|95.0|-0.22|0.62|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.62|-0.22|0.355
92305677|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.127|TWO_SIDED|95.0|-0.07|0.53|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.53|-0.07|0.127
92305678|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29||||0.171|TWO_SIDED|95.0|-0.12|0.7|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.70|-0.12|0.171
92188417|NCT01882088|184275055|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.023|||||||Wilcoxon (Mann-Whitney)|||||||0.023
92305679|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04||||0.79|TWO_SIDED|95.0|-0.25|0.33|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.33|-0.25|0.790
92305680|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.235|TWO_SIDED|95.0|-0.12|0.47|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.47|-0.12|0.235
92305681|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.236|TWO_SIDED|95.0|-0.16|0.66|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.66|-0.16|0.236
92305682|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.599|TWO_SIDED|95.0|-0.3|0.53|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.53|-0.30|0.599
92305683|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.353|TWO_SIDED|95.0|-0.15|0.43|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.43|-0.15|0.353
92305684|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.293|TWO_SIDED|95.0|-0.19|0.62|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.62|-0.19|0.293
92305685|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.986|TWO_SIDED|95.0|-0.28|0.28|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.28|-0.28|0.986
92305686|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.459|TWO_SIDED|95.0|-0.18|0.39|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.39|-0.18|0.459
92305687|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.287|TWO_SIDED|95.0|-0.18|0.62|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.62|-0.18|0.287
92305688|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.6|TWO_SIDED|95.0|-0.3|0.51|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.51|-0.30|0.600
92305689|NCT02912650|184513983|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.447|TWO_SIDED|95.0|-0.17|0.4|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.40|-0.17|0.447
92305690|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59||||0.001|TWO_SIDED|95.0|0.23|0.96|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.96|0.23|0.001
92188418|NCT01882088|184275056|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92188419|NCT01882088|184275057|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92188420|NCT01882088|184275058|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||0.94
92188421|NCT01882088|184275059|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
92188422|NCT01882088|184275060|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||2e-05|||||||Wilcoxon (Mann-Whitney)|||||||0.00002
92188423|NCT02186015|184275061|SUPERIORITY|A Wilcoxon signed rank test was performed.|||||<|0.01|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in serum 25(OH)D from week 0 to week 8.||||<0.01
92305691|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.297|TWO_SIDED|95.0|-0.12|0.39|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.39|-0.12|0.297
92305692|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.457|TWO_SIDED|95.0|-0.35|0.16|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.16|-0.35|0.457
92305693|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46||||0.012|TWO_SIDED|95.0|0.1|0.82|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.82|0.10|0.012
92305694|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|||<|0.001|TWO_SIDED|95.0|0.33|1.06|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.06|0.33|<0.001
92305695|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.23||||0.076|TWO_SIDED|95.0|-0.49|0.02|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.02|-0.49|0.076
92305696|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|2.03|||<|0.001|TWO_SIDED|95.0|1.42|2.63|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.63|1.42|<0.001
92305697|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51||||0.016|TWO_SIDED|95.0|0.1|0.93|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.93|0.10|0.016
92305698|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21||||0.33|TWO_SIDED|95.0|-0.21|0.64|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.64|-0.21|0.330
92305699|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.51|||<|0.001|TWO_SIDED|95.0|0.91|2.11|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.11|0.91|<0.001
92188424|NCT02186015|184275062|SUPERIORITY|A Wilcoxon signed rank test was performed.||||||0.24|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in worst pain rating from week 0 to week 8.||||0.24
92305700|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.81|||<|0.001|TWO_SIDED|95.0|1.21|2.42|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.42|1.21|<0.001
92305701|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.163|TWO_SIDED|95.0|-0.73|0.12|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.12|-0.73|0.163
92305702|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.91|||<|0.001|TWO_SIDED|95.0|3.18|4.65|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.65|3.18|<0.001
92305703|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86||||0.001|TWO_SIDED|95.0|0.35|1.38|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.38|0.35|0.001
92305704|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78||||0.003|TWO_SIDED|95.0|0.26|1.31|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.31|0.26|0.003
92305705|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.05|||<|0.001|TWO_SIDED|95.0|2.32|3.79|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.79|2.32|<0.001
92305706|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.13|||<|0.001|TWO_SIDED|95.0|2.39|3.87|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.87|2.39|<0.001
92305707|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.769|TWO_SIDED|95.0|-0.6|0.44|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.44|-0.60|0.769
92305708|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|4.65|||<|0.001|TWO_SIDED|95.0|3.88|5.42|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.42|3.88|<0.001
92305709|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86||||0.002|TWO_SIDED|95.0|0.32|1.4|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.40|0.32|0.002
92305710|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.38|||<|0.001|TWO_SIDED|95.0|0.83|1.93|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.93|0.83|<0.001
92305711|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.79|||<|0.001|TWO_SIDED|95.0|3.02|4.56|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.56|3.02|<0.001
92305712|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.27|||<|0.001|TWO_SIDED|95.0|2.49|4.04|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.04|2.49|<0.001
92305713|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52||||0.062|TWO_SIDED|95.0|-0.03|1.06|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.06|-0.03|0.062
92305714|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|4.83|||<|0.001|TWO_SIDED|95.0|4.01|5.64|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.64|4.01|<0.001
92305715|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76||||0.009|TWO_SIDED|95.0|0.19|1.33|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.33|0.19|0.009
92305716|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.75|||<|0.001|TWO_SIDED|95.0|1.17|2.33|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.33|1.17|<0.001
92305717|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|4.06|||<|0.001|TWO_SIDED|95.0|3.25|4.88|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.88|3.25|<0.001
92305718|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.08|||<|0.001|TWO_SIDED|95.0|2.26|3.9|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.90|2.26|<0.001
92305719|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.98|||<|0.001|TWO_SIDED|95.0|0.41|1.56|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.56|0.41|<0.001
92188425|NCT02186015|184275063|SUPERIORITY|||||||0.09|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in fatigue score from week 0 to week 8.||||0.09
92305720|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|4.67|||<|0.001|TWO_SIDED|95.0|3.82|5.52|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.52|3.82|<0.001
92305721|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78||||0.01|TWO_SIDED|95.0|0.19|1.38|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.38|0.19|0.010
92305722|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|2.41|||<|0.001|TWO_SIDED|95.0|1.81|3.01|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.01|1.81|<0.001
92305723|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.89|||<|0.001|TWO_SIDED|95.0|3.04|4.74|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.74|3.04|<0.001
92305724|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|2.26|||<|0.001|TWO_SIDED|95.0|1.4|3.11|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.11|1.40|<0.001
92305725|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.63|||<|0.001|TWO_SIDED|95.0|1.02|2.23|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.23|1.02|<0.001
92188426|NCT02186015|184275064|SUPERIORITY|||||||0.17|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in mood score from week 0 to week 8.||||0.17
92305726|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|4.53|||<|0.001|TWO_SIDED|95.0|3.65|5.4|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.40|3.65|<0.001
92188427|NCT02186015|184275065|SUPERIORITY|||||||0.5|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in dominant handgrip strength from week 0 to week 8.||||0.50
92305727|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.82||||0.009|TWO_SIDED|95.0|0.21|1.43|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.43|0.21|0.009
92188428|NCT02186015|184275066|SUPERIORITY|||||||0.16|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in sleep quality assessment from week 0 to week 8.||||0.16
92305728|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|2.42|||<|0.001|TWO_SIDED|95.0|1.79|3.04|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.04|1.79|<0.001
92305729|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.71|||<|0.001|TWO_SIDED|95.0|2.83|4.58|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.58|2.83|<0.001
92305730|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|2.11|||<|0.001|TWO_SIDED|95.0|1.23|2.99|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.99|1.23|<0.001
92305731|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|||<|0.001|TWO_SIDED|95.0|0.97|2.22|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.22|0.97|<0.001
92305732|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|4.27|||<|0.001|TWO_SIDED|95.0|3.37|5.17|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.17|3.37|<0.001
92305733|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.012|TWO_SIDED|95.0|0.18|1.44|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.44|0.18|0.012
92188429|NCT02186015|184275067|SUPERIORITY|||||||0.75|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in functional assessment of cancer therapy-breast score from week 0 to week 8.||||0.75
92305734|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|2.36|||<|0.001|TWO_SIDED|95.0|1.72|3.0|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.00|1.72|<0.001
92305735|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.47|||<|0.001|TWO_SIDED|95.0|2.57|4.36|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.36|2.57|<0.001
92188430|NCT02186015|184275068|SUPERIORITY|||||||0.19|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in functional assessment of cancer therapy-endocrine score from week 0 to week 8.||||0.19
92188431|NCT00125619|184275069|SUPERIORITY_OR_OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Between group comparison of Robot (Lokomat) vs. Manual (therapist-assisted) training.||||0.72
92188432|NCT00125619|184275069|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within group test for change pre- vs. post-training due to Robot (Lokomat) training.||||<.05
92188433|NCT00125619|184275069|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks|||Within group test for change pre- vs. post-training due to Manual (Therapist Assisted) training.||||>.05
92305736|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.91|||<|0.001|TWO_SIDED|95.0|1.0|2.82|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.82|1.00|<0.001
92305737|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.55|||<|0.001|TWO_SIDED|95.0|0.92|2.19|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.19|0.92|<0.001
92305738|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.68|||<|0.001|TWO_SIDED|95.0|2.76|4.6|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.60|2.76|<0.001
92305739|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63||||0.055|TWO_SIDED|95.0|-0.01|1.27|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.27|-0.01|0.055
92305740|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|2.19|||<|0.001|TWO_SIDED|95.0|1.54|2.84|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.84|1.54|<0.001
92305741|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.05|||<|0.001|TWO_SIDED|95.0|2.14|3.97|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.97|2.14|<0.001
92305742|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.49||||0.002|TWO_SIDED|95.0|0.57|2.42|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.42|0.57|0.002
92305743|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.56|||<|0.001|TWO_SIDED|95.0|0.91|2.21|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.21|0.91|<0.001
92305744|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1|||<|0.001|TWO_SIDED|95.0|2.17|4.03|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.03|2.17|<0.001
92188434|NCT00125619|184275070|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between-groups comparison of Robot vs. Manual training.||||>0.05
92305745|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.65||||0.049|TWO_SIDED|95.0|0.0|1.3|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.30|0.00|0.049
92305746|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.93|||<|0.001|TWO_SIDED|95.0|1.27|2.59|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.59|1.27|<0.001
92305747|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|2.44|||<|0.001|TWO_SIDED|95.0|1.52|3.37|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.37|1.52|<0.001
92305748|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17||||0.015|TWO_SIDED|95.0|0.23|2.1|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.10|0.23|0.015
92305749|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.28|||<|0.001|TWO_SIDED|95.0|0.62|1.94|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.94|0.62|<0.001
92305750|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|2.48|||<|0.001|TWO_SIDED|95.0|1.56|3.4|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.40|1.56|<0.001
92305751|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56||||0.087|TWO_SIDED|95.0|-0.08|1.2|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.20|-0.08|0.087
92305752|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.47|||<|0.001|TWO_SIDED|95.0|0.82|2.12|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.12|0.82|<0.001
92305753|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.92|||<|0.001|TWO_SIDED|95.0|1.0|2.84|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.84|1.00|<0.001
92305754|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.01||||0.032|TWO_SIDED|95.0|0.09|1.94|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.94|0.09|0.032
92188435|NCT00125619|184275070|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks|||Within groups comparison (pre- vs. post-treatment) due to Manual (therapist-assisted) treatment.||||>.05
92188436|NCT00125619|184275070|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within-groups comparison of pre- vs. post-treatment effects for Robot (Lokomat) training.||||<.05
92305755|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.91||||0.006|TWO_SIDED|95.0|0.26|1.56|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.56|0.26|0.006
92305756|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.75|||<|0.001|TWO_SIDED|95.0|0.85|2.66|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.66|0.85|<0.001
92305757|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.669|TWO_SIDED|95.0|-0.49|0.77|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.77|-0.49|0.669
92305758|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.89||||0.007|TWO_SIDED|95.0|0.24|1.53|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.53|0.24|0.007
92305759|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.61|||<|0.001|TWO_SIDED|95.0|0.71|2.52|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.52|0.71|<0.001
92305760|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86||||0.063|TWO_SIDED|95.0|-0.05|1.78|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.78|-0.05|0.063
92188437|NCT00125619|184275071|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between-groups comparison of robot vs. manual training.||||>.05
92188438|NCT00125619|184275071|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-treatment effects for manual training.||||>.05
92305761|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.75||||0.022|TWO_SIDED|95.0|0.11|1.39|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.39|0.11|0.022
92305762|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.22||||0.008|TWO_SIDED|95.0|0.32|2.12|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.12|0.32|0.008
92305763|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05||||0.876|TWO_SIDED|95.0|-0.58|0.68|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.68|-0.58|0.876
92305764|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.49||||0.134|TWO_SIDED|95.0|-0.15|1.13|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.13|-0.15|0.134
92305765|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17||||0.011|TWO_SIDED|95.0|0.27|2.07|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.07|0.27|0.011
92305766|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73||||0.112|TWO_SIDED|95.0|-0.17|1.64|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.64|-0.17|0.112
92305767|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44||||0.179|TWO_SIDED|95.0|-0.2|1.08|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.08|-0.20|0.179
92305768|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.97||||0.032|TWO_SIDED|95.0|0.09|1.85|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.85|0.09|0.032
92305769|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.85|TWO_SIDED|95.0|-0.56|0.67|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.67|-0.56|0.850
92188439|NCT00125619|184275071|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon signed ranks|||Within group comparison of pre- vs. post-treatment effects of robot training.||||>.05
92305770|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.311|TWO_SIDED|95.0|-0.3|0.95|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.95|-0.30|0.311
92305771|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.91||||0.043|TWO_SIDED|95.0|0.03|1.79|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.79|0.03|0.043
92188440|NCT00125619|184275072|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between groups comparison of effects of robot vs. manual training.||||>.05
92188441|NCT00125619|184275072|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks|||Within groups comparison of pre- vs. post-treatment effects of manual training.||||>.05
92188442|NCT00125619|184275072|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-training effects of robot training.||||<.05
92188443|NCT00125619|184275073|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between groups comparison of robot vs. manual training.||||>.05
92305772|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.64||||0.154||95.0|-0.24|1.53|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.53|-0.24|0.154
92305773|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26||||0.408|TWO_SIDED|95.0|-0.36|0.89|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.89|-0.36|0.408
92305774|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.065|TWO_SIDED|95.0|-0.05|1.68|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.68|-0.05|0.065
92305775|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05||||0.862|TWO_SIDED|95.0|-0.66|0.55|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.55|-0.66|0.862
92305776|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29||||0.352|TWO_SIDED|95.0|-0.32|0.9|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.90|-0.32|0.352
92188444|NCT00125619|184275073|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Within groups comparison for pre- vs. post-training effects of manual training.||||>.05
92188445|NCT00125619|184275073|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Within group comparison for pre- vs. post-training effects of robot training.||||>.05
92188446|NCT00125619|184275074|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between groups comparison of robot vs. manual training.||||>.05
92188447|NCT00125619|184275074|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-training effects of manual training.||||>.05
92305777|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.87||||0.049|TWO_SIDED|95.0|0.0|1.73|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.73|0.00|0.049
92305778|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52||||0.239|TWO_SIDED|95.0|-0.35|1.39|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.39|-0.35|0.239
92188448|NCT00125619|184275074|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-treatment effects of robot training.||||<.05
92188449|NCT00125619|184275075|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between groups comparison of robot vs. manual training.||||>.05
92188450|NCT00125619|184275075|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-training effects of manual training.||||<.05
92305779|NCT02912650|184513984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.27|TWO_SIDED|95.0|-0.27|0.96|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.96|-0.27|0.270
92305780|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15||||0.031|TWO_SIDED|95.0|0.01|0.28|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.28|0.01|0.031
92305781|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.527|TWO_SIDED|95.0|-0.06|0.12|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.12|-0.06|0.527
92188451|NCT00125619|184275075|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-treatment effects of robot training.||||<.05
92305782|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.386|TWO_SIDED|95.0|-0.14|0.05|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.05|-0.14|0.386
92305783|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12||||0.084|TWO_SIDED|95.0|-0.02|0.25|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.25|-0.02|0.084
92188452|NCT01533181|184275076|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.9||||0.0001|TWO_SIDED|95.0|1.9|8.1|||Kaplan-Meier|||||8.1|1.9|0.0001
92188453|NCT01533181|184275079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.71|TWO_SIDED|95.0|0.6|2.2|||Kaplan-Meier|||||2.2|0.6|0.71
92188454|NCT02720198|184275081|SUPERIORITY||Mean Difference (Final Values)|1.159|STANDARD_ERROR_OF_MEAN|1.834||0.53|TWO_SIDED|95.0|-2.518|4.836|||t-test, 2 sided|||||4.836|-2.518|0.53
92188455|NCT02720198|184275082|SUPERIORITY||Odds Ratio (OR)|0.492|STANDARD_ERROR_OF_MEAN|0.806||0.428|TWO_SIDED|95.0|0.101|2.388|||Mantel Haenszel|||||2.388|0.101|0.428
92188456|NCT02720198|184275083|SUPERIORITY||Odds Ratio (OR)|0.451|STANDARD_ERROR_OF_MEAN|0.724||0.272|TWO_SIDED|95.0|0.109|1.866|||Mantel Haenszel|||||1.866|0.109|0.272
92188457|NCT02720198|184275084|SUPERIORITY||Mean Difference (Final Values)|-0.624|STANDARD_ERROR_OF_MEAN|1.428||0.664|TWO_SIDED|95.0|-3.484|2.236|||t-test, 2 sided|||||2.236|-3.484|0.664
92188458|NCT02720198|184275085|SUPERIORITY||Mean Difference (Final Values)|2.34|STANDARD_ERROR_OF_MEAN|2.199||0.292|TWO_SIDED|95.0|-2.07|6.75|||t-test, 2 sided|||||6.750|-2.070|0.292
92188459|NCT02720198|184275086|SUPERIORITY||Odds Ratio (OR)|1.063|STANDARD_ERROR_OF_MEAN|0.525||0.884|TWO_SIDED|95.0|0.38|2.971|||Mantel Haenszel|||||2.971|0.380|0.884
92188460|NCT02720198|184275087|SUPERIORITY||Odds Ratio (OR)|0.875|STANDARD_ERROR_OF_MEAN|0.65||0.905|TWO_SIDED|95.0|0.245|3.129|||Mantel Haenszel|||||3.129|0.245|0.905
92188461|NCT02720198|184275088|SUPERIORITY||Mean Difference (Final Values)|1.64|STANDARD_ERROR_OF_MEAN|1.423||0.254|TWO_SIDED|95.0|-1.211|4.492|||t-test, 2 sided|||||4.492|-1.211|0.254
92188462|NCT02720198|184275089|SUPERIORITY||Mean Difference (Final Values)|-3.693|STANDARD_ERROR_OF_MEAN|1.91||0.058|TWO_SIDED|95.0|-7.52|0.134|||t-test, 2 sided|||||0.134|-7.520|0.058
92305784|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19||||0.006|TWO_SIDED|95.0|0.06|0.32|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.32|0.06|0.006
92305785|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.135|TWO_SIDED|95.0|-0.17|0.02|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.02|-0.17|0.135
92305786|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.54|||<|0.001|TWO_SIDED|95.0|0.34|0.73|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.73|0.34|<0.001
92305787|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.062|TWO_SIDED|95.0|-0.01|0.27|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.27|-0.01|0.062
92188463|NCT02720198|184275090|SUPERIORITY||Mean Difference (Final Values)|-0.236|STANDARD_ERROR_OF_MEAN|2.158||0.913|TWO_SIDED|95.0|-4.559|4.088|||t-test, 2 sided|||||4.088|-4.559|0.913
92188464|NCT02720198|184275091|SUPERIORITY||Mean Difference (Final Values)|-0.459|STANDARD_ERROR_OF_MEAN|1.035||0.66|TWO_SIDED|95.0|-2.54|1.623|||t-test, 2 sided|||||1.623|-2.540|0.660
92188465|NCT03897075|184275092|SUPERIORITY|||||||0.00311|||||||Cochran-Mantel-Haenszel|||||||0.00311
92188466|NCT03897075|184275093|SUPERIORITY|||||||0.00079|||||||Cochran-Mantel-Haenszel|||||||0.00079
92188467|NCT03897075|184275094|SUPERIORITY|||||||0.09892|||||||Cochran-Mantel-Haenszel|||||||0.09892
92188468|NCT02592434|184275103|SUPERIORITY||Difference in percentage|-23.69||||0.0031|TWO_SIDED|95.0|-39.41|-7.97||Threshold for significance at 0.05 level.|Normal approximation to the binomial|||In order to preserve type I error, each endpoint assessed sequentially using gate-keeping or step-down approach where statistical significance was claimed for the second endpoint only if the first endpoint in the sequence meets the requirements for significance.||-7.97|-39.41|0.0031
92305788|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.977|TWO_SIDED|95.0|-0.14|0.14|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.14|-0.14|0.977
92305789|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|||<|0.001|TWO_SIDED|95.0|0.21|0.6|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.60|0.21|<0.001
92305790|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.53|||<|0.001|TWO_SIDED|95.0|0.34|0.73|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.73|0.34|<0.001
92305791|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13||||0.069|TWO_SIDED|95.0|-0.27|0.01|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.01|-0.27|0.069
92305792|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.14|||<|0.001|TWO_SIDED|95.0|0.9|1.38|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.38|0.90|<0.001
92305793|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29|||<|0.001|TWO_SIDED|95.0|0.12|0.46|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.46|0.12|<0.001
92188469|NCT02592434|184275104|SUPERIORITY||Difference in percentage|19.52||||0.0166|TWO_SIDED|95.0|3.55|35.5||Threshold for significance at 0.05 level.|Normal approximation to the binomial|||In order to preserve type I error, each endpoint assessed sequentially using gate-keeping or step-down approach where statistical significance was claimed for the second endpoint only if the first endpoint in the sequence meets the requirements for significance.||35.50|3.55|0.0166
92188470|NCT02592434|184275105|SUPERIORITY||Difference in percentage|23.69||||0.0031|TWO_SIDED|95.0|7.97|39.41||Threshold for significance at 0.05 level.|Normal approximation to the binomial|||In order to preserve type I error, each endpoint assessed sequentially using gate-keeping or step-down approach where statistical significance was claimed for the second endpoint only if the first endpoint in the sequence meets the requirements for significance.||39.41|7.97|0.0031
92305794|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.011|TWO_SIDED|95.0|0.05|0.39|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.39|0.05|0.011
92305795|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.85|||<|0.001|TWO_SIDED|95.0|0.61|1.09|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.09|0.61|< 0.001
92305796|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.92|||<|0.001|TWO_SIDED|95.0|0.67|1.16|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.16|0.67|<0.001
92188471|NCT02592434|184275106|SUPERIORITY||Difference in percentage|17.02||||0.0387|TWO_SIDED|95.0|0.88|33.17||Threshold for significance at 0.05 level.|Normal approximation to the binomial|||In order to preserve type I error, each endpoint assessed sequentially using gate-keeping or step-down approach where statistical significance was claimed for the second endpoint only if the first endpoint in the sequence meets the requirements for significance.||33.17|0.88|0.0387
92188472|NCT02592434|184275107|SUPERIORITY||Ls mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0292|TWO_SIDED|95.0|-0.22|-0.01||Threshold for significance at 0.05 level.|Mixed Model for Repeated Measures (MMRM)|||In order to preserve type I error, each endpoint assessed sequentially using gate-keeping or step-down approach where statistical significance was claimed for the second endpoint only if the first endpoint in the sequence meets the requirements for significance. Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-0.01|-0.22|0.0292
92188473|NCT02592434|184275109|SUPERIORITY||Difference in percentage|-1.71||||0.741|TWO_SIDED|95.0|-11.82|8.41|||Normal approximation to the binomial|||at Week 20||8.41|-11.82|0.7410
92305797|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.427|TWO_SIDED|95.0|-0.24|0.1|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.10|-0.24|0.427
92305798|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.36|||<|0.001|TWO_SIDED|95.0|1.11|1.6|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.60|1.11|<0.001
92305799|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27||||0.002|TWO_SIDED|95.0|0.1|0.44|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.44|0.10|0.002
92305800|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|||<|0.001|TWO_SIDED|95.0|0.23|0.58|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.58|0.23|<0.001
92305801|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|||<|0.001|TWO_SIDED|95.0|0.84|1.33|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.33|0.84|<0.001
92305802|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.95|||<|0.001|TWO_SIDED|95.0|0.7|1.2|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.20|0.70|<0.001
92188474|NCT02592434|184275109|SUPERIORITY||Difference in percentage|-18.93||||0.0052|TWO_SIDED|95.0|-32.22|-5.64|||Normal approximation to the binomial|||at Week 24||-5.64|-32.22|0.0052
92188475|NCT02592434|184275109|SUPERIORITY||Difference in percentage|-19.09||||0.0093|TWO_SIDED|95.0|-33.48|-4.7|||Normal approximation to the binomial|||at Week 28||-4.70|-33.48|0.0093
92188476|NCT02592434|184275109|SUPERIORITY||Difference in percentage|-22.1||||0.0045|TWO_SIDED|95.0|-37.35|-6.86|||Normal approximation to the binomial|||at Week 32||-6.86|-37.35|0.0045
92188477|NCT02592434|184275109|SUPERIORITY||Difference in percentage|-23.57||||0.0027|TWO_SIDED|95.0|-38.97|-8.17|||Normal approximation to the binomial|||at Week 36||-8.17|-38.97|0.0027
92305803|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.123|TWO_SIDED|95.0|-0.04|0.31|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.31|-0.04|0.123
92305804|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|||<|0.001|TWO_SIDED|95.0|1.14|1.67|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.67|1.14|<0.001
92305805|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.012|TWO_SIDED|95.0|0.05|0.42|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.42|0.05|0.012
92305806|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56|||<|0.001|TWO_SIDED|95.0|0.38|0.75|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.75|0.38|<0.001
92305807|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17|||<|0.001|TWO_SIDED|95.0|0.9|1.43|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.43|0.90|<0.001
92305808|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.84|||<|0.001|TWO_SIDED|95.0|0.57|1.11|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.11|0.57|<0.001
92305809|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|||<|0.001|TWO_SIDED|95.0|0.14|0.51|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.51|0.14|<0.001
92305810|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.38|||<|0.001|TWO_SIDED|95.0|1.11|1.65|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.65|1.11|<0.001
92188478|NCT02592434|184275109|SUPERIORITY||Difference in percentage|-25.08||||0.0016|TWO_SIDED|95.0|-40.69|-9.47|||Normal approximation to the binomial|||at Week 40||-9.47|-40.69|0.0016
92305811|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.002|TWO_SIDED|95.0|0.11|0.48|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.48|0.11|0.002
92305812|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76|||<|0.001|TWO_SIDED|95.0|0.56|0.95|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.95|0.56|<0.001
92188479|NCT02592434|184275113|SUPERIORITY||Difference in percentage|6.03||||0.301|TWO_SIDED|95.0|-5.4|17.46|||Normal approximation to the binomial|||at Week 20||17.46|-5.40|0.3010
92188480|NCT02592434|184275113|SUPERIORITY||Difference in percentage|17.54||||0.0108|TWO_SIDED|95.0|4.05|31.03|||Normal approximation to the binomial|||at Week 24||31.03|4.05|0.0108
92188481|NCT02592434|184275113|SUPERIORITY||Difference in percentage|19.13||||0.0103|TWO_SIDED|95.0|4.51|33.74|||Normal approximation to the binomial|||at Week 28||33.74|4.51|0.0103
92188482|NCT02592434|184275113|SUPERIORITY||Difference in percentage|23.53||||0.0025|TWO_SIDED|95.0|8.27|38.8|||Normal approximation to the binomial|||at Week 32||38.80|8.27|0.0025
92188483|NCT02592434|184275113|SUPERIORITY||Difference in percentage|25.04||||0.0016|TWO_SIDED|95.0|9.52|40.56|||Normal approximation to the binomial|||at Week 36||40.56|9.52|0.0016
92188484|NCT02592434|184275113|SUPERIORITY||Difference in percentage|23.69||||0.0031|TWO_SIDED|95.0|7.97|39.41|||Normal approximation to the binomial|||at Week 40||39.41|7.97|0.0031
92305813|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|||<|0.001|TWO_SIDED|95.0|0.82|1.36|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.36|0.82|<0.001
92305814|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63|||<|0.001|TWO_SIDED|95.0|0.35|0.9|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.90|0.35|<0.001
92305815|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46|||<|0.001|TWO_SIDED|95.0|0.27|0.65|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.65|0.27|<0.001
92305816|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.34|||<|0.001|TWO_SIDED|95.0|1.06|1.61|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.61|1.06|<0.001
92305817|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.003|TWO_SIDED|95.0|0.1|0.49|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.49|0.10|0.003
92305818|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78|||<|0.001|TWO_SIDED|95.0|0.58|0.98|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.98|0.58|<0.001
92305819|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.04|||<|0.001|TWO_SIDED|95.0|0.76|1.32|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.32|0.76|<0.001
92188485|NCT02592434|184275115|SUPERIORITY||Difference in percentage|-1.15||||0.8119|TWO_SIDED|95.0|-10.63|8.33|||Normal approximation for binomial|||Double Blind Baseline (Week 18)||8.33|-10.63|0.8119
92188486|NCT02592434|184275115|SUPERIORITY||Difference in percentage|7.66||||0.2682|TWO_SIDED|95.0|-5.9|21.21|||Normal approximation for binomial|||Week 20||21.21|-5.90|0.2682
92188487|NCT02592434|184275115|SUPERIORITY||Difference in percentage|21.98||||0.0034|TWO_SIDED|95.0|7.26|36.71|||Normal approximation for binomial|||Week 24||36.71|7.26|0.0034
92188488|NCT02592434|184275115|SUPERIORITY||Difference in percentage|17.9||||0.0233|TWO_SIDED|95.0|2.44|33.36|||Normal approximation for binomial|||Week 28||33.36|2.44|0.0233
92188489|NCT02592434|184275115|SUPERIORITY||Difference in percentage|25.16||||0.0018|TWO_SIDED|95.0|9.39|40.93|||Normal approximation for binomial|||Week 32||40.93|9.39|0.0018
92188490|NCT02592434|184275115|SUPERIORITY||Difference in percentage|20.91||||0.0099|TWO_SIDED|95.0|5.01|36.81|||Normal approximation for binomial|||Week 36||36.81|5.01|0.0099
92188491|NCT02592434|184275115|SUPERIORITY||Difference in percentage|22.34||||0.0058|TWO_SIDED|95.0|6.46|38.22|||Normal approximation for binomial|||Week 40||38.22|6.46|0.0058
92305820|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56|||<|0.001|TWO_SIDED|95.0|0.28|0.84|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.84|0.28|<0.001
92305821|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48|||<|0.001|TWO_SIDED|95.0|0.29|0.68|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.68|0.29|<0.001
92305822|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.28|||<|0.001|TWO_SIDED|95.0|1.0|1.57|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.57|1.00|<0.001
92305823|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.003|TWO_SIDED|95.0|0.1|0.5|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.50|0.10|0.003
92305824|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.71|||<|0.001|TWO_SIDED|95.0|0.51|0.91|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.91|0.51|<0.001
92305825|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.98|||<|0.001|TWO_SIDED|95.0|0.7|1.27|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.27|0.70|<0.001
92188492|NCT02592434|184275117|SUPERIORITY||Difference in percentage|3.77||||0.6348|TWO_SIDED|95.0|-11.79|19.33|||Normal approximation to the binomial|||Double Blind Baseline (Week 18)||19.33|-11.79|0.6348
92188493|NCT02592434|184275117|SUPERIORITY||Difference in percentage|2.62||||0.7525|TWO_SIDED|95.0|-13.66|18.9|||Normal approximation to the binomial|||Week 20||18.90|-13.66|0.7525
92305826|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.58|||<|0.001|TWO_SIDED|95.0|0.29|0.86|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.86|0.29|<0.001
92188494|NCT02592434|184275117|SUPERIORITY||Difference in percentage|14.05||||0.0908|TWO_SIDED|95.0|-2.23|30.33|||Normal approximation to the binomial|||Week 24||30.33|-2.23|0.0908
92188495|NCT02592434|184275117|SUPERIORITY||Difference in percentage|7.02||||0.4026|TWO_SIDED|95.0|-9.38|23.43|||Normal approximation to the binomial|||Week 28||23.43|-9.38|0.4026
92188496|NCT02592434|184275117|SUPERIORITY||Difference in percentage|18.37||||0.0258|TWO_SIDED|95.0|2.22|34.52|||Normal approximation to the binomial|||Week 32||34.52|2.22|0.0258
92188497|NCT02592434|184275117|SUPERIORITY||Difference in percentage|19.88||||0.0149|TWO_SIDED|95.0|3.88|35.88|||Normal approximation to the binomial|||Week 36||35.88|3.88|0.0149
92188498|NCT02592434|184275117|SUPERIORITY||Difference in percentage|19.88||||0.0149|TWO_SIDED|95.0|3.88|35.88|||Normal approximation to the binomial|||Week 40||35.88|3.88|0.0149
92188499|NCT02592434|184275119|SUPERIORITY||Difference in percentage|-5.24||||0.515|TWO_SIDED|95.0|-21.0|10.53|||Normal approximation to the binomial|||Double Blind Baseline (Week 18)||10.53|-21.00|0.5150
92188500|NCT02592434|184275119|SUPERIORITY||Difference in percentage|9.01||||0.24||95.0|-6.02|24.03|||Normal approximation to the binomial|||Week 20||24.03|-6.02|0.2400
92188501|NCT02592434|184275119|SUPERIORITY||Difference in percentage|8.93||||0.2557|TWO_SIDED|95.0|-6.47|24.33|||Normal approximation to the binomial|||Week 24||24.33|-6.47|0.2557
92188502|NCT02592434|184275119|SUPERIORITY||Difference in percentage|8.97||||0.2481|TWO_SIDED|95.0|-6.25|24.19|||Normal approximation to the binomial|||Week 28||24.19|-6.25|0.2481
92188503|NCT02592434|184275119|SUPERIORITY||Difference in percentage|16.03||||0.0356|TWO_SIDED|95.0|1.08|30.98|||Normal approximation to the binomial|||Week 32||30.98|1.08|0.0356
92305827|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|||<|0.001|TWO_SIDED|95.0|0.21|0.61|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.61|0.21|<0.001
92305828|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|||<|0.001|TWO_SIDED|95.0|0.81|1.38|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.38|0.81|<0.001
92305829|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.014|TWO_SIDED|95.0|0.05|0.45|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.45|0.05|0.014
92305830|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66|||<|0.001|TWO_SIDED|95.0|0.45|0.86|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.86|0.45|<0.001
92305831|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.85|||<|0.001|TWO_SIDED|95.0|0.56|1.13|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.13|0.56|<0.001
92305832|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44||||0.003|TWO_SIDED|95.0|0.15|0.73|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.73|0.15|0.003
92305833|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|||<|0.001|TWO_SIDED|95.0|0.21|0.61|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.61|0.21|<0.001
92305834|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.91|||<|0.001|TWO_SIDED|95.0|0.62|1.2|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.20|0.62|<0.001
92188504|NCT02592434|184275119|SUPERIORITY||Difference in percentage|18.89||||0.0115|TWO_SIDED|95.0|4.24|33.54|||Normal approximation to the binomial|||Week 36||33.54|4.24|0.0115
92305835|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21||||0.041|TWO_SIDED|95.0|0.01|0.42|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.42|0.01|0.041
92305836|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56|||<|0.001|TWO_SIDED|95.0|0.35|0.76|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.76|0.35|<0.001
92305837|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.41|0.99|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.99|0.41|<0.001
92188505|NCT02592434|184275119|SUPERIORITY||Difference in percentage|11.87||||0.115|TWO_SIDED|95.0|-2.89|26.62|||Normal approximation to the binomial|||Week 40||26.62|-2.89|0.1150
92305838|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35||||0.018|TWO_SIDED|95.0|0.06|0.65|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.65|0.06|0.018
92305839|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.001|TWO_SIDED|95.0|0.14|0.55|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.55|0.14|0.001
92305840|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76|||<|0.001|TWO_SIDED|95.0|0.48|1.05|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.05|0.48|<0.001
92305841|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.045|TWO_SIDED|95.0|0.0|0.4|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.40|0.00|0.045
92305842|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44|||<|0.001|TWO_SIDED|95.0|0.24|0.64|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.64|0.24|<0.001
92305843|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56|||<|0.001|TWO_SIDED|95.0|0.28|0.84|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.84|0.28|< 0.001
92305844|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.027|TWO_SIDED|95.0|0.04|0.61|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.61|0.04|0.027
92188506|NCT02592434|184275119|SUPERIORITY||Difference in percentage|13.29||||0.0744|TWO_SIDED|95.0|-1.31|27.9|||Normal approximation to the binomial|||Week 44||27.90|-1.31|0.0744
92305845|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.02|TWO_SIDED|95.0|0.04|0.44|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.44|0.04|0.020
92305846|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57|||<|0.001|TWO_SIDED|95.0|0.29|0.85|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.85|0.29|<0.001
92305847|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.374|TWO_SIDED|95.0|-0.11|0.28|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.28|-0.11|0.374
92305848|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34|||<|0.001|TWO_SIDED|95.0|0.14|0.54|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.54|0.14|<0.001
92305849|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48|||<|0.001|TWO_SIDED|95.0|0.2|0.76|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.76|0.20|<0.001
92305850|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.106|TWO_SIDED|95.0|-0.05|0.51|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.51|-0.05|0.106
92305851|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.013|TWO_SIDED|95.0|0.05|0.45|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.45|0.05|0.013
92188507|NCT02592434|184275121|SUPERIORITY||Difference in percentage|-16.15||||0.0207|TWO_SIDED|95.0|-29.84|-2.46|||Normal approximation to the binomial|||Double Blind Baseline (Week 18)||-2.46|-29.84|0.0207
92188508|NCT02592434|184275121|SUPERIORITY||Difference in percentage|10.63||||0.1254|TWO_SIDED|95.0|-2.97|24.24|||Normal approximation to the binomial|||Week 20||24.24|-2.97|0.1254
92188509|NCT02592434|184275121|SUPERIORITY||Difference in percentage|3.49||||0.635|TWO_SIDED|95.0|-10.93|17.91|||Normal approximation to the binomial|||Week 24||17.91|-10.93|0.6350
92188510|NCT02592434|184275121|SUPERIORITY||Difference in percentage|2.1||||0.7732|TWO_SIDED|95.0|-12.2|16.41|||Normal approximation to the binomial|||Week 28||16.41|-12.20|0.7732
92305852|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39||||0.006|TWO_SIDED|95.0|0.11|0.67|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.67|0.11|0.006
92305853|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.796|TWO_SIDED|95.0|-0.17|0.22|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.22|-0.17|0.796
92305854|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16||||0.104|TWO_SIDED|95.0|-0.03|0.36|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.36|-0.03|0.104
92305855|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.01|TWO_SIDED|95.0|0.09|0.65|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.65|0.09|0.010
92305856|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.114|TWO_SIDED|95.0|-0.05|0.51|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.51|-0.05|0.114
92305857|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.168|TWO_SIDED|95.0|-0.06|0.34|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.34|-0.06|0.168
92305858|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.022|TWO_SIDED|95.0|0.05|0.59|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.59|0.05|0.022
92188511|NCT02592434|184275121|SUPERIORITY||Difference in percentage|6.35||||0.3782|TWO_SIDED|95.0|-7.77|20.47|||Normal approximation to the binomial|||Week 32||20.47|-7.77|0.3782
92188512|NCT02592434|184275121|SUPERIORITY||Difference in percentage|11.98||||0.0936|TWO_SIDED|95.0|-2.02|25.99|||Normal approximation to the binomial|||Week 36||25.99|-2.02|0.0936
92188513|NCT02592434|184275121|SUPERIORITY||Difference in percentage|9.17||||0.2017|TWO_SIDED|95.0|-4.91|23.24|||Normal approximation to the binomial|||Week 40||23.24|-4.91|0.2017
92188514|NCT02592434|184275121|SUPERIORITY||Difference in percentage|12.02||||0.0858|TWO_SIDED|95.0|-1.69|25.74|||Normal approximation to the binomial|||Week 44||25.74|-1.69|0.0858
92305859|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05||||0.62|TWO_SIDED|95.0|-0.14|0.24|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.24|-0.14|0.620
92305860|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.164|TWO_SIDED|95.0|-0.06|0.33|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.33|-0.06|0.164
92188515|NCT02592434|184275123|SUPERIORITY||LS mean difference|-2.07|STANDARD_ERROR_OF_MEAN|0.78||0.0088|TWO_SIDED|95.0|-3.6|-0.53|||MMRM|||Week 20; Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.53|-3.60|0.0088
92305861|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27||||0.052|TWO_SIDED|95.0|0.0|0.54|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.54|-0.00|0.052
92305862|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.196|TWO_SIDED|95.0|-0.09|0.45|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.45|-0.09|0.196
92305863|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.364|TWO_SIDED|95.0|-0.1|0.28|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.28|-0.10|0.364
92305864|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.071|TWO_SIDED|95.0|-0.02|0.52|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.52|-0.02|0.071
92305865|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.865||95.0|-0.2|0.17|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.17|-0.20|0.865
92305866|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.238|TWO_SIDED|95.0|-0.08|0.3|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.30|-0.08|0.238
92305867|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26||||0.054|TWO_SIDED|95.0|0.0|0.53|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.53|-0.00|0.054
92188516|NCT02592434|184275123|SUPERIORITY||LS mean difference|-3.64|STANDARD_ERROR_OF_MEAN|1.28||0.0054|TWO_SIDED|95.0|-6.17|-1.1|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.10|-6.17|0.0054
92188517|NCT02592434|184275123|SUPERIORITY||LS mean difference|-3.85|STANDARD_ERROR_OF_MEAN|1.25||0.0039|TWO_SIDED|95.0|-6.38|-1.32|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.32|-6.38|0.0039
92188518|NCT02592434|184275123|SUPERIORITY||LS mean difference|-3.3|STANDARD_ERROR_OF_MEAN|0.98||0.0022|TWO_SIDED|95.0|-5.3|-1.29|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.29|-5.30|0.0022
92305868|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.335|TWO_SIDED|95.0|-0.14|0.4|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.40|-0.14|0.335
92305869|NCT02912650|184513985|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.176|TWO_SIDED|95.0|-0.06|0.32|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.32|-0.06|0.176
92305870|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48||||0.002|TWO_SIDED|95.0|0.18|0.77|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.77|0.18|0.002
92305871|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.098|TWO_SIDED|95.0|-0.03|0.38|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.38|-0.03|0.098
92305872|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.719|TWO_SIDED|95.0|-0.25|0.17|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.17|-0.25|0.719
92305873|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.048|TWO_SIDED|95.0|0.0|0.6|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.60|0.00|0.048
92305874|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|||<|0.001|TWO_SIDED|95.0|0.21|0.81|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.81|0.21|<0.001
92305875|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21||||0.046|TWO_SIDED|95.0|-0.42|0.0|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||-0.00|-0.42|0.046
92305876|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.52|||<|0.001|TWO_SIDED|95.0|1.05|1.99|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.99|1.05|<0.001
92305877|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.069|TWO_SIDED|95.0|-0.02|0.63|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.63|-0.02|0.069
92305878|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.604|TWO_SIDED|95.0|-0.24|0.42|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.42|-0.24|0.604
92305879|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.22|||<|0.001|TWO_SIDED|95.0|0.75|1.69|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.69|0.75|<0.001
92188519|NCT02592434|184275123|SUPERIORITY||LS mean difference|-6.21|STANDARD_ERROR_OF_MEAN|1.57||0.0005|TWO_SIDED|95.0|-9.42|-3.0|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-3.00|-9.42|0.0005
92305880|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.43|||<|0.001|TWO_SIDED|95.0|0.96|1.9|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.90|0.96|<0.001
92305881|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22||||0.2|TWO_SIDED|95.0|-0.54|0.11|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.11|-0.54|0.200
92305882|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.89|||<|0.001|TWO_SIDED|95.0|2.32|3.46|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.46|2.32|<0.001
92305883|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63||||0.002|TWO_SIDED|95.0|0.23|1.03|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.03|0.23|0.002
92305884|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.55||||0.008|TWO_SIDED|95.0|0.14|0.95|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.95|0.14|0.008
92305885|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.26|||<|0.001|TWO_SIDED|95.0|1.69|2.83|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.83|1.69|<0.001
92305886|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.34|||<|0.001|TWO_SIDED|95.0|1.77|2.91|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.91|1.77|<0.001
92305887|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.685|TWO_SIDED|95.0|-0.49|0.32|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.32|-0.49|0.685
92188520|NCT02592434|184275123|SUPERIORITY||LS mean difference|-6.26|STANDARD_ERROR_OF_MEAN|1.63||0.0006|TWO_SIDED|95.0|-9.6|-2.92|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-2.92|-9.60|0.0006
92305888|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|3.35|||<|0.001|TWO_SIDED|95.0|2.77|3.93|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.93|2.77|<0.001
92305889|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66||||0.001|TWO_SIDED|95.0|0.26|1.07|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.07|0.26|0.001
92305890|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.98|||<|0.001|TWO_SIDED|95.0|0.57|1.39|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.39|0.57|<0.001
92305891|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.69|||<|0.001|TWO_SIDED|95.0|2.11|3.27|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.27|2.11|<0.001
92305892|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.37|||<|0.001|TWO_SIDED|95.0|1.79|2.96|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.96|1.79|<0.001
92305893|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.132|TWO_SIDED|95.0|-0.1|0.73|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.73|-0.10|0.132
92188521|NCT02592434|184275123|SUPERIORITY||LS mean difference|-4.36|STANDARD_ERROR_OF_MEAN|1.27||0.0027|TWO_SIDED|95.0|-7.02|-1.71|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.71|-7.02|0.0027
92305894|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5|||<|0.001|TWO_SIDED|95.0|2.88|4.13|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.13|2.88|<0.001
92305895|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61||||0.007|TWO_SIDED|95.0|0.17|1.05|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.05|0.17|0.007
92305896|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.35|||<|0.001|TWO_SIDED|95.0|0.91|1.8|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.80|0.91|<0.001
92305897|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|||<|0.001|TWO_SIDED|95.0|2.27|3.52|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.52|2.27|<0.001
92305898|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.15|||<|0.001|TWO_SIDED|95.0|1.52|2.79|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.79|1.52|<0.001
92305899|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.74||||0.001|TWO_SIDED|95.0|0.3|1.19|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.19|0.30|0.001
92305900|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|3.44|||<|0.001|TWO_SIDED|95.0|2.79|4.09|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.09|2.79|<0.001
92305901|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.003|TWO_SIDED|95.0|0.24|1.15|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.15|0.24|0.003
92188522|NCT02592434|184275125|SUPERIORITY||LS Mean Difference|-1.83|STANDARD_ERROR_OF_MEAN|0.76||0.0172|TWO_SIDED|95.0|-3.32|-0.33|||MMRM|||Week 20: Analysis was based on Mixed Model for Repeated Measures (MMRM) with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-0.33|-3.32|0.0172
92188523|NCT02592434|184275125|SUPERIORITY||LS Mean Difference|-3.41|STANDARD_ERROR_OF_MEAN|1.21||0.0057|TWO_SIDED|95.0|-5.81|-1.01|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-1.01|-5.81|0.0057
92305902|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.85|||<|0.001|TWO_SIDED|95.0|1.39|2.31|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.31|1.39|<0.001
92305903|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.74|||<|0.001|TWO_SIDED|95.0|2.1|3.39|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.39|2.10|<0.001
92305904|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.59|||<|0.001|TWO_SIDED|95.0|0.94|2.24|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.24|0.94|< 0.001
92305905|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.15|||<|0.001|TWO_SIDED|95.0|0.69|1.61|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.61|0.69|<0.001
92305906|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|3.33|||<|0.001|TWO_SIDED|95.0|2.67|4.0|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.00|2.67|<0.001
92305907|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.74||||0.002|TWO_SIDED|95.0|0.27|1.2|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.20|0.27|0.002
92305908|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.94|||<|0.001|TWO_SIDED|95.0|1.47|2.41|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.41|1.47|<0.001
92188524|NCT02592434|184275125|SUPERIORITY||LS Mean Difference|-3.58|STANDARD_ERROR_OF_MEAN|1.16||0.0038|TWO_SIDED|95.0|-5.94|-1.23|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-1.23|-5.94|0.0038
92305909|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6|||<|0.001|TWO_SIDED|95.0|1.93|3.26|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.26|1.93|<0.001
92305910|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|||<|0.001|TWO_SIDED|95.0|0.73|2.07|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.07|0.73|<0.001
92305911|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2|||<|0.001|TWO_SIDED|95.0|0.73|1.67|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.67|0.73|<0.001
92305912|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|3.19|||<|0.001|TWO_SIDED|95.0|2.51|3.87|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.87|2.51|<0.001
92305913|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76||||0.002|TWO_SIDED|95.0|0.29|1.23|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.23|0.29|0.002
92305914|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.85|||<|0.001|TWO_SIDED|95.0|1.37|2.33|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.33|1.37|< 0.001
92305915|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.43|||<|0.001|TWO_SIDED|95.0|1.75|3.11|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.11|1.75|<0.001
92305916|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.34|||<|0.001|TWO_SIDED|95.0|0.66|2.03|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.03|0.66|<0.001
92305917|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|||<|0.001|TWO_SIDED|95.0|0.61|1.56|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.56|0.61|<0.001
92305918|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.65|||<|0.001|TWO_SIDED|95.0|1.95|3.35|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.35|1.95|<0.001
92305919|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61||||0.015|TWO_SIDED|95.0|0.12|1.09|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.09|0.12|0.015
92305920|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.73|||<|0.001|TWO_SIDED|95.0|1.24|2.22|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.22|1.24|<0.001
92305921|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.05|||<|0.001|TWO_SIDED|95.0|1.35|2.74|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.74|1.35|<0.001
92305922|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.92||||0.01|TWO_SIDED|95.0|0.22|1.62|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.62|0.22|0.010
92305923|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.12|||<|0.001|TWO_SIDED|95.0|0.63|1.61|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.61|0.63|<0.001
92305924|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|2.18|||<|0.001|TWO_SIDED|95.0|1.47|2.88|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.88|1.47|<0.001
92305925|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.022|TWO_SIDED|95.0|0.08|1.06|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.06|0.08|0.022
92305926|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.45|||<|0.001|TWO_SIDED|95.0|0.95|1.95|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.95|0.95|<0.001
92305927|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|||<|0.001|TWO_SIDED|95.0|0.9|2.3|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.30|0.90|<0.001
92305928|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72||||0.045|TWO_SIDED|95.0|0.02|1.43|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.43|0.02|0.045
92305929|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.88|||<|0.001|TWO_SIDED|95.0|0.38|1.38|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.38|0.38|<0.001
92305930|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.78|||<|0.001|TWO_SIDED|95.0|1.09|2.47|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.47|1.09|<0.001
92305931|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56||||0.024|TWO_SIDED|95.0|0.07|1.04|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.04|0.07|0.024
92305932|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.16|||<|0.001|TWO_SIDED|95.0|0.67|1.65|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.65|0.67|<0.001
92305933|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.23|||<|0.001|TWO_SIDED|95.0|0.54|1.92|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.92|0.54|<0.001
92305934|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.62||||0.079|TWO_SIDED|95.0|-0.07|1.32|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.32|-0.07|0.079
92305935|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.015|TWO_SIDED|95.0|0.12|1.09|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.09|0.12|0.015
92305936|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.25|||<|0.001|TWO_SIDED|95.0|0.56|1.94|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.94|0.56|<0.001
92305937|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19||||0.438|TWO_SIDED|95.0|-0.29|0.67|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.67|-0.29|0.438
92305938|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.001|TWO_SIDED|95.0|0.31|1.29|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.29|0.31|0.001
92305939|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.06||||0.003|TWO_SIDED|95.0|0.37|1.75|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.75|0.37|0.003
92305940|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.45||||0.204|TWO_SIDED|95.0|-0.25|1.14|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.14|-0.25|0.204
92305941|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61||||0.014|TWO_SIDED|95.0|0.12|1.1|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.10|0.12|0.014
92305942|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.84||||0.018|TWO_SIDED|95.0|0.15|1.53|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.53|0.15|0.018
92305943|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04||||0.867|TWO_SIDED|95.0|-0.44|0.52|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.52|-0.44|0.867
92305944|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41||||0.099|TWO_SIDED|95.0|-0.08|0.9|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.90|-0.08|0.099
92305945|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.024|TWO_SIDED|95.0|0.11|1.49|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.49|0.11|0.024
92305946|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.43||||0.228|TWO_SIDED|95.0|-0.27|1.12|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.12|-0.27|0.228
92305947|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.136|TWO_SIDED|95.0|-0.12|0.86|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.86|-0.12|0.136
92305948|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.078|TWO_SIDED|95.0|-0.07|1.28|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.28|-0.07|0.078
92305949|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.716|TWO_SIDED|95.0|-0.38|0.56|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.56|-0.38|0.716
92305950|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31||||0.197|TWO_SIDED|95.0|-0.16|0.79|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.79|-0.16|0.197
92305951|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52||||0.131|TWO_SIDED|95.0|-0.15|1.19|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.19|-0.15|0.131
92305952|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29||||0.399|TWO_SIDED|95.0|-0.39|0.97|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.97|-0.39|0.399
92305953|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.349|TWO_SIDED|95.0|-0.25|0.7|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.70|-0.25|0.349
92305954|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46||||0.169|TWO_SIDED|95.0|-0.2|1.12|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.12|-0.20|0.169
92188525|NCT02592434|184275125|SUPERIORITY||LS Mean Difference|-3.41|STANDARD_ERROR_OF_MEAN|1.01||0.002|TWO_SIDED|95.0|-5.47|-1.36|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-1.36|-5.47|0.0020
92188526|NCT02592434|184275125|SUPERIORITY||LS Mean Difference|-5.66|STANDARD_ERROR_OF_MEAN|1.52||0.0007|TWO_SIDED|95.0|-8.74|-2.57|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-2.57|-8.74|0.0007
92305955|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.937|TWO_SIDED|95.0|-0.48|0.44|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.44|-0.48|0.937
92305956|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.351|TWO_SIDED|95.0|-0.25|0.69|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.69|-0.25|0.351
92305957|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48||||0.151|TWO_SIDED|95.0|-0.18|1.14|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.14|-0.18|0.151
92305958|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.476|TWO_SIDED|95.0|-0.42|0.9|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.90|-0.42|0.476
92188527|NCT02592434|184275125|SUPERIORITY||LS Mean Difference|-5.62|STANDARD_ERROR_OF_MEAN|1.49||0.0007|TWO_SIDED|95.0|-8.66|-2.58|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-2.58|-8.66|0.0007
92305959|NCT02912650|184513986|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.31|TWO_SIDED|95.0|-0.22|0.71|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.71|-0.22|0.310
92305960|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|7.35|||<|0.001|TWO_SIDED|95.0|6.09|8.61|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||8.61|6.09|<0.001
92305961|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|1.41||||0.002|TWO_SIDED|95.0|0.53|2.28|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.28|0.53|0.002
92305962|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|1.98|||<|0.001|TWO_SIDED|95.0|1.09|2.88|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.88|1.09|<0.001
92188528|NCT02592434|184275125|SUPERIORITY||LS Mean Difference|-4.41|STANDARD_ERROR_OF_MEAN|1.25||0.0018|TWO_SIDED|95.0|-6.99|-1.82|||MMRM|||Week 44:Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-1.82|-6.99|0.0018
92305963|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|5.94|||<|0.001|TWO_SIDED|95.0|4.69|7.2|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||7.20|4.69|<0.001
92305964|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|5.37|||<|0.001|TWO_SIDED|95.0|4.1|6.63|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||6.63|4.10|<0.001
92305965|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|0.58||||0.203|TWO_SIDED|95.0|-0.31|1.47|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.47|-0.31|0.203
92305966|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|24.5|||<|0.001|TWO_SIDED|95.0|20.1|28.9|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||28.90|20.10|<0.001
92305967|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|4.44||||0.005|TWO_SIDED|95.0|1.37|7.52|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||7.52|1.37|0.005
92305968|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|11.36|||<|0.001|TWO_SIDED|95.0|8.23|14.48|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||14.48|8.23|<0.001
92305969|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|20.06|||<|0.001|TWO_SIDED|95.0|15.66|24.45|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||24.45|15.66|<0.001
92305970|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|13.14|||<|0.001|TWO_SIDED|95.0|8.71|17.57|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||17.57|8.71|<0.001
92305971|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|6.92|||<|0.001|TWO_SIDED|95.0|3.8|10.04|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||10.04|3.80|<0.001
92305972|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|34.83|||<|0.001|TWO_SIDED|95.0|26.09|43.57|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||43.57|26.09|<0.001
92305973|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|5.85||||0.06|TWO_SIDED|95.0|-0.25|11.95|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||11.95|-0.25|0.060
92305974|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|16.75|||<|0.001|TWO_SIDED|95.0|10.54|22.95|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||22.95|10.54|<0.001
92305975|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|28.98|||<|0.001|TWO_SIDED|95.0|20.26|37.71|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||37.71|20.26|<0.001
92305976|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|18.08|||<|0.001||95.0|9.29|26.88|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||26.88|9.29|<0.001
92305977|NCT02912650|184513987|SUPERIORITY_OR_OTHER||LS Mean Difference|10.9|||<|0.001|TWO_SIDED|95.0|4.7|17.1|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||17.10|4.70|<0.001
92188529|NCT02592434|184275127|SUPERIORITY||Difference in percentage|1.47||||0.861|TWO_SIDED|95.0|-14.96|17.9|||Normal approximation to the binomial|||Double Blind Baseline (Week 18)||17.90|-14.96|0.8610
92305978|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|2.12|||<|0.001|TWO_SIDED|95.0|1.72|2.51|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.51|1.72|<0.001
92305979|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44||||0.002|TWO_SIDED|95.0|0.16|0.71|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.71|0.16|0.002
92305980|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|0.58|||<|0.001|TWO_SIDED|95.0|0.3|0.86|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.86|0.30|<0.001
92305981|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|1.68|||<|0.001|TWO_SIDED|95.0|1.29|2.08|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.08|1.29|<0.001
92188530|NCT02592434|184275127|SUPERIORITY||Difference in percentage|10.12||||0.2173|TWO_SIDED|95.0|-5.96|26.2|||Normal approximation to the binomial|||Week 20||26.20|-5.96|0.2173
92188531|NCT02592434|184275127|SUPERIORITY||Difference in percentage|12.94||||0.1135|TWO_SIDED|95.0|-3.08|28.96|||Normal approximation to the binomial|||Week 24||28.96|-3.08|0.1135
92188532|NCT02592434|184275127|SUPERIORITY||Difference in percentage|11.51||||0.161|TWO_SIDED|95.0|-4.58|27.6|||Normal approximation to the binomial|||Week 28||27.60|-4.58|0.1610
92188533|NCT02592434|184275127|SUPERIORITY||Difference in percentage|7.42||||0.3571|TWO_SIDED|95.0|-8.37|23.21|||Normal approximation to the binomial|||Week 32||23.21|-8.37|0.3571
92305982|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|1.53|||<|0.001|TWO_SIDED|95.0|1.14|1.93|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.93|1.14|<0.001
92305983|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15||||0.303|TWO_SIDED|95.0|-0.13|0.43|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.43|-0.13|0.303
92305984|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|7.22|||<|0.001|TWO_SIDED|95.0|5.86|8.58|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.58|5.86|<0.001
92305985|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|1.58||||0.001|TWO_SIDED|95.0|0.63|2.53|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.53|0.63|0.001
92305986|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|3.48|||<|0.001|TWO_SIDED|95.0|2.52|4.45|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.45|2.52|<0.001
92305987|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|5.64|||<|0.001|TWO_SIDED|95.0|4.28|6.99|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.99|4.28|<0.001
92305988|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|3.73|||<|0.001|TWO_SIDED|95.0|2.37|5.1|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.10|2.37|<0.001
92188534|NCT02592434|184275127|SUPERIORITY||Difference in percentage|14.44||||0.0716|TWO_SIDED|95.0|-1.27|30.16|||Normal approximation to the binomial|||Week 36||30.16|-1.27|0.0716
92305989|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|||<|0.001|TWO_SIDED|95.0|0.95|2.86|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.86|0.95|<0.001
92305990|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|8.89|||<|0.001|TWO_SIDED|95.0|7.08|10.71|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||10.71|7.08|<0.001
92305991|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0||||0.002|TWO_SIDED|95.0|0.73|3.26|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.26|0.73|0.002
92188535|NCT02592434|184275127|SUPERIORITY||Difference in percentage|14.4||||0.0746|TWO_SIDED|95.0|-1.43|30.24|||Normal approximation to the binomial|||Week 40||30.24|-1.43|0.0746
92188536|NCT02592434|184275127|SUPERIORITY||Difference in percentage|14.37||||0.0773|TWO_SIDED|95.0|-1.57|30.3|||Normal approximation to the binomial|||Week 44||30.30|-1.57|0.0773
92188537|NCT02592434|184275129|SUPERIORITY||Difference in percentage|-3.06||||0.5131|TWO_SIDED|95.0|-12.21|6.1|||Normal approximation to the binomial|||Double Blind Baseline (Week 18)||6.10|-12.21|0.5131
92305992|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|4.48|||<|0.001|TWO_SIDED|95.0|3.2|5.77|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.77|3.20|<0.001
92305993|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9|||<|0.001|TWO_SIDED|95.0|5.08|8.71|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.71|5.08|<0.001
92305994|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|4.41|||<|0.001|TWO_SIDED|95.0|2.58|6.24|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.24|2.58|<0.001
92305995|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|2.49|||<|0.001|TWO_SIDED|95.0|1.21|3.77|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.77|1.21|<0.001
92305996|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|10.42|||<|0.001|TWO_SIDED|95.0|7.76|13.08|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||13.08|7.76|<0.001
92305997|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|2.14||||0.024|TWO_SIDED|95.0|0.28|4.0|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.00|0.28|0.024
92305998|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|5.24|||<|0.001|TWO_SIDED|95.0|3.35|7.12|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||7.12|3.35|<0.001
92305999|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|8.28|||<|0.001|TWO_SIDED|95.0|5.62|10.93|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||10.93|5.62|<0.001
92306000|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|5.18|||<|0.001|TWO_SIDED|95.0|2.51|7.86|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||7.86|2.51|<0.001
92306001|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1||||0.001|TWO_SIDED|95.0|1.22|4.97|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.97|1.22|0.001
92306002|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|2.77|||<|0.001|TWO_SIDED|95.0|1.95|3.59|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.59|1.95|<0.001
92306003|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66||||0.023|TWO_SIDED|95.0|0.09|1.24|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.24|0.09|0.023
92306004|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|1.66|||<|0.001|TWO_SIDED|95.0|1.07|2.24|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.24|1.07|<0.001
92306005|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|2.11|||<|0.001|TWO_SIDED|95.0|1.29|2.92|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.92|1.29|<0.001
92306006|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|1.11||||0.008|TWO_SIDED|95.0|0.29|1.94|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.94|0.29|0.008
92306007|NCT02912650|184513988|SUPERIORITY_OR_OTHER||LS Mean Difference|0.99|||<|0.001|TWO_SIDED|95.0|0.41|1.57|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.57|0.41|<0.001
92306008|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|3.25|||<|0.001|TWO_SIDED|95.0|2.68|3.82|||ANOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.82|2.68|<0.001
92306009|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63||||0.002|TWO_SIDED|95.0|0.23|1.03|||ANOVA|||0-2 hour:Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.03|0.23|0.002
92306010|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86|||<|0.001|TWO_SIDED|95.0|0.46|1.27|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.27|0.46|<0.001
92306011|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|2.62|||<|0.001|TWO_SIDED|95.0|2.05|3.19|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.19|2.05|<0.001
92306012|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|2.39|||<|0.001|TWO_SIDED|95.0|1.81|2.96|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.96|1.81|<0.001
92306013|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.258|TWO_SIDED|95.0|-0.17|0.64|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.64|-0.17|0.258
92306014|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|10.77|||<|0.001|TWO_SIDED|95.0|8.79|12.74|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||12.74|8.79|<0.001
92306015|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|2.29||||0.001|TWO_SIDED|95.0|0.91|3.67|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.67|0.91|0.001
92306016|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|5.33|||<|0.001|TWO_SIDED|95.0|3.93|6.73|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.73|3.93|<0.001
92306017|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|8.48|||<|0.001|TWO_SIDED|95.0|6.51|10.44|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||10.44|6.51|<0.001
92306018|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|5.44|||<|0.001|TWO_SIDED|95.0|3.46|7.42|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||7.42|3.46|<0.001
92306019|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|3.04|||<|0.001|TWO_SIDED|95.0|1.65|4.43|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.43|1.65|<0.001
92306020|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|14.68|||<|0.001|TWO_SIDED|95.0|10.74|18.62|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||18.62|10.74|<0.001
92306021|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|3.16||||0.024|TWO_SIDED|95.0|0.41|5.91|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.91|0.41|0.024
92306022|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|7.94|||<|0.001|TWO_SIDED|95.0|5.15|10.73|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||10.73|5.15|<0.001
92306023|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|11.52|||<|0.001|TWO_SIDED|95.0|7.59|15.45|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||15.45|7.59|<0.001
92306024|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|6.75|||<|0.001||95.0|2.79|10.71|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||10.71|2.79|<0.001
92306025|NCT02912650|184513989|SUPERIORITY_OR_OTHER||LS Mean Difference|4.78|||<|0.001|TWO_SIDED|95.0|2.0|7.56|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||7.56|2.0|<0.001
92306026|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|5.37|||<|0.001|TWO_SIDED|95.0|4.42|6.32|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.32|4.42|<0.001
92306027|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07||||0.002|TWO_SIDED|95.0|0.4|1.74|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.74|0.40|0.002
92306028|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|1.45|||<|0.001|TWO_SIDED|95.0|0.77|2.13|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.13|0.77|<0.001
92306029|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3|||<|0.001|TWO_SIDED|95.0|3.35|5.25|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.25|3.35|<0.001
92306030|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|3.92|||<|0.001|TWO_SIDED|95.0|2.96|4.88|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.88|2.96|<0.001
92306031|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|0.38||||0.268|TWO_SIDED|95.0|-0.29|1.05|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.05|-0.29|0.268
92306032|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|17.99|||<|0.001|TWO_SIDED|95.0|14.69|21.28|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||21.28|14.69|<0.001
92306033|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|3.87|||<|0.001|TWO_SIDED|95.0|1.57|6.17|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.17|1.57|<0.001
92306034|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|8.81|||<|0.001|TWO_SIDED|95.0|6.48|11.15|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||11.15|6.48|<0.001
92306035|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|14.12|||<|0.001|TWO_SIDED|95.0|10.83|17.4|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||17.40|10.83|<0.001
92306036|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|9.17|||<|0.001|TWO_SIDED|95.0|5.86|12.48|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||12.48|5.86|<0.001
92306037|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|4.94|||<|0.001|TWO_SIDED|95.0|2.62|7.27|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||7.27|2.62|<0.001
92188538|NCT02592434|184275129|SUPERIORITY||Difference in percentage|6.87||||0.0876|TWO_SIDED|95.0|-1.01|14.74|||Normal approximation to the binomial|||Week 20||14.74|-1.01|0.0876
92188539|NCT02592434|184275129|SUPERIORITY||Difference in percentage|6.79||||0.1561|TWO_SIDED|95.0|-2.59|16.16|||Normal approximation to the binomial|||Week 24||16.16|-2.59|0.1561
92188540|NCT02592434|184275129|SUPERIORITY||Difference in percentage|2.58||||0.5795|TWO_SIDED|95.0|-6.54|11.7|||Normal approximation to the binomial|||Week 28||11.70|-6.54|0.5795
92188541|NCT02592434|184275129|SUPERIORITY||Difference in percentage|5.4||||0.2435|TWO_SIDED|95.0|-3.67|14.47|||Normal approximation to the binomial|||Week 32||14.47|-3.67|0.2435
92188542|NCT02592434|184275129|SUPERIORITY||Difference in percentage|9.52||||0.0758|TWO_SIDED|95.0|-0.99|20.04|||Normal approximation to the binomial|||Week 36||20.04|-0.99|0.0758
92188543|NCT02592434|184275129|SUPERIORITY||Difference in percentage|10.91||||0.0464|TWO_SIDED|95.0|0.17|21.65|||Normal approximation to the binomial|||Week 40||21.65|0.17|0.0464
92188544|NCT02592434|184275129|SUPERIORITY||Difference in percentage|8.06||||0.1634|TWO_SIDED|95.0|-3.27|19.38|||Normal approximation to the binomial|||Week 44||19.38|-3.27|0.1634
92306038|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|21.94|||<|0.001|TWO_SIDED|95.0|17.52|26.37|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||26.37|17.52|<0.001
92306039|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|5.0||||0.002|TWO_SIDED|95.0|1.91|8.09|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.09|1.91|0.002
92306040|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|11.43|||<|0.001|TWO_SIDED|95.0|8.29|14.56|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||14.56|8.29|<0.001
92188545|NCT02592434|184275130|SUPERIORITY||Difference in percentage|-17.42||||0.0062|TWO_SIDED|95.0|-29.88|-4.96|||Normal approximation to the binomial|||Double Blind baseline (Week 18)||-4.96|-29.88|0.0062
92188546|NCT02592434|184275130|SUPERIORITY||Difference in percentage|-0.44||||0.9427|TWO_SIDED|95.0|-12.34|11.47|||Normal approximation to the binomial|||Week 20||11.47|-12.34|0.9427
92188547|NCT02592434|184275130|SUPERIORITY||Difference in percentage|-0.6||||0.9308|TWO_SIDED|95.0|-14.03|12.84|||Normal approximation to the binomial|||Week 24||12.84|-14.03|0.9308
92188548|NCT02592434|184275130|SUPERIORITY||Difference in percentage|0.87||||0.8945|TWO_SIDED|95.0|-12.03|13.78|||Normal approximation to the binomial|||Week 28||13.78|-12.03|0.8945
92188549|NCT02592434|184275130|SUPERIORITY||Difference in percentage|2.22||||0.7455|TWO_SIDED|95.0|-11.2|15.64|||Normal approximation to the binomial|||Week 32||15.64|-11.20|0.7455
92188550|NCT02592434|184275130|SUPERIORITY||Difference in percentage|9.25||||0.1787|TWO_SIDED|95.0|-4.23|22.72|||Normal approximation to the binomial|||Week 36||22.72|-4.23|0.1787
92188551|NCT02592434|184275130|SUPERIORITY||Difference in percentage|12.1||||0.0695|TWO_SIDED|95.0|-0.97|25.17|||Normal approximation to the binomial|||Week 40||25.17|-0.97|0.0695
92188552|NCT02592434|184275130|SUPERIORITY||Difference in percentage|9.25||||0.1787|TWO_SIDED|95.0|-4.23|22.72|||Normal approximation to the binomial|||Week 44||22.72|-4.23|0.1787
92188553|NCT02592434|184275131|SUPERIORITY||Difference in percentage|-0.12||||0.9719|TWO_SIDED|95.0|-6.74|6.5|||Normal approximation to the binomial|||||6.50|-6.74|0.9719
92306041|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|16.94|||<|0.001|TWO_SIDED|95.0|12.53|21.36|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||21.36|12.53|<0.001
92306042|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|10.52|||<|0.001|TWO_SIDED|95.0|6.07|14.97|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||14.97|6.07|<0.001
92306043|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|6.43|||<|0.001|TWO_SIDED|95.0|3.3|9.55|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||9.55|3.30|<0.001
92306044|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|25.1|||<|0.001|TWO_SIDED|95.0|18.57|31.63|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||31.63|18.57|<0.001
92306045|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|5.3||||0.023|TWO_SIDED|95.0|0.74|9.86|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||9.86|0.74|0.023
92306046|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|13.17|||<|0.001|TWO_SIDED|95.0|8.55|17.8|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||17.80|8.55|<0.001
92306047|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|19.8|||<|0.001|TWO_SIDED|95.0|13.28|26.31|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||26.31|13.28|<0.001
92306048|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|11.93|||<|0.001|TWO_SIDED|95.0|5.36|18.49|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||18.49|5.36|<0.001
92306049|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|7.87|||<|0.001|TWO_SIDED|95.0|3.27|12.48|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||12.48|3.27|<0.001
92306050|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|6.61|||<|0.001|TWO_SIDED|95.0|4.61|8.62|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.62|4.61|<0.001
92306051|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|1.74||||0.015|TWO_SIDED|95.0|0.34|3.14|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.14|0.34|0.015
92306052|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|4.34|||<|0.001|TWO_SIDED|95.0|2.92|5.76|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.76|2.92|<0.001
92188554|NCT02592434|184275133|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.61||0.1595|TWO_SIDED|95.0|-2.08|0.35|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.35|-2.08|0.1595
92188555|NCT02592434|184275133|SUPERIORITY||LS Mean difference|-1.42|STANDARD_ERROR_OF_MEAN|0.96||0.1421|TWO_SIDED|95.0|-3.32|0.48|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.48|-3.32|0.1421
92188556|NCT02592434|184275133|SUPERIORITY||LS Mean difference|-1.66|STANDARD_ERROR_OF_MEAN|0.83||0.0552|TWO_SIDED|95.0|-3.37|0.04|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.04|-3.37|0.0552
92306053|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|4.87|||<|0.001|TWO_SIDED|95.0|2.87|6.88|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.88|2.87|<0.001
92306054|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|2.27||||0.028|TWO_SIDED|95.0|0.25|4.28|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.28|0.25|0.028
92188557|NCT02592434|184275133|SUPERIORITY||LS Mean difference|-1.17|STANDARD_ERROR_OF_MEAN|0.63||0.0822|TWO_SIDED|95.0|-2.5|0.17|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.17|-2.50|0.0822
92188558|NCT02592434|184275133|SUPERIORITY||LS Mean difference|-3.98|STANDARD_ERROR_OF_MEAN|1.22||0.0041|TWO_SIDED|95.0|-6.53|-1.43|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.43|-6.53|0.0041
92306055|NCT02912650|184513990|SUPERIORITY_OR_OTHER||LS Mean Difference|2.61|||<|0.001|TWO_SIDED|95.0|1.19|4.02|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.02|1.19|<0.001
92306056|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-36.56|||<|0.001|TWO_SIDED|95.0|-49.41|-23.71|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-23.71|-49.41|<0.001
92306057|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-3.95||||0.086|TWO_SIDED|95.0|-8.45|0.56|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.56|-8.45|0.086
92306058|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-3.71||||0.112|TWO_SIDED|95.0|-8.28|0.86|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.86|-8.28|0.112
92188559|NCT02592434|184275133|SUPERIORITY||LS Mean difference|-3.57|STANDARD_ERROR_OF_MEAN|1.22||0.0085|TWO_SIDED|95.0|-6.12|-1.02|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.02|-6.12|0.0085
92306059|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-32.52|||<|0.001|TWO_SIDED|95.0|-45.86|-19.17|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-19.17|-45.86|<0.001
92188560|NCT02592434|184275133|SUPERIORITY||LS Mean difference|-2.24|STANDARD_ERROR_OF_MEAN|1.03||0.0384|TWO_SIDED|95.0|-4.36|-0.13|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.13|-4.36|0.0384
92188561|NCT02592434|184275135|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.23||0.2595|TWO_SIDED|95.0|-0.72|0.19|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.19|-0.72|0.2595
92306060|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-32.88|||<|0.001|TWO_SIDED|95.0|-46.22|-19.55|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-19.55|-46.22|<0.001
92306061|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|0.11||||0.968|TWO_SIDED|95.0|-5.2|5.42|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||5.42|-5.20|0.968
92306062|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-47.88|||<|0.001|TWO_SIDED|95.0|-61.18|-34.58|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-34.58|-61.18|<0.001
92306063|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-6.23||||0.023|TWO_SIDED|95.0|-11.61|-0.84|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.84|-11.61|0.023
92306064|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-6.23||||0.026|TWO_SIDED|95.0|-11.73|-0.73|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.73|-11.73|0.026
92306065|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-41.51|||<|0.001|TWO_SIDED|95.0|-55.51|-27.52|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-27.52|-55.51|<0.001
92306066|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-41.77|||<|0.001|TWO_SIDED|95.0|-55.65|-27.89|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-27.89|-55.65|<0.001
92306067|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-0.16||||0.96|TWO_SIDED|95.0|-6.56|6.23|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||6.23|-6.56|0.960
92306068|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-55.73|||<|0.001|TWO_SIDED|95.0|-68.81|-42.65|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-42.65|-68.81|<0.001
92306069|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-6.16||||0.055|TWO_SIDED|95.0|-12.46|0.13|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.13|-12.46|0.055
92188562|NCT02592434|184275135|SUPERIORITY||LS Mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.37||0.0674|TWO_SIDED|95.0|-1.42|0.05|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.05|-1.42|0.0674
92306070|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.7||||0.001|TWO_SIDED|95.0|-18.7|-4.7|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-4.70|-18.70|0.001
92306071|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-49.41|||<|0.001|TWO_SIDED|95.0|-63.21|-35.6|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-35.60|-63.21|<0.001
92306072|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-44.3|||<|0.001|TWO_SIDED|95.0|-58.04|-30.55|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-30.55|-58.04|<0.001
92306073|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-5.69||||0.151|TWO_SIDED|95.0|-13.46|2.08|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||2.08|-13.46|0.151
92306074|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-56.94|||<|0.001|TWO_SIDED|95.0|-69.96|-43.91|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-43.91|-69.96|<0.001
92306075|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-9.0||||0.01|TWO_SIDED|95.0|-15.8|-2.19|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-2.19|-15.80|0.010
92306076|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-20.11|||<|0.001|TWO_SIDED|95.0|-27.97|-12.24|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-12.24|-27.97|<0.001
92306077|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-47.73|||<|0.001|TWO_SIDED|95.0|-61.64|-33.83|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-33.83|-61.64|<0.001
92306078|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-37.18|||<|0.001|TWO_SIDED|95.0|-50.96|-23.4|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-23.40|-50.96|<0.001
92306079|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.19||||0.013|TWO_SIDED|95.0|-20.02|-2.36|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-2.36|-20.02|0.013
92306080|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-58.14|||<|0.001|TWO_SIDED|95.0|-71.03|-45.26|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-45.26|-71.03|<0.001
92306081|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-10.15||||0.005|TWO_SIDED|95.0|-17.24|-3.06|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-3.06|-17.24|0.005
92306082|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-26.77|||<|0.001|TWO_SIDED|95.0|-35.1|-18.44|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-18.44|-35.10|<0.001
92306083|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-47.74|||<|0.001|TWO_SIDED|95.0|-61.76|-33.72|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-33.72|-61.76|<0.001
92306084|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-31.69|||<|0.001|TWO_SIDED|95.0|-45.61|-17.76|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-17.76|-45.61|<0.001
92306085|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-16.76|||<|0.001|TWO_SIDED|95.0|-26.1|-7.42|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-7.42|-26.10|<0.001
92306086|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-57.58|||<|0.001|TWO_SIDED|95.0|-70.44|-44.72|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-44.72|-70.44|<0.001
92306087|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.28||||0.004|TWO_SIDED|95.0|-18.99|-3.57|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-3.57|-18.99|0.004
92306088|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-28.06|||<|0.001|TWO_SIDED|95.0|-36.77|-19.35|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-19.35|-36.77|<0.001
92306089|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-46.01|||<|0.001|TWO_SIDED|95.0|-59.98|-32.04|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-32.04|-59.98|<0.001
92188563|NCT02592434|184275135|SUPERIORITY||LS Mean difference|-0.95|STANDARD_ERROR_OF_MEAN|0.49||0.058|TWO_SIDED|95.0|-1.93|0.03|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.03|-1.93|0.0580
92306090|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-29.7|||<|0.001|TWO_SIDED|95.0|-43.65|-15.75|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-15.75|-43.65|<0.001
92306091|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-16.94|||<|0.001|TWO_SIDED|95.0|-26.59|-7.29|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-7.29|-26.59|<0.001
92306092|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-52.9|||<|0.001|TWO_SIDED|95.0|-66.06|-39.75|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-39.75|-66.06|<0.001
92306093|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-8.93||||0.042|TWO_SIDED|95.0|-17.53|-0.34|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.34|-17.53|0.042
92188564|NCT02592434|184275135|SUPERIORITY||LS Mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.44||0.0751|TWO_SIDED|95.0|-1.67|0.08|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.08|-1.67|0.0751
92306094|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-27.25|||<|0.001|TWO_SIDED|95.0|-36.65|-17.86|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-17.86|-36.65|<0.001
92306095|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-43.78|||<|0.001|TWO_SIDED|95.0|-57.83|-29.72|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-29.72|-57.83|<0.001
92306096|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-25.75|||<|0.001|TWO_SIDED|95.0|-39.93|-11.57|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-11.57|-39.93|<0.001
92306097|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-18.49|||<|0.001|TWO_SIDED|95.0|-28.39|-8.59|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-8.59|-28.39|<0.001
92306098|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-45.27|||<|0.001|TWO_SIDED|95.0|-58.96|-31.58|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-31.58|-58.96|<0.001
92306099|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-8.88||||0.064|TWO_SIDED|95.0|-18.27|0.5|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.50|-18.27|0.064
92306100|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-26.98|||<|0.001|TWO_SIDED|95.0|-36.91|-17.05|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-17.05|-36.91|<0.001
92306101|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-36.26|||<|0.001|TWO_SIDED|95.0|-50.45|-22.07|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-22.07|-50.45|<0.001
92306102|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-18.58||||0.01|TWO_SIDED|95.0|-32.64|-4.52|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-4.52|-32.64|0.010
92306103|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-18.17|||<|0.001|TWO_SIDED|95.0|-28.44|-7.9|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-7.90|-28.44|<0.001
92306104|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-34.21|||<|0.001|TWO_SIDED|95.0|-48.21|-20.21|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-20.21|-48.21|<0.001
92306105|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-6.97||||0.179|TWO_SIDED|95.0|-17.12|3.19|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||3.19|-17.12|0.179
92306106|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-20.7|||<|0.001|TWO_SIDED|95.0|-31.04|-10.35|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-10.35|-31.04|<0.001
92306107|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-27.2|||<|0.001|TWO_SIDED|95.0|-41.44|-12.96|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-12.96|-41.44|<0.001
92188565|NCT02592434|184275135|SUPERIORITY||LS Mean difference|-1.01|STANDARD_ERROR_OF_MEAN|0.43||0.0251|TWO_SIDED|95.0|-1.88|-0.13|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.13|-1.88|0.0251
92306108|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-13.9||||0.051|TWO_SIDED|95.0|-27.84|0.04|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.04|-27.84|0.051
92188566|NCT02592434|184275135|SUPERIORITY||LS Mean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.49||0.0331|TWO_SIDED|95.0|-2.07|-0.09|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.09|-2.07|0.0331
92306109|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-13.76||||0.01|TWO_SIDED|95.0|-24.21|-3.31|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-3.31|-24.21|0.010
92306110|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-23.25||||0.001|TWO_SIDED|95.0|-37.31|-9.2|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-9.20|-37.31|0.001
92306111|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-2.22||||0.676|TWO_SIDED|95.0|-12.63|8.19|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||8.19|-12.63|0.676
92306112|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-13.15||||0.013|TWO_SIDED|95.0|-23.57|-2.74|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-2.74|-23.57|0.013
92306113|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-20.94||||0.004|TWO_SIDED|95.0|-35.18|-6.69|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-6.69|-35.18|0.004
92306114|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-10.39||||0.14|TWO_SIDED|95.0|-24.19|3.4|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||3.40|-24.19|0.140
92306115|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.06||||0.038|TWO_SIDED|95.0|-21.51|-0.61|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.61|-21.51|0.038
92306116|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-17.9||||0.013||95.0|-32.13|-3.79|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||-3.79|-32.13|0.013
92306117|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-3.85||||0.467||95.0|-14.23|6.53|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||6.53|-14.23|0.467
92306118|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-10.38||||0.049||95.0|-20.73|-0.02|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.02|-20.73|0.049
92306119|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-14.1||||0.05||95.0|-28.22|0.02|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.02|-28.22|0.050
92306120|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-7.99||||0.255||95.0|-21.73|5.76|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||5.76|-21.73|0.255
92306121|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-6.57||||0.212||95.0|-16.89|3.75|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||3.75|-16.89|0.212
92306122|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-15.68||||0.027||95.0|-29.59|-1.77|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||-1.77|-29.59|0.027
92306123|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-4.39||||0.399|TWO_SIDED|95.0|-14.59|5.82|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||5.82|-14.59|0.399
92306124|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-7.5||||0.152||95.0|-17.76|2.77|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||2.77|-17.76|0.152
92306125|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.32||||0.106|TWO_SIDED|95.0|-25.05|2.4|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||2.40|-25.05|0.106
92306126|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-8.59||||0.21||95.0|-22.0|4.83|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||4.83|-22.00|0.210
92306127|NCT02912650|184513991|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-3.13||||0.545||95.0|-13.26|7.0|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||7.00|-13.26|0.545
92306128|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|20.74|||<|0.001|TWO_SIDED|95.0|10.54|30.94|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||30.94|10.54|<0.001
92306129|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|4.52||||0.342|TWO_SIDED|95.0|-4.81|13.86|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||13.86|-4.81|0.342
92306130|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|3.62||||0.459|TWO_SIDED|95.0|-5.98|13.22|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||13.22|-5.98|0.459
92306131|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|16.2||||0.001|TWO_SIDED|95.0|6.24|26.17|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||26.17|6.24|0.001
92306132|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|17.37|||<|0.001|TWO_SIDED|95.0|7.42|27.31|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||27.31|7.42|<0.001
92306133|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-0.91||||0.849|TWO_SIDED|95.0|-10.2|8.42|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||8.42|-10.2|0.849
92306134|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.08|||<|0.001|TWO_SIDED|95.0|39.53|62.62|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||62.62|39.53|<0.001
92306135|NCT02912650|184513992|SUPERIORITY_OR_OTHER||Cumulative Percentage of Participants wi|5.16||||0.318|TWO_SIDED|95.0|-4.97|15.3|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.30|-4.97|0.318
92306136|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.86||||0.062|TWO_SIDED|95.0|-0.49|20.21|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||20.21|-0.49|0.062
92306137|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|45.6|||<|0.001|TWO_SIDED|95.0|33.45|57.76|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||57.76|33.45|<0.001
92306138|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|41.07|||<|0.001|TWO_SIDED|95.0|28.76|53.38|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||53.38|28.76|<0.001
92188567|NCT02592434|184275135|SUPERIORITY||LS Mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.42||0.0549|TWO_SIDED|95.0|-1.66|0.02|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.02|-1.66|0.0549
92188568|NCT02592434|184275137|SUPERIORITY||LS mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.25||0.0353|TWO_SIDED|95.0|-1.04|-0.04|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.04|-1.04|0.0353
92188569|NCT02592434|184275137|SUPERIORITY||LS Mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.32||0.0094|TWO_SIDED|95.0|-1.47|-0.21|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.21|-1.47|0.0094
92188570|NCT02592434|184275137|SUPERIORITY||LS Mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.28||0.0065|TWO_SIDED|95.0|-1.36|-0.23|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.23|-1.36|0.0065
92188571|NCT02592434|184275137|SUPERIORITY||LS Mean difference|-0.89|STANDARD_ERROR_OF_MEAN|0.27||0.0018|TWO_SIDED|95.0|-1.43|-0.34|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.34|-1.43|0.0018
92188572|NCT02592434|184275137|SUPERIORITY||LS Mean difference|-1.42|STANDARD_ERROR_OF_MEAN|0.41||0.001|TWO_SIDED|95.0|-2.24|-0.61|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.61|-2.24|0.0010
92306139|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|4.74||||0.374|TWO_SIDED|95.0|-5.7|15.17|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.17|-5.70|0.374
92306140|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|60.09|||<|0.001|TWO_SIDED|95.0|47.93|72.26|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||72.26|47.93|<0.001
92306141|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|4.3||||0.323|TWO_SIDED|95.0|-4.22|12.81|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||12.81|-4.22|0.323
92306142|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.86||||0.032|TWO_SIDED|95.0|0.86|18.86|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.86|0.86|0.032
92188573|NCT02592434|184275137|SUPERIORITY||LS Mean difference|-1.61|STANDARD_ERROR_OF_MEAN|0.4||0.0002|TWO_SIDED|95.0|-2.42|-0.81|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.81|-2.42|0.0002
92306143|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|55.66|||<|0.001|TWO_SIDED|95.0|43.11|68.2|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||68.20|43.11|<0.001
92306144|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.38|||<|0.001|TWO_SIDED|95.0|37.71|63.05|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||63.05|37.71|<0.001
92188574|NCT02592434|184275137|SUPERIORITY||LS Mean difference|-1.58|STANDARD_ERROR_OF_MEAN|0.43||0.0007|TWO_SIDED|95.0|-2.44|-0.71|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.71|-2.44|0.0007
92306145|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|5.61||||0.232|TWO_SIDED|95.0|-3.58|14.8|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.80|-3.58|0.232
92306146|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|59.92|||<|0.001|TWO_SIDED|95.0|47.39|72.46|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||72.46|47.39|<0.001
92306147|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|5.51||||0.179|TWO_SIDED|95.0|-2.52|13.53|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||13.53|-2.52|0.179
92306148|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.37||||0.003|TWO_SIDED|95.0|4.65|22.1|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.10|4.65|0.003
92306149|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|54.32|||<|0.001|TWO_SIDED|95.0|41.36|67.29|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||67.29|41.36|<0.001
92306150|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|46.74|||<|0.001|TWO_SIDED|95.0|33.5|59.99|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||59.99|33.50|<0.001
92306151|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306152|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|60.51|||<|0.001|TWO_SIDED|95.0|47.99|73.03|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||73.03|47.99|<0.001
92306153|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.08||||0.135|TWO_SIDED|95.0|-1.89|14.05|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.05|-1.89|0.135
92188575|NCT02592434|184275139|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.2||0.0398|TWO_SIDED|95.0|-0.83|-0.02|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.02|-0.83|0.0398
92306154|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.97||||0.002|TWO_SIDED|95.0|5.3|22.64|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.64|5.30|0.002
92306155|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|54.32|||<|0.001|TWO_SIDED|95.0|41.36|67.29|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||67.29|41.36|<0.001
92306156|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|46.74|||<|0.001|TWO_SIDED|95.0|33.5|59.99|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||59.99|33.50|<0.001
92306157|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306158|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
92188576|NCT02592434|184275139|SUPERIORITY||LS Mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.28||0.0011|TWO_SIDED|95.0|-1.49|-0.39|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.39|-1.49|0.0011
92188577|NCT02592434|184275139|SUPERIORITY||LS mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.32||0.0131|TWO_SIDED|95.0|-1.47|-0.18|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.18|-1.47|0.0131
92306159|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
92306160|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
92306161|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306162|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306163|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306164|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
92306165|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
92306166|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
92306167|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306168|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306169|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306170|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
92306171|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
92306172|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
92306173|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306174|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306175|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92188578|NCT02592434|184275139|SUPERIORITY||LS mean difference|-0.97|STANDARD_ERROR_OF_MEAN|0.32||0.0039|TWO_SIDED|95.0|-1.62|-0.33|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.33|-1.62|0.0039
92306176|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
92188579|NCT02592434|184275139|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.29||0.0711|TWO_SIDED|95.0|-1.1|0.05|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.05|-1.10|0.0711
92306177|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
92306178|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
92306179|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306180|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306181|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306182|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
92306183|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
92306184|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
92306185|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306186|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92188580|NCT02592434|184275139|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.34||0.0658|TWO_SIDED|95.0|-1.3|0.04|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.04|-1.30|0.0658
92306187|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306188|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
92306189|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
92306190|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
92306191|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001||95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306192|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001||95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|< 0.001
92188581|NCT02592434|184275139|SUPERIORITY||LS mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.29||0.0154|TWO_SIDED|95.0|-1.31|-0.15|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.15|-1.31|0.0154
92188582|NCT02592434|184275141|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.04||0.4777|TWO_SIDED|95.0|-0.12|0.06|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.06|-0.12|0.4777
92306193|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087||95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306194|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001||95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||71.00|45.24|< 0.001
92306195|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071||95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
92306196|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001||95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|< 0.001
92306197|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||64.09|37.39|<0.001
92306198|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306199|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087||95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||16.97|-1.15|0.087
92306200|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
92306201|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071||95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
92306202|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
92306203|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306204|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001||95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306205|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306206|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
92306207|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071||95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
92306208|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001||95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
92306209|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001||95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92188583|NCT02592434|184275141|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.04||0.0779|TWO_SIDED|95.0|-0.16|0.01|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.01|-0.16|0.0779
92188584|NCT02592434|184275141|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05||0.0324|TWO_SIDED|95.0|-0.19|-0.01|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.01|-0.19|0.0324
92306210|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306211|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306212|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
92306213|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
92306214|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
92306215|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306216|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306217|NCT02912650|184513992|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306218|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.16||||0.156|TWO_SIDED|95.0|-0.44|2.75|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||2.75|-0.44|0.156
92188585|NCT02592434|184275141|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.06||0.1061|TWO_SIDED|95.0|-0.2|0.02|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.02|-0.20|0.1061
92188586|NCT02592434|184275141|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.06||0.0572|TWO_SIDED|95.0|-0.24|0.0|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.00|-0.24|0.0572
92188587|NCT02592434|184275141|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.0689|TWO_SIDED|95.0|-0.24|0.01|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.01|-0.24|0.0689
92188588|NCT02592434|184275141|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0292|TWO_SIDED|95.0|-0.22|-0.01|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.01|-0.22|0.0292
92188589|NCT02592434|184275143|SUPERIORITY||LS Mean Difference|3.79|STANDARD_ERROR_OF_MEAN|3.77||0.3179|TWO_SIDED|95.0|-3.72|11.31|||MMRM|||Global Health: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||11.31|-3.72|0.3179
92306219|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.16||||0.155|TWO_SIDED|95.0|-0.44|2.76|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||2.76|-0.44|0.155
92306220|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-0.68||||0.605|TWO_SIDED|95.0|-3.27|1.9|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||1.90|-3.27|0.605
92188590|NCT02592434|184275143|SUPERIORITY||LS mean difference|3.28|STANDARD_ERROR_OF_MEAN|4.27||0.4452|TWO_SIDED|95.0|-5.23|11.78|||MMRM|||Physical Functioning: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||11.78|-5.23|0.4452
92188591|NCT02592434|184275143|SUPERIORITY||LS mean difference|5.47|STANDARD_ERROR_OF_MEAN|4.76||0.2539|TWO_SIDED|95.0|-4.01|14.95|||MMRM|||Social Limitations: Emotional: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||14.95|-4.01|0.2539
92188592|NCT02592434|184275143|SUPERIORITY||LS mean difference|7.22|STANDARD_ERROR_OF_MEAN|5.56||0.1981|TWO_SIDED|95.0|-3.86|18.3|||MMRM|||Social Limitations: Physical Subscale: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||18.30|-3.86|0.1981
92306221|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.84||||0.079|TWO_SIDED|95.0|-0.21|3.89|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||3.89|-0.21|0.079
92306222|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-1.85||||0.078|TWO_SIDED|95.0|-3.9|0.21|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.21|-3.90|0.078
92306223|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|21.47|||<|0.001|TWO_SIDED|95.0|15.33|27.62|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||27.62|15.33|<0.001
92306224|NCT02912650|184513993|SUPERIORITY_OR_OTHER||Cumulative Percentage of Participants wi|7.79||||0.056|TWO_SIDED|95.0|-0.19|15.77|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.77|-0.19|0.056
92306225|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-0.37||||0.934|TWO_SIDED|95.0|-9.18|8.43|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||8.43|-9.18|0.934
92306226|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.67|||<|0.001|TWO_SIDED|95.0|8.58|18.77|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.77|8.58|<0.001
92306227|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|21.96|||<|0.001|TWO_SIDED|95.0|15.64|28.28|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||28.28|15.64|<0.001
92306228|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-8.21||||0.05|TWO_SIDED|95.0|-16.4|-0.01|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.01|-16.40|0.050
92306229|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|55.89|||<|0.001|TWO_SIDED|95.0|47.05|64.73|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.73|47.05|<0.001
92306230|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|12.99||||0.015|TWO_SIDED|95.0|2.5|23.49|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.49|2.50|0.015
92306231|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.16||||0.188|TWO_SIDED|95.0|-3.51|17.82|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||17.82|-3.51|0.188
92306232|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|42.61|||<|0.001|TWO_SIDED|95.0|33.85|51.38|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||51.38|33.85|<0.001
92306233|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|48.58|||<|0.001|TWO_SIDED|95.0|39.63|57.54|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||57.54|39.63|<0.001
92306234|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-5.98||||0.266|TWO_SIDED|95.0|-16.51|4.55|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||4.55|-16.51|0.266
92306235|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|59.77|||<|0.001|TWO_SIDED|95.0|49.63|69.9|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||69.90|49.63|<0.001
92306236|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|8.62||||0.094|TWO_SIDED|95.0|-1.46|18.69|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.69|-1.46|0.094
92306237|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|10.43||||0.047|TWO_SIDED|95.0|0.15|20.72|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||20.72|0.15|0.047
92306238|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.95|||<|0.001|TWO_SIDED|95.0|40.5|61.4|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||61.40|40.50|<0.001
92306239|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|49.34|||<|0.001|TWO_SIDED|95.0|38.79|59.89|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||59.89|38.79|<0.001
92306240|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.79||||0.734|TWO_SIDED|95.0|-8.56|12.14|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||12.14|-8.56|0.734
92306241|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.46|||<|0.001|TWO_SIDED|95.0|46.88|70.03|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||70.03|46.88|<0.001
92306242|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.01||||0.152|TWO_SIDED|95.0|-2.57|16.59|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.59|-2.57|0.152
92306243|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.0||||0.073|TWO_SIDED|95.0|-0.83|19.82|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||19.82|-0.83|0.073
92306244|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.3|||<|0.001|TWO_SIDED|95.0|39.38|63.21|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||63.21|39.38|<0.001
92306245|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|49.49|||<|0.001|TWO_SIDED|95.0|37.5|61.47|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||61.47|37.50|<0.001
92306246|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.99||||0.694|TWO_SIDED|95.0|-7.91|11.89|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||11.89|-7.91|0.694
92306247|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|60.61|||<|0.001|TWO_SIDED|95.0|48.37|72.84|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||72.84|48.37|<0.001
92306248|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.58||||0.135|TWO_SIDED|95.0|-2.05|15.2|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.20|-2.05|0.135
92306249|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|14.74||||0.002|TWO_SIDED|95.0|5.5|23.97|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.97|5.50|0.002
92306250|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|53.82|||<|0.001|TWO_SIDED|95.0|41.31|66.32|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||66.32|41.31|<0.001
92306251|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|45.93|||<|0.001|TWO_SIDED|95.0|33.21|58.66|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||58.66|33.21|<0.001
92306252|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|8.18||||0.091|TWO_SIDED|95.0|-1.32|17.69|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||17.69|-1.32|0.091
92306253|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|60.0|||<|0.001|TWO_SIDED|95.0|47.59|72.42|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||72.42|47.59|<0.001
92306254|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.03||||0.159|TWO_SIDED|95.0|-2.36|14.43|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.43|-2.36|0.159
92306255|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.32|||<|0.001|TWO_SIDED|95.0|6.23|24.41|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||24.41|6.23|<0.001
92306256|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|53.79|||<|0.001|TWO_SIDED|95.0|41.08|66.5|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||66.50|41.08|<0.001
92306257|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|44.76|||<|0.001|TWO_SIDED|95.0|31.72|57.81|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||57.81|31.72|<0.001
92188593|NCT02592434|184275143|SUPERIORITY||LS mean difference|8.26|STANDARD_ERROR_OF_MEAN|4.36||0.062|TWO_SIDED|95.0|-0.43|16.94|||MMRM|||Bodily Pain: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||16.94|-0.43|0.0620
92306258|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.28||||0.052|TWO_SIDED|95.0|-0.08|18.64|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.64|-0.08|0.052
92188594|NCT02592434|184275143|SUPERIORITY||LS mean difference|-3.43|STANDARD_ERROR_OF_MEAN|2.83||0.2291|TWO_SIDED|95.0|-9.06|2.2|||MMRM|||Behavior: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||2.20|-9.06|0.2291
92306259|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|57.57|||<|0.001|TWO_SIDED|95.0|44.75|70.39|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||70.39|44.75|<0.001
92306260|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.06||||0.147|TWO_SIDED|95.0|-2.13|14.25|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.25|-2.13|0.147
92306261|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.3|||<|0.001|TWO_SIDED|95.0|6.39|24.21|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||24.21|6.39|<0.001
92306262|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.32|||<|0.001|TWO_SIDED|95.0|38.16|64.48|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.48|38.16|<0.001
92306263|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|42.28|||<|0.001|TWO_SIDED|95.0|28.74|55.82|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||55.82|28.74|<0.001
92306264|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.27||||0.049|TWO_SIDED|95.0|0.04|18.49|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.49|0.04|0.049
92306265|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.71|||<|0.001|TWO_SIDED|95.0|45.93|71.49|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.49|45.93|<0.001
92306266|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.64||||0.105|TWO_SIDED|95.0|-1.38|14.67|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.67|-1.38|0.105
92306267|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.86|||<|0.001|TWO_SIDED|95.0|7.08|24.63|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||24.63|7.08|<0.001
92306268|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.9|||<|0.001|TWO_SIDED|95.0|38.76|65.04|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||65.04|38.76|<0.001
92188595|NCT02592434|184275143|SUPERIORITY||LS mean difference|-3.65|STANDARD_ERROR_OF_MEAN|3.9||0.353|TWO_SIDED|95.0|-11.43|4.13|||MMRM|||Global Behavior: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||4.13|-11.43|0.3530
92306269|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|42.94|||<|0.001|TWO_SIDED|95.0|29.44|56.44|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.44|29.44|<0.001
92306270|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.23||||0.048|TWO_SIDED|95.0|0.06|18.4|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.40|0.06|0.048
92306271|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.71|||<|0.001|TWO_SIDED|95.0|45.93|71.49|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.49|45.93|<0.001
92188596|NCT02592434|184275143|SUPERIORITY||LS mean difference|-3.47|STANDARD_ERROR_OF_MEAN|3.41||0.3114|TWO_SIDED|95.0|-10.26|3.32|||MMRM|||Mental Health: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||3.32|-10.26|0.3114
92306272|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.64||||0.105|TWO_SIDED|95.0|-1.38|14.67|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.67|-1.38|0.105
92306273|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.86|||<|0.001|TWO_SIDED|95.0|7.08|24.63|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||24.63|7.08|<0.001
92306274|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.9|||<|0.001|TWO_SIDED|95.0|38.76|65.04|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||65.04|38.76|<0.001
92306275|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|42.94|||<|0.001|TWO_SIDED|95.0|29.44|56.44|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.44|29.44|<0.001
92306276|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.23||||0.048|TWO_SIDED|95.0|0.06|18.4|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.40|0.06|0.048
92306277|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.71|||<|0.001||95.0|45.93|71.49|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||71.49|45.93|<0.001
92306278|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.64||||0.105|TWO_SIDED|95.0|-1.38|14.67|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||14.67|-1.38|0.105
92306279|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.23|||<|0.001|TWO_SIDED|95.0|6.48|23.97|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.97|6.48|<0.001
92306280|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.9|||<|0.001||95.0|38.76|65.04|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||65.04|38.76|<0.001
92306281|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.61|||<|0.001|TWO_SIDED|95.0|30.15|57.07|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||57.07|30.15|<0.001
92306282|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|8.61||||0.065|TWO_SIDED|95.0|-0.55|17.76|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||17.76|-0.55|0.065
92306283|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.71|||<|0.001||95.0|45.93|71.49|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.49|45.93|<0.001
92306284|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.64||||0.105|TWO_SIDED|95.0|-1.38|14.67|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.67|-1.38|0.105
92306285|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.98||||0.002|TWO_SIDED|95.0|5.3|22.67|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.67|5.30|0.002
92188597|NCT02592434|184275143|SUPERIORITY||LS mean difference|0.71|STANDARD_ERROR_OF_MEAN|4.46||0.8736|TWO_SIDED|95.0|-8.18|9.61|||MMRM|||Self Esteem: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||9.61|-8.18|0.8736
92188598|NCT02592434|184275143|SUPERIORITY||LS mean difference|1.77|STANDARD_ERROR_OF_MEAN|2.48||0.4778|TWO_SIDED|95.0|-3.18|6.72|||MMRM|||General Health Subscale: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||6.72|-3.18|0.4778
92306286|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.9|||<|0.001|TWO_SIDED|95.0|38.76|65.04|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||65.04|38.76|<0.001
92306287|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|44.89|||<|0.001||95.0|31.51|58.26|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||58.26|31.51|<0.001
92188599|NCT02592434|184275143|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.13||0.8909|TWO_SIDED|95.0|-0.28|0.25|||MMRM|||Change in Health: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||0.25|-0.28|0.8909
92188600|NCT02592434|184275143|SUPERIORITY||LS mean difference|8.97|STANDARD_ERROR_OF_MEAN|5.81||0.127|TWO_SIDED|95.0|-2.61|20.55|||MMRM|||Emotional Impact on Parent: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||20.55|-2.61|0.1270
92306288|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.36||||0.113|TWO_SIDED|95.0|-1.73|16.45|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.45|-1.73|0.113
92306289|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|56.94|||<|0.001|TWO_SIDED|95.0|43.95|69.94|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||69.94|43.95|<0.001
92306290|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.07||||0.136|TWO_SIDED|95.0|-1.91|14.05|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.05|-1.91|0.136
92188601|NCT02592434|184275143|SUPERIORITY||LS mean difference|-6.72|STANDARD_ERROR_OF_MEAN|3.96||0.0944|TWO_SIDED|95.0|-14.62|1.18|||MMRM|||Time Impact on Parent: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||1.18|-14.62|0.0944
92306291|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.98||||0.002|TWO_SIDED|95.0|5.3|22.67|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.67|5.30|0.002
92306292|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306293|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306294|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306295|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|56.94|||<|0.001|TWO_SIDED|95.0|43.95|69.94|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||69.94|43.95|<0.001
92306296|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.07||||0.136|TWO_SIDED|95.0|-1.91|14.05|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.05|-1.91|0.136
92188602|NCT02592434|184275143|SUPERIORITY||LS mean difference|-8.6|STANDARD_ERROR_OF_MEAN|3.23||0.0095|TWO_SIDED|95.0|-15.03|-2.17|||MMRM|||Family Activities: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-2.17|-15.03|0.0095
92306297|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.98||||0.002|TWO_SIDED|95.0|5.3|22.67|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.67|5.30|0.002
92306298|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306299|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306300|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306301|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|56.94|||<|0.001|TWO_SIDED|95.0|43.95|69.94|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||69.94|43.95|<0.001
92306302|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.07||||0.136|TWO_SIDED|95.0|-1.91|14.05|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.05|-1.91|0.136
92188603|NCT02592434|184275143|SUPERIORITY||LS mean difference|2.59|STANDARD_ERROR_OF_MEAN|4.29||0.5474|TWO_SIDED|95.0|-5.96|11.14|||MMRM|||Family Cohesion: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||11.14|-5.96|0.5474
92306303|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.98||||0.002|TWO_SIDED|95.0|5.3|22.67|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.67|5.30|0.002
92306304|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
92306305|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
92306306|NCT02912650|184513993|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
92306307|NCT02912650|184513994|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||<0.001
92306308|NCT02912650|184513994|SUPERIORITY_OR_OTHER|||||||0.004|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||0.004
92306309|NCT02912650|184513994|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||<0.001
92306310|NCT02912650|184513994|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||<0.001
92306311|NCT02912650|184513994|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||<0.001
92306312|NCT02912650|184513994|SUPERIORITY_OR_OTHER|||||||0.003|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||0.003
92306313|NCT01898650|184513995|SUPERIORITY|||||||0.004||||||no adjustments for multiple comparisons were made. the threshold for significance was set a priori at 0.05.|t-test, 1 sided|||Null hypothesis was that blood flow would be equivalent on the unaffected and affected sides.||||0.004
92306314|NCT01674647|184514010|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.15|1.73|||no statistical test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.51% (0.20% - 1.17%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 1.02% (0.40% - 2.34%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||1.73|0.15|
92306315|NCT01674647|184514011|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.21|2.67|||no test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.61% (0.26% - 1.27%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 0.80% (0.27% - 2.00%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||2.67|0.21|
92188604|NCT02592434|184275143|SUPERIORITY||LS mean difference|3.48|STANDARD_ERROR_OF_MEAN|2.03||0.0902|TWO_SIDED|95.0|-0.56|7.52|||MMRM|||Physical Health Summary: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||7.52|-0.56|0.0902
92188605|NCT02592434|184275143|SUPERIORITY||LS mean difference|-0.75|STANDARD_ERROR_OF_MEAN|1.67||0.6539|TWO_SIDED|95.0|-4.07|2.57|||MMRM|||Psychosocial Health Summary : Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||2.57|-4.07|0.6539
92188606|NCT02592434|184275145|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.24||0.1894|TWO_SIDED|95.0|-0.8|0.16|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.16|-0.80|0.1894
92306316|NCT01674647|184514012|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.34|||||TWO_SIDED|95.0|0.06|2.0|||no statistical test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.20% (0.04% - 0.71%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 0.61% (0.17% - 1.72%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||2.00|0.06|
92306317|NCT01674647|184514013|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.16|1.55|||no statistical test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.61% (0.27% - 1.29%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 1.22% (0.53% - 2.51%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||1.55|0.16|
92306318|NCT01674647|184514018|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.18|5.47|||no statistical test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.41% (0.14% - 1.02%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 0.41% (0.07% - 1.41%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||5.47|0.18|
92188607|NCT02592434|184275145|SUPERIORITY||LS mean difference|-0.95|STANDARD_ERROR_OF_MEAN|0.31||0.0026|TWO_SIDED|95.0|-1.56|-0.34|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.34|-1.56|0.0026
92188608|NCT02592434|184275145|SUPERIORITY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.31||0.0067|TWO_SIDED|95.0|-1.5|-0.25|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.25|-1.50|0.0067
92306319|NCT01674647|184514019|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.2|3.49|||no statistical test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.51% (0.20% - 1.17%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 0.61% (0.17% - 1.72%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||3.49|0.20|
92306320|NCT03923530|184514032|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.12
92306321|NCT03923530|184514033|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.49
92306322|NCT03923530|184514034|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.03
92306323|NCT03923530|184514035|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.27
92306324|NCT03923530|184514036|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.18
92306325|NCT03923530|184514037|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.8
92306326|NCT03923530|184514038|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.76
92306327|NCT00741936|184514039|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||||||<0.05
92306328|NCT00741936|184514040|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|T-Tests were implemented: 1) between two groups of each time frame; 2) between each treatment group of each time frame and its baseline.||||||<0.05
92306329|NCT00741936|184514041|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|T-Tests were implemented: 1) between two groups of each time frame; 2) between each treatment group of each time frame and its baseline||||||<0.05
92188609|NCT02592434|184275145|SUPERIORITY||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|0.37||0.0091|TWO_SIDED|95.0|-1.73|-0.25|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.25|-1.73|0.0091
92306330|NCT00741936|184514042|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|T-Tests were implemented: 1) between two groups of each time frame; 2) between each treatment group of each time frame and its baseline.||||||<0.05
92306331|NCT00741936|184514043|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|Chi-squared test from Crosstabs analysis was implemented between two treatment groups in each time frame.||||||<0.05
92306332|NCT00741936|184514044|SUPERIORITY_OR_OTHER|||||||0||95.0|||||simple percentage|||||||0
92306333|NCT00741936|184514045|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||||||<0.05
92306334|NCT00741936|184514046|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-samples t-test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
92306335|NCT00741936|184514047|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
92306336|NCT00741936|184514048|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
92306337|NCT00741936|184514049|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
92306338|NCT01941940|184514050|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306339|NCT01941940|184514056|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306340|NCT01941940|184514058|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306341|NCT01941940|184514058|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92188610|NCT02592434|184275145|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.28||0.0632|TWO_SIDED|95.0|-1.09|0.03|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.03|-1.09|0.0632
92188611|NCT02592434|184275145|SUPERIORITY||LS mean difference|-0.71|STANDARD_ERROR_OF_MEAN|0.32||0.0306|TWO_SIDED|95.0|-1.35|-0.07|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.07|-1.35|0.0306
92306342|NCT01941940|184514058|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306343|NCT01941940|184514059|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306344|NCT01941940|184514059|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306345|NCT01941940|184514059|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306346|NCT01941940|184514062|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-68: Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306347|NCT01941940|184514062|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-68: Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306348|NCT01941940|184514062|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-68: Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306349|NCT01941940|184514062|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-28: Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306350|NCT01941940|184514062|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-28: Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306351|NCT01941940|184514062|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-28: Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306352|NCT01941940|184514063|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-66: Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306353|NCT01941940|184514063|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-66: Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306354|NCT01941940|184514063|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-66: Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306355|NCT01941940|184514063|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-28: Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306356|NCT01941940|184514063|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-28: Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306357|NCT01941940|184514063|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-28: Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306358|NCT01941940|184514064|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and CDAI at Week 2||||<0.0001
92306359|NCT01941940|184514064|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and CDAI at Week 24||||<0.0001
92306360|NCT01941940|184514064|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and CDAI at Week 52||||<0.0001
92306361|NCT01941940|184514065|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and SDAI at Week 2||||<0.0001
92188612|NCT02592434|184275145|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.31||0.0118|TWO_SIDED|95.0|-1.41|-0.18|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.18|-1.41|0.0118
92188613|NCT00147745|184275175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.07||0.5499||95.0|-0.1|0.19|||ANCOVA|||||0.19|-0.10|0.5499
92188614|NCT00147745|184275175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.09||0.5723||95.0|-0.23|0.13|||ANCOVA|||||0.13|-0.23|0.5723
92188615|NCT00147745|184275175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.091||0.3138||95.0|-0.09|0.28|||ANCOVA|||||0.28|-0.09|0.3138
92306362|NCT01941940|184514065|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and SDAI at Week 24||||<0.0001
92306363|NCT01941940|184514065|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and SDAI at Week 52||||<0.0001
92306364|NCT01941940|184514066|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and SDAI at Week 2||||<0.0001
92188616|NCT00147745|184275176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.065||0.2042||95.0|-0.05|0.22|||ANCOVA|||||0.22|-0.05|0.2042
92188617|NCT00147745|184275176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.083||0.6855||95.0|-0.2|0.14|||ANCOVA|||||0.14|-0.20|0.6855
92188618|NCT00147745|184275176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.085||0.1727||95.0|-0.05|0.29|||ANCOVA|||||0.29|-0.05|0.1727
92188619|NCT00147745|184275177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.4|STANDARD_ERROR_OF_MEAN|53.17||0.4104||95.0|-152.8|64.1|||ANCOVA|||||64.1|-152.8|0.4104
92188620|NCT00147745|184275177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.1|STANDARD_ERROR_OF_MEAN|69.98||0.8857||95.0|-132.6|152.9|||ANCOVA|||||152.9|-132.6|0.8857
92188621|NCT00147745|184275177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-54.5|STANDARD_ERROR_OF_MEAN|67.08||0.4226||95.0|-191.3|82.3|||ANCOVA|||||82.3|-191.3|0.4226
92188622|NCT00147745|184275178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.366||0.2286||95.0|-1.2|0.3|||ANCOVA|||||0.30|-1.20|0.2286
92188623|NCT00147745|184275178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.515||0.3184||95.0|-0.53|1.57|||ANCOVA|||||1.57|-0.53|0.3184
92188624|NCT00147745|184275178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.5||0.0613||95.0|-1.99|0.05|||ANCOVA|||||0.05|-1.99|0.0613
92188625|NCT00147745|184275179|SUPERIORITY_OR_OTHER|||||||0.0362||95.0|||||t-test, 2 sided|||||||0.0362
92188626|NCT00385697|184275198|SUPERIORITY||Odds Ratio (OR)|0.963||||0.904|TWO_SIDED|95.0|0.521|1.779|||Mantel Haenszel|||||1.779|0.521|0.904
92188627|NCT00385697|184275198|SUPERIORITY||Odds Ratio (OR)|0.629||||0.222|TWO_SIDED|95.0|0.297|1.33|||Mantel Haenszel|||||1.330|0.297|0.222
92188628|NCT00385697|184275198|SUPERIORITY||Odds Ratio (OR)|1.054||||0.885|TWO_SIDED|95.0|0.521|2.129|||Mantel Haenszel|||||2.129|0.521|0.885
92306365|NCT01941940|184514066|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and SDAI at Week 24||||<0.0001
92306366|NCT01941940|184514066|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and SDAI at Week 52||||<0.0001
92306367|NCT01941940|184514067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR20 at Week 2||||<0.0001
92306368|NCT01941940|184514067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR50 at Week 2||||<0.0001
92306369|NCT01941940|184514067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR70 at Week 2||||<0.0001
92306370|NCT01941940|184514067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR20 at Week 24||||<0.0001
92306371|NCT01941940|184514067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR50 at Week 24||||<0.0001
92306372|NCT01941940|184514067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR70 at Week 24||||<0.0001
92306373|NCT01941940|184514067|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR20 at Week 52||||0.0004
92306374|NCT01941940|184514067|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR50 at Week 52||||0.0004
92306375|NCT01941940|184514067|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR70 at Week 52||||0.0004
92306376|NCT01941940|184514068|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and EULAR at Week 2||||<0.0001
92306377|NCT01941940|184514068|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and EULAR at Week 24||||<0.0001
92306378|NCT01941940|184514068|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and EULAR at Week 52||||<0.0001
92306379|NCT01941940|184514069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR20 at Week 2||||<0.0001
92306380|NCT01941940|184514069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR50 at Week 2||||<0.0001
92306381|NCT01941940|184514069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR70 at Week 2||||<0.0001
92306382|NCT01941940|184514069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR20 at Week 24||||<0.0001
92306383|NCT01941940|184514069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR50 at Week 24||||<0.0001
92306384|NCT01941940|184514069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR70 at Week 24||||<0.0001
92306385|NCT01941940|184514069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR20 at Week 52||||<0.0001
92306386|NCT01941940|184514069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR50 at Week 52||||<0.0001
92306387|NCT01941940|184514069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR70 at Week 52||||<0.0001
92306388|NCT01941940|184514070|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and EULAR at Week 2||||<0.0001
92306389|NCT01941940|184514070|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and EULAR at Week 24||||<0.0001
92306390|NCT01941940|184514070|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and EULAR at Week 52||||<0.0001
92306391|NCT01941940|184514071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR20 at Week 2||||<0.0001
92306392|NCT01941940|184514071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR50 at Week 2||||<0.0001
92306393|NCT01941940|184514071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR70 at Week 2||||<0.0001
92306394|NCT01941940|184514071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR20 at Week 24||||<0.0001
92188629|NCT00385697|184275200|SUPERIORITY||Mean Difference (Final Values)|0.061||||0.814|TWO_SIDED|95.0|-0.45|0.572|||ANCOVA|||||0.572|-0.450|0.814
92188630|NCT00385697|184275200|SUPERIORITY||Mean Difference (Final Values)|0.161||||0.593|TWO_SIDED|95.0|-0.433|0.755|||ANCOVA|||||0.755|-0.433|0.593
92188631|NCT00385697|184275200|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.886|TWO_SIDED|95.0|-0.594|0.513|||ANCOVA|||||0.513|-0.594|0.886
92188632|NCT00385697|184275202|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.049|TWO_SIDED|95.0|0.0|0.093|||ANCOVA|||||0.093|0.000|0.049
92188633|NCT00385697|184275202|SUPERIORITY||Mean Difference (Final Values)|-0.002||||0.937|TWO_SIDED|95.0|-0.061|0.056|||ANCOVA|||||0.056|-0.061|0.937
92188634|NCT00385697|184275202|SUPERIORITY||Mean Difference (Final Values)|0.026||||0.382|TWO_SIDED|95.0|-0.032|0.084|||ANCOVA|||||0.084|-0.032|0.382
92188635|NCT00385697|184275204|SUPERIORITY||Odds Ratio (OR)|0.881||||0.775|TWO_SIDED|95.0|0.372|2.089|||Mantel Haenszel|||||2.089|0.372|0.775
92188636|NCT00385697|184275204|SUPERIORITY||Odds Ratio (OR)|0.628||||0.402|TWO_SIDED|95.0|0.212|1.861|||Mantel Haenszel|||||1.861|0.212|0.402
92188637|NCT00385697|184275204|SUPERIORITY||Odds Ratio (OR)|1.093||||0.859|TWO_SIDED|95.0|0.41|2.912|||Mantel Haenszel|||||2.912|0.410|0.859
92306395|NCT01941940|184514071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR50 at Week 24||||<0.0001
92306396|NCT01941940|184514071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR70 at Week 24||||<0.0001
92306397|NCT01941940|184514071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR20 at Week 52||||<0.0001
92306398|NCT01941940|184514071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR50 at Week 52||||<0.0001
92306399|NCT01941940|184514071|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR70 at Week 52||||<0.0001
92306400|NCT01941940|184514072|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and EULAR at Week 2||||<0.0001
92306401|NCT01941940|184514072|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and EULAR at Week 24||||<0.0001
92306402|NCT01941940|184514072|SUPERIORITY_OR_OTHER|||||||0.0016|||||||ANOVA|||Analysis for association between SDAI and EULAR at Week 52||||0.0016
92306403|NCT01941940|184514075|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306404|NCT01941940|184514075|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306405|NCT01941940|184514075|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306406|NCT01941940|184514076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306407|NCT01941940|184514076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306408|NCT01941940|184514076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306409|NCT01941940|184514077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306410|NCT01941940|184514077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306411|NCT01941940|184514077|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306412|NCT01941940|184514078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306413|NCT01941940|184514078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306414|NCT01941940|184514078|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92188638|NCT00385697|184275206|SUPERIORITY||Odds Ratio (OR)|1.265||||0.404|TWO_SIDED|95.0|0.727|2.2|||Mantel Haenszel|||||2.200|0.727|0.404
92306415|NCT01941940|184514080|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306416|NCT01941940|184514080|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306417|NCT01941940|184514080|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
92306418|NCT01941940|184514081|SUPERIORITY_OR_OTHER|||||||0.0045|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||0.0045
92306419|NCT01941940|184514081|SUPERIORITY_OR_OTHER|||||||0.1992|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||0.1992
92306420|NCT03176459|184514111|SUPERIORITY||LSM treatment difference|-16.5||||0.0117|TWO_SIDED|95.0|-30.8|-2.2|||ANCOVA|||||-2.2|-30.8|0.0117
92188639|NCT00385697|184275206|SUPERIORITY||Odds Ratio (OR)|0.805||||0.528|TWO_SIDED|95.0|0.412|1.576|||Mantel Haenszel|||||1.576|0.412|0.528
92188640|NCT00385697|184275206|SUPERIORITY||Odds Ratio (OR)|1.133||||0.706|TWO_SIDED|95.0|0.594|2.164|||Mantel Haenszel|||||2.164|0.594|0.706
92188641|NCT00385697|184275208|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.872|TWO_SIDED|95.0|-0.455|0.536|||ANCOVA|||||0.536|-0.455|0.872
92188642|NCT00385697|184275208|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.979|TWO_SIDED|95.0|-0.581|0.556|||ANCOVA|||||0.556|-0.581|0.979
92188643|NCT00385697|184275208|SUPERIORITY||Mean Difference (Final Values)|-0.225||||0.4|TWO_SIDED|95.0|-0.75|0.301|||ANCOVA|||||0.301|-0.750|0.400
92188644|NCT02100189|184275233|SUPERIORITY_OR_OTHER||Sensitivity|13.3|STANDARD_ERROR_OF_MEAN|0.062|||TWO_SIDED|95.0|3.76|30.72|||Sensitivity||Exact Binomial confidence interval.|||30.72|3.76|
92188645|NCT02100189|184275234|SUPERIORITY_OR_OTHER||Specificity|94.7|STANDARD_ERROR_OF_MEAN|0.051|||TWO_SIDED|95.0|73.97|99.87|||Specificity||Exact binomial confidence interval|||99.87|73.97|
92188646|NCT02790788|184275249|SUPERIORITY||Mean Difference (Net)|3.3|STANDARD_ERROR_OF_MEAN|4.3||0.44|TWO_SIDED|95.0|-5.2|11.8|||t-test, 2 sided|||Independent Samples t-test||11.8|-5.2|0.44
92188647|NCT02790788|184275251|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|3.6||0.17|TWO_SIDED|95.0|-2.2|12.2|||t-test, 2 sided|||||12.2|-2.2|0.17
92188648|NCT02790788|184275252|SUPERIORITY||Mean Difference (Final Values)|10.6|STANDARD_ERROR_OF_MEAN|5.0||0.043|TWO_SIDED|95.0|0.4|20.8|||t-test, 2 sided|||||20.8|0.4|0.043
92188649|NCT02790788|184275253|SUPERIORITY||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|3.7||0.59|TWO_SIDED|95.0|-9.3|5.3|||t-test, 2 sided|||||5.3|-9.3|0.59
92188650|NCT02790788|184275254|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|2.0||0.64|TWO_SIDED|95.0|-3.1|5.0|||t-test, 2 sided|||||5.0|-3.1|0.64
92188651|NCT02790788|184275255|SUPERIORITY||Mean Difference (Net)|-4.0|STANDARD_ERROR_OF_MEAN|3.0||0.2|TWO_SIDED|95.0|-10.1|2.1|||t-test, 2 sided|||||2.1|-10.1|0.20
92188652|NCT02790788|184275256|SUPERIORITY||Mean Difference (Net)|2.8|STANDARD_ERROR_OF_MEAN|1.9||0.14|TWO_SIDED|95.0|-0.9|6.6|||t-test, 2 sided|||||6.6|-0.9|0.14
92188653|NCT02790788|184275257|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|3.4||0.9|TWO_SIDED|95.0|-6.4|7.3|||t-test, 2 sided|||||7.3|-6.4|0.90
92188654|NCT02790788|184275258|SUPERIORITY||Mean Difference (Net)|2.1|STANDARD_ERROR_OF_MEAN|2.2||0.33|TWO_SIDED|95.0|-2.2|6.4|||t-test, 2 sided|||||6.4|-2.2|0.33
92188655|NCT02790788|184275259|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|2.8||0.92|TWO_SIDED|95.0|-5.3|5.8|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO LVEDA WITHIN 12 HOURS AFTER ROSC||5.8|-5.3|0.92
92188656|NCT02790788|184275259|SUPERIORITY||Mean Difference (Net)|-0.81|STANDARD_ERROR_OF_MEAN|1.3||0.54|TWO_SIDED|95.0|-3.4|1.8|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO RVEDA WITHIN 12 HOURS AFTER ROSC||1.8|-3.4|0.54
92188657|NCT02790788|184275259|SUPERIORITY||Mean Difference (Net)|4.6|STANDARD_ERROR_OF_MEAN|2.17||0.048|TWO_SIDED|95.0|0.04|9.15|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO LVEDA AT 72 HOURS AFTER ROSC||9.15|0.04|0.048
92188658|NCT02790788|184275259|SUPERIORITY||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|1.4||0.18|TWO_SIDED|95.0|-1.0|4.7|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO RVEDA AT 72 HOURS AFTER ROSC||4.7|-1.0|0.18
92188659|NCT02790788|184275260|SUPERIORITY||Mean Difference (Net)|-3.6|STANDARD_ERROR_OF_MEAN|3.6||0.32|TWO_SIDED|95.0|-10.9|3.7|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO LVEF WITHIN 12 HOURS AFTER ROSC||3.7|-10.9|0.32
92306421|NCT03176459|184514112|NON_INFERIORITY|Pre-specified non-inferiority margin of 36|LSM treatment difference (SE)|-30.6||||0.002|TWO_SIDED|95.0|-75.9|14.7|||ANCOVA|||||14.7|-75.9|0.0020
92306422|NCT03176459|184514113|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0012|TWO_SIDED|95.0|1.557|7.906|||LSM probability from logistic regression|||||7.906|1.557|0.0012
92306423|NCT03176459|184514114|SUPERIORITY||Least squares treatment difference|-3.2||||0.0543|TWO_SIDED||||||ANCOVA|||||||.0543
92306424|NCT03176459|184514115|SUPERIORITY||Least squares treatment difference|-11.4||||0.0096|ONE_SIDED||||||ANCOVA|||||||.0096
92306425|NCT03176459|184514116|SUPERIORITY||Least squares treatment difference|-22.4||||0.0175|TWO_SIDED||||||ANCOVA|||||||.0175
92306426|NCT03176459|184514117|SUPERIORITY||Least squares treatment difference|-19.6||||0.0542|TWO_SIDED||||||ANCOVA|||||||.0542
92306427|NCT03176459|184514118|SUPERIORITY|||||||0.7536|||||||Regression, Cox|||||||0.7536
92306428|NCT03176459|184514119|SUPERIORITY||Odds Ratio (OR)|1.14||||0.3609|TWO_SIDED||||||Regression, Logistic|||||||0.3609
92306429|NCT00006721|184514141|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.11|TWO_SIDED|95.0|0.6|1.05|||Regression, Cox|adjusting for the stratification factor (serum beta-2 microglobulin level)|CHOP + Tositumomab versus CHOP + Rituximab|||1.05|0.6|0.11
92306430|NCT00006721|184514145|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.55||||0.08|TWO_SIDED|95.0|0.95|2.54|||Regression, Cox|adjusting for the stratification factor (serum beta-2 microglobulin level)|CHOP + Tositumomab versus CHOP + Rituximab|||2.54|0.95|0.08
92306431|NCT05091307|184514173|NON_INFERIORITY|The criterion for non-inferiority (NI) was the upper bound of the 2-sided 95% CI for the GMR was below 1.5.|Geometric Mean Ratio|1.28|||||TWO_SIDED|95.0|1.09|1.53|||ANOVA|||A/Victoria (H1N1): Based on analysis of variance (ANOVA) models, CIs around the difference (Group 2 \[control group\] minus Group 1 \[CoAd group\]) was calculated and back-transformed (by exponentiation: 2\^CI) to CIs around a geometric mean ratio (GMR: GMTControl/GMTCoAd).||1.53|1.09|
92306432|NCT05091307|184514173|NON_INFERIORITY|The criterion for NI was the upper bound of the 2-sided 95% CI for the GMR was below 1.5.|Geometric Mean Ratio|1.23|||||TWO_SIDED|95.0|1.05|1.45|||ANOVA|||A/Cambodia (H3N2): Based on analysis of variance (ANOVA) models, CIs around the difference (Group 2 \[control group\] minus Group 1 \[CoAd group\]) was calculated and back-transformed (by exponentiation: 2\^CI) to CIs around a geometric mean ratio (GMR: GMTControl/GMTCoAd).||1.45|1.05|
92306433|NCT05091307|184514173|NON_INFERIORITY|The criterion for NI was the upper bound of the 2-sided 95% CI for the GMR was below 1.5.|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.84|1.19|||ANOVA|||B/Victoria (B/Victoria): Based on analysis of variance (ANOVA) models, CIs around the difference (Group 2 \[control group\] minus Group 1 \[CoAd group\]) was calculated and back-transformed (by exponentiation: 2\^CI) to CIs around a geometric mean ratio (GMR: GMTControl/GMTCoAd).||1.19|0.84|
92306434|NCT05091307|184514173|NON_INFERIORITY|The criterion for NI was the upper bound of the 2-sided 95% CI for the GMR was below 1.5.|Geometric Mean Ratio|1.03|||||TWO_SIDED|95.0|0.88|1.21|||ANOVA|||B/Phuket (B/Yamagata): Based on analysis of variance (ANOVA) models, CIs around the difference (Group 2 \[control group\] minus Group 1 \[CoAd group\]) was calculated and back-transformed (by exponentiation: 2\^CI) to CIs around a geometric mean ratio (GMR: GMTControl/GMTCoAd).||1.21|0.88|
92188660|NCT02790788|184275260|SUPERIORITY||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|3.1||0.76|TWO_SIDED|95.0|-7.2|5.3|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO RVEF WITHIN 12 HOURS AFTER ROSC||5.3|-7.2|0.76
92188661|NCT02790788|184275260|SUPERIORITY||Mean Difference (Net)|-4.9|STANDARD_ERROR_OF_MEAN|4.2||0.25|TWO_SIDED|95.0|-13.5|3.7|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO LVEF AT 72 HOURS AFTER ROSC||3.7|-13.5|0.25
92188662|NCT02790788|184275260|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|3.5||0.61|TWO_SIDED|95.0|-9.1|5.5|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO RVEF WITHIN 72 HOURS AFTER ROSC||5.5|-9.1|0.61
92188663|NCT02790788|184275261|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.09||0.41|TWO_SIDED|95.0|-0.25|0.11|||t-test, 2 sided|||RESULTS CORRESPOND TO END-DIASTOLIC ECCI WITHIN 12 HOURS OF ROSC.||0.11|-0.25|0.41
92306435|NCT05091307|184514174|NON_INFERIORITY|The criterion for NI was the upper bound of the 2-sided 95% CI for the GMR was below 1.5.|Geometric Mean Ratio|1.11|||||TWO_SIDED|95.0|0.97|1.26|||ANOVA|||Based on analysis of variance (ANOVA) models, CIs around the difference (Group 2 \[control group\] minus Group 1 \[CoAd group\]) was calculated and back-transformed (by exponentiation: 2\^CI) to CIs around a geometric mean ratio (GMR: GMTControl/GMTCoAd).||1.26|0.97|
92188664|NCT02790788|184275261|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.09||0.38|TWO_SIDED|95.0|-0.26|0.1|||t-test, 2 sided|||RESULTS CORRESPOND TO END-SYSTOLIC ECCI WITHIN 12 HOURS AFTER ROSC.||0.10|-0.26|0.38
92188665|NCT02790788|184275261|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.1||0.46|TWO_SIDED|95.0|-0.29|0.14|||t-test, 2 sided|||RESULTS CORRESPOND TO END-DIASTOLIC ECCI AT 72 HOURS AFTER ROSC.||0.14|-0.29|0.46
92188666|NCT02790788|184275261|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.11||0.34|TWO_SIDED|95.0|-0.33|0.12|||t-test, 2 sided|||RESULTS CORRESPOND TO END-SYSTOLIC ECCI AT 72 HOURS AFTER ROSC.||0.12|-0.33|0.34
92188667|NCT02790788|184275262|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.65||0.9|TWO_SIDED|95.0|-1.5|1.3|||t-test, 2 sided|||||1.3|-1.5|0.90
92188668|NCT02790788|184275263|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.37||0.59|TWO_SIDED|95.0|-0.54|0.94|||t-test, 2 sided|||||0.94|-0.54|0.59
92188669|NCT02790788|184275264|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.38||0.67|TWO_SIDED|95.0|-0.6|0.93|||t-test, 2 sided|||||0.93|-0.60|0.67
92306436|NCT02752906|184514222|NON_INFERIORITY|95% confidence interval (CI) of the difference was calculated from the Wilson Score Method without continuity correction. If the lower limit of the 2-sided 95% CI of the difference between the 2 percentage was \> -10%, the non- inferiority assumption was rejected.|Percentage Difference|5.0|||||TWO_SIDED|95.0|0.735|9.38||||||Serogroup A||9.38|0.735|
92188670|NCT02790788|184275265|SUPERIORITY||Mean Difference (Net)|0.19|STANDARD_ERROR_OF_MEAN|0.41||0.65|TWO_SIDED|95.0|-0.64|1.02|||t-test, 2 sided|||||1.02|-0.64|0.65
92188671|NCT02790788|184275266|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|1.0||0.41|TWO_SIDED|95.0|-1.2|2.8||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 0-6 HOURS AFTER ROSC.|t-test, 2 sided|||||2.8|-1.2|0.41
92188672|NCT02790788|184275266|SUPERIORITY||Mean Difference (Net)|-0.36|STANDARD_ERROR_OF_MEAN|0.28||0.2|TWO_SIDED|95.0|-0.92|0.19|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 12-18 HOURS AFTER ROSC.||0.19|-0.92|0.20
92188673|NCT02790788|184275266|SUPERIORITY||Median Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.26||0.07|TWO_SIDED|95.0|-1.0|0.04|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 12-18 HOURS AFTER ROSC.||0.04|-1.00|0.07
92188674|NCT02790788|184275266|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.29||0.36|TWO_SIDED|95.0|-0.85|0.31|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 18-24 HOURS AFTER ROSC.||0.31|-0.85|0.36
92188675|NCT02790788|184275266|SUPERIORITY||Median Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.25||0.54|TWO_SIDED|95.0|-0.66|0.35|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 24-30 HOURS AFTER ROSC.||0.35|-0.66|0.54
92188676|NCT02790788|184275266|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.28||0.62|TWO_SIDED|95.0|-0.69|0.42|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 30-36 HOURS AFTER ROSC.||0.42|-0.69|0.62
92188677|NCT02790788|184275266|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.6|TWO_SIDED|95.0|-0.71|0.41|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 36-42 HOURS AFTER ROSC.||0.41|-0.71|0.60
92306437|NCT02752906|184514222|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. If the lower limit of the 2-sided 95% CI of the difference between the 2 percentage was \> -10%, the non-inferiority assumption was rejected.|Percentage Difference|5.4|||||TWO_SIDED|95.0|2.16|8.76||||||Serogroup C||8.76|2.16|
92306438|NCT02752906|184514222|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. If the lower limit of the 2-sided 95% CI of the difference between the 2 percentage was \> -10%, the non-inferiority assumption was rejected.|Percentage Difference|1.8|||||TWO_SIDED|95.0|-0.907|4.55||||||Serogroup Y||4.55|-0.907|
92306439|NCT02752906|184514222|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. If the lower limit of the 2-sided 95% CI of the difference between the 2 percentage was \> -10%, the non-inferiority assumption was rejected.|Percentage Difference|7.4|||||TWO_SIDED|95.0|4.3|10.9||||||Serogroup W||10.9|4.30|
92306440|NCT04663295|184514272|SUPERIORITY||Mean Difference (Net)|5.6|||<|0.001|TWO_SIDED|95.0|3.3|7.9||One-sided test at significant level of 0.025.|Wilcoxon (Mann-Whitney)|Wilcoxon Signed rank test comparing baseline and study period.||||7.9|3.3|<0.001
92306441|NCT05958888|184514314|SUPERIORITY||Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||<0.001
92306442|NCT05958888|184514314|SUPERIORITY||Mean Difference (Final Values)|1.39|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome.The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||<0.001
92306443|NCT05958888|184514314|SUPERIORITY||Mean Difference (Final Values)|1.62|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||<.001
92306444|NCT05958888|184514314|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.1|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||.10
92306445|NCT05958888|184514314|SUPERIORITY||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.2||0.01|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||.01
92306446|NCT05958888|184514314|SUPERIORITY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.2||0.25|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.25
92306447|NCT05958888|184514315|SUPERIORITY||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||<.001
92306448|NCT05958888|184514315|SUPERIORITY||Mean Difference (Final Values)|6.0|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||<.001
92306449|NCT05958888|184514315|SUPERIORITY||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||<.001
92188678|NCT02790788|184275266|SUPERIORITY||Median Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.26||0.54|TWO_SIDED|95.0|-0.69|0.36|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 42-48 HOURS AFTER ROSC.||0.36|-0.69|0.54
92188679|NCT02790788|184275267|SUPERIORITY||Mean Difference (Net)|0.71|STANDARD_ERROR_OF_MEAN|0.87||0.42|TWO_SIDED|95.0|-2.5|1.1|||t-test, 2 sided|||RESULTS CORRESPOND TO CBFI AT 4 HOURS AFTER ROSC AND AT A MEAN MAP LEVEL OF 75.5 MMHG||1.1|-2.5|0.42
92188680|NCT02790788|184275267|SUPERIORITY||Median Difference (Net)|0.68|STANDARD_ERROR_OF_MEAN|0.79||0.4|TWO_SIDED|95.0|-0.94|2.3|||t-test, 2 sided|||RESULTS CORRESPOND TO CBFI AT 4 HOURS AFTER ROSC AND AT A MEAN MAP LEVEL OF 96.0 MMHG||2.30|-0.94|0.40
92188681|NCT02790788|184275267|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|1.15||0.44|TWO_SIDED|95.0|-1.49|3.28|||t-test, 2 sided|||RESULTS CORRESPOND TO CBFI AT 72 HOURS AFTER ROSC AND AT A MEAN MAP LEVEL OF 75.5 MMHG||3.28|-1.49|0.44
92306450|NCT05958888|184514315|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.85||0.12|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||.12
92306451|NCT05958888|184514315|SUPERIORITY||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||<.001
92306452|NCT05958888|184514315|SUPERIORITY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.85||0.04|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.04
92306453|NCT05958888|184514316|SUPERIORITY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.19||0.01|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||.01
92306454|NCT05958888|184514316|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.19||0.23|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||.23
92306455|NCT05958888|184514316|SUPERIORITY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.19||0.01|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||.01
92306456|NCT05958888|184514316|SUPERIORITY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.19||0.58|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||.58
92306457|NCT05958888|184514316|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.19||0.85|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||.85
92306458|NCT05958888|184514316|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.19||0.58|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.58
92306459|NCT05958888|184514317|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.1|>|0.99|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||>.99
92306460|NCT05958888|184514317|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.1|>|0.99|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||>.99
92306461|NCT05958888|184514317|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.47|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||.47
92306462|NCT05958888|184514317|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.1|>|0.99|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||>.99
92306463|NCT05958888|184514317|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.1||0.45|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||.45
92306464|NCT05958888|184514317|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.1||0.7|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.70
92188682|NCT02790788|184275267|SUPERIORITY||Median Difference (Net)|1.15|STANDARD_ERROR_OF_MEAN|1.23||0.36|TWO_SIDED|95.0|-1.4|3.7|||t-test, 2 sided|||RESULTS CORRESPOND TO CBFI AT 72 HOURS AFTER ROSC AND AT A MEAN MAP LEVEL OF 97.0 MMHG||3.70|-1.40|0.36
92188683|NCT02790788|184275268|SUPERIORITY|||||||0.84|||||||Mann Whitney|||||||0.84
92188684|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|-0.025|STANDARD_ERROR_OF_MEAN|0.144||0.86|TWO_SIDED|95.0|-0.311|0.262|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-6 AT 4 HOURS AFTER ROSC||0.262|-0.311|0.86
92188685|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|-0.064|STANDARD_ERROR_OF_MEAN|0.111||0.56|TWO_SIDED|95.0|-0.287|0.158|||t-test, 2 sided|||RESULTS CORRESPOND TO TNF-α AT 4 HOURS AFTER ROSC||0.158|-0.287|0.56
92188686|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|0.034|STANDARD_ERROR_OF_MEAN|0.053||0.52|TWO_SIDED|95.0|-0.071|0.139|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-1β AT 4 HOURS AFTER ROSC||0.139|-0.071|0.52
92188687|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|-0.041|STANDARD_ERROR_OF_MEAN|0.107||0.7|TWO_SIDED|95.0|-0.254|0.172|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-8 AT 4 HOURS AFTER ROSC||0.172|-0.254|0.70
92188688|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|0.007|STANDARD_ERROR_OF_MEAN|0.167||0.97|TWO_SIDED|95.0|-0.326|0.34|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-10 AT 4 HOURS AFTER ROSC||0.340|-0.326|0.97
92188689|NCT02790788|184275269|SUPERIORITY||Median Difference (Net)|0.067|STANDARD_ERROR_OF_MEAN|0.129||0.61|TWO_SIDED|95.0|-0.192|0.326|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-6 AT 24 HOURS AFTER ROSC||0.326|-0.192|0.61
92188690|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|0.014|STANDARD_ERROR_OF_MEAN|0.126||0.91|TWO_SIDED|95.0|-0.238|0.267|||t-test, 2 sided|||RESULTS CORRESPOND TO TNFα AT 24 HOURS AFTER ROSC||0.267|-0.238|0.91
92188691|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.03||0.19|TWO_SIDED|95.0|-0.1|0.021|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-1β AT 24 HOURS AFTER ROSC||0.021|-0.100|0.19
92306465|NCT05958888|184514318|SUPERIORITY||Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||<.001
92306466|NCT05958888|184514318|SUPERIORITY||Mean Difference (Final Values)|1.76|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||<.001
92306467|NCT05958888|184514318|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||<.001
92306468|NCT05958888|184514318|SUPERIORITY||Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||<.001
92306469|NCT05958888|184514318|SUPERIORITY||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||<.001
92306470|NCT05958888|184514318|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.17||0.72|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.72
92306471|NCT05958888|184514319|SUPERIORITY||Mean Difference (Final Values)|1.73|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||<.001
92306472|NCT05958888|184514319|SUPERIORITY||Mean Difference (Final Values)|2.39|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||<.001
92306473|NCT05958888|184514319|SUPERIORITY||Mean Difference (Final Values)|2.11|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||<.001
92306474|NCT05958888|184514319|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||<.001
92306475|NCT05958888|184514319|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.14||0.01|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||.01
92306476|NCT05958888|184514319|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.14||0.04|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.04
92306477|NCT05958888|184514320|SUPERIORITY||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||<.001
92188692|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|-0.022|STANDARD_ERROR_OF_MEAN|0.111||0.85|TWO_SIDED|95.0|-0.244|0.201|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-8 AT 24 HOURS AFTER ROSC||0.201|-0.244|0.85
92188693|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|0.147|STANDARD_ERROR_OF_MEAN|0.162||0.37|TWO_SIDED|95.0|-0.179|0.473|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-10 AT 24 HOURS AFTER ROSC||0.473|-0.179|0.37
92188694|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.127||0.74|TWO_SIDED|95.0|-0.298|0.212|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-6 AT 48 HOURS AFTER ROSC||0.212|-0.298|0.74
92188695|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|0.036|STANDARD_ERROR_OF_MEAN|0.14||0.8|TWO_SIDED|95.0|-0.246|0.318|||t-test, 2 sided|||RESULTS CORRESPOND TO ΤΝFα AT 48 HOURS AFTER ROSC||0.318|-0.246|0.80
92188696|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|0.056|STANDARD_ERROR_OF_MEAN|0.043||0.2|TWO_SIDED|95.0|-0.03|0.142|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-1β AT 48 HOURS AFTER ROSC||0.142|-0.030|0.20
92188697|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|-0.024|STANDARD_ERROR_OF_MEAN|0.111||0.83|TWO_SIDED|95.0|-0.246|0.198|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-8 AT 48 HOURS AFTER ROSC||0.198|-0.246|0.83
92188698|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|0.027|STANDARD_ERROR_OF_MEAN|0.124||0.83|TWO_SIDED|95.0|-0.223|0.276|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-10 AT 48 HOURS AFTER ROSC||0.276|-0.223|0.83
92188699|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.161||0.85|TWO_SIDED|95.0|-0.294|0.354|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-6 AT 72 HOURS AFTER ROSC||0.354|-0.294|0.85
92188700|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|0.048|STANDARD_ERROR_OF_MEAN|0.145||0.74|TWO_SIDED|95.0|-0.243|0.339|||t-test, 2 sided|||RESULTS CORRESPOND TO ΤΝFα AT 72 HOURS AFTER ROSC||0.339|-0.243|0.74
92188701|NCT02790788|184275269|SUPERIORITY||Median Difference (Net)|0.013|STANDARD_ERROR_OF_MEAN|0.039||0.75|TWO_SIDED|95.0|-0.066|0.091|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-1β AT 72 HOURS AFTER ROSC||0.091|-0.066|0.75
92188702|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|-0.045|STANDARD_ERROR_OF_MEAN|0.096||0.64|TWO_SIDED|95.0|-0.238|0.149|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-8 AT 72 HOURS AFTER ROSC||0.149|-0.238|0.64
92306478|NCT05958888|184514320|SUPERIORITY||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||<.001
92306479|NCT05958888|184514320|SUPERIORITY||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||<.001
92306480|NCT05958888|184514320|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.15||0.43|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||.43
92306481|NCT05958888|184514320|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.15||0.81|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||.81
92306482|NCT05958888|184514320|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.81|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.81
92306483|NCT00642694|184514322|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92306484|NCT01007942|184514339|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0067|TWO_SIDED|95.0|0.65|0.95|||Log Rank|||||0.95|0.65|0.0067
92306485|NCT04492020|184514348|SUPERIORITY||Odds Ratio (OR)|2.09|||<|0.0001|TWO_SIDED|95.0|1.63|2.69|||generalized linear mixed model (GLMM)|||||2.69|1.63|<.0001
92306486|NCT04492020|184514349|SUPERIORITY||Odds Ratio (OR)|2.13|||<|0.0001|TWO_SIDED|95.0|1.63|2.78|||generalized linear mixed model (GLMM)|||||2.78|1.63|<.0001
92306487|NCT04492020|184514350|SUPERIORITY||Geometric Mean Odds Ratio|1.66|||<|0.0001|TWO_SIDED|95.0|1.4|1.96|||generalized estimating equation (GEE)|||||1.96|1.40|<.0001
92306488|NCT04492020|184514351|SUPERIORITY||Odds Ratio (OR)|1.93|||<|0.0001|TWO_SIDED|95.0|1.39|2.66|||generalized linear mixed model (GLMM)|||||2.66|1.39|<.0001
92306489|NCT00325195|184514352|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92306490|NCT00325195|184514352|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92306491|NCT00325195|184514353|SUPERIORITY_OR_OTHER||||||<|0.002||95.0|||||Fisher Exact|||||||<0.002
92306492|NCT00325195|184514353|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Fisher Exact|||||||0.200
92188703|NCT02790788|184275269|SUPERIORITY||Mean Difference (Net)|0.179|STANDARD_ERROR_OF_MEAN|0.147||0.23|TWO_SIDED|95.0|-0.116|0.475|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-10 AT 72 HOURS AFTER ROSC||0.475|-0.116|0.23
92306493|NCT00325195|184514354|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Fisher Exact|||% of pegloticase q2 participants reporting flares compared to placebo pts during Months 4-6 treatment period||||0.007
92188704|NCT02790788|184275270|SUPERIORITY||Percent Difference|4.9||||0.45|TWO_SIDED|95.0|-4.8|14.6|||Fisher Exact|||||14.6|-4.8|0.45
92188705|NCT02790788|184275271|SUPERIORITY||Mann-Whitney U|50903.5||||0.68|TWO_SIDED||||||Mann Whitney|||RESULTS CORRESPOND TO THE NUMBER OF EPISODES OF HYPERGLYCEMIA||||0.68
92188706|NCT02790788|184275271|SUPERIORITY||Mann Whitney U|52188.5||||0.68|TWO_SIDED||||||Mann-Whitney|||RESULTS CORRESPOND TO THE NUMBER OF EPISODES OF HYPERNATREMIA||||0.68
92188707|NCT02790788|184275271|SUPERIORITY||Mann-Whitney U|1128.5||||0.37|TWO_SIDED||||||Mann-Whitney|||RESULTS CORRESPOND TO THE NUMBER OF EPISODES OF INFECTION||||0.37
92188708|NCT01721109|184275280|EQUIVALENCE|A sample size of 14 participants was estimated to provide over 95% power to show pharmacokinetic equivalence between adult and adolescent participants. EVG population PK from historical adult data was used for comparison. The inter-subject standard deviation (natural log scale) of EVG AUCtau observed in the population PK data was 0.31 (historical data).|Geometric least squares mean ratio|1.3029|||||TWO_SIDED|90.0|1.0479|1.62||||||||1.6200|1.0479|
92306494|NCT00325195|184514354|SUPERIORITY_OR_OTHER|||||||0.321||95.0|||||Fisher Exact|||% of pegloticase q4 participants reporting flares compared to placebo pts during Months 4-6 treatment period||||0.321
92306495|NCT00325195|184514355|SUPERIORITY_OR_OTHER|||||||0.166||95.0|||||t-test, 2 sided|||||||0.166
92306496|NCT00325195|184514355|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||t-test, 2 sided|||||||0.170
92306497|NCT00325195|184514356|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||t-test, 2 sided|||||||0.008
92306498|NCT00325195|184514356|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||t-test, 2 sided|||||||0.024
92306499|NCT01175811|184514424|SUPERIORITY_OR_OTHER||LSmean difference|0.01|||||TWO_SIDED|95.0|-0.14|0.16||||||||0.16|-0.14|
92306500|NCT01175811|184514425|SUPERIORITY_OR_OTHER||LSmean Difference|0.0|||||TWO_SIDED|95.0|-0.15|0.16||||||||0.16|-0.15|
92306501|NCT01175811|184514426|SUPERIORITY_OR_OTHER|||||||0.344||95.0||||P-value is for the comparison of participants achieving \<=6.5% HbA1c at 12 weeks. P-value was not adjusted for multiplicity and should be interpreted as nominal.|Fisher Exact|||||||0.344
92306502|NCT01175811|184514426|SUPERIORITY_OR_OTHER|||||||0.822||95.0||||P-value is for the comparison of participants achieving \<=7.0% HbA1c at 12 weeks. P-value was not adjusted for multiplicity and should be interpreted as nominal.|Fisher Exact|||||||0.822
92306503|NCT01175811|184514426|SUPERIORITY_OR_OTHER|||||||0.417||95.0||||P-value is for the comparison of participants achieving \<=6.5% HbA1c at 24 weeks. P-value was not adjusted for multiplicity and should be interpreted as nominal.|Fisher Exact|||||||0.417
92306504|NCT01175811|184514426|SUPERIORITY_OR_OTHER|||||||0.392||95.0||||P-value is for the comparison of participants achieving \<=7.0% HbA1c at 24 weeks. P-value was not adjusted for multiplicity and should be interpreted as nominal.|Fisher Exact|||||||0.392
92306505|NCT02109419|184514439|OTHER||Pearson Test-retest reliability coeff.|0.8|||<|0.0001|TWO_SIDED||||||Pearson Test-retest reliability coeff.|||HHT-D reliability was evaluated via test-retest reliability coefficients. The dataset included participants from all groups.||||<0.0001
92306506|NCT02109419|184514439|OTHER||Pearson test-retest reliability coeff|0.87|||<|0.0001|TWO_SIDED||||||Pearson test-retest reliability coeff|||HHT-G reliability was evaluated via test-retest reliability coefficients. The dataset included participants from all groups.||||<0.0001
92306507|NCT02109419|184514439|OTHER||Pearson correlation coefficient|0.6|||<|0.0001|TWO_SIDED||||||Pearson correlation coefficient|||Validity of the HHT-D was tested by Pearson correlation coefficients between HHT-D and Geriatric Depression Scale (GDS) scores. The dataset included participants from all groups.||||<.0001
92306508|NCT02109419|184514439|OTHER||Pearson correlation coefficient|0.71||||0.0001|TWO_SIDED||||||Pearson correlation coefficient|||Validity of the HHT-G was tested by Pearson correlation coefficients between HHT-G and Mini-Mental State Examination (MMSE) scores. The dataset included participants from all groups.||||0.0001
92306509|NCT02109419|184514439|OTHER||Chronbach's alpha|0.73|||||TWO_SIDED|||||||||Internal consistency reliability of the HHT-D was assessed with Chronbach's alpha. The dataset included participants from all groups.||||
92306510|NCT02109419|184514439|OTHER||Chronbach's alpha|0.7|||||TWO_SIDED|||||||||Internal consistency reliability of the HHT-G was assessed with Chronbach's alpha. The dataset included participants from all groups.||||
92306511|NCT04715932|184514461|SUPERIORITY||Odds Ratio (OR)|1.49||||0.3849|TWO_SIDED|95.0|0.6|3.69|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression).||||3.69|0.60|0.3849
92306512|NCT04715932|184514462|SUPERIORITY||Odds Ratio (OR)|1.43||||0.3139|TWO_SIDED|95.0|0.71|2.88|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.88|0.71|0.3139
92306513|NCT04715932|184514463|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5886|TWO_SIDED|95.0|0.65|2.14|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.14|0.65|0.5886
92306514|NCT04715932|184514464|SUPERIORITY||Odds Ratio (OR)|0.69||||0.2328|TWO_SIDED|95.0|0.38|1.27|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.27|0.38|0.2328
92306515|NCT04715932|184514465|SUPERIORITY||Rate Ratio|1.14||||0.156|TWO_SIDED|95.0|0.95|1.37|||Mixed Models Analysis|Generalized linear mixed model (repeated poisson regression).||||1.37|0.95|0.1560
92306516|NCT04715932|184514466|SUPERIORITY||Rate Ratio|1.06||||0.6233|TWO_SIDED|95.0|0.84|1.33|||Mixed Models Analysis|Generalized linear mixed model (repeated poisson regression)||||1.33|0.84|0.6233
92306517|NCT04715932|184514467|SUPERIORITY||Rate Ratio|1.03||||0.829|TWO_SIDED|95.0|0.78|1.37|||Mixed Models Analysis|Generalized linear mixed model (repeated poisson regression)||||1.37|0.78|0.8290
92306518|NCT04715932|184514468|SUPERIORITY||Rate Ratio|0.98||||0.9222|TWO_SIDED|95.0|0.69|1.4|||Mixed Models Analysis|Generalized linear mixed model (repeated poisson regression)||||1.40|0.69|0.9222
92306519|NCT04715932|184514469|SUPERIORITY|||||||0.8834|||||||Log Rank|||||||0.8834
92306520|NCT04715932|184514470|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9416|TWO_SIDED|95.0|0.59|1.77|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.77|0.59|0.9416
92188709|NCT00134056|184275290|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.64|TWO_SIDED|95.0|0.9|1.19|||Log Rank|||The primary analysis was by intention to treat and the Hochberg procedure was used for multiple testing of co-primary endpoints. Assuming a 4 year accrual, 2.5 years of follow-up, and 930 eligible patients, the study was designed to have 87% power to detect a 25% increase from 18.0 months to 22.5 months in median overall survival with a one-sided log rank with alpha of 0.0125.||1.19|0.90|0.64
92188710|NCT00134056|184275291|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.02||||0.81|TWO_SIDED|95.0|0.89|1.16|||Log Rank|||The primary analysis was by intention to treat and the Hochberg procedure was used for multiple testing of co-primary endpoints. Assuming a 4 year accrual, 2.5 years of follow-up, and 930 eligible patients, the study was designed to have 87% power to detect a 25% increase from 6.0 months to 7.5 months in median overall survival with a one-sided log rank with alpha of 0.0125.||1.16|0.89|0.81
92306521|NCT04715932|184514471|SUPERIORITY||Odds Ratio (OR)|0.87||||0.6296|TWO_SIDED|95.0|0.49|1.55|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.55|0.49|0.6296
92306522|NCT04715932|184514472|SUPERIORITY||Odds Ratio (OR)|0.75||||0.3711|TWO_SIDED|95.0|0.41|1.4|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.40|0.41|0.3711
92306523|NCT04715932|184514473|SUPERIORITY||Odds Ratio (OR)|0.82||||0.5696|TWO_SIDED|95.0|0.42|1.61|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.61|0.42|0.5696
92188711|NCT02267746|184275324|EQUIVALENCE|Estimates of mean percent change from baseline were calculated (separately for inflammatory and non-inflammatory lesions) for the Test and Reference treatment, and then the 90% confidence interval (CI) for the mean ratio was constructed using Fieller's method.|Mean Difference (Net)|0.93|||||TWO_SIDED|90.0|0.86|1.02|||||Therapeutic equivalence was established if the 90% CIs for the ratio of Test/Reference means, for both lesion types, were contained within the interval \[0.80, 1.25\] for the PP population.|||1.02|0.86|
92306524|NCT04715932|184514474|SUPERIORITY||Odds Ratio (OR)|0.83||||0.7583|TWO_SIDED|95.0|0.26|2.67|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.67|0.26|0.7583
92188712|NCT02267746|184275325|EQUIVALENCE|Estimates of mean percent change from baseline were calculated (separately for inflammatory and non-inflammatory lesions) for the Test and Reference treatment, and then the 90% confidence interval (CI) for the mean ratio was constructed using Fieller's method.|Mean Difference (Net)|0.96|||||TWO_SIDED|90.0|0.89|1.04|||||Therapeutic equivalence was established if the 90% CIs for the ratio of Test/Reference means, for both lesion types, were contained within the interval \[0.80, 1.25\] for the PP population.|||1.04|0.89|
92306525|NCT04715932|184514475|SUPERIORITY||Odds Ratio (OR)|0.84||||0.8091|TWO_SIDED|95.0|0.2|3.58|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.58|0.20|0.8091
92306526|NCT04715932|184514476|SUPERIORITY||Odds Ratio (OR)|1.67||||0.5591|TWO_SIDED|95.0|0.3|9.42|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||9.42|0.30|0.5591
92306527|NCT04715932|184514477|SUPERIORITY|||||||0.9983|||||||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||||0.9983
92306528|NCT04715932|184514478|SUPERIORITY||Odds Ratio (OR)|1.6||||0.1068|TWO_SIDED|95.0|0.9|2.82|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.82|0.90|0.1068
92306529|NCT04715932|184514479|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8382|TWO_SIDED|95.0|0.57|1.98|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.98|0.57|0.8382
92306530|NCT04715932|184514480|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5912|TWO_SIDED|95.0|0.59|2.51|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.51|0.59|0.5912
92306531|NCT04715932|184514482|SUPERIORITY||Odds Ratio (OR)|0.78||||0.3686|TWO_SIDED|95.0|0.45|1.35|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.35|0.45|0.3686
92306532|NCT04715932|184514483|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8711|TWO_SIDED|95.0|0.59|1.86|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.86|0.59|0.8711
92306533|NCT04715932|184514484|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9124|TWO_SIDED|95.0|0.57|1.87|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.87|0.57|0.9124
92306534|NCT04715932|184514485|SUPERIORITY||Odds Ratio (OR)|0.7||||0.2952|TWO_SIDED|95.0|0.36|1.37|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.37|0.36|0.2952
92306535|NCT04715932|184514486|SUPERIORITY||Odds Ratio (OR)|1.2||||0.5894|TWO_SIDED|95.0|0.62|2.34|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.34|0.62|0.5894
92306536|NCT04715932|184514487|SUPERIORITY||Odds Ratio (OR)|1.14||||0.7887|TWO_SIDED|95.0|0.45|2.89|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.89|0.45|0.7887
92306537|NCT04715932|184514488|SUPERIORITY||Odds Ratio (OR)|0.73||||0.6348|TWO_SIDED|95.0|0.2|2.7|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.70|0.20|0.6348
92306538|NCT04715932|184514489|SUPERIORITY||Odds Ratio (OR)|0.39||||0.4257|TWO_SIDED|95.0|0.04|3.92|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.92|0.04|0.4257
92306539|NCT04715932|184514490|SUPERIORITY||Odds Ratio (OR)|1.66||||0.1113|TWO_SIDED|95.0|0.89|3.11|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.11|0.89|0.1113
92306540|NCT04715932|184514491|SUPERIORITY||Odds Ratio (OR)|1.57||||0.2613|TWO_SIDED|95.0|0.71|3.47|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.47|0.71|0.2613
92306541|NCT04715932|184514492|SUPERIORITY||Odds Ratio (OR)|0.82||||0.7273|TWO_SIDED|95.0|0.27|2.49|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.49|0.27|0.7273
92306542|NCT04715932|184514493|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8909|TWO_SIDED|95.0|0.19|4.19|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||4.19|0.19|0.8909
92306543|NCT04715932|184514494|SUPERIORITY||Odds Ratio (OR)|1.52||||0.1438|TWO_SIDED|95.0|0.87|2.67|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.67|0.87|0.1438
92306544|NCT04715932|184514495|SUPERIORITY||Odds Ratio (OR)|1.38||||0.344|TWO_SIDED|95.0|0.71|2.68|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.68|0.71|0.3440
92306545|NCT04715932|184514496|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5968|TWO_SIDED|95.0|0.58|2.56|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.56|0.58|0.5968
92306546|NCT04715932|184514497|SUPERIORITY||Odds Ratio (OR)|1.52||||0.362|TWO_SIDED|95.0|0.62|3.76|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.76|0.62|0.3620
92306547|NCT04715932|184514498|SUPERIORITY||Odds Ratio (OR)|1.97||||0.0875|TWO_SIDED|95.0|0.91|4.27|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||4.27|0.91|0.0875
92306548|NCT04715932|184514499|SUPERIORITY||Odds Ratio (OR)|0.91||||0.8397|TWO_SIDED|95.0|0.36|2.32|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.32|0.36|0.8397
92188713|NCT02267746|184275326|EQUIVALENCE|Therapeutic equivalence was established if the 90% CI for the difference was contained within the interval \[-0.20, +0.20\] for PP population.|Mean Difference (Net)|-0.073|||||TWO_SIDED|90.0|-0.15|0.004|||||Therapeutic equivalence was established if the 90% CI for the difference was contained within the interval \[-0.20, +0.20\] for the PP population.|Success was defined as an IGA score at Week 12 that was at least two grades less than the baseline assessment. Failure was defined as an IGA score that was the same, higher, or one grade lower than the baseline assessment.||0.004|-0.150|
92267203|NCT04957979|184435815|SUPERIORITY||Odds Ratio (OR)|1.257||||0.302|TWO_SIDED|95.0|0.814|1.939||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.939|0.814|0.302
92306549|NCT04715932|184514500|SUPERIORITY||Odds Ratio (OR)|1.36||||0.6265|TWO_SIDED|95.0|0.4|4.65|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||4.65|0.40|0.6265
92306550|NCT04715932|184514501|SUPERIORITY||Odds Ratio (OR)|1.21||||0.8528|TWO_SIDED|95.0|0.16|8.91|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||8.91|0.16|0.8528
92306551|NCT04715932|184514502|SUPERIORITY||Odds Ratio (OR)|1.34||||0.2983|TWO_SIDED|95.0|0.77|2.35|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.35|0.77|0.2983
92306552|NCT04715932|184514503|SUPERIORITY||Odds Ratio (OR)|1.19||||0.5611|TWO_SIDED|95.0|0.66|2.16|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.16|0.66|0.5611
92306553|NCT04715932|184514504|SUPERIORITY||Odds Ratio (OR)|1.29||||0.4643|TWO_SIDED|95.0|0.65|2.58|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.58|0.65|0.4643
92306554|NCT04715932|184514505|SUPERIORITY||Odds Ratio (OR)|1.38||||0.5063|TWO_SIDED|95.0|0.53|3.62|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.62|0.53|0.5063
92306555|NCT04715932|184514506|SUPERIORITY||Odds Ratio (OR)|1.41||||0.2292|TWO_SIDED|95.0|0.8|2.47|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.47|0.80|0.2292
92306556|NCT04715932|184514507|SUPERIORITY||Odds Ratio (OR)|1.16||||0.6097|TWO_SIDED|95.0|0.65|2.07|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.07|0.65|0.6097
92306557|NCT04715932|184514508|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8389|TWO_SIDED|95.0|0.54|2.16|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.16|0.54|0.8389
92306558|NCT04715932|184514509|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9764|TWO_SIDED|95.0|0.45|2.17|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.17|0.45|0.9764
92306559|NCT04715932|184514510|SUPERIORITY||Odds Ratio (OR)|0.8||||0.4403|TWO_SIDED|95.0|0.46|1.4|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.40|0.46|0.4403
92306560|NCT04715932|184514511|SUPERIORITY||Odds Ratio (OR)|0.79||||0.5112|TWO_SIDED|95.0|0.39|1.6|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.60|0.39|0.5112
92306561|NCT04715932|184514512|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9306|TWO_SIDED|95.0|0.46|2.36|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.36|0.46|0.9306
92267204|NCT04957979|184435815|SUPERIORITY||Odds Ratio (OR)|0.84||||0.192|TWO_SIDED|95.0|0.647|1.092||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.092|0.647|0.192
92267205|NCT04957979|184435816|SUPERIORITY||Odds Ratio (OR)|0.438||||0.318|TWO_SIDED|95.0|0.086|2.22||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||2.22|0.086|0.318
92306562|NCT04715932|184514513|SUPERIORITY||Odds Ratio (OR)|0.73||||0.6046|TWO_SIDED|95.0|0.23|2.36|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.36|0.23|0.6046
92306563|NCT04715932|184514514|SUPERIORITY||Odds Ratio (OR)|1.15||||0.6963|TWO_SIDED|95.0|0.57|2.34|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.34|0.57|0.6963
92306564|NCT04715932|184514515|SUPERIORITY||Odds Ratio (OR)|0.65||||0.425|TWO_SIDED|95.0|0.22|1.88|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.88|0.22|0.4250
92306565|NCT04715932|184514516|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8797|TWO_SIDED|95.0|0.27|4.65|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||4.65|0.27|0.8797
92306566|NCT04715932|184514517|SUPERIORITY||Odds Ratio (OR)|3.71||||0.2634|TWO_SIDED|95.0|0.37|37.03|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||37.03|0.37|0.2634
92188714|NCT00348283|184275334|SUPERIORITY_OR_OTHER|||||||0.056||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|Because of the hierarchical testing scheme used for testing the ranked secondary endpoints, alpha level of 0.05 was used at each stage of testing.||ITT population: all subjects randomized at Week 4 who had at least 1 dose of blinded therapy. The sample-size (placebo = 65 subjects; adalimumab = 65 subjects) for the primary efficacy analysis was calculated using 88% power at 0.05 alpha level based on the assumption that 25% and 5% of subjects were without mucosal ulceration at Week 12 in adalimumab 40 mg eow and placebo groups, respectively. However, subjects without mucosal ulceration at Screening were excluded from the primary analysis.||||0.056
92188715|NCT00348283|184275335|SUPERIORITY_OR_OTHER|||||||0.021||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|||The null hypothesis was that there is no difference in proportion of subjects with clinical remission at Week 12 in the two treatment groups.||||0.021
92188716|NCT00348283|184275336|SUPERIORITY_OR_OTHER||||||<|0.001||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|||The null hypothesis was that there is no difference between proportions of subjects without mucosal ulceration at Week 52 in the two treatment groups.||||<0.001
92188717|NCT00348283|184275337|SUPERIORITY_OR_OTHER|||||||0.001||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|||The null hypothesis was that there is no difference in proportion of subjects with clinical remission at Week 52 in the two treatment groups.||||0.001
92188718|NCT00348283|184275338|SUPERIORITY_OR_OTHER|||||||0.15||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|||The null hypothesis was that there is no difference between proportions of subjects without mucosal ulceration at both Week 12 and Week 52 in the two treatment groups.||||0.150
92306567|NCT04715932|184514518|SUPERIORITY||Odds Ratio (OR)|1.5||||0.271|TWO_SIDED|95.0|0.73|3.06|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.06|0.73|0.2710
92306568|NCT04715932|184514519|SUPERIORITY||Odds Ratio (OR)|1.82||||0.1748|TWO_SIDED|95.0|0.77|4.3|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||4.30|0.77|0.1748
92306569|NCT04715932|184514520|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8513|TWO_SIDED|95.0|0.34|3.63|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.63|0.34|0.8513
92306570|NCT04715932|184514521|SUPERIORITY||Odds Ratio (OR)|1.21||||0.7906|TWO_SIDED|95.0|0.29|5.07|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||5.07|0.29|0.7906
92306571|NCT02740699|184514522|SUPERIORITY|||||||0.0256|||||||Wilcoxon Signed Rank Tests|||||||0.0256
92306572|NCT02740699|184514523|SUPERIORITY|||||||0.0254|||||||Wilcoxon Signed Rank Tests|||||||0.0254
92306573|NCT02740699|184514524|SUPERIORITY|||||||0.58|||||||Regression, Linear|||||||0.58
92306574|NCT02740699|184514525|SUPERIORITY|||||||0.06|||||||Regression, Linear|||||||0.06
92306575|NCT02740699|184514526|SUPERIORITY|||||||0.69|||||||Regression, Linear|||||||0.69
92306576|NCT02740699|184514527|SUPERIORITY|||||||0.006|||||||Regression, Linear|||||||0.006
92306577|NCT02393248|184514540|SUPERIORITY|||||||0.2841|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.2841
92306578|NCT02393248|184514540|SUPERIORITY|||||||0.3042|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.3042
92306579|NCT02393248|184514540|SUPERIORITY|||||||0.1259|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.1259
92306580|NCT02393248|184514540|SUPERIORITY|||||||0.8214|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.8214
92188719|NCT00348283|184275339|SUPERIORITY_OR_OTHER||||||<|0.001||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|||The null hypothesis was that there is no difference in proportion of subjects with clinical remission at Week 12 in the two treatment groups.||||<0.001
92306581|NCT02393248|184514540|SUPERIORITY|||||||0.4315|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.4315
92306582|NCT02393248|184514540|SUPERIORITY|||||||0.2595|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.2595
92306583|NCT02393248|184514544|SUPERIORITY|||||||0.8577|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.8577
92306584|NCT02393248|184514544|SUPERIORITY|||||||0.7238|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.7238
92306585|NCT02393248|184514544|SUPERIORITY|||||||0.5923|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.5923
92306586|NCT02393248|184514544|SUPERIORITY|||||||0.7634|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.7634
92306587|NCT02393248|184514544|SUPERIORITY|||||||0.5749|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.5749
92306588|NCT02393248|184514544|SUPERIORITY|||||||0.6877|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.6877
92306589|NCT02393248|184514548|SUPERIORITY|||||||0.143|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.143
92306590|NCT02393248|184514549|SUPERIORITY|||||||0.0013|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.0013
92188720|NCT04016415|184275352|SUPERIORITY|Two-sided tests with the null hypothesis of no difference in chg from Baseline to 6MO between the two arms. The power calculation assumed a clinically meaningful diff of 0.5% and standard deviation of 0.9%. Assuming an avg class cohort size of 18 pts and an intraclass correlation coefficient estimate of 0.08 for correlation within cohorts yielded a design effect that inflated the sample size by 1+((18-1) multiplied by 0.08)=2.36. A 15% dropout rate was assumed. 145 pts per arm yielded 80% power.|Mean Difference (Net)|-0.01||||0.96|TWO_SIDED|95.0|-0.36|0.34||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 6MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||0.34|-0.36|0.96
92188721|NCT04016415|184275353|SUPERIORITY|All hypothesis tests are two-sided (any difference), with the null hypothesis of no difference in change from Baseline to 2MO between the two arms.|Mean Difference (Net)|-0.07||||0.68|TWO_SIDED|95.0|-0.38|0.25||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 2MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||0.25|-0.38|0.68
92188722|NCT04016415|184275354|SUPERIORITY|All hypothesis tests are two-sided (any difference), with the null hypothesis of no difference in change from Baseline to 2MO between the two arms.|Mean Difference (Net)|0.06||||0.41|TWO_SIDED|95.0|-0.09|0.21||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 2MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||0.21|-0.09|0.41
92188723|NCT04016415|184275355|SUPERIORITY|All hypothesis tests are two-sided (any difference), with the null hypothesis of no difference in change from Baseline to 6MO between the two arms.|Mean Difference (Net)|-0.05||||0.59|TWO_SIDED|95.0|-0.22|0.12||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 6MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||0.12|-0.22|0.59
92188724|NCT04016415|184275356|SUPERIORITY|All hypothesis tests are two-sided (any difference), with the null hypothesis of no difference in change from Baseline to 2MO between the two arms.|Mean Difference (Net)|1.57||||0.04|TWO_SIDED|95.0|0.07|3.06||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 2MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||3.06|0.07|0.04
92188725|NCT04016415|184275357|SUPERIORITY|All hypothesis tests are two-sided (any difference), with the null hypothesis of no difference in change from Baseline to 6MO between the two arms.|Mean Difference (Net)|0.83||||0.3|TWO_SIDED|95.0|-0.74|2.4||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 6MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||2.40|-0.74|0.30
92188726|NCT01885559|184275358|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.58|TWO_SIDED|95.0|0.82|1.42|||Regression, Cox|Analyses were adjusted for age, sex, race, baseline estimated Glomerular Filtration Rate (eGFR) and clinical site|ACE+ARB (Lisinopril-telmisartan) compared to ACE+placebo (Lisinopril-placebo)|||1.42|0.82|0.58
92188727|NCT01885559|184275359|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.88|TWO_SIDED|95.0|-3.2|2.8|||shared parameter model|shared parameter models used due to informative censoring that occurred when patients did not have secondary outcomes measured after reaching endpoint||||2.8|-3.2|0.88
92188728|NCT01885559|184275360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7||||0.17|TWO_SIDED|95.0|-3.9|0.7||controlling for age, sex, race, and clinical site|Mixed Models Analysis||ACE-I+ARB annual percent change minus ACE-I + placebo annual percent change|||0.7|-3.9|0.17
92188729|NCT01885559|184275361|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.03||||0.85|TWO_SIDED|95.0|0.8|1.32|||Regression, Cox|adjusting for age, sex, race, and clinical site and recurrent events|Hazard ratio compares ACE-I + ARB compared to ACE-I + placebo|||1.32|0.80|0.85
92188730|NCT01885559|184275362|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.57|TWO_SIDED|95.0|0.42|1.6|||Regression, Cox|adjusting for age, sex, race, and clinical site and accounting for recurrent events|Hazard ratio is comparing ACE-I + ARB to ACE-I + placebo|||1.6|0.42|0.57
92188731|NCT01885559|184275363|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.032||||0.75|TWO_SIDED|95.0|-0.23|0.16|||shared parameter model|Shared parameter models were used due to informed censoring when patients who reached the primary endpoint were no longer assessed on the measure.||||0.16|-0.23|0.75
92306591|NCT02393248|184514550|SUPERIORITY|||||||0.319|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.319
92188732|NCT01885559|184275364|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.047||||0.66|TWO_SIDED|95.0|-0.26|0.16|||shared parameter model|Shared parameter models were used due to the informative censoring when patients who reached endpoint were not longer assessed on this measure.||||0.16|-0.26|0.66
92306592|NCT02393248|184514551|SUPERIORITY|||||||0.128|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.128
92306593|NCT02393248|184514552|SUPERIORITY|||||||0.305|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.305
92306594|NCT02393248|184514553|SUPERIORITY|||||||0.305|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.305
92306595|NCT02393248|184514554|SUPERIORITY|||||||0.772|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.772
92306596|NCT03560986|184514567|SUPERIORITY||Mean Difference (Net)|0.43|STANDARD_ERROR_OF_MEAN|0.372||0.2522|TWO_SIDED|95.0|-0.31|1.17||2-sided p-value for testing superiority of neridronic acid 400 mg compared to placebo.|Mixed Models Analysis|The degrees of freedom of the denominator are estimated using the Kenward-Roger approximation.|The primary endpoint estimate was the least squares mean differences of change from baseline in pain NRS (electronic diary) at Week 12 between neridronate and Placebo.|Mixed-effects model for repeated measures (MMRM) defined with baseline pain intensity as covariate, the factors geographic region, week, treatment and treatment-by-week as fixed effects, and an unstructured covariance matrix to model the covariance structure of the repeated measurements.||1.17|-0.31|0.2522
92306597|NCT02585934|184514574|SUPERIORITY||least square mean difference|-0.36||||0.2249|TWO_SIDED|95.0|-0.95|0.22||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||0.22|-0.95|0.2249
92306598|NCT02585934|184514575|SUPERIORITY||least square mean difference|-0.09||||0.826|TWO_SIDED|95.0|-0.9|0.72||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||0.72|-0.90|0.8260
92306599|NCT02585934|184514576|SUPERIORITY||least square mean difference|-0.12||||0.0234|TWO_SIDED|95.0|-0.22|-0.02||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||-0.02|-0.22|0.0234
92306600|NCT02585934|184514577|SUPERIORITY||least square mean difference|0.12||||0.2096|TWO_SIDED|95.0|-0.07|0.32||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||0.32|-0.07|0.2096
92188733|NCT01885559|184275365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0||||0.64|TWO_SIDED|95.0|0.99|1.01|||Mixed Models Analysis|Generalized linear mixed models are used with a logit link. Model controlled for baseline age, sex, race, and clinical site.|"Odds ratio represents the multiplicative effect of ACE-I + ARB group compared to the ACE-I + placebo group in change in pain over time.~ACE-I + ARB OR per month was 1.01 (1.00, 1.01) and ACE-I + placebo OR was 1.01 (1.01, 1.01)."|||1.01|0.99|0.64
92188734|NCT01232569|184275431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.5|||<|0.001|TWO_SIDED|95.0|22.0|37.0|||Cochran-Mantel-Haenszel|Analysis adjusted for the randomization stratification factors applied at Baseline (region and weight category).||||37.0|22.0|<0.001
92188735|NCT02123797|184275479|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0007|TWO_SIDED|95.0|1.35|3.06||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without invasive stage confirmation (numerator=108/70) to Serial Care patients with and without invasive stage confirmation (denominator=168/180) after adjustment for matched study.|||3.06|1.35|0.0007
92306601|NCT02585934|184514578|SUPERIORITY||least square mean difference|-0.14||||0.765|TWO_SIDED|95.0|-1.09|0.8||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||0.80|-1.09|0.7650
92306602|NCT02585934|184514579|SUPERIORITY||least square mean difference|-0.38||||0.2472|TWO_SIDED|95.0|-1.03|0.27||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||0.27|-1.03|0.2472
92188736|NCT02123797|184275480|SUPERIORITY||Odds Ratio (OR)|1.87||||0.0022|TWO_SIDED|95.0|1.25|2.8||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without invasive mediastinal staging (numerator=91/87) to Serial Care patients with and without mediastinal invasive staging (denominator=126/222) after adjustment for matched study.|||2.80|1.25|0.0022
92188737|NCT02123797|184275481|SUPERIORITY||Odds Ratio (OR)|3.12||||0.0004|TWO_SIDED|95.0|1.67|5.85||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without bi-modal staging (numerator=161/17) to Serial Care patients with and without bi-modal staging (denominator=267/81) after adjustment for matched study design.|||5.85|1.67|0.0004
92188738|NCT02123797|184275482|SUPERIORITY||Odds Ratio (OR)|2.25|||<|0.0001|TWO_SIDED|95.0|1.5|3.36||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without tri-modal staging (numerator=99/79) to Serial Care patients with and without tri-modal staging (denominator=132/216) after adjustment for matched study design.|||3.36|1.50|<0.0001
92306603|NCT00655876|184514588|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.47|TWO_SIDED|95.0|0.7|1.16|||Log Rank|||The sample size was based on the primary hypothesis of a 29% reduction in the hazard rate of death with cetuximab, corresponding to an increase in 2-year overall survival (OS) from 41% to 53% and a hazard ratio (λ\[exp\]/λ\[cont\]) of 0.71 in favor of the cetuximab arm. Assuming an exponential distribution and constant hazards, 400 patients were required to reach 281 OS events, with 80% statistical power, a 1-sided α of 0.025, 4.5 years of accrual, 2 years of follow-up, and 4 interim analyses.||1.16|0.70|0.47
92306604|NCT00655876|184514589|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.65|TWO_SIDED|95.0|0.66|1.28|||Log Rank|One-sided significance level = 0.025||||1.28|0.66|0.65
92306605|NCT00655876|184514591|SUPERIORITY|||||||0.66|||||||Fisher Exact|One-sided significance level = 0.025||||||0.66
92306606|NCT00655876|184514592|SUPERIORITY|||||||0.04|||||||Chi-squared|Two-sided significance level = 0.05||6-8 weeks post-treatment||||0.04
92306607|NCT00655876|184514592|SUPERIORITY|||||||0.77|||||||Chi-squared|Two-sided significance level = 0.05||1 year||||0.77
92306608|NCT00655876|184514592|SUPERIORITY|||||||0.17|||||||Chi-squared|Two-sided significance level = 0.05||2 years||||0.17
92306609|NCT00895947|184514620|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||Overall comparison of treatment groups for incidence of ILI|Chi-squared|||||||0.25
92306610|NCT00895947|184514620|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||Comparision of ILI incidence in subjects age 50 and older at baseline.|Chi-squared|||||||0.01
92306611|NCT00895947|184514620|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||Comparison of ILI in subjects age \< 50 at baseline|Chi-squared|||||||0.32
92306612|NCT00895947|184514620|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||Comparison of ILI incidence in subjects vaccinated against seasonal influenza prior to enrollment.|Chi-squared|||||||0.01
92306613|NCT00895947|184514620|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||Comparison of ILI incidence in subjects not vaccinated against seasonal influenza prior to enrollment|Chi-squared|||||||0.45
92306614|NCT00895947|184514620|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Comparison of ILI incidence in male subjects|Chi-squared|||||||0.03
92306615|NCT00895947|184514620|SUPERIORITY_OR_OTHER|||||||0.99||95.0||||Comparison of ILI incidence in female subjects|Chi-squared|||||||0.99
92306616|NCT00895947|184514621|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||Proportion of subjects reporting any cold/flu symptoms during treatment|Chi-squared|||||||0.16
92306617|NCT00895947|184514621|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Proportion of subjects reporting moderate to severe feverishness|Chi-squared|||||||0.03
92306618|NCT00895947|184514621|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||Proportion of subjects reporting moderate to severe head congestion|Chi-squared|||||||0.04
92306619|NCT00895947|184514621|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||Proportion of subjects reporting moderate to severe sore throat|Chi-squared|||||||0.07
92306620|NCT00895947|184514622|SUPERIORITY_OR_OTHER|||||||0.39||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to think clearly|Chi-squared|||||||0.39
92306621|NCT00895947|184514622|SUPERIORITY_OR_OTHER|||||||0.15||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to sleep well|Chi-squared|||||||0.15
92306622|NCT00895947|184514622|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to breathe easily|Chi-squared|||||||0.66
92306623|NCT00895947|184514622|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to walk, climb stairs and exercise|Chi-squared|||||||0.48
92306624|NCT00895947|184514622|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to perform daily activities|Chi-squared|||||||0.26
92188739|NCT02123797|184275483|SUPERIORITY||Odds Ratio (OR)|2.58||||0.0366|TWO_SIDED|95.0|1.665|3.996||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without invasive staging (numerator=108/70) to Serial Care patients not in conference with and without invasive staging (denominator=122/150) after adjustment for matched study design.|||3.996|1.665|0.0366
92306625|NCT00895947|184514622|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to work outside the home|Chi-squared|||||||0.25
92306626|NCT00895947|184514622|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to work inside the home|Chi-squared|||||||0.20
92306627|NCT00895947|184514622|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to interact with others|Chi-squared|||||||0.20
92306628|NCT00895947|184514622|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to live personal life|Chi-squared|||||||0.32
92306629|NCT00895947|184514623|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||Proportion of subjects in each group reporting one or more days they felt sick|Chi-squared|||||||0.66
92306630|NCT00895947|184514623|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||Proportion of subjects in each group reporting one or more days they missed work|Chi-squared|||||||0.88
92306631|NCT00895947|184514623|SUPERIORITY_OR_OTHER|||||||1||95.0||||Proportion of subjects in each group reporting one or more days they visited the doctor|Chi-squared|||||||1.0
92306632|NCT00895947|184514623|SUPERIORITY_OR_OTHER|||||||0.54||95.0||||Proportion of subjects in each group reporting one or more days they visited the pharmacy|Chi-squared|||||||0.54
92306633|NCT00895947|184514623|SUPERIORITY_OR_OTHER|||||||0.24||95.0||||Proportion of subjects in each group reporting one or more days they took cold/flu medication|Chi-squared|||||||0.24
92306634|NCT00895947|184514623|SUPERIORITY_OR_OTHER|||||||0.89||95.0||||Proportion of subjects in each group reporting one or more days they skipped a planned activity|Chi-squared|||||||0.89
92306635|NCT00895947|184514624|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||Proportion of subjects in each group with a confirmed viral respiratory infection|Chi-squared|||||||0.61
92306636|NCT00895947|184514624|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Proportion of subjects in each group with a moderate/severe viral respiratory infection|Chi-squared|||||||0.003
92306637|NCT00895947|184514624|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Proportion of subjects in each group with a moderate/severe influenza infection|Chi-squared|||||||0.03
92306638|NCT00895947|184514624|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Proportion of subjects in each group with a moderate/severe viral respiratory infection other than influenza|Chi-squared|||||||0.03
92306639|NCT00895947|184514625|SUPERIORITY_OR_OTHER|||||||0.54||95.0||||Proportion of subjects meeting the definition of acute respiratory illness during treatment|Chi-squared|||||||0.54
92306640|NCT00895947|184514625|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||Proportion of subjects meeting with moderate/severe acute respiratory illness during treatment|Chi-squared|||||||0.06
92306641|NCT00895947|184514625|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Proportion of subjects with moderate/severe febrile acute respiratory illness during treatment|Chi-squared|||||||0.03
92306642|NCT00895947|184514625|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||Proportion of subjects with moderate/severe afebrile acute respiratory illness during treatment|Chi-squared|||||||0.60
92306643|NCT01739348|184514634|SUPERIORITY||Difference in Least Squares Mean|0.2||||0.6287|TWO_SIDED|97.51|-0.9|1.3|||Longitudinal ANCOVA|||||1.3|-0.9|0.6287
92306644|NCT01739348|184514634|SUPERIORITY||Difference in Least Squares Mean|0.4||||0.4625|TWO_SIDED|97.51|-0.8|1.5|||Longitudinal ANCOVA|||||1.5|-0.8|0.4625
92306645|NCT01739348|184514635|SUPERIORITY||Difference in Least Squares Means|0.5||||0.4925|TWO_SIDED|97.51|-1.1|2.1|||Longitudinal ANCOVA|||||2.1|-1.1|0.4925
92306646|NCT01739348|184514635|SUPERIORITY||Difference in Least Squares Means|0.7||||0.3221|TWO_SIDED|97.51|-0.9|2.3|||Longitudinal ANCOVA|||||2.3|-0.9|0.3221
92306647|NCT01739348|184514642|SUPERIORITY||Difference in Least Squares Means|0.0||||0.8426|TWO_SIDED|97.51|-0.4|0.3|||Longitudinal ANCOVA|||||0.3|-0.4|0.8426
92306648|NCT01739348|184514642|SUPERIORITY||Difference in Least Squares Means|0.0||||0.8264|TWO_SIDED|97.51|-0.3|0.4|||Longitudinal ANCOVA|||||0.4|-0.3|0.8264
92306649|NCT01739348|184514643|SUPERIORITY||Difference in Least Squares Means|-0.6||||0.0005|TWO_SIDED|97.51|-1.0|-0.2|||Longitudinal ANCOVA|||||-0.2|-1.0|0.0005
92306650|NCT01739348|184514643|SUPERIORITY||Difference in Least Squares Means|-0.7||||0.0002|TWO_SIDED|97.51|-1.1|-0.3|||Longitudinal ANCOVA|||||-0.3|-1.1|0.0002
92306651|NCT01739348|184514644|SUPERIORITY||Ratio of Fold Change from Baseline|0.95||||0.2138|TWO_SIDED|95.0|0.87|1.04|||Longitudinal ANCOVA|||||1.04|0.87|0.2138
92306652|NCT01739348|184514644|SUPERIORITY||Ratio of Fold Change from Baseline|0.97||||0.433|TWO_SIDED|95.0|0.9|1.05|||Longitudinal ANCOVA|||||1.05|0.90|0.4330
92306653|NCT01739348|184514645|SUPERIORITY||Difference in Least Squares Means|-0.03||||0.0066|TWO_SIDED|95.0|-0.05|0.0|||Longitudinal ANCOVA|||||0.00|-0.05|0.0066
92306654|NCT01739348|184514645|SUPERIORITY||Difference in Least Squares Means|-0.04|||<|0.0001|TWO_SIDED|95.0|-0.06|-0.02|||Longitudinal ANCOVA|||||-0.02|-0.06|<0.0001
92306655|NCT01739348|184514647|SUPERIORITY||Difference in Least Squares Means|0.7||||0.2949|TWO_SIDED|95.0|-0.6|2.1|||Longitudinal ANCOVA|||||2.1|-0.6|0.2949
92306656|NCT01739348|184514647|SUPERIORITY||Difference in Least Squares Means|1.1||||0.1372|TWO_SIDED|95.0|-0.4|2.6|||Longitudinal ANCOVA|||||2.6|-0.4|0.1372
92188740|NCT02123797|184275483|SUPERIORITY||Odds Ratio (OR)|2.621||||0.0779|TWO_SIDED|95.0|1.473|4.665||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Serial Care patients in conference with and without invasive staging (numerator=46/30) to Serial Care patients not in conference with and without invasive staging (denominator=122/150) after adjustment for matched study design.|||4.665|1.473|0.0779
92188741|NCT02123797|184275484|SUPERIORITY||Odds Ratio (OR)|2.358||||0.0703|TWO_SIDED|95.0|1.536|3.621||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without mediastinal staging (numerator=91/87) to Serial Care patients not in conference with and without mediastinal staging (denominator=86/186) after adjustment for matched study.|||3.621|1.536|0.0703
92188742|NCT02123797|184275484|SUPERIORITY||Odds Ratio (OR)|2.535||||0.0631|TWO_SIDED|95.0|1.446|4.444||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Serial Care patients in conference with and without mediastinal staging (numerator=40/36) to Serial Care patients not in conference with and without mediastinal staging (denominator=86/186) after adjustment for matched study.|||4.444|1.446|0.0631
92188743|NCT02123797|184275485|SUPERIORITY||Odds Ratio (OR)|3.191||||0.001|TWO_SIDED|95.0|1.671|6.093||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without bi-modal staging (numerator=161/17) to Serial Care patients not in conference with and without bi-modal staging (denominator=205/67) after adjustment for matched study.|||6.093|1.671|0.0010
92188744|NCT02123797|184275485|SUPERIORITY||Odds Ratio (OR)|1.103||||0.1972|TWO_SIDED|95.0|0.526|2.314||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Serial Care patients in conference with and without bi-modal staging (numerator=62/14) to Serial Care patients not in conference with and without bi-modal staging (denominator=205/67) after adjustment for matched study.|||2.314|0.526|0.1972
92188745|NCT02123797|184275486|SUPERIORITY||Odds Ratio (OR)|2.739||||0.0055|TWO_SIDED|95.0|1.785|4.203|||Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without tri-modal staging (numerator=99/79) to Serial Care patients not in conference with and without tri-modal staging (denominator=93/179) after adjustment for matched study.|||4.203|1.785|0.0055
92188746|NCT02123797|184275486|SUPERIORITY||Odds Ratio (OR)|2.242||||0.2572|TWO_SIDED|95.0|1.287|3.905||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Serial Care patients in conference with and without tri-modal staging (numerator=39/37) to Serial Care patients not in conference with and without tri-modal staging (denominator=93/179) after adjustment for matched study.|||3.905|1.287|0.2572
92306657|NCT01739348|184514648|SUPERIORITY||Difference in Least Squares Means|0.2||||0.4721|TWO_SIDED|95.0|-0.3|0.7|||Longitudinal ANCOVA|||||0.7|-0.3|0.4721
92306658|NCT01739348|184514648|SUPERIORITY||Difference in Least Squares Means|0.5||||0.0599|TWO_SIDED|95.0|0.0|1.0|||Longitudinal ANCOVA|||||1.0|0.0|0.0599
92306659|NCT00790335|184514658|SUPERIORITY||Risk Ratio (RR)|0.96||||0.56|TWO_SIDED|95.0|0.82|1.11|||Cochran-Mantel-Haenszel|Adjusted for extent of DVT and for clinical center|Numerator: PCDT Arm; Denominator: Control Arm. Primary outcome = no statistically significant difference between the two arms.|||1.11|0.82|0.56
92306660|NCT00790335|184514659|SUPERIORITY||Risk Ratio (RR)|0.58||||0.38|TWO_SIDED|95.0|0.17|1.98|||Cochran-Mantel-Haenszel|Adjusted by extent of thrombus and clinical center|Numerator: PCDT Arm; Denominator: Control Arm. No statistically significant difference was seen.|||1.98|0.17|0.38
92306661|NCT00790335|184514660|SUPERIORITY||Risk Ratio (RR)|0.94||||0.39|TWO_SIDED|95.0|0.8|1.09|||Cochran-Mantel-Haenszel|Adjusted for thrombus extent and clinical center|No statistically significant difference was seen.|||1.09|0.80|0.39
92306662|NCT00790335|184514661|SUPERIORITY||Risk Ratio (RR)|0.73||||0.04|TWO_SIDED|95.0|0.54|0.98|||Cochran-Mantel-Haenszel|Adjusted by extent of DVT and clinical center|Numerator: PCDT Arm; Denominator: Control Arm|||0.98|0.54|0.04
92306663|NCT00790335|184514662|SUPERIORITY||Risk Ratio (RR)|6.18||||0.049|TWO_SIDED|95.0|0.78|49.2|||Cochran-Mantel-Haenszel||Numerator: PCDT Arm; Denominator: Control Arm. More major bleeding was observed in the PCDT Arm.|||49.2|0.78|0.049
92306664|NCT00790335|184514663|SUPERIORITY||Risk Ratio (RR)|1.52||||0.23|TWO_SIDED|95.0|0.76|3.01|||Cochran-Mantel-Haenszel||Numerator: PCDT Arm; Denominator: Control Arm|||3.01|0.76|0.23
92306665|NCT00790335|184514664|SUPERIORITY||Risk Ratio (RR)|2.64||||0.03|TWO_SIDED|95.0|1.04|6.68|||Cochran-Mantel-Haenszel||Numerator = PCDT Arm; Denominator = Control Arm. Bleeding was more frequent in the PCDT Arm.|||6.68|1.04|0.03
92306666|NCT00790335|184514665|SUPERIORITY||Risk Ratio (RR)|1.26||||0.25|TWO_SIDED|95.0|0.85|1.89|||Cochran-Mantel-Haenszel||Numerator: PCDT Arm; Denominator: Control Arm|||1.89|0.85|0.25
92306667|NCT00790335|184514666|SUPERIORITY||Risk Ratio (RR)|1.53||||0.5|TWO_SIDED|95.0|0.44|5.28|||Cochran-Mantel-Haenszel||Numerator = PCDT Arm; Denominator = Control Arm|||5.28|0.44|0.50
92306668|NCT00790335|184514667|SUPERIORITY||Risk Ratio (RR)|1.47||||0.09|TWO_SIDED|95.0|0.94|2.29|||Cochran-Mantel-Haenszel||Numerator: PCDT Arm; Denominator: Control Arm|||2.29|0.94|0.09
92306669|NCT00790335|184514669|SUPERIORITY||Risk Ratio (RR)|0.89||||0.83|TWO_SIDED|95.0|0.33|2.44|||Cochran-Mantel-Haenszel|||||2.44|0.33|0.83
92306670|NCT00790335|184514670|SUPERIORITY||Mean Difference (Net)|-1.22|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||< 0.001
92306671|NCT00790335|184514671|SUPERIORITY||Mean Difference (Net)|-1.17|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||< 0.001
92306672|NCT00790335|184514672|SUPERIORITY||Mean Difference (Net)|-1.12|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||< 0.001
92306673|NCT00790335|184514673|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|0.38||0.005|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||0.005
92306674|NCT00790335|184514674|SUPERIORITY||Mean Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||< 0.001
92306675|NCT00790335|184514675|SUPERIORITY||Mean Difference (Net)|-0.56|STANDARD_ERROR_OF_MEAN|0.23||0.01|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||0.01
92306676|NCT00790335|184514676|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||< 0.001
92306677|NCT00790335|184514677|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.26||0.03|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||0.03
92306678|NCT00790335|184514678|SUPERIORITY||Mean Difference (Net)|1.13|STANDARD_ERROR_OF_MEAN|1.26||0.37|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center|No significant difference was seen in the degree of change from baseline to 24 months between the two treatment arms.|||||0.37
92306679|NCT00790335|184514679|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.16||0.99|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center|No difference was observed in the degree of change from baseline to 24 months in the two treatment groups.|||||0.99
92306680|NCT00790335|184514680|SUPERIORITY||Mean Difference (Net)|4.2|STANDARD_ERROR_OF_MEAN|2.39||0.08|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center|No significant difference in the change from baseline to 24 months between the two treatment arms.|||||0.08
92306681|NCT00790335|184514681|SUPERIORITY||Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.14||0.02|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center||||||0.02
92306682|NCT00790335|184514682|SUPERIORITY||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|0.15||0.03|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center||||||0.03
92306683|NCT00790335|184514683|SUPERIORITY||Mean Difference (Net)|-0.53|STANDARD_ERROR_OF_MEAN|0.23||0.02|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center||||||0.02
92306684|NCT00790335|184514684|SUPERIORITY||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|0.23||0.05|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center||||||0.05
92306685|NCT02695537|184514737|OTHER|Single group.|||||<|0.0001||||||P-value reported above is the global test for change in seizure frequency over a 12-month period.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test with Bonferonni multiple comparison correction was used as a post-hoc analysis to indicate direction of change.||Null hypothesis is that there was no change in seizure frequency between any two assessment time points during this period of analysis. Alternative hypothesis is that there were two or more assessment time points for which change in seizure frequency was different from zero.|Generalized least squares statistical techniques were used for modeling longitudinal data after normality of seizure frequency outcome measures were achieved through log-transformations methods. The following baseline clinical variables were adjusted for: AEDs, AEDs tried, epileptic surgery, and gender. Reported results were geometric least squares mean and its associated 95% Confidence Interval. Percentage reduction in seizure frequency relative to baseline were obtained by subtracting from 1 and then multiplying by 100 at all post-baseline timepoints.|||<0.0001
92306686|NCT02695537|184514738|OTHER|Single group.|||||<|0.0001||||||P-value reported above is the global test for change in seizure severity scores over a 12-month period.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test with Bonferonni multiple comparison correction was used as a post-hoc analysis to indicate direction of change.||Null hypothesis is that there was no change in seizure severity scores between any two assessment time points during this period of analysis. Alternative hypothesis is that there were two or more assessment time points for which change in seizure severity scores was different from zero.|Generalized least squares statistical techniques were used for modeling longitudinal data after normality of seizure severity score outcome measures were achieved through log-transformations methods. The following baseline clinical variables were adjusted for: AEDs, AEDs tried, epileptic surgery, and gender. Reported results were geometric least squares mean and its associated 95% Confidence Interval. Percentage reduction in seizure severity relative to baseline were obtained by subtracting from 1 and then multiplying by 100 at all post-baseline timepoints.|||<0.0001
92306687|NCT02792699|184514739|OTHER||Geometric LS Mean|152371.4|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306688|NCT02792699|184514739|OTHER||LS Geometric Mean|159236.0|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306689|NCT02792699|184514739|OTHER||LS Geometric Mean|172213.2|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92188747|NCT02123797|184275487|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0045|TWO_SIDED|95.0|1.24|3.25||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without stage appropriate treatment (numerator=140/33) to SC patients with and without stage appropriate treatment (denominator=232/106) after adjustment for matched study.|||3.25|1.24|0.0045
92306690|NCT02792699|184514739|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[US\]) for AUCinf was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9569|||||TWO_SIDED|90.0|0.887|1.0323||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0323|0.8870|
92306691|NCT02792699|184514739|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[EU\]) for AUCinf was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.8848|||||TWO_SIDED|90.0|0.8204|0.9542||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9542|0.8204|
92306692|NCT02792699|184514739|EQUIVALENCE|PK similarity between the test (rituximab \[US\]) and reference (rituximab \[EU\]) for AUCinf was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9246|||||TWO_SIDED|90.0|0.8575|0.997||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9970|0.8575|
92306693|NCT02792699|184514740|OTHER||Geometric LS Mean|368.43|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306694|NCT02792699|184514740|OTHER||LS Geometric Mean|374.44|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306695|NCT02792699|184514740|OTHER||LS Geometric Mean|393.29|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306696|NCT02792699|184514740|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[US\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.984|||||TWO_SIDED|90.0|0.9356|1.0348||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0348|0.9356|
92188748|NCT02123797|184275488|SUPERIORITY||Odds Ratio (OR)|2.249||||0.0474|TWO_SIDED|95.0|1.368|3.699||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without stage appropriate treatment (numerator=140/33) to SC patients not in conference with and without stage appropriate treatment (denominator=174/91) after adjustment for matched study.|We examined treatment selection practices with or without MD care in a single healthcare system.||3.699|1.368|0.0474
92306697|NCT02792699|184514740|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[EU\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9368|||||TWO_SIDED|90.0|0.8912|0.9848||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9848|0.8912|
92306698|NCT02792699|184514740|EQUIVALENCE|PK similarity between the test (rituximab \[US\]) and reference (rituximab \[EU\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9521|||||TWO_SIDED|90.0|0.9055|1.001||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0010|0.9055|
92306699|NCT02792699|184514741|OTHER||Geometric LS Mean|42203.8|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306700|NCT02792699|184514741|OTHER||LS Geometric Mean|43378.8|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92188749|NCT02123797|184275488|SUPERIORITY||Odds Ratio (OR)|1.751||||0.6353|TWO_SIDED|95.0|0.91|3.37||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing SC patients in conference with and without stage appropriate treatment (numerator=58/15) to SC patients not in conference with and without stage appropriate treatment (denominator=174/91) after adjustment for matched study.|||3.370|0.910|0.6353
92188750|NCT02123797|184275490|SUPERIORITY||Odds Ratio (OR)|2.955||||0.0014|TWO_SIDED|95.0|1.52|5.747||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without concordance to recommendations (numerator=140/37) to SC conference patients with and without concordance to recommendations (denominator=45/30) after adjustment for matched study design.|||5.747|1.520|0.0014
92188751|NCT02123797|184275491|SUPERIORITY||Odds Ratio (OR)|3.093||||0.0019|TWO_SIDED|95.0|1.519|6.299||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without concordance to recommendations (numerator=145/32) to SC conference patients with and without concordance to recommendations (denominator=49/26) after adjustment for matched study design.|||6.299|1.519|0.0019
92188752|NCT02123797|184275492|SUPERIORITY||Odds Ratio (OR)|40.892||||0.0499|TWO_SIDED|95.0|1.002|999.999||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without concordance to recommendations (numerator=174/3) to SC conference patients with and without concordance to recommendations (denominator=71/4) after adjustment for matched study design.|||999.999|1.002|0.0499
92306701|NCT02792699|184514741|OTHER||LS Geometric Mean|44925.3|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306702|NCT02792699|184514741|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[US\]) for AUC0-14day was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9729|||||TWO_SIDED|90.0|0.9174|1.0318||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0318|0.9174|
92306703|NCT02792699|184514741|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[EU\]) for AUC0-14day was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9394|||||TWO_SIDED|90.0|0.8863|0.9958||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9958|0.8863|
92306704|NCT02792699|184514741|EQUIVALENCE|PK similarity between the test (rituximab \[US\]) and reference (rituximab \[EU\]) for AUC0-14day was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9656|||||TWO_SIDED|90.0|0.9104|1.024||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0240|0.9104|
92306705|NCT02792699|184514742|OTHER||Geometric LS Mean|149590.5|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306706|NCT02792699|184514742|OTHER||LS Geometric Mean|155778.7|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92188753|NCT02123797|184275493|SUPERIORITY||Odds Ratio (OR)|2.663||||0.0263|TWO_SIDED|95.0|1.123|6.319||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without concordance to recommendations (numerator=158/19) to SC conference patients with and without concordance to recommendations (denominator=60/15) after adjustment for matched study design.|||6.319|1.123|0.0263
92188754|NCT02123797|184275494|SUPERIORITY||Odds Ratio (OR)|2.566||||0.1503|TWO_SIDED|95.0|0.711|9.269||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without concordance to recommendations (numerator=87/14) to SC conference patients with and without concordance to recommendations (denominator=38/8) after adjustment for matched study design.|||9.269|0.711|0.1503
92188755|NCT02123797|184275507|SUPERIORITY|||||||0.0042|||||||Wilcoxon (Mann-Whitney)|||Time from Initial Detection of Lesion to Diagnostic Biopsy||||0.0042
92188756|NCT02123797|184275507|SUPERIORITY|||||||0.0805|||||||Wilcoxon (Mann-Whitney)|||Time from Initial Detection of Lesion to Non-invasive Staging Test||||0.0805
92188757|NCT02123797|184275507|SUPERIORITY|||||||0.0073|||||||Wilcoxon (Mann-Whitney)|||Time from Initial Detection of Lesion to Invasive Staging Test||||0.0073
92306707|NCT02792699|184514742|OTHER||LS Geometric Mean|166811.0|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92188758|NCT02123797|184275507|SUPERIORITY|||||||0.0579|||||||Wilcoxon (Mann-Whitney)|||Time from Initial Detection of Lesion to Definitive Treatment||||0.0579
92188759|NCT02123797|184275508|SUPERIORITY|||||||0.0146|||||||Kruskal-Wallis|||Time from Initial Detection of Lesion to Diagnostic Biopsy||||0.0146
92188760|NCT02123797|184275508|SUPERIORITY|||||||0.16|||||||Kruskal-Wallis|||Time from Initial Detection of Lesion to Non-invasive Staging Test||||0.16
92188761|NCT02123797|184275508|SUPERIORITY|||||||0.0014|||||||Kruskal-Wallis|||Time from Initial Detection of Lesion to Invasive Staging Test||||0.0014
92188762|NCT02123797|184275508|SUPERIORITY|||||||0.0037|||||||Kruskal-Wallis|||Time from Initial Detection of Lesion to Definitive Treatment||||0.0037
92306708|NCT02792699|184514742|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[US\]) for AUC0-12wk was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9603|||||TWO_SIDED|90.0|0.895|1.0303||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0303|0.8950|
92306709|NCT02792699|184514742|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[EU\]) for AUC0-12wk was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.8968|||||TWO_SIDED|90.0|0.8363|0.9616||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9616|0.8363|
92306710|NCT02792699|184514742|EQUIVALENCE|PK similarity between the test (rituximab \[US\]) and reference (rituximab \[EU\]) for AUC0-12wk was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9339|||||TWO_SIDED|90.0|0.8707|1.0016||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0016|0.8707|
92188763|NCT02123797|184275515|SUPERIORITY|||||||0.7506|||||||Log Rank|||||||0.7506
92188764|NCT02123797|184275515|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.54|TWO_SIDED|95.0|0.85|1.36|||Regression, Cox||Comparison is Multidisciplinary/Serial Care.|||1.36|0.85|0.54
92188765|NCT02123797|184275516|SUPERIORITY|||||||0.4847|||||||Log Rank|||||||0.4847
92188766|NCT02123797|184275516|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.51|TWO_SIDED|95.0|0.87|1.43|||Regression, Cox||Comparison is Multidisciplinary/Serial Care Patients Not Presented in Conference|||1.43|0.87|0.51
92306711|NCT02792699|184514743|OTHER||Geometric LS Mean|304.04|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306712|NCT02792699|184514743|OTHER||LS Geometric Mean|305.8|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306713|NCT02792699|184514743|OTHER||LS Geometric Mean|320.87|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
92306714|NCT02792699|184514743|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[US\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9942|||||TWO_SIDED|90.0|0.9461|1.0448||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0448|0.9461|
92306715|NCT02792699|184514743|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[EU\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9475|||||TWO_SIDED|90.0|0.9021|0.9953||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9953|0.9021|
92306716|NCT02792699|184514743|EQUIVALENCE|PK similarity between the test (rituximab \[US\]) and reference (rituximab \[EU\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9531|||||TWO_SIDED|90.0|0.907|1.0015||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0015|0.9070|
92306717|NCT02792699|184514752|EQUIVALENCE|Clinical equivalence was tested by comparing the 2-sided 90% CI of the change from baseline at week 24 of DAS28-CRP between ABP 798 and rituximab with an equivalence margin of (-0.6, 0.6).|LS Mean Difference|0.02|||||TWO_SIDED|90.0|-0.225|0.264||||||If PK similarity was established between rituximab (US) and rituximab (EU), the 2 rituximab arms were to be combined into a single reference group for the primary assessment of clinical equivalence of DAS28-CRP change from baseline at week 24 using a repeated measures analysis with DAS28-CRP change from baseline as the response and the stratification variables, visit, treatment, treatment-by-visit interaction and baseline DAS28-CRP as predictors, and unstructured covariance matrix in the model.||0.264|-0.225|
92188767|NCT02123797|184275516|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.51|TWO_SIDED|95.0|0.84|1.67|||Regression, Cox||Comparison is Serial Care Patients Presented in Conference/Serial Care Patients Not Presented in Conference|||1.67|0.84|0.51
92188768|NCT02123797|184275517|SUPERIORITY|||||||0.9874|||||||Log Rank|||||||0.9874
92188769|NCT02123797|184275517|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8|TWO_SIDED|95.0|0.82|1.29|||Regression, Cox||Comparison is Multidisciplinary/Serial Care|||1.29|0.82|0.80
92188770|NCT02123797|184275518|SUPERIORITY|||||||0.5377|||||||Log Rank|||||||0.5377
92188771|NCT02123797|184275518|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.73|TWO_SIDED|95.0|0.83|1.34|||Regression, Cox||Comparison is Multidisciplinary/Serial Care Patients Not Presented in Conference|||1.34|0.83|0.73
92188772|NCT02123797|184275518|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.73|TWO_SIDED|95.0|0.82|1.57|||Regression, Cox||Comparison is Serial Care Patients Presented in Conference/Serial Care Patients Not Presented in Conference|||1.57|0.82|0.73
92188773|NCT01375777|184275528|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.23|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-54.52|-39.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-39.93|-54.52|<0.001
92188774|NCT01375777|184275528|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.17|STANDARD_ERROR_OF_MEAN|3.66|<|0.001||95.0|-47.38|-32.95||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-32.95|-47.38|<0.001
92306718|NCT02792699|184514752|OTHER||LS Mean Difference|-0.07|||||TWO_SIDED|90.0|-0.353|0.213||||||||0.213|-0.353|
92306719|NCT02792699|184514752|OTHER||LS Mean Difference|0.11|||||TWO_SIDED|90.0|-0.171|0.392||||||||0.392|-0.171|
92306720|NCT02792699|184514753|OTHER||LS Mean Difference|0.064|||||TWO_SIDED|90.0|-0.203|0.33||||||Analysis of change from baseline at week 8, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.330|-0.203|
92306721|NCT02792699|184514753|OTHER||LS Mean Difference|-0.147|||||TWO_SIDED|90.0|-0.411|0.117||||||Analysis of change from baseline at week 8, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.117|-0.411|
92306722|NCT02792699|184514753|OTHER||LS Mean Difference|0.502|||||TWO_SIDED|90.0|0.233|0.772||||||Analysis of change from baseline at week 12, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.772|0.233|
92306723|NCT02792699|184514753|OTHER||LS Mean Difference|0.27|||||TWO_SIDED|90.0|0.0|0.539||||||Analysis of change from baseline at week 12, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.539|0.000|
92306724|NCT02792699|184514753|OTHER||LS Mean Difference|0.255|||||TWO_SIDED|90.0|-0.04|0.55||||||Analysis of change from baseline at week 40, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.550|-0.040|
92306725|NCT02792699|184514753|OTHER||LS Mean Difference|0.16|||||TWO_SIDED|90.0|-0.135|0.455||||||Analysis of change from baseline at week 40, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.455|-0.135|
92306726|NCT02792699|184514753|OTHER||LS Mean Difference|0.262|||||TWO_SIDED|90.0|-0.04|0.564||||||Analysis of change from baseline at week 48, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.564|-0.040|
92306727|NCT02792699|184514753|OTHER||LS Mean Difference|0.08|||||TWO_SIDED|90.0|-0.216|0.376||||||Analysis of change from baseline at week 48, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.376|-0.216|
92306728|NCT02792699|184514754|OTHER||Risk Ratio (RR)|0.9339|||||TWO_SIDED|90.0|0.7696|1.1332||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.1332|0.7696|
92306729|NCT02792699|184514754|OTHER||Risk Difference (RD)|-0.036|||||TWO_SIDED|90.0|-0.1495|0.0775||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0775|-0.1495|
92306730|NCT02792699|184514754|OTHER||Risk Ratio (RR)|1.0392|||||TWO_SIDED|90.0|0.8436|1.2801||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.2801|0.8436|
92306731|NCT02792699|184514754|OTHER||Risk Difference (RD)|0.0246|||||TWO_SIDED|90.0|-0.091|0.1402||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1402|-0.0910|
92306732|NCT02792699|184514754|OTHER||Risk Ratio (RR)|0.878|||||TWO_SIDED|90.0|0.7573|1.0179||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0179|0.7573|
92306733|NCT02792699|184514754|OTHER||Risk Difference (RD)|-0.0794|||||TWO_SIDED|90.0|-0.1834|0.0247||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0247|-0.1834|
92306734|NCT02792699|184514754|OTHER||Risk Ratio (RR)|1.0426|||||TWO_SIDED|90.0|0.877|1.2394||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.2394|0.8770|
92306735|NCT02792699|184514754|OTHER||Risk Difference (RD)|0.0348|||||TWO_SIDED|90.0|-0.0758|0.1454||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1454|-0.0758|
92306736|NCT02792699|184514754|OTHER||Risk Ratio (RR)|1.0102|||||TWO_SIDED|90.0|0.8743|1.1671||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.1671|0.8743|
92306737|NCT02792699|184514754|OTHER||Risk Difference (RD)|0.0199|||||TWO_SIDED|90.0|-0.0835|0.1234||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1234|-0.0835|
92306738|NCT02792699|184514754|OTHER||Risk Ratio (RR)|1.0793|||||TWO_SIDED|90.0|0.9244|1.2601||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.2601|0.9244|
92306739|NCT02792699|184514754|OTHER||Risk Difference (RD)|0.0561|||||TWO_SIDED|90.0|-0.0493|0.1615||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1615|-0.0493|
92306740|NCT02792699|184514754|OTHER||Risk Ratio (RR)|0.8848|||||TWO_SIDED|90.0|0.7759|1.0091||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0091|0.7759|
92306741|NCT02792699|184514754|OTHER||Risk Difference (RD)|-0.0776|||||TWO_SIDED|90.0|-0.1789|0.0237||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0237|-0.1789|
92306742|NCT02792699|184514754|OTHER||Risk Ratio (RR)|0.9982|||||TWO_SIDED|90.0|0.8585|1.1605||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.1605|0.8585|
92306743|NCT02792699|184514754|OTHER||Risk Difference (RD)|0.0008|||||TWO_SIDED|90.0|-0.1038|0.1054||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1054|-0.1038|
92306744|NCT02792699|184514754|OTHER||Risk Ratio (RR)|0.7862|||||TWO_SIDED|90.0|0.6722|0.9196||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.9196|0.6722|
92306745|NCT02792699|184514754|OTHER||Risk Difference (RD)|-0.2004|||||TWO_SIDED|90.0|-0.3066|-0.0941||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||-0.0941|-0.3066|
92306746|NCT02792699|184514754|OTHER||Risk Ratio (RR)|0.8804|||||TWO_SIDED|90.0|0.7587|1.0215||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0215|0.7587|
92306747|NCT02792699|184514754|OTHER||Risk Difference (RD)|-0.1037|||||TWO_SIDED|90.0|-0.2066|-0.0007||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||-0.0007|-0.2066|
92306748|NCT02792699|184514755|OTHER||Risk Ratio (RR)|0.9256|||||TWO_SIDED|90.0|0.64|1.3388||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.3388|0.6400|
92306749|NCT02792699|184514755|OTHER||Risk Difference (RD)|-0.0181|||||TWO_SIDED|90.0|-0.1209|0.0847||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0847|-0.1209|
92306750|NCT02792699|184514755|OTHER||Risk Ratio (RR)|1.0868|||||TWO_SIDED|90.0|0.7328|1.6119||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.6119|0.7328|
92306751|NCT02792699|184514755|OTHER||Risk Difference (RD)|0.0201|||||TWO_SIDED|90.0|-0.0803|0.1205||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1205|-0.0803|
92306752|NCT02792699|184514755|OTHER||Risk Ratio (RR)|0.7095|||||TWO_SIDED|90.0|0.5387|0.9346||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.9346|0.5387|
92306753|NCT02792699|184514755|OTHER||Risk Difference (RD)|-0.1109|||||TWO_SIDED|90.0|-0.2231|0.0013||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0013|-0.2231|
92306754|NCT02792699|184514755|OTHER||Risk Ratio (RR)|1.0882|||||TWO_SIDED|90.0|0.7829|1.5127||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.5127|0.7829|
92188775|NCT01375777|184275528|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.27|STANDARD_ERROR_OF_MEAN|3.68|<|0.001|TWO_SIDED|95.0|-44.53|-30.02||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-30.02|-44.53|<0.001
92306755|NCT02792699|184514755|OTHER||Risk Difference (RD)|0.0441|||||TWO_SIDED|90.0|-0.0626|0.1508||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1508|-0.0626|
92306756|NCT02792699|184514755|OTHER||Risk Ratio (RR)|0.9612|||||TWO_SIDED|90.0|0.7273|1.2705||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.2705|0.7273|
92306757|NCT02792699|184514755|OTHER||Risk Difference (RD)|0.002|||||TWO_SIDED|90.0|-0.1081|0.1122||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1122|-0.1081|
92306758|NCT02792699|184514755|OTHER||Risk Ratio (RR)|1.0029|||||TWO_SIDED|90.0|0.756|1.3305||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.3305|0.7560|
92306759|NCT02792699|184514755|OTHER||Risk Difference (RD)|0.0039|||||TWO_SIDED|90.0|-0.1056|0.1135||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1135|-0.1056|
92306760|NCT02792699|184514755|OTHER||Risk Ratio (RR)|0.8373|||||TWO_SIDED|90.0|0.6797|1.0316||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0316|0.6797|
92306761|NCT02792699|184514755|OTHER||Risk Difference (RD)|-0.0863|||||TWO_SIDED|90.0|-0.2029|0.0302||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0302|-0.2029|
92306762|NCT02792699|184514755|OTHER||Risk Ratio (RR)|1.1191|||||TWO_SIDED|90.0|0.878|1.4264||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.4264|0.8780|
92306763|NCT02792699|184514755|OTHER||Risk Difference (RD)|0.0288|||||TWO_SIDED|90.0|-0.0827|0.1402||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1402|-0.0827|
92306764|NCT02792699|184514755|OTHER||Risk Ratio (RR)|0.8376|||||TWO_SIDED|90.0|0.6807|1.0307||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0307|0.6807|
92306765|NCT02792699|184514755|OTHER||Risk Difference (RD)|-0.0781|||||TWO_SIDED|90.0|-0.2014|0.0452||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0452|-0.2014|
92306766|NCT02792699|184514755|OTHER||Risk Ratio (RR)|1.0548|||||TWO_SIDED|90.0|0.8351|1.3321||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.3321|0.8351|
92306767|NCT02792699|184514755|OTHER||Risk Difference (RD)|0.0141|||||TWO_SIDED|90.0|-0.1021|0.1303||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1303|-0.1021|
92306768|NCT02792699|184514756|OTHER||Risk Ratio (RR)|0.5926|||||TWO_SIDED|90.0|0.2818|1.2462||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.2462|0.2818|
92306769|NCT02792699|184514756|OTHER||Risk Difference (RD)|-0.0574|||||TWO_SIDED|90.0|-0.1285|0.0136||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0136|-0.1285|
92306770|NCT02792699|184514756|OTHER||Risk Ratio (RR)|0.7476|||||TWO_SIDED|90.0|0.3383|1.6519||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.6519|0.3383|
92188776|NCT01375777|184275528|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.53|STANDARD_ERROR_OF_MEAN|3.62|<|0.001|TWO_SIDED|95.0|-59.67|-45.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-45.38|-59.67|<0.001
92188777|NCT01375777|184275528|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.74|STANDARD_ERROR_OF_MEAN|3.62|<|0.001|TWO_SIDED|95.0|-54.89|-40.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-40.60|-54.89|<0.001
92188778|NCT01375777|184275528|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.57|STANDARD_ERROR_OF_MEAN|3.62|<|0.001|TWO_SIDED|95.0|-50.71|-36.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-36.42|-50.71|<0.001
92306771|NCT02792699|184514756|OTHER||Risk Difference (RD)|-0.0327|||||TWO_SIDED|90.0|-0.0962|0.0308||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0308|-0.0962|
92188779|NCT01375777|184275529|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-65.9|STANDARD_ERROR_OF_MEAN|5.2|<|0.001|TWO_SIDED|95.0|-76.3|-55.6||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-55.6|-76.3|<0.001
92306772|NCT02792699|184514756|OTHER||Risk Ratio (RR)|0.6346|||||TWO_SIDED|90.0|0.3704|1.0872||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0872|0.3704|
92306773|NCT02792699|184514756|OTHER||Risk Difference (RD)|-0.0569|||||TWO_SIDED|90.0|-0.1448|0.031||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0310|-0.1448|
92306774|NCT02792699|184514756|OTHER||Risk Ratio (RR)|0.7857|||||TWO_SIDED|90.0|0.445|1.3874||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.3874|0.4450|
92306775|NCT02792699|184514756|OTHER||Risk Difference (RD)|-0.0417|||||TWO_SIDED|90.0|-1237.0|0.0403||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0403|-1237|
92306776|NCT02792699|184514756|OTHER||Risk Ratio (RR)|0.9254|||||TWO_SIDED|90.0|0.5772|1.4838||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.4838|0.5772|
92306777|NCT02792699|184514756|OTHER||Risk Difference (RD)|0.0156|||||TWO_SIDED|90.0|-0.078|0.1092||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1092|-0.0780|
92306778|NCT02792699|184514756|OTHER||Risk Ratio (RR)|1.112|||||TWO_SIDED|90.0|0.6722|1.8398||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.8398|0.6722|
92306779|NCT02792699|184514756|OTHER||Risk Difference (RD)|0.0244|||||TWO_SIDED|90.0|-0.063|0.1119||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1119|-0.0630|
92306780|NCT02792699|184514756|OTHER||Risk Ratio (RR)|0.9798|||||TWO_SIDED|90.0|0.6675|1.4384||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.4384|0.6675|
92306781|NCT02792699|184514756|OTHER||Risk Difference (RD)|0.0375|||||TWO_SIDED|90.0|-0.0707|0.1456||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1456|-0.0707|
92306782|NCT02792699|184514756|OTHER||Risk Ratio (RR)|1.1831|||||TWO_SIDED|90.0|0.7833|1.787||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.7870|0.7833|
92306783|NCT02792699|184514756|OTHER||Risk Difference (RD)|0.0752|||||TWO_SIDED|90.0|-0.0297|0.1802||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1802|-0.0297|
92306784|NCT02792699|184514756|OTHER||Risk Ratio (RR)|0.7027|||||TWO_SIDED|90.0|0.493|1.0017||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0017|0.4930|
92306785|NCT02792699|184514756|OTHER||Risk Difference (RD)|-0.0908|||||TWO_SIDED|90.0|-0.211|0.0294||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0294|-0.2110|
92188780|NCT01375777|184275529|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-62.7|STANDARD_ERROR_OF_MEAN|5.3|<|0.001||95.0|-73.2|-52.2||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-52.2|-73.2|<0.001
92188781|NCT01375777|184275529|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.3|STANDARD_ERROR_OF_MEAN|5.3|<|0.001|TWO_SIDED|95.0|-62.7|-41.9||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-41.9|-62.7|<0.001
92306786|NCT02792699|184514756|OTHER||Risk Ratio (RR)|1.1449|||||TWO_SIDED|90.0|0.7601|1.7246||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.7246|0.7601|
92188782|NCT01375777|184275529|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-72.3|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-82.2|-62.4||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-62.4|-82.2|<0.001
92188783|NCT01375777|184275529|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-63.9|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-73.9|-54.0||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-54.0|-73.9|<0.001
92188784|NCT01375777|184275529|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.8|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-70.7|-50.9||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-50.9|-70.7|<0.001
92306787|NCT02792699|184514756|OTHER||Risk Difference (RD)|0.0277|||||TWO_SIDED|90.0|-0.0804|0.1357||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1357|-0.0804|
92306788|NCT02792699|184514757|OTHER||LS Mean Difference|-1.999|||||TWO_SIDED|90.0|-7.673|3.675||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||3.675|-7.673|
92188785|NCT01375777|184275530|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.15|STANDARD_ERROR_OF_MEAN|3.33|<|0.001|TWO_SIDED|95.0|-51.72|-38.58||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-38.58|-51.72|<0.001
92306789|NCT02792699|184514757|OTHER||LS Mean Difference|0.544|||||TWO_SIDED|90.0|-5.185|6.274||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 8, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||6.274|-5.185|
92306790|NCT02792699|184514757|OTHER||LS Mean Difference|-8.224|||||TWO_SIDED|90.0|-14.102|-2.346||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||-2.346|-14.102|
92306791|NCT02792699|184514757|OTHER||LS Mean Difference|-2.06|||||TWO_SIDED|90.0|-8.052|3.933||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 12, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||3.933|-8.052|
92306792|NCT02792699|184514757|OTHER||LS Mean Difference|-1.32|||||TWO_SIDED|90.0|-7.62|4.979||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||4.979|-7.620|
92306793|NCT02792699|184514757|OTHER||LS Mean Difference|0.73|||||TWO_SIDED|90.0|-5.691|7.15||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 24, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||7.150|-5.691|
92306794|NCT02792699|184514757|OTHER||LS Mean Difference|-2.207|||||TWO_SIDED|90.0|-8.562|1.417||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||1.417|-8.562|
92306795|NCT02792699|184514757|OTHER||LS Mean Difference|-0.036|||||TWO_SIDED|90.0|-6.497|6.424||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 40, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||6.424|-6.497|
92306796|NCT02792699|184514757|OTHER||LS Mean Difference|-6.629|||||TWO_SIDED|90.0|-13.455|0.197||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.197|-13.455|
92306797|NCT02792699|184514757|OTHER||LS Mean Difference|-3.096|||||TWO_SIDED|90.0|-9.883|3.691||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 48, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||3.691|-9.883|
92306798|NCT02792699|184514758|OTHER||Risk Difference (RD)|-0.0245|||||TWO_SIDED|90.0|-0.1083|0.0593|||||Based on a generalized linear model adjusted for geographic region, seropositivity and prior biologic use as covariates in the model.|||0.0593|-0.1083|
92306799|NCT02792699|184514758|OTHER||Risk Difference (RD)|0.0187|||||TWO_SIDED|90.0|-0.061|0.0984|||||Based on a generalized linear model adjusted for geographic region, seropositivity and prior biologic use as covariates in the model.|||0.0984|-0.0610|
92188786|NCT01375777|184275530|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.79|STANDARD_ERROR_OF_MEAN|3.29|<|0.001||95.0|-43.29|-30.29||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-30.29|-43.29|<0.001
92188787|NCT01375777|184275530|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.06|STANDARD_ERROR_OF_MEAN|3.31|<|0.001|TWO_SIDED|95.0|-41.59|-28.52||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-28.52|-41.59|<0.001
92188788|NCT01375777|184275530|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.11|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-53.33|-40.89||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-40.89|-53.33|<0.001
92188789|NCT01375777|184275530|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.89|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-48.11|-35.67||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-35.67|-48.11|<0.001
92188790|NCT01375777|184275530|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.7|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-43.92|-31.47||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-31.47|-43.92|<0.001
92188791|NCT01375777|184275531|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.19|STANDARD_ERROR_OF_MEAN|3.17|<|0.001|TWO_SIDED|95.0|-50.45|-37.94||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-37.94|-50.45|<0.001
92306800|NCT02737748|184514764|OTHER|||||||0.2217|||||||Cochran-Mantel-Haenszel|||||||0.2217
92306801|NCT02737748|184514765|OTHER|||||||0.0324|||||||Cochran-Mantel-Haenszel|||||||0.0324
92306802|NCT02737748|184514766|OTHER|||||||0.3975|||||||Log Rank|||||||0.3975
92306803|NCT06354998|184514816|OTHER||Geometric Mean Ratio (GMR)|0.908|||||TWO_SIDED|95.0|0.662|1.245|||||GMR was a secondary endpoint.|GMR (mRNA-1273.815 versus licensed Spikevax) at Day 15 and its 95% CI was calculated based on the t-distribution for the mean difference of log-transformed antibody values and then back transformed to the original scale for presentation.||1.245|0.662|
92306804|NCT02500641|184514887|SUPERIORITY|||||||0.5298|||||||ANCOVA|||||||0.5298
92306805|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|difference in log-transformed GM|-0.01|||||TWO_SIDED|95.0|-0.11|0.09|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||0.09|-0.11|
92306806|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.27|||||TWO_SIDED|95.0|-0.38|-0.17|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||-0.17|-0.38|
92306807|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.27|||||TWO_SIDED|95.0|-0.37|-0.16|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||-0.16|-0.37|
92188792|NCT01375777|184275531|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.87|STANDARD_ERROR_OF_MEAN|3.13|<|0.001||95.0|-42.06|-29.69||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-29.69|-42.06|<0.001
92306808|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.3|||||TWO_SIDED|95.0|0.13|0.46|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||0.46|0.13|
92306809|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.13|||||TWO_SIDED|95.0|-0.04|0.29|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||0.29|-0.04|
92306810|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.17|||||TWO_SIDED|95.0|-0.33|-0.01|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||-0.01|-0.33|
92306811|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.16|0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.04|-0.16|
92306812|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.16|0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.04|-0.16|
92306813|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.0|||||TWO_SIDED|95.0|-0.1|0.1|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.10|-0.10|
92306814|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.15|0.09|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.09|-0.15|
92306815|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.04|||||TWO_SIDED|95.0|-0.16|0.08|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.08|-0.16|
92306816|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.01|||||TWO_SIDED|95.0|-0.13|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.11|-0.13|
92188793|NCT01375777|184275531|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.33|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-38.55|-26.11||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-26.11|-38.55|<0.001
92306817|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.13|0.07|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||0.07|-0.13|
92188794|NCT01375777|184275531|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.48|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|95.0|-48.63|-36.32||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-36.32|-48.63|<0.001
92188795|NCT01375777|184275531|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.92|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|95.0|-44.07|-31.76||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-31.76|-44.07|<0.001
92188796|NCT01375777|184275531|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.22|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|95.0|-39.38|-27.07||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-27.07|-39.38|<0.001
92306818|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.13|||||TWO_SIDED|95.0|-0.23|-0.03|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||-0.03|-0.23|
92306819|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.1|||||TWO_SIDED|95.0|-0.2|0.0|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||-0.00|-0.20|
92188797|NCT01375777|184275532|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.49|STANDARD_ERROR_OF_MEAN|3.01|<|0.001|TWO_SIDED|95.0|-43.43|-31.54||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-31.54|-43.43|<0.001
92306820|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.11|||||TWO_SIDED|95.0|-0.22|-0.01|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||-0.01|-0.22|
92306821|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.34|||||TWO_SIDED|95.0|-0.44|-0.23|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||-0.23|-0.44|
92306822|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.22|||||TWO_SIDED|95.0|-0.33|-0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||-0.11|-0.33|
92306823|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.16|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.11|-0.16|
92306824|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.18|||||TWO_SIDED|95.0|0.04|0.31|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.31|0.04|
92306825|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.2|||||TWO_SIDED|95.0|0.07|0.34|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.34|0.07|
92188798|NCT01375777|184275532|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.92|STANDARD_ERROR_OF_MEAN|2.98|<|0.001||95.0|-37.79|-26.04||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-26.04|-37.79|<0.001
92188799|NCT01375777|184275532|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.86|STANDARD_ERROR_OF_MEAN|2.99|<|0.001|TWO_SIDED|95.0|-34.77|-22.95||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-22.95|-34.77|<0.001
92188800|NCT01375777|184275532|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.58|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-42.29|-30.88||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-30.88|-42.29|<0.001
92306826|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.11|||||TWO_SIDED|95.0|-0.23|0.01|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||0.01|-0.23|
92306827|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.16|||||TWO_SIDED|95.0|-0.28|-0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||-0.04|-0.28|
92306828|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.05|||||TWO_SIDED|95.0|-0.17|0.06|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||0.06|-0.17|
92188801|NCT01375777|184275532|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.21|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-36.92|-25.51||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-25.51|-36.92|<0.001
92188802|NCT01375777|184275532|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.69|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-34.39|-22.98||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-22.98|-34.39|<0.001
92188803|NCT01375777|184275533|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.16|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-56.75|-43.58||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-43.58|-56.75|<0.001
92188804|NCT01375777|184275533|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.33|STANDARD_ERROR_OF_MEAN|3.3|<|0.001||95.0|-46.84|-33.82||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-33.82|-46.84|<0.001
92306829|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.09|||||TWO_SIDED|95.0|-0.19|0.02|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||0.02|-0.19|
92306830|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.18|||||TWO_SIDED|95.0|-0.28|-0.07|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||-0.07|-0.28|
92306831|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.09|||||TWO_SIDED|95.0|-0.19|0.02|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||0.02|-0.19|
92306832|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.25|||||TWO_SIDED|95.0|0.13|0.37|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||0.37|0.13|
92306833|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.0|||||TWO_SIDED|95.0|-0.12|0.12|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||0.12|-0.12|
92306834|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.25|||||TWO_SIDED|95.0|-0.37|-0.13|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||-0.13|-0.37|
92306835|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.14|||||TWO_SIDED|95.0|0.02|0.25|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.25|0.02|
92306836|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.12|||||TWO_SIDED|95.0|0.01|0.24|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.24|0.01|
92306837|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.01|||||TWO_SIDED|95.0|-0.13|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.11|-0.13|
92306838|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.01|||||TWO_SIDED|95.0|-0.09|0.1|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.10|-0.09|
92306839|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.05|||||TWO_SIDED|95.0|-0.14|0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.04|-0.14|
92306840|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.15|0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.04|-0.15|
92188805|NCT01375777|184275533|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.83|STANDARD_ERROR_OF_MEAN|3.32|<|0.001|TWO_SIDED|95.0|-41.38|-28.28||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-28.28|-41.38|<0.001
92306841|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.08|||||TWO_SIDED|95.0|-0.19|0.03|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.03|-0.19|
92306842|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.02|||||TWO_SIDED|95.0|-0.12|0.09|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.09|-0.12|
92306843|NCT00444457|184514943|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.06|||||TWO_SIDED|95.0|-0.05|0.17|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.17|-0.05|
92306844|NCT00444457|184514944|NON_INFERIORITY_OR_EQUIVALENCE|For each of the 5 concomitant antigens (tetanus toxoid, poliovirus Type 1, 2, and 3, and hepatitis b antibodies), non-inferiority was shown if the lower limit of the 2-sided 95% CI, computed using the Chan and Zhang procedure for the difference in proportions, is greater than -10%.|Difference|-0.1|||||TWO_SIDED|95.0|-3.3|3.0|||||Exact 2-sided CI for difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.|Tetanus toxoid: Difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.||3.0|-3.3|
92306845|NCT00444457|184514945|NON_INFERIORITY_OR_EQUIVALENCE|For each of the 5 concomitant antigens (tetanus toxoid, poliovirus Type 1, 2, and 3, and hepatitis b antibodies), non-inferiority was shown if the lower limit of the 2-sided 95% CI, computed using the Chan and Zhang procedure for the difference in proportions, is greater than -10%.|Difference|0.0|||||TWO_SIDED|95.0|-2.1|2.0|||||Exact 2-sided CI for difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.|Poliovirus type 1: Difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.||2.0|-2.1|
92306846|NCT00444457|184514945|NON_INFERIORITY_OR_EQUIVALENCE|For each of the 5 concomitant antigens (tetanus toxoid, poliovirus Type 1, 2, and 3, and hepatitis b antibodies), non-inferiority was shown if the lower limit of the 2-sided 95% CI, computed using the Chan and Zhang procedure for the difference in proportions, is greater than -10%.|Difference|-0.6|||||TWO_SIDED|95.0|-3.4|2.0|||||Exact 2-sided CI for difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.|Poliovirus type 2: Difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.||2.0|-3.4|
92306847|NCT00444457|184514945|NON_INFERIORITY_OR_EQUIVALENCE|For each of the 5 concomitant antigens (tetanus toxoid, poliovirus Type 1, 2, and 3, and hepatitis b antibodies), non-inferiority was shown if the lower limit of the 2-sided 95% CI, computed using the Chan and Zhang procedure for the difference in proportions, is greater than -10%.|Difference|0.5|||||TWO_SIDED|95.0|-1.5|3.0|||||Exact 2-sided CI for difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.|Poliovirus type 3: Difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.||3.0|-1.5|
92306848|NCT00444457|184514946|NON_INFERIORITY_OR_EQUIVALENCE|For each of the 5 concomitant antigens (tetanus toxoid, poliovirus Type 1, 2, and 3, and hepatitis b antibodies), non-inferiority was shown if the lower limit of the 2-sided 95% CI, computed using the Chan and Zhang procedure for the difference in proportions, is greater than -10%.|Difference|0.0|||||TWO_SIDED|95.0|-2.4|2.2|||||Exact 2-sided CI for difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.|Hepatitis B: Difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.||2.2|-2.4|
92306849|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|2.0|||||TWO_SIDED|95.0|-0.51|4.75||||||Common serotypes - serotype 4||4.75|-0.51|
92306850|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.9|||||TWO_SIDED|95.0|-3.09|1.1||||||Common serotypes - serotype 4||1.10|-3.09|
92306851|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-2.9|||||TWO_SIDED|95.0|-5.58|-0.58||||||Common serotypes - serotype 4||-0.58|-5.58|
92306852|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|5.3|||||TWO_SIDED|95.0|1.55|9.19||||||Common serotypes - serotype 6B||9.19|1.55|
92306853|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.4|||||TWO_SIDED|95.0|-2.77|3.66||||||Common serotypes - serotype 6B||3.66|-2.77|
92306854|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-4.9|||||TWO_SIDED|95.0|-8.82|-1.1||||||Common serotypes - serotype 6B||-1.10|-8.82|
92306855|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.2|||||TWO_SIDED|95.0|-3.13|2.83||||||Common serotypes - serotype 9V||2.83|-3.13|
92306856|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.1|||||TWO_SIDED|95.0|-3.97|1.73||||||Common serotypes - serotype 9V||1.73|-3.97|
92306857|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.9|||||TWO_SIDED|95.0|-3.81|1.88||||||Common serotypes - serotype 9V||1.88|-3.81|
92306858|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.3|||||TWO_SIDED|95.0|-1.27|1.95||||||Common serotypes - serotype 14||1.95|-1.27|
92306859|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|1.1|||||TWO_SIDED|95.0|-0.6|3.01||||||Common serotypes - serotype 14||3.01|-0.60|
92188806|NCT01375777|184275533|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.47|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-52.12|-38.82||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-38.82|-52.12|<0.001
92188807|NCT01375777|184275533|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.57|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-47.22|-33.92||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-33.92|-47.22|<0.001
92188808|NCT01375777|184275533|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.25|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-42.9|-29.6||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-29.60|-42.90|<0.001
92306860|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.8|||||TWO_SIDED|95.0|-1.04|2.76||||||Common serotypes - serotype 14||2.76|-1.04|
92306861|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|2.1|||||TWO_SIDED|95.0|-0.38|4.74||||||Common serotypes - serotype 18C||4.74|-0.38|
92306862|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.2|||||TWO_SIDED|95.0|-2.33|1.99||||||Common serotypes - serotype 18C||1.99|-2.33|
92306863|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-2.2|||||TWO_SIDED|95.0|-4.89|0.23||||||Common serotypes - serotype 18C||0.23|-4.89|
92306864|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.3|||||TWO_SIDED|95.0|-1.93|2.6||||||Common serotypes - serotype 19F||2.60|-1.93|
92306865|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.5|||||TWO_SIDED|95.0|-3.46|0.28||||||Common serotypes - serotype 19F||0.28|-3.46|
92306866|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.8|||||TWO_SIDED|95.0|-3.87|0.02||||||Common serotypes - serotype 19F||0.02|-3.87|
92306867|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|3.2|||||TWO_SIDED|95.0|-1.03|7.46||||||Common serotypes - serotype 23F||7.46|-1.03|
92306868|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|4.0|||||TWO_SIDED|95.0|-0.27|8.39||||||Common serotypes - serotype 23F||8.39|-0.27|
92306869|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.8|||||TWO_SIDED|95.0|-3.75|5.46||||||Common serotypes - serotype 23F||5.46|-3.75|
92306870|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.8|||||TWO_SIDED|95.0|-1.48|3.18||||||Additional serotypes - serotype 1||3.18|-1.48|
92306871|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.7|||||TWO_SIDED|95.0|-2.78|1.34||||||Additional serotypes - serotype 1||1.34|-2.78|
92306872|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.5|||||TWO_SIDED|95.0|-3.77|0.67||||||Additional serotypes - serotype 1||0.67|-3.77|
92306873|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-3.9|||||TWO_SIDED|95.0|-10.27|2.45||||||Additional serotypes - serotype 3||2.45|-10.27|
92306874|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-10.7|||||TWO_SIDED|95.0|-16.8|-4.57||||||Additional serotypes - serotype 3||-4.57|-16.80|
92306875|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-6.8|||||TWO_SIDED|95.0|-12.76|-0.74||||||Additional serotypes - serotype 3||-0.74|-12.76|
92306876|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|3.9|||||TWO_SIDED|95.0|0.15|7.69||||||Additional serotypes - serotype 5||7.69|0.15|
92306877|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.2|||||TWO_SIDED|95.0|-3.52|3.09||||||Additional serotypes - serotype 5||3.09|-3.52|
92306878|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-4.1|||||TWO_SIDED|95.0|-7.92|-0.36||||||Additional serotypes - serotype 5||-0.36|-7.92|
92188809|NCT00376935|184275544|SUPERIORITY_OR_OTHER_LEGACY||Shift parameter|-9.0||||0.1996|ONE_SIDED|98.4||14.0||P-value reported here was not adjusted for multiple comparisons. A 98.4% confidence upper bound for the shift parameter for each comparison adjusted the multiple comparison issues and restricted the familywise Type I error rate at 0.05.|Wilcoxon (Mann-Whitney)|One-sided Wilcoxon rank sum test was used to test the null hypothesis.A 98.4% confidence upper bound for the primary shift parameter was calculated.|The shift parameter (say, X), was calculated as the difference between the distribution of the primary endpoint in the placebo arm and that of in the palifermin arm. X\<0 indicates that palifermen is beneficial.|The null hypothesis is that the distribution of the change in absolute CD4+ lymphocyte counts from baseline to week 12 is the same in the placebo arm and palifermin (20 mcg/kg) arm. The 1-sided alternative hypothesis is that the endpoint distribution is shifted higher in the palifermin (20 mcg/kg) arm.||14||0.1996
92188810|NCT00376935|184275544|SUPERIORITY_OR_OTHER_LEGACY||Shift parameter|-4.0||||0.3135|ONE_SIDED|98.4||17.0||P-value reported here was not adjusted for multiple comparisons. A 98.4% confidence upper bound for the shift parameter for each comparison adjusted the multiple comparison issues and restricted the familywise Type I error rate at 0.05.|Wilcoxon (Mann-Whitney)|One-sided Wilcoxon rank sum test was used to test the null hypothesis.A 98.4% confidence upper bound for the primary shift parameter was calculated.|The shift parameter (say, X), was calculated as the difference between the distribution of the primary endpoint in the placebo arm and that of in the palifermin arm. X\<0 indicates that palifermen is beneficial.|The null hypothesis is that the distribution of the change in absolute CD4+ lymphocyte counts from baseline to week 12 is the same in the placebo arm and palifermin (40 mcg/kg) arm. The 1-sided alternative hypothesis is that the endpoint distribution is shifted higher in the palifermin (40 mcg/kg) arm.||17||0.3135
92188811|NCT00376935|184275544|SUPERIORITY_OR_OTHER_LEGACY||Shift parameter|-4.0||||0.3662|ONE_SIDED|98.4||22.0||P-value reported here was not adjusted for multiple comparisons. A 98.4% confidence upper bound for the shift parameter for each comparison adjusted the multiple comparison issues and restricted the familywise Type I error rate at 0.05.|Wilcoxon (Mann-Whitney)|One-sided Wilcoxon rank sum test was used to test the null hypothesis.A 98.4% confidence upper bound for the primary shift parameter was calculated.|The shift parameter (say, X), was calculated as the difference between the distribution of the primary endpoint in the placebo arm and that of in the palifermin arm. X\<0 indicates that palifermen is beneficial.|The null hypothesis is that the distribution of the change in absolute CD4+ lymphocyte counts from baseline to week 12 is the same in the placebo arm and palifermin (60 mcg/kg) arm. The 1-sided alternative hypothesis is that the endpoint distribution is shifted higher in the palifermin (60 mcg/kg) arm.||22||0.3662
92188812|NCT03602053|184275554|NON_INFERIORITY|If the lower limit of the 95% CI of the ratio of GMCs between the ROTAVAC 5D® and ROTAVAC® groups was larger than 1/2 (i.e. \> 0.5), ROTAVAC 5D® would be considered non-inferior to ROTAVAC®.|GMC ratio|1.294|||||TWO_SIDED|95.0|0.862|1.924|||t-test, 2 sided|||||1.924|0.862|
92188813|NCT01234675|184275590|SUPERIORITY||Paired difference|4.6||||0.424|TWO_SIDED|95.0|-7.3|16.6|||Paired T test|||||16.6|-7.3|0.424
92188814|NCT01234675|184275591|SUPERIORITY||Paired difference|-6.1||||0.049|TWO_SIDED|95.0|-12.2|-0.04|||Paired T test|||||-0.04|-12.2|0.049
92188815|NCT01234675|184275592|SUPERIORITY||Paired difference|22.6||||0.056|TWO_SIDED|95.0|-0.6|45.8|||Paired T test|||||45.8|-0.6|0.056
92188816|NCT01234675|184275593|SUPERIORITY||Paired difference|-6.1||||0.683|TWO_SIDED|95.0|-12.5|18.5|||Paired T test|||||18.5|-12.5|0.683
92188817|NCT01234675|184275594|SUPERIORITY||Paired difference|-1.502||||0.155|TWO_SIDED|95.0|-59.1|10.4|||Paired T test|||||10.4|-59.1|0.155
92188818|NCT01234675|184275595|SUPERIORITY||Paired difference|-1.0||||0.805|TWO_SIDED|95.0|-9.8|7.8|||Paired T test|||||7.8|-9.8|0.805
92188819|NCT01234675|184275596|SUPERIORITY||Paired difference|-1.0||||0.844|TWO_SIDED|95.0|-11.6|9.6|||Paired T test|||||9.6|-11.6|0.844
92188820|NCT01234675|184275597|SUPERIORITY||Paired difference|2.9||||0.509|TWO_SIDED|95.0|-6.4|12.2|||Paired T test|||||12.2|-6.4|0.509
92188821|NCT01234675|184275598|SUPERIORITY||Paired difference|0.32||||0.3|TWO_SIDED|95.0|-0.3|0.6|||Paired T test|||||0.6|-0.3|0.3
92188822|NCT01234675|184275599|SUPERIORITY||Paired difference|-1.03||||0.685|TWO_SIDED|95.0|-8.2|5.6|||Paired T test|||||5.6|-8.2|0.685
92188823|NCT01234675|184275600|SUPERIORITY||Paired difference|-5.3||||0.349|TWO_SIDED|95.0|-17.0|6.4|||Paired T test|||||6.4|-17.0|0.349
92188824|NCT01234675|184275601|SUPERIORITY||Paired difference|-0.6||||0.305|TWO_SIDED|95.0|-1.8|5.6|||Paired T test|||||5.6|-1.8|0.305
92188825|NCT01234675|184275602|SUPERIORITY||Paired difference|-0.5||||0.425|TWO_SIDED|95.0|-1.8|0.8|||Paired T test|||||0.8|-1.8|0.425
92188826|NCT05065918|184275626|SUPERIORITY||Slope|-0.536||||0.448|TWO_SIDED|95.0|-1.929|0.857|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||0.857|-1.929|0.448
92188827|NCT05065918|184275627|SUPERIORITY||Slope|0.99||||0.969|TWO_SIDED|95.0|-1.152|1.108|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||1.108|-1.152|0.969
92188828|NCT05065918|184275628|SUPERIORITY||Slope|-0.5||||0.231|TWO_SIDED|95.0|-1.322|0.322|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||.322|-1.322|0.231
92188829|NCT05065918|184275629|SUPERIORITY||Slope|-0.319||||0.398|TWO_SIDED|95.0|-1.064|0.425|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||.425|-1.064|0.398
92188830|NCT05065918|184275630|SUPERIORITY||Slope|0.284||||0.382|TWO_SIDED|95.0|-0.356|0.924|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||.924|-.356|0.382
92188831|NCT05065918|184275631|SUPERIORITY||Slope|0.382||||0.266|TWO_SIDED|95.0|-0.284|1.025|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||1.025|-.284|0.266
92188832|NCT05065918|184275632|SUPERIORITY||Slope|0.53||||0.019|TWO_SIDED|95.0|0.089|0.97|||Regression, Linear|||||.970|0.089|0.019
92188833|NCT05065918|184275633|SUPERIORITY||Slope|0.277||||0.284|TWO_SIDED|95.0|-0.232|0.787|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||0.787|-.232|0.284
92188834|NCT05065918|184275634|SUPERIORITY||Slope|0.709||||0.076|TWO_SIDED|95.0|-0.076|1.494|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||1.494|-.076|0.076
92188835|NCT05065918|184275635|SUPERIORITY||Slope|0.625||||0.136|TWO_SIDED|95.0|-0.199|1.449|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||1.449|-.199|0.136
92188836|NCT01636258|184275679|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.3|STANDARD_DEVIATION|2.1||0.72|TWO_SIDED|95.0|-1.4|2.0||P-value less than 0.05 considered statistically significant a priori. No multiple comparison adjustment made.|t-test, 2 sided|||No sample size calculation performed since it was a pilot study. Null hypothesis was no difference between groups.||2.0|-1.4|0.72
92188837|NCT01636258|184275680|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||No sample study calculation performed since it was a pilot study. Null hypothesis was no difference between groups.||||0.31
92188838|NCT01636258|184275681|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
92188839|NCT01636258|184275682|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
92188840|NCT01838499|184275684|SUPERIORITY_OR_OTHER||Difference in proportions|0.051|||>|0.05|TWO_SIDED|80.0|-0.067|0.169|||Mixed Models Analysis||MEDI8968 - placebo|Analysis of proportion of Responders for Physician's Global Assessment (PGA score 0, 1 or 2) at Week 12 - LOCF. Difference in proportions MEDI8968 - placebo. Wald asymptotic confidence limits calculated.||0.169|-0.067|>0.05
92188841|NCT01838499|184275685|SUPERIORITY_OR_OTHER||Difference in proportions|-0.065|||>|0.05|TWO_SIDED|80.0|-0.205|0.076|||Mixed Models Analysis|||Difference in proportions MEDI8968 - placebo. Wald asymptotic confidence limits calculated.||0.076|-0.205|>0.05
92188842|NCT01838499|184275686|SUPERIORITY_OR_OTHER||Change from baseline (at week 12)|-0.03||||0.945|TWO_SIDED|80.0|-0.63|0.57|||ANCOVA||MEDI8968 - Placebo|Analysis of change from baseline (Week 12) estimated from ANCOVA model with tmt group and PGA stratum at randomisation included in the model and average daily pain at baseline as a covariate||0.57|-0.63|0.945
92267206|NCT04957979|184435816|SUPERIORITY||Odds Ratio (OR)|1.793||||0.421|TWO_SIDED|95.0|0.433|7.426||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||7.426|0.433|0.421
92188843|NCT03614923|184275687|SUPERIORITY|Statistical significance for the co-primary efficacy endpoints would be declared if both p-values for the tests of the individual hypotheses were \< 0.05.|Least Squares (LS) Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.319||0.2364|TWO_SIDED|95.0|-1.01|0.25||Testing was conducted in a hierarchical manner such that the comparison of etokimab Q4W versus placebo was conducted first. If the results of this comparison were statistically significant, the etokimab Q8W treatment arm would be compared to placebo.|General linear MMRM|||A general linear mixed effects model with repeated measures (MMRM) was used including the change from Baseline in NPS as dependent variable; treatment group, stratification factor, time (Weeks 4, 8, 12, and 16), treatment by stratification factor, and treatment by time interaction as fixed effect factors; Baseline NPS as covariate; and subject as random effect.||0.25|-1.01|0.2364
92306879|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|2.5|||||TWO_SIDED|95.0|0.12|5.23||||||Additional serotypes - serotype 6A||5.23|0.12|
92306880|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.2|||||TWO_SIDED|95.0|-2.22|1.86||||||Additional serotypes - serotype 6A||1.86|-2.22|
92306881|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-2.7|||||TWO_SIDED|95.0|-5.39|-0.27||||||Additional serotypes - serotype 6A||-0.27|-5.39|
92306882|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.8|||||TWO_SIDED|95.0|-0.47|2.3||||||Additional serotypes - serotype 7F||2.30|-0.47|
92306883|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-1.12|1.18||||||Additional serotypes - serotype 7F||1.18|-1.12|
92188844|NCT03614923|184275687|SUPERIORITY|Statistical significance for the co-primary efficacy endpoints was to be declared if both p-values for the tests of the individual hypotheses were \< 0.05.|LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.316||0.2024|TWO_SIDED|95.0|-1.03|0.22||Testing was conducted in a hierarchical manner such that the comparison of etokimab Q4W versus placebo was conducted first. If the results of this comparison were statistically significant, the etokimab Q8W treatment arm would be compared to placebo.|General linear MMRM|||A general linear mixed effects model with repeated measures (MMRM) was used including the change from Baseline in NPS as dependent variable; treatment group, stratification factor, time (Weeks 4, 8, 12, and 16), treatment by stratification factor, and treatment by time interaction as fixed effect factors; Baseline NPS as covariate; and subject as random effect.||0.22|-1.03|0.2024
92188845|NCT03614923|184275688|SUPERIORITY|Statistical significance for the co-primary efficacy endpoints was to be declared if both p-values for the tests of the individual hypotheses were \< 0.05.|LS Mean Difference|-6.64|STANDARD_ERROR_OF_MEAN|4.383||0.133|TWO_SIDED|95.0|-15.34|2.06||Testing was conducted in a hierarchical manner such that the comparison of etokimab Q4W versus placebo was conducted first. If the results of this comparison were statistically significant, the etokimab Q8W treatment arm would be compared to placebo.|General linear MMRM|||A general linear mixed effects model with repeated measures (MMRM) was used including the change from Baseline in SNOT-22 as dependent variable; treatment group, stratification factor, time (Weeks 4, 8, 12, and 16), treatment by stratification factor, and treatment by time interaction as fixed effect factors; Baseline SNOT-22 as covariate; and subject as random effect.||2.06|-15.34|0.1330
92188846|NCT03614923|184275688|SUPERIORITY|Statistical significance for the co-primary efficacy endpoints was to be declared if both p-values for the tests of the individual hypotheses were \< 0.05.|LS Mean Difference|-2.01|STANDARD_ERROR_OF_MEAN|4.375||0.6464|TWO_SIDED|95.0|-10.7|6.67||Testing was conducted in a hierarchical manner such that the comparison of etokimab Q4W versus placebo was conducted first. If the results of this comparison were statistically significant, the etokimab Q8W treatment arm would be compared to placebo.|General linear MMRM|||A general linear mixed effects model with repeated measures (MMRM) was used including the change from Baseline in SNOT-22 as dependent variable; treatment group, stratification factor, time (Weeks 4, 8, 12, and 16), treatment by stratification factor, and treatment by time interaction as fixed effect factors; Baseline SNOT-22 as covariate; and subject as random effect.||6.67|-10.70|0.6464
92188847|NCT03034772|184275710|SUPERIORITY|||||||0.04|||||||ANCOVA|Mean difference between the 2 groups derived using analysis of covariance, with the baseline value and type of anti-VEGF drug used as covariates.||||||0.04
92188848|NCT03034772|184275711|SUPERIORITY|||||||0.11|||||||ANCOVA|Mean difference between the 2 groups derived using analysis of covariance, with the baseline value and type of anti-VEGF drug used as covariates.||||||0.11
92188849|NCT03034772|184275712|SUPERIORITY|||||||0.01|||||||ANCOVA|Mean difference between the 2 groups derived using analysis of covariance, with the baseline value and type of anti-VEGF drug used as covariates.||||||0.01
92188850|NCT03034772|184275713|SUPERIORITY|||||||0.78|||||||ANCOVA|||||||0.78
92188851|NCT03034772|184275714|SUPERIORITY|||||||0.24|||||||ANCOVA|||||||0.24
92306884|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.7|||||TWO_SIDED|95.0|-2.3|0.52||||||Additional serotypes - serotype 7F||0.52|-2.30|
92306885|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.0|||||TWO_SIDED|95.0|-2.91|0.8||||||Additional serotypes - serotype 19A||0.80|-2.91|
92306886|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.7|||||TWO_SIDED|95.0|-2.69|1.19||||||Additional serotypes - serotype 19A||1.19|-2.69|
92188852|NCT00116584|184275715|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
92188853|NCT00116584|184275716|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92188854|NCT00116584|184275717|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92188855|NCT01106586|184275783|NON_INFERIORITY_OR_EQUIVALENCE|A total of 700 HIV-1 infected participants, randomized in a 1:1 ratio to 2 groups would achieve at least 95% power to establish noninferiority in Week 48 response (HIV-1 RNA \< 50 copies/mL per the FDA-defined snapshot analysis) rate difference between the 2 groups. For sample size and power computation, it was assumed that both treatment groups have a response rate of 0.795, a noninferiority margin of 0.12, and that the significance level of the test is at a one-sided, 0.025 level.|Difference in response rates|3.0|||||TWO_SIDED|95.2|-1.9|7.8|||||To preserve the overall alpha level: 0.05, accounting for 2 interim analyses for Independent Data Monitoring Committee meetings, the 95.2% CI was computed using normal approximation stratified by baseline HIV-1 RNA (≤ 100,000 or \> 100,000 copies/mL).|The null hypothesis was that the Stribild group is at least 12% worse than the ATV/r + Truvada group with respect to percentage of participants achieving HIV-1 RNA \< 50 copies/mL (response rate as defined by the snapshot analysis algorithm) at Week 48; the alternative hypothesis was that the response rate in the Stribild group is less than 12% worse than that in the ATV/r + Truvada Group.||7.8|-1.9|
92188856|NCT05878522|184275823|OTHER||LS Mean difference|11.73|||||TWO_SIDED|90.0|8.89|14.58||||||3- hours post-dose||14.58|8.89|
92306887|NCT00444457|184514947|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.3|||||TWO_SIDED|95.0|-1.4|2.04||||||Additional serotypes - serotype 19A||2.04|-1.40|
92306888|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.1|||||TWO_SIDED|95.0|-1.61|1.81|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||1.81|-1.61|
92306889|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.8|||||TWO_SIDED|95.0|-2.39|0.23|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||0.23|-2.39|
92306890|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.9|||||TWO_SIDED|95.0|-2.54|0.2|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||0.20|-2.54|
92306891|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.02|1.11|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||1.11|-1.02|
92306892|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.03|1.04|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||1.04|-1.03|
92306893|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.13|1.06|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||1.06|-1.13|
92306894|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.25|1.37|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||1.37|-1.25|
92188857|NCT05878522|184275823|OTHER||LS Mean difference|11.35|||||TWO_SIDED|90.0|8.5|14.2||||||4-hours post-dose||14.20|8.50|
92306895|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.6|||||TWO_SIDED|95.0|-0.76|2.18|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||2.18|-0.76|
92188858|NCT05878522|184275823|OTHER||LS Mean difference|8.35||||||90.0|5.51|11.2||||||5-hours post-dose||11.20|5.51|
92188859|NCT00936065|184275875|SUPERIORITY_OR_OTHER|||||||0.0672|TWO_SIDED||||||Fisher Exact|||Overall treatment difference||||0.0672
92306896|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.5|||||TWO_SIDED|95.0|-0.87|2.18|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||2.18|-0.87|
92306897|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-0.74|1.62|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||1.62|-0.74|
92306898|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.03|1.04|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||1.04|-1.03|
92306899|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.3|||||TWO_SIDED|95.0|-1.61|0.76|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||0.76|-1.61|
92188860|NCT00936065|184275876|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 2||||1.0000
92188861|NCT00936065|184275876|SUPERIORITY_OR_OTHER|||||||0.0229|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 4||||0.0229
92188862|NCT00936065|184275876|SUPERIORITY_OR_OTHER|||||||0.0256|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 8||||0.0256
92188863|NCT00936065|184275876|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 12||||0.0004
92188864|NCT00936065|184275876|SUPERIORITY_OR_OTHER|||||||0.0105|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 18||||0.0105
92306900|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.4|||||TWO_SIDED|95.0|-1.52|2.39|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||2.39|-1.52|
92306901|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.5|||||TWO_SIDED|95.0|-2.3|1.04|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||1.04|-2.30|
92306902|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.9|||||TWO_SIDED|95.0|-2.87|0.74|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||0.74|-2.87|
92306903|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.5|||||TWO_SIDED|95.0|-2.55|1.5|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||1.50|-2.55|
92306904|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-1.1|||||TWO_SIDED|95.0|-3.06|0.57|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||0.57|-3.06|
92306905|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.6|||||TWO_SIDED|95.0|-2.44|1.0|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||1.00|-2.44|
92306906|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-1.21|2.05|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||2.05|-1.21|
92306907|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|1.1|||||TWO_SIDED|95.0|-0.52|3.16|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||3.16|-0.52|
92306908|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.8|||||TWO_SIDED|95.0|-1.05|2.87|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||2.87|-1.05|
92306909|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.9|||||TWO_SIDED|95.0|-0.17|2.53|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||2.53|-0.17|
92306910|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.8|||||TWO_SIDED|95.0|-0.2|2.44|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||2.44|-0.20|
92188865|NCT00936065|184275876|SUPERIORITY_OR_OTHER|||||||0.0366|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 24||||0.0366
92188866|NCT00936065|184275877|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 8||||1.0000
92306911|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.79|1.66|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||1.66|-1.79|
92306912|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|2.8|||||TWO_SIDED|95.0|-2.85|8.55|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||8.55|-2.85|
92306913|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-4.9|||||TWO_SIDED|95.0|-9.99|0.21|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||0.21|-9.99|
92306914|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-7.7|||||TWO_SIDED|95.0|-13.14|-2.37|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||-2.37|-13.14|
92188867|NCT00936065|184275877|SUPERIORITY_OR_OTHER|||||||0.323|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 12||||0.3230
92188868|NCT00936065|184275877|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 18||||1.0000
92188869|NCT00936065|184275877|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 24||||1.0000
92188870|NCT00936065|184275878|SUPERIORITY_OR_OTHER|||||||0.3103|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 2||||0.3103
92188871|NCT00936065|184275878|SUPERIORITY_OR_OTHER|||||||0.4763|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 4||||0.4763
92188872|NCT00936065|184275878|SUPERIORITY_OR_OTHER|||||||0.1961|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 8||||0.1961
92188873|NCT00936065|184275878|SUPERIORITY_OR_OTHER|||||||0.0272|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 12||||0.0272
92306915|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-1.0|1.84|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||1.84|-1.00|
92306916|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.27|1.3|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||1.30|-1.27|
92306917|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.3|||||TWO_SIDED|95.0|-1.84|1.02|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||1.02|-1.84|
92306918|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.04|1.08|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||1.08|-1.04|
92306919|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-0.76|1.56|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||1.56|-0.76|
92306920|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-0.83|1.56|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||1.56|-0.83|
92306921|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.6|||||TWO_SIDED|95.0|-0.47|2.09|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||2.09|-0.47|
92306922|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.6|||||TWO_SIDED|95.0|-0.48|2.0|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||2.00|-0.48|
92306923|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.59|1.49|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||1.49|-1.59|
92306924|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.04|1.09|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||1.09|-1.04|
92306925|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.05|1.04|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||1.04|-1.05|
92306926|NCT00444457|184514948|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.09|1.07|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||1.07|-1.09|
92306927|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-1.4|||||TWO_SIDED|95.0|-6.52|3.63|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||3.63|-6.52|
92306928|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-6.7|||||TWO_SIDED|95.0|-11.3|-2.15|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||-2.15|-11.30|
92306929|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-5.2|||||TWO_SIDED|95.0|-9.85|-0.79|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||-0.79|-9.85|
92306930|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-1.19|2.07|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||2.07|-1.19|
92306931|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.3|||||TWO_SIDED|95.0|-1.69|1.06|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||1.06|-1.69|
92188874|NCT00936065|184275878|SUPERIORITY_OR_OTHER|||||||0.5038|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 18||||0.5038
92306932|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.6|||||TWO_SIDED|95.0|-2.27|0.75|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||0.75|-2.27|
92306933|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-3.8|||||TWO_SIDED|95.0|-9.46|1.82|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||1.82|-9.46|
92306934|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-4.7|||||TWO_SIDED|95.0|-10.24|0.76|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||0.76|-10.24|
92306935|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.9|||||TWO_SIDED|95.0|-6.3|4.41|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||4.41|-6.30|
92306936|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.2|||||TWO_SIDED|95.0|-2.14|1.73|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||1.73|-2.14|
92306937|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-1.69|2.39|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||2.39|-1.69|
92306938|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.5|||||TWO_SIDED|95.0|-1.46|2.59|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||2.59|-1.46|
92306939|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-5.5|||||TWO_SIDED|95.0|-11.17|0.2|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||0.20|-11.17|
92306940|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-10.0|||||TWO_SIDED|95.0|-15.31|-4.7|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||-4.70|-15.31|
92306941|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-4.5|||||TWO_SIDED|95.0|-9.55|0.46|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||0.46|-9.55|
92306942|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.8|||||TWO_SIDED|95.0|-4.23|2.52|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||2.52|-4.23|
92306943|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-3.3|||||TWO_SIDED|95.0|-6.35|-0.4|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||-0.40|-6.35|
92306944|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-2.4|||||TWO_SIDED|95.0|-5.44|0.33|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||0.33|-5.44|
92306945|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.5|||||TWO_SIDED|95.0|-3.67|4.8|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||4.80|-3.67|
92306946|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|1.9|||||TWO_SIDED|95.0|-2.38|6.28|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||6.28|-2.38|
92306947|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|1.4|||||TWO_SIDED|95.0|-3.06|5.82|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||5.82|-3.06|
92306948|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.8|||||TWO_SIDED|95.0|-3.34|5.08|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||5.08|-3.34|
92306949|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-2.6|||||TWO_SIDED|95.0|-6.39|1.18|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||1.18|-6.39|
92306950|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-3.4|||||TWO_SIDED|95.0|-7.45|0.46|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||0.46|-7.45|
92306951|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|1.6|||||TWO_SIDED|95.0|-5.2|8.55|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||8.55|-5.20|
92306952|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-4.8|||||TWO_SIDED|95.0|-11.79|2.16|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||2.16|-11.79|
92306953|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-6.5|||||TWO_SIDED|95.0|-13.51|0.54|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||0.54|-13.51|
92306954|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|3.1|||||TWO_SIDED|95.0|-0.84|7.13|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||7.13|-0.84|
92306955|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.5|||||TWO_SIDED|95.0|-3.14|4.11|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||4.11|-3.14|
92188875|NCT00936065|184275878|SUPERIORITY_OR_OTHER|||||||0.0374|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 24||||0.0374
92188876|NCT00936065|184275879|SUPERIORITY_OR_OTHER|||||||0.6061|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Baseline||||0.6061
92188877|NCT00936065|184275879|SUPERIORITY_OR_OTHER|||||||0.2971|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 2||||0.2971
92306956|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-2.6|||||TWO_SIDED|95.0|-6.72|1.4|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||1.40|-6.72|
92306957|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.9|||||TWO_SIDED|95.0|-0.87|3.02|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||3.02|-0.87|
92306958|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.62|1.71|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||1.71|-1.62|
92306959|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.9|||||TWO_SIDED|95.0|-3.0|0.92|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||0.92|-3.00|
92306960|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|1.9|||||TWO_SIDED|95.0|-0.62|4.67|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||4.67|-0.62|
92306961|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.5|||||TWO_SIDED|95.0|-2.67|1.55|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||1.55|-2.67|
92306962|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-2.4|||||TWO_SIDED|95.0|-5.11|-0.01|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||-0.01|-5.11|
92306963|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.6|||||TWO_SIDED|95.0|-0.45|2.1|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||2.10|-0.45|
92306964|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-0.75|1.58|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||1.58|-0.75|
92306965|NCT00444457|184514950|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.3|||||TWO_SIDED|95.0|-1.86|1.05|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||1.05|-1.86|
92188878|NCT00936065|184275879|SUPERIORITY_OR_OTHER|||||||0.1119|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 4||||0.1119
92306966|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.02|||||TWO_SIDED|95.0|-0.1|0.13|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||0.13|-0.10|
92306967|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.29|||||TWO_SIDED|95.0|-0.41|-0.17|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||-0.17|-0.41|
92306968|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.31|||||TWO_SIDED|95.0|-0.43|-0.19|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||-0.19|-0.43|
92306969|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.18|||||TWO_SIDED|95.0|0.06|0.3|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||0.30|0.06|
92306970|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.12|||||TWO_SIDED|95.0|0.0|0.23|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||0.23|-0.00|
92188879|NCT00936065|184275879|SUPERIORITY_OR_OTHER|||||||0.1081|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 8||||0.1081
92306971|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.18|0.06|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||0.06|-0.18|
92306972|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.02|||||TWO_SIDED|95.0|-0.13|0.09|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.09|-0.13|
92306973|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.04|||||TWO_SIDED|95.0|-0.15|0.07|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.07|-0.15|
92188880|NCT00936065|184275879|SUPERIORITY_OR_OTHER|||||||0.0063|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 12||||0.0063
92188881|NCT00936065|184275879|SUPERIORITY_OR_OTHER|||||||0.0055|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 18||||0.0055
92188882|NCT00936065|184275879|SUPERIORITY_OR_OTHER|||||||0.0031|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 24||||0.0031
92188883|NCT00936065|184275880|SUPERIORITY_OR_OTHER|||||||0.0033|TWO_SIDED||||||Log Rank|||Overall treatment difference||||0.0033
92188884|NCT00936065|184275881|SUPERIORITY_OR_OTHER|||||||0.0448|TWO_SIDED||||||Log Rank|||Overall treatment difference||||0.0448
92306974|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.02|||||TWO_SIDED|95.0|-0.13|0.09|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.09|-0.13|
92306975|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.19|0.06|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.06|-0.19|
92306976|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.04|||||TWO_SIDED|95.0|-0.17|0.08|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.08|-0.17|
92306977|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.02|||||TWO_SIDED|95.0|-0.11|0.15|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.15|-0.11|
92306978|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.12|||||TWO_SIDED|95.0|-0.25|0.0|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||0.00|-0.25|
92306979|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.24|||||TWO_SIDED|95.0|-0.37|-0.12|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||-0.12|-0.37|
92306980|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.12|||||TWO_SIDED|95.0|-0.25|0.01|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||0.01|-0.25|
92306981|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.18|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||0.11|-0.18|
92306982|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.37|||||TWO_SIDED|95.0|-0.51|-0.22|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||-0.22|-0.51|
92306983|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.33|||||TWO_SIDED|95.0|-0.47|-0.2|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||-0.20|-0.47|
92306984|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.17|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.11|-0.17|
92188885|NCT00936065|184275882|SUPERIORITY_OR_OTHER|||||||0.0041|TWO_SIDED||||||Log Rank|||Overall treatment difference||||0.0041
92306985|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.08|||||TWO_SIDED|95.0|-0.07|0.22|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.22|-0.07|
92306986|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.11|||||TWO_SIDED|95.0|-0.03|0.25|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.25|-0.03|
92306987|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.07|||||TWO_SIDED|95.0|-0.2|0.06|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||0.06|-0.20|
92306988|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.09|||||TWO_SIDED|95.0|-0.21|0.03|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||0.03|-0.21|
92306989|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.02|||||TWO_SIDED|95.0|-0.15|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||0.11|-0.15|
92306990|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.06|||||TWO_SIDED|95.0|-0.06|0.18|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||0.18|-0.06|
92306991|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.07|||||TWO_SIDED|95.0|-0.18|0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||0.04|-0.18|
92306992|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.13|||||TWO_SIDED|95.0|-0.25|-0.01|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||-0.01|-0.25|
92188886|NCT00936065|184275883|SUPERIORITY_OR_OTHER|||||||0.3536|TWO_SIDED||||||Log Rank|||Overall treatment difference||||0.3536
92188887|NCT00936065|184275884|SUPERIORITY_OR_OTHER|||||||0.0203|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.0203
92188888|NCT00936065|184275884|SUPERIORITY_OR_OTHER|||||||0.0102|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0102
92188889|NCT00936065|184275884|SUPERIORITY_OR_OTHER|||||||0.0056|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.0056
92188890|NCT00936065|184275884|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.0006
92306993|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.17|||||TWO_SIDED|95.0|0.05|0.28|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||0.28|0.05|
92306994|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.1|||||TWO_SIDED|95.0|0.0|0.21|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||0.21|-0.00|
92306995|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.17|0.05|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||0.05|-0.17|
92306996|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.08|||||TWO_SIDED|95.0|-0.04|0.19|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.19|-0.04|
92306997|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.1|||||TWO_SIDED|95.0|-0.02|0.21|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.21|-0.02|
92306998|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.02|||||TWO_SIDED|95.0|-0.1|0.14|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.14|-0.10|
92306999|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.03|||||TWO_SIDED|95.0|-0.1|0.15|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.15|-0.10|
92307000|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.05|||||TWO_SIDED|95.0|-0.17|0.07|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.07|-0.17|
92307001|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.08|||||TWO_SIDED|95.0|-0.2|0.05|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.05|-0.20|
92307002|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.01|||||TWO_SIDED|95.0|-0.11|0.13|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.13|-0.11|
92307003|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.02|||||TWO_SIDED|95.0|-0.14|0.1|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.10|-0.14|
92307004|NCT00444457|184514951|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.15|0.08|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.08|-0.15|
92307005|NCT01121666|184514960|NON_INFERIORITY_OR_EQUIVALENCE|This study was powered to test equivalence using a two one-sided test (TOST) of the number of oocytes retrieved with a power of 90%, an alpha error of 2.5% and a pre-determined clinical equivalence margin of +/-2.9 oocytes for the relevant population.||||||0.0003|TWO_SIDED|||||This study was powered to test equivalence using a two one-sided test (TOST) with a power of 90%, an alpha error of 2.5% and a pre-determined clinical equivalence margin of +/-2.9 oocytes for the relevant population.|Shuirmann's TOST|||This study was powered to test equivalence using a two one-sided test (TOST) of the number of oocytes retrieved.||||0.0003
92307006|NCT01121666|184514961|SUPERIORITY_OR_OTHER|||||||0.2357|TWO_SIDED|||||Follicles of 12 mm|Wilcoxon (Mann-Whitney)|||||||0.2357
92307007|NCT01121666|184514961|SUPERIORITY_OR_OTHER|||||||0.1395|TWO_SIDED|||||Follicles of 15 mm|Wilcoxon (Mann-Whitney)|||||||0.1395
92307008|NCT01121666|184514961|SUPERIORITY_OR_OTHER|||||||0.3992|TWO_SIDED|||||Follicles of 17 mm|Wilcoxon (Mann-Whitney)|||||||0.3992
92307009|NCT01121666|184514963|SUPERIORITY_OR_OTHER|||||||0.9638|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.9638
92307010|NCT01121666|184514968|SUPERIORITY_OR_OTHER|||||||0.8926|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.8926
92307011|NCT01121666|184514975|NON_INFERIORITY_OR_EQUIVALENCE|This study was powered to test equivalence using a two one-sided test (TOST) of the number of oocytes retrieved with a power of 90%, an alpha error of 2.5% and a pre-determined clinical equivalence margin of +/-2.9 oocytes for the relevant population.||||||0.0003|TWO_SIDED||||||Shuirmann's TOST|||||||0.0003
92307012|NCT03970837|184515009|SUPERIORITY||Odds Ratio (OR)|2.57|||<|0.0001|TWO_SIDED|95.0|1.87|3.53|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 90mg dose of GSK3196165 and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 90mg dose of GSK3196165 differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||3.53|1.87|<0.0001
92307013|NCT03970837|184515009|SUPERIORITY||Odds Ratio (OR)|2.55|||<|0.0001|TWO_SIDED|95.0|1.85|3.5|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 150mg dose of GSK3196165 and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 150mg dose of GSK3196165 differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||3.50|1.85|<0.0001
92307014|NCT03970837|184515009|SUPERIORITY||Odds Ratio (OR)|5.38|||<|0.0001|TWO_SIDED|95.0|3.66|7.9|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 05mg dose of Tofacitinib and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 05mg dose of Tofacitinib differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||7.90|3.66|<0.0001
92307015|NCT03970837|184515009|SUPERIORITY||Odds Ratio (OR)|0.48|||<|0.0001|TWO_SIDED|95.0|0.34|0.66|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 90 mg dose of GSK3196165 and 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 90 mg dose of GSK3196165 differs from 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12.||0.66|0.34|<0.0001
92307016|NCT03970837|184515009|SUPERIORITY||Odds Ratio (OR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.34|0.66|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 150mg dose of GSK3196165 and 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 150mg dose of GSK3196165 differs from 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12.||0.66|0.34|<0.0001
92307017|NCT03970837|184515013|NON_INFERIORITY|Non-inferiority over tofacitinib on ACR20 was concluded if the lower limit of the multiplicity corrected 95% Confidence Interval (CI) in the difference in proportions (GSK3196165 minus tofacitinib) was greater than -12%|Difference in Percentage|-14.7|||||TWO_SIDED|95.0|-21.3|-8.1|||Regression, Logistic|Difference in proportion and 95% CI are generated from logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||||-8.1|-21.3|
92307018|NCT03970837|184515013|NON_INFERIORITY|Non-inferiority over tofacitinib on ACR20 was concluded if the lower limit of the multiplicity corrected 95% Confidence Interval (CI) in the difference in proportions (GSK3196165 minus tofacitinib) was greater than -12%|Difference in Percentage|-17.2|||||TWO_SIDED|95.0|-23.9|-10.6|||Regression, Logistic|Difference in proportion and 95% CI are generated from logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||||-10.6|-23.9|
92307019|NCT02304991|184515218|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Intent to treat; participants not completing the DBPCFC considered to have challenge score of zero||||0.002
92307020|NCT02304991|184515219|SUPERIORITY|||||||0.0005|||||||t-test, 2 sided|||Intent to treat; participants not completing the DBPCFC considered to have challenge score of zero||||0.0005
92307021|NCT02304991|184515220|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
92307022|NCT02304991|184515221|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Per protocol analysis of patients with available samples.||||0.01
92307023|NCT02304991|184515222|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Per protocol analysis of patients with available samples.||||<0.0001
92307024|NCT02304991|184515223|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.3
92307025|NCT00786994|184515224|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Mantel Haenszel|||A vs C/D||||0.60
92307026|NCT00786994|184515224|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Mantel Haenszel|||B vs. C/D||||0.83
92188891|NCT00936065|184275884|SUPERIORITY_OR_OTHER|||||||0.0066|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.0066
92188892|NCT00936065|184275884|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.0058
92307027|NCT01193127|184515227|SUPERIORITY_OR_OTHER||least-squares mean difference|0.9|STANDARD_ERROR_OF_MEAN|0.1||0||95.0|0.6|1.1||Repeated measures model includes treatment (OMS302, ketorolac tromethamine, and vehicle), time-point and LOCS II grade as covariates|repeated measures model|All data time points collected used in the analysis.|OMS302 - Vehicle (BSS)|||1.1|0.6|0.0000
92307028|NCT01193127|184515227|SUPERIORITY_OR_OTHER||least-squares mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.1||0||95.0|0.5|0.9||Repeated measures model includes treatment (OMS302, ketorolac tromethamine, and vehicle), time-point and LOCS II grade as covariates.|repeated measures model|OMS302 - ketorolac tromethamine||||0.9|0.5|0.0000
92307029|NCT01193127|184515228|SUPERIORITY_OR_OTHER||least-squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.2||0.0421||95.0|-8.9|-0.2||Repeated measures model includes treatment (OMS302, PE and vehicle), time point and LOCS II grade as covariates|repeated measures model||OMS302 - Vehicle (BSS)|||-0.2|-8.9|0.0421
92307030|NCT01193127|184515228|SUPERIORITY_OR_OTHER||least-squares mean difference|-5.9|STANDARD_ERROR_OF_MEAN|2.2||0.0093||95.0|-10.3|-1.5||Repeated measures model includes treatment (OMS302, PE and vehicle), time point and LOCS II grade as covariates.|repeated measures model||OMS302 - PE|||-1.5|-10.3|0.0093
92188893|NCT00936065|184275885|SUPERIORITY_OR_OTHER|||||||0.0329|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.0329
92307031|NCT01193127|184515229|SUPERIORITY_OR_OTHER|||||||0.63||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.630
92307032|NCT01193127|184515229|SUPERIORITY_OR_OTHER|||||||0.769||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.769
92307033|NCT01193127|184515229|SUPERIORITY_OR_OTHER|||||||0.025||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.025
92307034|NCT01193127|184515230|SUPERIORITY_OR_OTHER|||||||0.229||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.229
92307035|NCT01193127|184515230|SUPERIORITY_OR_OTHER|||||||0.162||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.162
92307036|NCT01193127|184515230|SUPERIORITY_OR_OTHER|||||||0.226||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.226
92188894|NCT00936065|184275885|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0003
92188895|NCT00936065|184275885|SUPERIORITY_OR_OTHER|||||||0.0598|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.0598
92188896|NCT00936065|184275885|SUPERIORITY_OR_OTHER|||||||0.0241|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.0241
92188897|NCT00936065|184275885|SUPERIORITY_OR_OTHER|||||||0.0543|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.0543
92307037|NCT01193127|184515231|SUPERIORITY_OR_OTHER|||||||0.177||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.177
92307038|NCT01193127|184515231|SUPERIORITY_OR_OTHER|||||||0.051||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.051
92307039|NCT01193127|184515231|SUPERIORITY_OR_OTHER|||||||0.497||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.497
92307040|NCT01193127|184515232|SUPERIORITY_OR_OTHER|||||||0.48||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.480
92307041|NCT01193127|184515232|SUPERIORITY_OR_OTHER|||||||0.09||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.090
92307042|NCT01193127|184515232|SUPERIORITY_OR_OTHER|||||||0.439||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.439
92307043|NCT01193127|184515233|SUPERIORITY_OR_OTHER|||||||0.812||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.812
92307044|NCT01193127|184515233|SUPERIORITY_OR_OTHER|||||||0.48||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.480
92307045|NCT01193127|184515233|SUPERIORITY_OR_OTHER|||||||0.16||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.160
92307046|NCT01193127|184515234|SUPERIORITY_OR_OTHER|||||||0.085||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.085
92307047|NCT01193127|184515234|SUPERIORITY_OR_OTHER|||||||0.742||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.742
92307048|NCT01193127|184515234|SUPERIORITY_OR_OTHER|||||||0.021||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.021
92188898|NCT00936065|184275885|SUPERIORITY_OR_OTHER|||||||0.1205|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.1205
92188899|NCT00936065|184275886|SUPERIORITY_OR_OTHER|||||||0.1385|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.1385
92307049|NCT01193127|184515235|SUPERIORITY_OR_OTHER|||||||0.081||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.081
92307050|NCT01193127|184515235|SUPERIORITY_OR_OTHER|||||||0.202||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.202
92307051|NCT01193127|184515235|SUPERIORITY_OR_OTHER|||||||0.606||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.606
92307052|NCT01193127|184515236|SUPERIORITY_OR_OTHER|||||||0.893||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.893
92307053|NCT01193127|184515236|SUPERIORITY_OR_OTHER|||||||0.553||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.553
92307054|NCT01193127|184515236|SUPERIORITY_OR_OTHER|||||||0.412||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.412
92307055|NCT01193127|184515237|SUPERIORITY_OR_OTHER|||||||0.186||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.186
92307056|NCT01193127|184515237|SUPERIORITY_OR_OTHER|||||||0.191||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.191
92307057|NCT01193127|184515237|SUPERIORITY_OR_OTHER|||||||0.167||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.167
92307058|NCT01193127|184515238|SUPERIORITY_OR_OTHER|||||||0.663||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.663
92307059|NCT01193127|184515238|SUPERIORITY_OR_OTHER|||||||0.326||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.326
92307060|NCT01193127|184515238|SUPERIORITY_OR_OTHER|||||||0.045||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.045
92307061|NCT01193127|184515239|SUPERIORITY_OR_OTHER|||||||0.106||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.106
92188900|NCT00936065|184275886|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0019
92188901|NCT00936065|184275886|SUPERIORITY_OR_OTHER|||||||0.0442|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.0442
92188902|NCT00936065|184275886|SUPERIORITY_OR_OTHER|||||||0.0034|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.0034
92307062|NCT01193127|184515239|SUPERIORITY_OR_OTHER|||||||0.519||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.519
92307063|NCT01193127|184515239|SUPERIORITY_OR_OTHER|||||||0.039||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.039
92307064|NCT01193127|184515240|SUPERIORITY_OR_OTHER|||||||0.1||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.100
92307065|NCT01193127|184515240|SUPERIORITY_OR_OTHER|||||||0.029||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.029
92307066|NCT01193127|184515240|SUPERIORITY_OR_OTHER|||||||0.525||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.525
92307067|NCT01193127|184515241|SUPERIORITY_OR_OTHER|||||||0.642||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.642
92307068|NCT01193127|184515241|SUPERIORITY_OR_OTHER|||||||0.442||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.442
92307069|NCT01193127|184515241|SUPERIORITY_OR_OTHER|||||||0.467||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.467
92188903|NCT00936065|184275886|SUPERIORITY_OR_OTHER|||||||0.0454|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.0454
92307070|NCT01193127|184515242|SUPERIORITY_OR_OTHER|||||||0.695||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.695
92307071|NCT01193127|184515242|SUPERIORITY_OR_OTHER|||||||0.355||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.355
92307072|NCT01193127|184515242|SUPERIORITY_OR_OTHER|||||||0.369||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.369
92307073|NCT01193127|184515243|SUPERIORITY_OR_OTHER|||||||0.124||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.124
92307074|NCT01193127|184515243|SUPERIORITY_OR_OTHER|||||||0.298||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.298
92188904|NCT00936065|184275886|SUPERIORITY_OR_OTHER|||||||0.0539|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.0539
92188905|NCT00936065|184275887|SUPERIORITY_OR_OTHER|||||||0.1723|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.1723
92307075|NCT01193127|184515243|SUPERIORITY_OR_OTHER|||||||0.291||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.291
92307076|NCT01193127|184515244|SUPERIORITY_OR_OTHER|||||||0.825||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.825
92307077|NCT01193127|184515244|SUPERIORITY_OR_OTHER|||||||0.211||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.211
92307078|NCT01193127|184515244|SUPERIORITY_OR_OTHER|||||||0.589||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.589
92307079|NCT01193127|184515245|SUPERIORITY_OR_OTHER|||||||0.401||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.401
92307080|NCT01193127|184515245|SUPERIORITY_OR_OTHER|||||||0.2||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Chi-squared, Corrected|||||||0.200
92307081|NCT01193127|184515245|SUPERIORITY_OR_OTHER|||||||0.478||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.478
92307082|NCT01193127|184515246|SUPERIORITY_OR_OTHER|||||||0.758||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.758
92307083|NCT01193127|184515246|SUPERIORITY_OR_OTHER|||||||0.521||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.521
92188906|NCT00936065|184275887|SUPERIORITY_OR_OTHER|||||||0.0292|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0292
92188907|NCT00936065|184275887|SUPERIORITY_OR_OTHER|||||||0.0908|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.0908
92188908|NCT00936065|184275887|SUPERIORITY_OR_OTHER|||||||0.5678|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.5678
92188909|NCT00936065|184275887|SUPERIORITY_OR_OTHER|||||||0.482|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.4820
92188910|NCT00936065|184275887|SUPERIORITY_OR_OTHER|||||||0.0394|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.0394
92188911|NCT00936065|184275888|SUPERIORITY_OR_OTHER|||||||0.1079|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.1079
92188912|NCT00936065|184275888|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0004
92188913|NCT00936065|184275888|SUPERIORITY_OR_OTHER|||||||0.0146|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.0146
92188914|NCT00936065|184275888|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.0019
92307084|NCT01193127|184515246|SUPERIORITY_OR_OTHER|||||||0.432||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.432
92307085|NCT01193127|184515247|SUPERIORITY_OR_OTHER|||||||0.148||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.148
92307086|NCT01193127|184515247|SUPERIORITY_OR_OTHER|||||||0.156||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.156
92307087|NCT01193127|184515247|SUPERIORITY_OR_OTHER|||||||0.381||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.381
92307088|NCT01193127|184515248|SUPERIORITY_OR_OTHER|||||||0.646||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.646
92307089|NCT01193127|184515248|SUPERIORITY_OR_OTHER|||||||0.95||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.950
92188915|NCT00936065|184275888|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.0062
92188916|NCT00936065|184275888|SUPERIORITY_OR_OTHER|||||||0.0197|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.0197
92188917|NCT00936065|184275889|SUPERIORITY_OR_OTHER|||||||0.1229|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.1229
92188918|NCT00936065|184275889|SUPERIORITY_OR_OTHER|||||||0.0136|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0136
92188919|NCT00936065|184275889|SUPERIORITY_OR_OTHER|||||||0.1578|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.1578
92307090|NCT01193127|184515248|SUPERIORITY_OR_OTHER|||||||0.16||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.160
92307091|NCT01193127|184515249|SUPERIORITY_OR_OTHER|||||||1||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||1.000
92307092|NCT01193127|184515249|SUPERIORITY_OR_OTHER|||||||0.667||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.667
92307093|NCT01193127|184515249|SUPERIORITY_OR_OTHER|||||||0.303||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.303
92307094|NCT01193127|184515250|SUPERIORITY_OR_OTHER|||||||0.789||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.789
92307095|NCT01193127|184515250|SUPERIORITY_OR_OTHER|||||||0.977||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.977
92307096|NCT01193127|184515250|SUPERIORITY_OR_OTHER|||||||0.336||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.336
92307097|NCT01193127|184515251|SUPERIORITY_OR_OTHER|||||||0.632||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.632
92307098|NCT01193127|184515251|SUPERIORITY_OR_OTHER|||||||0.778||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.778
92307099|NCT01193127|184515251|SUPERIORITY_OR_OTHER|||||||0.336||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.336
92307100|NCT01193127|184515252|SUPERIORITY_OR_OTHER|||||||0.528||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.528
92307101|NCT01193127|184515252|SUPERIORITY_OR_OTHER|||||||0.362||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.362
92188920|NCT00936065|184275889|SUPERIORITY_OR_OTHER|||||||0.0565|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.0565
92188921|NCT00936065|184275889|SUPERIORITY_OR_OTHER|||||||0.0685|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.0685
92188922|NCT00936065|184275889|SUPERIORITY_OR_OTHER|||||||0.0493|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.0493
92188923|NCT00936065|184275890|SUPERIORITY_OR_OTHER|||||||0.3112|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.3112
92188924|NCT00936065|184275890|SUPERIORITY_OR_OTHER|||||||0.0196|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0196
92188925|NCT00936065|184275890|SUPERIORITY_OR_OTHER|||||||0.0109|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0109
92188926|NCT00936065|184275890|SUPERIORITY_OR_OTHER|||||||0.0035|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0035
92188927|NCT00936065|184275890|SUPERIORITY_OR_OTHER|||||||0.0603|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.0603
92188928|NCT00936065|184275890|SUPERIORITY_OR_OTHER|||||||0.2184|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.2184
92188929|NCT00936065|184275891|SUPERIORITY_OR_OTHER|||||||0.1774|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.1774
92188930|NCT00936065|184275891|SUPERIORITY_OR_OTHER|||||||0.1195|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.1195
92188931|NCT00936065|184275891|SUPERIORITY_OR_OTHER|||||||0.0606|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0606
92188932|NCT00936065|184275891|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0030
92307102|NCT01193127|184515252|SUPERIORITY_OR_OTHER|||||||0.353||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.353
92307103|NCT01193127|184515253|SUPERIORITY_OR_OTHER|||||||0.463||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.463
92307104|NCT01193127|184515253|SUPERIORITY_OR_OTHER|||||||0.406||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.406
92307105|NCT01193127|184515253|SUPERIORITY_OR_OTHER|||||||0.245||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.245
92307106|NCT01193127|184515254|SUPERIORITY_OR_OTHER|||||||0.945||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.945
92307107|NCT01193127|184515254|SUPERIORITY_OR_OTHER|||||||0.438||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.438
92307108|NCT01193127|184515254|SUPERIORITY_OR_OTHER|||||||0.596||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.596
92307109|NCT01193127|184515255|SUPERIORITY_OR_OTHER|||||||0.811||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.811
92307110|NCT01193127|184515255|SUPERIORITY_OR_OTHER|||||||0.552||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.552
92188933|NCT00936065|184275891|SUPERIORITY_OR_OTHER|||||||0.1567|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.1567
92188934|NCT00936065|184275891|SUPERIORITY_OR_OTHER|||||||0.2094|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.2094
92188935|NCT00936065|184275892|SUPERIORITY_OR_OTHER|||||||0.0302|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0302
92307111|NCT01193127|184515255|SUPERIORITY_OR_OTHER|||||||0.549||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.549
92307112|NCT01193127|184515256|SUPERIORITY_OR_OTHER|||||||0.173||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.173
92188936|NCT00936065|184275892|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0980
92188937|NCT00936065|184275892|SUPERIORITY_OR_OTHER|||||||0.0711|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0711
92188938|NCT00936065|184275892|SUPERIORITY_OR_OTHER|||||||0.0077|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0077
92188939|NCT00936065|184275892|SUPERIORITY_OR_OTHER|||||||0.1553|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.1553
92188940|NCT00936065|184275892|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0410
92188941|NCT00936065|184275893|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0060
92307113|NCT01193127|184515256|SUPERIORITY_OR_OTHER|||||||0.362||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.362
92307114|NCT01193127|184515256|SUPERIORITY_OR_OTHER|||||||0.559|||||||Cochran-Mantel-Haenszel|||||||0.559
92307115|NCT01193127|184515257|SUPERIORITY_OR_OTHER|||||||0.681||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.681
92307116|NCT01193127|184515257|SUPERIORITY_OR_OTHER|||||||0.429||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.429
92307117|NCT01193127|184515257|SUPERIORITY_OR_OTHER|||||||0.306||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.306
92307118|NCT01193127|184515258|SUPERIORITY_OR_OTHER|||||||0.226||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.226
92307119|NCT01193127|184515258|SUPERIORITY_OR_OTHER|||||||0.602||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.602
92307120|NCT01193127|184515258|SUPERIORITY_OR_OTHER|||||||0.29|||||||Cochran-Mantel-Haenszel|||||||0.290
92307121|NCT01193127|184515259|SUPERIORITY_OR_OTHER|||||||0.244||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.244
92307122|NCT01193127|184515259|SUPERIORITY_OR_OTHER|||||||0.122||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.122
92307123|NCT01193127|184515259|SUPERIORITY_OR_OTHER|||||||0.79||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.790
92307124|NCT01193127|184515260|SUPERIORITY_OR_OTHER|||||||0.752||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.752
92307125|NCT01193127|184515260|SUPERIORITY_OR_OTHER|||||||0.355||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.355
92307126|NCT01193127|184515260|SUPERIORITY_OR_OTHER|||||||0.292||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.292
92307127|NCT01193127|184515261|SUPERIORITY_OR_OTHER|||||||0.228||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.228
92307128|NCT01193127|184515261|SUPERIORITY_OR_OTHER|||||||0.564||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.564
92307129|NCT01193127|184515261|SUPERIORITY_OR_OTHER|||||||0.755||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.755
92307130|NCT01193127|184515262|SUPERIORITY_OR_OTHER|||||||0.018||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.018
92307131|NCT01193127|184515262|SUPERIORITY_OR_OTHER|||||||0.292||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.292
92307132|NCT01193127|184515262|SUPERIORITY_OR_OTHER|||||||0.298||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.298
92307133|NCT01193127|184515263|SUPERIORITY_OR_OTHER|||||||0.271||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.271
92307134|NCT01193127|184515263|SUPERIORITY_OR_OTHER|||||||0.345||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.345
92307135|NCT01193127|184515263|SUPERIORITY_OR_OTHER|||||||0.096||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.096
92307136|NCT01193127|184515264|SUPERIORITY_OR_OTHER|||||||0.32||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.320
92307137|NCT01193127|184515264|SUPERIORITY_OR_OTHER|||||||0.39||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.390
92307138|NCT01193127|184515264|SUPERIORITY_OR_OTHER|||||||0.23||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.230
92307139|NCT01193127|184515265|SUPERIORITY_OR_OTHER|||||||0.778||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.778
92307140|NCT01193127|184515265|SUPERIORITY_OR_OTHER|||||||0.348||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.348
92307141|NCT01193127|184515265|SUPERIORITY_OR_OTHER|||||||0.477||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.477
92307142|NCT01193127|184515266|SUPERIORITY_OR_OTHER|||||||0.374||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.374
92307143|NCT01193127|184515266|SUPERIORITY_OR_OTHER|||||||0.265||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.265
92307144|NCT01193127|184515266|SUPERIORITY_OR_OTHER|||||||0.555||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.555
92307145|NCT01193127|184515267|SUPERIORITY_OR_OTHER|||||||0.031||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.031
92307146|NCT01193127|184515267|SUPERIORITY_OR_OTHER|||||||0.059||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.059
92307147|NCT01193127|184515267|SUPERIORITY_OR_OTHER|||||||0.472||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.472
92307148|NCT01193127|184515268|SUPERIORITY_OR_OTHER|||||||0.476||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.476
92307149|NCT01193127|184515268|SUPERIORITY_OR_OTHER|||||||0.169||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.169
92307150|NCT01193127|184515268|SUPERIORITY_OR_OTHER|||||||0.31||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.310
92307151|NCT01193127|184515269|SUPERIORITY_OR_OTHER|||||||0.075||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.075
92307152|NCT01193127|184515269|SUPERIORITY_OR_OTHER|||||||0.005||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.005
92307153|NCT01193127|184515269|SUPERIORITY_OR_OTHER|||||||0.078||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.078
92307154|NCT01193127|184515270|SUPERIORITY_OR_OTHER|||||||0.226||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.226
92307155|NCT01193127|184515270|SUPERIORITY_OR_OTHER|||||||0.357||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.357
92307156|NCT01193127|184515270|SUPERIORITY_OR_OTHER|||||||0.291||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.291
92307157|NCT01193127|184515271|SUPERIORITY_OR_OTHER|||||||0.172||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.172
92307158|NCT01193127|184515271|SUPERIORITY_OR_OTHER|||||||0.547||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.547
92307159|NCT01193127|184515271|SUPERIORITY_OR_OTHER|||||||0.921||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wicoxon rank-sum test|||||||0.921
92307160|NCT01193127|184515272|SUPERIORITY_OR_OTHER|||||||0.701||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.701
92307161|NCT01193127|184515272|SUPERIORITY_OR_OTHER|||||||0.089||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.089
92307162|NCT01193127|184515272|SUPERIORITY_OR_OTHER|||||||0.095||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.095
92307163|NCT01193127|184515273|SUPERIORITY_OR_OTHER|||||||0.086||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.086
92307164|NCT01193127|184515273|SUPERIORITY_OR_OTHER|||||||0.092||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wicoxon rank-sum test|||||||0.092
92307165|NCT01193127|184515273|SUPERIORITY_OR_OTHER|||||||0.12||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.120
92307166|NCT01193127|184515274|SUPERIORITY_OR_OTHER|||||||0.626||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.626
92307167|NCT01193127|184515274|SUPERIORITY_OR_OTHER|||||||0.736||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.736
92307168|NCT01193127|184515274|SUPERIORITY_OR_OTHER|||||||0.725||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.725
92307169|NCT01193127|184515275|SUPERIORITY_OR_OTHER|||||||0.22||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.220
92307170|NCT01193127|184515275|SUPERIORITY_OR_OTHER|||||||0.903||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.903
92307171|NCT01193127|184515275|SUPERIORITY_OR_OTHER|||||||0.463||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.463
92307172|NCT01193127|184515276|SUPERIORITY_OR_OTHER|||||||0.675||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.675
92307173|NCT01193127|184515276|SUPERIORITY_OR_OTHER|||||||0.825||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|WIlcoxon rank-sum test|||||||0.825
92307174|NCT01193127|184515276|SUPERIORITY_OR_OTHER|||||||0.668||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.668
92307175|NCT01193127|184515277|SUPERIORITY_OR_OTHER|||||||0.2066||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.2066
92307176|NCT01193127|184515277|SUPERIORITY_OR_OTHER|||||||0.2066||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.2066
92307177|NCT01193127|184515277|SUPERIORITY_OR_OTHER|||||||0.5263||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.5263
92307178|NCT01193127|184515278|SUPERIORITY_OR_OTHER|||||||0.4222||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.4222
92307179|NCT01193127|184515278|SUPERIORITY_OR_OTHER|||||||0.2712||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.2712
92307180|NCT01193127|184515278|SUPERIORITY_OR_OTHER|||||||0.8819||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.8819
92307181|NCT01193127|184515279|SUPERIORITY_OR_OTHER|||||||0.051||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.0510
92307182|NCT01193127|184515279|SUPERIORITY_OR_OTHER|||||||0.8084||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.8084
92307183|NCT01193127|184515279|SUPERIORITY_OR_OTHER|||||||0.1495||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.1495
92307184|NCT01193127|184515280|SUPERIORITY_OR_OTHER|||||||0.4099||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.4099
92188942|NCT00936065|184275893|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0058
92188943|NCT00936065|184275893|SUPERIORITY_OR_OTHER|||||||0.0127|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0127
92307185|NCT01193127|184515280|SUPERIORITY_OR_OTHER|||||||0.6499||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.6499
92307186|NCT01193127|184515280|SUPERIORITY_OR_OTHER|||||||0.0765||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.0765
92188944|NCT00936065|184275893|SUPERIORITY_OR_OTHER|||||||0.0068|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0068
92188945|NCT00936065|184275893|SUPERIORITY_OR_OTHER|||||||0.0096|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.0096
92188946|NCT00936065|184275893|SUPERIORITY_OR_OTHER|||||||0.0132|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0132
92188947|NCT00936065|184275894|SUPERIORITY_OR_OTHER|||||||0.6904|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.6904
92307187|NCT01193127|184515281|SUPERIORITY_OR_OTHER|||||||0.0688||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.0688
92307188|NCT01193127|184515281|SUPERIORITY_OR_OTHER|||||||0.0314||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.0314
92307189|NCT01193127|184515281|SUPERIORITY_OR_OTHER|||||||0.0775||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.0775
92188948|NCT00936065|184275894|SUPERIORITY_OR_OTHER|||||||0.7021|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.7021
92188949|NCT00936065|184275894|SUPERIORITY_OR_OTHER|||||||0.2199|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.2199
92307190|NCT01193127|184515282|SUPERIORITY_OR_OTHER|||||||0.5369||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.5369
92188950|NCT00936065|184275894|SUPERIORITY_OR_OTHER|||||||0.5071|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.5071
92188951|NCT00936065|184275894|SUPERIORITY_OR_OTHER|||||||0.4765|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.4765
92188952|NCT00936065|184275894|SUPERIORITY_OR_OTHER|||||||0.8662|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.8662
92307191|NCT01193127|184515282|SUPERIORITY_OR_OTHER|||||||0.3763||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.3763
92307192|NCT01193127|184515282|SUPERIORITY_OR_OTHER|||||||0.6144||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.6144
92188953|NCT00936065|184275895|SUPERIORITY_OR_OTHER|||||||0.1144|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.1144
92188954|NCT00936065|184275895|SUPERIORITY_OR_OTHER|||||||0.4509|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.4509
92188955|NCT00936065|184275895|SUPERIORITY_OR_OTHER|||||||0.435|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.4350
92188956|NCT00936065|184275895|SUPERIORITY_OR_OTHER|||||||0.6085|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.6085
92188957|NCT00936065|184275895|SUPERIORITY_OR_OTHER|||||||0.2582|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.2582
92188958|NCT00936065|184275895|SUPERIORITY_OR_OTHER|||||||0.549|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.5490
92188959|NCT00936065|184275896|SUPERIORITY_OR_OTHER|||||||0.3287|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.3287
92188960|NCT00936065|184275896|SUPERIORITY_OR_OTHER|||||||0.4149|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.4149
92188961|NCT00936065|184275896|SUPERIORITY_OR_OTHER|||||||0.3837|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.3837
92188962|NCT00936065|184275896|SUPERIORITY_OR_OTHER|||||||0.6777|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.6777
92188963|NCT00936065|184275896|SUPERIORITY_OR_OTHER|||||||0.4976|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.4976
92188964|NCT00936065|184275896|SUPERIORITY_OR_OTHER|||||||0.4189|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.4189
92188965|NCT00936065|184275897|SUPERIORITY_OR_OTHER|||||||0.476|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.4760
92188966|NCT00936065|184275897|SUPERIORITY_OR_OTHER|||||||0.404|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.4040
92307193|NCT01193127|184515283|SUPERIORITY_OR_OTHER|||||||0.1374||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.1374
92307194|NCT01193127|184515283|SUPERIORITY_OR_OTHER|||||||0.9146||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.9146
92307195|NCT01193127|184515283|SUPERIORITY_OR_OTHER|||||||0.7599||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.7599
92307196|NCT01193127|184515284|SUPERIORITY_OR_OTHER|||||||0.317||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.317
92307197|NCT01193127|184515284|SUPERIORITY_OR_OTHER|||||||0.317||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.317
92307198|NCT01193127|184515284|SUPERIORITY_OR_OTHER|||||||1||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||1.000
92307199|NCT01193127|184515285|SUPERIORITY_OR_OTHER|||||||0.559||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.559
92307200|NCT01193127|184515285|SUPERIORITY_OR_OTHER|||||||0.647||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.647
92307201|NCT01193127|184515285|SUPERIORITY_OR_OTHER|||||||0.559||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.559
92307202|NCT01193127|184515286|SUPERIORITY_OR_OTHER|||||||0.317||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.317
92307203|NCT01193127|184515286|SUPERIORITY_OR_OTHER|||||||0.335||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.335
92307204|NCT01193127|184515286|SUPERIORITY_OR_OTHER|||||||0.317||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.317
92307205|NCT01193127|184515287|SUPERIORITY_OR_OTHER|||||||1||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||1.000
92307206|NCT01193127|184515287|SUPERIORITY_OR_OTHER|||||||0.559||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.559
92307207|NCT01193127|184515287|SUPERIORITY_OR_OTHER|||||||1||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||1.000
92307208|NCT01193127|184515288|SUPERIORITY_OR_OTHER|||||||0.824||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.824
92307209|NCT01193127|184515288|SUPERIORITY_OR_OTHER|||||||0.476||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.476
92307210|NCT01193127|184515288|SUPERIORITY_OR_OTHER|||||||0.281||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.281
92188967|NCT00936065|184275897|SUPERIORITY_OR_OTHER|||||||0.4753|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.4753
92188968|NCT00936065|184275897|SUPERIORITY_OR_OTHER|||||||0.5084|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.5084
92188969|NCT00936065|184275897|SUPERIORITY_OR_OTHER|||||||0.2293|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.2293
92188970|NCT00936065|184275897|SUPERIORITY_OR_OTHER|||||||0.3822|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.3822
92188971|NCT00936065|184275898|SUPERIORITY_OR_OTHER|||||||0.2691|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.2691
92188972|NCT00936065|184275898|SUPERIORITY_OR_OTHER|||||||0.0142|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0142
92188973|NCT00936065|184275898|SUPERIORITY_OR_OTHER|||||||0.0383|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0383
92188974|NCT00936065|184275898|SUPERIORITY_OR_OTHER|||||||0.0026|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0026
92188975|NCT00936065|184275898|SUPERIORITY_OR_OTHER|||||||0.0475|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.0475
92188976|NCT00936065|184275898|SUPERIORITY_OR_OTHER|||||||0.0205|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0205
92188977|NCT00936065|184275899|SUPERIORITY_OR_OTHER|||||||0.0512|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0512
92188978|NCT00936065|184275899|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0024
92188979|NCT00936065|184275899|SUPERIORITY_OR_OTHER|||||||0.0946|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0946
92188980|NCT00936065|184275899|SUPERIORITY_OR_OTHER|||||||0.0935|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0935
92188981|NCT00936065|184275899|SUPERIORITY_OR_OTHER|||||||0.2073|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.2073
92188982|NCT00936065|184275899|SUPERIORITY_OR_OTHER|||||||0.3415|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.3415
92188983|NCT00936065|184275900|SUPERIORITY_OR_OTHER|||||||0.0202|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0202
92188984|NCT00936065|184275900|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0090
92307211|NCT01193127|184515289|SUPERIORITY_OR_OTHER|||||||0.842||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.842
92307212|NCT01193127|184515289|SUPERIORITY_OR_OTHER|||||||0.619||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.619
92307213|NCT01193127|184515289|SUPERIORITY_OR_OTHER|||||||0.711||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.711
92307214|NCT01193127|184515290|SUPERIORITY_OR_OTHER|||||||0.773||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.773
92307215|NCT01193127|184515290|SUPERIORITY_OR_OTHER|||||||0.592||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.592
92307216|NCT01193127|184515290|SUPERIORITY_OR_OTHER|||||||0.787||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.787
92307217|NCT01193127|184515291|SUPERIORITY_OR_OTHER|||||||0.695||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.695
92307218|NCT01193127|184515291|SUPERIORITY_OR_OTHER|||||||0.166||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.166
92307219|NCT01193127|184515291|SUPERIORITY_OR_OTHER|||||||0.987||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.987
92307220|NCT01193127|184515292|SUPERIORITY_OR_OTHER|||||||0.134||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.134
92307221|NCT01193127|184515292|SUPERIORITY_OR_OTHER|||||||0.71||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.710
92307222|NCT01193127|184515292|SUPERIORITY_OR_OTHER|||||||0.31||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.310
92307223|NCT01193127|184515293|SUPERIORITY_OR_OTHER|||||||0.086||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.086
92307224|NCT01193127|184515293|SUPERIORITY_OR_OTHER|||||||0.183||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.183
92307225|NCT01193127|184515293|SUPERIORITY_OR_OTHER|||||||0.029||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.029
92307226|NCT01193127|184515294|SUPERIORITY_OR_OTHER|||||||0.206||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.206
92307227|NCT01193127|184515294|SUPERIORITY_OR_OTHER|||||||0.021||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.021
92307228|NCT01193127|184515294|SUPERIORITY_OR_OTHER|||||||0.026||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.026
92307229|NCT01193127|184515295|SUPERIORITY_OR_OTHER|||||||0.822||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.822
92307230|NCT01193127|184515295|SUPERIORITY_OR_OTHER|||||||0.424||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.424
92307231|NCT01193127|184515295|SUPERIORITY_OR_OTHER|||||||0.695||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.695
92188985|NCT00936065|184275900|SUPERIORITY_OR_OTHER|||||||0.0742|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0742
92307232|NCT01193127|184515296|SUPERIORITY_OR_OTHER|||||||0.489||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.489
92188986|NCT00936065|184275900|SUPERIORITY_OR_OTHER|||||||0.0445|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0445
92188987|NCT00936065|184275900|SUPERIORITY_OR_OTHER|||||||0.2211|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.2211
92307233|NCT01193127|184515296|SUPERIORITY_OR_OTHER|||||||0.459||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.459
92307234|NCT01193127|184515296|SUPERIORITY_OR_OTHER|||||||0.99||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.990
92307235|NCT01193127|184515298|SUPERIORITY_OR_OTHER|||||||0.4575||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.4575
92307236|NCT01193127|184515298|SUPERIORITY_OR_OTHER|||||||0.8318||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.8318
92307237|NCT01193127|184515298|SUPERIORITY_OR_OTHER|||||||0.8946||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.8946
92307238|NCT01193127|184515299|SUPERIORITY_OR_OTHER|||||||0.157||||||Ocular pain medications will be identified by reviewing concomitant medications. Subject incidence of ocular pain medication use at day 1 and post day 1 will be presented. Treatment comparisons will be performed using methodology 1.|Cochran-Mantel-Haenszel|||||||0.1570
92307239|NCT01193127|184515299|SUPERIORITY_OR_OTHER|||||||0.0839||||||Ocular pain medications will be identified by reviewing concomitant medications. Subject incidence of ocular pain medication use at day 1 and post day 1 will be presented. Treatment comparisons will be performed using methodology 1.|Cochran-Mantel-Haenszel|||||||0.0839
92307240|NCT01193127|184515299|SUPERIORITY_OR_OTHER|||||||0.092||||||Ocular pain medications will be identified by reviewing concomitant medications. Subject incidence of ocular pain medication use at day 1 and post day 1 will be presented. Treatment comparisons will be performed using methodology 1.|Cochran-Mantel-Haenszel|||||||0.0920
92307241|NCT01193127|184515300|SUPERIORITY_OR_OTHER|||||||0.711||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.711
92307242|NCT01193127|184515300|SUPERIORITY_OR_OTHER|||||||0.253||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.253
92307243|NCT01193127|184515300|SUPERIORITY_OR_OTHER|||||||0.104||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.104
92307244|NCT02081209|184515314|OTHER||sucess percentage|82.4|||||TWO_SIDED|95.0|76.4|87.3||||||||87.3|76.4|
92307245|NCT02081209|184515314|OTHER||sucess percentage|77.4|||||TWO_SIDED|95.0|68.1|85.1||||||||85.1|68.1|
92307246|NCT02081209|184515314|OTHER||sucess percentage|79.2|||||TWO_SIDED|95.0|65.0|89.5||||||||89.5|65.0|
92188988|NCT00936065|184275900|SUPERIORITY_OR_OTHER|||||||0.1982|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.1982
92188989|NCT00936065|184275901|SUPERIORITY_OR_OTHER|||||||0.0409|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0409
92307247|NCT02081209|184515314|OTHER||sucess percentage|94.0|||||TWO_SIDED|95.0|84.6|98.8||||||||98.8|84.6|
92307248|NCT02081209|184515315|OTHER||Mean Difference (Net)|2.3|STANDARD_DEVIATION|1.9|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92307249|NCT02081209|184515315|OTHER||Mean Difference (Net)|1.3|||||TWO_SIDED|95.0|0.5|2.1||||||||2.1|0.5|
92307250|NCT02081209|184515315|OTHER||Mean Difference (Net)|3.0|||||TWO_SIDED|95.0|2.0|4.1||||||||4.1|2.0|
92307251|NCT02081209|184515316|OTHER||||||||||||||||||Data from the 16-week follow-up questionnaire were tabulated for all subjects with completed questionnaires.. All confidence intervals were calculated at 95%. Alpha was calculated to be 0.05, critical probability (p\*) was calculated to be 0.975. Assuming normal distribution of survey recipients, a standard deviation of 1.96 is used to calculate the standard margin of error.|||
92307252|NCT02022748|184515322|OTHER||Ratio of Geometric Least Square Means|151.13|||||TWO_SIDED|90.0|112.03|203.86|||||Treatment H is the reference treatment.|||203.86|112.03|
92307253|NCT02022748|184515322|OTHER||Ratio of Geometric Least Square Means|161.38|||||TWO_SIDED|90.0|122.52|212.58|||||Treatment H is the reference treatment.|||212.58|122.52|
92307254|NCT02022748|184515322|OTHER||Ratio of Geometric Least Square Means|90.1|||||TWO_SIDED|90.0|78.07|103.98|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment B is the reference treatment.|||103.98|78.07|
92307255|NCT02022748|184515323|OTHER||Ratio of Geometric Least Square Means|117.09|||||TWO_SIDED|90.0|84.51|162.22|||||Treatment H is the reference treatment.|||162.22|84.51|
92307256|NCT02022748|184515323|OTHER||Ratio of Geometric Least Square Means|136.27|||||TWO_SIDED|90.0|95.38|194.7|||||Treatment H is the reference treatment.|||194.70|95.38|
92307257|NCT02022748|184515323|OTHER||Ratio of Geometric Least Square Means|82.29|||||TWO_SIDED|90.0|68.43|98.96|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment B is the reference treatment.|||98.96|68.43|
92307258|NCT02022748|184515324|OTHER||Ratio of Geometric Least Square Means|137.75|||||TWO_SIDED|90.0|105.7|179.52|||||Treatment H is the reference treatment.|||179.52|105.70|
92188990|NCT00936065|184275901|SUPERIORITY_OR_OTHER|||||||0.145|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.1450
92307259|NCT02022748|184515324|OTHER||Ratio of Geometric Least Square Means|148.76|||||TWO_SIDED|90.0|115.07|192.32|||||Treatment H is the reference treatment.|||192.32|115.07|
92307260|NCT02022748|184515324|OTHER||Ratio of Geometric Least Square Means|90.35|||||TWO_SIDED|90.0|77.55|105.27|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment B is the reference treatment.|||105.27|77.55|
92307261|NCT02022748|184515325|OTHER||Ratio of Geometric Least Square Means|112.73|||||TWO_SIDED|90.0|88.61|143.42|||||Treatment H is the reference treatment.|||143.42|88.61|
92307262|NCT02022748|184515325|OTHER||Ratio of Geometric Least Square Means|114.37|||||TWO_SIDED|90.0|91.19|143.45|||||Treatment H is the reference treatment.|||143.45|91.19|
92188991|NCT00936065|184275901|SUPERIORITY_OR_OTHER|||||||0.201|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.2010
92188992|NCT00936065|184275901|SUPERIORITY_OR_OTHER|||||||0.0424|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0424
92188993|NCT00936065|184275901|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.0090
92307263|NCT02022748|184515325|OTHER||Ratio of Geometric Least Square Means|93.13|||||TWO_SIDED|90.0|80.31|108.0|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment B is the reference treatment.|||108.00|80.31|
92307264|NCT02022748|184515326|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|||||TWO_SIDED|90.0|-0.97|0.75|||||Treatment A - Treatment H.|||0.75|-0.97|
92307265|NCT02022748|184515326|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|||||TWO_SIDED|90.0|-0.96|1.52|||||Treatment B - Treatment H.|||1.52|-0.96|
92307266|NCT02022748|184515326|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.36|||||TWO_SIDED|90.0|-1.73|1.02|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment A - Treatment B.|||1.02|-1.73|
92307267|NCT02022748|184515327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.07|||||TWO_SIDED|90.0|-2.62|0.48|||||Treatment A - Treatment H.|||0.48|-2.62|
92307268|NCT02022748|184515327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.05|||||TWO_SIDED|90.0|-2.46|0.37|||||Treatment B - Treatment H.|||0.37|-2.46|
92188994|NCT00936065|184275901|SUPERIORITY_OR_OTHER|||||||0.0116|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0116
92188995|NCT00936065|184275902|SUPERIORITY_OR_OTHER|||||||0.3355|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.3355
92307269|NCT02022748|184515327|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.5|||||TWO_SIDED|90.0|-1.27|0.27|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment A - Treatment B.|||0.27|-1.27|
92307270|NCT06378749|184515340|OTHER|||||||0.029|||||||t-test, 2 sided|||||||.029
92307271|NCT06378749|184515341|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92307272|NCT06378749|184515342|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92307273|NCT06378749|184515343|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92307274|NCT06378749|184515344|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92188996|NCT00936065|184275902|SUPERIORITY_OR_OTHER|||||||0.0341|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0341
92188997|NCT00936065|184275902|SUPERIORITY_OR_OTHER|||||||0.0899|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0899
92188998|NCT00936065|184275902|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0062
92188999|NCT00936065|184275902|SUPERIORITY_OR_OTHER|||||||0.1241|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.1241
92307275|NCT02213510|184515389|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92307276|NCT02213510|184515390|SUPERIORITY_OR_OTHER|||||||0.655|TWO_SIDED||||||t-test, 2 sided|||||||0.655
92307277|NCT02213510|184515391|SUPERIORITY_OR_OTHER|||||||0.811|TWO_SIDED||||||t-test, 2 sided|||||||0.811
92307278|NCT02213510|184515392|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||t-test, 2 sided|||||||1.00
92307279|NCT02213510|184515393|SUPERIORITY_OR_OTHER|||||||0.462|TWO_SIDED||||||t-test, 2 sided|||||||0.462
92307280|NCT02213510|184515394|SUPERIORITY_OR_OTHER|||||||0.646|TWO_SIDED||||||t-test, 2 sided|||||||0.646
92189000|NCT00936065|184275902|SUPERIORITY_OR_OTHER|||||||0.0393|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0393
92307281|NCT02213510|184515395|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|||||||0.510
92307282|NCT02213510|184515396|SUPERIORITY_OR_OTHER|||||||0.651|TWO_SIDED||||||t-test, 2 sided|||||||0.651
92307283|NCT02213510|184515397|SUPERIORITY_OR_OTHER|||||||0.588|TWO_SIDED||||||t-test, 2 sided|||||||0.588
92307284|NCT02213510|184515398|SUPERIORITY_OR_OTHER|||||||0.858|TWO_SIDED||||||t-test, 2 sided|||||||0.858
92189001|NCT00936065|184275903|SUPERIORITY_OR_OTHER|||||||0.3402|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.3402
92189002|NCT00936065|184275903|SUPERIORITY_OR_OTHER|||||||0.1184|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.1184
92189003|NCT00936065|184275903|SUPERIORITY_OR_OTHER|||||||0.0104|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0104
92189004|NCT00936065|184275903|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0010
92189005|NCT00936065|184275903|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.0250
92189006|NCT00936065|184275903|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0410
92189007|NCT00936065|184275904|SUPERIORITY_OR_OTHER|||||||0.0894|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0894
92189008|NCT00936065|184275904|SUPERIORITY_OR_OTHER|||||||0.0084|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0084
92189009|NCT00936065|184275904|SUPERIORITY_OR_OTHER|||||||0.0727|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0727
92189010|NCT00936065|184275904|SUPERIORITY_OR_OTHER|||||||0.0337|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0337
92189011|NCT00936065|184275904|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.1380
92189012|NCT00936065|184275904|SUPERIORITY_OR_OTHER|||||||0.3415|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.3415
92189013|NCT00936065|184275905|SUPERIORITY_OR_OTHER|||||||0.4407|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.4407
92189014|NCT00936065|184275905|SUPERIORITY_OR_OTHER|||||||0.1768|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.1768
92307285|NCT02213510|184515399|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||t-test, 2 sided|||||||1.00
92307286|NCT03954834|184515400|SUPERIORITY||LS Mean Difference|-1.91|||<|0.001|TWO_SIDED|95.0|-2.18|-1.63|||Mixed Models Analysis|||||-1.63|-2.18|<0.001
92307287|NCT03954834|184515400|SUPERIORITY||LS Mean Difference|-1.93|||<|0.001|TWO_SIDED|95.0|-2.21|-1.65|||Mixed Models Analysis|||||-1.65|-2.21|<0.001
92307288|NCT03954834|184515400|SUPERIORITY||LS Mean Difference|-2.11|||<|0.001|TWO_SIDED|95.0|-2.39|-1.83|||Mixed Models Analysis|||||-1.83|-2.39|<0.001
92307289|NCT03954834|184515401|SUPERIORITY||LS Mean Difference|-6.3|||<|0.001|TWO_SIDED|95.0|-7.8|-4.7|||Mixed Models Analysis|||||-4.7|-7.8|<0.001
92307290|NCT03954834|184515401|SUPERIORITY||LS Mean Difference|-7.1|||<|0.001|TWO_SIDED|95.0|-8.6|-5.5|||Mixed Models Analysis|||||-5.5|-8.6|<0.001
92307291|NCT03954834|184515401|SUPERIORITY||LS Mean Difference|-8.8|||<|0.001|TWO_SIDED|95.0|-10.3|-7.2|||Mixed Models Analysis|||||-7.2|-10.3|<0.001
92307292|NCT03954834|184515402|SUPERIORITY||Odds Ratio (OR)|49.0|||<|0.001|TWO_SIDED|95.0|21.12|113.67|||Regression, Logistic|||||113.67|21.12|<0.001
92307293|NCT03954834|184515402|SUPERIORITY||Odds Ratio (OR)|80.39|||<|0.001|TWO_SIDED|95.0|31.8|203.19|||Regression, Logistic|||||203.19|31.80|<0.001
92307294|NCT03954834|184515402|SUPERIORITY||Odds Ratio (OR)|52.95|||<|0.001|TWO_SIDED|95.0|22.3|125.73|||Regression, Logistic|||||125.73|22.30|<0.001
92307295|NCT03954834|184515403|SUPERIORITY||LS Mean Difference|-1.5||||0.776|TWO_SIDED|95.0|-11.9|8.9|||Mixed Models Analysis|||||8.9|-11.9|0.776
92307296|NCT03954834|184515403|SUPERIORITY||LS Mean Difference|-2.6||||0.622|TWO_SIDED|95.0|-13.0|7.8|||Mixed Models Analysis|||||7.8|-13.0|0.622
92307297|NCT03954834|184515403|SUPERIORITY||LS Mean Difference|-0.6||||0.908|TWO_SIDED|95.0|-11.1|9.8|||Mixed Models Analysis|||||9.8|-11.1|0.908
92307298|NCT03954834|184515404|SUPERIORITY||Odds Ratio (OR)|40.28|||<|0.001|TWO_SIDED|95.0|7.74|209.71|||Regression, Logistic|||||209.71|7.74|<0.001
92307299|NCT03954834|184515404|SUPERIORITY||Odds Ratio (OR)|34.12|||<|0.001|TWO_SIDED|95.0|6.53|178.19|||Regression, Logistic|||||178.19|6.53|<0.001
92307300|NCT03954834|184515404|SUPERIORITY||Odds Ratio (OR)|85.13|||<|0.001|TWO_SIDED|95.0|16.36|443.13|||Regression, Logistic|||||443.13|16.36|<0.001
92307301|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-37.7|||<|0.001|TWO_SIDED|95.0|-44.1|-31.2|||Mixed Models Analysis|||Morning Premeal - Fasting||-31.2|-44.1|<0.001
92307302|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-38.6|||<|0.001|TWO_SIDED|95.0|-45.1|-32.2|||Mixed Models Analysis|||Morning Premeal - Fasting||-32.2|-45.1|<0.001
92307303|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-36.5|||<|0.001|TWO_SIDED|95.0|-43.1|-29.8|||Mixed Models Analysis|||Morning Premeal - Fasting||-29.8|-43.1|<0.001
92307304|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-57.9|||<|0.001|TWO_SIDED|95.0|-68.4|-47.4|||Mixed Models Analysis|||Morning 2-hour Postmeal||-47.4|-68.4|<0.001
92307305|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-49.7|||<|0.001|TWO_SIDED|95.0|-60.3|-39.2|||Mixed Models Analysis|||Morning 2-hour Postmeal||-39.2|-60.3|<0.001
92307306|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-57.3|||<|0.001|TWO_SIDED|95.0|-68.1|-46.4|||Mixed Models Analysis|||Morning 2-hour Postmeal||-46.4|-68.1|<0.001
92307307|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-40.9|||<|0.001|TWO_SIDED|95.0|-49.6|-32.2|||Mixed Models Analysis|||Midday Premeal||-32.2|-49.6|<0.001
92307308|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-39.9|||<|0.001|TWO_SIDED|95.0|-48.6|-31.2|||Mixed Models Analysis|||Midday Premeal||-31.2|-48.6|<0.001
92307309|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-40.0|||<|0.001|TWO_SIDED|95.0|-49.0|-31.1|||Mixed Models Analysis|||Midday Premeal||-31.1|-49.0|<0.001
92307310|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-51.4|||<|0.001|TWO_SIDED|95.0|-62.5|-40.4|||Mixed Models Analysis|||Midday 2-hour Postmeal||-40.4|-62.5|<0.001
92307311|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-47.3|||<|0.001|TWO_SIDED|95.0|-58.4|-36.2|||Mixed Models Analysis|||Midday 2-hour Postmeal||-36.2|-58.4|<0.001
92307312|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-50.7|||<|0.001|TWO_SIDED|95.0|-62.1|-39.3|||Mixed Models Analysis|||Midday 2-hour Postmeal||-39.3|-62.1|<0.001
92307313|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-39.0|||<|0.001|TWO_SIDED|95.0|-47.6|-30.4|||Mixed Models Analysis|||Evening Premeal||-30.4|-47.6|<0.001
92307314|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-39.2|||<|0.001|TWO_SIDED|95.0|-47.9|-30.6|||Mixed Models Analysis|||Evening Premeal||-30.6|-47.9|<0.001
92307315|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-36.4|||<|0.001|TWO_SIDED|95.0|-45.3|-27.5|||Mixed Models Analysis|||Evening Premeal||-27.5|-45.3|<0.001
92307316|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-51.7|||<|0.001|TWO_SIDED|95.0|-63.2|-40.1|||Mixed Models Analysis|||Evening 2-hour Postmeal||-40.1|-63.2|<0.001
92307317|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-52.5|||<|0.001|TWO_SIDED|95.0|-64.1|-40.9|||Mixed Models Analysis|||Evening 2-hour Postmeal||-40.9|-64.1|<0.001
92307318|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-53.2|||<|0.001|TWO_SIDED|95.0|-65.1|-41.3|||Mixed Models Analysis|||Evening 2-hour Postmeal||-41.3|-65.1|<0.001
92307319|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-48.0|||<|0.001|TWO_SIDED|95.0|-58.6|-37.4|||Mixed Models Analysis|||Bedtime||-37.4|-58.6|<0.001
92189015|NCT00936065|184275905|SUPERIORITY_OR_OTHER|||||||0.4636|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.4636
92189016|NCT00936065|184275905|SUPERIORITY_OR_OTHER|||||||0.334|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.3340
92307320|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-50.7|||<|0.001|TWO_SIDED|95.0|-61.3|-40.1|||Mixed Models Analysis|||Bedtime||-40.1|-61.3|<0.001
92307321|NCT03954834|184515405|SUPERIORITY||LS Mean Difference|-51.7|||<|0.001|TWO_SIDED|95.0|-62.6|-40.9|||Mixed Models Analysis|||||-40.9|-62.6|<0.001
92307322|NCT03954834|184515406|SUPERIORITY||Odds Ratio (OR)|12.4|||<|0.001|TWO_SIDED|95.0|6.43|23.94|||Regression, Logistic|||||23.94|6.43|<0.001
92307323|NCT03954834|184515406|SUPERIORITY||Odds Ratio (OR)|21.13|||<|0.001|TWO_SIDED|95.0|10.59|42.18|||Regression, Logistic|||||42.18|10.59|<0.001
92189017|NCT00936065|184275905|SUPERIORITY_OR_OTHER|||||||0.1785|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.1785
92189018|NCT00936065|184275905|SUPERIORITY_OR_OTHER|||||||0.7428|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.7428
92189019|NCT00936065|184275906|SUPERIORITY_OR_OTHER|||||||0.5377|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Baseline||||0.5377
92189020|NCT00936065|184275906|SUPERIORITY_OR_OTHER|||||||0.1419|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 2||||0.1419
92307324|NCT03954834|184515406|SUPERIORITY||Odds Ratio (OR)|20.1|||<|0.001|TWO_SIDED|95.0|10.09|40.04|||Regression, Logistic|||||40.04|10.09|<0.001
92307325|NCT03469336|184515409|OTHER|Ratio|Mean Ratio (Test/Reference)|1.0109|STANDARD_ERROR_OF_MEAN|0.732||0.9883|TWO_SIDED|95.0|0.2364|4.3226|||Mixed Models Analysis|||The efficacy assessment of PF-06763809 was performed for the change from baseline in log of the psoriatic skin infiltrate thickness/EPB on Day 19 using a longitudinal analysis of covariance model, with treatment, visit, treatment by visit interaction as main effects and the log of the psoriatic skin infiltrate thickness/EPB at baseline as covariate.||4.3226|0.2364|0.9883
92307326|NCT03469336|184515409|OTHER|Ratio|Mean Ratio (Test/Reference)|0.9979|STANDARD_ERROR_OF_MEAN|0.732||0.9977|TWO_SIDED|95.0|0.2334|4.2671|||Mixed Models Analysis|||The efficacy assessment of PF-06763809 was performed for the change from baseline in log of the psoriatic skin infiltrate thickness/EPB on Day 19 using a longitudinal analysis of covariance model, with treatment, visit, treatment by visit interaction as main effects and the log of the psoriatic skin infiltrate thickness/EPB at baseline as covariate.||4.2671|0.2334|0.9977
92307327|NCT03469336|184515409|OTHER|Ratio|Mean Ratio (Test/Reference)|1.1382|STANDARD_ERROR_OF_MEAN|0.732||0.86|TWO_SIDED|95.0|0.2662|4.867|||Mixed Models Analysis|||The efficacy assessment of PF-06763809 was performed for the change from baseline in log of the psoriatic skin infiltrate thickness/EPB on Day 19 using a longitudinal analysis of covariance model, with treatment, visit, treatment by visit interaction as main effects and the log of the psoriatic skin infiltrate thickness/EPB at baseline as covariate.||4.8670|0.2662|0.8600
92307328|NCT03469336|184515414|OTHER|Ratio|Mean Ratio (Test/Reference)|0.9979|STANDARD_ERROR_OF_MEAN|0.071||0.9763|TWO_SIDED|95.0|0.8588|1.1594|||Mixed Models Analysis|||To evaluate the AUC of psoriatic skin infiltrate thickness/EPB for PF-06763809 compared to vehicle.||1.1594|0.8588|0.9763
92307329|NCT03469336|184515414|OTHER|Ratio|Mean Ratio (Test/Reference)|0.9664|STANDARD_ERROR_OF_MEAN|0.051||0.5081|TWO_SIDED|95.0|0.8686|1.0752|||Mixed Models Analysis|||To evaluate the AUC of psoriatic skin infiltrate thickness/EPB for PF-06763809 compared to vehicle.||1.0752|0.8686|0.5081
92307330|NCT03469336|184515414|OTHER|Ratio|Mean Ratio (Test/Reference)|1.1155|STANDARD_ERROR_OF_MEAN|0.044||0.0249|TWO_SIDED|95.0|1.0157|1.2252|||Mixed Models Analysis|||To evaluate the AUC of psoriatic skin infiltrate thickness/EPB for PF-06763809 compared to vehicle.||1.2252|1.0157|0.0249
92307331|NCT03469336|184515415|OTHER|Ratio|Mean Ratio (Test/Reference)|0.7946|STANDARD_ERROR_OF_MEAN|0.732||0.754|TWO_SIDED|95.0|0.1858|3.3977|||Mixed Models Analysis|||The effect of PF-06763809 compared to calcipotriene/calcipotriol solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||3.3977|0.1858|0.7540
92307332|NCT03469336|184515415|OTHER|Ratio|Mean Ratio (Test/Reference)|0.7844|STANDARD_ERROR_OF_MEAN|0.732||0.7407|TWO_SIDED|95.0|0.1834|3.354|||Mixed Models Analysis|||The effect of PF-06763809 compared to calcipotriene/calcipotriol solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||3.3540|0.1834|0.7407
92307333|NCT03469336|184515415|OTHER|Ratio|Mean Ratio (Test/Reference)|0.8946|STANDARD_ERROR_OF_MEAN|0.732||0.8793|TWO_SIDED|95.0|0.2092|3.8256|||Mixed Models Analysis|||The effect of PF-06763809 compared to calcipotriene/calcipotriol solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||3.8256|0.2092|0.8793
92189021|NCT00936065|184275906|SUPERIORITY_OR_OTHER|||||||0.5391|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 4||||0.5391
92189022|NCT00936065|184275906|SUPERIORITY_OR_OTHER|||||||0.2589|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 8||||0.2589
92307334|NCT03469336|184515416|OTHER|Ratio|Mean Ratio (Test/Reference)|1.081321|STANDARD_ERROR_OF_MEAN|0.732|<|0.0001|TWO_SIDED|95.0|0.25287|4.623941|||Mixed Models Analysis|||The effect of PF-06763809 compared to betamethasone solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||4.623941|0.25287|<0.0001
92307335|NCT03469336|184515416|OTHER|Ratio|Mean Ratio (Test/Reference)|1.067453|STANDARD_ERROR_OF_MEAN|0.732|<|0.0001|TWO_SIDED|95.0|0.249631|4.564555|||Mixed Models Analysis|||The effect of PF-06763809 compared to betamethasone solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||4.564555|0.249631|<0.0001
92307336|NCT03469336|184515416|OTHER|Ratio|Mean Ratio (Test/Reference)|1.217483|STANDARD_ERROR_OF_MEAN|0.732|<|0.0001|TWO_SIDED|95.0|0.284708|5.206258|||Mixed Models Analysis|||The effect of PF-06763809 compared to betamethasone solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||5.206258|0.284708|<0.0001
92307337|NCT02603393|184515421|NON_INFERIORITY|Non-inferiority will be demonstrated if the 95% confidence interval of the treatment difference lies entirely to the right of (higher than) -50 mL.|Mean Difference (Final Values)|-0.026||||0.0404||95.0|-0.053|0.001||1 sided|Mixed Model for Repeated Measures Analys|||||0.001|-0.053|0.0404
92307338|NCT02603393|184515422|SUPERIORITY||Ratio of rates|1.08||||0.5802||95.0|0.83|1.4||2 sided|Generalized Linear Model Analysis|||||1.40|0.83|0.5802
92307339|NCT02603393|184515423|SUPERIORITY||Ratio of rates|1.08||||0.5651|TWO_SIDED|95.0|0.82|1.43||2-sided|Generalized Linear Model Analysis|||||1.43|0.82|0.5651
92307340|NCT02603393|184515424|SUPERIORITY||Ratio of rates|1.02||||0.9665|TWO_SIDED|95.0|0.44|2.34||2-sided|Generalized Linear Model Analysis|||||2.34|0.44|0.9665
92307341|NCT02603393|184515425|SUPERIORITY||Mean Difference (Final Values)|-0.026||||0.0573||95.0|-0.053|0.001||2-Sided|Mixed Model for Repeated Measures Analys|||||0.001|-0.053|0.0573
92307342|NCT02603393|184515426|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.0022||95.0|0.7|3.0||2-Sided|Mixed Model for Repeated Measures Analys|||||3.0|0.7|0.0022
92189023|NCT00936065|184275906|SUPERIORITY_OR_OTHER|||||||0.0635|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 12||||0.0635
92189024|NCT00936065|184275906|SUPERIORITY_OR_OTHER|||||||0.1172|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 18||||0.1172
92189025|NCT00936065|184275906|SUPERIORITY_OR_OTHER|||||||0.1247|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 24||||0.1247
92189026|NCT00936065|184275907|SUPERIORITY_OR_OTHER|||||||0.9429|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Baseline||||0.9429
92307343|NCT02603393|184515427|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.0221|TWO_SIDED|95.0|0.2|2.6||2-Sided|Mixed Model for Repeated measures Analys|||||2.6|0.2|0.0221
92307344|NCT02603393|184515428|SUPERIORITY||Mean Difference (Final Values)|-0.241||||0.1724||95.0|-0.587|0.105|||Mixed Model for Repeated Measures Analys|||||0.105|-0.587|0.1724
92307345|NCT02603393|184515429|SUPERIORITY||Mean Difference (Final Values)|-0.288||||0.1055||95.0|-0.638|0.061||2-Sided|Mixed Model for Repated Measures Analysi|||||0.061|-0.638|0.1055
92307346|NCT02603393|184515430|SUPERIORITY||Mean Difference (Final Values)|0.177||||0.0641||95.0|-0.01|0.365||2-Sided|Linear Mixed Model Analysis|||||0.365|-0.010|0.0641
92307347|NCT02603393|184515431|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.4107|TWO_SIDED|95.0|-0.025|0.061||2-Sided|Mixed Model for Repeated Measures Analys|||||0.061|-0.025|0.4107
92189027|NCT00936065|184275907|SUPERIORITY_OR_OTHER|||||||0.0927|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 2||||0.0927
92189028|NCT00936065|184275907|SUPERIORITY_OR_OTHER|||||||0.0151|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 4||||0.0151
92189029|NCT00936065|184275907|SUPERIORITY_OR_OTHER|||||||0.1124|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 8||||0.1124
92189030|NCT00936065|184275907|SUPERIORITY_OR_OTHER|||||||0.0242|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 12||||0.0242
92189031|NCT00936065|184275907|SUPERIORITY_OR_OTHER|||||||0.0237|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 18||||0.0237
92189032|NCT00936065|184275907|SUPERIORITY_OR_OTHER|||||||0.0176|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 24||||0.0176
92189033|NCT00738400|184275948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.76|||<|0.0001||95.0|-9.03|-4.49|||ANCOVA|||ANCOVA, baseline covariate, endpoint week 8 or LOCF. Factors: treatment, pooled centers. Ls mean at endpoint||-4.49|-9.03|<0.0001
92189034|NCT00738400|184275949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.71|||<|0.0001||95.0|-30.66|-10.76|||ANCOVA|||ANCOVA, baseline covariate, endpoint week 8 or LOCF. Factors: treatment, pooled centers. Ls mean at endpoint||-10.76|-30.66|<0.0001
92307348|NCT00593736|184515437|SUPERIORITY_OR_OTHER|||||||0.646||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|Least Squares (LS) means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the analysis of covariance (ANCOVA) model.||||0.646
92307349|NCT00593736|184515437|SUPERIORITY_OR_OTHER|||||||0.084||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.084
92307350|NCT00593736|184515437|SUPERIORITY_OR_OTHER|||||||0.929||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.929
92307351|NCT00593736|184515438|SUPERIORITY_OR_OTHER|||||||0.854||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS Means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.854
92307352|NCT00593736|184515438|SUPERIORITY_OR_OTHER|||||||0.383||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS Means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.383
92307353|NCT00593736|184515438|SUPERIORITY_OR_OTHER|||||||0.883||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS Means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.883
92307354|NCT00593736|184515439|SUPERIORITY_OR_OTHER|||||||0.365||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS Means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.365
92307355|NCT00593736|184515439|SUPERIORITY_OR_OTHER|||||||0.121||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.121
92307356|NCT00593736|184515439|SUPERIORITY_OR_OTHER|||||||0.269||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.269
92189035|NCT00738400|184275950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.16|||<|0.0001||95.0|-37.48|-14.83|||ANCOVA|||ANCOVA, baseline covariate, endpoint week 8 or LOCF. Factors: treatment, pooled centers. Ls mean at endpoint||-14.83|-37.48|<0.0001
92189036|NCT00738400|184275951|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Mantel Haenszel|||Mantel-Haenszel Test||||0.0004
92189037|NCT00738400|184275952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.57||||0.0003||95.0|-23.8|-7.34|||ANCOVA|||ANCOVA, baseline covariate, endpoint week 8 or LOCF. Factors: treatment, pooled centers. Ls mean at endpoint||-7.34|-23.80|0.0003
92307357|NCT00593736|184515440|SUPERIORITY_OR_OTHER|||||||0.92||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.920
92307358|NCT00593736|184515440|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.382
92307359|NCT00593736|184515440|SUPERIORITY_OR_OTHER|||||||0.439||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.439
92189038|NCT00738400|184275953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.33|||<|0.0001||95.0|-37.24|-17.43|||ANCOVA|||ANCOVA, baseline covariate, endpoint week 8 or LOCF. Factors: treatment, pooled centers. Ls mean at endpoint||-17.43|-37.24|<0.0001
92189039|NCT02255474|184275955|SUPERIORITY||Mean Difference (Final Values)|-1.01|||<|0.01|TWO_SIDED|||||Adjusted for multiple comparisons, treatment group p-value|Mixed Models Analysis|||Both eyes used in analysis adjusting for correlation.||||<0.01
92189040|NCT02255474|184275956|SUPERIORITY||quadratic coefficient|0.02||||0.05|TWO_SIDED||||||Mixed Models Analysis|||Individual subject eye length profiles were fit using quadratic equations as a function of gaze angle. The analysis of quadratic coefficients included treatment group, study year (categorical variable), and their interaction adjusted for age, study site, and ethnicity.||||0.05
92189041|NCT02255474|184275957|SUPERIORITY||regression coefficient|-0.12||||0.05|TWO_SIDED||||||Regression, Linear|Models control for age, sex, axial length at baseline, race, treatment group, treatment group by race interaction.||This analysis looks at the three-year change in spherical equivalent refractive error for different eccentricities of peripheral defocus measured with contact lenses in place||||0.05
92189042|NCT02255474|184275958|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.05|TWO_SIDED|||||Adjusted for multiple comparisons|Mixed Models Analysis|||Both eyes used in the analysis controlling for the correlation.||||0.05
92189043|NCT01082159|184275971|SUPERIORITY_OR_OTHER||change from baseline|3.59|STANDARD_DEVIATION|2.87|<|0.0001|TWO_SIDED|95.0|2.76|4.42|||t-test, 2 sided|||||4.42|2.76|<0.0001
92307360|NCT00593736|184515441|SUPERIORITY_OR_OTHER|||||||0.973||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.973
92307361|NCT00593736|184515441|SUPERIORITY_OR_OTHER|||||||0.117||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.117
92307362|NCT00593736|184515441|SUPERIORITY_OR_OTHER|||||||0.816||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.816
92307363|NCT00593736|184515442|SUPERIORITY_OR_OTHER|||||||0.661||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.661
92307364|NCT00593736|184515442|SUPERIORITY_OR_OTHER|||||||0.341||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.341
92189044|NCT01082159|184275972|SUPERIORITY_OR_OTHER||Change from Baseline|12.17|STANDARD_DEVIATION|19.14|<|0.0001|TWO_SIDED|95.0|6.64|17.71|||t-test, 2 sided|||||17.71|6.64|<0.0001
92189045|NCT01542502|184275974|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||ANOVA|||||||0.009
92189046|NCT01542502|184275975|SUPERIORITY_OR_OTHER|||||||0.87|||||||ANOVA|||||||0.87
92189047|NCT02009865|184275981|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-14.2||||0.017|TWO_SIDED|95.0|-26.2|-2.8|||Wilcoxon (Mann-Whitney)||The estimated median difference and its 95% CI were based on Hodges Lehmann procedure|Missing values were imputed using probabilities of missing estimated from logistic regression||-2.8|-26.2|0.017
92189048|NCT02009865|184275982|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-26.3||||0.0008|TWO_SIDED|95.0|-40.5|-11.5|||Wilcoxon (Mann-Whitney)||The estimated median difference and its 95% CI were based on Hodges Lehmann procedure.|Main analysis with missing values imputed using probabilities of missing estimated from logistic regression||-11.5|-40.5|0.0008
92189049|NCT02009865|184275983|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-9.0||||0.018|TWO_SIDED|95.0|-14.8|-2.8||Adjusted by using Hommel's procedure|Wilcoxon (Mann-Whitney)||The estimated median difference and its 95% CI were based on Hodges Lehmann procedure.|Missing values were imputed using probabilities of missing estimated from logistic regression||-2.8|-14.8|0.0180
92189050|NCT02009865|184275984|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.3||||0.7117|TWO_SIDED|95.0|-3.5|4.9||Adjusted by using Hommel's procedure|Wilcoxon (Mann-Whitney)||The estimated median difference and its 95% CI were based on Hodges Lehmann procedure.|Missing values were imputed using probabilities of missing estimated from logistic regression||4.9|-3.5|0.7117
92189051|NCT02009865|184275985|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-10.3||||0.3034|TWO_SIDED|95.0|-23.9|3.5||Adjusted by using Hommel's procedure|Wilcoxon (Mann-Whitney)||The estimated median difference and its 95% CI were based on Hodges Lehmann procedure.|Missing values were imputed using probabilities of missing estimated from logistic regression||3.5|-23.9|0.3034
92189052|NCT01178281|184276048|OTHER|||||||1|||||||Fisher Exact|||||||1.000
92189053|NCT01178281|184276050|OTHER|||||||0.929|||||||Log Rank|||||||0.929
92189054|NCT01184859|184276058|SUPERIORITY_OR_OTHER|||||||0.211||95.0||||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.211
92189055|NCT01184859|184276058|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.010
92189056|NCT01184859|184276058|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||<0.001
92189057|NCT01184859|184276058|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||<0.001
92189058|NCT01184859|184276059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.272||||0.194|TWO_SIDED|95.0|-0.685|-0.141||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|ANCOVA|Gender is a factor, and duration of action and baseline number of nocturnal voids are covariates.||||-0.141|-0.685|0.194
92189059|NCT01184859|184276059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.547||||0.015|TWO_SIDED|95.0|-0.985|-0.108||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|ANCOVA|Gender is a factor, and duration of action and baseline number of nocturnal voids are covariates.||||-0.108|-0.985|0.015
92189060|NCT01184859|184276059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.854|||<|0.001|TWO_SIDED|95.0|-1.317|-0.391||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|ANCOVA|Gender is a factor, and duration of action and baseline number of nocturnal voids are covariates.||||-0.391|-1.317|<0.001
92189061|NCT01184859|184276059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.888||||0.001|TWO_SIDED|95.0|-1.426|-0.351||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|ANCOVA|Gender is a factor, and duration of action and baseline number of nocturnal voids are covariates.||||-0.351|-1.426|0.001
92189062|NCT00635570|184276142|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||Chi-squared, Corrected|Yates's chi-squared test with 1 degree of freedom was used for analysis||The trial sample size of 300 participants total (150 participants each group) was based on two-sided 5% significance testing with 80% power to detect a difference of 10% in adherence between students in the contraceptive vaginal ring group and oral contraceptive pill group.||||0.05
92189063|NCT00635570|184276143|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED|0.0|||||Chi-squared, Corrected|||||||>0.05
92189064|NCT00635570|184276144|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
92189065|NCT00635570|184276145|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
92189066|NCT01537120|184276175|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.91|||||TWO_SIDED|90.0|0.85|0.96||||||||0.96|0.85|
92189067|NCT01537120|184276176|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.3|||||TWO_SIDED|90.0|-0.36|-0.23||||||||-0.23|-0.36|
92307365|NCT00593736|184515442|SUPERIORITY_OR_OTHER|||||||0.853||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.853
92307366|NCT00593736|184515443|SUPERIORITY_OR_OTHER|||||||0.365||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.365
92307367|NCT00593736|184515443|SUPERIORITY_OR_OTHER|||||||0.121||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.121
92307368|NCT00593736|184515443|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.268
92307369|NCT00593736|184515444|SUPERIORITY_OR_OTHER|||||||0.9||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.900
92307370|NCT00593736|184515444|SUPERIORITY_OR_OTHER|||||||0.525||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.525
92307371|NCT00593736|184515444|SUPERIORITY_OR_OTHER|||||||0.418||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.418
92307372|NCT00593736|184515445|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.051
92307373|NCT00593736|184515445|SUPERIORITY_OR_OTHER|||||||0.926||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.926
92307374|NCT00593736|184515445|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.166
92189068|NCT01537120|184276177|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.46|||||TWO_SIDED|90.0|-0.62|-0.3||||||||-0.30|-0.62|
92307375|NCT00593736|184515446|SUPERIORITY_OR_OTHER|||||||0.511||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.511
92307376|NCT00593736|184515446|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.082
92307377|NCT00593736|184515446|SUPERIORITY_OR_OTHER|||||||0.188||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.188
92307378|NCT00593736|184515447|SUPERIORITY_OR_OTHER|||||||0.691||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.691
92307379|NCT00593736|184515447|SUPERIORITY_OR_OTHER|||||||0.323||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.323
92307380|NCT00593736|184515447|SUPERIORITY_OR_OTHER|||||||0.324||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.324
92307381|NCT00593736|184515448|SUPERIORITY_OR_OTHER|||||||0.197||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.197
92307382|NCT00593736|184515448|SUPERIORITY_OR_OTHER|||||||0.871||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.871
92307383|NCT00593736|184515448|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.737
92307384|NCT00593736|184515449|SUPERIORITY_OR_OTHER|||||||0.972||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.972
92307385|NCT00593736|184515449|SUPERIORITY_OR_OTHER|||||||0.117||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.117
92307386|NCT00593736|184515449|SUPERIORITY_OR_OTHER|||||||0.811||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.811
92307387|NCT00593736|184515450|SUPERIORITY_OR_OTHER|||||||0.659||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.659
92307388|NCT00593736|184515450|SUPERIORITY_OR_OTHER|||||||0.337||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.337
92307389|NCT00593736|184515450|SUPERIORITY_OR_OTHER|||||||0.853||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.853
92307390|NCT00593736|184515451|SUPERIORITY_OR_OTHER|||||||0.206||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.206
92307391|NCT00593736|184515451|SUPERIORITY_OR_OTHER|||||||0.495||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.495
92307392|NCT00593736|184515451|SUPERIORITY_OR_OTHER|||||||0.8||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.800
92307393|NCT00593736|184515452|SUPERIORITY_OR_OTHER|||||||0.194||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.194
92307394|NCT00593736|184515452|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.134
92307395|NCT00593736|184515452|SUPERIORITY_OR_OTHER|||||||0.13||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.130
92307396|NCT00593736|184515453|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.063
92307397|NCT00593736|184515453|SUPERIORITY_OR_OTHER|||||||0.156||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.156
92307398|NCT00593736|184515453|SUPERIORITY_OR_OTHER|||||||0.521||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.521
92307399|NCT00593736|184515454|SUPERIORITY_OR_OTHER|||||||0.675||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.675
92307400|NCT00593736|184515454|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.566
92307401|NCT00593736|184515454|SUPERIORITY_OR_OTHER|||||||0.205||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.205
92307402|NCT00593736|184515455|SUPERIORITY_OR_OTHER|||||||0.643||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.643
92307403|NCT00593736|184515455|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.032
92307404|NCT00593736|184515455|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.875
92307405|NCT00593736|184515456|SUPERIORITY_OR_OTHER|||||||0.286||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.286
92307406|NCT00593736|184515456|SUPERIORITY_OR_OTHER|||||||0.318||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.318
92307407|NCT00593736|184515456|SUPERIORITY_OR_OTHER|||||||0.483||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.483
92307408|NCT00593736|184515457|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.040
92307409|NCT00593736|184515457|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.610
92307410|NCT00593736|184515457|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.368
92307411|NCT00593736|184515458|SUPERIORITY_OR_OTHER|||||||0.352||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.352
92307412|NCT00593736|184515458|SUPERIORITY_OR_OTHER|||||||0.86||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.860
92307413|NCT00593736|184515458|SUPERIORITY_OR_OTHER|||||||0.297||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.297
92307414|NCT00593736|184515459|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.053
92307415|NCT00593736|184515459|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.837
92307416|NCT00593736|184515459|SUPERIORITY_OR_OTHER|||||||0.783||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.783
92307417|NCT00593736|184515460|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.566
92307418|NCT00593736|184515460|SUPERIORITY_OR_OTHER|||||||0.543||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.543
92307419|NCT00593736|184515460|SUPERIORITY_OR_OTHER|||||||0.847||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.847
92307420|NCT00593736|184515461|SUPERIORITY_OR_OTHER|||||||0.356||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.356
92307421|NCT00593736|184515461|SUPERIORITY_OR_OTHER|||||||0.964||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.964
92307422|NCT00593736|184515461|SUPERIORITY_OR_OTHER|||||||0.799||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.799
92307423|NCT00593736|184515462|SUPERIORITY_OR_OTHER|||||||0.698||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.698
92307424|NCT00593736|184515462|SUPERIORITY_OR_OTHER|||||||0.385||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.385
92307425|NCT00593736|184515462|SUPERIORITY_OR_OTHER|||||||0.641||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.641
92307426|NCT00593736|184515463|SUPERIORITY_OR_OTHER|||||||0.979||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.979
92307427|NCT00593736|184515463|SUPERIORITY_OR_OTHER|||||||0.194||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.194
92307428|NCT00593736|184515463|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.004
92307429|NCT00593736|184515464|SUPERIORITY_OR_OTHER|||||||0.975||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.975
92307430|NCT00593736|184515464|SUPERIORITY_OR_OTHER|||||||0.639||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.639
92307431|NCT00593736|184515464|SUPERIORITY_OR_OTHER|||||||0.109||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.109
92307432|NCT00593736|184515465|SUPERIORITY_OR_OTHER|||||||0.823||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.823
92307433|NCT00593736|184515465|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.004
92307434|NCT00593736|184515465|SUPERIORITY_OR_OTHER|||||||0.296||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.296
92307435|NCT00593736|184515466|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.092
92307436|NCT00593736|184515466|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.025
92307437|NCT00593736|184515466|SUPERIORITY_OR_OTHER|||||||0.732||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.732
92307438|NCT00593736|184515467|SUPERIORITY_OR_OTHER|||||||0.298||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.298
92307439|NCT00593736|184515467|SUPERIORITY_OR_OTHER|||||||0.276||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.276
92307440|NCT00593736|184515467|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.430
92307441|NCT00593736|184515468|SUPERIORITY_OR_OTHER|||||||0.349||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.349
92307442|NCT00593736|184515468|SUPERIORITY_OR_OTHER|||||||0.203||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.203
92307443|NCT00593736|184515468|SUPERIORITY_OR_OTHER|||||||0.444||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.444
92307444|NCT00593736|184515469|SUPERIORITY_OR_OTHER|||||||0.581||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.581
92307445|NCT00593736|184515469|SUPERIORITY_OR_OTHER|||||||0.257||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.257
92307446|NCT00593736|184515469|SUPERIORITY_OR_OTHER|||||||0.688||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.688
92307447|NCT00593736|184515470|SUPERIORITY_OR_OTHER|||||||0.561||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.561
92307448|NCT00593736|184515470|SUPERIORITY_OR_OTHER|||||||0.595||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.595
92307449|NCT00593736|184515470|SUPERIORITY_OR_OTHER|||||||0.795||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.795
92307450|NCT00593736|184515471|SUPERIORITY_OR_OTHER|||||||0.655||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.655
92307451|NCT00593736|184515471|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.177
92307452|NCT00593736|184515471|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.044
92307453|NCT00593736|184515472|SUPERIORITY_OR_OTHER|||||||0.475||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.475
92307454|NCT00593736|184515472|SUPERIORITY_OR_OTHER|||||||0.635||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.635
92307455|NCT00593736|184515472|SUPERIORITY_OR_OTHER|||||||0.782||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.782
92307456|NCT00593736|184515473|SUPERIORITY_OR_OTHER|||||||0.192||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.192
92307457|NCT00593736|184515473|SUPERIORITY_OR_OTHER|||||||0.618||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.618
92307458|NCT00593736|184515473|SUPERIORITY_OR_OTHER|||||||0.152||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.152
92307459|NCT00593736|184515474|SUPERIORITY_OR_OTHER|||||||0.379||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.379
92307460|NCT00593736|184515474|SUPERIORITY_OR_OTHER|||||||0.057||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.057
92307461|NCT00593736|184515474|SUPERIORITY_OR_OTHER|||||||0.808||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.808
92307462|NCT00593736|184515475|SUPERIORITY_OR_OTHER|||||||0.284||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.284
92307463|NCT00593736|184515475|SUPERIORITY_OR_OTHER|||||||0.344||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.344
92307464|NCT00593736|184515475|SUPERIORITY_OR_OTHER|||||||0.558||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.558
92307465|NCT00593736|184515476|SUPERIORITY_OR_OTHER|||||||0.867||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.867
92307466|NCT00593736|184515476|SUPERIORITY_OR_OTHER|||||||0.244||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.244
92307467|NCT00593736|184515476|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.620
92307468|NCT00593736|184515477|SUPERIORITY_OR_OTHER|||||||0.206||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.206
92307469|NCT00593736|184515477|SUPERIORITY_OR_OTHER|||||||0.559||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.559
92307470|NCT00593736|184515477|SUPERIORITY_OR_OTHER|||||||0.074||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.074
92307471|NCT00593736|184515478|SUPERIORITY_OR_OTHER|||||||0.796||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.796
92307472|NCT00593736|184515478|SUPERIORITY_OR_OTHER|||||||0.546||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.546
92307473|NCT00593736|184515478|SUPERIORITY_OR_OTHER|||||||0.479||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.479
92307474|NCT00593736|184515479|SUPERIORITY_OR_OTHER|||||||0.766||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.766
92307475|NCT00593736|184515479|SUPERIORITY_OR_OTHER|||||||0.912||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.912
92307476|NCT00593736|184515479|SUPERIORITY_OR_OTHER|||||||0.952||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.952
92307477|NCT00593736|184515480|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.722
92307478|NCT00593736|184515480|SUPERIORITY_OR_OTHER|||||||0.262||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.262
92307479|NCT00593736|184515480|SUPERIORITY_OR_OTHER|||||||0.717||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.717
92307480|NCT00593736|184515481|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.498
92307481|NCT00593736|184515481|SUPERIORITY_OR_OTHER|||||||0.664||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.664
92307482|NCT00593736|184515481|SUPERIORITY_OR_OTHER|||||||0.428||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.428
92307483|NCT00593736|184515482|SUPERIORITY_OR_OTHER|||||||0.519||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.519
92307484|NCT00593736|184515482|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.179
92307485|NCT00593736|184515482|SUPERIORITY_OR_OTHER|||||||0.935||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.935
92307486|NCT00593736|184515483|SUPERIORITY_OR_OTHER|||||||0.425||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.425
92307487|NCT00593736|184515483|SUPERIORITY_OR_OTHER|||||||0.406||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.406
92307488|NCT00593736|184515483|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.720
92307489|NCT00593736|184515484|SUPERIORITY_OR_OTHER|||||||0.294||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.294
92307490|NCT00593736|184515484|SUPERIORITY_OR_OTHER|||||||0.474||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.474
92307491|NCT00593736|184515484|SUPERIORITY_OR_OTHER|||||||0.999||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.999
92307492|NCT00593736|184515485|SUPERIORITY_OR_OTHER|||||||0.655||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.655
92307493|NCT00593736|184515485|SUPERIORITY_OR_OTHER|||||||0.331||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.331
92307494|NCT00593736|184515485|SUPERIORITY_OR_OTHER|||||||0.362||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.362
92307495|NCT00593736|184515486|SUPERIORITY_OR_OTHER|||||||0.684||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.684
92307496|NCT00593736|184515486|SUPERIORITY_OR_OTHER|||||||0.399||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.399
92307497|NCT00593736|184515486|SUPERIORITY_OR_OTHER|||||||0.611||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.611
92307498|NCT00593736|184515487|SUPERIORITY_OR_OTHER|||||||0.157||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.157
92307499|NCT00593736|184515487|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.463
92307500|NCT00593736|184515487|SUPERIORITY_OR_OTHER|||||||0.774||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.774
92307501|NCT00593736|184515488|SUPERIORITY_OR_OTHER|||||||0.413||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.413
92307502|NCT00593736|184515488|SUPERIORITY_OR_OTHER|||||||0.093||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.093
92307503|NCT00593736|184515488|SUPERIORITY_OR_OTHER|||||||0.982||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.982
92307504|NCT00593736|184515489|SUPERIORITY_OR_OTHER|||||||0.441||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.441
92307505|NCT00593736|184515489|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.082
92307506|NCT00593736|184515489|SUPERIORITY_OR_OTHER|||||||0.549||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.549
92307507|NCT00593736|184515490|SUPERIORITY_OR_OTHER|||||||0.86||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.860
92307508|NCT00593736|184515490|SUPERIORITY_OR_OTHER|||||||0.997||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.997
92307509|NCT00593736|184515490|SUPERIORITY_OR_OTHER|||||||0.834||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.834
92307510|NCT00593736|184515491|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.837
92307511|NCT00593736|184515491|SUPERIORITY_OR_OTHER|||||||0.321||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.321
92307512|NCT00593736|184515491|SUPERIORITY_OR_OTHER|||||||0.978||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.978
92307513|NCT00593736|184515492|SUPERIORITY_OR_OTHER|||||||0.513||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.513
92307514|NCT00593736|184515492|SUPERIORITY_OR_OTHER|||||||0.751||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.751
92307515|NCT00593736|184515492|SUPERIORITY_OR_OTHER|||||||0.242||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.242
92307516|NCT00593736|184515493|SUPERIORITY_OR_OTHER|||||||0.307||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.307
92307517|NCT00593736|184515493|SUPERIORITY_OR_OTHER|||||||0.765||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.765
92307518|NCT00593736|184515493|SUPERIORITY_OR_OTHER|||||||0.727||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.727
92307519|NCT00593736|184515494|SUPERIORITY_OR_OTHER|||||||0.902||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.902
92307520|NCT00593736|184515494|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.590
92307521|NCT00593736|184515494|SUPERIORITY_OR_OTHER|||||||0.29||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.290
92307522|NCT00593736|184515495|SUPERIORITY_OR_OTHER|||||||0.685||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.685
92307523|NCT00593736|184515495|SUPERIORITY_OR_OTHER|||||||0.214||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.214
92307524|NCT00593736|184515495|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.055
92307525|NCT00593736|184515496|SUPERIORITY_OR_OTHER|||||||0.589||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.589
92307526|NCT00593736|184515496|SUPERIORITY_OR_OTHER|||||||0.156||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.156
92307527|NCT00593736|184515496|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.041
92307528|NCT01853930|184515501|SUPERIORITY|The purpose of the superiority test is to show if laboratory based training is superior to an independent home-based training option.||||||0.876|||||||t-test, 2 sided|t= -0.157 df= 30||||||0.876
92307529|NCT00110136|184515529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|STANDARD_DEVIATION|2.02||0.2629|TWO_SIDED|95.0|-2.36|0.74||Paired t-test; no adjustments for multiple comparisons|paired t-test||The difference is post minus pre so negative values represents fewer hot flashes after treatment.|Analysis of the change in hot flash frequency from baseline to four weeks; null hypothesis is no change.||0.74|-2.36|0.2629
92307530|NCT00110136|184515530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.37|STANDARD_DEVIATION|7.91||0.1365|TWO_SIDED|95.0|-10.45|1.72||Paired t-test; unadjusted for multiple comparisons.|paired t-test||Difference in hot flash score is post minus pre so a negative value represents a decrease in the frequency and/or severity of the hot flashes.|Assessment of the change in the hot flash score over time||1.72|-10.45|0.1365
92307531|NCT00110136|184515532|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_DEVIATION|7.0||0.832|TWO_SIDED|95.0|-4.84|5.92||Paired t-test; unadjusted for multiple comparisons.|paired t-test||This is the change in MCS from baseline to four weeks (post minus pre) so values greater than zero reflect improvement in QOL.|Assess the change in MCS from baseline to four weeks in patients receiving St. John's wort.||5.92|-4.84|0.8320
92307532|NCT00110136|184515533|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|7.43||0.9995|TWO_SIDED|95.0|-5.71|5.71||Paired t-test on the change in PCS from baseline to four weeks; unadjusted for multiple comparisons.|paired t-test||This is the change in PCS from baseline to four weeks (post minus pre), so positive numbers represent improvement in QOL.|Assess the change in PCS from baseline to four weeks; null hypothesis is no change.||5.71|-5.71|0.9995
92307533|NCT00110136|184515534|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.35|STANDARD_DEVIATION|7.12||0.1042|TWO_SIDED|95.0|-1.12|9.822||Paired t-test; unadjusted for multiple comparisons.|paired t-test||This is the change in mood from baseline to four weeks (post minus pre). Mood is scored so that higher numbers represent better mood so positive changes represent an improvement in mood.|Assess the change in mood from baseline to four weeks. Null hypothesis is no change.||9.822|-1.12|0.1042
92307534|NCT01517373|184515575|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.145||0.4468|TWO_SIDED|80.0|-0.21|0.17||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Treatment difference and 80 percent (%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment,duration of type 2 diabetes mellitus (T2DM),time and treatment-by-time interaction as fixed effects,baseline as the covariate,time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||0.17|-0.21|0.4468
92307535|NCT01517373|184515575|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.146||0.0218|TWO_SIDED|80.0|-0.48|-0.11||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||-0.11|-0.48|0.0218
92307536|NCT01517373|184515575|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.144||0.0006|TWO_SIDED|80.0|-0.65|-0.28||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||-0.28|-0.65|0.0006
92307537|NCT01517373|184515575|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.144|<|0.0001|TWO_SIDED|80.0|-1.02|-0.65||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||-0.65|-1.02|<0.0001
92307538|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.087||0.6112|TWO_SIDED|80.0|-0.09|0.14||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.14|-0.09|0.6112
92307539|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.088||0.055|TWO_SIDED|80.0|-0.25|-0.03||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.03|-0.25|0.0550
92307540|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.086||0.0032|TWO_SIDED|80.0|-0.35|-0.13||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80%CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.13|-0.35|0.0032
92307541|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.086|<|0.0001|TWO_SIDED|80.0|-0.55|-0.33||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.33|-0.55|<0.0001
92307542|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.101||0.6146|TWO_SIDED|80.0|-0.1|0.16||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.16|-0.10|0.6146
92307543|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.101||0.2606|TWO_SIDED|80.0|-0.19|0.06||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.06|-0.19|0.2606
92307544|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.099||0.0006|TWO_SIDED|80.0|-0.45|-0.2||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.20|-0.45|0.0006
92307545|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|80.0|-0.7|-0.44||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.44|-0.70|<0.0001
92307546|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.118||0.6618|TWO_SIDED|80.0|-0.1|0.2||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.20|-0.10|0.6618
92307547|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.119||0.0878|TWO_SIDED|80.0|-0.31|-0.01||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.01|-0.31|0.0878
92307548|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.117||0.0022|TWO_SIDED|80.0|-0.49|-0.19||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.19|-0.49|0.0022
92189086|NCT03722485|184276197|SUPERIORITY|||||||0.292||||||Confounding variables of image capture techniques, image quality and image analysis noted throughout study conduct prohibits any definitive conclusions to be drawn from this analysis.|Regression, Linear|Test of treatment effect using a generalized linear model with treatment arm, baseline values, and clinical site as factors.||||||0.2920
92189087|NCT03722485|184276198|SUPERIORITY|||||||0.0213||||||Confounding variables of image capture techniques, image quality and image analysis noted throughout study conduct prohibits any definitive conclusions to be drawn from this analysis.|Wilcoxon (Mann-Whitney)|||||||0.0213
92189088|NCT03722485|184276199|SUPERIORITY|||||||0.7422||||||Confounding variables of image capture techniques, image quality and image analysis noted throughout study conduct prohibits any definitive conclusions to be drawn from this analysis.|Wilcoxon (Mann-Whitney)|||||||0.7422
92189089|NCT03722485|184276200|SUPERIORITY|||||||0.6322|||||||Fisher Exact|||||||0.6322
92189090|NCT00644332|184276233|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7|STANDARD_ERROR_OF_MEAN|0.5||||||||||||Mean change in angina frequency from Baseline to Week 4||||
92307549|NCT01517373|184515576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.117|<|0.0001|TWO_SIDED|80.0|-0.81|-0.51||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.51|-0.81|<0.0001
92307550|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.09|STANDARD_ERROR_OF_MEAN|5.222||0.3446|TWO_SIDED|80.0|-8.8|4.62||P-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||4.62|-8.80|0.3446
92307551|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.12|STANDARD_ERROR_OF_MEAN|5.21||0.1204|TWO_SIDED|80.0|-12.81|0.57||P-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.57|-12.81|0.1204
92307552|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.74|STANDARD_ERROR_OF_MEAN|5.166||0.0041|TWO_SIDED|80.0|-20.37|-7.1||P-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-7.10|-20.37|0.0041
92307553|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.34|STANDARD_ERROR_OF_MEAN|5.192|<|0.0001|TWO_SIDED|80.0|-28.01|-14.67||P-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-14.67|-28.01|<0.0001
92307554|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.14|STANDARD_ERROR_OF_MEAN|5.191||0.1616|TWO_SIDED|80.0|-11.8|1.53||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.53|-11.80|0.1616
92307555|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.45|STANDARD_ERROR_OF_MEAN|5.219||0.1974|TWO_SIDED|80.0|-11.15|2.26||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.26|-11.15|0.1974
92189091|NCT00644332|184276234|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|STANDARD_ERROR_OF_MEAN|0.5||||||||||||Mean change in NTG use from Baseline to Week 4||||
92307556|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.62|STANDARD_ERROR_OF_MEAN|5.14||0.0122|TWO_SIDED|80.0|-18.22|-5.02||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-5.02|-18.22|0.0122
92307557|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.79|STANDARD_ERROR_OF_MEAN|5.129|<|0.0001|TWO_SIDED|80.0|-31.37|-18.2||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-18.20|-31.37|<0.0001
92307558|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.97|STANDARD_ERROR_OF_MEAN|5.674||0.3645|TWO_SIDED|80.0|-9.26|5.32||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.32|-9.26|0.3645
92307559|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.93|STANDARD_ERROR_OF_MEAN|5.676||0.3672|TWO_SIDED|80.0|-9.22|5.36||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.36|-9.22|0.3672
92307560|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|5.598||0.0906|TWO_SIDED|80.0|-14.69|-0.31||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.31|-14.69|0.0906
92307561|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.69|STANDARD_ERROR_OF_MEAN|5.624||0.0003|TWO_SIDED|80.0|-26.91|-12.46||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-12.46|-26.91|0.0003
92307562|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.18|STANDARD_ERROR_OF_MEAN|5.534||0.1748|TWO_SIDED|80.0|-12.29|1.93||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.93|-12.29|0.1748
92307563|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.54|STANDARD_ERROR_OF_MEAN|5.566||0.0297|TWO_SIDED|80.0|-17.69|-3.38||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-3.38|-17.69|0.0297
92189092|NCT00644332|184276235|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9|STANDARD_ERROR_OF_MEAN|0.8||||||||||||||||
92189093|NCT00409006|184276240|SUPERIORITY_OR_OTHER|||||||0.0618||95.0|||||Log Rank|||||||0.0618
92307564|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.44|STANDARD_ERROR_OF_MEAN|5.469||0.0118|TWO_SIDED|80.0|-19.47|-5.41||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-5.41|-19.47|0.0118
92307565|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.0|STANDARD_ERROR_OF_MEAN|5.48|<|0.0001|TWO_SIDED|80.0|-34.04|-19.96||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-19.96|-34.04|<0.0001
92307566|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.03|STANDARD_ERROR_OF_MEAN|6.281||0.1012|TWO_SIDED|80.0|-16.1|0.04||P-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.04|-16.10|0.1012
92307567|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.99|STANDARD_ERROR_OF_MEAN|6.287||0.0409|TWO_SIDED|80.0|-19.07|-2.91|||t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-2.91|-19.07|0.0409
92307568|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.87|STANDARD_ERROR_OF_MEAN|6.232||0.0089|TWO_SIDED|80.0|-22.88|-6.86|||t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-6.86|-22.88|0.0089
92307569|NCT01517373|184515577|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.93|STANDARD_ERROR_OF_MEAN|6.233|<|0.0001|TWO_SIDED|80.0|-33.93|-17.92||P-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-17.92|-33.93|<0.0001
92307570|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.196||0.0898|TWO_SIDED|80.0|0.08|0.59||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80 percent(%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, duration of type 2 diabetes mellitus (T2DM), time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.59|0.08|0.0898
92189094|NCT00409006|184276241|SUPERIORITY_OR_OTHER|||||||0.369||95.0|||||Regression, Logistic|Used the Wald Chi-squared statistic from a logistic regression analysis.||||||0.369
92189095|NCT03050372|184276245|EQUIVALENCE|Significance level alpha=0.05; CI=95%.||||||0.329|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SOL for active/sham LFMS are equal; Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline SOL for active/sham LFMS are equal Ha: Means differ"||||0.329
92189096|NCT03050372|184276245|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.321|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SOL for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SOL for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.321
92307571|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.195||0.0555|TWO_SIDED|80.0|0.12|0.62||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.62|0.12|0.0555
92307572|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.193||0.0585|TWO_SIDED|80.0|0.12|0.61||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.61|0.12|0.0585
92307573|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.194||0.0454|TWO_SIDED|80.0|0.14|0.64||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.64|0.14|0.0454
92307574|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.235||0.2819|TWO_SIDED|80.0|-0.05|0.55||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.55|-0.05|0.2819
92307575|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|0.235||0.0319|TWO_SIDED|80.0|0.2|0.81||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.81|0.20|0.0319
92307576|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.231||0.1835|TWO_SIDED|80.0|0.01|0.6||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.60|0.01|0.1835
92307577|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.93|STANDARD_ERROR_OF_MEAN|0.231||0.0001|TWO_SIDED|80.0|0.63|1.22||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.22|0.63|0.0001
92307578|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.266||0.9689|TWO_SIDED|80.0|-0.35|0.33||P-value was 2-sided.|t-test, 2 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.33|-0.35|0.9689
92307579|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.265||0.2221|TWO_SIDED|80.0|-0.02|0.67||P-value was 2-sided.|t-test, 2 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.67|-0.02|0.2221
92307580|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|0.261||0.2774|TWO_SIDED|80.0|-0.05|0.62||P-value was 2-sided.|t-test, 2 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.62|-0.05|0.2774
92307581|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|STANDARD_ERROR_OF_MEAN|0.263|<|0.0001|TWO_SIDED|80.0|0.76|1.43||P-value was 2-sided.|t-test, 2 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.43|0.76|<0.0001
92307582|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.314||0.0667|TWO_SIDED|80.0|0.17|0.98||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.98|0.17|0.0667
92307583|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|0.314||0.0133|TWO_SIDED|80.0|0.38|1.19||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.19|0.38|0.0133
92189097|NCT03050372|184276245|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.687|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SOL for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SOL for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.687
92189098|NCT03050372|184276246|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.925|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of WASO for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline WASO for active/sham LFMS are equal Ha: Means differ"||||0.925
92189099|NCT03050372|184276246|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.08|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of WASO for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline WASO for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.08
92307584|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.308||0.026|TWO_SIDED|80.0|0.29|1.08||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.08|0.29|0.0260
92307585|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|1.63|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|80.0|1.23|2.02||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.02|1.23|<0.0001
92307586|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.374||0.0335|TWO_SIDED|80.0|0.32|1.28||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.28|0.32|0.0335
92189100|NCT03050372|184276246|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.221|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of WASO for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline WASO for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.221
92307587|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.373||0.1557|TWO_SIDED|80.0|0.05|1.01||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.01|0.05|0.1557
92307588|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.92|STANDARD_ERROR_OF_MEAN|0.368||0.0132|TWO_SIDED|80.0|0.45|1.39||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.39|0.45|0.0132
92307589|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|2.68|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|80.0|2.2|3.15||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||3.15|2.20|<0.0001
92307590|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.96|STANDARD_ERROR_OF_MEAN|0.394||0.0158|TWO_SIDED|80.0|0.45|1.46||P-value was 2-sided.|t-test, 2 sided|||Week 14 (Follow-up): Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.46|0.45|0.0158
92307591|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|0.392||0.2132|TWO_SIDED|80.0|-0.01|0.99||P-value was 2-sided.|t-test, 2 sided|||Week 14 (Follow-up): Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.99|-0.01|0.2132
92307592|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86|STANDARD_ERROR_OF_MEAN|0.387||0.0263|TWO_SIDED|80.0|0.37|1.36||P-value was 2-sided.|t-test, 2 sided|||Week 14 (Follow-up): Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.36|0.37|0.0263
92307593|NCT01517373|184515585|SUPERIORITY_OR_OTHER||LS Mean Difference|2.62|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|80.0|2.12|3.12||P-value was 2-sided.|t-test, 2 sided|||Week 14 (Follow-up): Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||3.12|2.12|<0.0001
92307594|NCT00176423|184515596|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92307595|NCT00176423|184515597|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92307596|NCT00176423|184515598|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92307597|NCT00176423|184515599|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92307598|NCT01755767|184515609|SUPERIORITY|||||||0.8006|||||||Log Rank|Stratified log rank between treatment arms adjusted for stratification factors: vascular invasion, extra-hepatic spread, and alpha fetoprotein level.||||||0.8006
92307599|NCT01755767|184515609|SUPERIORITY||Hazard Ratio (HR)|0.9682||||0.8061|TWO_SIDED|95.0|0.7483|1.2529|||Regression, Cox|Stratified Cox Regression between treatment arms adjusted for factors: vascular invasion, extra-hepatic spread, and alpha fetoprotein level.||||1.2529|0.7483|0.8061
92189101|NCT03050372|184276247|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.197|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of TST for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline TST for active/sham LFMS are equal Ha: Means differ"||||0.197
92189102|NCT03050372|184276247|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.586|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of TST for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline TST for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.586
92307600|NCT01755767|184515611|SUPERIORITY|||||||0.7509|||||||Log Rank|Stratified log rank between treatment arms adjusted for stratification factors: vascular invasion, extra-hepatic spread, and alpha fetoprotein level.||||||0.7509
92307601|NCT01755767|184515611|SUPERIORITY||Hazard Ratio (HR)|0.9557||||0.716|TWO_SIDED|95.0|0.7487|1.22|||Regression, Cox|Stratified Cox regression between treatment arms adjusted for factors: vascular invasion, extra-hepatic spread, and alpha fetoprotein level.||||1.2200|0.7487|0.7160
92307602|NCT01791153|184515680|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|42.0|||<|0.0001|TWO_SIDED|99.5|18.0|66.0|||Cochran-Mantel-Haenszel|||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (less than or equal to \[\</=\] 30 mg/day, greater than \[\>\] 30 mg/day).||66.00|18.00|<0.0001
92307603|NCT01791153|184515680|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|39.06|||<|0.0001|TWO_SIDED|99.5|12.46|65.66|||Cochran-Mantel-Haenszel|||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||65.66|12.46|< 0.0001
92307604|NCT01791153|184515681|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||||< 0.0001
92307605|NCT01791153|184515681|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The tocilizumab group was to be considered as non-inferior to the placebo group if the lower limit of the two-sided 99.5% confidence interval was \>/= -22.5%.|Difference in Response Rates|38.35|||||TWO_SIDED|99.5|17.89|58.81||||||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||58.81|17.89|
92307606|NCT01791153|184515681|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|||||||Cochran-Mantel-Haenszel|||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||||0.0002
92307607|NCT01791153|184515681|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The tocilizumab group was to be considered as non-inferior to the placebo group if the lower limit of the two-sided 99.5% confidence interval was \>/= -22.5%.|Difference in Response Rates|35.41|||||TWO_SIDED|99.5|10.41|60.41||||||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||60.41|10.41|
92307608|NCT01791153|184515682|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.23|||<|0.0001|TWO_SIDED|99.0|0.11|0.46|||Cox proportional hazards model|||The treatment groups were compared using a Cox proportional hazards model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||0.46|0.11|<0.0001
92307609|NCT01791153|184515682|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.39||||0.0011|TWO_SIDED|99.0|0.18|0.82|||Cox proportional hazards model|||The treatment groups were compared using a Cox proportional hazards model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||0.82|0.18|0.0011
92307610|NCT01791153|184515682|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.28||||0.0001|TWO_SIDED|99.0|0.12|0.66|||Cox proportional hazards model|||The treatment groups were compared using a Cox proportional hazards model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||0.66|0.12|0.0001
92307611|NCT01791153|184515682|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.48||||0.0316|TWO_SIDED|99.0|0.2|1.16|||Cox proportional hazards model|||The treatment groups were compared using a Cox proportional hazards model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||1.16|0.20|0.0316
92307612|NCT01791153|184515683|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren's test|||The treatment groups were compared using a Van Elteren's test stratified by starting prednisone dose (\<=30 mg/day, \> 30 mg/day).||||<0.0001
92307613|NCT01791153|184515683|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren's test|||The treatment groups were compared using a Van Elteren's test stratified by starting prednisone dose (\<=30 mg/day, \> 30 mg/day).||||<0.0001
92307614|NCT01791153|184515683|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||Van Elteren's test|||The treatment groups were compared using a Van Elteren's test stratified by starting prednisone dose (\<=30mg/day, \>30mg/day).||||0.0003
92307615|NCT01791153|184515683|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren's test|||The treatment groups were compared using a Van Elteren's test stratified by starting prednisone dose (\<=30 mg/day, \> 30 mg/day).||||<0.0001
92307616|NCT01791153|184515684|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|0.61||||0.8067|TWO_SIDED|99.0|-5.86|7.07|||Repeated measures model|||MCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||7.07|-5.86|0.8067
92307617|NCT01791153|184515684|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|4.44||||0.0252|TWO_SIDED|99.0|-0.69|9.56|||Repeated measures model|||MCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||9.56|-0.69|0.0252
92307618|NCT01791153|184515684|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|-0.56||||0.8374|TWO_SIDED|99.0|-7.64|6.53|||Repeated measures model|||MCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||6.53|-7.64|0.8374
92307619|NCT01791153|184515684|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|3.27||||0.1468|TWO_SIDED|99.0|-2.59|9.14|||Repeated measures model|||MCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||9.14|-2.59|0.1468
92307620|NCT01791153|184515684|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|4.38||||0.057|TWO_SIDED|99.0|-1.58|10.34|||Repeated measures model|||PCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||10.34|-1.58|0.0570
92307621|NCT01791153|184515684|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|5.59||||0.0024|TWO_SIDED|99.0|0.86|10.32|||Repeated measures model|||PCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||10.32|0.86|0.0024
92189103|NCT03050372|184276247|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.298|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of TST for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline TST for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.298
92307622|NCT01791153|184515684|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|3.04||||0.2218|TWO_SIDED|99.0|-3.43|9.51|||Repeated measures model|||PCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||9.51|-3.43|0.2218
92307623|NCT01791153|184515684|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|4.25||||0.0412|TWO_SIDED|99.0|-1.14|9.64|||Repeated measures model|||PCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||9.64|-1.14|0.0412
92307624|NCT01791153|184515685|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|-15.6||||0.0312|TWO_SIDED|99.0|-34.3|3.1|||Repeated measures model|||Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||3.1|-34.3|0.0312
92307625|NCT01791153|184515685|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|-11.8||||0.0476|TWO_SIDED|99.0|-27.2|3.6|||Repeated measures model|||Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||3.6|-27.2|0.0476
92307626|NCT01791153|184515685|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|-21.9||||0.0059|TWO_SIDED|99.0|-42.4|-1.4|||Repeated measures model|||Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||-1.4|-42.4|0.0059
92307627|NCT01791153|184515685|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|-18.2||||0.0081|TWO_SIDED|99.0|-35.8|-0.5|||Repeated measures model|||Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||-0.5|-35.8|0.0081
92189104|NCT03050372|184276248|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.424|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SE for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline SE for active/sham LFMS are equal Ha: Means differ"||||0.424
92189105|NCT03050372|184276248|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.21|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SE for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SE for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.210
92189106|NCT03050372|184276248|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.19|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SE for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SE for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.190
92189107|NCT03050372|184276249|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.535|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of EOS for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline EOS for active/sham LFMS are equal Ha: Means differ"||||0.535
92189108|NCT03050372|184276249|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.196|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of EOS for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline EOS for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.196
92189109|NCT03050372|184276249|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.092|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of EOS for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline EOS for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.092
92189110|NCT03050372|184276250|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||1|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SQS for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline SQS for active/sham LFMS are equal Ha: Means differ"||||1.00
92189111|NCT03050372|184276250|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.004|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SQS for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SQS for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.004
92307628|NCT04156620|184515718|SUPERIORITY||Marginal difference|17.91|||<|0.0001|TWO_SIDED|95.0|10.12|25.71|||Regression, Logistic|||Week 16||25.71|10.12|<0.0001
92189112|NCT03050372|184276250|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.042|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SQS for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SQS for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.042
92189113|NCT03050372|184276251|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.05|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of #awake for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline #awake for active/sham LFMS are equal Ha: Means differ"||||0.05
92189114|NCT03050372|184276251|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.379|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of #awake for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline #awake for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.379
92189115|NCT03050372|184276251|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.284|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of #awake for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline #awake for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.284
92189116|NCT03050372|184276252|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.226|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Fatigue for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline Fatigue for active/sham LFMS are equal Ha: Means differ"||||0.226
92189117|NCT03050372|184276252|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.156|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Fatigue for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline Fatigue for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.156
92189118|NCT03050372|184276252|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.117|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Fatigue for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline Fatigue for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.117
92189119|NCT03050372|184276253|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.13|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Concentration for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline Concentration for active/sham LFMS are equal Ha: Means differ"||||0.130
92189120|NCT03050372|184276253|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.249|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Concentration for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline Concentration for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.249
92189121|NCT03050372|184276253|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.114|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Concentration for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline Concentration for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.114
92189122|NCT00443755|184276257|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189123|NCT00443755|184276258|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92307629|NCT04156620|184515719|SUPERIORITY||Marginal difference|20.45|||<|0.0001|TWO_SIDED|95.0|14.45|26.44|||Regression, Logistic|||||26.44|14.45|<0.0001
92307630|NCT04156620|184515720|SUPERIORITY||LS mean change|-1.01|STANDARD_ERROR_OF_MEAN|0.189|<|0.0001|TWO_SIDED|95.0|-1.38|-0.64|||Mixed Models Analysis|||Week 16||-0.64|-1.38|<0.0001
92307631|NCT04156620|184515721|SUPERIORITY||Marginal difference|22.15|||<|0.0001|TWO_SIDED|95.0|14.36|29.95|||Regression, Logistic|||||29.95|14.36|<0.0001
92307632|NCT04156620|184515722|SUPERIORITY||LS mean change|-0.94|STANDARD_ERROR_OF_MEAN|0.194|<|0.0001|TWO_SIDED|95.0|-1.33|-0.56|||Mixed Models Analysis|||Week 16||-0.56|-1.33|<0.0001
92307633|NCT04156620|184515723|SUPERIORITY||LS mean change|3.01|STANDARD_ERROR_OF_MEAN|0.615|<|0.0001|TWO_SIDED|95.0|1.8|4.22|||Mixed Models Analysis|||Week 16||4.22|1.80|<0.0001
92307634|NCT04156620|184515724|SUPERIORITY||LS mean change|-1.77|STANDARD_ERROR_OF_MEAN|0.373|<|0.0001|TWO_SIDED|95.0|-2.51|-1.04|||Mixed Models Analysis|||Week 16||-1.04|-2.51|<0.0001
92307635|NCT04156620|184515725|SUPERIORITY||Relative LS mean change|0.44|||<|0.0001|TWO_SIDED|95.0|0.37|0.51|||Mixed Models Analysis|||Week 16||0.51|0.37|<0.0001
92189124|NCT00443755|184276259|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.02
92189125|NCT00443755|184276260|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189126|NCT00443755|184276261|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||P-value is for comparison between groups of the mean change in triglyceride levels.||||0.03
92189127|NCT00443755|184276261|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Wilcoxon (Mann-Whitney)|||P-value is for comparison between groups of the mean change in HDL-C levels.||||0.06
92307636|NCT04156620|184515726|SUPERIORITY||Marginal difference|23.41|||<|0.0001|TWO_SIDED|95.0|15.61|31.66|||Regression, Logistic|||||31.66|15.61|<0.0001
92307637|NCT04156620|184515727|SUPERIORITY||Marginal difference|12.58|||<|0.0001|TWO_SIDED|95.0|7.96|17.19|||Regression, Logistic|||Week 16||17.19|7.96|<0.0001
92307638|NCT04156620|184515728|SUPERIORITY||Marginal difference|10.56|||<|0.0001|TWO_SIDED|95.0|5.64|15.47|||Regression, Logistic|||||15.47|5.64|<0.0001
92189128|NCT00443755|184276261|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Wilcoxon (Mann-Whitney)|||P-value is for comparison between groups of mean change in non-HDL-C levels.||||0.06
92307639|NCT04156620|184515729|SUPERIORITY||LS mean change|-0.66|STANDARD_ERROR_OF_MEAN|0.292||0.0234|TWO_SIDED|95.0|-1.24|-0.09|||Regression, Logistic|||||-0.09|-1.24|0.0234
92307640|NCT03801382|184515730|EQUIVALENCE|Validity and test-retest reliability were explored|Mean Difference (Final Values)|0.05|||>|0.05|TWO_SIDED||||||t-test, 2 sided||||Validity and test-retest reliability were explored|||>.05
92189129|NCT00443755|184276262|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.23
92189130|NCT00443755|184276263|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92189131|NCT00443755|184276264|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.13
92189132|NCT00443755|184276265|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
92307641|NCT00390221|184515738|SUPERIORITY_OR_OTHER||Rate Ratio|0.461|||<|0.0001|TWO_SIDED|95.0|0.318|0.668||adjusted for the number of relapses in the 1 year prior to study entry, baseline Expanded Disability Status Scale (\<=2.5 vs \> 2.5), and age (\<=35 vs \>35)|Negative Binomial Regression|||||0.668|0.318|<0.0001
92307642|NCT00390221|184515738|SUPERIORITY_OR_OTHER||Rate Ratio|0.503||||0.0002|TWO_SIDED|95.0|0.352|0.721||adjusted for the number of relapses in the 1 year prior to study entry, baseline Expanded Disability Status Scale (\<=2.5 vs \> 2.5), and age (\<=35 vs \>35)|Negative Binomial Regression|||||0.721|0.352|0.0002
92307643|NCT00390221|184515739|SUPERIORITY_OR_OTHER||Percent Reduction|78.44|||<|0.0001|TWO_SIDED|95.0|65.97|86.35|||Negative Binomial Regression|adjusted for the baseline number of Gd-enhancing lesions||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||86.35|65.97|<0.0001
92307644|NCT00390221|184515739|SUPERIORITY_OR_OTHER||Percent Reduction|69.47|||<|0.0001|TWO_SIDED|95.0|52.4|80.41|||Negative Binomial Regression|adjusted for the baseline number of Gd-enhancing lesions||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||80.41|52.40|<0.0001
92307645|NCT00390221|184515740|SUPERIORITY_OR_OTHER||Percent Reduction|78.73|||<|0.0001|TWO_SIDED|95.0|71.33|84.22|||Negative Binomial Regression|adjusted for baseline number of T2 lesions||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||84.22|71.33|<0.0001
92189133|NCT00443755|184276266|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.02
92189134|NCT00443755|184276267|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189135|NCT00443755|184276268|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.006
92189136|NCT00443755|184276269|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.18
92189137|NCT00443755|184276270|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.76
92189138|NCT02706834|184276276|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence interval of 0.80 to 1.25|Point estimate|0.43|||||TWO_SIDED|90.0|0.38|0.487|||||Exponentiated Least Square Means TAK-828 100 mg Fed/TAK-828 100 mg Fasted|Food Effect: A linear mixed effect model on the natural log (ln)-transformed parameters was performed with dosing condition as a fixed effect and participant as a random effect using the Kenward-Roger estimation for computing the denominator degrees of freedom. The least squares means and difference of least squared means for the ln-transformed parameters were exponentiated to obtain the geometric means on the original scale.||0.487|0.380|
92307646|NCT00390221|184515740|SUPERIORITY_OR_OTHER||Percent Reduction|70.23|||<|0.0001|TWO_SIDED|95.0|59.94|77.88|||Negative Binomial Regression|adjusted for baseline number of T2 lesions||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||77.88|59.94|<0.0001
92307647|NCT00390221|184515741|SUPERIORITY_OR_OTHER||Hazard Ratio|0.49||||0.0003|TWO_SIDED|95.0|0.33|0.72||Covariates included were number of relapses in the 1 year prior to study entry (p=0.001), baseline Expanded Disability Status Scale (\<=2.5 versus \>2.5, p=0.449), and age (\<=35 versus \>35, p=0.026).|Cox Proportional Hazard|||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||0.72|0.33|0.0003
92307648|NCT00390221|184515741|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.3|0.67||Covariates included were number of relapses in the 1 year prior to study entry (p=0.001), baseline Expanded Disability Status Scale (\<=2.5 versus \>2.5, p=0.449), and age (\<=35 versus \>35, p=0.026).|Cox Proportional Hazard|||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||0.67|0.30|<0.0001
92307649|NCT00390221|184515742|SUPERIORITY_OR_OTHER||Relative Mean Change|-1.93||||0.1284|TWO_SIDED|95.0|-4.42|0.56||Analysis of variance for difference between treatment groups, controlling for baseline score.|Analysis of Variance|||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||0.56|-4.42|0.1284
92307650|NCT00390221|184515742|SUPERIORITY_OR_OTHER||Relative Mean Change|-4.27||||0.0008|TWO_SIDED|95.0|-6.76|-1.78|||Analysis of Variance|Analysis of variance for difference between treatment groups, controlling for baseline score.||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||-1.78|-6.76|0.0008
92307651|NCT00321737|184515777|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
92307652|NCT00321737|184515777|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
92307653|NCT00321737|184515777|SUPERIORITY_OR_OTHER||||||>|0.99999||95.0||||Statistical significance was determined at the 0.0025 level without adjustment for multiple comparisons.|Fisher Exact|||||||>0.99999
92307654|NCT00321737|184515778|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparison of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92307655|NCT00321737|184515778|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparison of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92189139|NCT02706834|184276283|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence interval of 0.80 to 1.25|Point estimate|0.896|||||TWO_SIDED|90.0|0.833|0.964|||||Exponentiated Least Square Means TAK-828 100 mg Fed/TAK-828 100 mg Fasted|Food Effect: A linear mixed effect model on the natural log (ln)-transformed parameters was performed with dosing condition as a fixed effect and participant as a random effect using the Kenward-Roger estimation for computing the denominator degrees of freedom. The least squares means and difference of least squared means for the ln-transformed parameters were exponentiated to obtain the geometric means and ratios of geometric means on the original scale.||0.964|0.833|
92307656|NCT00321737|184515778|SUPERIORITY_OR_OTHER|||||||0.0673||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.06730
92189140|NCT03149887|184276331|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
92189141|NCT03149887|184276332|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||||||0.54
92307657|NCT00321737|184515780|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
92307658|NCT00321737|184515780|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
92307659|NCT00321737|184515780|SUPERIORITY_OR_OTHER|||||||0.13932||95.0||||Statistical significance was determined at the 0.0025 level without adjustment for multiple comparisons.|Log Rank|||||||0.13932
92189142|NCT03149887|184276333|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
92189143|NCT03149887|184276334|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
92189144|NCT03149887|184276335|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
92189145|NCT03149887|184276336|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
92189146|NCT03149887|184276337|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||0.76
92189147|NCT03149887|184276338|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||||||0.44
92307660|NCT00321737|184515781|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparison of each dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92307661|NCT00321737|184515781|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparison of each dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
92307662|NCT00321737|184515781|SUPERIORITY_OR_OTHER|||||||0.11257||95.0||||Statistical significance was determined at the 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.11257
92307663|NCT04994483|184515806|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.4308|TWO_SIDED|95.0|-1.37|0.59|||Mixed Models Analysis|||||0.59|-1.37|0.4308
92307664|NCT04994483|184515807|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.4034|TWO_SIDED|95.0|-0.68|1.7|||Mixed Models Analysis|||||1.70|-0.68|0.4034
92307665|NCT00759902|184515815|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|123.0||||||90.0|112.9|134.1|||ANOVA|log-transformation||||134.1|112.9|
92307666|NCT00759902|184515817|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|101.7||||||90.0|98.5|104.9|||ANOVA|log-transformation||||104.9|98.5|
92307667|NCT00759902|184515818|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|102.9||||||90.0|99.3|106.5|||ANOVA|log-transformation||||106.5|99.3|
92307668|NCT01404923|184515826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4||||0.0008|TWO_SIDED||||||ANCOVA|||||||0.0008
92307669|NCT00945100|184515835|SUPERIORITY_OR_OTHER||Risk difference (unadjusted)|22.0||||0.003|TWO_SIDED|95.0|8.0|35.0|||Regression, Logistic|The logistic regression model included amblyopic eye visual acuity at randomization as an adjustment covariate.||||35|8|0.003
92307670|NCT00945100|184515836|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5||||0.01|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|The ANCOVA model included interocular difference at randomization as an adjustment covariate.||||1.0|0.1|0.01
92307671|NCT00945100|184515838|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.002|TWO_SIDED|95.0|0.3|1.0|||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||The primary analysis was a treatment group comparison of the masked 10-week amblyopic eye visual acuity using an analysis of covariance (ANCOVA) model, adjusting for visual acuity at randomization. The analysis was a 2-sided test for efficacy to test the null hypothesis of no treatment difference, assuming 90% power and a type I error rate of 5%.||1.0|0.3|0.002
92307672|NCT00945100|184515842|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||The treatment effect within gender was assessed by including an interaction term between treatment group and gender in the ANCOVA model, adjusting for amblyopic eye visual acuity at randomization and main effects corresponding to the interaction term.||||0.04
92189148|NCT03327051|184276343|OTHER|An increase in relative abundance of VSL3 bacterial strains at week 4 compared to week 0 (baseline) is considered significant if p\<0.05.||||||0.04|||||||ANOVA|Two-way ANOVA with Bonferroni post-test was used for multi-variable analysis||Within group difference between week 0 and week 4 was analyzed.||||0.04
92307673|NCT00945100|184515842|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||The treatment effect within race/ethnicity was assessed by including an interaction term between treatment group and race/ethnicity in the ANCOVA model, adjusting for amblyopic eye visual acuity at randomization and main effects corresponding to the interaction term.||||0.89
92307674|NCT00945100|184515842|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||The treatment effect within age at randomization was assessed by including an interaction term between treatment group and age in the ANCOVA model, adjusting for amblyopic eye visual acuity at randomization and main effects corresponding to the interaction term.||||0.49
92307675|NCT00945100|184515842|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||ANCOVA|||The treatment effect within amblyopic eye visual acuity at randomization was assessed by including an interaction term between treatment group and visual acuity in the ANCOVA model, adjusting for the main effects corresponding to the interaction term.||||0.37
92307676|NCT00945100|184515842|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||The treatment effect within cause of amblyopia was assessed by including an interaction term between treatment group and amblyopia cause in the ANCOVA model, adjusting for amblyopic eye visual acuity at randomization and main effects corresponding to the interaction term.||||0.50
92307677|NCT00945100|184515844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|0.04|1.0|||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||||1.0|0.04|
92307678|NCT00945100|184515852|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fisher's exact test was used to compare the proportion of participants in each treatment group with a loss of 2 or more lines in the better of the initial test and retest (if indicated) fellow eye visual acuities at the 10-week exam.||||>0.99
92307679|NCT00945100|184515854|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Fisher Exact|||Fisher's exact test was used to compare the proportion of participants in each treatment group with a loss of 2 or more lines in the better of the initial test and retest (if indicated) fellow eye visual acuities at the final exam.||||0.12
92307680|NCT00945100|184515858|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Wilcoxon (Mann-Whitney)|||An Exact Wilcoxon rank sum test was used for the difference between treatment groups in the distribution of levels of change in Randot Preschool Stereoacuity from randomization to 10 weeks.||||0.28
92307681|NCT00945100|184515861|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Wilcoxon (Mann-Whitney)|||An Exact Wilcoxon rank sum test was used for the difference between treatment groups in the distribution of levels of change in Randot Preschool Stereoacuity from randomization to 10 weeks.||||0.45
92307682|NCT02684630|184515867|OTHER|A procedure is a success if the donor's post-procedure platelet count is ≥ 100,000 platelets/μL, lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple sample proportion|1.0|STANDARD_DEVIATION|0.0|||ONE_SIDED|95.0|0.951||||||Estimated proportion is 100%. Hence standard deviation is estimated as 0.|"Sample Size Determination:~Up to 160 participants were to be enrolled in this study to ensure 60 evaluable single platelet product collections and 60 evaluable double platelet product collections. This number was chosen to meet the FDA requirements of 95% of postprocedure participant platelet count of ≥ 100,000 platelets/μL with 95% confidence."|||0.951|
92307683|NCT02684630|184515868|OTHER|A procedure is a success if the donor's post-procedure platelet count is ≥ 100,000 platelets/μL, lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple sample proportion|1.0|STANDARD_DEVIATION|0.0|||ONE_SIDED|95.0|0.951||||||Estimated proportion is 100%. Hence standard deviation is estimated as 0.|"Sample Size Determination:~Up to 160 participants were to be enrolled in this study to ensure 60 evaluable single platelet product collections and 60 evaluable double platelet product collections. This number was chosen to meet the FDA requirements of 95% of postprocedure participant platelet count of ≥ 100,000 platelets/μL with 95% confidence."|||0.951|
92307684|NCT00000378|184515875|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||actual calculation|Regression, Logistic|||logistic regression and mixed effects model||||<0.05
92307685|NCT01284361|184515896|SUPERIORITY_OR_OTHER||Proportion|91.5|||||TWO_SIDED|95.0|84.5|97.5|||||Seventy five of the 82 subjects (91.5%) preferred the longer commercially available catheter over the experimental 30 cm catheter.|The sample size of 81 subjects provides a 10.8% margin of error.||97.5|84.5|
92307686|NCT00505375|184515937|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014|||||||ANCOVA|||"The calculation for the concentration of c-peptide is a weighted average of the 6 timed measurements of c-peptide in nano-moles/Liter. We try to distinguish this calculation from the AUC by referring to it as the AUC mean and may be expressed algebraically as the AUC/(120 min.); thus, the units are the same as the y-axis."||||0.0014
92307687|NCT02906930|184515938|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.9||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.9|-1.3|<0.0001
92307688|NCT02906930|184515938|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.6||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 7 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.6|-1.1|<0.0001
92307689|NCT02906930|184515938|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.4||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 3 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.4|-0.8|<0.0001
92307690|NCT02906930|184515938|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-0.7|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral Semaglutide 3 mg - placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.5|-0.9|<0.0001
92189149|NCT03327051|184276343|OTHER|An increase in relative abundance of VSL3 bacterial strains at week 4 compared to week 0 (baseline) is considered significant if p\<0.05.|||||>|0.99|||||||ANOVA|Two-way ANOVA with Bonferroni post-test was used for multi-variable analysis||Within group difference between week 0 and week 4 was analyzed.||||>0.99
92189150|NCT04879823|184276353|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|||Null hypothesis: Average pain scores before medication will not be lower in the dexamethasone group compared with the placebo group.||||0.03
92307691|NCT02906930|184515938|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral Semaglutide 7 mg - placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.0|-1.5|<0.0001
92307692|NCT02906930|184515938|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.2||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral Semaglutide 14 mg - placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.2|-1.7|<0.0001
92307693|NCT02906930|184515939|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.1|-1.5||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.5|-3.1|<0.0001
92307694|NCT02906930|184515939|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.9||||0.0866|TWO_SIDED|95.0|-1.9|0.1||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 7 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.1|-1.9|0.0866
92307695|NCT02906930|184515939|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.1||||0.8692|TWO_SIDED|95.0|-0.9|0.8||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 3 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.8|-0.9|0.8692
92189151|NCT04879823|184276354|SUPERIORITY|||||||0.07|||||||Fisher Exact|||Null hypothesis: There will be no difference in the proportion of patients visiting the emergency department or urgent care (at least 1 time) post-operatively between dexamethasone and placebo groups.||||0.07
92189152|NCT04879823|184276355|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: Average pain scores after medication will not be lower in the dexamethasone group compared with the placebo group.||||0.98
92189153|NCT02137239|184276374|SUPERIORITY||Incidence of Change|-1.7|||||TWO_SIDED|95.0|-18.9|16.7||||||Change in Incidence of Treatment A as compared to Treatment B at 6 Months||16.7|-18.9|
92189154|NCT02137239|184276374|SUPERIORITY||Incidence of Change|-1.0|||||TWO_SIDED|95.0|-19.2|18.9||||||Change in Incidence of Treatment A as compared to Treatment B at 12 Months||18.9|-19.2|
92189155|NCT02137239|184276374|SUPERIORITY||Incidence of Change|2.9|||||TWO_SIDED|95.0|-16.1|23.9||||||Change in Incidence of Treatment A as compared to Treatment B at 24 Months||23.9|-16.1|
92189156|NCT04057937|184276401|SUPERIORITY||Percentage Difference:Apremilast-Placebo|37.4||||0.0003|TWO_SIDED|95.0|18.6|56.1||Two-sided 0.10 significant level|Chi-squared||Confidence Intervals calculated using the Wald method (normal approximation).|||56.1|18.6|0.0003
92189157|NCT01072396|184276452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.0087||95.0|0.02|0.11||Based on mixed effect model with repeated measures (MMRM) with fixed categorical effects for treatment, period and random effect for patient. Period baseline and patient baseline (average of two period baselines) were covariates in the model.|Mixed Models Analysis|Restricted maximum likelihood (REML) based MMRM||Placebo versus Tiotropium - crossover design||0.11|0.02|0.0087
92189158|NCT01072396|184276453|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.0685||||0.067||95.0|0.9953|1.147||Based on mixed effect model with repeated measures (MMRM) with fixed categorical effects for treatment, period and random effect for patient. Period baseline and patient baseline (average of two period baselines) were covariates in the model.|Mixed Models Analysis|Restricted maximum likelihood (REML) based MMRM||Placebo versus Tiotropium - corssover design||1.1470|0.9953|0.0670
92189159|NCT01072396|184276454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2059||||0.2417||95.0|-0.5527|0.1408||Based on mixed effect model with repeated measures (MMRM) with fixed categorical effects for treatment, period and random effect for patient. Period baseline and patient baseline (average of two period baselines) were covariates in the model.|Mixed Models Analysis|Restricted maximum likelihood (REML) based MMRM||Placebo versus Tiotropium - corssover design||0.1408|-0.5527|0.2417
92307696|NCT02906930|184515939|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-0.2||||0.7075|TWO_SIDED|95.0|-1.0|0.6|||MMRM||Oral Semaglutide 3 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.6|-1.0|0.7075
92307697|NCT02906930|184515939|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-1.0||||0.0138|TWO_SIDED|95.0|-1.8|-0.2||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral Semaglutide 7 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.2|-1.8|0.0138
92307698|NCT02906930|184515939|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.4|-1.8||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral Semaglutide 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.8|-3.4|<0.0001
92307699|NCT02906930|184515962|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.45||||0.0043|TWO_SIDED|95.0|0.26|0.78||Unadjusted two-sided p-value for test of no difference from 1|Regression, Cox||Oral Semaglutide 3 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.78|0.26|0.0043
92307700|NCT02906930|184515962|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.33||||0.0002|TWO_SIDED|95.0|0.18|0.59||Unadjusted two-sided p-value for test of no difference from 1|Regression, Cox||Oral Semaglutide 7 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.59|0.18|0.0002
92307701|NCT02906930|184515962|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.33||||0.0002|TWO_SIDED|95.0|0.19|0.6||Unadjusted two-sided p-value for test of no difference from 1|Regression, Cox||Oral Semaglutide 14 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.60|0.19|0.0002
92307702|NCT02906930|184515963|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.48||||0.03|TWO_SIDED|95.0|0.25|0.93||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 3 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.93|0.25|0.0300
92307703|NCT02906930|184515963|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.13||||0.0001|TWO_SIDED|95.0|0.04|0.36||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 7 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.36|0.04|0.0001
92307704|NCT02906930|184515963|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.06||||0.0001|TWO_SIDED|95.0|0.01|0.26||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 14 mg /Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.26|0.01|0.0001
92307705|NCT04713553|184516014|EQUIVALENCE|Equivalence was to be achieved if the 2-sided 95% confidence interval (CI) for GMR falls within the interval (0.67, 1.5).|Geometric mean ratio|1.01|||||TWO_SIDED|95.0|0.91|1.13|||||GMRs and corresponding 2-sided 95% CIs were calculated by exponentiating difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of age and vaccine group.|||1.13|0.91|
92307706|NCT04713553|184516014|EQUIVALENCE|Equivalence was to be achieved if the 2-sided 95% CI for GMR falls within the interval (0.67, 1.5).|Geometric mean ratio|0.93|||||TWO_SIDED|95.0|0.83|1.04|||||GMRs and corresponding 2-sided 95% CIs were calculated by exponentiating difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of age and vaccine group.|||1.04|0.83|
92307707|NCT04713553|184516014|EQUIVALENCE|Equivalence was to be achieved if the 2-sided 95% CI for GMR falls within the interval (0.67, 1.5).|Geometric mean ratio|0.92|||||TWO_SIDED|95.0|0.82|1.03|||||GMRs and corresponding 2-sided 95% CIs were calculated by exponentiating difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of age and vaccine group.|||1.03|0.82|
92307708|NCT04713553|184516015|EQUIVALENCE|Equivalence was to be achieved if the 2-sided 95% CI for GMR falls within the interval (0.67, 1.5).|Geometric mean ratio|0.95|||||TWO_SIDED|95.0|0.84|1.07|||||GMRs and corresponding 2-sided 95% CIs were calculated by exponentiating difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of age and vaccine group.|||1.07|0.84|
92307709|NCT04713553|184516016|NON_INFERIORITY|Noninferiority of the 20 mcg dose to the corresponding 30 mcg dose was said to be achieved if the lower limit of the 2-sided 95% CI for the GMR is \>0.67.|Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.84|1.02|||||GMRs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of age and vaccine group|||1.02|0.84|
92307710|NCT00918138|184516089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|STANDARD_ERROR_OF_MEAN|7.01||0.1278|TWO_SIDED|95.0|-24.8|3.2||Comparison between saxagliptin 5 mg + metformin 1500 mg and metformin 2000 mg significant at alpha =0.05 according to sequential testing procedure|ANCOVA|Change from baseline to week 4 was analyzed with ANCOVA including treatment group, baseline value and country in the model|Estimate = adjusted mean change for saxagliptin 5 mg + metformin 1500 mg - adjusted mean change for metformin 2000 mg|With at least 36 participants per treatment group (72 total), there is 90% power to detect a difference of 18 mg/dL between the two treatment groups. Assuming approximately 20% of participants will discontinue without any valid post-randomization assessment at Week 4, a total of 90 participants (45 participants per treatment group) needed to be randomized.||3.2|-24.8|0.1278
92307711|NCT00918138|184516090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.1|STANDARD_ERROR_OF_MEAN|11.8|||TWO_SIDED|95.0|-54.6|-7.7||Comparison between saxagliptin 5 mg + metformin 1500 mg and metformin 2000 mg significant at alpha =0.05 according to sequential testing procedure.|ANCOVA|Change from baseline to week 4 was analyzed with ANCOVA including treatment group, baseline value and country in the model|Estimate = adjusted mean change for saxagliptin 5 mg + metformin 1500 mg - adjusted mean change for metformin 2000 mg.|||-7.7|-54.6|
92307712|NCT00918138|184516091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|7.18|||TWO_SIDED|95.0|-20.0|8.5||Comparison between saxagliptin 5 mg + metformin 1500 mg and metformin 2000 mg significant at alpha =0.05 according to sequential testing procedure.|ANCOVA|Change from baseline to week 4 was analyzed with ANCOVA including treatment group, baseline value and country in the model.|Estimate = adjusted mean change for saxagliptin 5 mg + metformin 1500 mg - adjusted mean change for metformin 2000 mg|||8.5|-20.0|
92307713|NCT04540406|184516107|OTHER|We employed covariate-adjusted Principal Coordinates Analysis and a subject-stratified PERMANOVA test to assess the overall gut microbiota structural change. These tests are generally neither superiority, non-inferiority, nor equivalence tests. Instead, they are used to detect and evaluate overall differences in the microbial community structure between groups or conditions.||||||||||||||||PCoA (Principal Coordinates Analysis) + PERMANOVA (Permutational Multivariate Analysis of Variance) are exploratory multivariate techniques commonly used in microbiome research to assess and visualize differences in community composition. The null hypothesis for PERMANOVA is that there are no differences in the centroids (multivariate means) of the groups being compared. The microbial communities in different groups or conditions are not significantly different from each other.|To assess the overall structural changes in gut microbiota, we employed covariate-adjusted Principal Coordinates Analysis (PCoA) and a subject-stratified PERMANOVA test. PCoA, an exploratory multivariate technique, helps visualize and interpret patterns in complex microbiome data by reducing dimensionality, with the first principal coordinate (PC1) capturing the largest variation among samples. PERMANOVA, which does not rely on standard parametric assumptions, was used to determine if there are statistically significant differences in the overall composition of microbial communities between groups based on a chosen distance metric. Our analysis aimed to explore whether microbial community compositions differed significantly between Day 0 and Day 28 within the Treatment group, accounting for inter-individual variability. Similarly, we investigated if such differences existed over the same time points in the Control group. The unit of measure was distance metrics.|||
92307714|NCT02885181|184516142|SUPERIORITY||Least Squares (LS) Means of Differences|0.01||||0.978|TWO_SIDED|95.0||0.76|||Cochran-Mantel-Haenszel|||||0.76|- 0.74|0.978
92307715|NCT02885181|184516142|SUPERIORITY||LS Means of Differences|0.4||||0.3|TWO_SIDED|95.0||1.16|||Cochran-Mantel-Haenszel|||||1.16|- 0.36|0.300
92189160|NCT02446912|184276455|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|-4.2||||0.412|TWO_SIDED|95.0|-14.2|5.8||Nominal p-value|Cochran-Mantel-Haenszel|||||5.8|-14.2|0.412
92189161|NCT02446912|184276455|SUPERIORITY||Mean Difference (Final Values)|-2.6|||||TWO_SIDED|95.0|-14.7|9.6||||||||9.6|-14.7|
92307716|NCT02885181|184516142|SUPERIORITY||LS Means of Differences|0.0||||0.002|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||- 0.43|- 1.92|0.002
92307717|NCT02885181|184516143|SUPERIORITY||Difference in Response Rates|-5.9||||0.66|TWO_SIDED|95.0|-36.0|24.0|||Cochran-Mantel-Haenszel|||||24.0|-36.0|0.660
92189162|NCT02446912|184276456|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|3.9||||0.455|TWO_SIDED|95.0|-6.3|14.1||Nominal p-value|Cochran-Mantel-Haenszel|||||14.1|-6.3|0.455
92307718|NCT02885181|184516143|SUPERIORITY||Difference in Response Rates|-15.9||||0.277|TWO_SIDED|95.0|-44.7|13.8|||Cochran-Mantel-Haenszel|||||13.8|-44.7|0.277
92307719|NCT02885181|184516143|SUPERIORITY||Difference in Response Rates|40.0||||0.009|TWO_SIDED|95.0|10.7|65.6|||Cochran-Mantel-Haenszel|||||65.6|10.7|0.009
92189163|NCT02446912|184276456|SUPERIORITY||Mean Difference (Final Values)|5.5|||||TWO_SIDED|95.0|-6.7|17.8||||||||17.8|-6.7|
92307720|NCT02885181|184516144|SUPERIORITY||Difference in Response Rates|-2.7||||0.853|TWO_SIDED|95.0|-32.0|27.5|||Cochran-Mantel-Haenszel|||||27.5|-32.0|0.853
92307721|NCT02885181|184516144|SUPERIORITY||Difference in Response Rates|-2.7||||0.852|TWO_SIDED|95.0|-32.0|27.5|||Cochran-Mantel-Haenszel|||||27.5|-32.0|0.852
92307722|NCT02885181|184516144|SUPERIORITY||Difference in Response Rates|24.9||||0.092|TWO_SIDED|95.0|-6.6|51.5|||Cochran-Mantel-Haenszel|||||51.5|-6.6|0.092
92307723|NCT02885181|184516145|SUPERIORITY||Difference in Response Rates|-8.6||||0.36|TWO_SIDED|95.0|-37.9|22.5|||Cochran-Mantel-Haenszel|||||22.5|-37.9|0.360
92307724|NCT02885181|184516145|SUPERIORITY||Difference in Response Rates|1.4||||0.896|TWO_SIDED|95.0|-28.0|31.7|||Cochran-Mantel-Haenszel|||||31.7|-28.0|0.896
92307725|NCT02885181|184516145|SUPERIORITY||Difference in Response Rates|24.5||||0.072|TWO_SIDED|95.0|-6.6|50.1|||Cochran-Mantel-Haenszel|||||50.1|-6.6|0.072
92307726|NCT02885181|184516146|SUPERIORITY||LS Means of Differences|-0.12||||0.528|TWO_SIDED|95.0|-0.49|0.25|||Cochran-Mantel-Haenszel|||||0.25|-0.49|0.528
92189164|NCT02446912|184276457|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|-3.4||||0.549|TWO_SIDED|95.0|-14.4|7.6||Nominal p-value|Cochran-Mantel-Haenszel|||||7.6|-14.4|0.549
92189165|NCT02446912|184276458|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|6.4||||0.261|TWO_SIDED|95.0|-4.8|17.7||Nominal p-value|Cochran-Mantel-Haenszel|||||17.7|-4.8|0.261
92307727|NCT02885181|184516146|SUPERIORITY||LS Means of Differences|0.2||||0.293|TWO_SIDED|95.0|-0.17|0.57|||Cochran-Mantel-Haenszel|||||0.57|-0.17|0.293
92307728|NCT02885181|184516146|SUPERIORITY||LS Means of Differences|-0.33||||0.072|TWO_SIDED|95.0|-0.7|0.03|||Cochran-Mantel-Haenszel|||||0.03|-0.70|0.072
92307729|NCT03149445|184516187|SUPERIORITY||LS Mean Difference|-5.4||||0.1045|TWO_SIDED|95.0|-12.3|1.5||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||1.5|-12.3|0.1045
92307730|NCT03149445|184516187|SUPERIORITY||LS Mean Difference|0.7||||0.7422|TWO_SIDED|95.0|-4.0|5.3||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||5.3|-4.0|0.7422
92307731|NCT03149445|184516187|SUPERIORITY||LS Mean Difference|5.6||||0.046|TWO_SIDED|95.0|0.1|11.0||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||11.0|0.1|0.0460
92307732|NCT03149445|184516187|SUPERIORITY||LS Mean Difference|4.3||||0.3847|TWO_SIDED|95.0|-9.2|17.8||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||17.8|-9.2|0.3847
92307733|NCT03149445|184516188|SUPERIORITY||LS Mean Difference|-6.2||||0.1326|TWO_SIDED|95.0|-14.9|2.5||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||2.5|-14.9|0.1326
92307734|NCT03149445|184516188|SUPERIORITY||LS Mean Difference|1.2||||0.5148|TWO_SIDED|95.0|-2.9|5.3||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||5.3|-2.9|0.5148
92307735|NCT03149445|184516188|SUPERIORITY||LS Mean Difference|4.5||||0.0605|TWO_SIDED|95.0|-0.3|9.4||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||9.4|-0.3|0.0605
92307736|NCT03149445|184516188|SUPERIORITY||LS Mean Difference|2.6||||0.5198|TWO_SIDED|95.0|-8.8|14.0||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||14.0|-8.8|0.5198
92307737|NCT03149445|184516189|SUPERIORITY||LS Mean Difference|-8.1||||0.0058|TWO_SIDED|95.0|-12.5|-3.6||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||-3.6|-12.5|0.0058
92307738|NCT03149445|184516189|SUPERIORITY||LS Mean Difference|2.1||||0.5142|TWO_SIDED|95.0|-5.3|9.5||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||9.5|-5.3|0.5142
92307739|NCT03149445|184516189|SUPERIORITY||LS Mean Difference|3.1||||0.3794|TWO_SIDED|95.0|-5.1|11.3||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||11.3|-5.1|0.3794
92307740|NCT03149445|184516189|SUPERIORITY||LS Mean Difference|1.0||||0.685|TWO_SIDED|95.0|-6.1|8.1||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||8.1|-6.1|0.6850
92307741|NCT02699060|184516203|SUPERIORITY||Median Difference (Net)|-1.76|STANDARD_DEVIATION|0.8||0.002|TWO_SIDED||||||Mixed Models Analysis|||||||0.002
92307742|NCT04916444|184516209|SUPERIORITY|||||||0.691|||||||ANOVA|Two-way repeated measures ANOVA||Null hypothesis is that there was no interaction between the intervention and time factors on the TWSTRS scores.||||0.691
92307743|NCT04916444|184516210|SUPERIORITY|||||||0.816|||||||ANOVA|Two-way repeated measures ANOVA||Null hypothesis is that there was no interaction between the intervention and time factors on the BDI scores.||||0.816
92307744|NCT04916444|184516211|SUPERIORITY|||||||0.167|||||||ANOVA|Two-way repeated measures ANOVA||Null hypothesis is that there was no interaction between the intervention and time factors on the time to complete the TMT-A task.||||0.167
92307745|NCT04916444|184516212|SUPERIORITY|||||||0.507|||||||ANOVA|Two-way repeated measures ANOVA||Null hypothesis is that there was no interaction between the intervention and time factors on the time to complete the TMT-A task.||||0.507
92307746|NCT04916444|184516213|SUPERIORITY|||||||0.056|||||||ANOVA|Two-way repeated measures ANOVA||||||0.056
92307747|NCT04916444|184516214|SUPERIORITY|||||||0.646|||||||ANOVA|Two-way repeated measures ANOVA||||||0.646
92307748|NCT05005312|184516216|OTHER|The ratio and 90% CI were expressed as percentages|Ratio of Adjusted Geometric Means|101.96|||||TWO_SIDED|90.0|74.2|140.11|||ANOVA|||||140.11|74.20|
92307749|NCT05005312|184516217|OTHER|The ratio and 90% CI were expressed as percentages|Ratio of Adjusted Geometric Means|99.29|||||TWO_SIDED|90.0|70.81|139.21|||ANOVA|||||139.21|70.81|
92307750|NCT05005312|184516218|OTHER|The ratio and 90% CI were expressed as percentages|Ratio of Adjusted Geometric Means|98.78|||||TWO_SIDED|90.0|70.65|138.12|||ANOVA|||||138.12|70.65|
92307751|NCT06077149|184516229|NON_INFERIORITY|The primary outcome of the study was to demonstrate the noninferiority in antibody response at 30 days for any RSV vaccine between the LTCF group and the community group. A sample size of 152 participants (76 per group) was expected to provide 80% power to demonstrate noninferiority of 1 month GMT to within a relative noninferiority margin of 1.5-fold using a 1-sided 0.05-level linear model-based t test comparing log (1-month titer) by population, adjusted for vaccine and log (baseline titer).||||||0.14|||||||t-test, 2 sided|||||||0.14
92307752|NCT06077149|184516230|NON_INFERIORITY|The primary outcome of the study was to demonstrate the noninferiority in antibody response at 30 days for any RSV vaccine between the LTCF group and the community group. A sample size of 152 participants (76 per group) was expected to provide 80% power to demonstrate noninferiority of 1 month GMT to within a relative noninferiority margin of 1.5-fold using a 1-sided 0.05-level linear model-based t test comparing log (1-month titer) by population, adjusted for vaccine and log (baseline titer).||||||0.17|||||||t-test, 2 sided|||||||0.17
92307753|NCT06077149|184516231|NON_INFERIORITY|The primary outcome of the study was to demonstrate the noninferiority in antibody response at 30 days for any RSV vaccine between the LTCF group and the community group. A sample size of 152 participants (76 per group) was expected to provide 80% power to demonstrate noninferiority of 1 month GMT to within a relative noninferiority margin of 1.5-fold using a 1-sided 0.05-level linear model-based t test comparing log (1-month titer) by population, adjusted for vaccine and log (baseline titer).||||||0.32|||||||t-test, 2 sided|||||||0.32
92307754|NCT06077149|184516232|NON_INFERIORITY|The primary outcome of the study was to demonstrate the noninferiority in antibody response at 30 days for any RSV vaccine between the LTCF group and the community group. A sample size of 152 participants (76 per group) was expected to provide 80% power to demonstrate noninferiority of 1 month GMT to within a relative noninferiority margin of 1.5-fold using a 1-sided 0.05-level linear model-based t test comparing log (1-month titer) by population, adjusted for vaccine and log (baseline titer).||||||0.82|||||||t-test, 2 sided|||||||0.82
92307755|NCT02970318|184516239|OTHER||Hazard Ratio (HR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.2|0.49||Stratified by randomization stratification factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|Log Rank||Cox Proportional Hazard Model (Arm A vs. Arm B) stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|||0.49|0.20|<0.0001
92307756|NCT02970318|184516240|OTHER||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.2|0.38||Stratified by randomization stratification factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|Log Rank||Cox Proportional Hazard Model (Arm A vs. Arm B) stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|||0.38|0.20|<0.0001
92307757|NCT02970318|184516241|OTHER||Risk Difference (RD)|5.8||||0.2248|TWO_SIDED|95.0|-3.3|14.9|||Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test with adjustment for randomization stratification factors as recorded in IXRS.|Risk difference (% Arm A - Arm B) based on Cochran-Mantel-Haenszel test with adjustment for randomization stratification factors as recorded in IXRS.|||14.9|-3.3|0.2248
92307758|NCT02970318|184516242|OTHER||Risk Difference (RD)|-1.3||||0.734|TWO_SIDED|95.0|-9.6|7.0|||Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test with adjustment for randomization stratification factors as recorded in IXRS.|Risk difference (% Arm A - Arm B) based on Cochran-Mantel-Haenszel test with adjustment for randomization stratification factors as recorded in IXRS.|||7.0|-9.6|0.7340
92307759|NCT02970318|184516243|OTHER||Hazard Ratio (HR)|0.69||||0.0783|TWO_SIDED|95.0|0.46|1.04|||Log Rank|Log-Rank Analysis stratified by factors recorded in IXRS data: presence of deletion 17 p (yes / no), ECOG (0-1/2), # of prior therapies (1-3/4+).|Cox proportional hazard analysis stratified (Arm A vs. Arm B) by factors recorded in IXRS data including presence of deletion 17 p (yes / no), ECOG (0-1/2), # of prior therapies (1-3/4+).|Analysis stratified by factors recorded in IXRS data including presence of deletion 17 p (yes / no), ECOG (0-1/2), # of prior therapies (1-3/4+).||1.04|0.46|0.0783
92307760|NCT02970318|184516244|OTHER||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.19|0.59||Log Rank Test stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|Log Rank||Cox Proportional Hazard Model (Arm A vs. Arm B) stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|||0.59|0.19|<0.0001
92307761|NCT02970318|184516245|OTHER||Hazard Ratio (HR)|0.23|||<|0.0001|TWO_SIDED|95.0|0.16|0.33||Log Rank Test stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|Log Rank||Cox Proportional Hazard Model (Arm A vs. Arm B) stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|||0.33|0.16|<0.0001
92307762|NCT02970318|184516246|OTHER||Hazard Ratio (HR)|0.29|||<|0.0001|TWO_SIDED|95.0|0.21|0.4||Log Rank Test stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|Log Rank||Cox Proportional Hazard Model (Arm A vs. Arm B) stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|||0.40|0.21|<0.0001
92307763|NCT02036775|184516261|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the area under the curve (AUCss 0-24) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|110.68|STANDARD_DEVIATION|20.42|||TWO_SIDED|90.0|99.84|122.69|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||122.69|99.84|
92307764|NCT02036775|184516261|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the area under the curve (AUCss 0-24) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|103.39|STANDARD_DEVIATION|13.52|||TWO_SIDED|90.0|96.54|110.74|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||110.74|96.54|
92307765|NCT02036775|184516261|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the area under the curve (AUCss 0-24) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|106.93|STANDARD_DEVIATION|12.65|||TWO_SIDED|90.0|100.29|114.02|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||114.02|100.29|
92307766|NCT02036775|184516262|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the peak concentration (Cmax ss) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|84.72|STANDARD_DEVIATION|19.01|||TWO_SIDED|90.0|76.96|93.25|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||93.25|76.96|
92307767|NCT02036775|184516262|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the peak concentration (Cmax ss) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|103.87|STANDARD_DEVIATION|17.19|||TWO_SIDED|90.0|95.22|113.31|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||113.31|95.22|
92307768|NCT02036775|184516262|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the peak concentration (Cmax ss) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|80.94|STANDARD_DEVIATION|17.95|||TWO_SIDED|90.0|73.92|88.62|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||88.62|73.92|
92307769|NCT02036775|184516263|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the dose-adjusted total exposure (AUCss 0-24 norm) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|88.54|STANDARD_DEVIATION|20.42|||TWO_SIDED|90.0|79.87|98.15|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||98.15|79.87|
92307770|NCT02036775|184516263|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the dose-adjusted total exposure (AUCss 0-24 norm) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|103.39|STANDARD_DEVIATION|13.52|||TWO_SIDED|90.0|96.54|110.74|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||110.74|96.54|
92307771|NCT02036775|184516263|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the dose-adjusted total exposure (AUCss 0-24 norm) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|85.55|STANDARD_DEVIATION|12.65|||TWO_SIDED|90.0|80.23|91.22|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||91.22|80.23|
92307772|NCT02036775|184516264|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the rate of absorption at steady state (Cmax ss/AUCss 0-24) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|76.55|STANDARD_DEVIATION|14.55|||TWO_SIDED|90.0|71.1|82.4|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||82.40|71.10|
92307773|NCT02036775|184516264|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the rate of absorption at steady state (Cmax ss/AUCss 0-24) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|100.46|STANDARD_DEVIATION|11.65|||TWO_SIDED|90.0|94.69|106.58|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||106.58|94.69|
92307774|NCT02036775|184516264|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the rate of absorption at steady state (Cmax ss/AUCss 0-24) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|75.69|STANDARD_DEVIATION|15.64|||TWO_SIDED|90.0|69.92|81.93|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||81.93|69.92|
92307775|NCT04181723|184516274|SUPERIORITY||LSM difference|-3.1|STANDARD_ERROR_OF_MEAN|1.3||0.0175|TWO_SIDED|95.0|-5.7|-0.6|||Mixed-effects model for repeated measure|||||-0.6|-5.7|0.0175
92307776|NCT04181723|184516275|SUPERIORITY||LSM difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.003|TWO_SIDED|95.0|-0.5|-0.1|||Mixed-effects model for repeated measure|||||-0.1|-0.5|0.0030
92189166|NCT02446912|184276459|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|8.9||||0.18|TWO_SIDED|95.0|-4.1|21.9||Nominal p-value|Cochran-Mantel-Haenszel|||||21.9|-4.1|0.180
92189167|NCT02446912|184276460|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|16.7||||0.013|TWO_SIDED|95.0|3.5|29.8||Nominal p-value|Cochran-Mantel-Haenszel|||||29.8|3.5|0.013
92307777|NCT04181723|184516276|SUPERIORITY||LSM difference|1.0|STANDARD_ERROR_OF_MEAN|0.37||0.0064|TWO_SIDED|95.0|0.3|1.7|||Mixed-effects model for repeated measure|||||1.7|0.3|0.0064
92307778|NCT04181723|184516277|SUPERIORITY||LSM difference|-4.5|STANDARD_ERROR_OF_MEAN|4.67||0.3376|TWO_SIDED|95.0|-13.8|4.8|||ANCOVA|||||4.8|-13.8|0.3376
92307779|NCT04181723|184516278|SUPERIORITY||LSM difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.3649|TWO_SIDED|95.0|-0.3|0.1|||Mixed-effects model for repeated measure|||||0.1|-0.3|0.3649
92307780|NCT04181723|184516279|SUPERIORITY||LSM difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2114|TWO_SIDED|95.0|-0.3|0.1|||Mixed-effects model for repeated measure|||||0.1|-0.3|0.2114
92307781|NCT04181723|184516280|SUPERIORITY||LSM difference|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.0257|TWO_SIDED|95.0|-0.6|0.0|||Mixed-effects model for repeated measure|||||0.0|-0.6|0.0257
92307782|NCT04181723|184516281|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.9799|TWO_SIDED|95.0|-0.2|0.2|||Mixed-effects model for repeated measure|||||0.2|-0.2|0.9799
92307783|NCT04181723|184516282|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.5304|TWO_SIDED|95.0|-0.1|0.1|||Mixed-effects model for repeated measure|||||0.1|-0.1|0.5304
92307784|NCT04181723|184516283|SUPERIORITY||LSM difference|-0.8|STANDARD_ERROR_OF_MEAN|1.4||0.5855|TWO_SIDED|95.0|-3.5|2.0|||ANCOVA|||||2.0|-3.5|0.5855
92307785|NCT04181723|184516284|SUPERIORITY||LSM difference|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.2507|TWO_SIDED|95.0|-0.1|0.4|||Mixed-effects model for repeated measure|||||0.4|-0.1|0.2507
92307786|NCT03496610|184516285|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum test performed given non-normal distribution of data by Shapiro Wilks Test. Null hypothesis is that there is no difference in oral morphine equivalent consumption between the two groups in the first 24hrs after surgery. Original sample size calculation based on α=0.05, β=0.8, difference in means=2, and effect size of 1.0.||||0.81
92307787|NCT03496610|184516286|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum test performed with α=0.05. The null hypothesis is that there is no difference between the two groups in pain on postoperative day 7.||||0.40
92307788|NCT03496610|184516287|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum test performed with α=0.05. The null hypothesis is that there is no difference in bloating severity between the two groups.||||0.74
92307789|NCT03496610|184516288|OTHER|||||||0.38|||||||Chi-squared|Degrees of freedom = 1||Compared using the Likelihood ratio test with α=0.05. The null hypothesis was that there is no difference between the groups.||||0.38
92307790|NCT01629966|184516380|SUPERIORITY||Least Squares Mean Difference|-1.27||||0.083|TWO_SIDED|95.0|-2.71|0.17|||MMRM|||||0.17|-2.71|0.0830
92307791|NCT01629966|184516380|SUPERIORITY||Least Squares Mean Difference|-1.8||||0.0156|TWO_SIDED|95.0|-3.26|-0.34|||MMRM|||||-0.34|-3.26|0.0156
92307792|NCT01629966|184516381|SUPERIORITY||Least Squares Mean Difference|-1.37||||0.0536|TWO_SIDED|95.0|-2.75|0.02|||MMRM|||||0.02|-2.75|0.0536
92307793|NCT01629966|184516381|SUPERIORITY||Least Squares Mean Difference|-1.52||||0.0349|TWO_SIDED|95.0|-2.94|-0.11|||MMRM|||||-0.11|-2.94|0.0349
92307794|NCT01150890|184516382|SUPERIORITY|||||||0.1941|||||||Overall Trend test|||The primary null hypothesis was tested sequentially using a linear trend test at the significance level of 0.05 (two-sided) using logistic regression modeling.||||0.1941
92307795|NCT01150890|184516382|SUPERIORITY||Difference in Response Rate|0.0||||1|TWO_SIDED|95.0|-0.09|0.09|||Chi-squared|||||0.09|-0.09|1.0000
92307796|NCT01150890|184516382|SUPERIORITY||Difference in Response Rate|0.1203||||0.0966|TWO_SIDED|95.0|-0.02|0.26|||Chi-squared|||||0.26|-0.02|0.0966
92307797|NCT01150890|184516382|SUPERIORITY||Difference in Response Rate|0.0597||||0.3208|TWO_SIDED|95.0|-0.06|0.17|||Chi-squared|||||0.17|-0.06|0.3208
92307798|NCT01150890|184516383|SUPERIORITY||Difference in Response Rate|0.0363||||0.6831|TWO_SIDED|95.0|-0.14|0.21|||Chi-squared|||||0.21|-0.14|0.6831
92307799|NCT01150890|184516383|SUPERIORITY||Difference in Response Rate|0.1477||||0.1396|TWO_SIDED|95.0|-0.04|0.34|||Chi-squared|||||0.34|-0.04|0.1396
92307800|NCT01150890|184516383|SUPERIORITY||Difference in Response Rate|0.0265||||0.7588|TWO_SIDED|95.0|-0.14|0.19|||Chi-squared|||||0.19|-0.14|0.7588
92307801|NCT01150890|184516384|SUPERIORITY|||||||0.4161|||||||ANCOVA|Analysis of covariance (ANCOVA) model adjusted for baseline CDAI score.||||||0.4161
92307802|NCT01150890|184516384|SUPERIORITY|||||||0.8094|||||||ANCOVA|ANCOVA model adjusted for baseline CDAI score.||||||0.8094
92307803|NCT01150890|184516384|SUPERIORITY|||||||0.304|||||||ANCOVA|ANCOVA model adjusted for baseline CDAI score.||||||0.3040
92307804|NCT03118570|184516390|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.644||||||Analysis is based on a log transformed analysis of covariance (ANCOVA) model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.644
92307805|NCT03118570|184516390|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.485||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.485
92307806|NCT03118570|184516390|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.404||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.404
92307807|NCT03118570|184516391|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.006||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.006
92307808|NCT03118570|184516391|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.19||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.190
92307809|NCT03118570|184516391|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.704||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.704
92307810|NCT03118570|184516392|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.011||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.011
92307811|NCT03118570|184516392|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.047||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.047
92307812|NCT03118570|184516392|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.756||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.756
92189168|NCT02446912|184276461|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|17.0||||0.054|TWO_SIDED|95.0|-0.3|34.3||Nominal p-value|Cochran-Mantel-Haenszel|||||34.3|-0.3|0.054
92189169|NCT02446912|184276462|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|18.7||||0.034|TWO_SIDED|95.0|1.4|36.0||Nominal p-value|Cochran-Mantel-Haenszel|||||36.0|1.4|0.034
92307813|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.329||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.329
92307814|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.953||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.953
92307815|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.795||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.795
92307816|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.644||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.644
92307817|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.485||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.485
92307818|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.404||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.404
92307819|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.827||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.827
92307820|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.459||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.459
92307821|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.022||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.022
92307822|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.821||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.821
92307823|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.911||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.911
92307824|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.152||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.152
92307825|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.668||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.668
92307826|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.109||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.109
92307827|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.358||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.358
92307828|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.742||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.742
92307829|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.567||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.567
92189170|NCT02446912|184276463|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|0.6||||0.905|TWO_SIDED|95.0|-9.4|10.6||Nominal p-value|Cochran-Mantel-Haenszel|||||10.6|-9.4|0.905
92307830|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.43||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.430
92307831|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.634||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.634
92307832|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.146||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.146
92307833|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.521||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.521
92307834|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.991||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.991
92307835|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.069||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.069
92189171|NCT02446912|184276464|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|3.3||||0.515|TWO_SIDED|95.0|-6.7|13.4||Nominal p-value|Cochran-Mantel-Haenszel|||||13.4|-6.7|0.515
92307836|NCT03118570|184516393|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.625||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.625
92307837|NCT03118570|184516394|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.615||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.615
92307838|NCT03118570|184516394|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.376||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.376
92307839|NCT03118570|184516394|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.259||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.259
92307840|NCT03118570|184516394|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.253||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.253
92307841|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.064||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.064
92307842|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.019||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.019
92307843|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.845||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.845
92307844|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.006||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.006
92307845|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.19||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.190
92189172|NCT02446912|184276465|SUPERIORITY|Analysed using a negative binomial regression model. The response variable in the model is the number of flares over the 52-week treatment period. The model includes covariates of treatment group, and the stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>=10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]). The logarithm of the follow-up time is used as an offset variable.|Rate Ratio|0.83||||0.258|TWO_SIDED|95.0|0.6|1.14||Nominal p-value|Negative binomial regression|||||1.14|0.60|0.258
92307846|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.704||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.704
92307847|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.002||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.002
92307848|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.021||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.021
92307849|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.504||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.504
92307850|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.462||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.462
92307851|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.134||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.134
92307852|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.086||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.086
92307853|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.199||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.199
92307854|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.219||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 8||||0.219
92307855|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.112||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.112
92307856|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.086||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.086
92307857|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.245||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.245
92189173|NCT02446912|184276466|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|10.1|||||TWO_SIDED|95.0|0.6|19.7|||Cochran-Mantel-Haenszel|||||19.7|0.6|
92189174|NCT02446912|184276467|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|16.4|||||TWO_SIDED|95.0|6.7|26.2|||Cochran-Mantel-Haenszel|||||26.2|6.7|
92189175|NCT04864236|184276490|EQUIVALENCE|We compared particle number counts between intervention and control groups using the Wilcoxon test. Analyses were conducted using IBM SPSS V28 and p-values \<0.05 were considered statistically significant.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92307858|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.232||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.232
92307859|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.237||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.237
92307860|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.088||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.088
92189176|NCT04864236|184276491|EQUIVALENCE|Patient characteristics were summarized between groups using mean (SD) and formally compared using the t-test.||||||0.073|||||||t-test, 1 sided|||||||0.073
92307861|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.302||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.302
92307862|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.626||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.626
92307863|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.517||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 8||||0.517
92307864|NCT03118570|184516395|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.262||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.262
92307865|NCT03118570|184516396|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||< 0.001
92307866|NCT03118570|184516396|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.004||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.004
92307867|NCT03118570|184516396|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.08||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.080
92189177|NCT04864236|184276492|EQUIVALENCE|Patient characteristics and study variables were summarized between groups using mean (SD) and formally compared using the t-test.||||||0.67|||||||t-test, 1 sided|||||||0.670
92189178|NCT04864236|184276493|EQUIVALENCE|Patient characteristics were summarized between groups using mean (SD) and formally compared using the t-test.||||||0.167|||||||t-test, 1 sided|||||||0.167
92189179|NCT04864236|184276494|EQUIVALENCE|Patient characteristics were summarized between groups using mean (SD) and formally compared using the t-test.||||||0.198|||||||t-test, 1 sided|||||||0.198
92189180|NCT04864236|184276495|EQUIVALENCE|Patient characteristics were summarized between groups using mean (SD) and formally compared using the t-test.||||||0.442|||||||t-test, 1 sided|||||||0.442
92189181|NCT02991456|184276498|OTHER|||||||0.2734|||||||Chi-squared|||||||0.2734
92307868|NCT03118570|184516396|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.031||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.031
92307869|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.06||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.060
92307870|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.015||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.015
92307871|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.795||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.795
92189182|NCT02991456|184276499|OTHER|||||||0.7091|||||||Chi-squared|||||||0.7091
92189183|NCT02991456|184276500|EQUIVALENCE|This was tested as patients who preferred rolapitant + ondansetron vs. patients who did not prefer rolapitant + ondansetron. Patients who reported no preference and preference to Ondansetron were combined.||||||0.0004|||||||Exact Binomial|||||||0.0004
92307872|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.011||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.011
92307873|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.047||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.047
92307874|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.756||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.756
92189184|NCT02991456|184276500|EQUIVALENCE|Three outcomes tested by sequence.||||||0.5207|||||||Fisher Exact|||||||0.5207
92189185|NCT02991456|184276501|EQUIVALENCE|Effectiveness during weeks 1-3 between sequences.||||||0.0406|||||||t-test, 1 sided|T-test using the Satterthwaite method for unequal variances.||||||0.0406
92189186|NCT02991456|184276502|EQUIVALENCE|Convenience during weeks 1-3 between sequences.||||||0.0541|||||||t-test, 1 sided|T-test using the pooled method for equal variances.||||||0.0541
92189187|NCT02991456|184276503|EQUIVALENCE|Overall satisfaction during weeks 1-3 between sequences.||||||0.0781|||||||t-test, 1 sided|T-test using the pooled method for equal variances.||||||0.0781
92189188|NCT02991456|184276504|EQUIVALENCE|Effectiveness during weeks 4-6 between sequences.||||||0.4146|||||||t-test, 1 sided|T-test using the pooled method for equal variances.||||||0.4146
92189189|NCT02991456|184276505|EQUIVALENCE|Convenience during weeks 4-6 between sequences.||||||0.2214|||||||t-test, 1 sided|T-test using the pooled method for equal variances.||||||0.2214
92189190|NCT02991456|184276506|EQUIVALENCE|Overall satisfaction during weeks 4-6 between sequences.||||||0.2028|||||||t-test, 1 sided|T-test using the Satterthwaite method for unequal variances.||||||0.2028
92189191|NCT01154699|184276545|SUPERIORITY_OR_OTHER|||||||0.8|||||||t-test, 2 sided|||The difference in the change in asthma control during the Usual care and the Bilevel PAP period were compared.||||0.8
92307875|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.006||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.006
92307876|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.137||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.137
92307877|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.639||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.639
92307878|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.325||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.325
92307879|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.108||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.108
92307880|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.078||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.078
92307881|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.106||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.106
92307882|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.236||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.236
92307883|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.164||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.164
92307884|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.031||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.031
92307885|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.224||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.224
92307886|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.291||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.291
92307887|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.324||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.324
92307888|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.188||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.188
92307889|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.503||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.503
92307890|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.385||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.385
92307891|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.727||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.727
92307892|NCT03118570|184516397|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.338||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.338
92307893|NCT03118570|184516398|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||< 0.001
92189192|NCT01154699|184276546|SUPERIORITY_OR_OTHER|||||||0.2|||||||t-test, 2 sided|||Change in PC20 between the two arms||||0.20
92307894|NCT03118570|184516398|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||< 0.001
92307895|NCT03118570|184516398|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||< 0.001
92189193|NCT01154699|184276547|SUPERIORITY_OR_OTHER|||||||0.78|||||||t-test, 2 sided|||||||0.78
92189194|NCT01154699|184276548|SUPERIORITY_OR_OTHER|||||||0.61|||||||t-test, 2 sided|||||||0.61
92307896|NCT03118570|184516398|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||< 0.001
92307897|NCT03118570|184516400|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
92307898|NCT03118570|184516400|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
92307899|NCT03118570|184516400|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.08||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||0.080
92307900|NCT03118570|184516400|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.238||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.238
92307901|NCT03118570|184516400|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.238||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.238
92189195|NCT01154699|184276549|SUPERIORITY_OR_OTHER|||||||0.94|||||||t-test, 2 sided|||||||0.94
92189196|NCT01154699|184276550|SUPERIORITY_OR_OTHER|||||||0.76|||||||t-test, 2 sided|||||||0.76
92307902|NCT03118570|184516400|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.035||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.035
92307903|NCT03118570|184516400|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.687||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.687
92307904|NCT03118570|184516400|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.107||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.107
92307905|NCT03118570|184516400|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.128||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.128
92307906|NCT03118570|184516401|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
92189197|NCT01755598|184276551|OTHER|Vaccine efficacy (VE) has been estimated from a Cox proportional hazard regression model (VE=1-hazard ratio) and 90% confidence intervals (CIs) and Wald p-value has been derived. The lower limit of the 90% two-sided CI for the VE against first occurrence of Definite pulmonary TB disease not associated with HIV-infection, meeting the case definition 1, is to be above 0%.|Vaccine efficacy rate|49.7||||0.043|TWO_SIDED|90.0|12.1|71.2|||Regression, Cox|||To evaluate the protective efficacy of two doses of the M72/AS01E candidate vaccine against Definite pulmonary TB disease not associated with HIV-infection, meeting the case definition 1, as compared to placebo.||71.2|12.1|0.0430
92189198|NCT01755598|184276552|OTHER|Vaccine efficacy (VE) has been estimated from a Cox proportional hazard regression model (VE=1-hazard ratio) and 90% confidence intervals (CIs) and Wald p-value has been derived. If the primary objective is met, this secondary objective is to be analysed using the following success criterion: The lower limit of the 90% two-sided CI for the VE against first occurrence of Definite pulmonary TB disease not associated with HIV infection, meeting the case definition 2, is to be above 0%.|Vaccine efficacy rate|61.67||||0.021|TWO_SIDED|90.0|24.084|80.647|||Regression, Cox|||To evaluate the protective efficacy of two doses of the M72/AS01E candidate vaccine against Definite Xpert MTB/Rif positive pulmonary TB disease not associated with HIV-infection, meeting the case definition 2, as compared to placebo.||80.647|24.084|0.0210
92307907|NCT03118570|184516401|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
92307908|NCT03118570|184516401|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.088||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||0.088
92307909|NCT03118570|184516401|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.184||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.184
92307910|NCT03118570|184516401|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.144||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.144
92307911|NCT03118570|184516401|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.028||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.028
92307912|NCT03118570|184516401|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.694||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.694
92307913|NCT03118570|184516401|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.143||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.143
92307914|NCT03118570|184516401|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.111||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.111
92307915|NCT03118570|184516402|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
92307916|NCT03118570|184516402|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
92307917|NCT03118570|184516402|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.026||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||0.026
92307918|NCT03118570|184516402|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.007||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.007
92307919|NCT03118570|184516402|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.004||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.004
92307920|NCT03118570|184516402|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.085||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.085
92307921|NCT03118570|184516402|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.04||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.040
92307922|NCT03118570|184516402|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.061||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.061
92307923|NCT03118570|184516402|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.189||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.189
92307924|NCT03118570|184516403|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
92189199|NCT02819141|184276590|SUPERIORITY|||||||0.3||||||A priori threshold for statistical significance was p \< 0.05.|Generalized estimating equations|Controlling for age, daily sequential organ failure assessment (SOFA) score, sedation intensity, and time of day of assessment||We estimated the power for multilevel models approximating our study design. A sample size of 95 patients per arm, 190 total (at a minimum 7 data collection points for each, resulting in \~1,050 observations) will have greater than 80% power to detect small to moderate effects (i.e., 0.11 or greater) in between-group differences in anxiety, delirium, and duration of mechanical ventilation at alpha = .05 for all proposed models.||||0.30
92307925|NCT03118570|184516403|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
92307926|NCT03118570|184516403|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.035||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||0.035
92307927|NCT03118570|184516403|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.003||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.003
92189200|NCT02819141|184276590|SUPERIORITY|Controlling for time of day, study day, age, sex, illness severity, and sedation frequency||||||0.9858|||||||Generalized Estimating equations|||||||0.9858
92189201|NCT02819141|184276591|SUPERIORITY|||||||0.02||||||a priori threshold for significance p \< 0.05.|t-test, 1 sided|||||||0.02
92307928|NCT03118570|184516403|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.003||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.003
92307929|NCT03118570|184516403|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.088||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.088
92307930|NCT03118570|184516403|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.016||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.016
92307931|NCT03118570|184516403|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.068||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.068
92307932|NCT03118570|184516403|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.16||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.160
92307933|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.065||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.065
92307934|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.405||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.405
92307935|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.966||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.966
92307936|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.003||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.003
92189202|NCT02819141|184276592|SUPERIORITY|||||||0.97|||||||Generalized estimating equations|Controlling for sedation intensity, age, daily Sequential Organ Failure Assessment (SOFA) score, study day, and time of day assessment||||||0.97
92189203|NCT02819141|184276592|SUPERIORITY|||||||0.5647|||||||Generalized estimating equations|Controlling for sedation frequency, age, sex, illness severity, study day, and time of day assessment.||||||0.5647
92189204|NCT02819141|184276593|SUPERIORITY|||||||0.39|||||||Generalized estimating equation|controlling for age, daily Sequential Organ Failure Assessment (SOFA) score, time of day of assessment||||||0.39
92189205|NCT02819141|184276594|SUPERIORITY|||||||0.37|||||||GEE|||||||0.37
92189206|NCT02819141|184276595|SUPERIORITY|||||||0.17|||||||t-test, 1 sided|||||||0.17
92307937|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.229||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.229
92307938|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.807||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.807
92307939|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.042||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.042
92307940|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.283||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.283
92307941|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.536||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.536
92189207|NCT02819141|184276595|SUPERIORITY|||||||0.81|||||||t-test, 1 sided|||||||0.81
92307942|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.765||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.765
92307943|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.247||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.247
92189208|NCT02819141|184276596|SUPERIORITY|||||||0.47|||||||t-test, 1 sided|||||||0.47
92189209|NCT02819141|184276596|SUPERIORITY|||||||0.82|||||||t-test, 1 sided|||||||0.82
92189210|NCT02819141|184276597|SUPERIORITY|||||||0.164|||||||t-test, 1 sided|||3 months after ICU discharge||||0.164
92189211|NCT02819141|184276597|SUPERIORITY|||||||0.84|||||||t-test, 1 sided|||6 months after ICU discharge||||0.84
92189212|NCT02819141|184276598|SUPERIORITY|||||||0.26|||||||t-test, 1 sided|||||||0.26
92189213|NCT02819141|184276599|SUPERIORITY|||||||0.82|||||||t-test, 1 sided|||||||0.82
92189214|NCT02819141|184276600|SUPERIORITY|||||||0.018|||||||t-test, 1 sided|||||||0.018
92189215|NCT02819141|184276601|SUPERIORITY|||||||0.66|||||||t-test, 1 sided|||||||0.66
92189216|NCT02819141|184276602|SUPERIORITY|||||||0.63|||||||t-test, 1 sided|||||||0.63
92189217|NCT02819141|184276603|SUPERIORITY|||||||0.41|||||||t-test, 1 sided|||||||0.41
92189218|NCT02819141|184276604|SUPERIORITY|||||||0.06|||||||t-test, 1 sided|||||||0.06
92189219|NCT02819141|184276605|SUPERIORITY|||||||0.93|||||||t-test, 1 sided|||||||0.93
92189220|NCT02819141|184276606|SUPERIORITY|||||||0.43|||||||t-test, 1 sided|||||||0.43
92189221|NCT02819141|184276607|SUPERIORITY|||||||0.69|||||||t-test, 1 sided|||||||0.69
92189222|NCT02819141|184276608|SUPERIORITY|||||||0.94|||||||t-test, 1 sided|||||||0.94
92189223|NCT02819141|184276609|SUPERIORITY|||||||0.5|||||||t-test, 1 sided|||||||0.50
92189224|NCT02819141|184276610|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|||||||0.03
92189225|NCT02819141|184276611|SUPERIORITY|||||||0.17|||||||t-test, 1 sided|||||||0.17
92189226|NCT02819141|184276612|SUPERIORITY|||||||0.85|||||||t-test, 1 sided|||||||0.85
92189227|NCT02819141|184276613|SUPERIORITY|||||||0.95|||||||t-test, 1 sided|||||||0.95
92307944|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.05||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.050
92307945|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.037||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.037
92307946|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.174||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.174
92307947|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.558||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.558
92307948|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.02||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.020
92307949|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.346||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.346
92307950|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.387||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.387
92189228|NCT01809691|184276615|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.08|TWO_SIDED|95.0|0.72|1.02|||Regression, Cox|||||1.02|0.72|.080
92307951|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.093||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.093
92189229|NCT01809691|184276616|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.51|0.67|||Regression, Cox|||||0.67|0.51|<0.001
92307952|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.156||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.156
92307953|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.324||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.324
92307954|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.92||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.920
92307955|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.04||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.040
92307956|NCT03118570|184516404|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.643||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.643
92307957|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.285||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.285
92189230|NCT03694210|184276626|SUPERIORITY||Mean Difference (Net)|0.0||||0.0011|TWO_SIDED|||||p-values of \<0.05 are considered significant.|Wilcoxon Signed Rank Test|||Physical Functioning: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.0011
92307958|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.544||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.544
92307959|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.615||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.615
92189231|NCT03694210|184276626|SUPERIORITY||Mean Difference (Net)|0.0||||0.1152|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Role Limitations due to Physical Health: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.1152
92189232|NCT03694210|184276626|SUPERIORITY||Mean Difference (Net)|0.0||||0.0552|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Role Limitations due to Emotional Problems: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.0552
92189233|NCT03694210|184276626|SUPERIORITY||Mean Difference (Net)|0.0||||0.039|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Energy/Fatigue: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.039
92307960|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.179||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.179
92307961|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.513||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.513
92307962|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.849||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.849
92307963|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.037||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.037
92307964|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.88||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.880
92307965|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.153||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.153
92307966|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.073||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.073
92307967|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.007||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.007
92307968|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.791||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.791
92307969|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.01||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.010
92189234|NCT03694210|184276626|SUPERIORITY||Mean Difference (Net)|0.0||||0.0223|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Emotional Well Being: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.0223
92189235|NCT03694210|184276626|SUPERIORITY||Mean Difference (Net)|0.0||||0.4664|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Social Functioning: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.4664
92189236|NCT03694210|184276626|SUPERIORITY||Mean Difference (Net)|0.0||||0.0001|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Pain: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.0001
92189237|NCT03694210|184276626|SUPERIORITY||Mean Difference (Net)|0.0||||0.0639|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||General Health: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.0639
92307970|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.553||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.553
92189238|NCT00724750|184276687|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 5%/day. For 80% power and a significance (alpha) level of 0.05; and assuming a common standard deviation of 9%, 41 subjects per group were needed.||||||0.6|TWO_SIDED|||||The rate of change for the 2 groups was compared by testing the treatment-by-time interaction in the model.|Mixed Models Analysis|||||||0.60
92189239|NCT00724750|184276688|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 5%/day.||||||0.19|TWO_SIDED|||||The rate of change for the 2 groups was compared by testing the treatment-by-time interaction.|Mixed Models Analysis|||||||0.19
92307971|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.652||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.652
92307972|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||< 0.001
92189240|NCT00724750|184276690|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92189241|NCT00724750|184276691|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||||||0.02
92189242|NCT00724750|184276692|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92189243|NCT01014013|184276693|NON_INFERIORITY_OR_EQUIVALENCE|The primary efficacy endpoint was based on the proportion of patients who had a favorable microbiological response assessment at follow-up 5 to 9 days post-therapy visit. The definition of non-inferiority is that the 95%(two-sided) confidence interval for the difference in response rate between the 2 treatment groups(MK0826 minus control group) contains zero and the lower limit of the CI is not less than -20 percentage points.|the difference between two response rate|-0.8|STANDARD_DEVIATION|10.9||||95.0|-11.7|10.2||||||||10.2|-11.7|
92307973|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.482||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.482
92307974|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.685||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.685
92307975|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.002||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.002
92307976|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.672||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.672
92307977|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.377||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.377
92307978|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.015||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.015
92189244|NCT01014013|184276695|NON_INFERIORITY_OR_EQUIVALENCE|The secondary efficacy endpoint was based on the proportion of patients who had a favorable clinical response assessment at follow-up 5 to 9 days post-therapy visit. The definition of non-inferiority is that the 95%(two-sided) confidence interval for the difference in response rate between the 2 treatment groups(MK0826 minus control group) contains zero and the lower limit of the CI is not less than -20 percentage points.|the difference between two response rate|-1.7|STANDARD_ERROR_OF_MEAN|4.9||||95.0|-6.6|3.2||||||||3.2|-6.6|
92189245|NCT05319756|184276698|SUPERIORITY||Mean Difference (Final Values)|32.8|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001|ONE_SIDED|95.0|26.1||||Mixed Models Analysis|||"The sensitivity and integrity of the study was validated by comparing the mean responses of oxycodone HCl, the positive control (C), to the placebo (P):~H0: μC - μP ≤ δ1 versus Ha: μC - μP \> δ1 where δ1 =15"|||26.1|<.0001
92307979|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.086||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.086
92307980|NCT03118570|184516405|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.712||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.712
92307981|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.045||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 6||||0.045
92307982|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.101||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 6||||0.101
92307983|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.482||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 6||||0.482
92307984|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.011||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 12||||0.011
92307985|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.508||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 12||||0.508
92307986|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.563||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 12||||0.563
92307987|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.917||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 6||||0.917
92307988|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.789||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 6||||0.789
92307989|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.262||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 6||||0.262
92307990|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.426||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 12||||0.426
92307991|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.871||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 12||||0.871
92307992|NCT03118570|184516407|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.113||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 12||||0.113
92307993|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||< 0.001
92307994|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||< 0.001
92307995|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.984||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||0.984
92307996|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||< 0.001
92307997|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.05||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||0.050
92307998|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.857||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||0.857
92307999|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.001
92189246|NCT05319756|184276698|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|4.46||0.1041|ONE_SIDED|95.0||1.7|||Mixed Models Analysis|||"The primary analysis evaluated whether gabapentin plus oxycodone HCl (T) produced mean responses that showed abuse potential that was no higher than oxycodone HCl (C). The margin for showing no significant difference was defined as 20% of the difference between oxycodone HCl (C) and Placebo (P):~H0: μT - μC ≥ 0.2(μC - μP) versus Ha: μT - μC \<0.2(μC - μP)."||1.7||0.1041
92189247|NCT05319756|184276698|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|4.46||0.3373|ONE_SIDED|95.0||5.5|||Mixed Models Analysis|||"The primary analysis evaluated whether gabapentin plus oxycodone HCl (T) produced mean responses that showed abuse potential that was no higher than oxycodone HCl (C). The margin for showing no significant difference was defined as 20% of the difference between oxycodone HCl (C) and Placebo (P):~H0: μT - μC ≥ 0.2(μC - μP) versus Ha: μT - μC \<0.2(μC - μP)."||5.5||0.3373
92308000|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.079||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.079
92308001|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.912||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.912
92308002|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.054||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.054
92308003|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.95||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.950
92308004|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.555||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.555
92308005|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.221||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.221
92308006|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.393||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.393
92308007|NCT03118570|184516408|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.385||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.385
92308008|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||< 0.001
92308009|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||< 0.001
92308010|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||< 0.001
92308011|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.003||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||0.003
92308012|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.05||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||0.050
92308013|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.006||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||0.006
92308014|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.519||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.519
92308015|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.226||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.226
92189248|NCT05319756|184276698|NON_INFERIORITY|Non-inferiority margin = 10|Mean Difference (Final Values)|-12.3|STANDARD_ERROR_OF_MEAN|3.63|<|0.0001|ONE_SIDED|95.0||-6.3|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (G) produced mean responses that show less abuse potential than oxycodone HCl (C) were:~H0: μC - μG ≤ 0.2(μC - 50) versus Ha: μC - μG \>0.2(μC - 50)"||-6.3||<.0001
92308016|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.19||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.190
92189249|NCT05319756|184276698|NON_INFERIORITY|Non-inferiority margin = 10|Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|3.64|<|0.0001|ONE_SIDED|95.0||-0.6|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (G) produced mean responses that show less abuse potential than oxycodone HCl (C) were:~H0: μC - μG ≤ 0.2(μC - 50) versus Ha: μC - μG \>0.2(μC - 50)"||-0.6||<0.0001
92189250|NCT05319756|184276698|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|4.0||0.0232|ONE_SIDED|95.0||9.6|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (G) produced mean responses that show abuse potential similar to placebo(P) were:~H0: μG - μP ≥ δ2 versus Ha: μG - μP \< δ2 where δ2 =11"||9.6||0.0232
92308017|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.388||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.388
92308018|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.109||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.109
92308019|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.204||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.204
92308020|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.119||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.119
92308021|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.925||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.925
92189251|NCT05319756|184276698|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|4.01||0.2767|ONE_SIDED|95.0||15.2|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (G) produced mean responses that show abuse potential similar to placebo(P) were:~H0: μG - μP ≥ δ2 versus Ha: μG - μP \< δ2 where δ2 =11."||15.2||0.2767
92189252|NCT05319756|184276700|OTHER||Mean Difference (Final Values)|267.1|STANDARD_ERROR_OF_MEAN|83.688||0.0016|TWO_SIDED|90.0|128.8|405.4|||Mixed Models Analysis|||||405.4|128.8|0.0016
92189253|NCT05319756|184276700|OTHER||Mean Difference (Final Values)|29.19|STANDARD_ERROR_OF_MEAN|83.688||0.7276|TWO_SIDED|90.0|-109.0|167.5|||Mixed Models Analysis|||||167.5|-109|0.7276
92308022|NCT03118570|184516409|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.204||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.204
92308023|NCT03118570|184516410|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.588||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.588
92189254|NCT05319756|184276700|OTHER||Mean Difference (Final Values)|50.41|STANDARD_ERROR_OF_MEAN|83.785||0.5481|TWO_SIDED|90.0|-88.0|188.9|||Mixed Models Analysis|||||188.9|-88.0|0.5481
92308024|NCT03118570|184516410|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.697||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.697
92308025|NCT03118570|184516410|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.283||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.283
92308026|NCT03118570|184516410|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.354||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.354
92308027|NCT03118570|184516410|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.43||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.430
92308028|NCT03118570|184516410|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.091||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.091
92189255|NCT05319756|184276700|OTHER||Mean Difference (Final Values)|350.7|STANDARD_ERROR_OF_MEAN|84.023|<|0.0001|TWO_SIDED|90.0|211.8|489.5|||Mixed Models Analysis|||||489.5|211.8|<0.0001
92308029|NCT03118570|184516411|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.527||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.527
92308030|NCT03118570|184516411|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.738||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.738
92308031|NCT03118570|184516411|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.465||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.465
92308032|NCT03118570|184516411|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.068||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.068
92189256|NCT05319756|184276700|OTHER||Mean Difference (Final Values)|364.4|STANDARD_ERROR_OF_MEAN|83.785|<|0.0001|TWO_SIDED|90.0|225.9|502.8|||Mixed Models Analysis|||||502.8|225.9|<0.0001
92189257|NCT05319756|184276700|OTHER||Mean Difference (Final Values)|-238.0|STANDARD_ERROR_OF_MEAN|83.785||0.005|TWO_SIDED|90.0|-376.0|-99.4|||Mixed Models Analysis|||||-99.4|-376|0.0050
92189258|NCT05319756|184276700|OTHER||Mean Difference (Final Values)|-217.0|STANDARD_ERROR_OF_MEAN|84.023||0.0106|TWO_SIDED|90.0|-356.0|-77.8|||Mixed Models Analysis|||||-77.8|-356|0.0106
92189259|NCT05319756|184276700|OTHER||Mean Difference (Final Values)|83.6|STANDARD_ERROR_OF_MEAN|83.785||0.3196|TWO_SIDED|90.0|-54.9|222.1|||Mixed Models Analysis|||||222.1|-54.9|0.3196
92189260|NCT05319756|184276700|OTHER||Mean Difference (Final Values)|97.29|STANDARD_ERROR_OF_MEAN|83.688||0.2464|TWO_SIDED|90.0|-41.0|235.6|||Mixed Models Analysis|||||235.6|-41.0|0.2464
92189261|NCT05319756|184276706|OTHER||Mean Difference (Final Values)|64.67|STANDARD_ERROR_OF_MEAN|7.581|<|0.0001|TWO_SIDED|90.0|52.15|77.2|||Mixed Models Analysis|||||77.20|52.15|<.0001
92189262|NCT05319756|184276706|OTHER||Mean Difference (Final Values)|14.66|STANDARD_ERROR_OF_MEAN|7.581||0.0546|TWO_SIDED|90.0|2.13|27.1|||Mixed Models Analysis|||||27.1|2.13|0.0546
92189263|NCT05319756|184276706|OTHER||Mean Difference (Final Values)|11.58|STANDARD_ERROR_OF_MEAN|7.589||0.1286|TWO_SIDED|90.0|-0.96|24.12|||Mixed Models Analysis|||||24.12|-0.96|0.1286
92189264|NCT05319756|184276706|OTHER||Mean Difference (Final Values)|68.99|STANDARD_ERROR_OF_MEAN|7.611|<|0.0001|TWO_SIDED|90.0|56.42|81.57|||Mixed Models Analysis|||||81.57|56.42|<.0001
92308033|NCT03118570|184516411|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.328||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.328
92308034|NCT03118570|184516411|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.277||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.277
92308035|NCT03118570|184516412|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.092||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.092
92308036|NCT03118570|184516412|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.31||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.310
92308037|NCT03118570|184516412|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.304||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.304
92308038|NCT03118570|184516412|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.155||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.155
92308039|NCT03118570|184516412|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.392||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.392
92308040|NCT03118570|184516412|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.464||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.464
92308041|NCT03118570|184516413|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.15||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.150
92308042|NCT03118570|184516413|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.468||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.468
92308043|NCT03118570|184516413|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.8||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.800
92308044|NCT03118570|184516413|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.563||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.563
92308045|NCT03118570|184516413|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.839||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.839
92308046|NCT03118570|184516413|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.186||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.186
92189265|NCT05319756|184276706|OTHER||Mean Difference (Final Values)|76.37|STANDARD_ERROR_OF_MEAN|7.589|<|0.0001|TWO_SIDED|90.0|63.83|88.91|||Mixed Models Analysis|||||88.91|63.83|<.0001
92189266|NCT05319756|184276706|OTHER||Mean Difference (Final Values)|-50.0|STANDARD_ERROR_OF_MEAN|7.589|<|0.0001|TWO_SIDED|90.0|-62.6|-37.5|||Mixed Models Analysis|||||-37.5|-62.6|<.0001
92189267|NCT05319756|184276706|OTHER||Mean Difference (Final Values)|-53.1|STANDARD_ERROR_OF_MEAN|7.611|<|0.0001|TWO_SIDED|90.0|-65.7|-40.5|||Mixed Models Analysis|||||-40.5|-65.7|<.0001
92189268|NCT05319756|184276706|OTHER||Mean Difference (Final Values)|4.32|STANDARD_ERROR_OF_MEAN|7.589||0.5699|TWO_SIDED|90.0|-8.22|16.86|||Mixed Models Analysis|||||16.86|-8.22|0.5699
92308047|NCT03118570|184516414|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.278||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.278
92308048|NCT03118570|184516414|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.292||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.292
92308049|NCT03118570|184516414|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.115||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.115
92308050|NCT03118570|184516414|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.356||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.356
92308051|NCT03118570|184516414|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.205||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.205
92308052|NCT03118570|184516414|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.078||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.078
92308053|NCT03118570|184516415|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.037||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.037
92189269|NCT05319756|184276706|OTHER||Mean Difference (Final Values)|11.7|STANDARD_ERROR_OF_MEAN|7.581||0.1243|TWO_SIDED|90.0|-0.83|24.23|||Mixed Models Analysis|||||24.23|-0.83|0.1243
92189270|NCT05319756|184276708|OTHER||Mean Difference (Final Values)|286.7|STANDARD_ERROR_OF_MEAN|50.879|<|0.0001|TWO_SIDED|90.0|202.6|370.8|||Mixed Models Analysis|||||370.8|202.6|<.0001
92189271|NCT05319756|184276708|OTHER||Mean Difference (Final Values)|53.85|STANDARD_ERROR_OF_MEAN|50.879||0.2912|TWO_SIDED|90.0|-30.2|137.9|||Mixed Models Analysis|||||137.9|-30.2|0.2912
92189272|NCT05319756|184276708|OTHER||Mean Difference (Final Values)|97.8|STANDARD_ERROR_OF_MEAN|50.938||0.0563|TWO_SIDED|90.0|13.62|182.0|||Mixed Models Analysis|||||182.0|13.62|0.0563
92189273|NCT05319756|184276708|OTHER||Mean Difference (Final Values)|484.5|STANDARD_ERROR_OF_MEAN|51.083|<|0.0001|TWO_SIDED|90.0|400.1|569.0|||Mixed Models Analysis|||||569.0|400.1|<.0001
92189274|NCT05319756|184276708|OTHER||Mean Difference (Final Values)|396.6|STANDARD_ERROR_OF_MEAN|50.938|<|0.0001|TWO_SIDED|90.0|312.4|480.8|||Mixed Models Analysis|||||480.8|312.4|<.0001
92189275|NCT05319756|184276708|OTHER||Mean Difference (Final Values)|-233.0|STANDARD_ERROR_OF_MEAN|50.938|<|0.0001|TWO_SIDED|90.0|-317.0|-149.0|||Mixed Models Analysis|||||-149|-317|<.0001
92189276|NCT05319756|184276708|OTHER||Mean Difference (Final Values)|-189.0|STANDARD_ERROR_OF_MEAN|51.083||0.0003|TWO_SIDED|90.0|-273.0|-105.0|||Mixed Models Analysis|||||-105|-273|0.0003
92189277|NCT05319756|184276708|OTHER||Mean Difference (Final Values)|197.8|STANDARD_ERROR_OF_MEAN|50.938||0.0001|TWO_SIDED|90.0|113.7|282.0|||Mixed Models Analysis|||||282.0|113.7|0.0001
92308054|NCT03118570|184516415|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.342||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.342
92308055|NCT03118570|184516415|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.515||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.515
92308056|NCT03118570|184516415|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.786||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.786
92308057|NCT03118570|184516415|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.212||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.212
92308058|NCT03118570|184516415|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.655||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.655
92189278|NCT05319756|184276708|OTHER||Mean Difference (Final Values)|109.9|STANDARD_ERROR_OF_MEAN|50.879||0.032|TWO_SIDED|90.0|25.8|194.0|||Mixed Models Analysis|||||194.0|25.80|0.0320
92189279|NCT05319756|184276709|OTHER||Mean Difference (Final Values)|18.73|STANDARD_ERROR_OF_MEAN|2.276|<|0.0001|TWO_SIDED|90.0|14.98|22.48|||Mixed Models Analysis|||||22.48|14.98|<0.0001
92189280|NCT05319756|184276709|OTHER||Mean Difference (Final Values)|1.76|STANDARD_ERROR_OF_MEAN|2.302||0.5056|TWO_SIDED|90.0|-2.03|5.56|||Mixed Models Analysis|||||5.56|-2.03|0.5056
92189281|NCT05319756|184276709|OTHER||Mean Difference (Final Values)|4.62|STANDARD_ERROR_OF_MEAN|2.307||0.076|TWO_SIDED|90.0|0.82|8.42|||Mixed Models Analysis|||||8.42|0.82|0.0760
92308059|NCT01672970|184516433|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical analysis at Month 3||||0.000
92308060|NCT01672970|184516433|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.000
92308061|NCT01672970|184516434|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.001
92189282|NCT05319756|184276709|OTHER||Mean Difference (Final Values)|25.73|STANDARD_ERROR_OF_MEAN|2.315|<|0.0001|TWO_SIDED|90.0|21.92|29.54|||Mixed Models Analysis|||||29.54|21.92|<0.0001
92189283|NCT05319756|184276709|OTHER||Mean Difference (Final Values)|24.42|STANDARD_ERROR_OF_MEAN|2.27|<|0.0001|TWO_SIDED|90.0|20.68|28.16|||Mixed Models Analysis|||||28.16|20.68|<0.0001
92308062|NCT01672970|184516434|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.005
92189284|NCT05319756|184276709|OTHER||Mean Difference (Final Values)|-17.0|STANDARD_ERROR_OF_MEAN|2.297|<|0.0001|TWO_SIDED|90.0|-20.8|-13.2|||Mixed Models Analysis|||||-13.2|-20.8|<0.0001
92189285|NCT05319756|184276709|OTHER||Mean Difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|2.299|<|0.0001|TWO_SIDED|90.0|-17.9|-10.3|||Mixed Models Analysis|||||-10.3|-17.9|<0.0001
92189286|NCT05319756|184276709|OTHER||Mean Difference (Final Values)|7.0|STANDARD_ERROR_OF_MEAN|2.298||0.0024|TWO_SIDED|90.0|3.22|10.79|||Mixed Models Analysis|||||10.79|3.22|0.0024
92189287|NCT05319756|184276709|OTHER||Mean Difference (Final Values)|5.69|STANDARD_ERROR_OF_MEAN|2.255||0.0118|TWO_SIDED|90.0|1.98|9.41|||Mixed Models Analysis|||||9.41|1.98|0.0118
92189288|NCT05319756|184276710|OTHER||Mean Difference (Final Values)|20.31|STANDARD_ERROR_OF_MEAN|2.246|<|0.0001|TWO_SIDED|90.0|16.61|24.01|||Mixed Models Analysis|||||24.01|16.61|<0.0001
92189289|NCT05319756|184276710|OTHER||Mean Difference (Final Values)|2.65|STANDARD_ERROR_OF_MEAN|2.271||0.2439|TWO_SIDED|90.0|-1.09|6.39|||Mixed Models Analysis|||||6.39|-1.09|0.2439
92189290|NCT05319756|184276710|OTHER||Mean Difference (Final Values)|6.5|STANDARD_ERROR_OF_MEAN|2.276||0.0044|TWO_SIDED|90.0|2.75|10.25|||Mixed Models Analysis|||||10.25|2.75|0.0044
92189291|NCT05319756|184276710|OTHER||Mean Difference (Final Values)|24.15|STANDARD_ERROR_OF_MEAN|2.284|<|0.0001|TWO_SIDED|90.0|20.39|27.91|||Mixed Models Analysis|||||27.91|20.39|<0.0001
92308063|NCT01672970|184516435|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.000
92308064|NCT01672970|184516435|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.000
92308065|NCT01672970|184516436|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.000
92308066|NCT01672970|184516436|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.001
92308067|NCT01672970|184516439|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 3||||0.000
92308068|NCT01672970|184516439|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 6||||0.000
92308069|NCT01672970|184516440|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 3||||0.000
92308070|NCT01672970|184516440|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 6||||0.000
92308071|NCT01672970|184516445|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 3||||0.000
92308072|NCT01672970|184516445|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 6||||0.000
92308073|NCT01672970|184516446|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 3||||0.000
92308074|NCT01672970|184516446|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 6||||0.000
92308075|NCT01672970|184516447|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 3||||0.000
92308076|NCT01672970|184516447|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 6||||0.000
92308077|NCT01672970|184516448|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.000
92308078|NCT01672970|184516448|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.000
92308079|NCT01672970|184516449|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.000
92308080|NCT01672970|184516449|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.000
92308081|NCT01672970|184516450|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.000
92308082|NCT01672970|184516450|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.000
92308083|NCT01997229|184516451|SUPERIORITY||Mean Difference (Net)|-11.7||||0.0698|TWO_SIDED|95.0|-24.33|0.96|||ANCOVA|||||0.96|-24.33|0.0698
92189292|NCT05319756|184276710|OTHER||Mean Difference (Final Values)|28.19|STANDARD_ERROR_OF_MEAN|2.24|<|0.0001|TWO_SIDED|90.0|24.5|31.88|||Mixed Models Analysis|||||31.88|24.50|<0.0001
92189293|NCT05319756|184276710|OTHER||Mean Difference (Final Values)|-17.7|STANDARD_ERROR_OF_MEAN|2.266|<|0.0001|TWO_SIDED|90.0|-21.4|-13.9|||Mixed Models Analysis|||||-13.9|-21.4|<0.0001
92189294|NCT05319756|184276710|OTHER||Mean Difference (Final Values)|-13.8|STANDARD_ERROR_OF_MEAN|2.268|<|0.0001|TWO_SIDED|90.0|-17.5|-10.1|||Mixed Models Analysis|||||-10.1|-17.5|<0.0001
92189295|NCT05319756|184276710|OTHER||Mean Difference (Final Values)|3.84|STANDARD_ERROR_OF_MEAN|2.267||0.0907|TWO_SIDED|90.0|0.11|7.57|||Mixed Models Analysis|||||7.57|0.11|0.0907
92308084|NCT04568031|184516452|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92189296|NCT05319756|184276710|OTHER||Mean Difference (Final Values)|7.88|STANDARD_ERROR_OF_MEAN|2.225||0.0004|TWO_SIDED|90.0|4.22|11.55|||Mixed Models Analysis|||||11.55|4.22|0.0004
92189297|NCT05319756|184276711|OTHER||Mean Difference (Final Values)|25.37|STANDARD_ERROR_OF_MEAN|1.528|<|0.0001|TWO_SIDED|90.0|22.86|27.88|||Mixed Models Analysis|||||27.88|22.86|<0.0001
92189298|NCT05319756|184276711|OTHER||Mean Difference (Final Values)|3.59|STANDARD_ERROR_OF_MEAN|1.529||0.0189|TWO_SIDED|90.0|1.08|6.11|||Mixed Models Analysis|||||6.11|1.08|0.0189
92189299|NCT05319756|184276711|OTHER||Mean Difference (Final Values)|6.18|STANDARD_ERROR_OF_MEAN|1.536|<|0.0001|TWO_SIDED|90.0|3.66|8.71|||Mixed Models Analysis|||||8.71|3.66|<0.0001
92189300|NCT05319756|184276711|OTHER||Mean Difference (Final Values)|32.18|STANDARD_ERROR_OF_MEAN|1.537|<|0.0001|TWO_SIDED|90.0|29.65|34.71|||Mixed Models Analysis|||||34.71|29.65|<0.0001
92189301|NCT05319756|184276711|OTHER||Mean Difference (Final Values)|30.17|STANDARD_ERROR_OF_MEAN|1.525|<|0.0001|TWO_SIDED|90.0|27.66|32.68|||Mixed Models Analysis|||||32.68|27.66|<0.0001
92189302|NCT05319756|184276711|OTHER||Mean Difference (Final Values)|-21.8|STANDARD_ERROR_OF_MEAN|1.522|<|0.0001|TWO_SIDED|90.0|-24.3|-19.3|||Mixed Models Analysis|||||-19.3|-24.3|<0.0001
92189303|NCT05319756|184276711|OTHER||Mean Difference (Final Values)|-19.2|STANDARD_ERROR_OF_MEAN|1.53|<|0.0001|TWO_SIDED|90.0|-21.7|-16.7|||Mixed Models Analysis|||||-16.7|-21.7|<0.0001
92189304|NCT05319756|184276711|OTHER||Mean Difference (Final Values)|6.81|STANDARD_ERROR_OF_MEAN|1.524|<|0.0001|TWO_SIDED|90.0|4.3|9.31|||Mixed Models Analysis|||||9.31|4.30|<0.0001
92308085|NCT04568031|184516452|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92308086|NCT04568031|184516457|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92308087|NCT04568031|184516457|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92308088|NCT04568031|184516460|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92308089|NCT04568031|184516460|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92308090|NCT04430855|184516464|SUPERIORITY||Response Rate Difference|13.3||||0.018|TWO_SIDED|95.0|-0.6|27.2|||Chi-squared||Response rate difference compared to historical placebo = upadacitinib 30 mg - historical placebo|The primary analysis compared the percentage of participants in the upadacitinib 30 mg treatment group who achieved HiSCR response to that of a prespecified, single historical placebo rate (25%). The historical placebo rate of 25% was assumed based on the corresponding response rates of placebo participants satisfying the same key eligibility criteria from the 2 adalimumab HS Phase 3 studies, Study M11-313 (NCT01468207) and Study M11-810 (NCT01468233).||27.2|-0.6|0.018
92308091|NCT04430855|184516464|SUPERIORITY||Adjusted Response Rate Difference|9.2||||0.142|TWO_SIDED|95.0|-7.6|25.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline Hurley Stage \[Stage \< III, Stage III\] and prior TNF use \[Yes or No\])|Response rate difference = upadacitinib 30 mg - placebo (in-trial + synthetic)|As a supplemental analysis, the percentage of participants who achieved HiSCR at Week 12 was further analyzed by comparing upadacitinib with in-trial placebo participants combined with subjects with historical placebo HiSCR data pre-selected using propensity score matching from adalimumab studies M11-313 and M11-810 and risankizumab study M16-833 (NCT03926169), whose study populations, entry criteria and study designs were similar to this study. The placebo in-trial + synthetic HiSCR was 29.2%.||25.9|-7.6|0.142
92308092|NCT04430855|184516464|SUPERIORITY||Adjusted Response Rate Difference|14.7||||0.087|TWO_SIDED|95.0|-6.6|36.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline Hurley Stage \[Stage \< III, Stage III\] and prior TNF use \[Yes or No\])|Response rate difference = upadacitinib 30 mg - placebo|As an additional supplemental analysis, the percentage of participants who achieved HiSCR at Week 12 was also analyzed by comparing upadacitinib 30 mg with in-trial placebo participants.||36.0|-6.6|0.087
92308093|NCT04430855|184516465|SUPERIORITY||Response Rate Difference|13.9||||0.028|TWO_SIDED|95.0|-2.5|30.3|||Chi-squared||Response rate difference compared to historical placebo (upadacitinib 30 mg - historical placebo)|The primary analysis compared the percentage of participants in the upadacitinib 30 mg treatment group who achieved NRS30 response to that of a prespecified, single historical placebo rate (22.5%). The historical placebo rate of 22.5% was assumed based on the corresponding response rates of placebo participants satisfying the same key eligibility criteria from the 2 adalimumab HS Phase 3 studies, Study M11-313 (NCT01468207) and Study M11-810 (NCT01468233).||30.3|-2.5|0.028
92308094|NCT04430855|184516465|SUPERIORITY||Adjusted Response Rate Difference|4.5||||0.323|TWO_SIDED|95.0|-14.6|23.5||Cochran-Mantel-Haenszel test adjusted for strata (Baseline Hurley Stage \[Stage \< III, Stage III\] and prior TNF use \[Yes or No\])|Cochran-Mantel-Haenszel||Response rate difference = upadacitinib 30 mg - placebo (in-trial + synthetic)|As a supplemental analysis, the percentage of participants who achieved NRS30 at Week 12 was further analyzed by comparing upadacitinib with in-trial placebo participants combined with subjects with historical placebo NRS30 data pre-selected using propensity score matching from adalimumab studies M11-313 and M11-810 and risankizumab study M16-833 (NCT03926169), whose study populations, entry criteria and study designs were similar to this study. The placebo in-trial + synthetic NRS30 was 31.3%.||23.5|-14.6|0.323
92308095|NCT04430855|184516465|SUPERIORITY||Adjusted Response Rate Difference|2.2||||0.421|TWO_SIDED|95.0|-19.6|24.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline Hurley Stage \[Stage \< III, Stage III\] and prior TNF use \[Yes or No\])|Response rate difference = upadacitinib 30 mg - placebo|As an additional supplemental analysis, the percentage of participants who achieved NRS30 at Week 12 was also analyzed by comparing upadacitinib 30 mg with in-trial placebo participants.||24.0|-19.6|0.421
92308096|NCT04874636|184516469|SUPERIORITY||Posterior Mean Difference|0.08|||||TWO_SIDED|95.0|-0.59|0.75|||||Posterior mean difference with 95% credible interval is reported.|||0.75|-0.59|
92308097|NCT04874636|184516470|SUPERIORITY||Posterior Mean Difference|0.49|||||TWO_SIDED|95.0|-1.02|2.0|||||Posterior mean difference with 95% credible interval is reported.|||2.00|-1.02|
92308098|NCT04874636|184516471|SUPERIORITY||Posterior Mean Difference|0.14|||||TWO_SIDED|95.0|-0.27|0.55|||||Posterior mean difference with 95% credible interval is reported.|||0.55|-0.27|
92308099|NCT04874636|184516472|SUPERIORITY||Posterior Mean Difference|0.29|||||TWO_SIDED|95.0|-0.43|1.02|||||Posterior mean difference with 95% credible interval is reported.|||1.02|-0.43|
92308100|NCT04874636|184516473|SUPERIORITY||Posterior Mean Difference|7.9|||||TWO_SIDED|95.0|-0.32|16.14|||||Posterior mean difference with 95% credible interval is reported.|||16.14|-0.32|
92189305|NCT05319756|184276711|OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|1.514||0.0015|TWO_SIDED|90.0|2.31|7.29|||Mixed Models Analysis|||||7.29|2.31|0.0015
92308101|NCT04874636|184516474|SUPERIORITY||Posterior Mean Difference|-0.17|||||TWO_SIDED|95.0|-0.65|0.3|||||Posterior mean difference with 95% credible interval is reported.|||0.30|-0.65|
92308102|NCT04874636|184516475|SUPERIORITY||Posterior Mean Difference|-34.98|||||TWO_SIDED|95.0|-176.34|106.69|||||Posterior mean difference with 95% credible interval is reported.|||106.69|-176.34|
92308103|NCT04874636|184516476|SUPERIORITY||Posterior Mean Difference|0.0|||||TWO_SIDED|95.0|-0.1|0.09|||||Posterior mean difference with 95% credible interval is reported.|||0.09|-0.10|
92189306|NCT05319756|184276712|OTHER||Mean Difference (Final Values)|4.23|STANDARD_ERROR_OF_MEAN|0.743|<|0.0001|TWO_SIDED|90.0|3.01|5.45|||Mixed Models Analysis|||||5.45|3.01|<.0001
92189307|NCT05319756|184276712|OTHER||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.743||0.3933|TWO_SIDED|90.0|-0.59|1.86|||Mixed Models Analysis|||||1.86|-0.59|0.3933
92189308|NCT05319756|184276712|OTHER||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|0.747||0.2916|TWO_SIDED|90.0|-0.44|2.02|||Mixed Models Analysis|||||2.02|-0.44|0.2916
92189309|NCT05319756|184276712|OTHER||Mean Difference (Final Values)|3.92|STANDARD_ERROR_OF_MEAN|0.748|<|0.0001|TWO_SIDED|90.0|2.69|5.15|||Mixed Models Analysis|||||5.15|2.69|<.0001
92308104|NCT00620659|184516490|SUPERIORITY_OR_OTHER|||||||0.615||95.0|||||Mixed Models Analysis|The mixed model included terms for period and treatment.||||||0.615
92308105|NCT00620659|184516491|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 1.5 minutes. If the lower bound of the one-sided 95% confidence interval for MK0249 minus modafinil 200 mg was greater than -1.5 minutes, non-inferiority would be established.|Difference in Least Squares Mean|-4.11|||||TWO_SIDED|90.0|-5.92|-2.3||||||||-2.30|-5.92|
92308106|NCT00620659|184516492|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 1.5 minutes. If the lower bound of the one-sided 95% confidence interval for MK0249 minus modafinil 200 mg was greater than -1.5 minutes, non-inferiority would be established.|Difference in Least Squares Mean|-3.8|||||TWO_SIDED|90.0|-5.23|-2.38||||||||-2.38|-5.23|
92308107|NCT00620659|184516493|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||Mixed Models Analysis|The mixed model included terms for period and treatment.||||||0.079
92308108|NCT00620659|184516494|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Mixed Models Analysis|The mixed model included terms for period and treatment.||||||0.003
92308109|NCT02352779|184516510|OTHER||Mean Difference (Final Values)|0.6763|STANDARD_ERROR_OF_MEAN|0.4843||0.1666|TWO_SIDED||||||ANCOVA|Based on a contrast using the three-arm ANCOVA.||BFI-SF||||0.1666
92308110|NCT02352779|184516510|OTHER||Mean Difference (Final Values)|0.6936|STANDARD_ERROR_OF_MEAN|0.4567||0.1329|TWO_SIDED||||||ANCOVA|Based on a contrast using the three-arm ANCOVA.||BFI-SF||||0.1329
92308111|NCT02352779|184516510|OTHER||Mean Difference (Final Values)|0.0831|STANDARD_ERROR_OF_MEAN|3.8065||0.9826|TWO_SIDED||||||ANCOVA|Based on a contrast using the three-arm ANCOVA.||MFSI-SF||||0.9826
92308112|NCT02352779|184516510|OTHER||Mean Difference (Final Values)|2.9898|STANDARD_ERROR_OF_MEAN|3.5448||0.4016|TWO_SIDED||||||ANCOVA|Based on a contrast using the three-arm ANCOVA.||MFSI-SF||||0.4016
92308113|NCT01540773|184516520|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92308114|NCT01540773|184516521|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92308115|NCT03867097|184516542|SUPERIORITY||LS mean difference in change|-0.77|STANDARD_ERROR_OF_MEAN|4.047||0.8498|TWO_SIDED|95.0|-9.04|7.49|||ANCOVA||The Shapiro-Wilk normality test of residuals indicated that the data did not have a normal distribution (p-value 0.0108).|"Treatment comparison of change versus placebo. LS mean difference in change. When a subject had no RP attacks in the past 24 hours, the frequency was considered as zero for that day.~The LS means, SEs, CIs, and p-values came from an ANCOVA model with randomized treatment group and use of phosphodiesterase inhibitors at screening (yes, no) as factors and baseline as a covariate."||7.49|-9.04|0.8498
92308116|NCT03867097|184516542|SUPERIORITY||Median Difference (Final Values)|-0.24||||0.9729|TWO_SIDED|95.0|-9.97|9.32|||Wilcoxon (Mann-Whitney)|||"Change in the Weekly Frequency of Symptomatic Raynaud's Phenomenon Attacks From Baseline to the Double-Blind Endpoint Using Nonparametric Analysis - Modified Intent-to-Treat Population.~Treatment comparison of change versus placebo."||9.32|-9.97|0.9729
92308117|NCT01398943|184516545|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92308118|NCT01398943|184516545|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92308119|NCT01398943|184516546|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92189310|NCT05319756|184276712|OTHER||Mean Difference (Final Values)|3.22|STANDARD_ERROR_OF_MEAN|0.742|<|0.0001|TWO_SIDED|90.0|2.0|4.44|||Mixed Models Analysis|||||4.44|2.00|<.0001
92189311|NCT05319756|184276712|OTHER||Mean Difference (Final Values)|-3.59|STANDARD_ERROR_OF_MEAN|0.74|<|0.0001|TWO_SIDED|90.0|-4.81|-2.38|||Mixed Models Analysis|||||-2.38|-4.81|<.0001
92189312|NCT05319756|184276712|OTHER||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|0.744|<|0.0001|TWO_SIDED|90.0|-4.66|-2.22|||Mixed Models Analysis|||||-2.22|-4.66|<.0001
92189313|NCT05319756|184276712|OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.741||0.6765|TWO_SIDED|90.0|-1.53|0.91|||Mixed Models Analysis|||||0.91|-1.53|0.6765
92189314|NCT05319756|184276712|OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|0.737||0.1712|TWO_SIDED|90.0|-2.22|0.2|||Mixed Models Analysis|||||0.20|-2.22|0.1712
92189315|NCT05319756|184276713|OTHER||Mean Difference (Final Values)|24.7|STANDARD_ERROR_OF_MEAN|1.526|<|0.0001|TWO_SIDED|90.0|22.19|27.21|||Mixed Models Analysis|||||27.21|22.19|<.0001
92189316|NCT05319756|184276713|OTHER||Mean Difference (Final Values)|2.87|STANDARD_ERROR_OF_MEAN|1.527||0.0606|TWO_SIDED|90.0|0.35|5.38|||Mixed Models Analysis|||||5.38|0.35|0.0606
92189317|NCT05319756|184276713|OTHER||Mean Difference (Final Values)|4.11|STANDARD_ERROR_OF_MEAN|1.534||0.0074|TWO_SIDED|90.0|1.59|6.64|||Mixed Models Analysis|||||6.64|1.59|0.0074
92189318|NCT05319756|184276713|OTHER||Mean Difference (Final Values)|30.58|STANDARD_ERROR_OF_MEAN|1.536|<|0.0001|TWO_SIDED|90.0|28.05|33.1|||Mixed Models Analysis|||||33.10|28.05|<.0001
92189319|NCT05319756|184276713|OTHER||Mean Difference (Final Values)|29.99|STANDARD_ERROR_OF_MEAN|1.524|<|0.0001|TWO_SIDED|90.0|27.48|32.5|||Mixed Models Analysis|||||32.50|27.48|<.0001
92189320|NCT05319756|184276713|OTHER||Mean Difference (Final Values)|-21.8|STANDARD_ERROR_OF_MEAN|1.521|<|0.0001|TWO_SIDED|90.0|-24.3|-19.3|||Mixed Models Analysis|||||-19.3|-24.3|<.0001
92189321|NCT05319756|184276713|OTHER||Mean Difference (Final Values)|-20.6|STANDARD_ERROR_OF_MEAN|1.529|<|0.0001|TWO_SIDED|90.0|-23.1|-18.1|||Mixed Models Analysis|||||-18.1|-23.1|<.0001
92189322|NCT05319756|184276713|OTHER||Mean Difference (Final Values)|5.88|STANDARD_ERROR_OF_MEAN|1.523||0.0001|TWO_SIDED|90.0|3.37|8.38|||Mixed Models Analysis|||||8.38|3.37|0.0001
92189323|NCT05319756|184276713|OTHER||Mean Difference (Final Values)|5.29|STANDARD_ERROR_OF_MEAN|1.513||0.0005|TWO_SIDED|90.0|2.8|7.78|||Mixed Models Analysis|||||7.78|2.80|0.0005
92189324|NCT00442559|184276724|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16||||0.015|TWO_SIDED|95.0|-0.29|-0.03|||t-test, 2 sided|||Change from BL to Week 12 - Montelukast. The difference in mean change from baseline to 12 weeks in daytime asthma symptom score was tested by paired t-test (H0: difference =0) for the Montelukast treatment group. Subjects in this analysis: N=24 subjects for the within arm (single arm) comparison between BL and Week 12 scores.||-0.03|-0.29|0.015
92189325|NCT00442559|184276724|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16||||0.027|TWO_SIDED|95.0|-0.3|-0.02|||t-test, 2 sided|||Change from BL to Week 12 - ICS. The difference in mean change from baseline to 12 weeks in daytime asthma symptom score was tested by paired t-test (H0: difference =0) for the ICS treatment group. Subjects in this analysis: N=29 subjects for the within arm (single arm) comparison between BL and Week 12 scores.||-0.02|-0.3|0.027
92189326|NCT00442559|184276725|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21||||0.006|TWO_SIDED|95.0|-0.36|-0.07|||t-test, 2 sided|||Change from BL to Week 12 - Montelukast. The difference in mean change from baseline to 12 weeks in daily allergic rhinitis symptom score was tested by paired t-test (H0: difference =0) for the Montelukast treatment group. Subjects in this analysis: N=24 subjects for the within arm (single arm) comparison between BL and Week 12 scores.||-0.07|-0.36|0.006
92189327|NCT00442559|184276725|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12||||0.032|TWO_SIDED|95.0|-0.24|-0.01|||t-test, 2 sided|||Change from BL to Week 12 - ICS. The difference in mean change from baseline to 12 weeks in daily allergic rhinitis symptom score was tested by paired t-test (H0: difference =0) for the ICS treatment group. Subjects in this analysis: N=28 subjects for the within arm (single arm) comparison between BL and Week 12 scores.||-0.01|-0.24|0.032
92189328|NCT03906240|184276733|SUPERIORITY||Cohen's d|1.44|||<|0.001|TWO_SIDED|95.0|1.0|2.49|||t-test, 2 sided|t = 5.78||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||2.49|1.00|<.001
92189329|NCT03906240|184276733|SUPERIORITY||Cohen's d|0.78||||0.002|TWO_SIDED|95.0|0.35|1.38|||t-test, 2 sided|t = 3.48||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||1.38|0.35|.002
92189330|NCT03906240|184276734|SUPERIORITY||Cohen's d|0.01||||0.957|TWO_SIDED|95.0|-0.45|0.91|||t-test, 2 sided|t = 0.06||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||0.91|-0.45|.957
92189331|NCT03906240|184276734|SUPERIORITY||Cohen's d|0.51||||0.033|TWO_SIDED|95.0|0.08|1.25|||t-test, 2 sided|t = 2.30||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||1.25|0.08|.033
92189332|NCT03906240|184276735|SUPERIORITY||Cohen's d|0.71||||0.015|TWO_SIDED|95.0|0.32|1.31|||t-test, 2 sided|t = 2.76||Physical Domain: Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||1.31|0.32|.015
92189333|NCT03906240|184276735|SUPERIORITY||Cohen's d|0.74||||0.012|TWO_SIDED|95.0|0.26|1.55|||t-test, 2 sided|t = 2.87||Psychological Domain: Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||1.55|0.26|.012
92189334|NCT03906240|184276735|SUPERIORITY||Cohen's d|0.02||||0.941|TWO_SIDED|95.0|-0.43|0.55|||t-test, 2 sided|t = 0.08||Physical Domain: Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||0.55|-0.43|.941
92189335|NCT03906240|184276735|SUPERIORITY||Cohen's d|0.25||||0.27|TWO_SIDED|95.0|-0.17|0.79|||t-test, 2 sided|t = 1.14||Psychological Domain: Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||0.79|-0.17|.270
92189336|NCT03906240|184276736|SUPERIORITY||Cohen's d|0.08||||0.768|TWO_SIDED|95.0|-0.45|0.71|||t-test, 2 sided|t = 0.30||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||0.71|-0.45|.768
92189337|NCT03906240|184276736|SUPERIORITY||Cohen's d|0.01||||0.975|TWO_SIDED|95.0|-0.53|0.42|||t-test, 2 sided|t = 0.05||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||0.42|-0.53|.975
92189338|NCT03575572|184276742|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
92189339|NCT03575572|184276742|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
92189340|NCT03575572|184276744|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92189341|NCT03575572|184276744|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92308120|NCT01398943|184516546|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92308121|NCT00806286|184516607|SUPERIORITY||Mean Difference (Final Values)|-23.2|||<|0.0001|TWO_SIDED|||||Two-sided p-value is calculated by dividing the square of the treatment group difference on the log-log scale by the standard error of the difference and referring the result to the standard normal distribution.|Z-test||The estimated value represents the difference in treatments (%).|||||<0.0001
92308122|NCT00806286|184516607|SUPERIORITY||Cox Proportional Hazard|1.579||||0.0499|TWO_SIDED|95.0|1.0|2.5|||Regression, Cox|||||2.5|1.0|0.0499
92308123|NCT00806286|184516608|SUPERIORITY|Two-sided p-value is calculated by dividing the square of the treatment group difference on the log-log scale by the standard error of the difference and referring the result to the standard normal distribution.|Mean Difference (Final Values)|-25.5|||<|0.0001|TWO_SIDED||||||Z-test||The estimated value represents the difference in treatments (%).|||||<0.0001
92308124|NCT03151408|184516616|SUPERIORITY|||||||0.8275||||||P-value stratified by cytogenetic risk factor and ECOG performance status|Log Rank|||||||0.8275
92308125|NCT03151408|184516617|OTHER|||||||0.1244|||||||Cochran-Mantel-Haenszel|||||||0.1244
92308126|NCT03151408|184516618|OTHER|||||||0.143|||||||Cochran-Mantel-Haenszel|||||||0.1430
92308127|NCT03151408|184516619|SUPERIORITY|||||||0.9977|||||||Cochran-Mantel-Haenszel|||||||0.9977
92189342|NCT04908800|184276747|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.88|||||TWO_SIDED|90.0|1.74|2.04|||||"Data were analyzed using a mixed model which included actual treatment as fixed effect and participant as a random effect.~Within-subject coefficient of variation was 10.7."|||2.04|1.74|
92189343|NCT04908800|184276748|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.68|||||TWO_SIDED|90.0|1.57|1.79|||||"Data were analyzed using a mixed model which included actual treatment as fixed effect and participant as a random effect.~Within-subject coefficient of variation was 9.01."|||1.79|1.57|
92189344|NCT04908800|184276749|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.15|||||TWO_SIDED|90.0|1.09|1.21|||||Data were analyzed using a mixed model which included actual treatment as fixed effect and participant as a random effect. Within-subject coefficient of variation was 7.18.|||1.21|1.09|
92189345|NCT04908800|184276754|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|0.971|||||TWO_SIDED|95.0|0.882|1.06|||||Between-subject geometric coefficient of variation was 26.1. Data were analyzed using a power model.|Dose Proportionality Assessment||1.06|0.882|
92189346|NCT04908800|184276754|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.01|||||TWO_SIDED|95.0|0.926|1.11|||||Geometric least squares mean was 600 (fasted) and 607 (fed). Within-subject coefficient of variation was 6.01. Data were analyzed using mixed model which included actual treatment as fixed effect and participant as a random effect.|Food Effect Assessment||1.11|0.926|
92308128|NCT03151408|184516620|OTHER|||||||0.9959|||||||Cochran-Mantel-Haenszel|||||||0.9959
92308129|NCT03151408|184516621|OTHER|||||||0.3502|||||||Cochran-Mantel-Haenszel|||||||0.3502
92308130|NCT03151408|184516622|OTHER|||||||0.0502|||||||Log Rank|||||||0.0502
92308131|NCT03151408|184516624|OTHER|||||||0.4656|||||||Log Rank|||||||0.4656
92308132|NCT03151408|184516625|OTHER|||||||0.7063|||||||Log Rank|||||||0.7063
92308133|NCT03151408|184516626|OTHER|||||||0.0592|||||||Log Rank|||||||0.0592
92308134|NCT03151408|184516627|OTHER|||||||0.3835|||||||Log Rank|||||||0.3835
92308135|NCT03151408|184516628|OTHER|||||||0.7099|||||||Cochran-Mantel-Haenszel|||||||0.7099
92308136|NCT00265395|184516629|SUPERIORITY_OR_OTHER||SVR Rate Difference|-4.9||||0.6445||95.0|-20.4|10.6|||Asymptotic Z-test|||||10.6|-20.4|0.6445
92308137|NCT03400943|184516630|SUPERIORITY||Risk Difference (RD)|0.56|||<|0.0001|TWO_SIDED|95.0|0.33|0.78|||Cochran-Mantel-Haenszel||Number of subjects per treatment: 41 (Vilaprisan) / 20 (Placebo).|Vilaprisan (A1) and Vilaprisan+Placebo (B2) combined vs. Placebo+Vilaprisan (B1) in treatment period 1||0.78|0.33|<.0001
92308138|NCT05084716|184516648|SUPERIORITY||Odds Ratio (OR)|5.03|||<|0.0001|TWO_SIDED|95.0|2.08|12.13|||Regression, Logistic|||||12.13|2.08|<.0001
92308139|NCT05084716|184516648|SUPERIORITY||Odds Ratio (OR)|7.6|||<|0.0001|TWO_SIDED|95.0|3.48|16.59|||Regression, Logistic|||||16.59|3.48|<.0001
92308140|NCT05084716|184516649|SUPERIORITY||Odds Ratio (OR)|12.88|||<|0.0001|TWO_SIDED|95.0|5.96|27.85|||Regression, Logistic|||||27.85|5.96|<.0001
92308141|NCT05084716|184516649|SUPERIORITY||Odds Ratio (OR)|1.78||||0.001|TWO_SIDED|95.0|1.26|2.52|||Regression, Logistic|||||2.52|1.26|.001
92308142|NCT05084716|184516650|SUPERIORITY||Cohen's d for difference in proportions|1.28|||<|0.0001|TWO_SIDED|||||Odds Ratio is undefined and p-value from Fisher's Exact test is reported because 0% of PrEP users had ≥80% medication coverage pre-intervention.|Fisher Exact|||||||<.0001
92308143|NCT05084716|184516650|SUPERIORITY||Odds Ratio (OR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.16|0.34|||Regression, Logistic|||||0.34|0.16|<.0001
92308144|NCT03839823|184516651|SUPERIORITY||Hazard Ratio (HR)|0.611||||0.003|TWO_SIDED|95.0|0.429|0.87|||one-sided stratified logrank test|||||0.870|0.429|0.003
92308145|NCT03839823|184516652|SUPERIORITY||Hazard Ratio (HR)|0.497||||||95.0|0.363|0.68||||||||0.680|0.363|
92308146|NCT03839823|184516653|SUPERIORITY|||||||0.02|||||||Cochran-Mantel-Haenszel|||||||0.020
92308147|NCT03839823|184516654|SUPERIORITY|||||||0.255|||||||Cochran-Mantel-Haenszel|||||||0.255
92308148|NCT03839823|184516655|SUPERIORITY|||||||0.116|||||||Cochran-Mantel-Haenszel|||||||0.116
92308149|NCT03839823|184516656|SUPERIORITY||Hazard Ratio (HR)|0.762|||||TWO_SIDED|95.0|0.546|1.064||||||||1.064|0.546|
92308150|NCT04562155|184516687|SUPERIORITY||||||=|0.0345||||||Adjusted p-value|MCP-Mod method|||Detection of dose-response: Emax model (ED50=30) Dose response relationship was assessed using the MCP-Mod method combining multiple comparison procedures (MCP) principles with modeling techniques. A generalized MCP approach (with adjustment for baseline cough count and geographic region) was applied to calculate the adjusted one-sided p-values of the contrast test. Pre-specified overall Type one error at alpha level of 0.1 (one-sided).||||= 0.0345
92308151|NCT04562155|184516687|SUPERIORITY||||||=|0.0376||||||Adjusted p-value|MCP-Mod method|||Detection of dose-response: Emax model (ED50=50) Dose response relationship was assessed using the MCP-Mod method combining multiple comparison procedures (MCP) principles with modeling techniques. A generalized MCP approach (with adjustment for baseline cough count and geographic region) was applied to calculate the adjusted one-sided p-values of the contrast test. Pre-specified overall Type one error at alpha level of 0.1 (one-sided).||||= 0.0376
92308152|NCT04562155|184516687|SUPERIORITY||||||=|0.0319||||||Adjusted p-value|MCP-Mod method|||Detection of dose-response: sigm. Emax model (ED50=30, h=3) sigm = sigmoidal h = hill parameter Dose response relationship was assessed using the MCP-Mod method combining multiple comparison procedures (MCP) principles with modeling techniques. A generalized MCP approach (with adjustment for baseline cough count and geographic region) was applied to calculate the adjusted one-sided p-values of the contrast test. Pre-specified overall Type one error at alpha level of 0.1 (one-sided).||||= 0.0319
92308153|NCT04562155|184516687|SUPERIORITY||||||=|0.0603||||||Adjusted p-value|MCP-Mod method|||Detection of dose-response: sigm. Emax model (ED50=60, h=5) sigm = sigmoidal h = hill parameter Dose response relationship was assessed using the MCP-Mod method combining multiple comparison procedures (MCP) principles with modeling techniques. A generalized MCP approach (with adjustment for baseline cough count and geographic region) was applied to calculate the adjusted one-sided p-values of the contrast test. Pre-specified overall Type one error at alpha level of 0.1 (one-sided).||||= 0.0603
92308154|NCT04005352|184516703|SUPERIORITY||||||<|0.0001|ONE_SIDED|||||with significance level of 0.025|Wilcoxon (Mann-Whitney)|||||||<0.0001
92308155|NCT04005352|184516704|NON_INFERIORITY|4 letter margin (1-sided)|Difference|0.1|STANDARD_ERROR_OF_MEAN|0.73|<|0.0001|TWO_SIDED|95.0|-1.3|1.5|||ANOVA|||||1.5|-1.3|<0.0001
92308156|NCT04005352|184516705|SUPERIORITY||||||<|0.0001|ONE_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92308157|NCT04005352|184516706|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92308158|NCT04005352|184516707|SUPERIORITY|Week 14|Odds Ratio (OR)|1.6||||0.051|TWO_SIDED|95.0|0.9|2.7|||likelihood ratio test|Assessed at one-sided 0.025 significance level||||2.7|0.9|0.0510
92308159|NCT04005352|184516707|SUPERIORITY|Week 16|Odds Ratio (OR)|2.6|||<|0.0001|TWO_SIDED|95.0|1.7|3.9|||likelihood ratio test|Assessed at one-sided 0.025 significance level||||3.9|1.7|<0.0001
92308160|NCT04005352|184516710|SUPERIORITY||Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.84||0.8137|TWO_SIDED|95.0|-1.9|1.5||p-value for treatment difference|ANOVA|||||1.5|-1.9|0.8137
92308161|NCT04005352|184516711|SUPERIORITY|Week 32|Odds Ratio (OR)|1.0||||0.4106|TWO_SIDED|95.0|0.7|1.3|||likelihood ratio test|adjusting for baseline BCVA categories (\<55, 55-\<73, ≥73 letters).||||1.3|0.7|0.4106
92308162|NCT04005352|184516711|SUPERIORITY|Week 64|Odds Ratio (OR)|1.0||||0.4667|TWO_SIDED|95.0|0.7|1.4|||likelihood ratio test|adjusting for baseline BCVA categories (\<55, 55-\<73, ≥73 letters).||||1.4|0.7|0.4667
92308163|NCT04005352|184516712|SUPERIORITY|Week 32|Odds Ratio (OR)|1.1||||0.2397|TWO_SIDED|95.0|0.8|1.7|||likelihood ratio test|assessed at the 0.025 significance level||||1.7|0.8|0.2397
92308164|NCT04005352|184516712|SUPERIORITY|Week 64|Odds Ratio (OR)|1.2||||0.115|TWO_SIDED|95.0|0.9|1.8|||likelihood ratio test|assessed at the 0.025 significance level||||1.8|0.9|0.1150
92189347|NCT04908800|184276754|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.06|||||TWO_SIDED|95.0|0.701|1.59|||||Geometric least squares mean was 600 (fasted male) and 634 (fasted female). Between subject coefficient of variation was 32.7. Data were analyzed using an ANOVA model which included actual treatment as a factor.|Sex Effect Assessment||1.59|0.701|
92308165|NCT04005352|184516713|SUPERIORITY|Weeks 28 and 32|Difference|-26.9|STANDARD_ERROR_OF_MEAN|9.87||0.0066|TWO_SIDED|95.0|-46.3|-7.5|||ANOVA|||||-7.5|-46.3|0.0066
92308166|NCT04005352|184516713|SUPERIORITY|Weeks 60 and 64|Difference|-15.4|STANDARD_ERROR_OF_MEAN|11.26||0.1714|TWO_SIDED|95.0|-37.6|6.7|||ANOVA|||||6.7|-37.6|0.1714
92308167|NCT04005352|184516716|SUPERIORITY|Week 32|LS Mean Difference|0.37||||0.193|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|||||0.9|-0.2|0.193
92308168|NCT04005352|184516716|SUPERIORITY|Week 64|LS Mean Difference|-2.0||||0.052|TWO_SIDED|95.0|-3.9|0.0|||ANCOVA|||||0.0|-3.9|0.052
92308169|NCT04005352|184516717|SUPERIORITY|Week 32|LS Mean Difference|2.16||||0.081|TWO_SIDED|95.0|-0.3|4.6|||ANCOVA|||||4.6|-0.3|0.081
92308170|NCT04005352|184516717|SUPERIORITY|Week 64|LS Mean Difference|-0.7||||0.59|TWO_SIDED|95.0|-3.2|1.8|||ANCOVA|||||1.8|-3.2|0.590
92189348|NCT04908800|184276755|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|0.977|||||TWO_SIDED|95.0|0.891|1.06|||||Between-subject geometric coefficient of variation was 25.4. Data were analyzed using a power model.|Dose Proportionality Assessment||1.06|0.891|
92308171|NCT04005352|184516718|SUPERIORITY|Week 32|LS Mean Difference|0.77||||0.558|TWO_SIDED|95.0|-1.8|3.4|||ANCOVA|||||3.4|-1.8|0.558
92308172|NCT04005352|184516718|SUPERIORITY|Week 64|LS Mean Difference|-1.9||||0.138|TWO_SIDED|95.0|-4.5|0.6|||ANCOVA|||||0.6|-4.5|0.138
92308173|NCT04005352|184516719|SUPERIORITY|Week 32|LS Mean Difference|1.6||||0.287|TWO_SIDED|95.0|-1.4|4.6|||ANCOVA|||||4.6|-1.4|0.287
92308174|NCT04005352|184516719|SUPERIORITY|Week 64|LS Mean Difference|-3.0||||0.07|TWO_SIDED|95.0|-6.2|0.2|||ANCOVA|||||0.2|-6.2|0.070
92308175|NCT04005352|184516720|SUPERIORITY|Week 32|LS Mean Difference|-0.71||||0.602|TWO_SIDED|95.0|-3.4|2.0|||ANCOVA|||||2.0|-3.4|0.602
92308176|NCT04005352|184516720|SUPERIORITY|Week 64|LS Mean Difference|-2.5||||0.086|TWO_SIDED|95.0|-5.3|0.4|||ANCOVA|||||0.4|-5.3|0.086
92308177|NCT04005352|184516721|SUPERIORITY|Week 32|LS Mean Difference|1.55||||0.174|TWO_SIDED|95.0|-0.7|3.8|||ANCOVA|||||3.8|-0.7|0.174
92308178|NCT04005352|184516721|SUPERIORITY|Week 64|LS Mean Difference|-1.5||||0.21|TWO_SIDED|95.0|-3.8|0.8|||ANCOVA|||||0.8|-3.8|0.210
92308179|NCT04005352|184516722|SUPERIORITY|Week 32|LS Mean Difference|-0.96||||0.499|TWO_SIDED|95.0|-3.8|1.8|||ANCOVA|||||1.8|-3.8|0.499
92308180|NCT04005352|184516722|SUPERIORITY|Week 64|LS Mean Difference|-2.3||||0.147|TWO_SIDED|95.0|-5.4|0.8|||ANCOVA|||||0.8|-5.4|0.147
92308181|NCT04005352|184516723|SUPERIORITY|Week 32|LS Mean Difference|0.88||||0.643|TWO_SIDED|95.0|-2.8|4.6|||ANCOVA|||||4.6|-2.8|0.643
92308182|NCT04005352|184516723|SUPERIORITY|Week 64|LS Mean Difference|-1.3||||0.507|TWO_SIDED|95.0|-5.0|2.5|||ANCOVA|||||2.5|-5.0|0.507
92308183|NCT04005352|184516724|SUPERIORITY|Week 32|LS Mean Difference|0.49||||0.7|TWO_SIDED|95.0|-2.0|3.0|||ANCOVA|||||3.0|-2.0|0.700
92308184|NCT04005352|184516724|SUPERIORITY|Week 64|LS Mean Difference|-2.9||||0.07|TWO_SIDED|95.0|-6.0|0.2|||ANCOVA|||||0.2|-6.0|0.070
92308185|NCT04005352|184516725|SUPERIORITY|Week 32|LS Mean Difference|0.73||||0.741|TWO_SIDED|95.0|-3.6|5.1|||ANCOVA|||||5.1|-3.6|0.741
92308186|NCT04005352|184516725|SUPERIORITY|Week 64|LS Mean Difference|-1.7||||0.494|TWO_SIDED|95.0|-6.6|3.2|||ANCOVA|||||3.2|-6.6|0.494
92308187|NCT04005352|184516726|SUPERIORITY|Week 32|LS Mean Difference|1.76||||0.054|TWO_SIDED|95.0|0.0|3.5|||ANCOVA|||||3.5|-0.0|0.054
92308188|NCT04005352|184516726|SUPERIORITY|Week 64|LS Mean Difference|-1.1||||0.331|TWO_SIDED|95.0|-3.4|1.2|||ANCOVA|||||1.2|-3.4|0.331
92308189|NCT04005352|184516727|SUPERIORITY|Week 32|LS Mean Difference|1.24||||0.394|TWO_SIDED|95.0|-1.6|4.1|||ANCOVA|||||4.1|-1.6|0.394
92308190|NCT04005352|184516727|SUPERIORITY|Week 64|LS Mean Difference|-0.5||||0.728|TWO_SIDED|95.0|-3.6|2.5|||ANCOVA|||||2.5|-3.6|0.728
92308191|NCT06017479|184516733|OTHER|"Chi-square test as the study used chi-square analysis to compare the incidence of UTIs between the groups (p = 0.660) For this non-inferiority analysis, the study demonstrated that the odds ratio (OR) between the two groups was 0.8 (95% CI: 0.4-1.95), indicating no significant difference. Further details are provided in the study's discussion section."|Odds Ratio (OR)|0.8|STANDARD_DEVIATION|18.125||0.66|TWO_SIDED|95.0|0.4|1.95||The p-value was not adjusted for multiple comparisons as there were no multiple outcome measures being compared in this analysis. The significance threshold (alpha) was set at 0.05.|Chi-squared||"The standard deviations (SD) for the groups are as follows:~For the group receiving 3g fosfomycin: 19.08 For the group receiving 500mg levofloxacin: 17.17"|This randomized controlled trial compared the incidence of UTI between two groups: patients receiving a single dose of 500 mg levofloxacin and patients receiving a single dose of 3 g fosfomycin one hour before a urodynamic study. The null hypothesis is that there is no significant difference in UTI incidence between the two groups. The power calculation was based on a sample size of 126 patients.|A chi-square test was performed to compare the incidence of UTIs between the two groups: patients receiving a single dose of 500 mg levofloxacin and those receiving a single dose of 3 g fosfomycin, both administered one hour before the urodynamic study (UDS). The result showed no statistically significant difference between the two groups (p = 0.660). An odds ratio was also calculated (OR = 0.8, 95% CI: 0.4-1.95), indicating a slightly lower likelihood of UTI in the fosfomycin group, but the difference was not significant.|1.95|0.4|0.660
92308192|NCT00936897|184516734|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4|||<|0.0001|TWO_SIDED|95.0|1.0|1.8|||ANCOVA||Denosumab - Ibandronate|||1.8|1.0|<0.0001
92308193|NCT00936897|184516735|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92308194|NCT00936897|184516736|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|||<|0.0001|TWO_SIDED|95.0|0.7|1.7|||ANCOVA||Denosumab - Ibandronate|||1.7|0.7|<0.0001
92189349|NCT04908800|184276755|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.0|||||TWO_SIDED|95.0|0.905|1.12|||||"Geometric least squares mean was 575 (fasted) and 578 (fed). Within-subject coefficient of variation was 7.05.~Data were analyzed using mixed model which included actual treatment as fixed effect and participant as a random effect."|Food Effect Assessment||1.12|0.905|
92189350|NCT04908800|184276755|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.04|||||TWO_SIDED|95.0|0.707|1.54|||||"Geometric least squares mean was 575 (fasted male) and 600 (fasted female). Between subject coefficient of variation was 31.1.~Data were analyzed using an ANOVA model which included actual treatment as a factor."|Sex Effect Assessment||1.54|0.707|
92189351|NCT04908800|184276756|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|0.989|||||TWO_SIDED|95.0|0.909|1.07|||||Between-subject geometric coefficient of variation was 23.0. Data were analyzed using a power model.|Dose Proportionality Assessment||1.07|0.909|
92308195|NCT00936897|184516737|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|||<|0.0001|TWO_SIDED|95.0|1.5|2.5|||ANCOVA||Denosumab - Ibandronate|||2.5|1.5|<0.0001
92308196|NCT04058067|184516738|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|1.2||0.013|TWO_SIDED|95.0|-3.7|1.1|||ANOVA|||||1.1|-3.7|0.013
92308197|NCT04058067|184516739|SUPERIORITY||LS mean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.15||0.035|TWO_SIDED|95.0|-4.2|0.4|||ANOVA|||||0.4|-4.2|0.035
92308198|NCT04058067|184516741|SUPERIORITY||Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-3.0|0.8|||ANOVA|||||0.8|-3.0|
92308199|NCT04058067|184516742|SUPERIORITY||Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|-4.0|0.2|||ANOVA|||||0.2|-4.0|
92308200|NCT04058067|184516743|SUPERIORITY||Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|95.0|-4.3|0.2|||ANOVA|||||0.2|-4.3|
92308201|NCT04058067|184516746|SUPERIORITY||DIfference|-3.0|||||TWO_SIDED|95.0|-13.7|6.7|||Regression, Logistic|||Proportion of subjects with ≥5 letters gain from baseline or reached BCVA of ≥84 letters at Week 52||6.7|-13.7|
92308202|NCT04058067|184516746|SUPERIORITY||Difference|-2.6|||||TWO_SIDED|95.0|-14.7|9.4|||Regression, Logistic|||Proportion of subjects with ≥10 letters gain from baseline or reached BCVA of ≥84 letters at Week 52||9.4|-14.7|
92308203|NCT04058067|184516746|SUPERIORITY||Difference|-3.8|||||TWO_SIDED|95.0|-15.5|6.9|||Regression, Logistic|||Proportion of subjects with ≥15 letters gain from baseline or reached BCVA of ≥84 letters at Week 52||6.9|-15.5|
92308204|NCT04058067|184516750|SUPERIORITY||DIfference|0.1|||||TWO_SIDED|95.0|-4.2|4.4|||Regression, Logistic|||Proportion of subjects with ≥5 letters loss from baseline at Week 52||4.4|-4.2|
92308205|NCT04058067|184516750|SUPERIORITY||Difference|0.8|||||TWO_SIDED|95.0|-1.6|3.8|||Regression, Logistic|||Proportion of subjects with ≥10 letters loss from baseline at Week 52||3.8|-1.6|
92308206|NCT04058067|184516750|SUPERIORITY||Difference|0.0|||||TWO_SIDED|95.0|-2.2|2.3|||Regression, Logistic|||Proportion of subjects with ≥15 letters loss from baseline at Week 52||2.3|-2.2|
92308207|NCT04058067|184516751|OTHER|Descriptive, Week 4|Difference - %|0.4|||||TWO_SIDED|95.0|-7.9|8.6|||Clopper-Pearson exact method|||Week 4||8.6|-7.9|
92308208|NCT04058067|184516751|OTHER|Descriptive, Week 6|Difference - %|-5.1|||||TWO_SIDED|95.0|-14.3|2.9|||Clopper-Pearson exact method|||Week 6||2.9|-14.3|
92308209|NCT04058067|184516751|OTHER|Descriptive, Week 8|Difference - %|-4.0||||||95.0|-13.3|4.4|||Clopper-Pearson exact method|||Week 8||4.4|-13.3|
92308210|NCT04058067|184516751|OTHER|Descriptive, Week 12|Difference - %|-7.0|||||TWO_SIDED|95.0|-16.4|2.3|||Clopper-Pearson exact method|||Week 12||2.3|-16.4|
92308211|NCT04058067|184516751|OTHER|Descriptive, Week 16|Difference - %|-9.8|||||TWO_SIDED|95.0|-19.2|0.0|||Clopper-Pearson exact method|||Week 16||-0.0|-19.2|
92308212|NCT04058067|184516751|OTHER|Descriptive, Week 18|Difference - %|-9.8|||||TWO_SIDED|95.0|-19.0|0.0|||Clopper-Pearson exact method|||Week 18||-0.0|-19.0|
92308213|NCT04058067|184516751|OTHER|Descriptive, Week 20|Difference - %|-5.7|||||TWO_SIDED|95.0|-15.8|3.9|||Clopper-Pearson exact method|||Week 20||3.9|-15.8|
92308214|NCT04058067|184516751|OTHER|Descriptive, Week 24|Difference - %|-13.4|||||TWO_SIDED|95.0|-23.9|-3.1|||Clopper-Pearson exact method|||Week 24||-3.1|-23.9|
92308215|NCT04058067|184516751|OTHER|Descriptive, Week 28|Difference - %|-12.4|||||TWO_SIDED|95.0|-22.0|-2.1|||Clopper-Pearson exact method|||Week 28||-2.1|-22.0|
92308216|NCT04058067|184516751|OTHER|Descriptive, Week 32|Difference - %|-15.4|||||TWO_SIDED|95.0|-26.0|-4.8|||Clopper-Pearson exact method|||Week 32||-4.8|-26.0|
92308217|NCT04058067|184516751|OTHER|Descriptive, Week 36|Difference - %|-18.8|||||TWO_SIDED|95.0|-29.5|-8.9|||Clopper-Pearson exact method.|||Week 36||-8.9|-29.5|
92308218|NCT04058067|184516751|OTHER|Descriptive, Week 40|Difference - %|-18.4|||||TWO_SIDED|95.0|-28.7|-8.6|||Clopper-Pearson exact method|||Week 40||-8.6|-28.7|
92308219|NCT04058067|184516751|OTHER|Descriptive, Week 44|Difference - %|-14.9|||||TWO_SIDED|95.0|-25.6|-4.4|||Clopper-Pearson exact method|||Week 44||-4.4|-25.6|
92189352|NCT04908800|184276756|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|0.948|||||TWO_SIDED|95.0|0.824|1.09|||||"Geometric least squares mean was 31.6 (fasted) and 30.0 (fed). Within-subject coefficient of variation was 9.44.~Data were analyzed using mixed model which included actual treatment as fixed effect and participant as a random effect."|Food Effect Assessment||1.09|0.824|
92189353|NCT04908800|184276756|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.23|||||TWO_SIDED|95.0|0.928|1.62|||||"Geometric least squares mean was 31.6 (fasted male) and 38.8 (fasted female). Between subject coefficient of variation was 22.0.~Data were analyzed using an ANOVA model which included actual treatment as a factor."|Sex Effect Assessment||1.62|0.928|
92189354|NCT04908800|184276761|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.11|||||TWO_SIDED|95.0|0.966|1.26|||||Between-subject geometric coefficient of variation was 26.9. Data were analyzed using a power model.|"Dose Proportionality Assessment. KRP-A218 assessed across the following dose levels: 2 mg, 4 mg, 8 mg, and 11 mg.~Dose proportionality results for Part B are only for the Day 14 profile (not Day 1)."||1.26|0.966|
92308220|NCT04058067|184516751|OTHER|Descriptive, Week 48|Difference - %|-13.3|||||TWO_SIDED|95.0|-23.6|-3.4|||Clopper-Pearson exact method|||Week 48||-3.4|-23.6|
92308221|NCT04058067|184516751|OTHER|Descriptive, Week 52|Difference - %|-12.6|||||TWO_SIDED|95.0|-23.5|-2.9|||Clopper-Pearson exact method|||Week 52||-2.9|-23.5|
92308222|NCT04058067|184516752|SUPERIORITY||Difference|-1.3|||||TWO_SIDED|95.0|-13.6|11.2|||Clopper-Pearson exact method|||||11.2|-13.6|
92189355|NCT04908800|184276763|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.12|||||TWO_SIDED|95.0|0.945|1.29|||||Between-subject geometric coefficient of variation was 32.1. Data were analyzed using a power model.|"Dose Proportionality Assessment. KRP-A218 assessed across the following dose levels: 2 mg, 4 mg, 8 mg, and 11 mg.~Dose proportionality results for Part B are only for the Day 14 profile (not Day 1)."||1.29|0.945|
92308223|NCT04058067|184516754|SUPERIORITY||Difference|-10.2|STANDARD_ERROR_OF_MEAN|13.79|||TWO_SIDED|95.0|-37.3|17.0|||ANOVA|||||17.0|-37.3|
92308224|NCT04058067|184516755|SUPERIORITY||Difference|-2.5|STANDARD_ERROR_OF_MEAN|12.34|||TWO_SIDED|95.0|-26.8|21.9|||ANOVA|||||21.9|-26.8|
92308225|NCT04058067|184516756|SUPERIORITY||Difference|-8.5|STANDARD_ERROR_OF_MEAN|11.03|||TWO_SIDED|95.0|-30.3|13.2|||ANOVA|||||13.2|-30.3|
92308226|NCT04058067|184516757|SUPERIORITY||Difference - %|5.3|||||TWO_SIDED|95.0|-3.3|13.5|||Clopper-Pearson exact method|||Week 4||13.5|-3.3|
92308227|NCT04058067|184516757|SUPERIORITY||Difference - %|10.8|||||TWO_SIDED|95.0|1.4|20.6|||Clopper-Pearson exact method|||Week 6||20.6|1.4|
92308228|NCT04058067|184516757|SUPERIORITY||Difference - %|14.1|||||TWO_SIDED|95.0|3.9|25.3|||Clopper-Pearson exact method|||Week 8||25.3|3.9|
92308229|NCT04058067|184516757|SUPERIORITY||Difference - %|14.1|||||TWO_SIDED|95.0|2.8|24.9|||Clopper-Pearson exact method||Proportion estimates (%) = 39.3|Week 12||24.9|2.8|
92308230|NCT04058067|184516757|SUPERIORITY||Difference - %|16.8||||||95.0|5.1|28.6|||Clopper-Pearson exact method|||Week 16||28.6|5.1|
92308231|NCT04058067|184516757|SUPERIORITY||Difference - %|15.4|||||TWO_SIDED|95.0|3.1|26.6|||Clopper-Pearson exact method|||Week 18||26.6|3.1|
92308232|NCT04058067|184516757|SUPERIORITY||Difference - %|15.7|||||TWO_SIDED|95.0|3.5|27.1|||Clopper-Pearson exact method|||Week 20||27.1|3.5|
92308233|NCT04058067|184516757|SUPERIORITY||Difference - %|19.1|||||TWO_SIDED|95.0|7.2|30.2|||Clopper-Pearson exact method|||Week 24||30.2|7.2|
92308234|NCT04058067|184516757|SUPERIORITY||Difference - %|16.4|||||TWO_SIDED|95.0|4.9|27.9|||Clopper-Pearson exact method|||Week 28||27.9|4.9|
92308235|NCT04058067|184516757|SUPERIORITY||Difference - %|12.1|||||TWO_SIDED|95.0|0.4|24.4|||Clopper-Pearson exact method|||Week 32||24.4|0.4|
92308236|NCT04058067|184516757|SUPERIORITY||Difference - %|6.0|||||TWO_SIDED|95.0|-5.9|18.0|||Clopper-Pearson exact method|||Week 36||18.0|-5.9|
92308237|NCT04058067|184516757|SUPERIORITY||Difference - %|15.2|||||TWO_SIDED|95.0|3.3|26.1|||Clopper-Pearson exact method|||Week 40||26.1|3.3|
92308238|NCT04058067|184516757|SUPERIORITY||Difference - %|13.2|||||TWO_SIDED|95.0|1.9|25.7|||Clopper-Pearson exact method|||Week 44||25.7|1.9|
92308239|NCT04058067|184516757|SUPERIORITY||Difference - %|11.9|||||TWO_SIDED|95.0|-0.8|23.6|||Clopper-Pearson exact method|||Week 48||23.6|-0.8|
92308240|NCT04058067|184516757|SUPERIORITY||Difference - %|17.9|||||TWO_SIDED|95.0|5.8|30.5|||Clopper-Pearson exact method|||Week 52||30.5|5.8|
92308241|NCT04058067|184516758|SUPERIORITY||Difference|0.9|||||TWO_SIDED|95.0|0.8|3.6|||Clopper-Pearson exact method|||||3.6|0.8|
92308242|NCT04058067|184516759|SUPERIORITY||Difference|-4.3|||||TWO_SIDED|95.0|-13.2|4.6|||Clopper-Pearson exact method|||||4.6|-13.2|
92308243|NCT04058067|184516760|SUPERIORITY||Difference|1.0|||||TWO_SIDED|95.0|-10.5|12.4|||Clopper-Pearson exact method|||||12.4|-10.5|
92308244|NCT04058067|184516765|OTHER|Descriptive, Week 28|Difference - %|-2.4|||||TWO_SIDED|95.0|-13.9|8.8|||Clopper-Pearson exact method|||Week 28||8.8|-13.9|
92308245|NCT04058067|184516765|OTHER|Descriptive, Week 52|Difference - %|-2.8|||||TWO_SIDED|95.0|-14.1|9.0|||Clopper-Pearson exact method|||Week 52||9.0|-14.1|
92308246|NCT04058067|184516767|OTHER|Descriptive, Week 28|Difference - %|4.2|||||TWO_SIDED|95.0|-4.1|12.6|||Clopper-Pearson exact method|||Week 28||12.6|-4.1|
92308247|NCT04058067|184516767|OTHER|Descriptive, Week 52|Difference - %|-0.5|||||TWO_SIDED|95.0|-10.5|9.3|||Clopper-Pearson exact method|||Week 52||9.3|-10.5|
92308248|NCT04058067|184516769|OTHER|Descriptive, Week 28|Difference - %|0.8|||||TWO_SIDED|95.0|0.7|2.9|||Clopper-Pearson exact method|||Week 28||2.9|0.7|
92308249|NCT04058067|184516771|OTHER|Descriptive, Week 28|Difference - %|0.8|||||TWO_SIDED|95.0|0.7|2.9|||Clopper-Pearson exact method|||Week 28||2.9|0.7|
92308250|NCT04058067|184516772|SUPERIORITY||LS mean difference|-0.9||||||95.0|-4.1|2.3|||ANCOVA|||Week 28||2.3|-4.1|
92308251|NCT04058067|184516772|SUPERIORITY||LS mean difference|0.1|||||TWO_SIDED|95.0|-3.1|3.3|||ANCOVA|||Week 52||3.3|-3.1|
92308252|NCT05502081|184516814|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308253|NCT05502081|184516814|SUPERIORITY|||||||0.176|||||||Kruskal-Wallis|||||||0.176
92308254|NCT05502081|184516814|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308255|NCT05502081|184516814|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92189356|NCT04908800|184276764|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.1|||||TWO_SIDED|95.0|0.971|1.23|||||Between-subject geometric of coefficient variation was 23.2. Data were analyzed using a power model.|"Dose Proportionality Assessment. KRP-A218 assessed across the following dose levels: 2 mg, 4 mg, 8 mg, and 11 mg.~Dose proportionality results for Part B are only for the Day 14 profile (not Day 1)."||1.23|0.971|
92308256|NCT05502081|184516815|SUPERIORITY|||||||0.011|||||||Kruskal-Wallis|||||||0.011
92308257|NCT05502081|184516815|SUPERIORITY|||||||0.021|||||||Kruskal-Wallis|||||||0.021
92308258|NCT05502081|184516815|SUPERIORITY|||||||0.42|||||||Kruskal-Wallis|||||||0.42
92308259|NCT05502081|184516815|SUPERIORITY|||||||0.007|||||||Kruskal-Wallis|||||||0.007
92308260|NCT05502081|184516816|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||||||0.99
92308261|NCT05502081|184516817|SUPERIORITY|||||||0.005|||||||Kruskal-Wallis|||||||0.005
92308262|NCT05502081|184516817|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||||||0.99
92308263|NCT05502081|184516817|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
92308264|NCT05502081|184516817|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
92308265|NCT05502081|184516818|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308266|NCT05502081|184516818|SUPERIORITY|||||||0.119|||||||Kruskal-Wallis|||||||0.119
92308267|NCT05502081|184516818|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308268|NCT05502081|184516818|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308269|NCT05502081|184516819|SUPERIORITY|||||||0.933|||||||Kruskal-Wallis|||||||0.933
92308270|NCT05502081|184516820|SUPERIORITY|||||||0.011|||||||Kruskal-Wallis|||||||0.011
92308271|NCT05502081|184516820|SUPERIORITY|||||||0.054|||||||Kruskal-Wallis|||||||0.054
92308272|NCT05502081|184516820|SUPERIORITY|||||||0.185|||||||Kruskal-Wallis|||||||0.185
92308273|NCT05502081|184516820|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92308274|NCT05502081|184516821|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308275|NCT05502081|184516821|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92308276|NCT05502081|184516821|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308277|NCT05502081|184516821|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308278|NCT05502081|184516822|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308279|NCT05502081|184516822|SUPERIORITY|||||||0.758|||||||Kruskal-Wallis|||||||0.758
92308280|NCT05502081|184516822|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308281|NCT05502081|184516822|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308282|NCT05502081|184516823|SUPERIORITY|||||||0.412|||||||Kruskal-Wallis|||||||0.412
92308283|NCT05502081|184516824|SUPERIORITY|||||||0.106|||||||Kruskal-Wallis|||||||0.106
92308284|NCT05502081|184516825|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
92308285|NCT05502081|184516825|SUPERIORITY|||||||0.06|||||||Kruskal-Wallis|||||||0.06
92308286|NCT05502081|184516825|SUPERIORITY|||||||0.156|||||||Kruskal-Wallis|||||||0.156
92308287|NCT05502081|184516825|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
92308288|NCT05502081|184516826|SUPERIORITY|||||||0.219|||||||Kruskal-Wallis|||||||0.219
92308289|NCT05502081|184516827|SUPERIORITY|||||||0.298|||||||Kruskal-Wallis|||||||0.298
92308290|NCT05502081|184516828|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||||||0.015
92308291|NCT05502081|184516828|SUPERIORITY|||||||0.232|||||||Kruskal-Wallis|||||||0.232
92308292|NCT05502081|184516828|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92308293|NCT05502081|184516828|SUPERIORITY|||||||0.054|||||||Kruskal-Wallis|||||||0.054
92308294|NCT05502081|184516829|SUPERIORITY|||||||0.68|||||||Kruskal-Wallis|||||||0.68
92308295|NCT05502081|184516829|SUPERIORITY|||||||0.232|||||||Kruskal-Wallis|||||||0.232
92308296|NCT05502081|184516829|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92308297|NCT05502081|184516829|SUPERIORITY|||||||0.054|||||||Kruskal-Wallis|||||||0.054
92308298|NCT05502081|184516830|SUPERIORITY|||||||0.002|||||||Kruskal-Wallis|||||||0.002
92308299|NCT05502081|184516830|SUPERIORITY|||||||0.557|||||||Kruskal-Wallis|||||||0.557
92308300|NCT05502081|184516830|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92308301|NCT05502081|184516830|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92308302|NCT05502081|184516831|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308303|NCT05502081|184516831|SUPERIORITY|||||||0.51|||||||Kruskal-Wallis|||||||0.51
92308304|NCT05502081|184516831|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308305|NCT05502081|184516831|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308306|NCT05502081|184516832|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308307|NCT05502081|184516832|SUPERIORITY|||||||0.891|||||||Kruskal-Wallis|||||||0.891
92308308|NCT05502081|184516832|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308309|NCT05502081|184516832|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308310|NCT05502081|184516833|SUPERIORITY|||||||0.516|||||||Kruskal-Wallis|||||||0.516
92308311|NCT05502081|184516834|SUPERIORITY|||||||0.264|||||||Wilcoxon (Mann-Whitney)|||||||0.264
92308312|NCT05502081|184516835|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308313|NCT05502081|184516835|SUPERIORITY|||||||0.256|||||||Kruskal-Wallis|||||||0.256
92308314|NCT05502081|184516835|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308315|NCT05502081|184516835|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308316|NCT05502081|184516836|SUPERIORITY|||||||0.008|||||||Kruskal-Wallis|||||||0.008
92308317|NCT05502081|184516836|SUPERIORITY|||||||0.797|||||||Kruskal-Wallis|||||||0.797
92308318|NCT05502081|184516836|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
92308319|NCT05502081|184516836|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92308320|NCT05502081|184516837|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
92308321|NCT05502081|184516838|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308322|NCT05502081|184516838|SUPERIORITY|||||||0.982|||||||Kruskal-Wallis|||||||0.982
92308323|NCT05502081|184516838|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308324|NCT05502081|184516838|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308325|NCT05502081|184516839|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||||||0.015
92308326|NCT05502081|184516839|SUPERIORITY|||||||0.136|||||||Kruskal-Wallis|||||||0.136
92308327|NCT05502081|184516839|SUPERIORITY|||||||0.062|||||||Kruskal-Wallis|||||||0.062
92308328|NCT05502081|184516839|SUPERIORITY|||||||0.005|||||||Kruskal-Wallis|||||||0.005
92308329|NCT05502081|184516840|SUPERIORITY|||||||0.136|||||||Wilcoxon (Mann-Whitney)|||||||0.136
92308330|NCT05502081|184516841|SUPERIORITY|||||||0.687|||||||Kruskal-Wallis|||||||0.687
92308331|NCT05502081|184516842|SUPERIORITY|||||||0.278|||||||Kruskal-Wallis|||||||0.278
92308332|NCT05502081|184516843|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||||||0.99
92308333|NCT05502081|184516844|SUPERIORITY|||||||0.574|||||||Kruskal-Wallis|||||||0.574
92308334|NCT05502081|184516845|SUPERIORITY|||||||0.017|||||||Kruskal-Wallis|||||||0.017
92308335|NCT05502081|184516845|SUPERIORITY|||||||0.017|||||||Kruskal-Wallis|||||||0.017
92308336|NCT05502081|184516845|SUPERIORITY|||||||0.041|||||||Kruskal-Wallis|||||||0.041
92308337|NCT05502081|184516845|SUPERIORITY|||||||0.616|||||||Kruskal-Wallis|||||||0.616
92308338|NCT05502081|184516846|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||||||0.99
92308339|NCT05502081|184516847|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308340|NCT05502081|184516847|SUPERIORITY|||||||0.208|||||||Kruskal-Wallis|||||||0.208
92308341|NCT05502081|184516847|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308342|NCT05502081|184516847|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92308343|NCT05502081|184516848|SUPERIORITY|||||||0.088|||||||Kruskal-Wallis|||||||0.088
92308344|NCT05502081|184516849|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
92308345|NCT05502081|184516850|SUPERIORITY|||||||0.006|||||||Kruskal-Wallis|||||||0.006
92308346|NCT05502081|184516850|SUPERIORITY|||||||0.151|||||||Kruskal-Wallis|||||||0.151
92308347|NCT05502081|184516850|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92308348|NCT05502081|184516850|SUPERIORITY|||||||0.035|||||||Kruskal-Wallis|||||||0.035
92308349|NCT05502081|184516851|SUPERIORITY|||||||0.037|||||||Kruskal-Wallis|||||||0.037
92308350|NCT05502081|184516851|SUPERIORITY|||||||0.997|||||||Kruskal-Wallis|||||||0.997
92308351|NCT05502081|184516851|SUPERIORITY|||||||0.016|||||||Kruskal-Wallis|||||||0.016
92308352|NCT05502081|184516851|SUPERIORITY|||||||0.014|||||||Kruskal-Wallis|||||||0.014
92308353|NCT05502081|184516852|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92308354|NCT05502081|184516853|SUPERIORITY|||||||0.047|||||||Kruskal-Wallis|||||||0.047
92308355|NCT05502081|184516853|SUPERIORITY|||||||0.04|||||||Kruskal-Wallis|||||||0.04
92308356|NCT05502081|184516853|SUPERIORITY|||||||0.036|||||||Kruskal-Wallis|||||||0.036
92308357|NCT05502081|184516853|SUPERIORITY|||||||0.67|||||||Kruskal-Wallis|||||||0.67
92308358|NCT05502081|184516854|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||||||0.015
92308359|NCT05502081|184516854|SUPERIORITY|||||||0.027|||||||Kruskal-Wallis|||||||0.027
92308360|NCT05502081|184516854|SUPERIORITY|||||||0.008|||||||Kruskal-Wallis|||||||0.008
92308361|NCT05502081|184516854|SUPERIORITY|||||||0.38|||||||Kruskal-Wallis|||||||0.38
92308362|NCT05502081|184516855|SUPERIORITY|||||||0.814|||||||Kruskal-Wallis|||||||0.814
92308363|NCT05502081|184516856|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
92308364|NCT05502081|184516857|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308365|NCT05502081|184516857|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308366|NCT05502081|184516857|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308367|NCT05502081|184516857|SUPERIORITY|||||||0.971|||||||Kruskal-Wallis|||||||0.971
92308368|NCT05502081|184516858|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92308369|NCT05502081|184516858|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308370|NCT05502081|184516859|SUPERIORITY|||||||0.007|||||||Kruskal-Wallis|||||||0.007
92308371|NCT05502081|184516859|SUPERIORITY|||||||0.017|||||||Kruskal-Wallis|||||||0.017
92308372|NCT05502081|184516859|SUPERIORITY|||||||0.452|||||||Kruskal-Wallis|||||||0.452
92308373|NCT05502081|184516859|SUPERIORITY|||||||0.237|||||||Kruskal-Wallis|||||||0.237
92308374|NCT05502081|184516860|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
92308375|NCT05502081|184516861|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||||||0.015
92308376|NCT05502081|184516861|SUPERIORITY|||||||0.223|||||||Kruskal-Wallis|||||||0.223
92308377|NCT05502081|184516861|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
92308378|NCT05502081|184516861|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|||||||0.05
92308379|NCT05502081|184516862|SUPERIORITY|||||||0.423|||||||Kruskal-Wallis|||||||0.423
92308380|NCT05502081|184516863|SUPERIORITY|||||||0.429|||||||Wilcoxon (Mann-Whitney)|||||||0.429
92308381|NCT05502081|184516864|SUPERIORITY|||||||0.089|||||||Kruskal-Wallis|||||||0.089
92308382|NCT05502081|184516865|SUPERIORITY|||||||0.222|||||||Kruskal-Wallis|||||||0.222
92308383|NCT05502081|184516866|SUPERIORITY|||||||0.252|||||||Kruskal-Wallis|||||||0.252
92308384|NCT05502081|184516867|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
92308385|NCT05502081|184516868|SUPERIORITY|||||||0.007|||||||Kruskal-Wallis|||||||0.007
92308386|NCT05502081|184516868|SUPERIORITY|||||||0.382|||||||Kruskal-Wallis|||||||0.382
92308387|NCT05502081|184516868|SUPERIORITY|||||||0.017|||||||Kruskal-Wallis|||||||0.017
92308388|NCT05502081|184516868|SUPERIORITY|||||||0.002|||||||Kruskal-Wallis|||||||0.002
92308389|NCT05502081|184516869|SUPERIORITY|||||||0.457|||||||Kruskal-Wallis|||||||0.457
92308390|NCT05502081|184516870|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92308391|NCT05502081|184516871|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
92308392|NCT05502081|184516871|SUPERIORITY|||||||0.605|||||||Kruskal-Wallis|||||||0.605
92308393|NCT05502081|184516871|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
92308394|NCT05502081|184516871|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
92308395|NCT05502081|184516872|SUPERIORITY|||||||0.293|||||||Kruskal-Wallis|||||||0.293
92308396|NCT05502081|184516873|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
92308397|NCT05502081|184516874|SUPERIORITY|||||||0.36|||||||Kruskal-Wallis|||||||0.36
92308398|NCT05502081|184516875|SUPERIORITY|||||||0.404|||||||Kruskal-Wallis|||||||0.404
92308399|NCT05502081|184516876|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308400|NCT05502081|184516876|SUPERIORITY|||||||0.234|||||||Kruskal-Wallis|||||||0.234
92189357|NCT02162771|184276773|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed values were used to assess the bioequivalence between CT-P10 and Rituxan (bioequivalence range of 80% to 125%)|Ratio of geometric least square means|102.25|||||TWO_SIDED|90.0|94.05|111.17|||ANCOVA|Country, gender, race, the value of ECOG status and the FLIPI score (0 to 2 versus 3 to 5) at baseline were fitted as covariates.||Equivalence in AUCtau between CT-P10 and Rituxan||111.17|94.05|
92308401|NCT05502081|184516876|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308402|NCT05502081|184516876|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308403|NCT05502081|184516877|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308404|NCT05502081|184516877|SUPERIORITY|||||||0.223|||||||Kruskal-Wallis|||||||0.223
92308405|NCT05502081|184516877|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308406|NCT05502081|184516877|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308407|NCT05502081|184516878|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308408|NCT05502081|184516878|SUPERIORITY|||||||0.002|||||||Kruskal-Wallis|||||||0.002
92308409|NCT05502081|184516878|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308410|NCT05502081|184516878|SUPERIORITY|||||||0.213|||||||Kruskal-Wallis|||||||0.213
92308411|NCT05502081|184516879|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308412|NCT05502081|184516879|SUPERIORITY|||||||0.478|||||||Kruskal-Wallis|||||||0.478
92308413|NCT05502081|184516879|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308414|NCT05502081|184516879|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308415|NCT05502081|184516880|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308416|NCT05502081|184516880|SUPERIORITY|||||||0.413|||||||Kruskal-Wallis|||||||0.413
92308417|NCT05502081|184516880|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308418|NCT05502081|184516880|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308419|NCT05502081|184516881|SUPERIORITY|||||||0.005|||||||Kruskal-Wallis|||||||0.005
92308420|NCT05502081|184516881|SUPERIORITY|||||||0.155|||||||Kruskal-Wallis|||||||0.155
92308421|NCT05502081|184516881|SUPERIORITY|||||||0.022|||||||Kruskal-Wallis|||||||0.022
92308422|NCT05502081|184516881|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92308423|NCT05502081|184516882|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92308424|NCT05502081|184516883|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308425|NCT05502081|184516883|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
92308426|NCT05502081|184516883|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92308427|NCT05502081|184516883|SUPERIORITY|||||||0.011|||||||Kruskal-Wallis|||||||0.011
92308428|NCT05502081|184516884|SUPERIORITY|||||||0.189|||||||Kruskal-Wallis|||||||0.189
92308429|NCT05502081|184516885|SUPERIORITY|||||||0.414|||||||Wilcoxon (Mann-Whitney)|||||||0.414
92308430|NCT00191165|184516896|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45||||0.34||95.0|-0.5|1.4|||ANOVA||Mean Difference = High Dose - Label Dose|||1.40|-0.50|0.340
92308431|NCT00191165|184516897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.388||95.0|-0.21|0.53||P-value for 12-Month Height SDS Change|ANOVA||Mean Difference = High Dose - Label Dose|||0.53|-0.21|0.388
92308432|NCT00191165|184516897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.49||||0.061||95.0|-0.02|0.99||P-value for 24-Month Height SDS Change|ANOVA||Mean Difference = High Dose - Label Dose|||0.99|-0.02|0.061
92308433|NCT00191165|184516898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.13||||0.088||95.0|-0.18|2.44|||ANOVA||Mean Difference = High Dose - Label Dose|||2.44|-0.18|0.088
92308434|NCT03200912|184516899|EQUIVALENCE|Primary Efficacy Endpoint - AK Complete Clearance Rates at Day 57 (PP and mITT Populations)|Mean Difference (Net)|2.29|||||TWO_SIDED|90.0|-7.55|12.14||||||||12.14|-7.55|
92308435|NCT00998309|184516913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the participatns of responders."||||=0.001
92308436|NCT00998309|184516914|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years  in the participatns of responders."||||=1.000
92308437|NCT00998309|184516915|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was type of infection. The null hypothesis is there is no difference amang Skin and Soft Tissue Infection, Sexual Transmitted Infection, and Dental and Oral Surgery Infection in the participatns of responders."||||<0.001
92308438|NCT00998309|184516916|SUPERIORITY_OR_OTHER||||||=|0.556|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Infection severity. The null hypothesis is there is no difference amang mild infection, moderate infection, and severe infection in the participatns of responders."||||=0.556
92308439|NCT00998309|184516917|SUPERIORITY_OR_OTHER||||||=|0.074|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was hepatic dysfunction. The null hypothesis is there is no difference between with and without hepatic dysfunction in the participatns of responders."||||=0.074
92308440|NCT00998309|184516918|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal dysfunction. The null hypothesis is there is no difference between with and without Renal dysfunction in the participatns of responders."||||=1.000
92308441|NCT00998309|184516919|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Past medical history. The null hypothesis is there is no difference between with and without past medical history in the participatns of responders."||||=1.000
92308442|NCT00998309|184516920|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was complications. The null hypothesis is there is no difference between with and without complications  in the participatns of responders."||||=1.000
92308443|NCT00998309|184516921|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was previous antibiotic treatment history. The null hypothesis is there is no difference between with and without previous antibiotic treatment history in the participatns of responders."||||=1.000
92308444|NCT00998309|184516922|SUPERIORITY_OR_OTHER||||||=|0.47|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was comcomittant drugs. The null hypothesis is there is no difference between with and without comcomittant drugs in the participatns of responders."||||=0.470
92308445|NCT00998309|184516923|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was non-drug therapy. The null hypothesis is there is no difference between with and without non-drug therapy in the participatns of responders."||||=1.000
92308446|NCT00998309|184516926|SUPERIORITY_OR_OTHER||||||=|0.657|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.657
92308447|NCT00998309|184516927|SUPERIORITY_OR_OTHER||||||=|0.145|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years or \>=65 in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.145
92308448|NCT00998309|184516928|SUPERIORITY_OR_OTHER||||||=|0.005|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Type of Infection. The null hypothesis is there is no difference amang Skin and Soft Tissue Infection, Sexual Transmitted Infection, and Dental or Oral Surgery Infection in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.005
92308449|NCT00998309|184516929|SUPERIORITY_OR_OTHER||||||=|0.213|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Infection severity. The null hypothesis is there is no difference amang mild infection, moderate infection, or severe infection in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.213
92308450|NCT00998309|184516930|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic Dysfunction. The null hypothesis is there is no difference between with and without Hepatic Dysfunction in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=1.000
92308451|NCT00998309|184516931|SUPERIORITY_OR_OTHER||||||=|0.116|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without Renal Dysfunction in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.116
92308452|NCT00998309|184516932|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Past Medical History. The null hypothesis is there is no difference between with and without Past Medical History in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||<0.001
92308453|NCT00998309|184516933|SUPERIORITY_OR_OTHER||||||=|0.645|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was complications. The null hypothesis is there is no difference between with and without complications in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.645
92308454|NCT00998309|184516934|SUPERIORITY_OR_OTHER||||||=|0.679|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was previous antibiotic treatment history (PATH). The null hypothesis is there is no difference between with and without previous antibiotic treatment history (PTH) in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.679
92308455|NCT00998309|184516935|SUPERIORITY_OR_OTHER||||||=|0.234|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was comcomittant drugs. The null hypothesis is there is no difference between with and without comcomittant drugs in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.234
92308456|NCT00998309|184516936|SUPERIORITY_OR_OTHER||||||=|0.039|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was non-drug therapy. The null hypothesis is there is no difference between with and without non-drug therapy in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.039
92308457|NCT00998309|184516937|SUPERIORITY_OR_OTHER||||||=|0.605|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Pregnancy in Female. The null hypothesis is there is no difference between with and without Pregnancy in the Incidence Rate of Treatment Related Adverse Events (TRAEs) in Female."||||=0.605
92308458|NCT03421730|184516938|OTHER||Geometric mean ratio (%)|8.69|||||TWO_SIDED||||||||A: n=6; D: n=5||The intra-subject coefficient of variation was 25.33%.|||
92308459|NCT03421730|184516938|OTHER||Geometric mean ratio (%)|28.18|||||TWO_SIDED||||||||B: n=6, D: n=5||The intra-subject coefficient of variation was 25.33%.|||
92308460|NCT03421730|184516938|OTHER||Geometric mean ratio (%)|59.51|||||TWO_SIDED||||||||C: n=6, D: n=5||The intra-subject coefficient of variation was 25.33%.|||
92308461|NCT03421730|184516939|OTHER||Geometric mean ratio (%)|13.35|||||TWO_SIDED||||||||A: n=4, D: n=4||The intra-subject coefficient of variation was 22.05%.|||
92308462|NCT03421730|184516939|OTHER||Geometric mean ratio (%)|35.97|||||TWO_SIDED||||||||B: n=4, D: n=4||The intra-subject coefficient of variation was 22.05%|||
92308463|NCT03421730|184516939|OTHER||Geometric mean ratio (%)|76.98|||||TWO_SIDED||||||||C: n=4, D: n=4||The intra-subject coefficient of variation was 22.05%|||
92308464|NCT03421730|184516940|OTHER||Geometric mean ratio (%)|9.55|||||TWO_SIDED||||||||A: n=6, D: n=5||The intra-subject coefficient of variation was 33.04%.|||
92308465|NCT03421730|184516940|OTHER||Geometric mean ratio (%)|32.42|||||TWO_SIDED||||||||B: n=6, D: n=5||The intra-subject coefficient of variation was 33.04%.|||
92308466|NCT03421730|184516940|OTHER||Geometric mean ratio (%)|59.75|||||TWO_SIDED||||||||C: n=6, D: n=5||The intra-subject coefficient of variation was 33.04%.|||
92308467|NCT00555152|184516986|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1
92308468|NCT04154631|184517030|SUPERIORITY||Time by treatment interaction coeff.|-10.91|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Immediate TranS-C (Standard/Adapted combined) versus UC-DT on change in sleep disturbance from pre to post.||||<0.001
92308469|NCT04154631|184517030|SUPERIORITY||Coefficient of indirect effect|0.17||||0.95|TWO_SIDED|95.0|-4.62|4.95|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at post was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||4.95|-4.62|0.95
92308470|NCT04154631|184517030|SUPERIORITY||Coefficient of indirect effect|0.09||||0.95|TWO_SIDED|95.0|-2.39|2.56|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at 6-month follow-up was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||2.56|-2.39|0.95
92308471|NCT04154631|184517030|SUPERIORITY||Coefficient of indirect effect|-0.16||||0.88|TWO_SIDED|95.0|-2.31|1.98|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at post was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||1.98|-2.31|0.88
92308472|NCT04154631|184517030|SUPERIORITY||Coefficient of indirect effect|-0.13||||0.88|TWO_SIDED|95.0|-3.1|2.31|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at 6-month follow-up was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||2.31|-3.10|0.88
92308473|NCT04154631|184517030|SUPERIORITY||Coefficient of indirect effect|-0.5||||0.79|TWO_SIDED|95.0|-2.18|1.66|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at post was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||1.66|-2.18|0.79
92308474|NCT04154631|184517030|SUPERIORITY||Coefficient of indirect effect|-0.26||||0.79|TWO_SIDED|95.0|-2.18|1.66|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at 6-month follow-up was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||1.66|-2.18|0.79
92308475|NCT04154631|184517031|SUPERIORITY||time by treatment interaction coeff.|-0.03||||0.77|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment effect (Standard versus Adapted TranS-C) on change in Acceptability Intervention Measure (AIM) from baseline (post-training) to post-treatment.||||0.77
92308476|NCT04154631|184517032|SUPERIORITY||Time by treatment interaction coeff.|-9.52|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in sleep-related impairment from pre to post.||||<0.001
92308477|NCT04154631|184517032|SUPERIORITY||Coefficient of indirect effect|0.26||||0.92|TWO_SIDED|95.0|-5.04|5.56|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at post was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||5.56|-5.04|0.92
92189358|NCT02162771|184276774|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed transformed values were used to assess the bioequivalence between CT-P10 and Rituxan (bioequivalence range of 80% to 125%)|Ratio of geometric least square means|100.67|||||TWO_SIDED|90.0|93.84|108.0|||ANCOVA|Country, gender, race, the value of ECOG status and the FLIPI score (0 to 2 versus 3 to 5) at baseline were fitted as covariates.||Equivalence in Cmax,ss between CT-P10 and Rituxan||108.00|93.84|
92308478|NCT04154631|184517032|SUPERIORITY||Coefficient of indirect effect|0.1||||0.92|TWO_SIDED|95.0|-2.04|2.24|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at 6-month follow-up was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||2.24|-2.04|0.92
92308479|NCT04154631|184517032|SUPERIORITY||Coefficient of indirect effect|-0.39||||0.78|TWO_SIDED|95.0|-3.1|2.31|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at post was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||2.31|-3.10|0.78
92308480|NCT04154631|184517032|SUPERIORITY||Coefficient of indirect effect|-0.3||||0.78|TWO_SIDED|95.0|-2.35|1.75|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at 6-month follow-up was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||1.75|-2.35|0.78
92308481|NCT04154631|184517032|SUPERIORITY||Coefficient of indirect effect|-0.43||||0.84|TWO_SIDED|95.0|-4.66|3.8|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at post was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||3.80|-4.66|0.84
92308482|NCT04154631|184517032|SUPERIORITY||Coefficient of indirect effect|-0.18||||0.84|TWO_SIDED|95.0|-1.94|1.58|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at 6-month follow-up was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||1.58|-1.94|0.84
92308483|NCT04154631|184517033|SUPERIORITY||Time by treatment interaction coeff.|1.63|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in Composite Sleep Health Score from pre to post.||||<0.001
92308484|NCT04154631|184517034|SUPERIORITY||Time by treatment interaction coeff.|-5.12|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in functional impairment from pre to post.||||<0.001
92189359|NCT02162771|184276775|NON_INFERIORITY|Non-inferiority margin of -7% was predefined.|Point estimate difference|4.3|||||TWO_SIDED|||||||||||||
92189360|NCT03647709|184276816|OTHER||mean score|1.0|||||TWO_SIDED|95.0|0.9|1.2|||||Represents patients pain score post operative day 1 best with rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity.||1.2|0.9|
92308485|NCT04154631|184517034|SUPERIORITY||Coefficient of indirect effect|-3.12|||<|0.001|TWO_SIDED|95.0|-4.58|-1.66|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and functional impairment (Sheehan Disability Scale) at post was mediated by sleep disturbance (PROMIS-SD) at post. The parameter of interest was the indirect effect.||-1.66|-4.58|<0.001
92308486|NCT04154631|184517034|SUPERIORITY||Coefficient of indirect effect|-3.81|||<|0.001|TWO_SIDED|95.0|-5.41|-2.22|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and functional impairment (Sheehan Disability Scale) at post was mediated by sleep-related impairment (PROMIS-SRI). The parameter of interest was the indirect effect at post||-2.22|-5.41|<0.001
92308487|NCT04154631|184517034|SUPERIORITY||Coefficient of indirect effect|0.07||||0.94|TWO_SIDED|95.0|-1.78|1.92|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at post was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||1.92|-1.78|0.94
92308488|NCT04154631|184517034|SUPERIORITY||Coefficient of indirect effect|0.05||||0.94|TWO_SIDED|95.0|-1.16|1.25|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at 6-month follow-up was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||1.25|-1.16|0.94
92308489|NCT04154631|184517034|SUPERIORITY||Coefficient of indirect effect|0.03||||0.85|TWO_SIDED|95.0|-0.3|0.37|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at post was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||0.37|-0.30|0.85
92308490|NCT04154631|184517034|SUPERIORITY||Coefficient of indirect effect|-0.23||||0.7|TWO_SIDED|95.0|-1.41|0.95|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at 6-month follow-up was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||0.95|-1.41|0.70
92308491|NCT04154631|184517034|SUPERIORITY||Coefficient of indirect effect|0.01||||0.92|TWO_SIDED|95.0|-0.23|0.25|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at post was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||0.25|-0.23|0.92
92308492|NCT04154631|184517034|SUPERIORITY||Coefficient of indirect effect|-0.07||||0.82|TWO_SIDED|95.0|-0.68|0.54|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at 6-month follow-up was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||0.54|-0.68|0.82
92308493|NCT04154631|184517035|SUPERIORITY||Time by treatment interaction coeff.|-6.72|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in psychiatric symptoms from pre to post.||||<0.001
92189361|NCT03647709|184276816|OTHER||mean score|2.4|||||TWO_SIDED|95.0|2.2|2.6|||||Represents patients reported pain score post operative day 1 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity.||2.6|2.2|
92308494|NCT04154631|184517035|SUPERIORITY||Coefficient of indirect effect|-1.86||||0.08|TWO_SIDED|95.0|-3.93|-0.21|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and psychiatric symptoms (Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by sleep disturbance (PROMIS-SD) at post. The parameter of interest was the indirect effect.||-0.21|-3.93|0.08
92308495|NCT04154631|184517035|SUPERIORITY||Coefficient of indirect effect|-2.51||||0.02|TWO_SIDED|95.0|-4.58|-0.44|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and psychiatric symptoms (Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by sleep-related impairment (PROMIS-SRI) at post. The parameter of interest was the indirect effect.||-0.44|-4.58|0.02
92308496|NCT04154631|184517035|SUPERIORITY||Coefficient of indirect effect|0.05||||0.97|TWO_SIDED|95.0|-1.99|2.08|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||2.08|-1.99|0.97
92308497|NCT04154631|184517035|SUPERIORITY||Coefficient of indirect effect|0.004||||0.97|TWO_SIDED|95.0|-0.18|0.19|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at 6-month follow-up was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||0.19|-0.18|0.97
92308498|NCT04154631|184517035|SUPERIORITY||Coefficient of indirect effect|0.02||||0.9|TWO_SIDED|95.0|-0.27|0.3|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||0.30|-0.27|0.90
92308499|NCT04154631|184517035|SUPERIORITY||Coefficient of indirect effect|0.01||||0.94|TWO_SIDED|95.0|-0.19|0.2|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at 6-month follow-up was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||0.20|-0.19|0.94
92308500|NCT04154631|184517035|SUPERIORITY||Coefficient of indirect effect|-0.19||||0.8|TWO_SIDED|95.0|-1.67|1.28|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||1.28|-1.67|0.80
92308501|NCT04154631|184517035|SUPERIORITY||Coefficient of indirect effect|-0.04||||0.77|TWO_SIDED|95.0|-0.33|0.25|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at 6-month follow-up was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||0.25|-0.33|0.77
92308502|NCT04154631|184517036|SUPERIORITY||time by treatment interaction coeff.|-0.01||||0.94|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment effect (Standard versus Adapted TranS-C) on change in Intervention Appropriateness Measure (IAM) from baseline (post-training) to post-treatment.||||0.94
92308503|NCT04154631|184517037|SUPERIORITY||Time by treatment interaction coeff.|-0.11||||0.34|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment effect (Standard versus Adapted TranS-C) on change in Feasibility of Intervention Measure (FIM) from baseline (post-training) to post-treatment.||||0.34
92308504|NCT05187013|184517073|SUPERIORITY||Mean Difference (Net)|-7.16|STANDARD_ERROR_OF_MEAN|2.72||0.006|TWO_SIDED|95.0|-12.59|-1.73|||t-test, 1 sided|||Null Hypothesis: No improvement between baseline and final SBP, i.e., Final SBP - Baseline SBP \>= 0 Alternative Hypothesis: Final SBP - Baseline SBP \<0 Power calculation: Based on the data, the mean and SD of the change in SBP are -7.16 and 21.40, respectively. Using a one-sided paired t-test with a significance level of 0.05, we should have a power of 83.16%||-1.73|-12.59|0.006
92308505|NCT05187013|184517073|SUPERIORITY||Mean Difference (Net)|-2.15|STANDARD_ERROR_OF_MEAN|1.32||0.056|TWO_SIDED|95.0|-4.79|0.49|||t-test, 1 sided|||Null Hypothesis: No improvement between baseline and final DBP, i.e., Final DBP - Baseline DBP \>= 0 Alternative Hypothesis: Final DBP - Baseline DBP \<0 Power calculation: Based on the data, the mean and SD of the change in SBP are -2.15 and 10.49, respectively. Using a one-sided paired t-test with a significance level of 0.05, we should have a power of 51.48%||0.49|-4.79|0.056
92308506|NCT05187013|184517073|EQUIVALENCE|The margin was considered to be 0.|Mean Difference (Net)|-0.67|STANDARD_ERROR_OF_MEAN|4.13||0.87|TWO_SIDED|95.0|-8.76|7.42|||ANCOVA|Adjusted for baseline SBP and follow-up time|The parameter was defined as the change in SBP for the general health education arm - the change in SBP for the HTN specific education arm adjusted for follow-up time and baseline SBP|"Null hypothesis: No difference between the change in SBP between the two arms~Power calculation: With our sample size, we expect to have 80% power as long as the effect size is at least 0.72 at a 5% level."||7.42|-8.76|0.87
92308507|NCT05187013|184517073|EQUIVALENCE|The margin was taken to be 0|Mean Difference (Net)|0.98|STANDARD_ERROR_OF_MEAN|2.04||0.63|TWO_SIDED|95.0|-3.02|4.98|||ANCOVA|Adjusted for baseline DBP and follow-up time|The parameter was defined as the change in DBP for the general health education arm - the change in DBP for the HTN specific education arm adjusted for follow-up time and baseline SBP|"Null hypothesis: No difference between the change in DBP between the two arms~Power calculation: With our sample size, we expect to have 80% power as long as the effect size is at least 0.72 at a 5% level."||4.98|-3.02|0.63
92308508|NCT05187013|184517074|EQUIVALENCE|The margin is taken to be 0|Odds Ratio, log|0.89|STANDARD_ERROR_OF_MEAN|0.61||0.14|TWO_SIDED|95.0|-0.26|2.29|||Regression, Logistic|A mixed effect model with study arm as a fixed effect and subject-specific random effect.|For OR: the general education arm was taken as the baseline (denominator)|Null hypothesis: There is no difference in medicine adherence between the two groups||2.29|-0.26|0.14
92308509|NCT05187013|184517075|EQUIVALENCE|The margin was taken to be 0.|Odds Ratio, log|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.32|TWO_SIDED|95.0|-0.58|0.19|||Regression, Logistic|Binomial regression for appointment attended/appointment scheduled.|The baseline (denominator) was taken to be the general education arm.|Null hypothesis: No difference in appointment adherence between the study arms||0.19|-0.58|0.32
92189362|NCT03647709|184276816|OTHER||mean score|2.9|||||TWO_SIDED|95.0|2.7|3.1|||||Represents patients reported pain score post operative day 1 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||3.1|2.7|
92189363|NCT03647709|184276816|OTHER||mean score|4.6|||||TWO_SIDED|95.0|4.4|4.8|||||Represents patients reported pain score post operative day 1 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||4.8|4.4|
92189364|NCT03647709|184276816|OTHER||mean score|1.8|||||TWO_SIDED|95.0|1.6|2.0|||||Represents patients reported pain score post operative day 2 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||2.0|1.6|
92189365|NCT03647709|184276816|OTHER||mean score|3.4|||||TWO_SIDED|95.0|3.2|3.6|||||Represents patients reported pain score post operative day 2 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||3.6|3.2|
92308510|NCT01096368|184517081|SUPERIORITY||Hazard Ratio (HR)|0.866||||0.229|TWO_SIDED|90.46|0.627|1.197||P-value is one-sided. After adjusting for interim analyses, the a priori threshold for significance for the final analysis is one-sided alpha=0.031.|Log Rank||Hazard ratio is based on hazard of events for Arm II over hazard of events for Arm III. Confidence interval is stage-wise adjusted for multiple interim analyses.|The study was designed to test the superiority of RT+maintenance vs. RT alone as measured by EFS using the hazard ratio via a 1-sided log-rank test. The planned sample size was 160 subjects per arm. 85 EFS events were needed, which were expected after 8 years of accrual and 2 years of follow-up. At 5% type 1 error, the study had 93% power to detect an increase in 2-year EFS from 75% (RT alone) to 87% (RT+maintenance). The design also incorporated interim analyses for futility and efficacy.||1.197|0.627|0.229
92308511|NCT01096368|184517082|SUPERIORITY||Hazard Ratio (HR)|0.757||||0.172|TWO_SIDED|90.46|0.463|1.238||P-value is one-sided. After adjusting for interim analyses, the a priori threshold for significance for the final analysis is one-sided alpha=0.031.|Log Rank||Hazard ratio is based on hazard of death for Arm II over hazard of death for Arm III. Confidence interval is stage-wise adjusted for multiple interim analyses.|It was planned to test the superiority of RT+maintenance vs. RT alone as measured by OS using the hazard ratio via a 1-sided log-rank test using the planned sample size of 160 subjects per arm which was optimized for the EFS outcome. A one-sided significance threshold of 5% was planned for this comparison as well.||1.238|0.463|0.172
92308512|NCT01096368|184517083|SUPERIORITY||Hazard Ratio (HR)|0.701||||0.096|TWO_SIDED|95.0|0.461|1.068||P-value is two-sided and not adjusted for multiple comparisons for this exploratory subgroup comparison.|Log Rank||Hazard ratio is based on hazard of events for Arm II over hazard of events for Arm III.|In stratum 1, it was also planned to test the superiority of RT+maintenance vs. RT alone as measured by EFS using the hazard ratio via a 2-sided log-rank test. A two-sided significance threshold of 5% was planned for this comparison.||1.068|0.461|0.096
92308513|NCT01096368|184517084|SUPERIORITY||Hazard Ratio (HR)|2.684||||0.041|TWO_SIDED|95.0|1.004|7.175||P-value is two-sided and not adjusted for multiple comparisons for this exploratory subgroup comparison.|Log Rank||Hazard ratio is based on hazard of events for Arm II over hazard of events for Arm III.|In stratum 2, it was also planned to test the superiority of RT+maintenance vs. RT alone as measured by EFS using the hazard ratio via a 2-sided log-rank test. A two-sided significance threshold of 5% was planned for this comparison.||7.175|1.004|0.041
92308514|NCT01096368|184517085|SUPERIORITY||Hazard Ratio (HR)|0.547||||0.067|TWO_SIDED|95.0|0.284|1.053||P-value is two-sided and not adjusted for multiple comparisons for this exploratory subgroup comparison.|Log Rank||Hazard ratio is based on hazard of death for Arm II over death of events for Arm III.|In stratum 1, it was also planned to test the superiority of RT+maintenance vs. RT alone as measured by OS using the hazard ratio via a 2-sided log-rank test. A two-sided significance threshold of 5% was planned for this comparison.||1.053|0.284|0.067
92308515|NCT01096368|184517086|SUPERIORITY||Hazard Ratio (HR)|3.601||||0.094|TWO_SIDED|95.0|0.724|17.902||P-value is two-sided and not adjusted for multiple comparisons for this exploratory subgroup comparison.|Log Rank||Hazard ratio is based on hazard of death for Arm II over hazard of death for Arm III.|In stratum 2, it was also planned to test the superiority of RT+maintenance vs. RT alone as measured by OS using the hazard ratio via a 2-sided log-rank test. A two-sided significance threshold of 5% was planned for this comparison.||17.902|0.724|0.094
92308516|NCT01568320|184517094|SUPERIORITY_OR_OTHER_LEGACY||Freedom from Major adverse events (%)|71.6|||||TWO_SIDED|95.0|59.0|82.0|||||Clopper-Pearson (Exact) Method|||82|59|
92308517|NCT01568320|184517095|SUPERIORITY_OR_OTHER_LEGACY||Survival rate (%)|95.5|||||TWO_SIDED|95.0|87.0|99.0|||||Clopper-Pearson (Exact) Method|||99|87|
92308518|NCT03233230|184517096|SUPERIORITY||Odds Ratio (OR)|1.48||||0.1746|TWO_SIDED|95.0|0.84|2.61|||Regression, Logistic|||||2.61|0.84|0.1746
92308519|NCT03233230|184517096|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8283|TWO_SIDED|95.0|0.61|1.87|||Regression, Logistic|||||1.87|0.61|0.8283
92308520|NCT03233230|184517096|SUPERIORITY||Odds Ratio (OR)|1.55||||0.1298|TWO_SIDED|95.0|0.88|2.74|||Regression, Logistic|||||2.74|0.88|0.1298
92308521|NCT03233230|184517097|SUPERIORITY||Response rate difference|0.13||||0.0077|TWO_SIDED|95.0|0.04|0.23|||Cochran-Mantel-Haenszel|||||0.23|0.04|0.0077
92308522|NCT03233230|184517097|SUPERIORITY||Response rate difference|0.17||||0.0013|TWO_SIDED|95.0|0.07|0.27|||Cochran-Mantel-Haenszel|||||0.27|0.07|0.0013
92308523|NCT03233230|184517097|SUPERIORITY||Response rate difference|0.13||||0.008|TWO_SIDED|95.0|0.04|0.23|||Cochran-Mantel-Haenszel|||||0.23|0.04|0.0080
92308524|NCT03233230|184517098|SUPERIORITY||Response rate difference|0.09||||0.0056|TWO_SIDED|95.0|0.03|0.17|||Cochran-Mantel-Haenszel|||||0.17|0.03|0.0056
92308525|NCT03233230|184517098|SUPERIORITY||Response rate difference|0.09||||0.005|TWO_SIDED|95.0|0.03|0.17|||Cochran-Mantel-Haenszel|||||0.17|0.03|0.0050
92308526|NCT03233230|184517098|SUPERIORITY||Response rate difference|0.09||||0.0053|TWO_SIDED|95.0|0.03|0.17|||Cochran-Mantel-Haenszel|||||0.17|0.03|0.0053
92308527|NCT03233230|184517099|SUPERIORITY||Response rate difference|0.09||||0.1419|TWO_SIDED|95.0|-0.03|0.21|||Cochran-Mantel-Haenszel|||||0.21|-0.03|0.1419
92308528|NCT03233230|184517099|SUPERIORITY||Response rate difference|0.07||||0.2202|TWO_SIDED|95.0|-0.05|0.19|||Cochran-Mantel-Haenszel|||||0.19|-0.05|0.2202
92308529|NCT03233230|184517099|SUPERIORITY||Response rate difference|0.07||||0.2328|TWO_SIDED|95.0|-0.05|0.19|||Cochran-Mantel-Haenszel|||||0.19|-0.05|0.2328
92308530|NCT03233230|184517100|SUPERIORITY||Response rate difference|0.06||||0.1232|TWO_SIDED|95.0|-0.02|0.15|||Cochran-Mantel-Haenszel|||||0.15|-0.02|0.1232
92308531|NCT03233230|184517100|SUPERIORITY||Response rate difference|0.05||||0.1725|TWO_SIDED|95.0|-0.03|0.14|||Cochran-Mantel-Haenszel|||||0.14|-0.03|0.1725
92308532|NCT03233230|184517100|SUPERIORITY||Response rate difference|0.05||||0.1795|TWO_SIDED|95.0|-0.03|0.13|||Cochran-Mantel-Haenszel|||||0.13|-0.03|0.1795
92308533|NCT03233230|184517108|SUPERIORITY||Response rate difference|0.0|||||TWO_SIDED|95.0|-0.04|0.04||||||||0.04|-0.04|
92308534|NCT03233230|184517108|SUPERIORITY||Response rate difference|0.01|||||TWO_SIDED|95.0|-0.03|0.06||||||||0.06|-0.03|
92308535|NCT03233230|184517108|SUPERIORITY||Response rate difference|0.03|||||TWO_SIDED|95.0|-0.01|0.09||||||||0.09|-0.01|
92308536|NCT03233230|184517109|SUPERIORITY||Response rate difference|0.03|||||TWO_SIDED|95.0|-0.02|0.09||||||||0.09|-0.02|
92308537|NCT03233230|184517109|SUPERIORITY||Response rate difference|0.05|||||TWO_SIDED|95.0|0.0|0.12||||||||0.12|-0.00|
92308538|NCT03233230|184517109|SUPERIORITY||Response rate difference|0.02|||||TWO_SIDED|95.0|-0.03|0.08||||||||0.08|-0.03|
92308539|NCT03233230|184517110|SUPERIORITY||Response rate difference|0.03|||||TWO_SIDED|95.0|-0.01|0.09||||||||0.09|-0.01|
92308540|NCT03233230|184517110|SUPERIORITY||Response rate difference|0.04|||||TWO_SIDED|95.0|0.0|0.1||||||||0.10|0.00|
92308541|NCT03233230|184517110|SUPERIORITY||Response rate difference|0.03|||||TWO_SIDED|95.0|-0.01|0.09||||||||0.09|-0.01|
92308542|NCT03233230|184517111|SUPERIORITY||Response rate difference|0.11|||||TWO_SIDED|95.0|-0.03|0.24||||||||0.24|-0.03|
92308543|NCT03233230|184517111|SUPERIORITY||Response rate difference|0.12|||||TWO_SIDED|95.0|-0.02|0.25||||||||0.25|-0.02|
92308544|NCT03233230|184517111|SUPERIORITY||Response rate difference|0.18|||||TWO_SIDED|95.0|0.05|0.31||||||||0.31|0.05|
92308545|NCT04159935|184517133|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.400
92308546|NCT04159935|184517134|OTHER|||||||0.057|||||||Wilcoxon (Mann-Whitney)|||||||0.057
92308547|NCT04159935|184517135|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92308548|NCT04159935|184517137|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.400
92308549|NCT04159935|184517138|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.400
92308550|NCT04159935|184517139|OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.500
92308551|NCT04159935|184517140|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92308552|NCT04159935|184517141|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.400
92308553|NCT04159935|184517143|OTHER|||||||0.343|||||||Wilcoxon (Mann-Whitney)|||||||0.343
92308554|NCT04159935|184517144|OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.700
92308555|NCT04159935|184517145|OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.500
92308556|NCT02472223|184517160|SUPERIORITY||Median Difference (Final Values)|90.0||||0.02|TWO_SIDED|||||p-value is not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.02
92308557|NCT00206323|184517185|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0259|||||||t-test, 2 sided|||"Primary variable change of TTS/YGTSS at the BSL to Day 70. Changes of YGTSS compared using analysis of covariance with score at day 1 as a covariate. Groups compared for incidence of AE's and of AESI based on Fisher's Exact Test. All tests were two-sided at the 5% level of significance.~The Total Tic Score is a summation of the Total Motor Tic and Total Phonic Tic Scores. The Overall Impairment Rating is rated on a 50-point scale anchored by 0 (No impairment) and 50 (Severe impairment)"||||0.0259
92308558|NCT03657342|184517230|SUPERIORITY||LS Mean Difference|-0.095||||0.731|TWO_SIDED|95.0|-0.405|0.214||1-sided p value.|Mixed Models Analysis|||at V9.||0.214|-0.405|0.7310
92308559|NCT03657342|184517231|SUPERIORITY||least suare mean difference|-0.064||||0.8041|TWO_SIDED|95.0|-0.212|0.084||1-sided p value|Mixed Models Analysis|||Estimates were from a Linear Mixed Model on the response variable change from baseline in FEV1/FVC with factors for time splines, treatment, the interactions of time splines by treatment, baseline FEV1/FVC, the interactions of time splines with baseline FEV1/FVC, region (North America versus all other countries together), underlying indication for lung transplant (COPD versus all others), use of azithromycin at randomization, and time as random effect.||0.084|-0.212|0.8041
92308560|NCT03657342|184517232|SUPERIORITY||adjusted hazard ratio|2.601||||0.1559|TWO_SIDED|95.0|0.408|16.585||1-sided p value. Adjusted Hazard Ratio calculated using Cox proportional hazards model with covariates of Treatment, Baseline FEV1, with Efron's method of tie handling.|Regression, Cox|||||16.585|0.408|0.1559
92308561|NCT02373189|184517238|SUPERIORITY|||||||0.05||||||The P-value indicated above is calculated.|paired t-test|means at pre and post treatment were compared within subject.||||||0.05
92308562|NCT02373189|184517239|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92308563|NCT02151877|184517240|OTHER||||||>|0.05||||||This test applies to the first marker, cardiac troponin I.|t-test, 2 sided|||Null: mean cardiac troponin I changes in the NO group = mean cardiac troponin I changes in the control||||>0.05
92308564|NCT02151877|184517241|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Null: NO group fluid balances are the same as the control||||>0.05
92308565|NCT03095638|184517248|OTHER||Ratio|1.0084|||||TWO_SIDED|90.0|0.8626|1.1789||||||||1.1789|0.8626|
92308566|NCT03095638|184517249|OTHER||Ratio|1.0121|||||TWO_SIDED|90.0|0.8648|1.1845||||||||1.1845|0.8648|
92308567|NCT03095638|184517250|OTHER||Ration|1.0329|||||TWO_SIDED|90.0|0.8623|1.2373||||||||1.2373|0.8623|
92308568|NCT03095638|184517251|OTHER||Ratio|1.6242|||||TWO_SIDED|90.0|1.4986|1.7604||||||||1.7604|1.4986|
92308569|NCT03095638|184517251|OTHER||Ratio|1.5448|||||TWO_SIDED|90.0|1.4253|1.6743||||||||1.6743|1.4253|
92308570|NCT03095638|184517252|OTHER||Ratio|1.6292|||||TWO_SIDED|90.0|1.503|1.7661||||||||1.7661|1.5030|
92308571|NCT03095638|184517252|OTHER||Ratio|1.5519|||||TWO_SIDED|90.0|1.4317|1.6822||||||||1.6822|1.4317|
92308572|NCT03095638|184517253|OTHER||Ratio|1.7933|||||TWO_SIDED|90.0|1.6226|1.9819||||||||1.9819|1.6226|
92308573|NCT03095638|184517253|OTHER||Ratio|1.7974|||||TWO_SIDED|90.0|1.6263|1.9865||||||||1.9865|1.6263|
92308574|NCT00911807|184517304|SUPERIORITY_OR_OTHER||Mean Square (Factor Treatment)|19.59||||0.6348||||||ANCOVA F-test. The study was designed to show significant differences in each of the two primary variables. No adjustment for multiple testing was needed and all tests were done with retention of the full two-sided alpha-level of 0.05.|ANCOVA|ANCOVA with the week 28 ADAS-cog+ change score as dependent variable and the ADAS-cog+ baseline score as a covariate.||The null-hypothesis stated no differences between the three treatment groups regarding the mean change from baseline in ADAS-cog+ at week 28. A sample size of approximately 60 evaluable patients per treatment arm was estimated to allow for the detection of a significant group difference of two points in ADAS-cog+ week 28 change score (standard deviation \[SD\] 3.3) between the three groups with a power of \> 80% and a probability level of alpha = 0.05 (two-sided).||||0.6348
92308575|NCT00911807|184517304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.583||95.0|-2.891|1.63||No adjustment for multiple testing was needed and all tests were done with retention of the full two-sided alpha-level of 0.05.|t-test, 2 sided|Comparisons between all pair of means were performed with two-sample t-tests within the ANCOVA model.||Multiple testing of individual null hypotheses that control for the overall significance level alpha = 0.05 were performed by using the 'closed testing procedure'||1.630|-2.891|0.5830
92308576|NCT00911807|184517304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.3434||95.0|-3.324|1.163||No adjustment for multiple testing was needed and all tests were done with retention of the full two-sided alpha-level of 0.05.|t-test, 2 sided|Comparisons between all pair of means were performed with two-sample t-tests within the ANCOVA model.||Multiple testing of individual null hypotheses that control for the overall significance level alpha = 0.05 were performed by using the 'closed testing procedure'.||1.163|-3.324|0.3434
92308577|NCT00911807|184517304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.6962||95.0|-2.719|1.819||No adjustment for multiple testing was needed and all tests were done with retention of the full two-sided alpha-level of 0.05.|t-test, 2 sided|Comparisons between all pair of means were performed with two-sample t-tests within the ANCOVA model.||Multiple testing of individual null hypotheses that control for the overall significance level alpha = 0.05 were performed by using the 'closed testing procedure'.||1.819|-2.719|0.6962
92308578|NCT01753336|184517318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.0|STANDARD_DEVIATION|8.94|||TWO_SIDED|95.0|-9.79|-6.28||||||Cycle 1-Day 1 vs Cycle 1-Week 4. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 1 is presented.||-6.28|-9.79|
92308579|NCT01753336|184517318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.0|STANDARD_DEVIATION|11.68|||TWO_SIDED|95.0|-7.36|-2.68||||||Cycle 1-Day 1 vs Cycle 1-Week 12. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 1 is presented.||-2.68|-7.36|
92308580|NCT01753336|184517318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.9|STANDARD_DEVIATION|7.29|||TWO_SIDED|95.0|-7.42|-4.47||||||Cycle 2-Day 1 vs Cycle 2-Week 4. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 2 is presented.||-4.47|-7.42|
92308581|NCT01753336|184517318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_DEVIATION|7.49|||TWO_SIDED|95.0|-3.37|-0.27||||||Cycle 2-Day 1 vs Cycle 2-Week 12. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 2 is presented.||-0.27|-3.37|
92308582|NCT01753336|184517318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1|STANDARD_DEVIATION|9.03|||TWO_SIDED|95.0|-5.99|-2.2||||||Cycle 3-Day 1 vs Cycle 3-Week 4. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 3 was determined.||-2.20|-5.99|
92308583|NCT01753336|184517318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_DEVIATION|9.42|||TWO_SIDED|95.0|-3.11|0.81||||||Cycle 3-Day 1 vs Cycle 3-Week 12. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 3 was determined.||0.81|-3.11|
92308584|NCT01753336|184517319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.5|STANDARD_DEVIATION|9.74|||TWO_SIDED|95.0|-13.38|-9.56||||||Pretreatment baseline vs Cycle 1-Week 4. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 4 visit for Treatment Cycle 1 is presented.||-9.56|-13.38|
92308585|NCT01753336|184517319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.9|STANDARD_DEVIATION|10.89|||TWO_SIDED|95.0|-11.08|-6.71||||||Pretreatment baseline vs Cycle 1-Week 12. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 12 visit for treatment Cycle 1 is presented.||-6.71|-11.08|
92308586|NCT01753336|184517319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.4|STANDARD_DEVIATION|11.43|||TWO_SIDED|95.0|-16.74|-12.11||||||Pretreatment baseline vs Cycle 2-Week 4. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 4 visit for Treatment Cycle 2 is presented.||-12.11|-16.74|
92308587|NCT01753336|184517319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.6|STANDARD_DEVIATION|11.33|||TWO_SIDED|95.0|-12.92|-8.22||||||Pretreatment baseline vs Cycle 2-Week 12. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 12 visit for Treatment Cycle 2 is presented.||-8.22|-12.92|
92308588|NCT01753336|184517319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.6|STANDARD_DEVIATION|12.19|||TWO_SIDED|95.0|-17.18|-12.1||||||Pretreatment baseline vs Cycle 3-Week 4. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 4 visit for Treatment Cycle 3 is presented.||-12.10|-17.18|
92308589|NCT01753336|184517319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.7|STANDARD_DEVIATION|11.17|||TWO_SIDED|95.0|-14.02|-9.39||||||Pretreatment baseline vs Cycle 3-Week 12. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 12 visit for Treatment Cycle 3 is presented.||-9.39|-14.02|
92308590|NCT01753336|184517321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.5|STANDARD_DEVIATION|4.95|||TWO_SIDED|95.0|-4.46|-2.52||||||Cycle 1-Day 1 vs Cycle 1-Week 4. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 1 was determined.||-2.52|-4.46|
92308591|NCT01753336|184517321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_DEVIATION|5.24|||TWO_SIDED|95.0|-2.81|-0.7||||||Cycle 1-Day 1 vs Cycle 1-Week 12. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 1 was determined.||-0.70|-2.81|
92308592|NCT01753336|184517321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0|STANDARD_DEVIATION|3.77|||TWO_SIDED|95.0|-3.75|-2.23||||||Cycle 2-Day 1 vs Cycle 2-Week 4. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 2 was determined.||-2.23|-3.75|
92308593|NCT01753336|184517321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|3.86|||TWO_SIDED|95.0|-1.33|0.27||||||Cycle 2-Day 1 vs Cycle 2-Week 12. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 2 was determined.||0.27|-1.33|
92308594|NCT01753336|184517321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|STANDARD_DEVIATION|4.32|||TWO_SIDED|95.0|-3.64|-1.83||||||Cycle 3-Day 1 vs Cycle 3-Week 4. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 3 was determined.||-1.83|-3.64|
92308595|NCT01753336|184517321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|4.77|||TWO_SIDED|95.0|-2.0|-0.02||||||Cycle 3-Day 1 vs Cycle 3-Week 12. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 3 was determined.||-0.02|-2.00|
92308596|NCT01753336|184517322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9|STANDARD_DEVIATION|3.86|||TWO_SIDED|95.0|-3.64|-2.12||||||Cycle 1-Day 1 vs Cycle 1-Week 4. The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 1 was determined.||-2.12|-3.64|
92308597|NCT01753336|184517322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_DEVIATION|4.82|||TWO_SIDED|95.0|-2.79|-0.86||||||Cycle 1-Day 1 vs Cycle 1-Week 12.The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 1 was determined.||-0.86|-2.79|
92308598|NCT01753336|184517322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|3.47|||TWO_SIDED|95.0|-2.44|-1.04||||||Cycle 2-Day 1 vs Cycle 2-Week 4. The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 2 was determined.||-1.04|-2.44|
92308599|NCT01753336|184517322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|3.46|||TWO_SIDED|95.0|-1.55|-0.12||||||Cycle 2-Day 1 vs Cycle 2-Week 12. The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 2 was determined.||-0.12|-1.55|
92308600|NCT01753336|184517322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|3.75|||TWO_SIDED|95.0|-1.45|0.12||||||Cycle 3-Day 1 vs Cycle 3-Week 4. The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 3 was determined.||0.12|-1.45|
92308601|NCT01753336|184517322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|3.73|||TWO_SIDED|95.0|-0.85|0.7||||||Cycle 3-Day 1 vs Cycle 3-Week 12.The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 3 was determined.||0.70|-0.85|
92308602|NCT01753336|184517323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|3.74|||TWO_SIDED|95.0|-2.39|-0.92||||||Cycle 1-Day 1 vs Cycle 1-Week 4. The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 1 was determined.||-0.92|-2.39|
92308603|NCT01753336|184517323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_DEVIATION|3.88|||TWO_SIDED|95.0|-2.22|-0.66||||||Cycle 1-Day 1 vs Cycle 1-Week 12. The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 1 was determined.||-0.66|-2.22|
92308604|NCT01753336|184517323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2|STANDARD_DEVIATION|3.12|||TWO_SIDED|95.0|-1.84|-0.58||||||Cycle 2-Day 1 vs Cycle 2-Week 4.The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 2 was determined.||-0.58|-1.84|
92308605|NCT01753336|184517323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|3.04|||TWO_SIDED|95.0|-1.08|0.18||||||Cycle 2-Day 1 vs Cycle 2-Week 12. The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 2 was determined.||0.18|-1.08|
92308606|NCT01753336|184517323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|4.2|||TWO_SIDED|95.0|-1.57|0.19||||||Cycle 3-Day 1 vs Cycle 3-Week 4. The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 3 was determined.||0.19|-1.57|
92308607|NCT01753336|184517323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|3.78|||TWO_SIDED|95.0|-0.85|0.73||||||Cycle 3-Day 1 vs Cycle 3-Week 12. The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 3 was determined.||0.73|-0.85|
92308608|NCT02304458|184517395|OTHER|Maximum Tolerate Dose Level was determined by the rolling-6 design.|Maximum Tolerate Dose Level|3.0|||||TWO_SIDED||||||||Maximum Tolerate Dose Level is 3 mg/kg Nivolumab|||||
92308609|NCT04188301|184517406|SUPERIORITY||Odds Ratio (OR)|1.41||||0.192|TWO_SIDED|95.0|0.84|2.38||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA for living female O. volvulus worms in nodules after treatment.||2.38|0.84|0.192
92308610|NCT04188301|184517406|SUPERIORITY||Odds Ratio (OR)|1.45||||0.107|TWO_SIDED|95.0|0.92|2.29||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA3 for living female O. volvulus worms in nodules after treatment.||2.29|0.92|0.107
92308611|NCT04188301|184517406|SUPERIORITY|IA vs IDA treatment groups for living female O. volvulus worms in nodules after treatment.|Odds Ratio (OR)|1.44||||0.068|TWO_SIDED|95.0|0.97|2.15||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||||2.15|0.97|0.068
92308612|NCT04188301|184517406|SUPERIORITY||Odds Ratio (OR)|1.03||||0.918|TWO_SIDED|95.0|0.59|1.79||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IDA vs IDA3 for living female O. volvulus worms in nodules after treatment.||1.79|0.59|0.918
92308613|NCT04188301|184517409|SUPERIORITY||Odds Ratio (OR)|1.41||||0.192|TWO_SIDED|95.0|0.84|2.38||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA for living female O. volvulus worms in nodules after treatment.||2.38|0.84|0.192
92308614|NCT04188301|184517409|SUPERIORITY||Odds Ratio (OR)|1.45||||0.107|TWO_SIDED|95.0|0.92|2.29||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA3 for living female O. volvulus worms in nodules after treatment.||2.29|0.92|0.107
92308615|NCT04188301|184517409|SUPERIORITY||Odds Ratio (OR)|1.44||||0.068|TWO_SIDED|95.0|0.97|2.15||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA groups for living female O. volvulus worms in nodules after treatment.||2.15|0.97|0.068
92308616|NCT04188301|184517409|SUPERIORITY||Odds Ratio (OR)|1.03||||0.918|TWO_SIDED|95.0|0.59|1.79||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IDA vs IDA3 for living female O. volvulus worms in nodules after treatment.||1.79|0.59|0.918
92308617|NCT04188301|184517412|SUPERIORITY||Odds Ratio (OR)|1.66||||0.134|TWO_SIDED|95.0|0.85|3.21||Adjusted p values were model-adjusted for repeated measurements per person. Participant level random effects were included in the model to adjust for multiple worms/person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA in fertile female O. volvulus worms in nodules after treatment.||3.21|0.85|0.134
92308618|NCT04188301|184517412|SUPERIORITY||Odds Ratio (OR)|2.23||||0.023|TWO_SIDED|95.0|1.12|4.44||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA3 for fertile female O. volvulus worms in nodules after treatment.||4.44|1.12|0.023
92308619|NCT04188301|184517412|SUPERIORITY||Odds Ratio (OR)|1.32||||0.43|TWO_SIDED|95.0|0.64|2.85||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IDA1 vs IDA3 for fertile female O. volvulus worms in nodules after treatment.||2.85|.64|0.430
92308620|NCT04188301|184517412|SUPERIORITY||Odds Ratio (OR)|1.91||||0.023|TWO_SIDED|95.0|1.09|3.34||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA treatment groups for fertile female O. volvulus worms in nodules after treatment.||3.34|1.09|0.023
92308621|NCT01770392|184517413|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|50.12|STANDARD_DEVIATION|12.7||1|TWO_SIDED|90.0|47.155|53.275||p-value for ratio outside interval 0.8 - 1.25|ANOVA|"The model includes fixed effect for treatment and effect subjects was considered as random"|"The standard deviation is actually the geometric coefficient of variation (in %).~The ratio has been calculated as (nintedanib+ rifampicin) divided by nintedanib (in %)"|||53.275|47.155|1.0000
92308622|NCT01770392|184517414|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|59.76|STANDARD_DEVIATION|21.9||1|TWO_SIDED|90.0|53.829|66.348||p-value for ratio outside interval 0.8 - 1.25|ANOVA|"The model includes fixed effect for treatment and effect subjects was considered as random"|"The standard deviation is actually the geometric coefficient of variation (in %).~The ratio has been calculated as (nintedanib+ rifampicin) divided by nintedanib (in %)."|||66.348|53.829|1.0000
92308623|NCT01770392|184517415|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|49.98|STANDARD_DEVIATION|13.3||1|TWO_SIDED|90.0|46.886|53.286||p-value for ratio outside interval 0.8 - 1.25|ANOVA|"The model includes fixed effect for treatment and effect subjects was considered as random"|"The standard deviation is actually the geometric coefficient of variation (in %).~The ratio has been calculated as (nintedanib+ rifampicin) divided by nintedanib (in %)."|||53.286|46.886|1.0000
92308624|NCT04682730|184517435|SUPERIORITY||Odds Ratio (OR)|0.8|STANDARD_ERROR_OF_MEAN|0.13||0.18|TWO_SIDED|95.0|0.58|1.11|||Mixed Models Analysis|||||1.11|0.58|0.18
92308625|NCT04682730|184517437|OTHER|single intervention group across 16 clinics|mean total program costs in 2021 dollars|7845.0|STANDARD_DEVIATION|2.0|||TWO_SIDED|95.0|6378.0|9312.0|||||An opportunity cost approach was used. Costs estimated: Develop workbook- guideline, EHR data analyses, survey, evidence review- \& print; facilitator training/delivery/program tailoring; staff time; implemented strategies; dental sealant placements.|Mean Total Program costs per clinic for the KPNW Dental system.||9312|6378|
92308626|NCT04682730|184517441|OTHER|single intervention group across 16 clinics|mean total costs/per clinic per sealant|1321.0|STANDARD_DEVIATION|1245.0|||TWO_SIDED|95.0|845.0|3208.0|||||Total cost per sealant calculated as quotient of total intervention costs ($125,521) \& total sealants placed (95), is = to mean cost/sealant across each clinic ($7845/5.938).|Mean Total Program costs per sealant per clinic for the KPNW Dental system.||3208|845|
92189366|NCT03647709|184276816|OTHER||mean score|4.2|||||TWO_SIDED|95.0|4.0|4.4|||||Represents patients reported pain score post operative day 2 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||4.4|4.0|
92189367|NCT03647709|184276816|OTHER||mean score|5.9|||||TWO_SIDED|95.0|5.7|6.1|||||Represents patients reported pain score post operative day 2 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||6.1|5.7|
92189368|NCT03647709|184276816|OTHER||mean score|1.0|||||TWO_SIDED|95.0|0.8|1.2|||||Represents patients reported pain score post operative day 3 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||1.2|0.8|
92189369|NCT03647709|184276816|OTHER||mean score|2.4|||||TWO_SIDED|95.0|2.2|2.6|||||Represents patients reported pain score post operative day 3 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||2.6|2.2|
92308627|NCT04682730|184517443|OTHER|descriptive analysis|percentage|100.0|||||TWO_SIDED||||||||||89/89 treatment plans completed by the end of the period.|||
92308628|NCT00191113|184517478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||<|0.001||95.0|0.7|1.1|||ANCOVA|Model includes baseline height SDS, baseline age, treatment, and interactions. Age and interaction terms removed when not significant.|"Effect direction is As-Randomized Humatrope minus As-Randomized Control"|This component of the primary analysis is inferential i.e. to ascertain definitively whether Humatrope treatment affects change in Height SDS (NCHS). Null hypothesis is no effect of Humatrope treatment.||1.1|0.7|<0.001
92189370|NCT03647709|184276816|OTHER||mean score|3.3|||||TWO_SIDED|95.0|3.1|3.5|||||Represents patients reported pain score post operative day 3 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||3.5|3.1|
92189371|NCT03647709|184276816|OTHER||mean score|5.0|||||TWO_SIDED|95.0|4.8|5.2|||||Represents patients reported pain score post operative day 3 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||5.2|4.8|
92308629|NCT00191113|184517479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||<|0.001||95.0|0.9|1.2|||ANCOVA|Model includes baseline height SDS, baseline age, treatment, and interactions. Age and interactions terms removed when not significant.|"Effect direction is As-Treated Growth Hormone minus As-Treated No Growth Hormone"|Estimation analysis of the magnitude of effect of treatment with growth hormone upon Final Height. Null hypothesis is no effect of growth hormone upon attained height standard deviation score (National Center for Health Statistics).||1.2|0.9|<0.001
92308630|NCT00191113|184517480|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|||<|0.001||95.0|0.9|1.3|||ANCOVA|||||1.3|0.9|<0.001
92308631|NCT00191113|184517481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.9|||<|0.001||95.0|5.7|8.1|||ANCOVA|||||8.1|5.7|<0.001
92308632|NCT00191113|184517482|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Fisher Exact|||||||>0.999
92189372|NCT03647709|184276816|OTHER||mean score|0.5|||||TWO_SIDED|95.0|0.4|0.7|||||Represents patients reported pain score post operative days 10-14 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.7|0.4|
92308633|NCT00191113|184517483|SUPERIORITY_OR_OTHER|||||||0.744||95.0|||||Fisher Exact|||||||0.744
92308634|NCT00191113|184517484|SUPERIORITY_OR_OTHER|||||||0.073||95.0|||||Fisher Exact|||||||0.073
92308635|NCT00191113|184517485|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Fisher Exact|||Comparison of proportion of patients with any category of hearing loss between As-Treated Growth Hormone group and As-Treated No Growth Hormone.||||>0.999
92308636|NCT00191113|184517486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.492||||0.419||95.0|-8.631|3.646|||ANOVA||Direction of estimated treatment effect is Humatrope minus Control|||3.646|-8.631|0.419
92189373|NCT03647709|184276816|OTHER||mean score|2.1|||||TWO_SIDED|95.0|1.9|2.3|||||Represents patients reported pain score post operative days 10-14 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||2.3|1.9|
92308637|NCT00191113|184517488|SUPERIORITY_OR_OTHER|||||||0.545||95.0|||||Fisher Exact|||||||0.545
92189374|NCT03647709|184276816|OTHER||mean score|2.0|||||TWO_SIDED|95.0|1.8|2.2|||||Represents patients reported pain score post operative days 10-14 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||2.2|1.8|
92308638|NCT00191113|184517490|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Fisher Exact|||||||>0.999
92308639|NCT00191113|184517492|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Fisher Exact|||||||>0.999
92308640|NCT00191113|184517493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007||||0.945||95.0|-0.199|0.186|||ANOVA||Direction of estimated treatment effect is Humatrope minus Control|||0.186|-0.199|0.945
92308641|NCT00191113|184517495|SUPERIORITY_OR_OTHER|||||||||95.0||||P-value cannot be computed since no patients had abnormal result in either comparison group.|Fisher Exact|||||||
92308642|NCT01555671|184517500|OTHER||Mean Difference (Net)|30.0||||0.029|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.029
92308643|NCT00631657|184517503|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|48.7|||<|0.0001|TWO_SIDED|95.0|35.0|62.5|||ANCOVA||ANCOVA performed with fixed effects for treatment and (pooled) center as factors and baseline TST as covariate.|||62.5|35.0|<0.0001
92308644|NCT00631657|184517506|SUPERIORITY_OR_OTHER||Difference in LS Means|-4.9||||0.2145|TWO_SIDED|95.0|-12.6|2.8|||ANCOVA||ANCOVA performed with fixed effects for treatment and (pooled) center as factors and baseline SL as covariate.|||2.8|-12.6|0.2145
92308645|NCT00631657|184517507|SUPERIORITY_OR_OTHER||Difference in LS Means|-25.0|||<|0.0001|TWO_SIDED|95.0|-34.5|-15.4|||ANCOVA||ANCOVA performed with fixed effects for treatment and (pooled) center as factors and baseline WASO as covariate.|||-15.4|-34.5|<0.0001
92308646|NCT02563106|184517548|OTHER|The analysis of the primary endpoint was based on the mITT analysis set. Per-protocol and worse case analyses were performed as sensitivity analyses.The P-value was based on a one-sided z-test for the comparison of the treatment difference between the SYN-004 group and the Placebo group.|Relative Risk Reduction (%)|71.4||||0.045|TWO_SIDED|95.0|-35.9|94.0||Study was designed to provide 80% power to detect treatment effect with one-sided alpha = 0.05 on the primary endpoint. Based on the pre-specified z-test the one-sided P=0.045.|z-test|1-sided P=0.045.|Relative Risk Reduction in SYN-004 group compared to Placebo group.|The Modified Intent-to-Treat (mITT) analysis set included randomized subjects who received at least 1 dose of study drug. Number of subjects with CDI, imputing early termination without CDI as not being treatment failures.||94.0|-35.9|0.045
92308647|NCT04228783|184517571|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|0.9|||||TWO_SIDED|95.0|0.8|1.1||||||||1.1|0.8|
92308648|NCT04228783|184517571|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|0.9|||||TWO_SIDED|95.0|0.8|1.1||||||||1.1|0.8|
92308649|NCT04228783|184517571|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|1.0|||||TWO_SIDED|95.0|0.9|1.2||||||||1.2|0.9|
92308650|NCT04228783|184517572|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|1.0|||||TWO_SIDED|95.0|0.8|1.2||||||||1.2|0.8|
92308651|NCT04228783|184517572|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|1.0|||||TWO_SIDED|95.0|0.8|1.3||||||||1.3|0.8|
92308652|NCT04228783|184517572|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|1.0|||||TWO_SIDED|95.0|0.8|1.3||||||||1.3|0.8|
92308653|NCT00626392|184517578|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||No adjustments were made for multiple comparisons. P-values \<= 0.05 were reported as statistically significant.|Cochran-Mantel-Haenszel|||||||0.010
92308654|NCT03151811|184517593|SUPERIORITY|||||||0.0311|||||||Log Rank|||||||0.0311
92308655|NCT01081834|184517600|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.091|<|0.001|TWO_SIDED|95.0|-1.088|-0.729|||ANCOVA|||||-0.729|-1.088|<0.001
92308656|NCT01081834|184517600|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.091|<|0.001|TWO_SIDED|95.0|-1.342|-0.985|||ANCOVA|||||-0.985|-1.342|<0.001
92308657|NCT01081834|184517602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.34|||<|0.001|TWO_SIDED|95.0|3.1|9.23|||Regression, Logistic|||||9.23|3.10|<0.001
92308658|NCT01081834|184517602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.61|||<|0.001|TWO_SIDED|95.0|8.14|26.25|||Regression, Logistic|||||26.25|8.14|<0.001
92308659|NCT01081834|184517603|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-35.5|STANDARD_ERROR_OF_MEAN|3.42|<|0.001|TWO_SIDED|95.0|-42.22|-28.78|||ANCOVA|||||-28.78|-42.22|<0.001
92308660|NCT01081834|184517603|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-43.4|STANDARD_ERROR_OF_MEAN|3.402|<|0.001|TWO_SIDED|95.0|-50.06|-36.69|||ANCOVA|||||-36.69|-50.06|<0.001
92308661|NCT01081834|184517604|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-49.1|STANDARD_ERROR_OF_MEAN|5.629|<|0.001|TWO_SIDED|95.0|-59.12|-36.99|||ANCOVA|||||-36.99|-59.12|<0.001
92308662|NCT01081834|184517604|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-64.0|STANDARD_ERROR_OF_MEAN|5.616|<|0.001|TWO_SIDED|95.0|-75.02|-52.94|||ANCOVA|||||-52.94|-75.02|<0.001
92308663|NCT01081834|184517605|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.9|-1.6|||ANCOVA|||||-1.6|-2.9|<0.001
92308664|NCT01081834|184517605|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-4.0|-2.6|||ANCOVA|||||-2.6|-4.0|<0.001
92308665|NCT01081834|184517606|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.71|STANDARD_ERROR_OF_MEAN|1.093|<|0.001|TWO_SIDED|95.0|-5.86|-1.568|||ANCOVA|||||-1.568|-5.860|<0.001
92308666|NCT01081834|184517606|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.42|STANDARD_ERROR_OF_MEAN|1.088|<|0.001|TWO_SIDED|95.0|-7.556|-3.28|||ANCOVA|||||-3.280|-7.556|<0.001
92308667|NCT01081834|184517607|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|4.8||0.267|TWO_SIDED|95.0|-14.8|4.1|||ANCOVA|||||4.1|-14.8|0.267
92308668|NCT01081834|184517607|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-10.2|STANDARD_ERROR_OF_MEAN|4.8||0.034|TWO_SIDED|95.0|-19.6|-0.8|||ANCOVA|||||-0.8|-19.6|0.034
92308669|NCT01081834|184517608|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|2.9|10.6|||ANCOVA|||||10.6|2.9|<0.001
92308670|NCT01081834|184517608|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|1.9||0.002|TWO_SIDED|95.0|2.2|9.9|||ANCOVA|||||9.9|2.2|0.002
92308671|NCT02045147|184517629|OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|3.82||0.463|TWO_SIDED|95.0|-4.98|10.65|||t-test, 2 sided|||||10.65|-4.98|0.463
92308672|NCT02045147|184517629|OTHER||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|3.4||0.634|TWO_SIDED|95.0|-5.23|8.49|||t-test, 2 sided|||||8.49|-5.23|0.634
92308673|NCT02045147|184517629|OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|4.15||0.259|TWO_SIDED|95.0|-3.74|13.32|||t-test, 2 sided|||||13.32|-3.74|0.259
92308674|NCT02045147|184517629|OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|2.5||0.472|TWO_SIDED|95.0|-3.21|6.84|||t-test, 2 sided|||||6.84|-3.21|0.472
92308675|NCT02045147|184517630|OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|3.15||0.532|TWO_SIDED|95.0|-8.5|4.5|||t-test, 2 sided|||||4.5|-8.5|0.532
92308676|NCT02045147|184517630|OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|2.9||0.574|TWO_SIDED|95.0|-7.5|4.2|||t-test, 2 sided|||||4.2|-7.5|0.574
92308677|NCT02045147|184517630|OTHER||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|3.8||0.254|TWO_SIDED|95.0|-12.3|3.4|||t-test, 2 sided|||||3.4|-12.3|0.254
92308678|NCT02045147|184517630|OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|2.7||0.759|TWO_SIDED|95.0|-6.3|4.6|||t-test, 2 sided|||||4.6|-6.3|0.759
92308679|NCT02045147|184517631|OTHER||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|3.6||0.153|TWO_SIDED|95.0|-2.1|12.7|||t-test, 2 sided|||||12.7|-2.1|0.153
92308680|NCT02045147|184517631|OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|3.3||0.729|TWO_SIDED|95.0|-7.9|5.5|||t-test, 2 sided|||||5.5|-7.9|0.729
92308681|NCT02045147|184517631|OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|3.5||0.886|TWO_SIDED|95.0|-6.6|7.6|||t-test, 2 sided|||||7.6|-6.6|0.886
92308682|NCT02045147|184517631|OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|3.1||0.446|TWO_SIDED|95.0|-8.7|3.9|||t-test, 2 sided|||||3.9|-8.7|0.446
92308683|NCT02045147|184517632|OTHER||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|4.1||0.521|TWO_SIDED|95.0|-5.7|11.1|||t-test, 2 sided|||||11.1|-5.7|0.521
92308684|NCT02045147|184517632|OTHER||Mean Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|2.7||0.146|TWO_SIDED|95.0|-1.5|9.5|||t-test, 2 sided|||||9.5|-1.5|0.146
92308685|NCT02045147|184517632|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|4.3||0.926|TWO_SIDED|95.0|-8.5|9.3|||t-test, 2 sided|||||9.3|-8.5|0.926
92308686|NCT02045147|184517632|OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|2.4||0.526|TWO_SIDED|95.0|-6.4|3.3|||t-test, 2 sided|||||3.3|-6.4|0.526
92308687|NCT02045147|184517633|OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|3.9||0.776|TWO_SIDED|95.0|-9.2|6.9|||t-test, 2 sided|||||6.9|-9.2|0.776
92308688|NCT02045147|184517633|OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|3.3||0.135|TWO_SIDED|95.0|-1.6|11.7|||t-test, 2 sided|||||11.7|-1.6|0.135
92308689|NCT02045147|184517633|OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|4.1||0.556|TWO_SIDED|95.0|-10.9|6.0|||t-test, 2 sided|||||6.0|-10.9|0.556
92308690|NCT02045147|184517633|OTHER||Mean Difference (Final Values)|2.5|STANDARD_ERROR_OF_MEAN|2.7||0.361|TWO_SIDED|95.0|-2.9|7.9|||t-test, 2 sided|||||7.9|-2.9|0.361
92308691|NCT02045147|184517634|OTHER||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|4.4||0.564|TWO_SIDED|95.0|-6.4|11.6|||t-test, 2 sided|||||11.6|-6.4|0.564
92308692|NCT02045147|184517634|OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|3.1||0.307|TWO_SIDED|95.0|-3.0|9.3|||t-test, 2 sided|||||9.3|-3.0|0.307
92308693|NCT02045147|184517634|OTHER||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|3.8||0.768|TWO_SIDED|95.0|-6.7|8.9|||t-test, 2 sided|||||8.9|-6.7|0.768
92308694|NCT02045147|184517634|OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|2.4||0.785|TWO_SIDED|95.0|-4.2|5.5|||t-test, 2 sided|||||5.5|-4.2|0.785
92308695|NCT02045147|184517635|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|3.5||0.917|TWO_SIDED|95.0|-7.5|6.8|||t-test, 2 sided|||||6.8|-7.5|0.917
92308696|NCT02045147|184517635|OTHER||Mean Difference (Final Values)|4.6|STANDARD_ERROR_OF_MEAN|3.3||0.181|TWO_SIDED|95.0|-2.2|11.3|||t-test, 2 sided|||||11.3|-2.2|0.181
92308697|NCT02045147|184517635|OTHER||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|3.6||0.772|TWO_SIDED|95.0|-6.3|8.3|||t-test, 2 sided|||||8.3|-6.3|0.772
92308698|NCT02045147|184517635|OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|2.8||0.526|TWO_SIDED|95.0|-3.8|7.3|||t-test, 2 sided|||||7.3|-3.8|0.526
92308699|NCT02045147|184517636|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.42||0.872|TWO_SIDED|95.0|-0.8|0.9|||t-test, 2 sided|||||.9|-.8|0.872
92308700|NCT02045147|184517636|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.387|TWO_SIDED|95.0|-0.87|0.34|||t-test, 2 sided|||||.34|-.87|0.387
92308701|NCT02045147|184517636|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.38||0.916|TWO_SIDED|95.0|-0.37|0.81|||t-test, 2 sided|||||.81|-.37|0.916
92308702|NCT02045147|184517636|OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.28||0.189|TWO_SIDED|95.0|-0.19|0.94|||t-test, 2 sided|||||.94|-.19|0.189
92308703|NCT02045147|184517637|OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.627|TWO_SIDED|95.0|-0.21|0.13|||t-test, 2 sided|||||.13|-.21|0.627
92308704|NCT02045147|184517637|OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.84|TWO_SIDED|95.0|-0.11|0.09|||t-test, 2 sided|||||.09|-.11|0.840
92308705|NCT02045147|184517637|OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.049|TWO_SIDED|95.0|-0.22|0.0|||t-test, 2 sided|||||-.00|-.22|0.049
92308706|NCT02045147|184517637|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.952|TWO_SIDED|95.0|-0.06|0.06|||t-test, 2 sided|||||.06|-.06|0.952
92308707|NCT02045147|184517638|OTHER||Mean Difference (Final Values)|6.9||||0.436|TWO_SIDED|95.0|-11.07|25.0|||t-test, 2 sided|||||25.00|-11.07|.436
92308708|NCT02045147|184517638|OTHER||Mean Difference (Final Values)|-11.8|STANDARD_ERROR_OF_MEAN|6.71||0.088|TWO_SIDED|95.0|-25.24|1.8|||t-test, 2 sided|||||1.80|-25.24|.088
92308709|NCT02045147|184517638|OTHER||Median Difference (Final Values)|-10.5|STANDARD_ERROR_OF_MEAN|7.45||0.169|TWO_SIDED|95.0|-25.86|4.77|||t-test, 2 sided|||||4.77|-25.86|0.169
92308710|NCT02045147|184517638|OTHER||Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|4.52||0.416|TWO_SIDED|95.0|-12.79|5.37|||t-test, 2 sided|||||5.37|-12.79|0.416
92308711|NCT00049530|184517644|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||bionomial proportion test|||It is of interest to test the null hypothesis of 10% plasma b-FGF response rate versus the alternative hypothesis of 30% response rate. Based on the sample size of 30 eligible patients, there will be 84% power to detect this 20% difference in b-FGF response rates. This was based on a two-sided type I error of .05, using the one-sample binomial test.||||<0.001
92308712|NCT04314648|184517655|SUPERIORITY||Odds Ratio (OR)|6.26|||<|0.001|TWO_SIDED|95.0|2.38|16.48|||Regression, Logistic|||||16.48|2.38|<.001
92308713|NCT04314648|184517656|SUPERIORITY||Odds Ratio, log|5.76|||<|0.01|TWO_SIDED|95.0|1.86|17.86|||Regression, Logistic|||||17.86|1.86|<.01
92308714|NCT04314648|184517657|SUPERIORITY||Odds Ratio (OR)|0.74||||0.64|TWO_SIDED|95.0|0.21|2.64|||Regression, Logistic||Main effects of the intervention on this outcome were compared between arms by fitting follow-up values to a logistic regression model, adjusted for baseline use.|||2.64|.21|.64
92308715|NCT04314648|184517658|SUPERIORITY||Odds Ratio (OR)|2.67||||0.35|TWO_SIDED|95.0|0.35|20.51|||Regression, Logistic||Main effects of the intervention on this outcome were compared between arms by fitting follow-up values to a logistic regression model, adjusted for baseline use.|||20.51|.35|.35
92308716|NCT04314648|184517659|SUPERIORITY||Mean Difference (Net)|-1.85|STANDARD_ERROR_OF_MEAN|2.32||0.43|TWO_SIDED||||||Regression, Linear||Main effects of the intervention on this outcome were compared between arms by fitting follow-up values to a linear regression model, adjusted for baseline use.|||||.43
92308717|NCT04314648|184517660|SUPERIORITY||Mean Difference (Net)|2.35|STANDARD_ERROR_OF_MEAN|3.0||0.44|TWO_SIDED||||||Regression, Linear||Main effects of the intervention on this outcome were compared between arms by fitting follow-up values to a liner regression model, adjusted for baseline use.|||||.44
92308718|NCT04314648|184517661|SUPERIORITY||Odds Ratio (OR)|1.19||||0.77|TWO_SIDED|95.0|0.39|3.62|||Regression, Logistic|||||3.62|.39|.77
92308719|NCT00492024|184517681|SUPERIORITY_OR_OTHER|||||||0.189||95.0||||P-value is adjusted for study center; p-value applies to percentage of subjects with success (clinical cure)|Cochran-Mantel-Haenszel|Adjusted for study center||Null hypothesis is that the success rate for moxifloxacin = the success rate for placebo||||0.189
92308720|NCT00492024|184517686|SUPERIORITY_OR_OTHER|||||||0.075||95.0||||p-value adjusted for study center; p-value applies to percentage of subjects with success (clinical cure)|Cochran-Mantel-Haenszel|adjusted for study center||Null hypothesis is that the success rate for moxifloxacin = the success rate for placebo||||0.075
92308721|NCT00926783|184517730|SUPERIORITY_OR_OTHER|||||||0.048||||||The p-value was based on Fisher's exact test. There were no adjustments for multiple comparisons.|Fisher Exact|||The null hypothesis is that rates of free from atrial arrhythmia for the two arms, Targeted and Generalized, are the same. The alternative hypothesis is that the rates are not the same. Due to the lack of literature data comparing these endpoints between two randomization groups, the sample size is not statistically powered to support statistical inferences.||||0.048
92308722|NCT00926783|184517731|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||The null hypothesis is that the total RF delivery times for both arms are equal. The alternative hypothesis is that the total RF delivery times are not equal. Due to the lack of literature data comparing these endpoints between two randomization groups, the sample size is not statistically powered to support statistical inferences.||||0.002
92308723|NCT00696787|184517736|SUPERIORITY_OR_OTHER||Adjusted mean|-0.38||||0.471|TWO_SIDED|95.0|-1.42|0.66|||ANCOVA|||||0.66|-1.42|0.471
92308724|NCT00696787|184517736|SUPERIORITY_OR_OTHER||Adjusted mean|-0.28||||0.604|TWO_SIDED|95.0|-1.33|0.77|||ANCOVA|||||0.77|-1.33|0.604
92308725|NCT00696787|184517737|SUPERIORITY_OR_OTHER||Adjusted mean|-0.35||||0.51|TWO_SIDED|95.0|-1.42|0.71|||ANCOVA|||||0.71|-1.42|0.510
92308726|NCT00696787|184517737|SUPERIORITY_OR_OTHER||Adjusted mean|-0.55||||0.317|TWO_SIDED|95.0|-1.64|0.54|||ANCOVA|||||0.54|-1.64|0.317
92308727|NCT01346293|184517738|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% Confidence intervals (CIs) of the difference (DTaP-IPV minus DAPTACEL® + IPOL®) in post-vaccination booster response rates for Anti-Pertussis toxoid antigen between groups were \> -10%.|Mean Difference (Final Values)|5.4|||||TWO_SIDED|95.0|0.7|10.2||||||Non-inferiority comparison of post-vaccination anti-pertussis booster response rates in the Per-protocol Analysis Set. The hypothesis was based on testing the difference between 2 proportion parameters.||10.2|0.7|
92308728|NCT01346293|184517738|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the difference (DTaP-IPV minus DAPTACEL® + IPOL®) in post-vaccination booster response rates for Anti-Filamentous Haemagglutinin between groups were \> -10%.|Mean Difference (Final Values)|7.4|||||TWO_SIDED|95.0|2.5|21.5||||||Non-inferiority comparison of post-vaccination anti-pertussis booster response rates in the Per-protocol Analysis Set. The hypothesis was based on testing the difference between 2 proportion parameters.||21.5|2.5|
92308729|NCT01346293|184517738|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the difference (DTaP-IPV minus DAPTACEL® + IPOL®) in post-vaccination booster response rates for the Pertactin antigens between groups were \> -10%.|Mean Difference (Final Values)|3.7|||||TWO_SIDED|3.7|-0.2|7.9||||||Non-inferiority comparison of post-vaccination anti-pertussis booster response rates in the Per-protocol Analysis Set. The hypothesis was based on testing the difference between 2 proportion parameters.||7.9|-0.2|
92308730|NCT01346293|184517738|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the difference (DTaP-IPV minus DAPTACEL® + IPOL®) in post-vaccination booster response rates for Fimbriae types 2 and 3 antigens between groups were \> -10%.|Mean Difference (Final Values)|4.8|||||TWO_SIDED|95.0|0.9|9.1||||||Non-inferiority comparison of post-vaccination anti-pertussis booster response rates in the Per-protocol Analysis Set. The hypothesis was based on testing the difference between 2 proportion parameters.||9.1|0.9|
92308731|NCT01346293|184517739|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the ratio (DTaP-IPV / DAPTACEL® + IPOL®) in post-vaccination GMCs for the Pertussis Toxoid antigens between groups were \> 2/3.|Mean Difference (Final Values)|1.97|||||TWO_SIDED|95.0|1.68|2.31||||||Hypothesis was based on testing the ratio between the 2 post-vaccination GMCs (GMCQ / GMCD) for each Pertussis antigen and their 2-sided 95% Confidence Intervals.||2.31|1.68|
92308732|NCT01346293|184517739|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the ratio (DTaP-IPV / DAPTACEL® + IPOL®) in post-vaccination GMCs for the Filamentous Haemagglutinin antigens between groups were \> 2/3.|Mean Difference (Final Values)|1.56|||||TWO_SIDED|95.0|1.3|1.88||||||Hypothesis was based on testing the ratio between the 2 post-vaccination GMCs (GMCQ / GMCD) for each pertussis antigen and their 2-sided 95% Confidence Intervals.||1.88|1.30|
92308733|NCT01346293|184517739|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the ratio (DTaP-IPV / DAPTACEL® + IPOL®) in post-vaccination GMCs for the Pertactin antigens between groups were \> 2/3.|Mean Difference (Final Values)|1.51|||||TWO_SIDED|95.0|1.27|1.79||||||Hypothesis was based on testing the ratio between the 2 post-vaccination GMCs (GMCQ / GMCD) for each pertussis antigen and their 2-sided 95% Confidence Intervals.||1.79|1.27|
92308734|NCT01346293|184517739|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the ratio (DTaP-IPV / DAPTACEL® + IPOL® ) in post-vaccination GMCs for the Fimbriae types 2 and 3 antigens between groups were \> 2/3.|Mean Difference (Final Values)|1.33|||||TWO_SIDED|95.0|1.12|1.6||||||Hypothesis was based on testing the ratio between the 2 post-vaccination GMCs (GMCQ / GMCD) for each pertussis antigen and their 2-sided 95% Confidence Intervals.||1.60|1.12|
92308735|NCT01844505|184517749|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|99.5|0.43|0.76|||Stratified Log Rank test||Stratified Cox proportional hazard model. Ratio of Nivolumab over Ipimlimumab.|||0.76|0.43|<0.0001
92189375|NCT03647709|184276816|OTHER||mean score|4.0|||||TWO_SIDED|95.0|3.8|4.2|||||Represents patients reported pain score post operative days 10-14 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||4.2|3.8|
92308736|NCT01844505|184517749|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|99.5|0.31|0.57|||Stratified Log Rank test||Stratified Cox proportional hazard model. Ratio of Nivolumab+Ipilimumab over Ipilimumab.|||0.57|0.31|<0.0001
92308737|NCT01844505|184517750|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|98.0|0.5|0.78|||Log Rank|Log-rank Test stratified by PD-L1 status, BRAF status, and M stage at screening as entered into the Interactive Voice Response System (IVRS).|Stratified Cox proportional hazard model. Ratio of Nivolumab over Ipilimumab|||0.78|0.50|<0.0001
92308738|NCT01844505|184517750|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.55|||<|0.0001|TWO_SIDED|98.0|0.42|0.72|||Log Rank|Log-rank Test stratified by PD-L1 status, BRAF status, and M stage at screening as entered into the IVRS.|Stratified Cox proportional hazard model. Ratio of Nivolumab+Ipilimumab over Ipilimumab.|||0.72|0.42|<0.0001
92308739|NCT01844505|184517753|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.65|0.96|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab.|||0.96|0.65|
92308740|NCT01844505|184517754|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.69|1.05|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab.|||1.05|0.69|
92308741|NCT01844505|184517755|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.59|||<|0.0001|TWO_SIDED|95.0|2.49|5.16|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel Test Stratified by PD-L1 Status, BRAF Status and M stage at screening as entered into the IVRS. Ratio of Nivolumab over Ipilimumab.|||5.16|2.49|<0.0001
92308742|NCT01844505|184517755|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.35|||<|0.0001|TWO_SIDED|95.0|4.38|9.22|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel Test Stratified by PD-L1 Status, BRAF Status and M stage at screening as entered into the IVRS. Ratio of Nivolumab + Ipilimumab over Ipilimumab.|||9.22|4.38|<0.0001
92189376|NCT03647709|184276816|OTHER||mean score|0.3|||||TWO_SIDED|95.0|0.2|0.4|||||Represents patients reported pain score post operative week 3 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.4|0.2|
92189377|NCT03647709|184276816|OTHER||mean score|1.5|||||TWO_SIDED|95.0|1.3|1.7|||||Represents patients reported pain score post operative week 3 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||1.7|1.3|
92308743|NCT01844505|184517755|SUPERIORITY_OR_OTHER_LEGACY||Difference of Objective Response Rates|26.0|||||TWO_SIDED|95.0|19.1|32.8|||||Difference in ORR and corresponding 95% CI is based on Cochran-Mantel-Haenszel (CMH) method of weighting, adjusting for PD-L1 Status, BRAF Mutation Status and M-stage at screening as entered into the IVRS. Difference of Nivolumab - Ipilimumab.|||32.8|19.1|
92308744|NCT01844505|184517755|SUPERIORITY_OR_OTHER_LEGACY||Difference of Objective Response Rates|39.0|||||TWO_SIDED|95.0|32.2|45.9|||||Difference in ORR and corresponding 95% CI is based on CMH method of weighting, adjusting for PD-L1 Status, BRAF Mutation Status and M-stage at screening as entered into the IVRS. Difference of Nivolumab and Ipilimumab - Ipilimumab.|||45.9|32.2|
92308745|NCT01844505|184517755|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.75|||||TWO_SIDED|95.0|1.26|2.42|||||Cochran-Mantel-Haenszel Test Stratified by PD-L1 Status, BRAF Status and M stage at screening as entered into the IVRS. Ratio of Nivolumab + Ipilimumab over Nivolumab|||2.42|1.26|
92308746|NCT01844505|184517755|SUPERIORITY_OR_OTHER_LEGACY||Difference of Objective Response Rates|13.2|||||TWO_SIDED|95.0|5.7|20.7|||||Difference in ORR and corresponding 95% CI is based on CMH method of weighting, adjusting for PD-L1 Status, BRAF Mutation Status and M-stage at screening as entered into the IVRS. Difference of Nivolumab and Ipilimumab - Nivolumab.|||20.7|5.7|
92308747|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.46|0.85|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 1%|||0.85|0.46|
92308748|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.39|||||TWO_SIDED|95.0|0.28|0.54|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 1%|||0.54|0.28|
92308749|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.45|0.87|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 1%|||0.87|0.45|
92308750|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.34|0.59|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 1%|||0.59|0.34|
92308751|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.3|0.53|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 1%|||0.53|0.30|
92308752|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.66|1.21|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 1%|||1.21|0.66|
92308753|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.45|0.71|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 5%|||0.71|0.45|
92308754|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.42|||||TWO_SIDED|95.0|0.33|0.53|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 5%|||0.53|0.33|
92308755|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.57|0.94|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 5%|||0.94|0.57|
92308756|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.27|0.6|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 5%|||0.60|0.27|
92308757|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.22|0.54|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 5%|||0.54|0.22|
92308758|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.54|1.38|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 5%|||1.38|0.54|
92308759|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.43|0.67|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 10%|||0.67|0.43|
92308760|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.43|||||TWO_SIDED|95.0|0.34|0.54|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 10%|||0.54|0.34|
92189378|NCT03647709|184276816|OTHER||mean score|1.3|||||TWO_SIDED|95.0|1.2|1.5|||||Represents patients reported pain score post operative week 3 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||1.5|1.2|
92308761|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.63|1.01|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 10%|||1.01|0.63|
92308762|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.28|0.73|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 10%|||0.73|0.28|
92308763|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.28|||||TWO_SIDED|95.0|0.16|0.49|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 10%|||0.49|0.16|
92308764|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.34|1.09|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 10%|||1.09|0.34|
92308765|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.49|1.52|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression not evaluable at baseline|||1.52|0.49|
92308766|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.3|0.89|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression not evaluable at baseline|||0.89|0.30|
92308767|NCT01844505|184517756|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.33|1.09|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression not evaluable at baseline|||1.09|0.33|
92308768|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.57|1.05|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 1%|||1.05|0.57|
92308769|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.43|0.81|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 1%|||0.81|0.43|
92308770|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||||95.0|0.55|1.04|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 1%|||1.04|0.55|
92308771|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.39|0.68|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 1%|||0.68|0.39|
92308772|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.38|0.67|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 1%|||0.67|0.38|
92308773|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.72|1.31|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 1%|||1.31|0.72|
92308774|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.49|0.78|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 5%|||0.78|0.49|
92308775|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.41|0.66|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 5%|||0.66|0.41|
92308776|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.66|1.08|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 5%|||1.08|0.66|
92308777|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.41|0.91|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 5%|||0.91|0.41|
92308778|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.38|0.91|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 5%|||0.91|0.38|
92189379|NCT03647709|184276816|OTHER||mean score|3.1|||||TWO_SIDED|95.0|2.9|3.3|||||Represents patients reported pain score post operative week 3 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||3.3|2.9|
92308779|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.62|1.53|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 5%|||1.53|0.62|
92308780|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.48|0.75|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 10%|||0.75|0.48|
92308781|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.43|0.68|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 10%|||0.68|0.43|
92308782|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.71|1.14|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 10%|||1.14|0.71|
92308783|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.44|1.1|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 10%|||1.10|0.44|
92308784|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.32|0.91|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 10%|||0.91|0.32|
92308785|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.45|1.32|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 10%|||1.32|0.45|
92308786|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.37|1.34|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression not evaluable at baseline|||1.34|0.37|
92308787|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.48|||||TWO_SIDED|95.0|0.26|0.91|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression not evaluable at baseline|||0.91|0.26|
92308788|NCT01844505|184517757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.34|1.39|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression not evaluable at baseline|||1.39|0.34|
92189380|NCT03647709|184276816|OTHER||mean score|0.1|||||TWO_SIDED|95.0|0.0|0.2|||||Represents patients reported pain score post operative week 6 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.2|0.0|
92308789|NCT02730351|184517764|OTHER||Mean Difference (Final Values)|-1.69||||0.109|TWO_SIDED|95.0|-3.76|0.39||Mixed model repeated measures analysis adjusted for fixed effects of treatment, sex, age, treatment period, smoking history, period Baseline FEV1 and the mean of the two period Baseline FEV1 values. Subject is fitted as a random effect.|Mixed Models Analysis|||||0.39|-3.76|0.109
92308790|NCT02730351|184517765|OTHER||Mean Difference (Final Values)|-2.15||||0.051|TWO_SIDED|95.0|-4.31|0.01||Mixed model repeated measures analysis adjusted for fixed effects of treatment, sex, age, treatment period, smoking history, period Baseline FEV1 and the mean of the two period Baseline FEV1 values. Subject is fitted as a random effect.|Mixed Models Analysis|||||0.01|-4.31|0.051
92308791|NCT02730351|184517766|OTHER||Odds Ratio (OR)|1.34||||0.266|TWO_SIDED|95.0|0.8|2.26||Repeated measures logistic regression model with parameters estimated using the Generalized Estimating Equation method. Covariates of treatment, sex, age, treatment period, and period baseline FEV1 were included.|Regression, Logistic||12 hrs: modeling the odds of having FEV1 \>/=95% of pre exercise FEV1 at each of the two time points.|||2.26|0.80|0.266
92308792|NCT02730351|184517766|OTHER||Odds Ratio (OR)|1.37||||0.322|TWO_SIDED|95.0|0.73|2.58||Repeated measures logistic regression model with parameters estimated using the Generalized Estimating Equation method|Regression, Logistic||23 hrs: modeling the odds of having FEV1 \>/=95% of pre exercise FEV1 at each of the two time points.|||2.58|0.73|0.322
92308793|NCT02730351|184517767|OTHER||Mean Difference (Final Values)|-0.65||||0.342|TWO_SIDED|95.0|-2.01|0.71||Mixed model repeated measures analysis adjusted for fixed effects of treatment, sex, age, treatment period, smoking history, period Baseline FEV1 and the mean of the two period Baseline FEV1 values. Subject is fitted as a random effect.|Mixed Models Analysis||12 hrs post-dose|||0.71|-2.01|0.342
92308794|NCT02730351|184517767|OTHER||Mean Difference (Final Values)|-1.75||||0.041|TWO_SIDED|95.0|-3.42|-0.07||Mixed model repeated measures analysis adjusted for fixed effects of treatment, sex, age, treatment period, smoking history, period Baseline FEV1 and the mean of the two period Baseline FEV1 values.|Mixed Models Analysis||23 hrs post-dose|||-0.07|-3.42|0.041
92308795|NCT00311402|184517778|NON_INFERIORITY_OR_EQUIVALENCE|The non-event rates after 1 year in the Aggrenox group and ASA group are estimated at 94.0% and 91.5%, respectively. The non-inferiority margin was set to 2%. Under these conditions, 500 patients per group were supposed to be enough to detect the non-inferiority of Aggrenox with over 80% power.|Cox Proportional Hazard|1.47||||0.097||95.0|0.93|2.31|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||2.31|0.93|0.097
92308796|NCT00311402|184517779|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.79||||0.223||95.0|0.7|4.54|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||4.54|0.70|0.223
92308797|NCT00311402|184517780|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.0||||0.998|ONE_SIDED|95.0|0.0||||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.|||0|0.998
92308798|NCT00311402|184517781|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.02||||0.977||95.0|0.21|5.07|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||5.07|0.21|0.977
92308799|NCT00311402|184517782|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.58||||0.192||95.0|0.26|1.31|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||1.31|0.26|0.192
92308800|NCT00311402|184517783|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.88||||0.215||95.0|0.69|5.07|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||5.07|0.69|0.215
92308801|NCT00311402|184517784|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.16||||0.443||95.0|0.79|1.69|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||1.69|0.79|0.443
92308802|NCT00311402|184517785|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.52||||0.043||95.0|1.01|2.29|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||2.29|1.01|0.043
92308803|NCT00311402|184517786|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.04||||0.919||95.0|0.48|2.25|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||2.25|0.48|0.919
92308804|NCT00311402|184517787|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.34||||0.101||95.0|0.94|1.91|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||1.91|0.94|0.101
92308805|NCT02640053|184517788|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
92189381|NCT03647709|184276816|OTHER||mean score|0.7|||||TWO_SIDED|95.0|0.5|0.8|||||Represents patients reported pain score post operative week 6 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.8|0.5|
92189382|NCT03647709|184276816|OTHER||mean score|0.5|||||TWO_SIDED|95.0|0.4|0.6|||||Represents patients reported pain score post operative week 6 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.6|0.4|
92308806|NCT02640053|184517789|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
92308807|NCT02640053|184517790|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
92308808|NCT02640053|184517791|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92308809|NCT02640053|184517792|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
92308810|NCT02640053|184517793|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
92308811|NCT02640053|184517794|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||||||0.62
92308812|NCT02640053|184517795|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||||||0.67
92189383|NCT03647709|184276816|OTHER||mean score|1.9|||||TWO_SIDED|95.0|1.7|2.0|||||Represents patients reported pain score post operative week 6 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||2.0|1.7|
92308813|NCT01798316|184517810|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
92308814|NCT01158573|184517841|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Hypothesis that leptin levels in OA is not different from the other 3 groups.|ANOVA|||||||<0.0001
92308815|NCT01158573|184517842|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANOVA|||||||0.002
92308816|NCT01158573|184517843|SUPERIORITY_OR_OTHER|||||||0.725|||||||ANOVA|||||||0.725
92308817|NCT01158573|184517844|SUPERIORITY_OR_OTHER|||||||0.16|||||||ANOVA|||||||0.16
92308818|NCT02980874|184517849|SUPERIORITY||Difference in percentages|-6.1||||0.187|TWO_SIDED|95.0|-15.2|3.0||The a priori threshold for statistical significance was 0.050. Prior to evaluating the results of the CMH test, a Breslow-Day test with Tarone's adjustment was conducted to confirm the homogeneity of the odds ratios between RVO strata.|Cochran-Mantel-Haenszel|The CMH test was stratified by the type of retinal vein occlusion, i.e., branch vs. central.|Estimated value was calculated as the percentage of subjects in the Active arm meeting the primary endpoint minus the percentage of subjects in the Control arm meeting the primary endpoint.|Based on a Pearson chi-square test, a total sample size of approximately 460 subjects provided 90% power to detect a difference of 15% between the Active and Control arms assuming the Control arm showed a proportion of 0.50 at 8 weeks. The primary analysis was a test of superiority of the Active arm over the Control arm, and was based on a Cochran-Mantel-Haenszel chi-square test stratified by type of retinal vein occlusion.||3.0|-15.2|0.187
92308819|NCT00513682|184517852|SUPERIORITY_OR_OTHER|||||||0.0013||95.0|||||t-test, 1 sided|||||||0.0013
92308820|NCT00513682|184517853|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||t-test, 1 sided|||||||0.0009
92308821|NCT02450526|184517854|SUPERIORITY|The model includes treatment group, stratification factors, gender and baseline severity score of glabellar lines at maximum frown measured by the ILA, and centre as explanatory variables and responder (Yes or No) as response variable.|Treatment difference|94.3|||<|0.0001|TWO_SIDED|95.0|90.8|97.7||The test is two-sided at the significance level of 0.025.|Regression, Logistic|||Superiority analysis of Dysport® to placebo was tested using a multivariate logistic regression model.||97.7|90.8|<0.0001
92308822|NCT02450526|184517855|SUPERIORITY|The model includes treatment group, stratification factors, gender and baseline severity score of glabellar lines at maximum frown measured by the ILA, and centre as explanatory variables and responder (Yes or No) as response variable.|Treatment difference|87.5|||<|0.0001|TWO_SIDED|95.0|82.5|92.4||The test is two-sided at the significance level of 0.025.|Regression, Logistic|||Superiority analysis of Dysport® to placebo was tested using a multivariate logistic regression model.||92.4|82.5|<0.0001
92308823|NCT02450526|184517856|NON_INFERIORITY|The model includes treatment group, stratification factors, gender and baseline severity score of glabellar lines at maximum frown measured by the ILA, and centre as explanatory variables and responder (Yes or No) as response variable.|Treatment Difference|-2.4|||||TWO_SIDED|95.0|-6.7|1.9||||||The non-inferiority of Dysport® to Botox on the ILA at maximum frown was tested using a multivariate logistic regression model||1.9|-6.7|
92308824|NCT02450526|184517857|SUPERIORITY|The model includes treatment group, stratification factors, gender and baseline severity score of glabellar lines at maximum frown measured by the ILA and centre as explanatory variables and responder (Yes or No) as response variable.|Treatment difference|73.8|||<|0.0001|TWO_SIDED|95.0|59.1|88.4|||Regression, Logistic|||Superiority analysis of Dysport® to placebo was tested using a multivariate logistic regression model.||88.4|59.1|<0.0001
92308825|NCT02450526|184517858|SUPERIORITY|The comparison between mean scores of SGA at Treatment Cycle 1, Day 29 is based on 2 separate linear mixed models, adjusting on the two stratification parameters, gender and baseline ILA severity score, and the centre.|Treatment Difference|2.603|||<|0.0001|TWO_SIDED|95.0|2.327|2.878||The test was two-sided at the significance level of 0.05|Mixed Models Analysis|||Superiority analysis of Dysport® to placebo was tested using a linear mixed model.||2.878|2.327|<0.0001
92308826|NCT02450526|184517859|SUPERIORITY|The model includes treatment group, stratification factors, gender and baseline severity score of glabellar lines at maximum frown measured by the ILA, and centre as explanatory variables and responder (Yes or No) as response variable.|Treatment difference|83.7|||<|0.0001|TWO_SIDED|95.0|78.7|88.7|||Regression, Logistic|||Superiority analysis of Dysport® to placebo was tested using a multivariate logistic regression model.||88.7|78.7|<0.0001
92308827|NCT03564444|184517894|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.7|1.9||||||||1.9|-6.7|
92308828|NCT03246646|184517900|SUPERIORITY||Z test of proportions|0.66|||>|0.05|ONE_SIDED||||||Z test of independent proportions|||||||>.05
92308829|NCT02569112|184517901|SUPERIORITY|A significant improvement in skin laxity reduction is defined as a mean average increase in grade of 1 as per the GAIS.|||||<|0.01|||||||Wilcoxon (Mann-Whitney)|Used Wilcoxon Matched-Pairs Signed-Ranks test||The null hypothesis was that the addition of the multipolar radiofrequency with varipulse technology treatment to the cryolipolysis treatment would not show visual improvement.||||<0.01
92308830|NCT00758680|184517903|SUPERIORITY_OR_OTHER||LS Mean Difference on Last Dosing Day|37.63||||0.015|TWO_SIDED|95.0|12.58|62.68|||Mixed Effect Model|||||62.68|12.58|0.015
92308831|NCT00758680|184517903|SUPERIORITY_OR_OTHER||LS Mean Difference on Last Dosing Day|92.3|||<|0.001|TWO_SIDED|95.0|67.56|117.04|||Mixed Effect Model|||||117.04|67.56|<0.001
92308832|NCT00319982|184517905|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED|||||Adjusted for age, sex, genotype, family relations, and baseline value. p\<0.05 considered statistically significant.|Generalized estimating equation|Generalized estimating equation approach accounting for an exchangeable correlation structure within families||Change in E' Velocity comparing baseline and final study visits||||0.75
92308833|NCT00319982|184517906|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Fisher Exact|||Adverse Events||||0.99
92308834|NCT00319982|184517907|SUPERIORITY_OR_OTHER||||||>|0.06|TWO_SIDED|||||Adjusted for age, sex, genotype, family relations, and baseline value. p\<0.05 considered statistically significant.|Generalized Estimating Equation|Generalized estimating equation approach accounting for an exchangeable correlation structure within families||||||>0.06
92308835|NCT00319982|184517908|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Adjusted for age, sex, genotype, family relations, and baseline value|Generalized Estimating Equation|Generalized estimating equation approach accounting for an exchangeable correlation structure within families||Change in LV End-Diastolic Diameter z-score from baseline to final visit||||<0.001
92308836|NCT00319982|184517910|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Percentage adherent to study medication||||0.08
92308837|NCT00319982|184517911|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|||||Adjusted for age, sex, genotype, family relations, and baseline value|Generalized estimating equation|Generalized estimating equation approach accounting for an exchangeable correlation structure within families||||||0.15
92308838|NCT03480386|184517914|SUPERIORITY|||||||0.0788|||||||t-test, 2 sided|||Daily Light Physical Activity||||0.0788
92308839|NCT03480386|184517914|SUPERIORITY|||||||0.0742|||||||t-test, 2 sided|||Daily Moderate Physical Activity||||0.0742
92308840|NCT03480386|184517915|SUPERIORITY|||||||0.0113|||||||t-test, 2 sided|||||||0.0113
92308841|NCT03480386|184517916|SUPERIORITY|||||||0.0021|||||||t-test, 2 sided|||||||0.0021
92308842|NCT03480386|184517917|SUPERIORITY|||||||0.2216|||||||t-test, 2 sided|||||||0.2216
92308843|NCT03480386|184517918|SUPERIORITY|||||||0.4762|||||||t-test, 2 sided|||||||0.4762
92308844|NCT03480386|184517919|SUPERIORITY|||||||0.0068|||||||t-test, 2 sided|||||||0.0068
92308845|NCT03480386|184517920|SUPERIORITY|||||||0.1548|||||||t-test, 2 sided|||||||0.1548
92308846|NCT00070499|184517923|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073||95.0|||||Fisher Exact|||||||0.073
92308847|NCT00070499|184517923|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||95.0|||||Fisher Exact|||||||0.31
92308848|NCT00070499|184517925|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||95.0|||||Log Rank|||Log-rank test of overall survival||||0.29
92308849|NCT00070499|184517925|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0|||||Log Rank|||Log-rank test of overall survival||||0.55
92308850|NCT00070499|184517926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.074||95.0|||||Log Rank|||Log-rank test of relapse-free survival||||0.074
92308851|NCT00070499|184517926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||95.0|||||Log Rank|||Log-rank test of relapse-free survival||||0.29
92308852|NCT04036799|184517931|OTHER|Categorical variables were summarized using frequencies and proportions.|Cumulative proportion of events at 5 yrs|9.1|||||TWO_SIDED|95.0||||||||||||
92308853|NCT04240392|184517932|SUPERIORITY||Odds Ratio (OR)|1.369||||0.534|TWO_SIDED|95.0|0.462|4.055|||Mixed Models Analysis|Generalized Linear Mixed Model||||4.055|0.462|0.5340
92308854|NCT04240392|184517933|SUPERIORITY||Odds Ratio (OR)|0.803||||0.6|TWO_SIDED|95.0|0.326|1.979|||Mixed Models Analysis|Generalized Linear Mixed Model||At delivery||1.979|0.326|0.600
92308855|NCT04240392|184517933|SUPERIORITY||Odds Ratio (OR)|0.709||||0.471|TWO_SIDED|95.0|0.254|1.975|||Mixed Models Analysis|Generalized Linear Mixed Model||At 3 months post partum||1.975|0.254|0.471
92308856|NCT04240392|184517934|SUPERIORITY||Beta-coefficient|1.53||||0.518|TWO_SIDED|95.0|-3.13|6.19|||Mixed Models Analysis|Repeated Measures Linear Mixed Model|Beta-coefficient for treatment for time interaction term|At week 36||6.19|-3.13|0.518
92308857|NCT04240392|184517934|SUPERIORITY||Beta-coefficient|0.32||||0.893|TWO_SIDED|95.0|-4.41|5.06|||Mixed Models Analysis|Repeated Measures Linear Mixed Model|Beta-coefficient for treatment for time interaction term|At 3 months post partum||5.06|-4.41|0.893
92308858|NCT03589768|184517935|OTHER|N/A, Only risk difference estimated and 95% CI reported.|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-11.9|10.3|||||Difference is calculated as the proportion in the BOOSTRIX group minus the proportion in the Td group.|||10.3|-11.9|
92308859|NCT03589768|184517936|SUPERIORITY||Risk Difference (RD)|4.62||||0.559|TWO_SIDED|95.0|-6.25|15.5|||Fisher Exact||Difference is calculated as the proportion in the BOOSTRIX group minus the proportion in the Td group.|||15.5|-6.25|0.559
92308860|NCT03589768|184517937|OTHER|Only risk difference estimated and 95% CI reported.|Risk Difference (RD)|1.2|||||TWO_SIDED|95.0|-9.3|9.8|||||||Difference is calculated as the proportion in the BOOSTRIX group minus the proportion in the Td group.|9.8|-9.3|
92308861|NCT03589768|184517938|SUPERIORITY||Risk Difference (RD)|6.06||||0.29|TWO_SIDED|95.0|-3.82|15.9|||Fisher Exact||||Difference is calculated as the proportion in the BOOSTRIX group minus the proportion in the Td group.|15.9|-3.82|0.290
92308862|NCT03589768|184517940|OTHER|Only risk difference estimated and 95% CI reported.|Risk Difference (RD)|1.5|||||TWO_SIDED|95.0|-6.4|7.3|||||||Difference is calculated as the proportion in the BOOSTRIX group minus the proportion in the Td group.|7.3|-6.4|
92308863|NCT03589768|184517941|SUPERIORITY||Ratio|7.0|||<|0.0001|TWO_SIDED|95.0|4.6|10.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth day timepoint|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|10.7|4.6|<0.0001
92308864|NCT03589768|184517941|SUPERIORITY||Ratio|4.8|||<|0.0001|TWO_SIDED|95.0|3.2|7.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for Prior to receipt of first dose of DTwP (approximately 6 weeks of age) timepoint|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|7.3|3.2|<0.0001
92308865|NCT03589768|184517941|SUPERIORITY||Ratio|2.9|||<|0.0001|TWO_SIDED|95.0|1.8|4.8|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for One month after receipt of first dose of DTwP (approximately 10 weeks of age) timepoint|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|4.8|1.8|<0.0001
92308866|NCT03589768|184517941|SUPERIORITY||Ratio|0.3||||0.0068|TWO_SIDED|95.0|0.1|0.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for One month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.7|0.1|0.0068
92308867|NCT03589768|184517941|SUPERIORITY||Ratio|0.3||||0.0003|TWO_SIDED|95.0|0.1|0.5|||t-test, 2 sided|Test compares differences in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.5|0.1|0.0003
92308868|NCT03589768|184517942|SUPERIORITY||Ratio|0.9||||0.7102|TWO_SIDED|95.0|0.7|1.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for pre-vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.3|0.7|0.7102
92308869|NCT03589768|184517942|SUPERIORITY||Ratio|8.7|||<|0.0001|TWO_SIDED|95.0|6.2|12.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|12.0|6.2|<0.0001
92308870|NCT03589768|184517942|SUPERIORITY||Ratio|4.7|||<|0.0001|TWO_SIDED|95.0|3.3|6.6|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|6.6|3.3|<0.0001
92308871|NCT03589768|184517942|SUPERIORITY||Ratio|3.3|||<|0.0001|TWO_SIDED|95.0|2.1|5.2|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months after delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|5.2|2.1|<0.0001
92308872|NCT03589768|184517943|SUPERIORITY||Ratio|1.1||||0.7039|TWO_SIDED|95.0|0.8|1.4|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for pre-vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.4|0.8|0.7039
92308873|NCT03589768|184517943|SUPERIORITY||Ratio|18.5|||<|0.0001|TWO_SIDED|95.0|14.0|24.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|24.3|14.0|<0.0001
92308874|NCT03589768|184517943|SUPERIORITY||Ratio|10.5|||<|0.0001|TWO_SIDED|95.0|8.1|13.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|13.7|8.1|<0.0001
92308875|NCT03589768|184517943|SUPERIORITY||Ratio|7.4|||<|0.0001|TWO_SIDED|95.0|5.0|11.1|||t-test, 2 sided|Difference in log values back transformed into ratio.||Statistical analysis for 6 months after delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|11.1|5.0|<0.0001
92308876|NCT03589768|184517944|SUPERIORITY||Ratio|1.2||||0.2897|TWO_SIDED|95.0|0.8|1.8|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for pre-vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.8|0.8|0.2897
92308877|NCT03589768|184517944|SUPERIORITY||Ratio|54.2|||<|0.0001|TWO_SIDED|95.0|35.6|82.4|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|82.4|35.6|<0.0001
92308878|NCT03589768|184517944|SUPERIORITY||Ratio|32.0|||<|0.0001|TWO_SIDED|95.0|20.6|49.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|49.7|20.6|<0.0001
92308879|NCT03589768|184517944|SUPERIORITY||Ratio|18.9|||<|0.0001|TWO_SIDED|95.0|10.4|34.2|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months after delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|34.2|10.4|<0.0001
92308880|NCT03589768|184517945|SUPERIORITY||Ratio|1.0||||0.837|TWO_SIDED|95.0|0.6|1.5|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for pre-vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.5|0.6|0.8370
92308881|NCT03589768|184517945|SUPERIORITY||Ratio|0.6|||<|0.0001|TWO_SIDED|95.0|0.5|0.8|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.8|0.5|<0.0001
92308882|NCT03589768|184517945|SUPERIORITY||Ratio|0.7||||0.005|TWO_SIDED|95.0|0.6|0.9|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.9|0.6|0.0050
92308883|NCT03589768|184517945|SUPERIORITY||Ratio|0.8||||0.0689|TWO_SIDED|95.0|0.6|1.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months after delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.0|0.6|0.0689
92308884|NCT03589768|184517946|SUPERIORITY||Ratio|1.0||||0.8361|TWO_SIDED|95.0|0.7|1.6|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for pre-vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.6|0.7|0.8361
92308885|NCT03589768|184517946|SUPERIORITY||Ratio|0.9||||0.5136|TWO_SIDED|95.0|0.6|1.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.3|0.6|0.5136
92308886|NCT03589768|184517946|SUPERIORITY||Ratio|0.9||||0.4237|TWO_SIDED|95.0|0.6|1.2|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.2|0.6|0.4237
92308887|NCT03589768|184517946|SUPERIORITY||Ratio|0.7||||0.1607|TWO_SIDED|95.0|0.4|1.2|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months after delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.2|0.4|0.1607
92308888|NCT03589768|184517947|SUPERIORITY||Ratio|13.7|||<|0.0001|TWO_SIDED|95.0|10.2|18.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|18.3|10.2|<0.0001
92308889|NCT03589768|184517947|SUPERIORITY||Ratio|10.8|||<|0.0001|TWO_SIDED|95.0|8.0|14.5|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for prior to receipt of first dose of DTwP (approximately 6 weeks of age)|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|14.5|8.0|<0.0001
92189384|NCT03647709|184276816|OTHER||mean score|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Represents patients reported pain score post operative week 12 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.0|-0.0|
92189385|NCT03647709|184276816|OTHER||mean score|0.2|||||TWO_SIDED|95.0|0.1|0.2|||||Represents patients reported pain score post operative week 12 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.2|0.1|
92189386|NCT03647709|184276816|OTHER||mean score|0.0|||||TWO_SIDED|95.0|0.0|0.1|||||Represents patients reported pain score post operative week 12 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.1|-0.0|
92308890|NCT03589768|184517947|SUPERIORITY||Ratio|10.2|||<|0.0001|TWO_SIDED|95.0|6.9|15.2|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio. Test compares difference in log values.|Statistical analysis for one month after receipt of first dose of DTwP (approximately 10 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|15.2|6.9|<0.0001
92308891|NCT03589768|184517947|SUPERIORITY||Ratio|2.1||||0.0002|TWO_SIDED|95.0|1.4|3.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|3.0|1.4|0.0002
92308892|NCT03589768|184517947|SUPERIORITY||Ratio|1.2||||0.4828|TWO_SIDED|95.0|0.8|1.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.7|0.8|0.4828
92308893|NCT03589768|184517948|SUPERIORITY||Ratio|46.4|||<|0.0001|TWO_SIDED|95.0|26.6|81.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|81.0|26.6|<0.0001
92189387|NCT03647709|184276816|OTHER||mean score|0.5|||||TWO_SIDED|95.0|0.4|0.7|||||Represents patients reported pain score post operative week 12 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.7|0.4|
92189388|NCT03647709|184276819|OTHER|||||||0.0015|||||||Fisher Exact|||||||0.0015
92189389|NCT03647709|184276820|OTHER|||||||0.6398|||||||Fisher Exact|||||||.6398
92189390|NCT03647709|184276821|OTHER|||||||0.0658|||||||Fisher Exact|||||||.0658
92189391|NCT03647709|184276822|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92189392|NCT01426217|184276836|OTHER|Efficacy|Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.63|0.98||||||||0.98|0.63|
92189393|NCT01426217|184276837|OTHER|Efficacy|Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.62|1.35||||||||1.35|0.62|
92267207|NCT04957979|184435817|SUPERIORITY||Odds Ratio (OR)|0.906||||0.632|TWO_SIDED|95.0|0.606|1.356||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.356|0.606|0.632
92267208|NCT04957979|184435817|SUPERIORITY||Odds Ratio (OR)|0.845||||0.492|TWO_SIDED|95.0|0.523|1.366||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.366|0.523|0.492
92267209|NCT04957979|184435818|SUPERIORITY||Odds Ratio (OR)|0.856||||0.405|TWO_SIDED|95.0|0.594|1.234||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.234|0.594|0.405
92267210|NCT04957979|184435818|SUPERIORITY||Odds Ratio (OR)|0.559||||0.004|TWO_SIDED|95.0|0.374|0.834|||Mixed Models Analysis|||||0.834|0.374|0.004
92267211|NCT04957979|184435819|SUPERIORITY||Odds Ratio (OR)|0.151||||0.071|TWO_SIDED|95.0|0.02|1.173||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.173|0.02|0.071
92267212|NCT04957979|184435819|SUPERIORITY||Mean Difference (Net)|0.023||||0.003|TWO_SIDED|95.0|0.002|0.268||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||0.268|0.002|0.003
92267213|NCT04957979|184435820|SUPERIORITY||Odds Ratio (OR)|0.884||||0.557|TWO_SIDED|95.0|0.587|1.333||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.333|0.587|0.557
92267214|NCT04957979|184435820|SUPERIORITY||Mean Difference (Net)|0.624||||0.069|TWO_SIDED|95.0|0.376|1.037||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.037|0.376|0.069
92267215|NCT04957979|184435821|SUPERIORITY||Odds Ratio (OR)|0.539||||0.256|TWO_SIDED|95.0|0.185|1.565||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.565|0.185|0.256
92267216|NCT04957979|184435821|SUPERIORITY||Odds Ratio (OR)|1.117||||0.866|TWO_SIDED|95.0|0.308|4.047||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||4.047|0.308|0.866
92267217|NCT04957979|184435822|SUPERIORITY||Odds Ratio (OR)|0.797||||0.641|TWO_SIDED|95.0|0.307|2.069||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||2.069|0.307|0.641
92267218|NCT04957979|184435822|SUPERIORITY||Odds Ratio (OR)|0.569||||0.32|TWO_SIDED|95.0|0.187|1.729||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.729|0.187|0.32
92308894|NCT03589768|184517948|SUPERIORITY||Ratio|39.5|||<|0.0001|TWO_SIDED|95.0|24.0|65.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for prior to receipt of first dose of DTwP (approximately 6 weeks of age)|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|65.0|24.0|<0.0001
92308895|NCT03589768|184517948|SUPERIORITY||Ratio|10.4|||<|0.0001|TWO_SIDED|95.0|6.1|17.9|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of first dose of DTwP (approximately 10 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|17.9|6.1|<0.0001
92308896|NCT03589768|184517948|SUPERIORITY||Ratio|0.6||||0.0746|TWO_SIDED|95.0|0.3|1.1|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.1|0.3|0.0746
92308897|NCT03589768|184517948|SUPERIORITY||Ratio|0.7||||0.1532|TWO_SIDED|95.0|0.5|1.1|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.1|0.5|0.1532
92308898|NCT03589768|184517949|SUPERIORITY||Ratio|0.7||||0.0022|TWO_SIDED|95.0|0.6|0.9|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.9|0.6|0.0022
92308899|NCT03589768|184517949|SUPERIORITY||Ratio|0.7||||0.0008|TWO_SIDED|95.0|0.5|0.8|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for prior to receipt of first dose of DTwP (approximately 6 weeks of age)|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.8|0.5|0.0008
92308900|NCT03589768|184517949|SUPERIORITY||Ratio|0.7||||0.0261|TWO_SIDED|95.0|0.5|1.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of first dose of DTwP (approximately 10 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.0|0.5|0.0261
92308901|NCT03589768|184517949|SUPERIORITY||Ratio|0.6||||0.0532|TWO_SIDED|95.0|0.3|1.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.0|0.3|0.0532
92308902|NCT03589768|184517949|SUPERIORITY||Ratio|0.9||||0.5587|TWO_SIDED|95.0|0.5|1.4|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.4|0.5|0.5587
92189394|NCT04799587|184276896|SUPERIORITY|Sample size for the study was determined by assuming a baseline rate of 33% of IONV and that there will be a relative decrease of 50% in the group that receives P6 acupressure during CD. A two-sided Fisher's Exact Test, with a significance level of 0.05, group sizes of 98 are needed to achieve 80% power to detect a difference between the group proportions of 0.18. Group sizes were rounded up to 100. Statistical analyses were two-sided, and a P\<0.05 was required to reject the null hypothesis.||||||0.94|||||||Chi-squared|||The incidence of nausea and vomiting and the number of episodes between the P6 acupressure and sham acupressure groups were compared using a chi-square statistic (nominal data) or the Wilcoxon test (continuous data).||||.94
92308903|NCT03589768|184517950|SUPERIORITY||Ratio|0.9||||0.5056|TWO_SIDED|95.0|0.6|1.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.3|0.6|0.5056
92308904|NCT03589768|184517950|SUPERIORITY||Ratio|1.0||||0.9466|TWO_SIDED|95.0|0.7|1.5|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for prior to receipt of first dose of DTwP (approximately 6 weeks of age)|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.5|0.7|0.9466
92308905|NCT03589768|184517950|SUPERIORITY||Ratio|1.1||||0.6911|TWO_SIDED|95.0|0.6|2.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of first dose of DTwP (approximately 10 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|2.0|0.6|0.6911
92308906|NCT03589768|184517950|SUPERIORITY||Ratio|0.6||||0.0952|TWO_SIDED|95.0|0.3|1.1|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.1|0.3|0.0952
92308907|NCT03589768|184517950|SUPERIORITY||Ratio|1.2||||0.4134|TWO_SIDED|95.0|0.8|2.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|2.0|0.8|0.4134
92308908|NCT03589768|184517951|SUPERIORITY||Ratio|1.6||||0.0859|TWO_SIDED|95.0|0.9|2.6|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|2.6|0.9|0.0859
92308909|NCT03589768|184517951|SUPERIORITY||Ratio|1.4||||0.204|TWO_SIDED|95.0|0.8|2.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for prior to receipt of first dose of DTwP (approximately 6 weeks of age)|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|2.3|0.8|0.2040
92308910|NCT03589768|184517951|SUPERIORITY||Ratio|1.6||||0.0763|TWO_SIDED|95.0|1.0|2.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of first dose of DTwP (approximately 10 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|2.7|1.0|0.0763
92308911|NCT03589768|184517951|SUPERIORITY||Ratio|0.5||||0.0836|TWO_SIDED|95.0|0.2|1.1|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.1|0.2|0.0836
92308912|NCT03589768|184517951|SUPERIORITY||Ratio|0.6||||0.0672|TWO_SIDED|95.0|0.3|1.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.0|0.3|0.0672
92308913|NCT03785600|184517953|OTHER||||||<|0.02||||||a priori threshold is \<0.05.|t-test, 2 sided|||||||<0.02
92308914|NCT05307510|184517959|SUPERIORITY|Statistical analysis is under powered. N is too low.||||||0.135||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Pain at rest||||0.135
92308915|NCT05307510|184517959|SUPERIORITY|Statistical analysis is underpowered. N is too low||||||0.716||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Pain at Night||||.716
92308916|NCT05307510|184517959|SUPERIORITY|Statistical Analysis underpowered. N is too small.||||||0.509||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Pain in use||||.509
92308917|NCT05307510|184517960|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
92308918|NCT05307510|184517961|SUPERIORITY|Statistical analysis is underpowered. N is too low.||||||0.635||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Palmar abduction of surgical hand||||.635
92308919|NCT05307510|184517961|SUPERIORITY|Statistical analysis is underpowered. N is too low.|Mean Difference (Net)|-3.1||||0.521|TWO_SIDED|95.0|-13.6|7.4|||t-test, 2 sided|||Radial Abduction Surgical Hand||7.4|-13.6|.521
92308920|NCT05307510|184517962|SUPERIORITY|Statistical analysis is underpowered. N is too low.|Mean Difference (Net)|7.42||||0.495|TWO_SIDED|95.0|-16.16|32.0|||t-test, 2 sided|||||32.0|-16.16|.495
92308921|NCT05307510|184517963|SUPERIORITY|Statistical analysis is underpowered. N is too low.||||||0.953||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Buttoning Buttons||||.953
92308922|NCT05307510|184517963|SUPERIORITY|Statistical analysis is underpowered. N is too low.||||||0.947||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Lacing and tying a shoe||||.947
92308923|NCT05307510|184517963|SUPERIORITY|Statistical analysis is underpowered. N is too low.||||||0.828||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Opening and closing safety pins||||.828
92308924|NCT05307510|184517963|SUPERIORITY|Statistical analysis is underpowered. N is too low.||||||0.169||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Managing coins||||.169
92308925|NCT05307510|184517964|SUPERIORITY|Statistical analysis underpowered. N too small.||||||0.917||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||||||.917
92308926|NCT05307510|184517964|SUPERIORITY|Statistical analysis is underpowered. N is too small||||||0.837||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||||||.837
92308927|NCT04086407|184517983|OTHER||||||<|0.05|||||||t-test, 2 sided||||All statistical tests were completed with a significance of p \< 0.05 and 95% confidence intervals. Sample sets were statistically compared and analyzed by using two-tailed, unpaired Student t test analyses of means.|||<.05
92189395|NCT04799587|184276897|SUPERIORITY|||||||0.95|||||||Chi-squared|||The sample size for the study was determined by assuming a baseline rate of 33% of intraoperative nausea and vomiting and that there will be a relative decrease of 50% in the group that receives P6 acupressure during CD.20 Using a two-sided Fisher's Exact Test, with a significance level of 0.05, group sizes of 98 are needed to achieve 80% power to detect a difference between the group proportions of 0.18. Group sizes were rounded up to 100||||.95
92189396|NCT02849509|184276952|OTHER||||||<|0.0001||||||p-value of paired t-test compared to baseline|Paired t-test|||Convenience dimension score of PACT-Q2 at the second assessment (Visit 2) were compared with the baseline assessment (Visit 1). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||<0.0001
92308928|NCT04086407|184517984|OTHER||||||<|0.05|||||||t-test, 2 sided||||All statistical tests were completed with a significance of p \< 0.05 and 95% confidence intervals. Sample sets were statistically compared and analyzed by using two-tailed, unpaired Student t test analyses of means.|||<.05
92308929|NCT04086407|184517985|OTHER||||||||||||||||||All statistical tests were completed with a significance of p \< 0.05 and 95% confidence intervals. Sample sets were statistically compared and analyzed by using two-tailed, unpaired Student t test analyses of means.|||
92308930|NCT04086407|184517986|OTHER||||||<|0.05|||||||t-test, 2 sided||||All statistical tests were completed with a significance of p \< 0.05 and 95% confidence intervals. Sample sets were statistically compared and analyzed by using two-tailed, unpaired Student t test analyses of means.|||<.05
92308931|NCT03047330|184517993|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|||||||0.22
92308932|NCT03047330|184517993|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92308933|NCT03047330|184517994|SUPERIORITY|||||||0.048|||||||Mixed Models Analysis|||||||0.048
92308934|NCT03047330|184517994|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis|||||||0.58
92308935|NCT01908907|184517995|SUPERIORITY_OR_OTHER||Median Difference (Net)|13.5|STANDARD_ERROR_OF_MEAN|6.5||0.07|TWO_SIDED|95.0|0.2|28.7|||Regression, Linear|Outcome was transformed using a natural logarithm transformation. Models included gestational age group since the randomization was blocked.|Since analyzed on the log scale, estimates provide are % change rather than absolute change between group.|All analyses used the intent-to-treat study population. A linear mixed model was used to assess differences in time to full feeds, days on study drug, and gestational age at discharge. These models included a random effect for multiples, which was maintained in the model after testing. Fixed effects included treatment and GA group for time to full feeds and days on study drug and treatment effect for gestational age at discharge.||28.7|0.2|0.07
92308936|NCT01908907|184517996|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.008||0.048|TWO_SIDED||||||Regression, Linear|This is a complex regression model including linear and quadratic growth and interactions as specified above.||Linear mixed models were used to explore growth over time (weight, length and head circumference). These models included a random effect for intercepts and slopes to account for subject specific growth over time as well as a random effect for possible correlation between twins and triplets present in the data set. Fixed effects included both a linear and quadratic time effect, GA at birth, treatment group, full feeds (yes/no), and interactions. Non-significant interactions were eliminated.||||0.048
92308937|NCT05773794|184518003|SUPERIORITY|||||||0.968|||||||t-test, 2 sided|||||||0.968
92308938|NCT05773794|184518003|SUPERIORITY|||||||0.366|||||||t-test, 2 sided|||||||0.366
92308939|NCT05773794|184518003|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92308940|NCT05773794|184518004|SUPERIORITY|||||||0.016|||||||t-test, 2 sided|||||||0.016
92308941|NCT05773794|184518004|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
92308942|NCT05773794|184518004|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
92308943|NCT05773794|184518005|SUPERIORITY|||||||0.0196|||||||t-test, 2 sided|||||||0.0196
92308944|NCT05773794|184518005|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92308945|NCT05773794|184518005|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92308946|NCT01392963|184518012|OTHER|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92308947|NCT03783039|184518014|NON_INFERIORITY|10% margin|Risk Difference (RD)|0.0605|||<|0.0001|ONE_SIDED|97.5|-0.0189|||Testing whether the group difference in proportion of successes is \>-0.1 (Test Group - Control Group)|Farrington-Manning method||||||-0.0189|<0.0001
92308948|NCT03783039|184518015|OTHER||Difference in proportion of successes|0.0992|||||TWO_SIDED|95.0|0.0078|0.1906|||Farrington-Manning Method|Difference in proportion of successes (Test Group - Control Group)||||0.1906|0.0078|
92267219|NCT04957979|184435823|SUPERIORITY||Risk Difference (RD)|9.3|||<|0.001|TWO_SIDED|95.0|5.6|13.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||13|5.6|<.001
92308949|NCT03783039|184518016|OTHER||Difference in proportion of successes|0.0275|||||TWO_SIDED|95.0|-0.0312|0.0863|||Farrington-Manning Method|Difference in proportion of successes (Test Group - Control Group)||||0.0863|-0.0312|
92308950|NCT01955837|184518020|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.035|TWO_SIDED|95.0|0.62|0.99|||Log Rank|||||0.99|0.62|0.035
92308951|NCT01955837|184518021|SUPERIORITY||Hazard Ratio (HR)|0.43|||<|0.001|TWO_SIDED|95.0|0.34|0.54|||Log Rank|||||0.54|0.34|<0.001
92308952|NCT01955837|184518022|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.37|0.58|||Log Rank|||||0.58|0.37|<0.001
92308953|NCT01955837|184518023|SUPERIORITY||Difference in ORR|1.1||||0.554|TWO_SIDED|95.0|-0.1|2.4|||Fisher Exact|||||2.4|-0.1|0.554
92308954|NCT01955837|184518024|SUPERIORITY||Difference in DCR|29.4|||<|0.001|TWO_SIDED|95.0|20.9|38.0|||Fisher Exact|||||38.0|20.9|<0.001
92308955|NCT01955837|184518025|SUPERIORITY||Odds Ratio (OR)|29.4|||<|0.001|TWO_SIDED|95.0|20.9|38.0|||Fisher Exact|||||38.0|20.9|<0.001
92308956|NCT01955837|184518028|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.083|TWO_SIDED|95.0|0.57|1.04|||Log Rank|||||1.04|0.57|0.083
92308957|NCT01955837|184518029|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.228|TWO_SIDED|95.0|0.57|1.2|||Log Rank|||||1.20|0.57|0.228
92308958|NCT01955837|184518030|SUPERIORITY||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.32|0.59||||||||0.59|0.32|
92308959|NCT01955837|184518031|SUPERIORITY||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.31|0.65||||||||0.65|0.31|
92308960|NCT02338193|184518042|SUPERIORITY||||||<|0.032|||||||ANOVA|||One Way ANOVA with Bonferroni contrast if p\>0.05||||<0.032
92267220|NCT04957979|184435823|SUPERIORITY||Risk Difference (RD)|11.0||||0.002|TWO_SIDED|95.0|4.2|18.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher proportion of responders in Medical/Nursing clinics as compared to Medical/Social.|||18|4.2|0.002
92267221|NCT04957979|184435824|SUPERIORITY||Risk Difference (RD)|6.0||||0.023|TWO_SIDED|95.0|0.86|11.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||11.0|0.86|0.023
92267222|NCT04957979|184435824|SUPERIORITY||Risk Difference (RD)|-3.7||||0.5|TWO_SIDED|95.0|-14.0|7.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher proportion of responders in Medical/Nursing clinics as compared to Medical/Social.|||7.0|-14.0|0.5
92267223|NCT04957979|184435825|SUPERIORITY||Mean Difference (Net)|0.13|||<|0.001|TWO_SIDED|95.0|0.06|0.19||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|t-test, 2 sided||Positive values reflect higher/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||0.19|0.06|<0.001
92267224|NCT04957979|184435825|SUPERIORITY||Mean Difference (Net)|0.19|||<|0.001|TWO_SIDED|95.0|0.06|0.32||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|t-test, 2 sided||Positive values reflect higher/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||0.32|0.06|<0.001
92267225|NCT04957979|184435826|SUPERIORITY||Mean Difference (Net)|-0.11|||<|0.001|TWO_SIDED|95.0|-0.16|-0.06|||t-test, 2 sided|No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Negative values reflect lower/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||-0.06|-0.16|<0.001
92267226|NCT04957979|184435826|SUPERIORITY||Mean Difference (Net)|-0.11||||0.006|TWO_SIDED|95.0|-0.2|-0.03|||t-test, 2 sided||Negative values reflect lower/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||-0.03|-0.2|0.006
92267227|NCT04957979|184435827|SUPERIORITY||Risk Difference (RD)|-2.4||||0.059|TWO_SIDED|95.0|-4.9|0.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared|||||0.00|-4.9|0.059
92267228|NCT04957979|184435827|SUPERIORITY||Risk Difference (RD)|-5.7||||0.014|TWO_SIDED|95.0|-10.0|-1.3||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-1.3|-10.0|0.014
92267229|NCT04957979|184435828|SUPERIORITY||Risk Difference (RD)|11.0|||<|0.001|TWO_SIDED|95.0|6.8|15.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared|||||15.0|6.8|<0.001
92308961|NCT02338193|184518043|SUPERIORITY||||||<|0.05|||||||ANOVA|One Way ANOVA with Bonferoni contrast test||||||<0.05
92308962|NCT02338193|184518044|SUPERIORITY||||||<|0.01|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.01
92308963|NCT02338193|184518045|SUPERIORITY||||||<|0.012|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.012
92308964|NCT02338193|184518046|SUPERIORITY|||||||0.007|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.007
92308965|NCT02338193|184518047|SUPERIORITY|||||||0.023|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast||||0.023
92308966|NCT02338193|184518048|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast||||>0.05
92308967|NCT02338193|184518049|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast||||>0.05
92308968|NCT02338193|184518050|SUPERIORITY||||||<|0.001|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast||||<0.001
92308969|NCT02338193|184518051|SUPERIORITY||||||<|0.001|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.001
92308970|NCT02338193|184518052|SUPERIORITY||||||<|0.004|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.004
92308971|NCT02338193|184518053|SUPERIORITY||||||<|0.02|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.02
92308972|NCT02338193|184518054|SUPERIORITY||||||<|0.012|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.012
92308973|NCT02338193|184518055|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||>0.05
92308974|NCT02338193|184518056|SUPERIORITY||||||<|0.028|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.028
92308975|NCT02338193|184518057|SUPERIORITY||||||<|0.03|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<.03
92308976|NCT02704403|184518099|SUPERIORITY||Mean Difference (Net)|0.043||||0.0659|TWO_SIDED|95.0|-0.003|0.09|||Regression, Logistic|test is 2-sided, alpha=0.01||The null hypothesis was that there was no difference in response rates between the elafibranor and placebo treatment groups. The alternative hypothesis was that there was a difference in the response rates between the elafibranor and placebo treatment groups.||0.090|-0.003|0.0659
92308977|NCT02704403|184518100|SUPERIORITY||Cox Proportional Hazard|0.95|||||TWO_SIDED|95.0|0.619|1.457|||||No formal test due to the early termination of the study.|||1.457|0.619|
92308978|NCT04623086|184518135|OTHER|Comparison of two groups|Mean Difference (Net)|8.1||||0.14|TWO_SIDED||||||t-test, 2 sided|||For our power calculations, we assumed the true change in TIR to be 0% for the bridging group and 15% for the direct-conversion group, and we assumed a common standard deviation of 15% (meaning the distributions of change in TIR are separated by 1 standard-deviation unit), and thereby obtained that 20 patients in each group would provide 87% power to observe a statistically significant (at the two-sided level of .05) difference in mean change of TIR.||||0.14
92308979|NCT04623086|184518136|OTHER|Comparison of two groups|Mean Difference (Net)|4.1||||0.11|TWO_SIDED||||||t-test, 2 sided|||||||0.11
92308980|NCT04623086|184518137|OTHER|Comparison of two groups|Mean Difference (Net)|12.1||||0.29|TWO_SIDED||||||t-test, 2 sided|||||||0.29
92308981|NCT04623086|184518138|OTHER|Comparison of two groups|Mean Difference (Net)|-11.9||||0.015|TWO_SIDED||||||t-test, 2 sided|||||||0.015
92308982|NCT04623086|184518139|OTHER||Mean Difference (Net)|0.3||||0.88|TWO_SIDED||||||t-test, 2 sided|||||||0.88
92308983|NCT04623086|184518140|OTHER|Comparison of two groups|Mean Difference (Net)|2.6||||0.031|TWO_SIDED||||||t-test, 2 sided|||||||0.031
92308984|NCT04623086|184518141|OTHER|Comparison of two groups|Mean Difference (Net)|1.1||||0.27|TWO_SIDED||||||t-test, 2 sided|||||||0.27
92308985|NCT04623086|184518142|OTHER|Comparison of two groups|Mean Difference (Net)|0.0|||>|0.99|TWO_SIDED||||||t-test, 2 sided|||||||>0.99
92308986|NCT03464630|184518143|SUPERIORITY|||||||0.503||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.503
92308987|NCT03464630|184518144|SUPERIORITY||||||<|0.001||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||<0.001
92308988|NCT03464630|184518145|SUPERIORITY|||||||0.059||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.059
92308989|NCT03464630|184518146|SUPERIORITY|||||||0.702||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.702
92308990|NCT03464630|184518147|SUPERIORITY|||||||0.08||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.08
92308991|NCT03464630|184518148|SUPERIORITY|||||||0.09||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.09
92308992|NCT03464630|184518149|SUPERIORITY|||||||0.898||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.898
92308993|NCT03464630|184518150|SUPERIORITY|||||||0.349||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.349
92308994|NCT03464630|184518151|SUPERIORITY||||||<|0.001||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||<0.001
92308995|NCT00715624|184518152|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.096||0.0002|TWO_SIDED|95.0|-0.55|-0.174||Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0, \>=8.0%), metformin use (yes, no), country as fixed effects, baseline HbA1c as covariate.|ANCOVA|To control type I error, a step-down procedure described by Hochberg and Tomhane was applied.||To detect a difference of 0.5% (or 0.4%) in change from baseline to Week 24 in HbA1c between lixisenatide and placebo, 300 patients in lixisenatide arm and 150 in placebo arm would provide a power of 96% (or 86%) assuming common standard deviation of 1.3% with a 2-sided test at 5% significance level.||-0.174|-0.550|0.0002
92308996|NCT02309138|184518173|SUPERIORITY||Risk Ratio (RR)|0.903||||0.668|TWO_SIDED|97.5|0.538|1.516||Each co-primary hypothesis was tested at the 2.5% significance level.|Regression, Logistic|In the ITT, logistic regression was used to quantify the probability of large-for-gestational age as a function of the study arm and clinic type.|A relative risk \< 1 represents a benefit in the direction of the IADPSG group, while a value \> 1 represents a benefit towards the CC group.|Co-primary hypotheses #1: women diagnosed using the IADPSG criteria will have lower rates of large-for-gestational age infants compared to those diagnosed using the Carpenter-Coustan criteria.||1.516|0.538|0.668
92189397|NCT02849509|184276952|OTHER|||||||0.0174||||||p-value of paired t-test compared to baseline|Paired t-test|||Satisfaction dimension score of PACT-Q2 at the second assessment (Visit 2) were compared with the baseline assessment (Visit 1). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.0174
92189398|NCT02849509|184276953|OTHER||||||<|0.0001||||||p-value of paired t-test compared to baseline|Paired t-test|||Convenience dimension score of PACT-Q2 at the last assessment (Visit 3) were compared with the baseline assessment (Visit 1). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||<0.0001
92189399|NCT02849509|184276953|OTHER|||||||0.0004||||||p-value of paired t-test compared to baseline|Paired t-test|||Satisfaction dimension score of PACT-Q2 at the last assessment (Visit 3) were compared with the baseline assessment (Visit 1). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.0004
92308997|NCT02309138|184518173|SUPERIORITY||Risk Ratio (RR)|0.853||||0.853|TWO_SIDED|97.5|0.493|1.475||Each co-primary hypothesis was tested at the 2.5% significance level.|Regression, Logistic|In the ITT, logistic regression was used to quantify the probability of large-for-gestational age as a function of the study arm and clinic type.||"Co-primary hypothesis #2: women classified as no gestational diabetes by the IADPSG criteria will have lower rates of large-for-gestational age infants compared to those classified in the Carpenter-Coustan criteria."||1.475|0.493|0.853
92308998|NCT02309138|184518174|SUPERIORITY||Risk Ratio (RR)|1.046||||0.6669|TWO_SIDED|95.0|0.847|1.291|||Regression, Logistic|||||1.291|0.847|0.6669
92308999|NCT02309138|184518174|SUPERIORITY||Risk Ratio (RR)|1.033||||0.8394|TWO_SIDED|95.0|0.816|1.307|||Regression, Logistic|||||1.307|0.816|0.8394
92309000|NCT02309138|184518175|SUPERIORITY||Risk Ratio (RR)|0.987||||0.9335|TWO_SIDED|95.0|0.74|1.318|||Regression, Logistic|||||1.318|0.740|0.9335
92309001|NCT02309138|184518175|SUPERIORITY||Risk Ratio (RR)|1.022||||0.926|TWO_SIDED|95.0|0.742|1.407|||Regression, Logistic|||||1.407|0.742|0.9260
92309002|NCT02309138|184518176|SUPERIORITY||Risk Ratio (RR)|1.4||||0.0322|TWO_SIDED|95.0|1.027|1.909|||Regression, Logistic|||||1.909|1.027|0.0322
92309003|NCT02309138|184518176|SUPERIORITY||Risk Ratio (RR)|1.233||||0.2643|TWO_SIDED|95.0|0.864|1.76|||Regression, Logistic|||||1.760|0.864|0.2643
92309004|NCT01955083|184518208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0|STANDARD_DEVIATION|16.0|<|0.05|TWO_SIDED|95.0|-14.4|48.4|||Wilcoxon (Mann-Whitney)|||We hypothesized that pillar implant provide a better efficacy in the treatment of snoring than radiofrequency surgery. The sample size was estimated using the primary outcome effects (VAS) in two previously published studies (Friedman 2008; Fang 2004). Using a two-tailed Wilcoxon signed-rank test (normal parent distribution; effect size, 1.0; type I error, 0.05; power, 80%), we got a sample size of 11. For considering a 20% drop-out rate, we needed at least 14 participants.||48.4|-14.4|<0.05
92309005|NCT01955083|184518209|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92189400|NCT02849509|184276954|OTHER|||||||0.0423||||||p-value of paired t-test compared between matched Pradaxa® and VKA patients|Paired t-test|||Convenience dimension score of PACT-Q2 for patients in Cohort B, were compared between matched Pradaxa® and VKA patients at the second assessment. There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.0423
92189401|NCT02849509|184276954|OTHER|||||||0.2226||||||p-value of paired t-test compared between matched Pradaxa® and VKA patients|Paired t-test|||Satisfaction dimension score of PACT-Q2 for patients in Cohort B, were compared between matched Pradaxa® and VKA patients at the second assessment. There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.2226
92189402|NCT02849509|184276955|OTHER|||||||0.0287||||||p-value of paired t-test compared between matched Pradaxa® and VKA patients|Paired t-test|||Convenience dimension score of PACT-Q2 for patients in Cohort B, were compared between matched Pradaxa® and VKA patients at the second assessment. There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.0287
92309006|NCT01955083|184518210|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92309007|NCT01955083|184518211|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92309008|NCT01955083|184518212|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92309009|NCT01955083|184518213|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92309010|NCT01955083|184518214|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92309011|NCT01955083|184518215|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92309012|NCT01955083|184518216|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92309013|NCT01955083|184518217|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92309014|NCT01955083|184518218|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92309015|NCT01955083|184518219|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92309016|NCT01955083|184518220|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||||||<0.05
92309017|NCT01559389|184518222|SUPERIORITY||Mean Difference (Final Values)|-0.51|STANDARD_DEVIATION|2.5||0.16|TWO_SIDED|95.0|-1.23|0.21||P-values less than 0.05 were considered statistically significant.|t-test, 2 sided|The method was a paired t-test||The null hypothesis is that there is no difference in the overall GRISS score between females with UUI and their male partners||0.21|-1.23|.16
92309018|NCT01559389|184518223|SUPERIORITY||z-score|2.97||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Exact test|The z-score is a standardized Wilcoxon statistic. In this study, z-scores with an absolute value exceeding 1.96 indicate a significant difference in the GRISS change score between responders and non-responders of solifenacin treatment|The null hypothesis is that there is no difference in the overall GRISS change score between those who respond and do not respond to treatment with solifenacin.||||.003
92309019|NCT01559389|184518224|SUPERIORITY||z-score|0.89||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The z-score is a standardized Wilcoxon statistic. In this study, z-scores with an absolute value exceeding 1.96 indicate a significant difference in the GRISS change score between the two groups|The null hypothesis is that there is no difference in the overall GRISS change score between male partners of female participants who respond to solifenacin and male partners of female participants who do not respond to solifenacin||||.37
92309020|NCT02871492|184518225|SUPERIORITY|||||||0.4294|||||||Cochran-Mantel-Haenszel|||||||0.4294
92189403|NCT02849509|184276955|OTHER|||||||0.03||||||p-value of paired t-test compared between matched Pradaxa® and VKA patients|Paired t-test|||Satisfaction dimension score of PACT-Q2 for patients in Cohort B, were compared between matched Pradaxa® and VKA patients at the second assessment. There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.0300
92189404|NCT02849509|184276961|OTHER|||||||0.1234||||||p-value of paired t-test compared between second assessment (Visit 2) and last assessment (Visit 3)|Paired t-test|||Convenience dimension score of PACT-Q2 for patients in Cohort A, were compared between second assessment (Visit 2) and last assessment (Visit 3). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.1234
92267230|NCT04957979|184435828|SUPERIORITY||Risk Difference (RD)|12.0||||0.001|TWO_SIDED|95.0|4.7|20.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||20.0|4.7|0.001
92267231|NCT04957979|184435829|SUPERIORITY||Mean Difference (Net)|-7.6|||<|0.001|TWO_SIDED|95.0|-10.0|-5.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|t-test, 2 sided||Negative values reflect lower/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||-5|-10|<.001
92267232|NCT04957979|184435829|SUPERIORITY||Mean Difference (Net)|-6.0||||0.007|TWO_SIDED|95.0|-10.0|-2.0|||t-test, 2 sided||Negative values reflect lower/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||-2|-10|0.007
92267233|NCT04957979|184435830|SUPERIORITY||Risk Difference (RD)|-2.5||||0.046|TWO_SIDED|95.0|-4.8|-0.14||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-0.14|-4.8|0.046
92267234|NCT04957979|184435830|SUPERIORITY||Risk Difference (RD)|-4.5||||0.033|TWO_SIDED|95.0|-8.4|-0.52||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-0.52|-8.4|0.033
92267235|NCT04957979|184435831|SUPERIORITY||Risk Difference (RD)|-10.0|||<|0.001|TWO_SIDED|95.0|-13.0|-6.8||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-6.8|-13.0|<0.001
92267236|NCT04957979|184435831|SUPERIORITY||Risk Difference (RD)|-11.0|||<|0.001|TWO_SIDED|95.0|-17.0|-5.6||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-5.6|-17.0|<0.001
92267237|NCT04957979|184435832|SUPERIORITY||Risk Difference (RD)|-7.2|||<|0.001|TWO_SIDED|95.0|-10.0|-4.1||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-4.1|-10.0|<0.001
92267238|NCT04957979|184435832|SUPERIORITY||Risk Difference (RD)|-8.2||||0.002|TWO_SIDED|95.0|-13.0|-3.2||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social|||-3.2|-13.0|0.002
92267239|NCT04957979|184435833|SUPERIORITY||Risk Difference (RD)|-3.4||||0.002|TWO_SIDED|95.0|-5.5|-1.4||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-1.4|-5.5|0.002
92267240|NCT04957979|184435833|SUPERIORITY||Risk Difference (RD)|-2.4||||0.3|TWO_SIDED|95.0|-6.1|1.4||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||1.4|-6.1|0.3
92267241|NCT03671746|184435834|SUPERIORITY||Median Difference (Final Values)|1.5|STANDARD_DEVIATION|1.5|=|0.275|TWO_SIDED||||||ANOVA|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed using Length of Stay (LOS) as this was the primary outcome. Using a significance level of 0.05 and assumed standard deviation of 1.5 days, a sample size of 42 patients/group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was planned for 56 patients/group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).||||=0.275
92267242|NCT03671746|184435835|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed using LOS as this was the primary outcome. Using a significance level of 0.05 and an assumed standard deviation of 1.5 days, a sample size of 42 patients/group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients/group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).||||<0.05
92267243|NCT03671746|184435836|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|The VAS model was adjusted for baseline levels as a covariate, which differed significantly between groups.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).||||<0.05
92309021|NCT02922738|184518241|SUPERIORITY||Cox Proportional Hazard|0.92||||0.54|TWO_SIDED|95.0|0.7|1.21|||Regression, Cox|||||1.21|0.70|0.54
92309022|NCT02922738|184518242|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
92309023|NCT02687217|184518292|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
92309024|NCT02687217|184518293|SUPERIORITY_OR_OTHER|||||||0.5|||||||Chi-squared|||||||0.5
92309025|NCT02687217|184518294|SUPERIORITY_OR_OTHER|||||||0.5|||||||Chi-squared|||||||0.5
92309026|NCT00724048|184518295|SUPERIORITY||Mean Difference (Final Values)|-1.17||||0.078|TWO_SIDED|95.0|-2.47|0.13|||ANCOVA|||The ANCOVA model included a term for treatment, as well as covariates for baseline mMS, and age at entry to the study.||0.13|-2.47|0.078
92309027|NCT00724048|184518295|SUPERIORITY||Mean Difference (Final Values)|-1.19||||0.084|TWO_SIDED|95.0|-2.53|0.16||Hypothesis testing was completed only if ACR16 45 mg BID (90 mg) vs. placebo was significant.|ANCOVA|||The ANCOVA model included a term for treatment, as well as covariates for baseline mMS, and age at entry to the study.||0.16|-2.53|0.084
92309028|NCT00724048|184518295|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.982|TWO_SIDED|95.0|-1.35|1.32||Hypothesis testing was completed only if ACR16 22.5 mg BID (45 mg) vs. placebo was significant.|ANCOVA|||The ANCOVA model included a term for treatment, as well as covariates for baseline mMS, and age at entry to the study.||1.32|-1.35|0.982
92309029|NCT06281171|184518317|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
92189405|NCT02849509|184276961|OTHER|||||||0.974||||||p-value of paired t-test compared between second assessment (Visit 2) and last assessment (Visit 3)|Paired t-test|||Satisfaction dimension score of PACT-Q2 for patients in Cohort A, were compared between second assessment (Visit 2) and last assessment (Visit 3). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.9740
92309030|NCT06281171|184518318|SUPERIORITY|||||||0.996|||||||t-test, 2 sided|||||||.996
92309031|NCT06281171|184518319|SUPERIORITY|||||||0.782|||||||t-test, 2 sided|||||||.782
92309032|NCT06281171|184518320|SUPERIORITY|||||||0.54|||||||Regression, Linear|||||||0.54
92309033|NCT06281171|184518321|SUPERIORITY|||||||0.03|||||||Regression, Linear|||||||0.03
92309034|NCT06281171|184518322|SUPERIORITY|||||||0.3|||||||Regression, Linear|||||||0.30
92309035|NCT06281171|184518323|SUPERIORITY|||||||0.06|||||||Regression, Linear|||||||0.06
92309036|NCT03258853|184518326|SUPERIORITY|||||||0.001|||||||paired 2-sided t-test|||||||0.001
92309037|NCT03258853|184518327|SUPERIORITY|||||||1||||||Secondary outcomes were adjusted for multiple comparisons|Wilcoxon signed rank test|||||||1.0
92309038|NCT03258853|184518328|SUPERIORITY|||||||0.04||||||Secondary outcomes are adjusted for multiple comparisons|paired 2-sided t-test|||||||0.04
92309039|NCT03258853|184518329|SUPERIORITY|||||||1||||||Adjusted for multiple comparisons|Wicoxon signed rank test|||||||1.0
92309040|NCT03258853|184518330|SUPERIORITY|||||||0.014||||||Adjusted for multiple comparisons|Wilcoxon signed rank test|||||||0.014
92309041|NCT03258853|184518331|SUPERIORITY|||||||0.014||||||Adjusted for multiple comparisons|Wilcoxon signed rank test|||||||0.014
92309042|NCT03258853|184518332|SUPERIORITY|||||||0.14||||||Adjusted for multiple comparisons|Wilcoxon signed rank test|||||||0.14
92309043|NCT03258853|184518333|SUPERIORITY|||||||1||||||Adjusted for multiple comparisons|Wilcoxon signed rank test|||||||1.0
92309044|NCT03258853|184518334|SUPERIORITY|||||||0.01|||||||Wilcoxon signed rank test|||||||0.01
92309045|NCT03258853|184518335|SUPERIORITY|||||||0.08|||||||McNemar|||||||0.08
92309046|NCT03258853|184518336|SUPERIORITY|||||||0.56|||||||McNemar|||||||0.56
92309047|NCT03258853|184518337|SUPERIORITY|||||||0.56|||||||McNemar|||||||0.56
92309048|NCT03258853|184518338|SUPERIORITY|||||||0.15|||||||McNemar|||||||0.15
92309049|NCT03395405|184518373|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.459|TWO_SIDED|95.0|0.33|1.64||No adjustment for multiple comparisons was made. The a priori threshold for statistical significant is 0.05.|Likelihood Ratio Test|The null hypothesis is that there is no difference in time until clinical resolution between study arms, with a two-sided alternative.|HR estimated from a Cox model|The null hypothesis is that there is no difference in time until clinical resolution between study arms, with a two-sided alternative.||1.64|0.33|0.459
92309050|NCT03395405|184518375|SUPERIORITY|||||||0.735||||||No adjustment for multiple comparisons was made. The a priori threshold for statistical significant is 0.05.|ANCOVA|Titer values were log-transformed||Includes participants in the Norovirus GII subgroup. The null hypothesis is that there is no difference in time until clinical resolution between study arms, with a two-sided alternative.||||0.735
92309051|NCT03395405|184518379|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.873|TWO_SIDED|95.0|0.19|4.06||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Likelihood Ratio Test|||Includes participants in the Norovirus GII subgroup. The null hypothesis is that there is no difference in time until first negative viral load between study arms, with a two-sided alternative.||4.06|0.19|0.873
92309052|NCT04308226|184518382|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92309053|NCT04308226|184518384|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92309054|NCT00660907|184518385|NON_INFERIORITY_OR_EQUIVALENCE|non-inferior margin delta = 0.35|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0569|<|0.0001|TWO_SIDED|95.0|-0.11|0.11||Significant at alpha=0.025 (1-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group as effect and baseline value as covariate||The null hypothesis is given as H0: mean(treat) minus mean(reference) \>= delta versus the alternative HA: mean(treat) minus mean(reference) \< delta (with alpha = 0.025, one-sided)||0.11|-0.11|<0.0001
92309055|NCT00660907|184518386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.65|STANDARD_ERROR_OF_MEAN|0.2483|<|0.0001|TWO_SIDED|95.0|-5.14|-4.17||Significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group as effect and baseline value as covariate||H0: mean(treat) minus mean(reference) = 0 versus the alternative HA: mean(treat) minus mean(reference) =/= 0||-4.17|-5.14|<0.0001
92309056|NCT00660907|184518387|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-37.2|STANDARD_ERROR_OF_MEAN|2.578|<|0.0001|TWO_SIDED|95.0|-42.3|-32.2||Significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(reference) = 0 versus the alternative HA: proportion(treat) minus proportion(reference) =/= 0||-32.2|-42.3|<0.0001
92309057|NCT00660907|184518388|SUPERIORITY_OR_OTHER||Risk Difference (RD)|30.8|STANDARD_ERROR_OF_MEAN|2.48|<|0.0001|TWO_SIDED|95.0|26.0|35.7||Significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(reference) = 0 versus the alternative HA: proportion(treat) minus proportion(reference) =/= 0||35.7|26.0|<0.0001
92309058|NCT04684238|184518423|OTHER|Least square means of the difference between the treatment groups, including a 2-sided 95% confidence interval was reported in the statistical analysis. The noninferiority criterion was a relative difference of less than 15% between treatment groups.|Least square means|6.57|||||TWO_SIDED|95.0|-8.99|22.13||Noninferiority was defined as the entire 95% CI for the difference being above the noninferiority margin for the relative difference of -15%. Testing the hypothesis of no difference between isoflurane and midazolam.|Mixed Models Analysis|||||22.13|-8.99|
92309059|NCT04684238|184518424|NON_INFERIORITY|The non-inferiority margin was set to a relative difference of -15%.|Least square means|5.34|||||TWO_SIDED|95.0|-10.48|21.17||Testing the hypothesis of no difference between isoflurane and midazolam.||||||21.17|-10.48|
92309060|NCT04684238|184518425|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.0004|TWO_SIDED|95.0|-3.8|-1.1|||ANCOVA|||||-1.1|-3.8|0.0004
92309061|NCT04684238|184518426|SUPERIORITY|Results display comparison between isoflurane and midazolam and are based on an analysis of variance model with treatment group as fixed effect and baseline opioid dose as covariate.|Mean Difference (Final Values)|-0.77||||0.096|TWO_SIDED|95.0|-1.69|0.14|||ANCOVA|||||0.14|-1.69|0.096
92309062|NCT04684238|184518427|SUPERIORITY||Hazard Ratio (HR)|3.3||||0.0021|TWO_SIDED|95.0|1.54|7.07|||Regression, Cox|||Time to extubation||7.07|1.54|0.0021
92309063|NCT04684238|184518428|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.636|TWO_SIDED|95.0|-0.15|0.25|||ANOVA|||Spontaneous breathing efforts. Results display a comparison between isoflurane and midazolam and are based on a mixed effects analysis of variance model with treatment group as fixed effect.||0.25|-0.15|0.636
92309064|NCT04684238|184518429|SUPERIORITY|Results display comparison between isoflurane and midazolam and are based on a Wilcoxon ranksum test.||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Need for inotropic/vasopressor agent at ≤24 hours.||||0.55
92309065|NCT04684238|184518429|SUPERIORITY|||||||0.637|||||||Wilcoxon (Mann-Whitney)|||Need for inotropic/vasopressor agent at \>24 hours.||||0.637
92309066|NCT02152605|184518460|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.03|||<|0.001|TWO_SIDED|95.0|-6.28|-1.79|||Mixed Models Analysis|||||-1.79|-6.28|<0.001
92309067|NCT02152605|184518461|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.122|||<|0.001|TWO_SIDED|95.0|0.071|0.172|||Mixed Models Analysis|||||0.172|0.071|<0.001
92189406|NCT01075815|184277167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0235||||0.8762|TWO_SIDED|95.0|-0.1546|0.1568|||Wilcoxon two sample test|||||0.1568|-0.1546|0.8762
92309068|NCT02152605|184518462|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.7|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4|||Mixed Models Analysis|||||-0.4|-1.1|<0.001
92309069|NCT00537303|184518467|NON_INFERIORITY_OR_EQUIVALENCE|The two treatments are declared equivalent if the 95% Confidence Interval for the estimated difference in means between the two treatment groups is included in the interval from -0.4 to 0.4 for both the full analysis set and the per protocol set|Mean Difference (Final Values)|0.06||||0.606||95.0|-0.17|0.29||P-value for test of difference between treatments.|ANCOVA|Regimen, country and previous oral antidiabetic drug (OAD) use as factors and baseline HbA1c as covariate.||Equivalence analysis with a null hypothesis stating that there is a difference between Advanced and Basic treatment groups of more than 0.4%.||0.29|-0.17|0.606
92189407|NCT01075815|184277168|SUPERIORITY_OR_OTHER|||||||0.3589||95.0|||||ANOVA|||||||0.3589
92189408|NCT01075815|184277169|SUPERIORITY_OR_OTHER|||||||0.0629||95.0|||||Wilcoxon two sample test|||||||0.0629
92189409|NCT01075815|184277170|SUPERIORITY_OR_OTHER|||||||0.4728||95.0|||||ANOVA|||||||0.4728
92309070|NCT00537303|184518468|NON_INFERIORITY_OR_EQUIVALENCE|The two treatments are declared equivalent if the 95% Confidence Interval for the estimated difference in means between the two treatment groups is included in the interval from -0.4 to 0.4 for both the Full Analysis Set and the Per Protocol set.|Mean Difference (Final Values)|0.03||||0.816||95.0|-0.21|0.26||P-value for test of difference between treatments.|ANCOVA|||Equivalence analysis with a null hypothesis stating that there is a difference between Advanced and Basic treatment groups of more than 0.4%.||0.26|-0.21|0.816
92309071|NCT01473524|184518475|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) General Association test stratified by randomization strata factor.||H0: The response rates are equal between placebo and 10 mg OCA. H1: The response rates are different between placebo and 10 mg OCA.||||<0.0001
92309072|NCT01473524|184518477|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) General Association test stratified by randomization strata factor.||H0: The response rates are equal between placebo and 10 mg OCA. H1: The response rates are different between placebo and 10 mg OCA.||||<0.0001
92309073|NCT01473524|184518478|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) General Association test stratified by randomization strata factor.||H0: The response rates are equal between placebo and 5-10 mg OCA. H1: The response rates are different between placebo and 5-10 mg OCA.||||<0.0001
92309074|NCT01473524|184518479|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) General Association test stratified by randomization strata factor.||H0: The response rates are equal between placebo and 5-10 mg OCA. H1: The response rates are different between placebo and 5-10 mg OCA.||||<0.0001
92309075|NCT01473524|184518480|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
92309076|NCT01473524|184518480|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
92309077|NCT01473524|184518481|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||0.0004
92309078|NCT01473524|184518481|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
92309079|NCT01473524|184518482|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
92309080|NCT01473524|184518482|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
92309081|NCT01473524|184518483|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
92309082|NCT01473524|184518483|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
92309083|NCT01473524|184518484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||0.0003
92309084|NCT01473524|184518484|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor||||||<0.0001
92309085|NCT01473524|184518485|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
92309086|NCT01473524|184518485|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
92309087|NCT01544179|184518488|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.273|TWO_SIDED|95.0|0.65|1.13|||Cox Proportional Hazards|||||1.13|0.65|0.273
92309088|NCT01544179|184518491|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.62||||0.029|TWO_SIDED|95.0|1.05|2.52|||Cox Proportional Hazards|||||2.52|1.05|0.029
92309089|NCT01544179|184518492|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92||||0.76|TWO_SIDED|95.0|0.55|1.55|||Regression, Logistic|||||1.55|0.55|0.760
92309090|NCT01544179|184518493|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.39||||0.308|TWO_SIDED|95.0|0.74|2.62|||Regression, Logistic|||||2.62|0.74|0.308
92309091|NCT01544179|184518494|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92||||0.77|TWO_SIDED|95.0|0.53|1.59|||Regression, Logistic|||||1.59|0.53|0.770
92309092|NCT01544179|184518495|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.507|TWO_SIDED|95.0|0.68|1.21|||Cox Proportional Hazards|||||1.21|0.68|0.507
92309093|NCT01544179|184518496|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.91||||0.725|TWO_SIDED|95.0|0.54|1.53|||Regression, Logistic|||||1.53|0.54|0.725
92309094|NCT01544179|184518497|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92||||0.575|TWO_SIDED|95.0|0.69|1.23|||Cox Proportional Hazards|||||1.23|0.69|0.575
92309095|NCT01544179|184518498|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01||||0.959|TWO_SIDED|95.0|0.61|1.68|||Regression, Logistic|||||1.68|0.61|0.959
92309096|NCT01544179|184518499|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89||||0.437|TWO_SIDED|95.0|0.66|1.2|||Cox Proportional Hazards|||||1.20|0.66|0.437
92309097|NCT04516759|184518526|SUPERIORITY||Risk Ratio (RR)|1.09||||0.1854|TWO_SIDED|95.0|0.9|1.32|||Chi-squared|Chi-squared test on the one-sided significance level of 2.5%||||1.32|0.9|0.1854
92189410|NCT01075815|184277171|SUPERIORITY_OR_OTHER|||||||0.095||95.0|||||Fisher Exact|||||||0.0950
92309098|NCT04516759|184518527|OTHER|||||||0.0286||||||Baseline p-value|Wilcoxon (Mann-Whitney)|one-side significance level of 2.5%||||||0.0286
92309099|NCT04516759|184518527|OTHER|||||||0.0786||||||Day 7 p-value|Wilcoxon (Mann-Whitney)|one-side significance level of 2.5%||||||0.0786
92309100|NCT04516759|184518527|OTHER|||||||0.2169||||||Day 14 p-value|Wilcoxon (Mann-Whitney)|one-side significance level of 2.5%||||||0.2169
92309101|NCT04516759|184518527|OTHER|||||||0.186||||||Day 21 p-value|Wilcoxon (Mann-Whitney)|one-sided significance level of 2.5%||||||0.1860
92309102|NCT04516759|184518527|OTHER|||||||0.2256||||||Study Drug Discontinuation (SDD) p-value|Wilcoxon (Mann-Whitney)|one-sided significance level of 2.5%||||||0.2256
92309103|NCT04516759|184518528|OTHER|||||||0.4006||||||Increase in Diabetic Medication needed equal or more than 3 days|Fisher Exact|||||||0.4006
92309104|NCT04516759|184518528|OTHER|||||||0.7482||||||Diabetic Medication is stable/reduced equal or more than 3 days|Fisher Exact|||||||0.7482
92309105|NCT04516759|184518528|OTHER|||||||0.6949||||||Increase in Diabetic Medication needed at any time during the study|Fisher Exact|||||||0.6949
92309106|NCT04516759|184518528|OTHER|||||||0.5521||||||Diabetic Medication is stable/reduced at any time during the study|Fisher Exact|||||||0.5521
92309107|NCT04516759|184518529|OTHER|||||||0.5875|||||||Fisher Exact|||||||0.5875
92309108|NCT04516759|184518530|OTHER|||||||0.1129|||||||Fisher Exact|||||||0.1129
92309109|NCT04516759|184518531|SUPERIORITY|||||||0.1556|||||||Log Rank|||||||0.1556
92309110|NCT04516759|184518532|OTHER||Risk Ratio (RR)|0.41||||0.0903|TWO_SIDED|95.0|0.13|1.26|||Fisher Exact|The p-value is assessed by means of an Fisher's exact test on the one-sided significance level of 2.5%||||1.26|0.13|0.0903
92309111|NCT04516759|184518533|OTHER|||||||0.6144|||||||Fisher Exact|One-sided significance level of 2.5%||||||0.6144
92309112|NCT04516759|184518534|OTHER|||||||0.0105|||||||Fisher Exact|one-sided significance level of 2.5%||||||0.0105
92309113|NCT04516759|184518535|OTHER|||||||0.062|||||||Fisher Exact|one-sided significance level of 2.5%||||||0.062
92309114|NCT01338870|184518557|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.145||0.7606|TWO_SIDED|80.0|-0.08|0.29|||Mixed Models Analysis|||Treatment difference and 80% confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||0.29|-0.08|0.7606
92309115|NCT01338870|184518557|SUPERIORITY_OR_OTHER||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.142||0.0266|TWO_SIDED|80.0|-0.46|-0.09|||Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.09|-0.46|0.0266
92309116|NCT01338870|184518557|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.141||0.044|TWO_SIDED|80.0|-0.42|-0.06|||Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.06|-0.42|0.0440
92309117|NCT01338870|184518557|SUPERIORITY_OR_OTHER||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.137||0.0001|TWO_SIDED|80.0|-0.71|-0.36|||Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.36|-0.71|0.0001
92309118|NCT01338870|184518557|SUPERIORITY_OR_OTHER||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.139||0.0013|TWO_SIDED|80.0|-0.6|-0.25|||Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.25|-0.60|0.0013
92309119|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-5.21|STANDARD_ERROR_OF_MEAN|5.7||0.3611|TWO_SIDED|95.0|-16.4|5.98|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.98|-16.40|0.3611
92309120|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-9.45|STANDARD_ERROR_OF_MEAN|5.686||0.0969|TWO_SIDED|95.0|-20.61|1.71|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.71|-20.61|0.0969
92309121|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-8.1|STANDARD_ERROR_OF_MEAN|5.71||0.1566|TWO_SIDED|95.0|-19.3|3.11|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||3.11|-19.30|0.1566
92309122|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-15.92|STANDARD_ERROR_OF_MEAN|5.678||0.0052|TWO_SIDED|95.0|-27.06|-4.77|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-4.77|-27.06|0.0052
92309123|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-21.09|STANDARD_ERROR_OF_MEAN|5.712||0.0002|TWO_SIDED|95.0|-32.3|-9.88|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-9.88|-32.30|0.0002
92309124|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|5.852||0.9893|TWO_SIDED|95.0|-11.41|11.56|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||11.56|-11.41|0.9893
92309125|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-4.14|STANDARD_ERROR_OF_MEAN|5.814||0.4767|TWO_SIDED|95.0|-15.55|7.27|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||7.27|-15.55|0.4767
92309126|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-2.87|STANDARD_ERROR_OF_MEAN|5.816||0.6222|TWO_SIDED|95.0|-14.28|8.55|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||8.55|-14.28|0.6222
92309127|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-13.88|STANDARD_ERROR_OF_MEAN|5.744||0.0159|TWO_SIDED|95.0|-25.16|-2.61|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-2.61|-25.16|0.0159
92309128|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-18.69|STANDARD_ERROR_OF_MEAN|5.735||0.0012|TWO_SIDED|95.0|-29.95|-7.44|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-7.44|-29.95|0.0012
92309129|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|3.86|STANDARD_ERROR_OF_MEAN|5.895||0.5125|TWO_SIDED|95.0|-7.71|15.43|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||15.43|-7.71|0.5125
92309130|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-8.47|STANDARD_ERROR_OF_MEAN|5.815||0.1455|TWO_SIDED|95.0|-19.89|2.94|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.94|-19.89|0.1455
92309131|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|0.94|STANDARD_ERROR_OF_MEAN|5.794||0.8712|TWO_SIDED|95.0|-10.43|12.31|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||12.31|-10.43|0.8712
92309132|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-19.57|STANDARD_ERROR_OF_MEAN|5.707||0.0006|TWO_SIDED|95.0|-30.77|-8.36|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-8.36|-30.77|0.0006
92309133|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-19.08|STANDARD_ERROR_OF_MEAN|5.696||0.0008|TWO_SIDED|95.0|-30.26|-7.9|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-7.90|-30.26|0.0008
92309134|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|6.99|STANDARD_ERROR_OF_MEAN|6.055||0.2488|TWO_SIDED|95.0|-4.9|18.87|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||18.87|-4.90|0.2488
92309135|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-7.56|STANDARD_ERROR_OF_MEAN|6.004||0.2084|TWO_SIDED|95.0|-19.34|4.23|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||4.23|-19.34|0.2084
92309136|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|0.71|STANDARD_ERROR_OF_MEAN|5.971||0.9053|TWO_SIDED|95.0|-11.01|12.43|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||12.43|-11.01|0.9053
92309137|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-15.3|STANDARD_ERROR_OF_MEAN|5.853||0.0091|TWO_SIDED|95.0|-26.79|-3.81|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-3.81|-26.79|0.0091
92309138|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-18.62|STANDARD_ERROR_OF_MEAN|5.875||0.0016|TWO_SIDED|95.0|-30.15|-7.09|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-7.09|-30.15|0.0016
92309139|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|6.5|STANDARD_ERROR_OF_MEAN|6.217||0.2963|TWO_SIDED|95.0|-5.71|18.7|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||18.70|-5.71|0.2963
92309140|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-9.71|STANDARD_ERROR_OF_MEAN|6.17||0.1159|TWO_SIDED|95.0|-21.82|2.4|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.40|-21.82|0.1159
92309141|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|4.7|STANDARD_ERROR_OF_MEAN|6.103||0.4413|TWO_SIDED|95.0|-7.28|16.68|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||16.68|-7.28|0.4413
92309142|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-15.3|STANDARD_ERROR_OF_MEAN|5.918||0.0099|TWO_SIDED|95.0|-26.91|-3.68|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-3.68|-26.91|0.0099
92309143|NCT01338870|184518558|SUPERIORITY_OR_OTHER||LS mean difference|-14.95|STANDARD_ERROR_OF_MEAN|5.981||0.0126|TWO_SIDED|95.0|-26.69|-3.21|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-3.21|-26.69|0.0126
92309144|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.058||0.1797|TWO_SIDED|80.0|-0.13|0.02|||Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||0.02|-0.13|0.1797
92309145|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.058||0.0234|TWO_SIDED|95.0|-0.19|-0.04|||Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.04|-0.19|0.0234
92309146|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.058||0.04|TWO_SIDED|80.0|-0.18|-0.03|||Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.03|-0.18|0.0400
92309147|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.057||0.1568|TWO_SIDED|80.0|-0.13|0.02|||Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||0.02|-0.13|0.1568
92309148|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.058||0.001|TWO_SIDED|80.0|-0.25|-0.11|||Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.11|-0.25|0.0010
92309149|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.0695|TWO_SIDED|80.0|-0.19|-0.01|||Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.01|-0.19|0.0695
92309150|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.069||0.0636|TWO_SIDED|80.0|-0.2|-0.02|||Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.02|-0.20|0.0636
92309151|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.069||0.0512|TWO_SIDED|80.0|-0.2|-0.02|||Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.02|-0.20|0.0512
92309152|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.068||0.0051|TWO_SIDED|80.0|-0.26|-0.09|||Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.09|-0.26|0.0051
92309153|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.069||0.0009|TWO_SIDED|80.0|-0.3|-0.13|||Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.13|-0.30|0.0009
92309154|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.094||0.2392|TWO_SIDED|80.0|-0.19|0.05|||Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||0.05|-0.19|0.2392
92309155|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.091||0.0308|TWO_SIDED|80.0|-0.29|-0.05|||Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.05|-0.29|0.0308
92309156|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.091||0.0019|TWO_SIDED|80.0|-0.38|-0.15|||Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.15|-0.38|0.0019
92309157|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.089||0.0034|TWO_SIDED|80.0|-0.36|-0.13|||Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.13|-0.36|0.0034
92309158|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09||0.0002|TWO_SIDED|80.0|-0.44|-0.21|||Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.21|-0.44|0.0002
92309159|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.126||0.7854|TWO_SIDED|80.0|-0.06|0.26|||Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||0.26|-0.06|0.7854
92309160|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.123||0.0778|TWO_SIDED|80.0|-0.33|-0.02|||Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.02|-0.33|0.0778
92189411|NCT01075815|184277173|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9625||||0.9179|TWO_SIDED|95.0|0.4655|1.99|||Chi-squared|||||1.9900|0.4655|0.9179
92189412|NCT01075815|184277174|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.875||||0.7271|TWO_SIDED|95.0|0.4133|1.8524|||Chi-squared|||||1.8524|0.4133|0.7271
92189413|NCT01075815|184277175|SUPERIORITY_OR_OTHER|||||||0.3267||95.0|||||Wilcoxon two sample test|||||||0.3267
92189414|NCT01075815|184277176|SUPERIORITY_OR_OTHER|||||||0.4164||95.0|||||Wilcoxon two sample test|||||||0.4164
92189415|NCT01075815|184277177|SUPERIORITY_OR_OTHER|||||||0.5952||95.0|||||Wilcoxon two sample test|||||||0.5952
92189416|NCT01075815|184277179|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9444||||0.8852|TWO_SIDED|95.0|0.4347|2.0518|||Chi-squared|||||2.0518|0.4347|0.8852
92189417|NCT01261793|184277186|SUPERIORITY||Odds Ratio (OR)|1.024|||=|0.899|TWO_SIDED|95.0|0.71|1.477||p-values for the comparison of treatment groups have been calculated using logistic regression with factors for treatment, pooled region, and baseline disease status.|Regression, Logistic||Odds ratio: Epratuzumab/Placebo calculated using logistic regression with factors for treatment, pooled region, and baseline disease status.|||1.477|0.710|=0.899
92309161|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.122||0.0065|TWO_SIDED|80.0|-0.46|-0.15|||Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.15|-0.46|0.0065
92309162|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.119||0.0011|TWO_SIDED|80.0|-0.52|-0.21|||Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.21|-0.52|0.0011
92309163|NCT01338870|184518559|SUPERIORITY_OR_OTHER||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.121||0.0013|TWO_SIDED|80.0|-0.52|-0.21|||Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.21|-0.52|0.0013
92189418|NCT01261793|184277186|SUPERIORITY||Odds Ratio (OR)|1.07|||=|0.716|TWO_SIDED|95.0|0.743|1.539||p-values for the comparison of treatment groups have been calculated using logistic regression with factors for treatment, pooled region, and baseline disease status.|Regression, Logistic||Odds ratio: Epratuzumab/Placebo calculated using logistic regression with factors for treatment, pooled region, and baseline disease status.|||1.539|0.743|=0.716
92189419|NCT00763919|184277194|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 6 months and baseline equals zero.||||<.001
92309164|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.272||0.5636|TWO_SIDED|95.0|-0.69|0.38|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.38|-0.69|0.5636
92309165|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.271||0.4889|TWO_SIDED|95.0|-0.35|0.72|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.72|-0.35|0.4889
92309166|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.272||0.5849|TWO_SIDED|95.0|-0.68|0.39|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.39|-0.68|0.5849
92309167|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.268||0.5104|TWO_SIDED|95.0|-0.7|0.35|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.35|-0.70|0.5104
92309168|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.269||0.264|TWO_SIDED|95.0|-0.83|0.23|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.23|-0.83|0.2640
92309169|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.71|STANDARD_ERROR_OF_MEAN|0.357||0.0464|TWO_SIDED|95.0|-1.42|-0.01|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.01|-1.42|0.0464
92309170|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.353||0.7107|TWO_SIDED|95.0|-0.83|0.56|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.56|-0.83|0.7107
92309171|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.352||0.1564|TWO_SIDED|95.0|-1.19|0.19|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.19|-1.19|0.1564
92309172|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.345||0.3834|TWO_SIDED|95.0|-0.98|0.38|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.38|-0.98|0.3834
92309173|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.346||0.1279|TWO_SIDED|95.0|-1.21|0.15|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.15|-1.21|0.1279
92309174|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.339||0.252|TWO_SIDED|95.0|-1.06|0.28|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.28|-1.06|0.2520
92189420|NCT00763919|184277195|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Sign test|||The null hypothesis is that the median difference between 6 months and baseline equals zero.||||.01
92189421|NCT00763919|184277196|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 6 months and baseline equals zero.||||<.001
92189422|NCT00763919|184277197|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||<.001
92189423|NCT00763919|184277198|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||<.001
92189424|NCT00763919|184277199|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.042
92189425|NCT00763919|184277200|SUPERIORITY_OR_OTHER|||||||0.044||95.0|||||Sign test|||The null hypothesis is that the median difference between 6 months and baseline equals zero.||||.044
92309175|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.336||0.2772|TWO_SIDED|95.0|-0.3|1.03|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.03|-0.30|0.2772
92309176|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.335||0.7038|TWO_SIDED|95.0|-0.79|0.53|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.53|-0.79|0.7038
92309177|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.329||0.2031|TWO_SIDED|95.0|-1.07|0.23|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.23|-1.07|0.2031
92309178|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.33||0.6948|TWO_SIDED|95.0|-0.78|0.52|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.52|-0.78|0.6948
92189426|NCT00763919|184277201|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.002
92309179|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.421||0.5691|TWO_SIDED|95.0|-1.07|0.59|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.59|-1.07|0.5691
92309180|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|0.415||0.3447|TWO_SIDED|95.0|-0.42|1.21|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.21|-0.42|0.3447
92309181|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.413||0.5769|TWO_SIDED|95.0|-1.04|0.58|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.58|-1.04|0.5769
92309182|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.402||0.3599|TWO_SIDED|95.0|-1.16|0.42|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.42|-1.16|0.3599
92309183|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.407||0.46|TWO_SIDED|95.0|-1.1|0.5|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.50|-1.10|0.4600
92189427|NCT00763919|184277202|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 6 months and baseline equals zero.||||.001
92189428|NCT00763919|184277203|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.001
92189429|NCT00763919|184277204|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.001
92189430|NCT00763919|184277205|SUPERIORITY_OR_OTHER|||||||0.827||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.827
92189431|NCT00763919|184277206|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.002
92189432|NCT00763919|184277207|SUPERIORITY_OR_OTHER|||||||0.246||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||.246
92189433|NCT00763919|184277208|SUPERIORITY_OR_OTHER|||||||0.101||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||.101
92189434|NCT00763919|184277209|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||.003
92189435|NCT00763919|184277210|SUPERIORITY_OR_OTHER|||||||0.096||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||.096
92189436|NCT00763919|184277211|SUPERIORITY_OR_OTHER|||||||0.072||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||.072
92189437|NCT00763919|184277212|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 1 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||<.001
92189438|NCT00763919|184277213|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||.078
92189439|NCT00763919|184277214|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||.002
92189440|NCT00763919|184277215|SUPERIORITY_OR_OTHER|||||||0.562||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||.562
92309184|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.504||0.4253|TWO_SIDED|95.0|-1.39|0.59|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.59|-1.39|0.4253
92309185|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|0.497||0.4349|TWO_SIDED|95.0|-0.59|1.37|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.37|-0.59|0.4349
92309186|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.492||0.6697|TWO_SIDED|95.0|-1.18|0.76|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.76|-1.18|0.6697
92309187|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.476||0.5501|TWO_SIDED|95.0|-1.22|0.65|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.65|-1.22|0.5501
92309188|NCT01338870|184518561|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.484||0.4081|TWO_SIDED|95.0|-1.35|0.55|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.55|-1.35|0.4081
92309189|NCT03201445|184518566|OTHER||Difference in Percentage|-7.8|||||TWO_SIDED|95.0|-16.3|0.7|||||Difference in percentage and 95% confidence interval (CI) was based on a stratified Mantel-Haenszel test.|||0.7|-16.3|
92189441|NCT00763919|184277216|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||.12
92189442|NCT05431543|184277224|SUPERIORITY||Odds Ratio (OR)|83.988|||<|0.0001|TWO_SIDED||||||Generalized Estimating Equation (GEE)|||||||<0.0001
92309190|NCT03201445|184518568|OTHER||Median Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.1|1.8|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||1.8|-2.1|
92189443|NCT05431543|184277224|SUPERIORITY||Odds Ratio (OR)|102.093|||<|0.0001|TWO_SIDED||||||Generalized Estimating Equation (GEE)|||||||<0.0001
92309191|NCT03201445|184518570|OTHER||Median Difference (Final Values)|5.7|||||TWO_SIDED|95.0|-13.4|24.7|||||Difference in medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||24.7|-13.4|
92309192|NCT03201445|184518572|OTHER||Median Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.8|4.9|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||4.9|-2.8|
92309193|NCT03201445|184518574|OTHER||Median Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.1|0.3|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||0.3|-0.1|
92309194|NCT03201445|184518576|OTHER||Median Difference (Final Values)|2.0|||||TWO_SIDED|95.0|0.0|4.0|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||4|0|
92309195|NCT00474266|184518597|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|2.2|||||TWO_SIDED|95.0|0.29|6.78||||||||6.78|0.29|
92309196|NCT00474266|184518597|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥ -10%|Difference in percentage|0.28|||||TWO_SIDED|95.0|-0.78|1.58||||||||1.58|-0.78|
92309197|NCT00474266|184518597|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥ -10%.|Difference in percentage|0.28|||||TWO_SIDED|95.0|-0.79|1.58||||||||1.58|-0.79|
92309198|NCT00474266|184518597|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.06|1.07||||||||1.07|-1.06|
92189444|NCT02924051|184277225|EQUIVALENCE|With an alpha level of .05 and effective (post-attrition) sample size of approximately 25 participants per county, and 3 counties per treatment group, the power of the group comparison was at least 80%, assuming an ICC of .01 or less, and an observed difference in proportions of .25. The anticipated power for the longitudinal comparison of continuous outcomes was expected to be even greater under these assumptions given the greater power for the parametric tests.|Mean Difference (Final Values)|1.12||||0.26|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.26
92189445|NCT02924051|184277227|SUPERIORITY|||||||0.36|||||||t-test, 1 sided|||Comparison of Cooking Skills/Nutrition Education/MI at baseline and 12 months.||||0.36
92189446|NCT00914732|184277231|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation (Liquid SC Group) and IMVAMUNE® (1x10\^8 TCID50) lyophilized formulation (Lyophilized SC) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Lyophilized SC was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|-0.74|||||TWO_SIDED|97.5|-1.23|-0.25||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable||-0.25|-1.23|
92309199|NCT00474266|184518598|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.06|3.17||||||||3.17|-1.06|
92309200|NCT00474266|184518599|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|4.06|||||TWO_SIDED|95.0|-2.82|12.46||||||||12.46|-2.82|
92309201|NCT00474266|184518600|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥ -10%|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.06|3.18||||||||3.18|-1.06|
92309202|NCT00474266|184518601|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|3.36|||||TWO_SIDED|95.0|-0.28|9.5||||||||9.5|-0.28|
92309203|NCT03316378|184518691|SUPERIORITY||Mean Difference (Final Values)|73.8||||0.44|TWO_SIDED|||||Adjusted for multiple comparisons|ANOVA|||Specific Aim 1: Between groups||||0.44
92309204|NCT03316378|184518691|SUPERIORITY||Mean Difference (Final Values)|31.7||||0.08|TWO_SIDED|||||P-value adjusted for multiple comparisons|ANOVA|||Specific Aim 2: Effect of time||||0.08
92309205|NCT03316378|184518692|SUPERIORITY||Mean Difference (Final Values)|6.9|||<|0.001|TWO_SIDED|||||P-value adjusted for multiple comparisons|ANOVA|||Specific Aim 1: Between groups||||<0.001
92309206|NCT03316378|184518692|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.012|TWO_SIDED|||||P-value adjusted for multiple comparisons|ANOVA|||Specific Aim 2: Effect of time||||0.012
92309207|NCT03316378|184518693|SUPERIORITY||Mean Difference (Final Values)|0.15||||1|TWO_SIDED|||||P-value adjusted for multiple comparisons|ANOVA|||Specific Aim 1: Between groups||||1.0
92189447|NCT00914732|184277232|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation (Liquid SC Group) and IMVAMUNE® (1x10\^8 TCID50) lyophilized formulation (Lyophilized SC) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Lyophilized SC was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|-0.83|||||TWO_SIDED|97.5|-1.32|-0.33||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable||-0.33|-1.32|
92189448|NCT00914732|184277233|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation subcutaneously (Liquid SC Group) and IMVAMUNE® (2x10\^7 TCID50) formulation intradermally (Liquid ID) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Liquid ID was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|0.05|||||TWO_SIDED|97.5|-0.43|0.52||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||0.52|-0.43|
92309208|NCT03316378|184518693|SUPERIORITY||Mean Difference (Final Values)|0.05||||1|TWO_SIDED|||||P-value adjusted for multiple comparisons|ANOVA|||Specific Aim 2: Effect of time||||1.0
92309209|NCT02288182|184518767|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Student's t-test comparing the group means was planned and performed (successfully). However, due to some outliers, the central tendencies have been reported as medians (instead of arithmetic means). Therefore an additional non-parameteric test (Mann-Whitney U-test) was performed.||||0.001
92309210|NCT01197755|184518785|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.17||||0.004|TWO_SIDED|95.0|0.05|0.28||Week 24|Mantel Haenszel|Treatment difference in proportion of responders at Week 24 with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.28|0.05|0.004
92309211|NCT01197755|184518785|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.07||||0.168|TWO_SIDED|95.0|-0.03|0.18||Week 24|Mantel Haenszel|Treatment difference in proportion of responders at Week 24 with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.18|-0.03|0.168
92309212|NCT01197755|184518786|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.22|||<|0.001|TWO_SIDED|95.0|0.16|0.29|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.29|0.16|<0.001
92309213|NCT01197755|184518787|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.1||||0.014|TWO_SIDED|95.0|0.02|0.19|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.19|0.02|0.014
92309214|NCT01197755|184518787|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.05||||0.18|TWO_SIDED|95.0|-0.02|0.12||Nominal p-value presented for Group B comparison. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (primary variable comparison of Group B versus Group C was non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.12|-0.02|0.180
92309215|NCT01197755|184518788|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.12|||<|0.001|TWO_SIDED|95.0|0.06|0.19|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.19|0.06|<0.001
92309216|NCT01197755|184518788|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.0||||0.891|TWO_SIDED|95.0|-0.04|0.04||Nominal p-value presented for Group B comparison. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (primary variable comparison of Group B versus Group C was non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.04|-0.04|0.891
92309217|NCT01197755|184518789|SUPERIORITY_OR_OTHER||Treatment difference|||||0.01||||||Nominal p-value presented for treatment comparison. ACRn was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-values are estimated using the Van Elteren test stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||0.010
92309218|NCT01197755|184518789|SUPERIORITY_OR_OTHER|||||||0.019||||||Nominal p-value presented for treatment comparison. ACRn was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-values are estimated using the Van Elteren test stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||0.019
92309219|NCT01197755|184518790|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.023|TWO_SIDED|95.0|1.21|13.91|||Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||13.91|1.21|0.023
92309220|NCT01197755|184518790|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.197|TWO_SIDED|95.0|0.65|8.23||Nominal p-value presented for Group B comparison. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (primary variable comparison of Group B versus Group C was non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||8.23|0.65|0.197
92309221|NCT01197755|184518791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.005|TWO_SIDED|95.0|1.54|10.92|||Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||10.92|1.54|0.005
92309222|NCT01197755|184518791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.7||||0.002|TWO_SIDED|95.0|1.79|12.3||Nominal p-value presented for Group B comparison. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (primary variable comparison of Group B versus Group C was non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||12.30|1.79|0.002
92309223|NCT01197755|184518792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.27|||<|0.001|TWO_SIDED|95.0|1.86|5.76||Nominal p value only. This was not included in the pre-defined multiplicity testing procedure.|Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data||5.76|1.86|<0.001
92309224|NCT01197755|184518792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89||||0.028|TWO_SIDED|95.0|1.07|3.31||Nominal p-value only. This was not included in the pre-defined multiplicity testing procedure.|Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data||3.31|1.07|0.028
92309225|NCT01197755|184518793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4||||0.004|TWO_SIDED|95.0|1.33|4.45|||Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using logistic regression with treatment and pooled country as factors|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||4.45|1.33|0.004
92309226|NCT01197755|184518793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.186|TWO_SIDED|95.0|0.82|2.79||Nominal p-value presented for Group B comparison. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (primary variable comparison of Group B versus Group C was non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using logistic regression with treatment and pooled country as factors|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.79|0.82|0.186
92309227|NCT01197755|184518794|SUPERIORITY_OR_OTHER|||||||0.729||||||Nominal p-value only. This was not included in the pre-defined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|ANCOVA|This was performed on the ranks of the change from baseline, by pooled country, including a term for the ranks of the baseline score as covariate.||||||0.729
92309228|NCT01197755|184518794|SUPERIORITY_OR_OTHER|||||||0.019||||||Nominal p-value only. This was not included in the pre-defined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|ANCOVA|This was performed on the ranks of the change from baseline, by pooled country, including a term for the ranks of the baseline score as covariate.||||||0.019
92309229|NCT01197755|184518795|SUPERIORITY_OR_OTHER||Treatment difference|2.6||||0.009||95.0|0.65|4.56|||ANCOVA|Improvement from baseline, including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||4.56|0.65|0.009
92309230|NCT01197755|184518795|SUPERIORITY_OR_OTHER||Treatment difference|1.53||||0.118|TWO_SIDED|95.0|-0.39|3.44|||ANCOVA|Improvement from baseline, including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.44|-0.39|0.118
92309231|NCT01197755|184518796|SUPERIORITY_OR_OTHER||Treatment difference|0.67||||0.487||95.0|-1.23|2.58|||ANCOVA|Improvement from baseline, including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.58|-1.23|0.487
92309232|NCT01197755|184518796|SUPERIORITY_OR_OTHER||Treatment difference|0.62||||0.516|TWO_SIDED|95.0|-1.26|2.51|||ANCOVA|Improvement from baseline, including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.51|-1.26|0.516
92189449|NCT00914732|184277234|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation subcutaneously (Liquid SC Group) and IMVAMUNE® (2x10\^7 TCID50) formulation intradermally (Liquid ID) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Liquid ID was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|-0.27|||||TWO_SIDED|97.5|-0.77|0.23||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||0.23|-0.77|
92309233|NCT03582826|184518805|SUPERIORITY|Paired Wilcoxon Signed-Rank Tests|Median Difference (Final Values)|79.0||||0.02|TWO_SIDED|95.0|26.0|163.0||Original p-value for dermatological bacteria was 6e-05. It was adjusted first by applying centered log-ratio (CLR) transformation approach then by false discovery rate (FDR) correction for multiple comparisons by using Benjamini-Hochberg Procedure.|Wilcoxon (Mann-Whitney)|||||163|26|0.02
92309234|NCT00574912|184518818|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92309235|NCT01282723|184518819|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.0093|TWO_SIDED|95.0|1.1|1.95|||Mixed Models Analysis|||"Estimation of Odds Ratio of True Positive Fraction between SureCALL® and TOCO~Null hypothesis: There is no difference between the True Positive Fraction of SureCALL® and of TOCO or the SureCALL® is significantly greater than TOCO.~Alternative hypothesis: There is a difference between the True Positive Fraction of SureCALL® and of TOCO and the TOCO is significantly greater than SureCALL®."||1.95|1.10|0.0093
92309236|NCT01282723|184518819|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.3204|TWO_SIDED|95.0|0.61|1.17|||Mixed Models Analysis|||"Estimation of Odds Ratio of False Positive Fraction between SureCALL® and TOCO~Null hypothesis: There is no difference between the False Positive Fraction of SureCALL® and of TOCO or the SureCALL® is significantly less than TOCO.~Alternative hypothesis: There is a difference between the False Positive Fraction of SureCALL® and of TOCO and the TOCO is significantly less than SureCALL®."||1.17|0.61|0.3204
92309237|NCT00469911|184518821|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92309238|NCT00761657|184518845|OTHER|||||||0.2073||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.2073
92309239|NCT00761657|184518845|OTHER|||||||0.0046||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.0046
92309240|NCT00761657|184518845|OTHER|||||||0.086||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.0860
92309241|NCT00761657|184518845|OTHER|||||||0.4005||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.4005
92309242|NCT00761657|184518845|OTHER||||||<|0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is presented for Day 26-29 timepoint. P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
92309243|NCT00761657|184518845|OTHER||||||<|0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
92309244|NCT00761657|184518845|OTHER||||||<|0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
92309245|NCT00761657|184518845|OTHER||||||<|0.0001|||||||t-test, 2 sided|Threshold for significance at 0.05 level.||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
92309246|NCT00761657|184518846|OTHER|||||||0.0507||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.0507
92309247|NCT00761657|184518846|OTHER|||||||0.4502||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.4502
92309248|NCT00761657|184518846|OTHER|Threshold for significance at 0.05 level.||||||0.1603|||||||t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.1603
92309249|NCT00761657|184518846|OTHER|||||||0.9816||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.9816
92309250|NCT00761657|184518846|OTHER|||||||0.0139||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.0139
92309251|NCT00761657|184518846|OTHER||||||<|0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
92309252|NCT00761657|184518846|OTHER|||||||0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.0001
92309253|NCT00761657|184518846|OTHER||||||<|0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
92309254|NCT00618332|184518857|SUPERIORITY_OR_OTHER|||||||0.372||95.0|||||t-test, 2 sided|||||||0.372
92309255|NCT00618332|184518858|SUPERIORITY_OR_OTHER|||||||0.775||95.0|||||t-test, 2 sided|||||||0.775
92309256|NCT00618332|184518859|SUPERIORITY_OR_OTHER|||||||0.737||95.0|||||t-test, 2 sided|||||||0.737
92309257|NCT00618332|184518860|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||t-test, 2 sided|||||||0.117
92309258|NCT00618332|184518861|SUPERIORITY_OR_OTHER|||||||0.676||95.0|||||t-test, 2 sided|||||||0.676
92309259|NCT00618332|184518862|SUPERIORITY_OR_OTHER|||||||0.795||95.0|||||t-test, 2 sided|||||||0.795
92309260|NCT00618332|184518863|SUPERIORITY_OR_OTHER|||||||0.638||95.0|||||t-test, 2 sided|||||||0.638
92309261|NCT00618332|184518864|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||t-test, 2 sided|||||||0.800
92309262|NCT00618332|184518865|SUPERIORITY_OR_OTHER|||||||0.968||95.0|||||t-test, 2 sided|||||||0.968
92309263|NCT01564537|184518872|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.742||||0.012|TWO_SIDED|95.0|0.587|0.939|||Log Rank||HR is estimated from Cox Regression.|||0.939|0.587|0.012
92309264|NCT01564537|184518873|SUPERIORITY||Hazard Ratio (HR)|0.939|||=|0.495|TWO_SIDED|95.0|0.784|1.125|||Log Rank||HR:estimated from Cox Regression with stratification factors: prior therapies, proteasome inhibitor, and ISS Stage at Screening with treatment as factor in model. \<1 hazard ratio for treatment=better prevention of death in drug arm vs control.|||1.125|0.784|=0.495
92309265|NCT01564537|184518874|SUPERIORITY||Hazard Ratio (HR)|0.916|||=|0.764|TWO_SIDED|95.0|0.516|1.626|||Log Rank||HR:estimated from Cox Regression with stratification factors: prior therapies, proteasome inhibitor, and ISS Stage at Screening with treatment as factor in model. \<1 hazard ratio for treatment=better prevention of death in drug arm vs control.|||1.626|0.516|=0.764
92309266|NCT01564537|184518886|SUPERIORITY||Odds Ratio (OR)|1.3|||=|0.332|TWO_SIDED|95.0|0.69|2.45||P-value is from Cochran-Mantel-Haenszel stratified by: prior therapies (1, 2 or 3), proteasome inhibitor (exposed, naïve), and ISS Stage at Screening (I or II, III).|Cochran-Mantel-Haenszel||Odds ratio is from logistic regression model with prognostic factors: prior therapies (1, 2 or 3), proteasome inhibitor (exposed, naïve),and ISS Stage at Screening (I or II, III). Odds ratio \> 1 favors Ixazomib.|||2.45|0.69|=0.332
92309267|NCT02932306|184518894|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with factors of treatment group and analysis center and the respective baseline lesion count as a covariate.||||<0.001
92309268|NCT02932306|184518895|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05.|ANCOVA|||Analysis was performed using ANCOVA with factors of treatment group and analysis center and the respective baseline lesion count as a covariate.||||<0.001
92309269|NCT02932306|184518896|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05.|Regression, Logistic|||Analysis was performed using a logistic regression test (using Firth's Penalized Likelihood) with factors of treatment group and analysis center.||||<0.001
92309270|NCT02784444|184518982|SUPERIORITY||Odds Ratio (OR)|0.89||||0.747|TWO_SIDED|95.0|0.44|1.81||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||1.81|0.44|0.747
92309271|NCT02784444|184518982|SUPERIORITY||Odds Ratio (OR)|1.22||||0.575|TWO_SIDED|95.0|0.6|2.48||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||2.48|0.60|0.575
92309272|NCT02784444|184518982|SUPERIORITY||Odds Ratio (OR)|1.64||||0.158|TWO_SIDED|95.0|0.83|3.27||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||3.27|0.83|0.158
92309273|NCT02784444|184518983|SUPERIORITY||Odds Ratio (OR)|1.09||||0.828|TWO_SIDED|95.0|0.49|2.42||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||2.42|0.49|0.828
92309274|NCT02784444|184518983|SUPERIORITY||Odds Ratio (OR)|1.5||||0.299|TWO_SIDED|95.0|0.7|3.21||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||3.21|0.70|0.299
92309275|NCT02784444|184518983|SUPERIORITY||Odds Ratio (OR)|1.82||||0.116|TWO_SIDED|95.0|0.86|3.82||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||3.82|0.86|0.116
92309276|NCT02784444|184518984|SUPERIORITY||Odds Ratio (OR)|1.19||||0.657|TWO_SIDED|95.0|0.55|2.55||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||2.55|0.55|0.657
92309277|NCT02784444|184518984|SUPERIORITY||Odds Ratio (OR)|1.45||||0.332|TWO_SIDED|95.0|0.69|3.06||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||3.06|0.69|0.332
92309278|NCT02784444|184518984|SUPERIORITY||Odds Ratio (OR)|1.51||||0.27|TWO_SIDED|95.0|0.72|3.16||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||3.16|0.72|0.270
92309279|NCT02784444|184518985|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.392|TWO_SIDED|95.0|-0.7|0.3||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.3|-0.7|0.392
92309280|NCT02784444|184518985|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.023|TWO_SIDED|95.0|-1.1|-0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||-0.1|-1.1|0.023
92309281|NCT02784444|184518985|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.028|TWO_SIDED|95.0|-1.0|-0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||-0.1|-1.0|0.028
92309282|NCT02784444|184518986|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.224|TWO_SIDED|95.0|-0.4|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline steatosis.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.4|0.224
92309283|NCT02784444|184518986|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.096|TWO_SIDED|95.0|-0.4|0.0||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline steatosis.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.0|-0.4|0.096
92309284|NCT02784444|184518986|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.007|TWO_SIDED|95.0|-0.6|-0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline steatosis.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||-0.1|-0.6|0.007
92309285|NCT02784444|184518987|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.488|TWO_SIDED|95.0|-0.1|0.2||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline inflammation.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.2|-0.1|0.488
92309286|NCT02784444|184518987|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.291|TWO_SIDED|95.0|-0.3|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline inflammation.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.3|0.291
92189450|NCT00914732|184277237|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation subcutaneously (Liquid SC Group) and IMVAMUNE® (2x10\^7 TCID50) formulation intradermally (Liquid ID) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Liquid ID was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|0.34|||||TWO_SIDED|97.5|-0.3|0.71||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||0.71|-0.3|
92309287|NCT02784444|184518987|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.595|TWO_SIDED|95.0|-0.2|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline inflammation.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.2|0.595
92309288|NCT02784444|184518988|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.416|TWO_SIDED|95.0|-0.4|0.2||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline ballooning.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.2|-0.4|0.416
92309289|NCT02784444|184518988|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.056|TWO_SIDED|95.0|-0.5|0.0||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline ballooning.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.0|-0.5|0.056
92309290|NCT02784444|184518988|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.22|TWO_SIDED|95.0|-0.4|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline ballooning.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.4|0.220
92309291|NCT02784444|184518989|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.928|TWO_SIDED|95.0|-0.3|0.3||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 vs. F2/F3, and baseline CRN fibrosis staging score.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.3|-0.3|0.928
92309292|NCT02784444|184518989|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.244|TWO_SIDED|95.0|-0.5|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 vs. F2/F3, and baseline CRN fibrosis staging score.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.5|0.244
92309293|NCT02784444|184518989|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.228|TWO_SIDED|95.0|-0.5|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 vs. F2/F3, and baseline CRN fibrosis staging score.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.5|0.228
92309294|NCT00843479|184519030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92309295|NCT00843479|184519031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.001
92309296|NCT00843479|184519032|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.01
92309297|NCT00843479|184519033|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||>0.05
92309298|NCT00843479|184519034|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||>0.05
92309299|NCT00843479|184519035|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||>0.05
92309300|NCT01386983|184519036|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|3.406||||0.0128|TWO_SIDED|95.0|1.297|8.941|||Regression, Cox|||||8.941|1.297|0.0128
92309301|NCT01386983|184519037|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Generalized linear model|Gamma distribution with log-link function was used.||||||0.0002
92309302|NCT02383810|184519049|SUPERIORITY|The overall hypothesis system was represented by the following pool of partial hypothesis systems: Hok: πGi = πGj i = 1 to 3, and j = 2 to 4, and k = 1 to 6, and i ≠ j HAk: πGi ≠πGj i = 1 to 3, and j = 2 to 4, and k = 1 to 6, and i ≠ j where πG is the probability of absence of Grade ≥2 CID for the Group. Each Ho involved 2 groups.|||||<|0.1||||||Overall alpha level 0.10 was maintained by correction for multiplicity according to Hommel's procedure.|Chi-squared|||Overall null hypothesis: All elsiglutide dose groups had equal proportion of subjects with max Grade≥2 diarrhea and this was equal to the one in the placebo group. This includes 6 individual hypotheses (i.e., 3 to compare each dose group vs. placebo and 3 to compare dose groups vs. each other). Raw p-values from Chi square tests were corrected for multiplicity according to the Hommel's procedure. Each of 6 hypotheses was then evaluated based on corrected p-value at alpha 0.10 (two-sided).||||<0.1
92309303|NCT02549027|184519052|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.24|||||TWO_SIDED|90.0|0.12|0.47|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% confidence interval (CI) were computed and back-transformed to obtain the 90% CI interval for LPS treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing LPS was supported if the CI lies below 1 for at least one dose.||0.47|0.12|
92309304|NCT02549027|184519052|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.21|||||TWO_SIDED|90.0|0.1|0.41|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for LPS treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing LPS was supported if the CI lies below 1 for at least one dose.||0.41|0.10|
92309305|NCT02549027|184519052|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.15|||||TWO_SIDED|90.0|0.08|0.3|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for LPS treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing LPS was supported if the CI lies below 1 for at least one dose.||0.30|0.08|
92309306|NCT02549027|184519053|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.05|||||TWO_SIDED|90.0|0.02|0.11|||||Ratio is MK-6096/placebo|Mean log treatment difference of MK-6096 versus placebo (MK-6096 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for LPS treatment ratio.||0.11|0.02|
92309307|NCT02549027|184519056|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.67|1.07|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for WASO treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing WASO was supported if the CI lies below 1 for at least one dose.||1.07|0.67|
92309308|NCT02549027|184519056|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.68|||||TWO_SIDED|90.0|0.54|0.86|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for WASO treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing WASO was supported if the CI lies below 1 for at least one dose.||0.86|0.54|
92309309|NCT02549027|184519056|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.75|||||TWO_SIDED|90.0|0.6|0.95|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for WASO treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing WASO was supported if the CI lies below 1 for at least one dose.||0.95|0.60|
92309310|NCT02549027|184519057|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.63|||||TWO_SIDED|90.0|0.5|0.79|||||Ratio is MK-6096/placebo|Mean log treatment difference of MK-6096 versus placebo (MK-6096 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for WASO treatment ratio.||0.79|0.50|
92309311|NCT02549027|184519058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.59|||||TWO_SIDED|90.0|-12.01|17.2|||||Difference is MK-1064 - placebo|Analysis used a step-up approach. Mean treatment difference in change from baseline of the lowest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed. If the CI lies completely below 25 milliseconds, testing continued to the next higher MK-1064 dose. The hypothesis that at least one dose of MK-1064 does not produce psychomotor impairment versus placebo as assessed by CRT will be supported if the CI lies below 25 milliseconds for at least one dose.||17.20|-12.01|
92309312|NCT02549027|184519058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.28|||||TWO_SIDED|90.0|-9.33|19.88|||||Difference is MK-1064 - placebo|Analysis used a step-up approach. Mean treatment difference in change from baseline of the lowest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed. If the CI lies completely below 25 milliseconds, testing continued to the next higher MK-1064 dose. The hypothesis that at least one dose of MK-1064 does not produce psychomotor impairment versus placebo as assessed by CRT will be supported if the CI lies below 25 milliseconds for at least one dose.||19.88|-9.33|
92309313|NCT02549027|184519058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.38|||||TWO_SIDED|90.0|-8.23|20.98|||||Difference is MK-1064 - placebo|Analysis used a step-up approach. Mean treatment difference in change from baseline of the lowest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed. If the CI lies completely below 25 milliseconds, testing continued to the next higher MK-1064 dose. The hypothesis that at least one dose of MK-1064 does not produce psychomotor impairment versus placebo as assessed by CRT will be supported if the CI lies below 25 milliseconds for at least one dose.||20.98|-8.23|
92309314|NCT02549027|184519059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.3|||||TWO_SIDED|90.0|-7.1|25.7|||||Difference is MK-6096 - placebo|Mean treatment difference in change from baseline of MK-6096 versus placebo (MK-6096 - placebo) and 90% CI were computed.||25.70|-7.10|
92309315|NCT01934335|184519063|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.51
92309316|NCT01934335|184519064|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.35
92309317|NCT01934335|184519065|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
92309318|NCT00811928|184519101|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the 95% Confidence Interval for the difference in incidence defined as (# of participants affected with proven or probable IFI/ # of participants in the FAS population at risk)\*100% (posaconazole minus fluconazole) had to be \< 4 in order to be considered non-inferior. IFI occurred: proven+probable|Difference for the incidence|-5.88|||||TWO_SIDED|95.0|-12.21|0.25|||||Posaconazole minus fluconazole|||0.25|-12.21|
92309319|NCT00811928|184519102|SUPERIORITY_OR_OTHER||Percentage of Participants|4.27|||||TWO_SIDED|95.0|1.4|9.7|||||IFI Incidence for the Posaconazole group = (# of participants affected with proven or probable IFI/ # of participants in the FAS population at risk)\*100%|||9.7|1.4|
92309320|NCT00811928|184519102|SUPERIORITY_OR_OTHER||Percentage of Participants|13.68|||||TWO_SIDED|95.0|8.0|21.3|||||IFI Incidence for the Fluconazole group = (# of participants affected with proven or probable IFI/ # of participants in the FAS population at risk)\*100%|||21.3|8.0|
92309321|NCT00811928|184519105|SUPERIORITY_OR_OTHER||Percentage of Participants|31.62|||||TWO_SIDED|95.0|23.3|40.9|||||IFI Incidence for the Posaconazole group = (# of participants affected with proven or probable IFI/ # of participants in the FAS population at risk)\*100%.|||40.9|23.3|
92309322|NCT00811928|184519105|SUPERIORITY_OR_OTHER||Percentage of Participants|41.88|||||TWO_SIDED|95.0|32.8|51.4|||||IFI Incidence for the Fluconazole group = (# of participants affected with proven or probable IFI/ # of participants in the FAS population at risk)\*100%|||51.4|32.8|
92309323|NCT00811928|184519106|SUPERIORITY_OR_OTHER||Percentage of Participants|2.56|||||TWO_SIDED|95.0|0.5|7.3|||||All-Cause Mortality Rate is the percentage of participants with mortality from any cause.|||7.3|0.5|
92309324|NCT00811928|184519106|SUPERIORITY_OR_OTHER||Percentage of Participants|5.98|||||TWO_SIDED|95.0|2.4|11.9|||||All-Cause Mortality Rate is the percentage of participants with mortality from any cause.|||11.9|2.4|
92309325|NCT00838435|184519114|OTHER|Coefficient estimates from a random coefficient model and associated p-values.|Slope|-0.5768|||||TWO_SIDED|95.0|-1.6004|0.4468|||||The slope shown above is based on a 2-year window.|A random coefficient model was used to calculate the slope (per year) of FSIQ over the entire study period. Factors in the model included visit and testing sequence, with change in FSIQ score as the dependent variable. Random terms include both intercept and visit. The treatment was considered successful if the lower 95% confidence limit of the mean change excluded a decline of greater than 5 points over a 2-year window.||0.4468|-1.6004|
92309326|NCT02348723|184519124|SUPERIORITY_OR_OTHER||Risk Difference (RD) %|-5.3||||0.0009|TWO_SIDED|95.0|-8.4|-2.2|||Chi-squared|||The risk difference between dabigatran etexilate vs. warfarin, its 2-sided 95% CI, and corresponding p-value are presented.||-2.2|-8.4|0.0009
92309327|NCT00678886|184519128|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.813|TWO_SIDED|95.0|-0.06|0.08|||Mixed effects repeated measures model|||Mixed meal-stimulated C-peptide AUC, Placebo Vs Otelixizumab at Month 12||0.08|-0.06|0.813
92309328|NCT00678886|184519129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.737|TWO_SIDED|95.0|0.47|1.7|||Hochberg adjusted|||Percentage of responders, Placebo Vs Otelixizumab at Week 12||1.70|0.47|0.737
92309329|NCT00678886|184519129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.737|TWO_SIDED|95.0|0.42|1.39|||Hochberg adjusted|||Percentage of responders, Placebo Vs Otelixizumab at Month 6||1.39|0.42|0.737
92309330|NCT00678886|184519129|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.481|TWO_SIDED|95.0|0.45|1.46|||Hochberg adjusted|||Percentage of responders, Placebo Vs Otelixizumab at Month 12||1.46|0.45|0.481
92309331|NCT00678886|184519130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.281|TWO_SIDED|95.0|-0.07|0.01|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||Mean insulin use, Placebo Vs Otelixizumab at Week 12||0.01|-0.07|0.281
92309332|NCT00678886|184519130|SUPERIORITY||Mean Difference (Net)|0.0||||0.969|TWO_SIDED|95.0|-0.05|0.05|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||Mean insulin use, Placebo Vs Otelixizumab at Month 6||0.05|-0.05|0.969
92309333|NCT00678886|184519130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.272|TWO_SIDED|95.0|-0.08|0.02|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||Mean insulin use, Placebo Vs Otelixizumab at Month 12||0.02|-0.08|0.272
92309334|NCT00678886|184519131|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.18||||0.289|TWO_SIDED|95.0|-0.16|0.52|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||HbA1c levels, Placebo Vs Otelixizumab at Month 12||0.52|-0.16|0.289
92309335|NCT00678886|184519131|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.538|TWO_SIDED|95.0|-0.15|0.49|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||HbA1c levels, Placebo Vs Otelixizumab at Month 6||0.49|-0.15|0.538
92309336|NCT00678886|184519131|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.538|TWO_SIDED|95.0|-0.19|0.36|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||HbA1c levels, Placebo Vs Otelixizumab at Week 12||0.36|-0.19|0.538
92309337|NCT00678886|184519140|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.12||||0.54|TWO_SIDED|95.0|-0.88|3.11|||Mixed effects repeated measures model|||ADRR, Placebo Vs Otelixizumab at Week 12||3.11|-0.88|0.540
92309338|NCT00678886|184519140|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.83||||0.546|TWO_SIDED|95.0|-1.89|3.56|||Mixed effects repeated measures model|||ADRR, Placebo Vs Otelixizumab at Month 6||3.56|-1.89|0.546
92309339|NCT00678886|184519140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93||||0.462|TWO_SIDED|95.0|-1.56|3.42|||Mixed effects repeated measures model|||ADRR, Placebo Vs Otelixizumab at Month 12||3.42|-1.56|0.462
92309340|NCT00678886|184519141|SUPERIORITY_OR_OTHER|||||||0.957|||||||Hochberg-adjusted|||Composite Rank Summary for HbA1c and Exogenous Insulin Use, Placebo Vs Otelixizumab at Month 6||||0.957
92309341|NCT00678886|184519141|SUPERIORITY_OR_OTHER|||||||0.957|||||||Hochberg-adjusted|||Composite Rank Summary for HbA1c and Exogenous Insulin Use, Placebo Vs Otelixizumab at Month 12||||0.957
92309342|NCT00678886|184519142|SUPERIORITY_OR_OTHER|||||||0.653|||||||Hochberg-adjusted|||Composite Rank Summary for C-Peptide AUC, HbA1c and Exogenous Insulin Use, Placebo Vs Otelixizumab at Month 6||||0.653
92309343|NCT00678886|184519142|SUPERIORITY_OR_OTHER|||||||0.653|||||||Hochberg-adjusted|||Composite Rank Summary for C-Peptide AUC, HbA1c and Exogenous Insulin Use, Placebo Vs Otelixizumab at Month 12||||0.653
92309344|NCT04693416|184519164|OTHER|||||||0.252|||||||t-test, 2 sided|||Pre/post scores within arm||||0.252
92309345|NCT04693416|184519165|OTHER|||||||0.546|||||||t-test, 2 sided|||Pre/post score within arm||||0.546
92309346|NCT04693416|184519166|OTHER|||||||0.005|||||||t-test, 2 sided|||Pre/post scores within arm||||0.005
92309347|NCT04693416|184519167|OTHER|||||||0.188|||||||t-test, 2 sided|||Pre/post scores within arm||||0.188
92309348|NCT04693416|184519168|OTHER|||||||0.049|||||||t-test, 2 sided|||Pre/post score within arm||||0.049
92309349|NCT04693416|184519169|OTHER|||||||0.036|||||||t-test, 2 sided|||Pre/post scores within arm||||0.036
92309350|NCT01695863|184519207|SUPERIORITY||Mean Difference (Final Values)|0.54|||<|0.0001|TWO_SIDED|95.0|0.269|0.816|||t-test, 2 sided|||Right Colon||0.816|0.269|<0.0001
92309351|NCT01695863|184519207|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.005|TWO_SIDED|95.0|0.122|0.655|||t-test, 2 sided|||Transverse Colon||0.655|0.122|0.005
92309352|NCT01695863|184519207|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.08|TWO_SIDED|95.0|-0.029|0.484|||t-test, 2 sided|||Left Colon||0.484|-0.029|0.08
92309353|NCT01695863|184519208|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.093|TWO_SIDED||||||t-test, 2 sided|||Calcium||||0.093
92309354|NCT01695863|184519208|SUPERIORITY||Mean Difference (Final Values)|2.03||||0.801|TWO_SIDED||||||t-test, 2 sided|||Glucose||||0.801
92309355|NCT01695863|184519208|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.599|TWO_SIDED||||||t-test, 2 sided|||Blood Urea Nitrogen||||0.599
92309356|NCT01695863|184519208|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.696|TWO_SIDED||||||t-test, 2 sided|||Creatinine||||0.696
92309357|NCT01695863|184519208|SUPERIORITY||Mean Difference (Final Values)|-1.19||||0.042|TWO_SIDED||||||t-test, 2 sided|||Sodium||||.042
92309358|NCT01695863|184519208|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.596|TWO_SIDED||||||t-test, 2 sided|||Potassium||||0.596
92309359|NCT01695863|184519208|SUPERIORITY||Mean Difference (Final Values)|-0.98||||0.107|TWO_SIDED||||||t-test, 2 sided|||Chloride||||0.107
92309360|NCT01695863|184519208|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.351|TWO_SIDED||||||t-test, 2 sided|||Bicarbonate||||0.351
92309361|NCT01695863|184519209|SUPERIORITY||Mean Difference (Final Values)|-0.0438||||0.772|TWO_SIDED||||||t-test, 2 sided|||Nausea||||0.772
92309362|NCT01695863|184519209|SUPERIORITY||Mean Difference (Final Values)|-0.2821||||0.028|TWO_SIDED||||||t-test, 2 sided|||Vomiting||||0.028
92309363|NCT01695863|184519209|SUPERIORITY||Mean Difference (Final Values)|-0.2102||||0.235|TWO_SIDED||||||t-test, 2 sided|||Bloating||||0.235
92309364|NCT01695863|184519209|SUPERIORITY||Mean Difference (Final Values)|-0.0547||||0.707|TWO_SIDED||||||t-test, 2 sided|||Abdominal pain or cramping||||0.707
92309365|NCT01695863|184519209|SUPERIORITY||Mean Difference (Final Values)|-0.0269||||0.773|TWO_SIDED||||||t-test, 2 sided|||Ability to complete entire prep||||0.773
92309366|NCT01695863|184519209|SUPERIORITY||Mean Difference (Final Values)|0.0498||||0.766|TWO_SIDED||||||t-test, 2 sided|||Difficulty/Inconvenience in completing prep||||0.766
92309367|NCT01687244|184519217|SUPERIORITY_OR_OTHER||HGRF survival at 12 months|33.3|||||TWO_SIDED|90.0|16.8|53.6||Not applicable: the primary analysis was a calculation of a confidence interval||||The primary efficacy endpoint was the incidence of high-grade recurrence-free survival at 12 months. The proportion of patients achieving high-grade recurrence-free survival at 12 months was reported for each dose group, together with an exact 90% confidence interval for the proportion||53.6|16.8|
92309368|NCT01687244|184519217|SUPERIORITY_OR_OTHER||HGRF survival at 12 months|36.8|||||TWO_SIDED|90.0|18.8|58.2|||||The proportion of subjects achieving high-grade recurrence-free survival at 12 months|The primary efficacy endpoint was the incidence of high-grade recurrence-free survival at 12 months. The proportion of patients achieving high-grade recurrence-free survival at 12 months was reported for each dose group, together with an exact 90% confidence interval for the proportion.||58.2|18.8|
92189451|NCT00914732|184277238|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation subcutaneously (Liquid SC Group) and IMVAMUNE® (2x10\^7 TCID50) formulation intradermally (Liquid ID) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Liquid ID was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|0.02|||||TWO_SIDED|97.5|-0.31|0.35||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||0.35|-0.31|
92309369|NCT01330420|184519230|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon signed-ranked test|||Due to the small sample size, the Wilcoxon signed-ranked test, a non-parametric statistical test, was used to detect outcome measure changes from pre-intervention to post-intervention||||<.001
92309370|NCT01330420|184519231|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon signed-ranked test|||Due to the small sample size, the Wilcoxon signed-ranked test, a non-parametric statistical test, was used to detect outcome measure changes from pre-intervention to post-intervention||||<.001
92309371|NCT01330420|184519232|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon signed-ranked test|||Due to the small sample size, the Wilcoxon signed-ranked test, a non-parametric statistical test, was used to detect outcome measure changes from pre-intervention to post-intervention||||<.01
92309372|NCT01330420|184519234|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon signed-ranked test|||Due to the small sample size, the Wilcoxon signed-ranked test, a non-parametric statistical test, was used to detect outcome measure changes from pre-intervention to post-intervention||||<.01
92309373|NCT00371397|184519240|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.75||||0.009||95.0|||||Regression, Logistic|||hsCRP dichotomized as undetectable/detectable. Logistic regression w/generalized estimating equations(GEE)s to determine odds ratio. Assessed hsCRP at baseline at each of the three visits; 43% of the values (n = 65) were below the assay's detectable lower bound of .3 mg/dL, and thus hsCRP was dichotomized as undetectable/detectable.||||.009
92309374|NCT03753763|184519255|SUPERIORITY||Least square mean difference|0.1||||0.9697|TWO_SIDED|95.0|-6.3|6.5|||Mixed Models Analysis|A mixed-model repeated measures (MMRM) was used to analyze the change in anterior and lateral displacement from baseline||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate.||6.5|-6.3|0.9697
92309375|NCT03753763|184519256|SUPERIORITY||least square mean difference|0.5||||0.7751|TWO_SIDED|95.0|-3.1|4.1||A mixed-model repeated measures (MMRM) was used to analyze the change in anterior and lateral displacement from baseline.|Mixed Models Analysis|||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate||4.1|-3.1|0.7751
92309376|NCT03753763|184519257|SUPERIORITY||least square mean difference|0.2||||0.9076|TWO_SIDED|95.0|-3.3|3.7|||Mixed Models Analysis|A mixed-model repeated measures (MMRM) was used to analyze the change in from baseline in UMSARS Part II||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate.||3.7|-3.3|0.9076
92309377|NCT03753763|184519258|SUPERIORITY||least square mean difference|-1.1||||0.5386|TWO_SIDED|95.0|-4.8|2.6|||Mixed Models Analysis|A mixed-model repeated measures (MMRM) was used to analyze the change in from baseline in UMSARS Part II.||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate.||2.6|-4.8|0.5386
92309378|NCT03753763|184519259|SUPERIORITY||Least square mean difference|6.0||||0.3364|TWO_SIDED|95.0|-6.5|18.6|||Mixed Models Analysis|A mixed-model repeated measures (MMRM) was used to analyze the change in from baseline in MSA-QoL scale.||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate.||18.6|-6.5|0.3364
92309379|NCT03753763|184519260|SUPERIORITY||Least square mean difference|0.2||||0.7574|TWO_SIDED|95.0|-1.1|1.5|||ANCOVA|||The ANCOVA included change from baseline as the response variable, treatment group as a factor, and baseline score as a covariate||1.5|-1.1|0.7574
92309380|NCT03753763|184519261|SUPERIORITY||Least square mean difference|0.8||||0.6393|TWO_SIDED|95.0|-2.5|4.0|||Mixed Models Analysis|A mixed-model repeated measures (MMRM) was used to analyze the change from baseline in UDRS.||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate.||4.0|-2.5|0.6393
92309381|NCT01104779|184519262|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.0029|TWO_SIDED|95.0|-11.3|-2.4|||ANCOVA||Cariprazine 3-6 mg/day vs Placebo|||-2.4|-11.3|0.0029
92309382|NCT01104779|184519262|SUPERIORITY||Mean Difference (Final Values)|-9.9|||<|0.0001|TWO_SIDED|95.0|-14.5|-5.3|||ANCOVA||Cariprazine 6-9 mg/day vs Placebo|||-5.3|-14.5|<0.0001
92309383|NCT01104779|184519263|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.0115|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA||Cariprazine 3-6 mg/day vs Placebo|||-0.1|-0.6|0.0115
92309384|NCT01104779|184519263|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.3|||ANCOVA||Cariprazine 6-9 mg/day vs Placebo|||-0.3|-0.8|<0.0001
92309385|NCT01372774|184519265|SUPERIORITY||Hazard Ratio (HR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.35|0.63|||Log Rank|||||0.63|0.35|<0.0001
92309386|NCT01372774|184519266|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.7|TWO_SIDED|95.0|0.76|1.5|||Log Rank|||||1.50|0.76|0.70
92309387|NCT01372774|184519267|SUPERIORITY|||||||0.00068||||||Intracranial Brain Control Rates estimated via 1-Cumulative Incidence Rate from Competing Risk survival analysis of time to the specific recurrence type. Deaths without recurrence are censored at time of death.|Gray's K-sample|||||||0.00068
92309388|NCT01372774|184519269|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
92309389|NCT01565850|184519275|NON_INFERIORITY_OR_EQUIVALENCE|A total sample size of 150 HIV-1 infected participants, randomized in a 2:1 ratio to 2 groups, would achieve 56% power to evaluate noninferiority with respect to the response rate of HIV-1 RNA \< 50 copies/mL at Week 24 if a response rate of 0.88 for both arms, a noninferiority margin of 0.12, and the significance level of the test at a one-sided 0.025 level were assumed.|Difference in proportions|3.3||||0.64|TWO_SIDED|95.0|-11.4|18.1||The p-value for the superiority test comparing the percentages of virologic success was from the Cochran-Mantel-Haenszel test stratified by baseline HIV-1 RNA and race strata.|Cochran-Mantel-Haenszel||The difference in percentages of virologic success and its 95% confidence interval (CI) were calculated based on baseline HIV-1 RNA and race stratum-adjusted Mantel-Haenszel proportion.|The null hypothesis was that the D/C/F/TAF group is at least 12% worse than the DRV+COBI+FTC/TDF group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL (response rate as defined by the snapshot analysis algorithm) at Week 24; the alternative hypothesis was that the response rate in the D/C/F/TAF group is less than 12% worse than that in the DRV+COBI +FTC/TDF group.||18.1|-11.4|0.64
92309390|NCT01565850|184519276|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the D/C/F/TAF group is at least 12% worse than the DRV+COBI+FTC/TDF group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL (response rate as defined by the snapshot analysis algorithm) at Week 48; the alternative hypothesis was that the response rate in the D/C/F/TAF group is less than 12% worse than that in the DRV+COBI +FTC/TDF group.|Difference in proportions|-6.2||||0.35|TWO_SIDED|95.0|-19.9|7.4||The p-value for the superiority test comparing the percentages of virologic success was from the Cochran-Mantel-Haenszel test stratified by baseline HIV-1 RNA and race strata.|Cochran-Mantel-Haenszel||The difference in percentages of virologic success and its 95% CI were calculated based on baseline HIV-1 RNA and race stratum-adjusted Mantel-Haenszel proportion.|||7.4|-19.9|0.35
92309391|NCT01565850|184519277|SUPERIORITY_OR_OTHER||Difference in LSM|0.04||||0.67|TWO_SIDED|95.0|-0.14|0.21||The p-value, difference in least squares mean (LSM), and its 95% CI were from ANOVA model with baseline HIV-1 RNA level (≤ 100,000 or \> 100,000 copies/mL) and race (Black or non-Black) as fixed effects in the model.|ANOVA|||||0.21|-0.14|0.67
92309392|NCT01565850|184519278|SUPERIORITY_OR_OTHER||Difference in LSM|0.06||||0.5|TWO_SIDED|95.0|-0.11|0.23||The p-value, difference in LSM, and its 95% CI were from ANOVA model with baseline HIV-1 RNA level (≤ 100,000 or \> 100,000 copies/mL) and race (Black or non-Black) as fixed effects in the model.|ANOVA|||||0.23|-0.11|0.50
92309393|NCT01565850|184519279|SUPERIORITY_OR_OTHER||Difference in LSM|45.0||||0.11|TWO_SIDED|95.0|-10.0|101.0||The p-value, difference in LSM, and its 95% CI were from ANOVA model with baseline HIV-1 RNA level (≤ 100,000 or \> 100,000 copies/mL) and race (Black or non-Black) as fixed effects in the model.|ANOVA|||||101|-10|0.11
92309394|NCT01565850|184519280|SUPERIORITY_OR_OTHER||Difference in LSM|18.0||||0.5|TWO_SIDED|95.0|-35.0|72.0||The p-value, difference in LSM, and its 95% CI were from ANOVA model with baseline HIV-1 RNA level (≤ 100,000 or \> 100,000 copies/mL) and race (Black or non-Black) as fixed effects in the model.|ANOVA|||||72|-35|0.50
92309395|NCT04324073|184519304|SUPERIORITY||Median posterior absolute risk differenc|0.2|||||TWO_SIDED|90.0|-11.7|12.2||Posterior probability|Bayesian analysis|Adjusted for age and centre|% Confidence Interval is % Credibility interval here|||12.2|-11.7|
92309396|NCT04324073|184519305|SUPERIORITY||Median posterior Hazard Ratio|1.1|||||TWO_SIDED|90.0|0.69|1.74||Posterior probability|Bayesian analysis|HR adjusted for age and centre|% Confidence interval is % Credible interval here|||1.74|0.69|
92309397|NCT04324073|184519306|SUPERIORITY||Median posterior absolute risk differenc|-7.3|||||TWO_SIDED|90.0|-22.5|8.7||Posterior probability|Bayesian analysis|Adjusted on age and centre|% Confidence Interval is %Credible Interval here. Results are presented as the proportion not improved, so that an effective treatment would be associated with a decrease in proportion.|||8.7|-22.5|
92309398|NCT04324073|184519307|SUPERIORITY||Median posterior Hazard Ratio|1.05|||||TWO_SIDED|90.0|0.55|2.07||Posterior probability|Bayesian analysis||% Confidence Interval is % Credible Interval here|||2.07|0.55|
92309399|NCT04324073|184519308|SUPERIORITY|Day 14|Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.23|2.03|||Regression, Cox|adjusted for age and sex||||2.03|0.23|
92309400|NCT04324073|184519308|SUPERIORITY||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.27|1.59|||Regression, Cox|||Day 28||1.59|0.27|
92309401|NCT04324073|184519308|SUPERIORITY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.31|1.58|||Regression, Cox|||Day 90||1.58|0.31|
92309402|NCT04324073|184519308|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.4|2.25|||Regression, Cox|||Day 14||2.25|0.40|
92309403|NCT04324073|184519308|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.4|1.96|||Regression, Cox|||Day 28||1.96|0.40|
92309404|NCT04324073|184519308|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.35|1.58|||Regression, Cox|||Day 90||1.58|0.35|
92309405|NCT04324073|184519309|SUPERIORITY||Median posterior OR|1.11|||||TWO_SIDED|95.0|0.53|2.34|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre.|% Confidence Interval is % Credible Interval here|Day 4||2.34|0.53|
92309406|NCT04324073|184519309|SUPERIORITY||Median posterior OR|1.02|||||TWO_SIDED|95.0|0.49|2.08|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre.|% Confidence Interval is % Credible Interval here|Day 7||2.08|0.49|
92309407|NCT04324073|184519309|SUPERIORITY||Median posterior OR|0.79|||||TWO_SIDED|95.0|0.42|1.47|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre.|% Confidence Interval is % Credible Interval here|Day 14||1.47|0.42|
92309408|NCT04324073|184519309|SUPERIORITY||Median posterior OR|0.88|||||TWO_SIDED|95.0|0.38|2.02|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre.|% Confidence Interval is % Credible Interval here|Day 4||2.02|0.38|
92309409|NCT04324073|184519309|SUPERIORITY||Median posterior OR|1.07|||||TWO_SIDED|95.0|0.47|2.4|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre.|% Confidence Interval is % Credible Interval here|Day 14||2.40|0.47|
92309410|NCT04324073|184519309|SUPERIORITY||Median posterior OR|1.13|||||TWO_SIDED|95.0|0.5|2.57|||Proportionnal odds model|Bayesian analysis. Adjusted for age and sex|% Confidence Interval is % Credible Interval here|Day 90||2.57|0.50|
92309411|NCT04324073|184519310|SUPERIORITY||Median Difference (Net)|-1.5|||||TWO_SIDED|95.0|-6.1|3.9||||adjusted on age and centre||||3.9|-6.1|
92309412|NCT04324073|184519311|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.72|1.57|||Fine-Gray model|adjusted for age and centre||Day 28||1.57|0.72|
92309413|NCT04324073|184519311|SUPERIORITY||Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.74|2.25|||Fine-Gray model|Adjusted for age and centre||Day 90||2.25|0.74|
92189452|NCT00914732|184277239|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation (Liquid SC Group) and IMVAMUNE® (1x10\^8 TCID50) lyophilized formulation (Lyophilized SC) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Lyophilized SC was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|-0.35|||||TWO_SIDED|97.5|-0.74|0.04||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||0.04|-0.74|
92189453|NCT00914732|184277240|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x108 TCID50) liquid formulation (Liquid SC Group) and IMVAMUNE® (1x108 TCID50) lyophilized formulation (Lyophilized SC) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Lyophilized SC was considered non-inferior to the Lyophilized SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|-0.47|||||TWO_SIDED|97.5|-0.81|-0.12||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||-0.12|-0.81|
92189454|NCT03005106|184277247|OTHER|Difference between treatment and control sites|Mean Difference (Final Values)|97.77|||<|0.0001|TWO_SIDED|||||Difference is (percent area of Autograft treatment site requiring autografting by Month 3) - (percent area of StrataGraft treatment site requiring autografting by Month 3).|one-sided Wilcoxin Signed RankTtest|||||||<0.0001
92309414|NCT04324073|184519311|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.59|2.44|||Fine-Gray model|adjusted for age and centre||Day 28||2.44|0.59|
92309415|NCT04324073|184519311|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.74|1.55|||Fine-Gray model|Adjusted for age and centre||Day 90||1.55|0.74|
92189455|NCT03005106|184277248|OTHER||Percentage of participants|83.1|||||TWO_SIDED|95.0|74.4|91.8|||||95% confidence interval is derived using the normal approximation to the binomial distribution|||91.8|74.4|
92309416|NCT04324073|184519312|SUPERIORITY||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.81|1.75|||Fine-Gray model|Adjusted on age and centre||Day 28||1.75|0.81|
92309417|NCT04324073|184519312|SUPERIORITY||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.8|1.67|||Fine-Gray model|Adjusted on age and centre||Day 90||1.67|0.80|
92309418|NCT04324073|184519312|SUPERIORITY||Hazard Ratio (HR)|1.21|||||TWO_SIDED|95.0|0.55|2.66|||Fine-Gray model|Adjusted on age and centre||Day 28||2.66|0.55|
92309419|NCT04324073|184519312|SUPERIORITY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.71|2.37|||Fine-Gray model|Adjusted on age and centre||Day 90||2.37|0.71|
92309420|NCT04324073|184519313|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.42|1.44|||Fine-Gray model|Adjusted for age and centre||Day 28||1.44|0.42|
92309421|NCT04324073|184519313|SUPERIORITY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.49|1.47|||Fine-Gray model|adjusted for age and centre||Day 90||1.47|0.49|
92309422|NCT03610516|184519323|OTHER|A repeated measures mixed model was fitted with factors for treatment group (CFZ533 or placebo) and visit.|Ratio of geometric means CFZ533/placebo|0.579||||0.0788|TWO_SIDED|95.0|0.267|1.256||one-sided p-value|Repeated measures Mixed Model|||||1.256|0.267|0.0788
92309423|NCT00826007|184519372|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.18|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|0.09|0.18|||Regression, Logistic|||||.18|.09|<0.001
92309424|NCT01056289|184519391|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: absolute difference between the 2 discontinuation regimens in DESS total scores was \>2.5. Alternative hypothesis: absolute difference was ≤2.5; tested by calculating 95% 2-sided confidence intervals (CIs) on the mean difference between the 2 regimens. If absolute values of both confidence limits were ≤2.5, then the regimens were declared equivalent.|Mean Difference (Final Values)|1.16|||||TWO_SIDED|95.0|-0.51|2.83|||ANCOVA|||Difference: Placebo versus DVS SR 50 mg||2.83|-0.51|
92309425|NCT01056289|184519391|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: absolute difference between the 2 discontinuation regimens in DESS total scores was \>2.5. Alternative hypothesis: absolute difference was ≤2.5; tested by calculating 95% 2-sided confidence intervals (CIs) on the mean difference between the 2 regimens. If absolute values of both confidence limits were ≤2.5, then the regimens were declared equivalent.|Mean Difference (Final Values)|0.66|||||TWO_SIDED|95.0|-1.03|2.35|||ANCOVA|||Difference: DVS SR 25 mg versus DVS SR 50 mg||2.35|-1.03|
92309426|NCT01056289|184519391|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: absolute difference between the 2 discontinuation regimens in DESS total scores was \>2.5. Alternative hypothesis: absolute difference was ≤2.5; tested by calculating 95% 2-sided confidence intervals (CIs) on the mean difference between the 2 regimens. If absolute values of both confidence limits were ≤2.5, then the regimens were declared equivalent.|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-0.88|1.89|||ANCOVA|||Difference: Placebo versus DVS SR 25 mg||1.89|-0.88|
92309427|NCT01917916|184519395|OTHER||Slope|2.4386|STANDARD_ERROR_OF_MEAN|0.3417|||TWO_SIDED|95.0|1.7504|3.1267|||||Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is actually standard error of slope.|Dose proportionality was explored using the power model. Dose proportionality of BI 655064 was to be assessed based on the exposure parameter Cmax, determined for the 4 subcutaneous dose levels. This analysis is for the overall population.||3.1267|1.7504|
92309428|NCT01917916|184519396|OTHER||Slope|2.6033|STANDARD_ERROR_OF_MEAN|0.2499|||TWO_SIDED|95.0|2.0993|3.1073|||||Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is actually standard error of slope.|Dose proportionality was explored using the power model. Dose proportionality of BI 655064 was to be assessed based on the exposure parameter AUC0-∞, determined for the 4 subcutaneous dose levels. This analysis is for the overall population.||3.1073|2.0993|
92309429|NCT01917916|184519397|OTHER||Slope|3.1291|STANDARD_ERROR_OF_MEAN|0.392|||TWO_SIDED|95.0|2.3395|3.9187|||||Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is actually standard error of slope.|Dose proportionality was explored using the power model. Dose proportionality of BI 655064 was to be assessed based on the exposure parameter AUC0-tz, determined for the 4 subcutaneous dose levels. This analysis is for the overall population.||3.9187|2.3395|
92309430|NCT00270855|184519408|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group (i.e, baseline vs. post-intervention in ARE)||||>0.05
92309431|NCT00270855|184519408|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group (i.e, baseline vs. post-intervention in FESLCE)||||>0.05
92309432|NCT00270855|184519409|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
92309433|NCT00270855|184519409|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92309434|NCT00270855|184519410|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.||||||0.519|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group.||||0.519
92309435|NCT00270855|184519410|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92309436|NCT00270855|184519411|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.||||||0.615|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||0.615
92309437|NCT00270855|184519411|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92189456|NCT03005106|184277249|OTHER|Difference is Autograft - StrataGraft|Mean Difference (Final Values)|2.4|||<|0.0001|TWO_SIDED||||||1-sided, paired t-test|p-value from 1-sided, paired t-test on the mean difference(Autograft - StrataGraft)||||||<0.0001
92309438|NCT00270855|184519412|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
92309439|NCT00270855|184519412|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92309440|NCT00270855|184519413|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309441|NCT00270855|184519414|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309442|NCT00270855|184519415|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309443|NCT00270855|184519416|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309444|NCT00270855|184519417|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309445|NCT00270855|184519418|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
92309446|NCT00270855|184519418|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92309447|NCT00270855|184519419|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
92309448|NCT00270855|184519419|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92309449|NCT00270855|184519420|NON_INFERIORITY_OR_EQUIVALENCE|Wilcoxon signed-rank test was performed|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
92309450|NCT00270855|184519420|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92309451|NCT00270855|184519421|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
92309452|NCT00270855|184519421|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92309453|NCT00270855|184519422|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
92309454|NCT00270855|184519422|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92309455|NCT00270855|184519423|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
92309456|NCT00270855|184519423|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92309457|NCT00270855|184519424|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
92309458|NCT00270855|184519424|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92189457|NCT03005106|184277250|OTHER|Difference is Autograft - StrataGraft|Mean Difference (Final Values)|10.0|||<|0.0001|TWO_SIDED|||||Missing total score data were imputed using a multiple imputation analysis assuming a monotone missing data pattern. A linear regression model with ethnicity, race and age as predictive variables was used in the imputation.|1-sided, paired t-test|p-value from 1-sided, paired t-test on the difference (Autograft - StrataGraft)||||||<0.0001
92189458|NCT03163472|184277251|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189459|NCT03163472|184277252|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92189460|NCT03163472|184277253|OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||||||0.022
92189461|NCT03163472|184277254|OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
92189462|NCT00321672|184277257|SUPERIORITY_OR_OTHER|||||||0.0967||95.0||||All stastical tests of hypotheses were two-sided and at the 5% level of significance.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||The null hypothesis was that there was no difference between the average percent change in NPRS scores from baseline to weeks 2-12 between the total control and total NGX-4010 groups. The ratio of means between the 30- and 60-minute control group \[1.57 (90% CI: 1.12-2.35)\] was \> than the pre-specified equivalence margin ratio of 80-125%. Hence, the control groups could not be pooled and comparisons were performed between the 30- and 60-minute NGX-4010 groups and their respective control groups.||||0.0967
92189463|NCT00321672|184277257|SUPERIORITY_OR_OTHER|||||||0.4884||95.0||||All stastical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustment were made.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||||||0.4884
92189464|NCT00321672|184277257|SUPERIORITY_OR_OTHER|||||||0.1031||95.0||||All stastical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustment were made.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||||||0.1031
92189465|NCT00321672|184277258|SUPERIORITY_OR_OTHER|||||||0.0831||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||"The null hypothesis was: There is no difference between the total Control and total NGX-4010 in the absolute change in NPRS scores from Baseline during Weeks 2-12."||||0.0831
92189466|NCT00321672|184277258|SUPERIORITY_OR_OTHER|||||||0.468||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustments were made.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||||||0.4680
92189467|NCT00321672|184277258|SUPERIORITY_OR_OTHER|||||||0.0896||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustments were made.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||||||0.0896
92189468|NCT00321672|184277259|SUPERIORITY_OR_OTHER|||||||0.0662||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance.|Regression, Logistic|A logistic regression analysis, with the Baseline NPRS score and gender as covariates, was performed.||"The null hypothesis was: There is no difference between the total Control and total NGX-4010 group in the Proportion of Subjects Reaching 30% Decrease in Their Mean Average Pain for the Past 24 Hours NPRS Score From Baseline During Weeks 2 to 12."||||0.0662
92309459|NCT00270855|184519425|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309460|NCT00270855|184519426|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309461|NCT00270855|184519427|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309462|NCT00270855|184519428|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309463|NCT00270855|184519429|OTHER|A Mann-Whitney U test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309464|NCT00270855|184519430|NON_INFERIORITY_OR_EQUIVALENCE|We used a Mann-Whitney U test.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||we evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309465|NCT00270855|184519431|NON_INFERIORITY_OR_EQUIVALENCE|A mann-whitney u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309466|NCT00270855|184519432|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
92309467|NCT00270855|184519432|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
92309468|NCT00270855|184519433|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney U test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
92309469|NCT02657928|184519474|SUPERIORITY|||||||0.5004|||||||Log Rank|||||||0.5004
92309470|NCT02657928|184519475|SUPERIORITY|||||||0.9127|||||||Log Rank|||||||0.9127
92309471|NCT01988129|184519481|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||t-test, 2 sided|||Analysis for 'sick' days||||0.66
92189469|NCT00321672|184277259|SUPERIORITY_OR_OTHER|||||||0.5582||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustments were made.|Regression, Logistic|A logistic regression analysis, with the Baseline NPRS score and gender as covariates, was performed.||||||0.5582
92189470|NCT00321672|184277259|SUPERIORITY_OR_OTHER|||||||0.0553||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustments were made.|Regression, Logistic|A logistic regression analysis, with the Baseline NPRS score and gender as covariates, was performed.||||||0.0553
92189471|NCT02389894|184277265|SUPERIORITY||Risk Difference (RD)|6.9||||0.22|TWO_SIDED|95.0|-4.2|17.9|||Chi-squared|The primary end point analysis used an iterative hot-deck multiple imputation approach, assuming a nonignorable missing data mechanism.|The absolute difference in the percentage of patients with freedom from clinical or radiographic central nervous system (CNS) infarction was computed as Embol-x minus control|A sample size of 165 patients in each group ensured that each comparison had a power of approximately 90% to detect a between-group difference of 17.5% from an assumed control rate of 50% in the incidence of postoperative CNS infarcts. A single interim analysis was prespecified and performed. Based on the recommendation of the DSMB, randomization but not follow-up was halted due to low conditional power of observing any between-group differences for the primary endpoint.||17.9|-4.2|0.22
92189472|NCT02389894|184277265|SUPERIORITY||Risk Difference (RD)|1.3||||0.84|TWO_SIDED|95.0|-11.2|13.8||The primary end point analysis used an iterative hot-deck multiple imputation approach, assuming a nonignorable missing data mechanism.|Chi-squared||The absolute difference in the percentage of patients with freedom from clinical or radiographic central nervous system (CNS) infarction was computed as Cardiogard minus control.|A sample size of 165 patients in each group ensured that each comparison had a power of approximately 90% to detect a between-group difference of 17.5% from an assumed control rate of 50% in the incidence of postoperative CNS infarcts. A single interim analysis was prespecified and performed. Based on the recommendation of the DSMB, randomization but not follow-up was halted due to low conditional power of observing any between-group differences for the primary endpoint.||13.8|-11.2|0.84
92189473|NCT02389894|184277266|SUPERIORITY||Risk Difference (RD)|9.7||||0.08|TWO_SIDED|95.0|-1.2|20.5|||Chi-squared||The absolute difference was computed as Embol-x minus control|||20.5|-1.2|0.08
92189474|NCT02389894|184277266|SUPERIORITY||Risk Difference (RD)|-2.8||||0.61|TWO_SIDED|95.0|-13.5|7.9|||Chi-squared||The absolute difference was computed as Cardiogard minus control|||7.9|-13.5|0.61
92189475|NCT00145496|184277286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7177||95.0||||The test of hypothesis was a 2-tailed test with alpha=0.05 (0.049 to adjust for one interim analysis).|Mixed Model for Repeated Measurements|||The null hypothesis was that there was no difference in change from baseline in NSA Scale total score between asenapine and olanzapine at Day 182.||||0.7177
92309472|NCT01988129|184519481|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||t-test, 2 sided|||Analysis for 'disability/injury' days||||0.033
92309473|NCT01988129|184519481|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|Mixed model analysis with nested random effects for possible station-level and station-pairing correlation (3-level hierarchical linear model)||Mixed model analysis was conducted for 'disability/injury' days||||0.003
92309474|NCT01988129|184519482|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||t-test, 2 sided|||||||0.87
92309475|NCT01988129|184519483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.31|TWO_SIDED|95.0|0.6|0.98|||t-test, 2 sided||The Odds Ratio analyses compared the odds of reporting at least one injury during the study between those who did (n=560) and did not (n=629) attend the education sessions, regardless of station assignment (intervention or control).|||0.98|0.60|0.31
92309476|NCT01988129|184519484|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Paired t-test|||Of the 100 participants who completed both the pre- and post-study survey (see Patient Flow), only 62 completed answered the question about sleep duration at both time points||||0.22
92309477|NCT01988129|184519485|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||paired t-test|||||||0.65
92309478|NCT01988129|184519486|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||paired t-test|||||||0.71
92309479|NCT01988129|184519488|SUPERIORITY_OR_OTHER||Percentage of firefighters screened|41.5|||||TWO_SIDED|||||||||This analysis describes the prevalence of the risk of any sleep disorders; there is no comparison group||||
92309480|NCT01988129|184519488|SUPERIORITY_OR_OTHER||Percentage of firefighters screene|31.3|||||TWO_SIDED|||||||||This analysis describes the prevalence of the risk of obstructive sleep apnea only; there is no comparison group||||
92309481|NCT01988129|184519488|SUPERIORITY_OR_OTHER||Percentage of firefighters screene|7.7|||||TWO_SIDED|||||||||This analysis describes the prevalence of the risk of insomnia; there is no comparison group||||
92309482|NCT01988129|184519488|SUPERIORITY_OR_OTHER||Percentage of firefighters screene|3.5|||||TWO_SIDED|||||||||This analysis describes the prevalence of the risk of restless legs syndrome only; there is no comparison group||||
92309483|NCT01988129|184519488|SUPERIORITY_OR_OTHER||Percentage of firefighters screene|9.3|||||TWO_SIDED|||||||||This analysis describes the prevalence of the risk of shiftwork disorder only; there is no comparison group||||
92309484|NCT01988129|184519489|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||paired t-test|||||||0.31
92309485|NCT01988129|184519490|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Paired t-test, 2-sided|||Sleeping while stopped in traffic||||0.16
92309486|NCT01988129|184519491|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Paired t-test, 2-sided|||||||0.46
92309487|NCT02500043|184519493|OTHER||Hazard Ratio (HR)|0.6917||||0.0003|TWO_SIDED|95.0|0.5597|0.8548||One-sided P-Value.|Log Rank|||TAS-102+BSC and Placebo+BSC were compared using the stratified log-rank test using the 3 randomization stratification factors (region, ECOG performance status, and prior treatment with ramucirumab). The hazard ratio was estimated using a stratified Cox's proportional hazard (CPH) model and survival was summarized using Kaplan Meier estimates.||0.8548|0.5597|0.0003
92309488|NCT02500043|184519494|OTHER||Hazard Ratio (HR)|0.5723|||||TWO_SIDED|95.0|0.4674|0.7008||||||TAS-102+BSC and Placebo+BSC were compared using the stratified log-rank test using the 3 randomization stratification factors (region, ECOG performance status, and prior treatment with ramucirumab). The hazard ratio was estimated using a stratified CPH model and survival was summarized using Kaplan Meier estimates.||0.7008|0.4674|
92309489|NCT00580788|184519502|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds to change over time for the PTHrP 2 and PTHrP 5 pmol groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
92309490|NCT00580788|184519502|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.01|TWO_SIDED|||||the reported p value corresponds to a decrease by Day 8 compared to baseline in the PTHrP 4 pmol group|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||0.01
92309491|NCT00580788|184519504|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.61|TWO_SIDED|||||The reported p-value corresponds to all Arms/Groups at all time points compared to baseline|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||0.61
92309492|NCT00580788|184519505|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to the increase over time for the PTHrP 4 pmol group.|Mixed Models Analysis|Value The level of statistical significance was set at .05 (two-tailed)||||||<0.0001
92309493|NCT00580788|184519506|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to the increase over time for the PTHrP 4 pmol group.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<0.0001
92309494|NCT00580788|184519507|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds to change over time from baseline for all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>.05
92309495|NCT00580788|184519508|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.008|TWO_SIDED|||||The reported p-value corresponds to the % increase compared to baseline in all Arms/groups on Days 2-8.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.008
92309496|NCT00580788|184519508|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds the the % change from baseline at follow-up in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
92189476|NCT00145496|184277287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0565||95.0||||The test of hypothesis was a 2-tailed test with alpha=0.025 nominal significance using the Bonferroni adjustment to account for multiplicity of the key secondary comparisons.|Mixed Model for Repeated Measurements|||The null hypothesis was that there was no difference in change from baseline in QLS total score between asenapine and olanzapine at Day 182.||||0.0565
92189477|NCT00145496|184277288|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The test of hypothesis was a 2-tailed test with alpha=0.025 nominal significance using the Bonferroni adjustment to account for multiplicity of the key secondary comparisons.|Mixed Model for Repeated Measurements|||The null hypothesis was that there was no difference in change from baseline in body weight between asenapine and olanzapine at Day 182.||||<0.0001
92189478|NCT06466655|184277361|EQUIVALENCE||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92189479|NCT06466655|184277362|EQUIVALENCE||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92189480|NCT00925288|184277363|NON_INFERIORITY_OR_EQUIVALENCE|Since the standard schedule is at (0, 2, 6 months), and the modified schedule at (0, 3, 6 months), we will consider this a non-inferiority study. With 80% power, type 1 error of 0.05, standard deviations of 0.6, and an equivalence margin of 0.3, 64 women are needed per group to detect non-inferiority. Having 100 women in each study arm will yield over 94% power to detect non-inferiority of the modified schedule.|||||>|0.2||95.0|||||Regression, Logistic|||The null hypothesis is that both schedules will provide an equivalent antibody response.||||>0.20
92189481|NCT00925288|184277364|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Chi-squared|||Completion rates compared in the 2 study arms||||0.60
92189482|NCT00925288|184277365|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Chi-squared|||comparison of differences in HPV DNA prevalence by study arm.||||0.53
92309497|NCT00580788|184519509|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to % change (increase) from baseline in all Arms/groups at Days 2-8.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
92309498|NCT00580788|184519509|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds to the % change from baseline at follow-up in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
92309499|NCT00580788|184519510|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||the reported p-value corresponds to % decrease compared to baseline at Days 2-8 in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
92309500|NCT00580788|184519510|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.01|TWO_SIDED|||||the reported p-value corresponds to % change from baseline at the follow-up visit in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||0.01
92309501|NCT00580788|184519511|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.001|TWO_SIDED|||||the reported p-value correspond to the decrease compared to baseline over time in the PTHrP 4 pmol group.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||0.001
92309502|NCT00580788|184519511|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.01|TWO_SIDED|||||the reported p=value corresponds to % change compared to baseline at follow-up in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||.01
92309503|NCT00580788|184519512|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.05|TWO_SIDED|||||the reported p-values correspond to the decrease compared to baseline in all arms/groups at Days 2-8|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<0.05
92309504|NCT00580788|184519513|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.002|TWO_SIDED|||||the reported p-value corresponds to the increase comapred to baseline over time (days 2-8) in the PTHrP 4 pmol group|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||.002
92309505|NCT01403051|184519514|SUPERIORITY_OR_OTHER|||||||0.001||||||2-sided test with type I error rate of 5%, not adjusted for multiple comparisons.|Stratified Wilcoxon rank sum test|Stratified Wilcoxon rank sum test for differences between the two treatment groups, stratified by the screening 25-OH vitamin (\<=20 vs. \>20 ng/mL)||The study was sized to have 80% power to detect a 2 % difference in BMD of the hip from baseline to week 48.||||0.001
92309506|NCT01701011|184519531|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||IBM SPSS Statistics 20 was used to perform the statistical analysis. A mixed model for repeated measures was used to examine the differences between the three groups over time for the primary outcome, anxiety. All models were estimated by the method of restricted maximum likelihood (REML) and the Compound Symmetry covariance structure was chosen for the repeated measures. The analysiswas performed according to the intention to treat.||||<0.05
92309507|NCT01701011|184519531|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||To test the difference in psychological well-being between three groups with a power of 95%,a ¼ 0.05 and a medium effect size ( f ¼ 0.25), a total of 297 participants were required (99 patients per group). Taking into account a 20% attrition rate, at least 124 women had to be recruited in each group.||||<0.05
92309508|NCT01701011|184519532|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||IBM SPSS Statistics 20 was used to perform the statistical analysis. A mixed model for repeated measures was used to examine the differences between the three groups over time for the secondary outcome, depression. All models were estimated by the method of restricted maximum likelihood (REML) and the Compound Symmetry covariance structure was chosen for the repeated measures. The analysiswas performed according to the intention to treat.||||<0.05
92309509|NCT01635218|184519537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.05|TWO_SIDED|95.0|3.1|7.0||The ANOVA result (p\<0.05)suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||7.0|3.1|<0.05
92309510|NCT01635218|184519537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|0.81|<|0.05|TWO_SIDED|95.0|1.31|5.25||The ANOVA result (p\<0.05)suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||5.25|1.31|<0.05
92309511|NCT01635218|184519538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4|STANDARD_ERROR_OF_MEAN|1.71||0.14|TWO_SIDED|95.0|-0.73|7.61||The statistical significant ANOVA result (p\<0.05) suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||7.61|-0.73|0.14
92309512|NCT01635218|184519538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.28|STANDARD_ERROR_OF_MEAN|1.73||0.99|TWO_SIDED|95.0|-2.93|5.5||The ANOVA result (p\<0.05)suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||5.5|-2.93|0.99
92309513|NCT01635218|184519539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.11|||<|0.05|TWO_SIDED|95.0|0.03|0.34|||Chi-squared|||||0.34|0.03|<0.05
92309514|NCT01635218|184519539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.19|||<|0.05|TWO_SIDED|95.0|0.06|0.56|||Chi-squared|||||0.56|0.06|<0.05
92309515|NCT01635218|184519540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|2.42||0.002|TWO_SIDED|95.0|2.72|14.52||The ANOVA result (p\<0.05)suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||14.52|2.72|0.002
92309516|NCT01635218|184519540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6|STANDARD_ERROR_OF_MEAN|2.37||0.424|TWO_SIDED|95.0|-2.33|9.6||The ANOVA result (p\<0.05)suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||9.6|-2.33|0.424
92309517|NCT01635218|184519541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.26||||0.1||95.0|0.05|1.32|||Chi-squared|||||1.32|0.05|0.10
92309518|NCT01635218|184519541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.11|TWO_SIDED|95.0|0.05|1.39|||Chi-squared|||||1.39|0.05|0.11
92189483|NCT02151643|184277367|OTHER|The primary analysis was a linear model which attempted to explain change from Baseline (Visit 7) to Day 29 (Visit 11) in serum phosphate concentration based on log-transformed dose level (assuming that placebo was equally spaced below the lowest dose level), and stratified by pre-randomisation serum phosphate level (\< 7.5 mg/dL or ≥ 7.5 mg/dL). Missing assessments were imputed using the subject's last observed phosphate concentration value (Last Observation Carried Forward \[LOCF\] imputation).||||||0.784|||||||F-test|||"ITT population - statistical analysis of linear model fit using an F-test at the 0.05 level.~It was determined that 150 subjects randomised at a ratio of 8:8:8:13:13 (low dose to high dose, placebo) would have \>90% power to detect either a statistically significant slope for the dose-response relationship, or, if the relationship was not linear, a statistically significant difference between the highest-dose group and the placebo group, using a two-sided 0.05 significance level."||||0.784
92309519|NCT03262038|184519542|SUPERIORITY|||||||0.412|||||||Chi-squared|||||||.412
92309520|NCT03262038|184519543|SUPERIORITY|||||||0.633|||||||Chi-squared|||||||.633
92309521|NCT03262038|184519544|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||.007
92189484|NCT02151643|184277367|OTHER|Sensitivity analysis of ITT primary analysis using baseline observation carried forward (BOCF) for any missing Day 29 (Visit 11) serum phosphate values.||||||0.905|||||||F-test|||"ITT population sensitivity analysis using baseline observation carried forward (BOCF) to assess statistical analysis of linear model fit using an F-test at the 0.05 level."||||0.905
92309522|NCT03262038|184519545|SUPERIORITY|||||||0.634|||||||Chi-squared|||||||.634
92309523|NCT03323437|184519546|OTHER|two way anova|||||<|0.01|||||||ANOVA|||||||<0.01
92309524|NCT03323437|184519547|OTHER|two way anova||||||0.68|||||||ANOVA|||||||.68
92309525|NCT03323437|184519548|OTHER|two way anova||||||0.03|||||||ANOVA|||||||.03
92309526|NCT03323437|184519549|OTHER|two way anova||||||0.01|||||||ANOVA|||||||.01
92309527|NCT03323437|184519550|OTHER|two sided t test||||||0.59|||||||t-test, 2 sided|||||||.59
92189485|NCT02151643|184277367|OTHER|Sensitivity analysis of ITT primary analysis using multiple imputation (MI) for any missing Day 29 (Visit 11) serum phosphate values.||||||0.976|||||||F-test|||"ITT population sensitivity analysis using multiple imputation (MI) to assess statistical analysis of linear model fit using an F-test at the 0.05 level."||||0.976
92309528|NCT03323437|184519551|OTHER|two sided t test||||||0.45|||||||t-test, 2 sided|||||||.45
92309529|NCT03323437|184519552|OTHER|two way anova||||||0.32|||||||ANOVA|||||||.32
92309530|NCT03323437|184519553|OTHER|two way anova||||||0.6|||||||ANOVA|||||||.60
92309531|NCT03323437|184519554|OTHER|two way anova||||||0.34|||||||ANOVA|||||||.34
92309532|NCT03323437|184519555|OTHER|two way anova||||||0.35|||||||ANOVA|||||||.35
92309533|NCT03323437|184519556|OTHER|fisher's exact||||||0.66|||||||Fisher Exact|||||||.66
92309534|NCT03323437|184519557|OTHER|two sided t test||||||0.04|||||||t-test, 2 sided|||||||.04
92309535|NCT03323437|184519558|OTHER|fisher's exact test||||||1|||||||Fisher Exact|||||||1
92309536|NCT03857750|184519578|OTHER||Mean Difference (Final Values)|82.0|||<|0.001|TWO_SIDED|95.0|40.0|124.0|||t-test, 2 sided|||Comparing onset time of rocuronium||124|40|<0.001
92309537|NCT03857750|184519578|OTHER||Odds|19.48|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon Mann-Whitney odd||95 % confidence interval is 7.63 to infinity|82||||<0.001
92309538|NCT03857750|184519580|OTHER||Mean Difference (Final Values)|31.0|||<|0.001|TWO_SIDED|95.0|14.0|48.0|||t-test, 2 sided|||Comparing duration of action of rocuronium||48|14|<0.001
92309539|NCT03857750|184519580|OTHER||Odds|6.35||||0.001|TWO_SIDED||||||Wilcoxon Mann-Whitney odd||95% Confidence interval is 2.59 to infinity.|Comparing duration of action of rocuronium||||0.001
92309540|NCT00168818|184519581|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 7.7%. This results from the null-hypotheses of non-inferiority testing, where the rate difference has to be below 7.7%. Non-inferiority can only be shown with CI.|Risk Difference (Percentage)|-0.7||||0.5648||95.0|-2.9|1.6||p-value is for superiority testing|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.6|-2.9|0.5648
92309541|NCT00168818|184519581|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 7.7%. This results from the null-hypotheses of non-inferiority testing, where the rate difference has to be below 7.7%. Non-inferiority can only be shown with CI.|Risk Difference (Percentage)|1.9||||0.1339||95.0|-0.6|4.4||p-value is for superiority testing|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||4.4|-0.6|0.1339
92309542|NCT00168818|184519582|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.8||||0.3256||95.0|-2.5|0.8|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||0.8|-2.5|0.3256
92309543|NCT00168818|184519582|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.4||||0.7052||95.0|-1.5|2.2|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.2|-1.5|0.7052
92309544|NCT00168818|184519583|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-1.1||||0.1863||95.0|-2.7|0.5|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||0.5|-2.7|0.1863
92189486|NCT02151643|184277367|OTHER|Sensitivity analysis of the primary ITT analysis using the Per Protocol (PP) population.||||||0.914|||||||F-test|||"Per protocol (PP) population sensitivity analysis to assess statistical analysis of linear model fit using an F-test at the 0.05 level."||||0.914
92309545|NCT00168818|184519583|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.3||||0.702||95.0|-1.4|2.1|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.1|-1.4|0.7020
92309546|NCT00168818|184519584|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-1.1||||0.3173||95.0|-3.3|1.1|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.1|-3.3|0.3173
92309547|NCT00168818|184519584|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|1.9||||0.1274||95.0|-0.5|4.3|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||4.3|-0.5|0.1274
92309548|NCT00168818|184519585|SUPERIORITY_OR_OTHER|||||||0.0694||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0694
92309549|NCT00168818|184519585|SUPERIORITY_OR_OTHER|||||||0.0212||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0212
92309550|NCT00168818|184519586|SUPERIORITY_OR_OTHER|||||||0.5062||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.5062
92309551|NCT00168818|184519586|SUPERIORITY_OR_OTHER|||||||0.3717||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.3717
92309552|NCT00168818|184519587|SUPERIORITY_OR_OTHER|||||||0.124||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.1240
92309553|NCT00168818|184519587|SUPERIORITY_OR_OTHER|||||||0.2497||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.2497
92309554|NCT00168818|184519589|SUPERIORITY_OR_OTHER|||||||0.4352||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.4352
92189487|NCT02151643|184277367|OTHER|The primary analysis was a linear model which attempted to explain change from Baseline (Visit 7) to Day 29 (Visit 11) in serum phosphate concentration based on log-transformed dose level (assuming that placebo was equally spaced below the lowest dose level), and stratified by pre-randomisation serum phosphate level (\< 7.5 mg/dL or ≥ 7.5 mg/dL). Missing assessments were imputed using the subject's last observed phosphate concentration value (Last Observation Carried Forward \[LOCF\] imputation).|Slope|-0.329|||<|0.001|TWO_SIDED||||||linear model - log (dose) - response|||ITT population - statistical analysis of the linear model log(PT20 dose)-response relationship to examine whether the linear trend of the change in phosphate level as a function of the log-transformed dose was statistically significant.||||<0.001
92309555|NCT00168818|184519589|SUPERIORITY_OR_OTHER|||||||0.6037||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.6037
92309556|NCT01994291|184519593|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was to be declared if the lower limit of the confidence interval for the mean difference at Week 12 is greater than -3.0 letters.|Difference in LS means|-2.32|STANDARD_ERROR_OF_MEAN|1.52||0.1271|TWO_SIDED|80.0|-4.27|-0.37|||Mixed Models Analysis|||The null hypothesis was that the difference, in the mean change from baseline in BCVA in the PF-04634817 group,and the control group is less than or equal to -3 letters.||-0.37|-4.27|0.1271
92309557|NCT01994291|184519593|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was to be declared if the lower limit of the confidence interval for the mean difference at Week 12 is greater than -3.0 letters.|Difference in LS means|-2.48|STANDARD_ERROR_OF_MEAN|1.36||0.0699|TWO_SIDED|80.0|-4.24|-0.73|||Mixed Models Analysis|||The null hypothesis was that the difference, in the mean change from baseline in BCVA in the PF-04634817 group,and the control group is less than or equal to -3 letters.||-0.73|-4.24|0.0699
92309558|NCT01994291|184519593|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was to be declared if the lower limit of the confidence interval for the mean difference at Week 12 is greater than -3.0 letters.|Difference in LS means|-2.41|STANDARD_ERROR_OF_MEAN|1.17||0.0399|TWO_SIDED|80.0|-3.91|-0.91|||Mixed Models Analysis|||The null hypothesis was that the difference, in the mean change from baseline in BCVA in the PF-04634817 group,and the control group is less than or equal to -3 letters.||-0.91|-3.91|0.0399
92309559|NCT01994291|184519594|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1416||||0.0218|TWO_SIDED|80.0|-0.2483|-0.0467|||Barnard test|||||-0.0467|-0.2483|0.0218
92309560|NCT01994291|184519594|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0442||||0.4209|TWO_SIDED|80.0|-0.1217|0.0261|||Barnard test.|||baseline in BCVA in the PF-04634817 group,and the control group is less than or equal to -3 letters.||0.0261|-0.1217|0.4209
92309561|NCT01994291|184519594|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0849||||0.0778|TWO_SIDED|80.0|-0.1516|-0.0168|||Barnard test.|||||-0.0168|-0.1516|0.0778
92309562|NCT01994291|184519595|SUPERIORITY_OR_OTHER||Difference in LS means|114.07|STANDARD_ERROR_OF_MEAN|19.84|<|0.0001|TWO_SIDED|80.0|88.56|139.59|||Mixed Models Analysis|||||139.59|88.56|<0.0001
92309563|NCT01994291|184519595|SUPERIORITY_OR_OTHER||Difference in LS means|65.81|STANDARD_ERROR_OF_MEAN|18.36||0.0004|TWO_SIDED|80.0|42.2|89.43|||Mixed Models Analysis|||||89.43|42.20|0.0004
92309564|NCT01994291|184519595|SUPERIORITY_OR_OTHER||Difference in LS means|87.32|STANDARD_ERROR_OF_MEAN|15.44|<|0.0001|TWO_SIDED|80.0|67.45|107.19|||Mixed Models Analysis|||||107.19|67.45|<0.0001
92309565|NCT01994291|184519596|SUPERIORITY_OR_OTHER||Difference in LS means|7.98|STANDARD_ERROR_OF_MEAN|1.44|<|0.0001|TWO_SIDED|80.0|6.13|9.83|||ANCOVA|||||9.83|6.13|<0.0001
92309566|NCT01994291|184519596|SUPERIORITY_OR_OTHER||Difference in LS means|6.34|STANDARD_ERROR_OF_MEAN|1.28|<|0.0001|TWO_SIDED|80.0|4.7|7.98|||ANCOVA|||||7.98|4.70|<0.0001
92309567|NCT01994291|184519596|SUPERIORITY_OR_OTHER||Difference in LS means|7.07|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|80.0|5.66|8.48|||ANCOVA|||||8.48|5.66|<0.0001
92309568|NCT01994291|184519597|SUPERIORITY_OR_OTHER||Difference in LS means|0.34|STANDARD_ERROR_OF_MEAN|0.17||0.0423|TWO_SIDED|80.0|0.13|0.55|||ANCOVA|||||0.55|0.13|0.0423
92309569|NCT01994291|184519597|SUPERIORITY_OR_OTHER||Difference in LS means|0.55|STANDARD_ERROR_OF_MEAN|0.15||0.0004|TWO_SIDED|80.0|0.36|0.75|||ANCOVA|||||0.75|0.36|0.0004
92309570|NCT01994291|184519597|SUPERIORITY_OR_OTHER||Difference in LS means|0.46|STANDARD_ERROR_OF_MEAN|0.13||0.0004|TWO_SIDED|80.0|0.3|0.63|||ANCOVA|||||0.63|0.30|0.0004
92309571|NCT01775189|184519606|SUPERIORITY_OR_OTHER||Least Squares (LS) mean Difference|9.5||||0.0001|TWO_SIDED|95.0|4.8|14.2||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||14.2|4.8|0.0001
92309572|NCT01775189|184519606|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.3|||<|0.0001|TWO_SIDED|95.0|-37.0|-27.6||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-27.6|-37.0|<0.0001
92309573|NCT01775189|184519606|SUPERIORITY_OR_OTHER||LS Mean Difference|9.1||||0.0002|TWO_SIDED|95.0|4.5|13.8||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.8|4.5|0.0002
92309574|NCT01775189|184519606|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.8806|TWO_SIDED|95.0|-5.0|4.3||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.3|-5.0|0.8806
92309575|NCT01775189|184519606|SUPERIORITY_OR_OTHER||LS Mean Difference|41.4|||<|0.0001|TWO_SIDED|95.0|36.8|46.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||46.1|36.8|<0.0001
92309576|NCT01775189|184519606|SUPERIORITY_OR_OTHER||LS Mean Difference|41.8|||<|0.0001|TWO_SIDED|95.0|37.1|46.4||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||46.4|37.1|<0.0001
92309577|NCT01775189|184519607|SUPERIORITY_OR_OTHER||LS Mean Difference|6.6||||0.2176|TWO_SIDED|95.0|-4.0|17.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||17.1|-4.0|0.2176
92309578|NCT01775189|184519607|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.6|||<|0.0001|TWO_SIDED|95.0|-65.1|-44.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-44.1|-65.1|<0.0001
92309579|NCT01775189|184519607|SUPERIORITY_OR_OTHER||LS Mean Difference|5.0||||0.3502|TWO_SIDED|95.0|-5.6|15.5||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||15.5|-5.6|0.3502
92309580|NCT01775189|184519607|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6||||0.7624|TWO_SIDED|95.0|-12.1|8.9||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||8.9|-12.1|0.7624
92309581|NCT01775189|184519607|SUPERIORITY_OR_OTHER||LS Mean Difference|59.6|||<|0.0001|TWO_SIDED|95.0|49.0|70.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||70.1|49.0|<0.0001
92309582|NCT01775189|184519607|SUPERIORITY_OR_OTHER||LS Mean Difference|61.2|||<|0.0001|TWO_SIDED|95.0|50.6|71.7||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||71.7|50.6|<0.0001
92309583|NCT01775189|184519608|SUPERIORITY_OR_OTHER||LS Mean Difference|24.5|||<|0.0001|TWO_SIDED|95.0|13.8|35.3||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||35.3|13.8|<0.0001
92309584|NCT01775189|184519608|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.7|||<|0.0001|TWO_SIDED|95.0|-72.6|-50.9||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-50.9|-72.6|<0.0001
92309585|NCT01775189|184519608|SUPERIORITY_OR_OTHER||LS Mean Difference|18.2||||0.0012|TWO_SIDED|95.0|7.4|29.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||29.1|7.4|0.0012
92309586|NCT01775189|184519608|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.3||||0.2507|TWO_SIDED|95.0|-17.2|4.5||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.5|-17.2|0.2507
92309587|NCT01775189|184519608|SUPERIORITY_OR_OTHER||LS Mean Difference|79.9|||<|0.0001|TWO_SIDED|95.0|69.2|90.7||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||90.7|69.2|<0.0001
92309588|NCT01775189|184519608|SUPERIORITY_OR_OTHER||LS Mean Difference|86.3|||<|0.0001|TWO_SIDED|95.0|75.4|97.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||97.1|75.4|<0.0001
92309589|NCT01775189|184519609|SUPERIORITY_OR_OTHER||LS Mean Difference|26.9||||0.0015|TWO_SIDED|95.0|10.6|43.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||43.1|10.6|0.0015
92189488|NCT02151643|184277367|OTHER||||||<|0.001|||||||Mixed Models Analysis|||ITT population supportive analysis - Type 3 tests of fixed effects - treatment group||||<0.001
92189489|NCT02151643|184277367|OTHER|||||||0.436|||||||Mixed Models Analysis|||ITT population supportive analysis - Type 3 tests of fixed effects - visit||||0.436
92189490|NCT02151643|184277367|OTHER|||||||0.959|||||||Mixed Models Analysis|||ITT population supportive analysis - Type 3 tests of fixed effects - treatment group versus Visit interaction||||0.959
92189491|NCT02151643|184277367|OTHER||||||<|0.001|||||||Mixed Models Analysis|||ITT population supportive analysis - Type 3 tests of fixed effects - baseline serum phosphate concentration||||<0.001
92189492|NCT02151643|184277367|OTHER|||||||0.144|||||||Mixed Models Analysis|||ITT population supportive analysis - Type 3 tests of fixed effects - baseline serum phosphate concentration versus Visit interaction||||0.144
92309590|NCT01775189|184519609|SUPERIORITY_OR_OTHER||LS Mean Difference|-109.3|||<|0.0001|TWO_SIDED|95.0|-125.7|-93.0||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-93.0|-125.7|<0.0001
92309591|NCT01775189|184519609|SUPERIORITY_OR_OTHER||LS Mean Difference|21.4||||0.0109|TWO_SIDED|95.0|5.1|37.8||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.8|5.1|0.0109
92309592|NCT01775189|184519609|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.4||||0.5117|TWO_SIDED|95.0|-21.8|10.9||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.9|-21.8|0.5117
92309593|NCT01775189|184519609|SUPERIORITY_OR_OTHER||LS Mean Difference|130.8|||<|0.0001|TWO_SIDED|95.0|114.5|147.0||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||147.0|114.5|<0.0001
92309594|NCT01775189|184519609|SUPERIORITY_OR_OTHER||LS Mean Difference|136.2|||<|0.0001|TWO_SIDED|95.0|119.8|152.5||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||152.5|119.8|<0.0001
92309595|NCT00118534|184519667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.007|TWO_SIDED|95.0|1.22|3.59|||Regression, Logistic|||The target sample size (n=1400)was designed to have 90% power to detect the difference between 6% and 11% prolonged abstinence rates in SCC and IC, respectively, using a 2-sided .05 level Chi-square test. Final enrollment was 943. The recruitment period was not extended because the achieved sample size provided 78% power to detect the hypothesized prolonged abstinence rates, and the study continued to the end of planned follow-up.||3.59|1.22|0.007
92189493|NCT02151643|184277367|OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.2847|||ONE_SIDED|97.5||0.761||||||ITT population supportive analysis - mixed model repeated measures for change in serum phosphate concentration||0.761||
92189494|NCT02151643|184277367|OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.2881|||ONE_SIDED|97.5||0.659||||||ITT population supportive analysis - mixed model repeated measures for change in serum phosphate concentration||0.659||
92309596|NCT00118534|184519668|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43|||<|0.001|TWO_SIDED|95.0|1.58|3.74|||Regression, Logistic|||||3.74|1.58|<0.001
92309597|NCT02368314|184519738|SUPERIORITY_OR_OTHER|||||||0.226|||||||Fisher Exact|||||||0.226
92189495|NCT02151643|184277367|OTHER||Mean Difference (Final Values)|-0.705|STANDARD_ERROR_OF_MEAN|0.2891|||ONE_SIDED|97.5||-0.05||||||ITT population supportive analysis - mixed model repeated measures for change in serum phosphate concentration||-0.05||
92189496|NCT02151643|184277367|OTHER||Mean Difference (Final Values)|-1.195|STANDARD_ERROR_OF_MEAN|0.255|||ONE_SIDED|97.5||-0.618||||||ITT population supportive analysis - mixed model repeated measures for change in serum phosphate concentration||-0.618||
92189497|NCT02151643|184277368|OTHER|||||||0.497|||||||ANCOVA|||Repeated measures ANCOVA for change in haemoglobin concentration from Baseline by PT20 dose group.||||0.497
92189498|NCT02151643|184277368|OTHER||||||<|0.001|||||||ANCOVA|||Repeated measures ANCOVA for change in haemoglobin concentration from Baseline by baseline hemoglobin.||||<0.001
92189499|NCT02151643|184277369|OTHER|||||||0.243|||||||ANCOVA|||Repeated measures ANCOVA for change in serum ferritin concentration from Baseline by PT20 dose group.||||0.243
92189500|NCT02151643|184277369|OTHER|||||||0.867|||||||ANCOVA|||Repeated measures ANCOVA for change in serum ferritin concentration from Baseline by Visit.||||0.867
92189501|NCT02151643|184277369|OTHER|||||||0.186|||||||ANCOVA|||Repeated measures ANCOVA for change in serum ferritin concentration from Baseline by baseline serum ferritin concentration||||0.186
92189502|NCT02151643|184277370|OTHER|||||||0.068|||||||ANCOVA|||Repeated measures ANCOVA for change in transferrin saturation from Baseline by PT20 dose group.||||0.068
92189503|NCT02151643|184277370|OTHER|||||||0.013|||||||ANCOVA|||Repeated measures ANCOVA for change in transferrin saturation from Baseline by Visit.||||0.013
92309598|NCT00073021|184519810|SUPERIORITY_OR_OTHER||Difference in Success Rates|12.543||||0.0357|TWO_SIDED|95.0|0.96|24.12|||Chi-squared|||It was assumed that true rate of improvement for 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with 2-sided test, type I error of 0.05 (alpha = 0.05), and power of 80%, 120 patients with moderately active ulcerative colitis were required per group to complete the study.||24.12|0.96|0.0357
92309599|NCT00073021|184519811|SUPERIORITY_OR_OTHER||Difference Between Means|-0.5||||0.1594|TWO_SIDED|95.0|-1.28|0.21|||ANOVA|||||0.21|-1.28|0.1594
92309600|NCT00073021|184519811|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Compared to baseline|t-test, 2 sided|The 2-sample t-test will be used to examine the treatment effect.||||||<0.0001
92309601|NCT00073021|184519811|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Compared to baseline|t-test, 2 sided|Teh 2-sample t-test will be used to examine the treatment effect.||||||<0.0001
92309602|NCT00073021|184519812|SUPERIORITY_OR_OTHER||Difference in Success Rates|3.75||||0.5774|TWO_SIDED|95.0|-9.43|16.93|||Chi-squared|||||16.93|-9.43|0.5774
92309603|NCT00073021|184519813|SUPERIORITY_OR_OTHER||Difference in Success Rates|6.19||||0.2991|TWO_SIDED|95.0|-5.47|17.86|||Chi-squared|||||17.86|-5.47|0.2991
92309604|NCT00073021|184519814|SUPERIORITY_OR_OTHER||Difference in Success Rates|2.74||||0.6543|TWO_SIDED|95.0|-9.25|14.73|||Chi-squared|||||14.73|-9.25|0.6543
92309605|NCT00073021|184519815|SUPERIORITY_OR_OTHER||Difference in Success Rates|1.05||||0.8542|TWO_SIDED|95.0|-10.19|12.29|||Chi-squared|||||12.29|-10.19|0.8542
92309606|NCT00073021|184519816|SUPERIORITY_OR_OTHER||Difference in Success Rates|-0.96||||0.8859|TWO_SIDED|95.0|-14.09|12.17|||Chi-squared|||||12.17|-14.09|0.8859
92309607|NCT00073021|184519817|SUPERIORITY_OR_OTHER||Difference in Success Rates|9.73||||0.0758|TWO_SIDED|95.0|-0.94|20.4|||Chi-squared|||||20.40|-0.94|0.0758
92309608|NCT00073021|184519818|SUPERIORITY_OR_OTHER|||||||0.8308||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8308
92309609|NCT00073021|184519818|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||Compared to baseline|t-test, 2 sided|||||||<0.0001
92309610|NCT00073021|184519818|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Compared to baseline.|t-test, 2 sided|||||||<0.0001
92309611|NCT00073021|184519819|SUPERIORITY_OR_OTHER|||||||0.534||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5340
92309612|NCT00073021|184519819|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Compared to baseline|t-test, 2 sided|||||||<0.0001
92309613|NCT00073021|184519819|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Compared to baseline|t-test, 2 sided|||||||<0.0001
92309614|NCT00073021|184519820|SUPERIORITY_OR_OTHER||Difference in Success Rates|11.1||||0.0966|TWO_SIDED|95.0|-1.87|24.14|||Chi-squared|||||24.14|-1.87|0.0966
92309615|NCT00073021|184519821|SUPERIORITY_OR_OTHER||Difference in Success Rates|9.75||||0.1173|TWO_SIDED|95.0|-2.39|21.89|||Chi-squared|||||21.89|-2.39|0.1173
92309616|NCT04428333|184519831|SUPERIORITY|Other|Hazard Ratio (HR)|2.16||||0.74|TWO_SIDED|95.0|0.2|23.87||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and Human Papilloma Virus (HPV) status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||23.87|0.20|0.740
92309617|NCT04428333|184519832|SUPERIORITY|Other|Hazard Ratio (HR)|2.16||||0.74|TWO_SIDED|95.0|0.2|23.87||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS ≥ 20 vs 1≤ CPS\<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||23.87|0.20|0.740
92309618|NCT04428333|184519833|SUPERIORITY|Other|Hazard Ratio (HR)|0.7||||0.284|TWO_SIDED|95.0|0.2|2.43||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||2.43|0.20|0.284
92309619|NCT04428333|184519834|SUPERIORITY|Other|Hazard Ratio (HR)|0.7||||0.284|TWO_SIDED|95.0|0.2|2.43||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS≥20 vs 1≤CPS\<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||2.43|0.20|0.284
92309620|NCT04428333|184519837|OTHER||Difference in Percentage|-4.8|||||TWO_SIDED|95.0|-20.8|11.3||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||11.3|-20.8|
92189504|NCT02151643|184277370|OTHER||||||<|0.001|||||||ANCOVA|||Repeated measures ANCOVA for change in transferrin saturation from Baseline by Baseline Transferrin Saturation.||||<0.001
92309621|NCT04428333|184519838|OTHER||Difference in Percentage|-5.1|||||TWO_SIDED|95.0|-21.4|11.3||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS≥20 vs 1≤CPS\<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||11.3|-21.4|
92309622|NCT04428333|184519839|OTHER||Difference in Percentage|-4.8|||||TWO_SIDED|95.0|-22.2|13.1||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||13.1|-22.2|
92309623|NCT04428333|184519840|OTHER||Difference in Percentage|-5.1|||||TWO_SIDED|95.0|-22.8|13.3||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||13.3|-22.8|
92309624|NCT04428333|184519857|SUPERIORITY|Other|Hazard Ratio (HR)|0.85||||0.329|TWO_SIDED|95.0|0.42|1.71||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||1.71|0.42|0.329
92189505|NCT02151643|184277371|OTHER|||||||0.004|||||||ANCOVA|||Repeated measures ANCOVA for change in Calcium x Phosphate Product from Baseline by PT20 dose group.||||0.004
92189506|NCT02151643|184277371|OTHER||||||<|0.001|||||||ANCOVA|||Repeated measures ANCOVA for change in transferrin saturation from Baseline by Baseline Calcium x Phosphate Product.||||<0.001
92189507|NCT02151643|184277372|OTHER|||||||0.292|||||||paired z-test|||||||0.292
92189508|NCT02151643|184277372|OTHER|||||||0.047|||||||paired z-test|||||||0.047
92309625|NCT04428333|184519858|SUPERIORITY|Other|Hazard Ratio (HR)|0.82||||0.302|TWO_SIDED|95.0|0.4|1.69||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS≥20 vs 1≤CPS\<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||1.69|0.40|0.302
92309626|NCT04428333|184519859|SUPERIORITY|Other|Hazard Ratio (HR)|0.96||||0.472|TWO_SIDED|95.0|0.44|2.11||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||2.11|0.44|0.472
92309627|NCT04428333|184519860|SUPERIORITY|Other|Hazard Ratio (HR)|0.83||||0.335|TWO_SIDED|95.0|0.36|1.9||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS≥20 vs 1≤CPS\<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||1.90|0.36|0.335
92309628|NCT02629354|184519863|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|113.77|||||TWO_SIDED|90.0|98.99|130.75|||ANOVA||Analysis of variance (ANOVA) with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% confidence interval (CI) was provided.||130.75|98.99|
92309629|NCT02629354|184519864|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|110.16|||||TWO_SIDED|90.0|96.32|125.97|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||125.97|96.32|
92309630|NCT02629354|184519865|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|112.69|||||TWO_SIDED|90.0|98.49|128.94|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||128.94|98.49|
92309631|NCT02629354|184519866|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|97.36|||||TWO_SIDED|90.0|94.61|100.19|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||100.19|94.61|
92309632|NCT02629354|184519867|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|96.47|||||TWO_SIDED|90.0|93.74|99.28|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||99.28|93.74|
92309633|NCT02629354|184519868|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|97.55|||||TWO_SIDED|90.0|92.57|102.8|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||102.80|92.57|
92309634|NCT02629354|184519869|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|97.57|||||TWO_SIDED|90.0|94.5|100.73|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||100.73|94.50|
92309635|NCT02629354|184519870|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|97.21|||||TWO_SIDED|90.0|92.22|102.46|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||102.46|92.22|
92309636|NCT02629354|184519871|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|96.83|||||TWO_SIDED|90.0|93.75|100.01|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||100.01|93.75|
92309637|NCT03982199|184519916|SUPERIORITY||Event Rate|80.0||||4e-05|TWO_SIDED|94.211|52.2|92.9|||Poisson regression|||Case Definition 1||92.9|52.2|0.00004
92309638|NCT03982199|184519916|SUPERIORITY||Event Rate|75.0||||1e-05|TWO_SIDED|94.211|50.1|88.5|||Poisson regression|||Case Definition 2||88.5|50.1|0.00001
92309639|NCT03982199|184519916|SUPERIORITY||Event Rate|69.8||||4e-05|TWO_SIDED|94.211|43.7|84.7|||Poisson regression|||Case Definition 3||84.7|43.7|0.00004
92309640|NCT03433755|184519933|SUPERIORITY||Treatment difference|-70.73|STANDARD_ERROR_OF_MEAN|3.65|<|0.0001|TWO_SIDED|95.0|-77.98|-63.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-63.48|-77.98|< 0.0001
92189509|NCT02151643|184277372|OTHER|||||||0.872|||||||paired z-test|||||||0.872
92189510|NCT02151643|184277372|OTHER|||||||0.288|||||||paired z-test|||||||0.288
92309641|NCT03433755|184519933|SUPERIORITY||Treatment difference|-69.74|STANDARD_ERROR_OF_MEAN|3.41|<|0.0001|TWO_SIDED|95.0|-76.51|-62.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-62.97|-76.51|< 0.0001
92309642|NCT03433755|184519934|SUPERIORITY||Treatment difference|-70.87|STANDARD_ERROR_OF_MEAN|4.33|<|0.0001|TWO_SIDED|95.0|-79.47|-62.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-62.27|-79.47|< 0.0001
92309643|NCT03433755|184519934|SUPERIORITY||Treatment difference|-65.81|STANDARD_ERROR_OF_MEAN|4.11|<|0.0001|TWO_SIDED|95.0|-73.97|-57.66||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-57.66|-73.97|< 0.0001
92309644|NCT03433755|184519935|SUPERIORITY||Treatment difference|-76.5|STANDARD_ERROR_OF_MEAN|5.1|<|0.0001|TWO_SIDED|95.0|-86.6|-66.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-66.4|-86.6|< 0.0001
92309645|NCT03433755|184519935|SUPERIORITY||Treatment difference|-77.2|STANDARD_ERROR_OF_MEAN|5.3|<|0.0001|TWO_SIDED|95.0|-87.7|-66.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-66.7|-87.7|< 0.0001
92309646|NCT03433755|184519936|SUPERIORITY||Treatment difference|-75.9|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001|TWO_SIDED|95.0|-87.1|-64.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-64.7|-87.1|< 0.0001
92309647|NCT03433755|184519936|SUPERIORITY||Treatment difference|-73.0|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001|TWO_SIDED|95.0|-84.1|-61.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-61.8|-84.1|< 0.0001
92309648|NCT03433755|184519937|SUPERIORITY||Treatment difference|-61.2|STANDARD_ERROR_OF_MEAN|3.44|<|0.0001|TWO_SIDED|95.0|-68.04|-54.37||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-54.37|-68.04|< 0.0001
92309649|NCT03433755|184519937|SUPERIORITY||Treatment difference|-62.15|STANDARD_ERROR_OF_MEAN|2.94|<|0.0001|TWO_SIDED|95.0|-67.97|-56.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-56.32|-67.97|< 0.0001
92309650|NCT03433755|184519938|SUPERIORITY||Treatment difference|-61.45|STANDARD_ERROR_OF_MEAN|3.93|<|0.0001|TWO_SIDED|95.0|-69.25|-53.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-53.65|-69.25|< 0.0001
92309651|NCT03433755|184519938|SUPERIORITY||Treatment difference|-56.65|STANDARD_ERROR_OF_MEAN|3.54|<|0.0001|TWO_SIDED|95.0|-63.66|-49.63||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-49.63|-63.66|< 0.0001
92309652|NCT03433755|184519939|SUPERIORITY||Treatment Difference|-56.26|STANDARD_ERROR_OF_MEAN|3.12|<|0.0001|TWO_SIDED|95.0|-62.44|-50.07||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-50.07|-62.44|< 0.0001
92189511|NCT04307134|184277389|OTHER||Odds Ratio (OR)|999.99|||=|0.9509|TWO_SIDED|95.0|0.01|999.99||Statistical data presented based on Multiple logistic regression including Allergic history as factor and was performed to assess whether allergic history status influenced occurrence of AEs. This model produced one effect estimate for association.|Regression, Logistic|||||999.99|0.01|=0.9509
92309653|NCT03433755|184519939|SUPERIORITY||Treatment Difference|-57.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|-62.35|-51.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-51.65|-62.35|< 0.0001
92189512|NCT04307134|184277396|OTHER||Odds Ratio (OR)|1.03|||=|0.1488|TWO_SIDED|95.0|0.99|1.07||Multiple logistic regression including age as factor.|Regression, Logistic|||Statistical data for this outcome measure is combined for all age groups in accordance with local regulations.||1.07|0.99|=0.1488
92189513|NCT03751280|184277471|OTHER||Comparison of adjusted least square mean|0.61|STANDARD_ERROR_OF_MEAN|1.2|||TWO_SIDED|90.0|-1.4|2.6|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29||2.6|-1.4|
92189514|NCT03751280|184277471|OTHER||Comparison of adjusted least square mean|0.8|STANDARD_ERROR_OF_MEAN|1.279|||TWO_SIDED|90.0|-1.3|2.9|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 57||2.9|-1.3|
92189515|NCT03751280|184277471|OTHER||Comparison of adjusted least square mean|2.73|STANDARD_ERROR_OF_MEAN|1.611||0.0931|TWO_SIDED|90.0|0.1|5.4|||t-test, 2 sided||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 85||5.4|0.1|0.0931
92189516|NCT03751280|184277473|OTHER||Comparison of adjusted least square mean|0.21|STANDARD_ERROR_OF_MEAN|0.501|||TWO_SIDED|90.0|-0.6|1.0|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29||1|-0.6|
92189517|NCT03751280|184277473|OTHER||Comparison of adjusted least square mean|0.61|STANDARD_ERROR_OF_MEAN|0.538|||TWO_SIDED|90.0|-0.3|1.5|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 57||1.5|-0.3|
92309654|NCT03433755|184519940|SUPERIORITY||Treatment difference|-55.69|STANDARD_ERROR_OF_MEAN|3.67|<|0.0001|TWO_SIDED|95.0|-62.98|-48.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-48.41|-62.98|< 0.0001
92309655|NCT03433755|184519940|SUPERIORITY||Treatment difference|-51.21|STANDARD_ERROR_OF_MEAN|3.45|<|0.0001|TWO_SIDED|95.0|-58.06|-44.37||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-44.37|-58.06|< 0.0001
92309656|NCT03433755|184519941|SUPERIORITY||Treatment difference|-42.74|STANDARD_ERROR_OF_MEAN|2.68|<|0.0001|TWO_SIDED|95.0|-48.06|-37.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-37.41|-48.06|< 0.0001
92309657|NCT03433755|184519941|SUPERIORITY||Treatment difference|-44.3|STANDARD_ERROR_OF_MEAN|2.38|<|0.0001|TWO_SIDED|95.0|-49.02|-39.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-39.58|-49.02|< 0.0001
92309658|NCT03433755|184519942|SUPERIORITY||Treatment difference|-43.05|STANDARD_ERROR_OF_MEAN|3.05|<|0.0001|TWO_SIDED|95.0|-49.09|-37.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-37.00|-49.09|< 0.0001
92189518|NCT03751280|184277473|OTHER||Comparison of adjusted least square mean|0.82|STANDARD_ERROR_OF_MEAN|0.648||0.2069|TWO_SIDED|90.0|-0.3|1.9|||t-test, 2 sided||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 85||1.9|-0.3|0.2069
92189519|NCT03751280|184277474|OTHER||Comparison of adjusted least square mean|0.51|STANDARD_ERROR_OF_MEAN|0.849|||TWO_SIDED|90.0|-0.9|1.9|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29||1.9|-0.9|
92189520|NCT03751280|184277474|OTHER||Comparison of adjusted least square mean|0.12|STANDARD_ERROR_OF_MEAN|0.89|||TWO_SIDED|90.0|-1.4|1.6|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 57||1.6|-1.4|
92189521|NCT03751280|184277474|OTHER||Comparison of adjusted least square mean|1.61|STANDARD_ERROR_OF_MEAN|1.071||0.1368|TWO_SIDED|90.0|-0.2|3.4|||t-test, 2 sided|||Day 85||3.4|-0.2|0.1368
92189522|NCT03751280|184277475|OTHER||Comparison of adjusted least square mean|-0.13|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|90.0|-0.8|0.6|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29||0.6|-0.8|
92189523|NCT03751280|184277475|OTHER||Comparison of adjusted least square mean|0.15|STANDARD_ERROR_OF_MEAN|0.453|||TWO_SIDED|90.0|-0.6|0.9|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 57||0.9|-0.6|
92189524|NCT03751280|184277475|OTHER||Comparison of adjusted least square mean|0.51|STANDARD_ERROR_OF_MEAN|0.581||0.3798|TWO_SIDED|90.0|-0.5|1.5|||t-test, 2 sided||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|||1.5|-0.5|0.3798
92189525|NCT03751280|184277476|OTHER||Comparison of adjusted least square mean|-0.79|STANDARD_ERROR_OF_MEAN|-0.79|||TWO_SIDED|90.0|-3.2|1.6|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29||1.6|-3.2|
92189526|NCT03751280|184277476|OTHER||Comparison of adjusted least square mean|-1.6|STANDARD_ERROR_OF_MEAN|2.006|||TWO_SIDED|90.0|-4.9|1.7|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 57||1.7|-4.9|
92189527|NCT03751280|184277476|OTHER||Comparison of adjusted least square mean|-4.07|STANDARD_ERROR_OF_MEAN|1.78||0.0245|TWO_SIDED|90.0|-7.0|-1.1|||t-test, 2 sided||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 85||-1.1|-7.0|0.0245
92189528|NCT03751280|184277477|OTHER||Comparison of adjusted least square mean|-0.18|STANDARD_ERROR_OF_MEAN|0.516|||TWO_SIDED|90.0|-1.0|0.7|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29-Domain 1||0.7|-1.0|
92189529|NCT05045638|184277569|OTHER||Ratio of GLSMs|1.6999|||||TWO_SIDED|90.0|1.186|2.4363||||||The ratios of geometric least squares means (GLSMs) and confidence intervals (CIs) were obtained by taking the exponential of the corresponding differences and CIs on the natural-log (ln) scale.||2.4363|1.1860|
92189530|NCT05045638|184277570|OTHER||Ratio of GLSMs|1.3389|||||TWO_SIDED|90.0|1.0334|1.7347||||||The ratios of GLSMs and CIs were obtained by taking the exponential of the corresponding differences and CIs on the ln scale.||1.7347|1.0334|
92189531|NCT05045638|184277571|OTHER||Ratio of GLSMs|1.3382|||||TWO_SIDED|90.0|0.9856|1.8169||||||The ratios of GLSMs and CIs were obtained by taking the exponential of the corresponding differences and CIs on the ln scale.||1.8169|0.9856|
92189532|NCT02032420|184277592|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Repeated-measures MANOVA|The reported p value is for the effect of group assignment across three iterations of the assigned task.||||||<0.001
92189533|NCT02032420|184277593|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Repeated-measures MANOVA|The p value is for the effect of group assignment across three iterations of the assigned task.||||||0.004
92189534|NCT02032420|184277594|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.038
92189535|NCT02032420|184277595|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Fisher Exact|||||||0.003
92189536|NCT01292005|184277633|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 1. p\<0.05 was considered statistically significant.||||0.62
92189537|NCT01292005|184277633|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 3. p\<0.05 was considered statistically significant.||||1.0
92189538|NCT01292005|184277634|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 1. p\<0.05 was considered statistically significant.||||0.72
92189539|NCT01292005|184277634|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 3. p\<0.05 was considered statistically significant.||||0.50
92309659|NCT03433755|184519942|SUPERIORITY||Treatment difference|-40.42|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-45.98|-34.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-34.87|-45.98|< 0.0001
92309660|NCT03433755|184519943|SUPERIORITY||Treatment difference|87.2|||<|0.0001|TWO_SIDED|95.0|72.6|92.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||92.8|72.6|< 0.0001
92309661|NCT03433755|184519943|SUPERIORITY||Treatment difference|91.5|||<|0.0001|TWO_SIDED|95.0|76.9|96.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab QM - Placebo QM|||96.1|76.9|< 0.0001
92309662|NCT03433755|184519944|SUPERIORITY||Treatment difference|90.6|||<|0.0001|TWO_SIDED|95.0|76.6|95.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||95.6|76.6|< 0.0001
92309663|NCT03433755|184519944|SUPERIORITY||Treatment difference|85.7|||<|0.0001|TWO_SIDED|95.0|68.2|91.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab QM - Placebo QM|||91.9|68.2|< 0.0001
92189540|NCT01292005|184277635|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 1. p\<0.05 was considered statistically significant.||||0.58
92189541|NCT01292005|184277635|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 3. p\<0.05 was considered statistically significant.||||0.80
92189542|NCT01292005|184277636|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 1. p\<0.05 was considered statistically significant.||||0.90
92189543|NCT01292005|184277636|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 3. p\<0.05 was considered statistically significant.||||0.56
92189544|NCT01292005|184277637|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Wilcoxon (Mann-Whitney)|||p\<0.05 was considered statistically significant.||||0.09
92189545|NCT01292005|184277638|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Wilcoxon (Mann-Whitney)|||p\<0.05 was considered statistically significant.||||0.22
92189546|NCT01292005|184277639|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||t-test, 2 sided|||Comparison between arms for length of hospitalization \> 4 days. P \< 0.05 was considered statistically significant.||||0.04
92189547|NCT01292005|184277639|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 2 sided|||Comparison was for length of hospitalization \>10 days. P \< 0.05 was considered statistically significant.||||0.03
92189548|NCT01292005|184277640|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||t-test, 2 sided|||P \< 0.05 was considered statistically significant.||||0.06
92189549|NCT01292005|184277641|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||P \< 0.05 was considered statistically significant.||||0.03
92189550|NCT01292005|184277642|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Wilcoxon (Mann-Whitney)|||P \< 0.05 was considered statistically significant.||||0.04
92189551|NCT03305458|184277651|SUPERIORITY||||||||||||||||||To determine if child and caregiver engagement is affected by overall SPARK use, a 2-level MLM (level-1 child, level-2 provider) will be used. Engagement scores will be calculated per child and caregiver participant. An aggregate engagement score will determine if there are differences across conditions (SPARK + TF CBT vs standard TF-CBT) while accounting for the nesting providers.|||
92309664|NCT03433755|184519945|SUPERIORITY||Treatment difference|87.0|||<|0.0001|TWO_SIDED|95.0|73.3|93.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||93.0|73.3|< 0.0001
92309665|NCT03433755|184519945|SUPERIORITY||Treatment difference|88.7|||<|0.0001|TWO_SIDED|95.0|73.5|94.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab QM - Placebo QM|||94.0|73.5|< 0.0001
92309666|NCT03433755|184519946|SUPERIORITY||Treatment difference|82.8|||<|0.0001|TWO_SIDED|95.0|67.8|90.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||90.1|67.8|< 0.0001
92309667|NCT03433755|184519946|SUPERIORITY||Treatment difference|82.7|||<|0.0001|TWO_SIDED|95.0|64.8|89.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab QM - Placebo QM|||89.7|64.8|< 0.0001
92309668|NCT03433755|184519947|SUPERIORITY||Treatment difference|-48.45|STANDARD_ERROR_OF_MEAN|4.71|<|0.0001|TWO_SIDED|95.0|-57.78|-39.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-39.11|-57.78|< 0.0001
92309669|NCT03433755|184519947|SUPERIORITY||Treatment difference|-40.43|STANDARD_ERROR_OF_MEAN|4.13|<|0.0001|TWO_SIDED|95.0|-48.62|-32.24||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-32.24|-48.62|< 0.0001
92309670|NCT03433755|184519948|SUPERIORITY||Treatment difference|-44.7|STANDARD_ERROR_OF_MEAN|5.07|<|0.0001|TWO_SIDED|95.0|-54.76|-34.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-34.65|-54.76|< 0.0001
92309671|NCT03433755|184519948|SUPERIORITY||Treatment difference|-38.26|STANDARD_ERROR_OF_MEAN|5.88|<|0.0001|TWO_SIDED|95.0|-49.94|-26.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-26.59|-49.94|< 0.0001
92309672|NCT03433755|184519949|SUPERIORITY||Treatment difference|-15.09|STANDARD_ERROR_OF_MEAN|4.71||0.008|TWO_SIDED|95.0|-24.44|-5.75||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-5.75|-24.44|0.008
92309673|NCT03433755|184519949|SUPERIORITY||Treatment difference|-19.67|STANDARD_ERROR_OF_MEAN|4.35|<|0.0001|TWO_SIDED|95.0|-28.3|-11.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-11.05|-28.30|< 0.0001
92309674|NCT03433755|184519950|SUPERIORITY||Treatment difference|-17.56|STANDARD_ERROR_OF_MEAN|5.98||0.008|TWO_SIDED|95.0|-29.42|-5.69||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-5.69|-29.42|0.008
92309675|NCT03433755|184519950|SUPERIORITY||Treatment difference|-12.35|STANDARD_ERROR_OF_MEAN|5.38|<|0.0001|TWO_SIDED|95.0|-23.04|-1.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-1.67|-23.04|< 0.0001
92309676|NCT03433755|184519951|SUPERIORITY||Treatment difference|8.44|STANDARD_ERROR_OF_MEAN|2.56||0.008|TWO_SIDED|95.0|3.35|13.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||13.52|3.35|0.008
92309677|NCT03433755|184519951|SUPERIORITY||Treatment difference|6.8|STANDARD_ERROR_OF_MEAN|2.37||0.017|TWO_SIDED|95.0|2.1|11.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||11.50|2.10|0.017
92309678|NCT03433755|184519952|SUPERIORITY||Treatment difference|7.94|STANDARD_ERROR_OF_MEAN|2.91||0.008|TWO_SIDED|95.0|2.18|13.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||13.71|2.18|0.008
92309679|NCT03433755|184519952|SUPERIORITY||Treatment difference|6.17|STANDARD_ERROR_OF_MEAN|0.036||0.017|TWO_SIDED|95.0|0.42|11.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||11.92|0.42|0.017
92309680|NCT03433755|184519953|SUPERIORITY||Treatment difference|-22.96|STANDARD_ERROR_OF_MEAN|4.44||0.0002|TWO_SIDED|95.0|-33.12|-12.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-12.81|-33.12|0.0002
92309681|NCT03433755|184519953|SUPERIORITY||Treatment difference|-27.81|STANDARD_ERROR_OF_MEAN|4.44|<|0.0001|TWO_SIDED|95.0|-36.6|-19.02||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-19.02|-36.60|< 0.0001
92309682|NCT03433755|184519954|SUPERIORITY||Treatment difference|-21.78|STANDARD_ERROR_OF_MEAN|6.32||0.0002|TWO_SIDED|95.0|-34.31|-9.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-9.25|-34.31|0.0002
92309683|NCT03433755|184519954|SUPERIORITY||Treatment difference|-15.74|STANDARD_ERROR_OF_MEAN|5.33|<|0.0001|TWO_SIDED|95.0|-26.31|-5.18||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-5.18|-26.31|< 0.0001
92309684|NCT00213135|184520018|SUPERIORITY_OR_OTHER||Relative Risk|0.43|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|0.35|0.54|||Wald Chi-square test|||||0.54|0.35|<0.001
92309685|NCT00213135|184520018|SUPERIORITY_OR_OTHER||Relative Risk|0.43|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|0.34|0.54|||Wald Chi-square test|||||0.54|0.34|<0.001
92309686|NCT01328379|184520022|SUPERIORITY_OR_OTHER||least squares mean|0.054|STANDARD_ERROR_OF_MEAN|0.0724||0.457|TWO_SIDED|95.0|-0.088|0.196||To demonstrate study sensitivity with respect to efficacy and maintain an overall alpha level ≤ 0.05, a stepwise procedure was performed.|ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in walking speed at Approximately CmaxSS at Visit 3||0.196|-0.088|0.457
92309687|NCT01328379|184520022|SUPERIORITY_OR_OTHER||least squares mean|0.118|STANDARD_ERROR_OF_MEAN|0.0732||0.107|TWO_SIDED|95.0|-0.026|0.262|||ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in walking speed at Approximately CmaxSS at Visit 3||0.262|-0.026|0.107
92309688|NCT01328379|184520022|SUPERIORITY_OR_OTHER||least squares mean|0.064|STANDARD_ERROR_OF_MEAN|0.0724||0.375|TWO_SIDED|95.0|-0.078|0.207|||ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in walking speed at Approximately CmaxSS at Visit 3||0.207|-0.078|0.375
92309689|NCT01328379|184520023|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.014|STANDARD_ERROR_OF_MEAN|0.0666||0.832|TWO_SIDED|95.0|-0.145|0.117||To demonstrate study sensitivity with respect to efficacy and maintain an overall alpha level ≤ 0.05, a stepwise procedure was performed.|ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in walking speed at Approximately CminSS at Visit 3||0.117|-0.145|0.832
92309690|NCT01328379|184520023|SUPERIORITY_OR_OTHER||Least Squares Mean|0.093|STANDARD_ERROR_OF_MEAN|0.0674||0.167|TWO_SIDED|95.0|-0.039|0.226|||ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in walking speed at Approximately CminSS at Visit 3||0.226|-0.039|0.167
92309691|NCT01328379|184520023|SUPERIORITY_OR_OTHER||Least Squares Mean|0.107|STANDARD_ERROR_OF_MEAN|0.0666||0.108|TWO_SIDED|95.0|-0.024|0.238|||ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in walking speed at Approximately CminSS at Visit 3||0.238|-0.024|0.108
92309692|NCT01328379|184520024|SUPERIORITY_OR_OTHER||Lease Squares Mean|-0.4|STANDARD_ERROR_OF_MEAN|2.367||0.866|TWO_SIDED|95.0|-5.05|4.25|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in MSWS-12 at visit 3||4.25|-5.05|0.866
92309693|NCT01328379|184520024|SUPERIORITY_OR_OTHER||Least Squares Mean|-2.56|STANDARD_ERROR_OF_MEAN|2.393||0.286|TWO_SIDED|95.0|-7.26|2.15|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in MSWS-12 at visit 3||2.15|-7.26|0.286
92309694|NCT01328379|184520024|SUPERIORITY_OR_OTHER||Least Squares Mean|-2.16|STANDARD_ERROR_OF_MEAN|2.366||0.362|TWO_SIDED|95.0|-6.81|2.49|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in MSWS-12 at visit 3||2.49|-6.81|0.362
92309695|NCT01328379|184520025|SUPERIORITY_OR_OTHER||Least Squares Mean|0.84|STANDARD_ERROR_OF_MEAN|2.237||0.708|TWO_SIDED|95.0|-3.56|5.24|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in MSWS-12 at visit 2||5.24|-3.56|0.708
92309696|NCT01328379|184520025|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.38|STANDARD_ERROR_OF_MEAN|2.258||0.868|TWO_SIDED|95.0|-4.81|4.06|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in MSWS-12 at visit 2||4.06|-4.81|0.868
92309697|NCT01328379|184520025|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.21|STANDARD_ERROR_OF_MEAN|2.236||0.588|TWO_SIDED|95.0|-5.61|3.18|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in MSWS-12 at visit 2||3.18|-5.61|0.588
92309698|NCT01328379|184520026|SUPERIORITY_OR_OTHER||Least Squares Mean|35.4|STANDARD_ERROR_OF_MEAN|34.57||0.308|TWO_SIDED|95.0|-33.0|103.7|||ANOVA|Change from Baseline in Six-Minute Walk Distance as dependent variable and Baseline Six-Minute Walk Distance and Treatment as independent variables.||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in Six-Minute Walk Distance at visit 2||103.7|-33.0|0.308
92309699|NCT01328379|184520026|SUPERIORITY_OR_OTHER||Least Squares Mean|87.1|STANDARD_ERROR_OF_MEAN|34.9||0.014|TWO_SIDED|95.0|18.2|156.1|||ANOVA|Change from Baseline in Six-Minute Walk Distance as dependent variable and Baseline Six-Minute Walk Distance and Treatment as independent variables.||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in Six-Minute Walk Distance at visit 2||156.1|18.2|0.014
92309700|NCT01328379|184520026|SUPERIORITY_OR_OTHER||Least Squares Mean|51.7|STANDARD_ERROR_OF_MEAN|34.21||0.133|TWO_SIDED|95.0|-15.9|119.3|||ANOVA|Change from Baseline in Six-Minute Walk Distance as dependent variable and Baseline Six-Minute Walk Distance and Treatment as independent variables.||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in Six-Minute Walk Distance at visit 2||119.3|-15.9|0.133
92309701|NCT01328379|184520027|SUPERIORITY_OR_OTHER||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.32|TWO_SIDED|95.0|0.0|0.1|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in Average EQ-5D score at Visit 3||0.1|-0.0|0.320
92309702|NCT01328379|184520027|SUPERIORITY_OR_OTHER||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.734|TWO_SIDED|95.0|-0.1|0.0|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in Average EQ-5D score at Visit 3||0.0|-0.1|0.734
92189552|NCT03305458|184277652|SUPERIORITY||||||||||||||||||To determine if provider fidelity is affected by overall SPARK use, a 2-level MLM (level-1 child; level-2 provider) will be used. Fidelity will be measured by the TF-CBT TPOCS-S. Providers' overall use of the toolkit will be calculated per child participant and averaged across toolkit content. Fidelity scores will be calculated per child participant such that each provider will have three ratings. An aggregate fidelity score will determine if there are differences across conditions (SPARK + TF-CBT vs. standard TF-CBT) while accounting for the nesting of providers.|||
92309703|NCT01328379|184520027|SUPERIORITY_OR_OTHER||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.185|TWO_SIDED|95.0|-0.1|0.0|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in Average EQ-5D score at Visit 3||0.0|-0.1|0.185
92309704|NCT01328379|184520028|SUPERIORITY_OR_OTHER||Least Squares Mean|-3.4|STANDARD_ERROR_OF_MEAN|1.79||0.055|TWO_SIDED|95.0|-7.0|0.1|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in EQ-5D VAS score at Visit 3||0.1|-7.0|0.055
92309705|NCT01328379|184520028|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.2|STANDARD_ERROR_OF_MEAN|1.83||0.53|TWO_SIDED|95.0|-4.7|2.4|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in EQ-5D VAS score at Visit 3||2.4|-4.7|0.530
92309706|NCT01328379|184520028|SUPERIORITY_OR_OTHER||Least Squares Mean|2.3|STANDARD_ERROR_OF_MEAN|1.8||0.203|TWO_SIDED|95.0|-1.2|5.8|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in EQ-5D VAS score at Visit 3||5.8|-1.2|0.203
92309707|NCT00324649|184520090|SUPERIORITY_OR_OTHER|||||||0.0014||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.0014
92309708|NCT00324649|184520091|SUPERIORITY_OR_OTHER|||||||0.9713||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.9713
92309709|NCT00324649|184520092|SUPERIORITY_OR_OTHER|||||||0.9725||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.9725
92309710|NCT00324649|184520093|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.0078
92309711|NCT00324649|184520094|SUPERIORITY_OR_OTHER|||||||0.6984||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: percentages of days with compliance in the two treatment groups are equal. Alternative Hypothesis: percentages of days with compliance in the two treatment groups are different (two sided).||||0.6984
92309712|NCT00324649|184520095|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.3||||0.1165||95.0|-0.9|29.4||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.|The difference is for Truvada minus zidovudine/lamivudine. The 95% confidence interval on the mean difference between treatment groups is based on the normal approximation.|"Null Hypothesis: treatment is not associated with the observed virologic response.~Alternative Hypothesis: treatment is associated with the observed virologic response."||29.4|-0.9|0.1165
92309713|NCT00324649|184520098|SUPERIORITY_OR_OTHER|||||||0.0789||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.0789
92309714|NCT00324649|184520099|SUPERIORITY_OR_OTHER|||||||0.9633||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.9633
92189553|NCT03305458|184277653|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-to provider.|||
92309715|NCT00324649|184520100|SUPERIORITY_OR_OTHER|||||||0.9686||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.9686
92309716|NCT00324649|184520101|SUPERIORITY_OR_OTHER|||||||0.6638||95.0||||No adjustments for multiple comparisons were performed.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.6638
92309717|NCT00324649|184520102|SUPERIORITY_OR_OTHER|||||||0.2907||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.2907
92309718|NCT00324649|184520103|SUPERIORITY_OR_OTHER|||||||0.0072||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.0072
92309719|NCT00324649|184520104|SUPERIORITY_OR_OTHER|||||||0.0006||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.0006
92309720|NCT00324649|184520105|SUPERIORITY_OR_OTHER|||||||0.1785||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.1785
92309721|NCT02618759|184520108|SUPERIORITY|||||||0.0745|||||||Cochran-Mantel-Haenszel|||||||0.0745
92309722|NCT02618759|184520109|SUPERIORITY|||||||0.231|||||||Cochran-Mantel-Haenszel|||||||0.2310
92309723|NCT02618759|184520110|SUPERIORITY|||||||0.1059|||||||Cochran-Mantel-Haenszel|||||||0.1059
92309724|NCT02618759|184520111|SUPERIORITY|||||||0.6962|||||||Cochran-Mantel-Haenszel|||||||0.6962
92309725|NCT02618759|184520112|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1.0000
92309726|NCT02618759|184520113|SUPERIORITY|||||||0.1044|||||||Cochran-Mantel-Haenszel|||||||0.1044
92309727|NCT03301649|184520114|EQUIVALENCE|Therapeutic equivalence was demonstrated if 90% CI of percentage difference between generic ivermectin lotion and sklice (ivermectin) lotion group was within the range (-20%, +20%).|Difference in percentage of participants|1.9|||||TWO_SIDED|90.0|-3.9|7.8||||||If the 90% confidence interval (CI) for the absolute difference between the percentage of participants who were considered a treatment success in the generic ivermectin lotion and sklice (ivermectin) lotion was contained within the range (-20%, +20%) then therapeutic equivalence of the generic ivermectin lotion and sklice (ivermectin) lotion was considered to have been demonstrated.||7.8|-3.9|
92309728|NCT03301649|184520115|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using Cochran- Mantel-Haenszel test, stratified by clinical site in mITT population (using last observation carried forward \[LOCF\] method).||||<0.0001
92309729|NCT03301649|184520115|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using Cochran- Mantel-Haenszel test, stratified by clinical site in mITT population (using LOCF method).||||<0.0001
92309730|NCT03301649|184520116|EQUIVALENCE|Therapeutic equivalence was demonstrated if 90% CI of percentage difference between generic ivermectin lotion and sklice (ivermectin) lotion group was within the range (-20%, +20%).|Difference in percentage of participants|0.9|||||TWO_SIDED|90.0|-2.6|4.5||||||If the 90% CI for the absolute difference between the percentage of participants who were considered a treatment success in the generic ivermectin lotion and sklice (ivermectin) lotion was contained within the range (-20%, +20%) then therapeutic equivalence of the generic ivermectin lotion and sklice (ivermectin) lotion was considered to have been demonstrated.||4.5|-2.6|
92309731|NCT03301649|184520117|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using Cochran- Mantel-Haenszel test, stratified by clinical site in mITT population (using LOCF method).||||<0.0001
92309732|NCT03301649|184520117|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using Cochran- Mantel-Haenszel test, stratified by clinical site in mITT population (using LOCF method).||||<0.0001
92309733|NCT03257865|184520119|SUPERIORITY||Treatment difference|-1.62|||=|0.1011|TWO_SIDED|95.0|-3.56|0.32|||mixed-effect model repeated measure||"Comparison between treatment groups was carried out using MMRM, with study center, treatment group, visit, and treatment group-by-visit interaction as factor and baseline-by-visit interaction as a covariate. An unstructured covariance was used."|||0.32|-3.56|=0.1011
92309734|NCT00469144|184520132|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||100 Days, Between Arms: Participants in CR||||0.9
92309735|NCT00469144|184520132|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||100 Days, Between Arms: Participants not in CR||||0.4
92309736|NCT00469144|184520132|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||1 Year, Between Arms: Participants in CR||||0.7
92309737|NCT00469144|184520132|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||1 Year, Between Arms: Participants not in CR||||0.05
92189554|NCT03305458|184277654|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189555|NCT03305458|184277655|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189556|NCT03305458|184277656|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189557|NCT03305458|184277657|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189558|NCT03305458|184277658|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189559|NCT03305458|184277659|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider.|||
92309738|NCT01266031|184520144|SUPERIORITY_OR_OTHER|||||||0.26||||||Null hypothesis is: PFS 6 months of Bevacizumab = PFS 6 months of Bevacizumab + Vorinostat.|Chi-squared|||Null hypothesis is: progression free survival (PFS) 6 months of Bevacizumab = PFS 6 months of Bevacizumab + Vorinostat.||||0.26
92309739|NCT02047734|184520210|SUPERIORITY||Rate Ratio|0.623|||<|0.0001|TWO_SIDED|95.0|0.506|0.768||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.025 level.|Poisson regression model|Adjusted for region, age, and Baseline number of GdE lesions, and Included the natural log transformation of time on study as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.768|0.506|<0.0001
92309740|NCT02047734|184520210|SUPERIORITY||Rate Ratio|0.791||||0.0167|TWO_SIDED|95.0|0.652|0.958||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.025 level.|Poisson Regression Model|Adjusted for region, age, and Baseline number of GdE lesions, and Included the natural log transformation of time on study as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.958|0.652|0.0167
92309741|NCT02047734|184520211|SUPERIORITY||Rate Ratio|0.576|||<|0.0001|TWO_SIDED|95.0|0.465|0.714||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Negative Binomial Regression Model|Adjusted for region, age, and Baseline GdE lesions, and included the natural log transformation of available number of MRI scans as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.714|0.465|<0.0001
92309742|NCT02047734|184520211|SUPERIORITY||Rate Ratio|0.657||||0.0001|TWO_SIDED|95.0|0.531|0.813||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Negative binomial regression model|Adjusted for region, age, and Baseline GdE lesions and included the natural log transformation of available number of MRI scans as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.813|0.531|0.0001
92309743|NCT02047734|184520212|SUPERIORITY||Rate Ratio|0.471||||0.0006|TWO_SIDED|95.0|0.306|0.725||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Negative Binomial Regression Model|Adjusted for region, age, and Baseline GdE lesions with the natural log transformation of available MRI scans at Month 24 as an offset term.|Rate ratio = Ozanimod / IFN β-1a|||0.725|0.306|0.0006
92309744|NCT02047734|184520212|SUPERIORITY||Rate Ratio|0.528||||0.003|TWO_SIDED|95.0|0.346|0.805||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Negative binomial regression model,|Adjusted for region, age, and Baseline GdE lesions with the natural log transformation of available MRI scans at Month 24 as an offset term.|Rate ratio = Ozanimod / IFN β-1a|||0.805|0.346|0.0030
92309745|NCT02047734|184520213|SUPERIORITY||Hazard Ratio (HR)|1.045||||0.8224|TWO_SIDED|95.0|0.711|1.537||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Cox proportional hazards model|Adjusted for region (Eastern Europe vs Rest of World) age at Baseline, and Baseline EDSS score|Hazard ratio (Ozanimod / IFN β-1a) based on Cox proportional hazard model with factors for treatment group, adjusted for region, age at Baseline, and Baseline EDSS score.|||1.537|0.711|0.8224
92309746|NCT02047734|184520213|SUPERIORITY||Hazard Ratio (HR)|0.798||||0.2849|TWO_SIDED|95.0|0.528|1.206||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Cox proportional hazards model|Adjusted for region (Eastern Europe vs Rest of World), age at Baseline, and Baseline EDSS score|Hazard ratio (Ozanimod / IFN β-1a) based on Cox proportional hazard model with factors for treatment group, adjusted for region, age at Baseline, and Baseline EDSS score.|||1.206|0.528|0.2849
92309747|NCT02047734|184520214|SUPERIORITY||Hazard Ratio (HR)|1.435||||0.1353|TWO_SIDED|95.0|0.893|2.305||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Cox proportional hazard model|Adjusted for region (Eastern Europe vs Rest of World), age at Baseline, and Baseline EDSS score|Hazard ratio (Ozanimod / IFN β-1a) based on Cox proportional hazard model with factors for treatment group, adjusted for region, age at Baseline, and Baseline EDSS score.|||2.305|0.893|0.1353
92189560|NCT03305458|184277660|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider.|||
92189561|NCT03305458|184277661|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider.|||
92189562|NCT03305458|184277662|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189563|NCT03305458|184277663|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189564|NCT03305458|184277664|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189565|NCT03305458|184277665|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92309748|NCT02047734|184520214|SUPERIORITY||Hazard Ratio (HR)|1.098||||0.7154|TWO_SIDED|95.0|0.664|1.815||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Cox proportional hazard model|Adjusted for region (Eastern Europe vs Rest of World), age at Baseline, and Baseline EDSS score|Hazard ratio (Ozanimod / IFN β-1a) based on Cox proportional hazard model with factors for treatment group, adjusted for region, age at Baseline, and Baseline EDSS score.|||1.815|0.664|0.7154
92309749|NCT02047734|184520215|SUPERIORITY||Difference|9.4||||0.0047|TWO_SIDED|95.0|2.9|15.8|||Cochran-Mantel-Haenszel|Stratified by region (Eastern Europe vs Rest of the World) and Baseline EDSS category||||15.8|2.9|0.0047
92309750|NCT02047734|184520215|SUPERIORITY||Difference|7.1||||0.032|TWO_SIDED|95.0|0.6|13.6|||Cochran-Mantel-Haenszel|Stratified by region (Eastern Europe vs Rest of the World) and Baseline EDSS category||||13.6|0.6|0.0320
92309751|NCT02047734|184520216|SUPERIORITY||Difference|5.4||||0.0466|TWO_SIDED|95.0|0.0|10.8|||Cochran-Mantel-Haenszel|Based on the Cochran-Mantel-Haenszel test stratified by region (Eastern Europe vs. rest of the world) and Baseline EDSS category||||10.8|0.0|0.0466
92309752|NCT02047734|184520216|SUPERIORITY||Difference|5.1||||0.0581|TWO_SIDED|95.0|-0.3|10.5|||Cochran-Mantel-Haenszel|Based on the Cochran-Mantel-Haenszel test stratified by region (Eastern Europe vs. rest of the world) and Baseline EDSS category||||10.5|-0.3|0.0581
92309753|NCT02047734|184520217|SUPERIORITY||Difference in means|0.244|||<|0.0001|TWO_SIDED|95.0|0.125|0.363||Based on the analysis of covariance model, adjusted for region (Eastern Europe vs. rest of the world), Baseline EDSS category, and brain volume at Baseline|ANCOVA||Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs. rest of the world), Baseline EDSS category, and brain volume at Baseline.|||0.363|0.125|<0.0001
92309754|NCT02047734|184520217|SUPERIORITY||Difference in means|0.224||||0.0002|TWO_SIDED|95.0|0.106|0.342||Based on the analysis of covariance model, adjusted for region (Eastern Europe vs. rest of the world), Baseline EDSS category, and brain volume at Baseline.|ANCOVA||Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs. rest of the world), Baseline EDSS category, and brain volume at Baseline.|||0.342|0.106|0.0002
92309755|NCT02047734|184520218|SUPERIORITY||Difference in means|0.043||||0.248|TWO_SIDED|95.0|-0.03|0.116|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and Baseline MSFC Z-score|Difference in means are based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and the Baseline MSFC Z-score.|||0.116|-0.030|0.2480
92309756|NCT02047734|184520218|SUPERIORITY||Difference in means|0.093||||0.0123|TWO_SIDED|95.0|0.02|0.165|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and Baseline MSFC Z-score|Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and the Baseline MSFC Z-score.|||0.165|0.020|0.0123
92309757|NCT02047734|184520219|SUPERIORITY||Difference in means|1.345||||0.0988|TWO_SIDED|95.0|-0.252|2.943|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and Baseline summary score|Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and Baseline summary score.|Analysis of Physical Health Composite Summary Score||2.943|-0.252|0.0988
92309758|NCT02047734|184520219|SUPERIORITY||Difference in means|1.849||||0.0228|TWO_SIDED|95.0|0.258|3.44|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and Baseline summary score.|Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and Baseline summary score.|Analysis of Physical Health Composite Summary Score||3.440|0.258|0.0228
92309759|NCT02047734|184520219|SUPERIORITY||Difference in means|0.38||||0.6997|TWO_SIDED|95.0|-1.553|2.313|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and Baseline summary score|Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and Baseline summary score.|Analysis of Mental Health Composite Summary Score||2.313|-1.553|0.6997
92309760|NCT02047734|184520219|SUPERIORITY||Difference in means|0.587||||0.5501|TWO_SIDED|95.0|-1.339|2.513|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and the Baseline summary score|Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and Baseline summary score.|Analysis of Mental Health Composite Summary Score||2.513|-1.339|0.5501
92309761|NCT02047734|184520221|SUPERIORITY||||||<|0.0001|||||||Rank ANCOVA|Adjusted for region and Baseline EDSS category, with the dependent variable as the residual of the rank of brain volume at Baseline||||||<0.0001
92309762|NCT02047734|184520221|SUPERIORITY||||||<|0.0001|||||||Rank ANCOVA|Adjusted for region and Baseline EDSS category, with the dependent variable as the residual of the rank of brain volume at Baseline||||||<0.0001
92309763|NCT01333397|184520222|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||ILA - Dysport NG 20 U Vs Placebo||||<0.0001
92309764|NCT01333397|184520222|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||ILA - Dysport NG 50 U Vs Placebo||||<0.0001
92309765|NCT01333397|184520222|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||ILA - Dysport NG 75 U Vs Placebo||||<0.0001
92309766|NCT01333397|184520222|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||SSA - Dysport NG 20 U Vs Placebo||||<0.0001
92309767|NCT01333397|184520222|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||SSA - Dysport NG 50 U Vs Placebo||||<0.0001
92309768|NCT01333397|184520222|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||SSA - Dysport NG 75 U Vs Placebo||||<0.0001
92309769|NCT00314951|184520244|NON_INFERIORITY_OR_EQUIVALENCE|The point estimate of the difference and the 2-sided 95% confidence interval (CI) for the difference between treatment groups were computed. If the lower limit of the CI was greater than -10%, the clinical non-inferiority of fidaxomicin was demonstrated. CIs for the difference of cure rates were calculated using the method recommended by Agresti and Caffo.|Risk Difference (RD)|2.6|||||TWO_SIDED|95.0|-2.9|8.0||||||H0: C(fidaxomicin) - C(Vancomycin) \<= -10% Power calculation is based on cure rate of 85% in both treatment groups, non-inferiority margin of 10%, 2.5% (1-sided) type I error rate with approximately 90% power gives a total of 530 subjects.||8.0|-2.9|
92309770|NCT00314951|184520245|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-9.4||||0.008|TWO_SIDED|95.0|-16.2|-2.5|||Chi-squared|||||-2.5|-16.2|0.008
92309771|NCT00314951|184520246|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.2||||0.007|TWO_SIDED|95.0|2.8|17.5|||Chi-squared|||||17.5|2.8|0.007
92309772|NCT04411914|184520253|SUPERIORITY|||||||0.0009|||||||Spearman Correlation Coefficient|||||||0.0009
92309773|NCT04411914|184520254|OTHER|||||||0.0053|||||||Spearman Correlation Coefficient|"Spearman Correlation Coefficient, N=9 Prob \> \|r\| under H0: Rho=0"||||||0.0053
92309774|NCT02639052|184520272|SUPERIORITY_OR_OTHER|||||||0.9704||||||Significance defined a priori as p\<0.05. P-values not adjusted for multiple comparisons.|ANOVA with Repeated Measures|||Baseline assessment of itch VAS after itch induction but prior to Botox or saline application. Analyzed using ANOVA with repeated measures to compare main effects of treatment (Botox vs saline) and time, and interaction effect between treatment and time.||||0.9704
92189566|NCT03305458|184277666|SUPERIORITY||||||||||||||||||response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider.|||
92309775|NCT02639052|184520273|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Statistical significance defined a priori as p\<0.05. P-values have not been adjusted for multiple comparisons.|ANOVA with Repeated Measures|||1 week (Visit 2) was the first assessment of itch VAS after itch induction after Botox or saline application. Analyzed using ANOVA with repeated measures to compare main effects of treatment (Botox vs saline) and time, and interaction effect between treatment and time.||||<0.0001
92309776|NCT02639052|184520274|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Statistically significant difference in mean itch VAS between the two treatments (Botox mean=2.45 versus saline mean=3.20, p\<0.0001). Statistical significance defined a priori as p\<0.05. P-values have not been adjusted for multiple comparisons.|ANOVA with Repeated Measures|||1 month (Visit 3) was the second assessment of itch VAS after itch induction after Botox or saline application. Analyzed using ANOVA with repeated measures to compare main effects of treatment (Botox vs saline) and time, and interaction effect between treatment and time.||||<0.0001
92189567|NCT03305458|184277667|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189568|NCT03305458|184277668|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189569|NCT03305458|184277669|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92309777|NCT02639052|184520275|SUPERIORITY_OR_OTHER|||||||0.0004||||||Statistical significance defined a priori as p\<0.05. P-values have not been adjusted for multiple comparisons.|ANOVA with Repeated Measures|Analyzed using ANOVA with repeated measures to compare treatment (Botox vs saline), time, and interaction effect between treatment \& time||3 months (Visit 4) was the third assessment of itch VAS after itch induction after Botox or saline application. Analyzed using ANOVA with repeated measures to compare main effects of treatment (Botox vs saline) and time, and interaction effect between treatment and time.||||0.0004
92309778|NCT02639052|184520276|SUPERIORITY_OR_OTHER|||||||0.1306||||||Statistical significance defined a priori as p\<0.05.|ANOVA with Repeated Measures|||Analyzed using ANOVA with repeated measures to compare main effects of treatment (Botox vs saline) and visit, and interaction effect between treatment and visit.||||0.1306
92309779|NCT03203564|184520292|OTHER||Mean Difference (Final Values)|7.4|||||TWO_SIDED|90.0|0.68|14.12|||||Parameter estimate is done for Placebo-corrected change-from baseline QTcF (ΔΔQTcF) for Modufolin 500 mg/m2 at end of infusion.|"The primary analysis of QTcF was based on a linear mixed-effects model with change-from-baseline QTcF as the dependent variable, time (categorical), treatment, and time-by-treatment interaction as fixed effects, and baseline QTcF as a covariate. The least-squares (LS) mean and 2-sided 90 % CIs have been calculated for the contrast Modufolin® versus placebo at each dose of Modufolin® and each post-dose time point."||14.12|0.68|
92309780|NCT00789737|184520318|SUPERIORITY_OR_OTHER|||||||0.0369||95.0|||||ANCOVA|||least squares mean; 80% power to detect a 0.3% change||||0.0369
92309781|NCT00789737|184520319|SUPERIORITY_OR_OTHER|||||||0.0373||95.0|||||ANCOVA|||||||0.0373
92309782|NCT00789737|184520324|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0|||||ANCOVA|||||||<0.00001
92309783|NCT02458287|184520331|SUPERIORITY_OR_OTHER||LS Mean Difference|-63.4|STANDARD_ERROR_OF_MEAN|4.4|<|0.001|TWO_SIDED|95.0|-72.0|-54.7|||Mixed Models Repeated Measures (MMRM)|||LS-mean difference, associated 95% confidence intervals, and p-value are from MMRM model with fixed effects for treatment groups, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction as covariates.||-54.7|-72.0|<0.001
92189570|NCT03305458|184277670|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189571|NCT03305458|184277671|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
92189572|NCT05615870|184277682|SUPERIORITY||Mean Difference (Final Values)|5.41||||0.537|TWO_SIDED|95.0|-11.77|22.6|||Mixed Models Analysis|||Null hypothesis: mean of SFDs in the HEPA filtration home intervention group will not differ from the mean of SFDs in the control group||22.60|-11.77|0.537
92189573|NCT05615870|184277683|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.205|TWO_SIDED|95.0|-0.07|0.3|||Mixed Models Analysis|||Null hypothesis: mean of counts of hospitalizations for respiratory symptoms in the intervention group will not differ from the mean of counts of hospitalizations for respiratory symptoms in the control group||0.30|-0.07|0.205
92189574|NCT05615870|184277683|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.992|TWO_SIDED|95.0|-0.35|0.35|||Mixed Models Analysis|||Null hypothesis: mean of counts of emergency department or urgent care visits for respiratory symptoms in the intervention group will not differ from the mean of counts of emergency department or urgent care visits for respiratory symptoms in the control group||0.35|-0.35|0.992
92309784|NCT02458287|184520340|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.0|STANDARD_ERROR_OF_MEAN|4.53|<|0.001|TWO_SIDED|95.0|-51.9|-34.0|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-34.0|-51.9|<0.001
92309785|NCT02458287|184520341|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.7|STANDARD_ERROR_OF_MEAN|2.86|<|0.001|TWO_SIDED|95.0|-45.4|-34.1|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-34.1|-45.4|<0.001
92309786|NCT02458287|184520341|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.7|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-32.5|-20.8|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-20.8|-32.5|<0.001
92309787|NCT02458287|184520342|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.9|STANDARD_ERROR_OF_MEAN|4.25|<|0.001|TWO_SIDED|95.0|-66.2|-49.5|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-49.5|-66.2|<0.001
92309788|NCT02458287|184520342|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.8|STANDARD_ERROR_OF_MEAN|4.38|<|0.001|TWO_SIDED|95.0|-44.4|-27.1|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-27.1|-44.4|<0.001
92309789|NCT02458287|184520343|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.2|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|-63.7|-48.6|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-48.6|-63.7|<0.001
92309790|NCT02458287|184520343|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.2|STANDARD_ERROR_OF_MEAN|3.99|<|0.001|TWO_SIDED|95.0|-45.0|-29.3|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-29.3|-45.0|<0.001
92309791|NCT01943994|184520348|SUPERIORITY||Odds Ratio (OR)|6.12||||0.003|TWO_SIDED|95.0|1.99|23.26|||Regression, Logistic|||||23.26|1.99|0.003
92309792|NCT00642278|184520357|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-0.747|-0.148||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.148|-0.747|<0.001
92309793|NCT00642278|184520357|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-0.804|-0.207||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.207|-0.804|<0.001
92309794|NCT00642278|184520357|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-0.841|-0.244||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.244|-0.841|<0.001
92309795|NCT00642278|184520357|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.117|<|0.001|TWO_SIDED|95.0|-1.006|-0.405||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.405|-1.006|<0.001
92309796|NCT00642278|184520357|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-1.029|-0.432||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.432|-1.029|<0.001
92309797|NCT00642278|184520357|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-0.862|-0.265||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.265|-0.862|<0.001
92309798|NCT00642278|184520358|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.27||0.001|TWO_SIDED|95.0|-1.39|-0.34|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.34|-1.39|0.001
92309799|NCT00642278|184520358|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.98|-0.92|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.92|-1.98|<0.001
92309800|NCT00642278|184520358|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.33|-1.27|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-1.27|-2.33|<0.001
92309801|NCT00642278|184520358|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.32|-1.26|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-1.26|-2.32|<0.001
92309802|NCT00642278|184520358|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.25|-1.19|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-1.19|-2.25|<0.001
92309803|NCT00642278|184520358|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.51|-0.46|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.46|-1.51|<0.001
92309804|NCT00642278|184520360|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|36.1|STANDARD_ERROR_OF_MEAN|5.1|<|0.001|TWO_SIDED|95.0|26.07|46.13|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||46.13|26.07|<0.001
92309805|NCT00642278|184520360|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|49.3|STANDARD_ERROR_OF_MEAN|5.13|<|0.001|TWO_SIDED|95.0|39.17|59.34|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||59.34|39.17|<0.001
92309806|NCT00642278|184520360|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|48.2|STANDARD_ERROR_OF_MEAN|5.2|<|0.001|TWO_SIDED|95.0|37.98|58.42|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||58.42|37.98|<0.001
92309807|NCT00642278|184520360|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|49.0|STANDARD_ERROR_OF_MEAN|5.11|<|0.001|TWO_SIDED|95.0|38.91|59.01|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||59.01|38.91|<0.001
92309808|NCT00642278|184520360|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|60.3|STANDARD_ERROR_OF_MEAN|5.13|<|0.001|TWO_SIDED|95.0|50.17|70.35|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||70.35|50.17|<0.001
92309809|NCT00642278|184520360|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|5.09||0.513|TWO_SIDED|95.0|-13.33|6.67|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||6.67|-13.33|0.513
92309810|NCT00642278|184520362|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.5||0.009|TWO_SIDED|95.0|-2.2|-0.3|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.3|-2.2|0.009
92309811|NCT00642278|184520362|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.5||0.002|TWO_SIDED|95.0|-2.5|-0.6|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.6|-2.5|0.002
92309812|NCT00642278|184520362|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-2.6|-0.7|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and mixed meal tolerance test.||||-0.7|-2.6|<0.001
92309813|NCT00642278|184520362|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.3|-1.4|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-1.4|-3.3|<0.001
92309814|NCT00642278|184520362|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.3|-1.4|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-1.4|-3.3|<0.001
92309815|NCT00642278|184520362|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.5||0.371|TWO_SIDED|95.0|-0.5|1.4|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||1.4|-0.5|0.371
92309816|NCT03713619|184520363|SUPERIORITY||Odds Ratio, log|1.75||||0.007|TWO_SIDED|95.0|1.12|2.73|||Regression, Logistic|||Logistic regression analysis of HiSCR50 response at Week 16 (multiple imputation)||2.73|1.12|0.0070
92309817|NCT03713619|184520363|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0418|TWO_SIDED|95.0|0.95|2.32|||Regression, Logistic|||Logistic regression analysis of HiSCR50 response at Week 16 (multiple imputation)||2.32|0.95|0.0418
92309818|NCT03713619|184520364|SUPERIORITY||Least square Mean Difference|-23.05|||<|0.0001|TWO_SIDED|95.0|-33.9|-12.21|||ANCOVA|||Analysis of covariance of percentage change from baseline in AN count at Week 16 (multiple imputation)||-12.21|-33.90|<0.0001
92309819|NCT03713619|184520364|SUPERIORITY||Least Square Mean difference|-18.46||||0.0004|TWO_SIDED|95.0|-29.32|-7.6|||ANCOVA|||Analysis of covariance of percentage change from baseline in AN count at Week 16 (multiple imputation)||-7.60|-29.32|0.0004
92309820|NCT03713619|184520365|SUPERIORITY||Odds Ratio, log|0.42||||0.001|TWO_SIDED|95.0|0.25|0.73|||Regression, Logistic|||Logistic regression analysis of Flare over 16 weeks (multiple imputation)||0.73|0.25|0.0010
92309821|NCT03713619|184520365|SUPERIORITY||Odds Ratio (OR)|0.71||||0.0926|TWO_SIDED|95.0|0.43|1.17|||Regression, Logistic|||Logistic regression analysis of Flare over 16 weeks (multiple imputation)||1.17|0.43|0.0926
92309822|NCT03713619|184520366|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0248|TWO_SIDED|95.0|1.0|3.4|||Regression, Logistic|||Logistic regression analysis of skin pain/NRS30 response at Week 16 (pooled data, multiple imputation)||3.40|1.00|0.0248
92309823|NCT03713619|184520366|SUPERIORITY||Odds Ratio, log|1.77||||0.0044|TWO_SIDED|95.0|1.15|2.0|||Regression, Logistic|||Logistic regression analysis of skin pain/NRS30 response at Week 16 (pooled data, multiple imputation)||2.0|1.15|0.0044
92309824|NCT02552212|184520382|OTHER||Odds Ratio (OR)|15.231|||<|0.001|TWO_SIDED|95.0|7.336|31.623|||Regression, Logistic|||Odds ratio: CZP/Placebo and p-value were calculated using logistic regression with factors for treatment, region and Magnetic Resonance Imaging/C- Reactive Protein (MRI/CRP) classification.||31.623|7.336|<0.001
92309825|NCT02552212|184520383|OTHER||Odds Ratio (OR)|7.436|||<|0.001|TWO_SIDED|95.0|4.127|13.401|||Regression, Logistic|||Odds ratio: CZP/Placebo and p-value were calculated using logistic regression with factors for treatment, region and MRI/CRP classification.||13.401|4.127|<0.001
92309826|NCT02552212|184520393|OTHER||Odds Ratio (OR)|7.359|||<|0.001|TWO_SIDED|95.0|4.286|12.636|||Regression, Logistic|||Odds ratio: CZP/Placebo and p-value were calculated using logistic regression with factors for treatment, region MRI/CRP classification.||12.636|4.286|<0.001
92309827|NCT02552212|184520394|OTHER||Difference|-1.696|||<|0.001|TWO_SIDED|95.0|-2.11|-1.282|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-1.282|-2.110|<0.001
92309828|NCT02552212|184520395|OTHER||Difference|-1.585|||<|0.0001|TWO_SIDED|95.0|-2.132|-1.038|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-1.038|-2.132|<0.0001
92309829|NCT02552212|184520396|OTHER||Difference|-1.819|||<|0.001|TWO_SIDED|95.0|-2.25|-1.388|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-1.388|-2.250|<0.001
92309830|NCT02552212|184520397|OTHER||Difference|-1.29|||<|0.001|TWO_SIDED|95.0|-1.909|-0.672|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-0.672|-1.909|<0.001
92309831|NCT02552212|184520398|OTHER||Difference|-4.8687|||<|0.001|TWO_SIDED|95.0|-6.4014|-3.336|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-3.3360|-6.4014|<0.001
92309832|NCT02552212|184520399|OTHER||Odds Ratio (OR)|6.223|||<|0.001|TWO_SIDED|95.0|3.8|10.191|||Regression, Logistic|||Odds ratio: CZP/Placebo and p-value were calculated using logistic regression with factors for treatment, region and MRI/CRP classification.||10.191|3.800|<0.001
92309833|NCT02552212|184520400|OTHER||Difference|-0.183|||<|0.001|TWO_SIDED|95.0|-0.25|-0.117|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-0.117|-0.250|<0.001
92309834|NCT02552212|184520408|OTHER||Difference|-1.9|||<|0.001|TWO_SIDED|95.0|-2.62|-1.18|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-1.18|-2.62|<0.001
92309835|NCT02552212|184520409|OTHER||Odds Ratio (OR)|0.484|||=|0.247|TWO_SIDED|95.0|0.142|1.653|||Regression, Logistic|||Odds ratio: CZP/PBO and p-value were calculated using logistic regression with factors for treatment, region and MRI/CRP classification.||1.653|0.142|=0.247
92189575|NCT05615870|184277683|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.172|TWO_SIDED|95.0|-0.9|0.16|||Mixed Models Analysis|||Null hypothesis: mean of counts of other unscheduled healthcare visits for respiratory symptoms in the intervention group will not differ from the mean of counts of other unscheduled healthcare visits for respiratory symptoms in the control group||0.16|-0.90|0.172
92309836|NCT02823652|184520453|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<.0001
92309837|NCT02823652|184520454|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
92309838|NCT02823652|184520455|SUPERIORITY|||||||0.312|||||||t-test, 2 sided|||||||0.312
92309839|NCT02823652|184520456|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
92309840|NCT04853992|184520469|SUPERIORITY||Mean Difference (Net)|-0.58|STANDARD_ERROR_OF_MEAN|0.5||0.277|TWO_SIDED|95.0|-1.69|0.53|||Mixed Models Analysis|||The primary endpoint, change from baseline in post-provocation Urticaria Activity Score (UASprovo) to the end of the treatment period, was compared between treatments with the null hypothesis that they are equal against the alternative that they are different. The primary efficacy endpoint was analysed using a linear mixed model, containing treatment, period and carryover effects, the factor site and additionally the value of UASprovo at baseline as a covariate.||0.53|-1.69|0.277
92309841|NCT01094886|184520482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.5||0.008|TWO_SIDED|95.0|-0.05|0.34|||t-test, 2 sided|||||0.34|-0.05|.008
92309842|NCT01094886|184520483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91|STANDARD_DEVIATION|-1.1||0.111|TWO_SIDED|95.0|-2.048|0.219|||t-test, 2 sided|||||0.219|-2.048|0.111
92309843|NCT01094886|184520484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|6.977||0.87|TWO_SIDED|95.0|-2.77|2.35|||t-test, 2 sided|||||2.35|-2.77|0.87
92309844|NCT01094886|184520485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.13|STANDARD_DEVIATION|36.316|<|0.001|TWO_SIDED|95.0|-48.01|-22.26|||t-test, 2 sided|||||-22.26|-48.01|<0.001
92309845|NCT02092467|184520530|NON_INFERIORITY|Hazard ratio (95% CI) was based on a univariate Cox proportional hazard model with treatment \[All Tofacitinib (ie, tofacitinib 5 mg BID and tofacitinib 10 mg BID combined) and TNFi\] as covariate.|Hazard Ratio (HR)|1.48|||||TWO_SIDED|95.0|1.04|2.09|||||Primary comparison. Non-inferiority was to be claimed between All Tofacitinib and TNFi if the upper limit of the 95% CI for HR was \< 1.8 (non-inferiority criterion).|All Tofacitinib versus TNFi||2.09|1.04|
92309846|NCT02092467|184520530|NON_INFERIORITY|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.7|1.43|||||Secondary comparison. Non-inferiority was to be claimed between tofacitinib 10 mg BID and tofacitinib 5 mg BID if the upper limit of the 95% CI for HR was \< 2.0 (non-inferiority criterion).|Tofacitinib 10 mg BID versus Tofacitinib 5 mg BID||1.43|0.70|
92309847|NCT02092467|184520530|OTHER|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.47|||||TWO_SIDED|95.0|1.0|2.18|||||Supportive analysis to the primary comparison between All Tofacitinib vs TNFi.|Tofacitinib 5 mg BID versus TNFi||2.18|1.00|
92309848|NCT02092467|184520530|OTHER|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.48|||||TWO_SIDED|95.0|1.0|2.19|||||Supportive analysis to the primary comparison between All Tofacitinib vs TNFi.|Tofacitinib 10 mg BID versus TNFi||2.19|1.00|
92309849|NCT02092467|184520531|NON_INFERIORITY|Hazard ratio (95% CI) was based on a univariate Cox proportional hazard model with treatment \[All Tofacitinib (ie, tofacitinib 5 mg BID and tofacitinib 10 mg BID combined) and TNFi\] as covariate.|Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.91|1.94|||||Primary comparison. Non-inferiority was to be claimed between All Tofacitinib and TNFi if the upper limit of the 95% CI for HR was \< 1.8 (non-inferiority criterion).|All Tofacitinib versus TNFi||1.94|0.91|
92309850|NCT02092467|184520531|NON_INFERIORITY|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.77|1.71|||||Secondary Comparison. Non-inferiority was to be claimed between tofacitinib 10 mg BID and tofacitinib 5 mg BID if the upper limit of the 95% CI for HR was \<2.0 (non-inferiority criterion).|Tofacitinib 10 mg BID versus Tofacitinib 5 mg BID||1.71|0.77|
92309851|NCT02092467|184520531|OTHER|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|0.81|1.91|||||Supportive analysis to the primary comparison between All Tofacitinib vs TNFi.|Tofacitinib 5 mg BID versus TNFi||1.91|0.81|
92309852|NCT02092467|184520531|OTHER|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|0.94|2.18|||||Supportive analysis to the primary comparison between All Tofacitinib vs TNFi.|Tofacitinib 10 mg BID versus TNFi||2.18|0.94|
92189576|NCT05615870|184277683|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.53|TWO_SIDED|95.0|-1.02|0.52|||Mixed Models Analysis|||Null hypothesis: mean of counts (or total counts) of visits of all metrics for respiratory symptoms in the intervention group will not differ from the mean of counts of visits of all metrics for respiratory symptoms in the control group||0.52|-1.02|0.530
92189577|NCT05615870|184277684|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.598|TWO_SIDED|95.0|-3.75|2.16|||Mixed Models Analysis|||Null hypothesis: mean of the Child QOL score in the HEPA intervention group will not differ from the mean of Child QOL score in the control group||2.16|-3.75|0.598
92189578|NCT05615870|184277685|SUPERIORITY||Mean Difference (Final Values)|-7.2|||<|0.001|TWO_SIDED|95.0|-10.98|-3.42|||Mixed Models Analysis||The results were based on the average PM2.5 level of common room and sleep space.|Null hypothesis: the mean of the PM2.5 level of the common room and sleep space in the intervention group will not differ from the mean of the PM2.5 level in the control group||-3.42|-10.98|<0.001
92189579|NCT03926117|184277715|SUPERIORITY||Median Difference (Final Values)|-66.2|||<|0.0001|TWO_SIDED|95.0|-86.15|-49.12|||Hodges-Lehmann method|||Percent change from baseline is analyzed using nonparametric Hodges-Lehmann estimator. The nonparametric analysis accounts for covariates baseline hemoglobin (greater than or equal to (\>=) 11 or less than (\<) 11 grams per deciliter (g/dL)) and chronic kidney disease stage (3, 4 or 5) by aligning responses within each stratum defined by the covariates prior to analysis.||-49.12|-86.15|<0.0001
92189580|NCT03926117|184277715|SUPERIORITY||Median Difference (Final Values)|-77.71|||<|0.0001|TWO_SIDED|95.0|-94.98|-62.97|||Hodges-Lehmann method|||Percent change from baseline is analyzed using nonparametric Hodges-Lehmann estimator. The nonparametric analysis accounts for covariates baseline hemoglobin (\>= 11 or \< 11 g/dL) and chronic kidney disease stage (3, 4 or 5) by aligning responses within each stratum defined by the covariates prior to analysis.||-62.97|-94.98|<0.0001
92189581|NCT03926117|184277715|SUPERIORITY||Median Difference (Final Values)|-87.76|||<|0.0001|TWO_SIDED|95.0|-101.0|-70.54|||Hodges-Lehmann method|||Percent change from baseline is analyzed using nonparametric Hodges-Lehmann estimator. The nonparametric analysis accounts for covariates baseline hemoglobin (\>= 11 or \< 11 g/dL) and chronic kidney disease stage (3, 4 or 5) by aligning responses within each stratum defined by the covariates prior to analysis.||-70.54|-101.00|<0.0001
92189582|NCT00924833|184277743|SUPERIORITY_OR_OTHER|||||||0.01||||||"Within subjects effects. Time: P \< 0.01. Time \* treatment: P=0.25~Bonferroni correction. Within the placebo, carvedilol and nebivolol group, p \< 0.01 for Time 3 - Time 1, and Time 3 - Time 2."|ANOVA|||"Differences among groups, changes over time and interactions: two-way repeated measures ANOVA with unpaired Student's t-test, Bonferroni correction.~No previous studies have compared carvedilol, nebivolol, and placebo with respecto to exercise performance in hypobaric hypoxia. The sample size set for each treatment arm was defined on the basis of the sample size of previous investigations showing significant changes in exercise performance in normal subjects."||||0.01
92189583|NCT00924833|184277744|SUPERIORITY_OR_OTHER||||||<|0.05||||||P \< 0.05. Bonferroni correction: p \< 0.05 nebivolol versus carvedilol|ANOVA|||No previous studies have compared carvedilol, nebivolol, and placebo with respecto to exercise performance in hypobaric hypoxia. The sample size set for each treatment arm was defined on the basis of the sample size of previous investigations showing significant changes in exercise performance in normal subjects.||||<0.05
92189584|NCT00924833|184277745|SUPERIORITY_OR_OTHER|||||||0.93||||||Within subjects effects. Time: p = 0.03. Time \* treatment: p = 0.12.|ANOVA|||"Differences among groups, changes over time and interactions: two-way repeated measures ANOVA with unpaired Student's t-test, Bonferroni correction.~No previous studies have compared carvedilol, nebivolol, and placebo with respecto to exercise performance in hypobaric hypoxia. The sample size set for each treatment arm was defined on the basis of the sample size of previous investigations showing significant changes in exercise performance in normal subjects."||||0.93
92189585|NCT00924833|184277748|SUPERIORITY_OR_OTHER||||||<|0.05||||||ANOVA with unpaired Student's t-test, Bonferroni correction. Bonferroni correction. p = 0.05.|ANOVA|||No previous studies have compared carvedilol, nebivolol, and placebo with respecto to exercise performance in hypobaric hypoxia. The sample size set for each treatment arm was defined on the basis of the sample size of previous investigations showing significant changes in exercise performance in normal subjects.||||<0.05
92189586|NCT03247985|184277760|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||Comparison between groups for bilateral operative time.||||0.17
92189587|NCT03247985|184277760|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Comparison between groups for unilateral operative time.||||0.09
92189588|NCT03247985|184277763|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||A p-value of 0.05 was considered statistically significant.||||0.02
92189589|NCT02577315|184277765|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|100.1|||||TWO_SIDED|90.0|97.466|102.804|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Empagliflozin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||102.804|97.466|
92309853|NCT01284621|184520554|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by empa alone|Geometric mean ratio|96.55|STANDARD_DEVIATION|7.1|||TWO_SIDED|90.0|93.05|100.18|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||100.18|93.05|
92189590|NCT02577315|184277766|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|95.51|||||TWO_SIDED|90.0|89.29|102.16|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Metformin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||102.16|89.29|
92309854|NCT01284621|184520555|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by empa alone|Geometric mean ratio|104.47|STANDARD_DEVIATION|13.1|||TWO_SIDED|90.0|97.65|111.77|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|||111.77|97.65|
92309855|NCT01284621|184520556|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by ramipril alone|Geometric mean ratio|108.14|STANDARD_DEVIATION|14.0|||TWO_SIDED|90.0|100.51|116.35|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|||116.35|100.51|
92309856|NCT01284621|184520557|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by ramipril alone.|Geometric mean ratio|103.61|STANDARD_DEVIATION|28.0|||TWO_SIDED|90.0|89.73|119.64|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|||119.64|89.73|
92309857|NCT01284621|184520558|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by ramipril alone|Geometric mean ratio|98.67|STANDARD_DEVIATION|5.2|||TWO_SIDED|90.0|96.0|101.42|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|||101.42|96.00|
92309858|NCT01284621|184520559|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by ramipril alone.|Geometric mean ratio|98.29|STANDARD_DEVIATION|11.3|||TWO_SIDED|90.0|92.67|104.25|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|||104.25|92.67|
92309859|NCT02293863|184520617|OTHER||Hazard Ratio (HR)|1.08||||0.605|TWO_SIDED|80.0|0.83|1.4|||Wilcoxon (Mann-Whitney)|||||1.40|0.83|0.6050
92309860|NCT02293863|184520617|OTHER||Hazard Ratio (HR)|1.13||||0.2028|TWO_SIDED|80.0|0.85|1.51|||Wilcoxon (Mann-Whitney)|||||1.51|0.85|0.2028
92309861|NCT02293863|184520619|OTHER||Difference in event rates|10.19||||0.1905|TWO_SIDED|80.0|-0.15|20.52|||Cochran-Mantel-Haenszel|||||20.52|-0.15|0.1905
92309862|NCT02293863|184520619|OTHER||Difference in event rates|7.91||||0.3168|TWO_SIDED|80.0|-2.64|18.47|||Cochran-Mantel-Haenszel|||||18.47|-2.64|0.3168
92309863|NCT02293863|184520620|OTHER||Difference in event rates|-7.92||||0.6043|TWO_SIDED|80.0|-27.5|11.66|||Cochran-Mantel-Haenszel|||||11.66|-27.50|0.6043
92309864|NCT02293863|184520620|OTHER||Difference in event rates|-14.58||||0.3865|TWO_SIDED|80.0|-36.13|6.97|||Cochran-Mantel-Haenszel|||||6.97|-36.13|0.3865
92309865|NCT02293863|184520621|OTHER||Difference in event rates|1.99||||0.5379|TWO_SIDED|80.0|-5.57|9.56|||Cochran-Mantel-Haenszel|||Day 14||9.56|-5.57|0.5379
92309866|NCT02293863|184520621|OTHER||Difference in event rates|4.97||||0.2189|TWO_SIDED|80.0|-3.12|13.05|||Cochran-Mantel-Haenszel|||Day 14||13.05|-3.12|0.2189
92189591|NCT02577315|184277767|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|102.71|||||TWO_SIDED|90.0|97.309|108.413|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Empagliflozin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||108.413|97.309|
92189592|NCT02577315|184277768|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|101.07|||||TWO_SIDED|90.0|95.565|106.902|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Metformin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||106.902|95.565|
92309867|NCT02293863|184520621|OTHER||Difference in event rates|2.14||||0.6594|TWO_SIDED|80.0|-6.04|10.31|||Cochran-Mantel-Haenszel|||Day 30||10.31|-6.04|0.6594
92309868|NCT02293863|184520621|OTHER||Difference in event rates|3.54||||0.5013|TWO_SIDED|80.0|-5.24|12.31|||Cochran-Mantel-Haenszel|||Day 30||12.31|-5.24|0.5013
92309869|NCT02293863|184520621|OTHER||Difference in event rates|2.21||||0.6849|TWO_SIDED|80.0|-6.28|10.69|||Cochran-Mantel-Haenszel|||Day 60||10.69|-6.28|0.6849
92309870|NCT02293863|184520621|OTHER||Difference in event rates|1.68||||0.7633|TWO_SIDED|80.0|-7.38|10.74|||Cochran-Mantel-Haenszel|||Day 60||10.74|-7.38|0.7633
92309871|NCT02293863|184520622|OTHER||Mean Difference (Final Values)|-3.73||||0.2407|TWO_SIDED|80.0|-6.41|-1.06|||ANOVA|||||-1.06|-6.41|0.2407
92309872|NCT02293863|184520622|OTHER||Mean Difference (Final Values)|-0.7||||0.8339|TWO_SIDED|80.0|-3.49|2.1|||ANOVA|||||2.10|-3.49|0.8339
92309873|NCT02293863|184520623|OTHER||Mean Difference (Final Values)|-0.33||||0.279|TWO_SIDED|80.0|-0.6|-0.07|||ANOVA|||||-0.07|-0.60|0.2790
92309874|NCT02293863|184520623|OTHER||Mean Difference (Final Values)|-0.42||||0.1909|TWO_SIDED|80.0|-0.7|-0.15|||ANOVA|||||-0.15|-0.70|0.1909
92309875|NCT02293863|184520624|OTHER||Hazard Ratio (HR)|1.01||||0.7413|TWO_SIDED|80.0|0.77|1.32|||Wilcoxon (Mann-Whitney)|||||1.32|0.77|0.7413
92309876|NCT02293863|184520624|OTHER||Hazard Ratio (HR)|1.32||||0.4763|TWO_SIDED|80.0|0.99|1.77|||Wilcoxon (Mann-Whitney)|||||1.77|0.99|0.4763
92309877|NCT02293863|184520625|OTHER||Hazard Ratio (HR)|1.01||||0.8806|TWO_SIDED|80.0|0.78|1.32|||Wilcoxon (Mann-Whitney)|||||1.32|0.78|0.8806
92309878|NCT02293863|184520625|OTHER||Hazard Ratio (HR)|1.05||||0.5447|TWO_SIDED|80.0|0.8|1.38|||Wilcoxon (Mann-Whitney)|||||1.38|0.80|0.5447
92309879|NCT02293863|184520626|OTHER||Hazard Ratio (HR)|0.7||||0.4171|TWO_SIDED|80.0|0.47|1.03|||Wilcoxon (Mann-Whitney)|||||1.03|0.47|0.4171
92309880|NCT02293863|184520626|OTHER||Hazard Ratio (HR)|0.9||||0.8322|TWO_SIDED|80.0|0.61|1.34|||Wilcoxon (Mann-Whitney)|||||1.34|0.61|0.8322
92309881|NCT02293863|184520627|OTHER||Difference in event rates|-1.42||||0.824|TWO_SIDED|80.0|-10.61|7.76|||Cochran-Mantel-Haenszel|||||7.76|-10.61|0.8240
92309882|NCT02293863|184520627|OTHER||Difference in event rates|-1.6||||0.8111|TWO_SIDED|80.0|-11.48|8.28|||Cochran-Mantel-Haenszel|||||8.28|-11.48|0.8111
92309883|NCT02293863|184520628|OTHER||Difference in event rates|2.42||||0.7219|TWO_SIDED|80.0|-6.96|11.8|||Cochran-Mantel-Haenszel|||||11.80|-6.96|0.7219
92309884|NCT02293863|184520628|OTHER||Difference in event rates|0.67||||0.9225|TWO_SIDED|80.0|-9.29|10.64|||Cochran-Mantel-Haenszel|||||10.64|-9.29|0.9225
92309885|NCT02293863|184520629|OTHER||Difference in event rates|1.99||||0.5379|TWO_SIDED|80.0|-5.57|9.56|||Cochran-Mantel-Haenszel|||||9.56|-5.57|0.5379
92309886|NCT02293863|184520629|OTHER||Difference in event rates|-1.85||||0.3667|TWO_SIDED|80.0|-9.88|6.18|||Cochran-Mantel-Haenszel|||||6.18|-9.88|0.3667
92309887|NCT02293863|184520630|OTHER||Hazard Ratio (HR)|0.66||||0.7827|TWO_SIDED|80.0|0.41|1.07|||Wilcoxon (Mann-Whitney)|||||1.07|0.41|0.7827
92309888|NCT02293863|184520630|OTHER||Hazard Ratio (HR)|0.58||||0.2522|TWO_SIDED|80.0|0.36|0.96|||Wilcoxon (Mann-Whitney)|||||0.96|0.36|0.2522
92309889|NCT03452137|184520658|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6804|TWO_SIDED|95.0|0.7|1.26|||Log Rank||HR was estimated by Cox regression.|Stratified Analysis: The stratification factors were response to definitive local therapy, human papillomavirus (HPV) status and type of definitive local therapy as per interactive voice or web-based response system (IxRS).||1.26|0.70|0.6804
92309890|NCT03452137|184520659|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.8371|TWO_SIDED|95.0|0.68|1.36|||Log Rank||HR was estimated by Cox regression.|Stratified Analysis: The stratification factors were response to definitive local therapy, HPV status and type of definitive local therapy as per interactive voice or web-based response system (IxRS).||1.36|0.68|0.8371
92309891|NCT03452137|184520660|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9115|TWO_SIDED|95.0|0.73|1.32|||Log Rank||HR was estimated by Cox regression|Stratified Analysis: The stratification factors were response to definitive local therapy, HPV status and type of definitive local therapy as per interactive voice or web-based response system (IxRS).||1.32|0.73|0.9115
92309892|NCT03452137|184520661|SUPERIORITY||Difference in Event Free Rate|-0.67||||0.8816|TWO_SIDED|95.0|-9.45|8.11|||Z test|||Difference in EFS Event-Free Rates at 1 year||8.11|-9.45|0.8816
92189593|NCT02577315|184277769|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|100.3|||||TWO_SIDED|90.0|97.532|103.149|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Empagliflozin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||103.149|97.532|
92189594|NCT02577315|184277770|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|93.55|||||TWO_SIDED|90.0|82.86|105.61|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Metformin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||105.61|82.86|
92309893|NCT03452137|184520661|SUPERIORITY||Difference in Event Free Rate|0.46||||0.9234|TWO_SIDED|95.0|-8.86|9.78|||Z test|||Difference in EFS Event-Free Rates at 2 years||9.78|-8.86|0.9234
92309894|NCT03452137|184520661|SUPERIORITY||Difference in Event Free Rate|1.19||||0.809|TWO_SIDED|95.0|-8.49|10.88|||Z test|||Difference in EFS Event-Free Rates at 3 years||10.88|-8.49|0.8090
92309895|NCT03452137|184520661|SUPERIORITY||Difference in Event Free Rate|0.01||||0.9985|TWO_SIDED|95.0|-10.17|10.19|||Z test|||Difference in EFS Event-Free Rates at 4 years||10.19|-10.17|0.9985
92309896|NCT03452137|184520662|SUPERIORITY||Difference in Event Free Rate|5.17||||0.2393|TWO_SIDED|95.0|-3.44|13.79|||Z test|||Difference in EFS Event-Free Rates at 1 year||13.79|-3.44|0.2393
92309897|NCT03452137|184520662|SUPERIORITY||Difference in Event Free Rate|3.61||||0.4472|TWO_SIDED|95.0|-5.69|12.9|||Z test|||Difference in EFS Event-Free Rates at 2 years||12.90|-5.69|0.4472
92309898|NCT03452137|184520662|SUPERIORITY||Difference in Event Free Rate|3.14||||0.5222|TWO_SIDED|95.0|-6.49|12.77|||Z test|||Difference in EFS Event-Free Rates at 3 years||12.77|-6.49|0.5222
92309899|NCT03452137|184520662|SUPERIORITY||Difference in Event Free Rate|1.31||||0.7967|TWO_SIDED|95.0|-8.64|11.26|||Z test|||Difference in EFS Event-Free Rates at 4 years||11.26|-8.64|0.7967
92309900|NCT03452137|184520663|SUPERIORITY||Difference in Event Free Rate|2.77||||0.4819|TWO_SIDED|95.0|-4.95|10.49|||Z test|||Difference in OS Event-Free Rates at 2 years||10.49|-4.95|0.4819
92309901|NCT03452137|184520663|SUPERIORITY||Difference in Event Free Rate|-1.25||||0.7783|TWO_SIDED|95.0|-9.97|7.47|||Z test|||Difference in OS Event-Free Rates at 3 years||7.47|-9.97|0.7783
92309902|NCT03452137|184520663|SUPERIORITY||Difference in Event Free Rate|-1.07||||0.8924|TWO_SIDED|95.0|-16.56|14.42|||Z test|||Difference in OS Event-Free Rates at 5 years||14.42|-16.56|0.8924
92309903|NCT02856802|184520696|NON_INFERIORITY|Assumption that 15% of placebo and 42% of DFN 02 10 mg (treated) subjects would be pain-free at 2 hours. A sample size of 50 subjects in each DB1 dosing arm provided 86% power to detect this assumed difference between placebo and DFN-02 10 mg at a 5% (2-sided) level of significance.|Odds Ratio (OR)|2.68||||0.044|TWO_SIDED|95.0|1.05|6.83|||Fisher Exact|||Statistical testing and confidence intervals (CIs) were 2 sided and performed using a significance (alpha) level of 0.05. All statistical analyses were conducted with the statistical analysis system (SAS)® software package (version 9.3).||6.83|1.05|0.044
92309904|NCT02856802|184520697|NON_INFERIORITY|Non-inferiority conducted as specified in the statistical analysis plan (SAP).||||||0.007||||||The corresponding p-values from Fisher's exact test were computed for the comparison between treatment groups.|Fisher Exact|||||||0.007
92309905|NCT02856802|184520698|NON_INFERIORITY|No assumptions made.|Odds Ratio (OR)|1.31||||0.642|TWO_SIDED|95.0|0.52|3.3|||Fisher Exact|||Statistical testing and confidence intervals (CIs) were 2 sided and performed using a significance (alpha) level of 0.05. All statistical analyses were conducted with the SAS® software package (version 9.3).||3.30|0.52|0.642
92309906|NCT00261443|184520709|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.544||||0.014|TWO_SIDED|95.0|0.332|0.893||Stratified Log-rank Test, controlling for type of mood stabilizer and type of mood episode|Stratified Log-rank Test||Cox proportional hazards model, with type of mood stabilizer and type of index mood episode as stratification factors, and treatment group as covariate.|||0.893|0.332|0.014
92309907|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.01||||0.911|TWO_SIDED|95.0|-0.16|0.15||ANOVA model, controlling for treatment, mood stabilizer, and index mood episode used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value used for mean change from baseline.|ANOVA/ANCOVA|Means, difference in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Baseline Comparison||0.15|-0.16|0.911
92309908|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.04||||0.557|TWO_SIDED|95.0|-0.09|0.18||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.18|-0.09|0.557
92309909|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.04||||0.596|TWO_SIDED|95.0|-0.18|0.1||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.10|-0.18|0.596
92309910|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.05||||0.522|TWO_SIDED|95.0|-0.22|0.11||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.11|-0.22|0.522
92309911|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.13||||0.142|TWO_SIDED|95.0|-0.3|0.04||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.04|-0.30|0.142
92309912|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.16||||0.092|TWO_SIDED|95.0|-0.35|0.03||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.03|-0.35|0.092
92309913|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.2||||0.039|TWO_SIDED|95.0|-0.4|-0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||-0.01|-0.40|0.039
92309914|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.21||||0.05|TWO_SIDED|95.0|-0.43|0.0||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||0.00|-0.43|0.050
92309915|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.19||||0.064|TWO_SIDED|95.0|-0.4|0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||0.01|-0.40|0.064
92309916|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.25||||0.017|TWO_SIDED|95.0|-0.46|-0.05||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||-0.05|-0.46|0.017
92309917|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.22||||0.039|TWO_SIDED|95.0|-0.43|-0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||-0.01|-0.43|0.039
92309918|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.27||||0.015|TWO_SIDED|95.0|-0.48|-0.05||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||-0.05|-0.48|0.015
92309919|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.009|TWO_SIDED|95.0|-0.5|-0.07||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-0.07|-0.50|0.009
92309920|NCT00261443|184520710|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.28||||0.013|TWO_SIDED|95.0|-0.5|-0.06||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||-0.06|-0.50|0.013
92309921|NCT00261443|184520711|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.348||||0.013|TWO_SIDED|95.0|0.146|0.829||Stratified Log-rank Test, controlling for type of mood stabilizer and type of index mood episode.|Stratified Log-rank Test||Cox proportional hazards model, with type of mood stabilizer and type of index mood episode as stratification factors, and treatment group as covariate.|||0.829|0.146|0.013
92309922|NCT00261443|184520712|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.733||||0.384|TWO_SIDED|95.0|0.364|1.479||Stratified Log-rank Test P-value for Equality of Survival Curves|Stratified Log-rank Test||Cox proportional hazards model, with type of mood stabilizer and type of index mood episode as stratification factors, and treatment group as covariate.|||1.479|0.364|0.384
92309923|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.02||||0.955|TWO_SIDED|95.0|-0.73|0.77||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Baseline Comparison||0.77|-0.73|0.955
92309924|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.06||||0.895|TWO_SIDED|95.0|-0.83|0.95||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.95|-0.83|0.895
92309925|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.69||||0.144|TWO_SIDED|95.0|-1.61|0.24||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.24|-1.61|0.144
92309926|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.1||||0.047|TWO_SIDED|95.0|-2.19|-0.01||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||-0.01|-2.19|0.047
92309927|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.39||||0.017|TWO_SIDED|95.0|-2.52|-0.25||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||-0.25|-2.52|0.017
92309928|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.91||||0.003|TWO_SIDED|95.0|-3.15|-0.68||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||-0.68|-3.15|0.003
92309929|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.18|||<|0.001|TWO_SIDED|95.0|-3.47|-0.89||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||-0.89|-3.47|<0.001
92309930|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.62|||<|0.001|TWO_SIDED|95.0|-4.06|-1.19||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||-1.19|-4.06|<0.001
92309931|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.33|||<|0.001|TWO_SIDED|95.0|-3.7|-0.95||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||-0.95|-3.70|<0.001
92309932|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.78|||<|0.001|TWO_SIDED|95.0|-4.19|-1.37||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||-1.37|-4.19|<0.001
92309933|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.71|||<|0.001|TWO_SIDED|95.0|-4.13|-1.29||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||-1.29|-4.13|<0.001
92309934|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.92|||<|0.001|TWO_SIDED|95.0|-4.38|-1.46||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||-1.46|-4.38|<0.001
92189595|NCT03530345|184277794|SUPERIORITY||Mean Difference (Net)|-1.07|STANDARD_ERROR_OF_MEAN|0.404||0.0111|TWO_SIDED|95.0|-1.89|-0.26||2-sided p-value for testing superiority of neridronic acid 400 mg compared to placebo.|Mixed Models Analysis|The degrees of freedom of the denominator are estimated using the Kenward-Roger approximation.|The primary endpoint estimate was the least squares mean differences of change from baseline in pain NRS (electronic diary) at Week 12 between neridronate and Placebo.|Mixed-effects model for repeated measures (MMRM) defined with baseline pain intensity as covariate, the factors geographic region, week, treatment and treatment-by-week as fixed effects, and an unstructured covariance matrix to model the covariance structure of the repeated measurements.||-0.26|-1.89|0.0111
92189596|NCT02938520|184277804|NON_INFERIORITY|Non-inferiority in the proportion of participants with virologic failure at Week 48 (per FDA's snapshot algorithm for assessing HIV-1 RNA \>=50 c/mL) can be concluded if the upper bound of a two-sided 95% confidence interval (CI) for the difference in failure rates between the two treatment arms (CAB - ABC/DTG/3TC) is less than 6%.|Adjusted difference in proportion|-0.4|||||TWO_SIDED|95.0|-2.8|2.1|||||||Adjusted difference in proportion was based on Cochran-Mantel Haenszel stratified analysis adjusting for the following baseline stratification factors: sex at birth (Male, Female) and Induction Baseline (Week -20) HIV-1 RNA (\<100,000 \>=100,000 c/mL)|2.1|-2.8|
92189597|NCT02938520|184277805|NON_INFERIORITY|Non-inferiority in the proportion of participants with HIV-1 RNA\<50 c/mL at Week 48 (per FDA's snapshot algorithm) can be concluded if the lower bound of a two-sided 95% confidence interval for the difference in success rates between the two treatment arms (CAB - ABC/DTG/3TC) is more than -10%|Adjusted difference in proportion|0.4|||||TWO_SIDED|95.0|-3.7|4.5|||||Adjusted difference in proportion was based on Cochran-Mantel Haenszel stratified analysis adjusting for the following baseline stratification factors: sex at birth (Male, Female) and Induction Baseline (Week -20) HIV-1 RNA (\<100,000 \>=100,000 c/mL)|||4.5|-3.7|
92189598|NCT02938520|184277858|OTHER||||||<|0.001||||||Week 41/48 was compared with the 1st visit (Week 5) based on Wilcoxon signed-rank test, respectively. p-values are derived for 'Acceptance' only and not adjusted for multiple testing.|Wilcoxon (Mann-Whitney)|||||||<0.001
92189599|NCT02938520|184277860|OTHER||Adjusted difference|1.2||||0.307|TWO_SIDED|95.0|-1.1|3.6|||ANCOVA||Treatment comparison at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||3.6|-1.1|0.307
92189600|NCT02938520|184277860|OTHER||Adjusted difference|0.9||||0.472|TWO_SIDED|95.0|-1.5|3.2|||ANCOVA||Treatment comparison at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||3.2|-1.5|0.472
92189601|NCT02938520|184277861|OTHER||Adjusted difference|1.8||||0.116|TWO_SIDED|95.0|-0.4|3.9|||ANCOVA||Treatment comparison at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||3.9|-0.4|0.116
92189602|NCT02938520|184277861|OTHER||Adjusted difference|0.1||||0.944|TWO_SIDED|95.0|-2.3|2.5|||ANCOVA||Treatment comparison at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||2.5|-2.3|0.944
92189603|NCT02938520|184277862|OTHER||Adjusted difference|-1.3||||0.552|TWO_SIDED|95.0|-5.7|3.0|||ANCOVA||Treatment comparison at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||3.0|-5.7|0.552
92189604|NCT02938520|184277862|OTHER||Adjusted difference|-4.6||||0.033|TWO_SIDED|95.0|-8.9|-0.4|||ANCOVA||Treatment comparison at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||-0.4|-8.9|0.033
92189605|NCT02938520|184277863|OTHER||Adjusted difference|1.021||||0.122|TWO_SIDED|95.0|-0.275|2.318|||ANCOVA||Treatment comparison of SF-12 MCS at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||2.318|-0.275|0.122
92189606|NCT02938520|184277863|OTHER||Adjusted difference|1.103||||0.109|TWO_SIDED|95.0|-0.248|2.453|||ANCOVA||Treatment comparison of SF-12 MCS at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||2.453|-0.248|0.109
92189607|NCT02938520|184277863|OTHER||Adjusted difference|0.182||||0.645|TWO_SIDED|95.0|-0.594|0.958|||ANCOVA||Treatment comparison of SF-12 PCS at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||0.958|-0.594|0.645
92189608|NCT02938520|184277863|OTHER||Adjusted difference|-0.169||||0.689|TWO_SIDED|95.0|-0.994|0.657|||ANCOVA||Treatment comparison of SF-12 PCS at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||0.657|-0.994|0.689
92189609|NCT02938520|184277864|OTHER||Adjusted difference|2.2|||<|0.001|TWO_SIDED|95.0|1.0|3.4|||ANCOVA||Treatment comparison at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||3.4|1.0|<0.001
92189610|NCT02938520|184277864|OTHER||Adjusted difference|0.7||||0.217|TWO_SIDED|95.0|-0.4|1.9|||ANCOVA||Treatment comparison at Week 44 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||1.9|-0.4|0.217
92189611|NCT02938520|184277865|OTHER||Difference|4.1|||<|0.001|TWO_SIDED|95.0|2.8|5.5|||ANOVA||Treatment comparison of HIVTSQc-total treatment satisfaction score at Week 48 is presented, adjusted for Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||5.5|2.8|<0.001
92309935|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-3.08|||<|0.001|TWO_SIDED|95.0|-4.59|-1.57||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-1.57|-4.59|<0.001
92309936|NCT00261443|184520714|SUPERIORITY_OR_OTHER_LEGACY||Difference|-3.04|||<|0.001|TWO_SIDED|95.0|-4.55|-1.54||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||-1.54|-4.55|<0.001
92309937|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.2||||0.59|TWO_SIDED|95.0|-0.54|0.94||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Baseline Comparison||0.94|-0.54|0.590
92309938|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.5||||0.371|TWO_SIDED|95.0|-1.59|0.6||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.60|-1.59|0.371
92309939|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.04||||0.113|TWO_SIDED|95.0|-2.33|0.25||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.25|-2.33|0.113
92309940|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.0||||0.128|TWO_SIDED|95.0|-2.28|0.29||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.29|-2.28|0.128
92309941|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.85||||0.205|TWO_SIDED|95.0|-2.16|0.47||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.47|-2.16|0.205
92309942|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.13||||0.125|TWO_SIDED|95.0|-2.59|0.32||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.32|-2.59|0.125
92309943|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.43||||0.061|TWO_SIDED|95.0|-2.92|0.06||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||0.06|-2.92|0.061
92309944|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.51||||0.06|TWO_SIDED|95.0|-3.07|0.06||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||0.06|-3.07|0.060
92189612|NCT02938520|184277867|OTHER||Adjusted difference|2.2||||0.232|TWO_SIDED|95.0|-1.4|5.7|||ANCOVA||Treatment comparison at Week 8 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||5.7|-1.4|0.232
92189613|NCT02938520|184277867|OTHER||Adjusted difference|2.7||||0.154|TWO_SIDED|95.0|-1.0|6.4|||ANCOVA||Treatment comparison Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||6.4|-1.0|0.154
92189614|NCT02938520|184277867|OTHER||Adjusted difference|2.2||||0.236|TWO_SIDED|95.0|-1.4|5.8|||ANCOVA||Treatment comparison at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||5.8|-1.4|0.236
92189615|NCT00197106|184277879|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is considered to be shown if the upper limit of the one-sided 95% confidence interval of the difference uflixotide-useretide does not exceed +15% (uflixotide-useretide represent the mean percentages of asthma symptom-free days of the two respective treatment groups).|Adjusted difference|2.6||||0.63||95.0|-8.1|13.4|||Repeated Measurements Anal. of Variance|Anal. = Analysis||||13.4|-8.1|0.63
92189616|NCT03594266|184277904|OTHER||||||<|0.0001|||||||paired t-test, two-sided|||||||<0.0001
92309945|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.62||||0.046|TWO_SIDED|95.0|-3.21|-0.03||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||-0.03|-3.21|0.046
92189617|NCT03594266|184277904|OTHER||||||<|0.0001|||||||paired t-test, two-sided|||||||<0.0001
92189618|NCT03594266|184277905|OTHER|||||||0.5482|||||||two-sample t-test, 2-sided|||||||0.5482
92309946|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.15||||0.164|TWO_SIDED|95.0|-2.77|0.47||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||0.47|-2.77|0.164
92309947|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.53||||0.066|TWO_SIDED|95.0|-3.16|0.1||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||0.10|-3.16|0.066
92309948|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.57||||0.066|TWO_SIDED|95.0|-3.24|0.1||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||0.10|-3.24|0.066
92309949|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.08||||0.014|TWO_SIDED|95.0|-3.73|-0.43||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-0.43|-3.73|0.014
92309950|NCT00261443|184520716|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.01||||0.019|TWO_SIDED|95.0|-3.68|-0.34||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||-0.34|-3.68|0.019
92309951|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.05||||0.597|TWO_SIDED|95.0|-0.13|0.22||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Baseline Comparison||0.22|-0.13|0.597
92309952|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.02||||0.838|TWO_SIDED|95.0|-0.17|0.21||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.21|-0.17|0.838
92309953|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.11||||0.291|TWO_SIDED|95.0|-0.32|0.1||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.10|-0.32|0.291
92189619|NCT00449033|184277910|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.401||95.0|0.83|1.16|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.025 stratified by the same stratification factors as randomization.||Sample size based on the primary efficacy endpoint of OS in the ITT (non-squamous) population. Clinically meaningful improvement defined as 30% increase in median OS (that is, a hazard ratio of 0.76923, Sorafenib+GC over Placebo+GC). With one-sided alpha of 0.025, power of 86% and a randomization ratio of 1:1 between Sorafenib+GC and Placebo+GC, and one formal final analysis of OS performed, a total of 544 events (deaths) were required.||1.16|0.83|0.401
92309954|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.14||||0.219|TWO_SIDED|95.0|-0.37|0.08||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.08|-0.37|0.219
92309955|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.18||||0.133|TWO_SIDED|95.0|-0.41|0.05||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.05|-0.41|0.133
92309956|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.21||||0.092|TWO_SIDED|95.0|-0.46|0.04||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.04|-0.46|0.092
92189620|NCT00449033|184277911|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.563||95.0|0.87|1.18|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.025 stratified by the same factors as randomization plus histology.||||1.18|0.87|0.563
92189621|NCT00449033|184277913|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.008||95.0|0.71|0.97|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.025 stratified by the same stratification factors as randomization.||||0.97|0.71|0.008
92189622|NCT00449033|184277914|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0004||95.0|0.6|0.88|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.025 stratified by the same stratification factors as randomization.||||0.88|0.60|0.0004
92309957|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.31||||0.018|TWO_SIDED|95.0|-0.56|-0.05||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||-0.05|-0.56|0.018
92309958|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.029|TWO_SIDED|95.0|-0.56|-0.03||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||-0.03|-0.56|0.029
92309959|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.31||||0.024|TWO_SIDED|95.0|-0.57|-0.04||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||-0.04|-0.57|0.024
92309960|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.035|TWO_SIDED|95.0|-0.56|-0.02||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||-0.02|-0.56|0.035
92309961|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.038|TWO_SIDED|95.0|-0.56|-0.02||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||-0.02|-0.56|0.038
92309962|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.34||||0.015|TWO_SIDED|95.0|-0.62|-0.07||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||-0.07|-0.62|0.015
92309963|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.39||||0.006|TWO_SIDED|95.0|-0.67|-0.12||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-0.12|-0.67|0.006
92309964|NCT00261443|184520718|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.35||||0.015|TWO_SIDED|95.0|-0.62|-0.07||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||-0.07|-0.62|0.015
92309965|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.04||||0.588|TWO_SIDED|95.0|-0.09|0.16||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Baseline Comparison||0.16|-0.09|0.588
92309966|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.01||||0.922|TWO_SIDED|95.0|-0.18|0.16||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.16|-0.18|0.922
92309967|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.11||||0.266|TWO_SIDED|95.0|-0.3|0.08||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.08|-0.30|0.266
92309968|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.14||||0.159|TWO_SIDED|95.0|-0.34|0.06||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.06|-0.34|0.159
92309969|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.11||||0.305|TWO_SIDED|95.0|-0.31|0.1||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.10|-0.31|0.305
92309970|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.13||||0.251|TWO_SIDED|95.0|-0.35|0.09||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.09|-0.35|0.251
92309971|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.17||||0.135|TWO_SIDED|95.0|-0.4|0.05||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||0.05|-0.40|0.135
92309972|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.22||||0.073|TWO_SIDED|95.0|-0.46|0.02||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||0.02|-0.46|0.073
92309973|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.26||||0.034|TWO_SIDED|95.0|-0.5|-0.02||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||-0.02|-0.50|0.034
92309974|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.17||||0.174|TWO_SIDED|95.0|-0.41|0.07||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||0.07|-0.41|0.174
92309975|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.19||||0.132|TWO_SIDED|95.0|-0.43|0.06||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||0.06|-0.43|0.132
92309976|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.18||||0.152|TWO_SIDED|95.0|-0.42|0.07||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||0.07|-0.42|0.152
92309977|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.23||||0.06|TWO_SIDED|95.0|-0.48|0.01||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||0.01|-0.48|0.060
92309978|NCT00261443|184520720|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.22||||0.085|TWO_SIDED|95.0|-0.46|0.03||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||0.03|-0.46|0.085
92309979|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.04||||0.774|TWO_SIDED|95.0|-0.25|0.33||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.33|-0.25|0.774
92309980|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.19||||0.213|TWO_SIDED|95.0|-0.49|0.11||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.11|-0.49|0.213
92309981|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.12||||0.465|TWO_SIDED|95.0|-0.43|0.2||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.20|-0.43|0.465
92309982|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.068|TWO_SIDED|95.0|-0.59|0.02||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.02|-0.59|0.068
92189623|NCT00449033|184277915|SUPERIORITY_OR_OTHER||Difference in Tumour Response (CR+PR)|-1.92||||0.2733||95.0|-8.19|4.34|||Cochran-Mantel-Haenszel|Two treatment groups compared using a CMH test with one-sided alpha of 0.025 stratified by the same stratification factors as randomization.||||4.34|-8.19|0.2733
92189624|NCT00449033|184277916|SUPERIORITY_OR_OTHER||Difference in Disease Control|0.97||||0.3902||95.0|-5.87|7.81|||Cochran-Mantel-Haenszel|Two treatment groups compared using a CMH test with one-sided alpha of 0.025 stratified by the same stratification factors as randomization.||||7.81|-5.87|0.3902
92189628|NCT00581009|184277952|EQUIVALENCE|repeated measure ANOVA|t-value|3.34|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
92189629|NCT02256488|184277953|NON_INFERIORITY_OR_EQUIVALENCE|"The lot-to-lot consistency was claimed if the 2-sided 95% CIs of all the three pairwise comparisons was within the equivalence ranges, that is:~(μlot A - μlot B) \> -0.176 and (μlot A - μlot B) \< 0.176 and (μlot A - μlot C) \> -0.176 and (μlot A - μlot C) \< 0.176 and (μlot B - μlot C) \> -0.176 and (μlot B - μlot C) \< 0.176"|Ratio of GMTs|0.9|||||TWO_SIDED|95.0|0.667|1.5|||ANCOVA|||To demonstrate immunologic equivalence of three consecutive TIVc production lots as evaluated by HI antibody responses after vaccination for all 3 influenza strains at day 22.||1.5|0.667|
92309983|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.27||||0.095|TWO_SIDED|95.0|-0.58|0.05||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.05|-0.58|0.095
92309984|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.082|TWO_SIDED|95.0|-0.62|0.04||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||0.04|-0.62|0.082
92309985|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.36||||0.033|TWO_SIDED|95.0|-0.69|-0.03||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||-0.03|-0.69|0.033
92309986|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.31||||0.062|TWO_SIDED|95.0|-0.64|0.02||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||0.02|-0.64|0.062
92309987|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.43||||0.011|TWO_SIDED|95.0|-0.76|-0.1||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||-0.10|-0.76|0.011
92309988|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.37||||0.027|TWO_SIDED|95.0|-0.7|-0.04||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||-0.04|-0.70|0.027
92189630|NCT02256488|184277953|NON_INFERIORITY_OR_EQUIVALENCE|"The lot-to-lot consistency was claimed if the 2-sided 95% CIs of all the three pairwise comparisons was within the equivalence ranges, that is:~(μlot A - μlot B) \> -0.176 and (μlot A - μlot B) \< 0.176 and (μlot A - μlot C) \> -0.176 and (μlot A - μlot C) \< 0.176 and (μlot B - μlot C) \> -0.176 and (μlot B - μlot C) \< 0.176"|Ratio of GMTs|1.02|||||TWO_SIDED|95.0|0.667|1.5|||ANCOVA|||To demonstrate immunologic equivalence of three consecutive TIVc production lots as evaluated by HI antibody responses after vaccination for for all 3 influenza strains at day 22||1.5|0.667|
92189631|NCT02256488|184277953|NON_INFERIORITY_OR_EQUIVALENCE|"The lot-to-lot consistency was claimed if the 2-sided 95% CIs of all the three pairwise comparisons was within the equivalence ranges, that is:~(μlot A - μlot B) \> -0.176 and (μlot A - μlot B) \< 0.176 and (μlot A - μlot C) \> -0.176 and (μlot A - μlot C) \< 0.176 and (μlot B - μlot C) \> -0.176 and (μlot B - μlot C) \< 0.176"|Ratio of GMTs|1.12|||||TWO_SIDED|95.0|0.667|1.5|||ANCOVA|||To demonstrate immunologic equivalence of three consecutive TIVc production lots as evaluated by HI antibody responses after vaccination for all 3 influenza strains at day 22||1.5|0.667|
92189632|NCT01245699|184278012|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92309989|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.37||||0.029|TWO_SIDED|95.0|-0.71|-0.04||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||-0.04|-0.71|0.029
92189633|NCT01245699|184278013|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92189634|NCT01245699|184278014|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||||||0.1
92189635|NCT01245699|184278015|SUPERIORITY|||||||0.65|||||||Kruskal-Wallis|||||||0.65
92189636|NCT01636778|184278018|SUPERIORITY_OR_OTHER||Percentage|88.0|||||TWO_SIDED|95.0|74.0|96.0||||||||96|74|
92309990|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.4||||0.022|TWO_SIDED|95.0|-0.74|-0.06||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-0.06|-0.74|0.022
92189637|NCT04150250|184278076|SUPERIORITY||Difference in Median|-7.1||||0.2254|TWO_SIDED|95.0|-30.9|28.6||The threshold to define success on the primary efficacy endpoint at the final analysis is one-sided alpha = 0.0238.|Van Elteren test|Stratified by blood type group (O vs. Non-O)||||28.6|-30.9|0.2254
92189638|NCT04150250|184278077|SUPERIORITY||Difference in Median|-3.8||||0.2751|TWO_SIDED|95.0|-26.3|27.4|||Van Elteren test|Stratified by blood type group||||27.4|-26.3|0.2751
92189639|NCT04150250|184278079|SUPERIORITY||Difference|-11.3||||0.5145|TWO_SIDED|95.0|-44.1|21.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, stratified by blood type group.||||21.6|-44.1|0.5145
92189640|NCT04150250|184278080|SUPERIORITY||Difference|-6.3||||0.2636|TWO_SIDED|95.0|-18.1|5.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, stratified by blood type group.||||5.6|-18.1|0.2636
92189641|NCT04150250|184278081|SUPERIORITY||Difference in Median|1.1||||0.5992|TWO_SIDED|95.0|-4.5|7.8|||Van Elteren test|Stratified by blood type group||||7.8|-4.5|0.5992
92189642|NCT04150250|184278083|SUPERIORITY|||||||0.6527|||||||Log Rank|Stratified by blood type group||||||0.6527
92309991|NCT00261443|184520723|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.4||||0.023|TWO_SIDED|95.0|-0.75|-0.06||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||-0.06|-0.75|0.023
92309992|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.09||||0.486|TWO_SIDED|95.0|-0.17|0.36||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.36|-0.17|0.486
92309993|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.04||||0.793|TWO_SIDED|95.0|-0.3|0.23||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.23|-0.30|0.793
92309994|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.06||||0.665|TWO_SIDED|95.0|-0.34|0.22||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.22|-0.34|0.665
92309995|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.07||||0.65|TWO_SIDED|95.0|-0.35|0.22||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.22|-0.35|0.650
92309996|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.06||||0.705|TWO_SIDED|95.0|-0.34|0.23||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.23|-0.34|0.705
92189643|NCT04150250|184278084|SUPERIORITY||Difference in Median|1.5||||0.5377|TWO_SIDED|95.0|-7.0|5.5|||Van Elteren test|Stratified by blood type group||||5.5|-7.0|0.5377
92189644|NCT04150250|184278085|SUPERIORITY||Difference|1.3||||0.8705|TWO_SIDED|95.0|-14.0|16.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, stratified by blood type group.||||16.5|-14.0|0.8705
92189645|NCT04150250|184278086|SUPERIORITY||Difference|-18.8||||0.1404|TWO_SIDED|95.0|-41.1|3.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, stratified by blood type group||||3.6|-41.1|0.1404
92189646|NCT01436045|184278089|SUPERIORITY_OR_OTHER||Percent Change|-15.7|STANDARD_ERROR_OF_MEAN|7.0|<|0.05|TWO_SIDED|||||RBANS Line Orientation|t-test, 2 sided||Response to intranasal Insulin Glulisine \[(result post-insulin - result post-placebo)/(result post-placebo)\] x 100%|Response to intranasal Insulin Gluiline \[(result post-insulin - result post-placebo)/(result post-placebo)\] x 100%||||<0.05
92189647|NCT01436045|184278092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|0.26|<|0.05|TWO_SIDED||||||t-test, 2 sided|||Difference in errors \[result post-insulin - result post-placebo\]||||<0.05
92189648|NCT00748098|184278131|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-26.0|||<|0.0001|TWO_SIDED|95.0|-35.64|-16.36|||ANCOVA|Estimates were obtained using an ANCOVA model with period, group center, and treatment as fixed effects and participant as a random effect.||||-16.36|-35.64|<0.0001
92309997|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.08||||0.572|TWO_SIDED|95.0|-0.38|0.21||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||0.21|-0.38|0.572
92309998|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.12||||0.418|TWO_SIDED|95.0|-0.43|0.18||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||0.18|-0.43|0.418
92309999|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.2||||0.185|TWO_SIDED|95.0|-0.51|0.1||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||0.10|-0.51|0.185
92189649|NCT00748098|184278132|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-3.07||||0.002|TWO_SIDED|95.0|-5.04|-1.1|||ANCOVA|Estimates were obtained using an ANCOVA model with period, group center, and treatment as fixed effects and participant as a random effect.||||-1.10|-5.04|0.002
92189650|NCT04448561|184278179|OTHER||Geometric Least square (LS) mean ratio|100.64|||||TWO_SIDED|90.0|98.37|102.96|||||Assessment based on analysis of variance performed on natural log-transformed parameters with treatment as fixed effect and participant as random effect. Ratios and confidence limits: transformed back to raw scale and values expressed as percentages.|||102.96|98.37|
92189651|NCT04448561|184278180|OTHER||Geometric LS mean ratio|94.28|||||TWO_SIDED|90.0|89.29|99.54|||||Assessment based on analysis of variance performed on natural log-transformed parameters with treatment as fixed effect and participant as random effect. Ratios and confidence limits: transformed back to raw scale and values expressed as percentages.|||99.54|89.29|
92189652|NCT04448561|184278182|OTHER||Geometric LS mean ratio|100.79|||||TWO_SIDED|90.0|83.35|121.88|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits were transformed back to raw scale and values were expressed as percentages.|||121.88|83.35|
92189653|NCT04448561|184278183|OTHER||Geometric LS mean ratio|100.58|||||TWO_SIDED|90.0|81.35|124.36|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits were transformed back to raw scale and values were expressed as percentages.|||124.36|81.35|
92189654|NCT04448561|184278185|OTHER||Geometric LS mean ratio|89.08|||||TWO_SIDED|90.0|79.58|99.71|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits were transformed back to raw scale and values were expressed as percentages.|||99.71|79.58|
92189655|NCT04448561|184278186|OTHER||Geometric LS mean ratio|96.11|||||TWO_SIDED|90.0|83.03|111.25|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits are transformed back to raw scale and values are expressed as percentages.|||111.25|83.03|
92189656|NCT04448561|184278188|OTHER||Geometric LS mean ratio|86.54|||||TWO_SIDED|90.0|76.01|98.52|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits are transformed back to raw scale and values are expressed as percentages.|||98.52|76.01|
92189657|NCT04448561|184278189|OTHER||Geometric LS mean ratio|95.1|||||TWO_SIDED|90.0|82.52|109.6|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits were transformed back to raw scale and values were expressed as percentages.|||109.60|82.52|
92189658|NCT03602859|184278207|OTHER||Hazard Ratio (HR)|0.85||||0.0351|TWO_SIDED|95.0|0.73|0.99|||Stratified log-rank test||Hazard ratio and p-value from the stratified Cox proportional hazards model and log-rank test (2-sided) are adjusted for the randomization stratification factors: concurrent bevacizumab use and homologous recombinant repair (HRR) mutation status.|||0.99|0.73|0.0351
92189659|NCT05492786|184278220|SUPERIORITY|||||||0.517||||||The p-value reported is 2-tailed and based on heteroskedasticity-robust standard errors.|Regression, Linear|||Null hypothesis: there is no difference in flu shots for patients whose clinicians were shown alerts with information about their risk status (patients randomized to the High-risk Alert or High-risk Alert with Risk Factors arms) compared with those whose clinicians were shown the standard alert. Alternative hypothesis: patients in the High-risk Alert and High-risk Alert with Risk Factors arms will exhibit improved flu vaccination rates compared with those in the standard Alert arm.||||0.517
92267244|NCT03671746|184435837|SUPERIORITY||||||=|0.564|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||=0.564
92267245|NCT03671746|184435838|SUPERIORITY||||||=|0.118|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||=0.118
92310000|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.1||||0.536|TWO_SIDED|95.0|-0.41|0.21||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||0.21|-0.41|0.536
92310001|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.07||||0.637|TWO_SIDED|95.0|-0.39|0.24||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||0.24|-0.39|0.637
92267246|NCT03671746|184435839|SUPERIORITY|||||||0.215|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||0.215
92267247|NCT03671746|184435840|SUPERIORITY||||||=|0.043|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||=0.043
92267248|NCT03671746|184435841|SUPERIORITY||||||=|0.617|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||=0.617
92267249|NCT03671746|184435843|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||<0.05
92267250|NCT04410991|184435900|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|0.996||||0.9758|TWO_SIDED|95.0|0.754|1.315||Threshold for significance at 2-sided 0.05 level.|Chi-squared|||Analysis was performed using negative binomial model with number of adjudicated relapses onset between randomization date and EOS date as the response variable, treatment group, Gadolinium (Gd)-enhancing T1 lesions at baseline (presence, absence), expanded disability status scale (EDSS) strata (\<4, \>=4) and geographic region (United States \[US\], non-US) as covariates, and log transformed observation duration as the offset variable.||1.315|0.754|0.9758
92267251|NCT04410991|184435901|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|0.582||||0.0114|TWO_SIDED|95.0|0.38|0.891||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||0.891|0.380|0.0114
92310002|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.03||||0.875|TWO_SIDED|95.0|-0.34|0.29||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||0.29|-0.34|0.875
92310003|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.14||||0.378|TWO_SIDED|95.0|-0.46|0.17||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||0.17|-0.46|0.378
92310004|NCT00261443|184520725|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.12||||0.474|TWO_SIDED|95.0|-0.43|0.2||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||0.20|-0.43|0.474
92310005|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.1||||0.488|TWO_SIDED|95.0|-0.19|0.4||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.40|-0.19|0.488
92310006|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.15||||0.349|TWO_SIDED|95.0|-0.46|0.16||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.16|-0.46|0.349
92189660|NCT05492786|184278220|SUPERIORITY|||||||0.226||||||The p-value reported is 2-tailed and based on heteroskedasticity-robust standard errors.|Regression, Linear|||Null hypothesis: there is no difference in flu shots for patients whose clinicians were shown alerts the factors that contributed to a patient's high risk (High-risk Alert with Risk Factors arm) compared with those whose clinicians were shown the alert with risk level only (High-risk Alert arm). Alternative hypothesis: patients in the High-risk Alert with Risk Factors arm will exhibit improved flu vaccination rates compared with those in the High-risk Alert arm.||||0.226
92189661|NCT00377312|184278288|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to the increase over time for the PTH 2 pmol group.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
92310007|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.07||||0.653|TWO_SIDED|95.0|-0.39|0.25||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.25|-0.39|0.653
92310008|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.24||||0.141|TWO_SIDED|95.0|-0.56|0.08||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.08|-0.56|0.141
92310009|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.22||||0.196|TWO_SIDED|95.0|-0.54|0.11||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.11|-0.54|0.196
92189662|NCT00377312|184278289|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to the increase over time for the PTH 2 pmol group.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
92189663|NCT00377312|184278290|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds to change over time for the PTH 2 and PTH 4 pmol groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
92310010|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.088|TWO_SIDED|95.0|-0.62|0.04||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||0.04|-0.62|0.088
92310011|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.34||||0.047|TWO_SIDED|95.0|-0.68|-0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||-0.01|-0.68|0.047
92310012|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.33||||0.057|TWO_SIDED|95.0|-0.67|0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||0.01|-0.67|0.057
92310013|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.33||||0.063|TWO_SIDED|95.0|-0.68|0.02||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||0.02|-0.68|0.063
92310014|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.3||||0.091|TWO_SIDED|95.0|-0.65|0.05||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||0.05|-0.65|0.091
92310015|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.105|TWO_SIDED|95.0|-0.64|0.06||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||0.06|-0.64|0.105
92310016|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.36||||0.047|TWO_SIDED|95.0|-0.72|-0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-0.01|-0.72|0.047
92189664|NCT00377312|184278291|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.01|TWO_SIDED|||||The reported p-value corresponds to change over time for the PTH 2 and PTH 4 pmol groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||.01
92310017|NCT00261443|184520727|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.33||||0.073|TWO_SIDED|95.0|-0.69|0.03||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||0.03|-0.69|0.073
92310018|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.0||||0.91|TWO_SIDED|95.0|0.92|1.08||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 4||1.08|0.92|0.910
92310019|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.04||||0.3|TWO_SIDED|95.0|0.97|1.11||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 8||1.11|0.97|0.300
92310020|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.01||||0.744|TWO_SIDED|95.0|0.95|1.08||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 12||1.08|0.95|0.744
92310021|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.09||||0.015|TWO_SIDED|95.0|1.02|1.17||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 16||1.17|1.02|0.015
92189665|NCT00377312|184278292|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.05|TWO_SIDED|||||the reported p-values correspond to the decrease compared to baseline in all arms/groups at Days 2-8|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.05
92310022|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.05||||0.264|TWO_SIDED|95.0|0.97|1.14||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 20||1.14|0.97|0.264
92310023|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.05||||0.09|TWO_SIDED|95.0|0.99|1.11||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 24||1.11|0.99|0.090
92310024|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.08||||0.056|TWO_SIDED|95.0|1.0|1.17||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 28||1.17|1.00|0.056
92310025|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|0.99||||0.756|TWO_SIDED|95.0|0.93|1.05||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 32||1.05|0.93|0.756
92310026|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.05||||0.177|TWO_SIDED|95.0|0.98|1.13||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 36||1.13|0.98|0.177
92310027|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.07||||0.021|TWO_SIDED|95.0|1.01|1.13||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 40||1.13|1.01|0.021
92310028|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.06||||0.216|TWO_SIDED|95.0|0.96|1.16||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 44||1.16|0.96|0.216
92310029|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.07||||0.017|TWO_SIDED|95.0|1.01|1.15||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 48||1.15|1.01|0.017
92310030|NCT00261443|184520728|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.06||||0.083|TWO_SIDED|95.0|0.99|1.13||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 52||1.13|0.99|0.083
92310031|NCT00261443|184520729|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.78||||0.132|TWO_SIDED|95.0|0.56|1.08|||Stratified Log Rank Test|Stratified Log Rank Test p-value for equality of survival curves.||||1.08|0.56|0.132
92310032|NCT00261443|184520770|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.640
92310033|NCT00261443|184520770|SUPERIORITY_OR_OTHER_LEGACY|||||||0.423||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.423
92310034|NCT00261443|184520770|SUPERIORITY_OR_OTHER_LEGACY|||||||0.297||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.297
92310035|NCT00261443|184520770|SUPERIORITY_OR_OTHER_LEGACY|||||||0.707||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.707
92310036|NCT00261443|184520771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.656||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.656
92189666|NCT00377312|184278293|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.002|TWO_SIDED|||||the reported p-value corresponds to the increase compared to baseline over time (days 2-8) in the PTH 2 pmol group|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||.002
92189667|NCT00377312|184278295|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.61|TWO_SIDED|||||The reported p-value corresponds to change over time for the PTH 2 and PTH 4 pmol groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||.61
92189668|NCT00377312|184278296|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.008|TWO_SIDED|||||The reported p-value corresponds to the % increase compared to baseline in all Arms/groups on Days 2-8|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.008
92189669|NCT00377312|184278296|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds the the % change from baseline at follow-up in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
92310037|NCT00261443|184520771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.045||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.045
92310038|NCT00261443|184520771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.532||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.532
92310039|NCT00261443|184520771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.578||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.578
92310040|NCT00261443|184520772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.619||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.619
92310041|NCT00261443|184520772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.868||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.868
92310042|NCT00261443|184520772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.284||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.284
92310043|NCT00261443|184520772|SUPERIORITY_OR_OTHER_LEGACY|||||||0.481||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.481
92310044|NCT00261443|184520773|SUPERIORITY_OR_OTHER_LEGACY|||||||0.184||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.184
92310045|NCT00261443|184520773|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.073
92310046|NCT00261443|184520773|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.020
92310047|NCT00261443|184520773|SUPERIORITY_OR_OTHER_LEGACY|||||||0.206||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.206
92310048|NCT00261443|184520774|SUPERIORITY_OR_OTHER_LEGACY|||||||0.142||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.142
92310049|NCT00261443|184520774|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.110
92310050|NCT00261443|184520774|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.022
92310051|NCT00261443|184520774|SUPERIORITY_OR_OTHER_LEGACY|||||||0.542||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.542
92310052|NCT00261443|184520775|SUPERIORITY_OR_OTHER_LEGACY|||||||0.916||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.916
92310053|NCT00261443|184520775|SUPERIORITY_OR_OTHER_LEGACY|||||||0.707||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.707
92310054|NCT00261443|184520775|SUPERIORITY_OR_OTHER_LEGACY|||||||0.665||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.665
92310055|NCT00261443|184520775|SUPERIORITY_OR_OTHER_LEGACY|||||||0.757||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.757
92310056|NCT00261443|184520776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.871||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.871
92310057|NCT00261443|184520776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.362||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.362
92310058|NCT00261443|184520776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.295
92310059|NCT00261443|184520776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.519||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.519
92310060|NCT00261443|184520777|SUPERIORITY_OR_OTHER_LEGACY|||||||0.935||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.935
92310061|NCT00261443|184520777|SUPERIORITY_OR_OTHER_LEGACY|||||||0.174||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.174
92310062|NCT00261443|184520777|SUPERIORITY_OR_OTHER_LEGACY|||||||0.527||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.527
92310063|NCT00261443|184520777|SUPERIORITY_OR_OTHER_LEGACY|||||||0.753||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.753
92310064|NCT00261443|184520778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.850
92310065|NCT00261443|184520778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.709||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.709
92310066|NCT00261443|184520778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.326||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.326
92310067|NCT00261443|184520778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.201||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.201
92189670|NCT00377312|184278297|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to % change (increase) from baseline in all Arms/groups at Days 2-8.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
92310068|NCT00261443|184520779|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47||||0.491|TWO_SIDED|95.0|-0.87|1.81||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 (LOCF) Treatment Difference||1.81|-0.87|0.491
92310069|NCT00261443|184520779|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04||||0.945|TWO_SIDED|95.0|-1.21|1.12||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value Treatment Difference||1.12|-1.21|0.945
92310070|NCT00261443|184520780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.279||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 12 Treatment Comparison||||0.279
92310071|NCT00261443|184520780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.247||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 24 Treatment Comparison||||0.247
92310072|NCT00261443|184520780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 36 Treatment Comparison||||0.329
92310073|NCT00261443|184520780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.928||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 52 Treatment Comparison||||0.928
92310074|NCT00261443|184520780|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.17||||0.584|TWO_SIDED|95.0|0.66|2.09||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 52 (LOCF) Treatment Comparison||2.09|0.66|0.584
92310075|NCT00261443|184520780|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.26||||0.369|TWO_SIDED|95.0|0.76|2.08||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||"At Any Time Treatment Comparison"||2.08|0.76|0.369
92310076|NCT00261443|184520781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.685||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 12 Treatment Comparison||||0.685
92310077|NCT00261443|184520781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.792||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 24 Treatment Comparison||||0.792
92310078|NCT00261443|184520781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.805||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 36 Treatment Comparison||||0.805
92310079|NCT00261443|184520781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.533||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 52 Treatment Comparison||||0.533
92310080|NCT00261443|184520781|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.78||||0.545|TWO_SIDED|95.0|0.35|1.74||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 52 (LOCF) Treatment Comparison||1.74|0.35|0.545
92310081|NCT00261443|184520781|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.01||||0.987|TWO_SIDED|95.0|0.54|1.86||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||"At Any Time Treatment Comparison"||1.86|0.54|0.987
92310082|NCT00261443|184520782|SUPERIORITY_OR_OTHER_LEGACY|||||||0.646||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Treatment Comparison Baseline||||0.646
92310083|NCT00261443|184520782|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Week 12 Treatment Comparison||||0.006
92310084|NCT00261443|184520782|SUPERIORITY_OR_OTHER_LEGACY|||||||0.485||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Week 24 Treatment Comparison||||0.485
92310085|NCT00261443|184520782|SUPERIORITY_OR_OTHER_LEGACY|||||||0.325||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Week 36 Treatment Comparison||||0.325
92310086|NCT00261443|184520782|SUPERIORITY_OR_OTHER_LEGACY|||||||0.374||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Week 52 Treatment Comparison||||0.374
92310087|NCT00261443|184520782|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Week 52 (LOCF) Treatment Comparison||||0.064
92310088|NCT00261443|184520782|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Highest Value Treatment Comparison||||0.310
92310089|NCT00261443|184520782|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Lowest Value Treatment Comparison||||0.046
92310090|NCT00261443|184520784|SUPERIORITY_OR_OTHER_LEGACY|||||||0.331||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline ALP||||0.331
92310091|NCT00261443|184520784|SUPERIORITY_OR_OTHER_LEGACY|||||||0.353||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in ALP at Week 52 (LOCF)||||0.353
92189671|NCT00377312|184278297|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds the the % change from baseline at follow-up in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
92310092|NCT00261443|184520784|SUPERIORITY_OR_OTHER_LEGACY|||||||0.298||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison ALP Highest Change Value During Phase 3||||0.298
92189672|NCT00377312|184278298|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||the reported p-value corresponds to % decrease compared to baseline at Days 2-8 in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
92189673|NCT00377312|184278298|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.01|TWO_SIDED|||||the reported p-value corresponds to % change from baseline at the follow-up visit in all Arms/groups|Mixed Models Analysis|the reported p-value corresponds to % change from baseline at the follow-up visit in all Arms/groups||||||.01
92189674|NCT00377312|184278299|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||the reported p-value corresponds to % change compared to baseline at Days 2-8 in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>.05
92310093|NCT00261443|184520785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline ALT||||0.111
92310094|NCT00261443|184520785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.948||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change in ALT at Week 52 (LOCF)||||0.948
92310095|NCT00261443|184520785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.559||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison ALT Highest Change Value During Phase 3||||0.559
92310096|NCT00261443|184520786|SUPERIORITY_OR_OTHER_LEGACY|||||||0.077||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline AST||||0.077
92310097|NCT00261443|184520786|SUPERIORITY_OR_OTHER_LEGACY|||||||0.255||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change in AST at Week 52 (LOCF)||||0.255
92310098|NCT00261443|184520786|SUPERIORITY_OR_OTHER_LEGACY|||||||0.918||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison AST Highest Change Value During Phase 3||||0.918
92310099|NCT00261443|184520787|SUPERIORITY_OR_OTHER_LEGACY|||||||0.118||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline BUN||||0.118
92310100|NCT00261443|184520787|SUPERIORITY_OR_OTHER_LEGACY|||||||0.532||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in BUN at Week 52 (LOCF)||||0.532
92310101|NCT00261443|184520787|SUPERIORITY_OR_OTHER_LEGACY|||||||0.169||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison BUN Highest Value of Change During Phase 3||||0.169
92310102|NCT00261443|184520788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.878||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Total Cholesterol (fasting)||||0.878
92310103|NCT00261443|184520788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.544||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Total Cholesterol (fasting) at Week 52 (LOCF)||||0.544
92310104|NCT00261443|184520788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.658||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Total Cholesterol (fasting) in Phase 3||||0.658
92310105|NCT00261443|184520789|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Creatine Kinase||||0.043
92310106|NCT00261443|184520789|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from baseline in Creatine Kinase at Week 52 (LOCF)||||0.019
92310107|NCT00261443|184520789|SUPERIORITY_OR_OTHER_LEGACY|||||||0.176||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Creatine Kinase During Phase 3||||0.176
92310108|NCT00261443|184520790|SUPERIORITY_OR_OTHER_LEGACY|||||||0.105||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Creatinine||||0.105
92310109|NCT00261443|184520790|SUPERIORITY_OR_OTHER_LEGACY|||||||0.634||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Creatinine at Week 52 (LOCF)||||0.634
92310110|NCT00261443|184520790|SUPERIORITY_OR_OTHER_LEGACY|||||||0.958||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Creatinine During Phase 3||||0.958
92189675|NCT00382408|184278303|SUPERIORITY_OR_OTHER||vaccine efficacy (VE)|99.31|||||TWO_SIDED|95.0|96.02|99.88||||||The vaccine efficacy (VE) was defined as: VE = 1 - R, where R = P(vaccine)/P(placebo) was the relative risk of ARD attack in subjects who received vaccines compared to placebos (Blackwelder 1993). The 95% confidence interval of the VE was obtained by inverting the Chi Square method proposed by Koopman for the ratio of two binomial proportions (Koopman 1984). The goal of the analysis of efficacy was to demonstrate a VE of at least 80% with a lower 95% confidence bound at least 60%.||99.88|96.02|
92310111|NCT00261443|184520791|SUPERIORITY_OR_OTHER_LEGACY|||||||0.507||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Eosinophils (relative)||||0.507
92189676|NCT00382408|184278308|SUPERIORITY_OR_OTHER||vaccine efficacy (VE)|98.46|||||TWO_SIDED|95.0|95.39|99.49||||||The vaccine efficacy (VE) was defined as: VE = 1 - R, where R = P(vaccine)/P(placebo) was the relative risk of ARD attack in subjects who received vaccines compared to placebos (Blackwelder 1993). The 95% confidence interval of the VE was obtained by inverting the Chi Square method proposed by Koopman for the ratio of two binomial proportions (Koopman 1984). The goal of the analysis of efficacy was to demonstrate a VE of at least 80% with a lower 95% confidence bound at least 60%.||99.49|95.39|
92189677|NCT00609245|184278332|SUPERIORITY_OR_OTHER|||||||0.016|||||||ANOVA|||||||0.016
92189678|NCT02236598|184278333|SUPERIORITY|||||||0.5582|||||||ANCOVA|||||||0.5582
92310112|NCT00261443|184520791|SUPERIORITY_OR_OTHER_LEGACY|||||||0.834||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Eosinophils (relative) at Week 52 (LOCF)||||0.834
92310113|NCT00261443|184520791|SUPERIORITY_OR_OTHER_LEGACY|||||||0.511||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Eosinophils (relative) During Phase 3||||0.511
92310114|NCT00261443|184520792|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Glucose (fasting)||||0.741
92310115|NCT00261443|184520792|SUPERIORITY_OR_OTHER_LEGACY|||||||0.962||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Glucose (fasting) at Week 52 (LOCF)||||0.962
92310116|NCT00261443|184520792|SUPERIORITY_OR_OTHER_LEGACY|||||||0.592||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Change Value in Glucose (fasting) During Phase 3||||0.592
92310117|NCT00261443|184520793|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Hemoglobin||||0.080
92310118|NCT00261443|184520793|SUPERIORITY_OR_OTHER_LEGACY|||||||0.868||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Hemoglobin at Week 52 (LOCF)||||0.868
92310119|NCT00261443|184520793|SUPERIORITY_OR_OTHER_LEGACY|||||||0.299||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Change Value in Hemoglobin During Phase 3||||0.299
92189679|NCT02236598|184278334|SUPERIORITY|Change in Fasting Glucose||||||0.0963|||||||ANCOVA|||||||0.0963
92189680|NCT02236598|184278334|SUPERIORITY|Change in 1-hour Glucose||||||0.6671|||||||ANCOVA|||||||0.6671
92189681|NCT02236598|184278334|SUPERIORITY|Change in 2-hour Glucose||||||0.7913|||||||ANCOVA|||||||0.7913
92189682|NCT02236598|184278335|SUPERIORITY|||||||0.5294|||||||ANCOVA|||||||0.5294
92310120|NCT00261443|184520794|SUPERIORITY_OR_OTHER_LEGACY|||||||0.187||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Hematocrit||||0.187
92310121|NCT00261443|184520794|SUPERIORITY_OR_OTHER_LEGACY|||||||0.377||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Hematocrit During Week 52 (LOCF)||||0.377
92310122|NCT00261443|184520794|SUPERIORITY_OR_OTHER_LEGACY|||||||0.494||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Value of Change in Hematocrit During Phase 3||||0.494
92310123|NCT00261443|184520795|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline HDL Cholesterol (fasting)||||0.180
92310124|NCT00261443|184520795|SUPERIORITY_OR_OTHER_LEGACY|||||||0.95||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in HDL Cholesterol (fasting) at Week 52 (LOCF)||||0.950
92310125|NCT00261443|184520795|SUPERIORITY_OR_OTHER_LEGACY|||||||0.342||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Value of Change in HDL Cholesterol (fasting) During Phase 3||||0.342
92310126|NCT00261443|184520796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.349||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline HOMA2-Percent Beta||||0.349
92310127|NCT00261443|184520796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.624||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in HOMA2-Percent Beta at Week 52 (LOCF)||||0.624
92310128|NCT00261443|184520796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value in HOMA2-Percent Beta During Phase 3||||0.329
92310129|NCT00261443|184520797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline HOMA2-IR||||0.550
92310130|NCT00261443|184520797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.554||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in HOMA2-IR at Week 52 (LOCF)||||0.554
92310131|NCT00261443|184520797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.87||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in HOMA2-IR, Phase 3 Safety Sample||||0.870
92310132|NCT00261443|184520798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Lactate Dehydrogenase||||0.004
92310133|NCT00261443|184520798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Lactate Dehydrogenase||||0.034
92310134|NCT00261443|184520798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.091||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Lactate Dehydrogenase During Phase 3||||0.091
92189683|NCT02236598|184278336|SUPERIORITY|||||||0.1604|||||||ANCOVA|||||||0.1604
92189684|NCT01614899|184278392|SUPERIORITY||LS Mean difference|-4.8||||0.05|TWO_SIDED|95.0|-9.52|0.0|||Mixed Model for Repeated Measures|||||0.00|-9.52|0.050
92189685|NCT01614899|184278392|SUPERIORITY||LS Mean difference|-4.2||||0.08|TWO_SIDED|95.0|-8.91|0.5|||Mixed Model for Repeated Measures|||||0.50|-8.91|0.080
92189686|NCT01614899|184278393|SUPERIORITY||LS Mean difference|-0.08||||0.594|TWO_SIDED|95.0|-0.354|0.203|||Mixed Model for Repeated Measures|||||0.203|-0.354|0.594
92189687|NCT01614899|184278393|SUPERIORITY||LS Mean difference|-0.18||||0.199|TWO_SIDED|95.0|-0.453|0.095|||Mixed Model for Repeated Measures|||||0.095|-0.453|0.199
92189688|NCT01614899|184278394|SUPERIORITY||LS Mean difference|-1.1||||0.143|TWO_SIDED|95.0|-2.6|0.38|||Mixed Model for Repeated Measures|||||0.38|-2.60|0.143
92189689|NCT01614899|184278394|SUPERIORITY||LS Mean difference|-1.9||||0.01|TWO_SIDED|95.0|-3.4|-0.46|||Mixed Model for Repeated Measures|||||-0.46|-3.40|0.010
92189690|NCT01614899|184278395|SUPERIORITY||LS Mean difference|-1.0||||0.116|TWO_SIDED|95.0|-2.27|0.25|||Mixed Model for Repeated Measures|||||0.25|-2.27|0.116
92189691|NCT01614899|184278395|SUPERIORITY||LS Mean difference|-0.5||||0.388|TWO_SIDED|95.0|-1.8|0.7|||Mixed Model for Repeated Measures|||||0.70|-1.80|0.388
92189692|NCT01614899|184278396|SUPERIORITY||LS Mean difference|-2.5||||0.036|TWO_SIDED|95.0|-4.87|-0.17|||Mixed Model for Repeated Measures|||||-0.17|-4.87|0.036
92189693|NCT01614899|184278396|SUPERIORITY||LS Mean difference|-1.6||||0.174|TWO_SIDED|95.0|-3.93|0.72|||Mixed Model for Repeated Measures|||||0.72|-3.93|0.174
92189694|NCT04474691|184278424|SUPERIORITY||Mean Difference (Final Values)|21.1||||0.67|TWO_SIDED||||||t-test, 1 sided|df = 7|Traditional treatment condition - visual-acoustic biofeedback treatment condition. Because more accurate productions have lower acoustic values, a positive difference would indicate an advantage for biofeedback.|||||.67
92189695|NCT00980954|184278471|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.56|TWO_SIDED|90.0|0.65|1.68||One-sided significance level = 0.05.|Log Rank||Reference level = Arm I|Sample size calculations are based on the primary hypothesis that 4 additional cycles of carboplatin and paclitaxel following concurrent radiation and weekly cisplatin will increase 4-year DFS from 80% to 90% for patients with cervical carcinoma with positive nodes and/or positive margins after a radical hysterectomy. One-sided alpha=0.05, statistical power=80%, 5.5 years of accrual with 4 years of follow-up, 2 interim significance tests. 50 DFS events are required to trigger this analysis.||1.68|0.65|0.56
92189696|NCT00980954|184278472|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.4|TWO_SIDED|90.0|0.49|1.69||One-sided significance level = 0.05.|Log Rank|||The 4-year overall survival rate for the control arm is expected to be approximately 85%. The overall survival will be compared between the two arms. The final targeted sample size of 235 patients with the longer accrual time, will provide 64% and 78% power to detect an increase in overall survival to 92% and 93% respectively, with a 1- sided alpha of 0.05.||1.69|0.49|0.40
92310135|NCT00261443|184520799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.808||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline LDL Cholesterol (fasting)||||0.808
92310136|NCT00261443|184520799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.507||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.507
92310137|NCT00261443|184520799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.948||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Change Value in LDL Cholesterol (fasting)||||0.948
92310138|NCT00261443|184520800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.967||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Neutrophils (relative)||||0.967
92310139|NCT00261443|184520800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.486||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison in change from Baseline in Neutrophils (relative) at Week 52 (LOCF)||||0.486
92310140|NCT00261443|184520800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.323||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Neutrophils (relative), Phase 3 Safety Sample||||0.323
92310141|NCT00261443|184520801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.663||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline in Platelet Count||||0.663
92310142|NCT00261443|184520801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.322||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.322
92310143|NCT00261443|184520801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.358||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Platelet Count, Phase 3 Safety Sample||||0.358
92310144|NCT00261443|184520801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.541||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Value of Change in Platelet Count, Phase 3 Safety Sample||||0.541
92310145|NCT00261443|184520802|SUPERIORITY_OR_OTHER_LEGACY|||||||0.412||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Prolactin||||0.412
92310146|NCT00261443|184520802|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline at Week 52 (LOCF)||||<0.001
92310147|NCT00261443|184520802|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Prolactin, Phase 3 Safety Sample||||0.004
92310148|NCT00261443|184520803|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Total Bilirubin||||0.630
92310149|NCT00261443|184520803|SUPERIORITY_OR_OTHER_LEGACY|||||||0.675||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.675
92189697|NCT04736472|184278492|SUPERIORITY|||||||0.224|||||||Fisher Exact|||Severe TRAEs||||.224
92189698|NCT04736472|184278492|SUPERIORITY|||||||0.025|||||||Fisher Exact|||Severe TRAEs||||.025
92310150|NCT00261443|184520803|SUPERIORITY_OR_OTHER_LEGACY|||||||0.592||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Total Bilirubin, Phase 3 Safety Sample||||0.592
92310151|NCT00261443|184520804|SUPERIORITY_OR_OTHER_LEGACY|||||||0.273||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Triglycerides (fasting)||||0.273
92310152|NCT00261443|184520804|SUPERIORITY_OR_OTHER_LEGACY|||||||0.489||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.489
92310153|NCT00261443|184520804|SUPERIORITY_OR_OTHER_LEGACY|||||||0.415||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Triglycerides (fasting), Phase 3 Safety Sample||||0.415
92310154|NCT00261443|184520805|SUPERIORITY_OR_OTHER_LEGACY|||||||0.189||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Uric Acid||||0.189
92310155|NCT00261443|184520805|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.350
92189699|NCT02268526|184278493|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.891|||||TWO_SIDED|90.0|0.606|1.305||||||||1.305|0.606|
92189700|NCT02268526|184278493|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.941|||||TWO_SIDED|90.0|0.639|1.377||||||||1.377|0.639|
92189701|NCT02332824|184278505|SUPERIORITY_OR_OTHER||LS Mean difference|-0.325|||<|0.0001|TWO_SIDED|95.0|-0.4845|-0.1649||In the primary analysis, each TAK-272 group will be compared with placebo group based on a step-down testing procedure, which will be employed for multiple comparison adjustment.|ANCOVA||Estimated Value was for LS mean differences (TAK-272 5 mg-placebo) in log-transformed UACR changes from baseline to the end of treatment period.|||-0.1649|-0.4845|<0.0001
92189702|NCT02332824|184278505|SUPERIORITY_OR_OTHER||LS Mean difference|-0.469|||<|0.0001|TWO_SIDED|95.0|-0.6251|-0.3132||In the primary analysis, each TAK-272 group will be compared with placebo group based on a step-down testing procedure, which will be employed for multiple comparison adjustment.|ANCOVA||Estimated Value was for LS mean differences (TAK-272 20 mg-placebo) in log-transformed UACR changes from baseline to the end of treatment period.|||-0.3132|-0.6251|<0.0001
92310156|NCT00261443|184520805|SUPERIORITY_OR_OTHER_LEGACY|||||||0.799||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Uric Acid, Phase 3 Safety Sample||||0.799
92310157|NCT00261443|184520806|SUPERIORITY_OR_OTHER_LEGACY|||||||0.124||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Leukocytes||||0.124
92310158|NCT00261443|184520806|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.295
92310159|NCT00261443|184520806|SUPERIORITY_OR_OTHER_LEGACY|||||||0.735||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Highest Value of Change in Leukocytes, Phase 3||||0.735
92310160|NCT00261443|184520806|SUPERIORITY_OR_OTHER_LEGACY|||||||0.505||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Lowest Value of Change in Leukocytes, Phase 3||||0.505
92310161|NCT00261443|184520808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.213||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline QTc Bazett||||0.213
92310162|NCT00261443|184520808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.708||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in QTc Bazett at Week 52 (LOCF)||||0.708
92310163|NCT00261443|184520808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.107||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in QTc Bazett, Phase 3||||0.107
92310164|NCT00261443|184520809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.205||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline QTc (0.33)||||0.205
92310165|NCT00261443|184520809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.669||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in QTc (0.33) at Week 52 (LOCF)||||0.669
92310166|NCT00261443|184520809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.072||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in QTc (0.33), Phase 3||||0.072
92310167|NCT00261443|184520810|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline PR||||0.012
92310168|NCT00261443|184520810|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in PR at Week 52 (LOCF)||||0.027
92310169|NCT00261443|184520810|SUPERIORITY_OR_OTHER_LEGACY|||||||0.128||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in PR, Phase 3||||0.128
92310170|NCT00261443|184520811|SUPERIORITY_OR_OTHER_LEGACY|||||||0.571||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline RR||||0.571
92310171|NCT00261443|184520811|SUPERIORITY_OR_OTHER_LEGACY|||||||0.353||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in RR at Week 52 (LOCF)||||0.353
92310172|NCT00261443|184520811|SUPERIORITY_OR_OTHER_LEGACY|||||||0.204||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in RR, Phase 3 Safety Sample||||0.204
92310173|NCT00261443|184520811|SUPERIORITY_OR_OTHER_LEGACY|||||||0.435||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Value of Change in Prolactin, Phase 3 Safety Sample||||0.435
92310174|NCT00261443|184520812|SUPERIORITY_OR_OTHER_LEGACY|||||||0.826||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline QRS||||0.826
92310175|NCT00261443|184520812|SUPERIORITY_OR_OTHER_LEGACY|||||||0.545||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in QRS at Week 52 (LOCF)||||0.545
92310176|NCT00261443|184520812|SUPERIORITY_OR_OTHER_LEGACY|||||||0.372||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in QRS, Phase 3||||0.372
92310177|NCT00261443|184520813|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.235|TWO_SIDED|95.0|-0.07|0.27||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.27|-0.07|0.235
92310178|NCT00261443|184520813|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36||||0.012|TWO_SIDED|95.0|0.08|0.64||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value in Change Treatment Difference||0.64|0.08|0.012
92310179|NCT00261443|184520814|SUPERIORITY_OR_OTHER_LEGACY|||||||0.587||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Heart Rate||||0.587
92310180|NCT00261443|184520814|SUPERIORITY_OR_OTHER_LEGACY|||||||0.386||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in Heart Rate at Week 52 (LOCF)||||0.386
92310181|NCT00261443|184520814|SUPERIORITY_OR_OTHER_LEGACY|||||||0.405||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Heart Rate, Phase 3||||0.405
92310182|NCT00261443|184520814|SUPERIORITY_OR_OTHER_LEGACY|||||||0.253||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Value of Change in Heart Rate, Phase 3||||0.253
92189703|NCT02332824|184278505|SUPERIORITY_OR_OTHER||LS Mean difference|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.7897|-0.4711||In the primary analysis, each TAK-272 group will be compared with placebo group based on a step-down testing procedure, which will be employed for multiple comparison adjustment.|ANCOVA||Estimated Value was for LS mean differences (TAK-272 40 mg -placebo) in log-transformed UACR changes from baseline to the end of treatment period.|||-0.4711|-0.7897|<0.0001
92189704|NCT02332824|184278505|SUPERIORITY_OR_OTHER||LS Mean difference|-0.65|||<|0.0001|TWO_SIDED|95.0|-0.8083|-0.4908||In the primary analysis, each TAK-272 group will be compared with placebo group based on a step-down testing procedure, which will be employed for multiple comparison adjustment.|ANCOVA||Estimated Value was for LS mean differences (TAK-272 80 mg -placebo) in log-transformed UACR changes from baseline to the end of treatment period.|||-0.4908|-0.8083|<0.0001
92310183|NCT00261443|184520815|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06||||0.514|TWO_SIDED|95.0|-0.12|0.23||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.23|-0.12|0.514
92310184|NCT00261443|184520815|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12||||0.362|TWO_SIDED|95.0|-0.14|0.38||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value of Change Treatment Difference||0.38|-0.14|0.362
92310185|NCT00261443|184520816|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.904|TWO_SIDED|95.0|-0.04|0.04||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.04|-0.04|0.904
92310186|NCT00261443|184520816|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04||||0.222|TWO_SIDED|95.0|-0.03|0.11||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value of Change Treatment Difference||0.11|-0.03|0.222
92310187|NCT00261443|184520817|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.808|TWO_SIDED|95.0|-0.03|0.04||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.04|-0.03|0.808
92310188|NCT00261443|184520817|SUPERIORITY_OR_OTHER_LEGACY|||||||0.771||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value of Change Treatment Difference||||0.771
92310189|NCT00261443|184520818|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01||||0.576|TWO_SIDED|95.0|-0.05|0.03||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.03|-0.05|0.576
92310190|NCT00261443|184520818|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.636|TWO_SIDED|95.0|-0.05|0.08||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value treatment Difference||0.08|-0.05|0.636
92310191|NCT00261443|184520819|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01||||0.774|TWO_SIDED|95.0|-0.06|0.08||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.08|-0.06|0.774
92310192|NCT00261443|184520819|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.04||||0.444|TWO_SIDED|95.0|-0.06|0.14||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value of Change, Treatment Difference||0.14|-0.06|0.444
92310193|NCT02755649|184520833|SUPERIORITY||Difference in Percentages|29.5|||<|0.0001|TWO_SIDED|95.0|16.87|42.05||Threshold for significance at 0.05 level. P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by disease severity (IGA 3 vs IGA 4) and prior Cyclosporine A (CSA) use (Yes, No).|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across 2 dose regimens. Difference is Dupilumab minus placebo. Confidence Interval (CI) calculated using normal approximation. Participants with missing values at Week 16 were categorized as non-responders at Week 16. Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated.||42.05|16.87|< 0.0001
92310194|NCT02755649|184520833|SUPERIORITY||difference in percentages|33.0|||<|0.0001|TWO_SIDED|95.0|20.41|45.57||Threshold for significance at 0.05 level. P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by disease severity (IGA 3 vs IGA 4) and prior Cyclosporine A (CSA) use (Yes, No).|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across 2 dose regimens. Difference is Dupilumab minus placebo. Confidence Interval (CI) calculated using normal approximation. Participants with missing values at Week 16 were categorized as non-responders at Week 16. Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated.||45.57|20.41|< 0.0001
92310195|NCT02755649|184520834|SUPERIORITY||Least square (LS) mean difference|-31.6|||<|0.0001|TWO_SIDED|95.0|-38.85|-24.3||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach to control Type-1 error rate at 0.05 across 2 dose regimens.CI w/p-value based on treatment difference(dupilumab vs placebo) of LS mean percent change using multiple imputation (MI) w/ANCOVA model w/baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use\[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI||-24.3|-38.85|< 0.0001
92310196|NCT02755649|184520834|SUPERIORITY||LS Mean Difference|-33.1|||<|0.0001|TWO_SIDED|95.0|-40.42|-25.88||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors. Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue \& then imputed by MI.||-25.88|-40.42|< 0.0001
92310197|NCT02755649|184520835|SUPERIORITY||LS mean difference|-26.2|||<|0.0001|TWO_SIDED|95.0|-35.07|-17.41||Threshold for significance at 0.05 level.|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI||-17.41|-35.07|< 0.0001
92189705|NCT02332824|184278505|SUPERIORITY_OR_OTHER||LS Mean difference|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.6874|-0.3719||In the primary analysis, each TAK-272 group will be compared with placebo group based on a step-down testing procedure, which will be employed for multiple comparison adjustment.|ANCOVA||Estimated Value was for LS mean differences (Candesartan cilexetil 8 mg -placebo group) in log-transformed UACR changes from baseline to the end of treatment period.|||-0.3719|-0.6874|<0.0001
92189706|NCT01052714|184278515|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92189707|NCT01052714|184278516|SUPERIORITY|||||||0.718|||||||Mixed Models Analysis|||||||0.718
92189708|NCT01052714|184278517|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92189709|NCT01052714|184278518|SUPERIORITY|||||||0.676|||||||Mixed Models Analysis|||||||0.676
92189710|NCT01052714|184278519|SUPERIORITY|||||||0.141|||||||Mixed Models Analysis|||||||0.141
92189711|NCT01052714|184278520|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|||||||0.92
92189712|NCT01052714|184278521|SUPERIORITY|||||||0.322|||||||Mixed Models Analysis|||||||0.322
92189713|NCT01052714|184278522|SUPERIORITY|||||||0.652|||||||Mixed Models Analysis|||||||0.652
92189714|NCT01052714|184278523|SUPERIORITY|||||||0.663|||||||Mixed Models Analysis|||||||0.663
92189715|NCT01052714|184278524|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||0.9
92310198|NCT02755649|184520835|SUPERIORITY||LS Mean Difference]|-28.5|||<|0.0001|TWO_SIDED|95.0|-37.34|-19.68||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-19.68|-37.34|< 0.0001
92310199|NCT02755649|184520836|SUPERIORITY||LS Mean Difference|-28.7|||<|0.0001|TWO_SIDED|95.0|-35.56|-21.93||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-21.93|-35.56|< 0.0001
92310200|NCT02755649|184520836|SUPERIORITY||LS Mean Difference|-32.9|||<|0.0001|TWO_SIDED|95.0|-39.7|-26.06||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-26.06|-39.7|< 0.0001
92310201|NCT02755649|184520837|SUPERIORITY||difference in percentages|26.1|||<|0.0001|TWO_SIDED|95.0|13.89|38.39||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||38.39|13.89|< 0.0001
92310202|NCT02755649|184520837|SUPERIORITY||difference in percentages|31.5|||<|0.0001|TWO_SIDED|95.0|19.08|43.83||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||43.83|19.08|< 0.0001
92310203|NCT02755649|184520838|SUPERIORITY||LS Mean Difference|-17.95|||<|0.0001|TWO_SIDED|95.0|-22.706|-13.197||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value is based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment,randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors. Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI||-13.197|-22.706|< 0.0001
92310204|NCT02755649|184520838|SUPERIORITY||LS Mean Difference|-19.66|||<|0.0001|TWO_SIDED|95.0|-24.431|-14.895||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-14.895|-24.431|< 0.0001
92310205|NCT02755649|184520839|SUPERIORITY||Difference in Percentages|25.2|||<|0.0001|TWO_SIDED|95.0|13.99|36.41||Threshold for significance at 0.05 level|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||36.41|13.99|< 0.0001
92310206|NCT02755649|184520839|SUPERIORITY||Difference in Percentages|26.3|||<|0.0001|TWO_SIDED|95.0|14.95|37.65||Threshold for significance at 0.05 level|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||37.65|14.95|< 0.0001
92189716|NCT01052714|184278525|SUPERIORITY|||||||0.415|||||||Mixed Models Analysis|||||||0.415
92189717|NCT01052714|184278526|SUPERIORITY|||||||0.687|||||||Mixed Models Analysis|||||||0.687
92189718|NCT01052714|184278527|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|||||||0.22
92189719|NCT01052714|184278528|SUPERIORITY|||||||0.059|||||||Mixed Models Analysis|||||||0.059
92189720|NCT01052714|184278529|SUPERIORITY|||||||0.79|||||||Mixed Models Analysis|||||||0.79
92189721|NCT01052714|184278530|SUPERIORITY|||||||0.146|||||||Mixed Models Analysis|||||||0.146
92189722|NCT01052714|184278531|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92189723|NCT01052714|184278532|SUPERIORITY|||||||0.763|||||||Mixed Models Analysis|||||||0.763
92310207|NCT02755649|184520840|SUPERIORITY||LS Mean Difference|-4.3|||<|0.0001|TWO_SIDED|95.0|-5.6|-3.04||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-3.04|-5.6|< 0.0001
92310208|NCT02755649|184520840|SUPERIORITY||LS Mean Difference|-5.0|||<|0.0001|TWO_SIDED|95.0|-6.31|-3.74||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\])as fixed factors. Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-3.74|-6.31|< 0.0001
92310209|NCT02755649|184520841|SUPERIORITY||LS Mean Difference|-7.1|||<|0.0001|TWO_SIDED|95.0|-8.78|-5.47||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\])as fixed factors. Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-5.47|-8.78|< 0.0001
92310210|NCT02755649|184520841|SUPERIORITY||LS Mean Difference|-7.6|||<|0.0001|TWO_SIDED|95.0|-9.29|-5.97||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\])as fixed factors. Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-5.97|-9.29|< 0.0001
92310211|NCT02755649|184520842|SUPERIORITY||Difference in Percentages|30.1|||=|0.0002|TWO_SIDED|95.0|14.63|45.64||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||45.64|14.63|= 0.0002
92310212|NCT02755649|184520842|SUPERIORITY||Difference in Percentages|31.6|||=|0.0001|TWO_SIDED|95.0|16.11|47.05||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||47.05|16.11|= 0.0001
92310213|NCT02755649|184520843|SUPERIORITY||LS Mean Difference|-7.6|||=|0.0003|TWO_SIDED|95.0|-11.64|-3.51||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-3.51|-11.64|= 0.0003
92310214|NCT02755649|184520843|SUPERIORITY||LS Mean Difference|-10.1|||<|0.0001|TWO_SIDED|95.0|-14.15|-5.95||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-5.95|-14.15|< 0.0001
92310215|NCT02755649|184520844|SUPERIORITY||LS Mean Difference|-2.9|||=|0.0001|TWO_SIDED|95.0|-4.41|-1.43||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-1.43|-4.41|= 0.0001
92310216|NCT02755649|184520844|SUPERIORITY||LS Mean Difference|-3.9|||<|0.0001|TWO_SIDED|95.0|-5.38|-2.4||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-2.4|-5.38|< 0.0001
92310217|NCT02755649|184520845|SUPERIORITY||Difference in Percentages|29.5|||<|0.0001|TWO_SIDED|95.0|17.1|41.96||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||41.96|17.1|< 0.0001
92310218|NCT02755649|184520845|SUPERIORITY||Difference in Percentages|40.4|||<|0.0001|TWO_SIDED|95.0|28.24|52.61||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||52.61|28.24|< 0.0001
92310219|NCT02755649|184520846|SUPERIORITY||LS Mean Difference|-24.3|||<|0.0001|TWO_SIDED|95.0|-31.63|-16.88||Threshold for significance at 0.05 level.|ANCOVA|||A hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab group vs. placebo)of LS mean percent change using MI with ANCOVA with baseline measurement as covariate \& treatment,randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use\[Yes,No\])as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-16.88|-31.63|< 0.0001
92310220|NCT02755649|184520846|SUPERIORITY||LS Mean Difference|-26.2|||<|0.0001|TWO_SIDED|95.0|-33.49|-18.86||Threshold for significance at 0.05 level.|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata (disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-18.86|-33.49|< 0.0001
92310221|NCT02755649|184520847|SUPERIORITY||LS Mean Difference|-9.7|||=|0.0017|TWO_SIDED|95.0|-15.8|-3.66||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens. CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-3.66|-15.8|= 0.0017
92310222|NCT02755649|184520847|SUPERIORITY||LS Mean Difference|-7.2|||=|0.0214|TWO_SIDED|95.0|-13.31|-1.06||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-1.06|-13.31|= 0.0214
92310223|NCT02755649|184520848|SUPERIORITY||Difference in Percentages|-4.7|||=|0.1486|TWO_SIDED|95.0|-10.97|1.58|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||1.58|-10.97|= 0.1486
92310224|NCT02755649|184520848|SUPERIORITY||Difference in Percentages|-6.5|||=|0.0319|TWO_SIDED|95.0|-12.27|-0.65|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||-0.65|-12.27|= 0.0319
92310225|NCT02755649|184520849|SUPERIORITY||difference in percentages|0.0|||=|0.9829|TWO_SIDED|95.0|-3.6|3.53|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||3.53|-3.6|= 0.9829
92310226|NCT02755649|184520849|SUPERIORITY||difference in percentages|0.0|||=|1|TWO_SIDED|95.0|-3.6|3.63|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||3.63|-3.6|= 1
92310227|NCT02755649|184520850|SUPERIORITY||difference in percentages|0.9|||=|0.5619|TWO_SIDED|95.0|-2.19|3.97|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||3.97|-2.19|= 0.5619
92310228|NCT02755649|184520850|SUPERIORITY||difference in percentages|-0.9|||=|0.3241|TWO_SIDED|95.0|-2.73|0.88|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||0.88|-2.73|= 0.3241
92189724|NCT00417989|184278539|NON_INFERIORITY_OR_EQUIVALENCE|Superiority test with margin of 0.35|Mean Difference (Final Values)|0.35|STANDARD_DEVIATION|1.2||0.05|TWO_SIDED|95.0|0.24|0.46||Confidence Interval 95%|ANCOVA|ANVOCA is adjusted by study group, gender, pooled site, continuous age, duration of diabetes, BMI, and Baseline glycated hemoglobin level (A1C)||Null - There is no treatment group difference in A1c change from baseline to Week 52. Calculated that the enrollment of 495 patients would provide a power of 90% to detect an absolute difference of 0.35 percentage points in the primary outcome, assuming a SD of 1.2%.||0.46|0.24|0.05
92189725|NCT00417989|184278541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|STANDARD_DEVIATION|2.0||0.84|TWO_SIDED|95.0|0.64|2.41|||Mantel Haenszel|||||2.41|0.64|0.84
92189726|NCT00417989|184278542|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation based on this endpoint. Results will be calculated on testing for statistical difference between arms.||||||0.05||95.0|||||ANCOVA|ANVOCA is adjusted by study group, gender, pooled site, continuous age, duration of diabetes, BMI, and Baseline AUC||||||0.05
92189727|NCT00417989|184278543|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation based on this endpoint. Results will be calculated on testing for statistical difference between arms.||||||0.05||95.0|||||ANCOVA|ANVOCA is adjusted by study group, gender, pooled site, continuous age, duration of diabetes, BMI, and Baseline AUC||||||0.05
92189728|NCT00417989|184278544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5|STANDARD_DEVIATION|16.0|<|0.001||95.0|-9.76|-3.273|||ANCOVA|||||-3.273|-9.760|< 0.001
92189729|NCT00417989|184278546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|7.75|||||||||Mean difference|||||||
92189730|NCT00417989|184278547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.6|STANDARD_DEVIATION|25.53|||TWO_SIDED||||||Mean Difference|||||||
92189731|NCT01184755|184278548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.561256|STANDARD_ERROR_OF_MEAN|0.216403||0.01|TWO_SIDED|95.0|-0.987999|-0.134513||This is an intention-to-treat analysis|Mixed effects regression analysis|||This is the change in Systolic BP at 8 weeks||-.134513|-.987999|.01
92189732|NCT01184755|184278548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.391195|STANDARD_ERROR_OF_MEAN|0.140034||0.006|TWO_SIDED|95.0|-0.667312|-0.115079|||mixed effects regression analysis|||This is the analysis of change in diastolic BP from Ambulatory BP monitoring.||-.115079|-.667312|.006
92267252|NCT04410991|184435902|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|0.641||||0.0181|TWO_SIDED|95.0|0.444|0.925||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||0.925|0.444|0.0181
92267253|NCT04410991|184435903|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|1.165||||0.2362|TWO_SIDED|95.0|0.905|1.502|||Chi-squared|||Analysis was performed using negative binomial model with the number of new and/or enlarging T2-hyperintense lesions between randomization date and EOS date as the response variable, treatment group, baseline T2-hyperintense lesion count, EDSS strata (\<4, \>=4) and geographic region (US, non-US) as covariates, and log transformed observation duration as the offset variable.||1.502|0.905|0.2362
92267254|NCT04410991|184435904|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|2.118|||<|0.0001|TWO_SIDED|95.0|1.502|2.987|||Chi-squared|||Analysis was performed using negative binomial model with the number of new Gd-enhancing T1-hyperintense lesions between randomization date and EOS date as the response variable, treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4) and geographic region (US, non-US) as covariates, and log transformed number of MRI scans as the offset variable.||2.987|1.502|<0.0001
92267255|NCT04410991|184435905|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Least square (LS) mean difference|-0.053||||0.31|TWO_SIDED|95.0|-0.156|0.05|||MMRM|||Covariates in the mixed-effect model with repeated measures (MMRM) were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, baseline value, and baseline value-by-visit interaction.||0.050|-0.156|0.3100
92267256|NCT04410991|184435906|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS mean difference|-0.612||||0.5235|TWO_SIDED|95.0|-2.493|1.269|||MMRM|||Covariates in the MMRM were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, baseline value, and baseline value-by-visit interaction.||1.269|-2.493|0.5235
92267257|NCT04410991|184435907|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|1.652||||0.0079|TWO_SIDED|95.0|1.145|2.383||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||2.383|1.145|0.0079
92267258|NCT04410991|184435908|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS mean difference|0.044||||0.4266|TWO_SIDED|95.0|-0.065|0.153|||MMRM|||Covariates in the MMRM were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, cube root transformed Month 6 brain volume, and cube root transformed Month 6 brain volume-by-visit interaction.||0.153|-0.065|0.4266
92267259|NCT01054443|184435919|OTHER||Cochran-Armitage Trend Test Statistic|0.173||||0.431|||||||Cochran-Armitage Trend Test|||The primary efficacy evaluation was to test if there was a linear relationship existing such that the higher the dose level, the larger the percentage of responders. The Cochran-Armitage trend test was employed by assigning the score 0, 0.5, 0.75, and 1 to placebo, lusutrombopag 0.5, 0.75, and 1.0 mg group, respectively, at the 0.025 level of significance (1-sided) to determine the test statistic for detecting a dose-response in the percentage of responders.||||0.431
92267260|NCT01054443|184435920|OTHER||LS Mean Difference|25544.0|||||TWO_SIDED|95.0|6202.8|44885.3|||||The difference of least squares means (LSMeans) between each of the lusutrombopag treatment groups and placebo was estimated after adjusting for the Baseline platelet count using analysis of covariance (ANCOVA).|||44885.3|6202.8|
92267261|NCT01054443|184435920|OTHER||LS Mean Difference|11801.3|||||TWO_SIDED|95.0|-8809.3|32411.9|||||The difference of least squares means (LSMeans) between each of the lusutrombopag treatment groups and placebo was estimated after adjusting for the Baseline platelet count using analysis of covariance (ANCOVA).|||32411.9|-8809.3|
92310229|NCT02755649|184520851|SUPERIORITY||difference in percentages|-0.4|||=|0.9518|TWO_SIDED|95.0|-12.6|11.9|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||11.9|-12.6|= 0.9518
92310230|NCT02755649|184520851|SUPERIORITY||difference in percentages|2.5|||=|0.6833|TWO_SIDED|95.0|-9.64|14.68|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||14.68|-9.64|= 0.6833
92310231|NCT02089659|184520860|OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.72|1.35|||||Moderate hepatic insufficiency / Healthy controls|||1.35|0.72|
92310232|NCT02089659|184520861|OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|90.0|0.66|1.24|||||Moderate hepatic insufficiency / Healthy controls|||1.24|0.66|
92189733|NCT05379023|184278585|OTHER|Intraclass correlation coefficient (ICC)|IntraClassCorrelation|0.67|||||TWO_SIDED|95.0|0.5|0.78||"ICC estimates and 95% CIs were interpreted as agreement across condition type, where estimates of 0-\<0.50 are considered poor, 0.50≤-\<0.75 moderate, 0.75≤-\<0.90 good, and 0.90≤-1 excellent.~ICCs were adjusted for age and sex."||Not applicable, ICC level of agreements interpreted.|ICC with 95% CI for Memory, CVLT delayed recall shown.|"Unadjusted intraclass correlation coefficient (ICC) estimates and their 95% confidence intervals were calculated for each outcome measure to assess the reliability of measures across condition type based on a single-rating, absolute-agreement, two-way random-effects model.~Results for Memory: CVLT shown below."||0.78|0.50|
92189734|NCT05379023|184278585|OTHER|Intraclass correlation coefficient (ICC)|Intraclass Correlation|0.74|||||TWO_SIDED|95.0|0.71|0.84||"ICC estimates and 95% CIs were interpreted as agreement across condition type, where estimates of 0-\<0.50 are considered poor, 0.50≤-\<0.75 moderate, 0.75≤-\<0.90 good, and 0.90≤-1 excellent.~ICCs were adjusted for age and sex."||Not applicable, ICC level of agreements interpreted.|ICC with 95% CI for Memory, RBANS delayed recall shown|"Unadjusted intraclass correlation coefficient (ICC) estimates and their 95% confidence intervals were calculated for each outcome measure to assess the reliability of measures across condition type based on a single-rating, absolute-agreement, two-way random-effects model.~Results for Memory: RBANS shown below."||0.84|0.71|
92189735|NCT05379023|184278585|OTHER|Intraclass correlation coefficient (ICC)|Intraclass correlation|0.85|||||TWO_SIDED|95.0|0.76|0.9||"ICC estimates and 95% CIs were interpreted as agreement across condition type, where estimates of 0-\<0.50 are considered poor, 0.50≤-\<0.75 moderate, 0.75≤-\<0.90 good, and 0.90≤-1 excellent.~ICCs were adjusted for age and sex."||Not applicable, ICC level of agreements interpreted.|ICC with 95% CI for Language, BNT-15 shown.|"Unadjusted intraclass correlation coefficient (ICC) estimates and their 95% confidence intervals were calculated for each outcome measure to assess the reliability of measures across condition type based on a single-rating, absolute-agreement, two-way random-effects model.~Results for Memory: BNT-15 shown below."||0.90|0.76|
92189736|NCT05379023|184278585|OTHER|Intraclass correlation coefficient (ICC)|intraclass correlation|0.76|||||TWO_SIDED|95.0|0.63|0.85||"ICC estimates and 95% CIs were interpreted as agreement across condition type, where estimates of 0-\<0.50 are considered poor, 0.50≤-\<0.75 moderate, 0.75≤-\<0.90 good, and 0.90≤-1 excellent.~ICCs were adjusted for age and sex."||Not applicable, ICC level of agreements interpreted.|ICC with 95% CI for Language, Category Fluency shown.|"Unadjusted intraclass correlation coefficient (ICC) estimates and their 95% confidence intervals were calculated for each outcome measure to assess the reliability of measures across condition type based on a single-rating, absolute-agreement, two-way random-effects model.~Results for Lang8age: Category Fluency shown below."||0.85|0.63|
92310233|NCT02089659|184520862|OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|90.0|0.74|1.18|||||Moderate hepatic insufficiency / Healthy controls|||1.18|0.74|
92310234|NCT02089659|184520863|OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.74|1.33|||||Moderate hepatic insufficiency / Healthy controls|||1.33|0.74|
92310235|NCT02126826|184520865|SUPERIORITY_OR_OTHER||Slope|0.7865|||||TWO_SIDED|90.0|0.6193|0.9537|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 300mg||0.9537|0.6193|
92310236|NCT02126826|184520865|SUPERIORITY_OR_OTHER||Slope|1.0171|||||TWO_SIDED|90.0|0.8378|1.1964|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 200mg||1.1964|0.8378|
92310237|NCT02126826|184520867|SUPERIORITY_OR_OTHER||Slope|0.9511|||||TWO_SIDED|90.0|0.7654|1.1367|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 300mg||1.1367|0.7654|
92310238|NCT02126826|184520867|SUPERIORITY_OR_OTHER||Slope|1.0834|||||TWO_SIDED|90.0|0.8655|1.3013|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 200mg||1.3013|0.8655|
92310239|NCT02126826|184520869|SUPERIORITY_OR_OTHER||Slope|0.7832|||||TWO_SIDED|90.0|0.6235|0.9428|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 300mg||0.9428|0.6235|
92310240|NCT02126826|184520869|SUPERIORITY_OR_OTHER||Slope|1.0365|||||TWO_SIDED|90.0|0.8593|1.2137|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 200mg||1.2137|0.8593|
92310241|NCT02126826|184520871|SUPERIORITY_OR_OTHER||Slope|0.9433|||||TWO_SIDED|90.0|0.7744|1.1122|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 300mg||1.1122|0.7744|
92310242|NCT02126826|184520871|SUPERIORITY_OR_OTHER||Slope|1.081|||||TWO_SIDED|90.0|0.8583|1.3037|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 200mg||1.3037|0.8583|
92310243|NCT01371747|184520872|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310244|NCT01371747|184520872|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-Value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310245|NCT01371747|184520872|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310246|NCT01371747|184520872|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310247|NCT01371747|184520872|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92189737|NCT05379023|184278585|OTHER|Intraclass correlation coefficient (ICC)|Intraclass correlation|0.62|||||TWO_SIDED|95.0|0.45|0.75||"ICC estimates and 95% CIs were interpreted as agreement across condition type, where estimates of 0-\<0.50 are considered poor, 0.50≤-\<0.75 moderate, 0.75≤-\<0.90 good, and 0.90≤-1 excellent.~ICCs were adjusted for age and sex."||Not applicable, ICC level of agreements interpreted.|ICC with 95% CI for Spatial, JoLO-15 item shown.|"Unadjusted intraclass correlation coefficient (ICC) estimates and their 95% confidence intervals were calculated for each outcome measure to assess the reliability of measures across condition type based on a single-rating, absolute-agreement, two-way random-effects model.~Results for Spatial: JoLO 15-item Total"||0.75|0.45|
92189738|NCT05379023|184278585|OTHER|Intraclass correlation|Intraclass correlation|0.57|||||TWO_SIDED|95.0|0.38|0.72||"ICC estimates and 95% CIs were interpreted as agreement across condition type, where estimates of 0-\<0.50 are considered poor, 0.50≤-\<0.75 moderate, 0.75≤-\<0.90 good, and 0.90≤-1 excellent.~ICCs were adjusted for age and sex."||Not applicable, ICC level of agreements interpreted.|ICC with 95% CI for Spatial, RBANS Figure Copy shown.|"Unadjusted intraclass correlation coefficient (ICC) estimates and their 95% confidence intervals were calculated for each outcome measure to assess the reliability of measures across condition type based on a single-rating, absolute-agreement, two-way random-effects model.~Results for Spatial: RBANS Figure Copy shown below."||0.72|0.38|
92189739|NCT05379023|184278586|OTHER|Cohen's Kappa|Cohen's Kappa|0.74|||||TWO_SIDED|95.0|0.6|0.88||Not applicable, Cohen's Kappa with level of agreement between neuropsychologists used.||||"We constructed 3x3 tables for the diagnostic considerations by core battery and syndrome impression by condition. Agreement between each question and impression category was determined using Cohen's kappa (unweighted). Kappa values were interpreted using the agreement categories as follows: 0-.20 as None, .21-.39 as Minimal, .40-.59"||0.88|0.60|
92310248|NCT01371747|184520872|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310249|NCT01371747|184520873|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-Value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310250|NCT01371747|184520873|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-Value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310251|NCT01371747|184520873|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310252|NCT01371747|184520873|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310253|NCT01371747|184520873|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310254|NCT01371747|184520873|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310255|NCT01371747|184520874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-Value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310256|NCT01371747|184520874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-Value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310257|NCT01371747|184520874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310258|NCT01371747|184520874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310259|NCT01371747|184520874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310260|NCT01371747|184520874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
92310261|NCT01371747|184520875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.54|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310262|NCT01371747|184520875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.44|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310263|NCT01371747|184520875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.5|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310264|NCT01371747|184520875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.0|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310265|NCT01371747|184520875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.96|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310266|NCT01371747|184520875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.17|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310267|NCT01371747|184520876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.36|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310268|NCT01371747|184520876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.22|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310269|NCT01371747|184520876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.3|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310270|NCT01371747|184520876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.41|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310271|NCT01371747|184520876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.39|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310272|NCT01371747|184520876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.58|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
92310273|NCT01371747|184520877|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|100.0|||||TWO_SIDED|95.0|94.3|100.0|||||2-sided 95% exact binomial CI|||100.0|94.3|
92310274|NCT01371747|184520877|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|100.0|||||TWO_SIDED|95.0|94.5|100.0|||||2-sided 95% exact binomial CI|||100|94.5|
92310275|NCT01371747|184520877|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|98.4|||||TWO_SIDED|95.0|91.6|100.0|||||2-sided 95% exact binomial CI|||100|91.6|
92310276|NCT01371747|184520877|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|91.7|||||TWO_SIDED|95.0|73.0|99.0|||||2-sided 95% exact binomial CI|||99|73|
92189740|NCT05379023|184278587|OTHER|Cohen's Kappa|Cohen's Kappa|0.89|||||TWO_SIDED|95.0|0.79|0.99||Not applicable, Cohen's Kappa with level of agreement between neuropsychologists used.||||"We constructed 3x3 tables for the diagnostic considerations by core battery and severity impression by condition. Agreement between each question and impression category was determined using Cohen's kappa (unweighted). Kappa values were interpreted using the agreement categories as follows: 0-.20 as None, .21-.39 as Minimal, .40-.59"||0.99|0.79|
92267262|NCT01054443|184435920|OTHER||LS Mean Difference|756.6|||||TWO_SIDED|95.0|-18794.3|20307.5|||||The difference of least squares means (LSMeans) between each of the lusutrombopag treatment groups and placebo was estimated after adjusting for the Baseline platelet count using analysis of covariance (ANCOVA).|||20307.5|-18794.3|
92267263|NCT00296192|184435950|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9|STANDARD_ERROR_OF_MEAN|2.91||||95.0|-2.9|8.7|||ANCOVA|||Analysis of covariance modeling change from baseline at 24 minutes post-dose in UPDRS Part III, controlling for treatment group and baseline value.||8.7|-2.9|
92267264|NCT00296192|184435950|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|2.93||||95.0|-5.7|6.0|||ANCOVA|||Analysis of covariance modeling change from baseline at 24 minutes post-dose in UPDRS Part III, controlling for treatment group and baseline value.||6.0|-5.7|
92267265|NCT00296192|184435950|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9|STANDARD_ERROR_OF_MEAN|2.86||||95.0|-2.8|8.6|||ANCOVA|||Analysis of covariance modeling change from baseline at 24 minutes post-dose in UPDRS Part III, controlling for treatment group and baseline value.||8.6|-2.8|
92267266|NCT00296192|184435950|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|3.02||||95.0|-7.4|4.6|||ANCOVA|||Analysis of covariance modeling change from baseline at 24 minutes post-dose in UPDRS Part III, controlling for treatment group and baseline value.||4.6|-7.4|
92267267|NCT00296192|184435951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.6|STANDARD_ERROR_OF_MEAN|8.58||||95.0|-25.7|8.5|||ANCOVA|||Analysis of covariance modeling change from baseline to 34 minutes post-dose in tapping rate, controlling for treatment group and baseline value.||8.5|-25.7|
92267268|NCT00296192|184435951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.8|STANDARD_ERROR_OF_MEAN|8.63||||95.0|-34.0|0.4|||ANCOVA|||Analysis of covariance modeling change from baseline to 34 minutes post-dose in tapping rate, controlling for treatment group and baseline value.||0.4|-34.0|
92267269|NCT00296192|184435951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|8.45||||95.0|-18.2|15.4|||ANCOVA|||Analysis of covariance modeling change from baseline to 34 minutes post-dose in tapping rate, controlling for treatment group and baseline value.||15.4|-18.2|
92267270|NCT00296192|184435951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.5|STANDARD_ERROR_OF_MEAN|8.9||||95.0|-23.3|12.2|||ANCOVA|||Analysis of covariance modeling change from baseline to 34 minutes post-dose in tapping rate, controlling for treatment group and baseline value.||12.2|-23.3|
92267271|NCT00296192|184435952|SUPERIORITY_OR_OTHER||Difference in proportions|-20.6||||||95.0|-53.3|12.1|||Confidence interval|||95% confidence interval in difference in success rate||12.1|-53.3|
92267272|NCT00296192|184435952|SUPERIORITY_OR_OTHER||Difference in proportions|4.4||||||95.0|-25.9|34.7|||95% confidence interval|||95% confidence interval in difference in success rate||34.7|-25.9|
92267273|NCT00296192|184435952|SUPERIORITY_OR_OTHER||Difference in proportions|0.0||||||95.0|-30.6|30.6|||95% confidence interval|||95% confidence interval in difference in success rate||30.6|-30.6|
92267274|NCT00296192|184435952|SUPERIORITY_OR_OTHER||Difference in proportions|4.4||||||95.0|-25.9|34.7|||95% confidence interval|||95% confidence interval in difference in success rate||34.7|-25.9|
92267275|NCT03504839|184435955|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92267276|NCT03491800|184435989|SUPERIORITY||Mean Difference (Net)|7.5|STANDARD_ERROR_OF_MEAN|0.15||0.3|TWO_SIDED||||||t-test, 2 sided|||||||0.30
92267277|NCT03491800|184435990|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.43||0.9|TWO_SIDED||||||t-test, 2 sided|||||||0.90
92267278|NCT03491800|184435990|SUPERIORITY||Mean Difference (Final Values)|4.44|STANDARD_ERROR_OF_MEAN|0.26||0.3|TWO_SIDED||||||t-test, 2 sided|||||||0.30
92267279|NCT03491800|184435991|SUPERIORITY||Mean Difference (Final Values)|-3.03|STANDARD_ERROR_OF_MEAN|-0.28||0.4|TWO_SIDED||||||t-test, 2 sided|||||||0.40
92267280|NCT03491800|184435991|SUPERIORITY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.22||0.85|TWO_SIDED||||||t-test, 2 sided|||||||0.85
92267281|NCT03491800|184435992|SUPERIORITY||Mean Difference (Final Values)|-5.05|STANDARD_ERROR_OF_MEAN|-0.25||0.21|TWO_SIDED||||||t-test, 2 sided|||||||0.21
92267282|NCT03491800|184435993|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.23||0.95|TWO_SIDED||||||t-test, 2 sided|||||||0.95
92267283|NCT03491800|184435994|SUPERIORITY||Mean Difference (Final Values)|3.34|STANDARD_ERROR_OF_MEAN|-0.2||0.52|TWO_SIDED||||||t-test, 2 sided|||||||0.52
92267284|NCT03491800|184435995|SUPERIORITY||Mean Difference (Final Values)|-38.25|STANDARD_ERROR_OF_MEAN|-38.25||0.23|TWO_SIDED||||||t-test, 2 sided|||||||0.23
92267285|NCT03491800|184435995|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|22.0||0.67|TWO_SIDED||||||t-test, 2 sided|||||||0.67
92267286|NCT03491800|184435995|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|9.62||0.054|TWO_SIDED||||||t-test, 2 sided|||||||0.054
92267287|NCT03491800|184435996|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|5.4||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.60
92267288|NCT03491800|184435996|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|3.29||0.4|TWO_SIDED||||||t-test, 2 sided|||||||0.40
92267289|NCT05604521|184435997|SUPERIORITY|||||||0.3944|||||||Fisher Exact|||Null hypothesis: There is no statistically significant difference between the vaccine and control groups in the proportion of participants experiencing any local solicited AEs after any vaccination.||||0.3944
92267290|NCT05604521|184435997|SUPERIORITY|||||||0.3717|||||||Fisher Exact|||Null hypothesis: There is no statistically significant difference between the vaccine and control groups in the proportion of participants experiencing any systemic solicited AEs after any vaccination.||||0.3717
92267291|NCT05604521|184435997|SUPERIORITY|||||||1|||||||Fisher Exact|||Null hypothesis: There is no statistically significant difference between the vaccine and control groups in the proportion of participants experiencing any related unsolicited AEs after any vaccination.||||1.0
92267292|NCT03681769|184436006|EQUIVALENCE|Non-equivalence determined by p\<.05.||||||0.83||||||No site X time interaction (F12,270 = 0.614, p = 0.830).|Mixed Models Analysis|||||||.83
92267293|NCT03681769|184436007|OTHER|||||||0.53|||||||t-test, 2 sided|||||||.53
92189741|NCT05379023|184278590|OTHER|Intraclass correlation coefficient (ICC)|Intraclass correlation|0.82|||||TWO_SIDED|95.0|0.71|0.89||"ICC estimates and 95% CIs were interpreted as agreement across condition type, where estimates of 0-\<0.50 are considered poor, 0.50≤-\<0.75 moderate, 0.75≤-\<0.90 good, and 0.90≤-1 excellent.~ICCs were adjusted for age and sex."||Not applicable, ICC level of agreements interpreted.|ICC with 95% CI for Executive Functions, DKEFS Color Word-Inhibition shown.|"Unadjusted intraclass correlation coefficient (ICC) estimates and their 95% confidence intervals were calculated for each outcome measure to assess the reliability of measures across condition type based on a single-rating, absolute-agreement, two-way random-effects model.~Results for Executive Functions: DKEFS Color Word Inhibition shown below."||0.89|0.71|
92267294|NCT03056456|184436062|SUPERIORITY||Ratio of Geometric LS Means|1.0|||||TWO_SIDED|90.0|0.81|1.23||||||Day 1||1.23|0.810|
92267295|NCT03056456|184436062|SUPERIORITY||Ratio of Geometric LS Means|1.01|||||TWO_SIDED|90.0|0.817|1.25||||||Day 3||1.25|0.817|
92267296|NCT03056456|184436063|SUPERIORITY||Ratio of Geometric LS Means|1.03|||||TWO_SIDED|90.0|0.808|1.31||||||Day 1||1.31|0.808|
92267297|NCT03056456|184436063|SUPERIORITY|Day 3|Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|0.82|1.32||||||||1.32|0.820|
92267298|NCT04637815|184436066|EQUIVALENCE|t-tests for continuous variables and chi-squared tests for categorical variables|||||||TWO_SIDED|0.0||||Statistical threshold of significance is .05.|t-test, 2 sided||||We also conducted difference in differences (DID) analysis by first constructing measures of difference between follow-up and baseline for each participant for each measure and then comparing the means of these difference measures for each arm.|||
92267299|NCT04637815|184436067|EQUIVALENCE|t-tests for continuous variables and chi-squared tests for categorical variables||||||||||||Statistical threshold of significance is .05.|t-test, 2 sided||||We also conducted difference in differences (DID) analysis by first constructing measures of difference between follow-up and baseline for each participant for each measure and then comparing the means of these difference measures for each arm.|||
92267300|NCT04637815|184436068|EQUIVALENCE|t-tests for continuous variables and chi-squared tests for categorical variables||||||||||||Statistical threshold of significance is .05.|t-test, 2 sided||||We also conducted difference in differences (DID) analysis by first constructing measures of difference between follow-up and baseline for each participant for each measure and then comparing the means of these difference measures for each arm.|||
92267301|NCT04637815|184436069|EQUIVALENCE|t-tests for continuous variables and chi-squared tests for categorical variables||||||||||||Statistical threshold of significance is .05.|t-test, 2 sided||||We also conducted difference in differences (DID) analysis by first constructing measures of difference between follow-up and baseline for each participant for each measure and then comparing the means of these difference measures for each arm.|||
92267302|NCT04637815|184436070|EQUIVALENCE|t-tests for continuous variables and chi-squared tests for categorical variables||||||||||||Statistical threshold of significance is .05.|t-test, 2 sided||||We also conducted difference in differences (DID) analysis by first constructing measures of difference between follow-up and baseline for each participant for each measure and then comparing the means of these difference measures for each arm.|||
92267303|NCT02234427|184436087|SUPERIORITY_OR_OTHER||||||<|5e-06||||||Above noted p-value is adjusted for multiple comparisons. Analysis was performed using the TopHat/Cufflinks pipeline. The differential expression algorithm uses a beta distribution and the overdispersion with a negative binomial distribution.|negative binomial|||Null Hypothesis: There is no difference in gene expression before and after aspirin therapy||||<0.000005
92267304|NCT01244516|184436094|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set at -5.|Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|2.83|||TWO_SIDED|97.4|-5.91|6.7|||Mixed Models Analysis|Alpha is adjusted to 1.3% based on a Sidak multiplicity correction.|The direction of comparison is AAHP - AOA.|This comparison is between galyfilcon and lotrafilcon B. Ho: galyfilcon A -lotrafilcon B \<= -5. Ha: galyfilcon A - lotrafilcon B \> -5.||6.70|-5.91|
92267305|NCT01244516|184436094|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set at -5.|Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|2.79|||TWO_SIDED|97.4|-5.96|6.79|||Mixed Models Analysis|Alpha is adjusted to 1.3% based on a Sidak multiplicity correction.|The direction of comparison is AAHP - BIO.|This comparison is between galyfilcon A and comfilcon A. Ho: gayfilcon A- comfilcon A \<= -5. Ha: galyfilcon A- comfilcon A\> -5.||6.79|-5.96|
92267306|NCT01244516|184436095|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set at \> 0.75. Superiority is concluded is the 97.4% CL \> 1.|Odds Ratio (OR)|1.66|||||TWO_SIDED|97.4|1.14|2.44|||Regression, Logistic|Alpha is adjusted to 1.3% based on a Sidak multiplicity correction.|The direction of comparison is AAHP/AOA.|The comparison is between galyfilcon A (AAHP) and lotrafilcon B (AOA) for comparing proportions of those with corneal staining and those without. Ho: OR = 1 for (AAHP/AOA). Ha: OR \> 1 for (AAHP/AOA).||2.44|1.14|
92267307|NCT01244516|184436095|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set at \> 0.75. Superiority is concluded is the 97.4% CL \> 1.|Odds Ratio (OR)|1.66|||||TWO_SIDED|97.4|1.14|2.44|||Regression, Logistic|Alpha is adjusted to 1.3% based on a Sidak multiplicity correction.||The comparison is between galyfilcon A (AAHP) and comfilcon A (BIO) for comparing proportions of those with corneal staining and those without. Ho: OR = 1 for (AAHP/BIO). Ha: OR \> 1 for (AAHP/BIO).||2.44|1.14|
92267308|NCT04668066|184436165|OTHER||Least Square Mean Difference|5.6||||0.6343|TWO_SIDED|90.0|-21.4|32.6|||ANCOVA|||||32.6|-21.4|0.6343
92267309|NCT02369874|184436166|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7624|TWO_SIDED|95.0|0.85|1.26|||Log Rank|||||1.26|0.85|0.7624
92267310|NCT02369874|184436166|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1993|TWO_SIDED|95.0|0.72|1.08|||Log Rank|||||1.08|0.72|0.1993
92267311|NCT02369874|184436167|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.459|TWO_SIDED|95.0|0.73|1.17|||Log Rank|||||1.17|0.73|0.4590
92267312|NCT02369874|184436167|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.85|1.36||||||||1.36|0.85|
92267313|NCT02369874|184436168|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.63|1.39||||||||1.39|0.63|
92267314|NCT02369874|184436169|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.9|1.33||||||||1.33|0.90|
92267315|NCT02369874|184436169|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.84|1.25||||||||1.25|0.84|
92267316|NCT02369874|184436170|SUPERIORITY||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.67|1.7||||||||1.70|0.67|
92267317|NCT02369874|184436170|SUPERIORITY||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.66|1.68||||||||1.68|0.66|
92267318|NCT02369874|184436172|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.67|1.52||||||6 Month analysis||1.52|0.67|
92310277|NCT01371747|184520877|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|95.8|||||TWO_SIDED|95.0|78.9|99.9|||||2-sided 95% exact binomial CI|||99.9|78.9|
92310278|NCT01371747|184520877|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|95.5|||||TWO_SIDED|95.0|77.2|99.9|||||2-sided 95% exact binomial CI|||99.9|77.2|
92310279|NCT01371747|184520878|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|95.2|||||TWO_SIDED|95.0|86.7|99.0|||||2-sided 95% exact binomial CI|||99.0|86.7|
92310280|NCT01371747|184520878|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|90.8|||||TWO_SIDED|95.0|81.0|96.5|||||2-sided 95% exact binomial CI|||96.5|81.0|
92310281|NCT01371747|184520878|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|81.3|||||TWO_SIDED|95.0|69.5|89.9|||||2-sided 95% exact binomial CI|||89.9|69.5|
92310282|NCT01371747|184520878|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|79.2|||||TWO_SIDED|95.0|57.8|92.9|||||2-sided 95% exact binomial CI|||92.9|57.8|
92310283|NCT01371747|184520878|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|91.7|||||TWO_SIDED|95.0|73.0|99.0|||||2-sided 95% exact binomial CI|||99|73|
92310284|NCT01371747|184520878|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|77.3|||||TWO_SIDED|95.0|54.6|92.2|||||2-sided 95% exact binomial CI|||92.2|54.6|
92310285|NCT01371747|184520880|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|86.3|||||TWO_SIDED|95.0|73.7|94.3|||||2-sided 95% exact binomial CI|||94.3|73.7|
92310286|NCT01371747|184520880|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|81.6|||||TWO_SIDED|95.0|68.0|91.2|||||2-sided 95% exact binomial CI|||91.2|68.0|
92310287|NCT01371747|184520880|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|88.9|||||TWO_SIDED|95.0|75.9|96.3|||||2-sided 95% exact binomial CI|||96.3|75.9|
92310288|NCT01371747|184520880|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|86.7|||||TWO_SIDED|95.0|59.5|98.3|||||2-sided 95% exact binomial CI|||98.3|59.5|
92310289|NCT01371747|184520880|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|89.5|||||TWO_SIDED|95.0|66.9|98.7|||||2-sided 95% exact binomial CI|||98.7|66.9|
92310290|NCT01371747|184520880|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|93.3|||||TWO_SIDED|95.0|68.1|99.8|||||2-sided 95% exact binomial CI|||99.8|68.1|
92189742|NCT05379023|184278590|OTHER|Intraclass correlation coefficient (ICC)|Intraclass correlation|0.88|||||TWO_SIDED|95.0|0.81|0.93||"ICC estimates and 95% CIs were interpreted as agreement across condition type, where estimates of 0-\<0.50 are considered poor, 0.50≤-\<0.75 moderate, 0.75≤-\<0.90 good, and 0.90≤-1 excellent.~ICCs were adjusted for age and sex."||Not applicable, ICC level of agreements interpreted.|ICC with 95% CI for Executive Functions, Oral Trail Making Test B shown.|"Unadjusted intraclass correlation coefficient (ICC) estimates and their 95% confidence intervals were calculated for each outcome measure to assess the reliability of measures across condition type based on a single-rating, absolute-agreement, two-way random-effects model.~Results for Executive Functions:Oral Trail Making Test B shown below."||0.93|0.81|
92310291|NCT03092219|184520881|SUPERIORITY|||||||0.0001|TWO_SIDED|95.0|||||Fisher Exact|For this outcome measure, missing data were imputed using a LOCF (Last Observation Carried Forward) method.||||||0.0001
92310292|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.001||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Matrilysin (P09237) was analyzed.||||= 0.001
92310293|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.002||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of von Willebrand factor (P04275) was analyzed.||||= 0.002
92310294|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.044||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of CCN family member 4 (O95388) was analyzed.||||= 0.044
92310295|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.044||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of TGF beta-1 proprotein (P01137) was analyzed.||||= 0.044
92310296|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.127||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of TGF beta receptor type 3 (Q03167) was analyzed.||||= 0.127
92310297|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.21||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX differences (corresponding to log-transformed ratio to baseline) of IL-15 receptor subunit alpha (Q13261) was analyzed.||||= 0.210
92310298|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.215||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Metalloproteinase inhibitor 1 (P01033) was analyzed.||||= 0.215
92310299|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.215||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Pappalysin-1 (Q13219) was analyzed.||||= 0.215
92310300|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.745||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Proto-oncogene c-Src (P12931) was analyzed.||||= 0.745
92310301|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.762||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Protein AMBP (P02760) was analyzed.||||= 0.762
92310302|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.762||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Uromodulin (P07911) was analyzed.||||= 0.762
92310303|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.762||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Aminopeptidase N (P15144) was analyzed.||||= 0.762
92310304|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.762||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of TNFRSF1A (P19438) was analyzed.||||= 0.762
92310305|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.917||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Plasminogen activator inhibitor 1 (P05121) was analyzed.||||= 0.917
92310306|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.917||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of CCN family member 2 (P29279) was analyzed.||||= 0.917
92310307|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.917||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of uPAR (Q03405) was analyzed.||||= 0.917
92310308|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.917||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of C-C motif chemokine 14 (Q16627) was analyzed.||||= 0.917
92310309|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of C-C motif chemokine 16 (O15467) was analyzed.||||= 0.979
92310310|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Collagen alpha-1(I) chain (P02452) was analyzed.||||= 0.979
92189743|NCT02924350|184278591|OTHER||Least square (LS) mean difference|-0.924|||<|0.0001|TWO_SIDED|95.0|-1.0547|-0.7927|||ANCOVA|ANCOVA: change from baseline in Schiff sensitivity score as response and treatment as a factor and baseline Schiff sensitivity score as a covariate|Difference is first named dentifrice minus second named dentifrice such that a negative difference favors first named dentifrice.|||-0.7927|-1.0547|<.0001
92310311|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Decorin (P07585) was analyzed.||||= 0.979
92310312|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX differences (corresponding to log-transformed ratio to baseline) of C-C motif chemokine 2 (P13500) was analyzed.||||= 0.979
92310313|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Matrix metalloproteinase-9 (P14780) was analyzed.||||= 0.979
92310314|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX differences (corresponding to log-transformed ratio to baseline) of E-selectin (P16581) was analyzed.||||= 0.979
92310315|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Thrombospondin-2 (P35442) was analyzed.||||= 0.979
92310316|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of RARRES2 (Q99969) was analyzed.||||= 0.979
92310317|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of C-X-C motif chemokine 16 (Q9H2A7) was analyzed.||||= 0.979
92310318|NCT05013008|184520932|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Dickkopf-related protein 3 (Q9UBP4) was analyzed.||||= 0.979
92310319|NCT00591773|184520967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.86|||<|0.001|TWO_SIDED|95.0|-18.54|-13.19||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-13.19|-18.54|<0.001
92310320|NCT00591773|184520967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.45|||<|0.001|TWO_SIDED|95.0|-18.13|-12.76||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-12.76|-18.13|<0.001
92310321|NCT00591773|184520968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.4|||<|0.001|TWO_SIDED|95.0|-17.81|-10.99||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-10.99|-17.81|<0.001
92189744|NCT02675998|184278618|SUPERIORITY|||||||0.01|||||||ANCOVA|||||||0.01
92189745|NCT02675998|184278619|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92189746|NCT02675998|184278619|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92189747|NCT02675998|184278619|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92189748|NCT02552810|184278620|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculation, 30 (effect size: 0.5, alpha error: 0.05, power: 0.80).|||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92189749|NCT02097849|184278626|SUPERIORITY_OR_OTHER||Difference in proportion|-0.04||||0.692|TWO_SIDED|95.0|-0.27|0.19|||Clopper-Pearson Exact|||||0.19|-0.27|0.692
92189750|NCT02097849|184278627|SUPERIORITY_OR_OTHER||Difference in proportion|-0.19||||0.12|TWO_SIDED|95.0|-0.41|0.05|||Clopper-Pearson Exact|||Responders at Day 28||0.05|-0.41|0.120
92189751|NCT02097849|184278628|SUPERIORITY_OR_OTHER||Difference in proportions|-0.13||||0.225|TWO_SIDED|95.0|-0.35|0.1|||Clopper-Pearson Exact|||||0.10|-0.35|0.225
92189752|NCT02097849|184278629|SUPERIORITY_OR_OTHER||Difference in proportions|-0.22||||0.057|TWO_SIDED|95.0|-0.44|0.01|||Clopper-Pearson Exact|||||0.01|-0.44|0.057
92189753|NCT02097849|184278630|SUPERIORITY_OR_OTHER||Difference in proportions|0.07||||0.3|TWO_SIDED|95.0|-0.16|0.3|||Clopper-Pearson Exact|||||0.30|-0.16|0.300
92189754|NCT02097849|184278631|SUPERIORITY_OR_OTHER||Difference in proportions|-0.03||||0.714|TWO_SIDED|95.0|-0.26|0.2|||Clopper-Pearson Exact|||||0.20|-0.26|0.714
92189755|NCT02097849|184278632|SUPERIORITY_OR_OTHER||Difference in proportions|0.0||||0.967|TWO_SIDED|95.0|-0.24|0.23|||Clopper-Pearson Exact|||||0.23|-0.24|0.967
92189756|NCT02097849|184278633|SUPERIORITY_OR_OTHER||Difference in proportions|-0.01||||0.955|TWO_SIDED|95.0|-0.24|0.22|||Clopper-Pearson Exact|||||0.22|-0.24|0.955
92310322|NCT00591773|184520968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.68|||<|0.001|TWO_SIDED|95.0|-16.1|-9.25||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-9.25|-16.10|<0.001
92310323|NCT00591773|184520969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.29|||<|0.001|TWO_SIDED|95.0|-12.02|-8.56||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.56|-12.02|<0.001
92310324|NCT00591773|184520969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.49|||<|0.001|TWO_SIDED|95.0|-12.23|-8.76||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.76|-12.23|<0.001
92310325|NCT00591773|184520970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.25|||<|0.001|TWO_SIDED|95.0|-9.25|-5.25||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.25|-9.25|<0.001
92189757|NCT02561078|184278645|NON_INFERIORITY|The test for the primary objective of noninferiority was performed at the 0.05 significance level using the LS Mean estimate of the difference in change in HbA1c between the 2 treatments at Week 26. Noninferiority was established if the upper limit of a 2-sided 95% confidence interval (CI) for the difference (U 500R CSII minus U 500R MDI) was below the noninferiority margin (NIM) of 0.4%.|Mean Difference (Net)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.62|-0.22|||Mixed Models Analysis|||||-0.22|-0.62|<0.001
92189758|NCT02561078|184278646|SUPERIORITY||Mean Difference (Net)|-35.6|||<|0.001|TWO_SIDED|95.0|-49.4|-21.7|||Mixed Models Analysis|||||-21.7|-49.4|<0.001
92189759|NCT02561078|184278647|SUPERIORITY||Odds Ratio (OR)|1.97||||0.015|TWO_SIDED|95.0|1.14|3.39|||Regression, Logistic|||||3.39|1.14|0.015
92189760|NCT02561078|184278648|SUPERIORITY||Odds Ratio (OR)|1.94||||0.005|TWO_SIDED|95.0|1.23|3.07|||Regression, Logistic|||||3.07|1.23|0.005
92310326|NCT00591773|184520970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.05|||<|0.001|TWO_SIDED|95.0|-9.06|-5.05||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.05|-9.06|<0.001
92310327|NCT00591773|184520971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|||<|0.001|TWO_SIDED|95.0|-19.56|-14.04||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-14.04|-19.56|<0.001
92310328|NCT00591773|184520971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.24|||<|0.001|TWO_SIDED|95.0|-19.01|-13.47||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-13.47|-19.01|<0.001
92310329|NCT00591773|184520972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.02|||<|0.001|TWO_SIDED|95.0|-12.86|-9.18||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.18|-12.86|<0.001
92189761|NCT02561078|184278649|SUPERIORITY||Mean Difference (Net)|-22.5|||<|0.001|TWO_SIDED|95.0|-32.1|-12.8|||Mixed Models Analysis|||Pre Morning Meal||-12.8|-32.1|<0.001
92189762|NCT02561078|184278649|SUPERIORITY||Mean Difference (Net)|-17.2||||0.008|TWO_SIDED|95.0|-29.9|-4.6|||Mixed Models Analysis|||2 Hours Post Morning Meal||-4.6|-29.9|0.008
92189763|NCT02561078|184278649|SUPERIORITY||Mean Difference (Net)|-8.9||||0.138|TWO_SIDED|95.0|-20.6|2.9|||Mixed Models Analysis|||Pre Mid-Day Meal||2.9|-20.6|0.138
92189764|NCT02561078|184278649|SUPERIORITY||Mean Difference (Net)|8.3||||0.16|TWO_SIDED|95.0|-3.3|19.8|||Mixed Models Analysis|||2 Hours Post Mid-Day Meal||19.8|-3.3|0.160
92189765|NCT02561078|184278649|SUPERIORITY||Mean Difference (Net)|9.1||||0.113|TWO_SIDED|95.0|-2.2|20.4|||Mixed Models Analysis|||Pre Evening Meal||20.4|-2.2|0.113
92189766|NCT02561078|184278649|SUPERIORITY||Mean Difference (Net)|16.7||||0.004|TWO_SIDED|95.0|5.3|28.2|||Mixed Models Analysis|||2 Hours Post Evening Meal||28.2|5.3|0.004
92189767|NCT02561078|184278649|SUPERIORITY||Mean Difference (Net)|0.6||||0.905|TWO_SIDED|95.0|-9.5|10.8|||Mixed Models Analysis|||Overnight (3:00 AM)||10.8|-9.5|0.905
92189768|NCT02561078|184278650|SUPERIORITY||Mean Difference (Net)|-48.4|||<|0.001|TWO_SIDED|95.0|-74.1|-22.8|||Mixed Models Analysis|||||-22.8|-74.1|<0.001
92189769|NCT02561078|184278651|SUPERIORITY||Odds Ratio (OR)|1.05||||0.919|TWO_SIDED|95.0|0.39|2.86|||Regression, Logistic|||||2.86|0.39|0.919
92189770|NCT02561078|184278652|SUPERIORITY||Relative Rate|1.21||||0.025|TWO_SIDED|95.0|1.02|1.42|||Negative binomial regression|||||1.42|1.02|0.025
92189771|NCT02561078|184278653|SUPERIORITY||Mean Difference (Net)|0.8||||0.1|TWO_SIDED|95.0|-0.2|1.8|||Mixed Models Analysis|||||1.8|-0.2|0.100
92189772|NCT00043186|184278661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.87|||<|0.001||95.0|4.59|7.16|||ANCOVA|||||7.16|4.59|<0.001
92189773|NCT00043186|184278661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.33|||<|0.001||95.0|5.01|7.65|||ANCOVA|||||7.65|5.01|<0.001
92189774|NCT00043186|184278661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.35|||<|0.001||95.0|4.07|6.64|||ANCOVA|||||6.64|4.07|<0.001
92310330|NCT00591773|184520972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.2|||<|0.001|TWO_SIDED|95.0|-13.04|-9.35||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.35|-13.04|<0.001
92310331|NCT00591773|184520973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.93|||<|0.001|TWO_SIDED|95.0|-15.92|-9.94||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.94|-15.92|<0.001
92310332|NCT00591773|184520973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.84|||<|0.001|TWO_SIDED|95.0|-15.83|-9.84||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.84|-15.83|<0.001
92310333|NCT00591773|184520974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.16|||<|0.001|TWO_SIDED|95.0|-10.14|-6.19||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.19|-10.14|<0.001
92267319|NCT02369874|184436172|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.64|1.46||||||6 Month analysis||1.46|0.64|
92189775|NCT00043186|184278661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.84|||<|0.001||95.0|2.6|5.07|||ANCOVA|||||5.07|2.60|<0.001
92267320|NCT02369874|184436172|SUPERIORITY||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.72|1.75||||||12 Month analysis||1.75|0.72|
92267321|NCT02369874|184436172|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.63|1.57||||||12 Month analysis||1.57|0.63|
92267322|NCT02369874|184436175|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.76|1.21||||||||1.21|0.76|
92267323|NCT02369874|184436176|SUPERIORITY||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.74|2.39||||||||2.39|0.74|
92267324|NCT03810417|184436217|SUPERIORITY||||||>|0.05|||||||Regression, Linear|||||||>0.05
92267325|NCT03810417|184436217|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||||||<0.05
92267326|NCT00056472|184436255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28|||<|0.001||95.0|1.12|1.47|||Regression, Logistic|||Predicting remission rates of 40% in combination therapy and 20% in monotherapy subjects, 260 subjects randomized into the two treatment groups would provide \>80% power at a two-tailed alpha level of .05. Treatment efficacy was compared between groups based on intent-to-treat analyses for the longitudinal binary outcome of remission using mixed effects logistic regression with a random intercept that included treatment and time as fixed effects and a treatment by time interaction effect.||1.47|1.12|<.001
92267327|NCT00056472|184436256|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||The p-value is for the overall mean CGI-S score compared to baseline.|Mixed Models Analysis|This was a longitudinal analysis of CGI-S scores compared to baseline.||Intent-to-treat changes in global improvement from week to week compared to baseline (CGI-S) over the course of the trial using longitudinal mixed effects linear regression models. The null hypothesis is that there is no difference in overall change in CGI-S.||||.02
92267328|NCT00056472|184436257|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for the overall mean across all time points between each treatment group.|Mixed Models Analysis|||Intent-to-treat between group comparison using longitudinal mixed effects regression.||||<.001
92267329|NCT00299546|184436333|SUPERIORITY_OR_OTHER||||||<|0.001||||||A positive test is concluded if there is a significant difference between combined golimumab and placebo groups and at least one of the pair-wise comparisons at 0.05 level.|Cochran-Mantel-Haenszel|Stratified by baseline Methotrexate (MTX)||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Group 1 vs. Combined Groups 2 and 3. A sample size of 140 patients per group provides a \>90% power assuming 50% of patients used Methotrexate (MTX) at baseline and 30% ACR 20 response in placebo and 40\~55% ACR 20 response in golimumab groups.||||<0.001
92267330|NCT00299546|184436333|SUPERIORITY_OR_OTHER|||||||0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX||Null Hypothesis: No difference in ACR 20 response at Wk 14 between Group 1: Placebo and Group 2: 50 mg.||||0.001
92267331|NCT00299546|184436333|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||Null Hypothesis: No difference in ACR 20 response at Wk 14 between Group 1: Placebo and Group 3 :100 mg.||||<0.001
92267332|NCT00299546|184436334|SUPERIORITY_OR_OTHER|||||||0.003|||||||Cochran-Mantel-Haenszel|Stratified by baseline Methotrexate (MTX).||||||0.003
92267333|NCT00299546|184436334|SUPERIORITY_OR_OTHER|||||||0.021||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||0.021
92267334|NCT00299546|184436334|SUPERIORITY_OR_OTHER|||||||0.002||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||0.002
92267335|NCT00299546|184436335|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline Methorexate (MTX).||||||<0.001
92267336|NCT00299546|184436335|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||<0.001
92267337|NCT00299546|184436335|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||<0.001
92267338|NCT00299546|184436336|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline Methotrexate (MTX).||||||<0.001
92267339|NCT00299546|184436336|SUPERIORITY_OR_OTHER|||||||0.002||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||0.002
92267340|NCT00299546|184436336|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||<0.001
92267341|NCT00299546|184436337|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on van der Waerden normal scores.|Stratified by baseline Methotrexate (MTX).||||||<0.001
92267342|NCT00299546|184436337|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|ANOVA on van der Waerden normal scores.|Stratified by baseline MTX.||||||<0.001
92267343|NCT00299546|184436337|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|ANOVA on van der Waerden normal scores.|Stratified by baseline MTX.||||||<0.001
92267344|NCT01656850|184436347|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92267345|NCT01656850|184436348|SUPERIORITY_OR_OTHER|||||||0.2786|TWO_SIDED||||||Mixed Models Analysis|||||||0.2786
92267346|NCT01656850|184436349|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||Mixed Models Analysis|||||||0.420
92267347|NCT01656850|184436350|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92267348|NCT01656850|184436351|SUPERIORITY_OR_OTHER|||||||0.2412|TWO_SIDED||||||Mixed Models Analysis|||||||0.2412
92267349|NCT01656850|184436352|SUPERIORITY_OR_OTHER|||||||0.3837|TWO_SIDED||||||Mixed Models Analysis|||||||0.3837
92267350|NCT01656850|184436353|SUPERIORITY_OR_OTHER|||||||0.9784|TWO_SIDED||||||Mixed Models Analysis|||||||0.9784
92267351|NCT01656850|184436354|SUPERIORITY_OR_OTHER|||||||0.5868|TWO_SIDED||||||Mixed Models Analysis|||||||0.5868
92267352|NCT01656850|184436355|SUPERIORITY_OR_OTHER|||||||0.1101|TWO_SIDED||||||Mixed Models Analysis|||||||0.1101
92267353|NCT01656850|184436356|SUPERIORITY_OR_OTHER|||||||0.7823|TWO_SIDED||||||Mixed Models Analysis|||||||0.7823
92310334|NCT00591773|184520974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.17|||<|0.001|TWO_SIDED|95.0|-10.15|-6.19||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.19|-10.15|<0.001
92310335|NCT00591773|184520975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.52|||<|0.001|TWO_SIDED|95.0|-20.39|-14.64||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-14.64|-20.39|<0.001
92310336|NCT00591773|184520975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.95|||<|0.001|TWO_SIDED|95.0|-19.84|-14.05||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-14.05|-19.84|<0.001
92310337|NCT00591773|184520976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.54|||<|0.001|TWO_SIDED|95.0|-13.49|-9.59||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.59|-13.49|<0.001
92310338|NCT00591773|184520976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.68|||<|0.001|TWO_SIDED|95.0|-13.64|-9.72||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.72|-13.64|<0.001
92310339|NCT00591773|184520977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.04|||<|0.001|TWO_SIDED|95.0|-17.13|-10.94||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-10.94|-17.13|<0.001
92310340|NCT00591773|184520977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.48|||<|0.001|TWO_SIDED|95.0|-16.58|-10.37||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-10.37|-16.58|<0.001
92310341|NCT00591773|184520978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.42|||<|0.001|TWO_SIDED|95.0|-11.65|-7.2||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.20|-11.65|<0.001
92189776|NCT00043186|184278661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5|||<|0.001||95.0|6.13|8.87|||ANCOVA|||||8.87|6.13|<0.001
92189777|NCT00043186|184278661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.52|||<|0.001||95.0|4.19|6.85|||ANCOVA|||||6.85|4.19|<0.001
92310342|NCT00591773|184520978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.69|||<|0.001|TWO_SIDED|95.0|-11.92|-7.46||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.46|-11.92|<0.001
92310343|NCT00591773|184520979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.09|||<|0.001|TWO_SIDED|95.0|2.38|7.03||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||7.03|2.38|<0.001
92310344|NCT00591773|184520979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.001|TWO_SIDED|95.0|1.82|5.03||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.03|1.82|<0.001
92189778|NCT00043186|184278661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.21|||<|0.001||95.0|3.88|6.55|||ANCOVA|||||6.55|3.88|<0.001
92267354|NCT01656850|184436357|SUPERIORITY_OR_OTHER|||||||0.557|TWO_SIDED||||||Mixed Models Analysis|||||||0.5570
92267355|NCT01656850|184436358|SUPERIORITY_OR_OTHER|||||||0.6263|TWO_SIDED||||||Mixed Models Analysis|||||||0.6263
92310345|NCT00591773|184520980|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.72|||<|0.001|TWO_SIDED|95.0|1.9|7.27||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||7.27|1.90|<0.001
92310346|NCT00591773|184520980|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7||||0.002|TWO_SIDED|95.0|1.46|5.0||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.00|1.46|0.002
92189779|NCT00043186|184278662|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189780|NCT00043186|184278662|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189781|NCT00043186|184278662|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189782|NCT00043186|184278662|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189783|NCT00043186|184278662|SUPERIORITY_OR_OTHER|||||||0.166|||||||Wilcoxon (Mann-Whitney)|||||||0.166
92189784|NCT00043186|184278662|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189785|NCT00043186|184278662|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189786|NCT00043186|184278662|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189787|NCT00043186|184278663|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189788|NCT00043186|184278663|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189789|NCT00043186|184278663|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189790|NCT00043186|184278663|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189791|NCT00043186|184278663|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92267356|NCT01656850|184436359|SUPERIORITY_OR_OTHER|||||||0.8328|TWO_SIDED||||||Mixed Models Analysis|||||||0.8328
92267357|NCT01656850|184436360|SUPERIORITY_OR_OTHER|||||||0.7758|TWO_SIDED||||||Mixed Models Analysis|||||||0.7758
92267358|NCT01656850|184436361|SUPERIORITY_OR_OTHER|||||||0.0476|TWO_SIDED||||||Mixed Models Analysis|||||||0.0476
92267359|NCT01656850|184436362|SUPERIORITY_OR_OTHER|||||||0.1205|TWO_SIDED||||||Mixed Models Analysis|||||||0.1205
92267360|NCT01656850|184436363|SUPERIORITY_OR_OTHER|||||||0.1512|TWO_SIDED||||||Mixed Models Analysis|||||||0.1512
92267361|NCT01656850|184436364|SUPERIORITY_OR_OTHER|||||||0.7364|TWO_SIDED||||||Mixed Models Analysis|||||||0.7364
92310347|NCT00591773|184520981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0|||<|0.001|TWO_SIDED|95.0|2.41|6.64||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||6.64|2.41|<0.001
92189792|NCT00043186|184278663|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189793|NCT00043186|184278663|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
92189794|NCT00043186|184278663|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189795|NCT00043186|184278665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.34|||<|0.001||95.0|5.56|9.12|||ANCOVA|||||9.12|5.56|<0.001
92189796|NCT00043186|184278665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.11|||<|0.001||95.0|7.31|10.91|||ANCOVA|||||10.91|7.31|<0.001
92189797|NCT00043186|184278665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.56|||<|0.001||95.0|6.71|10.41|||ANCOVA|||||10.41|6.71|<0.001
92189798|NCT00043186|184278665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.44|||<|0.001||95.0|6.69|10.19|||ANCOVA|||||10.19|6.69|<0.001
92189799|NCT00043186|184278665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.19|||<|0.001||95.0|3.43|6.94|||ANCOVA|||||6.94|3.43|<0.001
92189800|NCT00043186|184278665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.08|||<|0.001||95.0|8.14|12.01|||ANCOVA|||||12.01|8.14|<0.001
92189801|NCT00043186|184278665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.46|||<|0.001||95.0|6.62|10.3|||ANCOVA|||||10.30|6.62|<0.001
92189802|NCT00043186|184278665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.66|||<|0.001||95.0|6.8|10.53|||ANCOVA|||||10.53|6.80|<0.001
92267362|NCT01656850|184436365|SUPERIORITY_OR_OTHER|||||||0.1995|TWO_SIDED||||||Mixed Models Analysis|||||||0.1995
92267363|NCT01656850|184436366|SUPERIORITY_OR_OTHER|||||||0.8528|TWO_SIDED||||||Mixed Models Analysis|||||||0.8528
92267364|NCT00750373|184436397|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.1|||<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||We estimated that a sample size of 74 patients would provide 80% power to detect a significant difference with respect to the primary end point at the 2-sided significance level of 0.05, assuming that the in-hospital event rate would be 23% in the conventional treatment group and 3% in the early surgery group.||||<0.05
92267365|NCT05027958|184436402|SUPERIORITY|||||||0.05714|||||||Wilcoxon (Mann-Whitney)|||||||0.05714
92267366|NCT03155269|184436404|OTHER||Mean Difference (Final Values)|-0.0423||||0.1324|TWO_SIDED|97.5|-0.1057|0.0211||The setting of the two-sided significance level of 0.025 was used for the 2 co-primary endpoints to ensure that the overall significance level for the primary endpoint was less than or equal to 0.05.|ANCOVA|Analysis was performed using ANCOVA model with product group and strata as fixed effects, and the corresponding baseline value as covariate.|Difference is test product minus reference product such that a negative difference favors the test product.|||0.0211|-0.1057|0.1324
92267367|NCT03155269|184436405|OTHER||Mean Difference (Final Values)|0.229||||0.0469|TWO_SIDED|97.5|-0.03|0.489||The setting of the two-sided significance level of 0.025 was used for the 2 co-primary endpoints to ensure that the overall significance level for the primary endpoint was less than or equal to 0.05.|ANCOVA|Analysis was performed using ANCOVA model with product group and strata as fixed effects, and the corresponding baseline value as covariate.|Difference is test product minus reference product such that a negative difference favors the test product.|||0.489|-0.030|0.0469
92267368|NCT02871921|184436423|EQUIVALENCE|A linear regression model was run with the outcome being the MoCA score at Month 6, controlling for the baseline MoCA score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.86||0.87|TWO_SIDED||||||Regression, Linear|||Outcome: MoCA at Month 6 Among participants with normal cognition||||0.87
92267369|NCT02871921|184436423|EQUIVALENCE|A linear regression model was run with the outcome being the MoCA score at Month 6, controlling for the baseline MoCA score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score.|Mean Difference (Final Values)|1.75|STANDARD_ERROR_OF_MEAN|0.76||0.03|TWO_SIDED||||||Regression, Linear|||Outcome: MoCA at Month 6 Among MCI||||.03
92267370|NCT02871921|184436424|EQUIVALENCE|A linear regression model was run with the outcome being the Category Fluency test score at Month 6, controlling for tits baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Mean Difference (Final Values)|2.56|STANDARD_ERROR_OF_MEAN|1.19||0.03|TWO_SIDED||||||Regression, Linear|||Outcome: Category fluency animals Among participants with normal cognition||||0.03
92267371|NCT02871921|184436424|OTHER|A linear regression model was run with the outcome being the Category Fluency test score at Month 6, controlling for tits baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.93||0.46|TWO_SIDED||||||Regression, Linear|||Outcome: Category Fluency (Animals) at Month 6 Among MCI participants||||0.46
92267372|NCT02871921|184436425|EQUIVALENCE|A linear regression model was run with the outcome being the Craft Stroy Immediate Recall score at Month 6, controlling for its baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.82||0.45|TWO_SIDED||||||Regression, Linear|||Outcome: Craft Stroy Immediate Recall (paraphrase scoring) Among participants with normal cognition||||0.45
92189803|NCT00043186|184278666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.5|||<|0.001||95.0|4.32|8.67|||ANCOVA|||||8.67|4.32|<0.001
92310348|NCT00591773|184520981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96|||<|0.001|TWO_SIDED|95.0|1.83|4.79||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||4.79|1.83|<0.001
92310349|NCT02135614|184520982|SUPERIORITY||Treatment difference|0.12||||0.46|TWO_SIDED|95.0|-0.2|0.43||P-value was calculated from the ANCOVA model including baseline values, Clinical Frailty Scale (CFS) score, and stratification factor as covariates.|ANCOVA|||||0.43|-0.20|0.46
92310350|NCT02135614|184520983|SUPERIORITY||Treatment difference|0.08||||0.046|TWO_SIDED|95.0|0.0|0.16||P-value was calculated from the ANCOVA model including the baseline value, CFS score and stratification factor as covariates.|ANCOVA|||||0.16|0.00|0.046
92310351|NCT02135614|184520984|SUPERIORITY|||||||0.39||||||P-value was calculated from the negative binomial model with the stratification factor as covariate.|Negative Binomial Model|||||||0.39
92310352|NCT02135614|184520985|SUPERIORITY|||||||0.004||||||P-value from the negative binomial model comparing the rate ratio between treatment groups, adjusted for the stratification factor.|Negative Binomial Model|||||||0.004
92189804|NCT00043186|184278666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.65||||0.013||95.0|0.55|4.75|||ANCOVA|||||4.75|0.55|0.013
92189805|NCT00043186|184278666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.43|||<|0.001||95.0|10.19|14.68|||ANCOVA|||||14.68|10.19|<0.001
92310353|NCT03022084|184520986|NON_INFERIORITY|The probability that Desyncra is non-inferior to CBT, defined by the sponsor as the event that mean TQ score change from baseline in the Desyncra arm is no more than 3.5 points worse than the mean TQ change in the CBT arm.|||||||||||||Bayesian|Data collected to date were analyzed using a Bayesian approach.|||Data collected to date were analyzed using a Bayesian approach.|||
92310354|NCT02640482|184520987|NON_INFERIORITY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for Arm A as compared with the historical rate for patients treated with the current standard of care (SOF + RBV for 12 weeks) was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 89% to achieve noninferiority.|Percentage of Participants|99.5|||||TWO_SIDED|95.0|98.5|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of ≥96% in the Arm A (180 participants) provides \>90% power to demonstrate noninferiority of ABT-493/ABT-530 to the historical rate for patients treated with the current standard of care (SOF + RBV for 12 weeks) (95%) (based on the normal approximation of using a single binomial proportion a one-sample test for superiority).||100.0|98.5|
92310355|NCT02640482|184520988|SUPERIORITY|The superiority of the rate of sustained virologic response at 12 weeks after treatment for Arm A as compared with the historical rate for patients treated with the current standard of care (SOF + RBV for 12 weeks) was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 95% to achieve superiority.|Percentage of Participants|99.5|||||TWO_SIDED|95.0|98.5|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of ≥96% in the Arm A (180 participants) provides \>90% power to demonstrate superiority of ABT-493/ABT-530 to the historical rate for patients treated with the current standard of care (SOF + RBV for 12 weeks) (95%) (based on the normal approximation of a single binomial proportion using a one-sample test for superiority).||100.0|98.5|
92189806|NCT00043186|184278666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.84|||<|0.001||95.0|8.74|12.94|||ANCOVA|||||12.94|8.74|<0.001
92189807|NCT00043186|184278666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.79|||<|0.001||95.0|7.69|11.89|||ANCOVA|||||11.89|7.69|<0.001
92310356|NCT00605540|184521015|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Wilcoxon (Mann-Whitney)|||All data were analyzed using SigmaStat 3.2 (Inc., USA) software. Mean ± SD or median interquartile range (25-75%) was used depending on the data distribution. Wilcoxon test was applied to compare the characteristics at baseline to those observed after 3 years.||||0.09
92310357|NCT01235195|184521024|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of adjusted means|104.86|||||TWO_SIDED|90.0|100.12|109.83|||||Reference treatment=Sertraline hydrochloride 50 mg hard gelatin capsule. Test treatment=sertraline hydrochloride 50 mg film-coated tablet.|Natural log-transformed AUC (0-72) analyzed using a mixed effect model with sequence, period, treatment as fixed effects; subject within sequence as a random effect. Estimates of adjusted mean differences (Test minus Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model. Adjusted mean differences and 90% CIs for differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test divided by Reference) and 90% CIs for the ratios.||109.83|100.12|
92189808|NCT00043186|184278666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.74|||<|0.001||95.0|1.37|6.12|||ANCOVA|||||6.12|1.37|<0.001
92189809|NCT00043186|184278666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.97|||<|0.001||95.0|8.63|13.32|||ANCOVA|||||13.32|8.63|<0.001
92189810|NCT00043186|184278666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.37|||<|0.001||95.0|8.16|12.59|||ANCOVA|||||12.59|8.16|<0.001
92189811|NCT00043186|184278667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.42||||0.02||95.0|0.89|9.95|||ANCOVA|||||9.95|0.89|0.02
92189812|NCT00043186|184278667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.992||95.0|-5.07|5.02|||ANCOVA|||||5.02|-5.07|0.992
92189813|NCT00043186|184278667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9||||0.004||95.0|3.72|14.09|||ANCOVA|||||14.09|3.72|0.004
92189814|NCT00043186|184278667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.5||||0.001||95.0|4.15|12.86|||ANCOVA|||||12.86|4.15|0.001
92189815|NCT00043186|184278667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.37||||0.001||95.0|4.11|12.63|||ANCOVA|||||12.63|4.11|0.001
92189816|NCT00043186|184278667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.98||||0.292||95.0|-1.42|9.37|||ANCOVA|||||9.37|-1.42|0.292
92189817|NCT00043186|184278667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.95||||0.004||95.0|3.94|13.96|||ANCOVA|||||13.96|3.94|0.004
92310358|NCT01235195|184521025|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of adjusted means|105.34|||||TWO_SIDED|90.0|98.46|112.69|||||Reference treatment=Sertraline hydrochloride 50 mg hard gelatin capsule. Test treatment=sertraline hydrochloride 50 mg film-coated tablet.|Natural log-transformed Cmax analyzed using a mixed effect model with sequence, period, treatment as fixed effects; subject within sequence as a random effect. Estimates of adjusted mean differences (Test minus Reference) and corresponding 90% CIs were obtained from the model. Adjusted mean differences and 90% CIs for differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test divided by Reference) and 90% CIs for the ratios.||112.69|98.46|
92310359|NCT01235195|184521027|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of adjusted means|106.1|||||TWO_SIDED|90.0|100.16|112.39|||||Reference treatment=Sertraline hydrochloride 50 mg hard gelatin capsule. Test treatment=sertraline hydrochloride 50 mg film-coated tablet.|Natural log-transformed AUC (0-∞) analyzed using a mixed effect model with sequence, period, treatment as fixed effects; subject within sequence as a random effect. Estimates of adjusted mean differences (Test minus Reference) and corresponding 90% CIs were obtained from the model. Adjusted mean differences and 90% CIs for differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test divided by Reference) and 90% CIs for the ratios.||112.39|100.16|
92310360|NCT02119819|184521030|SUPERIORITY||Posterior Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.16||0.459|TWO_SIDED|90.0|-1.05|-0.52|||Bayesian|||||-0.52|-1.05|0.459
92310361|NCT02119819|184521030|SUPERIORITY||Posterior Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.16||0.511|TWO_SIDED|90.0|-1.07|-0.54|||Bayesian|||||-0.54|-1.07|0.511
92310362|NCT02119819|184521030|SUPERIORITY||Posterior Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.16||0.988|TWO_SIDED|90.0|-1.41|-0.89|||Bayesian|||||-0.89|-1.41|0.988
92189818|NCT00043186|184278667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.12||||0.094||95.0|0.57|11.67|||ANCOVA|||||11.67|0.57|0.094
92189819|NCT00043186|184278668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.93|||<|0.001||95.0|3.97|9.89|||ANCOVA|||||9.89|3.97|<0.001
92189820|NCT00043186|184278668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.89|||<|0.001||95.0|1.92|7.85|||ANCOVA|||||7.85|1.92|<0.001
92189821|NCT00043186|184278668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.15|||<|0.001||95.0|11.08|17.21|||ANCOVA|||||17.21|11.08|<0.001
92310363|NCT02119819|184521030|SUPERIORITY||Posterior Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.16||0.934|TWO_SIDED|90.0|-1.3|-0.78|||Bayesian|||||-0.78|-1.30|0.934
92310364|NCT02119819|184521030|SUPERIORITY||Posterior Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.16||0.373|TWO_SIDED|90.0|0.08|0.61|||Bayesian|||||0.61|0.08|0.373
92310365|NCT02119819|184521030|SUPERIORITY||Posterior Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.16||0.433|TWO_SIDED|90.0|0.07|0.59|||Bayesian|||||0.59|0.07|0.433
92310366|NCT02119819|184521030|SUPERIORITY||Posterior Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.16||0.978|TWO_SIDED|90.0|-0.28|0.24|||Bayesian|||||0.24|-0.28|0.978
92310367|NCT02119819|184521030|SUPERIORITY||Posterior Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.16||0.904|TWO_SIDED|90.0|-0.17|0.35|||Bayesian|||||0.35|-0.17|0.904
92310368|NCT01421511|184521070|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the early clinical response rates at 48 to 72 Hours after the first infusion of study drug using the method of Miettinen and Nurminen without stratification. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10%.|Risk Difference (RD)|2.6|||||TWO_SIDED|95.0|-3.0|8.2|||||Risk difference corresponds to the tedizolid responder rate minus the linezolid responder rate.|||8.2|-3.0|
92189822|NCT00043186|184278668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.73|||<|0.001||95.0|9.94|15.52|||ANCOVA|||||15.52|9.94|<0.001
92310369|NCT01421511|184521071|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the programmatic clinical response at the EOT visit using the method of Miettinen and Nurminen without stratification. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-6.1|4.1||Hierarchical testing procedure of Westfall and Krishen used to control for inflation of the overall type I error rate. If NI is declared for the primary, NI will be tested for the secondary outcomes in this order: Secondary Outcomes Measures 2 to 5.|||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|||4.1|-6.1|
92310370|NCT01421511|184521072|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the Investigator's assessment of clinical response at the EOT Visit using the method of Miettinen and Nurminen without stratification. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-4.1|||||TWO_SIDED|95.0|-8.8|0.3|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|||0.3|-8.8|
92189823|NCT00043186|184278668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.49|||<|0.001||95.0|9.66|15.32|||ANCOVA|||||15.32|9.66|<0.001
92189824|NCT00043186|184278668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.42|||<|0.001||95.0|8.12|14.73|||ANCOVA|||||14.73|8.12|<0.001
92189825|NCT00043186|184278668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.32|||<|0.001||95.0|9.15|15.49|||ANCOVA|||||15.49|9.15|<0.001
92189826|NCT00043186|184278668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.74|||<|0.001||95.0|8.72|14.76|||ANCOVA|||||14.76|8.72|<0.001
92189827|NCT00043186|184278669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189828|NCT00043186|184278669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189829|NCT00043186|184278669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189830|NCT00043186|184278669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189831|NCT00043186|184278669|SUPERIORITY_OR_OTHER|||||||0.622|||||||Wilcoxon (Mann-Whitney)|||||||0.622
92189832|NCT00043186|184278669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189833|NCT00043186|184278669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92310371|NCT01421511|184521073|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical success rate based on the Investigator's assessment of clinical response at the PTE Visit using the method of Miettinen and Nurminen without stratification. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-4.8|5.3|||||Risk difference corresponds to the tedizolid clinical success rate minus the linezolid clinical success rate.|||5.3|-4.8|
92310372|NCT01421511|184521074|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical success rate based on the Investigator's assessment of clinical response at the PTE Visit using the method of Miettinen and Nurminen without stratification. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-3.7|||||TWO_SIDED|95.0|-7.7|0.2|||||Risk difference corresponds to the tedizolid clinical success rate minus the linezolid clinical success rate.|||0.2|-7.7|
92310373|NCT01421511|184521075|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.2|||||TWO_SIDED|95.0|-3.3|5.6|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the Investigator's assessment of clinical response at the 48-72 Hour Visit using the method of Miettinen and Nurminen without stratification.||5.6|-3.3|
92310374|NCT01421511|184521076|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.9|||||TWO_SIDED|95.0|-3.2|4.9|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the Investigator's assessment of clinical response at the Day 7 Visit using the method of Miettinen and Nurminen without stratification.||4.9|-3.2|
92310375|NCT00106964|184521082|SUPERIORITY_OR_OTHER|||||||0.044|||||||Chi-squared|||||||0.0440
92310376|NCT00106964|184521082|SUPERIORITY_OR_OTHER|||||||0.0157|||||||Chi-squared|||||||0.0157
92310377|NCT00106964|184521086|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.5822||95.0|||||Regression, Cox|||||||0.5822
92310378|NCT00106964|184521086|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.8698||95.0|||||Regression, Cox|||||||0.8698
92310379|NCT00106964|184521087|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.29||||0.0853|TWO_SIDED|95.0|0.07|1.19|||Regression, Logistic||Adjusted odds ratio (OR) Odds ratio depends on CD4 count resulting from interaction. For example, OR=0.29 for CD4 count = 0; OR= 2.91 for CD4 count = 460 (median CD4 count for the evaluable study population).|||1.19|0.07|0.0853
92310380|NCT00106964|184521087|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.99||||0.0244|TWO_SIDED|95.0|1.09|3.63|||Regression, Logistic||Adjusted odds ratio|||3.63|1.09|0.0244
92310381|NCT04040192|184521088|OTHER|||||||0.0034||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||||||0.0034
92310382|NCT04040192|184521090|OTHER|Analysis of covariance (ANCOVA) model included fixed effects of treatment group, age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Least square mean difference|34.59|STANDARD_ERROR_OF_MEAN|16.274||0.0346|TWO_SIDED|95.0|2.53|66.64|||ANCOVA|||||66.64|2.53|0.0346
92310383|NCT04040192|184521091|OTHER||Median Difference (Final Values)|-0.5||||0.0042|TWO_SIDED|95.0|-1.0|0.0||p-value was estimated by Wilcoxon rank sum test stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Wilcoxon (Mann-Whitney)||Median difference and 95%CI were estimated using Hodges-Lehmann method.|||0.00|-1.00|0.0042
92310384|NCT04040192|184521092|OTHER|||||||0.6815||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||Baseline PP NRS \>=3 and \>=3 point reduction in PP NRS||||0.6815
92310385|NCT04040192|184521092|OTHER|||||||0.1518||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||Baseline PP NRS \>=4 and \>=4 point reduction in PP NRS||||0.1518
92310386|NCT04040192|184521093|OTHER|||||||0.1933||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization|Log Rank|||||||0.1933
92310387|NCT04040192|184521094|OTHER|p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization||||||0.3778|||||||Log Rank|||Baseline ORIS Scale \>=3 and \>=3 point reduction||||0.3778
92310388|NCT04040192|184521094|OTHER|p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization||||||0.487|||||||Log Rank|||Baseline ORIS Scale \>=4 and \>=4 point reduction||||0.4870
92310389|NCT04040192|184521095|OTHER|||||||0.1159||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||||||0.1159
92310390|NCT04040192|184521096|OTHER|||||||0.6973||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||DLQI for participants \>=16 years of age||||0.6973
92310391|NCT04040192|184521096|OTHER|||||||0.7456||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||Children's DLQI: participants 4-\<16 yrs of age||||0.7456
92310392|NCT04040192|184521097|OTHER|||||||0.0513||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||POEM||||0.0513
92310393|NCT04040192|184521097|OTHER|||||||0.0217||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||Proxy POEM||||0.0217
92310394|NCT03207243|184521190|OTHER||Median Rate Ratio|0.82|||||TWO_SIDED|95.0|0.66|0.99|||||Median rate ratio (Placebo - GSK3772847) and its 95% Credible Interval has been presented|||0.99|0.66|
92310395|NCT03207243|184521195|OTHER||Median Rate Ratio|0.71|||||TWO_SIDED|95.0|0.44|1.01|||||Median rate ratio (Placebo - GSK3772847) and its 95% Credible Interval has been presented|||1.01|0.44|
92310396|NCT03207243|184521196|OTHER|||||||0.044|||||||Log Rank|||||||0.044
92310397|NCT03207243|184521240|OTHER||Percent change|-93.4|||<|0.001|TWO_SIDED|95.0|-94.9|-91.7||Week 4|mixed model repeated measures analysis|||||-91.7|-94.9|<0.001
92310398|NCT03207243|184521240|OTHER||Percent change|-92.9|||<|0.001|TWO_SIDED|95.0|-94.8|-90.3||Week 8|mixed model repeated measures analysis|||||-90.3|-94.8|<0.001
92310399|NCT03207243|184521240|OTHER||Percent change|-93.2|||<|0.001|TWO_SIDED|95.0|-95.4|-90.0||Week 12|mixed model repeated measures analysis|||||-90.0|-95.4|<0.001
92189834|NCT00043186|184278669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92310400|NCT03207243|184521240|OTHER||Percent change|-93.3|||<|0.001|TWO_SIDED|95.0|-95.3|-90.4||Week 16|mixed model repeated measures analysis|||||-90.4|-95.3|<0.001
92310401|NCT03207243|184521241|OTHER||Percent change|2300.4|||<|0.001|TWO_SIDED|95.0|1833.9|2879.3||Week 4|mixed model repeated measures analysis|||||2879.3|1833.9|<0.001
92310402|NCT03207243|184521241|OTHER||Percent change|2507.7|||<|0.001|TWO_SIDED|95.0|1924.2|3259.4||Week 8|mixed model repeated measures analysis|||||3259.4|1924.2|<0.001
92310403|NCT03207243|184521241|OTHER||Percent change|2162.2|||<|0.001|TWO_SIDED|95.0|1489.1|3120.3||Week 12|mixed model repeated measures analysis|||||3120.3|1489.1|<0.001
92310404|NCT03207243|184521241|OTHER||Percent change|2663.0|||<|0.001|TWO_SIDED|95.0|1994.6|3544.8||Week 16|mixed model repeated measures analysis|||||3544.8|1994.6|<0.001
92189835|NCT00043186|184278670|SUPERIORITY_OR_OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
92189836|NCT00043186|184278670|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92310405|NCT00603837|184521266|SUPERIORITY_OR_OTHER|||||||0.445||95.0|||||t-test, 1 sided|||||||0.445
92310406|NCT01851330|184521298|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF 8 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
92310407|NCT01851330|184521298|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF+RBV 8 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
92189837|NCT00043186|184278670|SUPERIORITY_OR_OTHER|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||||||0.026
92310408|NCT01851330|184521298|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF 12 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
92310409|NCT01851330|184521298|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority would be demonstrated if the lower bound of the confidence interval (CI) for the difference between groups was greater than -12%.|Difference in proportions|-3.2|||||TWO_SIDED|97.5|-8.3|1.8|||||Difference in proportions between treatment groups and associated confidence interval (CI) were calculated based on stratum-adjusted Mantel-Haenszel proportions.|||1.8|-8.3|
92310410|NCT01851330|184521298|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority would be demonstrated if the lower bound of the CI for the difference between groups was greater than -12%.|Difference in proportions|-2.3|||||TWO_SIDED|97.5|-7.2|2.5|||||Difference in proportions between treatment groups and associated confidence interval (CI) were calculated based on stratum-adjusted Mantel-Haenszel proportions.|||2.5|-7.2|
92310411|NCT01851330|184521298|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority would be demonstrated if the lower bound of the CI for the difference between groups was greater than -12%.|Difference in proportions|0.9|||||TWO_SIDED|95.0|-3.9|5.7|||||Difference in proportions between treatment groups and associated confidence interval (CI) were calculated based on stratum-adjusted Mantel-Haenszel proportions.|||5.7|-3.9|
92310412|NCT02318303|184521316|SUPERIORITY||Mean Difference (Final Values)|-1.1087|||<|0.0001|TWO_SIDED|97.5|-1.669|-0.5485|||ANCOVA|||||-0.5485|-1.6690|<0.0001
92310413|NCT02318303|184521316|SUPERIORITY||Mean Difference (Final Values)|-1.1703|||<|0.0001|TWO_SIDED|97.5|-1.7315|-0.609|||ANCOVA|||||-0.6090|-1.7315|<0.0001
92310414|NCT02318303|184521316|SUPERIORITY||Mean Difference (Final Values)|-0.7718||||0.002|TWO_SIDED|95.0|-1.2616|-0.282|||ANCOVA|||||-0.2820|-1.2616|0.0020
92310415|NCT02318303|184521316|SUPERIORITY||Mean Difference (Final Values)|-0.3563||||0.1524|TWO_SIDED|95.0|-0.8445|0.1319|||ANCOVA|||||0.1319|-0.8445|0.1524
92310416|NCT02318303|184521316|SUPERIORITY||Mean Difference (Final Values)|-0.4918||||0.0488|TWO_SIDED|95.0|-0.981|-0.0025|||ANCOVA|||||-0.0025|-0.9810|0.0488
92310417|NCT02318303|184521316|SUPERIORITY||Mean Difference (Final Values)|-0.7133||||0.0043|TWO_SIDED|95.0|-1.2031|-0.2235|||ANCOVA|||||-0.2235|-1.2031|0.0043
92310418|NCT02960490|184521317|SUPERIORITY||Difference from Placebo|-4.7||||0.621|TWO_SIDED|95.0|-25.85|16.46|||Regression, Logistic|||||16.46|-25.85|0.621
92189838|NCT00043186|184278670|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92189839|NCT00043186|184278670|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189840|NCT00043186|184278670|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189841|NCT00043186|184278670|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189842|NCT00043186|184278670|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189843|NCT00043186|184278671|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189844|NCT00043186|184278671|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
92189845|NCT00043186|184278671|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
92189846|NCT00043186|184278671|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92189847|NCT00043186|184278671|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
92189848|NCT00043186|184278671|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
92189849|NCT00043186|184278671|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92310419|NCT00423319|184521355|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.36|||<|0.0001|TWO_SIDED|95.0|0.22|0.54||Statistically significant at the 1-sided 0.025 level|Farrington-Manning test||Apixaban-enoxaparin|||0.54|0.22|<0.0001
92310420|NCT00423319|184521355|SUPERIORITY_OR_OTHER||Risk Difference|-2.47|||<|0.0001|TWO_SIDED|95.0|-3.54|1.5||Statistically significant at the 1-sided 0.025 level|Farrington-Manning test||Apixaban-enoxaparin|||1.50|-3.54|<0.0001
92310421|NCT00423319|184521356|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4|||<|0.0001|TWO_SIDED|95.0|0.15|0.8||Statistically significant at the 1-sided 0.025 level|Farrington-Manning test||Apixaban-enoxaparin|||0.80|0.15|<0.0001
92310422|NCT00423319|184521356|SUPERIORITY_OR_OTHER||Risk difference|-0.68||||0.0054|TWO_SIDED|95.0|-1.27|-0.17||Statistically significant at the 1-sided 0.025 level|Chi-squared||Apixaban-enoxaparin|||-0.17|-1.27|0.0054
92310423|NCT00423319|184521358|SUPERIORITY_OR_OTHER||Difference in event rates|0.15||||0.54|TWO_SIDED|95.0|-0.33|0.64||2-sided P-Value|Chi-squared||Major bleeding. Apixaban-enoxaparin|||0.64|-0.33|0.54
92310424|NCT00423319|184521358|SUPERIORITY_OR_OTHER||Difference in event rates|-0.44||||0.43|TWO_SIDED|95.0|-1.53|0.66||2-sided P-Value|Chi-squared||CRNM. Apixaban-enoxaparin|||0.66|-1.53|0.43
92310425|NCT00423319|184521358|SUPERIORITY_OR_OTHER||Difference in event rates|-0.21||||0.72|TWO_SIDED|95.0|-1.38|0.95||2-sided P-Value|Chi-squared||Major or CRNM. Apixaban-enoxaparin|||0.95|-1.38|0.72
92310426|NCT00423319|184521358|SUPERIORITY_OR_OTHER||Difference in event rate|-0.85||||0.34|TWO_SIDED|95.0|-2.61|0.9||2-sided P-Value|Chi-squared||Any bleeding. Apixaban-enoxaparin|||0.90|-2.61|0.34
92310427|NCT00423319|184521368|SUPERIORITY_OR_OTHER||Difference in event rates|-0.04|||||TWO_SIDED|95.0|-0.34|0.26|||||Apixaban-enoxaparin. MI/stroke|||0.26|-0.34|
92310428|NCT00423319|184521368|SUPERIORITY_OR_OTHER||Difference in event rates|0.07|||||TWO_SIDED|95.0|-0.17|0.34|||||Apixaban-enoxaparin. MI|||0.34|-0.17|
92310429|NCT00423319|184521368|SUPERIORITY_OR_OTHER||Difference in event rates|-0.11|||||TWO_SIDED|95.0|-0.35|0.07|||||Apixaban-enoxaparin. Stroke|||0.07|-0.35|
92310430|NCT00423319|184521368|SUPERIORITY_OR_OTHER||Difference in event rates|-0.04|||||TWO_SIDED|95.0|-0.26|0.17|||||Apixaban-enoxaparin. Thrombocytopenia|||0.17|-0.26|
92310431|NCT04630158|184521384|SUPERIORITY||Least Square (LS) mean difference|1.6|STANDARD_ERROR_OF_MEAN|5.1||0.93|TWO_SIDED|95.0|-8.5|11.7||Reporting the adjusted p-value derived based on Dunett procedure.|Mixed Models Analysis|mixed-model repeated measures (MMRM) analysis||||11.7|-8.5|0.930
92189850|NCT00043186|184278671|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92310432|NCT04630158|184521384|SUPERIORITY||Least Square (LS) mean difference|3.7|STANDARD_ERROR_OF_MEAN|5.11||0.699|TWO_SIDED|95.0|-6.4|13.8||Reporting the adjusted p-value derived based on Dunett procedure.|Mixed Models Analysis|mixed-model repeated measures (MMRM) analysis||||13.8|-6.4|0.699
92310433|NCT05162014|184521401|OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.76|1.02|||Regression, Cox|Cox proportional hazards regression models based on time-to-first acute pancreatitis used to estimate the hazard ratios.||||1.02|0.76|
92310434|NCT03020589|184521425|SUPERIORITY||Risk Ratio (RR)|1.27||||0.58|TWO_SIDED|95.0|0.67|2.05|||Fisher Exact|||||2.05|0.67|0.58
92310435|NCT03020589|184521426|SUPERIORITY||Risk Ratio (RR)|1.26||||0.46|TWO_SIDED|95.0|0.72|2.02|||Fisher Exact|||||2.02|0.72|0.46
92310436|NCT05819203|184521439|SUPERIORITY|||||||0.0013|||||||Wilcoxon (Mann-Whitney)|||Comparison of the means of AUC on global score or ARSSQ during the first 10 days of the study between both groups.||||0.0013
92310437|NCT05819203|184521440|SUPERIORITY|||||||0.0209|||||||Cox survival regression and p Wald|||Comparison of the mean duration of common cold during the study between both groups.||||0.0209
92310438|NCT05819203|184521441|SUPERIORITY|||||||0.0399|||||||Cox survival regression and p Wald|||Comparison of the mean duration of impact of common cold on quality of life during the study between both groups.||||0.0399
92310439|NCT05819203|184521442|SUPERIORITY|||||||0.0015|||||||Poisson regression|||||||0.0015
92310440|NCT05819203|184521443|SUPERIORITY||||||>|0.05||||||not significant|Poisson regression|||||||>0.05
92310441|NCT05819203|184521444|SUPERIORITY|||||||0.0029|||||||Poisson regression|||||||0.0029
92310442|NCT05819203|184521445|SUPERIORITY|||||||0.0006|||||||Poisson regression|||||||0.0006
92310443|NCT05819203|184521446|SUPERIORITY|||||||0.0513|||||||Poisson regression|||||||0.0513
92310444|NCT05819203|184521447|SUPERIORITY|||||||0.0789|||||||Poisson regression|||||||0.0789
92310445|NCT05819203|184521448|SUPERIORITY||||||<|0.0001|||||||Poisson regression|||||||<0.0001
92310446|NCT05819203|184521449|SUPERIORITY|Comparison of the means of AUC on global score or ARSSQ during the first 10 days of the study between both groups.||||||0.0034|||||||t-test, 2 sided|||||||0.0034
92189851|NCT00043186|184278672|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||0.015
92189852|NCT00043186|184278672|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.050
92189853|NCT00043186|184278672|SUPERIORITY_OR_OTHER|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
92189854|NCT00043186|184278672|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92189855|NCT00043186|184278672|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
92310447|NCT02952898|184521450|SUPERIORITY||||||<|0.0001|||||||Chi-squared, Corrected|||Two-sided, continuity-corrected Chi-square tests was used to evaluate the superiority of GDC 695 gel's complete clearance proportion over that of the Vehicle treatment in the mITT population using LOCF.||||<0.0001
92310448|NCT02952898|184521450|SUPERIORITY||||||<|0.0001|||||||Chi-squared, Corrected|||Two-sided, continuity-corrected Chi-square tests was used to evaluate the superiority of Diclofenac sodium gel's complete clearance proportion over that of the Vehicle treatment in the mITT population using LOCF.||||<0.0001
92310449|NCT03888066|184521490|SUPERIORITY||Mean Difference (Final Values)|-0.097|STANDARD_ERROR_OF_MEAN|0.015|<|0.001|TWO_SIDED|95.0|-0.128|-0.067|||Mixed model for repeated measures (MMRM)|||Difference in adjusted mean changes (SE)||-0.067|-0.128|< 0.001
92310450|NCT03888066|184521491|SUPERIORITY||Hazard Ratio (HR)|0.63|||=|0.006|TWO_SIDED|95.0|0.45|0.87||Threshold for statistical significance = 0.05|Regression, Cox|||"Hazard Ratio patiromer vs placebo.~The HR for the time to first hyperkalemia event for patiromer vs placebo was calculated. HR and p-value come from a Cox proportional regression model adjusted for geographic region, sex, Baseline T2DM status, Baseline K+ value, and Baseline eGFR.~HR = Hazard Ratio; T2DM=Type 2 diabetes mellitus; eGFR=Estimated glomerular filtration rate"||0.87|0.45|= 0.006
92310451|NCT03888066|184521492|SUPERIORITY||Hazard Ratio (HR)|0.62|||=|0.006|TWO_SIDED|95.0|0.45|0.87||Threshold for statistical significance = 0.05|Regression, Cox|||"Hazard Ratio patiromer vs placebo.~The HR for the time to first hyperkalemia event for patiromer vs placebo was calculated. HR and p-value come from a Cox proportional regression model adjusted for geographic region, sex, Baseline T2DM status, Baseline K+ value, and Baseline eGFR.~HR = Hazard Ratio; T2DM=Type 2 diabetes mellitus; eGFR=Estimated glomerular filtration rate"||0.87|0.45|= 0.006
92310452|NCT03888066|184521493|SUPERIORITY||Annualized event rate ratio|0.658|||<|0.001|TWO_SIDED|95.0|0.534|0.81|||Negative binomial model adjusted for cov|||"NBMAC Annualized event RR patiromer vs placebo.~NBMAC adjusted for geographical region, sex, Baseline T2DM status, Baseline K+ value, and Baseline eGFR. Rate ratio less than 1 favors patiromer.~NBMAC=Negative binomial model adjusted for covariates; RR=Rate Ratio; T2DM=Type 2 diabetes mellitus; eGFR=Estimated glomerular filtration rate"||0.81|0.534|< 0.001
92310453|NCT03888066|184521494|SUPERIORITY||Win Ratio|1.526|||<|0.001|TWO_SIDED|95.0|1.231|1.906|||Win Ratio|||"Win ratio for composite.~Win ratio approach: Patients in the new treatment and control groups are formed into matched pairs based on their risk profiles. For each matched pair, the new treatment patient is labelled winner/loser depending on CV/hyperkalemia event first. The win ratio is the total number of winners divided by the total numbers of losers."||1.906|1.231|<0.001
92310454|NCT03888066|184521494|SUPERIORITY||Win Ratio|0.914|||=|0.744|TWO_SIDED|95.0|0.526|1.578|||Win Ratio|||"Win ratio CV death and hospitalization.~Win ratio approach: Patients in the new treatment and control groups are formed into matched pairs based on their risk profiles. For each matched pair, the new treatment patient is labelled winner/loser depending on CV/hyperkalemia event first. The win ratio is the total number of winners divided by the total numbers of losers. Unmatched win ratio is presented for this endpoint. Win ratio above 1 favors patiromer."||1.578|0.526|= 0.744
92310455|NCT03888066|184521495|SUPERIORITY||Win Ratio|1.248|||=|0.048|TWO_SIDED|95.0|1.003|1.564|||Win Ratio|||"Win ratio for composite.~Win ratio approach: Patients in the new treatment and control groups are formed into matched pairs based on their risk profiles. For each matched pair, the new treatment patient is labelled winner/loser depending on CV/hyperkalemia event first. The win ratio is the total number of winners divided by the total numbers of losers. Unmatched win ratio is presented for this endpoint. Win ratio above 1 favors patiromer."||1.564|1.003|= 0.048
92310456|NCT02207634|184521547|NON_INFERIORITY|The non-inferiority margin was 0.19, calculated as 20% of the observed common standard deviation, which was estimated from observations in the placebo group by a repeated measured mixed-effect linear model with visit as a covariate. If the upper bound of the 95% CI for the difference between the placebo and evolocumab group in mean change from baseline for Z score averaged across the visits was less than the non-inferiority margin non-inferiority criteria were met.|Treatment Difference|0.0072|STANDARD_ERROR_OF_MEAN|0.0375|||TWO_SIDED|95.0|-0.0664|0.0808||||||A repeated measures mixed-effect linear model was used to estimate treatment difference (placebo - evolocumab) in change from baseline and associated 95% confidence intervals (CI). The model included stratification factors for Study 20110118 (final screening low-density lipoprotein cholesterol \[LDL-C\] and geographical region), age, education level, baseline SWM strategy index Z score, treatment group, visit, and treatment by visit interaction.||0.0808|-0.0664|
92310457|NCT02207634|184521548|OTHER||Treatment Difference|0.0333|STANDARD_ERROR_OF_MEAN|0.0363|||TWO_SIDED|95.0|-0.0378|0.1045||||||A repeated measures mixed-effect linear model was used to estimate treatment difference (placebo - evolocumab) in change from baseline and associated 95% confidence intervals (CI). The model included stratification factors for Study 20110118 (final screening LDL-C and geographical region), age, education level, baseline SWM between-errors Z score, treatment group, visit, and treatment by visit interaction.||0.1045|-0.0378|
92310458|NCT02207634|184521549|OTHER||Treatment Difference|0.0226|STANDARD_ERROR_OF_MEAN|0.033|||TWO_SIDED|95.0|-0.0422|0.0873||||||A repeated measures mixed-effect linear model was used to estimate treatment difference (placebo - evolocumab) in change from baseline and associated 95% confidence intervals (CI). The model included stratification factors for Study 20110118 (final screening LDL-C and geographical region), age, education level, baseline PAL total errors adjusted Z score, treatment group, visit, and treatment by visit interaction.||0.0873|-0.0422|
92310459|NCT02207634|184521550|OTHER||Treatment Difference|0.0727|STANDARD_ERROR_OF_MEAN|0.0382|||TWO_SIDED|95.0|-0.0022|0.1477||||||A repeated measures mixed-effect linear model was used to estimate treatment difference ( placebo - evolocumab) in change from baseline and associated 95% confidence intervals (CI). The model included stratification factors for Study 20110118 (final screening LDL-C and geographical region), age, education level, baseline RTI median 5-choice reaction time Z score, treatment group, visit, and treatment by visit interaction.||0.1477|-0.0022|
92189856|NCT00043186|184278672|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.050
92310460|NCT05384171|184521618|SUPERIORITY||Partial Eta Squared (effect size)|0.02||||0.617|TWO_SIDED||||||ANCOVA|||||||.617
92310461|NCT05384171|184521620|SUPERIORITY||Partial Eta Squared (effect size)|0.089||||0.214|TWO_SIDED||||||ANCOVA|||Null hypothesis: Intervention and active control group intention follow-up means are equal when controlling for covariates (i.e., baseline intention scores and age)||||.214
92310462|NCT05384171|184521620|SUPERIORITY||Partial Eta Squared (effect size)|0.001||||0.894|TWO_SIDED||||||ANCOVA|||Null hypothesis: Intervention and active control group attitude follow-up means are equal when controlling for covariates (i.e., baseline attitude scores and age)||||.894
92310463|NCT05384171|184521620|SUPERIORITY||Partial Eta Squared (Effect Size)|0.053||||0.359|TWO_SIDED||||||ANCOVA|||Null hypothesis: Intervention and active control group social norms follow-up means are equal when controlling for covariates (i.e., baseline social norms scores and age)||||.359
92310464|NCT05384171|184521620|SUPERIORITY||Partial Eta Squared (Effect Size)|0.058||||0.322|TWO_SIDED||||||ANCOVA|||Null hypothesis: Intervention and active control group perceived behavioral control follow-up means are equal when controlling for covariates (i.e., baseline perceived behavioral control scores and age)||||.322
92310465|NCT05384171|184521621|SUPERIORITY||Partial Eta Squared (effect size)|0.001||||0.891|TWO_SIDED||||||ANCOVA|||||||.891
92310466|NCT02052011|184521638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|||||TWO_SIDED|95.0|-0.08|0.62||||||||0.62|-0.08|
92310467|NCT00000620|184521639|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.12|TWO_SIDED|95.0|0.81|1.03||P-value presented is not adjusted for multiple comparisons. A priori significance level was 0.05.|Regression, Cox|||Adjustment performed for the following pre-specified factors: sub-trial assignment (Blood Pressure Trial or Lipid Trial), assignment to intensive BP group in BP Trial, assignment to fenofibrate group in Lipid Trial, the seven clinical center networks, and presence of clinical cardiovascular disease at baseline.||1.03|0.81|0.12
92189857|NCT00043186|184278672|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.050
92189858|NCT00043186|184278672|SUPERIORITY_OR_OTHER|||||||0.073|||||||Wilcoxon (Mann-Whitney)|||||||0.073
92189859|NCT00043186|184278673|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189860|NCT00043186|184278673|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189861|NCT00043186|184278673|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92310468|NCT00000620|184521640|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.02|TWO_SIDED|95.0|1.03|1.38||P-value presented is not adjusted for multiple comparisons. A priori significance level was 0.05.|Regression, Cox|||Adjustment performed for the following pre-specified factors: sub-trial assignment (Blood Pressure Trial or Lipid Trial), assignment to intensive BP group in BP Trial, assignment to fenofibrate group in Lipid Trial, the seven clinical center networks, and presence of clinical cardiovascular disease at baseline.||1.38|1.03|0.02
92310469|NCT00000620|184521641|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.2|TWO_SIDED|95.0|0.73|1.06||P-value is adjusted for interim monitoring. A priori significance level was 0.05.|Regression, Cox|Adjustment for the seven clinical center networks and presence of clinical cardiovascular disease at baseline as pre-specified in the study protocol.||Recruitment for the Blood PressureTrial was designed to enroll 4200 participant to have 94% power to detect a 20% reduction in the rate of MCE for patients in the intensive-therapy group as compared with the standard-therapy group, assuming a two-sided alpha level of 0.05, a primary-outcome rate of 4% per year in the standard-therapy group, and a planned average follow-up of approximately 5.6 years.||1.06|0.73|0.20
92310470|NCT00000620|184521642|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59||||0.01|TWO_SIDED|95.0|0.39|0.89||P-value presented is not adjusted for multiple comparisons. A priori significance level was 0.05.|Regression, Cox|Adjustment for the seven clinical center networks and presence of clinical cardiovascular disease at baseline as pre-specified in the study protocol.||||0.89|0.39|0.01
92310471|NCT00000620|184521643|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.32|TWO_SIDED|95.0|0.79|1.08||P-value is adjusted for interim monitoring. A priori significance level was 0.05.|Regression, Cox|Adjustment for the seven clinical center networks and presence of clinical cardiovascular disease at baseline as pre-specified in the study protocol.||Recruitment for the Glycemia Trial was designed to enroll 5800 participant to have 87% power to detect a 20% reduction in the rate of MCE for patients in the fenofibrate group as compared with the placebo group, assuming a two-sided alpha level of 0.05, a primary-outcome rate of 2.4% per year in the placebo group, and a planned average follow-up of approximately 5.6 years.||1.08|0.79|0.32
92310472|NCT00000620|184521644|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.3|TWO_SIDED|95.0|0.85|1.05||P-value presented is not adjusted for multiple comparisons. A priori significance level was 0.05.|Regression, Cox|Adjustment for the seven clinical center networks and presence of clinical cardiovascular disease at baseline as pre-specified in the study protocol.||||1.05|0.85|0.30
92310473|NCT01590797|184521648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001|TWO_SIDED|95.0|-0.5|-0.19|||Robust Regression|Robust regression using M-estimation with terms for treatment and the metformin stratum and type of insulin, and baseline A1C (%) as a covariate.||||-0.19|-0.50|<0.001
92310474|NCT01590797|184521649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.002|TWO_SIDED|95.0|-0.61|-0.14|||Robust Regression|Robust regression using M-estimation with terms for treatment and type of insulin, and baseline A1C (%) as a covariate.||||-0.14|-0.61|0.002
92310475|NCT01590797|184521650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.5|||<|0.001|TWO_SIDED|95.0|-38.4|-14.7|||ANCOVA|ANCOVA model with terms for treatment and the metformin stratum and type of insulin, and baseline 2-hr Post- Meal Glucose (mg/dL) as a covariate.||||-14.7|-38.4|<0.001
92310476|NCT03106987|184521653|OTHER||Hazard Ratio (HR)|0.566||||0.022|TWO_SIDED|95.0|0.372|0.868|||Stratified log-rank||Hazard Ratio (Cox Proportional Hazards model)|||0.868|0.372|0.0220
92189862|NCT00043186|184278673|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189863|NCT00043186|184278673|SUPERIORITY_OR_OTHER|||||||0.409|||||||Wilcoxon (Mann-Whitney)|||||||0.409
92189864|NCT00043186|184278673|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189865|NCT00043186|184278673|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92189866|NCT00043186|184278673|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92310477|NCT03106987|184521653|OTHER||Hazard Ratio (HR)|0.43||||0.0023|TWO_SIDED|95.0|0.264|0.708|||Stratified log-rank||Hazard Ratio (Cox Proportional Hazards model)|||0.708|0.264|0.0023
92310478|NCT02114385|184521681|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.50|GMT Ratio|1.23|||<|0.001|TWO_SIDED|95.0|1.04|1.45|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 6||1.45|1.04|<0.001
92310479|NCT02114385|184521681|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.50|GMT Ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.76|1.04|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 11||1.04|0.76|<0.001
92310480|NCT02114385|184521681|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.50|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.89|1.21|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 16||1.21|0.89|<0.001
92189867|NCT00043186|184278674|SUPERIORITY_OR_OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
92189868|NCT00043186|184278674|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189869|NCT00043186|184278674|SUPERIORITY_OR_OTHER|||||||0.077|||||||Wilcoxon (Mann-Whitney)|||||||0.077
92189870|NCT00043186|184278674|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92189871|NCT00043186|184278674|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92189872|NCT00043186|184278674|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92189873|NCT00043186|184278674|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92189874|NCT00043186|184278674|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92189875|NCT00043186|184278675|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||||||0.053
92189876|NCT00043186|184278675|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||||||0.053
92189877|NCT00043186|184278675|SUPERIORITY_OR_OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||||||0.022
92189878|NCT00043186|184278675|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
92189879|NCT00043186|184278675|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||||||0.053
92189880|NCT00043186|184278675|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||||||0.053
92189881|NCT00043186|184278675|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
92310481|NCT02114385|184521681|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.50|GMT Ratio|1.12|||<|0.001|TWO_SIDED|95.0|0.91|1.37|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 18||1.37|0.91|<0.001
92310482|NCT01651793|184521736|SUPERIORITY|||||||0.05||||||P value reference to the beverage x time interaction effect|ANCOVA|||Hypotheses were tested using a series (all outcome variables) of 2 Treatment x 4 Time point, repeated measures ANCOVAs that controlled for the prior night's sleep. Primary interests were the presence of statistically significant interactions of time and either cocoa versus placebo, cocoa + caffeine versus cocoa, or cocoa + caffeine versus caffeine-only. Significant interactions were decomposed using one-way ANOVAs and t-tests with familywise error controlled using LSD post-hoc tests.||||0.05
92310483|NCT01120704|184521776|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.906||||0.045|TWO_SIDED|95.0|0.822|0.998|||Regression, Cox|||The Cox regression model effects consisted of five treatment effects, 10 two-way treatment interactions, 10 three-way treatment interactions, and two covariates : two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||.998|.822|.045
92310484|NCT01120704|184521776|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.982||||0.705|TWO_SIDED|95.0|0.892|1.081|||Regression, Cox|||The Cox regression model effects consisted of five treatment effects, 10 two-way treatment interactions, 10 three-way treatment interactions, and two covariates : two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.081|.892|.705
92310485|NCT01120704|184521776|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.044||||0.382|TWO_SIDED|95.0|0.948|1.149|||Regression, Cox|||The Cox regression model effects consisted of five treatment effects, 10 two-way treatment interactions, 10 three-way treatment interactions, and two covariates : two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.149|.948|.382
92189882|NCT00043186|184278675|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||||||0.053
92310486|NCT01120704|184521776|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.954||||0.339|TWO_SIDED|95.0|0.867|1.05|||Regression, Cox|||The Cox regression model effects consisted of five treatment effects, 10 two-way treatment interactions, 10 three-way treatment interactions, and two covariates : two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.050|.867|.339
92310487|NCT01120704|184521776|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.945||||0.248|TWO_SIDED|95.0|0.858|1.04|||Regression, Cox|||||1.040|.858|.248
92310488|NCT01120704|184521777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.402||||0.011|TWO_SIDED|95.0|1.08|1.821|||Regression, Logistic|||The logistic regression model effects consisted of five treatment main effects and all treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., 8 Weeks of Nicotine Patch and Nicotine Gum vs. 26 Weeks of Nicotine Patch and Nicotine Gum) would result in significantly higher abstinence at 52 weeks after target quit day.||1.821|1.080|.011
92189883|NCT00043186|184278676|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.010
92189884|NCT00043186|184278676|SUPERIORITY_OR_OTHER|||||||0.172|||||||Wilcoxon (Mann-Whitney)|||||||0.172
92189885|NCT00043186|184278676|SUPERIORITY_OR_OTHER|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
92189886|NCT00043186|184278676|SUPERIORITY_OR_OTHER|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||||||0.047
92189887|NCT00043186|184278676|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||0.015
92310489|NCT01120704|184521777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.008||||0.956|TWO_SIDED|95.0|0.769|1.321|||Regression, Logistic|||The logistic regression model effects consisted of five treatment main effects and all treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Maintenance Counseling vs. Maintenance Counseling) would result in significantly higher abstinence at 52 weeks after target quit day.||1.321|.769|.956
92189888|NCT00043186|184278676|SUPERIORITY_OR_OTHER|||||||0.168|||||||Wilcoxon (Mann-Whitney)|||||||0.168
92189889|NCT00043186|184278676|SUPERIORITY_OR_OTHER|||||||0.168|||||||Wilcoxon (Mann-Whitney)|||||||0.168
92189890|NCT00043186|184278676|SUPERIORITY_OR_OTHER|||||||0.172|||||||Wilcoxon (Mann-Whitney)|||||||0.172
92189891|NCT00043186|184278677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.67|||<|0.001||95.0|1.7|3.64|||ANCOVA|||||3.64|1.70|<0.001
92189892|NCT00043186|184278677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9|||<|0.001||95.0|1.9|3.89|||ANCOVA|||||3.89|1.90|<0.001
92189893|NCT00043186|184278677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.09|||<|0.001||95.0|2.07|4.11|||ANCOVA|||||4.11|2.07|<0.001
92189894|NCT00043186|184278677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.12|||<|0.001||95.0|3.13|5.11|||ANCOVA|||||5.11|3.13|<0.001
92189895|NCT00043186|184278677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||<|0.001||95.0|1.55|3.46|||ANCOVA|||||3.46|1.55|<0.001
92189896|NCT00043186|184278677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.89|||<|0.001||95.0|2.83|4.95|||ANCOVA|||||4.95|2.83|<0.001
92189897|NCT00043186|184278677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.01|||<|0.001||95.0|1.99|4.04|||ANCOVA|||||4.04|1.99|<0.001
92189898|NCT00043186|184278677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.46|||<|0.001||95.0|2.43|4.48|||ANCOVA|||||4.48|2.43|<0.001
92189899|NCT00043186|184278678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.19|||<|0.001||95.0|4.04|6.34|||ANCOVA|||||6.34|4.04|<0.001
92189900|NCT00043186|184278678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1|||<|0.001||95.0|4.93|7.27|||ANCOVA|||||7.27|4.93|<0.001
92189901|NCT00043186|184278678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.59|||<|0.001||95.0|4.4|6.78|||ANCOVA|||||6.78|4.40|<0.001
92189902|NCT00043186|184278678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.89|||<|0.001||95.0|5.76|8.01|||ANCOVA|||||8.01|5.76|<0.001
92189903|NCT00043186|184278678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.54|||<|0.001||95.0|3.41|5.67|||ANCOVA|||||5.67|3.41|<0.001
92310490|NCT01120704|184521777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.018||||0.885|TWO_SIDED|95.0|0.797|1.301|||Regression, Logistic|||The logistic regression model effects consisted of five treatment main effects and all treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Cognitive Medication Adherence Counseling vs. Cognitive Medication Adherence Counseling) would result in significantly higher abstinence at 52 weeks after target quit day.||1.301|.797|.885
92310491|NCT01120704|184521777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.852||||0.205|TWO_SIDED|95.0|0.664|1.092|||Regression, Logistic|||The logistic regression model effects consisted of five treatment main effects and all treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., Electronic Medication Monitoring Device Without Feedback vs. Electronic Medication Monitoring Device Plus Feedback) would result in significantly higher abstinence at 52 weeks after target quit day.||1.092|.664|.205
92310492|NCT01120704|184521777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.514|TWO_SIDED|95.0|0.842|1.411|||Regression, Logistic|||The logistic regression model effects consisted of five treatment main effects and all treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Automated Adherence Prompting Phone Calls vs. Automated Adherence Prompting Phone Calls) would result in significantly higher abstinence at 52 weeks after target quit day.||1.411|.842|.514
92310493|NCT01292226|184521821|SUPERIORITY_OR_OTHER|||||||0.4505||||||Free MPA, time 0 \[trough\]|ANOVA|Analysis of variance (ANOVA)||||||0.4505
92310494|NCT01292226|184521821|SUPERIORITY_OR_OTHER|||||||0.7322||||||Free MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.7322
92189904|NCT00043186|184278678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.95|||<|0.001||95.0|5.69|8.21|||ANCOVA|||||8.21|5.69|<0.001
92189905|NCT00043186|184278678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.48|||<|0.001||95.0|4.29|6.67|||ANCOVA|||||6.67|4.29|<0.001
92189906|NCT00043186|184278678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.97|||<|0.001||95.0|4.76|7.17|||ANCOVA|||||7.17|4.76|<0.001
92189907|NCT00043186|184278679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.78|||<|0.001||95.0|2.19|5.36|||ANCOVA|||||5.36|2.19|<0.001
92189908|NCT00043186|184278679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.41||||0.07||95.0|-0.12|2.94|||ANCOVA|||||2.94|-0.12|0.07
92189909|NCT00043186|184278679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.17|||<|0.001||95.0|5.54|8.8|||ANCOVA|||||8.80|5.54|<0.001
92189910|NCT00043186|184278679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.67|||<|0.001||95.0|7.13|10.21|||ANCOVA|||||10.21|7.13|<0.001
92310495|NCT01292226|184521821|SUPERIORITY_OR_OTHER|||||||0.6798||||||Total MPA, time 0 \[trough\]|ANOVA|||||||0.6798
92310496|NCT01292226|184521821|SUPERIORITY_OR_OTHER|||||||0.541||||||Total MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.5410
92310497|NCT01292226|184521822|SUPERIORITY_OR_OTHER|||||||0.3892||||||Free MPA, time 0 \[trough\]|ANOVA|||||||0.3892
92310498|NCT01292226|184521822|SUPERIORITY_OR_OTHER|||||||0.6564||||||Total MPA, time 0 \[trough\]|ANOVA|||||||0.6564
92310499|NCT01292226|184521822|SUPERIORITY_OR_OTHER|||||||0.7772||||||Free MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.7772
92310500|NCT01292226|184521822|SUPERIORITY_OR_OTHER|||||||0.0958||||||Total MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.0958
92310501|NCT01292226|184521823|SUPERIORITY_OR_OTHER|||||||0.5796||||||Time 0 \[trough\]|ANOVA|||||||0.5796
92310502|NCT01292226|184521823|SUPERIORITY_OR_OTHER|||||||0.3428||||||Time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.3428
92310503|NCT01292226|184521824|SUPERIORITY_OR_OTHER|||||||0.9372||||||Free MPA, time 0 \[trough\]|ANOVA|||||||0.9372
92310504|NCT01292226|184521824|SUPERIORITY_OR_OTHER|||||||0.9904||||||Total MPA, time 0 \[trough\]|ANOVA|||||||0.9904
92310505|NCT01292226|184521824|SUPERIORITY_OR_OTHER|||||||0.3658||||||Free MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.3658
92310506|NCT01292226|184521824|SUPERIORITY_OR_OTHER|||||||0.2987||||||Total MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.2987
92310507|NCT01292226|184521825|SUPERIORITY_OR_OTHER|||||||0.7455||||||time 0 \[trough\]|ANOVA|||||||0.7455
92310508|NCT01292226|184521825|SUPERIORITY_OR_OTHER|||||||0.8504||||||Time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.8504
92189911|NCT00043186|184278679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.15|||<|0.001||95.0|5.62|8.69|||ANCOVA|||||8.69|5.62|<0.001
92189912|NCT00043186|184278679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.61||||0.07||95.0|-0.12|3.35|||ANCOVA|||||3.35|-0.12|0.07
92189913|NCT00043186|184278679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.26|||<|0.001||95.0|5.56|8.95|||ANCOVA|||||8.95|5.56|<0.001
92189914|NCT00043186|184278679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.63|||<|0.001||95.0|6.02|9.24|||ANCOVA|||||9.24|6.02|<0.001
92189915|NCT00043186|184278680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.94||||0.002||95.0|1.86|8.02|||ANCOVA|||||8.02|1.86|0.002
92189916|NCT00043186|184278680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.677||95.0|-4.1|2.68|||ANCOVA|||||2.68|-4.10|0.677
92189917|NCT00043186|184278680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.66||||0.001||95.0|3.14|10.18|||ANCOVA|||||10.18|3.14|0.001
92189918|NCT00043186|184278680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.29|||<|0.001||95.0|5.26|11.33|||ANCOVA|||||11.33|5.26|<0.001
92189919|NCT00043186|184278680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.5|||<|0.001||95.0|3.59|9.41|||ANCOVA|||||9.41|3.59|<0.001
92189920|NCT00043186|184278680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.33||||0.047||95.0|0.61|8.05|||ANCOVA|||||8.05|0.61|0.047
92189921|NCT00043186|184278680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.94||||0.003||95.0|2.53|9.36|||ANCOVA|||||9.36|2.53|0.003
92189922|NCT00043186|184278680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.97||||0.001||95.0|3.28|10.66|||ANCOVA|||||10.66|3.28|0.001
92189923|NCT00043186|184278681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.69|||<|0.001||95.0|2.97|6.41|||ANCOVA|||||6.41|2.97|<0.001
92189924|NCT00043186|184278681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.16||||0.015||95.0|0.43|3.89|||ANCOVA|||||3.89|0.43|0.015
92310509|NCT01292226|184521826|SUPERIORITY_OR_OTHER|||||||0.6847||||||IMPDH I, time 0 \[trough\]|ANOVA|||||||0.6847
92310510|NCT01292226|184521826|SUPERIORITY_OR_OTHER|||||||0.3184||||||IMPDH I, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.3184
92310511|NCT01292226|184521826|SUPERIORITY_OR_OTHER|||||||0.3862||||||IMPDH II, time 0 \[trough\]|ANOVA|||||||0.3862
92310512|NCT01292226|184521826|SUPERIORITY_OR_OTHER|||||||0.904||||||IMPDH II, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.9040
92310513|NCT01292226|184521826|SUPERIORITY_OR_OTHER|||||||0.0907||||||IMPDH activity, time 0 \[trough\]|ANOVA|||||||0.0907
92310514|NCT01292226|184521826|SUPERIORITY_OR_OTHER|||||||0.963||||||IMPDH activity, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.9630
92310515|NCT01292226|184521827|SUPERIORITY_OR_OTHER|||||||0.413||||||IMPDH I|ANOVA|||||||0.4130
92310516|NCT01292226|184521827|SUPERIORITY_OR_OTHER|||||||0.3823||||||IMPDH II|ANOVA|||||||0.3823
92189925|NCT00043186|184278681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.52|||<|0.001||95.0|6.74|10.3|||ANCOVA|||||10.30|6.74|<0.001
92189926|NCT00043186|184278681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.58|||<|0.001||95.0|7.95|11.21|||ANCOVA|||||11.21|7.95|<0.001
92310517|NCT01292226|184521828|SUPERIORITY_OR_OTHER|||||||0.0316||||||IMPDH I|ANOVA|||||||0.0316
92310518|NCT01292226|184521828|SUPERIORITY_OR_OTHER|||||||0.944||||||IMPDH II|ANOVA|||||||0.9440
92310519|NCT01292226|184521829|SUPERIORITY_OR_OTHER|||||||0.1328||||||IMPDH I|ANOVA|||||||0.1328
92310520|NCT01292226|184521829|SUPERIORITY_OR_OTHER|||||||0.576||||||IMPDH II|ANOVA|||||||0.5760
92310521|NCT01292226|184521830|SUPERIORITY_OR_OTHER|||||||0.7332||||||Free MPA|ANOVA|||||||0.7332
92310522|NCT01292226|184521830|SUPERIORITY_OR_OTHER|||||||0.2681||||||Total MPA|ANOVA|||||||0.2681
92310523|NCT01292226|184521830|SUPERIORITY_OR_OTHER|||||||0.7087||||||AUC MPA|ANOVA|||||||0.7087
92310524|NCT01292226|184521831|SUPERIORITY_OR_OTHER|||||||0.9432||||||Free MPA|ANOVA|||||||0.9432
92310525|NCT01292226|184521831|SUPERIORITY_OR_OTHER|||||||0.5177||||||Total MPA|ANOVA|||||||0.5177
92310526|NCT01292226|184521831|SUPERIORITY_OR_OTHER|||||||0.6398||||||AUC MPA|ANOVA|||||||0.6398
92310527|NCT01292226|184521832|SUPERIORITY_OR_OTHER|||||||0.0656||||||Free MPA|ANOVA|||||||0.0656
92189927|NCT00043186|184278681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.34|||<|0.001||95.0|6.7|9.99|||ANCOVA|||||9.99|6.70|<0.001
92189928|NCT00043186|184278681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.38|||<|0.001||95.0|5.45|9.31|||ANCOVA|||||9.31|5.45|<0.001
92189929|NCT00043186|184278681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.55|||<|0.001||95.0|5.72|9.38|||ANCOVA|||||9.38|5.72|<0.001
92310528|NCT01292226|184521832|SUPERIORITY_OR_OTHER|||||||0.0131||||||Total MPA|ANOVA|||||||0.0131
92310529|NCT01292226|184521832|SUPERIORITY_OR_OTHER|||||||0.0515||||||AUC MPA|ANOVA|||||||0.0515
92310530|NCT03898908|184521848|SUPERIORITY|||||||0.015||||||pValues below 0.05 are considered statistically significant|Wilcoxon (Mann-Whitney)|||Comparison between baseline and Week 8||||0.015
92310531|NCT03898908|184521849|SUPERIORITY|||||||0.754||||||pValues below 0.05 are considered statistically significant|Wilcoxon (Mann-Whitney)|||Comparison between baseline and W24||||0.754
92310532|NCT00468650|184521851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.96|STANDARD_DEVIATION|5.19|<|0.001||95.0|10.0|11.93||"Statistical significance will be declared if the p-value is \<0.05.~Change from Baseline: Week 6 (LOCF) minus Baseline"|t-test, 2 sided|single sample t-test||Primary hypothesis to be tested is whether there is a significant improvement in the IIEF EF domain at the end of the 100 mg period, as compared to the baseline (Week 0) score. Sample size (N=115) provides more than 90% power to detect a change from baseline of 10 in the primary efficacy variable, assuming a standard deviation of 9, using the two-sided, single-sample t-test with significance level (alpha) of 0.05.||11.93|10.00|<0.001
92310533|NCT00468650|184521852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.14|STANDARD_DEVIATION|5.21|<|0.001||95.0|6.17|8.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||8.11|6.17|<0.001
92310534|NCT00468650|184521852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.57|STANDARD_DEVIATION|5.43|<|0.001||95.0|9.56|11.59||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||11.59|9.56|<0.001
92310535|NCT00468650|184521852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.93|STANDARD_DEVIATION|5.26|<|0.001||95.0|9.93|11.92||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||11.92|9.93|<0.001
92310536|NCT00468650|184521852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.95|STANDARD_DEVIATION|5.21|<|0.001||95.0|9.97|11.92||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 endpoint minus baseline||11.92|9.97|<0.001
92310537|NCT00468650|184521853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.48|STANDARD_DEVIATION|3.97|<|0.001||95.0|2.74|4.23||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||4.23|2.74|<0.001
92310538|NCT00468650|184521853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.88|STANDARD_DEVIATION|4.38|<|0.001||95.0|3.05|4.71||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2 For the secondary outcome, the change in IIEF-EF domain from the end of 50 mg period (Week 2) to the end of 100 mg period (Week 6), the sample size (N=115) provides more than 80% power to detect a mean change of 1.75 points, assuming a standard deviation of 6, using the two-sided, single sample t-test with significance level (alpha) of 0.05||4.71|3.05|<0.001
92310539|NCT00468650|184521853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.86|STANDARD_DEVIATION|4.35|<|0.001||95.0|3.04|4.67||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2 For the secondary outcome, the change in IIEF-EF domain from the end of 50 mg period (Week 2) to the end of 100 mg period (Week 6), the sample size (N=115) provides more than 80% power to detect a mean change of 1.75 points, assuming a standard deviation of 6, using the two-sided, single sample t-test with significance level (alpha) of 0.05||4.67|3.04|<0.001
92310540|NCT00468650|184521853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.86|STANDARD_DEVIATION|4.35|<|0.001||95.0|3.04|4.67||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2 For the secondary outcome, the change in IIEF-EF domain from the end of 50 mg period (Week 2) to the end of 100 mg period (Week 6), the sample size (N=115) provides more than 80% power to detect a mean change of 1.75 points, assuming a standard deviation of 6, using the two-sided, single sample t-test with significance level (alpha) of 0.05||4.67|3.04|<0.001
92310541|NCT00468650|184521854|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.89|STANDARD_DEVIATION|2.4|<|0.001||95.0|1.45|2.34||p-value not adjusted for multiple comparisons. Threshold for significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||2.34|1.45|<0.001
92310542|NCT00468650|184521854|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.46|STANDARD_DEVIATION|2.32|<|0.001||95.0|2.02|2.89||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||2.89|2.02|<0.001
92310543|NCT00468650|184521854|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.59|STANDARD_DEVIATION|2.44|<|0.001||95.0|2.13|3.05||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||3.05|2.13|<0.001
92310544|NCT00468650|184521854|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.63|STANDARD_DEVIATION|2.45|<|0.001||95.0|2.17|3.08||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||3.08|2.17|<0.001
92310545|NCT00468650|184521854|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.59|STANDARD_DEVIATION|2.42|<|0.001||95.0|2.14|3.04||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||3.04|2.14|<0.001
92189930|NCT00043186|184278681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.97|||<|0.001||95.0|7.23|10.72|||ANCOVA|||||10.72|7.23|<0.001
92310546|NCT00468650|184521855|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.61|STANDARD_DEVIATION|1.51|<|0.001||95.0|0.32|0.89||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||0.89|0.32|<0.001
92310547|NCT00468650|184521855|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.75|STANDARD_DEVIATION|1.46|<|0.001||95.0|0.47|1.02||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||1.02|0.47|<0.001
92310548|NCT00468650|184521855|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.74|STANDARD_DEVIATION|1.45|<|0.001||95.0|0.47|1.01||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||1.01|0.47|<0.001
92189931|NCT00043186|184278682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44||||0.033||95.0|0.11|2.76|||ANCOVA|||||2.76|0.11|0.033
92189932|NCT00043186|184278682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.06|||<|0.001||95.0|1.69|4.42|||ANCOVA|||||4.42|1.69|<0.001
92310549|NCT00468650|184521855|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.74|STANDARD_DEVIATION|1.45|<|0.001||95.0|0.47|1.01||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||1.01|0.47|<0.001
92310550|NCT00468650|184521856|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.43|STANDARD_DEVIATION|1.87|<|0.001||95.0|1.09|1.78||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||1.78|1.09|<0.001
92310551|NCT00468650|184521856|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.0|STANDARD_DEVIATION|1.86|<|0.001||95.0|1.65|2.35||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||2.35|1.65|<0.001
92310552|NCT00468650|184521856|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.25|STANDARD_DEVIATION|1.91|<|0.001||95.0|1.89|2.62||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||2.62|1.89|<0.001
92310553|NCT00468650|184521856|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.26|STANDARD_DEVIATION|1.94|<|0.001||95.0|1.9|2.62||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||2.62|1.90|<0.001
92310554|NCT00468650|184521856|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.28|STANDARD_DEVIATION|1.93|<|0.001||95.0|1.91|2.64||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||2.64|1.91|<0.001
92310555|NCT00468650|184521857|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.55|STANDARD_DEVIATION|1.41|<|0.001||95.0|0.29|0.82||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||0.82|0.29|<0.001
92310556|NCT00468650|184521857|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.81|STANDARD_DEVIATION|1.47|<|0.001||95.0|0.53|1.09||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||1.09|0.53|<0.001
92310557|NCT00468650|184521857|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.83|STANDARD_DEVIATION|1.49|<|0.001||95.0|0.55|1.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||1.11|0.55|<0.001
92189933|NCT00043186|184278682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.04|||<|0.001||95.0|1.68|4.4|||ANCOVA|||||4.40|1.68|<0.001
92189934|NCT00043186|184278682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.26|||<|0.001||95.0|1.94|4.57|||ANCOVA|||||4.57|1.94|<0.001
92189935|NCT00043186|184278682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.91|||<|0.001||95.0|1.6|4.21|||ANCOVA|||||4.21|1.60|<0.001
92189936|NCT00043186|184278682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.07|||<|0.001||95.0|1.65|4.49|||ANCOVA|||||4.49|1.65|<0.001
92189937|NCT00043186|184278682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.37|||<|0.001||95.0|0.99|3.76|||ANCOVA|||||3.76|0.99|<0.001
92310558|NCT00468650|184521857|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.83|STANDARD_DEVIATION|1.49|<|0.001||95.0|0.55|1.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||1.11|0.55|<0.001
92310559|NCT00468650|184521858|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.18|STANDARD_DEVIATION|2.42|<|0.001||95.0|2.73|3.63||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||3.63|2.73|<0.001
92310560|NCT00468650|184521858|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.38|STANDARD_DEVIATION|2.39|<|0.001||95.0|3.94|4.83||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||4.83|3.94|<0.001
92310561|NCT00468650|184521858|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.73|STANDARD_DEVIATION|2.53|<|0.001||95.0|4.25|5.21||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||5.21|4.25|<0.001
92310562|NCT00468650|184521858|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.7|STANDARD_DEVIATION|2.52|<|0.001||95.0|4.23|5.17||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||5.17|4.23|<0.001
92310563|NCT00468650|184521858|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.72|STANDARD_DEVIATION|2.52|<|0.001||95.0|4.25|5.19||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||5.19|4.25|<0.001
92310564|NCT00468650|184521859|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|2.1|<|0.001||95.0|0.8|1.59||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||1.59|0.80|<0.001
92310565|NCT00468650|184521859|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.54|STANDARD_DEVIATION|2.2|<|0.001||95.0|1.12|1.95||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||1.95|1.12|<0.001
92310566|NCT00468650|184521859|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.54|STANDARD_DEVIATION|2.19|<|0.001||95.0|1.13|1.95||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||1.95|1.13|<0.001
92310567|NCT00468650|184521859|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.54|STANDARD_DEVIATION|2.19|<|0.001||95.0|1.13|1.95||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||1.95|1.13|<0.001
92310568|NCT00468650|184521860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.73|STANDARD_DEVIATION|2.38|<|0.001||95.0|2.28|3.17||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||3.17|2.28|<0.001
92189938|NCT00043186|184278682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.86|||<|0.001||95.0|1.47|4.24|||ANCOVA|||||4.24|1.47|<0.001
92310569|NCT00468650|184521860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.67|STANDARD_DEVIATION|2.49|<|0.001||95.0|3.2|4.14||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||4.14|3.20|<0.001
92310570|NCT00468650|184521860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.92|STANDARD_DEVIATION|2.52|<|0.001||95.0|3.44|4.4||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||4.40|3.44|<0.001
92310571|NCT00468650|184521860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.91|STANDARD_DEVIATION|2.53|<|0.001||95.0|3.44|4.38||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||4.38|3.44|<0.001
92310572|NCT00468650|184521860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.89|STANDARD_DEVIATION|2.53|<|0.001||95.0|3.42|4.37||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||4.37|3.42|<0.001
92310573|NCT00468650|184521861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.97|STANDARD_DEVIATION|1.88|<|0.001||95.0|0.62|1.32||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||1.32|0.62|<0.001
92189939|NCT00043186|184278683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.99||||0.009||95.0|0.49|3.49|||ANCOVA|||||3.49|0.49|0.009
92189940|NCT00043186|184278683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.58|||<|0.001||95.0|2.06|5.1|||ANCOVA|||||5.10|2.06|<0.001
92310574|NCT00468650|184521861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.21|STANDARD_DEVIATION|1.92|<|0.001||95.0|0.85|1.57||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||1.57|0.85|<0.001
92310575|NCT00468650|184521861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|1.9|<|0.001||95.0|0.84|1.55||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||1.55|0.84|<0.001
92310576|NCT00468650|184521861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|1.9|<|0.001||95.0|0.84|1.55||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||1.55|0.84|<0.001
92310577|NCT00468650|184521862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|32.71|STANDARD_DEVIATION|25.36|<|0.001||95.0|27.98|37.43||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||37.43|27.98|<0.001
92310578|NCT00468650|184521862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|46.21|STANDARD_DEVIATION|26.27|<|0.001||95.0|41.29|51.12||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||51.12|41.29|<0.001
92189941|NCT00043186|184278683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26|||<|0.001||95.0|2.73|5.78|||ANCOVA|||||5.78|2.73|<0.001
92189942|NCT00043186|184278683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.09|||<|0.001||95.0|2.55|5.62|||ANCOVA|||||5.62|2.55|<0.001
92310579|NCT00468650|184521862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|45.53|STANDARD_DEVIATION|26.96|<|0.001||95.0|40.44|50.63||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||50.63|40.44|<0.001
92310580|NCT00468650|184521862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|45.28|STANDARD_DEVIATION|27.01|<|0.001||95.0|40.25|50.31||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||50.31|40.25|<0.001
92310581|NCT00468650|184521862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|45.05|STANDARD_DEVIATION|27.02|<|0.001||95.0|39.99|50.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||50.11|39.99|<0.001
92310582|NCT00468650|184521863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.84|STANDARD_DEVIATION|21.1|<|0.001||95.0|9.89|17.79||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||17.79|9.89|<0.001
92310583|NCT00468650|184521863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.07|STANDARD_DEVIATION|24.25|<|0.001||95.0|8.49|17.65||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||17.65|8.49|<0.001
92310584|NCT00468650|184521863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|12.69|STANDARD_DEVIATION|24.26|<|0.001||95.0|8.14|17.23||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||17.23|8.14|<0.001
92310585|NCT00468650|184521863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|12.69|STANDARD_DEVIATION|24.26|<|0.001||95.0|8.14|17.23||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||17.23|8.14|<0.001
92310586|NCT00468650|184521864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.41|STANDARD_DEVIATION|4.4|<|0.001||95.0|4.59|6.23||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||6.23|4.59|<0.001
92310587|NCT00468650|184521864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|8.85|STANDARD_DEVIATION|4.96|<|0.001||95.0|7.92|9.78||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||9.78|7.92|<0.001
92310588|NCT00468650|184521864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.21|STANDARD_DEVIATION|5.19|<|0.001||95.0|8.23|10.19||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||10.19|8.23|<0.001
92189943|NCT00043186|184278683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.67|||<|0.001||95.0|3.23|6.11|||ANCOVA|||||6.11|3.23|<0.001
92189944|NCT00043186|184278683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.26|||<|0.001||95.0|3.78|6.73|||ANCOVA|||||6.73|3.78|<0.001
92189945|NCT00043186|184278683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.08|||<|0.001||95.0|2.48|5.68|||ANCOVA|||||5.68|2.48|<0.001
92189946|NCT00043186|184278683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.39|||<|0.001||95.0|1.86|4.93|||ANCOVA|||||4.93|1.86|<0.001
92189947|NCT00043186|184278684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.69||||0.002||95.0|1.01|4.38|||ANCOVA|||||4.38|1.01|0.002
92189948|NCT00043186|184278684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.77|||<|0.001||95.0|2.14|5.39|||ANCOVA|||||5.39|2.14|<0.001
92189949|NCT00043186|184278684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56|||<|0.001||95.0|3.87|7.26|||ANCOVA|||||7.26|3.87|<0.001
92189950|NCT00043186|184278684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.33|||<|0.001||95.0|4.75|7.92|||ANCOVA|||||7.92|4.75|<0.001
92189951|NCT00043186|184278684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.73|||<|0.001||95.0|4.12|7.33|||ANCOVA|||||7.33|4.12|<0.001
92189952|NCT00043186|184278684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|||<|0.001||95.0|2.89|6.5|||ANCOVA|||||6.50|2.89|<0.001
92189953|NCT00043186|184278684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|||<|0.001||95.0|2.92|6.49|||ANCOVA|||||6.49|2.92|<0.001
92189954|NCT00043186|184278684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.63|||<|0.001||95.0|3.96|7.3|||ANCOVA|||||7.30|3.96|<0.001
92189955|NCT00043186|184278685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.27||||0.496||95.0|-7.16|13.7|||ANCOVA|||||13.7|-7.16|0.496
92189956|NCT00043186|184278685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6||||0.527||95.0|-6.38|19.59|||ANCOVA|||||19.59|-6.38|0.527
92189957|NCT00043186|184278685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.72||||0.503||95.0|-2.9|14.33|||ANCOVA|||||14.33|-2.90|0.503
92310589|NCT00468650|184521864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.28|STANDARD_DEVIATION|5.14|<|0.001||95.0|8.32|10.24||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||10.24|8.32|<0.001
92310590|NCT00468650|184521864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.25|STANDARD_DEVIATION|5.15|<|0.001||95.0|8.28|10.22||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||10.22|8.28|<0.001
92310591|NCT00468650|184521865|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.51|STANDARD_DEVIATION|3.89|<|0.001||95.0|2.78|4.24||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||4.24|2.78|<0.001
92310592|NCT00468650|184521865|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.91|STANDARD_DEVIATION|4.41|<|0.001||95.0|3.08|4.74||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||4.74|3.08|<0.001
92310593|NCT00468650|184521865|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.91|STANDARD_DEVIATION|4.38|<|0.001||95.0|3.09|4.73||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||4.73|3.09|<0.001
92310594|NCT00468650|184521865|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.91|STANDARD_DEVIATION|4.38|<|0.001||95.0|3.09|4.73||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||4.73|3.09|<0.001
92310595|NCT00468650|184521866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.68|STANDARD_DEVIATION|4.86|<|0.001||95.0|5.77|7.59||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||7.59|5.77|<0.001
92310596|NCT00468650|184521866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.94|STANDARD_DEVIATION|5.21|<|0.001||95.0|8.96|10.91||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||10.91|8.96|<0.001
92310597|NCT00468650|184521866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.59|STANDARD_DEVIATION|5.08|<|0.001||95.0|9.62|11.56||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||11.56|9.62|<0.001
92310598|NCT00468650|184521866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.63|STANDARD_DEVIATION|5.03|<|0.001||95.0|9.68|11.58||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||11.58|9.68|<0.001
92310599|NCT00468650|184521866|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.64|STANDARD_DEVIATION|5.06|<|0.001||95.0|9.68|11.59||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||11.59|9.68|<0.001
92310600|NCT00468650|184521867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.29|STANDARD_DEVIATION|4.1|<|0.001||95.0|2.52|4.05||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||4.05|2.52|<0.001
92310601|NCT00468650|184521867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.03|STANDARD_DEVIATION|5.09|<|0.001||95.0|3.06|5.0||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||5.00|3.06|<0.001
92310602|NCT00468650|184521867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.01|STANDARD_DEVIATION|5.04|<|0.001||95.0|3.06|4.96||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||4.96|3.06|<0.001
92310603|NCT00468650|184521867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.01|STANDARD_DEVIATION|5.04|<|0.001||95.0|3.06|4.96||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||4.96|3.06|<0.001
92310604|NCT00468650|184521868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.79|STANDARD_DEVIATION|2.44|<|0.001||95.0|2.33|3.24||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||3.24|2.33|<0.001
92310605|NCT00468650|184521868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.23|STANDARD_DEVIATION|2.56|<|0.001||95.0|3.74|4.71||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||4.71|3.74|<0.001
92310606|NCT00468650|184521868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.74|STANDARD_DEVIATION|2.84|<|0.001||95.0|4.2|5.28||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||5.28|4.20|<0.001
92189958|NCT00043186|184278685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.68||||0.527||95.0|-6.54|11.89|||ANCOVA|||||11.89|-6.54|0.527
92189959|NCT00043186|184278685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.41||||0.503||95.0|-2.19|17.01|||ANCOVA|||||17.01|-2.19|0.503
92189960|NCT00043186|184278685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.59||||0.503||95.0|-1.85|17.03|||ANCOVA|||||17.03|-1.85|0.503
92310607|NCT00468650|184521868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.78|STANDARD_DEVIATION|2.81|<|0.001||95.0|4.25|5.31||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||5.31|4.25|<0.001
92310608|NCT00468650|184521868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.76|STANDARD_DEVIATION|2.82|<|0.001||95.0|4.23|5.3||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||5.30|4.23|<0.001
92310609|NCT00468650|184521869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.49|STANDARD_DEVIATION|1.91|<|0.001||95.0|1.13|1.85||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||1.85|1.13|<0.001
92310610|NCT00468650|184521869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.96|STANDARD_DEVIATION|2.08|<|0.001||95.0|1.57|2.36||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||2.36|1.57|<0.001
92310611|NCT00468650|184521869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.98|STANDARD_DEVIATION|2.07|<|0.001||95.0|1.59|2.37||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||2.37|1.59|<0.001
92310612|NCT00468650|184521869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.98|STANDARD_DEVIATION|2.07|<|0.001||95.0|1.59|2.37||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||2.37|1.59|<0.001
92310613|NCT00468650|184521870|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|8.84|STANDARD_DEVIATION|28.7||0.0016||95.0|3.42|14.26||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||14.26|3.42|0.0016
92310614|NCT00468650|184521870|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.18|STANDARD_DEVIATION|27.51|<|0.001||95.0|4.93|15.43||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||15.43|4.93|<0.001
92310615|NCT00468650|184521870|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|12.29|STANDARD_DEVIATION|28.88|<|0.001||95.0|6.7|17.88||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||17.88|6.70|<0.001
92310616|NCT00468650|184521870|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|11.96|STANDARD_DEVIATION|28.33|<|0.001||95.0|6.61|17.32||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||17.32|6.61|<0.001
92310617|NCT00468650|184521870|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|11.95|STANDARD_DEVIATION|28.55|<|0.001||95.0|6.51|17.4||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||17.40|6.51|<0.001
92310618|NCT00468650|184521871|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.37|STANDARD_DEVIATION|14.85||0.3324||95.0|-1.42|4.17||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||4.17|-1.42|0.3324
92189961|NCT00043186|184278685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.18||||0.503||95.0|-2.45|16.81|||ANCOVA|||||16.81|-2.45|0.503
92189962|NCT00043186|184278685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.88||||0.233||95.0|0.78|14.97|||ANCOVA|||||14.97|0.78|0.233
92189963|NCT00043186|184278686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.41|||<|0.001||95.0|4.48|8.34|||ANCOVA|||||8.34|4.48|<0.001
92310619|NCT00468650|184521871|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.12|STANDARD_DEVIATION|14.26||0.0249||95.0|0.4|5.84||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||5.84|0.40|0.0249
92310620|NCT00468650|184521871|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.98|STANDARD_DEVIATION|13.95||0.0249||95.0|0.37|5.58||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||5.58|0.37|0.0249
92310621|NCT00468650|184521871|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.04|STANDARD_DEVIATION|14.07||0.0249||95.0|0.39|5.68||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||5.68|0.39|0.0249
92189964|NCT00043186|184278686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.44|||<|0.001||95.0|4.19|8.7|||ANCOVA|||||8.70|4.19|<0.001
92189965|NCT00043186|184278686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.09|||<|0.001||95.0|3.91|8.26|||ANCOVA|||||8.26|3.91|<0.001
92189966|NCT00043186|184278686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.72|||<|0.001||95.0|3.7|7.73|||ANCOVA|||||7.73|3.70|<0.001
92189967|NCT00043186|184278686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.054||95.0|-0.04|4.04|||ANCOVA|||||4.04|-0.04|0.054
92310622|NCT00468650|184521872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|15.37|STANDARD_DEVIATION|30.51|<|0.001||95.0|9.38|21.36||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||21.36|9.38|<0.001
92310623|NCT00468650|184521872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.15|STANDARD_DEVIATION|32.22|<|0.001||95.0|10.76|23.55||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||23.55|10.76|<0.001
92310624|NCT00468650|184521872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|18.22|STANDARD_DEVIATION|32.44|<|0.001||95.0|11.68|24.76||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||24.76|11.68|<0.001
92310625|NCT00468650|184521872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.33|STANDARD_DEVIATION|31.87|<|0.001||95.0|11.07|23.59||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||23.59|11.07|<0.001
92310626|NCT00468650|184521872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.68|STANDARD_DEVIATION|32.1|<|0.001||95.0|11.31|24.04||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||24.04|11.31|<0.001
92189968|NCT00043186|184278686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.74|||<|0.001||95.0|1.71|5.77|||ANCOVA|||||5.77|1.71|<0.001
92189969|NCT00043186|184278686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.05|||<|0.001||95.0|4.0|8.1|||ANCOVA|||||8.10|4.00|<0.001
92189970|NCT00043186|184278686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.39|||<|0.001||95.0|4.49|8.28|||ANCOVA|||||8.28|4.49|<0.001
92189971|NCT00043186|184278687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3||||0.001||95.0|1.09|3.51|||ANCOVA|||||3.51|1.09|0.001
92189972|NCT00043186|184278687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.73||||0.005||95.0|0.52|2.93|||ANCOVA|||||2.93|0.52|0.005
92189973|NCT00043186|184278687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.004||95.0|0.74|3.25|||ANCOVA|||||3.25|0.74|0.004
92189974|NCT00043186|184278687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.72|||<|0.001||95.0|1.54|3.91|||ANCOVA|||||3.91|1.54|<0.001
92189975|NCT00043186|184278687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.202||95.0|-0.41|1.95|||ANCOVA|||||1.95|-0.41|0.202
92189976|NCT00043186|184278687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.95|||<|0.001||95.0|1.65|4.26|||ANCOVA|||||4.26|1.65|<0.001
92189977|NCT00043186|184278687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.02||||0.004||95.0|0.78|3.26|||ANCOVA|||||3.26|0.78|0.004
92189978|NCT00043186|184278687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03||||0.004||95.0|0.8|3.27|||ANCOVA|||||3.27|0.80|0.004
92189979|NCT00043186|184278688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.14|||<|0.001||95.0|1.71|4.56|||ANCOVA|||||4.56|1.71|<0.001
92189980|NCT00043186|184278688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4|||<|0.001||95.0|2.95|5.84|||ANCOVA|||||5.84|2.95|<0.001
92310627|NCT00468650|184521873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.46|STANDARD_DEVIATION|9.41||0.1061||95.0|-0.32|3.24||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||3.24|-0.32|0.1061
92310628|NCT00468650|184521873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.18|STANDARD_DEVIATION|12.33||0.3237||95.0|-1.18|3.54||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||3.54|-1.18|0.3237
92310629|NCT00468650|184521873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.13|STANDARD_DEVIATION|12.05||0.3236||95.0|-1.13|3.38||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||3.38|-1.13|0.3236
92310630|NCT00468650|184521873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.15|STANDARD_DEVIATION|12.16||0.3236||95.0|-1.15|3.45||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||3.45|-1.15|0.3236
92310631|NCT00468650|184521874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|56.96|STANDARD_DEVIATION|38.93|<|0.001||95.0|49.31|64.6||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||64.60|49.31|<0.001
92310632|NCT00468650|184521874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|70.78|STANDARD_DEVIATION|35.46|<|0.001||95.0|63.74|77.81||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||77.81|63.74|<0.001
92189981|NCT00043186|184278688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.64|||<|0.001||95.0|3.19|6.09|||ANCOVA|||||6.09|3.19|<0.001
92310633|NCT00468650|184521874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|71.23|STANDARD_DEVIATION|35.79|<|0.001||95.0|64.02|78.45||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||78.45|64.02|<0.001
92310634|NCT00468650|184521874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|72.15|STANDARD_DEVIATION|35.41|<|0.001||95.0|65.2|79.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||79.11|65.20|<0.001
92310635|NCT00468650|184521874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|71.6|STANDARD_DEVIATION|35.55|<|0.001||95.0|64.54|78.65||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||78.65|64.54|<0.001
92310636|NCT00468650|184521875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.56|STANDARD_DEVIATION|30.89|<|0.001||95.0|7.72|19.4||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||19.40|7.72|<0.001
92310637|NCT00468650|184521875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.25|STANDARD_DEVIATION|31.31|<|0.001||95.0|8.25|20.25||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||20.25|8.25|<0.001
92310638|NCT00468650|184521875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.51|STANDARD_DEVIATION|31.77|<|0.001||95.0|8.56|20.46||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||20.46|8.56|<0.001
92310639|NCT00468650|184521875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.77|STANDARD_DEVIATION|32.0|<|0.001||95.0|8.72|20.82||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||20.82|8.72|<0.001
92310640|NCT00468650|184521876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|58.58|STANDARD_DEVIATION|41.24|<|0.001||95.0|50.48|66.68||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||66.68|50.48|<0.001
92310641|NCT00468650|184521876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|76.29|STANDARD_DEVIATION|37.21|<|0.001||95.0|68.9|83.67||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||83.67|68.90|<0.001
92310642|NCT00468650|184521876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|77.69|STANDARD_DEVIATION|37.26|<|0.001||95.0|70.18|85.21||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||85.21|70.18|<0.001
92310643|NCT00468650|184521876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|78.79|STANDARD_DEVIATION|36.65|<|0.001||95.0|71.59|85.99||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||85.99|71.59|<0.001
92189982|NCT00043186|184278688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.22|||<|0.001||95.0|2.85|5.58|||ANCOVA|||||5.58|2.85|<0.001
92189983|NCT00043186|184278688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.53|||<|0.001||95.0|1.13|3.94|||ANCOVA|||||3.94|1.13|<0.001
92189984|NCT00043186|184278688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.09|||<|0.001||95.0|4.53|7.64|||ANCOVA|||||7.64|4.53|<0.001
92189985|NCT00043186|184278688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.55|||<|0.001||95.0|3.12|5.98|||ANCOVA|||||5.98|3.12|<0.001
92189986|NCT00043186|184278688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.23|||<|0.001||95.0|2.76|5.69|||ANCOVA|||||5.69|2.76|<0.001
92189987|NCT00043186|184278689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.16|||<|0.001||95.0|3.63|8.68|||ANCOVA|||||8.68|3.63|<0.001
92189988|NCT00043186|184278689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32||||0.275||95.0|-1.06|3.7|||ANCOVA|||||3.7|-1.06|0.275
92189989|NCT00043186|184278689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2||||0.005||95.0|1.65|6.75|||ANCOVA|||||6.75|1.65|0.005
92189990|NCT00043186|184278689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.41||||0.002||95.0|2.07|6.75|||ANCOVA|||||6.75|2.07|0.002
92189991|NCT00043186|184278689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65||||0.009||95.0|1.25|6.05|||ANCOVA|||||6.05|1.25|0.009
92189992|NCT00043186|184278689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95||||0.009||95.0|1.22|6.68|||ANCOVA|||||6.68|1.22|0.009
92310644|NCT00468650|184521876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|78.36|STANDARD_DEVIATION|36.89|<|0.001||95.0|71.04|85.68||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||85.68|71.04|<0.001
92310645|NCT00468650|184521877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.9|STANDARD_DEVIATION|36.63|<|0.001||95.0|10.98|24.83||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||24.83|10.98|<0.001
92310646|NCT00468650|184521877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|19.5|STANDARD_DEVIATION|36.84|<|0.001||95.0|12.44|26.56||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||26.56|12.44|<0.001
92310647|NCT00468650|184521877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|19.52|STANDARD_DEVIATION|36.99|<|0.001||95.0|12.59|26.45||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||26.45|12.59|<0.001
92310648|NCT00468650|184521877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|19.88|STANDARD_DEVIATION|37.23|<|0.001||95.0|12.84|26.91||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||26.91|12.84|<0.001
92310649|NCT00468650|184521878|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|57.34|STANDARD_DEVIATION|42.6|<|0.001||95.0|48.93|65.75||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||65.75|48.93|<0.001
92310650|NCT00468650|184521878|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|70.72|STANDARD_DEVIATION|40.3|<|0.001||95.0|62.72|78.71||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||78.71|62.72|<0.001
92189993|NCT00043186|184278689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.65||||0.003||95.0|2.05|7.24|||ANCOVA|||||7.24|2.05|0.003
92310651|NCT00468650|184521878|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|70.63|STANDARD_DEVIATION|40.78|<|0.001||95.0|62.41|78.85||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||78.85|62.41|<0.001
92310652|NCT00468650|184521878|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|72.07|STANDARD_DEVIATION|40.27|<|0.001||95.0|64.16|79.98||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||79.98|64.16|<0.001
92310653|NCT00468650|184521878|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|71.51|STANDARD_DEVIATION|40.48|<|0.001||95.0|63.48|79.55||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||79.55|63.48|<0.001
92310654|NCT00468650|184521879|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.1|STANDARD_DEVIATION|29.11|<|0.001||95.0|7.58|18.63||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||18.63|7.58|<0.001
92310655|NCT00468650|184521879|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.11|STANDARD_DEVIATION|32.53|<|0.001||95.0|7.84|20.37||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||20.37|7.84|<0.001
92310656|NCT00468650|184521879|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.47|STANDARD_DEVIATION|31.92|<|0.001||95.0|7.47|19.47||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||19.47|7.47|<0.001
92310657|NCT00468650|184521879|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.72|STANDARD_DEVIATION|32.16|<|0.001||95.0|7.61|19.82||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||19.82|7.61|<0.001
92189994|NCT00043186|184278689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.75||||0.001||95.0|2.28|7.22|||ANCOVA|||||7.22|2.28|0.001
92189995|NCT00043186|184278690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.18||||0.949||95.0|-8.73|13.1|||ANCOVA|||||13.10|-8.73|0.949
92310658|NCT00468650|184521880|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|56.96|STANDARD_DEVIATION|38.93|<|0.001||95.0|49.31|64.6||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||64.60|49.31|<0.001
92310659|NCT00468650|184521880|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|70.78|STANDARD_DEVIATION|35.46|<|0.001||95.0|63.74|77.81||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||77.81|63.74|<0.001
92310660|NCT00468650|184521880|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|71.23|STANDARD_DEVIATION|35.79|<|0.001||95.0|64.02|78.45||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||78.45|64.02|<0.001
92310661|NCT00468650|184521880|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|72.15|STANDARD_DEVIATION|35.41|<|0.001||95.0|65.2|79.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||79.11|65.20|<0.001
92189996|NCT00043186|184278690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.949||95.0|-2.7|9.31|||ANCOVA|||||9.31|-2.70|0.949
92189997|NCT00043186|184278690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24||||0.709||95.0|-6.81|9.29|||ANCOVA|||||9.29|-6.81|0.709
92189998|NCT00043186|184278690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.36||||0.949||95.0|-8.55|3.83|||ANCOVA|||||3.83|-8.55|0.949
92189999|NCT00043186|184278690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.949||95.0|-4.51|8.72|||ANCOVA|||||8.72|-4.51|0.949
92190000|NCT00043186|184278690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.23||||0.484||95.0|-0.83|15.3|||ANCOVA|||||15.3|-0.83|0.484
92190001|NCT00043186|184278690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44||||0.949||95.0|-3.77|8.66|||ANCOVA|||||8.66|-3.77|0.949
92190002|NCT00043186|184278690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.949||95.0|-10.82|11.4|||ANCOVA|||||11.40|-10.82|0.949
92310662|NCT00468650|184521880|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|71.6|STANDARD_DEVIATION|35.55|<|0.001||95.0|64.54|78.65||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||78.65|64.54|<0.001
92310663|NCT00468650|184521881|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.56|STANDARD_DEVIATION|30.89|<|0.001||95.0|7.72|19.4||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||19.40|7.72|<0.001
92310664|NCT00468650|184521881|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.25|STANDARD_DEVIATION|31.31|<|0.001||95.0|8.25|20.25||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||20.25|8.25|<0.001
92190003|NCT00043186|184278691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.02|||<|0.001||95.0|4.35|9.69|||ANCOVA|||||9.69|4.35|<0.001
92190004|NCT00043186|184278691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.25||||0.092||95.0|-0.37|4.87|||ANCOVA|||||4.87|-0.37|0.092
92190005|NCT00043186|184278691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.22|||<|0.001||95.0|3.5|8.94|||ANCOVA|||||8.94|3.50|<0.001
92190006|NCT00043186|184278691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.97|||<|0.001||95.0|3.51|8.43|||ANCOVA|||||8.43|3.51|<0.001
92190007|NCT00043186|184278691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.96|||<|0.001||95.0|3.44|8.48|||ANCOVA|||||8.48|3.44|<0.001
92190008|NCT00043186|184278691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.29|||<|0.001||95.0|3.25|9.34|||ANCOVA|||||9.34|3.25|<0.001
92190009|NCT00043186|184278691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.91|||<|0.001||95.0|3.13|8.7|||ANCOVA|||||8.70|3.13|<0.001
92310665|NCT00468650|184521881|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.51|STANDARD_DEVIATION|31.77|<|0.001||95.0|8.56|20.46||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||20.46|8.56|<0.001
92310666|NCT00468650|184521881|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.77|STANDARD_DEVIATION|32.0|<|0.001||95.0|8.72|20.82||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||20.82|8.72|<0.001
92310667|NCT00468650|184521882|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-12.58|STANDARD_DEVIATION|37.77||0.001||95.0|-19.96|-5.2||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||-5.20|-19.96|0.0010
92190010|NCT00043186|184278691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.22|||<|0.001||95.0|3.58|8.87|||ANCOVA|||||8.87|3.58|<0.001
92190011|NCT00043186|184278692|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190012|NCT00043186|184278692|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190013|NCT00043186|184278692|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190014|NCT00043186|184278692|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190015|NCT00043186|184278692|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190016|NCT00043186|184278692|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190017|NCT00043186|184278692|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190018|NCT00043186|184278692|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190019|NCT00043186|184278693|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190020|NCT00043186|184278693|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190021|NCT00043186|184278693|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190022|NCT00043186|184278693|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190023|NCT00043186|184278693|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92190024|NCT00043186|184278693|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190025|NCT00043186|184278693|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190026|NCT00043186|184278693|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190027|NCT00043186|184278694|SUPERIORITY_OR_OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||0.049
92190028|NCT00043186|184278694|SUPERIORITY_OR_OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92190029|NCT00043186|184278694|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190030|NCT00043186|184278694|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190031|NCT00043186|184278694|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190032|NCT00043186|184278694|SUPERIORITY_OR_OTHER|||||||0.146|||||||Wilcoxon (Mann-Whitney)|||||||0.146
92190033|NCT00043186|184278694|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92190034|NCT00043186|184278694|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190035|NCT00043186|184278695|SUPERIORITY_OR_OTHER|||||||0.061|||||||Wilcoxon (Mann-Whitney)|||||||0.061
92190036|NCT00043186|184278695|SUPERIORITY_OR_OTHER|||||||0.058|||||||Wilcoxon (Mann-Whitney)|||||||0.058
92190037|NCT00043186|184278695|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92190038|NCT00043186|184278695|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190039|NCT00043186|184278695|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190040|NCT00043186|184278695|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92190041|NCT00043186|184278695|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92190042|NCT00043186|184278695|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92190043|NCT00043186|184278696|SUPERIORITY_OR_OTHER|||||||0.142|||||||Wilcoxon (Mann-Whitney)|||||||0.142
92190044|NCT00043186|184278696|SUPERIORITY_OR_OTHER|||||||0.218|||||||Wilcoxon (Mann-Whitney)|||||||0.218
92190045|NCT00043186|184278696|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92310668|NCT00468650|184521882|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-20.55|STANDARD_DEVIATION|35.04|<|0.001||95.0|-27.47|-13.64||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||-13.64|-27.47|<0.001
92310669|NCT00468650|184521882|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-22.53|STANDARD_DEVIATION|36.64|<|0.001||95.0|-29.88|-15.18||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||-15.18|-29.88|<0.001
92310670|NCT00468650|184521882|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-21.44|STANDARD_DEVIATION|36.06|<|0.001||95.0|-28.49|-14.39||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||-14.39|-28.49|<0.001
92190046|NCT00043186|184278696|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.010
92190047|NCT00043186|184278696|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92190048|NCT00043186|184278696|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.010
92310671|NCT00468650|184521882|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-21.86|STANDARD_DEVIATION|36.29|<|0.001||95.0|-29.03|-14.7||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||-14.70|-29.03|<0.001
92310672|NCT00468650|184521883|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.79|STANDARD_DEVIATION|22.58||0.0021||95.0|-11.06|-2.52||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||-2.52|-11.06|0.0021
92310673|NCT00468650|184521883|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.85|STANDARD_DEVIATION|23.02||0.0027||95.0|-11.26|-2.43||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||-2.43|-11.26|0.0027
92190049|NCT00043186|184278696|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
92310674|NCT00468650|184521883|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.43|STANDARD_DEVIATION|24.2||0.0015||95.0|-11.97|-2.9||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||-2.90|-11.97|0.0015
92310675|NCT00468650|184521883|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.57|STANDARD_DEVIATION|24.4||0.0015||95.0|-12.18|-2.96||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||-2.96|-12.18|0.0015
92310676|NCT00468650|184521884|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-9.87|STANDARD_DEVIATION|34.44||0.0045||95.0|-16.6|-3.14||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||-3.14|-16.60|0.0045
92190050|NCT00043186|184278696|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
92190051|NCT04050722|184278711|SUPERIORITY||Adjusted Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.08|-0.04||Analysis was performed using ANCOVA model with study product group, gender, and baseline MGI stratification (low/high) as factors and the baseline value as covariate.|ANCOVA|||||-0.04|-0.08|<0.0001
92190052|NCT03924947|184278717|NON_INFERIORITY|The pre-specified non-inferiority margin of upper bound of the two-sided 99% confidence interval for the treatment difference was 12%.|Least Squares (LS) Mean of Difference|0.94|STANDARD_ERROR_OF_MEAN|1.176|||TWO_SIDED|99.0|-2.37|4.259|||||LS mean (standard error \[SE\]) and LS mean confidence interval (CI) are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Double Blind Creon - Double Blind Creon MP||4.259|-2.370|
92190053|NCT03924947|184278718|OTHER|Descriptive|LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|1.169|||TWO_SIDED|95.0|-2.456|2.392|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Creon - Creon MP||2.392|-2.456|
92310677|NCT00468650|184521884|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-11.74|STANDARD_DEVIATION|32.8|<|0.001||95.0|-18.22|-5.27||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||-5.27|-18.22|<0.001
92310678|NCT00468650|184521884|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-12.78|STANDARD_DEVIATION|33.56|<|0.001||95.0|-19.51|-6.05||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||-6.05|-19.51|<0.001
92310679|NCT00468650|184521884|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-13.13|STANDARD_DEVIATION|33.94|<|0.001||95.0|-19.76|-6.5||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||-6.50|-19.76|<0.001
92190054|NCT03924947|184278718|OTHER|Descriptive|LS Mean of Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.035|||TWO_SIDED|95.0|-3.005|1.345|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Creon - Creon AAPIS||1.345|-3.005|
92190055|NCT03924947|184278719|OTHER|Descriptive|LS Mean of Difference|-3.36|STANDARD_ERROR_OF_MEAN|3.541|||TWO_SIDED|95.0|-10.699|3.987|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Creon - Creon MP||3.987|-10.699|
92190056|NCT03924947|184278719|OTHER|Descriptive|LS Mean of Difference|3.27|STANDARD_ERROR_OF_MEAN|4.016|||TWO_SIDED|95.0|-5.172|11.702|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|DB Creon - DB Creon AAPIS||11.702|-5.172|
92190057|NCT03924947|184278720|OTHER|Descriptive|LS Mean of Difference|34.68|STANDARD_ERROR_OF_MEAN|62.253|||TWO_SIDED|95.0|-94.424|163.786|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Creon - Creon MP||163.786|-94.424|
92190058|NCT03924947|184278720|OTHER|Descriptive|LS Mean of Difference|-16.56|STANDARD_ERROR_OF_MEAN|60.858|||TWO_SIDED|95.0|-144.418|111.298|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|DB Creon - DB Creon AAPIS||111.298|-144.418|
92310680|NCT00468650|184521884|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-12.4|STANDARD_DEVIATION|33.13|<|0.001||95.0|-18.94|-5.86||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||-5.86|-18.94|<0.001
92310681|NCT00468650|184521885|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.39|STANDARD_DEVIATION|22.0||0.2567||95.0|-6.55|1.77||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||1.77|-6.55|0.2567
92310682|NCT00468650|184521885|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.91|STANDARD_DEVIATION|20.73||0.3435||95.0|-5.88|2.07||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||2.07|-5.88|0.3435
92310683|NCT00468650|184521885|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.71|STANDARD_DEVIATION|22.28||0.2||95.0|-6.89|1.46||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||1.46|-6.89|0.2000
92310684|NCT00468650|184521885|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.76|STANDARD_DEVIATION|22.48||0.2||95.0|-7.01|1.48||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||1.48|-7.01|0.2000
92310685|NCT00468650|184521886|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-10.82|STANDARD_DEVIATION|56.75||0.0558||95.0|-21.91|0.27||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||0.27|-21.91|0.0558
92190059|NCT03924947|184278721|NON_INFERIORITY|The pre-specified non-inferiority margin of upper bound of the two-sided 99% confidence interval for the treatment difference was 12%.|LS Mean of Difference|-1.15|STANDARD_ERROR_OF_MEAN|1.302|||TWO_SIDED|99.0|-4.892|2.602|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Double Blind Creon - Double Blind Creon AAPIS||2.602|-4.892|
92310686|NCT00468650|184521886|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-29.16|STANDARD_DEVIATION|59.81|<|0.001||95.0|-40.96|-17.35||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||-17.35|-40.96|<0.001
92310687|NCT00468650|184521886|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-30.79|STANDARD_DEVIATION|60.9|<|0.001||95.0|-43.0|-18.58||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||-18.58|-43.00|<0.001
92310688|NCT00468650|184521886|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-30.27|STANDARD_DEVIATION|61.7|<|0.001||95.0|-42.33|-18.21||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||-18.21|-42.33|<0.001
92310689|NCT00468650|184521886|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-30.87|STANDARD_DEVIATION|60.54|<|0.001||95.0|-42.82|-18.92||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||-18.92|-42.82|<0.001
92310690|NCT00468650|184521887|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|-18.36|STANDARD_DEVIATION|46.03|<|0.001||95.0|-27.05|-9.66||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||-9.66|-27.05|<0.001
92310691|NCT00468650|184521887|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-22.16|STANDARD_DEVIATION|45.24|<|0.001||95.0|-30.84|-13.49||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||-13.49|-30.84|<0.001
92310692|NCT00468650|184521887|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-20.28|STANDARD_DEVIATION|45.86|<|0.001||95.0|-28.87|-11.69||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||-11.69|-28.87|<0.001
92310693|NCT00468650|184521887|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-20.65|STANDARD_DEVIATION|46.2|<|0.001||95.0|-29.38|-11.92||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||-11.92|-29.38|<0.001
92190060|NCT03451292|184278751|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.17|TWO_SIDED|95.0|0.58|1.1|||Cox Proportional- Hazards (PH) model|||Stratification factors included were the region (Europe or North America) and history of hospitalization for acute decompensation of liver cirrhosis (yes or no).||1.10|0.58|0.17
92310694|NCT00468650|184521888|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|33.27|STANDARD_DEVIATION|41.43|<|0.001||95.0|25.17|41.36||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||41.36|25.17|<0.001
92310695|NCT00468650|184521888|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|61.45|STANDARD_DEVIATION|44.77|<|0.001||95.0|52.61|70.29||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||70.29|52.61|<0.001
92310696|NCT00468650|184521888|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|66.1|STANDARD_DEVIATION|45.15|<|0.001||95.0|57.05|75.16||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||75.16|57.05|<0.001
92310697|NCT00468650|184521888|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|64.84|STANDARD_DEVIATION|45.7|<|0.001||95.0|55.91|73.77||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||73.77|55.91|<0.001
92310698|NCT00468650|184521888|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|65.13|STANDARD_DEVIATION|45.56|<|0.001||95.0|56.14|74.12||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||74.12|56.14|<0.001
92310699|NCT00468650|184521889|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|27.53|STANDARD_DEVIATION|40.19|<|0.001||95.0|19.94|35.13||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||35.13|19.94|<0.001
92190061|NCT01090076|184278815|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||t-test, 2 sided|||||||0.023
92190062|NCT01090076|184278816|SUPERIORITY_OR_OTHER|||||||0.877||95.0|||||t-test, 2 sided|||||||0.877
92310700|NCT00468650|184521889|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|30.92|STANDARD_DEVIATION|41.9|<|0.001||95.0|22.89|38.95||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||38.95|22.89|<0.001
92310701|NCT00468650|184521889|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|30.43|STANDARD_DEVIATION|41.88|<|0.001||95.0|22.59|38.27||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||38.27|22.59|<0.001
92310702|NCT00468650|184521889|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|30.98|STANDARD_DEVIATION|42.06|<|0.001||95.0|23.04|38.93||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||38.93|23.04|<0.001
92310703|NCT00468650|184521890|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|22.45|STANDARD_DEVIATION|46.1|<|0.001||95.0|13.44|31.46||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||31.46|13.44|<0.001
92190063|NCT01090076|184278817|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||t-test, 2 sided|||||||0.44
92310704|NCT00468650|184521890|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|32.3|STANDARD_DEVIATION|42.15|<|0.001||95.0|23.97|40.62||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||40.62|23.97|<0.001
92310705|NCT00468650|184521890|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|35.31|STANDARD_DEVIATION|43.52|<|0.001||95.0|26.59|44.04||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||44.04|26.59|<0.001
92310706|NCT00468650|184521890|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|34.57|STANDARD_DEVIATION|43.48|<|0.001||95.0|26.07|43.07||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||43.07|26.07|<0.001
92310707|NCT00468650|184521890|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|34.26|STANDARD_DEVIATION|43.29|<|0.001||95.0|25.72|42.81||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||42.81|25.72|<0.001
92310708|NCT00468650|184521891|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.18|STANDARD_DEVIATION|29.45||0.0014||95.0|3.61|14.74||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||14.74|3.61|0.0014
92310709|NCT00468650|184521891|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|8.75|STANDARD_DEVIATION|29.26||0.0025||95.0|3.15|14.36||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||14.36|3.15|0.0025
92310710|NCT00468650|184521891|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.15|STANDARD_DEVIATION|31.11|<|0.001||95.0|4.32|15.97||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||15.97|4.32|<0.001
92190064|NCT02253147|184278869|NON_INFERIORITY|"A WSRS change of 1 grade is considered to be clinically significant. A difference of ≤0.5 grade between the two treatment groups (i.e., half of the clinically significant difference) = non-inferiority margin.~The primary efficacy endpoint uses a paired-design and is analyzed by calculating two-sided confidence intervals of the mean difference between TEOSYAL® RHA UD and the control device, between the V1 enrollment visit (baseline) and V7 (24 weeks after baseline)."|Mean Difference (Final Values)|-0.22|||||TWO_SIDED|95.0|-0.34|-0.11|||||The decision is based on the upper limit of the 2-sided confidence interval for the difference for the change from baseline, between test and comparator treatment. For achieving non-inferiority, the upper confidence limit of a 95.0% CI must be ≤0.5|"Efficacy of TEOSYAL® RHA Ultra Deep versus control is analyzed in a non-inferiority statistical model using the 5-grade Wrinkle Severity Rating Scale (WSRS) as rated by the Blinded Live Evaluator at 24 weeks after baseline.~The primary endpoint is the aesthetic improvement from pre-injection of the NLF at the side of the face treated with TEOSYAL® RHA Ultra Deep compared to the one at the side of the face treated with the control device, as assessed by the BLE at 24 weeks after baseline."||-0.11|-0.34|
92190065|NCT02469077|184278892|SUPERIORITY|||||||0.12|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.12
92190066|NCT02469077|184278893|SUPERIORITY|||||||0.04|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||.04
92190067|NCT02469077|184278894|SUPERIORITY|||||||0.03|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||.03
92310711|NCT00468650|184521891|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.33|STANDARD_DEVIATION|31.36|<|0.001||95.0|4.41|16.26||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||16.26|4.41|<0.001
92310712|NCT00345943|184521894|OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.03|TWO_SIDED||||||Mixed Models Analysis|Growth curve models with between-within degrees of freedom and a random effect for the intercept and fixed effects for predictors.|BN versus HC group effect|Growth curve models examined the following: group (BN versus HC) differences in cortical thickness (CT) at baseline; group differences in the rate of change in CT over time; and the persistence of group differences in CT over time.||||.03
92310713|NCT00345943|184521894|OTHER||Slope|0.053|STANDARD_ERROR_OF_MEAN|0.047|<|0.05|TWO_SIDED|95.0|-0.04|0.15|||Mixed Models Analysis|Growth curve models with between-within degrees of freedom and a random effect for the intercept and fixed effects for predictors.||Growth curve models examined the following: group (BN versus HC) differences in conflict-related BOLD signal at baseline; group differences in the rate of change in conflict-related BOLD signal over time; and the persistence of group differences in conflict-related BOLD signal over time.||0.15|-0.04|<.05
92190068|NCT02469077|184278895|SUPERIORITY|||||||0.17|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.17
92190069|NCT02469077|184278896|SUPERIORITY|||||||0.13|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.13
92190070|NCT02469077|184278897|SUPERIORITY|||||||0.98|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||.98
92190071|NCT02469077|184278898|SUPERIORITY|||||||0.52|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.52
92310714|NCT00673387|184521953|SUPERIORITY_OR_OTHER||||||<|0.0001||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion.|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||<0.0001
92310715|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.0002||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.0002
92310716|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.0004||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.0004
92310717|NCT00673387|184521953|SUPERIORITY_OR_OTHER||||||<|0.0001||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||||||<0.0001
92310718|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.0001||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||||||0.0001
92190072|NCT02469077|184278899|SUPERIORITY|||||||0.65|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.65
92190073|NCT02469077|184278900|SUPERIORITY|||||||0.1|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.1
92190074|NCT02469077|184278901|SUPERIORITY|||||||0.046|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||.046
92190075|NCT02469077|184278902|SUPERIORITY|||||||0.61|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.61
92310719|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.251||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.2510
92310720|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.3433||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.3433
92310721|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.4503||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.4503
92310722|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.2122||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.2122
92310723|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.2232||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.2232
92190076|NCT02469077|184278903|SUPERIORITY|||||||0.4|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.4
92190077|NCT02469077|184278904|SUPERIORITY|||||||0.57|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.57
92190078|NCT02973477|184278905|OTHER|Mixed effects model|Coefficient|0.28||||0.28|TWO_SIDED|95.0|-0.24|0.8||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome.|Mixed Models Analysis||The outcome was logged in the model. The outcome was the natural log of that variable and the coefficient and CI are for the relationship with the log of the outcome.|This is the adjusted mixed models analysis for both periods, both arms, comparing each treatment's change.||0.8|-0.24|0.28
92310724|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.4207||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion.|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.4207
92310725|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.5375||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion.|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%||||0.5375
92310726|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.6633||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%||||0.6633
92190079|NCT02973477|184278906|OTHER||Coefficient|-0.003||||0.97|TWO_SIDED|95.0|-0.16|0.15||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome.|Mixed Models Analysis||The outcome was logged in the model. The outcome was the natural log of that variable and the coefficient and CI are for the relationship with the log of the outcome.|This is the adjusted analysis to compare the difference between the values from baseline to 12 weeks between each intervention for SDNN.||0.15|-0.16|0.97
92190080|NCT02973477|184278906|OTHER||Coefficient|-0.02||||0.79|TWO_SIDED|95.0|-0.21|0.16||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome.|Mixed Models Analysis||The outcome was logged in the model. The outcome was the natural log of that variable and the coefficient and CI are for the relationship with the log of the outcome.|This is the adjusted analysis to compare the difference between the values from baseline to 12 weeks between each intervention for rmsSD.||0.16|-0.21|0.79
92310727|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.3667||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.3667
92190081|NCT02973477|184278907|OTHER||Coefficient|0.01||||0.58|TWO_SIDED|95.0|-0.02|0.04||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome.|Mixed Models Analysis|||This is the adjusted analysis for both periods, both arms, comparing each treatment's change of EI ratio.||0.04|-0.02|0.58
92190082|NCT02973477|184278907|OTHER||Coefficient|0.02||||0.58|TWO_SIDED|95.0|-0.05|0.09||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome. Coefficient provided for Valsalva ratio.|Mixed Models Analysis||The outcome was logged in the model. The outcome was the natural log of that variable and the coefficient and CI are for the relationship with the log of the outcome.|This is the adjusted analysis for both periods, both arms, comparing each treatment's change of Valsalva ratio.||0.09|-0.05|0.58
92190083|NCT02973477|184278907|OTHER||Coefficient|-0.01||||0.56|TWO_SIDED|95.0|-0.05|0.03||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome. Coefficient provided for 30:15 ratio.|Mixed Models Analysis|||This is the adjusted analysis for both periods, both arms, comparing each treatment's change of 30:15 ratio.||0.03|-0.05|0.56
92190084|NCT02973477|184278908|OTHER||Coefficient|0.01||||0.92|TWO_SIDED|95.0|-0.23|0.25||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome.|Mixed Models Analysis|||This is the adjusted analysis for both periods, both arms, comparing each treatment's change of BNP.||0.25|-0.23|0.92
92190085|NCT00694564|184278910|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation was calculated as this was a pilot study to determine such parameters.||||||0.004||95.0|||||MANOVA|||||||0.004
92190086|NCT02402465|184278912|SUPERIORITY||Mean Difference (Final Values)|37.0|||>|0.05|TWO_SIDED||||||ANOVA||Mean difference is related to albumin levels in nasal lavages: Unit= ng/ml|||||>0.05
92190087|NCT02402465|184278913|SUPERIORITY||Friedman's Q|14.2||||0.001|TWO_SIDED|||||Bonferroni correction was used to adjust for the fact that each day was tested separately yielding alpha=0.05/3.|Friedman|Non-parametric repeated measures ANOVA||||||0.001
92190088|NCT02402465|184278913|SUPERIORITY||Median Difference (Net)|24.5||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.02
92190089|NCT02402465|184278913|SUPERIORITY||Median Difference (Net)|4.5||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.003
92190090|NCT02402465|184278913|SUPERIORITY||Median Difference (Net)|48.5||||0.53|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.53
92190091|NCT02402465|184278914|SUPERIORITY||Friedman's Q|5.22||||0.07|TWO_SIDED|||||Alpha=0.05/3 since 3 days are compared|Friedman's Test|||We used Friedman test to compare the distribution of total nasal symptom scores among three treatment groups (Placebo, Fluticasone propionate, Dymista) in each of the three days (day 1, day 2, and day 3).||||0.07
92190092|NCT02402465|184278915|SUPERIORITY||Friedman's Q|5.06||||0.08|TWO_SIDED|||||Bonferroni correction was used to adjust for the fact that each day was tested separately, giving alpha=0.05/3.|Friedman's Test|||||||0.08
92190093|NCT02402465|184278917|SUPERIORITY||Friedman's Q|6.53||||0.04|TWO_SIDED|||||Bonferroni correction was used to adjust for the fact that each day was tested separately, giving alpha=0.05/3.|Friedman's Test|||||||0.04
92310728|NCT00673387|184521953|SUPERIORITY_OR_OTHER|||||||0.372||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion.|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.3720
92310729|NCT00673387|184521957|SUPERIORITY_OR_OTHER|||||||0.0404|||||||t-test, 2 sided|||Change at Week 28 based on a general linear model with factors for treatment group, sex, baseline BMI category, and baseline value as a covariate||||0.0404
92310730|NCT00673387|184521957|SUPERIORITY_OR_OTHER|||||||0.0265|||||||t-test, 2 sided|||Change at Week 28 based on a general linear model with factors for treatment group, sex, baseline BMI category, and baseline value as a covariate.||||0.0265
92310731|NCT00673387|184521957|SUPERIORITY_OR_OTHER|||||||0.1357|||||||t-test, 2 sided|||Change at Week 28 based on a general linear model with factors for treatment group, sex, baseline BMI category, and baseline value as a covariate.||||0.1357
92310732|NCT00673387|184521957|SUPERIORITY_OR_OTHER|||||||0.0409|||||||t-test, 2 sided|||Change at Week 28 based on a general linear model with factors for treatment group, sex, baseline BMI category, and baseline value as a covariate.||||0.0409
92310733|NCT00673387|184521957|SUPERIORITY_OR_OTHER|||||||0.0082|||||||t-test, 2 sided|||Change at Week 28 based on a general linear model with factors for treatment group, sex, baseline BMI category, and baseline value as a covariate.||||0.0082
92310734|NCT00673387|184521961|SUPERIORITY_OR_OTHER|||||||0.0464|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0464
92310735|NCT00673387|184521961|SUPERIORITY_OR_OTHER|||||||0.0647|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0647
92310736|NCT00673387|184521961|SUPERIORITY_OR_OTHER|||||||0.069|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0690
92310737|NCT00673387|184521961|SUPERIORITY_OR_OTHER|||||||0.3717|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.3717
92310738|NCT00673387|184521961|SUPERIORITY_OR_OTHER|||||||0.0327|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0327
92310739|NCT00673387|184521962|SUPERIORITY_OR_OTHER|||||||0.0049|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0049
92310740|NCT00673387|184521962|SUPERIORITY_OR_OTHER|||||||0.0047|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0047
92310741|NCT00673387|184521962|SUPERIORITY_OR_OTHER|||||||0.0046|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0046
92310742|NCT00673387|184521962|SUPERIORITY_OR_OTHER|||||||0.0257|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0257
92310743|NCT00673387|184521962|SUPERIORITY_OR_OTHER|||||||0.0014|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0014
92310744|NCT00673387|184521963|SUPERIORITY_OR_OTHER|||||||0.0222|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0222
92310745|NCT00673387|184521963|SUPERIORITY_OR_OTHER|||||||0.0128|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0128
92310746|NCT00673387|184521963|SUPERIORITY_OR_OTHER|||||||0.0122|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0122
92310747|NCT00673387|184521963|SUPERIORITY_OR_OTHER|||||||0.0073|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0073
92310748|NCT00673387|184521963|SUPERIORITY_OR_OTHER|||||||0.0034|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0034
92310749|NCT00960115|184522009|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.953||||0.828|TWO_SIDED|95.0|0.614|1.479||This trial was not powered to demonstrate statistical significance of treatment differences with respect to a statistical test, i.e., the p value being lower than a significance level of alpha (α) = 0.05.|Log Rank||Cox proportional hazards regression model|||1.479|0.614|0.828
92190094|NCT02402465|184278918|SUPERIORITY||Friedman's Q|0.53|||>|0.05|TWO_SIDED|||||Bonferroni correction was used to adjust for the fact that each day was tested separately, giving alpha=0.05/3.|Friedman's Test|||||||>0.05
92190095|NCT02402465|184278919|SUPERIORITY||Friedman's Q|0.33||||0.85|TWO_SIDED|||||Bonferroni correction was used to adjust for the fact that each day was tested separately, giving alpha=0.05/3.|Friedman's Test|||||||0.85
92310750|NCT00555360|184522061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_DEVIATION|2.0||0.975|TWO_SIDED|95.0|-4.62|4.77|||Regression, Logistic|||||4.77|-4.62|.975
92310751|NCT00555360|184522062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.87|STANDARD_DEVIATION|1.7||0.349|TWO_SIDED|95.0|-5.78|2.05|||Regression, Logistic|||||2.05|-5.78|.349
92310752|NCT00555360|184522063|SUPERIORITY_OR_OTHER||Difference in Percent|14.0|STANDARD_DEVIATION|6.0||0.007|TWO_SIDED|95.0|3.9|24.2|||Regression, Logistic|||||24.2|3.9|.007
92310753|NCT02056392|184522064|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-0.2|||||TWO_SIDED|90.0|-1.8|1.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||1.5|-1.8|
92310754|NCT02056392|184522064|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|6.1|||||TWO_SIDED|90.0|4.4|7.7|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||7.7|4.4|
92310755|NCT02056392|184522065|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|90.0|-2.0|1.3|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||1.3|-2.0|
92310756|NCT02056392|184522065|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|9.2|||||TWO_SIDED|90.0|7.6|10.8|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||10.8|7.6|
92310757|NCT02056392|184522066|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|0.9|||||TWO_SIDED|90.0|-0.7|2.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||2.5|-0.7|
92310758|NCT02056392|184522066|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|9.9|||||TWO_SIDED|90.0|8.3|11.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||11.5|8.3|
92310759|NCT02056392|184522067|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|0.4|||||TWO_SIDED|90.0|-1.2|2.0|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||2.0|-1.2|
92310760|NCT02056392|184522067|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|10.1|||||TWO_SIDED|90.0|8.5|11.8|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||11.8|8.5|
92310761|NCT02056392|184522068|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-0.2|||||TWO_SIDED|90.0|-1.8|1.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||1.5|-1.8|
92310762|NCT02056392|184522068|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|11.9||||||90.0|10.3|13.6|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||13.6|10.3|
92310763|NCT02056392|184522069|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-1.5|||||TWO_SIDED|90.0|-3.1|0.2|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||0.2|-3.1|
92310764|NCT02056392|184522069|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|10.8|||||TWO_SIDED|90.0|9.2|12.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||12.5|9.2|
92310765|NCT02056392|184522070|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-1.8|||||TWO_SIDED|90.0|-3.4|-0.1|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||-0.1|-3.4|
92310766|NCT02056392|184522070|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|8.8|||||TWO_SIDED|90.0|7.1|10.4|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||10.4|7.1|
92310767|NCT02056392|184522071|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|90.0|-2.9|0.4|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||0.4|-2.9|
92310768|NCT02056392|184522071|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|8.9|||||TWO_SIDED|90.0|7.2|10.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||10.5|7.2|
92310769|NCT02056392|184522072|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-4.7|||||TWO_SIDED|90.0|-6.4|-3.1|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||-3.1|-6.4|
92310770|NCT02056392|184522072|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|7.6|||||TWO_SIDED|90.0|6.0|9.3|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||9.3|6.0|
92310771|NCT02056392|184522073|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-2.5|||||TWO_SIDED|90.0|-4.1|-0.9|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||-0.9|-4.1|
92310772|NCT02056392|184522073|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|4.0|||||TWO_SIDED|90.0|2.4|5.7|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||5.7|2.4|
92310773|NCT00658021|184522083|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.363||0.444|TWO_SIDED|95.0|-1.01|0.45|||Mixed Models Analysis|||Adjusted LS mean and treatment group difference in the change from baseline values at visit are obtained from a MMRM including treatment, baseline HbA1c, background diabetes therapy strata, week of visit, baseline HbA1c-by-visit interaction and treatment-by-visit interaction as fixed effects using an unstructured covariance matrix.||0.45|-1.01|0.444
92310774|NCT00658021|184522085|SUPERIORITY|||||||0.562|||||||Cochran-Mantel-Haenszel|||"Treatment difference in HbA1c \< 7% at Week 28:~Treatment group comparison is based on CMH test stratified by screening HbA1c and background diabetes therapy strata. P-value is from the general association statistics."||||0.562
92310775|NCT00658021|184522085|SUPERIORITY|||||||0.621|||||||Cochran-Mantel-Haenszel|||"Treatment difference in HbA1c \<= 6.5% at Week 28:~Treatment group comparison is based on CMH test stratified by screening HbA1c and background diabetes therapy strata. P-value is from the general association statistics."||||0.621
92310776|NCT00658021|184522085|SUPERIORITY|||||||0.229|||||||Cochran-Mantel-Haenszel|||"Treatment difference in HbA1c \< 6.5% at Week 28:~Treatment group comparison is based on CMH test stratified by screening HbA1c and background diabetes therapy strata. P-value is from the general association statistics."||||0.229
92310777|NCT00658021|184522086|SUPERIORITY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.327||0.005|TWO_SIDED|95.0|-1.58|-0.28|||Mixed Models Analysis|||"Treatment difference in body weight at Week 4:~Adjusted LS mean and treatment group difference in the change from baseline values at visit are obtained from a MMRM including treatment, baseline body weight, screening HbA1c strata, background diabetes therapy strata, week of visit, baseline body weight-by visit interaction and treatment-by-visit interaction as fixed effects using an unstructured covariance matrix."||-0.28|-1.58|0.005
92310778|NCT00658021|184522086|SUPERIORITY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.669||0.314|TWO_SIDED|95.0|-2.0|0.65|||Mixed Models Analysis|||"Treatment difference in body weight at Week 12:~Adjusted LS mean and treatment group difference in the change from baseline values at visit are obtained from a MMRM including treatment, baseline body weight, screening HbA1c strata, background diabetes therapy strata, week of visit, baseline body weight-by visit interaction and treatment-by-visit interaction as fixed effects using an unstructured covariance matrix."||0.65|-2.00|0.314
92310779|NCT00658021|184522086|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.94||0.692|TWO_SIDED|95.0|-2.24|1.5|||Mixed Models Analysis|||"Treatment difference in body weight at Week 20:~Adjusted LS mean and treatment group difference in the change from baseline values at visit are obtained from a MMRM including treatment, baseline body weight, screening HbA1c strata, background diabetes therapy strata, week of visit, baseline body weight-by visit interaction and treatment-by-visit interaction as fixed effects using an unstructured covariance matrix."||1.50|-2.24|0.692
92310780|NCT00658021|184522086|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|1.065||0.679|TWO_SIDED|95.0|-2.56|1.68|||Mixed Models Analysis|||"Treatment difference in body weight at Week 28:~Adjusted LS mean and treatment group difference in the change from baseline values at visit are obtained from a MMRM including treatment, baseline body weight, screening HbA1c strata, background diabetes therapy strata, week of visit, baseline body weight-by visit interaction and treatment-by-visit interaction as fixed effects using an unstructured covariance matrix."||1.68|-2.56|0.679
92310781|NCT00658021|184522087|SUPERIORITY||LS Mean Difference|-0.281|STANDARD_ERROR_OF_MEAN|0.68||0.679|TWO_SIDED|95.0|-1.614|1.052|||ANCOVA|||Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline fasting serum glucose, screening HbA1c strata and background diabetes therapy strata as fixed effects.||1.052|-1.614|0.679
92310782|NCT00658021|184522088|SUPERIORITY||LS Mean Difference|0.189|STANDARD_ERROR_OF_MEAN|0.5151||0.714|TWO_SIDED|95.0|-0.821|1.199|||ANCOVA|||Treatment difference for pre-meal SMBG: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline SMBG measure, screening HbA1c strata and background diabetes therapy strata as fixed effects.||1.199|-0.821|0.714
92310783|NCT00658021|184522088|SUPERIORITY||LS Mean Difference|0.513|STANDARD_ERROR_OF_MEAN|0.5245||0.329|TWO_SIDED|95.0|-0.516|1.541|||ANCOVA|||Treatment difference for post-meal SMBG: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline SMBG measure, screening HbA1c strata and background diabetes therapy strata as fixed effects.||1.541|-0.516|0.329
92310784|NCT00658021|184522088|SUPERIORITY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.4015||0.601|TWO_SIDED|95.0|-0.577|0.997|||ANCOVA|||Treatment difference for post-prandial excursion SMBG: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline SMBG measure, screening HbA1c strata and background diabetes therapy strata as fixed effects.||0.997|-0.577|0.601
92310785|NCT00658021|184522088|SUPERIORITY||LS Mean Difference|0.316|STANDARD_ERROR_OF_MEAN|0.4749||0.505|TWO_SIDED|95.0|-0.615|1.248|||ANCOVA|||Treatment difference for overall SMBG: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline SMBG measure, screening HbA1c strata and background diabetes therapy strata as fixed effects.||1.248|-0.615|0.505
92310786|NCT00658021|184522089|SUPERIORITY||LS Mean Difference|-10.82|STANDARD_ERROR_OF_MEAN|43.187||0.802|TWO_SIDED|95.0|-95.48|73.84|||ANCOVA|||Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline fasting serum insulin, screening HbA1c strata and background diabetes therapy strata as fixed effects.||73.84|-95.48|0.802
92310787|NCT00658021|184522090|SUPERIORITY||LS Mean Difference|-3.84|STANDARD_ERROR_OF_MEAN|18.542||0.836|TWO_SIDED|95.0|-40.19|32.51|||ANCOVA|||Treatment difference for HOMA-B: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline %HOMA-B, screening HbA1c strata and background diabetes therapy strata as fixed effects.||32.51|-40.19|0.836
92310788|NCT00658021|184522090|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|3.846||0.941|TWO_SIDED|95.0|-7.82|7.26|||ANCOVA|||Treatment difference for HOMA-S: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline %HOMA-S, screening HbA1c strata and background diabetes therapy strata as fixed effects.||7.26|-7.82|0.941
92190096|NCT01284634|184278920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.89|STANDARD_ERROR_OF_MEAN|5.454||0.222|TWO_SIDED|90.0|-16.35|2.56|||Regression, Linear|||The EOT liver triglyceride levels were analyzed using a linear regression model, with EOT liver triglyceride levels as the dependent variable, dose of GWP42003 as regressor, baseline liver triglyceride levels as a covariate, and gender as a factor.||2.56|-16.35|0.222
92310789|NCT02968849|184522093|OTHER||Hazard Ratio (HR)|1.02||||0.84|TWO_SIDED|95.0|0.81|1.3|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.30|0.81|0.84
92310790|NCT02968849|184522093|OTHER||Hazard Ratio (HR)|1.03||||0.83|TWO_SIDED|95.0|0.81|1.31|||Wald||The hazard ratio was estimated using Nelson-Aalen cumulative hazard estimates. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator..|||1.31|0.81|0.83
92310791|NCT02968849|184522104|OTHER||Hazard Ratio (HR)|1.05||||0.66|TWO_SIDED|95.0|0.85|1.28|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.28|0.85|0.66
92310792|NCT02968849|184522104|OTHER||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.81|1.23|||Wald||The hazard ratio was estimated using Nelson-Aalen cumulative hazard estimates. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator..|||1.23|0.81|0.98
92310793|NCT02968849|184522106|OTHER||Hazard Ratio (HR)|1.15||||0.39|TWO_SIDED|95.0|0.84|1.58|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.58|0.84|0.39
92310794|NCT02968849|184522106|OTHER||Hazard Ratio (HR)|1.12||||0.5|TWO_SIDED|95.0|0.81|1.54|||Wald||The hazard ratio was estimated using Nelson-Aalen cumulative hazard estimates. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator..|||1.54|0.81|0.50
92310795|NCT02968849|184522117|OTHER||Hazard Ratio (HR)|1.03||||0.82|TWO_SIDED|95.0|0.8|1.33|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.33|0.80|0.82
92310796|NCT02968849|184522118|OTHER||Hazard Ratio (HR)|0.99||||0.98|TWO_SIDED|95.0|0.5|1.98|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.98|0.50|0.98
92310797|NCT02968849|184522119|OTHER||Hazard Ratio (HR)|1.08||||0.6|TWO_SIDED|95.0|0.8|1.47|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.47|0.80|0.60
92190097|NCT01284634|184278920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.35|STANDARD_ERROR_OF_MEAN|5.943||0.133|TWO_SIDED|90.0|-19.66|0.95|||Regression, Linear|||The EOT liver triglyceride levels were analyzed using a linear regression model, with EOT liver triglyceride levels as the dependent variable, dose of GWP42003 as regressor, baseline liver triglyceride levels as a covariate, and gender as a factor.||0.95|-19.66|0.133
92190098|NCT01284634|184278920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.54|STANDARD_ERROR_OF_MEAN|6.158||0.302|TWO_SIDED|90.0|-17.22|4.14|||Regression, Linear|||The EOT liver triglyceride levels were analyzed using a linear regression model, with EOT liver triglyceride levels as the dependent variable, dose of GWP42003 as regressor, baseline liver triglyceride levels as a covariate, and gender as a factor.||4.14|-17.22|0.302
92190099|NCT03807700|184278926|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.58||0.4769|TWO_SIDED|95.0|-1.56|0.74|||ANCOVA|Analysis was performed using ANCOVA model with study product as a fixed effect and Baseline overall score as a covariate.|Difference is experimental adhesive minus no adhesive.|||0.74|-1.56|0.4769
92190100|NCT02720081|184278943|SUPERIORITY||Difference in least squares means|-4.775||||0.352|TWO_SIDED|95.0|-14.92|5.37|||ANOVA|Terms for treatment, number of C alleles at the pre-specified SNP, and prior inhaled corticosteroid use.||||5.370|-14.92|0.352
92190101|NCT02720081|184278944|OTHER||Difference in percentages|-0.4|||||TWO_SIDED|95.0|-15.0|14.3|||||Based on Miettinen \& Nurminen|||14.3|-15.0|
92190102|NCT02720081|184278945|OTHER||Difference in percentages|-4.3|||||TWO_SIDED|95.0|-12.1|1.0|||||Based on Miettinen \& Nurminen|||1.0|-12.1|
92190103|NCT02720081|184278967|SUPERIORITY||Difference in least squares means|0.107||||0.023|TWO_SIDED|95.0|0.015|0.199|||Constrained longitudinal data analysis|Terms for treatment, time, interaction of time by treatment, number of C alleles at the pre-specified SNP, and prior inhaled corticosteroid use.||||0.199|0.015|0.023
92190104|NCT03334747|184278995|OTHER|||||||0.391|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||0.391
92190105|NCT03334747|184278995|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
92190106|NCT03334747|184278995|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
92190107|NCT03334747|184278995|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
92190108|NCT03334747|184278995|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
92190109|NCT03334747|184278995|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
92190110|NCT03334747|184278995|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
92190111|NCT03334747|184278995|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
92190112|NCT00938041|184279011|SUPERIORITY_OR_OTHER||percentage of participants|25.0|||||TWO_SIDED|95.0|10.0|40.0|||||The estimated value reflects the percentage of participants with complete response. Percentages are calculated using the number of participants in the ITT-Exposed Population as the denominator.|||40|10|
92190113|NCT00938041|184279011|SUPERIORITY_OR_OTHER||percentage of participants|25.0|||||TWO_SIDED|95.0|10.0|40.0|||||The estimated value reflects the percentage of participants with confirmed complete response. Percentages are calculated using the number of participants in the ITT-Exposed Population as the denominator.|||40|10|
92190114|NCT03042559|184279031|SUPERIORITY|||||||||||||a priori threshold for statistical significance is \<0.05.|Wilcoxon (Mann-Whitney)|||Data analysis was performed using SPSS Statistics Software version 24.0. We compared mean age (years), Body Mass Index (kg/m2) (BMI), pain duration, and the outcome measures at baseline in both groups at baseline using independent t-test when the distribution of the variable was approximately normal and Mann-Whitney test when the distribution was not normal. The distribution of qualitative variables (gender, affected leg) by group type was examined using Chi Square test.|a priori threshold for statistical significance is \<0.05.|||
92190115|NCT03042559|184279038|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92190116|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||5.59e-06|TWO_SIDED||||||t-test, 2 sided|||rs1876154||||0.00000559
92190117|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||7.66e-06|TWO_SIDED||||||t-test, 2 sided|||rs2812338||||0.00000766
92190118|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||9.82e-06|TWO_SIDED||||||t-test, 2 sided|||rs10824875||||0.00000982
92190119|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||1.27e-06|TWO_SIDED||||||t-test, 2 sided|||rs1831559||||0.00000127
92190120|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||3.96e-06|TWO_SIDED||||||t-test, 2 sided|||rs10851257||||0.00000396
92190121|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||6.48e-06|TWO_SIDED||||||t-test, 2 sided|||rs6492344||||0.00000648
92190122|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||2.21e-06|TWO_SIDED||||||t-test, 2 sided|||rs12584550||||0.00000221
92190123|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||9.02e-06|TWO_SIDED||||||t-test, 2 sided|||rs9555773||||0.00000902
92190124|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||7.7e-07|TWO_SIDED||||||t-test, 2 sided|||rs7983441||||0.00000077
92190125|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||4.8e-07|TWO_SIDED||||||t-test, 2 sided|||rs12446868||||0.00000048
92190126|NCT01855997|184279059|SUPERIORITY_OR_OTHER|||||||3.7e-07|TWO_SIDED||||||t-test, 2 sided|||rs247878||||0.00000037
92190127|NCT01855997|184279060|SUPERIORITY_OR_OTHER|||||||9.87e-06|TWO_SIDED||||||t-test, 2 sided|||rs1876154||||0.00000987
92190128|NCT01855997|184279060|SUPERIORITY_OR_OTHER|||||||6.05e-06|TWO_SIDED||||||t-test, 2 sided|||rs7753766||||0.00000605
92190129|NCT01855997|184279060|SUPERIORITY_OR_OTHER|||||||9.46e-06|TWO_SIDED||||||t-test, 2 sided|||rs604241||||0.00000946
92190130|NCT01855997|184279060|SUPERIORITY_OR_OTHER|||||||7.7e-07|TWO_SIDED||||||t-test, 2 sided|||rs12446868||||0.00000077
92190131|NCT01855997|184279060|SUPERIORITY_OR_OTHER|||||||1.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs247878||||0.00000197
92190132|NCT01855997|184279061|SUPERIORITY_OR_OTHER|||||||6.77e-06|TWO_SIDED||||||t-test, 2 sided|||rs12210761||||0.00000677
92190133|NCT01855997|184279061|SUPERIORITY_OR_OTHER|||||||7.98e-06|TWO_SIDED||||||t-test, 2 sided|||rs1831559||||0.00000798
92190134|NCT01855997|184279061|SUPERIORITY_OR_OTHER|||||||5.12e-06|TWO_SIDED||||||t-test, 2 sided|||rs7983441||||0.00000512
92310798|NCT02968849|184522120|OTHER||Hazard Ratio (HR)|0.92||||0.71|TWO_SIDED|95.0|0.58|1.46|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.46|0.58|0.71
92310799|NCT01277601|184522149|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Raw p-values comparing treatments were based on a log-rank test stratified by HBeAg status and viral genotype.|Log Rank|||||||< 0.001
92310800|NCT01277601|184522149|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Raw p-values comparing treatments were based on a log-rank test stratified by HBeAg status and viral genotype.|Log Rank|||||||0.002
92310801|NCT02260570|184522186|SUPERIORITY||F value|24.1|||<|0.0001|TWO_SIDED|||||This p-value is adjusted for multiple comparisons.|ANOVA|F(1,1,60) = 24.1, p \< 0.0001, adjusted r\^2 = 0.275||||||<0.0001
92310802|NCT02260570|184522187|SUPERIORITY||F value|6.23||||0.0184|TWO_SIDED|||||This p-value is adjusted for multiple comparisons.|ANOVA|F(1,30) = 6.23, p = 0.0184, adjusted r\^2 = 0.144||||||0.0184
92310803|NCT04034927|184522190|SUPERIORITY||Odds Ratio (OR)|0.707|||||TWO_SIDED|95.0|0.241|2.068|||||The numerator is the experimental arm (odds of response) and the denominator is the control arm (odds of response).|Odds ratio for experimental arm (O + T) response compared to control arm (O) response.||2.068|0.241|
92310804|NCT03956355|184522193|SUPERIORITY||Risk Ratio (RR)|5.78|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
92310805|NCT03956355|184522194|SUPERIORITY||Risk Ratio (RR)|2.76|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
92190135|NCT01855997|184279061|SUPERIORITY_OR_OTHER|||||||3.45e-06|TWO_SIDED||||||t-test, 2 sided|||rs12446868||||0.00000345
92190136|NCT01855997|184279061|SUPERIORITY_OR_OTHER|||||||3.72e-06|TWO_SIDED||||||t-test, 2 sided|||rs247878||||0.00000372
92190137|NCT01855997|184279062|SUPERIORITY_OR_OTHER|||||||4.59e-06|TWO_SIDED||||||t-test, 2 sided|||rs12210761||||0.00000459
92190138|NCT01855997|184279062|SUPERIORITY_OR_OTHER|||||||9.25e-06|TWO_SIDED||||||t-test, 2 sided|||rs1411283||||0.00000925
92190139|NCT01855997|184279062|SUPERIORITY_OR_OTHER|||||||7.72e-06|TWO_SIDED||||||t-test, 2 sided|||rs12446868||||0.00000772
92190140|NCT01855997|184279063|SUPERIORITY_OR_OTHER|||||||4.7e-06|TWO_SIDED||||||t-test, 2 sided|||rs11163805||||0.00000470
92310806|NCT03956355|184522195|SUPERIORITY||Risk Ratio (RR)|2.68||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0001
92310807|NCT03956355|184522196|SUPERIORITY||Least squares mean difference|-3.28|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92310808|NCT03956355|184522197|SUPERIORITY||Risk Ratio (RR)|8.54||||0.0005|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0005
92310809|NCT03996447|184522198|SUPERIORITY||Mean Difference (Final Values)|1.82|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|1.76|1.88||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 1. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||1.88|1.76|<.0001
92310810|NCT03996447|184522198|SUPERIORITY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|1.81|2.0||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 2. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.00|1.81|<.0001
92310811|NCT03996447|184522198|SUPERIORITY||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|1.29|1.44||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 3. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||1.44|1.29|<.0001
92310812|NCT03996447|184522198|SUPERIORITY||Mean Difference (Final Values)|2.26|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|2.2|2.33||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 1. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.33|2.20|<.0001
92310813|NCT03996447|184522198|SUPERIORITY||Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|1.69|1.85||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 2. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||1.85|1.69|<.0001
92190141|NCT01855997|184279063|SUPERIORITY_OR_OTHER|||||||6.74e-06|TWO_SIDED||||||t-test, 2 sided|||rs6443144||||0.00000674
92190142|NCT01855997|184279063|SUPERIORITY_OR_OTHER|||||||9.52e-06|TWO_SIDED||||||t-test, 2 sided|||rs11139349||||0.00000952
92310814|NCT03996447|184522198|SUPERIORITY||Mean Difference (Final Values)|1.96|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|1.85|2.06||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 3. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.06|1.85|<.0001
92310815|NCT03996447|184522198|SUPERIORITY||Mean Difference (Final Values)|2.77|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|2.69|2.85||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement; Reader 1. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.85|2.69|<.0001
92310816|NCT03996447|184522198|SUPERIORITY||Mean Difference (Final Values)|2.58|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|2.49|2.67||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement - Reader 2. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.67|2.49|<.0001
92310817|NCT03996447|184522198|SUPERIORITY||Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|2.84|2.95||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement; Reader 3. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.95|2.84|<.0001
92310818|NCT03996447|184522199|NON_INFERIORITY|Non-inferiority between gadopiclenol and gadobutrol was concluded if the lower bound of this confidence interval was above the non-inferiority margin set to 0.35 for at least 2 out of 3 blinded readers and for the 3 co-primary criteria simultaneously.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|-0.06|0.02||The Null hypothesis was rejected if the 2-sided 95% Confidence Interval (CI) for the difference \[gadopiclenol scores mean - gadobutrol scores mean\] had its lower limit above -0.35.|t-test, 2 sided|The Student's t-based 95% CIs of the difference between gadopiclenol and gadobutrol were constructed for each of 3 co-primary criteria.||Criterion: Border delineation; Reader 1. The null hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 primary criteria was equal to the non inferiority margin (-0.35). The alternative hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 co-primary criteria was greater than the non inferiority margin.||0.02|-0.06|<0.0001
92310819|NCT03996447|184522199|NON_INFERIORITY|Non-inferiority between gadopiclenol and gadobutrol was concluded if the lower bound of this confidence interval was above the non-inferiority margin set to 0.35 for at least 2 out of 3 blinded readers and for the 3 co-primary criteria simultaneously.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.04|0.11||The Null hypothesis was rejected if the 2-sided 95% Confidence Interval (CI) for the difference \[gadopiclenol scores mean - gadobutrol scores mean\] had its lower limit above -0.35.|t-test, 2 sided|The Student's t-based 95% CIs of the difference between gadopiclenol and gadobutrol were constructed for each of 3 co-primary criteria.||Criterion: Border delineation; Reader 2. The null hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 primary criteria was equal to the non inferiority margin (-0.35). The alternative hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 co-primary criteria was greater than the non inferiority margin.||0.11|-0.04|<0.0001
92310820|NCT03996447|184522199|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|-0.01|0.05|||t-test, 2 sided|||Criterion: Border delineation; Reader 3||0.05|-0.01|<0.0001
92190143|NCT01855997|184279063|SUPERIORITY_OR_OTHER|||||||6.08e-06|TWO_SIDED||||||t-test, 2 sided|||rs1831559||||0.00000608
92190144|NCT01855997|184279063|SUPERIORITY_OR_OTHER|||||||4.04e-06|TWO_SIDED||||||t-test, 2 sided|||rs7983441||||0.00000404
92190145|NCT01855997|184279063|SUPERIORITY_OR_OTHER|||||||4.07e-06|TWO_SIDED||||||t-test, 2 sided|||rs11868362||||0.00000407
92190146|NCT01855997|184279064|SUPERIORITY_OR_OTHER|||||||6.66e-06|TWO_SIDED||||||t-test, 2 sided|||rs1384010||||0.00000666
92190147|NCT01855997|184279064|SUPERIORITY_OR_OTHER|||||||8.44e-06|TWO_SIDED||||||t-test, 2 sided|||rs1351518||||0.00000844
92190148|NCT01855997|184279064|SUPERIORITY_OR_OTHER|||||||7.94e-06|TWO_SIDED||||||t-test, 2 sided|||rs1157322||||0.00000794
92190149|NCT01855997|184279064|SUPERIORITY_OR_OTHER|||||||3.1e-06|TWO_SIDED||||||t-test, 2 sided|||rs11868362||||0.00000310
92190150|NCT01855997|184279065|SUPERIORITY_OR_OTHER|||||||2.07e-06|TWO_SIDED||||||t-test, 2 sided|||rs11139349||||0.00000207
92190151|NCT01855997|184279065|SUPERIORITY_OR_OTHER|||||||8.99e-06|TWO_SIDED||||||t-test, 2 sided|||rs1157322||||0.00000899
92310821|NCT03996447|184522199|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|-0.04|0.03|||t-test, 2 sided|||Criterion: Internal morphology; Reader 1||0.03|-0.04|<0.0001
92310822|NCT03996447|184522199|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.05|0.09|||t-test, 2 sided|||Criterion: Internal morphology; Reader 2||0.09|-0.05|<0.0001
92310823|NCT03996447|184522199|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.01|0.08|||t-test, 2 sided|||Criterion: Internal morphology; Reader 3||0.08|0.01|<0.0001
92310824|NCT03996447|184522199|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.0001|TWO_SIDED|95.0|-0.04|0.07|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 1||0.07|-0.04|0.0001
92310825|NCT03996447|184522199|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.03|0.12|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 2||0.12|-0.03|<0.0001
92310826|NCT03996447|184522199|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.03|0.15|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 3||0.15|0.03|<0.0001
92310827|NCT00369486|184522217|SUPERIORITY_OR_OTHER|||||||0.46||95.0||||Adjusted for baseline central subfield thickness|repeated measures least sq. regression|Models adjusted for baseline values and for correlated data from subjects with two study eyes.||Comparison of change in central subfield thickening from baseline to 34 weeks in all five groups.||||0.46
92310828|NCT00369486|184522218|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.04||95.0|0.2|1.0|||generalized estimating equations|||Analysis combined posterior and anterior injection + laser groups to compare with laser only.||1.0|0.2|0.04
92310829|NCT00369486|184522218|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.63||95.0|0.5|2.9|||generalized estimating equations|||Analysis combined posterior and anterior injection only groups to compare with laser only treatment group.||2.9|0.5|0.63
92310830|NCT00369486|184522219|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||repeated measures least sq. regression|Adjusted for baseline values and for the correlated data from subjects with two study eyes.||Comparison of the mean change in visual acuity letter score among the five groups at 34 weeks. Negative changes represent a worsening in visual acuity.||||0.94
92310831|NCT00113763|184522242|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Log Rank|Stratified by baseline IVRS ECOG performance status and geographic region||Null hypothesis was no difference between treatment groups||||<0.0001
92310832|NCT00113763|184522243|SUPERIORITY_OR_OTHER_LEGACY|||||||0.806||||||This analysis was conducted contingent on a statistically significant difference in the primary outcome, and adjusted to an a priori threshold for statistical significance at a 4% level for a multiple comparison involving objective tumor response|Log Rank|Stratified by baseline IVRS ECOG performance status and geographic region||Null hypothesis was no difference between treatment groups||||0.806
92310833|NCT03743415|184522252|SUPERIORITY|The key parameter was the coefficient for the trial arm difference in linear mixed effects model that reflected average difference between arms over time (weeks 1-13).|Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|1.16||0.81|TWO_SIDED|95.0|-2.5|1.96||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Linear mixed effects models were used for 13 repeated measures of the symptom index, adjusting for baseline value.|Mean of SMSH alone minus mean of SMSH+TIPC|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The adjusted effect size d=0.54 between the SMSH alone group and SMSH+TIPC group was detectable with power of .94 in two-sided tests at .05 level of significance.||1.96|-2.50|.81
92310834|NCT03743415|184522252|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|2.07||0.78|TWO_SIDED|95.0|-4.65|3.49||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|The model included adjustment for baseline value of the symptom index.|Mean of SMSH alone minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The adjusted effect size d=0.54 between the SMSH alone group and SMSH+TIPC group was detectable with power of .94 in two-sided tests at .05 level of significance.||3.49|-4.65|.78
92310835|NCT03743415|184522252|SUPERIORITY|The key parameter was the coefficient for the trial arm difference in linear mixed effects model that included reflected average difference between arms over time (weeks 1-13).|Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.76||0.27|TWO_SIDED|95.0|-0.66|2.32||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The adjusted effect size d=0.54 between the SMSH alone group and SMSH+TIPC group was detectable with power of .94 in two-sided tests at .05 level of significance.||2.32|-0.66|.27
92310836|NCT03743415|184522252|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|1.76|STANDARD_ERROR_OF_MEAN|1.35||0.19|TWO_SIDED|95.0|-0.88|4.39||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH alone minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The adjusted effect size d=0.54 between the SMSH alone group and SMSH+TIPC group was detectable with power of .94 in two-sided tests at .05 level of significance.||4.39|-0.88|.19
92190152|NCT01855997|184279066|SUPERIORITY_OR_OTHER|||||||5.73e-06|TWO_SIDED||||||t-test, 2 sided|||rs1384010||||0.00000573
92190153|NCT01855997|184279066|SUPERIORITY_OR_OTHER|||||||9.46e-06|TWO_SIDED||||||t-test, 2 sided|||rs1351518||||0.00000946
92190154|NCT01855997|184279066|SUPERIORITY_OR_OTHER|||||||7.31e-06|TWO_SIDED||||||t-test, 2 sided|||rs1157322||||0.00000731
92190155|NCT01855997|184279066|SUPERIORITY_OR_OTHER|||||||9.45e-06|TWO_SIDED||||||t-test, 2 sided|||rs646097||||0.00000945
92310837|NCT03743415|184522253|SUPERIORITY|The key parameter was the coefficient for the trial arm difference in linear mixed effects model that included reflected average difference between arms over weeks 5-13.|Mean Difference (Final Values)|2.43|STANDARD_ERROR_OF_MEAN|2.46||0.53|TWO_SIDED|95.0|-3.3|6.36||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH alone minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. . The adjusted effect size (Cohen's d=0.54) was used to power comparisons on the primary outcomes reported by groups from the second randomization. This analysis indicated that 60 per group would be required for power of .80 or greater in two-sided tests at α= 0.05.||6.36|-3.30|.53
92310838|NCT03743415|184522253|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|1.99|STANDARD_ERROR_OF_MEAN|3.92||0.97|TWO_SIDED|95.0|-5.7|9.68||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH alone minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. . The adjusted effect size (Cohen's d=0.54) was used to power comparisons on the primary outcomes reported by groups from the second randomization. This analysis indicated that 60 per group would be required for power of .80 or greater in two-sided tests at α= 0.05.||9.68|-5.70|.97
92310839|NCT03743415|184522253|SUPERIORITY|The key parameter was the coefficient for the trial arm difference in linear mixed effects model that included reflected average difference between arms over weeks 5-13.|Mean Difference (Final Values)|1.96|STANDARD_ERROR_OF_MEAN|1.94||0.31|TWO_SIDED|95.0|-1.83|5.75||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH alone minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. . The adjusted effect size (Cohen's d=0.54) was used to power comparisons on the primary outcomes reported by groups from the second randomization. This analysis indicated that 60 per group would be required for power of .80 or greater in two-sided tests at α= 0.05.||5.75|-1.83|.31
92310840|NCT03743415|184522253|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Net)|3.3|STANDARD_ERROR_OF_MEAN|2.77||0.61|TWO_SIDED|95.0|-2.13|8.74||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The adjusted effect size (Cohen's d=0.54) was used to power comparisons on the primary outcomes reported by groups from the second randomization. This analysis indicated that 60 per group would be required for power of .80 or greater in two-sided tests at α= 0.05.||8.74|-2.13|.61
92310841|NCT03743415|184522254|SUPERIORITY|Key parameter was the difference between arms at week 13.|Mean Difference (Final Values)|-0.99|STANDARD_ERROR_OF_MEAN|1.14||0.44|TWO_SIDED|95.0|-3.12|1.35||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Regression, Linear|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||1.35|-3.12|.44
92310842|NCT03743415|184522254|SUPERIORITY|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|1.15||0.95|TWO_SIDED|95.0|-2.32|2.18||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.||2.18|-2.32|.95
92310843|NCT03743415|184522254|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.96||0.97|TWO_SIDED|95.0|-1.85|1.93||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||1.93|-1.85|.97
92310844|NCT03743415|184522254|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.96||0.74|TWO_SIDED|95.0|-1.56|2.2||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||2.20|-1.56|.74
92190156|NCT01855997|184279067|SUPERIORITY_OR_OTHER|||||||1.6e-07|TWO_SIDED||||||t-test, 2 sided|||rs17037122||||0.00000016
92190157|NCT01855997|184279068|SUPERIORITY_OR_OTHER|||||||8.8e-07|TWO_SIDED||||||t-test, 2 sided|||rs17037122||||0.00000088
92190158|NCT01855997|184279069|SUPERIORITY_OR_OTHER|||||||8.79e-06|TWO_SIDED||||||t-test, 2 sided|||rs2464266||||0.00000879
92190159|NCT01855997|184279070|SUPERIORITY_OR_OTHER|||||||4.52e-06|TWO_SIDED||||||t-test, 2 sided|||rs9496139||||0.00000452
92190160|NCT01855997|184279070|SUPERIORITY_OR_OTHER|||||||4.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs2014238||||0.00000497
92190161|NCT01855997|184279070|SUPERIORITY_OR_OTHER|||||||4.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs2980231||||0.00000497
92190162|NCT01855997|184279071|SUPERIORITY_OR_OTHER|||||||7.48e-06|TWO_SIDED||||||t-test, 2 sided|||exm2237722||||0.00000748
92310845|NCT03743415|184522255|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|2.31||0.98|TWO_SIDED|95.0|-4.49|4.58||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus mean of SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||4.58|-4.49|.98
92310846|NCT03743415|184522255|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|2.34||0.7|TWO_SIDED|95.0|-5.48|3.68||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||3.68|-5.48|.70
92310847|NCT03743415|184522255|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|1.85||0.27|TWO_SIDED|95.0|-5.62|1.62||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||1.62|-5.62|.27
92310848|NCT03743415|184522255|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|1.84||0.91|TWO_SIDED|95.0|-3.4|3.81||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||3.81|-3.40|.91
92310849|NCT03743415|184522256|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|1.06||0.06|TWO_SIDED|95.0|-3.98|0.19||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||0.19|-3.98|.06
92310850|NCT03743415|184522256|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|-1.78|STANDARD_ERROR_OF_MEAN|1.0||0.09|TWO_SIDED|95.0|-3.81|0.11||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||0.11|-3.81|.09
92310851|NCT03743415|184522256|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.97||0.89|TWO_SIDED|95.0|-1.77|2.04||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||2.04|-1.77|.89
92310852|NCT03743415|184522256|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|0.96||0.47|TWO_SIDED|95.0|-1.2|2.58||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||2.58|-1.20|.47
92190163|NCT01855997|184279071|SUPERIORITY_OR_OTHER|||||||7.3e-07|TWO_SIDED||||||t-test, 2 sided|||rs16924016||||0.00000073
92190164|NCT01855997|184279071|SUPERIORITY_OR_OTHER|||||||2.89e-06|TWO_SIDED||||||t-test, 2 sided|||rs2899723||||0.00000289
92190165|NCT01855997|184279071|SUPERIORITY_OR_OTHER|||||||9.12e-06|TWO_SIDED||||||t-test, 2 sided|||rs8027115||||0.00000912
92190166|NCT01855997|184279071|SUPERIORITY_OR_OTHER|||||||4.94e-06|TWO_SIDED||||||t-test, 2 sided|||exm2267780||||0.00000494
92190167|NCT01855997|184279072|SUPERIORITY_OR_OTHER|||||||6.27e-06|TWO_SIDED||||||t-test, 2 sided|||rs9973954||||0.00000627
92190168|NCT01855997|184279072|SUPERIORITY_OR_OTHER|||||||6.96e-06|TWO_SIDED||||||t-test, 2 sided|||exm2237722||||0.00000696
92190169|NCT01855997|184279072|SUPERIORITY_OR_OTHER|||||||4.26e-06|TWO_SIDED||||||t-test, 2 sided|||rs1040084||||0.00000426
92190170|NCT01855997|184279072|SUPERIORITY_OR_OTHER|||||||4.35e-06|TWO_SIDED||||||t-test, 2 sided|||rs1913484||||0.00000435
92190171|NCT01855997|184279072|SUPERIORITY_OR_OTHER|||||||2.21e-06|TWO_SIDED||||||t-test, 2 sided|||rs16924016||||0.00000221
92190172|NCT01855997|184279072|SUPERIORITY_OR_OTHER|||||||5.23e-06|TWO_SIDED||||||t-test, 2 sided|||exm1010813||||0.00000523
92190173|NCT01855997|184279072|SUPERIORITY_OR_OTHER|||||||7.57e-06|TWO_SIDED||||||t-test, 2 sided|||rs6576456||||0.00000757
92310853|NCT03743415|184522257|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|-1.41|STANDARD_ERROR_OF_MEAN|1.94||0.45|TWO_SIDED|95.0|-5.22|2.39||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||2.39|-5.22|.45
92310854|NCT03743415|184522257|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|1.97||0.82|TWO_SIDED|95.0|-3.59|4.12||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||4.12|-3.59|.82
92310855|NCT03743415|184522257|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|1.88||0.77|TWO_SIDED|95.0|-3.13|4.23||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||4.23|-3.13|.77
92310856|NCT03743415|184522257|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|1.87||0.86|TWO_SIDED|95.0|-3.98|3.34||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||3.34|-3.98|.86
92310857|NCT00094861|184522258|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.8553||||0.355||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants with no assessments were assumed as having grade ≥ 2 dysphagia in hypothesis testing.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.3550
92310858|NCT00094861|184522259|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.9936||||0.3189||95.0||||Generalized Cochran-Mantel-Haenszel test for mean score difference using modified ridit score.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.3189
92310859|NCT00094861|184522260|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.437||||0.5086||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants with no assessments were assumed as having grade 5 dysphagia in hypothesis testing.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.5086
92310860|NCT00094861|184522261|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.46||||0.4976||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants with no assessments were assumed as having grade ≥ 3 dysphagia in hypothesis testing.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.4976
92310861|NCT00094861|184522262|SUPERIORITY_OR_OTHER||Chi-Square Statistic|-2.5325||||0.1115||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants who never received radiotherapy were assumed to have unplanned breaks.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.1115
92310862|NCT00094861|184522263|SUPERIORITY_OR_OTHER||Chi-Square Statistic|3.4812||||0.0621|TWO_SIDED|||||Generalized Cochran-Mantel-Haenszel (CMH) test for mean score difference using modified ridit score. Participants without any ECOG assessment post baseline were assumed to have ECOG status of 5 in the CMH test.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.0621
92310863|NCT00094861|184522264|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.0294||||0.8639||95.0||||Generalized Cochran-Mantel-Haenszel test for general association.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.8639
92310864|NCT00094861|184522265|SUPERIORITY_OR_OTHER||Chi-Square Statistic|3.1414||||0.1996||||||Generalized Cochran-Mantel-Haenszel test for mean score difference using modified ridit score.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.1996
92310865|NCT01917214|184522268|SUPERIORITY_OR_OTHER|||||||0.0308|||||||Log Rank|||||||0.0308
92310866|NCT00451204|184522272|SUPERIORITY_OR_OTHER||Rate ratio|0.63||||0.077|TWO_SIDED|95.0|0.37|1.05|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 mo, time since dx, previous glatiramer acetate tx, and previous interferon beta tx.||||1.05|0.37|0.077
92310867|NCT00451204|184522273|SUPERIORITY_OR_OTHER||Rate ratio|0.65||||0.098|TWO_SIDED|95.0|0.39|1.08|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 months, time since dx, previous GA treatment, and previous interferon beta treatment.||||1.08|0.39|0.098
92190174|NCT01855997|184279073|SUPERIORITY_OR_OTHER|||||||1.53e-06|TWO_SIDED||||||t-test, 2 sided|||rs17037122||||0.00000153
92190175|NCT01855997|184279073|SUPERIORITY_OR_OTHER|||||||7.08e-06|TWO_SIDED||||||t-test, 2 sided|||rs10475403||||0.00000708
92190176|NCT01855997|184279073|SUPERIORITY_OR_OTHER|||||||7.27e-06|TWO_SIDED||||||t-test, 2 sided|||rs715243||||0.00000727
92190177|NCT01855997|184279074|SUPERIORITY_OR_OTHER|||||||3.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs17037122||||0.00000397
92190178|NCT01855997|184279075|SUPERIORITY_OR_OTHER|||||||6.86e-06|TWO_SIDED||||||t-test, 2 sided|||rs6443144||||0.00000686
92190179|NCT01855997|184279075|SUPERIORITY_OR_OTHER|||||||5.96e-06|TWO_SIDED||||||t-test, 2 sided|||rs2189452||||0.00000596
92310868|NCT00451204|184522274|SUPERIORITY_OR_OTHER||Rate ratio|0.63||||0.096|TWO_SIDED|95.0|0.36|1.09|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 months, time since dx, previous GA treatment, and previous interferon beta treatment.||||1.09|0.36|0.096
92310869|NCT00451204|184522275|SUPERIORITY_OR_OTHER||Rate ratio|0.7||||0.179|TWO_SIDED|95.0|0.42|1.17|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 months, time since dx, previous GA treatment, and previous interferon beta treatment.||||1.17|0.42|0.179
92310870|NCT00451204|184522276|SUPERIORITY_OR_OTHER||Rate ratio|0.49||||0.016|TWO_SIDED|95.0|0.28|0.88|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 months, time since dx, previous GA treatment, and previous interferon beta treatment.||||0.88|0.28|0.016
92310871|NCT00451204|184522277|SUPERIORITY_OR_OTHER||Rate ratio|0.52||||0.012|TWO_SIDED|95.0|0.31|0.86|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 months, time since dx, previous GA treatment, and previous interferon beta treatment.||||0.86|0.31|0.012
92310872|NCT01696058|184522278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.078|0.135|||Mixed Model Repeated Measure|||Results are from an mixed model repeated measure (MMRM) model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (566), Tio+Olo 5ug (563).||0.135|0.078|<.0001
92310873|NCT01696058|184522279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.013||0.0029|TWO_SIDED|95.0|0.014|0.065|||Mixed Model Repeated Measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (555), Tio+Olo 5ug (550).||0.065|0.014|0.0029
92310874|NCT01696058|184522280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.854|STANDARD_ERROR_OF_MEAN|0.461|<|0.0001|TWO_SIDED|95.0|-2.757|-0.951|||ANCOVA|||"Results are from ANCOVA model. Fixed effects include study, treatment and baseline.~Number of patients contributing to models: Tio+Placebo (1055), Tio+Olo 5ug (1039)."||-0.951|-2.757|<.0001
92310875|NCT01696058|184522281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.071|0.129|||Mixed Model Repeated Measure|||"Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used.~Number of patients contributing to models: Tio+Placebo (566), Tio+Olo 5ug (563)."||0.129|0.071|<.0001
92310876|NCT01696058|184522282|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.072|0.164|||Mixed Model Repeated Measure|||"Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used.~Number of patients contributing to models: Tio+Placebo (566), Tio+Olo 5ug (563)."||0.164|0.072|<.0001
92310877|NCT01696058|184522283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.057|0.152|||Mixed Model Repeated Measure|||"Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used.~Number of patients contributing to models: Tio+Placebo (566), Tio+Olo 5ug (563)."||0.152|0.057|<.0001
92310878|NCT01696058|184522284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034|STANDARD_ERROR_OF_MEAN|0.022||0.1156|TWO_SIDED|95.0|-0.008|0.076|||Mixed Model Repeated Measure|||"Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used.~Number of patients contributing to models: Tio+Placebo (555), Tio+Olo 5ug (550)."||0.076|-0.008|0.1156
92190180|NCT01855997|184279075|SUPERIORITY_OR_OTHER|||||||4.89e-06|TWO_SIDED||||||t-test, 2 sided|||rs9324018||||0.00000489
92310879|NCT01696058|184522285|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|7.237|STANDARD_ERROR_OF_MEAN|2.145||0.0008|TWO_SIDED|95.0|3.028|11.446|||ANCOVA|||"Week 12: Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (559), Tio+Olo 5ug (552)."||11.446|3.028|0.0008
92310880|NCT01696058|184522286|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|-0.568|STANDARD_ERROR_OF_MEAN|0.118|<|0.0001|TWO_SIDED|95.0|-0.8|-0.336|||ANCOVA|||"Week 12 - Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (559), Tio+Olo 5ug (555)."||-0.336|-0.800|<.0001
92310881|NCT01696058|184522287|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 1|-0.09|STANDARD_ERROR_OF_MEAN|0.045||0.0467|TWO_SIDED|95.0|-0.178|-0.001|||ANCOVA|||"Week 12 - Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (559), Tio+Olo 5ug (555)."||-0.001|-0.178|0.0467
92310882|NCT01696058|184522288|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|-0.483|STANDARD_ERROR_OF_MEAN|0.094|<|0.0001|TWO_SIDED|95.0|-0.668|-0.298|||ANCOVA|||"Week 12 - Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (559), Tio+Olo 5ug (555)."||-0.298|-0.668|<.0001
92310883|NCT04746794|184522325|SUPERIORITY|||||||0.0074|||||||Chi-squared|||||||0.0074
92310884|NCT04746794|184522326|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92310885|NCT00856375|184522339|OTHER|Hazard Ratio and 95% CI from univariate Cox regression model|Hazard Ratio (HR)|0.645|||=|0.07|TWO_SIDED|95.0|0.4|1.041|||Log Rank|||||1.041|0.4|= 0.07
92310886|NCT00856375|184522340|OTHER|Hazard ratio and 95% CI from univariate Cox regression model.|Hazard Ratio (HR)|0.91|||=|0.706|TWO_SIDED|95.0|0.557|1.486|||Log Rank|||||1.486|0.557|= 0.706
92190181|NCT01855997|184279076|SUPERIORITY_OR_OTHER|||||||8.34e-06|TWO_SIDED||||||t-test, 2 sided|||rs2189452||||0.00000834
92190182|NCT01855997|184279076|SUPERIORITY_OR_OTHER|||||||4.87e-06|TWO_SIDED||||||t-test, 2 sided|||rs7968170||||0.00000487
92190183|NCT01855997|184279076|SUPERIORITY_OR_OTHER|||||||9.18e-06|TWO_SIDED||||||t-test, 2 sided|||rs9324018||||0.00000918
92190184|NCT01855997|184279077|SUPERIORITY_OR_OTHER|||||||1.37e-06|TWO_SIDED||||||t-test, 2 sided|||rs9287655||||0.00000137
92310887|NCT00856375|184522341|OTHER|ORR 95% CI based on Exact (Clopper-Pearson) confidence limits. Odds ratio 95% CI based on asymptotic confidence limits.|Odds Ratio (OR)|2.054|||=|0.676|TWO_SIDED|95.0|0.355|11.9|||Fisher Exact|||||11.9|0.355|= 0.676
92310888|NCT00856375|184522342|SUPERIORITY||||||=|0.018|||||||Log Rank|||||||= 0.018
92310889|NCT04414345|184522355|SUPERIORITY||Disease Rate Ratio|0.98|STANDARD_DEVIATION|0.1|||TWO_SIDED|95.0|0.797|1.188||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. CNM-Au8 slowed progression) was 0.59059. NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by CNM-Au8 relative to placebo. Note: reported Confidence Interval is actually a Bayesian credible interval."||"The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality.~The model includes covariates for baseline use of edaravone, baseline use of riluzole, months since onset of symptoms, and pre-baseline slope of ALSFRS-R, and random effects for regimen and participant-specific slopes."|1.188|0.797|
92310890|NCT04414345|184522357|SUPERIORITY||Mean Difference (Net)|-0.78|STANDARD_ERROR_OF_MEAN|1.766||0.657|TWO_SIDED|95.0|-4.25|2.68|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|CNM-Au8 24-week change from baseline relative to placebo 24-week change from baseline.|||2.68|-4.25|0.6570
92310891|NCT04414345|184522358|SUPERIORITY||Mean Difference (Net)|-3.1|STANDARD_ERROR_OF_MEAN|3.403||0.3621|TWO_SIDED|95.0|-9.78|3.58|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|CNM-Au8 24-week change from baseline relative to placebo 24-week change from baseline.|||3.58|-9.78|0.3621
92190185|NCT01855997|184279077|SUPERIORITY_OR_OTHER|||||||3.39e-06|TWO_SIDED||||||t-test, 2 sided|||rs2803073||||0.00000339
92310892|NCT04414345|184522359|SUPERIORITY|||||||0.7398|||||||Log Rank|||||||0.7398
92310893|NCT00875797|184522376|NON_INFERIORITY_OR_EQUIVALENCE|t-test||||||0.05|TWO_SIDED|95.0||||p\<0.05|t-test, 2 sided|||||||0.05
92190186|NCT01855997|184279077|SUPERIORITY_OR_OTHER|||||||9.27e-06|TWO_SIDED||||||t-test, 2 sided|||rs1937590||||0.00000927
92310894|NCT00875797|184522377|NON_INFERIORITY_OR_EQUIVALENCE|χ2 test|percentage of infection|20.0|STANDARD_DEVIATION|10.0||0.05|TWO_SIDED|95.0||||p\<0.05|Chi-squared|2 degrees of freedom||||||0.05
92190187|NCT01855997|184279077|SUPERIORITY_OR_OTHER|||||||1.66e-06|TWO_SIDED||||||t-test, 2 sided|||rs2945861||||0.00000166
92190188|NCT01855997|184279077|SUPERIORITY_OR_OTHER|||||||4.55e-06|TWO_SIDED||||||t-test, 2 sided|||rs1997894||||0.00000455
92310895|NCT00875797|184522378|SUPERIORITY_OR_OTHER||percentage of survivers|80.0|||<|0.05||95.0||||p\<0.05|Chi-squared, Corrected|2-degrees of freedom||Chi-square||||<0.05
92310896|NCT00741286|184522382|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||A linear mixed model for a repeated measures covariance pattern model with unstructured covariances within subjects was used. Two fixed effects were included: 1 between-subjects treatment effect (group: cilostazol, control) and 1 within-subject time effect (time: baseline, 14 days, 90 days). A possible difference in treatment across 14- and 90-day follow-up was analyzed by time x treatment interactions.||||<0.05
92310897|NCT00741286|184522382|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||To determine between-group differences of changes in the PIs at 14 and 90 days from the baseline study.||||<0.05
92190189|NCT01855997|184279077|SUPERIORITY_OR_OTHER|||||||5.68e-06|TWO_SIDED||||||t-test, 2 sided|||rs1495471||||0.00000568
92190190|NCT01855997|184279077|SUPERIORITY_OR_OTHER|||||||1.25e-06|TWO_SIDED||||||t-test, 2 sided|||rs9324018||||0.00000125
92190191|NCT01855997|184279077|SUPERIORITY_OR_OTHER|||||||9.82e-06|TWO_SIDED||||||t-test, 2 sided|||rs1152537||||0.00000982
92190192|NCT01855997|184279078|SUPERIORITY_OR_OTHER|||||||8.46e-06|TWO_SIDED||||||t-test, 2 sided|||rs10236906||||0.00000846
92190193|NCT01855997|184279078|SUPERIORITY_OR_OTHER|||||||5.62e-06|TWO_SIDED||||||t-test, 2 sided|||rs2945861||||0.00000562
92190194|NCT01855997|184279078|SUPERIORITY_OR_OTHER|||||||4.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs7042473||||0.00000497
92190195|NCT01855997|184279078|SUPERIORITY_OR_OTHER|||||||9.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs2077415||||0.00000997
92190196|NCT01855997|184279078|SUPERIORITY_OR_OTHER|||||||8.64e-06|TWO_SIDED||||||t-test, 2 sided|||rs9324018||||0.00000864
92190197|NCT01855997|184279079|SUPERIORITY_OR_OTHER|||||||3.68e-06|TWO_SIDED||||||t-test, 2 sided|||rs17037122||||0.00000368
92190198|NCT01855997|184279079|SUPERIORITY_OR_OTHER|||||||5.77e-06|TWO_SIDED||||||t-test, 2 sided|||rs715243||||0.00000577
92190199|NCT01855997|184279080|SUPERIORITY_OR_OTHER|||||||9.5e-06|TWO_SIDED||||||t-test, 2 sided|||rs2302503||||0.00000950
92190200|NCT01855997|184279080|SUPERIORITY_OR_OTHER|||||||7.41e-06|TWO_SIDED||||||t-test, 2 sided|||rs6015181||||0.00000741
92190201|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||8.05e-06|TWO_SIDED||||||t-test, 2 sided|||rs1550116||||0.00000805
92190202|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||7.02e-06|TWO_SIDED||||||t-test, 2 sided|||rs1550115||||0.00000702
92310898|NCT00741286|184522383|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
92310899|NCT02892149|184522384|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.23|-0.1||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||-0.10|-0.23|
92310900|NCT02892149|184522385|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per Food and Drug Administration \[FDA\]) and 1.30 (per European Medicines Agency \[EMA\]).|Hazard Ratio (HR)|0.96||||0.4745|TWO_SIDED|95.0|0.828|1.117|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0017 has been reported in this section.||1.117|0.828|0.4745
92310901|NCT02892149|184522385|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.4877|TWO_SIDED|95.0|0.833|1.113|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 355 and 377 respectively; median time to first event (Q1, Q3) = 46.14 (24.71, 77.14) weeks versus 47.00 (22.43, 74.43) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.113|0.833|=0.4877
92310902|NCT02892149|184522386|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-0.25|-0.12||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||-0.12|-0.25|
92310903|NCT02892149|184522387|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96||||0.3718|TWO_SIDED|95.0|0.832|1.097|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0017 has been reported in this section.||1.097|0.832|0.3718
92310904|NCT02892149|184522387|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.4096|TWO_SIDED|95.0|0.84|1.096|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first MACE plus hospitalization for heart failure or thromboembolic event Excluding vascular access thrombosis for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 420 and 449 respectively; median time to first event (Q1, Q3) = 42.07 (21.50, 71.14) weeks versus 45.29 (22.29, 72.43) weeks, respectively.||1.096|0.840|=0.4096
92310905|NCT02892149|184522388|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.94||||0.3875|TWO_SIDED|95.0|0.777|1.131|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0017 has been reported in this section.||1.131|0.777|0.3875
92310906|NCT02892149|184522388|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.95|||=|0.5007|TWO_SIDED|95.0|0.795|1.144|||Gray's test|||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first cardiovascular MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 225 and 242 respectively; median time to first event (Q1, Q3) = 43.29 (21.71, 77.14) weeks versus 45.79 (21.14, 73.86) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.144|0.795|=0.5007
92310907|NCT02892149|184522389|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96||||0.6281|TWO_SIDED|95.0|0.761|1.203|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0017 has been reported in this section.||1.203|0.761|0.6281
92310908|NCT02892149|184522389|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.6284|TWO_SIDED|95.0|0.766|1.195|||Gray's test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first cardiovascular death for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 150 and 160 respectively; median time to first event (Q1, Q3) = 43.71 (27.43, 77.14) weeks versus 49.29 (24.43, 74.07) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.195|0.766|=0.6284
92310909|NCT02892149|184522390|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96||||0.5811|TWO_SIDED|95.0|0.816|1.136|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0017 has been reported in this section.||1.136|0.816|0.5811
92310910|NCT02892149|184522390|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.95|||=|0.4878|TWO_SIDED|95.0|0.812|1.118|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first all-cause mortality for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 291 and 310 respectively; median time to first event (Q1, Q3) = 50.00 (29.71, 79.00) weeks versus 49.57 (25.86, 77.29) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.118|0.812|=0.4878
92310911|NCT00101283|184522412|SUPERIORITY_OR_OTHER_LEGACY||Overall Response Percent|18.8|||||TWO_SIDED|90.0|5.4|41.7|||||Overall response percent for Pemetrexed/Carboplatin arm (percent of eligible, treated patients with complete or partial response)|The treatment was to be considered promising if a true response rate of 40% or higher was observed, whereas a rate of 15% or less would not be of interest. 3 or more responses were required to expand accrual to a second stage. This expansion did not occur.||41.7|5.4|
92310912|NCT00101283|184522412|SUPERIORITY_OR_OTHER_LEGACY||Overall Response Percent|0.0|||||TWO_SIDED|90.0|0.0|20.6|||||Overall response percent for Pemetrexed/Gemcitabine arm (percent of eligible, treated patients with complete or partial response)|The treatment was to be considered promising if a true response rate of 40% or higher was observed, whereas a rate of 15% or less would not be of interest. 3 or more responses were required to expand accrual to a second stage. This expansion did not occur.||20.6|0.0|
92190203|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||7.02e-06|TWO_SIDED||||||t-test, 2 sided|||rs2082881||||0.00000702
92310913|NCT05084924|184522421|SUPERIORITY|||||||0.049|||||||ANOVA|Main effect of stimulation: F(2,32) = 3.32||||||0.049
92310914|NCT05084924|184522422|SUPERIORITY|||||||0.004||||||Main effect of stimulation: F(2,32) = 6.67|ANOVA|||||||0.004
92310915|NCT03774407|184522423|OTHER|||||||0.002||||||This P value reported was for bladder urinary frequency change from baseline to 9 months|p value|||||||0.002
92310916|NCT00182325|184522426|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92310917|NCT00182325|184522427|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
92190204|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||7.43e-06|TWO_SIDED||||||t-test, 2 sided|||exm2265462||||0.00000743
92190205|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||7.8e-07|TWO_SIDED||||||t-test, 2 sided|||rs6443144||||0.00000078
92310918|NCT00182325|184522428|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.68
92310919|NCT00182325|184522429|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
92310920|NCT00182325|184522430|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||0.57
92310921|NCT00182325|184522431|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92310922|NCT00182325|184522432|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
92310923|NCT00182325|184522433|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||0.57
92310924|NCT00182325|184522434|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||||||0.26
92310925|NCT00182325|184522435|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||0.12
92310926|NCT02054338|184522436|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.54|TWO_SIDED|95.0|0.91|1.2|||Log Rank|||Kaplan-Meier curves and life tables by treatment arm to describe time-dependent parameters. Stratified Cox proportional model was used to compare the 2 treatment arms. A stratified Cox proportional hazards model and logistic regression were applied to the progression-free survival and to the tumour response, respectively.||1.20|0.91|0.54
92310927|NCT02054338|184522437|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.86|TWO_SIDED|95.0|0.87|1.19|||Log Rank|||||1.19|0.87|0.86
92190206|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||8.94e-06|TWO_SIDED||||||t-test, 2 sided|||rs1403069||||0.00000894
92190207|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||5.71e-06|TWO_SIDED||||||t-test, 2 sided|||rs9691873||||0.00000571
92190208|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||7.29e-06|TWO_SIDED||||||t-test, 2 sided|||rs8012912||||0.00000729
92190209|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||8.28e-06|TWO_SIDED||||||t-test, 2 sided|||rs11158827||||0.00000828
92190210|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||8.85e-06|TWO_SIDED||||||t-test, 2 sided|||rs11870323||||0.00000885
92310928|NCT02054338|184522438|SUPERIORITY||Hazard Ratio (HR)|11.3||||0.1|TWO_SIDED|95.0|8.7|14.4|||Log Rank|||||14.4|8.7|0.10
92190211|NCT01855997|184279081|SUPERIORITY_OR_OTHER|||||||7.17e-06|TWO_SIDED||||||t-test, 2 sided|||rs4821558||||0.00000717
92190212|NCT01855997|184279082|SUPERIORITY_OR_OTHER|||||||6.29e-06|TWO_SIDED||||||t-test, 2 sided|||rs6443144||||0.00000629
92190213|NCT01855997|184279082|SUPERIORITY_OR_OTHER|||||||5.79e-06|TWO_SIDED||||||t-test, 2 sided|||rs1692421||||0.00000579
92190214|NCT01855997|184279082|SUPERIORITY_OR_OTHER|||||||5.53e-06|TWO_SIDED||||||t-test, 2 sided|||rs1692423||||0.00000553
92190215|NCT01855997|184279082|SUPERIORITY_OR_OTHER|||||||9.46e-06|TWO_SIDED||||||t-test, 2 sided|||rs9691873||||0.00000946
92190216|NCT01855997|184279082|SUPERIORITY_OR_OTHER|||||||4.5e-06|TWO_SIDED||||||t-test, 2 sided|||rs7968170||||0.00000450
92190217|NCT01855997|184279083|SUPERIORITY_OR_OTHER|||||||1.18e-06|TWO_SIDED||||||t-test, 2 sided|||rs9287655||||0.00000118
92310929|NCT03322930|184522459|OTHER||||||<|0.05||||||calculated from data|t-test, 2 sided||||mean sensitivity for group; Coefficient of Repeatability for multiple tests per patient|||<0.05
92310930|NCT03344861|184522465|OTHER|No comparator arm.|Clopper-Pearson (binomial proportion)|0.05|||<|0.05|TWO_SIDED||||||exact Clopper-Pearson binomial method|One-sided 95% upper confidence limit for the event percentage was calculated using exact (Clopper-Pearson) method for binomial proportion.|One-sided 95% upper confidence limit for the event percentage was calculated using exact (Clopper-Pearson) method for binomial proportion|Adverse events will be listed, coded by MedDRA, by system organ class and preferred term.||||<0.05
92190218|NCT01855997|184279083|SUPERIORITY_OR_OTHER|||||||5.31e-06|TWO_SIDED||||||t-test, 2 sided|||rs216312||||0.00000531
92190219|NCT01855997|184279084|SUPERIORITY_OR_OTHER|||||||5.93e-06|TWO_SIDED||||||t-test, 2 sided|||rs993147||||0.00000593
92190220|NCT01855997|184279084|SUPERIORITY_OR_OTHER|||||||9.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs10978436||||0.00000997
92190221|NCT01855997|184279084|SUPERIORITY_OR_OTHER|||||||5.81e-06|TWO_SIDED||||||t-test, 2 sided|||rs2370220||||0.00000581
92190222|NCT01855997|184279084|SUPERIORITY_OR_OTHER|||||||8.02e-06|TWO_SIDED||||||t-test, 2 sided|||rs2279519||||0.00000802
92190223|NCT01855997|184279085|SUPERIORITY_OR_OTHER|||||||5.58e-06|TWO_SIDED||||||t-test, 2 sided|||rs12992677||||0.00000558
92190224|NCT01855997|184279086|SUPERIORITY_OR_OTHER|||||||9.9e-06|TWO_SIDED||||||t-test, 2 sided|||rs12992677||||0.00000990
92190225|NCT01855997|184279087|SUPERIORITY_OR_OTHER|||||||4.8e-07|TWO_SIDED||||||t-test, 2 sided|||rs7549785||||0.00000048
92190226|NCT01855997|184279088|SUPERIORITY_OR_OTHER|||||||4.8e-07|TWO_SIDED||||||t-test, 2 sided|||rs7549785||||0.00000048
92190227|NCT01855997|184279089|SUPERIORITY_OR_OTHER|||||||7.38e-06|TWO_SIDED||||||t-test, 2 sided|||rs10814834||||0.00000738
92190228|NCT01855997|184279089|SUPERIORITY_OR_OTHER|||||||4.51e-06|TWO_SIDED||||||t-test, 2 sided|||rs10491723||||0.00000451
92190229|NCT01855997|184279089|SUPERIORITY_OR_OTHER|||||||8.78e-06|TWO_SIDED||||||t-test, 2 sided|||rs6592052||||0.00000878
92190230|NCT01855997|184279089|SUPERIORITY_OR_OTHER|||||||5.21e-06|TWO_SIDED||||||t-test, 2 sided|||rs16943470||||0.00000521
92190231|NCT01855997|184279090|SUPERIORITY_OR_OTHER|||||||7.2e-06|TWO_SIDED||||||t-test, 2 sided|||rs6592052||||0.00000720
92190232|NCT01207453|184279139|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed rank tests.||||0.42
92190233|NCT01207453|184279139|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.37
92190234|NCT01207453|184279140|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using the Wilcoxon signed-rank tests.||||0.39
92190235|NCT01207453|184279140|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.96
92190236|NCT01207453|184279141|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed-rank tests.||||0.89
92190237|NCT01207453|184279141|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.83
92310931|NCT03344861|184522490|OTHER||||||<|0.05|||||||exact Clopper-Pearson binomial method|One-sided 95% upper confidence limit for the event percentage, calculated using exact (Clopper-Pearson) method for binomial proportion.||"All adverse event terms are coded using MedDRA Dictionary version 21.1. NCS (Non-Clinical Significant) events were not included in the summary because their CTCAE grade and relationship were not collected. Subjects are counted once within each system organ class and each preferred term. An AE is defined as treatment related if its relationship to the study drug is recorded as reasonable possibility on the CRF (Case Report Form)."||||<0.05
92310932|NCT02728843|184522508|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92310933|NCT02728843|184522509|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92310934|NCT02728843|184522510|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92190238|NCT01207453|184279142|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed-rank tests.||||0.04
92310935|NCT02728843|184522511|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92310936|NCT02728843|184522512|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92310937|NCT02728843|184522513|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92310938|NCT02728843|184522514|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
92310939|NCT03185013|184522519|SUPERIORITY|Superiority was concluded if the one-sided p-value was \<0.025 and the corresponding lower bound of the 95% CI exceeded zero (0).|Difference in percentage|11.4||||0.029|TWO_SIDED|95.0|-0.4|21.2|||Miettinen and Nurminen method|||||21.2|-0.4|0.029
92310940|NCT03185013|184522521|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|12.8|||||TWO_SIDED|95.0|-0.6|24.5||||||||24.5|-0.6|
92190239|NCT01207453|184279142|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.04
92310941|NCT03185013|184522522|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|18.2|||||TWO_SIDED|95.0|5.1|29.4||||||||29.4|5.1|
92310942|NCT03185013|184522523|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|13.5|||||TWO_SIDED|95.0|1.7|23.5||||||||23.5|1.7|
92190240|NCT01207453|184279143|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed-rank tests.||||0.89
92190241|NCT01207453|184279143|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.44
92310943|NCT03185013|184522524|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|11.8|||||TWO_SIDED|95.0|1.5|20.3||||||||20.3|1.5|
92310944|NCT03185013|184522525|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|-1.7|||||TWO_SIDED|95.0|-11.5|10.3||||||||10.3|-11.5|
92310945|NCT03185013|184522526|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|10.8|||||TWO_SIDED|95.0|-0.5|20.1||||||||20.1|-0.5|
92310946|NCT03185013|184522527|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Location shift|224.0|||||TWO_SIDED|95.0|24.0|224.0||||||Week 15: HPV-16 E7||224.0|24.0|
92310947|NCT03185013|184522527|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Location shift|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 36: HPV-16 E7||0.0|0.0|
92310948|NCT03185013|184522527|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Location Shift|2024.0|||||TWO_SIDED|95.0|2000.0|6050.0||||||Week 15: HPV-18 E7||6050.0|2000.0|
92310949|NCT03185013|184522527|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Location Shift|224.0|||||TWO_SIDED|95.0|74.0|674.0||||||Week 36: HPV-18 E7||674.0|74.0|
92310950|NCT03185013|184522528|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Location shift|11.67|||||TWO_SIDED|95.0|8.33|20.0||||||HPV-16 E6: Week 15||20.00|8.33|
92310951|NCT03185013|184522528|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|8.33|||||TWO_SIDED|95.0|3.33|11.67||||||HPV-16 E6: Week 36||11.67|3.33|
92310952|NCT03185013|184522528|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|10.83|||||TWO_SIDED|95.0|5.0|15.0||||||HPV-16 E7: Week 15||15.00|5.00|
92310953|NCT03185013|184522528|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|7.5|||||TWO_SIDED|95.0|1.67|10.0||||||HPV-16 E7: Week 36||10.00|1.67|
92310954|NCT03185013|184522528|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|50.83|||||TWO_SIDED|95.0|31.67|66.67||||||HPV-18 E6: Week 15||66.67|31.67|
92310955|NCT03185013|184522528|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|38.33|||||TWO_SIDED|95.0|18.33|51.67||||||HPV-18 E6: Week 36||51.67|18.33|
92310956|NCT03185013|184522528|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|14.17|||||TWO_SIDED|95.0|6.67|18.33||||||HPV-18 E7: Week 15||18.33|6.67|
92310957|NCT03185013|184522528|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|10.0|||||TWO_SIDED|95.0|5.0|15.0||||||HPV-18 E7: Week 36||15.00|5.00|
92310958|NCT03185013|184522529|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|0.025|||||TWO_SIDED|95.0|0.002|0.046||||||Parameter: CD8+CD137+Perforin+||0.046|0.002|
92310959|NCT03185013|184522529|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|0.011|||||TWO_SIDED|95.0|0.0|0.014||||||Parameter: CD8+CD38+Perforin+||0.014|0.000|
92310960|NCT03185013|184522529|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|0.044|||||TWO_SIDED|95.0|0.017|0.058||||||Parameter: CD8+CD69+Perforin+||0.058|0.017|
92310961|NCT00197496|184522537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.3|||<|0.05|TWO_SIDED|95.0|-72.1|19.6|||Regression, Linear|||||19.6|-72.1|<0.05
92310962|NCT00197496|184522540|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8||||0.4|TWO_SIDED|95.0|-3.6|9.2|||Regression, Linear|||||9.2|-3.6|0.40
92310963|NCT01175031|184522545|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||signed-rank tests|||||||0.003
92310964|NCT02203331|184522590|SUPERIORITY_OR_OTHER_LEGACY||Emax|0.1483|STANDARD_ERROR_OF_MEAN|0.2925||0.3875|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.3875
92310965|NCT02203331|184522590|SUPERIORITY_OR_OTHER_LEGACY||Linear|0.2484|STANDARD_ERROR_OF_MEAN|0.2975||0.2676|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.2676
92310966|NCT02203331|184522590|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 1|0.1995|STANDARD_ERROR_OF_MEAN|0.2922||0.3211|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.3211
92310967|NCT02203331|184522590|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 2|0.3467|STANDARD_ERROR_OF_MEAN|0.2994||0.1721|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.1721
92310968|NCT02203331|184522591|SUPERIORITY_OR_OTHER_LEGACY||Emax|0.2736|STANDARD_ERROR_OF_MEAN|0.2878||0.231|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.231
92310969|NCT02203331|184522591|SUPERIORITY_OR_OTHER_LEGACY||Linear|0.3234|STANDARD_ERROR_OF_MEAN|0.2927||0.1865|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.1865
92310970|NCT02203331|184522591|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 1|0.3081|STANDARD_ERROR_OF_MEAN|0.2875||0.1955|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.1955
92310971|NCT02203331|184522591|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 2|0.3781|STANDARD_ERROR_OF_MEAN|0.2944||0.1416|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.1416
92310972|NCT02203331|184522592|SUPERIORITY_OR_OTHER_LEGACY||Emax|0.0081|STANDARD_ERROR_OF_MEAN|0.2832||0.5794|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.5794
92310973|NCT02203331|184522592|SUPERIORITY_OR_OTHER_LEGACY||Linear|0.1148|STANDARD_ERROR_OF_MEAN|0.288||0.4301|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.4301
92310974|NCT02203331|184522592|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 1|0.0401|STANDARD_ERROR_OF_MEAN|0.2829||0.5337|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.5337
92310975|NCT02203331|184522592|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 2|0.1835|STANDARD_ERROR_OF_MEAN|0.2899||0.3396|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.3396
92310976|NCT05833139|184522633|OTHER||Geometric mean ratio (T/R) [%]|141.2|||||TWO_SIDED|90.0|126.3|157.7|||ANOVA||Intra-individual geometric coefficient of variation (gCV%) = 18.0|"The statistical model used was an analysis of variance (ANOVA) on the logarithmic scale. AUC0-∞ was log transformed (natural logarithm) prior to fitting the ANOVA model, considering the effect 'participant' as random and treatment as fixed."||157.7|126.3|
92310977|NCT05833139|184522634|OTHER||Geometric mean ratio (T/R) [%]|126.9|||||TWO_SIDED|90.0|106.6|151.0|||ANOVA||Intra-individual geometric coefficient of variation (gCV%) = 28.7|"The statistical model used was an analysis of variance (ANOVA) on the logarithmic scale. Cmax was log transformed (natural logarithm) prior to fitting the ANOVA model, considering the effect 'participant' as random and treatment as fixed."||151.0|106.6|
92310978|NCT05833139|184522635|OTHER||Geometric mean ratio (T/R) [%]|142.8|||||TWO_SIDED|90.0|126.0|161.9|||ANOVA||Intra-individual geometric coefficient of variation (gCV%) = 20.4|"The statistical model used was an analysis of variance (ANOVA) on the logarithmic scale. AUC0-tz was log transformed (natural logarithm) prior to fitting the ANOVA model, considering the effect 'participant' as random and treatment as fixed."||161.9|126.0|
92310979|NCT03104400|184522650|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|34.5|||<|0.0001|TWO_SIDED|95.0|28.2|40.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||40.7|28.2|<0.0001
92310980|NCT03104400|184522650|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|42.3|||<|0.0001|TWO_SIDED|95.0|36.3|48.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||48.3|36.3|<0.0001
92310981|NCT03104400|184522651|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Least Squares (LS) Mean Difference|-0.28|||<|0.0001|TWO_SIDED|95.0|-0.35|-0.22|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.22|-0.35|<0.0001
92310982|NCT03104400|184522651|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.34|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.27|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.27|-0.40|<0.0001
92310983|NCT03104400|184522652|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|31.1|||<|0.0001|TWO_SIDED|95.0|24.7|37.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||37.5|24.7|<0.0001
92310984|NCT03104400|184522652|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|43.1|||<|0.0001|TWO_SIDED|95.0|36.7|49.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||49.6|36.7|<0.0001
92310985|NCT03104400|184522653|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|41.3|||<|0.0001|TWO_SIDED|95.0|32.8|49.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||49.8|32.8|<0.0001
92310986|NCT03104400|184522653|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|41.1|||<|0.0001|TWO_SIDED|95.0|32.5|49.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||49.6|32.5|<0.0001
92310987|NCT03104400|184522654|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.29||||0.0002|TWO_SIDED|95.0|-0.44|-0.14|||ANCOVA|ANCOVA model including treatment and the stratification factor current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.14|-0.44|0.0002
92310988|NCT03104400|184522654|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.21||||0.0069|TWO_SIDED|95.0|-0.36|-0.06|||ANCOVA|ANCOVA model including treatment and the stratification factor current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.06|-0.36|0.0069
92310989|NCT03104400|184522655|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|24.3|||<|0.0001|TWO_SIDED|95.0|18.8|29.8||Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Cochran-Mantel-Haenszel||Response Rate Difference = Upadacitinib - Placebo|||29.8|18.8|<0.0001
92190242|NCT01207453|184279144|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed-rank tests.||||0.35
92190243|NCT01207453|184279144|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.34
92190244|NCT01207453|184279145|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed-rank tests.||||0.72
92310990|NCT03104400|184522655|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|33.1|||<|0.0001|TWO_SIDED|95.0|27.4|38.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||38.8|27.4|<0.0001
92190245|NCT01207453|184279145|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.82
92190246|NCT02951052|184279148|NON_INFERIORITY|Non-inferiority in the proportion of participants with virologic failure at Week 48 (per FDA's snapshot algorithm for assessing HIV-1 RNA \>=50 copies/mL) can be concluded if the upper bound of a two-sided 95% confidence interval for the difference in failure rates between the two treatment arms (CAB - current ART) is not more than 6%.|Adjusted difference in proportion|0.6|||||TWO_SIDED|95.0|-1.2|2.5|||||Adjusted difference in proportion was based on Cochran-Mantel Haenszel stratified analysis adjusting for the following baseline stratification factors: sex at birth (Male, Female) and Baseline third agent (PI, NNRTI, INI).|||2.5|-1.2|
92310991|NCT03104400|184522656|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|21.3|||<|0.0001|TWO_SIDED|95.0|13.0|29.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||29.7|13.0|<0.0001
92310992|NCT03104400|184522656|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|25.3|||<|0.0001|TWO_SIDED|95.0|16.9|33.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||33.7|16.9|<0.0001
92310993|NCT03104400|184522657|NON_INFERIORITY|"Non-inferiority of each upadacitinib dose versus adalimumab was assessed using Koch's 3-arm approach; non-inferiority was achieved if upadacitinib preserved at least 50% of the placebo-subtracted adalimumab effect.~The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path."|Percent Adalimumab Effect Preservation|119.381|||<|0.0001|TWO_SIDED|95.0|97.987|147.942|||Koch 3-Arm Test||The percent of adalimumab effect preservation is the point estimate of 3-arm non-inferiority analysis, which is calculated by (Upadacitinib - Placebo) / (Adalimumab - Placebo) \* 100.|||147.942|97.987|<0.0001
92310994|NCT03104400|184522657|NON_INFERIORITY|"Non-inferiority of each upadacitinib dose versus adalimumab was assessed using Koch's 3-arm approach; non-inferiority was achieved if upadacitinib preserved at least 50% of the placebo-subtracted adalimumab effect.~The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path."|Percent Adalimumab Effect Preservation|146.604|||<|0.0001|TWO_SIDED|95.0|122.817|180.398|||Koch 3-Arm Test||The percent of adalimumab effect preservation is the point estimate of 3-arm non-inferiority analysis, which is calculated by (Upadacitinib - Placebo) / (Adalimumab - Placebo) \* 100.|||180.398|122.817|<0.0001
92310995|NCT03104400|184522658|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|4.67|||<|0.0001|TWO_SIDED|95.0|3.67|5.67|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.67|3.67|<0.0001
92310996|NCT03104400|184522658|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|5.72|||<|0.0001|TWO_SIDED|95.0|4.71|6.72|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.72|4.71|<0.0001
92190247|NCT02951052|184279149|NON_INFERIORITY|Non-inferiority in the proportion of participants with HIV-1 RNA\<50 c/mL at Week 48 (per FDA's snapshot algorithm) can be concluded if the lower bound of a two-sided 95% confidence interval for the difference in success rates between the two treatment arms (CAB - current ART) is more than -10%.|Adjusted difference in proportion|-3.0|||||TWO_SIDED|95.0|-6.7|0.7|||||Adjusted difference in proportion was based on Cochran-Mantel Haenszel stratified analysis adjusting for the following baseline stratification factors: sex at birth (Male, Female) and Baseline third agent (PI, NNRTI, INI).|||0.7|-6.7|
92310997|NCT03104400|184522659|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|3.5|||<|0.0001|TWO_SIDED|95.0|2.4|4.7|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||4.7|2.4|<0.0001
92190248|NCT02951052|184279223|OTHER||Adjusted difference|-0.1||||0.944|TWO_SIDED|95.0|-2.4|2.2|||ANCOVA||Treatment comparison at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||2.2|-2.4|0.944
92190249|NCT02951052|184279223|OTHER||Adjusted difference|1.0||||0.385|TWO_SIDED|95.0|-1.3|3.4|||ANCOVA||Treatment comparison at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||3.4|-1.3|0.385
92190250|NCT02951052|184279224|OTHER||Adjusted difference|4.9|||<|0.001|TWO_SIDED|95.0|2.8|7.1|||ANCOVA||Treatment comparison at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||7.1|2.8|<0.001
92190251|NCT02951052|184279224|OTHER||Adjusted difference|6.4|||<|0.001|TWO_SIDED|95.0|4.0|8.8|||ANCOVA||Treatment comparison at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||8.8|4.0|<0.001
92190252|NCT02951052|184279225|OTHER||Adjusted difference|5.3||||0.008|TWO_SIDED|95.0|1.4|9.1|||ANCOVA||Treatment comparison at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||9.1|1.4|0.008
92190253|NCT02951052|184279225|OTHER||Adjusted difference|2.0||||0.347|TWO_SIDED|95.0|-2.2|6.2|||ANCOVA||||Treatment comparison at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|6.2|-2.2|0.347
92190254|NCT02951052|184279226|OTHER||Adjusted difference|0.2||||0.344|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA||Treatment comparison of SF-12 total scores at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||0.7|-0.2|0.344
92190255|NCT02951052|184279226|OTHER||Adjusted difference|-0.1||||0.785|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA||Treatment comparison of SF-12 total scores at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||0.4|-0.6|0.785
92190256|NCT02951052|184279226|OTHER||Adjusted difference|0.676||||0.282|TWO_SIDED|95.0|-0.557|1.909|||ANCOVA||Treatment comparison of SF-12 MCS at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||1.909|-0.557|0.282
92190257|NCT02951052|184279226|OTHER||Adjusted difference|0.635||||0.327|TWO_SIDED|95.0|-0.637|1.907|||ANCOVA||Treatment comparison of SF-12 MCS at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||1.907|-0.637|0.327
92310998|NCT03104400|184522659|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|4.3|||<|0.0001|TWO_SIDED|95.0|3.1|5.5|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.5|3.1|<0.0001
92310999|NCT03104400|184522660|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|5.6||||0.0815|TWO_SIDED|95.0|-0.6|11.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Adalimumab|||11.8|-0.6|0.0815
92311000|NCT03104400|184522660|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|13.5|||<|0.0001|TWO_SIDED|95.0|7.5|19.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Adalimumab|||19.4|7.5|<0.0001
92311001|NCT03104400|184522661|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|36.8|||<|0.0001|TWO_SIDED|95.0|25.7|47.9||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||47.9|25.7|<0.0001
92311002|NCT03104400|184522661|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|39.8|||<|0.0001|TWO_SIDED|95.0|28.8|50.9||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||50.9|28.8|<0.0001
92311003|NCT03104400|184522662|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|0.0||||0.897|TWO_SIDED|95.0|-0.3|0.3||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||0.3|-0.3|0.8970
92311004|NCT03104400|184522662|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.5||||0.0028|TWO_SIDED|95.0|-0.7|-0.2||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||-0.2|-0.7|0.0028
92311005|NCT03104400|184522663|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.08||||0.0162|TWO_SIDED|95.0|-0.15|-0.01||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||-0.01|-0.15|0.0162
92311006|NCT03104400|184522663|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.14|||<|0.0001|TWO_SIDED|95.0|-0.2|-0.07||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||-0.07|-0.20|<0.0001
92190258|NCT02951052|184279226|OTHER||Adjusted difference|0.697||||0.086|TWO_SIDED|95.0|-0.1|1.494|||ANCOVA||Treatment comparison of SF-12 PCS at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||1.494|-0.100|0.086
92190259|NCT02951052|184279226|OTHER||Adjusted difference|0.696||||0.092|TWO_SIDED|95.0|-0.113|1.505|||ANCOVA||Treatment comparison of SF-12 PCS at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||1.505|-0.113|0.092
92190260|NCT02951052|184279229|OTHER||Adjusted difference|7.9|||<|0.001|TWO_SIDED|95.0|4.1|11.7|||ANCOVA||Treatment comparison at Week 8 for the groups CAB LA+ RPV LA and current ART is presented.|||11.7|4.1|<0.001
92190261|NCT02951052|184279229|OTHER||Adjusted difference|6.9|||<|0.001|TWO_SIDED|95.0|3.3|10.4|||ANCOVA||Treatment comparison Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||10.4|3.3|<0.001
92311007|NCT03104400|184522664|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-17.1|||<|0.0001|TWO_SIDED|95.0|-19.6|-14.6||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-14.6|-19.6|<0.0001
92311008|NCT03104400|184522664|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-19.8|||<|0.0001|TWO_SIDED|95.0|-22.3|-17.3||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-17.3|-22.3|<0.0001
92311009|NCT03104400|184522665|OTHER||Response Rate Difference|24.3|||<|0.0001|TWO_SIDED|95.0|18.7|29.9||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||29.9|18.7|<0.0001
92311010|NCT03104400|184522665|OTHER||Response Rate Difference|38.5|||<|0.0001|TWO_SIDED|95.0|32.8|44.3||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||44.3|32.8|<0.0001
92311011|NCT03104400|184522666|OTHER||Response Rate Difference|13.3|||<|0.0001|TWO_SIDED|95.0|9.5|17.0||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||17.0|9.5|<0.0001
92311012|NCT03104400|184522666|OTHER||Response Rate Difference|22.9|||<|0.0001|TWO_SIDED|95.0|18.5|27.3||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||27.3|18.5|<0.0001
92311013|NCT03104400|184522667|OTHER||Response Rate Difference|16.1|||<|0.0001|TWO_SIDED|95.0|10.9|21.4||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||21.4|10.9|<0.0001
92311014|NCT03104400|184522667|OTHER||Response Rate Difference|26.2|||<|0.0001|TWO_SIDED|95.0|20.7|31.8||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||31.8|20.7|<0.0001
92311015|NCT00264550|184522669|SUPERIORITY_OR_OTHER||||||<|0.001||||||The positive test is defined if the comparison between combined golimumab+MTX and Group 1 is significant at the 0.05, and at least one of the pair-wise comparisons is also significant at the 0.05.|Chi-squared|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups I vs III and Groups I vs IV at 0.05 level of significance. Assuming greater than 90 % power, ACR 20 response for Group I, Group III and Group IV (120, 80, and 80 participants, respectively) as 35 % for Group I and 55 % for Groups III and IV.||||<0.001
92311016|NCT00264550|184522669|SUPERIORITY_OR_OTHER|||||||0.001|||||||Chi-squared|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups I vs III and Groups I vs IV at 0.05 level of significance. Samples of sizes 120, 80, 80 patients in Group I, III, and IV provide \>90% power assuming 35% response in Group I and 55% ACR 20 response in golimumab groups(III \& IV).||||0.001
92311017|NCT00264550|184522669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups I vs III and Groups I vs IV at 0.05 level of significance. Samples of sizes 120, 80, 80 patients in Group I, III, and IV provide \>90% power assuming 35% response in Group I and 55% ACR 20 response in golimumab groups(III \& IV).||||<0.001
92311018|NCT00264550|184522669|SUPERIORITY_OR_OTHER|||||||0.059||||||This null hypothesis is tested only if a positive test for null hypothesis Statistical Analysis 1.|Chi-squared|||Null hypothesis: No difference between Group II and Group I with respect of ACR 20 at Wk 14. Superiority of golimumab alone vs MTX alone will be demonstrated if 2-sided test is significant. Sample of 120 patients in each Group I \& II provides \>85% power assuming 35% ACR 20 response in Group I and 55% ACR 20 in Group II.||||0.059
92311019|NCT00264550|184522670|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92311020|NCT00264550|184522670|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||||||0.001
92311021|NCT00264550|184522670|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92311022|NCT00264550|184522670|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Chi-squared|||||||0.035
92311023|NCT00264550|184522671|SUPERIORITY_OR_OTHER||||||<|0.001||||||The positive test is defined if the comparison between combined golimumab+MTX and Group I is significant at the 0.05, and at least one of the pair-wise comparisons is also significant at the 0.05.|ANOVA on van der Waerden normal scores.|||Null hypothesis: No difference in HAQ response at Wk 24 comparing Groups I and Combined Golimumab + Methotrexate (MTX) at 0.05 level of significance.||||<0.001
92311024|NCT00264550|184522671|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on van der Waerden normal scores.|||Null hypothesis: No difference in HAQ response at Wk 24 comparing Groups I and III at 0.05 level of significance.||||<0.001
92311025|NCT00264550|184522671|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on van der Waerden normal scores.|||Null hypothesis: No difference in HAQ response at Wk 24 comparing Groups I and IV at 0.05 level of significance.||||<0.001
92311026|NCT00264550|184522671|SUPERIORITY_OR_OTHER|||||||0.24|||||||ANOVA on van der Waerden normal scores.|||Null hypothesis: No difference in HAQ response at Wk 24 comparing Groups I and II at 0.05 level of significance.||||0.240
92311027|NCT00264550|184522672|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92311028|NCT00264550|184522672|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92311029|NCT00264550|184522672|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
92311030|NCT00264550|184522672|SUPERIORITY_OR_OTHER|||||||0.187||95.0|||||Chi-squared|||||||0.187
92311031|NCT00264550|184522673|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden noramal|||||||<0.001
92311032|NCT00264550|184522673|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|||||||<0.001
92311033|NCT00264550|184522673|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|||||||<0.001
92311034|NCT00264550|184522673|SUPERIORITY_OR_OTHER|||||||0.097||95.0|||||ANOVA on van der Waerden normal scores|||||||0.097
92311035|NCT00264550|184522674|SUPERIORITY_OR_OTHER|||||||0.551|||||||ANOVA on van der Waerden normal|||||||0.551
92311036|NCT00264550|184522674|SUPERIORITY_OR_OTHER|||||||0.953|||||||ANOVA on van der Waerden normal scores|||||||0.953
92311037|NCT00264550|184522674|SUPERIORITY_OR_OTHER|||||||0.293|||||||ANOVA on van der waerden normal scores|||||||0.293
92311038|NCT00264550|184522674|SUPERIORITY_OR_OTHER|||||||0.361|||||||ANOVA on van der Waerden normal scores|||||||0.361
92190262|NCT02951052|184279229|OTHER||Adjusted difference|10.7|||<|0.001|TWO_SIDED|95.0|7.1|14.4|||ANCOVA||Treatment comparison at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||14.4|7.1|<0.001
92190263|NCT01589523|184279235|EQUIVALENCE|paired t-test||||||0.342|||||||t-test, 2 sided|||||||0.342
92311039|NCT02129608|184522675|SUPERIORITY_OR_OTHER|||||||0.398|||||||t-test, 2 sided|||||||0.398
92311040|NCT02129608|184522675|SUPERIORITY_OR_OTHER|||||||0.436|||||||t-test, 2 sided|||||||0.436
92311041|NCT02129608|184522676|SUPERIORITY_OR_OTHER|||||||0.07|||||||t-test, 2 sided|||||||0.070
92311042|NCT02129608|184522676|SUPERIORITY_OR_OTHER|||||||0.95|||||||t-test, 2 sided|||||||0.950
92311043|NCT01191944|184522688|NON_INFERIORITY_OR_EQUIVALENCE|pre-specified non-inferiority (NI) margin of -4 points|Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.9192|<|0.0001||95.0|-1.047|2.566||one-sided test relative to NI margin of -4|ANCOVA|adjusted for treatment, centre and baseline|Pramipexole IR minus Pramipexole ER, Pramipexole ER non inferior to Pramipexole IR if lower limit of confidence interval (CI) for the mean difference is higher than NI margin.|The null hypothesis (H0) states that the mean change from baseline to Week 18 (or last observation carried forward \[LOCF\]) in the UPDRS II+III score for the treatment group pramipexole ER is inferior to the mean change for the treatment group pramipexole IR.||2.566|-1.047|<0.0001
92311044|NCT01191944|184522689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|2.1836||0.8261|TWO_SIDED|95.0|-4.787|3.826|||ANCOVA|||||3.826|-4.787|0.8261
92311045|NCT01191944|184522690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.3274||0.8698|TWO_SIDED|95.0|-0.699|0.592|||ANCOVA|||||0.592|-0.699|0.8698
92311046|NCT01191944|184522691|SUPERIORITY_OR_OTHER|||||||0.7902||95.0|||||Cochran-Mantel-Haenszel|||||||0.7902
92311047|NCT01191944|184522692|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.763|STANDARD_ERROR_OF_MEAN|2.7845||0.3223|TWO_SIDED|95.0|-8.255|2.729|||ANCOVA|||||2.729|-8.255|0.3223
92190264|NCT01589523|184279236|EQUIVALENCE|paired t-test||||||0.116|||||||t-test, 2 sided|||||||0.116
92190265|NCT01589523|184279237|EQUIVALENCE|paired t-test||||||0.065|||||||t-test, 2 sided|vitamin D||||||0.065
92190266|NCT00332488|184279238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.42|TWO_SIDED|95.0|-0.11|0.27|||ANCOVA|||ANCOVA fitting model change from baseline in A1c with fixed effects for treatment and pooled site and baseline A1c as a covariate||0.27|-0.11|0.420
92311048|NCT01191944|184522693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.51|STANDARD_ERROR_OF_MEAN|1.5581||0.0254|TWO_SIDED|95.0|0.437|6.583|||ANCOVA|||||6.583|0.437|0.0254
92311049|NCT01191944|184522694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.621|STANDARD_ERROR_OF_MEAN|2.2658||0.7843|TWO_SIDED|95.0|-3.848|5.09|||ANCOVA|||||5.090|-3.848|0.7843
92311050|NCT01191944|184522695|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.369|STANDARD_ERROR_OF_MEAN|0.4901||0.4529|TWO_SIDED|95.0|-0.598|1.335|||ANCOVA|||||1.335|-0.598|0.4529
92311051|NCT01191944|184522696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.4437||0.2338|TWO_SIDED|95.0|-1.405|0.345|||ANCOVA|||||0.345|-1.405|0.2338
92311052|NCT01191944|184522697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.562|STANDARD_ERROR_OF_MEAN|0.2509||0.0263|TWO_SIDED|95.0|0.067|1.057|||ANCOVA|||||1.057|0.067|0.0263
92311053|NCT01191944|184522698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.3727||0.9337|TWO_SIDED|95.0|-0.704|0.766|||ANCOVA|||||0.766|-0.704|0.9337
92311054|NCT01191944|184522699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.0798||0.6995|TWO_SIDED|95.0|-0.127|0.188|||ANCOVA|||||0.188|-0.127|0.6995
92311055|NCT01191944|184522700|SUPERIORITY_OR_OTHER|||||||0.317||95.0|||||Cochran-Mantel-Haenszel|||||||0.3170
92311056|NCT01191944|184522701|SUPERIORITY_OR_OTHER|||||||0.4756||95.0|||||Cochran-Mantel-Haenszel|||||||0.4756
92311057|NCT01191944|184522702|SUPERIORITY_OR_OTHER|||||||0.1051||95.0|||||Cochran-Mantel-Haenszel|||||||0.1051
92311058|NCT01191944|184522703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.3138||0.6237|TWO_SIDED|95.0|-0.463|0.771|||ANCOVA|||||0.771|-0.463|0.6237
92311059|NCT01191944|184522705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.628|STANDARD_ERROR_OF_MEAN|0.7088||0.376|TWO_SIDED|95.0|-0.765|2.021|||ANCOVA|||||2.021|-0.765|0.3760
92311060|NCT02814890|184522710|OTHER|difference test||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Sample size: Based on our previous data, pain score at rest 48 hours postoperatively when using ropivacaine only was of 2.8 with a standard deviation of 1.4. Assuming a decrease of pain score by 1.1 being clinically significant, twenty six patents in each group would be required for a study power of 80% (α=0.05,β=0.2). Considering possible dropouts, we aimed at recruiting 30 patients in each group with a total of 60 patients.||||0.001
92311061|NCT02814890|184522711|OTHER|difference test|Kendall's tau-b correlation coefficient|0.47|||||TWO_SIDED|||||||||||||
92311062|NCT02814890|184522713|SUPERIORITY||Risk Ratio (RR)|0.64|||>|0.05|TWO_SIDED||||||Fisher Exact|||||||>0.05
92311063|NCT03578549|184522719|OTHER||Correlation Coefficient|0.01||||0.92|TWO_SIDED||||||ANOVA|||||||0.92
92311064|NCT02597127|184522720|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 200 mg (Single-Dose) Inclisiran group versus Placebo (Single-Dose).|t-test, 1 sided|||||||<0.0001
92311065|NCT02597127|184522720|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 300 mg (Single-Dose) Inclisiran group versus Placebo (Single-Dose).|t-test, 1 sided|||||||<0.0001
92311066|NCT02597127|184522720|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 500 mg (Single-Dose) Inclisiran group versus Placebo (Single-Dose).|t-test, 1 sided|||||||<0.0001
92311067|NCT02597127|184522720|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 100 mg Double-Dose) Inclisiran group versus Placebo (Double-Dose).|t-test, 1 sided|||||||<0.0001
92311068|NCT02597127|184522720|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 200 mg Double-Dose) Inclisiran group versus Placebo (Double-Dose).|t-test, 1 sided|||||||<0.0001
92311069|NCT02597127|184522720|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 300 mg Double-Dose) Inclisiran group versus Placebo (Double-Dose).|t-test, 1 sided|||||||<0.0001
92311070|NCT01256944|184522739|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92311071|NCT01256944|184522740|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92311072|NCT01256944|184522741|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92311073|NCT01256944|184522743|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92311074|NCT01256944|184522744|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92311075|NCT01256944|184522745|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92311076|NCT01256944|184522746|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92311077|NCT01256944|184522748|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92311078|NCT01256944|184522749|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92311079|NCT04315506|184522793|SUPERIORITY||Odds Ratio (OR)|1.14||||0.5384|TWO_SIDED|95.0|0.75|1.72||The analysis was a two-intervention arm comparison. Adjustments for multiple tests and outcomes were not required.|Regression, Logistic||Odds of quitting in Enuf Snuff group (SGR) compared to Enough Snuff (control)|||1.72|0.75|0.5384
92311080|NCT04315506|184522794|SUPERIORITY||Slope|-0.1057||||0.6624|TWO_SIDED|95.0|-0.5808|0.3693||P-value above is for the treatment-by-time squared term in the statistical model for longitudinal data; quadratic change in outcome determined, compared trajectory of outcome change in EnufSnuff (SGR) compared to Enough Snuff (control)|Mixed Models Analysis|Multi-level, mixed-effects model for longitudinal data was conducted.|Slope difference estimate reported above, estimate compares trajectory slope coefficient for EnufSnuff (SGR) to slope coefficient for Enough Snuff (control).|For secondary outcomes, the study was not powered. The null hypothesis was no between-treatment arm difference in the trajectory of change from baseline to six months.||0.3693|-0.5808|0.6624
92311081|NCT04315506|184522795|SUPERIORITY||Slope|0.0946||||0.232|TWO_SIDED|95.0|-0.0609|0.2501||A multi-level, mixed-effects model for longitudinal data was applied. The p-value provided above was for the treatment-by-time effect used to test for differences in the trajectory of change in craving reduction between the two treatment groups.|Mixed Models Analysis|Multi-level, mixed-effects model for longitudinal data was conducted. (trajectory analysis)|Slope difference estimate reported above, estimate compares trajectory slope coefficient for EnufSnuff (SGR) to slope coefficient for Enough Snuff (control).|For secondary outcomes, the study was not powered. The null hypothesis was no between-treatment arm difference in the trajectory of change from baseline to six months.||0.2501|-0.0609|0.2320
92311082|NCT02661217|184522827|SUPERIORITY||Risk Ratio (RR)|0.896||||0.099|TWO_SIDED|95.0|0.786|1.021|||Cochran-Mantel-Haenszel|||||1.021|0.786|0.099
92311083|NCT02661217|184522828|SUPERIORITY||Risk Ratio (RR)|0.906||||0.034|TWO_SIDED|95.0|0.827|0.993|||Cochran-Mantel-Haenszel|||||0.993|0.827|0.034
92311084|NCT02661217|184522829|SUPERIORITY||Risk Ratio (RR)|0.96||||0.089|TWO_SIDED|95.0|0.916|1.006|||Cochran-Mantel-Haenszel|||||1.006|0.916|0.089
92311085|NCT01778634|184522842|SUPERIORITY||Odds Ratio (OR)|7.51|||<|0.0001|TWO_SIDED|95.0|2.53|22.27|||Cochran-Mantel-Haenszel|||||22.27|2.53|<0.0001
92311086|NCT01778634|184522843|SUPERIORITY||Risk Difference (RD)|0.11||||0.28|TWO_SIDED|95.0|-0.08|0.29|||Generalized Estimating Equations||Generalized Estimating Equations with an identity link|||0.29|-0.08|0.28
92311087|NCT01778634|184522844|SUPERIORITY|P values are based on GEE to account for twins||||||0.11|||||||GEE|||||||0.11
92311088|NCT01778634|184522845|SUPERIORITY|P values are based on GEE to account for twins. The counts provided refer to to the numbers actually observed. The analysis to determine the p value accounted for the missing 11 patients using multiple imputation.||||||0.62|||||||GEE with multiple imputation|||||||0.62
92311089|NCT01778634|184522846|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92311090|NCT01778634|184522847|SUPERIORITY|||||||0.88||||||To include non-survivors as bad values of this outcome we imputed a high value for the participants who died. Note, because we analyzed the data using a nonparametric test, the actual value doesn't affect the analysis, only the rank of the value.|Wilcoxon (Mann-Whitney)|||||||0.88
92311091|NCT01778634|184522848|SUPERIORITY||Median Difference (Final Values)|5.0||||0.94|TWO_SIDED|95.0|-15.0|26.0||To include non-survivors as bad values of this outcome we imputed a high value for the participants who died. Note, because we analyzed the data using a nonparametric test, the actual value doesn't affect the analysis, only the rank of the value.|Wilcoxon test after multiple outputation||Bootstrap|||26|-15|0.94
92311092|NCT01778634|184522849|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
92311093|NCT01778634|184522850|SUPERIORITY||Odds Ratio (OR)|1.07||||0.88|TWO_SIDED|95.0|0.44|2.63|||Cochran-Mantel-Haenszel|||||2.63|0.44|0.88
92311094|NCT01778634|184522851|SUPERIORITY|||||||0.18|||||||Generalized Estimating Equations|||||||0.18
92311095|NCT01778634|184522853|SUPERIORITY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
92311096|NCT01778634|184522854|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92311097|NCT01778634|184522855|SUPERIORITY|||||||0.18|||||||Generalized Estimating Equations|||||||0.18
92311098|NCT01778634|184522856|SUPERIORITY|||||||0.091|||||||Fisher Exact|||||||0.091
92311099|NCT01778634|184522857|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92311100|NCT01778634|184522858|SUPERIORITY|||||||0.33|||||||Generalized Estimating Equations|||||||0.33
92190267|NCT00332488|184279239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91|||<|0.001|TWO_SIDED|95.0|0.69|1.14|||ANCOVA|Type III||ANCOVA fitting model change from baseline in A1c with fixed effects for treatment and pooled site and baseline A1c as a covariate||1.14|0.69|< 0.001
92311101|NCT01778634|184522859|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92190268|NCT03721978|184279243|SUPERIORITY|Superiority was concluded if the one-sided p-value was \<0.025 and the corresponding lower bound of the 95% CI exceeded zero (0).|Difference in Percentage|28.6||||0.115|TWO_SIDED|95.0|-24.6|50.4|||Miettinen and Nurminen method|||||50.4|-24.6|0.115
92190269|NCT03721978|184279248|SUPERIORITY|Superiority was concluded if the one-sided p-value was \<0.025 and the corresponding lower bound of the 95% CI exceeded zero (0).|Difference in Percentage|18.9||||0.001|TWO_SIDED|95.0|7.8|28.6|||Miettinen and Nurminen method|||||28.6|7.8|0.001
92190270|NCT03721978|184279249|OTHER||Difference in Percentage|13.1|||||TWO_SIDED|95.0|-37.7|46.0||||||||46.0|-37.7|
92190271|NCT03721978|184279250|OTHER||Difference in Percentage|12.6|||||TWO_SIDED|95.0|-0.8|24.5||||||||24.5|-0.8|
92190272|NCT03721978|184279251|OTHER||Difference in Percentage|38.1|||||TWO_SIDED|95.0|-15.7|59.5||||||||59.5|-15.7|
92190273|NCT03721978|184279252|OTHER||Difference in Percentage|27.9|||||TWO_SIDED|95.0|16.0|38.2||||||||38.2|16.0|
92311102|NCT00687830|184522866|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
92311103|NCT00687830|184522867|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Chi-squared|||||||0.04
92311104|NCT03485365|184522886|OTHER|Bayesian Repeated Measures Model|Median Difference (Net)|-1.18|STANDARD_DEVIATION|0.494|||TWO_SIDED|95.0|-2.15|-0.2|||||Posterior median difference (GSK3858279 - Placebo) and 95% credible interval is presented.|||-0.20|-2.15|
92311105|NCT03485365|184522887|OTHER|Bayesian Repeated Measures Model|Median Difference (Net)|-1.09|STANDARD_DEVIATION|0.612|||TWO_SIDED|95.0|-2.29|0.12|||||Posterior median difference (GSK3858279 - Placebo) and 95% credible interval is presented.|||0.12|-2.29|
92311106|NCT03332979|184522947|OTHER|Multivariable regression analysis will be used to enable us to explore the impact of modifiable factors reflecting preparation for end of life on the MMCGI-SF.|||||<|0.05|||||||Regression, Linear||||Multivariable regression will be used to explore preparation for end of life on the MMCGI-SF. The analyses will use the MMCGI-SF as the dependent variable with five predictor variables (dementia knowledge \[DKAS\], Social support \[HLQ1\], Communication with healthcare professionals \[HLW4\], advance decisions and knowledge of end of life wishes of person with dementia. There will also be 10 confounders included in the model (gender of caregiver, living arrangement of person with dementia \[at home of a care home\], aged of person with dementia, dementia severity \[CDR\], change in closeness, religiosity \[DURAL\], deprivation and relationship of the carer to the person with dementia).|||<0.05
92311107|NCT03968978|184522986|OTHER||Proportion|98.2|||||TWO_SIDED|95.0|93.67|99.5|||Score CI|CI at Week 0 (in clinic)||||99.5|93.67|
92190274|NCT03721978|184279253|OTHER||Difference in Percentage|13.1|||||TWO_SIDED|95.0|-37.7|46.0||||||||46.0|-37.7|
92190275|NCT03721978|184279254|OTHER||Difference in Percentage|17.6|||||TWO_SIDED|95.0|5.2|28.5||||||||28.5|5.2|
92190276|NCT03721978|184279255|OTHER||Difference in Percentage|28.6|||||TWO_SIDED|95.0|-24.6|50.4||||||||50.4|-24.6|
92190277|NCT03721978|184279256|OTHER||Difference in Percentage|20.3|||||TWO_SIDED|95.0|10.1|29.5||||||||29.5|10.1|
92190278|NCT03721978|184279257|OTHER||Difference in Percentage|1.2|||||TWO_SIDED|95.0|-31.2|50.5||||||||50.5|-31.2|
92190279|NCT03721978|184279258|OTHER||Difference in Percentage|5.3|||||TWO_SIDED|95.0|-6.0|17.9||||||||17.9|-6.0|
92190280|NCT03721978|184279259|OTHER||Difference in Percentage|-6.0|||||TWO_SIDED|95.0|-54.7|25.8||||||||25.8|-54.7|
92190281|NCT03721978|184279260|OTHER||Difference in Percentage|12.2|||||TWO_SIDED|95.0|1.1|21.9||||||||21.9|1.1|
92190282|NCT03721978|184279261|OTHER||Location Shift|449.0|||||TWO_SIDED|95.0|0.0|18224.0||||||Week 15: HPV-16 E7||18224.0|0.0|
92190283|NCT03721978|184279261|OTHER||Location Shift|0.0|||||TWO_SIDED|95.0|-18224.0|674.0||||||Week 36: HPV-16 E7||674.0|-18224.0|
92190284|NCT03721978|184279261|OTHER||Location Shift|4049.0|||||TWO_SIDED|95.0|224.0|18224.0||||||Week 15: HPV-18 E7||18224.0|224.0|
92190285|NCT03721978|184279261|OTHER||Location Shift|74.0|||||TWO_SIDED|95.0|-18000.0|6074.0||||||Week 36: HPV-18 E7||6074.0|-18000.0|
92190286|NCT03721978|184279262|OTHER||Location Shift|224.0|||||TWO_SIDED|95.0|224.0|674.0||||||Week 15: HPV-16 E7||674.0|224.0|
92190287|NCT03721978|184279262|OTHER||Location Shift|0.0|||||TWO_SIDED|95.0|0.0|24.0||||||Week 36: HPV-16 E7||24.0|0.0|
92190288|NCT03721978|184279262|OTHER||Location Shift|2024.0|||||TWO_SIDED|95.0|2024.0|6074.0||||||Week 15: HPV-18 E7||6074.0|2024.0|
92311108|NCT03968978|184522986|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.65|100.0|||Score CI|CI at Week 4 (in clinic)||||100|96.65|
92311109|NCT03968978|184522986|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.63|100.0|||Score CI|CI for Week 8 (in clinic)||||100.00|96.63|
92311110|NCT03968978|184522986|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.63|100.0|||Score CI|CI for Week 12 (at home)||||100.00|96.63|
92311111|NCT03968978|184522986|OTHER||Proportion|95.4|||||TWO_SIDED|95.0|89.71|98.02|||Score CI|CI for Week 16 (at home)||||98.02|89.71|
92311112|NCT03968978|184522986|OTHER||Proportion|96.3|||||TWO_SIDED|95.0|90.94|98.56|||Score CI|CI for Week 20 (in clinic)||||98.56|90.94|
92311113|NCT03968978|184522986|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.47|100.0|||Score CI|CI for Week 0 (in clinic)||||100.00|96.47|
92311114|NCT03968978|184522986|OTHER||Proportion|97.1|||||TWO_SIDED|95.0|91.93|99.02|||Score CI|CI for Week 4 (in clinic)||||99.02|91.93|
92311115|NCT03968978|184522986|OTHER||Proportion|98.1|||||TWO_SIDED|95.0|93.32|99.48|||Score CI|CI for Week 8 (in clinic)||||99.48|93.32|
92311116|NCT03968978|184522986|OTHER||Proportion|99.0|||||TWO_SIDED|95.0|94.8|99.83|||Score CI|CI for week 12 (at home)||||99.83|94.80|
92311117|NCT03968978|184522986|OTHER||Proportion|97.1|||||TWO_SIDED|95.0|91.93|99.02|||Score CI|CI for Week 16 (at home)||||99.02|91.93|
92311118|NCT03968978|184522986|OTHER||Proportion|97.1|||||TWO_SIDED|95.0|91.93|99.02|||Score CI|CI for Week 20 (in clinic)||||99.02|91.93|
92311119|NCT03968978|184522987|OTHER||Proportion|98.2|||||TWO_SIDED|95.0|93.67|99.5|||Score CI|CI at Week 0 (in clinic)||||99.50|93.67|
92311120|NCT03968978|184522987|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.65|100.0|||Score CI|CI at Week 4 (in clinic)||||100.00|96.65|
92311121|NCT03968978|184522987|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.63|100.0|||Score CI|CI for Week 8 (in clinic)||||100.00|96.63|
92311122|NCT03968978|184522987|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.63|100.0|||Score CI|CI for Week 12 (at home)||||100.00|96.63|
92311123|NCT03968978|184522987|OTHER||Proportion|97.2|||||TWO_SIDED|95.0|92.8|99.04|||Score CI|CI for Week 16 (at home)||||99.04|92.80|
92311124|NCT03968978|184522987|OTHER||Proportion|99.1|||||TWO_SIDED|95.0|94.85|99.83|||Score CI|CI for Week 20 (in clinic)||||99.83|94.85|
92190289|NCT03721978|184279262|OTHER||Location Shift|674.0|||||TWO_SIDED|95.0|224.0|674.0||||||Week 36: HPV-18 E7||674.0|224.0|
92190290|NCT03721978|184279263|OTHER||Location Shift|25.0|||||TWO_SIDED|95.0|0.0|73.33||||||HPV-16 E6: Week 15||73.33|0.00|
92190291|NCT03721978|184279263|OTHER||Location Shift|15.0|||||TWO_SIDED|95.0|0.0|38.33||||||HPV-16 E6: Week 36||38.33|0.00|
92190292|NCT03721978|184279263|OTHER||Location Shift|16.67|||||TWO_SIDED|95.0|0.0|85.0||||||HPV-16 E7: Week 15||85.00|0.00|
92190293|NCT03721978|184279263|OTHER||Location Shift|5.0|||||TWO_SIDED|95.0|0.0|36.67||||||HPV-16 E7: Week 36||36.67|0.00|
92190294|NCT03721978|184279263|OTHER||Location Shift|26.67|||||TWO_SIDED|95.0|0.0|181.67||||||HPV-18 E6: Week 15||181.67|0.00|
92190295|NCT03721978|184279263|OTHER||Location Shift|11.67|||||TWO_SIDED|95.0|0.0|31.67||||||HPV-18 E6: Week 36||31.67|0.00|
92190296|NCT03721978|184279263|OTHER||Location Shift|3.33|||||TWO_SIDED|95.0|0.0|46.67||||||HPV-18 E7: Week 15||46.67|0.00|
92311125|NCT03968978|184522987|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.46|100.0|||Score CI|CI for Week 0 (in clinic)||||100.00|96.46|
92311126|NCT03968978|184522987|OTHER||Proportion|97.2|||||TWO_SIDED|95.0|93.38|99.48|||Score CI|CI for Week 4 (in clinic)||||99.48|93.38|
92311127|NCT03968978|184522987|OTHER||Proportion|98.1|||||TWO_SIDED|95.0|93.32|99.48|||Other CI|CI for Week 8 (in clinic)||||99.48|93.32|
92311128|NCT03968978|184522987|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.44|100.0|||Score CI|CI for week 12 (at home)||||100.00|96.44|
92311129|NCT03968978|184522987|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.37|100.0|||Score CI|CI for Week 16 (at home)||||100.00|96.37|
92311130|NCT03968978|184522987|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.37|100.0|||Score CI|CI for Week 20 (in clinic)||||100.00|96.37|
92311131|NCT03968978|184522988|OTHER||Proportion|1.8|||||TWO_SIDED|95.0|0.5|6.33|||Score CI|CI at Week 0 (in clinic)||||6.33|0.50|
92311132|NCT03968978|184522988|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.35|||Score CI|CI at Week 4 (in clinic)||||3.35|0|
92311133|NCT03968978|184522988|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.37|||Score CI|CI for Week 8 (in clinic)||||3.37|0|
92311134|NCT03968978|184522988|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.37|||Score CI|CI for Week 12 (at home)||||3.37|0|
92311135|NCT03968978|184522988|OTHER||Proportion|2.8|||||TWO_SIDED|95.0|0.96|7.92|||Score CI|CI for Week 16 (at home)||||7.92|0.96|
92311136|NCT03968978|184522988|OTHER||Proportion|0.9|||||TWO_SIDED|95.0|0.17|5.15|||Score CI|CI for Week 20 (in clinic)||||5.15|0.17|
92311137|NCT03968978|184522988|SUPERIORITY||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.53|||Score CI|CI for Week 0 (in clinic)||||3.53|0|
92190297|NCT03721978|184279263|OTHER||Location Shift|4.17|||||TWO_SIDED|95.0|0.0|20.0||||||HPV-18 E7: Week 36||20.00|0.00|
92190298|NCT03721978|184279264|OTHER||Location Shift|8.33|||||TWO_SIDED|95.0|3.33|11.67||||||HPV-16 E6: Week 15||11.67|3.33|
92190299|NCT03721978|184279264|OTHER||Location Shift|5.83|||||TWO_SIDED|95.0|3.33|11.67||||||HPV-16 E6: Week 36||11.67|3.33|
92190300|NCT03721978|184279264|OTHER||Location Shift|5.0|||||TWO_SIDED|95.0|1.67|11.67||||||HPV-16 E7: Week 15||11.67|1.67|
92190301|NCT03721978|184279264|OTHER||Location Shift|1.67|||||TWO_SIDED|95.0|0.0|5.0||||||HPV-16 E7: Week 36||5.00|0.00|
92190302|NCT03721978|184279264|OTHER||Location Shift|25.0|||||TWO_SIDED|95.0|15.0|40.0||||||HPV-18 E6: Week 15||40.00|15.00|
92190303|NCT03721978|184279264|OTHER||Location Shift|16.67|||||TWO_SIDED|95.0|10.0|28.33||||||HPV-18 E6: Week 36||28.33|10.00|
92190304|NCT03721978|184279264|OTHER||Location Shift|3.33|||||TWO_SIDED|95.0|1.67|6.67||||||HPV-18 E7: Week 15||6.67|1.67|
92190305|NCT03721978|184279264|OTHER||Location Shift|1.67|||||TWO_SIDED|95.0|0.0|3.33||||||HPV-18 E7: Week 36||3.33|0.00|
92190306|NCT03721978|184279265|OTHER||Location Shift|0.033|||||TWO_SIDED|95.0|-0.004|0.325||||||Parameter: CD8+CD137+Perforin+||0.325|-0.004|
92190307|NCT03721978|184279265|OTHER||Location Shift|0.005|||||TWO_SIDED|95.0|0.0|0.208||||||Parameter: CD8+CD38+Perforin+||0.208|0.000|
92190308|NCT03721978|184279265|OTHER||Location Shift|0.014|||||TWO_SIDED|95.0|-0.055|0.31||||||Parameter: CD8+CD69+Perforin+||0.310|-0.055|
92190309|NCT03721978|184279266|OTHER||Location Shift|0.041|||||TWO_SIDED|95.0|0.004|0.077||||||Parameter: CD8+CD137+Perforin+||0.077|0.004|
92190310|NCT03721978|184279266|OTHER||Location Shift|0.011|||||TWO_SIDED|95.0|0.003|0.028||||||Parameter: CD8+CD38+Perforin+||0.028|0.003|
92190311|NCT03721978|184279266|OTHER||Location Shift|0.034|||||TWO_SIDED|95.0|0.022|0.053||||||Parameter: CD8+CD69+Perforin+||0.053|0.022|
92190312|NCT05244226|184279267|SUPERIORITY|||||||0.045|||||||Kruskal-Wallis|Dunn's Kruskal Wallis with Bonferroni correction||||||0.045
92190313|NCT05244226|184279267|SUPERIORITY|||||||0.023|||||||Kruskal-Wallis|Dunn's Kruskal Wallis with Bonferroni correction||||||0.023
92190314|NCT05244226|184279271|SUPERIORITY|||||||0.144|||||||Kruskal-Wallis|||||||0.144
92190315|NCT05244226|184279271|SUPERIORITY|||||||0.322|||||||Kruskal-Wallis|||||||0.322
92311138|NCT03968978|184522988|OTHER||Proportion|2.8|||||TWO_SIDED|95.0|0.97|7.99|||Score CI|CI for Week 4 (in clinic)||||7.99|0.97|
92311139|NCT03968978|184522988|OTHER||Proportion|1.9|||||TWO_SIDED|95.0|0.52|6.68|||Other CI|CI for Week 8 (in clinic)||||6.68|0.52|
92311140|NCT03968978|184522988|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.56|||Score CI|CI for week 12 (at home)||||3.56|0|
92311141|NCT03968978|184522988|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.63|||Score CI|CI for Week 16 (at home)||||3.63|0|
92311142|NCT03968978|184522988|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.63|||Score CI|CI for Week 20 (in clinic)||||3.63|0|
92311143|NCT00863772|184522992|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.37||0.434|TWO_SIDED|95.0|-0.44|1.01|||ANCOVA|||Analysis of co-variance (ANCOVA) model was used with treatment as main effect, baseline value as a covariate, and study site as a random effect.||1.01|-0.44|0.434
92311144|NCT00863772|184522992|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.37||0.883|TWO_SIDED|95.0|-0.68|0.79|||ANCOVA|||ANCOVA model was used with treatment as main effect, baseline value as a covariate, and study site as a random effect.||0.79|-0.68|0.883
92311145|NCT00863772|184522993|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.37||0.72|TWO_SIDED|95.0|-0.59|0.86|||ANCOVA|||Analysis of co-variance (ANCOVA) model was used with treatment as main effect, baseline value as a covariate, and study site as a random effect.||0.86|-0.59|0.720
92311146|NCT00863772|184522993|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.37||0.985|TWO_SIDED|95.0|-0.73|0.74|||ANCOVA|||ANCOVA model was used with treatment as main effect, baseline value as a covariate, and study site as a random effect.||0.74|-0.73|0.985
92311147|NCT01758588|184523033|OTHER||||||||||||||||||A statistical comparison and analysis of the clinical improvement (CI) proportions cannot be made because the sample size (n=5 in treatment arm, n=3 in observation arm) is too small|||
92311148|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|-2.26|||||TWO_SIDED|95.0|-8.08|2.33||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.33|-8.08|
92311149|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|-0.49|||||TWO_SIDED|95.0|-9.93|8.65||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||8.65|-9.93|
92311150|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|-2.27|||||TWO_SIDED|95.0|-8.07|2.26||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.26|-8.07|
92311151|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|0.68||||||95.0|-4.96|6.16||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||6.16|-4.96|
92311152|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|-2.25||||||95.0|-8.18|2.36||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.36|-8.18|
92311153|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|0.7||||||95.0|-4.84|6.32||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||6.32|-4.84|
92190316|NCT05244226|184279272|SUPERIORITY|||||||0.061|||||||Kruskal-Wallis|Dunn's Kruskal Wallis with Bonferroni correction||||||0.061
92190317|NCT05244226|184279272|SUPERIORITY|||||||0.021|||||||Kruskal-Wallis|Dunn's Kruskal Wallis with Bonferroni correction||||||0.021
92190318|NCT03341312|184279287|SUPERIORITY||ratio of LS Means|0.75|||||TWO_SIDED|95.0|0.42|1.16||||||||1.16|0.42|
92190319|NCT03341312|184279287|SUPERIORITY||ratio of LS Means|0.74|||||TWO_SIDED|95.0|0.49|1.01||||||||1.01|0.49|
92311154|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|-0.69||||||95.0|-7.75|5.86||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||5.86|-7.75|
92311155|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|72.87||||||95.0|63.32|81.07||||||For serotype 1 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||81.07|63.32|
92311156|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|84.92||||||95.0|76.73|91.05||||||For serotype 3 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||91.05|76.73|
92311157|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|57.94||||||95.0|48.01|67.42||||||For serotype 5 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||67.42|48.01|
92190320|NCT01763346|184279290|SUPERIORITY|||||||0.05||||||35 subjects per group provided 80% power to detect an effect size of 0.59, assuming a 2-sided p=0.05, adjustment for baseline measures using ANCOVA, and correlation of 0.5 between baseline and end-study measures.|General Linear Models|Differences in primary outcomes between groups at 24-months were compared using general linear models with baseline values included as covariates.||We selected a sample size that would allow detection of an effect size of \~0.6 or greater between gastric band and metformin groups for measures of β-cell function after two years, hypothesizing greater function in the gastric band group.||||0.05
92190321|NCT01212952|184279296|OTHER||Maximum Tolerated Dose (MTD) (mg/m^2)|1.3|||||TWO_SIDED||||||||Maximum Tolerated Dose Level is Dose Level 2 (1.3 mg/m\^2 Bortezomib).|||||
92190322|NCT05372913|184279302|NON_INFERIORITY|The non-inferiority (NI) test for the secondary outcome (i.e., PHQ-8 Week 4 EOT score) was assessed using the pre-specified NI margin of 2.0. NI of W-GenZD to CBT-Lite was declared if the upper bound of the one-sided 97.5% confidence interval (CI) was less than 2.|Mean Difference (Net)|-0.67|||||TWO_SIDED|95.0|-2.3|0.96||||||||0.96|-2.30|
92190323|NCT03303521|184279303|SUPERIORITY||Odds Ratio (OR)|68.77|||<|0.001|TWO_SIDED|95.0|10.85|2810.85|||Fisher Exact|||||2810.85|10.85|<0.001
92190324|NCT03303521|184279305|SUPERIORITY||Odds Ratio (OR)|35.51|||<|0.001|TWO_SIDED|95.0|8.53|309.48|||Fisher Exact|||||309.48|8.53|<0.001
92311158|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|62.81||||||95.0|52.33|72.2||||||For serotype 6A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||72.20|52.33|
92311159|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|92.27||||||95.0|85.26|96.54||||||For serotype 7F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||96.54|85.26|
92311160|NCT00205803|184523043|SUPERIORITY_OR_OTHER||Difference|5.61||||||95.0|1.23|11.86||||||For serotype 19A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||11.86|1.23|
92311161|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|-1.5||||||95.0|-7.9|3.6||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.6|-7.9|
92311162|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-4.6|4.0||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.0|-4.6|
92311163|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|-1.3||||||95.0|-6.9|2.8||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.8|-6.9|
92311164|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-4.6|4.0||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.0|-4.6|
92311165|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-4.7|3.9||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.9|-4.7|
92311166|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-4.6|4.0||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.0|-4.6|
92311167|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|2.2||||||95.0|-2.6|7.7||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||7.7|-2.6|
92311168|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|97.8||||||95.0|92.3|99.7||||||For serotype 1 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||99.7|92.3|
92311169|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|83.6||||||95.0|73.2|90.8||||||For serotype 3 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||90.8|73.2|
92311170|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|29.5||||||95.0|19.7|40.9||||||For serotype 5 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||40.9|19.7|
92311171|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|12.0||||||95.0|5.9|20.4||||||For serotype 6A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||20.4|5.9|
92311172|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|94.1||||||95.0|86.8|98.1||||||For serotype 7F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||98.1|86.8|
92311173|NCT00205803|184523044|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-4.6|4.0||||||For serotype 19A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.0|-4.6|
92311174|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|0.76||||||95.0|0.59|0.96||||||For serotype 4 the GMC ratio (13vPnC/7vPnC) was calculated||0.96|0.59|
92190325|NCT04086576|184279329|SUPERIORITY||||||<|0.0001||||||Yes, used Tukey Kramer pairwise comparisons to adjust for multiple comparisons|ANOVA|ANOVA in repeated measures||Each breathalyzer is compared to the percentage of alcohol in the blood during the time of blood draw (90 minutes).||||<.0001
92311175|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|0.96||||||95.0|0.62|1.48||||||For serotype 6B the GMC ratio (13vPnC/7vPnC) was calculated||1.48|0.62|
92311176|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Difference|0.85||||||95.0|0.69|1.05||||||For serotype 9V the GMC ratio (13vPnC/7vPnC) was calculated||1.05|0.69|
92190326|NCT04748445|184279331|OTHER||Slope|0.065|||<|0.0001|TWO_SIDED|90.0|0.046|0.083|||Mixed Models Analysis|||Chills||0.083|0.046|<.0001
92190327|NCT04748445|184279331|OTHER||Slope|0.281|||<|0.0001|TWO_SIDED|90.0|0.221|0.341|||Mixed Models Analysis|||Cough||0.341|0.221|<.0001
92190328|NCT04748445|184279331|OTHER||Slope|0.036|||<|0.0001|TWO_SIDED|90.0|0.023|0.048|||Mixed Models Analysis|||Diarrhea||0.048|0.023|<.0001
92311177|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|0.82||||||95.0|0.6|1.11||||||For serotype 14 the GMC ratio (13vPnC/7vPnC) was calculated||1.11|0.60|
92311178|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|0.62||||||95.0|0.49|0.79||||||For serotype 18C the GMC ratio (13vPnC/7vPnC) was calculated||0.79|0.49|
92311179|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|0.86||||||95.0|0.67|1.09||||||For serotype 19F the GMC ratio (13vPnC/7vPnC) was calculated||1.09|0.67|
92311180|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|0.77||||||95.0|0.59|1.0||||||For serotype 23F the GMC ratio (13vPnC/7vPnC) was calculated||1.00|0.59|
92311181|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|39.78||||||95.0|27.47|57.63||||||For serotype 1 the GMC ratio (13vPnC/7vPnC) was calculated||57.63|27.47|
92311182|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|15.56||||||95.0|11.63|20.81||||||For serotype 3 the GMC ratio (13vPnC/7vPnC) was calculated||20.81|11.63|
92190329|NCT04748445|184279331|OTHER||Slope|0.113|||<|0.0001|TWO_SIDED|90.0|0.069|0.156|||Mixed Models Analysis|||Difficulty breathing||0.156|0.069|<.0001
92190330|NCT04748445|184279331|OTHER||Slope|0.259|||<|0.0001|TWO_SIDED|90.0|0.206|0.312|||Mixed Models Analysis|||Fatigue||0.312|0.206|<.0001
92190331|NCT04748445|184279331|OTHER||Slope|0.029|||<|0.0001|TWO_SIDED|90.0|0.02|0.037|||Mixed Models Analysis|||Fever||0.037|0.020|<.0001
92190332|NCT04748445|184279331|OTHER||Slope|0.194|||<|0.0001|TWO_SIDED|90.0|0.148|0.241|||Mixed Models Analysis|||Headache||0.241|0.148|<.0001
92190333|NCT04748445|184279331|OTHER||Slope|0.103||||0.0002|TWO_SIDED|90.0|0.059|0.148|||Mixed Models Analysis|||Loss of taste or smell||0.148|0.059|0.0002
92190334|NCT04748445|184279331|OTHER||Slope|0.181|||<|0.0001|TWO_SIDED|90.0|0.137|0.226|||Mixed Models Analysis|||Muscle pain||0.226|0.137|<.0001
92190335|NCT04748445|184279331|OTHER||Slope|0.044|||<|0.0001|TWO_SIDED|90.0|0.028|0.06|||Mixed Models Analysis|||Nausea||0.060|0.028|<.0001
92311183|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|8.67||||||95.0|6.65|11.29||||||For serotype 5 the GMC ratio (13vPnC/7vPnC) was calculated||11.29|6.65|
92311184|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|9.6||||||95.0|7.07|13.04||||||For serotype 6A the GMC ratio (13vPnC/7vPnC) was calculated||13.04|7.07|
92311185|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|26.78||||||95.0|20.97|34.22||||||For serotype 7F the GMC ratio (13vPnC/7vPnC) was calculated||34.22|20.97|
92311186|NCT00205803|184523045|SUPERIORITY_OR_OTHER||Ratio|1.71||||||95.0|1.36|2.16||||||For serotype 19A the GMC ratio (13vPnC/7vPnC) was calculated||2.16|1.36|
92311187|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|3.08||||||95.0|-7.22|13.73||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15 µg/mL threshold was calculated||13.73|-7.22|
92311188|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|7.02||||||95.0|-7.28|21.14||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0 µg/mL threshold was calculated||21.14|-7.28|
92311189|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-9.38|7.73||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL and 0.1 IU/mL thresholds was calculated||7.73|-9.38|
92311190|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-9.38|7.73||||||For Tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL and 0.1 IU/mL thresholds was calculated||7.73|-9.38|
92311191|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-5.97|5.68||||||For Polio Type 1 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||5.68|-5.97|
92311192|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|-1.64||||||95.0|-8.8|4.24||||||For Polio Type 2 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||4.24|-8.80|
92311193|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|-1.64||||||95.0|-8.8|4.21||||||For Polio Type 3 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||4.21|-8.80|
92311194|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-9.38|7.73||||||For Hepatitis b the difference in percentage between the two groups (13vPnC - 7vPnC) at 10 mIU/mL threshold was calculated||7.73|-9.38|
92311195|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|-1.74||||||95.0|-11.0|6.99||||||For Pertussis - FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 82.00 EU/MI threshold was calculated||6.99|-11.00|
92311196|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|-6.36||||||95.0|-17.03|3.16||||||For Pertussis - PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 43.00 EU/mL threshold was calculated||3.16|-17.03|
92311197|NCT00205803|184523047|SUPERIORITY_OR_OTHER||Difference|1.33||||||95.0|-6.79|9.68||||||For Pertussis - Pertactin the difference in percentage between the two groups (13vPnC - 7vPnC) at 18.00 EU/mL threshold was calculated||9.68|-6.79|
92311198|NCT00205803|184523048|SUPERIORITY_OR_OTHER||Ratio|1.21|||||TWO_SIDED|95.0|0.69|2.14||||||||2.14|0.69|
92311199|NCT00205803|184523049|SUPERIORITY_OR_OTHER||Ratio|0.97|||||TWO_SIDED|95.0|0.63|1.48||||||||1.48|0.63|
92311200|NCT00205803|184523050|SUPERIORITY_OR_OTHER||Ratio|0.83|||||TWO_SIDED|95.0|0.57|1.21||||||||1.21|0.57|
92311201|NCT00205803|184523051|SUPERIORITY_OR_OTHER||Ratio|1.01|||||TWO_SIDED|95.0|0.66|1.53||||||Polio Type 1||1.53|0.66|
92190336|NCT04748445|184279331|OTHER||Slope|0.03||||0.0007|TWO_SIDED|90.0|0.016|0.044|||Mixed Models Analysis|||Rigors||0.044|0.016|0.0007
92190337|NCT04748445|184279331|OTHER||Slope|0.159|||<|0.0001|TWO_SIDED|90.0|0.123|0.195|||Mixed Models Analysis|||Runny nose||0.195|0.123|<.0001
92311202|NCT00205803|184523051|SUPERIORITY_OR_OTHER||Ratio|0.91|||||TWO_SIDED|95.0|0.56|1.49||||||Polio Type 2||1.49|0.56|
92190338|NCT04748445|184279331|OTHER||Slope|0.222|||<|0.0001|TWO_SIDED|90.0|0.168|0.277|||Mixed Models Analysis|||Sore throat||0.277|0.168|<.0001
92190339|NCT04748445|184279331|OTHER||Slope|0.337|||<|0.0001|TWO_SIDED|90.0|0.264|0.411|||Mixed Models Analysis|||Stuffy/blocked nose||0.411|0.264|<.0001
92190340|NCT04748445|184279331|OTHER||Slope|0.005||||0.0053|TWO_SIDED|90.0|0.002|0.007|||Mixed Models Analysis|||Vomiting||0.007|0.002|0.0053
92190341|NCT04748445|184279331|OTHER||Slope|0.049||||0.0057|TWO_SIDED|90.0|0.02|0.078|||Mixed Models Analysis|||Wheezing||0.078|0.020|0.0057
92190342|NCT04748445|184279331|OTHER||Slope|2.644|||<|0.0001|TWO_SIDED|90.0|2.101|3.188|||Mixed Models Analysis|||Mean of daily total symptom score||3.188|2.101|<.0001
92190343|NCT04748445|184279332|OTHER||Slope|-1.519|STANDARD_ERROR_OF_MEAN|2.769|<|0.0001|TWO_SIDED|90.0|-1.978|-1.06|||Mixed Models Analysis|||AHH\_Max Phonation Time (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-1. For dispersion value it was 10\^-2).||-1.060|-1.978|<.0001
92311203|NCT00205803|184523051|SUPERIORITY_OR_OTHER||Ratio|1.12|||||TWO_SIDED|95.0|0.69|1.84||||||Polio Type 3||1.84|0.69|
92311204|NCT00205803|184523052|SUPERIORITY_OR_OTHER||Ratio|0.92|||||TWO_SIDED|95.0|0.74|1.15||||||Pertussis - FHA||1.15|0.74|
92190344|NCT04748445|184279332|OTHER||Slope|6.899|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|TWO_SIDED|90.0|||||Mixed Models Analysis|||EE\_Jitter Local Absolute (The statistical data given below have exponential factor in addition to the values mentioned. For estimated value it was 10\^-8).||||<.0001
92190345|NCT04748445|184279332|OTHER||Slope|-1.743|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|TWO_SIDED|90.0|||||Mixed Models Analysis|||MM\_Jitter Local Absolute (The statistical data given below have exponential factor in addition to the values mentioned. For estimated value it was 10\^-7).||||<.0001
92190346|NCT04748445|184279333|OTHER||Slope|-1.326|STANDARD_ERROR_OF_MEAN|1.174||0.9103|TWO_SIDED|90.0|-2.079|1.814|||Mixed Models Analysis|||EE\_Cepstral Peak Prominence (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-3).||1.814|-2.079|0.9103
92190347|NCT04748445|184279333|OTHER||Slope|0.007667|STANDARD_ERROR_OF_MEAN|1.741||0.6605|TWO_SIDED|90.0|-0.02119|0.03653|||Mixed Models Analysis|||EE\_Harmonicity (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.03653|-0.02119|0.6605
92190348|NCT04748445|184279333|OTHER||Slope|1.268|STANDARD_ERROR_OF_MEAN|2.82|<|0.0001|TWO_SIDED|90.0|0.8012|1.736|||Mixed Models Analysis|||EE\_MFCC mean 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||1.736|0.8012|<.0001
92190349|NCT04748445|184279333|OTHER||Slope|-1.752|STANDARD_ERROR_OF_MEAN|2.127||0.4117|TWO_SIDED|90.0|-5.276|1.773|||Mixed Models Analysis|||EE\_MFCC mean 02 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-1).||1.773|-5.276|0.4117
92190350|NCT04748445|184279333|OTHER||Slope|1.39|STANDARD_ERROR_OF_MEAN|1.262||0.2728|TWO_SIDED|90.0|-7.012|3.482|||Mixed Models Analysis|||EE\_MFCC mean 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-1. For lower limit it was 10\^-2).||3.482|-7.012|0.2728
92311205|NCT00205803|184523052|SUPERIORITY_OR_OTHER||Ratio|1.02|||||TWO_SIDED|95.0|0.83|1.25||||||Pertussis - PT||1.25|0.83|
92311206|NCT00205803|184523052|SUPERIORITY_OR_OTHER||Ratio|1.04|||||TWO_SIDED|95.0|0.76|1.44||||||Pertussis - Pertactin||1.44|0.76|
92311207|NCT04080544|184523075|OTHER|Null-hypothesis significance testing|Slope|-1.42|STANDARD_ERROR_OF_MEAN|0.81||0.081|TWO_SIDED|95.0|-3.03|0.18||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to episodic memory.||0.18|-3.03|.081
92311208|NCT04080544|184523075|OTHER|Null-hypothesis significance test|Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.13||0.604|TWO_SIDED|95.0|-0.32|0.19||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the interaction of temporal tau SUVR and amyloid SUVR in prediction of episodic memory.||0.19|-0.32|.604
92311209|NCT04080544|184523076|OTHER|Null-hypothesis significance test|Slope|1.77|STANDARD_ERROR_OF_MEAN|0.81||0.033|TWO_SIDED|95.0|0.15|3.39||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for baseline age, sex, and years of education.||Regression testing the relationship between amyloid accumulation (annualized change score for amyloid SUVR) to temporal tau SUVR.||3.39|0.15|.033
92311210|NCT04080544|184523077|OTHER|Null-hypothesis significance testing|Slope|0.272|STANDARD_ERROR_OF_MEAN|0.7||0.699|TWO_SIDED|95.0|-1.12|1.66||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to speed of processing.||1.66|-1.12|.699
92311211|NCT04080544|184523077|OTHER|Null-hypothesis significance test|Slope|0.16|STANDARD_ERROR_OF_MEAN|0.11||0.154|TWO_SIDED|95.0|-0.06|0.38||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the interaction of temporal tau SUVR and amyloid SUVR in the prediction of speed of processing.||0.38|-0.06|.154
92311212|NCT04080544|184523078|OTHER|Null-hypothesis significance testing|Slope|-1.11|STANDARD_ERROR_OF_MEAN|0.74||0.137|TWO_SIDED|95.0|-2.58|0.36||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to reasoning function.||0.36|-2.58|.137
92311213|NCT04080544|184523078|OTHER|Null-hypothesis significance test|Slope|0.11|STANDARD_ERROR_OF_MEAN|0.13||0.428|TWO_SIDED|95.0|-0.16|0.37||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the interaction of temporal tau SUVR and amyloid SUVR in prediction of reasoning.||0.37|-0.16|.428
92311214|NCT04080544|184523079|OTHER|Null-hypothesis significance test|Slope|-0.7|STANDARD_ERROR_OF_MEAN|0.78||0.376|TWO_SIDED|95.0|-2.25|0.86||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to working memory.||0.86|-2.25|.376
92311215|NCT04080544|184523079|OTHER|Null-hypothesis significance test|Slope|0.27|STANDARD_ERROR_OF_MEAN|0.13||0.039|TWO_SIDED|95.0|0.01|0.53||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the interaction of temporal tau SUVR and amyloid SUVR in prediction of working memory.||0.53|0.01|.039
92311216|NCT04080544|184523079|OTHER|Null-hypothesis significance test|Slope|-0.47|STANDARD_ERROR_OF_MEAN|0.27||0.091|TWO_SIDED|||||A priori threshold was two-sided 0.017 after Bonferroni correction for multiple comparisons (3 post hoc tests).|sim_slopes (R interactions package)|||Post hoc simple slopes test of the amyloid x tau interaction (Statistical Analysis #2) at 1SD below the mean for amyloid||||.091
92190351|NCT04748445|184279333|OTHER||Slope|-1.407|STANDARD_ERROR_OF_MEAN|1.194||0.2411|TWO_SIDED|90.0|-3.385|5.724|||Mixed Models Analysis|||EE\_MFCC mean 04 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-1. For upper limit it was 10\^-2).||5.724|-3.385|0.2411
92311217|NCT04080544|184523079|OTHER|Null-hypothesis significance test|Slope|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.296|TWO_SIDED|||||A priori threshold was two-sided 0.017 after Bonferroni correction for multiple comparisons (3 post hoc tests).|sim_slopes (R interactions package)|||Post hoc simple slopes test of the amyloid x tau interaction (Statistical Analysis #2) at the mean for amyloid SUVR||||.296
92311218|NCT04080544|184523079|OTHER|Null-hypothesis significance test|Slope|0.07|STANDARD_ERROR_OF_MEAN|0.17||0.695|TWO_SIDED|||||A priori threshold was two-sided 0.017 after Bonferroni correction for multiple comparisons (3 post hoc tests).|sim_slopes (R interactions package)|||Post hoc simple slopes test of the amyloid x tau interaction (Statistical Analysis #2) at 1SD above the mean for amyloid SUVR||||.695
92190352|NCT04748445|184279333|OTHER||Slope|-0.004466|STANDARD_ERROR_OF_MEAN|8.869||0.9599|TWO_SIDED|90.0|-0.1514|0.1425|||Mixed Models Analysis|||EE\_MFCC mean 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1425|-0.1514|0.9599
92190353|NCT04748445|184279333|OTHER||Slope|-0.1572|STANDARD_ERROR_OF_MEAN|9.127||0.0875|TWO_SIDED|90.0|-0.3084|-0.005942|||Mixed Models Analysis|||EE\_MFCC mean 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.005942|-0.3084|0.0875
92190354|NCT04748445|184279333|OTHER||Slope|1.248|STANDARD_ERROR_OF_MEAN|7.598||0.1029|TWO_SIDED|90.0|-1.072|2.507|||Mixed Models Analysis|||EE\_MFCC mean 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and estimated value it was 10\^-1. For dispersion value it was 10\^-2 and for lower limit it was 10\^-3).||2.507|-1.072|0.1029
92190355|NCT04748445|184279333|OTHER||Slope|-1.054|STANDARD_ERROR_OF_MEAN|7.218||0.1468|TWO_SIDED|90.0|-2.25|1.423|||Mixed Models Analysis|||EE\_MFCC mean 08 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit and estimated value it was 10\^-1. For upper limit and dispersion value it was 10\^-2).||1.423|-2.250|0.1468
92190356|NCT04748445|184279333|OTHER||Slope|0.05944|STANDARD_ERROR_OF_MEAN|6.536||0.3649|TWO_SIDED|90.0|-0.04887|0.1678|||Mixed Models Analysis|||EE\_MFCC mean 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1678|-0.04887|0.3649
92190357|NCT04748445|184279333|OTHER||Slope|-0.03115|STANDARD_ERROR_OF_MEAN|6.007||0.605|TWO_SIDED|90.0|-0.1307|0.06839|||Mixed Models Analysis|||EE\_MFCC mean 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.06839|-0.1307|0.6050
92190358|NCT04748445|184279333|OTHER||Slope|-0.01908|STANDARD_ERROR_OF_MEAN|5.932||0.7483|TWO_SIDED|90.0|-0.1174|0.07922|||Mixed Models Analysis|||EE\_MFCC mean 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.07922|-0.1174|0.7483
92190359|NCT04748445|184279333|OTHER||Slope|-6.574|STANDARD_ERROR_OF_MEAN|5.105||0.9897|TWO_SIDED|90.0|-8.526|8.394|||Mixed Models Analysis|||EE\_MFCC mean 12 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-4).||8.394|-8.526|0.9897
92190360|NCT04748445|184279333|OTHER||Slope|5.026|STANDARD_ERROR_OF_MEAN|5.176||0.9228|TWO_SIDED|90.0|-8.074|9.08|||Mixed Models Analysis|||EE\_MFCC mean 13 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-3).||9.080|-8.074|0.9228
92311219|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.001||0.012|TWO_SIDED|95.0|0.0004|0.004||A prior threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(linear) to inferior temporal SUVR.||0.004|0.0004|.012
92311220|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|-0.000005|STANDARD_ERROR_OF_MEAN|0.00004||0.905|TWO_SIDED|95.0|-0.000009|0.00008||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(quadratic) to inferior temporal SUVR.||0.00008|-0.000009|.905
92311221|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.001||0.006|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(growth model) to inferior temporal SUVR. Growth modeling was performed using SPSS curve estimation.||||.006
92311222|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.001||0.018|TWO_SIDED|95.0|0.0003|0.003||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(linear) to middle temporal gyrus SUVR.||0.003|0.0003|.018
92311223|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|-0.00002|STANDARD_ERROR_OF_MEAN|0.00004||0.579|TWO_SIDED|95.0|-0.0001|0.00006||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustment for multiple comparisons.||Regression testing the relationship of age(quadratic) to middle temporal SUVR.||0.00006|-0.0001|.579
92311224|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.001||0.008|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(growth model) to middle temporal SUVR. Growth modeling was performed using SPSS curve estimation.||||.008
92311225|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.00006|STANDARD_ERROR_OF_MEAN|0.0004||0.897|TWO_SIDED|95.0|-0.001|0.001||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age to superior temporal SUVR.||0.001|-0.001|.897
92311226|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|-0.00002|STANDARD_ERROR_OF_MEAN|0.00003||0.539|TWO_SIDED|95.0|-0.00007|0.00003||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(quadratic) to superior temporal SUVR.||0.00003|-0.00007|.539
92311227|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|-0.00001|STANDARD_ERROR_OF_MEAN|0.0004||0.973|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(growth model) to superior temporal SUVR. Growth modeling was performed using SPSS curve estimation.||||.973
92311228|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.001|STANDARD_ERROR_OF_MEAN|0.001||0.2|TWO_SIDED|95.0|-0.001|0.003||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(linear) to entorhinal SUVR.||0.003|-0.001|.200
92311229|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.00005|STANDARD_ERROR_OF_MEAN|0.00005||0.346|TWO_SIDED|95.0|-0.00005|0.0001||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(quadratic) to entorhinal SUVR.||0.0001|-0.00005|.346
92311230|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.001|STANDARD_ERROR_OF_MEAN|0.001||0.283|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing relationship of age(growth model) to entorhinal SUVR. Growth modeling was performed using SPSS curve estimation.||||.283
92311231|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.001||0.011|TWO_SIDED|95.0|0.0004|0.003||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(linear) to parahippocampal SUVR.||0.003|0.0004|.011
92311232|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.00002|STANDARD_ERROR_OF_MEAN|0.00003||0.536|TWO_SIDED|95.0|-0.00004|0.00009||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(quadratic) to parahippocampal SUVR.||0.00009|-0.00004|.536
92311233|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.001|STANDARD_ERROR_OF_MEAN|0.001||0.013|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(growth model) to parahippocampal SUVR. Growth modeling was performed using SPSS curve estimation.||||.013
92190361|NCT04748445|184279333|OTHER||Slope|0.08365|STANDARD_ERROR_OF_MEAN|2.873||0.0043|TWO_SIDED|90.0|0.03604|0.1313|||Mixed Models Analysis|||EE\_MFCC std 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1313|0.03604|0.0043
92190362|NCT04748445|184279333|OTHER||Slope|0.02906|STANDARD_ERROR_OF_MEAN|1.181||0.0153|TWO_SIDED|90.0|0.009486|0.04863|||Mixed Models Analysis|||EE\_MFCC std 02 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.04863|0.009486|0.0153
92190363|NCT04748445|184279333|OTHER||Slope|3.96|STANDARD_ERROR_OF_MEAN|1.447||0.0071|TWO_SIDED|90.0|1.563|6.357|||Mixed Models Analysis|||EE\_MFCC std 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||6.357|1.563|0.0071
92311234|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.0005|<|0.001|TWO_SIDED|95.0|0.001|0.003||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(linear) to fusiform SUVR.||0.003|0.001|<.001
92190364|NCT04748445|184279333|OTHER||Slope|2.816|STANDARD_ERROR_OF_MEAN|1.026||0.007|TWO_SIDED|90.0|1.115|4.516|||Mixed Models Analysis|||EE\_MFCC std 04 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||4.516|1.115|0.0070
92311235|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.00001|STANDARD_ERROR_OF_MEAN|0.00003||0.692|TWO_SIDED|95.0|-0.00004|0.00006||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(quadratic) to fusiform SUVR.||0.00006|-0.00004|.692
92190365|NCT04748445|184279333|OTHER||Slope|0.007814|STANDARD_ERROR_OF_MEAN|1.034||0.4513|TWO_SIDED|90.0|-0.009323|0.02495|||Mixed Models Analysis|||EE\_MFCC std 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02495|-0.009323|0.4513
92311236|NCT04080544|184523080|OTHER|Null-hypothesis significance test|Slope|0.001|STANDARD_ERROR_OF_MEAN|0.0004|<|0.001|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(growth model) to fusiform SUVR. Growth modeling was performed using SPSS curve estimation.||||<.001
92311237|NCT04080544|184523081|OTHER|Null-hypothesis significance testing|Slope|0.18|STANDARD_ERROR_OF_MEAN|0.18||0.331|TWO_SIDED|95.0|-0.18|0.53||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to inferior temporal gyrus cortical thickness.||0.53|-0.18|.331
92311238|NCT04080544|184523081|OTHER|Null-hypothesis significance testing|Slope|0.07|STANDARD_ERROR_OF_MEAN|0.16||0.636|TWO_SIDED|95.0|-0.24|0.39||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education||Regression testing the relationship between temporal tau SUVR to middle temporal gyrus cortical thickness.||0.39|-0.24|.636
92311239|NCT04080544|184523081|OTHER|Null-hypothesis significance testing|Slope|0.38|STANDARD_ERROR_OF_MEAN|0.16||0.024|TWO_SIDED|95.0|0.05|0.7||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship between temporal tau SUVR to superior temporal gyrus cortical thickness.||0.70|0.05|.024
92311240|NCT04080544|184523081|OTHER|Null-hypothesis significance testing|Slope|-0.27|STANDARD_ERROR_OF_MEAN|0.23||0.235|TWO_SIDED|95.0|-0.73|0.18||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship between temporal tau SUVR to parahippocampal gyrus cortical thickness.||0.18|-0.73|.235
92311241|NCT04080544|184523081|OTHER|Null-hypothesis significance testing|Slope|0.19|STANDARD_ERROR_OF_MEAN|0.41||0.639|TWO_SIDED|95.0|-0.63|1.01||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship between temporal tau SUVR to entorhinal gyrus cortical thickness.||1.01|-0.63|.639
92311242|NCT04080544|184523081|OTHER|Null-hypothesis significance test|Slope|0.19|STANDARD_ERROR_OF_MEAN|0.16||0.252|TWO_SIDED|95.0|-0.13|0.5||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to fusiform gyrus cortical thickness.||0.50|-0.13|.252
92190366|NCT04748445|184279333|OTHER||Slope|1.151|STANDARD_ERROR_OF_MEAN|8.443||0.1753|TWO_SIDED|90.0|-2.483|2.55|||Mixed Models Analysis|||EE\_MFCC std 06 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and estimated value it was 10\^-2. For lower limit and dispersion value it was 10\^-3).||2.550|-2.483|0.1753
92190367|NCT04748445|184279333|OTHER||Slope|2.528|STANDARD_ERROR_OF_MEAN|8.228||0.0026|TWO_SIDED|90.0|1.164|3.891|||Mixed Models Analysis|||EE\_MFCC std 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-2. For dispersion it was 10\^-3).||3.891|1.164|0.0026
92190368|NCT04748445|184279333|OTHER||Slope|0.01755|STANDARD_ERROR_OF_MEAN|7.204||0.0162|TWO_SIDED|90.0|0.005616|0.02949|||Mixed Models Analysis|||EE\_MFCC std 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.02949|0.005616|0.0162
92190369|NCT04748445|184279333|OTHER||Slope|2.673|STANDARD_ERROR_OF_MEAN|5.892|<|0.0001|TWO_SIDED|90.0|1.697|3.65|||Mixed Models Analysis|||EE\_MFCC std 09 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-2. For dispersion value it was 10\^-3).||3.650|1.697|<.0001
92190370|NCT04748445|184279333|OTHER||Slope|0.01394|STANDARD_ERROR_OF_MEAN|5.642||0.0148|TWO_SIDED|90.0|0.004595|0.02329|||Mixed Models Analysis|||EE\_MFCC std 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.02329|0.004595|0.0148
92311243|NCT04080544|184523082|OTHER|Null-hypothesis significance test|Slope|-233.74|STANDARD_ERROR_OF_MEAN|469.31||0.619|TWO_SIDED|95.0|-1163.28|695.79||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to hippocampal volume.||695.79|-1163.28|.619
92311244|NCT04080544|184523083|OTHER|Null-hypothesis significance test|Slope|9260.01|STANDARD_ERROR_OF_MEAN|3836.92||0.017|TWO_SIDED|95.0|1660.52|16859.51||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to volume of white matter hypointensities.||16859.51|1660.52|.017
92311245|NCT04080544|184523084|OTHER|Null-hypothesis significance test|Slope|0.29|STANDARD_ERROR_OF_MEAN|0.35||0.411|TWO_SIDED|95.0|-0.41|0.99||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to activation of inferior frontal gyrus (beta) on the semantic judgment fMRI task.||0.99|-0.41|.411
92190371|NCT04748445|184279333|OTHER||Slope|0.01547|STANDARD_ERROR_OF_MEAN|6.666||0.0219|TWO_SIDED|90.0|0.004425|0.02652|||Mixed Models Analysis|||EE\_MFCC std 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.02652|0.004425|0.0219
92311246|NCT04080544|184523084|OTHER|Null-hypothesis significance test|Slope|0.24|STANDARD_ERROR_OF_MEAN|0.29||0.412|TWO_SIDED|95.0|-0.34|0.81||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to middle temporal gyrus activation (beta) on the semantic judgment fMRI task.||0.81|-0.34|.412
92311247|NCT04080544|184523084|OTHER|Null-hypothesis significance test|Slope|0.31|STANDARD_ERROR_OF_MEAN|0.4||0.438|TWO_SIDED|95.0|-0.48|1.09||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to precuneus gyrus activation (beta) on the semantic judgment fMRI task.||1.09|-0.48|.438
92311248|NCT04080544|184523085|OTHER|Null-hypothesis significance test|Slope|-1.13|STANDARD_ERROR_OF_MEAN|0.5||0.026|TWO_SIDED|95.0|-2.12|-0.14||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to resting-state system segregation.||-0.14|-2.12|.026
92311249|NCT04400682|184523099|EQUIVALENCE|0.80-1.25 margins for equivalence|Mean ratio|1.015||||0|TWO_SIDED|90.0|0.9897|1.041|||ANOVA||||Ln(AUClast) : 0.989- 1.0410|1.0410|0.9897|0.0000
92311250|NCT04400682|184523100|EQUIVALENCE|0.80 - 1.25 equivalence margin is required.|Mean ratio|1.0361||||0.0033|TWO_SIDED|90.0|0.9294|1.1551|||ANOVA||||Ln(Cmax) : 0.9294 - 1.1551|1.1551|0.9294|0.0033
92311251|NCT04400682|184523101|EQUIVALENCE|0.80 - 1.25 equivalence margin is not required.|Mean ratio|1.0108||||0|TWO_SIDED|90.0|0.9856|1.0366|||ANOVA||||Ln(Cmax) : 0.9856 - 1.0366|1.0366|0.9856|0.0000
92311252|NCT03597464|184523104|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|2.3||||0.004|TWO_SIDED|95.0|1.3|4.05|||Regression, Logistic|||Month 12 (AURORA 2 baseline)||4.05|1.30|0.004
92311253|NCT03597464|184523104|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|2.19||||0.006|TWO_SIDED|95.0|1.25|3.83|||Regression, Logistic|||Month 18||3.83|1.25|0.006
92311254|NCT03597464|184523104|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|1.81||||0.035|TWO_SIDED|95.0|1.04|3.16|||Regression, Logistic|||Month 24||3.16|1.04|0.035
92190372|NCT04748445|184279333|OTHER||Slope|1.118|STANDARD_ERROR_OF_MEAN|6.122||0.0703|TWO_SIDED|90.0|1.032|2.132|||Mixed Models Analysis|||EE\_MFCC std 12 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and estimated value it was 10\^-2. For lower limit and dispersion value it was 10\^-3).||2.132|1.032|0.0703
92190373|NCT04748445|184279333|OTHER||Slope|0.0116|STANDARD_ERROR_OF_MEAN|5.226||0.0282|TWO_SIDED|90.0|0.00294|0.02026|||Mixed Models Analysis|||EE\_MFCC std 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.02026|0.002940|0.0282
92190374|NCT04748445|184279333|OTHER||Slope|0.04771|STANDARD_ERROR_OF_MEAN|3.351||0.157|TWO_SIDED|90.0|-0.007823|0.1032|||Mixed Models Analysis|||EE\_SNR (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1032|-0.007823|0.1570
92190375|NCT04748445|184279333|OTHER||Slope|0.0008053|STANDARD_ERROR_OF_MEAN|9.807||0.4131|TWO_SIDED|90.0|-0.0008199|0.002431|||Mixed Models Analysis|||EE\_Shimmer Local dB (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.002431|-0.0008199|0.4131
92190376|NCT04748445|184279333|OTHER||Slope|-0.03945|STANDARD_ERROR_OF_MEAN|1.892||0.0391|TWO_SIDED|90.0|-0.0708|-0.008096|||Mixed Models Analysis|||EE\_Spectral Flatness (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.008096|-0.07080|0.0391
92311255|NCT03597464|184523104|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|2.24||||0.005|TWO_SIDED|95.0|1.28|3.92|||Regression, Logistic|||Month 30||3.92|1.28|0.005
92311256|NCT03597464|184523104|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|1.74||||0.051|TWO_SIDED|95.0|1.0|3.03|||Regression, Logistic|||Month 36||3.03|1.00|0.051
92311257|NCT03597464|184523105|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|3.99|||<|0.001|TWO_SIDED|95.0|1.88|8.46|||Regression, Logistic|||Month 12 (AURORA 2 baseline)||8.46|1.88|<0.001
92311258|NCT03597464|184523105|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|2.5||||0.008|TWO_SIDED|95.0|1.28|4.88|||Regression, Logistic|||Month 18||4.88|1.28|0.008
92190377|NCT04748445|184279333|OTHER||Slope|-0.07075|STANDARD_ERROR_OF_MEAN|8.409||0.4018|TWO_SIDED|90.0|-0.2101|0.0686|||Mixed Models Analysis|||EE\_Third Octave Band (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.06860|-0.2101|0.4018
92311259|NCT03597464|184523105|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|2.68||||0.001|TWO_SIDED|95.0|1.46|4.91|||Regression, Logistic|||Month 24||4.91|1.46|0.001
92311260|NCT03597464|184523105|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|1.86||||0.04|TWO_SIDED|95.0|1.03|3.34|||Regression, Logistic|||Month 30||3.34|1.03|0.040
92311261|NCT03597464|184523105|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|1.39||||0.29|TWO_SIDED|95.0|0.75|2.58|||Regression, Logistic|||Month 36||2.58|0.75|0.290
92311262|NCT03597464|184523106|OTHER||Odds Ratio (OR)|0.56||||0.045|TWO_SIDED|95.0|0.32|0.99|||Regression, Logistic|||Number of subjects with adequate renal response. This model is based on a logistic regression with terms for treatment, baseline urine protein creatinine ratio (UPCR), biopsy class, mycophenolate mofetil (MMF) use at baseline and region. An odds ratio \< unity indicates benefit for voclosporin.||0.99|0.32|0.045
92311263|NCT03597464|184523107|SUPERIORITY||Least Squares Mean difference|-0.8||||0.238|TWO_SIDED|95.0|-2.1|0.5|||Mixed Models Analysis|||Month 18||0.5|-2.1|0.238
92311264|NCT03597464|184523107|SUPERIORITY||Least Squares Mean difference|-0.7||||0.215|TWO_SIDED|95.0|-1.8|0.4|||Mixed Models Analysis|||Month 24||0.4|-1.8|0.215
92311265|NCT03597464|184523107|SUPERIORITY||Least Squares Mean difference|-0.7||||0.246|TWO_SIDED|95.0|-1.8|0.5|||Mixed Models Analysis|||Month 36||0.5|-1.8|0.246
92311266|NCT03597464|184523108|SUPERIORITY||Least Squares Mean difference|-0.65||||0.001|TWO_SIDED|95.0|-1.05|-0.26|||Mixed Models Analysis|||Month 12 (AURORA 2 baseline)||-0.26|-1.05|0.001
92311267|NCT03597464|184523108|SUPERIORITY||Least Squares Mean difference|-0.63||||0.029|TWO_SIDED|95.0|-1.2|-0.07|||Mixed Models Analysis|||Month 18||-0.07|-1.20|0.029
92311268|NCT03597464|184523108|SUPERIORITY||Least Squares Mean difference|-0.77||||0.002|TWO_SIDED|95.0|-1.24|-0.29|||Mixed Models Analysis|||Month 24||-0.29|-1.24|0.002
92311269|NCT03597464|184523108|SUPERIORITY||Least Squares Mean difference|-0.91||||0.002|TWO_SIDED|95.0|-1.49|-0.33|||Mixed Models Analysis|||Month 30||-0.33|-1.49|0.002
92311270|NCT03597464|184523108|SUPERIORITY||Least Squares Mean difference|-0.48||||0.106|TWO_SIDED|95.0|-1.06|-0.1|||Mixed Models Analysis|||Month 36||-0.10|-1.06|0.106
92311271|NCT03597464|184523109|SUPERIORITY||Least Squares Mean difference|-2.7||||0.041|TWO_SIDED|95.0|-5.3|-0.1|||Mixed Models Analysis|||Month 12 (AURORA 2 baseline)||-0.1|-5.3|0.041
92311272|NCT03597464|184523109|SUPERIORITY||Least Squares Mean difference|-1.8||||0.292|TWO_SIDED|95.0|-5.1|1.6|||Mixed Models Analysis|||Month 18||1.6|-5.1|0.292
92311273|NCT03597464|184523109|SUPERIORITY||Least Squares Mean difference|-2.2||||0.282|TWO_SIDED|95.0|-6.1|1.8|||Mixed Models Analysis|||Month 24||1.8|-6.1|0.282
92311274|NCT03597464|184523109|SUPERIORITY||Least Squares Mean difference|0.9||||0.659|TWO_SIDED|95.0|-3.2|5.1|||Mixed Models Analysis|||Month 30||5.1|-3.2|0.659
92311275|NCT03597464|184523109|SUPERIORITY||Least Squares Mean difference|1.8||||0.438|TWO_SIDED|95.0|-2.8|6.4|||Mixed Models Analysis|||Month 36||6.4|-2.8|0.438
92311276|NCT03597464|184523110|SUPERIORITY||Least Squares Mean difference|-67.7||||0.002|TWO_SIDED|95.0|-110.4|-25.1|||Mixed Models Analysis|||Month 12 (AURORA 2 baseline)||-25.1|-110.4|0.002
92311277|NCT03597464|184523110|SUPERIORITY||Least Squares Mean difference|-87.7||||0.007|TWO_SIDED|95.0|-151.2|-24.2|||Mixed Models Analysis|||Month 18||-24.2|-151.2|0.007
92311278|NCT03597464|184523110|SUPERIORITY||Least Squares Mean difference|-47.0||||0.035|TWO_SIDED|95.0|-90.8|-3.3|||Mixed Models Analysis|||Month 24||-3.3|-90.8|0.035
92311279|NCT03597464|184523110|SUPERIORITY||Least Squares Mean difference|-73.1||||0.005|TWO_SIDED|95.0|-123.5|-22.6|||Mixed Models Analysis|||Month 30||-22.6|-123.5|0.005
92190378|NCT04748445|184279333|OTHER||Slope|1.658|STANDARD_ERROR_OF_MEAN|3.607||0.6466|TWO_SIDED|90.0|-4.319|7.635|||Mixed Models Analysis|||EE\_VLHR (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||7.635|-4.319|0.6466
92311280|NCT03597464|184523110|SUPERIORITY||Least Squares Mean difference|-19.0||||0.537|TWO_SIDED|95.0|-79.7|41.7|||Mixed Models Analysis|||Month 36||41.7|-79.7|0.537
92311281|NCT03597464|184523111|SUPERIORITY||Least Squares Mean difference|0.084|||<|0.001|TWO_SIDED|95.0|0.035|0.134|||Mixed Models Analysis|||Month 12 (AURORA 2 baseline)||0.134|0.035|<0.001
92311282|NCT03597464|184523111|SUPERIORITY||Least Squares Mean difference|0.051||||0.209|TWO_SIDED|95.0|-0.029|0.131|||Mixed Models Analysis|||Month 18||0.131|-0.029|0.209
92311283|NCT03597464|184523111|SUPERIORITY||Least Squares Mean difference|0.057||||0.353|TWO_SIDED|95.0|-0.064|0.178|||Mixed Models Analysis|||Month 24||0.178|-0.064|0.353
92311284|NCT03597464|184523111|SUPERIORITY||Least Squares Mean difference|-0.036||||0.616|TWO_SIDED|95.0|-0.176|0.105|||Mixed Models Analysis|||Month 30||0.105|-0.176|0.616
92311285|NCT03597464|184523111|SUPERIORITY||Least Squares Mean difference|-0.077||||0.372|TWO_SIDED|95.0|-0.248|0.094|||Mixed Models Analysis|||Month 36||0.094|-0.248|0.372
92311286|NCT01753297|184523167|OTHER|||||||0.158|||||||Log Rank|||A two-sided log-rank test was used to compare time to BRFS between both treatment groups.|Analysis on BRFS was based on 61 BR events (comprised of 35 BR events in the active surveillance arm and 26 BR events in the triptorelin arm).|||0.158
92311287|NCT01753297|184523167|OTHER||Hazard Ratio (HR)|0.65||||0.1|TWO_SIDED|95.0|0.38|1.09|||Regression, Cox|||"Comparison between treatment groups: Triptorelin compared to Active surveillance.~A Cox proportional hazard model was fitted to compute hazards ratios (HRs) and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||1.09|0.38|0.100
92311288|NCT01753297|184523167|OTHER||Hazard Ratio (HR)|1.49||||0.502|TWO_SIDED|95.0|0.46|4.79|||Regression, Cox|||"Comparison between countries: Russia compared to China.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."|Interactions effect between treatment group and each covariate (country, centre(country) and Gleason score) were tested one by one in separate models. An interaction effect was considered as significant if p-value was \<0.20. Interaction between treatment group and country: p=0.970.|4.79|0.46|0.502
92311289|NCT01753297|184523167|OTHER|||||||0.671|||||||Regression, Cox|||"Centre effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."|Interactions effect between treatment group and each covariate (country, centre(country) and Gleason score) were tested one by one in separate models. An interaction effect was considered as significant if p-value was \<0.20. Interaction between treatment group and centre: p=0.241.|||0.671
92311290|NCT01753297|184523167|OTHER||Hazard Ratio (HR)|2.35||||0.093|TWO_SIDED|95.0|0.87|6.39|||Regression, Cox|||"Comparison between Gleason score categories: Gleason score of =7 compared to Gleason score ≤6.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."|Interactions effect between treatment group and each covariate (country, centre(country) and Gleason score) were tested one by one in separate models. An interaction effect was considered as significant if p-value was \<0.20. Interaction between treatment group and Gleason score: p=0.272.|6.39|0.87|0.093
92311291|NCT01753297|184523167|OTHER||Hazard Ratio (HR)|2.03||||0.168|TWO_SIDED|95.0|0.74|5.55|||Regression, Cox|||"Comparison between Gleason score categories: Gleason score of ≥8 compared to Gleason score ≤6.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||5.55|0.74|0.168
92311292|NCT01753297|184523169|OTHER|||||||0.639|||||||Log Rank|||A two-sided log-rank test was used to compare time to EFS between both treatment groups.|Analysis was based on 2 EFS events in the active surveillance arm and 3 EFS events in the triptorelin arm.|||0.639
92311293|NCT01753297|184523169|OTHER||Hazard Ratio (HR)|1.52||||0.653|TWO_SIDED|95.0|0.24|9.59|||Regression, Cox|||"Comparison between treatment groups: Triptorelin compared to Active surveillance.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||9.59|0.24|0.653
92311294|NCT01753297|184523169|OTHER|||||||0.999|||||||Regression, Cox|||"Country effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||0.999
92311295|NCT01753297|184523169|OTHER|||||||1|||||||Regression, Cox|||"Centre effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||1.000
92311296|NCT01753297|184523169|OTHER|||||||0.583|||||||Regression, Cox|||"Gleason score effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||0.583
92311297|NCT01753297|184523171|OTHER|||||||0.557|||||||Log Rank|||A two-sided log-rank test was used to compare time to OS between both treatment groups.|1 death occurred in the active surveillance arm and 2 deaths occurred in the triptorelin arm.|||0.557
92311298|NCT01753297|184523174|OTHER|||||||0.525|||||||Log Rank|||A two-sided log-rank test was used to compare PSADT between both treatment groups.|Analysis was based on 9 PSADT events in the active surveillance arm and 6 PSADT events in the triptorelin arm.|||0.525
92311299|NCT01753297|184523174|OTHER||Hazard Ratio (HR)|1.72||||0.435|TWO_SIDED|95.0|0.44|6.73|||Regression, Cox|||"Comparison between treatment groups: Triptorelin compared to Active surveillance.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||6.73|0.44|0.435
92190379|NCT04748445|184279333|OTHER||Slope|1.172|STANDARD_ERROR_OF_MEAN|1.423||0.4118|TWO_SIDED|90.0|-1.186|3.53|||Mixed Models Analysis|||MM\_Cepstral Peak Prominence (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||3.530|-1.186|0.4118
92190380|NCT04748445|184279333|OTHER||Slope|-1.282|STANDARD_ERROR_OF_MEAN|1.965||0.9481|TWO_SIDED|90.0|-3.385|3.129|||Mixed Models Analysis|||MM\_Harmonicity (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-3).||3.129|-3.385|0.9481
92311300|NCT01753297|184523174|OTHER|||||||0.761|||||||Regression, Cox|||"Country effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||0.761
92190381|NCT04748445|184279333|OTHER||Slope|0.9159|STANDARD_ERROR_OF_MEAN|2.641||0.0007|TWO_SIDED|90.0|0.4783|1.354|||Mixed Models Analysis|||MM\_MFCC mean 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||1.354|0.4783|0.0007
92190382|NCT04748445|184279333|OTHER||Slope|-2.18|STANDARD_ERROR_OF_MEAN|1.894||0.2519|TWO_SIDED|90.0|-5.319|9.585|||Mixed Models Analysis|||MM\_MFCC mean 02 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-1. For upper limit it was 10\^-2).||9.585|-5.319|0.2519
92190383|NCT04748445|184279333|OTHER||Slope|1.821|STANDARD_ERROR_OF_MEAN|1.028||0.0791|TWO_SIDED|90.0|1.166|3.524|||Mixed Models Analysis|||MM\_MFCC mean 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-1. For lower limit it was 10\^-2).||3.524|1.166|0.0791
92190384|NCT04748445|184279333|OTHER||Slope|-0.2064|STANDARD_ERROR_OF_MEAN|8.474||0.0163|TWO_SIDED|90.0|-0.3468|-0.06599|||Mixed Models Analysis|||MM\_MFCC mean 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.06599|-0.3468|0.0163
92190385|NCT04748445|184279333|OTHER||Slope|-1.265|STANDARD_ERROR_OF_MEAN|9.67||0.1932|TWO_SIDED|90.0|-2.867|3.375|||Mixed Models Analysis|||MM\_MFCC mean 05 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and dispersion value it was 10\^-2. For lower limit and estimated value it was 10\^-1).||3.375|-2.867|0.1932
92311301|NCT01753297|184523174|OTHER|||||||0.652|||||||Regression, Cox|||"Centre effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||0.652
92311302|NCT01753297|184523174|OTHER|||||||0.726|||||||Regression, Cox|||"Gleason score effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||0.726
92311303|NCT00794339|184523212|EQUIVALENCE|equivalence margin=0||||||0.4883|||||||Wilcoxon (Mann-Whitney)|||Participants were divided into two groups by whether their T/M Ratio fell at or above vs. below the observed median of 7.3 and the the median survival was compared between the 2 groups.||||0.4883
92311304|NCT00794339|184523213|EQUIVALENCE|no equivalence margin|Slope|-0.1235|STANDARD_ERROR_OF_MEAN|1.6988||0.1924|TWO_SIDED||||||Regression, Logistic|||Logistic Regression Modeling Complete Metabolic Response by T/M Ratio||||0.1924
92311305|NCT00794339|184523214|EQUIVALENCE|equivalence margin = 0||||||0.309|||||||Wilcoxon (Mann-Whitney)|||Participants were divided into two groups: those at or above the median for T/M Ratio (7.3) vs. those below, and the time to primary tumor recurrence was compared between the 2 goups.||||0.3090
92311306|NCT00794339|184523215|EQUIVALENCE|equivalence margin=0||||||0.5291|||||||Regression, Logistic|||Logistic Regression Evaluating Tissue to Muscle (T/M) uptake ratio as a Predictor of PELVIC Lymph Node Metastases at Baseline||||0.5291
92311307|NCT00794339|184523215|EQUIVALENCE|equivalence margin=0||||||0.9684|||||||Regression, Logistic|||Logistic Regression Evaluating Tissue to Muscle (T/M) uptake Ratio as a Predictor of COMMON ILIAC Lymph Node Metastases at Baseline||||0.9684
92311308|NCT00794339|184523215|EQUIVALENCE|equivalence margin=0||||||0.7327|||||||Regression, Logistic|||Logistic Regression Evaluating Tissue to Muscle (T/M) uptake Ratio as a Predictor of Para Aortic Lymph Node Metastases at Baseline||||0.7327
92311309|NCT00794339|184523225|EQUIVALENCE|equivalence margin=0||||||0.4981|||||||Wilcoxon (Mann-Whitney)|||Participants were divided into two groups by whether their T/M Ratio fell at or above vs. below the observed median of 7.3 and the time to observe new distant metastases was compared between the groups||||.4981
92190386|NCT04748445|184279333|OTHER||Slope|0.02851|STANDARD_ERROR_OF_MEAN|9.96||0.7752|TWO_SIDED|90.0|-0.1365|0.1936|||Mixed Models Analysis|||MM\_MFCC mean 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1936|-0.1365|0.7752
92190387|NCT04748445|184279333|OTHER||Slope|1.209|STANDARD_ERROR_OF_MEAN|7.569||0.1126|TWO_SIDED|90.0|-4.48|2.464|||Mixed Models Analysis|||MM\_MFCC mean 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and estimated value it was 10\^-1. For lower limit it was 10\^-3. For dispersion value it was 10\^-2).||2.464|-4.480|0.1126
92190388|NCT04748445|184279333|OTHER||Slope|-0.2215|STANDARD_ERROR_OF_MEAN|8.498||0.0102|TWO_SIDED|90.0|-0.3624|-0.08072|||Mixed Models Analysis|||MM\_MFCC mean 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.08072|-0.3624|0.0102
92190389|NCT04748445|184279333|OTHER||Slope|0.0556|STANDARD_ERROR_OF_MEAN|7.072||0.4332|TWO_SIDED|90.0|-0.06159|0.1728|||Mixed Models Analysis|||MM\_MFCC mean 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1728|-0.06159|0.4332
92190390|NCT04748445|184279333|OTHER||Slope|0.01214|STANDARD_ERROR_OF_MEAN|6.19||0.8448|TWO_SIDED|90.0|-0.09044|0.1147|||Mixed Models Analysis|||MM\_MFCC mean 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1147|-0.09044|0.8448
92190391|NCT04748445|184279333|OTHER||Slope|-0.1106|STANDARD_ERROR_OF_MEAN|4.852||0.0244|TWO_SIDED|90.0|-0.191|-0.03016|||Mixed Models Analysis|||MM\_MFCC mean 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.03016|-0.1910|0.0244
92311310|NCT01931878|184523229|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED||||||t-test, 2 sided|||comparison of mean RLS Scale scores between 21 incoA and 21 saline injections||||0.031
92311311|NCT01931878|184523230|SUPERIORITY_OR_OTHER|||||||0.0088|TWO_SIDED||||||Fisher Exact|||||||0.0088
92311312|NCT01931878|184523231|SUPERIORITY_OR_OTHER|||||||0.0855|TWO_SIDED||||||Fisher Exact|||||||0.0855
92311313|NCT00789035|184523257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.74|-0.29||No formal testing so adjustment for multiple comparisons was not necessary.|ANCOVA|Based on ANCOVA with terms for baseline, treatment, number of previous anti-diabetic medications and country.|Difference calculated as empa 5mg minus placebo|||-0.29|-0.74|<0.0001
92311314|NCT00789035|184523257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.8|-0.35||No formal testing so adjustment for multiple comparisons was not necessary.|ANCOVA|Based on ANCOVA with terms for baseline, treatment, number of previous anti-diabetic medications and country.|Difference calculated as empa 10mg minus placebo|||-0.35|-0.80|<0.0001
92311315|NCT00789035|184523257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.94|-0.5||No formal testing so adjustment for multiple comparisons was not necessary.|ANCOVA|Based on ANCOVA with terms for baseline, treatment, number of previous anti-diabetic medications and country.|Difference calculated as empa 25mg minus placebo|||-0.50|-0.94|<0.0001
92190392|NCT04748445|184279333|OTHER||Slope|-0.04884|STANDARD_ERROR_OF_MEAN|4.827||0.3136|TWO_SIDED|90.0|-0.1288|0.03115|||Mixed Models Analysis|||MM\_MFCC mean 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.03115|-0.1288|0.3136
92311316|NCT00295061|184523392|NON_INFERIORITY_OR_EQUIVALENCE|A total sample size of 20 subjects could demonstrate comparability of an AUC(0-7days) with 90% power up to a standard deviation of 0.288 of the difference in the log scale, expected mean treatment difference of 0 (= ratio of 1), a lower equivalence limit of -0.223 (= log 0.8), upper limit of 0.223 (= log 1.25) and a one-sided alpha of 0.05 (90% CI).|Geometric least square means ratio|1.03||||||90.0|0.97|1.09||||||To compare AUC 0-7 days between the two treatments (Alpha-1 MP vs. Prolastin),natural log-transformed AUC 0-7 days values were analyzed by analysis of variance (ANOVA).||1.09|0.97|
92311317|NCT00711880|184523396|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.96||||0.004|TWO_SIDED|95.0|-1.59|-0.32|||ANCOVA|||The change in Numerical Rating Scale Peripheral Neuropathic Pain scores was compared between treatment groups using analysis of covariance (ANCOVA). The model included treatment and centre as factors and baseline Numerical Rating Scale Peripheral Neuropathic Pain score as a covariate.||-0.32|-1.59|0.004
92311318|NCT00711880|184523397|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-8.03||||0.007|TWO_SIDED|95.0|-13.83|-2.23|||ANCOVA|||The change in Neuropathic Pain Scale scores was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Neuropathic Pain Scale score as a covariate.||-2.23|-13.83|0.007
92190393|NCT04748445|184279333|OTHER||Slope|0.036|STANDARD_ERROR_OF_MEAN|5.634||0.524|TWO_SIDED|90.0|-0.05736|0.1294|||Mixed Models Analysis|||MM\_MFCC mean 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1294|-0.05736|0.5240
92190394|NCT04748445|184279333|OTHER||Slope|2.909|STANDARD_ERROR_OF_MEAN|3.096||0.3493|TWO_SIDED|90.0|-2.222|8.039|||Mixed Models Analysis|||MM\_MFCC std 01 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||8.039|-2.222|0.3493
92190395|NCT04748445|184279333|OTHER||Slope|1.72|STANDARD_ERROR_OF_MEAN|2.595||0.5087|TWO_SIDED|90.0|-2.58|6.019|||Mixed Models Analysis|||MM\_MFCC std 02 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||6.019|-2.580|0.5087
92190396|NCT04748445|184279333|OTHER||Slope|0.004403|STANDARD_ERROR_OF_MEAN|1.503||0.7701|TWO_SIDED|90.0|-0.02051|0.02931|||Mixed Models Analysis|||MM\_MFCC std 03 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02931|-0.02051|0.7701
92190397|NCT04748445|184279333|OTHER||Slope|0.007542|STANDARD_ERROR_OF_MEAN|1.639||0.6461|TWO_SIDED|90.0|-0.01961|0.0347|||Mixed Models Analysis|||MM\_MFCC std 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.03470|-0.01961|0.6461
92190398|NCT04748445|184279333|OTHER||Slope|2.386|STANDARD_ERROR_OF_MEAN|8.233||0.0044|TWO_SIDED|90.0|1.022|3.75|||Mixed Models Analysis|||MM\_MFCC std 05 (The statistical data given below have (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-2. For dispersion value it was 10\^-3).||3.750|1.022|0.0044
92190399|NCT04748445|184279333|OTHER||Slope|1.593|STANDARD_ERROR_OF_MEAN|1.243||0.2022|TWO_SIDED|90.0|-4.663|3.652|||Mixed Models Analysis|||MM\_MFCC std 06 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-2. For lower limit it was 10\^-3).||3.652|-4.663|0.2022
92190400|NCT04748445|184279333|OTHER||Slope|0.002902|STANDARD_ERROR_OF_MEAN|1.082||0.789|TWO_SIDED|90.0|-0.01503|0.02084|||Mixed Models Analysis|||MM\_MFCC std 07 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02084|-0.01503|0.7890
92190401|NCT04748445|184279333|OTHER||Slope|1.615|STANDARD_ERROR_OF_MEAN|1.118||0.151|TWO_SIDED|90.0|-2.371|3.467|||Mixed Models Analysis|||MM\_MFCC std 08 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-2. For lower limit it was 10\^-3).||3.467|-2.371|0.1510
92190402|NCT04748445|184279333|OTHER||Slope|1.116|STANDARD_ERROR_OF_MEAN|1.104||0.3138|TWO_SIDED|90.0|-7.126|2.945|||Mixed Models Analysis|||MM\_MFCC std 09 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-2. For lower limit it was 10\^-3).||2.945|-7.126|0.3138
92190403|NCT04748445|184279333|OTHER||Slope|-0.002168|STANDARD_ERROR_OF_MEAN|9.632||0.8223|TWO_SIDED|90.0|-0.01813|0.01379|||Mixed Models Analysis|||MM\_MFCC std 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.01379|-0.01813|0.8223
92190404|NCT04748445|184279333|OTHER||Slope|1.394|STANDARD_ERROR_OF_MEAN|1.081||0.1997|TWO_SIDED|90.0|-3.978|3.185|||Mixed Models Analysis|||MM\_MFCC std 11 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-2. For lower limit it was 10\^-3).||3.185|-3.978|0.1997
92190405|NCT04748445|184279333|OTHER||Slope|0.01375|STANDARD_ERROR_OF_MEAN|6.622||0.0398|TWO_SIDED|90.0|0.00278|0.02473|||Mixed Models Analysis|||MM\_MFCC std 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.02473|0.002780|0.0398
92190406|NCT04748445|184279333|OTHER||Slope|-0.002892|STANDARD_ERROR_OF_MEAN|1.205||0.8107|TWO_SIDED|90.0|-0.02286|0.01707|||Mixed Models Analysis|||MM\_MFCC std 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.01707|-0.02286|0.8107
92190407|NCT04748445|184279333|OTHER||Slope|-3.105|STANDARD_ERROR_OF_MEAN|3.256||0.9242|TWO_SIDED|90.0|-5.706|5.085|||Mixed Models Analysis|||MM\_SNR (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-3).||5.085|-5.706|0.9242
92190408|NCT04748445|184279333|OTHER||Slope|0.0006145|STANDARD_ERROR_OF_MEAN|9.704||0.5277|TWO_SIDED|90.0|-0.0009936|0.002223|||Mixed Models Analysis|||MM\_Shimmer Local dB (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.002223|-0.0009936|0.5277
92190409|NCT04748445|184279333|OTHER||Slope|-2.911|STANDARD_ERROR_OF_MEAN|1.969||0.1418|TWO_SIDED|90.0|-6.174|3.522|||Mixed Models Analysis|||MM\_Spectral Flatness (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-2. For upper limit it was 10\^-3).||3.522|-6.174|0.1418
92190410|NCT04748445|184279333|OTHER||Slope|-0.1487|STANDARD_ERROR_OF_MEAN|8.77||0.0924|TWO_SIDED|90.0|-0.294|-0.003375|||Mixed Models Analysis|||MM\_Third Octave Band (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.003375|-0.2940|0.0924
92190411|NCT04748445|184279333|OTHER||Slope|3.089|STANDARD_ERROR_OF_MEAN|3.396||0.9277|TWO_SIDED|90.0|-5.318|5.936|||Mixed Models Analysis|||MM\_VLHR (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-3).||5.936|-5.318|0.9277
92190412|NCT04748445|184279333|OTHER||Slope|0.8362|STANDARD_ERROR_OF_MEAN|2.077|<|0.0001|TWO_SIDED|90.0|0.492|1.18|||Mixed Models Analysis|||READ\_MFCC mean 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||1.180|0.4920|<.0001
92190413|NCT04748445|184279333|OTHER||Slope|0.03559|STANDARD_ERROR_OF_MEAN|1.147||0.7568|TWO_SIDED|90.0|-0.1545|0.2256|||Mixed Models Analysis|||READ\_MFCC mean 02 (The statistical data given below have (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||0.2256|-0.1545|0.7568
92311319|NCT00711880|184523398|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.43||||0.001|TWO_SIDED|95.0|-0.67|-0.19|||ANCOVA|||The change in sleep disturbance scores was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline sleep disturbance score as a covariate.||-0.19|-0.67|0.001
92311320|NCT00711880|184523399|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-5.85||||0.003|TWO_SIDED|95.0|-9.62|-2.09|||ANCOVA|||The change in total Pain Disability Index scores was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline total Pain Disability Index score as a covariate.||-2.09|-9.62|0.003
92311321|NCT00711880|184523400|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.82||||0.042|TWO_SIDED|95.0|-1.6|-0.03|||ANCOVA|||The change in Dynamic Allodynia Test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline Dynamic Allodynia Test score as a covariate.||-0.03|-1.60|0.042
92311322|NCT00711880|184523401|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|12.73||||0.144|TWO_SIDED|95.0|-4.4|29.85|||ANCOVA|||The change in Static Allodynia Test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline Static Allodynia Test score as a covariate.||29.85|-4.40|0.144
92311323|NCT00711880|184523402|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.75||||0.483|TWO_SIDED|95.0|-2.84|1.35|||ANCOVA|||The change in total General Health Questionnaire score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline total General Health Questionnaire score as a covariate.||1.35|-2.84|0.483
92311324|NCT00711880|184523403|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.02||||0.924|TWO_SIDED|95.0|-0.46|0.5|||ANCOVA|||The change in selective reminding test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline selective reminding test score as a covariate.||0.50|-0.46|0.924
92311325|NCT00711880|184523404|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.53||||0.214|TWO_SIDED|95.0|-0.31|1.38|||ANCOVA|||The change in 10/36 spatial recall test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline 10/36 spatial recall test score as a covariate.||1.38|-0.31|0.214
92311326|NCT00711880|184523405|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.15||||0.158|TWO_SIDED|95.0|-5.15|0.85|||ANCOVA|||The change in symbol digit modalities test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline symbol digit modalities test score as a covariate.||0.85|-5.15|0.158
92311327|NCT00711880|184523406|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|1.28||||0.656|TWO_SIDED|95.0|-4.47|7.04|||ANCOVA|||The change in paced auditory serial addition task score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline paced auditory serial addition task test score as a covariate.||7.04|-4.47|0.656
92190414|NCT04748445|184279333|OTHER||Slope|0.2043|STANDARD_ERROR_OF_MEAN|7.752||0.0095|TWO_SIDED|90.0|0.07585|0.3328|||Mixed Models Analysis|||READ\_MFCC mean 03 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.3328|0.07585|0.0095
92190415|NCT04748445|184279333|OTHER||Slope|-0.0828|STANDARD_ERROR_OF_MEAN|6.413||0.1991|TWO_SIDED|90.0|-0.1891|0.02348|||Mixed Models Analysis|||READ\_MFCC mean 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02348|-0.1891|0.1991
92190416|NCT04748445|184279333|OTHER||Slope|-0.02415|STANDARD_ERROR_OF_MEAN|5.26||0.6469|TWO_SIDED|90.0|-0.1113|0.06301|||Mixed Models Analysis|||READ\_MFCC mean 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.06301|-0.1113|0.6469
92311328|NCT00711880|184523407|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.08||||0.962|TWO_SIDED|95.0|-3.56|3.39|||ANCOVA|||The change in word list generation test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline word list generation test score as a covariate.||3.39|-3.56|0.962
92311329|NCT00711880|184523408|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|32.26|||<|0.001|TWO_SIDED|95.0|16.4|48.12|||Fisher Exact|||The proportion of subjects who considered their condition 'Very Much Improved', 'Much Improved' or 'Minimally Improved' was compared between treatment groups for each question, using Fisher's Exact Test.||48.12|16.40|<0.001
92311330|NCT00711880|184523410|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|29.03||||0.001||95.0|13.39|44.67|||Fisher Exact|||The proportion of subjects who considered their condition 'Very Much Improved', 'Much Improved' or 'Minimally Improved' was compared between treatment groups for each question, using Fisher's Exact Test.||44.67|13.39|0.001
92311331|NCT00704132|184523412|SUPERIORITY_OR_OTHER||Difference in Least-Squares Mean|-111.0|||<|0.001||95.0|-158.0|-63.9|||ANCOVA||Sitagliptin minus Placebo|||-63.9|-158.0|<0.001
92311332|NCT04238650|184523424|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.04|||||TWO_SIDED|90.0|0.981|1.11||||||||1.11|0.981|
92311333|NCT04238650|184523425|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25. The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.13|||||TWO_SIDED|90.0|1.03|1.24||||||||1.24|1.03|
92311334|NCT04238650|184523426|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUClast was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.05|||||TWO_SIDED|90.0|0.997|1.11||||||||1.11|0.997|
92190417|NCT04748445|184279333|OTHER||Slope|-0.1209|STANDARD_ERROR_OF_MEAN|4.904||0.015|TWO_SIDED|90.0|-0.2022|-0.03967|||Mixed Models Analysis|||READ\_MFCC mean 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.03967|-0.2022|0.0150
92311335|NCT02585778|184523517|SUPERIORITY||LS Mean Difference|-47.8|||<|0.0001|TWO_SIDED|95.0|-60.7|-35.0||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-35.0|-60.7|<0.0001
92311336|NCT02585778|184523517|SUPERIORITY||LS Mean Difference|-49.0|||<|0.0001|TWO_SIDED|95.0|-54.4|-43.6||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-43.6|-54.4|<0.0001
92311337|NCT02585778|184523519|SUPERIORITY||LS Mean Difference|-50.6|||<|0.0001|TWO_SIDED|95.0|-63.4|-37.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level. Hierarchical testing procedure was followed for T1DM and T2DM participants separately.||-37.9|-63.4|<0.0001
92311338|NCT02585778|184523519|SUPERIORITY||LS Mean Difference|-51.6|||<|0.0001|TWO_SIDED|95.0|-56.9|-46.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-46.4|-56.9|<0.0001
92311339|NCT02585778|184523520|SUPERIORITY||LS Mean Difference|-48.4|||<|0.0001|TWO_SIDED|95.0|-61.2|-35.5||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-35.5|-61.2|<0.0001
92311340|NCT02585778|184523520|SUPERIORITY||LS Mean Difference|-45.7|||<|0.0001|TWO_SIDED|95.0|-50.9|-40.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-40.4|-50.9|<0.0001
92311341|NCT02585778|184523521|SUPERIORITY||LS Mean Difference|-44.8|||<|0.0001|TWO_SIDED|95.0|-56.9|-32.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-32.8|-56.9|<0.0001
92311342|NCT02585778|184523521|SUPERIORITY||LS Mean Difference|-50.2|||<|0.0001|TWO_SIDED|95.0|-55.2|-45.3||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-45.3|-55.2|<0.0001
92311343|NCT02585778|184523522|SUPERIORITY||LS Mean Difference|-42.7|||<|0.0001|TWO_SIDED|95.0|-54.9|-30.5||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-30.5|-54.9|<0.0001
92311344|NCT02585778|184523522|SUPERIORITY||LS Mean Difference|-44.1|||<|0.0001|TWO_SIDED|95.0|-49.0|-39.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-39.2|-49.0|<0.0001
92311345|NCT02585778|184523523|SUPERIORITY||LS Mean Difference|-42.7|||<|0.0001|TWO_SIDED|95.0|-54.2|-31.3||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-31.3|-54.2|<0.0001
92311346|NCT02585778|184523523|SUPERIORITY||LS Mean Difference|-38.7|||<|0.0001|TWO_SIDED|95.0|-43.4|-33.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-33.9|-43.4|<0.0001
92311347|NCT02585778|184523524|SUPERIORITY||LS Mean Difference|-39.0|||<|0.0001|TWO_SIDED|95.0|-49.4|-28.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-28.7|-49.4|<0.0001
92311348|NCT02585778|184523524|SUPERIORITY||LS Mean Difference|-36.7|||<|0.0001|TWO_SIDED|95.0|-40.9|-32.5||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-32.5|-40.9|<0.0001
92311349|NCT02585778|184523525|SUPERIORITY||LS Mean Difference|-29.2|||<|0.0001|TWO_SIDED|95.0|-37.8|-20.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-20.7|-37.8|<0.0001
92190418|NCT04748445|184279333|OTHER||Slope|0.02617|STANDARD_ERROR_OF_MEAN|4.639||0.5736|TWO_SIDED|90.0|-0.0507|0.103|||Mixed Models Analysis|||READ\_MFCC mean 07 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1030|-0.05070|0.5736
92190419|NCT04748445|184279333|OTHER||Slope|-0.07305|STANDARD_ERROR_OF_MEAN|4.267||0.0894|TWO_SIDED|90.0|-0.1438|-0.002335|||Mixed Models Analysis|||READ\_MFCC mean 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.002335|-0.1438|0.0894
92190420|NCT04748445|184279333|OTHER||Slope|-2.369|STANDARD_ERROR_OF_MEAN|4.428||0.5936|TWO_SIDED|90.0|-9.706|4.968|||Mixed Models Analysis|||READ\_MFCC mean 09 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||4.968|-9.706|0.5936
92190421|NCT04748445|184279333|OTHER||Slope|-0.07377|STANDARD_ERROR_OF_MEAN|3.339||0.029|TWO_SIDED|90.0|-0.1291|-0.01844|||Mixed Models Analysis|||READ\_MFCC mean 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.01844|-0.1291|0.0290
92311350|NCT02585778|184523525|SUPERIORITY||LS Mean Difference|-27.6|||<|0.0001|TWO_SIDED|95.0|-31.2|-24.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-24.1|-31.2|<0.0001
92311351|NCT02585778|184523526|SUPERIORITY||Odds Ratio (OR)|117.0|||<|0.0001|TWO_SIDED|95.0|13.1|1041.8||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||1041.8|13.1|<0.0001
92311352|NCT02585778|184523526|SUPERIORITY||Odds Ratio (OR)|84.6|||<|0.0001|TWO_SIDED|95.0|36.5|196.1||Threshold for significance at 0.05 level|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||196.1|36.5|<0.0001
92311353|NCT02585778|184523527|SUPERIORITY||Odds Ratio (OR)|52.9|||<|0.0001|TWO_SIDED|95.0|16.6|168.3||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||168.3|16.6|<0.0001
92311354|NCT02585778|184523528|SUPERIORITY||Odds Ratio (OR)|33.2|||<|0.0001|TWO_SIDED|95.0|8.0|137.4||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||137.4|8.0|<0.0001
92311355|NCT02585778|184523528|SUPERIORITY||Odds Ratio (OR)|27.1|||<|0.0001|TWO_SIDED|95.0|14.2|51.5||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||51.5|14.2|<0.0001
92311356|NCT02585778|184523529|SUPERIORITY||Odds Ratio (OR)|55.5||||0.0002|TWO_SIDED|95.0|6.5|473.7||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||473.7|6.5|0.0002
92311357|NCT02585778|184523529|SUPERIORITY||Odds Ratio (OR)|103.3|||<|0.0001|TWO_SIDED|95.0|24.6|433.1||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||433.1|24.6|<0.0001
92311358|NCT02585778|184523530|SUPERIORITY||Adjusted Mean Difference|-18.7||||0.0039|TWO_SIDED|95.0|-31.4|-6.0||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-6.0|-31.4|0.0039
92311359|NCT02585778|184523530|SUPERIORITY||Adjusted Mean Difference|-18.4|||<|0.0001|TWO_SIDED|95.0|-23.7|-13.2||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-13.2|-23.7|<0.0001
92311360|NCT02585778|184523531|SUPERIORITY||LS Mean Difference|3.9||||0.3434|TWO_SIDED|95.0|-4.2|12.0||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||12.0|-4.2|0.3434
92311361|NCT02585778|184523531|SUPERIORITY||LS Mean Difference|4.4||||0.01|TWO_SIDED|95.0|1.1|7.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||7.7|1.1|0.0100
92190422|NCT04748445|184279333|OTHER||Slope|0.008703|STANDARD_ERROR_OF_MEAN|3.665||0.8127|TWO_SIDED|90.0|-0.05203|0.06944|||Mixed Models Analysis|||READ\_MFCC mean 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.06944|-0.05203|0.8127
92190423|NCT04748445|184279333|OTHER||Slope|-0.07414|STANDARD_ERROR_OF_MEAN|3.294||0.0262|TWO_SIDED|90.0|-0.1287|-0.01955|||Mixed Models Analysis|||READ\_MFCC mean 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.01955|-0.1287|0.0262
92190424|NCT04748445|184279333|OTHER||Slope|2.929|STANDARD_ERROR_OF_MEAN|2.705||0.2809|TWO_SIDED|90.0|-1.553|7.412|||Mixed Models Analysis|||READ\_MFCC mean 13 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||7.412|-1.553|0.2809
92311362|NCT02585778|184523532|SUPERIORITY||Adjusted Mean Difference|-5.7||||0.0902|TWO_SIDED|95.0|-12.3|0.9||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||0.9|-12.3|0.0902
92311363|NCT05246670|184523546|SUPERIORITY||Mean Difference (Final Values)|2.21|||||TWO_SIDED|95.0|-1.33|5.74||||||||5.74|-1.33|
92311364|NCT05246670|184523546|SUPERIORITY||Mean Difference (Final Values)|0.09|||||TWO_SIDED|95.0|-5.23|5.41||||||||5.41|-5.23|
92311365|NCT05246670|184523546|SUPERIORITY||Mean Difference (Final Values)|2.11|||||TWO_SIDED|95.0|-2.87|7.09||||||||7.09|-2.87|
92311366|NCT05124691|184523585|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||pairwise comparisons of cure rates within the three study groups, considering an overall significance level of 0.05. To account for multiple testing, a Bonferroni correction was applied, resulting in an adjusted significance level of 0.0167||||<0.0001
92311367|NCT05124691|184523585|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Pairwise comparisons of cure rates within the three study groups, considering an overall significance level of 0.05. To account for multiple testing, a Bonferroni correction was applied, resulting in an adjusted significance level of 0.0167||||<0.0001
92311368|NCT05124691|184523585|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Pairwise comparisons of cure rates within the three study groups, considering an overall significance level of 0.05. To account for multiple testing, a Bonferroni correction was applied, resulting in an adjusted significance level of 0.0167||||<0.0001
92311369|NCT05124691|184523588|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||Pairwise comparisons of cure rates were conducted between Albendazole and FDCx3, as well as FDCx1 and FDCx3, but not between Albendazole and FDCx1, since both contain the same dose regimen of the active drug. An overall significance level of 0.05 was considered, and to account for multiple testing, a Bonferroni correction was applied.||||<0.0001
92311370|NCT05124691|184523588|SUPERIORITY||||||=|0.0007|||||||Cochran-Mantel-Haenszel|||Pairwise comparisons of cure rates were conducted between Albendazole and FDCx3, as well as FDCx1 and FDCx3, but not between Albendazole and FDCx1, since both contain the same dose regimen of the active drug. An overall significance level of 0.05 was considered, and to account for multiple testing, a Bonferroni correction was applied.||||=0.0007
92311371|NCT05124691|184523591|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
92311372|NCT05124691|184523591|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92311373|NCT05124691|184523591|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92311374|NCT01044264|184523608|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|BE of the test to reference in the per protocol population|Wilcoxon Rank Sum Test|100.0|||||TWO_SIDED|90.0|92.47|113.54|||Wilcoxon Rank Sum Test|||||113.54|92.47|
92311375|NCT05147324|184523622|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
92311376|NCT05147324|184523623|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
92311377|NCT05147324|184523631|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92311378|NCT02714426|184523632|OTHER|||||||0.024||||||A priori threshold for statistical significance was set at p \< .05. No adjustment was made for multiple comparisons. The critical effect of interest evaluated here was the Linear Occasion (1-14) x Group (Brain Health vs. Mindfulness) interaction.|Mixed Models Analysis|F(1,33) = 5.57, p = .024, no adjustments.||Mixed effects models were used. Independent variables were linear and quadratic time/occasion, intervention group, and group-by-time interactions if appropriate. Preparatory to modeling, preliminary unconditional models were run to determine best fitting approaches for repeated and random covariance structures. First-order Autoregressive was best (which specifies homogeneous variance over time but allows one correlation between occasions).||||.024
92311379|NCT02714426|184523633|OTHER|||||||0.333||||||A priori threshold for statistical significance was set at p \< .05. No adjustment was made for multiple comparisons. The critical effect of interest evaluated here was the Linear Occasion (1-14) x Group (Brain Health vs. Mindfulness) interaction.|Mixed Models Analysis|F(1,34) = 0.96, p = .333, no adjustments.||Mixed effects models were used. Independent variables were linear and quadratic time/occasion, intervention group, and group-by-time interactions if appropriate. Preparatory to modeling, preliminary unconditional models were run to determine best fitting approaches for repeated and random covariance structures. Diagonal repeated covariance was best (heterogeneous variance over time, and no residual cross-time covariances).||||0.333
92311380|NCT02714426|184523635|OTHER|||||||0.001||||||A priori threshold for statistical significance was set at p \< .05. No adjustment was made for multiple comparisons. The critical effect of interest evaluated here was the Linear Occasion (1-8) x Group (Brain Health vs. Mindfulness) interaction.|Mixed Models Analysis|F(1,31.069) = 15.046, p = .001, no adjustments.||Mixed effects models were used. Independent variables were linear and quadratic time/occasion, intervention group, and group-by-time interactions if appropriate. Preparatory to modeling, preliminary unconditional models were run to determine best fitting approaches for repeated and random covariance structures. Diagonal repeated covariance was best (heterogeneous variance over time, and no residual cross-time covariances).||||0.001
92311381|NCT02714426|184523636|OTHER|||||||0.448||||||A priori threshold for statistical significance was set at p \< .05. No adjustment was made for multiple comparisons. The critical effect of interest evaluated here was the Linear Occasion (1-14) x Group (Brain Health vs. Mindfulness) interaction.|Mixed Models Analysis|F(1,34) = 0.589, p = .0.448, no adjustments.||Mixed effects models were used. Independent variables were linear and quadratic time/occasion, intervention group, and group-by-time interactions if appropriate. Preparatory to modeling, preliminary unconditional models were run to determine best fitting approaches for repeated and random covariance structures. Diagonal repeated covariance was best (heterogeneous variance over time, and no residual cross-time covariances).||||0.448
92311382|NCT02714426|184523637|OTHER|||||||0.439||||||A priori threshold for statistical significance was set at p \< .05. No adjustment was made for multiple comparisons. The critical effect of interest evaluated here was the Linear Occasion (1-14) x Group (Brain Health vs. Mindfulness) interaction.|Mixed Models Analysis|F(1,31) = 0.616, p = 0.439, no adjustments.||Mixed effects models were used. Independent variables were linear and quadratic time/occasion, intervention group, and group-by-time interactions if appropriate. Preparatory to modeling, preliminary unconditional models were run to determine best fitting approaches for repeated and random covariance structures. Diagonal repeated covariance was best (heterogeneous variance over time, and no residual cross-time covariances).||||0.439
92190425|NCT04748445|184279333|OTHER||Slope|-2.717|STANDARD_ERROR_OF_MEAN|6.612|<|0.0001|TWO_SIDED|90.0|-3.812|-1.621|||Mixed Models Analysis|||READ\_MFCC std 01 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-1. For dispersion value it was 10\^-2).||-1.621|-3.812|<.0001
92311383|NCT01727726|184523638|OTHER||Mean Difference (Final Values)|-1.48||||0.0078|TWO_SIDED|95.0|-2.56|-0.39|||Cochran-Mantel-Haenszel|Mixed-model repeated measures (MMRM)||||-0.39|-2.56|0.0078
92311384|NCT01727726|184523638|OTHER||Mean Difference (Final Values)|-0.3||||0.6642|TWO_SIDED|95.0|-1.63|1.04|||Cochran-Mantel-Haenszel|Mixed-model repeated measures (MMRM)||||1.04|-1.63|0.6642
92311385|NCT01727726|184523639|OTHER||Mean Difference (Final Values)|-0.23||||0.1334|TWO_SIDED|95.0|-0.52|0.07|||MMRM|Mixed-model repeated measures (MMRM)||||0.07|-0.52|0.1334
92311386|NCT01727726|184523639|OTHER||Mean Difference (Final Values)|0.42||||0.0237|TWO_SIDED|95.0|0.06|0.78|||MMRM|Mixed-model repeated measures (MMRM)||||0.78|0.06|0.0237
92190426|NCT04748445|184279333|OTHER||Slope|-0.05798|STANDARD_ERROR_OF_MEAN|2.961||0.0524|TWO_SIDED|90.0|-0.107|-0.008915|||Mixed Models Analysis|||READ\_MFCC std 02 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.008915|-0.1070|0.0524
92311387|NCT01727726|184523640|OTHER||Mean Difference (Final Values)|-1.53||||0.0001|TWO_SIDED|95.0|-2.29|-0.76|||MMRM|Mixed-model repeated measures (MMRM)||Phase B week 2||-0.76|-2.29|0.0001
92311388|NCT01727726|184523640|OTHER||Mean Difference (Final Values)|-1.22||||0.0103|TWO_SIDED|95.0|-2.15|-0.29|||MMRM|Mixed-model repeated measures (MMRM)||Phase B Week 2||-0.29|-2.15|0.0103
92311389|NCT01727726|184523640|OTHER||Mean Difference (Final Values)|-1.17||||0.0185|TWO_SIDED|95.0|-2.15|-0.2|||MMRM|Mixed-model repeated measures (MMRM)||Phase B week 4||-0.20|-2.15|0.0185
92311390|NCT01727726|184523640|OTHER||Mean Difference (Final Values)|-0.08||||0.8949|TWO_SIDED|95.0|-1.27|1.11|||MMRM|Mixed-model repeated measures (MMRM)||Phase B Week 4||1.11|-1.27|0.8949
92311391|NCT01727726|184523641|OTHER||Mean Difference (Final Values)|-0.15||||0.035|TWO_SIDED|95.0|-0.29|-0.01|||Cochran-Mantel-Haenszel|||CGI-Severity of Illness Scale Score||-0.01|-0.29|0.0350
92190427|NCT04748445|184279333|OTHER||Slope|-1.008|STANDARD_ERROR_OF_MEAN|1.778||0.5716|TWO_SIDED|90.0|-3.955|1.938|||Mixed Models Analysis|||READ\_MFCC std 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||1.938|-3.955|0.5716
92190428|NCT04748445|184279333|OTHER||Slope|-0.0223|STANDARD_ERROR_OF_MEAN|1.193||0.064|TWO_SIDED|90.0|-0.04208|-0.002526|||Mixed Models Analysis|||READ\_MFCC std 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.002526|-0.04208|0.0640
92190429|NCT04748445|184279333|OTHER||Slope|-1.336|STANDARD_ERROR_OF_MEAN|1.176||0.2584|TWO_SIDED|90.0|-3.285|6.138|||Mixed Models Analysis|||READ\_MFCC std 05 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-2. For upper limit it was 10\^-3).||6.138|-3.285|0.2584
92311392|NCT01727726|184523641|OTHER||Mean Difference (Final Values)|-0.05||||0.5601|TWO_SIDED|95.0|-0.22|0.12|||Cochran-Mantel-Haenszel|||CGI-Severity of Illness Scale Score||0.12|-0.22|0.5601
92311393|NCT01727726|184523641|OTHER||Mean Difference (Final Values)|-0.19||||0.0146|TWO_SIDED|95.0|-0.35|-0.04|||Cochran-Mantel-Haenszel|||CGI-Improvement Scale Score||-0.04|-0.35|0.0146
92190430|NCT04748445|184279333|OTHER||Slope|-0.006497|STANDARD_ERROR_OF_MEAN|1.413||0.6465|TWO_SIDED|90.0|-0.02992|0.01692|||Mixed Models Analysis|||READ\_MFCC std 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.01692|-0.02992|0.6465
92190431|NCT04748445|184279333|OTHER||Slope|-1.213|STANDARD_ERROR_OF_MEAN|7.7||0.1177|TWO_SIDED|90.0|-2.489|6.297|||Mixed Models Analysis|||READ\_MFCC std 07 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit and estimated value it was 10\^-2. For dispersion value it was 10\^-3 and for upper limit it was 10\^-4).||6.297|-2.489|0.1177
92190432|NCT04748445|184279333|OTHER||Slope|-0.007959|STANDARD_ERROR_OF_MEAN|9.743||0.4155|TWO_SIDED|90.0|-0.02411|0.008187|||Mixed Models Analysis|||READ\_MFCC std 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.008187|-0.02411|0.4155
92311394|NCT01727726|184523641|OTHER||Mean Difference (Final Values)|-0.04||||0.7127|TWO_SIDED|95.0|-0.23|0.15|||Cochran-Mantel-Haenszel|||CGI-Improvement Scale Score||0.15|-0.23|0.7127
92311395|NCT01727726|184523642|OTHER||Ratio of response rate|1.49||||0.2242|TWO_SIDED|95.0|0.78|2.84|||Cochran-Mantel-Haenszel|||Phase B Week 6||2.84|0.78|0.2242
92190433|NCT04748445|184279333|OTHER||Slope|-0.004137|STANDARD_ERROR_OF_MEAN|8.017||0.6067|TWO_SIDED|90.0|-0.01742|0.009148|||Mixed Models Analysis|||READ\_MFCC std 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.009148|-0.01742|0.6067
92190434|NCT04748445|184279333|OTHER||Slope|0.000376|STANDARD_ERROR_OF_MEAN|7.531||0.9603|TWO_SIDED|90.0|-0.0121|0.01286|||Mixed Models Analysis|||READ\_MFCC std 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.01286|-0.01210|0.9603
92311396|NCT01727726|184523642|OTHER||Ratio of Response Rate|1.26||||0.5998|TWO_SIDED|95.0|0.53|2.98|||Cochran-Mantel-Haenszel|||Phase B Week 6||2.98|0.53|0.5998
92311397|NCT01727726|184523643|OTHER||Ratio of Response Rate|1.52||||0.3321|TWO_SIDED|95.0|0.66|3.49|||Cochran-Mantel-Haenszel|||Phase B Week 6||3.49|0.66|0.3321
92311398|NCT01727726|184523643|OTHER||Ratio of Response Rate|0.51||||0.3917|TWO_SIDED|95.0|0.11|2.46|||Cochran-Mantel-Haenszel|||Phase B Week 6||2.46|0.11|0.3917
92311399|NCT01727726|184523644|OTHER||Ratio of Response Rate|1.35||||0.0032|TWO_SIDED|95.0|1.1|1.66|||Cochran-Mantel-Haenszel|||Phase B Week 6||1.66|1.10|0.0032
92190435|NCT04748445|184279333|OTHER||Slope|-0.002185|STANDARD_ERROR_OF_MEAN|5.703||0.7022|TWO_SIDED|90.0|-0.01164|0.007265|||Mixed Models Analysis|||READ\_MFCC std 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.007265|-0.01164|0.7022
92190436|NCT04748445|184279333|OTHER||Slope|0.007716|STANDARD_ERROR_OF_MEAN|5.746||0.1818|TWO_SIDED|90.0|-0.001806|0.01724|||Mixed Models Analysis|||READ\_MFCC std 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.01724|-0.001806|0.1818
92190437|NCT04748445|184279333|OTHER||Slope|-0.004019|STANDARD_ERROR_OF_MEAN|6.419||0.5324|TWO_SIDED|90.0|-0.01466|0.006618|||Mixed Models Analysis|||READ\_MFCC std 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.006618|-0.01466|0.5324
92311400|NCT01727726|184523644|OTHER||Ratio of Response Rate|1.24||||0.0898|TWO_SIDED|95.0|0.98|1.59|||Cochran-Mantel-Haenszel|||Phase B Week 6||1.59|0.98|0.0898
92311401|NCT01727726|184523646|OTHER||Mean Difference (Final Values)|0.16||||0.448|TWO_SIDED|95.0|-0.25|0.56|||MMRM|Mixed-model repeated measures (MMRM)||Work/School Score||0.56|-0.25|0.4480
92311402|NCT01727726|184523646|OTHER||Mean Difference (Final Values)|0.52||||0.038|TWO_SIDED|95.0|0.03|1.02|||MMRM|Mixed-model repeated measures (MMRM)||Work/School Score||1.02|0.03|0.0380
92311403|NCT01727726|184523646|OTHER||Mean Difference (Final Values)|-0.34||||0.0436|TWO_SIDED|95.0|-0.66|-0.01|||MMRM|Mixed-model repeated measures (MMRM)||Social Life Score||-0.01|-0.66|0.0436
92311404|NCT01727726|184523646|OTHER||Mean Difference (Final Values)|0.43||||0.035|TWO_SIDED|95.0|0.03|0.84|||MMRM|Mixed-model repeated measures (MMRM)||Social Life Score||0.84|0.03|0.0350
92190438|NCT04748445|184279333|OTHER||Slope|0.005103|STANDARD_ERROR_OF_MEAN|2.737||0.8524|TWO_SIDED|90.0|-0.04025|0.05046|||Mixed Models Analysis|||READ\_SNR (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.05046|-0.04025|0.8524
92190439|NCT04748445|184279334|OTHER||Slope|2.975|STANDARD_ERROR_OF_MEAN|3.383||0.3809|TWO_SIDED|90.0|-2.631|8.58|||Mixed Models Analysis|||EE\_Coefficient of Variation F0 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4.||8.580|-2.631|0.3809
92190440|NCT04748445|184279334|OTHER||Slope|-0.005601|STANDARD_ERROR_OF_MEAN|2.751||0.0438|TWO_SIDED|90.0|-0.01016|-0.001043|||Mixed Models Analysis|||EE\_MFCC 1st order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3.||-0.001043|-0.01016|0.0438
92190441|NCT04748445|184279334|OTHER||Slope|4.12|STANDARD_ERROR_OF_MEAN|1.464||0.0057|TWO_SIDED|90.0|1.694|6.546|||Mixed Models Analysis|||EE\_MFCC 1st order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-3.||6.546|1.694|0.0057
92190442|NCT04748445|184279334|OTHER||Slope|-3.067|STANDARD_ERROR_OF_MEAN|1.053||0.0042|TWO_SIDED|90.0|-4.811|-1.323|||Mixed Models Analysis|||EE\_MFCC 1st order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-3.||-1.323|-4.811|0.0042
92190443|NCT04748445|184279334|OTHER||Slope|2.78|STANDARD_ERROR_OF_MEAN|9.751||0.0051|TWO_SIDED|90.0|1.164|4.396|||Mixed Models Analysis|||EE\_MFCC 1st order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-3. For dispersion value it was 10\^-4).||4.396|1.164|0.0051
92190444|NCT04748445|184279334|OTHER||Slope|-1.324|STANDARD_ERROR_OF_MEAN|8.289||0.1128|TWO_SIDED|90.0|-2.698|4.973|||Mixed Models Analysis|||EE\_MFCC 1st order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit and estimated value it was 10\^-3. For upper limit it was 10\^-5 and for dispersion value it was 10\^-4).||4.973|-2.698|0.1128
92190445|NCT04748445|184279334|OTHER||Slope|-0.0002606|STANDARD_ERROR_OF_MEAN|9.707||0.7888|TWO_SIDED|90.0|-0.001869|0.001348|||Mixed Models Analysis|||EE\_MFCC 1st order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001348|-0.001869|0.7888
92190446|NCT04748445|184279334|OTHER||Slope|-0.0005071|STANDARD_ERROR_OF_MEAN|7.593||0.5055|TWO_SIDED|90.0|-0.001765|0.0007512|||Mixed Models Analysis|||EE\_MFCC 1st order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0007512|-0.001765|0.5055
92190447|NCT04748445|184279334|OTHER||Slope|0.0003067|STANDARD_ERROR_OF_MEAN|6.273||0.6257|TWO_SIDED|90.0|-0.0007328|0.001346|||Mixed Models Analysis|||EE\_MFCC 1st order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001346|-0.0007328|0.6257
92190448|NCT04748445|184279334|OTHER||Slope|-0.001649|STANDARD_ERROR_OF_MEAN|7.998||0.0413|TWO_SIDED|90.0|-0.002974|-0.0003238|||Mixed Models Analysis|||EE\_MFCC 1st order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0003238|-0.002974|0.0413
92190449|NCT04748445|184279334|OTHER||Slope|0.0008236|STANDARD_ERROR_OF_MEAN|7.053||0.2451|TWO_SIDED|90.0|-0.0003452|0.001992|||Mixed Models Analysis|||EE\_MFCC 1st order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001992|-0.0003452|0.2451
92311405|NCT01727726|184523646|OTHER||Mean Difference (Final Values)|-0.35||||0.0424|TWO_SIDED|95.0|-0.69|-0.01|||MMRM|Mixed-model repeated measures (MMRM)||Family Life Score||-0.01|-0.69|0.0424
92190450|NCT04748445|184279334|OTHER||Slope|-0.000292|STANDARD_ERROR_OF_MEAN|6.839||0.6702|TWO_SIDED|90.0|-0.001425|0.0008413|||Mixed Models Analysis|||EE\_MFCC 1st order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0008413|-0.001425|0.6702
92190451|NCT04748445|184279334|OTHER||Slope|-0.0003363|STANDARD_ERROR_OF_MEAN|6.312||0.5951|TWO_SIDED|90.0|-0.001382|0.0007097|||Mixed Models Analysis|||EE\_MFCC 1st order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0007097|-0.001382|0.5951
92190452|NCT04748445|184279334|OTHER||Slope|0.0007281|STANDARD_ERROR_OF_MEAN|5.677||0.202|TWO_SIDED|90.0|-0.0002126|0.001669|||Mixed Models Analysis|||EE\_MFCC 1st order delta 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001669|-0.0002126|0.2020
92311406|NCT01727726|184523646|OTHER||Mean Difference (Final Values)|0.33||||0.123|TWO_SIDED|95.0|-0.09|0.75|||MMRM|Mixed-model repeated measures (MMRM)||Family Life Score||0.75|-0.09|0.1230
92190453|NCT04748445|184279334|OTHER||Slope|0.0005153|STANDARD_ERROR_OF_MEAN|1.523||0.7356|TWO_SIDED|90.0|-0.002008|0.003038|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.003038|-0.002008|0.7356
92190454|NCT04748445|184279334|OTHER||Slope|-0.00133|STANDARD_ERROR_OF_MEAN|6.782||0.0522|TWO_SIDED|90.0|-0.002453|-0.0002057|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0002057|-0.002453|0.0522
92190455|NCT04748445|184279334|OTHER||Slope|-0.000156|STANDARD_ERROR_OF_MEAN|6.763||0.818|TWO_SIDED|90.0|-0.001277|0.0009647|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0009647|-0.001277|0.8180
92190456|NCT04748445|184279334|OTHER||Slope|-0.0000971|STANDARD_ERROR_OF_MEAN|6.18||0.8754|TWO_SIDED|90.0|-0.001121|0.000927|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4.||0.0009270|-0.001121|0.8754
92190457|NCT04748445|184279334|OTHER||Slope|0.000452|STANDARD_ERROR_OF_MEAN|5.576||0.4192|TWO_SIDED|90.0|-0.0004721|0.001376|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001376|-0.0004721|0.4192
92311407|NCT01595386|184523682|NON_INFERIORITY_OR_EQUIVALENCE|Study sample size was powered to detect a 60% difference in LCOS between groups at α 0.05 and β 0.70, assuming the prevalence of LCOS after neonatal bypass of 65% (based on retrospective data of patients who died, required rescue steroids, ECMO, or epinephrine \> 0.1 μg/kg/min).||||||0.049|TWO_SIDED|||||A p-value of \<0.05 represents the threshold for statistical significance.|t-test, 2 sided|||||||0.049
92311408|NCT01595386|184523683|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.44|TWO_SIDED|95.0|||||Chi-squared|||||||0.44
92311409|NCT01595386|184523684|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.62|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.62
92311410|NCT01595386|184523685|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
92311411|NCT01595386|184523685|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.01|TWO_SIDED|95.0||||interleukin-6 at 12, 24, and 48 hour. A p-value of \<0.05 is the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||<0.01
92311412|NCT01595386|184523685|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.01|TWO_SIDED|95.0||||TNF-alpha at 12, 24, and 48 hours.A p-value of \<0.05 is the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||<0.01
92311413|NCT01595386|184523685|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.05|TWO_SIDED|95.0||||Interleukin1-beta at 24 and 48 hours.A p-value of \<0.05 is the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||<0.05
92311414|NCT01595386|184523685|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.05|TWO_SIDED|95.0||||Interleukin-8 at 24 and 48 hours.A p-value of \<0.05 is the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||<0.05
92311415|NCT01595386|184523685|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic||||||0.03|TWO_SIDED|95.0||||IL-10 at 4 hours.A p-value of \<0.05 is the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.03
92311416|NCT01595386|184523686|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.|||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
92311417|NCT01595386|184523687|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.04|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.04
92190458|NCT04748445|184279334|OTHER||Slope|-0.0001528|STANDARD_ERROR_OF_MEAN|5.586||0.7849|TWO_SIDED|90.0|-0.001079|0.0007729|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0007729|-0.001079|0.7849
92311418|NCT01595386|184523688|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.03|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
92311419|NCT01595386|184523689|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.7|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7
92311420|NCT01595386|184523690|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.76|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.76
92190459|NCT04748445|184279334|OTHER||Slope|-5.254|STANDARD_ERROR_OF_MEAN|4.217||0.901|TWO_SIDED|90.0|-7.513|6.463|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-4. For estimated value it was 10\^-5).||6.463|-7.513|0.9010
92190460|NCT04748445|184279334|OTHER||Slope|-0.0004591|STANDARD_ERROR_OF_MEAN|3.83||0.2329|TWO_SIDED|90.0|-0.001094|0.0001755|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0001755|-0.001094|0.2329
92190461|NCT04748445|184279334|OTHER||Slope|0.0007046|STANDARD_ERROR_OF_MEAN|3.687||0.0583|TWO_SIDED|90.0|0.00009366|0.001315|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001315|0.00009366|0.0583
92311421|NCT01595386|184523691|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.23|TWO_SIDED|95.0|||||Fisher Exact|||||||0.23
92311422|NCT01595386|184523692|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.|||||<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||||||<0.05
92190462|NCT04748445|184279334|OTHER||Slope|-1.564|STANDARD_ERROR_OF_MEAN|3.606||0.6654|TWO_SIDED|90.0|-7.54|4.413|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||4.413|-7.540|0.6654
92311423|NCT01595386|184523692|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.001|TWO_SIDED|95.0||||post-operative cortisol.A p-value of \<0.05 is the threshold for statistical significance.|Fisher Exact|||||||<0.001
92311424|NCT01595386|184523692|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic||||||0.004|TWO_SIDED|95.0||||Adrenal Insufficiency after bypass.A p-value of \<0.05 is the threshold for statistical significance.|Fisher Exact|||||||0.004
92311425|NCT01595386|184523692|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic||||||0.02|TWO_SIDED|95.0||||Development of Low cardiac output syndrome in subjects with Adrenal Insufficiency.A p-value of \<0.05 is the threshold for statistical significance.|Fisher Exact|||||||0.02
92311426|NCT04784533|184523739|SUPERIORITY||Difference in percentages|16.2|||||TWO_SIDED|95.0|5.5|26.8|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 12||26.8|5.5|
92311427|NCT04784533|184523739|SUPERIORITY||Difference in percentages|12.1|||||TWO_SIDED|95.0|1.3|22.9|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 16||22.9|1.3|
92311428|NCT04784533|184523739|SUPERIORITY||Difference in percentages|26.4|||||TWO_SIDED|95.0|15.4|37.5|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 20||37.5|15.4|
92311429|NCT04784533|184523739|SUPERIORITY||Difference in percentages|19.9|||||TWO_SIDED|95.0|8.5|31.3|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 24||31.3|8.5|
92311430|NCT04784533|184523740|SUPERIORITY||Difference in percentages|0.6|||||TWO_SIDED|95.0|-2.7|3.9|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 8||3.9|-2.7|
92311431|NCT04784533|184523740|SUPERIORITY||Difference in percentages|10.6|||||TWO_SIDED|95.0|3.3|17.9|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 12||17.9|3.3|
92311432|NCT04784533|184523740|SUPERIORITY||Difference in percentages|14.0|||||TWO_SIDED|95.0|5.3|22.8|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 16||22.8|5.3|
92190463|NCT04748445|184279334|OTHER||Slope|0.00006573|STANDARD_ERROR_OF_MEAN|2.81||0.8154|TWO_SIDED|90.0|-0.0003998|0.0005313|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0005313|-0.0003998|0.8154
92190464|NCT04748445|184279334|OTHER||Slope|-0.0004071|STANDARD_ERROR_OF_MEAN|3.664||0.2687|TWO_SIDED|90.0|-0.001014|0.0002001|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0002001|-0.001014|0.2687
92190465|NCT04748445|184279334|OTHER||Slope|2.799|STANDARD_ERROR_OF_MEAN|3.317||0.4005|TWO_SIDED|90.0|-2.698|8.296|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 13 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||8.296|-2.698|0.4005
92190466|NCT04748445|184279334|OTHER||Slope|1.123|STANDARD_ERROR_OF_MEAN|1.676||0.504|TWO_SIDED|90.0|-1.654|3.901|||Mixed Models Analysis|||MM\_Coefficient of Variation F0 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||3.901|-1.654|0.5040
92311433|NCT04784533|184523740|SUPERIORITY||Difference in percentages|19.4|||||TWO_SIDED|95.0|9.2|29.5|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 20||29.5|9.2|
92190467|NCT04748445|184279334|OTHER||Slope|0.00007586|STANDARD_ERROR_OF_MEAN|2.882||0.979|TWO_SIDED|90.0|-0.004701|0.004852|||Mixed Models Analysis|||MM\_MFCC 1st order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.004852|-0.004701|0.9790
92190468|NCT04748445|184279334|OTHER||Slope|0.0008249|STANDARD_ERROR_OF_MEAN|1.815||0.6503|TWO_SIDED|90.0|-0.002183|0.003833|||Mixed Models Analysis|||MM\_MFCC 1st order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.003833|-0.002183|0.6503
92190469|NCT04748445|184279334|OTHER||Slope|-1.188|STANDARD_ERROR_OF_MEAN|1.322||0.3705|TWO_SIDED|90.0|-3.379|1.003|||Mixed Models Analysis|||MM\_MFCC 1st order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-3).||1.003|-3.379|0.3705
92190470|NCT04748445|184279334|OTHER||Slope|-0.0007258|STANDARD_ERROR_OF_MEAN|1.101||0.5111|TWO_SIDED|90.0|-0.002551|0.001099|||Mixed Models Analysis|||MM\_MFCC 1st order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.001099|-0.002551|0.5111
92190471|NCT04748445|184279334|OTHER||Slope|-0.001326|STANDARD_ERROR_OF_MEAN|7.555||0.0816|TWO_SIDED|90.0|-0.002578|-0.0000744|||Mixed Models Analysis|||MM\_MFCC 1st order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0000744|-0.002578|0.0816
92311434|NCT04784533|184523740|SUPERIORITY||Difference in percentages|20.8|||||TWO_SIDED|95.0|9.8|31.7|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 24||31.7|9.8|
92190472|NCT04748445|184279334|OTHER||Slope|0.0005502|STANDARD_ERROR_OF_MEAN|1.056||0.6034|TWO_SIDED|90.0|-0.0012|0.002301|||Mixed Models Analysis|||MM\_MFCC 1st order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.002301|-0.001200|0.6034
92190473|NCT04748445|184279334|OTHER||Slope|-0.0004691|STANDARD_ERROR_OF_MEAN|7.305||0.522|TWO_SIDED|90.0|-0.00168|0.0007415|||Mixed Models Analysis|||MM\_MFCC 1st order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0007415|-0.001680|0.5220
92311435|NCT04784533|184523741|SUPERIORITY||Least Square (LS) Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|95.0|-2.8|1.8|||||LS means,standard error(SE),and confidence intervals(CIs) are based on mixed model repeated measures(MMRM)analysis with effects for treatment,visit,treatment-by-visit interaction,and baseline value.The Model uses an unstructured covariance structure.|Week 4||1.8|-2.8|
92311436|NCT04784533|184523741|SUPERIORITY||LS Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|2.32|||TWO_SIDED|95.0|-11.9|-2.7|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 8||-2.7|-11.9|
92190474|NCT04748445|184279334|OTHER||Slope|-0.00153|STANDARD_ERROR_OF_MEAN|7.82||0.0526|TWO_SIDED|90.0|-0.002826|-0.0002344|||Mixed Models Analysis|||MM\_MFCC 1st order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0002344|-0.002826|0.0526
92190475|NCT04748445|184279334|OTHER||Slope|0.0004166|STANDARD_ERROR_OF_MEAN|7.294||0.5689|TWO_SIDED|90.0|-0.000792|0.001625|||Mixed Models Analysis|||MM\_MFCC 1st order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001625|-0.0007920|0.5689
92190476|NCT04748445|184279334|OTHER||Slope|-0.002112|STANDARD_ERROR_OF_MEAN|7.299||0.0045|TWO_SIDED|90.0|-0.003321|-0.000902|||Mixed Models Analysis|||MM\_MFCC 1st order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0009020|-0.003321|0.0045
92311437|NCT04784533|184523741|SUPERIORITY||LS Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-19.3|-5.5|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 12||-5.5|-19.3|
92311438|NCT04784533|184523741|SUPERIORITY||LS Mean Difference|-14.6|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|-22.2|-6.9|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 16||-6.9|-22.2|
92311439|NCT04784533|184523741|SUPERIORITY||LS Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-23.7|-7.2|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 20||-7.2|-23.7|
92311440|NCT04784533|184523741|SUPERIORITY||LS Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|4.36|||TWO_SIDED|95.0|-24.0|-6.8|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 24||-6.8|-24.0|
92311441|NCT04784533|184523742|SUPERIORITY||Difference in percentages|20.9|||||TWO_SIDED|95.0|9.9|31.8|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 12||31.8|9.9|
92311442|NCT04784533|184523742|SUPERIORITY||Difference in percentages|13.8|||||TWO_SIDED|95.0|2.5|25.2|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 16||25.2|2.5|
92311443|NCT04784533|184523742|SUPERIORITY||Difference in percentages|15.6|||||TWO_SIDED|95.0|4.1|27.0|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 20||27.0|4.1|
92311444|NCT04784533|184523742|SUPERIORITY||Difference in percentages|14.4|||||TWO_SIDED|95.0|2.9|25.9|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 24||25.9|2.9|
92311445|NCT04784533|184523743|SUPERIORITY||Difference in percentages|22.9|||||TWO_SIDED|95.0|11.9|34.0|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 12||34.0|11.9|
92311446|NCT04784533|184523743|SUPERIORITY||Difference in percentages|21.9|||||TWO_SIDED|95.0|10.7|33.1|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 16||33.1|10.7|
92190477|NCT04748445|184279334|OTHER||Slope|-0.0007706|STANDARD_ERROR_OF_MEAN|7.494||0.3058|TWO_SIDED|90.0|-0.002013|0.0004713|||Mixed Models Analysis|||MM\_MFCC 1st order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0004713|-0.002013|0.3058
92190478|NCT04748445|184279334|OTHER||Slope|0.0002388|STANDARD_ERROR_OF_MEAN|6.494||0.7137|TWO_SIDED|90.0|-0.0008374|0.001315|||Mixed Models Analysis|||MM\_MFCC 1st order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001315|-0.0008374|0.7137
92311447|NCT04784533|184523743|SUPERIORITY||Difference in percentages|22.6|||||TWO_SIDED|95.0|11.2|33.9|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 20||33.9|11.2|
92311448|NCT04784533|184523743|SUPERIORITY||Difference in percentages|19.5|||||TWO_SIDED|95.0|8.1|31.0|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 24||31.0|8.1|
92311449|NCT04784533|184523744|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.9|-0.3|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 12||-0.3|-0.9|
92190479|NCT04748445|184279334|OTHER||Slope|0.0002121|STANDARD_ERROR_OF_MEAN|6.877||0.7583|TWO_SIDED|90.0|-0.0009275|0.001352|||Mixed Models Analysis|||MM\_MFCC 1st order delta 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001352|-0.0009275|0.7583
92190480|NCT04748445|184279334|OTHER||Slope|-2.784|STANDARD_ERROR_OF_MEAN|1.667||0.0974|TWO_SIDED|90.0|-5.547|-2.155|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit it was 10\^-5. For lower limit, estimated value and dispersion value it was 10\^-3).||-2.155|-5.547|0.0974
92190481|NCT04748445|184279334|OTHER||Slope|-1.368|STANDARD_ERROR_OF_MEAN|9.117||0.881|TWO_SIDED|90.0|-1.648|1.374|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and lower limit it was 10\^-3. For estimated value and dispersion value it was 10\^-4).||1.374|-1.648|0.8810
92311450|NCT04784533|184523744|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-1.1|-0.4|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 16||-0.4|-1.1|
92311451|NCT04784533|184523744|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|-1.2|-0.4|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 20||-0.4|-1.2|
92311452|NCT04784533|184523744|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-1.2|-0.3|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 24||-0.3|-1.2|
92190482|NCT04748445|184279334|OTHER||Slope|-0.001551|STANDARD_ERROR_OF_MEAN|6.294||0.0151|TWO_SIDED|90.0|-0.002594|-0.0005077|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0005077|-0.002594|0.0151
92190483|NCT04748445|184279334|OTHER||Slope|0.00184|STANDARD_ERROR_OF_MEAN|7.343||0.0135|TWO_SIDED|90.0|0.0006233|0.003057|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.003057|0.0006233|0.0135
92190484|NCT04748445|184279334|OTHER||Slope|0.00129|STANDARD_ERROR_OF_MEAN|5.029||0.0115|TWO_SIDED|90.0|0.0004563|0.002123|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.002123|0.0004563|0.0115
92190485|NCT04748445|184279334|OTHER||Slope|-0.0001473|STANDARD_ERROR_OF_MEAN|5.891||0.8029|TWO_SIDED|90.0|-0.001123|0.0008288|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0008288|-0.001123|0.8029
92311453|NCT04784533|184523745|SUPERIORITY||Least Square (LS) Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.7|-0.1|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Week 12||-0.1|-0.7|
92311454|NCT04784533|184523745|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-1.0|-0.3|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Week 16||-0.3|-1.0|
92311455|NCT04784533|184523745|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-1.2|-0.5|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Week 20||-0.5|-1.2|
92311456|NCT04784533|184523745|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-1.2|-0.4|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Week 24||-0.4|-1.2|
92311457|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Thickness Hair Coverage: Week 12||-0.2|-0.7|
92311458|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Thickness Hair Coverage: Week 16||-0.2|-0.7|
92311459|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.8|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Thickness Hair Coverage: Week 20||-0.3|-0.8|
92190486|NCT04748445|184279334|OTHER||Slope|-0.0005556|STANDARD_ERROR_OF_MEAN|4.647||0.2342|TWO_SIDED|90.0|-0.001326|0.0002146|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0002146|-0.001326|0.2342
92190487|NCT04748445|184279334|OTHER||Slope|0.001128|STANDARD_ERROR_OF_MEAN|5.339||0.0366|TWO_SIDED|90.0|0.0002436|0.002013|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.002013|0.0002436|0.0366
92311460|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.8|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Thickness Hair Coverage: Week 24||-0.2|-0.8|
92190488|NCT04748445|184279334|OTHER||Slope|-0.0003297|STANDARD_ERROR_OF_MEAN|5.134||0.522|TWO_SIDED|90.0|-0.00118|0.0005212|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0005212|-0.001180|0.5220
92190489|NCT04748445|184279334|OTHER||Slope|-2.104|STANDARD_ERROR_OF_MEAN|3.528||0.552|TWO_SIDED|90.0|-7.95|3.742|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||3.742|-7.950|0.5520
92190490|NCT04748445|184279334|OTHER||Slope|0.0005126|STANDARD_ERROR_OF_MEAN|4.289||0.2343|TWO_SIDED|90.0|-0.0001981|0.001223|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For ldispersion value it was 10\^-4).||0.001223|-0.0001981|0.2343
92311461|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.8|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Evenness Hair Coverage: Week 12||-0.3|-0.8|
92311462|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.7|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Evenness Hair Coverage: Week 16||-0.3|-0.7|
92311463|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.8|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Evenness Hair Coverage: Week 20||-0.3|-0.8|
92190491|NCT04748445|184279334|OTHER||Slope|2.703|STANDARD_ERROR_OF_MEAN|4.094||0.5103|TWO_SIDED|90.0|-4.081|9.487|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||9.487|-4.081|0.5103
92190492|NCT04748445|184279334|OTHER||Slope|-0.000202|STANDARD_ERROR_OF_MEAN|5.334||0.7056|TWO_SIDED|90.0|-0.001086|0.0006819|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0006819|-0.001086|0.7056
92311464|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.8|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Evenness Hair Coverage: Week 24||-0.3|-0.8|
92311465|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.8|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyebrows: Week 12||-0.2|-0.8|
92311466|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.6|-0.1|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyebrows: Week 16||-0.1|-0.6|
92311467|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.7|-0.1|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyebrows: Week 20||-0.1|-0.7|
92190493|NCT04748445|184279334|OTHER||Slope|-2.66|STANDARD_ERROR_OF_MEAN|9.22||0.0046|TWO_SIDED|90.0|-4.188|-1.132|||Mixed Models Analysis|||READ\_MFCC 1st order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-3. For estimated value it was 10\^-4).||-1.132|-4.188|0.0046
92190494|NCT04748445|184279334|OTHER||Slope|0.000649|STANDARD_ERROR_OF_MEAN|4.448||0.1471|TWO_SIDED|90.0|-0.0000881|0.001386|||Mixed Models Analysis|||READ\_MFCC 1st order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001386|-0.0000881|0.1471
92190495|NCT04748445|184279334|OTHER||Slope|1.355|STANDARD_ERROR_OF_MEAN|3.323||0.6842|TWO_SIDED|90.0|-4.152|6.862|||Mixed Models Analysis|||READ\_MFCC 1st order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||6.862|-4.152|0.6842
92190496|NCT04748445|184279334|OTHER||Slope|0.00007664|STANDARD_ERROR_OF_MEAN|2.574||0.7664|TWO_SIDED|90.0|-0.0003499|0.0005032|||Mixed Models Analysis|||READ\_MFCC 1st order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0005032|-0.0003499|0.7664
92190497|NCT04748445|184279334|OTHER||Slope|-1.708|STANDARD_ERROR_OF_MEAN|2.028||0.4015|TWO_SIDED|90.0|-5.069|1.654|||Mixed Models Analysis|||READ\_MFCC 1st order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||1.654|-5.069|0.4015
92190498|NCT04748445|184279334|OTHER||Slope|2.51|STANDARD_ERROR_OF_MEAN|1.904||0.1897|TWO_SIDED|90.0|-6.446|5.665|||Mixed Models Analysis|||READ\_MFCC 1st order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-4. For lower limit it was 10\^-5).||5.665|-6.446|0.1897
92190499|NCT04748445|184279334|OTHER||Slope|2.393|STANDARD_ERROR_OF_MEAN|1.627||0.1439|TWO_SIDED|90.0|-3.035|5.09|||Mixed Models Analysis|||READ\_MFCC 1st order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-4. For lower limit it was 10\^-5).||5.090|-3.035|0.1439
92190500|NCT04748445|184279334|OTHER||Slope|4.111|STANDARD_ERROR_OF_MEAN|1.553||0.0092|TWO_SIDED|90.0|1.537|6.685|||Mixed Models Analysis|||READ\_MFCC 1st order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||6.685|1.537|0.0092
92190501|NCT04748445|184279334|OTHER||Slope|-0.0000415|STANDARD_ERROR_OF_MEAN|1.134||0.715|TWO_SIDED|90.0|-0.0002294|0.0001464|||Mixed Models Analysis|||READ\_MFCC 1st order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0001464|-0.0002294|0.7150
92190502|NCT04748445|184279334|OTHER||Slope|1.593|STANDARD_ERROR_OF_MEAN|1.291||0.2194|TWO_SIDED|90.0|-5.457|3.731|||Mixed Models Analysis|||READ\_MFCC 1st order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-4. For lower limit it was 10\^-5).||3.731|-5.457|0.2194
92311468|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyebrows: Week 24||-0.2|-0.7|
92311469|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyelashes: Week 12||-0.2|-0.7|
92311470|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyelashes: Week 16||-0.2|-0.7|
92190503|NCT04748445|184279334|OTHER||Slope|0.0001893|STANDARD_ERROR_OF_MEAN|9.442||0.0471|TWO_SIDED|90.0|0.00003283|0.0003458|||Mixed Models Analysis|||READ\_MFCC 1st order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0003458|0.00003283|0.0471
92311471|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyelashes: Week 20||-0.2|-0.7|
92311472|NCT04784533|184523746|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.8|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyelashes: Week 24||-0.3|-0.8|
92311473|NCT02105974|184523750|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.034||||0.001|TWO_SIDED|95.0|0.014|0.055|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)||||0.055|0.014|0.001
92311474|NCT02105974|184523751|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.62||||0.084|TWO_SIDED|95.0|-0.35|5.59|||ANCOVA|||||5.59|-0.35|0.084
92311475|NCT02105974|184523752|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.43|0.78||Nominal p-value|Regression, Cox|||||0.78|0.43|<0.001
92311476|NCT02682927|184523770|SUPERIORITY||Percentage difference from Placebo|62.29|||||TWO_SIDED|95.0|47.72|72.8|||||Estimate was obtained from the LSMeans on the log scale as follows: 100 x \[1 - exp(LS mean active - LS mean placebo).|||72.80|47.72|
92311477|NCT02682927|184523770|SUPERIORITY||Percentage difference from Placebo|64.75|||||TWO_SIDED|95.0|51.85|74.19|||||Estimate was obtained from the LSMeans on the log scale as follows: 100 x \[1 - exp(LS mean active - LS mean placebo).|||74.19|51.85|
92311478|NCT02682927|184523771|SUPERIORITY||Percentage difference from Placebo|32.43|||||TWO_SIDED|95.0|6.19|51.33|||||Estimate was obtained from the LSMeans on the log scale as follows: 100 x \[1 - exp(LS mean active - LS mean placebo).|||51.33|6.19|
92311479|NCT02682927|184523771|SUPERIORITY||Percentage difference from Placebo|49.88|||||TWO_SIDED|95.0|31.31|63.43|||||Estimate was obtained from the LSMeans on the log scale as follows: 100 x \[1 - exp(LS mean active - LS mean placebo).|||63.43|31.31|
92311480|NCT02682927|184523773|SUPERIORITY||Odds Ratio (OR)|4.773||||0.009|TWO_SIDED|95.0|1.475|15.45|||Regression, Logistic|||||15.450|1.475|0.009
92311481|NCT02682927|184523773|SUPERIORITY||Odds Ratio (OR)|14.96|||<|0.001|TWO_SIDED|95.0|4.484|49.915|||Regression, Logistic|||||49.915|4.484|<0.001
92311482|NCT02682927|184523773|SUPERIORITY||Odds Ratio (OR)|13.4||||0.0001|TWO_SIDED|95.0|3.6|49.8|||Regression, Logistic|||||49.8|3.6|0.0001
92311483|NCT02682927|184523773|SUPERIORITY||Odds Ratio (OR)|53.3|||<|0.0001|TWO_SIDED|95.0|12.9|220.5|||Regression, Logistic|||||220.5|12.9|<0.0001
92311484|NCT02682927|184523776|SUPERIORITY|||||||0.035|||||||Wilcoxon rank sum test|||||||0.035
92311485|NCT02682927|184523776|SUPERIORITY||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
92311486|NCT02682927|184523776|SUPERIORITY||Comparing active with placebo|||||0.0002|||||||Wilcoxon rank sum test|||||||0.0002
92311487|NCT02682927|184523776|SUPERIORITY||||||<|0.0001|||||||Wilcoxon rank sum test|||||||<0.0001
92311488|NCT03975491|184523797|SUPERIORITY||Mean Difference (Net)|20.9||||0.32|TWO_SIDED|95.0|-17.1|76.2|||Mixed Models Analysis||From a model that included the baseline value of the dependent variable and sex (randomization stratification factor) as covariates.|||76.2|-17.1|0.32
92311489|NCT03975491|184523798|SUPERIORITY||Mean Difference (Net)|11.4||||0.25|TWO_SIDED|95.0|-7.5|34.0|||Mixed Models Analysis||From a model that included the baseline value of the dependent variable and sex (randomization stratification factor) as covariates.|||34.0|-7.5|0.25
92311490|NCT03975491|184523799|SUPERIORITY||Mean Difference (Net)|-3.6||||0.52|TWO_SIDED|95.0|-13.7|7.7|||Mixed Models Analysis||From a model that included the baseline value of the dependent variable and sex (randomization stratification factor) as covariates.|||7.7|-13.7|0.52
92311491|NCT03975491|184523800|SUPERIORITY||Mean Difference (Net)|0.59||||0.21|TWO_SIDED|95.0|-0.33|1.51|||Mixed Models Analysis||From a model that included the baseline value of the dependent variable and sex (randomization stratification factor) as covariates.|||1.51|-0.33|0.21
92311492|NCT03975491|184523802|SUPERIORITY||Mean Difference (Net)|0.0005||||0.73|TWO_SIDED|95.0|-0.0024|0.0034|||Mixed Models Analysis||From a model that included the baseline value of the dependent variable and sex (randomization stratification factor) as covariates.|||0.0034|-0.0024|0.73
92311493|NCT03922529|184523812|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.8||0.543|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.5430
92311494|NCT03922529|184523813|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.8||0.7625|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.7625
92311495|NCT03922529|184523814|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.7||0.8842|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.8842
92311496|NCT03922529|184523815|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|1.2||0.4086|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.4086
92311497|NCT03922529|184523816|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|1.2||0.3841|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.3841
92311498|NCT03922529|184523817|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|1.2||0.1393|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|||The adjusted difference from a model may not necessarily match the raw difference between groups.|||0.1393
92311499|NCT03922529|184523818|SUPERIORITY||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|12.3||0.9257|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.9257
92311500|NCT03922529|184523819|SUPERIORITY||Mean Difference (Final Values)|-5.2|STANDARD_ERROR_OF_MEAN|11.8||0.6588|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.6588
92311501|NCT03922529|184523820|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|13.0||0.992|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.9920
92190504|NCT04748445|184279334|OTHER||Slope|0.000138|STANDARD_ERROR_OF_MEAN|6.614||0.039|TWO_SIDED|90.0|0.0000284|0.0002476|||Mixed Models Analysis|||READ\_MFCC 1st order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0002476|0.00002840|0.0390
92190505|NCT04748445|184279334|OTHER||Slope|1.166|STANDARD_ERROR_OF_MEAN|1.04||0.2645|TWO_SIDED|90.0|-5.579|2.89|||Mixed Models Analysis|||READ\_MFCC 1st order delta 13 (The statistical data given below have (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-4. For lower limit it was 10\^-5).||2.890|-5.579|0.2645
92190506|NCT04748445|184279334|OTHER||Slope|-0.00119|STANDARD_ERROR_OF_MEAN|5.79||0.042|TWO_SIDED|90.0|-0.002149|-0.0002303|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0002303|-0.002149|0.0420
92190507|NCT04748445|184279334|OTHER||Slope|-4.504|STANDARD_ERROR_OF_MEAN|3.04||0.141|TWO_SIDED|90.0|-9.542|5.341|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-4. For upper limit it was 10\^-5).||5.341|-9.542|0.1410
92190508|NCT04748445|184279334|OTHER||Slope|2.968|STANDARD_ERROR_OF_MEAN|3.334||0.3751|TWO_SIDED|90.0|-2.557|8.492|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||8.492|-2.557|0.3751
92311502|NCT03922529|184523821|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9504|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.9504
92190509|NCT04748445|184279334|OTHER||Slope|-0.0000796|STANDARD_ERROR_OF_MEAN|2.101||0.7053|TWO_SIDED|90.0|-0.0004277|0.0002685|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0002685|-0.0004277|0.7053
92190510|NCT04748445|184279334|OTHER||Slope|5.075|STANDARD_ERROR_OF_MEAN|1.878||0.0078|TWO_SIDED|90.0|1.964|8.187|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||8.187|1.964|0.0078
92190511|NCT04748445|184279334|OTHER||Slope|-1.88|STANDARD_ERROR_OF_MEAN|1.174||0.1119|TWO_SIDED|90.0|-3.826|6.611|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-4. For upper limit it was 10\^-6).||6.611|-3.826|0.1119
92311503|NCT03922529|184523822|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.6228|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.6228
92311504|NCT03922529|184523823|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7966|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.7966
92311505|NCT03922529|184523824|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5071|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.5071
92190512|NCT04748445|184279334|OTHER||Slope|1.667|STANDARD_ERROR_OF_MEAN|1.164||0.1545|TWO_SIDED|90.0|-2.615|3.596|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-4. For lower limit it was 10\^-5).||3.596|-2.615|0.1545
92311506|NCT03922529|184523825|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5553|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.5553
92311507|NCT03922529|184523826|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1194|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.1194
92190513|NCT04748445|184279334|OTHER||Slope|1.531|STANDARD_ERROR_OF_MEAN|9.552||0.1114|TWO_SIDED|90.0|-5.164|3.114|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and estimated value it was 10\^-4. For lower limit it was 10\^-6 and for dispersion value it was 10\^-5).||3.114|-5.164|0.1114
92190514|NCT04748445|184279334|OTHER||Slope|0.0001989|STANDARD_ERROR_OF_MEAN|1.076||0.0668|TWO_SIDED|90.0|0.00002067|0.0003772|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0003772|0.00002067|0.0668
92311508|NCT03922529|184523827|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.8||0.9012|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.9012
92311509|NCT03922529|184523828|SUPERIORITY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.9||0.4279|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.4279
92311510|NCT03922529|184523829|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.8||0.1932|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.1932
92311511|NCT03922529|184523830|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|1.2||0.2723|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.2723
92311512|NCT03922529|184523831|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|1.2||0.8951|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.8951
92311513|NCT03922529|184523832|SUPERIORITY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.2||0.2574|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.2574
92311514|NCT03922529|184523833|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|1.0||0.8307|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.8307
92311515|NCT03922529|184523834|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|1.0||0.614|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.6140
92311516|NCT03922529|184523835|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.0||0.7327|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.7327
92311517|NCT03922529|184523836|SUPERIORITY|||||||0.7651|||||||Wilcoxon rank sum|||||||0.7651
92311518|NCT03922529|184523837|SUPERIORITY||Incident Rate Ratio|1.15||||0.3974|TWO_SIDED|95.0|0.83|1.59|||Negative binomial regression models|||||1.59|0.83|0.3974
92311519|NCT03922529|184523838|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|1.5||0.2727|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.2727
92311520|NCT03922529|184523839|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.5||0.4269|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.4269
92311521|NCT03922529|184523840|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.6||0.4354|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.4354
92311522|NCT03922529|184523841|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.4||0.8695|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.8695
92311523|NCT03922529|184523842|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.4||0.7075|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.7075
92311524|NCT03922529|184523843|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.8936|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.8936
92311525|NCT03922529|184523844|SUPERIORITY|||||||0.2794|||||||Chi-squared|||||||0.2794
92311526|NCT03922529|184523845|SUPERIORITY|||||||0.6177|||||||Chi-squared|||||||0.6177
92311527|NCT03922529|184523846|SUPERIORITY|||||||0.144|||||||Chi-squared|||||||0.1440
92311528|NCT03922529|184523847|SUPERIORITY|||||||0.1122|||||||Chi-squared|||||||0.1122
92311529|NCT03922529|184523848|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9653|TWO_SIDED|95.0|0.63|1.62|||Regression, Logistic|||||1.62|0.63|0.9653
92311530|NCT01549405|184523858|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mann-Whitney U test|||||||0.002
92311531|NCT01549405|184523859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|122.1|STANDARD_DEVIATION|58.0||0|TWO_SIDED|95.0|52.98|132.4|||t-test, 2 sided|||||132.4|52.98|0.000
92311532|NCT00230178|184523862|SUPERIORITY_OR_OTHER||Difference in response rate %|21.0||||0.0009||95.0|8.6|32.7|||Wilson's method|||||32.7|8.6|0.0009
92311533|NCT00230178|184523862|SUPERIORITY_OR_OTHER||Difference in response rate %|12.3||||0.0632||95.0|-0.9|25.0|||Wilson's method|||||25.0|-0.9|0.0632
92311534|NCT00230178|184523863|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
92311535|NCT00230178|184523863|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
92311536|NCT02652611|184523865|SUPERIORITY||Odds Ratio (OR)|0.3|||=|0.57|TWO_SIDED|95.0|-0.8|1.4|||t-test, 2 sided|||We reported the average pain and function from 6 to 24 months postinjury with 95% confidence intervals (CIs) and summarized pain and function at 6, 9, 12, 18, and 24 months postinjury with means and standard deviations and medians with interquartile ranges.||1.4|-0.8|=0.57
92311537|NCT02652611|184523866|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.21|TWO_SIDED|95.0|-2.9|12.3|||t-test, 2 sided|||||12.3|-2.9|0.21
92311538|NCT03577301|184523872|SUPERIORITY||Wald Chi Square|3.3||||0.35|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted illicit drug use at 3 months.||||||0.35
92311539|NCT03577301|184523872|SUPERIORITY||Wald Chi Square|1.97||||0.58|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted illicit drug use at 6 months.||||||0.58
92311540|NCT03577301|184523872|SUPERIORITY||Wald Chi Square|1.68||||0.64|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted illicit drug use at 9 months.||||||0.64
92311541|NCT03577301|184523872|SUPERIORITY||Wald Chi Square|1.15||||0.76|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted illicit drug use at 12 months.||||||0.76
92311542|NCT03577301|184523873|SUPERIORITY||Wald Chi Square|3.08||||0.38|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted condomless anal sex acts at 3 months.||||||0.38
92311543|NCT03577301|184523873|SUPERIORITY||Wald Chi Square|1.26||||0.74|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted condomless anal sex acts at 6 months.||||||0.74
92311544|NCT03577301|184523873|SUPERIORITY||Wald Chi Square|1.27||||0.74|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted condomless anal sex acts at 9 months.||||||0.74
92190515|NCT04748445|184279334|OTHER||Slope|0.00005573|STANDARD_ERROR_OF_MEAN|9.318||0.5509|TWO_SIDED|90.0|-0.0000986|0.0002101|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0002101|-0.0000986|0.5509
92311545|NCT03577301|184523873|SUPERIORITY||Slope|3.66||||0.3|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted condomless anal sex acts at 12 months.||||||0.300
92311546|NCT03577301|184523874|SUPERIORITY||Wald Chi Square|1.3||||0.73|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted marijuana use days at 3 months.||||||0.73
92311547|NCT03577301|184523874|SUPERIORITY||Wald Chi Square|1.68||||0.64|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted marijuana use days at 6 months.||||||0.64
92311548|NCT03577301|184523874|SUPERIORITY||Wald Chi Square|0.64||||0.89|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted marijuana use days at 9 months.||||||0.89
92311549|NCT03577301|184523874|SUPERIORITY||Wald Chi Square|1.08||||0.78|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted marijuana use days at 12 months.||||||0.78
92311550|NCT03577301|184523875|SUPERIORITY||Wald Chi Square|2.37||||0.5|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted alcohol use days at 3 months.||||||0.50
92311551|NCT03577301|184523875|SUPERIORITY||Wald Chi Square|2.98||||0.34|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted alcohol use days at 6 months.||||||0.34
92311552|NCT03577301|184523875|SUPERIORITY||Wald Chi Square|1.59||||0.66|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted alcohol use days at 9 months.||||||0.66
92311553|NCT03577301|184523875|SUPERIORITY||Wald Chi Square|2.74||||0.43|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted alcohol use days at 12 months.||||||0.43
92311554|NCT00447876|184523878|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|0.2|||=|0.182|TWO_SIDED|95.0|-0.06|0.46|||Fisher Exact|||The responders rate at Week 6 was compared between treatment groups by a two-sided Fisher exact test.||0.46|-0.06|=0.182
92311555|NCT00447876|184523879|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.222|||||||Cochran-Mantel-Haenszel|||Gerbershagen's Global scores were compared at Week 18 using a Cochran-Mantel-Haenszel analysis of variance statistic with adjustment to the baseline score.||||=0.222
92190516|NCT04748445|184279334|OTHER||Slope|0.00001774|STANDARD_ERROR_OF_MEAN|8.677||0.8383|TWO_SIDED|90.0|-0.000126|0.0001615|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0001615|-0.0001260|0.8383
92311556|NCT00447876|184523881|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.837|||=|0.423|TWO_SIDED|95.0|-30.94|13.266|||ANCOVA|||SPID was compared between the two treatment groups using a fixed effect analysis of covariance (ANCOVA) taking into account the SPID value as dependent variable, the baseline pain intensity as co-variable, and the treatment group as explicative variable.||13.266|-30.940|=0.423
92311557|NCT00447876|184523883|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.173|||=|0.682|TWO_SIDED|95.0|-24.64|16.294|||ANCOVA|||SPID was compared between the two treatment groups using a fixed effect ANCOVA taking into account the SPID value as dependent variable, the baseline pain intensity as co-variable, and the treatment group as explicative variable.||16.294|-24.640|=0.682
92311558|NCT00447876|184523885|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.066|||=|0.438|TWO_SIDED|95.0|-28.91|12.779|||ANCOVA|||The sum of pain threshold difference (i.e. SPID expressed as AUC) was compared between the two treatment groups using a fixed effect ANCOVA taking into account the SPID AUC value as dependent variable, the baseline pain intensity as co-variable, and the treatment group as explicative variable.||12.779|-28.910|=0.438
92311559|NCT00447876|184523887|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.594|||=|0.937|TWO_SIDED|95.0|-14.575|15.762|||ANCOVA|||The sum of pressure threshold difference (i.e. SPID expressed as AUC) was compared between the two treatment groups using a fixed effect ANCOVA taking into account the SPID AUC value as dependent variable, the baseline pain intensity as co-variable, and the treatment group as explicative variable.||15.762|-14.575|=0.937
92311560|NCT00447876|184523888|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.8|||=|0.8|TWO_SIDED|95.0|-6.8|5.3||The difference (most affected side - control side) in ROM for the dorsal extension was analyzed using a fixed effect ANCOVA, using Week 18 results as the dependent variable and baseline value as covariate.|ANCOVA|||||5.3|-6.8|=0.800
92190517|NCT04748445|184279334|OTHER||Slope|0.00007327|STANDARD_ERROR_OF_MEAN|6.63||0.2713|TWO_SIDED|90.0|-0.0000366|0.0001831|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0001831|-0.0000366|0.2713
92311561|NCT00447876|184523889|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.862|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 2. The variables for global assessment of pain assessed by the Investigator were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.862
92311562|NCT00447876|184523889|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.317|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 6. The variables for global assessment of pain assessed by the Investigator were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.317
92311563|NCT00447876|184523889|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.525|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 10. The variables for global assessment of pain assessed by the Investigator were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.525
92311564|NCT00447876|184523889|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.931|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 14. The variables for global assessment of pain assessed by the Investigator were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.931
92311565|NCT00447876|184523889|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.353|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 18. The variables for global assessment of pain assessed by the Investigator were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.353
92311566|NCT00447876|184523890|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.882|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 2. The variables for global assessment of pain assessed by the patient were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.882
92311567|NCT00447876|184523890|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.489|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 6. The variables for global assessment of pain assessed by the patient were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.489
92311568|NCT00447876|184523890|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.66|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 10. The variables for global assessment of pain assessed by the patient were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.660
92311569|NCT00447876|184523890|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.485|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 14. The variables for global assessment of pain assessed by the patient were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.485
92190518|NCT04748445|184279334|OTHER||Slope|0.0001534|STANDARD_ERROR_OF_MEAN|9.067||0.0931|TWO_SIDED|90.0|0.00000317|0.0003037|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0003037|0.00000317|0.0931
92190519|NCT04748445|184279335|OTHER||Slope|-1.931|STANDARD_ERROR_OF_MEAN|3.554||0.5878|TWO_SIDED|90.0|-7.82|3.958|||Mixed Models Analysis|||EE\_Entropy (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-3).||3.958|-7.820|0.5878
92190520|NCT04748445|184279335|OTHER||Slope|-1.479|STANDARD_ERROR_OF_MEAN|2.847||0.9587|TWO_SIDED|90.0|-4.866|4.57|||Mixed Models Analysis|||MM\_Entropy (The statistical data given below have exponential factor in addition to the values mentioned. For estimated value it was 10\^-4. For dispersion value, lower limit and upper limit it was 10\^-3).||4.570|-4.866|0.9587
92190521|NCT04748445|184279336|OTHER||Slope|-3.262|STANDARD_ERROR_OF_MEAN|4.487||0.9421|TWO_SIDED|90.0|-7.761|7.109|||Mixed Models Analysis|||EE\_Formant 1 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-1. For estimated value it was 10\^-2).||7.109|-7.761|0.9421
92311570|NCT00447876|184523890|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.392|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 18. The variables for global assessment of pain assessed by the patient were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.392
92311571|NCT00005957|184523891|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.38|TWO_SIDED|95.0|0.72|1.13|||Log Rank||Hazard ratio (HR) estimation is for Standard Breast Irradiation arm versus Breast Radiation plus regional radiation arm.|It was estimated that the actuarial five year survival of patients on the control arm of this trial would be 80% and a 5% increase in five year survival with experiment arm is clinically interesting to detect. A sample size of 1832 will ensure 80% power to detect such a difference with two-sided alpha of 0.05.||1.13|0.72|0.38
92311572|NCT00005957|184523892|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||0.01|TWO_SIDED|95.0|0.61|0.94|||Log Rank|||||0.94|0.61|0.01
92311573|NCT02952586|184523909|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.9199|TWO_SIDED|95.0|0.928|1.573||The treatment arms were compared using a stratified, 1-sided, log rank Test. The three stratification factors were tumor (T) stage (\< T4 vs T4), Nodal (N) stage (N0 /N1/N2a/N2b vs N2c/N3), Human papillomavirus (HPV) status (Positive vs Negative).|Log Rank|||||1.573|0.928|0.9199
92311574|NCT02952586|184523910|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.9372|TWO_SIDED|95.0|0.927|1.849||The treatment arms were compared using a stratified, 1-sided, log rank Test. The three stratification factors were tumor (T) stage (\< T4 vs T4), Nodal (N) stage (N0 /N1/N2a/N2b vs N2c/N3), Human papillomavirus (HPV) status (Positive vs Negative).|Log Rank|||||1.849|0.927|0.9372
92311575|NCT02952586|184523912|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.9316|TWO_SIDED|95.0|0.93|1.694||The treatment arms were compared using a stratified, 1-sided, log rank Test. The three stratification factors were tumor (T) stage (\< T4 vs T4), Nodal (N) stage (N0 /N1/N2a/N2b vs N2c/N3), Human papillomavirus (HPV) status (Positive vs Negative).|Log Rank|||||1.694|0.930|0.9316
92311576|NCT02952586|184523913|SUPERIORITY||Odds Ratio (OR)|0.947||||0.6229|TWO_SIDED|95.0|0.663|1.352||The treatment arms were compared using a stratified, 1-sided, Cochran-Mantel-Haenszel Test. The 3 stratification factors were tumor stage (\< T4 vs T4), Nodal stage (N0 /N1/N2a/N2b vs N2c/N3), HPV status (Positive vs Negative).|Cochran-Mantel-Haenszel|||||1.352|0.663|0.6229
92311577|NCT02952586|184523914|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.9061|TWO_SIDED|95.0|0.909|1.624||The treatment arms were compared using a stratified, 1-sided, log rank Test. The three stratification factors were tumor stage (\< T4 vs T4), Nodal stage (N0 /N1/N2a/N2b vs N2c/N3), HPV status (Positive vs Negative).|Log Rank|||||1.624|0.909|0.9061
92311578|NCT02075515|184523978|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Superiority Criterion: The two-sided 95 % CI of the GMC ratio between all pairs of lots are within \[0.67, 1.5\]|Adjusted GMC Ratio|0.97|||||TWO_SIDED|95.0|0.86|1.09|||ANCOVA|||||1.09|0.86|
92311579|NCT02075515|184523978|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Superiority Criterion: The two-sided 95 % CI of the GMC ratio between all pairs of lots are within \[0.67, 1.5\]|Adjustd GMC Ratio|0.96|||||TWO_SIDED|95.0|0.85|1.08|||ANCOVA|||||1.08|0.85|
92311580|NCT02075515|184523978|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Superiority Criterion: The two-sided 95 % CI of the GMC ratio between all pairs of lots are within \[0.67, 1.5\].|Adjusted GMC ratio|0.99|||||TWO_SIDED|95.0|0.88|1.1|||ANCOVA|||||1.10|0.88|
92311581|NCT00606632|184524007|SUPERIORITY|||||||0.023|||||||McNemar|||||||0.023
92311582|NCT00606632|184524007|SUPERIORITY||||||<|0.01|||||||McNemar|||||||<0.01
92311583|NCT03633825|184524016|SUPERIORITY||Risk Ratio (RR)|1.23|||=|0.02|TWO_SIDED|95.0|1.03|1.46|||Chi-squared|||||1.46|1.03|=.02
92311584|NCT03633825|184524017|SUPERIORITY||Risk Ratio (RR)|1.2|||=|0.19|TWO_SIDED|95.0|0.91|1.59|||Chi-squared|||||1.59|0.91|=.19
92190522|NCT04748445|184279336|OTHER||Slope|-0.06912|STANDARD_ERROR_OF_MEAN|5.997||0.9084|TWO_SIDED|90.0|-1.063|0.9247|||Mixed Models Analysis|||EE\_Formant 1 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||0.9247|-1.063|0.9084
92190523|NCT04748445|184279336|OTHER||Slope|1.985|STANDARD_ERROR_OF_MEAN|1.23||0.8721|TWO_SIDED|90.0|-1.841|2.238|||Mixed Models Analysis|||EE\_Formant 2 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^0. For estimated value it was 10\^-1).||2.238|-1.841|0.8721
92190524|NCT04748445|184279336|OTHER||Slope|0.6573|STANDARD_ERROR_OF_MEAN|2.191||0.7647|TWO_SIDED|90.0|-2.974|4.288|||Mixed Models Analysis|||EE\_Formant 2 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||4.288|-2.974|0.7647
92190525|NCT04748445|184279336|OTHER||Slope|0.6504|STANDARD_ERROR_OF_MEAN|8.958||0.4692|TWO_SIDED|90.0|-0.8341|2.135|||Mixed Models Analysis|||EE\_Formant 3 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||2.135|-0.8341|0.4692
92190526|NCT04748445|184279336|OTHER||Slope|-0.09459|STANDARD_ERROR_OF_MEAN|1.255||0.94|TWO_SIDED|90.0|-2.174|1.985|||Mixed Models Analysis|||EE\_Formant 3 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||1.985|-2.174|0.9400
92190527|NCT04748445|184279336|OTHER||Slope|0.6945|STANDARD_ERROR_OF_MEAN|7.972||0.3853|TWO_SIDED|90.0|-0.6265|2.015|||Mixed Models Analysis|||MM\_Formant 1 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||2.015|-0.6265|0.3853
92311585|NCT01890434|184524046|SUPERIORITY||Sensitivity Difference|16.7||||9e-05|ONE_SIDED|95.0|9.3||||McNemar|McNemar one-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 1.|||9.3|0.00009
92311586|NCT01890434|184524046|SUPERIORITY||Sensitivity Difference|26.0|||<|0.0001|ONE_SIDED|95.0|18.2||||McNemar|McNemar one-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 2.|||18.2|<0.0001
92311587|NCT01890434|184524046|SUPERIORITY||Sensitivity Difference|32.0|||<|0.0001|ONE_SIDED|95.0|24.5||||McNemar|McNemar one-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 3.|||24.5|<0.0001
92311588|NCT01890434|184524047|SUPERIORITY||Sensitivity Difference|21.0||||5e-05|ONE_SIDED|95.0|12.1||||McNemar|McNemar one-sided test at alpha level of 2.5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 1.|||12.1|0.00005
92311589|NCT01890434|184524047|SUPERIORITY||Sensitivity Difference|36.2|||<|0.0001|ONE_SIDED|95.0|26.3||||McNemar|McNemar one-sided test at alpha level of 2.5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 2.|||26.3|<0.0001
92311590|NCT01890434|184524047|SUPERIORITY||Sensitivity Difference|41.0|||<|0.0001|ONE_SIDED|95.0|31.8||||McNemar|McNemar one-sided test at alpha level of 2.5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 3.|||31.8|<0.0001
92311591|NCT01890434|184524052|SUPERIORITY||Sensitivity Difference|21.3|||<|0.0001|TWO_SIDED|95.0|12.9|28.4|||McNemar|McNemar 2-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI.||28.4|12.9|<0.0001
92311592|NCT01890434|184524052|SUPERIORITY||Sensitivity Difference|21.3|||<|0.0001|TWO_SIDED|90.0|14.2|27.2|||McNemar|McNemar 2-sided test at alpha level of 10%||||27.2|14.2|<0.0001
92311593|NCT01890434|184524054|NON_INFERIORITY|A non-inferiority margin was set as 15%|Sensitivity Difference|5.7||||0.2733|TWO_SIDED|95.0|-5.4|14.9|||McNemar|McNemar 2-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of GSPECT evaluated by majority BR.||14.9|-5.4|0.2733
92311594|NCT01890434|184524054|NON_INFERIORITY|A non-inferiority margin was set as 15%.|Sensitivity Difference|0.0||||1|TWO_SIDED|95.0|-8.6|7.2|||McNemar|McNemar 2-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of GSPECT evaluated by investigator.||7.2|-8.6|1.0000
92311595|NCT01890434|184524056|NON_INFERIORITY|A non-inferiority margin was set as 15%.|Specificity Difference|11.1||||0.001|TWO_SIDED|95.0|4.1|17.0|||McNemar|McNemar 2-sided test at alpha level of 5%||Specificity of gadobutrol-enhanced CMRI was compared with specificity of GSPECT by majority BR.||17.0|4.1|0.0010
92311596|NCT01890434|184524056|NON_INFERIORITY|A non-inferiority margin was set as 15%.|Specificity Difference|7.8||||0.0094|TWO_SIDED|95.0|1.6|13.2|||McNemar|McNemar 2-sided test at alpha level of 5%||Specificity of gadobutrol-enhanced CMRI was compared with specificity of GSPECT by investigator.||13.2|1.6|0.0094
92311597|NCT00428116|184524069|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||WAZ-score comparison at 18 months||||0.15
92311598|NCT00428116|184524069|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||HAZ score at 18 months||||0.45
92190528|NCT04748445|184279336|OTHER||Slope|0.02424|STANDARD_ERROR_OF_MEAN|1.021||0.9811|TWO_SIDED|90.0|-1.667|1.716|||Mixed Models Analysis|||MM\_Formant 1 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||1.716|-1.667|0.9811
92311599|NCT00428116|184524070|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||log rank or Cox regression|incidence with Cox regression utilized Anderson-Gill method to handle recurrent events||SAEs||||0.39
92311600|NCT00428116|184524070|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Cox regression Anderson Gill|||Pneumonia||||0.60
92311601|NCT00428116|184524070|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Regression, Cox|||Pneumonia||||0.60
92311602|NCT00428116|184524070|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Regression, Cox|||Diarrhea||||0.77
92311603|NCT00428116|184524070|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Log Rank|||Death||||0.29
92311604|NCT02257385|184524080|NON_INFERIORITY_OR_EQUIVALENCE|Alternate hypothesis:the difference between the trt means (umeclidinium/vilanterol minus indacaterol + tiotropium bromide) would be \> -50 milliliters (mL). If the lower CI (2.5% 1-sided significance level) of the statistical test should fall above -50 mL, then umeclidinium/vilanterol may be deemed statistically non-inferior to indacaterol plus tiotropium. If the lower CI (2.5% 1-sided significance) of the statistical testing exceeded 0 then, statistical superiority would have been established.|Least Squares Mean Difference|0.001||||0.964|TWO_SIDED|95.0|-0.029|0.03|||Mixed Models Analysis|||||0.030|-0.029|0.964
92311605|NCT02257385|184524081|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.023||||0.145|TWO_SIDED|95.0|-0.054|0.008|||Mixed Models Analysis|||||0.008|-0.054|0.145
92311606|NCT00086281|184524102|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANOVA on ranks|||||||0.009
92190529|NCT04748445|184279336|OTHER||Slope|-0.9256|STANDARD_ERROR_OF_MEAN|1.083||0.3944|TWO_SIDED|90.0|-2.72|0.869|||Mixed Models Analysis|||MM\_Formant 2 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||0.8690|-2.720|0.3944
92190530|NCT04748445|184279336|OTHER||Slope|0.935|STANDARD_ERROR_OF_MEAN|1.289||0.4696|TWO_SIDED|90.0|-1.201|3.071|||Mixed Models Analysis|||MM\_Formant 2 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||3.071|-1.201|0.4696
92190531|NCT04748445|184279336|OTHER||Slope|2.105|STANDARD_ERROR_OF_MEAN|1.231||0.0896|TWO_SIDED|90.0|0.06596|4.145|||Mixed Models Analysis|||MM\_Formant 3 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||4.145|0.06596|0.0896
92190532|NCT04748445|184279336|OTHER||Slope|1.664|STANDARD_ERROR_OF_MEAN|1.358||0.2227|TWO_SIDED|90.0|-5.864|3.915|||Mixed Models Analysis|||MM\_Formant 3 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^0. For lower limit it was 10\^-1).||3.915|-5.864|0.2227
92190533|NCT04748445|184279337|OTHER||Slope|-4.024|STANDARD_ERROR_OF_MEAN|3.122||0.8977|TWO_SIDED|90.0|-5.577|4.772|||Mixed Models Analysis|||EE\_Voiced Frames (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, and dispersion value it was 10\^-3. For estimated value it was 10\^-4).||4.772|-5.577|0.8977
92311607|NCT00086281|184524102|SUPERIORITY_OR_OTHER|||||||0.0244||95.0||||Bonferroni adjusted P-Value|ANOVA on ranks|||||||0.0244
92311608|NCT00086281|184524102|SUPERIORITY_OR_OTHER|||||||0.0119||95.0||||Bonferroni adjusted P-Value|ANOVA on ranks|||||||0.0119
92311609|NCT00086281|184524102|SUPERIORITY_OR_OTHER|||||||0.5055||95.0||||Bonferroni adjusted P-Value|ANOVA on ranks|||||||0.5055
92311610|NCT00086281|184524102|SUPERIORITY_OR_OTHER|||||||0.3132||95.0||||Bonferroni adjusted P-Value|ANOVA on ranks|||||||0.3132
92311611|NCT02391987|184524110|SUPERIORITY|||||||0.73|||||||Cochran-Mantel-Haenszel|||||||0.73
92311612|NCT02391987|184524111|SUPERIORITY|||||||0.98|||||||Cochran-Mantel-Haenszel|||||||0.98
92311613|NCT02391987|184524112|SUPERIORITY|||||||0.37|||||||Fisher Exact|||||||0.37
92311614|NCT00351533|184524113|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.37
92311615|NCT00351533|184524114|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.04
92311616|NCT00351533|184524115|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.16
92311617|NCT00351533|184524116|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.79
92311618|NCT00351533|184524117|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.34
92311619|NCT00351533|184524118|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||t-test, 2 sided|||||||0.26
92311620|NCT00351533|184524119|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||t-test, 2 sided|||||||0.06
92311621|NCT00351533|184524120|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.89
92311622|NCT00351533|184524121|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
92311623|NCT00351533|184524122|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.27
92311624|NCT00351533|184524123|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.20
92311625|NCT00351533|184524124|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.11
92311626|NCT00351533|184524125|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||t-test, 2 sided|||||||0.56
92311627|NCT00351533|184524126|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||t-test, 2 sided|||||||0.69
92311628|NCT00351533|184524127|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||t-test, 2 sided|||||||0.66
92311629|NCT00351533|184524128|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||t-test, 2 sided|||||||0.27
92311630|NCT00351533|184524129|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Chi-squared|||||||0.65
92311631|NCT00351533|184524130|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Chi-squared|||||||0.49
92311632|NCT00351533|184524131|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.55
92311633|NCT00351533|184524132|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.38
92311634|NCT00351533|184524133|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.84
92311635|NCT00351533|184524134|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.74
92311636|NCT00351533|184524135|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.84
92311637|NCT00351533|184524136|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.71
92311638|NCT00351533|184524137|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.08
92190534|NCT04748445|184279337|OTHER||Slope|-0.0006624|STANDARD_ERROR_OF_MEAN|7.961||0.407|TWO_SIDED|90.0|-0.001982|0.0006569|||Mixed Models Analysis|||MM\_Voiced Frames (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0006569|-0.001982|0.4070
92190535|NCT04748445|184279338|OTHER||Slope|0.0008654|STANDARD_ERROR_OF_MEAN|1.441||0.5491|TWO_SIDED|90.0|-0.001522|0.003253|||Mixed Models Analysis|||EE\_Jitter Local (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.003253|-0.001522|0.5491
92190536|NCT04748445|184279338|OTHER||Slope|-2.206|STANDARD_ERROR_OF_MEAN|3.176||0.9447|TWO_SIDED|90.0|-5.483|5.042|||Mixed Models Analysis|||MM\_Jitter Local (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, and dispersion value it was 10\^-3. For estimated value it was 10\^-4).||5.042|-5.483|0.9447
92190537|NCT04748445|184279339|OTHER||Slope|0.007567|STANDARD_ERROR_OF_MEAN|1.12||0.5004|TWO_SIDED|90.0|-0.01099|0.02612|||Mixed Models Analysis|||EE\_Shimmer Local (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02612|-0.01099|0.5004
92190538|NCT04748445|184279339|OTHER||Slope|0.00606|STANDARD_ERROR_OF_MEAN|1.101||0.5831|TWO_SIDED|90.0|-0.01219|0.02431|||Mixed Models Analysis|||MM\_Shimmer Local (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02431|-0.01219|0.5831
92190539|NCT04748445|184279340|OTHER||Slope|2.13|STANDARD_ERROR_OF_MEAN|3.211|<|0.0001|TWO_SIDED|90.0|1.598|2.662|||Mixed Models Analysis|||READ\_Speaking Rate (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, and estimated value it was 10\^-2. For dispersion value it was 10\^-3).||2.662|1.598|<.0001
92190540|NCT02389725|184279374|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92190541|NCT02389725|184279375|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
92190542|NCT02389725|184279376|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||||||0.67
92190543|NCT02389725|184279377|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92311639|NCT00351533|184524138|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.86
92311640|NCT00351533|184524139|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.89
92190544|NCT01485991|184279378|SUPERIORITY_OR_OTHER||Difference in proportions|-1.1||||0.001|TWO_SIDED|95.0|-7.8|5.5||based on the asymptotic distribution of the generalized Cochran-Mantel-Haenszel statistic controlling for stratification factors, using a non-inferiority margin of 12 percent|Stratified Cochran-Mantel-Haenszel|||||5.5|-7.8|0.001
92190545|NCT02350127|184279391|SUPERIORITY||Mean Difference (Final Values)|1.79|STANDARD_ERROR_OF_MEAN|1.22||0.14|TWO_SIDED|95.0|-0.59|4.18|||Mixed Models Analysis|||adjusted for participant baseline MOCA, robust VCE||4.18|-0.59|0.14
92190546|NCT02350127|184279391|SUPERIORITY||Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|1.4||0.03|TWO_SIDED|95.0|0.2|5.6|||Mixed Models Analysis|||restricted to completers||5.6|0.2|0.03
92190547|NCT02350127|184279392|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.52||0.68|TWO_SIDED|95.0|-1.23|0.8|||Mixed Models Analysis||Adjusting for baseline participant MOCA scores, robust vce.|||0.80|-1.23|0.68
92190548|NCT02350127|184279393|SUPERIORITY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|1.32||0.7|TWO_SIDED|95.0|-3.09|2.08|||Mixed Models Analysis|||adjusting for baseline participant MOCA, robust VCE||2.08|-3.09|0.70
92190549|NCT02350127|184279394|SUPERIORITY||Mean Difference (Final Values)|5.1|STANDARD_ERROR_OF_MEAN|2.2||0.02|TWO_SIDED|95.0|0.8|9.4|||Mixed Models Analysis|||||9.4|0.8|0.02
92190550|NCT02350127|184279395|SUPERIORITY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|4.3||0.47|TWO_SIDED|95.0|-5.4|11.6|||Mixed Models Analysis|||||11.6|-5.4|0.47
92190551|NCT02350127|184279396|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.54||0.99|TWO_SIDED|95.0|-1.1|1.1|||Mixed Models Analysis|||||1.1|-1.1|0.99
92190552|NCT02350127|184279397|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|3.7||0.98|TWO_SIDED|95.0|-7.4|7.2|||Mixed Models Analysis|||||7.2|-7.4|0.98
92190553|NCT02350127|184279398|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|1.5||0.8|TWO_SIDED|95.0|-2.5|3.3|||Mixed Models Analysis|||||3.3|-2.5|0.80
92190554|NCT02350127|184279399|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.1||0.38|TWO_SIDED|95.0|-3.1|1.2|||Mixed Models Analysis|||||1.2|-3.1|0.38
92190555|NCT02350127|184279400|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.45||0.075|TWO_SIDED|95.0|-1.7|0.1|||Mixed Models Analysis|||||0.1|-1.7|0.075
92190556|NCT02350127|184279401|SUPERIORITY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|1.7||0.35|TWO_SIDED|95.0|-1.7|5.0|||Mixed Models Analysis|||||5.0|-1.7|0.35
92190557|NCT02350127|184279402|SUPERIORITY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|2.1||0.35|TWO_SIDED|95.0|-6.1|2.1|||Mixed Models Analysis|||||2.1|-6.1|0.35
92190558|NCT02350127|184279403|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.54|TWO_SIDED|95.0|-0.4|0.8|||Mixed Models Analysis|||||0.8|-0.4|0.54
92190559|NCT02350127|184279404|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.9||0.69|TWO_SIDED|95.0|-1.5|2.2|||Mixed Models Analysis|||||2.2|-1.5|0.69
92311641|NCT00351533|184524140|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.34
92311642|NCT03390426|184524161|SUPERIORITY|"this is a superiority study and the non-inferiority or equivalence analysis is not required"|||||<|0.05||||||Comparisons were made between the two groups using a two-sample t-test or Mann-Whitney U test for continuous variables and Fisher's exact test for categorical variables. p-value of \<0.05 was considered to be statistically significant.|t-test, 2 sided|Comparisons were made using a two-sample t-test or Mann-Whitney U test for continuous variables and Fisher's exact test for categorical variables.||We determined 30 subjects were needed to detect a 50% difference in THN incidence between the two groups using a one-sided Fisher's exact test with alpha = 0.05 and 80% power while allowing up to 20% drop-out. For primary and secondary outcomes, comparisons were made between the two groups using a two-sample t-test or Mann-Whitney U test for continuous variables and Fisher's exact test for categorical variables. p-value of \<0.05 was considered to be statistically significant.||||<0.05
92311643|NCT03301623|184524189|SUPERIORITY||Mean Difference (Net)|-0.69||||0.541|TWO_SIDED|95.0|-2.9|1.52|||Mixed Models Analysis|Test is on interaction term between time (pre/post intervention) and treatment group (CDSvsPEAT) dummy variables in the regression model.|The interaction term describes the effect of PEAT in the post period.|"Question: Which communication strategy used during the clinical encounter is more effective in reducing pain interference over time for patients with chronic pain who were taking opioids at baseline?~Regression model includes a fixed effect for time and an interaction effect between pre/post intervention and intervention arm dummy variables. Analysis is clustered at the participant level."||1.52|-2.9|.541
92311644|NCT03301623|184524190|SUPERIORITY||Odds Ratio (OR)|2.96||||0.019|TWO_SIDED|95.0|1.2|7.31|||Regression, Logistic|There were 69 providers with at least one CG-CAHPS response.|The interaction term describes the change in the PEAT group's scores in the post period.|"Question: Which communication strategy used during the clinical encounter is more effective in improving how satisfied patients feel over time after communicating with their physician about chronic pain treatment risks and benefits?~Regression model includes a fixed effect for time and an interaction effect between pre/post intervention and intervention arm dummy variables. Analysis is clustered at the PCP level."||7.31|1.20|.019
92311645|NCT03301623|184524191|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.719|TWO_SIDED|95.0|-2.73|1.88|||Mixed Models Analysis||The interaction term describes the effect of PEAT in the post period.|"Question: Which communication strategy used during the clinical encounter is more effective in improving physical function over time for patients with chronic pain who were taking opioids at baseline?~Regression model includes a fixed effect for time and an interaction effect between pre/post intervention and intervention arm dummy variables. Analysis is clustered at the participant level."||1.88|-2.73|.719
92311646|NCT03301623|184524192|SUPERIORITY||Odds Ratio (OR)|1.63||||0.01|TWO_SIDED|95.0|1.13|2.36|||Mixed Models Analysis||The interaction term describes the effect of PEAT in the post period.|"Question: Which communication strategy used during the clinical encounter is more effective in reducing opioid prescriptions of more than 90 morphine milligrams equivalent (MME) over time for patients with chronic pain who were taking opioids at baseline?~Regression model includes a fixed effect for time and an interaction effect between pre/post intervention and intervention arm dummy variables. Analysis is clustered at the PCP level."||2.36|1.13|.010
92311647|NCT03301623|184524193|SUPERIORITY||Odds Ratio (OR)|0.76||||0.51|TWO_SIDED|95.0|0.34|1.71|||Mixed Models Analysis||The interaction term describes the effect of PEAT in the post period.|Question: Which communication strategy used during the clinical encounter is more effective in reducing co-prescription of opioids and benzodiazepines over time for patients with chronic pain who were taking opioids at baseline?||1.71|.34|.510
92311648|NCT03301623|184524194|SUPERIORITY||Odds Ratio (OR)|1.34||||0.26|TWO_SIDED|95.0|0.76|2.34|||Regression, Logistic|We employed robust standard errors clustered at the participant level. Time was controlled for using a fixed effect.|The interaction term describes the effect of PEAT in the post period.|PHQ-9 was categorized by assigning scores of 0, 1, 2, and 3 to the response categories (not at all: several days, more than half the days, nearly every day, respectively) and then summing. Scores of 5, 10, 15, and 20 represent cutpoints for mild, moderate, moderately severe and severe depression, respectively. The analysis was conducted as a multilevel ordered logistic regression.||2.34|.76|.260
92311649|NCT00315731|184524221|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of AUC values after dosimetric dose of fission-derived 131I-tositumomab with historical data from tellurium-derived 131I-tositumomab|Ratio of AUC(0-120)|0.97|||||TWO_SIDED|90.0|0.85|1.12|||||Ratio of AUC(0-120) is the ratio of AUC(0-120) values following infusion of fission-derived 131I-tositumomab to those following infusion of tellurium-derived 131I-tositumomab.|||1.12|0.85|
92311650|NCT00315731|184524222|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of AUC values after dosimetric dose of fission-derived 131I-tositumomab with historical data from tellurium-derived 131I-tositumomab|Ratio of AUC(0-168)|0.96|||||TWO_SIDED|90.0|0.83|1.11|||||Ratio of AUC(0-168) is the ratio of AUC(0-168) values following infusion of fission-derived 131I-tositumomab to those following infusion of tellurium-derived 131I-tositumomab.|||1.11|0.83|
92311651|NCT00315731|184524223|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of AUC values after dosimetric dose of fission-derived 131I-tositumomab with historical data from tellurium-derived 131I-tositumomab|Ratio of AUC(0 to infinity)|0.93|||||TWO_SIDED|90.0|0.78|1.1||||||||1.10|0.78|
92311652|NCT00315731|184524224|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of AUC values after dosimetric dose of fission-derived 131I-tositumomab with historical data from tellurium-derived 131I-tositumomab|Ratio of Cmax|0.98|||||TWO_SIDED|90.0|0.87|1.11||||||||1.11|0.87|
92190560|NCT02350127|184279405|SUPERIORITY||Median Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|5.2||0.88|TWO_SIDED|95.0|-10.9|9.3|||Mixed Models Analysis|||||9.3|-10.9|0.88
92190561|NCT02350127|184279406|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.8||0.26|TWO_SIDED|95.0|-0.7|2.5|||Mixed Models Analysis|||||2.5|-0.7|0.26
92190562|NCT02350127|184279407|SUPERIORITY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|1.1||0.08|TWO_SIDED|95.0|-3.9|0.2|||Mixed Models Analysis|||||0.2|-3.9|0.08
92190563|NCT00157209|184279410|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.745||||0.045|TWO_SIDED|95.0|0.533|1.042|||Log Rank|||||1.042|0.533|0.045
92311653|NCT03462459|184524242|EQUIVALENCE|Proportional tests (Chi-squared) compared the episodes of C. difficile. Log-rank tests (Kaplan-Meier) were conducted to compare the non-recurrence proportions within the eight-week period. Multivariate Cox proportional hazard regression determined if treatment, age, and number of previous C. difficile episodes were predictors of recurrence.|See comments|-0.11||||0.22|TWO_SIDED|95.0|-35.1|8.0|||Chi-squared||Proportional tests compared episodes of C. difficile recurrence in eight weeks (vancomycin vs. placebo) using Chi-squared test. Log-rank tests compared the non-recurrence proportions within 8 weeks with the Kaplan-Meier method.||"Statistical analyses are primarily reported for the population who were randomized in the study (as randomized). The secondary statistical analyses are reported for the population who completed all three visits (as completed treatment). Proportional tests were conducted to compare the episodes of C. difficile recurrence in eight weeks following the completion of the study intervention in patients receiving vancomycin versus placebo using the Chi-squared test. Log-rank tests were conducted to compare the non-recurrence proportions within the eight-week period in patients receiving vancomycin versus placebo with the Kaplan-Meier method. A nonparametric Wilcoxon rank sum test was used to compare distributions of the number of days to the first recurrence of CDI after starting oral vancomycin or placebo. The significance level was set to be ≤0.05. All statistical analyses were conducted in R statistical software (version 4.4.0; R Core Team, 2024)"|8.0|-35.1|0.22
92311654|NCT03462459|184524244|EQUIVALENCE|Proportional difference tests comparing the proportion of patients with VRE colonization at Visit 3, compared to baseline. Significance level was set to 0.10.||||||0.1|||||||Proportional difference test|||||||0.10
92311655|NCT02731638|184524260|SUPERIORITY||Odds Ratio (OR)|1.82||||0.26|TWO_SIDED|95.0|0.65|5.23|||Regression, Logistic|Bias-corrected logistic regression, accounting for baseline culture status||||5.23|0.65|0.26
92311656|NCT02731638|184524261|SUPERIORITY||Coefficient|1.6||||0.25|TWO_SIDED|95.0|-1.2|4.4|||Regression, Linear||Positive coefficients of the logMAR value indicated worsened visual acuity|||4.4|-1.2|0.25
92311657|NCT02731638|184524261|SUPERIORITY||Coefficient|0.5||||0.75|TWO_SIDED|95.0|-2.6|3.6|||Regression, Linear||Positive coefficients of the logMAR value indicate worsened visual acuity|||3.6|-2.6|0.75
92311658|NCT02454608|184524270|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92311659|NCT02454608|184524271|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92311660|NCT02454608|184524272|SUPERIORITY_OR_OTHER|||||||0.25|||||||Mixed Models Analysis|||||||0.25
92311661|NCT02454608|184524273|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
92190564|NCT00024102|184279416|NON_INFERIORITY_OR_EQUIVALENCE|The primary measure of efficacy was the hazard ratio for disease recurrence or death in the capecitabine group as compared with the standard chemotherapy group. Capecitabine would be considered noninferior to standard chemotherapy if the hazard ratio was greater than 0.8046. (With the use of a 5-year landmark for descriptive purposes, this ratio corresponds to a 5-year rate of relapse-free survival of 60% for standard chemotherapy and 53% for capecitabine.)|Hazard Ratio (HR)|2.09|||<|0.001|TWO_SIDED|95.0|1.38|3.17||Multivariate proportional hazards regression used to test for an arm effect was adjusted for tumor size, number of lymph nodes and hormone-receptor status. A priori formal monitoring for futility and noninferiority was planned at accrual milestones|Regression, Cox|||||3.17|1.38|<0.001
92311662|NCT02454608|184524274|SUPERIORITY_OR_OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.6
92311663|NCT02454608|184524275|SUPERIORITY_OR_OTHER|||||||0.78|||||||t-test, 2 sided|||||||0.78
92311664|NCT02454608|184524276|SUPERIORITY_OR_OTHER|||||||0.7|||||||t-test, 2 sided|||||||0.7
92190565|NCT00024102|184279417|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.85||||0.02|TWO_SIDED|95.0|1.11|3.08||Multivariate proportional hazards regression used to test for an arm effect was adjusted for tumor size, number of lymph nodes and hormone-receptor status. There is no adjustment for multiple comparisons.|Regression, Cox|||||3.08|1.11|0.02
92311665|NCT04856930|184524279|SUPERIORITY||Least Square (LS) Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.25||0.7841|TWO_SIDED|90.0|-2.42|1.73||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates; baseline AN count as continuous covariate.|Linear repeated measures model (LRMM)|||||1.73|-2.42|0.7841
92311666|NCT04856930|184524279|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|1.25||0.2885|TWO_SIDED|90.0|-0.74|3.4||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates; baseline AN count as continuous covariate.|LRMM|||||3.40|-0.74|0.2885
92311667|NCT04856930|184524280|SUPERIORITY||LS Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|8.97||0.5939|TWO_SIDED|90.0|-19.66|10.07||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates; baseline AN count as continuous covariate.|LRMM|||||10.07|-19.66|0.5939
92311668|NCT04856930|184524280|SUPERIORITY||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|8.95||0.7002|TWO_SIDED|90.0|-11.38|18.29||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates; baseline AN count as continuous covariate.|LRMM|||||18.29|-11.38|0.7002
92311669|NCT04856930|184524281|SUPERIORITY||Risk Difference (RD)|5.3|||||TWO_SIDED|90.0|-13.3|23.4|||||Estimate parameter and 90% CI was based on Unadjusted Risk Difference and exact unconditional confidence intervals (CI).|||23.4|-13.3|
92311670|NCT04856930|184524281|SUPERIORITY||Risk Difference (RD)|3.3|||||TWO_SIDED|90.0|-14.6|21.0|||||Estimate parameter and 90% C was based on Unadjusted Risk Difference and exact unconditional CIs.|||21.0|-14.6|
92311671|NCT04856930|184524282|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.54||0.7282|TWO_SIDED|90.0|-1.08|0.7||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline worst HS Pain NRS as a continuous covariate.|LRMM|||||0.70|-1.08|0.7282
92311672|NCT04856930|184524282|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.54||0.5019|TWO_SIDED|90.0|-1.25|0.53||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline worst HS Pain NRS as a continuous covariate.|LRMM|||||0.53|-1.25|0.5019
92311673|NCT04856930|184524283|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.49||0.7698|TWO_SIDED|90.0|-0.96|0.67||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline average HS Pain NRS as a continuous covariate.|LRMM|||||0.67|-0.96|0.7698
92311674|NCT04856930|184524283|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.49||0.7468|TWO_SIDED|90.0|-0.97|0.65||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline average HS Pain NRS as a continuous covariate.|LRMM|||||0.65|-0.97|0.7468
92311675|NCT04856930|184524284|SUPERIORITY||LS Mean Difference|-25.7|STANDARD_ERROR_OF_MEAN|23.46||0.275|TWO_SIDED|90.0|-64.57|13.14||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline worst HS Pain NRS as a continuous covariate.|LRMM|||||13.14|-64.57|0.2750
92311676|NCT04856930|184524284|SUPERIORITY||LS Mean Difference|-21.2|STANDARD_ERROR_OF_MEAN|23.81||0.3757|TWO_SIDED|90.0|-60.6|18.28||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline worst HS Pain NRS as a continuous covariate.|LRMM|||||18.28|-60.60|0.3757
92311677|NCT04856930|184524285|SUPERIORITY||LS Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|13.04||0.6146|TWO_SIDED|90.0|-28.22|15.05||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline average HS Pain NRS as a continuous covariate.|LRMM|||||15.05|-28.22|0.6146
92311678|NCT04856930|184524285|SUPERIORITY||LS Mean Difference|-8.9|STANDARD_ERROR_OF_MEAN|12.95||0.4951|TWO_SIDED|90.0|-30.35|12.62||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline average HS Pain NRS as a continuous covariate.|LRMM|||||12.62|-30.35|0.4951
92311679|NCT04933383|184524295|SUPERIORITY||difference/ratio of least square means|180.6||||0.000813|TWO_SIDED|95.0|106.42|306.48|||ANCOVA|||"The primary efficacy endpoint is the change from baseline in PC20 after each treatment period (baseline is defined at Visit 1).~For primary efficacy analysis, the mean PC20 changes from baseline between AQ001S and the comparator were compared by analysis of covariance (ANCOVA) for crossover design. A p-value was calculated for the difference of the parameter between AQ001S and the comparator.~Additionally, an adjusted 95%-CI for the mean difference was obtained by the ANCOVA."||306.48|106.42|0.000813
92311680|NCT02462291|184524303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27||||1|TWO_SIDED|95.0|-7.9|5.4|||ANOVA|||Baseline||5.4|-7.9|1
92311681|NCT02462291|184524303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.3|||<|0.01|TWO_SIDED|95.0|26.4|40.2|||ANOVA|||After the treatment||40.2|26.4|<0.01
92311682|NCT02462291|184524303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.5|||<|0.01|TWO_SIDED|95.0|-38.2|-24.8|||ANOVA|||PRE Vs POST||-24.8|-38.2|<0.01
92311683|NCT02462291|184524303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1||||1|TWO_SIDED|95.0|-3.7|9.9|||ANOVA|||PRE Vs POST||9.9|-3.7|1
92311684|NCT02462291|184524304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||1|TWO_SIDED|95.0|-0.8|0.5|||ANOVA|||Baseline||0.5|-0.8|1
92311685|NCT02462291|184524304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.94|||<|0.01|TWO_SIDED|95.0|-2.6|-1.2|||ANOVA|||After the treatment||-1.2|-2.6|<0.01
92311686|NCT02462291|184524304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94|||<|0.01|TWO_SIDED|95.0|0.28|1.61|||ANOVA|||PRE Vs POST||1.61|0.28|<0.01
92190566|NCT03418701|184279447|SUPERIORITY||Mean Difference (Final Values)|2.67|||<|0.05|TWO_SIDED|95.0|0.93|4.4|||t-test, 2 sided|||||4.40|0.93|<0.05
92190567|NCT03418701|184279448|SUPERIORITY||Odds Ratio, log|0.47|||<|0.05|TWO_SIDED|95.0|0.22|1.15|||Mixed Models Analysis|A multilevel logistic regression with participants nested within clinic.||||1.15|0.22|<0.05
92190568|NCT00577096|184279462|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis was that there would be no difference between groups for the number of RBC transfusions.||||<0.025
92311687|NCT02462291|184524304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|||<|0.01|TWO_SIDED|95.0|-1.52|-0.17|||ANOVA|||PRE Vs POST||-0.17|-1.52|<0.01
92311688|NCT02462291|184524305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|||=|0.84|TWO_SIDED|95.0|-3.6|2.1|||ANOVA|||Baseline||2.1|-3.6|= 0.84
92311689|NCT02462291|184524305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31|||=|0.9|TWO_SIDED|95.0|-4.3|1.7|||ANOVA|||After the treatment||1.7|-4.3|= 0.9
92311690|NCT02462291|184524305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.88|TWO_SIDED|95.0|-3.14|2.69|||ANOVA|||PRE Vs POST||2.69|-3.14|0.88
92311691|NCT02462291|184524305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.89|TWO_SIDED|95.0|-3.73|2.16|||ANOVA|||PRE Vs POST||2.16|-3.73|0.89
92311692|NCT02462291|184524306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.37||||0.9|TWO_SIDED|95.0|-5.48|2.73|||ANOVA|||Baseline||2.73|-5.48|0.9
92311693|NCT02462291|184524306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.62||||0.59|TWO_SIDED|95.0|-1.6|6.9|||ANOVA|||After the treatment||6.90|-1.60|0.59
92311694|NCT02462291|184524306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.99||||0.34|TWO_SIDED|95.0|-7.15|1.16|||ANOVA|||PRE Vs POST||1.16|-7.15|0.34
92311695|NCT02462291|184524306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03||||0.9|TWO_SIDED|95.0|-3.17|5.23|||ANOVA|||PRE Vs POST||5.23|-3.17|0.9
92311696|NCT02462291|184524307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36||||0.83|TWO_SIDED|95.0|-1.41|2.14|||ANOVA|||Baseline||2.14|-1.41|0.83
92311697|NCT02462291|184524307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.69|||<|0.01|TWO_SIDED|95.0|0.84|4.53|||ANOVA|||After the treatment||4.53|0.84|<0.01
92311698|NCT02462291|184524307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.14||||0.01|TWO_SIDED|95.0|-3.94|-0.34|||ANOVA|||PRE Vs POST||-0.34|-3.94|0.010
92311699|NCT02462291|184524307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.84|TWO_SIDED|95.0|-1.64|2.0|||ANOVA|||PRE Vs POST||2.00|-1.64|0.84
92311700|NCT02462291|184524308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39||||0.11|TWO_SIDED|95.0|-0.16|2.95|||ANOVA|||Baseline||2.95|-0.16|0.11
92311701|NCT02462291|184524308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79||||0.7|TWO_SIDED|95.0|-0.81|2.41|||ANOVA|||After the treatment||2.41|-0.81|0.7
92311702|NCT02462291|184524308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.88|TWO_SIDED|95.0|-1.17|1.98|||ANOVA|||PRE Vs POST||1.98|-1.17|0.88
92311703|NCT02462291|184524308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.95|TWO_SIDED|95.0|-1.78|1.39|||ANOVA|||PRE Vs POST||1.39|-1.78|0.95
92311704|NCT02462291|184524309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.95|TWO_SIDED|95.0|-0.67|0.4|||ANOVA|||Baseline||0.40|-0.67|0.95
92311705|NCT02462291|184524309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43||||0.23|TWO_SIDED|95.0|-0.12|0.99|||ANOVA|||After the treatment||0.99|-0.12|0.23
92311706|NCT02462291|184524309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.96|TWO_SIDED|95.0|-0.65|0.44|||ANOVA|||PRE Vs POST||0.44|-0.65|0.96
92311707|NCT02462291|184524309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46||||0.15|TWO_SIDED|95.0|-0.08|1.01|||ANOVA|||PRE Vs POST||1.01|-0.08|0.15
92311708|NCT02462291|184524310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.84|TWO_SIDED|95.0|-1.14|1.27|||ANOVA|||Baseline||1.27|-1.14|0.84
92190569|NCT00577096|184279463|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis is that there was no difference in the number of RBC tranfusions in the exercise versus usual care groups. Data was combined from the short and long term RBC transfusions.||||<0.025
92190570|NCT00577096|184279464|NON_INFERIORITY_OR_EQUIVALENCE|T-test and chi-squared test to check for equivalence of groups for age, race and gender.|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|Analysis included short and long term participants.||||||<0.025
92311709|NCT02462291|184524310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.81|TWO_SIDED|95.0|-0.96|1.54|||ANOVA|||After the treatment||1.54|-0.96|0.81
92311710|NCT02462291|184524310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.86|TWO_SIDED|95.0|-1.71|0.74|||ANOVA|||PRE Vs POST||0.74|-1.71|0.86
92311711|NCT02462291|184524310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.75|TWO_SIDED|95.0|-1.49|0.97|||ANOVA|||PRE Vs POST||0.97|-1.49|0.75
92311712|NCT02462291|184524311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.7||||0.94|TWO_SIDED|95.0|-74.4|44.9|||ANOVA|||Baseline||44.9|-74.4|0.94
92190571|NCT00577096|184279465|NON_INFERIORITY_OR_EQUIVALENCE|T-test and chi-squared to check for equivalence of groups for age, race and gender.|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis was that there would be no difference between groups for the number of platelet transfusions.||||<0.025
92190572|NCT00577096|184279466|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||||||<0.025
92311713|NCT02462291|184524311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.36||||0.87|TWO_SIDED|95.0|-53.47|70.2|||ANOVA|||After the treatment||70.20|-53.47|0.87
92311714|NCT02462291|184524311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.7||||0.78|TWO_SIDED|95.0|-90.19|30.78|||ANOVA|||PRE Vs POST||30.78|-90.19|0.78
92311715|NCT02462291|184524311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.84|TWO_SIDED|95.0|-67.7|54.5|||ANOVA|||PRE Vs POST||54.5|-67.7|0.84
92311716|NCT02462291|184524312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.74|TWO_SIDED|95.0|-3.73|4.56|||ANOVA|||Baseline||4.56|-3.73|0.74
92311717|NCT02462291|184524312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25||||0.82|TWO_SIDED|95.0|-5.54|3.04|||ANOVA|||After the treatment||3.04|-5.54|0.82
92311718|NCT02462291|184524312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.59|TWO_SIDED|95.0|-3.57|4.82|||ANOVA|||PRE Vs POST||4.82|-3.57|0.59
92311719|NCT02462291|184524312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04||||0.69|TWO_SIDED|95.0|-5.28|3.19|||ANOVA|||PRE Vs POST||3.19|-5.28|0.69
92311720|NCT02462291|184524313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.9|TWO_SIDED|95.0|-0.64|1.09|||ANOVA|||Baseline||1.09|-0.64|0.9
92311721|NCT02462291|184524313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.86|||<|0.01|TWO_SIDED|95.0|1.96|3.76|||ANOVA|||After the treatment||3.76|1.96|<0.01
92311722|NCT02462291|184524313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.92|||<|0.01|TWO_SIDED|95.0|-3.8|-2.04|||ANOVA|||PRE Vs POST||-2.04|-3.80|<0.01
92311723|NCT02462291|184524313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.88|TWO_SIDED|95.0|-1.17|0.59|||ANOVA|||PRE Vs POST||0.59|-1.17|0.88
92311724|NCT02462291|184524314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.83|TWO_SIDED|95.0|-0.72|0.37|||ANOVA|||Baseline||0.37|-0.72|0.83
92311725|NCT02462291|184524314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72||||0.005|TWO_SIDED|95.0|0.15|1.29|||ANOVA|||After the treatment||1.29|0.15|0.005
92311726|NCT02462291|184524314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.013|TWO_SIDED|95.0|-1.21|-0.09|||ANOVA|||PRE Vs POST||-0.09|-1.21|0.013
92311727|NCT02462291|184524314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.87|TWO_SIDED|95.0|-0.31|0.81|||ANOVA|||PRE Vs POST||0.81|-0.31|0.87
92311728|NCT02462291|184524315|SUPERIORITY_OR_OTHER||Chi-squared value|0.542|||=|0.91|TWO_SIDED||||||Chi-squared||Power of performed test with alpha = 0.050: 0.082; 3 degrees of freedom|||||= 0.910
92311729|NCT02462291|184524316|SUPERIORITY_OR_OTHER||Chi-squared value|17.73|||<|0.001|TWO_SIDED||||||Chi-squared||Power of performed test with alpha = 0.050: 0.965; 3 degrees of freedom|||||<0.001
92311730|NCT02462291|184524317|SUPERIORITY_OR_OTHER||Chi-squared value|5.749||||0.124|TWO_SIDED||||||Chi-squared||Power of performed test with alpha = 0.050: 0.488; 3 degrees of freedom|||||0.124
92311731|NCT02462291|184524318|SUPERIORITY_OR_OTHER||Chi-squared value|0.008||||1|TWO_SIDED||||||Chi-squared||Power of performed test with alpha = 0.050: 0.050; 3 degrees of freedom|||||1
92311732|NCT02462291|184524319|SUPERIORITY_OR_OTHER||Chi-squared value|1.049||||0.789|TWO_SIDED||||||Chi-squared||Power of performed test with alpha = 0.050: 0.116; 3 degrees of freedom|||||0.789
92311733|NCT02111603|184524351|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of on-treatment total fecal bile acid excretion with baseline total fecal bile acid excretion.||||0.012
92311734|NCT00976911|184524358|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|15.7|||||TWO_SIDED|95.0|6.5|24.8||||||||24.8|6.5|
92311735|NCT00976911|184524358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||Pearson's chi-square|unstratified analysis||||||0.0010
92311736|NCT00976911|184524358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007|TWO_SIDED|||||Stratified analysis: The strata were chemotherapy selected (paclitaxel, PLD, or topotecan), prior anti-angiogenic therapy (yes or no), and platinum-free interval (\<3 or 3-6 months).|Cochran-Mantel-Haenszel|||||||0.0007
92311737|NCT00976911|184524359|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.45||||0.0202|TWO_SIDED|95.0|0.225|0.9||Unstratified analysis|Log Rank||Hazard ratio was estimated by unstratified Cox regression model.|||0.900|0.225|0.0202
92311738|NCT00976911|184524359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0081|TWO_SIDED||||||Peto-Peto-Prentice|||||||0.0081
92311739|NCT00976911|184524361|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.379|||<|0.0001|TWO_SIDED|95.0|0.296|0.485|||Log Rank||Stratified analysis:Strata were chemotherapy selected (paclitaxel, PLD, or topotecan), prior anti-angiogenic therapy (yes or no), and platinum-free interval (less than \[\<\] 3 or 3-6 months). Cox regression model was used to determine the hazard ratio.|||0.485|0.296|<0.0001
92311740|NCT00976911|184524361|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.366|0.577|||Log Rank|Unstratified analysis||||0.577|0.366|<0.0001
92190573|NCT00577096|184279467|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis was that there would be no difference between groups for the number of stem cell collection attempts.||||<0.025
92311741|NCT00976911|184524361|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Peto-Peto-Prentice|Unstratified analysis||||||<0.0001
92311742|NCT00976911|184524361|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Peto-Peto-Prentice|Stratified analysis:Strata were chemotherapy selected, prior anti-angiogenic therapy, and platinum-free interval.||||||<0.0001
92311743|NCT00976911|184524362|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.833||||0.136|TWO_SIDED|95.0|0.655|1.059||Unstratified analysis|Log Rank|||||1.059|0.655|0.1360
92311744|NCT00976911|184524362|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0715|TWO_SIDED|||||Unstratified analysis|Peto-Peto-Prentice|||||||0.0715
92311745|NCT00976911|184524362|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.2711|TWO_SIDED|95.0|0.678|1.116||Stratified analysis: The strata were chemotherapy selected (paclitaxel, PLD, or topotecan), prior anti-angiogenic therapy (yes or no), and platinum-free interval (\<3 or 3-6 months).|Log Rank|||||1.116|0.678|0.2711
92311746|NCT00976911|184524362|SUPERIORITY_OR_OTHER_LEGACY|||||||0.089|TWO_SIDED|||||Stratified analysis: The strata were chemotherapy selected (paclitaxel, PLD, or topotecan), prior anti-angiogenic therapy (yes or no), and platinum-free interval (\<3 or 3-6 months).|Peto-Peto-Prentice|||||||0.0890
92311747|NCT00976911|184524363|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|8.8||||0.1859|TWO_SIDED|95.0|-3.8|21.4|||Fisher Exact||95% CI was approximated with Hauck-Anderson continuity correction.|Comparison of responders at baseline versus Week 8/9||21.4|-3.8|0.1859
92311748|NCT00976911|184524363|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|3.5||||0.8309|TWO_SIDED|95.0|-14.0|20.9|||Fisher Exact||95% CI was approximated with Hauck-Anderson continuity correction.|Comparison of responders at baseline versus at Week 16/18||20.9|-14|0.8309
92311749|NCT00976911|184524363|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|9.3||||0.579|TWO_SIDED|95.0|-15.0|34.1|||Fisher Exact||95% CI was approximated with Hauck-Anderson continuity correction.|Comparison of responders at baseline versus at Week 24||34.1|-15|0.5790
92311750|NCT00976911|184524363|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|-4.8||||0.7339|TWO_SIDED|95.0|-40.0|30.6|||Fisher Exact||95% CI was approximated with Hauck-Anderson continuity correction.|Comparison of responders at baseline versus at Week 30||30.6|-40|0.7339
92311751|NCT02237092|184524399|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92311752|NCT02237092|184524400|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92311753|NCT02237092|184524401|SUPERIORITY_OR_OTHER||||||<|0.02|TWO_SIDED||||||t-test, 2 sided|||||||<0.02
92311754|NCT02237092|184524402|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.58|||<|0.05|TWO_SIDED|95.0|1.05|2.58|||NNT|||||2.58|1.05|<0.05
92311755|NCT01297985|184524438|SUPERIORITY||MIXREG Estimate|1.55|STANDARD_ERROR_OF_MEAN|0.62||0.013|TWO_SIDED||||||Mixed Effects Random Regression|||"This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in self-perceived Recovery and that this effect would be maintained overtime; and that intervention participants would report greater increases in hopefulness than controls, also maintained longitudinally~This first model reports on Recovery over time."||||.013
92311756|NCT01297985|184524439|SUPERIORITY||MIXREG Estimate|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.01|TWO_SIDED||||||Mixed Effects Random Regression|This analysis used Random Regression Modeling; this first model included depressive symptoms as moderator||"We tested 3 moderating variables: BSI depressive symptom, anxiety, and general symptom distress. In these three models, we hypothesized that the intervention participants with high levels of each type of symptoms would experience greater gains in empowerment over time than participants with low levels of symptoms, as well as control participants with both high and low symptom level.~This model includes depressive symptoms as the moderator (High depressive symptoms X time X study condition)"||||0.01
92311757|NCT01297985|184524439|SUPERIORITY||MIXREG Estimate|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.01|TWO_SIDED||||||Mixed Effects Random Regression|This analysis used Random Regression Modeling; this second model included anxiety symptoms as moderator||"We tested 3 moderating variables: depressive symptom, anxiety, and general symptom distress. In these three models, we hypothesized that the intervention participants with high levels of each type of symptoms would experience greater gains in empowerment over time than participants with low levels of symptoms, as well as control participants with both high and low symptom level.~This model includes anxiety as the moderator (high anxiety X time X study condition)"||||0.01
92190574|NCT00577096|184279468|NON_INFERIORITY_OR_EQUIVALENCE|T-test and chi-squared to check for equivalence of groups for age, race and gender.|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis was that there would be no difference between groups for the number of days of stem cell collections.||||<0.025
92311758|NCT01297985|184524439|SUPERIORITY||MIXREG Estimate|0.03|STANDARD_ERROR_OF_MEAN|0.01||0.022|TWO_SIDED||||||Mixed Effects Random Regression|This analysis used Random Regression Modeling; this third model included the general symptom distress as moderator||"We tested 3 moderating variables: BSI depressive symptom, anxiety, and general symptom distress. In these three models, we hypothesized that the intervention participants with high levels of each type of symptoms would experience greater gains in empowerment over time than participants with low levels of symptoms, as well as control participants with both high and low symptom level.~This model includes general symptom distress as the moderator (high symptom distress X time X study condition)"||||.022
92311759|NCT01297985|184524440|SUPERIORITY||MIXREG Estimate|0.33|STANDARD_ERROR_OF_MEAN|0.012|<|0.01|TWO_SIDED||||||Mixed Effects Random Regression|||This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in Hopefulness that would be maintained longitudinally||||<.01
92311760|NCT01297985|184524441|SUPERIORITY||MIXREG Estimate|0.12|STANDARD_ERROR_OF_MEAN|0.04|<|0.01|TWO_SIDED||||||Mixed Effects Random Regression|||This analysis Mixed Effects Random Regression Modeling to test whether self-advocacy scores changed overtime by study condition status. Reported below are findings for the self-advocacy assertiveness sub scale.||||<0.01
92311761|NCT01297985|184524442|SUPERIORITY||MIXREG Estimate|0.042|STANDARD_ERROR_OF_MEAN|0.018||0.017|TWO_SIDED||||||Mixed Effects Random Regression|||||||0.017
92311762|NCT04841577|184524453|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the group GMT ratio \[Control group divided by Co Ad group\] for RSVPreF3 OA investigational vaccine is ≤ (equal to or smaller than) 1.5.|Adjusted group GMT ratio|1.27|||||TWO_SIDED|95.0|1.12|1.44||||||Adjusted ratios of Control group over Co-Ad Group in RSV-A Neutralizing antibody GMTs at one month after RSV\_PreF3 OA investigational vaccination. An Analysis of Covariance (ANCOVA) model was used to analyse post-vaccination log-transformed titers of RSV-A neutralizing antibodies The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 titer as covariate.||1.44|1.12|
92311763|NCT04841577|184524454|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the group GMT ratio \[Control group divided by Co Ad group\] for each of the FLU vaccine strains is ≤1.5.|Adjusted geometric mean titer ratio|1.17|||||TWO_SIDED|95.0|1.02|1.35||||||For the Flu A/Hong Kong/2671/2019 (H3N2) strain, an ANCOVA model was used to analyze post-vaccination log-transformed titers. The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 transformed titer as covariate.||1.35|1.02|
92311764|NCT04841577|184524454|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the group GMT ratio \[Control group divided by Co Ad group\] for each of the FLU vaccine strains is ≤1.5.|Adjusted geometric mean Titer ratio|1.22|||||TWO_SIDED|95.0|1.03|1.44||||||For the Flu A/Victoria/2570/2019 (H1N1) strain, an ANCOVA model was used to analyze post-vaccination log-transformed titers. The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 transformed titer as covariate.||1.44|1.03|
92311765|NCT04841577|184524454|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the group GMT ratio \[Control group divided by Co Ad group\] for each of the FLU vaccine strains is ≤1.5.|Adjusted geometric mean Titer ratio|1.17|||||TWO_SIDED|95.0|1.04|1.32||||||For the Flu B/Phuket/3073/2013 (Yamagata) strain, an ANCOVA model was used to analyze post-vaccination log-transformed titers. The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 transformed titer as covariate.||1.32|1.04|
92190575|NCT00577096|184279469|NON_INFERIORITY_OR_EQUIVALENCE|T-test and chi-squared to check for equivalence of groups for age, race and gender.|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis was that there would be no difference between groups for the number of days of stem cell collections.||||<0.025
92311766|NCT04841577|184524454|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the group GMT ratio \[Control group divided by Co Ad group\] for each of the FLU vaccine strains is ≤1.5.|Adjusted geometric mean Titer ratio|1.1|||||TWO_SIDED|95.0|0.95|1.26||||||For the Flu B/Washington/02/2019 (Victoria) strain, an ANOVA model was used to analyze post-vaccination log-transformed titers. The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 transformed titer as covariate.||1.26|0.95|
92311767|NCT04841577|184524455|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in seroconversion rate is ≤10% for HI antibody titers.|Difference in percentage|2.6|||||TWO_SIDED|95.0|-4.13|9.3|||Miettinen and Nurminen|||For the Flu A/Hong Kong/2671/2019 (H3N2) strain, the 2-sided 95% CI on group difference in seroconversion rate (Control group minus Co-Ad group).||9.30|-4.13|
92190576|NCT00577096|184279470|NON_INFERIORITY_OR_EQUIVALENCE|T-test and chi-squared to check for equivalence of groups for age, race and gender.|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|||The null hypothesis was that there would be no difference between groups for the number of platelet transfusions.||||<0.025
92190577|NCT01370564|184279494|OTHER|There was no specific hypothesis tested. The method of Rao and Scott for clustered binary data was used to construct a point estimate and 95% confidence interval for the number of days during the follow-up period across all subjects in which the patient instruction set was based on the subject's pressure state as measured by the Chronicle IHM/ICD system.|Rao-Scott estimator for clustered data|72.0|||||TWO_SIDED|95.0|65.0|78.0||||||||78|65|
92190578|NCT03740919|184279518|NON_INFERIORITY|Noninferiority margin \[NIM\]=0.4% for HbA1c|Least Squares (LS) Mean Difference|-0.02||||0.783|TWO_SIDED|95.0|-0.17|0.13|||Mixed Models Analysis|||||0.13|-0.17|0.783
92311768|NCT04841577|184524455|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in seroconversion rate is ≤10% for HI antibody titers.|Difference in percentage|4.53|||||TWO_SIDED|95.0|-0.77|9.83|||Miettinen and Nurminen|||For the Flu A/Victoria/2570/2019 (H1N1) strain, the 2-sided 95% CI on group difference in seroconversion rate (Control group minus Co-Ad group).||9.83|-0.77|
92311769|NCT04841577|184524455|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in seroconversion rate is ≤10% for HI antibody titers.|Difference in percentage|4.04|||||TWO_SIDED|95.0|-2.21|10.28|||Miettinen and Nurminen|||For the Flu B/Phuket/3073/2013 (Yamagata) strain, the 2-sided 95% CI on group difference in seroconversion rate (Control group minus Co-Ad group).||10.28|-2.21|
92311770|NCT04841577|184524455|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in seroconversion rate is ≤10% for HI antibody titers.|Difference in percentage|0.41|||||TWO_SIDED|95.0|-6.07|6.9|||Miettinen and Nurminen|||For the Flu B/Washington/02/2019 (Victoria) strain, the 2-sided 95% CI on group difference in seroconversion rate (Control group minus Co-Ad group).||6.90|-6.07|
92311771|NCT04841577|184524457|OTHER||Adjusted group GMT ratio|1.28|||||TWO_SIDED|95.0|1.09|1.51||||||Adjusted ratios of Control group over Co-Ad Group in RSV-B Neutralizing antibody GMTs at one month after RSV\_PreF3 OA investigational vaccination. An Analysis of Covariance (ANCOVA) model was used to analyse post-vaccination log-transformed titers of RSV-B neutralizing antibodies. The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 titer as covariate.||1.51|1.09|
92311772|NCT01004003|184524475|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.437|||||TWO_SIDED|95.0|0.805|2.565|||||"Hazard ratio (HR) from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||2.565|0.805|
92311773|NCT01004003|184524478|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.351|||||TWO_SIDED|95.0|0.779|2.343|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||2.343|0.779|
92311774|NCT01004003|184524479|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.877|||||TWO_SIDED|95.0|0.522|1.473|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||1.473|0.522|
92311775|NCT04123561|184524576|SUPERIORITY|"The primary efficacy endpoint is defined as the change from Injection 1 Baseline in WOMAC Pain on a normalized scale of 0-4 at Week 12 between the randomized TLC599 12mg and Placebo groups.~The least-squares mean, alongside its corresponding 95% confidence interval, was used to estimate the treatment difference between TLC599 and Placebo, utilizing two-sided p-values."|Least Squares Mean Difference (LSMD)|-0.171|STANDARD_ERROR_OF_MEAN|0.0819||0.0372|TWO_SIDED|95.0|-0.331|-0.01|||ANCOVA|Parameters estimated via REML using the Newton-Raphson algorithm, and the Kenward-Roger method calculates denominator degrees of freedom.||||-0.010|-0.331|0.0372
92311776|NCT02091466|184524589|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||Analysis of covariance for repeated measures (ANCOVA), adjusted for baseline values, compared tympanic temperatures between the groups. Statistical significance was established at p \< 0.05, and the statistical analysis was performed using SPSS (Statistical Package for the Social Sciences) software version 20.||||<0.05
92311777|NCT00676780|184524590|SUPERIORITY_OR_OTHER||||||=|0.027||95.0|||||Wilcoxon (Mann-Whitney)|||||||=0.027
92311778|NCT00676780|184524591|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.023
92311779|NCT00676780|184524592|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||Null hypothesis is no change, i.e. median change = 0.0||||<0.001
92311780|NCT01613313|184524593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.0|||||TWO_SIDED|||||||No p value||This is a proof of concept dose escalation study. No power justification has been implemented. Descriptive data provided for each arm.||||
92190579|NCT03740919|184279519|NON_INFERIORITY|NIM of 0.4%|LS Mean Difference|-0.02||||0.867|TWO_SIDED|95.0|-0.2|0.17|||Mixed Models Analysis|||||0.17|-0.20|0.867
92311781|NCT01613313|184524594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.0|||||TWO_SIDED|||||||||This is a proof of concept dose escalation study. No power of justification was implemented. Descriptive statistics was provided for each arm only.||||
92311782|NCT00708227|184524606|SUPERIORITY|||||||0.27|||||||ANOVA|||||||0.27
92311783|NCT00708227|184524607|SUPERIORITY|||||||0.15|||||||ANOVA|||||||0.15
92190580|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|1.61||||0.008|TWO_SIDED|95.0|1.13|2.3|||Regression, Logistic|||\< 54 mg/dL 1 hour post-dose||2.30|1.13|0.008
92311784|NCT00708227|184524608|SUPERIORITY|||||||0.06|||||||ANOVA|||||||0.06
92311785|NCT04007991|184524612|SUPERIORITY||Difference in Least Square Mean|-3.44|STANDARD_ERROR_OF_MEAN|1.351|=|0.011|TWO_SIDED|95.0|-6.09|-0.79||Change from baseline in YGTSS score as a continuous variable was based on mixed model for repeated measures (MMRM) analysis of covariance (ANCOVA) model with an unstructured covariance matrix.|ANCOVA|||||-0.79|-6.09|=0.011
92311786|NCT03355469|184524655|SUPERIORITY||Mean Difference (Final Values)|3.53||||0.045|TWO_SIDED|95.0|0.08|6.99||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|Linear ANCOVA model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||6.99|0.08|0.045
92311787|NCT03355469|184524655|SUPERIORITY||Mean Difference (Final Values)|1.15||||0.507|TWO_SIDED|95.0|-2.42|4.73||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||4.73|-2.42|0.507
92190581|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|1.17||||0.487|TWO_SIDED|95.0|0.75|1.83|||Regression, Logistic|||\< 54 mg/dL 1 hour post-dose||1.83|0.75|0.487
92190582|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|0.73||||0.153|TWO_SIDED|95.0|0.47|1.13|||Regression, Logistic|||\< 54 mg/dL 1 hour post-dose||1.13|0.47|0.153
92190583|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|1.49||||0.02|TWO_SIDED|95.0|1.06|2.08|||Regression, Logistic|||\< 54 mg/dL 2 hour post-dose||2.08|1.06|0.020
92190584|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|1.17||||0.455|TWO_SIDED|95.0|0.78|1.76|||Regression, Logistic|||\< 54 mg/dL 2 hour post-dose||1.76|0.78|0.455
92190585|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|0.79||||0.259|TWO_SIDED|95.0|0.52|1.19|||Regression, Logistic|||\< 54 mg/dL 2 hour post-dose||1.19|0.52|0.259
92190586|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|1.79|||<|0.001|TWO_SIDED|95.0|1.29|2.51|||Regression, Logistic|||≤ 70 mg/dL 1 hour post-dose||2.51|1.29|<0.001
92190587|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|0.95||||0.822|TWO_SIDED|95.0|0.64|1.43|||Regression, Logistic|||≤ 70 mg/dL 1 hour post-dose||1.43|0.64|0.822
92190588|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|0.53||||0.003|TWO_SIDED|95.0|0.35|0.8|||Regression, Logistic|||≤ 70 mg/dL 1 hour post-dose||0.80|0.35|0.003
92190589|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|1.42||||0.092|TWO_SIDED|95.0|0.94|2.14|||Regression, Logistic|||≤ 70 mg/dL 2 hour post-dose||2.14|0.94|0.092
92190590|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|0.71||||0.133|TWO_SIDED|95.0|0.45|1.11|||Regression, Logistic|||≤ 70 mg/dL 2 hour post-dose||1.11|0.45|0.133
92190591|NCT03740919|184279520|SUPERIORITY||Odds Ratio (OR)|0.5||||0.004|TWO_SIDED|95.0|0.31|0.8|||Regression, Logistic|||≤ 70 mg/dL 2 hour post-dose||0.80|0.31|0.004
92190592|NCT03740919|184279521|SUPERIORITY|||||||0.22|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 1 hour post-dose||||0.220
92190593|NCT03740919|184279521|SUPERIORITY|||||||0.599|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 1 hour post-dose||||0.599
92190594|NCT03740919|184279521|SUPERIORITY|||||||0.112|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 1 hour post-dose||||0.112
92190595|NCT03740919|184279521|SUPERIORITY|||||||0.034|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 2 hour post-dose||||0.034
92190596|NCT03740919|184279521|SUPERIORITY|||||||0.055|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 2 hour post-dose||||0.055
92190597|NCT03740919|184279521|SUPERIORITY|||||||0.814|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 2 hour post-dose||||0.814
92190598|NCT03740919|184279521|SUPERIORITY|||||||0.194|||||||Negative binomial regression|||≤70 mg/dL 1 hour post-dose||||0.194
92190599|NCT03740919|184279521|SUPERIORITY|||||||0.428|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||≤70 mg/dL 1 hour post-dose||||0.428
92190600|NCT03740919|184279521|SUPERIORITY|||||||0.057|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||≤70 mg/dL 1 hour post-dose||||0.057
92190601|NCT03740919|184279521|SUPERIORITY|||||||0.056|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model||≤70 mg/dL 2 hour post-dose||||0.056
92190602|NCT03740919|184279521|SUPERIORITY|||||||0.435|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||≤70 mg/dL 2 hour post-dose||||0.435
92190603|NCT03740919|184279521|SUPERIORITY|||||||0.404|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||≤70 mg/dL 2 hour post-dose||||0.404
92190604|NCT03740919|184279522|SUPERIORITY||Odds Ratio (OR)|1.04||||0.864|TWO_SIDED|95.0|0.68|1.57|||Regression, Logistic|||\<54 mg/dL||1.57|0.68|0.864
92190605|NCT03740919|184279522|SUPERIORITY||Odds Ratio (OR)|0.69||||0.132|TWO_SIDED|95.0|0.43|1.12|||Regression, Logistic|||\<54 mg/dL||1.12|0.43|0.132
92190606|NCT03740919|184279522|SUPERIORITY||Odds Ratio (OR)|0.67||||0.104|TWO_SIDED|95.0|0.41|1.09|||Regression, Logistic|||||1.09|0.41|0.104
92190607|NCT03740919|184279522|SUPERIORITY||Odds Ratio (OR)|0.8||||0.489|TWO_SIDED|95.0|0.42|1.52|||Regression, Logistic|||≤70 mg/dL||1.52|0.42|0.489
92190608|NCT03740919|184279522|SUPERIORITY||Odds Ratio (OR)|0.45||||0.025|TWO_SIDED|95.0|0.23|0.9|||Regression, Logistic|||≤70 mg/dL||0.90|0.23|0.025
92190609|NCT03740919|184279522|SUPERIORITY||Odds Ratio (OR)|0.57||||0.099|TWO_SIDED|95.0|0.29|1.11|||Regression, Logistic|||≤70 mg/dL||1.11|0.29|0.099
92190610|NCT03740919|184279523|SUPERIORITY|||||||0.732|||||||Negative binomial regression|||\< 54 mg/dL||||0.732
92190611|NCT03740919|184279523|SUPERIORITY|||||||0.638|||||||Negative binomial regression|||\< 54 mg/dL||||0.638
92190612|NCT03740919|184279523|SUPERIORITY|||||||0.462|||||||Negative binomial regression|||\<54 mg/dL||||0.462
92190613|NCT03740919|184279523|SUPERIORITY|||||||0.632|||||||Negative binomial regression|||≤ 70 mg/dL||||0.632
92190614|NCT03740919|184279523|SUPERIORITY|||||||0.8|||||||Negative binomial regression|||≤ 70 mg/dL||||0.800
92190615|NCT03740919|184279523|SUPERIORITY|||||||0.889|||||||Negative binomial regression|||≤ 70 mg/dL||||0.889
92190616|NCT03740919|184279525|SUPERIORITY||LS Mean Difference|0.6||||0.13|TWO_SIDED|95.0|-0.2|1.4|||Mixed Models Analysis|||Total Daily Basal Insulin||1.4|-0.2|0.130
92190617|NCT03740919|184279525|SUPERIORITY||LS Mean Difference|0.4||||0.404|TWO_SIDED|95.0|-0.5|1.4|||Mixed Models Analysis|||Total Daily Basal Insulin||1.4|-0.5|0.404
92190618|NCT03740919|184279525|SUPERIORITY||LS Mean Difference|-0.2||||0.693|TWO_SIDED|95.0|-1.2|0.8|||Mixed Models Analysis|||Total Daily Basal Insulin||0.8|-1.2|0.693
92190619|NCT03740919|184279525|SUPERIORITY||LS Mean Difference|0.5||||0.625|TWO_SIDED|95.0|-1.4|2.3|||Mixed Models Analysis|||Total Daily Insulin Dose||2.3|-1.4|0.625
92311788|NCT03355469|184524655|SUPERIORITY||Mean Difference (Final Values)|4.98||||0.014|TWO_SIDED|95.0|1.14|8.83||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||8.83|1.14|0.014
92311789|NCT03355469|184524655|SUPERIORITY||Mean Difference (Final Values)|2.38||||0.237|TWO_SIDED|95.0|-1.66|6.42||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||6.42|-1.66|0.237
92311790|NCT03355469|184524655|SUPERIORITY||Mean Difference (Final Values)|1.45||||0.486|TWO_SIDED|95.0|-2.8|5.7||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||5.70|-2.80|0.486
92311791|NCT03355469|184524655|SUPERIORITY||Mean Difference (Final Values)|3.83||||0.081|TWO_SIDED|95.0|-0.53|8.19||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||8.19|-0.53|0.081
92311792|NCT03355469|184524656|SUPERIORITY||Mean Difference (Final Values)|0.0073||||0.373|TWO_SIDED|95.0|-0.0093|0.024||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0240|-0.0093|0.373
92311793|NCT03355469|184524656|SUPERIORITY||Mean Difference (Final Values)|0.0097||||0.198|TWO_SIDED|95.0|-0.0055|0.025||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0250|-0.0055|0.198
92311794|NCT03355469|184524656|SUPERIORITY||Mean Difference (Final Values)|0.0041||||0.622|TWO_SIDED|95.0|-0.0129|0.0211||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0211|-0.0129|0.622
92311795|NCT03355469|184524656|SUPERIORITY||Mean Difference (Final Values)|-0.0024||||0.666|TWO_SIDED|95.0|-0.0136|0.0088||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0088|-0.0136|0.666
92311796|NCT03355469|184524656|SUPERIORITY||Mean Difference (Final Values)|-0.0032||||0.634|TWO_SIDED|95.0|-0.0169|0.0104||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0104|-0.0169|0.634
92311797|NCT03355469|184524656|SUPERIORITY||Mean Difference (Final Values)|-0.0056||||0.336|TWO_SIDED|95.0|-0.0174|0.0062||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0062|-0.0174|0.336
92190620|NCT03740919|184279525|SUPERIORITY||LS Mean Difference|-0.4||||0.758|TWO_SIDED|95.0|-2.6|1.9|||Mixed Models Analysis|||Total Daily Insulin Dose||1.9|-2.6|0.758
92190621|NCT03740919|184279525|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.485|TWO_SIDED|95.0|-3.1|1.5|||Mixed Models Analysis|||Total Daily Insulin Dose||1.5|-3.1|0.485
92190622|NCT03740919|184279526|SUPERIORITY||Odds Ratio (OR)|1.23||||0.396|TWO_SIDED|95.0|0.76|2.0|||Regression, Logistic|||HbA1c \< 7%||2.00|0.76|0.396
92190623|NCT03740919|184279526|SUPERIORITY||Odds Ratio (OR)|0.93||||0.814|TWO_SIDED|95.0|0.49|1.75|||Regression, Logistic|||HbA1c \< 7%||1.75|0.49|0.814
92190624|NCT03740919|184279526|SUPERIORITY||Odds Ratio (OR)|0.75||||0.384|TWO_SIDED|95.0|0.39|1.43|||Regression, Logistic|||HbA1c \< 7%||1.43|0.39|0.384
92190625|NCT03740919|184279526|SUPERIORITY||Odds Ratio (OR)|0.84||||0.4|TWO_SIDED|95.0|0.55|1.27|||Regression, Logistic|||HbA1c \< 7.5%||1.27|0.55|0.400
92190626|NCT03740919|184279526|SUPERIORITY||Odds Ratio (OR)|0.62||||0.094|TWO_SIDED|95.0|0.36|1.08|||Regression, Logistic|||HbA1c \< 7.5%||1.08|0.36|0.094
92190627|NCT03740919|184279526|SUPERIORITY||Odds Ratio (OR)|0.75||||0.306|TWO_SIDED|95.0|0.43|1.31|||Regression, Logistic|||HbA1c \< 7.5%||1.31|0.43|0.306
92190628|NCT02680145|184279573|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Baseline score vs Follow-up score||||0.001
92190629|NCT02680145|184279574|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Baseline score vs Follow-up score||||0.001
92190630|NCT02680145|184279575|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||Baseline score vs Follow-up score||||0.005
92190631|NCT04382053|184279576|SUPERIORITY||Least squares mean difference|0.11|STANDARD_ERROR_OF_MEAN|1.297||0.467|TWO_SIDED|90.0|-2.0|2.3|||ANCOVA|||||2.3|-2.0|0.467
92190632|NCT04382053|184279577|SUPERIORITY|||||||0.237||||||One-sided|Mixed Models Analysis|p-value reported is for the treatment factor across all time points||||||0.237
92267373|NCT02871921|184436425|EQUIVALENCE|A linear regression model was run with the outcome being the Craft Story score at Month 6, controlling for tits baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.8||0.41|TWO_SIDED||||||Regression, Linear|||Outcome: Craft Story Immediate Recall (paraphrase) Among MCI||||0.41
92267374|NCT02871921|184436426|EQUIVALENCE|A linear regression model was run with the outcome being the Craft Story test score at Month 6, controlling for tits baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Median Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.77||0.74|TWO_SIDED||||||Regression, Linear|||Outcome: Craft Story Delayed Recall) (Paraphrase scoring) Among participants with normal cognition||||0.74
92267375|NCT02871921|184436426|EQUIVALENCE|A linear regression model was run with the outcome being the Craft Story test score at Month 6, controlling for tits baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Median Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.79||0.9|TWO_SIDED||||||Regression, Linear|||Outcome: Craft Story Delayed Recall (Paraphrase scoring) Among MCI||||0.90
92267376|NCT00337727|184436436|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Superiority based on 2-sided level of significance of 0.05, based on a logistic regression model that included terms for treatment group, region and gender.|Regression, Logistic|||||||<0.01
92267377|NCT00337727|184436437|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Superiority based on 2-sided level of significance of 0.05, based on a logistic regression model that included terms for treatment group, region and gender.|Regression, Logistic|||||||<0.01
92267378|NCT04456998|184436462|SUPERIORITY||Mean Difference (Net)|-96.1||||0.031|TWO_SIDED|95.0|-183.5|-8.8|||ANCOVA||GB002 vs. Placebo|||-8.8|-183.5|0.0310
92267379|NCT04456998|184436463|SUPERIORITY||Mean Difference (Net)|6.5||||0.5972|TWO_SIDED|95.0|-17.9|30.9|||Mixed Models Analysis||GB002 vs. Placebo|||30.9|-17.9|0.5972
92267380|NCT02080273|184436464|OTHER|||||||0.919|||||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.919
92267381|NCT02080273|184436465|SUPERIORITY_OR_OTHER|||||||0.001||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline.||||0.001
92267382|NCT02080273|184436466|SUPERIORITY_OR_OTHER|||||||0.001||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline.||||0.001
92267383|NCT02080273|184436467|OTHER|||||||0.001||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline.||||0.001
92267384|NCT02080273|184436468|OTHER|||||||0.922|||||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.922
92267385|NCT02080273|184436469|OTHER|||||||0.848||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline||||0.848
92267386|NCT02080273|184436470|OTHER|||||||0.001||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline.||||0.001
92267387|NCT02080273|184436471|OTHER|||||||0.001||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline.||||0.001
92267388|NCT03707145|184436473|SUPERIORITY||Partial Eta Squared|0.058|||||TWO_SIDED|||||||||Partial Eta Squared was calculated based on ANOVA with Time (pre-post) as within subject factor and Empowerment (Professional led versus Patient Empowered) as between subject factor.||||
92311798|NCT03355469|184524657|SUPERIORITY||Mean Difference (Final Values)|1.51||||0.671|TWO_SIDED|95.0|-5.68|8.69||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||8.69|-5.68|0.671
92311799|NCT03355469|184524657|SUPERIORITY||Mean Difference (Final Values)|-4.82||||0.17|TWO_SIDED|95.0|-11.84|2.19||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||2.19|-11.84|0.170
92311800|NCT03355469|184524657|SUPERIORITY||Mean Difference (Final Values)|-0.66||||0.839|TWO_SIDED|95.0|-7.29|5.97||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||5.97|-7.29|0.839
92311801|NCT03355469|184524657|SUPERIORITY||Mean Difference (Final Values)|6.33||||0.024|TWO_SIDED|95.0|0.86|11.8||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||11.80|0.86|0.024
92311802|NCT03355469|184524657|SUPERIORITY||Mean Difference (Final Values)|-2.16||||0.385|TWO_SIDED|95.0|-7.16|2.83||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||2.83|-7.16|0.385
92311803|NCT03355469|184524657|SUPERIORITY||Mean Difference (Final Values)|4.17||||0.08|TWO_SIDED|95.0|-0.53|8.86||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||8.86|-0.53|0.080
92311804|NCT03355469|184524658|SUPERIORITY||Mean Difference (Final Values)|-0.032||||0.088|TWO_SIDED|95.0|-0.069|0.005||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.005|-0.069|0.088
92311805|NCT03355469|184524658|SUPERIORITY||Mean Difference (Final Values)|0.001||||0.96|TWO_SIDED|95.0|-0.059|0.062||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.062|-0.059|0.960
92311806|NCT03355469|184524658|SUPERIORITY||Mean Difference (Final Values)|-0.052||||0.075|TWO_SIDED|95.0|-0.109|0.006||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.006|-0.109|0.075
92190633|NCT00318591|184279601|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The additional explanatory variables were removed using backwards-elimination removing the least significant additional variable for each iteration, until the effect of all included additional variables was significant on α=0.05 significant level. The null-hypothesis of no catheter difference was to be rejected on α=0.05 significant level.|Hazard Ratio (HR)|1.502||||0.0383|TWO_SIDED|95.0|1.022|2.207||p-value is adjusted for the following explanatory variables: catheterization frequency, technique (clean/sterile), procedure (participant/nurse), setting (hospital/community) and demographic measures.|Kaplan-Meier|||The analysis was done by comparing Kaplan-Meier estimates of the survival function of the two groups. The analysis was refined by a Cox proportional hazards regression model for survival data.||2.207|1.022|0.0383
92190634|NCT00318591|184279603|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA analysis. Limit of significant difference \<0.05||||||0.767||95.0||||baseline characteristics were used as covariates, catheterization procedure (participant or caregiver) as well as technique (sterile or clean). Backward elimination was used.|ANOVA|||||||0.7670
92311807|NCT03355469|184524658|SUPERIORITY||Mean Difference (Final Values)|-0.033||||0.258|TWO_SIDED|95.0|-0.094|0.028||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.028|-0.094|0.258
92311808|NCT03355469|184524658|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.443|TWO_SIDED|95.0|-0.075|0.035||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.035|-0.075|0.443
92311809|NCT03355469|184524658|SUPERIORITY||Mean Difference (Final Values)|-0.053||||0.144|TWO_SIDED|95.0|-0.126|0.02||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.020|-0.126|0.144
92311810|NCT03355469|184524659|SUPERIORITY||Mean Difference (Final Values)|-0.007||||0.147|TWO_SIDED|95.0|-0.017|0.003||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.003|-0.017|0.147
92311811|NCT03355469|184524659|SUPERIORITY||Mean Difference (Final Values)|0.001||||0.943|TWO_SIDED|95.0|-0.016|0.017||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.017|-0.016|0.943
92311812|NCT03355469|184524659|SUPERIORITY||Mean Difference (Final Values)|-0.012||||0.108|TWO_SIDED|95.0|-0.027|0.003||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.003|-0.027|0.108
92311813|NCT03355469|184524659|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.319|TWO_SIDED|95.0|-0.024|0.009||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.009|-0.024|0.319
92311814|NCT03355469|184524659|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.496|TWO_SIDED|95.0|-0.019|0.01||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.010|-0.019|0.496
92311815|NCT03355469|184524659|SUPERIORITY||Mean Difference (Final Values)|-0.012||||0.187|TWO_SIDED|95.0|-0.031|0.007||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.007|-0.031|0.187
92190635|NCT00318591|184279604|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA. Level of significant difference \<0.05||||||0.0074||95.0||||baseline characteristics were used as covariates, catheterization procedure (participant or caregiver) as well as technique (sterile or clean). Backward elimination was used.|ANOVA|||||||0.0074
92311816|NCT03355469|184524660|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.086|TWO_SIDED|95.0|-0.495|0.035||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.035|-0.495|0.086
92190636|NCT01524887|184279608|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|1.4||||0.243||95.0|-1.0|3.9|||Mixed Models Analysis|||||3.9|-1.0|0.243
92190637|NCT01524887|184279608|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|1.0||||0.37||95.0|-1.2|3.3|||Mixed Models Analysis|||||3.3|-1.2|0.370
92190638|NCT01524887|184279609|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-3.9||||0.033||95.0|-7.4|-0.3|||Mixed Models Analysis|||||-0.3|-7.4|0.033
92311817|NCT03355469|184524660|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.608|TWO_SIDED|95.0|-0.354|0.574||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.574|-0.354|0.608
92311818|NCT03355469|184524660|SUPERIORITY||Mean Difference (Final Values)|-0.344||||0.11|TWO_SIDED|95.0|-0.779|0.09||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.090|-0.779|0.110
92311819|NCT03355469|184524660|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.145|TWO_SIDED|95.0|-0.818|0.137||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.137|-0.818|0.145
92311820|NCT03355469|184524660|SUPERIORITY||Mean Difference (Final Values)|-0.114||||0.565|TWO_SIDED|95.0|-0.538|0.309||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.309|-0.538|0.565
92311821|NCT03355469|184524660|SUPERIORITY||Mean Difference (Final Values)|-0.454||||0.11|TWO_SIDED|95.0|-1.025|0.116||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.116|-1.025|0.110
92311822|NCT02291510|184524661|SUPERIORITY_OR_OTHER||% Ratio of LS Means|35.4|||<|0.001|TWO_SIDED|90.0|32.27|38.74|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of least squares (LS) means and the comparator for the p-values.||38.74|32.27|<0.001
92311823|NCT02291510|184524661|SUPERIORITY_OR_OTHER||% Ratio of LS Means|52.3|||<|0.001|TWO_SIDED|90.0|47.77|57.36|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of LS means and the comparator for the p-values.||57.36|47.77|<0.001
92311824|NCT02291510|184524661|SUPERIORITY_OR_OTHER||% Ratio of LS Means|32.1|||<|0.001|TWO_SIDED|90.0|29.3|35.18|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met IR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||35.18|29.30|<0.001
92311825|NCT02291510|184524661|SUPERIORITY_OR_OTHER||% Ratio of LS Means|47.5|||<|0.001|TWO_SIDED|90.0|43.38|52.09|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met IR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||52.09|43.38|<0.001
92311826|NCT02291510|184524661|SUPERIORITY_OR_OTHER||% Ratio of LS Means|110.1||||0.0832|TWO_SIDED|90.0|100.5|120.68|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of LS means and the comparator for the p-values.||120.68|100.50|0.0832
92190639|NCT01524887|184279609|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.9||||0.586||95.0|-4.2|2.4|||Mixed Models Analysis|||||2.4|-4.2|0.586
92311827|NCT02291510|184524662|SUPERIORITY_OR_OTHER||% Ratio of LS Means|35.9|||<|0.001|TWO_SIDED|90.0|32.43|39.77|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of LS means and the comparator for the p-values.||39.77|32.43|<0.001
92311828|NCT02291510|184524662|SUPERIORITY_OR_OTHER||% Ratio of LS Means|53.0|||<|0.001|TWO_SIDED|90.0|47.88|58.71|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of LS means and the comparator for the p-values.||58.71|47.88|<0.001
92311829|NCT02291510|184524662|SUPERIORITY_OR_OTHER||% Ratio of LS Means|45.3|||<|0.001|TWO_SIDED|90.0|40.88|50.13|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met IR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||50.13|40.88|<0.001
92311830|NCT02291510|184524662|SUPERIORITY_OR_OTHER||% Ratio of LS Means|66.8|||<|0.001|TWO_SIDED|90.0|60.34|74.0|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met IR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||74.00|60.34|<0.001
92311831|NCT02291510|184524662|SUPERIORITY_OR_OTHER||% Ratio of LS Means|79.3||||0.0004|TWO_SIDED|90.0|71.65|87.86|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of LS means and the comparator for the p-values.||87.86|71.65|0.0004
92190640|NCT01524887|184279610|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.2||||0.501||95.0|-1.0|0.5|||Mixed Models Analysis|||||0.5|-1.0|0.501
92190641|NCT01524887|184279610|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.1||||0.783||95.0|-0.7|0.5|||Mixed Models Analysis|||||0.5|-0.7|0.783
92190642|NCT01524887|184279611|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|1.1||||0.571||95.0|-2.6|4.7|||Mixed Models Analysis|||||4.7|-2.6|0.571
92190643|NCT01524887|184279611|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|3.7||||0.032||95.0|0.3|7.1|||Mixed Models Analysis|||||7.1|0.3|0.032
92311832|NCT01009814|184524688|OTHER||Mean Difference (Net)|-0.1089|STANDARD_ERROR_OF_MEAN|0.212||0.6102|TWO_SIDED|90.0|-0.4656|0.2477|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.2477|-0.4656|0.6102
92311833|NCT01009814|184524688|OTHER||Mean Difference (Net)|-0.1266|STANDARD_ERROR_OF_MEAN|0.2076||0.5452|TWO_SIDED|90.0|-0.4758|0.2225|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.2225|-0.4758|0.5452
92311834|NCT01009814|184524688|OTHER||Mean Difference (Net)|-0.1682|STANDARD_ERROR_OF_MEAN|0.2055||0.4178|TWO_SIDED|90.0|-0.5139|0.1775|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.1775|-0.5139|0.4178
92311835|NCT01009814|184524688|OTHER||Mean Difference (Net)|-0.4885|STANDARD_ERROR_OF_MEAN|0.2075||0.0233|TWO_SIDED|90.0|-0.8375|-0.1395|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||-0.1395|-0.8375|0.0233
92311836|NCT01009814|184524688|OTHER||Mean Difference (Net)|-0.0177|STANDARD_ERROR_OF_MEAN|0.2043||0.9314|TWO_SIDED|90.0|-0.3613|0.3259|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.3259|-0.3613|0.9314
92311837|NCT01009814|184524688|OTHER||Mean Difference (Net)|-0.0592|STANDARD_ERROR_OF_MEAN|0.2045||0.7734|TWO_SIDED|90.0|-0.4032|0.2847|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.2847|-0.4032|0.7734
92311838|NCT01009814|184524688|OTHER||Mean Difference (Net)|-0.3796|STANDARD_ERROR_OF_MEAN|0.2043||0.0702|TWO_SIDED|90.0|-0.7232|-0.036|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||-0.0360|-0.7232|0.0702
92190644|NCT01524887|184279612|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.00026||||0.593||95.0|-0.00126|0.00073|||ANCOVA|||||0.00073|-0.00126|0.593
92190645|NCT01524887|184279612|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|0.00003||||0.94||95.0|-0.0008|0.00086|||ANCOVA|||||0.00086|-0.00080|0.940
92311839|NCT01009814|184524688|OTHER||Mean Difference (Net)|-0.0415|STANDARD_ERROR_OF_MEAN|0.1993||0.8359|TWO_SIDED|90.0|-0.3768|0.2937|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.2937|-0.3768|0.8359
92190646|NCT01524887|184279613|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.5||||0.633||95.0|-2.8|1.7|||Mixed Models Analysis|||||1.7|-2.8|0.633
92190647|NCT01524887|184279613|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|0.0||||0.981||95.0|-2.0|2.0|||Mixed Models Analysis|||||2.0|-2.0|0.981
92190648|NCT04572997|184279681|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Signed-rank test||||||< 0.0001
92190649|NCT04572997|184279686|OTHER||||||<|0.001|||||||Wilcoxon Signed-rank test|||||||< 0.001
92190650|NCT01967719|184279709|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|56.57|||||TWO_SIDED|95.0|44.21|72.39|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (mTHS 2.2 - Group 1:mCC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of mTHS 2.2:mCC) for Cmax, therefore, there was no statistical hypothesis to be tested for this objective.||72.39|44.21|
92190651|NCT01967719|184279710|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|55.64|||||TWO_SIDED|95.0|43.3|71.5|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (mTHS 2.2 - Group 1:mCC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of mTHS 2.2:mCC) for AUC(0-last), therefore, there was no statistical hypothesis to be tested for this objective.||71.50|43.30|
92190652|NCT02329223|184279711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.7|STANDARD_ERROR_OF_MEAN|0.815|<|0.001|TWO_SIDED|95.0|-5.31|-2.098|||Mixed Model with repeated measures(MMRM)|||||-2.098|-5.310|<0.001
92190653|NCT02329223|184279711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.29|STANDARD_ERROR_OF_MEAN|0.828||0.006|TWO_SIDED|95.0|-3.921|-0.654|||Mixed Model with repeated measures(MMRM)|||||-0.654|-3.921|0.006
92190654|NCT03443063|184279737|OTHER||Percent (%) ratio of geometric means|104.83|||||TWO_SIDED|90.0|77.41|141.97|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|||141.97|77.41|
92190655|NCT03443063|184279738|OTHER||Percent (%) ratio of geometric means|133.03|||||TWO_SIDED|90.0|107.3|164.93|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|||164.93|107.30|
92311840|NCT01009814|184524688|OTHER||Mean Difference (Net)|-0.3619|STANDARD_ERROR_OF_MEAN|0.1988||0.0759|TWO_SIDED|90.0|-0.6962|-0.0275|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||-0.0275|-0.6962|0.0759
92311841|NCT01009814|184524688|OTHER||Mean Difference (Net)|-0.3203|STANDARD_ERROR_OF_MEAN|0.1993||0.1155|TWO_SIDED|90.0|-0.6555|0.0149|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.0149|-0.6555|0.1155
92311842|NCT00180661|184524734|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92311843|NCT00180661|184524735|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||||||0.005
92311844|NCT01495702|184524773|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the Stribild group was at least 12% worse than the NNRTI+FTC/TDF group with respect to the percentage of participants maintaining HIV-1 RNA \< 50 copies/mL at Week 48. The alternative hypothesis was that the Stribild group was less than 12% worse than the NNRTI+FTC/TDF group.|Difference in proportions|5.3||||0.066|TWO_SIDED|95.0|-0.5|12.0|||Fisher Exact||The 95% confidence interval (CI) for the difference was from unconditional exact method using 2 inverted 1-sided tests with the standardized statistic using StatXact.|||12.0|-0.5|0.066
92311845|NCT04152863|184524777|SUPERIORITY||Mean Difference (Net)|11.9||||0.1812|TWO_SIDED|90.0|-9.5|32.5|||Stratified Miettinen & Nurminen method|To ensure adequate number of participants, strata were combined according to sSAP when one treatment had 0 participants in a particular stratum.||||32.5|-9.5|0.1812
92311846|NCT04152863|184524777|SUPERIORITY||Mean Difference (Net)|4.8||||0.3548|TWO_SIDED|90.0|-16.2|25.5|||Stratified Miettinen & Nurminen method|To ensure adequate number of participants, strata were combined according to sSAP when one treatment had 0 participants in a particular stratum.||||25.5|-16.2|0.3548
92190656|NCT03443063|184279739|OTHER||Percent (%) ratio of geometric means|150.53|||||TWO_SIDED|90.0|113.16|200.26|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|||200.26|113.16|
92190657|NCT03443063|184279740|OTHER||Percent (%) ratio of geometric means|149.84|||||TWO_SIDED|90.0|113.06|198.58|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|||198.58|113.06|
92190658|NCT03443063|184279741|OTHER||Percent (%) ratio of geometric means|80.09|||||TWO_SIDED|90.0|56.07|114.4|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||114.40|56.07|
92190659|NCT03443063|184279741|OTHER||Percent (%) ratio of geometric means|79.51|||||TWO_SIDED|90.0|54.48|116.03|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||116.03|54.48|
92190660|NCT03443063|184279741|OTHER||Percent (%) ratio of geometric means|72.49|||||TWO_SIDED|90.0|48.08|109.29|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||109.29|48.08|
92311847|NCT04152863|184524777|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in %|7.1|||||TWO_SIDED|90.0|-14.6|28.2||||||||28.2|-14.6|
92311848|NCT04152863|184524778|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.5|2.27||||||||2.27|0.50|
92311849|NCT04152863|184524778|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.51|2.29||||||||2.29|0.51|
92311850|NCT04152863|184524778|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.5|2.04||||||||2.04|0.50|
92311851|NCT04152863|184524780|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in percentage|-2.1|||||TWO_SIDED|90.0|-23.1|19.2||||||||19.2|-23.1|
92190661|NCT03443063|184279743|OTHER||Percent (%) ratio of geometric mean|111.25|||||TWO_SIDED|90.0|91.69|134.99|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Lemborexant||134.99|91.69|
92190662|NCT03443063|184279743|OTHER||Percent (%) ratio of geometric means|80.28|||||TWO_SIDED|90.0|56.81|113.46|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||113.46|56.81|
92311852|NCT04152863|184524780|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in percentage|-2.1|||||TWO_SIDED|90.0|-23.1|19.2||||||||19.2|-23.1|
92311853|NCT04152863|184524780|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in %|0.0|||||TWO_SIDED|90.0|-21.2|21.2||||||||21.2|-21.2|
92311854|NCT04152863|184524781|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.45|||||TWO_SIDED|95.0|0.7|3.02||||||||3.02|0.70|
92311855|NCT04152863|184524781|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.62|2.68||||||||2.68|0.62|
92190663|NCT03443063|184279743|OTHER||Percent (%) ratio of geometric means|86.71|||||TWO_SIDED|90.0|64.92|115.81|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||115.81|64.92|
92190664|NCT03443063|184279743|OTHER||Percent (%) ratio of geometric means|65.38|||||TWO_SIDED|90.0|41.08|104.04|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||104.04|41.08|
92311856|NCT04152863|184524781|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.6|2.22||||||||2.22|0.60|
92311857|NCT04152863|184524783|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.64|||||TWO_SIDED|95.0|0.71|3.79||||||||3.79|0.71|
92311858|NCT04152863|184524783|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.47|2.68||||||||2.68|0.47|
92311859|NCT04152863|184524783|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.39|||||TWO_SIDED|95.0|0.64|3.02||||||||3.02|0.64|
92311860|NCT00919126|184524786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|The analysis of covariance was adjusted for quantity of propofol (mg) administered during the induction period, gender, type of surgery and centre.||The dose of propofol adjusted to BSA and maintenance duration was expected to be 4.0 mg/m².min in the control group, 2.8 mg/m².min in one xenon group and 3.0 mg/m².min in the other xenon group. With an expected common standard deviation of 2.0 mg/m².min, a type I error of 0.05 (two-sided) and a power of 0.80, the sample size required to show a statistically significant difference between the three groups was estimated to be 48 patients per group, resulting in a total of 144 randomised patients.||||<0.0001
92311861|NCT00919126|184524786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0256|||<|0.0001|TWO_SIDED|95.0|2.328|3.724||Pairwise comparison performed using Tukey's test.|ANCOVA|The analysis of covariance was adjusted for quantity of propofol (mg) administered during the induction period, gender, type of surgery and centre.|The difference Xenon 70% in Oxygen minus Medical Air in Oxygen was assessed.|||3.724|2.328|<0.0001
92311862|NCT00919126|184524786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2905|||<|0.0001|TWO_SIDED|95.0|1.57|3.011||Pairwise comparison performed using Tukey's test.|ANCOVA|The analysis of covariance was adjusted for quantity of propofol (mg) administered during the induction period, gender, type of surgery and centre.|The difference Xenon 50% in Oxygen minus Medical Air in Oxygen was assessed.|||3.011|1.570|<0.0001
92190665|NCT03443063|184279744|OTHER||Percent (%) ratio of geometric means|114.69|||||TWO_SIDED|90.0|94.45|139.28|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||139.28|94.45|
92267389|NCT03707145|184436474|SUPERIORITY||Partial Eta Squared|0.008|||||TWO_SIDED|||||||||Partial Eta Squared was calculated based on ANOVA with Time (pre-post) as within subject factor and Empowerment (Professional led versus Patient Empowered) as between subject factor.||||
92267390|NCT04221477|184436480|SUPERIORITY||Adjusted Difference|13.4||||0.0232|TWO_SIDED|95.0|1.95|24.84||Test 1 of 7 maintaining a fixed sequence testing for type I error control at two-sided alpha 0.05.|Cochran-Mantel-Haenszel|||||24.84|1.95|0.0232
92267391|NCT04221477|184436481|SUPERIORITY||Adjusted Difference|11.88||||0.0421|TWO_SIDED|95.0|0.57|23.18||Test 2 of 7 maintaining a fixed sequence testing for type I error control at two-sided alpha 0.05.|Cochran-Mantel-Haenszel|||||23.18|0.57|0.0421
92267392|NCT04221477|184436482|SUPERIORITY||Adjusted Difference|13.68||||0.0227|TWO_SIDED|95.0|2.01|25.36||Test 3 of 7 maintaining a fixed sequence testing for type I error control at two-sided alpha 0.04 with fallback method.|Cochran-Mantel-Haenszel|||||25.36|2.01|0.0227
92267393|NCT04221477|184436483|SUPERIORITY||Difference in Adjusted Means|3.84||||0.1842|TWO_SIDED|95.0|-1.83|9.51||Test 4 of 7 maintaining a fixed sequence testing for type I error control at two-sided alpha 0.05.|ANCOVA|||||9.51|-1.83|0.1842
92267394|NCT04221477|184436484|SUPERIORITY||Adjusted Difference|-16.83||||0.0026|TWO_SIDED|95.0|-27.42|-6.23||Ranked 5 of 7 in the fixed sequence for type I error control. P-value is nominal as the hierarchical testing stops at the first non-significant endpoint.|Cochran-Mantel-Haenszel|||||-6.23|-27.42|0.0026
92267395|NCT04221477|184436485|SUPERIORITY||Adjusted Difference|8.36||||0.167|TWO_SIDED|95.0|-3.41|20.12||Ranked 6 of 7 in the fixed sequence for type I error control.|Cochran-Mantel-Haenszel|||||20.12|-3.41|0.1670
92267396|NCT04221477|184436486|SUPERIORITY||Difference in Adjusted Means|-1.35||||0.2991|TWO_SIDED|95.0|-3.89|1.2||Ranked 7 of 7 in the fixed sequence for type I error control.|ANCOVA|||||1.20|-3.89|0.2991
92267397|NCT04221477|184436487|SUPERIORITY||Difference in Adjusted Means|-0.36||||0.0006|TWO_SIDED|95.0|-0.57|-0.16||Not type I error controlled.|ANCOVA|||||-0.16|-0.57|0.0006
92267398|NCT04221477|184436488|SUPERIORITY||Difference in Adjusted Means|0.14|||<|0.0001|TWO_SIDED|95.0|0.08|0.2||Not type I error controlled|ANCOVA|||||0.20|0.08|<0.0001
92267399|NCT04221477|184436489|SUPERIORITY||Difference in Adjusted Means|-0.12||||0.9384|TWO_SIDED|95.0|-3.11|2.87||Not type I error controlled.|ANCOVA|||||2.87|-3.11|0.9384
92267400|NCT04221477|184436490|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.1324|TWO_SIDED|95.0|0.91|1.89||Not type I error controlled.|Log Rank|||||1.89|0.91|0.1324
92267401|NCT04221477|184436491|SUPERIORITY||Adjusted Difference|13.37||||0.0237|TWO_SIDED|95.0|1.91|24.82||Not type I error controlled.|Cochran-Mantel-Haenszel|||||24.82|1.91|0.0237
92267402|NCT00965562|184436523|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Chi-squared|||||||0.15
92267403|NCT00965562|184436524|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||||||0.05
92267404|NCT00965562|184436525|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
92267405|NCT00965562|184436526|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Chi-squared|||||||0.09
92267406|NCT00965562|184436527|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Chi-squared|||||||0.005
92267407|NCT00965562|184436528|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Chi-squared|||||||0.04
92267408|NCT00965562|184436529|SUPERIORITY_OR_OTHER||Slope|-2.63||||0.07|TWO_SIDED|95.0|-5.51|0.24|||Mixed Models Analysis||Slope represents average change in fluoxetine group IDS score as compared to placebo|||0.24|-5.51|0.07
92267409|NCT00965562|184436529|SUPERIORITY_OR_OTHER||Slope|-0.1||||0.94|TWO_SIDED|95.0|-2.85|2.65|||Mixed Models Analysis||Slope represents average change in calcium group IDS scores as compared to placebo|||2.65|-2.85|0.94
92267410|NCT00965562|184436529|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.15||||0.07|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the fluoxetine group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.07
92267411|NCT00965562|184436529|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.1||||0.94|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the calcium group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.94
92267412|NCT00965562|184436530|SUPERIORITY_OR_OTHER||Slope|-1.63||||0.1|TWO_SIDED|95.0|-3.6|0.34|||Mixed Models Analysis||Slope represents average change in fluoxetine group PMTS scores as compared to placebo|||0.34|-3.60|0.10
92267413|NCT00965562|184436530|SUPERIORITY_OR_OTHER||Slope|-0.81||||0.4|TWO_SIDED|95.0|-2.71|1.09|||Mixed Models Analysis||Slope represents average change in calcium group PMTS scores as compared to placebo|||1.09|-2.71|0.40
92267414|NCT00965562|184436530|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.06||||0.1|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the fluoxetine group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.10
92267415|NCT00965562|184436530|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.37||||0.4|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the calcium group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.40
92267416|NCT00965562|184436531|SUPERIORITY_OR_OTHER||Slope|-0.35||||0.07|TWO_SIDED|95.0|-0.73|0.03|||Mixed Models Analysis||Slope represents average change in fluoxetine group CGI-S scores as compared to placebo|||0.03|-0.73|0.07
92267417|NCT00965562|184436531|SUPERIORITY_OR_OTHER||Slope|-0.17||||0.36|TWO_SIDED|95.0|-0.54|0.2|||Mixed Models Analysis||Slope represents average change in calcium group CGI-S scores as compared to placebo|||0.20|-0.54|0.36
92267418|NCT00965562|184436531|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.92||||0.07|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the fluoxetine group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.07
92267419|NCT00965562|184436531|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.44||||0.36|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the calcium group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.36
92267420|NCT00965562|184436532|SUPERIORITY_OR_OTHER||Slope|-0.28||||0.02|TWO_SIDED|95.0|-0.53|-0.04|||Mixed Models Analysis||Slope represents average change in fluoxetine group DRSP scores as compared to placebo|||-0.04|-0.53|0.02
92267421|NCT00965562|184436532|SUPERIORITY_OR_OTHER||Slope|0.06||||0.58|TWO_SIDED|95.0|-0.16|0.28|||Mixed Models Analysis||Slope represents average change in calcium group DRSP scores as compared to placebo|||0.28|-0.16|0.58
92267422|NCT00965562|184436532|SUPERIORITY_OR_OTHER||Cohen's d effect size|2.08||||0.02|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the fluoxetine group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.02
92267423|NCT00965562|184436532|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.18||||0.58|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the calcium group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.58
92267424|NCT00965562|184436533|SUPERIORITY_OR_OTHER||Slope|-1.03||||0.04|TWO_SIDED|95.0|-1.7|-0.35|||Mixed Models Analysis||Slope represents average change in fluoxetine group CGI Improvement scores as compared to placebo|||-0.35|-1.70|0.04
92267425|NCT00965562|184436533|SUPERIORITY_OR_OTHER||Slope|-0.2||||0.54|TWO_SIDED|95.0|-0.86|0.46|||Mixed Models Analysis||Slope represents average change in calcium group CGI Improvement scores as compared to placebo|||0.46|-0.86|0.54
92267426|NCT00965562|184436533|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.8||||0.04|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the fluoxetine group between visits 2 and 5 and changes in the placebo group between Visits 2 and 5, divided by the std dev in the placebo group at Visit 5|||||0.04
92267427|NCT00965562|184436533|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.32||||0.54|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the calcium group between visits 2 and 5 and changes in the placebo group between Visits 2 and 5, divided by the std dev in the placebo group at Visit 5|||||0.54
92267428|NCT05455684|184436539|SUPERIORITY||Least Square Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.2|=|0.467|TWO_SIDED|95.0|-3.24|1.49|||Mixed Model for Repeated Measures|||||1.49|-3.24|=0.467
92267429|NCT05455684|184436544|SUPERIORITY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.21|0.52||||||||0.52|-2.21|
92267430|NCT05204563|184436552|OTHER||Treatment difference|0.2|||||TWO_SIDED|95.0|-3.5|4.0||||||||4.0|-3.5|
92267431|NCT05204563|184436553|OTHER||Treatment difference|4.1|||||TWO_SIDED|95.0|-0.4|8.7||||||||8.7|-0.4|
92267432|NCT05204563|184436554|OTHER||Treatment difference|3.2|||||TWO_SIDED|95.0|-3.0|9.4||||||Day 14||9.4|-3.0|
92267433|NCT05204563|184436554|OTHER||Treatment difference|4.0|||||TWO_SIDED|95.0|-3.4|11.3||||||Day 28||11.3|-3.4|
92267434|NCT05204563|184436555|OTHER||Treatment difference|0.5|||||TWO_SIDED|95.0|-5.4|6.3||||||Day 14||6.3|-5.4|
92267435|NCT05204563|184436555|OTHER||Treatment difference|2.9|||||TWO_SIDED|95.0|-3.9|9.8||||||Day 28||9.8|-3.9|
92267436|NCT05204563|184436556|OTHER||Treatment difference|-0.8|||||TWO_SIDED|95.0|-4.9|3.3||||||Day 14||3.3|-4.9|
92267437|NCT05204563|184436556|OTHER||Treatment difference|2.2|||||TWO_SIDED|95.0|-2.7|7.2||||||Day 28||7.2|-2.7|
92267438|NCT05204563|184436557|OTHER||Treatment difference|2.1|||||TWO_SIDED|95.0|-4.7|8.9||||||Day 14||8.9|-4.7|
92267439|NCT05204563|184436557|OTHER||Treatment difference|1.3|||||TWO_SIDED|95.0|-6.5|9.1||||||Day 28||9.1|-6.5|
92267440|NCT05204563|184436558|OTHER||Treatment difference|-7.8|||||TWO_SIDED|95.0|-25.3|9.7||||||Day 14||9.7|-25.3|
92267441|NCT05204563|184436558|OTHER||Treatment difference|-7.8|||||TWO_SIDED|95.0|-25.3|9.7||||||Day 28||9.7|-25.3|
92267442|NCT05204563|184436559|OTHER||Treatment difference|3.6|||||TWO_SIDED|95.0|-6.0|13.2||||||Day 4||13.2|-6.0|
92267443|NCT05204563|184436559|OTHER||Treatment difference|3.5|||||TWO_SIDED|95.0|-5.3|12.3||||||EOT (up to Day 14)||12.3|-5.3|
92267444|NCT05204563|184436559|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-9.4|9.3||||||TOC (Day 21)||9.3|-9.4|
92267445|NCT05204563|184436559|OTHER||Treatment difference|2.7|||||TWO_SIDED|95.0|-6.9|12.2||||||LFU (Day 28)||12.2|-6.9|
92267446|NCT05204563|184436560|OTHER||Treatment difference|-2.2|||||TWO_SIDED|95.0|-18.1|13.6||||||Day 4||13.6|-18.1|
92267447|NCT05204563|184436560|OTHER||Treatment difference|12.3|||||TWO_SIDED|95.0|-1.6|26.3||||||EOT (up to Day 14)||26.3|-1.6|
92267448|NCT05204563|184436560|OTHER||Treatment difference|5.0|||||TWO_SIDED|95.0|-10.5|20.4||||||TOC (Day 21)||20.4|-10.5|
92267449|NCT05204563|184436560|OTHER||Treatment difference|8.9|||||TWO_SIDED|95.0|-6.9|24.7||||||LFU (Day 28)||24.7|-6.9|
92267450|NCT05204563|184436561|OTHER||Treatment difference|0.8|||||TWO_SIDED|95.0|-12.7|14.4||||||Day 4||14.4|-12.7|
92267451|NCT05204563|184436561|OTHER||Treatment difference|8.3|||||TWO_SIDED|95.0|-3.7|20.3||||||EOT (up to Day 14)||20.3|-3.7|
92267452|NCT05204563|184436561|OTHER||Treatment difference|8.6|||||TWO_SIDED|95.0|-4.8|21.9||||||TOC (Day 21)||21.9|-4.8|
92267453|NCT05204563|184436561|OTHER||Treatment difference|10.6|||||TWO_SIDED|95.0|-3.0|24.2||||||LFU (Day 28)||24.2|-3.0|
92267454|NCT05204563|184436562|OTHER||Treatment difference|2.3|||||TWO_SIDED|95.0|-8.3|12.8||||||Day 4||12.8|-8.3|
92267455|NCT05204563|184436562|OTHER||Treatment difference|1.7|||||TWO_SIDED|95.0|-6.7|10.1||||||EOT (up to Day 14)||10.1|-6.7|
92267456|NCT05204563|184436562|OTHER||Treatment Difference|0.4|||||TWO_SIDED|95.0|-9.2|10.0||||||TOC (Day 21)||10.0|-9.2|
92267457|NCT05204563|184436562|OTHER||Treatment difference|2.5|||||TWO_SIDED|95.0|-7.7|12.6||||||LFU (Day 28)||12.6|-7.7|
92267458|NCT05204563|184436563|OTHER||Treatment difference|-4.6|||||TWO_SIDED|95.0|-21.4|12.2||||||Day 4||12.2|-21.4|
92267459|NCT05204563|184436563|OTHER||Treatment difference|7.7|||||TWO_SIDED|95.0|-5.8|21.2||||||EOT (up to Day 14)||21.2|-5.8|
92267460|NCT05204563|184436563|OTHER||Treatment difference|6.3|||||TWO_SIDED|95.0|-9.4|22.0||||||TOC (Day 21)||22.0|-9.4|
92267461|NCT05204563|184436563|OTHER||Treatment difference|10.6|||||TWO_SIDED|95.0|-5.9|27.1||||||LFU (Day 28)||27.1|-5.9|
92267462|NCT05204563|184436564|OTHER||Treatment difference|5.9|||||TWO_SIDED|95.0|-20.3|32.1||||||Day 4||32.1|-20.3|
92190666|NCT03443063|184279744|OTHER||Percent (%) ratio of geometric means|124.94|||||TWO_SIDED|90.0|100.27|155.67|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||155.67|100.27|
92190667|NCT03443063|184279744|OTHER||Percent (%) ratio of geometric means|92.05|||||TWO_SIDED|90.0|66.87|126.71|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||126.71|66.87|
92190668|NCT03443063|184279745|OTHER||Percent (%) ratio of geometric means|136.28|||||TWO_SIDED|90.0|105.62|175.85|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||175.85|105.62|
92267463|NCT05204563|184436564|OTHER||Treatment difference|18.3|||||TWO_SIDED|95.0|-5.4|42.1||||||EOT (up to Day 14)||42.1|-5.4|
92267464|NCT05204563|184436564|OTHER||Treatment difference|23.0|||||TWO_SIDED|95.0|-1.5|47.5||||||TOC (Day 21)||47.5|-1.5|
92267465|NCT05204563|184436564|OTHER||Treatment difference|14.0|||||TWO_SIDED|95.0|-11.6|39.7||||||LFU (Day 28)||39.7|-11.6|
92267466|NCT05204563|184436565|OTHER||Treatment difference|10.9|||||TWO_SIDED|95.0|-3.5|25.3||||||EOT (up to Day 14)||25.3|-3.5|
92267467|NCT05204563|184436565|OTHER||Treatment difference|6.3|||||TWO_SIDED|95.0|-9.7|22.4||||||TOC (Day 21)||22.4|-9.7|
92267468|NCT05204563|184436565|OTHER||Treatment difference|8.7|||||TWO_SIDED|95.0|-7.3|24.7||||||LFU (Day 28)||24.7|-7.3|
92267469|NCT05204563|184436566|OTHER||Treatment difference|10.6|||||TWO_SIDED|95.0|-2.3|23.5||||||EOT (up to Day 14)||23.5|-2.3|
92267470|NCT05204563|184436566|OTHER||Treatment difference|6.4|||||TWO_SIDED|95.0|-7.2|20.0||||||TOC (Day 21)||20.0|-7.2|
92267471|NCT05204563|184436566|OTHER||Treatment difference|5.3|||||TWO_SIDED|95.0|-8.2|18.9||||||LFU (Day 28)||18.9|-8.2|
92267472|NCT05204563|184436567|OTHER||Treatment difference|19.2|||||TWO_SIDED|95.0|-6.4|44.8||||||EOT (up to Day 14)||44.8|-6.4|
92267473|NCT05204563|184436567|OTHER||Treatment difference|-1.2|||||TWO_SIDED|95.0|-24.3|22.0||||||TOC (Day 21)||22.0|-24.3|
92267474|NCT05204563|184436567|OTHER||Treatment difference|-10.2|||||TWO_SIDED|95.0|-32.9|12.5||||||LFU (Day 28)||12.5|-32.9|
92267475|NCT05204563|184436568|OTHER||Treatment difference|6.3|||||TWO_SIDED|95.0|-7.9|20.4||||||EOT (up to Day 14)||20.4|-7.9|
92267476|NCT05204563|184436568|OTHER||Treatment difference|7.5|||||TWO_SIDED|95.0|-9.5|24.5||||||TOC (Day 21)||24.5|-9.5|
92267477|NCT05204563|184436568|OTHER||Treatment difference|8.7|||||TWO_SIDED|95.0|-8.6|26.0||||||LFU (Day 28)||26.0|-8.6|
92267478|NCT05204563|184436569|OTHER||Treatment difference|23.3|||||TWO_SIDED|95.0|4.3|42.3||||||Klebsiella pneumoniae complex EOT (up to Day 14)||42.3|4.3|
92267479|NCT05204563|184436569|OTHER||Treatment difference|7.8|||||TWO_SIDED|95.0|-13.6|29.2||||||Klebsiella pneumoniae complex TOC (Day 21)||29.2|-13.6|
92267480|NCT05204563|184436569|OTHER||Treatment difference|11.9|||||TWO_SIDED|95.0|-9.6|33.5||||||Klebsiella pneumoniae complex LFU (Day 28)||33.5|-9.6|
92267481|NCT05204563|184436569|OTHER||Treatment difference|22.5|||||TWO_SIDED|95.0|-18.6|63.7||||||Pseudomonas aeruginosa EOT (up to Day 14)||63.7|-18.6|
92267482|NCT05204563|184436569|OTHER||Treatment difference|8.7|||||TWO_SIDED|95.0|-30.2|47.6||||||Pseudomonas aeruginosa TOC (Day 21)||47.6|-30.2|
92267483|NCT05204563|184436569|OTHER||Treatment difference|0.7|||||TWO_SIDED|95.0|-37.5|38.9||||||Pseudomonas aeruginosa LFU (Day 28)||38.9|-37.5|
92267484|NCT05204563|184436569|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-46.3|46.3||||||A.calco/baumannii complex EOT (up to Day 14)||46.3|-46.3|
92267485|NCT05204563|184436569|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-46.3|46.3||||||A.calco/baumannii complex TOC (Day 21)||46.3|-46.3|
92267486|NCT05204563|184436569|OTHER||Treatment difference|9.1|||||TWO_SIDED|95.0|-38.7|56.9||||||A.calco/baumannii complex LFU (Day 28)||56.9|-38.7|
92267487|NCT05204563|184436569|OTHER||Treatment difference|-40.0|||||TWO_SIDED|95.0|-100.0|37.9||||||Enterobacter cloacae complex EOT (up to Day 14)||37.9|-100.0|
92267488|NCT05204563|184436569|OTHER||Treatment difference|-60.0|||||TWO_SIDED|95.0|-100.0|17.9||||||Enterobacter cloacae complex TOC (Day 21)||17.9|-100.0|
92267489|NCT05204563|184436569|OTHER||Treatment difference|-60.0|||||TWO_SIDED|95.0|-100.0|17.9||||||Enterobacter cloacae complex LFU (Day 28)||17.9|-100.0|
92267490|NCT05204563|184436569|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-100.0|53.3||||||Klebsiella aerogenes EOT (up to Day 14)||53.3|-100.0|
92267491|NCT05204563|184436569|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-100.0|100.0||||||Klebsiella aerogenes TOC (Day 21)||100.0|-100.0|
92267492|NCT05204563|184436569|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-100.0|100.0||||||Klebsiella aerogenes LFU (Day 28)||100.0|-100.0|
92267493|NCT05204563|184436569|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-100.0|86.7||||||Escherichia coli TOC (Day 21)||86.7|-100.0|
92267494|NCT05204563|184436569|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-100.0|86.7||||||Escherichia coli LFU (Day 28)||86.7|-100.0|
92267495|NCT05204563|184436569|OTHER||Treatment difference|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Citrobacter koseri TOC (Day 21)||100.0|-94.3|
92267496|NCT05204563|184436569|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|94.3||||||Citrobacter koseri LFU (Day 28)||94.3|-100.0|
92267497|NCT05204563|184436569|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca TOC (Day 21)||0.0|-100.0|
92267498|NCT05204563|184436569|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca LFU (Day 28)||0.0|-100.0|
92267499|NCT05204563|184436570|OTHER||Treatment difference|18.0|||||TWO_SIDED|95.0|0.4|35.5||||||Klebsiella pneumoniae complex EOT (up to Day 14)||35.5|0.4|
92267500|NCT05204563|184436570|OTHER||Treatment difference|18.5|||||TWO_SIDED|95.0|-11.3|48.3||||||A.calco/baumannii complex EOT (up to Day 14)||48.3|-11.3|
92267501|NCT05204563|184436570|OTHER||Treatment difference|9.4|||||TWO_SIDED|95.0|-27.0|45.7||||||Pseudomonas aeruginosa EOT (up to Day 14)||45.7|-27.0|
92267502|NCT05204563|184436570|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-96.1|29.4||||||Burkholderia cepacia complex EOT (up to Day 14)||29.4|-96.1|
92267503|NCT05204563|184436570|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-96.1|29.4||||||Klebsiella aerogenes EOT (up to Day 14)||29.4|-96.1|
92267504|NCT05204563|184436570|OTHER||Treatment difference|-40.0|||||TWO_SIDED|95.0|-100.0|29.6||||||Enterobacter cloacae complex EOT (up to Day 14)||29.6|-100.0|
92311863|NCT00919126|184524786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7351||||0.0365|TWO_SIDED|95.0|0.038|1.432||Pairwise comparison was performed using the Tukey's test.|ANCOVA|The analysis of covariance was adjusted for quantity of propofol (mg) administered during the induction period, gender, type of surgery and centre.|The difference Xenon 70% in Oxygen minus Xenon 50% in Oxygen was assessed|||1.432|0.038|0.0365
92311864|NCT01644617|184524799|SUPERIORITY_OR_OTHER||Difference in Least Squares Means (LSM)|-3.62|||<|0.001|TWO_SIDED|95.0|-4.85|-2.39|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-2.39|-4.85|<0.001
92311865|NCT01644617|184524799|SUPERIORITY_OR_OTHER||Difference in LSM|-1.98||||0.003|TWO_SIDED|95.0|-3.24|-0.72|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.72|-3.24|0.003
92311866|NCT01644617|184524800|SUPERIORITY_OR_OTHER||Difference in LSM|-2.08|||<|0.001|TWO_SIDED|95.0|-3.14|-1.03|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-1.03|-3.14|<0.001
92311867|NCT01644617|184524800|SUPERIORITY_OR_OTHER||Difference in LSM|-1.23||||0.032||95.0|-2.36|-0.11|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.11|-2.36|0.032
92311868|NCT01644617|184524801|SUPERIORITY_OR_OTHER||Difference in LSM|-1.37||||0.007|TWO_SIDED|95.0|-2.34|-0.39|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.39|-2.34|0.007
92311869|NCT01644617|184524801|SUPERIORITY_OR_OTHER||Difference in LSM|-0.54||||0.198|TWO_SIDED|95.0|-1.38|0.29|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.29|-1.38|0.198
92311870|NCT01644617|184524802|SUPERIORITY_OR_OTHER||Difference in LSM|-4.84|||<|0.001|TWO_SIDED|95.0|-6.59|-3.09|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-3.09|-6.59|<0.001
92311871|NCT01644617|184524802|SUPERIORITY_OR_OTHER||Difference in LSM|-2.65||||0.003|TWO_SIDED|95.0|-4.35|-0.95|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.95|-4.35|0.003
92311872|NCT01644617|184524803|SUPERIORITY_OR_OTHER||Difference in LSM|-2.62|||<|0.001|TWO_SIDED|95.0|-4.12|-1.13|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-1.13|-4.12|<0.001
92311873|NCT01644617|184524803|SUPERIORITY_OR_OTHER||Difference in LSM|-1.37||||0.091|TWO_SIDED|95.0|-2.96|0.22|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.22|-2.96|0.091
92311874|NCT01644617|184524804|SUPERIORITY_OR_OTHER||Difference in LSM|-1.97||||0.004|TWO_SIDED|95.0|-3.3|-0.64|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.64|-3.30|0.004
92311875|NCT01644617|184524804|SUPERIORITY_OR_OTHER||Difference in LSM|-0.83||||0.181|TWO_SIDED|95.0|-2.06|0.4|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.40|-2.06|0.181
92311876|NCT01644617|184524805|SUPERIORITY_OR_OTHER||Difference in LSM|-1.27|||<|0.001|TWO_SIDED|95.0|-1.92|-0.62|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.62|-1.92|<0.001
92311877|NCT01644617|184524805|SUPERIORITY_OR_OTHER||Difference in LSM|-0.77||||0.023|TWO_SIDED|95.0|-1.43|-0.11|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.11|-1.43|0.023
92311878|NCT01644617|184524806|SUPERIORITY_OR_OTHER||Difference in LSM|-0.53||||0.082|TWO_SIDED|95.0|-1.13|0.07|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.07|-1.13|0.082
92190669|NCT03443063|184279745|OTHER||Percent (%) ratio of geometric means|154.29|||||TWO_SIDED|90.0|117.53|202.57|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||202.57|117.53|
92311879|NCT01644617|184524806|SUPERIORITY_OR_OTHER||Difference in LSM|-0.13||||0.691|TWO_SIDED|95.0|-0.79|0.52|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.52|-0.79|0.691
92311880|NCT01644617|184524807|SUPERIORITY_OR_OTHER||Difference in LSM|-0.61||||0.023|TWO_SIDED|95.0|-1.14|-0.09|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.09|-1.14|0.023
92311881|NCT01644617|184524807|SUPERIORITY_OR_OTHER||Difference in LSM|-0.34||||0.235|TWO_SIDED|95.0|-0.9|0.22|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.22|-0.90|0.235
92311882|NCT01644617|184524810|SUPERIORITY_OR_OTHER||Difference in LSM: D. pteronyssinus|0.55|||<|0.001|TWO_SIDED|95.0|0.43|0.68|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.68|0.43|<0.001
92311883|NCT01644617|184524810|SUPERIORITY_OR_OTHER||Difference in LSM: D. pteronyssinus|0.42|||<|0.001|TWO_SIDED|95.0|0.33|0.52|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.52|0.33|<0.001
92311884|NCT01644617|184524810|SUPERIORITY_OR_OTHER||Difference in LSM: D. farinae|0.52|||<|0.001|TWO_SIDED|95.0|0.41|0.64|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.64|0.41|<0.001
92311885|NCT01644617|184524810|SUPERIORITY_OR_OTHER||Difference in LSM: D. farinae|0.39|||<|0.001|TWO_SIDED|95.0|0.3|0.48|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.48|0.30|<0.001
92190670|NCT03443063|184279745|OTHER||Percent (%) ratio of geometric means|118.54|||||TWO_SIDED|90.0|87.84|159.97|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||159.97|87.84|
92190671|NCT03443063|184279746|OTHER||Percent (%) ratio of geometric means|138.62|||||TWO_SIDED|90.0|109.1|176.14|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||176.14|109.10|
92190672|NCT03443063|184279746|OTHER||Percent (%) ratio of geometric means|147.03|||||TWO_SIDED|90.0|109.06|198.22|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||198.22|109.06|
92190673|NCT03443063|184279746|OTHER||Percent (%) ratio of geometric means|136.42|||||TWO_SIDED|90.0|98.19|189.54|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||189.54|98.19|
92267505|NCT05204563|184436570|OTHER||Treatment difference|100.0|||||TWO_SIDED|95.0|0.0|100.0||||||Serratia marcescens EOT (up to Day 14)||100.0|0.0|
92267506|NCT05204563|184436570|OTHER||Treatment difference|0.3|||||TWO_SIDED|95.0|-19.4|20.0||||||Klebsiella pneumoniae complex TOC (Day 21)||20.0|-19.4|
92267507|NCT05204563|184436570|OTHER||Treatment difference|9.3|||||TWO_SIDED|95.0|-22.1|40.7||||||A.calco/baumannii complex TOC (Day 21)||40.7|-22.1|
92267508|NCT05204563|184436570|OTHER||Treatment difference|5.8|||||TWO_SIDED|95.0|-28.2|39.8||||||Pseudomonas aeruginosa TOC (Day 21)||39.8|-28.2|
92267509|NCT05204563|184436570|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-90.3|90.3||||||Burkholderia cepacia complex TOC (Day 21)||90.3|-90.3|
92267510|NCT05204563|184436570|OTHER||Treatment difference|16.7|||||TWO_SIDED|95.0|-75.0|100.0||||||Klebsiella aerogenes TOC (Day 21)||100.0|-75.0|
92267511|NCT05204563|184436570|OTHER||Treatment difference|-60.0|||||TWO_SIDED|95.0|-100.0|9.6||||||Enterobacter cloacae complex TOC (Day 21)||9.6|-100.0|
92267512|NCT05204563|184436570|OTHER||Treatment difference|-25.0|||||TWO_SIDED|95.0|-100.0|54.9||||||Escherichia coli TOC (Day 21)||54.9|-100.0|
92267513|NCT05204563|184436570|OTHER||Treatment difference|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Citrobacter koseri TOC (Day 21)||100.0|-94.3|
92267514|NCT05204563|184436570|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca TOC (Day 21)||0.0|-100.0|
92267515|NCT05204563|184436570|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Serratia marcescens TOC (Day 21)||0.0|-100.0|
92267516|NCT05204563|184436570|OTHER||Treatment difference|2.8|||||TWO_SIDED|95.0|-17.1|22.7||||||Klebsiella pneumoniae complex LFU (Day 28)||22.7|-17.1|
92267517|NCT05204563|184436570|OTHER||Treatment difference|3.0|||||TWO_SIDED|95.0|-28.4|34.3||||||A.calco/baumannii complex LFU (Day 28)||34.3|-28.4|
92267518|NCT05204563|184436570|OTHER||Treatment difference|-0.4|||||TWO_SIDED|95.0|-33.9|33.0||||||Pseudomonas aeruginosa LFU (Day 28)||33.0|-33.9|
92267519|NCT05204563|184436570|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-90.3|90.3||||||Burkholderia cepacia complex LFU (Day 28)||90.3|-90.3|
92267520|NCT05204563|184436570|OTHER||Treatment difference|16.7|||||TWO_SIDED|95.0|-75.0|100.0||||||Klebsiella aerogenes LFU (Day 28)||100.0|-75.0|
92267521|NCT05204563|184436570|OTHER||Treatment difference|-26.7|||||TWO_SIDED|95.0|-100.0|68.5||||||Enterobacter cloacae complex LFU (Day 28)||68.5|-100.0|
92267522|NCT05204563|184436570|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|36.5||||||Escherichia coli LFU (Day 28)||36.5|-100.0|
92267523|NCT05204563|184436570|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|94.3||||||Citrobacter koseri LFU (Day 28)||94.3|-100.0|
92267524|NCT05204563|184436570|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca LFU (Day 28)||0.0|-100.0|
92267525|NCT05204563|184436571|OTHER||Treatment difference|21.0|||||TWO_SIDED|95.0|2.4|39.6||||||Klebsiella pneumoniae complex EOT (up to Day 14)||39.6|2.4|
92267526|NCT05204563|184436571|OTHER||Treatment difference|18.2|||||TWO_SIDED|95.0|-25.7|62.0||||||Pseudomonas aeruginosa EOT (up to Day 14)||62.0|-25.7|
92267527|NCT05204563|184436571|OTHER||Treatment difference|-8.9|||||TWO_SIDED|95.0|-51.6|33.9||||||A.calco/baumannii complex EOT (up to Day 14)||33.9|-51.6|
92267528|NCT05204563|184436571|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|61.0||||||Klebsiella aerogenes EOT (up to Day 14)||61.0|-100.0|
92267529|NCT05204563|184436571|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|69.3||||||Enterobacter cloacae complex EOT (up to Day 14)||69.3|-100.0|
92267530|NCT05204563|184436571|OTHER||Treatment difference|9.7|||||TWO_SIDED|95.0|-12.7|32.1||||||Klebsiella pneumoniae complex TOC (Day 21)||32.1|-12.7|
92267531|NCT05204563|184436571|OTHER||Treatment difference|10.9|||||TWO_SIDED|95.0|-31.4|53.2||||||Pseudomonas aeruginosa TOC (Day 21)||53.2|-31.4|
92267532|NCT05204563|184436571|OTHER||Treatment difference|-8.9|||||TWO_SIDED|95.0|-51.6|33.9||||||A.calco/baumannii complex TOC (Day 21)||33.9|-51.6|
92267533|NCT05204563|184436571|OTHER||Treatment difference|16.7|||||TWO_SIDED|95.0|-100.0|100.0||||||Klebsiella aerogenes TOC (Day 21)||100|-100.0|
92267534|NCT05204563|184436571|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|69.3||||||Enterobacter cloacae complex TOC (Day 21)||69.3|-100.0|
92267535|NCT05204563|184436571|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-100.0|86.7||||||Escherichia coli TOC (Day 21)||86.7|-100.0|
92267536|NCT05204563|184436571|OTHER||Treatment difference|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Citrobacter koseri TOC (Day 21)||100.0|-94.3|
92267537|NCT05204563|184436571|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca TOC (Day 21)||0.0|-100.0|
92267538|NCT05204563|184436571|OTHER||Treatment difference|12.5|||||TWO_SIDED|95.0|-10.5|35.6||||||Klebsiella pneumoniae complex LFU (Day 28)||35.6|-10.5|
92267539|NCT05204563|184436571|OTHER||Treatment difference|1.8|||||TWO_SIDED|95.0|-39.9|43.5||||||Pseudomonas aeruginosa LFU (Day 28)||43.5|-39.9|
92267540|NCT05204563|184436571|OTHER||Treatment difference|2.2|||||TWO_SIDED|95.0|-45.1|49.6||||||A.calco/baumannii complex LFU (Day 28)||49.6|-45.1|
92267541|NCT05204563|184436571|OTHER||Treatment difference|16.7|||||TWO_SIDED|95.0|-100.0|100.0||||||Klebsiella aerogenes LFU (Day 28)||100.0|-100.0|
92267542|NCT05204563|184436571|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|69.3||||||Enterobacter cloacae complex LFU (Day 28)||69.3|-100.0|
92190674|NCT03443063|184279747|OTHER||Percent (%) ratio of geometric means|141.07|||||TWO_SIDED|90.0|103.79|191.73|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Lemborexant||191.73|103.79|
92190675|NCT03443063|184279747|OTHER||Percent (%) ratio of geometric means|124.48|||||TWO_SIDED|90.0|100.58|154.06|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||154.06|100.58|
92311886|NCT01644617|184524811|SUPERIORITY_OR_OTHER||Difference in LSM: D. pteronyssinus|0.23|||<|0.001|TWO_SIDED|95.0|0.13|0.33|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.33|0.13|<0.001
92311887|NCT01644617|184524811|SUPERIORITY_OR_OTHER||Difference in LSM: D. pteronyssinus|0.19|||<|0.001|TWO_SIDED|95.0|0.12|0.25|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.25|0.12|<0.001
92311888|NCT01644617|184524811|SUPERIORITY_OR_OTHER||Difference in LSM: D. farinae|0.32|||<|0.001|TWO_SIDED|95.0|0.23|0.42|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.42|0.23|<0.001
92311889|NCT01644617|184524811|SUPERIORITY_OR_OTHER||Difference in LSM: D. farinae|0.25|||<|0.001|TWO_SIDED|95.0|0.16|0.33|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.33|0.16|<0.001
92311890|NCT01644617|184524812|SUPERIORITY_OR_OTHER||Difference in Percentage Versus Placebo|12.4||||||95.0|-3.6|28.9|||||Analysis based on the Miettinen and Nurminen method|||28.9|-3.6|
92311891|NCT01644617|184524812|SUPERIORITY_OR_OTHER||Difference in Percentage Versus Placebo|9.8|||||TWO_SIDED|95.0|-7.0|26.6|||||Analysis based on the Miettinen and Nurminen method|||26.6|-7.0|
92311892|NCT01644617|184524813|SUPERIORITY_OR_OTHER||Difference in Percentage Versus Placebo|-7.5|||||TWO_SIDED|95.0|-22.6|6.7|||||Analysis based on the Miettinen and Nurminen method|||6.7|-22.6|
92311893|NCT01644617|184524813|SUPERIORITY_OR_OTHER||Difference in Percentage Versus Placebo|-14.6|||||TWO_SIDED|95.0|-28.5|-5.4|||||Analysis based on the Miettinen and Nurminen method|||-5.4|-28.5|
92311894|NCT02032680|184524814|SUPERIORITY|||||||0.3749|||||||Cochran-Armitage Trend Test|||The two treatments were compared to see whether participants in one achieved a higher level on their goals (i.e., the maximum level achieved on the goal).||||0.3749
92311895|NCT03593395|184524819|OTHER|Estimation only|Least Square Mean Estimate|2.46|||||TWO_SIDED|95.0|1.81|3.34|||||Estimates are from generalized linear mixed model with a negative binomial distribution log link construct and length of follow up offset. Includes fixed effects for site size, baseline acute utilization, and random effect for cluster (site).|||3.34|1.81|
92311896|NCT03593395|184524819|OTHER|Estimation only.|Least Square Mean Estimate|2.96|||||TWO_SIDED|95.0|2.09|4.19|||||Estimates are from generalized linear mixed model with a negative binomial distribution log link construct and length of follow up offset. Includes fixed effects for site size, baseline acute utilization, and random effect for cluster (site).|||4.19|2.09|
92311897|NCT03713632|184524834|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0149|TWO_SIDED|95.0|1.05|2.55||one-sided p-value|Regression, Logistic|||||2.55|1.05|0.0149
92311898|NCT03713632|184524834|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0022|TWO_SIDED|95.0|1.22|2.96||one-sided p-value|Regression, Logistic|||||2.96|1.22|0.0022
92190676|NCT03443063|184279747|OTHER||Percent (%) ratio of geometric means|143.31|||||TWO_SIDED|90.0|107.72|190.65|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||190.65|107.72|
92190677|NCT03443063|184279747|OTHER||Percent (%) ratio of geometric means|140.2|||||TWO_SIDED|90.0|98.11|200.35|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||200.35|98.11|
92190678|NCT00552513|184279760|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.15|TWO_SIDED|95.0|0.68|1.06|||Regression, Logistic|||||1.06|0.68|0.15
92311899|NCT03713632|184524835|SUPERIORITY||Mean Difference (Net)|-16.33||||0.0051|TWO_SIDED|95.0|-28.79|-3.88||one-side p-value|ANCOVA|||||-3.88|-28.79|0.0051
92311900|NCT03713632|184524835|SUPERIORITY||Mean Difference (Net)|-22.94||||0.0001|TWO_SIDED|95.0|-35.24|-10.63||one-side p-value|ANCOVA|||||-10.63|-35.24|0.0001
92311901|NCT03713632|184524836|SUPERIORITY||Odds Ratio (OR)|0.68||||0.0732|TWO_SIDED|95.0|0.41|1.14||one-sided p-value|Regression, Logistic|||||1.14|0.41|0.0732
92311902|NCT03713632|184524836|SUPERIORITY||Odds Ratio (OR)|0.49||||0.0049|TWO_SIDED|95.0|0.29|0.84||one-sided p-value|Regression, Logistic|||||0.84|0.29|0.0049
92311903|NCT03713632|184524837|SUPERIORITY||Odds Ratio (OR)|2.29||||0.0026|TWO_SIDED|95.0|1.28|4.09||one-sided p-value|Regression, Logistic|||||4.09|1.28|0.0026
92311904|NCT03713632|184524837|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0206|TWO_SIDED|95.0|1.03|3.37||one-sided p-value|Regression, Logistic|||||3.37|1.03|0.0206
92311905|NCT00719615|184524838|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||Only risk factors significant at the 0.10 level in univariate analysis were included in the multivariate model.|Fisher Exact|||Patient characteristics for each group were assessed using descriptive statistics, including medians, range, frequencies, and proportions. Categorical outcomes were compared between the 3 groups using a Fisher's exact test. A logistic regression modeling procedure was used to compare the odds of a low vitamin D levels between patient groups while adjusting for other risk factors: gender, age, BMI, season, and TNM staging.||||<0.05
92311906|NCT02995408|184524850|SUPERIORITY||Mean Difference (Final Values)|-0.99||||0.23|TWO_SIDED|95.0|-2.63|0.65||p-value was calculated|t-test, 2 sided|||||0.65|-2.63|.23
92311907|NCT02995408|184524851|SUPERIORITY||Mean Difference (Final Values)|5.78||||0.024|TWO_SIDED|95.0|0.78|10.78||.05 is the threshold for significance|t-test, 2 sided|||We examined between group (3RP treatment versus wait-list) differences in pre-post change scores of resiliency.||10.78|.78|0.024
92311908|NCT02995408|184524852|SUPERIORITY||Mean Difference (Final Values)|7.78||||0.001|TWO_SIDED|95.0|3.45|12.12||p=.05 is the threshold for significance.|t-test, 2 sided|||||12.12|3.45|0.001
92311909|NCT03126435|184524872|SUPERIORITY|||||||0.6647|||||||Log Rank|P-Value is from a stratified log-rank test.||||||0.6647
92311910|NCT03126435|184524873|SUPERIORITY|||||||0.4345|||||||Log Rank|P-Value is from a stratified log-rank test.||||||0.4345
92190679|NCT00552513|184279761|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72||||0.003|TWO_SIDED|95.0|0.58|0.89|||Regression, Logistic|||||0.89|0.58|0.003
92190680|NCT00552513|184279762|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.04|TWO_SIDED|95.0|0.71|0.99|||Regression, Logistic|||||0.99|0.71|0.04
92190681|NCT02507687|184279780|NON_INFERIORITY|"Statistical non-inferiority of Bimatoprost SR 10 µg to SLT was demonstrated if the upper limit of the 95% confidence interval (CI) for the least squares (LS) mean difference between the Bimatoprost SR 10 µg eyes and SLT eyes was ≤ 1.5 mmHg at Weeks 4, 12, and 24.~Clinical non-inferiority of Bimatoprost SR 10 µg to SLT was considered if the upper limit of the 95% CI was ≤ 1.0 mmHg at 2 out of the 3 visits of Weeks 4, 12, and 24."|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.24||0.0231|TWO_SIDED|95.0|-1.03|-0.08|||Mixed Effect Model Repeated Measurement|The model includes treatment, visit, eye, baseline IOP, treatment-by-visit, visit-by-baseline, and visit-by-eyes interactions as covariates.||||-0.08|-1.03|0.0231
92267543|NCT05204563|184436571|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-100.0|86.7||||||Escherichia coli LFU (Day 28)||86.7|-100.0|
92267544|NCT05204563|184436571|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|94.3||||||Citrobacter koseri LFU (Day 28)||94.3|-100.0|
92267545|NCT05204563|184436571|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca LFU (Day 28)||0.0|-100.0|
92267546|NCT05204563|184436572|OTHER||Treatment difference|30.3|||||TWO_SIDED|95.0|-4.2|64.8||||||A.calco/baumannii complex EOT (up to Day 14)||64.8|-4.2|
92267547|NCT05204563|184436572|OTHER||Treatment difference|12.0|||||TWO_SIDED|95.0|-19.1|43.2||||||A.calco/baumannii complex TOC (Day 21)||43.2|-19.1|
92267548|NCT05204563|184436572|OTHER||Treatment difference|0.5|||||TWO_SIDED|95.0|-29.0|29.9||||||A.calco/baumannii complex LFU (Day 28)||29.9|-29.0|
92267549|NCT05204563|184436572|OTHER||Treatment difference|-8.3|||||TWO_SIDED|95.0|-57.9|41.1||||||EOT (up to Day 14)||41.1|-57.9|
92267550|NCT05204563|184436572|OTHER||Treatment difference|-39.8|||||TWO_SIDED|95.0|-89.1|9.4||||||Klebsiella pneumoniae complex TOC (Day 21)||9.4|-89.1|
92267551|NCT05204563|184436572|OTHER||Treatment difference|-45.1|||||TWO_SIDED|95.0|-93.8|3.5||||||Klebsiella pneumoniae complex LFU (Day 28)||3.5|-93.8|
92267552|NCT05204563|184436572|OTHER||Treatment difference|20.5|||||TWO_SIDED|95.0|-59.8|100.0||||||Pseudomonas aeruginosa EOT (up to Day 14)||100.0|-59.8|
92267553|NCT05204563|184436572|OTHER||Treatment difference|-2.6|||||TWO_SIDED|95.0|-82.0|76.9||||||Pseudomonas aeruginosa TOC (Day 21)||76.9|-82.0|
92267554|NCT05204563|184436572|OTHER||Treatment difference|-17.9|||||TWO_SIDED|95.0|-95.3|59.4||||||Pseudomonas aeruginosa LFU (Day 28)||59.4|-95.3|
92267555|NCT05204563|184436572|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Escherichia coli LFU (Day 28)||0.0|-100.0|
92267556|NCT05204563|184436573|OTHER||Treatment difference|10.2|||||TWO_SIDED|95.0|-4.9|25.3||||||EOT (up to Day 14)||25.3|-4.9|
92267557|NCT05204563|184436573|OTHER||Treatment difference|3.0|||||TWO_SIDED|95.0|-13.0|19.0||||||TOC (Day 21)||19.0|-13.0|
92267558|NCT05204563|184436573|OTHER||Treatment difference|7.9|||||TWO_SIDED|95.0|-7.6|23.5||||||LFU (Day 28)||23.5|-7.6|
92267559|NCT05204563|184436574|OTHER||Treatment difference|7.5|||||TWO_SIDED|95.0|-5.8|20.8||||||EOT (up to Day 14)||20.8|-5.8|
92267560|NCT05204563|184436574|OTHER||Treatment difference|1.9|||||TWO_SIDED|95.0|-11.6|15.5||||||TOC (Day 21)||15.5|-11.6|
92267561|NCT05204563|184436574|OTHER||Treatment difference|4.1|||||TWO_SIDED|95.0|-9.2|17.4||||||LFU (Day 28)||17.4|-9.2|
92267562|NCT05204563|184436575|OTHER||Treatment difference|4.8|||||TWO_SIDED|95.0|-10.6|20.2||||||EOT (up to Day 14)||20.2|-10.6|
92267563|NCT05204563|184436575|OTHER||Treatment difference|3.2|||||TWO_SIDED|95.0|-14.0|20.4||||||TOC (Day 21)||20.4|-14.0|
92267564|NCT05204563|184436575|OTHER||Treatment difference|8.6|||||TWO_SIDED|95.0|-8.4|25.6||||||LFU (Day 28)||25.6|-8.4|
92267565|NCT05204563|184436576|OTHER||Treatment difference|11.2|||||TWO_SIDED|95.0|-14.5|36.9||||||EOT (up to Day 14)||36.9|-14.5|
92267566|NCT05204563|184436576|OTHER||Treatment difference|-5.4|||||TWO_SIDED|95.0|-28.4|17.6||||||TOC (Day 21)||17.6|-28.4|
92267567|NCT05204563|184436576|OTHER||Treatment difference|-10.2|||||TWO_SIDED|95.0|-32.9|12.5||||||LFU (Day 28)||12.5|-32.9|
92267568|NCT05643573|184436579|SUPERIORITY||Cox Proportional Hazard|3.785|||<|0.0001|TWO_SIDED|95.0|2.457|5.833|||Log Rank|||Comparison of Asundexian 50 mg verus Apixaban||5.833|2.457|<.0001
92267569|NCT05643573|184436579|SUPERIORITY||Fine-Gray model|3.79|||<|0.0001|TWO_SIDED|95.0|2.46|5.839|||Gray's test|||Comparison of Asundexian 50 mg verus Apixaban||5.839|2.460|<.0001
92267570|NCT05643573|184436580|SUPERIORITY||Fine-Gray model|0.319|||<|0.0001|TWO_SIDED|95.0|0.185|0.552|||Log Rank|||Comparison of Asundexian 50 mg verus Apixaban||0.552|0.185|<.0001
92267571|NCT05643573|184436580|SUPERIORITY||Fine-Gray model|0.316|||<|0.0001|TWO_SIDED|95.0|0.182|0.547|||Gray's test|||Comparison of Asundexian 50 mg verus Apixaban||0.547|0.182|<.0001
92267572|NCT05643573|184436581|SUPERIORITY||Fine-Gray model|1.61||||0.0011|TWO_SIDED|95.0|1.207|2.149|||Log Rank|||Comparison of Asundexian 50 mg verus Apixaban||2.149|1.207|0.0011
92267573|NCT05643573|184436581|SUPERIORITY||Fine-Gray model|1.599||||0.0013|TWO_SIDED|95.0|1.197|2.134|||Gray's test|||Comparison of Asundexian 50 mg verus Apixaban||2.134|1.197|0.0013
92267574|NCT02268214|184436602|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.0697|<|0.0001|TWO_SIDED|95.0|-0.56|-0.28|||RMM|Repeated Measures Model||||-0.28|-0.56|<0.0001
92267575|NCT02268214|184436602|SUPERIORITY||Median Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.0696|<|0.0001|TWO_SIDED|95.0|-0.58|-0.31|||RMM|Repeated Measures Model||||-0.31|-0.58|<0.0001
92267576|NCT02268214|184436603|SUPERIORITY||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|1.9555|<|0.0001|TWO_SIDED|95.0|-12.56|-4.88|||RMM|Repeated Measures Model||||-4.88|-12.56|<0.0001
92267577|NCT02268214|184436603|SUPERIORITY||Mean Difference (Final Values)|-13.17|STANDARD_ERROR_OF_MEAN|1.8643|<|0.0001|TWO_SIDED|95.0|-16.75|-9.43|||RMM|Repeated Measures Model||||-9.43|-16.75|<0.0001
92267578|NCT02268214|184436604|SUPERIORITY||Mean Difference (Final Values)|-3.05|STANDARD_ERROR_OF_MEAN|0.3251|<|0.0001|TWO_SIDED|95.0|-3.68|-2.41|||RMM|Repeated Measures Model||||-2.41|-3.68|<0.0001
92267579|NCT02268214|184436604|SUPERIORITY||Mean Difference (Final Values)|-3.72|STANDARD_ERROR_OF_MEAN|0.3213|<|0.0001|TWO_SIDED|95.0|-4.34|-3.08|||RMM|Repeated Measures Model||||-3.08|-4.34|<0.0001
92267580|NCT02268214|184436605|SUPERIORITY||Mean Difference (Final Values)|-15.34|STANDARD_ERROR_OF_MEAN|2.4859|<|0.0001|TWO_SIDED|95.0|-20.22|-10.46|||RMM|Repeated Measures Model||||-10.46|-20.22|<0.0001
92311911|NCT03126435|184524874|SUPERIORITY|||||||0.2632|||||||Regression, Logistic|P-value is from logistic regression model adjusted for stratification factors among non-missing records||||||0.2632
92311912|NCT03126435|184524876|SUPERIORITY|||||||0.1002|||||||Regression, Logistic|P-value is from logistic regression model adjusted for stratification factors among non-missing records.||||||0.1002
92311913|NCT03126435|184524877|SUPERIORITY|||||||0.9882|||||||Regression, Logistic|P-value is from logistic regression model adjusted for stratification factors among non-missing records.||||||0.9882
92311914|NCT02370238|184524885|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.589|TWO_SIDED|95.0|0.71|1.81||p-value based on a log-rank test stratified by randomized sub-populations, newly diagnosed metastatic patients and patients that had relapsed following a prior (neo)adjuvant chemotherapy regimen.|Log Rank|||||1.81|0.71|0.589
92311915|NCT02370238|184524886|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.897|TWO_SIDED|95.0|0.64|1.65||p-value based on a log-rank test stratified by randomized sub-populations, newly diagnosed metastatic patients and patients that had relapsed following a prior (neo)adjuvant chemotherapy regimen.|Log Rank|||||1.65|0.64|0.897
92311916|NCT02370238|184524887|SUPERIORITY||Odds Ratio (OR)|1.262||||0.667|TWO_SIDED|95.0|0.4909|3.963||P-value is based on Zelen's test for homogeneity of the odds ratios.|Zelen's test|||||3.963|0.4909|0.667
92311917|NCT02370238|184524889|SUPERIORITY|||||||0.767||||||For the All Patients group, p-value was based on a log-rank test stratified by actual sub-populations, newly diagnosed metastatic patients and patients that had relapsed following a prior (neo)adjuvant chemotherapy regimen.|Log Rank|||||||0.767
92311918|NCT02370238|184524890|SUPERIORITY||Odds Ratio (OR)|1.101||||0.667|TWO_SIDED|95.0|0.437|2.79||P-value was based on Zelen's test for homogeneity of the odds ratios|Zelen's test|||||2.790|0.437|0.667
92311919|NCT01937871|184524893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.41|||||TWO_SIDED|95.0|-2.25|-0.57||||||||-0.57|-2.25|
92311920|NCT01937871|184524897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|||||TWO_SIDED|95.0|-1.87|0.18||||||||0.18|-1.87|
92311921|NCT02652949|184524915|SUPERIORITY||Event rate|0.023|||<|0.0001|ONE_SIDED|97.5||0.081|||Exact binomial test|||"The primary study endpoint, major device effect at 30 days, is a dichotomous study outcome; hence, an exact method based on the binomial distribution was used for the hypothesis testing. The primary study endpoint was tested against a performance goal of 16%:~H0: p ≥ 16% vs. Ha: p \<16%, where p denotes the true event rate of primary study endpoint in the target population."||0.081||<0.0001
92311922|NCT03837743|184524947|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.42||0.022|TWO_SIDED||||||Paired t-test|||Difference in Change (week 4)||||0.022
92311923|NCT03837743|184524947|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.8||0.296|TWO_SIDED||||||Paired t-test|||Difference in Change (week 8)||||0.296
92311924|NCT05199090|184524954|OTHER||adjusted means|-1.9||||0.0182|TWO_SIDED|80.0|-2.9|-0.9|||MMRM analysis|||Comparison of adjusted means||-0.9|-2.9|0.0182
92311925|NCT05199090|184524954|OTHER||adjusted means|-1.3||||0.1205|TWO_SIDED|80.0|-2.4|-0.2|||MMRM analysis|||||-0.2|-2.4|0.1205
92190682|NCT02507687|184279781|NON_INFERIORITY|"Statistical non-inferiority of Bimatoprost SR 10 µg to SLT was demonstrated if the upper limit of the 95% confidence interval (CI) for the least squares (LS) mean difference between the Bimatoprost SR 10 µg eyes and SLT eyes was ≤ 1.5 mmHg at Weeks 4, 12, and 24.~Clinical non-inferiority of Bimatoprost SR 10 µg to SLT was considered if the upper limit of the 95% CI was ≤ 1.0 mmHg at 2 out of the 3 visits of Weeks 4, 12, and 24."|LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.31||0.1615|TWO_SIDED|95.0|-1.04|0.18|||Mixed Effect Model Repeated Measurement|The model includes treatment, visit, eye, baseline IOP, treatment-by-visit, visit-by-baseline, and visit-by-eyes interactions as covariates.||||0.18|-1.04|0.1615
92311926|NCT05199090|184524954|OTHER||adjusted means|-1.3||||0.0931|TWO_SIDED|80.0|-2.2|-0.3|||MMRM analysis|||||-0.3|-2.2|0.0931
92311927|NCT05199090|184524954|OTHER||adjusted means|0.6||||0.4994|TWO_SIDED|80.0|-0.5|1.7|||MMRM analysis|||||1.7|-0.5|0.4994
92311928|NCT05199090|184524954|OTHER||adjusted means|1.0||||0.2295|TWO_SIDED|80.0|-0.1|2.1|||MMRM analysis|||||2.1|-0.1|0.2295
92311929|NCT05199090|184524954|OTHER||adjusted means|-0.7||||0.2114|TWO_SIDED|80.0|-1.3|0.0|||MMRM analysis|||||0.0|-1.3|0.2114
92311930|NCT00384930|184524962|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change = Endpoint minus Baseline.|Permutation Test|||This is the principal inferential analysis of the primary outcome.||||<0.001
92311931|NCT00384930|184524963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57||||0.025||95.0|-1.08|-0.07||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||-0.07|-1.08|0.025
92311932|NCT00384930|184524963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|||<|0.001||95.0|-1.4|-0.4||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||-0.40|-1.40|<0.001
92311933|NCT00384930|184524963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.96|||<|0.001||95.0|-1.45|-0.46||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||-0.46|-1.45|<0.001
92311934|NCT00384930|184524963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.07|||<|0.001||95.0|-1.58|-0.57||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||-0.57|-1.58|<0.001
92311935|NCT00384930|184524964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97||||0.008||95.0|-1.69|-0.26||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||-0.26|-1.69|0.008
92311936|NCT00384930|184524964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.69|||<|0.001||95.0|-2.4|-0.98||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||-0.98|-2.40|<0.001
92311937|NCT00384930|184524964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.89|||<|0.001||95.0|-2.6|-1.18||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||-1.18|-2.60|<0.001
92311938|NCT00384930|184524964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.87|||<|0.001||95.0|-2.59|-1.15||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||-1.15|-2.59|<0.001
92311939|NCT00384930|184524965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.503||95.0|-0.28|0.14||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||0.14|-0.28|0.503
92311940|NCT00384930|184524965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.206||95.0|-0.34|0.07||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||0.07|-0.34|0.206
92311941|NCT00384930|184524965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.452||95.0|-0.28|0.13||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||0.13|-0.28|0.452
92311942|NCT00384930|184524965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26||||0.012||95.0|-0.47|-0.06||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||-0.06|-0.47|0.012
92311943|NCT00384930|184524966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26||||0.029||95.0|-0.49|-0.03||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||-0.03|-0.49|0.029
92311944|NCT00384930|184524966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37||||0.002||95.0|-0.6|-0.14||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||-0.14|-0.60|0.002
92190683|NCT02507687|184279782|NON_INFERIORITY|"Statistical non-inferiority of Bimatoprost SR 10 µg to SLT was demonstrated if the upper limit of the 95% confidence interval (CI) for the least squares (LS) mean difference between the Bimatoprost SR 10 µg eyes and SLT eyes was ≤ 1.5 mmHg at Weeks 4, 12, and 24.~Clinical non-inferiority of Bimatoprost SR 10 µg to SLT was considered if the upper limit of the 95% CI was ≤ 1.0 mmHg at 2 out of the 3 visits of Weeks 4, 12, and 24."|LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.29||0.1673|TWO_SIDED|95.0|-0.97|0.17|||Mixed Effect Model Repeated Measurement|The model includes treatment, visit, eye, baseline IOP, treatment-by-visit, visit-by-baseline, and visit-by-eyes interactions as covariates.||||0.17|-0.97|0.1673
92311945|NCT00384930|184524966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.43|||<|0.001||95.0|-0.66|-0.19||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||-0.19|-0.66|<0.001
92311946|NCT00384930|184524966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|||<|0.001||95.0|-0.64|-0.17||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||-0.17|-0.64|<0.001
92311947|NCT00384930|184524967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.583||95.0|-0.58|0.33||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||0.33|-0.58|0.583
92311948|NCT00384930|184524967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57||||0.013||95.0|-1.03|-0.12||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||-0.12|-1.03|0.013
92311949|NCT00384930|184524967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.55||||0.016||95.0|-1.0|-0.1||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||-0.10|-1.00|0.016
92311950|NCT00384930|184524967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.62||||0.007||95.0|-1.08|-0.17||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||-0.17|-1.08|0.007
92311951|NCT00384930|184524968|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||P-values are from Cochran-Mantel-Haenszel test stratified by the randomization strata factors (4 geographic regions, 2 levels of IPSS severity, 2 levels of ED history) as fixed effect, and were not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.133
92190684|NCT00275301|184279786|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Regression, Linear|||Examination of relationship between Borderline Personality Disorder symptoms and brain metabolism at baseline.||||<0.05
92311952|NCT00384930|184524968|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-values are from Cochran-Mantel-Haenszel test stratified by the randomization strata factors (4 geographic regions, 2 levels of IPSS severity, 2 levels of ED history) as fixed effect, and were not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.003
92190685|NCT04357964|184279787|EQUIVALENCE|Statistical significance was defined as p\< 0.05 for determining difference between groups at baseline in this observational study. There was no treatment intervention in this study, so there is no true equivalence margin.|||||<|0.01||||||Statistical significance was defined as p\< 0.05|Kruskal-Wallis|||||||<0.01
92267581|NCT02268214|184436605|SUPERIORITY||Mean Difference (Final Values)|-18.03|STANDARD_ERROR_OF_MEAN|2.505|<|0.0001|TWO_SIDED|95.0|-22.95|-13.11|||RMM|Repeated Measures Model||||-13.11|-22.95|<0.0001
92311953|NCT00384930|184524968|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from Cochran-Mantel-Haenszel test stratified by the randomization strata factors (4 geographic regions, 2 levels of IPSS severity, 2 levels of ED history) as fixed effect, and were not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|||||||<0.001
92311954|NCT00384930|184524968|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from Cochran-Mantel-Haenszel test stratified by the randomization strata factors (4 geographic regions, 2 levels of IPSS severity, 2 levels of ED history) as fixed effect, and were not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|||||||<0.001
92311955|NCT00384930|184524969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14||||0.735||95.0|-0.69|0.98||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||0.98|-0.69|0.735
92311956|NCT00384930|184524969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.355||95.0|-0.44|1.23||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||1.23|-0.44|0.355
92311957|NCT00384930|184524969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.34||||0.433||95.0|-0.5|1.17||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||1.17|-0.50|0.433
92311958|NCT00384930|184524969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74||||0.089||95.0|-0.11|1.59||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||1.59|-0.11|0.089
92311959|NCT00384930|184524970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.36|||<|0.001||95.0|1.56|5.17||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||5.17|1.56|<0.001
92311960|NCT00384930|184524970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.75|||<|0.001||95.0|2.95|6.54||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||6.54|2.95|<0.001
92311961|NCT00384930|184524970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.83|||<|0.001||95.0|4.04|7.62||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||7.62|4.04|<0.001
92311962|NCT00384930|184524970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.15|||<|0.001||95.0|4.35|7.95||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||7.95|4.35|<0.001
92311963|NCT00384930|184524971|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.58||||0.005||95.0|-2.68|-0.48||P-values are from an ANCOVA model with effect of treatment group, geographic region, and IPSS baseline value (at Visit 3) as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|This is a supportive analysis of the primary outcome.||-0.48|-2.68|0.005
92311964|NCT00384930|184524971|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|||<|0.001||95.0|-3.69|-1.51||P-values are from an ANCOVA model with effect of treatment group, geographic region, and IPSS baseline value (at Visit 3) as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|This is a supportive analysis of the primary outcome.||-1.51|-3.69|<0.001
92190686|NCT04357964|184279788|EQUIVALENCE|Statistical significance was defined as p \< 0.05. There was no intervention in this study, so there is no true equivalence margin.|||||<|0.01|||||||Pearson correlation|||||||<0.01
92190687|NCT04357964|184279789|EQUIVALENCE|Statistical significance was defined as p\< 0.05 for determining difference between groups in this observational study. There was no treatment intervention in this study, so there is no true equivalence margin.||||||0.52||||||Statistical significance was defined as p\< 0.05|Kruskal-Wallis|||||||0.52
92267582|NCT02268214|184436606|SUPERIORITY||Mean Difference (Final Values)|-17.3|STANDARD_ERROR_OF_MEAN|2.6273|<|0.0001|TWO_SIDED|95.0|-22.46|-12.14|||RMM|Repeated Measures Model||||-12.14|-22.46|<0.0001
92267583|NCT02268214|184436606|SUPERIORITY||Mean Difference (Final Values)|-18.93|STANDARD_ERROR_OF_MEAN|2.6482|<|0.0001|TWO_SIDED|95.0|-24.13|-13.73|||RMM|Repeated Measures Model||||-13.73|-24.13|<0.0001
92267584|NCT02268214|184436607|SUPERIORITY||Mean Difference (Final Values)|9.11|STANDARD_ERROR_OF_MEAN|1.1611|<|0.0001|TWO_SIDED|95.0|6.83|11.39|||RMM|Repeated Measures Model||||11.39|6.83|<0.0001
92311965|NCT00384930|184524971|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9|||<|0.001||95.0|-3.99|-1.81||P-values are from an ANCOVA model with effect of treatment group, geographic region, and IPSS baseline value (at Visit 3) as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|This is a supportive analysis of the primary outcome.||-1.81|-3.99|<0.001
92311966|NCT00384930|184524971|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.94|||<|0.001||95.0|-4.04|-1.84||P-values are from an ANCOVA model with effect of treatment group, geographic region, and IPSS baseline value (at Visit 3) as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|This is a supportive analysis of the primary outcome.||-1.84|-4.04|<0.001
92311967|NCT02686138|184525005|SUPERIORITY||Risk Difference (RD)|12.85|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92311968|NCT02686138|184525006|SUPERIORITY||Risk Difference (RD)|14.11|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92311969|NCT02686138|184525007|SUPERIORITY||Risk Difference (RD)|11.5||||0.004|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.004
92190688|NCT00733226|184279790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|0.52||0.05|TWO_SIDED|95.0|-3.2|-1.1||P value was not need to adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||The sample size was computed to prove that a 30% decrease of the rate of virus provoked wheezing attacks in the OM-85 group compared with placebo is statistically significant. Approximately 29 analyzable participants in each group were required, with α=0.05 and β=0.10 (ie, with a power of 90%), respectively. The difference of 30% was taken from both pilot study and clinical experience. Sample size estimation was performed by using NCSS and PASS 2000 software.||-1.10|-3.20|0.05
92311970|NCT02686138|184525008|SUPERIORITY||Risk Difference (RD)|11.16||||0.003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.003
92311971|NCT02686138|184525009|SUPERIORITY||Risk Difference (RD)|10.3||||0.01|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.01
92311972|NCT02686138|184525010|SUPERIORITY||Risk Difference (RD)|10.17||||0.013|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.013
92311973|NCT02686138|184525011|SUPERIORITY||Risk Difference (RD)|13.1|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92311974|NCT02686138|184525012|SUPERIORITY||Risk Difference (RD)|16.18|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92311975|NCT02686138|184525013|SUPERIORITY||Risk Difference (RD)|9.17||||0.015|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.015
92190689|NCT00733226|184279791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|-3.06|-1.01||P value was not need to adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||-1.01|-3.06|<0.001
92190690|NCT00733226|184279792|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.94|-1.27|||Wilcoxon (Mann-Whitney)|P value was not need to adjusted for multiple comparisons||||-1.27|-2.94|<0.001
92311976|NCT01685840|184525019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.88|TWO_SIDED|95.0|0.79|1.22||A sample size of 1100 patients was expected to provide approximately 90% power to detect a difference in the primary endpoint with an assumed type I error rate of 0.05, 2-sided. Analysis was adjusted for age, sex, ejection fraction, NT-proBNP and DM.|Regression, Cox|||||1.22|0.79|0.88
92311977|NCT01685840|184525020|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86||||0.37|TWO_SIDED|95.0|0.62|1.2|||Regression, Cox|||||1.20|0.62|0.37
92311978|NCT01685840|184525021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.0||||0.53|TWO_SIDED|95.0|-20.0|39.0|||Bang-Tsiatis Partitioned Estimator|||||39|-20|0.53
92311979|NCT01685840|184525022|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.75|TWO_SIDED|95.0|0.65|1.37|||Regression, Cox|||||1.37|0.65|0.75
92311980|NCT01685840|184525023|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.76|TWO_SIDED|95.0|0.82|1.31|||Regression, Cox|||||1.31|0.82|0.76
92311981|NCT01685840|184525024|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.08|TWO_SIDED|95.0|0.97|1.72|||Anderson-Gill Intensity Model|||||1.72|0.97|0.08
92311982|NCT01685840|184525025|SUPERIORITY|||||||0.636|||||||Mixed Models Analysis|||Baseline||||0.636
92311983|NCT01685840|184525025|SUPERIORITY|||||||0.628|||||||Mixed Models Analysis|||3 month||||0.628
92311984|NCT01685840|184525025|SUPERIORITY|||||||0.586|||||||Mixed Models Analysis|||6 month||||0.586
92311985|NCT01685840|184525025|SUPERIORITY|||||||0.669|||||||Mixed Models Analysis|||12 month||||0.669
92311986|NCT01685840|184525025|SUPERIORITY|||||||0.949|||||||Mixed Models Analysis|||24 month||||0.949
92311987|NCT01685840|184525026|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.404|TWO_SIDED|95.0|-1.188|2.947||Adjusted P-value|Mixed Models Analysis|||3 month||2.947|-1.188|0.404
92311988|NCT01685840|184525026|SUPERIORITY||Mean Difference (Final Values)|1.478||||0.219|TWO_SIDED|95.0|-0.881|3.836||Adjusted P-value|Mixed Models Analysis|||6 month||3.836|-0.881|0.219
92311989|NCT01685840|184525026|SUPERIORITY||Mean Difference (Final Values)|2.099||||0.104|TWO_SIDED|95.0|-0.433|4.63||Adjusted P-value|Mixed Models Analysis|||12 month||4.630|-0.433|0.104
92311990|NCT01685840|184525026|SUPERIORITY||Mean Difference (Final Values)|1.999||||0.228|TWO_SIDED|95.0|-1.253|5.25|||Mixed Models Analysis|||24 month||5.250|-1.253|0.228
92311991|NCT01685840|184525027|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.421|TWO_SIDED|95.0|-0.025|0.06||Adjusted P-value|Mixed Models Analysis|||3 month||0.060|-0.025|0.421
92311992|NCT01685840|184525027|SUPERIORITY||Mean Difference (Final Values)|0.028||||0.239|TWO_SIDED|95.0|-0.018|0.074||Adjusted P-value|Mixed Models Analysis|||6 month||0.074|-0.018|0.239
92311993|NCT01685840|184525027|SUPERIORITY||Mean Difference (Final Values)|0.021||||0.402|TWO_SIDED|95.0|-0.028|0.07|||Mixed Models Analysis|||12 month||0.070|-0.028|0.402
92311994|NCT01685840|184525027|SUPERIORITY||Mean Difference (Final Values)|0.009||||0.78|TWO_SIDED|95.0|-0.057|0.076||Adjusted P-value|Mixed Models Analysis|||24 month||0.076|-0.057|0.780
92311995|NCT01685840|184525028|SUPERIORITY||Mean Difference (Final Values)|-2.131||||0.268|TWO_SIDED|95.0|-5.902|1.64||Adjusted P-value|Mixed Models Analysis|||3 month||1.640|-5.902|0.268
92311996|NCT01685840|184525028|SUPERIORITY||Mean Difference (Final Values)|1.069||||0.599|TWO_SIDED|95.0|-2.921|5.058|||Mixed Models Analysis|||6 month||5.058|-2.921|0.599
92311997|NCT01685840|184525028|SUPERIORITY||Mean Difference (Final Values)|-0.389||||0.852|TWO_SIDED|95.0|-4.486|3.707||Adjusted P-value|Mixed Models Analysis|||12 month||3.707|-4.486|0.852
92311998|NCT01685840|184525028|SUPERIORITY||Mean Difference (Final Values)|-3.343||||0.221|TWO_SIDED|95.0|-8.708|2.022||Adjusted P-value|Mixed Models Analysis|||24 month||2.022|-8.708|0.221
92311999|NCT01685840|184525029|SUPERIORITY||Mean Difference (Final Values)|-0.816||||0.615|TWO_SIDED|95.0|-3.999|2.367||Adjusted P-value|Mixed Models Analysis|||3 month||2.367|-3.999|0.615
92312000|NCT01685840|184525029|SUPERIORITY||Mean Difference (Final Values)|0.252||||0.878|TWO_SIDED|95.0|-2.977|3.482||Adjusted P-value|Mixed Models Analysis|||6 month||3.482|-2.977|0.878
92312001|NCT01685840|184525029|SUPERIORITY||Mean Difference (Final Values)|-1.406||||0.441|TWO_SIDED|95.0|-4.989|2.178||Adjusted P-value|Mixed Models Analysis|||12 month||2.178|-4.989|0.441
92312002|NCT01685840|184525029|SUPERIORITY||Mean Difference (Final Values)|1.091||||0.653|TWO_SIDED|95.0|-3.673|5.856||Adjusted P-value|Mixed Models Analysis|||24 month||5.856|-3.673|0.653
92312003|NCT01685840|184525030|SUPERIORITY||Mean Difference (Final Values)|-1.226||||0.199|TWO_SIDED|95.0|-3.097|0.645||Adjusted P-value|Mixed Models Analysis|||3 month||0.645|-3.097|0.199
92312004|NCT01685840|184525030|SUPERIORITY||Mean Difference (Final Values)|-0.742||||0.465|TWO_SIDED|95.0|-2.735|1.25|||Mixed Models Analysis|||6 month||1.250|-2.735|0.465
92312005|NCT01685840|184525030|SUPERIORITY||Mean Difference (Final Values)|-0.074||||0.943|TWO_SIDED|95.0|-2.119|1.97||Adjusted P-value|Mixed Models Analysis|||12 month||1.970|-2.119|0.943
92312006|NCT01685840|184525030|SUPERIORITY||Mean Difference (Final Values)|1.478||||0.294|TWO_SIDED|95.0|-1.286|4.241||Adjusted P-value|Mixed Models Analysis|||24 month||4.241|-1.286|0.294
92312007|NCT01685840|184525031|SUPERIORITY||Mean Difference (Final Values)|-1.579||||0.294|TWO_SIDED|95.0|-4.527|1.369||Adjusted P-value|Mixed Models Analysis|||3 month||1.369|-4.527|0.294
92312008|NCT01685840|184525031|SUPERIORITY||Mean Difference (Final Values)|-0.946||||0.555|TWO_SIDED|95.0|-4.096|2.203||Adjusted P-value|Mixed Models Analysis|||6 month||2.203|-4.096|0.555
92312009|NCT01685840|184525031|SUPERIORITY||Mean Difference (Final Values)|-0.798||||0.643|TWO_SIDED|95.0|-4.178|2.583||Adjusted P-value|Mixed Models Analysis|||12 month||2.583|-4.178|0.643
92312010|NCT01685840|184525031|SUPERIORITY||Mean Difference (Final Values)|-0.647||||0.757|TWO_SIDED|95.0|-4.767|3.472||Adjusted P-value|Mixed Models Analysis|||24 month||3.472|-4.767|0.757
92312011|NCT01685840|184525032|SUPERIORITY||Mean Difference (Final Values)|-0.484||||0.837|TWO_SIDED|95.0|-5.102|4.133||Adjusted P-value|Mixed Models Analysis|||3 month||4.133|-5.102|0.837
92312012|NCT01685840|184525032|SUPERIORITY||Mean Difference (Final Values)|-2.693||||0.288|TWO_SIDED|95.0|-7.662|2.276||Adjusted P-value|Mixed Models Analysis|||6 month||2.276|-7.662|0.288
92190691|NCT00733226|184279793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.22||0.11|TWO_SIDED|95.0|-0.77|0.11||P value was not need to adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||0.11|-0.77|0.110
92312013|NCT01685840|184525032|SUPERIORITY||Mean Difference (Final Values)|-1.539||||0.567|TWO_SIDED|95.0|-6.81|3.732||Adjusted P-value|Mixed Models Analysis|||12 month||3.732|-6.810|0.567
92312014|NCT01685840|184525032|SUPERIORITY||Mean Difference (Final Values)|2.512||||0.475|TWO_SIDED|95.0|-4.394|9.419||Adjusted P-value|Mixed Models Analysis|||24 month||9.419|-4.394|0.475
92312015|NCT01685840|184525033|SUPERIORITY||Mean Difference (Final Values)|1.057||||0.696|TWO_SIDED|95.0|-4.25|6.364||Adjusted P-value|Mixed Models Analysis|||3 month||6.364|-4.250|0.696
92312016|NCT01685840|184525033|SUPERIORITY||Mean Difference (Final Values)|1.966||||0.497|TWO_SIDED|95.0|-3.715|7.647||Adjusted P-value|Mixed Models Analysis|||6 months||7.647|-3.715|0.497
92312017|NCT01685840|184525033|SUPERIORITY||Mean Difference (Final Values)|6.564||||0.035|TWO_SIDED|95.0|0.456|12.673||Adjusted P-value|Mixed Models Analysis|||12 month||12.673|0.456|0.035
92312018|NCT01685840|184525033|SUPERIORITY||Mean Difference (Final Values)|2.857||||0.488|TWO_SIDED|95.0|-5.247|10.961||Adjusted P-value|Mixed Models Analysis|||24 month||10.961|-5.247|0.488
92312019|NCT01685840|184525034|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.992|TWO_SIDED|95.0|-3.383|3.417||Adjusted P-value|Mixed Models Analysis|||3 month||3.417|-3.383|0.992
92312020|NCT01685840|184525034|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.882|TWO_SIDED|95.0|-3.409|3.969||Adjusted P-value|Mixed Models Analysis|||6 month||3.969|-3.409|0.882
92312021|NCT01685840|184525034|SUPERIORITY||Mean Difference (Final Values)|0.904||||0.647|TWO_SIDED|95.0|-2.973|4.782||Adjusted P-value|Mixed Models Analysis|||12 month||4.782|-2.973|0.647
92312022|NCT01685840|184525034|SUPERIORITY||Mean Difference (Final Values)|0.322||||0.903|TWO_SIDED|95.0|-4.894|5.538||Adjusted P-value|Mixed Models Analysis|||24 month||5.538|-4.894|0.903
92312023|NCT01685840|184525035|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Hospitalizations||||0.74
92312024|NCT01685840|184525035|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||ER only events||||0.45
92190692|NCT00733226|184279794|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.14||0.195|TWO_SIDED|95.0|-0.55|0.03||P value was not need to adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||0.03|-0.55|0.195
92190693|NCT00733226|184279795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22|STANDARD_ERROR_OF_MEAN|0.82||0.452|TWO_SIDED|95.0|-2.87|0.42||P value was not need to adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||0.42|-2.87|0.452
92190694|NCT01540162|184279797|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.23||||0.05|TWO_SIDED|95.0|0.05|0.73|||Chi-squared|||||0.73|0.05|0.05
92312025|NCT01685840|184525035|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Rehab facilities||||0.67
92312026|NCT01685840|184525035|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Total admissions||||0.47
92312027|NCT01685840|184525036|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Hospital Costs||||0.88
92312028|NCT01685840|184525036|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Physician Fees||||0.69
92312029|NCT01685840|184525036|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Total Cost||||0.88
92312030|NCT01252277|184525070|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustment for multiple comparisons. A priori threshold for statistical significance, p\<0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
92312031|NCT01252277|184525071|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED|||||No adjustment for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.021
92312032|NCT01252277|184525072|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustment for multiple comparisons. A priori threshold for statistical significance p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
92312033|NCT01252277|184525073|SUPERIORITY_OR_OTHER|||||||0.48||||||No adjustment for multiple comparisons. A priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.48
92312034|NCT00345631|184525161|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.68|||<|0.0001|TWO_SIDED|95.0|-19.04|-12.31||Multiplicity is addressed for the two co-primary effectiveness endpoints via a closed testing procedure where the time to hemostasis will be assessed first and then time to ambulation only if significance is first achieved for time to hemostasis.|t-test, 2 sided|||"Null hypothesis: The mean time to hemostasis for the manual compression (MC) arm is less or equal to that for the vascular closure device (VCD) arm.~The trial is powered to detect a 5 minute reduction in mean time to hemostasis and a 2 hour reduction in mean time to ambulation for VCD vs. MC with over 90% power and a 5% two-sided (2.5% one-sided) Type I error"||-12.31|-19.04|<0.0001
92190695|NCT02288364|184279802|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Chi-squared|||||||0.30
92190696|NCT02288364|184279803|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Chi-squared|||||||0.08
92190697|NCT02288364|184279804|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Chi-squared|||||||0.29
92190698|NCT03619889|184279817|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92190699|NCT03619889|184279817|OTHER||Mean Difference (Net)|-1.2|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92190700|NCT03619889|184279824|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92190701|NCT03619889|184279824|OTHER||Mean Difference (Net)|-0.65|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92190702|NCT00821119|184279839|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7|STANDARD_ERROR_OF_MEAN|0.16|<|0.05|TWO_SIDED|95.0|0.48|1.14|||risk ratio (RR)|||"Based on previous data from our NICU, 40 - 45% of our preterm infants administered early NCPAP for RDS needed intubation and mechanical ventilation within the first 72h of life. We estimated a 20% absolute reduction in the need of using ETT ventilation with the early use of NIPPV. A sample size of 100 infants per group was calculated with a power of 80% and an alpha error of 5%.~The analysis was performed according to the intention-to-treat principle."||1.14|0.48|<0.05
92267585|NCT02268214|184436607|SUPERIORITY||Mean Difference (Final Values)|10.65|STANDARD_ERROR_OF_MEAN|1.1689|<|0.0001|TWO_SIDED|95.0|8.35|12.94|||RMM|Repeated Measures Model||||12.94|8.35|<0.0001
92267586|NCT02268214|184436608|SUPERIORITY||Odds Ratio (OR)|3.09|STANDARD_ERROR_OF_MEAN|0.198|<|0.0001|TWO_SIDED|95.0|2.1|4.56|||Regression, Logistic|||||4.56|2.10|<0.0001
92267587|NCT02268214|184436608|SUPERIORITY||Odds Ratio (OR)|3.29|STANDARD_ERROR_OF_MEAN|0.1979|<|0.0001|TWO_SIDED|95.0|2.23|4.85|||Regression, Logistic|||||4.85|2.23|<0.0001
92267588|NCT03378921|184436629|SUPERIORITY|||||||0.183||||||The threshold for statistical significance was P = 0.05|Log Rank|||The sample size (n = 26) was calculated according to the estimation that the remission rate in the FMT group would be 80% and 25% in the placebo group during the follow-up of 1 year. This difference of 55% was considered to be clinically meaningful. The significance level was selected to be 1%, and the power was set to 90%.||||0.183
92267589|NCT03677440|184436631|SUPERIORITY|||||||0.34|||||||ANOVA|||This involves a repeated-measures ANOVA testing a condition (i.e., treadmill walking exercise training vs. stretching-and-toning exercise training)-by-time (i.e., baseline, follow-up) interaction on Symbol Digit Modalities Test scores.||||.34
92267590|NCT03677440|184436632|SUPERIORITY|||||||0.01|||||||t-test, 1 sided|||||||.01
92267591|NCT03677440|184436633|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||||||.02
92267592|NCT03677440|184436634|SUPERIORITY|||||||0.63|||||||ANOVA|||||||.63
92267593|NCT03677440|184436635|SUPERIORITY||Partial eta-squared|0.067||||0.2|TWO_SIDED||||||ANOVA|||||||.20
92267594|NCT03677440|184436636|SUPERIORITY|||||||0.96|||||||ANOVA|||||||.96
92267595|NCT03677440|184436637|SUPERIORITY|||||||0.55|||||||ANOVA|||||||.55
92267596|NCT03677440|184436638|SUPERIORITY||Partial eta-squared|0.087||||0.14|TWO_SIDED||||||ANOVA|||||||.14
92267597|NCT03677440|184436639|SUPERIORITY|||||||0.69|||||||ANOVA|||||||.69
92267598|NCT03677440|184436640|SUPERIORITY||Partial eta-squared|0.048||||0.28|TWO_SIDED||||||ANOVA|||||||.28
92267599|NCT01233284|184436652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.09|0.186|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.186|0.090|<0.0001
92267600|NCT01233284|184436652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.08|0.176|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.176|0.080|<0.0001
92267601|NCT01233284|184436652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.14|0.236|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.236|0.140|<0.0001
92267602|NCT01233284|184436653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.078|0.173|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.173|0.078|<0.0001
92267603|NCT01233284|184436653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.084|0.179|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.179|0.084|<0.0001
92267604|NCT01233284|184436653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.096|0.191|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.191|0.096|<0.0001
92267605|NCT01233284|184436654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.083|0.175|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.175|0.083|<0.0001
92267606|NCT01233284|184436654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.081|0.172|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.172|0.081|<0.0001
92267607|NCT01233284|184436654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.132|0.224|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.224|0.132|<0.0001
92267608|NCT01233284|184436655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.027||0.0034||95.0|0.026|0.132|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.132|0.026|0.0034
92312035|NCT00345631|184525162|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.7||||0.0028|TWO_SIDED|95.0|-5.53|-1.87||Multiplicity is addressed for the two co-primary effectiveness endpoints via a closed testing procedure where the time to hemostasis will be assessed first and then time to ambulation only if significance is first achieved for time to hemostasis.|t-test, 2 sided|||"Null hypothesis:The mean time to ambulation for the manual compression (MC) arm is less or equal to that for the vascular closure device (VCD) arm.~The trial is powered to detect a 5 minute reduction in mean time to hemostasis and a 2 hour reduction in mean time to ambulation for VCD vs. MC with over 90% power and a 5% two-sided (2.5% one-sided) Type I error"||-1.87|-5.53|0.0028
92312036|NCT00345631|184525163|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is adequate to rule out a 4% or larger disadvantage for VCD vs. MC (null hypothesis: 2.5% MC vs. 6.5% VCD) in the incidence of major complications for VCD vs. MC using a 95% upper confidence bound for the VCD - MC difference with 80% power and a 5% one-sided Type I error|Mean Difference (Final Values)|0.0||||0.0006|ONE_SIDED|95.0||1.14||P-value was calculated using unconditional exact test of non-inferiority for difference of two binomial proportions (VCD vs. MC) with a margin of 4%.|unconditional exact test|||Based on pre-planned hypotheses, a minimum sample size of 390 randomized patients (260 VCD patients and 130 MC patients) would demonstrate non-inferiority for the primary safety endpoint and superiority for both co-primary effectiveness endpoints in comparing VCD vs. MC.||1.14||0.0006
92312037|NCT00345631|184525164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.154|TWO_SIDED|95.0|-7.84|0.45|||t-test, 2 sided|||Null hypothesis: The mean time to eligibility for hospital discharge for the manual compression (MC) arm is equal to that for the vascular closure device (VCD) arm.||0.45|-7.84|0.1540
92312038|NCT00345631|184525165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.57||||0.3612|TWO_SIDED|95.0|-7.46|2.31|||t-test, 2 sided|||Null hypothesis: The mean time to hospital discharge for the manual compression (MC) arm is equal to that for the vascular closure device (VCD) arm.||2.31|-7.46|0.3612
92312039|NCT00345631|184525168|SUPERIORITY_OR_OTHER||Proportion difference|0.7||||0.85|TWO_SIDED|95.0|-4.8|7.4|||t-test, 2 sided|||Null hypothesis: The percentages of patients achieving procedure success between the vascular closure device and manual compression arms are equal.||7.4|-4.8|0.85
92312040|NCT00517556|184525170|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
92312041|NCT01906515|184525181|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
92312042|NCT01906515|184525182|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92312043|NCT00459355|184525299|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||MANCOVA|||||||<0.0001
92312044|NCT00459355|184525300|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||MANCOVA|||||||<.0001
92312045|NCT00459355|184525301|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||MANCOVA|||||||.002
92312046|NCT02969382|184525305|SUPERIORITY||Mean Difference (Net)|-7.5|STANDARD_ERROR_OF_MEAN|2.23||0.001|TWO_SIDED|95.0|-11.9|-3.0|||Mixed Models Analysis|||||-3.0|-11.9|0.001
92312047|NCT02969382|184525306|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.7|-0.2|||Mixed Models Analysis|||||-0.2|-0.7|<0.001
92190703|NCT00821119|184279840|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7|STANDARD_ERROR_OF_MEAN|0.16||0.05|TWO_SIDED|95.0|0.48|1.14|||risk ratio (RR)|||Based on previous data from our NICU, 40 - 45% of our preterm infants administered early NCPAP for RDS needed intubation and mechanical ventilation within the first 72h of life. We estimated a 20% absolute reduction in the need of using ETT ventilation with the early use of NIPPV. A sample size of 100 infants per group was calculated with a power of 80% and an alpha error of 5%.||1.14|0.48|0.05
92190704|NCT00821119|184279841|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|95.0|0.62|1.78|||risk ratio (RR)|||The study was not powered for this outcome. However this analysis was done with this limitation||1.78|0.62|< 0.05
92190705|NCT03511378|184279842|NON_INFERIORITY|Non-inferiority was assessed using a margin of -0.10|Difference in proportions|-0.0296||||0.007|ONE_SIDED|95.0|-0.076||||Difference in proportion|Binomial proportion used to present difference in proportion in treatments||Analysis population : ITT|||-0.076|0.007
92190706|NCT03511378|184279843|NON_INFERIORITY|Noninferiority is assessed using a margin of 10 percentage points.|Difference in proportions|0.0145|||<|0.001|ONE_SIDED|95.0|-0.0092||||Difference in proportion||Difference of proportion analysed with one sided 95% confidence interval|Analysis population: ITT|||-0.0092|<0.001
92312048|NCT02969382|184525307|SUPERIORITY||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|0.71||0.019|TWO_SIDED|95.0|-3.1|-0.3|||Mixed Models Analysis|||||-0.3|-3.1|0.019
92312049|NCT02969382|184525308|SUPERIORITY||Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|0.55||0.008|TWO_SIDED|95.0|-2.6|-0.4|||Mixed Models Analysis|||||-0.4|-2.6|0.008
92312050|NCT02969382|184525309|SUPERIORITY||Mean Difference (Net)|-4.3|STANDARD_ERROR_OF_MEAN|1.15|<|0.001|TWO_SIDED|95.0|-6.6|-2.0|||Mixed Models Analysis|||||-2.0|-6.6|<0.001
92312051|NCT02969382|184525310|SUPERIORITY||Mean Difference (Net)|-4.3|STANDARD_ERROR_OF_MEAN|1.26|<|0.001|TWO_SIDED|95.0|-6.8|-1.8|||Mixed Models Analysis|||||-1.8|-6.8|<0.001
92312052|NCT02969382|184525311|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.75||0.02|TWO_SIDED|95.0|-3.2|-0.3|||Mixed Models Analysis|||||-0.3|-3.2|0.020
92312053|NCT02969382|184525312|SUPERIORITY||Odds Ratio (OR)|2.645||||0.002|TWO_SIDED|95.0|1.422|4.921|||Regression, Logistic|||||4.921|1.422|0.002
92312054|NCT02969382|184525314|OTHER|||||||0.498|||||||Fisher Exact|||||||0.498
92312055|NCT02969382|184525315|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92312056|NCT02969382|184525316|OTHER|||||||0.498|||||||Fisher Exact|||||||0.498
92312057|NCT00886015|184525341|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36|||||TWO_SIDED|95.0|0.96|1.93||||||||1.93|0.96|
92190707|NCT05012280|184279846|SUPERIORITY||Odds Ratio (OR)|1.221||||0.115|TWO_SIDED|95.0|0.953|1.564||only one primary endpoint, p value not adjusted for multiple comparisons. A priori treshold or statistical significance: p=0.05|Regression, Logistic|conditional logistic regression for matched case control||||1.564|0.953|0.1150
92190708|NCT05012280|184279846|SUPERIORITY||Odds Ratio (OR)|1.221||||0.12|TWO_SIDED|95.0|0.953|1.564|||Regression, Logistic|conditional logistic regression for matched case control study.||||1.564|0.953|0.12
92190709|NCT00871143|184279904|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||An alpha level of .05 (two-sided) was set.|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on the outcome variable scores.||||<.001
92312058|NCT00886015|184525342|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.46|0.98||||||||0.98|0.46|
92312059|NCT00886015|184525343|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.66|1.18||||||||1.18|0.66|
92312060|NCT00886015|184525344|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.44|0.98||||||||0.98|0.44|
92312061|NCT00886015|184525345|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64|||||TWO_SIDED|95.0|0.42|0.97||||||Mild ECA compared with Normal||0.97|0.42|
92312062|NCT00886015|184525345|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63|||||TWO_SIDED|95.0|0.39|1.01||||||Moderate ECA compared with Normal||1.01|0.39|
92312063|NCT00886015|184525345|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62|||||TWO_SIDED|95.0|0.35|1.1||||||Severe ECA compared with Normal||1.10|0.35|
92312064|NCT00886015|184525346|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.97|1.53||||||||1.53|0.97|
92312065|NCT03971474|184525358|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.05|TWO_SIDED|80.0|0.51|0.92||If either P value from the two tests (standard stratified log-rank and weighted log-rank) was \< 0.0972, the study would be considered to have rejected the null at the one-sided 10% level.|Log Rank|Testing was performed using a standard stratified log-rank test.|Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model including the stratification factors (PD-L1 status and histology) and 80% CIs.|Comparison of OS was performed using a standard stratified log-rank test and a weighted log-rank test. The study had 90% power to detect the scenario with overlapping curves up to 3 months and a hazard ratio of 0.5 after 3 months, assuming exponentially distributed survival times, a median OS of 10.5 months in the SOC arm, and uniform accrual over 21-24 months. This analysis reports the standard stratified log-rank test.||0.92|0.51|0.05
92312066|NCT03971474|184525358|SUPERIORITY|||||||0.15||||||If either p-value from the two tests (standard stratified log-rank and weighted log-rank) was \< 0.0972, the study would be considered to have rejected the null at the one-sided 10% level.|Log Rank|||Comparison of OS was performed using a standard stratified log-rank test and a weighted log-rank test. The study had 90% power to detect the scenario with overlapping curves up to 3 months and a hazard ratio of 0.5 after 3 months, assuming exponentially distributed survival times, a median OS of 10.5 months in the SOC arm, and uniform accrual over 21-24 months. This analysis reports the weighted log-rank test.||||0.15
92312067|NCT03971474|184525359|SUPERIORITY|||||||0.19||||||Proportions were compared using a chi-squared test at the one-sided 5% level.|Chi-squared|||||||0.19
92312068|NCT03971474|184525360|SUPERIORITY|||||||0.38||||||Proportions were compared using a chi-squared test at the one-sided 5% level.|Chi-squared|||||||0.38
92312069|NCT03971474|184525363|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.25|TWO_SIDED|80.0|0.66|1.14|||Log Rank|Testing was performed using a standard stratified log-rank test.|Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model including the stratification factors (PD-L1 status and histology) and 80% CIs.|Comparison of IA-PFS was performed using a standard stratified log-rank test and a weighted log-rank test with weights equal to 1-S(t), where S(t) is the pooled survival estimate at time t (G\[rho=0, gamma=1\]). The weighted test weights later events over earlier events and has more power than the standard log-rank test under a delayed separation in the curves. This analysis reports the standard stratified log-rank test.||1.14|0.66|0.25
92312070|NCT03971474|184525363|SUPERIORITY|||||||0.14|||||||Log Rank|Testing was performed using a weighted log-rank test.||Comparison of IA-PFS between the RP and SOC arms was performed using a standard stratified log-rank test and a weighted log-rank test with weights equal to 1-S(t), where S(t) is the pooled survival estimate at time t (G\[rho=0, gamma=1\]). The weighted test weights later events over earlier events and has more power than the standard log-rank test under a delayed separation in the curves. This analysis reports the weighted log-rank test.||||0.14
92312071|NCT03971474|184525364|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.16|TWO_SIDED|80.0|0.5|1.1||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the PD-L1 \< 1% subgroup.||1.10|0.50|0.16
92312072|NCT03971474|184525364|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.08|TWO_SIDED|80.0|0.45|0.97||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the PD-L1 \>= 1% subgroup.||0.97|0.45|0.08
92312073|NCT03971474|184525364|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.005|TWO_SIDED|80.0|0.28|0.65||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the squamous histology subgroup.||0.65|0.28|0.005
92312074|NCT03971474|184525364|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.43|TWO_SIDED|80.0|0.67|1.35||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the non-squamous histology subgroup.||1.35|0.67|0.43
92312075|NCT03971474|184525365|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.28|TWO_SIDED|80.0|0.58|1.22||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the PD-L1 \< 1% subgroup.||1.22|0.58|0.28
92312076|NCT03971474|184525365|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.07|TWO_SIDED|80.0|0.48|0.95||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the PD-L1 \>= 1% subgroup.||0.95|0.48|0.07
92312077|NCT03971474|184525365|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.02|TWO_SIDED|80.0|0.38|0.8||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the squamous histology subgroup.||0.80|0.38|0.02
92312078|NCT03971474|184525365|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.41|TWO_SIDED|80.0|0.69|1.29||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the non-squamous histology subgroup.||1.29|0.69|0.41
92312079|NCT01023035|184525367|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-8.6|7.2|||Mantel-Haenszel, modified Koch method|||The modified Koch method was used to calculate the stratum-adjusted Mantel-Haenszel (MH) difference between the SVR rates for the Erythropoietin Use Arm versus the Ribavirin Dose Reduction Arm and corresponding 95% confidence interval with continuity correction.||7.2|-8.6|
92312080|NCT01807065|184525369|OTHER|||||||0.06|||||||Log Rank|||||||0.06
92312081|NCT02664181|184525391|SUPERIORITY|||||||0.05|||||||Fisher Exact|||Partial remission rate was compared between both arms. The null hypothesis is that there is no difference in partial remission rate between the two arms, with a p-value of \< 0.05 indicating significance||||0.05
92312082|NCT02664181|184525392|SUPERIORITY||Hazard Ratio (HR)|0.4||||0.06|TWO_SIDED|95.0|0.13|1.21|||Log Rank|||||1.21|0.13|0.06
92312083|NCT02664181|184525393|SUPERIORITY||Hazard Ratio (HR)|0.4||||0.19|TWO_SIDED|95.0|0.11|1.62|||Log Rank||Data from Kaplan-Meier analyses|||1.62|0.11|0.19
92312084|NCT00699816|184525395|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.01|TWO_SIDED|95.0|0.43|0.94|||Log Rank|||||0.94|0.43|0.01
92312085|NCT00699816|184525396|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.21||||0.008|TWO_SIDED|95.0|0.06|0.75|||Log Rank|||||0.75|0.06|0.008
92312086|NCT00699816|184525397|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.19||||0.02|TWO_SIDED|95.0|0.04|0.87|||Log Rank|||||0.87|0.04|0.02
92312087|NCT03668808|184525411|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is there was no difference in Time in Range (70-140mg/dl) in the initial 24 hours at destination, whether after Eastward travel or Westward travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance set at 0.05; using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the standard deviation of the difference is \<106 minutes.||||<0.05
92312088|NCT03668808|184525412|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05|t-test, 2 sided|||Null hypothesis is there was no difference in Time in Range (70-180mg/dl) in the initial 24 hours at destination, whether after Eastward travel or Westward travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance set at 0.05; using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the standard deviation of the difference is \<106 minutes.||||<0.05
92312089|NCT03668808|184525413|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is there was no difference in Mean ± SD CGM glucose (mg/dl) in flight, East or West travel, and in 72 hours at destination, whether after East or West travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance was at 0.05. Using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the SD of the difference is \<106 minutes.||||<0.05
92312090|NCT03668808|184525414|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is that there was no difference in CGM % time \<70 mg/dl in flight, East or West travel, and in 72 hours at destination, whether after East or West travel, between Insulin Degludec and Insulin Glargine U100. Travel direction not tested. Criterion for significance was at 0.05. Using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the SD of the difference is \<106 minutes.||||<0.05
92312091|NCT03668808|184525415|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is that there was no difference in CGM % time 70-180 mg/dl in flight, East or West travel, and in 72 hours at destination, whether after East or West travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance was at 0.05. Using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the SD of the difference is \<106 minutes.||||<0.05
92312092|NCT03668808|184525416|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is that there was no difference in CGM % time \>180 mg/dl in flight, East or West travel, and in 72 hours at destination, whether after East or West travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance was at 0.05. Using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the SD of the difference is \<106 minutes.||||<0.05
92312093|NCT03668808|184525417|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is there was no difference in CGM - Coefficient of Variation (CV) in flight, East or West travel, and in 72 hours at destination, whether after East or West travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance was at 0.05. Using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the SD of the difference is \<106 minutes.||||<0.05
92312094|NCT03668808|184525418|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is there was no difference in CGM Fasting Blood Glucose (FBG) at 0600 local time at destination, whether after East or West travel, between Insulin Degludec and Insulin Glargine U100. Travel direction not tested. Criterion for significance was set at 0.05, and using a paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the standard deviation of the difference is \<106 minutes.||||<0.05
92312095|NCT03668808|184525419|SUPERIORITY||||||<|0.01||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is that there was no difference in Liverpool Jet-Lag Questionnaire after 24 and 48 hours at the destination, whether after Eastward travel or after Westward travel, between Insulin Degludec and Insulin Glargine U100. Travel direction not tested. The criterion for significance was set at 0.05, and using a paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins.||||<0.01
92190710|NCT00871143|184279904|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Investigating the difference in BDD YBOCS score between baseline and week 12||||<.001
92312096|NCT03668808|184525420|SUPERIORITY||||||<|0.05||||||The tests were performed with a significance level of 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in Sleep quantity measured by ActiGraph in 24 hours at the destination, whether after Eastward or after Westward travel, between Insulin Degludec and Insulin Glargine U100. Travel direction not tested. The criterion for significance was set at 0.05, and using a paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins.||||<0.05
92312097|NCT03668808|184525421|SUPERIORITY||||||<|0.05||||||The tests were performed with a significance level of 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis is there was no difference in Sleep efficiency measured by ActiGraph in 24 hours at the destination, whether after Eastward or after Westward travel, between Insulin Degludec and Insulin Glargine U100. Travel direction not tested. The criterion for significance was set at 0.05, and using a paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins.||||<0.05
92312098|NCT01895777|184525427|NON_INFERIORITY|Non-inferiority margin of 20%|Difference in Rates|-0.038|||=|0.0001|TWO_SIDED|90.0|-0.141|0.066||p-value for non-inferiority is actually \<0.0001|Cochran-Mantel-Haenszel||Difference in rates (SOC - DE)|The primary analysis of the primary efficacy endpoint used the randomised set, following the intention-to-treat principle, based on adjudication-confirmed data. Age group was used as stratification factor using a Mantel-Haenszel type weighted average of differences.||0.066|-0.141|= 0.0001
92312099|NCT01895777|184525428|OTHER||Kaplan-Meier estimate|0.0|||||TWO_SIDED|90.0|-0.032|0.032|||Kaplan-Meier estimate||Kaplan-Meier estimate of rate difference.|Time-to event endpoint using Kaplan-Meier estimates based on adjudication-confirmed data. Due to the low event rate of major bleeding, age group stratification was not considered.||0.032|-0.032|
92312100|NCT01895777|184525434|OTHER||Hazard Ratio (HR)|1.145|||||TWO_SIDED|90.0|0.736|1.78||||||Any bleeding events was analysed as time-to-event endpoint using a stratified Cox proportional hazard model with treatment as a covariate in the model and age group as the stratification factor. A pooling of age groups was performed as no events were observed in certain age group.||1.780|0.736|
92312101|NCT01895777|184525435|OTHER||Hazard Ratio (HR)|69990000.0||||0.9976|TWO_SIDED|90.0|0.0|999999999.0|||Cox proportional hazard model||Upper Limit of the 90% confidence interval was not assessable|All-cause mortality was analyzed as time-to-event endpoint using a stratified Cox proportional hazard model with treatment as a covariate in the model.||999999999|0.000|0.9976
92312102|NCT01406444|184525548|SUPERIORITY|||||||0.03|||||||Linear random effects model|||||||0.03
92312103|NCT01406444|184525549|SUPERIORITY|||||||0.002|||||||Linear random effects model|||||||0.002
92312104|NCT01406444|184525549|SUPERIORITY|||||||0.04|||||||Linear random effects model|||||||0.04
92190711|NCT00871143|184279904|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of Type 1 error.|t-test, 2 sided|||Investigating the difference in BDD YBOCS score between between baseline and 1 month follow up||||< .001
92312105|NCT02027428|184525558|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.3486|TWO_SIDED|95.0|0.61|1.19||Stratification factors evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at end of Induction.|stratified log-rank test||Hazard ratio: nab-paclitaxel + BSC / BSC Alone|5% level of significance. Hazard ratio is based on stratified Cox proportional hazards regression model. The following stratification factors were evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at the end of Induction.||1.19|0.61|0.3486
92312106|NCT02027428|184525559|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0365|TWO_SIDED|95.0|0.47|0.98||Stratification factors evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at end of Induction.|stratified log-rank test||Hazard ratio: nab-paclitaxel + BSC / BSC Alone|5% level of significance. Hazard ratio is based on stratified Cox proportional hazards regression model. The following stratification factors were evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at the end of Induction.||0.98|0.47|0.0365
92312107|NCT02027428|184525560|SUPERIORITY||Overall response rate ratio|1.2||||0.087|TWO_SIDED|95.0|0.948|1.519||Stratification factors evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at the end of Induction, and tumor response (CR/PR or SD) at the end of Induction.|Cochran-Mantel-Haenszel||response ratio: nab-paclitaxel + BSC / BSC Alone|5% level of significance. The rate ratio and its 95% CI were based on the non-stratified analysis.||1.519|0.948|0.0870
92312108|NCT02027428|184525561|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.4164|TWO_SIDED|95.0|0.62|1.22||Stratification factors evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at end of Induction.|stratified log-rank test||Hazard ratio: nab-paclitaxel + BSC / BSC Alone|5% level of significance. Hazard ratio is based on stratified Cox proportional hazards regression model. The following stratification factors were evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at the end of Induction.||1.22|0.62|0.4164
92312109|NCT02027428|184525562|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0381|TWO_SIDED|95.0|0.47|0.98||Stratification factors evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at end of Induction.|stratified log-rank test||Hazard ratio: nab-paclitaxel + BSC / BSC Alone|5% level of significance. Hazard ratio is based on stratified Cox proportional hazards regression model. The following stratification factors were evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at the end of Induction.||0.98|0.47|0.0381
92312110|NCT02027428|184525563|SUPERIORITY||Overall response rate ratio|3.15||||0.0978|TWO_SIDED|95.0|0.733|13.574||5% level of significance.|Cochran-Mantel-Haenszel||Response rate ratio: nab-paclitaxel + BSC / BSC Alone|||13.574|0.733|0.0978
92190712|NCT00871143|184279904|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Investigating the difference in BDD YBOCS score between baseline and week 12||||<.01
92312111|NCT02027428|184525564|SUPERIORITY||disease control rate ratio|0.99|||||TWO_SIDED|95.0|0.978|1.007|||||Disease control rate ratio: nab-paclitaxel + BSC / BSC Alone|The rate ratio and its 95% confidence interval are based on non-stratified analysis.||1.007|0.978|
92312112|NCT02027428|184525566|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.59|1.47|||||Hazard ratio: nab-paclitaxel + BSC / BSC Alone|Hazard ratio was based on stratified Cox proportional hazards regression model. The following stratification factors were evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at the end of Induction, and tumor response (CR/PR or SD) at the end of Induction.||1.47|0.59|
92312113|NCT01307748|184525572|OTHER|||||||0.005||||||The p value was adjusted for multiple comparisons using false discovery rate.|ANCOVA|Repeated-measures ANOVA with time (stress, post-stress) as a within factor and aroma (lavender, coconut, water) as a between-group factor was used.||The null hypothesis stated that there were no differences between the groups in cortisol level trajectory over time.||||.005
92312114|NCT01307748|184525574|OTHER|||||||0.01||||||P value was adjusted for multiple comparisons using false discovery rate|ANCOVA|A 3 (lavender, coconut, water) by 2 ( prime, no prime) Analysis of Covariance (ANCOVA), with years of education as a covariate was used.||||||.01
92312115|NCT00396565|184525597|SUPERIORITY_OR_OTHER||Least squares mean difference|-12.7|STANDARD_ERROR_OF_MEAN|2.26|<|0.0001||95.0|-17.16|-8.25|||ANCOVA|ANCOVA model with treatment as a factor and baseline score as a covariate||||-8.25|-17.16|<0.0001
92312116|NCT00396565|184525598|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.8|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001||95.0|-5.17|-2.51|||ANCOVA|ANCOVA model with treatment as a factor and with baseline score as a covariate.||||-2.51|-5.17|<0.0001
92312117|NCT00396565|184525599|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001||95.0|-3.71|-1.33|||ANCOVA|ANCOVA model with treatment as a factor and with baseline score as a covariate||||-1.33|-3.71|<0.0001
92312118|NCT00396565|184525600|SUPERIORITY_OR_OTHER||Least squares mean difference|-6.2|STANDARD_ERROR_OF_MEAN|1.21|<|0.0001||95.0|-8.58|-3.8|||ANCOVA|ANCOVA model with treatment as a factor, and with baseline score as a covariate||||-3.80|-8.58|<0.0001
92312119|NCT00396565|184525601|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Fisher Exact|||||||0.0007
92312120|NCT00396565|184525602|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|-0.84|-0.34|||ANCOVA|ANCOVA model with treatment as a factor, and baseline score as a covariate||||-0.34|-0.84|<0.0001
92312121|NCT02211417|184525610|SUPERIORITY|||||||0.057|||||||Cochran-Mantel-Haenszel|||||||0.057
92312122|NCT01198132|184525620|SUPERIORITY_OR_OTHER||Rate ratio|0.8||||0.3797|TWO_SIDED|95.0|0.48|1.32|||Poisson log-linear model|||||1.32|0.48|0.3797
92312123|NCT02924727|184525645|SUPERIORITY||Hazard Ratio (HR)|0.9012||||0.1659|TWO_SIDED|95.0|0.7778|1.0441|||Cox's Proportional Hazard Model|||Primary Composite||1.0441|0.7778|0.1659
92312124|NCT02924727|184525645|SUPERIORITY||Hazard Ratio (HR)|0.874||||0.2031|TWO_SIDED|95.0|0.7104|1.0754|||Cox's Proportional Hazard Model|||CV Death||1.0754|0.7104|0.2031
92312125|NCT02924727|184525645|SUPERIORITY||Hazard Ratio (HR)|0.8653||||0.1679|TWO_SIDED|95.0|0.7044|1.0629|||Cox's Proportional Hazard Model|||First HF Hospitalization||1.0629|0.7044|0.1679
92312126|NCT02924727|184525645|SUPERIORITY||Hazard Ratio (HR)|0.6831||||0.0667|TWO_SIDED|95.0|0.4546|1.0266|||Cox's Proportional Hazard Model|||First Outpatient HF||1.0266|0.4546|0.0667
92312127|NCT02924727|184525646|SUPERIORITY||Hazard Ratio (HR)|0.9133||||0.2507|TWO_SIDED|95.0|0.7824|1.0662|||Cox's Proportional Hazard Model|||CV death or HF hospitalization||1.0662|0.7824|0.2507
92312128|NCT02924727|184525647|SUPERIORITY||Hazard Ratio (HR)|0.8422||||0.0732|TWO_SIDED|95.0|0.6979|1.0163|||Cox's Proportional Hazard Model|||HF hospitalization or Outpatient HF||1.0163|0.6979|0.0732
92312129|NCT02924727|184525648|SUPERIORITY||Hazard Ratio (HR)|0.9007||||0.1785|TWO_SIDED|95.0|0.7734|1.0489|||Cox's Proportional Hazard Model|||CV death, Non-fatal spontaneous MI or Non-fatal stroke||1.0489|0.7734|0.1785
92312130|NCT02924727|184525649|SUPERIORITY||Rate Ratio|0.8361||||0.0452|TWO_SIDED|95.0|0.7018|0.9961|||Negative Binomial regression model|||Total Number of Confirmed Composite Endpoints||0.9961|0.7018|0.0452
92312131|NCT02924727|184525650|SUPERIORITY||Hazard Ratio (HR)|0.8751||||0.1556|TWO_SIDED|95.0|0.7279|1.052|||Cox's Proportional Hazard Model|||All-Cause Death||1.0520|0.7279|0.1556
92312132|NCT02521376|184525656|OTHER||Geometric Mean Ratio (GMR)|43.69|||||TWO_SIDED|90.0|24.59|77.62||||||||77.62|24.59|
92312133|NCT02521376|184525656|OTHER||GMR|233.63|||||TWO_SIDED|90.0|141.85|384.79||||||||384.79|141.85|
92312134|NCT02521376|184525656|OTHER||GMR|219.2|||||TWO_SIDED|90.0|139.74|343.84||||||||343.84|139.74|
92312135|NCT02521376|184525656|OTHER||GMR|108.5|||||TWO_SIDED|90.0|77.2|152.48||||||||152.48|77.20|
92312136|NCT02521376|184525657|OTHER||GMR|55.71|||||TWO_SIDED|90.0|34.7|89.42||||||||89.42|34.70|
92312137|NCT02521376|184525657|OTHER||GMR|211.94|||||TWO_SIDED|90.0|132.49|339.03||||||||339.03|132.49|
92312138|NCT02521376|184525657|OTHER||GMR|171.33|||||TWO_SIDED|90.0|108.17|271.37||||||||271.37|108.17|
92312139|NCT02521376|184525657|OTHER||GMR|107.35|||||TWO_SIDED|90.0|72.71|158.51||||||||158.51|72.71|
92312140|NCT04803305|184525675|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.01|||TWO_SIDED|90.0|-2.38|1.18|||||Week 4|||1.18|-2.38|
92312141|NCT04803305|184525676|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|90.0|-0.75|3.15|||||Week 1|||3.15|-0.75|
92312142|NCT04803305|184525676|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|90.0|-0.28|2.49|||||Week 2|||2.49|-0.28|
92312143|NCT04803305|184525676|SUPERIORITY||Mean Difference (Final Values)|1.03|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|90.0|-0.93|2.99|||||Week 3|||2.99|-0.93|
92312144|NCT04803305|184525676|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|-2.02|2.02|||||Week 5|||2.02|-2.02|
92312145|NCT04803305|184525676|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|90.0|-3.11|1.51|||||Week 6|||1.51|-3.11|
92312146|NCT04803305|184525677|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|1.98|||TWO_SIDED|90.0|-4.18|3.53|||||Week 1|||3.53|-4.18|
92312147|NCT04803305|184525677|SUPERIORITY||Mean Difference (Final Values)|-2.16|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|90.0|-5.49|1.16|||||Week 2|||1.16|-5.49|
92312148|NCT04803305|184525677|SUPERIORITY||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-0.62|2.06|||||Week 3|||2.06|-0.62|
92312149|NCT04803305|184525677|SUPERIORITY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.97|||TWO_SIDED|90.0|-1.29|2.2|||||Week 4|||2.20|-1.29|
92190713|NCT00871143|184279904|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Bonferroni correction was used to decrease risk of type I error|t-test, 2 sided|||Investigating the difference in BDD YBOCS score between baseline and 1 month follow up||||< 0.05
92190714|NCT00871143|184279905|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||An alpha level of .05 was set (two-sided).|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on the outcome variable scores.||||<.05
92190715|NCT00871143|184279905|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||T-tests were used to investigate significant differences between baseline and 12 week measures||||<0.01
92190716|NCT00871143|184279905|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Bonferroni corrections were implemented to adjust for type I error|t-test, 2 sided|||T-tests were used to investigate significant differences between baseline and 1 month follow up.||||< 0.001
92190717|NCT00871143|184279905|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||T-tests were used to investigate significant differences between baseline and 12 week assessment measures and baseline and 1 month follow up measures.||||>0.05
92190718|NCT00871143|184279905|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type I error|t-test, 2 sided|||T-tests were used to investigate significant differences between baseline and 1 month follow up measures.||||>0.05
92190719|NCT00871143|184279906|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||An alpha level of .05 was set (two-sided).|Mixed Models Analysis|||A Linear mixed model was conducted to determine the predictive value of treatment group and/or time on the outcome variable MADRS scores.||||>0.05
92190720|NCT00871143|184279906|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Investigating the difference in MADRS score between baseline and week 12.||||<0.01
92312150|NCT04803305|184525677|SUPERIORITY||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-1.21|2.57|||||Week 5|||2.57|-1.21|
92190721|NCT00871143|184279906|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferonni corrections used to reduce risk of type I error|t-test, 2 sided|||Investigating the difference in MADRS score between baseline and 1 month follow up.||||>0.05
92190722|NCT00871143|184279906|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Investigating the difference in MADRS score between baseline and week 12.||||>0.05
92190723|NCT00871143|184279906|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections used to decrease risk of type I error|t-test, 2 sided|||Investigating the difference in MADRS score between baseline and 1 month follow up.||||> 0.05
92190724|NCT00871143|184279907|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||An alpha level of .05 (two-sided) was set.|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on the outcome variable of AAI scores.||||<0.05
92190725|NCT00871143|184279907|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Bonferroni corrections were applied to decrease the risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences in AAI scores occurred from baseline to 12 week .||||<0.001
92190726|NCT00871143|184279907|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type 1 error|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences in AAI scores occurred from baseline to 2 month follow up.||||< 0.001
92312151|NCT04803305|184525677|SUPERIORITY||Mean Difference (Final Values)|1.86|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|90.0|0.34|3.39|||||Week 6|||3.39|0.34|
92312152|NCT00754546|184525680|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANOVA|||"ANOVA was used to examine the interaction between mode of exercise and treatment effect.~Twenty patients were considered adequate to provide a power of 85% with an alpha of 0.05."||||< 0.05
92190727|NCT00871143|184279907|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Bonferroni Correction was used in an attempt to reduce risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences in AAI scores occurred from baseline to 12 week .||||<0.05
92190728|NCT00871143|184279907|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used to adjust for type 1 error|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences in AAI scores occurred from baseline to 2 month follow up.||||>0.05
92190729|NCT00871143|184279908|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||An alpha level of .05 was set (two-sided).|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on the PHQ-9 score.||||>0.05
92190730|NCT00871143|184279908|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Where more than 1 t test had been conducted on each variable, a Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to end of treatment (12 weeks).||||<0.05
92190731|NCT00871143|184279908|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type I error|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 2 month follow up.||||> 0.05
92190732|NCT00871143|184279908|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||A Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to end of treatment (12 weeks).||||>0.05
92190733|NCT00871143|184279908|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 2 month follow up.||||> 0.05
92190734|NCT00871143|184279909|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||An alpha level of .05 was set (two-sided).|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on GAD-7 scores.||||<0.05
92190735|NCT00871143|184279909|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||A Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 12 week assessment.||||<0.01
92312153|NCT00754546|184525680|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||t-test, 2 sided|||Comparing arformoterol with placebo with treadmill exercise||||0.024
92312154|NCT00754546|184525680|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||t-test, 2 sided|||Arformoterol versus normal saline with cycle exercise||||0.038
92312155|NCT00993421|184525782|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||<0.001
92312156|NCT00993421|184525782|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||<0.001
92312157|NCT00993421|184525782|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||<0.001
92312158|NCT00993421|184525782|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||<0.001
92312159|NCT00993421|184525782|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||0.041
92312160|NCT00993421|184525782|SUPERIORITY_OR_OTHER|||||||0.668||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||0.668
92312161|NCT00993421|184525782|SUPERIORITY_OR_OTHER|||||||0.437||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||0.437
92312162|NCT00993421|184525782|SUPERIORITY_OR_OTHER|||||||0.249||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||0.249
92312163|NCT00733005|184525914|SUPERIORITY_OR_OTHER_LEGACY|||||||0.102||95.0|||||ANCOVA|||||||0.102
92312164|NCT00733005|184525915|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019||95.0|||||ANCOVA|||||||0.019
92190736|NCT00871143|184279909|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were implemented to reduce the risk of type I error|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 2 month follow up assessment.||||> 0.05
92312165|NCT01769456|184525917|OTHER||||||<|0.0001||||||Reported p-value is the calculated value provided by SAS output.|Wilcoxon Signed Rank Test|||||||< 0.0001
92312166|NCT01769456|184525918|OTHER|||||||0.0236|||||||Wilcoxon Signed Rank Test|||||||0.0236
92312167|NCT01769456|184525919|OTHER|||||||0.0003|||||||Wilcoxon Signed Rank Test|||||||0.0003
92312168|NCT01769456|184525920|OTHER|||||||0.0236|||||||Wilcoxon Signed Rank Test|||||||0.0236
92190737|NCT00871143|184279909|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||A Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 12 week assessment.||||>0.05
92312169|NCT03860974|184525958|NON_INFERIORITY|"We tested the non-inferiority of serratus block compared with PVB using the 95% CI associated with the Wilcoxon-Mann-Whitney test with continuity correction. If the lower limit of the 95% CI for median average PACU pain scores was greater than -1.25 , we would conclude non-inferiority. The non-inferiority of serratus blocks with regard to opioid consumption was similarly tested to a predefined non-inferiority margin of 2 mg intravenous morphine equivalents."|Median Difference (Final Values)|4.0||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
92312170|NCT05992623|184526166|SUPERIORITY|||||||0.565|||||||Chi-squared|||||||0.565
92312171|NCT05992623|184526167|SUPERIORITY|||||||0.617|||||||Chi-squared|||||||0.617
92312172|NCT05992623|184526168|SUPERIORITY||Mean Difference (Final Values)|0.04|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92312173|NCT01983566|184526173|NON_INFERIORITY_OR_EQUIVALENCE|The actual number of subjects analyzed is 16. No formal statistical hypothesis was tested.|Geometric mean ratio (%)|115.8||||0.3944|TWO_SIDED|90.0|63.52|211.11||The p-value relates to the null hypothesis of non-equivalence (bioequivalence test). P-value for ratio outside interval 80-125%.|ANOVA||This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'. The statistical analysis result is based on the adjusted means.|"The difference between the expected means for log(Dele low fat) and log(Dele fasted) was estimated by the differences in the adjusted means (Least Squares Means), and a 2 sided 90% confidence interval (CI) based on the t-distribution was computed.~These were then back transformed. The estimation model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'."||211.11|63.52|0.3944
92312174|NCT01983566|184526174|NON_INFERIORITY_OR_EQUIVALENCE|The actual number of subjects analyzed is 16. No formal statistical hypothesis was tested.|Geometric mean ratio (%)|114.83||||0.3674|TWO_SIDED|90.0|74.803|176.281||The p-value relates to the null hypothesis of non-equivalence (bioequivalence test). P-value for ratio outside interval 80-125%.|ANOVA||This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'. The statistical analysis result is based on the adjusted means.|"The difference between the expected means for log(Dele low fat) and log(Dele fasted) was estimated by the differences in the adjusted means (Least Squares Means), and a 2 sided 90% CI based on the t-distribution was computed.~These were then back transformed. This estimation model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'."||176.281|74.803|0.3674
92190738|NCT00871143|184279909|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type I error|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 2 month follow up assessment.||||> 0.05
92190739|NCT00871143|184279910|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||An alpha level of .05 was set (two-sided).|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on BIQLI scores.||||<0.05
92190740|NCT00871143|184279910|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||A Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated-measures t tests were then used to determine where significant differences in BIQLI occurred between baseline and end of treatment (12 weeks).||||<0.05
92190741|NCT00871143|184279910|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type 1 error|t-test, 2 sided|||Repeated-measures t tests were then used to determine where significant differences in BIQLI occurred between baseline and 1 month follow up.||||< 0.05
92190742|NCT00871143|184279910|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||A Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated-measures t tests were then used to determine where significant differences in BIQLI occurred between baseline and end of treatment (12 weeks).||||>0.05
92190743|NCT00871143|184279910|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used|t-test, 2 sided|||Repeated-measures t tests were then used to determine where significant differences in BIQLI occurred between baseline and 1 month follow up.||||> 0.05
92190744|NCT03930238|184279911|SUPERIORITY||Group effect from Bayesian linear mixed|1646.0|||||TWO_SIDED|||||We did perform a Bayesian analysis which provided a posterior probability of 99.76% that the daily mean steps in the intervention group exceeded the daily mean steps in the comparison group.|Bayesian linear mixed effects regression||Posterior standard deviation = 578. We have 95% credible intervals - the interval that contains 95% of the posterior probability distribution of the parameter of interest - which ranges from 511 to 2781.|||||
92190745|NCT03930238|184279912|OTHER||Percentage|53.3|||||TWO_SIDED|||||||||||||
92190746|NCT03861429|184279923|SUPERIORITY||Odds Ratio (OR)|3.32||||0.105|TWO_SIDED|95.0|0.78|14.15|||Mixed Models Analysis|||Multilevel logistic regression (generalized estimating equations \[GEE\] with an autoregressive (1) working correlation matrix, logit link function) were fitted to assess the primary hypotheses. The models account for the repeated measures (3 or 4 time points), correlated, data structure per person. An additive model was conducted with contrast coding for each time point, treatment, and follow-up effects.||14.15|.78|.105
92190747|NCT03861429|184279924|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.04|TWO_SIDED|95.0|0.022|1.178|||Mixed Models Analysis||Calculation of mean differences were derived from mixed model analyses|||1.178|.022|.04
92190748|NCT03861429|184279925|SUPERIORITY||Mean Difference (Final Values)|0.29||||0.001|TWO_SIDED|95.0|0.12|0.46|||Mixed Models Analysis||Calculation of mean differences were derived from mixed model analyses|||.46|.12|.001
92190749|NCT03861429|184279926|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.001|TWO_SIDED|95.0|0.21|0.48|||Mixed Models Analysis||Calculation of mean differences were derived from mixed model analyses|||.48|.21|.001
92190750|NCT03861429|184279927|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.081|TWO_SIDED|95.0|-0.01|0.19|||Mixed Models Analysis|||||.19|-.01|.081
92190751|NCT03861429|184279928|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.033|TWO_SIDED|95.0|0.11|0.3|||Mixed Models Analysis||Calculation of mean differences were derived from mixed model analyses|||.3|.11|.033
92190752|NCT01797822|184279933|OTHER|Statistical comparison between groups was made with t-test. A sample size of 20 subjects was calculates to have 90% power of detecting a statistical difference (P\<0.05) in change in corneal staining pre and post low humidity challenge.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
92190753|NCT05135156|184279996|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.02|TWO_SIDED|95.0|3.0|25.0|||Regression, Linear||Difference = intervention - control|||25|3|0.02
92267609|NCT01233284|184436655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.071|STANDARD_ERROR_OF_MEAN|0.027||0.0087||95.0|0.018|0.124|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.124|0.018|0.0087
92312175|NCT02794870|184526189|OTHER||% vaccine recipients with solicited AEs|60.0|||||TWO_SIDED|90.0|39.0|78.0||||||||78|39|
92190754|NCT05135156|184279997|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.15|TWO_SIDED|95.0|-1.0|6.6|||Regression, Linear||Difference = intervention - control|||6.6|-1.0|0.15
92190755|NCT05135156|184279998|SUPERIORITY||Mean Difference (Net)|-1.2||||0.81|TWO_SIDED|95.0|-10.9|8.5|||Regression, Linear||Estimation parameter is regression parameter comparing intervention to control|||8.5|-10.9|0.81
92190756|NCT05135156|184279999|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.15|TWO_SIDED|95.0|-0.1|0.8|||Regression, Linear||Difference = intervention - control|||0.8|-0.1|0.15
92190757|NCT05135156|184280000|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.54|TWO_SIDED|95.0|-2.0|3.7|||Regression, Linear||Estimation parameter is regression parameter comparing intervention to control|||3.7|-2.0|0.54
92190758|NCT05135156|184280002|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.82|TWO_SIDED|95.0|-2.1|2.7|||Regression, Linear||Difference = intervention - control|||2.7|-2.1|0.82
92190759|NCT05135156|184280004|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.44|TWO_SIDED|95.0|-15.0|7.0|||Regression, Linear||Estimation parameter is regression parameter comparing intervention to control|||7|-15|0.44
92190760|NCT05135156|184280005|SUPERIORITY||Mean Difference (Net)|1.3||||0.31|TWO_SIDED|95.0|-1.3|3.9|||Regression, Linear||Estimation parameter is regression parameter comparing intervention to control|||3.9|-1.3|0.31
92190761|NCT05135156|184280006|SUPERIORITY||Mean Difference (Net)|5.0||||0.42|TWO_SIDED|95.0|-7.4|17.4|||Regression, Linear||Difference = intervention - control||Estimation parameter is regression parameter comparing intervention to control|17.4|-7.4|0.42
92190762|NCT05135156|184280007|OTHER|Pearson's chi-squared test of independence||||||0.39||||||p=0.39 at baseline, 0.39 at 2 weeks and 0.23 at 4 weeks|Chi-squared|||||||0.39
92190763|NCT05135156|184280008|SUPERIORITY||Mean Difference (Net)|0.05||||0.91|TWO_SIDED|95.0|-0.84|0.94|||Regression, Linear||Parameters are for a 60-minute greater amount of time spent on the website (range was 21-418 minutes in the first 2 weeks).|Outcome = change in confidence-weighted true false knowledge about lung transplant (14-question investigator-designed survey) from baseline to 2-week study visit||0.94|-0.84|0.91
92267610|NCT01233284|184436655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.085|0.19|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.190|0.085|<0.0001
92267611|NCT01233284|184436656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.03||0.0732||95.0|-0.005|0.113|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.113|-0.005|0.0732
92312176|NCT02794870|184526189|OTHER||% placebo recipients with solicited AEs|27.0|||||TWO_SIDED|90.0|8.0|56.0||||||||56|8|
92312177|NCT02794870|184526190|OTHER||% vaccinees with unsolicited AEs|35.0|||||TWO_SIDED|90.0|18.0|56.0||||||||56|18|
92312178|NCT02794870|184526190|OTHER||% placebo with unsolicited AEs|18.0|||||TWO_SIDED|90.0|3.0|47.0||||||||47|3|
92312179|NCT02794870|184526195|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.01
92312180|NCT02794870|184526196|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance is 0.05.|Log Rank|||||||<0.001
92312181|NCT03277066|184526299|SUPERIORITY||Lest-Squared Mean Differences|0.011||||0.011|TWO_SIDED||||||Mixed Models Analysis|||||||0.0110
92312182|NCT03277066|184526299|SUPERIORITY||Lest-Squared Mean Differences|0.2835||||0.2835|TWO_SIDED||||||Mixed Models Analysis|||||||0.2835
92312183|NCT01565356|184526303|SUPERIORITY_OR_OTHER||Kappa statistic|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||Cohen's (simple) kappa statistic||1.00|1.00|
92312184|NCT02839772|184526305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.581|STANDARD_ERROR_OF_MEAN|0.296|<|0.001|TWO_SIDED|95.0|0.997|2.164|||Mixed Models Analysis|t=5.341, df=89.347||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function (SBF) in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in TEWL at the top of the outer lower legs by group from baseline after 3 months of interventions."||2.164|0.997|<0.001
92312185|NCT02839772|184526306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.684|STANDARD_ERROR_OF_MEAN|0.346|<|0.001|TWO_SIDED|95.0|1.002|2.367|||Mixed Models Analysis|t=4.871, df=189.789||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in TEWL at the mid-point of the outer lower legs by group from baseline after 3 months of interventions."||2.367|1.002|<0.001
92190764|NCT05135156|184280008|SUPERIORITY||Mean Difference (Net)|0.04||||0.53|TWO_SIDED|95.0|-0.08|0.16|||Regression, Linear||Parameters are for a 60-minute greater amount of time spent on the website (range was 21-418 minutes in the first 2 weeks).|Outcome = change in Likert preparedness to discuss transplant from baseline to 2-week study visit||0.16|-0.08|0.53
92190765|NCT05135156|184280008|SUPERIORITY||Mean Difference (Net)|-4.3||||0.04|TWO_SIDED|95.0|-8.4|-0.3|||Regression, Linear||Parameters are for a 60-minute greater amount of time spent on the website (range was 21-418 minutes in the first 2 weeks).|Outcome = change in Decisional Conflict Scale from baseline to 2-week study visit||-0.3|-8.4|0.04
92312186|NCT02839772|184526307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97|STANDARD_ERROR_OF_MEAN|0.386|<|0.001|TWO_SIDED|95.0|1.21|2.731|||Mixed Models Analysis|t=5.111, df=189.620||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in TEWL at the base of the outer lower legs by group from baseline after 3 months of interventions."||2.731|1.210|<0.001
92312187|NCT02839772|184526308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.751|STANDARD_ERROR_OF_MEAN|0.39||0.002|TWO_SIDED|95.0|0.656|2.846|||Mixed Models Analysis|t=3.154, df=189.580||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in TEWL at the top of the feet by group from baseline after 3 months of interventions."||2.846|0.656|0.002
92312188|NCT02839772|184526309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.075|STANDARD_ERROR_OF_MEAN|0.515|<|0.001|TWO_SIDED|95.0|-3.042|-1.1078|||Mixed Models Analysis|t=-4.236,df=165.310||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in SCH at the top of the outer lower legs by group from baseline after 3 months of interventions."||-1.1078|-3.042|<0.001
92312189|NCT02839772|184526310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.658|STANDARD_ERROR_OF_MEAN|0.467|<|0.001|TWO_SIDED|95.0|-2.581|-0.736|||Mixed Models Analysis|t=-3.549, df=180.923||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in SCH at the mid-point of the outer lower legs by group from baseline after 3 months of interventions."||-0.736|-2.581|<0.001
92312190|NCT02839772|184526311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.641|STANDARD_ERROR_OF_MEAN|0.473||0.001|TWO_SIDED|95.0|-2.574|-0.708|||Mixed Models Analysis|t=-3.471, df=186.308||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in SCH at the base of the outer lower legs by group from baseline after 3 months of interventions."||-0.708|-2.574|0.001
92312191|NCT02839772|184526312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.041|STANDARD_ERROR_OF_MEAN|0.572|<|0.001|TWO_SIDED|95.0|-3.168|-0.911|||Mixed Models Analysis|t=-3.565, df=186.739||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in SCH at the base of the top of the feet by group from baseline after 3 months of interventions."||-0.911|-3.168|<0.001
92190766|NCT05135156|184280008|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.74|TWO_SIDED|95.0|-3.6|5.0||Outcome = mean PrepDM Scale at 2-weeks|Regression, Linear||Parameters are for a 60-minute greater amount of time spent on the website (range was 21-418 minutes in the first 2 weeks).|||5.0|-3.6|0.74
92190767|NCT00404547|184280033|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||This is an analysis of the change in Asthma Control Questionnaire (ACQ) after 12 weeks of treatment.||||<0.0001
92190768|NCT00475735|184280037|SUPERIORITY_OR_OTHER|||||||0.341||95.0||||Since this is a proof of concept study with one primary hypothesis (AISRS total score for MK-0249 vs. placebo), there is no multiplicity adjustment.|Mixed Models Analysis|The terms were tobacco use, prior stimulant use, time, site, period, sequence, treatment, period-by-time, sequence-by-time, and treatment-by-time.||||||0.341
92267612|NCT01233284|184436656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.072|STANDARD_ERROR_OF_MEAN|0.03||0.0177||95.0|0.012|0.131|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.131|0.012|0.0177
92267613|NCT01233284|184436656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.03||0.0012||95.0|0.039|0.157|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.157|0.039|0.0012
92267614|NCT01233284|184436657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064|STANDARD_ERROR_OF_MEAN|0.026||0.0149||95.0|0.013|0.115|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.115|0.013|0.0149
92267615|NCT01233284|184436657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.026||0.0043||95.0|0.024|0.126|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.126|0.024|0.0043
92267616|NCT01233284|184436657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.086|0.189|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.189|0.086|<0.0001
92267617|NCT01233284|184436661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.55|STANDARD_ERROR_OF_MEAN|3.737|<|0.0001||95.0|11.204|25.895|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||25.895|11.204|<0.0001
92267618|NCT01233284|184436661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.895|STANDARD_ERROR_OF_MEAN|3.737|<|0.0001||95.0|10.55|25.24|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||25.240|10.550|<0.0001
92267619|NCT01233284|184436661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.846|STANDARD_ERROR_OF_MEAN|3.739|<|0.0001||95.0|13.497|28.195|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||28.195|13.497|<0.0001
92267620|NCT01233284|184436662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.251|STANDARD_ERROR_OF_MEAN|3.77|<|0.0001||95.0|13.84|28.662|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||28.662|13.840|<0.0001
92267621|NCT01233284|184436662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.577|STANDARD_ERROR_OF_MEAN|3.77||0.0001||95.0|7.166|21.988|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||21.988|7.166|0.0001
92267622|NCT01233284|184436662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.581|STANDARD_ERROR_OF_MEAN|3.773|<|0.0001||95.0|14.166|28.997|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||28.997|14.166|<0.0001
92267623|NCT01233284|184436663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.114|STANDARD_ERROR_OF_MEAN|0.635||0.8574||95.0|-1.363|1.134|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||1.134|-1.363|0.8574
92267624|NCT01233284|184436663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.635||0.3954||95.0|-1.789|0.708|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.708|-1.789|0.3954
92267625|NCT01233284|184436663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|0.636||0.9034||95.0|-1.327|1.173|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||1.173|-1.327|0.9034
92267626|NCT01233284|184436664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.233|STANDARD_ERROR_OF_MEAN|0.107||0.0296||95.0|-0.443|-0.023|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||-0.023|-0.443|0.0296
92267627|NCT01233284|184436664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.214|STANDARD_ERROR_OF_MEAN|0.107||0.0454||95.0|-0.424|-0.004|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||-0.004|-0.424|0.0454
92267628|NCT01233284|184436664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.201|STANDARD_ERROR_OF_MEAN|0.107||0.061||95.0|-0.41|0.009|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.009|-0.410|0.0610
92267629|NCT01233284|184436665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.149|STANDARD_ERROR_OF_MEAN|0.063||0.0183||95.0|-0.273|-0.025|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||-0.025|-0.273|0.0183
92267630|NCT01233284|184436665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.138|STANDARD_ERROR_OF_MEAN|0.063||0.0288||95.0|-0.262|-0.014|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||-0.014|-0.262|0.0288
92267631|NCT01233284|184436665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.111|STANDARD_ERROR_OF_MEAN|0.063||0.0781||95.0|-0.235|0.013|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.013|-0.235|0.0781
92267632|NCT01233284|184436666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.084|STANDARD_ERROR_OF_MEAN|0.055||0.1303||95.0|-0.193|0.025|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.025|-0.193|0.1303
92267633|NCT01233284|184436666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.068|STANDARD_ERROR_OF_MEAN|0.055||0.2191||95.0|-0.177|0.041|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.041|-0.177|0.2191
92190769|NCT00475735|184280037|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Since this is a proof of concept study with one primary hypothesis (AISRS total score for MK-0249 vs. placebo), there is no multiplicity adjustment.|Mixed Models Analysis|The terms were tobacco use, prior stimulant use, time, site, period, sequence, treatment, period-by-time, sequence-by-time, and treatment-by-time.||||||0.001
92190770|NCT01187407|184280045|SUPERIORITY_OR_OTHER|||||||0.997||||||Primary comparison.|Mixed Models Analysis|||||||0.997
92190771|NCT01187407|184280045|SUPERIORITY_OR_OTHER|||||||0.769||||||Secondary comparison.|Mixed Models Analysis|||||||0.769
92190772|NCT00125853|184280082|OTHER|"Linear Mixed effect Modelling, adjusted for baseline values and period effect~Difference of LSMeans treatment effect (SE) = 0.05 (0.09)"||||||0.6|||||||Linear Mixed effect Modelling, adjusted|||Comparing treatment effects on ISI||||0.60
92190773|NCT00125853|184280083|OTHER|"Linear Mixed effect Model, adjusted for baseline values and period effect~Difference of LSMeans treatment effect (SE)~= -2.59 (1.34)"||||||0.06|||||||Linear Mixed effect Model, adjusted for|||Comparing treatment effects on ABPM||||0.06
92190774|NCT00125853|184280084|OTHER|"Linear Mixed effect Model, adjusted for baseline values and period effect~Difference of LSMeans treatment effect (SE)~= -0/09 (0.14)"||||||0.51|||||||Linear Mixed effect Modelling, adjusted|||Comparing treatment effects on total cholesterol||||0.51
92190775|NCT00125853|184280085|OTHER|"Linear Mixed effect Model, adjusted for baseline values and period effect~Difference of LSMeans treatment effect (SE) =0.02 (0.03)"||||||0.48|||||||Linear Mixed effect Modelling, adjusted|||Comparing treatment effects on HbA1c||||0.48
92190776|NCT00125853|184280086|OTHER|"Linear Mixed effect Model, adjusted for baseline values and period effect~Difference of LSMeans treatment effect (SE)~= -0.21(0.13)"||||||0.09|||||||Linear Mixed effect Modelling, adjusted|||Comparing treatment effects on BMI||||0.09
92190777|NCT04754594|184280140|OTHER||Geometric mean ratio|0.67|||||TWO_SIDED|95.0|0.5|0.9||||||GMRs and 2-sided 95% CIs was calculated by exponentiating the mean difference of the logarithms of the assay and the corresponding CIs.||0.90|0.50|
92190778|NCT04754594|184280141|OTHER||Geometric mean ratio|1.27|||||TWO_SIDED|95.0|0.91|1.77||||||GMRs and 2-sided 95% CIs was calculated by exponentiating the mean difference of the logarithms of the assay and the corresponding CIs.||1.77|0.91|
92190779|NCT04754594|184280141|OTHER||Geometric mean ratio|0.95|||||TWO_SIDED|95.0|0.69|1.3||||||GMRs and 2-sided 95% CIs was calculated by exponentiating the mean difference of the logarithms of the assay and the corresponding CIs.||1.30|0.69|
92190780|NCT04754594|184280142|OTHER|Vaccine efficacy was estimated by 100\*(1 - illness rate ratio \[IRR\]), where IRR=calculated ratio of confirmed COVID-19 illness per 1000 person-years of blinded follow-up in the active vaccine group to the corresponding illness rate in the placebo group.|Vaccine efficacy|3.8|||||TWO_SIDED|95.0|-1227.8|93.0||||||||93.0|-1227.8|
92267634|NCT01233284|184436666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.087|STANDARD_ERROR_OF_MEAN|0.056||0.1163||95.0|-0.196|0.022|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.022|-0.196|0.1163
92267635|NCT01233284|184436667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.032||0.7501||95.0|-0.073|0.052|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.052|-0.073|0.7501
92190781|NCT04754594|184280143|OTHER|Vaccine efficacy was estimated by 100\*(1 - IRR), where IRR=calculated ratio of confirmed COVID-19 illness per 1000 person-years of blinded follow-up in the active vaccine group to the corresponding illness rate in the placebo group.|Vaccine efficacy|35.1|||||TWO_SIDED|95.0|-466.5|94.6||||||||94.6|-466.5|
92190782|NCT04754594|184280144|OTHER|Vaccine efficacy was estimated by 100\*(1 - IRR), where IRR=calculated ratio of confirmed COVID-19 illness per 1000 person-years of blinded follow-up in the active vaccine group to the corresponding illness rate in the placebo group.|Vaccine efficacy|40.9|||||TWO_SIDED|95.0|-104.9|86.5||||||||86.5|-104.9|
92190783|NCT02864147|184280170|SUPERIORITY|||||||0.043||||||Control is used as the referent using one-sided Fisher's exact tests with a multiple comparison-adjusted p\<0.025 significance level.|Fisher Exact|||||||0.043
92190784|NCT02864147|184280170|SUPERIORITY|||||||0.384||||||Control is used as the referent using one-sided Fisher's exact tests with a multiple comparison-adjusted p\<0.025 significance level.|Fisher Exact|||||||0.384
92190785|NCT02864147|184280171|SUPERIORITY|||||||0.177||||||Control is used as the referent using one-sided Fisher's exact tests with a multiple comparison-adjusted p\<0.025 significance level.|Fisher Exact|||||||0.177
92190786|NCT02864147|184280171|SUPERIORITY|||||||0.592||||||Control is used as the referent using one-sided Fisher's exact tests with a multiple comparison-adjusted p\<0.025 significance level.|Fisher Exact|||||||0.592
92190787|NCT02269917|184280172|NON_INFERIORITY|4|Difference in percentage|0.4|||<|0.001|TWO_SIDED|95.0|-1.5|2.2|||Stratum-adjusted Mantel-Haenszel (MH)|||||2.2|-1.5|<0.001
92190788|NCT02269917|184280177|OTHER||Least Square (LS) Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.623|=|0.58|TWO_SIDED|95.0|-0.88|1.57|||ANCOVA|||Change at Week 24||1.57|-0.88|=0.580
92190789|NCT02269917|184280177|OTHER||Least Square (LS) Mean Difference|0.62|STANDARD_ERROR_OF_MEAN|0.646|=|0.34|TWO_SIDED|95.0|-0.65|1.88|||ANCOVA|||Change at Week 48||1.88|-0.65|=0.340
92190790|NCT02269917|184280178|OTHER||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.874|=|0.506|TWO_SIDED|95.0|-2.3|1.13|||ANCOVA|||Change at Week 24||1.13|-2.30|=0.506
92190791|NCT02269917|184280178|OTHER||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.862|=|0.392|TWO_SIDED|95.0|-2.43|0.95|||ANCOVA|||Change Week 48||0.95|-2.43|=0.392
92190792|NCT02269917|184280179|OTHER||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.624|=|0.143|TWO_SIDED|95.0|-2.14|0.31|||ANCOVA|||Change at Week 24||0.31|-2.14|=0.143
92190793|NCT02269917|184280179|OTHER||LS Mean Difference|-1.09|STANDARD_ERROR_OF_MEAN|0.646|=|0.092|TWO_SIDED|95.0|-2.36|0.18|||ANCOVA|||Change at Week 48||0.18|-2.36|=0.092
92190794|NCT02269917|184280180|OTHER||LS Mean Difference|1.14|STANDARD_ERROR_OF_MEAN|0.59|=|0.054|TWO_SIDED|95.0|-0.02|2.29|||ANCOVA|||Change at Week 24||2.29|-0.02|=0.054
92190795|NCT02269917|184280180|OTHER||LS Mean Difference|1.34|STANDARD_ERROR_OF_MEAN|0.63|=|0.034|TWO_SIDED|95.0|0.1|2.57|||ANCOVA|||Change at Week 48||2.57|0.10|=0.034
92267636|NCT01233284|184436667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.032||0.8401||95.0|-0.069|0.056|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.056|-0.069|0.8401
92312192|NCT02839772|184526313|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.452|STANDARD_ERROR_OF_MEAN|0.255||0.076|TWO_SIDED|95.0|-0.048|0.952||A cumulative logistic link function was used|Generalized estimating equation analysis|Wald Chi squared=3.138, df=1||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis calculated the odds of the stage of podoconiosis by group being more severe at the 4th visit."||0.952|-0.048|0.076
92312193|NCT02839772|184526314|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.224||||0.527|TWO_SIDED|95.0|-0.469|0.917||A Bernouilli distribution with a logistic link function was used.|Generalized estimating equation analysis|Wald chi-square=0.410, df=1||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis calculated the odds of mossy changes being present in the lower legs/feet by group at the 4th visit."||0.917|-0.469|0.527
92312194|NCT02839772|184526315|SUPERIORITY_OR_OTHER||Odds Ratio, log|-1.29|STANDARD_ERROR_OF_MEAN|0.446||0.031|TWO_SIDED|95.0|-2.161|-0.411||A Bernouilli distribution with a logistic link function was used|Generalized estimating equation analysis|Wald chi-square=8.304, df=1||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis calculated the odds of participants having a bad odour emanating from their lower legs/feet by group at the 4th visit. Bad odour results in a decease in quality of life."||-0.411|-2.161|0.031
92312195|NCT02839772|184526316|SUPERIORITY_OR_OTHER||Odds Ratio, log|2.062|STANDARD_ERROR_OF_MEAN|0.741||0.005|TWO_SIDED|95.0|0.61|3.514||A Poisson distribution with a logarithmic link function was used|Generalized estimating equation analysis|Wald chi-square=7.745, df=1||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis calculated the odds of wounds being present on the lower legs/feet of participants by group at the 4th visit."||3.514|0.610|0.005
92312196|NCT02839772|184526317|SUPERIORITY_OR_OTHER||Group ratio estimate|2.09|STANDARD_ERROR_OF_MEAN|1.102||0.058|TWO_SIDED|0.058|-0.069|4.25||A Poisson distribution with a logarithmic link function was used.|Generalized estimation equation|df=1|Those in the experimental group were expected to have fewer work days lost due to ADL.|"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis calculated the odds by group of having had fewer work days lost in the previous month at the 4th visit due to ADL."||4.250|-0.069|0.058
92312197|NCT02839772|184526318|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value was \< 0.001 at all time points.|Spearman's correlation coefficient|The correlation at the 1st visit was 0.252, at the 2nd 0.306, at the 3rd 0.291 and at the 4th 0.265.||The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.||||<0.001
92190796|NCT02269917|184280181|OTHER||||||<|0.001|||||||Van Elteren Test|||UACR - Change at Week 24||||<0.001
92312198|NCT02839772|184526319|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.288|STANDARD_ERROR_OF_MEAN|0.204||0.158|TWO_SIDED|95.0|-0.113|0.69|||Mixed Models Analysis|df=185.386||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~A reduction in leg circumference indicates an improvement in the disease."||0.690|-0.113|0.158
92312199|NCT02839772|184526320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.575|STANDARD_ERROR_OF_MEAN|0.162|<|0.001|TWO_SIDED|95.0|0.255|0.895|||Mixed Models Analysis|df=169.916, t=3.550||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~A reduction in foot circumference indicates an improvement in the disease."||0.895|0.255|<0.001
92312200|NCT02839772|184526321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.063|STANDARD_ERROR_OF_MEAN|0.54||0.907|TWO_SIDED|95.0|-1.129|1.002|||Mixed Models Analysis|t=-0.117, df=178.814||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Podoconiosis has a large effect on a person's quality of life. abnormal looking legs/feet, wounds and the related bad odour plus social isolation result in stigma and social isolation.."||1.002|-1.129|0.907
92312201|NCT01569295|184526322|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.27|0.45|||Stratified log-rank test||Hazard Ratio is estimated using Cox proportional hazard model, adjusted for randomization stratification factors.|||0.45|0.27|< 0.0001
92312202|NCT01569295|184526323|SUPERIORITY||Odds Ratio (OR)|3.02|||<|0.0001|TWO_SIDED|95.0|1.98|4.62||Odds ratio,p-value and 95% Confidence Interval(CI) were calculated from Cochran-Mantel-Haenszel(CMH) Chi-square test stratified by stratification factor in EDC(del17p/TP53,immunoglobulin heavy chain variable region(IgHV) mutation and disease status).|Cochran-Mantel-Haenszel|||||4.62|1.98|<0.0001
92312203|NCT01569295|184526324|SUPERIORITY||Odds Ratio (OR)|28.81|||<|0.0001|TWO_SIDED|95.0|10.5|79.02||Odds ratio, p-value and 95% CI were calculated from the CMH Chi-square test stratified by stratification factors in EDC (del17p/TP53, IgHV mutation and disease status).|Cochran-Mantel-Haenszel|||||79.02|10.50|<0.0001
92190797|NCT02269917|184280181|OTHER||||||<|0.001|||||||Van Elteren Test|||UACR - Change at Week 48||||<0.001
92190798|NCT02269917|184280181|OTHER||||||<|0.001|||||||Van Elteren Test|||UPCR - Change at Week 24||||<0.001
92190799|NCT02269917|184280181|OTHER||||||<|0.001|||||||Van Elteren Test|||UPCR - Change at Week 48||||<0.001
92312204|NCT01569295|184526325|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.098|TWO_SIDED|95.0|0.59|1.03|||Stratified log-rank test|||||1.03|0.59|0.098
92190800|NCT02269917|184280182|OTHER||||||<|0.001|||||||Van Elteren Test|||URBPCR: Change at Week 24||||<0.001
92190801|NCT02269917|184280182|OTHER||||||<|0.001|||||||Van Elteren Test|||URBPCR: Change at Week 48||||<0.001
92190802|NCT02269917|184280182|OTHER||||||<|0.001|||||||Van Elteren Test|||UB2MGCR: Change at Week 24||||<0.001
92190803|NCT02269917|184280182|OTHER||||||<|0.001|||||||Van Elteren Test|||UB2MGCR: Change at Week 48||||<0.001
92190804|NCT02269917|184280183|OTHER||||||=|0.288|||||||Van Elteren Test|||FEPO4 - Change at Week 24||||=0.288
92190805|NCT02269917|184280183|OTHER||||||=|0.148|||||||Van Elteren Test|||FEPO4 - Change at Week 48||||=0.148
92190806|NCT02269917|184280194|OTHER||LS Mean Difference|1.37|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|0.697|2.037|||ANCOVA|||Spine BMD: Percent change at Week 24||2.037|0.697|<0.001
92190807|NCT02269917|184280194|OTHER||LS Mean Difference|2.05|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|1.277|2.814|||ANCOVA|||Spine BMD: Percent change at Week 48||2.814|1.277|<0.001
92190808|NCT02269917|184280194|OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.272|=|0.001|TWO_SIDED|95.0|0.366|1.436|||ANCOVA|||Hip BMD: Percent change at Week 24||1.436|0.366|=0.001
92190809|NCT02269917|184280194|OTHER||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|1.144|2.248|||ANCOVA|||Hip BMD: Percent change at Week 48||2.248|1.144|<0.001
92190810|NCT01770509|184280229|SUPERIORITY_OR_OTHER|||||||0.652|||||||ANOVA|General Linear Model ANOVA with repeated measures||||||0.652
92190811|NCT01770509|184280230|SUPERIORITY_OR_OTHER|||||||0.645|||||||ANOVA|General Linear Model ANOVA with repeated measures||||||0.645
92190812|NCT00832650|184280234|SUPERIORITY_OR_OTHER||LS Mean difference|0.051|||||TWO_SIDED|95.0|-0.334|0.436|||ANCOVA||Least squares mean was calculated based on the ANCOVA model with treatment group as a fixed effect and baseline values, age and Body Mass Index (BMI) as covariates.|Null H10: μF8mg=μS10mg where μF8mg and μS10mg are means of GC24 for fesoterodine 8mg and solifenacin 10mg, respectively.||0.436|-0.334|
92190813|NCT02418819|184280258|SUPERIORITY_OR_OTHER||LSMean difference from placebo|-1.9|STANDARD_ERROR_OF_MEAN|2.032||0.8243|ONE_SIDED|92.0|-4.78||||ANCOVA|One(1)-sided P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day -2 assessment.|||-4.78|0.8243
92190814|NCT02418819|184280258|SUPERIORITY_OR_OTHER||LSMean difference from placebo|-2.14|STANDARD_ERROR_OF_MEAN|2.252||0.8277|ONE_SIDED|92.0|-5.33||||ANCOVA|One(1)-side P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day -2 assessment.|||-5.33|0.8277
92267637|NCT01233284|184436667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.031|STANDARD_ERROR_OF_MEAN|0.032||0.3237||95.0|-0.094|0.031|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.031|-0.094|0.3237
92267638|NCT01233284|184436668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.079||0.1402|TWO_SIDED|95.0|-0.04|0.276||MMRM, adjusted for treatment, period, patient and study baseline.|Mixed Models Analysis||Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.276|-0.040|0.1402
92267639|NCT01233284|184436668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.079||0.0656|TWO_SIDED|95.0|-0.01|0.305|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.305|-0.010|0.0656
92267640|NCT01233284|184436668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.079||0.0766|TWO_SIDED|95.0|-0.015|0.299|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.299|-0.015|0.0766
92267641|NCT01233284|184436668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.084||0.3371|TWO_SIDED|95.0|-0.086|0.249|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.249|-0.086|0.3371
92267642|NCT01233284|184436668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.084||0.1097|TWO_SIDED|95.0|-0.031|0.303|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.303|-0.031|0.1097
92267643|NCT01233284|184436668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.084||0.022|TWO_SIDED|95.0|0.029|0.363|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.363|0.029|0.0220
92267644|NCT01233284|184436668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.078||0.2062|TWO_SIDED|95.0|-0.056|0.256|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.256|-0.056|0.2062
92267645|NCT01233284|184436668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.078||0.0731|TWO_SIDED|95.0|-0.014|0.297|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.297|-0.014|0.0731
92267646|NCT01233284|184436668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.078||0.0333|TWO_SIDED|95.0|0.014|0.324|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.324|0.014|0.0333
92267647|NCT01233284|184436669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116|STANDARD_ERROR_OF_MEAN|0.099||0.2451|TWO_SIDED|95.0|-0.081|0.312|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.312|-0.081|0.2451
92267648|NCT01233284|184436669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.099||0.0379|TWO_SIDED|95.0|0.012|0.405|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.405|0.012|0.0379
92267649|NCT01233284|184436669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|STANDARD_ERROR_OF_MEAN|0.099||0.0957|TWO_SIDED|95.0|-0.03|0.363|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.363|-0.030|0.0957
92190815|NCT02418819|184280258|SUPERIORITY_OR_OTHER||LSMean difference from placebo|-4.01|STANDARD_ERROR_OF_MEAN|1.902||0.981|ONE_SIDED|92.0|-6.7||||ANCOVA|One(1)-side P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day -2 assessment.|||-6.70|0.9810
92190816|NCT02418819|184280259|SUPERIORITY_OR_OTHER||LSMean difference from placebo|0.0129|STANDARD_ERROR_OF_MEAN|0.286||0.4821|ONE_SIDED|99.0|-0.6682||||ANCOVA|One (1)-side P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day 0 assessment.|||-0.6682|0.4821
92190817|NCT02418819|184280259|SUPERIORITY_OR_OTHER||LSMean difference from placebo|-0.2974|STANDARD_ERROR_OF_MEAN|0.276||0.8576|ONE_SIDED|99.0|-0.9547||||ANCOVA|One (1)-side P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day 0 assessment.|||-0.9547|0.8576
92190818|NCT02418819|184280259|SUPERIORITY_OR_OTHER||LSMean difference from placebo|0.0498|STANDARD_ERROR_OF_MEAN|0.2403||0.4182|ONE_SIDED|99.0|-0.5226||||ANCOVA|One(1)-side P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day 0 assessment.|||-0.5226|0.4182
92190819|NCT00513292|184280266|SUPERIORITY_OR_OTHER||difference in percentages between arms|2.3||||0.7|TWO_SIDED|95.0|-9.3|13.9|||Chi-squared|||The difference in pCR rates between treatment arms for pCR within the Breast, Defined as no Evidence of Invasive Tumor Remaining in the Breast at Surgery Following Completion of Chemotherapy||13.9|-9.3|.7
92190820|NCT00714688|184280284|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|-2.7|STANDARD_ERROR_OF_MEAN|1.51||0.136||95.0|-6.04|0.67||The p value was adjusted for multiplicity via Dunnett's test procedure.|ANCOVA|Treatment, gender and country were used as factors and baseline value and age were used as covariates.||Statistical analysis of change from baseline at endpoint.||0.67|-6.04|0.136
92190821|NCT00714688|184280284|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|-4.9|STANDARD_ERROR_OF_MEAN|1.5||0.002||95.0|-8.22|-1.55||The p value was adjusted for multiplicity via Dunnett's test procedure.|ANCOVA|Treatment, gender and country were used as factors and baseline value and age were used as covariates.||Statistical analysis of change from baseline at endpoint.||-1.55|-8.22|0.002
92190822|NCT00714688|184280285|SUPERIORITY_OR_OTHER|||||||0.216||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|The ANCOVA model was performed on ranked data. Treatment, gender \& country were used as factors and baseline value \& age were used as covariates.||Statistical analysis of change from baseline at endpoint.||||0.216
92190823|NCT00714688|184280285|SUPERIORITY_OR_OTHER||||||<|0.001||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|The ANCOVA model has been performed on ranked data. Treatment, gender \& country were used as factors and baseline value \& age were used as covariates.||Statistical analysis of change from baseline at endpoint.||||<0.001
92190824|NCT00714688|184280286|SUPERIORITY_OR_OTHER|||||||0.052||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|The ANCOVA model has been performed on ranked data. Treatment, gender and country were used as factors and age was used as a covariate.||||||0.052
92190825|NCT00714688|184280286|SUPERIORITY_OR_OTHER|||||||0.002||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|The ANCOVA model has been performed on ranked data. Treatment, gender and country were used as factors and age was used as a covariate.||||||0.002
92312205|NCT01569295|184526326|SUPERIORITY||Odds Ratio (OR)|9.55||||0.011|TWO_SIDED|95.0|1.19|76.81||Odds ratio, 95% CI and p-value are calculated from the CMH Chi-square test stratified by stratification factors in EDC (del17p/TP53, IgHV mutation and disease status).|Cochran-Mantel-Haenszel|||||76.81|1.19|0.011
92190826|NCT00714688|184280287|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|-4.2|STANDARD_ERROR_OF_MEAN|1.86||0.023||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|Treatment, gender and country were used as factors and baseline value and age were used as covariates.||Statistical analysis of change from baseline at endpoint.||||0.023
92190827|NCT00714688|184280287|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|-4.4|STANDARD_ERROR_OF_MEAN|1.83||0.016||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|Treatment, gender and country were used as factors and baseline value and age were used as covariates.||Statistical analysis of change from baseline at endpoint.||||0.016
92190828|NCT00993798|184280308|SUPERIORITY||LS Mean Difference|-1.27|STANDARD_DEVIATION|0.5||0.012|TWO_SIDED|95.0|-2.25|-0.28|||t-test in ANOVA model|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||-0.28|-2.25|0.012
92190829|NCT00993798|184280309|SUPERIORITY||Median Difference (Final Values)|-8.0||||0.01|TWO_SIDED|95.0|-12.0|0.0|||Wilcoxon (Mann-Whitney)|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||0.0|-12.0|0.010
92190830|NCT00993798|184280310|SUPERIORITY|||||||0.014|||||||Log Rank|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||||0.014
92190831|NCT00993798|184280311|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.08||0.773|TWO_SIDED|95.0|-0.18|0.14|||ANOVA|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||0.14|-0.18|0.773
92190832|NCT02229396|184280328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.129||0.003|TWO_SIDED|95.0|-0.63|-0.13|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-0.13|-0.63|0.003
92190833|NCT02229396|184280328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.127|<|0.001|TWO_SIDED|95.0|-0.84|-0.34|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-0.34|-0.84|<0.001
92190834|NCT02229396|184280329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.406|<|0.001|TWO_SIDED|95.0|-2.79|-1.2|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-1.20|-2.79|<0.001
92190835|NCT02229396|184280329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.12|-0.55|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-0.55|-2.12|<0.001
92190836|NCT02229396|184280330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.08|STANDARD_ERROR_OF_MEAN|4.007|<|0.001|TWO_SIDED|95.0|-27.95|-12.2|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-12.20|-27.95|<0.001
92312206|NCT02064296|184526327|SUPERIORITY|||||||0.333|||||||t-test, 2 sided|||Salience co-activation pattern at rest vs. with pressure pain.||||0.3330
92312207|NCT02064296|184526327|SUPERIORITY|||||||0.6474|||||||t-test, 2 sided|||This statistical analysis covers the sensorimotor co-activation pattern at rest vs. with pressure pain for Healthy controls||||0.6474
92312208|NCT02064296|184526327|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Salience co-activation pattern at rest vs. with pressure pain||||<0.0001
92312209|NCT02064296|184526327|SUPERIORITY|||||||0.0004|||||||t-test, 2 sided|||This statistical analysis covers the sensorimotor co-activation pattern at rest vs. with pressure pain for Fibromyalgia patients||||0.0004
92312210|NCT02064296|184526328|SUPERIORITY|||||||0.0653|||||||t-test, 2 sided|||This is a comparison of Mock Laser Acupuncture pre-and post 4 weeks of treatment.||||0.0653
92312211|NCT02064296|184526328|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||This is a P value for the change in Traditional Acupuncture, pre and post 4 weeks of treatment.||||<0.0001
92312212|NCT02064296|184526329|SUPERIORITY|||||||0.7399|||||||t-test, 2 sided|||Glx statistical comparison||||0.7399
92312213|NCT02064296|184526329|SUPERIORITY|||||||0.6226|||||||t-test, 2 sided|||Glx statistical comparison||||0.6226
92312214|NCT02064296|184526330|SUPERIORITY|||||||0.6344|||||||t-test, 2 sided|||GABA statistical comparison||||0.6344
92190837|NCT02229396|184280330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.64|STANDARD_ERROR_OF_MEAN|3.947|<|0.001|TWO_SIDED|95.0|-24.39|-8.89|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-8.89|-24.39|<0.001
92190838|NCT02229396|184280331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.74|STANDARD_ERROR_OF_MEAN|5.168|<|0.001|TWO_SIDED|95.0|-37.89|-17.59|||ANCOVA|Treatment, region, and baseline HbA1c stratum (\<9.0% or ≥9.0%), as fixed factors; baseline value as covariate.||||-17.59|-37.89|<0.001
92190839|NCT02229396|184280331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.78|STANDARD_ERROR_OF_MEAN|5.09|<|0.001|TWO_SIDED|95.0|-36.78|-16.78|||ANCOVA|Treatment, region, and baseline HbA1c stratum (\<9.0% or ≥9.0%), as fixed factors; baseline value as covariate.||||-16.78|-36.78|<0.001
92190840|NCT02229396|184280332|SUPERIORITY_OR_OTHER||Difference in percentages|19.7|||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%).||||||<0.001
92190841|NCT02229396|184280332|SUPERIORITY_OR_OTHER||Difference in percentages|13.3||||0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%).||||||0.001
92190842|NCT02229396|184280333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.26|STANDARD_ERROR_OF_MEAN|3.494|<|0.001|TWO_SIDED|95.0|-27.12|-13.4|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-13.40|-27.12|<0.001
92190843|NCT02229396|184280333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.03|STANDARD_ERROR_OF_MEAN|3.477|<|0.001|TWO_SIDED|95.0|-21.85|-8.2||This is a nominal p-value.|Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-8.20|-21.85|<0.001
92190844|NCT02229396|184280334|SUPERIORITY_OR_OTHER||Difference in percentages|17.9|||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%).||||||<0.001
92190845|NCT02229396|184280334|SUPERIORITY_OR_OTHER||Difference in percentages|25.6|||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%).||||||<0.001
92190846|NCT02229396|184280335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|1.08||0.005|TWO_SIDED|95.0|-5.2|-0.9|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-0.9|-5.2|0.005
92190847|NCT02229396|184280335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|1.06||0.022|TWO_SIDED|95.0|-4.5|-0.4|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-0.4|-4.5|0.022
92190848|NCT02679079|184280342|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|2.1||0.89|TWO_SIDED|95.0|-4.4|3.8||Nominal p-value is considered statistically significant if less than 0.05. To control for multiplicity, comparisons were tested sequentially.|Mixed Models Analysis|||||3.8|-4.4|0.89
92190849|NCT02679079|184280342|SUPERIORITY||Mean Difference (Net)|1.5|STANDARD_ERROR_OF_MEAN|2.1||0.47|TWO_SIDED|95.0|-2.6|5.6||To control for multiplicity, comparisons were tested sequentially. Nominal p-value was not evaluated for statistical significance since first comparison was not statistically significant.|Mixed Models Analysis|||||5.6|-2.6|0.47
92190850|NCT02679079|184280343|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.21|TWO_SIDED|95.0|-1.0|0.2||To control for multiplicity, comparisons were tested sequentially. Nominal p-value was not evaluated for statistical significance since first comparison was not statistically significant.|Mixed Models Analysis|||||0.2|-1.0|0.21
92190851|NCT02679079|184280343|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.67|TWO_SIDED|95.0|-0.5|0.8||To control for multiplicity, comparisons were tested sequentially. Nominal p-value was not evaluated for statistical significance since first comparison was not statistically significant.|Mixed Models Analysis|||||0.8|-0.5|0.67
92190852|NCT02679079|184280344|SUPERIORITY||Risk Difference (RD)|13.9||||0.24|TWO_SIDED|||||Comparison was not included in multiplicity adjustment procedure.|Cochran-Mantel-Haenszel|Stratified by age group (6 to 11 years, 12 to 17 years)|Risk difference expressed as percentage.|||||0.24
92312215|NCT02064296|184526330|SUPERIORITY|||||||0.7985|||||||t-test, 2 sided|||GABA statistical comparison||||0.7985
92312216|NCT02800642|184526370|OTHER||||||<|0.0001|||||||Exact one-sided 1-sample binomial test|||"The null hypothesis the proportion of participants with a ≥ 15-letter gain in BCVA at Week 76 is ≤ 40% on the 2.5% level of significance (one-sided) was performed using the following criterion: If the p value is less than 2.5%, the null hypothesis will be rejected. Otherwise, the null hypothesis will be regarded as not rejected and may still be true"||||<0.0001
92312217|NCT02800642|184526371|OTHER||||||=|0.8822|||||||Exact one-sided 1-sample binomial test|||"The null hypothesis the proportion of participants with a mean treatment interval of ≥ 8 weeks is ≤ 50% on the 2.5% level of significance (one-sided) was performed using the following criterion: If the p value is less than 2.5%, the null hypothesis will be rejected. Otherwise, the null hypothesis will be regarded as not rejected and may still be true"||||=0.8822
92312218|NCT02374346|184526386|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|3.23||||0.001|TWO_SIDED|95.0|2.04|5.13|||t-test, 2 sided|||Sevoflurane administration in developing postoperative headache||5.13|2.04|0.001
92312219|NCT02374346|184526386|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|1.85||||0.006|TWO_SIDED|95.0|1.19|2.84|||t-test, 2 sided|||Smoking as a factor for developing postoperative headache||2.84|1.19|0.006
92312220|NCT02374346|184526386|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|2.11||||0.008|TWO_SIDED|95.0|1.22|3.66|||t-test, 2 sided|||Intraoperative hypotension associated with postoperative headache in total sample||3.66|1.22|0.008
92312221|NCT02374346|184526386|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|1.85||||0.024|TWO_SIDED|95.0|1.08|3.15|||t-test, 2 sided|||Female gender as a factor for developing postoperative headache||3.15|1.08|0.024
92312222|NCT02374346|184526386|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|4.56||||0.005|TWO_SIDED|95.0|1.58|13.17|||t-test, 2 sided|||Association of female gender and postoperative headache||13.17|1.58|0.005
92312223|NCT02374346|184526386|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|3.79||||0.006|TWO_SIDED|95.0|1.48|9.72|||t-test, 2 sided|||Association of intraoperative hypotension and postoperative headache||9.72|1.48|0.006
92312224|NCT02374346|184526386|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|3.86||||0.041|TWO_SIDED|95.0|1.06|14.06|||t-test, 2 sided|||Association of caffeine consumption and postoperative headache||14.06|1.06|0.041
92312225|NCT02374346|184526386|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test.Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|4.26||||0.001|TWO_SIDED|95.0|1.82|9.95|||t-test, 2 sided|||Association of sevoflurane administration and postoperative headache||9.95|1.82|0.001
92312226|NCT00490841|184526390|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||1-sided exact binomial test|||"objective is to demonstrate the binary restenosis rate at 9 months is \< 28.6% OPC. Assumptions for the primary endpoint analysis:~* H0: Restenosis Rate ≥ 28.6%~* HA: Restenosis Rate \< 28.6%~* Assumed binary restenosis rate = 20%~* Power = 80%~* One-sided type I error = 5%~With the above assumptions, 161 samples would be required. To account for approximately 20% lost to follow-up rate, 202 subjects will be enrolled in the study. The sample size calculation was performed using PASS 2005."||||< 0.0001
92312227|NCT01277211|184526407|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Pearl Indices|0.61||||0.531|TWO_SIDED|95.0|0.19|2.29|||Poisson distribution method|Differences between treatment groups was explored using an exact 95% CI for the ratio of the two Pearl Indices based on the Poisson distribution.||Differences between the two treatment groups (ENG-EE vs. DRSP-EE) were explored using an exact 95% CI for the Ratio of the two Pearl Indices based on the Poisson distribution.||2.29|0.19|0.531
92267650|NCT01233284|184436669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.104||0.5207|TWO_SIDED|95.0|-0.139|0.273|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.273|-0.139|0.5207
92267651|NCT01233284|184436669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.104||0.0606|TWO_SIDED|95.0|-0.009|0.404|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.404|-0.009|0.0606
92267652|NCT01233284|184436669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.104||0.0855|TWO_SIDED|95.0|-0.026|0.387|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.387|-0.026|0.0855
92267653|NCT01233284|184436669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.099||0.3564|TWO_SIDED|95.0|-0.104|0.287|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.287|-0.104|0.3564
92190853|NCT02679079|184280344|SUPERIORITY||Risk Difference (RD)|-4.5||||0.71|TWO_SIDED|||||Comparison was not included in multiplicity adjustment procedure.|Cochran-Mantel-Haenszel|Stratified by age group (6 to 11 years, 12 to 17 years).|Risk difference expressed as a percentage.|||||0.71
92190854|NCT02679079|184280345|SUPERIORITY||Mean Difference (Net)|-1.9|STANDARD_ERROR_OF_MEAN|2.9||0.52|TWO_SIDED|95.0|-7.7|3.9||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||3.9|-7.7|0.52
92190855|NCT02679079|184280345|SUPERIORITY||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|2.9||0.64|TWO_SIDED|95.0|-4.5|7.2||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||7.2|-4.5|0.64
92190856|NCT02679079|184280346|SUPERIORITY||Mean Difference (Net)|-2.3|STANDARD_ERROR_OF_MEAN|4.5||0.6|TWO_SIDED|95.0|-11.2|6.5||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||6.5|-11.2|0.60
92190857|NCT02679079|184280346|SUPERIORITY||Mean Difference (Net)|2.8|STANDARD_ERROR_OF_MEAN|4.5||0.54|TWO_SIDED|95.0|-6.1|11.7||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||11.7|-6.1|0.54
92190858|NCT02679079|184280347|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.1||0.64|TWO_SIDED|95.0|-2.6|1.6||Comparison was not included in multiplicity adjustment procedure.|ANCOVA|||||1.6|-2.6|0.64
92267654|NCT01233284|184436669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.099||0.0424|TWO_SIDED|95.0|0.007|0.399|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.399|0.007|0.0424
92267655|NCT01233284|184436669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.099||0.0815|TWO_SIDED|95.0|-0.022|0.37|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.370|-0.022|0.0815
92267656|NCT05405218|184436744|SUPERIORITY||Mean Difference (Net)|0.08||||0.46|TWO_SIDED|95.0|-0.13|0.29|||Mixed Models Analysis|||||0.29|-0.13|0.46
92267657|NCT05405218|184436745|SUPERIORITY||Mean Difference (Net)|0.01||||0.92|TWO_SIDED|95.0|-0.2|0.23|||Mixed Models Analysis|||||0.23|-0.2|0.92
92267658|NCT05405218|184436747|SUPERIORITY||Mean Difference (Net)|0.61||||0.09|TWO_SIDED|95.0|-0.08|1.3|||Mixed Models Analysis|||||1.3|-0.08|0.09
92267659|NCT05405218|184436748|SUPERIORITY||Mean Difference (Net)|0.0||||0.9|TWO_SIDED|95.0|-0.06|0.05|||Mixed Models Analysis|||||0.05|-0.06|0.9
92267660|NCT00710840|184436779|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||Difference in the change from Preop to 4 weeks Postop|t-test, 2 sided|||The primary outcome, difference in quadriceps torque between intervention (TKA Min) and Control TKA at 4 weeks, was tested using an analysis of covariance model. Confirmatory measures were evaluated at 4 and 12 weeks after surgery in the same way. Baseline characteristics of the treatment groups were compared using 2-sample t tests for continuous measures or a χ2 test for independent proportions for categorical measures. A 2-sided α level of .05 was designated for statistical significance.||||0.07
92267661|NCT00710840|184436780|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED|||||Difference in the change from Preop to 4 weeks Postop|t-test, 2 sided|||||||0.92
92267662|NCT00710840|184436781|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||Difference in the change from Preop to 4 weeks Postop|t-test, 2 sided|||||||0.48
92267663|NCT00710840|184436782|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED|||||Difference in the change from Preop to 4 weeks Postop|t-test, 2 sided|||||||0.41
92267664|NCT00157820|184436783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.31||||0.0028|TWO_SIDED|95.0|0.14|0.67|||Wilcoxon (Mann-Whitney)||An additional primary analysis was pre-planned: the odds ratio of CSAE-score between DC and SC obtained from SAS GENMOD procedure with the length of follow-up as an 'offset'.|"The assumed effect of the DC treatment was a reduction from 30 to 15% in the proportion of patients who develop a CSAE, as well as a 15% reduction in the mean of CSAE (from 6 to 5.1). The estimated sample size was 200 (DC true) vs. 100 (SC true) patients followed for 8 months, with a two-sided alfa \< 0.05 and a power of 88.8%.~The sample size was set up to 360 patients (120 patients per arm), considering losses in follow-up."||0.67|0.14|0.0028
92267665|NCT02207413|184436834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (D-QIV\_LP/ D-QIV\_IP) is ≤ 1.5.|Adjusted GMT Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.11|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for H1N1 strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/ Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.11|0.85|
92267666|NCT02207413|184436834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/ Influsplit Tetra\_IP) is ≤ 1.5.|Adjusted GMT Ratio|1.05|||||TWO_SIDED|95.0|0.94|1.18|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for H3N2 strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.18|0.94|
92267667|NCT02207413|184436834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/ Influsplit Tetra\_IP) is ≤ 1.5|Adjusted GMT Ratio|1.03|||||TWO_SIDED|95.0|0.91|1.16|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for Yamagata strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.16|0.91|
92312228|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 1|-3.0||||0.346|TWO_SIDED|95.0|-9.9|3.1|||Miettinen and Nurminen method|||For Cycle 1, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||3.1|-9.9|0.346
92312229|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 2|-6.2||||0.029|TWO_SIDED|95.0|-12.7|-0.6|||Miettinen and Nurminen method|||For Cycle 2, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.6|-12.7|0.029
92312230|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 3|-5.8||||0.019|TWO_SIDED|95.0|-11.8|-0.9|||Miettinen and Nurminen method|||For Cycle 3, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.9|-11.8|0.019
92312231|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 4|-8.0||||0.001|TWO_SIDED|95.0|-14.0|-2.9|||Miettinen and Nurminen method|||For Cycle 4, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-2.9|-14.0|0.001
92312232|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 5|-1.3||||0.556|TWO_SIDED|95.0|-6.4|2.6|||Miettinen and Nurminen method|||For Cycle 5, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||2.6|-6.4|0.556
92312233|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 6|-3.9||||0.089|TWO_SIDED|95.0|-9.5|0.5|||Miettinen and Nurminen method|||For Cycle 6, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||0.5|-9.5|0.089
92267668|NCT02207413|184436834|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/ Influsplit Tetra\_IP) is ≤ 1.5.|Adjusted GMT Ratio|1.04|||||TWO_SIDED|95.0|0.9|1.21|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for Victoria strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.21|0.90|
92312234|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 7|-3.7||||0.11|TWO_SIDED|95.0|-9.4|0.8|||Miettinen and Nurminen method|||For Cycle 7, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||0.8|-9.4|0.110
92312235|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 8|-4.3||||0.049|TWO_SIDED|95.0|-9.8|0.0|||Miettinen and Nurminen method|||For Cycle 8, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.0|-9.8|0.049
92312236|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 9|-1.1||||0.621|TWO_SIDED|95.0|-6.2|2.9|||Miettinen and Nurminen method|||For Cycle 9, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||2.9|-6.2|0.621
92312237|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 10|-4.4||||0.041|TWO_SIDED|95.0|-10.0|-0.2|||Miettinen and Nurminen method|||For Cycle 10, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.2|-10.0|0.041
92312238|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 11|-3.8||||0.046|TWO_SIDED|95.0|-8.9|-0.1|||Miettinen and Nurminen method|||For Cycle 11, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.1|-8.9|0.046
92312239|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 12|-4.4||||0.037|TWO_SIDED|95.0|-9.9|-0.2|||Miettinen and Nurminen method|||For Cycle 12, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.2|-9.9|0.037
92312240|NCT01277211|184526408|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 13|-4.5||||0.048|TWO_SIDED|95.0|-10.4|0.0|||Miettinen and Nurminen method|||For Cycle 13, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.0|-10.4|0.048
92312241|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 1|-6.0||||0.015|TWO_SIDED|95.0|-12.0|-1.1|||Miettinen and Nurminen method|||For Cycle 1, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-1.1|-12.0|0.015
92312242|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 2|-4.9||||0.012|TWO_SIDED|95.0|-10.1|-1.0|||Miettinen and Nurminen method|||For Cycle 2, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-1.0|-10.1|0.012
92312243|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 3|-6.5||||0.002|TWO_SIDED|95.0|-12.0|-2.2|||Miettinen and Nurminen method|||For Cycle 3, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-2.2|-12.0|0.002
92312244|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 4|-3.6||||0.044|TWO_SIDED|95.0|-8.5|-0.1|||Miettinen and Nurminen method|||For Cycle 4, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.1|-8.5|0.044
92312245|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 5|-1.0||||0.609|TWO_SIDED|95.0|-5.7|2.5|||Miettinen and Nurminen method|||For Cycle 5, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||2.5|-5.7|0.609
92190859|NCT02679079|184280347|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|1.1||0.77|TWO_SIDED|95.0|-2.5|1.9||Comparison was not included in multiplicity adjustment procedure.|ANCOVA|||||1.9|-2.5|0.77
92190860|NCT02679079|184280348|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|1.2||0.45|TWO_SIDED|95.0|-1.4|3.2||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||3.2|-1.4|0.45
92190861|NCT02679079|184280348|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|1.2||0.72|TWO_SIDED|95.0|-2.7|1.9||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||1.9|-2.7|0.72
92190862|NCT02679079|184280349|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.41|TWO_SIDED|95.0|-0.3|0.7||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||0.7|-0.3|0.41
92190863|NCT02679079|184280349|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.2||0.01|TWO_SIDED|95.0|0.2|1.1||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||1.1|0.2|0.01
92267669|NCT02207413|184436835|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/Influsplit Tetra\_IP) is ≤ 1.5.|Adjusted GMT ratio|1.07|||||TWO_SIDED|95.0|0.9|1.28|||ANCOVA|||The adjusted GMT of HI antibodies for H1N1 strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.28|0.90|
92267670|NCT02207413|184436835|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/Influsplit Tetra\_IP) is ≤ 1.5|Adjusted GMT Ratio|1.18|||||TWO_SIDED|95.0|1.0|1.39|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for H3N2 strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.39|1.00|
92267671|NCT02207413|184436835|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/Influsplit Tetra\_IP) is ≤ 1.5.|Adjusted GMT Ratio|1.07|||||TWO_SIDED|95.0|0.91|1.27|||ANCOVA|||The adjusted GMT of HI antibodies for Yamagata strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.27|0.91|
92267672|NCT02207413|184436835|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/Influsplit Tetra\_IP) is ≤ 1.5.|Adjusted GMT Ratio|1.17|||||TWO_SIDED|95.0|0.99|1.38|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for Victoria strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate||1.38|0.99|
92267673|NCT00347776|184436867|SUPERIORITY||Cox Proportional Hazard|0.67||||0.047|TWO_SIDED|95.0|0.45|0.98|||Log Rank|||"The log rank test was done to compare the survival rates between the tetracycline arm and the azithromycin arms combined.~The Cox proportional hazard model was used to evaluate risk factors and adjust for confounding in predicting recurrence."||0.98|0.45|.047
92267674|NCT00347776|184436868|SUPERIORITY|||||||0.19|||||||Log Rank|||"We tried to evaluate if treating the immediate family members of the subject with oral azithromycin along with the subject had added advantage in reducing the rate of recurrent trichiasis in comparison to treating the subject alone with oral azithromycin post surgery.~The log rank test was done to compare the survival rates between the two intervention arms.The comparison results were expressed in person-years."||||0.19
92267675|NCT00347776|184436869|SUPERIORITY||Odds Ratio (OR)|0.63|||||TWO_SIDED|95.0|0.36|1.1|||Regression, Logistic||Comparison group was the tetracycline group.|Surgery was considered a failure if there was trichiasis recurrence at 6 week follow-up.||1.10|0.36|
92267676|NCT02074982|184436903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.85|||<|0.0001|TWO_SIDED|95.0|2.01|4.02|||Regression, Logistic|||||4.02|2.01|<0.0001
92267677|NCT03292731|184436970|OTHER||Odds Ratio (OR)|1.0||||0.96|TWO_SIDED|95.0|0.93|1.08||adjusted for cerclage|Regression, Logistic|adjusted for cerclage||logistic regression comparing drug concentration to the rate of sPTB||1.08|0.93|0.96
92267678|NCT03292731|184436971|OTHER||Slope|1.11||||0.05|TWO_SIDED|95.0|0.0|2.23|||Regression, Linear|||||2.23|0.00|0.05
92267679|NCT03292731|184436972|OTHER||Slope|1.56||||0.022|TWO_SIDED|95.0|0.25|2.87|||Regression, Linear|||||2.87|0.25|0.022
92267680|NCT03292731|184436973|SUPERIORITY|||||||0.82||||||no adjustments|Fisher Exact|||Only RCT subjects utilized in neonatal safety analysis||||0.82
92312246|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 6|-3.9||||0.062|TWO_SIDED|95.0|-9.3|0.2|||Miettinen and Nurminen method|||For Cycle 6, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||0.2|-9.3|0.062
92190864|NCT02679079|184280350|SUPERIORITY||Risk Difference (RD)|14.8||||0.18|TWO_SIDED|||||Comparison was not included in multiplicity adjustment procedure.|Cochran-Mantel-Haenszel|Stratified by age group (6 to 11 years, 12 to 17 years).|Risk difference expressed as a percentage.|||||0.18
92190865|NCT02679079|184280350|SUPERIORITY||Risk Difference (RD)|-0.7||||0.95|TWO_SIDED|||||Comparison was not included in multiplicity adjustment procedure.|Cochran-Mantel-Haenszel|Stratified by age group (6 to 11 years, 12 to 17 years).|Risk difference expressed as a percentage.|||||0.95
92190866|NCT03009019|184280355|SUPERIORITY||Odds Ratio (OR)|1.4||||0.075|TWO_SIDED|95.0|0.97|2.03|||Fisher Exact|||Last Observation Carried Forward (LOCF)||2.03|0.97|0.075
92190867|NCT03009019|184280355|SUPERIORITY||Odds Ratio (OR)|1.47||||0.055|TWO_SIDED|95.0|1.0|2.14|||Fisher Exact|||Observed cases (OC)||2.14|1.00|0.055
92267681|NCT00471237|184436977|SUPERIORITY||Mean Difference (Net)|0.29|STANDARD_ERROR_OF_MEAN|0.55||0.59|TWO_SIDED|95.0|-0.78|1.37|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.044 at Month 12.||||1.37|-0.78|0.590
92267682|NCT00471237|184436977|SUPERIORITY||Mean Difference (Net)|1.36|STANDARD_ERROR_OF_MEAN|0.55||0.028|TWO_SIDED|95.0|0.28|2.44|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.044 at Month 12||||2.44|0.28|0.028
92267683|NCT00471237|184436977|SUPERIORITY||Mean Difference (Net)|1.58|STANDARD_ERROR_OF_MEAN|0.54||0.011|TWO_SIDED|95.0|0.51|2.65|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.044 at Month 12.||||2.65|0.51|0.011
92267684|NCT00471237|184436977|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|0.55||0.012|TWO_SIDED|95.0|0.51|2.69|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.044 at Month 12.||||2.69|0.51|0.012
92267685|NCT00471237|184436985|SUPERIORITY||Mean Difference (Net)|-0.45|STANDARD_ERROR_OF_MEAN|0.47||0.68|TWO_SIDED|95.0|-1.38|0.48|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.006 at Month 6.||||0.48|-1.38|0.680
92267686|NCT00471237|184436985|SUPERIORITY||Mean Difference (Net)|0.95|STANDARD_ERROR_OF_MEAN|0.48||0.192|TWO_SIDED|95.0|0.01|1.89|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.006 at Month 6.||||1.89|0.01|0.192
92267687|NCT00471237|184436985|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.47||0.68|TWO_SIDED|95.0|-1.12|0.73|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.006 at Month 6.||||0.73|-1.12|0.680
92267688|NCT00471237|184436985|SUPERIORITY||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.48||0.68|TWO_SIDED|95.0|-0.59|1.29|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.006 at Month 6.||||1.29|-0.59|0.680
92267689|NCT00471237|184436986|SUPERIORITY||Mean Difference (Net)|-0.68|STANDARD_ERROR_OF_MEAN|0.33||0.037|TWO_SIDED|95.0|-1.32|-0.04|||ANOVA|||Total Hip aBMD, Month 6||-0.04|-1.32|0.037
92267690|NCT00471237|184436986|SUPERIORITY||Mean Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.33||0.017|TWO_SIDED|95.0|-1.43|-0.14|||ANOVA|||Total Hip aBMD, Month 6||-0.14|-1.43|0.017
92267691|NCT00471237|184436986|SUPERIORITY||Mean Difference (Net)|-1.28|STANDARD_ERROR_OF_MEAN|0.32||0|TWO_SIDED|95.0|-1.92|-0.64|||ANOVA|||Total Hip aBMD, Month 6||-0.64|-1.92|0.000
92267692|NCT00471237|184436986|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|0.33||0|TWO_SIDED|95.0|-1.95|-0.65|||ANOVA|||Total Hip aBMD, Month 6||-0.65|-1.95|0.000
92267693|NCT00471237|184436986|SUPERIORITY||Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|0.36||0.015|TWO_SIDED|95.0|-1.61|-0.17|||ANOVA|||Total Hip aBMD, Month 12||-0.17|-1.61|0.015
92267694|NCT00471237|184436986|SUPERIORITY||Mean Difference (Net)|-1.02|STANDARD_ERROR_OF_MEAN|0.37||0.006|TWO_SIDED|95.0|-1.74|-0.3|||ANOVA|||Total Hip aBMD, Month 12||-0.30|-1.74|0.006
92267695|NCT00471237|184436986|SUPERIORITY||Mean Difference (Net)|-1.33|STANDARD_ERROR_OF_MEAN|0.36||0|TWO_SIDED|95.0|-2.04|-0.63|||ANOVA|||Total Hip aBMD, Month 12||-0.63|-2.04|0.000
92267696|NCT00471237|184436986|SUPERIORITY||Median Difference (Net)|-1.57|STANDARD_ERROR_OF_MEAN|0.37||0|TWO_SIDED|95.0|-2.3|-0.84|||ANOVA|||Total Hip aBMD, Month 12||-0.84|-2.30|0.000
92267697|NCT00848965|184436999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-2.08|-0.68|||||Treatment difference (FP minus placebo) is presented as the difference in the adjusted means for treatment versus placebo.|||-0.68|-2.08|
92267698|NCT00848965|184436999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|0.309|||TWO_SIDED|95.0|-2.16|-0.93|||||Treatment difference (FP minus placebo) is presented as the difference in the adjusted means for treatment versus placebo.|||-0.93|-2.16|
92267699|NCT00848965|184436999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|0.305|||TWO_SIDED|95.0|-2.33|-1.11|||||Treatment difference (FP minus placebo) is presented as the difference in the adjusted means for treatment versus placebo.|||-1.11|-2.33|
92267700|NCT00848965|184436999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.351|||TWO_SIDED|95.0|-2.6|-1.19|||||Treatment difference is presented as the difference in the adjusted means for treatment versus placebo.|||-1.19|-2.60|
92267701|NCT02951182|184437020|SUPERIORITY||Least Squares (LS) Mean Difference|8.6||||0.0016|TWO_SIDED|95.0|3.5|13.8|||Mixed-effects Model for Repeated Measure|||||13.8|3.5|0.0016
92267702|NCT02951182|184437020|SUPERIORITY||Least Squares (LS) Mean Difference|10.6||||0.0001|TWO_SIDED|95.0|5.5|15.8|||Mixed-effects Model for Repeated Measure|||||15.8|5.5|0.0001
92267703|NCT02951182|184437020|SUPERIORITY||Least Squares (LS) Mean Difference|12.0||||0.0001|TWO_SIDED|95.0|6.7|17.4|||Mixed-effects Model for Repeated Measure|||||17.4|6.7|0.0001
92267704|NCT02951182|184437021|SUPERIORITY||Least Squares (LS) Mean Difference|-22.3|||||TWO_SIDED|95.0|-32.1|-12.4||||||||-12.4|-32.1|
92267705|NCT02951182|184437021|SUPERIORITY||Least Squares (LS) Mean Difference|-34.7|||||TWO_SIDED|95.0|-44.7|-24.8||||||||-24.8|-44.7|
92267706|NCT02951182|184437021|SUPERIORITY||Least Squares (LS) Mean Difference|-33.4|||||TWO_SIDED|95.0|-48.5|-18.3||||||||-18.3|-48.5|
92312247|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 7|-4.1||||0.019|TWO_SIDED|95.0|-9.0|-0.6|||Miettinen and Nurminen method|||For Cycle 7, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.6|-9.0|0.019
92267707|NCT02951182|184437022|SUPERIORITY||Least Squares (LS) Mean Difference|14.8|||||TWO_SIDED|95.0|5.3|24.2||||||||24.2|5.3|
92267708|NCT02951182|184437022|SUPERIORITY||Least Squares (LS) Mean Difference|19.1|||||TWO_SIDED|95.0|9.7|28.6||||||||28.6|9.7|
92267709|NCT02951182|184437022|SUPERIORITY||Least Squares (LS) Mean Difference|20.0|||||TWO_SIDED|95.0|10.8|29.1||||||||29.1|10.8|
92267710|NCT02951182|184437023|SUPERIORITY||Least Squares (LS) Mean Difference|16.1|||||TWO_SIDED|95.0|5.4|26.8||||||||26.8|5.4|
92267711|NCT02951182|184437023|SUPERIORITY||Least Squares (LS) Mean Difference|18.5|||||TWO_SIDED|95.0|7.9|29.1||||||||29.1|7.9|
92267712|NCT02951182|184437023|SUPERIORITY||Least Squares (LS) Mean Difference|20.2|||||TWO_SIDED|95.0|11.9|28.4||||||||28.4|11.9|
92267713|NCT03112720|184437027|OTHER||Odds Ratio (OR)|1.5|||<|0.01|TWO_SIDED||||||Chi-squared||||\< 0.01 study terminated because of covid and no meaningfull numbers participated|||<0.01
92312248|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 8|-1.9||||0.308|TWO_SIDED|95.0|-6.7|1.6|||Miettinen and Nurminen method|||For Cycle 8, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||1.6|-6.7|0.308
92312249|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 9|-4.2||||0.027|TWO_SIDED|95.0|-9.3|-0.4|||Miettinen and Nurminen method|||For Cycle 9, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.4|-9.3|0.027
92312250|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 10|-2.9||||0.098|TWO_SIDED|95.0|-7.6|0.5|||Miettinen and Nurminen method|||For Cycle 10, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||0.5|-7.6|0.098
92312251|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 11|-4.4||||0.009|TWO_SIDED|95.0|-9.4|-1.0|||Miettinen and Nurminen method|||For Cycle 11, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-1.0|-9.4|0.009
92312252|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 12|-6.2||||0.002|TWO_SIDED|95.0|-11.7|-2.1|||Miettinen and Nurminen method|||For Cycle 12, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-2.1|-11.7|0.002
92312253|NCT01277211|184526409|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 13|-4.5||||0.043|TWO_SIDED|95.0|-10.2|-0.1|||Miettinen and Nurminen method|||For Cycle 13, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.1|-10.2|0.043
92190868|NCT03009019|184280356|SUPERIORITY||Odds Ratio (OR)|1.75||||0.003|TWO_SIDED|95.0|1.22|2.52|||Regression, Logistic|||||2.52|1.22|0.003
92312254|NCT03516513|184526458|SUPERIORITY|t-tests||||||0.905|||||||t-test, 2 sided|||||||0.905
92312255|NCT03516513|184526458|SUPERIORITY|t-test||||||0.32|||||||t-test, 2 sided|||||||.320
92190869|NCT03009019|184280356|SUPERIORITY||Odds Ratio (OR)|1.76||||0.003|TWO_SIDED|95.0|1.22|2.55|||Regression, Logistic|||||2.55|1.22|0.003
92190870|NCT01812707|184280382|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤0.05|ANCOVA|||"Each treatment group was compared to placebo using ANCOVA-derived contrasts.~A hierarchical testing procedure was applied to ensure strong control of overall Type-I error rate at 0.05 level. Order was following:~1. Alirocumab 150 mg Q2W versus placebo~2. Alirocumab 75 mg Q2W versus placebo~3. Alirocumab 50 mg Q2W versus placebo~Testing continued only when high-order test was statistically significant at 5% level."||||<0.0001
92190871|NCT01812707|184280382|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤0.05|ANCOVA|||||||<0.0001
92267714|NCT02181673|184437120|SUPERIORITY_OR_OTHER||Percent Difference|53.4|||<|0.001|TWO_SIDED|95.0|45.8|60.9|||Cochran-Mantel-Haenszel|||||60.90|45.80|<0.001
92267715|NCT00491322|184437132|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92312256|NCT03516513|184526459|SUPERIORITY|||||||0.155||||||Not adjusted for multiple comparisons|t-test, 2 sided|||||||.155
92312257|NCT03516513|184526459|SUPERIORITY|||||||0.974||||||Not adjusted for multiple comparisons|t-test, 2 sided|||||||.974
92312258|NCT03516513|184526461|SUPERIORITY|||||||0.212|||||||t-test, 2 sided|||||||.212
92312259|NCT03516513|184526462|SUPERIORITY|||||||0.507|||||||t-test, 2 sided|||||||.507
92312260|NCT03516513|184526463|SUPERIORITY|||||||0.091|||||||t-test, 2 sided|||||||.091
92312261|NCT04614246|184526478|OTHER||LS-Mean|-1.63|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|80.0|-2.13|-1.14|||Mixed Models Analysis|||80% confidence interval (CI) for change in mean worst EAPP from baseline to Week 12||-1.14|-2.13|
92312262|NCT04614246|184526478|OTHER||LS-Mean|-2.13|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|80.0|-2.66|-1.61|||Mixed Models Analysis|||80% confidence interval (CI) for change in mean worst EAPP from baseline to Week 12||-1.61|-2.66|
92312263|NCT04614246|184526478|OTHER||LS-Mean|-1.96|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|80.0|-2.48|-1.43|||Mixed Models Analysis|||80% confidence interval (CI) for change in mean worst EAPP from baseline to Week 12||-1.43|-2.48|
92312264|NCT04614246|184526478|OTHER||LS-Mean|-1.94|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|80.0|-2.44|-1.45|||Mixed Models Analysis|||80% confidence interval (CI) for change in mean worst EAPP from baseline to Week 12||-1.45|-2.44|
92190872|NCT01812707|184280382|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤0.05|ANCOVA|||||||<0.0001
92190873|NCT01066897|184280406|OTHER|||||||0.002|||||||Chi-squared|||||||.002
92190874|NCT01066897|184280407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.368|STANDARD_DEVIATION|0.44||0.067|TWO_SIDED||||||t-test, 2 sided|One sample t-test to determine if the % change in HAMD was different from 0||For the 2 dropouts, used LOCF.||||.067
92190875|NCT01697592|184280421|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.93|||<|0.001|TWO_SIDED|95.0|-1.1|-0.75|||Constrained longitudinal data analysis|Constrained longitudinal data analysis with terms for treatment, basal AHA medication, prior AHA therapy status except for basal medication, and time.||||-0.75|-1.10|<0.001
92190876|NCT01697592|184280421|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.98|||<|0.001|TWO_SIDED|95.0|-1.37|-0.6|||Constrained longitudinal data analysis|Constrained longitudinal data analysis with terms for treatment, basal AHA medication, prior AHA therapy status except for basal medication, and time.||||-0.60|-1.37|<0.001
92190877|NCT01697592|184280421|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.92|||<|0.001|TWO_SIDED|95.0|-1.29|-0.56|||Constrained longitudinal data analysis|Constrained longitudinal data analysis with terms for treatment, basal AHA medication, prior AHA therapy status except for basal medication, and time.||||-0.56|-1.29|<0.001
92267716|NCT00517868|184437133|NON_INFERIORITY|A paired student t comparison was used to assess treatment differences as measured by 11 point numerical rating scale.|Mean Difference (Final Values)|-21.14||||0.0363|TWO_SIDED|95.0|-44.43|2.16|||t-test, 1 sided|||||2.16|-44.43|0.0363
92267717|NCT06067191|184437138|OTHER||Difference in Least Square Mean|-312.28||||0.0009|TWO_SIDED|95.0|-489.17|-135.38|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||-135.38|-489.17|0.0009
92267718|NCT06067191|184437139|OTHER||Difference in Least Square Mean|-1.45||||0.0047|TWO_SIDED|95.0|-2.43|-0.47|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||-0.47|-2.43|0.0047
92267719|NCT06067191|184437140|OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
92267720|NCT06067191|184437141|OTHER|||||||0.0051|||||||Log Rank|||||||0.0051
92267721|NCT06067191|184437142|OTHER|||||||0.0077|||||||Log Rank|||||||0.0077
92267722|NCT06067191|184437143|OTHER||Difference in Least Square Mean|-87.4||||0.0268|TWO_SIDED|95.0|-164.3|-10.49|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||-10.49|-164.30|0.0268
92267723|NCT06067191|184437144|OTHER||Difference in Least Square Mean|-0.99||||0.0865|TWO_SIDED|95.0|-2.13|0.15|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||0.15|-2.13|0.0865
92267724|NCT06067191|184437145|OTHER|||||||0.0008|||||||Log Rank|||||||0.0008
92267725|NCT06067191|184437146|OTHER|||||||0.8579|||||||Log Rank|||||||0.8579
92267726|NCT06067191|184437147|OTHER||Difference in Least Square Mean|-93.95||||0.0658|TWO_SIDED|95.0|-194.26|6.36|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||6.36|-194.26|0.0658
92267727|NCT06067191|184437148|OTHER||Difference in Least Square Mean|-93.95||||0.0658|TWO_SIDED|95.0|-194.26|6.36|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||6.36|-194.26|0.0658
92267728|NCT06067191|184437149|OTHER||Difference in Least Square Mean|-0.93||||0.203|TWO_SIDED|95.0|-2.38|0.52|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||0.52|-2.38|0.2030
92267729|NCT00318409|184437197|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.98
92267730|NCT00650806|184437290|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.4||0.031|TWO_SIDED|95.0|-1.6|-0.1|||ANOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center.||||-0.1|-1.6|0.031
92267731|NCT00650806|184437290|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.4|-0.8|||ANOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center.||||-0.8|-2.4|<0.001
92267732|NCT00650806|184437290|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.1|-0.6|||ANOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center.||||-0.6|-2.1|<0.001
92267733|NCT00650806|184437291|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.4||0.045|TWO_SIDED|95.0|-1.58|-0.02|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. Baseline body weight was a covariate.||||-0.02|-1.58|0.045
92267734|NCT00650806|184437291|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.4|-0.8|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. Baseline body weight was a covariate.||||-0.80|-2.40|<0.001
92267735|NCT00650806|184437291|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.07|-0.51|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. Baseline body weight was a covariate.||||-0.51|-2.07|0.001
92267736|NCT00650806|184437292|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.14||0.031|TWO_SIDED|95.0|-0.59|-0.03|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||-0.03|-0.59|0.031
92267737|NCT00650806|184437292|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.9|-0.32|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||-0.32|-0.90|<0.001
92267738|NCT00650806|184437292|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.76|-0.2|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||-0.20|-0.76|<0.001
92267739|NCT00650806|184437293|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.317||95.0|0.6|5.6||P-value controlled for run-in weight loss stratum and pooled center.|Cochran-Mantel-Haenszel||Odds ratio and Confidence Interval controlled for run-in weight loss stratum and pooled center.|||5.6|0.6|0.317
92267740|NCT00650806|184437293|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.059|TWO_SIDED|95.0|0.9|11.1||P-value controlled for run-in weight loss stratum and pooled center.|Cochran-Mantel-Haenszel||Odds ratio and Confidence Interval controlled for run-in weight loss stratum and pooled center.|||11.1|0.9|0.059
92267741|NCT00650806|184437293|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.1||||0.027|TWO_SIDED|95.0|1.0|10.0||P-value controlled for run-in weight loss stratum and pooled center.|Cochran-Mantel-Haenszel||Odds ratio and Confidence Interval controlled for run-in weight loss stratum and pooled center.|||10.0|1.0|0.027
92267742|NCT00650806|184437294|SUPERIORITY_OR_OTHER|||||||0.117|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlled for run-in weight loss stratum and pooled center.||||||0.117
92267743|NCT00650806|184437294|SUPERIORITY_OR_OTHER|||||||0.225|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlled for run-in weight loss stratum and pooled center.||||||0.225
92267744|NCT00650806|184437294|SUPERIORITY_OR_OTHER|||||||0.317|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlled for run-in weight loss stratum and pooled center.||||||0.317
92267745|NCT00650806|184437295|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|1.23||0.835|TWO_SIDED|95.0|-2.68|2.17|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||2.17|-2.68|0.835
92267746|NCT00650806|184437295|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|1.29||0.466|TWO_SIDED|95.0|-3.47|1.59|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||1.59|-3.47|0.466
92267747|NCT00650806|184437295|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|1.25||0.273|TWO_SIDED|95.0|-3.87|1.09|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||1.09|-3.87|0.273
92312265|NCT04614246|184526479|OTHER|mixed model repeated measures|Difference of least square-mean|0.29|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-0.77|1.35||||||Difference of least square-mean (95% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||1.35|-0.77|
92312266|NCT04614246|184526479|OTHER|mixed model repeated measures (MMRM)|Difference of least square-mean|-0.18|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|-1.27|0.91||||||Difference of least square-mean (95% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||0.91|-1.27|
92267748|NCT00650806|184437296|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.63|STANDARD_ERROR_OF_MEAN|1.13||0.149|TWO_SIDED|95.0|-3.85|0.59|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||0.59|-3.85|0.149
92267749|NCT00650806|184437296|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|1.18||0.541|TWO_SIDED|95.0|-3.05|1.6|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||1.6|-3.05|0.541
92267750|NCT00650806|184437296|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.78|STANDARD_ERROR_OF_MEAN|1.15||0.121|TWO_SIDED|95.0|-4.03|0.47|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||0.47|-4.03|0.121
92267751|NCT00650806|184437297|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.011|STANDARD_ERROR_OF_MEAN|0.0091||0.239|TWO_SIDED|95.0|-0.0071|0.0286|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||0.0286|-0.0071|0.239
92267752|NCT00650806|184437297|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.001|STANDARD_ERROR_OF_MEAN|0.0095||0.9|TWO_SIDED|95.0|-0.0174|0.0198|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||0.0198|-0.0174|0.900
92267753|NCT00650806|184437297|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.002|STANDARD_ERROR_OF_MEAN|0.0092||0.822|TWO_SIDED|95.0|-0.016|0.0202|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||0.0202|-0.0160|0.822
92267754|NCT02242942|184437298|SUPERIORITY||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.22|0.51|||Log Rank||Hazard ratios were estimated by Cox regression model. Stratification factors: Binet and Geographic region.|||0.51|0.22|<0.0001
92267755|NCT02242942|184437299|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.23|0.53|||Log Rank||Hazard Ratios were estimated by Cox regression model. Stratification factors: Binet and Geographic region.|||0.53|0.23|<0.0001
92267756|NCT02242942|184437300|SUPERIORITY||Difference in Response Rates|13.43||||0.0007|TWO_SIDED|95.0|5.47|21.38||P-value was assessed using Cochran-Mantel-Haenszel (CMH) test stratified by the IvRS randomization stratification factors.|Cochran-Mantel-Haenszel||95% Confidence Interval (CI) for difference in rates were constructed using Anderson-Hauck method.|||21.38|5.47|0.0007
92267757|NCT02242942|184437301|SUPERIORITY||Difference in Response Rates|26.39|||<|0.0001|TWO_SIDED|95.0|17.41|35.36||P-value was assessed using CMH test stratified by the IvRS randomization stratification factors.|Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|||35.36|17.41|<0.0001
92267758|NCT02242942|184437302|SUPERIORITY||Difference in MRD Negative Rates|40.28|||<|0.0001|TWO_SIDED|95.0|31.45|49.1|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|||49.10|31.45|<0.0001
92267759|NCT02242942|184437303|SUPERIORITY||Difference in MRD Negative Rates|39.81|||<|0.0001|TWO_SIDED|95.0|31.27|48.36|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|||48.36|31.27|<0.0001
92267760|NCT02242942|184437305|SUPERIORITY||Difference in MRD Negative Rates|32.87|||<|0.0001|TWO_SIDED|95.0|23.76|41.98|||Chi-squared||95% CI for difference in rates were constructed using Anderson-Hauck method.|||41.98|23.76|<0.0001
92267761|NCT02242942|184437306|SUPERIORITY||Difference in MRD Negative Rates|38.43|||<|0.0001|TWO_SIDED|95.0|30.15|46.71|||Chi-squared||95% CI for difference in rates were constructed using Anderson-Hauck method.|||46.71|30.15|<0.0001
92267762|NCT02242942|184437307|SUPERIORITY||Difference in Response Rates|1.85||||0.5612|TWO_SIDED|95.0|-4.63|8.33||P-value was assessed using Cochran-Mantel-Haenszel (CMH) test stratified by the IvRS randomization stratification factors.|Cochran-Mantel-Haenszel||95% Confidence Interval (CI) for difference in rates were constructed using Anderson-Hauck method.|||8.33|-4.63|0.5612
92267763|NCT02242942|184437309|SUPERIORITY||Difference in Response Rates|0.93||||0.7169|TWO_SIDED|95.0|-4.66|6.51|||Cochran-Mantel-Haenszel|P-value was assessed using CMH test stratified by the IvRS randomization stratification factors.|95% CI for difference in rates were constructed using Anderson-Hauck method.|||6.51|-4.66|0.7169
92267764|NCT05014672|184437321|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.86||||0.0206|TWO_SIDED|95.0|0.746|0.994|||Mixed Model Repeated Measures|||||0.994|0.746|0.0206
92267765|NCT05014672|184437321|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.81||||0.0057|TWO_SIDED|95.0|0.703|0.939|||Mixed Model Repeated Measures|||||0.939|0.703|0.0057
92267766|NCT05014672|184437322|SUPERIORITY||LS mean difference vs placebo|-2.16||||0.2214|TWO_SIDED|95.0|-7.785|3.458|||Mixed Model Repeated Measures|||||3.458|-7.785|0.2214
92267767|NCT05014672|184437322|SUPERIORITY||LS mean difference vs placebo|0.63||||0.591|TWO_SIDED|95.0|-4.859|6.12|||Mixed Model Repeated Measures|||||6.120|-4.859|0.5910
92267768|NCT05014672|184437325|SUPERIORITY||LS mean difference vs placebo|0.42||||0.5675|TWO_SIDED|95.0|-4.454|5.285|||Mixed Model Repeated Measures|||||5.285|-4.454|0.5675
92267769|NCT05014672|184437325|SUPERIORITY||LS mean difference vs placebo|0.02||||0.5032|TWO_SIDED|95.0|-4.886|4.926|||Mixed Model Repeated Measures|||||4.926|-4.886|0.5032
92267770|NCT05014672|184437326|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.85||||0.0491|TWO_SIDED|95.0|0.692|1.033|||Mixed Model Repeated Measures|||||1.033|0.692|0.0491
92267771|NCT05014672|184437326|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.95||||0.3099|TWO_SIDED|95.0|0.783|1.158|||Mixed Model Repeated Measures|||||1.158|0.783|0.3099
92267772|NCT05014672|184437332|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.84||||0.0039|TWO_SIDED|95.0|0.743|0.954|||Mixed Model Repeated Measures|||||0.954|0.743|0.0039
92267773|NCT05014672|184437333|SUPERIORITY||LS mean difference vs placebo|0.3905||||0.3905|TWO_SIDED|95.0|-5.496|4.153|||Mixed Model Repeated Measures|||||4.153|-5.496|0.3905
92190878|NCT01697592|184280421|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.16|||<|0.001|TWO_SIDED|95.0|-1.45|-0.88|||Constrained longitudinal data analysis|Constrained longitudinal data analysis with terms for treatment, basal AHA medication, prior AHA therapy status except for basal medication, and time.||||-0.88|-1.45|<0.001
92312267|NCT04614246|184526479|OTHER|mixed model repeated measures (MMRM)|Difference of least square-mean|-0.08|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|98.0|-1.17|1.02||||||Difference of least square-mean (95% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||1.02|-1.17|
92312268|NCT04614246|184526479|OTHER|mixed model repeated measures (MMRM)|Difference of least square-mean|0.29|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|80.0|-0.4|0.98||||||Difference of least square-mean (80% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||0.98|-0.4|
92190879|NCT01697592|184280421|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.8|||<|0.001|TWO_SIDED|95.0|-1.06|-0.54|||Constrained longitudinal data analysis|Constrained longitudinal data analysis with terms for treatment, basal AHA medication, prior AHA therapy status except for basal medication, and time.||||-0.54|-1.06|<0.001
92190880|NCT00265096|184280482|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The positive test is concluded if there is a significant difference between combined golimumab and placebo groups and at least one of the pair-wise conparisons at 0.05 level.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage).||Null Hypothesis: No difference in ACR 20 response comparing Groups I vs II and Groups I vs III. Sample size (n=396; 110 placebo, 286 combined golimumab) provided \>98% power to detect a significant difference (alpha=0.05) in ACR 20 response between treatment groups, assuming equal proportions of subjects receiving methotrexate (MTX) at baseline and the difference in ACR 20 response of 27% in subjects without MTX and 17-27% in subjects with MTX, between placebo and combined golimumab groups.||||<0.001
92190881|NCT00265096|184280482|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage).||||||<0.001
92190882|NCT00265096|184280482|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage).||||||<0.001
92190883|NCT00265096|184280483|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage)||||||<0.001
92190884|NCT00265096|184280483|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage)||||||<0.001
92190885|NCT00265096|184280483|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage)||||||<0.001
92190886|NCT00265096|184280484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (treatment group and subject's baseline Methotrexate (MTX) usage)||||||<0.001
92190887|NCT00265096|184280484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (treatment group and subject's baseline MTX usage)||||||<0.001
92190888|NCT00265096|184280484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (treatment group and subject's baseline MTX usage)||||||<0.001
92190889|NCT00265096|184280485|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (treatment and subject's baseline Methotrexate (MTX) usage)||||||<0.001
92190890|NCT00265096|184280485|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (with treatment and subject's baseline MTX usage)||||||<0.001
92190891|NCT00265096|184280485|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (treatment and subject's baseline MTX usage)||||||<0.001
92190892|NCT00265096|184280486|SUPERIORITY_OR_OTHER|||||||0.015||||||The test was not to be performed if the test of ACR 20 at Week 24 was not significant.|ANOVA|Analysis of Variance (ANOVA) on van der Waerden scores with 2 factors: treatment group and participant's baseline methotrexate (MTX) usage||Null Hypothesis: There is no difference in change from baseline among 3 treatment groups. Sample size (n=396, 110 placebo, 286 combined golimumab) provided \>93% power to detect a significant difference (alpha=0.05) in change from baseline between treatment groups, assuming 50% of subjects received MTX at baseline, and mean change from baseline for combined golimumab of 0, and a mean increase for placebo of 0.1 in subjects who received MTX at baseline and 0.6 in subjects who did not receive MTX||||0.015
92190893|NCT00265096|184280486|SUPERIORITY_OR_OTHER|||||||0.011||||||The test was not to be performed if the test of ACR 20 at Week 24 was not significant|ANOVA|ANOVA on van der Waerden scores with 2 factors: treatment group and participant's baseline Methotrexate (MTX) usage||||||0.011
92190894|NCT00265096|184280486|SUPERIORITY_OR_OTHER|||||||0.086||||||The test was not to be performed if the test of ACR 20 at Week 24 was not significant|ANOVA|ANOVA on van der Waerden scores with 2 factors: treatment group and participant's baseline Methotrexate (MTX) usage||||||0.086
92190895|NCT00265096|184280487|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline Methotrexate (MTX) usage)||||||<0.001
92190896|NCT00265096|184280487|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage)||||||<0.001
92190897|NCT00265096|184280487|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage)||||||<0.001
92190898|NCT00666835|184280503|EQUIVALENCE|Therapeutic equivalence was defined as the two-sided 95 % confidence interval of the difference between the two treatment groups lying entirely in the interval -0.5 to 0.5 g/dL. The confidence interval of the difference was calculated based on the least square means (LSMEANS) from an analysis of co-variance model including factors treatment, center, mean baseline Hb level (\<11.5 and T11.5 g/dL) as factors and change of the mean weekly dose as a covariate.|Point estimate of difference (ANCOVA)|0.084|||||TWO_SIDED|95.0|-0.17|0.338||||||||0.338|-0.170|
92267774|NCT05014672|184437334|SUPERIORITY||LS mean difference vs placebo|0.21||||0.5393|TWO_SIDED|95.0|-3.968|4.381|||Mixed Model Repeated Measures|||||4.381|-3.968|0.5393
92267775|NCT05014672|184437335|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.9||||0.1079|TWO_SIDED|95.0|0.759|1.065|||Mixed Model Repeated Measures|||||1.065|0.759|0.1079
92267776|NCT00145119|184437346|SUPERIORITY_OR_OTHER_LEGACY||proportion (%)|8.0||||||||||||||||||
92312269|NCT04614246|184526479|OTHER|mixed model repeated measures (MMRM)|Difference of least square-mean|-0.18|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|80.0|-0.89|0.53||||||Difference of least square-mean (80% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||0.53|-0.89|
92312270|NCT04614246|184526479|OTHER|mixed model repeated measures (MMRM)|Difference of least square-mean|-0.08|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|80.0|-0.79|0.64||||||Difference of least square-mean (80% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||0.64|-0.79|
92312271|NCT00207883|184526481|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92312272|NCT04140032|184526515|SUPERIORITY||Difference between groups in change in B|-0.18|STANDARD_DEVIATION|0.06||0.003|TWO_SIDED|95.0|-0.31|-0.06|||Mixed Models Analysis|p \< 0.05 considered significant||||-0.06|-0.31|0.003
92312273|NCT04140032|184526516|SUPERIORITY||Odds ratio for difference between groups|1.29||||0.7|TWO_SIDED|95.0|0.034|4.91|||Mixed Models Analysis|p \< 0.05 considered significant|Reported dispersion parameter is standard error of log(OR)|||4.91|.034|0.7
92312274|NCT04140032|184526517|SUPERIORITY||Difference between groups in change in f|-0.2|STANDARD_DEVIATION|0.19||0.3|TWO_SIDED|95.0|-0.58|0.17|||Mixed Models Analysis|||||0.17|-0.58|0.3
92312275|NCT04140032|184526521|SUPERIORITY||Odds ratio for difference between groups|1.1|STANDARD_ERROR_OF_MEAN|0.35||0.8|TWO_SIDED|95.0|0.56|2.16|||Mixed Models Analysis|p \< 0.05 considered significant|Reported dispersion parameter is standard error of log(OR)|||2.16|0.56|0.8
92312276|NCT04140032|184526521|SUPERIORITY||Odds ratio for difference between groups|1.1||||0.8|TWO_SIDED|95.0|0.56|2.16|||Mixed Models Analysis|p \< 0.05 considered significant|Reported dispersion parameter is standard error of log(OR)|||2.16|0.56|0.8
92312277|NCT04205812|184526534|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0042|TWO_SIDED|95.0|0.6|0.93||The p-value was based on a stratified log-rank test at an overall 1-sided 2.5% level of significance, using O'Brien and Fleming boundary to adjust for alpha spending at interim analysis.|Log Rank||A stratified Cox regression with Efron's method for tie handling was used to estimate the hazard ratio.|||0.93|0.60|0.0042
92312278|NCT04205812|184526535|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.52|0.79|||Log Rank|The p-value was based on the stratified log-rank test for PFS.|A stratified Cox regression with Efron's method for tie handling was used to estimate the hazard ratio.|||0.79|0.52|<0.0001
92312279|NCT04205812|184526536|SUPERIORITY|||||||0.0012||||||The p-value was calculated at the 1-sided 2.5% level from stratified Cochran-Mantel-Haenszel test.|Cochran-Mantel-Haenszel|||||||0.0012
92312280|NCT02514447|184526553|SUPERIORITY||||||<|0.0001||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (primary and key secondary myelosuppression efficacy endpoints) in a strong sense at a 1-sided 0.10 level.|non-parametric ANCOVA|Hochberg-based gatekeeping procedure||Analysis was for Part 2 data: Treatment difference was evaluated using a nonparametric analysis of covariance (ANCOVA). The nonparametric ANCOVA included study baseline ANC value as covariate, stratification factors of ECOG performance status (0 to 1 versus 2) and sensitivity to first line treatment (sensitive or resistant) and treatment as fixed effects.||||<0.0001
92190899|NCT00666835|184280504|EQUIVALENCE|Therapeutic equivalence was defined as the two-sided 95 % confidence interval of the difference between the two treatment groups lying entirely in the interval -0.5 to 0.5 g/dL. The confidence interval of the difference was calculated based on the least square means (LSMEANS) from an analysis of co-variance model including factors treatment, center, mean baseline Hb level (\<11.5 and T11.5 g/dL) as factors and change of the mean weekly dose as a covariate.|Difference LSM of Epo Hexal & Erypo|0.189|||||TWO_SIDED|95.0|-0.039|0.418||||||||0.418|-0.039|
92190900|NCT00396097|184280566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.033||0.5762|ONE_SIDED|97.5|-0.071||||ANCOVA|||The null hypothesis was that the individualized treatment arm was not superior to the standard treatment arm; alternative hypothesis that the individualized treatment arm was superior to the standard treatment arm with respect to the mean 24-month AOTD. Using a 2:1 randomization, a two sided sample t-test comparing the root AOTD between the 2 treatment arms with 80% power at a 5% level required 260 subjects. Assuming a 20% attrition rate, approximately 312 subjects were needed for this study.|||-0.071|0.5762
92312281|NCT02514447|184526554|SUPERIORITY|||||||0.016||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (primary and key secondary myelosuppression efficacy endpoints) in a strong sense at a 1-sided 0.10 level.|Modified Poisson|Hochberg-based gatekeeping procedure||The occurrence of SN was a binary variable. Treatment group difference was analyzed using modified Poisson regression to account for the variable duration of the Treatment Period for each patient. The model included baseline ANC as a covariate, stratification factors of ECOG performance status (0 or 1 vs 2), sensitivity to 1st line treatment (sensitive or resistant), and treatment as fixed effects. The logarithm transformation of # of cycles was included as an offset variable in the modeling.||||0.0160
92312282|NCT05351164|184526576|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92312283|NCT05351164|184526577|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92312284|NCT03367572|184526590|SUPERIORITY||Mean Difference (Net)|0.7056||||0.008|TWO_SIDED||||||ANOVA|||||||0.008
92312285|NCT03367572|184526590|SUPERIORITY||Mean Difference (Net)|1.1486|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
92312286|NCT03367572|184526591|SUPERIORITY||Mean Difference (Net)|0.4468||||0.01|TWO_SIDED||||||ANOVA|||||||0.010
92312287|NCT03367572|184526591|SUPERIORITY||Mean Difference (Net)|0.5632||||0.001|TWO_SIDED||||||ANOVA|||||||0.001
92190901|NCT00396097|184280567|SUPERIORITY_OR_OTHER|||||||0.627|TWO_SIDED||||||ANOVA (Levene's Test)|||||||0.627
92312288|NCT03367572|184526592|SUPERIORITY||Mean Difference (Net)|-0.59||||0.019|TWO_SIDED||||||t-test, 2 sided|||"Secondary Aim 1 is to determine if olanzapine is more effective than prochlorperazine in controlling nausea at Cycle 2 in participants who experienced CINV at Cycle 1 when used in combination with netupitant, palonosetron and dexamethasone.~This will be assessed by estimating the contrast D = (3 - 1) - (2 - 1), where 3 is the Arm 3 mean, 2 is the Arm 2 mean, and 1 is the Control mean, and testing whether D = 0 versus the one-sided alternative hypothesis that D \> 0."||||0.019
92312289|NCT03367572|184526593|SUPERIORITY||Odds Ratio (OR)|1.31||||0.386|TWO_SIDED|97.5|0.65|2.66||prochlorperazine arm statistics|Regression, Logistic|||||2.66|0.65|0.386
92312290|NCT03367572|184526593|SUPERIORITY||Odds Ratio (OR)|0.16||||0.036|TWO_SIDED|97.5|0.02|1.13||olanzapine arm statistics|Regression, Logistic|||||1.13|0.02|0.036
92190902|NCT00396097|184280568|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.033||||0.8016|TWO_SIDED|95.0|0.802|1.33|||Regression, Cox|||||1.330|0.802|0.8016
92190903|NCT00396097|184280569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.822|STANDARD_ERROR_OF_MEAN|2.25||0.0101|TWO_SIDED|95.0|1.395|10.249|||ANCOVA|||||10.249|1.395|0.0101
92190904|NCT00396097|184280569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.281|STANDARD_ERROR_OF_MEAN|2.471||0.0002|TWO_SIDED|95.0|4.417|14.145|||ANCOVA|||||14.145|4.417|0.0002
92267777|NCT04411641|184437347|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Hazard Ratio (HR)|0.693||||0.0026|TWO_SIDED|95.0|0.546|0.88||Threshold for significance at 2-sided 0.05 level.|Regression, Cox|||Derived using Cox proportional-hazards model with robust variance estimation.Covariates were treatment group,age at screening (\>40,\<=40 years),geographic region (United States \[US\], non-US),baseline EDSS score \& baseline gadolinium (Gd)-enhancing T1 lesions (presence, absence).In this analysis, for participants who completed study with 3-month confirmation and continued to meet disability progression criteria throughout EOS, their 6-month CDP status was imputed via multiple imputation method.||0.880|0.546|0.0026
92267778|NCT04411641|184437348|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Hazard Ratio (HR)|0.757||||0.0134|TWO_SIDED|95.0|0.607|0.944||Threshold for significance at 2-sided 0.05 level.|Regression, Cox|||Derived using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), baseline EDSS score and baseline Gd-enhancing T1 lesions (presence, absence).||0.944|0.607|0.0134
92267779|NCT04411641|184437349|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Relative Risk|0.622||||0.011|TWO_SIDED|95.0|0.432|0.897||Threshold for significance at 2-sided 0.05 level.|Chi-squared|||Derived using negative binomial model with the number of new and/or enlarging T2-hyperintense lesions between randomization date and EOS date as the response variable, treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), baseline EDSS score, and baseline number of T2 lesions as covariates, and log transformed observation duration as the offset variable.||0.897|0.432|0.0110
92267780|NCT04411641|184437350|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Hazard Ratio (HR)|0.972||||0.8428|TWO_SIDED|95.0|0.735|1.286||Threshold for significance at 2-sided 0.05 level.|Regression, Cox|||Derived using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), baseline EDSS score and baseline Gd-enhancing T1 lesions (presence, absence).||1.286|0.735|0.8428
92267781|NCT04411641|184437351|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Hazard Ratio (HR)|0.767||||0.004|TWO_SIDED|95.0|0.64|0.919|||Regression, Cox|||Derived using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), baseline EDSS score and baseline Gd-enhancing T1 lesions (presence, absence).||0.919|0.640|0.0040
92267782|NCT04411641|184437352|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Hazard Ratio (HR)|1.882||||0.0206|TWO_SIDED|95.0|1.102|3.214|||Regression, Cox|||Derived using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), baseline EDSS score and baseline Gd-enhancing T1 lesions (presence, absence).||3.214|1.102|0.0206
92267783|NCT04411641|184437353|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|LS Mean Difference|0.082||||0.1646|TWO_SIDED|95.0|-0.034|0.197|||Mixed model repeated measures (MMRM)|||Covariates in the mixed-effect model with repeated measures were treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), visit, treatment-by-visit interaction, cube root transformed Month 6 brain volume, and cube root transformed Month 6 brain volume-by-visit interaction.||0.197|-0.034|0.1646
92267784|NCT04342390|184437364|SUPERIORITY|||||||0.363|||||||ANCOVA|||||||0.363
92267785|NCT04342390|184437365|SUPERIORITY|||||||0.633|||||||ANCOVA|||||||0.633
92267786|NCT04342390|184437366|SUPERIORITY|||||||0.433|||||||ANCOVA|||||||0.433
92267787|NCT04342390|184437367|SUPERIORITY|||||||0.822|||||||ANCOVA|||||||0.822
92267788|NCT04342390|184437368|SUPERIORITY|||||||0.554|||||||ANCOVA|||||||0.554
92267789|NCT04342390|184437369|SUPERIORITY|||||||0.186|||||||ANCOVA|||||||0.186
92267790|NCT04342390|184437370|SUPERIORITY|||||||0.921|||||||ANCOVA|||||||0.921
92267791|NCT04584294|184437371|SUPERIORITY||Odds Ratio (OR)|1.46||||0.31|TWO_SIDED|95.0|0.7|3.06||The threshold for significance was set at p\<0.05.|Regression, Logistic|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel logistic regression model to test whether the outcome was significantly different in the intervention versus control arm. Analyses accounted for missing data in outcome and a priori adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE).||3.06|0.70|0.31
92312291|NCT05026177|184526612|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.5335|TWO_SIDED|95.0|-0.96|1.86|||Mixed Models Analysis|||||1.86|-0.96|0.5335
92190905|NCT00396097|184280569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.204|STANDARD_ERROR_OF_MEAN|2.495||0.2001|TWO_SIDED|95.0|-1.707|8.114|||ANCOVA|||||8.114|-1.707|0.2001
92190906|NCT00396097|184280570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.899|STANDARD_ERROR_OF_MEAN|3.414|<|0.0001|TWO_SIDED|95.0|30.181|43.618|||ANCOVA|||||43.618|30.181|<0.0001
92190907|NCT00396097|184280570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.517|STANDARD_ERROR_OF_MEAN|3.284|<|0.0001|TWO_SIDED|95.0|42.054|54.98|||ANCOVA|||||54.980|42.054|<.0001
92190908|NCT00396097|184280570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.443|STANDARD_ERROR_OF_MEAN|3.306|<|0.0001|TWO_SIDED|95.0|27.936|40.951|||ANCOVA|||||40.951|27.936|<.0001
92190909|NCT00396097|184280571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.081||0.2618|TWO_SIDED|95.0|-0.068|0.249|||ANCOVA|||||0.249|-0.068|0.2618
92190910|NCT00396097|184280571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.013|STANDARD_ERROR_OF_MEAN|0.094||0.8926|TWO_SIDED|95.0|-0.172|0.198|||ANCOVA|||||0.198|-0.172|0.8926
92190911|NCT00396097|184280571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.095||0.9566|TWO_SIDED|95.0|-0.192|0.181|||ANCOVA|||||0.181|-0.192|0.9566
92267792|NCT04584294|184437371|SUPERIORITY|||||||||||||Threshold for significance was set at p\<0.05.|Regression, Logistic|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome. Our model accounted for missing data in outcome and baseline adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE) in R."|P-value and estimated OR (95% CI) is not available because the model did not converge.|||
92267793|NCT04584294|184437372|SUPERIORITY||Odds Ratio (OR)|1.37||||0.26|TWO_SIDED|95.0|0.79|2.38||Threshold for significance was set at p\<0.05.|Regression, Logistic|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel logistic regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach. Analyses accounted for missing data in outcome and baseline adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE).||2.38|0.79|0.26
92267794|NCT04584294|184437372|SUPERIORITY||Odds Ratio (OR)|3.46||||0.019|TWO_SIDED|95.0|1.23|9.76||Threshold for significance was set at p\<0.05.|Regression, Logistic|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome. Our model accounted for missing data in outcome and baseline adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE) in R."||9.76|1.23|0.019
92267795|NCT04584294|184437373|SUPERIORITY||Median Difference (Final Values)|-0.62||||0.27|TWO_SIDED|95.0|-1.71|0.48||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel logistic regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach. Analyses accounted for missing data in outcome and baseline adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE).||0.48|-1.71|0.27
92267796|NCT04584294|184437373|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.42|TWO_SIDED|95.0|-2.91|1.22||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome. Our model accounted for missing data in outcome and baseline adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE) in R."||1.22|-2.91|0.42
92267797|NCT04584294|184437374|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.45|TWO_SIDED|95.0|-0.56|1.26||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel logistic regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach.||1.26|-0.56|0.45
92312292|NCT05026177|184526612|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.5836|TWO_SIDED|95.0|-0.99|1.76|||Mixed Models Analysis|||||1.76|-0.99|0.5836
92312293|NCT05026177|184526613|SUPERIORITY||Mean Difference (Final Values)|-1.57||||0.0763|TWO_SIDED|95.0|-3.3|0.17|||Mixed Models Analysis|||||0.17|-3.30|0.0763
92190912|NCT03209050|184280577|OTHER|||||||0.5|||||||Clopper-Pearson 95% CI|||||||0.5
92190913|NCT02959177|184280596|SUPERIORITY||LSMean Difference|-3.01|||<|0.001|TWO_SIDED|95.0|-3.8|-2.22|||Mixed Models Analysis|||||-2.22|-3.80|<0.001
92190914|NCT02959177|184280596|SUPERIORITY||Mean Difference (Final Values)|-2.7|||<|0.001|TWO_SIDED|95.0|-3.53|-1.94|||Mixed Models Analysis|||||-1.94|-3.53|<0.001
92190915|NCT02959177|184280597|SUPERIORITY||Odds Ratio (OR)|3.89|||||TWO_SIDED|95.0|2.71|5.57||||||||5.57|2.71|
92190916|NCT02959177|184280597|SUPERIORITY||Odds Ratio (OR)|3.664|||||TWO_SIDED|95.0|2.54|5.23||||||||5.23|2.54|
92190917|NCT02959177|184280598|SUPERIORITY||Odds Ratio (OR)|3.24|||||TWO_SIDED|95.0|2.14|4.89||||||||4.89|2.14|
92190918|NCT02959177|184280598|SUPERIORITY||Odds Ratio (OR)|3.16|||||TWO_SIDED|95.0|2.08|4.8||||||||4.80|2.08|
92190919|NCT02959177|184280599|SUPERIORITY||Odds Ratio (OR)|3.47|||||TWO_SIDED|95.0|2.03|5.93||||||||5.93|2.03|
92190920|NCT02959177|184280599|SUPERIORITY||Odds Ratio (OR)|3.13|||||TWO_SIDED|95.0|1.79|5.44||||||||5.44|1.79|
92190921|NCT02959177|184280600|SUPERIORITY||LSMean difference|7.0|||<|0.001|TWO_SIDED|95.0|4.54|9.46|||Mixed Models Analysis|||||9.46|4.54|<0.001
92190922|NCT02959177|184280600|SUPERIORITY||Mean Difference (Final Values)|5.79|||<|0.01|TWO_SIDED|95.0|3.33|8.24|||Mixed Models Analysis|||||8.24|3.33|<0.01
92190923|NCT02959177|184280601|SUPERIORITY||LSMean difference|-2.9|||<|0.001|TWO_SIDED|95.0|-3.61|-2.19|||Mixed Models Analysis|||||-2.19|-3.61|<0.001
92190924|NCT02959177|184280601|SUPERIORITY||LSMean difference|-2.7|||<|0.001|TWO_SIDED|95.0|-3.41|-1.99|||Mixed Models Analysis|||||-1.99|-3.41|<0.001
92190925|NCT02959177|184280603|SUPERIORITY||LSMean Difference|-11.82|||<|0.001|TWO_SIDED|95.0|-16.14|-7.51|||Mixed Models Analysis|||||-7.51|-16.14|<0.001
92190926|NCT02959177|184280603|SUPERIORITY||LSMean difference|-13.73|||<|0.001|TWO_SIDED|95.0|-18.05|-9.4|||Mixed Models Analysis|||||-9.40|-18.05|<0.001
92190927|NCT02959177|184280604|SUPERIORITY||LSMean Difference|-4.9|||<|0.001|TWO_SIDED|95.0|-8.06|-1.73|||Mixed Models Analysis|||||-1.73|-8.06|<0.001
92190928|NCT02959177|184280604|SUPERIORITY||LSMean Difference|-2.97|||<|0.001|TWO_SIDED|95.0|-6.08|0.14|||Mixed Models Analysis|||||0.14|-6.08|<.001
92190929|NCT03544229|184280615|SUPERIORITY||Least Square Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.25|=|0.618|TWO_SIDED|90.0|-0.34|0.49||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD composite score was \<0.|MMRM||MMRM included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.49|-0.34|=0.618
92190930|NCT03544229|184280615|SUPERIORITY||Least Square Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.17|=|0.533|TWO_SIDED|90.0|-0.27|0.29||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD composite score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.29|-0.27|=0.533
92190931|NCT03544229|184280615|SUPERIORITY||Least Square Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.167|=|0.447|TWO_SIDED|90.0|-0.3|0.25||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD composite score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.25|-0.30|=0.447
92190932|NCT03544229|184280616|SUPERIORITY||Odds Ratio (OR)|0.87|||=|0.607|TWO_SIDED|90.0|0.39|1.96|||Logistic Regression||Comparisons of TAK-906 to Placebo was based on logistic regression with at least 50% reduction of participants from baseline in weekly composite score with baseline composite score, disease population at randomization, and treatment as covariates.|||1.96|0.39|=0.607
92190933|NCT03544229|184280616|SUPERIORITY||Odds Ratio (OR)|1.21|||=|0.283|TWO_SIDED|90.0|0.7|2.1|||Logistic Regression||Comparisons of TAK-906 to Placebo was based on logistic regression with at least 50% reduction of participants from baseline in weekly composite score with baseline composite score, disease population at randomization, and treatment as covariates.|||2.10|0.70|=0.283
92190934|NCT03544229|184280616|SUPERIORITY||Odds Ratio (OR)|0.98|||=|0.527|TWO_SIDED|90.0|0.56|1.69|||Logistic Regression||Comparisons of TAK-906 to Placebo was based on logistic regression with at least 50% reduction of participants from baseline in weekly composite score with baseline composite score, disease population at randomization, and treatment as covariates.|||1.69|0.56|=0.527
92190935|NCT03544229|184280617|SUPERIORITY||Least-Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.279|=|0.584|TWO_SIDED|90.0|-0.4|0.52||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD nausea symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.52|-0.40|=0.584
92267798|NCT04584294|184437374|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.09|TWO_SIDED|95.0|-0.15|2.02||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome."||2.02|-0.15|0.09
92190936|NCT03544229|184280617|SUPERIORITY||Least-Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.189|=|0.625|TWO_SIDED|90.0|-0.25|0.37||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD nausea symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.37|-0.25|=0.625
92312294|NCT05026177|184526613|SUPERIORITY||Mean Difference (Final Values)|-1.24||||0.153|TWO_SIDED|95.0|-2.93|0.46|||Mixed Models Analysis|||||0.46|-2.93|0.1530
92190937|NCT03544229|184280617|SUPERIORITY||Least-Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.187|=|0.54|TWO_SIDED|90.0|-0.29|0.33||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD nausea symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.33|-0.29|=0.540
92190938|NCT03544229|184280618|SUPERIORITY||Least-Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.283|=|0.51|TWO_SIDED|90.0|-0.46|0.47||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD early satiety symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.47|-0.46|=0.510
92190939|NCT03544229|184280618|SUPERIORITY||Least-Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.192|=|0.674|TWO_SIDED|90.0|-0.23|0.4||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD early satiety symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.40|-0.23|=0.674
92312295|NCT01153425|184526712|OTHER|unpaired t-test for the difference of the means between the two arms|||||>|0.05|||||||t-test, 2 sided|||paired t-test for change from baseline to 24 months||||>0.05
92312296|NCT00911300|184526723|SUPERIORITY_OR_OTHER||Percentage of participants|0.5||||1|TWO_SIDED|95.0|-2.0|3.1|||Fisher Exact||The estimated value is the absolute percent difference between Fondaparinux and UFH/VKA.|||3.1|-2.0|1.000
92267799|NCT04584294|184437375|SUPERIORITY||Mean Difference (Final Values)|-2.26||||0.56|TWO_SIDED|95.0|-9.94|5.42||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach.||5.42|-9.94|0.56
92267800|NCT04584294|184437375|SUPERIORITY||Mean Difference (Final Values)|-13.72||||0.02|TWO_SIDED|95.0|-25.37|-2.06||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome."||-2.06|-25.37|0.02
92267801|NCT04584294|184437376|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.84|TWO_SIDED|95.0|-0.38|0.47||Threshold for significance was set at p\<0.05.|Regression, Linear|||We used a multilevel regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach.||0.47|-0.38|0.84
92267802|NCT04584294|184437376|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.27|TWO_SIDED|95.0|-0.35|1.25||Threshold for significance was set at p\<0.05.|Regression, Linear|||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome."||1.25|-0.35|0.27
92267803|NCT04584294|184437388|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.21|TWO_SIDED|95.0|-0.22|0.99||threshold for significance set at \<0.05|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel logistic regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach.||0.99|-0.22|0.21
92267804|NCT04584294|184437388|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.04||95.0|0.04|1.75||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome."||1.75|0.04|0.04
92267805|NCT00318357|184437395|SUPERIORITY|||||||0.007|||||||Regression, Cox|||Mortality is compared between the arms of the CARE-HF study, using Cox proportional hazards regression. Data from the original CARE-HF trial and the CARE-HF Long Term Follow-up trial were combined for the analysis.||||0.007
92267806|NCT01392469|184437445|SUPERIORITY||Ratio (Test/Reference)|1.17|||||TWO_SIDED|90.0|1.03|1.33||||||||1.33|1.03|
92267807|NCT01392469|184437445|SUPERIORITY||Ratio (Test/Reference)|1.4|||||TWO_SIDED|90.0|1.23|1.59||||||||1.59|1.23|
92267808|NCT01392469|184437446|SUPERIORITY||Ratio (Test/Reference)|1.36|||||TWO_SIDED|90.0|1.14|1.62||||||||1.62|1.14|
92267809|NCT01392469|184437446|SUPERIORITY||Ratio (Test/Reference)|1.7|||||TWO_SIDED|90.0|1.43|2.03||||||||2.03|1.43|
92267810|NCT01392469|184437447|SUPERIORITY||Ratio (Test/Reference)|1.0|||||TWO_SIDED|90.0|0.82|1.21||||||||1.21|0.82|
92267811|NCT01392469|184437447|SUPERIORITY||Ratio (Test/Reference)|1.07|||||TWO_SIDED|90.0|0.88|1.31||||||||1.31|0.88|
92267812|NCT01392469|184437448|SUPERIORITY||Ratio (Test/Reference)|1.28|||||TWO_SIDED|90.0|1.03|1.61||||||||1.61|1.03|
92267813|NCT01392469|184437448|SUPERIORITY||Ratio (Test/Reference)|1.56|||||TWO_SIDED|90.0|1.24|1.95||||||||1.95|1.24|
92267814|NCT01256086|184437452|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Relative potency of Novolizer compared to Aerolizer. Equivalence was to be concluded if the CI for the relative potency was completely covered by the interval (0.67, 1.50) according to OIP Guideline.|Relative potency|1.13|||||TWO_SIDED|90.0|0.94|1.38|||||Fieller confidence interval for logarithm of relative potency|||1.38|0.94|
92267815|NCT03443973|184437455|SUPERIORITY||Difference in Adjusted mean|-0.19|STANDARD_ERROR_OF_MEAN|0.18||0.2998|TWO_SIDED|95.0|-0.55|0.17|||ANCOVA|||Change from Baseline was calculated based on ANCOVA analysis model which included the following covariates and stratification factors =Treatment + Baseline (BL) + Geographic Region + Disease Stage + AD Medication at BL + Apolipoprotein E, Allele e4 (APOE e4) + Baseline ADAS COG13 + Baseline Alzheimer Disease Cooperative Study Group-Activities of Daily Living (ADCS-ADL).||0.17|-0.55|0.2998
92267816|NCT03443973|184437461|SUPERIORITY||Difference in adjusted mean|-1.28|STANDARD_ERROR_OF_MEAN|0.58||0.0273|TWO_SIDED|95.0|-2.41|-0.14|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4||-0.14|-2.41|0.0273
92267817|NCT03443973|184437462|SUPERIORITY||Difference in adjusted mean|0.82|STANDARD_ERROR_OF_MEAN|0.78||0.2918|TWO_SIDED|95.0|-0.7|2.34|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Region + Disease Stage + AD Medication at BL + APOE e4||2.34|-0.70|0.2918
92267818|NCT03443973|184437463|SUPERIORITY||Difference in adjusted mean|-0.86|STANDARD_ERROR_OF_MEAN|0.43||0.0438|TWO_SIDED|95.0|-1.7|-0.02|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||-0.02|-1.70|0.0438
92312297|NCT03022370|184526733|SUPERIORITY||Odds Ratio (OR)|0.92|||=|0.686|TWO_SIDED|95.0|0.62|1.37|||Regression, Logistic|||||1.37|0.62|=0.686
92312298|NCT03022370|184526733|SUPERIORITY||Odds Ratio (OR)|0.71|||=|0.032|TWO_SIDED|95.0|0.51|0.97|||Regression, Logistic|||||0.97|0.51|=0.032
92312299|NCT03022370|184526734|SUPERIORITY||Odds Ratio (OR)|0.9||||0.555|TWO_SIDED|95.0|0.64|1.28|||Regression, Logistic|||||1.28|0.64|0.555
92312300|NCT03022370|184526734|SUPERIORITY||Odds Ratio (OR)|0.74||||0.072|TWO_SIDED|95.0|0.54|1.03|||Regression, Logistic|||||1.03|0.54|0.072
92312301|NCT03022370|184526735|SUPERIORITY||Odds Ratio (OR)|0.93||||0.672|TWO_SIDED|95.0|0.66|1.31|||Regression, Logistic|||||1.31|0.66|0.672
92190940|NCT03544229|184280618|SUPERIORITY||Least-Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.189|=|0.367|TWO_SIDED|90.0|-0.38|0.25||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD early satiety symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.25|-0.38|=0.367
92190941|NCT03544229|184280619|SUPERIORITY||Least-Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.289|=|0.587|TWO_SIDED|90.0|-0.41|0.54||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD postprandial fullness symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.54|-0.41|=0.587
92267819|NCT03443973|184437464|SUPERIORITY||Difference in adjusted mean|0.52|STANDARD_ERROR_OF_MEAN|0.27||0.0566|TWO_SIDED|95.0|-0.01|1.06|||ANCOVA|||Change from Baseline was calculated based on ANCOVA analysis model which included the following covariates and stratification factors =Treatment + Baseline + Geographic Region + Disease Stage + AD Medication at BL + APOE e4.||1.06|-0.01|0.0566
92267820|NCT03443973|184437465|SUPERIORITY||Difference in adjusted mean|-1.19|STANDARD_ERROR_OF_MEAN|0.53||0.026|TWO_SIDED|95.0|-2.24|-0.14|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||-0.14|-2.24|0.0260
92267821|NCT03443973|184437466|SUPERIORITY||Difference in adjusted mean|-0.03|STANDARD_ERROR_OF_MEAN|0.28||0.9086|TWO_SIDED|95.0|-0.59|0.52|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||0.52|-0.59|0.9086
92267822|NCT03443973|184437467|SUPERIORITY||Difference in adjusted mean|1.41|STANDARD_ERROR_OF_MEAN|0.76||0.0629|TWO_SIDED|95.0|-0.08|2.9|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||2.90|-0.08|0.0629
92267823|NCT03443973|184437468|SUPERIORITY||Difference in adjusted mean|0.79|STANDARD_ERROR_OF_MEAN|0.66||0.2348|TWO_SIDED|95.0|-0.51|2.09|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||2.09|-0.51|0.2348
92267824|NCT03443973|184437475|SUPERIORITY||Difference in adjusted means|-56.46|STANDARD_ERROR_OF_MEAN|3.976|<|0.0001|TWO_SIDED|95.0|-64.36|-48.56|||Mixed Model for Repeated Measures|||Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Type of Tracer + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||-48.56|-64.36|<.0001
92267825|NCT03443973|184437476|SUPERIORITY||Difference in adjusted mean|0.01|STANDARD_ERROR_OF_MEAN|0.023||0.7816|TWO_SIDED|95.0|-0.04|0.05|||Mixed Model for Repeated Measures|||Temporal Composite Region: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.04|0.7816
92267826|NCT03443973|184437476|SUPERIORITY||Difference in adjusted means|0.01|STANDARD_ERROR_OF_MEAN|0.018||0.6203|TWO_SIDED|95.0|-0.03|0.05|||Mixed Model for Repeated Measures|||Medial Temporal Composite Region: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.03|0.6203
92267827|NCT03443973|184437476|SUPERIORITY||Difference in adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.015||0.7754|TWO_SIDED|95.0|-0.03|0.03|||Mixed Model for Repeated Measures|||Frontal Lobe: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.03|-0.03|0.7754
92267828|NCT03443973|184437476|SUPERIORITY||Difference in adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.026||0.9022|TWO_SIDED|95.0|-0.05|0.05|||Mixed Model for Repeated Measures|||Parietal Lobe: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.05|0.9022
92267829|NCT03443973|184437477|SUPERIORITY||Percent Difference in Geometric Mean|-13.2||||0.014|TWO_SIDED|95.0|-22.51|-2.87|||ANCOVA|||||-2.87|-22.51|0.014
92267830|NCT03443973|184437478|SUPERIORITY||Percent Difference in Geometric Mean|-14.4|||<|0.001|TWO_SIDED|95.0|-21.88|-6.21|||ANCOVA|||||-6.21|-21.88|<0.001
92267831|NCT03443973|184437479|SUPERIORITY||Percent Difference in Geometric Mean|-17.8|||<|0.001|TWO_SIDED|95.0|-24.92|-10.11|||ANCOVA|||||-10.11|-24.92|<0.001
92267832|NCT03443973|184437480|SUPERIORITY||Percent Difference in Geometric Mean|-21.0|||<|0.001|TWO_SIDED|95.0|-28.29|-12.97|||ANCOVA|||||-12.97|-28.29|<0.001
92267833|NCT01353209|184437512|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|Linear Mixed-Effects Model Adjusted for Sirolimus Use||||||0.4
92267834|NCT01353209|184437513|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|Linear Mixed-Effects Model Adjusted for Sirolimus Use||||||0.7
92267835|NCT01353209|184437514|SUPERIORITY|||||||0.8|||||||Regression, Linear|Linear Mixed-Effects Model Adjusted for Sirolimus Use||||||0.8
92267836|NCT01353209|184437514|SUPERIORITY|||||||0.8|||||||Regression, Linear|||||||.8
92267837|NCT01353209|184437515|SUPERIORITY|||||||0.015|||||||Mixed Models Analysis|Linear Mixed-Effects Model Adjusted for Sirolimus Use. P value was obtained for testing zero slope for log(VEGF-D).||||||0.015
92267838|NCT03237325|184437534|SUPERIORITY|||||||0.1798|||||||Log Rank|||||||0.1798
92312302|NCT03022370|184526735|SUPERIORITY||Odds Ratio (OR)|0.7||||0.019|TWO_SIDED|95.0|0.52|0.94|||Regression, Logistic|||||0.94|0.52|0.019
92312303|NCT03022370|184526736|SUPERIORITY||Slope|-0.01||||0.984|TWO_SIDED|95.0|-0.88|0.86|||Regression, Linear|||||0.86|-0.88|0.984
92312304|NCT03022370|184526736|SUPERIORITY||Slope|0.06||||0.839|TWO_SIDED|95.0|-0.51|0.63|||Regression, Linear|||||0.63|-0.51|0.839
92312305|NCT03022370|184526737|SUPERIORITY||Slope|0.97|||<|0.0001|TWO_SIDED|95.0|0.43|1.51|||Tobit|Log + 1 performed on data||||1.51|0.43|<0.0001
92312306|NCT03022370|184526737|SUPERIORITY||Slope|0.21||||0.521|TWO_SIDED|95.0|-0.42|0.83|||Tobit|Log plus 1 to transform data||||0.83|-0.42|0.521
92312307|NCT03022370|184526738|SUPERIORITY||Slope|0.25||||0.718|TWO_SIDED|95.0|-1.09|1.58|||Regression, Linear|||||1.58|-1.09|0.718
92312308|NCT03022370|184526738|SUPERIORITY||Slope|-0.3||||0.712|TWO_SIDED|95.0|-1.87|1.28|||Regression, Linear|||||1.28|-1.87|0.712
92312309|NCT03022370|184526739|SUPERIORITY||Slope|-1.52||||0.067|TWO_SIDED|95.0|-3.14|0.11|||Regression, Linear|||||0.11|-3.14|0.067
92312310|NCT03022370|184526739|SUPERIORITY||Slope|-0.75||||0.398|TWO_SIDED|95.0|-2.48|0.99|||Regression, Linear|||||0.99|-2.48|0.398
92312311|NCT03022370|184526740|SUPERIORITY||Odds Ratio (OR)|1.29||||0.228|TWO_SIDED|95.0|0.85|1.97|||Regression, Logistic|||||1.97|0.85|0.228
92312312|NCT03022370|184526740|SUPERIORITY||Odds Ratio (OR)|0.86||||0.558|TWO_SIDED|95.0|0.53|1.41|||Regression, Logistic|||||1.41|0.53|0.558
92312313|NCT03022370|184526741|SUPERIORITY||Slope|0.14||||0.679|TWO_SIDED|95.0|-0.52|0.8|||Regression, Linear|||||0.80|-0.52|0.679
92312314|NCT03022370|184526741|SUPERIORITY||Slope|0.55||||0.08|TWO_SIDED|95.0|-0.07|1.16|||Regression, Linear|||||1.16|-0.07|0.08
92312315|NCT03022370|184526742|SUPERIORITY||Slope|-0.13||||0.81|TWO_SIDED|95.0|-1.21|0.95|||Regression, Linear|||||0.95|-1.21|0.810
92312316|NCT03022370|184526742|SUPERIORITY||Slope|-1.03||||0.041|TWO_SIDED|95.0|-2.01|-0.04|||Regression, Linear|||||-0.04|-2.01|0.041
92312317|NCT03022370|184526743|SUPERIORITY||Odds Ratio (OR)|1.14||||0.635|TWO_SIDED|95.0|0.67|1.92|||Regression, Logistic|||||1.92|0.67|0.635
92312318|NCT03022370|184526743|SUPERIORITY||Odds Ratio (OR)|0.72||||0.256|TWO_SIDED|95.0|0.41|1.27|||Regression, Logistic|||||1.27|0.41|0.256
92312319|NCT03022370|184526744|SUPERIORITY||Odds Ratio (OR)|1.16||||0.526|TWO_SIDED|95.0|0.73|1.84|||Regression, Logistic|||||1.84|0.73|0.526
92312320|NCT03022370|184526744|SUPERIORITY||Odds Ratio (OR)|1.02||||0.931|TWO_SIDED|95.0|0.67|1.56|||Regression, Logistic|||||1.56|0.67|0.931
92312321|NCT03022370|184526745|SUPERIORITY||Odds Ratio (OR)|0.92||||0.691|TWO_SIDED|95.0|0.63|1.36|||Regression, Logistic|||||1.36|0.63|0.691
92312322|NCT03022370|184526745|SUPERIORITY||Odds Ratio (OR)|0.92||||0.692|TWO_SIDED|95.0|0.6|1.4|||Regression, Logistic|||||1.40|0.60|0.692
92312323|NCT03022370|184526746|SUPERIORITY||Slope|-0.31||||0.137|TWO_SIDED|95.0|-0.72|0.24|||Regression, Linear|||||0.24|-0.72|0.137
92312324|NCT03022370|184526746|SUPERIORITY||Slope|-0.09||||0.721|TWO_SIDED|95.0|-0.58|0.4|||Regression, Linear|||||0.40|-0.58|0.721
92312325|NCT03022370|184526747|SUPERIORITY||Slope|-0.23||||0.332|TWO_SIDED|95.0|-0.7|0.24|||Regression, Linear|||||0.24|-0.70|0.332
92312326|NCT03022370|184526747|SUPERIORITY||Slope|-0.19||||0.468|TWO_SIDED|95.0|-0.71|0.32|||Regression, Linear|||||0.32|-0.71|0.468
92312327|NCT03022370|184526748|SUPERIORITY||Odds Ratio (OR)|1.3||||0.174|TWO_SIDED|95.0|0.89|1.9|||Regression, Logistic|||||1.90|0.89|0.174
92312328|NCT03022370|184526748|SUPERIORITY||Odds Ratio (OR)|1.49||||0.129|TWO_SIDED|95.0|0.89|2.5|||Regression, Logistic|||||2.50|0.89|0.129
92312329|NCT03022370|184526749|SUPERIORITY||Odds Ratio (OR)|1.3||||0.174|TWO_SIDED|95.0|0.89|1.9|||Regression, Logistic|||||1.90|0.89|0.174
92312330|NCT03022370|184526749|SUPERIORITY||Odds Ratio (OR)|0.96||||0.836|TWO_SIDED|95.0|0.64|1.43|||Regression, Logistic|||||1.43|0.64|0.836
92312331|NCT01965860|184526755|SUPERIORITY|||||||0.001|||||||ANOVA|||"Prior to the study a power analysis was performed to calculate the number of participants required in each of the three groups. Previous work comparing OSATS derived scores in endovascular interventions shows a Cohen D of two. Using a of .05, a power of .80, and an expected dropout rate of 10%, the minimum number of surgical trainees required per group was seven.~Null hypothesis for primary outcome: no difference in technical performance during real life procedures between the three groups"||||0.001
92312332|NCT01965860|184526755|OTHER|||||||0.003|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test MCQ score||||0.003
92312333|NCT01965860|184526755|OTHER|||||||0.001|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test MCQ score||||0.001
92312334|NCT01965860|184526755|OTHER|||||||0.228|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test MCQ score||||0.228
92312335|NCT01965860|184526755|OTHER|||||||0.001|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test GRS score||||0.001
92312336|NCT01965860|184526755|OTHER|||||||0.008|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test GRS score||||0.008
92312337|NCT01965860|184526755|OTHER|||||||0.164|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test GRS score||||0.164
92312338|NCT01965860|184526755|OTHER|||||||0.001|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test Examiner's checklist score||||0.001
92312339|NCT01965860|184526755|OTHER|||||||0.001|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test Examiner's checklist score||||0.001
92312340|NCT01965860|184526755|OTHER|||||||0.19|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test Examiner's checklist score||||0.190
92312341|NCT01894087|184526757|SUPERIORITY||Incidence Rate Ratio|0.72|||||TWO_SIDED|95.0|0.59|0.87|||||Numerator is Therapist-led Brief Intervention, Denominator is Enhanced Usual Care only.|Multivariable Poisson regression of outcome of overdose risk behavior sum score at 6 months, adjusting for baseline level of the outcome||0.87|0.59|
92312342|NCT01894087|184526758|SUPERIORITY||Slope|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||Numerator is the Therapist-Led Brief Intervention and Denominator is Enhanced Usual Care only|Multivariable linear regression of the outcome of standardized sum score of overdose symptom knowledge at 6 months follow-up, adjusted for baseline level of overdose symptom knowledge.||0.40|-0.20|
92312343|NCT01894087|184526759|SUPERIORITY||Incidence Rate Ratio|1.11|||||TWO_SIDED|95.0|0.93|1.33|||||This item was reverse coded; higher scores indicate lower intention to avoid overdose risk (for the strategy of using opioids as prescribed). Numerator was the Therapist-Led Brief Intervention and the denominator was Enhanced Usual Care only.|Multivariable Poisson regression of the outcome of intention to use opioids as prescribed, adjusting for baseline level of the outcome.||1.33|0.93|
92312344|NCT01894087|184526759|SUPERIORITY||Incidence Rate Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.9|||||This item was reverse coded; higher scores indicate lower intention to avoid overdose risk (for the strategy of reducing or avoiding opioid use). Numerator was the Therapist-Led Brief Intervention and the denominator was Enhanced Usual Care only.|Multivariable Poisson regression of the outcome of intention to avoid or reduce opioid use, adjusting for baseline level of the outcome.||0.90|0.65|
92312345|NCT01894087|184526759|SUPERIORITY||Incidence Rate Ratio|0.97|||||TWO_SIDED|95.0|0.8|1.19|||||This item was reverse coded; higher scores indicate lower intention to avoid overdose risk (for the strategy of not combining opioids with other drugs). Numerator was Therapist-Led Brief Intervention and denominator was Enhanced Usual Care only.|Multivariable Poisson regression of the outcome of intention to avoid combining opioids with other substances, adjusting for baseline level of the outcome.||1.19|0.80|
92312346|NCT01894087|184526760|SUPERIORITY||Incidence Rate Ratio|0.81|||||TWO_SIDED|95.0|0.7|0.92|||||Numerator is Therapist-Led Brief Intervention, Denominator is Enhanced Usual Care only|Multivariable Poisson regression for the outcome of total COMM score at follow-up, adjusting for baseline level of the outcome||0.92|0.70|
92312347|NCT02288325|184526795|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0212|TWO_SIDED|95.0|0.33|0.92|||Log Rank|||||0.92|0.33|0.0212
92312348|NCT03097991|184526946|SUPERIORITY||Slope|1.86|STANDARD_ERROR_OF_MEAN|1.86||0.32|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.32
92312349|NCT03097991|184526946|SUPERIORITY||Slope|-0.84|STANDARD_ERROR_OF_MEAN|1.33||0.53|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.53
92312350|NCT03097991|184526947|SUPERIORITY||Slope|-3.04|STANDARD_ERROR_OF_MEAN|1.63||0.07|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.07
92312351|NCT03097991|184526947|SUPERIORITY||Slope|0.54|STANDARD_ERROR_OF_MEAN|1.36||0.69|TWO_SIDED||||||Mixed Models Analysis||||Group Effect|||.69
92312352|NCT03097991|184526948|SUPERIORITY||Slope|2.44|STANDARD_ERROR_OF_MEAN|2.0||0.22|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.22
92312353|NCT03097991|184526948|SUPERIORITY||Slope|0.84|STANDARD_ERROR_OF_MEAN|1.33||0.53|TWO_SIDED||||||Mixed Models Analysis||Group effect|||||.53
92312354|NCT03097991|184526949|SUPERIORITY||Slope|-1.73|STANDARD_ERROR_OF_MEAN|1.76||0.33|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.33
92312355|NCT03097991|184526949|SUPERIORITY||Slope|0.54|STANDARD_ERROR_OF_MEAN|1.36||0.69|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.69
92312356|NCT03097991|184526950|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.17||0.81|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.81
92312357|NCT03097991|184526950|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.56|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.56
92312358|NCT03097991|184526951|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.77|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.77
92312359|NCT03097991|184526951|SUPERIORITY||Slope|-0.003|STANDARD_ERROR_OF_MEAN|0.02||0.85|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.85
92312360|NCT03097991|184526952|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.56|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.56
92312361|NCT03097991|184526952|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.17||0.81|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.81
92312362|NCT03097991|184526953|SUPERIORITY||Slope|-0.003|STANDARD_ERROR_OF_MEAN|0.02||0.85|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint effect|||||.85
92312363|NCT03097991|184526953|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.77|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.77
92312364|NCT03097991|184526954|SUPERIORITY||Slope|21.01|STANDARD_ERROR_OF_MEAN|5.91|<|0.001|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||<.001
92312365|NCT03097991|184526954|SUPERIORITY||Slope|2.98|STANDARD_ERROR_OF_MEAN|4.75|<|0.001|TWO_SIDED||||||Mixed Models Analysis||Group|||||<.001
92312366|NCT03097991|184526955|SUPERIORITY||Slope|0.68|STANDARD_ERROR_OF_MEAN|0.49|<|0.05|TWO_SIDED||||||Mixed Models Analysis|linear mixed effects|Group|||||<.05
92312367|NCT03097991|184526955|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.6|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||<.05
92312368|NCT03097991|184526956|SUPERIORITY||Slope|3.52|STANDARD_ERROR_OF_MEAN|4.14||0.39|TWO_SIDED||||||Mixed Models Analysis||Group|"We analyzed the CTS scales Psychological Aggression and Physical Assault. Inspection of the latter in the raw data and descriptives showed extremely consistent selection of the lowest value of the scale (no incidents of assault) across all respondents, so we did not conduct inferential tests."||||.39
92312369|NCT03097991|184526956|SUPERIORITY||Slope|-13.38|STANDARD_ERROR_OF_MEAN|4.86|<|0.005|TWO_SIDED||||||Mixed Models Analysis||Group x Time|||||<.005
92312370|NCT03097991|184526957|SUPERIORITY||Slope|-1.17|STANDARD_ERROR_OF_MEAN|1.25||0.24|TWO_SIDED||||||Mixed Models Analysis||Group|||||.24
92312371|NCT03097991|184526957|EQUIVALENCE|ANOVA found a main effect of group, F(1, 155) = 6.85, p \< .05, η2G = .04.|Mean Difference (Final Values)|6.85|||<|0.05|TWO_SIDED||||||ANOVA||Group|||||<.05
92312372|NCT03097991|184526958|SUPERIORITY||Slope|-2.53|STANDARD_ERROR_OF_MEAN|1.04||0.02|TWO_SIDED||||||Mixed Models Analysis||Parent x Group|||||.02
92312373|NCT03097991|184526958|SUPERIORITY||Slope|0.45|STANDARD_ERROR_OF_MEAN|0.78||0.56|TWO_SIDED||||||Mixed Models Analysis||Group|||||.56
92312374|NCT03097991|184526959|SUPERIORITY||Slope|0.94|STANDARD_ERROR_OF_MEAN|0.9||0.3|TWO_SIDED||||||Mixed Models Analysis||Parent x Group|||||.30
92312375|NCT03097991|184526959|SUPERIORITY||Slope|-0.62|STANDARD_ERROR_OF_MEAN|0.67||0.36|TWO_SIDED||||||Mixed Models Analysis||Group|||||.36
92312376|NCT03097991|184526960|SUPERIORITY||Slope|-0.75|STANDARD_ERROR_OF_MEAN|0.55||0.17|TWO_SIDED||||||Mixed Models Analysis||Parent x Group|||||.17
92312377|NCT03097991|184526960|SUPERIORITY||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.47||0.48|TWO_SIDED||||||Mixed Models Analysis||Group|||||.48
92312378|NCT03097991|184526961|SUPERIORITY||Slope|1.15|STANDARD_ERROR_OF_MEAN|7.34||0.88|TWO_SIDED||||||Mixed Models Analysis||Group|||||.88
92312379|NCT03097991|184526961|SUPERIORITY||Slope|7.94|STANDARD_ERROR_OF_MEAN|9.0||0.38|TWO_SIDED||||||Mixed Models Analysis||Group x Time|||||.38
92312380|NCT03097991|184526962|SUPERIORITY||Slope|-1.89|STANDARD_ERROR_OF_MEAN|1.05||0.07|TWO_SIDED||||||Mixed Models Analysis||Parent x Group|||||.07
92312381|NCT03097991|184526962|SUPERIORITY||Slope|2.52|STANDARD_ERROR_OF_MEAN|0.74|<|0.001|TWO_SIDED||||||Mixed Models Analysis||Group|||||<.001
92312382|NCT03097991|184526963|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.38||0.92|TWO_SIDED||||||Mixed Models Analysis||Group|||||.92
92312383|NCT03097991|184526963|SUPERIORITY||Slope|1.12|STANDARD_ERROR_OF_MEAN|0.57||0.05|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.05
92312384|NCT03097991|184526964|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.47||0.81|TWO_SIDED||||||Mixed Models Analysis||Group|||||.81
92312385|NCT03097991|184526964|SUPERIORITY||Slope|-0.67|STANDARD_ERROR_OF_MEAN|0.7||0.34|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.34
92190942|NCT03544229|184280619|SUPERIORITY||Least-Squares Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.196|=|0.6|TWO_SIDED|90.0|-0.27|0.37||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD postprandial fullness symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.37|-0.27|=0.600
92190943|NCT03544229|184280619|SUPERIORITY||Least-Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.193|=|0.446|TWO_SIDED|90.0|-0.34|0.29||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD postprandial fullness symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.29|-0.34|=0.446
92190944|NCT03544229|184280620|SUPERIORITY||Least-Squares Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.245|=|0.562|TWO_SIDED|90.0|-0.37|0.44||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD upper abdominal pain symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.44|-0.37|=0.562
92190945|NCT03544229|184280620|SUPERIORITY||Least-Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.166|=|0.138|TWO_SIDED|90.0|-0.46|0.09||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD upper abdominal pain symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.09|-0.46|=0.138
92190946|NCT03544229|184280620|SUPERIORITY||Least-Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.164|=|0.394|TWO_SIDED|90.0|-0.32|0.23||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD upper abdominal pain symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.23|-0.32|=0.394
92190947|NCT03544229|184280621|SUPERIORITY||Least-Squares Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.484|=|0.709|TWO_SIDED|90.0|-0.53|1.07||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD recorded vomiting frequency was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||1.07|-0.53|=0.709
92190948|NCT03544229|184280621|SUPERIORITY||Least-Squares Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.332|=|0.76|TWO_SIDED|90.0|-0.31|0.78||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD recorded vomiting frequency was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.78|-0.31|=0.760
92190949|NCT03544229|184280621|SUPERIORITY||Least-Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.33|=|0.591|TWO_SIDED|90.0|-0.47|0.62||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD recorded vomiting frequency was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.62|-0.47|=0.591
92190950|NCT03544229|184280622|SUPERIORITY||Least-Squares Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.27|=|0.742|TWO_SIDED|90.0|-0.27|0.62||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD overall severity of gastroparesis symptoms score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.62|-0.27|=0.742
92267839|NCT02684370|184437535|OTHER||adjusted difference in percentage|70.3|||<|0.001|TWO_SIDED|95.0|64.0|76.7||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||76.7|64.0|<0.001
92312386|NCT03097991|184526965|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.33||0.76|TWO_SIDED||||||Mixed Models Analysis||Group|||||.76
92312387|NCT03097991|184526965|SUPERIORITY||Slope|0.31|STANDARD_ERROR_OF_MEAN|0.49||0.53|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.53
92267840|NCT02684370|184437536|OTHER||adjusted difference in percentage|79.9|||<|0.001|TWO_SIDED|95.0|73.5|86.3||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||86.3|73.5|<0.001
92312388|NCT03097991|184526966|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.16||0.88|TWO_SIDED||||||Mixed Models Analysis||Group|||||.88
92312389|NCT03097991|184526966|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.23||0.95|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.95
92190951|NCT03544229|184280622|SUPERIORITY||Least-Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.183|=|0.461|TWO_SIDED|90.0|-0.32|0.28||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD overall severity of gastroparesis symptoms score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.28|-0.32|=0.461
92190952|NCT03544229|184280622|SUPERIORITY||Least-Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.181|=|0.376|TWO_SIDED|90.0|-0.36|0.24||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD overall severity of gastroparesis symptoms score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.24|-0.36|=0.376
92190953|NCT03544229|184280623|SUPERIORITY||Least-Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.286|=|0.591|TWO_SIDED|90.0|-0.41|0.54||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD bloating severity scale score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.54|-0.41|=0.591
92190954|NCT03544229|184280623|SUPERIORITY||Least-Squares mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.193|=|0.291|TWO_SIDED|90.0|-0.43|0.21||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD bloating severity scale score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.21|-0.43|=0.291
92190955|NCT03544229|184280623|SUPERIORITY||Least-Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.191|=|0.476|TWO_SIDED|90.0|-0.33|0.3||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD bloating severity scale score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.30|-0.33|=0.476
92190956|NCT03544229|184280624|SUPERIORITY||Least-Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.224|=|0.675|TWO_SIDED|90.0|-0.27|0.47||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD total score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.47|-0.27|=0.675
92190957|NCT03544229|184280624|SUPERIORITY||Least-Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.152|=|0.531|TWO_SIDED|90.0|-0.24|0.26||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD total score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.26|-0.24|=0.531
92190958|NCT03544229|184280624|SUPERIORITY||Least-Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.15|=|0.473|TWO_SIDED|90.0|-0.26|0.24||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD total score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.24|-0.26|=0.473
92190959|NCT03544229|184280625|SUPERIORITY||Least-Squares Mean Difference|-8.47|STANDARD_ERROR_OF_MEAN|9.71|=|0.192|TWO_SIDED|90.0|-24.5|7.57||The 1-sided p-value was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 -Placebo) in symptomatic weeks was \<0.|ANOVA|||||7.57|-24.50|=0.192
92190960|NCT03544229|184280625|SUPERIORITY||Least-Squares Mean Difference|-4.85|STANDARD_ERROR_OF_MEAN|6.736|=|0.236|TWO_SIDED|90.0|-15.98|6.27||The 1-sided p-value was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in symptomatic weeks was \<0.|ANOVA|||||6.27|-15.98|=0.236
92190961|NCT03544229|184280625|SUPERIORITY||Least-Squares Mean Difference|-3.58|STANDARD_ERROR_OF_MEAN|6.689|=|0.297|TWO_SIDED|90.0|-14.62|7.47||The 1-sided p-value was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in symptomatic weeks was \<0.|ANOVA|||||7.47|-14.62|=0.297
92190962|NCT03544229|184280626|SUPERIORITY||Least-Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.3|=|0.601|TWO_SIDED|90.0|-0.42|0.57||1-sided p-values were obtained using MMRM of PAGI-SYM total score. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in PAGI-SYM total score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.57|-0.42|=0.601
92190963|NCT03544229|184280626|SUPERIORITY||Least-Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.2|=|0.181|TWO_SIDED|90.0|-0.51|0.15||1-sided p-values were obtained using MMRM of PAGI-SYM total score. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in PAGI-SYM total score was \<0.|MMRM||MMRM model includes week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.15|-0.51|=0.181
92312390|NCT03097991|184526967|SUPERIORITY||Slope|0.82|STANDARD_ERROR_OF_MEAN|1.13||0.47|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.47
92312391|NCT03097991|184526967|SUPERIORITY||Slope|-1.68|STANDARD_ERROR_OF_MEAN|0.93||0.07|TWO_SIDED||||||Mixed Models Analysis||Group|||||.07
92190964|NCT03544229|184280626|SUPERIORITY||Least-Squares Mean Diferrence|-0.24|STANDARD_ERROR_OF_MEAN|0.196|=|0.114|TWO_SIDED|90.0|-0.56|0.09||1-sided p-values were obtained using MMRM of PAGI-SYM total score. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in PAGI-SYM total score was \<0.|MMRM||MMRM model includes week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.09|-0.56|=0.114
92190965|NCT02460562|184280627|SUPERIORITY||||||<|0.05||||||Mean salivary fluoride concentrations (part per million) between groups were assessed at different time points using repeated measures analysis of variance. Saliva fluoride concentration from each groups were compared with baseline using a t-test.|ANOVA|||Mean saliva fluoride concentration (part per million) collected at different time points was compared in order to assess the change in capacity for fluoride release and recharge from the resin denture base and to assess differences between the control and the intervention group.||||<0.05
92190966|NCT02460562|184280628|SUPERIORITY||Odds Ratio (OR)|0.45|||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||Caries assessments were performed to examine the difference in mean number of surface caries (DMFS) ± standard deviation between the control and the intervention groups at baseline and at 1.5 years.The transition (∆Q) of developed new caries surfaces (ICDAS score 1-3) from baseline to 1.5 years of follow-up for the two groups was analyzed with respect to arrest or progress rates. Numbers of new caries surfaces were compared by independent t-test, Pearson chi-square and correlation coefficient.||||<0.05
92190967|NCT01061775|184280629|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||.05
92190968|NCT01061775|184280630|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92190969|NCT01061775|184280631|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92190970|NCT01061775|184280632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92190971|NCT02642159|184280633|SUPERIORITY||LS Mean Difference|-32.5|||<|0.0001|TWO_SIDED|97.5|-38.1|-27.0||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|Alirocumab group was compared to usual care group using an appropriate contrast statement.||-27.0|-38.1|<0.0001
92190972|NCT02642159|184280634|SUPERIORITY||LS Mean Difference|-33.3|||<|0.0001|TWO_SIDED|97.5|-46.6|-19.9||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Alirocumab group was compared to usual care group for the intent to prescribe fenofibrate using an appropriate contrast statement.||-19.9|-46.6|<0.0001
92190973|NCT02642159|184280635|SUPERIORITY||LS Mean Difference|-43.0|||<|0.0001|TWO_SIDED|97.5|-49.7|-36.3||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses for overall ITT analysis. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level.||-36.3|-49.7|<0.0001
92190974|NCT02642159|184280636|SUPERIORITY||LS Mean Difference|-55.7|||<|0.0001|TWO_SIDED|97.5|-71.8|-39.6||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|A separate hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses for ITT-intent to prescribe fenofibrate stratum. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level.||-39.6|-71.8|<0.0001
92312392|NCT03097991|184526968|SUPERIORITY||Slope|0.54|STANDARD_ERROR_OF_MEAN|1.32||0.68|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.68
92312393|NCT03097991|184526968|SUPERIORITY||Slope|-1.68|STANDARD_ERROR_OF_MEAN|0.93||0.07|TWO_SIDED||||||Mixed Models Analysis||Group|||||.07
92312394|NCT03097991|184526969|SUPERIORITY||Slope|-0.85|STANDARD_ERROR_OF_MEAN|1.9||0.65|TWO_SIDED||||||Mixed Models Analysis||Group|||||.65
92312395|NCT03097991|184526969|SUPERIORITY||Slope|-1.65|STANDARD_ERROR_OF_MEAN|2.44||0.5|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.50
92312396|NCT03097991|184526970|SUPERIORITY||Slope|0.92|STANDARD_ERROR_OF_MEAN|1.3||0.48|TWO_SIDED||||||Mixed Models Analysis||Group|||||.48
92312397|NCT03097991|184526970|SUPERIORITY||Slope|-1.92|STANDARD_ERROR_OF_MEAN|1.72||0.27|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.27
92190975|NCT02642159|184280637|SUPERIORITY||LS Mean Difference|-26.1|||<|0.0001|TWO_SIDED|97.5|-31.5|-20.7||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||-20.7|-31.5|<0.0001
92312398|NCT03097991|184526971|SUPERIORITY||Slope|-1.15|STANDARD_ERROR_OF_MEAN|1.22||0.01|TWO_SIDED||||||Mixed Models Analysis||Group|||||.01
92312399|NCT03097991|184526971|SUPERIORITY||Slope|1.08|STANDARD_ERROR_OF_MEAN|1.96||0.58|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.58
92312400|NCT03452943|184526978|OTHER||LS mean difference|-0.7||||0.692|TWO_SIDED|95.0|-4.1|2.8||Threshold for significance at 0.05 level.|Mixed Models Analysis|||||2.8|-4.1|0.692
92312401|NCT01330303|184526992|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|101.89||||||90.0|94.91|109.39|||||The ratios between the geometric means of the test (T) and reference (R) formulations were calculated.|||109.39|94.91|
92190976|NCT02642159|184280638|SUPERIORITY||LS Mean Difference|-27.4|||<|0.0001|TWO_SIDED|97.5|-40.0|-14.8||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT-intent to prescribe fenofibrate stratum was statistically significant).||-14.8|-40.0|<0.0001
92190977|NCT02642159|184280639|SUPERIORITY||LS Mean Difference|-34.7|||<|0.0001|TWO_SIDED|97.5|-40.8|-28.6||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||-28.6|-40.8|<0.0001
92190978|NCT02642159|184280640|SUPERIORITY||LS Mean Difference|-49.7|||<|0.0001|TWO_SIDED|97.5|-63.7|-35.8||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT-intent to prescribe fenofibrate stratum was statistically significant).||-35.8|-63.7|<0.0001
92190979|NCT02642159|184280641|SUPERIORITY||LS Mean Difference|-32.3|||<|0.0001|TWO_SIDED|97.5|-37.3|-27.2||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||-27.2|-37.3|<0.0001
92190980|NCT02642159|184280642|SUPERIORITY||LS Mean Difference|-35.2|||<|0.0001|TWO_SIDED|97.5|-47.4|-22.9||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT- intent to prescribe fenofibrate stratum was statistically significant).||-22.9|-47.4|<0.0001
92190981|NCT02642159|184280643|SUPERIORITY||LS Mean Difference|-24.6|||<|0.0001|TWO_SIDED|97.5|-28.8|-20.3||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||-20.3|-28.8|<0.0001
92190982|NCT02642159|184280644|SUPERIORITY||LS Mean Difference|-25.3|||<|0.0001|TWO_SIDED|97.5|-35.4|-15.1||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT- intent to prescribe fenofibrate stratum was statistically significant).||-15.1|-35.4|<0.0001
92190983|NCT02642159|184280645|SUPERIORITY||Adjusted Mean Difference|-27.4|||<|0.0001|TWO_SIDED|97.5|-34.6|-20.1||Threshold for significance \<=0.025.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||-20.1|-34.6|<0.0001
92190984|NCT02642159|184280646|SUPERIORITY||Adjusted Mean Difference|-22.8||||0.004|TWO_SIDED|97.5|-40.6|-5.0||Threshold for significance \<=0.025.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT- intent to prescribe fenofibrate stratum was statistically significant).||-5.0|-40.6|0.0040
92190985|NCT02642159|184280647|SUPERIORITY||Adjusted Mean Difference|-4.2||||0.2191|TWO_SIDED|97.5|-11.8|3.4||Threshold for significance \<=0.025.|Regression, Robust|Multiple imputation approach followed by robust regression.|Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||3.4|-11.8|0.2191
92190986|NCT02642159|184280648|SUPERIORITY||Adjusted Mean Difference|9.0||||0.2651|TWO_SIDED|97.5|-9.1|27.1||Threshold for significance \<=0.025.|Regression, Robust|Multiple imputation approach followed by robust regression.||Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT- intent to prescribe fenofibrate stratum was statistically significant).|Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|27.1|-9.1|0.2651
92190987|NCT01954771|184280658|SUPERIORITY_OR_OTHER||Correlation coefficient|0.726|||<|0.001|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from SMBG measurements.||||<0.001
92190988|NCT01954771|184280658|SUPERIORITY_OR_OTHER||Correlation coefficient|0.522||||0.004|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from SMBG measurements.||||0.004
92190989|NCT01954771|184280658|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.784|||<|0.001|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from SMBG measurements.||||<0.001
92190990|NCT01954771|184280658|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.533||||0.011|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from CGMS measurements.||||0.011
92190991|NCT01954771|184280658|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.479||||0.009|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from CGMS measurements.||||0.009
92190992|NCT01954771|184280658|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.801|||<|0.001|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from CGMS measurements.||||<0.001
92190993|NCT00999141|184280723|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||two-sided paired t-test|alpha = 5%||||||<0.0001
92190994|NCT00999141|184280726|SUPERIORITY_OR_OTHER||Difference in Proportions|0.04||||0.257||95.0|-0.039|0.125|||McNemar|alpha = 5%|Difference in Proportions = (SoC) - (FS VH S/D 4 s-apr)|||0.125|-0.039|0.257
92190995|NCT00999141|184280727|SUPERIORITY_OR_OTHER||Difference in proportions|-0.373|||<|0.001||95.0|-0.524|-0.193|||McNemar|alpha = 5%|Difference in proportions = SoC - FS VH S/D 4 s-apr|||-0.193|-0.524|<0.001
92190996|NCT00999141|184280728|SUPERIORITY_OR_OTHER||Difference in proportions|-0.387|||<|0.001||95.0|-0.538|-0.205|||McNemar||Difference in Proportions = SoC - FS VH S/D 4 s-apr|||-0.205|-0.538|<0.001
92190997|NCT00999141|184280729|SUPERIORITY_OR_OTHER||Difference in proportions|-0.356||||0.001||95.0|-0.521|-0.161|||McNemar|alpha = 5%|Difference in proportions = SoC - FS VH S/D 4 s-apr|||-0.161|-0.521|0.001
92190998|NCT00999141|184280730|SUPERIORITY_OR_OTHER||Difference in proportions|-0.189||||0.027||95.0|-0.342|-0.023|||McNemar|alpha = 5%|Difference in proportions = SoC - FS VH S/D 4 s-apr|||-0.023|-0.342|0.027
92190999|NCT00999141|184280733|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.413||||||95.0|-0.577|-0.213|||||Difference in Proportions = (SoC) - (FS VH S/D 4 s-apr)|||-0.213|-0.577|
92191000|NCT00999141|184280734|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.227||||||95.0|-0.413|-0.02|||||Difference in Proportions = (SoC) - (FS VH S/D 4 s-apr)|||-0.020|-0.413|
92191001|NCT00999141|184280735|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.347||||||95.0|-0.518|-0.145|||||Difference in Proportions = (SoC) - (FS VH S/D 4 s-apr)|||-0.145|-0.518|
92312402|NCT01330303|184526993|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|101.91||||||90.0|95.0|109.33|||||The ratios between the geometric means of the test (T) and reference (R) formulations were calculated.|||109.33|95.00|
92312403|NCT01330303|184526994|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|94.04||||||90.0|86.33|102.44|||||The ratios between the geometric means of the test (T) and reference (R) formulations were calculated.|||102.44|86.33|
92312404|NCT06360081|184527004|EQUIVALENCE|The assessment of bioequivalence was based on two-sided 90% CIs for the ratios of the geometric means (gMean) (T/R) using an acceptance range of 80.0 to 125.0%.|Ratio of adjusted geometric means (T/R)|99.89|||<|0.0001|TWO_SIDED|90.0|97.08|102.78||p-value was calculated for ratios outside the 80.0 to 125.0% interval.|ANOVA||Ratio as percentage \[%\] Intra-individual geometric coefficient of variation (gCV) = 9.0%.|PK endpoints were back transformed to the original scale to provide the point estimate and 90% confidence intervals (CIs) for each endpoint. The model included effects accounting for variation in sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the others were considered as fixed. Confidence intervals were calculated based on the residual error from the ANOVA.||102.78|97.08|<0.0001
92312405|NCT06360081|184527005|EQUIVALENCE|The assessment of bioequivalence was based on two-sided 90% CIs for the ratios of the geometric means (gMean) (T/R) using an acceptance range of 80.0 to 125.0%.|Ratio of adjusted geometric means (T/R)|100.83|||<|0.0001|TWO_SIDED|90.0|96.43|105.44||p-value was calculated for ratios outside the 80.0 to 125.0% interval.|ANOVA||Ratio as percentage \[%\] Intra-individual geometric coefficient of variation (gCV) = 14.2%.|PK endpoints were back transformed to the original scale to provide the point estimate and 90% confidence intervals (CIs) for each endpoint. The model included effects accounting for variation in sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the others were considered as fixed. Confidence intervals were calculated based on the residual error from the ANOVA.||105.44|96.43|<0.0001
92312406|NCT00352417|184527007|SUPERIORITY_OR_OTHER|||||||0.97|||||||t-test, 2 sided|Satterthwaite's method||||||0.97
92312407|NCT00352417|184527008|SUPERIORITY_OR_OTHER|||||||0.37|||||||t-test, 2 sided|Satterthwaite's method||||||0.37
92312408|NCT00352417|184527009|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92312409|NCT00352417|184527010|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANCOVA|ANCOVA was performed on the natural log transformed data||||||<0.01
92191002|NCT00999141|184280736|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.365||||||95.0|-0.528|-0.171|||||Difference in Proportions = (SoC) - (FS VH S/D 4 s-apr)|||-0.171|-0.528|
92191003|NCT03866434|184280746|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|% ratio of Geometric LSmeans|64.225|||||TWO_SIDED|90.0|53.212|77.516|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the least squares (LS) mean difference in the log-transformed parameters back transformed to the original scale) and their 90 percent (%) confidence intervals (CI) were calculated.||77.516|53.212|
92312410|NCT00352417|184527011|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
92312411|NCT03573830|184527059|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.002|TWO_SIDED|95.0|0.04|0.2||Threshold for significance: \<0.05|t-test, 2 sided|||||0.20|0.04|0.002
92312412|NCT03573830|184527060|SUPERIORITY||Mean Difference (Final Values)|0.15||||0|TWO_SIDED|95.0|0.07|0.22||Threshold for significance: 0.05|t-test, 2 sided|||||0.22|0.07|0.000
92312413|NCT03573830|184527061|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.352|TWO_SIDED|95.0|-0.03|0.07||Threshold for significance: 0.05|t-test, 2 sided|||||0.07|-0.03|0.352
92312414|NCT03573830|184527062|SUPERIORITY||Mean Difference (Final Values)|0.45||||0|TWO_SIDED|95.0|0.34|0.56||Threshold for significance: \<0.05|t-test, 2 sided|||||0.56|0.34|0.000
92312415|NCT03573830|184527063|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.002|TWO_SIDED|95.0|0.05|0.22||Threshold for significance: 0.05|t-test, 2 sided|||||0.22|0.05|0.002
92312416|NCT03573830|184527064|SUPERIORITY||Mean Difference (Final Values)|32.56||||0.033|TWO_SIDED|95.0|2.65|62.46||Threshold for significance: \<0.05|t-test, 2 sided|||||62.46|2.65|0.033
92312417|NCT03573830|184527066|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.065|TWO_SIDED|95.0|0.0|0.19||Threshold for significance: \<0.05|t-test, 2 sided|||||0.19|0.00|0.065
92312418|NCT03573830|184527067|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.03|TWO_SIDED|95.0|0.01|0.28||Threshold for significance: \<0.05|t-test, 2 sided|||||0.28|0.01|0.030
92312419|NCT00266630|184527068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|||||TWO_SIDED|95.0|-4.1|-1.9||||||||-1.90|-4.10|
92312420|NCT00266630|184527072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.8|||||TWO_SIDED|95.0|-25.58|-14.06||||||||-14.06|-25.58|
92312421|NCT00879255|184527133|NON_INFERIORITY_OR_EQUIVALENCE|We used a noninferiority design to test the hypothesis that VTC is noninferior to in-person treatment delivery. The noninferiority margin was determined to be 10 CAPS points. We analyzed means differences in CAPS scores between the two treatment conditions (VTC minus in-person) with positive values indicating greater reductions in VTC condition. Power was estimated to be 90% with alpha = .20, and a between-group difference equaling an effect size of d = .50 (estimated 10 CAPS points).|Mean Difference (Final Values)|-4.75|||>|0.05|TWO_SIDED|95.0|-11.92|2.42||"The noninferiority margin is the maximum clinically meaningful amount by which VTC can be worse than the in-person delivery to allow for a conclusion of noninferiority (a priori set to 10 CAPS points)."|noninferiority analysis|We hypothesized that VTC is noninferior to in-person condition, which is supported if upper limit of 95% CI is less than preset noninferiority margin.|The noninferiority hypothesis would be supported if the 95% Confidence Interval of the difference in CAPS scores between the 2 conditions (VTC minus in-person scores) is less than the present noninferiority margin (10 CAPS points).|||2.42|-11.92|> .05
92312422|NCT00879255|184527134|NON_INFERIORITY_OR_EQUIVALENCE|We used a noninferiority design to test the hypothesis that VTC is noninferior to in-person treatment delivery. The noninferiority margin was determined to be 10 CAPS points. We analyzed means differences in CAPS scores between the two treatment conditions (VTC minus in-person) with positive values indicating greater reductions in VTC condition. Power was estimated to be 90% with alpha = .20, and a between-group difference equaling an effect size of d = .50 (estimated 10 CAPS points).|Mean Difference (Final Values)|-4.76|||>|0.05|TWO_SIDED|95.0|-11.65|2.13||"The noninferiority margin is the maximum clinically meaningful amount by which VTC can be worse than the in-person delivery to allow for a conclusion of noninferiority (a priori set to 10 CAPS points)."|noninferiority design|We hypothesized that VTC is noninferior to in-person condition, which is supported if upper limit of 95% CI is less than preset noninferiority margin.|The noninferiority hypothesis would be supported if the 95% Confidence Interval of the difference in CAPS scores between the 2 conditions (VTC minus in-person scores) is less than the present noninferiority margin (10 CAPS points).|||2.13|-11.65|> .05
92312423|NCT00879255|184527135|NON_INFERIORITY_OR_EQUIVALENCE|We used a noninferiority design to test the hypothesis that VTC is noninferior to in-person treatment delivery. The noninferiority margin was determined to be 10 CAPS points. We analyzed means differences in CAPS scores between the two treatment conditions (VTC minus in-person) with positive values indicating greater reductions in VTC condition. Power was estimated to be 90% with alpha = .20, and a between-group difference equaling an effect size of d = .50 (estimated 10 CAPS points).|Mean Difference (Final Values)|-5.56|||>|0.05|TWO_SIDED|95.0|-16.26|5.14||"The noninferiority margin is the maximum clinically meaningful amount by which VTC can be worse than the in-person delivery to allow for a conclusion of noninferiority (a priori set to 10 CAPS points)."|noninferiority test|We hypothesized that VTC is noninferior to in-person condition, which is supported if upper limit of 95% CI is less than preset noninferiority margin.|The noninferiority hypothesis would be supported if the 95% Confidence Interval of the difference in CAPS scores between the 2 conditions (VTC minus in-person scores) is less than the present noninferiority margin (10 CAPS points).|||5.14|-16.26|> .05
92312424|NCT01499095|184527143|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"Stepwise closed testing approach was to assess non-inferiority and superiority sequentially:~1. Non-inferiority of HOE901-U300 vs Lantus: Upper bound of two-sided 95% confidence interval (CI) of difference between HOE901-U300 and Lantus on mITT population is \<0.4%.~2. Superiority (only if non-inferiority has been demonstrated): Upper bound of two-sided 95% CI for difference in mean change in HbA1c from baseline to endpoint between HOE901-U300 and Lantus on mITT population is \<0."|Least Squares (LS) Mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.066|||TWO_SIDED|95.0|-0.139|0.119||||||Analysis was performed using an analysis of covariance (ANCOVA) model with treatment, strata of screening HbA1c (\<8.0 and \>=8.0%), and country as fixed effects and using the HbA1c baseline value as a covariate.||0.119|-0.139|
92312425|NCT01499095|184527144|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.77||||0.038|TWO_SIDED|95.0|0.61|0.99|||Cochran-Mantel-Haenszel|||A one-sided test (at alpha=0.025) for superiority of HOE901-U300 over Lantus was to be performed in case the non-inferiority of HOE901-U300 vs Lantus for the primary endpoint was demonstrated. Analysis was performed using Cochran-Mantel-Haenszel (CMH) method with treatment as a factor and stratified on strata of screening HbA1c (\<8.0 and \>=8.0%).||0.99|0.61|0.0380
92312426|NCT01499095|184527145|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.201||0.8279|TWO_SIDED|95.0|-0.438|0.35|||ANCOVA|||Change in pre-injection SMPG was analysed using an ANCOVA model with treatment, strata of screening HbA1c (\<8.0 and \>=8.0%), and country as fixed effects and using the pre-injection SMPG baseline value as a covariate. A test for superiority of HOE901-U300 over Lantus was to be performed one-sided at level alpha = 0.025 if previous analysis for nocturnal hypoglycaemia was significant.||0.350|-0.438|0.8279
92312427|NCT01499095|184527154|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.142|||TWO_SIDED|95.0|-0.152|0.415||||||Analysis was performed using Analysis of covariance (ANCOVA) model with treatment regimen and country as fixed effects and baseline (Month 6) HbA1c value as a covariate.||0.415|-0.152|
92312428|NCT02099786|184527242|SUPERIORITY||Odds Ratio (OR)|2.2||||0.27|TWO_SIDED|95.0|0.55|8.8|||Regression, Logistic|||Null hypothesis: There is no difference in the number of participants with ASHA-significant threshold shifts between treatment arms.||8.8|.55|.27
92312429|NCT02099786|184527242|SUPERIORITY||Odds Ratio (OR)|1.4||||0.67|TWO_SIDED|95.0|0.3|5.9|||Regression, Logistic|||Null hypothesis: There is no difference in the number of participants with CTCAE grade 1 or greater hearing loss between treatment arms.||5.9|.3|.67
92312430|NCT02099786|184527243|SUPERIORITY||Odds Ratio (OR)|0.92||||0.88|TWO_SIDED|95.0|0.29|2.9|||Regression, Logistic|||Null hypothesis is no difference in audiology clinic use between treatment arms.||2.9|.29|.88
92267841|NCT02684370|184437537|OTHER||adjusted difference in percentage|34.7|||<|0.001|TWO_SIDED|95.0|28.6|40.8||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||40.8|28.6|<0.001
92312431|NCT02099786|184527244|NON_INFERIORITY|We require a non-inferiority margin of no more than 1.1 mortality odds among COMP-VA patients relative to Usual Care patients. This means that the upper 95% confidence bound for the fitted odds ratio must be less than 1.1 to reject the null hypothesis that COMP-VA induces extra mortality risk.|Odds Ratio (OR)|1.9|||||ONE_SIDED|||||||||||||
92312432|NCT02099786|184527245|SUPERIORITY|||||||0.72||||||The a priori threshold for statistical significance is .05|t-test, 2 sided|||||||.72
92312433|NCT03052751|184527246|SUPERIORITY||LS Mean Difference vs Placebo|-0.7|||=|0.221|ONE_SIDED|95.0||0.8||One-sided p-value was presented for difference.|MMRM||Estimate included treatment and treatment by visit interaction effects.|"Mixed Model Repeated Measures (MMRM) Analysis of Covariance (ANCOVA) model included fixed terms for treatment group, visit, interaction between treatment group and visit, covariate of Baseline QMG score, and random effect for participant.~The differences presented was 'UCB7665 (7 mg/kg) minus Placebo'."||0.8||=0.221
92312434|NCT03052751|184527247|SUPERIORITY||LS Mean Difference vs Placebo|-1.8|||=|0.089|ONE_SIDED|95.0||0.4||One-sided p-value was presented for difference.|MMRM||Estimate included treatment and treatment by visit interaction effects.|"MMRM ANCOVA model included fixed terms for treatment group, visit, interaction between treatment group and visit, covariate of Baseline MG-composite score, and random effect for participant.~The differences presented was 'UCB7665 (7 mg/kg) minus Placebo'."||0.4||=0.089
92312435|NCT03052751|184527248|SUPERIORITY||LS Mean Difference vs Placebo|-1.4|||=|0.036|ONE_SIDED|95.0||-0.1||One-sided p-value was presented for difference.|ANCOVA||Estimate included treatment effect.|ANCOVA model included fixed terms for treatment group, covariate of Baseline MGADL score.||-0.1||=0.036
92312436|NCT03071692|184527272|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.92|1.16||||||||1.16|0.92|
92312437|NCT03071692|184527273|SUPERIORITY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.92|1.2||||||||1.20|0.92|
92312438|NCT03071692|184527274|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.89|1.18||||||||1.18|0.89|
92191004|NCT03866434|184280747|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|%ratio of Geometric LeastSquare(LS)means|82.203|||||TWO_SIDED|90.0|71.501|94.507|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the LS mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CI were calculated.||94.507|71.501|
92312439|NCT03071692|184527275|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.93|1.16||||||||1.16|0.93|
92312440|NCT03071692|184527276|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.93|1.13||||||||1.13|0.93|
92312441|NCT03071692|184527277|SUPERIORITY||Event Rate Ration|0.99|||||TWO_SIDED|95.0|0.87|1.13||||||||1.13|0.87|
92312442|NCT03071692|184527278|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.69|1.09||||||||1.09|0.69|
92312443|NCT03071692|184527279|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.95|1.41||||||||1.41|0.95|
92312444|NCT03071692|184527280|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.69|1.19||||||||1.19|0.69|
92312445|NCT03071692|184527281|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.84|1.14||||||||1.14|0.84|
92312446|NCT03071692|184527282|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.83|1.32||||||||1.32|0.83|
92312447|NCT03071692|184527283|SUPERIORITY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.75|1.26||||||TT Variant||1.26|0.75|
92312448|NCT03071692|184527283|SUPERIORITY||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.96|1.47||||||CT Variant||1.47|0.96|
92312449|NCT03071692|184527283|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.69|1.39||||||CC Variant||1.39|0.69|
92312450|NCT03071692|184527284|SUPERIORITY|||||||0.13496|||||||ANCOVA|||||||0.13496
92312451|NCT03071692|184527285|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92312452|NCT03071692|184527286|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92312453|NCT03071692|184527287|SUPERIORITY|||||||0.96689|||||||ANCOVA|||||||0.96689
92312454|NCT03071692|184527288|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92312455|NCT03071692|184527289|SUPERIORITY|||||||0.09178|||||||ANCOVA|||||||0.09178
92312456|NCT03071692|184527290|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92312457|NCT03071692|184527291|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92312458|NCT03071692|184527292|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92312459|NCT01027702|184527298|OTHER|||||||||||||||||"This was a dose-escalation study to determine a target DLI dose at which the:~1. Probability of CD4+ cells \> 100/µL by Day +120 is at least 66% and~2. Probability of grade II and III GVHD is at most 33%, probability of grade III GVHD is at most 17%, and no grade IV GVHD occurs Patients were assigned in cohorts of 3."|"The study design consisted of two phases, a dose-escalation phase and a dose-confirmation phase. In the dose-escalation phase, patients were assigned in cohorts of 3. The dose escalation plan was:~* If a grade IV acute GVHD event was observed at any dose, no more patients were assigned to this or higher dose levels unless the methotrexate dosing was modified.~* If none of the initial three patients at a dose level experienced grade II/III GVHD and \< 2/3 had a CD4+ count \> 100 at Day +120, the next three patients were assigned to the next higher dose level.~* If 1 out of 3 patients had grade III GVHD or 1 - 2 out of 3 patients had grade II GVHD and/or \> 2/3 have a CD4+ count \> 100 at Day +120, the dose was repeated for the next 3 patients.~The dose of 5 x 10\^4 CD3+ cells/kg was determined to be the optimal dose."|||
92191005|NCT03866434|184280748|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|% ratio of Geometric LS means|73.705|||||TWO_SIDED|90.0|64.555|84.152|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the LS mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CI were calculated.||84.152|64.555|
92312460|NCT01027702|184527299|OTHER|||||||||||||||||"This was a dose-escalation study to determine a target DLI dose at which the:~1. Probability of CD4+ cells \> 100/µL by Day +120 is at least 66% and~2. Probability of grade II and III GVHD is at most 33%, probability of grade III GVHD is at most 17%, and no grade IV GVHD occurs Patients were assigned in cohorts of 3."|"The study design consisted of two phases, a dose-escalation phase and a dose-confirmation phase. In the dose-escalation phase, patients were assigned in cohorts of 3. The dose escalation plan was:~If a grade IV acute GVHD event was observed at any dose, no more patients were assigned to this or higher dose levels unless the methotrexate dosing was modified.~If none of the initial three patients at a dose level experienced grade II/III GVHD and \< 2/3 had a CD4+ count \> 100 at Day +120, the next three patients were assigned to the next higher dose level.~If 1 out of 3 patients had grade III GVHD or 1 - 2 out of 3 patients had grade II GVHD and/or \> 2/3 have a CD4+ count \> 100 at Day +120, the dose was repeated for the next 3 patients.~The dose of 5 x 10\^4 CD3+ cells/kg was determined to be the optimal dose."|||
92312461|NCT00403585|184527301|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 156.|Wilcoxon signed rank|||||||<0.001
92312462|NCT01526655|184527332|SUPERIORITY|||||||0.011||||||Main effect over time p\<0.001; Interaction effect p=0.65. Threshold for statistical significance p\<0.05|ANOVA|||||||0.011
92312463|NCT01526655|184527333|SUPERIORITY|||||||0.03||||||"P-value main effect between groups. Effect over time p \< 0.0001. Interaction effect p 0.02.~Threshold for statistical significance p\<0.05."|ANOVA||||Tukey post hoc test (p-values): hsCRP time 4 p 0.02; hsCRP time 5 p \<0.001.|||0.03
92312464|NCT01526655|184527334|SUPERIORITY||||||<|0.01||||||"P-value main effect between groups. Effect over time p \< 0.0001. Interaction effect p \< 0.0001.~Threshold for statistical significance p \< 0.05."|ANOVA||||Tukey post hoc test (p-value): WBC time 3 p \< 0.0001.|||<0.01
92312465|NCT01526655|184527335|SUPERIORITY|||||||0.03|||||||ANOVA||||Tukey post hoc test (p-value): IL-6 time 3 p \< 0.01.|||0.03
92312466|NCT01526655|184527336|SUPERIORITY|||||||0.03||||||"P-value main effect between groups. Effect over time p \< 0.0001. Interaction effect p \< 0.01.~Threshold for statistical significance p \< 0.05."|ANOVA||||Tukey post hoc test (p-value): CK time 4 p \< 0.0001.|||0.03
92312467|NCT01526655|184527337|SUPERIORITY|||||||0.06||||||"P-value main effect between groups. Effect over time p \< 0.0001. Interaction effect p \< 0.01.~Threshold for statistical significance p \< 0.05."|ANOVA||||Tukey post hoc test (p-value): cortisol time 3 p \< 0.0001.|||0.06
92312468|NCT01526655|184527338|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
92312469|NCT01526655|184527339|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92312470|NCT03901092|184527406|OTHER||Fleiss' kappa|0.87|||||TWO_SIDED|95.0|0.83|0.91||||||Fleiss' kappa is a statistical measure for assessing the reliability of agreement between a fixed number of raters when assigning categorical ratings to a number of items or classifying items. The primary hypothesis to be tested was that the lower bound of two-sided 95% confidence interval of Fleiss' Kappa will be greater than or equal to 0.6.||0.91|0.83|
92312471|NCT03901092|184527409|OTHER||Fleiss' kappa|0.84|||||TWO_SIDED|95.0|0.8|0.88||||||Fleiss' kappa is a statistical measure for assessing the reliability of agreement between a fixed number of raters when assigning categorical ratings to a number of items or classifying items. The primary hypothesis to be tested was that the lower bound of two-sided 95% confidence interval of Fleiss' Kappa will be greater than or equal to 0.6.||0.88|0.80|
92312472|NCT03901092|184527410|OTHER||Fleiss' kappa|0.9|||||TWO_SIDED|95.0|0.85|0.95||||||Fleiss' kappa is a statistical measure for assessing the reliability of agreement between a fixed number of raters when assigning categorical ratings to a number of items or classifying items. The hypothesis to be tested was that the lower bound of two-sided 95% confidence interval of Fleiss' Kappa will be greater than or equal to 0.6.||0.95|0.85|
92312473|NCT03901092|184527411|OTHER||Cohen's kappa|0.89|||||TWO_SIDED|95.0|0.69|1.0||||||Cohen's kappa statistic for Reader 1||1.00|0.69|
92312474|NCT03901092|184527411|OTHER||Cohen's kappa|0.71|||||TWO_SIDED|95.0|0.41|1.0||||||Cohen's kappa statistic for Reader 2||1.00|0.41|
92312475|NCT03901092|184527411|OTHER||Cohen's kappa|0.6|||||TWO_SIDED|95.0|0.24|0.95||||||Cohen's kappa statistic for Reader 3||0.95|0.24|
92312476|NCT03901092|184527411|OTHER||Cohen's kappa|0.89|||||TWO_SIDED|95.0|0.67|1.0||||||Cohen's kappa statistic for Reader 4||1.00|0.67|
92312477|NCT03901092|184527411|OTHER||Cohen's kappa|0.79|||||TWO_SIDED|95.0|0.52|1.0||||||Cohen's kappa statistic for Reader 5||1.00|0.52|
92312478|NCT04138823|184527420|OTHER||Probability of DLT rate in [0.16,0.33)|0.172|||||||||||Bayesian logistic regression model|||Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
92312479|NCT04138823|184527420|OTHER||Probability of DLT rate in [0.33, 1.00]|0.01||||||||||||||Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
92312480|NCT04138823|184527420|OTHER||Probabilty of DLT rate in [0.16, 0.33)|0.362||||||||||||||Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
92312481|NCT04138823|184527420|OTHER||Probability of DLT rate in [0.33, 1.00]|0.046||||||||||||||Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
92312482|NCT04138823|184527420|OTHER||Probability of DLT rate in [0.16, 0.33)|0.478||||||||||||||"Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.~The 200 mg BI 891065 BID dose was modelled as equivalent to a 300 mg QD dose in terms of dose-toxicity relationship."||||
92312483|NCT04138823|184527420|OTHER||Probability of DLT rate in [0.33, 1.00]|0.118||||||||||||||"Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.~The 200 mg BI 891065 BID dose was modelled as equivalent to a 300 mg QD dose in terms of dose-toxicity relationship."||||
92312484|NCT02466685|184527463|SUPERIORITY||Mean Difference (Final Values)|5.0|STANDARD_DEVIATION|9.4|<|0.05|TWO_SIDED||||||ANCOVA|||||||<0.05
92312485|NCT02593110|184527466|SUPERIORITY||Mean Difference (Final Values)|-24.41||||0.1107|TWO_SIDED|95.0|-54.59|5.78|||ANCOVA|||||5.78|-54.59|0.1107
92312486|NCT02593110|184527466|SUPERIORITY||Mean Difference (Final Values)|9.78||||0.5378|TWO_SIDED|95.0|-21.84|41.39|||ANCOVA|||||41.39|-21.84|0.5378
92312487|NCT02593110|184527466|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.956|TWO_SIDED|95.0|-24.96|26.38|||ANCOVA|||||26.38|-24.96|0.9560
92312488|NCT02593110|184527467|SUPERIORITY||Mean Difference (Final Values)|31.35||||0.6121|TWO_SIDED|95.0|-92.42|155.12|||ANCOVA|||||155.12|-92.42|0.6121
92312489|NCT02593110|184527467|SUPERIORITY||Mean Difference (Final Values)|141.78||||0.0116|TWO_SIDED|95.0|33.14|250.42|||ANCOVA|||||250.42|33.14|0.0116
92312490|NCT02593110|184527467|SUPERIORITY||Mean Difference (Final Values)|-14.75||||0.8146|TWO_SIDED|95.0|-140.89|111.39|||ANCOVA|||||111.39|-140.89|0.8146
92312491|NCT02593110|184527468|SUPERIORITY||Mean Difference (Final Values)|0.92||||0.8755|TWO_SIDED|95.0|-10.84|12.68|||ANCOVA|||||12.68|-10.84|0.8755
92312492|NCT02593110|184527468|SUPERIORITY||Mean Difference (Final Values)|2.44||||0.7651|TWO_SIDED|95.0|-13.83|18.7|||ANCOVA|||||18.70|-13.83|0.7651
92191006|NCT03866434|184280749|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|% ratio of Geometric LS means|85.527|||||TWO_SIDED|90.0|78.163|93.584|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the LS mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CI were calculated.||93.584|78.163|
92312493|NCT02593110|184527468|SUPERIORITY||Mean Difference (Final Values)|6.88||||0.3776|TWO_SIDED|95.0|-8.65|22.41|||ANCOVA|||||22.41|-8.65|0.3776
92312494|NCT02593110|184527469|SUPERIORITY||Mean Difference (Final Values)|-8.06||||0.1782|TWO_SIDED|95.0|-19.91|3.79|||ANCOVA|||||3.79|-19.91|0.1782
92312495|NCT02593110|184527469|SUPERIORITY||Mean Difference (Final Values)|-5.27||||0.3555|TWO_SIDED|95.0|-16.61|6.07|||ANCOVA|||||6.07|-16.61|0.3555
92312496|NCT02593110|184527469|SUPERIORITY||Mean Difference (Final Values)|5.75||||0.3294|TWO_SIDED|95.0|-5.99|17.49|||ANCOVA|||||17.49|-5.99|0.3294
92312497|NCT02593110|184527470|SUPERIORITY||Mean Difference (Final Values)|-8.72||||0.1569|TWO_SIDED|95.0|-20.91|3.47|||ANCOVA|||||3.47|-20.91|0.1569
92312498|NCT02593110|184527470|SUPERIORITY||Mean Difference (Final Values)|-2.07||||0.7692|TWO_SIDED|95.0|-16.16|12.02|||ANCOVA|||||12.02|-16.16|0.7692
92312499|NCT02593110|184527470|SUPERIORITY||Mean Difference (Final Values)|3.09||||0.6306|TWO_SIDED|95.0|-9.74|15.91|||ANCOVA|||||15.91|-9.74|0.6306
92312500|NCT02593110|184527471|SUPERIORITY||Mean Difference (Final Values)|-7.86||||0.3542|TWO_SIDED|95.0|-24.74|9.02|||ANCOVA|||||9.02|-24.74|0.3542
92312501|NCT02593110|184527471|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.9417|TWO_SIDED|95.0|-17.98|16.71|||ANCOVA|||||16.71|-17.98|0.9417
92312502|NCT02593110|184527471|SUPERIORITY||Mean Difference (Final Values)|5.45||||0.4508|TWO_SIDED|95.0|-8.96|19.86|||ANCOVA|||||19.86|-8.96|0.4508
92312503|NCT01130597|184527472|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|90.5|||||TWO_SIDED|95.0|80.4|96.4|||||Clopper-Pearson was used to arrive at the 95% Confidence Interval|||96.4|80.4|
92312504|NCT01130597|184527477|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|84.1|||||TWO_SIDED|95.0|72.7|92.1|||||Clopper-Pearson was used to arrive at the 95% Confidence Interval|||92.1|72.7|
92312505|NCT00307437|184527527|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[less than or equal to 90 kg vs greater than 90 kg)\].||||||<0.001
92312506|NCT00307437|184527527|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control for the multiplicity for the primary endpoint analysis, the Holm's procedure was used at an overall significance level of 0.05.|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[less than or equal 90 kg vs greater than 90 kg)\].||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significance level of 0.05. Sample Size: With 1200 participants (400 in each treatment group), simulation studies were conducted to calculate the power to detect a treatment difference in the primary endpoint between ustekinumab groups and placebo using a CMH test stratified by baseline weight \[\<=90kg vs \> 90 kg). For all the scenarios evaluated, the power is \>99% at an overall significance level of 0.05.||||<0.001
92312507|NCT00307437|184527528|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[less than or equal 90 kg vs greater than 90 kg)\].||||||<0.001
92312508|NCT00307437|184527528|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control the multiplicity for the primary and the secondary endpoint analyses, Holm's procedure was used but the two comparisons for the primary endpoint need to be significant first.|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[less than or equal 90 kg vs greater than 90 kg)\].||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significancd level of 0.05.||||<0.001
92312509|NCT00307437|184527529|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|Analysis of variance on van der Waerden normal scores (Conover, 1980) with treatment and baseline weight (≤ 90kg vs \> 90 kg) as factors in the model||||||<0.001
92312510|NCT00307437|184527529|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control the multiplicity for the primary and the secondary endpoint analyses, Holm's procedure was used but the two comparisons for the primary endpoint and the two comparisons for the 1st second endpoint analyses need to be significant first.|ANOVA on van der Waerden normal scores|Analysis of varianceon van der Waerden normal scores (Conover, 1980) with treatment and baseline weight (≤90 kg vs \>90 kg) as factors in the model||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significance level of 0.05.||||<0.001
92312511|NCT00307437|184527530|SUPERIORITY_OR_OTHER|||||||0.468||95.0|||||Cochran-Mantel-Haenszel (row mean score)|Stratified by baseline weight \[less than or equal to 90 kg vs greater than 90 kg)\].||||||0.468
92312512|NCT00307437|184527530|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Cochran-Mantel-Haenszel (row mean score)|Stratified by baseline weight \[less than or equal to 90 kg vs greater than 90 kg)\].||||||0.210
92191007|NCT03866434|184280750|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|% ratio of Geometric LS means|73.007|||||TWO_SIDED|90.0|62.528|85.243|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the LS mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CI were calculated.||85.243|62.528|
92191008|NCT03866434|184280751|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|% ratio of Geometric LS means|86.504|||||TWO_SIDED|90.0|78.462|95.371|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the LS mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CI were calculated.||95.371|78.462|
92191009|NCT00985621|184280771|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.49|-0.44|||ANCOVA|||Analysis was performed using analysis of co-variance (ANCOVA) model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.44|-1.49|<0.001
92191010|NCT00985621|184280771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.5|-0.43|||ANCOVA|||Analysis was performed using analysis of co-variance (ANCOVA) model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.43|-1.50|<0.001
92191011|NCT00985621|184280772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.49|-0.45|||ANCOVA|||Analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.45|-1.49|<0.001
92191012|NCT00985621|184280772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.27||0.018|TWO_SIDED|95.0|-1.16|-0.11|||ANCOVA|||Analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.11|-1.16|0.018
92191013|NCT00985621|184280772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.28||0.7|TWO_SIDED|95.0|-0.43|0.65|||ANCOVA|||Analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.65|-0.43|0.700
92191014|NCT00985621|184280773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.24||0.177|TWO_SIDED|95.0|-0.78|0.14|||ANCOVA|||Change at Week 2: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.14|-0.78|0.177
92191015|NCT00985621|184280773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.24||0.416|TWO_SIDED|95.0|-0.66|0.28|||ANCOVA|||Change at Week 2: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.28|-0.66|0.416
92191016|NCT00985621|184280773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.5|-0.46|||ANCOVA|||Change at Week 4: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.46|-1.50|<0.001
92191017|NCT00985621|184280773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.48|-0.43|||ANCOVA|||Change at Week 4: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.43|-1.48|<0.001
92191018|NCT00985621|184280774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.23||0.319|TWO_SIDED|95.0|-0.69|0.22|||ANCOVA|||Change at Week 2: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.22|-0.69|0.319
92191019|NCT00985621|184280774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.23||0.916|TWO_SIDED|95.0|-0.43|0.48|||ANCOVA|||Change at Week 2: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.48|-0.43|0.916
92191020|NCT00985621|184280774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.24||0.526|TWO_SIDED|95.0|-0.63|0.32|||ANCOVA|||Change at Week 2: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.32|-0.63|0.526
92191021|NCT00985621|184280774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.26||0.004|TWO_SIDED|95.0|-1.26|-0.24|||ANCOVA|||Change at Week 4: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.24|-1.26|0.004
92191022|NCT00985621|184280774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.26||0.134|TWO_SIDED|95.0|-0.9|0.12|||ANCOVA|||Change at Week 4: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.12|-0.90|0.134
92191023|NCT00985621|184280774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.27||0.497|TWO_SIDED|95.0|-0.71|0.35|||ANCOVA|||Change at Week 4: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.35|-0.71|0.497
92312513|NCT00307437|184527530|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||To control the overall multiplicity, the combined groups was tested first and each dose will then be tested; but the primary and the 1st 2 secondary endpoint analyses need to be significant before this endpoint can be tested.|Cochran-Mantel-Haenszel (row mean score)|Stratified by baseline weight \[less than or equal to 90 kg vs greater than 90 kg)\].||Null Hypothesis: No difference between combined q8 group and the combined q12 group, 45 mg q8 and 45 mg q12, 90 mg q8 and 90 mg q12 at an overall significance level of 0.05.||||0.014
92312514|NCT02933255|184527570|OTHER||||||<|0.0001||||||The reported p-value is representative of changes in CD8+T cell infiltration within the total tissue at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||<0.0001
92312515|NCT02933255|184527570|OTHER|||||||0.04||||||The reported p-value is representative of changes in CD8+T cell infiltration in the center of the tumor at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.04
92312516|NCT02933255|184527570|OTHER|||||||0.002||||||The reported p-value is representative of changes in CD8+T cell infiltration in the invasive margin at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.002
92312517|NCT02933255|184527570|OTHER|||||||0.46||||||The reported p-value is representative of changes in CD8+T cell infiltration in the normal region at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.46
92312518|NCT02933255|184527570|OTHER||||||<|0.0001||||||The reported p-value is representative of changes in CD4 T cell helper infiltration in the total tissue at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||<0.0001
92312519|NCT02933255|184527570|OTHER|||||||0.016||||||The reported p-value is representative of changes in CD4 T cell helper infiltration in the center of the tumor at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.016
92312520|NCT02933255|184527570|OTHER|||||||0.002||||||The reported p-value is representative of changes in CD4 T cell helper infiltration in the invasive margin at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.002
92312521|NCT02933255|184527570|OTHER|||||||0.38||||||The reported p-value is representative of changes in CD4 T cell helper infiltration in the normal region at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.38
92312522|NCT02933255|184527572|OTHER|The reported p-value is representative of changes in soluble factors at 4 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.||||||0.064|||||||Wilcoxon Signed Rank Test|||||||0.064
92312523|NCT02933255|184527572|OTHER|The reported p-value is representative of changes in soluble factors at 4 weeks of therapy compared to baseline in the neoadjuvant cohort.||||||0.001|||||||Wilcoxon Signed Rank Test|||||||0.001
92312524|NCT02933255|184527572|OTHER|||||||0.003||||||The reported p-value is representative of changes in soluble factors at 10 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.003
92312525|NCT02933255|184527572|OTHER|||||||0.003||||||The reported p-value is representative of changes in soluble factors at 10 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.003
92312526|NCT02933255|184527572|OTHER|||||||0.004||||||The reported p-value is representative of changes in soluble factors at 20 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.004
92312527|NCT02933255|184527572|OTHER|||||||0.004||||||The reported p-value is representative of changes in soluble factors at 20 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.004
92312528|NCT02933255|184527573|OTHER|||||||0.002||||||The reported p-value is representative of changes in TNFα at 4 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.002
92312529|NCT02933255|184527573|OTHER|||||||0.042||||||The reported p-value is representative of changes in TNFα at 4 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.042
92312530|NCT02933255|184527573|OTHER|||||||0.233||||||The reported p-value is representative of changes in TNFα at 10 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.233
92312531|NCT02933255|184527573|OTHER|||||||0.052||||||The reported p-value is representative of changes in TNFα at 10 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.052
92312532|NCT02933255|184527573|OTHER|||||||0.055||||||The reported p-value is representative of changes in TNFα at 20 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.055
92312533|NCT02933255|184527573|OTHER|||||||0.203||||||The reported p-value is representative of changes in TNFα at 20 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.203
92312534|NCT02933255|184527573|OTHER||||||<|0.001||||||The reported p-value is representative of changes in IL-10 at 4 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||<0.001
92312535|NCT02933255|184527573|OTHER|||||||0.034||||||The reported p-value is representative of changes in IL-10 at 4 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.034
92312536|NCT02933255|184527573|OTHER||||||<|0.001||||||The reported p-value is representative of changes in IL-10 at 10 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||<0.001
92312537|NCT02933255|184527573|OTHER|||||||0.034||||||The reported p-value is representative of changes in IL-10 at 10 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.034
92312538|NCT02933255|184527573|OTHER|||||||0.004||||||The reported p-value is representative of changes in IL-10 at 20 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.004
92312539|NCT02933255|184527573|OTHER|||||||0.129||||||The reported p-value is representative of changes in IL-10 at 20 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.129
92312540|NCT02933255|184527575|OTHER|||||||0.339||||||The reported p-value is representative of changes in CD4+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.339
92312541|NCT02933255|184527575|OTHER|||||||0.037||||||The reported p-value is representative of changes in CD4+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.037
92312542|NCT02933255|184527575|OTHER|||||||0.009||||||The reported p-value is representative of changes in CD4+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.009
92312543|NCT02933255|184527575|OTHER|||||||0.844||||||The reported p-value is representative of changes in CD4+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.844
92312544|NCT02933255|184527575|OTHER|||||||0.204||||||The reported p-value is representative of changes in CD8+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.204
92312545|NCT02933255|184527575|OTHER|||||||0.084||||||The reported p-value is representative of changes in CD8+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.084
92312546|NCT02933255|184527575|OTHER|||||||0.042||||||The reported p-value is representative of changes in CD8+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.042
92191024|NCT01332318|184280854|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.06||||95.0|0.08|0.42|||||An Analysis of Covariance (ANCOVA) model, including terms for treatment, pooled study site, visit, and treatment by visit interaction, was used to calculate the adjusted mean difference and confidence interval. Arm 2 minus Arm 1.|||0.42|0.08|
92312547|NCT02933255|184527575|OTHER|||||||0.688||||||The reported p-value is representative of changes in CD8+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.688
92312548|NCT02933255|184527575|OTHER||||||<|0.001||||||The reported p-value is representative of changes in Treg cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||<0.001
92312549|NCT02933255|184527575|OTHER|||||||0.733||||||The reported p-value is representative of changes in Treg cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.733
92312550|NCT02933255|184527575|OTHER|||||||0.519||||||The reported p-value is representative of changes in Treg cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.519
92312551|NCT02933255|184527575|OTHER|||||||0.695||||||The reported p-value is representative of changes in Treg cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.695
92312552|NCT02933255|184527575|OTHER|||||||0.034||||||The reported p-value is representative of changes in cDC cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.034
92312553|NCT02933255|184527575|OTHER|||||||0.301||||||The reported p-value is representative of changes in cDC cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.301
92312554|NCT02933255|184527575|OTHER|||||||0.38||||||The reported p-value is representative of changes in cDC cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.38
92312555|NCT02933255|184527575|OTHER|||||||0.014||||||The reported p-value is representative of changes in cDC cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.014
92312556|NCT02933255|184527575|OTHER|||||||0.791||||||The reported p-value is representative of changes in monocytes at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.791
92312557|NCT02933255|184527575|OTHER|||||||0.042||||||The reported p-value is representative of changes in monocytes at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.042
92312558|NCT02933255|184527575|OTHER|||||||0.424||||||The reported p-value is representative of changes in monocytes at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.424
92312559|NCT02933255|184527575|OTHER|||||||0.77||||||The reported p-value is representative of changes in monocytes at week 10 post treatment compared to baseline in the lead-in neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.77
92312560|NCT02933255|184527575|OTHER|||||||0.001||||||The reported p-value is representative of changes in CD4+ki67+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.001
92312561|NCT02933255|184527575|OTHER|||||||0.105||||||The reported p-value is representative of changes in CD4+ki67+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.105
92312562|NCT02933255|184527575|OTHER|||||||0.622||||||The reported p-value is representative of changes in CD4+ki67+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.622
92312563|NCT02933255|184527575|OTHER|||||||0.313||||||The reported p-value is representative of changes in CD4+ki67+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.313
92312564|NCT02933255|184527575|OTHER||||||<|0.001||||||The reported p-value is representative of changes in CD4+ EM ki67+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||<0.001
92191025|NCT01332318|184280854|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.06||||95.0|0.09|0.41|||||An Analysis of Covariance (ANCOVA) model, including terms for treatment, pooled study site, visit, and treatment by visit interaction, was used to calculate the adjusted mean difference and confidence interval. Arm 3 minus Arm 1.|||0.41|0.09|
92312565|NCT02933255|184527575|OTHER|||||||0.049||||||The reported p-value is representative of changes in CD4+ EM ki67+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.049
92312566|NCT02933255|184527575|OTHER|||||||0.47||||||The reported p-value is representative of changes in CD4+ EM ki67+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.47
92191026|NCT01332318|184280854|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.06||||95.0|0.09|0.42|||||An Analysis of Covariance (ANCOVA) model, including terms for treatment, pooled study site, visit, and treatment by visit interaction, was used to calculate the adjusted mean difference and confidence interval. Arm 4 minus Arm 1.|||0.42|0.09|
92191027|NCT00676663|184280890|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.06|TWO_SIDED|95.0|0.49|1.09|||Log Rank|P-value is stratified by the randomization stratification factors and is 1-sided, with a 0.10 threshold for significance.||||1.09|0.49|0.06
92191028|NCT00676663|184280894|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.018|TWO_SIDED|95.0|0.36|0.97||P-value is stratified by the randomization stratification factors and is 1-sided.|Log Rank||Hazard ratio was estimated from a Cox proportional hazards model. Placebo serves as the reference treatment group for the interpretation of the hazard ratio.|||0.97|0.36|0.018
92191029|NCT02168153|184280897|SUPERIORITY||Mean Difference (Final Values)|-3.49||||0.76|TWO_SIDED|95.0|-25.75|18.77|||ANCOVA|adjusted for age||Between group differences||18.77|-25.75|0.76
92191030|NCT02168153|184280898|SUPERIORITY||Mean Difference (Final Values)|0.97||||0.92|TWO_SIDED|95.0|-18.04|19.98|||ANCOVA|adjusted for age||Between group differences||19.98|-18.04|0.92
92191031|NCT02168153|184280899|SUPERIORITY||Mean Difference (Final Values)|3.49||||0.7|TWO_SIDED|95.0|-14.4|21.39|||ANCOVA|adjusted for age||Between group differences||21.39|-14.4|0.70
92267842|NCT02684370|184437538|OTHER||adjusted difference in percentage|35.5|||<|0.001|TWO_SIDED|95.0|30.0|41.0||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||41.0|30.0|< 0.001
92267843|NCT02684370|184437539|OTHER||adjusted difference in percentage|57.9|||<|0.001|TWO_SIDED|95.0|50.4|65.3||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||65.3|50.4|< 0.001
92267844|NCT02684370|184437540|OTHER||adjusted difference in percentage|27.1|||<|0.001|TWO_SIDED|95.0|21.2|32.9||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||32.9|21.2|< 0.001
92267845|NCT02684370|184437541|OTHER||adjusted difference in percentage|33.5|||<|0.001|TWO_SIDED|95.0|22.7|44.3||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||44.3|22.7|< 0.001
92267846|NCT02684370|184437542|OTHER||adjusted difference in percentage|25.1|||<|0.001|TWO_SIDED|95.0|15.2|35.0||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||35.0|15.2|< 0.001
92267847|NCT02684370|184437543|OTHER||adjusted difference in percentage|23.8|||<|0.001|TWO_SIDED|95.0|15.5|32.1||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||32.1|15.5|< 0.001
92267848|NCT02684370|184437544|OTHER||adjusted difference in percentage|22.9|||<|0.001|TWO_SIDED|95.0|14.3|31.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||31.6|14.3|< 0.001
92267849|NCT02684370|184437545|OTHER||adjusted difference in percentage|38.3|||<|0.001|TWO_SIDED|95.0|27.9|48.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||48.6|27.9|< 0.001
92267850|NCT02684370|184437546|OTHER||adjusted difference in percentage|35.1|||<|0.001|TWO_SIDED|95.0|25.7|44.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||44.6|25.7|< 0.001
92267851|NCT02684370|184437547|OTHER||adjusted difference in percentage|36.5|||<|0.001|TWO_SIDED|95.0|27.0|45.9||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||45.9|27.0|< 0.001
92191032|NCT02168153|184280900|SUPERIORITY||Mean Difference (Final Values)|0.988||||0.15|TWO_SIDED|95.0|-0.373|2.349|||ANCOVA|adjusted for age||Between group differences||2.349|-0.373|0.15
92191033|NCT02168153|184280901|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.32|TWO_SIDED|95.0|-1.24|0.41|||ANCOVA|adjusted for age||Between group differences||0.41|-1.24|0.32
92191034|NCT01772147|184280902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.127|||<|0.001|TWO_SIDED|95.0|0.089|0.164|||Mixed Models Analysis|||||0.164|0.089|<0.001
92191035|NCT01772147|184280902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.148|||<|0.001|TWO_SIDED|95.0|0.111|0.185|||Mixed Models Analysis|||||0.185|0.111|<0.001
92191036|NCT00796614|184280906|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.5388|TWO_SIDED|95.0|0.5|3.8|||Regression, Logistic|||Logistic regression model was used with treatment variable and three covariates: age group, concomitant use of anti-cholinergic medication and geographic region. The first two covariates were used in the stratification of the randomisation. On treatment (OT) analyses approach was used.||3.80|0.50|0.5388
92191037|NCT00796614|184280906|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.343|TWO_SIDED|95.0|0.2|1.76|||Regression, Logistic|||Logistic regression model was used with treatment variable and three covariates: age group, concomitant use of anti-cholinergic medication and geographic region. The first two covariates were used in the stratification of the randomisation. On treatment (OT) analyses approach was used.||1.76|0.20|0.3430
92267852|NCT02684370|184437548|OTHER||adjusted difference in percentage|17.0|||<|0.001|TWO_SIDED|95.0|7.4|26.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||26.6|7.4|< 0.001
92267853|NCT02684370|184437549|OTHER||adjusted difference in percentage|17.3|||<|0.001|TWO_SIDED|95.0|7.3|27.3||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||27.3|7.3|< 0.001
92267854|NCT02684370|184437550|OTHER||adjusted difference in percentage|23.0|||<|0.001|TWO_SIDED|95.0|11.9|34.0||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||34.0|11.9|< 0.001
92267855|NCT02684370|184437551|OTHER||Mean Difference (Final Values)|-5.765|||<|0.001|TWO_SIDED|95.0|-6.496|-5.035|||van Elteren test|||P-value calculated by the van Elteren test stratified for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||-5.035|-6.496|<0.001
92267856|NCT00627094|184437559|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.0438|TWO_SIDED|95.0|1.02|2.96||In order to obtain 90% power to show superiority of Biatain Ibu compared to Biatain, a sample size of 60 pts per group (assuming a 15% drop-out rate) was found by simulating data from multi-nomial distributions over time.|Chi-squared|Result based on ITT population (evening). PP-analysis show a strong tendency (not significant) in favour of Biatain Ibu supporting the ITT-analysis||The null hypothesis to be tested was that the distributions of categorical responses were the same.||2.96|1.02|0.0438
92267857|NCT01354015|184437591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_DEVIATION|0.79||0.2539|TWO_SIDED|95.0|||||ANOVA|||All statistical analysis used intent-to-treat methodology and all comparisons used a two-tailed test at the .05 level of significance. Continuous variables are reported as means and standard deviations. W||||0.2539
92267858|NCT02050373|184437615|OTHER|For the comparison between the LLLT and control groups the Pearson chi-square (χ2) or Fisher's Exact tests were used.|||||<|0.05|||||||Fisher Exact|||The Pearson chi-square (χ2) or Fisher's Exact tests were used, at three different times (AD, D7, HD), to analyze the oral mucositis severity in the comparison between the LLLT and control groups. Statistical analysis was not performed for each grade of oral mucositis separately.||||<0.05
92267859|NCT02050373|184437616|OTHER|Student's t test was used to numerical variables with normal distribution. The Mann-Whitney test was used to compare the cytokine values of the two groups (control and laser). The Friedman test was used to indicate differences by comparing cytokine levels at different times of assessment within each group. The Friedman and Wilcoxon tests were used for paired analyzes of the saliva collection times in the groups. All tests were used to compare the groups at the three different times (AD, D7, HD).|||||<|0.05||||||p\<0,05|Wilcoxon (Mann-Whitney)|||||||<0.05
92267860|NCT04342130|184437617|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92267861|NCT00807040|184437625|OTHER|We tested this hypothesis in an intention-to-treat analysis using a two-tailed Wilcoxon rank-sum test, at a 0.05 alpha level. This analysis accommodated nonignorable missing LVESVI outcomes owing to the death of patients by assigning deceased patients the worst ranks in order on the basis of the time of death. We used multiple imputation for data that were missing for reasons other than death to calculate the 12-month LVESVI on the assumption that the data were missing at random.||||||0.18|||||||Wilcoxon (Mann-Whitney)|||The trial was designed with a power of 90% to detect a between-group difference of 15 ml per square meter in the LVESVI from baseline to 12 months. We assumed a baseline LVESVI of 100 ml per square meter, improvements of 20 ml per square meter in the repair group and 35 ml per square meter in the replacement group, and equal 1-year mortality of 10 to 20% in the two groups. The primary null hypothesis was that there would be no between-group difference in the LVESVI at 12 months.||||0.18
92267862|NCT00807040|184437626|OTHER|We used the log-rank test to compare rates of death from baseline to 2 years.|Hazard Ratio (HR)|0.79||||0.39|TWO_SIDED|95.0|0.46|1.35|||Log Rank|||||1.35|0.46|0.39
92267863|NCT01783860|184437643|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 1 sided|||||||0.03
92267864|NCT01783860|184437644|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 1 sided|||||||0.01
92267865|NCT01783860|184437645|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 1 sided|||||||0.007
92267866|NCT01783860|184437646|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 1 sided|||||||> 0.05
92267867|NCT01783860|184437647|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 1 sided|||||||0.02
92312567|NCT02933255|184527575|OTHER|||||||0.313||||||The reported p-value is representative of changes in CD4+ EM ki67+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.313
92312568|NCT02933255|184527575|OTHER|||||||0.001||||||The reported p-value is representative of changes in CD4+ ICOS+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.001
92312569|NCT02933255|184527575|OTHER|||||||0.092||||||The reported p-value is representative of changes in CD4+ ICOS+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.092
92312570|NCT02933255|184527575|OTHER|||||||0.176||||||The reported p-value is representative of changes in CD4+ ICOS+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.176
92312571|NCT02933255|184527575|OTHER|||||||0.232||||||The reported p-value is representative of changes in CD4+ ICOS+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.232
92267868|NCT01783860|184437648|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||t-test, 1 sided|||||||0.08
92267869|NCT03992261|184437650|OTHER|"Mean, median, SD, minimum/maximum determined for total amount of test article used by each subject in Safety, Evaluable, and PK populations HPA Axis Suppression: Proportion of subjects manifesting laboratory evidence of adrenal suppression at EOS were presented with 95% confidence intervals (CIs) for Evaluable and Safety populations. Descriptive statistics for daily dose of test article were tabulated separately for suppressed and non-suppressed subjects.~PK: Screening, Day 8, Day 15"||||||0.05|||||||ANOVA|||Outcome measure: extent of exposure, HPA axis suppression, and pharmacokinetic analysis.||||0.05
92267870|NCT00258310|184437651|SUPERIORITY_OR_OTHER_LEGACY||proportion|0.74|||||TWO_SIDED|95.0|0.59|0.9||||||||.90|.59|
92267871|NCT01833897|184437668|SUPERIORITY_OR_OTHER||||||<|0.001||||||F1,6.4=161.8,|linear mixed model|||||||<0.001
92267872|NCT01833897|184437669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92267873|NCT01833897|184437670|SUPERIORITY_OR_OTHER|||||||0.026|||||||ANOVA|||||||0.026
92267874|NCT01833897|184437671|SUPERIORITY_OR_OTHER|||||||0.011|||||||ANOVA|||||||0.011
92267875|NCT01833897|184437672|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92267876|NCT00806416|184437676|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Administration of a 70 mg alendronate/2800 IU vitamin D3 final market combination tablet and the 70 mg alendronate market tablet, the GMR of the combination tablet/alendronate only tablet are contained within \[0.80,1.25\].|Least square mean ratio|1.03||||||90.0|0.91|1.17||||||If the true geometric mean ratio (GMR) for total urinary excretion of alendronate of 70 mg alendronate/vitamin D3 combination tablet with respect to alendronate alone is 1.00 then a sample size =208 provided 99% probability of yielding a 90% CI for the total urinary excretion GMR within the interval of \[0.80, 1.25\]. These calculations were based on the observed-pooled within-subject standard deviation (log scale) of 0.521 obtained from earlier Phase 1 studies.||1.17|0.91|
92267877|NCT00806416|184437677|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Administration of a 70 mg alendronate/2800 IU vitamin D3 final market combination tablet and a tablet containing 2800 IU vitamin D3, the geometric mean ratio (GMR) for AUC0-120 hr and Cmax, corrected for predose concentration, of the combination tablet/2800 IU vitamin D3 only tablet were contained within \[0.80,1.25\].|Least square mean ratio for AUC0-120 hr|0.88||||||90.0|0.81|0.95||||||If the true GMRs for AUC and Cmax for 70 mg alendronate/vitamin D3 combination tablet with respect to 2800 IU vitamin D3 alone were 1.00 then a sample size=28 provided \>99% probability of yielding a 90% CI for both AUC(0-120 hr) and Cmax GMRs within the interval of \[0.80, 1.25\]. The within-subject standard deviation of 0.14 ln ng•hr/mL for AUC(0-120 hr) (ng•hr/mL) and 0.14 ng/mL for Cmax was obtained from another phase 1 study.||0.95|0.81|
92267878|NCT00806416|184437678|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Administration of a 70 mg alendronate/2800 IU vitamin D3 final market combination tablet and a tablet containing 2800 IU vitamin D3, the geometric mean ratio (GMR) for AUC0-120 hr and Cmax, corrected for predose concentration, of the combination tablet/2800 IU vitamin D3 only tablet were contained within \[0.80,1.25\].|least-squares mean for Cmax|0.89||||||90.0|0.84|0.95||||||If the true GMR ratios for AUC and Cmax for 70 mg alendronate/vitamin D3 combination tablet with respect to 2800 IU vitamin D3 alone were 1.00 then a sample of N=28 provided \>99% probability of yielding a 90% CI for both AUC0-120 hr and Cmax GMRs within the interval of \[0.80, 1.25\]. The within-subject standard deviation of 0.14 ln ng•hr/mL for AUC0-120 hr (ng•hr/mL) and 0.14 ng/mL for Cmax was obtained from another phase 1 study.||0.95|0.84|
92267879|NCT04035694|184437685|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.41|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.41
92267880|NCT04035694|184437686|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.11|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||.11
92267881|NCT04035694|184437687|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.54|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.54
92267882|NCT04035694|184437688|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.11||0.38|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.38
92267883|NCT04035694|184437689|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.07||0.56|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.56
92267884|NCT04035694|184437690|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.08||0.09|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.09
92267885|NCT04035694|184437691|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.4|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.40
92267886|NCT04035694|184437692|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.09||0.74|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.74
92267887|NCT04035694|184437693|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.07||0.66|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.66
92267888|NCT04035694|184437694|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.78|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.78
92267889|NCT04035694|184437695|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.15||0.52|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.52
92267890|NCT04035694|184437696|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.17||0.74|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.74
92267891|NCT04035694|184437697|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.13||0.21|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.21
92312572|NCT02933255|184527575|OTHER||||||<|0.001||||||The reported p-value is representative of changes in CD8+ ki67+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||<0.001
92312573|NCT02933255|184527575|OTHER|||||||0.131||||||The reported p-value is representative of changes in CD8+ ki67+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.131
92267892|NCT04035694|184437698|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.13||0.27|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.27
92267893|NCT04035694|184437699|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.07||0.01|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.01
92267894|NCT04035694|184437700|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.23|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.23
92267895|NCT04035694|184437701|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.05|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.05
92267896|NCT04035694|184437702|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.11||0.95|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.95
92267897|NCT04035694|184437703|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.99|STANDARD_ERROR_OF_MEAN|0.72||0.19|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.19
92267898|NCT04035694|184437704|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.59||0.92|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.92
92267899|NCT04035694|184437705|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.13||0.81|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.81
92267900|NCT04035694|184437706|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.16||0.81|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.81
92267901|NCT04035694|184437707|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.1||0.14|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.14
92312574|NCT02933255|184527575|OTHER|||||||0.424||||||The reported p-value is representative of changes in CD8+ ki67+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.424
92312575|NCT02933255|184527575|OTHER|||||||0.438||||||The reported p-value is representative of changes in CD8+ ki67+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.438
92191038|NCT00796614|184280906|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.5209|TWO_SIDED|95.0|0.5|3.97|||Regression, Logistic|||Logistic regression model was used with treatment variable and three covariates: age group, concomitant use of anti-cholinergic medication and geographic region. The first two covariates were used in the stratification of the randomisation. On treatment (OT) analyses approach was used.||3.97|0.50|0.5209
92191039|NCT00796614|184280906|SUPERIORITY_OR_OTHER|||||||0.9436|||||||Cochran-Armitage trend test|||A test of trend across the four treatment groups was performed as a secondary analysis in the proportion of responders across the dose levels using Cochran-Armitage trend test.||||0.9436
92191040|NCT00796614|184280907|SUPERIORITY_OR_OTHER|||||||0.3097|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.3097
92191041|NCT00796614|184280907|SUPERIORITY_OR_OTHER|||||||0.2676|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.2676
92191042|NCT00796614|184280907|SUPERIORITY_OR_OTHER|||||||0.6265|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.6265
92191043|NCT00796614|184280908|SUPERIORITY_OR_OTHER|||||||0.4359|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.4359
92267902|NCT04035694|184437708|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.15||0.82|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.82
92267903|NCT04035694|184437709|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.97|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.97
92267904|NCT04035694|184437710|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.09||0.89|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.89
92267905|NCT04035694|184437711|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.69|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.69
92267906|NCT04035694|184437712|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.06||0.63|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.63
92267907|NCT04035694|184437713|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.79|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.79
92267908|NCT04035694|184437714|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.16||0.93|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.93
92267909|NCT04035694|184437715|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|2.98|STANDARD_ERROR_OF_MEAN|2.18||0.2|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||.20
92312576|NCT02933255|184527575|OTHER||||||<|0.001||||||The reported p-value is representative of changes in Treg ICOS+ cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||<0.001
92312577|NCT02933255|184527575|OTHER|||||||0.151||||||The reported p-value is representative of changes in Treg ICOS+ cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.151
92312578|NCT02933255|184527575|OTHER|||||||0.569||||||The reported p-value is representative of changes in Treg ICOS+ cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.569
92312579|NCT02933255|184527575|OTHER|||||||0.105||||||The reported p-value is representative of changes in Treg ICOS+ cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.105
92312580|NCT02933255|184527575|OTHER|||||||0.012||||||The reported p-value is representative of changes in NK ki67+ cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.012
92191044|NCT00796614|184280908|SUPERIORITY_OR_OTHER|||||||0.0658|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.0658
92312581|NCT02933255|184527575|OTHER|||||||0.677||||||The reported p-value is representative of changes in NK ki67+ cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.677
92312582|NCT02933255|184527575|OTHER|||||||0.424||||||The reported p-value is representative of changes in NK ki67+ cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.424
92312583|NCT02933255|184527575|OTHER|||||||0.432||||||The reported p-value is representative of changes in NK ki67+ cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.432
92312584|NCT02933255|184527575|OTHER|||||||0.016||||||The reported p-value is representative of changes in NK NKG2D+ cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.016
92312585|NCT02933255|184527575|OTHER|||||||0.733||||||The reported p-value is representative of changes in NK NKG2D+ cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.733
92312586|NCT02933255|184527575|OTHER|||||||0.519||||||The reported p-value is representative of changes in NK NKG2D+ cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.519
92312587|NCT02933255|184527575|OTHER|||||||0.557||||||The reported p-value is representative of changes in NK NKG2D+ cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.557
92312588|NCT02933255|184527575|OTHER|||||||0.034||||||The reported p-value is representative of changes in NK NKp46+ cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.034
92312589|NCT02933255|184527575|OTHER|||||||0.092||||||The reported p-value is representative of changes in NK NKp46+ cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.092
92191045|NCT00796614|184280908|SUPERIORITY_OR_OTHER|||||||0.6709|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.6709
92191046|NCT00796614|184280909|SUPERIORITY_OR_OTHER|||||||0.5672|||||||Regression, Logistic|||Patient responded to tamsulosin-low dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.5672
92191047|NCT00796614|184280909|SUPERIORITY_OR_OTHER|||||||0.8724|||||||Regression, Logistic|||Patient responded to tamsulosin-medium dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.8724
92191048|NCT00796614|184280909|SUPERIORITY_OR_OTHER|||||||0.7674|||||||Regression, Logistic|||Patient responded to tamsulosin-high dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.7674
92312590|NCT02933255|184527575|OTHER|||||||0.733||||||The reported p-value is representative of changes in NK NKp46+ cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.733
92312591|NCT02933255|184527575|OTHER|||||||0.922||||||The reported p-value is representative of changes in NK NKp46+ cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.922
92312592|NCT02933255|184527575|OTHER|||||||0.176||||||The reported p-value is representative of changes in CD8+ naive T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.176
92312593|NCT02933255|184527575|OTHER|||||||0.049||||||The reported p-value is representative of changes in CD8+ naive T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.049
92312594|NCT02933255|184527575|OTHER|||||||0.001||||||The reported p-value is representative of changes in CD8+ naive T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.001
92312595|NCT02933255|184527575|OTHER|||||||0.563||||||The reported p-value is representative of changes in CD8+ naive T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.563
92312596|NCT02933255|184527575|OTHER|||||||0.012||||||The reported p-value is representative of changes in CD8+ CM T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.012
92312597|NCT02933255|184527575|OTHER|||||||0.084||||||The reported p-value is representative of changes in CD8+ CM T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.084
92312598|NCT02933255|184527575|OTHER|||||||0.016||||||The reported p-value is representative of changes in CD8+ CM T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.016
92312599|NCT02933255|184527575|OTHER|||||||0.688||||||The reported p-value is representative of changes in CD8+ CM T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.688
92312600|NCT02933255|184527575|OTHER|||||||0.38||||||The reported p-value is representative of changes in gMDSC at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.38
92312601|NCT02933255|184527575|OTHER|||||||0.021||||||The reported p-value is representative of changes in gMDSC at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.021
92312602|NCT02933255|184527575|OTHER|||||||0.91||||||The reported p-value is representative of changes in gMDSC at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.91
92312603|NCT02933255|184527575|OTHER|||||||0.084||||||The reported p-value is representative of changes in gMDSC at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.084
92312604|NCT02933255|184527575|OTHER|||||||0.151||||||The reported p-value is representative of changes in intermediate monocytes at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.151
92312605|NCT02933255|184527575|OTHER|||||||0.042||||||The reported p-value is representative of changes in intermediate monocytes at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.042
92312606|NCT02933255|184527575|OTHER|||||||0.424||||||The reported p-value is representative of changes in intermediate monocytes at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.424
92312607|NCT02933255|184527575|OTHER|||||||0.846||||||The reported p-value is representative of changes in intermediate monocytes at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.846
92191049|NCT00796614|184280909|SUPERIORITY_OR_OTHER|||||||0.5545|||||||Regression, Logistic|||Patient responded to tamsulosin-low dose (Right Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.5545
92312608|NCT02933255|184527575|OTHER|||||||0.339||||||The reported p-value is representative of changes in non-classical monocytes at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.339
92312609|NCT02933255|184527575|OTHER|||||||0.012||||||The reported p-value is representative of changes in non-classical monocytes at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.012
92312610|NCT02933255|184527575|OTHER|||||||0.622||||||The reported p-value is representative of changes in non-classical monocytes at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.622
92312611|NCT02933255|184527575|OTHER|||||||0.492||||||The reported p-value is representative of changes in non-classical monocytes at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.492
92312612|NCT02933255|184527575|OTHER|||||||0.11||||||The reported p-value is representative of changes in CD4+ CM T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.11
92312613|NCT02933255|184527575|OTHER|||||||0.02||||||The reported p-value is representative of changes in CD4+ CM T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.02
92312614|NCT02933255|184527575|OTHER|||||||0.052||||||The reported p-value is representative of changes in CD4+ CM T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.052
92312615|NCT02933255|184527575|OTHER|||||||0.844||||||The reported p-value is representative of changes in CD4+ CM T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.844
92312616|NCT02933255|184527575|OTHER||||||>|0.999||||||The reported p-value is representative of changes in CD4+ naive T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||>0.999
92191050|NCT00796614|184280909|SUPERIORITY_OR_OTHER|||||||0.4774|||||||Regression, Logistic|||Patient responded to tamsulosin-Medium dose (Right Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.4774
92191051|NCT00796614|184280909|SUPERIORITY_OR_OTHER|||||||0.8626|||||||Regression, Logistic|||Patient responded to tamsulosin-High dose (Right Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use,and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.8626
92312617|NCT02933255|184527575|OTHER|||||||0.049||||||The reported p-value is representative of changes in CD4+ naive T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.049
92312618|NCT02933255|184527575|OTHER|||||||0.339||||||The reported p-value is representative of changes in CD4+ naive T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.339
92312619|NCT02933255|184527575|OTHER||||||>|0.999||||||The reported p-value is representative of changes in CD4+ naive T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||>0.999
92312620|NCT02448368|184527589|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the Pharmacokinetics (PK), Pharmacodynamics (PD), and safety profile of RDEA3170.|Geometric Least Squares Mean Ratio|232.0|||||TWO_SIDED|90.0|202.0|266.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||266|202|
92312621|NCT02448368|184527589|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|181.0|||||TWO_SIDED|90.0|164.0|200.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||200|164|
92191052|NCT00796614|184280910|SUPERIORITY_OR_OTHER|||||||0.9669|||||||Regression, Logistic|||Patient responded to tamsulosin-low dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.9669
92312622|NCT02448368|184527589|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|106.0|||||TWO_SIDED|90.0|91.5|124.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||124|91.5|
92312623|NCT02448368|184527591|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|170.0|||||TWO_SIDED|90.0|147.0|195.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||195|147|
92312624|NCT02448368|184527591|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|170.0|||||TWO_SIDED|90.0|146.0|199.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||199|146|
92312625|NCT02448368|184527591|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|129.0|||||TWO_SIDED|90.0|114.0|146.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||146|114|
92312626|NCT02448368|184527592|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|161.0|||||TWO_SIDED|90.0|139.0|187.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||187|139|
92312627|NCT02448368|184527592|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|159.0|||||TWO_SIDED|90.0|135.0|188.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||188|135|
92312628|NCT02448368|184527592|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|131.0|||||TWO_SIDED|90.0|116.0|147.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||147|116|
92312629|NCT02448368|184527594|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|99.4|||||TWO_SIDED|90.0|88.3|112.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||112|88.3|
92312630|NCT02448368|184527594|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|99.9|||||TWO_SIDED|90.0|85.5|117.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||117|85.5|
92312631|NCT02448368|184527594|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|116.0|||||TWO_SIDED|90.0|94.8|143.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||143|94.8|
92312632|NCT02448368|184527595|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|107.0|||||TWO_SIDED|90.0|98.3|116.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||116|98.3|
92191053|NCT00796614|184280910|SUPERIORITY_OR_OTHER|||||||0.9231|||||||Regression, Logistic|||Patient responded to tamsulosin-medium dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.9231
92312633|NCT02448368|184527595|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|104.0|||||TWO_SIDED|90.0|95.0|113.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||113|95.0|
92312634|NCT02448368|184527595|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170|Geometric Least Squares mean Ratio|115.0|||||TWO_SIDED|90.0|95.3|140.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||140|95.3|
92312635|NCT02448368|184527596|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170|Geometric Least Squares mean Ratio|107.0|||||TWO_SIDED|90.0|98.1|116.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||116|98.1|
92191054|NCT00796614|184280910|SUPERIORITY_OR_OTHER|||||||0.636|||||||Regression, Logistic|||Patient responded to tamsulosin-high dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.6360
92191055|NCT00796614|184280910|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Patient responded to tamsulosin-low dose (Right Kidney) was compared to placebo. Fisher's exact test was used for this analysis.||||1.0000
92191056|NCT00796614|184280910|SUPERIORITY_OR_OTHER|||||||0.4925|||||||Fisher Exact|||Patient responded to tamsulosin-medium dose (Right Kidney) was compared to placebo. Fisher's exact test was used for this analysis.||||0.4925
92312636|NCT02448368|184527596|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170|Geometric Least Squares mean Ratio|103.0|||||TWO_SIDED|90.0|94.6|113.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||113|94.6|
92312637|NCT02448368|184527596|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170|Geometric Least Squares mean Ratio|113.0|||||TWO_SIDED|90.0|93.3|137.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||137|93.3|
92312638|NCT06473519|184527610|NON_INFERIORITY|Noninferiority of immune responses induced by MDVRSV preF compared to SDVRSV preF, assessed for RSVA\&B at 1month after vaccination. Null hypotheses(H0): RSVA(H0A)=ln(μMDV)-ln(μSDV)\<=-ln(1.5);RSVB(H0B):ln(μMDV)-ln(μSDV)\<=-ln(1.5), where ln(μMDV)\&ln(μSDV) are means of natural log-transformed antibody concentrations 1month after vaccination for MDV and SDV groups, respectively. Noninferiority=if lower bounds of 2-sided95%CI for GMT ratios (MDV/SDV) were \>0.67(noninferiority margin=1.5)for RSVA\&B.|Geometric mean ratio|0.96|||||TWO_SIDED|95.0|0.84|1.1|||||GMR was calculated as group mean difference of logarithmically transformed antibody levels, back transformed to original units.|RSV A||1.10|0.84|
92312639|NCT06473519|184527610|NON_INFERIORITY|Noninferiority of immune responses induced by MDVRSV preF compared to SDVRSV preF, assessed for RSVA\&B at 1 month after vaccination. Null hypotheses(H0):RSVA(H0A)=ln(μMDV)-ln(μSDV)\<=-ln(1.5);RSVB(H0B):ln(μMDV)-ln(μSDV)\<=-ln(1.5), where ln(μMDV)\&ln(μSDV) are means of natural log-transformed antibody concentrations 1 month after vaccination for MDV and SDV groups, respectively. Noninferiority=if lower bounds of 2-sided 95%CI for GMT ratios(MDV/SDV) were \>0.67(noninferiority margin=1.5)for RSVA\&B.|Geometric mean ratio|0.91|||||TWO_SIDED|95.0|0.79|1.06|||||GMR was calculated as group mean difference of logarithmically transformed antibody levels, back transformed to original units.|RSV B||1.06|0.79|
92312640|NCT04856917|184527617|SUPERIORITY||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|3.21||0.3757|TWO_SIDED|90.0|-2.47|8.19|||LRMM|||Least square (LS) Mean, SE, 90% CI, \& p-value was based on a linear repeated measures model (LRMM) which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.||8.19|-2.47|0.3757
92312641|NCT04856917|184527617|SUPERIORITY||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|3.22||0.6183|TWO_SIDED|90.0|-3.73|6.95|||LRMM|||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.||6.95|-3.73|0.6183
92312642|NCT04856917|184527618|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.7||0.249|TWO_SIDED|90.0|-0.85|4.8||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||4.80|-0.85|0.2490
92312643|NCT04856917|184527618|SUPERIORITY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|1.72||0.0708|TWO_SIDED|90.0|0.28|5.99||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||5.99|0.28|0.0708
92312644|NCT04856917|184527618|SUPERIORITY||LS Mean Difference|7.9|STANDARD_ERROR_OF_MEAN|2.68||0.004|TWO_SIDED|90.0|3.44|12.34||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||12.34|3.44|0.0040
92312645|NCT04856917|184527618|SUPERIORITY||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|2.71||0.206|TWO_SIDED|90.0|-1.05|7.94||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||7.94|-1.05|0.2060
92312646|NCT04856917|184527618|SUPERIORITY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|2.66||0.4341|TWO_SIDED|90.0|-2.33|6.51||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||6.51|-2.33|0.4341
92312647|NCT04856917|184527618|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.73||0.7307|TWO_SIDED|90.0|-3.59|5.48||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||5.48|-3.59|0.7307
92191057|NCT00796614|184280910|SUPERIORITY_OR_OTHER|||||||0.4977|||||||Fisher Exact|||Patient responded to tamsulosin-high dose (Right Kidney) was compared to placebo. Fisher's exact test was used for this analysis.||||0.4977
92191058|NCT00796614|184280911|SUPERIORITY_OR_OTHER|||||||0.1373|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.1373
92191059|NCT00796614|184280911|SUPERIORITY_OR_OTHER|||||||0.744|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.7440
92191060|NCT00796614|184280911|SUPERIORITY_OR_OTHER|||||||0.7703|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.7703
92191061|NCT00796614|184280912|SUPERIORITY_OR_OTHER|||||||0.0808|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.0808
92191062|NCT00796614|184280912|SUPERIORITY_OR_OTHER|||||||0.8244|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.8244
92312648|NCT04856917|184527618|SUPERIORITY||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|2.93||0.3261|TWO_SIDED|90.0|-1.97|7.77||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||7.77|-1.97|0.3261
92312649|NCT04856917|184527618|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.95||0.8221|TWO_SIDED|90.0|-5.56|4.23||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||4.23|-5.56|0.8221
92312650|NCT04856917|184527619|SUPERIORITY||LS Mean Difference|6.4|STANDARD_ERROR_OF_MEAN|6.2||0.3008|TWO_SIDED|90.0|-3.84|16.73||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||16.73|-3.84|0.3008
92312651|NCT04856917|184527619|SUPERIORITY||LS Mean Difference|10.8|STANDARD_ERROR_OF_MEAN|6.27||0.0878|TWO_SIDED|90.0|0.4|21.19||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||21.19|0.40|0.0878
92312652|NCT04856917|184527619|SUPERIORITY||LS Mean Difference|26.6|STANDARD_ERROR_OF_MEAN|8.42||0.002|TWO_SIDED|90.0|12.64|40.57||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||40.57|12.64|0.0020
92312653|NCT04856917|184527619|SUPERIORITY||LS Mean Difference|14.0|STANDARD_ERROR_OF_MEAN|8.5||0.1029|TWO_SIDED|90.0|-0.12|28.09||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||28.09|-0.12|0.1029
92312654|NCT04856917|184527619|SUPERIORITY||LS Mean Difference|5.4|STANDARD_ERROR_OF_MEAN|8.82||0.5427|TWO_SIDED|90.0|-9.25|20.02||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||20.02|-9.25|0.5427
92312655|NCT04856917|184527619|SUPERIORITY||LS Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|9.06||0.5833|TWO_SIDED|90.0|-10.05|20.02||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||20.02|-10.05|0.5833
92312656|NCT04856917|184527619|SUPERIORITY||LS Mean Difference|10.8|STANDARD_ERROR_OF_MEAN|10.98||0.3293|TWO_SIDED|90.0|-7.46|28.99||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||28.99|-7.46|0.3293
92312657|NCT04856917|184527619|SUPERIORITY||LS Mean Difference|14.5|STANDARD_ERROR_OF_MEAN|10.99||0.19|TWO_SIDED|90.0|-3.74|32.74||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||32.74|-3.74|0.1900
92312658|NCT04856917|184527619|SUPERIORITY||LS Mean Difference|11.7|STANDARD_ERROR_OF_MEAN|9.38||0.2168|TWO_SIDED|90.0|-3.91|27.23||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||27.23|-3.91|0.2168
92312659|NCT04856917|184527619|SUPERIORITY||LS Mean Difference|7.8|STANDARD_ERROR_OF_MEAN|9.42||0.4089|TWO_SIDED|90.0|-7.82|23.45||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||23.45|-7.82|0.4089
92191063|NCT00796614|184280912|SUPERIORITY_OR_OTHER|||||||0.5045|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.5045
92312660|NCT04856917|184527620|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|2.53||0.4229|TWO_SIDED|90.0|-2.16|6.24||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||6.24|-2.16|0.4229
92312661|NCT04856917|184527620|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|2.56||0.6027|TWO_SIDED|90.0|-2.91|5.59||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||5.59|-2.91|0.6027
92312662|NCT04856917|184527620|SUPERIORITY||LS Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|2.5||0.2655|TWO_SIDED|90.0|-1.35|6.95||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||6.95|-1.35|0.2655
92191064|NCT02983877|184280916|SUPERIORITY||||||<|0.001|||||||Friedman test|3 degrees of freedom||||||<0.001
92312663|NCT04856917|184527620|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|2.53||0.6229|TWO_SIDED|90.0|-2.95|5.44||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||5.44|-2.95|0.6229
92312664|NCT04856917|184527620|SUPERIORITY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|3.74||0.4091|TWO_SIDED|90.0|-3.1|9.3||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||9.30|-3.10|0.4091
92312665|NCT04856917|184527620|SUPERIORITY||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|3.83||0.1274|TWO_SIDED|90.0|-0.47|12.25||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||12.25|-0.47|0.1274
92312666|NCT04856917|184527620|SUPERIORITY||LS Mean Difference|4.8|STANDARD_ERROR_OF_MEAN|3.76||0.2075|TWO_SIDED|90.0|-1.47|11.01||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||11.01|-1.47|0.2075
92312667|NCT04856917|184527620|SUPERIORITY||LS Mean Difference|4.4|STANDARD_ERROR_OF_MEAN|3.77||0.2484|TWO_SIDED|90.0|-1.88|10.64||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||10.64|-1.88|0.2484
92312668|NCT04856917|184527620|SUPERIORITY||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|3.61||0.3399|TWO_SIDED|90.0|-2.53|9.45||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||9.45|-2.53|0.3399
92312669|NCT04856917|184527620|SUPERIORITY||LS Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|3.62||0.0545|TWO_SIDED|90.0|1.03|13.05||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||13.05|1.03|0.0545
92312670|NCT04856917|184527621|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|11.69||0.9679|TWO_SIDED|90.0|-19.86|18.91||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||18.91|-19.86|0.9679
92312671|NCT04856917|184527621|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|11.83||0.9152|TWO_SIDED|90.0|-20.87|18.35||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||18.35|-20.87|0.9152
92312672|NCT04856917|184527621|SUPERIORITY||LS Mean Difference|7.3|STANDARD_ERROR_OF_MEAN|9.64||0.449|TWO_SIDED|90.0|-8.67|23.32||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||23.32|-8.67|0.4490
92312673|NCT04856917|184527621|SUPERIORITY||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|9.74||0.7246|TWO_SIDED|90.0|-12.72|19.6||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||19.60|-12.72|0.7246
92312674|NCT04856917|184527621|SUPERIORITY||LS Mean Difference|13.8|STANDARD_ERROR_OF_MEAN|18.88||0.4655|TWO_SIDED|90.0|-17.49|45.14||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||45.14|-17.49|0.4655
92312675|NCT04856917|184527621|SUPERIORITY||LS Mean Difference|30.5|STANDARD_ERROR_OF_MEAN|19.33||0.1178|TWO_SIDED|90.0|-1.59|62.54||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||62.54|-1.59|0.1178
92312676|NCT04856917|184527621|SUPERIORITY||LS Mean Difference|23.1|STANDARD_ERROR_OF_MEAN|17.71||0.1938|TWO_SIDED|90.0|-6.22|52.52||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||52.52|-6.22|0.1938
92312677|NCT04856917|184527621|SUPERIORITY||LS Mean Difference|29.7|STANDARD_ERROR_OF_MEAN|17.85||0.0991|TWO_SIDED|90.0|0.08|59.29||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||59.29|0.08|0.0991
92312678|NCT04856917|184527621|SUPERIORITY||LS Mean Difference|15.0|STANDARD_ERROR_OF_MEAN|15.44||0.3337|TWO_SIDED|90.0|-10.62|40.59||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||40.59|-10.62|0.3337
92312679|NCT04856917|184527621|SUPERIORITY||LS Mean Difference|31.2|STANDARD_ERROR_OF_MEAN|15.48||0.0465|TWO_SIDED|90.0|5.5|56.87||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||56.87|5.50|0.0465
92312680|NCT04856917|184527622|SUPERIORITY||LS Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|2.95||0.215|TWO_SIDED|90.0|-1.21|8.56||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||8.56|-1.21|0.2150
92312681|NCT04856917|184527622|SUPERIORITY||LS Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|2.97||0.0864|TWO_SIDED|90.0|0.21|10.05||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||10.05|0.21|0.0864
92312682|NCT04856917|184527622|SUPERIORITY||LS Mean Difference|10.4|STANDARD_ERROR_OF_MEAN|3.88||0.0084|TWO_SIDED|90.0|3.97|16.85||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||16.85|3.97|0.0084
92312683|NCT04856917|184527622|SUPERIORITY||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|3.91||0.16|TWO_SIDED|90.0|-0.95|12.01||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||12.01|-0.95|0.1600
92312684|NCT04856917|184527622|SUPERIORITY||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|5.23||0.3671|TWO_SIDED|90.0|-3.94|13.41||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||13.41|-3.94|0.3671
92312685|NCT04856917|184527622|SUPERIORITY||LS Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|5.35||0.1587|TWO_SIDED|90.0|-1.28|16.46||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||16.46|-1.28|0.1587
92312686|NCT04856917|184527622|SUPERIORITY||LS Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|5.8||0.1932|TWO_SIDED|90.0|-2.03|17.21||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||17.21|-2.03|0.1932
92312687|NCT04856917|184527622|SUPERIORITY||LS Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|5.82||0.2518|TWO_SIDED|90.0|-2.95|16.37||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||16.37|-2.95|0.2518
92312688|NCT04856917|184527622|SUPERIORITY||LS Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|5.53||0.232|TWO_SIDED|90.0|-2.53|15.83||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||15.83|-2.53|0.2320
92312689|NCT04856917|184527622|SUPERIORITY||LS Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|5.55||0.2014|TWO_SIDED|90.0|-2.08|16.35||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||16.35|-2.08|0.2014
92312690|NCT04856917|184527623|SUPERIORITY||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|4.94||0.4361|TWO_SIDED|90.0|-4.34|12.06||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||12.06|-4.34|0.4361
92312691|NCT04856917|184527623|SUPERIORITY||LS Mean Difference|8.2|STANDARD_ERROR_OF_MEAN|4.98||0.1018|TWO_SIDED|90.0|-0.04|16.48||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||16.48|-0.04|0.1018
92312692|NCT04856917|184527623|SUPERIORITY||LS Mean Difference|16.3|STANDARD_ERROR_OF_MEAN|5.79||0.0059|TWO_SIDED|90.0|6.66|25.88||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||25.88|6.66|0.0059
92312693|NCT04856917|184527623|SUPERIORITY||LS Mean Difference|9.9|STANDARD_ERROR_OF_MEAN|5.83||0.0913|TWO_SIDED|90.0|0.26|19.59||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||19.59|0.26|0.0913
92312694|NCT04856917|184527623|SUPERIORITY||LS Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|7.7||0.4921|TWO_SIDED|90.0|-7.47|18.09||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||18.09|-7.47|0.4921
92312695|NCT04856917|184527623|SUPERIORITY||LS Mean Difference|11.1|STANDARD_ERROR_OF_MEAN|7.89||0.1607|TWO_SIDED|90.0|-1.95|24.24||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||24.24|-1.95|0.1607
92312696|NCT04856917|184527623|SUPERIORITY||LS Mean Difference|14.2|STANDARD_ERROR_OF_MEAN|9.19||0.1244|TWO_SIDED|90.0|-1.02|29.48||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||29.48|-1.02|0.1244
92312697|NCT04856917|184527623|SUPERIORITY||LS Mean Difference|15.2|STANDARD_ERROR_OF_MEAN|9.2||0.1004|TWO_SIDED|90.0|-0.02|30.51||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||30.51|-0.02|0.1004
92312698|NCT04856917|184527623|SUPERIORITY||LS Mean Difference|12.4|STANDARD_ERROR_OF_MEAN|9.64||0.2015|TWO_SIDED|90.0|-3.61|28.39||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||28.39|-3.61|0.2015
92312699|NCT04856917|184527623|SUPERIORITY||LS Mean Difference|15.8|STANDARD_ERROR_OF_MEAN|9.66||0.1057|TWO_SIDED|90.0|-0.27|31.81||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||31.81|-0.27|0.1057
92312700|NCT04856917|184527624|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.08||0.5157|TWO_SIDED|90.0|-0.08|0.19||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||0.19|-0.08|0.5157
92312701|NCT04856917|184527624|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.08||0.0178|TWO_SIDED|90.0|0.06|0.34||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||0.34|0.06|0.0178
92312702|NCT04856917|184527624|SUPERIORITY||LS Mean Difference|0.3|STANDARD_DEVIATION|0.12||0.0132|TWO_SIDED|90.0|0.1|0.48||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||0.48|0.10|0.0132
92312703|NCT04856917|184527624|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0034|TWO_SIDED|90.0|0.16|0.54||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||0.54|0.16|0.0034
92312704|NCT04856917|184527624|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.13||0.051|TWO_SIDED|90.0|0.04|0.47||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||0.47|0.04|0.0510
92312705|NCT04856917|184527624|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0608|TWO_SIDED|90.0|0.03|0.47||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||0.47|0.03|0.0608
92312706|NCT04856917|184527624|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.17||0.2702|TWO_SIDED|90.0|-0.1|0.48||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||0.48|-0.10|0.2702
92191065|NCT02983877|184280917|SUPERIORITY||||||<|0.001|||||||ANOVA|3 degrees of freedom||||||<0.001
92312707|NCT04856917|184527624|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0249|TWO_SIDED|90.0|0.11|0.69||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||0.69|0.11|0.0249
92312708|NCT04856917|184527624|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.18||0.1853|TWO_SIDED|90.0|-0.06|0.55||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||0.55|-0.06|0.1853
92191066|NCT02983877|184280918|SUPERIORITY||||||<|0.001|||||||Friedman test|3 degrees of freedom||||||<0.001
92191067|NCT02983877|184280919|SUPERIORITY|||||||0.89|||||||ANOVA|2 degrees of freedom||||||0.89
92191068|NCT02762500|184280934|SUPERIORITY||Risk Difference (RD)|-8.1||||0.106|TWO_SIDED|90.0|-18.6|2.5||one-sided p-value|Chi-squared|Statistical test was a one-sided performed at the 5% level of significance. Pearson chi-square test was used to test the null hypothesis.|90% CI obtained based on normal approximation.|The response rate difference is the mean difference in response rates between the treatment and placebo responders. The p-value is based on one-sided Pearson chi-square test.||2.5|-18.6|0.106
92312709|NCT04856917|184527624|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.18||0.2974|TWO_SIDED|90.0|-0.11|0.5||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||0.50|-0.11|0.2974
92312710|NCT04856917|184527625|SUPERIORITY||Risk Difference (RD)|-2.5||||0.339|TWO_SIDED|90.0|-6.62|1.63||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 400/200 mg vs Placebo: Week 4||1.63|-6.62|0.3390
92312711|NCT04856917|184527625|SUPERIORITY||Risk Difference (RD)|-2.6||||0.3243|TWO_SIDED|90.0|-6.79|1.59||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 200/100 mg vs Placebo: Week 4||1.59|-6.79|0.3243
92312712|NCT04856917|184527625|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-5.91|5.91||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 400/200 mg vs Placebo: Week 8||5.91|-5.91|1.0000
92312713|NCT04856917|184527625|SUPERIORITY||Risk Difference (RD)|-2.66||||0.332|TWO_SIDED|90.0|-6.96|1.63||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 200/100 mg vs Placebo: Week 8||1.63|-6.96|0.3320
92191069|NCT02762500|184280935|SUPERIORITY||Risk Difference (RD)|-8.1||||0.106|TWO_SIDED|90.0|-18.6|2.5||one-sided p-value|Chi-squared|Statistical test was a one-sided performed at the 5% level of significance. Pearson chi-square test was used to test the null hypothesis.|90% CI obtained based on normal approximation.|The response rate difference is the mean difference in response rates between the treatment and placebo responders. The p-value is based on one-sided Pearson chi-square test.||2.5|-18.6|0.106
92191070|NCT02762500|184280936|SUPERIORITY||Risk Difference (RD)|-6.5||||0.235|TWO_SIDED|90.0|-21.1|8.2||one-sided p-value|Chi-squared|Statistical test was a one-sided performed at the 5% level of significance. Pearson chi-square test was used to test the null hypothesis.|90% CI obtained based on normal approximation.|The response rate difference is the mean difference in response rates between the treatment and placebo responders. The p-value is based on one-sided Pearson chi-square test.||8.2|-21.1|0.235
92312714|NCT04856917|184527625|SUPERIORITY||Risk Difference (RD)|-2.45||||0.7595|TWO_SIDED|90.0|-15.5|10.59||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 400/200 mg vs Placebo: Week 12||10.59|-15.50|0.7595
92312715|NCT04856917|184527625|SUPERIORITY||Risk Difference (RD)|-14.11||||0.0209|TWO_SIDED|90.0|-23.66|-4.57||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 200/100 mg vs Placebo: Week 12||-4.57|-23.66|0.0209
92312716|NCT04856917|184527625|SUPERIORITY||Risk Difference (RD)|-4.56||||0.6094|TWO_SIDED|90.0|-18.99|9.87||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 400/200 mg vs Placebo: Week 20||9.87|-18.99|0.6094
92312717|NCT04856917|184527625|SUPERIORITY||Risk Difference (RD)|-10.28||||0.2076|TWO_SIDED|90.0|-23.34|2.78||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 200/100 mg vs Placebo: Week 20||2.78|-23.34|0.2076
92312718|NCT04856917|184527626|SUPERIORITY||Risk Difference (RD)|0.1||||0.4482|TWO_SIDED|90.0|-0.1|0.29||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 2||0.29|-0.10|0.4482
92191071|NCT02762500|184280937|SUPERIORITY||Risk Difference (RD)|-9.7||||0.14|TWO_SIDED|90.0|-24.3|5.0||one-sided p-value|Chi-squared|Statistical test was a one-sided performed at the 5% level of significance. Pearson chi-square test was used to test the null hypothesis.|90% CI obtained based on normal approximation.|The response rate difference is the mean difference in response rates between the treatment and placebo responders. The p-value is based on one-sided Pearson chi-square test.||5.0|-24.3|0.140
92191072|NCT02762500|184280938|SUPERIORITY||Mean Difference (Final Values)|-44.59||||0.032|TWO_SIDED|90.0|-78.66|-10.53|||ANCOVA|The mean change from baseline at Week 8 was analyzed using ANCOVA with a factor for treatment and a covariate for baseline scores.||Subjects included in this analysis were those with a baseline fecal calprotectin value ≥ 250 µg/g.||-10.53|-78.66|0.032
92191073|NCT02762500|184280939|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.708|TWO_SIDED|90.0|-0.6|0.95|||ANCOVA|The mean change from baseline at Week 8 was analyzed using ANCOVA with a factor for treatment and a covariate for baseline scores.||||0.95|-0.60|0.708
92312719|NCT04856917|184527626|SUPERIORITY||Risk Difference (RD)|0.14||||0.4529|TWO_SIDED|90.0|-0.05|0.33||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 2||0.33|-0.05|0.4529
92312720|NCT04856917|184527626|SUPERIORITY||Risk Difference (RD)|-0.01||||0.932|TWO_SIDED|90.0|-0.2|0.18||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 4||0.18|-0.20|0.9320
92312721|NCT04856917|184527626|SUPERIORITY||Risk Difference (RD)|-0.03||||0.3151|TWO_SIDED|90.0|-0.22|0.16||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 4||0.16|-0.22|0.3151
92191074|NCT01163955|184280984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|STANDARD_DEVIATION|1.92|<|0.0005|TWO_SIDED|95.0|0.0|9.0|||t-test, 2 sided|DF=50||Start total score at 0 minutes is being compared to the end total score at 5 minutes while sitting in the floor.||9|0|<.0005
92191075|NCT01163955|184280984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|STANDARD_DEVIATION|1.99|<|0.0005|TWO_SIDED|95.0|0.0|9.0|||t-test, 2 sided|DF=50||Start total score at 0 minutes is being compared to the end total score at 5 minutes while sitting in a chair.||9|0|<.0005
92191076|NCT00784277|184280985|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|55.1|STANDARD_ERROR_OF_MEAN|20.37||0.007||95.0|15.11|95.13||P-value is adjusted for multiplicity for comparison against placebo using Hochberg's test.|ANCOVA|The model includes treatment and pooled center as factors and baseline pain intensity score as covariate.|The 95% confidence interval is unadjusted for multiplicity.|||95.13|15.11|0.007
92191077|NCT00784277|184280985|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|63.4|STANDARD_ERROR_OF_MEAN|20.23||0.004||95.0|23.67|103.13||P-value is adjusted for multiplicity for comparison against placebo using Hochberg's test.|ANCOVA|The model includes treatment and pooled center as factors and baseline pain intensity score as covariate.|The 95% confidence interval is unadjusted for multiplicity.|||103.13|23.67|0.004
92312722|NCT04856917|184527626|SUPERIORITY||Risk Difference (RD)|-0.14||||0.2908|TWO_SIDED|90.0|-0.32|0.06||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 8||0.06|-0.32|0.2908
92312723|NCT04856917|184527626|SUPERIORITY||Risk Difference (RD)|0.05||||0.7277|TWO_SIDED|90.0|-0.15|0.24||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 8||0.24|-0.15|0.7277
92312724|NCT04856917|184527626|SUPERIORITY||Risk Difference (RD)|-0.03||||0.8463|TWO_SIDED|90.0|-0.23|0.17||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 12||0.17|-0.23|0.8463
92312725|NCT04856917|184527626|SUPERIORITY||Risk Difference (RD)|-0.08||||0.5281|TWO_SIDED|90.0|-0.28|0.11||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 12||0.11|-0.28|0.5281
92191078|NCT00784277|184280986|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|3.1|STANDARD_ERROR_OF_MEAN|0.46|<|0.001||95.0|2.22|4.01||P-value is adjusted for multiplicity for comparison against Oxycodone using Hochberg's test.|ANCOVA|The model includes treatment and pooled center as factors and baseline value as covariate.|The 95% confidence interval is unadjusted for multiplicity.|||4.01|2.22|<0.001
92191079|NCT00784277|184280986|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|2.2|STANDARD_ERROR_OF_MEAN|0.45|<|0.001||95.0|1.34|3.12||P-value is adjusted for multiplicity for comparison against Oxycodone using Hochberg's test.|ANCOVA|The model includes treatment and pooled center as factors and baseline value as covariate.|The 95% confidence interval is unadjusted for multiplicity.|||3.12|1.34|<0.001
92191080|NCT00784277|184280986|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|1.6|STANDARD_ERROR_OF_MEAN|0.45|<|0.001||95.0|0.72|2.5||P-value is adjusted for multiplicity for comparison against Oxycodone using Hochberg's test.|ANCOVA|The model includes treatment and pooled center as factors and baseline value as covariate.|The 95% confidence interval is unadjusted for multiplicity.|||2.50|0.72|<0.001
92191081|NCT02567227|184281001|SUPERIORITY||Mean Difference (Net)|-1.03|STANDARD_ERROR_OF_MEAN|1.3|||TWO_SIDED|95.0|-3.6|1.54|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (Mild Cognitive Impairment (MCI) or cognitively normal) were used to compare changes in speed during normal pace walking pre and post intervention.||1.54|-3.60|
92312726|NCT04856917|184527626|SUPERIORITY||Risk Difference (RD)|-0.09||||0.5747|TWO_SIDED|90.0|-0.28|0.11||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 20||0.11|-0.28|0.5747
92312727|NCT04856917|184527626|SUPERIORITY||Risk Difference (RD)|-0.05||||0.5081|TWO_SIDED|90.0|-0.24|0.14||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 20||0.14|-0.24|0.5081
92312728|NCT04856917|184527627|SUPERIORITY||Risk Difference (RD)|0.01||||0.8338|TWO_SIDED|90.0|-0.19|0.2||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 2||0.20|-0.19|0.8338
92312729|NCT04856917|184527627|SUPERIORITY||Risk Difference (RD)|-0.12||||0.1142|TWO_SIDED|90.0|-0.31|0.09||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 2||0.09|-0.31|0.1142
92312730|NCT04856917|184527627|SUPERIORITY||Risk Difference (RD)|-0.2||||0.3433|TWO_SIDED|90.0|-0.38|0.0||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 4||0.00|-0.38|0.3433
92312731|NCT04856917|184527627|SUPERIORITY||Risk Difference (RD)|-0.17||||0.1129|TWO_SIDED|90.0|-0.37|0.04||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 2||0.04|-0.37|0.1129
92312732|NCT04856917|184527627|SUPERIORITY||Risk Difference (RD)|-0.2||||0.2842|TWO_SIDED|90.0|-0.38|0.0||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 8||0.00|-0.38|0.2842
92312733|NCT04856917|184527627|SUPERIORITY||Risk Difference (RD)|-0.34||||0.0212|TWO_SIDED|90.0|-0.52|-0.13||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 8||-0.13|-0.52|0.0212
92312734|NCT04856917|184527627|SUPERIORITY||Risk Difference (RD)|-0.07||||0.7665|TWO_SIDED|90.0|-0.28|0.14||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 12||0.14|-0.28|0.7665
92312735|NCT04856917|184527627|SUPERIORITY||Risk Difference (RD)|-0.22||||0.1777|TWO_SIDED|90.0|-0.42|0.0||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 12||-0.00|-0.42|0.1777
92312736|NCT04856917|184527627|SUPERIORITY||Risk Difference (RD)|-0.12||||0.3741|TWO_SIDED|90.0|-0.33|0.09||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 20||0.09|-0.33|0.3741
92312737|NCT04856917|184527627|SUPERIORITY||Risk Difference (RD)|-0.13||||0.3321|TWO_SIDED|90.0|-0.33|0.09||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 20||0.09|-0.33|0.3321
92312738|NCT04856917|184527628|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.11||0.7932|TWO_SIDED|90.0|-1.56|2.14||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||2.14|-1.56|0.7932
92191082|NCT02567227|184281001|SUPERIORITY||Mean Difference (Net)|0.59|STANDARD_ERROR_OF_MEAN|1.61|||TWO_SIDED|95.0|-2.59|3.76||P-values from linear mixed effects models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status|||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in speed during walking while talking pre and post intervention.||3.76|-2.59|
92191083|NCT02567227|184281002|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-0.49|0.2|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in SPPB scores pre and post intervention.||0.20|-0.49|
92312739|NCT04856917|184527628|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.12||0.4365|TWO_SIDED|90.0|-0.99|2.73||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||2.73|-0.99|0.4365
92312740|NCT04856917|184527628|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.04||0.8543|TWO_SIDED|90.0|-1.92|1.54||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||1.54|-1.92|0.8543
92312741|NCT04856917|184527628|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.05||0.8726|TWO_SIDED|90.0|-1.91|1.58||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||1.58|-1.91|0.8726
92312742|NCT04856917|184527628|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.07||0.5983|TWO_SIDED|90.0|-1.22|2.35||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||2.35|-1.22|0.5983
92312743|NCT04856917|184527628|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.09||0.3396|TWO_SIDED|90.0|-0.77|2.86||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||2.86|-0.77|0.3396
92312744|NCT04856917|184527628|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.97||0.5305|TWO_SIDED|90.0|-2.23|1.01||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||1.01|-2.23|0.5305
92312745|NCT04856917|184527628|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.96||0.0819|TWO_SIDED|90.0|0.09|3.29||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||3.29|0.09|0.0819
92312746|NCT04856917|184527628|SUPERIORITY||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|1.09||0.0243|TWO_SIDED|90.0|0.69|4.31||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||4.31|0.69|0.0243
92312747|NCT04856917|184527628|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|1.05||0.1061|TWO_SIDED|90.0|-0.03|3.46||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||3.46|-0.03|0.1061
92312748|NCT04856917|184527629|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.67||0.9333|TWO_SIDED|90.0|-2.69|2.97||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||2.97|-2.69|0.9333
92312749|NCT04856917|184527629|SUPERIORITY||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.67||0.3972|TWO_SIDED|90.0|-1.4|4.27||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||4.27|-1.40|0.3972
92312750|NCT04856917|184527629|SUPERIORITY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.11||0.0662|TWO_SIDED|90.0|0.23|3.99||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||3.99|0.23|0.0662
92312751|NCT04856917|184527629|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.11||0.8898|TWO_SIDED|90.0|-1.73|2.04||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||2.04|-1.73|0.8898
92312752|NCT04856917|184527629|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.06||0.3664|TWO_SIDED|90.0|-0.85|2.82||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||2.82|-0.85|0.3664
92312753|NCT04856917|184527629|SUPERIORITY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.1||0.0655|TWO_SIDED|90.0|0.25|4.05||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||4.05|0.25|0.0655
92191084|NCT02567227|184281003|SUPERIORITY||Mean Difference (Net)|0.83|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|95.0|-2.13|3.79|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in stride length during walking while talking pre and post intervention.||3.79|-2.13|
92191085|NCT02567227|184281003|SUPERIORITY||Mean Difference (Net)|-1.95|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED||||||||Estimates with standard errors are from linear mixed effect models.|Unadjusted linear mixed effects models were used to compare changes in stride length during normal walking pre and post intervention.||||
92312754|NCT04856917|184527629|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.2||0.6921|TWO_SIDED|90.0|-1.61|2.57||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||2.57|-1.61|0.6921
92312755|NCT04856917|184527629|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|1.23||0.0406|TWO_SIDED|90.0|0.59|4.88||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||4.88|0.59|0.0406
92312756|NCT04856917|184527629|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.04||0.6872|TWO_SIDED|90.0|-2.24|1.38||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||1.38|-2.24|0.6872
92312757|NCT04856917|184527629|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.08||0.3392|TWO_SIDED|90.0|-0.81|2.92||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||2.92|-0.81|0.3392
92312758|NCT00486525|184527681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.075|STANDARD_ERROR_OF_MEAN|0.058||0.2|TWO_SIDED|95.0|-0.19|0.039|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||0.039|-0.19|0.20
92312759|NCT00486525|184527681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.027|TWO_SIDED|95.0|-0.25|-0.015|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||-0.015|-0.25|0.027
92312760|NCT00486525|184527681|SUPERIORITY_OR_OTHER||Slope|-0.021|STANDARD_ERROR_OF_MEAN|0.02||0.28|TWO_SIDED|95.0|-0.06|0.018|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of ln (TNF-a) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.018|-0.060|0.28
92312761|NCT00486525|184527681|SUPERIORITY_OR_OTHER||Slope|-0.038|STANDARD_ERROR_OF_MEAN|0.02||0.063|TWO_SIDED|95.0|-0.079|0.0021|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of ln (TNF-a) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.0021|-0.079|0.063
92312762|NCT00486525|184527682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.079|STANDARD_ERROR_OF_MEAN|0.062||0.2|TWO_SIDED|95.0|-0.2|-0.042|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||-0.042|-0.2|0.2
92312763|NCT00486525|184527682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.064||0.015|TWO_SIDED|95.0|-0.28|-0.031|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||-0.031|-0.28|0.015
92312764|NCT00486525|184527682|SUPERIORITY_OR_OTHER||Slope|-0.022|STANDARD_ERROR_OF_MEAN|0.021||0.3|TWO_SIDED|95.0|-0.063|0.019|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of ln (IL-6) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.019|-0.063|0.3
92312765|NCT00486525|184527682|SUPERIORITY_OR_OTHER||Slope|-0.056|STANDARD_ERROR_OF_MEAN|0.022||0.01|TWO_SIDED|95.0|-0.098|-0.013|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of ln (IL-6) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||-0.013|-0.098|0.01
92312766|NCT00486525|184527683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.33|TWO_SIDED|95.0|-0.31|0.11|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||0.11|-0.31|0.33
92312767|NCT00486525|184527683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.11||0.037|TWO_SIDED|95.0|-0.44|-0.014|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||-0.014|-0.44|0.037
92191086|NCT02567227|184281004|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-0.91|0.43|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in stride length variability during normal walking pre and post intervention.||0.43|-0.91|
92312768|NCT00486525|184527683|SUPERIORITY_OR_OTHER||Slope|-0.034|STANDARD_ERROR_OF_MEAN|0.0235||0.33|TWO_SIDED|95.0|-0.1|0.035|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of ln (IL-1b) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.035|-0.10|0.33
92312769|NCT00486525|184527683|SUPERIORITY_OR_OTHER||Slope|-0.078|STANDARD_ERROR_OF_MEAN|0.036||0.03|TWO_SIDED|95.0|-0.15|-0.0074|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of ln (IL-1b) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||-0.0074|-0.15|0.03
92312770|NCT00486525|184527684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|2.2||0.058|TWO_SIDED|95.0|-8.5|0.15|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||0.15|-8.5|0.058
92312771|NCT00486525|184527684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|2.2||0.002|TWO_SIDED|95.0|-11.4|-2.7|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||-2.7|-11.4|0.002
92312772|NCT00486525|184527684|SUPERIORITY_OR_OTHER||Slope|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.019|TWO_SIDED|95.0|-3.1|-0.28|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of MFSI-SF Fatigue for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||-0.28|-3.1|0.019
92312773|NCT00486525|184527684|SUPERIORITY_OR_OTHER||Slope|-2.8|STANDARD_ERROR_OF_MEAN|0.71||0.0001|TWO_SIDED|95.0|-4.2|-1.4|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of MFSI-SF fatigue for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||-1.4|-4.2|0.0001
92312774|NCT00486525|184527685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4|STANDARD_ERROR_OF_MEAN|2.5||0.01|TWO_SIDED|95.0|1.4|11.4|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||11.4|1.4|0.01
92312775|NCT00486525|184527685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|2.5||0.01|TWO_SIDED|95.0|1.5|11.6|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||11.6|1.5|0.01
92312776|NCT00486525|184527685|SUPERIORITY_OR_OTHER||Slope|2.1|STANDARD_ERROR_OF_MEAN|0.85||0.016|TWO_SIDED|95.0|0.4|3.75|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of vitality (SF-36) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||3.75|0.40|0.016
92312777|NCT00486525|184527685|SUPERIORITY_OR_OTHER||Slope|2.5|STANDARD_ERROR_OF_MEAN|0.85||0.0045|TWO_SIDED|95.0|0.77|4.14|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of vitality (SF-36) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||4.14|0.77|0.0045
92312778|NCT00486525|184527686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.98||0.28|TWO_SIDED|95.0|-3.0|0.88|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||0.88|-3.0|0.28
92312779|NCT00486525|184527686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.99||0.21|TWO_SIDED|95.0|-3.2|0.69|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||0.69|-3.2|0.21
92312780|NCT00486525|184527686|SUPERIORITY_OR_OTHER||Slope|-0.66|STANDARD_ERROR_OF_MEAN|0.34||0.051|TWO_SIDED|95.0|-1.3|0.0039|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of CES-D for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.0039|-1.3|0.051
92312781|NCT00486525|184527686|SUPERIORITY_OR_OTHER||Slope|-0.56|STANDARD_ERROR_OF_MEAN|0.34||0.098|TWO_SIDED|95.0|-1.2|0.1|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of CESD for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.10|-1.2|0.098
92312782|NCT02548156|184527694|SUPERIORITY_OR_OTHER||Ratio of LS mean|1.52|||<|0.0001|TWO_SIDED|95.0||||From ANCOVA of log transformed data: subject (random), treatment (fixed) and period (fixed) as factors, participant-level baseline and period-level baseline minus participant-level baseline as covariates.|ANCOVA||Treatment difference from ANCOVA of log transformed data. This therefore represents the ratio of the first named treatment to the second named treatment. A ratio \>1 favors the first named treatment.|Test and Reference dentifrice combined vs. Comparator dentifrice||||<0.0001
92312783|NCT01473407|184527730|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence margin of +/- 0.5 was considered relevant to demonstrate the equivalence of the two products.|LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.066|||TWO_SIDED|95.0|-0.25|0.01||||||Least Square (LS) mean and 95 percent confidence interval (CI) were derived from an ANCOVA model with fixed effect of treatment.||0.01|-0.25|
92312784|NCT01473407|184527731|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence margin of +/- 0.5 was considered relevant to demonstrate the equivalence of the two products.|LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|5.483|||TWO_SIDED|95.0|-10.4|11.13||||||LS mean and 95 percent CI were derived from an ANCOVA model with fixed effect of treatment.||11.13|-10.40|
92312785|NCT01473407|184527732|SUPERIORITY_OR_OTHER|||||||0.7563||||||P-value was calculated from a Wilcoxon Rank Sum test and t-approximation was used.|Wilcoxon Rank Sum test|||||||0.7563
92312786|NCT01473407|184527733|SUPERIORITY_OR_OTHER|||||||0.1061||||||P-value was calculated from a Wilcoxon Rank Sum test and t-approximation was used.|Wilcoxon Rank Sum test|||||||0.1061
92312787|NCT01473407|184527734|SUPERIORITY_OR_OTHER|||||||0.3369||||||P-value was calculated from a Wilcoxon Rank Sum test and t-approximation was used.|Wilcoxon Rank Sum test|||||||0.3369
92191087|NCT02567227|184281004|SUPERIORITY||Mean Difference (Net)|-0.44|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-1.16|0.27|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in stride length variability during walking while talking pre and post intervention.||0.27|-1.16|
92191088|NCT02567227|184281005|SUPERIORITY||Mean Difference (Net)|-0.16|||||TWO_SIDED|95.0|-0.51|0.19|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the pace domain during normal pace walking pre and post intervention.||0.19|-0.51|
92312788|NCT02422797|184527754|NON_INFERIORITY|Non-inferiority was concluded if the lower bound of a two-sided 95% confidence interval for the difference in response rates between the two treatment arms was greater than -10%.|Risk Difference (RD)|0.2|||||TWO_SIDED|95.0|-3.9|4.2|||||Estimates based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factors: Age group (\< or \>=50 years old) and Baseline third agent (PI, NNRTI, INSTI).|||4.2|-3.9|
92312789|NCT02422797|184527756|OTHER||Risk Difference (RD)|-1.1|||||TWO_SIDED|95.0|-4.0|1.8|||||Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factors: Age group (\< or \>=50 years old) and Baseline third agent (PI, NNRTI, INSTI). No formal non-inferiority margin has been pre-specified for secondary endpoints.|||1.8|-4.0|
92312790|NCT02422797|184527767|OTHER|||||||0.007||||||P-value for interaction between treatment group and Baseline third agent (25 hydroxy-vitamin D)|ANCOVA|||||||0.007
92312791|NCT02422797|184527767|SUPERIORITY||Odds Ratio (OR)|0.861||||0.011|TWO_SIDED|95.0|0.767|0.967||P value assessed the difference between treatment groups (25 hydroxy-vitamin D - INSTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.967|0.767|0.011
92312792|NCT02422797|184527767|SUPERIORITY||Odds Ratio (OR)|1.012||||0.745|TWO_SIDED|95.0|0.943|1.085||P value assessed the difference between treatment groups (25 hydroxy-vitamin D - NNRTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||1.085|0.943|0.745
92312793|NCT02422797|184527767|SUPERIORITY||Odds Ratio (OR)|0.877||||0.018|TWO_SIDED|95.0|0.787|0.977||P value assessed the difference between treatment groups (25 hydroxy-vitamin D - PI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.977|0.787|0.018
92312794|NCT02422797|184527769|OTHER|||||||0.001||||||P-value for interaction between treatment group and Baseline third agent (bone-specific alkaline phosphatase)|ANCOVA|||||||0.001
92312795|NCT02422797|184527769|SUPERIORITY||Odds Ratio (OR)|0.728|||<|0.001|TWO_SIDED|95.0|0.686|0.773||P value assessed the difference between treatment groups (bone-specific alkaline phosphatase - NNRTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.773|0.686|<.001
92312796|NCT02422797|184527769|SUPERIORITY||Odds Ratio (OR)|0.865||||0.004|TWO_SIDED|95.0|0.785|0.954||P value assessed the difference between treatment groups (bone-specific alkaline phosphatase - INSTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.954|0.785|0.004
92312797|NCT02422797|184527769|SUPERIORITY||Odds Ratio (OR)|0.788|||<|0.001|TWO_SIDED|95.0|0.719|0.864||P value assessed the difference between treatment groups (bone-specific alkaline phosphatase - PI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.864|0.719|<.001
92312798|NCT02422797|184527769|OTHER|||||||0.677||||||P-value for interaction between treatment group and Baseline third agent (procollagen type 1-N-propeptide)|ANCOVA|||||||0.677
92312799|NCT02422797|184527769|SUPERIORITY||Odds Ratio (OR)|0.867|||<|0.001|TWO_SIDED|95.0|0.823|0.914||P value assessed the difference between treatment groups (procollagen type 1-N-propeptide)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.914|0.823|<.001
92312800|NCT02422797|184527769|OTHER||||||<|0.001||||||P-value for interaction between treatment group and Baseline third agent (osteocalcin)|ANCOVA|||||||<.001
92312801|NCT02422797|184527769|SUPERIORITY||Odds Ratio (OR)|0.853|||<|0.001|TWO_SIDED|95.0|0.799|0.91||P value assessed the difference between treatment groups (osteocalcin - NNRTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.910|0.799|<.001
92312802|NCT02422797|184527769|SUPERIORITY||Odds Ratio (OR)|0.886||||0.028|TWO_SIDED|95.0|0.796|0.987||P value assessed the difference between treatment groups (osteocalcin - INSTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.987|0.796|0.028
92312803|NCT02422797|184527769|SUPERIORITY||Odds Ratio (OR)|0.743|||<|0.001|TWO_SIDED|95.0|0.672|0.822||P value assessed the difference between treatment groups (osteocalcin - PI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.822|0.672|<.001
92312804|NCT02422797|184527769|OTHER|||||||0.782||||||P-value for interaction between treatment group and Baseline third agent (type 1 collagen cross-linked C-telopeptide)|ANCOVA|||||||0.782
92312805|NCT02422797|184527769|SUPERIORITY||Odds Ratio (OR)|0.818|||<|0.001|TWO_SIDED|95.0|0.751|0.891||P value assessed the difference between treatment groups (type 1 collagen cross-linked C-telopeptide)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.891|0.751|<.001
92312806|NCT02422797|184527782|OTHER|||||||0.179||||||One-sided p-value from weighted least squares chi-squared statistic. A p-value \<=0.10 was used to indicate statistically significant evidence of heterogeneity in the difference in proportions across levels of each analysis strata.|Chi-squared, Corrected|||||||0.179
92312807|NCT02422797|184527782|OTHER||Risk Difference (RD)|3.5|||||TWO_SIDED|95.0|-1.6|8.6|||||NNRTI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||8.6|-1.6|
92312808|NCT02422797|184527782|OTHER||Risk Difference (RD)|-2.4|||||TWO_SIDED|95.0|-12.1|7.4|||||INSTI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||7.4|-12.1|
92312809|NCT02422797|184527782|OTHER||Risk Difference (RD)|-5.4|||||TWO_SIDED|95.0|-13.9|3.1|||||PI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||3.1|-13.9|
92312810|NCT02422797|184527790|OTHER|||||||0.43||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 4)|ANCOVA|||||||0.430
92312811|NCT02422797|184527790|OTHER||Mean Difference (Final Values)|-1.239||||0.039|TWO_SIDED|95.0|-2.414|-0.064||P value assessed the difference between treatment groups (Symptom Bother Score - Week 4)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||-0.064|-2.414|0.039
92312812|NCT02422797|184527790|OTHER|||||||0.542||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 24)|ANCOVA|||||||0.542
92312813|NCT02422797|184527790|SUPERIORITY||Mean Difference (Final Values)|-0.528||||0.448|TWO_SIDED|95.0|-1.896|0.84||P value assessed the difference between treatment groups (Symptom Bother Score - Week 24)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||0.840|-1.896|0.448
92312814|NCT02422797|184527790|OTHER|||||||0.402||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 48)|ANCOVA|||||||0.402
92312815|NCT02422797|184527790|SUPERIORITY||Mean Difference (Final Values)|-1.037||||0.164|TWO_SIDED|95.0|-2.501|0.426||P value assessed the difference between treatment groups (Symptom Bother Score - Week 48)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||0.426|-2.501|0.164
92312816|NCT02422797|184527793|SUPERIORITY|||||||0.037||||||P-value assessed the HIVTSQs Total Score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||0.037
92312817|NCT02422797|184527793|SUPERIORITY|||||||0.101||||||P-value assessed the HIVTSQs Total Score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||0.101
92312818|NCT02422797|184527793|SUPERIORITY|||||||0.042||||||P-value assessed the HIVTSQs Total score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.042
92312819|NCT02422797|184527793|SUPERIORITY|||||||0.132||||||P-value assessed the HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||0.132
92312820|NCT02422797|184527793|SUPERIORITY|||||||0.022||||||P-value assessed the HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||0.022
92312821|NCT02422797|184527793|SUPERIORITY|||||||0.004||||||P-value assessed the HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.004
92312822|NCT02422797|184527793|SUPERIORITY|||||||0.076||||||P-value assessed the HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||0.076
92312823|NCT02422797|184527793|SUPERIORITY|||||||0.073||||||P-value assessed the HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||0.073
92312824|NCT02422797|184527793|SUPERIORITY|||||||0.547||||||P-value assessed the HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.547
92312825|NCT05044195|184527839|NON_INFERIORITY|Non-inferiority criteria for the GMT ratio: upper limit (UL) of the 95% confidence interval (CI) for the inter-group GMT ratio is ≤1.5 for each vaccine strain|GMT ratio|0.802|||||TWO_SIDED|95.0|0.738|0.871||||||A/H1N1||0.871|0.738|
92312826|NCT05044195|184527839|NON_INFERIORITY|Non-inferiority criteria for the GMT ratio: UL of the 95% CI for the inter-group GMT ratio is ≤1.5 for each vaccine strain|GMT ratio|0.9|||||TWO_SIDED|95.0|0.819|0.989||||||A/H3N2||0.989|0.819|
92312827|NCT05044195|184527839|NON_INFERIORITY|Non-inferiority criteria for the GMT ratio: UL of the 95% CI for the inter-group GMT ratio is ≤1.5 for each vaccine strain|GMT ratio|0.944|||||TWO_SIDED|95.0|0.88|1.012||||||B/Yamagata||1.012|0.880|
92312828|NCT05044195|184527839|NON_INFERIORITY|Non-inferiority criteria for the GMT ratio: UL of the 95% CI for the inter-group GMT ratio is ≤1.5 for each vaccine strain|GMT ratio|0.992|||||TWO_SIDED|95.0|0.923|1.067||||||B/Victoria||1.067|0.923|
92312829|NCT05044195|184527840|NON_INFERIORITY|Non-inferiority criteria for the SCR difference: UL of the 95% CI for the difference in SCR is ≤10% for each vaccine strain|SCR difference|-4.4|||||TWO_SIDED|95.0|-7.97|-0.74||||||A/H1N1||-0.74|-7.97|
92312830|NCT05044195|184527840|NON_INFERIORITY|Non-inferiority criteria for the SCR difference: UL of the 95% CI for the difference in SCR is ≤10% for each vaccine strain|SCR difference|-1.8|||||TWO_SIDED|95.0|-6.14|2.48||||||A/H3N2||2.48|-6.14|
92312831|NCT05044195|184527840|NON_INFERIORITY|Non-inferiority criteria for the SCR difference: UL of the 95% CI for the difference in SCR is ≤10% for each vaccine strain|SCR difference|-2.4|||||TWO_SIDED|95.0|-6.77|2.0||||||B/Yamagata||2.00|-6.77|
92312832|NCT05044195|184527840|NON_INFERIORITY|Non-inferiority criteria for the SCR difference: UL of the 95% CI for the difference in SCR is ≤10% for each vaccine strain|SCR difference|-3.9|||||TWO_SIDED|95.0|-8.31|0.45||||||B/Victoria||0.45|-8.31|
92312833|NCT05044195|184527841|SUPERIORITY||GMT ratio|0.808|||||TWO_SIDED|95.0|0.745|0.876||||||A/H1N1||0.876|0.745|
92312834|NCT05044195|184527841|SUPERIORITY||GMT ratio|0.91|||||TWO_SIDED|95.0|0.829|0.998||||||A/H3N2||0.998|0.829|
92312835|NCT05044195|184527841|SUPERIORITY||GMT ratio|0.947|||||TWO_SIDED|95.0|0.884|1.014||||||B/Yamagata||1.014|0.884|
92312836|NCT05044195|184527841|SUPERIORITY||GMT ratio|1.0|||||TWO_SIDED|95.0|0.931|1.075||||||B/Victoria||1.075|0.931|
92312837|NCT05044195|184527842|OTHER||GMT ratio|0.87|||||TWO_SIDED|95.0|0.803|0.944||||||A/H1N1||0.944|0.803|
92191089|NCT02567227|184281005|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.2|0.41|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the rhythm domain during normal pace walking pre and post intervention.||0.41|-0.20|
92312838|NCT05044195|184527842|OTHER||GMT ratio|0.953|||||TWO_SIDED|95.0|0.88|1.032||||||A/H3N2||1.032|0.880|
92312839|NCT05044195|184527842|OTHER||GMT ratio|1.013|||||TWO_SIDED|95.0|0.953|1.077||||||B/Yamagata||1.077|0.953|
92312840|NCT05044195|184527842|OTHER||GMT ratio|1.028|||||TWO_SIDED|95.0|0.963|1.098||||||B/Victoria||1.098|0.963|
92312841|NCT05044195|184527850|OTHER||GMT ratio|0.838|||||TWO_SIDED|95.0|0.751|0.936||||||A/H1N1 (50 to 59 years)||0.936|0.751|
92312842|NCT05044195|184527850|OTHER||GMT ratio|0.924|||||TWO_SIDED|95.0|0.821|1.04||||||A/H3N2 (50 to 59 years)||1.040|0.821|
92312843|NCT05044195|184527850|OTHER||GMT ratio|0.926|||||TWO_SIDED|95.0|0.845|1.015||||||B/Yamagata (50 to 59 years)||1.015|0.845|
92312844|NCT05044195|184527850|OTHER||GMT ratio|0.989|||||TWO_SIDED|95.0|0.901|1.087||||||B/Victoria (50 to 59 years)||1.087|0.901|
92312845|NCT05044195|184527850|OTHER||GMT ratio|0.767|||||TWO_SIDED|95.0|0.681|0.864||||||A/H1N1 (60 to 64 years)||0.864|0.681|
92312846|NCT05044195|184527850|OTHER||GMT ratio|0.89|||||TWO_SIDED|95.0|0.766|1.033||||||A/H3N2 (60 to 64 years)||1.033|0.766|
92312847|NCT05044195|184527850|OTHER||GMT ratio|0.974|||||TWO_SIDED|95.0|0.879|1.079||||||B/Yamagata (60 to 64 years)||1.079|0.879|
92312848|NCT05044195|184527850|OTHER||GMT ratio|1.013|||||TWO_SIDED|95.0|0.905|1.133||||||B/Victoria (60 to 64 years)||1.133|0.905|
92312849|NCT05044195|184527851|OTHER||GMT ratio|0.844|||||TWO_SIDED|95.0|0.761|0.935||||||A/H1N1 (yes)||0.935|0.761|
92312850|NCT05044195|184527851|OTHER||GMT ratio|1.01|||||TWO_SIDED|95.0|0.904|1.128||||||A/H3N2 (yes)||1.128|0.904|
92312851|NCT05044195|184527851|OTHER||GMT ratio|0.948|||||TWO_SIDED|95.0|0.883|1.016||||||B/Yamagata (yes)||1.016|0.883|
92312852|NCT05044195|184527851|OTHER||GMT ratio|0.997|||||TWO_SIDED|95.0|0.926|1.073||||||B/Victoria (yes)||1.073|0.926|
92312853|NCT05044195|184527851|OTHER||GMT ratio|0.772|||||TWO_SIDED|95.0|0.677|0.88||||||A/H1N1 (no)||0.880|0.677|
92312854|NCT05044195|184527851|OTHER||GMT ratio|0.801|||||TWO_SIDED|95.0|0.683|0.941||||||A/H3N2 (no)||0.941|0.683|
92312855|NCT05044195|184527851|OTHER||GMT ratio|0.945|||||TWO_SIDED|95.0|0.831|1.076||||||B/Yamagata (no)||1.076|0.831|
92312856|NCT05044195|184527851|OTHER||GMT ratio|1.007|||||TWO_SIDED|95.0|0.881|1.151||||||B/Victoria (no)||1.151|0.881|
92312857|NCT05044195|184527852|OTHER||GMT ratio|0.82|||||TWO_SIDED|95.0|0.752|0.894||||||A/H1N1 (Comorbidity Risk Score \<50)||0.894|0.752|
92312858|NCT05044195|184527852|OTHER||GMT ratio|0.933|||||TWO_SIDED|95.0|0.846|1.029||||||A/H3N2 (Comorbidity Risk Score \<50)||1.029|0.846|
92312859|NCT05044195|184527852|OTHER||GMTratio|0.972|||||TWO_SIDED|95.0|0.904|1.046||||||B/Yamagata (Comorbidity Risk Score \<50)||1.046|0.904|
92312860|NCT05044195|184527852|OTHER||GMT ratio|1.013|||||TWO_SIDED|95.0|0.938|1.094||||||B/Victoria (Comorbidity Risk Score \<50)||1.094|0.938|
92312861|NCT05044195|184527852|OTHER||GMT ratio|0.706|||||TWO_SIDED|95.0|0.553|0.902||||||A/H1N1 (Comorbidity Risk Score ≥50)||0.902|0.553|
92312862|NCT05044195|184527852|OTHER||GMT ratio|0.734|||||TWO_SIDED|95.0|0.549|0.982||||||A/H3N2 (Comorbidity Risk Score ≥50)||0.982|0.549|
92312863|NCT05044195|184527852|OTHER||GMT ratio|0.773|||||TWO_SIDED|95.0|0.638|0.935||||||B/Yamagata (Comorbidity Risk Score ≥50)||0.935|0.638|
92312864|NCT05044195|184527852|OTHER||GMT ratio|0.905|||||TWO_SIDED|95.0|0.739|1.107||||||B/Victoria (Comorbidity Risk Score ≥50)||1.107|0.739|
92312865|NCT02276807|184527944|SUPERIORITY||Mean Difference (Final Values)|0.345|||<|0.05|TWO_SIDED||||||ANOVA|2 (Condition: TAU, BA-PC) X 2 (Time: Baseline vs. Week 12) repeated measures ANOVA||||||<0.05
92312866|NCT02276807|184527945|SUPERIORITY||Mean Difference (Final Values)|0.046|||<|0.05|TWO_SIDED||||||ANOVA|2 (Condition: TAU vs. BA-PC) X 2 (time: Baseline vs. week 12) repeated measures ANOVA||||||<0.05
92312867|NCT02276807|184527946|SUPERIORITY||Mean Difference (Final Values)|0.666|||<|0.05|TWO_SIDED||||||ANOVA|2 (Condition: TAU, BA-PC) X 2 (Time: Baseline, Week 12) Repeated Measures ANOVA||||||<0.05
92312868|NCT02276807|184527947|SUPERIORITY||Mean Difference (Final Values)|0.014|||<|0.05|TWO_SIDED||||||ANOVA|2 (Condition: TAU vs. BA-PC) X 2 (Time: Baseline, Week 12) Repeated Measures ANOVA||||||<0.05
92312869|NCT02276807|184527948|SUPERIORITY||Mean Difference (Final Values)|0.722|||<|0.05|TWO_SIDED||||||ANOVA|2 (Condition: TAU vs. BA-PC) X 2 (Time: Baseline vs. Week 12) Repeated Measures ANOVA||||||<0.05
92312870|NCT03288714|184527962|SUPERIORITY|||||||0.814|||||||Fisher Exact|The proportion of patients is compared across treatment groups using Fisher's Exact.||Null hypothesis is that the active sTMS treatment group does not differ from the sham group with respect to the proportion of patients with clinical response at Week 6.||||.814
92312871|NCT03288714|184527963|SUPERIORITY|||||||0.872|||||||ANCOVA|P-value is from analysis of covariance adjusting for baseline.||Null hypothesis is that the active sTMS treatment group does not differ from the sham group with respect to the proportion of patients with clinical response at Week 6.||||.872
92312872|NCT03288714|184527964|SUPERIORITY|||||||0.641|||||||ANCOVA|P-value is from analysis of covariance adjusting for baseline.||The null hypothesis is that the active sTMS treatment group does not differ||||.641
92312873|NCT03288714|184527965|SUPERIORITY|||||||0.032||||||Alpha level: .05|ANCOVA|P-value is from analysis of covariance adjusting for baseline||||||.032
92312874|NCT03288714|184527966|SUPERIORITY|||||||0.015||||||Alpha level: .05|ANCOVA|P-value is from analysis of covariance adjusting for baseline||||||.015
92312875|NCT03288714|184527967|SUPERIORITY|||||||0.028||||||Alpha level: .05|Fisher Exact|The proportion of patients is compared across treatment groups using Fisher's Exact.||||||.028
92312876|NCT04020887|184527988|SUPERIORITY||Median Difference (Final Values)|6.0|||||TWO_SIDED|95.0|-6.01|18.01||||||Difference in time to PACU discharge determination from observation to interaction phase \[ Time Frame: 6 months\]: The difference in discharge readiness time between the observation and interaction phases will be compared.||18.01|-6.01|
92312877|NCT04020887|184527989|SUPERIORITY||Difference Between Proportions|29.8|||||TWO_SIDED|95.0|23.82|35.66||||||||35.66|23.82|
92312878|NCT04020887|184527990|SUPERIORITY||Difference Between Proportions|-2.67|||||TWO_SIDED|95.0|-8.18|3.02||||||||3.02|-8.18|
92312879|NCT04020887|184527991|SUPERIORITY||Difference Between Proportions|13.03|||||TWO_SIDED|95.0|5.16|20.79||||||||20.79|5.16|
92191090|NCT02567227|184281005|SUPERIORITY||Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.53|0.32|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the variation domain during normal pace walking pre and post intervention.||0.32|-0.53|
92312880|NCT04020887|184527992|SUPERIORITY||Difference Between Proportions|0.51|||||TWO_SIDED|95.0|-1.63|3.07||||||||3.07|-1.63|
92191091|NCT02567227|184281005|SUPERIORITY||Mean Difference (Net)|0.14|||||TWO_SIDED|95.0|-0.27|0.56|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the pace domain during walking while talking pre and post intervention.||0.56|-0.27|
92312881|NCT04020887|184527993|SUPERIORITY||Difference Between Proportions|7.9|||||TWO_SIDED|95.0|3.13|12.71||||||||12.71|3.13|
92312882|NCT00535405|184528008|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.7|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-17.5|-12.0||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANCOVA|ANCOVA mixed model with fixed effects for treatment, baseline LDL-C, study week, treatment by study week interaction, and a random subject effect.||||-12.0|-17.5|<0.001
92312883|NCT00535405|184528008|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.5|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-10.3|-4.8||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANCOVA|ANCOVA mixed model with fixed effects for treatment, baseline LDL-C, study week, treatment by study week interaction, and a random subject effect.||||-4.8|-10.3|<0.001
92312884|NCT00535405|184528008|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.2|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-11.0|-5.5||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANCOVA|ANCOVA mixed model with fixed effects for treatment, baseline LDL-C, study week, treatment by study week interaction, and a random subject effect.||||-5.5|-11.0|<0.001
92312885|NCT00535405|184528009|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|12.62|STANDARD_ERROR_OF_MEAN|3.23|<|0.001||95.0|7.64|20.83||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|"Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.~Generalized Estimating Equations (GEE)"|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||20.83|7.64|<0.001
92312886|NCT00535405|184528009|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|3.83|STANDARD_ERROR_OF_MEAN|0.83|<|0.001||95.0|2.51|5.85||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||5.85|2.51|<0.001
92312887|NCT00535405|184528009|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|3.66|STANDARD_ERROR_OF_MEAN|0.79|<|0.001||95.0|2.39|5.6|||Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||5.60|2.39|<0.001
92312888|NCT00535405|184528010|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|3.05|STANDARD_ERROR_OF_MEAN|0.62|<|0.001||95.0|2.04|4.55||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||4.55|2.04|<0.001
92312889|NCT00535405|184528010|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|1.54|STANDARD_ERROR_OF_MEAN|0.32||0.039||95.0|1.02|2.32||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||2.32|1.02|0.039
92312890|NCT00535405|184528010|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|1.81|STANDARD_ERROR_OF_MEAN|0.43||0.023||95.0|1.14|2.87||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||2.87|1.14|0.023
92312891|NCT00535405|184528011|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|4.47|STANDARD_ERROR_OF_MEAN|1.1|<|0.001||95.0|2.76|7.24||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||7.24|2.76|<0.001
92312892|NCT00535405|184528011|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|1.77|STANDARD_ERROR_OF_MEAN|0.46||0.026||95.0|1.07|2.94||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||2.94|1.07|0.026
92191092|NCT02567227|184281005|SUPERIORITY||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.48|0.45|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the rhythm domain during walking while talking pre and post intervention.||0.45|-0.48|
92312893|NCT00535405|184528011|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|2.27|STANDARD_ERROR_OF_MEAN|0.71||0.017||95.0|1.23|4.18||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||4.18|1.23|0.017
92312894|NCT00535405|184528012|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|7.6|STANDARD_ERROR_OF_MEAN|2.2|<|0.001||95.0|4.31|13.42||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||13.42|4.31|<0.001
92312895|NCT00535405|184528012|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|2.95|STANDARD_ERROR_OF_MEAN|0.69|<|0.001||95.0|1.86|4.67||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||4.67|1.86|<0.001
92312896|NCT00535405|184528012|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|2.15|STANDARD_ERROR_OF_MEAN|0.46|<|0.001||95.0|1.42|3.27||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||3.27|1.42|<0.001
92312897|NCT00535405|184528013|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|6.02|STANDARD_ERROR_OF_MEAN|2.45|<|0.001||95.0|2.71|13.38||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||13.38|2.71|<0.001
92312898|NCT00535405|184528013|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|1.67|STANDARD_ERROR_OF_MEAN|0.47||0.069||95.0|0.96|2.6||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||2.60|0.96|0.069
92191093|NCT02567227|184281005|SUPERIORITY||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.4|0.35|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the variation domain during walking while talking pre and post intervention.||0.35|-0.40|
92191094|NCT02567227|184281006|SUPERIORITY||Odds Ratio (OR)|0.925|||||TWO_SIDED|95.0|0.369|2.319||||||Logistic model for treatment effect on substantial improvement in normal velocity adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal).||2.319|0.369|
92312899|NCT00535405|184528013|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|1.78|STANDARD_ERROR_OF_MEAN|0.44||0.039|TWO_SIDED|95.0|1.1|2.9||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||2.90|1.10|0.039
92312900|NCT03295630|184528049|OTHER||Mean Difference (Final Values)|-17.7|||||TWO_SIDED|||||||||Difference (steps) between accelerometer quantified step count (thigh placement) and observed step count||||
92312901|NCT03295630|184528049|OTHER||Intraclass Correlation Coefficient|0.46|||||TWO_SIDED|95.0|-0.1|0.78||||||Correlation between accelerometer quantified step count (thigh placement) and observed step count||0.78|-0.1|
92312902|NCT03295630|184528049|OTHER||Mean Difference (Final Values)|-0.84|||||TWO_SIDED|||||||||Difference (steps) between accelerometer quantified steps (ankle placement) and observed step count||||
92312903|NCT03295630|184528049|OTHER||Intraclass Correlation Coefficient|0.99|||||TWO_SIDED|95.0|0.99|1.0||||||Correlation between accelerometer quantified steps (ankle placement) and observed steps||1.0|0.99|
92312904|NCT02006732|184528067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.299|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.261|0.336|||Mixed Effects Model for Repeated Measure|||||0.336|0.261|<0.0001
92312905|NCT02006732|184528067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.069|0.141|||Mixed Effects Model for Repeated Measure|||||0.141|0.069|<0.0001
92312906|NCT02006732|184528067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.284|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.246|0.323|||Mixed Effects Model for Repeated Measure|||||0.323|0.246|<0.0001
92312907|NCT02006732|184528067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.053|0.128|||Mixed Effects Model for Repeated Measure|||||0.128|0.053|<0.0001
92312908|NCT02006732|184528067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.194|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.156|0.232|||Mixed Effects Model for Repeated Measure|||||0.232|0.156|<0.0001
92312909|NCT02006732|184528067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.019||0.4499|TWO_SIDED|95.0|-0.023|0.051|||Mixed Effects Model for Repeated Measure|||||0.051|-0.023|0.4499
92312910|NCT02006732|184528068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.129|0.203|||Mixed Effects Model for Repeated Measure|||||0.203|0.129|<0.0001
92312911|NCT02006732|184528068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|STANDARD_ERROR_OF_MEAN|0.019||0.0395|TWO_SIDED|95.0|0.002|0.076|||Mixed Effects Model for Repeated Measure|||||0.076|0.002|0.0395
92312912|NCT02006732|184528068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.132|0.207|||Mixed Effects Model for Repeated Measure|||||0.207|0.132|<0.0001
92312913|NCT02006732|184528068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.019||0.0269|TWO_SIDED|95.0|0.005|0.079|||Mixed Effects Model for Repeated Measure|||||0.079|0.005|0.0269
92312914|NCT02006732|184528068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.09|0.165|||Mixed Effects Model for Repeated Measure|||||0.165|0.090|<0.0001
92312915|NCT02006732|184528068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.019||0.8669|TWO_SIDED|95.0|-0.04|0.034|||Mixed Effects Model for Repeated Measure|||||0.034|-0.040|0.8669
92312916|NCT02006732|184528069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.564|STANDARD_ERROR_OF_MEAN|0.986|<|0.0001|TWO_SIDED|95.0|-6.499|-2.629|||Mixed Effects Model for Repeated Measure|||||-2.629|-6.499|<0.0001
92312917|NCT02006732|184528069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.717|STANDARD_ERROR_OF_MEAN|0.974||0.078|TWO_SIDED|95.0|-3.628|0.193|||Mixed Effects Model for Repeated Measure|||||0.193|-3.628|0.0780
92312918|NCT02006732|184528069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.666|STANDARD_ERROR_OF_MEAN|0.991||0.0002|TWO_SIDED|95.0|-5.611|-1.721|||Mixed Effects Model for Repeated Measure|||||-1.721|-5.611|0.0002
92312919|NCT02006732|184528069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.979||0.4028|TWO_SIDED|95.0|-2.741|1.102|||Mixed Effects Model for Repeated Measure|||||1.102|-2.741|0.4028
92312920|NCT02006732|184528069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.846|STANDARD_ERROR_OF_MEAN|0.993||0.0042|TWO_SIDED|95.0|-4.796|-0.897|||Mixed Effects Model for Repeated Measure|||||-0.897|-4.796|0.0042
92312921|NCT02006732|184528069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.898|STANDARD_ERROR_OF_MEAN|0.971||0.3555|TWO_SIDED|95.0|-2.804|1.008|||Mixed Effects Model for Repeated Measure|||||1.008|-2.804|0.3555
92312922|NCT02006732|184528070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.668|STANDARD_ERROR_OF_MEAN|0.71|<|0.0001|TWO_SIDED|95.0|-6.06|-3.276|||Mixed Effects Model for Repeated Measure|||||-3.276|-6.060|<0.0001
92312923|NCT02006732|184528070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.097|STANDARD_ERROR_OF_MEAN|0.701||0.0028|TWO_SIDED|95.0|-3.471|-0.723|||Mixed Effects Model for Repeated Measure|||||-0.723|-3.471|0.0028
92312924|NCT02006732|184528070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.846|STANDARD_ERROR_OF_MEAN|0.711|<|0.0001|TWO_SIDED|95.0|-5.24|-2.451|||Mixed Effects Model for Repeated Measure|||||-2.451|-5.240|<0.0001
92312925|NCT02006732|184528070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.274|STANDARD_ERROR_OF_MEAN|0.702||0.0696|TWO_SIDED|95.0|-2.651|0.102|||Mixed Effects Model for Repeated Measure|||||0.102|-2.651|0.0696
92312926|NCT02006732|184528070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.571|STANDARD_ERROR_OF_MEAN|0.714||0.0003|TWO_SIDED|95.0|-3.971|-1.171|||Mixed Effects Model for Repeated Measure|||||-1.171|-3.971|0.0003
92312927|NCT02006732|184528070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.822|STANDARD_ERROR_OF_MEAN|0.698||0.2387|TWO_SIDED|95.0|-2.191|0.546|||Mixed Effects Model for Repeated Measure|||||0.546|-2.191|0.2387
92312928|NCT02006732|184528071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.252|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.187|0.317|||Mixed Effects Model for Repeated Measure|||||0.317|0.187|<0.0001
92312929|NCT02006732|184528071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.033||0.0614|TWO_SIDED|95.0|-0.003|0.125|||Mixed Effects Model for Repeated Measure|||||0.125|-0.003|0.0614
92312930|NCT02006732|184528071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.305|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.24|0.37|||Mixed Effects Model for Repeated Measure|||||0.370|0.240|<0.0001
92312931|NCT02006732|184528071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.033||0.0005|TWO_SIDED|95.0|0.049|0.178|||Mixed Effects Model for Repeated Measure|||||0.178|0.049|0.0005
92312932|NCT02006732|184528071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.126|0.256|||Mixed Effects Model for Repeated Measure|||||0.256|0.126|<0.0001
92312933|NCT02006732|184528071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.033||0.1089|TWO_SIDED|95.0|-0.117|0.012|||Mixed Effects Model for Repeated Measure|||||0.012|-0.117|0.1089
92312934|NCT02006732|184528072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.195|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|0.665|1.725|||Mixed Effects Model for Repeated Measure|||||1.725|0.665|<0.0001
92312935|NCT02006732|184528072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.582|STANDARD_ERROR_OF_MEAN|0.267||0.0296|TWO_SIDED|95.0|0.058|1.106|||Mixed Effects Model for Repeated Measure|||||1.106|0.058|0.0296
92312936|NCT02006732|184528072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.263|STANDARD_ERROR_OF_MEAN|0.272|<|0.0001|TWO_SIDED|95.0|0.73|1.796|||Mixed Effects Model for Repeated Measure|||||1.796|0.730|<0.0001
92312937|NCT02006732|184528072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.269||0.0159|TWO_SIDED|95.0|0.122|1.178|||Mixed Effects Model for Repeated Measure|||||1.178|0.122|0.0159
92312938|NCT02006732|184528072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.613|STANDARD_ERROR_OF_MEAN|0.273||0.0248|TWO_SIDED|95.0|0.078|1.148|||Mixed Effects Model for Repeated Measure|||||1.148|0.078|0.0248
92312939|NCT02006732|184528072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.068|STANDARD_ERROR_OF_MEAN|0.266||0.7984|TWO_SIDED|95.0|-0.59|0.454|||Mixed Effects Model for Repeated Measure|||||0.454|-0.590|0.7984
92312940|NCT02006732|184528073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.623|STANDARD_ERROR_OF_MEAN|0.193|<|0.0001|TWO_SIDED|95.0|1.245|2.0|||Mixed Effects Model for Repeated Measure|||||2.000|1.245|<0.0001
92312941|NCT02006732|184528073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.594|STANDARD_ERROR_OF_MEAN|0.19||0.0019|TWO_SIDED|95.0|0.22|0.967|||Mixed Effects Model for Repeated Measure|||||0.967|0.220|0.0019
92312942|NCT02006732|184528073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.611|STANDARD_ERROR_OF_MEAN|0.193|<|0.0001|TWO_SIDED|95.0|1.232|1.989|||Mixed Effects Model for Repeated Measure|||||1.989|1.232|<0.0001
92312943|NCT02006732|184528073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.582|STANDARD_ERROR_OF_MEAN|0.191||0.0023|TWO_SIDED|95.0|0.207|0.956|||Mixed Effects Model for Repeated Measure|||||0.956|0.207|0.0023
92312944|NCT02006732|184528073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.029|STANDARD_ERROR_OF_MEAN|0.194|<|0.0001|TWO_SIDED|95.0|0.649|1.41|||Mixed Effects Model for Repeated Measure|||||1.410|0.649|<0.0001
92312945|NCT02006732|184528073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.189||0.9494|TWO_SIDED|95.0|-0.359|0.383|||Mixed Effects Model for Repeated Measure|||||0.383|-0.359|0.9494
92312946|NCT02006732|184528074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.432|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.366|0.498|||Mixed Effects Model for Repeated Measure|||||0.498|0.366|<0.0001
92191095|NCT02567227|184281006|SUPERIORITY||Odds Ratio (OR)|0.961|||||TWO_SIDED|95.0|0.516|1.789||||||Logistic model for treatment effect on substantial improvement in walking while talking velocity adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal).||1.789|0.516|
92267910|NCT04035694|184437716|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|2.52||0.11|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.11
92267911|NCT04035694|184437717|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-6.93|STANDARD_ERROR_OF_MEAN|2.38||0.01|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.01
92267912|NCT04035694|184437718|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-2.24|STANDARD_ERROR_OF_MEAN|4.45||0.64|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.64
92267913|NCT04035694|184437719|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-6.46|STANDARD_ERROR_OF_MEAN|2.53||0.03|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.03
92267914|NCT04035694|184437720|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|1.23|STANDARD_ERROR_OF_MEAN|2.68||0.65|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.65
92267915|NCT04035694|184437721|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.65|STANDARD_ERROR_OF_MEAN|0.15|<|0.01|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||<.01
92267916|NCT04035694|184437722|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.22||0.2|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.20
92267917|NCT04035694|184437723|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|2.79|STANDARD_ERROR_OF_MEAN|2.22||0.28|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.28
92267918|NCT04035694|184437724|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|1.56|STANDARD_ERROR_OF_MEAN|2.77||0.58|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.58
92312947|NCT02006732|184528074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.084|0.212|||Mixed Effects Model for Repeated Measure|||||0.212|0.084|<0.0001
92312948|NCT02006732|184528074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.455|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.387|0.522|||Mixed Effects Model for Repeated Measure|||||0.522|0.387|<0.0001
92191096|NCT02567227|184281007|SUPERIORITY||Mean Difference (Net)|-7.52|STANDARD_ERROR_OF_MEAN|14.17|||TWO_SIDED|95.0|-35.45|20.41|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in Flanker performance (milliseconds) pre and post intervention.||20.41|-35.45|
92191097|NCT02567227|184281008|SUPERIORITY||Mean Difference (Net)|1.01|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-0.3|2.31|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes on the Digit Symbol Substitution Test pre and post intervention.||2.31|-0.30|
92191098|NCT02567227|184281009|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED||||||||Estimates with standard errors are from unadjusted linear mixed effect models.|Unadjusted linear mixed effects model was used to compare performance on Trail Making Test form A pre and post intervention.||||
92191099|NCT02567227|184281010|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.07|0.06|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in performance on Trail Making Test form B pre and post intervention.||0.06|-0.07|
92191100|NCT02567227|184281011|SUPERIORITY||Mean Difference (Net)|0.67|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|-0.86|2.2|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes performance on the Controlled Oral Word Association Test pre and post intervention.||2.20|-0.86|
92191101|NCT02567227|184281014|SUPERIORITY||Mean Difference (Net)|1.13|STANDARD_ERROR_OF_MEAN|1.42|||TWO_SIDED|95.0|-1.65|3.91|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in gait speed during normal walking pre and 6 months post intervention.||3.91|-1.65|
92191102|NCT02567227|184281014|SUPERIORITY||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|1.79|||TWO_SIDED|95.0|-2.12|4.91|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in gait speed during walking while talking pre and 6 months post intervention.||4.91|-2.12|
92312949|NCT02006732|184528074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.105|0.236|||Mixed Effects Model for Repeated Measure|||||0.236|0.105|<0.0001
92191103|NCT02567227|184281015|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED||||||||Estimates with standard errors are from unadjusted linear mixed effect models.|Unadjusted linear mixed effects model was used to compare changes in stair climbing time pre and post intervention.||||
92191104|NCT02567227|184281016|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED||||||||Estimates with standard errors are from unadjusted linear mixed effect models.|Unadjusted linear mixed effects model was used to compare changes in activities of daily living pre and post intervention.||||
92191105|NCT02567227|184281017|SUPERIORITY||Mean Difference (Net)|0.26|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-0.4|0.93|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in depressive symptoms measured using the GDS pre and post intervention.||0.93|-0.40|
92191106|NCT02567227|184281019|SUPERIORITY||Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-1.38|2.16|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in reported fear of falling measured on the Falls Efficacy Scale pre and post intervention.||2.16|-1.38|
92191107|NCT02567227|184281020|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.64|||TWO_SIDED|95.0|-1.46|1.04|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the physical health score of the SF-12 pre and post intervention.||1.04|-1.46|
92312950|NCT02006732|184528074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.284|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.217|0.35|||Mixed Effects Model for Repeated Measure|||||0.350|0.217|<0.0001
92312951|NCT02006732|184528074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.022|STANDARD_ERROR_OF_MEAN|0.033||0.4974|TWO_SIDED|95.0|-0.087|0.042|||Mixed Effects Model for Repeated Measure|||||0.042|-0.087|0.4974
92312952|NCT00825786|184528075|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.14|TWO_SIDED|95.0|0.46|1.09|||Log Rank||group 2 vs. group 1 (sequential vs combined)|||1.09|0.46|0.14
92312953|NCT00825786|184528076|SUPERIORITY|||||||0.02|||||||Log Rank|||||||0.02
92312954|NCT00825786|184528077|SUPERIORITY|||||||0.66|||||||Log Rank|||||||0.66
92312955|NCT00825786|184528078|SUPERIORITY|||||||0.6|||||||ANCOVA|||||||0.60
92312956|NCT00825786|184528079|SUPERIORITY|||||||0.34|||||||ANCOVA|||||||0.34
92312957|NCT00825786|184528080|SUPERIORITY|||||||0.15|||||||Log Rank|||||||0.15
92312958|NCT00825786|184528081|SUPERIORITY|||||||0.88|||||||ANCOVA|||||||0.88
92312959|NCT03091179|184528084|EQUIVALENCE|P value was calculated using the means and standard deviations for each of the patient characteristics.||||||0.006|||||||t-test, 2 sided|||||||0.006
92312960|NCT02969044|184528104|SUPERIORITY||Mean Difference (Net)|-9.25|||<|0.001|TWO_SIDED|95.0|-14.75|-3.79|||ANCOVA|||||-3.79|-14.75|<0.001
92312961|NCT03164616|184528131|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.00093|TWO_SIDED|95.0|0.62|0.885||Analysis was performed using a stratified log-rank test adjusting for PD-L1 tumor expression (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using the Breslow approach for handling ties.|Log Rank||The HR and confidence interval (CI) were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|D + SoC vs SoC alone. A hazard ratio (HR) \<1 favors D + SoC to be associated with a longer PFS than SoC alone.||0.885|0.620|0.00093
92312962|NCT03164616|184528132|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.07581|TWO_SIDED|95.0|0.724|1.016||Analysis was performed using a stratified log-rank test adjusting for PD-L1 tumor expression (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using the Breslow approach for handling ties.|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|D + SoC vs SoC alone. An HR \<1 favors D + SoC to be associated with a longer OS than SoC alone.||1.016|0.724|0.07581
92312963|NCT03164616|184528133|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.00031|TWO_SIDED|95.0|0.6|0.86||Analysis was performed using a stratified log-rank test adjusting for PD-L1 tumor expression (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using the Breslow approach for handling ties.|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|T + D + SoC vs SoC alone. An HR \<1 favors T + D + SoC to be associated with a longer PFS than SoC alone.||0.860|0.600|0.00031
92312964|NCT03164616|184528134|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.00304|TWO_SIDED|95.0|0.65|0.916||Analysis was performed using a stratified log-rank test adjusting for PD-L1 tumor expression (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using the Breslow approach for handling ties.|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|T + D + SoC vs SoC alone. An HR \<1 favors T + D + SoC to be associated with a longer OS than SoC alone.||0.916|0.650|0.00304
92312965|NCT03164616|184528135|SUPERIORITY||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0|1.382|2.619||||||D + SoC vs SoC alone. An odds ratio \>1 favors D + SoC compared to SoC alone. Analysis was performed using logistic regression adjusting for PD-L1 tumor expression (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB), with the CI calculated using a profile likelihood approach.||2.619|1.382|
92312966|NCT03164616|184528135|SUPERIORITY||Odds Ratio (OR)|1.72|||||TWO_SIDED|95.0|1.26|2.367||||||T + D + SoC vs SoC alone. An odds ratio \>1 favors T + D + SoC compared to SoC alone. Analysis was performed using logistic regression adjusting for PD-L1 tumor expression (TC ≥50% vs TC \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB), with the CI calculated using a profile likelihood approach.||2.367|1.260|
92312967|NCT03164616|184528138|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.666|0.928|||||The HR and CI were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|D + SoC vs SoC alone. An HR \<1 favors D + SoC to be associated with a longer PFS2 than SoC alone.||0.928|0.666|
92312968|NCT03164616|184528138|SUPERIORITY||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.632|0.883|||||The HR and CI were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|T + D + SoC vs SoC alone. An HR \<1 favors T + D + SoC to be associated with a longer PFS2 than SoC alone.||0.883|0.632|
92312969|NCT02503787|184528232|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||A negative value for change in pain represents a reduction (improvement) of the subject's pain score. The null hypothesis was that the mean change from baseline to 3 months equals 0. The sample provided over 90% power, with two-sided significance level of 0.05, to detect a change of 2 points.||||<0.01
92312970|NCT02359994|184528266|NON_INFERIORITY|Non-inferiority was assessed with a pre-specified non-inferiority margin of 10%, such that the endpoint is successfully met if the non-inferiority one-sided p-value is less than 0.025 or, equivalently, if the lower bound of a two-sided 95% confidence interval for the difference between PerClot and Arista hemostasis rates is greater than -10%.|Difference in percentage of participants|-1.4||||0.005|TWO_SIDED|95.0|-7.5|4.8|||Farrington-Manning score test||Directionality for difference in the percentage of participants achieving endpoint: PerClot - Arista|The primary efficacy hypothesis is that the percentage of participants achieving hemostasis of the treated bleeding site at 7 minutes in the overall PerClot group is non-inferior to the percentage of participants achieving hemostasis at 7 minutes in the Arista group, the active control.||4.8|-7.5|0.005
92191108|NCT02567227|184281020|SUPERIORITY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-1.04|1.85|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the mental health score of the SF-12 pre and post intervention.||1.85|-1.04|
92312971|NCT02359994|184528267|NON_INFERIORITY|Non-inferiority was assessed with a pre-specified non-inferiority margin of 10%, such that the endpoint is successfully met if the non-inferiority one-sided p-value is less than 0.025 or, equivalently, if the lower bound of a two-sided 95% confidence interval for the difference between PerClot and Arista hemostasis rates is greater than -10%.|Difference in Percentage of Participants|4.8|||<|0.001|TWO_SIDED|95.0|-2.4|12.0|||Farrington-Manning score test||Directionality for difference in the percentage of participants achieving endpoint: PerClot - Arista|The secondary efficacy hypothesis is that the percentage of participants achieving hemostasis of the treated bleeding site at 5 minutes in the overall PerClot group is non-inferior to the percentage of participants achieving hemostasis at 5 minutes in the Arista group, the active control.||12.0|-2.4|<0.001
92312972|NCT02374138|184528278|SUPERIORITY|||||||0.93||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 6 Months||||0.93
92312973|NCT02374138|184528279|SUPERIORITY|||||||0.87||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 6 month follow up||||0.87
92312974|NCT02374138|184528279|SUPERIORITY|||||||0.25||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 12 month follow up||||0.25
92312975|NCT02374138|184528281|SUPERIORITY|||||||0.35||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||ICS Use at 6 Month Follow Up||||0.35
92312976|NCT02374138|184528281|SUPERIORITY|||||||0.34||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||ICS Use at 12 Month Follow Up||||0.34
92312977|NCT02374138|184528281|SUPERIORITY|||||||0.35||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||LTRA Use at 6 Months||||0.35
92312978|NCT02374138|184528281|SUPERIORITY|||||||0.62||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||LTRA use at 12 Month Follow Up||||0.62
92312979|NCT02374138|184528282|SUPERIORITY|||||||0.63||||||Adjusted for child age, gender, and baseline value|Generalized Linear Model Analysis|||ED visits over 6 months||||0.63
92312980|NCT02374138|184528282|SUPERIORITY|||||||0.44||||||Adjusted for child age, gender, and baseline value|Generalized Linear Model Analysis|||ED Visits between 6 and 12 Month follow up||||0.44
92312981|NCT02374138|184528283|SUPERIORITY|||||||0.98||||||Adjusted for child age, gender, and baseline value|Generalized Linear Model Analysis|||Courses of systemic steroids over 6 months||||0.98
92191109|NCT00187135|184281026|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||To adjust for multiple comparisons, p-values less than 0.0167 are considered statistically significant.|McNemar|||The study was designed to achieve statistical power of 80% for this comparison. Due to the early termination of the study, the sample size needed to ensure adequate statistical power for this comparison was not obtained.||||0.5
92191110|NCT00187135|184281026|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||To adjust for multiple comparisons, p-values less than 0.0167 are considered statistically significant.|McNemar|||The study was designed to achieve statistical power of 80% for this comparison. The sample size needed to ensure adequate statistical power for this comparison was obtained.||||0.5
92191111|NCT00187135|184281027|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||To adjust for multiple comparisons, p-values less than 0.0167 are considered statistically significant.|McNemar|||The study was designed to achieve statistical power of 80% for this comparison. Due to the early termination of the study, the sample size needed to ensure adequate statistical power for this comparison was not obtained.||||0.5
92312982|NCT02374138|184528283|SUPERIORITY|||||||0.48||||||Adjusted for child age, gender, and baseline value|Generalized Linear Model Analysis|||Courses of systemic steroids between 6m and 12m FU||||0.48
92312983|NCT02374138|184528284|SUPERIORITY|||||||0.32||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 6 Month Follow Up||||0.32
92312984|NCT02374138|184528284|SUPERIORITY|||||||0.06||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 12 Month Follow Up||||0.06
92312985|NCT02374138|184528285|SUPERIORITY|||||||0.32||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 6 Month follow up||||0.32
92312986|NCT02374138|184528285|SUPERIORITY|||||||0.44||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 12 month follow up||||0.44
92312987|NCT02374138|184528286|SUPERIORITY|||||||0.7||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 6 Month Follow Up||||0.70
92312988|NCT02374138|184528286|SUPERIORITY|||||||0.8||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 12 Month Follow Up||||0.80
92312989|NCT02374138|184528287|SUPERIORITY|||||||0.53||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||6 Month Follow Up||||0.53
92312990|NCT02374138|184528287|SUPERIORITY|||||||0.77||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||12 Month Follow up||||0.77
92312991|NCT02374138|184528288|SUPERIORITY|||||||0.53||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||Quality of Life at 6 Month Follow up||||0.53
92312992|NCT02374138|184528288|SUPERIORITY|||||||0.57||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||Quality of Life at 12 Month Follow up||||0.57
92312993|NCT02374138|184528289|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92312994|NCT02374138|184528292|SUPERIORITY|||||||0.58||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||Score on Brief COPE at 12 Months||||0.58
92312995|NCT02374138|184528294|SUPERIORITY|||||||0.46||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||Score on LOT-R at 6 Month Follow Up||||0.46
92312996|NCT02374138|184528294|SUPERIORITY|||||||0.62||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||Score on LOT-R at 12 Month Follow Up||||0.62
92312997|NCT02374138|184528296|SUPERIORITY|By repeated measures, p-value adjusted for age and gender||||||0.35|||||||Generalized Linear Model Analysis|||||||0.35
92312998|NCT02374138|184528297|SUPERIORITY|Daytime asthma symptoms in prior 14d at 6-month follow up||||||0.54|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.54
92312999|NCT02374138|184528297|SUPERIORITY|Daytime Asthma Symptoms at 12 month follow up||||||0.11|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.11
92313000|NCT02374138|184528297|SUPERIORITY|Days of Activity Limitations at 6 month follow up||||||0.82|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.82
92313001|NCT02374138|184528297|SUPERIORITY|Days of Activity Limitations at 12 month follow up||||||0.84|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.84
92313002|NCT02374138|184528297|SUPERIORITY|Days of Quick Relief Medicine Use at 6 month follow up||||||0.7|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.70
92313003|NCT02374138|184528297|SUPERIORITY|Days of Quick Relief Medicine Use at 12 month follow up||||||0.58|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.58
92313004|NCT02374138|184528298|OTHER|Univariate test||||||0.2|||||||Chi-squared|||Parent education||||0.20
92313005|NCT02374138|184528299|SUPERIORITY|||||||0.91||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||ETS exposure at 6 Month Follow Up||||0.91
92313006|NCT02374138|184528299|SUPERIORITY|||||||0.98||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||ETS Exposure at 12 Month Follow up||||0.98
92313007|NCT02374138|184528300|OTHER|Univariate test||||||0.94|||||||Chi-squared|||||||0.94
92313008|NCT02374138|184528301|SUPERIORITY|||||||0.02||||||p-value adjusted for age and gender|Generalized Linear Model Analysis|||Parent use of mental health resources at 6 Months||||0.02
92313009|NCT02374138|184528301|SUPERIORITY|||||||0.85||||||p-value adjusted for age and gender|Generalized Linear Model Analysis|||Parent use of mental health resources at 12 Months||||0.85
92313010|NCT02374138|184528302|OTHER|Univariate test||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.90
92191112|NCT00187135|184281028|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||GEE Model|||The generalized estimation equation (GEE) approach by Liang and Zeger was used to model the effects of 20% change in heart rate (HR) on pain (Y/N) while controlling for treatment.||||0.87
92191113|NCT00187135|184281029|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||GEE Model|||The generalized estimation equation (GEE) approach by Liang and Zeger was used to model the effects of 20% change in respiratory rate (RR) on pain (Y/N) while controlling for treatment.||||0.67
92313011|NCT02766283|184528335|SUPERIORITY_OR_OTHER|||||||0.9|||||||Chi-squared|||||||0.90
92313012|NCT02766283|184528336|SUPERIORITY_OR_OTHER|||||||0.022|||||||Chi-squared|||||||0.022
92313013|NCT03086551|184528343|OTHER||Effect Size - Cohen's d|0.2|||||TWO_SIDED||||||||Cohen's d was calculated as time to complete the sequence at the pre-baseline assessment minus the time it took to complete the sequence at the post-intervention assessment. The denominator reflected pooled variance.|Magnitude of change in sequence completion time from pre-baseline to post-intervention for the Active arm. Cohen's d was calculated as a measure of effect size.||||
92313014|NCT03086551|184528343|OTHER||Effect Size - Cohen's d|0.69|||||TWO_SIDED||||||||Cohen's d was calculated as time to complete the sequence at the pre-baseline assessment minus the time it took to complete the sequence at the post-intervention assessment. The denominator reflected pooled variance.|Magnitude of change in sequence completion time from pre-baseline to post-intervention for the Sham arm. Cohen's d was calculated as a measure of effect size.||||
92191114|NCT00187135|184281030|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||GEE Model|||The generalized estimation equation (GEE) approach by Liang and Zeger was used to model the effects of 20% change in blood presure (BP) on pain (Y/N) while controlling for treatment.||||0.52
92191115|NCT00187135|184281031|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||GEE Model|||The generalized estimation equation (GEE) approach by Liang and Zeger was used to model the effects of motion (Y/N)on pain (Y/N) while controlling for treatment.||||0.99
92191116|NCT02498418|184281061|EQUIVALENCE|Bioequivalence was demonstrated if 90% confidence interval (CI) of percentage difference between generic rifaximin 200 mg tablets and xifaxan 200 mg tablets was within the equivalence range (-20%, +20%).|Difference in percentage of participants|-0.0193|||||TWO_SIDED|90.0|-0.11|0.07||||||Bioequivalence was evaluated based on the PP analysis set using Z-test with Yates correction.||0.07|-0.11|
92313015|NCT03086551|184528343|OTHER|Cohen's d effect size was calculated to compare the magnitude of change in time to complete the movement sequence from pre-baseline to post-intervention across the Active and Sham arms.|Effect Size - Cohen's d|-0.8|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to post-intervention for the Active arm minus change from pre- to post-intervention for the Sham arm. The denominator reflected pooled variance.|||||
92313016|NCT03086551|184528344|OTHER||Effect Size - Cohen's d|-0.08|||||TWO_SIDED||||||||Cohen's d was calculated as aggregate time to complete all elements at the pre-baseline assessment minus the aggregate time it took to complete all elements at the post-intervention assessment. The denominator reflected pooled variance.|The magnitude of transfer of the task specific practice to functional activities of daily live for the stroke affected limb was assessed by calculating the magnitude of change (Cohen's d) in time to complete the activities of the Jebsen-Taylor Hand Function Test from pre-baseline to post-intervention in the Active arm.||||
92313017|NCT03086551|184528344|OTHER||Effect Size - Cohen's d|0.5|||||TWO_SIDED||||||||Cohen's d was calculated as aggregate time to complete all elements at the pre-baseline assessment minus the aggregate time it took to complete all elements at the post-intervention assessment. The denominator reflected pooled variance.|The magnitude of transfer of the task specific practice to functional activities of daily live for the stroke affected limb was assessed by calculating the magnitude of change (Cohen's d) in time to complete the activities of the Jebsen-Taylor Hand Function Test from pre-baseline to post-intervention in the Sham arm.||||
92313018|NCT03086551|184528344|OTHER||Effect Size - Cohen's d|-1.84|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to post-intervention for the Active arm minus the change from pre- to post-intervention for the Sham arm. The denominator reflected pooled variance.|Comparison across study arm of the magnitude of improvement in aggregate time to complete all elements of the Jebsen-Taylor Hand Function Test for the stroke affected limb. Cohen's d was calculated as a measure of effect size.||||
92191117|NCT02498418|184281064|SUPERIORITY||Difference in percentage of participants|-0.0195||||0.7899|TWO_SIDED|95.0|-0.09|0.13||Threshold of significance at 0.05 level.|Z-test|||95% CIs was calculated using Z-test with Yates' correction.||0.13|-0.09|0.7899
92191118|NCT02498418|184281064|SUPERIORITY||Difference in percentage of participants|0.033||||0.5987|TWO_SIDED|95.0|-0.07|0.14||Threshold for significance at 0.05 level.|Z-test|||95% CIs was calculated using Z-test with Yates' correction.||0.14|-0.07|0.5987
92191119|NCT03280108|184281172|NON_INFERIORITY|Non-inferiority based on the observed 95% Upper Confidence Limit of the difference in Least Squares Means (LSM) between the 2 groups (TFNT00 - SN60AT). Non-inferiority margin = 0.10 logMAR.|Least Squares Mean Difference|0.024|STANDARD_ERROR_OF_MEAN|0.0103|||ONE_SIDED|95.0||0.041||||||||0.041||
92191120|NCT03280108|184281173|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92191121|NCT03280108|184281179|SUPERIORITY||Least Squares Mean Difference|-0.257|STANDARD_ERROR_OF_MEAN|0.0153|<|0.001|TWO_SIDED|95.0|-0.287|-0.227|||Mixed Models Analysis|||||-0.227|-0.287|<0.001
92191122|NCT03280108|184281180|SUPERIORITY||Mantel-Haenszel common difference|71.2|||||TWO_SIDED|95.0|61.87|80.46||||||||80.46|61.87|
92191123|NCT03638258|184281195|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward (LOCF) where linear interpolation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||||||<0.001
92191124|NCT03638258|184281195|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpolation was not computationally possible.||||||0.004|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||||||0.004
92191125|NCT03638258|184281196|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.015|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 4||||0.015
92191126|NCT03638258|184281196|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.174|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from placebo at Week 4||||0.174
92191127|NCT03638258|184281196|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 8||||<0.001
92191128|NCT03638258|184281196|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 8||||0.001
92191129|NCT03638258|184281196|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 12||||<0.001
92191130|NCT03638258|184281196|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.008|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 12||||0.008
92191131|NCT03638258|184281197|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 4||||<0.001
92191132|NCT03638258|184281197|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 4||||<0.001
92191133|NCT03638258|184281197|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 6||||<0.001
92191134|NCT03638258|184281197|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 6||||<0.001
92191135|NCT03638258|184281197|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.x|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 8||||<0.001
92191136|NCT03638258|184281197|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 8||||<0.001
92191137|NCT03638258|184281197|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 12||||<0.001
92191138|NCT03638258|184281197|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 12||||<0.001
92191139|NCT03638258|184281198|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream on Week 4||||<0.001
92191140|NCT03638258|184281198|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream at Week 4||||<0.001
92191141|NCT03638258|184281198|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream at Week 6||||<0.001
92191142|NCT03638258|184281198|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream at Week 6||||<0.001
92313019|NCT03086551|184528344|OTHER||Effect Size - Cohen's d|0.38|||||TWO_SIDED||||||||Cohen's d was calculated as aggregate time to complete all elements at the pre-baseline assessment minus the aggregate time it took to complete all elements at the post-intervention assessment. The denominator reflected pooled variance.|The magnitude of transfer of the task specific practice to functional activities of daily live for the non-stroke affected limb was assessed by calculating the magnitude of change (Cohen's d) in time to complete the activities of the Jebsen-Taylor Hand Function Test from pre-baseline to post-intervention in the Active arm.||||
92313020|NCT03086551|184528344|OTHER||Effect Size - Cohen's d|0.08|||||TWO_SIDED||||||||Cohen's d was calculated as aggregate time to complete all elements at the pre-baseline assessment minus the aggregate time it took to complete all elements at the post-intervention assessment. The denominator reflected pooled variance.|The magnitude of transfer of the task specific practice to functional activities of daily live for the non-stroke affected limb was assessed by calculating the magnitude of change (Cohen's d) in time to complete the activities of the Jebsen-Taylor Hand Function Test from pre-baseline to post-intervention in the Sham arm.||||
92313021|NCT03086551|184528344|OTHER||Effect Size - Cohen's d|0.38|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to post-intervention for the Active arm minus the change from pre- to post-intervention for the Sham arm. The denominator reflected pooled variance.|Comparison across study arm of the magnitude of improvement in aggregate time to complete all elements of the Jebsen-Taylor Hand Function Test for the non-stroke affected limb. Cohen's d was calculated as a measure of effect size.||||
92313022|NCT03086551|184528345|OTHER||Effect Size - Cohen's d|-0.86|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to immediately post-stimulation (within the same session) for the Active arm minus the change from pre- to immediately post-stimulation for the Sham arm. The denominator reflected pooled variance.|The immediate effect of continuous theta burst stimulation over dorsolateral prefrontal cortex prior to practice was assessed by determining the magnitude of the effect of Active stimulation from pre-intervention to immediately post-intervention in Session 1 of the intervention. Cohen's d was used to derive effect size. The Sham stimulation change was used as the control.||||
92313023|NCT03086551|184528345|OTHER||Effect Size - Cohen's d|-0.04|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to immediately post-stimulation (within the same session) for the Active arm minus the change from pre- to immediately post-stimulation for the Sham arm. The denominator reflected pooled variance.|The immediate effect of continuous theta burst stimulation over dorsolateral prefrontal cortex prior to practice was assessed by determining the magnitude of the effect of Active stimulation from pre-intervention to immediately post-intervention in Session 2 of the intervention. Cohen's d was used to derive effect size. The Sham stimulation change was used as the control.||||
92313024|NCT03086551|184528345|OTHER||Effect Size - Cohen's d|-0.69|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to immediately post-stimulation (within the same session) for the Active arm minus the change from pre- to immediately post-stimulation for the Sham arm. The denominator reflected pooled variance.|The immediate effect of continuous theta burst stimulation over dorsolateral prefrontal cortex prior to practice was assessed by determining the magnitude of the effect of Active stimulation from pre-intervention to immediately post-intervention in Session 3 of the intervention. Cohen's d was used to derive effect size. The Sham stimulation change was used as the control.||||
92313025|NCT03086551|184528345|OTHER||Effect Size - Cohen's d|0.28|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to immediately post-stimulation (within the same session) for the Active arm minus the change from pre- to immediately post-stimulation for the Sham arm. The denominator reflected pooled variance.|The immediate effect of continuous theta burst stimulation over dorsolateral prefrontal cortex prior to practice was assessed by determining the magnitude of the effect of Active stimulation from pre-intervention to immediately post-intervention in Session 4 of the intervention. Cohen's d was used to derive effect size. The Sham stimulation change was used as the control.||||
92313026|NCT03086551|184528346|OTHER||Effect Size - Cohen's d|-0.31|||||TWO_SIDED||||||||Cohen's d was calculated as the amplitude of the motor evoked potential at the post-intervention assessment minus the amplitude of the motor evoked potential at the pre-baseline assessment. The denominator reflected pooled variance.|Comparison of first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention for the Active arm when transcranial magnetic stimulator intensity was set to 120% of resting motor threshold. Estimate of effect size was derived using Cohen's d.||||
92313027|NCT03086551|184528346|OTHER||Effect Size - Cohen's d|-0.85|||||TWO_SIDED||||||||Cohen's d was calculated as the amplitude of the motor evoked potential at the post-intervention assessment minus the amplitude of the motor evoked potential at the pre-baseline assessment. The denominator reflected pooled variance.|Comparison of first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention for the Sham arm when transcranial magnetic stimulator intensity was set to 120% of resting motor threshold. Estimate of effect size was derived using Cohen's d.||||
92191143|NCT03638258|184281198|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle at Week 8||||<0.001
92191144|NCT03638258|184281198|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream at Week 8||||<0.001
92191145|NCT03638258|184281198|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle at Week 12||||<0.001
92191146|NCT03638258|184281198|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream at Week 12||||<0.001
92313028|NCT03086551|184528346|OTHER||Effect Size - Cohen's d|-0.35|||||TWO_SIDED||||||||Cohen's d was calculated as the amplitude of the motor evoked potential at the post-intervention assessment minus the amplitude of the motor evoked potential at the pre-baseline assessment. The denominator reflected pooled variance.|Comparison of the first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention for the Active arm when transcranial magnetic stimulator intensity was set to 150% of resting motor threshold. Estimate of effect size was derived using Cohen's d.||||
92313029|NCT03086551|184528346|OTHER||Effect Size - Cohen's d|1.13|||||TWO_SIDED||||||||Cohen's d was calculated as the amplitude of the motor evoked potential at the post-intervention assessment minus the amplitude of the motor evoked potential at the pre-baseline assessment. The denominator reflected pooled variance.|Comparison of the first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention for the Sham arm when transcranial magnetic stimulator intensity was set to 150% of resting motor threshold. Estimate of effect size was derived using Cohen's d.||||
92313030|NCT03086551|184528347|OTHER||Effect Size - Cohen's d|-0.15|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to post-intervention for the Active arm minus the change from pre- to post-intervention for the Sham arm. The denominator reflected pooled variance.|Comparison of the first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention across the Active and Sham arms when transcranial magnetic stimulator intensity was set to 120% of resting motor threshold. Comparison quantified as effect size using Cohen's d.||||
92313031|NCT03086551|184528347|OTHER||Effect Size - Cohen's d|-1.46|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to post-intervention for the Active arm minus the change from pre- to post-intervention for the Sham arm. The denominator reflected pooled variance.|Comparison of the first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention across the Active and Sham arms when transcranial magnetic stimulator intensity was set to 150% of resting motor threshold. Comparison quantified as effect size using Cohen's d.||||
92191147|NCT03638258|184281199|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.116|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 4||||0.116
92191148|NCT03638258|184281199|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.423|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 4||||0.423
92313032|NCT03736031|184528350|SUPERIORITY|||||||0.09|||||||two-sample independent t-test|An alpha of 0.05 was used.||||||0.09
92313033|NCT03736031|184528351|SUPERIORITY|||||||0.81|||||||two-sample independent t-test|An alpha of 0.05 was used.||||||0.81
92191149|NCT03638258|184281199|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.002|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 6||||0.002
92191150|NCT03638258|184281199|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.038|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 6||||0.038
92191151|NCT03638258|184281199|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 8||||<0.001
92313034|NCT03736031|184528352|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||||||0.33
92191152|NCT03638258|184281199|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.005|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 8||||0.005
92191153|NCT03638258|184281199|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.002|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 12||||0.002
92313035|NCT03736031|184528353|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92313036|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.989|||||TWO_SIDED|95.0|0.223|4.393|||||Hazard ratio comparing PFS of participants with a high expression of EIF4EBP1 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of EIF4EBP1 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker EIF4EBP1 Cytoplasm with PFS.||4.393|0.223|
92313037|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.071|||||TWO_SIDED|95.0|0.316|3.628|||||Hazard ratio comparing PFS of participants with a high expression of EIF4E Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of EIF4E Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker EIF4E Cytoplasm with PFS.||3.628|0.316|
92313038|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.658|||||TWO_SIDED|95.0|0.454|6.053|||||Hazard ratio comparing PFS of participants with a high expression of HDAC2 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of HDAC2 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker HDAC2 Nucleus with PFS.||6.053|0.454|
92313039|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|4.082|||||TWO_SIDED|95.0|0.455|36.628|||||Hazard ratio comparing PFS of participants with a high expression of PCREB Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PCREB Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PCREB Nucleus with PFS.||36.628|0.455|
92313040|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.636|||||TWO_SIDED|95.0|0.18|2.253|||||Hazard ratio comparing PFS of participants with a high expression of PEIF3746 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PEIF3746 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PEIF3746 Cytoplasm with PFS.||2.253|0.180|
92313041|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.362|||||TWO_SIDED|95.0|0.083|1.576|||||Hazard ratio comparing PFS of participants with a high expression of PEIF3746 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PEIF3746 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PEIF3746 Nucleus with PFS.||1.576|0.083|
92313042|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.522|||||TWO_SIDED|95.0|0.473|4.901|||||Hazard ratio comparing PFS of participants with a high expression of PEIFS209 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PEIFS209 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PEIFS209 Cytoplasm with PFS.||4.901|0.473|
92313043|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.908|||||TWO_SIDED|95.0|0.223|3.699|||||Hazard ratio comparing PFS of participants with a high expression of PEIFS65 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PEIFS65 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PEIFS65 Nucleus with PFS.||3.699|0.223|
92313044|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.843|||||TWO_SIDED|95.0|0.432|7.867|||||Hazard ratio comparing PFS of participants with a high expression of PEIFT70 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PEIFT70 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PEIFT70 Nucleus with PFS.||7.867|0.432|
92313045|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.926|||||TWO_SIDED|95.0|0.276|3.109|||||Hazard ratio comparing PFS of participants with a high expression of P GSK3B Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of P GSK3B Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker P GSK3B Cytoplasm with PFS.||3.109|0.276|
92191154|NCT03638258|184281199|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.013|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 12||||0.013
92313046|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.985|||||TWO_SIDED|95.0|0.32|3.033|||||Hazard ratio comparing PFS of participants with a high expression of PKCb2 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PKCb2 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PKCb2 Cytoplasm with PFS.||3.033|0.320|
92313047|NCT00451178|184528363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.817|||||TWO_SIDED|95.0|0.242|2.758|||||Hazard ratio comparing PFS of participants with a high expression of PTEN Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PTEN Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PTEN Cytoplasm with PFS.||2.758|0.242|
92191155|NCT03638258|184281200|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.086|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference form vehicle cream at Week 4||||0.086
92191156|NCT03638258|184281200|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.123|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 4||||0.123
92313048|NCT06075277|184528364|OTHER||Ratios of adjusted geometric means [%]|126.64|||||TWO_SIDED|90.0|112.09|143.08|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 19.8|Relative bioavailability of Zongertinib administered in fed state (Test) compared with Zongertinib administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||143.08|112.09|
92191157|NCT03638258|184281200|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.017|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 6||||0.017
92191158|NCT03638258|184281200|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.415|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 6||||0.415
92191159|NCT03638258|184281200|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.007|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 8||||0.007
92313049|NCT06075277|184528365|OTHER||Ratios of adjusted geometric means [%]|126.12|||||TWO_SIDED|90.0|106.34|149.58|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 27.9.|Relative bioavailability of Zongertinib administered in fed state (Test) compared with Zongertinib administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||149.58|106.34|
92313050|NCT06075277|184528366|OTHER||Ratios of adjusted geometric means [%]|126.04|||||TWO_SIDED|90.0|111.7|142.21|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 19.6.|Relative bioavailability of Zongertinib administered in fed state (Test) compared with Zongertinib administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||142.21|111.70|
92313051|NCT02603146|184528367|OTHER||Cumulative Probability|0.336|||||TWO_SIDED|95.0|0.213|0.459|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of CL-RA by Month 36 for HCQ.|||0.459|0.213|
92313052|NCT02603146|184528367|OTHER||Cumulative Probability|0.394|||||TWO_SIDED|95.0|0.268|0.519|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of CL-RA by Month 36 for Placebo.|||0.519|0.268|
92313053|NCT02603146|184528367|SUPERIORITY|"The analysis is based on the KM estimated risk of CL- RA at 36 months, where risk = (1-KM estimated probability of survival). Survival for this analysis is defined as absence of CL-RA. Estimated risks were derived from a Kaplan-Meier curve using censored time-to-event data to account for attrition under the assumption of non-informative censoring."|Risk Difference (RD)|-0.058||||0.522|TWO_SIDED|95.0|-0.336|0.22||The test statistic is a Wald-type chi-square statistic derived by dividing the difference of the logit-transformed KM survival estimates for each arm by the associated variance derived using the delta-method \[Klein, et. al. 2007\].|Chi-squared||Risk difference for HCQ - Placebo|||0.220|-0.336|0.522
92313054|NCT02603146|184528368|OTHER||Cumulative Probability|0.165|||||TWO_SIDED|95.0|0.076|0.225|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of CL-RA by Month 12 for HCQ.|||0.225|0.076|
92313055|NCT02603146|184528368|OTHER||Cumulative Probability|0.194|||||TWO_SIDED|95.0|0.099|0.289|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of CL-RA by Month 12 for Placebo.|||0.289|0.099|
92313056|NCT02603146|184528368|SUPERIORITY|"The analysis is based on the KM estimated risk of CL- RA at 12 months, where risk = (1-KM estimated probability of survival). Survival for this analysis is defined as absence of CL-RA. Estimated risks were derived from a Kaplan-Meier curve using censored time-to-event data to account for attrition under the assumption of non-informative censoring."|Risk Difference (RD)|-0.029||||0.668|TWO_SIDED|95.0|-0.188|0.131||The test statistic is a Wald-type chi-square statistic derived by dividing the difference of the logit-transformed KM survival estimates for each arm by the associated variance derived using the delta-method \[Klein, et. al. 2007\].|Chi-squared||Risk difference for HCQ - Placebo|||0.131|-0.188|0.668
92313057|NCT02603146|184528369|OTHER||Cumulative Probability|0.18|||||TWO_SIDED|95.0|0.088|0.273|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of IA by Month 12 for HCQ.|||0.273|0.088|
92313058|NCT02603146|184528369|OTHER||Cumulative Probability|0.194|||||TWO_SIDED|95.0|0.099|0.289|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of IA by Month 12 for Placebo.|||0.289|0.099|
92313059|NCT02603146|184528369|SUPERIORITY|"The analysis is based on the KM estimated risk of IA at 12 months, where risk = (1-KM estimated probability of survival). Survival for this analysis is defined as absence of IA. Estimated risks were derived from a Kaplan-Meier curve using censored time-to-event data to account for attrition under the assumption of non-informative censoring."|Risk Difference (RD)|-0.014||||0.84|TWO_SIDED|95.0|-0.177|0.15||The test statistic is a Wald-type chi-square statistic derived by dividing the difference of the logit-transformed KM survival estimates for each arm by the associated variance derived using the delta-method \[Klein, et. al. 2007\].|Chi-squared||Risk difference for HCQ - Placebo|||0.150|-0.177|0.840
92313060|NCT02603146|184528370|SUPERIORITY|||||||0.652|||||||Log Rank|||||||0.652
92313061|NCT02603146|184528371|OTHER||Cumulative Probability|0.356|||||TWO_SIDED|95.0|0.23|0.482|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of IA by Month 36 for HCQ.|||0.482|0.230|
92191160|NCT03638258|184281200|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.175|||||||Regression, Linear|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 8||||0.175
92191161|NCT03638258|184281200|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle at Week 12||||0.001
92191162|NCT03638258|184281200|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.619|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 12||||0.619
92191163|NCT03638258|184281201|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 4||||<0.001
92191164|NCT03638258|184281201|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.002|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 4||||0.002
92313062|NCT02603146|184528371|OTHER||Cumulative Probability|0.425|||||TWO_SIDED|95.0|0.298|0.551|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of IA by Month 36 for Placebo.|||0.551|0.298|
92313063|NCT02603146|184528371|SUPERIORITY|"The analysis is based on the KM estimated risk of IA at 36 months, where risk = (1-KM estimated probability of survival). Survival for this analysis is defined as absence of IA. Estimated risks were derived from a Kaplan-Meier curve using censored time-to-event data to account for attrition under the assumption of non-informative censoring."|Risk Difference (RD)|-0.069||||0.452|TWO_SIDED|95.0|-0.363|0.226||The test statistic is a Wald-type chi-square statistic derived by dividing the difference of the logit-transformed KM survival estimates for each arm by the associated variance derived using the delta-method \[Klein, et. al. 2007\].|Chi-squared||Risk difference for HCQ - Placebo|||0.226|-0.363|0.452
92313064|NCT02603146|184528372|SUPERIORITY|||||||0.928||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.928
92313065|NCT02603146|184528372|SUPERIORITY|||||||0.076||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.076
92313066|NCT02603146|184528373|SUPERIORITY|||||||0.781||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.781
92313067|NCT02603146|184528373|SUPERIORITY|||||||0.457||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.457
92313068|NCT02603146|184528374|SUPERIORITY|||||||0.576||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.576
92313069|NCT02603146|184528374|SUPERIORITY|||||||0.323||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.323
92313070|NCT02603146|184528375|SUPERIORITY|||||||0.865||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.865
92313071|NCT02603146|184528375|SUPERIORITY|||||||0.179||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.179
92313072|NCT02603146|184528376|SUPERIORITY|||||||0.634||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.634
92313073|NCT02603146|184528376|SUPERIORITY|||||||0.574||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.574
92313074|NCT02603146|184528377|SUPERIORITY|||||||0.724||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.724
92313075|NCT02603146|184528377|SUPERIORITY|||||||0.149||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.149
92313076|NCT02603146|184528381|SUPERIORITY|||||||0.809|||||||Fisher Exact|||||||0.809
92313077|NCT03300817|184528413|SUPERIORITY|||||||0.6834|||||||Wilcoxon Rank-Sum test|||||||0.6834
92313078|NCT03713593|184528444|OTHER|Descriptive assessment|Hazard Ratio (HR)|0.834|||||TWO_SIDED|95.0|0.712|0.978|||||Based on Cox model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||0.978|0.712|
92313079|NCT03713593|184528445|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0227|TWO_SIDED|95.0|0.708|0.997|||Log Rank|Onesided p-value based on logrank test stratified by geographic region, portal vein invasion/extrahepatic spread/both AFP status,ECOG status.|Based on Cox model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||0.997|0.708|0.0227
92313080|NCT03713593|184528446|OTHER|Descriptive assessment|Difference in percentage|8.5|||||TWO_SIDED|95.0|2.8|14.2|||||Based on Miettinen \& Nurminen method stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||14.2|2.8|
92191165|NCT03638258|184281201|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 6||||<0.001
92191166|NCT03638258|184281201|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 6||||<0.001
92191167|NCT03638258|184281201|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 8||||<0.001
92191168|NCT03638258|184281201|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 8||||<0.001
92191169|NCT03638258|184281201|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 12||||<0.001
92191170|NCT03638258|184281201|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 12||||<0.001
92313081|NCT03713593|184528449|OTHER|Descriptive assessment|Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.66|0.93|||||Based on Cox model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||0.93|0.66|
92313082|NCT03713593|184528450|OTHER|Descriptive assessment|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.68|0.94|||||Based on Cox model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||0.94|0.68|
92313083|NCT03713593|184528451|OTHER|Descriptive assessment|Difference in percentage|6.7|||||TWO_SIDED|95.0|0.0|13.4|||||Based on Miettinen \& Nurminen method stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||13.4|0.0|
92313084|NCT03713593|184528454|OTHER|Descriptive assessment|Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.61|0.88|||||Based on Cox model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||0.88|0.61|
92313085|NCT00629018|184528535|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Log Rank|||The minimal sample size for the study was calculated using a pre-specified power of 90% and P value of 0.05.||||0.01
92313086|NCT03417778|184528541|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for AUClast of filgotinib falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit AUClast change of at least 2-fold for filgotinib compared with participants with normal liver function will be rejected.|GLSM Ratio|161.14|||||TWO_SIDED|90.0|80.77|321.48||||||An analysis of variance (ANOVA) model was fitted to the natural logarithmic transformed values of the AUClast. Two-sided 90% confidence intervals (CI) were calculated for the geometric least-squares mean (GLSM) ratio of AUClast between hepatic impairment group versus the matched control (normal hepatic function) group.||321.48|80.77|
92313087|NCT03417778|184528542|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for AUClast of GS-829845 falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit AUClast change of at least 2-fold for GS-829845 compared with participants with normal liver function will be rejected.|GLSM Ratio|122.08|||||TWO_SIDED|90.0|69.67|213.89||||||An ANOVA model was fitted to the natural logarithmic transformed values of the AUClast. Two-sided 90% CI were calculated for the GLSM ratio of AUClast between hepatic impairment group versus the matched control (normal hepatic function) group.||213.89|69.67|
92313088|NCT03417778|184528543|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for AUCinf of filgotinib falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit AUCinf change of at least 2-fold for filgotinib compared with participants with normal liver function will be rejected.|GLSM Ratio|159.15|||||TWO_SIDED|90.0|82.22|308.06||||||An ANOVA model was fitted to the natural logarithmic transformed values of the AUCinf. Two-sided 90% CI were calculated for the GLSM ratio of AUCinf between hepatic impairment group versus the matched control (normal hepatic function) group.||308.06|82.22|
92313089|NCT03417778|184528544|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for AUCinf of GS-829845 falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit AUCinf change of at least 2-fold for GS-829845 compared with participants with normal liver function will be rejected.|GLSM Ratio|122.32|||||TWO_SIDED|90.0|69.9|214.07||||||An ANOVA model was fitted to the natural logarithmic transformed values of the AUCinf. Two-sided 90% CI were calculated for the GLSM ratio of AUCinf between hepatic impairment group versus the matched control (normal hepatic function) group.||214.07|69.90|
92191171|NCT03638258|184281202|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.002|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 4||||0.002
92191172|NCT03638258|184281202|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.203|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 4||||0.203
92191173|NCT03638258|184281202|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.034|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 6||||0.034
92313090|NCT03417778|184528545|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for Cmax of filgotinib falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit Cmax change of at least 2-fold for filgotinib compared with participants with normal liver function will be rejected.|GLSM Ratio|115.98|||||TWO_SIDED|90.0|58.75|228.98||||||An ANOVA model was fitted to the natural logarithmic transformed values of the Cmax. Two-sided 90% CI were calculated for the GLSM ratio of Cmax between hepatic impairment group versus the matched control (normal hepatic function) group.||228.98|58.75|
92313091|NCT03417778|184528546|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for Cmax of GS-829845 falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit Cmax change of at least 2-fold for GS-829845 compared with participants with normal liver function will be rejected.|GLSM Ratio|102.85|||||TWO_SIDED|90.0|60.12|175.98||||||An ANOVA model was fitted to the natural logarithmic transformed values of the Cmax. Two-sided 90% CI were calculated for the GLSM ratio of Cmax between hepatic impairment group versus the matched control (normal hepatic function) group.||175.98|60.12|
92313092|NCT01995513|184528562|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.828||||0.2176|TWO_SIDED|95.0|0.612|1.119||P-value was based on log-rank test stratified by PSA response (greater than or equal to \[\>=\] 0 percent \[%\] to less than \[\<\] 30% vs \>=30%) at Week 13 in the open-label period.|Log Rank||Hazard ratio was based on a Cox regression model (with treatment as the only covariate) stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period and is relative to Enzalutamide-placebo with \< 1 favoring Enzalutamide.|||1.119|0.612|0.2176
92313093|NCT01995513|184528563|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.874||||0.45|TWO_SIDED|95.0|0.617|1.239||P-value was based on log-rank test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Log Rank||Hazard ratio was based on a Cox regression model (with treatment as the only covariate) stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period and is relative to Enzalutamide-placebo with \< 1 favoring Enzalutamide.|||1.239|0.617|0.4500
92313094|NCT01995513|184528564|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-1.65||||0.3101|TWO_SIDED|95.0|-4.82|1.51||P-value was based on Cochran-Mantel-Haenszel mean score test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Cochran-Mantel-Haenszel||Difference in response rate was based upon standard normal approximation.|This analysis is reported for participants with \>=50% decrease from baseline in PSA response.||1.51|-4.82|0.3101
92313095|NCT01995513|184528564|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-0.04||||0.9917|TWO_SIDED|95.0|-3.9|3.82||P-value was based on Cochran-Mantel-Haenszel mean score test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Cochran-Mantel-Haenszel||Difference in response rate was based upon standard normal approximation.|This analysis is reported for participants with \>=30% decrease from baseline in PSA response.||3.82|-3.90|0.9917
92313096|NCT01995513|184528565|SUPERIORITY_OR_OTHER_LEGACY||Difference in Objective Response Rate|-5.0||||0.1653|TWO_SIDED|95.0|-11.75|1.75||P-value was based on Cochran-Mantel-Haenszel mean score test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Cochran-Mantel-Haenszel||Difference in objective response rate was based upon standard normal approximation.|This analysis is reported for participants with CR+PR.||1.75|-11.75|0.1653
92313097|NCT01995513|184528565|SUPERIORITY_OR_OTHER_LEGACY||Difference in Objective Response Rate|10.92||||0.3216|TWO_SIDED|95.0|-10.37|32.21||P-value was based on Cochran-Mantel-Haenszel mean score test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Cochran-Mantel-Haenszel||Difference in objective response rate was based upon standard normal approximation.|This analysis is reported for participants with CR+PR+SD.||32.21|-10.37|0.3216
92313098|NCT01995513|184528566|SUPERIORITY_OR_OTHER_LEGACY||Difference in Progression Rate|9.09||||0.2963|TWO_SIDED|95.0|-7.69|25.87||P-value was based on Cochran-Mantel-Haenszel mean score test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Cochran-Mantel-Haenszel||Difference in Progression Rate was based upon normal approximation.|||25.87|-7.69|0.2963
92191174|NCT03638258|184281202|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.012|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 6||||0.012
92191175|NCT03638258|184281202|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.01|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 8||||0.010
92313099|NCT01995513|184528567|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.861||||0.3818|TWO_SIDED|95.0|0.616|1.204||P-value was based on log-rank test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Log Rank||Hazard ratio was based on a Cox regression model (with treatment as the only covariate) stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period and is relative to Enzalutamide-placebo with \< 1 favoring Enzalutamide.|||1.204|0.616|0.3818
92313100|NCT01995513|184528574|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.399||||0.0739|TWO_SIDED|95.0|0.967|2.025||P-value was based on log-rank test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period|Log Rank||Hazard ratio was based on a Cox regression model (with treatment as the only covariate) stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period and is relative to Enzalutamide-placebo with \< 1 favoring Enzalutamide.|||2.025|0.967|0.0739
92313101|NCT01232452|184528579|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.848|TWO_SIDED|95.0|0.73|1.47|||Log Rank|||||1.47|0.73|0.848
92191176|NCT03638258|184281202|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.075|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 8||||0.075
92313102|NCT01232452|184528580|SUPERIORITY|||||||0.338|||||||Fisher Exact|||||||0.338
92313103|NCT00247676|184528597|SUPERIORITY_OR_OTHER||clinical benefit response rate|37.8||||||95.0|22.5|55.2|||||Clinical benefit response rate: percent of patients with confirmed CR, confirmed PR, or SD for at least 12 weeks according to RECIST, relative to total treated patients.|||55.2|22.5|
92313104|NCT00247676|184528602|SUPERIORITY_OR_OTHER||objective response rate|2.7||||||95.0|0.1|14.2|||||percentage of patients with confirmed CR or confirmed PR according to RECIST, relative to the total number of treated patients.|||14.2|0.1|
92313105|NCT00247676|184528606|SUPERIORITY_OR_OTHER||probability|0.324||||||95.0|0.168|0.479|||||probability derived from Kaplan-Meier estimate.|||0.479|0.168|
92313106|NCT05219448|184528628|SUPERIORITY||Mean Difference (Final Values)|7.4||||0.17|TWO_SIDED|95.0|-3.2|18.0||Unadjusted p value presented. The a priori threshold for statistical significance is 0.05.|Regression, Linear|||Null hypothesis: The change in added sugar intake from baseline to 6-months will be the same when compared to children in the no-treatment control arm (measured through hair biomarker).||18.0|-3.2|0.17
92191177|NCT03638258|184281202|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 12||||<0.001
92191178|NCT03638258|184281202|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 12||||<0.001
92191179|NCT03638258|184281203|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.527|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 4||||0.527
92313107|NCT05219448|184528629|SUPERIORITY||Mean Difference (Final Values)|-5.1||||0.6|TWO_SIDED|95.0|-24.3|14.0||Unadjusted P-value. The threshold for significance is 0.05.|Regression, Linear|||Null hypothesis: The change in added sugar intake from baseline to 6-months will be the same for caregivers in community A arm when compared to caregivers in the no-treatment control arm (measured through hair biomarker).||14.0|-24.3|0.60
92313108|NCT05219448|184528629|SUPERIORITY||Mean Difference (Final Values)|-24.7||||0.013|TWO_SIDED|95.0|-44.1|-5.4||The P-value is unadjusted. The threshold for significance is 0.05.|Regression, Linear|||Null hypothesis: The change in added sugar intake from baseline to 6-months will be the same for caregivers in community B when compared to caregivers in the no-treatment control arm (measured through hair biomarker).||-5.4|-44.1|0.013
92313109|NCT01750190|184528630|SUPERIORITY||Least Square Mean Difference|1.85|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|95.0|1.735|1.967|||ANCOVA|MI (Multiple Imputation) ANCOVA|Roxadustat - Placebo Treatment Difference|Treatment comparison was made using the multiple imputation strategy by combining the results of analysis of covariance (ANCOVA) model with baseline Hb and baseline estimated glomerular filtration rate (eGFR) as covariates and treatment and other randomization stratification factors, except baseline Hb (≤8 g/dL versus \>8 g/dL) and eGFR (\<30 versus ≥30 milliliters \[mL\]/minutes \[min\]/1.73 meters \[m\]\^2), as fixed effects.||1.967|1.735|<0.0001
92313110|NCT01750190|184528631|SUPERIORITY||Odds Ratio (OR)|77.56|||<|0.0001|TWO_SIDED|95.0|44.73|134.48|||Cochran-Mantel-Haenszel||Roxadustat/Placebo Odds ratio|||134.48|44.73|<0.0001
92313111|NCT01750190|184528632|SUPERIORITY||Least Square Mean Difference|1.88|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|1.73|2.037|||Mixed Models Analysis|MMRM Analysis|Roxadustat - placebo treatment difference|Treatment comparison was made using MMRM with baseline Hb and baseline eGFR as covariates, and treatment, visit, visit-by-treatment interaction, and the randomization stratification factors, except baseline Hb (≤8 g/dL versus \>8 g/dL) and eGFR (\<30 versus ≥30 mL/min/1.73m\^2), as fixed effects.||2.037|1.730|<0.0001
92313112|NCT01750190|184528633|SUPERIORITY||Least Square Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|0.122|<|0.0001|TWO_SIDED|95.0|1.663|2.143|||ANCOVA|MI ANCOVA|Roxadustat - placebo treatment difference|Treatment comparison was made using the multiple imputation strategy by combining the results of ANCOVA model with baseline Hb and baseline eGFR as covariates , and treatment and other randomization stratification factors, except baseline Hb (≤8 g/dL versus \>8 g/dL) and eGFR (\<30 versus ≥30 mL/min/1.73m\^2 ), as fixed effects.||2.143|1.663|<0.0001
92191180|NCT03638258|184281203|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.444|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 4||||0.444
92191181|NCT03638258|184281203|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.006|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 6||||0.006
92191182|NCT03638258|184281203|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.013|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 6||||0.013
92313113|NCT01750190|184528634|SUPERIORITY||Odds Ratio (OR)|15.47|||<|0.0001|TWO_SIDED|95.0|10.79|22.189|||Cochran-Mantel-Haenszel||Roxadustat/placebo odds ratio|||22.189|10.79|<0.0001
92313114|NCT01750190|184528635|SUPERIORITY||Least Square Mean Difference|-17.26|STANDARD_ERROR_OF_MEAN|1.73|<|0.0001|TWO_SIDED|95.0|-20.65|-13.87|||Mixed Models Analysis|MMRM Analysis|Roxadustat- placebo treatment difference|Treatment comparison was made using MMRM with baseline LDL cholesterol as a covariate, and treatment, visit, visit-by-treatment interaction, and the randomization stratification factors as fixed effects.||-13.87|-20.65|<0.0001
92313115|NCT01750190|184528636|SUPERIORITY||Least Square Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.528||0.6924|TWO_SIDED|95.0|-0.827|1.245|||ANCOVA|MI ANCOVA|Roxadustat - placebo treatment difference|||1.245|-0.827|0.6924
92313116|NCT01750190|184528637|SUPERIORITY||Hazard Ratio (HR)|0.26|||<|0.0001|TWO_SIDED|95.0|0.165|0.406||From a Cox Proportional hazards model adjusting for baseline Hb, baseline eGFR and other randomization stratification factors, except baseline Hb (≤8 g/dL versus \>8 g/dL) and eGFR (\<30 versus ≥30 mL/min/1.73 m\^2).|Cox Proportional hazards model|||||0.406|0.165|<0.0001
92313117|NCT01750190|184528638|SUPERIORITY||Hazard Ratio (HR)|0.17|||<|0.0001|TWO_SIDED|95.0|0.108|0.267||From a Cox Proportional hazards model adjusting for baseline Hb, baseline eGFR and the randomization stratification factors, except baseline Hb (\<=8 g/dL versus \>8 g/dL) and eGFR (\<30 versus \>=30 mL/min/1.73m\^2).|Cox Proportional hazards model|||First 24 Weeks of Treatment||0.267|0.108|<0.0001
92313118|NCT01750190|184528638|SUPERIORITY||Hazard Ratio (HR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.138|0.276||From a Cox Proportional hazards model adjusting for baseline Hb, baseline eGFR and other randomization stratification factors, except baseline Hb (≤8 g/dL versus \>8 g/dL) and eGFR (\<30 versus ≥30 mL/min/1.73 m\^2).|Cox Proportional hazards model|||First 52 Weeks of Treatment||0.276|0.138|<0.0001
92313119|NCT05387889|184528663|SUPERIORITY||Mean Difference (Final Values)|0.05|||<|0.054|TWO_SIDED|95.0||||The threshold for the level of significance is set at less than or equal to 0.05|ANCOVA|||||||< 0.054
92313120|NCT05387889|184528664|SUPERIORITY||Mean Difference (Final Values)|0.05|||<|0.25|TWO_SIDED|95.0||||The threshold for the level of significance is set at less than or equal to 0.05|ANCOVA|||||||< 0.25
92313121|NCT05387889|184528665|SUPERIORITY||Mean Difference (Final Values)|0.05|||<|0.07|TWO_SIDED|95.0||||The threshold for the level of significance is set at less than or equal to 0.05|ANCOVA|||||||< 0.07
92313122|NCT03852537|184528689|SUPERIORITY|||||||0.494|||||||Fisher Exact|||||||0.494
92313123|NCT03852537|184528690|SUPERIORITY|||||||0.666|||||||Fisher Exact|||||||0.666
92191183|NCT03638258|184281203|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.002|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 8||||0.002
92313124|NCT03852537|184528691|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92313125|NCT03852537|184528693|SUPERIORITY|||||||0.477|||||||Fisher Exact|||||||0.477
92313126|NCT03852537|184528694|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.000
92191184|NCT03638258|184281203|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.064|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 8||||0.064
92313127|NCT03852537|184528695|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92313128|NCT03852537|184528696|SUPERIORITY|||||||0.011|||||||Fisher Exact|||||||0.011
92313129|NCT03852537|184528697|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92191185|NCT03638258|184281203|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.002|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 12||||0.002
92191186|NCT03638258|184281203|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.009|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 12||||0.009
92313130|NCT03852537|184528699|SUPERIORITY|||||||0.213|||||||Chi-squared|||||||0.213
92313131|NCT05534061|184528701|SUPERIORITY||Odds Ratio (OR)|0.98||||0.944|TWO_SIDED|95.0|0.62|1.56||A priori threshold for statistical significance was p\<.05.|Regression, Logistic|A multilevel logistic regression model was specified.|Contingency Management Alone coded as the reference group.|||1.56|0.62|.944
92313132|NCT05534061|184528702|SUPERIORITY||Odds Ratio (OR)|1.01||||0.952|TWO_SIDED|95.0|0.62|1.65||A priori threshold for statistical significance was p\<.05.|Regression, Logistic|A multilevel logistic regression model was specified.|Contingency Management Alone coded as the reference group.|||1.65|0.62|.952
92313133|NCT05534061|184528703|SUPERIORITY||Odds Ratio (OR)|1.16||||0.768|TWO_SIDED|95.0|0.43|3.11||A priori threshold for statistical significance was p\<.05.|Regression, Logistic|A multilevel logistic regression model was specified.|Contingency Management Alone coded as the reference group.|||3.11|0.43|.768
92313134|NCT05534061|184528704|SUPERIORITY||Odds Ratio (OR)|3.96||||0.008|TWO_SIDED|95.0|1.43|10.94||A priori threshold for statistical significance was p\<.05.|Regression, Logistic|A multilevel logistic regression model was specified.|Contingency Management Alone coded as the reference group.|||10.94|1.43|.008
92313135|NCT03762239|184528711|SUPERIORITY||Relative (percent) changes in the median|1.37||||0.52|TWO_SIDED|95.0|-2.81|5.56|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in better performance, relative to the classroom without air filter (normal air), in attention measures among adolescents in high schools.||5.56|-2.81|0.52
92313136|NCT03762239|184528712|SUPERIORITY||Beta coefficient|0.013||||0.72|TWO_SIDED|95.0|-0.0607|0.0865|||Regression, Linear|Using multiple imputation by chained equations. Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher riskloving behavior, relative to the classroom without air filter (normal air), in the combined risk taking measures among adolescents in high schools.||0.0865|-0.0607|0.72
92313137|NCT03762239|184528713|SUPERIORITY||Beta coefficient|-0.029||||0.5|TWO_SIDED|95.0|-0.117|0.0584|||Regression, Linear|Using multiple imputation by chained equations. Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher level of patience, relative to the classroom without air filter (normal air), in the combined patience measures among adolescents in high schools.||0.0584|-0.1170|0.50
92313138|NCT03762239|184528714|SUPERIORITY||Beta coefficient|0.06||||0.13|TWO_SIDED|95.0|-0.0184|0.1394|||Regression, Linear|Using multiple imputation by chained equations. Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher level of positive reciprocity behavior, relative to the classroom without air filter (normal air), in the positive reciprocity measures among adolescents in high schools||0.1394|-0.0184|0.13
92313139|NCT03762239|184528715|SUPERIORITY||Beta coefficient|0.022||||0.58|TWO_SIDED|95.0|-0.0595|0.1035|||Regression, Linear|Using multiple imputation by chained equations. Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher Altruism behavior, relative to the classroom without air filter (normal air), in the Altruism measures among adolescents in high schools.||0.1035|-0.0595|0.58
92313140|NCT03762239|184528716|SUPERIORITY||Beta coefficient|0.013||||0.89|TWO_SIDED|95.0|-0.1786|0.2049|||Ordered logistic regression|Using multiple imputation by chained equations. Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher trust, relative to the classroom without air filter (normal air), in the subjective trust measure among adolescents in high schools.||0.2049|-0.1786|0.89
92313141|NCT03762239|184528717|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.5|TWO_SIDED|95.0|-0.49|0.24|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.|Change comparing the filter group to the non-filter group|||0.24|-0.49|0.50
92313142|NCT03762239|184528718|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.47|TWO_SIDED|95.0|-0.2|0.1|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.|Change comparing the filter group to the non-filter group|||0.10|-0.20|0.47
92313143|NCT03762239|184528719|SUPERIORITY||Mean Difference (Final Values)|-3.38||||0.2|TWO_SIDED|95.0|-8.51|1.74|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.||||1.74|-8.51|0.20
92313144|NCT03762239|184528720|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.92|TWO_SIDED|95.0|-5.1|4.6|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.||||4.60|-5.10|0.92
92313145|NCT03762239|184528721|SUPERIORITY||Mean Difference (Final Values)|-1.36||||0.46|TWO_SIDED|95.0|-4.94|2.22|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.||||2.22|-4.94|0.46
92313146|NCT03762239|184528722|SUPERIORITY||Beta coefficient|-0.1446||||0.232|TWO_SIDED|95.0|-0.382|0.0928|||Ordered logistic regression|Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher assessment of math skills, relative to the classroom without air filter (normal air), in the self assessed math skills measure among adolescents in high schools.||0.0928|-0.3820|0.232
92313147|NCT00770328|184528727|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||||||0.0005
92313148|NCT00770328|184528728|SUPERIORITY|||||||0.0114|||||||Wilcoxon (Mann-Whitney)|||||||0.0114
92313149|NCT01776632|184528731|SUPERIORITY||difference of adjusted means|0.15||||0.03|TWO_SIDED||||||generalized linear mixed effects|||||||.03
92313150|NCT01776632|184528732|SUPERIORITY||difference of adjusted means|0.39||||0.003|TWO_SIDED||||||generalized linear mixed effects|||||||.003
92313151|NCT01776632|184528733|SUPERIORITY||difference of adjusted means|-0.43||||0.04|TWO_SIDED||||||mixed effects models|||||||.04
92313152|NCT01776632|184528734|SUPERIORITY||difference of adjusted means|-1.27||||0.09|TWO_SIDED||||||mixed effects models|||||||.09
92313153|NCT04604795|184528795|OTHER||Ratio of geometric mean|1.05|||||TWO_SIDED|90.0|0.833|1.331|||||Log transformed Cmax was analyzed using a mixed model with fixed effects for regimen and period, and participants as random effect.|||1.331|0.833|
92313154|NCT04604795|184528795|OTHER||Ratio of geometric mean|6.45|||||TWO_SIDED|90.0|4.916|8.474|||||Log transformed Cmax was analyzed using a mixed model with regimen, period, and regimen by period as fixed effects and participants as random effect.|||8.474|4.916|
92313155|NCT04604795|184528804|OTHER||Ratio of geometric mean|1.53|||||TWO_SIDED|90.0|1.268|1.847|||||AUC(0-inf) was analyzed using a mixed model with fixed effects for regimen and period, and participants as random effect.|||1.847|1.268|
92313156|NCT04604795|184528804|OTHER||Ratio of geometric mean|12.51|||||TWO_SIDED|90.0|10.141|15.423|||||Log transformed AUC(0-inf) was analyzed using a mixed model with regimen, period, and regimen by period as fixed effects and participants as random effect.|||15.423|10.141|
92313157|NCT04604795|184528841|OTHER||Ratio of geometric mean|0.47|||||TWO_SIDED|90.0|0.318|0.693|||||Day 5 (High fat meal) versus (vs) Day 3 (fasted)|||0.693|0.318|
92313158|NCT04604795|184528841|OTHER||Ratio of geometric mean|0.6|||||TWO_SIDED|90.0|0.405|0.882|||||Day 7 (Standard meal) vs Day 3 (fasted)|||0.882|0.405|
92313159|NCT04604795|184528841|OTHER||Ratio of geometric mean|0.29|||||TWO_SIDED|90.0|0.194|0.427|||||Day 5 (High fat meal) vs Day 3 (fasted)|||0.427|0.194|
92313160|NCT04604795|184528841|OTHER||Ratio of geometric mean|0.43|||||TWO_SIDED|90.0|0.292|0.643|||||Day 7 (Standard meal) vs Day 3 (fasted)|||0.643|0.292|
92313161|NCT04604795|184528841|OTHER||Ratio of geometric mean|0.42|||||TWO_SIDED|90.0|0.28|0.617|||||Day 5 (High fat meal) vs Day 3 (fasted)|||0.617|0.280|
92313162|NCT04604795|184528841|OTHER||Ratio of geometric mean|0.61|||||TWO_SIDED|90.0|0.41|0.903|||||Day 7 (Standard meal) vs Day 3 (fasted)|||0.903|0.410|
92313163|NCT04604795|184528843|OTHER||Ratio of geometric mean|1.02|||||TWO_SIDED|90.0|0.867|1.205|||||Day 5 (High fat meal) vs Day 3 (fasted)|||1.205|0.867|
92313164|NCT04604795|184528843|OTHER||Ratio of geometric mean|1.11|||||TWO_SIDED|90.0|0.941|1.308|||||Day 7 (Standard meal) vs Day 3 (fasted)|||1.308|0.941|
92313165|NCT04604795|184528843|OTHER||Ratio of geometric mean|0.79|||||TWO_SIDED|90.0|0.671|0.933|||||Day 5 (High fat meal) vs Day 3 (fasted)|||0.933|0.671|
92313166|NCT04604795|184528843|OTHER||Ratio of geometric mean|0.85|||||TWO_SIDED|90.0|0.724|1.007|||||Day 7 (Standard meal) vs Day 3 (fasted)|||1.007|0.724|
92313167|NCT04604795|184528843|OTHER||Ratio of geometric mean|0.84|||||TWO_SIDED|90.0|0.713|0.992|||||Day 5 (High fat meal) vs Day 3 (fasted)|||0.992|0.713|
92313168|NCT04604795|184528843|OTHER||Ratio of geometric mean|0.99|||||TWO_SIDED|90.0|0.837|1.165|||||Day 7 (Standard meal) vs Day 3 (fasted)|||1.165|0.837|
92313169|NCT00174954|184528874|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||The a priori threshold for statistical significance was 0.05.|paired t-test|||||||0.785
92313170|NCT00174954|184528875|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||The a priori threshold for statistical significance is 0.05.|paired t-test|||||||0.020
92313171|NCT00839254|184528876|SUPERIORITY|VE (defined as 1 minus Relative Risk (RR)) was calculated by comparing numbers of culture-confirmed IPD. The number of subjects with IPD in each cluster was compared between groups (10PN3+1 vs Control). This comparison was done using a negative binomial log-linear model with correction for dispersion group- and cluster-related effect.|VE (1-RR)|100.0|||<|0.0001|TWO_SIDED|95.0|82.8|100.0||P-value was calculated using a classical log linear Poisson regression with strata, without taking into account the multiplicity of the endpoints.|Regression, Linear|||Analysis aimed at providing an estimate of vaccine effectiveness (VE) at preventing culture-confirmed IPD by comparing PYARs between groups taking into account the following parameters: T, n, n+ (number of clusters with at least one event culture-confirmed ID), and n/T. VE of the 10Pn vaccine in preventing culture-confirmed IPD due to the 10 vaccine serotypes was demonstrated if the 2-sided p-value calculated for the null hypothesis H0 = (vaccine-type \[VT\] IPD VE = 0%) was lower than (\<) 5%.||100|82.8|<0.0001
92313172|NCT00839254|184528877|SUPERIORITY|VE (defined as 1 minus Relative Risk (RR)) was calculated by comparing numbers of culture-confirmed IPD. The number of subjects with IPD in each cluster was compared between groups (10PN2+1 vs Control). This comparison was done using a negative binomial log-linear model with correction for dispersion group- and cluster-related effect.|VE (1-RR)|91.8|||=|0.0009|TWO_SIDED|95.0|58.3|99.6||p-value was calculated using a classical log linear Poisson regression with strata, without taking into account the multiplicity of the endpoints.|Regression, Linear|||Analysis aimed at providing an estimate of vaccine effectiveness (VE) at preventing culture-confirmed IPD by comparing PYARs between groups taking into account the following parameters: T, n, n+ (number of clusters with at least one event culture-confirmed ID), and n/T. VE of the 10Pn vaccine in preventing culture-confirmed IPD due to the 10 vaccine serotypes was demonstrated if the 2-sided p-value calculated for the null hypothesis H0 = (vaccine-type \[VT\] IPD VE = 0%) was lower than (\<) 5%.||99.6|58.3|= 0.0009
92313173|NCT00509795|184528998|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%. The power is 90% according to the sample size estimation of the study protocol. Although not in the analysis plan for the study, in a separate communication, the FDA further explained that, whereas the 10% non-inferiority margin would be used to assess non-inferiority, a 5% non-inferiority margin would be used to assess clinical equivalence.|Risk Difference (RD)|-0.7|||||TWO_SIDED|95.1|-4.4|3.1|||||The difference is calculated as ranibizumab minus IAI. A positive value favors IAI 2.0Q4. As adjustment of multiple comparisons as conditional sequence of statistical hypotheses is used with alpha = 0.049.|The statistical approach included a conditional sequence of calculations of the 95.1% CI using normal approximation of the difference between the proportion of patients with maintained vision at Week 52 for the group treated with 0.5 mg ranibizumab and the proportion of patients with maintained vision for each of the groups treated with IAI.||3.1|-4.4|
92191187|NCT03638258|184281204|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.188|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 4||||0.188
92313174|NCT00509795|184528998|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%. The power is 90% according to the sample size estimation of the study protocol. Although not in the analysis plan for the study, in a separate communication, the FDA further explained that, whereas the 10% non-inferiority margin would be used to assess non-inferiority, a 5% non-inferiority margin would be used to assess clinical equivalence.|Risk Difference (RD)|-1.5|||||TWO_SIDED|95.1|-5.1|2.1|||||The difference is calculated as ranibizumab minus IAI. A negative value favors the IAI 0.5Q4 group. As adjustment of multiple comparisons as conditional sequence of statistical hypotheses is used with alpha = 0.049.|The statistical approach included a conditional sequence of calculations of the 95.1% CI using normal approximation of the difference between the proportion of patients with maintained vision at Week 52 for the group treated with 0.5 mg ranibizumab and the proportion of patients with maintained vision for each of the groups treated with IAI (EYLEA, VEGF Trap-Eye).||2.1|-5.1|
92191188|NCT03638258|184281204|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.577|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 4||||0.577
92191189|NCT03638258|184281204|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.008|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 6||||0.008
92191190|NCT03638258|184281204|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.664|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 6||||0.664
92191191|NCT03638258|184281204|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.015|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 8||||0.015
92313175|NCT00509795|184528998|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%. The power is 90% according to the sample size estimation of the study protocol. Although not in the analysis plan for the study, in a separate communication, the FDA further explained that, whereas the 10% non-inferiority margin would be used to assess non-inferiority, a 5% non-inferiority margin would be used to assess clinical equivalence.|Risk Difference (RD)|-0.7|||||TWO_SIDED|95.1|-4.5|3.1|||||The difference is calculated as ranibizumab minus IAI. A negative value favors the IAI 2.0Q8 group. As adjustment of multiple comparisons as conditional sequence of statistical hypotheses is used with alpha = 0.049.|The statistical approach included a conditional sequence of calculations of the 95.1% CI using normal approximation of the difference between the proportion of patients with maintained vision at Week 52 for the group treated with 0.5 mg ranibizumab and the proportion of patients with maintained vision for each of the groups treated with IAI (EYLEA, VEGF Trap-Eye).||3.1|-4.5|
92313176|NCT00509795|184528999|SUPERIORITY_OR_OTHER||Differences in Least Squares means|3.15||||0.0054|TWO_SIDED|95.1|0.92|5.37||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 2.0Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||5.37|0.92|0.0054
92313177|NCT00509795|184528999|SUPERIORITY_OR_OTHER||Differences in Least Squares means|0.8||||0.4793|TWO_SIDED|95.1|-3.03|1.43||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 0.5Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||1.43|-3.03|0.4793
92313178|NCT00509795|184528999|SUPERIORITY_OR_OTHER||Differences in Least Squares Means|0.26||||0.8179|TWO_SIDED|95.1|-1.97|2.49||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 2.0Q8.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||2.49|-1.97|0.8179
92313179|NCT00509795|184529000|SUPERIORITY_OR_OTHER||Risk Difference (RD)|6.6||||0.1042|TWO_SIDED|95.1|-1.0|14.1||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049.|Chi-squared||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 2.0Q4.|The null hypothesis is that both percentages are equal.||14.1|-1.0|0.1042
92313180|NCT00509795|184529000|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-6.0||||0.1037|TWO_SIDED|95.1|-13.2|1.2||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049.|Chi-squared||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 0.5Q4.|The null hypothesis is that both percentages are equal.||1.2|-13.2|0.1037
92313181|NCT00509795|184529000|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4||||0.93|TWO_SIDED|95.1|-7.7|7.0||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049.|Chi-squared||The difference is calculated as VEGF Trap-Eye minus ranibizumab. A positive value favors VEGF Trap-Eye 2.0Q8.|The pairwise The null hypothesis is that both percentages are equal.||7.0|-7.7|0.93
92191192|NCT03638258|184281204|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.666|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 8||||0.666
92191193|NCT03638258|184281204|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.009|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 12||||0.009
92191194|NCT03638258|184281204|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.163|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 12||||0.163
92313182|NCT00509795|184529001|SUPERIORITY_OR_OTHER||Differences Least Squares means|1.28||||0.209|TWO_SIDED|95.1|-0.73|3.28||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 2.0Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||3.28|-0.73|0.2090
92191195|NCT03638258|184281205|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible. ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||||||0.002|||||||ANOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream on Week 4||||0.002
92191196|NCT03638258|184281205|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.002|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream at Week 4||||0.002
92191197|NCT03638258|184281205|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream at Week 6||||<0.001
92191198|NCT03638258|184281205|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from placebo at Week 6||||<0.001
92313183|NCT00509795|184529001|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.67||||0.5128|TWO_SIDED|95.1|-2.69|1.35||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 0.5Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||1.35|-2.69|0.5128
92313184|NCT00509795|184529001|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.6||||0.5579|TWO_SIDED|95.1|-2.61|1.42||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 2.0Q8.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||1.42|-2.61|0.5579
92313185|NCT00509795|184529002|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.33||||0.3575|TWO_SIDED|95.1|-1.04|0.38||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A negative value favors IAI 2.0Q4|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||0.38|-1.04|0.3575
92313186|NCT00509795|184529002|SUPERIORITY_OR_OTHER||Differences in Least Squares means|0.71||||0.0507|TWO_SIDED|95.1|-0.01|1.42||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A negative value favors IAI 0.5Q4|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||1.42|-0.01|0.0507
92313187|NCT00509795|184529002|SUPERIORITY_OR_OTHER||Differences in Least Squares means|0.86||||0.0173|TWO_SIDED|95.1|0.15|1.58||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A negative value favors IAI 2.0Q8|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||1.58|0.15|0.0173
92313188|NCT02213289|184529059|SUPERIORITY|||||||0.0024|||||||One-sided Z-test|This was a test of whether the observed 1-year survival rate was significantly different from historical 50% rate.||||||0.0024
92191199|NCT03638258|184281205|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from placebo at Week 8||||<0.001
92191200|NCT03638258|184281205|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream at Week 8||||<0.001
92313189|NCT02687529|184529068|EQUIVALENCE|The number of positive and negative CST001 assay results for each subject, across all sites and operators were compared. In order for a subject to have a concordant result, the same assay call must be observed for all replicates across all sites (6/6).|proportion of concordant calls|83.33|||||TWO_SIDED|95.0|72.13|91.38||||||||91.38|72.13|
92313190|NCT01579747|184529072|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Normality of distribution was assessed with the Shapiro-Wilk test. For normally-distributed continuous variables, the groups' distributions were described as means and standard deviations (SD). Student's t-test was used to compare groups in these cases with statistically-significant differences summarized using 95% confidence intervals as appropriate. For all comparisons, two-tailed p\<0.05 was considered statistically significant.||||<0.05
92191201|NCT03638258|184281205|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream at Week 12||||<0.001
92313191|NCT03620708|184529155|SUPERIORITY||chi-square|3.492|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92313192|NCT03620708|184529156|SUPERIORITY||chi-square|4.36||||0.113|TWO_SIDED||||||Chi-squared|||||||.113
92313193|NCT03620708|184529157|SUPERIORITY||Mean Difference (Final Values)|3.661||||0.032|TWO_SIDED||||||ANOVA|||||||.032
92313194|NCT03620708|184529158|SUPERIORITY||Mean Difference (Final Values)|1.543||||0.227|TWO_SIDED||||||ANOVA|||Examination of differences between groups at follow-up on a measure of confidence in ability to quit.||||.227
92191202|NCT03638258|184281205|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream at Week 12||||<0.001
92313195|NCT03620708|184529158|SUPERIORITY||Mean Difference (Final Values)|0.338||||0.715|TWO_SIDED||||||ANOVA|||Examination of differences between groups at follow-up on a measure of self-reported importance of quitting smoking.||||.715
92191203|NCT03638258|184281206|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.184|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss score.||Difference from vehicle cream at Week 4||||0.184
92191204|NCT03638258|184281206|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.207|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from placebo at Week 4||||0.207
92191205|NCT03638258|184281206|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.004|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from vehicle cream at Week 6||||0.004
92191206|NCT03638258|184281206|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.022|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from vehicle cream at Week 6||||0.022
92313196|NCT03620708|184529158|SUPERIORITY||Mean Difference (Final Values)|1.712||||0.19|TWO_SIDED||||||ANOVA|||Examination of differences between groups at follow-up on a measure of self-reported readiness to quit smoking.||||.190
92313197|NCT03620708|184529159|SUPERIORITY||Mean Difference (Final Values)|1.728||||0.188|TWO_SIDED||||||ANOVA|||||||.188
92313198|NCT03631199|184529242|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.62||||0.00164|TWO_SIDED|95.0|0.45|0.86|||Log Rank|||Chest pain||0.86|0.45|0.00164
92313199|NCT03631199|184529242|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.59||||0.00069|TWO_SIDED|95.0|0.43|0.82|||Log Rank|||Cough||0.82|0.43|0.00069
92313200|NCT03631199|184529242|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.66||||0.00045|TWO_SIDED|95.0|0.51|0.84|||Log Rank|||Dyspnea||0.84|0.51|0.00045
92313201|NCT03631199|184529243|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.86||||0.113|TWO_SIDED|95.0|0.66|1.1|||Log Rank|||Quality of Life||1.10|0.66|0.113
92313202|NCT03631199|184529243|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.68||||0.00433|TWO_SIDED|95.0|0.51|0.91|||Log Rank|||Shortness of Breath||0.91|0.51|0.00433
92313203|NCT03631199|184529243|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.93||||0.294|TWO_SIDED|95.0|0.72|1.2|||Log Rank|||Pain||1.20|0.72|0.294
92313204|NCT03690388|184529335|SUPERIORITY||Hazard Ratio (HR)|0.22|||<|0.0001|TWO_SIDED|96.0|0.13|0.36|||Log Rank|||||0.36|0.13|< 0.0001
92313205|NCT03765788|184529337|SUPERIORITY||Odds Ratio (OR)|9.31|||||TWO_SIDED|95.0|3.54|26.29|||||Odd Ratio (posterior median) median and 95% credibility interval calculated using the Bayesian inference|Odds Ratio||26.29|3.54|
92313206|NCT03176134|184529374|OTHER||Estimated Difference|6.5|||||TWO_SIDED|95.0|-12.2|25.3|||||The estimated difference in the clinical success rate and 2-sided 95% confidence interval (CI) were calculated using the unstratified method of Miettinen and Nurminen.|||25.3|-12.2|
92313207|NCT03176134|184529374|OTHER||Estimated Difference|-12.5|||||TWO_SIDED|95.0|-28.7|3.7|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||3.7|-28.7|
92191207|NCT03638258|184281206|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.003|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from vehicle cream at Week 8||||0.003
92313208|NCT03176134|184529374|OTHER||Estimated Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
92313209|NCT03176134|184529374|OTHER||Estimated Difference|1.3|||||TWO_SIDED|95.0|-10.7|13.4|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||13.4|-10.7|
92313210|NCT03176134|184529375|OTHER||Estimated Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated difference in the clinical success rate and 2-sided 95% confidence interval (CI) were calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
92313211|NCT03176134|184529375|OTHER||Estimated Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
92313212|NCT03176134|184529375|OTHER||Estimated Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
92313213|NCT03176134|184529375|OTHER||Estimated Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
92313214|NCT03915652|184529376|SUPERIORITY||Mean Difference (Final Values)|-0.93||||0.34|TWO_SIDED|95.0|-2.88|1.02|||t-test, 2 sided|Paired t-test||Waves 1 and 2 were combined and appointment nonadherence during the intervention was compared with the 12 months prior.||1.02|-2.88|0.34
92313215|NCT03915652|184529377|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.34|TWO_SIDED|95.0|-1.08|0.39|||t-test, 2 sided|Paired t-test||Waves 1 and 2 were combined and emergency department visits and hospitalizations during the intervention was compared with the 12 months prior.||0.39|-1.08|0.34
92313216|NCT03915652|184529378|SUPERIORITY||Mean Difference (Final Values)|0.59|||<|0.001|TWO_SIDED|95.0|0.45|0.73|||t-test, 1 sided|One sided t-test of percent of needs remaining from 100%.||Wave 1 and Wave 2 were combined and the quality metric at the end of the 12-month intervention was compared to the metric from the start of the intervention.||0.73|0.45|<0.001
92313217|NCT03915652|184529379|SUPERIORITY||Mean Difference (Final Values)|7.5||||0.51|TWO_SIDED|95.0|-19.8|34.8|||t-test, 2 sided|||||34.8|-19.8|0.51
92313218|NCT03915652|184529380|SUPERIORITY||Mean Difference (Final Values)|0.74||||0.17|TWO_SIDED|95.0|-0.43|1.92|||t-test, 2 sided|Paired t-test||Waves 1 and 2 combined, compared post to pre.||1.92|-0.43|0.17
92313219|NCT03915652|184529381|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.72|TWO_SIDED|95.0|-4.92|6.52|||t-test, 2 sided|Paired t-test||Waves 1 and 2 combined, compared pre/post intervention||6.52|-4.92|0.72
92313220|NCT03915652|184529382|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.5|TWO_SIDED|95.0|-6.22|10.22|||t-test, 2 sided|||Waves 1 and 2 are combined; pre/post survey analysis||10.22|-6.22|0.50
92313221|NCT03915652|184529383|SUPERIORITY||Mean Difference (Final Values)|3.77||||0.01|TWO_SIDED|95.0|1.06|6.47|||t-test, 2 sided|||Waves 1 and 2 combined; pre/post analysis||6.47|1.06|0.01
92313222|NCT03915652|184529384|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.77|TWO_SIDED|95.0|-1.27|0.98|||t-test, 2 sided|Paired t-test||Waves 1 and 2 combined, pre/post test||0.98|-1.27|0.77
92313223|NCT03915652|184529385|SUPERIORITY||Mean Difference (Final Values)|2.14||||0.37|TWO_SIDED|95.0|-3.23|7.52|||t-test, 2 sided|Paired t-test||Waves 1 and 2 combined; pre/post analysis||7.52|-3.23|0.37
92313224|NCT05736861|184529386|SUPERIORITY|Decision rule based on Bayesian posterior probability of efficacy. The decision threshold was a posterior probability of 0.95. A prespecified skeptical prior for the treatment effect was used to preserve type I error below 0.05.|Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.96|1.17|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.17|0.96|
92313225|NCT05736861|184529387|SUPERIORITY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.4|2.6|||||The interval is a highest-density credible interval. Descriptive analysis is a maximum partial likelihood proportional hazards regression model. Low event rate precluded covariate adjustment.|||2.6|0.4|
92313226|NCT05736861|184529390|SUPERIORITY|Statistical analysis was a Bayesian proportional hazards regression model with covariate adjustment and weakly informative priors.|Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.6|1.8|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.8|0.6|
92313227|NCT05736861|184529391|SUPERIORITY|Statistical analysis was a Bayesian cumulative probability ordinal regression model with covariate adjustment and weakly informative priors.|Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.5|1.13|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|||1.13|0.50|
92313228|NCT05736861|184529392|SUPERIORITY||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.39|1.13|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|||1.13|0.39|
92313229|NCT05736861|184529393|SUPERIORITY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.52|1.91|||||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|1.91|0.52|
92313230|NCT05736861|184529394|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.82|1.25|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.25|0.82|
92313231|NCT05736861|184529394|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.78|1.23|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.23|0.78|
92313232|NCT05736861|184529394|OTHER||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.82|1.41|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.41|0.82|
92313233|NCT05736861|184529394|OTHER||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.57|1.01|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.01|0.57|
92313234|NCT05736861|184529395|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.92|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.32|0.92|
92313235|NCT05736861|184529395|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.83|1.22|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.22|0.83|
92313236|NCT05736861|184529395|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.83|1.24|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.24|0.83|
92313237|NCT05736861|184529395|OTHER||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.72|1.1||||||Day 90|Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|1.10|0.72|
92313238|NCT05736861|184529396|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.8|1.2|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.20|0.80|
92313239|NCT05736861|184529396|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.78|1.25|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.25|0.78|
92313240|NCT05736861|184529396|OTHER||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.86|1.43|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.43|0.86|
92191208|NCT03638258|184281206|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from vehicle cream at Week 8||||<0.001
92313241|NCT05736861|184529396|OTHER||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.66|1.12|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.12|0.66|
92313242|NCT05736861|184529397|OTHER||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.87|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.35|0.87|
92313243|NCT05736861|184529397|OTHER||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|0.96|1.57|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.57|0.96|
92313244|NCT05736861|184529397|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.92|1.54|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.54|0.92|
92313245|NCT05736861|184529397|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.71|1.18|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.18|0.71|
92313246|NCT05736861|184529398|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.97|1.47|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.47|0.97|
92313247|NCT05736861|184529398|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.84|1.33|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.33|0.84|
92313248|NCT05736861|184529398|OTHER||Odds Ratio (OR)|1.21|||||TWO_SIDED|95.0|0.95|1.55|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.55|0.95|
92313249|NCT05736861|184529398|OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.73|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.19|0.73|
92313250|NCT05736861|184529399|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.86|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.26|0.86|
92313251|NCT05736861|184529399|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.85|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.29|0.85|
92313252|NCT05736861|184529399|OTHER||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.85|1.34|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.34|0.85|
92313253|NCT05736861|184529399|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.8|1.28|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.28|0.80|
92313254|NCT05736861|184529400|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.88|1.27|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.27|0.88|
92313255|NCT05736861|184529400|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.79|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.14|0.79|
92313256|NCT05736861|184529400|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.75|1.09|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.09|0.75|
92313257|NCT05736861|184529400|OTHER||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.93|1.36|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.36|0.93|
92313258|NCT05736861|184529401|SUPERIORITY||Difference in model estimate time unwell|-0.49|||||TWO_SIDED|95.0|-0.82|-0.15|||||The interval is a highest-density credible interval.|||-0.15|-0.82|
92313259|NCT05736861|184529402|SUPERIORITY||Difference in model estimated means|0.59|||||TWO_SIDED|95.0|0.18|0.99|||||The interval is a highest-density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.99|0.18|
92313260|NCT01130532|184529427|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92313261|NCT01130532|184529427|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92313262|NCT01130532|184529428|SUPERIORITY_OR_OTHER||LS Mean Difference|6.1|STANDARD_ERROR_OF_MEAN|0.69|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313263|NCT01130532|184529428|SUPERIORITY_OR_OTHER||LS Mean Difference|6.2|STANDARD_ERROR_OF_MEAN|0.68|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313264|NCT01130532|184529429|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|0.29|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313265|NCT01130532|184529429|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|0.29|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313266|NCT01130532|184529430|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.23|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313267|NCT01130532|184529430|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.22|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313268|NCT01130532|184529431|SUPERIORITY_OR_OTHER||LS Mean Difference|10.4|STANDARD_ERROR_OF_MEAN|2.28|<|0.001||95.0||||P-value is for Question 1. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313269|NCT01130532|184529431|SUPERIORITY_OR_OTHER||LS Mean Difference|9.6|STANDARD_ERROR_OF_MEAN|2.26|<|0.001||95.0||||P-value is for Question 1. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313270|NCT01130532|184529431|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|STANDARD_ERROR_OF_MEAN|3.14|<|0.001||95.0||||P-value is for Question 2. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313271|NCT01130532|184529431|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|STANDARD_ERROR_OF_MEAN|3.12|<|0.001||95.0||||P-value is for Question 2. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92191209|NCT03638258|184281206|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible. ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||||||0.003|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from vehicle cream at Week 12||||0.003
92313272|NCT01130532|184529431|SUPERIORITY_OR_OTHER||LS Mean Difference|24.7|STANDARD_ERROR_OF_MEAN|3.53|<|0.001||95.0||||P-value is for Question 3. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313273|NCT01130532|184529431|SUPERIORITY_OR_OTHER||LS Mean Difference|26.8|STANDARD_ERROR_OF_MEAN|3.5|<|0.001||95.0||||P-value is for Question 3. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313274|NCT01130532|184529431|SUPERIORITY_OR_OTHER||LS Mean Difference|32.7|STANDARD_ERROR_OF_MEAN|3.82|<|0.001||95.0||||P-value is for Question 4. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313275|NCT01130532|184529431|SUPERIORITY_OR_OTHER||LS Mean Difference|31.3|STANDARD_ERROR_OF_MEAN|3.79|<|0.001||95.0||||P-value is for Question 4. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313276|NCT01130532|184529431|SUPERIORITY_OR_OTHER||LS Mean Difference|33.0|STANDARD_ERROR_OF_MEAN|3.78|<|0.001||95.0||||P-value is for Question 5. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92191210|NCT03638258|184281206|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.01||||||ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.|ANCOVA|||Difference from vehicle cream at Week 12||||0.01
92191211|NCT03638258|184281207|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.255|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 4||||0.255
92313277|NCT01130532|184529431|SUPERIORITY_OR_OTHER||LS Mean Difference|30.5|STANDARD_ERROR_OF_MEAN|3.75|<|0.001||95.0||||P-value is for Question 5. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313278|NCT01130532|184529432|SUPERIORITY_OR_OTHER||LS Mean Difference|23.1|STANDARD_ERROR_OF_MEAN|2.49|<|0.001||95.0||||P-value is for confidence to complete sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313279|NCT01130532|184529432|SUPERIORITY_OR_OTHER||LS Mean Difference|25.4|STANDARD_ERROR_OF_MEAN|2.48|<|0.001||95.0||||P-value is for confidence to complete sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313280|NCT01130532|184529432|SUPERIORITY_OR_OTHER||LS Mean Difference|19.9|STANDARD_ERROR_OF_MEAN|2.36|<|0.001||95.0||||P-value is for ease of erection. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313281|NCT01130532|184529432|SUPERIORITY_OR_OTHER||LS Mean Difference|20.6|STANDARD_ERROR_OF_MEAN|2.35|<|0.001||95.0||||P-value is for ease of erection. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313282|NCT01130532|184529432|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|STANDARD_ERROR_OF_MEAN|2.21|<|0.001||95.0||||P-value is for pleasure from sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92191212|NCT03638258|184281207|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.687|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream on Week 4||||0.687
92191213|NCT03638258|184281207|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.045|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 6||||0.045
92191214|NCT03638258|184281207|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.059|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 6||||0.059
92313283|NCT01130532|184529432|SUPERIORITY_OR_OTHER||LS Mean Difference|19.5|STANDARD_ERROR_OF_MEAN|2.2|<|0.001||95.0||||P-value is for pleasure from sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313284|NCT01130532|184529432|SUPERIORITY_OR_OTHER||LS Mean Difference|26.0|STANDARD_ERROR_OF_MEAN|2.54|<|0.001||95.0||||P-value is for erectile function satisfaction. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313285|NCT01130532|184529432|SUPERIORITY_OR_OTHER||LS Mean Difference|28.7|STANDARD_ERROR_OF_MEAN|2.53|<|0.001||95.0||||P-value is for erectile function satisfaction. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313286|NCT01130532|184529432|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|STANDARD_ERROR_OF_MEAN|2.65|<|0.001||95.0||||P-value is for satisfaction with orgasm. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313287|NCT01130532|184529432|SUPERIORITY_OR_OTHER||LS Mean Difference|20.1|STANDARD_ERROR_OF_MEAN|2.64|<|0.001||95.0||||P-value is for satisfaction with orgasm. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313288|NCT01130532|184529433|SUPERIORITY_OR_OTHER||LS Mean Difference|28.9|STANDARD_ERROR_OF_MEAN|2.77|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANOVA|||||||<0.001
92313289|NCT01130532|184529433|SUPERIORITY_OR_OTHER||LS Mean Difference|31.0|STANDARD_ERROR_OF_MEAN|2.76|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANOVA|||||||<0.001
92313290|NCT01130532|184529434|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313291|NCT01130532|184529434|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.11|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313292|NCT01130532|184529435|SUPERIORITY_OR_OTHER||LS Mean Difference|21.7|STANDARD_ERROR_OF_MEAN|2.81|<|0.001||95.0||||P-value is for confidence to complete sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313293|NCT01130532|184529435|SUPERIORITY_OR_OTHER||LS Mean Difference|25.2|STANDARD_ERROR_OF_MEAN|2.78|<|0.001||95.0||||P-value is for confidence to complete sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92191215|NCT03638258|184281207|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.051|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 8||||0.051
92313294|NCT01130532|184529435|SUPERIORITY_OR_OTHER||LS Mean Difference|22.3|STANDARD_ERROR_OF_MEAN|2.46|<|0.001||95.0||||P-value is for ease of erection. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313295|NCT01130532|184529435|SUPERIORITY_OR_OTHER||LS Mean Difference|24.5|STANDARD_ERROR_OF_MEAN|2.44|<|0.001||95.0||||P-value is for ease of erection. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313296|NCT01130532|184529435|SUPERIORITY_OR_OTHER||LS Mean Difference|16.9|STANDARD_ERROR_OF_MEAN|2.37|<|0.001||95.0||||P-value is for pleasure from sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313297|NCT01130532|184529435|SUPERIORITY_OR_OTHER||LS Mean Difference|17.2|STANDARD_ERROR_OF_MEAN|2.35|<|0.001||95.0||||P-value is for pleasure from sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313298|NCT01130532|184529435|SUPERIORITY_OR_OTHER||LS Mean Difference|25.2|STANDARD_ERROR_OF_MEAN|2.57|<|0.001||95.0||||P-value is for erectile function satisfaction. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313299|NCT01130532|184529435|SUPERIORITY_OR_OTHER||LS Mean Difference|25.1|STANDARD_ERROR_OF_MEAN|2.56|<|0.001||95.0||||P-value is for erectile function satisfaction. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92191216|NCT03638258|184281207|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.013|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 8||||0.013
92313300|NCT01130532|184529435|SUPERIORITY_OR_OTHER||LS Mean Difference|15.1|STANDARD_ERROR_OF_MEAN|2.88|<|0.001||95.0||||P-value is for satisfaction with orgasm. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92191217|NCT03638258|184281207|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.036|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 12||||0.036
92313301|NCT01130532|184529435|SUPERIORITY_OR_OTHER||LS Mean Difference|17.3|STANDARD_ERROR_OF_MEAN|2.86|<|0.001||95.0||||P-value is for satisfaction with orgasm. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
92313302|NCT01130532|184529436|SUPERIORITY_OR_OTHER||LS Mean Difference|25.1|STANDARD_ERROR_OF_MEAN|2.76|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANOVA|||||||<0.001
92313303|NCT01130532|184529436|SUPERIORITY_OR_OTHER||LS Mean Difference|28.2|STANDARD_ERROR_OF_MEAN|2.74|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANOVA|||||||<0.001
92313304|NCT01130532|184529438|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||<0.001
92313305|NCT01130532|184529438|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||<0.001
92191218|NCT03638258|184281207|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 12||||0.001
92191219|NCT04405089|184281250|OTHER||Linear regression|0.03|||||TWO_SIDED|||||||||Linear regression (number of traumatic brain injuries versus Binge Eating Scale score at baseline).||||
92191220|NCT04405089|184281251|OTHER||Linear regression|-0.33|||||TWO_SIDED|||||||||Linear regression (number of traumatic brain injuries versus NIH Flanker score at baseline).||||
92313306|NCT01130532|184529438|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||<0.001
92313307|NCT01130532|184529439|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||0.002
92313308|NCT01130532|184529439|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||0.004
92313309|NCT01130532|184529439|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||<0.001
92313310|NCT03041311|184529453|SUPERIORITY||||||<|0.0001|ONE_SIDED|95.0||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (for 2 primary and 3 key secondary endpoints) in a strong sense at a 1-sided 0.025 level.|non-parametric ANCOVA|Hochberg-based gatekeeping procedure||Treatment difference was evaluated using a nonparametric analysis of covariance (ANCOVA). The nonparametric ANCOVA included study baseline ANC value as covariate, stratification factors of ECOG performance status (0 to 1 versus 2) and brain metastases (Yes versus No), and treatment as a fixed effect.||||<0.0001
92313311|NCT03041311|184529454|SUPERIORITY||||||<|0.0001||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (for 2 primary and 3 key secondary endpoints) in a strong sense at a 1-sided 0.025 level.|Modified Poisson|Hochberg-based gatekeeping procedure||The occurrence of SN was a binary variable. Treatment group difference was analyzed using a modified Poisson regression model to account for the variable duration of the Induction Period for each patient. The model included baseline ANC count as a covariate, the stratification factors of ECOG performance status (0 to1 vs. 2) and brain metastases (Yes vs. No), and treatment as a fixed effect. The logarithm transformation of # of Induction cycles was included as an offset variable in the modeling.||||<0.0001
92313312|NCT03041311|184529455|SUPERIORITY|||||||0.0195||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (for 2 primary and 3 key secondary endpoints) in a strong sense at a 1-sided 0.025 level.|negative binomial regression|Hochberg-based gatekeeping procedure||||||0.0195
92313313|NCT03041311|184529456|SUPERIORITY|||||||0.1335||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (for 2 primary and 3 key secondary endpoints) in a strong sense at a 1-sided 0.025 level.|Modified Poisson|Hochberg-based gatekeeping procedure||Treatment group difference was analyzed using a modified Poisson regression model. The model included baseline hemoglobin as a covariate, the stratification factors of ECOG performance status (0 to 1 versus 2) and brain metastases (Yes versus No) and treatment as a fixed effect. The logarithm transformation of the number of weeks on treatment was included as an offset variable in the model.||||0.1335
92313314|NCT03041311|184529457|SUPERIORITY|||||||0.0686||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (for 2 primary and 3 key secondary endpoints) in a strong sense at a 1-sided 0.025 level.|Modified Poisson|Hochberg-based gatekeeping procedure||Treatment group difference was analyzed using a modified Poisson regression model to account for the variable duration of the Induction Period for each patient. The model included baseline absolute neutrophil count as a covariate, the stratification factors of ECOG performance status (0 to 1 versus 2) and brain metastases (Yes versus No), and treatment as a fixed effect. The logarithm transformation of number of Induction cycles was included as an offset variable in the modeling.||||0.0686
92313315|NCT03041311|184529458|SUPERIORITY|For time-to-event variable, the Kaplan-Meier method was used to estimate its within group median value, 25% and 75% percentile values.|Hazard Ratio (HR)|0.99|STANDARD_ERROR_OF_MEAN|0.218||0.9942|TWO_SIDED|95.0|0.64|1.52||The 2-sided p-value was obtained from the stratified log-rank test to account for the stratification factors.|Log Rank|stratified log-rank test|The HR and its 95% CI were calculated using the Cox proportional hazard regression model with treatment and stratification factors of ECOG performance status (0 to 1 versus 2) and presence of brain metastases (Yes versus No).|||1.52|0.64|0.9942
92313316|NCT04909853|184529483|OTHER||Ratio of Adjusted Geometric Means|129.78|||||TWO_SIDED|90.0|101.93|165.25|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||165.25|101.93|
92313317|NCT04909853|184529483|OTHER||Ratio of Adjusted Geometric Means|138.12|||||TWO_SIDED|90.0|113.18|168.55|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||168.55|113.18|
92191221|NCT04405089|184281252|OTHER||Linear regression|0.04|||||TWO_SIDED|||||||||Linear regression (number of traumatic brain injuries versus NIH Set Shifting score at baseline).||||
92313318|NCT04909853|184529483|OTHER||Ratio of Adjusted Geometric Means|148.02|||||TWO_SIDED|90.0|111.4|196.68|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||196.68|111.40|
92313319|NCT04909853|184529484|OTHER||Ratio of Adjusted Geometric Means|123.84|||||TWO_SIDED|90.0|99.64|153.91|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||153.91|99.64|
92313320|NCT04909853|184529484|OTHER||Ratio of Adjusted Geometric Means|187.4|||||TWO_SIDED|90.0|148.52|236.46|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||236.46|148.52|
92313321|NCT04909853|184529484|OTHER||Ratio of Adjusted Geometric Means|304.49|||||TWO_SIDED|90.0|237.6|390.21|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||390.21|237.60|
92191222|NCT00179478|184281253|SUPERIORITY|||||||0.001||||||Based on adjusted Hazard Ratio (HR)|Regression, Cox|HR adjusted for age, onset event type, baseline brain MRI T2 lesion and number and baseline number of gad enhancing lesions||||||0.001
92191223|NCT00179478|184281254|SUPERIORITY|||||||0.02||||||a priori threshold for statistical significance was a p value less than 0.01|Wilcoxon (Mann-Whitney)|||||||0.02
92191224|NCT00179478|184281255|SUPERIORITY|||||||0.61||||||a priori threshold for statistical significance was a p value \< 0.01|Fisher Exact|||||||0.61
92313322|NCT01783990|184529508|SUPERIORITY|||||||0.33|||||||Fisher Exact|||The primary analysis compared the frequency of worsening spleen function (from normal to decreased or absent, or from decreased to absent).||||0.33
92313323|NCT01783990|184529509|SUPERIORITY|||||||0.8|||||||Fisher Exact|||The primary analysis compared the frequency of worsening spleen function (from normal to decreased or absent, or from decreased to absent).||||0.80
92313324|NCT01783990|184529510|SUPERIORITY|||||||0.87|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.87
92313325|NCT01783990|184529511|SUPERIORITY|||||||0.28|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.28
92313326|NCT01783990|184529512|SUPERIORITY|||||||0.31|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.31
92313327|NCT01783990|184529513|SUPERIORITY|||||||0.04|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.04
92313328|NCT01038336|184529514|SUPERIORITY_OR_OTHER|||||||0.289|TWO_SIDED||||||Chi-squared|||||||0.289
92313329|NCT01038336|184529515|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||ANOVA|||||||0.004
92313330|NCT01038336|184529516|SUPERIORITY_OR_OTHER|||||||0.072|TWO_SIDED||||||ANOVA|||||||0.072
92191225|NCT00179478|184281256|SUPERIORITY|||||||0.5||||||a priori threshold for statistical significant was a p value less than 0.01|Fisher Exact|||||||0.50
92313331|NCT01038336|184529517|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||ANOVA|||||||0.030
92313332|NCT01038336|184529518|SUPERIORITY_OR_OTHER|||||||0.092|TWO_SIDED||||||ANOVA|||||||0.092
92191226|NCT04089332|184281345|OTHER||Slope|-0.4465||||0.162|TWO_SIDED||||||Regression, Linear|||WASI II (Verbal IQ) vs HOMA-IR|Adjusted R-squared = 0.117|||0.162
92191227|NCT04089332|184281345|OTHER||Slope|0.6704||||0.082|TWO_SIDED||||||Regression, Linear|||WASI II (Performance IQ) vs HOMA-IR|Adjusted R-squared = 0.221|||0.082
92191228|NCT04089332|184281345|OTHER||Slope|-0.8486||||0.286|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Flanker Inhibitory Control and Attention) vs HOMA-IR|Adjusted R-squared = 0.0503|||0.286
92191229|NCT04089332|184281345|OTHER||Slope|-0.0266||||0.635|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Pattern Comparison) vs HOMA-IR|Adjusted R-squared = 0|||0.635
92191230|NCT04089332|184281345|OTHER||Slope|-0.1588||||0.061|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Picture Sequence) vs HOMA-IR|Adjusted R-squared = 0.381|||0.061
92313333|NCT01038336|184529519|SUPERIORITY_OR_OTHER|||||||0.832|TWO_SIDED||||||ANOVA|||||||0.832
92313334|NCT01038336|184529520|SUPERIORITY_OR_OTHER|||||||0.454|TWO_SIDED||||||ANOVA|||||||0.454
92313335|NCT01038336|184529521|SUPERIORITY_OR_OTHER|||||||0.128|TWO_SIDED||||||ANOVA|||||||0.128
92313336|NCT02366689|184529522|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.04
92313337|NCT02366689|184529523|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||< 0.001
92313338|NCT02366689|184529524|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
92313339|NCT02366689|184529525|SUPERIORITY_OR_OTHER|||||||0.432|TWO_SIDED||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.432
92313340|NCT02366689|184529526|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
92313341|NCT02366689|184529527|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
92313342|NCT03718832|184529528|SUPERIORITY||Mean Difference (Net)|-0.0333487|STANDARD_ERROR_OF_MEAN|0.1943638||0.8638688|TWO_SIDED|95.0|-0.415628|0.3489306||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.3489306|-0.415628|0.8638688
92313343|NCT03718832|184529528|SUPERIORITY||Mean Difference (Net)|-0.0066385|STANDARD_ERROR_OF_MEAN|0.1853917||0.9714571|TWO_SIDED|95.0|-0.371329|0.358052||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.358052|-0.371329|0.9714571
92313344|NCT03718832|184529529|SUPERIORITY||Mean Difference (Net)|0.1409446|STANDARD_ERROR_OF_MEAN|0.2106711||0.5039565|TWO_SIDED|95.0|-0.2735162|0.5554053||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.5554053|-0.2735162|0.5039565
92313345|NCT03718832|184529529|SUPERIORITY||Mean Difference (Net)|0.1213915|STANDARD_ERROR_OF_MEAN|0.2126328||0.5684854|TWO_SIDED|95.0|-0.2970052|0.5397882||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.5397882|-0.2970052|0.5684854
92313346|NCT03718832|184529530|SUPERIORITY||Mean Difference (Net)|-13.26835|STANDARD_ERROR_OF_MEAN|10.90353||0.2247426|TWO_SIDED|95.0|-34.73804|8.201347||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||8.201347|-34.73804|0.2247426
92313347|NCT03718832|184529530|SUPERIORITY||Mean Difference (Net)|-12.20164|STANDARD_ERROR_OF_MEAN|11.25555||0.2794015|TWO_SIDED|95.0|-34.37119|9.9679||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||9.9679|-34.37119|0.2794015
92313348|NCT03718832|184529530|SUPERIORITY||Mean Difference (Net)|13.12548|STANDARD_ERROR_OF_MEAN|9.550462||0.1708328|TWO_SIDED|95.0|-5.703702|31.95466||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||31.95466|-5.703702|0.1708328
92313349|NCT03718832|184529530|SUPERIORITY||Mean Difference (Net)|11.47577|STANDARD_ERROR_OF_MEAN|10.59479||0.2801138|TWO_SIDED|95.0|-9.422762|32.3743||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||32.3743|-9.422762|0.2801138
92313350|NCT03718832|184529531|SUPERIORITY||Mean Difference (Net)|-8.135585|STANDARD_ERROR_OF_MEAN|6.325031||0.1991028|TWO_SIDED|95.0|-20.57023|4.299061||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||4.299061|-20.57023|0.1991028
92313351|NCT03718832|184529531|SUPERIORITY||Mean Difference (Net)|3.493798|STANDARD_ERROR_OF_MEAN|1.761916||0.0480884|TWO_SIDED|95.0|0.0295297|6.958066||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||6.958066|0.0295297|0.0480884
92313352|NCT03718832|184529531|SUPERIORITY||Mean Difference (Net)|-9.681804|STANDARD_ERROR_OF_MEAN|6.34136||0.1276817|TWO_SIDED|95.0|-22.15188|2.788269||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||2.788269|-22.15188|0.1276817
92313353|NCT03718832|184529531|SUPERIORITY||Mean Difference (Net)|1.658257|STANDARD_ERROR_OF_MEAN|1.706497||0.3318554|TWO_SIDED|95.0|-1.698022|5.014535||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||5.014535|-1.698022|0.3318554
92313354|NCT03718832|184529532|SUPERIORITY||Mean Difference (Net)|-0.8749266|STANDARD_ERROR_OF_MEAN|0.9355095||0.3502313|TWO_SIDED|95.0|-2.714084|0.9642311||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.9642311|-2.714084|0.3502313
92313355|NCT03718832|184529532|SUPERIORITY||Mean Difference (Net)|0.5608222|STANDARD_ERROR_OF_MEAN|0.2708671||0.0390797|TWO_SIDED|95.0|0.0282451|1.093399||Adjusted mean difference for full controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1.093399|0.0282451|0.0390797
92313356|NCT03718832|184529532|SUPERIORITY||Mean Difference (Net)|-1.450197|STANDARD_ERROR_OF_MEAN|0.9508997||0.1281032|TWO_SIDED|95.0|-3.320109|0.419716||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.419716|-3.320109|0.1281032
92313357|NCT03718832|184529532|SUPERIORITY||Mean Difference (Net)|0.2794625|STANDARD_ERROR_OF_MEAN|0.2717457||0.3044732|TWO_SIDED|95.0|-0.2549974|0.8139224||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.8139224|-0.2549974|0.3044732
92191231|NCT04089332|184281345|OTHER||Slope|0.099||||0.479|TWO_SIDED||||||Regression, Linear|||WRAML (Picture Memory) vs. HOMA-IR|Adjusted R-squared = 0|||0.479
92313358|NCT03718832|184529533|SUPERIORITY||Mean Difference (Net)|9.768353|STANDARD_ERROR_OF_MEAN|5.933945||0.1007463|TWO_SIDED|95.0|-1.907847|21.44455||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||21.44455|-1.907847|0.1007463
92313359|NCT03718832|184529533|SUPERIORITY||Mean Difference (Net)|4.472004|STANDARD_ERROR_OF_MEAN|5.150772||0.3859868|TWO_SIDED|95.0|-5.66534|14.60935||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||14.60935|-5.66534|0.3859868
92313360|NCT03718832|184529533|SUPERIORITY||Mean Difference (Net)|-0.5461143|STANDARD_ERROR_OF_MEAN|6.440905||0.9324908|TWO_SIDED|95.0|-13.22545|12.13323||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Unadjusted mean difference, 12 months after trial enrollment||12.13323|-13.22545|0.9324908
92313361|NCT03718832|184529533|SUPERIORITY||Mean Difference (Net)|-2.752831|STANDARD_ERROR_OF_MEAN|5.754947||0.6328075|TWO_SIDED|95.0|-14.08487|8.579205||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||8.579205|-14.08487|0.6328075
92313362|NCT03718832|184529534|SUPERIORITY||Mean Difference (Net)|8.352141|STANDARD_ERROR_OF_MEAN|4.663846||0.0743062|TWO_SIDED|95.0|-0.8250086|17.52929||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment.||17.52929|-0.8250086|0.0743062
92191232|NCT04089332|184281345|OTHER||Slope|0.0676||||0.965|TWO_SIDED||||||Regression, Linear|||D-KEFS (Color-Word Interference) vs. HOMA-IR|Adjusted R-squared = 0|||0.965
92313363|NCT03718832|184529534|SUPERIORITY||Mean Difference (Net)|5.971188|STANDARD_ERROR_OF_MEAN|3.902349||0.1270654|TWO_SIDED|95.0|-1.709219|13.65159||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||13.65159|-1.709219|0.1270654
92313364|NCT03718832|184529534|SUPERIORITY||Mean Difference (Net)|2.637485|STANDARD_ERROR_OF_MEAN|4.443227||0.553277|TWO_SIDED|95.0|-6.110146|11.38512||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||11.38512|-6.110146|0.553277
92313365|NCT03718832|184529534|SUPERIORITY||Mean Difference (Net)|2.53149|STANDARD_ERROR_OF_MEAN|3.925307||0.519562|TWO_SIDED|95.0|-5.198658|10.26164||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||10.26164|-5.198658|0.519562
92313366|NCT03718832|184529535|SUPERIORITY||Mean Difference (Net)|-0.555117|STANDARD_ERROR_OF_MEAN|1.427417||0.6976216|TWO_SIDED|95.0|-3.363839|2.253605||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||2.253605|-3.363839|0.6976216
92191233|NCT04089332|184281345|OTHER||Slope|-0.0091||||0.039|TWO_SIDED||||||Regression, Linear|||D-KEFS (Trail Making Test) vs. HOMA-IR|Adjusted R-squared = 0.324|||0.039
92191234|NCT04089332|184281345|OTHER||Slope|-4.2085||||0.018|TWO_SIDED||||||Regression, Linear|||PedsQL (Child 8-12 / Teen 13-18) vs. HOMA-IR|Adjusted R-squared = 0.0423|||0.018
92191235|NCT04089332|184281346|OTHER||Slope|-1.1138||||0.558|TWO_SIDED||||||Regression, Linear|||Change in Gray Matter Perfusion vs. HOMA-IR|Adjusted R-square = 0|||0.558
92191236|NCT04089332|184281346|OTHER||Slope|-5.8089||||0.057|TWO_SIDED||||||Regression, Linear|||Baseline Gray Matter vs. HOMA-IR|Adjusted R-squared = 0.18|||0.057
92313367|NCT03718832|184529535|SUPERIORITY||Mean Difference (Net)|-0.4977997|STANDARD_ERROR_OF_MEAN|1.041102||0.6329035|TWO_SIDED|95.0|-2.546815|1.551216||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1.551216|-2.546815|0.6329035
92313368|NCT03718832|184529535|SUPERIORITY||Mean Difference (Net)|-1.386111|STANDARD_ERROR_OF_MEAN|1.812939||0.445181|TWO_SIDED|95.0|-4.954999|2.182777||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||2.182777|-4.954999|0.445181
92313369|NCT03718832|184529535|SUPERIORITY||Mean Difference (Net)|-1.101914|STANDARD_ERROR_OF_MEAN|1.860687||0.5542241|TWO_SIDED|95.0|-4.765783|2.561956||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||2.561956|-4.765783|0.5542241
92313370|NCT03718832|184529536|SUPERIORITY||Mean Difference (Net)|22.55812|STANDARD_ERROR_OF_MEAN|17.74244||0.2045348|TWO_SIDED|95.0|-12.35316|57.4694||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||57.4694|-12.35316|0.2045348
92313371|NCT03718832|184529536|SUPERIORITY||Mean Difference (Net)|13.49781|STANDARD_ERROR_OF_MEAN|14.95579||0.3675252|TWO_SIDED|95.0|-15.93658|42.9322||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||42.9322|-15.93658|0.3675252
92313372|NCT03718832|184529536|SUPERIORITY||Mean Difference (Net)|-11.35256|STANDARD_ERROR_OF_MEAN|26.69115||0.6709307|TWO_SIDED|95.0|-63.8992|41.19407||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||41.19407|-63.8992|0.6709307
92313373|NCT03718832|184529536|SUPERIORITY||Mean Difference (Net)|-8.912496|STANDARD_ERROR_OF_MEAN|21.34891||0.6766844|TWO_SIDED|95.0|-50.95358|33.12859||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||33.12859|-50.95358|0.6766844
92313374|NCT03718832|184529537|SUPERIORITY||Mean Difference (Net)|-1.870464|STANDARD_ERROR_OF_MEAN|2.024497||0.356123|TWO_SIDED|95.0|-5.851219|2.110291||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||2.110291|-5.851219|0.356123
92313375|NCT03718832|184529537|SUPERIORITY||Mean Difference (Net)|-0.8636408|STANDARD_ERROR_OF_MEAN|1.941141||0.6566494|TWO_SIDED|95.0|-4.681041|2.95376||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||2.95376|-4.681041|0.6566494
92313376|NCT03718832|184529537|SUPERIORITY||Mean Difference (Net)|-3.772051|STANDARD_ERROR_OF_MEAN|1.905125||0.0484944|TWO_SIDED|95.0|-7.519021|-0.0250809||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||-0.0250809|-7.519021|0.0484944
92313377|NCT03718832|184529537|SUPERIORITY||Mean Difference (Net)|-2.167034|STANDARD_ERROR_OF_MEAN|1.821244||0.234947|TWO_SIDED|95.0|-5.749627|1.415558||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||1.415558|-5.749627|0.234947
92313378|NCT03718832|184529538|SUPERIORITY||Mean Difference (Net)|-0.5561156|STANDARD_ERROR_OF_MEAN|1.086759||0.6091477|TWO_SIDED|95.0|-2.693002|1.58077||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||1.58077|-2.693002|0.6091477
92313379|NCT03718832|184529538|SUPERIORITY||Mean Difference (Net)|-0.3787962|STANDARD_ERROR_OF_MEAN|1.032547||0.713942|TWO_SIDED|95.0|-2.409379|1.651786||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1.651786|-2.409379|0.713942
92313380|NCT03718832|184529538|SUPERIORITY||Mean Difference (Net)|0.4989275|STANDARD_ERROR_OF_MEAN|1.053869||0.6362064|TWO_SIDED|95.0|-1.573807|2.571662||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||2.571662|-1.573807|0.6362064
92313381|NCT03718832|184529538|SUPERIORITY||Mean Difference (Net)|1.146286|STANDARD_ERROR_OF_MEAN|1.048105||0.2748884|TWO_SIDED|95.0|-0.9154561|3.208027||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||3.208027|-0.9154561|0.2748884
92313382|NCT03718832|184529539|SUPERIORITY||Mean Difference (Net)|0.3232407|STANDARD_ERROR_OF_MEAN|0.3695066||0.3823224|TWO_SIDED|95.0|-0.4036366|1.050118||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||1.050118|-0.4036366|0.3823224
92191237|NCT04089332|184281347|OTHER||Slope|-0.4465||||0.377|TWO_SIDED||||||Regression, Linear|||WASI II (Verbal IQ) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.377
92191238|NCT04089332|184281347|OTHER||Slope|0.6704||||0.402|TWO_SIDED||||||Regression, Linear|||WASI II (Performance IQ) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.402
92191239|NCT04089332|184281347|OTHER||Slope|-0.8486||||0.203|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Flanker Inhibitory Control and Attention) vs. Cerebral Blood Flow|Adjusted R-squared = 0.207|||0.203
92191240|NCT04089332|184281347|OTHER||Slope|-0.0266||||0.967|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Pattern Comparison) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.967
92191241|NCT04089332|184281347|OTHER||Slope|-0.1588||||0.616|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Picture Sequence) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.616
92191242|NCT04089332|184281347|OTHER||Slope|0.099||||0.287|TWO_SIDED||||||Regression, Linear|||WRAML (Picture Memory) vs. Cerebral Blood Flow|Adjusted R-squared = 0.0497|||0.287
92191243|NCT04089332|184281347|OTHER||Slope|0.0676||||0.225|TWO_SIDED||||||Regression, Linear|||D-KEFS (Color-Word Interference) vs. Cerebral Blood Flow|Adjusted R-squared = 0.106|||0.225
92191244|NCT04089332|184281347|OTHER||Slope|-0.0091||||0.872|TWO_SIDED||||||Regression, Linear|||D-KEFS (Trail Making Test) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.872
92191245|NCT04089332|184281347|OTHER||Slope|-4.2085||||0.66|TWO_SIDED||||||Regression, Linear|||PedsQL (Child 8-12 / Teen 13-18) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.66
92191246|NCT05401149|184281354|OTHER|Odds Ratio (OR) (95% CI) and P values for this outcome were derived from the conditional logistic regression models with stratification by matching pairs and adjustment for prior modified Rankin Scale (mRS) score (≤ 1 or not), baseline National Institutes of Health Stroke Scale (NIHSS) score, and time from symptom onset to hospital admission.|Odds Ratio (OR)|1.87|||<|0.001|TWO_SIDED|95.0|1.35|2.59|||Regression, Logistic||IV rt-PA cohort/Non-reperfusion cohort|||2.59|1.35|<0.001
92191247|NCT05401149|184281355|OTHER|OR (95% CI) and P values were derived from the conditional logistic regression models with stratification by matching pairs and adjustment for prior mRS score (≤ 1 or not), baseline NIHSS score, and time from symptom onset to hospital admission.|Odds Ratio (OR)|1.43||||0.054|TWO_SIDED|95.0|0.99|2.06|||Regression, Logistic||IV rt-PA cohort/Non-reperfusion cohort|||2.06|0.99|0.054
92267919|NCT04035694|184437725|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.1||0.49|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.49
92267920|NCT04035694|184437726|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.14||0.55|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||.55
92267921|NCT04035694|184437727|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.09||0.54|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.54
92267922|NCT04035694|184437728|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.1||0.95|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.95
92267923|NCT04035694|184437729|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|-4.25|STANDARD_ERROR_OF_MEAN|2.15||0.05|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.05
92267924|NCT04035694|184437730|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|1.37|STANDARD_ERROR_OF_MEAN|3.84||0.75|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.75
92267925|NCT04035694|184437731|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.09||0.14|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.14
92267926|NCT04035694|184437732|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.08||0.03|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.03
92313383|NCT03718832|184529539|SUPERIORITY||Mean Difference (Net)|0.2619965|STANDARD_ERROR_OF_MEAN|0.3729922||0.4829339|TWO_SIDED|95.0|-0.4718566|0.9958495||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.9958495|-0.4718566|0.4829339
92313384|NCT03718832|184529539|SUPERIORITY||Mean Difference (Net)|-0.6983982|STANDARD_ERROR_OF_MEAN|0.3476441||0.045506|TWO_SIDED|95.0|-1.382737|-0.0140597||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||-0.0140597|-1.382737|0.045506
92313385|NCT03718832|184529539|SUPERIORITY||Mean Difference (Net)|-0.6239824|STANDARD_ERROR_OF_MEAN|0.3336405||0.0625551|TWO_SIDED|95.0|-1.280906|0.0329412||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.0329412|-1.280906|0.0625551
92313386|NCT03718832|184529540|SUPERIORITY||Mean Difference (Net)|2.276579|STANDARD_ERROR_OF_MEAN|1.636162||0.1650343|TWO_SIDED|95.0|-0.9420086|5.495166||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||5.495166|-0.9420086|0.1650343
92313387|NCT03718832|184529540|SUPERIORITY||Mean Difference (Net)|1.989458|STANDARD_ERROR_OF_MEAN|1.359013||0.1442126|TWO_SIDED|95.0|-0.6843682|4.663284||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||4.663284|-0.6843682|0.1442126
92313388|NCT03718832|184529540|SUPERIORITY||Mean Difference (Net)|-1.579811|STANDARD_ERROR_OF_MEAN|0.739612||0.0335498|TWO_SIDED|95.0|-3.03574|-0.1238828||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment.||-0.1238828|-3.03574|0.0335498
92313389|NCT03718832|184529540|SUPERIORITY||Mean Difference (Net)|-1.764632|STANDARD_ERROR_OF_MEAN|0.8545352||0.0398937|TWO_SIDED|95.0|-3.447175|-0.0820899||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||-0.0820899|-3.447175|0.0398937
92313390|NCT03718832|184529541|SUPERIORITY||Mean Difference (Net)|-0.6294078|STANDARD_ERROR_OF_MEAN|0.4409795||0.1544491|TWO_SIDED|95.0|-1.496923|0.238107||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.238107|-1.496923|0.1544491
92313391|NCT03718832|184529541|SUPERIORITY||Mean Difference (Net)|-0.6081765|STANDARD_ERROR_OF_MEAN|0.451915||0.1793486|TWO_SIDED|95.0|-1.497352|0.2809987||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.2809987|-1.497352|0.1793486
92313392|NCT03718832|184529541|SUPERIORITY||Mean Difference (Net)|-0.1731023|STANDARD_ERROR_OF_MEAN|0.4024787||0.6674618|TWO_SIDED|95.0|-0.9653829|0.6191784||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.6191784|-0.9653829|0.6674618
92313393|NCT03718832|184529541|SUPERIORITY||Mean Difference (Net)|-0.2208031|STANDARD_ERROR_OF_MEAN|0.4196435||0.5992113|TWO_SIDED|95.0|-1.047063|0.6054567||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.6054567|-1.047063|0.5992113
92313394|NCT03718832|184529542|SUPERIORITY||Mean Difference (Net)|0.4824561|STANDARD_ERROR_OF_MEAN|0.423027||0.2549037|TWO_SIDED|95.0|-0.349686|1.314598||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||1.314598|-0.349686|0.2549037
92313395|NCT03718832|184529542|SUPERIORITY||Mean Difference (Net)|0.3545817|STANDARD_ERROR_OF_MEAN|0.4230741||0.4025977|TWO_SIDED|95.0|-0.4777863|1.186949||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1.186949|-0.4777863|0.4025977
92313396|NCT03718832|184529542|SUPERIORITY||Mean Difference (Net)|-0.0102657|STANDARD_ERROR_OF_MEAN|0.4695747||0.9825739|TWO_SIDED|95.0|-0.9346107|0.9140792||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.9140792|-0.9346107|0.9825739
92313397|NCT03718832|184529542|SUPERIORITY||Mean Difference (Net)|-0.0340184|STANDARD_ERROR_OF_MEAN|0.4869778||0.9443607|TWO_SIDED|95.0|-0.9928399|0.9248032||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.9248032|-0.9928399|0.9443607
92313398|NCT03718832|184529543|SUPERIORITY||Mean Difference (Net)|0.160997|STANDARD_ERROR_OF_MEAN|0.0376773||2.52e-05|TWO_SIDED|95.0|0.0868814|0.2351126||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.2351126|0.0868814|0.0000252
92313399|NCT03718832|184529543|SUPERIORITY||Mean Difference (Net)|0.1691707|STANDARD_ERROR_OF_MEAN|0.0391132||2.04e-05|TWO_SIDED|95.0|0.0922183|0.2461232||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.2461232|0.0922183|0.0000204
92313400|NCT03718832|184529543|SUPERIORITY||Mean Difference (Net)|0.0028595|STANDARD_ERROR_OF_MEAN|0.0261733||0.9130816|TWO_SIDED|95.0|-0.0486635|0.0543825||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.0543825|-0.0486635|0.9130816
92313401|NCT03718832|184529543|SUPERIORITY||Mean Difference (Net)|0.0166325|STANDARD_ERROR_OF_MEAN|0.0271062||0.5400053|TWO_SIDED|95.0|-0.0367394|0.0700045||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.0700045|-0.0367394|0.5400053
92313402|NCT03718832|184529544|SUPERIORITY||Mean Difference (Net)|0.0511555|STANDARD_ERROR_OF_MEAN|0.016316||0.0018721|TWO_SIDED|95.0|0.0190582|0.0832528||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.0832528|0.0190582|0.0018721
92313403|NCT03718832|184529544|SUPERIORITY||Mean Difference (Net)|0.0433081|STANDARD_ERROR_OF_MEAN|0.0168497||0.0106231|TWO_SIDED|95.0|0.0101555|0.0764607||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.0764607|0.0101555|0.0106231
92313404|NCT03718832|184529544|SUPERIORITY||Mean Difference (Net)|0.0138256|STANDARD_ERROR_OF_MEAN|0.0171112||0.4197898|TWO_SIDED|95.0|-0.0198584|0.0475096||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.0475096|-0.0198584|0.4197898
92313405|NCT03718832|184529544|SUPERIORITY||Mean Difference (Net)|0.0179852|STANDARD_ERROR_OF_MEAN|0.0171811||0.2961479|TWO_SIDED|95.0|-0.0158442|0.0518147||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.0518147|-0.0158442|0.2961479
92191248|NCT05401149|184281356|OTHER|OR (95% CI) and P values were derived from the conditional logistic regression models with stratification by matching pairs and adjustment for prior mRS score (≤ 1 or not), baseline NIHSS score, and time from symptom onset to hospital admission.|Odds Ratio (OR)|2.07||||0.097|TWO_SIDED|95.0|0.88|4.86|||Regression, Logistic||IV rt-PA cohort/Non-reperfusion cohort|||4.86|0.88|0.097
92191249|NCT05401149|184281357|OTHER|Odds Ratio (OR) (95% CI) and P values for this outcome were derived from the conditional logistic regression models with stratification by matching pairs and adjustment for prior modified Rankin Scale (mRS) score (≤ 1 or not), baseline National Institutes of Health Stroke Scale (NIHSS) score, and time from symptom onset to hospital admission.|Odds Ratio (OR)|2.02|||<|0.001|TWO_SIDED|95.0|1.48|2.75|||Regression, Logistic||IV rt-PA cohort/Non-reperfusion cohort|||2.75|1.48|<0.001
92313406|NCT03718832|184529545|SUPERIORITY||Mean Difference (Net)|0.4018522|STANDARD_ERROR_OF_MEAN|0.1001575||7.43e-05|TWO_SIDED|95.0|0.2048311|0.5988733||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.5988733|0.2048311|0.0000743
92191250|NCT05401149|184281358|OTHER|Odds Ratio (OR) (95% CI) and P values for this outcome were derived from the ordinal logistic regression models with adjustment for prior modified Rankin Scale (mRS) score (≤ 1 or not), baseline National Institutes of Health Stroke Scale (NIHSS) score, and time from symptom onset to hospital admission.|Odds Ratio (OR)|0.77||||0.007|TWO_SIDED|95.0|0.64|0.93|||Regression, Logistic||IV rt-PA cohort/Non-reperfusion cohort|||0.93|0.64|0.007
92191251|NCT05401149|184281359|OTHER|Hazard ratio (HR) (95% Confidence Interval) and P values were derived from the cox proportional hazards models with stratification by matching pairs and adjustment for prior mRS score (≤ 1 or not), baseline NIHSS score, and time from symptom onset to hospital admission.|Hazard Ratio (HR)|1.26||||0.077|TWO_SIDED|95.0|0.98|1.64|||Regression, Cox||IV rt-PA cohort/Non-reperfusion cohort|||1.64|0.98|0.077
92313407|NCT03718832|184529545|SUPERIORITY||Mean Difference (Net)|0.3643095|STANDARD_ERROR_OF_MEAN|0.1026922||0.0004471|TWO_SIDED|95.0|0.16227|0.566349||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.566349|0.16227|0.0004471
92313408|NCT03718832|184529545|SUPERIORITY||Mean Difference (Net)|0.0006229|STANDARD_ERROR_OF_MEAN|0.1095781||0.9954683|TWO_SIDED|95.0|-0.2150785|0.2163243||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.2163243|-0.2150785|0.9954683
92313409|NCT03718832|184529545|SUPERIORITY||Mean Difference (Net)|-0.0161147|STANDARD_ERROR_OF_MEAN|0.1115322||0.8852268|TWO_SIDED|95.0|-0.2357129|0.2034834||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.2034834|-0.2357129|0.8852268
92313410|NCT03718832|184529546|SUPERIORITY||Mean Difference (Net)|0.9013876|STANDARD_ERROR_OF_MEAN|0.4414753||0.0417413|TWO_SIDED|95.0|0.0338441|1.768931||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||1.768931|0.0338441|0.0417413
92313411|NCT03718832|184529546|SUPERIORITY||Mean Difference (Net)|0.8939751|STANDARD_ERROR_OF_MEAN|0.3896126||0.0222222|TWO_SIDED|95.0|0.1282798|1.65967||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1.65967|0.1282798|0.0222222
92313412|NCT03718832|184529546|SUPERIORITY||Mean Difference (Net)|0.0276596|STANDARD_ERROR_OF_MEAN|0.7606961||0.9710103|TWO_SIDED|95.0|-1.467185|1.522504||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||1.522504|-1.467185|0.9710103
92191252|NCT04281875|184281366|SUPERIORITY|||||||0.6905|||||||t-test, 2 sided|||||||0.6905
92191253|NCT00603278|184281390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|||<|0.001|TWO_SIDED|95.0|0.096|0.318|||ANCOVA|||||0.318|0.096|<0.001
92191254|NCT00603278|184281390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238|||<|0.001|TWO_SIDED|95.0|0.127|0.349|||ANCOVA|||||0.349|0.127|<0.001
92191255|NCT00603278|184281390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.293|||<|0.001|TWO_SIDED|95.0|0.182|0.404|||ANCOVA|||||0.404|0.182|<0.001
92191256|NCT00603278|184281390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.279|||<|0.001|TWO_SIDED|95.0|0.167|0.392|||ANCOVA|||||0.392|0.167|<0.001
92191257|NCT00603278|184281390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.225|||<|0.001|TWO_SIDED|95.0|0.114|0.337|||ANCOVA|||||0.337|0.114|<0.001
92191258|NCT04853394|184281416|SUPERIORITY||Risk Ratio (RR)|0.33|||<|0.01|TWO_SIDED|95.0|0.21|0.51|||Mixed Models Analysis|Mixed effects modified Poisson regression model with random intercepts for participant and network cluster|Effect of MASLIHAT vs. comparison TANSIHAT condition at 12-month follow-up|||.51|.21|<.01
92313413|NCT03718832|184529546|SUPERIORITY||Mean Difference (Net)|0.0377244|STANDARD_ERROR_OF_MEAN|0.6523585||0.9539117|TWO_SIDED|95.0|-1.244338|1.319787||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||1.319787|-1.244338|0.9539117
92313414|NCT03718832|184529547|SUPERIORITY||Mean Difference (Net)|-0.1045328|STANDARD_ERROR_OF_MEAN|0.1417549||0.4612408|TWO_SIDED|95.0|-0.3830955|0.1740299||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.1740299|-0.3830955|0.4612408
92313415|NCT03718832|184529547|SUPERIORITY||Mean Difference (Net)|-0.0552724|STANDARD_ERROR_OF_MEAN|0.1181649||0.6401864|TWO_SIDED|95.0|-0.2874987|0.176954||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.176954|-0.2874987|0.6401864
92313416|NCT03718832|184529547|SUPERIORITY||Mean Difference (Net)|-0.2761332|STANDARD_ERROR_OF_MEAN|0.2593125||0.2874913|TWO_SIDED|95.0|-0.7857084|0.2334419||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.2334419|-0.7857084|0.2874913
92313417|NCT03718832|184529547|SUPERIORITY||Mean Difference (Net)|-0.155843|STANDARD_ERROR_OF_MEAN|0.2092772||0.4568601|TWO_SIDED|95.0|-0.56713|0.2554439||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.2554439|-0.56713|0.4568601
92313418|NCT03718832|184529548|SUPERIORITY||Mean Difference (Net)|0.0539315|STANDARD_ERROR_OF_MEAN|0.0267347||0.0442418|TWO_SIDED|95.0|0.0013953|0.1064678||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.1064678|0.0013953|0.0442418
92313419|NCT03718832|184529548|SUPERIORITY||Mean Difference (Net)|0.0546574|STANDARD_ERROR_OF_MEAN|0.0272506||0.0454857|TWO_SIDED|95.0|0.0011025|0.1082124||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.1082124|0.0011025|0.0454857
92313420|NCT03718832|184529548|SUPERIORITY||Mean Difference (Net)|0.0076781|STANDARD_ERROR_OF_MEAN|0.0188378||0.683764|TWO_SIDED|95.0|-0.0293401|0.0446963||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.0446963|-0.0293401|0.683764
92313421|NCT03718832|184529548|SUPERIORITY||Mean Difference (Net)|0.0053342|STANDARD_ERROR_OF_MEAN|0.0183059||0.7708852|TWO_SIDED|95.0|-0.0306419|0.0413103||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.0413103|-0.0306419|0.7708852
92313422|NCT03718832|184529549|SUPERIORITY||Mean Difference (Net)|-0.053099|STANDARD_ERROR_OF_MEAN|0.0436586||0.2245167|TWO_SIDED|95.0|-0.1388926|0.0326946||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.0326946|-0.1388926|0.2245167
92313423|NCT03718832|184529549|SUPERIORITY||Mean Difference (Net)|-0.0815933|STANDARD_ERROR_OF_MEAN|0.0424438||0.0551913|TWO_SIDED|95.0|-0.1650069|0.0018204||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.0018204|-0.1650069|0.0551913
92313424|NCT03718832|184529549|SUPERIORITY||Mean Difference (Net)|-0.0506938|STANDARD_ERROR_OF_MEAN|0.0461078||0.2721373|TWO_SIDED|95.0|-0.1413002|0.0399126||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.0399126|-0.1413002|0.2721373
92191259|NCT04853394|184281417|SUPERIORITY||Risk Ratio (RR)|0.67||||0.01|TWO_SIDED|95.0|0.46|0.97|||Mixed Models Analysis|Mixed effects modified Poisson regression model with random intercepts for participant and network cluster|Effect of MASLIHAT vs. comparison TANSIHAT condition at 12-month follow-up|||.97|.46|.01
92313425|NCT03718832|184529549|SUPERIORITY||Mean Difference (Net)|-0.079563|STANDARD_ERROR_OF_MEAN|0.0428514||0.0640071|TWO_SIDED|95.0|-0.1637776|0.0046516||Adjusted mean difference for full controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.0046516|-0.1637776|0.0640071
92313426|NCT03718832|184529550|SUPERIORITY||Mean Difference (Net)|13.79692|STANDARD_ERROR_OF_MEAN|808.862||0.9864081|TWO_SIDED|95.0|-1581.244|1608.838||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||1608.838|-1581.244|0.9864081
92313427|NCT03718832|184529550|SUPERIORITY||Mean Difference (Net)|119.3302|STANDARD_ERROR_OF_MEAN|885.2058||0.8929133|TWO_SIDED|95.0|-1627.128|1865.789||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1865.789|-1627.128|0.8929133
92313428|NCT03718832|184529550|SUPERIORITY||Mean Difference (Net)|-1260.452|STANDARD_ERROR_OF_MEAN|1327.743||0.343724|TWO_SIDED|95.0|-3880.298|1359.393||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||1359.393|-3880.298|0.343724
92191260|NCT04853394|184281418|SUPERIORITY||Risk Ratio (RR)|0.86||||0.01|TWO_SIDED|95.0|0.77|0.95|||Mixed Models Analysis|Mixed effects Poisson regression model with random intercepts for participant and network cluster|Effect of MASLIHAT vs. comparison TANSIHAT condition at 6-month follow-up|||.95|.77|.01
92191261|NCT04853394|184281418|SUPERIORITY||Risk Ratio (RR)|1.19||||0.01|TWO_SIDED|95.0|0.98|1.45|||Mixed Models Analysis|Mixed effects Poisson regression model with random intercepts for participant and network cluster|Effect of MASLIHAT vs. comparison TANSIHAT condition at 12-month follow-up|||1.45|.98|.01
92191262|NCT04853394|184281421|SUPERIORITY||Risk Ratio (RR)|0.12||||0.01|TWO_SIDED|95.0|0.07|0.19|||Mixed Models Analysis|Mixed effects Poisson regression model with random intercepts for participant and network cluster|Effect of MASLIHAT vs. comparison TANSIHAT condition at 12-month follow-up|||.19|.07|.01
92191263|NCT03245762|184281448|SUPERIORITY||Odds Ratio (OR)|0.9||||0.93|TWO_SIDED||||||Ordinal Categorical Analysis|||||||0.930
92313429|NCT03718832|184529550|SUPERIORITY||Mean Difference (Net)|-1206.216|STANDARD_ERROR_OF_MEAN|1344.574||0.3709654|TWO_SIDED|95.0|-3860.887|1448.455||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||1448.455|-3860.887|0.3709654
92313430|NCT03718832|184529551|SUPERIORITY||Mean Difference (Net)|1290.605|STANDARD_ERROR_OF_MEAN|732.2306||0.0795087|TWO_SIDED|95.0|-153.3215|2734.532||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||2734.532|-153.3215|0.0795087
92313431|NCT03718832|184529551|SUPERIORITY||Mean Difference (Net)|1207.762|STANDARD_ERROR_OF_MEAN|874.6068||0.1689786|TWO_SIDED|95.0|-517.7854|2933.309||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||2933.309|-517.7854|0.1689786
92313432|NCT03718832|184529551|SUPERIORITY||Mean Difference (Net)|1209.35|STANDARD_ERROR_OF_MEAN|957.1006||0.2080145|TWO_SIDED|95.0|-679.1596|3097.86||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||3097.86|-679.1596|0.2080145
92313433|NCT03718832|184529551|SUPERIORITY||Mean Difference (Net)|1258.587|STANDARD_ERROR_OF_MEAN|1077.807||0.2445904|TWO_SIDED|95.0|-869.3893|3386.563||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||3386.563|-869.3893|0.2445904
92313434|NCT03718832|184529552|SUPERIORITY||Mean Difference (Net)|2.035245|STANDARD_ERROR_OF_MEAN|0.1415551|<|0.001|TWO_SIDED|95.0|1.757075|2.313415||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||2.313415|1.757075|<0.001
92313435|NCT03718832|184529552|SUPERIORITY||Mean Difference (Net)|2.0087|STANDARD_ERROR_OF_MEAN|0.1395364|<|0.001|TWO_SIDED|95.0|1.734473|2.282927||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||2.282927|1.734473|<0.001
92313436|NCT03718832|184529552|SUPERIORITY||Mean Difference (Net)|1.619982|STANDARD_ERROR_OF_MEAN|0.2663507|<|0.001|TWO_SIDED|95.0|1.096575|2.143388||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment.||2.143388|1.096575|<0.001
92313437|NCT03718832|184529552|SUPERIORITY||Mean Difference (Net)|1.559642|STANDARD_ERROR_OF_MEAN|0.2680774|<|0.001|TWO_SIDED|95.0|1.032797|2.086488||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment.||2.086488|1.032797|<0.001
92313438|NCT03718832|184529553|SUPERIORITY||Mean Difference (Net)|1.881776|STANDARD_ERROR_OF_MEAN|0.1057965|<|0.001|TWO_SIDED|95.0|1.673875|2.089677||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment.||2.089677|1.673875|<0.001
92313439|NCT03718832|184529553|SUPERIORITY||Mean Difference (Net)|1.868221|STANDARD_ERROR_OF_MEAN|0.1036609|<|0.001|TWO_SIDED|95.0|1.664499|2.071943||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment.||2.071943|1.664499|<0.001
92313440|NCT03718832|184529553|SUPERIORITY||Mean Difference (Net)|1.650879|STANDARD_ERROR_OF_MEAN|0.2057239|<|0.001|TWO_SIDED|95.0|1.246611|2.055147||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment.||2.055147|1.246611|<0.001
92313441|NCT03718832|184529553|SUPERIORITY||Mean Difference (Net)|1.636306|STANDARD_ERROR_OF_MEAN|0.2052192|<|0.001|TWO_SIDED|95.0|1.232994|2.039618||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment.||2.039618|1.232994|<0.001
92313442|NCT03718832|184529554|SUPERIORITY||Mean Difference (Net)|0.1104533|STANDARD_ERROR_OF_MEAN|0.0769621||0.1519153|TWO_SIDED|95.0|-0.040785|0.2616915||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment.||0.2616915|-0.040785|0.1519153
92313443|NCT03718832|184529554|SUPERIORITY||Mean Difference (Net)|0.0594575|STANDARD_ERROR_OF_MEAN|0.0654489||0.3641254|TWO_SIDED|95.0|-0.0691675|0.1880824||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment.||0.1880824|-0.0691675|0.3641254
92191264|NCT00637247|184281449|SUPERIORITY_OR_OTHER|||||||0.2|||||||Log Rank|||The hypothesis that survival curves were equal in the two treatment groups was tested with a one-sided logrank test at the alpha-0.2 level, one sided. The power of this test is 80% for detecting the hypothesized increase in median survival of 2.4 months for subjects in the experimental arm.||||0.2
92191265|NCT01907113|184281467|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as mild renal function divided by normal renal function|Geometric mean ratio|118.24|STANDARD_DEVIATION|25.6|||TWO_SIDED|90.0|96.17|145.38|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||145.38|96.17|
92191266|NCT01907113|184281467|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as moderate renal function divided by normal renal function|Geometric mean ratio|119.94|STANDARD_DEVIATION|25.6|||TWO_SIDED|90.0|96.25|149.47|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||149.47|96.25|
92313444|NCT03718832|184529554|SUPERIORITY||Mean Difference (Net)|0.2062905|STANDARD_ERROR_OF_MEAN|0.1288363||0.1100186|TWO_SIDED|95.0|-0.0468859|0.4594669||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment.||0.4594669|-0.0468859|0.1100186
92313445|NCT03718832|184529554|SUPERIORITY||Mean Difference (Net)|0.1162375|STANDARD_ERROR_OF_MEAN|0.1015839||0.2531303|TWO_SIDED|95.0|-0.0834025|0.3158775||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment.||0.3158775|-0.0834025|0.2531303
92313446|NCT03718832|184529555|SUPERIORITY||Mean Difference (Net)|-0.0584644|STANDARD_ERROR_OF_MEAN|0.040837||0.152918|TWO_SIDED|95.0|-0.1387132|0.0217844||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.0217844|-0.1387132|0.152918
92313447|NCT03718832|184529555|SUPERIORITY||Mean Difference (Net)|-0.0585771|STANDARD_ERROR_OF_MEAN|0.0304262||0.0548344|TWO_SIDED|95.0|-0.1183728|0.0012186||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment.||0.0012186|-0.1183728|0.0548344
92313448|NCT03718832|184529555|SUPERIORITY||Mean Difference (Net)|-0.1691027|STANDARD_ERROR_OF_MEAN|0.0673022||0.0123238|TWO_SIDED|95.0|-0.3013583|-0.036847||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment.||-0.036847|-0.3013583|0.0123238
92313449|NCT03718832|184529555|SUPERIORITY||Mean Difference (Net)|-0.1701425|STANDARD_ERROR_OF_MEAN|0.0575065||0.0032534|TWO_SIDED|95.0|-0.2831584|-0.0571266||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment.||-0.0571266|-0.2831584|0.0032534
92313450|NCT01996241|184529572|OTHER|Odds ratio (95% CI), p-value for all the outcomes.|Odds Ratio (OR)|1.01||||0.98|TWO_SIDED|95.0|0.7|1.38||Adjusted models controlled for cluster, village strata, village type, caste, household literacy status, stratum (individual-level data endline) and poor learning environment at school, school dropout, and marriage (cluster-level summaries baseline)|Regression, Logistic|Mixed-effects||||1.38|0.7|0.98
92313451|NCT01996241|184529573|OTHER||Odds Ratio (OR)|1.0||||0.98|TWO_SIDED|95.0|0.7|1.4||Adjusted models controlled for cluster, village strata, village type, caste, household literacy status, stratum (individual-level data endline) and poor learning environment at school, school dropout, and marriage (cluster-level summaries baseline)|Regression, Logistic|Mixed-effects||||1.4|0.7|0.98
92313452|NCT01996241|184529574|OTHER||Odds Ratio (OR)|1.32||||0.331|TWO_SIDED|95.0|0.2|2.31||Adjusted for village strata and cluster, village type, caste, household literacy status, stratum using individual-level data and poor learning environment at school, school dropout, and marriage (in the form of cluster-level summaries).|Regression, Logistic|Mixed-effects||||2.31|0.2|0.331
92313453|NCT01996241|184529575|OTHER||Odds Ratio (OR)|0.83||||0.26|TWO_SIDED|95.0|0.6|1.15||Adjusted models controlled for cluster, village strata, village type, caste, household literacy status, stratum (individual-level data endline) and poor learning environment at school, school dropout, and marriage (cluster-level summaries baseline)|Regression, Logistic|Mixed-effects||||1.15|0.6|0.26
92313454|NCT01996241|184529576|OTHER||Odds Ratio (OR)|1.05||||0.79|TWO_SIDED|95.0|0.7|1.55||Adjusted models controlled for cluster, village strata, village type, caste, household literacy status, stratum (individual-level data endline) and poor learning environment at school, school dropout, and marriage (cluster-level summaries baseline)|Regression, Logistic|Mixed-effects||||1.55|0.7|0.79
92313455|NCT01996241|184529577|OTHER||Odds Ratio (OR)|0.83||||0.45|TWO_SIDED|95.0|0.5|1.34||Adjusted models controlled for cluster, village strata, village type, caste, household literacy status, stratum (individual-level data endline) and poor learning environment at school, school dropout, and marriage (cluster-level summaries baseline)|Regression, Logistic|Mixed-effects||||1.34|0.5|0.45
92313456|NCT01295112|184529579|SUPERIORITY|||||||2e-05|||||||Cochran-Mantel-Haenszel|||||||0.00002
92313457|NCT01295112|184529580|NON_INFERIORITY|Non-inferiority will be described by the 95% upper bound of the confidence interval on the difference in the improvement from baseline in BCVA|Mean Difference (Final Values)|2.51|STANDARD_DEVIATION|17.96||0.53|TWO_SIDED|90.0|-4.43|9.74||The p-value is assume superiority. The 95% upper confidence (upper end of the 90% Confidence interval) interval for the non-inferiority analysis is provided below.|t-test, 1 sided|||||9.74|-4.43|0.53
92313458|NCT02604407|184529583|SUPERIORITY_OR_OTHER_LEGACY||Difference of LS Mean|-8.1|||<|0.001|TWO_SIDED|95.0|-11.7|-4.4|||Mixed-effects model for repeated measure||Between treatment groups of SHP465 12.5 mg and Placebo.|||-4.4|-11.7|<0.001
92313459|NCT02604407|184529583|SUPERIORITY_OR_OTHER_LEGACY||Difference of LS Mean|-13.4|||<|0.001|TWO_SIDED|95.0|-17.1|-9.7|||Mixed-effects model for repeated measure||Between treatment groups of SHP465 37.5 mg and Placebo.|||-9.7|-17.1|<0.001
92313460|NCT02964312|184529595|SUPERIORITY||Proportion|89.5|||||TWO_SIDED|95.0|83.5|93.9||||||The null hypothesis was that the proportion of responders at 6 months would be 50%. Since there was not direct comparison group, the hypothesis was set as a superiority comparison to a target proportion (66%) with a power level \>90%.||93.9|83.5|
92313461|NCT02964312|184529598|SUPERIORITY||||||<|0.001||||||P values are based on paired t-tests for change from baseline with p\<0.05 indicating significance.|t-test, 2 sided|||||||<0.001
92313462|NCT04882241|184529621|OTHER||Hazard Ratio (HR)|0.92||||0.39528|TWO_SIDED|95.0|0.5|1.7||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.70|0.50|0.39528
92313463|NCT04882241|184529622|OTHER||Difference in Percentage|1.9||||0.33244|TWO_SIDED|95.0|-7.7|12.0|||Miettinen and Nurminen|Based on unstratified Miettinen \& Nurminen method||||12.0|-7.7|0.33244
92313464|NCT04882241|184529623|OTHER||Hazard Ratio (HR)|1.03||||0.52903|TWO_SIDED|95.0|0.48|2.22||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||2.22|0.48|0.52903
92313465|NCT04882241|184529628|OTHER||Hazard Ratio (HR)|0.83||||0.34632|TWO_SIDED|95.0|0.34|2.05||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||2.05|0.34|0.34632
92313466|NCT03127514|184529680|SUPERIORITY|||||||0.03||||||A two-tailed P value of 0.05 or less was considered to indicate statistical significance.|Mixed Models Analysis|Random-slope, shared-baseline, linear mixed model was adjusted for age and prebaseline ALSFRS-R slope||||||0.03
92313467|NCT02543944|184529692|SUPERIORITY||Risk Ratio (RR)|-0.0944|STANDARD_ERROR_OF_MEAN|0.32||0.77|TWO_SIDED|95.0|-0.72|0.53|||Regression, Logistic|||||0.53|-0.72|0.77
92313468|NCT02543944|184529693|SUPERIORITY||Odds Ratio (OR)|0.3||||0.58|TWO_SIDED||||||Chi-squared|||||||0.58
92313469|NCT02543944|184529694|SUPERIORITY||Odds Ratio (OR)|0.16||||0.69|TWO_SIDED||||||Chi-squared|||||||0.69
92313470|NCT02543944|184529695|SUPERIORITY||Odds Ratio (OR)|0.96||||0.32|TWO_SIDED||||||Chi-squared|||||||0.32
92313471|NCT02413229|184529706|SUPERIORITY|||||||0.3571|||||||Cochran-Mantel-Haenszel|||||||0.3571
92313472|NCT02413229|184529706|SUPERIORITY|||||||0.5224|||||||Cochran-Mantel-Haenszel|||||||0.5224
92313473|NCT02413229|184529706|SUPERIORITY|||||||0.389|||||||Cochran-Mantel-Haenszel|||||||0.3890
92313474|NCT02413229|184529706|SUPERIORITY|||||||0.0325|||||||Cochran-Mantel-Haenszel|||||||.0325
92313475|NCT02932462|184529707|SUPERIORITY|||||||0.4557|||||||Cochran-Mantel-Haenszel|||||||0.4557
92313476|NCT02932462|184529708|SUPERIORITY|||||||0.8096|||||||Cochran-Mantel-Haenszel|||||||0.8096
92313477|NCT02932462|184529709|SUPERIORITY|||||||0.7652|||||||Cochran-Mantel-Haenszel|||||||0.7652
92313478|NCT02091856|184529710|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance was set at .05|ANOVA|Changes in primary outcome measures were evaluated using repeated measures ANOVA for three groups: C-CBT, R-CBT, WLCG and two time points: pre \& post||It was hypothesized that regardless of the CBT version received (conventional or religious), those in the active treatments would achieve a greater reduction in depressive and associated symptoms than participants in the wait-list condition.||||<0.001
92313479|NCT02091856|184529711|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||The a priori threshold for statistical significance was set at .05|ANOVA|Changes in secondary outcome measures were evaluated using repeated measures ANOVA (C-CBT, R-CBT, WLCG at pre- and post-intervention).||||||>0.05
92313480|NCT02091856|184529712|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||The a priori threshold for statistical significance was set at .05|ANOVA|||||||<0.01
92313481|NCT02091856|184529713|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The a priori threshold for statistical significance was set at .05|ANOVA|||||||<0.001
92313482|NCT02091856|184529714|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||The a priori threshold for statistical significance was set at .05|t-test, 1 sided|||||||<0.01
92313483|NCT05024747|184529715|OTHER||Ratio T/R|96.68|||||TWO_SIDED|90.0|90.0|103.85||||||Statistical comparison was analyzed between Test vs Reference based on Baseline Adjusted Data.||103.85|90.00|
92313484|NCT05024747|184529716|OTHER||Ratio T/R|92.37|||||TWO_SIDED|90.0|85.45|99.84||||||Statistical comparison was analyzed between Test vs Reference based on Baseline Adjusted Data.||99.84|85.45|
92313485|NCT05024747|184529717|OTHER||Ratio T/R|92.54|||||TWO_SIDED|90.0|85.63|100.01||||||Statistical comparison was analyzed between Test vs Reference based on Baseline Adjusted Data.||100.01|85.63|
92313486|NCT05024747|184529718|OTHER||Hodges- Lehmann's median difference|-0.0192||||0.0833|TWO_SIDED|95.0|-0.0542|0.0044|||Wilcoxon Signed Rank Test|||Statistical comparison was analyzed between Test vs Reference.||0.0044|-0.0542|0.0833
92313487|NCT05024747|184529719|OTHER||Hodges- Lehmann's median difference|-6.0||||0.0205|TWO_SIDED|95.0|-10.5|0.0|||Wilcoxon Signed Rank Test|||Statistical comparison was analyzed between Test vs Reference.||0.0000|-10.5000|0.0205
92313488|NCT05024747|184529720|OTHER||Hodges- Lehmann's median difference|0.3225||||0.0946|TWO_SIDED|95.0|-0.0949|0.681|||Wilcoxon Signed Rank Test|||Statistical comparison was analyzed between Test vs Reference.||0.6810|-0.0949|0.0946
92313489|NCT03440840|184529733|SUPERIORITY||Mean Difference (Final Values)|2.29|STANDARD_ERROR_OF_MEAN|2.68||0.4|TWO_SIDED||||||Mixed Models Analysis|Estimated marginal means comparisons, Tukey adjustment||||||0.40
92313490|NCT03440840|184529734|SUPERIORITY||Mean Difference (Final Values)|1.86|STANDARD_ERROR_OF_MEAN|2.04||0.37|TWO_SIDED|||||Estimated marginal means comparisons, Tukey adjustment|Mixed Models Analysis|||||||0.37
92313491|NCT03440840|184529735|SUPERIORITY||Mean Difference (Final Values)|1.86|STANDARD_ERROR_OF_MEAN|2.04||0.37|TWO_SIDED||||||Mixed Models Analysis|Comparison of estimated marginal means, Tukey adjustment for multiple comparisons||||||0.37
92313492|NCT03440840|184529736|SUPERIORITY||Mean Difference (Final Values)|1.42|STANDARD_ERROR_OF_MEAN|2.77||0.61|TWO_SIDED||||||Mixed Models Analysis||Differences between estimated marginal means, Tukey correction for multiple comparisons.|||||0.61
92313493|NCT04688671|184529737|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.302||0.5605|TWO_SIDED|90.0|-0.32|0.68|||Mixed Models Analysis|||||0.68|-0.32|0.5605
92313494|NCT01349192|184529765|SUPERIORITY||Proportion Difference (Final Values)|0.56||||0.0005|TWO_SIDED|95.0|0.25|0.74||The a priori threshold for statistical significance was 0.05.|Chi-squared||Proportion difference was calculated as proportion negative for MRSA in the treatment group minus the proportion negative for MRSA in the observation group. 95% CI calculated using the Newcombe-Wilson method without continuity correction.|||0.74|0.25|0.0005
92313495|NCT01349192|184529765|SUPERIORITY||Proportion Difference (Final Values)|0.525||||0.0004|TWO_SIDED|95.0|0.23|0.8||Test includes adjustment for two interim reviews of efficacy data. The a priori threshold for statistical significance was 0.05.|Chi-squared||Proportion difference was calculated as proportion negative for MRSA in the treatment group minus the proportion negative for MRSA in the observation group.|||0.80|0.23|0.0004
92313496|NCT01349192|184529766|SUPERIORITY||Proportion Difference (Final Values)|0.09||||0.5463|TWO_SIDED|95.0|-0.18|0.34||The a priori threshold for statistical significance was 0.05.|Chi-squared||Proportion difference was calculated as proportion using antibiotics in the treatment group minus the proportion using antibiotics in the observation group. 95% CI calculated using the Newcombe-Wilson method without continuity correction.|||0.34|-0.18|0.5463
92313497|NCT01349192|184529767|SUPERIORITY||Mean Difference (Final Values)|-9.42||||0.3683|TWO_SIDED|95.0|-30.3|11.47||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided||Mean difference was calculated as mean days of antibiotic use in the treatment group minus the mean days of antibiotic use in the observation group.|||11.47|-30.3|0.3683
92313498|NCT01349192|184529768|SUPERIORITY||Proportion Difference (Final Values)|-0.2||||0.1205|TWO_SIDED|95.0|-0.42|0.03||The a priori threshold for statistical significance was 0.05.|Chi-squared||Difference was calculated as proportion with a PE treated with MRSA active antibiotics in the treatment group minus the analogous proportion in the observation group. 95% CI calculated using the Newcombe-Wilson method without continuity correction.|||0.03|-0.42|0.1205
92313499|NCT03749330|184529781|EQUIVALENCE|test of difference between pre and post|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92313500|NCT02023983|184529811|OTHER|||||||0.765|||||||Fisher Exact|||||||0.765
92313501|NCT02023983|184529812|OTHER|||||||1|||||||Fisher Exact|||||||1
92313502|NCT02105467|184529813|SUPERIORITY_OR_OTHER||||||<|0.001|||||||One-sided, one-sample exact test|||Superiority of SVR12 in the Immediate Treatment group was tested against the historical response rate of 73%.||||<0.001
92313503|NCT02105467|184529814|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-10.8|9.6|||||Between-treatment difference (Immediate Treatment Group - Deferred Treatment Group) was analyzed using the Miettinen and Nurminen method.|||9.6|-10.8|
92313504|NCT02105467|184529815|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-4.4|2.0|||||Between-treatment difference (Immediate Treatment Group - Deferred Treatment Group) was analyzed using the Miettinen and Nurminen method.|||2.0|-4.4|
92313505|NCT01288807|184529855|OTHER|repeated measure ANOVA|||||<|0.01|||||||ANOVA|||||||< 0.01
92313506|NCT01288807|184529856|OTHER|two-tailed paired t-test|||||<|0.05|||||||t-test, 2 sided|||This analysis looks at the cold threshold measured in degrees celcius before and after treatment.||||< 0.05
92313507|NCT01288807|184529857|OTHER||||||>|0.05|||||||t-test, 2 sided|||This analysis looks at the pressure threshold measured in pounds per square inch before and after treatment||||> 0.05
92313508|NCT01288807|184529858|OTHER||||||>|0.05||||||one-way repeated measure ANOVA|ANOVA|||||||> 0.05
92313509|NCT04807400|184529929|SUPERIORITY||Least Squares Mean|-31.8|STANDARD_ERROR_OF_MEAN|3.1|<|0.001|TWO_SIDED|95.0|-37.91|-25.77||p-values are adjusted using Holm's procedure.|ANCOVA|||||-25.77|-37.91|<0.001
92313510|NCT04807400|184529929|SUPERIORITY||Least Squares Mean|-32.1|STANDARD_ERROR_OF_MEAN|3.17|<|0.001|TWO_SIDED|95.0|-38.35|-25.94||p-values are adjusted using Holm's procedure.|ANCOVA|||||-25.94|-38.35|<0.001
92313511|NCT04807400|184529931|SUPERIORITY||Least-squares Mean|1.4|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|0.62|2.13|||ANOVA|||||2.13|0.62|<0.001
92313512|NCT04807400|184529931|SUPERIORITY||Least-squares Mean|1.3|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|0.6|2.1|||ANOVA|||||2.10|0.60|<0.001
92313513|NCT04807400|184529932|SUPERIORITY||Least-squares Mean|-0.03|STANDARD_ERROR_OF_MEAN|0.326||0.9347|TWO_SIDED|95.0|-0.67|0.61|||ANOVA|||||0.61|-0.67|0.9347
92313514|NCT04807400|184529933|SUPERIORITY||Least-squares Mean|1.0|STANDARD_ERROR_OF_MEAN|2.34||0.6759|TWO_SIDED|95.0|-3.62|5.58|||ANCOVA|||||5.58|-3.62|0.6759
92313515|NCT04807400|184529933|SUPERIORITY||Least-squares Mean|1.3|STANDARD_ERROR_OF_MEAN|2.31||0.5756|TWO_SIDED|95.0|-3.25|5.84|||ANCOVA|||||5.84|-3.25|0.5756
92313516|NCT04807400|184529934|SUPERIORITY||Least-squares Mean|0.3|STANDARD_ERROR_OF_MEAN|1.69||0.858|TWO_SIDED|95.0|-3.02|3.62|||ANCOVA|||||3.62|-3.02|0.8580
92313517|NCT04194645|184529943|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T2/R)|97.71|||||TWO_SIDED|90.0|91.45|104.4|||ANOVA||Intra- individual coefficient of variation (gCV %) = 8.9|No formal hypothesis was tested.||104.40|91.45|
92313518|NCT04194645|184529943|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T1/T2)|112.88|||||TWO_SIDED|90.0|98.82|128.94|||ANOVA||Intra- individual coefficient of variation (gCV %) = 16.8|No formal hypothesis was tested.||128.94|98.82|
92313519|NCT04194645|184529944|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T2/R)|48.02|||||TWO_SIDED|90.0|41.86|55.09|||ANOVA||Intra- individual coefficient of variation (gCV %) = 18.5|No formal hypothesis was tested.||55.09|41.86|
92313520|NCT04194645|184529944|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T1/T2)|122.8|||||TWO_SIDED|90.0|105.04|143.56|||ANOVA||Intra- individual coefficient of variation (gCV %) = 19.8|No formal hypothesis was tested.||143.56|105.04|
92313521|NCT04194645|184529947|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T2/R)|98.32|||||TWO_SIDED|90.0|91.98|105.09|||ANOVA||Intra- individual coefficient of variation (gCV %) = 8.9|No formal hypothesis was tested.||105.09|91.98|
92313522|NCT04194645|184529947|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T1/T2)|112.94|||||TWO_SIDED|90.0|98.75|129.18|||ANOVA||Intra- individual coefficient of variation (gCV %) = 16.9|No formal hypothesis was tested.||129.18|98.75|
92313523|NCT03076775|184529948|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
92313524|NCT03076775|184529949|SUPERIORITY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
92313525|NCT03076775|184529950|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
92313526|NCT03076775|184529951|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
92313527|NCT03076775|184529952|SUPERIORITY|||||||0.83|||||||Chi-squared|||||||0.83
92313528|NCT03076775|184529953|SUPERIORITY|||||||0.79|||||||Chi-squared|||||||0.79
92313529|NCT03076775|184529954|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
92313530|NCT03076775|184529955|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
92313531|NCT03076775|184529956|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
92313532|NCT03076775|184529957|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||0.59
92313533|NCT01783886|184529963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.1|||<|0.0001|TWO_SIDED|97.5|10.9|17.2|||ANCOVA||Least Square (LS) mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||17.2|10.9|<0.0001
92313534|NCT01783886|184529963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.6|||<|0.0001|TWO_SIDED|97.5|10.2|16.9|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||16.9|10.2|<0.0001
92313535|NCT01783886|184529964|SUPERIORITY_OR_OTHER||CMH adjusted difference|47.4|||<|0.0001|TWO_SIDED|97.5|35.0|59.9|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel (CMH). The estimate is calculated as EYLEA minus Laser.|||59.9|35.0|<0.0001
92313536|NCT01783886|184529964|SUPERIORITY_OR_OTHER||CMH adjusted difference|39.2|||<|0.0001|TWO_SIDED|97.5|26.3|52.1|||Cochran-Mantel-Haenszel||The estimate is calculated as EYLEA minus Laser.|||52.1|26.3|<0.0001
92313537|NCT01783886|184529965|SUPERIORITY_OR_OTHER||CMH adjusted difference|31.1|||<|0.0001|TWO_SIDED|97.5|19.2|43.0|||Cochran-Mantel-Haenszel||The estimate is calculated as EYLEA minus Laser.|||43.0|19.2|<0.0001
92313538|NCT01783886|184529965|SUPERIORITY_OR_OTHER||CMH adjusted difference|24.3|||<|0.0001|TWO_SIDED|97.5|12.6|35.9|||Cochran-Mantel-Haenszel||The estimate is calculated as EYLEA minus Laser.|||35.9|12.6|<0.0001
92313539|NCT01783886|184529966|SUPERIORITY_OR_OTHER||CMH adjusted difference|39.1|||<|0.0001|TWO_SIDED|97.5|26.0|52.2|||Cochran-Mantel-Haenszel||The estimate is calculated as EYLEA minus Laser.|||52.2|26.0|<0.0001
92313540|NCT01783886|184529966|SUPERIORITY_OR_OTHER||CMH adjusted difference|40.6|||<|0.0001|TWO_SIDED|97.5|27.6|53.7|||Cochran-Mantel-Haenszel||The estimate is calculated as EYLEA minus Laser.|||53.7|27.6|<0.0001
92313541|NCT01783886|184529967|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-130.5|||<|0.0001|TWO_SIDED|97.5|-171.2|-89.9|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||-89.9|-171.2|<0.0001
92313542|NCT01783886|184529967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-131.4|||<|0.0001|TWO_SIDED|97.5|-172.8|-89.9|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||-89.9|-172.8|<0.0001
92313543|NCT01783886|184529968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.78||||0.0364|TWO_SIDED|97.5|-0.41|11.97|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||11.97|-0.41|0.0364
92313544|NCT01783886|184529968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.87||||0.0113|TWO_SIDED|97.5|0.8|12.94|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||12.94|0.80|0.0113
92313545|NCT01783886|184529969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.81||||0.2688|TWO_SIDED|97.5|-2.9|8.53|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||8.53|-2.90|0.2688
92313546|NCT01783886|184529969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.01||||0.0009|TWO_SIDED|97.5|2.64|13.37|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||13.37|2.64|0.0009
92313547|NCT03503669|184529984|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92313548|NCT03503669|184529985|SUPERIORITY|||||||0.008|||||||Mixed Models Analysis|||||||0.008
92313549|NCT03503669|184529986|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92313550|NCT03503669|184529987|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92313551|NCT03503669|184529988|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92313552|NCT01068262|184529999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.2|||||TWO_SIDED|90.0|50.9|80.2|||Linear mixed effect model|Back-transformed least squares estimates and confidence intervals from a linear mixed effect model were performed on natural log-transformed values.||||80.2|50.9|
92313553|NCT01068262|184529999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|90.0|-14.7|14.9|||Linear mixed effects model|Back-transformed least squares estimates and confidence intervals from a linear mixed effect model were performed on natural log-transformed values.||||14.9|-14.7|
92313554|NCT01068262|184530000|SUPERIORITY_OR_OTHER||Estimate|0.9|||||TWO_SIDED|90.0|0.75|1.07||Hypothesis: Following 4 weeks of Qw oral dosing of Odanacatib 50 mg, there is no clinically important difference in the true GMR (male/postmenopausal female) of the AUC0-168hr. The GMR is contained within the interval (0.4, 2.0).|Geometric Mean Ratio (GMR); male/female|||||1.07|0.75|
92313555|NCT01068262|184530001|SUPERIORITY_OR_OTHER||GMR|0.93|||||TWO_SIDED|90.0|0.82|1.04|||GMR|||||1.04|0.82|
92313556|NCT01068262|184530002|SUPERIORITY_OR_OTHER||Estimate|0.95|||||TWO_SIDED|90.0|0.66|1.35|||GMR|||||1.35|0.66|
92313557|NCT01811472|184530010|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was largely driven by the maximum true response assumed in the candidate response shapes, which is a difference of -5.2% for pradigastat vs placebo for the primary endpoint.|Mean Difference (Net)|-1.69||||0.3128|TWO_SIDED|90.0|-4.46|1.09|||Mixed Model of Repeated Measurements|Degrees of freedom are adjusted using the Kenward-Roger method.||Hypothesis was tested at the 1-sided 5% significance level to assess if LCQ908 5mg/10mg was different from placebo.||1.09|-4.46|0.3128
92313558|NCT01811472|184530010|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was largely driven by the maximum true response assumed in the candidate response shapes, which is a difference of -5.2% for pradigastat vs placebo for the primary endpoint.|Mean Difference (Net)|-2.89||||0.0457|TWO_SIDED|90.0|-5.25|-0.53|||Mixed Model of Repeated Measurements|Degrees of freedom are adjusted using the Kenward-Roger method.||Hypothesis was tested at the 1-sided 5% significance level to assess if LCQ908 10mg/20mg was different from placebo.||-0.53|-5.25|0.0457
92313559|NCT03105518|184530028|SUPERIORITY||1 way test, chisquare approximation|7.188||||0.007|TWO_SIDED||||||Kruskal-Wallis|||VAS at Time 0; Follicles ≤10 vs. \> 10||||0.007
92313560|NCT03105518|184530028|SUPERIORITY||1 way Test, ChiSquare Approximation|3.6396||||0.056|TWO_SIDED||||||Kruskal-Wallis|||VAS at Time 15; Follicles ≤10 vs. \> 10||||0.056
92313561|NCT03105518|184530028|SUPERIORITY||1 way Test, ChiSquare Approximation|15.971|||<|0.0001|TWO_SIDED||||||Kruskal-Wallis|||VAS at Time 30; Follicles ≤10 vs. \> 10||||<0.0001
92313562|NCT03105518|184530028|SUPERIORITY||1-way Test, ChiSquare Approximation|16.0972|||<|0.0001|TWO_SIDED||||||Kruskal-Wallis|||VAS at Time 60; Follicles ≤10 vs. \> 10||||<0.0001
92313563|NCT03105518|184530029|SUPERIORITY||1-way Test, ChiSquare Approximation|2.7205||||0.0991|TWO_SIDED||||||Kruskal-Wallis|||VAS at Post Operative Day 1; Follicles ≤10 vs. \> 10||||0.0991
92313564|NCT03105518|184530029|SUPERIORITY||1 way Test, ChiSquare Approximation|1.5654||||0.2109|TWO_SIDED||||||Kruskal-Wallis|||VAS at Post Operative Day 2; Follicles ≤10 vs. \> 10||||0.2109
92313565|NCT03105518|184530029|SUPERIORITY||1-way Test, ChiSquare Approximation|0.008||||0.9287|TWO_SIDED||||||Kruskal-Wallis|||VAS at Post Operative Day 3; Follicles ≤10 vs. \> 10||||0.9287
92313566|NCT04584684|184530047|SUPERIORITY|||||||0.89||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.89
92313567|NCT04584684|184530047|SUPERIORITY|||||||0.88||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.88
92313568|NCT04584684|184530047|SUPERIORITY|||||||0.82||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.82
92313569|NCT04584684|184530047|SUPERIORITY|||||||0.65||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.65
92191267|NCT01907113|184281467|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as severe renal function divided by normal renal function|Geometric mean ratio|166.29|STANDARD_DEVIATION|25.6|||TWO_SIDED|90.0|134.44|205.68|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||205.68|134.44|
92313570|NCT04584684|184530047|SUPERIORITY|||||||0.77||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.77
92313571|NCT04584684|184530047|SUPERIORITY|||||||0.76||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.76
92313572|NCT04584684|184530047|SUPERIORITY|||||||0.8||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.80
92313573|NCT04584684|184530047|SUPERIORITY|||||||0.71||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.71
92313574|NCT04584684|184530047|SUPERIORITY|||||||0.6||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.60
92313575|NCT04584684|184530047|SUPERIORITY|||||||0.8||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.80
92313576|NCT02955212|184530062|SUPERIORITY||Response Rate Difference|40.2|||<|0.001|TWO_SIDED|95.0|30.5|50.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country.|Response Rate Difference = Upadacitinib - Placebo|||50.0|30.5|<0.001
92313577|NCT02955212|184530063|SUPERIORITY||Least Squares (LS) Mean Difference|-1.61|||<|0.001|TWO_SIDED|95.0|-1.86|-1.36|||ANCOVA|ANCOVA model including treatment as the fixed factor, and Baseline value and the stratification factor country as the covariates.|LS Mean Difference = Upadacitinib - Placebo|||-1.36|-1.86|<0.001
92313578|NCT02955212|184530064|SUPERIORITY||LS Mean Difference|-0.44|||<|0.001|TWO_SIDED|95.0|-0.55|-0.33|||ANCOVA|ANCOVA model including treatment as the fixed factor, and Baseline value and the stratification factor country as the covariates.|LS Mean Difference = Upadacitinib - Placebo|||-0.33|-0.55|<0.001
92313579|NCT02955212|184530065|SUPERIORITY||LS Mean Difference|5.57|||<|0.001|TWO_SIDED|95.0|4.13|7.01|||Mixed Effect Model Repeat Measurement|MMRM model with treatment, visit, treatment-by-visit interaction and stratification factor of country as fixed effects and Baseline value as covariate|LS Mean Difference = Upadacitinib - Placebo|||7.01|4.13|<0.001
92313580|NCT02955212|184530066|SUPERIORITY||Response Rate Difference|32.5|||<|0.001|TWO_SIDED|95.0|23.4|41.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor country.|Response Rate Difference = Upadacitinib - Placebo|||41.7|23.4|<0.001
92313581|NCT02955212|184530067|SUPERIORITY||Response Rate Difference|24.3|||<|0.001|TWO_SIDED|24.3|16.6|31.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country.|Response Rate Difference = Upadacitinib - Placebo|||31.9|16.6|<0.001
92313582|NCT02955212|184530068|SUPERIORITY||Response Rate Difference|24.3|||<|0.001|TWO_SIDED|95.0|15.6|32.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country.|Response Rate Difference = Upadacitinib - Placebo|||32.9|15.6|<0.001
92313583|NCT02955212|184530069|SUPERIORITY||Response Rate Difference|32.5|||<|0.001|TWO_SIDED|95.0|24.0|41.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country.|Response Rate Difference = Upadacitinib - Placebo|||41.0|24.0|<0.001
92313584|NCT02955212|184530070|SUPERIORITY||Response Rate Difference|17.8|||<|0.001|TWO_SIDED|95.0|11.0|24.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country.|Response Rate Difference = Upadacitinib - Placebo|||24.5|11.0|<0.001
92313585|NCT02955212|184530071|SUPERIORITY||Response Rate Difference|19.5|||<|0.001|TWO_SIDED|95.0|12.1|27.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country|Response Rate Difference = Upadacitinib - Placebo|||27.0|12.1|<0.001
92313586|NCT05262387|184530079|OTHER||Mean Difference (Final Values)|9.32||||0.0494|TWO_SIDED|90.0|1.52|17.1|||Mixed Models Analysis|||||17.1|1.52|0.0494
92313587|NCT05262387|184530079|OTHER||Mean Difference (Final Values)|14.1||||0.0028|TWO_SIDED|90.0|6.38|21.9|||Mixed Models Analysis|||||21.9|6.38|0.0028
92313588|NCT05262387|184530080|OTHER||Mean Difference (Final Values)|-44.5||||0.1998|TWO_SIDED|90.0|-102.0|12.8|||Mixed Models Analysis|||||12.8|-102|0.1998
92313589|NCT05262387|184530080|OTHER||Mean Difference (Final Values)|4.16||||0.9041|TWO_SIDED|90.0|-53.1|61.4|||Mixed Models Analysis|||||61.4|-53.1|0.9041
92313590|NCT01311687|184530082|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.001|TWO_SIDED|95.0|0.35|0.59|||Stratified Log Rank Test|Stratified by age, disease population, and prior number of anti myeloma therapy.|Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.59|0.35|<0.001
92313591|NCT01311687|184530083|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.39|0.61|||Stratified log-rank test|Stratified by age, disease population, and prior number of anti myeloma therapy.|Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.61|0.39|<0.001
92313592|NCT01311687|184530085|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.37|0.74|||Log Rank||Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.74|0.37|<0.001
92313593|NCT01311687|184530086|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.009|TWO_SIDED|95.0|0.54|0.92|||Log Rank||Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.92|0.54|0.009
92313594|NCT01311687|184530087|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.005|TWO_SIDED|95.0|0.6|0.91|||Log Rank||Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.91|0.60|0.005
92313595|NCT01311687|184530088|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.53|||<|0.001|TWO_SIDED|95.0|3.19|17.77|||Fisher Exact||Odds ratio is for pomalidomide plus low-dose dexamethasone : high dose dexamethasone|||17.77|3.19|< 0.001
92313596|NCT01311687|184530089|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.44|||<|0.001|TWO_SIDED|95.0|3.32|21.42|||Fisher Exact||Odds ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||21.42|3.32|< 0.001
92313597|NCT01311687|184530090|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.36|0.59|||Stratified Log Rank Test|Stratified by age, diseases population, and prior number of anti myeloma therapy.|Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.59|0.36|< 0.001
92313598|NCT02045446|184530106|SUPERIORITY||Hazard Ratio (HR)|0.304||||0.01|TWO_SIDED|95.0|0.113|0.815|||Log Rank|||||0.815|0.113|.01
92313599|NCT05274178|184530111|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>.05
92191268|NCT01907113|184281467|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as kidney failure divided by normal renal function|Geometric mean ratio|148.29|STANDARD_DEVIATION|25.6|||TWO_SIDED|90.0|119.89|183.42|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||183.42|119.89|
92313600|NCT05274178|184530111|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>.05
92313601|NCT02515331|184530115|SUPERIORITY||Mean Difference (Net)|-8.555|STANDARD_ERROR_OF_MEAN|2.9077||0.002|TWO_SIDED|95.0|-14.388|-2.722||1-sided p-value|Longitudinal repeated measures mixed eff|||||-2.722|-14.388|0.002
92313602|NCT02515331|184530115|SUPERIORITY||Mean Difference (Net)|-14.727|STANDARD_ERROR_OF_MEAN|3.0548|<|0.001|TWO_SIDED|95.0|-20.852|-8.602||1-sided p-value|Longitudinal repeated measures mixed eff|||||-8.602|-20.852|<0.001
92313603|NCT04090125|184530217|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.485|TWO_SIDED|95.0|-0.9|0.43|||Mixed Models Analysis|||||0.43|-0.90|0.485
92313604|NCT04090125|184530218|SUPERIORITY||Mean Difference (Final Values)|-0.53||||0.0887|TWO_SIDED|95.0|-1.13|0.08|||Mixed Models Analysis|||||0.08|-1.13|0.0887
92313605|NCT04090125|184530219|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.296|TWO_SIDED|95.0|-0.05|0.13|||Mixed Models Analysis|||||0.13|-0.05|0.296
92313606|NCT04090125|184530220|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.094|TWO_SIDED|95.0|-0.15|0.01|||Mixed Models Analysis|||||0.01|-0.15|0.094
92313607|NCT04090125|184530221|SUPERIORITY||Mean Difference (Final Values)|3.85||||0.11|TWO_SIDED|95.0|-0.91|8.62|||Mixed Models Analysis|||||8.62|-0.91|0.11
92313608|NCT04090125|184530222|SUPERIORITY||Mean Difference (Final Values)|1.74||||0.55|TWO_SIDED|95.0|-4.1|7.59|||Mixed Models Analysis|||||7.59|-4.10|0.55
92313609|NCT04090125|184530223|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.134|TWO_SIDED|95.0|-0.34|0.05|||Mixed Models Analysis|||||0.05|-0.34|0.134
92313610|NCT04090125|184530224|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.09|TWO_SIDED|95.0|-0.38|0.03|||Mixed Models Analysis|||||0.03|-0.38|0.09
92313611|NCT04090125|184530225|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.25|TWO_SIDED|95.0|-0.16|0.04|||Mixed Models Analysis|||||0.04|-0.16|0.25
92313612|NCT04090125|184530226|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.16|TWO_SIDED|95.0|-0.22|0.04|||Mixed Models Analysis|||||0.04|-0.22|0.16
92313613|NCT04090125|184530227|SUPERIORITY||Mean Difference (Final Values)|21.36||||0.167|TWO_SIDED|95.0|-9.29|52.02|||Mixed Models Analysis|||||52.02|-9.29|0.167
92313614|NCT04090125|184530228|SUPERIORITY||Mean Difference (Final Values)|25.15||||0.189|TWO_SIDED|95.0|-12.85|63.14|||Mixed Models Analysis|||||63.14|-12.85|0.189
92313615|NCT04090125|184530233|SUPERIORITY||Mean Difference (Final Values)|2.51||||0.42|TWO_SIDED|95.0|-3.65|8.67|||Mixed Models Analysis|||Pain subscale||8.67|-3.65|0.42
92313616|NCT04090125|184530233|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.76|TWO_SIDED|95.0|-6.29|8.57|||Mixed Models Analysis|||Symptoms subscale||8.57|-6.29|0.76
92313617|NCT04090125|184530233|SUPERIORITY||Mean Difference (Final Values)|-3.54||||0.46|TWO_SIDED|95.0|-13.2|6.12|||Mixed Models Analysis|||Quality of life subscale||6.12|-13.20|0.46
92313618|NCT04090125|184530233|SUPERIORITY||Mean Difference (Final Values)|2.54||||0.22|TWO_SIDED|95.0|-1.61|6.69|||Mixed Models Analysis|||Function in daily life||6.69|-1.61|0.22
92313619|NCT04090125|184530234|SUPERIORITY||Mean Difference (Final Values)|1.43||||0.65|TWO_SIDED|95.0|-4.98|7.85|||Mixed Models Analysis|||Pain subscale||7.85|-4.98|0.65
92313620|NCT04090125|184530234|SUPERIORITY||Mean Difference (Final Values)|3.95||||0.32|TWO_SIDED|95.0|-3.93|11.83|||Mixed Models Analysis|||Symptoms subscale||11.83|-3.93|0.32
92313621|NCT04090125|184530234|SUPERIORITY||Mean Difference (Final Values)|1.64||||0.77|TWO_SIDED|95.0|-9.61|12.89|||Mixed Models Analysis|||Quality of life||12.89|-9.61|0.77
92313622|NCT04090125|184530234|SUPERIORITY||Mean Difference (Final Values)|3.25||||0.19|TWO_SIDED|95.0|-1.67|8.17|||Mixed Models Analysis|||Function in daily life||8.17|-1.67|0.19
92313623|NCT04090125|184530235|SUPERIORITY||Mean Difference (Final Values)|-1.95||||0.191|TWO_SIDED|95.0|-4.92|1.01|||Mixed Models Analysis|||||1.01|-4.92|0.191
92313624|NCT04090125|184530236|SUPERIORITY||Mean Difference (Final Values)|-5.45||||0.0004|TWO_SIDED|95.0|-8.28|-2.62|||Mixed Models Analysis|||||-2.62|-8.28|0.0004
92313625|NCT01342081|184530237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.1|-1.3|||ANCOVA|||||-1.3|-2.1|< 0.001
92313626|NCT01342081|184530237|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 1.5 mmHg was used. Non-inferiority was claimed if the upper limit of the confidence interval of the difference is 1.5 mmHg or less.|Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.7|0.1||||||Non-inferiority was evaluated after superiority to tafluprost was confirmed.||0.1|-0.7|
92313627|NCT03656744|184530321|SUPERIORITY|||||||0.199|||||||ANCOVA|||||||0.199
92313628|NCT03656744|184530321|SUPERIORITY|||||||0.011|||||||ANCOVA|||||||0.011
92313629|NCT03656744|184530322|SUPERIORITY|||||||0.152|||||||ANCOVA|||||||0.152
92313630|NCT03656744|184530322|SUPERIORITY|||||||0.109|||||||ANCOVA|||||||0.109
92313631|NCT03656744|184530323|SUPERIORITY|||||||0.034|||||||ANCOVA|||||||0.034
92313632|NCT03656744|184530323|SUPERIORITY|||||||0.004|||||||ANCOVA|||||||0.004
92313633|NCT03656744|184530324|SUPERIORITY|||||||0.884|||||||Regression, Logistic|||||||0.884
92191269|NCT01907113|184281468|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as mild renal function divided by normal renal function|Geometric mean ratio|118.83|STANDARD_DEVIATION|29.7|||TWO_SIDED|90.0|93.62|150.84|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||150.84|93.62|
92313634|NCT03656744|184530324|SUPERIORITY|||||||0.236|||||||Regression, Logistic|||||||0.236
92313635|NCT03656744|184530325|SUPERIORITY|||||||0.196|||||||ANCOVA|||||||0.196
92313636|NCT03656744|184530325|SUPERIORITY|||||||0.016|||||||ANCOVA|||||||0.016
92313637|NCT03656744|184530326|SUPERIORITY|||||||0.294|||||||Cochran-Mantel-Haenszel|||||||0.294
92313638|NCT03656744|184530327|SUPERIORITY|||||||0.287|||||||Regression, Logistic|||||||0.287
92313639|NCT03656744|184530327|SUPERIORITY|||||||0.09|||||||Regression, Logistic|||||||0.090
92313640|NCT03656744|184530328|SUPERIORITY|||||||0.201|||||||ANCOVA|||||||0.201
92313641|NCT03656744|184530328|SUPERIORITY|||||||0.534|||||||ANCOVA|||||||0.534
92313642|NCT03656744|184530329|SUPERIORITY|||||||0.955|||||||ANCOVA|||||||0.955
92313643|NCT03656744|184530329|SUPERIORITY|||||||0.072|||||||ANCOVA|||||||0.072
92313644|NCT03656744|184530330|SUPERIORITY|||||||0.041|||||||ANCOVA|||||||0.041
92313645|NCT03656744|184530330|SUPERIORITY|||||||0.12|||||||ANCOVA|||||||0.120
92191270|NCT01907113|184281468|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as moderate renal function divided by normal renal function|Geometric mean ratio|102.27|STANDARD_DEVIATION|29.7|||TWO_SIDED|90.0|79.33|131.85|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||131.85|79.33|
92313646|NCT03656744|184530331|SUPERIORITY|||||||0.955|||||||ANCOVA|||||||0.955
92313647|NCT03656744|184530331|SUPERIORITY|||||||0.072|||||||ANCOVA|||||||0.072
92313648|NCT03656744|184530332|SUPERIORITY|||||||0.488|||||||ANCOVA|||||||0.488
92313649|NCT03656744|184530332|SUPERIORITY|||||||0.022|||||||ANCOVA|||||||0.022
92313650|NCT03656744|184530333|SUPERIORITY|||||||0.674|||||||ANCOVA|||||||0.674
92313651|NCT03656744|184530333|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.030
92313652|NCT03656744|184530334|SUPERIORITY|||||||0.588|||||||Regression, Logistic|||||||0.588
92313653|NCT03656744|184530334|SUPERIORITY|||||||0.103|||||||Regression, Logistic|||||||0.103
92313654|NCT03656744|184530335|SUPERIORITY|||||||0.236|||||||ANCOVA|||||||0.236
92313655|NCT03656744|184530335|SUPERIORITY|||||||0.944|||||||ANCOVA|||||||0.944
92313656|NCT03656744|184530336|SUPERIORITY|||||||0.267|||||||ANCOVA|||||||0.267
92313657|NCT03656744|184530336|SUPERIORITY|||||||0.911|||||||ANCOVA|||||||0.911
92313658|NCT03656744|184530337|SUPERIORITY|||||||0.387|||||||ANCOVA|||||||0.387
92313659|NCT03656744|184530337|SUPERIORITY|||||||0.855|||||||ANCOVA|||||||0.855
92313660|NCT03656744|184530338|SUPERIORITY|||||||0.107|||||||ANCOVA|||||||0.107
92313661|NCT03656744|184530338|SUPERIORITY|||||||0.489|||||||ANCOVA|||||||0.489
92313662|NCT03656744|184530339|SUPERIORITY|||||||0.515|||||||ANCOVA|||||||0.515
92313663|NCT03656744|184530339|SUPERIORITY|||||||0.887|||||||ANCOVA|||||||0.887
92313664|NCT03656744|184530340|SUPERIORITY|||||||0.003|||||||ANCOVA|||||||0.003
92313665|NCT03656744|184530340|SUPERIORITY|||||||0.016|||||||ANCOVA|||||||0.016
92313666|NCT03656744|184530341|SUPERIORITY|||||||0.124|||||||ANCOVA|||||||0.124
92313667|NCT03656744|184530341|SUPERIORITY|||||||0.171|||||||ANCOVA|||||||0.171
92313668|NCT03541317|184530385|SUPERIORITY|A test of the null hypothesis that there is no difference between these two strategies on the sum of the average number of CBT sessions delivered to students by SPs over the four post-randomization phases during Stages 1 and 2|Difference in sum of means*|9.7||||0.63|TWO_SIDED|95.0|-30.03|49.4|||weighted least squares regression|Marginal means under each implementation strategy estimated after each of 4 post-randomization phases (NeCamp, Kilbourne, \& Almirall 2017)|\*Difference in the sum of the means estimated at each post-randomization phase.|||49.40|-30.03|0.63
92313669|NCT03541317|184530386|SUPERIORITY|A test of the null hypothesis that there is no difference between these two strategies on the sum of the average number of brief individual CBT sessions (\<15 min.) delivered to students by SPs over the four post-randomization phases occurring during Stages 1 and 2.|Difference in sum of means*|3.78||||0.72|TWO_SIDED|95.0|-16.88|24.44|||weighted least squares regression|Marginal means under each embedded implementation strategy estimated after each of 4 post-randomization phases (NeCamp, Kilbourne \& Almirall 2017)|\*Difference in the sum of the means estimated at each post-randomization phase|||24.44|-16.88|0.72
92313670|NCT03541317|184530387|SUPERIORITY|A test of the null hypothesis that there is no difference between these two strategies on the sum of the average number of brief individual CBT sessions (\>15 min.) delivered to students by SPs over the four post-randomization phases occurring during Stages 1 and 2.|Difference in sum of means*|7.85||||0.46|TWO_SIDED|95.0|-13.2|28.91|||Weighted Least Squares Regression|Marginal means under each embedded implementation strategy estimated after each of 4 post-randomization phases (NeCamp, Kilbourne \& Almirall 2017).|Difference in the sum of the means estimated at each post-randomization phase|||28.91|-13.20|0.46
92313671|NCT03541317|184530388|SUPERIORITY||Difference in sum of means*|-0.66||||0.87|TWO_SIDED|95.0|-8.49|7.16|||Weighted Least Squares Regression|Marginal means under each embedded implementation strategy estimated after each of 4 post-randomization phases (NeCamp, Kilbourne \& Almirall 2017).|Difference in the sum of the means estimated at each post-randomization phase|A test of the null hypothesis that there is no difference between these two strategies on the sum of the average number of group CBT sessions delivered to students by SPs over the four post-randomization phase occurring during Stages 1 and 2.||7.16|-8.49|0.87
92313672|NCT00879086|184530393|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|-16.7|||=|0.0941|TWO_SIDED|95.0|-36.1|2.4||The two treatment groups were compared, controlling for baseline pre-existing neuropathy (CTCAE Grade 0 or 1) and number of prior chemotherapy regimens (less than or equal to 3 or greater than 3), with both covariates included as binary variables.|Cochran-Mantel-Haenszel||Extended Mantel-Haenszel test statistics with stratification adjustment for pre-existing baseline neuropathy (CTCAE Grade 0 or 1) and number of prior chemotherapy regimens (greater than or equal to 3 or greater than 3)|||2.4|-36.1|=0.0941
92313673|NCT00879086|184530394|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|-18.4||||0.0492|TWO_SIDED|95.0|-36.0|-0.3||Controlled for baseline pre-existing neuropathy (CTCAE Grade 0 or 1) and number of prior chemotherapy regimens (greater than or equal to 3 or greater than 3), with both covariates included as binary variables.|Cochran-Mantel-Haenszel||Extended Mantel-Haenszel test statistics with stratification adjustment for pre-existing baseline neuropathy (CTCAE Grade 0 or 1) and number of prior chemotherapy regimens (greater than or equal to 3 or greater than 3)|||-0.3|-36.0|0.0492
92313674|NCT03282916|184530408|SUPERIORITY|Linear mixed-effects models (LMM) were used to assess the treatment effects on the outcome with change score from baseline as the dependent variable and treatment, study time point, and their interaction as predictors, adjusting for baseline value of the outcome.|Mean Difference (Final Values)|3.91|||<|0.05|TWO_SIDED|95.0|1.03|6.8||Not adjusted for multiple comparisons|Mixed Models Analysis|Adjusting for baseline value of ADAS-Cog11||"Null hypothesis: there is no difference in change in ADAS-Cog11 between valacyclovir and placebo treatment.~A sample size of 130 participants (65 per arm) was originally projected to detect Cohen's d of 0.50 with 80% power at 5% significance level. Recruitment target was reduced to 120 participants due to pandemic-related recruitment delays and required study completion within the extended funding timeline. For n=120, the minimum detectable effect size increased slightly to Cohen's d of 0.52."||6.80|1.03|<0.05
92313675|NCT00719186|184530412|SUPERIORITY_OR_OTHER|||||||0.007|||||||Chi-squared|||||||0.007
92313676|NCT02517463|184530417|NON_INFERIORITY_OR_EQUIVALENCE|"The PPP from a previous study was 67.2%. Assuming the PPP in the preovulatory and post-ovulatory groups were equivalent, and taking 10% to be the maximum permitted difference for equivalence, a minimum of 273 subjects in each group would be required to confirm equivalence between the two groups with a power of 80% and type I error of 0.05. Therefore, our recruitment of 700 subjects with more than 300 in each group was sufficient."|||||<|0.0001|||||||Chi-squared|||||||<0.0001
92313677|NCT02517463|184530418|SUPERIORITY_OR_OTHER|||||||0.564|TWO_SIDED||||||Fisher Exact|||||||0.564
92313678|NCT02517463|184530419|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92313679|NCT04386616|184530424|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9266|TWO_SIDED|95.0|0.75|1.36||p\<0.05 threshold for statistical significance|Unstratified Log Rank||The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.36|0.75|0.9266
92191271|NCT01907113|184281468|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as severe renal function divided by normal renal function|Geometric mean ratio|120.68|STANDARD_DEVIATION|29.7|||TWO_SIDED|90.0|94.42|154.25|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||154.25|94.42|
92313680|NCT04386616|184530424|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.357|TWO_SIDED|95.0|0.86|1.54||p\<0.05 threshold for statistical significance|Unstratified Log Rank||The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.54|0.86|0.3570
92313681|NCT04386616|184530424|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9812|TWO_SIDED|95.0|0.74|1.36||p\<0.05 threshold for statistical significance|Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.36|0.74|0.9812
92313682|NCT04386616|184530424|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.5151|TWO_SIDED|95.0|0.82|1.49||p\<0.05 threshold for statistical significance|Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.49|0.82|0.5151
92313683|NCT04386616|184530425|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8373|TWO_SIDED|95.0|0.77|1.39|||Unstratified Log Rank||The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.39|0.77|0.8373
92313684|NCT04386616|184530425|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.3396|TWO_SIDED|95.0|0.86|1.55|||Unstratified Log Rank||The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.55|0.86|0.3396
92313685|NCT04386616|184530425|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8619|TWO_SIDED|95.0|0.76|1.39|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.39|0.76|0.8619
92313686|NCT04386616|184530425|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.4913|TWO_SIDED|95.0|0.82|1.5|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.50|0.82|0.4913
92313687|NCT04386616|184530426|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.4711|TWO_SIDED|95.0|0.83|1.49|||Unstratified Log Rank||The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.49|0.83|0.4711
92313688|NCT04386616|184530426|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.3135|TWO_SIDED|95.0|0.87|1.56|||Unstratified Log Rank||The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.56|0.87|0.3135
92313689|NCT04386616|184530426|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.5735|TWO_SIDED|95.0|0.81|1.48|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.48|0.81|0.5735
92313690|NCT04386616|184530426|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.5973|TWO_SIDED|95.0|0.8|1.46|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.46|0.80|0.5973
92313691|NCT04386616|184530427|SUPERIORITY||Median Difference (Net)|-1.0||||0.5304|||||||Van Elteren||The median difference was calculated as the MSTT1041A Arm minus the Placebo Arm.|||||0.5304
92313692|NCT04386616|184530427|SUPERIORITY||Median Difference (Net)|-4.5||||0.5058|||||||Van Elteren||The median difference was calculated as the UTT1147A Arm minus the Placebo Arm.|||||0.5058
92313693|NCT04386616|184530428|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8451|TWO_SIDED|95.0|0.64|1.72|||Chi-squared||The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.72|0.64|0.8451
92313694|NCT04386616|184530428|SUPERIORITY||Odds Ratio (OR)|1.09||||0.7267|TWO_SIDED|95.0|0.67|1.79|||Chi-squared||The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.79|0.67|0.7267
92313695|NCT04386616|184530428|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8458|TWO_SIDED|95.0|0.63|1.79|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.79|0.63|0.8458
92313696|NCT04386616|184530428|SUPERIORITY||Odds Ratio (OR)|1.08||||0.7907|TWO_SIDED|95.0|0.64|1.81|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.81|0.64|0.7907
92313697|NCT04386616|184530429|SUPERIORITY||Median Difference (Final Values)|0.0||||0.5273|||||||Van Elteren||The median difference was calculated as the MSTT1041A Arm minus the Placebo Arm.|||||0.5273
92313698|NCT04386616|184530429|SUPERIORITY||Median Difference (Final Values)|0.0||||0.6515|||||||Van Elteren||The median difference was calculated as the UTT1147A Arm minus the Placebo Arm.|||||0.6515
92313699|NCT04386616|184530429|SUPERIORITY||Odds Ratio (OR)|1.16||||0.5475|TWO_SIDED|95.0|0.71|1.91|||Proportional Odds Model|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.91|0.71|0.5475
92313700|NCT04386616|184530429|SUPERIORITY||Odds Ratio (OR)|1.16||||0.5652|TWO_SIDED|95.0|0.71|1.89|||Proportional Odds Model|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.89|0.71|0.5652
92313701|NCT04386616|184530430|SUPERIORITY||Median Difference (Final Values)|0.0||||0.3401|||||||Van Elteren||The median difference was calculated as the MSTT1041A Arm minus the Placebo Arm.|||||0.3401
92313702|NCT04386616|184530430|SUPERIORITY||Median Difference (Final Values)|0.0||||0.4676|||||||Van Elteren||The median difference was calculated as the UTT1147A Arm minus the Placebo Arm.|||||0.4676
92313703|NCT04386616|184530430|SUPERIORITY||Odds Ratio (OR)|1.31||||0.3408|TWO_SIDED|95.0|0.75|2.29|||Proportional Odds Model|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.29|0.75|0.3408
92313704|NCT04386616|184530430|SUPERIORITY||Odds Ratio (OR)|1.32||||0.332|TWO_SIDED|95.0|0.76|2.29|||Proportional Odds Model|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||2.29|0.76|0.3320
92313705|NCT04386616|184530431|SUPERIORITY||Difference in percentage of participants|3.83|||||TWO_SIDED|95.0|-7.57|15.24|||||The difference in percentage of participants was calculated as the MSTT1041A Arm minus the Placebo Arm.|||15.24|-7.57|
92313706|NCT04386616|184530431|SUPERIORITY||Difference in percentage of participants|-0.38|||||TWO_SIDED|95.0|-11.46|10.7|||||The difference in percentage of participants was calculated as the UTTR1147A Arm minus the Placebo Arm.|||10.70|-11.46|
92313707|NCT04386616|184530431|SUPERIORITY||Odds Ratio (OR)|1.22||||0.4804|TWO_SIDED|95.0|0.7|2.1|||Chi-squared||The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.10|0.70|0.4804
92313708|NCT04386616|184530431|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9418|TWO_SIDED|95.0|0.56|1.71|||Chi-squared||The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.71|0.56|0.9418
92313709|NCT04386616|184530431|SUPERIORITY||Odds Ratio (OR)|1.29||||0.4988|TWO_SIDED|95.0|0.68|2.44|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.44|0.68|0.4988
92313710|NCT04386616|184530431|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9043|TWO_SIDED|95.0|0.54|1.96|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.96|0.54|0.9043
92313711|NCT04386616|184530432|SUPERIORITY||Median Difference (Net)|0.0||||0.8007|||||||Van Elteren||Median difference was calculated as the MSTT1041A Arm minus the Placebo Arm.|||||0.8007
92313712|NCT04386616|184530432|SUPERIORITY||Median Difference (Net)|0.0||||0.8633|||||||Van Elteren||Median difference was calculated as the UTTR1147A Arm minus the Placebo Arm.|||||0.8633
92313713|NCT04386616|184530433|SUPERIORITY||Difference in percentage of participants|-3.59|||||TWO_SIDED|95.0|-16.31|9.12|||||The difference in percentage of participants was calculated as the MSTT1041A Arm minus the Placebo Arm.|||9.12|-16.31|
92313714|NCT04386616|184530433|SUPERIORITY||Difference in percentage of participants|-12.0|||||TWO_SIDED|95.0|-24.67|0.67|||||The difference in percentage of participants was calculated as the UTTR1147A Arm minus the Placebo Arm.|||0.67|-24.67|
92313715|NCT04386616|184530433|SUPERIORITY||Odds Ratio (OR)|0.86||||0.556|TWO_SIDED|95.0|0.53|1.41|||Chi-squared||The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.41|0.53|0.5560
92313716|NCT04386616|184530433|SUPERIORITY||Odds Ratio (OR)|0.62||||0.0502|TWO_SIDED|95.0|0.38|1.0|||Chi-squared||The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.00|0.38|0.0502
92313717|NCT04386616|184530433|SUPERIORITY||Odds Ratio (OR)|0.91||||0.7002|TWO_SIDED|95.0|0.51|1.6|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.60|0.51|0.7002
92313718|NCT04386616|184530433|SUPERIORITY||Odds Ratio (OR)|0.57||||0.0448|TWO_SIDED|95.0|0.32|0.99|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||0.99|0.32|0.0448
92313719|NCT04386616|184530434|SUPERIORITY||Median Difference (Net)|-0.48||||0.4845|||||||Van Elteren||Median difference was calculated as the MSTT1041A Arm minus the Placebo Arm.|||||0.4845
92313720|NCT04386616|184530434|SUPERIORITY||Median Difference (Net)|-3.1||||0.057|||||||Van Elteren||Median difference was calculated as the UTTR1147A Arm minus the Placebo Arm.|||||0.0570
92313721|NCT04386616|184530435|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.4456|TWO_SIDED|95.0|0.76|1.88|||Unstratified Log Rank||The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.88|0.76|0.4456
92313722|NCT04386616|184530435|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.7213|TWO_SIDED|95.0|0.57|1.48|||Unstratified Log Rank||The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.48|0.57|0.7213
92313723|NCT04386616|184530435|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.3963|TWO_SIDED|95.0|0.77|1.96|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.96|0.77|0.3963
92191272|NCT01907113|184281468|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as kidney failure divided by normal renal function|Geometric mean ratio|103.75|STANDARD_DEVIATION|29.7|||TWO_SIDED|95.0|81.18|132.61|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||132.61|81.18|
92191273|NCT00632931|184281483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||||90.0|-0.28|6.28||||||||6.28|-0.28|
92313724|NCT04386616|184530435|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.9174|TWO_SIDED|95.0|0.6|1.58|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.58|0.60|0.9174
92313725|NCT04386616|184530436|OTHER||Difference in Mortality Rates|2.49|||||TWO_SIDED|95.0|-4.51|9.49|||||The difference in mortality rates is calculated as the MSTT1041A Arm minus the Placebo Arm.|||9.49|-4.51|
92313726|NCT04386616|184530436|OTHER||Difference in Mortality Rates|2.36|||||TWO_SIDED|95.0|-4.58|9.31|||||The difference in mortality rates is calculated as the UTTR1147A Arm minus the Placebo Arm.|||9.31|-4.58|
92313727|NCT04386616|184530436|SUPERIORITY||Odds Ratio (OR)|1.46||||0.4336|TWO_SIDED|95.0|0.57|3.74|||Chi-squared||The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||3.74|0.57|0.4336
92191274|NCT00632931|184281484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.45||||||90.0|-1.38|4.72||||||||4.72|-1.38|
92313728|NCT04386616|184530436|SUPERIORITY||Odds Ratio (OR)|1.43||||0.4543|TWO_SIDED|95.0|0.56|3.68|||Chi-squared||The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||3.68|0.56|0.4543
92313729|NCT04386616|184530436|SUPERIORITY||Odds Ratio (OR)|1.46||||0.49|TWO_SIDED|95.0|0.54|3.97|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||3.97|0.54|0.4900
92313730|NCT04386616|184530436|SUPERIORITY||Odds Ratio (OR)|1.58||||0.3595|TWO_SIDED|95.0|0.58|4.28|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||4.28|0.58|0.3595
92313731|NCT04386616|184530437|OTHER||Difference in Mortality Rates|3.42|||||TWO_SIDED|95.0|-5.42|12.26|||||The difference in mortality rates is calculated as the MSTT1041A Arm minus the Placebo Arm.|||12.26|-5.42|
92191275|NCT00632931|184281485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.07||||||90.0|-0.17|6.31||||||||6.31|-0.17|
92191276|NCT00632931|184281486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.84||||||90.0|-0.4|6.08||||||||6.08|-0.40|
92191277|NCT00632931|184281487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.44||||||90.0|3.21|9.68||||||||9.68|3.21|
92191278|NCT00632931|184281488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.33||||||90.0|1.05|7.6||||||||7.60|1.05|
92191279|NCT00632931|184281489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.66||||||90.0|-0.7|6.02||||||||6.02|-0.70|
92191280|NCT00632931|184281490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.51||||||90.0|3.19|9.82||||||||9.82|3.19|
92191281|NCT01057888|184281498|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3|||<|0.05|TWO_SIDED|95.0|1.0|1.7|||Regression, Cox|It is a robust, clustered stratified Cox regression model|The control group serves as the denominator. The telephone reminder group serves as the numerator.|The null hypothesis is that there is no difference in total immunization status between the control group and the group receiving telephone (autodialer) reminders. This was analyzed using a clustered, stratified Cox model.||1.7|1.0|<0.05
92191282|NCT01057888|184281498|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6|||<|0.01|TWO_SIDED|95.0|1.3|2.1|||Regression, Cox|We used a robust, clustered, stratified Cox regression model.|The control group represents the denominator. The letter reminder group represents the numerator.|||2.1|1.3|<0.01
92313732|NCT04386616|184530437|OTHER||Difference in Mortality Rates|1.68|||||TWO_SIDED|95.0|-6.89|10.26|||||The difference in mortality rates is calculated as the UTTR1147A Arm minus the Placebo Arm.|||10.26|-6.89|
92313733|NCT04386616|184530437|SUPERIORITY||Odds Ratio (OR)|1.36||||0.4067|TWO_SIDED|95.0|0.66|2.8|||Chi-squared||The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.80|0.66|0.4067
92313734|NCT04386616|184530437|SUPERIORITY||Odds Ratio (OR)|1.17||||0.6728|TWO_SIDED|95.0|0.56|2.46|||Chi-squared||The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||2.46|0.56|0.6728
92313735|NCT04386616|184530437|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5495|TWO_SIDED|95.0|0.62|2.87|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.87|0.62|0.5495
92313736|NCT04386616|184530437|SUPERIORITY||Odds Ratio (OR)|1.24||||0.5551|TWO_SIDED|95.0|0.57|2.71|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||2.71|0.57|0.5551
92313737|NCT04386616|184530438|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.3831|TWO_SIDED|95.0|0.71|2.4|||Unstratified Log Rank||The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.40|0.71|0.3831
92313738|NCT04386616|184530438|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.5925|TWO_SIDED|95.0|0.65|2.15|||Unstratified Log Rank||The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||2.15|0.65|0.5925
92313739|NCT04386616|184530438|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.7487|TWO_SIDED|95.0|0.6|2.05|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.05|0.60|0.7487
92313740|NCT04386616|184530438|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.6092|TWO_SIDED|95.0|0.63|2.21|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||2.21|0.63|0.6092
92313741|NCT01377012|184530449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21||||0.0004|TWO_SIDED|95.0|1.4|3.4|||Regression, Logistic|||||3.4|1.4|0.0004
92313742|NCT01377012|184530449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21||||0.0004|TWO_SIDED|95.0|1.4|3.4|||Regression, Logistic|||||3.4|1.4|0.0004
92313743|NCT02972892|184530470|NON_INFERIORITY|Using t-test, comparison of the weighted average percent duration between the Et Control and control device was performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for both EtAA.|Mean Difference (Net)|10.9|||<|0.001|TWO_SIDED|95.0|6.89|15.01|||t-test, 2 sided|||Using t-test, comparison of the weighted average percent duration between the Et Control and control device was performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for both EtAA.||15.01|6.89|<.001
92313744|NCT02972892|184530471|NON_INFERIORITY|Using t-test, comparison of the weighted average percent duration between the Et Control and control device was performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for both EtAA.|Mean Difference (Net)|52.1|||<|0.001|TWO_SIDED|95.0|46.25|57.95|||t-test, 2 sided|||Using t-test, comparison of the weighted average percent duration between the Et Control and control device was performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for both EtAA.||57.95|46.25|<.001
92313745|NCT02972892|184530472|NON_INFERIORITY|Using t-test, comparison of the weighted average percent duration between the Et Control and control device will be performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for EtO2.|Mean Difference (Net)|5.3|||<|0.001|TWO_SIDED|95.0|2.64|8.04|||t-test, 2 sided|||Using t-test, comparison of the weighted average percent duration between the Et Control and control device will be performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for EtO2.||8.04|2.64|<.001
92191283|NCT01057888|184281498|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.075|TWO_SIDED|95.0|1.0|1.6|||Regression, Cox||The mail reminder arm represents the numerator and the telephone reminder arm represents the denominator.|The null hypothesis was that there is no difference in the percentage of fully vaccinated adolescents between the mailed reminder versus the telephone reminder arms||1.6|1.0|0.075
92191284|NCT01057888|184281499|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2|||<|0.01|TWO_SIDED|95.0|1.1|1.3|||Regression, Cox||The control group represents the denominator and the mailed reminder group represents the numerator.|The null hypothesis was that a difference in well child care rates among adolescents whose families received a mailed reminder compared to the control group||1.3|1.1|<0.01
92313746|NCT02972892|184530473|NON_INFERIORITY|Using t-test, comparison of the weighted average percent duration between the Et Control and control device will be performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for EtO2.|Mean Difference (Net)|44.5|||<|0.001|TWO_SIDED|95.0|35.56|53.41|||t-test, 2 sided|||Using t-test, comparison of the weighted average percent duration between the Et Control and control device will be performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for EtO2.||53.41|35.56|<.001
92313747|NCT04917861|184530510|OTHER||Geometric Mean Ratio (GMR)|7.002|||||TWO_SIDED|95.0|5.451|8.992|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||8.992|5.451|
92191285|NCT01057888|184281499|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||<|0.05|TWO_SIDED|95.0|1.0|1.3|||Regression, Cox||The control group represents the denominator and the telephone reminder group represents the numerator|The null hypothesis is the the well child care rates of adolescents in the telephone reminder group would not differ from those of the control group||1.3|1.0|<0.05
92191286|NCT01057888|184281499|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.234|TWO_SIDED|95.0|1.0|1.2|||Regression, Cox||The mail reminder arm represents the numerator and the telephone reminder arm represents the denominator|The null hypothesis was that there would be no difference in the well child care rate among adolescents in the mailed reminder arm versus adolescents in the telephone reminder arm of the intervention||1.2|1.0|0.234
92191287|NCT03319719|184281520|SUPERIORITY||Mean Difference (Net)|-2.88|||<|0.0001|TWO_SIDED|95.0|-3.42|-2.33||p-value from paired two-sided t-tests of no difference between test and control groups.|t-test, 2 sided|||||-2.33|-3.42|<0.0001
92191288|NCT00922441|184281536|OTHER|Efficacy, Safety|||||<|0.05|||||||ANOVA|comparison between the groups||||||<0.05
92191289|NCT00991029|184281540|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.02|TWO_SIDED|95.0|0.59|0.95|||Log Rank|||||0.95|0.59|0.02
92191290|NCT00991029|184281541|SUPERIORITY||Hazard Ratio (HR)|2.32||||0.02|TWO_SIDED|95.0|1.1|4.87|||Log Rank|||||4.87|1.10|0.02
92191291|NCT00991029|184281542|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.01|TWO_SIDED|95.0|0.56|0.92|||Log Rank|||||0.92|0.56|0.01
92191292|NCT00991029|184281543|SUPERIORITY||Hazard Ratio (HR)|1.44||||0.46|TWO_SIDED|95.0|0.55|3.78|||Log Rank|||||3.78|0.55|0.46
92191293|NCT00991029|184281544|SUPERIORITY||Hazard Ratio (HR)|1.51||||0.52|TWO_SIDED|95.0|0.43|5.35|||Log Rank|||||5.35|0.43|0.52
92191294|NCT00991029|184281545|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.01|TWO_SIDED|95.0|0.58|0.94|||Log Rank|||||0.94|0.58|0.01
92313748|NCT04917861|184530510|OTHER||GMR|7.123|||||TWO_SIDED|95.0|5.467|9.279|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||9.279|5.467|
92313749|NCT04917861|184530510|OTHER||GMR|2.674|||||TWO_SIDED|95.0|1.961|3.646|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for all participants|||3.646|1.961|
92313750|NCT04917861|184530510|OTHER||GMR|7.208|||||TWO_SIDED|95.0|5.428|9.571|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-seronegative participants|||9.571|5.428|
92313751|NCT04917861|184530510|OTHER||GMR|7.979|||||TWO_SIDED|95.0|6.106|10.425|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-seronegative participants|||10.425|6.106|
92313752|NCT04917861|184530510|OTHER||GMR|1.516|||||TWO_SIDED|95.0|1.229|1.869|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-seronegative participants|||1.869|1.229|
92313753|NCT04917861|184530510|OTHER||GMR|6.785|||||TWO_SIDED|95.0|4.562|10.092|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-seropositive participants|||10.092|4.562|
92313754|NCT04917861|184530510|OTHER||GMR|6.319|||||TWO_SIDED|95.0|4.03|9.909|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-seropositive participants|||9.909|4.030|
92313755|NCT04917861|184530510|OTHER||GMR|7.028|||||TWO_SIDED|95.0|4.056|12.18|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-seropositive participants|||12.180|4.056|
92191295|NCT00991029|184281546|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.13|TWO_SIDED|95.0|0.67|1.05|||Log Rank|||||1.05|0.67|0.13
92191296|NCT00991029|184281547|SUPERIORITY||Hazard Ratio (HR)|1.68||||0.47|TWO_SIDED|95.0|0.4|7.03|||Log Rank|||||7.03|0.4|0.47
92191297|NCT00991029|184281548|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.99|TWO_SIDED|95.0|0.14|7.14|||Log Rank|||||7.14|0.14|0.99
92191298|NCT00991029|184281549|SUPERIORITY|||||||0.16|||||||Log Rank|||||||0.16
92191299|NCT00991029|184281550|SUPERIORITY||Hazard Ratio (HR)|2.45||||0.04|TWO_SIDED|95.0|1.01|5.9|||Log Rank|||||5.9|1.01|0.04
92191300|NCT00991029|184281551|SUPERIORITY||Hazard Ratio (HR)|3.12|||<|0.001|TWO_SIDED|95.0|1.67|5.83|||Log Rank|||||5.83|1.67|<0.001
92191301|NCT00991029|184281552|SUPERIORITY||Hazard Ratio (HR)|1.51||||0.27|TWO_SIDED|95.0|0.73|3.13|||Log Rank|||||3.13|0.73|0.27
92191302|NCT02005029|184281574|SUPERIORITY_OR_OTHER|||||||0.036|||||||t-test, 2 sided|||||||0.036
92191303|NCT02005029|184281575|SUPERIORITY_OR_OTHER||Erythromycin:Placebo AUC ratio|1.07|STANDARD_DEVIATION|0.43|||TWO_SIDED|||||||||||||
92191304|NCT02005029|184281576|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
92191305|NCT02005029|184281577|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||||||0.18
92191306|NCT02005029|184281578|SUPERIORITY_OR_OTHER|||||||0.4405|||||||t-test, 2 sided|||||||0.4405
92191307|NCT02005029|184281579|SUPERIORITY_OR_OTHER|||||||0.6011|||||||t-test, 2 sided|||||||0.6011
92191308|NCT02005029|184281580|SUPERIORITY_OR_OTHER|||||||0.8923|||||||t-test, 2 sided|||||||0.8923
92191309|NCT02005029|184281581|SUPERIORITY_OR_OTHER|||||||0.832|||||||t-test, 2 sided|||||||0.832
92191310|NCT02005029|184281582|SUPERIORITY_OR_OTHER|||||||0.1546|||||||t-test, 2 sided|||||||0.1546
92191311|NCT02005029|184281583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.75|STANDARD_DEVIATION|5.0||0.0314|TWO_SIDED||||||t-test, 2 sided||"Mean difference in on score versus off score from the MDS UPDRS Part 3 on day of erythromycin minus the mean difference in 'on score versus off score on day of placebo."|||||0.0314
92313756|NCT04917861|184530511|OTHER||GMR|5.312|||||TWO_SIDED|95.0|4.149|6.802|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||6.802|4.149|
92313757|NCT04917861|184530511|OTHER||GMR|5.346|||||TWO_SIDED|95.0|4.128|6.922|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||6.922|4.128|
92313758|NCT04917861|184530511|OTHER||GMR|2.325|||||TWO_SIDED|95.0|1.721|3.14|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for all participants|||3.140|1.721|
92313759|NCT04917861|184530511|OTHER||GMR|4.221|||||TWO_SIDED|95.0|3.322|5.363|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||5.363|3.322|
92313760|NCT04917861|184530511|OTHER||GMR|5.3|||||TWO_SIDED|95.0|4.243|6.62|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||6.620|4.243|
92313761|NCT04917861|184530511|OTHER||GMR|1.206|||||TWO_SIDED|95.0|1.033|1.407|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||1.407|1.033|
92313762|NCT04917861|184530511|OTHER||GMR|6.493|||||TWO_SIDED|95.0|4.358|9.674|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||9.674|4.358|
92313763|NCT04917861|184530511|OTHER||GMR|5.452|||||TWO_SIDED|95.0|3.43|8.665|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||8.665|3.430|
92313764|NCT04917861|184530511|OTHER||GMR|6.804|||||TWO_SIDED|95.0|3.928|11.784|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||11.784|3.928|
92313765|NCT04917861|184530512|OTHER||percentage difference|76.69|||||TWO_SIDED|95.0|69.1|82.68|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||82.68|69.10|
92313766|NCT04917861|184530512|OTHER||percentage difference|77.8|||||TWO_SIDED|95.0|70.29|83.67|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||83.67|70.29|
92313767|NCT04917861|184530512|OTHER||percentage difference|35.58|||||TWO_SIDED|95.0|27.47|43.74|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for all participants|||43.74|27.47|
92313768|NCT04917861|184530512|OTHER||percentage difference|86.11|||||TWO_SIDED|95.0|76.25|92.29|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||92.29|76.25|
92313769|NCT04917861|184530512|OTHER||percentage difference|87.65|||||TWO_SIDED|95.0|78.71|93.17|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||93.17|78.71|
92313770|NCT04917861|184530512|OTHER||percentage difference|20.43|||||TWO_SIDED|95.0|13.47|29.75|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||29.75|13.47|
92313771|NCT04917861|184530512|OTHER||percentage difference|67.72|||||TWO_SIDED|95.0|55.69|77.07|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||77.07|55.69|
92313772|NCT04917861|184530512|OTHER||percentage difference|67.81|||||TWO_SIDED|95.0|55.36|77.44|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||77.44|55.36|
92313773|NCT04917861|184530512|OTHER||percentage difference|57.53|||||TWO_SIDED|95.0|43.81|69.08|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||69.08|43.81|
92313774|NCT04917861|184530513|OTHER||percentage difference|75.46|||||TWO_SIDED|95.0|68.12|81.49|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||81.49|68.12|
92313775|NCT04917861|184530513|OTHER||percentage difference|75.32|||||TWO_SIDED|95.0|67.94|81.38|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||81.38|67.94|
92313776|NCT04917861|184530513|OTHER||percentage difference|31.29|||||TWO_SIDED|95.0|24.23|38.96|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for all participants|||38.96|24.23|
92313777|NCT04917861|184530513|OTHER||percentage difference|77.78|||||TWO_SIDED|95.0|66.87|85.85|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||85.85|66.87|
92313778|NCT04917861|184530513|OTHER||percentage difference|82.72|||||TWO_SIDED|95.0|73.02|89.43|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||89.43|73.02|
92313779|NCT04917861|184530513|OTHER||percentage difference|9.68|||||TWO_SIDED|95.0|4.63|17.41|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||17.41|4.63|
92191312|NCT02005029|184281584|SUPERIORITY_OR_OTHER||Erythromycin:Placebo Cmax ratio|0.83|STANDARD_DEVIATION|0.24|||TWO_SIDED|||||||||||||
92313780|NCT04917861|184530513|OTHER||percentage difference|72.39|||||TWO_SIDED|95.0|61.56|80.83|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||80.83|61.56|
92313781|NCT04917861|184530513|OTHER||percentage difference|67.29|||||TWO_SIDED|95.0|55.72|76.78|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||76.78|55.72|
92313782|NCT04917861|184530513|OTHER||percentage difference|63.35|||||TWO_SIDED|95.0|50.75|74.0|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||74.00|50.75|
92313783|NCT00720382|184530532|SUPERIORITY_OR_OTHER|||||||0.783||95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Overall baseline score||||0.783
92191313|NCT02621047|184281585|SUPERIORITY_OR_OTHER||Geometric Mean Ratio Percentage (%)|128.0|||||TWO_SIDED|90.0|86.5|188.0||||||||188|86.5|
92191314|NCT02621047|184281585|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|100.0|||||TWO_SIDED|90.0|55.1|183.0||||||||183|55.1|
92191315|NCT02621047|184281586|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|148.0|||||TWO_SIDED|90.0|106.0|208.0||||||||208|106|
92191316|NCT02621047|184281586|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|130.0|||||TWO_SIDED|90.0|75.4|225.0||||||||225|75.4|
92191317|NCT02621047|184281587|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|160.0||||||90.0|105.0|243.0||||||||243|105|
92313784|NCT00720382|184530532|SUPERIORITY_OR_OTHER|||||||0.971|TWO_SIDED|95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Change from baseline to Month 1||||0.971
92313785|NCT00720382|184530532|SUPERIORITY_OR_OTHER|||||||0.206|TWO_SIDED|95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Change from baseline to Month 3||||0.206
92313786|NCT00720382|184530532|SUPERIORITY_OR_OTHER|||||||0.111||95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Change from baseline to Month 6||||0.111
92313787|NCT00720382|184530532|SUPERIORITY_OR_OTHER|||||||0.181||95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Change from baseline to Month 9||||0.181
92313788|NCT00720382|184530532|SUPERIORITY_OR_OTHER|||||||0.037|||||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Change from Baseline to Month 12/Early Term||||0.037
92313789|NCT04467840|184530546|SUPERIORITY||Risk Difference (RD)|3.86||||0.391|TWO_SIDED|95.0|-4.93|12.65||The threshold for statistical significance was p = 0.05|Cochran-Mantel-Haenszel||Opaganib - Placebo|||12.65|-4.93|0.391
92313790|NCT04467840|184530547|SUPERIORITY||Risk Difference (RD)|3.91||||0.38|TWO_SIDED|95.0|-4.78|12.6||The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Cochran-Mantel-Haenszel|||||12.60|-4.78|0.380
92313791|NCT04467840|184530548|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.231|TWO_SIDED|95.0|0.91|1.45||The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Log Rank|||||1.45|0.91|0.231
92313792|NCT04467840|184530549|SUPERIORITY||Hazard Ratio, log|1.08||||0.472|TWO_SIDED|95.0|0.87|1.33||The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Log Rank|||||1.33|0.87|0.472
92313793|NCT04467840|184530550|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.521|TWO_SIDED|95.0|0.846|1.378||The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Log Rank|||||1.378|0.846|0.521
92313794|NCT04467840|184530551|SUPERIORITY||Risk Difference (RD)|-1.51||||0.701|TWO_SIDED|95.0|-9.19|6.18||The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Cochran-Mantel-Haenszel|||||6.18|-9.19|0.701
92313795|NCT04467840|184530552|SUPERIORITY|The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Hazard Ratio (HR)|1.34||||0.043|TWO_SIDED|95.0|0.99|1.82|||Log Rank|||||1.82|0.99|0.043
92313796|NCT04467840|184530553|SUPERIORITY|The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Risk Difference (RD)|8.3||||0.118|TWO_SIDED|95.0|-2.05|18.65|||Cochran-Mantel-Haenszel|||||18.65|-2.05|0.118
92313797|NCT04467840|184530557|SUPERIORITY||Risk Difference (RD)|12.28||||0.033|TWO_SIDED|95.0|1.06|23.5||unadjusted p-value|Cochran-Mantel-Haenszel|||||23.50|1.06|0.033
92313798|NCT04467840|184530558|SUPERIORITY||Risk Difference (RD)|-4.75||||0.5|TWO_SIDED|95.0|-18.67|9.17|||Cochran-Mantel-Haenszel|||||9.17|-18.67|0.500
92313799|NCT04467840|184530559|SUPERIORITY||Risk Difference (RD)|12.75||||0.023|TWO_SIDED|95.0|1.9|23.6|||Cochran-Mantel-Haenszel|||||23.60|1.90|0.023
92313800|NCT04467840|184530560|SUPERIORITY||Risk Difference (RD)|-4.12||||0.561|TWO_SIDED|95.0|-18.07|9.82|||Cochran-Mantel-Haenszel|||||9.82|-18.07|0.561
92313801|NCT04467840|184530561|SUPERIORITY||Hazard Ratio (HR)|1.44||||0.01|TWO_SIDED|95.0|1.07|1.93|||Log Rank|||||1.93|1.07|0.01
92313802|NCT04467840|184530562|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.545|TWO_SIDED|95.0|0.58|1.34|||Log Rank|||||1.34|0.58|0.545
92313803|NCT04467840|184530563|SUPERIORITY||Hazard Ratio (HR)|1.276||||0.1|TWO_SIDED|95.0|0.94|1.732|||Log Rank|||||1.732|0.940|0.100
92313804|NCT04467840|184530565|SUPERIORITY||Risk Difference (RD)|-10.5||||0.012|TWO_SIDED|95.0|-18.44|-2.57|||Cochran-Mantel-Haenszel|||||-2.57|-18.44|0.012
92313805|NCT04467840|184530566|SUPERIORITY||Risk Difference (RD)|7.2||||0.304|TWO_SIDED|95.0|-6.46|20.86|||Cochran-Mantel-Haenszel|||||20.86|-6.46|0.304
92191318|NCT02621047|184281587|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|220.0||||||90.0|131.0|369.0||||||||369|131|
92191319|NCT02621047|184281588|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|186.0||||||90.0|122.0|281.0||||||||281|122|
92191320|NCT02621047|184281588|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|285.0||||||90.0|175.0|466.0||||||||466|175|
92191321|NCT02621047|184281589|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|162.0|||||TWO_SIDED|90.0|104.0|254.0||||||||254|104|
92191322|NCT02621047|184281589|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|228.0||||||90.0|129.0|403.0||||||||403|129|
92191323|NCT02621047|184281590|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|189.0||||||90.0|121.0|293.0||||||||293|121|
92191324|NCT02621047|184281590|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|296.0|||||TWO_SIDED|90.0|174.0|506.0||||||||506|174|
92191325|NCT02621047|184281591|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|64.6||||||90.0|36.2|115.0||||||||115|36.2|
92191326|NCT02621047|184281591|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|60.8|||||TWO_SIDED|90.0|26.6|139.0||||||||139|26.6|
92191327|NCT02621047|184281592|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|85.1||||||90.0|55.5|130.0||||||||130|55.5|
92191328|NCT02621047|184281592|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|59.0||||||90.0|34.2|102.0||||||||102|34.2|
92191329|NCT02621047|184281593|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|116.0||||||90.0|78.6|172.0||||||||172|78.6|
92191330|NCT02621047|184281593|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|98.1||||||90.0|51.7|186.0||||||||186|51.7|
92191331|NCT02621047|184281594|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|115.0|||||TWO_SIDED|90.0|85.2|154.0||||||||154|85.2|
92191332|NCT02621047|184281594|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|96.6|||||TWO_SIDED|90.0|55.6|168.0||||||||168|55.6|
92191333|NCT02621047|184281595|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|80.6||||||90.0|50.2|130.0||||||||130|50.2|
92191334|NCT02621047|184281595|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|65.6|||||TWO_SIDED|90.0|26.9|160.0||||||||160|26.9|
92191335|NCT02621047|184281596|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|104.0||||||90.0|76.8|141.0||||||||141|76.8|
92191336|NCT02621047|184281596|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|63.7|||||TWO_SIDED|90.0|34.0|119.0||||||||119|34.0|
92313806|NCT04467840|184530567|SUPERIORITY||Risk Difference (RD)|-9.22||||0.019|TWO_SIDED|95.0|-16.63|-1.8|||Cochran-Mantel-Haenszel|||||-1.80|-16.63|0.019
92313807|NCT04467840|184530568|SUPERIORITY||Risk Difference (RD)|7.37||||0.273|TWO_SIDED|95.0|-5.66|20.39|||Cochran-Mantel-Haenszel|||||20.39|-5.66|0.273
92313808|NCT06418529|184530571|OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.85|1.05||||||||1.05|0.85|
92313809|NCT06418529|184530572|OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.83|1.07||||||||1.07|0.83|
92313810|NCT06418529|184530573|OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.79|0.99||||||||0.99|0.79|
92313811|NCT06418529|184530574|OTHER||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.79|1.04||||||||1.04|0.79|
92313812|NCT06418529|184530575|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.81|1.05||||||||1.05|0.81|
92313813|NCT06418529|184530576|OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.79|1.09||||||||1.09|0.79|
92313814|NCT02719184|184530632|OTHER|The analysis was based on a Mixed Model for Repeated Measures (MMRM) approach with diagnosis group-by-visit and baseline ALD value-by-visit terms, and unstructured covariance matrix structure for repeated measurements within subject.|Adjusted mean difference|-2.89|STANDARD_ERROR_OF_MEAN|1.23||0.0202|TWO_SIDED|95.0|-5.32|-0.45|||Mixed Model for Repeated Measures (MMRM)||The mean difference was calculated as value from COPD GOLD I group - value from Healthy subjects group.|||-0.45|-5.32|0.0202
92313815|NCT02719184|184530632|OTHER|The analysis was based on a Mixed Model for Repeated Measures (MMRM) approach with diagnosis group-by-visit and baseline ALD value-by-visit terms, and unstructured covariance matrix structure for repeated measurements within subject.|Adjusted mean difference|-4.78|STANDARD_ERROR_OF_MEAN|1.31||0.0003|TWO_SIDED|95.0|-7.36|-2.19|||Mixed Model for Repeated Measures (MMRM)||The mean difference was calculated as value from COPD GOLD II group - value from Healthy subjects group.|||-2.19|-7.36|0.0003
92313816|NCT02719184|184530632|OTHER|The analysis was based on a Mixed Model for Repeated Measures (MMRM) approach with diagnosis group-by-visit and baseline ALD value-by-visit terms, and unstructured covariance matrix structure for repeated measurements within subject.|Adjusted mean difference|-4.47|STANDARD_ERROR_OF_MEAN|1.51||0.0033|TWO_SIDED|95.0|-7.44|-1.5|||Mixed Model for Repeated Measures (MMRM)||The mean difference was calculated as value from COPD GOLD III group - value from Healthy subjects group.|||-1.50|-7.44|0.0033
92313817|NCT02719184|184530632|OTHER|The analysis was based on a Mixed Model for Repeated Measures (MMRM) approach with diagnosis group-by-visit and baseline ALD value-by-visit terms, and unstructured covariance matrix structure for repeated measurements within subject.|Adjusted mean difference|-5.86|STANDARD_ERROR_OF_MEAN|2.74||0.0334|TWO_SIDED|95.0|-11.26|-0.47|||Mixed Model for Repeated Measures (MMRM)||The mean difference was calculated as value from COPD and A1AT group - value from Healthy subjects group.|||-0.47|-11.26|0.0334
92313818|NCT02719184|184530633|OTHER|A random slope and intercept model with fixed categorical effects of diagnosis group, fixed continuous effects of time, and including diagnosis group-by-time interaction was applied. Random effect was included for subject specific intercept and time. Within-subject errors are modelled by an unstructured variance-covariance matrix.|Unadjusted mean difference|1.3|STANDARD_ERROR_OF_MEAN|14.4||0.9306|TWO_SIDED|95.0|-27.2|29.7|||Random slope and intercept model||The mean difference was calculated as value from COPD GOLD I group - value from Healthy subjects group.|||29.7|-27.2|0.9306
92313819|NCT02719184|184530633|OTHER|A random slope and intercept model with fixed categorical effects of diagnosis group, fixed continuous effects of time, and including diagnosis group-by-time interaction was applied. Random effect was included for subject specific intercept and time. Within-subject errors are modelled by an unstructured variance-covariance matrix.|Unadjusted mean difference|-19.2|STANDARD_ERROR_OF_MEAN|14.9||0.1983|TWO_SIDED|95.0|-48.5|10.1|||Random slope and intercept model|The mean difference was calculated as value from COPD GOLD II group - value from Healthy subjects group.||||10.1|-48.5|0.1983
92313820|NCT02719184|184530633|OTHER|A random slope and intercept model with fixed categorical effects of diagnosis group, fixed continuous effects of time, and including diagnosis group-by-time interaction was applied. Random effect was included for subject specific intercept and time. Within-subject errors are modelled by an unstructured variance-covariance matrix.|Unadjusted mean difference|-33.6|STANDARD_ERROR_OF_MEAN|16.1||0.0381|TWO_SIDED|95.0|-65.4|-1.9|||Random slope and intercept model||The mean difference was calculated as value from COPD GOLD III group - value from Healthy subjects group.|||-1.9|-65.4|0.0381
92313821|NCT02719184|184530633|OTHER|A random slope and intercept model with fixed categorical effects of diagnosis group, fixed continuous effects of time, and including diagnosis group-by-time interaction was applied. Random effect was included for subject specific intercept and time. Within-subject errors are modelled by an unstructured variance-covariance matrix.|Unadjusted mean difference|-61.8|STANDARD_ERROR_OF_MEAN|30.3||0.0419|TWO_SIDED|95.0|-121.3|-2.3|||Random slope and intercept model||The mean difference was calculated as value from COPD and A1AT group - value from Healthy subjects group.|||-2.3|-121.3|0.0419
92313822|NCT02556801|184530690|SUPERIORITY||Test statistic|1.823||||0.057|ONE_SIDED||||||MCP-Mod Method|The primary dose-response analysis was performed by applying linear, Emax, logistic and exponential models.The p-value was based on Emax model.||||||0.057
92313823|NCT02556801|184530690|SUPERIORITY||Treatment effect|-1.96|STANDARD_DEVIATION|1.17|||TWO_SIDED|90.0|-3.89|-0.03||||||||-0.03|-3.89|
92313824|NCT02556801|184530690|SUPERIORITY||Treatment effect|-1.83|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|-3.72|0.06||||||||0.06|-3.72|
92313825|NCT02556801|184530690|SUPERIORITY||Treatment effect|-2.33|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|-4.23|-0.43||||||||-0.43|-4.23|
92313826|NCT02556801|184530691|SUPERIORITY||Treatment effect|-1.92|STANDARD_ERROR_OF_MEAN|1.17|=|0.051|TWO_SIDED|90.0|-3.85|0.01|||Mixed Models Analysis|||||0.01|-3.85|=0.051
92191337|NCT02621047|184281597|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|136.0|||||TWO_SIDED|90.0|94.7|196.0||||||||196|94.7|
92313827|NCT02556801|184530691|SUPERIORITY||Treatment effect|-1.79|STANDARD_ERROR_OF_MEAN|1.14||0.059|TWO_SIDED|90.0|-3.68|0.1|||Mixed Models Analysis|||||0.10|-3.68|0.059
92191338|NCT02621047|184281597|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|176.0||||||90.0|98.4|315.0||||||||315|98.4|
92313828|NCT02556801|184530691|SUPERIORITY||Treatment effect|-2.3|STANDARD_ERROR_OF_MEAN|1.15||0.024|TWO_SIDED|90.0|-4.2|-0.4|||Mixed Models Analysis|||||-0.40|-4.20|0.024
92191339|NCT02621047|184281598|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|134.0||||||90.0|99.6|181.0||||||||181|99.6|
92191340|NCT02621047|184281598|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|157.0|||||TWO_SIDED|90.0|91.8|268.0||||||||268|91.8|
92191341|NCT02621047|184281599|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|73.3|||||TWO_SIDED|90.0|46.2|116.0||||||||116|46.2|
92191342|NCT02621047|184281599|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|57.5|||||TWO_SIDED|90.0|20.0|165.0||||||||165|20.0|
92191343|NCT02621047|184281600|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|96.6||||||90.0|69.9|134.0||||||||134|69.9|
92191344|NCT02621047|184281600|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|55.8||||||90.0|26.0|120.0||||||||120|26.0|
92191345|NCT02621047|184281601|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|139.0|||||TWO_SIDED|90.0|94.8|203.0||||||||203|94.8|
92191346|NCT02621047|184281601|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|180.0||||||90.0|97.2|334.0||||||||334|97.2|
92313829|NCT02556801|184530692|SUPERIORITY||Treatment effect|-0.6|STANDARD_ERROR_OF_MEAN|1.08||0.291|TWO_SIDED|90.0|-2.39|1.19|||Mixed Models Analysis|||||1.19|-2.39|0.291
92313830|NCT02556801|184530692|SUPERIORITY||Treatment effect|-1.84|STANDARD_ERROR_OF_MEAN|1.06|=|0.042|TWO_SIDED|90.0|-3.6|-0.09|||Mixed Models Analysis|||||-0.09|-3.60|=0.042
92313831|NCT02556801|184530692|SUPERIORITY||Treatment effect|-1.78|STANDARD_ERROR_OF_MEAN|1.08||0.05|TWO_SIDED|90.0|-3.56|0.0|||Mixed Models Analysis|||||0.00|-3.56|0.050
92313832|NCT02556801|184530693|SUPERIORITY||Treatment effect|-0.89|STANDARD_ERROR_OF_MEAN|0.63|=|0.079|TWO_SIDED|90.0|-1.93|0.15|||Mixed Models Analysis|||||0.15|-1.93|=0.079
92313833|NCT02556801|184530693|SUPERIORITY||Treatment effect|-0.88|STANDARD_ERROR_OF_MEAN|0.61|=|0.076|TWO_SIDED|90.0|-1.89|0.13|||Mixed Models Analysis|||||0.13|-1.89|=0.076
92313834|NCT02556801|184530693|SUPERIORITY||Treatment effect|-1.11|STANDARD_ERROR_OF_MEAN|0.62|=|0.038|TWO_SIDED|0.62|-2.13|-0.08|||Mixed Models Analysis|||||-0.08|-2.13|=0.038
92313835|NCT02556801|184530694|SUPERIORITY||Treatment effect|-0.07|STANDARD_ERROR_OF_MEAN|0.58|=|0.451|TWO_SIDED|90.0|-1.03|0.88|||Mixed Models Analysis|||||0.88|-1.03|=0.451
92313836|NCT02556801|184530694|SUPERIORITY||Treatment effect|-0.62|STANDARD_ERROR_OF_MEAN|0.56|=|0.137|TWO_SIDED|90.0|-1.55|0.32|||Mixed Models Analysis|||||0.32|-1.55|=0.137
92313837|NCT02556801|184530694|SUPERIORITY||Treatment effect|-0.5|STANDARD_ERROR_OF_MEAN|0.57|=|0.195|TWO_SIDED|90.0|-1.45|0.46|||Mixed Models Analysis|||||0.46|-1.45|=0.195
92313838|NCT02556801|184530695|SUPERIORITY||Treatment effect|-0.354|STANDARD_ERROR_OF_MEAN|0.183|=|0.028|TWO_SIDED|90.0|-0.657|-0.05|||ANOVA|||||-0.050|-0.657|=0.028
92313839|NCT02556801|184530695|SUPERIORITY||Treatment effect|-0.394|STANDARD_ERROR_OF_MEAN|0.186|=|0.018|TWO_SIDED|90.0|-0.702|-0.086|||ANOVA|||||-0.086|-0.702|=0.018
92313840|NCT02556801|184530695|SUPERIORITY||Treatment effect|-0.28|STANDARD_ERROR_OF_MEAN|0.182|=|0.063|TWO_SIDED|90.0|-0.581|0.021|||ANOVA|||||0.021|-0.581|=0.063
92313841|NCT02556801|184530696|SUPERIORITY||Treatment effect|1.92|||<|0.001|TWO_SIDED|90.0|1.41|2.6|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 5 months (Visit 4)||2.60|1.41|<0.001
92313842|NCT02556801|184530696|SUPERIORITY||Treatment effect|2.43|||<|0.001|TWO_SIDED|90.0|1.8|3.27|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 5 months (Visit 4)||3.27|1.80|<0.001
92313843|NCT02556801|184530696|SUPERIORITY||Treatment effect|2.34|||<|0.001|TWO_SIDED|90.0|1.73|3.15|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 5 months (Visit 4)||3.15|1.73|<0.001
92313844|NCT02556801|184530696|SUPERIORITY||Treatment effect|1.42||||0.029|TWO_SIDED|90.0|1.05|1.93|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 10 months (Visit 6)||1.93|1.05|0.029
92313845|NCT02556801|184530696|SUPERIORITY||Treatment effect|1.67||||0.003|TWO_SIDED|90.0|1.24|2.25|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 10 months (Visit 6)||2.25|1.24|0.003
92313846|NCT02556801|184530696|SUPERIORITY||Treatment effect|1.37||||0.042|TWO_SIDED|90.0|1.01|1.85|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 10 months (Visit 6)||1.85|1.01|0.042
92313847|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.11||||0.057|TWO_SIDED|90.0|1.0|1.23|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 5 months (Visit 4)||1.23|1.00|0.057
92313848|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.29|||<|0.001|TWO_SIDED|90.0|1.17|1.43|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 5 months (Visit 4)||1.43|1.17|<0.001
92313849|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.24|||<|0.001|TWO_SIDED|90.0|1.12|1.37|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 5 months (Visit 4)||1.37|1.12|<0.001
92313850|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.23||||0.015|TWO_SIDED|90.0|1.05|1.45|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 10 months (Visit 6)||1.45|1.05|0.015
92191347|NCT02621047|184281602|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|137.0|||||TWO_SIDED|90.0|100.0|186.0||||||||186|100|
92313851|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.6|||<|0.001|TWO_SIDED|90.0|1.37|1.87|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 10 months (Visit 6)||1.87|1.37|<0.001
92313852|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.39|||<|0.001|TWO_SIDED|90.0|1.19|1.62|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 10 months (Visit 6)||1.62|1.19|<0.001
92191348|NCT02621047|184281602|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|158.0|||||TWO_SIDED|90.0|91.2|274.0||||||||274|91.2|
92191349|NCT02853305|184281636|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0033|TWO_SIDED|95.0|0.65|0.93|||Stratified Log-Rank|The treatment difference in PFS was assessed by the stratified log-rank test.||PFS in all participants of the pembro combo arm was compared to PFS in all participants of the chemo arm to address the first primary hypothesis (superiority to chemo). The hazard ratio (HR) and its 95% confidence interval (CI) were estimated using a stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||0.93|0.65|0.0033
92313853|NCT02556801|184530697|SUPERIORITY||Treatment effect|0.99||||0.341|TWO_SIDED|90.0|0.93|1.04|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 5 months (Visit 4)||1.04|0.93|0.341
92313854|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.1||||0.003|TWO_SIDED|90.0|1.04|1.16|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 5 months (Visit 4)||1.16|1.04|0.003
92313855|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.02||||0.269|TWO_SIDED|90.0|0.97|1.08|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 5 months (Visit 4)||1.08|0.97|0.269
92313856|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.02||||0.312|TWO_SIDED|90.0|0.95|1.1|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 10 months (Visit 6)||1.10|0.95|0.312
92313857|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.22|||<|0.001|TWO_SIDED|90.0|1.13|1.31|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 10 months (Visit 6)||1.31|1.13|<0.001
92313858|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.11||||0.008|TWO_SIDED|90.0|1.03|1.2|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 10 months (Visit 6)||1.20|1.03|0.008
92313859|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.04||||0.212|TWO_SIDED|90.0|0.96|1.14|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 5 months (Visit 4)||1.14|0.96|0.212
92313860|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.16||||0.002|TWO_SIDED|90.0|1.07|1.27|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 5 months (Visit 4)||1.27|1.07|0.002
92313861|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.15||||0.004|TWO_SIDED|90.0|1.06|1.25|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 5 months (Visit 4)||1.25|1.06|0.004
92313862|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.09||||0.126|TWO_SIDED|90.0|0.96|1.24|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 10 months (Visit 6)||1.24|0.96|0.126
92313863|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.28|||<|0.001|TWO_SIDED|90.0|1.13|1.45|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 10 months (Visit 6)||1.45|1.13|<0.001
92313864|NCT02556801|184530697|SUPERIORITY||Treatment effect|1.26||||0.002|TWO_SIDED|90.0|1.11|1.43|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 10 months (Visit 6)||1.43|1.11|0.002
92313865|NCT02556801|184530698|SUPERIORITY||Treatment effect|1.33||||0.032|TWO_SIDED|90.0|1.03|1.7|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 5 months (Visit 4)||1.70|1.03|0.032
92313866|NCT02556801|184530698|SUPERIORITY||Treatment effect|2.15|||<|0.001|TWO_SIDED|90.0|1.68|2.74|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 5 months (Visit 4)||2.74|1.68|<0.001
92313867|NCT02556801|184530698|SUPERIORITY||Treatment effect|2.03|||<|0.001|TWO_SIDED|90.0|1.59|2.59|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 5 months (Visit 4)||2.59|1.59|<0.001
92313868|NCT02556801|184530698|SUPERIORITY||Treatment effect|1.48||||0.024|TWO_SIDED|90.0|1.07|2.06|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 10 months (Visit 6)||2.06|1.07|0.024
92313869|NCT02556801|184530698|SUPERIORITY||Treatment effect|2.88|||<|0.001|TWO_SIDED|90.0|2.09|3.98|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 10 months (Visit 6)||3.98|2.09|<0.001
92313870|NCT02556801|184530698|SUPERIORITY||Treatment effect|2.12|||<|0.001|TWO_SIDED|90.0|1.54|2.93|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 10 months (Visit 6)||2.93|1.54|<0.001
92313871|NCT02556801|184530698|SUPERIORITY||Treatment effect|1.18||||0.102|TWO_SIDED|90.0|0.95|1.47|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 5 months (Visit 4)||1.47|0.95|0.102
92313872|NCT02556801|184530698|SUPERIORITY||Treatment effect|1.99|||<|0.001|TWO_SIDED|90.0|1.61|2.46|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 5 months (Visit 4)||2.46|1.61|<0.001
92313873|NCT02556801|184530698|SUPERIORITY||Treatment effect|1.57|||<|0.001|TWO_SIDED|90.0|1.27|1.94|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 5 months (Visit 4)||1.94|1.27|<0.001
92313874|NCT02556801|184530698|SUPERIORITY||Treatment effect|1.39||||0.019|TWO_SIDED|90.0|1.07|1.81|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 10 months (Visit 6)||1.81|1.07|0.019
92313875|NCT02556801|184530698|SUPERIORITY||Treatment effect|2.38|||<|0.001|TWO_SIDED|90.0|1.84|3.08|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 10 months (Visit 6)||3.08|1.84|<0.001
92313876|NCT02556801|184530698|SUPERIORITY||Treatment effect|1.7|||<|0.001|TWO_SIDED|90.0|1.31|2.19|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 10 months (Visit 6)||2.19|1.31|<0.001
92313877|NCT02556801|184530698|SUPERIORITY||Treatment effect|1.52||||0.048|TWO_SIDED|90.0|1.01|2.31|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 5 months (Visit 4)||2.31|1.01|0.048
92313878|NCT02556801|184530698|SUPERIORITY||Treatment effect|2.35|||<|0.001|TWO_SIDED|90.0|1.56|3.53|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 5 months (Visit 4)||3.53|1.56|<0.001
92313879|NCT02556801|184530698|SUPERIORITY||Treatment effect|2.83|||<|0.001|TWO_SIDED|90.0|1.88|4.24|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 5 months (Visit 4)||4.24|1.88|<0.001
92191350|NCT02853305|184281637|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0407|TWO_SIDED|95.0|0.72|1.02|||Stratified Log-Rank|The treatment difference in OS was assessed by the stratified log-rank test.||OS in all participants of the pembro combo arm was compared to OS in all participants of the chemo arm to address the second primary hypothesis (superiority to chemo). The HR and its 95% CI were estimated using a stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||1.02|0.72|0.0407
92313880|NCT02556801|184530698|SUPERIORITY||Treatment effect|1.67||||0.04|TWO_SIDED|90.0|1.03|2.69|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 10 months (Visit 6)||2.69|1.03|0.040
92313881|NCT02556801|184530698|SUPERIORITY||Treatment effect|2.68|||<|0.001|TWO_SIDED|90.0|1.67|4.3|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 10 months (Visit 6)||4.30|1.67|<0.001
92313882|NCT02556801|184530698|SUPERIORITY||Treatment effect|2.88|||<|0.001|TWO_SIDED|90.0|1.8|4.62|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 10 months (Visit 6)||4.62|1.80|<0.001
92313883|NCT02676882|184530720|OTHER|A Chi Squared analysis was performed to determine how the rate of relapse in Group 1 (27.3%) compared to that of historical controls in the literature (67.7%). (Cohen, JAMA 2006)||||||0.005||||||A priori threshold for statistical significance: p\<0.05|Chi-squared|||||||0.005
92313884|NCT02676882|184530721|OTHER|A one-way repeated measures ANOVA was used to examine the overall course of Group 2 participants' MADRS scores. (F(6, 29)=5.16, p=0.001).||||||0.001||||||a priori threshold for statistical significance: p \<0.05|ANOVA|||||||0.001
92313885|NCT00114140|184530722|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Z-test|||Assuming exponential distribution of survival times, the null hypothesis was a 43% increase in median survival time (40.5 mo. to 57.9 mo.) and a 21% increase in 3-year survival rate (54% to 65%). Assuming 5% ineligibility, 72 patients were required to be accrued over 3 years with 3-years of follow-up resulting in 80% power and 1-sided 0.10 significance level. (N later increased to 135 to accommodate an additional separate analysis of O-6-Methylguanine-DNA Methyltransferase (MGMT) status.)||||<0.001
92313886|NCT00114140|184530724|SUPERIORITY||Hazard Ratio (HR)|3.52||||0.0006|TWO_SIDED|95.0|1.64|7.56||Two-sided significance level of 0.05|Log Rank||Reference level = Methylated|Overall survival: The sample size was increased to 135 to ensure adequate power to detect a hazard ratio (HR) of 2.5 for MGMT status, at a 2-sided significance level of 0.05 with an MGMT prevalence rate of at least 30%||7.56|1.64|0.0006
92313887|NCT00114140|184530724|SUPERIORITY||Hazard Ratio (HR)|3.06||||0.0007|TWO_SIDED|95.0|1.55|6.04||Two-sided significance level of 0.05|Log Rank||Reference level = Methylated|Progression-free survival||6.04|1.55|0.0007
92313888|NCT02414958|184530727|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|97.5|-0.66|-0.41|||Mixed effect Model Repeated Measures||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model Mixed effect Model Repeated Measures (MMRM) included the fixed categorical effects of treatment, pre-existing insulin therapy, visit , and treatment-by-visit interaction, as well as the continuous, fixed covariates of baseline HbA1c, baseline estimated glomerular filtration rate (eGFR), and baseline HbA1c-by- visit interaction. Patient was included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.41|-0.66|<0.0001
92191351|NCT02853305|184281638|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.77|1.32||No formal hypothesis testing was performed.||||OS in CPS≥10 participants of the pembro arm was compared to OS in CPS≥10 participants of the chemo arm. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) at baseline.||1.32|0.77|
92191352|NCT02853305|184281639|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.77|1.11||No formal hypothesis testing was performed.||||OS in all participants of the pembro arm was compared to OS in all participants of the chemo arm. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||1.11|0.77|
92191353|NCT02853305|184281640|OTHER||Hazard Ratio (HR)|1.32|||||TWO_SIDED|95.0|1.09|1.58||No formal hypothesis testing was performed.||||PFS in all participants of the pembro arm was compared to PFS in all participants of the chemo arm. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||1.58|1.09|
92191354|NCT02853305|184281643|OTHER||Difference in Percentage|9.8|||||TWO_SIDED|95.0|2.4|17.1||No formal hypothesis testing was performed.||||ORR in participants of the pembro combo arm was compared to ORR in participants of the chemo arm. The comparison was based on the Miettinen \& Nurminen method stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||17.1|2.4|
92191355|NCT02853305|184281645|OTHER||Difference in Percentage|4.5|||||TWO_SIDED|95.0|-1.6|10.6||No formal hypothesis testing was performed.||||DCR in participants of the pembro combo arm was compared to DCR in participants of the chemo arm based on the Miettinen \& Nurminen method stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||10.6|-1.6|
92191356|NCT02853305|184281646|SUPERIORITY||Difference in Percentage|-14.8|||||TWO_SIDED|95.0|-22.0|-7.4||No formal hypothesis testing was performed.||||ORR in participants of the pembro arm was compared to ORR in participants of the chemo arm. The comparison was based on the Miettinen \& Nurminen method stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||-7.4|-22.0|
92191357|NCT02853305|184281648|OTHER||Difference in Percentage|-28.9|||||TWO_SIDED|95.0|-35.9|-21.6||No formal hypothesis testing was performed.||||DCR in participants of the pembro arm was compared to DCR in participants of the chemo arm based on the Miettinen \& Nurminen method stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||-21.6|-35.9|
92191358|NCT02853305|184281652|OTHER||Difference in LS Means|2.68|||||TWO_SIDED|95.0|-0.76|6.12||No formal hypothesis testing was performed.||||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro combo arm and the chemo arm. Comparison based on constrained longitudinal data analysis (cLDA) model with GHS/QoL score as response variable, and with treatment by study visit interactions and stratification factors (investigator's choice of chemotherapy \[cisplatin or carboplatin\] and PD-L1 status \[CPS\<10 vs. CPS≥10\]) at baseline as covariates.||6.12|-0.76|
92191359|NCT02853305|184281653|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.62|1.0||No formal hypothesis testing was performed.||||TTD in GHS/QoL combined score was compared between all participants of the pembro combo arm and the chemo arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||1.00|0.62|
92191360|NCT02853305|184281654|OTHER||Difference in LS Means|-0.94|||||TWO_SIDED|95.0|-5.06|3.18||No formal hypothesis testing was performed.||||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro arm and the chemo arm. Comparison based on cLDA model with GHS/QoL score as response variable, and with treatment by study visit interactions and stratification factors (investigator's choice of chemotherapy \[cisplatin or carboplatin\] and PD-L1 status \[CPS\<10 vs. CPS≥10\]) at baseline as covariates.||3.18|-5.06|
92191361|NCT02853305|184281655|OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.93|1.49||No formal hypothesis testing was performed.||||TTD in GHS/QoL combined score was compared between all participants of the pembro arm and the chemo arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||1.49|0.93|
92191362|NCT01947153|184281664|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|102.92|STANDARD_ERROR_OF_MEAN|1.027|<|0.0001|TWO_SIDED|90.0|98.37|107.688||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||107.688|98.370|<0.0001
92191363|NCT01947153|184281665|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|105.14|STANDARD_ERROR_OF_MEAN|1.032|<|0.0001|TWO_SIDED|90.0|99.645|110.941||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||110.941|99.645|<0.0001
92191364|NCT01947153|184281666|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|109.05|STANDARD_ERROR_OF_MEAN|1.063||0.0014|TWO_SIDED|90.0|98.299|120.968||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||120.968|98.299|0.0014
92191365|NCT01947153|184281667|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|105.81|STANDARD_ERROR_OF_MEAN|1.043|<|0.0001|TWO_SIDED|90.0|98.471|113.692||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||113.692|98.471|<0.0001
92191366|NCT01947153|184281668|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.48|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|92.177|105.208||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||105.208|92.177|<0.0001
92313889|NCT02414958|184530727|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|97.5|-0.66|-0.41|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean|Model MMRM included the fixed categorical effects of treatment, pre-existing insulin therapy, visit, and treatment-by- visit interaction, as well as the continuous, fixed covariates of baseline HbA1c, baseline eGFR, and baseline HbA1c-by- visit interaction. Patient was included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.41|-0.66|<0.0001
92313890|NCT02414958|184530728|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|97.5|-0.65|-0.4|||MMRM||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.40|-0.65|<0.0001
92313891|NCT02414958|184530728|SUPERIORITY||Mean Difference (Final Values)|-0.51|||<|0.0001|TWO_SIDED|97.5|-0.64|-0.39|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements||-0.39|-0.64|<0.0001
92313892|NCT02414958|184530729|SUPERIORITY||Adjusted Rate Ratio (%)|0.744||||0.0623|TWO_SIDED|97.75|0.518|1.069|||Negative binomial model||Empagliflozin 10 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For week 5 to 26, negative binomial model includes baseline rate of hypoglycaemia, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.069|0.518|0.0623
92313893|NCT02414958|184530729|SUPERIORITY||Adjusted Rate Ratio (%)|0.726||||0.048|TWO_SIDED|97.75|0.502|1.501|||Negative binomial model||Empagliflozin 25 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For week 5 to 26, negative binomial model includes baseline rate of hypoglycaemia, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset||1.501|0.502|0.0480
92313894|NCT02414958|184530729|SUPERIORITY||Adjusted Rate Ratio (%)|0.774||||0.0972|TWO_SIDED|95.0|0.572|1.048||This is a nominal p-value.|Negative binomial model||Empagliflozin 10 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For week 1 to 26, negative binomial model includes baseline rate of hypoglycaemia, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.048|0.572|0.0972
92191367|NCT01947153|184281669|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|104.62|STANDARD_ERROR_OF_MEAN|1.031|<|0.0001|TWO_SIDED|90.0|99.274|110.254||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||110.254|99.274|<0.0001
92191368|NCT01947153|184281670|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|102.92|STANDARD_ERROR_OF_MEAN|1.027|<|0.0001|TWO_SIDED|90.0|98.37|107.688||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||107.688|98.370|<0.0001
92191369|NCT02381652|184281671|OTHER|Statistical test to see if there is a difference||||||0.3108|||||||Fisher Exact|||||||0.3108
92191370|NCT00139659|184281689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.034|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.08|0.011|||longitudinal data analysis model|Confidence interval of least squares (LS) mean difference (INH - SC) between annual rates of change for the two treatment groups.|Primary analysis model includes terms of Treatment, Time, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on day of randomization.|Treatment group difference (Exubera minus subcutaneous insulin): annualized rate of change over time. Longitudinal data analysis methods with random effects were used to model the pulmonary function test (PFT) measurements. Random effects included the intercept and slope with respect to time (visit); all remaining effects were fixed. The estimated rate of change over time for each treatment group was derived from this model.||0.011|-0.080|
92191371|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.065|0.015|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.015|-0.065|
92191372|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.034|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.073|0.006|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.006|-0.073|
92191373|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.063|0.016|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.016|-0.063|
92191374|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.035|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.075|0.004|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.004|-0.075|
92191375|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.027|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.067|0.012|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.012|-0.067|
92313895|NCT02414958|184530729|SUPERIORITY||Adjusted Rate Ratio (%)|0.782||||0.118|TWO_SIDED|97.75|0.575|1.064||Negative binomial model|MMRM||Empagliflozin 25 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For week 1 to 26, negative binomial model includes baseline rate of hypoglycaemia, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.064|0.575|0.1180
92313896|NCT02414958|184530730|SUPERIORITY||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|99.75|-3.57|-1.8|||MMRM||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline weight, baseline eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline weight by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-1.80|-3.57|<0.0001
92313897|NCT02414958|184530730|SUPERIORITY||Mean Difference (Final Values)|-3.27|||<|0.0001|TWO_SIDED|99.75|-4.15|-2.39|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline weight, baseline eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline weight by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-2.39|-4.15|<0.0001
92313898|NCT02414958|184530731|SUPERIORITY||Mean Difference (Final Values)|11.86|||<|0.0001|TWO_SIDED|99.75|8.78|14.93|||ANCOVA||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean|The analysis of covariance (ANCOVA) model includes baseline time in the target range, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects.||14.93|8.78|<0.0001
92313899|NCT02414958|184530731|SUPERIORITY||Mean Difference (Final Values)|12.87|STANDARD_ERROR_OF_MEAN|1.01|<|0.0001|TWO_SIDED|99.75|9.81|15.93|||ANCOVA||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean|||15.93|9.81|<0.0001
92313900|NCT02414958|184530732|SUPERIORITY||Mean Difference (Final Values)|-16.92|STANDARD_ERROR_OF_MEAN|1.68|<|0.0001|TWO_SIDED|99.75|-22.04|-11.81|||ANCOVA||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|The analysis of covariance (ANCOVA) model includes model includes baseline IQR of glucose, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects.||-11.81|-22.04|<0.0001
92313901|NCT02414958|184530732|SUPERIORITY||Mean Difference (Final Values)|-19.04|STANDARD_ERROR_OF_MEAN|1.68|<|0.0001|TWO_SIDED|99.75|-24.13|-13.95|||ANCOVA||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|The analysis of covariance (ANCOVA) model includes model includes baseline IQR of glucose, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects.||-13.95|-24.13|<0.0001
92313902|NCT02414958|184530733|SUPERIORITY||Mean Difference (Final Values)|-0.092|STANDARD_ERROR_OF_MEAN|0.009|<|0.0001|TWO_SIDED|99.75|-0.121|-0.063|||MMRM||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline total daily insulin dose, baseline estimated eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline total daily insulin dose by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.063|-0.121|<0.0001
92313903|NCT02414958|184530733|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.009|<|0.0001|TWO_SIDED|99.75|-0.119|-0.062|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline total daily insulin dose, baseline estimated eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline total daily insulin dose by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.062|-0.119|<0.0001
92313904|NCT02414958|184530734|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|1.0||0.0397|TWO_SIDED|99.75|-5.2|1.0|||MMRM||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For SBP, the model MMRM includes baseline SBP seated, baseline estimated eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline SBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||1.0|-5.2|0.0397
92313905|NCT02414958|184530734|SUPERIORITY||Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|1.0||0.0003|TWO_SIDED|99.75|-6.8|-0.6|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For SBP, the model includes baseline SBP seated, baseline estimated eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline SBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.6|-6.8|0.0003
92191376|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.073|0.008|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.008|-0.073|
92191377|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.059|0.023|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.023|-0.059|
92191378|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.052|0.031|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.031|-0.052|
92313906|NCT02414958|184530734|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.7||0.0457|TWO_SIDED|99.75|-2.7|0.0||Nominal p-value|MMRM||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For DBP, the model MMRM includes baseline DBP seated, baseline eGFR baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline DBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||0.0|-2.7|0.0457
92313907|NCT02414958|184530734|SUPERIORITY||Mean Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|0.7||0.0006|TWO_SIDED|99.75|-4.3|-0.3|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For DBP, the model MMRM includes baseline DBP seated, baseline estimated eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline DBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.3|-4.3|0.0006
92313908|NCT00811733|184530740|SUPERIORITY_OR_OTHER||percentage of participants|47.0|||||TWO_SIDED|95.0|21.3|73.4|||||The estimated value represents the percentage of participants with OR.|||73.4|21.3|
92313909|NCT00811733|184530740|SUPERIORITY_OR_OTHER||percentage of participants|68.0|||||TWO_SIDED|95.0|45.1|86.1|||||The estimated value represents the percentage of participants with OR.|||86.1|45.1|
92313910|NCT00811733|184530741|SUPERIORITY_OR_OTHER||percentage of participants|33.0|||||TWO_SIDED|95.0|11.8|61.6|||||The estimated value represents the percentage of participants with OR.|||61.6|11.8|
92313911|NCT00811733|184530741|SUPERIORITY_OR_OTHER||percentage of participants|64.0|||||TWO_SIDED|95.0|40.7|82.8|||||The estimated value represents the percentage of participants with OR.|||82.8|40.7|
92313912|NCT02096744|184530786|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means Catapres-TTS-3(Oppanol/Vistanex) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|102.33|STANDARD_ERROR_OF_MEAN|19.0|<|0.0001|TWO_SIDED|90.0|95.74|109.37|||ANOVA|ANOVA on the logarithmic scale including effects for 'Group', 'sequence', 'subjects within sequences', 'period', and 'treatment'.|"The estimated value is actually the ratio of Catapres-TTS-3 with Oppanol and Catapres-TTS-3 with Vistanex.~The value in parameter dispersion type and dispersion value is actually the intra-individual gCV."|||109.37|95.74|<0.0001
92313913|NCT02096744|184530787|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means Catapres-TTS-3(Oppanol/Vistanex) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|104.25|STANDARD_ERROR_OF_MEAN|16.6|<|0.0001|TWO_SIDED|90.0|98.367|110.487|||ANOVA|ANOVA on the logarithmic scale including effects for 'Group', 'sequence', 'subjects within sequences', 'period', and 'treatment'.|"The estimated value is actually the ratio of Catapres-TTS-3 with Oppanol and Catapres-TTS-3 with Vistanex.~The value in parameter dispersion type and dispersion value is actually the intra-individual gCV."|||110.487|98.367|<0.0001
92191379|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.026||||90.0|-0.068|0.017|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.017|-0.068|
92191380|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.073|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.117|-0.029|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.029|-0.117|
92191381|NCT00139659|184281690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.108|-0.015|||Mixed Models Analysis|||Week 52 (LOCF); Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.015|-0.108|
92191382|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.327|STANDARD_ERROR_OF_MEAN|0.214||||90.0|-0.679|0.026|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.026|-0.679|
92191383|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.378|STANDARD_ERROR_OF_MEAN|0.213||||90.0|-0.729|-0.027|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.027|-0.729|
92191384|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.346|STANDARD_ERROR_OF_MEAN|0.213||||90.0|-0.696|0.004|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.004|-0.696|
92191385|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.496|STANDARD_ERROR_OF_MEAN|0.213||||90.0|-0.847|-0.145|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.145|-0.847|
92313914|NCT02096744|184530788|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means Catapres-TTS-3(Oppanol/Vistanex) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|102.78|STANDARD_ERROR_OF_MEAN|15.8|<|0.0001|TWO_SIDED|90.0|97.25|108.63|||ANOVA|ANOVA on the logarithmic scale including effects for 'Group', 'sequence', 'subjects within sequences', 'period', and 'treatment'.|"The estimated value is actually the ratio of Catapres-TTS-3 with Oppanol and Catapres-TTS-3 with Vistanex.~The value in parameter dispersion type and dispersion value is actually the intra-individual gCV."|||108.63|97.25|<0.0001
92313915|NCT02096744|184530789|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means Catapres-TTS-3(Oppanol/Vistanex) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|104.04|STANDARD_ERROR_OF_MEAN|16.7|<|0.0001|TWO_SIDED|90.0|98.148|110.294|||ANOVA|ANOVA on the logarithmic scale including effects for 'Group','sequence', 'subjects within sequences', 'period', and 'treatment'.|"The estimated value is actually the ratio of Catapres-TTS-3 with Oppanol and Catapres-TTS-3 with Vistanex.~The value in parameter dispersion type and dispersion value is actually the intra-individual gCV."|||110.294|98.148|<0.0001
92313916|NCT05724589|184530796|SUPERIORITY|A repeated measures ANOVA was selected to analyze changes in skin hydration across four time points within the same participants..|Mean Difference (Final Values)|2.671||||1|TWO_SIDED|||||The p-value reflects the overall test for difference in hydration over time and is not adjusted for multiple comparisons. The pre-defined threshold for statistical significance was p \< 0.05.|ANOVA|No additional adjustments were applied. Degrees of freedom and sphericity assumptions were checked.|The mean difference was calculated based on changes in skin hydration from baseline to Week 16 using repeated measures ANOVA, in accordance with the pre-specified statistical analysis plan.|Skin hydration was evaluated longitudinally using repeated measures ANOVA at Baseline, Week 8, Week 12, and Week 16. This pre-specified statistical test assessed within-subject changes over time to determine the efficacy of the serum.|The overall p-value corresponds to the repeated measures ANOVA evaluating changes over four time points. No multiplicity adjustments were applied.|||1.000
92313917|NCT05724589|184530797|SUPERIORITY|The statistical analysis in this study to assess changes in Transepidermal Water Loss (TEWL) after serum application involved a repeated measures analysis of variance (ANOVA). This approach allows for the examination of differences in TEWL across multiple time points (baseline, 8 weeks, 12 weeks, and 16 weeks) within the same individuals. The use of repeated measures ANOVA accounts for the correlated nature of the data, as multiple measurements are obtained from each participant over time.|Mean Difference (Final Values)|-3.656||||0.096|TWO_SIDED|||||A repeated measures ANOVA was used to assess changes in hydration over time. The mean difference between baseline and 16 weeks was -3.656 (arbitrary units). Results are presented in the corresponding outcome measure table.|ANOVA|||||||0.096
92313918|NCT05724589|184530798|SUPERIORITY|The chosen test was designed to assess whether application of the intervention resulted in any statistically significant differences over time in the primary outcome measure, assuming superiority.|Mean Difference (Final Values)|-0.043||||0.169|TWO_SIDED|||||The pre-specified significance threshold was set at p \< 0.05. No adjustments for multiple comparisons were applied.|ANOVA|Sphericity tested; Greenhouse-Geisser applied if needed. Repeated measures ANOVA accounted for within-subject correlations.|The estimation parameter reflects the change in the R2 elasticity measure from baseline to 16 weeks. The direction of change is based on the final minus baseline value, with baseline serving as the reference point.|The statistical analysis utilized repeated measures ANOVA to evaluate changes in facial skin elasticity (R2 parameter) across multiple time points (Baseline, Week 8, Week 12, and Week 16) within the same participants. This approach accounts for the correlation of repeated measures over time.||||0.169
92191386|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.213||||90.0|-0.96|-0.26|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.260|-0.960|
92191387|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.219||||90.0|-0.721|0.001|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.001|-0.721|
92191388|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.291|STANDARD_ERROR_OF_MEAN|0.221||||90.0|-0.655|0.073|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.073|-0.655|
92313919|NCT05724589|184530799|SUPERIORITY|This study aimed to evaluate changes in wrinkle scores using a 4-grade percentage wrinkle improvement scale across different time points, including baseline, 8 weeks, 12 weeks, and 16 weeks|Mean Difference (Final Values)|1.0||||1|TWO_SIDED||||||ANOVA||The Mean Difference represents the change in wrinkle scores from baseline (Day 0) to follow-up at Week 8, Week 12, or Week 16. For example, a Mean Difference of 1.0 indicates a 1-point improvement from baseline to Week 16 (Week 16 - baseline score).|||||1.000
92313920|NCT05724589|184530800|SUPERIORITY|Repeated measures ANOVA was used to detect any change in facial melanin levels due to the intervention.|Mean Difference (Final Values)|-3.458||||1|TWO_SIDED|||||The p-value indicates no statistically significant change in facial melanin index over time. The p-value was not adjusted for multiple comparisons. Statistical significance was pre-specified at p \< 0.05.|ANOVA|Sphericity assumptions were checked and addressed as needed (e.g., Greenhouse-Geisser correction).|The estimation parameter reflects the mean change in melanin index from baseline to week 16. Baseline was used as the reference point in the analysis.|The statistical analysis assessed changes in facial melanin index after serum application using repeated measures ANOVA. This method evaluated differences across multiple time points (Baseline, Week 8, Week 12, and Week 16) within the same participants, accounting for the correlated nature of repeated measures.||||1.000
92191389|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.224||||90.0|-0.788|-0.052|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.052|-0.788|
92191390|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.337|STANDARD_ERROR_OF_MEAN|0.231||||90.0|-0.717|0.042|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.042|-0.717|
92313921|NCT05724589|184530801|SUPERIORITY|A descriptive analysis was performed. No hypothesis testing or power calculation was conducted for this outcome.|percentage of participants at week 16|44.0||||1|TWO_SIDED|||||The p-value reflects descriptive analysis of SGAIS improvement scores; no statistical testing for significance was conducted.|Descriptive|The evaluation involved categorical SGAIS ratings assigned by two independent dermatologists.|This estimate reflects the proportion of participants rated as showing mild improvement on the SGAIS at Week 16, as detailed in the tabular data.|Improvement in facial appearance was assessed using the Subject Global Aesthetic Improvement Scale (SGAIS), rated independently by two board-certified dermatologists at multiple time points (8, 12, and 16 weeks).||||1.000
92313922|NCT05724589|184530802|SUPERIORITY|Descriptive summary statistics were used to report satisfaction at multiple time points. No inferential testing was performed.|percentage of participants at week 16|75.0|||||TWO_SIDED||||||Descriptive|No formal statistical hypothesis testing was performed.|The estimated percentage reflects participants who reported a satisfaction score of 2 or 3 at week 16.|"Satisfaction was assessed at weeks 8, 12, and 16 using a quartile scale:~0 = Unsatisfied, 1 = Slightly satisfied, 2 = Satisfied, 3 = Very satisfied. One participant was lost to follow-up after week 12."||||
92313923|NCT05724589|184530803|SUPERIORITY|This was a descriptive safety analysis. No inferential hypothesis testing was conducted.|Percentage adverse events by week 16|0.0|||||TWO_SIDED||||||Descriptive|No formal statistical test was conducted.|Descriptive summaries of adverse event incidence are reported in the results tables.|The analysis population includes 28 participants. One subject was lost to follow-up at week 12. Adverse events were assessed through video calls at weeks 2 and 4, and in-person visits at 2, 3, and 4 months.||||
92313924|NCT04700137|184530819|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.31|TWO_SIDED|95.0|-3.0|1.0||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.|A T-score of 50 represents the mean of the US general population (based on the 2010 Census) and 10 T-score units represents one standard deviation. Higher T-score indicates higher loneliness.|Difference in loneliness among patients by intervention arm at follow-up (6 months).||1.0|-3.0|0.31
92313925|NCT04700137|184530819|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.83|TWO_SIDED|95.0|-1.8|2.2||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.|A T-score of 50 represents the mean of the US general population (based on the 2010 Census) and 10 T-score units represents one standard deviation. Higher T-score indicates higher loneliness.|Difference in loneliness among healthcare providers/staff by intervention arm at follow-up (6 months).||2.2|-1.8|0.83
92191391|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.789|STANDARD_ERROR_OF_MEAN|0.238||||90.0|-1.181|-0.397|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.397|-1.181|
92313926|NCT04700137|184530820|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.05|TWO_SIDED|95.0|0.0|0.5||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in suicidal ideation and behavior (C-SSRS) among patients by intervention arm at follow-up (6 months).||0.5|0.0|0.05
92191392|NCT00139659|184281691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.786|STANDARD_ERROR_OF_MEAN|0.238||||90.0|-1.178|-0.393|||Mixed Models Analysis|||Week 52 (LOCF); Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.393|-1.178|
92191393|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.066|0.023|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.023|-0.066|
92191394|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.044|0.044|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.044|-0.044|
92191395|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.056|0.032|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.032|-0.056|
92191396|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.048|0.041|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.041|-0.048|
92191397|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.089|-0.001|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.001|-0.089|
92191398|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.035|0.056|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.056|-0.035|
92313927|NCT04700137|184530820|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.2|TWO_SIDED|95.0|-0.4|0.1||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in suicidal ideation and behavior (C-SSRS) among healthcare providers/staff by intervention arm at follow-up (6 months).||0.1|-0.4|0.2
92313928|NCT04700137|184530821|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.45|TWO_SIDED|95.0|-1.5|0.7||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in depression (PHQ-9) among patients by intervention arm at follow-up (6 months).||0.7|-1.5|0.45
92313929|NCT04700137|184530821|SUPERIORITY||Median Difference (Final Values)|0.3||||0.51|TWO_SIDED|95.0|-0.7|1.3||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in depression (PHQ-9) among healthcare providers/staff by intervention arm at follow-up (6 months).||1.3|-0.7|0.51
92313930|NCT04700137|184530822|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.54|TWO_SIDED|95.0|-1.3|0.7||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in anxiety (GAD-7) among patients by intervention arm at follow-up (6 months).||0.7|-1.3|0.54
92313931|NCT04700137|184530822|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.04|TWO_SIDED|95.0|0.1|2.0||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in anxiety (GAD-7) among healthcare providers/staff by intervention arm at follow-up (6 months).||2.0|0.1|0.04
92313932|NCT04700137|184530823|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.84|TWO_SIDED|95.0|-2.1|1.7||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors.|T-score of 50 = mean of the US general population (2010 Census); 10 T-score units = one standard deviation. Higher T-scores = higher stress. T-scores equal to or greater than 60.5 (adults) or 60.8 (adolescents) are moderate or high risk.|Change in stress from baseline to 6 months among patients.||1.7|-2.1|0.84
92313933|NCT04700137|184530823|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.18|TWO_SIDED|95.0|-0.7|3.7||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors.|T-score of 50 = mean of the US general population (2010 Census); 10 T-score units = one standard deviation. Higher T-scores = higher stress. T-scores equal to or greater than 60.5 (adults) or 60.8 (adolescents) are moderate or high risk.|Change in stress from baseline to 6 months among healthcare providers/staff.||3.7|-0.7|0.18
92313934|NCT04700137|184530824|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.38|TWO_SIDED|95.0|-0.6|1.6||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in perceived burdensomeness (INQ15) among patients by intervention arm at follow-up (6 months).||1.6|-0.6|0.38
92313935|NCT04700137|184530824|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.81|TWO_SIDED|95.0|-0.8|1.0||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in perceived burdensomeness (INQ15) among healthcare providers/staff by intervention arm at follow-up (6 months).||1.0|-0.8|0.81
92313936|NCT04700137|184530824|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.73|TWO_SIDED|95.0|-2.6|1.8||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in thwarted belongingness (INQ15) among patients by intervention arm at follow-up (6 months).||1.8|-2.6|0.73
92313937|NCT04700137|184530824|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.24|TWO_SIDED|95.0|-0.8|3.2||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in thwarted belongingness (INQ15) among healthcare providers/staff by intervention arm at follow-up (6 months).||3.2|-0.8|0.24
92313938|NCT04700137|184530826|SUPERIORITY||Risk Difference (RD)|-5.6||||0.12|TWO_SIDED|95.0|-12.5|1.4||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased tobacco use among patients randomized to CC+ vs CC||1.4|-12.5|0.12
92313939|NCT04700137|184530826|SUPERIORITY||Risk Difference (RD)|-6.1||||0.03|TWO_SIDED|95.0|-11.5|-0.7||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased tobacco use among healthcare providers/staff randomized to CC+ vs CC||-0.7|-11.5|0.03
92191399|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.028|0.064|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.064|-0.028|
92313940|NCT04700137|184530826|SUPERIORITY||Risk Difference (RD)|-1.1||||0.83|TWO_SIDED|95.0|-10.7|8.5||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased alcohol use among patients randomized to CC+ vs CC||8.5|-10.7|0.83
92313941|NCT04700137|184530826|SUPERIORITY||Risk Difference (RD)|2.2||||0.67|TWO_SIDED|95.0|-8.0|12.5||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased alcohol use among healthcare providers/staff randomized to CC+ vs CC||12.5|-8.0|0.67
92313942|NCT04700137|184530826|SUPERIORITY||Risk Difference (RD)|2.9||||0.42|TWO_SIDED|95.0|-4.1|9.9||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased marijuana/cannabis use among patients randomized to CC+ vs CC||9.9|-4.1|0.42
92313943|NCT04700137|184530826|SUPERIORITY||Risk Difference (RD)|-2.1||||0.53|TWO_SIDED|95.0|-8.7|4.5||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased marijuana/cannabis use among healthcare providers/staff randomized to CC+ vs CC||4.5|-8.7|0.53
92313944|NCT04700137|184530826|SUPERIORITY||Risk Difference (RD)|-2.5||||0.2|TWO_SIDED|95.0|-6.3|1.4||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased illicit drug use among patients randomized to CC+ vs CC||1.4|-6.3|0.20
92313945|NCT04700137|184530826|SUPERIORITY||Risk Difference (RD)|-0.7||||0.62|TWO_SIDED|95.0|-3.4|2.0||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased illicit drug use among healthcare providers/staff randomized to CC+ vs CC||2.0|-3.4|0.62
92313946|NCT04700137|184530827|SUPERIORITY||Risk Difference (RD)|-4.5||||0.41|TWO_SIDED|95.0|-15.4|6.3||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Difference in proportion of patients attending mental healthcare appointments by intervention arm at follow-up (6 months).||6.3|-15.4|0.41
92313947|NCT04700137|184530827|SUPERIORITY||Risk Difference (RD)|5.5||||0.31|TWO_SIDED|95.0|-5.2|16.2||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Difference in proportion of healthcare providers/staff attending mental healthcare appointments by intervention arm at follow-up (6 months).||16.2|-5.2|0.31
92313948|NCT00125515|184530829|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED|95.0|||||Chi-squared|||all statistical analysis were two tailed and employed an alpha significance level of 0.05.||||0.32
92313949|NCT03449446|184530832|SUPERIORITY||Difference in percentages|0.6||||0.9449|TWO_SIDED|95.0|-17.6|18.8||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted Mantel-Haenszel (MH) method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||18.8|-17.6|0.9449
92313950|NCT03449446|184530832|SUPERIORITY||Difference in percentages|0.4||||0.9646|TWO_SIDED|95.0|-17.6|18.4||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||18.4|-17.6|0.9646
92313951|NCT03449446|184530832|SUPERIORITY||Difference in percentages|3.7||||0.6219|TWO_SIDED|95.0|-10.9|18.3||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||18.3|-10.9|0.6219
92313952|NCT03449446|184530832|SUPERIORITY||Difference in percentages|8.8||||0.2554|TWO_SIDED|95.0|-6.4|24.1||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||24.1|-6.4|0.2554
92313953|NCT03449446|184530832|SUPERIORITY||Difference in percentages|10.8||||0.1658|TWO_SIDED|95.0|-4.5|26.1||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||26.1|-4.5|0.1658
92313954|NCT03449446|184530832|SUPERIORITY||Difference in percentages|3.2||||0.6963|TWO_SIDED|95.0|-12.9|19.4||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||19.4|-12.9|0.6963
92313955|NCT03449446|184530832|SUPERIORITY||Difference in percentages|10.0||||0.2441|TWO_SIDED|95.0|-6.8|26.8||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||26.8|-6.8|0.2441
92313956|NCT03449446|184530832|SUPERIORITY||Difference in percentages|5.2||||0.5229|TWO_SIDED|95.0|-10.7|21.0||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||21.0|-10.7|0.5229
92313957|NCT03449446|184530832|SUPERIORITY||Difference in percentages|10.4||||0.2149|TWO_SIDED|95.0|-6.0|26.9||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||26.9|-6.0|0.2149
92313958|NCT03048552|184530846|SUPERIORITY|||||||0.148|||||||Fisher Exact|||||||0.148
92313959|NCT03048552|184530847|SUPERIORITY||||||<|0.01|||||||Fisher Exact|||||||<0.01
92313960|NCT03048552|184530848|SUPERIORITY|||||||0.818|||||||Fisher Exact|||||||0.818
92313961|NCT03048552|184530850|SUPERIORITY|||||||0.625|||||||Fisher Exact|||||||0.625
92313962|NCT03180645|184530852|OTHER||Least square (LS) mean difference|-1.07||||0.0638|TWO_SIDED|95.0|-2.21|0.06|||ANCOVA|Analysis model (ANCOVA) included participant as random effect, treatment arm and side of the face as fixed effects and baseline value as covariate.|Difference is the first named treatment adjusted (LS) mean change from baseline minus the second named treatment adjusted mean change from baseline.|||0.06|-2.21|0.0638
92313963|NCT04208750|184530864|OTHER|Difference between independent proportions||||||||||||||||Added the number of participants from each study arm who preferred each refraction type and then converted it to the proportions|For each outcome, we compared the proportion of participants from both study arms who preferred the VR800 refraction to the proportion of participants who preferred the Standard refraction using a 2-sample test for equality of proportions.|||
92313964|NCT02201277|184530878|SUPERIORITY|||||||1|||||||t-test, 2 sided|||A Fisher's exact test was used to determine if there was a difference in the numbers of filters with penetration for each type. The numbers were not powered enough to make extensive tests in this area meaningful.||||1.0
92313965|NCT02201277|184530878|EQUIVALENCE|rate of penetration||||||1|||||||t-test, 1 sided|||||||1.0
92313966|NCT02730663|184530886|NON_INFERIORITY|The number and percentage of patients who achieved clinical success at the time of stent removal are presented. A one-sided 97.5% confidence interval is to be calculated to confirm the degree of non-inferiority for the reference value (96%) and the difference (Investigational device - reference value) and if the lower limit of the confidence interval is -10% or higher, the noninferiority will be considered to be confirmed.|Reference value|-0.07||||0.05|ONE_SIDED|97.5||||A two-tail test was performed for statistics at a significance level of 0.05 unless otherwise specified.|t-test, 2 sided|||The clinical success rate at the time point of stent removal is reported 86.2% according to the approval data of the commercially available AXIOS stent submitted to the US FDA. The clinical success rates of EUS-guided transluminal drainage using a lumen-appending stent were 93.3% (29 cases), 100% (8 cases) and 100% (7 cases) respectively in the studies performed afterwards by Shah RJ (2015), Gornals JB (2012) and Moon JH (2014). The weighted average calculated for each study was about 96%.||||0.05
92313967|NCT00866359|184530893|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.4|-0.9|||ANCOVA||Based on an analysis of covariance model for the number of ulcers at Day 85, with treatment group and gender as factors and the baseline ulcer number as a covariate.|||-0.9|-2.4|<0.0001
92313968|NCT00866359|184530894|SUPERIORITY_OR_OTHER_LEGACY||Least Squares mean difference|-26.8|||<|0.0001|TWO_SIDED|95.0|-35.5|-18.0|||ANCOVA||Based on an analysis of covariance model for the oral ulcer pain VAS at Day 85, with treatment group and gender as factors and the baseline oral ulcer pain VAS as a covariate.|||-18.0|-35.5|<0.0001
92313969|NCT00866359|184530897|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-90.07|||<|0.0001|TWO_SIDED|95.0|-125.32|-54.82||The last post-baseline observation was carried forward to Day 85 for participants who discontinued the study before Day 85. For participants who did not have Day 85 visit on the targeted date, the total AUC was adjusted by the actual study days.|ANCOVA||Based on an analysis of covariance model for the number of ulcers at Day 85, with treatment group, gender, and interaction of treatment group and gender as factors and the baseline ulcer number as a covariate.|||-54.82|-125.32|<0.0001
92313970|NCT00866359|184530900|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7||||0.0007|TWO_SIDED|95.0|-2.7|-0.8|||ANCOVA||Based on an analysis of covariance model for the number of ulcers at Day 85, with treatment group, gender, and interaction of treatment group and gender as factors and the baseline ulcer number as a covariate.|||-0.8|-2.7|0.0007
92313971|NCT00866359|184530901|SUPERIORITY_OR_OTHER_LEGACY||adjusted difference (percentage)|39.1|||<|0.0001|TWO_SIDED|95.0|23.6|54.5|||Cochran-Mantel-Haenszel|Two-sided p-value was based on the CMH test adjusting for gender.|Adjusted difference in proportions = weighted average of treatment differences across gender with the CMH weights.|||54.5|23.6|<0.0001
92313972|NCT00866359|184530902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0007|TWO_SIDED|95.0|-1.7|-0.5|||ANCOVA||Based on an Ancova model for change from baseline with treatment group, gender and interaction of treatment group and gender as factors and the baseline value as a covariate.|||-0.5|-1.7|0.0007
92313973|NCT01625091|184530917|SUPERIORITY|||||||0.36|||||||Chi-squared|||||||0.36
92313974|NCT01625091|184530918|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
92313975|NCT01625091|184530919|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
92313976|NCT01625091|184530920|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||||||0.98
92313977|NCT04182334|184530939|SUPERIORITY|||||||0.775|||||||Mixed Models Analysis|||||||0.775
92313978|NCT04182334|184530940|SUPERIORITY|||||||0.995|||||||Mixed Models Analysis|||||||0.995
92313979|NCT04182334|184530941|SUPERIORITY|||||||0.674|||||||Mixed Models Analysis|||||||0.674
92313980|NCT04182334|184530942|SUPERIORITY|||||||0.326|||||||Mixed Models Analysis|||||||0.326
92313981|NCT04182334|184530943|SUPERIORITY|||||||0.463|||||||Wilcoxon (Mann-Whitney)|||||||0.463
92313982|NCT04182334|184530944|SUPERIORITY|||||||0.449|||||||Wilcoxon (Mann-Whitney)|||||||0.449
92313983|NCT04182334|184530945|SUPERIORITY|||||||0.505|||||||Wilcoxon (Mann-Whitney)|||||||0.505
92313984|NCT04182334|184530946|SUPERIORITY|||||||0.612|||||||Wilcoxon (Mann-Whitney)|||||||0.612
92313985|NCT04182334|184530947|SUPERIORITY|||||||0.058|||||||Wilcoxon (Mann-Whitney)|||||||0.058
92313986|NCT04182334|184530948|SUPERIORITY|||||||0.196|||||||Wilcoxon (Mann-Whitney)|||||||0.196
92313987|NCT05287230|184530954|OTHER|||||||0.061||||||A priori threshold for statistical significance is p\<0.05.|ANOVA|||||||0.061
92313988|NCT02360215|184530966|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.029|TWO_SIDED|95.0|0.59|0.96|||Gray's test|||Null hypothesis: the addition of HA-WBRT as compared to WBRT will increase time to neurocognitive failure from 53.8% in the WBRT arm to 42.8% in the HA-WBRT arm at 6 months. Treating death as a competing risk and using a Gray's test with two-sided α=0.05 to test for statistically significant difference in the distribution of neurocognitive failure times, it was calculated that 230 events over both arms would provide 90% statistical power.||0.96|0.59|0.029
92313989|NCT02360215|184530967|SUPERIORITY|||||||0.0586|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Symptom Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.0586
92313990|NCT02360215|184530967|SUPERIORITY|||||||0.0048|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Symptom Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\>61 year vs. \<= 61 years) is reported here.||||0.0048
92191400|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.051|0.041|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.041|-0.051|
92313991|NCT02360215|184530967|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Symptom Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline Total Recall is reported here.||||<0.0001
92313992|NCT02360215|184530968|SUPERIORITY|||||||0.2656|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recall Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.2656
92313993|NCT02360215|184530968|SUPERIORITY|||||||0.0067|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recall Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||0.0067
92313994|NCT02360215|184530968|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recall Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline Delayed Recall is reported here.||||<0.0001
92313995|NCT02360215|184530969|SUPERIORITY|||||||0.0993|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recognition Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.0993
92313996|NCT02360215|184530969|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recognition Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||<0.0001
92313997|NCT02360215|184530969|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recognition Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline Delayed Recognition is reported here.||||<0.0001
92313998|NCT02360215|184530970|SUPERIORITY|||||||0.5988|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part A (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.5988
92313999|NCT02360215|184530970|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part A (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||0.0005
92314000|NCT02360215|184530970|SUPERIORITY||||||<|0.0001|||||||McNemar|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part A (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline TMT Part A is reported here.||||<0.0001
92191401|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.022|STANDARD_ERROR_OF_MEAN|0.029||||90.0|-0.07|0.026|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.026|-0.070|
92191402|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.03||||90.0|-0.064|0.034|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.034|-0.064|
92314001|NCT02360215|184530971|SUPERIORITY|||||||0.9226|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part B (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.9226
92314002|NCT02360215|184530971|SUPERIORITY||||||<|0.0024|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part B (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||<0.0024
92314003|NCT02360215|184530971|SUPERIORITY||||||<|0.0001|||||||Regression, Cox|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part B (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline TMT Part B is reported here.||||<0.0001
92314004|NCT02360215|184530972|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with COWA (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline COWA is reported here.||||<0.0001
92314005|NCT02360215|184530972|SUPERIORITY|||||||0.9749|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with COWA (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.9749
92314006|NCT02360215|184530972|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with COWA (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here. is reported here.||||<0.0001
92314007|NCT02360215|184530973|SUPERIORITY|||||||0.2552|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with the neurocognitive composite score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.2552
92314008|NCT02360215|184530973|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with the neurocognitive composite score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||<0.0001
92314009|NCT02360215|184530973|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with the neurocognitive composite score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline composite score is reported here.||||<0.0001
92314010|NCT02360215|184530974|SUPERIORITY|||||||0.57|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Symptom Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.57
92314011|NCT02360215|184530974|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Symptom Severity score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline symptom severity is reported here.||||<0.0001
92314012|NCT02360215|184530974|SUPERIORITY|||||||0.083|||||||Mixed Models Analysis|||A two-sample t-test with a 2-sided type I error of 0.05 provides \>90% statistical power to detect a medium effect size of 0.5 for a comparison of the change from baseline to 6 months from the start of treatment. The comparison at six months was tested within a mixed effects model with covariates age, RPA class, prior radiosurgery, prior surgical resection, baseline score, treatment arm, and time was used.||||0.083
92314013|NCT02360215|184530975|SUPERIORITY|||||||0.9118|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Interference Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.9118
92314014|NCT02360215|184530975|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Interference Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline interference score is reported here.||||<0.0001
92314015|NCT02360215|184530976|SUPERIORITY|||||||0.1964|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Cognitive Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.1964
92314016|NCT02360215|184530976|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Cognitive Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline cognitive factor score is reported here.||||<0.0001
92314017|NCT02360215|184530976|SUPERIORITY|||||||0.0032|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Cognitive Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Prior radiotherapy (yes vs. no) is reported here.||||0.0032
92314018|NCT02360215|184530977|SUPERIORITY|||||||0.8877|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Neurologic Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.8877
92314019|NCT02360215|184530977|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Neurologic Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline neurologic factor is reported here.||||<0.0001
92314020|NCT02360215|184530977|SUPERIORITY|||||||0.0078|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Neurologic Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||0.0078
92314021|NCT02360215|184530978|SUPERIORITY|||||||0.86||||||Significance level = 0.05|t-test, 2 sided|||||||0.86
92314022|NCT02360215|184530980|SUPERIORITY|||||||0.95||||||Significance level = 0.05|t-test, 2 sided|||||||0.95
92314023|NCT02360215|184530981|SUPERIORITY|||||||0.66||||||Significance level = 0.05|t-test, 2 sided|||||||0.66
92191403|NCT00139659|184281694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.031||||90.0|-0.067|0.037|||Mixed Models Analysis|||Week 52 (LOCF); Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.037|-0.067|
92314024|NCT02360215|184530982|SUPERIORITY|||||||0.18||||||Significance level = 0.05|t-test, 2 sided|||||||0.18
92314025|NCT02360215|184530983|SUPERIORITY|||||||0.64||||||Significance level = 0.05|t-test, 2 sided|||||||0.64
92314026|NCT02360215|184530984|SUPERIORITY|||||||0.91||||||Significance level = 0.05|t-test, 2 sided|||||||0.91
92314027|NCT02360215|184530985|OTHER|||||||0.92||||||Significance level = 0.05|t-test, 2 sided|||||||0.92
92191404|NCT00139659|184281695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.632|STANDARD_ERROR_OF_MEAN|0.697||||90.0|-1.778|0.514|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.514|-1.778|
92314028|NCT02360215|184530986|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.076|TWO_SIDED|95.0|0.98|1.47||Two-sided significance level = 0.05|Log Rank||Reference level = WBRT + Memantine|||1.47|0.98|0.076
92314029|NCT02360215|184530987|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.242|TWO_SIDED|95.0|0.91|1.43||Two-sided significance level = 0.05|Log Rank||Reference level = WBRT + Memantin|||1.43|0.91|0.242
92314030|NCT02360215|184530988|SUPERIORITY|||||||0.47||||||Two-sided p-value = 0.05|Chi-squared|||||||0.47
92314031|NCT04653454|184531005|SUPERIORITY|||||||0.129||||||Hypoglycemic Episodes \<54 mg/dL|Wilcoxon (Mann-Whitney)|||||||0.129
92314032|NCT04653454|184531005|SUPERIORITY|||||||0.008||||||Hypoglycemic Episodes \<70 mg/dL|Wilcoxon (Mann-Whitney)|||||||0.008
92314033|NCT04653454|184531006|SUPERIORITY|||||||0.203||||||Hypoglycemic Episodes \<54 mg/dL|Wilcoxon (Mann-Whitney)|||||||0.203
92314034|NCT04653454|184531006|SUPERIORITY||||||<|0.001||||||Hypoglycemic Episodes \<70 mg/dL|Wilcoxon (Mann-Whitney)|||||||<0.001
92314035|NCT04653454|184531008|SUPERIORITY|||||||0.076||||||Hyperglycemic Episodes \>180 mg/dL|Wilcoxon (Mann-Whitney)|||||||0.076
92314036|NCT04653454|184531008|SUPERIORITY|||||||0.038||||||Hyperglycemic Episodes \>250 mg/dL|Wilcoxon (Mann-Whitney)|||||||0.038
92314037|NCT04653454|184531009|SUPERIORITY||||||<|0.0001||||||Creatinine|Spearman Correlation coefficients|||||||<0.0001
92314038|NCT04653454|184531009|SUPERIORITY|||||||0.0002||||||139GFR|Spearman Correlation coefficients|||||||0.0002
92314039|NCT04653454|184531009|SUPERIORITY|||||||0.22||||||Bicarbonate|Spearman Correlation coefficients|||||||0.22
92314040|NCT04653454|184531009|SUPERIORITY|||||||0.48||||||Hemoglobin|Spearman Correlation coefficients|||||||0.48
92314041|NCT04653454|184531009|SUPERIORITY|||||||0.77||||||MAP|Spearman Correlation coefficients|||||||0.77
92314042|NCT04653454|184531009|SUPERIORITY|||||||0.0516||||||SpO2|Spearman Correlation coefficients|||||||0.0516
92191405|NCT00139659|184281695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.668||||90.0|-1.079|1.12|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||1.120|-1.079|
92314043|NCT05525520|184531020|EQUIVALENCE|two-sided equivalence test|Least square mean difference (LSMD)|0.46|STANDARD_ERROR_OF_MEAN|0.609||0.4577|TWO_SIDED|95.0|-0.77|1.68|||MMRM|Treatment, type of cholestatic disease, week, and treatment-by-week interaction were fixed effects, and Baseline WI-NRS score was a covariate.|LSMD=EP547 minus placebo|||1.68|-0.77|0.4577
92314044|NCT05878093|184531038|SUPERIORITY|A hierarchical procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least square mean difference|-1.84|||<|0.0001|TWO_SIDED|95.0|-2.53|-1.15|||ANCOVA||Data was analyzed by fitting an analysis of covariance (ANCOVA) model with the corresponding baseline value, treatment group, and screening blood eosinophil count strata as covariates.|||-1.15|-2.53|<0.0001
92314045|NCT05878093|184531039|SUPERIORITY|A hierarchical procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least square mean difference|-0.54||||0.0126|TWO_SIDED|95.0|-0.97|-0.12|||ANCOVA||Data was analyzed by fitting an ANCOVA model with the corresponding baseline value, treatment group, and screening blood eosinophil count strata as covariates.|||-0.12|-0.97|0.0126
92191406|NCT00139659|184281695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.582|STANDARD_ERROR_OF_MEAN|0.679||||90.0|-0.535|1.7|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||1.700|-0.535|
92191407|NCT00139659|184281695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.687||||90.0|-1.184|1.077|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||1.077|-1.184|
92314046|NCT05878093|184531040|SUPERIORITY|A hierarchical procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least square mean difference|-1.68||||0.0008|TWO_SIDED|95.0|-2.67|-0.69|||ANCOVA||Data was analyzed by fitting an ANCOVA model with the corresponding baseline value, treatment group, and screening blood eosinophil count strata as covariates.|||-0.69|-2.67|0.0008
92314047|NCT05878093|184531041|SUPERIORITY|A hierarchical procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least square mean difference|-0.62||||0.0072|TWO_SIDED|95.0|-1.08|-0.17|||ANCOVA||Data was analyzed by fitting an ANCOVA model with the corresponding baseline value, treatment group, and screening blood eosinophil count strata as covariates.|||-0.17|-1.08|0.0072
92314048|NCT05878093|184531042|SUPERIORITY|A hierarchical procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least square mean difference|-9.52||||0.0104|TWO_SIDED|95.0|-16.81|-2.24|||ANCOVA||Data was analyzed by fitting an ANCOVA model with the corresponding baseline value, treatment group, and screening blood eosinophil count strata as covariates.|||-2.24|-16.81|0.0104
92314049|NCT01050530|184531077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51|||<|0.0001|TWO_SIDED|95.0|-2.08|-0.93|||t-test, 2 sided|||||-0.93|-2.08|<0.0001
92314050|NCT01050530|184531078|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-300.7||||0.0093|TWO_SIDED|95.0|-526.2|-75.1|||t-test, 2 sided|||||-75.1|-526.2|0.0093
92314051|NCT01339403|184531079|SUPERIORITY_OR_OTHER||Rate ratio|166.1|||<|0.001|TWO_SIDED|95.0|123.4|223.5|||Poisson Regression|||Kaposi's sarcoma: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||223.5|123.4|<0.001
92314052|NCT01339403|184531079|SUPERIORITY_OR_OTHER||Rate ratio|12.1|||<|0.001|TWO_SIDED|95.0|10.3|14.2|||Poisson Regression|||Invasive non-Hodgkin's lymphoma: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||14.2|10.3|<0.001
92314053|NCT01339403|184531079|SUPERIORITY_OR_OTHER||Rate ratio|3.4||||0.059|TWO_SIDED|95.0|1.0|12.3|||Poisson Regression|||Invasive cervical cancer: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||12.3|1.0|0.059
92314054|NCT01339403|184531079|SUPERIORITY_OR_OTHER||Rate ratio|1.7|||<|0.001|TWO_SIDED|95.0|1.5|1.8|||Poisson Regression|||Non-AIDS-defining cancers: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||1.8|1.5|<0.001
92191408|NCT00139659|184281695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.535|STANDARD_ERROR_OF_MEAN|0.694||||90.0|-1.677|0.608|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.608|-1.677|
92314055|NCT01339403|184531079|SUPERIORITY_OR_OTHER||Rate Ratio|166.1|||<|0.001|TWO_SIDED|95.0|123.4|223.5|||Poisson Regression|||AIDS-defining cancer: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||223.5|123.4|<0.001
92314056|NCT01339403|184531080|SUPERIORITY_OR_OTHER||Rate ratio|1.4|||<|0.001|TWO_SIDED|95.0|1.3|1.5|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||1.5|1.3|<0.001
92314057|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|65.7|||<|0.001|TWO_SIDED|95.0|57.1|75.7|||Poisson Regression|||Wasting syndrome: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||75.7|57.1|<0.001
92314058|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|428.5|||<|0.001|TWO_SIDED|95.0|292.2|628.5|||Poisson Regression|||Pneumocystis jirovecii pneumonia: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||628.5|292.2|<0.001
92314059|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|8.7|||<|0.001|TWO_SIDED|95.0|7.9|9.5|||Poisson Regression|||Pneumonia, recurrent: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||9.5|7.9|<0.001
92314060|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|97.1|||<|0.001|TWO_SIDED|95.0|75.5|124.8|||Poisson Regression|||Cytomegalovirus: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||124.8|75.5|<0.001
92314061|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|60.2|||<|0.001|TWO_SIDED|95.0|48.3|74.9|||Poisson Regression|||Esophageal Candidiasis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||74.9|48.3|<0.001
92314062|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|98.4|||<|0.001|TWO_SIDED|95.0|70.8|136.8|||Poisson Regression|||Mycobacterium avium complex: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||136.8|70.8|<0.001
92314063|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|189.5|||<|0.001|TWO_SIDED|95.0|112.3|319.5|||Poisson Regression|||Cryptococcosis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||319.5|112.3|<0.001
92314064|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|6.2|||<|0.001|TWO_SIDED|95.0|5.2|7.4|||Poisson Regression|||Mycobacterium tuberculosis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||7.4|5.2|<0.001
92314065|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|594.5|||<|0.001|TWO_SIDED|95.0|146.5|2411.7|||Poisson Regression|||Progressive multifocal leukoencephalopathy: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||2411.7|146.5|<0.001
92314066|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|10.6|||<|0.001|TWO_SIDED|95.0|7.8|14.4|||Poisson Regression|||Lung Candidiasis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||14.4|7.8|<0.001
92314067|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|51.5|||<|0.001|TWO_SIDED|95.0|30.3|87.5|||Poisson Regression|||Toxoplasmosis of brain: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||87.5|30.3|<0.001
92314068|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|6.2|||<|0.001|TWO_SIDED|95.0|3.0|12.9|||Poisson Regression|||Coccidiomycosis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||12.9|3.0|<0.001
92314069|NCT01339403|184531081|SUPERIORITY_OR_OTHER||Rate ratio|13.0|||<|0.0001|TWO_SIDED|95.0|7.4|23.1|||Poisson Regression|||Histoplasmosis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||23.1|7.4|<0.0001
92191409|NCT00139659|184281695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.905|STANDARD_ERROR_OF_MEAN|0.674||||90.0|-2.014|0.203|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.203|-2.014|
92314070|NCT01339403|184531082|SUPERIORITY_OR_OTHER||Rate ratio|4.7|||<|0.001|TWO_SIDED|95.0|4.3|5.1|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||5.1|4.3|<0.001
92314071|NCT01339403|184531083|SUPERIORITY_OR_OTHER||Rate ratio|7.0|||<|0.001|TWO_SIDED|95.0|6.0|8.2|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||8.2|6.0|<0.001
92314072|NCT01339403|184531084|SUPERIORITY_OR_OTHER||Rate ratio|8.3|||<|0.001|TWO_SIDED|95.0|7.1|9.6|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||9.6|7.1|<0.001
92314073|NCT01339403|184531085|SUPERIORITY_OR_OTHER||Rate ratio|5.6|||<|0.001|TWO_SIDED|95.0|5.3|5.9|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||5.9|5.3|<0.001
92314074|NCT01339403|184531086|SUPERIORITY_OR_OTHER||Rate ratio|19.8|||<|0.001|TWO_SIDED|95.0|11.2|35.2|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||35.2|11.2|<0.001
92314075|NCT03983980|184531087|SUPERIORITY||Risk Ratio (RR)|6.1|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
92314076|NCT03983980|184531088|SUPERIORITY||Risk Ratio (RR)|6.53|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
92314077|NCT03983980|184531089|SUPERIORITY||Risk Ratio (RR)|4.55|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
92314078|NCT03983980|184531090|SUPERIORITY||Least squares mean difference|-4.32|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92314079|NCT03983980|184531091|SUPERIORITY||Risk Ratio (RR)|7.25|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
92314080|NCT01525329|184531140|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.007|||||||t-test, 2 sided|||||||< 0.007
92314081|NCT01525329|184531140|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08|||||||t-test, 2 sided|||||||0.080
92314082|NCT01525329|184531141|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92314083|NCT01525329|184531141|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92314084|NCT00780338|184531143|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||We first conducted an intent-to-treat analysis by fitting a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.||||.58
92314085|NCT00780338|184531145|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||We first conducted an intent-to-treat analysis by fitting a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.||||.61
92314086|NCT00780338|184531146|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||Mirroring the intent-to-treat analysis (but comparing AGTO users to AGTO non users instead), we fitted a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time.||||.09
92314087|NCT00780338|184531147|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||Mirroring the intent-to-treat analysis (but comparing AGTO users to AGTO non users instead), we fitted a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time.||||.01
92191410|NCT00139659|184281695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212|STANDARD_ERROR_OF_MEAN|0.675||||90.0|-0.899|1.323|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||1.323|-0.899|
92191411|NCT00139659|184281695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.683||||90.0|-1.08|1.169|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||1.169|-1.080|
92191412|NCT00139659|184281695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.694||||90.0|-1.382|0.902|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.902|-1.382|
92314088|NCT00780338|184531148|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||Mirroring the intent-to-treat analysis (but comparing AGTO users to AGTO non users instead), we fitted a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time.||||.00
92314089|NCT00780338|184531149|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||We first conducted an intent-to-treat analysis by fitting a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.||||.45
92314090|NCT00780338|184531150|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||We first conducted an intent-to-treat analysis by fitting a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.||||.65
92314091|NCT00780338|184531151|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||Mirroring the intent-to-treat analysis (but comparing AGTO users to AGTO non users instead), we fitted a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time.||||.00
92314092|NCT00780338|184531152|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||We first conducted an intent-to-treat analysis by fitting a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.||||.61
92314093|NCT00780338|184531153|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||Mirroring the intent-to-treat analysis (but comparing AGTO users to AGTO non users instead), we fitted a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time.||||.02
92314094|NCT01269918|184531165|NON_INFERIORITY_OR_EQUIVALENCE|We used a noninferiority delta of 7.5 mmHg. If noninferiority was detected, we proceeded to test for superiority.|Mean Difference (Final Values)|-9.0|||<|0.001|TWO_SIDED|95.0|-13.0|-5.0|||t-test, 1 sided|||Dexmedetomidine versus remifentanyl on MAP collapsed over time was estimated using a 1-tailed t test from a repeated measures ANOVA model.||-5|-13|< 0.001
92314095|NCT01269918|184531165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|||<|0.001|TWO_SIDED|97.5|-13.0|-4.0|||t-test, 1 sided|||Dexmedetomidine versus remifentanyl on MAP collapsed over time was estimated using a 1-tailed t test from a repeated measures ANOVA model.||-4|-13|< 0.001
92314096|NCT01269918|184531166|NON_INFERIORITY_OR_EQUIVALENCE|We used a noninferiority delta of 1 point. If noninferiority was detected, we proceeded to test for superiority.|Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.7|-1.1|||t-test, 1 sided|||Dexmedetomidine versus remifentanyl on VAS pain score estimated from a 1-tailed t test from a repeated measures ANOVA model.||-1.1|-2.7|< 0.001
92314097|NCT01269918|184531166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|97.5|-2.8|-0.9|||t-test, 1 sided|||Dexmedetomidine versus remifentanyl on VAS pain score estimated from a 1-tailed t test from a repeated measures ANOVA model.||-0.9|-2.8|< 0.001
92314098|NCT01269918|184531167|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority delta = 2 mg opioid|Median Difference (Final Values)|-5.0|||<|0.001|TWO_SIDED|95.0|-10.0|-5.0|||Wilcoxon (Mann-Whitney)|||Dexmedetomidine versus remifentanyl on opioid consumption estimated from a Wilcoxon rank sum test||-5|-10|< 0.001
92314099|NCT01269918|184531167|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-5.0|||<|0.001|TWO_SIDED|97.5|-10.0|-3.0|||Wilcoxon (Mann-Whitney)|||Dexmedetomidine versus remifentanyl on opioid consumption estimated from a Wilcoxon rank sum test||-3|-10|< 0.001
92314100|NCT01269918|184531168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|||<|0.001|TWO_SIDED|95.0|-10.0|3.0|||Mixed Models Analysis|||Dexmedetomidine versus remifentanyl on heart rate was assessed using a linear mixed effects model adjusting for baseline heart rate.||3|-10|< 0.001
92314101|NCT01269918|184531169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.16|TWO_SIDED|95.0|-2.6|0.5|||Mixed Models Analysis|||Dexmedetomidine versus remifentanyl on SOMCT estimated using a linear mixed effects model adjusting for baseline SOMCT score.||0.5|-2.6|0.16
92314102|NCT01269918|184531170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.07|TWO_SIDED|95.0|-0.6|0.03|||Mixed Models Analysis|||Dexmedetomidine versus remifentanyl on Aldrete score estimated using a linear mixed effects model adjusting for baseline Aldrete score.||0.03|-0.6|0.07
92314103|NCT01269918|184531171|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.009|TWO_SIDED|95.0|-1.0|-0.001|||Wilcoxon (Mann-Whitney)|||Dexmedetomidine versus remifentanyl on Nursing workload comparison estimated using a Wilcoxon rank sum test.||-0.001|-1|0.009
92314104|NCT01269918|184531172|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.11|||<|0.001|TWO_SIDED|95.0|0.07|0.18|||Regression, Cox|||Remifentanyl versus Dexmedetomidine on time to open eyes estimated using Cox regression.||0.18|0.07|< 0.001
92314105|NCT01269918|184531173|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.12|||<|0.001|TWO_SIDED|95.0|0.07|0.19|||Regression, Cox|||Remifentanyl versus dexmedetomidine on time to recall assessed using Cox regression.||0.19|0.07|< 0.001
92314106|NCT01269918|184531174|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.022|TWO_SIDED|95.0|0.48|0.95|||Regression, Cox|||Remifentanyl versus Dexmedetomidine on time to fitness discharge estimated using Cox regression.||0.95|0.48|0.022
92314107|NCT01269918|184531175|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.45|TWO_SIDED|95.0|0.81|1.62|||Regression, Cox|||Remifentanyl versus Dexmedetomidine on time to PACU discharge estimated using Cox proportional hazard regression||1.62|0.81|0.45
92314108|NCT01269918|184531176|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.91|TWO_SIDED|95.0|0.5|2.2|||Chi-squared|||Dexmedetomidine versus remifentanyl on postoperative nausea estimated from chi squared test.||2.2|0.5|0.91
92314109|NCT01269918|184531177|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4||||0.16|TWO_SIDED|95.0|0.07|1.7|||Chi-squared|||Dexmedetomidine versus remifentanyl on postoperative vomiting estimated from a chi square test.||1.7|0.07|0.16
92314110|NCT01269918|184531178|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4||||0.21|TWO_SIDED|95.0|0.1|1.7|||Chi-squared|||Dexmedetomidine versus remifentanyl on incidence of shivering estimated from a chi square test.||1.7|0.1|0.21
92314111|NCT03885661|184531186|SUPERIORITY|||||||0.65|||||||mixed effects regression|testing for the outcome employed mixed effects regression. The key fixed effects were group assignment, period, and the group X period interaction.||||||0.65
92314112|NCT04542057|184531216|SUPERIORITY||LS mean difference|0.0941|STANDARD_ERROR_OF_MEAN|0.01501|<|0.0001|TWO_SIDED|95.0|0.0647|0.1236||The analysis of covariance (ANCOVA) model was used to model the change from baseline FEV1 to average FEV1 AUC0-12h with treatment, region, background medication strata and smoking strata as fixed effects and baseline FEV1 as covariate.|ANCOVA|||||0.1236|0.0647|<0.0001
92314113|NCT00129545|184531253|NON_INFERIORITY_OR_EQUIVALENCE|The posterior probability of non-inferiority is defined as the probability that the event rate for the Device group is less than twice that for the Control group. This probability was required to be greater than 0.975 for a finding of non-inferiority. The criterion for non-inferiority was consistently met at each analysis time point demonstrating the Device group is non-inferior to the Control group.|Risk Ratio (RR)|0.61|||||TWO_SIDED|95.0|0.42|1.07|||||Relative Risk calculated as Device Rate over Control rate, with 95% Credible Intervals|||1.07|0.42|
92314114|NCT04660331|184531271|OTHER||||||||||||||||||2-sided t-test conducted for pre- and post-training results.|||
92314115|NCT04660331|184531272|OTHER||||||||||||||||||We grouped pharmacy data on vaccines delivered pre/post intervention into six categories: HPV vaccine, Tdap, Meningococcal, Influenza, COVID-19, and other vaccines. We then compared the counts of total vaccines that were conducted in each group pre- and post-training.|||
92314116|NCT04660331|184531273|OTHER||||||||||||||||||We grouped pharmacy data on vaccines delivered pre/post intervention into six categories: HPV vaccine, Tdap, Meningococcal, Influenza, COVID-19, and other vaccines. We then compared the counts of total vaccines that were conducted in each group pre- and post-training.|||
92314117|NCT04583735|184531294|SUPERIORITY||LSMean difference|-1.48|STANDARD_ERROR_OF_MEAN|0.396||0.0004|TWO_SIDED|95.0|-2.28|-0.69||MMRM analysis with an unstructured variance-covariance matrix including change from Baseline value as dependent variable \& covariates: Baseline value, treatment group, visit, visit-by-treatment \& visit-by-Baseline value interactions.|MMRM|||||-0.69|-2.28|0.0004
92314118|NCT05411991|184531387|SUPERIORITY||Net treatment benefit|10.5||||0.357|TWO_SIDED|95.0|-11.9|31.9|||General pairwaise comparison|||||31.9|-11.9|0.357
92314119|NCT03493685|184531399|OTHER||Slope difference|0.3|STANDARD_ERROR_OF_MEAN|1.05||0.7491|TWO_SIDED|95.0|-1.74|2.41|||Mixed Models Analysis|||||2.41|-1.74|0.7491
92191413|NCT00139659|184281695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.503|STANDARD_ERROR_OF_MEAN|0.711||||90.0|-1.673|0.668|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.668|-1.673|
92314120|NCT03493685|184531400|OTHER||Risk Difference (RD)|16.0||||0.0094|TWO_SIDED|95.0|3.96|28.04|||Mixed Models Analysis|||||28.04|3.96|0.0094
92314121|NCT03493685|184531401|OTHER||Slope difference|0.9|STANDARD_ERROR_OF_MEAN|1.09||0.4203|TWO_SIDED|95.0|-1.27|3.04|||Mixed Models Analysis|||||3.04|-1.27|0.4203
92314122|NCT03493685|184531402|OTHER||Mean Difference (Final Values)|1.8||||0.2708|TWO_SIDED|95.0|-1.39|4.93|||ANCOVA|||||4.93|-1.39|0.2708
92191414|NCT00139659|184281709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.503|STANDARD_ERROR_OF_MEAN|0.216||||90.0|-0.858|-0.148|||Longitudinal data analysis model|Confidence interval of least squares (LS) mean difference (INH - SC) between annual rates of change for the two treatment groups.|Primary analysis model includes terms of Treatment, Time, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on day of randomization.|Treatment group difference (Exubera minus subcutaneous insulin): annualized rate of change over time. Longitudinal data analysis methods with random effects were used to model the pulmonary function test (PFT) measurements. Random effects included the intercept and slope with respect to time (visit); all remaining effects were fixed. The estimated rate of change over time for each treatment group was derived from this model.||-0.148|-0.858|
92314123|NCT02218463|184531405|SUPERIORITY|||||||0.206|||||||Fisher Exact|||Assessment of complete resolution between the 2 study arms.||||0.206
92314124|NCT02218463|184531406|SUPERIORITY|||||||0.0001|||||||ANOVA|||Time Effect||||0.0001
92314125|NCT02218463|184531406|SUPERIORITY|||||||0.37|||||||ANOVA|||Treatment Effect||||0.370
92314126|NCT02218463|184531406|SUPERIORITY|||||||0.425|||||||ANOVA|||Treatment by time interaction||||0.425
92314127|NCT04479852|184531434|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.133|TWO_SIDED|95.0|-4.1|0.5|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in MADRS score from baseline.|||0.5|-4.1|0.133
92314128|NCT04479852|184531435|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.059|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in CGI-S score from baseline.|||0.0|-0.5|0.059
92314129|NCT04479852|184531436|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.159|TWO_SIDED|95.0|-2.7|0.4|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in HAM-D score from baseline.|||0.4|-2.7|0.159
92314130|NCT04479852|184531437|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.188|TWO_SIDED|95.0|-2.5|0.5|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in SDS score from baseline.|||0.5|-2.5|0.188
92314131|NCT04479852|184531438|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.091|TWO_SIDED|95.0|-2.0|0.2|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in QIDS score from baseline.|||0.2|-2.0|0.091
92314132|NCT04479852|184531439|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.243|TWO_SIDED|95.0|-1.2|4.6|||Mixed Models Analysis||A positive difference favors the SP-624 treatment group, i.e., a greater increase in Q-LES-Q score from baseline.|||4.6|-1.2|0.243
92314133|NCT04479852|184531440|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.008|TWO_SIDED|95.0|-6.8|-1.0|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in MADRS score from baseline.|||-1.0|-6.8|.008
92191415|NCT00139659|184281713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.1||||90.0|-0.06|0.28|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.28|-0.06|
92314134|NCT04479852|184531441|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.006|TWO_SIDED|95.0|-0.8|-0.1|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in CGI-S score from baseline.|||-0.1|-0.8|0.006
92314135|NCT04479852|184531442|SUPERIORITY||Mean Difference (Final Values)|2.7||||0.134|TWO_SIDED|95.0|-0.8|6.3|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in MADRS score from baseline.|||6.3|-0.8|0.134
92314136|NCT04479852|184531443|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.437|TWO_SIDED|95.0|-0.3|0.6|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in CGI-S score from baseline.|||0.6|-0.3|0.437
92314137|NCT04100018|184531447|SUPERIORITY||Cox Proportional Hazard|0.96||||0.5901|TWO_SIDED|99.0|0.77|1.19||Boundary for statistical significance p-value \< 0.01|Log Rank|Stratification factor is visceral disease (YES vs NO) as entered in the IRT.||||1.19|0.77|0.5901
92191416|NCT00139659|184281713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.1||||90.0|0.04|0.38|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.38|0.04|
92191417|NCT00139659|184281713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.11||||90.0|-0.01|0.34|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.34|-0.01|
92314138|NCT04100018|184531448|SUPERIORITY||Cox Proportional Hazard|1.09||||0.3572|TWO_SIDED|99.41|0.84|1.43||Boundary for statistical significance p-value \< 0.0059. Additional accuracy for p-value: 0.005866.|Log Rank||Stratification factor is visceral disease (YES vs NO) as entered in the IRT.|||1.43|0.84|0.3572
92314139|NCT04100018|184531449|SUPERIORITY||Adjusted Difference|3.8|||||TWO_SIDED|95.0|-4.5|12.1|||||Strata adjusted difference in objective response rate based on DerSimonian and Laird method. Stratified by visceral disease (YES vs NO) as entered in the IRT.|||12.1|-4.5|
92314140|NCT04100018|184531452|SUPERIORITY||Percentage Difference|0.9|||||TWO_SIDED|95.0|-5.2|7.0|||||Strata adjusted difference in objective response rate based on DerSimonian and Laird method. Stratified by visceral disease (YES vs NO) as entered in the IRT.|||7.0|-5.2|
92191418|NCT00139659|184281713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.11||||90.0|-0.03|0.32|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.32|-0.03|
92191419|NCT00139659|184281713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.11||||90.0|-0.12|0.24|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.24|-0.12|
92191420|NCT00139659|184281713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.12||||90.0|-0.19|0.22|||Mixed Models Analysis|||Week 52 (LOCF); Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.22|-0.19|
92314141|NCT04100018|184531453|SUPERIORITY||Cox Proportional Hazard|1.0|||||TWO_SIDED|95.0|0.86|1.16|||||Stratification factor is visceral disease (YES vs NO) as entered in the IRT.|||1.16|0.86|
92314142|NCT03103087|184531508|SUPERIORITY||Treatment Difference|56.47|||<|0.0001|TWO_SIDED|95.0|46.45|66.49||P-value was stratified by baseline MBL volume (\< 225 mL or ≥ 225 mL) and geographic region (North America or Rest of World). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo.|||66.49|46.45|<0.0001
92191421|NCT00139659|184281714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.615|STANDARD_ERROR_OF_MEAN|7.874||||90.0|-2.351|23.581|||Mixed Models Analysis|Confidence interval for the LS mean of that particular treatment.||Week 6; Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||23.581|-2.351|
92191422|NCT00139659|184281714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.942|STANDARD_ERROR_OF_MEAN|7.804||||90.0|-19.79|5.909|||Mixed Models Analysis|||Week 12; Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||5.909|-19.79|
92191423|NCT00139659|184281714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.622|STANDARD_ERROR_OF_MEAN|7.897||||90.0|-17.63|8.382|||Mixed Models Analysis|||Week 26; Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||8.382|-17.63|
92314143|NCT03103087|184531509|SUPERIORITY||Treatment Difference|47.3|||<|0.0001|TWO_SIDED|95.0|38.04|56.56||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America or Rest of World). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel|Treatment difference was relugolix plus E2/NETA minus placebo. 95% confidence interval (CI) for the difference is based on the normal approximation.||||56.56|38.04|<0.0001
92314144|NCT03103087|184531510|SUPERIORITY||Treatment Difference|-69.2|STANDARD_ERROR_OF_MEAN|7.58|<|0.0001|TWO_SIDED|95.0|-84.1|-54.3||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. Assessed at a 2-sided α = 0.05 significance.|Mixed Models Analysis||Treatment difference was relugolix plus E2/NETA minus placebo.|||-54.3|-84.1|<0.0001
92314145|NCT03103087|184531511|SUPERIORITY||Treatment Difference|55.88|||<|0.0001|TWO_SIDED|95.0|37.25|74.52||P-value is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo. 95% CI for difference is based on the normal approximation.|||74.52|37.25|<0.0001
92314146|NCT03103087|184531512|SUPERIORITY||Treatment Difference|29.99|||<|0.0001|TWO_SIDED|95.0|15.6|44.38||P-value is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo. 95% CI for difference is based on the normal approximation.|||44.38|15.6|<0.0001
92314147|NCT03103087|184531513|SUPERIORITY||Treatment Difference|-10.0|STANDARD_ERROR_OF_MEAN|8.03|=|0.2153|TWO_SIDED|95.0|-25.8|5.8||LS Means based on analysis of covariance model including treatment, randomization stratification factors, Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World), and Baseline values as covariate.|ANCOVA|||||5.8|-25.8|=0.2153
92314148|NCT03103087|184531514|SUPERIORITY||Treatment Difference|-12.2|STANDARD_ERROR_OF_MEAN|4.57|=|0.0078|TWO_SIDED|95.0|-21.3|-3.2||LS Means based on analysis of covariance model including treatment, randomization stratification factors, Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World), and Baseline values as covariate.|ANCOVA|||||-3.2|-21.3|=0.0078
92314149|NCT03103087|184531515|SUPERIORITY||Treatment Difference|-33.4|STANDARD_ERROR_OF_MEAN|3.98|<|0.0001|TWO_SIDED|95.0|-41.2|-25.5||Assessed at a 2-sided α = 0.05 significance level.|Mixed Models Analysis||Relugolix plus E2/NETA minus placebo. Treatment, visit, region, Baseline MBL and treatment by visit interaction as fixed effects.|||-25.5|-41.2|<0.0001
92314150|NCT03103087|184531518|OTHER||Risk Ratio (RR)|0.16|||<|0.0001|TWO_SIDED|95.0|0.07|0.33|||Fisher Exact|||||0.33|0.07|<0.0001
92314151|NCT03103087|184531523|SUPERIORITY||||||<|0.0001||||||P-value is based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix plus E2/NETA with placebo.|Log Rank|||||||< 0.0001
92314152|NCT03103087|184531524|SUPERIORITY||||||<|0.0001||||||P-value for testing difference between relugolix plus E2/NETA and placebo is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
92314153|NCT03103087|184531525|SUPERIORITY||||||<|0.0001||||||P-value is based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix plus E2/NETA with placebo.|Log Rank|||||||<0.0001
92314154|NCT03103087|184531526|SUPERIORITY||||||<|0.0001||||||P-value is based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix plus E2/NETA with placebo.|Log Rank|||||||< 0.0001
92314155|NCT03103087|184531527|SUPERIORITY||||||<|0.0001||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL).|Cochran-Mantel-Haenszel|||||||<0.0001
92314156|NCT03103087|184531528|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus Placebo based on mixed-effect model with treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
92314157|NCT03103087|184531529|SUPERIORITY||||||<|0.0001||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World). Lower limit of normal is Hgb \< 11.6 g/dL.|Cochran-Mantel-Haenszel|||||||<0.0001
92314158|NCT03103087|184531530|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included.|Mixed Models Analysis|||||||<0.0001
92314159|NCT03103087|184531531|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
92314160|NCT03103087|184531532|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
92314161|NCT03103087|184531533|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
92314162|NCT03103087|184531534|SUPERIORITY||||||<|0.0001||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
92314163|NCT03103087|184531535|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included.|Mixed Models Analysis|||||||<0.0001
92314164|NCT03103087|184531536|SUPERIORITY||||||<|0.0001||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
92314165|NCT03103087|184531537|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
92314166|NCT03103087|184531538|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
92314167|NCT03103087|184531540|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
92314168|NCT03103087|184531547|SUPERIORITY|||||||0.0004||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||0.0004
92314169|NCT03283566|184531612|EQUIVALENCE|Assuming a 20-30% difference in outcome (CP/G quotient) between study arms, which is equivalent to 0.08-0.12 CP/G difference and a 0.07 standard deviation, a sample size of 6 subjects (1:1 randomization) will detect a CP/G difference of at least 0.12, assuming 80% power, with a 0.05 significance level.||||||0.739|||||||ANOVA|||||||0.739
92314170|NCT01495000|184531617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.05|||<|0.0001|TWO_SIDED|95.0|1.91|4.19|||ANCOVA|||||4.19|1.91|<0.0001
92314171|NCT05767905|184531656|OTHER||ratio|108.49|||||TWO_SIDED|90.0|100.55|117.05|||Mixed Models Analysis|"Mixed Model was fitted to obtain:~1.Ratio of geometric means 2.90% CI of ratio of geometric means"||Part 1 PF-06821497 Form 1 250 mg Fasted was the Reference treatment and Part 1 PF-06821497 Form 3 250 mg Fasted was the Test treatment.||117.05|100.55|
92314172|NCT05767905|184531656|OTHER||ratio|106.16|||||TWO_SIDED|90.0|98.39|114.54|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 1 PF-06821497 Form 3 250 mg Fasted was the Test treatment and Part 1 PF-06821497 Form 2 250 mg Fasted was the Reference treatment.||114.54|98.39|
92314173|NCT05767905|184531656|OTHER||ratio|228.99|||||TWO_SIDED|90.0|178.67|293.48|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 2 PF-06821497 Form 2 1250 mg Fed High-fat was the Test treatment and Part 2 PF-06821497 Form 2 1250 mg Fasted was the Reference treatment.||293.48|178.67|
92314174|NCT05767905|184531656|OTHER||ratio|207.19|||||TWO_SIDED|90.0|164.41|261.09||||||Part 2 PF-06821497 Form 2 1250 mg Fed Low-fat was the Test treatment and Part 2 PF-06821497 Form 2 1250 mg Fasted was the Reference treatment.||261.09|164.41|
92314175|NCT05767905|184531656|OTHER||ratio|102.19|||||TWO_SIDED|90.0|95.55|109.3|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 1 PF-06821497 Form 1 250 mg Fasted was the Reference treatment, and Part 1 PF-06821497 Form 2 250 mg Fasted was the Test treatment||109.30|95.55|
92314176|NCT05767905|184531657|OTHER||ratio|145.49|||||TWO_SIDED|90.0|121.29|174.53|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 1 PF-06821497 Form 3 250 mg Fasted was the Test treatment and Part 1 PF-06821497 Form 1 250 mg Fasted was the Reference treatment.||174.53|121.29|
92314177|NCT05767905|184531657|OTHER||ratio|122.64|||||TWO_SIDED|90.0|102.24|147.12|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 1 PF-06821497 Form 3 250 mg Fasted was the Test treatment and Part 1 PF-06821497 Form 2 250 mg Fasted was the Reference treatment.||147.12|102.24|
92314178|NCT05767905|184531657|OTHER||ratio|284.72|||||TWO_SIDED|90.0|226.39|358.06|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 2 PF-06821497 Form 2 1250 mg Fed Low-fat was the Test treatment and Part 2 PF-06821497 Form 2 1250 mg Fasted was the Reference treatment.||358.06|226.39|
92314179|NCT05767905|184531657|OTHER||ratio|327.87|||||TWO_SIDED|90.0|256.9|418.44|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 2 PF-06821497 Form 2 1250 mg Fed High-fat was the Test treatment and Part 2 PF-06821497 Form 2 1250 mg Fasted was the Reference treatment.||418.44|256.90|
92191424|NCT00139659|184281714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.828|STANDARD_ERROR_OF_MEAN|7.888||||90.0|-11.16|14.817|||Mixed Models Analysis|||Week 39; Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||14.817|-11.16|
92191425|NCT00139659|184281714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.149|STANDARD_ERROR_OF_MEAN|7.991||||90.0|-12.01|14.307|||Mixed Models Analysis|||Week 52; Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||14.307|-12.01|
92314180|NCT05767905|184531657|OTHER||ratio|118.63|||||TWO_SIDED|90.0|96.36|146.06|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 1 PF-06821497 Form 1 250 mg Fasted was the Reference treatment, and Part 1 PF-06821497 Form 2 250 mg Fasted was the Test treatment.||146.06|96.36|
92314181|NCT02635984|184531666|SUPERIORITY|||||||0.003|||||||Chi-squared|||Based on an 80 % power and an alpha of 0.05, we estimated a need for 49 patients in each treatment arm. From a review of existing literature, the sample size was based on an estimated CR achieved in 65 % of patients on triplet therapy alone and a hypothesized clinically relevant increase of 25 % for the treatment group to 90 %.||||0.003
92314182|NCT02635984|184531667|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
92314183|NCT02635984|184531668|SUPERIORITY|||||||0.11|||||||Chi-squared|||||||0.11
92191426|NCT00139659|184281714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.247|STANDARD_ERROR_OF_MEAN|7.816||||90.0|-8.664|17.157|||Mixed Models Analysis|||Week 52 (LOCF); Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||17.157|-8.664|
92314184|NCT02635984|184531669|SUPERIORITY|||||||0.28|||||||Chi-squared|||||||0.28
92314185|NCT02635984|184531670|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
92314186|NCT02635984|184531671|SUPERIORITY|||||||0.006|||||||Chi-squared|||||||0.006
92314187|NCT02635984|184531672|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.13
92314188|NCT02635984|184531673|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
92314189|NCT03135015|184531674|OTHER||Percentage Change from Control|-14.09||||0.1146|TWO_SIDED||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.1146
92314190|NCT03135015|184531674|OTHER||Percentage Change from Control|-17.42||||0.0519|TWO_SIDED||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.0519
92314191|NCT03135015|184531674|OTHER||Percentage Change from Control|-8.95|||||TWO_SIDED|||||||||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||
92314192|NCT03135015|184531675|OTHER|||||||0.1146|||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons||||0.1146
92314193|NCT03135015|184531675|OTHER|||||||0.0519|||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons||||0.0519
92314194|NCT03135015|184531676|OTHER|||||||0.5827|||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.5827
92314195|NCT03135015|184531676|OTHER|||||||0.5485|||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.5485
92314196|NCT03135015|184531677|OTHER||Percentage Change from Control|-8.53||||0.5827|TWO_SIDED||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.5827
92314197|NCT03135015|184531677|OTHER||Percentage Change from Control|9.32||||0.5485|TWO_SIDED||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.5485
92314198|NCT03135015|184531678|OTHER|||||||0.1234|||||||t-test, 2 sided|||||||0.1234
92314199|NCT03135015|184531678|OTHER|||||||0.0331|||||||t-test, 2 sided|||||||0.0331
92314200|NCT03135015|184531679|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.0500
92314201|NCT03135015|184531679|OTHER|||||||0.0568|||||||t-test, 2 sided|||||||0.0568
92314202|NCT03135015|184531680|OTHER|||||||0.0509|||||||t-test, 2 sided|||||||0.0509
92191427|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|0.455||||90.0|-1.829|-0.331|||Mixed Models Analysis|||Week 1; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||-0.331|-1.829|
92314203|NCT03135015|184531680|OTHER|||||||0.5016|||||||t-test, 2 sided|||||||0.5016
92314204|NCT03135015|184531681|OTHER|||||||0.8444|||||||t-test, 2 sided|||||||0.8444
92314205|NCT03135015|184531681|OTHER|||||||0.9681|||||||t-test, 2 sided|||||||0.9681
92314206|NCT03135015|184531681|OTHER|||||||0.1022|||||||t-test, 2 sided|||||||.1022
92314207|NCT03135015|184531681|OTHER|||||||0.3738|||||||t-test, 2 sided|||||||.3738
92191428|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.475|STANDARD_ERROR_OF_MEAN|0.461||||90.0|-1.233|0.284|||Mixed Models Analysis|||Week 2; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.284|-1.233|
92314208|NCT03135015|184531681|OTHER||Mean Difference (Net)|-13.123|STANDARD_ERROR_OF_MEAN|8.55|||TWO_SIDED||||||||Percentage Change from Control|||||
92314209|NCT03135015|184531681|OTHER||Mean Difference (Net)|-10.362|STANDARD_ERROR_OF_MEAN|10.387|||TWO_SIDED||||||||Percentage Change from Control|||||
92314210|NCT03135015|184531681|OTHER||Mean Difference (Net)|-13.738|STANDARD_ERROR_OF_MEAN|13.463|||TWO_SIDED||||||||Percentage Change from Control|||||
92314211|NCT03135015|184531681|OTHER||Mean Difference (Net)|-12.929|STANDARD_ERROR_OF_MEAN|14.282|||TWO_SIDED||||||||Percentage Change from Control|||||
92314212|NCT03135015|184531682|OTHER|||||||0.0111|||||||t-test, 2 sided|||||||0.0111
92314213|NCT03135015|184531682|OTHER|||||||0.1684|||||||t-test, 2 sided|||||||0.1684
92314214|NCT03135015|184531682|OTHER||Mean Difference (Net)|-11.604|STANDARD_ERROR_OF_MEAN|6.722|||TWO_SIDED||||||||Percentage Change from Control|||||
92314215|NCT03135015|184531682|OTHER||Mean Difference (Net)|12.755|STANDARD_ERROR_OF_MEAN|8.489|||TWO_SIDED||||||||Percentage Change from Control|||||
92314216|NCT03135015|184531682|OTHER||Mean Difference (Net)|-13.293|STANDARD_ERROR_OF_MEAN|9.664|||TWO_SIDED||||||||Percentage Change from Control|||||
92314217|NCT03135015|184531682|OTHER||Mean Difference (Net)|2.526|STANDARD_ERROR_OF_MEAN|5.813|||TWO_SIDED||||||||Percentage Change from Control|||||
92314218|NCT03135015|184531683|OTHER||Percentage Change from Control|-21.09||||0.0374|TWO_SIDED||||||t-test, 2 sided|||||||0.0374
92314219|NCT03135015|184531684|OTHER||Percentage Change from Control|-24.22||||0.0098|TWO_SIDED||||||t-test, 2 sided|||||||0.0098
92314220|NCT03135015|184531684|OTHER||Percentage Change from Control|-25.02||||0.0391|TWO_SIDED||||||t-test, 2 sided|||||||0.0391
92314221|NCT03135015|184531685|OTHER||Percentage Change from Control|-36.28||||0.0034|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0034
92314222|NCT03135015|184531685|OTHER||Percentage Change from Control|-33.21||||0.0058|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0058
92314223|NCT03135015|184531685|OTHER||Percentage Change from Control|-53.27||||0.0016|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0016
92314224|NCT03135015|184531685|OTHER||Percentage Change from Control|-46.19||||0.0125|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0125
92314225|NCT03135015|184531686|OTHER||Percentage Change from Control|-31.36||||0.0788|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0788
92314226|NCT03135015|184531686|OTHER||Percentage Change from Control|-30.32||||0.0887|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0887
92314227|NCT03135015|184531686|OTHER||Percentage Change from Control|-39.96||||0.0266|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0266
92314228|NCT03135015|184531686|OTHER||Percentage Change from Control|-41.8||||0.0455|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0455
92314229|NCT03135015|184531687|OTHER||Percentage Change from Control|-41.82||||0.0261|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0261
92314230|NCT03135015|184531687|OTHER||Percentage Change from Control|-36.45||||0.0391|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0391
92314231|NCT03135015|184531687|OTHER||Percentage Change from Control|-82.11||||0.0372|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0372
92314232|NCT03135015|184531687|OTHER||Percentage Change from Control|-55.81||||0.1631|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.1631
92314233|NCT03135015|184531688|OTHER||Percentage Change from Control|-46.43||||0.0303|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in insulin will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0303
92314234|NCT03135015|184531688|OTHER||Percentage Change from Control|-19.64||||0.4283|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in insulin will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.4283
92314235|NCT00708110|184531694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|||<|0.001|TWO_SIDED|95.0|-2.0|-1.07|||ANCOVA|||||-1.07|-2.00|<0.001
92191429|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.185|STANDARD_ERROR_OF_MEAN|0.454||||90.0|-0.931|0.562|||Mixed Models Analysis|||Week 3; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.562|-0.931|
92314236|NCT00708110|184531694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04|||<|0.001|TWO_SIDED|95.0|-2.52|-1.55|||ANCOVA|||||-1.55|-2.52|<0.001
92191430|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.189|STANDARD_ERROR_OF_MEAN|0.449||||90.0|-0.929|0.55|||Mixed Models Analysis|||Week 4; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.550|-0.929|
92191431|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.558|STANDARD_ERROR_OF_MEAN|0.447||||90.0|-1.294|0.178|||Mixed Models Analysis|||Week 6; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.178|-1.294|
92191432|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.748|STANDARD_ERROR_OF_MEAN|0.467||||90.0|-1.517|0.022|||Mixed Models Analysis|||Week 9; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.022|-1.517|
92314237|NCT00708110|184531694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.48|||<|0.001|TWO_SIDED|95.0|-2.94|-2.02|||ANCOVA|||||-2.02|-2.94|<0.001
92314238|NCT01197911|184531774|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.148|||||TWO_SIDED|90.0|0.9293|1.4182||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available.||1.4182|0.9293|
92314239|NCT01197911|184531774|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.5518|||||TWO_SIDED|90.0|1.2468|1.9314||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available. One Participant with moderate hepatic impairment was not included in the statistical analysis of the PK parameters as there was no appropriate participant with normal hepatic function match.||1.9314|1.2468|
92314240|NCT01197911|184531776|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|0.9477|||||TWO_SIDED|90.0|0.7908|1.1356||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available.||1.1356|0.7908|
92314241|NCT01197911|184531776|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.0782|||||TWO_SIDED|90.0|0.8941|1.3002||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available. One Participant with moderate hepatic impairment was not included in the statistical analysis of the PK parameters as there was no appropriate participant with normal hepatic function match.||1.3002|0.8941|
92314242|NCT01197911|184531790|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.2323|||||TWO_SIDED|90.0|0.9618|1.5789||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available.||1.5789|0.9618|
92314243|NCT01197911|184531790|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.5587|||||TWO_SIDED|90.0|1.2165|1.9971||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available. One participant with moderate hepatic impairment was not included in the statistical analysis of the PK parameters as there was no appropriate participant with normal hepatic function match.||1.9971|1.2165|
92314244|NCT01197911|184531791|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.0027|||||TWO_SIDED|90.0|0.8049|1.2492||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available.||1.2492|0.8049|
92314245|NCT01197911|184531791|SUPERIORITY_OR_OTHER||GeometricLeast-Squares Mean Ratio|1.2254|||||TWO_SIDED|90.0|0.9836|1.5266||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available. One participant with moderate hepatic impairment was not included in the statistical analysis of the PK parameters as there was no appropriate participant with normal hepatic function match.||1.5266|0.9836|
92314246|NCT02273388|184531875|OTHER||Difference of adjusted means|-4.56|STANDARD_ERROR_OF_MEAN|3.61|||TWO_SIDED|90.0|-10.59|1.48|||||Comparison vs. 1 hour infusion \[2h-1h\]|Change from baseline to 5 minutes before infusion end. Linear mixed model with sequence, course, treatment (both infusion types i.e. 1 hour duration and 2 hour duration) and time as fixed effects and treatment\*time as interaction effect, as well as the continuous , fixed covariate of baseline value.||1.48|-10.59|
92314247|NCT02273388|184531875|OTHER||Difference of adjusted means|-7.14|STANDARD_ERROR_OF_MEAN|3.61|||TWO_SIDED|90.0|-13.18|-1.11|||||Comparison vs. 1hour infusion \[2h-1h\]|Change from baseline to 1 hour after infusion end. Linear mixed model with sequence, course, treatment (both infusion types i.e. 1 hour duration and 2 hour duration) and time as fixed effects and treatment\*time as interaction effect, as well as the continuous , fixed covariate of baseline value.||-1.11|-13.18|
92314248|NCT02273388|184531875|OTHER||Difference of adjusted means|-3.58|STANDARD_ERROR_OF_MEAN|3.61|||TWO_SIDED|90.0|-9.61|2.46|||||Comparison vs. 1 hour infusion \[2h-1h\]|Change from baseline to 4 hours after infusion start. Linear mixed model with sequence, course, treatment (both infusion types i.e. 1 hour duration and 2 hour duration) and time as fixed effects and treatment\*time as interaction effect, as well as the continuous , fixed covariate of baseline value.||2.46|-9.61|
92191433|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.053|STANDARD_ERROR_OF_MEAN|0.886||||90.0|-2.51|0.405|||Mixed Models Analysis|||Week 11; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.405|-2.510|
92314249|NCT02273388|184531875|OTHER||Difference of adjusted means|-8.66|STANDARD_ERROR_OF_MEAN|3.61|||TWO_SIDED|90.0|-14.7|-2.63|||||Comparison vs. 1 hour \[2h-1h\]|Change from baseline to 24 hours after infusion start. Linear mixed model with sequence, course, treatment (both infusion types i.e. 1 hour duration and 2 hour duration) and time as fixed effects and treatment\*time as interaction effect, as well as the continuous , fixed covariate of baseline value.||-2.63|-14.70|
92314250|NCT04331808|184531896|SUPERIORITY||Median posterior absolute risk differenc|-9.0|||||TWO_SIDED|90.0|-21.0|3.1||Posterior probability|Bayesian analysis|Adjusted for age and centre|% Confidence Interval is % Credibility interval here|||3.1|-21.0|
92191434|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.891|STANDARD_ERROR_OF_MEAN|0.451||||90.0|-1.634|-0.149|||Mixed Models Analysis|||Week 12; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||-0.149|-1.634|
92314251|NCT04331808|184531897|SUPERIORITY||Median posterior Hazard Ratio|0.58|||||TWO_SIDED|90.0|0.33|1.0||Posterior probability|Bayesian analysis|HR adjusted for age and centre|% Confidence interval is % Credible Interval here|||1.00|0.33|
92314252|NCT04331808|184531898|SUPERIORITY||Median posterior absolute risk differenc|1.7|||||TWO_SIDED|90.0|-13.6|17.1||Posterior probability|Bayesian analysis|Adjusted for age and centre|% Confidence Interval is % Credible Interval here Results are presented as the proportion not improved, so that an effective treatment would be associated with a decrease in proportion.|||17.1|-13.6|
92314253|NCT04331808|184531899|SUPERIORITY||Median posterior Hazard Ratio|1.19|||||TWO_SIDED|90.0|0.71|2.04||Posterior probability|Bayesian analysis|HR adjusted for age and centre|% Confidence interval is % Credible Interval here|||2.04|0.71|
92191435|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.453||||90.0|-1.725|-0.234|||Mixed Models Analysis|||Week 18; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||-0.234|-1.725|
92191436|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.663|STANDARD_ERROR_OF_MEAN|0.448||||90.0|-1.4|0.075|||Mixed Models Analysis|||Week 26; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.075|-1.400|
92314254|NCT04331808|184531900|SUPERIORITY||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.4|3.55|||Regression, Cox|adjusted for age and sex||Day 14||3.55|0.40|
92314255|NCT04331808|184531900|SUPERIORITY||Cox Proportional Hazard|0.92|||||TWO_SIDED|95.0|0.33|2.53|||Regression, Cox|adjusted for age and centre||Day 28||2.53|0.33|
92314256|NCT04331808|184531900|SUPERIORITY||Cox Proportional Hazard|0.64|||||TWO_SIDED|95.0|0.25|1.65|||Regression, Cox|adjusted for age and centre||Day 90||1.65|0.25|
92314257|NCT04331808|184531900|SUPERIORITY||Hazard Ratio (HR)|0.37|||||TWO_SIDED|95.0|0.12|1.15|||Regression, Cox|adjusted for age and centre||Day 14||1.15|0.12|
92314258|NCT04331808|184531900|SUPERIORITY||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.32|1.47|||Regression, Cox|adjusted for age and centre||Day 28||1.47|0.32|
92314259|NCT04331808|184531900|SUPERIORITY||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.3|1.49|||Regression, Cox|adjusted for age and centre||Day 90||1.49|0.30|
92314260|NCT04331808|184531901|SUPERIORITY||Median posterior OR|0.6|||||TWO_SIDED|95.0|0.27|1.28|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre|% Confidence Interval is % Credible Interval here|Day 4||1.28|0.27|
92314261|NCT04331808|184531901|SUPERIORITY||Median posterior OR|0.86|||||TWO_SIDED|95.0|0.43|1.71|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre||Day 7|% Confidence Interval is % Credible Interval here|1.71|0.43|
92314262|NCT04331808|184531901|SUPERIORITY||Median posterior OR|0.76|||||TWO_SIDED|95.0|0.4|1.42|||Proportionnal odds model|Bayesian analysis. Adjusted for age and sex|% Confidence Interval is % Credible Interval here|Day 14||1.42|0.40|
92314263|NCT04331808|184531901|SUPERIORITY||Median posterior OR|0.85|||||TWO_SIDED|95.0|0.39|1.82|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre||Day 4|% Confidence Interval is % Credible Interval here|1.82|0.39|
92314264|NCT04331808|184531901|SUPERIORITY||Median posterior OR|0.69|||||TWO_SIDED|95.0|0.32|1.47|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre|% Confidence Interval is % Credible Interval here|Day 7||1.47|0.32|
92314265|NCT04331808|184531901|SUPERIORITY||Median posterior OR|0.68|||||TWO_SIDED|95.0|0.32|1.43|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre|% Confidence Interval is % Credible Interval here|Day 14||1.43|0.32|
92314266|NCT04331808|184531902|SUPERIORITY||Mean Difference (Net)|-2.5|||||TWO_SIDED|95.0|-6.9|1.7||adjusted on age and centre||||||1.7|-6.9|
92314267|NCT04331808|184531903|SUPERIORITY||Hazard Ratio (HR)|1.41|||||TWO_SIDED|95.0|0.98|2.01|||Fine-Gray model|adjusted for age and centre||Day 28||2.01|0.98|
92314268|NCT04331808|184531903|SUPERIORITY||Hazard Ratio (HR)|1.44|||||TWO_SIDED|95.0|0.82|2.52|||Fine-Gray model|||Day 28||2.52|0.82|
92314269|NCT04331808|184531903|SUPERIORITY||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.8|2.03|||Fine-Gray model|adjusted on age and centre||Day 90||2.03|0.80|
92191437|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.537|STANDARD_ERROR_OF_MEAN|0.451||||90.0|-1.279|0.205|||Mixed Models Analysis|||Week 39; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.205|-1.279|
92314270|NCT04331808|184531904|SUPERIORITY||Hazard Ratio (HR)|1.52|||||TWO_SIDED|95.0|1.02|2.27|||Fine-Gray model|adjusted on age and centre||Day 28||2.27|1.02|
92314271|NCT04331808|184531904|SUPERIORITY||Hazard Ratio (HR)|1.45|||||TWO_SIDED|95.0|0.8|2.63|||Fine-Gray model|adjusted for age and centre||Day 28||2.63|0.80|
92314272|NCT04331808|184531904|SUPERIORITY||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|0.84|2.17|||Fine-Gray model|adjusted for age and centre||Day 90||2.17|0.84|
92314273|NCT04331808|184531905|SUPERIORITY||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.73|1.81|||Fine-Gray model|adjusted on age and centre||Day 28||1.81|0.73|
92314274|NCT04331808|184531905|SUPERIORITY||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.73|2.24|||Fine-Gray model|adjusted on age and centre||Day 90||2.24|0.73|
92314275|NCT03172494|184531921|NON_INFERIORITY|Non-inferiority of insulin degludec/liraglutide versus insulin degludec was considered as confirmed if the 95% confidence interval (CI) for the mean treatment difference lied entirely below 0.4%. Non-inferiority was investigated on the FAS.|Mean treatment difference|-0.59|||<|0.0001|TWO_SIDED|95.0|-0.73|-0.46|||ANCOVA|||The change from baseline in HbA1c after 26 weeks of treatment was analysed using an analysis of covariance (ANCOVA) model with treatment and previous oral anti-diabetic (OAD) treatment as fixed factors and baseline HbA1c as covariate. Missing values were imputed by last observation carried forward (LOCF).||-0.46|-0.73|<0.0001
92314276|NCT03172494|184531921|SUPERIORITY||Mean treatment difference|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.49|||ANCOVA|||The change from baseline in HbA1c after 26 weeks of treatment was analysed using an ANCOVA model with treatment and previous OAD treatment as fixed factors and baseline HbA1c as covariate. Missing values were imputed by LOCF.||-0.49|-0.76|<0.0001
92314277|NCT00143390|184531985|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of exemestane to anastrozole was to be concluded if the upper bound of the 95% confidence interval on the hazard ratio (exemestane/anastrozole) was ≤1.25.|Hazard Ratio (HR)|1.007|||||TWO_SIDED|95.0|0.771|1.317|||||Disease sites, use of postoperative adjuvant antiestrogen agents therapy, and pamidronate disodium were covariates for adjustment.|95% Confidence Interval based on the Brookmeyer and Crowley method||1.317|0.771|
92314278|NCT00143390|184531986|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of exemestane to anastrozole was to be concluded if the upper bound of the 95% confidence interval on the hazard ratio (exemestane/anastrozole) was ≤1.25.|Hazard Ratio (HR)|1.059|||||TWO_SIDED|95.0|0.816|1.374|||||Disease sites, use of postoperative adjuvant antiestrogen agents therapy, and pamidronate disodium were covariates for adjustment.|95% Confidence Interval based on the Brookmeyer and Crowley method||1.374|0.816|
92314279|NCT00681031|184532047|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptability was demonstrated if the lower bound of the two-sided 95% confidence interval (CI) on the Geometric Mean Fold Rise (CMFR) from pre-vaccination to 4 weeks postvaccination is \>1.4.|GMFR|3.1|||||TWO_SIDED|95.0|2.6|3.8|||||GMFR = GMT postdose divided by GMT predose|||3.8|2.6|
92314280|NCT00625872|184532048|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.43|STANDARD_ERROR_OF_MEAN|1.1||0.7232|TWO_SIDED|95.0|-3.93|3.08||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||Analysis of covariance (ANCOVA) method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||3.08|-3.93|0.7232
92314281|NCT00625872|184532049|SUPERIORITY_OR_OTHER||LS Mean difference|-1.61|STANDARD_ERROR_OF_MEAN|0.51||0.1941|TWO_SIDED|95.0|-8.04|4.82||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||4.82|-8.04|0.1941
92314282|NCT00625872|184532051|SUPERIORITY_OR_OTHER|||||||0.0532||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For K-ABC Test (Sequential Processing): Kruskal-Wallis Analysis of Variance (ANOVA) model was used to calculate p-value.||||0.0532
92314283|NCT00625872|184532051|SUPERIORITY_OR_OTHER|||||||0.3383||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For K-ABC Test (Simultaneous Processing): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.3383
92314284|NCT00625872|184532051|SUPERIORITY_OR_OTHER|||||||0.683||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For K-ABC Test (Achievement): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.6830
92314285|NCT00625872|184532051|SUPERIORITY_OR_OTHER|||||||0.4935||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For K-ABC Test (Non-Verbal): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.4935
92314286|NCT00625872|184532051|SUPERIORITY_OR_OTHER|||||||0.3458||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For K-ABC Test (Mental Processing Composite): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.3458
92314287|NCT00625872|184532053|SUPERIORITY_OR_OTHER|||||||0.6256||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For KITAP Test (Distractibility): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.6256
92314288|NCT00625872|184532053|SUPERIORITY_OR_OTHER|||||||0.859||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For KITAP Test (Alertness): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.8590
92314289|NCT00625872|184532053|SUPERIORITY_OR_OTHER|||||||1||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For KITAP Test (Flexibility): Kruskal-Wallis ANOVA model was used to calculate p-value.||||1.0000
92314290|NCT00625872|184532053|SUPERIORITY_OR_OTHER|||||||0.1234||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For KITAP Test (Go/No Go): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.1234
92314291|NCT00625872|184532053|SUPERIORITY_OR_OTHER|||||||0.3291||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For KITAP Test (Vigilance): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.3291
92314292|NCT00625872|184532072|SUPERIORITY_OR_OTHER||LS Mean difference|0.14|STANDARD_ERROR_OF_MEAN|2.54||0.956|TWO_SIDED|95.0|-5.71|6.0||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||6.00|-5.71|0.9560
92314293|NCT00625872|184532088|SUPERIORITY_OR_OTHER||LS Mean difference|0.55|STANDARD_ERROR_OF_MEAN|0.31||0.1107|TWO_SIDED|95.0|-0.15|1.25||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||1.25|-0.15|0.1107
92314294|NCT00625872|184532090|SUPERIORITY_OR_OTHER||LS Mean difference|4.67|STANDARD_ERROR_OF_MEAN|1.54||0.0161|TWO_SIDED|95.0|1.13|8.21||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||8.21|1.13|0.0161
92314295|NCT00625872|184532099|SUPERIORITY_OR_OTHER||LS Mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.25||0.187|TWO_SIDED|95.0|-0.89|0.2||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||Triceps SDS: ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||0.20|-0.89|0.1870
92314296|NCT00625872|184532099|SUPERIORITY_OR_OTHER||LS Mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.15||0.3494|TWO_SIDED|95.0|-0.49|0.19||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||Subscapular SDS: ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||0.19|-0.49|0.3494
92314297|NCT00625872|184532099|SUPERIORITY_OR_OTHER||LS Mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.12||0.0458|TWO_SIDED|95.0|-0.54|-0.01||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||Suprailiac SDS: ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||-0.01|-0.54|0.0458
92314298|NCT01512160|184532101|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|90.0|-4.3|2.2||||||Analysis of co-variance (ANCOVA) model was used with treatment as a fixed effect and baseline pain intensity as a covariate. LS mean estimates of the treatment difference along with 90 percent (%) confidence interval (CI) was presented.||2.2|-4.3|
92314299|NCT01512160|184532101|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|90.0|-4.1|2.3||||||ANCOVA model was used with treatment as a fixed effect and baseline pain intensity as a covariate. LS mean estimates of the treatment difference along with 90% CI was presented.||2.3|-4.1|
92314300|NCT01512160|184532101|SUPERIORITY_OR_OTHER||LS mean difference|3.5|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|90.0|0.3|6.7||||||ANCOVA model was used with treatment as a fixed effect and baseline pain intensity as a covariate. LS mean estimates of the treatment difference along with 90% CI was presented.||6.7|0.3|
92314301|NCT01512160|184532105|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|-2.8|1.9||||||SPID 0-6: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||1.9|-2.8|
92314302|NCT01512160|184532105|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|-2.7|2.0||||||SPID 0-6: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||2.0|-2.7|
92314303|NCT01512160|184532105|SUPERIORITY_OR_OTHER||LS mean difference|2.8|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|0.4|5.1||||||SPID 0-6: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||5.1|0.4|
92314304|NCT01512160|184532105|SUPERIORITY_OR_OTHER||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|7.0|||TWO_SIDED|90.0|-12.6|10.5||||||SPID 0-24: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||10.5|-12.6|
92314305|NCT01512160|184532105|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|6.9|||TWO_SIDED|90.0|-11.5|11.4||||||SPID 0-24: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||11.4|-11.5|
92314306|NCT01512160|184532105|SUPERIORITY_OR_OTHER||LS mean difference|7.6|STANDARD_ERROR_OF_MEAN|7.0|||TWO_SIDED|90.0|-4.0|19.1||||||SPID 0-24: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||19.1|-4.0|
92314307|NCT01512160|184532106|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|9.5|||TWO_SIDED|90.0|-15.6|16.1||||||LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||16.1|-15.6|
92314308|NCT01512160|184532106|SUPERIORITY_OR_OTHER||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|9.4|||TWO_SIDED|90.0|-16.5|14.8||||||LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||14.8|-16.5|
92314309|NCT01512160|184532106|SUPERIORITY_OR_OTHER||LS mean difference|9.3|STANDARD_ERROR_OF_MEAN|9.5|||TWO_SIDED|90.0|-6.6|25.1||||||LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||25.1|-6.6|
92314310|NCT01512160|184532107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|90.0|0.5|1.5||||||Hazard Ratio (HR) estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.5|0.5|
92314311|NCT01512160|184532107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|90.0|0.7|2.1||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.1|0.7|
92314312|NCT01512160|184532107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|90.0|0.6|2.0||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.0|0.6|
92314313|NCT01512160|184532108|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|90.0|0.5|2.1||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.1|0.5|
92314314|NCT01512160|184532108|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|90.0|0.4|1.8||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.8|0.4|
92314315|NCT01512160|184532108|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.5|||||TWO_SIDED|90.0|0.7|2.9||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.9|0.7|
92314316|NCT01512160|184532109|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|90.0|0.6|1.9||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.9|0.6|
92314317|NCT01512160|184532109|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3|||||TWO_SIDED|90.0|0.7|2.4||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.4|0.7|
92314318|NCT01512160|184532109|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|90.0|0.4|1.3||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.3|0.4|
92314319|NCT02729909|184532127|SUPERIORITY||Median Value of confidence interval (CI)|1.0||||0.02|TWO_SIDED|95.0|0.1|1.9||Spontaneous bowel movement was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||||1.9|0.1|0.020
92191438|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.322|STANDARD_ERROR_OF_MEAN|1.027||||90.0|-3.012|0.369|||Mixed Models Analysis|||Week 50; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.369|-3.012|
92314320|NCT02729909|184532128|SUPERIORITY||Median Value of CI|1.0||||0.051|TWO_SIDED|95.0|0.0|1.9||Spontaneous bowel movement was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 2||1.9|0.0|0.051
92314321|NCT02729909|184532128|SUPERIORITY||Median Value of CI|1.5||||0.003|TWO_SIDED|95.0|1.0|2.0||Spontaneous bowel movement was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 3||2.0|1.0|0.003
92314322|NCT02729909|184532128|SUPERIORITY||Median Value of CI|1.0||||0.009|TWO_SIDED|95.0|0.1|1.9||Spontaneous bowel movement was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 4||1.9|0.1|0.009
92314323|NCT02729909|184532129|SUPERIORITY||Odds Ratio (OR)|2.08||||0.009|TWO_SIDED|95.0|1.19|3.62||The proportion of participants with an SBM within 24 hours after first dose in Week 1 is analyzed by a Cochran-Mantel-Haenszel (CMH) test stratified by center. Centers with less participants were pooled based on geographical proximity.|Cochran-Mantel-Haenszel|||||3.62|1.19|0.009
92314324|NCT02729909|184532130|SUPERIORITY||Median Value of CI|-0.4||||0.001|TWO_SIDED|95.0|-0.6|-0.2||Average Degree of Straining was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 1||-0.2|-0.6|0.001
92314325|NCT02729909|184532130|SUPERIORITY||Median Value of CI|-0.3||||0.004|TWO_SIDED|95.0|-0.5|-0.1||Average Degree of Straining was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 2||-0.1|-0.5|0.004
92314326|NCT02729909|184532130|SUPERIORITY||Median Value of CI|-0.2||||0.024|TWO_SIDED|95.0|-0.4|-0.1||Average Degree of Straining was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 3||-0.1|-0.4|0.024
92314327|NCT02729909|184532130|SUPERIORITY||Median Value of CI|-0.3||||0.01|TWO_SIDED|95.0|-0.5|-0.1||Average Degree of Straining was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 4||-0.1|-0.5|0.010
92314328|NCT02729909|184532131|SUPERIORITY||Median Value of CI|0.6|||<|0.001|TWO_SIDED|95.0|0.4|1.0||Mean Degree of Stool Consistency was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 1||1.0|0.4|<0.001
92314329|NCT02729909|184532131|SUPERIORITY||Median Value of CI|0.6|||<|0.001|TWO_SIDED|95.0|0.4|0.9||Mean Degree of Stool Consistency was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 2||0.9|0.4|<0.001
92314330|NCT02729909|184532131|SUPERIORITY||Median Value of CI|0.6|||<|0.001|TWO_SIDED|95.0|0.4|0.8||Mean Degree of Stool Consistency was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 3||0.8|0.4|<0.001
92314331|NCT02729909|184532131|SUPERIORITY||Median Value of CI|0.5|||<|0.001|TWO_SIDED|95.0|0.2|0.7||Mean Degree of Stool Consistency was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 4||0.7|0.2|<0.001
92314332|NCT02729909|184532132|SUPERIORITY||Median Value of CI|-0.5||||0.02|TWO_SIDED|95.0|-0.9|-0.1||Abdominal Bloating was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 1||-0.1|-0.9|0.020
92314333|NCT02729909|184532132|SUPERIORITY|||||||0.072||||||Abdominal Bloating was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 2||||0.072
92314334|NCT02729909|184532132|SUPERIORITY||Median Value of CI|-0.5|||<|0.001|TWO_SIDED|95.0|-0.9|-0.1||Abdominal Bloating was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 3||-0.1|-0.9|<0.001
92191439|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.552||||90.0|-0.847|0.972|||Mixed Models Analysis|||Week 51; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.972|-0.847|
92191440|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.193|STANDARD_ERROR_OF_MEAN|0.469||||90.0|-0.964|0.579|||Mixed Models Analysis|||Week 52; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.579|-0.964|
92314335|NCT02729909|184532132|SUPERIORITY||Median Value of CI|-0.5||||0.004|TWO_SIDED|95.0|-0.9|-0.1||Abdominal Bloating was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 4||-0.1|-0.9|0.004
92314336|NCT04779879|184532145|OTHER||Ratio of geometric least squares mean|1.04|||||TWO_SIDED|90.0|0.98|1.09|||||Analysis was performed using an Analysis of covariance (ANCOVA) model with covariates of treatment and Baseline logarithm (base 10) viral load.|||1.09|0.98|
92314337|NCT04779879|184532146|OTHER||Ratio of geometric least squares mean|1.02|||||TWO_SIDED|90.0|0.94|1.11|||||Analysis was performed using an ANCOVA model with covariates of treatment, and Baseline logarithm (base10) viral load and randomization stratification factor (prior exposure to an authorized or approved SARS-CoV-2 vaccine).|||1.11|0.94|
92314338|NCT04779879|184532175|OTHER||Ratio of geometric least squares mean|1.05|||||TWO_SIDED|90.0|1.0|1.11|||||Analysis was performed using an ANCOVA model with covariates of treatment and Baseline logarithm (base 10) viral load.|||1.11|1.00|
92314339|NCT04779879|184532176|OTHER||Ratio of geometric least squares mean|1.02|||||TWO_SIDED|90.0|0.97|1.07|||||Analysis was performed using an ANCOVA model with covariates of treatment and Baseline logarithm (base 10) viral load.|||1.07|0.97|
92314340|NCT04779879|184532177|OTHER||Ratio of geometric least squares mean|1.01|||||TWO_SIDED|90.0|0.93|1.09|||||Analysis was performed using an ANCOVA model with covariates of treatment, Baseline logarithm (base 10) viral load and randomization stratification factor (prior exposure to an authorized or approved SARS-CoV-2 vaccine).|||1.09|0.93|
92314341|NCT04779879|184532178|OTHER||Ratio of geometric least squares mean|1.02|||||TWO_SIDED|90.0|0.94|1.1|||||Analysis was performed using an ANCOVA model with covariates of treatment, Baseline logarithm (base 10) viral load and randomization stratification factor (prior exposure to an authorized or approved SARS-CoV-2 vaccine).|||1.10|0.94|
92314342|NCT04779879|184532239|OTHER||Ratio of geometric least squares mean|0.66|||||TWO_SIDED|90.0|0.48|0.89|||||Drug bioavailability was analyzed using an ANCOVA model with treatment and weight at Baseline as covariates.|||0.89|0.48|
92314343|NCT04779879|184532239|OTHER||Ratio of geometric least squares mean|0.58|||||TWO_SIDED|90.0|0.43|0.79|||||Drug bioavailability was analyzed using an ANCOVA model with treatment and weight at Baseline as covariates.|||0.79|0.43|
92314344|NCT04779879|184532240|OTHER||Ratio of geometric least squares mean|1.14|||||TWO_SIDED|90.0|0.67|1.95|||||Dose proportionality was analyzed using an ANOVA model with treatment (250mg, 500mg) as a covariate, for each parameter of interest.|||1.95|0.67|
92191441|NCT00139659|184281715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.526||||90.0|-1.298|0.438|||Mixed Models Analysis|||Week 52 (LOCF); adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.438|-1.298|
92191442|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.079|0.0|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.000|-0.079|
92191443|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.029|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.068|0.01|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.010|-0.068|
92314345|NCT04779879|184532241|OTHER||Ratio of geometric least squares mean|1.06|||||TWO_SIDED|90.0|0.69|1.62|||||Dose proportionality was analyzed using an ANOVA model with treatment (250mg, 500mg) as a covariate, for each parameter of interest.|||1.62|0.69|
92314346|NCT04779879|184532242|OTHER||Ratio of geometric least squares mean|1.11|||||TWO_SIDED|90.0|0.68|1.82|||||Dose proportionality was analyzed using an ANOVA model with treatment (250mg, 500mg) as a covariate, for each parameter of interest.|||1.82|0.68|
92314347|NCT04779879|184532243|OTHER||Ratio of geometric least squares mean|1.28|||||TWO_SIDED|90.0|0.77|2.12|||||Dose proportionality was analyzed using an ANOVA model with treatment (250mg, 500mg) as a covariate, for each parameter of interest.|||2.12|0.77|
92314348|NCT02854527|184532277|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R1) (%)|96.39|STANDARD_DEVIATION|19.4|||TWO_SIDED|90.0|88.22|105.33|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted gMean ratio (T/R1) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the first primary outcome measure of treatment R1.||105.33|88.22|
92314349|NCT02854527|184532278|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R1) (%)|93.17|STANDARD_DEVIATION|24.1|||TWO_SIDED|90.0|83.49|103.97|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted gMean ratio (T/R1) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the second primary outcome measure of treatment R1.||103.97|83.49|
92314350|NCT02854527|184532279|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R2) (%)|102.62|STANDARD_DEVIATION|20.4|||TWO_SIDED|90.0|93.82|112.25|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R2 were back transformed to original scale to get adjusted gMean ratio (T/R2) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the first primary outcome measure of treatment R2.||112.25|93.82|
92314351|NCT02854527|184532280|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R2) (%)|103.96|STANDARD_DEVIATION|24.0|||TWO_SIDED|90.0|93.6|115.46|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R2 were back transformed to original scale to get adjusted gMean ratio (T/R2) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the second primary outcome measure of treatment R2.||115.46|93.60|
92314352|NCT02854527|184532281|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R3) (%)|97.49|STANDARD_DEVIATION|9.0|||TWO_SIDED|90.0|93.54|101.61|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R3 were back transformed to original scale to get adjusted gMean ratio (T/R3) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the first primary outcome measure of treatment R3.||101.61|93.54|
92314353|NCT02854527|184532282|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R3) (%)|98.25|STANDARD_DEVIATION|14.7|||TWO_SIDED|90.0|91.85|105.09|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R3 were back transformed to original scale to get adjusted gMean ratio (T/R3) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the second primary outcome measure of treatment R3.||105.09|91.85|
92314354|NCT02854527|184532283|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R4) (%)|105.01|STANDARD_DEVIATION|18.8|||TWO_SIDED|90.0|96.39|114.4|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R4 were back transformed to original scale to get adjusted gMean ratio (T/R4) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the first primary outcome measure of treatment R4.||114.40|96.39|
92314355|NCT02854527|184532284|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R4) (%)|104.28|STANDARD_DEVIATION|20.6|||TWO_SIDED|90.0|94.95|114.53|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R4 were back transformed to original scale to get adjusted gMean ratio (T/R4) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the second primary outcome measure of treatment R4.||114.53|94.95|
92191444|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.084|-0.006|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.006|-0.084|
92191445|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.085|-0.007|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.007|-0.085|
92191446|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.085|-0.007|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.007|-0.085|
92191447|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.063|0.017|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.017|-0.063|
92191448|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.062|0.02|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.020|-0.062|
92191449|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.055|0.027|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.027|-0.055|
92191450|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.026||||90.0|-0.085|0.0|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.000|-0.085|
92191451|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.065|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.109|-0.022|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.022|-0.109|
92191452|NCT00139659|184281723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.097|-0.003|||Mixed Models Analysis|||Week 52 Last Observation Carried Forward (LOCF; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.003|-0.097|
92191453|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.279|STANDARD_ERROR_OF_MEAN|0.199||||90.0|-0.606|0.048|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.048|-0.606|
92191454|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.336|STANDARD_ERROR_OF_MEAN|0.198||||90.0|-0.661|-0.011|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.011|-0.661|
92191455|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.384|STANDARD_ERROR_OF_MEAN|0.196||||90.0|-0.707|-0.061|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.061|-0.707|
92191456|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.516|STANDARD_ERROR_OF_MEAN|0.198||||90.0|-0.842|-0.191|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.191|-0.842|
92191457|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.474|STANDARD_ERROR_OF_MEAN|0.196||||90.0|-0.797|-0.152|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.152|-0.797|
92191458|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.533|STANDARD_ERROR_OF_MEAN|0.202||||90.0|-0.866|-0.2|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.200|-0.866|
92191459|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.509|STANDARD_ERROR_OF_MEAN|0.204||||90.0|-0.845|-0.174|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.174|-0.845|
92191460|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.412|STANDARD_ERROR_OF_MEAN|0.204||||90.0|-0.749|-0.076|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.076|-0.749|
92191461|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.707|STANDARD_ERROR_OF_MEAN|0.212||||90.0|-1.056|-0.358|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.358|-1.056|
92191462|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.219||||90.0|-1.04|-0.32|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.320|-1.040|
92191463|NCT00139659|184281724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.765|STANDARD_ERROR_OF_MEAN|0.212||||90.0|-1.116|-0.415|||Mixed Models Analysis|||Week 52 Last Observation Carried Forward (LOCF); Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.415|-1.116|
92191464|NCT01209936|184281766|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
92191465|NCT01209936|184281767|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92191466|NCT01209936|184281768|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
92191467|NCT02391116|184281776|OTHER||Percentage Difference|2.2|||||TWO_SIDED|90.0|-28.7|32.9|||Exact confidence intervals (CI)||ORR difference in FAS (N=54): ORR in CD79b mutant subgroup minus ORR in CD79b wild-type subgroup|||32.9|-28.7|
92191468|NCT02391116|184281776|OTHER||Percentage Difference|0.0|||||TWO_SIDED|90.0|-33.5|33.5|||Exact confidence intervals (CI)||ORR difference in PPS (N=40): ORR in CD79b mutant subgroup minus ORR in CD79b wild-type subgroup|||33.5|-33.5|
92191469|NCT02391116|184281777|OTHER||Percentage Difference|16.4|||||TWO_SIDED|90.0|-7.2|39.1|||Exact confidence intervals (CI)||ORR difference in FAS (N=52): ORR in ABC subgroup minus ORR in non-ABC group (i.e. combined GCB subgroup and Unclassifiable subgroup)|||39.1|-7.2|
92191470|NCT02391116|184281777|OTHER||Percentage Difference|20.8|||||TWO_SIDED|90.0|-6.8|46.2|||Exact confidence intervals (CI)||ORR difference in PPS (N=40): ORR in ABC subgroup minus ORR in non-ABC group (i.e. combined GCB subgroup and Unclassifiable subgroup)|||46.2|-6.8|
92191471|NCT02391116|184281777|OTHER||Percentage Difference|-18.5|||||TWO_SIDED|90.0|-40.1|4.6|||Exact confidence intervals (CI)||ORR difference in FAS (N=52): ORR in GCB subgroup minus ORR in non-GCB subgroup (i.e. combined ABC subgroup and Unclassifiable subgroup)|||4.6|-40.1|
92191472|NCT02391116|184281777|OTHER||Percentage Difference|-25.3|||||TWO_SIDED|90.0|-49.1|1.1|||Exact confidence intervals (CI)||ORR difference in PPS (N=40): ORR in GCB subgroup minus ORR in non-GCB subgroup (i.e. combined ABC subgroup and Unclassifiable subgroup)|||1.1|-49.1|
92191473|NCT02391116|184281777|OTHER||Percentage Difference|12.9|||||TWO_SIDED|90.0|-42.4|63.2|||Exact confidence intervals (CI)||ORR difference in FAS (N=52): ORR in Unclassifiable subgroup minus ORR in ABC / GCB subgroup (i.e. combined ABC subgroup and GCB subgroup)|||63.2|-42.4|
92267927|NCT04035694|184437733|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.06||0.01|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.01
92267928|NCT04035694|184437734|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.08||0.02|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.02
92267929|NCT04035694|184437735|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.06||0.03|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.03
92191474|NCT02391116|184281777|OTHER||Percentage Difference|26.3|||||TWO_SIDED|90.0|-44.3|77.6|||Exact confidence intervals (CI)||ORR difference in PPS (N=40): ORR in Unclassifiable subgroup minus ORR in ABC / GCB subgroup (i.e. combined ABC subgroup and GCB subgroup)|||77.6|-44.3|
92191475|NCT02109107|184281796|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|t=21.33; df=53||||||<.0001
92191476|NCT02109107|184281797|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|t=2.95; df=53||||||<0.05
92191477|NCT02109107|184281798|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED||||||t-test, 2 sided|t+3.34; df=53||||||<0.005
92191478|NCT01747629|184281801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|0.163|<|0.0001|TWO_SIDED|95.0|0.59|1.24||Significance at the 0.05 level.|mixed-model repeated-measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.24|0.59|<0.0001
92267930|NCT04035694|184437736|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.13||0.57|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.57
92267931|NCT04035694|184437737|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.08||0.91|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.91
92267932|NCT04035694|184437738|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.11||0.72|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.72
92191479|NCT01747629|184281802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.05|STANDARD_ERROR_OF_MEAN|0.249|<|0.0001|TWO_SIDED|95.0|0.56|1.55||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.55|0.56|<0.0001
92191480|NCT01747629|184281803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|0.212||0.0004|TWO_SIDED|95.0|0.35|1.19||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.19|0.35|0.0004
92267933|NCT04035694|184437739|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.09||0.07|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.07
92191481|NCT01747629|184281804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|0.57|1.28||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.28|0.57|<0.0001
92267934|NCT04035694|184437740|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.1||0.56|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.56
92267935|NCT04035694|184437741|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.11||0.17|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.17
92267936|NCT04035694|184437742|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.12||0.89|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.89
92267937|NCT04035694|184437743|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.08||0.2|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||.20
92267938|NCT04035694|184437744|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.16||0.78|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.78
92267939|NCT04035694|184437745|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.09||0.41|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.41
92267940|NCT04035694|184437746|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.11||0.34|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.34
92314356|NCT02854527|184532285|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R1) (%)|96.53|STANDARD_DEVIATION|10.1|||TWO_SIDED|90.0|92.08|101.2|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted gMean ratio (T/R1) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the secondary outcome measure of treatment R1.||101.20|92.08|
92314357|NCT02854527|184532286|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R2) (%)|97.4|STANDARD_DEVIATION|9.6|||TWO_SIDED|90.0|90.87|104.41|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R2 were back transformed to original scale to get adjusted gMean ratio (T/R2) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the secondary outcome measure of treatment R2.||104.41|90.87|
92314358|NCT02854527|184532287|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R3) (%)|97.5|STANDARD_DEVIATION|8.9|||TWO_SIDED|90.0|93.58|101.58|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R3 were back transformed to original scale to get adjusted gMean ratio (T/R3) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the secondary outcome measure of treatment R3.||101.58|93.58|
92314359|NCT02854527|184532288|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R4) (%)|107.63|STANDARD_DEVIATION|19.4|||TWO_SIDED|90.0|97.04|119.39|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R4 were back transformed to original scale to get adjusted gMean ratio (T/R4) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the secondary outcome measure of treatment R4.||119.39|97.04|
92314360|NCT01959295|184532289|SUPERIORITY|||||||0.5086|||||||Mantel Haenszel|||The superiority of ASP2151 200mg to ASP2151 placebo was assessed by Mantel-Haenszel method, adjusted by disease type (labial/facial herpes and recurrent genital herpes) .||||0.5086
92314361|NCT01682811|184532300|OTHER|||||||0.0001|||||||t-test, 1 sided|||One-sample t-test comparing the absolute value to an alternate expected value of zero.||||0.0001
92314362|NCT01682811|184532303|OTHER|||||||0.24|||||||t-test, 2 sided|||Paired comparisons between treated and placebo lesions within subject.||||0.24
92314363|NCT01682811|184532306|OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
92314364|NCT01128179|184532307|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1121||||0.3186|TWO_SIDED|95.0|-0.3389|0.1146||The a priori significance level was 5%. There was no adjustment for multiple comparisons.|ANCOVA|||Assuming that the natural logarithm transformed serum intact FGF-23 is normally distributed with a mean of 3.5 and a standard deviation of 0.46, 33 subjects randomised 2:1 (lanthanum carbonate to placebo) will be sufficient to detect with 80% power at the 5% 2-sided significance level a decrease of 0.5 in the mean difference (placebo minus lanthanum carbonate) of the log-transformed data at Week 12.||0.1146|-0.3389|0.3186
92314365|NCT01128179|184532308|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.54||||0.2995|TWO_SIDED|95.0|-6.15|19.23||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of serum iPTH at Week 12 (LOCF) in an analysis of covariance (ANCOVA) with treatment as a factor and the baseline iPTH as a covariate. The study was not powered for the analysis of this parameter.||19.23|-6.15|0.2995
92314366|NCT01128179|184532309|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.11||||0.3252|TWO_SIDED|95.0|-5.36|15.57||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of 1,25-Dihydroxy Vitamin D at Week 12 (LOCF) when utilizing an analysis of covariance (ANCOVA) with treatment as a factor and the baseline 1,25-Dihydroxy Vitamin D as a covariate. The study was not powered for the analysis of this parameter.||15.57|-5.36|0.3252
92191482|NCT00607789|184281815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3|STANDARD_DEVIATION|1.7|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||The primary efficacy analysis was a longitudinal analysis comparing the rate of change of binge day frequency during the treatment period between groups. The same analysis was applied to binge episode frequency, weight, BMI, and scores on the CGI-Severity, YBOCS-BE, and IDS scales. The difference in rate of change was estimated by random regression methods||||<0.05
92314367|NCT01128179|184532310|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.7||||0.1459|TWO_SIDED|95.0|-8.845|1.403||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of Urinary Fractional Excretion of Phosphate at Week 12 (LOCF) when utilizing an analysis of covariance (ANCOVA) with treatment as a factor and the baseline Urinary Fractional Excretion of Phosphate as a covariate. The study was not powered for the analysis of this parameter.||1.403|-8.845|0.1459
92314368|NCT01128179|184532311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.0297||||0.6134|TWO_SIDED|95.0|-0.1492|0.0897||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of Serum Phosphate at Week 12 (LOCF) in an analysis of covariance (ANCOVA) with treatment as a factor and the baseline Serum Phosphate as a covariate. The study was not powered for the analysis of this parameter||0.0897|-0.1492|0.6134
92314369|NCT01128179|184532312|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0294||||0.5636|TWO_SIDED|95.0|-0.0739|0.1328||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of Serum Total Calcium at Week 12 (LOCF) in an analysis of covariance (ANCOVA) with treatment as a factor and the baseline Serum Total Calcium as a covariate. The study was not powered for the analysis of this parameter.||0.1328|-0.0739|0.5636
92314370|NCT01128179|184532313|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.0129||||0.922|TWO_SIDED|95.0|-0.2811|0.2553||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of Calcium-Phosphate Product at Week 12 (LOCF) in an analysis of covariance (ANCOVA) with treatment as a factor and the baseline Calcium-Phosphate Product as a covariate.||0.2553|-0.2811|0.9220
92314371|NCT02694328|184532316|SUPERIORITY||Least Squares Mean Difference|-2.38|STANDARD_ERROR_OF_MEAN|0.765||0.003|TWO_SIDED|95.0|-3.88|-0.88||P-value was adjusted using the Cui, Hung, and Wang (CHW) method to account for the unblinded interim analysis for sample size re-estimation.|ANCOVA|Missing values at Week 24 were imputed using multiple imputation.||||-0.88|-3.88|0.003
92314372|NCT02694328|184532317|SUPERIORITY||Risk Difference (RD)|-13.7||||0.003|TWO_SIDED|95.0|-22.8|-4.6||P-value was adjusted using the CHW method to account for the unblinded interim analysis for sample size re-estimation.|Regression, Logistic|Missing values at Week 24 were imputed using multiple imputation.|Risk difference (RD) of ALKS 3831 vs. Olanzapine|||-4.6|-22.8|0.003
92314373|NCT02694328|184532318|SUPERIORITY||Risk Difference (RD)|-15.9||||0.001|TWO_SIDED|95.0|-25.3|-6.5|||Regression, Logistic|Missing values at Week 24 were imputed using multiple imputation.|Risk difference (RD) ALKS 3831 vs. Olanzapine|||-6.5|-25.3|0.001
92314374|NCT03511105|184532325|OTHER||Absolute Difference|-30.46|STANDARD_ERROR_OF_MEAN|48.662|||TWO_SIDED|95.0|-127.07|65.51|||||Absolute difference (GSK2798745 - Placebo) and 95% CrI has been presented.|||65.51|-127.07|
92314375|NCT03511105|184532325|OTHER||Percentage change|8.73|STANDARD_ERROR_OF_MEAN|13.453|||TWO_SIDED|95.0|-21.41|31.3|||||Percentage change on GSK2798745 relative to placebo has been presented.|||31.30|-21.41|
92314376|NCT03511105|184532326|OTHER||Absolute Difference|-4.26|STANDARD_ERROR_OF_MEAN|13.679|||TWO_SIDED|95.0|-31.49|22.87|||||Absolute difference (GSK2798745 - Placebo) and 95% CrI have been presented.|||22.87|-31.49|
92314377|NCT03511105|184532326|OTHER||Percentage change|7.31|STANDARD_ERROR_OF_MEAN|22.837|||TWO_SIDED|95.0|-48.2|41.64|||||Percentage change on GSK2798745 relative to placebo has been presented.|||41.64|-48.20|
92314378|NCT03511105|184532327|OTHER||Absolute Difference|-0.06|STANDARD_ERROR_OF_MEAN|3.178|||TWO_SIDED|95.0|-6.28|6.2|||||Absolute difference (GSK2798745 - Placebo) and 95% CrI have been presented.|||6.20|-6.28|
92314379|NCT03511105|184532327|OTHER||Percentage change|0.1|STANDARD_ERROR_OF_MEAN|5.429|||TWO_SIDED|95.0|-11.15|10.16|||||Percentage change on GSK2798745 relative to placebo has been presented.|||10.16|-11.15|
92314380|NCT02810457|184532351|EQUIVALENCE|A 90% CI for the ORR ratio between FKB238 and Avastin was estimated and compared to the margin (0.73 to 1.38), which was deemed to represent a clinically acceptable difference with respect to ORR. If the 90% CI was within the equivalence margin (0.73 to 1.38), an equivalence between FKB238 and Avastin, with respect to the ORR, was confirmed.|Ratio in ORR|0.96|||||TWO_SIDED|90.0|0.86|1.08||||||||1.08|0.86|
92314381|NCT02810457|184532352|OTHER|Ratio in ORR analysis of FKB238 versus Avastin.|Ratio in ORR|0.94|||||TWO_SIDED|90.0|0.83|1.06||||||Comparison between groups: Risk ratio in ORR at Week 19 by BICR.||1.06|0.83|
92314382|NCT02810457|184532353|OTHER|Hazard ratio analysis of FKB238 versus Avastin.|Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.82|1.16|||||Treatment hazard ratio \<1 favors FKB238.|Hazard ratio and its 95% CI were calculated using the Cox regression model adjusting for baseline characteristics (randomization stratification factors, Eastern Cooperative Oncology Group (ECOG) performance status at baseline, gender, smoking history and age) with ties handled by the Efron method.||1.16|0.82|
92314383|NCT02810457|184532354|OTHER|Hazard ratio analysis of FKB238 versus Avastin.|Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.96|1.45|||||Treatment hazard ratio \<1 favors FKB238.|Hazard ratio and its 95% CI were calculated using the Cox regression model adjusting for baseline characteristics (randomization stratification factors, ECOG performance status at baseline, gender, smoking history and age) with ties handled by the Efron method.||1.45|0.96|
92314384|NCT02810457|184532355|OTHER|Hazard ratio analysis of FKB238 versus Avastin.|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.74|1.23|||||Treatment hazard ratio \<1 favors FKB238.|Hazard ratio and its 95% CI were calculated using the Cox regression model adjusting for baseline characteristics (randomization stratification factors, ECOG performance status at baseline, gender, smoking history and age) with ties handled by the Efron method.||1.23|0.74|
92314385|NCT02810457|184532356|OTHER|Comparison between arms: Odds ratio.|Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.64|1.58|||||Odds ratio \>1 favors FKB238.|The DCR was compared between treatment arms using logistic regression adjusting for baseline characteristics (randomization stratification factors, ECOG performance status at baseline, gender, smoking history and age).||1.58|0.64|
92314386|NCT02750618|184532391|SUPERIORITY||Least Squares Mean Difference|0.96|||<|0.0001|TWO_SIDED|95.0|0.73|1.19|||GEE model|||||1.19|0.73|< 0.0001
92314387|NCT02750618|184532393|SUPERIORITY||Difference in LS Means|2.21|||<|0.0001|TWO_SIDED|95.0|2.07|2.35|||GEE model|||||2.35|2.07|< 0.0001
92314388|NCT02750618|184532394|SUPERIORITY||Difference in LS Means|2.23|||<|0.0001|TWO_SIDED|95.0|2.01|2.45|||GEE model|||The GEE model includes the RGI-C score as the dependent variable, visit as a factor, age and RSS at baseline as covariates, with exchangeable covariance structure. The least squares (LS) mean, standard error (SE), 95% confidence interval (CI) and 2-sided p-value are from the GEE model.||2.45|2.01|< 0.0001
92314389|NCT02750618|184532395|SUPERIORITY||Difference in LS Means|-1.75|||<|0.0001|TWO_SIDED|95.0|-1.98|-1.53|||GEE model|||||-1.53|-1.98|< 0.0001
92314390|NCT02750618|184532396|SUPERIORITY||Difference in LS Means|-2.02|||<|0.0001|TWO_SIDED|95.0|-2.25|-1.8||The GEE model includes the change from baseline in RSS as the dependent variable, visit as a factor, age and RSS at baseline as covariates, with exchangeable covariance structure.|GEE model|||||-1.80|-2.25|< 0.0001
92314391|NCT02750618|184532397|SUPERIORITY||Difference in LS Means|1.21|||<|0.0001|TWO_SIDED|95.0|0.9|1.51|||GEE model|||||1.51|0.90|< 0.0001
92314392|NCT02750618|184532398|SUPERIORITY||Difference in LS Means|1.51|||<|0.0001|TWO_SIDED|95.0|1.27|1.76||The GEE model includes the RGI-C score as the dependent variable, visit as a factor, age and RSS at baseline as covariates, with exchangeable covariance structure. The LS Mean, SE, 95% CI and 2-sided p-value are from the GEE model.|GEE|||||1.76|1.27|< 0.0001
92314393|NCT02750618|184532402|SUPERIORITY||Difference in LS Means|-82.91||||0.0004|TWO_SIDED|95.0|-128.68|-37.15|||GEE model|||Week 4||-37.15|-128.68|0.0004
92314394|NCT02750618|184532402|SUPERIORITY||Difference in LS Means|-83.84||||0.064|TWO_SIDED|95.0|-172.55|4.88|||GEE model|||Week 12||4.88|-172.55|0.0640
92314395|NCT02750618|184532402|SUPERIORITY||Difference in LS Means|-161.38|||<|0.0001|TWO_SIDED|95.0|-186.7|-136.05|||GEE model|||Week 20||-136.05|-186.70|< 0.0001
92314396|NCT02750618|184532402|SUPERIORITY||Difference in LS Means|-214.99|||<|0.0001|TWO_SIDED|95.0|-241.7|-188.28|||GEE model|||Week 40||-188.28|-241.70|< 0.0001
92314397|NCT02750618|184532402|SUPERIORITY||Difference in LS Means|-226.58|||<|0.0001|TWO_SIDED|95.0|-249.11|-204.06|||GEE model|||Week 48||-204.06|-249.11|< 0.0001
92314398|NCT02750618|184532402|SUPERIORITY||Difference in LS Means|-216.45|||<|0.0001|TWO_SIDED|95.0|-248.13|-184.77|||GEE model|||Week 56||-184.77|-248.13|< 0.0001
92314399|NCT02750618|184532402|SUPERIORITY||Difference in LS Means|-216.76|||<|0.0001|TWO_SIDED|95.0|-241.66|-191.86|||GEE model|||Week 64||-191.86|-241.66|< 0.0001
92314400|NCT02750618|184532402|SUPERIORITY||LS Mean|-231.22|||<|0.0001|TWO_SIDED|95.0|-262.51|-199.93|||GEE|||Week 76||-199.93|-262.51|< 0.0001
92314401|NCT02750618|184532402|SUPERIORITY||LS Mean|-237.78|||<|0.0001|TWO_SIDED|95.0|-262.94|-212.62|||GEE|||Week 88||-212.62|-262.94|< 0.0001
92314402|NCT02750618|184532402|SUPERIORITY||LS Mean|-218.14|||<|0.0001|TWO_SIDED|95.0|-248.21|-188.08|||GEE|||Week 100||-188.08|-248.21|< 0.0001
92314403|NCT02750618|184532402|SUPERIORITY||LS Mean|-233.91|||<|0.0001|TWO_SIDED|95.0|-255.66|-212.16|||GEE|||Week 112||-212.16|-255.66|< 0.0001
92314404|NCT02750618|184532402|SUPERIORITY||LS Mean|-252.22|||<|0.0001|TWO_SIDED|95.0|-268.51|-235.93|||GEE|||Week 124||-235.93|-268.51|< 0.0001
92314405|NCT02750618|184532402|SUPERIORITY||LS Mean|-267.89|||<|0.0001|TWO_SIDED|95.0|-293.61|-242.16|||GEE|||Week 136||-242.16|-293.61|< 0.0001
92314406|NCT02750618|184532402|SUPERIORITY||LS Mean|-248.05|||<|0.0001|TWO_SIDED|95.0|-272.85|-223.25|||GEE|||Week 148||-223.25|-272.85|< 0.0001
92314407|NCT02750618|184532402|SUPERIORITY||LS Mean|-248.47|||<|0.0001|TWO_SIDED|95.0|-270.01|-226.93|||GEE|||Week 160||-226.93|-270.01|< 0.0001
92314408|NCT00276484|184532410|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.3|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|-19.4|-13.2|||ANCOVA|Model terms: treatment and baseline LDL-C value||||-13.2|-19.4|<0.001
92314409|NCT00276484|184532411|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.8||0.551||95.0|-1.1|2.1|||ANCOVA|Model terms: treatment and baseline HDL-C value||||2.1|-1.1|0.551
92314410|NCT00276484|184532412|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-17.1|-11.6|||ANCOVA|Model terms: treatment and baseline non-HDL-C value||||-11.6|-17.1|<0.001
92314411|NCT00276484|184532413|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.0|STANDARD_ERROR_OF_MEAN|1.0|<|0.001||95.0|-12.0|-7.9|||ANCOVA|Model terms: treatment and baseline Total-C value||||-7.9|-12.0|<0.001
92314412|NCT00276484|184532414|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-7.3|||<|0.001||95.0|-11.5|-3.1|||Nonparametric ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment and baseline triglycerides value.|The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic.|||-3.1|-11.5|<0.001
92314413|NCT00276484|184532415|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.1|STANDARD_ERROR_OF_MEAN|1.3|<|0.001||95.0|-12.7|-7.6|||ANCOVA|Model terms: treatment and baseline Apo B value||||-7.6|-12.7|<0.001
92314414|NCT00276484|184532416|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.8||0.313||95.0|-0.8|2.5|||ANCOVA|Model terms: treatment and baseline Apo A-I value||||2.5|-0.8|0.313
92314415|NCT00276484|184532417|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|1.1|<|0.001||95.0|-12.6|-8.2|||ANCOVA|Model terms: treatment and baseline Total-C:HDL-C value||||-8.2|-12.6|<0.001
92314416|NCT00276484|184532418|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.5|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-19.9|-13.1|||ANCOVA|Model terms: treatment and baseline LDL-C:HDL-C value||||-13.1|-19.9|<0.001
92314417|NCT00276484|184532419|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.0|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-13.8|-8.2|||ANCOVA|Model terms: treatment and baseline Apo B:Apo A-I value||||-8.2|-13.8|<0.001
92314418|NCT00276484|184532420|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.5|STANDARD_ERROR_OF_MEAN|-1.6|<|0.001||95.0|-17.7|-11.3|||ANCOVA|Model terms: treatment and baseline non-HDL-C:HDL-C value||||-11.3|-17.7|<0.001
92314419|NCT00276484|184532421|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.8||||0.174||95.0|-17.1|3.4|||Longitudinal Data Analysis (LDA)|LDA method of Liang and Zeger with model terms: treatment, time, and the interaction of time by treatment.|Data for analysis was transformed by the natural log and the difference in geometric mean % change from BL calculated based on the difference in the back-transformed least squares means.|||3.4|-17.1|0.174
92314420|NCT00276484|184532422|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.37|||<|0.001||95.0|5.45|12.84|||Regression, Logistic|Model terms: treatment and baseline LDL-C value||||12.84|5.45|<0.001
92314421|NCT01608100|184532427|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9326|||||TWO_SIDED|95.0|0.9048|0.9604||||||Time point: 0-2 hours||0.9604|0.9048|
92314422|NCT01608100|184532427|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9431|||||TWO_SIDED|95.0|0.9081|0.9782||||||Time point: 2-4 hours||0.9782|0.9081|
92314423|NCT01608100|184532427|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9503|||||TWO_SIDED|95.0|0.9419|0.9857||||||Time point: 4-9 hours||0.9857|0.9419|
92314424|NCT01608100|184532427|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9197|||||TWO_SIDED|95.0|0.8914|0.948||||||Time point: 0-2 hours||0.9480|0.8914|
92314425|NCT01608100|184532427|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9349|||||TWO_SIDED|95.0|0.8986|0.9712||||||Time point: 2-4 hours||0.9712|0.8986|
92314426|NCT01608100|184532427|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9498|||||TWO_SIDED|95.0|0.919|0.9805||||||Time point: 4-9 hours||0.9805|0.9190|
92314427|NCT01608100|184532427|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9412|||||TWO_SIDED|95.0|0.9102|0.9722||||||Time point: 0-2 hours||0.9722|0.9102|
92314428|NCT01608100|184532427|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9419|||||TWO_SIDED|95.0|0.9041|0.9796||||||Time point: 2-4 hours||0.9796|0.9041|
92314429|NCT01608100|184532427|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9449|||||TWO_SIDED|95.0|0.9046|0.9852||||||Time point: 4-9 hours||0.9852|0.9046|
92314430|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|7.0||||0.0004|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||0.0004
92314431|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|2.31||||0.0004|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||0.0004
92314432|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.09||||0.0011|TWO_SIDED|95.0|1.59|5.95||Likelihood Ratio|Regression, Cox|||Hazard Ratio||5.95|1.59|0.0011
92191483|NCT02963922|184281862|SUPERIORITY|The treatment policy estimand evaluated the treatment effect (liraglutide 3.0 mg vs placebo) at week 56 for all randomised participants regardless of premature discontinuation of trial product.|Treatment difference|-4.32|STANDARD_ERROR_OF_MEAN|0.59|<|0.0001|TWO_SIDED|95.0|-5.48|-3.16|||ANCOVA||Liraglutide 3.0 mg - placebo|Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using an analysis of covariance model with treatment, body mass index (BMI) groups and sex as factors and baseline body weight as covariate.||-3.16|-5.48|< .0001
92267941|NCT01102972|184437747|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be established between the two arms if the lower limit of the 2-sided 95% confidence interval (CI) for the difference in the percentage of participants with HIV-1 RNA \<50 copies/mL at Week 24 was -12% or greater.|Treatment difference of proportions|0.33||||0.937||95.0|-7.97|8.64||The p-value was obtained from the Cochran-Mantel-Haenszel method stratified by initial antiretroviral regimen.|Cochran-Mantel-Haenszel||95% confidence intervals were calculated (using Mantel-Haenszel weight) stratified by initial antiretroviral regimen.|||8.64|-7.97|0.937
92267942|NCT01360021|184437779|SUPERIORITY_OR_OTHER||Estimated Geometic Mean Ratio|1.1||||0.001|TWO_SIDED|95.0|1.06|1.14|||ANCOVA|ANCOVA model on the log transformed outcome variable with treatment and country as factor, and log transformed baseline FEV1 (pre-dose) as covariate.|Symbicort AC pMDI 2x160/4.5 µg bid vs Budesonide AC pMDI 2x160 µg bid|The comparison of Symbicort AC pMDI 2x160/4.5 µg bid with budesonide AC pMDI 2x160 µg bid for post dose FEV1||1.14|1.06|0.001
92267943|NCT01360021|184437779|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a standard deviation of 0.2 (for pre dose FEV1) on the log-scale and 60 patients/arm, the width of the confidence interval will extend 0.072 from the point estimate on the log-scale. The lower and upper limits of the CI for the ratio of effects will thus be obtained by multiplying the estimated ratio by 0.931 and 1.075, respectively.|Estimated Geometric Mean Ratio|1.01|||||TWO_SIDED|95.0|0.97|1.05|||ANCOVA|ANCOVA model on the log transformed outcome variable with treatment and country as factor, and log transformed baseline FEV1 (pre-dose) as covariate.|The comparisons was used to assess therapeutic equivalence of Symbicort AC pMDI and Symbicort BA MDI. Assay sensitivity was demonstrated before proceeding to assess therapeutic equivalence of the 2 Symbicort products.|The comparisons of Symbicort BA MDI 2x160/4.5 µg bid with Symbicort AC pMDI 2x160/4.5 µg bid for post dose FEV1.||1.05|0.97|
92267944|NCT01360021|184437780|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a standard deviation of 0.2 (for pre dose FEV1) on the log-scale and 60 patients/arm, the width of the confidence interval will extend 0.072 from the point estimate on the log-scale. The lower and upper limits of the CI for the ratio of effects will thus be obtained by multiplying the estimated ratio by 0.931 and 1.075, respectively.|Estimated Geometric Mean Ratio|1.03|||||TWO_SIDED|95.0|0.99|1.08|||ANCOVA|ANCOVA model on the log transformed outcome variable with treatment and country as factor, and log transformed baseline FEV1 (pre-dose) as covariate.|The comparisons was used to assess therapeutic equivalence of Symbicort AC pMDI and Symbicort BA MDI. Assay sensitivity was demonstrated before proceeding to assess therapeutic equivalence of the 2 Symbicort products.|The comparisons of Symbicort BA MDI 2x160/4.5 µg bid with Symbicort AC pMDI 2x160/4.5 µg bid, for pre-dose FEV1.||1.08|0.99|
92267945|NCT01360021|184437781|NON_INFERIORITY_OR_EQUIVALENCE|No adjustment were be made for multiplicity for these supportive variables and nominal p-values were reported.|Mean Difference (Net)|1.49|STANDARD_ERROR_OF_MEAN|6.75||0.825|TWO_SIDED|95.0|-11.81|14.8|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.|Secondary efficacy variables were analyzed as continuous data, comparing mean changes from baseline to the average of the double-blind treatment period between treatments. No adjustment were made for multiplicity and nominal p-values were reported.|Morning peak expiratory flow (mPEF): Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort BA MDI 2x160/4.5 μg bid and Symbicort AC pMDI 2x160/4.5 µg bid||14.80|-11.81|0.825
92267946|NCT01360021|184437781|SUPERIORITY_OR_OTHER||Mean Difference (Net)|33.52|STANDARD_ERROR_OF_MEAN|6.8||0.001|TWO_SIDED|95.0|20.11|46.93|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.|Secondary efficacy variables were analyzed as continuous data, comparing mean changes from baseline to the average of the double-blind treatment period between treatments. No adjustment were made for multiplicity and nominal p-values were reported.|Morning peak expiratory flow (mPEF): Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort AC pMDI 2x160/4.5 µg bid minus Budesonide AC pMDI 2x160 µg bid||46.93|20.11|0.001
92267947|NCT01360021|184437781|NON_INFERIORITY_OR_EQUIVALENCE|No adjustment were made for multiplicity for these supportive variables and nominal p-values were reported.|Mean Difference (Net)|1.48|STANDARD_ERROR_OF_MEAN|6.15||0.81|TWO_SIDED|95.0|-10.66|13.61|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.|Secondary efficacy variables were analyzed as continuous data, comparing mean changes from baseline to the average of the double-blind treatment period between treatments. No adjustment were made for multiplicity and nominal p-values were reported.|Evening peak expiratory flow (ePEF): Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort BA MDI 2x160/4.5 μg bid and Symbicort AC pMDI 2x160/4.5 µg bid.||13.61|-10.66|0.810
92267948|NCT01360021|184437781|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.25|STANDARD_ERROR_OF_MEAN|6.21||0.001|TWO_SIDED|95.0|20.01|44.49|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.|Secondary efficacy variables were analyzed as continuous data, comparing mean changes from baseline to the average of the double-blind treatment period between treatments. No adjustment were made for multiplicity and nominal p-values were reported.|Evening peak expiratory flow (ePEF): Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort AC pMDI 2x160/4.5 µg bid and Budesonide AC pMDI 2x160 µg bid.||44.49|20.01|0.001
92267949|NCT01360021|184437782|NON_INFERIORITY_OR_EQUIVALENCE|No adjustment were made for multiplicity for these supportive variables and nominal p-values were reported.|Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.11||0.272|TWO_SIDED|95.0|-0.1|0.35|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.||Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort BA MDI 2x160/4.5 μg bid and Symbicort AC pMDI 2x160/4.5 µg bid.||0.35|-0.10|0.272
92314433|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|12.76|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||<0.0001
92314434|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|3.65|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||<0.0001
92314435|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.65|||<|0.0001|TWO_SIDED|95.0|2.21|6.05||Likelihood Ratio|Regression, Cox|||Hazard Ratio||6.05|2.21|<0.0001
92314436|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|7.17|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||<0.0001
92314437|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|2.07|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||<0.0001
92314438|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.54||||0.0002|TWO_SIDED|95.0|1.84|6.87||Likelihood Ratio|Regression, Cox|||Hazard Ratio||6.87|1.84|0.0002
92314439|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|12.83|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||<0.0001
92314440|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|3.66|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||<0.0001
92191484|NCT02963922|184281862|SUPERIORITY|The hypothetical estimand evaluated the treatment effect (liraglutide 3.0 mg vs placebo) for all randomised participants assuming that all participants remained on trial product (on-treatment principle).|Treatment difference|-5.1|STANDARD_ERROR_OF_MEAN|0.61|<|0.0001|TWO_SIDED|95.0|-6.3|-3.91|||MMRM||Liraglutide 3.0 mg - placebo|Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups and sex as factors and baseline body weight as covariate, all nested within visit.||-3.91|-6.30|< .0001
92191485|NCT02963922|184281863|SUPERIORITY||Odds Ratio (OR)|3.41|||<|0.0001|TWO_SIDED|95.0|2.19|5.31|||Regression, Logistic||Liraglutide 3.0 mg/Placebo|Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using a logistic regression model with treatment, BMI groups and sex as factors and baseline body weight as covariate.||5.31|2.19|<.0001
92314441|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.68|||<|0.0001|TWO_SIDED|95.0|2.25|6.05||Likelihood Ratio|Regression, Cox|||Hazard Ratio||6.05|2.25|<0.0001
92314442|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|6.07||||0.002|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||0.0020
92314443|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|2.09||||0.002|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||0.0020
92314444|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.95||||0.005|TWO_SIDED|95.0|1.41|6.05||Likelihood Ratio|Regression, Cox|||Hazard Ratio||6.05|1.41|0.0050
92314445|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|12.15|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||<0.0001
92314446|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Proportion Percentage|3.57|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||<0.0001
92314447|NCT01608100|184532428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.55|||<|0.0001|TWO_SIDED|95.0|2.08|6.03||Likelihood Ratio|Regression, Cox|||Hazard Ratio||6.03|2.08|<0.0001
92314448|NCT01608100|184532429|SUPERIORITY_OR_OTHER||Percent Sensitivity|84.44|||||TWO_SIDED|95.0|75.28|91.23||||||Time point: 0-2 hours||91.23|75.28|
92314449|NCT01608100|184532429|SUPERIORITY_OR_OTHER||Percent Sensitivity|92.21|||||TWO_SIDED|83.81|83.81|97.09||||||Time point: 2-4 hours||97.09|83.81|
92314450|NCT01608100|184532429|SUPERIORITY_OR_OTHER||Percent Sensitivity|93.9|||||TWO_SIDED|95.0|86.34|97.99||||||Time point: 4-9 hours||97.99|86.34|
92314451|NCT01608100|184532429|SUPERIORITY_OR_OTHER||Percent Sensitivity|85.26|||||TWO_SIDED|95.0|76.51|91.7||||||Time point: 0-2 hours||91.70|76.51|
92314452|NCT01608100|184532429|SUPERIORITY_OR_OTHER||Percent Sensitivity|91.86|||||TWO_SIDED|95.0|83.95|96.66||||||Time point: 2-4 hours||96.66|83.95|
92314453|NCT01608100|184532429|SUPERIORITY_OR_OTHER||Percent Sensitivity|94.95|||||TWO_SIDED|95.0|88.61|98.34||||||Time point: 4-9 hours||98.34|88.61|
92314454|NCT01608100|184532429|SUPERIORITY_OR_OTHER||Percent Sensitivity|87.32|||||TWO_SIDED|95.0|77.3|94.04||||||Time point: 0-2 hours||94.04|77.30|
92314455|NCT01608100|184532429|SUPERIORITY_OR_OTHER||Percent Sensitivity|92.0|||||TWO_SIDED|95.0|83.4|97.01||||||Time point: 2-4 hours||97.01|83.40|
92314456|NCT01608100|184532429|SUPERIORITY_OR_OTHER||Percent Sensitivity|93.15|||||TWO_SIDED|95.0|84.74|97.74||||||Time point: 4-9 hours||97.74|84.74|
92314457|NCT01608100|184532430|SUPERIORITY_OR_OTHER||Percent Specificity|85.73|||||TWO_SIDED|95.0|83.18|88.03||||||Time point: 0-2 hours||88.03|83.18|
92314458|NCT01608100|184532430|SUPERIORITY_OR_OTHER||Percent Specificity|85.2|||||TWO_SIDED|95.0|82.66|87.5||||||Time point: 2-4 hours||87.50|82.66|
92314459|NCT01608100|184532430|SUPERIORITY_OR_OTHER||Percent Specificity|82.82|||||TWO_SIDED|95.0|79.99|85.4||||||Time point: 4-9 hours||85.40|79.99|
92314460|NCT01608100|184532430|SUPERIORITY_OR_OTHER||Percent Specificity|83.76|||||TWO_SIDED|95.0|81.12|86.17||||||Time point: 0-2 hours||86.17|81.12|
92314461|NCT01608100|184532430|SUPERIORITY_OR_OTHER||Percent Specificity|83.72|||||TWO_SIDED|95.0|81.09|86.11||||||Time point: 2-4 hours||86.11|81.09|
92191486|NCT02963922|184281863|SUPERIORITY||Odds Ratio (OR)|4.73|||<|0.0001|TWO_SIDED|95.0|3.04|7.36|||Mixed model for repeated measurements||Liraglutide 3.0 mg/Placebo|Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups and sex as factors and baseline body weight as covariate, all nested within visit. The MMRM was used to classify responders and analysed with a logistic regression with treatment as the only factor.||7.36|3.04|<.0001
92191487|NCT02181400|184281908|OTHER|||||||0.04|||||||ANCOVA|||||||0.04
92191488|NCT02181400|184281909|OTHER|||||||0.04|||||||ANCOVA|||||||0.04
92191489|NCT02181400|184281910|OTHER|||||||0.12|||||||ANCOVA|||||||0.12
92314462|NCT01608100|184532430|SUPERIORITY_OR_OTHER||Percent Specificity|80.72|||||TWO_SIDED|95.0|77.82|83.39||||||Time point: 4-9 hours||83.39|77.82|
92314463|NCT01608100|184532430|SUPERIORITY_OR_OTHER||Percent Specificity|86.35|||||TWO_SIDED|95.0|83.79|88.63||||||Time point: 0-2 hours||88.63|83.79|
92314464|NCT01608100|184532430|SUPERIORITY_OR_OTHER||Percent Specificity|85.81|||||TWO_SIDED|95.0|83.31|88.07||||||Time point: 2-4 hours||88.07|83.31|
92314465|NCT01608100|184532430|SUPERIORITY_OR_OTHER||Percent Specificity|84.05|||||TWO_SIDED|95.0|81.31|86.54||||||Time point: 4-9 hours||86.54|81.31|
92314466|NCT01608100|184532431|SUPERIORITY_OR_OTHER||Negative Predictive Value|98.1|||||TWO_SIDED|95.0|96.82|98.95||||||Time point: 0-2 hours||98.95|96.82|
92314467|NCT01608100|184532431|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.19|||||TWO_SIDED|95.0|98.25|99.7||||||Time point: 2-4 hours||99.70|98.25|
92314468|NCT01608100|184532431|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.23|||||TWO_SIDED|95.0|98.22|99.75||||||Time point: 4-9 hours||99.75|98.22|
92314469|NCT01608100|184532431|SUPERIORITY_OR_OTHER||Negative Predictive Value|98.08|||||TWO_SIDED|95.0|96.81|98.95||||||Time point: 0-2 hours||98.95|96.81|
92314470|NCT01608100|184532431|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.05|||||TWO_SIDED|95.0|98.05|99.62||||||Time point: 2-4 hours||99.62|98.05|
92314471|NCT01608100|184532431|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.24|||||TWO_SIDED|95.0|98.22|99.75||||||Time point: 4-9 hours||99.75|98.22|
92314472|NCT01608100|184532431|SUPERIORITY_OR_OTHER||Negative Predictive Value|98.73|||||TWO_SIDED|95.0|97.61|99.42||||||Time point: 0-2 hours||99.42|97.61|
92314473|NCT01608100|184532431|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.2|||||TWO_SIDED|95.0|98.27|99.71||||||Time point: 2-4 hours||99.71|98.27|
92314474|NCT01608100|184532431|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.25|||||TWO_SIDED|95.0|98.26|99.76||||||Time point: 4-9 hours||99.76|98.26|
92314475|NCT01608100|184532432|SUPERIORITY_OR_OTHER||Positive Predictive Value|38.78|||||TWO_SIDED|95.0|31.92|45.98||||||Time point: 0-2 hours||45.98|31.92|
92314476|NCT01608100|184532432|SUPERIORITY_OR_OTHER||Positive Predictive Value|35.68|||||TWO_SIDED|95.0|29.03|42.76||||||Time point: 2-4 hours||42.76|29.03|
92314477|NCT01608100|184532432|SUPERIORITY_OR_OTHER||Positive Predictive Value|36.49|||||TWO_SIDED|95.0|29.99|43.38||||||Time point: 4-9 hours||43.38|29.99|
92314478|NCT01608100|184532432|SUPERIORITY_OR_OTHER||Positive Predictive Value|36.82|||||TWO_SIDED|95.0|30.43|43.56||||||Time point: 0-2 hours||43.56|30.43|
92314479|NCT01608100|184532432|SUPERIORITY_OR_OTHER||Positive Predictive Value|35.75|||||TWO_SIDED|95.0|29.43|42.45||||||Time point: 2-4 hours||42.45|29.43|
92314480|NCT01608100|184532432|SUPERIORITY_OR_OTHER||Positive Predictive Value|37.75|||||TWO_SIDED|95.0|31.71|44.09||||||Time point: 4-9 hours||44.09|31.71|
92314481|NCT01608100|184532432|SUPERIORITY_OR_OTHER||Positive Predictive Value|35.84|||||TWO_SIDED|95.0|28.7|43.47||||||Time point: 0-2 hours||43.47|28.70|
92314482|NCT01608100|184532432|SUPERIORITY_OR_OTHER||Positive Predictive Value|35.94|||||TWO_SIDED|95.0|29.16|43.16||||||Time point: 2-4 hours||43.16|29.16|
92314483|NCT01608100|184532432|SUPERIORITY_OR_OTHER||Positive Predictive Value|35.05|||||TWO_SIDED|95.0|28.36|42.21||||||Time point: 4-9 hours||42.21|28.36|
92314484|NCT04055740|184532440|SUPERIORITY|||||||0.2201|||||||Spearman Correlation Coefficient|This test measures correlation of avg ILA grade per patient with total time of lead extraction. Average ILA grade of all patients in outcome measures.||H0: rho = 0 Spearman correlation coefficient calculated between average ILA grade and total time of lead extraction||||0.2201
92314485|NCT04055740|184532440|SUPERIORITY|||||||0.5157|||||||Spearman Correlation Coefficient|This measures correlation of avg ILA grade per patient with total laser pulsations used for extraction. Avg ILA grade of patients in outcome measures.||H0: rho = 0 Spearman Correlation coefficient calculated between average ILA grades and laser pulsations||||0.5157
92191490|NCT02181400|184281911|OTHER|||||||0.32|||||||ANCOVA|||||||0.32
92191491|NCT02181400|184281912|OTHER|||||||0.02|||||||ANCOVA|||||||0.02
92314486|NCT00116779|184532465|SUPERIORITY_OR_OTHER||Percentage of participants|86.0||||||95.0|73.0|94.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||94|73|
92314487|NCT00116779|184532465|SUPERIORITY_OR_OTHER||Percentage of participants|77.0||||||95.0|64.0|88.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||88|64|
92314488|NCT00116779|184532466|SUPERIORITY_OR_OTHER||Percentage of participants|90.0||||||95.0|79.0|96.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||96|79|
92314489|NCT00116779|184532466|SUPERIORITY_OR_OTHER||Percentage of participants|89.0||||||95.0|78.0|95.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||95|78|
92314490|NCT00116779|184532466|SUPERIORITY_OR_OTHER|||||||0.8413||95.0|||||Chi-squared|||||||0.8413
92314491|NCT00116779|184532467|SUPERIORITY_OR_OTHER||Percentage of participants|93.0||||||95.0|82.0|99.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||99|82|
92314492|NCT00116779|184532467|SUPERIORITY_OR_OTHER||Percentage of participants|98.0||||||95.0|87.0|100.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||100|87|
92314493|NCT00116779|184532468|SUPERIORITY_OR_OTHER|||||||0.904||95.0|||||Log Rank|||Time to 50% reduction||||.904
92314494|NCT00116779|184532468|SUPERIORITY_OR_OTHER|||||||0.778||95.0|||||Log Rank|||Days to 90% reduction||||.778
92314495|NCT01690117|184532478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.47|STANDARD_ERROR_OF_MEAN|1.83|<|0.001|TWO_SIDED|95.0|3.82|11.12||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||11.12|3.82|<0.001
92314496|NCT01690117|184532479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.43|STANDARD_ERROR_OF_MEAN|2.21|<|0.05|TWO_SIDED|95.0|1.0|9.86||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||9.86|1.00|<0.05
92314497|NCT01690117|184532480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.99|STANDARD_ERROR_OF_MEAN|1.0|<|0.01|TWO_SIDED|95.0|1.01|4.97||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||4.97|1.01|<0.01
92314498|NCT01690117|184532481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|0.87||0.06|TWO_SIDED|95.0|-0.05|3.45||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||3.45|-0.05|0.06
92314499|NCT01690117|184532482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|1.22||0.3|TWO_SIDED|95.0|-0.65|2.07||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||2.07|-0.65|0.30
92191492|NCT02181400|184281913|OTHER|||||||0.49|||||||ANCOVA|||||||0.49
92267950|NCT01360021|184437783|NON_INFERIORITY_OR_EQUIVALENCE|No adjustment were made for multiplicity for these supportive variables and nominal p-values were reported.|Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|2.69||0.025|TWO_SIDED|95.0|-11.41|-0.79|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.||Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort BA MDI 2x160/4.5 μg bid and Symbicort AC pMDI 2x160/4.5 µg bid.||-0.79|-11.41|0.025
92191493|NCT03873038|184281940|OTHER|Geometric mean ratio (GMR) was derived using the geometric mean (GM) for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).|GMR|0.8|||||TWO_SIDED|90.0|0.54|1.18|||||GMR=GM ESRD/GM Healthy|||1.18|0.54|
92191494|NCT03873038|184281940|OTHER|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).|GMR|0.53|||||TWO_SIDED|90.0|0.37|0.76|||||GMR=GM ESRD/GM Healthy|||0.76|0.37|
92191495|NCT03873038|184281940|OTHER||GMR|0.82|||||TWO_SIDED|90.0|0.55|1.21|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.21|0.55|
92267951|NCT01360021|184437784|NON_INFERIORITY_OR_EQUIVALENCE|No adjustment were made for multiplicity for these supportive variables and nominal p-values were reported.|Mean Difference (Net)|0.26|STANDARD_ERROR_OF_MEAN|0.23||0.258|TWO_SIDED|95.0|-0.19|0.71|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.||Comparing mean changes from baseline to the average of the double-blind treatment period between BAI Symbicort BA MDI 2x160/4.5 μg bid and pMDI Symbicort AC pMDI 2x160/4.5 µg bid.||0.71|-0.19|0.258
92267952|NCT02255422|184437819|SUPERIORITY||LS mean difference (net)|-0.015|STANDARD_ERROR_OF_MEAN|0.0446||0.7321|TWO_SIDED|95.0|-0.1051|0.0743||P-Value relates to difference in change in peak work from baseline relative to placebo for all doses pooled. Statistical significance was defined as p\<0.05|Mixed Models Analysis|Null hypothesis: wk 12 mean change from baseline (\[μ RTA 408\] - \[μ Placebo\]) in peak work = 0 w/kg. Positive change from baseline suggests improvement||Primary Objective: To evaluate the change in peak work during maximal exercise testing||0.0743|-0.1051|0.7321
92267953|NCT02255422|184437820|SUPERIORITY||LS mean difference (net)|-33.448|STANDARD_ERROR_OF_MEAN|11.6473||0.006|TWO_SIDED|95.0|-56.855|-10.042||P-value comparison is for difference in change in six minute walk distance from baseline within each dosage group relative to placebo. Statistical significance defined as p\<0.05.|Mixed Models Analysis|The change from baseline in 6MWT was analyzed using the same MMRM model used for the primary efficacy endpoint. Analysis visits 0, 4, 8 and 12 used.||Secondary Objective: To evaluate the change in 6-minute walk test (6MWT) distance at Week 4||-10.042|-56.855|0.0060
92267954|NCT02255422|184437820|SUPERIORITY||LS mean difference (net)|-3.963|STANDARD_ERROR_OF_MEAN|11.53||0.7325|TWO_SIDED|95.0|-27.133|19.207||Statistical significance was defined as p\<0.05. The p-value comparison is for the difference in change in 6MWD from baseline within each dosage group relative to placebo.|Mixed Models Analysis|The change from baseline in 6MWT was analyzed using the same MMRM model used for the primary efficacy endpoint. Analysis visits 0, 4, 8 and 12 used.||Secondary Objective: To evaluate the change in 6-minute walk test (6MWT) distance at Week 8||19.207|-27.133|0.7325
92267955|NCT02255422|184437820|SUPERIORITY||LS mean difference (net)|-18.594|STANDARD_ERROR_OF_MEAN|15.0004||0.221|TWO_SIDED|95.0|-48.739|11.55||Statistical significance was defined as p\<0.05. The p-value comparison is for the difference in change in 6MWD from baseline within each dosage group relative to placebo.|Mixed Models Analysis|The change from baseline in 6MWT was analyzed using the same MMRM model used for the primary efficacy endpoint. Analysis visits 0, 4, 8 and 12 used.||Secondary Objective: To evaluate the change in 6-minute walk test (6MWT) distance at Week 12||11.550|-48.739|0.2210
92267956|NCT03222570|184437821|SUPERIORITY||Estimated mean difference|-0.88||||0.76|TWO_SIDED|95.0|-6.56|4.7|||Regression, Linear||Mean difference estimated from fitting a linear regression model adjusting for baseline value of the measure.|||4.7|-6.56|0.76
92267957|NCT03222570|184437822|SUPERIORITY||Estimated mean difference|-2.52||||0.32|TWO_SIDED|95.0|-7.42|2.3|||Regression, Linear||Mean difference estimated from fitting a linear regression model adjusting for baseline value of the measure.|||2.3|-7.42|0.32
92267958|NCT03179462|184437833|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92267959|NCT04410978|184437872|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|1.061||||0.6691|TWO_SIDED|95.0|0.808|1.393||Threshold for significance at 2-sided 0.05 level.|Chi-squared|||Analysis was performed using negative binomial model with number of adjudicated relapses onset between randomization date and EOS date as the response variable, treatment group, Gadolinium (Gd)-enhancing T1 lesions at baseline (presence, absence), expanded disability status scale (EDSS) strata (\<4, \>=4) and geographic region (United States \[US\], non-US) as covariates, and log transformed observation duration as the offset variable.||1.393|0.808|0.6691
92267960|NCT04410978|184437873|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|0.85||||0.4888|TWO_SIDED|95.0|0.565|1.278||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||1.278|0.565|0.4888
92267961|NCT04410978|184437874|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|0.819||||0.2991|TWO_SIDED|95.0|0.582|1.151||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||1.151|0.582|0.2991
92267962|NCT04410978|184437875|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|1.084||||0.4575|TWO_SIDED|95.0|0.876|1.342|||Chi-squared|||Analysis was performed using negative binomial model with the number of new and/or enlarging T2-hyperintense lesions between randomization date and EOS date as the response variable, treatment group, baseline T2-hyperintense lesion count, EDSS strata (\<4, \>=4) and geographic region (US, non-US) as covariates, and log transformed observation duration as the offset variable.||1.342|0.876|0.4575
92191496|NCT03873038|184281941|OTHER||GMR|1.41|||||TWO_SIDED|90.0|1.07|1.85|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.85|1.07|
92191497|NCT03873038|184281941|OTHER||GMR|0.86|||||TWO_SIDED|90.0|0.67|1.11|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001)||1.11|0.67|
92191498|NCT03873038|184281941|OTHER||GMR|0.82|||||TWO_SIDED|90.0|0.62|1.08|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.08|0.62|
92191499|NCT03873038|184281942|OTHER||GMR|1.11|||||TWO_SIDED|90.0|0.84|1.46|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.46|0.84|
92191500|NCT03873038|184281942|OTHER||GMR|0.68|||||TWO_SIDED|90.0|0.52|0.87|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||0.87|0.52|
92191501|NCT03873038|184281942|OTHER||GMR|0.78|||||TWO_SIDED|90.0|0.6|1.03|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.03|0.60|
92191502|NCT03873038|184281943|OTHER||GMR|1.5|||||TWO_SIDED|90.0|1.05|2.14|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||2.14|1.05|
92191503|NCT03873038|184281943|OTHER||GMR|0.91|||||TWO_SIDED|90.0|0.67|1.25|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.25|0.67|
92314500|NCT01690117|184532483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|1.02||0.24|TWO_SIDED|95.0|-0.66|2.59||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||2.59|-0.66|0.24
92191504|NCT03873038|184281943|OTHER||GMR|0.86|||||TWO_SIDED|90.0|0.62|1.2|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.20|0.62|
92191505|NCT00595764|184281958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|1.4||0.91|TWO_SIDED|95.0|||||ANOVA|||With an effect size of 0.46, a sample size of 140 will provide a power of \>.84 with p\<.05 to detect overall differences between the two treatments on the primary outcome measures.||||.91
92191506|NCT00595764|184281960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|1.32||0.29|TWO_SIDED|95.0|||||t-test, 2 sided|||||||.29
92191507|NCT00595764|184281961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.029||0.58|TWO_SIDED|95.0|||||Mixed Models Analysis|Mixed Model Analysis to evaluate interaction of group by time.||||||.58
92191508|NCT00595764|184281962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.38|STANDARD_ERROR_OF_MEAN|3.63||0.24|TWO_SIDED|95.0|||||Mixed Models Analysis|Mixed Model Analysis to evaluate interaction of group by time.||||||.24
92191509|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6409||||||Hochberg's adjustment was used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.6409
92191510|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.0140
92191511|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.484||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.4840
92191512|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4444||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.4444
92191513|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8129||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.8129
92191514|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1105||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.1105
92191515|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9582||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.9582
92191516|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1893||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.1893
92191517|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2924||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Hochberg's adjustment used for multiple comparisons adjustment||Week 5||||0.2924
92191518|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1897||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.1897
92314501|NCT01690117|184532484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|1.04|<|0.05|TWO_SIDED|95.0|-2.5|1.62||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||1.62|-2.50|<0.05
92191519|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6608||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||"Week 6 An estimated sample size of 180 was needed per treatment arm in order to achieve 85% power to detect a treatment difference of 3.5 in the mean change from baseline to Week 6 in MADRS total score with a two-sided t-test at the 0.05 significance level. The common standard deviation was estimated as 11.0.~The null hypotheses for the primary parameter is equality of mean change from baseline to Week 6 in MADRS total score between ziprasidone and placebo groups."||||0.6608
92191520|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2148||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||"Week 6 An estimated sample size of 180 was needed per treatment arm in order to achieve 85% power to detect a treatment difference of 3.5 in the mean change from baseline to Week 6 in MADRS total score with a two-sided t-test at the 0.05 significance level. The common standard deviation was estimated as 11.0.~The null hypotheses for the primary parameter is equality of mean change from baseline to Week 6 in MADRS total score between ziprasidone and placebo groups."||||0.2148
92191521|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.529||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.5290
92267963|NCT04410978|184437876|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|1.86||||0.0001|TWO_SIDED|95.0|1.358|2.548|||Chi-squared|||Analysis was performed using negative binomial model with the number of new Gd-enhancing T1-hyperintense lesions between randomization date and EOS date as the response variable, treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4) and geographic region (US, non-US) as covariates, and log transformed number of MRI scans as the offset variable.||2.548|1.358|0.0001
92267964|NCT04410978|184437877|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Least square (LS) mean difference|0.035||||0.432|TWO_SIDED|95.0|-0.053|0.124|||MMRM|||Covariates in the mixed-effect model with repeated measures (MMRM) were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, baseline value, and baseline value-by-visit interaction.||0.124|-0.053|0.4320
92267965|NCT04410978|184437878|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS mean difference|1.873||||0.0675|TWO_SIDED|95.0|-0.135|3.88|||MMRM|||Covariates in the MMRM were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, baseline value, and baseline value-by-visit interaction.||3.880|-0.135|0.0675
92267966|NCT04410978|184437879|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|0.831||||0.3594|TWO_SIDED|95.0|0.554|1.245||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||1.245|0.554|0.3594
92267967|NCT04410978|184437880|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS mean difference|0.196||||0.0002|TWO_SIDED|95.0|0.093|0.298|||MMRM|||Covariates in the MMRM were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, cube root transformed Month 6 brain volume, and cube root transformed Month 6 brain volume-by-visit interaction.||0.298|0.093|0.0002
92267968|NCT05153629|184437889|OTHER|||||||0.93||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of back pain.||||0.93
92267969|NCT05153629|184437889|OTHER|||||||0.76||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of abdominal/groin pain.||||0.76
92267970|NCT05153629|184437889|OTHER|||||||0.56||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of pain frequency.||||0.56
92267971|NCT05153629|184437889|OTHER|||||||0.26||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of nausea intensity.||||0.26
92267972|NCT05153629|184437890|OTHER|||||||0.55||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of difference in back pain.||||0.55
92267973|NCT05153629|184437890|OTHER|||||||0.28||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of difference in abdominal/groin pain.||||0.28
92267974|NCT05153629|184437890|OTHER|||||||0.39||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of difference in pain frequency.||||0.39
92267975|NCT05153629|184437890|OTHER|||||||0.26||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of difference in nausea intensity.||||0.26
92267976|NCT05153629|184437891|OTHER|||||||0.5||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||||||0.50
92267977|NCT05153629|184437892|OTHER|||||||0.5||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||||||0.50
92267978|NCT05153629|184437893|OTHER|||||||0.8||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of overall USDT score.||||0.80
92267979|NCT05153629|184437893|OTHER|||||||0.72||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of urinary symptoms.||||0.72
92267980|NCT05153629|184437893|OTHER|||||||0.45||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of pain.||||0.45
92267981|NCT05153629|184437893|OTHER|||||||0.42||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of daily life.||||0.42
92267982|NCT05153629|184437893|OTHER|||||||0.36||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of sexual life.||||0.36
92191522|NCT00141271|184281963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0811||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.0811
92191523|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2287||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.2287
92267983|NCT05153629|184437893|OTHER|||||||0.49||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of medical care/analgesic use.||||0.49
92267984|NCT05153629|184437893|OTHER|||||||0.88||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of overall quality of life.||||0.88
92267985|NCT04089566|184437898|SUPERIORITY|The Analysis of Covariance (ANCOVA) model used rank score as response, treatment as fixed effect and disease duration at screening, baseline Hammersmith Infant Neurological Examination (HINE) Section 2 (HINE 2), baseline CHOP INTEND total score as covariates.|Least square (LS) mean difference|26.06|STANDARD_ERROR_OF_MEAN|4.141|<|0.0001|TWO_SIDED|95.0|17.941|34.172|||ANCOVA|||||34.172|17.941|< 0.0001
92267986|NCT04089566|184437921|SUPERIORITY||Difference of percentages|58.0|||<|0.0001|TWO_SIDED|95.0|39.46|71.81|||Fisher Exact||Exact unconditional confidence interval|||71.81|39.46|<0.0001
92267987|NCT04089566|184437922|SUPERIORITY||LS mean difference|26.67|STANDARD_ERROR_OF_MEAN|4.009|<|0.0001|TWO_SIDED|95.0|18.812|34.526||ANCOVA model was used treatment as fixed effect and disease duration at screening, baseline HINE 2, baseline CHOP INTEND total score as covariates.|ANCOVA|||||34.526|18.812|<0.0001
92267988|NCT04089566|184437923|SUPERIORITY||LS geometric mean ratio|0.08|||<|0.0001||||||ANCOVA model was used with treatment as a fixed effect and adjusted for each participant disease duration at screening, baseline log plasma NF-L and baseline CHOP INTEND total score.|ANCOVA|||||||<0.0001
92267989|NCT04089566|184437924|SUPERIORITY||LS mean difference|1.0|STANDARD_ERROR_OF_MEAN|5.251|=|0.8484|TWO_SIDED|95.0|-9.29|11.299||ANCOVA model used rank score as response, treatment as fixed effect and disease duration at screening, baseline HINE 2, baseline CHOP INTEND total score as covariates.|ANCOVA|||||11.299|-9.29|=0.8484
92267990|NCT04089566|184437925|SUPERIORITY||LS mean difference|6.12|STANDARD_ERROR_OF_MEAN|4.497|=|0.1734|TWO_SIDED|95.0|-2.693|14.939||ANCOVA model used rank score as response, treatment as fixed effect and disease duration at screening, baseline HINE 2, baseline CHOP INTEND total score as covariates.|ANCOVA|||||14.939|-2.693|=0.1734
92267991|NCT04089566|184437926|SUPERIORITY||LS geometric mean ratio|0.51|||=|0.002|TWO_SIDED|95.0|0.33|0.78||ANCOVA model was used with treatment as a fixed effect and adjustment for each participant disease duration at screening, baseline log plasma NF-L and baseline CHOP INTEND total score.|ANCOVA|||||0.78|0.33|=0.002
92267992|NCT04089566|184437969|SUPERIORITY||LS geometric mean ratio|0.86|||=|0.3785|TWO_SIDED|95.0|0.62|1.2||ANCOVA model was used with treatment as a fixed effect and adjusted for each participant disease duration at screening, baseline log CSF NF-L and baseline CHOP INTEND total score.|ANCOVA|||||1.2|0.62|=0.3785
92267993|NCT04938687|184438052|SUPERIORITY|||||||0.07|||||||ANOVA|||||||0.07
92267994|NCT04938687|184438052|SUPERIORITY|||||||0.039|||||||t-test, 2 sided|||||||0.039
92267995|NCT04938687|184438052|SUPERIORITY|||||||0.037|||||||t-test, 2 sided|||||||0.037
92267996|NCT04938687|184438053|SUPERIORITY|||||||0.38|||||||ANOVA|||||||0.38
92267997|NCT04938687|184438053|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
92267998|NCT04938687|184438053|SUPERIORITY|||||||0.069|||||||t-test, 2 sided|||||||0.069
92267999|NCT04938687|184438054|SUPERIORITY|||||||0.92|||||||ANOVA|||||||0.92
92268000|NCT04938687|184438054|SUPERIORITY|||||||0.053|||||||t-test, 2 sided|||||||0.053
92268001|NCT04938687|184438054|SUPERIORITY|||||||0.069|||||||t-test, 2 sided|||||||0.069
92268002|NCT04938687|184438055|SUPERIORITY|||||||0.35|||||||ANOVA|||||||0.35
92268003|NCT04938687|184438055|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
92268004|NCT04938687|184438055|SUPERIORITY|||||||0.073|||||||t-test, 2 sided|||||||0.073
92268005|NCT04938687|184438056|SUPERIORITY|||||||0.93|||||||ANOVA|||||||0.93
92268006|NCT04938687|184438056|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92268007|NCT04938687|184438056|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92268008|NCT04938687|184438057|SUPERIORITY|||||||0.29|||||||ANOVA|||||||0.29
92268009|NCT04938687|184438057|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||||||0.038
92268010|NCT04938687|184438057|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
92268011|NCT04938687|184438058|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
92268012|NCT04938687|184438058|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
92268013|NCT04938687|184438058|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
92268014|NCT04938687|184438061|SUPERIORITY|||||||0.42|||||||ANOVA|||||||0.42
92268015|NCT04938687|184438061|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
92268016|NCT04938687|184438061|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
92268017|NCT02087865|184438070|SUPERIORITY||Mean Difference (Final Values)|-8.25|STANDARD_ERROR_OF_MEAN|7.59||0.273|TWO_SIDED|95.0|-23.12|6.63|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||6.63|-23.12|0.273
92268018|NCT02087865|184438071|SUPERIORITY||Mean Difference (Final Values)|-13.41|STANDARD_ERROR_OF_MEAN|3.92||0.001|TWO_SIDED|95.0|-21.09|-5.73|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||-5.73|-21.09|0.001
92268019|NCT02087865|184438072|SUPERIORITY||Median Difference (Final Values)|-8.6|STANDARD_ERROR_OF_MEAN|5.48||0.115|TWO_SIDED|95.0|-19.33|2.14|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||2.14|-19.33|0.115
92268020|NCT02087865|184438073|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|2.09||0.941|TWO_SIDED|95.0|-3.94|4.25|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||4.25|-3.94|0.941
92268021|NCT02087865|184438074|SUPERIORITY||Mean Difference (Final Values)|46.33|STANDARD_ERROR_OF_MEAN|15.4||0.003|TWO_SIDED|95.0|16.14|76.53|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||76.53|16.14|0.003
92314502|NCT01690117|184532485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|8.86||0.88|TWO_SIDED|95.0|-2.63|2.25||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||2.25|-2.63|0.88
92314503|NCT01690117|184532486|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.93|STANDARD_ERROR_OF_MEAN|1.92|<|0.05|TWO_SIDED|95.0|-8.74|-1.11||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||-1.11|-8.74|<0.05
92314504|NCT01690117|184532487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.49|STANDARD_ERROR_OF_MEAN|2.41|<|0.001|TWO_SIDED|95.0|-13.31|-3.66||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||-3.66|-13.31|<0.001
92314505|NCT01690117|184532488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.91|STANDARD_ERROR_OF_MEAN|1.98||0.05|TWO_SIDED|95.0|-7.86|0.04||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||0.04|-7.86|0.05
92314506|NCT01690117|184532489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|2.1||0.91|TWO_SIDED|95.0|-3.96|4.45||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||4.45|-3.96|0.91
92314507|NCT01690117|184532490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|1.47||0.05|TWO_SIDED|95.0|-0.01|5.81||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||5.81|-0.01|0.05
92314508|NCT01690117|184532491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|STANDARD_ERROR_OF_MEAN|1.91|<|0.05|TWO_SIDED|95.0|0.68|8.33||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||8.33|0.68|<0.05
92314509|NCT01690117|184532492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.53|STANDARD_ERROR_OF_MEAN|1.95|<|0.01|TWO_SIDED|95.0|-8.4|-0.65||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||-0.65|-8.40|<0.01
92314510|NCT01690117|184532493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8|STANDARD_ERROR_OF_MEAN|1.52|<|0.01|TWO_SIDED|95.0|4.78|10.83||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||10.83|4.78|<0.01
92191524|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4734||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week1||||0.4734
92314511|NCT02321111|184532509|OTHER|ANOVA||||||0.02|||||||ANOVA|||||||0.02
92314512|NCT01518322|184532514|SUPERIORITY_OR_OTHER||Kappa Statistics|0.049|||||TWO_SIDED|95.0|-0.0895|0.1875||||||Kappa statistics were used to determine the level of agreement between FeNO measurements and asthma diagnosis using the a dichotomous schemes a measurement greater than 35 ppb for children under the age of 12 years or greater than 50 ppb for subjects at least 12 years of age was considered high.||0.1875|-0.0895|
92314513|NCT00707239|184532518|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-5.4|||||TWO_SIDED|70.0|-21.6|10.9||||||Cure: Confidence interval (CI) was calculated using the Wilson score method, with continuity correction. Clinical response (rates of cure) by using a 2-sided 70 percent (%) CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||10.9|-21.6|
92314514|NCT00707239|184532518|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.0|||||TWO_SIDED|70.0|-6.1|24.8||||||Cure: CI was calculated using the Wilson score method, with continuity correction. Clinical response (rates of cure) by using a 2-sided 70% CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||24.8|-6.1|
92191525|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7401||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.7401
92191526|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7904||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.7904
92314515|NCT00707239|184532519|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.2|||||TWO_SIDED|70.0|-14.3|14.0||||||Cure: CI was calculated using the Wilson score method, with continuity correction. Clinical response (rates of cure) by using a 2-sided 70% CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||14.0|-14.3|
92314516|NCT00707239|184532519|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.5|||||TWO_SIDED|70.0|4.3|31.8||||||Cure: CI was calculated using the Wilson score method, with continuity correction. Clinical response (rates of cure) by using a 2-sided 70% CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||31.8|4.3|
92314517|NCT00707239|184532522|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-18.5|||||TWO_SIDED|70.0|-39.6|4.2||||||Eradication: CI was calculated using the Wilson score method, with continuity correction. Microbiological response (rates of eradication) by using a 2-sided 70% CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||4.2|-39.6|
92191527|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5274||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.5274
92191528|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1059||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.1059
92191529|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8871||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.8871
92191530|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6939|||||||Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.6939
92191531|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1044||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.1044
92191532|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3132||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.3132
92268022|NCT02087865|184438075|SUPERIORITY||Mean Difference (Final Values)|61.36|STANDARD_ERROR_OF_MEAN|13.32|<|0.001|TWO_SIDED|95.0|35.25|87.46|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||87.46|35.25|<0.001
92268023|NCT02087865|184438076|SUPERIORITY||Mean Difference (Final Values)|-3.35|STANDARD_ERROR_OF_MEAN|1.18||0.005|TWO_SIDED|95.0|-5.65|-1.04|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||-1.04|-5.65|0.005
92268024|NCT02087865|184438077|SUPERIORITY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|1.67||0.011|TWO_SIDED|95.0|-7.58|-1.02|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||-1.02|-7.58|0.011
92268025|NCT00741026|184438085|SUPERIORITY_OR_OTHER|||||||0.0203|||||||Wilcoxon Signed-rank|||||||0.0203
92268026|NCT00741026|184438086|SUPERIORITY_OR_OTHER|||||||0.0105|||||||Wilcoxon Sign-rank|||||||0.0105
92268027|NCT00741026|184438087|SUPERIORITY_OR_OTHER|||||||0.0166|||||||Wilcoxon Sign-rank|||||||0.0166
92268028|NCT00741026|184438088|SUPERIORITY_OR_OTHER|||||||0.0184|||||||Wilcoxon Sign-rank|||||||0.0184
92268029|NCT00741026|184438089|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon Sign-rank|||||||0.0170
92268030|NCT03309072|184438105|OTHER|To compare the old and new faces' hit rate, we calculated the true positive rate (TPR: the proportion of positives that are correctly identified as such). A repeated measures ANOVA was conducted with the TPR for both old and new faces as within-subjects variable and group (active vs sham) as between-subjects variable.|Mean Difference (Net)|10.66|||<|0.049|TWO_SIDED||||||ANOVA||Difference between active tDCS and sham tDCS|||||<.049
92268031|NCT00367679|184438157|SUPERIORITY_OR_OTHER||Percentage of participants with response|5.7||||||95.0|0.7|19.2|||||The estimated value given is the percentage of participants who had a response out of the total participants.|||19.2|0.7|
92268032|NCT00367679|184438158|SUPERIORITY_OR_OTHER||Percentage of participants with response|8.6||||||95.0|1.8|23.1|||||The estimated value given is the percentage of participants who had a response out of the total participants.|||23.1|1.8|
92268033|NCT00367679|184438164|SUPERIORITY_OR_OTHER|||||||0.0028||95.0||||VEGF D|t-test, 2 sided|Post- versus pretreatment expression levels for each of the indicated genes in response to pazopanib treatment||||||0.0028
92268034|NCT00367679|184438164|SUPERIORITY_OR_OTHER|||||||0.0324||95.0||||VEGF A|t-test, 2 sided|Post- versus pretreatment expression levels for each of the indicated genes in response to pazopanib treatment||||||0.0324
92268035|NCT00367679|184438164|SUPERIORITY_OR_OTHER|||||||0.0082||95.0||||VEGFR-2|t-test, 2 sided|Post- versus pretreatment expression levels for each of the indicated genes in response to pazopanib treatment||||||0.0082
92268036|NCT00367679|184438164|SUPERIORITY_OR_OTHER|||||||0.0082||95.0||||c-KIT|t-test, 2 sided|Post- versus pretreatment expression levels for each of the indicated genes in response to pazopanib treatment||||||0.0082
92268037|NCT00367679|184438170|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Vascular endothelial growth factor receptor 2 (VEGFR2)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||<0.01
92268038|NCT00367679|184438170|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Placental growth factor (PIGF)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||<0.01
92268039|NCT00367679|184438170|SUPERIORITY_OR_OTHER|||||||0.00024||95.0||||Interferon-inducible cytokine (IP-10)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.00024
92268040|NCT00367679|184438170|SUPERIORITY_OR_OTHER|||||||0.0029||95.0||||Cutaneous T-cell attracting chemokine (CTACK)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.0029
92268041|NCT00367679|184438170|SUPERIORITY_OR_OTHER|||||||0.0062||95.0||||Stromal cell-derived factor 1 (SDF-1alpha)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.0062
92268042|NCT00367679|184438170|SUPERIORITY_OR_OTHER|||||||0.0069||95.0||||Monokine induced by interferon gamma (MIG)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.0069
92268043|NCT00367679|184438170|SUPERIORITY_OR_OTHER|||||||0.0093||95.0||||Tumor necrosis factor ligand (TRAIL)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.0093
92268044|NCT00367679|184438170|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||Interferon alpha 2 (IFN-alpha2)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.021
92191533|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6978||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.6978
92314518|NCT00707239|184532522|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|70.0|-23.8|20.9||||||Eradication: CI was calculated using the Wilson score method, with continuity correction. Microbiological response (rates of eradication) by using a 2-sided 70% CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||20.9|-23.8|
92314519|NCT00707239|184532523|SUPERIORITY_OR_OTHER|||||||0.527|TWO_SIDED|||||Statistical testing was done at 5% alpha.|Fisher Exact|||Nausea: p-value was calculated using 2-tail Fischer's exact test.||||0.527
92314520|NCT00707239|184532523|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|||||Statistical testing was done at 5% alpha.|Fisher Exact|||Vomiting: p-value was calculated using 2-tail Fischer's exact test.||||0.390
92314521|NCT00707239|184532524|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Statistical testing was done at 5% alpha.|Fisher Exact|||p-value was calculated using 2-tail Fischer's exact test.||||1.000
92314522|NCT00707239|184532525|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Statistical testing was done at 5% alpha.|Fisher Exact|||p-value was calculated using 2-tail Fischer's exact test.||||1.000
92191534|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3228||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.3228
92191535|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6432||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.6432
92191536|NCT00141271|184281964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5989||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.5989
92191537|NCT00141271|184281965|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8921||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.8921
92314523|NCT00707239|184532531|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0479||||0.78|TWO_SIDED|95.0|0.754|1.46|||Regression, Logistic|||Statistical analysis was carried out between categories, experienced nausea and did not experience nausea.||1.46|0.754|0.78
92314524|NCT00707239|184532531|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84644||||0.356|TWO_SIDED|95.0|0.593|1.21|||Regression, Logistic|||Statistical analysis was carried out between categories, experienced vomiting and did not experience vomiting.||1.21|0.593|0.356
92314525|NCT00707239|184532532|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0054||||0.836|TWO_SIDED|95.0|0.956|1.06|||Regression, Logistic|||Statistical analysis was carried out between categories, cure and failure/indeterminate.||1.06|0.956|0.836
92314526|NCT00707239|184532536|SUPERIORITY_OR_OTHER|||||||0.245|TWO_SIDED|||||Statistical testing was done at 5% alpha.|ANOVA|||Intravenous antibiotic treatment: One-way analysis of variance (ANOVA) with treatment as factor was used to calculate p-value.||||0.245
92191538|NCT00141271|184281965|SUPERIORITY_OR_OTHER_LEGACY|||||||0.435||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.4350
92314527|NCT00707239|184532536|SUPERIORITY_OR_OTHER|||||||0.484|TWO_SIDED|||||Statistical testing was done at 5% alpha.|ANOVA|||Hospital stay: One-way ANOVA with treatment as factor was used to calculate p-value.||||0.484
92314528|NCT00707239|184532536|SUPERIORITY_OR_OTHER|||||||0.192|TWO_SIDED|||||Statistical testing was done at 5% alpha.|ANOVA|||ICU stay: One-way ANOVA with treatment as factor was used to calculate p-value.||||0.192
92314529|NCT01400477|184532545|SUPERIORITY|||||||0.89||||||A priori vape was \<0.05|ANOVA|df 1, 37||||||0.89
92191539|NCT00141271|184281965|SUPERIORITY_OR_OTHER_LEGACY|||||||0.562||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.5620
92191540|NCT00141271|184281965|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6959||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.6959
92191541|NCT00141271|184281965|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7865||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.7865
92314530|NCT00776035|184532567|SUPERIORITY||||||<|0.005|||||||Student's t-test|||Average myocardial blood flow, men versus women||||<0.005
92314531|NCT00776035|184532568|SUPERIORITY||||||<|0.05|||||||Student's t-test|||Average myocardial fatty acid utilization, men versus women||||<0.05
92314532|NCT03442751|184532569|SUPERIORITY||Mean Difference (Net)|-1.0||||0.0004|TWO_SIDED|95.0|-1.5|-0.4|||ANCOVA|||Repeated measures mixed analysis of covariance model||-0.4|-1.5|0.0004
92314533|NCT03442751|184532570|SUPERIORITY|last observation carried forward was used to impute missing Month 12 data|Mean Difference (Net)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.6|||ANCOVA|||repeated measures mixed analysis of covariance model||-0.6|-1.6|<0.0001
92191542|NCT00141271|184281965|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7564||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.7564
92191543|NCT00141271|184281966|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4327||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4327
92314534|NCT04620746|184532610|SUPERIORITY|||||||0.98|||||||Chi-squared, Corrected|||||||0.98
92314535|NCT04620746|184532611|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
92314536|NCT02777372|184532621|OTHER|||||||0.139|||||||Regression, Linear|||Effect of group on differences in ASR t scores from follicular to luteal.||||0.139
92314537|NCT02777372|184532622|OTHER|||||||0.843||||||Effect of group on ASR t score in the first luteal phase (no medication) to the second luteal phase (sertraline).|Regression, Linear|||||||0.843
92314538|NCT02777372|184532623|OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
92314539|NCT05807828|184532625|SUPERIORITY||Median Difference (Final Values)|7.5|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The median difference between the cup angle of the Control Group for Cup Training and the cup angle of VR Group for Cup Training.||||<0.05
92314540|NCT05807828|184532625|SUPERIORITY||Median Difference (Final Values)|291.5|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The median difference between the stem angle of the Control Group for Stem Training and the stem angle of VR Group for Stem Training.||||<0.05
92314541|NCT05807828|184532626|SUPERIORITY||Mean Difference (Final Values)|54.5|STANDARD_DEVIATION|106.6|<|0.05|TWO_SIDED||||||paired t-test|||Each medical student carried out an implantation following VR training and without VR training. Therefore, there was a deviation (mean difference) between the predefined target and the implanted inclination for the cup or the stem version for the same medical student with VR training.||||<0.05
92191544|NCT00141271|184281966|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7041||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7041
92314542|NCT05807828|184532626|SUPERIORITY||Mean Difference (Final Values)|89.8|STANDARD_DEVIATION|133.9|<|0.05|TWO_SIDED||||||paired t-test|||Each medical student carried out an implantation following VR training and without VR training. Therefore, there was a deviation (mean difference) between the predefined target and the implanted inclination for the cup or the stem version for the same medical student without VR training (control).||||<0.05
92314543|NCT05807828|184532627|SUPERIORITY||Median Difference (Final Values)|14.0|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Median difference between the time needed for cup implantation for Control cup group and the time needed for cup implantation for VR cup group||||<0.05
92314544|NCT05807828|184532627|SUPERIORITY||Median Difference (Final Values)|2.0|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Median difference between the time needed for stem implantation for Control stem group and the time needed for stem implantation for VR stem group||||<0.05
92191545|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2076||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.2076
92191546|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7449||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.7449
92191547|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4399||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.4399
92191548|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7107||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.7107
92268045|NCT00367679|184438170|SUPERIORITY_OR_OTHER|||||||0.326||95.0||||Vascular endothelial growth factor (VEGF)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.326
92268046|NCT04633434|184438175|EQUIVALENCE|Test of whether the pretest and posttest scores are significantly different from zero.|Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.56||0.69|TWO_SIDED||||||t-test, 2 sided||Estimation parameter based on paired t-test.|||||.690
92268047|NCT04633434|184438176|EQUIVALENCE|Test of whether pretest to posttest score change is greater than zero.|Mean Difference (Final Values)|0.647|STANDARD_ERROR_OF_MEAN|0.308||0.052|TWO_SIDED||||||t-test, 2 sided|||||||.052
92268048|NCT04633434|184438177|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|0.647|STANDARD_ERROR_OF_MEAN|0.41||0.135|TWO_SIDED||||||t-test, 2 sided|||||||.135
92268049|NCT04633434|184438178|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|4.24|STANDARD_ERROR_OF_MEAN|7.14||0.026|TWO_SIDED||||||t-test, 2 sided|||||||.026
92268050|NCT04633434|184438179|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
92268051|NCT04633434|184438180|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
92268052|NCT04633434|184438181|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-1.11|STANDARD_ERROR_OF_MEAN|0.54||0.057|TWO_SIDED||||||t-test, 2 sided|||||||.057
92268053|NCT04633434|184438182|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|1.89|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
92268054|NCT04633434|184438183|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.1||0.352|TWO_SIDED||||||t-test, 2 sided|||||||.352
92314545|NCT03737357|184532659|NON_INFERIORITY|The tolerance range or non-inferiority margin characterizes the largest absolute difference which is considered to be dismissible. A MBL of less than 0.5mm within the first year after implant loading constitutes an acceptable clinical standard(10, 18, 19). In this clinical trial, a non-inferiority margin of 20% of the acceptable clinical standard was chosen, which amounts to 0.1mm.|paired difference|0.01||||0.074|TWO_SIDED||||||t-test, 1 sided|Non-inferiority one-sided paired t-tests using a non-inferiority margin of -0.10mm.|The paired difference is (SLActive® bone level change from baseline (CFB) - SLA® CFB (i.e. resorption))||In the PP population, the paired difference between SLActive® and SLA® bone level change from baseline (CFB) was estimated at 0.01 mm with a standard deviation of 0.444 mm (95% CI: -Inf, 0.11; p = 0.074), based on a one-sided paired t-test with a non-inferiority margin of 0.10 mm.|||0.074
92314546|NCT01526057|184532664|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and area under the serum concentration-time curve (AUC) from time 0 extrapolated to infinite time (AUC 0-inf) are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|105.67|||||TWO_SIDED|90.0|96.91|115.21|||||Rituximab-Pfizer is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way analysis of variance (ANOVA) model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||115.21|96.91|
92314547|NCT01526057|184532664|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and AUC 0-inf are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|106.62|||||TWO_SIDED|90.0|97.65|116.41|||||Rituximab-Pfizer is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||116.41|97.65|
92314548|NCT01526057|184532664|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and AUC 0-inf are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|100.9|||||TWO_SIDED|90.0|92.38|110.2|||||Rituximab-EU is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||110.20|92.38|
92314549|NCT01526057|184532665|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and AUC0-inf are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|104.19|||||TWO_SIDED|90.0|92.75|117.06||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||117.06|92.75|
92314550|NCT01526057|184532665|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and AUC0-inf are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|100.45|||||TWO_SIDED|90.0|89.2|113.11||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||113.11|89.20|
92314551|NCT01526057|184532665|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and AUC0-inf are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|96.4|||||TWO_SIDED|90.0|85.57|108.6||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||108.60|85.57|
92314552|NCT01526057|184532666|SUPERIORITY||Test-to-reference ratio: adjusted means|103.74|||||TWO_SIDED|90.0|95.1|113.12|||||Rituximab-Pfizer is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||113.12|95.10|
92314553|NCT01526057|184532666|SUPERIORITY||Test-to-reference ratio: adjusted means|105.56|||||TWO_SIDED|90.0|96.64|115.3|||||Rituximab-Pfizer is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||115.30|96.64|
92314554|NCT01526057|184532666|SUPERIORITY||Test-to-reference ratio: adjusted means|101.76|||||TWO_SIDED|90.0|93.13|111.18|||||Rituximab-EU is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data.||111.18|93.13|
92191549|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4765||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.4765
92314555|NCT01526057|184532667|SUPERIORITY||Test-to-reference ratio: adjusted means|103.36|||||TWO_SIDED|90.0|92.81|115.12||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||115.12|92.81|
92314556|NCT01526057|184532667|SUPERIORITY||Test-to-reference ratio: adjusted means|101.33|||||TWO_SIDED|90.0|90.82|113.04||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||113.04|90.82|
92191550|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2564||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.2564
92314557|NCT01526057|184532667|SUPERIORITY||Test-to-reference ratio: adjusted means|98.03|||||TWO_SIDED|90.0|87.83|109.4||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||109.40|87.83|
92314558|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.31|1.78|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 3.||1.78|0.31|
92314559|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.6|1.88|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 5.||1.88|0.60|
92314560|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.66|1.73|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 9.||1.73|0.66|
92314561|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.73|1.56|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 13.||1.56|0.73|
92314562|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.68|1.62|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 17.||1.62|0.68|
92314563|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.66|1.69|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 21.||1.69|0.66|
92191551|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8063||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.8063
92314564|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|1.19|||||TWO_SIDED|95.0|0.7|2.0|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 25 (EOT).||2.00|0.70|
92314565|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.28|1.73|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 3.||1.73|0.28|
92191552|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9855||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.9855
92314566|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.43|1.54|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 5.||1.54|0.43|
92314567|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.49|1.42|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 9.||1.42|0.49|
92314568|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.5|1.22|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 13.||1.22|0.50|
92314569|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.57|1.44|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 17.||1.44|0.57|
92314570|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|1.36|||||TWO_SIDED|95.0|0.88|2.1|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 21.||2.10|0.88|
92314571|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.78|2.18|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 25 (EOT).||2.18|0.78|
92314572|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.36|2.45|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 3.||2.45|0.36|
92314573|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.41|1.44|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 5.||1.44|0.41|
92314574|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.47|1.31|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 9.||1.31|0.47|
92314575|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.74|||||TWO_SIDED|95.0|0.48|1.13|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 13.||1.13|0.48|
92314576|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.55|1.36|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 17.||1.36|0.55|
92314577|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|1.29|||||TWO_SIDED|95.0|0.85|1.95|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 21.||1.95|0.85|
92191553|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0599||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.0599
92191554|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7364||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.7364
92314578|NCT01526057|184532686|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.7|1.73|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 25 (EOT).||1.73|0.70|
92314579|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.47|||||TWO_SIDED|95.0|0.12|1.79|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 3.||1.79|0.12|
92314580|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.2|1.26|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 5.||1.26|0.20|
92314581|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.43|1.41|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 9.||1.41|0.43|
92314582|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.61|1.74|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 13.||1.74|0.61|
92314583|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.56|1.74|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 17.||1.74|0.56|
92314584|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.68|||||TWO_SIDED|95.0|0.34|1.36|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 21.||1.36|0.34|
92314585|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.46|1.63|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 25 (EOT).||1.63|0.46|
92314586|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.27|2.6|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 3.||2.60|0.27|
92314587|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.71|||||TWO_SIDED|95.0|0.31|1.62|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 5.||1.62|0.31|
92314588|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.41|1.4|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 9.||1.40|0.41|
92314589|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.89|||||TWO_SIDED|95.0|0.51|1.57|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 13.||1.57|0.51|
92191555|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3048||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups.||Week 6||||0.3048
92191556|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5139||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups.||Week 6||||0.5139
92314590|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.51|1.68|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 17.||1.68|0.51|
92314591|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|1.22|||||TWO_SIDED|95.0|0.68|2.19|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 21.||2.19|0.68|
92314592|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.44|1.62|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 25 (EOT).||1.62|0.44|
92314593|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|1.79|||||TWO_SIDED|95.0|0.44|7.2|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 3.||7.20|0.44|
92314594|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|1.41|||||TWO_SIDED|95.0|0.52|3.86|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 5.||3.86|0.52|
92314595|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.51|1.87|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 9.||1.87|0.51|
92314596|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.87|||||TWO_SIDED|95.0|0.5|1.5|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 13.||1.50|0.50|
92314597|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.52|1.69|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 17.||1.69|0.52|
92314598|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|1.8|||||TWO_SIDED|95.0|0.93|3.5|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 21.||3.50|0.93|
92314599|NCT01526057|184532687|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.51|1.89|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 25 (EOT).||1.89|0.51|
92314600|NCT03649347|184532725|SUPERIORITY||||||<|0.001||||||Interaction effect: p\<.001, np2=.720|ANOVA|Main effect of time: p\<.001, np2=.798; main effect of group: p\<.001, np2=.711||A repeated measures ANOVA was conducted to assess main effects of group (AR therapy intervention versus no treatment control), time (baseline, one week follow up, and one month follow up) as well as an interaction effect. The P-Value shown below is for the interaction effect. Post-hoc power analysis indicated actual power 99%, critical F=4.76.||||<.001
92191557|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9356||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.9356
92191558|NCT00141271|184281967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9428||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.9428
92314601|NCT03649347|184532726|SUPERIORITY||||||<|0.001||||||Interaction effect: p\<.001, np2=.542|ANOVA|Main effect of time: p\<.001, np2=.598; and main effect of group: p\<.001, np2=.439||A repeated measures ANOVA was conducted to assess main effects of group (AR therapy intervention versus no treatment control), time (baseline, one week follow up, and one month follow up) as well as an interaction effect. The P-Value shown below is for the interaction effect. Post-hoc power analysis indicated actual power 96%, critical F=4.76.||||<.001
92314602|NCT03649347|184532728|SUPERIORITY||||||<|0.005||||||Interaction effect: p\<.005, np2=.481|ANOVA|Main effect of time: p\<.001, np2=.572; and main effect of group p\<.001, np2=.626||A repeated measures ANOVA was conducted to assess main effects of group (AR therapy intervention versus no treatment control), time (baseline, one week follow up, and one month follow up) as well as an interaction effect. The P-Value shown below is for the interaction effect. Post-hoc power analysis indicated actual power 99%, critical F=3.49.||||<.005
92314603|NCT00489255|184532737|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.09|TWO_SIDED|95.0|0.17|1.11|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test for treatment was stratified by site.||The null hypothesis was no difference between treatments.||1.11|0.17|0.09
92314604|NCT00489255|184532738|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.44||||0.025|TWO_SIDED|95.0|0.21|0.9|||Cochran-Mantel-Haenszel|||||0.90|0.21|0.025
92314605|NCT00489255|184532739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.25||||0.005|TWO_SIDED|95.0|0.09|0.7|||Cochran-Mantel-Haenszel|||||0.70|0.09|0.005
92314606|NCT00489255|184532740|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.65|TWO_SIDED|95.0|0.23|2.48|||Cochran-Mantel-Haenszel|||||2.48|0.23|0.65
92314607|NCT00489255|184532741|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.21||||0.32|TWO_SIDED|95.0|-0.64|0.21|||ANOVA|Treatment effect in ANOVA was adjusted for site.||||0.21|-0.64|0.32
92314608|NCT00489255|184532742|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.07||||0.001|TWO_SIDED|95.0|-1.71|-0.43|||ANOVA|||||-0.43|-1.71|0.001
92314609|NCT00489255|184532743|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.01||||0.95|TWO_SIDED|95.0|-0.2|0.19|||ANOVA|||||0.19|-0.20|0.95
92314610|NCT00489255|184532744|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test (row mean score) with rigid scores, stratified by site||||||0.88
92314611|NCT00489255|184532745|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test (row mean score) with rigid scores, stratified by site||||||0.019
92314612|NCT00489255|184532746|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Cochran-Mantel-Haenszel|||||||0.29
92314613|NCT00489255|184532747|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.17|TWO_SIDED|95.0|0.5|1.1||Cox's proportional hazards model with site and treatment (Tigan/placebo) as factors.|Regression, Cox|||||1.1|0.5|0.17
92314614|NCT00489255|184532748|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.008|TWO_SIDED|95.0|0.1|0.7||Cox's proportional hazards model with site and treatment (Tigan/placebo) as factors.|Regression, Cox|||||0.7|0.1|0.008
92314615|NCT00489255|184532749|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.49|TWO_SIDED|95.0|0.6|1.3||Cox's proportional hazards model with site and treatment (Tigan/placebo) as factors.|Regression, Cox|||||1.3|0.6|0.49
92314616|NCT00489255|184532750|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.4|TWO_SIDED|95.0|0.7|2.1|||Regression, Cox|||||2.1|0.7|0.4
92191559|NCT00141271|184281968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3888||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.3888
92191560|NCT00141271|184281968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3122||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.3122
92191561|NCT00141271|184281968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3323||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.3323
92191562|NCT00141271|184281968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8781||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.8781
92314617|NCT00489255|184532751|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.62||95.0|0.6|2.3||Cox's proportional hazards model with site and treatment (Tigan/placebo) as factors.|Regression, Cox|||||2.3|0.6|0.62
92314618|NCT00489255|184532752|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.96|TWO_SIDED|95.0|-3.59|3.76|||ANOVA|ANCOVA model with baseline score (score at Visit 1/Screening) as a covariate, and site and treatment as factors.||||3.76|-3.59|0.96
92314619|NCT00489255|184532753|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.93|TWO_SIDED|95.0|-4.37|4.02|||ANOVA|||||4.02|-4.37|0.93
92314620|NCT00489255|184532754|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.84|TWO_SIDED|95.0|-4.12|3.34|||ANOVA|||||3.34|-4.12|0.84
92314621|NCT00489255|184532755|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.97||||0.25|TWO_SIDED|95.0|-2.17|8.11|||ANOVA|||||8.11|-2.17|0.25
92314622|NCT00489255|184532756|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.47||||0.46|TWO_SIDED|95.0|-2.47|5.4|||ANOVA|||||5.40|-2.47|0.46
92314623|NCT00489255|184532757|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.96||||0.33|TWO_SIDED|95.0|-3.13|9.06|||ANOVA|||||9.06|-3.13|0.33
92314624|NCT00489255|184532758|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.93|TWO_SIDED|95.0|-5.57|6.11|||ANOVA|||||6.11|-5.57|0.93
92314625|NCT03953612|184532759|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Linear mixed effects||||||<.001
92314626|NCT03953612|184532760|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Linear mixed effects||||||<.001
92314627|NCT03953612|184532761|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|Linear mixed effects||||||0.7
92314628|NCT03953612|184532762|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||0.0001
92314629|NCT03953612|184532763|SUPERIORITY|||||||0.042|||||||. Negative binomial regression models|||||||0.042
92314630|NCT03953612|184532764|SUPERIORITY|||||||0.125|||||||. Negative binomial regression models|||||||0.125
92314631|NCT02028676|184532783|NON_INFERIORITY_OR_EQUIVALENCE|Upper 95% confidence interval for the hazard ratio was 1.64, see other analysis for this endpoint for details|Hazard Ratio (HR)|1.13||||0.59|TWO_SIDED|95.0|0.73|1.73|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.73|0.73|0.59
92314632|NCT02028676|184532783|NON_INFERIORITY_OR_EQUIVALENCE|With assumptions detailed above, \>90% power and one-sided alpha=0.05, 1160 children would be required to exclude an increase in progression rate of 1.6% from 2.5% to 4.1% per year in the CDM arm (upper 95% confidence limit of LCM: CDM hazard ratio 1.64).|Risk Difference (RD)|0.32||||0.43|TWO_SIDED|95.0|-0.47|1.12|||Comparison of poisson rates|Statistical analysis plan specified that p-value was to be calculated from the log-rank test, so not provided for the risk difference|Difference is CDM minus LCM|"Assumptions:~* control group (LCM) event rate 3% per year~* rates are reduced to 2% per year in the best of the induction-maintenance arms leading to an overall rate of progression to new WHO stage 4 or death of 2.5%~* recruitment is over 1.5 years and follow-up for a minimum further 3.5 years.~* cumulative loss to follow-up is 10% at 5 years. See below for rest of sample size as this box is not big enough."||1.12|-0.47|0.43
92314633|NCT02028676|184532784|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.83|TWO_SIDED|95.0|0.83|1.16|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.16|0.83|0.83
92314634|NCT02028676|184532785|SUPERIORITY_OR_OTHER|||||||0.33|||||||Regression, Linear|Global test with 2df, adjusted for randomization stratification factors||Assuming a standard deviation for the change in CD4 percentage from baseline to 72 weeks of 10% (slightly higher than that observed in the PENTA 5 trial) 1200 children would provide at least 80% power to detect a difference in change in CD4% from baseline of more than 2.5% across the 3 groups (F-test with 2-sided alpha=0.05) assuming 20% missing data (loss to follow-up during the first year plus failure to attend the week 72 visit/missing sample).||||0.33
92314635|NCT02028676|184532786|SUPERIORITY_OR_OTHER|||||||0.69|||||||Regression, Linear|Global test with 2df, adjusted for randomization stratification factors||||||0.69
92314636|NCT02028676|184532787|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.0001
92314637|NCT02028676|184532787|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.01|TWO_SIDED|95.0|1.07|1.63|||Regression, Cox||HR is Arm B vs A|||1.63|1.07|0.01
92314638|NCT02028676|184532787|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.58|||<|0.001|TWO_SIDED|95.0|1.29|1.94|||Regression, Cox|||||1.94|1.29|<0.001
92314639|NCT02028676|184532788|NON_INFERIORITY_OR_EQUIVALENCE|631 children would be required to exclude a 12% lower suppression rate in the once daily group with at least 90% power and two-sided alpha=0.05 (lower 95% confidence limit of difference between once and twice daily -12%, the non-inferiority margin). 630 children retains at least 80% (rather than 90%) power to exclude a 10% (rather than 12%) lower suppression rate in the once daily group with one-sided alpha=0.05 (lower 90% confidence limit of difference between once and twice daily -10%).|Risk Difference (RD)|-1.6||||0.65|TWO_SIDED|95.0|-8.4|5.2|||Chi-squared||Difference in suppression \<80 copies/ml in once-daily minus twice-daily|||5.2|-8.4|0.65
92314640|NCT02028676|184532790|NON_INFERIORITY_OR_EQUIVALENCE|With assumptions above, at least 80% power and one-sided alpha=0.05, 947 children would be required in the stop/continue cotrimoxazole prophylaxis comparison to exclude an increase in hospitalisation/death rate of 3% from 5% to 8% per year in the stop cotrimoxazole arm (upper 95% confidence limit of stop:continue hazard ratio 1.6).|Hazard Ratio (HR)|1.64||||0.007|TWO_SIDED|95.0|1.14|2.37|||Log Rank||Hazard ratio is stop vs continue.|"Assumptions~* 5% of children receiving daily cotrimoxazole prophylaxis have a new hospitalisation or death per year~* recruitment starts 1 July 2009 with 10% children (those already on ART for \>96 weeks) entering immediately, and then the remaining children recruited over the following 15 months as they reach 96 weeks on ART. Follow-up is until March 2012.~* cumulative loss to follow-up at March 2012 is 10%. See below for further details as box is not big enough"||2.37|1.14|0.007
92191563|NCT00141271|184281968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9485||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.9485
92314641|NCT02028676|184532790|NON_INFERIORITY_OR_EQUIVALENCE|With assumptions above, at least 80% power and one-sided alpha=0.05, 947 children would be required in the stop/continue cotrimoxazole prophylaxis comparison to exclude an increase in hospitalisation/death rate of 3% from 5% to 8% per year in the stop cotrimoxazole arm (upper 95% confidence limit of stop:continue hazard ratio 1.6).|Risk Difference (RD)|4.0||||0.006|TWO_SIDED|95.0|0.8|7.2|||Poisson regression for risk difference||Risk difference is stop vs continue.|"Assumptions~* 5% of children receiving daily cotrimoxazole prophylaxis have a new hospitalisation or death per year~* recruitment starts 1 July 2009 with 10% children (those already on ART for \>96 weeks) entering immediately, and then the remaining children recruited over the following 15 months as they reach 96 weeks on ART. Follow-up is until March 2012.~* cumulative loss to follow-up at March 2012 is 10%. See below for further details as box is not big enough."||7.2|0.8|0.006
92314642|NCT02028676|184532791|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.33|TWO_SIDED|95.0|0.83|1.72|||Log Rank||Hazard ratio is stop vs continue.|||1.72|0.83|0.33
92314643|NCT02028676|184532792|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.45|TWO_SIDED|95.0|0.49|1.44|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.44|0.49|0.45
92314644|NCT02028676|184532792|SUPERIORITY_OR_OTHER|||||||0.43|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.43
92314645|NCT02028676|184532792|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.23|TWO_SIDED|95.0|0.33|1.31|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||1.31|0.33|0.23
92191564|NCT00141271|184281968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7331||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.7331
92314646|NCT02028676|184532792|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.93|TWO_SIDED|95.0|0.52|1.81|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||1.81|0.52|0.93
92314647|NCT02028676|184532793|SUPERIORITY_OR_OTHER|||||||0.89|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.89
92314648|NCT02028676|184532793|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.64|TWO_SIDED|95.0|0.53|1.48|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||1.48|0.53|0.64
92191565|NCT00141271|184281969|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4869||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.4869
92191566|NCT00141271|184281969|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5813||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.5813
92314649|NCT02028676|184532793|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.71|TWO_SIDED|95.0|0.54|1.52|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||1.52|0.54|0.71
92314650|NCT02028676|184532794|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.73|1.38|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.38|0.73|0.98
92314651|NCT02028676|184532794|SUPERIORITY_OR_OTHER|||||||0.44|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.44
92314652|NCT02028676|184532794|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.3|TWO_SIDED|95.0|0.55|1.2|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||1.20|0.55|0.30
92314653|NCT02028676|184532794|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.24|TWO_SIDED|95.0|0.54|1.17|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||1.17|0.54|0.24
92314654|NCT02028676|184532795|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.52|TWO_SIDED|95.0|0.82|1.49|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM.|||1.49|0.82|0.52
92191567|NCT00141271|184281969|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3303||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.3303
92191568|NCT00141271|184281969|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1546||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.1546
92191569|NCT00141271|184281969|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8982||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.8982
92191570|NCT00141271|184281969|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3586||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3586
92191571|NCT00141271|184281970|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0896||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.0896
92191572|NCT00141271|184281970|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6534||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.6534
92191573|NCT00141271|184281970|SUPERIORITY_OR_OTHER_LEGACY|||||||0.327||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.3270
92191574|NCT00141271|184281970|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4099||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.4099
92191575|NCT00141271|184281970|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6104||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6104
92191576|NCT00141271|184281970|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9359||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.9359
92191577|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6924||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.6924
92191578|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.0800
92191579|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4238||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.4238
92191580|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7714||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.7714
92191581|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8731||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.8731
92191582|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8926||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.8926
92191583|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2072||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.2072
92191584|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1042||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.1042
92191585|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2695||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.2695
92191586|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3245||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.3245
92191587|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7791||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.7791
92191588|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0999||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.0999
92314655|NCT02028676|184532795|SUPERIORITY_OR_OTHER|||||||0.34||||||Global test with 2df, adjusted for randomization stratification factors|Log Rank|||||||0.34
92314656|NCT02028676|184532795|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.19|TWO_SIDED|95.0|0.54|1.13|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||1.13|0.54|0.19
92314657|NCT02028676|184532795|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.25|TWO_SIDED|95.0|0.56|1.16|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||1.16|0.56|0.25
92314658|NCT02028676|184532796|SUPERIORITY_OR_OTHER|||||||0.71|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.71
92314659|NCT02028676|184532796|SUPERIORITY_OR_OTHER|||||||0.58|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.58
92314660|NCT02028676|184532797|SUPERIORITY_OR_OTHER|||||||0.07|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.07
92314661|NCT02028676|184532797|SUPERIORITY_OR_OTHER|||||||0.9|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.90
92314662|NCT02028676|184532798|SUPERIORITY_OR_OTHER|||||||0.64|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.64
92314663|NCT02028676|184532798|SUPERIORITY_OR_OTHER|||||||0.3|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.30
92314664|NCT02028676|184532799|SUPERIORITY_OR_OTHER|||||||0.45|||||||Regression, Linear|Adjusted for randomization stratification factors||||||0.45
92191589|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9543||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.9543
92191590|NCT00141271|184281971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3153||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.3153
92314665|NCT02028676|184532800|SUPERIORITY_OR_OTHER|||||||0.7|||||||Regression, Linear|Adjusted for randomization stratification factors||||||0.70
92314666|NCT02028676|184532801|SUPERIORITY_OR_OTHER|||||||0.59||0.0|||||Regression, Linear|Adjusted for randomization stratification factors||||||0.59
92314667|NCT02028676|184532801|SUPERIORITY_OR_OTHER|||||||0.01|||||||Regression, Linear|Global test with 2df, adjusted for randomization stratification factors||||||0.01
92314668|NCT02028676|184532802|SUPERIORITY_OR_OTHER|||||||0.81|||||||Regression, Linear|Adjusted for randomization stratification factors||||||0.81
92314669|NCT02028676|184532802|SUPERIORITY_OR_OTHER|||||||0.03|||||||Regression, Linear|Global test with 2df, adjusted for randomization stratification factors||||||0.03
92314670|NCT02028676|184532803|SUPERIORITY_OR_OTHER|||||||0.86|||||||Chi-squared|||||||0.86
92314671|NCT02028676|184532803|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared|||||||0.02
92314672|NCT02028676|184532804|SUPERIORITY_OR_OTHER|||||||0.2|||||||Chi-squared|||||||0.20
92314673|NCT02028676|184532804|SUPERIORITY_OR_OTHER|||||||0.002|||||||Chi-squared|||||||0.002
92314674|NCT02028676|184532805|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.22|TWO_SIDED|95.0|0.48|1.29|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.29|0.48|0.22
92314675|NCT02028676|184532806|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.672||||0.09|TWO_SIDED|95.0|0.42|1.075|||Log Rank||Hazard ratio is CDM vs LCM|||1.075|0.420|0.09
92314676|NCT02028676|184532806|SUPERIORITY_OR_OTHER|||||||0.04|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.04
92314677|NCT02028676|184532806|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.16||||0.017|TWO_SIDED|95.0|1.15|4.08|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||4.08|1.15|0.017
92314678|NCT02028676|184532806|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.0||||0.034|TWO_SIDED|95.0|1.05|3.8|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||3.80|1.05|0.034
92314679|NCT02028676|184532807|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.04|TWO_SIDED|95.0|1.02|1.66|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.66|1.02|0.04
92314680|NCT02028676|184532807|SUPERIORITY_OR_OTHER|||||||0.53|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.53
92314681|NCT02028676|184532807|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.6|TWO_SIDED|95.0|0.68|1.25|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||1.25|0.68|0.60
92314682|NCT02028676|184532807|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.56|TWO_SIDED|95.0|0.81|1.46|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||1.46|0.81|0.56
92314683|NCT02028676|184532808|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.84|TWO_SIDED|95.0|0.58|1.56|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.56|0.58|0.84
92314684|NCT02028676|184532808|SUPERIORITY_OR_OTHER|||||||0.002|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.002
92314685|NCT02028676|184532808|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.8||||0.001|TWO_SIDED|95.0|1.74|8.29|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||8.29|1.74|0.001
92314686|NCT02028676|184532808|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.09||||0.006|TWO_SIDED|95.0|1.39|6.85|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||6.85|1.39|0.006
92314687|NCT02028676|184532809|SUPERIORITY_OR_OTHER|||||||0.53|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.53
92314688|NCT02028676|184532809|SUPERIORITY_OR_OTHER|||||||0.46|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.46
92314689|NCT02028676|184532810|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.3||||0.52|TWO_SIDED|95.0|-9.3|4.7|||Chi-squared|||||4.7|-9.3|0.52
92314690|NCT02028676|184532811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.39|TWO_SIDED|95.0|-1.2|0.5|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||0.5|-1.2|0.39
92314691|NCT02028676|184532812|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.98|TWO_SIDED|95.0|-0.9|0.9|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||0.9|-0.9|0.98
92314692|NCT02028676|184532813|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.12|TWO_SIDED|95.0|-1.9|0.2|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||0.2|-1.9|0.12
92314693|NCT02028676|184532814|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.0||||0.82|TWO_SIDED|95.0|-60.0|76.0|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||76|-60|0.82
92314694|NCT02028676|184532815|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-33.0||||0.36|TWO_SIDED|95.0|-104.0|38.0|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||38|-104|0.36
92314695|NCT02028676|184532816|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-87.0||||0.2|TWO_SIDED|95.0|-220.0|46.0|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||46|-220|0.20
92314696|NCT02028676|184532818|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43||||0.2|TWO_SIDED|95.0|0.11|1.64|||Log Rank||Hazard ratio is once-daily vs twice-daily|||1.64|0.11|0.20
92314697|NCT02028676|184532819|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.51|TWO_SIDED|95.0|0.31|1.77|||Log Rank||Hazard ratio is once-daily vs twice-daily|||1.77|0.31|0.51
92314698|NCT02028676|184532820|SUPERIORITY_OR_OTHER|||||||0.16|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.16
92314699|NCT02028676|184532821|SUPERIORITY_OR_OTHER|||||||0.54|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.54
92314700|NCT02028676|184532822|SUPERIORITY_OR_OTHER|||||||0.08|||||||Generalised estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.08
92314701|NCT02028676|184532823|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.82|TWO_SIDED|95.0|0.72|1.52|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is once-daily vs twice-daily|||1.52|0.72|0.82
92314702|NCT02028676|184532824|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.31|TWO_SIDED|95.0|0.48|1.27|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is once-daily vs twice-daily|||1.27|0.48|0.31
92314703|NCT02028676|184532825|SUPERIORITY_OR_OTHER|||||||0.74|||||||Chi-squared|||||||0.74
92314704|NCT02028676|184532826|SUPERIORITY_OR_OTHER|||||||0.9|||||||Chi-squared|||||||0.90
92314705|NCT02028676|184532827|SUPERIORITY_OR_OTHER|||||||0.93|||||||Generalized estimating equations|Generalised estimating equation with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.93
92314706|NCT02028676|184532828|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.21|||<|0.001|TWO_SIDED|95.0|1.5|3.25|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||3.25|1.50|<0.001
92314707|NCT02028676|184532829|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.47||||0.44|TWO_SIDED|95.0|0.56|3.85|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||3.85|0.56|0.44
92314708|NCT02028676|184532830|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.4||||0.03|TWO_SIDED|95.0|1.05|5.48|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||5.48|1.05|0.03
92314709|NCT02028676|184532831|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.98||||0.18|TWO_SIDED|95.0|0.44|35.7|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||35.7|0.44|0.18
92314710|NCT02028676|184532832|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8||||0.34|TWO_SIDED|95.0|0.53|6.17|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||6.17|0.53|0.34
92314711|NCT02028676|184532833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.68|TWO_SIDED|95.0|0.12|4.15|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||4.15|0.12|0.68
92314712|NCT02028676|184532834|SUPERIORITY_OR_OTHER|||||||0.07|||||||Generalised estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.07
92314713|NCT02028676|184532835|SUPERIORITY_OR_OTHER|||||||0.19|||||||Generalised estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.19
92314714|NCT02028676|184532836|SUPERIORITY_OR_OTHER|||||||0.34|||||||Generalised estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.34
92314715|NCT02028676|184532837|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.13|TWO_SIDED|95.0|-1.4|0.2|||Regression, Linear|Adjusted for randomization stratification factors|Difference is stop minus continue|||0.2|-1.4|0.13
92314716|NCT02028676|184532838|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.0||||0.68|TWO_SIDED|95.0|-65.0|42.0|||Regression, Linear|Adjusted for randomization stratification factors|Difference is stop minus continue|||42|-65|0.68
92314717|NCT02028676|184532839|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.04|TWO_SIDED|95.0|1.02|2.5|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||2.50|1.02|0.04
92314718|NCT02028676|184532840|SUPERIORITY_OR_OTHER|||||||0.21||||||Adjusted for randomization stratification factors|Generalised estimating equation|Generalised estimating equation with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.21
92314719|NCT00852202|184532842|SUPERIORITY|||||||0.7408|||||||ANCOVA|||||||0.7408
92314720|NCT00852202|184532842|SUPERIORITY|||||||0.9961|||||||ANCOVA|||||||0.9961
92314721|NCT00852202|184532843|SUPERIORITY|||||||0.3441|||||||ANCOVA|||||||0.3441
92314722|NCT00852202|184532843|SUPERIORITY|||||||0.2683|||||||ANCOVA|||||||0.2683
92314723|NCT01263938|184532936|OTHER|||||||0.625||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||0.625
92314724|NCT01263938|184532936|OTHER|||||||0.813||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||0.813
92314725|NCT01263938|184532936|OTHER||||||>|0.999||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||>0.999
92314726|NCT01263938|184532937|OTHER||||||>|0.999||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||>0.999
92314727|NCT01263938|184532938|OTHER|||||||0.813||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||0.813
92314728|NCT01263938|184532939|OTHER|||||||0.625||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||0.625
92314729|NCT01111318|184532976|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|123.15|STANDARD_DEVIATION|29.0|||TWO_SIDED|90.0|98.89|153.36|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as mild divided by healthy||153.36|98.89|
92314730|NCT01111318|184532976|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|146.97|STANDARD_DEVIATION|29.0|||TWO_SIDED|90.0|118.02|183.02|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as moderate divided by healthy||183.02|118.02|
92314731|NCT01111318|184532976|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|174.7|STANDARD_DEVIATION|29.0|||TWO_SIDED|90.0|140.29|217.55|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as severe divided by healthy||217.55|140.29|
92314732|NCT01111318|184532977|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|103.81|STANDARD_DEVIATION|30.7|||TWO_SIDED|90.0|82.29|130.95|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as mild divided by healthy||130.95|82.29|
92314733|NCT01111318|184532977|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|123.31|STANDARD_DEVIATION|30.7|||TWO_SIDED|90.0|97.74|155.55|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as moderate divided by healthy||155.55|97.74|
92314734|NCT01111318|184532977|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|148.41|STANDARD_DEVIATION|30.7|||TWO_SIDED|90.0|117.65|187.23|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as severe divided by healthy||187.23|117.65|
92314735|NCT00725491|184533016|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Whitehead|||||||<0.001
92314736|NCT00897715|184533024|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|TWO_SIDED|||||0.05 is the a priori threshold for statistical significance|ANCOVA|||For the primary specific aim, we will compare the mean percent change on hsCRP between the intervention arm and the placebo arm using linear regression. We anticipate that the intervention will conservatively decrease hsCRP by 54%; whereas, placebo will have no effect. Accordingly, we have estimated that we will need 24 subjects in the experimental arm and 24 controls to have an 80% power, with an alpha of 0.05 to detect the above mentioned effect size.||||0.03
92314737|NCT00897715|184533025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED|||||0.05 is the a priori threshold for statistical significance|ANCOVA|||||||0.01
92314738|NCT01641640|184533026|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Binomial exact test|||Superiority would be demonstrated if the SVR12 rate was higher than the 60% null SVR rate based on historical control data.||||< 0.001
92314739|NCT03535740|184533096|OTHER|||||||0.0763||||||P-value was based on the comparison of the confirm ORR among the 90/180mg group against a fixed response rate of 20%.|Exact Binomial Test|The calculation was based on an exact binomial test with a total 1-sided alpha level of 0.025 at primary analysis.||||||0.0763
92191591|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2878||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.2878
92191592|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4481||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.4481
92314740|NCT01870778|184533134|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.3857|TWO_SIDED|95.0|0.83|1.15||Adjusted alpha p-value based on multiple testing procedure.|Log Rank|One-sided p-value||||1.15|0.83|0.3857
92314741|NCT01870778|184533135|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.0968|TWO_SIDED|95.0|0.75|1.07||Adjusted p-value based on multiple testing procedure|Gehan's generalized Wilcoxon test|One-sided p-value||||1.07|0.75|0.0968
92314742|NCT01870778|184533136|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.389|TWO_SIDED|95.0|0.81|1.08|||Log Rank|2-sided p-value||||1.08|0.81|0.3890
92314743|NCT01870778|184533137|SUPERIORITY|||||||0.2204||||||Based on multiple testing procedure|Wilcoxon rank sum test|One-sided p-value||||||0.2204
92314744|NCT01870778|184533138|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.2744|TWO_SIDED|95.0|0.88|1.07||Adjusted p-value based on multiple testing procedure|Log Rank|||||1.07|0.88|0.2744
92191593|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4099||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.4099
92314745|NCT01870778|184533139|SUPERIORITY|||||||0.2103|||||||Wilcoxon rank sum test|2-sided p-value||||||0.2103
92314746|NCT01870778|184533140|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.005|TWO_SIDED|95.0|1.02|1.14|||Log Rank|2-sided p-value||Exertional dyspnea||1.14|1.02|0.0050
92314747|NCT01870778|184533140|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.0051|TWO_SIDED|95.0|1.02|1.14|||Log Rank|2-sided p-value||Orthopnea||1.14|1.02|0.0051
92314748|NCT01870778|184533140|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9962|TWO_SIDED|95.0|0.95|1.05|||Log Rank|2-sided p-value||Rales||1.05|0.95|0.9962
92314749|NCT01870778|184533140|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.0196|TWO_SIDED|95.0|1.01|1.15|||Log Rank|2-sided p-value||Jugular venous pressure||1.15|1.01|0.0196
92314750|NCT01870778|184533140|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.2158|TWO_SIDED|95.0|0.98|1.1|||Log Rank|2-sided p-value||Peripheral edema, pre-sacral edema||1.10|0.98|0.2158
92314751|NCT01870778|184533141|SUPERIORITY||Ratio of RLX030 to placebo|0.9401||||0.0209|TWO_SIDED|95.0|0.8921|0.9907|||Repeated measures model|||Day 2||0.9907|0.8921|0.0209
92314752|NCT01870778|184533141|SUPERIORITY||Ratio of RLX030 to placebo|0.898||||0.0034|TWO_SIDED|95.0|0.8358|0.9649|||Repeated measures model|||Day 5||0.9649|0.8358|0.0034
92314753|NCT01870778|184533141|SUPERIORITY||Ratio of RLX030 to placebo|0.9074||||0.0209|TWO_SIDED|95.0|0.8355|0.9854|||Repeated measures model|||Day 14||0.9854|0.8355|0.0209
92314754|NCT01870778|184533142|SUPERIORITY||Ratio of RLX030 to placebo|0.8597||||0.0007|TWO_SIDED|95.0|0.7876|0.9385|||Repeated measures model|||Day 2||0.9385|0.7876|0.0007
92314755|NCT01870778|184533142|SUPERIORITY||Ratio of RLX030 to placebo|0.9539||||0.3709|TWO_SIDED|95.0|0.86|1.0579|||Repeated measures model|||Day 5||1.0579|0.8600|0.3709
92314756|NCT01870778|184533142|SUPERIORITY||Ratio of RLX030 to placebo|0.9543||||0.3893|TWO_SIDED|95.0|0.8578|1.0617|||Repeated measures model|||Day 14||1.0617|0.8578|0.3893
92191594|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5093||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value.||Week 2||||0.5093
92191595|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8048||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value.||Week 3||||0.8048
92191596|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0552||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.0552
92314757|NCT01870778|184533143|SUPERIORITY||Ratio of RLX030 to placebo|0.9637||||0.0003|TWO_SIDED|95.0|0.9447|0.983|||Repeated measures model|||Day 2||0.9830|0.9447|0.0003
92314758|NCT01870778|184533143|SUPERIORITY||Ratio of RLX030 to placebo|0.9922||||0.5361|TWO_SIDED|95.0|0.9677|1.0172|||Repeated measures model|||Day 5||1.0172|0.9677|0.5361
92314759|NCT01870778|184533143|SUPERIORITY||Ratio of RLX030 to placebo|0.9863||||0.375|TWO_SIDED|95.0|0.9567|1.0169|||Repeated measures model|||Day 14||1.0169|0.9567|0.3750
92314760|NCT05317312|184533144|SUPERIORITY||Mean Difference (Final Values)|18.7|STANDARD_ERROR_OF_MEAN|12.08||0.123|TWO_SIDED|95.0|-5.2|42.7|||Emax||The estimated difference between 1.25mg bid and placebo is based on the Emax model. The values that appear in the Outcome Measure Data Table are observed values.|||42.7|-5.2|0.123
92314761|NCT05317312|184533144|SUPERIORITY||Mean Difference (Final Values)|34.7|STANDARD_ERROR_OF_MEAN|10.25|<|0.001|TWO_SIDED|95.0|14.4|55.0|||Emax||||The estimated difference between 5mg bid and placebo is based on the Emax model. The values that appear in the Outcome Measure Data Table are observed values.|55.0|14.4|<0.001
92314762|NCT05317312|184533144|SUPERIORITY||Mean Difference (Final Values)|42.8|STANDARD_ERROR_OF_MEAN|9.53|<|0.001|TWO_SIDED|95.0|23.9|61.7|||Emax||The estimated difference between 15mg bid and placebo is based on the Emax model. The values that appear in the Outcome Measure Data Table are observed values.|||61.7|23.9|<0.001
92268055|NCT04633434|184438184|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.13||0.104|TWO_SIDED||||||t-test, 2 sided|||||||.104
92268056|NCT04633434|184438187|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.19||0.106|TWO_SIDED||||||t-test, 2 sided|||||||.106
92268057|NCT04633434|184438188|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.19||0.005|TWO_SIDED||||||t-test, 2 sided|||||||.005
92191597|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9795||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.9795
92191598|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5073||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.5073
92191599|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4882||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.4882
92191600|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3967||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.3967
92191601|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8276||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.8276
92191602|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8502||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.8502
92191603|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6343||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.6343
92314763|NCT05317312|184533145|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-2.0|0.2|||||The estimated difference between 1.5mg bid and placebo is based on Mixed Model Repeated Measures.The values in the Outcome Measure Data are observed mean values.|||0.2|-2.0|
92191604|NCT00141271|184281972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3082||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.3082
92191605|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6932||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.6932
92191606|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0287||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.0287
92191607|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2128||95.0||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.2128
92191608|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1118||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.1118
92191609|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6144||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.6144
92191610|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0899||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.0899
92191611|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8819||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.8819
92191612|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8374||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.8374
92191613|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3925||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.3925
92191614|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4182||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.4182
92314764|NCT05317312|184533145|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-1.8|0.4|||||The estimated difference between 5mg bid and placebo is based on Mixed Model Repeated Measures. The values in the Outcome Measure Data are observed mean values|||0.4|-1.8|
92191615|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8586||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.8586
92191616|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.549||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.5490
92314765|NCT05317312|184533145|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-1.9|0.3|||||The estimated difference between 15mg bid and placebo is based on Mixed Model Repeated Measures.. The values in the Outcome Measure Data are observed mean values|||0.3|-1.9|
92314766|NCT05317312|184533146|SUPERIORITY|||||||0.036|||||||Log Rank|||||||0.036
92314767|NCT05317312|184533146|SUPERIORITY|||||||0.006|||||||Log Rank|||||||0.006
92314768|NCT05317312|184533146|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92314769|NCT05317312|184533147|SUPERIORITY|||||||0.411|||||||Log Rank|||||||0.411
92314770|NCT05317312|184533147|SUPERIORITY|||||||0.383|||||||Log Rank|||||||0.383
92314771|NCT05317312|184533147|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92314772|NCT05317312|184533148|SUPERIORITY||Risk Difference (RD)|27.4||||0.042|TWO_SIDED|95.0|2.0|52.7|||Chi-squared|||||52.7|2.0|0.042
92314773|NCT05317312|184533148|SUPERIORITY||Risk Difference (RD)|34.5||||0.01|TWO_SIDED|95.0|9.7|59.3|||Chi-squared|||||59.3|9.7|0.01
92314774|NCT05317312|184533148|SUPERIORITY||Risk Difference (RD)|51.9|||<|0.001|TWO_SIDED|95.0|29.6|74.1|||Chi-squared|||||74.1|29.6|<0.001
92314775|NCT05317312|184533149|SUPERIORITY||Risk Difference (RD)|-31.2||||0.019|TWO_SIDED|95.0|-55.9|-6.5|||Chi-squared|||||-6.5|-55.9|0.019
92314776|NCT05317312|184533149|SUPERIORITY||Risk Difference (RD)|-16.9||||0.187|TWO_SIDED|95.0|-41.6|7.8|||Chi-squared|||||7.8|-41.6|0.187
92314777|NCT05317312|184533149|SUPERIORITY||Risk Difference (RD)|-44.4||||0.001|TWO_SIDED|95.0|-68.3|20.6|||Chi-squared|||||20.6|-68.3|0.001
92314778|NCT01805089|184533155|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92314779|NCT00951496|184533163|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Study was designed to provide 80% power when arm II reduces the progression free survival event rate 20%. The critical p-value accounts for correlation between 2 primary hypotheses.|Hazard Ratio (HR)|0.94||||0.341|TWO_SIDED|95.0|0.81|1.09||P value not adjusted for multiplicity. Significance Threshold = 0.027|Log Rank|Stratified by stage of disease and size of residual disease.|Progression free survival of arm II relative to arm I. Adjusted for stage of disease and residual size.|P value.(an P value is used to determine statistical significance in a hypothesis test). from a stratified log rank test to assess equality of progression free survival hazards of arm II and arm I||1.09|0.81|0.341
92314780|NCT00951496|184533163|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Study was designed to provide 80% power when arm III reduced the true progression free survival event rate. 20% compared to arm I. Critical p value accounts for correlation between 2 primary hypotheses.|Hazard Ratio (HR)|0.99||||0.587|TWO_SIDED|95.0|0.86|1.15||P value not adjusted for multiplicity. Significance threshold = 0.027 accounting for 2 correlated primary hypotheses.|Log Rank|Stratified by stage of disease and size of residual disease.|Progression free survival hazard of arm III to arm I. Adjusted for stage of disease and residual disease size.|P value from a log rank test comparing the progression free survival hazards of arm III to arm I.||1.15|0.86|0.587
92314781|NCT01875978|184533170|SUPERIORITY_OR_OTHER||||||<|0.05||||||P-value \<0.05 is significance meaningful.|t-test, 1 sided|Student's t-test, 1 sided||Hypothesis: phytosterols improve metabolic status||||<0.05
92314782|NCT01875978|184533171|SUPERIORITY_OR_OTHER||||||<|0.05||||||P value \<0.05 for statistical significance|t-test, 1 sided|Student's t test, 1 sided||Hypothesis: phytosterols increase the anti-oxidative capacity.||||<0.05
92314783|NCT01875978|184533172|SUPERIORITY_OR_OTHER||||||<|0.05||||||P\<0.05 for statistical significance|t-test, 1 sided|Student's t test, 1 sided||Phytosterols increase IGF-1||||<0.05
92314784|NCT01875978|184533173|SUPERIORITY_OR_OTHER||||||<|0.05||||||P value \<0.05 for statistical significance|t-test, 1 sided|Student's t-test, 1 sided||Hypothesis:phytosterols increase endothelial progenitor cells to provide endothelial repair and vessel protection||||<0.05
92314785|NCT04870710|184533181|SUPERIORITY||Median Difference (Net)|0.1||||0.1|TWO_SIDED||||||Friedman||||Non-parametric tests were used consisting of Friedman and Durbin Conover tests|||0.10
92314786|NCT01866098|184533201|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.83
92314787|NCT01866098|184533202|SUPERIORITY|||||||0.1|||||||Chi-squared|||||||0.10
92314788|NCT01866098|184533203|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.19
92314789|NCT01866098|184533204|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.96
92314790|NCT01866098|184533205|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.92
92314791|NCT01866098|184533206|SUPERIORITY|||||||0.98|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.98
92314792|NCT01866098|184533207|SUPERIORITY|||||||0.95|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.95
92314793|NCT01866098|184533208|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.43
92314794|NCT01184079|184533236|NON_INFERIORITY_OR_EQUIVALENCE|"Sample size: (1 + 1/u)(Zα + Zβ)2 σ2 /\[log (RGMT) -δ0\] u= ratio of the size of the Standard schedule to Alternate schedule groups (u =1, for equal size groups); one-sided alpha (0.025)/4 for multiplicity of serotypes. Average log-transformed and geometric mean titers (GMTs) with a two-sided 95% confidence interval of the ratio of the GMTs were used.~Non-inferiority is determined if upper bound GMT ratio of standard group to alternate group \< 1.5."|largest upper bound GMT ratio|0.82|||||||||||||Non-inferiority is determined if upper bound GMT ratio of standard 6 month group to alternate 12 month group \< 1.5.|The primary endpoint would demonstrate noninferiority if the upper bound of the 95% two-sided confidence interval (CI) of the ratio of GMT for Standard schedule group divided by that of Alternate schedule group is \<1.5.||||
92314795|NCT01184079|184533238|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Chi-squared|||null hypothsesis: no difference in proportion of side effects reported between groups||||0.26
92314796|NCT03417687|184533239|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-14.7%, +14.7%).|Mean Difference (Net)|1.4|STANDARD_DEVIATION|5.9|||TWO_SIDED|95.0|-0.75|3.6||||||The primary efficacy analysis tested the mean difference in the predicted percentage of remaining pulmonary function as measured by 129Xe MRI relative to the value as measured by 133Xe scintigraphy (reference standard) if a pre-defined section of lung were resected.||3.60|-0.75|
92314797|NCT03417687|184533241|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|3.71|STANDARD_DEVIATION|4.39|||TWO_SIDED|95.0|2.12|5.29||||||||5.29|2.12|
92314798|NCT03417687|184533242|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|0.39|STANDARD_DEVIATION|2.4|||TWO_SIDED|95.0|-0.476|1.26||||||||1.26|-0.476|
92314799|NCT03417687|184533243|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|1.35|STANDARD_DEVIATION|3.22|||TWO_SIDED|95.0|0.184|2.505||||||||2.505|0.184|
92314800|NCT03417687|184533244|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|-0.96|STANDARD_DEVIATION|3.16|||TWO_SIDED|95.0|-2.101|0.181||||||||0.181|-2.101|
92314801|NCT03417687|184533245|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|-2.721|STANDARD_DEVIATION|3.82|||TWO_SIDED|95.0|-4.096|-1.345||||||||-1.345|-4.096|
92314802|NCT03417687|184533246|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|-1.76|STANDARD_DEVIATION|3.96|||TWO_SIDED|95.0|-3.192|-0.335||||||||-0.335|-3.192|
92314803|NCT00619060|184533261|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|95.0|||||Binomial|||||||0.01
92314804|NCT01808573|184533262|SUPERIORITY||Hazard Ratio (HR)|0.762||||0.0059|TWO_SIDED|95.0|0.626|0.926|||Log Rank|Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting, and visceral disease vs. non-visceral.|Lapatinib Plus Capecitabine is the reference. Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting, and visceral disease vs. non-visceral.|||0.926|0.626|0.0059
92314805|NCT01808573|184533263|SUPERIORITY||Hazard Ratio (HR)|0.881||||0.2086|TWO_SIDED|95.0|0.723|1.073|||Log Rank|Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting, and visceral disease vs. non-visceral.|Lapatinib plus Capecitabine is the reference. Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting, and visceral disease vs. non-visceral.|||1.073|0.723|0.2086
92314806|NCT01808573|184533264|SUPERIORITY|||||||0.043|||||||Gray's test|Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting and visceral disease vs. non-visceral disease.||||||0.043
92314807|NCT01808573|184533265|SUPERIORITY|||||||0.1201|||||||Cochran-Mantel-Haenszel|Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting and visceral disease vs. non-visceral.||||||0.1201
92314808|NCT01808573|184533266|SUPERIORITY|||||||0.0328|||||||Cochran-Mantel-Haenszel|Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting and visceral disease vs. non-visceral.||||||0.0328
92314809|NCT01808573|184533267|SUPERIORITY||Hazard Ratio (HR)|0.495||||0.0004|TWO_SIDED|95.0|0.332|0.736|||Log Rank||Lapatinib Plus Capecitabine is the reference.|||0.736|0.332|0.0004
92314810|NCT02487225|184533269|SUPERIORITY|||||||0.5796|||||||Kruskal-Wallis|||Admission (baseline)||||0.5796
92314811|NCT02487225|184533269|SUPERIORITY|||||||0.8415|||||||Kruskal-Wallis|||Day 5||||0.8415
92314812|NCT02487225|184533270|SUPERIORITY|||||||0.1109|||||||Kruskal-Wallis|||Admission (baseline)||||0.1109
92314813|NCT02487225|184533270|SUPERIORITY|||||||0.4619|||||||Kruskal-Wallis|||||||0.4619
92314814|NCT02487225|184533271|SUPERIORITY|||||||0.1236|||||||Kruskal-Wallis|||Admission (baseline)||||0.1236
92314815|NCT02487225|184533271|SUPERIORITY|||||||0.9468|||||||Kruskal-Wallis|||Day 5||||0.9468
92314816|NCT02487225|184533272|SUPERIORITY|||||||0.157|||||||Kruskal-Wallis|||Admission (baseline)||||0.157
92314817|NCT02487225|184533272|SUPERIORITY|||||||0.3173|||||||Kruskal-Wallis|||Day 5||||0.3173
92314818|NCT00395161|184533294|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Log Rank|Two-sided logrank test was used, stratified by immune compromised status at study entry (a factor also used to stratify the study randomization)||Null hypothesis was equal median time in both arms. Sample size calculated to yield 90% power to detect a significant effect, assuming inverse hazard rate of 1.5 using two-sided logrank test with alpha=0.05. This required recruitment until 263 patients with an event were enrolled (though the study was terminated early for futility by the DSMB).||||0.29
92314819|NCT00395161|184533295|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||Rate analysis (see comments)|95% CIs were calculated for rates in each arm, and rates compared between arms, via approach of DR Cox, Biometrika (1953), vol 40, pp. 354-60.||Null hypothesis of equal event rates in the two study arms.||||0.81
92314820|NCT00395161|184533296|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.09
92314821|NCT00395161|184533297|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Chi-squared|||||||0.07
92314822|NCT00395161|184533298|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Chi-squared|||||||0.16
92314823|NCT02575833|184533347|NON_INFERIORITY|The non-inferiority margin was -90 seconds.|Treatment Difference|-11.0|STANDARD_ERROR_OF_MEAN|20.4|||TWO_SIDED|90.0|-44.9|22.9||||||The primary endpoint was analyzed using an analysis of variance model with terms for treatment group and randomization strata (\< 7 or ≥ 7 minutes). If the lower bound of the 90% confidence interval (CI) of the difference in change from baseline in exercise duration was above the non-inferiority margin of -90 seconds, then the hypothesis that erenumab does not decrease exercise duration would be supported.||22.9|-44.9|
92314824|NCT02575833|184533348|SUPERIORITY|The log-rank test statistic was used to compare the two treatment groups at a significance level of 0.10.|Normal score|1.55||||0.69|||||||Stratified Log Rank|Log rank test stratified by baseline total exercise time strata (\< 7 minutes or ≥ 7 minutes).|A normal score \< 0 indicates fewer than expected events for erenumab 140 mg relative to placebo and therefore a longer survival time.|||||0.69
92314825|NCT02575833|184533348|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.69|TWO_SIDED|90.0|0.73|1.69|||Cox Proportional Hazard|Adjusted by stratified baseline total exercise time strata (\< 7 or ≥ 7 minutes)|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced angina free survival for erenumab 140 mg relative to placebo.|||1.69|0.73|0.69
92314826|NCT02575833|184533348|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.44|TWO_SIDED|90.0|0.52|1.26|||Cox Proportional Hazard|Adjusted by continuous baseline total exercise time|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced angina free survival for erenumab 140 mg relative to placebo.|||1.26|0.52|0.44
92314827|NCT02575833|184533348|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.47|TWO_SIDED|90.0|0.52|1.28|||Cox Proportional Hazard|Adjusted by baseline total exercise time strata (\< 7 or ≥ 7 minutes), age group (\< 65, ≥ 65), and sex.|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced angina free survival for erenumab 140 mg relative to placebo.|||1.28|0.52|0.47
92314828|NCT02575833|184533349|SUPERIORITY|The log-rank test statistic was used to compare the two treatment groups at a significance level of 0.10.|Normal score|2.2||||0.59|||||||Stratified Log Rank|Log rank test stratified by baseline total exercise time strata (\< 7 minutes or ≥ 7 minutes).|A normal score \< 0 indicates fewer than expected events for erenumab 140 mg relative to placebo and therefore a longer survival time.|||||0.59
92314829|NCT02575833|184533349|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.59|TWO_SIDED|90.0|0.76|1.69|||Cox Proportional Hazard|Adjusted by stratified baseline total exercise time strata (\< 7 or ≥ 7 minutes)|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced ST-segment depression free survival for erenumab 140 mg relative to placebo.|||1.69|0.76|0.59
92314830|NCT02575833|184533349|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.75|TWO_SIDED|90.0|0.73|1.6|||Cox Proportional Hazard|Adjusted by continuous baseline total exercise time|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced ST-segment depression free survival for erenumab 140 mg relative to placebo.|||1.60|0.73|0.75
92314831|NCT02575833|184533349|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.39|TWO_SIDED|90.0|0.82|1.87|||Cox Proportional Hazard|Adjusted by baseline total exercise time strata (\< 7 or ≥ 7 minutes), age group (\< 65, ≥ 65), and sex.|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced ST-segment depression free survival for erenumab 140 mg relative to placebo.|||1.87|0.82|0.39
92314832|NCT03093259|184533350|OTHER|One-sided 10% significance level||||||0.2096|||||||Chi-squared|||||||0.2096
92314833|NCT03093259|184533351|OTHER|||||||0.1588|||||||Chi-squared|||||||0.1588
92314834|NCT03093259|184533352|OTHER|||||||0.483|||||||ANCOVA|||||||0.4830
92314835|NCT03093259|184533353|OTHER|||||||0.0742|||||||ANCOVA|||||||0.0742
92314836|NCT03093259|184533354|OTHER|||||||0.0462|||||||ANCOVA|||||||0.0462
92191617|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6292||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.6292
92191618|NCT00141271|184281973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1473||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.1473
92191619|NCT00141271|184281974|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2058||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.2058
92191620|NCT00141271|184281974|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9254||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.9254
92314837|NCT03051672|184533363|SUPERIORITY|||||||||||||The study terminated at stage 1 and no p-value was estimated.||||The study uses a Simon 2-stage design. In stage 1, if \>/=1 of 8 achieved OR then continue to stage 2 (enroll 19 more). If \>/= 3 of 27 respond, the regimen would be considered promising. The null ORR\<= 3% and alternative ORR\>/=20%. With this design, the probability of stopping the trial early is 58% if the true ORR is 3%. This design at 80% power to declare the combination effective, while controlling for less than 5% 1-sided type I error under the null hypothesis.|The study terminated at stage 1 and no p-value was estimated.|||
92314838|NCT01328184|184533378|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as Microgynon plus empa divided by Microgynon|Geometric Mean Ratio|102.82|STANDARD_DEVIATION|9.0|||TWO_SIDED|90.0|97.58|108.35|||ANOVA|Based on ANOVA with fixed term for treatment and random term for subject.|Standard deviation is actually the geometric coefficient of variation (gCV)|No formal testing, investigation of relative bioavailability.||108.35|97.58|
92314839|NCT01328184|184533379|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as Microgynon plus empa divided by Microgynon|Geometric Mean Ratio|101.94|STANDARD_DEVIATION|5.9|||TWO_SIDED|90.0|98.54|105.47|||ANOVA|Based on ANOVA with fixed term for treatment and random term for subject.|Standard deviation is actually the geometric coefficient of variation (gCV)|No formal testing, investigation of relative bioavailability.||105.47|98.54|
92314840|NCT01328184|184533380|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as Microgynon plus empa divided by Microgynon|Geometric Mean Ratio|99.22|STANDARD_DEVIATION|10.4|||TWO_SIDED|90.0|93.4|105.39|||ANOVA|Based on ANOVA with fixed term for treatment and random term for subject.|Standard deviation is actually the geometric coefficient of variation (gCV).|No formal testing, investigation of relative bioavailability.||105.39|93.40|
92314841|NCT01328184|184533381|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as Microgynon plus empa divided by Microgynon|Geometric Mean Ratio|105.81|STANDARD_DEVIATION|10.7|||TWO_SIDED|90.0|99.47|112.55|||ANOVA|Based on ANOVA with fixed term for treatment and random term for subject.|Standard deviation is actually the geometric coefficient of variation (gCV)|No formal testing, investigation of relative bioavailability.||112.55|99.47|
92314842|NCT05120193|184533413|NON_INFERIORITY|The primary safety analysis is performed at a one-sided Type I error rate of α = 0.05. The Farrington-Manning method is used to calculate the upper 95% confidence bound for the difference (QI - QC) between the rate of the primary safety endpoint in the investigational arm (QI) and the rate of the primary safety endpoint in the control arm (QC). If the upper confidence bound is less than 0.08, the study is considered to have demonstrated safety of the investigational device.|Risk Difference (RD)|0.005|||<|0.0001|TWO_SIDED|90.0|-0.028|0.037|||Farrington-Manning|||"The null hypothesis (H0) for the primary safety analysis is that the true rate of primary safety events for the investigational device (QI) is equal to or greater than the true rate for the control device (QC) plus a non-inferiority margin (NIM) of 0.08. The alternative hypothesis (HA) is that the rate of primary safety events for the investigational arm (QI) is less than the rate of primary safety events for the control arm (QC) plus the NIM of 0.08.~H0: QI ≥ QC + 0.08 HA: QI \< QC + 0.08"||0.037|-0.028|<0.0001
92314843|NCT05120193|184533414|NON_INFERIORITY|The primary effectiveness analysis (PSE) is performed at a one-sided Type I error rate of α = 0.025. The Farrington-Manning method is used to calculate the lower 97.5% confidence bound for the difference (PI - PC) between the rate of the PSE in the investigational arm (PI) and the rate of the PSE in the control arm (PC). If the lower confidence bound is greater than -0.15, the study is considered to have demonstrated effectiveness of the investigational device.|Risk Difference (RD)|0.08||||0.025|TWO_SIDED|95.0|-0.009|0.168|||Farrington-Manning|||"The null hypothesis (H0) is that the true rate of primary effectiveness endpoint success (no failures through Day 360) for the investigational device (PI) is less than or equal to the true rate for the control device (PC) minus the NIM of 0.15. The alternative hypothesis (HA) is that the success rate for the investigational arm (PI) is greater than the success rate for the control device (PC) minus the NIM of 0.15.~H0: PI ≤ PC - 0.15 HA: PI \> PC - 0.15"||0.168|-0.009|0.025
92314844|NCT05120193|184533415|SUPERIORITY||Mean Difference (Final Values)|-29.2|||<|0.0001|TWO_SIDED|95.0|-31.7|-26.8|||t-test, 1 sided|||"The null hypothesis (H0) is that the mean total energy application time during the ablation procedure for the investigational device (ETI) is greater than or equal to the mean time for the control device (ETC). The alternative hypothesis (HA) is that the mean total energy application time for the investigational device is less.~H0: ETI ≥ ETC versus HA: ETI \< ETC"||-26.8|-31.7|<0.0001
92314845|NCT05120193|184533416|SUPERIORITY||Mean Difference (Final Values)|-26.8|||<|0.0001|TWO_SIDED|95.0|-32.2|-21.4|||t-test, 1 sided|||"The null hypothesis (H0) is that the mean treatment time for the investigational device (TTI) is greater than or equal to the mean treatment time for the control device (TTC). The alternative hypothesis (HA) is that the mean treatment time for the investigational device is less.~H0: TTI ≥ TTC versus HA: TTI \< TTC"||-21.4|-32.2|<0.0001
92314846|NCT05120193|184533417|SUPERIORITY||Mean Difference (Final Values)|-25.1||||0.025|TWO_SIDED|95.0|-33.0|-17.3|||t-test, 1 sided|||"The null hypothesis (H0) is that the mean procedure time for the investigational device (PTI) is greater than or equal to the mean procedure time for the control device (PTC). The alternative hypothesis (HA) is that the mean procedure time for the investigational device is less.~H0: PTI ≥ PTC versus HA: PTI \< PTC"||-17.3|-33.0|0.025
92191621|NCT00141271|184281974|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5071||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.5071
92191622|NCT00141271|184281974|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2858||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.2858
92191623|NCT00141271|184281974|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6298||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6298
92314847|NCT03514459|184533437|SUPERIORITY||Prevalence ratio|1.84|||<|0.001|TWO_SIDED|95.0|1.54|2.2|||Poisson regression|Robust standard errors||||2.20|1.54|<0.001
92314848|NCT01321749|184533476|SUPERIORITY_OR_OTHER||||||<|0.05||5.0|||||Log Rank|||||||<0.05
92314849|NCT04179838|184533485|SUPERIORITY|||||||0.001||||||Corrected for multiple comparisons in piriform cortex|t-test, 1 sided|||Null hypothesis is that there was no difference in decoding accuracy between sleep-deprived and non-sleep deprived interventions. Paired t-test on decoding accuracy from both phases (sleep-deprived minus non-sleep deprived) against the null hypothesis of no difference.||||0.001
92191624|NCT00141271|184281974|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6034||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6034
92191625|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1454||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.1454
92191626|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2672||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups.||Week 1||||0.2672
92191627|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2614||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups.||Week 2||||0.2614
92191628|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2143||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.2143
92191629|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6997||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.6997
92191630|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0128||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.0128
92191631|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1144||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.1144
92191632|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1483||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.1483
92191633|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0674||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.0674
92268058|NCT04633434|184438189|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|3.52|STANDARD_ERROR_OF_MEAN|1.9||0.082|TWO_SIDED||||||t-test, 2 sided|||||||.082
92268059|NCT01005680|184438204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.822|TWO_SIDED|95.0|0.77|1.39||HR adjusted for treatment, disease stage, Eastern Cooperative Oncology Group Performance Status (ECOG PS), sex, and basis for initial pathological diagnosis.|Cox Proportional Hazard|||||1.39|0.77|0.822
92268060|NCT01005680|184438205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.64|TWO_SIDED|95.0|0.82|1.37||HR adjusted for treatment, disease stage, Eastern Cooperative Oncology Group Performance Status (ECOG PS), sex and basis for initial pathological diagnosis.|Cox Proportional Hazard|||||1.37|0.82|0.640
92268061|NCT01005680|184438206|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.928|TWO_SIDED|95.0|0.78|1.32||HR adjusted for treatment, disease stage, Eastern Cooperative Oncology Group Performance Status (ECOG PS), sex and biases for initial pathological diagnosis.|Cox Proportional Hazard|||||1.32|0.78|0.928
92268062|NCT01005680|184438207|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.887|TWO_SIDED|95.0|0.51|1.79||HR adjusted for treatment, disease stage, Eastern Cooperative Oncology Group Performance Status (ECOG PS), sex and basis for initial pathological diagnosis.|Cox Proportional Hazard|||||1.79|0.51|0.887
92268063|NCT01005680|184438208|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.861|TWO_SIDED|95.0|0.67|1.61||HR adjusted for treatment, disease stage, Eastern Cooperative Oncology Group Performance Status (ECOG PS), sex and basis for initial pathological diagnosis.|Cox Proportional Hazard|||||1.61|0.67|0.861
92268064|NCT01005680|184438209|SUPERIORITY_OR_OTHER|||||||0.451||95.0|||||two-sided Z test|||||||0.451
92268065|NCT01005680|184438211|SUPERIORITY_OR_OTHER|||||||0.627||95.0|||||two-sided Z test|||||||0.627
92268066|NCT00297882|184438218|NON_INFERIORITY|Non-inferiority of AQ-AS compared to AL was assessed by constructing a one-sided, lower limit asymptotic 97.5% CI on the difference of polymerase chain reaction (PCR)-corrected cure rates of AQ-AS when compared to AL. Non-inferiority was declared if the lower limit of the CI was greater than -10% for AQ-AS.|||||>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Sample Size will be determined by N = {\[(Zα/2)/E\]\*2}pq where Where: n=sample size; Zα/2= Z value of a two-tailed test with 95% confidence level=1.96; p represents cure rate, q=1-p, which represents treatment failure rate of; E=precision of 5%||||>0.05
92268067|NCT00297882|184438219|NON_INFERIORITY|Non-inferiority of AQ-AS compared to AL was assessed by constructing a one-sided, lower limit asymptotic 97.5% CI on the difference of polymerase chain reaction (PCR)-corrected cure rates of AQ-AS when compared to AL. Non-inferiority was declared if the lower limit of the CI was greater than -10% for AQ-AS.|||||>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Sample Size will be determined by N = {\[(Zα/2)/E\]\*2}pq where Where: n=sample size; Zα/2= Z value of a two-tailed test with 95% confidence level=1.96; p represents cure rate, q=1-p, which represents treatment failure rate of; E=precision of 5%||||>0.05
92268068|NCT02118896|184438222|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9257|||||TWO_SIDED|95.0|0.844|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.000|0.844|
92268069|NCT02118896|184438222|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9321|||||TWO_SIDED|95.0|0.858|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.000|0.858|
92268070|NCT02118896|184438222|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.0000|1.0000|
92268071|NCT02118896|184438222|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.8699|||||TWO_SIDED|95.0|0.79|0.949||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||0.949|0.790|
92268072|NCT02118896|184438222|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9607|||||TWO_SIDED|95.0|0.927|0.995||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||0.995|0.927|
92268073|NCT02118896|184438222|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9948|||||TWO_SIDED|95.0|0.985|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.000|0.985|
92268074|NCT02118896|184438222|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.0000|1.0000|
92268075|NCT02118896|184438222|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.0000|1.0000|
92268076|NCT02118896|184438222|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9773|||||TWO_SIDED|95.0|0.933|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.000|0.933|
92314850|NCT04179838|184533486|SUPERIORITY|||||||0.021|||||||t-test, 1 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.021
92314851|NCT04179838|184533487|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.63
92314852|NCT04179838|184533488|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.08
92314853|NCT04179838|184533489|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.28
92314854|NCT04179838|184533490|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.50
92314855|NCT04179838|184533491|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.58
92314856|NCT02763046|184533492|SUPERIORITY||Odds Ratio (OR)|1.32||||0.3512|TWO_SIDED|95.0|0.74|2.36|||Regression, Logistic|||||2.36|0.74|0.3512
92314857|NCT02763046|184533493|SUPERIORITY||Odds Ratio (OR)|1.33||||0.401|TWO_SIDED|95.0|0.68|2.6|||Regression, Logistic|||Week 12||2.60|0.68|0.4010
92191634|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.2900
92314858|NCT02763046|184533493|SUPERIORITY||Odds Ratio (OR)|1.3||||0.4382|TWO_SIDED|95.0|0.67|2.55|||Regression, Logistic|||Week 12||2.55|0.67|0.4382
92314859|NCT02763046|184533493|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0934|TWO_SIDED|95.0|0.91|3.5|||Regression, Logistic|||Week 16||3.50|0.91|0.0934
92314860|NCT02763046|184533493|SUPERIORITY||Odds Ratio (OR)|1.47||||0.2619|TWO_SIDED|95.0|0.75|2.9|||Regression, Logistic|||Week 16||2.90|0.75|0.2619
92314861|NCT02763046|184533494|SUPERIORITY||LS (least square) Mean|-10.29|STANDARD_ERROR_OF_MEAN|6.25||0.0997|TWO_SIDED|95.0|-22.55|1.96|||Mixed Model for Repeated Measures (MMRM)|||||1.96|-22.55|0.0997
92314862|NCT02763046|184533494|SUPERIORITY||LS Mean|-12.3|STANDARD_ERROR_OF_MEAN|7.23||0.0888|TWO_SIDED|95.0|-26.47|1.87|||Mixed Model for Repeated Measures (MMRM)|||||1.87|-26.47|0.0888
92314863|NCT02763046|184533494|SUPERIORITY||LS Mean|-8.29|STANDARD_ERROR_OF_MEAN|7.18||0.2484|TWO_SIDED|95.0|-22.36|5.79|||Mixed Model for Repeated Measures (MMRM)|||||5.79|-22.36|0.2484
92314864|NCT02763046|184533495|SUPERIORITY||LS Mean|-2.06||||0.7735|TWO_SIDED|95.0|-16.11|11.98|||Mixed Model for Repeated Measures (MMRM)|||delayed tapering (W12) vs early tapering (W16)||11.98|-16.11|0.7735
92314865|NCT02763046|184533496|SUPERIORITY||LS Mean|-0.39|STANDARD_ERROR_OF_MEAN|0.3||0.1926|TWO_SIDED|95.0|-0.99|0.2|||Mixed Model for Repeated Measures (MMRM)|||Week 12||0.20|-0.99|0.1926
92314866|NCT02763046|184533496|SUPERIORITY||LS Mean|-0.46|STANDARD_ERROR_OF_MEAN|0.35||0.1914|TWO_SIDED|95.0|-1.14|0.23|||Mixed Model for Repeated Measures (MMRM)|||Week 12||0.23|-1.14|0.1914
92314867|NCT02763046|184533496|SUPERIORITY||LS Mean|-0.33|STANDARD_ERROR_OF_MEAN|0.34||0.3397|TWO_SIDED|95.0|-1.01|0.35|||Mixed Model for Repeated Measures (MMRM)|||Week 12||0.35|-1.01|0.3397
92314868|NCT02763046|184533496|SUPERIORITY||LS Mean|-0.68|STANDARD_ERROR_OF_MEAN|0.33||0.0384|TWO_SIDED|95.0|-1.33|-0.04|||Mixed Model for Repeated Measures (MMRM)|||Week 16||-0.04|-1.33|0.0384
92314869|NCT02763046|184533496|SUPERIORITY||LS Mean|-0.41|STANDARD_ERROR_OF_MEAN|0.33||0.2116|TWO_SIDED|95.0|-1.05|0.23|||Mixed Model for Repeated Measures (MMRM)|||Week 16||0.23|-1.05|0.2116
92314870|NCT02763046|184533497|SUPERIORITY||LS Mean|0.63|STANDARD_ERROR_OF_MEAN|1.02||0.5384|TWO_SIDED|95.0|-1.38|2.63|||Mixed Model for Repeated Measures (MMRM)|||||2.63|-1.38|0.5384
92314871|NCT02763046|184533497|SUPERIORITY||LS Mean|-0.11|STANDARD_ERROR_OF_MEAN|1.18||0.9251|TWO_SIDED|95.0|-2.43|2.21|||Mixed Model for Repeated Measures (MMRM)|||||2.21|-2.43|0.9251
92314872|NCT02763046|184533497|SUPERIORITY||LS Mean|1.36|STANDARD_ERROR_OF_MEAN|1.16||0.2432|TWO_SIDED|95.0|-0.93|3.66|||Mixed Model for Repeated Measures (MMRM)|||||3.66|-0.93|0.2432
92314873|NCT00080912|184533498|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The original sample size was determined based on the non-inferiority. The original sample size is based on assumption of response rate on the multiple fraction arm is 70%, 260 patients were required in each treatment arm to have 80% power to exclude, with a one sided alpha of 0.05, a response rate of 60% or less in the single fraction radiation group (non-inferiority margin =10%). Given an inevaluability rate of 30%, 850 patients (425 for each treatment arm) were randomized to the study.|Risk Difference (RD)|4.0||||0.03|ONE_SIDED|95.0||9.2||p-value is for one-sided non-inferiority test|Cochran-Mantel-Haenszel||The upper limit of one-sided 95% CI for the response rate difference was 9.2%, which was below the pre-specified 10% non-inferiority boundary|||9.2||0.03
92314874|NCT00818766|184533502|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.3||||0.26||95.0|-11.3|2.7|||Fisher Exact|||||2.7|-11.3|.26
92314875|NCT00818766|184533503|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.93||||0.77|TWO_SIDED|95.0|-6.1|4.3|||Fisher Exact|||||4.3|-6.1|0.77
92314876|NCT00818766|184533504|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.4||||0.21|TWO_SIDED|95.0|-8.3|1.6|||Fisher Exact|||||1.6|-8.3|.21
92314877|NCT00818766|184533505|SUPERIORITY_OR_OTHER|||||||0.49|||||||Fisher Exact|||||||.49
92314878|NCT00818766|184533507|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Fisher Exact|||||||.25
92314879|NCT00818766|184533508|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Fisher Exact|||||||.25
92314880|NCT01866826|184533539|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
92314881|NCT01866826|184533540|SUPERIORITY|||||||||||||||||We calculated the proportion of pts with elevated viral levels \>50 copies/ml at each phase of the study.|We estimated that four of the seven patients would have an elevation in viral Ribonucleic Acid (RNA) level \>50 copies/ml.|||
92191635|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5482||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.5482
92268077|NCT02118896|184438225|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.8391|||||TWO_SIDED|95.0|0.729|0.949||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||0.949|0.729|
92268078|NCT02118896|184438225|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.8792|||||TWO_SIDED|95.0|0.778|0.981||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula..||0.981|0.778|
92268079|NCT02118896|184438225|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.8816|||||TWO_SIDED|95.0|0.782|0.981||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||0.981|0.782|
92268080|NCT02118896|184438225|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.7769|||||TWO_SIDED|95.0|0.675|0.878||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||0.878|0.675|
92268081|NCT02118896|184438225|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.8373|||||TWO_SIDED|95.0|0.693|0.981||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||0.981|0.693|
92268082|NCT02118896|184438225|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9419|||||TWO_SIDED|95.0|0.883|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||1.000|0.883|
92268083|NCT02118896|184438225|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||1.000|1.000|
92268084|NCT02118896|184438225|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9898|||||TWO_SIDED|95.0|0.97|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||1.000|0.970|
92268085|NCT02118896|184438225|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9773|||||TWO_SIDED|95.0|0.933|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||1.000|0.933|
92268086|NCT04242264|184438226|SUPERIORITY|A two-sided Chi-squared test with alpha=0.05 was used to test the null hypothesis that the vaccine efficacy is zero, which is equivalent to testing that the relative risk of shigellosis is one.|Vaccine efficacy|0.89|||<|0.001|TWO_SIDED|95.0|0.71|0.96|||Chi-squared||Vaccine efficacy was calculated as 1 - relative risk of shigellosis, where relative risk = probability of shigellosis in WRSs2 group / probability of shigellosis in placebo group. A Wilson (Score) CI was calculated for the vaccine efficacy estimate.|The null hypothesis is that the absolute vaccine efficacy (VE) of preventing shigellosis is zero. The alternative hypothesis is that the absolute VE is greater than zero.||0.96|0.71|<0.001
92268087|NCT04242264|184438227|OTHER|Vaccine efficacy was calculated as 1 - relative risk of shigellosis, where relative risk = probability of shigellosis in WRSs2 group / probability of shigellosis in placebo group. A Wilson (Score) CI was calculated for the vaccine efficacy estimate, but no formal hypothesis test was performed.|Vaccine efficacy|0.77|||||TWO_SIDED|95.0|0.44|0.92||||||||0.92|0.44|
92268088|NCT04242264|184438227|OTHER|Vaccine efficacy was calculated as 1 - relative risk of shigellosis, where relative risk = probability of shigellosis in WRSs2 group / probability of shigellosis in placebo group. A Wilson (Score) CI was calculated for the vaccine efficacy estimate, but no formal hypothesis test was performed.|Vaccine efficacy|1.0|||||TWO_SIDED|95.0|0.78|1.0||||||||1.00|0.78|
92268089|NCT04242264|184438227|OTHER|Vaccine efficacy was calculated as 1 - relative risk of shigellosis, where relative risk = probability of shigellosis in WRSs2 group / probability of shigellosis in placebo group. A Wilson (Score) CI was calculated for the vaccine efficacy estimate, but no formal hypothesis test was performed.|Vaccine efficacy|1.0|||||TWO_SIDED|95.0|0.71|1.0||||||||1.00|0.71|
92268090|NCT02329834|184438249|EQUIVALENCE|90% Confidence Interval 80\<ratio of AUC\<125. The FDA guided Bioequivalence limit of 80 to 125% for the ratio of the product averages has been adopted for use of an average BE criterion.|% diff Geometric Least Squared Mean|99.5|||||TWO_SIDED|90.0|94.77|104.75||||||||104.75|94.77|
92268091|NCT02329834|184438250|OTHER||% Diff Geometric Least Squared Mean|99.65|||||TWO_SIDED|90.0|94.79|104.75||||||||104.75|94.79|
92268092|NCT00659945|184438256|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||The primary endpoint was the incidence of emesis at any time within the first 48 hours after surgery. Power analysis showed that a sample size of 69 patients per group was necessary to detect a significant decrease in the incidence of emesis from 33% in the placebo group to 15% in the aprepitant group using a Chi-square test with an alpha value of 0.05 and power of 80%.||||<0.05
92268093|NCT01976104|184438275|SUPERIORITY||Difference of proportion versus placebo|33.7|||=|0.0006|TWO_SIDED|95.0|15.8|51.6|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the scheduled procedure within each Baseline platelet count cohort.|Difference of proportion vs placebo = proportion of Responders for avatrombopag - proportion of Responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the 60 mg avatrombopag and matched placebo treatment groups.||51.6|15.8|=0.0006
92268094|NCT01976104|184438275|SUPERIORITY||Difference of proportion versus placebo|54.6|||<|0.0001|TWO_SIDED|95.0|36.5|72.7|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the scheduled procedure within each Baseline platelet count cohort|Difference of proportion vs placebo = proportion of Responders for avatrombopag - proportion of Responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the 60 mg avatrombopag and matched placebo treatment groups.||72.7|36.5|<0.0001
92314882|NCT01866826|184533542|SUPERIORITY||Mean Difference (Net)|0.7872|||||TWO_SIDED|||||||||We calculated the percentage of total lymphocytes that were expressing activation markers at each time point, and compared the differences in the percentages in the Rifaximin and control groups. We used the Wilcoxon test to detect differences between the differences in percentages in the control and Rifaximin groups.||||
92314883|NCT01866826|184533542|SUPERIORITY|||||||0.54|||||||Wilcoxon|||We calculated the percentage of total lymphocytes that were expressing the activation markers at each time point, and compared the differences in the percentages in the Rifaximin and control groups. We used the T-test to detect differences between the differences in percentages in the control group and Rifaximin groups.||||0.54
92314884|NCT02493660|184533544|NON_INFERIORITY|The non-inferiority margin was 10% for all composite endpoints. The primary analysis method was a multilinear regression model for month 12 success with age (\<65 years, ≥65 years), gender, and treatment as the model covariates for the PP population for noninferiority testing.||||||0.0049|||||||Regression, Logistic|Primary analysis method was for month 12 success with age (\<65 years, ≥65 years), sex, and treatment as the model covariates.||||||0.0049
92314885|NCT02493660|184533547|NON_INFERIORITY|The non-inferiority margin was 10% for all composite endpoints.|||||<|0.05|||||||Regression, Logistic|||Results from logistic regression model.||||<0.05
92314886|NCT03500198|184533584|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||< 0.0001
92314887|NCT03500198|184533586|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
92314888|NCT03500198|184533587|SUPERIORITY||||||<|0.0001|||||||1-sided logistic regression|||||||<0.0001
92314889|NCT02440464|184533596|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.10.|Log Rank|||The null hypothesis is that there is no difference in progression-free survival time post-randomization among randomized subjects receiving Ixazomib vs Placebo maintenance therapy during the 21 month period post-randomization. This was compared between treatment arms using a log rank test.||||1.0
92314890|NCT02440464|184533597|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Gray's Test|||The null hypothesis is that there is no difference in the proportions of participants with acute grade III-IV GVHD between the Ixazomib and Placebo arms during 100 days post-randomization, with death prior to acute GVHD treated as a competing risk. Cumulative incidences are compared between treatment arms using Gray's test.||||1.0
92314891|NCT02440464|184533598|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Gray's Test|||The null hypothesis is that there is no difference in the proportions of participants with chronic GVHD between the Ixazomib and Placebo arms during 21 months post-randomization, with death prior to chronic GVHD treated as a competing risk. Cumulative incidences are compared between treatment arms using Gray's test.||||1.0
92314892|NCT02440464|184533599|SUPERIORITY|The null hypothesis is that there is no difference in the proportions of participants in the best response to treatment categories between the Ixazomib and Placebo arms during 2 years post-transplant among participants in sCR/CR at randomization. These proportions were compared using Fisher's Exact test.||||||0.89|||||||Fisher Exact|Statistical significance was determined using a pre-specified one-sided threshold of 0.05.||Participants in sCR/CR at Randomization||||0.890
92314893|NCT02440464|184533599|SUPERIORITY|||||||0.754||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Fisher Exact|||The null hypothesis is that there is no difference in the proportions of participants in the best response to treatment categories between the Ixazomib and Placebo arms during 2 years post-transplant among participants not in sCR/CR at randomization. These proportions were compared using Fisher's Exact test.||||0.754
92314894|NCT02440464|184533601|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Gray's Test|||The null hypothesis is that there is no difference in the proportions of participants with progression between the Ixazomib and Placebo arms during 21 months post-randomization, with death prior to progression treated as a competing risk. Cumulative incidences are compared between treatment arms using Gray's test.||||1.0
92314895|NCT02440464|184533602|SUPERIORITY|||||||0.174||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Log Rank|||The null hypothesis is that there is no difference in overall survival time post-randomization among randomized subjects receiving Ixazomib vs Placebo maintenance therapy during the 21 month period post-randomization. This was compared between treatment arms using a log rank test.||||0.174
92314896|NCT02440464|184533603|SUPERIORITY|||||||0.173||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Gray's Test|||The null hypothesis is that there is no difference in the proportions of participants with treatment-related mortality between the Ixazomib and Placebo arms during 21 months post-randomization, with progression treated as a competing risk. Cumulative incidences are compared between treatment arms using Gray's test.||||0.173
92191636|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0303||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.0303
92191637|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6143||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.6143
92314897|NCT02440464|184533605|SUPERIORITY|||||||0.258||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3-5 toxicities between the Ixazomib and Placebo arms during 6 months post-randomization, with death from a cause other than toxicity treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||0.258
92191638|NCT00141271|184281975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3385||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.3385
92314898|NCT02440464|184533605|SUPERIORITY|||||||0.252||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3-5 toxicities between the Ixazomib and Placebo arms during 12 months post-randomization, with death from a cause other than toxicity treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||0.252
92314899|NCT02440464|184533605|SUPERIORITY|||||||0.258||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3-5 toxicities between the Ixazomib and Placebo arms during 18 months post-randomization, with death from a cause other than toxicity treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||0.258
92314900|NCT02440464|184533607|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3 infections between the Ixazomib and Placebo arms during 6 months post-randomization, with death from a cause other than infection treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||1.0
92314901|NCT02440464|184533607|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3 infections between the Ixazomib and Placebo arms during 12 months post-randomization, with death from a cause other than infection treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||1.0
92314902|NCT02440464|184533607|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3 infections between the Ixazomib and Placebo arms during 18 months post-randomization, with death from a cause other than infection treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||1.0
92314903|NCT01999920|184533624|SUPERIORITY|||||||0.064|||||||Mixed Models Analysis|||||||.064
92314904|NCT01999920|184533625|SUPERIORITY||Standard error|5.5|STANDARD_ERROR_OF_MEAN|3.13||0.11|TWO_SIDED|95.0|-1.32|12.32|||Mixed Models Analysis|||||12.32|-1.32|0.11
92314905|NCT01999920|184533626|SUPERIORITY||Standard error|0.34|STANDARD_ERROR_OF_MEAN|2.44||0.89|TWO_SIDED|95.0|-4.85|5.53|||Mixed Models Analysis|||Confidence variable||5.53|-4.85|0.89
92314906|NCT01999920|184533626|SUPERIORITY||Standard error|1.18|STANDARD_ERROR_OF_MEAN|4.41||0.79|TWO_SIDED|95.0|-8.21|10.58|||Mixed Models Analysis|||Discomfort with Closeness variable||10.58|-8.21|0.79
92191639|NCT00141271|184281976|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3299||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3299
92191640|NCT00141271|184281976|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1915||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1915
92314907|NCT01999920|184533626|SUPERIORITY||Standard error|3.94|STANDARD_ERROR_OF_MEAN|3.79||0.31|TWO_SIDED|95.0|-4.12|12.01|||Mixed Models Analysis|||Relationships as Secondary variable||12.01|-4.12|0.31
92314908|NCT01999920|184533626|SUPERIORITY||Standard error|-2.6|STANDARD_ERROR_OF_MEAN|1.49||0.1|TWO_SIDED|95.0|-5.79|0.58|||Mixed Models Analysis|||Need for Approval variable||0.58|-5.79|0.10
92314909|NCT01999920|184533626|SUPERIORITY||Standard error|0.71|STANDARD_ERROR_OF_MEAN|2.82||0.8|TWO_SIDED|95.0|-5.3|6.72|||Mixed Models Analysis|||Preoccupation with Relationships variable||6.72|-5.30|0.80
92314910|NCT01999920|184533627|SUPERIORITY||Standard error|-19.91|STANDARD_ERROR_OF_MEAN|6.99||0.008|TWO_SIDED|95.0|-34.23|-5.58|||Mixed Models Analysis|||||-5.58|-34.23|0.008
92314911|NCT01999920|184533628|SUPERIORITY||Standard error|3.29|STANDARD_ERROR_OF_MEAN|1.43||0.026|TWO_SIDED|95.0|0.42|6.16|||Mixed Models Analysis|||||6.16|0.42|0.026
92314912|NCT01999920|184533629|SUPERIORITY||Standard error|21.38|STANDARD_ERROR_OF_MEAN|7.65||0.01|TWO_SIDED|95.0|5.64|37.11|||Mixed Models Analysis|||||37.11|5.64|0.01
92314913|NCT02058069|184533632|NON_INFERIORITY_OR_EQUIVALENCE|The Alternative Hypothesis: The Investigational Device (RIO) true event rate is non-inferior to 0.066 (event rate for manual TKA) with a non-inferiority margin of 0.06. The 0.066 rate is based on literature and 0.06 was determined in consultation with FDA.|Rare Adverse Event Rate|0.0|||||ONE_SIDED|95.0||0.0331|||||If the upper bound is \<0.126 then the primary composite safety endpoint is met. After the surgeon completed the procedure, at the conclusion of the participant's hospital stay, and 3 months post-operative were used in this single analysis.|||0.0331||
92191641|NCT00141271|184281977|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5407||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.5407
92191642|NCT00141271|184281977|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6079||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6079
92191643|NCT00141271|184281978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8464||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.8464
92314914|NCT02058069|184533634|OTHER|The analysis was performed using standard OC curves generated using Sample Size Analyzer® version 2.0 by Taylor Enterprise Inc. (Dr. Wayne A. Taylor).|Alignment Difference <4.38 Degrees|1.0|||||ONE_SIDED|95.0|0.966||||||Estimation Parameter is: proportion of participants with limb alignment difference \<4.38 degrees If the lower bound is \>0.95 then the assessment passes.||||0.966|
92314915|NCT02058069|184533635|NON_INFERIORITY|The upper bound for the one-sided 95% confidence interval will be compared with -9. If the upper bound is less than -9, then non-inferiority holds.|Mean Difference (Final Values)|-33.1|||<|0.001|ONE_SIDED|95.0||-29.6|||t-test, 2 sided||If the upper bound is less than -9, then non-inferiority holds.|Change from pre-op to 3 months||-29.6||<0.001
92314916|NCT02222922|184533681|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|79.38||||0.3105|TWO_SIDED|90.0|54.01|116.65|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||116.65|54.01|0.3105
92314917|NCT02222922|184533682|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|77.23||||0.2316|TWO_SIDED|90.0|53.8|110.87|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||110.87|53.80|0.2316
92314918|NCT02222922|184533683|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|84.97||||0.4264|TWO_SIDED|90.0|60.05|120.22|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||120.22|60.05|0.4264
92314919|NCT02222922|184533684|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|88.32||||0.5123|TWO_SIDED|90.0|64.03|121.82|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||121.82|64.03|0.5123
92314920|NCT02222922|184533685|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|91.15||||0.824|TWO_SIDED|90.0|44.79|185.5|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||185.50|44.79|0.8240
92191644|NCT00141271|184281978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4023||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.4023
92191645|NCT00141271|184281978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.287||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.2870
92191646|NCT00141271|184281978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2537||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.2537
92191647|NCT00141271|184281978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7909||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7909
92314921|NCT02222922|184533686|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|89.58||||0.7922|TWO_SIDED|90.0|43.94|182.62|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||182.62|43.94|0.7922
92191648|NCT00141271|184281978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3308||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3308
92314922|NCT02222922|184533687|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|91.17||||0.824|TWO_SIDED|90.0|44.87|185.25|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||185.25|44.87|0.8240
92314923|NCT02222922|184533688|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|102.31||||0.9553|TWO_SIDED|90.0|51.08|204.9|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||204.90|51.08|0.9553
92314924|NCT02222922|184533689|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|81.14||||0.2951|TWO_SIDED|90.0|57.99|113.54|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||113.54|57.99|0.2951
92314925|NCT02222922|184533690|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|84.02||||0.3769|TWO_SIDED|90.0|60.24|117.19|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||117.19|60.24|0.3769
92314926|NCT02222922|184533691|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|86.15||||0.4385|TWO_SIDED|90.0|62.2|119.32|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||119.32|62.20|0.4385
92191649|NCT00141271|184281979|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3355||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.3355
92191650|NCT00141271|184281979|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8447||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.8447
92191651|NCT00141271|184281979|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8959||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.8959
92191652|NCT00141271|184281979|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4826||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.4826
92191653|NCT00141271|184281979|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4178||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4178
92314927|NCT02222922|184533692|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|88.75||||0.5678|TWO_SIDED|90.0|62.24|126.56|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||126.56|62.24|0.5678
92314928|NCT01998919|184533722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.34|||||TWO_SIDED|95.0|-10.3|17.0|||||Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||17.0|-10.3|
92314929|NCT01998919|184533723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.63|||||TWO_SIDED|95.0|-5.6|26.8|||||Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||26.8|-5.6|
92191654|NCT00141271|184281979|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8277||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.8277
92191655|NCT00141271|184281980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7758||||||For all efficacy analyses, no multiple comparisons adjustments were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.7758
92191656|NCT00141271|184281980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8737||||||For all efficacy analyses, no multiple comparisons adjustments were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.8737
92191657|NCT00141271|184281980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1151||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.1151
92191658|NCT00141271|184281980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.129||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.1290
92191659|NCT00141271|184281980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4432||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4432
92314930|NCT01998919|184533724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.48|||||TWO_SIDED|95.0|-2.7|27.7|||||Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||27.7|-2.7|
92314931|NCT01998919|184533725|SUPERIORITY_OR_OTHER|||||||0.0075|||||||Log Rank|||||||0.0075
92314932|NCT01998919|184533725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.42||||0.0099|TWO_SIDED|95.0|0.22|0.81|||Wald test|||||0.81|0.22|0.0099
92314933|NCT01998919|184533726|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Log Rank|||||||0.0004
92191660|NCT00141271|184281980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2988||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.2988
92191661|NCT00141271|184281981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8598||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.8598
92191662|NCT00141271|184281981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6513||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.6513
92191663|NCT00141271|184281981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6272||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.6272
92191664|NCT00141271|184281981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6467||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.6467
92191665|NCT00141271|184281981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8049||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.8049
92314934|NCT01998919|184533726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.48||||0.0001|TWO_SIDED|95.0|0.33|0.7|||Wald Test|||||0.70|0.33|0.0001
92314935|NCT01998919|184533727|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Log Rank|||||||0.0001
92314936|NCT01998919|184533727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.33|0.68|||Wald test|||||0.68|0.33|<0.0001
92314937|NCT01998919|184533728|SUPERIORITY_OR_OTHER|||||||0.5991|||||||Log Rank|||||||0.5991
92314938|NCT01998919|184533728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.3774|TWO_SIDED|95.0|0.58|1.23|||Wald test|||||1.23|0.58|0.3774
92314939|NCT00860795|184533755|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|95.0|||||Regression, Linear|||||||.17
92314940|NCT00860795|184533756|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|95.0|||||Regression, Linear|||||||.72
92314941|NCT00860795|184533757|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED|95.0|||||Regression, Linear|||||||.2
92314942|NCT00860795|184533759|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED|95.0|||||Regression, Linear|||||||.51
92314943|NCT00860795|184533760|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|95.0|||||Regression, Linear|||||||.43
92314944|NCT00860795|184533761|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED|95.0|||||Regression, Linear|||||||.61
92314945|NCT02792517|184533765|OTHER||Least Squares Geometric Mean Ratio|1.04|||||TWO_SIDED|90.0|0.88|1.22|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed Cmax was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.22|0.88|
92314946|NCT02792517|184533766|OTHER||Least Squares Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.91|1.14|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed AUCtau was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.14|0.91|
92314947|NCT02792517|184533767|OTHER||Least Squares Geometric Mean Ratio|1.06|||||TWO_SIDED|90.0|0.97|1.16|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed Cmax was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.16|0.97|
92191666|NCT00141271|184281981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9411||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.9411
92314948|NCT02792517|184533768|OTHER||Least Squares Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.96|1.1|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed AUCtau was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.10|0.96|
92314949|NCT02792517|184533769|OTHER||Least Squares Geometric Mean Ratio|1.05|||||TWO_SIDED|90.0|0.9|1.23|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed Cmax was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.23|0.90|
92314950|NCT02792517|184533770|OTHER||Least Squares Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.94|1.12|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed AUCtau was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.12|0.94|
92314951|NCT01958437|184533785|SUPERIORITY|||||||0.048|||||||ANCOVA|||RM ANCOVA (covarying order) for cognitively intact groups||||.048
92314952|NCT01958437|184533785|SUPERIORITY|||||||0.063|||||||ANCOVA|||RM ANCOVA (covarying order) for MCI group||||.063
92314953|NCT01958437|184533786|SUPERIORITY|||||||0.27|||||||ANCOVA|Main effect of stimulation covarying session order||Change between active and sham tDCS sessions for allocentric blocks||||.27
92314954|NCT01958437|184533786|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<.001
92314955|NCT01958437|184533787|SUPERIORITY||||||<|0.001|||||||ANCOVA|Main effect of session using repeated measures ANCOVA covarying stimulation order||||||<.001
92314956|NCT01958437|184533787|SUPERIORITY|||||||0.046|||||||ANCOVA|Main effect of session using repeated measures ANCOVA covarying stimulation order||||||.046
92314957|NCT01958437|184533788|SUPERIORITY|||||||0.497|||||||ANCOVA|||Repeated Measures ANCOVA (covarying stimulation order)||||.497
92191667|NCT00141271|184281982|SUPERIORITY_OR_OTHER_LEGACY|||||||0.926||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.9260
92191668|NCT00141271|184281982|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7100
92191669|NCT00141271|184281983|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1836||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1836
92191670|NCT00141271|184281983|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1374||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1374
92191671|NCT00141271|184281984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9237||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.9237
92191672|NCT00141271|184281984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3786||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3786
92314958|NCT01958437|184533788|SUPERIORITY|||||||0.599|||||||ANCOVA|||||||.599
92314959|NCT02200055|184533795|SUPERIORITY_OR_OTHER|This measurement was collected for each participant. A pre-operative and post-operative bioimpedance measurement was taken.|Mean Difference (Final Values)|0.53|||<|0.01|TWO_SIDED||||||Chi-squared|||||||<0.01
92314960|NCT02015611|184533801|SUPERIORITY|||||||0.63|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.63
92314961|NCT02015611|184533802|SUPERIORITY|||||||0.64|||||||Regression, Linear|adjusted for age, sex, race, season, and baseline value||||||0.64
92314962|NCT02015611|184533803|SUPERIORITY|||||||0.08|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.08
92314963|NCT02015611|184533804|SUPERIORITY|||||||0.53|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.53
92314964|NCT02015611|184533805|SUPERIORITY|||||||0.75|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.75
92314965|NCT02015611|184533806|SUPERIORITY|||||||0.92|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.92
92314966|NCT02015611|184533807|SUPERIORITY|||||||0.94|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.94
92314967|NCT02015611|184533808|SUPERIORITY|||||||0.61|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.61
92314968|NCT02015611|184533809|SUPERIORITY|||||||0.59|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.59
92314969|NCT02015611|184533810|SUPERIORITY|||||||0.21|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.21
92314970|NCT01998841|184533829|SUPERIORITY||Difference in Annualized Rate of Change|0.33|STANDARD_ERROR_OF_MEAN|0.41||0.43|TWO_SIDED|95.0|-0.48|1.13|||RCRM|||Analysis was based on random coefficient regression model (RCRM) using unstructured covariance matrix: API Composite Endpoint=Treatment \* Analysis Year + interactive voice or Web-based response system (IxRS) defined Age Group + IxRS defined Education History + IxRS defined apolipoprotein E4 (APOE4) Carrier Status + IxRS defined CDR Global Score.||1.13|-0.48|0.43
92314971|NCT01998841|184533830|SUPERIORITY||Difference in Annualized Rate of Change|0.008|STANDARD_ERROR_OF_MEAN|0.006||0.16|TWO_SIDED|95.0|-0.003|0.02|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: FCSRT Cueing Index = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.02|-0.003|0.16
92314972|NCT01998841|184533831|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.48|TWO_SIDED|95.0|0.41|1.52|||Stratified Log Rank||Hazard ratios were estimated by Cox regression|Stratification factors used: Age Group, Education History, APOE4 Carrier Status, Clinical Dementia Rating (CDR) Global Score.||1.52|0.41|0.48
92314973|NCT01998841|184533832|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.76|TWO_SIDED|95.0|0.53|1.59|||Stratified Log Rank||Hazard ratios were estimated by Cox regression.|Stratification factors used: Age Group, Education History, APOE4 Carrier Status.||1.59|0.53|0.76
92314974|NCT01998841|184533833|SUPERIORITY||Difference in Annualized Rate of Change|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.64|TWO_SIDED|95.0|-0.15|0.09|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: CDR-SB = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.09|-0.15|0.64
92314975|NCT01998841|184533834|SUPERIORITY||Difference in Annualized Rate of Change|0.18|STANDARD_ERROR_OF_MEAN|0.29||0.55|TWO_SIDED|95.0|-0.4|0.75|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: RBANS Total Score = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.75|-0.40|0.55
92314976|NCT01998841|184533835|SUPERIORITY||Difference in Annualized Rate of Change|-0.0006|STANDARD_ERROR_OF_MEAN|0.002||0.69|TWO_SIDED|95.0|-0.0037|0.0024|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: PET SUVR = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.0024|-0.0037|0.69
92314977|NCT01998841|184533836|SUPERIORITY||Difference in Annualized Rate of Change|0.003|STANDARD_ERROR_OF_MEAN|0.002||0.25|TWO_SIDED|95.0|-0.002|0.007|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: FDG-PET = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.007|-0.002|0.25
92314978|NCT01998841|184533837|SUPERIORITY||Difference in Annualized Rate of Change|107.78|STANDARD_ERROR_OF_MEAN|92.28||0.25|TWO_SIDED|95.0|-74.5|290.05|||RCRM|||Whole Brain: Analysis was based on RCRM using unstructured covariance matrix: MRI Whole Brain (Derived) = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||290.05|-74.5|0.25
92314979|NCT01998841|184533837|SUPERIORITY||Difference in Annualized Rate of Change|9.6|STANDARD_ERROR_OF_MEAN|17.39||0.58|TWO_SIDED|95.0|-24.74|43.94|||RCRM|||Bilateral Hippocampus: Analysis was based on RCRM using unstructured covariance matrix: MRI Bilateral Hippocampus = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||43.94|-24.74|0.58
92314980|NCT01998841|184533837|SUPERIORITY||Difference in Annualized Rate of Change|19.92|STANDARD_ERROR_OF_MEAN|213.08||0.93|TWO_SIDED|95.0|-400.78|440.62|||RCRM|||Ventricles: Analysis was based on RCRM using unstructured covariance matrix: MRI Ventricles = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||440.62|-400.78|0.93
92314981|NCT01998841|184533838|SUPERIORITY||Difference in Annualized Rate of Change|-1.97|STANDARD_ERROR_OF_MEAN|3.09||0.53|TWO_SIDED|95.0|-8.17|4.23|||RCRM|||tTau: Analysis was based on RCRM using unstructured covariance matrix: CSF tTau = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||4.23|-8.17|0.53
92314982|NCT01998841|184533838|SUPERIORITY||Difference in Annualized Rate of Change|-0.5|STANDARD_ERROR_OF_MEAN|0.46||0.28|TWO_SIDED|95.0|-1.43|0.43|||RCRM|||pTau: Analysis was based on RCRM using unstructured covariance matrix: CSF pTau = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.43|-1.43|0.28
92191673|NCT00141271|184281985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4624||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4624
92314983|NCT01998841|184533846|SUPERIORITY||Difference in Annualized Rate of Change|7522.55|STANDARD_ERROR_OF_MEAN|313.17|<|0.0001|TWO_SIDED|95.0|6903.44|8141.65|||RCRM|||Aβ1-40: Analysis was based on RCRM using unstructured covariance matrix: APlasma Amyloid Beta 1-40 =Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||8141.65|6903.44|<0.0001
92314984|NCT01998841|184533846|SUPERIORITY||Difference in Annualized Rate of Change|556.03|STANDARD_ERROR_OF_MEAN|23.98|<|0.0001|TWO_SIDED|95.0|508.63|603.44|||RCRM|||Aβ1-42: Analysis was based on RCRM using unstructured covariance matrix: Plasma Amyloid Peptid Beta 42 =Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||603.44|508.63|<0.0001
92314985|NCT00972595|184533851|NON_INFERIORITY_OR_EQUIVALENCE|Study Primary Hypothesis: A single dose of the U.K. ZOFRAN™ (ondansetron) 8 mg tablet over-encapsulated is bioequivalent to a single dose of the U.K. ZOFRAN™ (ondansetron) 8-mg tablet. That is, the true geometric mean ratios (U.K. ZOFRAN™ tablet over-encapsulated/U.K. ZOFRAN™ tablet) of AUC0-∞ and Cmax for ondansetron each lie within the interval 0.80 to 1.25.|Least-Squares Mean Ratio|0.98||||||90.0|0.93|1.03||||||Least-Squares Mean Ratio (OE U.K. tablet / U.K. tablet): an over-encapsulated single 8 mg tablet of United Kingdom (U.K.) ZOFRAN™ (ondansetron) taken orally; a single 8 mg tablet of ZOFRAN™ (ondansetron) which is marketed in the United Kingdom (U.K.) taken orally||1.03|0.93|
92191674|NCT00141271|184281985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5971|||||||ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.5971
92314986|NCT00972595|184533852|NON_INFERIORITY_OR_EQUIVALENCE|Study Primary Hypothesis: A single dose of the U.K. ZOFRAN™ (ondansetron) 8 mg tablet over-encapsulated is bioequivalent to a single dose of the U.K. ZOFRAN™ (ondansetron) 8 mg tablet. That is, the true geometric mean ratios (U.K. ZOFRAN™ tablet over-encapsulated/U.K. ZOFRAN™ tablet) of AUC0-∞ and Cmax for ondansetron each lie within the interval 0.80 to 1.25.|Least-Squares Mean Ratio|0.99||||||90.0|0.93|1.05||||||"Least-Squares Mean Ratio (OE U.K. tablet / U.K. tablet): an over-encapsulated single 8 mg tablet of United Kingdom~(U.K.) ZOFRAN™ (ondansetron) taken orally; a single 8 mg tablet of ZOFRAN™ (ondansetron) which is marketed in the~United Kingdom (U.K.) taken orally"||1.05|0.93|
92314987|NCT00141778|184533865|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||Chi-squared|||Discrete variables were compared among treatment groups with a chi-square test.||||0.95
92314988|NCT00141778|184533866|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Chi-squared|||||||0.006
92314989|NCT00141778|184533867|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Chi-squared|||||||0.15
92191675|NCT00141271|184281986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1378||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1378
92314990|NCT00141778|184533868|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Chi-squared|||||||0.14
92314991|NCT00141778|184533869|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Kruskal-Wallis|||||||0.56
92191676|NCT00141271|184281986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7665||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7665
92191677|NCT00141271|184281987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4767||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.4767
92191678|NCT00141271|184281987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2066||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.2066
92191679|NCT00141271|184281988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1667||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1667
92191680|NCT00141271|184281988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6727||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6727
92191681|NCT00141271|184281989|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7019||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7019
92268095|NCT01976104|184438276|SUPERIORITY||Difference of proportion versus placebo|60.2|||<|0.0001|TWO_SIDED|95.0|46.8|73.5|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the scheduled procedure within each Baseline platelet count cohort.|Difference of proportion vs placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the avatrombopag and placebo treatment groups.||73.5|46.8|<0.0001
92268096|NCT01976104|184438276|SUPERIORITY||Difference of proportion versus placebo|53.7|||<|0.0001|TWO_SIDED|95.0|35.8|71.6|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the scheduled procedure within each Baseline platelet count cohort.|Difference of proportion vs placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the avatrombopag and placebo treatment groups||71.6|35.8|<0.0001
92268097|NCT01976104|184438277|SUPERIORITY||Difference in change of platelet count|25.4|||<|0.0001|TWO_SIDED|95.0|19.5|32.0|||Wilcoxon Rank Sum Test|P-value was based on Wilcoxon Rank Sum Test for each avatrombopag treatment group versus placebo within each Baseline platelet count cohort.|Difference in change from Baseline of platelet count for avatrombopag versus placebo within each Baseline platelet count cohort was based on Hodges-Lehmann estimation; 95% CI was the asymptotic (Moses) CI|||32.0|19.5|<0.0001
92268098|NCT01976104|184438277|SUPERIORITY||Difference in change of platelet count|36.3|||<|0.0001|TWO_SIDED|95.0|25.5|45.5|||Wilcoxon Rank Sum Test|P-value was based on Wilcoxon Rank Sum Test for each avatrombopag treatment group versus placebo within each Baseline platelet count cohort.|Difference in change from baseline of platelet count for avatrombopag vs. placebo within each baseline platelet count cohort is based on Hodges-Lehmann estimation; 95% confidence interval is the asymptotic (Moses) CI.|||45.5|25.5|<0.0001
92268099|NCT01283009|184438280|SUPERIORITY||Odds Ratio (OR)|0.9||||0.635|TWO_SIDED|95.0|0.58|1.4|||Mantel Haenszel|||||1.40|0.58|0.635
92268100|NCT04221373|184438281|OTHER|Mixed-effects model|||||<|0.01||||||Main effect of time|Mixed Models Analysis|F(1, 26) = 117.78||SCIM Total Score||||<0.01
92268101|NCT04221373|184438281|OTHER|Mixed-effects model||||||0.03||||||treatment group by time interaction effects|Mixed Models Analysis|F(1,26) = 5.59||SCIM Total Score||||0.03
92268102|NCT04221373|184438281|OTHER|Mixed-effects model||||||0.01||||||treatment group by time interaction effects|Mixed Models Analysis|F(1,26) = 8.02||SCIM R \& S scores||||0.01
92268103|NCT04221373|184438281|OTHER|Mixed-effects model|||||<|0.01||||||Main effect of time|Mixed Models Analysis|F(1, 26) = 72.49||SCIM R \& S scores||||< 0.01
92268104|NCT04221373|184438282|OTHER|Mixed-effects model||||||0.02||||||Treatment group by time interaction effects|Mixed Models Analysis|F(1,26) = 5.82||LEMS||||0.02
92268105|NCT04221373|184438282|OTHER|Mixed-effects model|||||<|0.01||||||Main effect of time|Mixed Models Analysis|F(1, 26) = 33.29||LEMS||||<0.01
92268106|NCT04221373|184438282|OTHER|Mixed-effects model||||||0.04||||||Treatment group by time interaction effects|Mixed Models Analysis|F(1,26) = 4.58||UEMS||||0.04
92268107|NCT04221373|184438282|OTHER|Mixed-effects model|||||<|0.01||||||Main effect of time|Mixed Models Analysis|F(1, 26) = 15.34||UEMS||||<0.01
92268108|NCT04221373|184438282|OTHER|Mixed-effects model|||||<|0.01||||||Treatment group by time interaction effects|Mixed Models Analysis|F(1,26) = 8.06||TMS||||<0.01
92268109|NCT04221373|184438282|OTHER|TMS|||||<|0.01||||||Main effect of time|Mixed Models Analysis|F(1,26) = 38.91||||||<0.01
92268110|NCT04221373|184438282|OTHER|Mixed-effects model||||||0.02||||||Treatment group by time interaction effects|Mixed Models Analysis|F(1,21.7) = 6.23||TLTS||||0.02
92268111|NCT04221373|184438282|OTHER|Mixed-effects model||||||0.05||||||Main effect of time|Mixed Models Analysis|F(1 26)=4.14||TLTS||||0.05
92268112|NCT04221373|184438283|OTHER|Mixed-effects model||||||0.485||||||Treatment group-by-time interaction effect|Mixed Models Analysis|F(1, 21) = 0.51||Average worst pain intensity||||0.485
92268113|NCT04221373|184438283|OTHER|Mixed-effects model||||||0||||||Main effect of time|Mixed Models Analysis|F(1, 21) = 26.71||Average worst pain intensity||||0.000
92268114|NCT04221373|184438283|OTHER|Mixed-effects model||||||0.832||||||Treatment group-by-time interaction effect|Mixed Models Analysis|F(1, 21) = 0.05||Worst pain interference with day-to-day activities||||0.832
92314992|NCT00141778|184533870|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Kruskal-Wallis|||||||0.15
92314993|NCT00141778|184533871|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||Chi-squared|||||||0.38
92314994|NCT00141778|184533872|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Chi-squared|||||||0.65
92314995|NCT02085447|184533876|SUPERIORITY|||||||0.012|||||||t-test, 1 sided|||||||.012
92314996|NCT02085447|184533877|SUPERIORITY|||||||0.028|||||||t-test, 1 sided|||||||.028
92314997|NCT02085447|184533878|SUPERIORITY|||||||0.162|||||||t-test, 1 sided|||||||.162
92314998|NCT02085447|184533879|SUPERIORITY|||||||0.021|||||||t-test, 1 sided|||||||.021
92191682|NCT00141271|184281989|SUPERIORITY_OR_OTHER_LEGACY|||||||0.102||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1020
92191683|NCT00141271|184281990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4749||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4749
92191684|NCT00141271|184281990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4491||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4491
92314999|NCT02085447|184533880|SUPERIORITY|||||||0.005|||||||t-test, 1 sided|||||||.005
92315000|NCT02085447|184533881|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
92315001|NCT02085447|184533882|SUPERIORITY|||||||0.197|||||||t-test, 1 sided|||||||.197
92191685|NCT00141271|184281991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4398||||||For all efficacy analyses, no multiple comparisons adjustments were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4398
92191686|NCT00141271|184281991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3331||||||For all efficacy analyses, no multiple comparisons adjustments were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3331
92315002|NCT02085447|184533883|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
92315003|NCT02085447|184533884|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
92315004|NCT02085447|184533885|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
92315005|NCT02085447|184533886|SUPERIORITY|||||||0.053|||||||t-test, 1 sided|||||||.053
92315006|NCT02085447|184533887|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
92191687|NCT00141271|184281992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2763||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.2763
92191688|NCT00141271|184281992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2048||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.2048
92191689|NCT00141271|184281993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.434||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4340
92315007|NCT02085447|184533888|SUPERIORITY|||||||0.821|||||||t-test, 1 sided|||||||.821
92315008|NCT02085447|184533889|SUPERIORITY|||||||0.33|||||||t-test, 1 sided|||||||.330
92315009|NCT02085447|184533890|SUPERIORITY|||||||0.425|||||||t-test, 1 sided|||||||.425
92315010|NCT02085447|184533891|SUPERIORITY|||||||0.577|||||||t-test, 1 sided|||||||.577
92315011|NCT02085447|184533892|SUPERIORITY|||||||0.33|||||||t-test, 1 sided|||||||.330
92315012|NCT02085447|184533893|SUPERIORITY|||||||0.706|||||||t-test, 1 sided|||||||.706
92315013|NCT02085447|184533894|SUPERIORITY|||||||0.481|||||||t-test, 1 sided|||||||.481
92315014|NCT02085447|184533895|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||||||.020
92315015|NCT02085447|184533896|SUPERIORITY|||||||0.103|||||||t-test, 1 sided|||||||.103
92315016|NCT02085447|184533897|SUPERIORITY|||||||0.063|||||||t-test, 1 sided|||||||.063
92315017|NCT04052620|184533901|NON_INFERIORITY|Non-inferiority criteria: if the upper 95% Confidence Interval (CI) of Least Square (LS) mean difference was less than 13 mm then DDEA 2.32% gel BID was concluded as non-inferior.|Mean Difference (Final Values)|1.11|STANDARD_ERROR_OF_MEAN|2.09||0.595|TWO_SIDED|95.0|-3.0|5.22|||ANCOVA|||||5.22|-3.00|0.5950
92315018|NCT04052620|184533903|OTHER||Mean Difference (Final Values)|-2.43|STANDARD_ERROR_OF_MEAN|2.12||0.2536|TWO_SIDED|95.0|-6.61|1.75|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||1.75|-6.61|0.2536
92315019|NCT04052620|184533903|OTHER||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|1.76||0.6643|TWO_SIDED|95.0|-4.23|2.7|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||2.70|-4.23|0.6643
92315020|NCT04052620|184533904|OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.19||0.3118|TWO_SIDED|95.0|-1.13|3.54|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||3.54|-1.13|0.3118
92315021|NCT04052620|184533904|OTHER||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|1.35||0.4937|TWO_SIDED|95.0|-3.6|1.74|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||1.74|-3.60|0.4937
92315022|NCT04052620|184533904|OTHER||Mean Difference (Final Values)|1.46|STANDARD_ERROR_OF_MEAN|1.67||0.3825|TWO_SIDED|95.0|-1.83|4.74|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||4.74|-1.83|0.3825
92315023|NCT04052620|184533905|OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|1.26||0.836|TWO_SIDED|95.0|-2.23|2.75|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||2.75|-2.23|0.8360
92315024|NCT04052620|184533905|OTHER||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|1.24||0.3119|TWO_SIDED|95.0|-3.69|1.18|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||1.18|-3.69|0.3119
92315025|NCT04052620|184533905|OTHER||Mean Difference (Final Values)|1.66|STANDARD_ERROR_OF_MEAN|1.45||0.2535|TWO_SIDED|95.0|-1.2|4.52|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||4.52|-1.20|0.2535
92315026|NCT04052620|184533906|OTHER||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|1.51||0.6242|TWO_SIDED|95.0|-2.23|3.71|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||3.71|-2.23|0.6242
92315027|NCT04052620|184533906|OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|2.06||0.8905|TWO_SIDED|95.0|-4.33|3.77|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||3.77|-4.33|0.8905
92191690|NCT00141271|184281993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7774||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.7774
92191691|NCT00141271|184281994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5195||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.5195
92268115|NCT04221373|184438283|OTHER|Mixed-effects model||||||0.033||||||Main effect of time|Mixed Models Analysis|F(1, 21) = 5.21||Worst pain interference with day-to-day activities||||0.033
92268116|NCT04221373|184438283|OTHER|Mixed-effects model||||||0.692||||||Treatment group-by-time interaction effect|Mixed Models Analysis|F(1, 42) = 0.16||Worst pain interference with overall mood||||0.692
92268117|NCT04221373|184438283|OTHER|Mixed-effects model||||||0.005||||||Main effect of time|Mixed Models Analysis|F(1, 42) = 8.65||Worst pain interference with overall mood||||0.005
92268118|NCT04221373|184438283|OTHER|Mixed-effects model||||||0.946||||||Treatment group-by-time interaction effect|Mixed Models Analysis|F(1,21) = 0.01||Worst pain interfered with sleep||||0.946
92268119|NCT04221373|184438283|OTHER|Mixed-effects model||||||0.0002||||||Main effect of time|Mixed Models Analysis|F(1,21) = 11.94||Worst pain interference with sleep||||0.0002
92268120|NCT04221373|184438284|SUPERIORITY|||||||0.554|||||||Chi-squared|X\^2 (1, N = 23) = 0.35||Baseline||||0.554
92268121|NCT04221373|184438284|SUPERIORITY|||||||0.949|||||||Chi-squared|X\^2 (1, N = 23) = 0.004||discharge from acute inpatient rehabilitation (average 2-3 weeks)||||0.949
92268122|NCT00561600|184438303|NON_INFERIORITY_OR_EQUIVALENCE|non inferiority of proportion successful with 8% non inferiority margin at 24 months|percentage difference|0.139||||0.872|ONE_SIDED|95.0||0.225|||Chi-squared||The upper confidence limit was a priori determined to be a secondary endpoint|A non-inferiority test of the proportion successful for each treatment group will be the primary test of efficacy in this investigation. The null hypothesis is Ho: Xc-Xt ≥ 0.08 and the alternative hypothesis is HA:Xc-Xt \< 0.08 Sample size of 126 per group was needed assuming 93% success rates, this was increased to 150 per group to account for attrition.||.225||0.872
92268123|NCT00561600|184438304|SUPERIORITY_OR_OTHER|||||||0.167||95.0|||||t-test, 2 sided|Satterthwaite||||||0.167
92268124|NCT00561600|184438307|SUPERIORITY_OR_OTHER|||||||0.457|||||||Wilcoxon (Mann-Whitney)|||||||0.457
92268125|NCT00561600|184438308|SUPERIORITY_OR_OTHER|||||||0.762|||||||Wilcoxon (Mann-Whitney)|||||||0.762
92268126|NCT00561600|184438309|SUPERIORITY_OR_OTHER|||||||0.869|||||||Wilcoxon (Mann-Whitney)|||||||0.869
92268127|NCT00561600|184438310|SUPERIORITY_OR_OTHER|||||||0.799|||||||Wilcoxon (Mann-Whitney)|||||||0.799
92268128|NCT00561600|184438311|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum cobalt ions were expected to be lower in the ASR-XL group||||<0.001
92268129|NCT00561600|184438312|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum chromium ions were expected to be lower in the ASR-XL group||||0.032
92268130|NCT00561600|184438313|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte cobalt ions were expected to be lower in the ASR-XL group||||<0.001
92268131|NCT00561600|184438314|SUPERIORITY_OR_OTHER|||||||0.882|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte chromium ions were expected to be lower in the ASR-XL group||||0.882
92268132|NCT00561600|184438315|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum cobalt ions were expected to be lower in the ASR-XL group||||0.005
92268133|NCT00561600|184438316|SUPERIORITY_OR_OTHER|||||||0.237|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum chromium ions were expected to be lower in the ASR-XL group||||0.237
92268134|NCT00561600|184438317|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte cobalt ions were expected to be lower in the ASR-XL group||||0.001
92268135|NCT00561600|184438318|SUPERIORITY_OR_OTHER|||||||0.121|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte chromium ions were expected to be lower in the ASR-XL group||||0.121
92268136|NCT00561600|184438319|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum Cobalt ions were expected to be lower in the ASR-XL group||||0.012
92268137|NCT00561600|184438320|SUPERIORITY_OR_OTHER|||||||0.103|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum chromium ions were expected to be lower in the ASR-XL group||||0.103
92268138|NCT00561600|184438321|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte cobalt ions were expected to be lower in the ASR-XL group||||0.001
92268139|NCT00561600|184438322|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte chromium ions were expected to be lower in the ASR-XL group||||0.300
92268140|NCT00561600|184438323|SUPERIORITY_OR_OTHER|||||||0.079|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum cobalt ions were expected to be lower in the ASR-XL group||||0.079
92268141|NCT00561600|184438324|SUPERIORITY_OR_OTHER|||||||0.766|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum chromium ions were expected to be lower in the ASR-XL group||||0.766
92268142|NCT00561600|184438325|SUPERIORITY_OR_OTHER|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte cobalt ions were expected to be lower in the ASR-XL group||||0.018
92268143|NCT00561600|184438326|SUPERIORITY_OR_OTHER|||||||0.689|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte chromium ions were expected to be lower in the ASR-XL group||||0.689
92268144|NCT00561600|184438327|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum cobalt ions were expected to be lower in the ASR-XL group||||0.048
92191692|NCT00141271|184281994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0153||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.0153
92315028|NCT04052620|184533906|OTHER||Mean Difference (Final Values)|2.12|STANDARD_ERROR_OF_MEAN|2.24||0.3439|TWO_SIDED|95.0|-2.29|6.54|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||6.54|-2.29|0.3439
92315029|NCT04052620|184533907|OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.13||0.1554|TWO_SIDED|95.0|-0.44|0.07|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||0.07|-0.44|0.1554
92315030|NCT04052620|184533907|OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.14||0.0047|TWO_SIDED|95.0|-0.66|-0.12|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||-0.12|-0.66|0.0047
92315031|NCT04052620|184533907|OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.14||0.0082|TWO_SIDED|95.0|-0.66|-0.1|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||-0.10|-0.66|0.0082
92315032|NCT04052620|184533908|OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.09||0.2182|TWO_SIDED|95.0|-0.3|0.07|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||0.07|-0.30|0.2182
92315033|NCT04052620|184533908|OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.09||0.0574|TWO_SIDED|95.0|-0.36|0.01|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||0.01|-0.36|0.0574
92315034|NCT04052620|184533908|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.0194|TWO_SIDED|95.0|-0.37|-0.03|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||-0.03|-0.37|0.0194
92315035|NCT04052620|184533909|OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.821||0.6545|TWO_SIDED|95.0|-1.25|1.986|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 1|||1.986|-1.250|0.6545
92315036|NCT04052620|184533909|OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.721||0.4924|TWO_SIDED|95.0|-1.915|0.924|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||0.924|-1.915|0.4924
92315037|NCT04052620|184533910|OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.823||0.9491|TWO_SIDED|95.0|-1.675|1.57|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 1|||1.570|-1.675|0.9491
92191693|NCT00141271|184281995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2847||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.2847
92191694|NCT00141271|184281995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1958||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1958
92191695|NCT00141271|184281996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1652||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1652
92191696|NCT00141271|184281996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5997||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.5997
92191697|NCT00141271|184281997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0082||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.0082
92315038|NCT04052620|184533910|OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|1.451||0.582|TWO_SIDED|95.0|-2.059|3.659|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||3.659|-2.059|0.5820
92315039|NCT01112059|184533925|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.05|TWO_SIDED|95.0|0.128|0.633|||Wilcoxon (Mann-Whitney)|||||0.633|0.128|<0.05
92315040|NCT01610492|184533934|OTHER||Geometric Mean|0.76|||||TWO_SIDED|95.0|0.57|1.01||||||||1.01|0.57|
92315041|NCT01610492|184533935|OTHER||Geometric Mean|0.27|||||TWO_SIDED|95.0|0.12|0.58||||||||0.58|0.12|
92315042|NCT00550459|184534017|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|STANDARD_DEVIATION|0.55||0.08|TWO_SIDED|95.0|-0.03|0.5||Secondary endpoints were ordered in 5 tiers to be analyzed only when \>=1 of the endpoints in the prior tier were significant. Since primary endpoint not stat significant, analyses of secondary endpoint tiers presented for exploratory purposes only|ANCOVA|ANCOVA with factors of treatment, disease severity, age(6 Degrees of Freedom), and covariate baseline to fit primary endpoint using the ITT dataset.||Analysis of covariance (ANCOVA) with factors of treatment,disease severity (\<130mEq/L \[mmol/L\] or ≥130mEq/L \[mmol/L\] at baseline),age (\<65, ≥65 to \<75,and ≥75 years) (factor with 6 Degrees of Freedom), and covariate baseline used to fit primary endpoint using the intent-to-treat (ITT) dataset. Estimated treatment effect and its 95% confidence interval (CI) provided under the model with p-value. A 2-sided alpha (0.05) applied to the primary analysis. Primary analysis based on observed cases (OC).||0.50|-0.03|0.08
92315043|NCT00550459|184534018|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|0.63||0.21|TWO_SIDED|95.0|-0.12|0.51||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||0.51|-0.12|0.21
92315044|NCT00550459|184534019|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.27|STANDARD_DEVIATION|0.41||0.02|TWO_SIDED|95.0|0.04|0.51||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||0.51|0.04|0.02
92315045|NCT00550459|184534020|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.26|STANDARD_DEVIATION|0.83||0.21|TWO_SIDED|95.0|-0.15|0.67||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||0.67|-0.15|0.21
92315046|NCT00550459|184534021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12|STANDARD_DEVIATION|0.39||0.16|TWO_SIDED|95.0|-0.05|0.3||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||0.30|-0.05|0.16
92315047|NCT00550459|184534022|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.51|STANDARD_DEVIATION|3.53||0.23|TWO_SIDED|95.0|-4.02|1.0||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||1.00|-4.02|0.23
92315048|NCT00550459|184534023|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.83|STANDARD_DEVIATION|3.51||0.18|TWO_SIDED|95.0|-2.04|0.38||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||0.38|-2.04|0.18
92315049|NCT00550459|184534024|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.75|STANDARD_DEVIATION|3.45|<|0.0001|TWO_SIDED|95.0|2.89|6.6||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||6.60|2.89|<0.0001
92315050|NCT01459783|184534051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91||||0.76|TWO_SIDED|95.0|-5.13|6.95||We adopted Bonferroni adjustment for multiple testing and used a significance level of .05/3 = 0.017 to interpret the results for our primary outcomes.|Regression, Linear|Multivariate analyses included non-response weights and controlled for study arm, stratification variables, baseline values, \& intervention duration.|The difference in differences at 12 months is reported as in-person arm minus phone arm values from a multivariable analysis. A positive adjusted difference means worse burden for the in-person arm compared to the phone arm.|Analyses were intention-to-treat. Due to attrition and those ineligible for 12-month follow-up due to study ending before that time, we created survey non-response weights for each wave. Prior to the study, a sample size of 125 participants per group was based on the two primary outcomes, with a Type I Error of 0.025 (Bonferroni adjustment), setting a 0.5-SD difference in outcomes as clinically important, 80% power, 0.45 SD difference in difference in outcomes between groups, and 25% attrition.||6.95|-5.13|0.76
92191698|NCT00141271|184281997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7037||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7037
92191699|NCT00141271|184281998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2718||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.2718
92191700|NCT00141271|184281998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7077||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7077
92191701|NCT00141271|184281999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5057||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.5057
92191702|NCT00141271|184281999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3654||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3654
92191703|NCT00141271|184282000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6227||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6227
92191704|NCT00141271|184282000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7737||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7737
92268145|NCT00561600|184438328|SUPERIORITY_OR_OTHER|||||||0.782|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum chromium ions were expected to be lower in the ASR-XL group||||0.782
92268146|NCT00561600|184438329|SUPERIORITY_OR_OTHER|||||||0.061|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte cobalt ions were expected to be lower in the ASR-XL group||||0.061
92268147|NCT00561600|184438330|SUPERIORITY_OR_OTHER|||||||0.957|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte chromium ions were expected to be lower in the ASR-XL group||||0.957
92268148|NCT04139642|184438336|SUPERIORITY||||||<|0.0001||||||A mixed-effects model with provider as a random effect and month as a fixed effect was used to test the main effect of arm.|Mixed Models Analysis|||The null hypothesis was that the rate of balance-related diagnosis as a percentage of total visits would be the same between the historical control period, the active control (weight-only), and the intervention (balance+weight), considering provider and month as co-variates.||||<0.0001
92268149|NCT04139642|184438337|SUPERIORITY||||||=|0.15||||||Mixed-effects model with provider as a random effect and month as a fixed effect. Statistical significance a priori threshold set at 0.05.|Mixed Models Analysis|||The null hypothesis was that the rate of balance-related referral as a percentage of total visits would be the same between the historical control period, the active control (weight-only), and the intervention (balance+weight), considering provider and month as co-variates.||||=0.15
92268150|NCT01040624|184438339|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Chi-squared|One-sided binomial test of univariate probability distributions||||||<0.0001
92268151|NCT00577031|184438369|SUPERIORITY_OR_OTHER|||||||0.0076|||||||Signed-rank test|||Change from baseline to last visit||||0.0076
92268152|NCT01569074|184438389|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.23||||0.059|TWO_SIDED|80.0|0.07|0.39||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||0.39|0.07|0.059
92268153|NCT01569074|184438389|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.24||||0.054|TWO_SIDED|80.0|0.08|0.39||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.39|0.08|0.054
92268154|NCT01569074|184438389|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.06||||0.57|TWO_SIDED|80.0|-0.2|0.08||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.08|-0.20|0.570
92268155|NCT01569074|184438389|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.14||||0.262|TWO_SIDED|80.0|-0.02|0.29||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.29|-0.02|0.262
92268156|NCT01569074|184438390|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.11||||0.172|TWO_SIDED|80.0|0.01|0.21||Week 1|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.21|0.01|0.172
92268157|NCT01569074|184438390|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.06||||0.489|TWO_SIDED|80.0|-0.05|0.18||Week 1|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.18|-0.05|0.489
92268158|NCT01569074|184438390|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.03||||0.704|TWO_SIDED|80.0|-0.08|0.15||Week 1|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.15|-0.08|0.704
92268159|NCT01569074|184438391|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.17||||0.114|TWO_SIDED|80.0|0.03|0.31||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.31|0.03|0.114
92268160|NCT01569074|184438391|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.21||||0.035|TWO_SIDED|80.0|0.08|0.34||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.34|0.08|0.035
92315051|NCT01459783|184534052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.49|TWO_SIDED|95.0|-1.74|3.55||We used Bonferroni adjustment for multiple testing and a significance level of .05/3 = 0.017 to interpret the results for our primary outcomes. The behavior measure is analyzed two ways: total number of problems (reported here), and reaction score.|Regression, Linear|Multivariate analyses included non-response weights and controlled for study arm, stratification variables, baseline values, \& intervention duration.|The difference in differences at 12 months is reported as in-person arm minus phone arm values from a multivariable analysis. A positive adjusted difference means worse problems for the in-person arm compared to the phone arm.|Analyses were intention-to-treat. Due to attrition and those ineligible for 12-month follow-up due to study ending before that time, we created survey non-response weights for each wave. Prior to the study, a sample size of 125 participants per group was based on the two primary outcomes, with a Type I Error of 0.025 (Bonferroni adjustment), setting a 0.5-SD difference in outcomes as clinically important, 80% power, 0.45 SD difference in difference in outcomes between groups, and 25% attrition.||3.55|-1.74|0.49
92315052|NCT04211831|184534057|OTHER||Least square mean difference|-1.29|||=|0.1722|TWO_SIDED|95.0|-3.16|0.58|||mixed model for repeated measures||Treatment comparison between Placebo and URO-902 24 mg using least sqaure mean difference and 95% confidence interval (CI) has been presented.|||0.58|-3.16|=0.1722
92315053|NCT04211831|184534057|OTHER||Least Square Mean Difference|-2.24|||=|0.0159|TWO_SIDED|95.0|-4.04|-0.43|||Mixed model for repeated measures||Treatment comparison between Placebo and URO-902 48 mg using least sqaure mean difference and 95% CI has been presented.|||-0.43|-4.04|=0.0159
92315054|NCT00967330|184534059|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Chi-squared|||||||<0.0001
92315055|NCT00967330|184534060|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.588||||0.0012|TWO_SIDED|95.0|0.423|0.817|||Chi-squared|||||0.817|0.423|0.0012
92315056|NCT00967330|184534061|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.963||||0.8283|TWO_SIDED|95.0|0.684|1.354|||Chi-squared|||||1.354|0.684|0.8283
92315057|NCT00967330|184534063|SUPERIORITY_OR_OTHER||Difference in response rate|0.06||||0.34745|TWO_SIDED|95.0|-0.02|0.14|||Fisher Exact|||Response rate based on participants with CR at 4 weeks after RT.||0.14|-0.02|0.34745
92191705|NCT00390806|184282003|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.1862|TWO_SIDED|95.0|0.73|1.07||p-value from a stratified log-rank test is adjusted for Recursive Partitioning Analysis (RPA) class and the number of brain lesions at Screening.|Log Rank||The hazard ratio is estimated using a Pike estimator. The hazard ratio from a stratified log-rank test is adjusted for RPA class and the number of brain lesions at Screening.|||1.07|0.73|0.1862
92191706|NCT04783519|184282039|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-0.39||||0.004|TWO_SIDED|95.0|-0.65|-0.127|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||-0.127|-0.650|.004
92191707|NCT04783519|184282039|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-0.21||||0.118|TWO_SIDED|95.0|-0.482|0.054|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||.054|-.482|.118
92315058|NCT00967330|184534063|SUPERIORITY_OR_OTHER||Difference in response rate|0.09||||0.17923|TWO_SIDED|95.0|0.0|0.17|||Fisher Exact|||The response rate based on participants with CR at \>4 weeks after RT.||0.17|0.00|0.17923
92315059|NCT00967330|184534063|SUPERIORITY_OR_OTHER||Difference in response rate|0.0||||1|TWO_SIDED|95.0|-0.08|0.08|||Fisher Exact|||The response rate based on participants with CR at Month 6.||0.08|-0.08|1.00000
92315060|NCT00967330|184534063|SUPERIORITY_OR_OTHER||Difference in response rate|0.25||||0.0021|TWO_SIDED|95.0|0.12|0.38|||Fisher Exact|||Response rate based on participants with CR or PR at 4 weeks after RT.||0.38|0.12|0.00210
92315061|NCT00967330|184534063|SUPERIORITY_OR_OTHER||Difference in response rate|0.1||||0.18761|TWO_SIDED|95.0|-0.02|0.23|||Fisher Exact|||Response rate based on participants with CR and PR at \>4 weeks after RT.||0.23|-0.02|0.18761
92315062|NCT00967330|184534063|SUPERIORITY_OR_OTHER||Difference in response rate|-0.05||||0.38974|TWO_SIDED|95.0|-0.18|0.07|||Fisher Exact|||Response rate based on participants with CR or PR at Month 6.||0.07|-0.18|0.38974
92315063|NCT00967330|184534065|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|2.1002||||0.4975|TWO_SIDED|95.0|-3.9855|8.186|||ANOVA|||Physical Functioning. Analysis of variance (ANOVA) included all post-baseline data (Months 3 through 21).||8.1860|-3.9855|0.4975
92315064|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4704||||0.76|TWO_SIDED|95.0|-10.9358|7.9951|||ANOVA|||Role Functioning. ANOVA included all post-baseline data (Months 3 through 21).||7.9951|-10.9358|0.7600
92315065|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02278||||0.9949|TWO_SIDED|95.0|-7.035|6.9895|||ANOVA|||Emotional Functioning. ANOVA included all post-baseline data (Months 3 through 21).||6.9895|-7.0350|0.9949
92315066|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8213||||0.6253|TWO_SIDED|95.0|-9.155|5.5125|||ANOVA|||Cognitive Functioning. ANOVA included all post-baseline data (Months 3 through 21).||5.5125|-9.1550|0.6253
92315067|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6126||||0.7219|TWO_SIDED|95.0|-7.2953|10.5205|||ANOVA|||Social Functioning. ANOVA included all post-baseline data (Months 3 through 21).||10.5205|-7.2953|0.7219
92315068|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4989||||0.2443|TWO_SIDED|95.0|-2.4046|9.4023|||ANOVA|||Global Health Status /QoL. ANOVA included all post-baseline data (Months 3 through 21).||9.4023|-2.4046|0.2443
92315069|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.3449||||0.3287|TWO_SIDED|95.0|-10.0739|3.3841|||ANOVA|||Fatigue. ANOVA included all post-baseline data (Months 3 through 21).||3.3841|-10.0739|0.3287
92315070|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.196||||0.0485|TWO_SIDED|95.0|-8.3635|-0.0285|||ANOVA|||Nausea/Vomiting. ANOVA included all post-baseline data (Months 3 through 21).||-0.02850|-8.3635|0.0485
92315071|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.095||||0.0354|TWO_SIDED|95.0|-17.5629|-0.6271|||ANOVA|||Pain. ANOVA included all post-baseline data (Months 3 through 21).||-0.6271|-17.5629|0.0354
92315072|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2088||||0.3724|TWO_SIDED|95.0|-10.2784|3.8608|||ANOVA|||Dyspnoea. ANOVA included all post-baseline data (Months 3 through 21).||3.8608|-10.2784|0.3724
92315073|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.876||||0.2884|TWO_SIDED|95.0|-13.9002|4.1482|||ANOVA|||Insomnia. ANOVA included all post-baseline data (Months 3 through 21).||4.1482|-13.9002|0.2884
92315074|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.782||||0.4081|TWO_SIDED|95.0|-9.3926|3.8282|||ANOVA|||Appetite loss. ANOVA included all post-baseline data (Months 3 through 21).||3.8282|-9.3926|0.4081
92315075|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9375||||0.275|TWO_SIDED|95.0|-11.0245|3.1495|||ANOVA|||Constipation. ANOVA included all post-baseline data (Months 3 through 21).||3.1495|-11.0245|0.2750
92315076|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.1685||||0.0213|TWO_SIDED|95.0|-11.4129|-0.9241|||ANOVA|||Diarrhoea. ANOVA included all post-baseline data (Months 3 through 21).||-0.9241|-11.4129|0.0213
92315077|NCT00967330|184534065|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7295||||0.5201|TWO_SIDED|95.0|-11.0727|5.6137|||ANOVA|||Financial Problems. ANOVA included all post-baseline data (Months 3 through 21).||5.6137|-11.0727|0.5201
92315078|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2699||||0.3613|TWO_SIDED|95.0|-10.2983|3.7585|||ANOVA|||Future uncertainty. ANOVA included all post-baseline data (Months 3 through 21).||3.7585|-10.2983|0.3613
92191708|NCT04783519|184282039|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-0.41||||0.003|TWO_SIDED|95.0|-0.674|-0.142|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||-0.142|-0.674|.003
92315079|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1159||||0.6146|TWO_SIDED|95.0|-5.4654|3.2336|||ANOVA|||Visual disorder. ANOVA included all post-baseline data (Months 3 through 21).||3.2336|-5.4654|0.6146
92191709|NCT04783519|184282039|SUPERIORITY||beta coefficient|-0.16||||0.24|TWO_SIDED|95.0|-0.428|0.107|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.107|-0.428|.240
92191710|NCT04783519|184282040|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-4.88||||0.003|TWO_SIDED|95.0|-8.1|-1.65|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||-1.65|-8.10|.003
92191711|NCT04783519|184282040|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-1.71||||0.308|TWO_SIDED|95.0|-4.98|1.57|||Regression, Linear|Models control for age, sex, race, and ethnicity.||"Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.~Score on measure (T-score method https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3261577/)"||1.57|-4.98|.308
92191712|NCT04783519|184282040|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-4.52||||0.007|TWO_SIDED|95.0|-7.8|-1.25|||Regression, Linear|Models control for age, sex, race, and ethnicity.||"Changes from Baseline to 3 Month for BASICS+SLEEP vs. AOC reported in this section.~Score on measure (T-score method https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3261577/)"||-1.25|-7.8|.007
92191713|NCT04783519|184282040|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-0.83||||0.621|TWO_SIDED|95.0|-4.12|2.46|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to 3 Month for BASICS vs. AOC reported in this section. Score on measure (T-score method https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3261577/ )||2.46|-4.12|.621
92315080|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1014||||0.686|TWO_SIDED|95.0|-4.2449|6.4477|||ANOVA|||Motor dysfunction. ANOVA included all post-baseline data (Months 3 through 21).||6.4477|-4.2449|0.6860
92315081|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1009||||0.9706|TWO_SIDED|95.0|-5.468|5.2663|||ANOVA|||Communication deficit. ANOVA included all post-baseline data (Months 3 through 21).||5.2663|-5.4680|0.9706
92315082|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.3294||||0.0124|TWO_SIDED|95.0|-14.855|-1.8037|||ANOVA|||Headaches. ANOVA included all post-baseline data (Months 3 through 21).||-1.8037|-14.8550|0.0124
92315083|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0054||||0.5997|TWO_SIDED|95.0|-4.7654|2.7545|||ANOVA|||Seizures. ANOVA included all post-baseline data (Months 3 through 21).||2.7545|-4.7654|0.5997
92315084|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4399||||0.3458|TWO_SIDED|95.0|-10.6002|3.7204|||ANOVA|||Drowsiness. ANOVA included all post-baseline data (Months 3 through 21).||3.7204|-10.6002|0.3458
92315085|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.5908||||0.2383|TWO_SIDED|95.0|-12.2279|3.0464|||ANOVA|||Hair loss. ANOVA included all post-baseline data (Months 3 through 21).||3.0464|-12.2279|0.2383
92315086|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9807||||0.7491|TWO_SIDED|95.0|-5.0373|6.9988|||ANOVA|||Itchy skin. ANOVA included all post-baseline data (Months 3 through 21).||6.9988|-5.0373|0.7491
92315087|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0341||||0.7755|TWO_SIDED|95.0|-8.1508|6.0827|||ANOVA|||Weakness of legs. ANOVA included all post-baseline data (Months 3 through 21).||6.0827|-8.1508|0.7755
92315088|NCT00967330|184534066|SUPERIORITY_OR_OTHER||LS Mean Difference|0.469||||0.841|TWO_SIDED|95.0|-4.1211|5.0591|||ANOVA|||Bladder control. ANOVA included all post-baseline data (Months 3 through 21).||5.0591|-4.1211|0.8410
92315089|NCT00967330|184534067|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1933||||0.0817|TWO_SIDED|95.0|-0.411|0.02438|||ANOVA|||Orientation to time and place. ANOVA included all post-baseline data (Months 3 through 21).||0.02438|-0.4110|0.0817
92315090|NCT00967330|184534067|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02955||||0.0773|TWO_SIDED|95.0|-0.06234|0.003241|||ANOVA|||Immediate recall. ANOVA included all post-baseline data (Months 3 through 21).||0.003241|-0.06234|0.0773
92315091|NCT00967330|184534067|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1429||||0.2608|TWO_SIDED|95.0|-0.1065|0.3924|||ANOVA|||Repetitions required. ANOVA included all post-baseline data (Months 3 through 21).||0.3924|-0.1065|0.2608
92315092|NCT00967330|184534067|SUPERIORITY_OR_OTHER||LS Mean Difference|0.003262||||0.9836|TWO_SIDED|95.0|-0.3092|0.3158|||ANOVA|||Calculations. ANOVA included all post-baseline data (Months 3 through 21).||0.3158|-0.3092|0.9836
92315093|NCT00967330|184534067|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03782||||0.661|TWO_SIDED|95.0|-0.2071|0.1315|||ANOVA|||Short-term verbal memory. ANOVA included all post-baseline data (Months 3 through 21).||0.1315|-0.2071|0.6610
92191714|NCT04783519|184282041|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.802||||0.054|TWO_SIDED|95.0|0.641|1.003|||Mixed Models Analysis|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||1.003|0.641|.054
92191715|NCT04783519|184282041|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.75||||0.015|TWO_SIDED|95.0|0.6|0.946|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||0.946|0.600|.015
92191716|NCT04783519|184282041|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.736||||0.013|TWO_SIDED|95.0|0.578|0.937|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||0.937|0.578|.013
92191717|NCT04783519|184282041|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.658||||0.001|TWO_SIDED|95.0|0.513|0.844|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.844|0.513|.001
92191718|NCT04783519|184282042|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.992||||0.96|TWO_SIDED|95.0|0.716|1.374|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||1.374|0.716|.960
92191719|NCT04783519|184282042|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.782||||0.152|TWO_SIDED|95.0|0.506|1.094|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||1.094|0.506|.152
92315094|NCT00967330|184534067|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08037||||0.4464|TWO_SIDED|95.0|-0.2875|0.1268|||ANOVA|||Language and construct ability. ANOVA included all post-baseline data (Months 3 through 21).||0.1268|-0.2875|0.4464
92191720|NCT04783519|184282042|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.887||||0.482|TWO_SIDED|95.0|0.634|1.24|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||1.240|0.634|.482
92191721|NCT04783519|184282042|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.67||||0.02|TWO_SIDED|95.0|0.634|1.24|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||1.240|0.634|.020
92191722|NCT04783519|184282043|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.724||||0.032|TWO_SIDED|95.0|0.54|0.973|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||0.973|0.540|.032
92191723|NCT04783519|184282043|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.588|||<|0.001|TWO_SIDED|95.0|0.432|0.8|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.800|0.432|<.001
92191724|NCT04783519|184282044|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.699||||0.009|TWO_SIDED|95.0|0.535|0.914|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||0.914|0.535|.009
92191725|NCT04783519|184282044|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.675||||0.005|TWO_SIDED|95.0|0.512|0.888|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||0.888|0.512|.005
92191726|NCT04783519|184282044|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.698||||0.013|TWO_SIDED|95.0|0.526|0.928|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||0.928|0.526|.013
92191727|NCT04783519|184282044|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.525|||<|0.001|TWO_SIDED|95.0|0.385|0.715|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.715|0.385|<.001
92315095|NCT00967330|184534067|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3128||||0.4717|TWO_SIDED|95.0|-1.1658|0.5402|||ANOVA|||Total score. ANOVA included all post-baseline data (Months 3 through 21).||0.5402|-1.1658|0.4717
92315096|NCT00967330|184534068|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.151||||0.2078|TWO_SIDED|95.0|-5.4983|1.1963|||ANOVA|||KPS score. ANOVA included all post-baseline data (Months 3 through 21).||1.1963|-5.4983|0.2078
92315097|NCT00610428|184534072|SUPERIORITY|||||||0.084||||||p-values calculated by Log-rank Test in step-down sequence (10 mg to 5 mg)|Survival|||Survival time is defined as time to the first successful headache relief.||||0.0840
92315098|NCT00610428|184534072|SUPERIORITY|Survival time is defined as time to the first successful headache relief.||||||0.0383||||||p-values calculated by Log-rank Test in step-down sequence (10 mg to 5 mg)|Survival|||||||0.0383
92315099|NCT04927845|184534073|SUPERIORITY||between-group effect size Cohen's d|0.24||||0.008|TWO_SIDED|95.0|0.06|0.41|||linear mixed effects, groupXtime term|||||0.41|0.06|.008
92315100|NCT04927845|184534073|SUPERIORITY||Slope|1.75||||0.03|TWO_SIDED||||||linear mixed effects, groupXtime term|||Per Protocol Analyses of Intervention Effects: comparing the waitlist condition versus only intervention group participants who were program initiators||||.03
92315101|NCT04927845|184534073|SUPERIORITY|||||||0.009|||||||linear mixed effects, groupXtime term|||Per Protocol Analyses of Intervention Effects: concurrent service use was added as a covariate to models.||||.009
92315102|NCT04927845|184534074|SUPERIORITY||between-group effect size Cohen's d|0.11||||0.21|TWO_SIDED||||||linear mixed effects, groupXtime term|||||||.21
92315103|NCT04927845|184534075|SUPERIORITY||between-group effect size Cohen's d|0.19||||0.046|TWO_SIDED|95.0|0.02|0.36|||linear mixed effects, groupXtime term|||||0.36|0.02|.046
92315104|NCT00070564|184534079|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.32||||0.022|TWO_SIDED|95.0|1.04|1.68|||Log Rank|||||1.68|1.04|0.022
92315105|NCT00070564|184534079|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.24||||0.072|TWO_SIDED|95.0|0.98|1.59|||Log Rank|||||1.59|0.98|0.072
92191728|NCT04783519|184282045|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.598||||0.01|TWO_SIDED|95.0|0.404|0.885|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||0.885|0.404|.010
92191729|NCT04783519|184282045|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.502||||0.001|TWO_SIDED|95.0|0.331|0.76|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||0.760|0.331|.001
92191730|NCT04783519|184282045|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.516||||0.002|TWO_SIDED|95.0|0.337|0.79|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||0.790|0.337|.002
92191731|NCT04783519|184282045|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.506||||0.002|TWO_SIDED|95.0|0.33|0.774|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.774|0.330|.002
92315106|NCT00070564|184534079|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.12||||0.38|TWO_SIDED|95.0|0.87|1.44|||Log Rank|||||1.44|0.87|0.38
92315107|NCT00070564|184534079|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|||||||Log Rank|||||||0.11
92315108|NCT00070564|184534079|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.733|TWO_SIDED|95.0|0.61|1.41|||Log Rank|||||1.41|0.61|0.733
92315109|NCT00070564|184534080|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.44||||0.013|TWO_SIDED|95.0|1.08|1.93|||Log Rank|||||1.93|1.08|0.013
92315110|NCT00070564|184534080|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.46||||0.011|TWO_SIDED|95.0|1.09|1.95|||Log Rank|||||1.95|1.09|0.011
92315111|NCT00070564|184534080|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.24||||0.17|TWO_SIDED|95.0|0.91|1.68|||Log Rank|||||1.68|0.91|0.17
92315112|NCT00070564|184534080|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|||||||Log Rank|||||||0.040
92315113|NCT00070564|184534080|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.724|TWO_SIDED|95.0|0.54|1.53|||Log Rank|||||1.53|0.54|0.724
92315114|NCT00070564|184534082|SUPERIORITY_OR_OTHER_LEGACY|||||||0.67|||||||Log Rank|||Overall treatment differences.||||0.67
92315115|NCT00070564|184534082|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42|||||||Log Rank|||Test of interaction of two treatments: AC and paclitaxel.||||0.42
92315116|NCT00070564|184534083|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||Log Rank|||Test of overall treatment differences.||||0.90
92315117|NCT00070564|184534083|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52|||||||Log Rank|||Test of interaction of two treatments: AC and paclitaxel.||||0.52
92315118|NCT00070564|184534084|SUPERIORITY_OR_OTHER_LEGACY|||||||0.076|||||||Log Rank|||Test of overall treatment differences.||||0.076
92315119|NCT00070564|184534084|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Log Rank|||Test of interaction of two treatments: AC and paclitaxel.||||0.018
92315120|NCT00070564|184534085|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||Log Rank|||Test of overall treatment differences.||||0.062
92315121|NCT00070564|184534085|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Log Rank|||Test of interaction of two treatments: AC and paclitaxel.||||0.010
92315122|NCT00070564|184534086|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69|||||||Log Rank|||Test of overall treatment differences.||||0.69
92315123|NCT00070564|184534086|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|||||||Log Rank|||Test of interaction two treatments: AC and paclitaxel.||||0.66
92315124|NCT00070564|184534087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|||||||Log Rank|||Test of overall treatment differences||||0.40
92315125|NCT00070564|184534087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28|||||||Log Rank|||Test of interaction of two treatments: AC and paclitaxel.||||0.28
92315126|NCT04796961|184534088|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|0.1|0.7||||||||0.7|0.1|
92315127|NCT04796961|184534089|SUPERIORITY||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-0.1|1.1||||||smoking screening||1.1|-0.1|
92315128|NCT04796961|184534089|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|-0.1|1.2||||||readiness to quit assessments||1.2|-0.1|
92315129|NCT04796961|184534089|SUPERIORITY||Mean Difference (Net)|1.4|||||TWO_SIDED|95.0|0.8|2.0||||||smoking cessation counseling||2.0|0.8|
92315130|NCT04796961|184534089|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|-0.5|1.7||||||smoking cessation pharmacotherapy||1.7|-0.5|
92315131|NCT03848715|184534112|SUPERIORITY|||||||0.16|||||||Regression, Linear|||||||.16
92315132|NCT06700512|184534124|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|paired||"H0 (Objective 1) SRT (study HA) is either not significantly different from SRT without HAs or significantly worse than SRT without HAs.~H1(Objective 1) SRT(study HA) is significantly better than SRT without HAs. A mean difference in SRT of 1 dB measured with the Oldenburg sentence test can be assumed as a typical difference in speech intelligibility to show a clinically meaningful improvement."||||<0.001
92315133|NCT06700512|184534124|NON_INFERIORITY|A mean difference in SRT of 1 dB measured with the Oldenburg sentence test (Wagener et al, 1999a-c), can be assumed as a typical difference in speech intelligibility to show a clinically meaningful improvement (Kollmeier et al, 2011). Thus if SRT with study hearing aids is 1dB or more worse than with subjects' own hearing aids and the difference is significant (p\<0.05), inferiority of study hearing aid is assumed otherwise study hearing aids are considered non-inferior|||||<|0.001||||||paired|t-test, 1 sided|||H0 (Objective 2) SRT (study HA) is significantly worse than SRT(own HAs). H1(Objective 2) There is no difference between SRT(study HA) and SRT(own HAs) or SRT (study HA) is significantly better than SRT (own HAs) SRT= Speech Reception Threshold in dB||||<0.001
92191732|NCT04783519|184282046|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category.|count/rate ratio|0.628||||0.003|TWO_SIDED|95.0|0.462|0.853|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||0.853|0.462|.003
92191733|NCT04783519|184282046|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category.|count/rate ratio|0.744||||0.073|TWO_SIDED|95.0|0.538|1.028|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||1.028|0.538|.073
92191734|NCT04783519|184282046|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category.|count/rate ratio|0.764||||0.09|TWO_SIDED|95.0|0.559|1.043|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||1.043|0.559|.090
92191735|NCT04783519|184282046|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category.|count/rate ratio|0.656||||0.013|TWO_SIDED|95.0|0.469|0.916|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||0.916|0.469|.013
92191736|NCT04783519|184282047|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.753||||0.087|TWO_SIDED|95.0|0.546|1.041|||Generalized linear mixed model|Model controls for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||1.041|0.546|.087
92191737|NCT04783519|184282047|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.739||||0.078|TWO_SIDED|95.0|0.528|1.034|||Generalized linear mixed model|Model controls for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||1.034|0.528|.078
92191738|NCT04783519|184282047|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.773||||0.099|TWO_SIDED|95.0|0.569|1.05|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||1.050|0.569|.099
92191739|NCT04783519|184282047|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.704||||0.031|TWO_SIDED|95.0|0.512|0.969|||Generalized linear mixed model|Model controls for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.969|0.512|.031
92191740|NCT02273180|184282061|NON_INFERIORITY|Non-inferiority of SAR342434 over Humalog was demonstrated if upper bound of 2-sided 95% confidence interval(CI) of difference between SAR342434 \& Humalog was \<0.3%.Inverse non-inferiority of Humalog over SAR342434 was tested using hierarchical step-down testing procedure:if non-inferiority of SAR342434 over Humalog was demonstrated,then inverse non-inferiority of Humalog over SAR342434 was tested, demonstrated if lower bound of 2-sided 95%CI of difference between SAR342434 \& Humalog was \>-0.3%.|Least Square (LS) Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.071|||TWO_SIDED|95.0|-0.084|0.197|||||SAR342434 vs. Humalog|Analysis was performed using a MMRM approach with treatment groups, randomization strata, visits and treatment-by-visit interaction as fixed categorical effects, and baseline HbA1c value and baseline HbA1c value-by-visit interaction as continuous fixed covariates. An unstructured correlation matrix was used to model within-participant errors.||0.197|-0.084|
92191741|NCT04341584|184282071|SUPERIORITY||Median posterior HR|0.97|||||TWO_SIDED|90.0|0.62|1.52|||Bayesian Cox model|adjusted for age and centre|% Confidence Interval is % Credible Interval here|||1.52|0.62|
92191742|NCT04341584|184282072|SUPERIORITY||Median posterior absolute risk differenc|-2.5|||||TWO_SIDED|90.0|-17.1|12.0|||Bayesian analysis||% Confidence Interval is % Credible Interval here|||12|-17.1|
92191743|NCT04341584|184282073|SUPERIORITY||Median posterior HR|1.26|||||TWO_SIDED|90.0|0.59|2.81||adjusted for age and centre|Bayesian Fine and Gray analysis||% Confidence interval is % Credible Interval here|||2.81|0.59|
92191744|NCT04341584|184282074|SUPERIORITY||Median posterior absolute risk differenc|24.0|||||TWO_SIDED|90.0|3.9|43.5|||Bayesian analysis||% Confidence interval is % Credible interval here|||43.5|3.9|
92191745|NCT04341584|184282075|SUPERIORITY||Median posterior OR|0.8|||||TWO_SIDED|95.0|0.38|1.68|||Bayesian Proportionnal odds model|Adjusted for age and centre|% Confidence interval is % Credible interval here|Day 4||1.68|0.38|
92191746|NCT04341584|184282075|SUPERIORITY||Median posterior OR|0.69|||||TWO_SIDED|95.0|0.33|1.43|||Bayesian Proportionnal odds model|Adjusted for age and centre|% Confidence interval is % Credible interval here|Day 14||1.43|0.33|
92191747|NCT04341584|184282075|SUPERIORITY||Median posterior OR|0.7|||||TWO_SIDED|95.0|0.35|1.38|||Bayesian Proportionnal odds model|Adjusted for age and centre|% Confidence interval is % Credible interval here|Day 28||1.38|0.35|
92191748|NCT04341584|184282075|SUPERIORITY||Median posterior OR|0.72|||||TWO_SIDED|95.0|0.22|2.39|||Bayesian Proportionnal odds model|Adjusted for age and centre|% Confidence Interval is % Credible interval here|Day 4||2.39|0.22|
92191749|NCT04341584|184282075|SUPERIORITY||Median posterior HR|0.89|||||TWO_SIDED|95.0|0.28|2.8|||Bayesian Proportionnal odds model|Adjusted for age and centre|% Confidence Interval is % Credible interval here|Day 7||2.80|0.28|
92191750|NCT04341584|184282075|SUPERIORITY||Median posterior HR|0.57|||||TWO_SIDED|95.0|0.18|1.75||Day 14|Bayesian Proportionnal odds model|Adjusted for afe and centre|% Confidence Interval is % Credible interval here|||1.75|0.18|
92315134|NCT00931528|184534173|SUPERIORITY_OR_OTHER||Difference in percentages|5.0||||0.49|TWO_SIDED|95.0|1.0|9.0|||Chi-squared|||Sample size calculations were based on the hypothesis that the use of tadalafil would statistically significant increase the proportion of patients maintaining spontaneous erectile function compared to the use of placebo. Based on a 2-sided Fisher exact test with alpha=0.05, 91 patients/arm would provide 80% statistical power to detect an increase from 20% to 40% in spontaneous erectile response at weeks 28-30. Although designed for the Fisher exact test, Chi-square was used and reported.||9|1|0.49
92315135|NCT00931528|184534173|SUPERIORITY|||||||0.2386|||||||Regression, Logistic|||Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX vs. N0)\] were retained in the model. (Dropped: ethnicity, Zubrod, T stage, prostate-specific antigen (PSA).) The results for each explanatory variable are reported separately. Treatment arm is reported here.||||0.2386
92315136|NCT00931528|184534173|SUPERIORITY|||||||0.7908|||||||Regression, Linear|||Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX vs. N0)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.)The results for each explanatory variable are reported separately. RT method is reported here.||||0.7908
92315137|NCT00931528|184534173|SUPERIORITY|||||||0.0467|||||||Regression, Logistic|||Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX vs. N0)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. Age is reported here.||||0.0467
92191751|NCT04341584|184282076|SUPERIORITY||Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.23|1.29|||Regression, Cox|adjusted for age and centre||14 days||1.29|0.23|
92191752|NCT04341584|184282076|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.33|1.77|||Regression, Cox|Adjusted for age and centre||28 days||1.77|0.33|
92191753|NCT04341584|184282076|SUPERIORITY|90 days|Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.46|2.04|||Regression, Cox|adjusted on age and centre|% Confidence interval is % Credible interval here|||2.04|0.46|
92191754|NCT04341584|184282076|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.11|3.86|||Regression, Cox|adjusted on age and centre||||3.86|0.11|
92191755|NCT04341584|184282076|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.19|4.68|||Regression, Cox|adjusted on age and centre||||4.68|0.19|
92191756|NCT04341584|184282076|SUPERIORITY||Cox Proportional Hazard|1.22|||||TWO_SIDED|95.0|0.31|4.87|||Regression, Cox|adjusted on age and centre||||4.87|0.31|
92191757|NCT04341584|184282077|SUPERIORITY||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-8.3|6.4||||adjusted on age and centre||||6.4|-8.3|
92191758|NCT04341584|184282079|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.64|1.61|||Fine-Gray model|Adjusted for age and centre||||1.61|0.64|
92315138|NCT00931528|184534173|SUPERIORITY|||||||0.0068|||||||Regression, Logistic|||Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX vs. N0)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. N Stage is reported here.||||0.0068
92315139|NCT00931528|184534174|SUPERIORITY|||||||0.93|||||||Chi-squared|2-sided significance level = 0.05||Year 1||||0.93
92315140|NCT00931528|184534174|SUPERIORITY|||||||0.58|||||||Chi-squared|2-sided significance level = 0.05||Year 2||||0.58
92191759|NCT04341584|184282079|SUPERIORITY||Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.58|3.07||Adjusted for age and centre|Fine-Gray model|Adjusted for age and centre||||3.07|0.58|
92191760|NCT04341584|184282080|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.56|1.48|||Fine-Gray model|adjusted on age and centre||||1.48|0.56|
92191761|NCT04341584|184282080|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.35|2.34||adjusted on age and centre|Fine-Gray model|||||2.34|0.35|
92191762|NCT04341584|184282081|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.43|2.32||adjusted on age and centre|Fine-Gray model|||Day 28||2.32|0.43|
92191763|NCT04341584|184282081|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.52|2.29||adjusted on age and centre|Fine-Gray model|||Day 90||2.29|0.52|
92191764|NCT01231464|184282085|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.498|||<|0.0001|TWO_SIDED|95.0|-1.897|-1.009|||ANCOVA||Besides treatment, the ANCOVA analysis also adjusted for baseline, center, gender, age, and classification of AR (Intermittent Allergic Rhinitis \[IAR\] or Persistent Allergic Rhinitis \[PER\]).|||-1.009|-1.897|<0.0001
92191765|NCT00307164|184282130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64||95.0|||||Stratified Wilcoxon rank-sum test|Treatment groups were compared for change in limb fat using a two-sided stratified Wilcoxon rank-sum test (stratified by ARV used)||||||0.64
92191766|NCT00307164|184282131|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||Log Rank|||||||0.17
92191767|NCT00307164|184282133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.25
92191768|NCT00307164|184282135|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.88
92315141|NCT00931528|184534174|SUPERIORITY|||||||0.9501|||||||Regression, Logistic|||Year 1: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[none\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, N stage, T stage, PSA.) The results for each explanatory variable are reported separately. Treatment arm is reported here.||||0.9501
92315142|NCT00931528|184534174|SUPERIORITY|||||||0.102|||||||Regression, Logistic|||Year 1: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[none\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, N stage, T stage, PSA.) The results for each explanatory variable are reported separately. RT method is reported here.||||0.1020
92315143|NCT00931528|184534174|SUPERIORITY|||||||0.1855|||||||Regression, Logistic|||Year 1: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[none\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, N stage, T stage, PSA.) The results for each explanatory variable are reported separately. Age is reported here.||||0.1855
92315144|NCT00931528|184534174|SUPERIORITY|||||||0.5739|||||||Regression, Logistic|||Year 2: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. Treatment arm is reported here.||||0.5739
92315145|NCT00931528|184534174|SUPERIORITY|||||||0.0422|||||||Regression, Logistic|||Year 2: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. RT method is reported here.||||0.0422
92315146|NCT00931528|184534174|SUPERIORITY|||||||0.5237|||||||Regression, Logistic|||Year 2: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. Age is reported here.||||0.5237
92191769|NCT00307164|184282136|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.60
92191770|NCT00307164|184282137|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.13
92191771|NCT00307164|184282138|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.17
92191772|NCT00307164|184282139|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.034
92191773|NCT00307164|184282140|SUPERIORITY_OR_OTHER_LEGACY|||||||0.76||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.76
92191774|NCT00307164|184282141|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.10
92191775|NCT00307164|184282142|SUPERIORITY_OR_OTHER_LEGACY|||||||0.43||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.43
92191776|NCT00307164|184282143|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.17
92268161|NCT01569074|184438391|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.07||||0.334|TWO_SIDED|80.0|-0.17|0.02||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.02|-0.17|0.334
92268162|NCT01569074|184438391|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.04||||0.645|TWO_SIDED|80.0|-0.13|0.06||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.06|-0.13|0.645
92268163|NCT01569074|184438392|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.12||||0.028|TWO_SIDED|80.0|0.05|0.19||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.19|0.05|0.028
92268164|NCT01569074|184438392|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.14||||0.021|TWO_SIDED|80.0|0.06|0.22||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.22|0.06|0.021
92268165|NCT01569074|184438393|SUPERIORITY_OR_OTHER|||||||0.073||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-value estimated using the Van Elteren method stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||||0.073
92315147|NCT00931528|184534174|SUPERIORITY|||||||0.477|||||||Regression, Logistic|||Year 2: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. N Stage is reported here.||||0.4770
92315148|NCT00931528|184534175|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|Significance level = 0.05||Week 30||||0.97
92191777|NCT00307164|184282144|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.80
92191778|NCT00307164|184282145|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.42
92191779|NCT03712449|184282147|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0009|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0009
92191780|NCT03712449|184282147|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<0.0001
92191781|NCT03712449|184282148|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.7878|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.7878
92191782|NCT03712449|184282148|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0349|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0349
92191783|NCT03712449|184282149|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0043|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0043
92191784|NCT03712449|184282149|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<0.0001
92191785|NCT03712449|184282150|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0017|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0017
92191786|NCT03712449|184282150|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<0.0001
92315149|NCT00931528|184534175|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|Significance level = 0.05||Year 1||||0.99
92191787|NCT03712449|184282151|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0105|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0105
92191788|NCT03712449|184282151|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<0.0001
92191789|NCT03712449|184282152|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0004|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0004
92191790|NCT03712449|184282152|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<.0001
92191791|NCT03712449|184282157|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0005|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0005
92191792|NCT03712449|184282157|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<0.0001
92191793|NCT03972137|184282166|OTHER|A paired-samples t-test was conducted to compare changes in cigarettes smoked per day from Baseline (BL) to Quit Day.|Mean Difference (Final Values)|11.42|STANDARD_DEVIATION|6.08||0.003|TWO_SIDED|95.0|5.79|17.05||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean cigarettes smoked per day at Baseline and Quit Date (Mean CPD at Baseline - Mean CPD at Quit Date).|||17.05|5.79|.003
92191794|NCT03972137|184282166|OTHER|A paired-samples t-test was used to evaluate smoking reduction in participants from baseline (BL) to 3-month follow-up session (3MFU).|Mean Difference (Final Values)|11.9|STANDARD_DEVIATION|8.45||0.067|TWO_SIDED|95.0|-1.55|25.35||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean cigarettes smoked per day at Baseline and 3-month follow-up. Estimated value reported is reflective of the n=4 participants that attended the 3-month follow-up session.|||25.35|-1.55|.067
92191795|NCT03972137|184282167|OTHER|A paired-samples t-test was conducted to examine the difference in the DASS-21 total score from baseline (BL) to 2-weeks post-quit (2W).|Mean Difference (Final Values)|19.67|STANDARD_DEVIATION|11.91||0.01|TWO_SIDED|95.0|7.17|32.17||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean DASS-21 total scores at Baseline and 2-weeks post-quit. Estimated value reported is reflective of the n=6 participants that attended the 2-weeks post quit session.|||32.17|7.17|.010
92191796|NCT03972137|184282167|OTHER|A paired-samples t-test was conducted to examine the difference in DASS-21 Total scores from baseline (BL) to 1-month post-quit (1M).|Mean Difference (Final Values)|31.2|STANDARD_DEVIATION|20.4||0.027|TWO_SIDED|95.0|5.88|56.52||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean DASS-21 total scores at Baseline and 1-month post-quit. Estimated value reported is reflective of the n=5 participants that attended the 1-month post-quit session.|||56.52|5.88|.027
92315150|NCT00931528|184534175|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|Significance level = 0.05||Year 2||||0.24
92315151|NCT00931528|184534176|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|Significance level = 0.05||Week 30||||0.70
92315152|NCT00931528|184534176|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|Significance level = 0.05||Year 1||||0.65
92315153|NCT00931528|184534176|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|Significance level = 0.05||||||0.72
92315154|NCT00931528|184534177|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|Significance level = 0.05||Week 30||||0.14
92315155|NCT00931528|184534177|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|Significance level = 0.05||Year 1||||0.64
92315156|NCT00931528|184534177|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|Significance level = 0.05||Year 2||||0.18
92315157|NCT00931528|184534178|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|Significance level = 0.05||Week 30||||0.67
92315158|NCT00931528|184534178|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|Significance level = 0.05||Year 1||||0.98
92191797|NCT03972137|184282167|OTHER|A paired-samples t-test was conducted to evaluate the difference in DASS-21 total scores from baseline (BL) to 3-month follow up (3MFU).|Mean Difference (Final Values)|25.75|STANDARD_DEVIATION|15.5||0.045|TWO_SIDED|95.0|1.09|50.41||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean DASS-21 total scores at Baseline and 3-month follow-up. Estimated value reported is reflective of the n=4 participants that attended the 3-month follow-up session.|||50.41|1.09|.045
92191798|NCT02747121|184282178|OTHER|The intervention was external inspections. This is an organizational level intervention and it does not replace any existing intervention.|Odds Ratio (OR)|1.25||||0.24|TWO_SIDED|95.0|0.86|1.8||We used calculated P-values, however only confidence intervals were reported in the published article.|Mixed Models Analysis|||||1.80|0.86|0.24
92191799|NCT03029234|184282182|OTHER|The prespecified threshold that the primary endpoint would be met was if the lower limit of the 95% confidence interval (CI) was greater than 18%.|Overall response rate|35.8|||||TWO_SIDED|95.0|27.3|44.9||||||||44.9|27.3|
92191800|NCT00843115|184282254|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5.||||<0.0001
92191801|NCT00843115|184282255|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5.||||<0.0001
92191802|NCT00843115|184282256|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191803|NCT00843115|184282257|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191804|NCT00843115|184282258|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191805|NCT00843115|184282259|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191806|NCT00843115|184282260|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92315159|NCT00931528|184534178|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|Significance level = 0.05||Year 2||||0.96
92315160|NCT00931528|184534179|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|Significance level = 0.05||Week 30||||0.86
92315161|NCT00931528|184534179|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|Significance level = 0.05||Year 1||||0.93
92315162|NCT00931528|184534179|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|Significance level = 0.05||Year 2||||0.52
92315163|NCT05842967|184534193|NON_INFERIORITY|Noninferiority was declared if both the null hypothesis of GMR and the null hypothesis of difference in seroresponse rates were rejected for both RSV A and RSV B serum NTs, with a type I error (2-sided) of 5%.|GMR|1.57|||||TWO_SIDED|95.0|1.396|1.759|||||GMRs (ratio of GMTs from C3671023 SSA to C3671013 immunogenicity subset), 2-sided CI were calculated by exponentiating difference in LS means, corresponding CIs based on regression model. Data reported here is for RSV A.|||1.759|1.396|
92315164|NCT05842967|184534193|NON_INFERIORITY|Noninferiority was declared if both the null hypothesis of GMR and the null hypothesis of difference in seroresponse rates were rejected for both RSV A and RSV B serum NTs, with a type I error (2-sided) of 5%.|GMR|1.52|||||TWO_SIDED|95.0|1.333|1.725|||||GMRs (ratio of GMTs from C3671023 SSA to C3671013 immunogenicity subset), 2-sided CI were calculated by exponentiating difference in LS means, corresponding CIs based on regression model. Data reported here is for RSV B.|||1.725|1.333|
92315165|NCT05842967|184534194|NON_INFERIORITY|Noninferiority was declared if both the null hypothesis of GMR and the null hypothesis of difference in seroresponse rates were rejected for both RSV A and RSV B serum NTs, with a type I error (2-sided) of 5%.|Difference in percentage|5.1|||||TWO_SIDED|95.0|1.2|9.2|||||Difference (C3671023 SSA, compared to C3671013 immunogenicity subset) in proportions, expressed as a percentage; 95% CIs for percentage difference were calculated using exact method based on Miettinen and Nurminen. Data reported here is for RSV A.|||9.2|1.2|
92315166|NCT05842967|184534194|NON_INFERIORITY|Noninferiority was declared if both the null hypothesis of GMR and the null hypothesis of difference in seroresponse rates were rejected for both RSV A and RSV B serum NTs, with a type I error (2-sided) of 5%.|Difference in percentage|8.3|||||TWO_SIDED|95.0|4.2|12.6|||||Difference (C3671023 SSA, compared to C3671013 immunogenicity subset) in proportions, expressed as a percentage; 95% CIs for percentage difference were calculated using exact method based on Miettinen and Nurminen. Data reported here is for RSV B.|||12.6|4.2|
92315167|NCT00611923|184534217|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.57|||||||t-test, 2 sided|||paired t-test analysis comparing change from baseline PMTS score at month 1 between flutamide and placebo groups||||= 0.57
92315168|NCT00611923|184534217|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.27|||||||t-test, 2 sided|||paired t-test analysis comparing change from baseline PMTS score at month 2 between flutamide and placebo groups.||||= .27
92315169|NCT00611923|184534218|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.52|||||||t-test, 2 sided|||paired t-test comparing change in DRSP scores from baseline to Month 1 of treatment Larger positive change score indicates a greater reduction in symptoms from baseline.||||= 0.52
92315170|NCT00611923|184534218|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.2|||||||t-test, 2 sided|||paired t-test comparing change in DRSP scores from baseline to Month 2 of treatment Larger positive change score indicates a greater reduction in symptoms from baseline.||||= 0.2
92315171|NCT00611923|184534219|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.8|||||||t-test, 2 sided|||||||= 0.8
92315172|NCT00611923|184534219|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.1|||||||t-test, 2 sided|||||||= 0.1
92315173|NCT00611923|184534220|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.15|||||||t-test, 2 sided|||paired t-test was performed comparing the Clinical Global Improvement score at month 1 between placebo and flutamide groups||||=.15
92315174|NCT00611923|184534220|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.05|||||||t-test, 2 sided|||t-test was performed comparing the Clinical Global Improvement score at month 2 between placebo and flutamide groups||||= .05
92315175|NCT00611923|184534221|SUPERIORITY_OR_OTHER_LEGACY|Comparison of change from baseline score to treatment month 1 between placebo and flutamide treated subjects.|||||=|0.5|||||||t-test, 2 sided|||||||=0.5
92315176|NCT00611923|184534221|SUPERIORITY_OR_OTHER_LEGACY|paired t-test analysis comparing change from baseline CGI severity score at month 2 between flutamide and placebo groups|||||<|0.04|||||||t-test, 2 sided|||||||<.04
92315177|NCT00611923|184534222|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.2|||||||t-test, 2 sided|||paired t-test was performed comparing the Patient Global Improvement score at month 1 between placebo and flutamide groups||||=0.2
92315178|NCT00611923|184534222|SUPERIORITY_OR_OTHER_LEGACY|paired t-test was performed comparing the Patient Globall Improvement score at treatment month 2 between placebo and flutamide groups|||||=|0.06|||||||t-test, 2 sided|||||||=0.06
92315179|NCT00572936|184534225|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.|||||<|0.05||||||threshold for significance was \<0.05|ANOVA|||||||<.05
92315180|NCT00572936|184534226|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.|||||<|0.05||||||threshold for statistical significance was \<0.05|ANOVA|||||||<0.05
92315181|NCT00572936|184534227|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.||||||0.93||||||threshold for statistical significance was \<0.05|ANOVA|||||||0.93
92315182|NCT00572936|184534228|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.||||||0.84||||||threshold for statistical significance was \<0.05|ANOVA|||||||0.84
92315183|NCT00572936|184534229|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.|||||<|0.05||||||threshold for statistical significance was \<0.05|ANOVA|||||||<0.05
92315184|NCT00572936|184534230|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.||||||0.89||||||threshold for statistical significance was \<0.05|ANOVA|||||||0.89
92315185|NCT00572936|184534231|EQUIVALENCE|Kruskal-Wallis test was used to compare the differences between outflow facility for the three interventions|||||<|0.05||||||threshold for statistical significance was \<0.05|Kruskal-Wallis|||||||<0.05
92315186|NCT00572936|184534232|EQUIVALENCE|Kruskal-Wallis test was used to compare the differences in uveoscleral outflow between the three interventions|||||<|0.05||||||threshold for statistical analysis was \<0.05|Kruskal-Wallis|||||||<0.05
92315187|NCT02806908|184534233|SUPERIORITY|||||||0.0022|||||||ANOVA|||||||0.0022
92315188|NCT02806908|184534234|SUPERIORITY|||||||0.0416|||||||ANOVA|||||||0.0416
92315189|NCT02806908|184534235|SUPERIORITY|||||||0.0963|||||||McNemar|||||||0.0963
92315190|NCT02806908|184534236|SUPERIORITY|||||||0.3018|||||||McNemar|||||||0.3018
92315191|NCT02806908|184534237|SUPERIORITY|||||||0.424|||||||McNemar|||||||0.4240
92315192|NCT02806908|184534238|SUPERIORITY|||||||0.7539|||||||McNemar|||||||0.7539
92315193|NCT02806908|184534239|SUPERIORITY|||||||0.7539|||||||McNemar|||||||0.7539
92315194|NCT02806908|184534240|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
92315195|NCT02806908|184534241|SUPERIORITY|||||||0.6291|||||||McNemar|||||||0.6291
92315196|NCT02806908|184534242|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
92315197|NCT02806908|184534243|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
92315198|NCT02806908|184534244|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
92315199|NCT02806908|184534245|SUPERIORITY|||||||0.7744|||||||McNemar|||||||0.7744
92315200|NCT02806908|184534246|SUPERIORITY|||||||0.7539|||||||McNemar|||||||0.7539
92315201|NCT02806908|184534247|SUPERIORITY|||||||0.1141|||||||ANOVA|||||||0.1141
92315202|NCT02806908|184534248|SUPERIORITY|||||||0.4441|||||||ANOVA|||||||0.4441
92315203|NCT02806908|184534249|SUPERIORITY|||||||0.3423|||||||ANOVA|||||||0.3423
92315204|NCT02806908|184534250|SUPERIORITY|||||||0.9384|||||||ANOVA|||||||0.9384
92315205|NCT02806908|184534251|SUPERIORITY|||||||0.0939|||||||ANOVA|||||||0.0939
92315206|NCT02806908|184534252|SUPERIORITY|||||||0.0246|||||||ANOVA|||||||0.0246
92315207|NCT02806908|184534253|SUPERIORITY|||||||0.1475|||||||ANOVA|||||||0.1475
92315208|NCT02806908|184534254|SUPERIORITY|||||||0.1513|||||||ANOVA|||||||0.1513
92315209|NCT02806908|184534255|SUPERIORITY|||||||0.0002|||||||ANOVA|||||||0.0002
92315210|NCT02806908|184534256|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
92315211|NCT02806908|184534257|SUPERIORITY|||||||0.4774|||||||ANOVA|||||||0.4774
92315212|NCT02806908|184534258|SUPERIORITY|||||||0.3801|||||||ANOVA|||||||0.3801
92315213|NCT02806908|184534259|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92315214|NCT01760304|184534260|SUPERIORITY|||||||0.769|||||||2-sided paired t-test|||a paired t-test was calculated comparing baseline measures and post intervention||||0.769
92315215|NCT01760304|184534260|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired T-test|||a paired t-test was calculated comparing baseline measures and post intervention||||<0.0001
92315216|NCT01760304|184534262|SUPERIORITY_OR_OTHER||||||<|0.05|||||||paired t-test|||||||<0.05
92315217|NCT04429503|184534264|NON_INFERIORITY|p-value for one-sided non-inferiority (NI) test at a margin of 4 letters|Least Square (LS) Mean Difference|-0.57|||<|0.0001|TWO_SIDED|95.0|-2.26|1.13|||Mixed Model for Repeated Measurements||HDq12 minus 2q8|||1.13|-2.26|<0.0001
92315218|NCT04429503|184534264|NON_INFERIORITY|p-value for one-sided non-inferiority (NI) test at a margin of 4 letters|LS Mean Difference|-1.44||||0.0031|TWO_SIDED|95.0|-3.27|0.39|||Mixed Model for Repeated Measurements||HDq16 minus 2q8|||0.39|-3.27|0.0031
92315219|NCT04429503|184534265|NON_INFERIORITY|The non-inferiority margin was set at 15%|Adjusted Difference (%)|1.98|||||TWO_SIDED|95.0|-6.61|10.57|||||Difference with confidence interval (CI) was calculated using Mantel-Haenszel weighting scheme adjusted for stratification factors|||10.57|-6.61|
92315220|NCT04429503|184534265|NON_INFERIORITY|The non-inferiority margin was set at 15%.|Adjusted Difference (%)|-7.52|||||TWO_SIDED|95.0|-16.88|1.84|||||Difference with confidence interval (CI) was calculated using Mantel-Haenszel weighting scheme adjusted for stratification factors|||1.84|-16.88|
92315221|NCT05516108|184534286|OTHER|||||||0.004|||||||Mixed Models Analysis|Stata mixed||time (pre, post, follow-up) x condition (mindfulness, coping)||||.004
92315222|NCT05516108|184534287|OTHER|||||||0.02|||||||Mixed Models Analysis|||time (pre, post, follow-up) x condition (mindfulness, coping)||||.020
92315223|NCT05516108|184534288|OTHER|||||||0.74|||||||Mixed Models Analysis|Stata melogit||time (pre, post, follow-up) x condition (mindfulness, coping)||||.74
92315224|NCT05516108|184534289|OTHER|||||||0.1|||||||Mixed Models Analysis|||time (pre, post, follow-up) x condition (mindfulness, coping)||||.10
92191807|NCT00843115|184282261|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191808|NCT00843115|184282262|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92315225|NCT05516108|184534290|OTHER|||||||0.009|||||||Mixed Models Analysis|Stata mixed||time (pre, post, follow-up) x condition (mindfulness, coping)||||.009
92315226|NCT03664232|184534330|SUPERIORITY||Least-Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.09|=|0.284|TWO_SIDED|80.0|-0.17|0.07|||Mixed effects model for repeatedmeasures|||||0.07|-0.17|=0.284
92315227|NCT03664232|184534331|SUPERIORITY||Least-Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.1|=|0.29|TWO_SIDED|80.0|-0.18|0.07|||MMRM|||||0.07|-0.18|=0.290
92191809|NCT00843115|184282263|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191810|NCT00843115|184282264|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191811|NCT00843115|184282265|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191812|NCT00843115|184282266|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92315228|NCT03664232|184534332|SUPERIORITY||Least-Squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.1|=|0.231|TWO_SIDED|80.0|-0.21|0.06|||MMRM|||||0.06|-0.21|=0.231
92315229|NCT02717507|184534350|OTHER||Slope|0.163|STANDARD_ERROR_OF_MEAN|0.112||0.15|TWO_SIDED|95.0|-0.057|0.383|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment was considered efficacious if the group by time interaction for LVWT/Dz was statistically significant at a two-sided p\<0.05 and the expected LVWT/Dz was higher for carvedilol than placebo over time.|The null hypothesis is that change in LVWT/Dz across time do not vary by arm. Assuming a type I error=0.05, 2-sided test, 15% attrition/year, and correlation range of 0.6-0.8 between measurements, we projected that a sample size of 125/arm would provide 80% power to detect an effect size of 0.23-0.32 for LVWT/Dz at 24m.||0.383|-0.057|0.15
92315230|NCT02717507|184534351|OTHER||Slope|-3.764|STANDARD_ERROR_OF_MEAN|1.705||0.03|TWO_SIDED|95.0|-7.105|-0.424|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||-0.424|-7.105|0.03
92315231|NCT02717507|184534352|OTHER||Slope|-0.045|STANDARD_ERROR_OF_MEAN|0.023||0.05|TWO_SIDED|95.0|-0.09|0.001|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||0.001|-0.09|0.05
92315232|NCT02717507|184534353|OTHER||Slope|-2.194|STANDARD_ERROR_OF_MEAN|1.605||0.17|TWO_SIDED|95.0|-5.34|0.951|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment was considered efficacious if the group by time interaction for LVESV was statistically significant at a two-sided p\<0.05 and the expected LVESV was lower for carvedilol than placebo over time.|||0.951|-5.34|0.17
92315233|NCT02717507|184534354|OTHER||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.01|TWO_SIDED|95.0|-141.0|-0.024|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||-0.024|-0141|0.01
92315234|NCT02717507|184534355|OTHER||Slope|-2.397|STANDARD_ERROR_OF_MEAN|2.603||0.36|TWO_SIDED|95.0|-7.499|2.704|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment was considered efficacious if the group by time interaction for LVEDV was statistically significant at a two-sided p\<0.05 and the expected LVEDV was lower for carvedilol than placebo over time.|||2.704|-7.499|0.36
92315235|NCT02717507|184534356|OTHER||Slope|0.433|STANDARD_ERROR_OF_MEAN|0.799||0.59|TWO_SIDED|95.0|-1.134|1.999|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||1.999|-1.134|0.59
92315236|NCT02717507|184534357|OTHER||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.302||0.84|TWO_SIDED|95.0|-0.652|0.532|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment can be considered beneficial if the mean difference (treatment - control) slope is positive|||0.532|-0.652|0.84
92315237|NCT02717507|184534358|OTHER||Slope|0.259|STANDARD_ERROR_OF_MEAN|0.373||0.49|TWO_SIDED|95.0|-0.472|0.991|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment was considered efficacious if the group by time interaction for LVEF was statistically significant at a two-sided p\<0.05 and the expected LVEF was higher for carvedilol than placebo over time.|The null hypothesis is that change in LVEF across time do not vary by arm. Assuming a type I error=0.05, 2-sided test, 15% attrition/year, and correlation range of 1.2-1.6 between measurements, we projected that a sample size of 125/arm would provide 80% power to detect an effect size of 0.23-0.32 for LVEF at 24m.||0.991|-0.472|0.49
92315238|NCT02717507|184534359|OTHER||Slope|0.009|STANDARD_ERROR_OF_MEAN|0.038||0.82|TWO_SIDED|95.0|-0.065|0.082|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||0.082|-0.065|0.82
92315239|NCT02717507|184534360|OTHER||Slope|2.121|STANDARD_ERROR_OF_MEAN|1.79||0.24|TWO_SIDED|95.0|-1.387|5.63|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment can be considered beneficial if the mean difference (treatment - control) slope is negative|||5.63|-1.387|0.24
92315240|NCT02717507|184534361|OTHER||Slope|5.113|STANDARD_ERROR_OF_MEAN|8.532||0.55|TWO_SIDED|95.0|-11.608|21.835|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment can be considered beneficial if the mean difference (treatment - control) slope is negative|||21.835|-11.608|0.55
92191813|NCT00843115|184282267|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92315241|NCT02717507|184534362|OTHER||Slope|-0.001|STANDARD_ERROR_OF_MEAN|0.001||0.51|TWO_SIDED|95.0|-0.004|0.002|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||0.002|-0.004|0.51
92315242|NCT02717507|184534363|OTHER||Slope|-0.022|STANDARD_ERROR_OF_MEAN|0.228||0.92|TWO_SIDED|95.0|-0.468|0.424|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||0.424|-0.468|0.92
92315243|NCT02717507|184534365|OTHER||Slope|0.024|STANDARD_ERROR_OF_MEAN|0.104||0.82|TWO_SIDED|95.0|-0.18|0.229|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment can be considered beneficial if the mean difference (treatment - control) slope is negative.|||0.229|-0.18|0.82
92315244|NCT02717507|184534366|OTHER||Slope|-0.096|STANDARD_ERROR_OF_MEAN|2.439||0.97|TWO_SIDED|95.0|-4.877|4.685|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||4.685|-4.877|0.97
92315245|NCT02717507|184534367|OTHER||Slope|1.248|STANDARD_ERROR_OF_MEAN|3.491||0.72|TWO_SIDED|95.0|-5.595|8.091|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment can be considered beneficial if the mean difference (treatment - control) slope is negative.|The null hypothesis is that change in Average Alanine aminotransferase across time-points described above does not differ by treatment arm, tested using a longitudinal GEE analysis of Average Alanine aminotransferase with a treatment by time interaction.||8.091|-5.595|0.72
92315246|NCT05017246|184534370|SUPERIORITY||Mean Difference (Final Values)|-44.9||||0.0249|TWO_SIDED|95.0|-84.0|-5.8|||Two-sample t-test|Unadjusted analysis|Intrathecal - Epidural|||-5.8|-84.0|0.0249
92315247|NCT05017246|184534371|SUPERIORITY||Risk Ratio (RR)|1.04||||0.94|TWO_SIDED|95.0|0.36|3.01|||Chi-squared||Estimated probability of having the event in Intrathecal group divided by that in Epidural group|||3.01|0.36|0.94
92315248|NCT05017246|184534372|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.59|TWO_SIDED|95.0|-1.01|0.48|||Bootstrap resampling method|Bootstrap resampling method based on raw data was applied for due to highly right-skewed data (5,000 Bootstrap samples were selected).|Intrathecal - Epidural|||0.48|-1.01|0.59
92315249|NCT05017246|184534373|SUPERIORITY||Risk Ratio (RR)|0.95||||0.82|TWO_SIDED|95.0|0.61|1.48|||Chi-squared||Estimated probability of having the event in Intrathecal group divided by that in Epidural group|||1.48|0.61|0.82
92315250|NCT05017246|184534376|SUPERIORITY||Risk Ratio (RR)|1.56||||0.67|TWO_SIDED|95.0|0.27|8.95|||Fisher Exact||Estimated probability of having the event in Intrathecal group divided by that in Epidural group|||8.95|0.27|0.67
92315251|NCT05017246|184534377|SUPERIORITY||Risk Ratio (RR)|2.08||||0.61|TWO_SIDED|95.0|0.19|22.2|||Fisher Exact||Estimated probability of having the event in Intrathecal group divided by that in Epidural group|||22.2|0.19|0.61
92315252|NCT00970593|184534387|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.75|STANDARD_ERROR_OF_MEAN|0.526|||TWO_SIDED|95.0|-1.79|0.29||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||0.29|-1.79|
92315253|NCT00970593|184534387|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.543|||TWO_SIDED|95.0|-2.98|-0.83||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||-0.83|-2.98|
92191814|NCT00843115|184282268|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191815|NCT00843115|184282269|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191816|NCT00843115|184282270|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191817|NCT00843115|184282271|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92268166|NCT01569074|184438393|SUPERIORITY_OR_OTHER|||||||0.065||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-value estimated using the Van Elteren test stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||||0.065
92268167|NCT01569074|184438393|SUPERIORITY_OR_OTHER|||||||0.317||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-value estimated using the Van Elteren method stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||||0.317
92268168|NCT01569074|184438393|SUPERIORITY_OR_OTHER|||||||0.263||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-value estimated using the Van Elteren method stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||||0.263
92268169|NCT01569074|184438394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.3||||0.033|TWO_SIDED|80.0|1.94|14.31|||Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||14.31|1.94|0.033
92268170|NCT01569074|184438394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.1||||0.033|TWO_SIDED|80.0|1.92|13.61|||Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||13.61|1.92|0.033
92268171|NCT01569074|184438394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.257|TWO_SIDED|80.0|0.89|6.89|||Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||6.89|0.89|0.257
92268172|NCT01569074|184438394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.481|TWO_SIDED|80.0|0.63|5.04|||Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||5.04|0.63|0.481
92268173|NCT01569074|184438395|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.131|TWO_SIDED|80.0|1.12|4.2|||Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||4.20|1.12|0.131
92315254|NCT00970593|184534387|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.15|STANDARD_ERROR_OF_MEAN|0.458|||TWO_SIDED|95.0|-3.06|-1.24||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||-1.24|-3.06|
92315255|NCT00970593|184534388|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-2.37|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-3.52|-1.22||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||-1.22|-3.52|
92315256|NCT00970593|184534388|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.18|STANDARD_ERROR_OF_MEAN|0.495|||TWO_SIDED|95.0|-4.16|-2.2||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||-2.20|-4.16|
92315257|NCT00970593|184534388|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.14|STANDARD_ERROR_OF_MEAN|0.437|||TWO_SIDED|95.0|-4.01|-2.28||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||-2.28|-4.01|
92315258|NCT02203357|184534393|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0||||The p-value is adjusted for multiple comparisons and the a priori threshold for statistical significance.|ANOVA|||||||<0.05
92315259|NCT02002221|184534422|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.91|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-1.08|-0.73|||ANCOVA|||H0: δ vildagliptin 50 mg bid = δ placebo versus H1: δ Vildagliptin 50 mg bid \< δ placebo,||-0.73|-1.08|< 0.001
92315260|NCT02568072|184534443|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||||||0.44
92315261|NCT02568072|184534444|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
92315262|NCT02568072|184534445|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||||||0.37
92315263|NCT02714218|184534456|SUPERIORITY||Odds Ratio (OR)|0.59||||0.0144|TWO_SIDED|95.0|0.38|0.9|||Cochran-Mantel-Haenszel|Two-sided p-value CMH Test for comparison of odds ratio of NIVO 3 + IPI 1 over NIVO 1 + IPI 3||||0.90|0.38|0.0144
92191818|NCT00843115|184282272|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate @ 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92315264|NCT02714218|184534456|SUPERIORITY||Estimated Difference of rates|-12.7|||||TWO_SIDED|95.0|-22.7|-2.6|||||Estimate of NIVO 3 + IPI 1- NIVO 1 + IPI 3 is based on Cochran-Mantel-Haenszel (CMH) method of weighting, adjusting for PD-L1 expression and M stage at screening as entered into the IVRS|||-2.6|-22.7|
92315265|NCT02714218|184534457|SUPERIORITY||Odds Ratio (OR)|0.55||||0.0059|TWO_SIDED|95.0|0.36|0.84|||Cochran-Mantel-Haenszel|Two-sided p-value CMH Test for comparison of odds ratio of NIVO 3 + IPI 1 over NIVO 1 + IPI 3||||0.84|0.36|0.0059
92315266|NCT02714218|184534457|SUPERIORITY||Estimated Difference of rates|-14.4|||||TWO_SIDED|95.0|-24.5|-4.3|||||Estimate of NIVO 3 + IPI 1- NIVO 1 + IPI 3 is based on Cochran-Mantel-Haenszel (CMH) method of weighting, adjusting for PD-L1 expression and M stage at screening as entered into the IVRS|||-4.3|-24.5|
92315267|NCT02714218|184534458|SUPERIORITY||Odds Ratio (OR)|0.8||||0.2923|TWO_SIDED|95.0|0.53|1.21|||Cochran-Mantel-Haenszel||p-value from CMH Test for the comparison of the odds ratio of N3I1 over N1I3|||1.21|0.53|0.2923
92315268|NCT02714218|184534459|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.79|1.47|||||Hazard Ratio is N3I1 over N1I3. (NIVO 3 + IPI 1 (N3I1) over NIVO 1 + IPI 3 (N1I3))|||1.47|0.79|
92315269|NCT02714218|184534460|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.4512|TWO_SIDED|95.0|0.84|1.48|||Log Rank|||||1.48|0.84|0.4512
92315270|NCT03743051|184534476|SUPERIORITY|The Multiple Imputation process (N=100) was performed leading to least squares mean (LSM) and standard error (SE) estimates using the ANOVA model (including treatment group and the 3 stratification factors at randomization as categorical covariates). The estimates were pooled using Rubin rule, with corresponding p-value for difference between treatment groups. The 95% confidence interval (CI) was calculated for each treatment group and for the pooled difference between the groups.|Mean Difference (Final Values)|1.345|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|0.718|1.971|||ANOVA|||"To declare anamorelin superior to placebo, both co-primary endpoints had to be significant.~The null hypothesis for mean change in body weight from baseline over 12 weeks (H0w) and the corresponding alternative hypothesis (H1w) were:~H0w: MWa = MW; H1w: MWa ≠ MWp~Where MWa is the mean change in body weight from baseline over 12 weeks for the anamorelin arm and MWp is the mean change in body weight from baseline over 12 weeks for the placebo arm."||1.971|0.718|<0.0001
92315271|NCT03743051|184534477|SUPERIORITY|The Multiple Imputation process (N=100) was performed leading to least squares mean (LSM) and standard error (SE) estimates using the ANOVA model (including treatment group and the 3 stratification factors at randomization as categorical covariates). The estimates were pooled using Rubin rule, with corresponding p-value for difference between treatment groups. The 95% confidence interval (CI) was calculated for each treatment group and for the pooled difference between the groups.|Mean Difference (Final Values)|0.622|STANDARD_ERROR_OF_MEAN|0.434||0.1514|TWO_SIDED|95.0|-0.228|1.472|||ANOVA|||"To declare anamorelin superior to the placebo, both co-primary endpoints had to be significant.~The null hypothesis for mean change from baseline over 12 weeks in patient 5-IASS (H0A) and the corresponding alternative (H1A) were:~H0A: MAa = MAp; H1A: MAa ≠ MAp~Where MAa is the mean change from baseline over 12 weeks in 5-IASS for the anamorelin arm and MAp is the mean change from baseline over 12 weeks in 5-IASS for the placebo arm."||1.472|-0.228|0.1514
92315272|NCT03743051|184534478|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|2.41|STANDARD_ERROR_OF_MEAN|0.532|<|0.0001|TWO_SIDED|95.0|1.367|3.453|||ANOVA|||||3.453|1.367|<0.0001
92315273|NCT03743051|184534479|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|1.336|STANDARD_ERROR_OF_MEAN|0.484||0.0057|TWO_SIDED|95.0|0.388|2.284|||ANOVA|||||2.284|0.388|0.0057
92315274|NCT03743051|184534480|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|1.027|STANDARD_ERROR_OF_MEAN|0.403||0.0108|TWO_SIDED|95.0|0.238|1.816|||ANOVA|||||1.816|0.238|0.0108
92315275|NCT03743051|184534481|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|0.535|STANDARD_ERROR_OF_MEAN|0.475||0.2605|TWO_SIDED|95.0|-0.397|1.466|||ANOVA|||||1.466|-0.397|0.2605
92315276|NCT01422200|184534482|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92315277|NCT02550561|184534486|SUPERIORITY|||||||0.317||||||Subjects that reported either moderately or markedly improved on the GRA scale at 6 weeks compared to 12 weeks.|McNemar|||||||0.317
92315278|NCT02550561|184534487|OTHER|||||||0.47|||||||paired t-tests|||The mean change in Visual Analog Scale (VAS) score for bladder pain||||0.47
92315279|NCT02550561|184534487|OTHER|||||||0.17|||||||paired t-test|||The mean change in Pelvis Pain and Urgency/Frequency Patient Symptom (PUF) score||||0.17
92315280|NCT02550561|184534487|OTHER|||||||0.08|||||||paired t-test|||The mean change for O'Leary-Sant Interstitial Cystitis Symptom Index (ICSI)||||.08
92315281|NCT02550561|184534487|OTHER|||||||0.51|||||||paired t-test|||The mean change O'Leary-Sant Interstitial Cystitis Problem Index (ICPI)||||0.51
92315282|NCT02550561|184534487|OTHER|||||||0.22|||||||paired t-test|||The mean change in 24-h urinary frequency||||0.22
92315283|NCT00262028|184534525|NON_INFERIORITY_OR_EQUIVALENCE|MenACWY-CRM was considered to be noninferior to the licensed comparator if the lower limit (LL) of the 95% confidence intervals (CI) of the difference (MenACWY minus licensed comparator)in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> -10% against each serogroup|Vaccine group difference|37.0|||||TWO_SIDED|95.0|29.0|44.0||||||Noninferiority of immune responses of MenACWY-CRM to licensed comparator against serogroup A||44|29|
92315284|NCT00262028|184534525|NON_INFERIORITY_OR_EQUIVALENCE|MenACWY-CRM was considered to be noninferior to the licensed comparator if the lower LL of the 95% CI of the difference (MenACWY minus licensed comparator)in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> -10% against each serogroup|Vaccine group difference|19.0|||||TWO_SIDED|95.0|12.0|26.0||||||Noninferiority of immune responses of MenACWY-CRM to licensed comparator against serogroup C||26|12|
92191819|NCT00843115|184282273|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191820|NCT00843115|184282274|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
92191821|NCT00843115|184282275|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero.||Change from baseline in total score at Week 12||||<0.0001
92191822|NCT00843115|184282276|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero||Change from baseline in total score at Week 12 Last Observation Carried Forward||||<0.0001
92191823|NCT00843115|184282277|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||correlation coefficient|P value tests whether Pearson Product Correlation Coefficient is significantly different from zero||||||<0.0001
92191824|NCT00843115|184282278|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||correlation coefficient|p-value tests whether Pearson Product Correlation Coefficient is significantly different from zero||||||<0.0001
92191825|NCT00843115|184282279|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero.||||||<0.0001
92191826|NCT00843115|184282280|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero||||||<0.0001
92191827|NCT00843115|184282281|SUPERIORITY_OR_OTHER|||||||0.0713|||||||correlation coefficient|||||||0.0713
92315285|NCT00262028|184534525|NON_INFERIORITY_OR_EQUIVALENCE|MenACWY-CRM was considered to be noninferior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator)in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> -10% against each serogroup|Vaccine group difference|23.0|||||TWO_SIDED|95.0|17.0|29.0||||||Noninferiority of immune responses of MenACWY-CRM to licensed comparator against serogroup W||29|17|
92315286|NCT00262028|184534525|NON_INFERIORITY_OR_EQUIVALENCE|MenACWY-CRM was considered to be noninferior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator)in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> -10% against each serogroup|Vaccine group difference|31.0|||||TWO_SIDED|95.0|25.0|38.0||||||No inferiority of immune responses of MenACWY-CRM to licensed comparator against serogroup Y||38|25|
92315287|NCT00262028|184534525|SUPERIORITY_OR_OTHER||Vaccine group difference|37.0|||||TWO_SIDED|95.0|29.0|44.0||||||"Superiority of immune responses of MenACWY-CRM to licensed comparator against serogroup A~MenACWY-CRM was considered to be superior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator) in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> 0% against each serogroup"||44|29|
92315288|NCT00262028|184534525|SUPERIORITY_OR_OTHER||Vaccine group difference|19.0|||||TWO_SIDED|95.0|12.0|26.0||||||"Superiority of immune responses of MenACWY-CRM to licensed comparator against serogroup C~MenACWY-CRM was considered to be superior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator) in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> 0% against each serogroup"||26|12|
92315289|NCT00262028|184534525|SUPERIORITY_OR_OTHER||Vaccine group difference|23.0|||||TWO_SIDED|95.0|17.0|29.0||||||"Superiority of immune responses of MenACWY-CRM to licensed comparator against serogroup W~MenACWY-CRM was considered to be superior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator) in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> 0% against each serogroup"||29|17|
92315290|NCT00262028|184534525|SUPERIORITY_OR_OTHER||Vaccine group difference|31.0|||||TWO_SIDED|95.0|25.0|38.0||||||"Superiority of immune responses of MenACWY-CRM to licensed comparator against serogroup Y~MenACWY-CRM was considered to be superior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator) in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> 0% against each serogroup"||38|25|
92315291|NCT01015534|184534559|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.9||||0.019|TWO_SIDED|95.0|1.3|12.9||The sample size was calculated with a two-sided test,a type-I error probability of 0.05 and a power of 0.80,Twenty- eight patients in each treatment arm were required to detect a difference in ORR of 0.29|Chi-squared|||||12.9|1.3|0.019
92315292|NCT01015534|184534560|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.688||||0.704|TWO_SIDED|95.0|0.138|3.422|||Fisher Exact|||||3.422|.138|.704
92315293|NCT01015534|184534561|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Log Rank|||||||0.84
92315294|NCT01422213|184534563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.363|STANDARD_ERROR_OF_MEAN|0.072|<|0.0001|TWO_SIDED|95.0|0.22|0.5||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the composite z-score was analysed using the mixed model for repeated measurements (MMRM) with an unstructured covariance structure. The model included terms for grouped site, baseline composite z-score, baseline composite z-score-by-visit interaction, and treatment-by-visit interaction.||0.50|0.22|<0.0001
92315295|NCT01422213|184534563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.071|<|0.0001|TWO_SIDED|95.0|0.19|0.47||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the composite z-score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline composite z-score, baseline composite z-score-by-visit interaction, and treatment-by-visit interaction.||0.47|0.19|<0.0001
92315296|NCT01422213|184534564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|0.87|<|0.0001|TWO_SIDED|95.0|2.5|5.9||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the DSST (number of correct symbols) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||5.90|2.50|<0.0001
92315297|NCT01422213|184534564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|2.57|5.94||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the DSST (number of correct symbols) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||5.94|2.57|<0.0001
92315298|NCT01422213|184534565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|STANDARD_ERROR_OF_MEAN|0.46||0.0287|TWO_SIDED|95.0|0.11|1.93||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the RAVLT (acquisition) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||1.93|0.11|0.0287
92315299|NCT01422213|184534565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.46||0.1988|TWO_SIDED|95.0|-0.31|1.5||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the RAVLT (acquisition) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||1.50|-0.31|0.1988
92315300|NCT01422213|184534566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.24||0.0033|TWO_SIDED|95.0|0.24|1.19||Since the p-value for RAVLT acquisition for 10 mg was \>0.025, the p-value for this test is nominal.|Mixed Models Analysis|||Based on the FAS, the RAVLT (delayed recall) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||1.19|0.24|0.0033
92315301|NCT01422213|184534566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.24||0.0073|TWO_SIDED|95.0|0.17|1.12||Since the p-value for RAVLT acquisition for 20 mg was \>0.025, the p-value for this test is nominal.|Mixed Models Analysis|||Based on the FAS, the RAVLT (delayed recall) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||1.12|0.17|0.0073
92191828|NCT00843115|184282282|SUPERIORITY_OR_OTHER|||||||0.0225|||||||Correlation coefficient|||||||0.0225
92315302|NCT01422213|184534567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.76|STANDARD_ERROR_OF_MEAN|1.37||0.0061|TWO_SIDED|95.0|-6.45|-1.08||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the TMT A (Speed of Processing) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-1.08|-6.45|0.0061
92315303|NCT01422213|184534567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|1.35||0.0052|TWO_SIDED|95.0|-6.46|-1.14||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the TMT A (Speed of Processing) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-1.14|-6.46|0.0052
92315304|NCT01422213|184534568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.57|STANDARD_ERROR_OF_MEAN|2.73||0.0058|TWO_SIDED|95.0|-12.93|-2.2||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the TMT B (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-2.20|-12.93|0.0058
92191829|NCT00843115|184282283|SUPERIORITY_OR_OTHER|||||||0.0152|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero.||||||0.0152
92191830|NCT00843115|184282284|SUPERIORITY_OR_OTHER|||||||0.0229|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero||||||0.0229
92315305|NCT01422213|184534568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.01|STANDARD_ERROR_OF_MEAN|2.7||0.0009|TWO_SIDED|95.0|-14.32|-3.7||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the TMT B (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-3.70|-14.32|0.0009
92315306|NCT01422213|184534569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|1.28||0.0018|TWO_SIDED|95.0|-6.5|-1.49||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the Congruent STROOP Time to Complete (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-1.49|-6.50|0.0018
92315307|NCT01422213|184534569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.45|STANDARD_ERROR_OF_MEAN|1.26||0.0005|TWO_SIDED|95.0|-6.93|-1.97||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the Congruent STROOP Time to Complete (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-1.97|-6.93|0.0005
92315308|NCT01422213|184534570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.75|STANDARD_ERROR_OF_MEAN|2.04||0.001|TWO_SIDED|95.0|-10.76|-2.74||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the Incongruent STROOP Time to Complete (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-2.74|-10.76|0.0010
92191831|NCT00843115|184282285|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero.||||||<0.0001
92191832|NCT00843115|184282286|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero.||||||<0.0001
92191833|NCT00843115|184282287|SUPERIORITY_OR_OTHER|||||||0.7963|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12."||||||0.7963
92191834|NCT00843115|184282288|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12 LOCF."||||||1.0000
92191835|NCT00843115|184282289|SUPERIORITY_OR_OTHER|||||||0.0719|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12"||||||0.0719
92191836|NCT00843115|184282290|SUPERIORITY_OR_OTHER|||||||0.1779|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12 LOCF."||||||0.1779
92191837|NCT00843115|184282291|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12"||||||1.0000
92191838|NCT00843115|184282292|SUPERIORITY_OR_OTHER|||||||0.8575|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12 LOCF"||||||0.8575
92191839|NCT00843115|184282293|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12"||||||1.0000
92191840|NCT00843115|184282294|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12 LOCF"||||||1.0000
92191841|NCT00843115|184282295|SUPERIORITY_OR_OTHER|||||||0.0131|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12"||||||0.0131
92191842|NCT00843115|184282296|SUPERIORITY_OR_OTHER|||||||0.0078|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12 LOCF"||||||0.0078
92191843|NCT01287416|184282356|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||The a priori threshold for statistical significance was set at p\<.05. Effect size determined by partial eta-squared to be 0.01.|Mixed Models Analysis|Model was adjusted for differences in educational attainment at baseline.||The null hypothesis was that the groups would not differ in terms of SIRI scores across the three time points. We used linear mixed models to determine whether scores were different between the two groups over time.||||0.61
92191844|NCT01287416|184282357|SUPERIORITY_OR_OTHER|||||||0.95||95.0||||The a priori threshold for statistical significance was set at p\<.05. Effect size determined by partial eta-squared to be 0.02.|Mixed Models Analysis|Model was adjusted for differences in educational attainment at baseline.||The null hypothesis was that the groups would not differ in terms of level of knowledge across the three time points.||||0.95
92191845|NCT01287416|184282358|SUPERIORITY_OR_OTHER|||||||0.33||95.0||||The a priori threshold for statistical significance was set at p\<.05. Effect size determined by partial eta-squared to be 0.02.|Mixed Models Analysis|Model was adjusted for differences in educational attainment at baseline.||The null hypothesis was that the two groups would not differ in terms of self-reported skill level across the three time points.||||0.33
92191846|NCT01287416|184282359|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||The a priori threshold for statistical significance was set at p\<.05. Effect size determined by partial eta-squared to be 0.05.|Mixed Models Analysis|Model adjusted for differences in educational attainment at baseline.||The null hypothesis was that the groups would not differ in terms of level of knowledge across the three time points.||||0.03
92191847|NCT01287416|184282360|SUPERIORITY_OR_OTHER|||||||0.63||95.0||||The a priori threshold for statistical significance was set at p\<.05. Effect size determined by partial eta-squared to be 0.01.|Mixed Models Analysis|Model was adjusted for differences in educational attainment at baseline.||The null hypothesis was that the two groups would not differ on level of self-reported preparedness to help a suicidal person.||||0.63
92191848|NCT01287416|184282361|SUPERIORITY_OR_OTHER|||||||0.21||95.0||||A priori threshold for significance set to p\<.05.|ANCOVA|Model adjusted for differences in educational attainment at baseline.||The null hypothesis was that the groups would not differ on their level of distress across the two time points.||||0.21
92315309|NCT01422213|184534570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.52|STANDARD_ERROR_OF_MEAN|2.02||0.0013|TWO_SIDED|95.0|-10.49|-2.54||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the Incongruent STROOP Time to Complete (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-2.54|-10.49|0.0013
92315310|NCT01422213|184534571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046|STANDARD_ERROR_OF_MEAN|0.012||0.0002|TWO_SIDED|95.0|-0.07|-0.02||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the SRT (Speed of Processing) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-0.02|-0.07|0.0002
92315311|NCT01422213|184534571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.029|STANDARD_ERROR_OF_MEAN|0.012||0.0157|TWO_SIDED|95.0|-0.05|-0.01||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the SRT (Speed of Processing) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-0.01|-0.05|0.0157
92315312|NCT01422213|184534572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.032|STANDARD_ERROR_OF_MEAN|0.009||0.0005|TWO_SIDED|95.0|-0.05|-0.01||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CRT (Attention) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-0.01|-0.05|0.0005
92315313|NCT01422213|184534572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.009||0.3549|TWO_SIDED|95.0|-0.03|0.01||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CRT (Attention) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||0.01|-0.03|0.3549
92315314|NCT01422213|184534573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|0.89|<|0.0001|TWO_SIDED|95.0|-6.45|-2.96||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the MADRS Total Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-2.96|-6.45|<0.0001
92315315|NCT01422213|184534573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|0.88|<|0.0001|TWO_SIDED|95.0|-8.43|-4.98||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the MADRS Total Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-4.98|-8.43|<0.0001
92315316|NCT01422213|184534574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.88|-0.42||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CGI-S Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-0.42|-0.88|<0.0001
92315317|NCT01422213|184534574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.08|-0.62||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CGI-S Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-0.62|-1.08|<0.0001
92315318|NCT01422213|184534575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.81|-0.4||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CGI-I Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site and treatment-by-visit interaction.||-0.40|-0.81|<0.0001
92315319|NCT01422213|184534575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.06|-0.65||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CGI-I Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site and treatment-by-visit interaction.||-0.65|-1.06|<0.0001
92315320|NCT01422213|184534576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.0002|TWO_SIDED|95.0|1.44|3.33||Wald's Test. No adjustment for multiplicity was made.|Regression, Logistic|||||3.33|1.44|0.0002
92315321|NCT01422213|184534576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.43|||<|0.0001|TWO_SIDED|95.0|2.26|5.21||Wald's Test. No adjustment for multiplicity was made.|Regression, Logistic|||||5.21|2.26|<0.0001
92191849|NCT01287416|184282362|SUPERIORITY_OR_OTHER|||||||0.46||95.0||||A priori threshold for significance set at p\<.05.|ANCOVA|Model was adjusted for differences in educational attainment at baseline.||Null hypothesis was that the groups would not differ in terms of alcohol use across the two time points.||||0.46
92315322|NCT01422213|184534577|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.003|TWO_SIDED|95.0|1.29|3.41||Wald's Test. No adjustment for multiplicity was made.|Regression, Logistic|||||3.41|1.29|0.0030
92315323|NCT01422213|184534577|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.13|||<|0.0001|TWO_SIDED|95.0|1.95|5.03||Wald's Test. No adjustment for multiplicity was made.|Regression, Logistic|||||5.03|1.95|<0.0001
92315324|NCT01422213|184534578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.059||0.0393|TWO_SIDED|95.0|0.01|0.24||No adjustment for multiplicity was made.|ANCOVA|||||0.24|0.01|0.0393
92315325|NCT01422213|184534579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.068||0.0007|TWO_SIDED|95.0|0.1|0.36||No adjustment for multiplicity was made.|ANCOVA|||||0.36|0.10|0.0007
92315326|NCT01422213|184534579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.068||0.0246|TWO_SIDED|95.0|0.02|0.29||No adjustment for multiplicity was made.|ANCOVA|||||0.29|0.02|0.0246
92315327|NCT04782076|184534606|OTHER||LS Mean Difference (Final Values)|1.43|||||TWO_SIDED|90.0|1.33|1.55|||Mixed Models Analysis|Least Squares Mean (LS Mean)||||1.55|1.33|
92315328|NCT04782076|184534607|OTHER||LS Mean Difference (Final Values)|1.38|||||TWO_SIDED|90.0|1.3|1.46|||Mixed Models Analysis|||||1.46|1.30|
92315329|NCT02189837|184534616|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|88.76|STANDARD_ERROR_OF_MEAN|36.67||0.018|TWO_SIDED|95.0|15.73|161.8|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||The superiority of evolocumab monotherapy to placebo was tested using a 2-sided p-value at a significance level of 0.05.||161.80|15.73|0.018
92315330|NCT02189837|184534616|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|236.35|STANDARD_ERROR_OF_MEAN|36.32|<|0.001|TWO_SIDED|95.0|164.02|308.69|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||The treatment effect of evolocumab plus atorvastatin compared with placebo plus atorvastatin was estimated and a nominal p-value is provided.||308.69|164.02|<0.001
92315331|NCT02189837|184534616|SUPERIORITY_OR_OTHER||Treatment Effect|147.59|STANDARD_ERROR_OF_MEAN|51.61||0.005|TWO_SIDED|95.0|44.8|250.38|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||To assess whether the treatment effect of evolocumab compared with placebo depended on being administered alone or combined with atorvastatin, the interaction was tested, i.e., the difference between the treatment difference versus the respective placebo group for the evolocumab+atorvastatin group and the evolocumab group was calculated.||250.38|44.80|0.005
92315332|NCT02189837|184534617|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-57.14|STANDARD_ERROR_OF_MEAN|4.4|<|0.001||95.0|-65.91|-48.38|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||-48.38|-65.91|<0.001
92315333|NCT02189837|184534617|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-37.95|STANDARD_ERROR_OF_MEAN|4.31|<|0.001|TWO_SIDED|95.0|-46.55|-29.34|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||-29.34|-46.55|<0.001
92315334|NCT02189837|184534617|SUPERIORITY_OR_OTHER||Treatment Effect|19.2|STANDARD_ERROR_OF_MEAN|6.15||0.003|TWO_SIDED|95.0|6.93|31.47|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||31.47|6.93|0.003
92191850|NCT01287416|184282363|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||The a priori threshold for statistical significance was set at p\<.05.|ANCOVA|Model is adjusted for differences in educational attainment at baseline.||The null hypothesis was that the two groups would not differ in resiliency scores across the follow-up period.||||0.28
92191851|NCT01287416|184282364|SUPERIORITY_OR_OTHER|||||||0.33||95.0||||A priori threshold for significance set at p\<.05.|Chi-squared|||||||0.33
92191852|NCT01287416|184282365|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||A priori threshold for significance set at p\<.05.|Chi-squared|||||||0.62
92191853|NCT01287416|184282366|SUPERIORITY_OR_OTHER|||||||1||95.0||||A priori threshold for significance set to p\<.05.|Fisher Exact|||||||1.00
92191854|NCT01287416|184282367|SUPERIORITY_OR_OTHER|||||||1||95.0||||A priori threshold for significance set to p\<.05.|Fisher Exact|||||||1.00
92315335|NCT02189837|184534618|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-16.65|STANDARD_ERROR_OF_MEAN|10.41||0.11|TWO_SIDED|95.0|-37.37|4.08|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||4.08|-37.37|0.11
92315336|NCT02189837|184534618|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-32.66|STANDARD_ERROR_OF_MEAN|10.31||0.002|TWO_SIDED|95.0|-53.19|-12.13|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||-12.13|-53.19|0.002
92315337|NCT02189837|184534618|SUPERIORITY_OR_OTHER||Treatment Effect|-16.01|STANDARD_ERROR_OF_MEAN|14.65||0.28|TWO_SIDED|95.0|-45.18|13.16|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||13.16|-45.18|0.28
92315338|NCT02189837|184534619|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-2.12|STANDARD_ERROR_OF_MEAN|13.4||0.87|TWO_SIDED|95.0|-28.94|24.7|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||The superiority of evolocumab monotherapy to placebo was tested using a 2-sided p-value at a significance level of 0.05.||24.70|-28.94|0.87
92191855|NCT01287416|184282368|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||A priori threshold for significance set to p\<.05.|Fisher Exact|||||||0.064
92191856|NCT01287416|184282370|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||a priori threshold for significance set a p\<.05.|Fisher Exact|unadjusted model||Null hypothesis was that the groups would not differ in terms of their gatekeeper behaviours||||0.14
92315339|NCT02189837|184534619|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|39.06|STANDARD_ERROR_OF_MEAN|12.76||0.003|TWO_SIDED|95.0|13.52|64.59|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||The treatment effect of evolocumab plus atorvastatin compared with placebo plus atorvastatin was estimated and a nominal p-value is provided.||64.59|13.52|0.003
92315340|NCT02189837|184534619|SUPERIORITY_OR_OTHER||Treatment Effect|41.18|STANDARD_ERROR_OF_MEAN|18.5||0.03|TWO_SIDED|95.0|4.15|78.2|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||To assess whether the treatment effect of evolocumab compared with placebo depended on being administered alone or combined with atorvastatin, the interaction was tested, i.e., the difference between the treatment difference versus the respective placebo group for the evolocumab+atorvastatin group and the evolocumab group was calculated.||78.20|4.15|0.030
92315341|NCT02189837|184534620|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-39.43|STANDARD_ERROR_OF_MEAN|11.6||0.001|TWO_SIDED|95.0|-62.66|-16.21|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||-16.21|-62.66|0.001
92191857|NCT01287416|184282371|SUPERIORITY_OR_OTHER|||||||0.41||95.0||||A priori threshold for significance set at p\<.05.|Chi-squared|Unadjusted model||Null hypothesis was that the groups would not differ on gatekeeper behaviours.||||0.41
92191858|NCT02264353|184282382|SUPERIORITY|||||||0.576|||||||t-test, 2 sided|||||||0.576
92191859|NCT02264353|184282383|OTHER|||||||0.394|||||||Wilcoxon (Mann-Whitney)|||||||0.394
92191860|NCT02264353|184282384|SUPERIORITY|||||||0.089|||||||t-test, 2 sided|||||||0.089
92268174|NCT01569074|184438395|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.423|TWO_SIDED|80.0|0.79|2.82|||Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||2.82|0.79|0.423
92268175|NCT01569074|184438395|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.781|TWO_SIDED|80.0|0.45|1.67|||Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.67|0.45|0.781
92268176|NCT01569074|184438395|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.239|TWO_SIDED|80.0|0.95|3.44|||Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||3.44|0.95|0.239
92268177|NCT01569074|184438396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.169|TWO_SIDED|80.0|1.06|4.67||Week 12|Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ration \>1 indicates a benefit towards fostamatinib|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||4.67|1.06|0.169
92268178|NCT01569074|184438396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.833|TWO_SIDED|80.0|0.45|1.78||Week 12|Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.78|0.45|0.833
92268179|NCT01569074|184438396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.614|TWO_SIDED|80.0|0.37|1.54||Week 12|Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.54|0.37|0.614
92268180|NCT01569074|184438396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.748|TWO_SIDED|80.0|0.42|1.69||Week 12|Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.69|0.42|0.748
92268181|NCT01569074|184438397|SUPERIORITY_OR_OTHER||Treatment difference|3.01||||0.087|TWO_SIDED|80.0|0.76|5.26|||ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||5.26|0.76|0.087
92268182|NCT01569074|184438397|SUPERIORITY_OR_OTHER||Treatment difference|0.25||||0.881|TWO_SIDED|80.0|-1.91|2.41|||ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||2.41|-1.91|0.881
92268183|NCT01569074|184438397|SUPERIORITY_OR_OTHER||Treatment difference|-0.42||||0.806|TWO_SIDED|80.0|-2.64|1.8|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.80|-2.64|0.806
92268184|NCT01569074|184438397|SUPERIORITY_OR_OTHER||Treatment difference|1.03||||0.548|TWO_SIDED|80.0|-1.17|3.23|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||3.23|-1.17|0.548
92268185|NCT01569074|184438398|SUPERIORITY_OR_OTHER||Treatment difference|3.12||||0.139|TWO_SIDED|80.0|0.42|5.82|||ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||5.82|0.42|0.139
92315342|NCT02189837|184534620|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|23.28|STANDARD_ERROR_OF_MEAN|11.05||0.039|TWO_SIDED|95.0|1.16|45.4|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||45.40|1.16|0.039
92315343|NCT02189837|184534620|SUPERIORITY_OR_OTHER||Treatment Effect|62.72|STANDARD_ERROR_OF_MEAN|16.02|<|0.001|TWO_SIDED|95.0|30.65|94.79|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||94.79|30.65|<0.001
92315344|NCT00473590|184534640|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.956||||0.9179|TWO_SIDED|95.0|0.404|2.261|||Log Rank|The strata were number of prior cancer treatments (1, \> 1) and β2-microglobulin level (\< 3.5, ≥ 3.5 mg/L).|The hazard ratios were estimated using Cox regression.|Stratified analysis||2.261|0.404|0.9179
92315345|NCT00473590|184534640|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.836||||0.6665|TWO_SIDED|95.0|0.369|1.893||The tests were exploratory because patients were not randomized to the two arms with respect to response status.|Log Rank||The hazard ratios were estimated using Cox regression.|Unstratified analysis.||1.893|0.369|0.6665
92315346|NCT00473590|184534641|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.633||||0.3134|TWO_SIDED|95.0|0.258|1.552|||Log Rank||The hazard ratios were estimated using Cox regression. The strata were number of prior cancer treatments (1, \> 1) and β2-microglobulin level (\< 3.5, ≥ 3.5 mg/L).|Stratified analysis||1.552|0.258|0.3134
92315347|NCT00473590|184534641|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.608||||0.2634|TWO_SIDED|95.0|0.251|1.468|||Log Rank||The hazard ratios were estimated using Cox regression.|Unstratified analysis||1.468|0.251|0.2634
92315348|NCT00473590|184534642|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.743||||0.2804|TWO_SIDED|95.0|0.432|1.276|||Log Rank|The analysis was stratified for number of prior cancer treatments (1, \> 1) and β2-microglobulin level (\< 3.5, ≥ 3.5 mg/L).|The hazard ratio was estimated using Cox regression. The hazard ratio is relative to BORT + P.|The null hypothesis was that there was no difference between the 2 treatment groups. The alternative hypothesis was that progression-free survival was longer in the BORT + BV group. Stratified Analysis.||1.276|0.432|0.2804
92315349|NCT00473590|184534642|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.713||||0.2009|TWO_SIDED|95.0|0.424|1.2|||Log Rank||Hazard ratio relative to BORT + P was estimated using Cox regression.|Unstratified Analysis.||1.200|0.424|0.2009
92315350|NCT04199104|184534666|SUPERIORITY||point estimate|19.3||||1.9e-06|TWO_SIDED|95.0|11.2|27.3|||Miettinen and Nurminen method|||||27.3|11.2|0.0000019
92315351|NCT04199104|184534667|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0001129|TWO_SIDED|95.0|0.55|0.83|||Regression, Cox|||||0.83|0.55|0.0001129
92191861|NCT01180790|184282439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||||||To control for multiplicity, the proportion in each treatment group achieving RVR4 is analyzed using a Cochran-Armitage test for trend among the ordered groups: placebo (considered zero dose), 200 mg, 400 mg, and 800 mg ACH-0141625.|exact Cochran-Armitage test|Only if overall test for trend is significant are pairwise comparisons evaluated using p-values for the difference in proportions (placebo - active).||The null hypothesis is no difference between proportions of participants in each treatment group achieving RVR4 at Week 4 of the study, while the alternative hypothesis is that the proportion of participants achieving RVR4 at Week 4 increases with increasing doses of ACH-0141625.||||0.003
92191862|NCT01180790|184282439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Fisher Exact|||To control for multiplicity, the proportion in each treatment group achieving RVR4 is analyzed using a Cochran-Armitage test for trend among the ordered groups: placebo (considered zero dose), 200 mg ACH-0141625, 400 mg ACH-0141625, and 800 mg ACH-0141625. Only if overall test for trend is significant are pairwise comparisons evaluated using p-values for the difference in proportions (placebo - active).||||0.004
92191863|NCT01180790|184282439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Fisher Exact|||To control for multiplicity, the proportion in each treatment group achieving RVR4 is analyzed using a Cochran-Armitage test for trend among the ordered groups: placebo (considered zero dose), 200 mg ACH-0141625, 400 mg ACH-0141625, and 800 mg ACH-0141625. Only if overall test for trend is significant are pairwise comparisons evaluated using p-values for the difference in proportions (placebo - active).||||0.004
92315352|NCT04199104|184534668|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.8819584|TWO_SIDED|95.0|0.91|1.45|||Regression, Cox|||||1.45|0.91|0.8819584
92315353|NCT05201794|184534782|SUPERIORITY||Odds Ratio (OR)|67.3|||=|0.1409|ONE_SIDED|80.0|15.2|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for proof-of-concept (PoC) when the planned interim analysis would have been performed.|||15.2|=0.1409
92315354|NCT05201794|184534782|SUPERIORITY||Odds Ratio (OR)|67.2|||=|0.1418|ONE_SIDED|80.0|14.9|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for PoC when the planned interim analysis would have been performed.|||14.9|=0.1418
92315355|NCT05201794|184534783|SUPERIORITY||Odds Ratio (OR)|87.8|||=|0.0192|ONE_SIDED|80.0|58.1|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for PoC when the planned interim analysis would have been performed.|||58.1|=0.0192
92315356|NCT05201794|184534783|SUPERIORITY||Odds Ratio (OR)|62.9|||=|0.1131|ONE_SIDED|80.0|20.0|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for PoC when the planned interim analysis would have been performed.|||20|=0.1131
92191864|NCT01180790|184282439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Fisher Exact|||To control for multiplicity, the proportion in each treatment group achieving RVR4 is analyzed using a Cochran-Armitage test for trend among the ordered groups: placebo (considered zero dose), 200 mg ACH-0141625, 400 mg ACH-0141625, and 800 mg ACH-0141625. Only if overall test for trend is significant are pairwise comparisons evaluated using p-values for the difference in proportions (placebo - active).||||0.004
92191865|NCT01180790|184282441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34||||||To control for multiplicity, the proportion of participants in each treatment group achieving cEVR is analyzed using a Cochran-Armitage test for trend among the ordered treatment groups: 200 mg ACH-0141625, 400 mg ACH-0141625, and 800 mg ACH-0141625.|Exact Cochran-Armitage test|Only if overall test for trend is significant are pairwise comparisons evaluated using p-values for the difference in proportions (placebo - active).||The null hypothesis is no difference between proportions of participants in each treatment group achieving cEVR at Week 12 of the study, while the alternative hypothesis is that the proportion of participants achieving cEVR at Week 12 increases with increasing doses of ACH-0141625.||||0.34
92191866|NCT04167085|184282456|SUPERIORITY|||||||0.16||||||Threshold p\<0.0167 - Because 3 primary outcomes were prespecified, the familywise error rate was adjusted for 3 endpoints: 0.05/3|Wilcoxon (Mann-Whitney)|||||||0.16
92268186|NCT01569074|184438398|SUPERIORITY_OR_OTHER||Treatment difference|2.47||||0.223|TWO_SIDED|80.0|-0.13|5.07|||ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||5.07|-0.13|0.223
92268187|NCT01569074|184438398|SUPERIORITY_OR_OTHER||Treatment difference|-1.63||||0.432|TWO_SIDED|80.0|-4.3|1.04|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.04|-4.30|0.432
92268188|NCT01569074|184438398|SUPERIORITY_OR_OTHER||Treatment difference|1.45||||0.481|TWO_SIDED|80.0|-1.19|4.09|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||4.09|-1.19|0.481
92268189|NCT01139801|184438415|SUPERIORITY||Mean Difference (Final Values)|212.2||||0.037|TWO_SIDED|95.0|13.3|411.0|||t-test, 2 sided|||||411.0|13.3|0.037
92268190|NCT00962013|184438422|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin is 7%||||||0.0136|||||||Exact Binomial|||This revision study will demonstrate a 5-year survivorship of the Restoration Modular system not seven percent worse than an expected 95% survival rate using a lower 95% one-sided confidence bound.||||0.0136
92268191|NCT00962013|184438424|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from HHS pre-op to HHS 5 year||||<0.0001
92268192|NCT00962013|184438425|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from SF-36 Role-Physical pre-op score to 2 and 5 year scores||||<0.0001
92268193|NCT00962013|184438427|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Exact Binomial|||Post-surgery femoral stem crack/fracture rate compared to 21% (pre-specified in protocol based on literature rates) Femoral subsidence rate compared to 18% (pre-specified in protocol based on literature rates)||||<0.0001
92268194|NCT02325739|184438433|OTHER||RP2D|120.0|||||||||||||The estimation parameter and recommended Phase 2 dose level for FGF401 (single agent - fasted) is 120mg.|||||
92268195|NCT02325739|184438433|OTHER||RP2D|120.0|||||||||||||The estimation parameter and recommended Phase 2 dose level for FGF401 (single agent - fed) is 120mg.|||||
92268196|NCT02325739|184438433|OTHER||RP2D|120.0|||||||||||||The estimation parameter and recommended Phase 2 dose level for FGF401 + PDR001 combination is for FGF401 120mg.|||||
92268197|NCT02325739|184438433|OTHER||RP2D|300.0|||||||||||||The estimation parameter and recommended Phase 2 dose level for FGF401 + PDR001 combination is for PDR001 300mg.|||||
92268198|NCT02222168|184438469|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 fed' was an Analysis of Variance (ANOVA ) model on the logarithmic scale.This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio (Fed/Fasted)|95.9|STANDARD_ERROR_OF_MEAN|50.7|||TWO_SIDED|90.0|72.593|126.682|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: fed (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||126.682|72.593|
92268199|NCT02222168|184438469|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 at bed-time' was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect treatment was considered as fixed.|Ratio (Bed time/Fasted)|82.13|STANDARD_ERROR_OF_MEAN|38.0|||TWO_SIDED|90.0|66.37|101.639|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: at bed time (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||101.639|66.370|
92191867|NCT04167085|184282457|SUPERIORITY|||||||0.05||||||Threshold p\<0.0167 - Because 3 primary outcomes were prespecified, the familywise error rate was adjusted for 3 endpoints: 0.05/3|Wilcoxon (Mann-Whitney)|||||||0.05
92191868|NCT04167085|184282458|SUPERIORITY|||||||0.19||||||Threshold p\<0.0167 - Because 3 primary outcomes were prespecified, the familywise error rate was adjusted for 3 endpoints: 0.05/3|Wilcoxon (Mann-Whitney)|||||||0.19
92191869|NCT04167085|184282459|SUPERIORITY|||||||0.24||||||Threshold p=0.05|Wilcoxon (Mann-Whitney)|||SF-12 Physical||||0.24
92268200|NCT02222168|184438470|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 fed' was an Analysis of Variance (ANOVA ) model on the logarithmic scale.This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio (Fed/Fasted)|107.41|STANDARD_ERROR_OF_MEAN|18.2|||TWO_SIDED|90.0|96.697|119.318|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: fed (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||119.318|96.697|
92268201|NCT02222168|184438470|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 at bed-time' was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect treatment was considered as fixed.|Ratio (Bed time/Fasted)|94.88|STANDARD_ERROR_OF_MEAN|19.1|||TWO_SIDED|90.0|85.028|105.875|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: at bed time (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||105.875|85.028|
92268202|NCT02222168|184438471|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 fed' was an Analysis of Variance (ANOVA ) model on the logarithmic scale.This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio (Fed/Fasted)|107.41|STANDARD_ERROR_OF_MEAN|18.2|||TWO_SIDED|90.0|96.709|119.301|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: fed (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||119.301|96.709|
92268203|NCT02222168|184438471|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 at bed-time' was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect treatment was considered as fixed.|Ratio (Bed time/Fasted)|94.92|STANDARD_ERROR_OF_MEAN|19.1|||TWO_SIDED|90.0|85.061|105.921|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: at bed time (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||105.921|85.061|
92268204|NCT00530621|184438472|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.13||||0.544||95.0|0.77|1.65||P-value was stratified by Eastern Cooperative Oncology Group (ECOG) performance status and time since last chemotherapy.|Log Rank|||||1.65|0.77|0.544
92268205|NCT00530621|184438473|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7||||0.171||95.0|0.42|1.17||P-value was stratified by Eastern Cooperative Oncology Group (ECOG) performance status and time since last chemotherapy.|Log Rank|||||1.17|0.42|0.171
92268206|NCT00530621|184438474|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.11||||0.01||95.0|1.19|3.75|||Regression, Cox|||||3.75|1.19|0.010
92268207|NCT00530621|184438475|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.5||||0.194||95.0|0.81|2.77||P-value was stratified by Eastern Cooperative Oncology Group (ECOG) performance status score and time since last chemotherapy.|Log Rank|||||2.77|0.81|0.194
92268208|NCT00530621|184438476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.681|||||||Fisher Exact|||||||0.681
92268209|NCT02596009|184438480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.97|||<|0.0001|TWO_SIDED|95.0|23.7|30.24|||paired t-test|||||30.24|23.70|<0.0001
92268210|NCT02596009|184438480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.93|||<|0.0001|TWO_SIDED|95.0|49.15|58.72|||paired t-test|||||58.72|49.15|<0.0001
92268211|NCT01281475|184438482|SUPERIORITY|We modeled each outcome variable as a function of treatment (ie, levodopa versus placebo), visit (ie, baseline vs. 12-month follow-up) and the treatment-by-visit interaction; the interaction term tests whether the effect of levodopa treatment over time is significantly greater than that of the placebo group.||||||0.75||||||This was the calculated p value without correction for multiple comparisons|Generalized estimating equations|||We performed generalized estimating equations with an unstructured covariance matrix to account for inter-correlations within measurements on the same participant over time.||||0.75
92268212|NCT04611152|184438484|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept participants to be considered non-inferior is 4.5 ETDRS letters, i.e. the non-inferiority margin|Adjusted mean difference|-3.8|STANDARD_ERROR_OF_MEAN|0.84||0.4162|TWO_SIDED|95.04|-5.47|-2.17|||Mixed Models Analysis|MMRM model with treatment, visit, treatment by visit interaction, randomization stratification factors, and continuous baseline BCVA and OCT CST.||||-2.17|-5.47|0.4162
92268213|NCT04611152|184438485|NON_INFERIORITY|"The maximum clinically acceptable non-inferiority margin between KSI-301 and aflibercept subjects is 10% to be considered non-inferior, i.e. the non-inferiority margin is 10%"|Difference of weighted percentages|0.6|||<|0.0001|TWO_SIDED|95.04|-0.7|2.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by study identifier and randomization stratification variables.|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||2|-0.7|<0.0001
92268214|NCT04611152|184438486|NON_INFERIORITY|"The maximum clinically acceptable non-inferiority margin between KSI-301 and aflibercept subjects is 10% to be considered non-inferior, i.e. the non-inferiority margin is 10%"|Difference of weighted percentages|0.0|||||TWO_SIDED|95.04|0.0|0.0|||||Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||0|0|
92268215|NCT04755283|184438517|SUPERIORITY||Hazard Ratio (HR)|0.314|||<|0.001|TWO_SIDED|95.0|0.192|0.513|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.513|0.192|<0.001
92268216|NCT04755283|184438517|SUPERIORITY||Hazard Ratio (HR)|0.382|||<|0.001|TWO_SIDED|95.0|0.243|0.602|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.602|0.243|<0.001
92268217|NCT04755283|184438518|SUPERIORITY||Hazard Ratio (HR)|0.263|||<|0.001|TWO_SIDED|95.0|0.121|0.572|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.572|0.121|<0.001
92268218|NCT04755283|184438518|SUPERIORITY||Hazard Ratio (HR)|0.325||||0.001|TWO_SIDED|95.0|0.159|0.663|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.663|0.159|0.001
92268219|NCT04755283|184438519|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.332|0.638|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.638|0.332|<0.001
92268220|NCT04755283|184438519|SUPERIORITY||Hazard Ratio (HR)|0.683||||0.01|TWO_SIDED|95.0|0.512|0.912|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.912|0.512|0.010
92268221|NCT04115488|184438540|EQUIVALENCE|Data was analyzed using a negative binomial model with a logarithmic link function and fixed effects for the treatment group and stratification factors. Equivalence was tested based 95% confidence interval.|Exponentiated Difference|0.17|STANDARD_ERROR_OF_MEAN|0.397|||TWO_SIDED|95.0|-0.613|0.944|||||Difference calculated as Tysabri minus PB006.|||0.944|-0.613|
92268222|NCT05554471|184438594|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Hypothesis: the time to ambulation for the subjects using the MYNX CONTROL™ Venous VCD was significantly less than for those where manual compression was used.||||<0.001
92268223|NCT05554471|184438595|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Hypothesis: the time to hemostasis for the MYNX CONTROL™ Venous VCD device is at least 5 minutes less than manual compression.||||<0.001
92268224|NCT05554471|184438597|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Hypothesis: The time to discharge eligibility for the subjects using the MYNX CONTROL™ Venous VCD was significantly less than for those where manual compression was used||||<0.001
92268225|NCT02062385|184438611|SUPERIORITY_OR_OTHER||1 - (Incidence V260 / Incidence Placebo)|69.3|||<|0.001|TWO_SIDED|95.0|54.5|79.7|||Clopper-Pearson|To calculate the confidence interval and associated p-value, an exact conditional method based on a Poisson distribution was used.||V260 will be considered efficacious if the lower bound of the two-sided confidence interval for efficacy is \>0% at the final analysis||79.7|54.5|<0.001
92268226|NCT01939834|184438646|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92268227|NCT02712359|184438674|NON_INFERIORITY|The lower limit of the 2-sided 95% confidence interval (CI) for the difference (Havrix 1 dose\_Year 8 Group minus Havrix 2 doses\_Year 8 Group) of percentage of subjects with anti-HAV antibody concentrations ≥ 15 mIU/mL was to be greater than or equal to the pre-defined clinical non-inferiority limit of -10%.|Difference in seropositivity rate|-23.33|||<|0.0001|TWO_SIDED|95.0|-28.78|-18.29|||Fisher Exact|||Difference in seropositivity rates for anti-HAV antibody: To demonstrate that 1-dose schedule of Havrix (Havrix 1 dose\_Year 8 Group) was non-inferior to the 2-dose schedule of Havrix (Havrix 2 doses\_Year 8 Group), in terms of seropositivity rates for anti-HAV antibody, measured by ELISA, approximately 8 years after the administration of the last vaccine dose.||-18.29|-28.78|<0.0001
92268228|NCT02712359|184438675|NON_INFERIORITY|The lower limit of the 2-sided 95% confidence interval (CI) for the difference (Havrix 1 dose\_Year 10 Group minus Havrix 2 doses\_Year 10 Group) of percentage of subjects with anti-HAV antibody concentrations ≥ 15 mIU/mL was to be greater than or equal to the pre-defined clinical non-inferiority limit of -10%.|Difference in seropositivity rate|-24.43|||<|0.0001|TWO_SIDED|95.0|-30.11|-19.03|||Fisher Exact|||Difference in seropositivity rates for anti-HAV antibody: To demonstrate that 1-dose schedule of Havrix (Havrix 1 dose\_Year 10 Group) was non-inferior to the 2-dose schedule of Havrix (Havrix 2 doses\_Year 10 Group), in terms of seropositivity rates for anti-HAV antibody, measured by ELISA, approximately 10 years after the administration of the last vaccine dose.||-19.03|-30.11|<0.0001
92268229|NCT00798707|184438714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.452|TWO_SIDED|95.0|-0.75|1.69||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|ANCOVA|||An analysis of covariance (ANCOVA) model with treatment and as a factor and the baseline HAM-D17 total score as a covariate was used to compare each DVS SR dose to placebo. The comparison was performed at the 0.05 level overall.||1.69|-0.75|0.452
92268230|NCT00798707|184438714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.016|TWO_SIDED|95.0|0.28|2.72||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|ANCOVA|||An analysis of covariance (ANCOVA) model with treatment and as a factor and the baseline HAM-D17 total score as a covariate was used to compare each DVS SR dose to placebo. The comparison was performed at the 0.05 level overall.||2.72|0.28|0.016
92268231|NCT00798707|184438715|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|||||In this case, multiplicity arising from testing key secondary hypotheses in both doses was controlled by a Hochberg step-up procedure. p-Value obtained for the alternative hypothesis of 'Row mean scores differences'.|Cochran-Mantel-Haenszel|||Each DVS SR dose was separately compared to placebo. To control the study-wise type I error rate across the primary and the key secondary endpoints, as well as across the 2 active dose arms, testing of the key secondary hypothesis occurred only when both active doses were superior to placebo on the primary endpoint.||||0.160
92268232|NCT00798707|184438715|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED|||||In this case, multiplicity arising from testing key secondary hypotheses in both doses was controlled by a Hochberg step-up procedure.p-Value obtained for the alternative hypothesis of 'Row mean scores differences'.|Cochran-Mantel-Haenszel|||Each DVS SR dose was separately compared to placebo. To control the study-wise type I error rate across the primary and the key secondary endpoints, as well as across the 2 active dose arms, testing of the key secondary hypothesis occurred only when both active doses were superior to placebo on the primary endpoint.||||0.028
92268233|NCT00798707|184438716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.066|TWO_SIDED|95.0|-0.01|0.39|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.39|-0.01|0.066
92315357|NCT05201794|184534784|SUPERIORITY||Odds Ratio (OR)|85.4|||=|0.0302|ONE_SIDED|80.0|62.6|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for PoC when the planned interim analysis would have been performed.|||62.6|=0.0302
92315358|NCT05201794|184534784|SUPERIORITY||Odds Ratio (OR)|60.5|||=|0.2239|ONE_SIDED|80.0|-6.3|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for PoC when the planned interim analysis would have been performed.|||-6.3|=0.2239
92315359|NCT03657797|184534817|NON_INFERIORITY|LS mean, the difference in LS mean (NCX 470 minus latanoprost), and the 2-sided 95% CI for the difference was obtained. Non-inferiority could be claimed if the upper limit of the 2-sided 95% CI around the difference between the LS mean for NCX 470 and the LS mean for latanoprost was \< 1.5 mmHg. If non-inferiority was met, superiority was tested which could be claimed if the p-value for treatment difference was \<= 0.05 and the LS mean difference in change from baseline was \< 0.|Mean Difference (Final Values)|-0.4||||0.2666|TWO_SIDED|95.0|-1.11|0.31||p-value was not adjusted for multiple comparisons|ANCOVA|||NCX 470 0.21% was compared to latanoprost.||0.31|-1.11|0.2666
92315360|NCT03657797|184534817|NON_INFERIORITY|LS mean, the difference in LS mean (NCX 470 minus latanoprost), and the 2-sided 95% CI for the difference was obtained. Non-inferiority could be claimed if the upper limit of the 2-sided 95% CI around the difference between the LS mean for NCX 470 and the LS mean for latanoprost was \< 1.5 mmHg. If non-inferiority was met, superiority was tested which could be claimed if the p-value for treatment difference was \<= 0.05 and the LS mean difference in change from baseline was \< 0.|Mean Difference (Final Values)|-0.81||||0.0281|TWO_SIDED|95.0|-1.52|-0.09||p-value was not adjusted for multiple comparisons|ANCOVA|||NCX 0.042% was compared to latanoprost.||-0.09|-1.52|0.0281
92315361|NCT03657797|184534817|NON_INFERIORITY|LS mean, the difference in LS mean (NCX 470 minus latanoprost), and the 2-sided 95% CI for the difference was obtained. Non-inferiority could be claimed if the upper limit of the 2-sided 95% CI around the difference between the LS mean for NCX 470 and the LS mean for latanoprost was \< 1.5 mmHg. If non-inferiority was met, superiority was tested which could be claimed if the p-value for treatment difference was \<= 0.05 and the LS mean difference in change from baseline was \< 0.|Mean Difference (Final Values)|-1.23||||0.0009|TWO_SIDED|95.0|-1.96|-0.51||p-value was not adjusted for multiple comparisons|ANCOVA|||NCX 0.065% was compared to latanoprost.||-0.51|-1.96|0.0009
92191870|NCT04167085|184282459|SUPERIORITY|||||||0.35||||||Threshold p=0.05|Wilcoxon (Mann-Whitney)|||SF-12 Mental||||0.35
92191871|NCT04167085|184282460|SUPERIORITY|||||||0.5||||||Threshold p=0.05|Wilcoxon (Mann-Whitney)|||||||0.50
92315362|NCT03657797|184534818|NON_INFERIORITY|NCX 470 0.021% was compared to latanoprost 0.005% at each visit. The LS mean, LS mean difference and the 95% CIs for the difference was calculated. Non-inferiority at each visit could be claimed if the upper limit of the 95% CI was \<1.5 mmHg. If non-inferiority was established, superiority could be claimed if the upper limit of the 95% CI was \<0 and p\<0.05.|||||<|0.9788||||||p-value was not adjusted for multiple comparisons|ANCOVA|Upper 95% CIs were 0.51 (week 1), 0.68 (week 2), 0.75 (exit visit); p-values were 0.5560 (week 1), 0.9788 (week 2), 0.8796 (exit visit)||NCX 470 0.021% was compared to latanoprost.||||<0.9788
92315363|NCT03657797|184534818|NON_INFERIORITY|NCX 470 0.042% was compared to latanoprost 0.005% at each visit. The LS mean, LS mean difference and the 95% CIs for the difference was calculated. Non-inferiority at each visit could be claimed if the upper limit of the 95% CI was \<1.5 mmHg. If non-inferiority was established, superiority could be claimed if the upper limit of the 95% CI was \<0 and p\<0.05.|||||<|0.3863||||||p-value was not adjusted for multiple comparisons|ANCOVA|Upper 95% CIs were 0.20 (week 1), 0.38 (week 2), 0.11 (exit visit); p-values were 0.1556 (week 1), 0.3863 (week 2), 0.0912 (exit visit)||NCX 470 0.042% was compared to latanoprost.||||<0.3863
92315364|NCT03657797|184534818|NON_INFERIORITY|NCX 470 0.065% was compared to latanoprost 0.005% at each visit. The LS mean, LS mean difference and the 95% CIs for the difference was calculated. Non-inferiority at each visit could be claimed if the upper limit of the 95% CI was \<1.5 mmHg. If non-inferiority was established, superiority could be claimed if the upper limit of the 95% CI was \<0 and p\<0.05.|||||<|0.0174||||||p-value was not adjusted for multiple comparisons|ANCOVA|Upper 95% CIs were -0.35 (week 1), -0.15 (week 2), -0.27 (exit visit); p-values were 0.0040 (week 1), 0.0174 (week 2), 0.0093 (exit visit)||NCX 470 0.065% was compared to latanoprost.||||<0.0174
92191872|NCT04167085|184282461|SUPERIORITY|||||||0.3||||||Threshold p=0.05|Wilcoxon (Mann-Whitney)|||||||0.30
92191873|NCT04167085|184282462|SUPERIORITY|||||||1||||||Threshold p=0.05|Wilcoxon (Mann-Whitney)|||||||1.00
92191874|NCT03840148|184282464|NON_INFERIORITY|If the lower limit of the 95% CI for the difference in response is greater than or equal to the non-inferiority margin of -15%, non-inferiority will be concluded. Further, if non-inferiority is concluded, superiority will be concluded if the lower limit of the 95% CI for the difference in response is greater than or equal to zero.|Miettinen and Nurminen|12.6||||0.0088|TWO_SIDED|95.0|3.1|22.2||P-value for superiority since the lower confidence interval is greater than 0 for the primary endpoint analysis.|Cochran-Mantel-Haenszel|||||22.2|3.1|0.0088
92191875|NCT03840148|184282465|OTHER||Miettinen and Nurminen|11.7|||||TWO_SIDED|95.0|2.9|21.0||||||||21.0|2.9|
92191876|NCT03840148|184282466|OTHER||Miettinen and Nurminen|4.5|||||TWO_SIDED|95.0|-2.6|12.6||||||||12.6|-2.6|
92191877|NCT03840148|184282467|OTHER||Miettinen and Nurminen|12.3|||||TWO_SIDED|95.0|3.0|21.8||||||||21.8|3.0|
92191878|NCT03840148|184282468|OTHER||Miettinen and Nurminen|3.1|||||TWO_SIDED|95.0|-3.2|10.4||||||||10.4|-3.2|
92191879|NCT03840148|184282469|OTHER||Miettinen and Nurminen|-0.3|||||TWO_SIDED|95.0|-3.5|4.1||||||||4.1|-3.5|
92191880|NCT03840148|184282470|OTHER||Miettinen and Nurminen|1.6|||||TWO_SIDED|95.0|-4.1|8.5||||||||8.5|-4.1|
92191881|NCT03840148|184282471|OTHER||Miettinen and Nurminen|12.1|||||TWO_SIDED|95.0|2.2|21.9||||||||21.9|2.2|
92315365|NCT01402570|184534831|SUPERIORITY_OR_OTHER||REML|0.17||||0.66|TWO_SIDED|95.0|-0.67|0.95||Time was predictor of interest, controlling for age, gender, baseline PROMIS physical functioning, and overall functional status.|Mixed Models Analysis|||Linear mixed modeling (LMM) with random effects for intercept and repeated effects for assessment period was used to analyze change over time for study outcomes. The primary predictor of interest in this study was the relationship of time to each of the outcomes to evaluate the potential effect of the intervention. Independent LMMs were used to study outcomes.||0.95|-0.67|0.66
92315366|NCT01402570|184534832|SUPERIORITY_OR_OTHER||REML|0.0||||0.44|TWO_SIDED|95.0|-0.01|0.02||Time was predictor of interest, controlling for age, gender, baseline sleep efficiency, and overall functional status.|Mixed Models Analysis|||Linear mixed modeling (LMM) with random effects for intercept and repeated effects for assessment period was used to analyze change over time for study outcomes. The primary predictor of interest in this study was the relationship of time to each of the outcomes to evaluate the potential effect of the intervention. Independent LMMs were used to study outcomes.||0.02|-0.01|0.44
92315367|NCT01402570|184534833|SUPERIORITY_OR_OTHER||REML|145.54||||0.35|TWO_SIDED|95.0|-178.93|470.02||Time was predictor of interest, controlling for age, gender, baseline steps per day, and overall functional status.|Mixed Models Analysis|||Linear mixed modeling (LMM) with random effects for intercept and repeated effects for assessment period was used to analyze change over time for study outcomes. The primary predictor of interest in this study was the relationship of time to each of the outcomes to evaluate the potential effect of the intervention. Independent LMMs were used to study outcomes.||470.02|-178.93|0.35
92315368|NCT01402570|184534834|SUPERIORITY_OR_OTHER||REML|-1.05||||0.07|TWO_SIDED|95.0|-2.21|0.1||Time was predictor of interest, controlling for age, gender, baseline fatigue, and overall functional status.|Mixed Models Analysis|||Linear mixed modeling (LMM) with random effects for intercept and repeated effects for assessment period was used to analyze change over time for study outcomes. The primary predictor of interest in this study was the relationship of time to each of the outcomes to evaluate the potential effect of the intervention. Independent LMMs were used to study outcomes.||0.10|-2.21|0.07
92315369|NCT02019472|184534843|SUPERIORITY_OR_OTHER||LS mean difference|-0.76|||<|0.001|TWO_SIDED|95.0|-1.07|-0.46|||ANCOVA|||||-0.46|-1.07|< 0.001
92315370|NCT02019472|184534843|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.39|||=|0.013|TWO_SIDED|95.0|-0.69|-0.08|||ANCOVA|||||-0.08|-0.69|=0.013
92315371|NCT02019472|184534844|SUPERIORITY_OR_OTHER||Percentage Difference|-4.8||||0.306|TWO_SIDED|95.0|-14.1|4.4|||Cochran-Mantel-Haenszel|||||4.4|-14.1|0.306
92315372|NCT02019472|184534844|SUPERIORITY_OR_OTHER||Percentage Difference|3.6||||0.464|TWO_SIDED|95.0|-6.0|13.1|||Cochran-Mantel-Haenszel|||||13.1|-6|0.464
92315373|NCT02019472|184534845|SUPERIORITY_OR_OTHER||Percentage Difference|5.4||||0.086|TWO_SIDED|95.0|-0.7|11.4|||Cochran-Mantel-Haenszel|||||11.4|-0.7|0.086
92315374|NCT02019472|184534845|SUPERIORITY_OR_OTHER||Percentage Difference|12.8|||<|0.001|TWO_SIDED|95.0|5.9|19.7|||Cochran-Mantel-Haenszel|||||19.7|5.9|< 0.001
92315375|NCT02019472|184534846|SUPERIORITY_OR_OTHER||Percentage Difference|-2.7||||0.603|TWO_SIDED|95.0|-12.8|7.4|||Cochran-Mantel-Haenszel|||||7.4|-12.8|0.603
92315376|NCT02019472|184534846|SUPERIORITY_OR_OTHER||Percentage Difference|2.4||||0.644|TWO_SIDED|95.0|-7.6|12.3|||Cochran-Mantel-Haenszel|||||12.3|-7.6|0.644
92315377|NCT03861390|184534847|OTHER|||||||0.24||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.24
92315378|NCT03861390|184534848|OTHER|||||||0.17||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.17
92315379|NCT03861390|184534849|OTHER|||||||0.7||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.70
92315380|NCT03861390|184534849|OTHER|||||||0.37||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.37
92315381|NCT03861390|184534850|OTHER|||||||0.77||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.77
92315382|NCT03861390|184534850|OTHER|||||||0.48||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.48
92315383|NCT03861390|184534851|OTHER|||||||0.96||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.96
92315384|NCT03861390|184534851|OTHER|||||||0.91||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.91
92315385|NCT03861390|184534852|OTHER|||||||0.46||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.46
92315386|NCT03861390|184534852|OTHER|||||||0.46||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.46
92315387|NCT03861390|184534853|OTHER|||||||0.82||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.82
92315388|NCT03861390|184534853|OTHER|The a priori threshold for statistical significance is \< 0.05.||||||0.99|||||||Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.99
92315389|NCT03861390|184534854|OTHER|||||||0.38||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.38
92315390|NCT03861390|184534854|OTHER|||||||0.84||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.84
92315391|NCT03861390|184534855|OTHER|||||||0.49||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.49
92315392|NCT03861390|184534855|OTHER|||||||0.52||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.52
92315393|NCT02157935|184534863|SUPERIORITY_OR_OTHER||Rate ratio|0.76||||0.0059|TWO_SIDED|95.0|0.62|0.92|||Negative binomial model|||||0.92|0.62|0.0059
92315394|NCT02157935|184534864|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0164|TWO_SIDED|95.0|0.64|0.96|||Regression, Cox|||||0.96|0.64|0.0164
92315395|NCT02157935|184534865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.343||||0.007|TWO_SIDED|95.0|-2.318|-0.368|||Mixed Models Analysis|||||-0.368|-2.318|0.0070
92315396|NCT02157935|184534866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.0091|TWO_SIDED|95.0|0.008|0.053|||Mixed Models Analysis|||||0.053|0.008|0.0091
92315397|NCT02157935|184534867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.203||||0.0082|TWO_SIDED|95.0|-0.353|-0.053|||ANCOVA|||||-0.053|-0.353|0.0082
92315398|NCT02157935|184534868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.028||||0.0048|TWO_SIDED|95.0|-0.048|-0.009|||ANCOVA|||||-0.009|-0.048|0.0048
92191882|NCT03840148|184282472|OTHER||Miettinen and Nurminen|7.7|||||TWO_SIDED|95.0|-1.6|17.3||||||||17.3|-1.6|
92191883|NCT03840148|184282473|OTHER||Miettinen and Nurminen|9.9|||||TWO_SIDED|95.0|1.5|18.8||||||||18.8|1.5|
92191884|NCT03840148|184282474|OTHER||Miettinen and Nurminen|3.0|||||TWO_SIDED|95.0|-2.4|9.6||||||||9.6|-2.4|
92191885|NCT03840148|184282484|OTHER||Miettinen and Nurminen|3.5|||||TWO_SIDED|95.0|-2.3|10.5||||||||10.5|-2.3|
92191886|NCT03840148|184282485|OTHER||Miettinen and Nurminen|-1.1|||||TWO_SIDED|95.0|-3.1|1.7||||||||1.7|-3.1|
92268234|NCT00798707|184438716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.038|TWO_SIDED|95.0|0.01|0.41|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.41|0.01|0.038
92268235|NCT00798707|184438717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.242|TWO_SIDED|95.0|-0.68|2.68|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||2.68|-0.68|0.242
92268236|NCT00798707|184438717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.06||||0.016|TWO_SIDED|95.0|0.39|3.73|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||3.73|0.39|0.016
92268237|NCT00798707|184438718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.802|TWO_SIDED|95.0|-0.62|0.8|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.80|-0.62|0.802
92268238|NCT00798707|184438718|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.72||||0.048|TWO_SIDED|95.0|0.01|1.43|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||1.43|0.01|0.048
92268239|NCT00798707|184438719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.363||||0.1099|TWO_SIDED|95.0|0.93|1.99|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.99|0.93|0.1099
92268240|NCT00798707|184438719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.591||||0.0154|TWO_SIDED|95.0|1.09|2.32|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||2.32|1.09|0.0154
92268241|NCT00798707|184438720|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.878||||0.5929|TWO_SIDED|95.0|0.54|1.41|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.41|0.54|0.5929
92268242|NCT00798707|184438720|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.474||||0.0852|TWO_SIDED|95.0|0.95|2.29|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||2.29|0.95|0.0852
92268243|NCT00798707|184438721|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.277||||0.2232|TWO_SIDED|95.0|0.86|1.89|||Regression, Logistic|||Analysis was conducted with a logistic regression model with treatment as a factor and baseline MADRS score as a covariate.||1.89|0.86|0.2232
92268244|NCT00798707|184438721|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.827||||0.0022|TWO_SIDED|95.0|1.24|2.69|||Regression, Logistic|||Analysis was conducted with a logistic regression model with treatment as a factor and baseline MADRS score as a covariate.||2.69|1.24|0.0022
92268245|NCT00798707|184438722|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.158||||0.4313|TWO_SIDED|95.0|0.8|1.67|||Regression, Logistic|||Analysis was conducted with a logistic regression model with treatment as a factor.||1.67|0.80|0.4313
92268246|NCT00798707|184438722|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.372||||0.0888|TWO_SIDED|95.0|0.95|1.97|||Regression, Logistic|||Analysis was conducted with a logistic regression model with treatment as a factor.||1.97|0.95|0.0888
92268247|NCT00798707|184438724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09||||0.073|TWO_SIDED|95.0|-0.1|2.29|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for total score.||2.29|-0.10|0.073
92268248|NCT00798707|184438724|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.06||||0.078|TWO_SIDED|95.0|-0.12|2.24|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for total score.||2.24|-0.12|0.078
92268249|NCT00798707|184438724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.176|TWO_SIDED|95.0|-0.13|0.73|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for work/studies component score.||0.73|-0.13|0.176
92268250|NCT00798707|184438724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.109|TWO_SIDED|95.0|-0.08|0.77|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for work/studies component score.||0.77|-0.08|0.109
92268251|NCT00798707|184438724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.064|TWO_SIDED|95.0|-0.02|0.84|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for social life component score.||0.84|-0.02|0.064
92268252|NCT00798707|184438724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.104|TWO_SIDED|95.0|-0.07|0.78|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for social life component score.||0.78|-0.07|0.104
92268253|NCT00798707|184438724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29||||0.538|TWO_SIDED|95.0|-2.98|5.57|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for family life/home responsibilities component score.||5.57|-2.98|0.538
92268254|NCT00798707|184438724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43||||0.689|TWO_SIDED|95.0|-1.76|2.62|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for family life/home responsibilities component score||2.62|-1.76|0.689
92268255|NCT00798707|184438725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.066|TWO_SIDED|95.0|-1.67|0.05|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.05|-1.67|0.066
92315399|NCT03192488|184534874|SUPERIORITY||Mean Difference (Final Values)|1.06||||0.047|TWO_SIDED|95.0|0.01|2.11|||ANOVA|"The overall model was adjusted for the co-variate VO2max."||||2.11|0.01|0.047
92315400|NCT03192488|184534875|SUPERIORITY|||||||0.327|||||||ANOVA|||||||0.327
92315401|NCT03192488|184534875|SUPERIORITY|||||||0.557|||||||ANOVA|||||||0.557
92315402|NCT02547428|184534882|SUPERIORITY||Treatment difference|-8.1|STANDARD_ERROR_OF_MEAN|1.48|<|0.001|TWO_SIDED|95.0|-11.0|-5.1|||ANCOVA||Sample size of 60 participants (30 per treatment sequence) was needed to provide minimum 85% power to detect 5 point difference between treatments at a 2-sided significance level of 5% using a paired t-test.|Null hypothesis was that there was no difference in ADHD-RS-IV total score change from Baseline between CTN SR and placebo. The analysis of covariance (ANCOVA) model included terms for period, sequence, and treatment as fixed effects, and Baseline score as a covariate, and a participate-within-sequence term as a random effect.||-5.1|-11.0|<0.001
92315403|NCT02547428|184534883|SUPERIORITY||Treatment difference|-7.1|STANDARD_ERROR_OF_MEAN|1.74|<|0.001|TWO_SIDED|95.0|-10.7|-3.6|||ANCOVA|||Null hypothesis was that there was no difference in ADHD-RS-IV total score change from Baseline between CTN SR 400 mg/day and placebo.||-3.6|-10.7|<0.001
92315404|NCT01634048|184534905|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92315405|NCT06192589|184534909|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.43|||<|0.01|TWO_SIDED|90.0|1.34|1.52||Analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of cannabidiol on citalopram compared to citalopram alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.52|1.34|<0.01
92315406|NCT06192589|184534910|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.12|||<|0.01|TWO_SIDED|90.0|1.06|1.17||Analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of cannabidiol on citalopram compared to citalopram alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.17|1.06|<0.01
92315407|NCT06192589|184534911|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.06||||0.34|TWO_SIDED|90.0|0.96|1.16|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.16|0.96|0.34
92315408|NCT06192589|184534911|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.12||||0.1|TWO_SIDED|90.0|1.0|1.26|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a multiple doses of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect.||1.26|1.00|0.10
92315409|NCT06192589|184534912|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.19||||0.02|TWO_SIDED|90.0|1.05|1.35|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.35|1.05|0.02
92191887|NCT03840148|184282486|OTHER||Miettinen and Nurminen|14.9|||||TWO_SIDED|95.0|5.0|24.9||||||||24.9|5.0|
92315410|NCT06192589|184534912|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.11||||0.29|TWO_SIDED|90.0|0.94|1.3|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of multiple doses of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.30|0.94|0.29
92315411|NCT06192589|184534919|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.01||||0.47|TWO_SIDED|90.0|0.98|1.05|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.05|0.98|0.47
92315412|NCT06192589|184534919|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|0.99||||0.73|TWO_SIDED|90.0|0.96|1.03|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of multiple doses of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.03|0.96|0.73
92191888|NCT03840148|184282487|OTHER||Miettinen and Nurminen|12.7|||||TWO_SIDED|95.0|3.7|22.3||||||||22.3|3.7|
92191889|NCT03840148|184282488|OTHER||Miettinen and Nurminen|14.0|||||TWO_SIDED|95.0|3.8|24.3||||||||24.3|3.8|
92191890|NCT03840148|184282489|OTHER||Miettinen and Nurminen|7.7|||||TWO_SIDED|95.0|-1.9|17.7||||||||17.7|-1.9|
92191891|NCT03840148|184282494|OTHER||Miettinen and Nurminen|14.0|||||TWO_SIDED|95.0|3.8|24.3||||||||24.3|3.8|
92191892|NCT03840148|184282496|OTHER||Miettinen and Nurminen|1.7|||||TWO_SIDED|95.0|-3.1|7.3||||||||7.3|-3.1|
92191893|NCT03840148|184282497|OTHER||Miettinen and Nurminen|4.8|||||TWO_SIDED|95.0|-1.1|11.5||||||||11.5|-1.1|
92191894|NCT03840148|184282498|OTHER||Miettinen and Nurminen|8.2|||||TWO_SIDED|95.0|1.2|15.7||||||||15.7|1.2|
92315413|NCT06192589|184534920|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.12||||0.03|TWO_SIDED|90.0|1.03|1.21|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.21|1.03|0.03
92315414|NCT06192589|184534920|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|0.98||||0.66|TWO_SIDED|90.0|0.91|1.06|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of multiple doses of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.06|0.91|0.66
92315415|NCT06192589|184534921|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies.|Geometric mean ratio|1.08||||0.13|TWO_SIDED|90.0|0.99|1.18|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect.||1.18|0.99|0.13
92315416|NCT06192589|184534921|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.26|||<|0.01|TWO_SIDED|90.0|1.17|1.36|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of multiple doses of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.36|1.17|<0.01
92315417|NCT06192589|184534922|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.08||||0.12|TWO_SIDED|90.0|1.0|1.17|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.17|1.00|0.12
92315418|NCT06192589|184534922|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.11||||0.07|TWO_SIDED|90.0|1.01|1.21|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of multiple doses of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.21|1.01|0.07
92315419|NCT00742209|184534932|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|0.3||||0.579|TWO_SIDED|95.0|-0.6|1.1||A combination of a sequential method and the Hochberg procedure has been used to maintain the overall experiment-size alphas level of 0.05 for the comparison of GEn vs. placebo.|ANCOVA|An ANCOVA model with baseline number of MHD and IHS Headache Classification for presence or absence of aura as covariates was used.|Adjusted mean difference versus placebo|||1.1|-0.6|0.579
92315420|NCT01332487|184534962|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Acute Urinary Retention|Chi-squared|||||||0.002
92315421|NCT01332487|184534962|SUPERIORITY_OR_OTHER|||||||0||95.0||||Surgery|Chi-squared|||||||0.000
92315422|NCT01332487|184534962|SUPERIORITY_OR_OTHER|||||||0.597||95.0||||Emergency Surgery|Chi-squared|||||||0.597
92315423|NCT01514461|184534977|SUPERIORITY_OR_OTHER||% change from reference treatment|-28.78||||0.0538|TWO_SIDED|95.0|-55.69|14.46|||Mixed Models Analysis|Mixed Model of Repeated Measurements||||14.46|-55.69|0.0538
92315424|NCT01514461|184534977|SUPERIORITY_OR_OTHER||% change from reference treatment|-40.88||||0.0182|TWO_SIDED|95.0|-63.99|-2.94|||Mixed Models Analysis|Mixed Model of Repeated Measurements||||-2.94|-63.99|0.0182
92191895|NCT00257556|184282519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045||||||95.0|-0.17|0.26|||||A two-sided 95% continuity-corrected confidence interval for the difference in percentages, based on the normal approximation|||0.260|-0.170|
92315425|NCT01037218|184535021|SUPERIORITY_OR_OTHER||Difference in LS Means|3.38|||<|0.0001|TWO_SIDED|95.0|1.7|5.07|||ANCOVA|Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||5.07|1.70|<0.0001
92315426|NCT01037218|184535021|SUPERIORITY_OR_OTHER||Difference in LS Means|5.74|||<|0.0001|TWO_SIDED|95.0|4.05|7.43|||ANCOVA|Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||7.43|4.05|<0.0001
92191896|NCT04839289|184282547|OTHER||||||>|0.05||||||When p-value is adjusted for multiple comparisons, the level of statistical significance must be \</= to .01666667 (.05/3)|t-test, 2 sided|||"Null hypothesis: Subjective ratings of sound quality would not be different between any of the three study hearing aids when measured with a validated sound quality questionnaire.~Analysis was done after all three home trials completed so all three sets of study devices could be compared."||||>0.05
92315427|NCT01037218|184535021|SUPERIORITY_OR_OTHER||Difference in LS Means|7.53|||<|0.0001|TWO_SIDED|95.0|5.86|9.2|||ANCOVA|Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||9.20|5.86|<0.0001
92315428|NCT01037218|184535022|SUPERIORITY_OR_OTHER||Difference in LS Means|20.19|||<|0.0001|TWO_SIDED|95.0|13.44|26.93|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||26.93|13.44|<0.0001
92315429|NCT01037218|184535022|SUPERIORITY_OR_OTHER||Difference in LS Means|25.06|||<|0.0001|TWO_SIDED|95.0|18.32|31.81|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||31.81|18.32|<0.0001
92315430|NCT01037218|184535022|SUPERIORITY_OR_OTHER||Difference in LS Means|32.84|||<|0.0001|TWO_SIDED|95.0|26.18|39.5|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||39.50|26.18|<0.0001
92191897|NCT04839289|184282547|OTHER||||||<|0.0167||||||When p-value is adjusted for multiple comparisons, the level of statistical significance must be \</= to .01666667 (.05/3)|t-test, 2 sided|||"Null hypothesis: Subjective ratings of sound quality would not be different between any of the three study hearing aids when measured with a validated sound quality questionnaire.~Analysis was done after all three home trials completed so all three sets of study devices could be compared."||||<.0167
92268256|NCT00798707|184438725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.15|TWO_SIDED|95.0|-1.48|0.23|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.23|-1.48|0.150
92268257|NCT00798707|184438726|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.951||||0.8758|TWO_SIDED|95.0|0.51|1.78|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment and gender as factors and baseline sexual dysfunction status as a covariate.||1.78|0.51|0.8758
92268258|NCT00798707|184438726|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.165||||0.6397|TWO_SIDED|95.0|0.61|2.21|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment and gender as factors and baseline sexual dysfunction status as a covariate.||2.21|0.61|0.6397
92268259|NCT00798707|184438728|SUPERIORITY_OR_OTHER|||||||0.847|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 8 (or ET).||||0.847
92268260|NCT00798707|184438728|SUPERIORITY_OR_OTHER|||||||0.847|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 8 (or ET).||||0.847
92268261|NCT00798707|184438728|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 9 (or ET + 1 week).||||0.720
92268262|NCT00798707|184438728|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 9 (or ET + 1 week).||||0.720
92268263|NCT00798707|184438728|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 10 (or ET + 2 weeks).||||0.720
92268264|NCT00798707|184438728|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 10 (or ET + 2 weeks).||||0.720
92268265|NCT01299272|184438743|SUPERIORITY_OR_OTHER|||||||0.485|||||||Log Rank|||||||0.485
92268266|NCT03926728|184438772|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs D \[D1, D2\].||||1
92268267|NCT03926728|184438772|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs E \[E1, E2\].||||1
92268268|NCT03926728|184438772|OTHER|||||||0.0007|||||||Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs F \[F1, F2\].||||0.0007
92268269|NCT03926728|184438775|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort B \[B1, B2\] vs A2.||||1
92268270|NCT03926728|184438775|OTHER|||||||0.3956|||||||Fisher Exact|||Comparison: Cohort B \[B1, B2\] vs F1.||||0.3956
92268271|NCT03926728|184438776|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort B \[B1, B2\] vs A2.||||1
92268272|NCT03926728|184438776|OTHER|||||||0.3956|||||||Fisher Exact|||Comparison: Cohort B \[B1, B2\] vs F1.||||0.3956
92191898|NCT04839289|184282550|OTHER||||||<|0.01666667||||||When p-value is adjusted for multiple comparisons, the value must be \</= to .01666667 (.05/3).|t-test, 2 sided|||"Null hypothesis: Satisfaction with hearing aid performance and features would not be different between any of the three study hearing aids when measured with subjective hearing aid satisfaction questionnaire.~Analysis was done after all three home trials completed so all three sets of study devices could be compared."||||<.01666667
92191899|NCT04839289|184282550|OTHER||||||<|0.01666667||||||When adjusted for multiple comparisons, the p-value must be \</= to .01666667 (.05/3).|t-test, 2 sided|||"Null hypothesis: Satisfaction with hearing aid performance and features would not be different between any of the three study hearing aids when measured with subjective hearing aid satisfaction questionnaire.~Analysis was done after all three home trials completed so all three sets of study devices could be compared."||||<.01666667
92315431|NCT01037218|184535023|SUPERIORITY_OR_OTHER||Difference in LS Means|21.72|||<|0.0001|TWO_SIDED|95.0|14.19|29.24|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||29.24|14.19|<0.0001
92315432|NCT01037218|184535023|SUPERIORITY_OR_OTHER||Difference in LS Means|26.82|||<|0.0001|TWO_SIDED|95.0|19.27|34.37|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||34.37|19.27|<0.0001
92315433|NCT01037218|184535023|SUPERIORITY_OR_OTHER||Difference in LS Means|35.41|||<|0.0001|TWO_SIDED|95.0|27.98|42.83|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||42.83|27.98|<0.0001
92315434|NCT01037218|184535024|SUPERIORITY_OR_OTHER||Difference in LS Means|1.52|||<|0.0001|TWO_SIDED|95.0|0.81|2.23|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||2.23|0.81|<0.0001
92191900|NCT01350388|184282567|SUPERIORITY_OR_OTHER|||||||0.84|||||||ANCOVA|||||||0.84
92191901|NCT01350388|184282568|SUPERIORITY_OR_OTHER|||||||0.73|||||||ANCOVA|||||||0.73
92315435|NCT01037218|184535024|SUPERIORITY_OR_OTHER||Difference in LS Means|2.29|||<|0.0001|TWO_SIDED|95.0|1.58|3.0|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||3.00|1.58|<0.0001
92191902|NCT01350388|184282569|SUPERIORITY_OR_OTHER|||||||0.23|||||||ANCOVA|||||||0.23
92191903|NCT01350388|184282570|SUPERIORITY_OR_OTHER|||||||0.88|||||||ANCOVA|||||||0.88
92191904|NCT01350388|184282571|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANCOVA|||||||0.13
92191905|NCT01350388|184282572|SUPERIORITY_OR_OTHER|||||||0.35|||||||ANCOVA|||||||0.35
92191906|NCT00580047|184282574|OTHER||||||||||||||||||The intervention groups were compared for compliance to either having annual IV zoledronic acid, taking weekly oral alendronate, and taking calcium/vitamin D supplementation.|||
92191907|NCT01780584|184282579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.05|TWO_SIDED|95.0|1.0|3.0||Repeated Anova was used to determine whether there was difference of FT3 levels between groups|ANOVA|||Null hypothesis: no difference of free T3 (FT3) levels will be found between placebo, low dose and high dose group. We anticipated a difference of 2 pg/ml in FT3 with a standard deviation of 0.8 pg/ml between groups. For a statistical power of 80% to identify a treatment effect and at a level significance of 0.05 (2-sided).||3|1|<0.05
92191908|NCT01780584|184282581|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.0||||0.31||95.0|3.0|10.0||Kruskal Wallis test was used to determine any difference of time of extubation between groups.|Kruskal-Wallis|||Null hypothesis: no difference of time to extubation between group. Statistical power 80% and level of significance 0.05||10|3|0.31
92191909|NCT01780584|184282582|SUPERIORITY_OR_OTHER||Median Difference (Net)|50.0||||0.4||95.0|40.0|60.0|||Kruskal-Wallis|||Null hypothesis: there is no difference of length of stay in Intensive Care Unit. Statistical power 80% and level of significance 0.05.||60|40|0.4
92191910|NCT01780584|184282583|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.0||||0.06||95.0|5.0|15.0|||Kruskal-Wallis|||Null hypothesis: there is no difference of postoperative hospital length of stay between groups. Statistical power 80% and level of significance 0.05.||15|5|0.06
92315436|NCT01037218|184535024|SUPERIORITY_OR_OTHER||Difference in LS Means|2.9|||<|0.0001|TWO_SIDED|95.0|2.2|3.6|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||3.60|2.20|<0.0001
92315437|NCT01037218|184535025|SUPERIORITY_OR_OTHER||Difference in LS Means|0.59||||0.0673|TWO_SIDED|95.0|-0.04|1.22|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||1.22|-0.04|0.0673
92315438|NCT01037218|184535025|SUPERIORITY_OR_OTHER||Difference in LS Means|1.53|||<|0.0001|TWO_SIDED|95.0|0.9|2.16|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||2.16|0.90|<0.0001
92315439|NCT01037218|184535025|SUPERIORITY_OR_OTHER||Difference in LS Means|1.53|||<|0.0001|TWO_SIDED|95.0|0.91|2.15|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||2.15|0.91|<0.0001
92315440|NCT01037218|184535026|SUPERIORITY_OR_OTHER||Difference in LS Means|0.36||||0.0566|TWO_SIDED|95.0|-0.01|0.73|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||0.73|-0.01|0.0566
92315441|NCT01037218|184535026|SUPERIORITY_OR_OTHER||Difference in LS Means|0.71||||0.0002|TWO_SIDED|95.0|0.34|1.08|||ANCOVA|P-values obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||1.08|0.34|0.0002
92315442|NCT01037218|184535026|SUPERIORITY_OR_OTHER||Difference in LS Means|0.71||||0.0001|TWO_SIDED|95.0|0.34|1.07|||ANCOVA|P-values obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||1.07|0.34|0.0001
92315443|NCT01037218|184535027|SUPERIORITY_OR_OTHER||Difference in LS Means|0.86||||0.0019|TWO_SIDED|95.0|0.32|1.4|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||1.40|0.32|0.0019
92315444|NCT01037218|184535027|SUPERIORITY_OR_OTHER||Difference in LS Means|1.55|||<|0.0001|TWO_SIDED|95.0|1.01|2.09|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||2.09|1.01|<0.0001
92191911|NCT02825849|184282585|SUPERIORITY|||||||0.824|||||||Chi-squared|||||||.824
92191912|NCT00546884|184282586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.16|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92191913|NCT01699698|184282695|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92268273|NCT03926728|184438778|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs D \[D1, D2\].||||1
92268274|NCT03926728|184438778|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs E \[E1, E2\].||||1
92268275|NCT03926728|184438778|OTHER|||||||0.3229|||||||Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs F \[F1, F2\].||||0.3229
92268276|NCT01107834|184438800|SUPERIORITY_OR_OTHER|||||||0.27|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.27
92268277|NCT01107834|184438801|SUPERIORITY_OR_OTHER|||||||0.46|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.46
92268278|NCT01107834|184438802|SUPERIORITY_OR_OTHER|||||||0.13|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.13
92268279|NCT01107834|184438803|SUPERIORITY_OR_OTHER|||||||0.59|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.59
92268280|NCT01107834|184438804|SUPERIORITY_OR_OTHER|||||||0.09|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.09
92268281|NCT01107834|184438805|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.03
92268282|NCT03722849|184438806|OTHER||||||=|0.0028||||||No multiple comparisons as region of interest analysis defined a priori.|Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests for non-parametric data||||=0.0028
92268283|NCT03722849|184438807|OTHER||||||=|0.007||||||No multiple comparisons as region of interest analysis defined a priori.|Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests for non-parametric data||||=0.0070
92268284|NCT03722849|184438808|OTHER|Group comparisons (Cough versus healthy) for each measurement using repeated measures ANOVA.|||||=|0.0019|||||||ANOVA|with repeated measures||||||=0.0019
92268285|NCT03722849|184438810|OTHER|Group-wise comparisons using unpaired t-tests or one way ANOVA|||||<|0.0001|||||||ANOVA|||||||<0.0001
92268286|NCT03993288|184438811|NON_INFERIORITY|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval for the mean value calculated by the least squares method did not exceed the predetermined boundary of non-inferiority of 5 g/L|Mean Difference (Net)|-0.24||||0.0032|TWO_SIDED|95.0|-4.86|4.38|||ANCOVA|||||4.38|-4.86|0.0032
92268287|NCT03533608|184438826|OTHER|Descriptive|Mean Difference (Final Values)|19.51|||||TWO_SIDED|||||||||||||
92268288|NCT03533608|184438827|OTHER|Descriptive|Mean Difference (Final Values)|4.04|||||TWO_SIDED|||||||||||||
92268289|NCT00915473|184438828|SUPERIORITY_OR_OTHER|||||||0.98|||||||Chi-squared|||||||0.98
92268290|NCT00915473|184438829|SUPERIORITY_OR_OTHER|||||||0.52|||||||t-test, 2 sided|||Severe Migraine Frequency||||0.52
92268291|NCT00915473|184438829|SUPERIORITY_OR_OTHER|||||||0.52|||||||t-test, 2 sided|||At least Moderate Migraine Frequency||||0.52
92268292|NCT00915473|184438829|SUPERIORITY_OR_OTHER|||||||0.47|||||||t-test, 2 sided|||At Least Mild Migraine Frequency||||0.47
92268293|NCT00915473|184438830|SUPERIORITY_OR_OTHER|||||||0.9|||||||t-test, 2 sided|||||||0.90
92268294|NCT00915473|184438831|SUPERIORITY_OR_OTHER|||||||0.47|||||||t-test, 2 sided|||||||0.47
92268295|NCT01389024|184438832|SUPERIORITY||Incidence rate ratio|0.216||||0.2914|TWO_SIDED|90.0|0.009|1.66|||Poisson Regression||We calculated confidence intervals from exact Poisson regression.|||1.66|.009|0.2914
92268296|NCT00529802|184438844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9||||0.69|TWO_SIDED|95.0|-9.3|13.23|||t-test, 2 sided|Relative changes in tumor size were log-transformed to satisfy the normality assumption for the t-test.|Mean difference is the difference between Low and High SUV uptake groups in tumor size percent (%) change from baseline, and is reported on the raw scale. Tumor size changes were log-transformed for the t-test.|Relative changes in tumor size were log-transformed to satisfy the normality assumption.||13.23|-9.3|0.69
92268297|NCT00529802|184438845|SUPERIORITY_OR_OTHER||Slope|0.0028|STANDARD_ERROR_OF_MEAN|0.00109||0.013|TWO_SIDED|95.0|0.00063|0.004997|||Regression, Linear|Tumor size change (outcome variable) was log-transformed to satisfy the normality assumption.|Outcome was log(tumor size at 8 weeks/tumor size at baseline), and the predictor was the early change in aveSUVmax \[(aveSUVmax at 2 weeks - aveSUVmax at baseline)/aveSUVmax at baseline\] x 100%.|The relationship between early changes in SUV uptake (from baseline to 2 weeks) and tumor size changes (from baseline to 8 weeks) were examined using linear regression models. Tumor size change was log-transformed to satisfy the normality assumption.||0.004997|0.00063|0.013
92268298|NCT01900392|184438851|OTHER||||||>|0.1|||||||Regression, Linear|||||||>0.1
92268299|NCT00315328|184438853|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum tests were used to assess treatment group differences in the change in Randot Preschool stereoacuity levels ( from baseline to the outcome examination).||||0.96
92268300|NCT00315328|184438854|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum tests used to assess treatment group differences in change in Randot Preschool stereoacuity levels ( from baseline to the outcome examination) among those with anisometropia only.||||0.78
92268301|NCT00315328|184438855|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum tests were used to assess treatment group differences in the change in Randot Preschool stereoacuity levels ( from baseline to the outcome examination) among patients with strabismus or combined mechanism only.||||0.99
92268302|NCT00315328|184438856|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Wilcoxon (Mann-Whitney)|||To evaluate WITHIN each treatment group whether stereoacuity changed from baseline to outcome a Wilcoxon sign-rank test was performed to evaluate whether the distribution of change from baseline was zero||||.04
92268303|NCT00315328|184438856|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||To evaluate WITHIN each treatment group whether stereoacuity changed from baseline to outcome a Wilcoxon sign-rank test was performed to evaluate whether the distribution of change from baseline was zero||||0.003
92268304|NCT00315328|184438857|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|Positive mean favors atropine group.||Wilcoxon rank sum tests were used to assess treatment group differences in the parent questionnaire subscale scores at 17 weeks - Social Stigma subscale.||||<0.01
92268305|NCT00315328|184438858|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|Positive mean favors atropine group.||Wilcoxon rank sum tests were used to assess treatment group differences in the parent questionnaire subscale scores at 17 weeks - Compliance subscale.||||<0.01
92315445|NCT01037218|184535027|SUPERIORITY_OR_OTHER||Difference in LS Means|2.09|||<|0.0001|TWO_SIDED|95.0|1.55|2.62|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||2.62|1.55|<0.0001
92315446|NCT01037218|184535028|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Armitage test|||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||||<0.0001
92315447|NCT01037218|184535028|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||||<0.0001
92315448|NCT01037218|184535028|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||||<0.0001
92315449|NCT01037218|184535028|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||||<0.0001
92315450|NCT01037218|184535029|SUPERIORITY_OR_OTHER||Difference in LS Means|12.65|||<|0.0001|TWO_SIDED|95.0|7.01|18.29|||ANOVA|P-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||18.29|7.01|<0.0001
92315451|NCT01037218|184535029|SUPERIORITY_OR_OTHER||Difference in LS Means|19.61|||<|0.0001|TWO_SIDED|95.0|13.95|25.27|||ANOVA|P-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||25.27|13.95|<0.0001
92191914|NCT00526097|184282704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001||95.0|2.6|4.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.0|2.6|<0.0001
92315452|NCT01037218|184535029|SUPERIORITY_OR_OTHER||Difference in LS Means|27.01|||<|0.0001|TWO_SIDED|95.0|21.44|32.59|||ANOVA|P-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||32.59|21.44|<0.0001
92315453|NCT01037218|184535030|SUPERIORITY_OR_OTHER||Difference in LS Means|0.44|||<|0.0001|TWO_SIDED|95.0|0.3|0.57|||ANCOVA|P-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||0.57|0.30|<0.0001
92191915|NCT00526097|184282705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001||95.0|3.5|5.2||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs)|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||5.2|3.5|<0.0001
92191916|NCT00526097|184282706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001||95.0|2.7|4.3||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.3|2.7|<0.0001
92315454|NCT01037218|184535030|SUPERIORITY_OR_OTHER||Difference in LS Means|0.54|||<|0.0001|TWO_SIDED|95.0|0.4|0.68|||ANCOVA|P-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||0.68|0.40|<0.0001
92315455|NCT01037218|184535030|SUPERIORITY_OR_OTHER||Difference in LS Means|0.83|||<|0.0001|TWO_SIDED|95.0|0.69|0.97|||ANCOVA|P-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||0.97|0.69|<0.0001
92315456|NCT01037218|184535031|SUPERIORITY_OR_OTHER||Difference in LS Means|15.18|||<|0.0001|TWO_SIDED|95.0|10.21|20.14|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||20.14|10.21|<0.0001
92315457|NCT01037218|184535031|SUPERIORITY_OR_OTHER||Difference in LS Means|14.94|||<|0.0001|TWO_SIDED|95.0|9.96|19.92|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||19.92|9.96|<0.0001
92315458|NCT01037218|184535031|SUPERIORITY_OR_OTHER||Difference in LS Means|21.06|||<|0.0001|TWO_SIDED|95.0|16.15|25.96|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||25.96|16.15|<0.0001
92315459|NCT01037218|184535032|SUPERIORITY_OR_OTHER||Difference in LS Means|17.51|||<|0.0001|TWO_SIDED|95.0|10.22|24.81|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||24.81|10.22|<0.0001
92315460|NCT01037218|184535032|SUPERIORITY_OR_OTHER||Difference in LS Means|28.32|||<|0.0001|TWO_SIDED|95.0|21.01|35.62|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||35.62|21.01|<0.0001
92315461|NCT01037218|184535032|SUPERIORITY_OR_OTHER||Difference in LS Means|33.82|||<|0.0001|TWO_SIDED|95.0|26.61|41.02|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||41.02|26.61|<0.0001
92315462|NCT01037218|184535033|SUPERIORITY_OR_OTHER||Difference in LS Means|18.73|||<|0.0001|TWO_SIDED|95.0|11.23|26.23|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||26.23|11.23|<0.0001
92315463|NCT01037218|184535033|SUPERIORITY_OR_OTHER||Difference in LS Means|29.39|||<|0.0001|TWO_SIDED|95.0|21.86|36.92|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||36.92|21.86|<0.0001
92191917|NCT00526097|184282707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001||95.0|2.0|3.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||3.6|2.0|<0.0001
92191918|NCT00526097|184282708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001||95.0|1.8|3.4||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||3.4|1.8|<0.0001
92315464|NCT01037218|184535033|SUPERIORITY_OR_OTHER||Difference in LS Means|34.35|||<|0.0001|TWO_SIDED|95.0|26.94|41.75|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001(NCT00282607).||41.75|26.94|<0.0001
92315465|NCT01113892|184535041|NON_INFERIORITY|"The non-inferiority margin was 15%. The following null hypothesis (H0) and alternative hypothesis (HA) were tested, with the primary patency rate at 6 months for FUSION Bioline (PF), and the primary patency rate at 6 months for EXXCEL (PE).~H0: PF - PE \< - 0.15; HA: PF - PE \> - 0.15 An exact 1-sided test was used for the observed difference of patency rates between the FUSION Bioline (test) and EXXCEL (control) products."|Mean Difference (Net)|16.4|||<|0.0001|TWO_SIDED|95.0|2.7|29.9||The threshold for significance was p = .05|Exact 1-sided test||Difference = Patency (Fusion Bioline) - Patency (EXXCEL)|It was calculated that 200 participants randomized in a 1:1 fashion would have at least 80% power to detect a difference of 15% in the number of participants with primary patency between FUSION Bioline and EXXCEL groups at 6 months. It was assumed that the ratio of Above-Knee to Below-Knee procedures was 60:40; based on this, the primary patency rate for the combined Above-Knee and Below-Knee patients was 79%. Assumptions included a 10% withdrawal rate prior to the 6-month evaluation.||29.9|2.7|<.0001
92315466|NCT01113892|184535042|EQUIVALENCE|Fisher's Exact test was used to evaluate whether subjects with any MALE event or POD were homogeneous across the treatment arms.||||||0.033|ONE_SIDED|95.0|||||Fisher Exact|||The number and percentage of subjects with a MALE or POD event were summarized by treatment group.||||.033
92315467|NCT01113892|184535043|OTHER|||||||0.017|||||||Chi-squared|Proportion of subjects who achieved primary assisted patency for both treatment groups were compared using a Chi-Square test||||||.017
92315468|NCT01113892|184535044|OTHER|||||||0.137|||||||Chi-squared|Proportion of subjects who achieve secondary patency for both treatment groups will be compared using a Chi-Square test||||||.137
92191919|NCT00526097|184282709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001||95.0|4.1|5.8||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||5.8|4.1|<0.0001
92191920|NCT00526097|184282710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|STANDARD_ERROR_OF_MEAN|0.49|<|0.0001||95.0|5.8|7.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||7.7|5.8|<0.0001
92191921|NCT00526097|184282711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001||95.0|3.8|5.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||5.6|3.8|<0.0001
92191922|NCT00526097|184282712|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8|STANDARD_ERROR_OF_MEAN|0.45|<|0.0001||95.0|2.9|4.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.7|2.9|<0.0001
92315469|NCT01113892|184535045|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Difference between groups were compared with the Wilcoxon Rank Sum Test||||<.0001
92315470|NCT01113892|184535047|NON_INFERIORITY|"Repeated 6 month analyses for 12 month results.The non-inferiority margin was 15%. The following null hypothesis (H0) and alternative hypothesis (HA) were tested, with the primary patency rate for FUSION Bioline (PF), and the primary patency rate for EXXCEL (PE).~H0: PF - PE \< - 0.15; HA: PF - PE \> - 0.15 An exact 1-sided test was used for the observed difference of patency rates between the FUSION Bioline (test) and EXXCEL (control) products, with a p-value ≤ .05 indicating significance."|Mean Difference (Net)|9.5||||0.0001|TWO_SIDED|95.0|-4.8|23.0|||Exact 1-sided test|||||23.0|-4.8|.0001
92315471|NCT01113892|184535049|OTHER|||||||0.181|||||||Chi-squared|Proportion of subjects who achieve primary assisted patency for both treatment groups will be compared using a Chi-Square test||||||.181
92315472|NCT01113892|184535051|OTHER|||||||0.68|||||||Chi-squared|Proportion of subjects who achieve secondary patency for both treatment groups will be compared using a Chi Square test||||||.68
92191923|NCT00526097|184282713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001||95.0|2.9|4.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.6|2.9|<0.0001
92191924|NCT00526097|184282714|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||The log-rank test was used to calculate the p-value and to test for differences between the treatment groups.||||<0.0001
92191925|NCT00526097|184282715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04|||<|0.0001||95.0|1.62|2.57|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||2.57|1.62|<0.0001
92191926|NCT00526097|184282716|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75|||<|0.0001||95.0|1.44|2.13|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||2.13|1.44|<0.0001
92191927|NCT00526097|184282717|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.08|||<|0.0001||95.0|1.62|2.66|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||2.66|1.62|<0.0001
92315473|NCT00789854|184535052|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin for differences was set to 3 units in the MADRS total score.~A power set to 80% and using a Bonferroni-adjusted one-sided alpha\* = alpha/3 = 0.0083 yields a planned sample size of 192 patients per study group. With a drop out of 4% a total of 600 randomized patients were required to obtain 192 efficacy evaluable patients per treatment group."|Mean Difference (Final Values)|-2.322||||||97.5|-4.6|-0.05||The CI is for comparing add-on quetiapine versus add-on Lithium. The CI = confidence interval was adjusted for multiple comparisons. The -0.05 value should have been +3 or above to fail to reject the null hypothesis.|ANCOVA|Non-inferiority between add-on quetiapine XR and add-on lithium was shown in the Per Protocol analysis set.||Add-on quetiapine XR was tested versus add-on lithium for non-inferiority. The null hypothesis was that the add-on quetiapine treatment was non-inferior to add-on lithium.||-0.05|-4.6|
92315474|NCT00789854|184535052|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin for differences was set to 3 units in the MADRS total score.~A power set to 80% and using a Bonferroni-adjusted one-sided alpha\* = alpha/3 = 0.0083 yields a planned sample size of 192 patients per study group. With a drop out of 4% a total of 600 randomized patients were required to obtain 192 efficacy evaluable patients per treatment group."|Mean Difference (Final Values)|-1.639||||||97.5|-3.24|1.312||The CI is for comparing quetiapine XR mono versus add-on Lithium. The CI = confidence interval was adjusted for multiple comparisons. The 1.312 value should have been +3 or above to fail to reject the null hypothesis.|ANCOVA|Non-inferiority between quetiapine XR mono and add-on lithium was shown in the Per Protocol analysis set.||Quetiapine XR mono was tested versus add-on lithium for non-inferiority. The null hypothesis was that the quetiapine XR mono treatment was non-inferior to add-on lithium.||1.312|-3.24|
92315475|NCT00789854|184535053|SUPERIORITY_OR_OTHER|||||||0.0489||95.0||||Adjustment for multiplicity was done, alpha = 0.025|ANCOVA|Superiority testing of primary outcome showed no significant difference in the Modified Intention To Treat (ITT) population||The null hypothesis was that the add-on quetiapine XR treatment was not different to the add-on lithium treatment. The power calculation was done for the primary non-inferior analysis. This superiority analysis was only done if the non-inferior analysis was successful.||||0.0489
92315476|NCT00789854|184535053|SUPERIORITY_OR_OTHER|||||||0.4368||95.0||||Adjustment for multiplicity was done, alpha = 0.025|ANCOVA|Superiority testing of primary outcome showed no significant difference in the Modified Intention To Treat (ITT) population||The null hypothesis was that the quetiapine XR mono treatment was not different from the add-on lithium treatment. The power calculation was done for the primary non-inferior analysis. This superiority analysis was only done if the non-inferior analysis was successful.||||0.4368
92315477|NCT02756611|184535107|SUPERIORITY||||||<|0.001|||||||Binomial test|||The null hypothesis stated that the CR rate for BCRi-naïve participants would be ≤ 6%, based on the CR rate reported for current therapies at the time the study was designed, with an alternative hypothesis that the CR rate would be \> 6%. If the p-value for this test was \< 0.025, the null hypothesis would be rejected.||||<0.001
92315478|NCT02756611|184535118|SUPERIORITY||||||<|0.001|||||||Binomial test|||The null hypothesis stated that the CR rate for BCRi-naïve participants would be ≤ 6%, based on the CR rate reported for current therapies at the time the study was designed, with an alternative hypothesis that the CR rate would be \> 6%. If the p-value for this test was \< 0.025, the null hypothesis would be rejected.||||<0.001
92315479|NCT02291237|184535141|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|-0.55||||0.416|TWO_SIDED|95.0|-1.87|0.78|||ANCOVA|P-value and Least Squares (LS) Means are from model with terms for sex, age (continuous), and treatment group and baseline peak VO2 as the covariate.||The analysis evaluated the change in Peak VO2 from baseline to Week 24 for the eleclazine group compared with that of the placebo group using analysis of covariance (ANCOVA) including terms for baseline Peak VO2, sex, and age (continuous).||0.78|-1.87|0.416
92315480|NCT02291237|184535142|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|-0.42||||0.517|TWO_SIDED|95.0|-1.68|0.85||P-value and LS Means are from model with terms for sex, age (continuous), and treatment group and baseline peak VO2 as the covariate.|ANCOVA|||The analysis evaluated the change in Peak VO2 from baseline to Week 12 for the eleclazine group compared with that of the placebo group using ANCOVA including terms for baseline Peak VO2, sex, and age (continuous).||0.85|-1.68|0.517
92191928|NCT00526097|184282718|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7|||<|0.0001||95.0|1.37|2.11|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||2.11|1.37|<0.0001
92191929|NCT00526097|184282719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52|||<|0.0001||95.0|1.24|1.88|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||1.88|1.24|<0.0001
92191930|NCT00526097|184282720|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.13|||<|0.0001||95.0|4.28|68.66|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||68.66|4.28|<0.0001
92191931|NCT00526097|184282721|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.46|||<|0.0001||95.0|1.81|3.35|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||3.35|1.81|<0.0001
92191932|NCT00526097|184282722|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.0025||95.0|1.32|4.74|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||4.74|1.32|0.0025
92191933|NCT00526097|184282723|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.08||||0.0105||95.0|1.26|13.24|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||13.24|1.26|0.0105
92191934|NCT00526097|184282724|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.4002||95.0|0.52|6.47|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||6.47|0.52|0.4002
92315481|NCT02291237|184535143|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|1.54||||0.513|TWO_SIDED|95.0|-3.11|6.19|||ANCOVA|P-value and LS Means are from model with terms for sex, age (continuous), and treatment group and baseline score as the covariate.||The analysis evaluated the change in MLHFQ from baseline to Week 24 for the eleclazine group compared with that of the placebo group using ANCOVA including terms for baseline treadmill exercise time, sex, and age (continuous).||6.19|-3.11|0.513
92315482|NCT02291237|184535144|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|0.1||||0.964|TWO_SIDED|95.0|-4.36|4.56|||ANCOVA|P-value and LS Means are from model with terms for sex, age (continuous), and treatment group and baseline score as the covariate.||The analysis evaluated the change in MLHFQ from baseline to Week 12 for the eleclazine group compared with that of the placebo group using ANCOVA including terms for baseline treadmill exercise time, sex, and age (continuous).||4.56|-4.36|0.964
92315483|NCT02291237|184535145|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|-0.04||||0.944|TWO_SIDED|95.0|-1.18|1.1|||ANCOVA|P-value and LS Means are from model with terms for sex, age (continuous), and treatment group and baseline score as the covariate.||The analysis evaluated the change in treadmill exercise time from baseline to Week 24 for the eleclazine group compared with that of the placebo group using ANCOVA including terms for baseline treadmill exercise time, sex, and age (continuous).||1.10|-1.18|0.944
92315484|NCT02291237|184535146|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|0.0||||0.993|TWO_SIDED|95.0|-0.96|0.97|||ANCOVA|P-value and LS Means are from model with terms for sex, age (continuous), and treatment group and baseline score as the covariate.||The analysis evaluated the change in treadmill exercise time from baseline to Week 12 for the eleclazine group compared with that of the placebo group using ANCOVA including terms for baseline treadmill exercise time, sex, and age (continuous).||0.97|-0.96|0.993
92315485|NCT07034820|184535147|SUPERIORITY||Risk Difference (RD)|56.0|||<|0.001|TWO_SIDED|95.0|48.0|64.0||A priori statistical significance threshold for the primary endpoint was set at a two-sided alpha level of 0.05. No adjustment for multiple comparisons was applied to the primary outcome analysis, as it was the sole primary endpoint.|Chi-squared||The Risk Difference (RD) indicates the absolute difference in hemorrhoid regression rates between the Nimsai Herbal Group and the Placebo Group. Calculation: Nimsai Herbal (78%) - Placebo (22%) = 56%.|Powered for 56% difference (80% power, alpha=0.05) to detect the anticipated difference in hemorrhoid regression rates between groups. The sample size of N=300 (150 participants per arm) was calculated based on an expected regression rate of 22% in the placebo group and 78% in the Nimsai Herbal group. This ensured sufficient statistical power for the primary efficacy analysis.||64|48|<0.001
92315486|NCT02586155|184535181|SUPERIORITY||Cox Proportional Hazard|0.823||||0.107|TWO_SIDED|95.0|0.649|1.044|||Stratified long-rank|||||1.044|0.649|0.1070
92315487|NCT02586155|184535182|SUPERIORITY||Cox Proportional Hazard|0.849||||0.1495|TWO_SIDED|95.0|0.679|1.061|||Stratified long-rank|||||1.061|0.679|0.1495
92315488|NCT02586155|184535183|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.03|TWO_SIDED|95.0|0.38|0.94|||Stratified long-rank|||||0.94|0.38|0.03
92315489|NCT02586155|184535184|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.44|TWO_SIDED|95.0|0.62|1.24|||Stratified long-rank|||||1.24|0.62|0.44
92315490|NCT02586155|184535195|SUPERIORITY||Cox Proportional Hazard|0.78||||0.03|TWO_SIDED|95.0|0.63|0.98|||Log Rank|||||0.98|0.63|0.03
92315491|NCT02899962|184535228|SUPERIORITY|The primary endpoint was time to first relapse during the maintenance phase. This was calculated as the number of days from randomisation to the day where the subject had the first relapse confirmed. For subjects who either did not encounter a relapse or were withdrawn from the trial, the number of days was treated as a censored observation at the day of end of trial visit.|Hazard Ratio (HR)|0.57|||<|0.001|TWO_SIDED|95.0|0.47|0.69|||Regression, Cox||Estimates are obtained from a proportional hazards model with treatment group,pooled trial site,disease severity at maintenance baseline (Week 4; determined by PGA) as factors.|All randomized subjects were considered for statistical analysis.||0.69|0.47|<0.001
92315492|NCT02899962|184535229|SUPERIORITY||Mean Difference (Net)|0.11|||<|0.001|TWO_SIDED|95.0|0.08|0.14|||ANOVA|Factors adjusted for in the ANOVA model were treatment group, pooled trial site, and disease severity at maintenance baseline (PGA).|Multiple imputation of data for withdrawn subjects was done using 100 imputations and depended on whether the subject's reason for withdrawal potentially was related to treatment. Length of the maintenance phase was assumed to be 52 weeks (364 days)|The number of days in remission was calculated as the sum of days where the subject was in remission periods. The proportion of days in remission was calculated as the number of days in remission divided by the length of the maintenance phase in days.||0.14|0.08|<0.001
92191935|NCT00526097|184282725|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||1||95.0|0.37|3.77|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||3.77|0.37|1.0000
92191936|NCT00526097|184282726|SUPERIORITY_OR_OTHER|||||||0.0951|||||||Fisher Exact|||||||0.0951
92315493|NCT02899962|184535230|SUPERIORITY||Rate ratio|0.54|||<|0.001|TWO_SIDED|95.0|0.46|0.63|||Poisson regression||The number of relapses was analysed using a Poisson regression model with treatment group,pooled sites,disease severity at maintenance baseline as factors, subject as random effect, and time at risk as an offset.|||0.63|0.46|<0.001
92315494|NCT02623725|184535249|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95 percent (%) Confidence Interval (CI) of the Geometric mean of titer ratios (GMTRs) (booster vs post-dose 3) was greater than (\>) 1/2 for each serotype.|Geometric mean of titer ratio|1.66|||||TWO_SIDED|95.0|1.33|2.06||||||Dengue Virus Serotype 1||2.06|1.33|
92315495|NCT02623725|184535249|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \>1/2 for each serotype.|Geometric mean of titer ratio|1.82|||||TWO_SIDED|95.0|1.43|2.31||||||Dengue Virus Serotype 2||2.31|1.43|
92191937|NCT00526097|184282727|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.19|||<|0.0001||95.0|0.09|0.41|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||0.41|0.09|<0.0001
92191938|NCT00526097|184282728|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.24||||0.2524||95.0|0.02|2.67|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||2.67|0.02|0.2524
92191939|NCT00526097|184282729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.2||||0.0035||95.0|0.06|0.63|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||0.63|0.06|0.0035
92315496|NCT02623725|184535249|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \>1/2 for each serotype.|Geometric mean of titer ratio|1.04|||||TWO_SIDED|95.0|0.841|1.27||||||Dengue Virus Serotype 3||1.27|0.841|
92315497|NCT02623725|184535249|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \>1/2 for each serotype.|Geometric mean of titer ratio|1.32|||||TWO_SIDED|95.0|1.01|1.74||||||Dengue Virus Serotype 4||1.74|1.01|
92315498|NCT02623725|184535250|SUPERIORITY|The superiority was to be demonstrated if the lower limit of the two-sided 95% CI for the ratio was \>1.|Geometric mean of titer ratio|1.66|||||TWO_SIDED|95.0|1.34|2.05||||||Dengue Virus Serotype 1||2.05|1.34|
92315499|NCT02623725|184535250|SUPERIORITY|The superiority was to be demonstrated if the lower limit of the two-sided 95% CI for the ratio was \>1.|Geometric mean of titer ratio|1.89|||||TWO_SIDED|95.0|1.49|2.41||||||Dengue Virus Serotype 2||2.41|1.49|
92315500|NCT02623725|184535250|SUPERIORITY|The superiority was to be demonstrated if the lower limit of the two-sided 95% CI for the ratio was \>1.|Geometric mean of titer ratio|1.06|||||TWO_SIDED|95.0|0.86|1.3||||||Dengue Virus Serotype 3||1.30|0.860|
92315501|NCT02623725|184535250|SUPERIORITY|The superiority was to be demonstrated if the lower limit of the two-sided 95% CI for the ratio was \>1.|Geometric mean of titer ratio|1.33|||||TWO_SIDED|95.0|1.02|1.73||||||Dengue Virus Serotype 4||1.73|1.02|
92315502|NCT03918629|184535263|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for geometric mean ratio (GMR) was \>0.67 for both Toxin A and Toxin B.|Adjusted Geometric Mean Ratio|0.82|||||TWO_SIDED|95.0|0.74|0.9|||||Adjusted geometric mean ratio (GMR) was estimated by the ratio of the adjusted GMCs (adjusted for baseline concentrations). CIs based on the student t distribution for the mean or the mean difference in logarithmic scale.|Toxin A||0.90|0.74|
92315503|NCT03918629|184535263|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for GMR was \>0.67 for both Toxin A and Toxin B.|Adjusted Geometric Mean Ratio|0.57|||||TWO_SIDED|95.0|0.49|0.66|||||Adjusted GMR was estimated by the ratio of the adjusted GMCs (adjusted for baseline concentrations). CIs based on the student t distribution for the mean difference in logarithmic scale.|Toxin B||0.66|0.49|
92315504|NCT03918629|184535264|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for the difference was \>-10% for both Toxin A and Toxin B.|Percentage difference|-1.8|||||TWO_SIDED|95.0|-6.4|2.9|||||The difference (2-Dose - 3-Dose) and the associated 95% CIs for the difference were calculated using the Miettinen and Nurminen method.|Toxin A||2.9|-6.4|
92191940|NCT00526097|184282730|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.06||||0.0004||95.0|0.01|0.46|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||0.46|0.01|0.0004
92191941|NCT00526097|184282731|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.0086||95.0|0.1|0.69|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||0.69|0.10|0.0086
92191942|NCT00526097|184282732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-1.2|-0.9||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.9|-1.2|<0.0001
92191943|NCT00526097|184282733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-1.2|-0.8||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.8|-1.2|<0.0001
92315505|NCT03918629|184535264|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for the difference was \>-10% for both Toxin A and Toxin B.|Percentage difference|-16.8|||||TWO_SIDED|95.0|-21.3|-12.2|||||The difference (2-Dose - 3-Dose) and the associated 95% CIs for the difference were calculated using the Miettinen and Nurminen method.|Toxin B||-12.2|-21.3|
92315506|NCT03918629|184535273|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for GMR was \>0.67 for both Toxin A and Toxin B.|Adjusted Geometric Mean Ratio|0.87|||||TWO_SIDED|95.0|0.8|0.95|||||Adjusted GMR was estimated by the ratio of the adjusted GMCs (adjusted for baseline concentrations). CIs based on the student t distribution for the mean or the mean difference in logarithmic scale.|Toxin A||0.95|0.80|
92315507|NCT03918629|184535273|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for GMR was \>0.67 for both Toxin A and Toxin B.|Adjusted Geometric Mean Ratio|0.71|||||TWO_SIDED|95.0|0.62|0.81|||||Adjusted GMR was estimated by the ratio of the adjusted GMCs (adjusted for baseline concentrations). CIs based on the student t distribution for the mean or the mean difference in logarithmic scale.|Toxin B||0.81|0.62|
92315508|NCT03918629|184535274|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for the difference was \>-10% for both Toxin A and Toxin B.|Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.7|1.7|||||The difference (2-Dose - 3-Dose) and the associated 95% CIs for the difference were calculated using the Miettinen and Nurminen method.|Toxin A||1.7|-3.7|
92315509|NCT03918629|184535274|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for the difference was \>-10% for both Toxin A and Toxin B.|Percentage difference|-10.3|||||TWO_SIDED|95.0|-15.1|-5.5|||||The difference (2-Dose - 3-Dose) and the associated 95% CIs for the difference were calculated using the Miettinen and Nurminen method.|Toxin B||-5.5|-15.1|
92315510|NCT01243957|184535275|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.79|||||TWO_SIDED|90.0|1.61|2.0|||ANOVA|||||2.00|1.61|
92315511|NCT01243957|184535276|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.63|||||TWO_SIDED|90.0|1.49|1.79|||ANOVA|||||1.79|1.49|
92315512|NCT01243957|184535277|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.5459|TWO_SIDED|90.0|-0.5|0.5|||Wilcoxon (Mann-Whitney)|||||0.50|-0.50|0.5459
92315513|NCT01243957|184535278|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.01|||||TWO_SIDED|90.0|0.99|1.04|||ANOVA|||Ratio of Geometric LS Means of AUCτ for fluoxetine alone and fluoxetine + LY2216684.||1.04|0.99|
92315514|NCT01243957|184535278|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|1.01|1.06|||ANOVA|||Ratio of Geometric LS Means of AUCτ for norfluoxetine alone and norfluoxetine + LY2216684.||1.06|1.01|
92315515|NCT01243957|184535279|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.0|||||TWO_SIDED|90.0|0.97|1.03|||ANOVA|||Ratio of Geometric LS Means of Cmax for fluoxetine alone and fluoxetine + LY2216684||1.03|0.97|
92315516|NCT01243957|184535279|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.03|||||TWO_SIDED|90.0|1.0|1.07|||ANOVA|||Ratio of Geometric LS Means of Cmax for norfluoxetine alone and norfluoxetine + LY2216684.||1.07|1.00|
92315517|NCT01243957|184535280|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.08||||0.423|TWO_SIDED|90.0|-3.0|1.42|||Wilcoxon (Mann-Whitney)|||Ratio of Geometric LS Means of Tmax for fluoxetine alone and fluoxetine + LY2216684.||1.42|-3.00|0.4230
92315518|NCT01243957|184535280|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.0||||0.0293|TWO_SIDED|90.0|-6.5|-1.0|||Wilcoxon (Mann-Whitney)|||Ratio of Geometric LS Means of Tmax for norfluoxetine alone and norfluoxetine + LY2216684.||-1.00|-6.50|0.0293
92315519|NCT01891864|184535281|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin for the comparison of GP2015 with Enbrel with respect to PASI 75 response at Week 12 was based on response rates reported in two pivotal placebo controlled trials (Leonardi et al 2003; Papp et al 2005). Based on the observed effect size of 45-46%, an equivalence margin of 18% was chosen so that at least 60% of the treatment effect seen for Enbrel was maintained. A response rate of 49% was assumed for the comparator treatment Enbrel.|Risk Difference (RD)|-2.3|||||TWO_SIDED|95.0|-9.85|5.3||||||PASI 75 response rate (proportion of patients showing at least a 75% improvement in PASI) after the first 12 weeks of treatment (Treatment Period 1) was the primary endpoint to assess equivalence between GP2015 and Enbrel®. Therapeutic equivalence in terms of PASI75 could be concluded if the exact 95% confidence interval for the difference in the PASI75 rates is completely contained within the interval \[-18%; 18%\]. A logistic regression model was to be employed.||5.3|-9.85|
92315520|NCT01891864|184535282|NON_INFERIORITY_OR_EQUIVALENCE|A MMRM (Mixed Model Repeated Method) was performed on the percentage change from baseline in PASI score from baseline to Week 12. Therapeutic equivalence in terms of the % change from baseline in PASI score was to be determined if the 95% CI for the difference between GP2015 and Enbrel was contained within the interval \[-15%; 15%\].|Mean Difference (Final Values)|-0.64|||||TWO_SIDED|95.0|-3.474|2.204||||||||2.204|-3.474|
92191944|NCT00526097|184282734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-1.1|-0.8||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.8|-1.1|<0.0001
92191945|NCT00526097|184282735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.9|-0.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.5|-0.9|<0.0001
92191946|NCT00526097|184282736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|2.4|2.9||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||2.9|2.4|<0.0001
92315521|NCT01891864|184535282|NON_INFERIORITY_OR_EQUIVALENCE|The mean averaged treatment effect (ATE) of percent change from baseline in PASI score up to week 12 was derived for each patient and analyzed using an ANCOVA approach. Therapeutic equivalence in terms of the % change from baseline in PASI score was to be determined if the 95% CI for the difference between GP2015 and Enbrel was contained within the interval \[-15%; 15%\].|Mean Difference (Final Values)|-0.88|||||TWO_SIDED|95.0|-3.61|1.845||||||||1.845|-3.61|
92315522|NCT02059512|184535306|SUPERIORITY|||||||0.24|||||||Kruskal-Wallis|||||||0.24
92191947|NCT00526097|184282737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|2.1|2.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||2.7|2.1|<0.0001
92315523|NCT02059512|184535307|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||Length of hospital stay.||||0.1
92315524|NCT02059512|184535307|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||Length of stay in the intensive care unit.||||0.1
92315525|NCT02059512|184535308|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||||||0.4
92315526|NCT02059512|184535308|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||Analysis of leukocytes 0-6 hours of the postoperative period.||||0.8
92315527|NCT02059512|184535308|SUPERIORITY|||||||0.9|||||||Kruskal-Wallis|||Analysis of leukocytes 12-18 hours of the postoperative period.||||0.9
92315528|NCT02059512|184535308|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||Analysis of leukocytes 18-24 hours of the postoperative period.||||0.2
92315529|NCT02059512|184535308|SUPERIORITY|||||||0.5|||||||Kruskal-Wallis|||Analysis of leukocytes 48 hours of the postoperative period.||||0.5
92315530|NCT02059512|184535308|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Analysis of leukocytes 72 hours of the postoperative period.||||0.4
92315531|NCT02059512|184535308|SUPERIORITY|||||||0.6|||||||Kruskal-Wallis|||Analysis of leukocytes 96 hours of the postoperative period/||||0.6
92315532|NCT02059512|184535308|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Analysis of leukocytes 7 days of the postoperative period.||||0.4
92315533|NCT02059512|184535308|SUPERIORITY|||||||0.5|||||||Kruskal-Wallis|||Analysis of leukocytes 14 days of the postoperative period.||||0.5
92315534|NCT02059512|184535309|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||CRP initially.||||0.1
92315535|NCT02059512|184535309|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||CRP postoperative 4-6 days.||||0.4
92315536|NCT02059512|184535309|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||CRP postoperative 12-14 days.||||0.99
92315537|NCT02059512|184535310|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||The volume of discharge through the drains on the first day after surgery.||||0.2
92315538|NCT02059512|184535310|SUPERIORITY|||||||0.3|||||||RepeatedMeasures ANOVA|||The volume of discharge through the drains on the second day after the operation.||||0.3
92315539|NCT02059512|184535311|SUPERIORITY|||||||0.6|||||||Kruskal-Wallis|||Troponin I postoperative day 1.||||0.6
92315540|NCT02059512|184535311|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Troponin I postoperative day 3.||||0.4
92315541|NCT02059512|184535311|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||Myoglobin postoperative day 1.||||0.8
92315542|NCT02059512|184535311|SUPERIORITY|||||||0.7|||||||Kruskal-Wallis|||Myoglobin postoperative day 3.||||0.7
92315543|NCT02059512|184535312|SUPERIORITY|||||||0.7|||||||Kruskal-Wallis|||CPK-MB postoperative day 1.||||0.7
92315544|NCT02059512|184535312|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||CPK-MB postoperative day 3.||||0.8
92315545|NCT02059512|184535313|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||Hb intraoperatively before turning off the cardiopulmonary bypass(CPB).||||1.0
92315546|NCT02059512|184535313|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Hb at the end of the operation.||||0.4
92191948|NCT00526097|184282738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001||95.0|2.0|2.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||2.5|2.0|<0.0001
92191949|NCT00526097|184282739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001||95.0|1.7|2.3||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||2.3|1.7|<0.0001
92315547|NCT02059512|184535314|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||HCT intraoperatively before turning off the cardiopulmonary bypass (CPB).||||0.8
92315548|NCT02059512|184535314|SUPERIORITY|||||||0.3|||||||Kruskal-Wallis|||HCT at the end of the operation.||||0.3
92315549|NCT02059512|184535315|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||K+ intraoperatively before turning off the cardiopulmonary bypass (CPB).||||0.4
92191950|NCT00526097|184282740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.05||0.0002||95.0|-0.3|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.3|0.0002
92191951|NCT00526097|184282741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.05||0.0003||95.0|-0.3|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.3|0.0003
92191952|NCT00526097|184282742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.0127||95.0|-0.2|0.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.0|-0.2|0.0127
92315550|NCT02059512|184535315|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||K+ at the end of the operation.||||0.1
92191953|NCT00526097|184282743|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.06||0.0064||95.0|-0.3|0.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.0|-0.3|0.0064
92315551|NCT02059512|184535316|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||||||0.1
92315552|NCT02059512|184535317|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||||||0.1
92315553|NCT02059512|184535318|SUPERIORITY|||||||0.6|||||||Chi-squared|||Hydrothorax / postoperative period.||||0.6
92315554|NCT02059512|184535318|SUPERIORITY|||||||0.2|||||||Chi-squared|||Hydropericardium / postoperative period.||||0.2
92315555|NCT02059512|184535318|SUPERIORITY|||||||0.6|||||||Chi-squared|||Resternotomy / postoperative period.||||0.6
92315556|NCT02059512|184535318|SUPERIORITY|||||||0.06|||||||Chi-squared|||Atrial fibrillation / postoperative period.||||0.06
92191954|NCT00526097|184282744|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.9|-0.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.6|-0.9|<0.0001
92315557|NCT02059512|184535318|SUPERIORITY|||||||0.06|||||||Chi-squared|||Atrial flutter / postoperative period.||||0.06
92315558|NCT02059512|184535319|SUPERIORITY|||||||0.4|||||||RepeatedMeasures ANOVA|||||||0.4
92315559|NCT02059512|184535320|SUPERIORITY|||||||0.5|||||||RepeatedMeasures ANOVA|||Lvd ind. (Lvd mm./BSA kg / cm) - Evaluation of the left ventricular end-diastolic size index.||||0.5
92315560|NCT02059512|184535320|SUPERIORITY|||||||0.5|||||||RepeatedMeasures ANOVA|||Lvs ind. (Lvs mm./BSA kg / cm) - Evaluation of the left ventricular end-systolic size index.||||0.5
92315561|NCT02059512|184535320|SUPERIORITY|||||||0.6|||||||RepeatedMeasures ANOVA|||LAind. (LA mm./BSA kg / cm) - Left Atrial Size Index Assessment.||||0.6
92315562|NCT02059512|184535321|SUPERIORITY|||||||0.4|||||||RepeatedMeasures ANOVA|||LVEDV MOD BP ind. (LVEDV MOD BP ml./BSA kg / cm) - Evaluation of the left ventricular end-diastolic volume index.||||0.4
92315563|NCT02059512|184535321|SUPERIORITY|||||||0.3|||||||RepeatedMeasures ANOVA|||Evaluation of the left ventricular end-systolic volume index (LVESV MOD BP ind.)||||0.3
92315564|NCT02059512|184535322|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.6
92315565|NCT02059512|184535324|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Physical Functioning SF-36. Comparison of patients of group 1 and group 2 with the control group - group 0.||||0.7
92315566|NCT02059512|184535324|SUPERIORITY|||||||0.8|||||||RepeatedMeasures ANOVA|||Role-Physical Functioning SF-36||||0.8
92315567|NCT02059512|184535324|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Bodily pain SF-36||||0.7
92315568|NCT02059512|184535324|SUPERIORITY|||||||0.6|||||||RepeatedMeasures ANOVA|||General Health SF-36.||||0.6
92315569|NCT02059512|184535324|SUPERIORITY|||||||0.8|||||||RepeatedMeasures ANOVA|||Vitality SF-36.||||0.8
92315570|NCT02059512|184535324|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Social Functioning SF-36.||||0.7
92315571|NCT02059512|184535324|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Role- Emotional SF-36.||||0.7
92315572|NCT02059512|184535324|SUPERIORITY|||||||0.96|||||||RepeatedMeasures ANOVA|||Mental Health SF-36.||||0.96
92315573|NCT02059512|184535324|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Minnesota Quality of Life (MHFLQ).||||0.7
92315574|NCT02059512|184535324|SUPERIORITY|||||||0.6|||||||RepeatedMeasures ANOVA|||Seattle QuestionnairePhysical limitation.||||0.6
92315575|NCT02059512|184535324|SUPERIORITY|||||||0.4|||||||RepeatedMeasures ANOVA|||SeattleQuestionnaireAngina stability.||||0.4
92315576|NCT02059512|184535324|SUPERIORITY|||||||0.6|||||||RepeatedMeasures ANOVA|||SeattleQuestionnaireAngina frequency.||||0.6
92315577|NCT02059512|184535324|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||SeattleQuestionnaireTreatment satisfaction.||||0.7
92315578|NCT02059512|184535324|SUPERIORITY|||||||0.3|||||||RepeatedMeasures ANOVA|||SeattleQuestionnaire Disease perception.||||0.3
92191955|NCT00526097|184282745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-1.0|-0.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.6|-1.0|<0.0001
92191956|NCT00526097|184282746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.9|-0.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.5|-0.9|<0.0001
92191957|NCT00526097|184282747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.8|-0.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.5|-0.8|<0.0001
92191958|NCT00526097|184282748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|-0.2|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.2|<0.0001
92315579|NCT02059512|184535325|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
92315580|NCT02059512|184535326|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.13
92315581|NCT02059512|184535327|SUPERIORITY|||||||0.35|||||||RepeatedMeasures ANOVA|||||||0.35
92315582|NCT02059512|184535328|SUPERIORITY|||||||0.2|||||||RepeatedMeasures ANOVA|||Lvd ind. (Lvd mm./BSA) - left ventricular end-diastolic size index. All patients included in the study.||||0.2
92315583|NCT02059512|184535328|SUPERIORITY|||||||0.2|||||||RepeatedMeasures ANOVA|||Lvs ind. (Lvs mm./BSA kg / cm) - left ventricular end-systolic size index.||||0.2
92315584|NCT02059512|184535328|SUPERIORITY|||||||0.5|||||||RepeatedMeasures ANOVA|||LAind. (LA mm./BSA kg / cm) - left atrial index.||||0.5
92315585|NCT02059512|184535329|SUPERIORITY|||||||0.6|||||||RepeatedMeasures ANOVA|||LVEDV MOD BP ind. (LVEDV MOD BP ml./BSA kg / cm) - left ventricular end-diastolic volume index.||||0.6
92315586|NCT02059512|184535329|SUPERIORITY|||||||0.2|||||||RepeatedMeasures ANOVA|||LVESV MOD BP ind. (LVESV MOD BP ml./BSA kg / cm) - left ventricular end-systolic volume index.||||0.2
92315587|NCT02059512|184535330|SUPERIORITY|||||||0.35|||||||RepeatedMeasures ANOVA|||Peak E of transmitral flow||||0.35
92315588|NCT02059512|184535330|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Peak A of transmitral flow.||||0.7
92315589|NCT02059512|184535331|SUPERIORITY|||||||0.5|||||||RepeatedMeasures ANOVA|||Peak E of transmitral flow/ Peak A of transmitral flow (E/A).||||0.5
92315590|NCT02059512|184535332|SUPERIORITY|||||||0.9|||||||RepeatedMeasures ANOVA|||DT (Half-time of wave E).||||0.9
92315591|NCT02059512|184535332|SUPERIORITY|||||||0.9|||||||RepeatedMeasures ANOVA|||time of isovolumic relaxation of the left ventricle||||0.9
92315592|NCT02059512|184535333|SUPERIORITY|||||||0.0367|||||||Kruskal-Wallis|||||||0.0367
92315593|NCT02059512|184535334|SUPERIORITY|||||||0.04|||||||Chi-squared|||Assessment of the functioning of grafts. Patency of grafts within a specified time of treatment (angiography).||||0.04
92315594|NCT02059512|184535335|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92315595|NCT02059512|184535336|SUPERIORITY|||||||0.05|||||||Discriminant Analysis|||||||0.05
92315596|NCT02059512|184535337|SUPERIORITY|||||||0.05|||||||Discriminant Analysis|Data were analyzed by 1, 2, and 3 sections according to the study design.||Mononuclear fraction %||||0.05
92315597|NCT02059512|184535337|SUPERIORITY|||||||0.057|||||||Discriminant Analysis|Data were analyzed by 1, 2, and 3 sections according to the study design.||CD34+ %||||0.057
92315598|NCT02059512|184535337|SUPERIORITY|||||||0.05|||||||Discriminant Analysis|||CD133+ %||||0.05
92315599|NCT02059512|184535338|SUPERIORITY|||||||0.046|||||||Factor analysis|||Factor analysis - determining the influence of a factor, in this case, smoking, on the deficit in the number of meters passed according to the test with a 6-minute walk.||||0.046
92315600|NCT00803790|184535339|SUPERIORITY_OR_OTHER_LEGACY||least square mean ratio|1.01|||||TWO_SIDED|90.0|0.92|1.11||||||||1.11|0.92|
92315601|NCT00803790|184535340|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Ratio|0.94|||||TWO_SIDED|90.0|0.89|1.0||||||Least squares mean ratio for AUC 0-80 hr for vitamin D following administration of combination tablet and vitamin D alone. No correction for endogenous Vitamin D concentration pre-treatment was made in the analysis.||1.00|0.89|
92315602|NCT00803790|184535341|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Ratio|0.94|||||TWO_SIDED|90.0|0.88|1.0||||||"Least squares mean ratio for Cmax for vitamin D following administration of combination tablet and vitamin D alone.~No correction for endogenous Vitamin D concentration pre-treatment was made in the analysis."||1.00|0.88|
92315603|NCT04581824|184535362|OTHER||Difference in Response Rate|9.32|||||TWO_SIDED|80.0|1.46|17.18|||||Mantel and Haenszel method with Sato's variance estimator was used for between arms comparison and was stratified by PD-L1 status and smoking status based on the strata data collected in interactive response technology (IRT) at randomization|||17.18|1.46|
92315604|NCT01730053|184535429|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-34.2|||<|0.0001|TWO_SIDED|98.75|-49.2|-19.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Alirocumab group was compared to the corresponding active control group using an appropriate contrast statement.||-19.3|-49.2|<0.0001
92315605|NCT01730053|184535429|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-36.1|||<|0.0001|TWO_SIDED|98.75|-51.5|-20.7||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||As described in statistical analysis 1 of the endpoint.||-20.7|-51.5|<0.0001
92315606|NCT01730053|184535429|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.3|||=|0.0453|TWO_SIDED|98.75|-45.8|5.1||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||As described in statistical analysis 1 of the endpoint.||5.1|-45.8|=0.0453
92315607|NCT01730053|184535429|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.3|||=|0.0136|TWO_SIDED|98.75|-50.9|0.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||As described in statistical analysis 1 of the endpoint.||0.3|-50.9|=0.0136
92315608|NCT01730053|184535430|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.2|||<|0.0001|TWO_SIDED|98.75|-47.4|-23.0||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 1.25 % level.||-23.0|-47.4|<0.0001
92191959|NCT00526097|184282749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|-0.3|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.3|<0.0001
92191960|NCT00526097|184282750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|-0.2|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.2|<0.0001
92191961|NCT00526097|184282751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0018||95.0|-0.2|0.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.0|-0.2|0.0018
92191962|NCT00526097|184282752|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92191963|NCT00526097|184282753|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92191964|NCT00526097|184282754|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92315609|NCT01730053|184535430|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-33.2|||<|0.0001|TWO_SIDED|98.75|-45.9|-20.5||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-20.5|-45.9|<0.0001
92191965|NCT00526097|184282755|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92191966|NCT00526097|184282756|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92191967|NCT00526097|184282757|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92191968|NCT00526097|184282758|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92191969|NCT00526097|184282759|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92315610|NCT01730053|184535430|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-24.5|||=|0.0131|TWO_SIDED|98.75|-49.2|0.2||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||0.2|-49.2|=0.0131
92315611|NCT01730053|184535431|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.2|||<|0.0001|TWO_SIDED|98.75|-47.4|-17.9||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-17.9|-47.4|<0.0001
92315612|NCT01730053|184535431|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-32.2|||<|0.0001|TWO_SIDED|98.75|-47.0|-17.5||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-17.5|-47|<0.0001
92315613|NCT01730053|184535432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.3|||<|0.0001|TWO_SIDED|98.75|-48.2|-22.5||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-22.5|-48.2|<0.0001
92191970|NCT00526097|184282760|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92191971|NCT00526097|184282761|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92191972|NCT00526097|184282762|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92191973|NCT00526097|184282763|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
92191974|NCT00526097|184282764|SUPERIORITY_OR_OTHER|||||||0.6773|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||0.6773
92191975|NCT00526097|184282765|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||0.0002
92315614|NCT01730053|184535432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-32.3|||<|0.0001|TWO_SIDED|98.75|-45.6|-19.0||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-19.0|-45.6|<0.0001
92315615|NCT01730053|184535433|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-29.2|||<|0.0001|TWO_SIDED|98.75|-40.1|-18.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-18.3|-40.1|<0.0001
92315616|NCT01730053|184535433|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-26.8|||<|0.0001|TWO_SIDED|98.75|-37.9|-15.7||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.7|-37.9|<0.0001
92315617|NCT01730053|184535434|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-30.7|||<|0.0001|TWO_SIDED|98.75|-40.1|-21.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-21.3|-40.1|<0.0001
92315618|NCT01730053|184535434|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.3|||<|0.0001|TWO_SIDED|98.75|-38.0|-18.7||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-18.7|-38.0|<0.0001
92315619|NCT01730053|184535435|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-31.4|||<|0.0001|TWO_SIDED|98.75|-43.9|-18.9||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-18.9|-43.9|<0.0001
92315620|NCT01730053|184535435|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-29.3|||<|0.0001|TWO_SIDED|98.75|-42.1|-16.4||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-16.4|-42.1|<0.0001
92315621|NCT01730053|184535436|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-32.8|||<|0.0001|TWO_SIDED|98.75|-43.2|-22.4||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-22.4|-43.2|<0.0001
92191976|NCT00526097|184282766|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||0.0001
92315622|NCT01730053|184535436|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.2|||<|0.0001|TWO_SIDED|98.75|-39.1|-17.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-17.3|-39.1|<0.0001
92315623|NCT01730053|184535437|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.6|||<|0.0001|TWO_SIDED|98.75|-29.4|-11.8||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-11.8|-29.4|<0.0001
92315624|NCT01730053|184535437|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.3|||<|0.0001|TWO_SIDED|98.75|-29.3|-11.2||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.2|-29.3|<0.0001
92315625|NCT01730053|184535438|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.1|||<|0.0001|TWO_SIDED|98.75|-39.7|-16.5||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-16.5|-39.7|<0.0001
92315626|NCT01730053|184535438|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-24.0|||<|0.0001|TWO_SIDED|98.75|-35.7|-12.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.3|-35.7|<0.0001
92191977|NCT00526097|184282767|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||0.0005
92191978|NCT00526097|184282768|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Exact p-value|Wilcoxon rank sum test|||||||<0.0001
92191979|NCT00526097|184282769|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Exact p-value|Wilcoxon rank sum test|||||||<0.0001
92191980|NCT00526097|184282770|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Exact p-value|Wilcoxon rank sum test|||||||<0.0001
92315627|NCT01730053|184535439|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-29.5|||<|0.0001|TWO_SIDED|98.75|-42.1|-16.9||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-16.9|-42.1|<0.0001
92315628|NCT01730053|184535439|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-24.9|||<|0.0001|TWO_SIDED|98.75|-37.7|-12.2||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.2|-37.7|<0.0001
92315629|NCT01730053|184535440|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.1|||<|0.0001|TWO_SIDED|98.75|-29.4|-10.7||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-10.7|-29.4|<0.0001
92315630|NCT01730053|184535440|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-17.2|||<|0.0001|TWO_SIDED|98.75|-26.7|-7.7||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.7|-26.7|<0.0001
92315631|NCT01730053|184535441|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|12.4|||<|0.0001|TWO_SIDED|98.75|2.6|59.5||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||59.5|2.6|<0.0001
92315632|NCT01730053|184535441|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.4|||=|0.0007|TWO_SIDED|98.75|1.8|40.5||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||40.5|1.8|=0.0007
92315633|NCT01730053|184535442|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|15.6|||<|0.0001|TWO_SIDED|98.75|2.58|88.2||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||88.2|2.58|<0.0001
92191981|NCT00526097|184282771|SUPERIORITY_OR_OTHER|||||||0.0058||||||Exact p-value|Wilcoxon rank sum test|||||||0.0058
92315634|NCT01730053|184535442|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|9.9|||=|0.001|TWO_SIDED|98.75|1.7|56.7||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||56.7|1.7|=0.001
92315635|NCT01730053|184535443|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|18.6|||<|0.0001|TWO_SIDED|98.75|3.6|96.2||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||96.2|3.6|<0.0001
92315636|NCT01730053|184535443|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|11.6|||<|0.0001|TWO_SIDED|98.75|2.5|53.1||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||53.1|2.5|<0.0001
92315637|NCT01730053|184535444|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|20.3|||<|0.0001|TWO_SIDED|98.75|2.4|67.7||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||67.7|2.4|<0.0001
92315638|NCT01730053|184535444|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|12.7|||=|0.0002|TWO_SIDED|98.75|2.4|67.7||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||67.7|2.4|=0.0002
92315639|NCT01730053|184535445|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-23.9|||<|0.0001|TWO_SIDED|98.75|-38.6|-9.1||Threshold for significance ≤ 0.0125.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-9.1|-38.6|<0.0001
92315640|NCT01730053|184535445|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-23.6|||=|0.0001|TWO_SIDED|98.75|-39.0|-8.2||Threshold for significance ≤ 0.0125.|Regression, Robust|||Analysis description as per the statistical analysis 1 of this endpoint.||-8.2|-39.0|=0.0001
92191982|NCT00526097|184282772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|2.01||0.798||95.0|-3.4|4.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.5|-3.4|0.7980
92191983|NCT00526097|184282773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|2.05||0.6129||95.0|-3.0|5.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||5.1|-3.0|0.6129
92315641|NCT01730053|184535446|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|7.4|||=|0.0311|TWO_SIDED|98.75|-1.2|16.1||Threshold for significance ≤ 0.0125.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a robust regression model.||16.1|-1.2|=0.0311
92191984|NCT00526097|184282774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|2.31||0.3567||95.0|-2.4|6.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||6.7|-2.4|0.3567
92315642|NCT00813150|184535460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.196|TWO_SIDED|95.0|0.43|1.19|||Regression, Cox|||Null Hypothesis: The (median) time to progression is equal in both treatment groups||1.19|0.43|0.196
92315643|NCT00813150|184535461|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.196|TWO_SIDED|95.0|0.43|1.19|||Regression, Cox|||||1.19|0.43|0.196
92315644|NCT00813150|184535462|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.645|TWO_SIDED|95.0|0.41|1.73|||Regression, Cox|||||1.73|0.41|0.645
92191985|NCT00526097|184282775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|1.34||0.1407||95.0|-0.7|4.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.6|-0.7|0.1407
92191986|NCT00526097|184282776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3|STANDARD_ERROR_OF_MEAN|1.74||0.013||95.0|0.9|7.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||7.7|0.9|0.0130
92315645|NCT00813150|184535463|SUPERIORITY_OR_OTHER|||||||0.814|||||||Fisher Exact|||||||0.814
92315646|NCT05085834|184535464|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.71|STANDARD_ERROR_OF_MEAN|0.14|<|0.01|TWO_SIDED|95.0|0.43|0.98|||linear combination of coefficients|||effect of Zinc supplementation on ln(Zinc, μg/dL)||0.98|0.43|<0.01
92315647|NCT05085834|184535465|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.002|STANDARD_ERROR_OF_MEAN|0.29||1|TWO_SIDED|95.0|-0.57|0.57|||linear combination of coefficients|||effect of Zinc supplementation on ln(hsCRP ng/mL)||0.57|-0.57|1.00
92315648|NCT05085834|184535465|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.08|TWO_SIDED|95.0|-0.18|0.01|||linear combination of coefficients|||effect of Zinc supplementation on ln(sCD14, ng/mL)||0.01|-0.18|0.08
92315649|NCT05085834|184535465|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.03|STANDARD_ERROR_OF_MEAN|0.09||0.77|TWO_SIDED|95.0|-0.21|0.15|||linear combination of coefficients|||effect of Zinc supplementation on ln(sCD163, ng/mL)||0.15|-0.21|0.77
92315650|NCT05085834|184535465|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.2|STANDARD_ERROR_OF_MEAN|0.15||0.19|TWO_SIDED|95.0|-0.1|0.5|||linear combination of coefficients|||effect of Zinc supplementation on ln(D-dimer, ng/mL)||0.50|-0.10|0.19
92315651|NCT05085834|184535465|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.19|STANDARD_ERROR_OF_MEAN|0.11||0.1|TWO_SIDED|95.0|-0.41|0.04|||linear combination of coefficients|||effect of Zinc supplementation on ln(VCAM, ng/mL)||0.04|-0.41|0.10
92315652|NCT05085834|184535465|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.41|STANDARD_ERROR_OF_MEAN|20.19||0.98|TWO_SIDED|95.0|-39.16|39.98|||linear combination of coefficients|||effect of Zinc supplementation on ln(ICAM, ng/mL)||39.98|-39.16|0.98
92315653|NCT05085834|184535466|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.55|TWO_SIDED|95.0|-0.09|0.16|||linear combination of coefficients|||effect of Zinc supplementation on ln(sTNF-RI , pg/mL)||0.16|-0.09|0.55
92315654|NCT05085834|184535466|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.004|STANDARD_ERROR_OF_MEAN|0.07||0.95|TWO_SIDED|95.0|-0.13|0.13|||linear combination of coefficients|||effect of Zinc supplementation on ln(sTNF-RII, pg/m)||0.13|-0.13|0.95
92315655|NCT05085834|184535466|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.07|STANDARD_ERROR_OF_MEAN|0.19||0.73|TWO_SIDED|95.0|-0.3|0.43|||linear combination of coefficients|||effect of Zinc supplementation on ln(IL-6, pg/mL)||0.43|-0.30|0.73
92315656|NCT05085834|184535466|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.12|STANDARD_ERROR_OF_MEAN|0.18||0.48|TWO_SIDED|95.0|-0.22|0.47|||linear combination of coefficients|||effect of Zinc supplementation on ln(IP-10, pg/mL)||0.47|-0.22|0.48
92315657|NCT05085834|184535467|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|1819.18|STANDARD_ERROR_OF_MEAN|8530.03||0.83|TWO_SIDED|95.0|-14899.37|18537.74|||linear combination of coefficients|||effect of Zinc supplementation on ln(OxLDL, U/L)||18537.74|-14899.37|0.83
92315658|NCT05085834|184535468|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.84|TWO_SIDED|95.0|-0.12|0.15|||linear combination of coefficients|||effect of Zinc supplementation on ln(Non-HDL Cholesterol (mg/dL))||0.15|-0.12|0.84
92191987|NCT00526097|184282777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|2.14||0.5849||95.0|-3.0|5.3||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||5.3|-3.0|0.5849
92191988|NCT00526097|184282778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|1.94||0.7543||95.0|-3.2|4.4||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.4|-3.2|0.7543
92315659|NCT05085834|184535468|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.08|STANDARD_ERROR_OF_MEAN|0.06||0.18|TWO_SIDED|95.0|-0.19|0.04|||linear combination of coefficients|||effect of Zinc supplementation on ln(HDL (mg/dL))||0.04|-0.19|0.18
92315660|NCT05085834|184535468|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.02|STANDARD_ERROR_OF_MEAN|0.09||0.84|TWO_SIDED|95.0|-0.19|0.15|||linear combination of coefficients|||effect of Zinc supplementation on ln(LDL (mg/dL))||0.15|-0.19|0.84
92315661|NCT05085834|184535468|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.07|STANDARD_ERROR_OF_MEAN|0.11||0.55|TWO_SIDED|95.0|-0.15|0.29|||linear combination of coefficients|||effect of Zinc supplementation on ln(VLDL (mg/dL))||0.29|-0.15|0.55
92315662|NCT05085834|184535468|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.78|TWO_SIDED|95.0|-0.11|0.09|||linear combination of coefficients|||effect of Zinc supplementation on ln(Cholesterol (mg/dl))||0.09|-0.11|0.78
92315663|NCT05085834|184535468|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.07|STANDARD_ERROR_OF_MEAN|0.12||0.58|TWO_SIDED|95.0|-0.17|0.31|||linear combination of coefficients|||effect of Zinc supplementation on ln(Triglycerides (mg/dL))||0.31|-0.17|0.58
92315664|NCT05085834|184535468|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.44|STANDARD_ERROR_OF_MEAN|0.47||0.35|TWO_SIDED|95.0|-1.36|0.48|||linear combination of coefficients|||effect of Zinc supplementation on Metabolic Syndrome||0.48|-1.36|0.35
92315665|NCT05085834|184535469|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.06|STANDARD_ERROR_OF_MEAN|0.07||0.36|TWO_SIDED|95.0|-0.07|0.2|||linear combination of coefficients|||effect of Zinc supplementation on ln(Chol:HDL Ratio)||0.20|-0.07|0.36
92315666|NCT05085834|184535470|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.35|STANDARD_ERROR_OF_MEAN|2.01||0.86|TWO_SIDED|95.0|-4.29|3.6|||linear combination of coefficients|||effect of Zinc supplementation on BMI (kg/m2)||3.60|-4.29|0.86
92191989|NCT00526097|184282779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|1.58||0.0273||95.0|0.4|6.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||6.6|0.4|0.0273
92191990|NCT00526097|184282780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.87||0.129||95.0|-0.4|3.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||3.0|-0.4|0.1290
92315667|NCT05085834|184535471|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.74|TWO_SIDED|95.0|-0.08|0.05|||linear combination of coefficients|||effect of Zinc supplementation on ln(Waist-umbilicus (cm))||0.05|-0.08|0.74
92315668|NCT05085834|184535472|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-2.99|STANDARD_ERROR_OF_MEAN|12.23||0.81|TWO_SIDED|95.0|-26.97|20.99|||linear combination of coefficients|||effect of Zinc supplementation on Weight (lbs)||20.99|-26.97|0.81
92315669|NCT05085834|184535473|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.41|TWO_SIDED|95.0|-0.07|0.03|||linear combination of coefficients|||effect of Zinc supplementation on ln(Systolic blood pressure (mmHg))||0.03|-0.07|0.41
92191991|NCT00526097|184282781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.7||0.378||95.0|-0.8|2.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||2.0|-0.8|0.3780
92191992|NCT00526097|184282782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.6|-0.3||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.3|-0.6|<0.0001
92191993|NCT00526097|184282783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-1.0|-0.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.7|-1.0|<0.0001
92191994|NCT00526097|184282784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.007||95.0|-0.3|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.3|0.0070
92191995|NCT00526097|184282785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|-1.5|-1.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-1.0|-1.5|<0.0001
92191996|NCT00526097|184282786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.8|-0.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.5|-0.8|<0.0001
92191997|NCT01990313|184282797|SUPERIORITY|||||||0.038|||||||Mixed Models Analysis|||||||0.038
92191998|NCT02412111|184282799|SUPERIORITY||Least Square (LS) mean difference|0.3|||=|0.5846|TWO_SIDED|95.0|-0.8|1.4|||Mixed Model for Repeated Measures (MMRM)|||||1.4|-0.8|= 0.5846
92191999|NCT02412111|184282800|SUPERIORITY||Least square mean difference|0.8|||=|0.386|TWO_SIDED|95.0|-1.0|2.6|||Mixed models Repeated Measures (MMRM)|||||2.6|-1.0|= 0.3860
92192000|NCT02412111|184282801|SUPERIORITY||Least square mean difference|2.8|||=|0.1236|TWO_SIDED|95.0|-0.8|6.4|||Mixed models Repeated Measures (MMRM)|||||6.4|-0.8|= 0.1236
92192001|NCT02412111|184282802|SUPERIORITY||Least square mean difference|-5.8|||=|0.0216|TWO_SIDED|95.0|-10.7|-0.9|||Mixed models Repeated Measures (MMRM)|||||-0.9|-10.7|= 0.0216
92192002|NCT00510198|184282838|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|95.0||||The log-rank test was conducted at an alpha level of 0.05. The study was terminated early due to enrollment significantly below protocol expectation. Due to the low sample size and consequently low statistical power, no conclusion can be drawn.|Log Rank|||This is a log-rank test, which uses the time from randomization to first composite endpoint event to compare the risk of event between Access and Control arms.||||0.23
92192003|NCT00510198|184282839|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified non-inferiority margin was 7.5%|Risk Difference (RD)|4.7||||0.36|TWO_SIDED|95.0|-10.9|20.3||The study was terminated early due to enrollment significantly below protocol expectation. Due to the low sample size and consequently low statistical power, no conclusion can be drawn.|Two-sample test of proportions||The risk difference estimate is the difference between the Access Arm and Control arm.|||20.3|-10.9|0.36
92192004|NCT03214250|184282909|SUPERIORITY|One-sided|probability|0.577||||0.006|ONE_SIDED|95.0|0.417|||one-sided p-value|z-test|One-sided, one-sample z-test of the Kaplan-Meier estimate of the 1-year OS rate (and its standard error) against the historical rate of 35%||Each treatment arm was analyzed independently and compared to a historical 1-year OS reference rate of 35%.|||0.417|0.006
92192005|NCT03214250|184282909|SUPERIORITY|One-sided|probability|0.481||||0.062|ONE_SIDED|95.0|0.337|||one-sided p-value|z-test|One-sided, one-sample z-test of the Kaplan-Meier estimate of the 1-year OS rate (and its standard error) against the historical rate of 35%||Each treatment arm was analyzed independently and compared to a historical 1-year OS reference rate of 35%.|||0.337|0.062
92192006|NCT03214250|184282909|SUPERIORITY|One-sided|probability|0.413||||0.233|ONE_SIDED|95.0|0.27|||one-sided p-value|z-test|One-sided, one-sample z-test of the Kaplan-Meier estimate of the 1-year OS rate (and its standard error) against the historical rate of 35%||Each treatment arm was analyzed independently and compared to a historical 1-year OS reference rate of 35%.|||0.270|0.233
92192007|NCT02487251|184282916|EQUIVALENCE|Phase 1 sought to determine effect sizes. For Phase 2, sample size was set at 125 per arm which, with 20% attrition, would enable detection of small to medium effect sizes of d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes with a power of 80% and α = .05.|Mean Difference (Final Values)|-0.15||||0.34|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in BMIz is p = .34.|Mixed Models Analysis||The reported estimation parameter is the effect size (cohen's d) for the change in BMIz (particularly in the Phase 2 sample)|We tested change in BMIz for each of the four study arms/groups.||||.34
92192008|NCT02487251|184282917|EQUIVALENCE|Sample size was set at 125 per arm which, with 20% attrition, would enable detection of small to medium effect sizes of d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes with a power of 80% and α = .05. Phase 2 analyses included mixed modeling. Negative mean change values reflect a decrease in intake; positive values reflect an increase.|Mean Difference (Final Values)|-0.07||||0.62|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in observed fruit intake is p = .62.|Mixed Models Analysis||The reported estimation parameter is a standardized mean difference between the groups, specifically cohen's d.|We tested change in observed fruit intake for each of the two study arms/groups in Phase 2 and compared change between the usual care and intervention groups.||||.62
92268306|NCT00315328|184438859|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum tests were used to assess treatment group differences in the parent questionnaire subscale scores at 17 weeks - Adverse events subscale.||||0.70
92192009|NCT02487251|184282918|EQUIVALENCE|Sample size was set at 125 per arm which, with 20% attrition, would enable detection of small to medium effect sizes of d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes with a power of 80% and α = .05.|Mean Difference (Final Values)|0.4||||0.009|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in observed vegetable intake is p = .009.|Mixed Models Analysis|||We tested pre to post change in observed vegetable intake for each of the two study arms/groups in Phase 2 and compared change between the usual care and intervention groups. Positive Observed dietary quality data was not collected in Phase 1.||||.009
92192010|NCT02487251|184282919|EQUIVALENCE|Phase 1 sought to determine effect sizes. For Phase 2, sample size was set at 125 per arm which, with 20% attrition, enabled detection of small-medium effect sizes, d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes, power of 80%, α = .05. Phase 1 analyses included paired t-tests \& examination of pre-post effect size change. Phase 2 analyses included mixed modeling. Negative mean change values reflect a decrease in intake; positive values reflect an increase.|Mean Difference (Final Values)|0.15||||0.21|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in parent reported fruit is p = .21.|Mixed Models Analysis||The reported estimation parameter is a standardized mean difference between the groups, specifically cohen's d.|We tested pre to post change in parent reported child fruit intake for each of the four study arms/groups.||||.21
92192011|NCT02487251|184282920|EQUIVALENCE|Phase 1 sought to determine effect sizes. For Phase 2, sample size was set at 125 per arm which, with 20% attrition, enabled detection of small-medium effect sizes, d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes, power of 80%, α = .05. Phase 1 analyses included paired t-tests \& examination of pre-post effect size change. Phase 2 analyses included mixed modeling. Negative mean change values reflect a decrease in intake; positive values reflect an increase.|Mean Difference (Final Values)|0.07||||0.55|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in parent reported vegetables is p = .55.|Mixed Models Analysis||The reported estimation parameter is a standardized mean difference between the groups, specifically cohen's d.|We tested change in vegetable intake for each of the four study arms/groups.||||.55
92192012|NCT02487251|184282921|EQUIVALENCE|Phase 1 sought to determine effect sizes. For Phase 2, sample size was set at 125 per arm which, with 20% attrition, would enable detection of small to medium effect sizes of d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes with a power of 80% and α = .05.|Mean Difference (Final Values)|-0.02||||0.84|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in mealtime frequency is p = .84.|Mixed Models Analysis|||We tested change in frequency of family mealtimes for each of the four study arms/groups.||||.84
92315670|NCT05085834|184535473|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-1.68|STANDARD_ERROR_OF_MEAN|2.06||0.42|TWO_SIDED|95.0|-5.71|2.36|||linear combination of coeff|||effect of Zinc supplementation on Diastolic blood pressure (mmHg)||2.36|-5.71|0.42
92192013|NCT02845375|184282924|SUPERIORITY|||||||0.299|||||||ANCOVA|||||||0.299
92192014|NCT01951261|184282938|NON_INFERIORITY|sample size calculation was made, considering it appropriate to set a limit of non-inferiority with respect to the main variable of 1.2 months (36 days), the study being lower if it will have exacerbation before this period of time, with a follow-up of 6 months, It was required to include a sample of 58 patients per group for a potency of 80% and a significance level of 5%.|||||<|0.05||||||The reported p-value was calculated.Statistical analysis of the main variable was performed using the Kaplan-Meier method and log-rank test|Log Rank|||||||<0.05
92192015|NCT04098497|184282951|OTHER|||||||0.09|||||||t-test, 2 sided|t = 1.74, df = 28||baseline to day 42 comparison||||0.09
92192016|NCT04098497|184282952|OTHER|||||||0.09|||||||t-test, 2 sided|t = 1.75, df = 28||baseline to day 42||||0.09
92192017|NCT04098497|184282953|SUPERIORITY|||||||0.13|||||||Regression, Linear|β = 0.14, z = 1.51||Mean difference between receiving the intervention and not receiving the intervention at each time point.||||0.13
92192018|NCT04098497|184282954|SUPERIORITY|||||||0.007|||||||Regression, Linear|β = 0.38, z = 2.71||Mean difference between receiving the intervention and not receiving the intervention at each time point.||||0.007
92192019|NCT04098497|184282955|SUPERIORITY|||||||0.57|||||||Regression, Linear|β = 0.03, z = 0.58||Mean difference between receiving the intervention and not receiving the intervention at each time point.||||0.57
92192020|NCT04098497|184282956|SUPERIORITY|||||||0.25|||||||Regression, Linear|β = 0.06, z = 1.15||Mean difference between receiving the intervention and not receiving the intervention at each time point.||||0.25
92192021|NCT03455218|184282957|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
92192022|NCT03455218|184282959|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.30
92192023|NCT03455218|184282960|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
92192024|NCT03455218|184282961|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.002
92192025|NCT03455218|184282962|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92192026|NCT03455218|184282963|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92192027|NCT03455218|184282964|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
92192028|NCT03455218|184282966|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
92192029|NCT03455218|184282967|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
92192030|NCT03455218|184282968|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
92192031|NCT03455218|184282969|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
92192032|NCT03455218|184282970|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
92192033|NCT03455218|184282971|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
92192034|NCT03455218|184282972|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
92315671|NCT05085834|184535474|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.04|STANDARD_ERROR_OF_MEAN|0.11||0.7|TWO_SIDED|95.0|-0.26|0.17|||linear combination of coefficients|||effect of Zinc supplementation on ln(10 year ASCVD (%))||0.17|-0.26|0.70
92315672|NCT05085834|184535475|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.62|TWO_SIDED|95.0|-0.17|0.1|||linear combination of coefficients|||effect of Zinc supplementation on Reactive Hyperemic Index||0.10|-0.17|0.62
92315673|NCT05085834|184535475|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.59|STANDARD_ERROR_OF_MEAN|2.43||0.81|TWO_SIDED|95.0|-4.19|5.36|||linear combination of coefficients|||effect of Zinc supplementation on Augmentation Index||5.36|-4.19|0.81
92315674|NCT05085834|184535476|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.02|STANDARD_ERROR_OF_MEAN|0.14||0.9|TWO_SIDED|95.0|-0.26|0.3|||linear combination of coefficients|||effect of Zinc supplementation on ln(IFAB (pg/mL))||0.30|-0.26|0.90
92315675|NCT05085834|184535476|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.18|STANDARD_ERROR_OF_MEAN|0.15||0.24|TWO_SIDED|95.0|-0.12|0.47|||linear combination of coefficients|||effect of Zinc supplementation on ln(BDG (pg/mL))||0.47|-0.12|0.24
92315676|NCT05085834|184535477|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.69|TWO_SIDED|95.0|-0.21|0.32|||v|||effect of Zinc supplementation on ln(LBP (ng/mL))||0.32|-0.21|0.69
92315677|NCT05085834|184535477|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.09|STANDARD_ERROR_OF_MEAN|0.13||0.49|TWO_SIDED|95.0|-0.16|0.34|||linear combination of coefficients|||effect of Zinc supplementation on ln(Zonulin (ng/mL)||0.34|-0.16|0.49
92192035|NCT03569475|184282980|SUPERIORITY||Least Square Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|1.41||0.2215|TWO_SIDED|95.0|-4.49|1.04|||Mixed Model for Repeated Measures||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and Baseline and Baseline-by-visit as covariates using an unstructured covariance matrix.|||1.04|-4.49|0.2215
92192036|NCT03569475|184282980|SUPERIORITY||Least Square Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.41||0.1964|TWO_SIDED|95.0|-4.59|0.95|||Mixed Model for Repeated Measures||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and Baseline and Baseline-by-visit as covariates using an unstructured covariance matrix.|||0.95|-4.59|0.1964
92192037|NCT03569475|184282981|SUPERIORITY||Least Square Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.6789|TWO_SIDED|95.0|-0.32|0.21|||Mixed Model for Repeated Measures||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and Baseline and Baseline-by-visit as covariates using an unstructured covariance matrix.|||0.21|-0.32|0.6789
92315678|NCT01662635|184535488|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Continuous variables were summarized as arithmetic means, medians and standard deviations; and categorical variables were reported as proportions with 95% confidence intervals. Inferential comparisons were performed using Student's t test. The x2 or Fisher's exact tests were used to assess significance among categorical variables.||||< 0.05
92315679|NCT01217112|184535489|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.044||0.766|TWO_SIDED|90.0|-0.09|0.06|||ANCOVA|||Data was analysed by analysis of covariance (ANCOVA). The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.06|-0.09|0.766
92192038|NCT03569475|184282981|SUPERIORITY||Least Square Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1126|TWO_SIDED|95.0|-0.48|0.05|||Mixed Model for Repeated Measures|||||0.05|-0.48|0.1126
92192039|NCT02630706|184282982|SUPERIORITY|Constrained longitudinal data analysis (cLDA)|Difference in the LSM vs. placebo|-0.69|||<|0.001|TWO_SIDED|95.0|-0.85|-0.52||cLDA model with fixed effects for treatment, time, anti-AHA status at Screening (metformin alone, metformin + another AHA), country (China, other), baseline eGFR (continuous) and the interaction of time by treatment.|cLDA|Least squares means = LSM||The primary hypothesis of the study was the mean change from baseline in HbA1c for 15 mg ertugliflozin is greater than that for placebo.||-0.52|-0.85|<0.001
92192040|NCT02630706|184282982|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-AHA status at Screening (metformin alone, metformin + another AHA), country (China, other), baseline eGFR (continuous) and the interaction of time by treatment.|Difference in the LS Means vs. Placebo|-0.8|||<|0.001|TWO_SIDED|95.0|-0.97|-0.63|||cLDA|||The primary hypothesis of the study was the mean change from baseline in HbA1c for 5 mg ertugliflozin is greater than that for placebo.||-0.63|-0.97|<0.001
92192041|NCT02630706|184282983|SUPERIORITY||Difference in the LSM vs. placebo|-0.68|||<|0.001|TWO_SIDED|95.0|-0.86|-0.5||cLDA model with fixed effects for treatment, time, anti-AHA status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment.|cLDA|||||-0.50|-0.86|<0.001
92268307|NCT00315328|184438860|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||||95.0|-0.03|0.17||||||95% confidence interval constructed on the treatment group difference in proportion with amblyopic eye visual acuity 20/25 or better at 17 weeks.||0.17|-0.03|
92268308|NCT00315328|184438862|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||||95.0|-0.02|0.18||||||95% confidence interval constructed on the treatment group difference of the proportion improving 15 or more letters from baseline to 17 weeks.||0.18|-0.02|
92268309|NCT00315328|184438863|NON_INFERIORITY_OR_EQUIVALENCE|Treatment equivalence was to be declared if the ends of the 2 1-sided 95% confidence intervals constructed on the difference between adjusted mean visual acuity scores were completely contained within the designated equivalence interval of +/- 5 letters.|Mean Difference (Net)|1.2||||||95.0|-0.7|3.1|||ANCOVA|||The trial was designed to evaluate whether patching and atropine are equivalent treatments for amblyopia in children 7 to 12 years old. The sample size was computed based on a standard deviation of 17-week visual acuity scores of 10 letters, correlation between outcome and baseline visual acuity scores of 0.30 and 10% loss to follow up.||3.1|-0.7|
92268310|NCT00315328|184438866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|||||TWO_SIDED|95.0|0.4|2.2|||ANCOVA|||95% confidence interval constructed on the treatment group difference of mean change in fellow eye visual acuity from baseline to 17 weeks, adjusted for baseline fellow eye visual acuity.||2.2|0.4|
92268311|NCT00826176|184438868|SUPERIORITY_OR_OTHER||upper limit of tolerance interval (min.)|6.4||||||95.0|||||||The tolerance interval (TI) refers to a fixed proportion (in this trial set to 95%) of the population with a stated confidence (in this trial, 95%). Efficacy was to be claimed in case the upper limit of TI was below the prespecified margin of 10 min.|||||
92268312|NCT00826176|184438868|SUPERIORITY_OR_OTHER||upper limit of tolerance interval (min.)|3.2||||||95.0|||||||The tolerance interval (TI) refers to a fixed proportion (in this trial set to 95%) of the population with a stated confidence (in this trial, 95%). Efficacy was to be claimed in case the upper limit of TI was below the prespecified margin of 10 min.|||||
92268313|NCT00826176|184438868|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence between the two subject populations was to be claimed in the event that the two-sided 95% confidence interval was entirely within the interval ranging from -60 to +60 seconds.|median difference (seconds)|49.0||||||95.0|30.0|72.0|||||The estimated median difference (Chinese minus Caucasian) in time to recovery of the T4/T1 ratio to 0.9.|||72|30|
92268314|NCT00448630|184438873|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||We hypothesize that atypical antipsychotic therapy effects the metabolic syndrome parameters, particularly body mass index.||||<0.001
92268315|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.49||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.490
92268316|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
92268317|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.006
92268318|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
92268319|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.003
92268320|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
92268321|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.050
92268322|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0012
92268323|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0078||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0078
92268324|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0001
92268325|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0133||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0133
92268326|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0142||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0142
92268327|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0265||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0265
92268328|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1613||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1613
92268329|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2644||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2644
92268330|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||5e-06||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.000005
92268331|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7385||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7385
92268332|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||||||1.0000
92268333|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6813||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6813
92268334|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0024||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0024
92268335|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2237||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2237
92268336|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5774||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5774
92268337|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||1e-06||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.000001
92268338|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2502||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2502
92192042|NCT02630706|184282983|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-AHA status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment.|Difference in the LS Means vs. Placebo|-0.76|||<|0.001|TWO_SIDED|95.0|-0.95|-0.58|||cLDA|||||-0.58|-0.95|<0.001
92192043|NCT02630706|184282984|OTHER||Difference in % vs. Placebo|-6.0|||||TWO_SIDED|95.0|-16.5|4.6|||||||Miettinen-Nurminen method|4.6|-16.5|
92192044|NCT02630706|184282984|OTHER||Difference in % vs. Placebo|-2.8|||||TWO_SIDED|95.0|-13.3|7.7|||||||Miettinen-Nurminen method|7.7|-13.3|
92192045|NCT02630706|184282985|OTHER||Difference in % vs. Placebo|-8.9|||||TWO_SIDED|95.0|-20.5|3.0|||||||Miettinen-Nurminen method|3.0|-20.5|
92192046|NCT02630706|184282985|OTHER||Difference in % vs. Placebo|-4.8|||||TWO_SIDED|95.0|-16.5|6.9|||||||Miettinen-Nurminen method|6.9|-16.5|
92192047|NCT02630706|184282988|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-27.78|||<|0.001|TWO_SIDED|95.0|-33.85|-21.7|||cLDA|||||-21.70|-33.85|<0.001
92192048|NCT02630706|184282988|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-30.4|||<|0.001|TWO_SIDED|95.0|-36.45|-24.35|||cLDA|||||-24.35|-36.45|<0.001
92192049|NCT02630706|184282989|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-26.21|||<|0.001|TWO_SIDED|95.0|-32.41|-20.01|||cLDA|||||-20.01|-32.41|<0.001
92192050|NCT02630706|184282989|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-28.55|||<|0.001|TWO_SIDED|95.0|-34.67|-22.43|||cLDA|||||-22.43|-34.67|<0.001
92268339|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5224||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5224
92268340|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0001
92268341|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0002
92268342|NCT00448630|184438874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8166||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8166
92268343|NCT00448630|184438875|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||We hypothesize that atypical antipsychotic therapy effects the metabolic syndrome parameters, particularly body mass index.||||<0.001
92268344|NCT00448630|184438876|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||<0.001
92268345|NCT00448630|184438877|SUPERIORITY_OR_OTHER_LEGACY|||||||0.544||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||0.544
92268346|NCT00448630|184438878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.245||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||0.245
92268347|NCT00448630|184438879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.362||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||0.362
92268348|NCT00448630|184438880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.176||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||0.176
92268349|NCT00448630|184438881|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||<0.001
92268350|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.524||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.524
92268351|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
92268352|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.005
92268353|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
92268354|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.009
92268355|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
92268356|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.047
92268357|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0007
92268358|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0057||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0057
92268359|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||9e-05||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.00009
92192051|NCT02630706|184282990|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-2.0|||<|0.001|TWO_SIDED|95.0|-2.51|-1.5|||cLDA|||||-1.50|-2.51|<0.001
92192052|NCT02630706|184282990|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-1.78|||<|0.001|TWO_SIDED|95.0|-2.28|-1.28|||cLDA|||||-1.28|-2.28|<0.001
92192053|NCT02630706|184282991|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-2.05|||<|0.001|TWO_SIDED|95.0|-2.63|-1.21|||cLDA|||||-1.21|-2.63|<0.001
92192054|NCT02630706|184282991|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-1.79|||<|0.001|TWO_SIDED|95.0|-2.36|-1.21|||cLDA|||||-1.21|-2.36|<0.001
92192055|NCT02630706|184282992|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|4.56|||<|0.001|TWO_SIDED|95.0|2.49|8.35|||Logistic regression model|||||8.35|2.49|<0.001
92192056|NCT02630706|184282992|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|4.59|||<|0.001|TWO_SIDED|95.0|2.52|8.36|||Logistic regression model|||||8.36|2.52|<0.001
92192057|NCT02630706|184282993|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|4.49|||<|0.001|TWO_SIDED|95.0|2.32|8.68|||Logistic regression model|||||8.68|2.32|<0.001
92192058|NCT02630706|184282993|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|3.47|||<|0.001|TWO_SIDED|95.0|1.77|6.8|||Logistic regression model|||||6.80|1.77|<0.001
92192059|NCT02630706|184282994|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-4.09|||<|0.001|TWO_SIDED|95.0|-6.48|-1.69|||cLDA|||||-1.69|-6.48|<0.001
92192060|NCT02630706|184282994|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-5.3|||<|0.001|TWO_SIDED|95.0|-7.68|-2.92|||cLDA|||||-2.92|-7.68|<0.001
92192061|NCT02630706|184282995|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-2.64||||0.058|TWO_SIDED|95.0|-5.36|0.09|||cLDA|||||0.09|-5.36|0.058
92192062|NCT02630706|184282995|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-4.08||||0.003|TWO_SIDED|95.0|-6.78|-1.39|||cLDA|||||-1.39|-6.78|0.003
92268360|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0201||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0201
92268361|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0095||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0095
92268362|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0386||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0386
92268363|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1976||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1976
92268364|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2383||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2383
92268365|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||2e-05||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.00002
92268366|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8297||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8297
92268367|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9081||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9081
92268368|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7386||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7386
92268369|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0024||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0024
92268370|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2587||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2587
92268371|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6263||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6263
92268372|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||1e-06||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.000001
92268373|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2589||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2589
92268374|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5153||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5153
92268375|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0003
92192063|NCT02630706|184282996|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-1.4||||0.086|TWO_SIDED|95.0|-3.0|0.2|||cLDA|||||0.20|-3.00|0.086
92192064|NCT02630706|184282996|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-1.42||||0.081|TWO_SIDED|95.0|-3.01|0.17|||cLDA|||||0.17|-3.01|0.081
92192065|NCT02630706|184282997|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-0.95||||0.315|TWO_SIDED|95.0|-2.8|0.9|||cLDA|||||0.90|-2.80|0.315
92192066|NCT02630706|184282997|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-1.0||||0.282|TWO_SIDED|95.0|-2.83|0.83|||cLDA|||||0.83|-2.83|0.282
92192067|NCT02630706|184282998|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|8.9||||0.001|TWO_SIDED|95.0|2.46|32.22||Nominal p-values were provided.|Logistic regression model|||||32.22|2.46|0.001
92192068|NCT02630706|184282998|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|10.69|||<|0.001|TWO_SIDED|95.0|2.95|38.71||Nominal p-values were provided.|Logistic regression model|||||38.71|2.95|<0.001
92192069|NCT02630706|184282999|SUPERIORITY|Adjusted Odds Ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|8.34|||<|0.001|TWO_SIDED|95.0|2.52|27.6||Nominal p-values were provided.|Logistic regression model|||||27.60|2.52|<0.001
92192070|NCT02630706|184282999|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment, anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|8.29|||<|0.001|TWO_SIDED|95.0|2.44|28.11||Nominal p-values were provided.|Logistic regression model|||||28.11|2.44|<0.001
92192071|NCT02630706|184283000|OTHER||Difference in % (Ert. 15 mg. - placebo)|-9.0|||<|0.001||95.0|-14.5|-5.0|||Miettinen & Nurminen method|Miettinen \& Nurminen method stratified by country ('China' or 'other') for the overall population.||||-5.0|-14.5|<0.001
92192072|NCT02630706|184283000|OTHER||Difference in % (Ert. 5 mg. - placebo)|-8.4|||<|0.001|TWO_SIDED|95.0|-14.0|-4.4|||Miettinen & Nurminen method|Miettinen \& Nurminen method stratified by country ('China' or 'other') for the overall population.||||-4.4|-14.0|<0.001
92192073|NCT02630706|184283001|OTHER||Difference in % (Ert. 15 mg. - placebo)|-8.9||||0.001||95.0|-15.1|-4.2|||Miettinen & Nurminen method|||||-4.2|-15.1|0.001
92192074|NCT02630706|184283001|OTHER||Difference in % (Ert. 5 mg. - placebo)|-9.6|||<|0.001|TWO_SIDED|95.0|-15.8|-5.7|||Miettinen & Nurminen method|||||-5.7|-15.8|<0.001
92192075|NCT00702273|184283025|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin of -8%|Risk Difference (RD)|2.4|||||TWO_SIDED|95.0|-2.6|7.4||||||Treatment groups were compared with a generalized linear model including covariates treatment group, age class and region.||7.4|-2.6|
92192076|NCT02820298|184283034|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Ratio of Geometric LSM|131.41|||||TWO_SIDED|90.0|117.03|147.56|||||Ratio of Geometric LSM is the ratio of exponentiated mean difference of log-transformed PK parameter. Confidence interval from ANOVA (linear mixed-effects model) with treatment, period, and sequence as fixed effects, and subject as a random effect.|||147.56|117.03|
92192077|NCT02820298|184283036|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Ratio of Geometric LSM|110.29|||||TWO_SIDED|90.0|103.91|117.06|||||Ratio of Geometric LSM is the ratio of exponentiated mean difference of log-transformed PK parameter. Confidence interval from ANOVA (linear mixed-effects model) with treatment, period, and sequence as fixed effects, and subject as a random effect.|||117.06|103.91|
92268376|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0005
92268377|NCT00448630|184438882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8952||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8952
92268378|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.197||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.197
92268379|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.010
92268380|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.012
92268381|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
92192078|NCT02820298|184283037|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Ratio of Geometric LSM|108.34|||||TWO_SIDED|90.0|102.48|114.54|||||Ratio of Geometric LSM is the ratio of exponentiated mean difference of log-transformed PK parameter. Confidence interval from ANOVA (linear mixed-effects model) with treatment, period, and sequence as fixed effects, and subject as a random effect.|||114.54|102.48|
92192079|NCT01894256|184283039|SUPERIORITY_OR_OTHER||Geometric least squares means ratio|1.15|||||TWO_SIDED|90.0|1.04|1.27|||||GLS mean for Mild Renal Impairment group vs GLS mean for Normal Renal Function|Null hypothesis: There are no clinically significant differences in the PK of olaparib when administered to patients with moderate or mild renal impairment compared to patients with normal renal function.||1.27|1.04|
92192080|NCT01894256|184283039|SUPERIORITY_OR_OTHER||Geometric least squares means ratio|1.26|||||TWO_SIDED|90.0|1.06|1.48|||||GLS mean for Moderate Renal Impairment group vs GLS mean for Normal Renal Function|Null hypothesis: There are no clinically significant differences in the PK of olaparib when administered to patients with moderate or mild renal impairment compared to patients with normal renal function.||1.48|1.06|
92192081|NCT01894256|184283040|SUPERIORITY_OR_OTHER||Geometric least squares means ratio|1.24|||||TWO_SIDED|90.0|1.06|1.47|||||GLS mean for Mild Renal Impairment group vs GLS mean for Normal Renal Function|Null hypothesis: There are no clinically significant differences in the PK of olaparib when administered to patients with moderate or mild renal impairment compared to patients with normal renal function.||1.47|1.06|
92192082|NCT01894256|184283040|SUPERIORITY_OR_OTHER||Geometric least squares means ratio|1.44|||||TWO_SIDED|90.0|1.1|1.89|||||GLS mean for Moderate Renal Impairment group vs GLS mean for Normal Renal Function|Null hypothesis: There are no clinically significant differences in the PK of olaparib when administered to patients with moderate or mild renal impairment compared to patients with normal renal function.||1.89|1.10|
92192083|NCT00645099|184283056|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||Based on available data it was estimated that in the paliperidone ER group the TG:HDL ratio would decrease with 0.15 and that the TG:HDL ratio would increase with 0.25 in the olanzapine group. The common SD of the change was estimated to be 1.4. A sample size of 205 patients in each treatment arm had 80% power to detect a difference of 0.4 in change of TG:HDL ratio after 6 months of treatment in favor of paliperidone ER treatment (Wilcoxon two-sample test with 0.05 two-sided significance level).||||< 0.0001
92192084|NCT00645099|184283056|SUPERIORITY_OR_OTHER|||||||0.4718||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group comparison of the change from baseline at end point.||||0.4718
92192085|NCT00645099|184283056|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline at end point.||||< 0.0001
92192086|NCT00645099|184283057|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||<0.0001
92192087|NCT00645099|184283057|SUPERIORITY_OR_OTHER|||||||0.9143||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||0.9143
92192088|NCT00645099|184283057|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||<0.0001
92192089|NCT00645099|184283058|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.0050
92192090|NCT00645099|184283058|SUPERIORITY_OR_OTHER|||||||0.4454||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||0.4454
92192091|NCT00645099|184283058|SUPERIORITY_OR_OTHER|||||||0.0018||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||0.0018
92192092|NCT00645099|184283059|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||<0.0001
92192093|NCT00645099|184283060|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.0004
92192094|NCT00645099|184283061|SUPERIORITY_OR_OTHER|||||||0.0272||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.0272
92192095|NCT00645099|184283062|SUPERIORITY_OR_OTHER|||||||0.1892||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.1892
92192096|NCT00645099|184283063|SUPERIORITY_OR_OTHER|||||||0.0325||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.0325
92192097|NCT00645099|184283064|SUPERIORITY_OR_OTHER|||||||0.1117||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.1117
92192098|NCT00645099|184283065|SUPERIORITY_OR_OTHER|||||||0.6346||95.0|||||Fisher Exact|This test was interpreted at the 5% significance level (2-tailed).||||||0.6346
92192099|NCT00645099|184283066|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|This test was interpreted at the 5% significance level (2-tailed).||||||1.0000
92192100|NCT00645099|184283067|SUPERIORITY_OR_OTHER|||||||0.677||95.0|||||Fisher Exact|This test was interpreted at the 5% significance level (2-tailed).||||||0.6770
92192101|NCT00645099|184283068|SUPERIORITY_OR_OTHER|||||||0.1308||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.1308
92192102|NCT00645099|184283069|SUPERIORITY_OR_OTHER|||||||0.3358||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.3358
92192103|NCT00645099|184283070|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||<0.0001
92192104|NCT00645099|184283070|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||0.0001
92192105|NCT00645099|184283070|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||< 0.0001
92192106|NCT00645099|184283071|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||<0.0001
92192107|NCT00645099|184283072|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||<0.0001
92315680|NCT01217112|184535489|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.043||0.424|TWO_SIDED|90.0|-0.04|0.11|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.11|-0.04|0.424
92315681|NCT01217112|184535489|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.041||0.412|TWO_SIDED|90.0|-0.1|0.04|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.04|-0.10|0.412
92315682|NCT01217112|184535489|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.043||0.668|TWO_SIDED|90.0|-0.05|0.09|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.09|-0.05|0.668
92315683|NCT01217112|184535490|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.046||0.978|TWO_SIDED|90.0|-0.08|0.08|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.08|-0.08|0.978
92315684|NCT01217112|184535490|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.045||0.864|TWO_SIDED|90.0|-0.08|0.07|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.07|-0.08|0.864
92192108|NCT00645099|184283073|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Fisher Exact|This test was interpreted at the 5% significance level (2-tailed).||||||0.0230
92192109|NCT00645099|184283074|NON_INFERIORITY_OR_EQUIVALENCE|Testing non-inferiority of the paliperidone ER treatment group compared to the olanzapine treatment group, with regard to change versus baseline at end point of the total PANSS was done by means of Schuirmann's test. A difference of 6 points in change versus baseline on the total PANSS was considered to be a minimum clinically relevant difference.The null hypothesis is that there is no difference between paliperidone and olanzapine in change in TG:HDL ratio from baseline to endpoint.||||||0.0242||95.0|||||Schuirmann|The null hypothesis of non-equivalence was rejected and equivalence to within the specified equivalence bounds could be claimed.||||||0.0242
92192110|NCT00645099|184283074|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||<0.0001
92192111|NCT00645099|184283074|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||<0.0001
92192112|NCT01201915|184283075|SUPERIORITY_OR_OTHER|||||||0.8463|||||||1-sided exact binomial test|||The null hypothesis was that percentage of participants with complete histologic clearance was 50% or less.||||0.8463
92192113|NCT01201915|184283075|SUPERIORITY_OR_OTHER|||||||0.9668|||||||1-sided exact binomial test|||The null hypothesis was that percentage of participants with complete histologic clearance was 30% or less.||||0.9668
92192114|NCT01201915|184283075|SUPERIORITY_OR_OTHER|||||||0.7878|||||||1-sided exact binomial test|||The null hypothesis was that percentage of participants with complete histologic clearance was 50% or less.||||0.7878
92192115|NCT00663923|184283100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.1|<|0.05|TWO_SIDED|95.0|-0.62|-0.001||two - tailed p value \<0.05 were considered statistically significant.|t-test, 2 sided|in this study degrees of freedom is sample size - 1||||-.001|-.62|<0.05
92192116|NCT03859622|184283109|OTHER|Frequencies and percentages for categorical data.||||||||||||Standard methods are used for the description of data (frequencies and percentages for categorical data)||||Standard methods are used for the description of data (frequencies and percentages for categorical data)|Standard methods are used for the description of data (frequencies and percentages for categorical data)|||
92192117|NCT00092521|184283148|SUPERIORITY_OR_OTHER||Percent relative risk reduction|100.0||||||95.0|95.1|100.0|||||Confidence Interval (CI) based on binomial tail probabilities and not from a dispersion parameter|||100|95.1|
92192118|NCT00092521|184283149|SUPERIORITY_OR_OTHER||Percent relative risk reduction|100.0||||||95.0|94.9|100.0|||||CI based on binomial tail probabilities and not from a dispersion parameter|||100|94.9|
92315685|NCT01217112|184535490|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.537|TWO_SIDED|90.0|-0.12|0.05|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.05|-0.12|0.537
92192119|NCT01878383|184283150|OTHER|Sensitivity is the percent of non-pregnant women positive for shedding HSV by culture method in which GeneXpert test results is positive. Units equals percent non-pregnant women positive.|Sensitivity|100.0|||||TWO_SIDED|95.0|90.8|100.0|||||95% Clopper-Pearson Exact Confidence Interval|||100|90.8|
92192120|NCT01878383|184283151|OTHER|Positive percent agreement is the percent of pregnant women with positive routine PCR results in which GeneXpert test results is positive. Units equal percent of pregnant women positive.|Positive percent agreement|80.0|||||TWO_SIDED|95.0|73.7|86.3|||||95% large sample confidence interval|||86.3|73.7|
92192121|NCT01878383|184283152|OTHER|Negative percent agreement is the percent of pregnant women with negative routine PCR results in which GeneXpert test results is negative. Units equal percent of pregnant women negative.|Negative percent agreement|99.2|||||TWO_SIDED|95.0|99.0|99.5|||||95% large sample confidence interval|||99.5|99|
92192122|NCT03449134|184283171|OTHER||Estimated Percent Change Difference|-18.45||||0.041|TWO_SIDED|95.0|-32.92|-0.86||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 12 based on log transformed data.||-0.86|-32.92|0.041
92192123|NCT03449134|184283171|OTHER||Estimated Percent Change Difference|1.56||||0.874|TWO_SIDED|95.0|-16.13|22.99||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 12 based on log transformed data.||22.99|-16.13|0.874
92192124|NCT03449134|184283174|OTHER||Estimated Percent Change Difference|-17.68||||0.056|TWO_SIDED|95.0|-32.57|0.5||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 12 based on log transformed data.||0.50|-32.57|0.056
92192125|NCT03449134|184283174|OTHER||Estimated Percent Change Difference|2.95||||0.77|TWO_SIDED|95.0|-15.33|25.19||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 12 based on log transformed data.||25.19|-15.33|0.770
92192126|NCT03449134|184283175|OTHER||Odds Ratio (OR)|1.2||||0.416|TWO_SIDED|95.0|0.77|1.86|||Regression, Logistic|||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline, and the interaction of baseline (underlying continuous response) by visit as covariates.||1.86|0.77|0.416
92192127|NCT03449134|184283175|OTHER||Odds Ratio (OR)|1.01||||0.948|TWO_SIDED|95.0|0.66|1.55|||Regression, Logistic|||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline, and the interaction of baseline (underlying continuous response) by visit as covariates.||1.55|0.66|0.948
92192128|NCT03449134|184283176|OTHER||Odds Ratio (OR)|1.39|||||TWO_SIDED|95.0|0.94|2.05||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline CSD score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.05|0.94|
92192129|NCT03449134|184283176|OTHER||Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|1.01|2.18||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline CSD score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.18|1.01|
92192130|NCT03449134|184283177|OTHER||Odds Ratio (OR)|1.68|||||TWO_SIDED|95.0|1.11|2.54||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline CSD score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.54|1.11|
92192131|NCT03449134|184283177|OTHER||Odds Ratio (OR)|1.53|||||TWO_SIDED|95.0|1.01|2.3||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline CSD score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.30|1.01|
92192132|NCT03449134|184283178|OTHER||Odds Ratio (OR)|1.54|||||TWO_SIDED|95.0|1.03|2.3||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline VAS score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.30|1.03|
92192133|NCT03449134|184283178|OTHER||Odds Ratio (OR)|1.27|||||TWO_SIDED|95.0|0.86|1.89||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline VAS score, and the interaction of baseline (underlying continuous response) by visit as covariates.||1.89|0.86|
92192134|NCT03449134|184283179|OTHER||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.85|1.98||||||Comparison based on a logistic regression model that included visit, treatment-by-visit interaction, gender, region, baseline LCQ score, and the interaction of baseline (underlying continuous response) by visit as covariates.||1.98|0.85|
92315686|NCT01217112|184535490|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.045||0.26|TWO_SIDED|90.0|-0.02|0.13|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.13|-0.02|0.260
92192135|NCT03449134|184283179|OTHER||Odds Ratio (OR)|1.39|||||TWO_SIDED|95.0|0.92|2.12||||||Comparison based on a logistic regression model that included visit, treatment-by-visit interaction, gender, region, baseline LCQ score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.12|0.92|
92192136|NCT00113269|184283194|SUPERIORITY_OR_OTHER||differences in event rates|-3.3||||0.4889|TWO_SIDED|95.305|-12.7|6.1|||Normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.|95.305% Confidence Interval is reported, as adjusted for interim analysis based on normal approximation using Greenwood's formula for standard error.|||6.1|-12.7|0.4889
92192137|NCT00113269|184283194|SUPERIORITY_OR_OTHER||differences in event rates|-15.7|||<|0.0001|TWO_SIDED|95.305|-21.9|-9.4|||normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.|95.305% Confidence Interval is reported, as adjusted for interim analysis based on normal approximation using Greenwood's formula for standard error.|||-9.4|-21.9|<0.0001
92192138|NCT00113269|184283195|SUPERIORITY_OR_OTHER||differences in event rates|2.7||||0.6533|TWO_SIDED|95.0|-9.0|14.3|||normal approximation|||||14.3|-9.0|0.6533
92192139|NCT00113269|184283195|SUPERIORITY_OR_OTHER||differences in event rates|-11.9||||0.0024|TWO_SIDED|95.0|-19.5|-4.2|||normal approximation|||||-4.2|-19.5|0.0024
92192140|NCT00113269|184283196|SUPERIORITY_OR_OTHER||differences in event rates|-6.1||||0.4087|TWO_SIDED|95.0|-20.7|8.4|||normal approximation|||||8.4|-20.7|0.4087
92192141|NCT00113269|184283196|SUPERIORITY_OR_OTHER||differences in event rates|-8.7||||0.0456|TWO_SIDED|95.0|-17.2|-0.2|||normal approximation|||||-0.2|-17.2|0.0456
92192142|NCT00113269|184283197|SUPERIORITY_OR_OTHER||differences in event rates|1.1||||0.8742|TWO_SIDED|95.0|-12.7|15.0|||normal approximation|||||15.0|-12.7|0.8742
92192143|NCT00113269|184283197|SUPERIORITY_OR_OTHER||differences in event rates|-14.1||||0.001|TWO_SIDED|95.0|-22.5|-5.7|||normal approximation|||||-5.7|-22.5|0.0010
92192144|NCT00113269|184283199|SUPERIORITY_OR_OTHER||differences in event rates|3.5||||0.4134|TWO_SIDED|95.0|-4.8|11.7|||normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.||||11.7|-4.8|0.4134
92192145|NCT00113269|184283199|SUPERIORITY_OR_OTHER||differences in event rates|2.4||||0.2459|TWO_SIDED|95.0|-1.7|6.5|||normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.||||6.5|-1.7|0.2459
92192146|NCT00113269|184283200|SUPERIORITY_OR_OTHER||differences in event rates|6.0||||0.3155|TWO_SIDED|95.0|-5.7|17.6|||normal approximation|||||17.6|-5.7|0.3155
92192147|NCT00113269|184283200|SUPERIORITY_OR_OTHER||differences in event rates|-0.4||||0.9045|TWO_SIDED|95.0|-6.5|5.7|||normal approximation|||||5.7|-6.5|0.9045
92192148|NCT00113269|184283201|SUPERIORITY_OR_OTHER||differences in event rates|1.6||||0.5265|TWO_SIDED|95.0|-3.4|6.7|||normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.||||6.7|-3.4|0.5265
92192149|NCT00113269|184283201|SUPERIORITY_OR_OTHER||differences in event rates|-0.6||||0.682|TWO_SIDED|95.0|-3.4|2.2|||normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.||||2.2|-3.4|0.6820
92192150|NCT00113269|184283202|SUPERIORITY_OR_OTHER||differences in event rates|5.9||||0.1797|TWO_SIDED|95.0|-2.7|14.4|||normal approximation|||||14.4|-2.7|0.1797
92192151|NCT00113269|184283202|SUPERIORITY_OR_OTHER||differences in event rates|-1.4||||0.5655|TWO_SIDED|95.0|-6.3|3.4|||normal approximation|||||3.4|-6.3|0.5655
92192152|NCT00113269|184283203|SUPERIORITY_OR_OTHER|||||||0.4735||95.0|||||ANCOVA|Analysis tests the difference between treatment groups for the mean change from month 1 with the month 1 value as covariate.||P-Value applies to 'Change from Month 1'||||0.4735
92192153|NCT00113269|184283203|SUPERIORITY_OR_OTHER|||||||0.1186||95.0|||||ANCOVA|Analysis tests the difference between treatment groups for the mean change from month 1 with the month 1 value as covariate.||P-Value applies to 'Change from Month 1'||||0.1186
92192154|NCT00113269|184283204|SUPERIORITY_OR_OTHER|||||||0.5231||95.0|||||ANCOVA|Analysis tests the difference between treatment groups for the mean change from month 1 with the month 1 value as covariate.||P-Value applies to 'Change from Month 1'||||0.5231
92192155|NCT00113269|184283204|SUPERIORITY_OR_OTHER|||||||0.122||95.0|||||ANCOVA|Analysis tests the difference between treatment groups for the mean change from month 1 with the month 1 value as covariate.||P-Value applies to 'Change from Month 1'||||0.1220
92192156|NCT00835510|184283206|SUPERIORITY_OR_OTHER|||||||0.0127||95.0|||||Fisher Exact|two-sided||||||0.0127
92192157|NCT00835510|184283206|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|two-sided||||||<0.0001
92192158|NCT00835510|184283211|NON_INFERIORITY_OR_EQUIVALENCE|The criteria for equivalence is that the 90% confidence interval for the difference in cure rate had to be between -20% to +20%.|Cure rate difference|-19.78||||||90.0|-30.27|-9.29||||||||-9.29|-30.27|
92192159|NCT01960348|184283249|SUPERIORITY||Least Squares Mean Difference|-33.99|STANDARD_ERROR_OF_MEAN|2.974|<|1e-07|TWO_SIDED|95.0|-39.86|-28.13||P=9.262E-24|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in mNIS+7. The model includes baseline mNIS+7 score as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||-28.13|-39.86|<0.0000001
92192160|NCT01960348|184283250|SUPERIORITY||Least Squares Mean Difference|-21.1|STANDARD_ERROR_OF_MEAN|3.1|<|1e-07|TWO_SIDED|95.0|-27.2|-15.0||P=1.103E-10|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in Norfolk QOL-DN total score. The model includes baseline Norfolk QOL-DN score as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline NIS, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||-15.0|-27.2|<0.0000001
92192161|NCT01960348|184283251|SUPERIORITY||Least Squares Mean Difference|-17.87|STANDARD_ERROR_OF_MEAN|2.254|<|1e-07|TWO_SIDED|95.0|-22.32|-13.43||P=1.404E-13|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in NIS-W. The model includes baseline NIS-W score as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||-13.43|-22.32|<0.0000001
92192162|NCT01960348|184283252|SUPERIORITY||Least Squares Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|1.01|<|1e-07|TWO_SIDED|95.0|7.0|10.9||P=4.066E-16|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in R-ODS value. The model includes baseline R-ODS score as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline NIS, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||10.9|7.0|<0.0000001
92192163|NCT01960348|184283253|SUPERIORITY||Least Squares Mean Difference|0.311|STANDARD_ERROR_OF_MEAN|0.0415|<|1e-07|TWO_SIDED|95.0|0.23|0.393||P=1.875E-12|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in 10-meter walk test result. The model includes baseline 10-meter walk test result as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline NIS, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||0.393|0.230|<0.0000001
92192164|NCT01960348|184283254|SUPERIORITY||Least Squares Mean Difference|115.7|STANDARD_ERROR_OF_MEAN|16.91|<|1e-07|TWO_SIDED|95.0|82.4|149.0||P=8.832E-11|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in mBMI. The model includes baseline mBMI as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline NIS, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||149.0|82.4|<0.0000001
92192165|NCT01960348|184283255|SUPERIORITY||Least Squares Mean Difference|-7.53|STANDARD_ERROR_OF_MEAN|2.213||0.0008|TWO_SIDED|95.0|-11.89|-3.16|||Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in COMPASS-31 total score. The model includes baseline COMPASS-31 score as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline NIS, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||-3.16|-11.89|0.0008
92192166|NCT01580995|184283271|SUPERIORITY_OR_OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
92192167|NCT01268098|184283300|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|5.0|||>|0.999|TWO_SIDED|95.0|-20.6|30.7||All hypothesis testings in this study were based on type I error of 0.05. Adjustment for multiplicity was not applied.|Fisher Exact|The 2-sided Fisher's Exact test was utilized to test for difference between the two dose arms.|The 2-sided asymptotic 95% confidence interval is based on normal approximation.|The null hypothesis corresponding to the primary efficacy endpoint is that the percentages of subjects who meet the endpoint criteria are the same for both dose arms. This sample size for this study was not based on the statistical considerations.||30.7|-20.6|>0.999
92192168|NCT01268098|184283301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.258|TWO_SIDED||||||Fisher Exact|The 2-sided Fisher's Exact test was utilized to test for difference betweenthe two dose arms.||The null hypothesis corresponding to this endpoint is that the percentages of subjects who meet the endpoint criteria are the same for both dose arms.||||0.258
92192169|NCT02416713|184283308|SUPERIORITY||relative change from baseline|0.66||||0.12|TWO_SIDED|95.0|-0.18|1.51|||Mixed Models Analysis|||||1.51|-0.18|0.12
92192170|NCT02416713|184283308|SUPERIORITY||relative change from baseline|-0.3||||0.49|TWO_SIDED|95.0|-1.17|0.57|||Mixed Models Analysis|||||0.57|-1.17|0.49
92192171|NCT02416713|184283308|SUPERIORITY||Slope|-0.16||||0.7|TWO_SIDED|95.0|-1.0|0.69|||Mixed Models Analysis|||||0.69|-1.00|0.70
92192172|NCT01644188|184283337|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.8|||<|0.0001|TWO_SIDED|95.0|-34.4|-25.3||Threshold for significance ≤0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Alirocumab group was compared to ezetimibe group using an appropriate contrast statement.||-25.3|-34.4|<0.0001
92192173|NCT01644188|184283338|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.6|||<|0.0001|TWO_SIDED|95.0|-34.9|-26.2||Threshold for significance ≤0.05|Mixed Models Analysis||Alirocumab vs. ezetimibe|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-26.2|-34.9|<0.0001
92192174|NCT01644188|184283339|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.4|||<|0.0001|TWO_SIDED|95.0|-33.7|-25.1||Threshold for significance ≤0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.1|-33.7|<0.0001
92192175|NCT01644188|184283340|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.7|||<|0.0001|TWO_SIDED|95.0|-33.8|-25.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.6|-33.8|<0.0001
92192176|NCT01644188|184283341|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.4|||<|0.0001|TWO_SIDED|95.0|-26.0|-18.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-18.8|-26|<0.0001
92192177|NCT01644188|184283342|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.0|||<|0.0001|TWO_SIDED|95.0|-26.5|-19.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.6|-26.5|<0.0001
92192178|NCT01644188|184283343|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.9|||<|0.0001|TWO_SIDED|95.0|-26.9|-18.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-18.9|-26.9|<0.0001
92192179|NCT01644188|184283344|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.5|||<|0.0001|TWO_SIDED|95.0|-27.2|-19.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.7|-27.2|<0.0001
92192180|NCT01644188|184283345|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.7|||<|0.0001|TWO_SIDED|95.0|-17.7|-11.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-11.7|-17.7|<0.0001
92192181|NCT01644188|184283346|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.5|||<|0.0001|TWO_SIDED|95.0|-25.7|-19.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.2|-25.7|<0.0001
92192182|NCT01644188|184283347|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.0|||<|0.0001|TWO_SIDED|95.0|-25.6|-18.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-18.3|-25.6|<0.0001
92192183|NCT01644188|184283348|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.3|||<|0.0001|TWO_SIDED|95.0|-17.1|-11.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-11.6|-17.1|<0.0001
92192184|NCT01644188|184283349|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.2|||<|0.0001|TWO_SIDED|95.0|-36.3|-26.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-26.1|-36.3|<0.0001
92192185|NCT01644188|184283350|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.4|||<|0.0001|TWO_SIDED|95.0|3.7|7.9||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by Logistic regression model.|Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.9|3.7|<0.0001
92268382|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.282||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.282
92268383|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.040
92192186|NCT01644188|184283351|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.9|||<|0.0001|TWO_SIDED|95.0|3.9|8.8||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model|Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||8.8|3.9|<0.0001
92192187|NCT01644188|184283352|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-21.7|||<|0.0001|TWO_SIDED|95.0|-26.4|-17.0||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-17|-26.4|<0.0001
92192188|NCT01644188|184283353|SUPERIORITY_OR_OTHER||LS Mean Difference|8.1|||<|0.0001|TWO_SIDED|95.0|5.4|10.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||10.7|5.4|<0.0001
92192189|NCT01644188|184283354|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.3||||0.9117|TWO_SIDED|95.0|-5.1|4.6||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression.|Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.6|-5.1|0.9117
92192190|NCT04333732|184283369|SUPERIORITY||Risk Difference (RD)|0.3||||0.52|TWO_SIDED|95.0|-0.5|1.1|||Regression, Logistic|||The primary endpoint was analysed using a Bayesian logistic regression, including as covariates the treatment arm, age (\<50 vs. ≥50), and a random effect for site||1.1|-0.5|0.52
92192191|NCT04333732|184283370|SUPERIORITY||Risk Difference (RD)|0.04||||0.95|TWO_SIDED|95.0|-1.4|1.3|||Regression, Logistic|difference, 0·04%, 95% CI, -1·4% to 1·3%, p=0·95).||The endpoint was analysed using a Bayesian logistic regression, including as covariates the treatment arm, age (\<50 vs. ≥50), and a random effect for site||1.3|-1.4|0.95
92192192|NCT01222533|184283378|NON_INFERIORITY_OR_EQUIVALENCE|The standard bioequivalence range of 80 to 125% was pre-specified for Cmax,ss in order to assess the relative systemic exposure following inhalation of Tio R5 compared to Tio HH18. Bioequivalence was not used as a surrogate for efficacy.|Geometric mean ratio (percentage)|80.66|STANDARD_DEVIATION|43.4||0.4423||90.0|73.49|88.52||Maximum of two one-sided p-values for geometric mean ratio being outside interval 80 percent to 125 percent.|ANOVA||Standard deviation is actually the geometric coefficient of variation.|||88.52|73.49|0.4423
92315687|NCT01217112|184535491|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.18||0.088|TWO_SIDED|90.0|-0.61|-0.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||-0.01|-0.61|0.088
92192193|NCT01222533|184283379|NON_INFERIORITY_OR_EQUIVALENCE|The standard bioequivalence range of 80 to 125% was pre-specified for AUC0-6,ss in order to assess the relative systemic exposure following inhalation of Tio R5 compared to Tio HH18. Bioequivalence was not used as a surrogate for efficacy.|Geometric mean ratio (percentage)|75.99|STANDARD_DEVIATION|34.1||0.8683||90.0|70.44|81.98||Maximum of two one-sided p-values for geometric mean ratio being outside interval 80 percent to 125 percent.|ANOVA||Standard deviation is actually the geometric coefficient of variation.|||81.98|70.44|0.8683
92192194|NCT01222533|184283380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.014||||95.0|0.06|0.114|||||Tio R1.25-Placebo|||0.114|0.060|
92192195|NCT01222533|184283380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001||95.0|0.074|0.128|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.128|0.074|<0.0001
92192196|NCT01222533|184283380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001||95.0|0.094|0.148|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.148|0.094|<0.0001
92192197|NCT01222533|184283381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.012||||95.0|0.141|0.189|||||Tio R1.25-Placebo.|||0.189|0.141|
92192198|NCT01222533|184283381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001||95.0|0.161|0.209|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.209|0.161|<0.0001
92192199|NCT01222533|184283381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001||95.0|0.167|0.216|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.216|0.167|<0.0001
92192200|NCT01222533|184283382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.013||||95.0|0.13|0.18|||||Tio R1.25-Placebo|||0.180|0.130|
92192201|NCT01222533|184283382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001||95.0|0.155|0.205|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.205|0.155|<0.0001
92192202|NCT01222533|184283382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.187|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001||95.0|0.162|0.211|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.211|0.162|<0.0001
92192203|NCT01222533|184283383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.028||||95.0|0.083|0.194|||||Tio R1.25-Placebo|||0.194|0.083|
92192204|NCT01222533|184283383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.133|0.244|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.244|0.133|<0.0001
92192205|NCT01222533|184283383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.236|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.18|0.292|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.292|0.180|<0.0001
92192206|NCT01222533|184283384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.283|STANDARD_ERROR_OF_MEAN|0.022||||95.0|0.241|0.326|||||Tio R1.25-Placebo|||0.326|0.241|
92192207|NCT01222533|184283384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.319|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.276|0.362|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.362|0.276|<0.0001
92192208|NCT01222533|184283384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.335|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.292|0.378|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.378|0.292|<0.0001
92192209|NCT01222533|184283385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|STANDARD_ERROR_OF_MEAN|0.023||||95.0|0.236|0.325|||||Tio R1.25-Placebo|||0.325|0.236|
92192210|NCT01222533|184283385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.324|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.279|0.369|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.369|0.279|<0.0001
92192211|NCT01222533|184283385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.339|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.294|0.384|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.384|0.294|<0.0001
92192212|NCT00004146|184283425|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.1|TWO_SIDED|95.0|0.65|1.12|||t-test, 1 sided|||the study design is to detect 30% reduction in hazard of deaths with 78% power at one side alpha level of 0.10. Overall survial time was calculated from time of histological diagnosis until time of death from any event.||1.12|0.65|0.10
92192213|NCT00460564|184283428|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.83|||<|0.001||95.0|-10.567|-3.093|||t-test, 2 sided|||||-3.093|-10.567|<0.001
92192214|NCT03713281|184283483|SUPERIORITY||Least-square mean|-0.131|STANDARD_ERROR_OF_MEAN|0.0278|||TWO_SIDED|95.0|-0.208|-0.054|||Linear Mixed Model|Kenward and Roger modethod for the demoninator degrees of freedom.||Statistically superiority will be concluded if the upper confidence limit will be less than 0.10 logMAR.||-0.054|-0.208|
92192215|NCT03713281|184283484|SUPERIORITY||Least-square means|0.06|STANDARD_ERROR_OF_MEAN|0.0278|||TWO_SIDED|95.0|-0.017|0.137|||Linear Mixed Model|Kenward and Roger method for the demoninator degrees of freedom.||Statistically superiority will be concluded if the upper confidence limit will be less than 0.17 logMAR for near distance logMAR visual acuity.||0.137|-0.017|
92192216|NCT03935932|184283600|OTHER|||||||0.11|||||||Wilcoxon signed-rank|||||||0.11
92192217|NCT03935932|184283601|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
92192218|NCT03935932|184283602|OTHER|||||||0.35|||||||Wilcoxon signed-rank|||||||0.35
92192219|NCT00352053|184283632|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline genotypic sensitivity score (GSS) (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Time-weighted average changes from baseline through Week 24 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Time-weighted average changes from baseline through Week 24 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are different (two-sided).||||0.55
92192220|NCT00352053|184283633|SUPERIORITY_OR_OTHER|||||||0.4||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Time-weighted average changes from baseline through Week 48 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Time-weighted average changes from baseline through Week 48 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are different (two-sided).||||0.40
92192221|NCT00352053|184283634|SUPERIORITY_OR_OTHER|||||||0.58||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 24 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 24 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are different (two-sided).||||0.58
92192222|NCT00352053|184283635|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 48 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 48 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are different (two-sided).||||0.37
92192223|NCT00352053|184283642|SUPERIORITY_OR_OTHER|||||||0.71||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 24 in plasma CD4 count for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 24 in CD4 count for the tenofovir DF and placebo groups are different (two-sided).||||0.71
92192224|NCT00352053|184283643|SUPERIORITY_OR_OTHER|||||||0.47||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 48 in plasma CD4 count for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 48 in CD4 count for the tenofovir DF and placebo groups are different (two-sided).||||0.47
92192225|NCT00352053|184283650|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 24 in plasma CD4% for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 24 in CD4% for the tenofovir DF and placebo groups are different (two-sided).||||0.26
92192226|NCT00352053|184283651|SUPERIORITY_OR_OTHER|||||||0.63||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 48 in plasma CD4% for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 48 in CD4% for the tenofovir DF and placebo groups are different (two-sided).||||0.63
92192227|NCT00352053|184283658|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants who had at least a 1.0 log10 copies/mL decrease from baseline to Week 24 in HIV-1 RNA for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants who had at least a 1.0 log10 copies/mL decrease from baseline to Week 24 in HIV-1 RNA for the tenofovir DF and placebo groups is different (two-sided).||||0.67
92268384|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.004
92268385|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0193||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0193
92315688|NCT01217112|184535491|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.177||0.583|TWO_SIDED|90.0|-0.2|0.39|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.39|-0.20|0.583
92315689|NCT01217112|184535491|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.169||0.388|TWO_SIDED|90.0|-0.14|0.43|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.43|-0.14|0.388
92192228|NCT00352053|184283659|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants who had at least a 1.0 log10 copies/mL decrease from baseline to Week 48 in HIV-1 RNA for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants who had at least a 1.0 log10 copies/mL decrease from baseline to Week 48 in HIV-1 RNA for the tenofovir DF and placebo groups is different (two-sided).||||0.67
92192229|NCT00352053|184283666|SUPERIORITY_OR_OTHER|||||||1||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants with HIV-1 RNA \< 400 copies/mL at Week 24 for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants with HIV-1 RNA \< 400 copies/mL at Week 24 for the tenofovir DF and placebo groups is different (two-sided).||||1.00
92192230|NCT00352053|184283667|SUPERIORITY_OR_OTHER|||||||0.38||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants with HIV-1 RNA \< 400 copies/mL at Week 48 for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants with HIV-1 RNA \< 400 copies/mL at Week 48 for the tenofovir DF and placebo groups is different (two-sided).||||0.38
92192231|NCT00352053|184283674|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 24 for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 24 for the tenofovir DF and placebo groups is different (two-sided).||||0.22
92192232|NCT00352053|184283675|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48 for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48 for the tenofovir DF and placebo groups is different (two-sided).||||0.48
92192233|NCT00352053|184283682|SUPERIORITY_OR_OTHER|||||||0.29||95.0||||No adjustments for multiple comparisons were made.|Log Rank|No adjustments were made.||Null hypothesis: The survival functions for the tenofovir DF and placebo groups up to Week 48 are equal. Alternative hypothesis: The survival functions for the tenofovir DF and placebo groups up to Week 48 are different (two-sided).||||0.29
92192234|NCT01490359|184283689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.008|TWO_SIDED|95.0|1.03|1.71||The GEE model included baseline measure of consistent condom use, intervention condition, time (6- vs. 12-mo follow-up), and type of partner (steady vs casual partners) with robust standard errors and an independent working correlation matrix.|generalized estimating equations (GEE)||Estimate is odds ratio (intervention vs. health control).|Assuming alpha = 0.05, a 2-tailed test, ICC = 0.01, 15% attrition at 12-month follow-up, and N = 1,152 men in the trial from 44 neighborhoods with an average of 26 men in each neighborhood, the trial was estimated to have 81% power to detect a 10% increase in consistent condom use from 32% to 42% in the HIV/STI intervention group.||1.71|1.03|.008
92192235|NCT04150341|184283697|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.881|TWO_SIDED|95.0|-0.14|0.12|||Mixed Models Analysis|||||0.12|-0.14|0.881
92192236|NCT04150341|184283697|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.575|TWO_SIDED|95.0|-0.17|0.1|||Mixed Models Analysis|||||0.1|-0.17|0.575
92192237|NCT00405912|184283707|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Fisher Exact|1-sided test||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||0.51
92192238|NCT00405912|184283707|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Fisher Exact|1-sided test||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||0.25
92192239|NCT00405912|184283708|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||Fisher Exact|1 sided test||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||0.52
92192240|NCT00405912|184283708|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Fisher Exact|1-sided test||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||0.73
92192241|NCT03730662|184283773|NON_INFERIORITY|"Although the primary objective is to establish noninferiority, sample size selection is guided by the objective of establishing superiority. The chosen sample size and randomization ratio also provides \>90% power to establish superiority of 10 mg LY3298176 and 15 mg LY3298176 doses to insulin glargine in absence of confounding effects of rescue therapy for persistent severe hyperglycemia (efficacy estimand)."|Mean Difference (Net)|-0.99|||<|0.001|TWO_SIDED|97.5|-1.13|-0.86|||Mixed Models Analysis|||||-0.86|-1.13|<0.001
92192242|NCT03730662|184283773|NON_INFERIORITY|"Although the primary objective is to establish noninferiority, sample size selection is guided by the objective of establishing superiority. The chosen sample size and randomization ratio also provides \>90% power to establish superiority of 10 mg LY3298176 and 15 mg LY3298176 doses to insulin glargine in absence of confounding effects of rescue therapy for persistent severe hyperglycemia (efficacy estimand)."|Mean Difference (Net)|-1.14|||<|0.001|TWO_SIDED|97.5|-1.28|-1.0|||Mixed Models Analysis|||||-1.00|-1.28|<0.001
92192243|NCT03730662|184283774|NON_INFERIORITY|"Although the primary objective is to establish noninferiority, sample size selection is guided by the objective of establishing superiority. The chosen sample size and randomization ratio also provides \>90% power to establish superiority of 10 mg LY3298176 and 15 mg LY3298176 doses to insulin glargine in absence of confounding effects of rescue therapy for persistent severe hyperglycemia (efficacy estimand)."|Mean Difference (Net)|-0.8|||<|0.001|TWO_SIDED|97.5|-0.93|-0.66|||Mixed Models Analysis|||||-0.66|-0.93|<0.001
92192244|NCT03730662|184283775|SUPERIORITY||Mean Difference (Net)|-9.0|||<|0.001|TWO_SIDED|95.0|-9.8|-8.3|||Mixed Models Analysis|||||-8.3|-9.8|<0.001
92192245|NCT03730662|184283775|SUPERIORITY||Mean Difference (Net)|-11.4|||<|0.001|TWO_SIDED|95.0|-12.1|-10.6|||Mixed Models Analysis|||||-10.6|-12.1|<0.001
92192246|NCT03730662|184283775|SUPERIORITY||Mean Difference (Net)|-13.5|||<|0.001|TWO_SIDED|95.0|-14.3|-12.8|||Mixed Models Analysis|||||-12.8|-14.3|<0.001
92192247|NCT03730662|184283776|SUPERIORITY||Odds Ratio (OR)|4.78|||<|0.001|TWO_SIDED|95.0|3.47|6.58|||Regression, Logistic|||||6.58|3.47|<0.001
92192248|NCT03730662|184283776|SUPERIORITY||Odds Ratio (OR)|9.23|||<|0.001|TWO_SIDED|95.0|6.31|13.49|||Regression, Logistic|||||13.49|6.31|<0.001
92192249|NCT03730662|184283776|SUPERIORITY||Odds Ratio (OR)|11.87|||<|0.001|TWO_SIDED|95.0|7.88|17.89|||Regression, Logistic|||||17.89|7.88|<0.001
92192250|NCT03730662|184283777|SUPERIORITY||Mean Difference (Net)|1.0||||0.672|TWO_SIDED|95.0|-3.7|5.7|||Mixed Models Analysis|||||5.7|-3.7|0.672
92192251|NCT03730662|184283777|SUPERIORITY||Mean Difference (Net)|-3.6||||0.134|TWO_SIDED|95.0|-8.2|1.1|||Mixed Models Analysis|||||1.1|-8.2|0.134
92192252|NCT03730662|184283777|SUPERIORITY||Mean Difference (Net)|-8.0|||<|0.001|TWO_SIDED|95.0|-12.6|-3.4|||Mixed Models Analysis|||||-3.4|-12.6|<0.001
92192253|NCT00833898|184283781|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||||||0.020
92192254|NCT00833898|184283782|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Mixed Models Analysis|||||||0.15
92192255|NCT00833898|184283783|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Mixed Models Analysis|||||||0.029
92192256|NCT00833898|184283784|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Mixed Models Analysis|||||||0.003
92192257|NCT00833898|184283785|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Mixed Models Analysis|||||||0.012
92192258|NCT00833898|184283786|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||Mixed Models Analysis|||||||0.40
92192259|NCT00833898|184283787|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||Mixed Models Analysis|||||||0.44
92192260|NCT00833898|184283788|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Mixed Models Analysis|||||||0.75
92192261|NCT00833898|184283789|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||Mixed Models Analysis|||||||0.17
92192262|NCT00833898|184283790|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Mixed Models Analysis|||||||0.97
92192263|NCT00833898|184283791|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Mixed Models Analysis|||||||0.55
92192264|NCT00833898|184283792|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Mixed Models Analysis|||||||0.30
92192265|NCT00833898|184283793|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Mixed Models Analysis|||||||0.67
92192266|NCT00833898|184283794|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Mixed Models Analysis|||||||0.013
92192267|NCT00833898|184283795|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
92192268|NCT00833898|184283796|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Mixed Models Analysis|||||||0.26
92192269|NCT00833898|184283797|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.58
92192270|NCT00833898|184283797|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.33
92192271|NCT00833898|184283798|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Mixed Models Analysis|||||||0.53
92192272|NCT00833898|184283799|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.18
92192273|NCT00833898|184283799|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||1.00
92192274|NCT00833898|184283800|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.43
92192275|NCT00833898|184283800|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.72
92192276|NCT00833898|184283801|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.43
92192277|NCT00833898|184283801|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.72
92192278|NCT01960114|184283840|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|25.241|STANDARD_ERROR_OF_MEAN|2.8344|<|0.001|TWO_SIDED|95.0|19.669|30.813||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||30.813|19.669|<0.001
92192279|NCT01960114|184283841|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92192280|NCT01960114|184283842|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
92192281|NCT01960114|184283843|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The significance threshold level was 0.05 (two-sided). p-Values are based on the log-rank test from PROC LIFETEST that compared survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 12 hours, but did not use rescue therapy, were censored at the time of withdrawal. Subjects not rescuing during the 12-hour study period had their time to rescue set to 12 hours and were censored.||||<0.001
92192282|NCT01960114|184283844|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Used row-mean scores based on Cochran-Mantel-Haenszel test was stratified by baseline categorical pain score.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.001
92192283|NCT00225277|184283853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.886||||0.002||95.0|-1.448|-0.325|||ANCOVA||Mean Difference = Pioglitazone - Glimepiride|2 Way analysis of covariance (ANCOVA), treatment and center effects with baseline value as covariate. Least Squares (LS) mean change and LS mean of the treatment difference reported.||-0.3250|-1.4480|0.002
92192284|NCT00225277|184283854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.048||||0.064||95.0|-8.3336|0.2374|||ANCOVA||Mean Difference = Pioglitazone - Glimepiride|2 Way ANCOVA, treatment and center effects with baseline value as covariate. LS mean of the treatment difference reported.||0.2374|-8.3336|0.064
92192285|NCT00225277|184283855|SUPERIORITY_OR_OTHER|||||||0.744||||||Kaplan-Meier methodology was used to estimate the time to event for each composite endpoint. The p-value was based on a log-rank test.|Log Rank|||||||0.744
92192286|NCT00225277|184283856|SUPERIORITY_OR_OTHER|||||||0.883||95.0||||Kaplan-Meier methodology was used to estimate the time to event for each composite endpoint. The p-value was based on a log-rank test.|Log Rank|||||||0.883
92192287|NCT00225277|184283857|SUPERIORITY_OR_OTHER|||||||0.663||95.0||||Kaplan-Meier methodology was used to estimate the time to event for each composite endpoint. The p-value was based on a log-rank test.|Log Rank|||||||0.663
92192288|NCT01340300|184283879|SUPERIORITY||||||<|0.0001||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of insulin in treatment arm is greater than the control arm.||||<0.0001
92192289|NCT01340300|184283879|SUPERIORITY|||||||0.003||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of insulin in treatment arm is greater than the control arm.||||0.003
92192290|NCT01340300|184283879|SUPERIORITY|||||||0.01||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of insulin in treatment arm is greater than the control arm.||||0.01
92192291|NCT01340300|184283879|SUPERIORITY|||||||0.03||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Insulin in combined arm is greater than the exercise-only or metformin-only arm.||||0.03
92192292|NCT01340300|184283880|SUPERIORITY|||||||0.0002||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of leptin in treatment arm is greater than the control arm.||||0.0002
92192293|NCT01340300|184283880|SUPERIORITY|||||||0.002||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of IGFBP\_1 in treatment arm is greater than the control arm.||||0.002
92192294|NCT01340300|184283880|SUPERIORITY|||||||0.02||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of IGFBP\_1 in treatment arm is greater than the control arm.||||0.02
92192295|NCT01340300|184283880|SUPERIORITY|||||||0.0002||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Leptin in combined arm is greater than the exercise-only or metformin-only arm.||||0.0002
92268386|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0065||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0065
92268387|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0002
92268388|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3172||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3172
92268389|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0116||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0116
92268390|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0016
92268391|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.26||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2600
92268392|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2309||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2309
92268393|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0063||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0063
92268394|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8158||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8158
92268395|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3968||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3968
92268396|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7193||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7193
92268397|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0127||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0127
92268398|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2351||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2351
92268399|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5672||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5672
92268400|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||9e-05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.00009
92192296|NCT01340300|184283880|SUPERIORITY|||||||0.02||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Leptin in combined arm is greater than the exercise-only or metformin-only arm.||||0.02
92192297|NCT01340300|184283881|SUPERIORITY|||||||0.0004||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Glucose in treatment arm is greater than the control arm.||||0.0004
92192298|NCT01340300|184283881|SUPERIORITY|||||||0.007||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Glucose in treatment arm is greater than the control arm.||||0.007
92192299|NCT01340300|184283882|SUPERIORITY||||||<|0.0001||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Weight in treatment arm is greater than the control arm.||||<0.0001
92192300|NCT01340300|184283882|SUPERIORITY||||||<|0.0001||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Weight in treatment arm is greater than the control arm.||||<0.0001
92192301|NCT01340300|184283882|SUPERIORITY|||||||0.01||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Weight in treatment arm is greater than the control arm.||||0.01
92192302|NCT01340300|184283883|SUPERIORITY||||||<|0.0001||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of BMI in treatment arm is greater than the control arm.||||<0.0001
92192303|NCT01340300|184283883|SUPERIORITY||||||<|0.0001||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of BMI in treatment arm is greater than the control arm.||||<0.0001
92192304|NCT01340300|184283883|SUPERIORITY|||||||0.02||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of BMI in treatment arm is greater than the control arm.||||0.02
92192305|NCT01340300|184283884|SUPERIORITY|||||||0.01||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Waist to Hip Ratio in treatment arm is greater than the control arm.||||0.01
92192306|NCT01936324|184283885|OTHER|||||||0.0003|||||||ANCOVA|ANCOVA model with terms of treatment, baseline lesion count, and center.||||||0.0003
92192307|NCT01936324|184283886|OTHER|||||||0.0032|||||||ANCOVA|ANCOVA model with terms of treatment, baseline lesion count, and center||||||0.0032
92192308|NCT01936324|184283887|OTHER|||||||0.007|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study center||||||0.0070
92315690|NCT01217112|184535491|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.17||0.58|TWO_SIDED|90.0|-0.19|0.38|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.38|-0.19|0.580
92192309|NCT03226106|184283892|SUPERIORITY||Mean Difference (Final Values)|930.51||||0.024|TWO_SIDED|95.0|41.65|1819.36||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||1819.36|41.65|0.024
92192310|NCT03226106|184283893|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.584|TWO_SIDED|95.0|-0.67|2.07||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||2.07|-0.67|0.584
92192311|NCT03226106|184283894|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.724|TWO_SIDED|95.0|-1.4|1.32||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||1.32|-1.40|0.724
92192312|NCT03226106|184283895|SUPERIORITY||Mean Difference (Final Values)|7.49||||0.547|TWO_SIDED|95.0|-18.9|33.89||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||33.89|-18.90|0.547
92192313|NCT03226106|184283896|SUPERIORITY||Mean Difference (Final Values)|4.93||||0.716|TWO_SIDED|95.0|-21.67|31.54||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||31.54|-21.67|0.716
92192314|NCT03226106|184283897|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.946|TWO_SIDED|95.0|-0.88|0.82||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||0.82|-0.88|0.946
92192315|NCT03226106|184283898|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.906|TWO_SIDED|95.0|-1.08|0.52||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||0.52|-1.08|0.906
92192316|NCT03226106|184283899|SUPERIORITY||Mean Difference (Final Values)|-1.55||||0.873|TWO_SIDED|95.0|-7.59|4.49||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||4.49|-7.59|0.873
92192317|NCT03226106|184283900|SUPERIORITY||Mean Difference (Final Values)|-6.26||||0.241|TWO_SIDED|95.0|-12.48|-0.04||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||-0.04|-12.48|0.241
92192318|NCT03226106|184283901|SUPERIORITY||Mean Difference (Final Values)|2.86||||0.223|TWO_SIDED|95.0|-0.39|6.12||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||6.12|-0.39|0.223
92192319|NCT03226106|184283902|SUPERIORITY||Mean Difference (Final Values)|1.17||||0.388|TWO_SIDED|95.0|-2.19|4.53||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||4.53|-2.19|0.388
92192320|NCT03226106|184283903|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.88|TWO_SIDED|95.0|-4.08|2.68||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||2.68|-4.08|0.88
92192321|NCT03226106|184283904|SUPERIORITY||Mean Difference (Final Values)|0.77||||0.85|TWO_SIDED|95.0|-2.63|4.17||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||4.17|-2.63|0.85
92192322|NCT03226106|184283905|SUPERIORITY||Mean Difference (Final Values)|559.81||||0.101|TWO_SIDED|95.0|-405.01|1524.62||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||1524.62|-405.01|0.101
92192323|NCT04349644|184283906|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent vari- ables.||||||0.016|||||||ANCOVA|Posttest ANCOVA controlling for pretest values.||||||0.016
92192324|NCT04349644|184283906|OTHER|"A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each depen- dent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate.~Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables."||||||0.288|||||||ANCOVA|Follow-up ANCOVA while controlling Pretest.||||||0.288
92192325|NCT04349644|184283907|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.932|||||||ANCOVA|Posttest ANCOVA controlling pretest value for CASS Vocal Expressiveness.||||||0.932
92268401|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1774||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1774
92268402|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6082||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6082
92268403|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0079||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0079
92268404|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0014
92192326|NCT04349644|184283907|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.221|||||||ANCOVA|Posttest ANCOVA controlling for pretest for CASS Quality of Rapport.||||||0.221
92192327|NCT04349644|184283907|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.873|||||||ANCOVA|Follow-up ANCOVA controlling for pretest Vocal Expressiveness.||||||0.873
92192328|NCT04349644|184283907|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.512|||||||ANCOVA|Follow-up ANCOVA controlling for pretest Quality of Rapport.||||||0.512
92192329|NCT04349644|184283908|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.05|||||||ANCOVA|Posttest ANCOVA controlling for Pretest.||||||0.05
92192330|NCT04349644|184283908|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.393|||||||ANCOVA|Follow-up ANCOVA controlling for Pretest.||||||0.393
92192331|NCT04349644|184283909|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables||||||0.917|||||||ANCOVA|Posttest ANCOVA controlling for pretest values.||||||0.917
92192332|NCT04349644|184283909|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables||||||0.963|||||||ANCOVA|Follow-up ANCOVA while controlling for pretest.||||||0.963
92192333|NCT00702650|184283918|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||One-Sample Binomial (Wald) test, 2-sided|||||||<0.001
92192334|NCT00702650|184283923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Sexual Desire based on a two-sided, paired t-test comparing the Baseline and the Day 120 scores.|t-test, 2 sided|||||||<0.0001
92192335|NCT00702650|184283923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Overall Sexual Activity Score based on a two-sided, paired t-test comparing the Baseline and the Day 120 scores.|t-test, 2 sided|||||||<0.0001
92192336|NCT00702650|184283923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Erection Maintained for Satisfactory Duration based on a two-sided, paired t-test comparing the Baseline and the Day 120 scores.|t-test, 2 sided|||||||<0.0001
92192337|NCT00702650|184283923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Positive Mood based on a two-sided, paired t-test comparing the Baseline and the Day 120 scores.|t-test, 2 sided|||||||<0.0001
92192338|NCT00702650|184283923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Negative Mood based on a two-sided, paired t-test comparing the Baseline and the Day 120 scores.|t-test, 2 sided|||||||<0.0001
92192339|NCT00702650|184283924|SUPERIORITY_OR_OTHER|||||||0.0254||95.0||||p-value for Physical Component Score based on a one-sample t-test comparing Day 120 and Baseline values.|t-test, 2 sided|||||||0.0254
92192340|NCT00702650|184283924|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value for Mental Component Score based on a one-sample t-test comparing Day 120 and Baseline values.|t-test, 2 sided|||||||<0.0001
92268405|NCT00448630|184438883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5587||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5587
92268406|NCT00448630|184438884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.077||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.077
92268407|NCT00448630|184438884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.039
92268408|NCT00448630|184438884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.978||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.978
92268409|NCT00448630|184438884|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
92268410|NCT00448630|184438884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.593||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.593
92268411|NCT00448630|184438884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.987||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.987
92268412|NCT00448630|184438884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.174||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.174
92268413|NCT04662086|184438885|OTHER|||||||0.2||||||A p-value of \<0.05 would be considered statistically significant.|Linear mixed-effects regression model|||A generalized linear mixed effects model with parameterization was utilized to capture the difference in change in viral shedding at day 10 between treatment arms. SARS-CoV2 viral RNA CT values were transformed using a standard Reference curve.||||0.20
92192341|NCT01309243|184283933|NON_INFERIORITY_OR_EQUIVALENCE|"Null hypothesis: The FTC/RPV/TDF group was at least 12% worse than the EFV/FTC/TDF group with respect to the percentage of subjects achieving HIV-1 RNA \< 50 copies/mL (response rate, as defined by the snapshot analysis algorithm) at Week 48.~Alternative hypothesis: The FTC/RPV/TDF group was less than 12% worse than the EFV/FTC/TDF group with respect to the percentage of subjects achieving HIV-1 RNA \< 50 copies/mL at Week 48."|Difference in the response rates|4.1|||||TWO_SIDED|95.0|-1.1|9.2|||||The baseline stratum-weighted (HIV-1 RNA ≤ 100,000 and \> 100,000 copies/mL) difference in virologic success rates and its 95% CI were from baseline HIV-1 RNA adjusted Mantel-Haenszel proportions.|"The analysis was to assess the noninferiority of FTC/RPV/TDF versus EFV/FTC/TDF using a 95% confidence interval (CI) approach, with a noninferiority margin of 12% (lower bound of CI \> -12%).~700 subjects allocated 1:1 to either treatment arm was predicted to give \> 95% power when the proportion of responders in both treatment groups for the primary endpoint is 80% at Week 48."||9.2|-1.1|
92192342|NCT01309243|184283934|SUPERIORITY_OR_OTHER||Difference in the response rates|5.5|||||TWO_SIDED|95.0|-0.6|11.5|||||The baseline stratum-weighted (HIV-1 RNA ≤ 100,000 and \> 100,000 copies/mL) difference in virologic success rates and its 95% CI were from baseline HIV-1 RNA adjusted Mantel-Haenszel proportions.|||11.5|-0.6|
92192343|NCT01309243|184283935|SUPERIORITY_OR_OTHER||Difference in LSM|11.0||||0.34|TWO_SIDED|95.0|-11.0|32.0||The p-value, and difference in least square means (LSM) and its 95% CI are from analysis of variance (ANOVA) with treatment and baseline HIV-1 RNA levels (≤ 100,000, \> 100,000 copies/mL) as fixed effect.|ANOVA|||||32|-11|0.34
92192344|NCT01309243|184283936|SUPERIORITY_OR_OTHER||Difference in LSM|20.0||||0.17|TWO_SIDED|95.0|-9.0|49.0||The p-value, and difference in LSM and its 95% CI are from ANOVA with treatment and baseline HIV-1 RNA levels (≤ 100,000, \> 100,000 copies/mL) as fixed effect.|ANOVA|||||49|-9|0.17
92192345|NCT01309243|184283937|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the difference in change from baseline at Week 48 is from ANOVA with treatment as fixed effect.|ANOVA|||||||< 0.001
92192346|NCT01309243|184283938|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the difference in change from baseline at Week 48 is from ANOVA with treatment as fixed effect.|ANOVA|||||||< 0.001
92192347|NCT01309243|184283939|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the difference in change from baseline at Week 48 is from ANOVA with treatment as fixed effect.|ANOVA|||||||< 0.001
92192348|NCT01309243|184283940|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the difference in change from baseline at Week 48 is from ANOVA with treatment as fixed effect.|ANOVA|||||||< 0.001
92192349|NCT00943722|184283944|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% confidence interval (CI) of GMT ratio be greater than 0.67.|GMT ratio|1.9|||<|0.001|TWO_SIDED|95.0|1.7|2.14||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 6||2.14|1.70|< 0.001
92192350|NCT00943722|184283944|NON_INFERIORITY|Non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|1.83|||<|0.001|TWO_SIDED|95.0|1.63|2.06||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 11||2.06|1.63|< 0.001
92192351|NCT00943722|184283944|NON_INFERIORITY|Non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|1.98|||<|0.001|TWO_SIDED|95.0|1.77|2.22||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 16||2.22|1.77|< 0.001
92192352|NCT00943722|184283944|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.44|||<|0.001|TWO_SIDED|95.0|2.13|2.8||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 18||2.80|2.13|< 0.001
92192353|NCT00943722|184283944|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.51|||<|0.001|TWO_SIDED|95.0|2.21|2.85||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 31||2.85|2.21|< 0.001
92192354|NCT00943722|184283944|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.1|||<|0.001|TWO_SIDED|95.0|1.87|2.36||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 33||2.36|1.87|< 0.001
92315691|NCT01217112|184535492|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.198||0.829|TWO_SIDED|90.0|-0.29|0.37|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.37|-0.29|0.829
92192355|NCT00943722|184283944|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.62|||<|0.001|TWO_SIDED|95.0|2.27|3.03||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 45||3.03|2.27|< 0.001
92192356|NCT00943722|184283944|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.22|||<|0.001|TWO_SIDED|95.0|1.97|2.51||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 52||2.51|1.97|< 0.001
92192357|NCT00943722|184283944|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.18|||<|0.001|TWO_SIDED|95.0|1.93|2.45||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 58||2.45|1.93|< 0.001
92192358|NCT00943722|184283945|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.31|||<|0.001|TWO_SIDED|95.0|2.07|2.59||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 6||2.59|2.07|< 0.001
92192359|NCT00943722|184283945|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.1|||<|0.001|TWO_SIDED|95.0|1.88|2.36||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 11||2.36|1.88|< 0.001
92192360|NCT00943722|184283945|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.45|||<|0.001|TWO_SIDED|95.0|2.19|2.74||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 16||2.74|2.19|< 0.001
92192361|NCT00943722|184283945|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|3.2|||<|0.001|TWO_SIDED|95.0|2.8|3.65||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 18||3.65|2.80|< 0.001
92192362|NCT00943722|184283945|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.95|||<|0.001|TWO_SIDED|95.0|2.6|3.34||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 31||3.34|2.60|< 0.001
92192363|NCT00943722|184283945|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.57|||<|0.001|TWO_SIDED|95.0|2.29|2.88||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 33||2.88|2.29|< 0.001
92192364|NCT00943722|184283945|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|3.33|||<|0.001|TWO_SIDED|95.0|2.89|3.84||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 45||3.84|2.89|< 0.001
92192365|NCT00943722|184283945|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.47|||<|0.001|TWO_SIDED|95.0|2.19|2.79||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 52||2.79|2.19|< 0.001
92192366|NCT00943722|184283945|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.66|||<|0.001|TWO_SIDED|95.0|2.37|2.98||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 58||2.98|2.37|< 0.001
92192367|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|0.97|||||TWO_SIDED|95.0|0.88|1.08|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 6||1.08|0.88|
92192368|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|1.03|||||TWO_SIDED|95.0|0.93|1.16|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 6||1.16|0.93|
92192369|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|1.06|||||TWO_SIDED|95.0|0.95|1.19|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 6||1.19|0.95|
92192370|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|1.0|||||TWO_SIDED|95.0|0.9|1.11|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 11||1.11|0.90|
92192371|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|1.07|||||TWO_SIDED|95.0|0.95|1.2|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 11||1.20|0.95|
92192372|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|1.07|||||TWO_SIDED|95.0|0.95|1.2|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 11||1.20|0.95|
92192373|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|0.96|||||TWO_SIDED|95.0|0.86|1.06|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 16||1.06|0.86|
92192374|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.0|||||TWO_SIDED|95.0|0.9|1.12|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 16||1.12|0.90|
92192375|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.05|||||TWO_SIDED|95.0|0.94|1.17|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 16||1.17|0.94|
92192376|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.0|||||TWO_SIDED|95.0|0.89|1.14|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 18||1.14|0.89|
92192377|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.11|||||TWO_SIDED|95.0|0.98|1.26|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 18||1.26|0.98|
92192378|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.11|||||TWO_SIDED|95.0|0.97|1.26|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 18||1.26|0.97|
92192379|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.0|||||TWO_SIDED|95.0|0.89|1.13|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 31||1.13|0.89|
92192380|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.02|||||TWO_SIDED|95.0|0.91|1.16|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 31||1.16|0.91|
92192381|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.02|||||TWO_SIDED|95.0|0.9|1.15|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 31||1.15|0.90|
92192382|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.05|||||TWO_SIDED|95.0|0.94|1.16|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 33||1.16|0.94|
92192383|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.05|||||TWO_SIDED|95.0|0.94|1.17|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 33||1.17|0.94|
92192384|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.01|||||TWO_SIDED|95.0|0.9|1.12|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 33||1.12|0.90|
92192385|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|0.84|||||TWO_SIDED|95.0|0.73|0.95|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 45||0.95|0.73|
92192386|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.04|||||TWO_SIDED|95.0|0.91|1.18|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 45||1.18|0.91|
92192387|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.24|||||TWO_SIDED|95.0|1.08|1.42|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 45||1.42|1.08|
92192388|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|0.92|||||TWO_SIDED|95.0|0.83|1.03|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 52||1.03|0.83|
92192389|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|0.95|||||TWO_SIDED|95.0|0.85|1.07|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 52||1.07|0.85|
92192390|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.03|||||TWO_SIDED|95.0|0.92|1.16|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 52||1.16|0.92|
92192391|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|0.95|||||TWO_SIDED|95.0|0.86|1.06|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 58||1.06|0.86|
92192392|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.07|||||TWO_SIDED|95.0|0.96|1.2|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 58||1.20|0.96|
92192393|NCT00943722|184283946|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.12|||||TWO_SIDED|95.0|1.0|1.26|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 58||1.26|1.00|
92192394|NCT00943722|184283950|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.1|||<|0.001|TWO_SIDED|95.0|-0.8|1.5|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 6||1.5|-0.8|< 0.001
92192395|NCT00943722|184283950|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 11||1.2|-0.7|< 0.001
92192396|NCT00943722|184283950|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 16||1.2|-0.7|< 0.001
92192397|NCT00943722|184283950|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.1|||<|0.001|TWO_SIDED|95.0|-0.8|1.5|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 18||1.5|-0.8|< 0.001
92192398|NCT00943722|184283950|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.7|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 31||1.7|-0.4|< 0.001
92192399|NCT00943722|184283950|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.6|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 33||1.6|-0.4|< 0.001
92192400|NCT00943722|184283950|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.4|||<|0.001|TWO_SIDED|95.0|-0.6|1.8|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 45||1.8|-0.6|< 0.001
92192401|NCT00943722|184283950|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.7|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 52||1.7|-0.4|< 0.001
92192402|NCT00943722|184283950|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 58||1.2|-0.7|< 0.001
92192403|NCT00943722|184283951|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.1|||<|0.001|TWO_SIDED|95.0|-0.7|1.5|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 6||1.5|-0.7|< 0.001
92192404|NCT00943722|184283951|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 11||1.2|-0.7|< 0.001
92192405|NCT00943722|184283951|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 16||1.2|-0.7|< 0.001
92192406|NCT00943722|184283951|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.6|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 18||1.6|-0.4|< 0.001
92192407|NCT00943722|184283951|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.7|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 31||1.7|-0.4|< 0.001
92192408|NCT00943722|184283951|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.6|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 33||1.6|-0.4|< 0.001
92192409|NCT00943722|184283951|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.5|||<|0.001|TWO_SIDED|95.0|-0.1|2.0|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 45||2.0|-0.1|< 0.001
92192410|NCT00943722|184283951|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.7|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 52||1.7|-0.4|< 0.001
92192411|NCT00943722|184283951|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 58||1.2|-0.7|< 0.001
92192412|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.9|0.9|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 6||0.9|-0.9|
92315692|NCT01217112|184535492|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.196||0.575|TWO_SIDED|90.0|-0.22|0.44|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.44|-0.22|0.575
92315693|NCT01217112|184535492|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.203||0.356|TWO_SIDED|90.0|-0.15|0.53|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.53|-0.15|0.356
92315694|NCT01217112|184535492|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.188||0.472|TWO_SIDED|90.0|-0.18|0.45|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.45|-0.18|0.472
92315695|NCT01217112|184535493|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.181||0.115|TWO_SIDED|90.0|-0.59|0.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.01|-0.59|0.115
92315696|NCT01217112|184535493|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.177||0.782|TWO_SIDED|90.0|-0.25|0.35|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.35|-0.25|0.782
92315697|NCT01217112|184535493|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.173||0.902|TWO_SIDED|90.0|-0.27|0.31|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.31|-0.27|0.902
92315698|NCT01217112|184535493|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.166||0.993|TWO_SIDED|90.0|-0.28|0.28|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.28|-0.28|0.993
92192413|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.5|||||TWO_SIDED|95.0|-0.4|1.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 6||1.7|-0.4|
92192414|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.6|||||TWO_SIDED|95.0|-0.4|1.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 6||1.7|-0.4|
92315699|NCT01217112|184535494|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.143||0.956|TWO_SIDED|90.0|-0.23|0.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.25|-0.23|0.956
92315700|NCT01217112|184535494|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.144||0.705|TWO_SIDED|90.0|-0.19|0.3|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.30|-0.19|0.705
92315701|NCT01217112|184535494|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.148||0.466|TWO_SIDED|90.0|-0.14|0.36|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.36|-0.14|0.466
92192415|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 11||0.7|-0.7|
92192416|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 11||1.3|-0.4|
92315702|NCT01217112|184535494|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.136||0.876|TWO_SIDED|90.0|-0.21|0.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.25|-0.21|0.876
92315703|NCT01217112|184535495|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.034||0.408|TWO_SIDED|90.0|-0.03|0.09|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.09|-0.03|0.408
92315704|NCT01217112|184535495|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.032||0.714|TWO_SIDED|90.0|-0.04|0.07|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.07|-0.04|0.714
92315705|NCT01217112|184535495|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.032||0.267|TWO_SIDED|90.0|-0.09|0.02|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.02|-0.09|0.267
92315706|NCT01217112|184535495|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.032||0.484|TWO_SIDED|90.0|-0.03|0.08|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.08|-0.03|0.484
92315707|NCT01217112|184535496|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.039||0.56|TWO_SIDED|90.0|-0.09|0.04|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.04|-0.09|0.560
92315708|NCT01217112|184535496|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.037||0.956|TWO_SIDED|90.0|-0.06|0.06|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.06|-0.06|0.956
92315709|NCT01217112|184535496|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.039||0.403|TWO_SIDED|90.0|-0.1|0.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.10|0.403
92315710|NCT01217112|184535496|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.037||0.617|TWO_SIDED|90.0|-0.04|0.08|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.08|-0.04|0.617
92192417|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 11||1.3|-0.4|
92192418|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 16||0.7|-0.7|
92192419|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 16||1.3|-0.4|
92192420|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 16||1.3|-0.4|
92192421|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|-0.2|||||TWO_SIDED|95.0|-1.1|0.5|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 18||0.5|-1.1|
92315711|NCT01217112|184535497|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.108||0.815|TWO_SIDED|90.0|-0.16|0.21|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.21|-0.16|0.815
92315712|NCT01217112|184535497|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.105||0.418|TWO_SIDED|90.0|-0.09|0.26|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.26|-0.09|0.418
92192422|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.2|||||TWO_SIDED|95.0|-0.7|1.1|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 18||1.1|-0.7|
92315713|NCT01217112|184535497|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.111||0.236|TWO_SIDED|90.0|-0.05|0.32|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.32|-0.05|0.236
92192423|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 18||1.3|-0.4|
92315714|NCT01217112|184535497|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.103||0.556|TWO_SIDED|90.0|-0.11|0.23|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.23|-0.11|0.556
92315715|NCT01217112|184535498|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.241||0.329|TWO_SIDED|90.0|-0.64|0.17|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.17|-0.64|0.329
92315716|NCT01217112|184535498|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.236||0.232|TWO_SIDED|90.0|-0.11|0.68|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.68|-0.11|0.232
92315717|NCT01217112|184535498|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.222||0.164|TWO_SIDED|90.0|-0.06|0.68|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.68|-0.06|0.164
92315718|NCT01217112|184535498|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.232||0.302|TWO_SIDED|90.0|-0.15|0.63|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.63|-0.15|0.302
92315719|NCT01217112|184535499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.231||0.614|TWO_SIDED|90.0|-0.5|0.27|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.27|-0.50|0.614
92315720|NCT01217112|184535499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.227||0.669|TWO_SIDED|90.0|-0.28|0.48|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.48|-0.28|0.669
92192424|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 31||0.7|-0.7|
92315721|NCT01217112|184535499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.24||0.621|TWO_SIDED|90.0|-0.28|0.52|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.52|-0.28|0.621
92315722|NCT01217112|184535499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.222||0.867|TWO_SIDED|90.0|-0.33|0.41|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.41|-0.33|0.867
92315723|NCT01217112|184535500|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.55|STANDARD_ERROR_OF_MEAN|2.624||0.335|TWO_SIDED|90.0|-1.84|6.95|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.95|-1.84|0.335
92315724|NCT01217112|184535500|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.36|STANDARD_ERROR_OF_MEAN|2.545||0.358|TWO_SIDED|90.0|-1.9|6.62|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.62|-1.90|0.358
92315725|NCT01217112|184535500|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|2.406||0.9|TWO_SIDED|90.0|-3.72|4.33|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.33|-3.72|0.900
92315726|NCT01217112|184535500|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.02|STANDARD_ERROR_OF_MEAN|2.486||0.019|TWO_SIDED|90.0|1.86|10.19|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||10.19|1.86|0.019
92315727|NCT01217112|184535501|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.245||0.325|TWO_SIDED|90.0|-0.65|0.17|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.17|-0.65|0.325
92315728|NCT01217112|184535501|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.238||0.438|TWO_SIDED|90.0|-0.21|0.59|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.59|-0.21|0.438
92315729|NCT01217112|184535501|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.226||0.701|TWO_SIDED|90.0|-0.29|0.47|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.47|-0.29|0.701
92315730|NCT01217112|184535501|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.232||0.624|TWO_SIDED|90.0|-0.5|0.27|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.27|-0.50|0.624
92192425|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.2|||||TWO_SIDED|95.0|-0.6|1.0|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 31||1.0|-0.6|
92315731|NCT01217112|184535502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.058||0.233|TWO_SIDED|90.0|-0.17|0.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.17|0.233
92315732|NCT01217112|184535502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.056||0.727|TWO_SIDED|90.0|-0.07|0.11|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.11|-0.07|0.727
92315733|NCT01217112|184535502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.053||0.593|TWO_SIDED|90.0|-0.06|0.12|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.12|-0.06|0.593
92315734|NCT01217112|184535502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.056||0.075|TWO_SIDED|90.0|-0.2|-0.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||-0.01|-0.20|0.075
92315735|NCT01217112|184535503|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.084||0.236|TWO_SIDED|90.0|-0.04|0.24|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.24|-0.04|0.236
92315736|NCT01217112|184535503|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.082||0.579|TWO_SIDED|90.0|-0.09|0.18|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.18|-0.09|0.579
92315737|NCT01217112|184535503|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.077||0.837|TWO_SIDED|90.0|-0.15|0.11|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.11|-0.15|0.837
92315738|NCT01217112|184535503|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.081||0.467|TWO_SIDED|90.0|-0.08|0.19|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.19|-0.08|0.467
92315739|NCT01217112|184535504|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.613||0.533|TWO_SIDED|90.0|-1.41|0.64|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.64|-1.41|0.533
92315740|NCT01217112|184535504|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.585||0.804|TWO_SIDED|90.0|-0.84|1.13|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.13|-0.84|0.804
92315741|NCT01217112|184535504|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.556||0.916|TWO_SIDED|90.0|-0.87|0.99|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.99|-0.87|0.916
92315742|NCT01217112|184535504|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|0.583||0.04|TWO_SIDED|90.0|-2.2|-0.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||-0.25|-2.20|0.040
92315743|NCT01217112|184535505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.9|STANDARD_ERROR_OF_MEAN|10.838||0.366|TWO_SIDED|90.0|-28.06|8.27|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||8.27|-28.06|0.366
92315744|NCT01217112|184535505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.11|STANDARD_ERROR_OF_MEAN|10.692||0.844|TWO_SIDED|90.0|-15.81|20.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||20.03|-15.81|0.844
92315745|NCT01217112|184535505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.96|STANDARD_ERROR_OF_MEAN|10.026||0.118|TWO_SIDED|90.0|-32.76|0.84|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.84|-32.76|0.118
92192426|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.2|||||TWO_SIDED|95.0|-0.5|1.0|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 31||1.0|-0.5|
92192427|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 33||0.7|-0.7|
92315746|NCT01217112|184535505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.67|STANDARD_ERROR_OF_MEAN|10.256||0.518|TWO_SIDED|90.0|-23.86|10.51|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||10.51|-23.86|0.518
92192428|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 33||1.3|-0.4|
92315747|NCT01217112|184535506|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.294||0.576|TWO_SIDED|90.0|-0.66|0.33|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.33|-0.66|0.576
92315748|NCT01217112|184535506|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.283||0.648|TWO_SIDED|90.0|-0.6|0.34|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.34|-0.60|0.648
92315749|NCT01217112|184535506|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.269||0.447|TWO_SIDED|90.0|-0.66|0.24|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.24|-0.66|0.447
92315750|NCT01217112|184535506|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.283||0.273|TWO_SIDED|90.0|-0.79|0.16|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.16|-0.79|0.273
92315751|NCT01217112|184535507|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|1.097||0.615|TWO_SIDED|90.0|-2.4|1.29|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.29|-2.40|0.615
92315752|NCT01217112|184535507|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.973||0.342|TWO_SIDED|90.0|-0.7|2.57|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.57|-0.70|0.342
92315753|NCT01217112|184535507|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.934||0.314|TWO_SIDED|90.0|-2.52|0.62|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.62|-2.52|0.314
92315754|NCT01217112|184535507|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.964||0.889|TWO_SIDED|90.0|-1.48|1.75|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.75|-1.48|0.889
92315755|NCT01217112|184535508|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|50.89|STANDARD_ERROR_OF_MEAN|168.459||0.764|TWO_SIDED|90.0|-232.02|333.8|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||333.80|-232.02|0.764
92315756|NCT01217112|184535508|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-70.76|STANDARD_ERROR_OF_MEAN|156.72||0.654|TWO_SIDED|90.0|-333.96|192.44|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||192.44|-333.96|0.654
92315757|NCT01217112|184535508|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-111.5|STANDARD_ERROR_OF_MEAN|146.276||0.45|TWO_SIDED|90.0|-357.17|134.16|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||134.16|-357.17|0.450
92315758|NCT01217112|184535508|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|97.42|STANDARD_ERROR_OF_MEAN|149.124||0.517|TWO_SIDED|90.0|-153.02|347.86|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||347.86|-153.02|0.517
92315759|NCT01217112|184535509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.33|STANDARD_ERROR_OF_MEAN|40.94||0.84|TWO_SIDED|90.0|-60.28|76.94|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||76.94|-60.28|0.840
92315760|NCT01217112|184535509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.31|STANDARD_ERROR_OF_MEAN|39.521||0.834|TWO_SIDED|90.0|-57.92|74.55|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||74.55|-57.92|0.834
92315761|NCT01217112|184535509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.62|STANDARD_ERROR_OF_MEAN|39.044||0.767|TWO_SIDED|90.0|-77.06|53.81|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||53.81|-77.06|0.767
92315762|NCT01217112|184535509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|42.51|STANDARD_ERROR_OF_MEAN|39.68||0.289|TWO_SIDED|90.0|-23.99|109.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||109.01|-23.99|0.289
92315763|NCT01217112|184535510|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.106||0.569|TWO_SIDED|90.0|-0.24|0.12|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.12|-0.24|0.569
92315764|NCT01217112|184535510|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.101||0.984|TWO_SIDED|90.0|-0.17|0.17|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.17|-0.17|0.984
92315765|NCT01217112|184535510|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.098||0.176|TWO_SIDED|90.0|-0.3|0.03|||ANCOVA|||v Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.30|0.176
92315766|NCT01217112|184535510|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.099||0.895|TWO_SIDED|90.0|-0.15|0.18|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.18|-0.15|0.895
92315767|NCT01217112|184535511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.745||0.871|TWO_SIDED|90.0|-1.13|1.37|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.37|-1.13|0.871
92315768|NCT01217112|184535511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.721||0.826|TWO_SIDED|90.0|-1.05|1.37|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.37|-1.05|0.826
92315769|NCT01217112|184535511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.703||0.693|TWO_SIDED|90.0|-1.46|0.9|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.90|-1.46|0.693
92315770|NCT01217112|184535511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.722||0.536|TWO_SIDED|90.0|-0.76|1.66|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.66|-0.76|0.536
92315771|NCT01217112|184535512|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|8.633||0.878|TWO_SIDED|90.0|-15.8|13.13|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||13.13|-15.80|0.878
92315772|NCT01217112|184535512|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.85|STANDARD_ERROR_OF_MEAN|8.377||0.919|TWO_SIDED|90.0|-13.18|14.89|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||14.89|-13.18|0.919
92315773|NCT01217112|184535512|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.72|STANDARD_ERROR_OF_MEAN|7.989||0.557|TWO_SIDED|90.0|-8.67|18.11|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||18.11|-8.67|0.557
92192429|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 33||1.3|-0.4|
92192430|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|-0.2|||||TWO_SIDED|95.0|-1.1|0.5|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 45||0.5|-1.1|
92315774|NCT01217112|184535512|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.2|STANDARD_ERROR_OF_MEAN|8.328||0.275|TWO_SIDED|90.0|-4.76|23.16|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||23.16|-4.76|0.275
92315775|NCT01217112|184535513|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.45|STANDARD_ERROR_OF_MEAN|16.445||0.528|TWO_SIDED|90.0|-17.12|38.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||38.01|-17.12|0.528
92315776|NCT01217112|184535513|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|15.825||0.99|TWO_SIDED|90.0|-26.32|26.72|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||26.72|-26.32|0.990
92192431|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.2|||||TWO_SIDED|95.0|-0.7|1.1|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 45||1.1|-0.7|
92315777|NCT01217112|184535513|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.39|STANDARD_ERROR_OF_MEAN|15.369||0.776|TWO_SIDED|90.0|-21.37|30.15|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||30.15|-21.37|0.776
92315778|NCT01217112|184535513|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|44.51|STANDARD_ERROR_OF_MEAN|15.834||0.007|TWO_SIDED|90.0|17.98|71.05|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||71.05|17.98|0.007
92315779|NCT01217112|184535514|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.536||0.717|TWO_SIDED|90.0|-0.7|1.09|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.09|-0.70|0.717
92315780|NCT01217112|184535514|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.531||0.218|TWO_SIDED|90.0|-0.23|1.55|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.55|-0.23|0.218
92192432|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 45||1.3|-0.4|
92192433|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 52||0.7|-0.7|
92192434|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.3|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 52||1.3|-0.4|
92315781|NCT01217112|184535514|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.514||0.378|TWO_SIDED|90.0|-0.4|1.32|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.32|-0.40|0.378
92315782|NCT01217112|184535514|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.532||0.361|TWO_SIDED|90.0|-0.4|1.38|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.38|-0.40|0.361
92315783|NCT01217112|184535515|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.013||0.417|TWO_SIDED|90.0|-0.01|0.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.01|0.417
92315784|NCT01217112|184535515|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.013||0.34|TWO_SIDED|90.0|-0.01|0.04|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.04|-0.01|0.340
92315785|NCT01217112|184535515|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.013||0.915|TWO_SIDED|90.0|-0.02|0.02|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.02|-0.02|0.915
92192435|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 52||1.3|-0.4|
92315786|NCT01217112|184535515|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.013||0.465|TWO_SIDED|90.0|-0.01|0.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.01|0.465
92315787|NCT01217112|184535516|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.75|STANDARD_ERROR_OF_MEAN|1.616||0.646|TWO_SIDED|90.0|-1.96|3.45|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.45|-1.96|0.646
92315788|NCT01217112|184535516|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.99|STANDARD_ERROR_OF_MEAN|1.598||0.219|TWO_SIDED|90.0|-0.69|4.66|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.66|-0.69|0.219
92315789|NCT01217112|184535516|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.61|STANDARD_ERROR_OF_MEAN|1.563||0.307|TWO_SIDED|90.0|-1.0|4.23|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.23|-1.00|0.307
92315790|NCT01217112|184535516|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.52|STANDARD_ERROR_OF_MEAN|1.612||0.348|TWO_SIDED|90.0|-1.17|4.22|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.22|-1.17|0.348
92315791|NCT01217112|184535517|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.74|STANDARD_ERROR_OF_MEAN|1.299||0.187|TWO_SIDED|90.0|-0.44|3.91|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.91|-0.44|0.187
92315792|NCT01217112|184535517|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|1.28||0.578|TWO_SIDED|90.0|-1.43|2.86|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.86|-1.43|0.578
92192436|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 58||0.7|-0.7|
92192437|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 58||1.3|-0.4|
92315793|NCT01217112|184535517|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.13|STANDARD_ERROR_OF_MEAN|1.249||0.368|TWO_SIDED|90.0|-0.96|3.22|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.22|-0.96|0.368
92315794|NCT01217112|184535517|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|1.304||0.696|TWO_SIDED|90.0|-1.67|2.69|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.69|-1.67|0.696
92315795|NCT01217112|184535518|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.32||0.327|TWO_SIDED|90.0|-0.9|3.51|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.51|-0.90|0.327
92315796|NCT01217112|184535518|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|1.303||0.851|TWO_SIDED|90.0|-1.93|2.43|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.43|-1.93|0.851
92315797|NCT01217112|184535518|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|1.281||0.672|TWO_SIDED|90.0|-1.6|2.69|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.69|-1.60|0.672
92315798|NCT01217112|184535518|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|1.327||0.978|TWO_SIDED|90.0|-2.26|2.18|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.18|-2.26|0.978
92315799|NCT01217112|184535519|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.512||0.857|TWO_SIDED|90.0|-0.95|0.76|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.76|-0.95|0.857
92315800|NCT01217112|184535519|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.549||0.543|TWO_SIDED|90.0|-0.58|1.26|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.26|-0.58|0.543
92315801|NCT01217112|184535519|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.495||0.859|TWO_SIDED|90.0|-0.74|0.92|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.92|-0.74|0.859
92192438|NCT00943722|184283952|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 58||1.3|-0.4|
92315802|NCT01217112|184535519|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.526||0.467|TWO_SIDED|90.0|-1.27|0.5|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.50|-1.27|0.467
92315803|NCT01217112|184535520|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.406||0.124|TWO_SIDED|90.0|-1.32|0.05|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.05|-1.32|0.124
92315804|NCT01217112|184535520|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.439||0.909|TWO_SIDED|90.0|-0.68|0.79|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.79|-0.68|0.909
92315805|NCT01217112|184535520|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.392||0.245|TWO_SIDED|90.0|-1.12|0.2|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.20|-1.12|0.245
92315806|NCT01217112|184535520|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.412||0.382|TWO_SIDED|90.0|-1.05|0.33|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.33|-1.05|0.382
92315807|NCT01217112|184535521|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.837||0.376|TWO_SIDED|90.0|-2.15|0.66|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.66|-2.15|0.376
92315808|NCT01217112|184535521|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.908||0.688|TWO_SIDED|90.0|-1.15|1.89|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.89|-1.15|0.688
92192439|NCT01772823|184283968|OTHER|||||||0.7513||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on the Size of the Pill) differ between intervention arms."|Chi-squared|||||||0.7513
92315809|NCT01217112|184535521|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.803||0.637|TWO_SIDED|90.0|-1.73|0.96|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.96|-1.73|0.637
92315810|NCT01217112|184535521|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.849||0.355|TWO_SIDED|90.0|-2.22|0.63|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.63|-2.22|0.355
92315811|NCT01217112|184535522|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.391||0.482|TWO_SIDED|90.0|-0.39|0.95|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.95|-0.39|0.482
92315812|NCT01217112|184535522|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.489||0.708|TWO_SIDED|90.0|-0.65|1.02|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.02|-0.65|0.708
92315813|NCT01217112|184535522|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|0.434||0.166|TWO_SIDED|90.0|-0.12|1.37|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.37|-0.12|0.166
92192440|NCT01772823|184283969|OTHER|||||||0.8281||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on the Taste of the Pill) differ between intervention arms."|Chi-squared|Pearson Chi-Square||||||0.8281
92192441|NCT01772823|184283970|OTHER|||||||0.3761||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on the Color of the Pill) differ between intervention arms."|Chi-squared|||||||0.3761
92192442|NCT01772823|184283971|OTHER|||||||0.4359||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on Taking the pill every day) differ between intervention arms."|Chi-squared|||||||0.4359
92192443|NCT01772823|184283972|OTHER|||||||0.3801||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on Taking part in the study) differ between intervention arms."|Chi-squared|||||||0.3801
92192444|NCT01772823|184283973|OTHER|||||||0.1968||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on HIV test at every visit) differ between intervention arms."|Chi-squared|||||||0.1968
92192445|NCT01772823|184283974|OTHER|||||||0.1226||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on Risk Reduction counseling at every visit) differ between intervention arms."|Chi-squared|||||||0.1226
92192446|NCT01772823|184283975|OTHER|||||||0.0994||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on Questions about sexual behavior) differ between intervention arms."|Chi-squared|||||||0.0994
92192447|NCT01772823|184283976|OTHER|||||||0.5285||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on the Physician exam) differ between intervention arms."|Chi-squared|||||||0.5285
92315814|NCT01217112|184535522|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.408||0.424|TWO_SIDED|90.0|-0.37|1.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.03|-0.37|0.424
92315815|NCT01217112|184535523|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|1.26||0.022|TWO_SIDED|90.0|0.94|5.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||5.25|0.94|0.022
92315816|NCT01217112|184535523|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.07|STANDARD_ERROR_OF_MEAN|1.532||0.014|TWO_SIDED|90.0|1.44|6.69|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.69|1.44|0.014
92315817|NCT01217112|184535523|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.85|STANDARD_ERROR_OF_MEAN|1.4||0.053|TWO_SIDED|90.0|0.45|5.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||5.25|0.45|0.053
92315818|NCT01217112|184535523|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.56|STANDARD_ERROR_OF_MEAN|1.299||0.012|TWO_SIDED|90.0|1.33|5.78|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||5.78|1.33|0.012
92315819|NCT01217112|184535524|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.35|STANDARD_ERROR_OF_MEAN|1.463||0.032|TWO_SIDED|90.0|0.84|5.85|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||5.85|0.84|0.032
92315820|NCT01217112|184535524|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.27|STANDARD_ERROR_OF_MEAN|1.798||0.026|TWO_SIDED|90.0|1.18|7.35|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||7.35|1.18|0.026
92315821|NCT01217112|184535524|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.44|STANDARD_ERROR_OF_MEAN|1.626||0.046|TWO_SIDED|90.0|0.65|6.22|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.22|0.65|0.046
92315822|NCT01217112|184535524|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.86|STANDARD_ERROR_OF_MEAN|1.512||0.018|TWO_SIDED|90.0|1.26|6.45|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.45|1.26|0.018
92315823|NCT01217112|184535525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|0.806||0.294|TWO_SIDED|90.0|-0.52|2.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.25|-0.52|0.294
92315824|NCT01217112|184535525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.74|STANDARD_ERROR_OF_MEAN|0.988||0.092|TWO_SIDED|90.0|0.05|3.43|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.43|0.05|0.092
92315825|NCT01217112|184535525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.26|STANDARD_ERROR_OF_MEAN|0.893||0.173|TWO_SIDED|90.0|-0.28|2.79|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.79|-0.28|0.173
92315826|NCT01217112|184535525|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.837||0.545|TWO_SIDED|90.0|-0.92|1.95|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.95|-0.92|0.545
92315827|NCT01217112|184535526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.67|STANDARD_ERROR_OF_MEAN|1.214||0.038|TWO_SIDED|90.0|0.59|4.75|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.75|0.59|0.038
92315828|NCT01217112|184535526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.71|STANDARD_ERROR_OF_MEAN|1.486||0.004|TWO_SIDED|90.0|2.16|7.26|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||7.26|2.16|0.004
92315829|NCT01217112|184535526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|1.35||0.088|TWO_SIDED|90.0|0.09|4.72|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.72|0.09|0.088
92315830|NCT01217112|184535526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.54|STANDARD_ERROR_OF_MEAN|1.252||0.01|TWO_SIDED|90.0|1.39|5.68|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||5.68|1.39|0.010
92315831|NCT01217112|184535527|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.53|STANDARD_ERROR_OF_MEAN|1.814||0.064|TWO_SIDED|90.0|0.42|6.64|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.64|0.42|0.064
92315832|NCT01217112|184535527|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.55|STANDARD_ERROR_OF_MEAN|2.237||0.008|TWO_SIDED|90.0|2.72|10.38|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||10.38|2.72|0.008
92315833|NCT01217112|184535527|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.65|STANDARD_ERROR_OF_MEAN|2.016||0.084|TWO_SIDED|90.0|0.19|7.1|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||7.10|0.19|0.084
92192448|NCT01772823|184283980|OTHER|||||||0.0001||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.0001
92315834|NCT01217112|184535527|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.05|STANDARD_ERROR_OF_MEAN|1.871||0.041|TWO_SIDED|90.0|0.84|7.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||7.25|0.84|0.041
92315835|NCT01217112|184535528|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.044||0.129|TWO_SIDED|90.0|-0.14|0.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.01|-0.14|0.129
92315836|NCT01217112|184535528|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.051||0.961|TWO_SIDED|90.0|-0.08|0.09|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.09|-0.08|0.961
92315837|NCT01217112|184535528|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.048||0.128|TWO_SIDED|90.0|-0.16|0.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.01|-0.16|0.128
92315838|NCT01217112|184535528|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.045||0.3|TWO_SIDED|90.0|-0.12|0.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.12|0.300
92315839|NCT01217112|184535529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.65|STANDARD_ERROR_OF_MEAN|5.38||0.625|TWO_SIDED|90.0|-6.37|11.67|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||11.67|-6.37|0.625
92315840|NCT01217112|184535529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.77|STANDARD_ERROR_OF_MEAN|5.519||0.226|TWO_SIDED|90.0|-2.48|16.02|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||16.02|-2.48|0.226
92315841|NCT01217112|184535529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|5.103||0.904|TWO_SIDED|90.0|-7.94|9.18|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||9.18|-7.94|0.904
92315842|NCT01217112|184535529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.17|STANDARD_ERROR_OF_MEAN|5.71||0.285|TWO_SIDED|90.0|-3.41|15.75|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||15.75|-3.41|0.285
92315843|NCT01217112|184535530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.568||0.138|TWO_SIDED|90.0|-1.81|0.1|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.10|-1.81|0.138
92315844|NCT01217112|184535530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.547||0.505|TWO_SIDED|90.0|-1.28|0.55|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.55|-1.28|0.505
92315845|NCT01217112|184535530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.54||0.743|TWO_SIDED|90.0|-0.73|1.08|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.08|-0.73|0.743
92315846|NCT01217112|184535530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.565||0.54|TWO_SIDED|90.0|-0.6|1.29|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.29|-0.60|0.540
92315847|NCT01217112|184535532|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|1.664||0.701|TWO_SIDED|90.0|-2.14|3.43|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.43|-2.14|0.701
92315848|NCT01217112|184535532|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.77|STANDARD_ERROR_OF_MEAN|1.662||0.006|TWO_SIDED|90.0|1.99|7.55|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||7.55|1.99|0.006
92315849|NCT01217112|184535532|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.98|STANDARD_ERROR_OF_MEAN|1.589||0.542|TWO_SIDED|90.0|-1.68|3.64|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.64|-1.68|0.542
92315850|NCT01217112|184535532|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|1.627||0.827|TWO_SIDED|90.0|-2.36|3.08|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.08|-2.36|0.827
92315851|NCT00127231|184535536|EQUIVALENCE||Odds Ratio (OR)|0.42|||<|0.005|TWO_SIDED|95.0|0.23|0.75|||Mixed Models Analysis|||Drinking frequency was analyzed using a generalized binomial mixed-effects model with the logit link function and a random intercept. The use of a binomial distribution was indicated for this analysis because the outcome was assessed using a 90-day TLFB interview, which has a cap at 90 days.||0.75|0.23|<0.005
92315852|NCT03588910|184535555|SUPERIORITY|Wilcoxon rank-sum tests||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||.87
92315853|NCT03588910|184535556|SUPERIORITY|Wilcoxon rank-sum tests||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||.36
92315854|NCT03588910|184535557|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||.91
92315855|NCT03588910|184535558|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||.29
92315856|NCT03588910|184535559|SUPERIORITY|||||||0.36|||||||Chi-squared|||||||.36
92315857|NCT03096314|184535560|SUPERIORITY|||||||0.26|||||||Generalized linear model|||||||0.26
92315858|NCT03096314|184535561|SUPERIORITY||Risk Difference (RD)|4.3|||||TWO_SIDED|95.0|-0.1|8.6||||||||8.6|-0.1|
92315859|NCT03096314|184535562|SUPERIORITY||Risk Difference (RD)|3.7|||||TWO_SIDED|95.0|-0.5|8.0||||||||8.0|-0.5|
92315860|NCT03096314|184535563|SUPERIORITY||Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-5.4|6.0||||||||6.0|-5.4|
92315861|NCT03096314|184535564|SUPERIORITY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-2.7|0.0||||||||0.0|-2.7|
92192449|NCT01772823|184283981|OTHER|||||||0.0098||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.0098
92192450|NCT01772823|184283982|OTHER|||||||0.0766||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.0766
92315862|NCT03096314|184535565|SUPERIORITY||Mean Difference (Final Values)|-2.2|||||TWO_SIDED|95.0|-4.8|0.4||||||||0.4|-4.8|
92315863|NCT03096314|184535566|SUPERIORITY||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-2.1|0.5||||||||0.5|-2.1|
92315864|NCT03096314|184535567|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|0.0|0.1||||||||0.1|0|
92315865|NCT03096314|184535568|SUPERIORITY||Risk Difference (RD)|0.7|||||TWO_SIDED|95.0|-2.1|3.6||||||||3.6|-2.1|
92315866|NCT03096314|184535569|SUPERIORITY||Risk Difference (RD)|6.5|||||TWO_SIDED|95.0|-22.0|34.9||||||Mild ARDS||34.9|-22.0|
92315867|NCT03096314|184535569|SUPERIORITY||Risk Difference (RD)|-25.6|||||TWO_SIDED|95.0|-56.3|5.1||||||Moderate ARDS||5.1|-56.3|
92315868|NCT03096314|184535569|SUPERIORITY||Risk Difference (RD)|19.1|||||TWO_SIDED|95.0|-2.9|41.1||||||Severe ARDS||41.1|-2.9|
92315869|NCT03096314|184535570|SUPERIORITY||Risk Difference (RD)|-1.1|||||TWO_SIDED|95.0|-7.3|5.0||||||No AKI||5.0|-7.3|
92315870|NCT03096314|184535570|SUPERIORITY||Risk Difference (RD)|-1.1|||||TWO_SIDED|95.0|-5.6|3.4||||||Mild AKI||3.4|-5.6|
92315871|NCT03096314|184535570|SUPERIORITY||Risk Difference (RD)|-0.6|||||TWO_SIDED|95.0|-4.4|3.2||||||Moderate AKI||3.2|-4.4|
92315872|NCT03096314|184535570|SUPERIORITY||Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-1.7|7.3||||||Severe AKI||7.3|-1.7|
92315873|NCT03096314|184535571|SUPERIORITY||Risk Difference (RD)|0.5|||||TWO_SIDED|95.0|-1.9|2.9||||||||2.9|-1.9|
92192451|NCT01772823|184283983|OTHER|||||||0.1581||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.1581
92315874|NCT03096314|184535572|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.2|0.1||||||||0.1|-0.2|
92315875|NCT03096314|184535573|SUPERIORITY||Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-4.4|5.1||||||||5.1|-4.4|
92192452|NCT01772823|184283984|OTHER|||||||0.43||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.4300
92192453|NCT01772823|184283985|OTHER|||||||0.1201||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.1201
92192454|NCT01772823|184283986|OTHER|||||||0.1682||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.1682
92315876|NCT03096314|184535574|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.3|0.0||||||||0.0|-0.3|
92315877|NCT03096314|184535575|SUPERIORITY||Mean Difference (Final Values)|35.5|||||TWO_SIDED|95.0|31.5|39.6||||||||39.6|31.5|
92315878|NCT03096314|184535576|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
92315879|NCT03096314|184535577|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
92315880|NCT03096314|184535578|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
92315881|NCT03096314|184535579|SUPERIORITY|||||||0.25|||||||Fisher Exact|||||||0.25
92315882|NCT03096314|184535580|SUPERIORITY|||||||0.69|||||||Chi-squared|||||||0.69
92315883|NCT03096314|184535581|SUPERIORITY|||||||0.24|||||||Chi-squared|||||||0.24
92315884|NCT03290378|184535713|SUPERIORITY||||||<|0.005|TWO_SIDED|95.0|||||ANCOVA|||||||<.005
92315885|NCT01062425|184535734|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||||||One-sided test with significance level of 0.15.|Z-test|||The null hypothesis was that the 6m PFS rates for both arms are 50%, and the alternative hypothesis was that patients receiving the experimental regimen would have a 6-month PFS rate of 66%. With 150 eligible patients, there would be an 80% statistical power to detect the 16% absolute increase in 6m PFS at a significance level of 0.15, using a one-sided Z test for two proportions.||||0.005
92315886|NCT01062425|184535735|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.44|TWO_SIDED|95.0|0.6|1.24||Significance level 0.05, two-sided test.|Log Rank||Placebo is the reference arm for the hazard ratio.|||1.24|0.6|0.44
92315887|NCT01062425|184535735|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.648|TWO_SIDED|95.0|0.62|1.34|||Regression, Cox||Placebo is reference level for the hazard ratio.|Multivariate analysis with the Cox proportional hazard model for overall survival was performed with the stratification variables as fixed variables to assess the treatment effect adjusting patient-specific risk factors. The covariates evaluated for the multivariate models were assigned protocol treatment, MGMT methylation status, and RPA risk class.||1.34|0.62|0.648
92315888|NCT01062425|184535736|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.67||||0.03|TWO_SIDED|95.0|0.47|0.95||Significance level 0.05, two-sided test.|Log Rank||Placebo is the reference arm for the hazard ratio.|||0.95|0.47|0.03
92315889|NCT01062425|184535736|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.67||||0.036|TWO_SIDED|95.0|0.46|0.97|||Regression, Cox||Placebo is the reference arm.|Multivariate analysis with the Cox proportional hazard model for progression-free survival was performed with the stratification variables as fixed variables to assess the treatment effect adjusting patient-specific risk factors. The covariates evaluated for the multivariate models were assigned protocol treatment, MGMT methylation status, and recursive partitioning analysis (RPA) risk class.||0.97|0.46|0.036
92315890|NCT01062425|184535737|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||||||Significance level 0.05, two-sided test.|Chi-squared|||||||0.02
92315891|NCT00191477|184535762|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.946||||0.777||95.0|0.643|1.392||Only 87 recurrences and 7 deaths were documented at planned end of follow-up. The study was stopped early for futility reasons based on an interim analysis using pre-defined stopping boundaries for the hazard ratio (HR) of RFS.|Log Rank|||Sample-size calculation based on estimated 1-year recurrence-free survival (RFS) rates of 63% (gemcitabine) and 50% (placebo). 191 critical events were required to detect a difference in RFS (80% power, log-rank test, alpha=0.050). Sample size of 328 patients with clinical evidence of superficial bladder cancer needed to observe these 191 events within a 24-month follow-up period, assuming 246 of these patients would receive instillation and have histopathological diagnosis of pTa/pT1(G1-3/Gx).||1.392|0.643|0.777
92192455|NCT01772823|184283987|OTHER|||||||0.2747||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.2747
92315892|NCT01108718|184535783|SUPERIORITY_OR_OTHER||Rate of Preference|0.45|STANDARD_DEVIATION|0.5|>|0.1|TWO_SIDED|95.0|0.43|0.47|||McNemar||Rate of preference refers specifically to Tempur-Pedic Mattress.|h0: Rate Preference Tempur-pedic mattress = Rate Preference control mattress h1: Rate Preference Tempur-pedic mattress = Rate Preference control mattress||.47|.43|>0.1
92315893|NCT02857816|184535786|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||This is a single arm study. The primary objective was to demonstrate a statistically significant reduction between baseline and following the 12th PTNM therapy sessions in the number of UUI episodes per day.||||<0.0001
92315894|NCT03787134|184535849|SUPERIORITY|||||||0.335|||||||t-test, 2 sided|||cued memory item reconstruction - test of reconstruction strength against 0||||.335
92315895|NCT03787134|184535849|SUPERIORITY|||||||0.016|||||||t-test, 2 sided|||uncued memory item reconstruction - test of reconstruction strength against 0||||.016
92315896|NCT03281876|184535865|OTHER|Vaccine Efficacy is defined as 1 minus the risk ratio (Rvacc / Rcon) based on the number of moderate and severe AECOPD observed in 1 year , with Rvacc = average yearly incidence rate of AECOPD events per subject in the GSK3277511A Group and Rcon = average yearly incidence rate of AECOPD events per subject in the Control group. The objective is to be considered a success if the lower limit of the 87% CI is above 0%.|Other: Vaccine Efficacy rate|-2.26||||0.8157|TWO_SIDED|87.0|-18.27|11.58|||Negative Binomial regression|Negative Binomial model with arm, country, gold grade, history of exacerbation and age category as covariates and log time as offset variable||To assess efficacy of the investigational vaccine as compared to the placebo control with respect to the rate of moderate and severe AECOPDs||11.58|-18.27|0.8157
92315897|NCT03281876|184535866|OTHER|Vaccine Efficacy is defined as 1 minus the risk ratio (Rvacc / Rcon) based on the number of moderate and severe AECOPD observed in 1 year , with Rvacc = average yearly incidence rate of AECOPD events per subject in the GSK3277511A Group and Rcon = average yearly incidence rate of AECOPD events per subject in the Control group.|Other: Vaccine Efficacy rate|-2.26||||0.8157|TWO_SIDED|95.0|-23.45|15.29|||Negative Binomial regression|Negative Binomial model with arm, country, gold grade, history of exacerbation and age category as covariates and log time as offset variable||To assess efficacy of the investigational vaccine as compared to the placebo control with respect to the rate of moderate and severe AECOPDs||15.29|-23.45|0.8157
92315898|NCT03281876|184535873|OTHER|Vaccine Efficacy is defined as 1 minus the risk ratio (Rvacc / Rcon) based on the number of moderate and severe AECOPD observed in 1 year , with Rvacc = average yearly incidence rate of AECOPD events per subject in the GSK3277511A Group and Rcon = average yearly incidence rate of AECOPD events per subject in the control group.|Vaccine efficacy rate|-2.72||||0.77|TWO_SIDED|95.0|-22.95|14.19|||Negative Binomial regression|||To assess efficacy of the investigational vaccine as compared to the placebo control with respect to the rate of AECOPDs of any severity- upto 12 months follow up period||14.19|-22.95|0.7700
92315899|NCT03281876|184535875|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|0.94||||0.5751|TWO_SIDED|95.0|0.758|1.166|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for moderate or severe AECOPDs, one year follow-up starting 1 month post dose 2||1.166|0.758|0.5751
92315900|NCT03281876|184535876|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|0.934||||0.5194|TWO_SIDED|95.0|0.758|1.15|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for any AECOPDs, one year follow-up starting 1 month post dose 2||1.15|0.758|0.5194
92315901|NCT03281876|184535877|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|1.05||||0.8581|TWO_SIDED|95.0|0.616|1.791|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for mild AECOPDs, one year follow-up starting 1 month post dose 2||1.791|0.616|0.8581
92315902|NCT03281876|184535877|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|0.995||||0.9634|TWO_SIDED|95.0|0.792|1.249|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for moderate AECOPDs, one year follow-up starting 1 month post dose 2||1.249|0.792|0.9634
92192456|NCT01772823|184283988|OTHER|||||||0.0046||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.0046
92315903|NCT03281876|184535877|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|0.722||||0.1755|TWO_SIDED|95.0|0.45|1.157|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for severe AECOPDs, one year follow-up starting 1 month post dose 2||1.157|0.45|0.1755
92315904|NCT03281876|184535884|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|1.038||||0.9463|TWO_SIDED|95.0|0.73|1.477|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for moderate or severe NTHi-associated and/or Mcat-associated AECOPDs, one year follow-up starting 1 month post dose 2||1.477|0.73|0.9463
92315905|NCT03281876|184535885|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|1.093||||0.6042|TWO_SIDED|95.0|0.782|1.528|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for any NTHi-associated and/or Mcat-associated AECOPDs, one year follow-up starting 1 month post dose 2||1.528|0.782|0.6042
92192457|NCT01772823|184283989|OTHER|||||||0.029||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.0290
92192458|NCT01772823|184283990|OTHER|||||||0.107|||||||Kruskal-Wallis|||||||0.1070
92192459|NCT01772823|184283992|OTHER|||||||0.2991||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant self-identified race) differ between groups (On PrEP vs. Off PrEP).|Fisher Exact|||||||0.2991
92315906|NCT03281876|184535886|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|2.243||||0.0777|TWO_SIDED|95.0|0.914|5.504|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for mild NTHi-associated and/or Mcat-associated AECOPDs, one year follow-up starting 1 month post dose 2||5.504|0.914|0.0777
92315907|NCT03281876|184535886|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|1.021||||0.9121|TWO_SIDED|95.0|0.71|1.467|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for moderate NTHi-associated and/or Mcat-associated AECOPDs, one year follow-up starting 1 month post dose 2||1.467|0.71|0.9121
92315908|NCT03281876|184535886|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|1.12||||0.8737|TWO_SIDED|95.0|0.278|4.502|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for severe NTHi-associated and/or Mcat-associated AECOPDs, one year follow-up starting 1 month post dose 2||4.502|0.278|0.8737
92315909|NCT02208089|184535898|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Null hypothesis = TransPRK produced no gains in vision over and above those produced by CXL only||||0.03
92315910|NCT02208089|184535899|SUPERIORITY|||||||0.005|||||||Chi-squared|||Null hypothesis = an equal proportion of patients in both study arms have clinically significant visual gains||||0.005
92315911|NCT02208089|184535900|NON_INFERIORITY|Non-inferiority = no significant difference between rates of clinically significant visual loss between groups at the p≤0.05 level||||||0.13|||||||Chi-squared|||null hypothesis = rates of clinically significant visual loss are equal for TransPRKCXL and CXL only||||0.13
92192460|NCT01772823|184283993|OTHER|||||||0.0298||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant self-identified race) differ between groups (On PrEP vs. Off PrEP).|Fisher Exact|||||||0.0298
92192461|NCT01772823|184283994|OTHER|||||||0.8643||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant self-identified ethnicity) differ between groups (On PrEP vs. Off PrEP).|Fisher Exact|||||||0.8643
92192462|NCT01772823|184283995|OTHER|||||||0.9037||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant BMI) differ between groups (On PrEP vs. Off PrEP).|Fisher Exact|||||||0.9037
92192463|NCT01772823|184283996|OTHER|||||||0.5279|||||||Kruskal-Wallis|||||||0.5279
92192464|NCT01772823|184283997|OTHER|||||||0.5369||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participation in high-risk sex acts) differ between groups (On PrEP vs. Off PrEP).|Fisher Exact|||||||0.5369
92192465|NCT01772823|184284000|OTHER|||||||0.2193||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.2193
92315912|NCT02443740|184535912|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio.|39.58|||||TWO_SIDED|90.0|30.14|51.99|||||Values have been back-transformed from the log scale.|||51.99|30.14|
92315913|NCT02443740|184535913|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|80.6|||||TWO_SIDED|90.0|59.74|108.75|||||Values have been back-transformed from the log scale.|||108.75|59.74|
92315914|NCT02443740|184535914|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|80.12|||||TWO_SIDED|90.0|58.92|108.94|||||Values have been back-transformed from the log scale.|||108.94|58.92|
92315915|NCT02443740|184535919|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|65.58|||||TWO_SIDED|90.0|62.18|69.16|||||Values have been back-transformed from the log scale.|||69.16|62.18|
92192466|NCT01772823|184284001|OTHER|||||||0.1255||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.1255
92192467|NCT01772823|184284002|OTHER|||||||0.0706||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.0706
92192468|NCT01772823|184284003|OTHER|||||||0.0088||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.0088
92192469|NCT01772823|184284004|OTHER|||||||0.2482||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.2482
92315916|NCT02443740|184535920|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|68.62|||||TWO_SIDED|90.0|63.27|74.41|||||Values have been back-transformed from the log scale.|||74.41|63.27|
92315917|NCT02443740|184535921|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio.|29.76|||||TWO_SIDED|90.0|24.17|36.64|||||Values have been back-transformed from the log scale.|||36.64|24.17|
92315918|NCT02443740|184535923|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|16.71|||||TWO_SIDED|90.0|15.35|18.18|||||Values were back-transformed from the log scale.|||18.18|15.35|
92315919|NCT02443740|184535925|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|15.21|||||TWO_SIDED|90.0|13.29|17.42|||||Values were back-transformed from the log scale.|||17.42|13.29|
92315920|NCT00683657|184535936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|4.16||0.0001|TWO_SIDED|95.0|-25.1|-8.5||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|ANCOVA Model: post - pre = pre treatment|Mean difference = adjusted mean change for saxagliptin 5 mg + Metformin - adjusted mean change for Placebo + Metformin.|With 39 subjects per treatment group, there was a 93% power for the primary endpoint to detect a difference in 24-hour mean weighted glucose of 16 mg/dL between saxagliptin and placebo, assuming a standard deviation of 20 mg/dL. Assuming a dropout rate of 15%, a total of 92 subjects (46 subjects per treatment arm) needed to be randomized.||-8.5|-25.1|0.0001
92315921|NCT00683657|184535937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|7.1|<|0.0001|TWO_SIDED|95.0|-44.4|-16.1||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|ANCOVA model: post - pre = pretreatment|Mean difference = adjusted mean change for saxagliptin 5 mg + Metformin - adjusted mean change for Placebo + Metformin|With 39 subjects per treatment group, there was a 93% power for the primary endpoint to detect a difference in 24-hour mean weighted glucose of 16 mg/dL between saxagliptin and placebo, assuming a standard deviation of 20 mg/dL. Assuming a dropout rate of 15%, a total of 92 subjects (46 subjects per treatment arm) needed to be randomized.||-16.1|-44.4|<0.0001
92315922|NCT00683657|184535938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.4|STANDARD_ERROR_OF_MEAN|10.41||0.001|TWO_SIDED|95.0|-56.2|-14.7||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|ANCOVA model: post - pre = pretreatment|Mean difference = adjusted mean change for saxagliptin 5 mg + Metformin - adjusted mean change for Placebo + Metformin|With 39 subjects per treatment group, there was a 93% power for the primary endpoint to detect a difference in 24-hour mean weighted glucose of 16 mg/dL between saxagliptin and placebo, assuming a standard deviation of 20 mg/dL. Assuming a dropout rate of 15%, a total of 92 subjects (46 subjects per treatment arm) needed to be randomized.||-14.7|-56.2|0.0010
92315923|NCT00683657|184535939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.7|STANDARD_ERROR_OF_MEAN|4.22|<|0.0001|TWO_SIDED|95.0|-27.1|-10.3||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|ANCOVA Model: post - pre = pretreatment|Mean difference = adjusted mean change for saxagliptin 5 mg + Metformin - adjusted mean change for Placebo + Metformin|With 39 subjects per treatment group, there was a 93% power for the primary endpoint to detect a difference in 24-hour mean weighted glucose of 16 mg/dL between saxagliptin and placebo, assuming a standard deviation of 20 mg/dL. Assuming a dropout rate of 15%, a total of 92 subjects (46 subjects per treatment arm) needed to be randomized.||-10.3|-27.1|<0.0001
92315924|NCT00683657|184535940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|STANDARD_ERROR_OF_MEAN|4.0||0.0002|TWO_SIDED|95.0|-23.3|-7.4||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|ANCOVA Model: post - pre = pretreatment|Mean difference = adjusted mean change for saxagliptin 5 mg + Metformin - adjusted mean change for Placebo + Metformin|With 39 subjects per treatment group, there was a 93% power for the primary endpoint to detect a difference in 24-hour mean weighted glucose of 16 mg/dL between saxagliptin and placebo, assuming a standard deviation of 20 mg/dL. Assuming a dropout rate of 15%, a total of 92 subjects (46 subjects per treatment arm) needed to be randomized.||-7.4|-23.3|0.0002
92315925|NCT01074944|184535941|NON_INFERIORITY_OR_EQUIVALENCE|Eliglustat QD treatment was declared non-inferior to BID treatment if the lower bound of the 95% confidence interval (CI) for the difference was within the non-inferiority margin of -0.15 (or -15%).|Difference in Percentage Stable|-2.7|||||TWO_SIDED|95.0|-17.7|11.9||||||||11.9|-17.7|
92315926|NCT03741400|184535986|OTHER|||||||0.88||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in total seconds||||0.88
92192470|NCT01772823|184284005|OTHER|||||||0.1647||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.1647
92192471|NCT01772823|184284006|OTHER|||||||0.688||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.6880
92192472|NCT01772823|184284007|OTHER|||||||0.2881||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.2881
92192473|NCT01772823|184284008|OTHER|||||||0.2223||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.2223
92192474|NCT01772823|184284009|OTHER|||||||0.0617||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.0617
92315927|NCT03741400|184535986|OTHER|||||||0.99||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in fine motor skill assessment||||0.99
92315928|NCT03741400|184535986|OTHER|||||||0.8||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in gross motor skills assessment||||0.80
92315929|NCT03741400|184535987|OTHER|||||||0.61||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||||||0.61
92315930|NCT03741400|184535988|OTHER|||||||0.47||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in total seconds||||0.47
92192475|NCT01772823|184284010|OTHER|||||||0.0868||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.0868
92192476|NCT01772823|184284011|OTHER|||||||0.1847||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.1847
92192477|NCT01772823|184284012|OTHER|||||||0.0226||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.0226
92192478|NCT05109117|184284015|SUPERIORITY||Adjusted Mean Difference|2.8|||<|0.0001|TWO_SIDED|95.0|1.7|3.9|||ANCOVA|Analysis of Covariance (ANCOVA) model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 2 hours post-treatment||3.9|1.7|<0.0001
92315931|NCT03741400|184535988|OTHER|||||||0.55||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in fine motor skill assessment||||0.55
92315932|NCT03741400|184535988|OTHER|||||||0.38||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in gross motor skills assessment||||0.38
92315933|NCT03741400|184535989|OTHER|||||||0.24||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||||||0.24
92315934|NCT03741400|184535990|OTHER|||||||0.18||||||A priori threshold for statistical significance, 0.05|Mann-Whitney U test|||||||0.18
92315935|NCT03741400|184535991|OTHER|||||||0.926||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis at week 12||||0.926
92315936|NCT03741400|184535991|OTHER|||||||0.828||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis at week 24||||0.828
92315937|NCT02892331|184536016|SUPERIORITY|||||||0.006||||||VO2 testing was not performed for one participant in the HIGH-INT group.|ANCOVA|||Comparison between the CON and the HIGH-INT group||||0.006
92315938|NCT02892331|184536016|SUPERIORITY|||||||0.045||||||VO2 testing was not performed for one participant in the HIGH-INT group.|ANCOVA|||Comparison between the CON and MOD-INT group||||0.045
92192479|NCT05109117|184284015|SUPERIORITY||Adjusted Mean Difference|1.5||||0.0077|TWO_SIDED|95.0|0.4|2.7|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 4 hours post-treatment||2.7|0.4|0.0077
92192480|NCT05109117|184284015|SUPERIORITY||Adjusted Mean Difference|1.8||||0.0019|TWO_SIDED|95.0|0.7|2.9|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 6 hours post-treatment||2.9|0.7|0.0019
92192481|NCT05109117|184284015|SUPERIORITY||Adjusted Mean Difference|1.0||||0.0707|TWO_SIDED|95.0|-0.1|2.2|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 8 hours post-treatment||2.2|-0.1|0.0707
92192482|NCT03897049|184284017|SUPERIORITY||Odds Ratio (OR)|0.961||||0.914|TWO_SIDED|95.0|0.463|1.994|||Regression, Logistic|||||1.994|0.463|0.914
92192483|NCT03897049|184284018|SUPERIORITY||Odds Ratio (OR)|0.979||||0.99|TWO_SIDED|95.0|0.473|2.074|||Regression, Logistic|||||2.074|0.473|0.990
92315939|NCT02892331|184536016|SUPERIORITY|VO2 testing was not performed for one participant in the HIGH-INT group.||||||0.449|||||||ANCOVA|||Comparison between MOD-INT and High-INT groups||||0.449
92315940|NCT02892331|184536017|SUPERIORITY|||||||0.276|||||||ANCOVA|||Comparison between the CON and High-INT groups||||0.276
92315941|NCT02892331|184536017|SUPERIORITY|||||||0.633|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.633
92315942|NCT02892331|184536017|SUPERIORITY|||||||0.555|||||||ANCOVA|||Comparison between the MOD-INT and HIGH-INT groups||||0.555
92315943|NCT02892331|184536018|SUPERIORITY|||||||0.37|||||||ANCOVA|||Comparison between the CON group and the HIGH-INT group||||0.370
92315944|NCT02892331|184536018|SUPERIORITY|||||||0.383|||||||ANCOVA|||Comparison between the CON and the MOD-INT group||||0.383
92315945|NCT02892331|184536018|SUPERIORITY|||||||0.0972|||||||ANCOVA|||Comparison for the MOD-INT and HIGH-INT groups||||0.0972
92315946|NCT02892331|184536019|SUPERIORITY|||||||0.932|||||||ANCOVA|||Comparison between the CON and the HIGH-INT groups||||0.932
92315947|NCT02892331|184536019|SUPERIORITY|||||||0.307|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.307
92315948|NCT02892331|184536019|SUPERIORITY|||||||0.376|||||||ANCOVA|||Comparison between the MOD-INT and the HIGH-INT groups||||0.376
92315949|NCT02892331|184536020|SUPERIORITY|||||||0.136|||||||ANCOVA|||Comparison between the CON and the HIGH-INT groups||||0.136
92315950|NCT02892331|184536020|SUPERIORITY|||||||0.262|||||||ANCOVA|||Comparison between the CON and the MOD-INT group||||0.262
92315951|NCT02892331|184536020|SUPERIORITY|||||||0.715|||||||ANCOVA|||Comparison between the MOD-INT group and the HIGH-INT groups||||0.715
92315952|NCT02892331|184536021|SUPERIORITY|||||||0.056|||||||ANCOVA|||Comparison between the CON and High-INT groups||||0.056
92315953|NCT02892331|184536021|SUPERIORITY|||||||0.349|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.349
92315954|NCT02892331|184536021|SUPERIORITY|||||||0.359|||||||ANCOVA|||Comparison between the MOD-INT and HIGH-INT groups||||0.359
92315955|NCT02892331|184536022|SUPERIORITY|||||||0.224|||||||ANCOVA|||Comparison between the CON and HIGH-INT groups||||0.224
92192484|NCT03897049|184284019|SUPERIORITY||Odds Ratio (OR)|1.434||||0.167|TWO_SIDED|95.0|0.861|2.39|||Regression, Logistic|||||2.390|0.861|0.167
92192485|NCT03897049|184284020|SUPERIORITY||Odds Ratio (OR)|1.492||||0.118|TWO_SIDED|95.0|0.903|2.466|||Regression, Logistic|||||2.466|0.903|0.118
92192486|NCT03897049|184284021|SUPERIORITY||Odds Ratio (OR)|1.335||||0.265|TWO_SIDED|95.0|0.803|2.221|||Regression, Logistic|||||2.221|0.803|0.265
92192487|NCT03897049|184284022|SUPERIORITY||Odds Ratio (OR)|0.99||||0.971|TWO_SIDED|95.0|0.593|1.654|||Regression, Logistic|||||1.654|0.593|0.971
92315956|NCT02892331|184536022|SUPERIORITY|||||||0.199|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.199
92315957|NCT02892331|184536022|SUPERIORITY|||||||0.952|||||||ANCOVA|||Comparison between the MOD-INT and the HIGH-INT groups||||0.952
92315958|NCT02892331|184536023|SUPERIORITY|||||||0.783|||||||ANCOVA|||Comparison between the CON and HIGH-INT groups||||0.783
92315959|NCT02892331|184536023|SUPERIORITY|||||||0.098|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.098
92315960|NCT02892331|184536023|SUPERIORITY|||||||0.071|||||||ANCOVA|||Comparison between the MOD and HIGH-INT groups||||0.071
92315961|NCT02892331|184536024|SUPERIORITY|||||||0.94|||||||ANCOVA|||Comparison between the CON and the HIGH-INT groups||||0.940
92315962|NCT02892331|184536024|SUPERIORITY|||||||0.994|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.994
92315963|NCT02892331|184536024|SUPERIORITY|||||||0.94|||||||ANCOVA|||Comparison between the MOD-INT and HIGH-INT groups||||0.940
92315964|NCT02892331|184536025|SUPERIORITY|||||||0.769|||||||ANCOVA|||Comparison of the CON and HIGH-INT groups||||0.769
92315965|NCT02892331|184536025|SUPERIORITY|||||||0.8|||||||ANCOVA|||Comparison of the CON and MOD-INT groups||||0.800
92315966|NCT02892331|184536025|SUPERIORITY|||||||0.769|||||||ANCOVA|||||||0.769
92315967|NCT02892331|184536026|SUPERIORITY|||||||1|||||||ANCOVA|||Comparison between the CON and the MOD groups||||1.000
92315968|NCT02892331|184536026|SUPERIORITY|||||||0.993|||||||ANCOVA|||Comparison of HIGH-INT and CON groups||||0.993
92315969|NCT02892331|184536026|SUPERIORITY|||||||0.994|||||||ANCOVA|||Comparison between the MOD-INT and the HIGH-INT groups||||0.994
92315970|NCT02892331|184536027|SUPERIORITY|||||||0.821|||||||ANCOVA|||Change in insulin sensitivity (CON vs. HIGH-INT)||||0.821
92315971|NCT02892331|184536027|SUPERIORITY|||||||0.985|||||||ANCOVA|||Change in insulin sensitivity (CON vs. MOD-INT)||||0.985
92315972|NCT02892331|184536027|SUPERIORITY|||||||0.856|||||||ANCOVA|||Change in insulin sensitivity (MOD-INT vs. HIGH-INT)||||0.856
92315973|NCT02892331|184536028|SUPERIORITY|||||||0.093|||||||ANCOVA|||Comparison between the CON and HIGH-INT groups||||0.093
92315974|NCT02892331|184536028|SUPERIORITY|||||||0.033|||||||ANCOVA|||Comparison between the CON and the MOD-INT groups||||0.033
92315975|NCT02892331|184536028|SUPERIORITY|||||||0.602|||||||ANCOVA|||Comparison between the MOD-INT and HIGH-INT groups||||0.602
92192488|NCT03897049|184284023|SUPERIORITY||Mean Difference (Net)|-0.27||||0.942|TWO_SIDED||||||Regression, Linear|||||||0.942
92315976|NCT02892331|184536029|SUPERIORITY|||||||0.424|||||||ANCOVA|||Change in PGC1A (CON vs. HIGH-INT)||||0.424
92192489|NCT03897049|184284024|SUPERIORITY||Mean Difference (Net)|0.02||||0.741|TWO_SIDED||||||Regression, Linear|||||||0.741
92192490|NCT03897049|184284025|SUPERIORITY||Mean Difference (Net)|0.07||||0.494|TWO_SIDED||||||Regression, Linear|||||||0.494
92192491|NCT03897049|184284026|SUPERIORITY||Mean Difference (Net)|0.15||||0.651|TWO_SIDED||||||Regression, Linear|||||||0.651
92192492|NCT03897049|184284027|SUPERIORITY||Mean Difference (Net)|0.3||||0.022|TWO_SIDED||||||Regression, Linear|||||||0.022
92315977|NCT02892331|184536029|SUPERIORITY|||||||0.308|||||||ANCOVA|||Change in PGC1A (CON vs. MOD-INT)||||0.308
92315978|NCT02892331|184536029|SUPERIORITY|||||||0.844|||||||ANCOVA|||Change in PGC1a (MOD-INT vs. HIGH-INT)||||0.844
92315979|NCT02892331|184536029|SUPERIORITY|||||||0.135|||||||ANCOVA|||Change in citrate synthase (CON vs. HIGH-INT)||||0.135
92315980|NCT02892331|184536029|SUPERIORITY|||||||0.8|||||||ANCOVA|||Change in Citrate synthase (CON vs. MOD-INT)||||0.800
92315981|NCT02892331|184536029|SUPERIORITY|||||||0.195|||||||ANCOVA|||Change in citrate synthase||||0.195
92315982|NCT02892331|184536029|SUPERIORITY|||||||0.459|||||||ANCOVA|||Change in complex I||||0.459
92315983|NCT02892331|184536029|SUPERIORITY|||||||0.213|||||||ANCOVA|||Change in complex 1 (CON vs. MOD-INT groups)||||0.213
92315984|NCT02892331|184536029|SUPERIORITY|||||||0.971|||||||ANCOVA|||Change in complex II (MOD-INT vs. HIGH-INT)||||0.971
92315985|NCT02892331|184536029|SUPERIORITY|||||||0.634|||||||ANCOVA|||Change in complex III (CON vs. HIGH-INT)||||0.634
92315986|NCT02892331|184536029|SUPERIORITY|||||||0.919|||||||ANCOVA|||Change in Complex III (CON vs. MOD-INT groups)||||0.919
92315987|NCT02892331|184536029|SUPERIORITY|||||||0.574|||||||ANCOVA|||Change in complex III||||0.574
92315988|NCT02892331|184536029|SUPERIORITY|||||||0.295|||||||ANCOVA|||Change in Complex IV (CON vs. HIGH-INT)||||0.295
92315989|NCT02892331|184536029|SUPERIORITY|||||||0.097|||||||ANCOVA|||Change in complex IV (CON vs. MOD-INT)||||0.097
92192493|NCT03897049|184284028|SUPERIORITY||Mean Difference (Net)|2.85||||0.189|TWO_SIDED||||||Regression, Linear|||||||0.189
92192494|NCT03897049|184284029|SUPERIORITY||Mean Difference (Final Values)|3.07||||0.218|TWO_SIDED||||||Regression, Linear|||||||0.218
92192495|NCT03897049|184284030|SUPERIORITY||Odds Ratio (OR)|0.479||||0.149|TWO_SIDED|95.0|0.173|1.305|||Regression, Logistic|||||1.305|0.173|0.149
92192496|NCT03897049|184284031|SUPERIORITY||Odds Ratio (OR)|1.111||||0.839|TWO_SIDED|95.0|0.403|3.063|||Regression, Logistic|||||3.063|0.403|0.839
92192497|NCT03897049|184284032|SUPERIORITY||Odds Ratio (OR)|3.302||||0.063|TWO_SIDED|95.0|0.937|11.641|||Regression, Logistic|||||11.641|0.937|0.063
92192498|NCT03897049|184284033|SUPERIORITY||Mean Difference (Net)|-0.08||||0.65|TWO_SIDED||||||Regression, Linear|||||||0.650
92192499|NCT03897049|184284034|SUPERIORITY||Mean Difference (Net)|0.09||||0.531|TWO_SIDED||||||Regression, Linear|||||||0.531
92192500|NCT03897049|184284035|SUPERIORITY||Mean Difference (Net)|-0.03||||0.761|TWO_SIDED||||||Regression, Linear|||||||0.761
92192501|NCT03897049|184284036|SUPERIORITY||Mean Difference (Net)|0.11||||0.503|TWO_SIDED||||||Regression, Linear|||||||0.503
92192502|NCT03897049|184284037|SUPERIORITY||Mean Difference (Net)|0.01||||0.541|TWO_SIDED||||||Regression, Linear|||||||0.541
92192503|NCT03897049|184284038|SUPERIORITY||Mean Difference (Net)|-0.02||||0.537|TWO_SIDED||||||Regression, Linear|||||||0.537
92315990|NCT02892331|184536029|SUPERIORITY|||||||0.468|||||||ANCOVA|||Change in complex IV||||0.468
92315991|NCT02892331|184536029|SUPERIORITY|||||||0.589|||||||ANCOVA|||Change in complex V||||0.589
92315992|NCT02892331|184536029|SUPERIORITY|||||||0.196|||||||ANCOVA|||Change in complex V (CON vs. MOD-INT)||||0.196
92315993|NCT02892331|184536029|SUPERIORITY|||||||0.436|||||||ANCOVA|||Change in Complex V (MOD-INT vs. HIGH-INT)||||0.436
92315994|NCT02892331|184536030|SUPERIORITY|||||||0.756|||||||ANCOVA|||Comparison of general health subscale (CON vs. HIGH INT)||||0.756
92315995|NCT02892331|184536030|SUPERIORITY|||||||0.115|||||||ANCOVA|||General Health Subscale (CON vs. MOD-INT)||||0.115
92315996|NCT02892331|184536030|SUPERIORITY|||||||0.225|||||||ANCOVA|||General Health Subscale (MOD-INT vs. HIGH-INT)||||0.225
92315997|NCT02892331|184536030|SUPERIORITY|||||||0.758|||||||ANCOVA|||Physical health Sub-scale (CON vs. HIGH-INT)||||0.758
92315998|NCT02892331|184536030|SUPERIORITY|||||||0.759|||||||ANCOVA|||Physical health subscale (CON vs. MOD-INT)||||0.759
92315999|NCT02892331|184536030|SUPERIORITY|||||||0.465|||||||ANCOVA|||Physical Health subscale (MOD-INT vs. HIGH-INT)||||0.465
92316000|NCT02892331|184536030|SUPERIORITY|||||||0.549|||||||ANCOVA|||Role Physical subscale (CON vs. HIGH-INT)||||0.549
92316001|NCT02892331|184536030|SUPERIORITY|||||||0.679|||||||ANCOVA|||Role Physical Subscale (CON vs. MOD-INT)||||0.679
92316002|NCT02892331|184536030|SUPERIORITY|||||||0.334|||||||ANCOVA|||Role Physical Subscale (MOD-INT vs. HIGH-INT)||||0.334
92316003|NCT02892331|184536030|SUPERIORITY|||||||0.273|||||||ANCOVA|||Bodily pain subscale (CON vs. HIGH-INT)||||0.273
92316004|NCT02892331|184536030|SUPERIORITY|||||||0.642|||||||ANCOVA|||Bodily pain subscale (CON vs. MOD-INT)||||0.642
92316005|NCT02892331|184536030|SUPERIORITY|||||||0.52|||||||ANCOVA|||Bodily Pain Subscale (MOD-INT vs. HIGH-INT)||||0.520
92316006|NCT02892331|184536030|SUPERIORITY|||||||0.46|||||||ANCOVA|||Vitality subscale (CON vs. HIGH-INT)||||0.460
92316007|NCT02892331|184536030|SUPERIORITY|||||||0.203|||||||ANCOVA|||Vitality sub-scale (CON vs. MOD-INT group)||||0.203
92316008|NCT02892331|184536030|SUPERIORITY|||||||0.058|||||||ANCOVA|||Vitality subscale (MOD-INT vs. HIGH-INT)||||0.058
92316009|NCT02892331|184536030|SUPERIORITY|||||||0.739|||||||ANCOVA|||Social Function subscale (CON vs. HIGH-INT)||||0.739
92316010|NCT02892331|184536030|SUPERIORITY|||||||0.059|||||||ANCOVA|||Social Function subscale (CON vs. MOD-INT)||||0.059
92316011|NCT02892331|184536030|SUPERIORITY|||||||0.038|||||||ANCOVA|||Social Function sub-scale (HIGH-INT vs. MOD-INT)||||0.0380
92316012|NCT02892331|184536030|SUPERIORITY|||||||0.95|||||||ANCOVA|||Comparison of mental health subscale (CON vs. HIGH-INT)||||0.950
92316013|NCT02892331|184536030|SUPERIORITY|||||||0.096|||||||ANCOVA|||Change in mental health subscale (CON Vs. MOD INT)||||0.096
92316014|NCT02892331|184536030|SUPERIORITY|||||||0.127|||||||ANCOVA|||Change in mental health subscale (MOD-INT vs. HIGH-INT)||||0.127
92316015|NCT02892331|184536030|SUPERIORITY|||||||0.373|||||||ANCOVA|||Change in role emotional subscale (CON vs HIGH-INT)||||0.373
92316016|NCT02892331|184536030|SUPERIORITY|||||||0.63|||||||ANCOVA|||Change in role emotional sub-scale||||0.630
92316017|NCT02892331|184536030|SUPERIORITY|||||||0.034|||||||ANCOVA|||Change in role emotional subscale (MOD vs. HIGH-INT)||||0.034
92316018|NCT02892331|184536030|SUPERIORITY|||||||0.07|||||||ANCOVA|||Change in role emotional subscale (CON vs. MOD-INT)||||0.070
92316019|NCT02892331|184536030|SUPERIORITY|||||||0.945|||||||ANCOVA|||Change in physical health sub-scale (MOD-INT vs. HIGH-INT)||||0.945
92316020|NCT02892331|184536031|SUPERIORITY|||||||0.65|||||||ANCOVA|||Change in the mental health sum scale (CON vs. HIGH-INT)||||0.650
92192504|NCT03897049|184284039|SUPERIORITY||Mean Difference (Net)|0.19||||0.057|TWO_SIDED||||||Regression, Linear|||||||0.057
92316021|NCT02892331|184536031|SUPERIORITY|||||||0.034|||||||ANCOVA|||Change in mental health (sum) subscale (MOD-INT vs. HIGH-INT)||||0.034
92316022|NCT02892331|184536031|SUPERIORITY|||||||0.33|||||||ANCOVA|||Change in physical health (sum)||||0.330
92316023|NCT02892331|184536031|SUPERIORITY|||||||0.297|||||||ANCOVA|||Change in physical health (sum) subscale||||0.297
92316024|NCT02892331|184536032|SUPERIORITY|||||||0.109|||||||ANCOVA|||Change in steps (CON vs. HIGH-INT)||||0.109
92316025|NCT02892331|184536032|SUPERIORITY|||||||0.099|||||||ANCOVA|||Change in steps (CON vs. MOD-INT)||||0.099
92316026|NCT02892331|184536032|SUPERIORITY|||||||0.947|||||||ANCOVA|||Change in steps (MOD-INT vs. HIGH-INT)||||0.947
92316027|NCT05620082|184536037|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92316028|NCT05620082|184536038|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92316029|NCT05620082|184536039|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92316030|NCT05620082|184536040|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Comparing Appearance of supplements||||0.10
92192505|NCT03897049|184284040|SUPERIORITY||Mean Difference (Net)|0.1||||0.402|TWO_SIDED||||||Regression, Linear|||||||0.402
92192506|NCT03897049|184284041|SUPERIORITY||Mean Difference (Net)|0.15||||0.308|TWO_SIDED||||||Regression, Linear|||||||0.308
92192507|NCT03897049|184284042|SUPERIORITY||Mean Difference (Net)|0.48||||0.001|TWO_SIDED||||||Regression, Linear|||||||0.001
92316031|NCT05620082|184536040|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Comparing Smell of supplements between groups||||0.10
92316032|NCT05620082|184536040|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Comparing Taste of supplements||||0.08
92316033|NCT05620082|184536040|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Comparing Sweetness of supplements||||0.70
92316034|NCT05620082|184536040|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Comparing Texture of supplements||||0.02
92316035|NCT05620082|184536040|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Comparing Thickness of supplements||||0.45
92316036|NCT05620082|184536040|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Comparing Aftertaste of supplements||||0.25
92316037|NCT05620082|184536040|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Comparing 'Feeling in mouth' of supplements||||0.45
92316038|NCT05620082|184536040|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Comparing 'Future choice' of supplements||||0.06
92316039|NCT05620082|184536041|SUPERIORITY|||||||0.004||||||Pairwise comparisons with Bonferroni correction revealed a significant increase in total daily energy intake from baseline to porridge timepoints (p\<0.001).|Related samples Friedman's Two-Way ANOVA|||||||0.004
92316040|NCT03296813|184536062|SUPERIORITY||Hazard Ratio (HR)|1.022||||0.765|TWO_SIDED|95.0|0.885|1.18||P-value not adjusted for multiple comparisons.|Regression, Cox|||To determine whether torsemide is superior to furosemide with respect to all-cause mortality among patients hospitalized for heart failure.|P-value from a Cox proportional hazards regression model including the assigned treatment (torsemide vs. furosemide as the reference group) as well as age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|1.180|0.885|0.765
92316041|NCT03296813|184536063|SUPERIORITY||Hazard Ratio (HR)|0.918||||0.113|TWO_SIDED|95.0|0.826|1.02||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Regression, Cox|||To determine whether torsemide is superior to furosemide with respect to all-cause mortality or first all-cause hospitalization through month 12 among patients hospitalized for heart failure.|P-value from a Cox proportional hazards regression model including the assigned treatment (torsemide vs. furosemide as the reference group) as well as age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|1.020|0.826|0.113
92316042|NCT03296813|184536064|SUPERIORITY||Risk Ratio (RR)|0.945||||0.366|TWO_SIDED|95.0|0.836|1.068||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Regression, Linear|||To determine whether torsemide is superior to furosemide with respect to total all-cause hospitalizations through month 12 among patients hospitalized for heart failure.|P-value from a negative binomial regression of the frequency of re-hospitalizations with an offset term of the log of each subject's months to last re-hospitalization assessment through month 12. Re-hospitalizations greater than or equal to 5 were combined and analyzed with re-hospitalizations = 5 (i.e., one category \>=5) and for the subjects with \>=5 re-hospitalizations, the offset term was the log of the months to the 5th re-hospitalization.|1.068|0.836|0.366
92316043|NCT03296813|184536065|SUPERIORITY||Hazard Ratio (HR)|0.943||||0.61|TWO_SIDED|95.0|0.753|1.181||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Regression, Cox|||To determine whether torsemide is superior to furosemide with respect to all-cause mortality or first all-cause hospitalization through day 30 among patients hospitalized for heart failure.|P-value from a Cox proportional hazards regression model including the assigned treatment (torsemide vs. furosemide as the reference group) as well as age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|1.181|0.753|0.610
92316044|NCT03296813|184536066|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.194|TWO_SIDED|95.0|-0.66|3.26||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Mixed Models Analysis|||To determine whether torsemide improves the QOL at 1 month compared to Furosemide as assessed by the KCCQ among patients hospitalized for heart failure.|Least squares means results from mixed-model repeated measures analysis of the KCCQ score change from baseline with terms for treatment, time (visit) from randomization, treatment x time (visit) interaction as well as the baseline KCCQ score, age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|3.26|-0.66|0.194
92316045|NCT03296813|184536066|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.718|TWO_SIDED|95.0|-2.53|1.74||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Mixed Models Analysis|||To determine whether torsemide improves the QOL at 6 months compared to Furosemide as assessed by the KCCQ among patients hospitalized for heart failure.|Least squares means results from mixed-model repeated measures analysis of the KCCQ score change from baseline with terms for treatment, time (visit) from randomization, treatment x time (visit) interaction as well as the baseline KCCQ score, age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|1.74|-2.53|0.718
92316046|NCT03296813|184536066|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.987|TWO_SIDED|95.0|-2.26|2.3||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Mixed Models Analysis|||To determine whether torsemide improves the QOL at 12 months compared to Furosemide as assessed by the KCCQ among patients hospitalized for heart failure.|Least squares means results from mixed-model repeated measures analysis of the KCCQ score change from baseline with terms for treatment, time (visit) from randomization, treatment x time (visit) interaction as well as the baseline KCCQ score, age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|2.30|-2.26|0.987
92316047|NCT03296813|184536067|SUPERIORITY|||||||0.904||||||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Wilcoxon (Mann-Whitney)|||To determine whether torsemide reduces symptoms of depression at 1 month compared to Furosemide as assessed by the PHQ-2 among patients hospitalized for heart failure.||||0.904
92316048|NCT03296813|184536067|SUPERIORITY|||||||0.829||||||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Wilcoxon (Mann-Whitney)|||To determine whether torsemide reduces symptoms of depression at 6 months compared to Furosemide as assessed by the PHQ-2 among patients hospitalized for heart failure.||||0.829
92316049|NCT03296813|184536067|SUPERIORITY|||||||0.342||||||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Wilcoxon (Mann-Whitney)|||To determine whether torsemide reduces symptoms of depression at 12 months compared to Furosemide as assessed by the PHQ-2 among patients hospitalized for heart failure.||||0.342
92192508|NCT02166047|184284047|SUPERIORITY||Least Squares (LS) Mean Difference|0.023||||0.59|TWO_SIDED|95.0|-0.061|0.108||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.108|-0.061|0.590
92192509|NCT02166047|184284047|SUPERIORITY||LS Mean Difference|0.068||||0.12|TWO_SIDED|95.0|-0.018|0.154||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.154|-0.018|0.120
92192510|NCT02166047|184284047|SUPERIORITY||LS Mean Difference|0.017||||0.701|TWO_SIDED|95.0|-0.069|0.102||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.102|-0.069|0.701
92192511|NCT02166047|184284047|SUPERIORITY||LS Mean Difference|0.082||||0.21|TWO_SIDED|95.0|-0.046|0.21||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.210|-0.046|0.210
92192512|NCT02166047|184284047|SUPERIORITY||LS Mean Difference|0.082||||0.207|TWO_SIDED|95.0|-0.046|0.21||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.210|-0.046|0.207
92192513|NCT02166047|184284047|SUPERIORITY||LS Mean Difference|0.081||||0.216|TWO_SIDED|95.0|-0.048|0.21||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.210|-0.048|0.216
92192514|NCT02166047|184284047|SUPERIORITY||LS Mean Difference|-0.015||||0.652|TWO_SIDED|95.0|-0.081|0.051||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.051|-0.081|0.652
92316050|NCT02546986|184536068|SUPERIORITY||Hazard Ratio (HR)|1.374||||0.1789|TWO_SIDED|90.0|0.926|2.038|||Stratified Log-Rank Test|Stratified by squamous cell carcinoma versus non-squamous cell carcinoma|Hazard ratio and associated 2-sided 90% CIs were estimated using a Cox proportional hazard model|||2.038|0.926|0.1789
92316051|NCT02546986|184536069|SUPERIORITY||Disease Control Rate Difference|-13.3||||0.1572|TWO_SIDED|90.0|-29.0|3.5|||Cochran-Mantel-Haenszel|Stratified by squamous cell carcinoma vs non-squamous cell carcinoma||||3.5|-29.0|0.1572
92316052|NCT02546986|184536070|SUPERIORITY||Hazard Ratio (HR)|1.375||||0.2968|TWO_SIDED|90.0|0.83|2.276|||Stratified Log Rank|Stratified by squamous cell carcinoma vs non-squamous cell carcinoma).|Hazard ratio and associated 2-sided 90% CIs were estimated using Cox proportional hazard model.|||2.276|0.830|0.2968
92316053|NCT02546986|184536071|SUPERIORITY||Overall Response Rate (ORR) Difference|5.3|||||TWO_SIDED|90.0|-11.5|21.3|||||The 90% exact unconditional confidence interval was used for ORR difference.|||21.3|-11.5|
92316054|NCT02546986|184536073|SUPERIORITY||Hazard Ratio (HR)|1.352||||0.199|TWO_SIDED|90.0|0.914|2.0|||Stratified Log-Rank Test|Stratified by squamous cell carcinoma versus non-squamous cell carcinoma|Hazard ratio and associated 2-sided 90% CIs were estimated using a Cox proportional hazard model|||2.000|0.914|0.1990
92316055|NCT02513160|184536081|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|150.0|||<|0.0001|TWO_SIDED|95.0|86.8|213.2||a priori threshold for significance of 0.05.|ANCOVA|Difference of LS means, 95% CI, and p-value represent ANCOVA results adjusted for baseline, sex, age, current asthma therapy, and treatment.|Active - placebo|A fixed-sequence multiple testing procedure was implemented to interpret the results from the primary analysis while controlling the family-wise error rate at 5%. The 640-mcg/day BAI dose was tested first. If the comparison to placebo resulted in p≤0.05, the 320-mcg/day BAI dose was then tested.||213.2|86.8|<0.0001
92316056|NCT02513160|184536081|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|144.0|||<|0.0001|TWO_SIDED|95.0|80.7|206.6||a priori threshold for significance of 0.05.|ANCOVA|Difference of LS means, 95% CI, and p-value represent ANCOVA results adjusted for baseline, sex, age, current asthma therapy, and treatment.|Active - placebo|A fixed-sequence multiple testing procedure was implemented to interpret the results from the primary analysis while controlling the family-wise error rate at 5%. The 640-mcg/day BAI dose was tested first. If the comparison to placebo resulted in p≤0.05, the 320-mcg/day BAI dose was then tested.||206.6|80.7|<0.0001
92192515|NCT02166047|184284047|SUPERIORITY||LS Mean Difference|0.0||||0.994|TWO_SIDED|95.0|-0.066|0.065||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.065|-0.066|0.994
92192516|NCT02166047|184284047|SUPERIORITY||LS Mean Difference|0.0||||0.996|TWO_SIDED|95.0|-0.069|0.069||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.069|-0.069|0.996
92192517|NCT00451555|184284060|SUPERIORITY|||||||0.6238|||||||Fisher Exact|||||||0.6238
92316057|NCT02513160|184536081|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|148.0|||<|0.0001|TWO_SIDED|95.0|84.7|211.4||a priori threshold for significance of 0.05. The p-value was not adjusted.|ANCOVA|Difference of LS means and 95% CI represent ANCOVA results adjusted for baseline, sex, age, current asthma therapy, and treatment.|Active - placebo|||211.4|84.7|<0.0001
92316058|NCT02513160|184536082|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|21.9||||0.0003|TWO_SIDED|95.0|10.11|33.71||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Treatment comparisons began with am PEF for BAI 640 mcg/day vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BAI 640 mcg/day vs placebo 2) the am PEF for BAI 320 mcg/day vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||33.71|10.11|0.0003
92316059|NCT02513160|184536082|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|30.1|||<|0.0001|TWO_SIDED|95.0|18.33|41.9||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in previous analysis.||41.90|18.33|<0.0001
92316060|NCT02513160|184536082|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|21.0||||0.0006|TWO_SIDED|95.0|9.14|32.83||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Comparisons for MDI dose versus placebo for the secondary efficacy endpoints were used for assay sensitivity.||32.83|9.14|0.0006
92192518|NCT00451555|184284060|SUPERIORITY|||||||0.6282|||||||Fisher Exact|||||||0.6282
92192519|NCT00451555|184284060|SUPERIORITY|||||||0.6242|||||||Fisher Exact|||||||0.6242
92316061|NCT02513160|184536083|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|143.0|||<|0.0001|TWO_SIDED|95.0|71.7|214.1||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||214.1|71.7|<0.0001
92192520|NCT00451555|184284061|SUPERIORITY|||||||0.639|||||||Fisher Exact|||||||0.6390
92192521|NCT00451555|184284061|SUPERIORITY|||||||0.6721|||||||Fisher Exact|||||||0.6721
92192522|NCT00451555|184284061|SUPERIORITY|||||||0.6349|||||||Fisher Exact|||||||0.6349
92192523|NCT00451555|184284062|SUPERIORITY|||||||0.8582|||||||Log Rank|||||||0.8582
92192524|NCT00451555|184284062|SUPERIORITY|||||||0.7307|||||||Log Rank|||||||0.7307
92192525|NCT00451555|184284062|SUPERIORITY|||||||0.9798|||||||Log Rank|||||||0.9798
92192526|NCT00451555|184284063|SUPERIORITY|||||||0.5887|||||||Log Rank|||||||0.5887
92192527|NCT00451555|184284063|SUPERIORITY|||||||0.4516|||||||Log Rank|||||||0.4516
92192528|NCT00451555|184284063|SUPERIORITY|||||||0.7965|||||||Log Rank|||||||0.7965
92192529|NCT01376050|184284070|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Fisher Exact|||||||>0.05
92192530|NCT01376050|184284071|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>0.05
92192531|NCT01037413|184284077|SUPERIORITY||Mean Difference (Final Values)|-14.7|||<|0.001|TWO_SIDED|95.0|-21.3|-8.1|||t-test, 2 sided|||Comparison within the participant between EXC 001 and placebo.||-8.1|-21.3|<0.001
92316062|NCT02513160|184536083|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|170.0|||<|0.0001|TWO_SIDED|95.0|98.5|240.5||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||240.5|98.5|<0.0001
92316063|NCT02513160|184536083|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|133.0||||0.0003|TWO_SIDED|95.0|61.3|204.3||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Comparisons for MDI dose versus placebo for the secondary efficacy endpoints were used for assay sensitivity.||204.3|61.3|0.0003
92316064|NCT02513160|184536084|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.408|-0.64||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||-0.640|-1.408|<0.0001
92316065|NCT02513160|184536084|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.482|-0.717||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||-0.717|-1.482|<0.0001
92316066|NCT02513160|184536084|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-1.03|||<|0.0001|TWO_SIDED|95.0|-1.415|-0.643||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Comparisons for MDI dose versus placebo for the secondary efficacy endpoints were used for assay sensitivity.||-0.643|-1.415|<0.0001
92316067|NCT02513160|184536085|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.44|-0.203||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||-0.203|-0.440|<0.0001
92316068|NCT02513160|184536085|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.25|||<|0.0001|TWO_SIDED|95.0|-0.365|-0.128||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||-0.128|-0.365|<0.0001
92316069|NCT02513160|184536085|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.423|-0.185||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Comparisons for MDI dose versus placebo for the secondary efficacy endpoints were used for assay sensitivity.||-0.185|-0.423|<0.0001
92316070|NCT02513160|184536086|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0058|||||||Log Rank|||||||0.0058
92316071|NCT02513160|184536086|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014|||||||Log Rank|||||||0.0014
92316072|NCT02513160|184536086|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0062|||||||Log Rank|||||||0.0062
92316073|NCT00437021|184536088|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group A is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|1.48|||||TWO_SIDED|95.0|0.97|1.99|||||Estimate and corresponding 95% confidence interval are calculated on the log2 scale.|Null hypothesis: The mean difference in log2 transformed titers between Group B and Group A \>= 1.||1.99|0.97|
92192532|NCT01037413|184284078|SUPERIORITY||Mean Difference (Final Values)|-14.8|||<|0.001|TWO_SIDED|95.0|-21.2|-8.3|||t-test, 2 sided|||Week 8: Comparison within the participant between EXC 001 and placebo.||-8.3|-21.2|<0.001
92192533|NCT01037413|184284078|SUPERIORITY||Mean Difference (Final Values)|-26.0|||<|0.001|TWO_SIDED|95.0|-34.3|-17.7|||t-test, 2 sided|||Week 24: Comparison within the participant between EXC 001 and placebo.||-17.7|-34.3|<0.001
92316074|NCT00437021|184536089|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group A is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|2.895|||||TWO_SIDED|95.0|2.22|3.69|||||Estimate and corresponding 95% confidence interval are calculated on the log2 scale.|Null hypothesis: The mean difference in log2 transformed titers between Group B and Group A \>= 1.||3.69|2.22|
92316075|NCT00437021|184536097|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group A is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|2.21|||||TWO_SIDED|95.0|1.65|2.76|||||Estimate and corresponding 95% confidence interval are calculated on the log2 scale.|Null hypothesis: The mean difference in log2 transformed titers between Group B and Group A \>= 1.||2.76|1.65|
92316076|NCT00437021|184536098|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group A is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|3.08|||||TWO_SIDED|95.0|2.57|3.59|||||Estimate and corresponding 95% confidence interval are calculated on the log2 scale.|Null hypothesis: The mean difference in log2 transformed titers between Group B and Group A \>= 1.||3.59|2.57|
92316077|NCT04162847|184536099|SUPERIORITY||Odds Ratio (OR)|0.98||||0.76|TWO_SIDED|95.0|0.88|1.1|||Regression, Logistic|||Baseline||1.10|.88|.76
92316078|NCT04162847|184536099|SUPERIORITY||Odds Ratio (OR)|0.84||||0.001|TWO_SIDED|95.0|0.76|0.93|||Regression, Logistic|||6 week follow-up||.93|.76|.001
92316079|NCT04162847|184536099|SUPERIORITY||Odds Ratio (OR)|0.82||||0|TWO_SIDED|95.0|0.74|0.9|||Regression, Logistic|||6 month follow-up||.90|.74|.000
92316080|NCT04162847|184536099|SUPERIORITY||Odds Ratio (OR)|0.86||||0.002|TWO_SIDED|95.0|0.77|0.95|||Regression, Logistic|||2 year||.95|.77|.002
92316081|NCT04162847|184536100|SUPERIORITY||Odds Ratio (OR)|6.7||||0|TWO_SIDED|95.0|5.98|7.5|||Chi-squared|||A comparison of service uptake between the intervention and control groups over the 6-month follow-up period.||7.50|5.98|.000
92192534|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.033|TWO_SIDED|95.0|-2.3|-0.1|||t-test, 2 sided|||Week 12, Vascularity: Comparison within the participant between EXC 001 and placebo.||-0.1|-2.3|0.033
92316082|NCT04162847|184536100|SUPERIORITY||Odds Ratio (OR)|1.83||||0|TWO_SIDED|95.0|1.64|2.04|||Chi-squared|||A secondary analysis using the same criterion for the intervention group (access to the digital intervention during the 6-month follow-up) but expanding the control group definition to include individuals who reported having psychotherapy or starting a new medication at any point during the full 2-year follow-up period.||2.04|1.64|.000
92316083|NCT04162847|184536101|SUPERIORITY|||||||0|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PHQ-9 6 week||||.000
92316084|NCT04162847|184536101|SUPERIORITY|||||||0|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PHQ-9 6 months||||.000
92316085|NCT04162847|184536101|SUPERIORITY|||||||0.02|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PHQ-9 2 year||||.02
92316086|NCT04162847|184536101|SUPERIORITY|||||||0.002|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||GADQ-IV 6 week||||.002
92316087|NCT04162847|184536101|SUPERIORITY|||||||0.8|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||GADQ-IV 6 month||||.80
92316088|NCT04162847|184536101|SUPERIORITY|||||||0.51|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||GADQ-IV 2 year||||.51
92316089|NCT04162847|184536101|SUPERIORITY|||||||0.004|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||SPDQ 6 week||||.004
92192535|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.003|TWO_SIDED|95.0|-1.9|-0.4|||t-test, 2 sided|||Week 12, Pigmentation: Comparison within the participant between EXC 001 and placebo.||-0.4|-1.9|0.003
92192536|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.5|-0.8|||t-test, 2 sided|||Week 12, Thickness: Comparison within the participant between EXC 001 and placebo.||-0.8|-2.5|<0.001
92316090|NCT04162847|184536101|SUPERIORITY|||||||0.02|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||SPDQ 6 month||||.02
92316091|NCT04162847|184536101|SUPERIORITY|||||||0.09|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||SPDQ 2 year||||.09
92316092|NCT04162847|184536101|SUPERIORITY|||||||0.66|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PDSR 6 week||||.66
92192537|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-1.8|||<|0.001|TWO_SIDED|95.0|-2.7|-1.0|||t-test, 2 sided|||Week 12, Relief: Comparison within the participant between EXC 001 and placebo.||-1.0|-2.7|<0.001
92192538|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.012|TWO_SIDED|95.0|-1.9|-0.3|||t-test, 2 sided|||Week 12, Pliability: Comparison within the participant between EXC 001 and placebo.||-0.3|-1.9|0.012
92192539|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.003|TWO_SIDED|95.0|-2.4|-0.5|||t-test, 2 sided|||Week 12, Surface Area: Comparison within the participant between EXC 001 and placebo.||-0.5|-2.4|0.003
92192540|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.6|-1.1|||t-test, 2 sided|||Week 12, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-1.1|-2.6|<0.001
92192541|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-8.4|||<|0.001|TWO_SIDED|95.0|-12.7|-4.0|||t-test, 2 sided|||Week 12, Composite Score: Comparison within the participant between EXC 001 and placebo.||-4.0|-12.7|<0.001
92192542|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-2.3|||<|0.001|TWO_SIDED|95.0|-3.2|-1.4|||t-test, 2 sided|||Week 24, Vascularity: Comparison within the participant between EXC 001 and placebo.||-1.4|-3.2|<0.001
92316093|NCT04162847|184536101|SUPERIORITY|||||||0.85|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PDSR 6 month||||.85
92316094|NCT04162847|184536101|SUPERIORITY|||||||0.97|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PDSR 2 year||||.97
92316095|NCT04162847|184536101|SUPERIORITY|||||||0|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||EDE-Q Global 6 week||||.000
92316096|NCT04162847|184536101|SUPERIORITY|||||||0|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||EDE-Q Global 6 month||||.000
92316097|NCT04162847|184536101|SUPERIORITY|||||||0.54|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||EDE-Q Global 2 year||||.54
92316098|NCT04162847|184536102|SUPERIORITY|||||||0.48|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||Mental component summary 6 months||||.48
92316099|NCT04162847|184536102|SUPERIORITY|||||||0.04|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||Mental component summary 2 years||||.04
92316100|NCT04162847|184536102|SUPERIORITY|||||||0.97|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||Physical component summary 6 months||||.97
92316101|NCT04162847|184536102|SUPERIORITY|||||||0.8|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||Physical component summary 2 years||||.80
92316102|NCT03985800|184536109|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|1.26||||0.53||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 1.26 with two degrees of freedom.||Null hypothesis: The trajectory of IBD complexity score does not differ by treatment group.||||0.53
92316103|NCT03985800|184536109|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|1.14||||0.57||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*age interaction term is 1.14 with two degrees of freedom.||Aim 2b., moderation by age. Null hypothesis: Age does not moderate the trajectory of complexity score by treatment group.||||0.57
92316104|NCT03985800|184536109|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|0.08||||0.96||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*diagnosis interaction term is 0.08 with two degrees of freedom.||Aim 2b., moderation by diagnosis. Null hypothesis: Diagnosis does not moderate the trajectory of complexity score by treatment group.||||0.96
92316105|NCT03985800|184536109|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|6.41||||0.17||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*site interaction term is 6.41 with two degrees of freedom.||Aim 2b., moderation by site. Null hypothesis: Site does not moderate the trajectory of complexity score by treatment group.||||0.17
92316106|NCT03985800|184536109|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|2.6||||0.27||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*site interaction term is 2.6 with two degrees of freedom.||Aim 2b., moderation by eHealth literacy. Null hypothesis: eHealth literacy does not moderate the trajectory of complexity score by treatment group.||||0.27
92316107|NCT03985800|184536110|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|0.21||||0.9||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 0.21 with two degrees of freedom.||Aim 1. The trajectory of PHQ-ADS does not differ by treatment group.||||0.90
92316108|NCT03985800|184536110|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|1.21||||0.55||||||Threshold for statistical significance was 0.05.|Mixed Models Analysis|||Aim 2a, moderation by disease activity. Null hypothesis: Disease activity does not moderate the trajectory of behavioral health score by treatment group.||||0.55
92192543|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.9|-0.9|||t-test, 2 sided|||Week 24, Pigmentation: Comparison within the participant between EXC 001 and placebo.||-0.9|-2.9|<0.001
92192544|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.001|TWO_SIDED|95.0|-2.8|-0.8|||t-test, 2 sided|||Week 24, Thickness: Comparison within the participant between EXC 001 and placebo.||-0.8|-2.8|0.001
92192545|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.6|-1.3|||t-test, 2 sided|||Week 24, Relief: Comparison within the participant between EXC 001 and placebo.||-1.3|-3.6|<0.001
92192546|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.005|TWO_SIDED|95.0|-3.2|-0.7|||t-test, 2 sided|||Week 24, Pliability: Comparison within the participant between EXC 001 and placebo.||-0.7|-3.2|0.005
92192547|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-2.2|||<|0.001|TWO_SIDED|95.0|-3.1|-1.2|||t-test, 2 sided|||Week 24, Surface Area: Comparison within the participant between EXC 001 and placebo.||-1.2|-3.1|<0.001
92192548|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.3|-1.5|||t-test, 2 sided|||Week 24, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-1.5|-3.3|<0.001
92192549|NCT01037413|184284079|SUPERIORITY||Mean Difference (Final Values)|-12.6|||<|0.001|TWO_SIDED|95.0|-17.7|-7.4|||t-test, 2 sided|||Week 24, Composite Score: Comparison within the participant between EXC 001 and placebo.||-7.4|-17.7|<0.001
92192550|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.067|TWO_SIDED|95.0|-1.3|0.0|||t-test, 2 sided|||Week 12 Pain: Comparison within the participant between EXC 001 and placebo.||0.0|-1.3|0.067
92192551|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.413|TWO_SIDED|95.0|-1.2|0.5|||t-test, 2 sided|||Week 12, Itching: Comparison within the participant between EXC 001 and placebo.||0.5|-1.2|0.413
92192552|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.401|TWO_SIDED|95.0|-1.6|0.7|||t-test, 2 sided|||Week 12, Color: Comparison within the participant between EXC 001 and placebo.||0.7|-1.6|0.401
92192553|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.083|TWO_SIDED|95.0|-2.4|0.2|||t-test, 2 sided|||Week 12, Stiffness: Comparison within the participant between EXC 001 and placebo.||0.2|-2.4|0.083
92192554|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.052|TWO_SIDED|95.0|-2.3|0.0|||t-test, 2 sided|||Week 12, Thickness: Comparison within the participant between EXC 001 and placebo.||0.0|-2.3|0.052
92316109|NCT03985800|184536110|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|1.37||||0.5||||||Threshold for statistical significance was 0.05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*age interaction term is 1.37 with two degrees of freedom.||Aim 2b, moderation by age. Null hypothesis: Age does not moderate the trajectory of behavioral health score by treatment group.||||0.50
92316110|NCT03985800|184536110|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|5.16||||0.08||||||Threshold for statistical significance was 0.05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*diagnosis interaction term is 5.16 with two degrees of freedom.||Aim 2b, moderation by diagnosis. Null hypothesis: Diagnosis does not moderate the trajectory of behavioral health score by treatment group.||||0.08
92192555|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.036|TWO_SIDED|95.0|-2.3|-0.1|||t-test, 2 sided|||Week 12, Irregular: Comparison within the participant between EXC 001 and placebo.||-0.1|-2.3|0.036
92192556|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.045|TWO_SIDED|95.0|-2.1|0.0|||t-test, 2 sided|||Week 12, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-0.0|-2.1|0.045
92192557|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.054|TWO_SIDED|95.0|-9.9|0.1|||t-test, 2 sided|||Week 12, Composite Score: Comparison within the participant between EXC 001 and placebo.||0.1|-9.9|0.054
92192558|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.065|TWO_SIDED|95.0|-8.2|0.3|||t-test, 2 sided|||Week 12, Scar Appearance Composite Score: Comparison within the participant between EXC 001 and placebo.||0.3|-8.2|0.065
92192559|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.079|TWO_SIDED|95.0|-2.0|0.1|||t-test, 2 sided|||Week 24, Pain: Comparison within the participant between EXC 001 and placebo.||0.1|-2.0|0.079
92192560|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.158|TWO_SIDED|95.0|-1.5|0.3|||t-test, 2 sided|||Week 24, Itching: Comparison within the participant between EXC 001 and placebo.||0.3|-1.5|0.158
92192561|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.01|TWO_SIDED|95.0|-3.0|-0.5|||t-test, 2 sided|||Week 24, Color: Comparison within the participant between EXC 001 and placebo.||-0.5|-3.0|0.010
92192562|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.003|TWO_SIDED|95.0|-3.5|-0.8|||t-test, 2 sided|||Week 24, Stiffness: Comparison within the participant between EXC 001 and placebo.||-0.8|-3.5|0.003
92192563|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.005|TWO_SIDED|95.0|-4.0|-0.8|||t-test, 2 sided|||Week 24, Thickness: Comparison within the participant between EXC 001 and placebo.||-0.8|-4.0|0.005
92192564|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.032|TWO_SIDED|95.0|-3.5|-0.2|||t-test, 2 sided|||Week 24, Irregular: Comparison within the participant between EXC 001 and placebo.||-0.2|-3.5|0.032
92192565|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.003|TWO_SIDED|95.0|-3.8|-0.9|||t-test, 2 sided|||Week 24, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-0.9|-3.8|0.003
92192566|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-9.8||||0.006|TWO_SIDED|95.0|-16.4|-3.1|||t-test, 2 sided|||Week 24, Composite Score: Comparison within the participant between EXC 001 and placebo.||-3.1|-16.4|0.006
92192567|NCT01037413|184284080|SUPERIORITY||Mean Difference (Final Values)|-8.2||||0.004|TWO_SIDED|95.0|-13.4|-3.0|||t-test, 2 sided|||Week 24, Scar Appearance Composite Score: Comparison within the participant between EXC 001 and placebo.||-3.0|-13.4|0.004
92192568|NCT00619983|184284088|SUPERIORITY|||||||0.69|||||||ANOVA|Repeated measures ANOVA||Due to failure of daily electronic diaries and exhaustion of funds, we were only able to recruit \< 30% of the number of subjects required in our power analysis.||||0.69
92192569|NCT01177137|184284091|SUPERIORITY||Slope|-2.35|STANDARD_ERROR_OF_MEAN|3.27||0.47|TWO_SIDED|95.0|-8.77|4.07||The a priori threshold for statistical significance was \<0.025 to account for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||4.07|-8.77|0.47
92192570|NCT01177137|184284091|SUPERIORITY||Slope|-2.8|STANDARD_ERROR_OF_MEAN|2.78||0.31|TWO_SIDED|95.0|-8.27|2.65||The a priori threshold for statistical significance was \<0.025 to account for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.65|-8.27|0.31
92192571|NCT01177137|184284092|SUPERIORITY||Slope|-0.14|STANDARD_ERROR_OF_MEAN|2.63||0.96|TWO_SIDED|95.0|-5.3|5.02||The a priori threshold for statistical significance was \<0.025 to account for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Ca|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||5.02|-5.30|0.96
92192572|NCT01177137|184284092|SUPERIORITY||Slope|2.74|STANDARD_ERROR_OF_MEAN|2.53||0.28|TWO_SIDED|95.0|-2.21|7.7||The a priori threshold for statistical significance was \<0.025 to adjust for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Ca|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||7.70|-2.21|0.28
92316111|NCT03985800|184536110|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|0.11||||1||||||Threshold for statistical significance was 0.05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*site interaction term is 0.11 with two degrees of freedom.||Aim 2b, moderation by site. Null hypothesis: Site does not moderate the trajectory of behavioral health score by treatment group.||||1.0
92316112|NCT03985800|184536110|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|3.23||||0.2||||||Threshold for statistical significance was 0.05|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*eHealth literacy interaction term is 3.23 with two degrees of freedom.||Aim 2b, moderation by eHealth literacy. Null hypothesis: eHealth literacy does not moderate the trajectory of behavioral health score by treatment group.||||0.20
92316113|NCT03985800|184536111|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|3.09||||0.53||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 3.09 with two degrees of freedom.||Null hypothesis: The trajectory of functional impairment does not differ by treatment group.||||0.53
92316114|NCT03985800|184536112|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|6.01||||0.05||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 6.01 with two degrees of freedom.||Null hypothesis: The trajectory of IBD-IBS symptom severity does not differ by treatment group.||||0.05
92192573|NCT01177137|184284093|SUPERIORITY||Slope|0.61|STANDARD_ERROR_OF_MEAN|0.59||0.3|TWO_SIDED|95.0|-0.55|1.77||The a priori threshold for statistical significance was \<0.025 to account for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||1.77|-0.55|0.30
92192574|NCT01177137|184284093|SUPERIORITY||Slope|-0.62|STANDARD_ERROR_OF_MEAN|0.58||0.29|TWO_SIDED|95.0|-1.75|0.52||The a priori threshold for statistical significance was \<0.025 to account for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Ca|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.52|-1.75|0.29
92192575|NCT01177137|184284095|SUPERIORITY||Slope|-0.39|STANDARD_ERROR_OF_MEAN|1.37||0.77|TWO_SIDED|95.0|-3.08|2.29||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.29|-3.08|0.77
92192576|NCT01177137|184284095|SUPERIORITY||Slope|-0.6|STANDARD_ERROR_OF_MEAN|1.3||0.65|TWO_SIDED|95.0|-3.16|1.96||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||1.96|-3.16|0.65
92316115|NCT03985800|184536113|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|4.14||||0.13||||||The threshold for statistical significance was .05.|Mixed Models Analysis|For hospitalizations, the Chi-squared statistic for the group\*time interaction term is 4.14 with two degrees of freedom||Null hypothesis: The trajectory of hospitalizations does not differ by treatment group.||||0.13
92192577|NCT01177137|184284096|SUPERIORITY||Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.52||0.5|TWO_SIDED|95.0|-1.38|0.67||The a priori threshold for statistical significance was set at \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.67|-1.38|0.50
92192578|NCT01177137|184284096|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.52||0.82|TWO_SIDED|95.0|-1.14|0.9||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.90|-1.14|0.82
92192579|NCT01177137|184284097|SUPERIORITY||Slope|-0.38|STANDARD_ERROR_OF_MEAN|0.51||0.46|TWO_SIDED|95.0|-1.37|0.62||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation.|||0.62|-1.37|0.46
92192580|NCT01177137|184284097|SUPERIORITY|The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.51||0.48|TWO_SIDED|95.0|-1.35|0.64|||repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.64|-1.35|0.48
92192581|NCT01177137|184284098|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.32||0.75|TWO_SIDED|95.0|-0.74|0.53||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.53|-0.74|0.75
92192582|NCT01177137|184284098|SUPERIORITY||Slope|-0.87|STANDARD_ERROR_OF_MEAN|0.35||0.015|TWO_SIDED|95.0|-1.56|-0.17||The a priori threshold for statistical significance was \< 0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||-0.17|-1.56|0.015
92316116|NCT03985800|184536113|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|0.82||||0.67||||||The threshold for statistical significance was .05.|Mixed Models Analysis|For ED visits, the Chi-squared statistic for the group\*time interaction term is 0.82 with two degrees of freedom.||Null hypothesis: The trajectory of ED visits does not differ by treatment group.||||0.67
92316117|NCT03985800|184536114|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|1.98||||0.37||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 1.98 with two degrees of freedom.||Null hypothesis: The trajectory of self-efficacy does not differ by treatment group.||||0.37
92316118|NCT03985800|184536115|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|5.57||||0.06||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 5.57 with two degrees of freedom.||Null hypothesis: The trajectory of quality of life does not differ by treatment group.||||0.06
92316119|NCT05258773|184536119|SUPERIORITY||LS Mean difference Arm A - Arm B|-11.0||||0.1406|TWO_SIDED|95.0|-25.9|3.9||An analysis of covariance (ANCOVA) model was used to assess changes from baseline at 500Hz at the Day 49 visit comparing the treatment groups.The treatment group was included as a fixed factor, with baseline values as a covariate.|ANCOVA||The change in hearing threshold from baseline was expected to be smaller in the treated group (arm A) than in the control group (arm B).|||3.9|-25.9|0.1406
92192583|NCT01177137|184284099|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.39||0.85|TWO_SIDED|95.0|-0.83|0.69||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.69|-0.83|0.85
92192584|NCT01177137|184284099|SUPERIORITY||Slope|-0.2|STANDARD_ERROR_OF_MEAN|0.34||0.55|TWO_SIDED|95.0|-0.86|0.46||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.46|-0.86|0.55
92192585|NCT01177137|184284100|SUPERIORITY||Slope|-3.19|STANDARD_ERROR_OF_MEAN|3.1||0.3|TWO_SIDED|95.0|-9.27|2.88||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.88|-9.27|0.30
92192586|NCT01177137|184284100|SUPERIORITY||Slope|-0.91|STANDARD_ERROR_OF_MEAN|2.98||0.76|TWO_SIDED|95.0|-6.75|4.93||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||4.93|-6.75|0.76
92192587|NCT01177137|184284101|SUPERIORITY||Slope|3.12|STANDARD_ERROR_OF_MEAN|3.34||0.35|TWO_SIDED|95.0|-3.44|9.68||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||9.68|-3.44|0.35
92192588|NCT01177137|184284101|SUPERIORITY||Slope|3.29|STANDARD_ERROR_OF_MEAN|3.19||0.3|TWO_SIDED|95.0|-2.96|9.54||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||9.54|-2.96|0.30
92316120|NCT05258773|184536119|SUPERIORITY||LS Mean difference Arm A - Arm B|-14.4||||0.0567|TWO_SIDED|95.0|-29.24|0.45||An ANCOVA model was used to assess changes from baseline at the average across three frequencies (250-750 Hz) at the Day 49 visit comparing the treatment groups. The treatment group was included as a fixed factor, with baseline values as a covariate.|ANCOVA||The change in hearing threshold from baseline was expected to be smaller in the treated group (arm A) than in the control group (arm B).|||0.45|-29.24|0.0567
92316121|NCT05258773|184536119|SUPERIORITY||LS Mean difference Arm A - Arm B|-9.0||||0.2588|TWO_SIDED|95.0|-25.0|7.1||An ANCOVA model was used to assess changes from baseline at 500Hz at EOS on Day 105 comparing the treatment groups.The treatment group was included as a fixed factor, with baseline values as a covariate.|ANCOVA||The change in hearing threshold from baseline was expected to be smaller in the treated group (arm A) than in the control group (arm B).|||7.1|-25.0|0.2588
92316122|NCT05258773|184536119|SUPERIORITY||LS Mean difference Arm A - Arm B|-13.84||||0.0979|TWO_SIDED|95.0|-30.49|2.8||An ANCOVA model was used to assess changes from baseline at the average across three frequencies (250-750 Hz) at EOS on Day 105, comparing the treatment groups. The treatment group was included as a fixed factor, with baseline values as a covariate.|ANCOVA||The change in hearing threshold from baseline was expected to be smaller in the treated group (arm A) than in the control group (arm B).|||2.80|-30.49|0.0979
92316123|NCT03593473|184536132|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at -40 minutes.||||0.37
92316124|NCT03593473|184536132|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at -20 minutes.||||0.40
92316125|NCT03593473|184536132|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 0 minutes.||||0.63
92316126|NCT03593473|184536132|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 10 minutes.||||0.72
92316127|NCT03593473|184536132|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 15 minutes.||||0.88
92316128|NCT03593473|184536132|SUPERIORITY|||||||0.85|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 28 minutes.||||0.85
92192589|NCT01177137|184284102|SUPERIORITY||Slope|1.41|STANDARD_ERROR_OF_MEAN|3.37||0.68|TWO_SIDED|95.0|-5.2|8.02||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||8.02|-5.20|0.68
92192590|NCT01177137|184284102|SUPERIORITY||Slope|0.94|STANDARD_ERROR_OF_MEAN|3.26||0.77|TWO_SIDED|95.0|-5.44|7.33||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||7.33|-5.44|0.77
92316129|NCT03593473|184536132|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 38 minutes.||||0.72
92316130|NCT03593473|184536132|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 48 minutes.||||0.57
92316131|NCT03593473|184536132|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||A mixed effects model with random intercept and slope was used to model cortisol as the outcome variable with time, study arm, and an interaction between time and study arm as the exposure variables. Times are restricted to times 0, +10, +15, and +28, which reflect the measures taken during the Trier Social Stress Test. The p-value presented below is for the interaction term between time and study arm.||||0.96
92316132|NCT03593473|184536133|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at -40 minutes.||||0.71
92192591|NCT01177137|184284103|SUPERIORITY||Slope|-3.53|STANDARD_ERROR_OF_MEAN|4.47||0.43|TWO_SIDED|95.0|-12.3|5.23||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||5.23|-12.30|0.43
92192592|NCT01177137|184284103|SUPERIORITY||Slope|-13.7|STANDARD_ERROR_OF_MEAN|4.24||0.001|TWO_SIDED|95.0|-22.02|-5.38||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||-5.38|-22.02|0.001
92316133|NCT03593473|184536133|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at -20 minutes.||||0.92
92316134|NCT03593473|184536133|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 0 minutes.||||0.92
92316135|NCT03593473|184536133|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 10 minutes.||||0.40
92316136|NCT03593473|184536133|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 15 minutes.||||0.97
92316137|NCT03593473|184536133|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 28 minutes.||||0.71
92316138|NCT03593473|184536133|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 38 minutes.||||0.78
92316139|NCT03593473|184536133|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 48 minutes.||||0.63
92316140|NCT03593473|184536133|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||A mixed effects model with random intercept and slope was used to model cortisol as the outcome variable with time, study arm, and an interaction between time and study arm as the exposure variables. This is the p-value for the interaction term between time and study arm.||||0.11
92316141|NCT03593473|184536134|SUPERIORITY|||||||0.07|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at -40 minutes and Cortisol at -20 minutes.||||0.07
92316142|NCT03593473|184536134|SUPERIORITY|||||||0.22|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at -20 minutes and Cortisol at 0 minutes.||||0.22
92316143|NCT03593473|184536134|SUPERIORITY|||||||0.14|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at 0 minutes and Cortisol at +10 minutes.||||0.14
92316144|NCT03593473|184536134|SUPERIORITY|||||||0.14|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at +10 minutes and Cortisol at +15 minutes.||||0.14
92316145|NCT03593473|184536134|SUPERIORITY|||||||0.05|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at +15 minutes and Cortisol at +28 minutes.||||0.05
92316146|NCT03593473|184536134|SUPERIORITY|||||||0.1|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at +28 minutes and Cortisol at +38 minutes.||||0.10
92316147|NCT03593473|184536134|SUPERIORITY|||||||0.9|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at +38 minutes and Cortisol at +48 minutes.||||0.90
92316148|NCT03593473|184536134|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||A mixed effects model with random intercept and slope was used to model cortisol at time j+1 as the outcome with ACTH at time j, study arm, and an interaction term between ACTH at time j and study arm as the exposure variables. The p-value presented below is for the interaction term between ACTH at time j and study arm.||||0.21
92316149|NCT03593473|184536135|SUPERIORITY|||||||0.8441|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -40 to -35||||0.8441
92316150|NCT03593473|184536135|SUPERIORITY|||||||0.7919|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -35 to -30||||0.7919
92192593|NCT01177137|184284104|SUPERIORITY||Slope|3.71|STANDARD_ERROR_OF_MEAN|3.91||0.34|TWO_SIDED|95.0|-3.96|11.38||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||11.38|-3.96|0.34
92316151|NCT03593473|184536135|SUPERIORITY|||||||0.5639|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -30 to -25||||0.5639
92316152|NCT03593473|184536135|SUPERIORITY|||||||0.3139|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -25 to -20||||0.3139
92316153|NCT03593473|184536135|SUPERIORITY|||||||0.4222|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -20 to -15||||0.4222
92316154|NCT03593473|184536135|SUPERIORITY|||||||0.834|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -15 to -10||||0.834
92316155|NCT03593473|184536135|SUPERIORITY|||||||0.7562|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -10 to -5||||0.7562
92316156|NCT03593473|184536135|SUPERIORITY|||||||0.4245|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -5 to 0||||0.4245
92316157|NCT03593473|184536135|SUPERIORITY|||||||0.1425|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 5 to 8||||0.1425
92316158|NCT03593473|184536135|SUPERIORITY|||||||0.7175|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 8 to 13||||0.7175
92316159|NCT03593473|184536135|SUPERIORITY|||||||0.1417|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 13 to 18||||0.1417
92316160|NCT03593473|184536135|SUPERIORITY|||||||0.0514|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 18 to 23||||0.0514
92316161|NCT03593473|184536135|SUPERIORITY|||||||0.1507|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 23 to 28||||0.1507
92316162|NCT03593473|184536135|SUPERIORITY|||||||0.4204|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 8 to 33||||0.4204
92316163|NCT03593473|184536135|SUPERIORITY|||||||0.4209|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 33 to 38||||0.4209
92316164|NCT03593473|184536135|SUPERIORITY|||||||0.2569|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 38 to 43||||0.2569
92316165|NCT03593473|184536135|SUPERIORITY|||||||0.0828|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 43 to 48||||0.0828
92316166|NCT03593473|184536136|SUPERIORITY|||||||0.6452|||||||t-test, 2 sided|||Pre-ejection period at minutes -40 to -35||||0.6452
92316167|NCT03593473|184536136|SUPERIORITY|||||||0.3228|||||||t-test, 2 sided|||Pre-ejection period at minutes -35 to -30||||0.3228
92316168|NCT03593473|184536136|SUPERIORITY|||||||0.3541|||||||t-test, 2 sided|||Pre-ejection period at minutes -30 to -25||||0.3541
92316169|NCT03593473|184536136|SUPERIORITY|||||||0.4311|||||||t-test, 2 sided|||Pre-ejection period at minutes -25 to -20||||0.4311
92316170|NCT03593473|184536136|SUPERIORITY|||||||0.3349|||||||t-test, 2 sided|||Pre-ejection period at minutes -20 to -15||||0.3349
92316171|NCT03593473|184536136|SUPERIORITY|||||||0.2646|||||||t-test, 2 sided|||Pre-ejection period at minutes -15 to -10||||0.2646
92316172|NCT03593473|184536136|SUPERIORITY|||||||0.1095|||||||t-test, 2 sided|||Pre-ejection period at minutes -10 to -5||||0.1095
92316173|NCT03593473|184536136|SUPERIORITY|||||||0.0194|||||||t-test, 2 sided|||Pre-ejection period at minutes -5 to 0||||0.0194
92316174|NCT03593473|184536136|SUPERIORITY|||||||0.473|||||||t-test, 2 sided|||Pre-ejection period at minutes 5 to 8||||0.473
92316175|NCT03593473|184536136|SUPERIORITY|||||||0.5768|||||||t-test, 2 sided|||Pre-ejection period at minutes 8 to 13||||0.5768
92316176|NCT03593473|184536136|SUPERIORITY|||||||0.3477|||||||t-test, 2 sided|||Pre-ejection period at minutes 13 to 18||||0.3477
92316177|NCT03593473|184536136|SUPERIORITY|||||||0.1413|||||||t-test, 2 sided|||Pre-ejection period at minutes 18 to 23||||0.1413
92316178|NCT03593473|184536136|SUPERIORITY|||||||0.2128|||||||t-test, 2 sided|||Pre-ejection period at minutes 23 to 28||||0.2128
92316179|NCT03593473|184536136|SUPERIORITY|||||||0.1415|||||||t-test, 2 sided|||Pre-ejection period at minutes 28 to 33||||0.1415
92316180|NCT03593473|184536136|SUPERIORITY|||||||0.1126|||||||t-test, 2 sided|||Pre-ejection period at minutes 33 to 38||||0.1126
92316181|NCT03593473|184536136|SUPERIORITY|||||||0.1647|||||||t-test, 2 sided|||Pre-ejection period at minutes 38 to 43||||0.1647
92316182|NCT03593473|184536136|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||Pre-ejection period at minutes 43 to 48||||0.088
92316183|NCT04231825|184536160|SUPERIORITY|||||||0.55|||||||ANCOVA|||||||0.55
92316184|NCT04231825|184536161|SUPERIORITY|||||||0.51|||||||ANCOVA|||||||0.51
92316185|NCT04231825|184536162|SUPERIORITY|||||||0.8|||||||ANCOVA|||||||0.80
92316186|NCT04231825|184536163|SUPERIORITY|||||||0.02|||||||ANCOVA|||||||0.02
92316187|NCT04231825|184536164|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.03
92316188|NCT01479465|184536172|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.0395|TWO_SIDED|95.0|1.01|2.06|||Log Rank|||"The null hypothesis was that the hazard ratio (HR) equals to 1 between SIM treatment arm and placebo, while the alternative hypothesis was that HR was less than 1.~The HR (95% confidence interval \[CI\]) and p-value (for comparison between SIM treatment arm and placebo) were based on two-sided log-rank test, stratified based on the 2-level Eastern Cooperative Oncology Group (ECOG) performance status (0 or \> 0) at randomization."||2.06|1.01|0.0395
92316189|NCT01479465|184536172|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.1042|TWO_SIDED|95.0|0.92|1.89|||Log Rank|||"The null hypothesis was that the HR equals to 1 between SIM treatment arm and placebo, while the alternative hypothesis was that HR was less than 1.~The HR (95% CI) and p-value (for comparison between SIM treatment arm and placebo) were based on two-sided log-rank test, stratified based on the 2-level ECOG performance status (0 or \> 0) at randomization."||1.89|0.92|0.1042
92316190|NCT02562066|184536179|OTHER||Mean Difference (Net)|1.63||||0.085|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Results show the difference in mean CFB at the end of Study Period 1.|A Mann-Whitney-Wilcoxon test for equality of the change from baseline (CFB) in the two treatments in Period 1 will be presented.||||0.085
92316191|NCT02562066|184536179|OTHER||Mean Difference (Net)|0.56|||||TWO_SIDED|95.0|-0.97|2.09|||Mixed Models Analysis||Results show the LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.|A mixed effects linear model will be fit to the data with SGI raw scores as the response and fixed effect terms for treatment, period, age group, mutation type and sequence\*period, and a random effect for patient. The LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.||2.09|-0.97|
92316192|NCT02562066|184536180|OTHER||Mean Difference (Net)|3.17||||0.376|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Results show the difference in mean CFB at the end of Study Period 1.|A Mann-Whitney-Wilcoxon test for equality of the change from baseline (CFB) in the two treatments in Period 1 will be presented.||||0.376
92316193|NCT02562066|184536180|OTHER||Mean Difference (Net)|1.14|||||TWO_SIDED|95.0|-2.31|4.58|||Mixed Models Analysis||Results show the LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.|A mixed effects linear model will be fit to the data with Overall MFM-32 scores as the response and fixed effect terms for treatment, period, age group, mutation type and sequence\*period, and a random effect for patient. The LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.||4.58|-2.31|
92316194|NCT02562066|184536181|OTHER||Mean Difference (Net)|-1.0||||0.8|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Results show the difference in mean CFB at the end of Study Period 1.|A Mann-Whitney-Wilcoxon test for equality of the change from baseline (CFB) in the two treatments in Period 1 will be presented.||||0.800
92316195|NCT02562066|184536181|OTHER||Mean Difference (Net)|0.63|||||TWO_SIDED|95.0|-5.25|6.5|||Mixed Models Analysis||Results show the LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.|A mixed effects linear model will be fit to the data with Overall MFM-20 scores as the response and fixed effect terms for treatment, period, age group, mutation type and sequence\*period, and a random effect for patient. The LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.||6.50|-5.25|
92316196|NCT02502149|184536186|OTHER||Adjusted Geometric Mean Ratio|1.08|||||TWO_SIDED|90.0|0.93|1.24|||||The adjusted geometric mean ratio is calculated as 15K (PK2)/2K (PK1).|||1.24|0.93|
92316197|NCT02502149|184536187|OTHER||Adjusted Geometric Mean Ratio|1.01|||||TWO_SIDED|90.0|0.87|1.16|||||The adjusted geometric mean ratio is calculated as 15K (PK2)/2K (PK1).|||1.16|0.87|
92316198|NCT03207776|184536293|SUPERIORITY||Odds Ratio (OR)|0.8||||0.041|TWO_SIDED|95.0|0.64|0.99|||Mixed Models Analysis|||||0.99|0.64|0.041
92192594|NCT01177137|184284104|SUPERIORITY||Slope|-0.23|STANDARD_ERROR_OF_MEAN|3.82||0.95|TWO_SIDED|95.0|-7.72|7.26||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||7.26|-7.72|0.95
92316199|NCT03207776|184536294|SUPERIORITY||Odds Ratio (OR)|0.99||||0.952|TWO_SIDED|95.0|0.69|1.42|||Mixed Models Analysis|||||1.42|0.69|0.952
92316200|NCT03207776|184536295|SUPERIORITY||Odds Ratio (OR)|0.91||||0.472|TWO_SIDED|95.0|0.71|1.17|||Mixed Models Analysis|||||1.17|0.71|0.472
92316201|NCT03207776|184536296|SUPERIORITY||Odds Ratio (OR)|1.14||||0.544|TWO_SIDED|95.0|0.74|1.77|||Mixed Models Analysis|||||1.77|0.74|0.544
92316202|NCT01234350|184536314|OTHER||IRR|0.829||||0.4007|TWO_SIDED|95.0|0.536|1.283||Poisson-mixture regression was used to model the influence of age, stage of disease, and relevant medical history along with the treatment group effect on the number of events adjusted for individual study exposures measured in 100 PYE.|Wald test|The IRs for each treatment arm with 95% confidence interval (CI), and incidence rate ratio (IRRs) with 95% CI and p-values were based on Wald test.|IRR for treatment with the lower 95% confidence limit \>1 suggest increased risk of AESI; upper confidence limit \<1 suggest decreased risk of AESI with the use of FIRMAGON. The limit including 1 suggests no difference b/w treatment groups.|The IRs were estimated using a Poisson-mixture regression model.||1.283|0.536|0.4007
92316203|NCT01234350|184536315|OTHER||IRR|0.874||||0.671|TWO_SIDED|95.0|0.47|1.626||Poisson-mixture regression was used to model the influence of age, stage of disease, and relevant medical history along with the treatment group effect on the number of events adjusted for individual study exposures measured in 100 PYE.|Wald test|The IRs for each treatment arm with 95% CI, and IRRs with 95% CI and p-values were based on Wald test.|IRR for treatment with the lower 95% confidence limit \>1 suggest increased risk of AESI; upper confidence limit \<1 suggest decreased risk of AESI with the use of FIRMAGON. The limit including 1 suggests no difference b/w treatment groups.|For osteoporosis and osteopenia events. The IRs were estimated using Poisson-mixture regression model.||1.626|0.470|0.6710
92316204|NCT01234350|184536315|OTHER||IRR|1.857||||0.4544|TWO_SIDED|95.0|0.367|9.403||Poisson-mixture regression was used to model the influence of age, stage of disease, and relevant medical history along with the treatment group effect on the number of events adjusted for individual study exposures measured in 100 PYE.|Wald test|The IRs for each treatment arm with 95% CI, and IRRs with 95% CI and p-values were based on Wald test.|IRR for treatment with the lower 95% confidence limit \>1 suggest increased risk of AESI; upper confidence limit \<1 suggest decreased risk of AESI with the use of FIRMAGON. The limit including 1 suggests no difference b/w treatment groups.|For bone fracture events. The IRs were estimated using Poisson-mixture regression model.||9.403|0.367|0.4544
92316205|NCT01234350|184536316|OTHER||IRR|1.193||||0.2529|TWO_SIDED|95.0|0.882|1.613||Poisson mixture regression was used to model the influence of age, stage of disease, and history of diabetes mellitus along with the treatment group effect on the number of events adjusted for individual study exposures measured in 100 PYE.|Wald test|The IRs for each treatment arm with 95% CI, and IRRs with 95% CI and p-values were based on Wald test.|IRR for treatment with the lower 95% confidence limit \>1 suggest increased risk of AESI; upper confidence limit \<1 suggest decreased risk of AESI with the use of FIRMAGON. The limit including 1 suggests no difference b/w treatment groups.|For glucose intolerance. The IRs were estimated using Poisson-mixture regression model.||1.613|0.882|0.2529
92316206|NCT01234350|184536316|OTHER||IRR|2.623||||0.0208|TWO_SIDED|95.0|1.158|5.944||Poisson-mixture regression is used to model the influence of age, stage of disease, and relevant medical history along with the treatment group effect on the number of events adjusted for individual trial exposures measured in 100 PYE.|Wald test|The IRs for each treatment arm with 95% CI, and IRRs with 95% CI and p-values were based on Wald test.|IRR for treatment with the lower 95% confidence limit \>1 suggest increased risk of AESI; upper confidence limit \<1 suggest decreased risk of AESI with the use of FIRMAGON. The limit including 1 suggests no difference b/w treatment groups.|For T2DM. The IRs were estimated using Poisson-mixture regression model.||5.944|1.158|0.0208
92316207|NCT01234350|184536323|OTHER||Odds Ratio (OR)|0.747||||0.0821|TWO_SIDED|95.0|0.537|1.038||A logistic regression was used to model the influence of age, stage of disease and relevant medical history along with the treatment group on the time to event for all-cause mortality.|Regression, Logistic|Logistic regression was used to model the influence of age, stage of disease and relevant medical history along with the treatment group.||The analyses of all-cause mortality was based on logistic regressions.||1.038|0.537|0.0821
92316208|NCT00289848|184536324|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.03|STANDARD_DEVIATION|1.08|<|0.001||95.0|-1.23|-0.83|||ANCOVA|ANCOVA with terms of treatment, country, prior diabetes pharmacotherapy (not on AHA or on AHA), and baseline A1C as a covariate||||-0.83|-1.23|<0.001
92316209|NCT00289848|184536325|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.0|STANDARD_DEVIATION|39.8|<|0.001||95.0|-38.4|-23.7|||ANCOVA|ANCOVA with terms of treatment, country, prior diabetes pharmacotherapy (not on AHA or on AHA), and baseline FPG as a covariate||||-23.7|-38.4|<0.001
92316210|NCT00289848|184536326|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-56.6|STANDARD_DEVIATION|59.2|<|0.001||95.0|-68.8|-44.3|||ANCOVA|ANCOVA with terms of treatment, country, prior diabetes pharmacotherapy (not on AHA or on AHA), and baseline 2-hr PMG as a covariate||||-44.3|-68.8|<0.001
92316211|NCT01839708|184536327|OTHER||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92316212|NCT01839708|184536328|OTHER||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92192595|NCT01177137|184284105|SUPERIORITY||Slope|-1.85|STANDARD_ERROR_OF_MEAN|3.69||0.62|TWO_SIDED|95.0|-9.07|5.38||The a priori threshold for statistical significance was \< 0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||5.38|-9.07|0.62
92192596|NCT01177137|184284105|SUPERIORITY||Slope|-4.46|STANDARD_ERROR_OF_MEAN|3.58||0.21|TWO_SIDED|95.0|-11.48|2.55||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.55|-11.48|0.21
92316213|NCT01839708|184536329|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92316214|NCT01839708|184536330|OTHER||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
92316215|NCT01839708|184536331|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92316216|NCT01839708|184536332|OTHER|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92316217|NCT01839708|184536333|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92316218|NCT01839708|184536334|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92316219|NCT01839708|184536335|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92316220|NCT01839708|184536336|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92316221|NCT01839708|184536337|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92316222|NCT01839708|184536338|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92316223|NCT01839708|184536339|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92316224|NCT01839708|184536340|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
92316225|NCT01836471|184536349|SUPERIORITY_OR_OTHER||least squares mean|0.01|STANDARD_ERROR_OF_MEAN|0.038||0.7269|TWO_SIDED|90.0|-0.5|0.08|||Mixed Models Analysis|||||0.08|-0.5|0.7269
92316226|NCT01836471|184536350|SUPERIORITY_OR_OTHER||least sqares mean|0.01|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|90.0|-0.08|0.09||||||||0.09|-0.08|
92316227|NCT01836471|184536350|SUPERIORITY_OR_OTHER||least squares mean|0.04|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|90.0|-0.04|0.13||||||||0.13|-0.04|
92316228|NCT01836471|184536350|SUPERIORITY_OR_OTHER||least squares mean|-0.04|STANDARD_ERROR_OF_MEAN|0.053|||TWO_SIDED|90.0|-0.13|0.05||||||||0.05|-0.13|
92316229|NCT01836471|184536351|SUPERIORITY_OR_OTHER|||||||0.9179|||||||Mixed Models Analysis|||||||0.9179
92316230|NCT01836471|184536352|SUPERIORITY_OR_OTHER||least squares mean|-0.02|STANDARD_ERROR_OF_MEAN|0.098|||TWO_SIDED|95.0|-0.22|0.17||||||||0.17|-0.22|
92316231|NCT01836471|184536352|SUPERIORITY_OR_OTHER||least sqares mean|-0.07|STANDARD_ERROR_OF_MEAN|0.128|||TWO_SIDED|95.0|-0.32|0.19||||||||0.19|-0.32|
92316232|NCT01836471|184536352|SUPERIORITY_OR_OTHER||least squares mean|0.1|STANDARD_ERROR_OF_MEAN|0.134|||TWO_SIDED|95.0|-0.16|0.37||||||||0.37|-0.16|
92316233|NCT01836471|184536352|SUPERIORITY_OR_OTHER||least squares mean|-0.17|STANDARD_ERROR_OF_MEAN|0.134|||TWO_SIDED|95.0|-0.43|0.09||||||||0.09|-0.43|
92316234|NCT01836471|184536353|SUPERIORITY_OR_OTHER|||||||0.793|||||||Mixed Models Analysis|||||||0.7930
92316235|NCT03051100|184536392|SUPERIORITY||Least squares mean difference|-60.5|STANDARD_ERROR_OF_MEAN|3.67|<|0.001|TWO_SIDED|95.0|-68.0|-53.0|||ANCOVA||Triplet therapy minus placebo|||-53.0|-68.0|<0.001
92192597|NCT01177137|184284106|SUPERIORITY||Slope|-0.13|STANDARD_ERROR_OF_MEAN|3.39||0.97|TWO_SIDED|95.0|-6.78|6.52||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||6.52|-6.78|0.97
92192598|NCT01177137|184284106|SUPERIORITY||Slope|-3.02|STANDARD_ERROR_OF_MEAN|3.27||0.36|TWO_SIDED|95.0|-9.43|3.4||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||3.40|-9.43|0.36
92192599|NCT01177137|184284107|SUPERIORITY||Slope|1.24|STANDARD_ERROR_OF_MEAN|3.01||0.68|TWO_SIDED|95.0|-4.67|7.14||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||7.14|-4.67|0.68
92192600|NCT01177137|184284107|SUPERIORITY||Slope|-3.52|STANDARD_ERROR_OF_MEAN|2.93||0.23|TWO_SIDED|95.0|-9.26|2.23||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.23|-9.26|0.23
92192601|NCT01177137|184284108|SUPERIORITY||Slope|-0.82|STANDARD_ERROR_OF_MEAN|1.27||0.52|TWO_SIDED|95.0|-3.3|1.66||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||1.66|-3.30|0.52
92316236|NCT03051100|184536393|SUPERIORITY||Least squares mean difference|-58.7|STANDARD_ERROR_OF_MEAN|3.02|<|0.001|TWO_SIDED|95.0|-64.9|-52.6|||ANCOVA||Triplet therapy minus placebo|non-HDL-C||-52.6|-64.9|<0.001
92316237|NCT03051100|184536393|SUPERIORITY||Least squares mean difference|-46.0|STANDARD_ERROR_OF_MEAN|2.77|<|0.001|TWO_SIDED|95.0|-51.6|-40.4|||ANCOVA||Triplet therapy minus placebo|TC||-40.4|-51.6|<0.001
92316238|NCT03051100|184536393|SUPERIORITY||Least squares mean difference|-54.1|STANDARD_ERROR_OF_MEAN|2.74|<|0.001|TWO_SIDED|95.0|-59.7|-48.6|||ANCOVA|||apoB||-48.6|-59.7|<0.001
92192602|NCT01177137|184284108|SUPERIORITY||Slope|-2.81|STANDARD_ERROR_OF_MEAN|1.22||0.022|TWO_SIDED|95.0|-5.21|-0.41||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||-0.41|-5.21|0.022
92192603|NCT01177137|184284109|SUPERIORITY||Slope|0.34|STANDARD_ERROR_OF_MEAN|0.96||0.72|TWO_SIDED|95.0|-1.54|2.23||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.23|-1.54|0.72
92192604|NCT01177137|184284109|SUPERIORITY||Slope|-1.04|STANDARD_ERROR_OF_MEAN|0.91||0.26|TWO_SIDED|95.0|-2.83|0.75||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.75|-2.83|0.26
92192605|NCT01177137|184284110|SUPERIORITY||Slope|0.61|STANDARD_ERROR_OF_MEAN|0.59||0.3|TWO_SIDED|95.0|0.55|1.78||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||1.78|0.55|0.30
92316239|NCT03051100|184536393|SUPERIORITY||Least squares mean difference|-36.3|STANDARD_ERROR_OF_MEAN|6.58|<|0.001|TWO_SIDED|95.0|-49.7|-22.8|||ANCOVA|||TG||-22.8|-49.7|<0.001
92316240|NCT03051100|184536393|SUPERIORITY||Least squares mean difference|-1.5|STANDARD_ERROR_OF_MEAN|2.7|=|0.588|TWO_SIDED|95.0|-7.0|4.0|||ANCOVA|||HDL-C||4.0|-7.0|=0.588
92316241|NCT03051100|184536394|SUPERIORITY||Median treatment difference|-41.9|STANDARD_ERROR_OF_MEAN|9.86|<|0.001|TWO_SIDED|95.0|-60.0|-21.4|||Wilcoxon rank sum test|||||-21.4|-60.0|<0.001
92316242|NCT03051100|184536395|SUPERIORITY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92316243|NCT03051100|184536396|SUPERIORITY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92316244|NCT05921903|184536437|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|3.52|||||TWO_SIDED|95.0|2.26|5.48|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/Pooled RSV\_IC) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant (Pooled RSV\_IC group) and healthy participants (RSV\_HA group) for the RSV-A strain at Visit 2.||5.48|2.26|
92316245|NCT05921903|184536437|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.62|||||TWO_SIDED|95.0|1.28|2.04|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/Pooled RSV\_IC) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant (Pooled RSV\_IC group) and healthy participants (RSV\_HA group) for the RSV-A strain at Visit 3.||2.04|1.28|
92316246|NCT05921903|184536438|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.26|||||TWO_SIDED|95.0|0.94|1.69|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_IC\_2/RSV\_IC\_1) (ANCOVA model applied to the log10- transformed titers). ANCOVA model included the group as fixed effect, and SOT type and baseline log10-transformed titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 1 dose of vaccine (RSV\_IC\_1 group) and participants that received lung or kidney solid organ transplant and 2 doses of vaccine (RSV\_IC\_2 group) for the RSV-A strain at Visit 4.||1.69|0.94|
92316247|NCT05921903|184536439|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.31|||||TWO_SIDED|95.0|1.01|1.68|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/RSV\_IC\_1) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 1 dose of study intervention (RSV\_IC\_1 group) and healthy participants (RSV\_HA group) for the RSV-A strain at Visit 4.||1.68|1.01|
92316248|NCT05921903|184536440|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.8|1.3|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/RSV\_IC\_2) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 2 doses of study intervention (RSV\_IC\_2 group) and healthy participants (RSV\_HA group) for the RSV-A strain at Visit 4.||1.30|0.80|
92316249|NCT05921903|184536442|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|3.37|||||TWO_SIDED|95.0|2.28|4.98|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/Pooled RSV\_IC) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant (Pooled RSV\_IC group) and healthy participants (RSV\_HA group) for the RSV-B strain at Visit 2.||4.98|2.28|
92316250|NCT05921903|184536442|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.67|||||TWO_SIDED|95.0|1.32|2.13|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/Pooled RSV\_IC) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant (Pooled RSV\_IC group) and healthy participants (RSV\_HA group) for the RSV-B strain at Visit 3.||2.13|1.32|
92316251|NCT05921903|184536443|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.28|||||TWO_SIDED|95.0|0.97|1.7|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_IC\_2/RSV\_IC\_1) (ANCOVA model applied to the log10- transformed titers). ANCOVA model included the group as fixed effect, and SOT type and baseline log10-transformed titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 1 dose of vaccine (RSV\_IC\_1 group) and participants that received lung or kidney solid organ transplant and 2 doses of vaccine (RSV\_IC\_2 group) for the RSV-B strain at Visit 4.||1.70|0.97|
92316252|NCT05921903|184536444|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.29|||||TWO_SIDED|95.0|1.0|1.65|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/RSV\_IC\_1) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 1 dose of study intervention (RSV\_IC\_1 group) and healthy participants (RSV\_HA group) for the RSV-B strain at Visit 4.||1.65|1.00|
92192606|NCT01177137|184284110|SUPERIORITY||Slope|-0.62|STANDARD_ERROR_OF_MEAN|0.58||0.29|TWO_SIDED|95.0|-1.75|0.52||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.52|-1.75|0.29
92192607|NCT02367105|184284127|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.58|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariate||||||0.58
92316253|NCT05921903|184536445|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.01|||||TWO_SIDED|95.0|0.8|1.26|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/RSV\_IC\_2) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 2 doses of study intervention (RSV\_IC\_2 group) and healthy participants (RSV\_HA group) for the RSV-B strain at Visit 4.||1.26|0.80|
92316254|NCT02224157|184536490|NON_INFERIORITY|Non-inferiority analysis based on CI instead of p-value, hence no p-value calculated for this analysis. Upper limit of the 1-sided 95% confidence limit \<1.2 indicates Symbicort 'as needed' is non-inferior to Pulmicort bid|Rate ratio|0.97|||||ONE_SIDED|95.0||1.16|||Negative binomial model|Adjusted for randomised treatment, pre-study treatment and region. Logarithm of follow-up time is used as an offset variable.|A rate ratio less than 1 indicates a lower rate of exacerbations in the Symbicort 'as needed' treatment group.|||1.16||
92316255|NCT02224157|184536491|SUPERIORITY||Hazard Ratio (HR)|0.955||||0.664|TWO_SIDED|95.0|0.777|1.174|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first severe exacerbation.|||1.174|0.777|0.664
92316256|NCT02224157|184536492|SUPERIORITY||Least Square Mean Difference|-32.6||||0.003|TWO_SIDED|95.0|-53.7|-11.4|||Mixed Models Analysis|Rand treatment,pre-study treatment,region,visit,rand treatment by visit; fixed effects. Patient; random effect, baseline FEV1; covariate.|Mean difference greater than 0 favours Symbicort 'as needed'. Estimate corresponds to average treatment effect across all treatment visits.|||-11.4|-53.7|0.003
92316257|NCT02224157|184536494|SUPERIORITY||Least Square Mean Difference|0.03|||||TWO_SIDED|95.0|0.0|0.07||No p-value was calculated for this efficacy variable|ANCOVA|Model with randomised treatment, pre-study treatment and region as factors, and no. of 'as needed' inhalations at baseline as continuous covariate|A mean difference less than zero indicates a larger mean reduction in number of 'as needed' inhalations in the Symbicort 'as needed' group.|||0.07|0.00|
92316258|NCT02224157|184536495|SUPERIORITY||Least Square Mean Difference|-6.85|||<|0.001|TWO_SIDED|95.0|-8.37|-5.34|||ANCOVA|adjusted for randomised treatment, pre-study treatment and region as factors and the percent 'as needed' free days during run-in as a cont covariate.|An estimate of difference \>0 means that there was a larger increase in the % of 'as needed' free days in the Symbicort 'as-needed' arm.|||-5.34|-8.37|< 0.001
92192608|NCT02367105|184284128|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.03|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.03
92192609|NCT02367105|184284129|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.97|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||.97
92316259|NCT02224157|184536496|SUPERIORITY||Least Square Mean Difference|-37.48|||<|0.001|TWO_SIDED|95.0|-39.18|-35.77|||ANOVA|model adjusted for: randomised treatment, pre-study treatment and region.|An estimate of difference \>0 means that there was a higher % of controller use days in the Symbicort 'as-needed' group.|||-35.77|-39.18|<0.001
92316260|NCT02224157|184536497|SUPERIORITY||Least Square Mean Difference|0.109|||<|0.001|TWO_SIDED|95.0|0.068|0.15|||Mixed Models Analysis|rand treatment, pre-study treatment, region, visit, rand treat by visit as fixed, patient as random, and baseline ACQ-5 as covariate.|Mean difference less than 0 favours Symbicort 'as needed'.|||0.150|0.068|<0.001
92316261|NCT02224157|184536498|SUPERIORITY||Least Square Mean Difference|-0.096|||<|0.001|TWO_SIDED|95.0|-0.137|-0.054|||Mixed Models Analysis|rand treatment, pre-study treatment, region, visit, rand treat by visit as fixed, patient as random and baseline AQLQ as covariate.|Mean difference greater than 0 favours Symbicort 'as needed'.|||-0.054|-0.137|<0.001
92316262|NCT02224157|184536499|SUPERIORITY||Rate ratio|0.97||||0.754|TWO_SIDED|95.0|0.78|1.2|||Negative binomial model|Adjusted for randomised treatment, pre-study treatment and region. Logarithm of follow-up time is used as an offset variable.|A rate ratio less than 1 indicates a lower rate of exacerbations in the Symbicort 'as needed' treatment group.|||1.20|0.78|0.754
92316263|NCT05906628|184536500|SUPERIORITY||Odds Ratio (OR)|9.82|||<|0.0001|TWO_SIDED|95.0|4.48|21.49|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||||21.49|4.48|<0.0001
92316264|NCT05906628|184536500|SUPERIORITY||Response rate difference|42.5|STANDARD_ERROR_OF_MEAN|6.03|||TWO_SIDED|95.0|30.7|54.36||||||||54.36|30.70|
92192610|NCT02367105|184284130|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.56|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.56
92192611|NCT02367105|184284131|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
92192612|NCT02367105|184284132|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.91|TWO_SIDED||||||Mixed Models Analysis|||||||0.91
92192613|NCT02367105|184284133|SUPERIORITY||Mean Difference (Final Values)|-42.0||||0.04|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.04
92192614|NCT02367105|184284134|SUPERIORITY||Mean Difference (Final Values)|-29.0||||0.67|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||.67
92192615|NCT02367105|184284135|SUPERIORITY||Mean Difference (Final Values)|-0.019||||0.003|TWO_SIDED||||||Mixed Models Analysis|Baseline valued adjusted||||||0.003
92192616|NCT02367105|184284136|SUPERIORITY||Mean Difference (Final Values)|-0.003||||0.69|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.69
92192617|NCT02367105|184284137|SUPERIORITY||Mean Difference (Final Values)|7.0||||0.94|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.94
92192618|NCT02367105|184284138|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.41|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.41
92192619|NCT02367105|184284139|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.46|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||0.46
92192620|NCT02367105|184284140|SUPERIORITY|Baseline value adjusted|Mean Difference (Final Values)|0.6||||0.96|TWO_SIDED||||||Mixed Models Analysis|||||||0.96
92192621|NCT02367105|184284141|SUPERIORITY||Mean Difference (Final Values)|-0.284||||0.003|TWO_SIDED||||||Mixed Models Analysis|||||||.003
92192622|NCT02367105|184284142|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.16|TWO_SIDED||||||Mixed Models Analysis|Baseline value and years of education as covariates||||||.16
92316265|NCT05906628|184536501|SUPERIORITY||Odds Ratio (OR)|4.23|||<|0.0001|TWO_SIDED|95.0|2.14|8.38|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||Week 4||8.38|2.14|<0.0001
92316266|NCT05906628|184536501|SUPERIORITY||Response rate difference|29.5|STANDARD_ERROR_OF_MEAN|6.52|||TWO_SIDED|95.0|16.69|42.24||||||Week 4||42.24|16.69|
92316267|NCT05906628|184536501|SUPERIORITY||Odds Ratio (OR)|3.9|||<|0.0001|TWO_SIDED|95.0|2.02|7.51|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||Week 16||7.51|2.02|<0.0001
92316268|NCT05906628|184536501|SUPERIORITY||Response rate difference|29.5|STANDARD_ERROR_OF_MEAN|6.69|||TWO_SIDED|95.0|16.34|42.57||||||Week 16||42.57|16.34|
92316269|NCT05906628|184536502|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1789|TWO_SIDED|95.0|0.718|5.923|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||Day 3||5.923|0.718|0.1789
92316270|NCT05906628|184536502|SUPERIORITY||Odds Ratio (OR)|3.79||||0.0024|TWO_SIDED|95.0|1.603|8.951|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||Week 1 (Day 7)||8.951|1.603|0.0024
92316271|NCT05906628|184536503|SUPERIORITY||Odds Ratio (OR)|9.91|||<|0.0001|TWO_SIDED|95.0|4.44|22.13|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||Week 16||22.13|4.44|<0.0001
92316272|NCT05906628|184536503|SUPERIORITY||Response rate difference|45.6|STANDARD_ERROR_OF_MEAN|6.49|||TWO_SIDED|95.0|32.83|58.27||||||Week 16||58.27|32.83|
92316273|NCT05906628|184536505|SUPERIORITY||Cox regression model|1.719||||0.0025|TWO_SIDED|95.0|1.211|2.44|||Log Rank|stratified by randomization stratification factors|Cox regression model stratified by stratification factors (Baseline IGA-CHE 3/4, Region : North America or outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||2.440|1.211|0.0025
92316274|NCT05906628|184536508|SUPERIORITY||Cox regression model|1.279||||0.1319|TWO_SIDED|95.0|0.931|1.759|||Log Rank|stratified by randomization stratification factors|Cox regression model stratified by stratification factors (Baseline IGA-CHE 3/4, Region : North America or outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||1.759|0.931|0.1319
92316275|NCT02301169|184536522|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: no difference in mean change from baseline to day 42 of pain severity as measured by weekly means of the daily Average Pain Score (APS), T4P1001 compared with placebo|Mean Difference (Final Values)|0.3748299||||0.4162|TWO_SIDED|95.0|-0.5479411|1.297601||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment group comparisons|t-test, 2 sided|Welch two sample t-test||||1.2976010|-0.5479411|0.4162
92316276|NCT02301169|184536523|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: no difference in mean change from baseline to day 42 of pain severity as measured by weekly means of the daily Worst Pain Score (WPS), T4P1001 compared with placebo.|Mean Difference (Final Values)|0.1255102||||0.7887|TWO_SIDED|95.0|-0.8152493|1.0662697||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment group comparisons.|t-test, 2 sided|Welch two sample t-test||||1.0662697|-0.8152493|0.7887
92316277|NCT02301169|184536524|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: no difference in mean change from baseline to day 42 of pain severity as measured by Investigator Global Assessment of Change, T4P1001 compared with Placebo|Mean Difference (Final Values)|0.802381||||0.2353|TWO_SIDED|95.0|-0.5457743|2.1505362||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment group comparisons.|t-test, 2 sided|Welch two sample t-test||||2.1505362|-0.5457743|0.2353
92316278|NCT02301169|184536525|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: no difference in mean change from baseline to day 42 of pain intensity measured after heat pain stimuli, T4P1001 compared with placebo.|Mean Difference (Final Values)|0.7656429||||0.06204|TWO_SIDED|95.0|-0.0406744|1.5719601||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment group comparisons.|t-test, 2 sided|Welch two sample t-test||||1.5719601|-0.0406744|0.06204
92316279|NCT02301169|184536526|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: no difference in mean change from baseline to day 42 of pain severity as measured by the Brief Pain Inventory (BPI), T4P1001 compared with placebo.|Mean Difference (Final Values)|1.683333||||0.3386|TWO_SIDED|95.0|-1.83119|5.197857||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment group comparisons.|t-test, 2 sided|Welch two sample t-test||||5.197857|-1.831190|0.3386
92316280|NCT03762265|184536527|SUPERIORITY||Difference in percentage|5.73|STANDARD_ERROR_OF_MEAN|7.535||0.4469|TWO_SIDED|95.0|-9.037|20.5|||Cochran-Mantel-Haenszel|||P-value and 95% confidence interval (CI) were based on Cochran-Mantel-Haenszel general association test stratified by disease type (PV or PF) and disease history (newly diagnosed \[\<=6 months prior to screening\] or relapsing \[diagnosed greater than \[\>\] 6 months prior to screening\]).||20.500|-9.037|0.4469
92316281|NCT03762265|184536528|SUPERIORITY||Difference in percentage|8.13|STANDARD_ERROR_OF_MEAN|7.085||0.251|TWO_SIDED|95.0|-5.752|22.019|||Cochran-Mantel-Haenszel|||P-value and 95% CI were based on Cochran-Mantel-Haenszel general association test stratified by disease type (PV or PF) and disease history (newly diagnosed \[\<=6 months prior to screening\] or relapsing \[diagnosed \>6 months prior to screening\]).||22.019|-5.752|0.2510
92316282|NCT02289729|184536589|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
92316283|NCT02289729|184536590|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
92316284|NCT02289729|184536591|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
92316285|NCT02289729|184536592|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
92192623|NCT02367105|184284143|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.21|TWO_SIDED||||||Mixed Models Analysis|Baseline values and years of education as covariates||||||0.21
92192624|NCT02367105|184284144|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.41|TWO_SIDED||||||Mixed Models Analysis|Baseline values and years of education as covariates||||||0.41
92192625|NCT02367105|184284145|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.03|TWO_SIDED||||||Mixed Models Analysis|Baseline value and years if education as covariates||||||.03
92316286|NCT02289729|184536593|SUPERIORITY|||||||0.0328|||||||t-test|||||||0.0328
92316287|NCT02289729|184536594|SUPERIORITY|||||||0.4183|||||||t-test|||||||0.4183
92316288|NCT02289729|184536595|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
92316289|NCT02289729|184536596|SUPERIORITY|||||||0.0003|||||||t-test|||||||0.0003
92316290|NCT02289729|184536597|SUPERIORITY|||||||0.0109|||||||t-test|||||||0.0109
92316291|NCT02289729|184536598|SUPERIORITY|||||||0.0002|||||||t-test|||||||0.0002
92316292|NCT02289729|184536599|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
92192626|NCT02367105|184284146|SUPERIORITY||Mean Difference (Final Values)|6.6||||0.03|TWO_SIDED||||||Mixed Models Analysis|Baseline values and years of education as covariates||||||.03
92192627|NCT02367105|184284147|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.18|TWO_SIDED||||||Mixed Models Analysis|Baseline values and years of education as covariates||||||.18
92316293|NCT02289729|184536600|SUPERIORITY|||||||0.0002|||||||signed-rank test|||||||0.0002
92316294|NCT02289729|184536601|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
92316295|NCT02289729|184536602|SUPERIORITY|||||||0.0038|||||||t-test|||||||0.0038
92316296|NCT02289729|184536603|SUPERIORITY||||||<|0.0001|||||||signed-rank test|||||||< 0.0001
92316297|NCT02289729|184536604|SUPERIORITY|||||||0.0274|||||||signed-rank test|||||||0.0274
92316298|NCT02289729|184536605|SUPERIORITY||||||<|0.0001|||||||signed-rank test|||||||< 0.0001
92316299|NCT02289729|184536606|SUPERIORITY|||||||0.0006|||||||t-test|||||||0.0006
92316300|NCT02289729|184536607|SUPERIORITY|||||||0.001|||||||signed-rank test|||||||0.0010
92192628|NCT02367105|184284148|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.1|TWO_SIDED||||||Mixed Models Analysis|Baseline values and years of education as covariates||||||0.10
92192629|NCT02367105|184284149|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.65|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||.65
92192630|NCT02367105|184284150|SUPERIORITY||Mean Difference (Final Values)|0.553||||0.03|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.03
92192631|NCT02367105|184284151|SUPERIORITY||Mean Difference (Final Values)|-6.5||||0.04|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.04
92192632|NCT02367105|184284152|SUPERIORITY||Mean Difference (Final Values)|5.5||||0.35|TWO_SIDED|||||Baseline value adjusted|Mixed Models Analysis|||||||0.35
92192633|NCT02367105|184284153|SUPERIORITY||Median Difference (Final Values)|0.01||||0.65|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.65
92192634|NCT02367105|184284154|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.27|TWO_SIDED|||||Baseline value adjusted|Mixed Models Analysis|||||||0.27
92192635|NCT02367105|184284155|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.39|TWO_SIDED|||||Baseline value adjusted|Mixed Models Analysis|||||||0.39
92192636|NCT02367105|184284156|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.58|TWO_SIDED||||||Mixed Models Analysis|||||||0.58
92316301|NCT02289729|184536608|SUPERIORITY|||||||0.0002|||||||t-test|||||||0.0002
92316302|NCT02289729|184536609|SUPERIORITY|||||||0.0297|||||||t-test|||||||0.0297
92316303|NCT02289729|184536610|SUPERIORITY|||||||0.0279|||||||t-test|||||||0.0279
92316304|NCT02289729|184536611|SUPERIORITY|||||||0.2777|||||||t-test|||||||0.2777
92316305|NCT02289729|184536612|SUPERIORITY|||||||0.0047|||||||t-test|||||||0.0047
92316306|NCT02289729|184536613|SUPERIORITY|||||||0.0003|||||||t-test|||||||0.0003
92316307|NCT02289729|184536614|SUPERIORITY||||||<|0.5877|||||||t-test|||||||<0.5877
92316308|NCT02289729|184536615|SUPERIORITY|||||||0.0002|||||||t-test|||||||0.0002
92316309|NCT02289729|184536616|SUPERIORITY||||||<|0.0001|||||||t-test|||||||<0.0001
92316310|NCT02289729|184536617|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
92316311|NCT02289729|184536618|SUPERIORITY||||||<|0.0001|||||||signed-rank test|||||||< 0.0001
92316312|NCT02289729|184536619|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
92316313|NCT02289729|184536620|SUPERIORITY|||||||0.0001|||||||t-test|||||||0.0001
92316314|NCT02289729|184536621|SUPERIORITY||||||<|0.0001|||||||signed-rank test|||||||< 0.0001
92316315|NCT02289729|184536622|SUPERIORITY|||||||0.2428|||||||signed-rank test|||||||0.2428
92316316|NCT02289729|184536623|SUPERIORITY|||||||0.0687|||||||t-test|||||||0.0687
92316317|NCT02289729|184536624|SUPERIORITY|||||||0.3126|||||||t-test|||||||0.3126
92316318|NCT02289729|184536625|SUPERIORITY|||||||0.1533|||||||t-test|||||||0.1533
92316319|NCT02289729|184536626|SUPERIORITY|||||||0.8145|||||||t-test|||||||0.8145
92316320|NCT02289729|184536627|SUPERIORITY|||||||0.4048|||||||t-test|||||||0.4048
92316321|NCT02289729|184536628|SUPERIORITY|||||||0.8321|||||||t-test|||||||0.8321
92316322|NCT02289729|184536629|SUPERIORITY|||||||0.1945|||||||signed-rank test|||||||0.1945
92316323|NCT02289729|184536630|SUPERIORITY|||||||0.7937|||||||t-test|||||||0.7937
92316324|NCT02289729|184536631|SUPERIORITY|||||||0.0234|||||||signed-rank test|||||||0.0234
92316325|NCT02289729|184536632|SUPERIORITY|||||||0.5922|||||||t-test|||||||0.5922
92316326|NCT02289729|184536633|SUPERIORITY|||||||1|||||||t-test|||||||1.000
92316327|NCT02289729|184536634|SUPERIORITY|||||||0.6481|||||||t-test|||||||0.6481
92316328|NCT02289729|184536635|SUPERIORITY|||||||0.6741|||||||t-test|||||||0.6741
92316329|NCT02289729|184536636|OTHER||Fisher's z|0.27846||||0.0389|TWO_SIDED|95.0|0.014175|0.495059|||Fisher's z Transformation|||PDQ-39 with UPDRS-III||0.495059|0.014175|0.0389
92316330|NCT02289729|184536636|OTHER||Fisher's z|0.07359||||0.5852|TWO_SIDED|95.0|-0.188409|0.32558|||Fisher's z Transformation|||PDQ-39 with UPDRS-IV||0.325580|-0.188409|0.5852
92316331|NCT02289729|184536636|OTHER||Fisher's z|0.21311||||0.114|TWO_SIDED|95.0|-0.051127|0.444152|||Fisher's z Transformation|||PDQ-39 with NMSS||0.444152|-0.051127|0.1140
92316332|NCT02289729|184536636|OTHER||Fisher's z|0.29062||||0.0311|TWO_SIDED|95.0|0.026334|0.504186|||Fisher's z Transformation|||PDQ-39 with BAI||0.504186|0.026334|0.0311
92316333|NCT02289729|184536636|OTHER||Fisher's z|0.49952||||0.0002|TWO_SIDED|95.0|0.230995|0.643312|||Fisher's z Transformation|||PDQ-39 with BDI-II||0.643312|0.230995|0.0002
92316334|NCT02289729|184536636|OTHER||Fisher's z|0.08869||||0.5146|TWO_SIDED|95.0|-0.176169|0.341163|||Fisher's z Transformation|||PDQ-39 with AS||0.341163|-0.176169|0.5146
92316335|NCT02289729|184536636|OTHER||Fisher's z|0.34688||||0.0108|TWO_SIDED|95.0|0.079996|0.546657|||Fisher's z Transformation|||PDQ-39 with PFS||0.546657|0.079996|0.0108
92316336|NCT02289729|184536636|OTHER||Fisher's z|0.22455||||0.0989|TWO_SIDED|95.0|-0.042139|0.455224|||Fisher's z Transformation|||PDQ-39 with NBL A-S||0.455224|-0.042139|0.0989
92316337|NCT02289729|184536636|OTHER||Fisher's z|0.35742||||0.006|TWO_SIDED|95.0|0.106797|0.565335|||Fisher's z Transformation|||PDQ-39 with NBL C-D||0.565335|0.106797|0.0060
92316338|NCT02289729|184536636|OTHER||Fisher's z|0.00011||||0.9993|TWO_SIDED|95.0|-0.260462|0.260673|||Fisher's z Transformation|||PDQ-39 with NBL C-R||0.260673|-0.260462|0.9993
92316339|NCT02289729|184536636|OTHER||Fisher's z|-0.36687||||0.0088|TWO_SIDED|95.0|-0.565795|-0.092154|||Fisher's z Transformation|||PDQ-39 with ZBI||-0.092154|-0.565795|0.0088
92316340|NCT02289729|184536636|OTHER||Fisher's z|0.21643||||0.1222|TWO_SIDED|95.0|-0.057959|0.454911|||Fisher's z Transformation|||PDQ-39 with Goldberg-Anxiety||0.454911|-0.057959|0.1222
92316341|NCT02289729|184536636|OTHER||Fisher's z|0.57423||||0.0041|TWO_SIDED|95.0|0.180247|0.74704|||Fisher's z Transformation|||PDQ-39 with Goldberg-Depression||0.747040|0.180247|0.0041
92316342|NCT02289729|184536637|OTHER||Fisher's z|0.31946||||0.0239|TWO_SIDED|95.0|0.042257|0.534657|||Fisher's z Transformation|||PDQ-39 with UPDRS-III||0.534657|0.042257|0.0239
92316343|NCT02289729|184536637|OTHER||Fisher's z|0.36796||||0.0093|TWO_SIDED|95.0|0.090528|0.568388|||Fisher's z Transformation|||PDQ-39 with UPDRS-IV||0.568388|0.090528|0.0093
92316344|NCT02289729|184536637|OTHER||Fisher's z|0.38627||||0.0069|TWO_SIDED|95.0|0.105875|0.582517|||Fisher's z Transformation|||PDQ-39 with NMSS||0.582517|0.105875|0.0069
92316345|NCT02289729|184536637|OTHER||Fisher's z|0.70289|||<|0.0001|TWO_SIDED|95.0|0.40173|0.753097|||Fisher's z Transformation|||PDQ-39 with BAI||0.753097|0.401730|< 0.0001
92316346|NCT02289729|184536637|OTHER||Fisher's z|0.63758|||<|0.0001|TWO_SIDED|95.0|0.345567|0.72341|||Fisher's z Transformation|||PDQ-39 with BDI-II||0.723410|0.345567|<0.0001
92316347|NCT02289729|184536637|OTHER||Fisher's z|0.24114||||0.0882|TWO_SIDED|95.0|-0.036024|0.476404|||Fisher's z Transformation|||PDQ-39 with AS||0.476404|-0.036024|0.0882
92316348|NCT02289729|184536637|OTHER||Fisher's z|0.67113|||<|0.0001|TWO_SIDED|95.0|0.374757|0.739016|||Fisher's z Transformation|||PDQ-39 with PFS||0.739016|0.374757|< 0.0001
92316349|NCT02289729|184536637|OTHER||Fisher's z|0.60612|||<|0.0001|TWO_SIDED|95.0|0.317572|0.708072|||Fisher's z Transformation|||PDQ-39 with NBL A-S||0.708072|0.317572|< 0.0001
92316350|NCT02289729|184536637|OTHER||Fisher's z|0.60613|||<|0.0001|TWO_SIDED|95.0|0.31758|0.708076|||Fisher's z Transformation|||PDQ-39 with NBL C-D||0.708076|0.317580|< 0.0001
92316351|NCT02289729|184536637|OTHER||Fisher's z|0.41143||||0.0036|TWO_SIDED|95.0|0.133445|0.597087|||Fisher's z Transformation|||PDQ-39 with NBL C-R||0.597087|0.133445|0.0036
92316352|NCT02289729|184536637|OTHER||Fisher's z|-0.33661||||0.0239|TWO_SIDED|95.0|-0.557217|-0.044411|||Fisher's z Transformation|||PDQ-39 with ZBI||-0.044411|-0.557217|0.0239
92316353|NCT02289729|184536637|OTHER||Fisher's z|0.64565|||<|0.0001|TWO_SIDED|95.0|0.339454|0.734221|||Fisher's z Transformation|||PDQ-39 with Goldberg-Anxiety||0.734221|0.339454|< 0.0001
92316354|NCT02289729|184536637|OTHER||Fisher's z|0.10898||||0.7058|TWO_SIDED|95.0|-0.427482|0.588111|||Fisher's z Transformation|||PDQ-39 with Goldberg-Depression||0.588111|-0.427482|0.7058
92316355|NCT02289729|184536638|OTHER||Fisher's z|-0.57271|||<|0.0001|TWO_SIDED|95.0|-0.689585|-0.289724|||Fisher's z Transformation|||SQLC with ZBI||-0.289724|-0.689585|< 0.0001
92316356|NCT02289729|184536638|OTHER||Fisher's z|-0.16332||||0.4142|TWO_SIDED|95.0|-0.504489|0.224771|||Fisher's z Transformation|||SQLC with Goldberg Anxiety||0.224771|-0.504489|0.4142
92316357|NCT02289729|184536638|OTHER||Fisher's z|-0.48143||||0.0239|TWO_SIDED|95.0|-0.715956|-0.063481|||Fisher's z Transformation|||SQLC with Goldberg Depression||-0.063481|-0.715956|0.0239
92316358|NCT02289729|184536638|OTHER||Fisher's z|0.06326||||0.6546|TWO_SIDED|95.0|-0.210715|0.327872|||Fisher's z Transformation|||SQLC with NBL A-S||0.327872|-0.210715|0.6546
92316359|NCT02289729|184536638|OTHER||Fisher's z|0.17674||||0.2114|TWO_SIDED|95.0|-0.100105|0.425116|||Fisher's z Transformation|||SQLC with NBL C-D||0.425116|-0.100105|0.2114
92316360|NCT02289729|184536638|OTHER||Fisher's z|0.2944||||0.0374|TWO_SIDED|95.0|0.017222|0.516523|||Fisher's z Transformation|||SQLC with NBL C-R||0.516523|0.017222|0.0374
92316361|NCT02289729|184536638|OTHER||Fisher's z|-0.36687||||0.0088|TWO_SIDED|95.0|-0.565795|-0.092154|||Fisher's z Transformation|||SQLC with Global PDQ-39||-0.092154|-0.565795|0.0088
92316362|NCT02289729|184536638|OTHER||Fisher's z|-0.13433||||0.3374|TWO_SIDED|95.0|-0.387439|0.139207|||Fisher's z Transformation|||SQLC with UPDRS-III||0.139207|-0.387439|0.3374
92316363|NCT02289729|184536638|OTHER||Fisher's z|0.17846||||0.2025|TWO_SIDED|95.0|-0.095693|0.424291|||Fisher's z Transformation|||SQLC with UPDRS-IV||0.424291|-0.095693|0.2025
92316364|NCT02289729|184536638|OTHER||Fisher's z|0.01625||||0.9076|TWO_SIDED|95.0|-0.252613|0.282777|||Fisher's z Transformation|||SQLC with Global NMSS||0.282777|-0.252613|0.9076
92316365|NCT02289729|184536639|OTHER||Fisher's z|-0.7468|||<|0.0001|TWO_SIDED|95.0|-0.777482|-0.425693|||Fisher's z Transformation|||SQLC with ZBI||-0.425693|-0.777482|< 0.0001
92316366|NCT02289729|184536639|OTHER||Fisher's z|0.17924||||0.5347|TWO_SIDED|95.0|-0.368382|0.632178|||Fisher's z Transformation|||SQLC with Goldberg Anxiety||0.632178|-0.368382|0.5347
92316367|NCT02289729|184536639|OTHER||Fisher's z|-0.06987||||0.8251|TWO_SIDED|95.0|-0.597767|0.500464|||Fisher's z Transformation|||SQLC with Goldberg Depression||0.500464|-0.597767|0.8251
92316368|NCT02289729|184536639|OTHER||Fisher's z|-0.1106||||0.4581|TWO_SIDED|95.0|-0.382323|0.179601|||Fisher's z transformation|||SQLC with NBL A-S||0.179601|-0.382323|0.4581
92316369|NCT02289729|184536639|OTHER||Fisher's z|0.00326||||0.9826|TWO_SIDED|95.0|-0.281136|0.287128|||Fisher's z Transformation|||SQLC with NBL C-D||0.287128|-0.281136|0.9826
92316370|NCT02289729|184536639|OTHER||Fisher's z|-0.10293||||0.4899|TWO_SIDED|95.0|-0.375749|0.187021|||Fisher's z Transformation|||SQLC with NBL C-R||0.187021|-0.375749|0.4899
92316371|NCT02289729|184536639|OTHER||Fisher's z|-0.33661||||0.0239|TWO_SIDED|95.0|-0.557217|-0.044411|||Fisher's z Transformation|||SQLC with Global PDQ-39||-0.044411|-0.557217|0.0239
92316372|NCT02289729|184536639|OTHER||Fisher's z|-0.23658||||0.1125|TWO_SIDED|95.0|-0.484427|0.055538|||Fisher's z Transformation|||SQLC with UPDRS-III||0.055538|-0.484427|0.1125
92316373|NCT02289729|184536639|OTHER||Fisher's z|-0.13015||||0.3826|TWO_SIDED|95.0|-0.398887|0.16062|||Fisher's z Transformation|||SQLC with UPDRS-IV||0.160620|-0.398887|0.3826
92316374|NCT02289729|184536639|OTHER||Fisher's z|0.11688||||0.4382|TWO_SIDED|95.0|-0.176724|0.390468|||Fisher's z Transformation|||SQLC with Global NMSS||0.390468|-0.176724|0.4382
92316375|NCT02456740|184536774|SUPERIORITY|The primary endpoint was tested independently for each erenumab dose at an alpha level of 0.04 for 70 mg and of 0.01 for 140 mg to maintain the type 1 error rate at an alpha level of 0.05.|LS Mean Difference|-1.4|||<|0.001|TWO_SIDED|95.0|-1.88|-0.92|||Generalized Linear Mixed Model|||The primary endpoint was analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-0.92|-1.88|< 0.001
92316376|NCT02456740|184536774|SUPERIORITY|The primary endpoint was tested independently for each erenumab dose at an alpha level of 0.04 for 70 mg and of 0.01 for 140 mg to maintain the type 1 error rate at an alpha level of 0.05.|LS Mean Difference|-1.85|||<|0.001|TWO_SIDED|95.0|-2.33|-1.37|||Generalized Linear Mixed Model|||The primary endpoint was analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-1.37|-2.33|< 0.001
92316377|NCT02456740|184536775|SUPERIORITY|If the primary endpoint was statistically significant for the erenumab 70 mg group, using a gate-keeping strategy, the first two (first tier) secondary endpoints were tested using the Hochberg method at an alpha level of 0.04.|Odds Ratio (OR)|2.13|||<|0.001|TWO_SIDED|95.0|1.52|2.98|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel test, stratified by the randomization stratification factors (region and prior/current treatment with migraine prophylactic medication).||2.98|1.52|< 0.001
92316378|NCT02456740|184536775|SUPERIORITY|If the primary endpoint was statistically significant for the erenumab 140 mg group, using a gate-keeping strategy, the first two (first tier) secondary endpoints were tested using the Hochberg method at an alpha level of 0.01.|Odds Ratio (OR)|2.81|||<|0.001|TWO_SIDED|95.0|2.01|3.94|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel test, stratified by the randomization stratification factors (region and prior/current treatment with migraine prophylactic medication).||3.94|2.01|< 0.001
92316379|NCT02456740|184536776|SUPERIORITY|If the primary endpoint was statistically significant for the erenumab 70 mg group, using a gate-keeping strategy, the first two (first tier) secondary endpoints were tested using the Hochberg method at an alpha level of 0.04.|LS Mean Difference|-0.94|||<|0.001|TWO_SIDED|95.0|-1.23|-0.64|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-0.64|-1.23|< 0.001
92316380|NCT02456740|184536776|SUPERIORITY|If the primary endpoint was statistically significant for the erenumab 140 mg group, using a gate-keeping strategy, the first two (first tier) secondary endpoints were tested using the Hochberg method at an alpha level of 0.01.|LS Mean Difference|-1.42|||<|0.001|TWO_SIDED|95.0|-1.71|-1.12|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, (stratification factors region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-1.12|-1.71|< 0.001
92316381|NCT02456740|184536777|SUPERIORITY|If the first tier secondary endpoints were statistically significant for both erenumab doses the erenumab 140 mg group for the 2 remaining MPFID secondary endpoints was tested using the Hochberg method at a level of 0.05; If only the erenumab 70 mg group or 140 mg group showed statistical significance for the first tier secondary endpoints then the erenumab 140 group for the 2 remaining MPFID secondary endpoints was tested for significance at a level of either 0.04 or 0.01 respectively.|LS Mean Difference|-2.43|||<|0.001|TWO_SIDED|95.0|-3.51|-1.35|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-1.35|-3.51|< 0.001
92316382|NCT02456740|184536777|SUPERIORITY|If the erenumab 140 mg group for both remaining MPFID secondary endpoints were statistically significant, then the erenumab 70 mg group for the two remaining MPFID secondary endpoints was tested for significance using the Hochberg method with the same alpha level carried over from 140 mg group.|LS Mean Difference|-1.86|||<|0.001|TWO_SIDED|95.0|-2.95|-0.77|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-0.77|-2.95|< 0.001
92316383|NCT02456740|184536778|SUPERIORITY|If the first tier secondary endpoints were statistically significant for both erenumab doses the erenumab 140 mg group for the 2 remaining MPFID secondary endpoints was tested using the Hochberg method at a level of 0.05; If only the erenumab 70 mg group or 140 mg group showed statistical significance for the first tier secondary endpoints then the erenumab 140 group for the 2 remaining MPFID secondary endpoints was tested for significance at a level of either 0.04 or 0.01 respectively.|LS Mean Difference|-2.57|||<|0.001|TWO_SIDED|95.0|-3.62|-1.51|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-1.51|-3.62|< 0.001
92316384|NCT02456740|184536778|SUPERIORITY|If the erenumab 140 mg group for both remaining MPFID secondary endpoints were statistically significant, then the erenumab 70 mg group for the two remaining MPFID secondary endpoints was tested for significance using the Hochberg method with the same alpha level carried over from 140 mg group.|LS Mean Difference|-2.22|||<|0.001|TWO_SIDED|95.0|-3.28|-1.16|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-1.16|-3.28|< 0.001
92316385|NCT02654054|184536818|SUPERIORITY||Odds Ratio (OR)|56.79|||<|0.001|TWO_SIDED|95.0|23.002|140.227||The P value for test of difference is by pooling the results from a logistic regression model including treatment as the main effect and baseline MBL volume as a covariate in each data set from multiple imputation.|Regression, Logistic|||||140.227|23.002|< 0.001
92316386|NCT02654054|184536818|SUPERIORITY||Odds Ratio (OR)|22.98|||<|0.001|TWO_SIDED|95.0|10.466|50.451||The P value for test of difference is by pooling the results from a logistic regression model including treatment as the main effect and baseline MBL volume as a covariate in each data set from multiple imputation.|Regression, Logistic|||||50.451|10.466|< 0.001
92192637|NCT02367105|184284157|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.9|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.90
92316387|NCT02654054|184536819|SUPERIORITY||LS Mean of Difference|-222.3|STANDARD_ERROR_OF_MEAN|20.77|<|0.001|TWO_SIDED|||||The P value for test of difference between each elagolix treatment group and placebo is by pooling the results from an ANCOVA model with treatment as the main effect and baseline MBL volume as a covariate in each dataset from multiple imputation.|ANCOVA|||||||< 0.001
92316388|NCT02654054|184536819|SUPERIORITY||LS Mean of Difference|-177.5|STANDARD_ERROR_OF_MEAN|18.24|<|0.001|TWO_SIDED|||||The P value for test of difference between each elagolix treatment group and placebo is by pooling the results from an ANCOVA model with treatment as the main effect and baseline MBL volume as a covariate in each dataset from multiple imputation.|ANCOVA|||||||< 0.001
92316389|NCT02654054|184536820|SUPERIORITY||Between-Group Difference (%)|79.6|||<|0.001|TWO_SIDED|95.0|71.13|88.16||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|Chi-square or Fisher's exact test|||||88.16|71.13|< 0.001
92316390|NCT02654054|184536820|SUPERIORITY||Between-Group Difference (%)|52.4|||<|0.001|TWO_SIDED|95.0|44.11|60.76||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|Chi-square or Fisher's exact test|||||60.76|44.11|< 0.001
92316391|NCT02654054|184536821|SUPERIORITY||LS Mean of Difference|-234.0|STANDARD_ERROR_OF_MEAN|19.27|<|0.001|TWO_SIDED|||||The P value is from mixed models repeated measures (MMRM) with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92316392|NCT02654054|184536821|SUPERIORITY||LS Mean of Difference|-192.5|STANDARD_ERROR_OF_MEAN|16.7|<|0.001|TWO_SIDED|||||The P value is from mixed models repeated measures (MMRM) with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92316393|NCT02654054|184536822|SUPERIORITY||LS Mean of Difference|-240.8|STANDARD_ERROR_OF_MEAN|21.69|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92316394|NCT02654054|184536822|SUPERIORITY||LS Mean of Difference|-198.2|STANDARD_ERROR_OF_MEAN|18.76|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92316395|NCT02654054|184536823|SUPERIORITY||Between-Group Difference (%)|49.7|||<|0.001|TWO_SIDED|95.0|30.27|69.18||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||69.18|30.27|< 0.001
92192638|NCT02367105|184284158|SUPERIORITY||Mean Difference (Final Values)|-252.0|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||<0.001
92192639|NCT02367105|184284159|SUPERIORITY||Mean Difference (Final Values)|-24.9|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Baseline value as covariates||||||<0.001
92316396|NCT02654054|184536823|SUPERIORITY||Between-Group Difference (%)|45.4|||<|0.001|TWO_SIDED|95.0|26.9|63.92||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||63.92|26.90|< 0.001
92316397|NCT02654054|184536824|SUPERIORITY||LS Mean of Difference|-190.0|STANDARD_ERROR_OF_MEAN|22.59|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92316398|NCT02654054|184536824|SUPERIORITY||LS Mean of Difference|-116.2|STANDARD_ERROR_OF_MEAN|19.7|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
92316399|NCT04871776|184536825|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.67|1.14|||||How vs Usual Care|We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.14|0.67|
92316400|NCT04871776|184536825|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.81|1.28||||||We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.28|0.81|
92316401|NCT04871776|184536825|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.96|1.51||||||We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.51|0.96|
92316402|NCT04871776|184536826|SUPERIORITY||Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.67|1.01||||||We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.01|0.67|
92192640|NCT02367105|184284160|SUPERIORITY||Mean Difference (Final Values)|-2.7|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||<0.001
92192641|NCT02367105|184284161|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.31|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.31
92192642|NCT02367105|184284162|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.42|TWO_SIDED|||||Baseline values as covariates|Mixed Models Analysis|||||||0.42
92192643|NCT02367105|184284163|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.69|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.69
92192644|NCT02367105|184284164|SUPERIORITY||Mean Difference (Final Values)|-13.1||||0.23|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.23
92192645|NCT02367105|184284165|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
92192646|NCT02367105|184284166|SUPERIORITY||Mean Difference (Net)|-1.0||||0.36|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||0.36
92316403|NCT04871776|184536826|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.87|1.23||||||We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.23|0.87|
92316404|NCT04871776|184536826|SUPERIORITY||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|1.06|1.49||||||We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.49|1.06|
92316405|NCT02490631|184536829|SUPERIORITY|||||||0.456|||||||Chi-squared|||||||0.456
92316406|NCT02490631|184536830|SUPERIORITY|||||||0.019|||||||Chi-squared|||||||.019
92316407|NCT03349060|184536838|SUPERIORITY||Difference in Percentage|15.8||||0.0037|TWO_SIDED|95.0|6.8|24.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and confidence interval (CI) for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||24.8|6.8|0.0037
92192647|NCT02367105|184284167|SUPERIORITY||Mean Difference (Final Values)|-8.6||||0.23|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||0.23
92192648|NCT02367105|184284168|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.69|TWO_SIDED||||||Mixed Models Analysis|Baseline values adjusted||||||0.69
92192649|NCT02367105|184284169|SUPERIORITY||Number of participants|0.0|||>|0.05|TWO_SIDED|||||A priori threshold = voxel p\<.001, cluster p\<.05, false discovery rate (FDR) whole brain correction. There is no correction for multiple seeds given small sample sizes and pre-post design.|t-test, 2 sided|||||||>.05
92192650|NCT02367105|184284170|SUPERIORITY||Mean Difference (Net)|0.23|STANDARD_ERROR_OF_MEAN|0.05||0.37|TWO_SIDED|||||Using DESeq2 R package. P values were adjusted using the Benjamini and Hochberg's approach for controlling the false discovery rate.|t-test, 2 sided|||6 months vs Baseline||||0.37
92192651|NCT02367105|184284170|SUPERIORITY||Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|0.12||0.02|TWO_SIDED|||||Using DESeq2 R package. P values were adjusted using the Benjamini and Hochberg's approach for controlling the false discovery rate|t-test, 2 sided|||6 months vs Baseline||||.02
92192652|NCT02367105|184284171|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|1.3||0.05|TWO_SIDED||||||Mixed Models Analysis|Final vs baseline||||||.05
92192653|NCT02367105|184284171|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|1.3||0.3|TWO_SIDED||||||Mixed Models Analysis|Final vs baseline||||||0.3
92192654|NCT01182103|184284181|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92192655|NCT01182103|184284182|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92192656|NCT01182103|184284183|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
92192657|NCT00812838|184284196|SUPERIORITY|||||||0.5154||||||This will be a pilot study; it was assessed that 10 subjects in each arm, for a total of 20 subjects, will allow us to determine if the therapy is effective. To allow for screen failures, 45 subjects are planned for screening.|t-test, 2 sided|||||||0.5154
92192658|NCT00812838|184284197|SUPERIORITY|||||||0.3009||||||This applies to 100 units of Botulinum Toxin Type A arm vs the Normal saline arm|t-test, 2 sided|||"This will be a pilot study; it was assessed that 10 subjects in each arm, for a total of 20 subjects, will allow us to determine if the therapy is effective. To allow for screen failures, 45 subjects are planned for screening.~This analysis pertains to both categories"||||0.3009
92316408|NCT03349060|184536838|SUPERIORITY||Difference in Percentage|36.0|||<|0.0001|TWO_SIDED|95.0|26.2|45.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||45.7|26.2|<0.0001
92316409|NCT03349060|184536839|SUPERIORITY||Difference in Percentage|27.9|||<|0.0001|TWO_SIDED|95.0|17.4|38.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.3|17.4|<0.0001
92316410|NCT03349060|184536839|SUPERIORITY||Difference in Percentage|51.0|||<|0.0001|TWO_SIDED|95.0|40.5|61.5|||Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||61.5|40.5|<0.0001
92316411|NCT03349060|184536840|SUPERIORITY||Difference in Percentage|18.0||||0.0004|TWO_SIDED|95.0|10.2|25.8|||Cochran-Mantel-Haenszel|||Week 2: Each complete imputed data set was analyzed using the Cochran-Mantel-Haenszel (CMH) risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||25.8|10.2|0.0004
92316412|NCT03349060|184536840|SUPERIORITY||Difference in Percentage|42.5|||<|0.0001|TWO_SIDED|95.0|33.6|51.4|||Cochran-Mantel-Haenszel|||Week 2: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||51.4|33.6|<0.0001
92316413|NCT03349060|184536840|SUPERIORITY||Difference in Percentage|15.0||||0.0251|TWO_SIDED|95.0|1.9|28.0|||Cochran-Mantel-Haenszel|||Week 4: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||28.0|1.9|0.0251
92192659|NCT00812838|184284198|SUPERIORITY|||||||0.0166||||||This applies to 100 units of Botulinum Toxin Type A arm vs the Normal saline arm|t-test, 2 sided|||This will be a pilot study; it was assessed that 10 subjects in each arm, for a total of 20 subjects, will allow us to determine if the therapy is effective. To allow for screen failures, 45 subjects are planned for screening.||||0.0166
92192660|NCT00812838|184284199|SUPERIORITY|||||||0.8566||||||Threshold for statistical significance was \<0.05|t-test, 2 sided|||This will be a pilot study; it was assessed that 10 subjects in each arm, for a total of 20 subjects, will allow us to determine if the therapy is effective. To allow for screen failures, 45 subjects are planned for screening.||||.8566
92316414|NCT03349060|184536840|SUPERIORITY||Difference in Percentage|41.1|||<|0.0001|TWO_SIDED|95.0|27.8|54.4|||Cochran-Mantel-Haenszel|||Week 4: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||54.4|27.8|<0.0001
92316415|NCT03349060|184536840|SUPERIORITY||Difference in Percentage|20.0||||0.0019|TWO_SIDED|95.0|7.4|32.7|||Cochran-Mantel-Haenszel|||Week 8: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||32.7|7.4|0.0019
92316416|NCT03349060|184536840|SUPERIORITY||Difference in Percentage|45.3|||<|0.0001|TWO_SIDED|95.0|32.7|57.8|||Cochran-Mantel-Haenszel|||Week 8: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||57.8|32.7|<0.0001
92316417|NCT03349060|184536840|SUPERIORITY||Difference in Percentage|22.5||||0.0003|TWO_SIDED|95.0|10.3|34.8|||Cochran-Mantel-Haenszel|||Week 12: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||34.8|10.3|0.0003
92316418|NCT03349060|184536840|SUPERIORITY||Difference in Percentage|41.7|||<|0.0001|TWO_SIDED|95.0|29.6|53.9|||Cochran-Mantel-Haenszel|||Week 12: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||53.9|29.6|<0.0001
92192661|NCT00812838|184284200|SUPERIORITY|||||||0.0286||||||Threshold for statistical significance is \<0.05|t-test, 2 sided|||This will be a pilot study; it was assessed that 10 subjects in each arm, for a total of 20 subjects, will allow us to determine if the therapy is effective. To allow for screen failures, 45 subjects are planned for screening.||||0.0286
92192662|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-79.33|||<|0.001|TWO_SIDED|95.0|-87.54|-65.73|||Repeated Measures ANCOVA|||Day 8: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-65.73|-87.54|< 0.001
92192663|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-71.16|||<|0.001|TWO_SIDED|95.0|-82.67|-52.0|||Repeated Measures ANCOVA|||Day 8: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-52.00|-82.67|< 0.001
92192664|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-79.52|||<|0.001|TWO_SIDED|95.0|-88.29|-64.17|||Repeated Measures ANCOVA|||Day 8: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-64.17|-88.29|< 0.001
92316419|NCT03349060|184536841|SUPERIORITY||Difference in Percentage|16.3||||0.0055|TWO_SIDED|95.0|7.4|25.2|||Cochran-Mantel-Haenszel|||Week 2: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||25.2|7.4|0.0055
92316420|NCT03349060|184536841|SUPERIORITY||Difference in Percentage|43.3|||<|0.0001|TWO_SIDED|95.0|33.1|53.6|||Cochran-Mantel-Haenszel|||Week 2: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||53.6|33.1|<0.0001
92316421|NCT03349060|184536841|SUPERIORITY||Difference in Percentage|12.5||||0.1138|TWO_SIDED|95.0|-3.0|28.0|||Cochran-Mantel-Haenszel|||Week 4: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||28.0|-3.0|0.1138
92316422|NCT03349060|184536841|SUPERIORITY||Difference in Percentage|41.8|||<|0.0001|TWO_SIDED|95.0|26.2|57.4|||Cochran-Mantel-Haenszel|||Week 4: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||57.4|26.2|<0.0001
92316423|NCT03349060|184536841|SUPERIORITY||Difference in Percentage|28.7|||<|0.0001|TWO_SIDED|95.0|15.3|42.1|||Cochran-Mantel-Haenszel|||Week 12: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||42.1|15.3|<0.0001
92316424|NCT03349060|184536841|SUPERIORITY||Difference in Percentage|47.8|||<|0.0001|TWO_SIDED|95.0|34.6|61.1|||Cochran-Mantel-Haenszel|||Week 12: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||61.1|34.6|<0.0001
92316425|NCT03349060|184536842|SUPERIORITY||Difference in least squares (LS) mean|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.6|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.4|<0.0001
92316426|NCT03349060|184536842|SUPERIORITY||Difference in LS mean|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.2|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.2|-2.0|<0.0001
92316427|NCT03349060|184536842|SUPERIORITY||Difference in LS mean|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.6|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.6|<0.0001
92316428|NCT03349060|184536842|SUPERIORITY||Difference in LS mean|-2.2|||<|0.0001|TWO_SIDED|95.0|-2.8|-1.7|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.7|-2.8|<0.0001
92316429|NCT03349060|184536842|SUPERIORITY||Difference in LS mean|-0.9||||0.0035|TWO_SIDED|95.0|-1.5|-0.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.3|-1.5|0.0035
92316430|NCT03349060|184536842|SUPERIORITY||Difference in LS mean|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.3|-2.5|<0.0001
92316431|NCT03349060|184536842|SUPERIORITY||Difference in LS mean|-1.1||||0.001|TWO_SIDED|95.0|-1.7|-0.4|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.4|-1.7|0.0010
92316432|NCT03349060|184536842|SUPERIORITY||Difference in LS mean|-2.1|||<|0.0001|TWO_SIDED|95.0|-2.7|-1.4|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.4|-2.7|<0.0001
92192665|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-72.34|||<|0.001|TWO_SIDED|95.0|-83.32|-54.13|||Repeated Measures ANCOVA|||Day 57: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-54.13|-83.32|< 0.001
92316433|NCT03349060|184536843|SUPERIORITY||Difference in LS mean|-1.3||||0.0002|TWO_SIDED|95.0|-2.0|-0.6|||Mixed Models Analysis|||MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-2.0|0.0002
92316434|NCT03349060|184536843|SUPERIORITY||Difference in LS mean|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.6|||Mixed Models Analysis|||MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.6|-3.0|<0.0001
92316435|NCT03349060|184536844|SUPERIORITY|||||||0.0071||||||P-value was controlled by randomization strata.|Log Rank|||||||0.0071
92316436|NCT03349060|184536844|SUPERIORITY||||||<|0.0001||||||P-value was controlled by randomization strata.|Log Rank|||||||<0.0001
92316437|NCT03349060|184536845|SUPERIORITY||Difference in Percentage|6.5||||0.0869|TWO_SIDED|95.0|-0.3|13.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||13.3|-0.3|0.0869
92316438|NCT03349060|184536845|SUPERIORITY||Difference in Percentage|20.3||||0.0001|TWO_SIDED|95.0|12.0|28.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||28.6|12.0|0.0001
92316439|NCT03349060|184536845|SUPERIORITY||Difference in Percentage|13.1||||0.0259|TWO_SIDED|95.0|2.6|23.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.6|2.6|0.0259
92316440|NCT03349060|184536845|SUPERIORITY||Difference in Percentage|33.0|||<|0.0001|TWO_SIDED|95.0|21.7|44.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||44.2|21.7|<0.0001
92316441|NCT03349060|184536845|SUPERIORITY||Difference in Percentage|25.0||||0.0001|TWO_SIDED|95.0|14.2|35.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.8|14.2|0.0001
92316442|NCT03349060|184536845|SUPERIORITY||Difference in Percentage|44.6|||<|0.0001|TWO_SIDED|95.0|33.6|55.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.6|33.6|<0.0001
92316443|NCT03349060|184536846|SUPERIORITY||Difference in Percentage|3.9||||0.0802|TWO_SIDED|95.0|-0.7|8.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||8.5|-0.7|0.0802
92192666|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-73.03|||<|0.001|TWO_SIDED|95.0|-83.79|-55.11|||Repeated Measures ANCOVA|||Day 57: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-55.11|-83.79|< 0.001
92192667|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-71.88|||<|0.001|TWO_SIDED|95.0|-83.93|-50.82|||Repeated Measures ANCOVA|||Day 57: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-50.82|-83.93|< 0.001
92192668|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-68.51|||<|0.001|TWO_SIDED|95.0|-81.01|-47.78|||Repeated Measures ANCOVA|||Day 85: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-47.78|-81.01|< 0.001
92192669|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-81.06|||<|0.001|TWO_SIDED|95.0|-88.62|-68.49|||Repeated Measures ANCOVA|||Day 85: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-68.49|-88.62|< 0.001
92192670|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-79.04|||<|0.001|TWO_SIDED|95.0|-88.02|-63.34|||Repeated Measures ANCOVA|||Day 85: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-63.34|-88.02|< 0.001
92192671|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-32.7||||0.25|TWO_SIDED|95.0|-65.71|32.1|||Repeated Measures ANCOVA|||Day 113: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||32.10|-65.71|0.25
92316444|NCT03349060|184536846|SUPERIORITY||Difference in Percentage|9.8||||0.0045|TWO_SIDED|95.0|4.0|15.7||P-value was adjusted by randomization strata (baseline disease severity and age category)|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||15.7|4.0|0.0045
92316445|NCT03349060|184536846|SUPERIORITY||Difference in Percentage|5.2||||0.1888|TWO_SIDED|95.0|-1.9|12.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||12.4|-1.9|0.1888
92316446|NCT03349060|184536846|SUPERIORITY||Difference in Percentage|21.7|||<|0.0001|TWO_SIDED|95.0|13.0|30.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.5|13.0|<0.0001
92192672|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|3.44||||0.9|TWO_SIDED|95.0|-40.78|80.66|||Repeated Measures ANCOVA|||Day 169: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||80.66|-40.78|0.90
92192673|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-40.53||||0.091|TWO_SIDED|95.0|-67.5|8.82|||Repeated Measures ANCOVA|||Day 169: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||8.82|-67.50|0.091
92316447|NCT03349060|184536846|SUPERIORITY||Difference in Percentage|13.8||||0.0071|TWO_SIDED|95.0|5.2|22.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||22.4|5.2|0.0071
92316448|NCT03349060|184536846|SUPERIORITY||Difference in Percentage|29.3|||<|0.0001|TWO_SIDED|95.0|19.8|38.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.7|19.8|<0.0001
92316449|NCT03349060|184536847|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.8|3.8||P-value could not be calculated since percentage of participants with event was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.8|-3.8|
92192674|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|13.33||||0.73|TWO_SIDED|95.0|-44.39|130.94|||Repeated Measures ANCOVA|||Day 197: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||130.94|-44.39|0.73
92316450|NCT03349060|184536847|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.8|3.8||P-value could not be calculated since percentage of participants with event was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.8|-3.8|
92316451|NCT03349060|184536847|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.9|3.9||P-value could not be calculated since percentage of participants with event was 0.||||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.9|-3.9|
92316452|NCT03349060|184536847|SUPERIORITY||Difference in Percentage|6.5||||0.0234|TWO_SIDED|95.0|1.3|11.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.7|1.3|0.0234
92316453|NCT03349060|184536847|SUPERIORITY||Difference in Percentage|4.6||||0.0592|TWO_SIDED|95.0|-0.3|9.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.5|-0.3|0.0592
92316454|NCT03349060|184536847|SUPERIORITY||Difference in Percentage|11.7||||0.0022|TWO_SIDED|95.0|5.5|17.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.9|5.5|0.0022
92316455|NCT03349060|184536847|SUPERIORITY||Difference in Percentage|7.0||||0.019|TWO_SIDED|95.0|1.7|12.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||12.3|1.7|0.0190
92316456|NCT03349060|184536847|SUPERIORITY||Difference in Percentage|13.1||||0.001|TWO_SIDED|95.0|6.7|19.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||19.4|6.7|0.0010
92316457|NCT03349060|184536848|SUPERIORITY||Difference in Percentage|24.0|||<|0.0001|TWO_SIDED|95.0|13.9|34.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||34.1|13.9|<0.0001
92316458|NCT03349060|184536848|SUPERIORITY||Difference in Percentage|45.1|||<|0.0001|TWO_SIDED|95.0|34.7|55.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.5|34.7|<0.0001
92316459|NCT03349060|184536848|SUPERIORITY||Difference in Percentage|33.5|||<|0.0001|TWO_SIDED|95.0|21.6|45.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||45.4|21.6|<0.0001
92316460|NCT03349060|184536848|SUPERIORITY||Difference in Percentage|52.7|||<|0.0001|TWO_SIDED|95.0|41.2|64.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||64.2|41.2|<0.0001
92316461|NCT03349060|184536848|SUPERIORITY||Difference in Percentage|34.1|||<|0.0001|TWO_SIDED|95.0|21.9|46.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||46.3|21.9|<0.0001
92316462|NCT03349060|184536848|SUPERIORITY||Difference in Percentage|52.9|||<|0.0001|TWO_SIDED|95.0|41.3|64.6|||Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||64.6|41.3|<0.0001
92316463|NCT03349060|184536848|SUPERIORITY||Difference in Percentage|35.3|||<|0.0001|TWO_SIDED|95.0|23.3|47.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||47.4|23.3|<0.0001
92316464|NCT03349060|184536848|SUPERIORITY||Difference in Percentage|53.5|||<|0.0001|TWO_SIDED|95.0|42.0|65.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||65.0|42.0|<0.0001
92316465|NCT03349060|184536849|SUPERIORITY||Difference in Percentage|0.6||||0.7285|TWO_SIDED|95.0|-3.9|5.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.2|-3.9|0.7285
92316466|NCT03349060|184536849|SUPERIORITY||Difference in Percentage|4.0||||0.1448|TWO_SIDED|95.0|-1.2|9.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.2|-1.2|0.1448
92316467|NCT03349060|184536849|SUPERIORITY||Difference in Percentage|3.9||||0.2576|TWO_SIDED|95.0|-2.6|10.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.5|-2.6|0.2576
92316468|NCT03349060|184536849|SUPERIORITY||Difference in Percentage|20.4||||0.0001|TWO_SIDED|95.0|12.0|28.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||28.9|12.0|0.0001
92316469|NCT03349060|184536849|SUPERIORITY||Difference in Percentage|9.0||||0.0423|TWO_SIDED|95.0|1.3|16.8|||Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||16.8|1.3|0.0423
92316470|NCT03349060|184536849|SUPERIORITY||Difference in Percentage|28.0|||<|0.0001|TWO_SIDED|95.0|18.7|37.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||37.2|18.7|<0.0001
92316471|NCT03349060|184536849|SUPERIORITY||Difference in Percentage|13.3||||0.0066|TWO_SIDED|95.0|5.4|21.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||21.2|5.4|0.0066
92316472|NCT03349060|184536849|SUPERIORITY||Difference in Percentage|33.4|||<|0.0001|TWO_SIDED|95.0|24.3|42.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||42.5|24.3|<0.0001
92316473|NCT03349060|184536850|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.8|3.8||P-value could not be calculated since percentage of participants with events was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.8|-3.8|
92316474|NCT03349060|184536850|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.8|3.8||P-value could not be calculated since percentage of participants with events was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.8|-3.8|
92316475|NCT03349060|184536850|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.9|3.9||P-value could not be calculated since percentage of participants with events was 0.||||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.9|-3.9|
92316476|NCT03349060|184536850|SUPERIORITY||Difference in Percentage|6.5||||0.0234|TWO_SIDED|95.0|1.3|11.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.7|1.3|0.0234
92316477|NCT03349060|184536850|SUPERIORITY||Difference in Percentage|4.6||||0.0604|TWO_SIDED|95.0|-0.3|9.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.5|-0.3|0.0604
92316478|NCT03349060|184536850|SUPERIORITY||Difference in Percentage|11.7||||0.0022|TWO_SIDED|95.0|5.5|17.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.9|5.5|0.0022
92316479|NCT03349060|184536850|SUPERIORITY||Difference in Percentage|6.4||||0.0255|TWO_SIDED|95.0|1.2|11.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.6|1.2|0.0255
92316480|NCT03349060|184536850|SUPERIORITY||Difference in Percentage|13.1||||0.001|TWO_SIDED|95.0|6.7|19.4|||Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||19.4|6.7|0.0010
92316481|NCT03349060|184536851|SUPERIORITY||Difference in LS mean|-5.8|||<|0.0001|TWO_SIDED|95.0|-8.2|-3.3|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-3.3|-8.2|<0.0001
92316482|NCT03349060|184536851|SUPERIORITY||Difference in LS mean|-10.6|||<|0.0001|TWO_SIDED|95.0|-13.0|-8.1|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-8.1|-13.0|<0.0001
92316483|NCT03349060|184536851|SUPERIORITY||Difference in LS mean|-7.9|||<|0.0001|TWO_SIDED|95.0|-10.7|-5.0|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-5.0|-10.7|<0.0001
92316484|NCT03349060|184536851|SUPERIORITY||Difference in LS mean|-12.7|||<|0.0001|TWO_SIDED|95.0|-15.6|-9.9|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-9.9|-15.6|<0.0001
92192675|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-80.02||||0.001|TWO_SIDED|95.0|-91.53|-52.87|||Repeated Measures ANCOVA|||Day 8: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-52.87|-91.53|0.001
92192676|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-87.6|||<|0.001|TWO_SIDED|95.0|-94.53|-71.88|||Repeated Measures ANCOVA|||Day 8: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-71.88|-94.53|< 0.001
92192677|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Rratio|-79.81||||0.001|TWO_SIDED|95.0|-91.44|-52.37|||Repeated Measures ANCOVA|||Day 57: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-52.37|-91.44|0.001
92192678|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-83.66|||<|0.001|TWO_SIDED|95.0|-92.79|-62.95|||Repeated Measures ANCOVA|||Day 57: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-62.95|-92.79|< 0.001
92192679|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-81.97|||<|0.001|TWO_SIDED|95.0|-92.35|-57.46|||Repeated Measures ANCOVA|||Day 85: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-57.46|-92.35|< 0.001
92316485|NCT03349060|184536851|SUPERIORITY||Difference in LS mean|-8.5|||<|0.0001|TWO_SIDED|95.0|-11.6|-5.5|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-5.5|-11.6|<0.0001
92316486|NCT03349060|184536851|SUPERIORITY||Difference in LS mean|-13.5|||<|0.0001|TWO_SIDED|95.0|-16.5|-10.4|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-10.4|-16.5|<0.0001
92316487|NCT03349060|184536851|SUPERIORITY||Difference in LS mean|-8.3|||<|0.0001|TWO_SIDED|95.0|-11.6|-5.1|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-5.1|-11.6|<0.0001
92316488|NCT03349060|184536851|SUPERIORITY||Difference in LS mean|-14.0|||<|0.0001|TWO_SIDED|95.0|-17.3|-10.8|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-10.8|-17.3|<0.0001
92316489|NCT03349060|184536852|SUPERIORITY||Difference in LS mean|-7.8||||0.0004|TWO_SIDED|95.0|-12.1|-3.5|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-3.5|-12.1|0.0004
92192680|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-84.39|||<|0.001|TWO_SIDED|95.0|-93.12|-64.6|||Repeated Measures ANCOVA|||Day 85: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-64.60|-93.12|< 0.001
92192681|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|43.1||||0.47|TWO_SIDED|95.0|-47.06|286.83|||Repeated Measures ANCOVA|||Day 113: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||286.83|-47.06|0.47
92192682|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-68.58||||0.02|TWO_SIDED|95.0|-88.02|-17.63|||Repeated Measures ANCOVA|||Day 169: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-17.63|-88.02|0.020
92192683|NCT01723514|184284208|SUPERIORITY||LS Geometric Mean Ratio|-54.32||||0.11|TWO_SIDED|95.0|-82.58|19.75|||Repeated Measures ANCOVA|||Day 197: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||19.75|-82.58|0.11
92316490|NCT03349060|184536852|SUPERIORITY||Difference in LS mean|-14.8|||<|0.0001|TWO_SIDED|95.0|-19.0|-10.5|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-10.5|-19.0|<0.0001
92192684|NCT00297778|184284209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9||||0.0103||95.0|-3.4|-0.5|||ANCOVA|||||-0.5|-3.4|0.0103
92192685|NCT00297778|184284210|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.758||||0.0535||95.0|0.992|3.115|||Regression, Logistic|||||3.115|0.992|0.0535
92192686|NCT00297778|184284211|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.0346||95.0|-1.5|-0.1|||ANCOVA|||||-0.1|-1.5|0.0346
92192687|NCT00297778|184284212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.5244||95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|-1|0.5244
92192688|NCT00297778|184284213|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.141||95.0|0.0|0.0|||van Elteren (country stratification)|||||0|0|0.141
92192689|NCT00297778|184284214|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.003||95.0|-1.9|-0.4|||ANCOVA|||||-0.4|-1.9|0.003
92192690|NCT00297778|184284215|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.0034||95.0|-3.7|-0.7|||ANCOVA|||||-0.7|-3.7|0.0034
92192691|NCT00297778|184284216|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4||||0.0007||95.0|-5.4|-1.5|||ANCOVA|||||-1.5|-5.4|0.0007
92192692|NCT00297778|184284217|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.821||||0.006||95.0|1.187|2.794|||Regression, Logistic|||||2.794|1.187|0.006
92192693|NCT00297778|184284218|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.3||||0.1925||95.0|-3.3|0.8|||van Elteren (country stratification)|||||0.8|-3.3|0.1925
92192694|NCT00297778|184284219|SUPERIORITY_OR_OTHER||Hodges-Lehmann est of diff in medians|0.04||||0.0337||95.0|0.0|0.09|||Wilcoxon rank sum (Van Elteren's test)|||||0.09|0|0.0337
92192695|NCT00297778|184284220|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.8471||95.0|-5.6|4.6|||ANCOVA|||||4.6|-5.6|0.8471
92192696|NCT00297778|184284221|SUPERIORITY_OR_OTHER||Hodges-Lehmann est of diff in medians|0.0||||0.141|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon rank sum (Van Elteren's test)||95% Confidence interval is Distribution-free Confidence Interval (Moses).|N's exclude patients from the analysis set with incomplete data||0.0|0.0|0.1410
92192697|NCT00297778|184284222|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5231|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||N's exclude patients from the analysis set with incomplete data||0.2|-0.5|0.5231
92192698|NCT00802438|184284227|OTHER||||||<|0.0001||||||A two-sided p-value\<0.05 was considered significant. Analyses were conducted using SAS version 9.4 (SAS Institute, Cary, NC.).|t-test, 2 sided|||Summaries of log-transformed data were back-transformed to the original scale and reported as geometric mean with 95% confidence interval or median within 1st and 3rd quartiles. Outcomes are summarized using least squares means with 95% confidence intervals or median with 1st and 3rd quartiles.||||<0.0001
92192699|NCT00802438|184284228|OTHER|Summaries of log-transformed data were back-transformed to the original scale and reported as geometric mean with 95% confidence interval or median within 1st and 3rd quartiles. Outcomes are summarized using least squares means with 95% confidence intervals or median with 1st and 3rd quartiles.||||||0.01|||||||t-test, 2 sided|||||||0.01
92192700|NCT02551692|184284271|OTHER||Partial sum of squares|855.65||||0.534|TWO_SIDED||||||ANOVA|||||||0.534
92192701|NCT02551692|184284272|OTHER||Partial sum of squares|29602.69||||0.26|TWO_SIDED||||||ANOVA|||||||0.26
92192702|NCT02551692|184284273|OTHER||Partial sum of squares|101.69||||0.318|TWO_SIDED||||||ANCOVA|||||||0.318
92192703|NCT00230971|184284310|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|1.6||||||95.0|-6.4|9.6|||t-test, 1 sided||Estimates of the difference, CI and hypothesis tests are weighted by using minimum risk weights.|||9.6|-6.4|
92192704|NCT00230971|184284311|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|1.8||||0.001||95.0|-8.8|12.5|||t-test, 1 sided||Estimates of the difference, CI and hypothesis tests are weighted by using minimum risk weights.|||12.5|-8.8|0.001
92192705|NCT00230971|184284312|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|2.7||||||95.0|-7.9|13.3|||t-test, 1 sided||Estimates of the difference, CI and hypothesis tests are weighted by using minimum risk weights.|Group comparison of eradication + presumed eradication||13.3|-7.9|
92192706|NCT00230971|184284313|SUPERIORITY_OR_OTHER|||||||0.75|||||||ANOVA|Treatment as a factor||Overall inpatient hospitalization||||0.750
92192707|NCT00230971|184284313|SUPERIORITY_OR_OTHER|||||||0.655|||||||ANOVA|Treatment as a factor||Primary inpatient hospitalization||||0.655
92192708|NCT00230971|184284313|SUPERIORITY_OR_OTHER|||||||0.191|||||||ANOVA|Treatment as a factor||ICU treatment||||0.191
92192709|NCT00230971|184284313|SUPERIORITY_OR_OTHER|||||||0.717|||||||ANOVA|Treatment as a factor||Inpatient hospitalization, non-ICU||||0.717
92192710|NCT03469492|184284397|SUPERIORITY|||||||0.006|||||||Regression, Linear|||||||0.006
92192711|NCT03469492|184284401|SUPERIORITY|||||||0.266|||||||Mixed Models Analysis|||||||0.266
92192712|NCT03469492|184284404|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
92192713|NCT03469492|184284405|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
92192714|NCT01726049|184284407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|||||TWO_SIDED|95.0|-4.5|-0.3||||||||-0.3|-4.5|
92192715|NCT01726049|184284407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|||||TWO_SIDED|95.0|-7.1|-2.3||||||||-2.3|-7.1|
92192716|NCT01726049|184284408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.9|1.4||||||||1.4|-0.9|
92192717|NCT01726049|184284408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-0.3|1.6||||||||1.6|-0.3|
92192718|NCT01726049|184284409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.9|0.1||||||||0.1|-0.9|
92192719|NCT01726049|184284409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||||0.1|-0.5|
92192720|NCT01726049|184284410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-1.9|1.0||||||||1.0|-1.9|
92192721|NCT01726049|184284410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|||||TWO_SIDED|95.0|-5.2|-1.8||||||||-1.8|-5.2|
92192722|NCT02161406|184284413|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|||||||0.28
92192723|NCT02161406|184284414|SUPERIORITY|||||||0.73|||||||Mixed Models Analysis|||||||0.73
92192724|NCT02161406|184284415|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
92192725|NCT02161406|184284416|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
92192726|NCT02161406|184284417|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||0.19
92192727|NCT02161406|184284418|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||||||0.005
92192728|NCT02161406|184284419|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||0.19
92192729|NCT02161406|184284420|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|||||||0.34
92192730|NCT02161406|184284421|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
92192731|NCT02161406|184284422|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|||||||0.12
92192732|NCT02161406|184284423|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||||||0.82
92192733|NCT02161406|184284424|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|||||||0.37
92192734|NCT02161406|184284425|SUPERIORITY|||||||0.55|||||||Mixed Models Analysis|||||||0.55
92192735|NCT02161406|184284426|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|||||||0.15
92192736|NCT02161406|184284427|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||||||0.21
92192737|NCT02161406|184284428|SUPERIORITY|||||||0.81|||||||Mixed Models Analysis|||||||0.81
92192738|NCT02161406|184284429|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|||||||0.86
92192739|NCT02161406|184284430|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||||||0.91
92192740|NCT02161406|184284431|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||||||0.13
92192741|NCT02161406|184284432|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|||||||0.92
92192742|NCT02161406|184284433|SUPERIORITY|||||||0.24|||||||Mixed Models Analysis|||||||0.24
92192743|NCT02161406|184284434|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|||||||0.07
92192744|NCT02161406|184284435|SUPERIORITY|||||||0.03|||||||van Elteren test|The van Elteren test adjusted for duration of dcSSc. Multiple imputation was used to address missing follow-up data in 5 components of CRISS.||||||0.03
92192745|NCT02161406|184284436|SUPERIORITY|||||||0.1769|||||||Mixed Models Analysis|||||||0.1769
92192746|NCT02161406|184284437|SUPERIORITY|||||||0.9075|||||||Mixed Models Analysis|||||||0.9075
92192747|NCT02161406|184284438|SUPERIORITY|||||||0.5831|||||||Mixed Models Analysis|||||||0.5831
92192748|NCT02161406|184284439|SUPERIORITY|||||||0.0193|||||||Mixed Models Analysis|||||||0.0193
92192749|NCT02161406|184284440|SUPERIORITY|||||||0.0097|||||||Mixed Models Analysis|||||||0.0097
92192750|NCT02161406|184284441|SUPERIORITY|||||||0.0751|||||||Mixed Models Analysis|||||||0.0751
92192751|NCT02161406|184284442|SUPERIORITY|||||||0.4927|||||||Mixed Models Analysis|||||||0.4927
92192752|NCT02161406|184284443|SUPERIORITY|||||||0.1604|||||||Mixed Models Analysis|||||||0.1604
92192753|NCT02161406|184284444|SUPERIORITY|||||||0.7281|||||||Mixed Models Analysis|||||||0.7281
92192754|NCT02161406|184284445|SUPERIORITY|||||||0.1679|||||||Mixed Models Analysis|||||||0.1679
92192755|NCT02161406|184284446|SUPERIORITY|||||||0.2906|||||||Mixed Models Analysis|||||||0.2906
92192756|NCT01343251|184284447|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED||||||Chi-squared|||||||0.48
92192757|NCT01343251|184284448|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||||||0.02
92192758|NCT01343251|184284449|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|||||SF-36 Test 1 Total Score|t-test, 2 sided|||||||0.49
92192759|NCT01343251|184284449|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED|||||SF-36 Test 2 Total Score|t-test, 2 sided|||||||0.91
92192760|NCT01343251|184284449|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||SF-36 Test 3 Total Score|t-test, 2 sided|||||||0.67
92192761|NCT01343251|184284449|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||SF-36 Test 4 Total Score|t-test, 2 sided|||||||<0.001
92192762|NCT01343251|184284450|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Chi-squared|||||||0.04
92192763|NCT01343251|184284451|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Chi-squared|||||||0.90
92192764|NCT03677245|184284485|OTHER|Wilcoxon signed ranks test used to compared pre-intervention to post-intervention means of the Pediatric Balance Scale. No power calculation performed or utilized.|Mean Difference (Final Values)|1.0|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92192765|NCT01850823|184284532|EQUIVALENCE|Equivalence based on Test/Reference Ratio and 90% confidence interval (as per OGD guidance)|Ratio Test/Reference LS Mean|114.723|||||TWO_SIDED|90.0|99.077|134.286||||||Conducted on Per Protocol Population||134.286|99.077|
92192766|NCT01850823|184284533|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||The superiority of treatment over the placebo will be concluded if the treatment's mean change from baseline is statistically significantly greater (p\<0.05, 2-sided) than that of the placebo in the ANCOVA based on the treatment and placebo results. The superiority of Test and Reference treatments over the placebo will be evaluated identically in a separate ANCOVA.||||<0.0001
92192767|NCT01850823|184284533|SUPERIORITY|||||||0.0002|||||||ANCOVA|||The superiority of treatment over the placebo will be concluded if the treatment's mean change from baseline is statistically significantly greater (p\<0.05, 2-sided) than that of the placebo in the ANCOVA based on the treatment and placebo results. The superiority of Test and Reference treatments over the placebo will be evaluated identically in a separate ANCOVA.||||0.0002
92192768|NCT03247738|184284573|SUPERIORITY|The primary end point of our study was the comparison of platelet reactivity measured by VerifyNow PRU between cangrelor and placebo at 30 minutes after drugs were administered at the start of PCI. Assuming a common standard deviation of 70 PRU, a sample size of 20 patients per group would allow detection of a 70 PRU difference between groups with 85% power and a two-sided α = 0.05. Considering the 2 arms and a possible 25% rate of invalid PD results we planned to randomize up to 50 patients.|Mean Difference (Net)|152.0|||<|0.001|TWO_SIDED|95.0|108.0|195.0|||ANCOVA|the baseline value of platelet reactivity used as a covariate||||195|108|<0.001
92192769|NCT00527514|184284586|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|one-sample t-test|||The sample size of this study was not based on the statistical power consideration and was considered as sufficient for the evaluation of the efficacy and safety of the proposed olmesartan medoxomil-based treatment regimen.||||<0.0001
92192770|NCT00527514|184284587|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|One-sample t-test|||Statistical analysis parameters apply to both the daytime and nighttime rows.||||<0.0001
92192771|NCT00527514|184284588|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|One-sample t-test|||||||<0.0001
92192772|NCT00527514|184284589|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|one-sample t-test|||||||<0.0001
92192773|NCT00527514|184284590|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|One-sample t-test|||||||<0.0001
92192774|NCT00527514|184284591|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|one-sample t-test|||||||<0.0001
92316491|NCT03349060|184536852|SUPERIORITY||Difference in LS mean|-11.7|||<|0.0001|TWO_SIDED|95.0|-16.6|-6.9|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-6.9|-16.6|<0.0001
92316492|NCT03349060|184536852|SUPERIORITY||Difference in LS mean|-18.5|||<|0.0001|TWO_SIDED|95.0|-23.4|-13.6|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-13.6|-23.4|<0.0001
92316493|NCT03349060|184536852|SUPERIORITY||Difference in LS mean|-14.3|||<|0.0001|TWO_SIDED|95.0|-19.7|-9.0|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-9.0|-19.7|<0.0001
92316494|NCT03349060|184536852|SUPERIORITY||Difference in LS mean|-22.6|||<|0.0001|TWO_SIDED|95.0|-28.0|-17.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-17.3|-28.0|<0.0001
92316495|NCT03349060|184536852|SUPERIORITY||Difference in LS mean|-13.8|||<|0.0001|TWO_SIDED|95.0|-19.3|-8.2|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-8.2|-19.3|<0.0001
92316496|NCT03349060|184536852|SUPERIORITY||Difference in LS mean|-22.0|||<|0.0001|TWO_SIDED|95.0|-27.6|-16.5|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-16.5|-27.6|<0.0001
92316497|NCT03349060|184536853|SUPERIORITY||Difference in Percentage|1.3||||0.521|TWO_SIDED|95.0|-3.4|6.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.0|-3.4|0.5210
92316498|NCT03349060|184536853|SUPERIORITY||Difference in Percentage|4.0||||0.1416|TWO_SIDED|95.0|-1.3|9.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.3|-1.3|0.1416
92316499|NCT03349060|184536853|SUPERIORITY||Difference in Percentage|4.6||||0.2002|TWO_SIDED|95.0|-2.1|11.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.2|-2.1|0.2002
92316500|NCT03349060|184536853|SUPERIORITY||Difference in Percentage|23.6|||<|0.0001|TWO_SIDED|95.0|15.1|32.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||32.2|15.1|<0.0001
92316501|NCT03349060|184536853|SUPERIORITY||Difference in Percentage|9.6||||0.0434|TWO_SIDED|95.0|1.3|17.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.9|1.3|0.0434
92316502|NCT03349060|184536853|SUPERIORITY||Difference in Percentage|26.6|||<|0.0001|TWO_SIDED|95.0|17.1|36.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||36.2|17.1|<0.0001
92316503|NCT03349060|184536853|SUPERIORITY||Difference in Percentage|15.8||||0.0019|TWO_SIDED|95.0|7.5|24.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||24.0|7.5|0.0019
92316504|NCT03349060|184536853|SUPERIORITY||Difference in Percentage|33.3|||<|0.0001|TWO_SIDED|95.0|24.0|42.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||42.7|24.0|<0.0001
92316505|NCT03349060|184536854|SUPERIORITY||Difference in Percentage|10.8||||0.0151|TWO_SIDED|95.0|3.3|18.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||18.3|3.3|0.0151
92192775|NCT04148521|184284592|SUPERIORITY||Odds Ratio (OR)|1.15||||0.27|TWO_SIDED|95.0|0.9|1.47|||Mixed Models Analysis|||||1.47|0.90|0.27
92316506|NCT03349060|184536854|SUPERIORITY||Difference in Percentage|30.0|||<|0.0001|TWO_SIDED|95.0|21.0|39.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||39.0|21.0|<0.0001
92192776|NCT04148521|184284593|SUPERIORITY||Odds Ratio (OR)|1.04||||0.83|TWO_SIDED|95.0|0.75|1.43|||Mixed Models Analysis|||||1.43|0.75|0.83
92192777|NCT04148521|184284594|SUPERIORITY||Odds Ratio (OR)|1.43||||0.12|TWO_SIDED|95.0|0.91|2.26|||Mixed Models Analysis|||||2.26|0.91|0.12
92192778|NCT04148521|184284595|SUPERIORITY||Odds Ratio (OR)|1.17||||0.51|TWO_SIDED|95.0|0.73|1.86|||Mixed Models Analysis|||||1.86|0.73|0.51
92192779|NCT02287883|184284601|OTHER|Clustered two-sample t-test||||||0.8|||||||t-test, 2 sided|||||||0.80
92192780|NCT02287883|184284602|OTHER|Clustered two-sample t-test||||||0.48|||||||t-test, 2 sided|||||||0.48
92192781|NCT02287883|184284603|OTHER|Clustered two-sample t-test||||||0.05|||||||t-test, 2 sided|||||||0.05
92192782|NCT02101268|184284620|SUPERIORITY||Proportion Difference - Stratified CMH|0.01||||0.9|TWO_SIDED|95.0|-0.09|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.09|0.90
92192783|NCT02101268|184284621|SUPERIORITY||Proportion Difference - Stratified CMH|0.2|||<|0.001|TWO_SIDED|95.0|0.09|0.32|||Cochran-Mantel-Haenszel|||||0.32|0.09|< 0.001
92192784|NCT02101268|184284622|SUPERIORITY||Rate ratio|0.8||||0.38|TWO_SIDED|95.0|0.49|1.31|||Negative Binomial Model, Adjusted||A smaller ratio represents larger benefit.|||1.31|0.49|0.38
92192785|NCT02101268|184284623|SUPERIORITY||Proportion Difference - Stratified CMH|0.23||||0.001|TWO_SIDED|95.0|0.09|0.37|||Cochran-Mantel-Haenszel||A larger proportion represents larger benefit.|||0.37|0.09|0.001
92192786|NCT02101268|184284624|SUPERIORITY||Proportion Difference - Stratified CMH|-0.13||||0.1|TWO_SIDED|95.0|-0.29|0.03|||Cochran-Mantel-Haenszel||A smaller proportion represents larger benefit.|||0.03|-0.29|0.10
92192787|NCT00740870|184284625|SUPERIORITY||Kaplan-Meier Rate|74.2|||<|0.0001|ONE_SIDED|95.0|67.1||||Z test||||||67.1|<0.0001
92192788|NCT02831998|184284641|NON_INFERIORITY|Investigational product upper bounds must be less than 0.5.|Median Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.188|0.083||||||Groin 10 minutes Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and the predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||0.083|-0.188|
92192789|NCT02831998|184284641|SUPERIORITY|Investigational product lower bounds must be greater than 1.2.|Median Difference (Final Values)|2.627|||||TWO_SIDED|95.0|2.396|2.858||||||Groin 10 minutes Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||2.858|2.396|
92192790|NCT02831998|184284642|NON_INFERIORITY|Investigational product average treatment effect upper bounds cannot be more than 0.5.|Mean Difference (Final Values)|-0.018|||||TWO_SIDED|95.0|-0.102|0.065||||||Abdomen 10 minutes Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||0.065|-0.102|
92192791|NCT02831998|184284642|SUPERIORITY|Investigational product lower bounds must be greater than 1.2.|Mean Difference (Final Values)|1.909|||||TWO_SIDED|95.0|1.766|2.053||||||Abdomen 10 minutes Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||2.053|1.766|
92192792|NCT00839332|184284698|SUPERIORITY_OR_OTHER||Bayesian Posterior Probability|0.333|||||TWO_SIDED||||||||Inference about survival was made using a Bayesian posterior probability. The combination treatment would have been considered superior to gemcitabine alone if the posterior probability of superiority exceeded 0.8.|||||
92192793|NCT01196741|184284796|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.57|TWO_SIDED|95.0|0.65|1.23|||Regression, Cox|||||1.23|0.65|0.57
92192794|NCT01196741|184284797|SUPERIORITY_OR_OTHER|||||||0.81|||||||Regression, Cox|||||||0.81
92192795|NCT01196741|184284800|SUPERIORITY_OR_OTHER|||||||0.0476|||||||Mixed Models Analysis|||||||0.0476
92192796|NCT01196741|184284802|SUPERIORITY_OR_OTHER|||||||0.99|||||||Regression, Cox|||||||0.99
92192797|NCT01064856|184284834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|||||||Pearson's chi-square|||||||0.006
92192798|NCT01064856|184284836|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|The P-value was based on an ANCOVA model adjusting for baseline with treatment as a factor.||||||<0.001
92192799|NCT01064856|184284837|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||ANCOVA|The P-value was based on an ANCOVA model adjusting for baseline with treatment as a factor.||||||0.003
92192800|NCT01064856|184284838|SUPERIORITY_OR_OTHER_LEGACY|||||||0.051|||||||ANCOVA|The P-value was based on an ANCOVA model adjusting for baseline with treatment as a factor.||||||0.051
92192801|NCT05329402|184284851|NON_INFERIORITY|"The non-inferiority hypothesis is tenable if the lower limit of 95% confidence interval of the difference in the primary effectiveness evaluation indicator device cutting and anastomosis success rate between the test group and the control group is greater than the non-inferiority critical value (-10%)."|Mean Difference (Final Values)|0.0||||0.9727|TWO_SIDED|95.0|-0.0285|0.0273|||Wald|||||0.0273|-0.0285|0.9727
92192802|NCT01679613|184284852|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|160.48|STANDARD_DEVIATION|17.9||1|TWO_SIDED|90.0|148.245|173.736||p-value for ratio outside interval 0.8 - 1.25|ANOVA|The model includes fixed effects for sequence, period, and treatment. Subjects within sequences is included as random effect.|"Ratio calculated as nintedanib+ketoconazole divided by nintedanib (in %).~The standard deviation is actually the geometric coefficient of variation (gCV)."|||173.736|148.245|1.0000
92192803|NCT01679613|184284853|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|179.62|STANDARD_DEVIATION|29.9||1|TWO_SIDED|90.0|157.557|204.779||p-value for ratio outside interval 0.8 - 1.25|ANOVA|The model includes fixed effects for sequence, period, and treatment. Subjects within sequences is included as random effect.|"The standard deviation is actually the gCV (in %).~Ratio calculated as nintedanib+ketoconazole divided by nintedanib"|||204.779|157.557|1.0000
92192804|NCT01679613|184284854|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|168.09|STANDARD_DEVIATION|17.9||1|TWO_SIDED|90.0|155.252|181.981||p-value for ratio outside interval 0.8 to 1.25|ANOVA|The model includes fixed effects for sequence, period, and treatment. Subjects within sequences is included as random effect.|"The standard deviation is actually the gCV.~Ratio calculated as nintedanib+ketoconazole divided by nintedanib (in %)."|||181.981|155.252|1.000
92192805|NCT02799745|184284885|SUPERIORITY||Hazard Ratio (HR)|0.542||||0.016|TWO_SIDED|95.0|0.33|0.892||P-value was from a 2-sided stratified log-rank test.|Log Rank||HR, 95% CI for HR:based on a Cox regression model assuming proportional hazards with treatment, prostate cancer risk,type of biopsy,baseline variables(as age, race), time since prostate cancer diagnosis as fixed effects and random effect of site.|||0.892|0.330|0.016
92192806|NCT02799745|184284887|SUPERIORITY||Odds Ratio (OR)|3.5||||0|TWO_SIDED|95.0|1.76|6.92||P-value: Based on the exact binomial distribution from the logistic regression model.|Regression, Logistic||OR: from logistic regression model where fixed covariates=treatment group, prostate cancer risk, type of biopsy, age, race and time since prostate cancer diagnosis; random effects: site and subject. 95% CI: based on exact binomial distribution.|At the end of month 12||6.92|1.76|0.00
92192807|NCT02799745|184284887|SUPERIORITY||Odds Ratio (OR)|1.6||||0.289|TWO_SIDED|95.0|0.66|4.0||P-value: Based on the exact binomial distribution from the logistic regression model.|Regression, Logistic||OR: from logistic regression model where fixed covariates=treatment group, prostate cancer risk, type of biopsy, age, race and time since prostate cancer diagnosis; random effects: site and subject. 95% CI: based on exact binomial distribution.|At the end of month 24||4.00|0.66|0.289
92192808|NCT02799745|184284888|SUPERIORITY||LS mean difference|-10.07|STANDARD_ERROR_OF_MEAN|2.398|<|0.001|TWO_SIDED|95.0|-14.79|-5.34||P-values: from differences of least squares means.Bonferroni-Holm was used in the primary hypothesis testing to adjust for multiplicity.|Mixed Models Analysis|Compound symmetry was used as the covariance structure. Covariance parameters:estimated using Restricted Maximum likelihood.|Mixed model repeated measure(MMRM) with treatment group, prostate cancer risk(low/intermediate), type of biopsy(mpMRI-targeted/non-mpMRI-targeted), visit, visit-by-treatment, baseline scores as fixed factors, site and participants as random factors.|Change at month 12||-5.34|-14.79|<0.001
92192809|NCT02799745|184284888|SUPERIORITY||LS mean difference|-5.15|STANDARD_ERROR_OF_MEAN|3.174||0.1063|TWO_SIDED|95.0|-11.4|1.11||P-values: from differences of least squares means.Bonferroni-Holm was used in the primary hypothesis testing to adjust for multiplicity.|Mixed Models Analysis|Compound symmetry was used as the covariance structure. Covariance parameters:estimated using Restricted Maximum likelihood.|MMRM with treatment group, prostate cancer risk (low vs. intermediate), type of biopsy (mpMRI targeted vs. non mpMRI targeted), visit, visit-by-treatment and baseline scores were the fixed factors, and site and participants were the random factors.|Change at month 24||1.11|-11.40|0.1063
92192810|NCT02799745|184284889|SUPERIORITY||Hazard Ratio (HR)|0.714||||0.032|TWO_SIDED|95.0|0.525|0.972||P-value: from a 2-sided, stratified log-rank test.|Log Rank||HR and 95% CI for HR:based on Cox regression model assuming proportional hazards with treatment, prostate cancer risk, type of biopsy, baseline variables(as age, race), time since prostate cancer diagnosis as fixed effects and random effect of site.|||0.972|0.525|0.032
92192811|NCT02799745|184284890|SUPERIORITY||Odds Ratio (OR)|0.1||||0|TWO_SIDED|95.0|0.08|0.26||P-value:based on the exact binomial distribution from the logistic regression model.|Regression, Logistic||OR:from logistic regression model where treatment group, prostate cancer risk, type of biopsy, age, race and time since prostate cancer diagnosis were fixed covariates, site and participant were random effects. 95% CI:based on binomial distribution.|At the end of month 12||0.26|0.08|0.000
92192812|NCT02799745|184284890|SUPERIORITY||Odds Ratio (OR)|1.1||||0.807|TWO_SIDED|95.0|0.37|3.53||P-value: based on the exact binomial distribution from the logistic regression model.|Regression, Logistic||OR: from logistic regression model where treatment group, prostate cancer risk, type of biopsy, age, race and time since prostate cancer diagnosis were fixed covariates, site and participant were random effects. 95% CI:based on binomial distribution.|At the end of month 24||3.53|0.37|0.807
92316507|NCT03349060|184536854|SUPERIORITY||Difference in Percentage|21.2||||0.001|TWO_SIDED|95.0|10.2|32.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||32.3|10.2|0.0010
92316508|NCT03349060|184536854|SUPERIORITY||Difference in Percentage|37.9|||<|0.0001|TWO_SIDED|95.0|26.6|49.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||49.3|26.6|<0.0001
92192813|NCT02799745|184284890|SUPERIORITY||Odds Ratio (OR)|1.0||||0.931|TWO_SIDED|95.0|0.5|2.15||P-value:based on the exact binomial distribution from the logistic regression model.|Regression, Logistic||OR: from logistic regression model where treatment group, prostate cancer risk, type of biopsy, age, race and time since prostate cancer diagnosis were fixed covariates, site and participant were random effects. 95% CI:based on binomial distribution.|At the end of study||2.15|0.50|0.931
92192814|NCT01929876|184284915|SUPERIORITY_OR_OTHER||Ratio of least squares means|316.6|||||TWO_SIDED|90.0|268.1|374.0|||||LS means from analysis of variance (ANOVA), calculated by transforming the natural log means back to the linear scale (that is, geometric LS mean).|Ratio of Least squares (LS) means (Cobimetinib with Itraconazole/Cobimetinib alone) of natural log-transformed parameter (expressed as a percent).||374.0|268.1|
92192815|NCT01929876|184284916|SUPERIORITY_OR_OTHER||Ratio of LS means|672.3|||||TWO_SIDED|90.0|563.7|801.9|||||Ratio of LS means (Cobimetinib with Itraconazole/Cobimetinib alone) of natural log-transformed parameter (expressed as a percent). LS means from ANOVA, calculated by transforming the natural log means back to the linear scale.|Only participants with PK parameter data from both Period 1 Day 1 and Period 2 Day 4 (n=11) were included for statistical analyses.||801.9|563.7|
92192816|NCT01929876|184284918|SUPERIORITY_OR_OTHER||Ratio of LS means|583.9|||||TWO_SIDED|90.0|488.2|698.2|||||Ratio of LS means (Cobimetinib with Itraconazole/Cobimetinib alone) of natural log-transformed parameter (expressed as a percent). LS means from ANOVA, calculated by transforming the natural log means back to the linear scale.|||698.2|488.2|
92192817|NCT01468077|184284925|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0164|||||TWO_SIDED|95.0|-0.2685|0.2988|||||The CI (confidence interval) is calculated by Exact method based on binomial distribution.|||0.2988|-0.2685|
92192818|NCT03024996|184284945|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.495|TWO_SIDED|95.0|0.75|1.15|||Log Rank|||||1.15|0.75|0.4950
92192819|NCT03024996|184284946|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8868||95.0|0.67|1.42|||Log Rank|||||1.42|0.67|0.8868
92192820|NCT03024996|184284947|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.201|TWO_SIDED|95.0|0.63|1.1|||Log Rank|||||1.10|0.63|0.2010
92316509|NCT03349060|184536854|SUPERIORITY||Difference in Percentage|23.5||||0.0003|TWO_SIDED|95.0|12.6|34.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||34.3|12.6|0.0003
92316510|NCT03349060|184536854|SUPERIORITY||Difference in Percentage|41.7|||<|0.0001|TWO_SIDED|95.0|30.7|52.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||52.7|30.7|<0.0001
92316511|NCT03349060|184536854|SUPERIORITY||Difference in Percentage|19.6||||0.0026|TWO_SIDED|95.0|8.1|31.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||31.1|8.1|0.0026
92316512|NCT03349060|184536854|SUPERIORITY||Difference in Percentage|40.0|||<|0.0001|TWO_SIDED|95.0|28.3|51.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||51.7|28.3|<0.0001
92316513|NCT03349060|184536855|SUPERIORITY||Difference in Percentage|1.3||||0.3151|TWO_SIDED|95.0|-2.9|5.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.6|-2.9|0.3151
92316514|NCT03349060|184536855|SUPERIORITY||Difference in Percentage|6.0||||0.0292|TWO_SIDED|95.0|0.7|11.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.3|0.7|0.0292
92316515|NCT03349060|184536855|SUPERIORITY||Difference in Percentage|-0.2||||0.9402|TWO_SIDED|95.0|-5.9|5.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.5|-5.9|0.9402
92316516|NCT03349060|184536855|SUPERIORITY||Difference in Percentage|15.3||||0.0019|TWO_SIDED|95.0|7.3|23.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.2|7.3|0.0019
92316517|NCT03349060|184536855|SUPERIORITY||Difference in Percentage|10.8||||0.0078|TWO_SIDED|95.0|4.2|17.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.4|4.2|0.0078
92316518|NCT03349060|184536855|SUPERIORITY||Difference in Percentage|22.2|||<|0.0001|TWO_SIDED|95.0|14.2|30.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.1|14.2|<0.0001
92316519|NCT03349060|184536855|SUPERIORITY||Difference in Percentage|8.2||||0.0528|TWO_SIDED|95.0|1.0|15.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||15.3|1.0|0.0528
92316520|NCT03349060|184536855|SUPERIORITY||Difference in Percentage|26.4|||<|0.0001|TWO_SIDED|95.0|17.6|35.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.3|17.6|<0.0001
92316521|NCT03349060|184536856|SUPERIORITY||Difference in LS mean|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.9|-0.6|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.9|<0.0001
92316522|NCT03349060|184536856|SUPERIORITY||Difference in LS mean|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.7|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.7|-3.0|<0.0001
92316523|NCT03349060|184536856|SUPERIORITY||Difference in LS mean|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.2|-0.9|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.9|-2.2|<0.0001
92192821|NCT03024996|184284948|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.2811|TWO_SIDED|95.0|0.69|1.12|||Log Rank|||||1.12|0.69|0.2811
92192822|NCT03024996|184284949|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0735|TWO_SIDED|95.0|0.55|1.03|||Log Rank|||||1.03|0.55|0.0735
92192823|NCT03024996|184284950|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1396|TWO_SIDED|95.0|0.67|1.06|||Log Rank|||||1.06|0.67|0.1396
92192824|NCT03024996|184284951|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.4762|TWO_SIDED|95.0|0.55|1.33|||Log Rank|||||1.33|0.55|0.4762
92192825|NCT03024996|184284952|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.5111|TWO_SIDED|95.0|0.74|1.16|||Log Rank|||||1.16|0.74|0.5111
92192826|NCT03119688|184285015|NON_INFERIORITY|The non-Inferiority margin is set at 0.25. The upper limit of the 90% CI is less than this and hence NI is met.|Mean Difference (Net)|-0.077||||0.1769|TWO_SIDED|90.0|-0.1707|0.0169||No adjustment for multiple comparisons was made.|ANOVA|ANOVA model with change from baseline in examiner assessment on dryness as response and treatment, site as fixed effects; participant as random effect|Difference is first named treatment minus second named treatment such that a negative difference favors first named treatment.|The null hypothesis (non-inferiority setting) is that the population mean dryness for Test minus Baxter Sterile Water (negative control) is at least 0.25.||0.0169|-0.1707|0.1769
92192827|NCT03119688|184285015|SUPERIORITY|This is a superiority test setting.|Mean Difference (Net)|0.35|||<|0.0001|TWO_SIDED|90.0|0.2565|0.4441||No adjustment for multiple comparisons was made.|ANOVA|ANOVA model with change from baseline in examiner assessment on dryness as response and treatment, site as fixed effects;participant as random effect|Difference is first named treatment minus second named treatment such that a negative difference favors first named treatment.|The null hypothesis is that the difference in population mean dryness is zero.||0.4441|0.2565|<.0001
92192828|NCT03119688|184285015|SUPERIORITY|This is a superiority test setting.|Mean Difference (Net)|0.427|||<|0.0001|TWO_SIDED|90.0|0.3333|0.5211||No adjustment for multiple comparisons was made.|ANOVA|ANOVA model with change from baseline in examiner assessment on dryness as response and treatment, site as fixed effects; participant as random effect|Difference is first named treatment minus second named treatment such that a negative difference favors first named treatment.|The null hypothesis is that the difference in population mean dryness is zero.||0.5211|0.3333|<.0001
92192829|NCT03119688|184285015|SUPERIORITY|This is a superiority test setting.|Mean Difference (Net)|0.065||||0.2518|TWO_SIDED|90.0|-0.0287|0.1592||No adjustment for multiple comparisons was made.|ANOVA|ANOVA model with change from baseline in examiner assessment on dryness as response and treatment, site as fixed effects;participant as random effect|Difference is first named treatment minus second named treatment such that a negative difference favors first named treatment.|The null hypothesis is that the difference in population mean dryness is zero.||0.1592|-0.0287|0.2518
92192830|NCT01084239|184285033|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|Result for index hospitalization||||||<0.001
92192831|NCT02705625|184285052|SUPERIORITY|"For the primary endpoint, the Type I error for the tests of the two doses was protected by performing a fixed-sequence multiple-testing procedure in the following order:~Step 1: 200 mg versus placebo Step 2: 100 mg versus placebo The second step was only considered as confirmatory provided the previous step was significant at a one-sided 5%-level (p\<0.05).~If the previous step was not significant, the analysis of the following step was considered descriptive."|Mean Difference (Final Values)|-0.0761||||0.4055|TWO_SIDED|95.0|-0.703|0.55||The p-values reported is from Step 1 (comparing 200 mg versus placebo). The corresponding p-value from Step 2 (comparing 100 mg versus placebo) was 0.1458.|Mixed Models Analysis|||A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment by time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline NRS was included as a covariate for adjustment. An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model.||0.55|-0.703|0.4055
92192832|NCT02705625|184285053|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in knee joint MRI bone area at Week 26.|Mean Difference (Final Values)|-14.7||||0.0036|TWO_SIDED|95.0|-25.3|-4.02||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: bone area increase is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline knee joint MRI bone area was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-4.02|-25.3|0.0036
92192833|NCT02705625|184285053|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in knee joint MRI bone area at Week 26.|Mean Difference (Final Values)|-15.4||||0.0023|TWO_SIDED|95.0|-26.0|-4.83||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: bone area increase is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline knee joint MRI bone area was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-4.83|-26|0.0023
92192834|NCT02705625|184285054|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in MRI of cartilage thickness (Femur Region) at Week 26.|Mean Difference (Final Values)|0.0436||||0.1253|TWO_SIDED|95.0|-0.031|0.118||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: MRI of cartilage thinning (Femur Region) is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline MRI of cartilage thickness was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||0.118|-0.031|0.1253
92268414|NCT04662086|184438886|OTHER||Hazard Ratio (HR)|0.6||||0.07|TWO_SIDED|95.0|0.34|1.04||A p-value of \<0.05 would be considered statistically significant.|Cox proportional hazards model|Two-sided Cox proportional hazards model adjusted for age, sex, and receipt of baseline receipt of monoclonal antibodies.||A two-sided log rank test at the 0.04999 level of significance for the final analysis required 78 events (i.e., sustained symptom resolution) to provide 80% power to detect a hazard ratio of 1.91. Based on previous outpatient COVID-19 trials at Stanford, assumed placebo and treatment arm median time to symptom resolution of 10 and 5 days, respectively, for a total sample size of 120 patients. Participants with missing data lasting through Day 28 were censored on Day 28.||1.04|0.34|0.07
92268415|NCT04662086|184438888|OTHER||Hazard Ratio (HR)|0.62||||0.05|TWO_SIDED|95.0|0.38|1.01|||Linear mixed-effects regression model|||||1.01|0.38|0.05
92316524|NCT03349060|184536856|SUPERIORITY||Difference in LS mean|-2.7|||<|0.0001|TWO_SIDED|95.0|-3.4|-2.0|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-2.0|-3.4|<0.0001
92192835|NCT02705625|184285054|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in MRI of cartilage thickness (Femur Region) at Week 26.|Mean Difference (Final Values)|0.0761||||0.0225|TWO_SIDED|95.0|0.00173|0.15||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: MRI of cartilage thinning (Femur Region) is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline MRI of cartilage thickness was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||0.15|0.00173|0.0225
92268416|NCT04662086|184438889|OTHER||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.34|1.01||||||||1.01|0.34|
92268417|NCT04662086|184438890|OTHER|||||||0.21||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||Difference in incidence of ED visits||||0.21
92268418|NCT01687400|184438892|OTHER|||||||0.035|||||||Fisher Exact|||Statistical analysis #1 is for the genetic mutation TP53.||||0.035
92268419|NCT01687400|184438892|OTHER|||||||0.72|||||||Fisher Exact|||Statistical analysis #2 is for ASXL1 genetic mutation||||0.72
92268420|NCT01687400|184438892|OTHER|||||||0.28|||||||Fisher Exact|||Statistical analysis #3 is for SRSF2 genetic mutation||||0.28
92268421|NCT01687400|184438892|OTHER|||||||0.14|||||||Fisher Exact|||Statistical analysis #4 is for IDH2 genetic mutation||||0.14
92268422|NCT01687400|184438892|OTHER|||||||0.3|||||||Fisher Exact|||Statistical analysis #5 is for DNMT3A genetic mutation||||0.3
92268423|NCT01687400|184438892|OTHER|||||||0.183|||||||Fisher Exact|||Statistical analysis #6 is for SF3B1 genetic mutation||||0.183
92268424|NCT01687400|184438892|OTHER|||||||0.42|||||||Fisher Exact|||Statistical analysis #7 is for RUNX1 genetic mutation||||0.42
92268425|NCT01687400|184438892|OTHER|||||||0.36|||||||Fisher Exact|||Statistical analysis #8 is for TET2 genetic mutation||||0.36
92268426|NCT01687400|184438892|OTHER|||||||0.1|||||||Fisher Exact|||Statistical analysis #9 is for IDH1 genetic mutation||||0.1
92268427|NCT01687400|184438892|OTHER|||||||1|||||||Fisher Exact|||Statistical analysis #10 is for NPM1 genetic mutation||||1
92268428|NCT01687400|184438892|OTHER|||||||0.17|||||||Fisher Exact|||Statistical analysis #11 is for NRAS genetic mutation||||0.17
92268429|NCT01687400|184438892|OTHER|||||||1|||||||Fisher Exact|||-Statistical analysis #12 is for U2AF1 genetic mutation||||1
92268430|NCT01687400|184438892|OTHER|||||||0.6|||||||Fisher Exact|||Statistical analysis #13 is for MY05B genetic mutation||||0.6
92268431|NCT01687400|184438892|OTHER|||||||1|||||||Fisher Exact|||Statistical analysis #14 is for WT1 genetic mutation||||1
92268432|NCT01687400|184438893|SUPERIORITY||Overall Response Rate-for current study|0.744|||<|0.0001|TWO_SIDED|95.0|0.652|0.836|||Chi-squared|1-sample Chi-square test to compare the overall response rate (ORR) to historical control (with ORR=0.25)||-The historical control of a 5-day regimen (Cashen et al 2010 JCO = NCT00358644) showed 25% (14 out of 55 participants) in overall response rate||0.836|0.652|<0.0001
92268433|NCT01687400|184438893|SUPERIORITY||Complete response rate-for current study|0.64|||<|0.0001|TWO_SIDED|95.0|0.538|0.741|||Chi-squared|1-sample Chi-square test to compare the complete response rate to historical control (with CR=0.24)||-The historical control of a 5-day regimen (Cashen et al 2010 JCO = NCT00358644) showed 24% (13 out of 55 participants) in complete response rate.||0.741|0.538|<0.0001
92268434|NCT04253756|184438906|NON_INFERIORITY|The margin of non-inferiority (Delta) was 5g/dl|Mean Difference (Final Values)|0.5||||0.87|TWO_SIDED||||||ANOVA|||||||0.87
92268435|NCT04253756|184438907|NON_INFERIORITY|The non-inferiority margin (Delta) was 10 minutes of run time, no other key parameters|Mean Difference (Final Values)|3.2||||0.32|TWO_SIDED||||||ANOVA|||||||0.32
92268436|NCT03731325|184438911|SUPERIORITY||Mean Difference (Net)|2.2|||<|0.01|TWO_SIDED||||||ANOVA||This mean difference represents the main effect of time from baseline to 15 weeks, regardless of group|Change in parent BMI from baseline at 8,11 to 15 weeks||||<0.01
92268437|NCT03731325|184438912|SUPERIORITY||Mean Difference (Net)|-10.5||||0.003|TWO_SIDED|||||main effect of time|ANOVA||This is the main effect of weight change at week 15, e.g. average weight change from baseline to week 15 in the entire sample of parents|repeated measures analysis of variance for time (0,8,11,15 weeks) for weight change (lbs)||||0.003
92268438|NCT03731325|184438913|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.06|TWO_SIDED||||||ANOVA||average difference in BMI percentile for entire sample|Repeated measures ANOVA for child BMI percentile at 0, 8, 11 and 15 weeks||||0.06
92268439|NCT03731325|184438914|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.07|TWO_SIDED||||||ANOVA||average change in delay discounting measure area under the curve for all participants (parents and children) in both groups from baseline to week 15|repeated measures ANOVA, reporting repeated measures effect only||||0.07
92268440|NCT03731325|184438915|SUPERIORITY||Mean Difference (Net)|-0.8||||0.64|TWO_SIDED||||||ANOVA||Difference between weight at baseline and week 15 in lbs for all children, regardless of group|||||0.64
92268441|NCT00539006|184438930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.22|<|0.001||95.0|-1.5|-0.6|||ANCOVA||Mean Difference = Mean Change in FFNS - Mean Change in Placebo|FFNS combined across treatment arms 1 \& 2 compared with Placebo FFNS combined across treatment arms 1 \& 2.||-0.6|-1.5|<0.001
92268442|NCT00539006|184438930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.22||0.004||95.0|-1.1|-0.2|||ANCOVA||Mean Difference = Mean Change in FPNS - Mean Change in Placebo|FPNS combined across treatment arms 1 \& 2 compared with Placebo FPNS combined across treatment arms 1 \& 2.||-0.2|-1.1|0.004
92268443|NCT00539006|184438931|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH): stratified approximation to Prescotts test; variation of chi-square test for treatment sequence/subjects no preference.||Statistical analysis applies to FFNS and FPNS categories.||||<0.001
92268444|NCT03733301|184438935|SUPERIORITY||Odds Ratio (OR)|1.88||||0.082|TWO_SIDED|95.0|0.92|3.85|||Regression, Logistic|||||3.85|0.92|0.082
92268445|NCT03733301|184438935|SUPERIORITY||Odds Ratio (OR)|2.77||||0.004|TWO_SIDED|95.0|1.38|5.56|||Regression, Logistic|||||5.56|1.38|0.004
92268446|NCT03733301|184438936|SUPERIORITY||Odds Ratio (OR)|2.62||||0.002|TWO_SIDED|95.0|1.44|4.76|||Regression, Logistic|||||4.76|1.44|0.002
92316525|NCT03349060|184536856|SUPERIORITY||Difference in LS mean|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.3|-0.8|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.8|-2.3|<0.0001
92316526|NCT03349060|184536856|SUPERIORITY||Difference in LS mean|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.8|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.8|-3.2|<0.0001
92316527|NCT03349060|184536856|SUPERIORITY||Difference in LS mean|-1.3||||0.0005|TWO_SIDED|95.0|-2.1|-0.6|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-2.1|0.0005
92316528|NCT03349060|184536856|SUPERIORITY||Difference in LS mean|-2.1|||<|0.0001|TWO_SIDED|95.0|-2.9|-1.4|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.4|-2.9|<0.0001
92316529|NCT03349060|184536857|SUPERIORITY||Difference in LS mean|-10.9|||<|0.0001|TWO_SIDED|95.0|-14.8|-7.0|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-7.0|-14.8|<0.0001
92316530|NCT03349060|184536857|SUPERIORITY||Difference in LS mean|-18.9|||<|0.0001|TWO_SIDED|95.0|-22.7|-15.1|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-15.1|-22.7|<0.0001
92316531|NCT03349060|184536857|SUPERIORITY||Difference in LS mean|-12.6|||<|0.0001|TWO_SIDED|95.0|-17.3|-7.8|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-7.8|-17.3|<.0001
92316532|NCT03349060|184536857|SUPERIORITY||Difference in LS mean|-22.1|||<|0.0001|TWO_SIDED|95.0|-26.8|-17.3|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-17.3|-26.8|<.0001
92316533|NCT03349060|184536857|SUPERIORITY||Difference in LS mean|-14.3|||<|0.0001|TWO_SIDED|95.0|-19.5|-9.0|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-9.0|-19.5|<.0001
92316534|NCT03349060|184536857|SUPERIORITY||Difference in LS mean|-22.0|||<|0.0001|TWO_SIDED|95.0|-27.2|-16.7|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-16.7|-27.2|<.0001
92316535|NCT03349060|184536857|SUPERIORITY||Difference in LS mean|-13.3|||<|0.0001|TWO_SIDED|95.0|-19.0|-7.7|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-7.7|-19.0|<0.0001
92316536|NCT03349060|184536857|SUPERIORITY||Difference in LS mean|-21.9|||<|0.0001|TWO_SIDED|95.0|-27.5|-16.3|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-16.3|-27.5|<.0001
92316537|NCT03349060|184536858|SUPERIORITY||Difference in Percentage|22.3||||0.0028|TWO_SIDED|95.0|8.7|35.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.9|8.7|0.0028
92316538|NCT03349060|184536858|SUPERIORITY||Difference in Percentage|40.1|||<|0.0001|TWO_SIDED|95.0|27.1|53.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||53.2|27.1|<0.0001
92316539|NCT03349060|184536858|SUPERIORITY||Difference in Percentage|17.1||||0.0217|TWO_SIDED|95.0|2.8|31.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||31.4|2.8|0.0217
92316540|NCT03349060|184536858|SUPERIORITY||Difference in Percentage|32.2|||<|0.0001|TWO_SIDED|95.0|18.5|45.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||45.9|18.5|<0.0001
92316541|NCT03349060|184536858|SUPERIORITY||Difference in Percentage|15.7||||0.0363|TWO_SIDED|95.0|1.4|30.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.0|1.4|0.0363
92316542|NCT03349060|184536858|SUPERIORITY||Difference in Percentage|23.7||||0.0011|TWO_SIDED|95.0|9.8|37.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||37.7|9.8|0.0011
92192836|NCT02705625|184285055|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in WOMAC Pain score at Week 26.|Mean Difference (Final Values)|-1.77||||0.2887|TWO_SIDED|95.0|-8.02|4.48||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Pain score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time,baseline analgesic user (Yes/No), and random effect for clinical site. Baseline WOMAC Pain score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||4.48|-8.02|0.2887
92192837|NCT02705625|184285055|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in WOMAC Pain score at Week 26.|Mean Difference (Final Values)|-4.55||||0.0753|TWO_SIDED|95.0|-10.8|1.67||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Pain score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic (Yes/No) and random effect for clinical site. Baseline WOMAC Pain score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||1.67|-10.8|0.0753
92192838|NCT02705625|184285056|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in WOMAC difficulty score at Week 26.|Mean Difference (Final Values)|-1.84||||0.2898|TWO_SIDED|95.0|-8.38|4.7||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Difficulty score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic (Yes/No) and random effect for clinical site. Baseline WOMAC Difficulty score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||4.7|-8.38|0.2898
92192839|NCT02705625|184285056|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in WOMAC difficulty score at Week 26.|Mean Difference (Final Values)|-3.78||||0.1262|TWO_SIDED|95.0|-10.3|2.72||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Difficulty score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic (Yes/No) and random effect for clinical site. Baseline WOMAC difficulty score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||2.72|-10.3|0.1262
92192840|NCT02705625|184285057|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in WOMAC stiffness score at Week 26.|Mean Difference (Final Values)|-3.07||||0.2|TWO_SIDED|95.0|-10.2|4.1||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Stiffness score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic (Yes/No) and random effect for clinical site. Baseline WOMAC Stiffness score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||4.1|-10.2|0.2
92192841|NCT02705625|184285057|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in WOMAC stiffness score at Week 26.|Mean Difference (Final Values)|-4.95||||0.0861|TWO_SIDED|95.0|-12.1|2.17||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Stiffness score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline WOMAC stiffness score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||2.17|-12.1|0.0861
92268447|NCT03733301|184438936|SUPERIORITY||Odds Ratio (OR)|3.27|||<|0.001|TWO_SIDED|95.0|1.8|5.97|||Regression, Logistic|||||5.97|1.80|< 0.001
92268448|NCT03733301|184438937|SUPERIORITY||Odds Ratio (OR)|1.24||||0.574|TWO_SIDED|95.0|0.59|2.62|||Regression, Logistic|||||2.62|0.59|0.574
92268449|NCT03733301|184438937|SUPERIORITY||Odds Ratio (OR)|2.07||||0.045|TWO_SIDED|95.0|1.02|4.2|||Regression, Logistic|||||4.20|1.02|0.045
92268450|NCT03733301|184438938|SUPERIORITY||Mean Difference (Final Values)|-13.08|STANDARD_ERROR_OF_MEAN|5.256||0.013|TWO_SIDED|95.0|-23.42|-2.73|||Mixed Models Analysis|||||-2.73|-23.42|0.013
92268451|NCT03733301|184438938|SUPERIORITY||Mean Difference (Final Values)|-22.13|STANDARD_ERROR_OF_MEAN|5.259|<|0.001|TWO_SIDED|95.0|-32.48|-11.78|||Mixed Models Analysis|||||-11.78|-32.48|<0.001
92316543|NCT03349060|184536858|SUPERIORITY||Difference in Percentage|20.1||||0.008|TWO_SIDED|95.0|5.8|34.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||34.5|5.8|0.0080
92192842|NCT02705625|184285058|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in CTX-I score at Week 26.|Mean Difference (Final Values)|-0.254|||<|0.0001|TWO_SIDED|95.0|-0.302|-0.206||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: CTX-I score is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline CTX-I score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-0.206|-0.302|<0.0001
92192843|NCT02705625|184285058|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in CTX-I score at Week 26.|Mean Difference (Final Values)|-0.145|||<|0.0001|TWO_SIDED|95.0|-0.193|-0.0983||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: CTX-I score is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline CTX-I score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-0.0983|-0.193|<0.0001
92192844|NCT02705625|184285059|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in CTX-II score at Week 26.|Mean Difference (Final Values)|-270.0|||<|0.0001|TWO_SIDED|95.0|-339.0|-201.0||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: CTX-II score is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline CTX-II score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-201|-339|<0.0001
92192845|NCT02705625|184285059|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in CTX-II score at Week 26.|Mean Difference (Final Values)|-193.0|||<|0.0001|TWO_SIDED|95.0|-262.0|-124.0||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: CTX-II score is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by- time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline CTX-II score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-124|-262|<0.0001
92192846|NCT00863798|184285060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86||||0.175|TWO_SIDED|95.0|-0.38|2.1||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|ANCOVA|||An analysis of covariance (ANCOVA) model with treatment and as a factor and the baseline HAM-D17 total score as a covariate was used to compare DVS SR 10 mg to placebo. The comparison was performed at the 0.05 level overall.||2.10|-0.38|0.175
92192847|NCT00863798|184285060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51||||0.421|TWO_SIDED|95.0|-0.73|1.75||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|ANCOVA|||An analysis of covariance (ANCOVA) model with treatment and as a factor and the baseline HAM-D17 total score as a covariate was used to compare DVS SR 10 mg to placebo. The comparison was performed at the 0.05 level overall.||1.75|-0.73|0.421
92192848|NCT00863798|184285061|SUPERIORITY_OR_OTHER|||||||0.076|TWO_SIDED|||||In this case, multiplicity arising from testing key secondary hypotheses in both doses was controlled by a Hochberg step-up procedure. p-Value obtained for the alternative hypothesis of 'Row mean scores differences'.|Cochran-Mantel-Haenszel|||Each DVS SR dose was separately compared to placebo. To control the study-wise type I error rate across the primary and the key secondary endpoints, as well as across the 2 active dose arms, testing of the key secondary hypothesis occurred only when both active doses were superior to placebo on the primary endpoint.||||0.076
92192849|NCT00863798|184285061|SUPERIORITY_OR_OTHER|||||||0.204|TWO_SIDED|||||In this case, multiplicity arising from testing key secondary hypotheses in both doses was controlled by a Hochberg step-up procedure. p-Value obtained for the alternative hypothesis of 'Row mean scores differences'.|Cochran-Mantel-Haenszel|||Each DVS SR dose was separately compared to placebo. To control the study-wise type I error rate across the primary and the key secondary endpoints, as well as across the 2 active dose arms, testing of the key secondary hypothesis occurred only when both active doses were superior to placebo on the primary endpoint.||||0.204
92192850|NCT00863798|184285062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.13|TWO_SIDED|95.0|-0.04|0.35|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.35|-0.04|0.130
92192851|NCT00863798|184285062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.757|TWO_SIDED|95.0|-0.16|0.23|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.23|-0.16|0.757
92268452|NCT03733301|184438939|SUPERIORITY||Odds Ratio (OR)|1.53||||0.364|TWO_SIDED|95.0|0.61|3.81|||Regression, Logistic|||||3.81|0.61|0.364
92268453|NCT03733301|184438939|SUPERIORITY||Odds Ratio (OR)|2.7||||0.022|TWO_SIDED|95.0|1.15|6.34|||Regression, Logistic|||||6.34|1.15|0.022
92268454|NCT03733301|184438940|SUPERIORITY||Odds Ratio (OR)|2.88||||0.002|TWO_SIDED|95.0|1.48|5.61|||Regression, Logistic|||||5.61|1.48|0.002
92268455|NCT03733301|184438940|SUPERIORITY||Odds Ratio (OR)|3.84|||<|0.001|TWO_SIDED|95.0|1.98|7.46|||Regression, Logistic|||||7.46|1.98|<0.001
92268456|NCT03733301|184438941|SUPERIORITY||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.209|<|0.001|TWO_SIDED|95.0|-1.23|-0.41|||Mixed Models Analysis|||||-0.41|-1.23|<0.001
92192852|NCT00863798|184285063|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.41||||0.114|TWO_SIDED|95.0|-0.34|3.16|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||3.16|-0.34|0.114
92192853|NCT00863798|184285063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.316|TWO_SIDED|95.0|-0.85|2.64|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||2.64|-0.85|0.316
92192854|NCT00863798|184285064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74||||0.054|TWO_SIDED|95.0|-0.01|1.5|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||1.50|-0.01|0.054
92316544|NCT03349060|184536858|SUPERIORITY||Difference in Percentage|29.1|||<|0.0001|TWO_SIDED|95.0|15.0|43.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||43.3|15.0|<0.0001
92316545|NCT03349060|184536859|SUPERIORITY||Difference in LS mean|-3.8|||<|0.0001|TWO_SIDED|95.0|-5.4|-2.2|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-2.2|-5.4|<0.0001
92192855|NCT00863798|184285064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.253|TWO_SIDED|95.0|-0.32|1.2|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||1.20|-0.32|0.253
92192856|NCT00863798|184285065|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.254||||0.2415|TWO_SIDED|95.0|0.86|1.83|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.83|0.86|0.2415
92268457|NCT03733301|184438941|SUPERIORITY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.209|<|0.001|TWO_SIDED|95.0|-1.33|-0.51|||Mixed Models Analysis|||||-0.51|-1.33|<0.001
92268458|NCT03733301|184438942|SUPERIORITY||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.319|<|0.001|TWO_SIDED|95.0|-1.78|-0.52|||Mixed Models Analysis|||||-0.52|-1.78|<0.001
92268459|NCT03733301|184438942|SUPERIORITY||Mean Difference (Final Values)|-1.66|STANDARD_ERROR_OF_MEAN|0.322|<|0.001|TWO_SIDED|95.0|-2.3|-1.3|||Mixed Models Analysis|||||-1.30|-2.30|<0.001
92268460|NCT03733301|184438943|SUPERIORITY||Odds Ratio (OR)|2.57|||<|0.001|TWO_SIDED|95.0|1.47|4.49|||Regression, Logistic|||||4.49|1.47|<0.001
92268461|NCT03733301|184438943|SUPERIORITY||Odds Ratio (OR)|3.56|||<|0.001|TWO_SIDED|95.0|2.0|6.32|||Regression, Logistic|||||6.32|2.00|<0.001
92268462|NCT03733301|184438944|SUPERIORITY||Odds Ratio (OR)|1.3||||0.715|TWO_SIDED|95.0|0.32|5.31|||Regression, Logistic|||||5.31|0.32|0.715
92268463|NCT03733301|184438944|SUPERIORITY||Odds Ratio (OR)|3.02||||0.083|TWO_SIDED|95.0|0.86|10.56|||Regression, Logistic|||||10.56|0.86|0.083
92268464|NCT03733301|184438945|SUPERIORITY||Mean Difference (Final Values)|-8.48|STANDARD_ERROR_OF_MEAN|2.663||0.002|TWO_SIDED|95.0|-13.72|-3.24|||Mixed Models Analysis|||||-3.24|-13.72|0.002
92268465|NCT03733301|184438945|SUPERIORITY||Mean Difference (Final Values)|-14.38|STANDARD_ERROR_OF_MEAN|2.662|<|0.001|TWO_SIDED|95.0|-19.62|-9.14|||Mixed Models Analysis|||||-9.14|-19.62|<0.001
92268466|NCT03733301|184438946|SUPERIORITY||Odds Ratio (OR)|3.21||||0.204|TWO_SIDED|95.0|0.53|19.37|||Regression, Logistic|||||19.37|0.53|0.204
92268467|NCT03733301|184438946|SUPERIORITY||Odds Ratio (OR)|6.99||||0.025|TWO_SIDED|95.0|1.27|38.53|||Regression, Logistic|||||38.53|1.27|0.025
92268468|NCT03733301|184438947|SUPERIORITY||Mean Difference (Final Values)|-8.97|STANDARD_ERROR_OF_MEAN|2.591|<|0.001|TWO_SIDED|95.0|-14.07|-3.87|||Mixed Models Analysis|||||-3.87|-14.07|<0.001
92268469|NCT03733301|184438947|SUPERIORITY||Mean Difference (Final Values)|-11.69|STANDARD_ERROR_OF_MEAN|2.584|<|0.001|TWO_SIDED|95.0|-16.78|-6.61|||Mixed Models Analysis|||||-6.61|-16.78|<0.001
92268470|NCT03733301|184438948|SUPERIORITY|||||||0.721|||||||Fisher Exact|||||||0.721
92268471|NCT03733301|184438948|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92268472|NCT03733301|184438949|SUPERIORITY||Mean Difference (Final Values)|-65.16|STANDARD_ERROR_OF_MEAN|24.149||0.0073|TWO_SIDED|95.0|-112.87|-17.65|||ANOVA|||||-17.65|-112.87|0.0073
92268473|NCT03733301|184438949|SUPERIORITY||Mean Difference (Final Values)|-91.14|STANDARD_ERROR_OF_MEAN|24.038||0.0002|TWO_SIDED|95.0|-138.43|-43.85|||ANOVA|||||-43.85|-138.43|0.0002
92268474|NCT03733301|184438950|SUPERIORITY||Mean Difference (Final Values)|-16.44|STANDARD_ERROR_OF_MEAN|4.658|<|0.001|TWO_SIDED|95.0|-25.6|-7.27|||Mixed Models Analysis|||||-7.27|-25.60|< 0.001
92268475|NCT03733301|184438950|SUPERIORITY||Mean Difference (Final Values)|-24.22|STANDARD_ERROR_OF_MEAN|4.672|<|0.001|TWO_SIDED|95.0|-33.42|-15.03|||Mixed Models Analysis|||||-15.03|-33.42|< 0.001
92268476|NCT03733301|184438951|SUPERIORITY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|1.046||0.006|TWO_SIDED|95.0|-4.96|-0.84|||Mixed Models Analysis|||||-0.84|-4.96|0.006
92268477|NCT03733301|184438951|SUPERIORITY||Mean Difference (Final Values)|-5.23|STANDARD_ERROR_OF_MEAN|1.043|<|0.001|TWO_SIDED|95.0|-7.28|-3.18|||Mixed Models Analysis|||||-3.18|-7.28|< 0.001
92268478|NCT03733301|184438952|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.13||0.005|TWO_SIDED|95.0|-0.63|-0.12|||Mixed Models Analysis|||||-0.12|-0.63|0.005
92268479|NCT03733301|184438952|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.75|-0.24|||Mixed Models Analysis|||||-0.24|-0.75|< 0.001
92268480|NCT03733301|184438953|SUPERIORITY||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.425||0.083|TWO_SIDED|95.0|-1.57|0.1|||Mixed Models Analysis|||HADS Depression||0.10|-1.57|0.083
92268481|NCT03733301|184438953|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.423||0.016|TWO_SIDED|95.0|-1.85|-0.19|||Mixed Models Analysis|||HADS Depression||-0.19|-1.85|0.016
92268482|NCT03733301|184438953|SUPERIORITY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.415||0.051|TWO_SIDED|95.0|-1.63|0.0|||Mixed Models Analysis|||HADS Anxiety||0.00|-1.63|0.051
92268483|NCT03733301|184438953|SUPERIORITY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.413||0.028|TWO_SIDED|95.0|-1.72|-0.1|||Mixed Models Analysis|||HADS Anxiety||-0.10|-1.72|0.028
92316546|NCT03349060|184536859|SUPERIORITY||Difference in LS mean|-5.5|||<|0.0001|TWO_SIDED|95.0|-7.1|-3.9|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-3.9|-7.1|<0.0001
92316547|NCT03349060|184536859|SUPERIORITY||Difference in LS mean|-3.3||||0.0001|TWO_SIDED|95.0|-5.0|-1.7|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.7|-5.0|0.0001
92316548|NCT03349060|184536859|SUPERIORITY||Difference in LS mean|-6.1|||<|0.0001|TWO_SIDED|95.0|-7.8|-4.5|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-4.5|-7.8|<.0001
92316549|NCT03349060|184536859|SUPERIORITY||Difference in LS mean|-2.8||||0.0075|TWO_SIDED|95.0|-4.8|-0.7|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.7|-4.8|0.0075
92316550|NCT03349060|184536859|SUPERIORITY||Difference in LS mean|-5.3|||<|0.0001|TWO_SIDED|95.0|-7.4|-3.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-3.3|-7.4|<0.0001
92316551|NCT03349060|184536859|SUPERIORITY||Difference in LS mean|-2.8||||0.0072|TWO_SIDED|95.0|-4.8|-0.8|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.8|-4.8|0.0072
92316552|NCT03349060|184536859|SUPERIORITY||Difference in LS mean|-4.9|||<|0.0001|TWO_SIDED|95.0|-6.9|-2.9|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-2.9|-6.9|<0.0001
92316553|NCT03349060|184536860|SUPERIORITY||Difference in LS mean|-1.3||||0.275|TWO_SIDED|95.0|-3.5|1.0|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||1.0|-3.5|0.2750
92316554|NCT03349060|184536860|SUPERIORITY||Difference in LS mean|-2.5||||0.028|TWO_SIDED|95.0|-4.8|-0.3|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.3|-4.8|0.0280
92316555|NCT03349060|184536860|SUPERIORITY||Difference in LS mean|-3.5||||0.0051|TWO_SIDED|95.0|-5.9|-1.1|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.1|-5.9|0.0051
92316556|NCT03349060|184536860|SUPERIORITY||Difference in LS mean|-6.4|||<|0.0001|TWO_SIDED|95.0|-8.8|-4.0|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-4.0|-8.8|<0.0001
92316557|NCT03349060|184536860|SUPERIORITY||Difference in LS mean|-2.1||||0.1706|TWO_SIDED|95.0|-5.1|0.9|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.9|-5.1|0.1706
92192857|NCT00863798|184285065|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.102||||0.6169|TWO_SIDED|95.0|0.75|1.61|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.61|0.75|0.6169
92316558|NCT03349060|184536860|SUPERIORITY||Difference in LS mean|-4.4||||0.0048|TWO_SIDED|95.0|-7.4|-1.4|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.4|-7.4|0.0048
92316559|NCT03349060|184536860|SUPERIORITY||Difference in LS mean|-2.5||||0.0629|TWO_SIDED|95.0|-5.2|0.1|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.1|-5.2|0.0629
92316560|NCT03349060|184536860|SUPERIORITY||Difference in LS mean|-3.6||||0.01|TWO_SIDED|95.0|-6.2|-0.9|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.9|-6.2|0.0100
92316561|NCT03349060|184536861|SUPERIORITY||Difference in Percentage|6.6||||0.1238|TWO_SIDED|95.0|-0.7|13.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||13.9|-0.7|0.1238
92316562|NCT03349060|184536861|SUPERIORITY||Difference in Percentage|20.1||||0.0008|TWO_SIDED|95.0|11.0|29.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||29.2|11.0|0.0008
92192858|NCT00863798|184285066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.236||||0.3667|TWO_SIDED|95.0|0.78|1.96|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.96|0.78|0.3667
92316563|NCT03349060|184536861|SUPERIORITY||Difference in Percentage|6.8||||0.2091|TWO_SIDED|95.0|-2.8|16.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||16.4|-2.8|0.2091
92316564|NCT03349060|184536861|SUPERIORITY||Difference in Percentage|24.0||||0.0005|TWO_SIDED|95.0|12.9|35.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.0|12.9|0.0005
92316565|NCT03349060|184536861|SUPERIORITY||Difference in Percentage|9.1||||0.1161|TWO_SIDED|95.0|-0.9|19.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||19.1|-0.9|0.1161
92316566|NCT03349060|184536861|SUPERIORITY||Difference in Percentage|26.5||||0.0002|TWO_SIDED|95.0|15.3|37.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||37.7|15.3|0.0002
92316567|NCT03349060|184536861|SUPERIORITY||Difference in Percentage|8.1||||0.1837|TWO_SIDED|95.0|-2.8|19.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||19.1|-2.8|0.1837
92316568|NCT03349060|184536861|SUPERIORITY||Difference in Percentage|19.8||||0.0046|TWO_SIDED|95.0|8.1|31.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||31.6|8.1|0.0046
92316569|NCT03349060|184536862|SUPERIORITY||Difference in Percentage|3.2||||0.4795|TWO_SIDED|95.0|-10.3|16.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||16.6|-10.3|0.4795
92316570|NCT03349060|184536862|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-12.7|12.7||P-value could not be calculated since percentage of participants with events was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||12.7|-12.7|
92316571|NCT03349060|184536862|SUPERIORITY||Difference in Percentage|13.3||||0.1452|TWO_SIDED|95.0|-3.6|30.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.3|-3.6|0.1452
92316572|NCT03349060|184536862|SUPERIORITY||Difference in Percentage|9.7||||0.2232|TWO_SIDED|95.0|-6.1|25.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.4|-6.1|0.2232
92316573|NCT03349060|184536862|SUPERIORITY||Difference in Percentage|5.8||||0.5707|TWO_SIDED|95.0|-13.7|25.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.4|-13.7|0.5707
92192859|NCT00863798|184285066|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.894||||0.6509|TWO_SIDED|95.0|0.55|1.45|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.45|0.55|0.6509
92192860|NCT00863798|184285067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.182||||0.3893|TWO_SIDED|95.0|0.81|1.73|||Regression, Logistic|||Analysis would be conducted with a logistic regression model with treatment as a factor and baseline MADRS score as a covariate.||1.73|0.81|0.3893
92316574|NCT03349060|184536862|SUPERIORITY||Difference in Percentage|5.8||||0.5777|TWO_SIDED|95.0|-13.6|25.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.1|-13.6|0.5777
92316575|NCT03349060|184536862|SUPERIORITY||Difference in Percentage|19.3||||0.0744|TWO_SIDED|95.0|1.0|37.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||37.5|1.0|0.0744
92316576|NCT03349060|184536862|SUPERIORITY||Difference in Percentage|9.7||||0.2232|TWO_SIDED|95.0|-6.1|25.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.4|-6.1|0.2232
92316577|NCT03349060|184536863|SUPERIORITY||Difference in Percentage|31.6|||<|0.0001|TWO_SIDED|95.0|17.2|46.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||46.0|17.2|<0.0001
92316578|NCT03349060|184536863|SUPERIORITY||Difference in Percentage|35.7|||<|0.0001|TWO_SIDED|95.0|21.5|49.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||49.9|21.5|<0.0001
92192861|NCT00863798|184285067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.123||||0.551|TWO_SIDED|95.0|0.77|1.65|||Regression, Logistic|||Analysis would be conducted with a logistic regression model with treatment as a factor and baseline MADRS score as a covariate.||1.65|0.77|0.5510
92316579|NCT03349060|184536863|SUPERIORITY||Difference in Percentage|20.4||||0.009|TWO_SIDED|95.0|5.2|35.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.6|5.2|0.0090
92316580|NCT03349060|184536863|SUPERIORITY||Difference in Percentage|33.3|||<|0.0001|TWO_SIDED|95.0|19.0|47.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||47.7|19.0|<0.0001
92316581|NCT03349060|184536863|SUPERIORITY||Difference in Percentage|16.5||||0.0421|TWO_SIDED|95.0|0.6|32.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||32.4|0.6|0.0421
92316582|NCT03349060|184536863|SUPERIORITY||Difference in Percentage|33.8|||<|0.0001|TWO_SIDED|95.0|18.9|48.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||48.8|18.9|<0.0001
92316583|NCT03349060|184536863|SUPERIORITY||Difference in Percentage|23.5||||0.0035|TWO_SIDED|95.0|8.2|38.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.8|8.2|0.0035
92316584|NCT03349060|184536863|SUPERIORITY||Difference in Percentage|28.8||||0.0002|TWO_SIDED|95.0|13.8|43.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||43.9|13.8|0.0002
92316585|NCT03349060|184536864|SUPERIORITY||Difference in Percentage|17.1||||0.2497|TWO_SIDED|95.0|-9.1|43.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||43.2|-9.1|0.2497
92316586|NCT03349060|184536864|SUPERIORITY||Difference in Percentage|17.1||||0.2371|TWO_SIDED|95.0|-9.0|43.3|||Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||43.3|-9.0|0.2371
92316587|NCT03349060|184536864|SUPERIORITY||Difference in Percentage|28.8||||0.0697|TWO_SIDED|95.0|-0.8|58.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||58.3|-0.8|0.0697
92316588|NCT03349060|184536864|SUPERIORITY||Difference in Percentage|43.9||||0.003|TWO_SIDED|95.0|16.2|71.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||71.7|16.2|0.0030
92316589|NCT03349060|184536864|SUPERIORITY||Difference in Percentage|31.0||||0.0583|TWO_SIDED|95.0|2.0|59.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||59.9|2.0|0.0583
92316590|NCT03349060|184536864|SUPERIORITY||Difference in Percentage|41.2||||0.0085|TWO_SIDED|95.0|13.2|69.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||69.1|13.2|0.0085
92316591|NCT03349060|184536864|SUPERIORITY||Difference in Percentage|19.3||||0.1948|TWO_SIDED|95.0|-9.8|48.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||48.5|-9.8|0.1948
92316592|NCT03349060|184536864|SUPERIORITY||Difference in Percentage|30.6||||0.0296|TWO_SIDED|95.0|2.8|58.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||58.5|2.8|0.0296
92316593|NCT03349060|184536865|SUPERIORITY||Difference in LS mean|-0.5||||0.1718|TWO_SIDED|95.0|-1.1|0.2|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.2|-1.1|0.1718
92316594|NCT03349060|184536865|SUPERIORITY||Difference in LS mean|-1.1||||0.0018|TWO_SIDED|95.0|-1.7|-0.4|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.4|-1.7|0.0018
92192862|NCT00863798|184285068|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.442||||0.0536|TWO_SIDED|95.0|0.99|2.09|||Regression, Logistic|||Analysis would be conducted with a logistic regression model with treatment as a factor.||2.09|0.99|0.0536
92316595|NCT03349060|184536865|SUPERIORITY||Difference in LS mean|-1.3||||0.0005|TWO_SIDED|95.0|-2.0|-0.6|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-2.0|0.0005
92316596|NCT03349060|184536865|SUPERIORITY||Difference in LS mean|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.1|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.1|-2.5|<0.0001
92316597|NCT03349060|184536865|SUPERIORITY||Difference in LS mean|-0.7||||0.0476|TWO_SIDED|95.0|-1.5|0.0|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.0|-1.5|0.0476
92316598|NCT03349060|184536865|SUPERIORITY||Difference in LS mean|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.4|-1.0|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.0|-2.4|<0.0001
92316599|NCT03349060|184536865|SUPERIORITY||Difference in LS mean|-1.1||||0.0028|TWO_SIDED|95.0|-1.9|-0.4|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.4|-1.9|0.0028
92316600|NCT03349060|184536865|SUPERIORITY||Difference in LS mean|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.3|-0.9|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.9|-2.3|<0.0001
92316601|NCT03349060|184536866|SUPERIORITY||Difference in LS mean|-0.2||||0.6134|TWO_SIDED|95.0|-0.9|0.5|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.5|-0.9|0.6134
92316602|NCT03349060|184536866|SUPERIORITY||Difference in LS mean|-0.7||||0.0422|TWO_SIDED|95.0|-1.4|0.0|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.0|-1.4|0.0422
92316603|NCT03349060|184536866|SUPERIORITY||Difference in LS mean|-0.5||||0.205|TWO_SIDED|95.0|-1.2|0.3|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.3|-1.2|0.2050
92316604|NCT03349060|184536866|SUPERIORITY||Difference in LS mean|-1.2||||0.0012|TWO_SIDED|95.0|-1.9|-0.5|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.5|-1.9|0.0012
92316605|NCT03349060|184536866|SUPERIORITY||Difference in LS mean|-0.4||||0.2657|TWO_SIDED|95.0|-1.2|0.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.3|-1.2|0.2657
92192863|NCT00863798|184285068|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.085||||0.6679|TWO_SIDED|95.0|0.75|1.57|||Regression, Logistic|||Analysis would be conducted with a logistic regression model with treatment as a factor.||1.57|0.75|0.6679
92316606|NCT03349060|184536866|SUPERIORITY||Difference in LS mean|-1.2||||0.0019|TWO_SIDED|95.0|-2.0|-0.5|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.5|-2.0|0.0019
92316607|NCT03349060|184536866|SUPERIORITY||Difference in LS mean|-0.5||||0.1675|TWO_SIDED|95.0|-1.3|0.2|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.2|-1.3|0.1675
92192864|NCT00863798|184285070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46||||0.033|TWO_SIDED|95.0|0.12|2.79|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for total score."||2.79|0.12|0.033
92316608|NCT03349060|184536866|SUPERIORITY||Difference in LS mean|-1.0||||0.0085|TWO_SIDED|95.0|-1.8|-0.3|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.3|-1.8|0.0085
92316609|NCT03349060|184536867|SUPERIORITY||Difference in Percentage|8.8||||0.5539|TWO_SIDED|95.0|-19.6|37.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||37.2|-19.6|0.5539
92316610|NCT03349060|184536867|SUPERIORITY||Difference in Percentage|27.9||||0.0561|TWO_SIDED|95.0|0.8|55.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.1|0.8|0.0561
92316611|NCT03349060|184536867|SUPERIORITY||Difference in Percentage|-4.9||||0.746|TWO_SIDED|95.0|-33.4|23.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.7|-33.4|0.7460
92192865|NCT00863798|184285070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.15||||0.096|TWO_SIDED|95.0|-0.2|2.49|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for total score."||2.49|-0.20|0.096
92192866|NCT00863798|184285070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.043|TWO_SIDED|95.0|0.02|0.95|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for work/studies component score."||0.95|0.02|0.043
92192867|NCT00863798|184285070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53||||0.027|TWO_SIDED|95.0|0.06|1.0|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for work/studies component score."||1.00|0.06|0.027
92268484|NCT03733301|184438954|SUPERIORITY||Mean Difference (Final Values)|-1.92|STANDARD_ERROR_OF_MEAN|0.832||0.022|TWO_SIDED|95.0|-3.56|-0.28|||Mixed Models Analysis|||||-0.28|-3.56|0.022
92268485|NCT03733301|184438954|SUPERIORITY||Mean Difference (Final Values)|-3.31|STANDARD_ERROR_OF_MEAN|0.829|<|0.001|TWO_SIDED|95.0|-4.94|-1.68|||Mixed Models Analysis|||||-1.68|-4.94|< 0.001
92268486|NCT03733301|184438955|SUPERIORITY||Mean Difference (Final Values)|2.01|STANDARD_ERROR_OF_MEAN|2.569||0.435|TWO_SIDED|95.0|-3.06|7.08|||Mixed Models Analysis|||Absenteeism||7.08|-3.06|0.435
92268487|NCT03733301|184438955|SUPERIORITY||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|2.569||0.706|TWO_SIDED|95.0|-4.1|6.04|||Mixed Models Analysis|||Absenteeism||6.04|-4.10|0.706
92268488|NCT03733301|184438955|SUPERIORITY|Presenteeism|Mean Difference (Final Values)|-8.12|STANDARD_ERROR_OF_MEAN|4.384||0.066|TWO_SIDED|95.0|-16.78|0.54|||Mixed Models Analysis|||||0.54|-16.78|0.066
92268489|NCT03733301|184438955|SUPERIORITY||Mean Difference (Final Values)|-10.73|STANDARD_ERROR_OF_MEAN|4.336||0.014|TWO_SIDED|95.0|-19.3|-2.17|||Mixed Models Analysis|||Presenteeism||-2.17|-19.30|0.014
92268490|NCT03733301|184438955|SUPERIORITY|Work Productivity Loss|Mean Difference (Final Values)|-7.93|STANDARD_ERROR_OF_MEAN|4.511||0.081|TWO_SIDED|95.0|-16.84|0.99|||Mixed Models Analysis|||||0.99|-16.84|0.081
92268491|NCT03733301|184438955|SUPERIORITY||Mean Difference (Final Values)|-10.71|STANDARD_ERROR_OF_MEAN|4.473||0.018|TWO_SIDED|95.0|-19.55|1.88|||Mixed Models Analysis|||Work productivity Loss||1.88|-19.55|0.018
92268492|NCT03733301|184438955|SUPERIORITY||Mean Difference (Final Values)|-9.8|STANDARD_ERROR_OF_MEAN|3.511||0.006|TWO_SIDED|95.0|-16.71|-2.89|||Mixed Models Analysis|||Activity Impairment||-2.89|-16.71|0.006
92268493|NCT03733301|184438955|SUPERIORITY||Mean Difference (Final Values)|-10.5|STANDARD_ERROR_OF_MEAN|3.5||0.003|TWO_SIDED|95.0|-17.39|-3.61|||Mixed Models Analysis|||Activity Impairment||-3.61|-17.39|0.003
92268494|NCT03733301|184438956|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.017||0.176|TWO_SIDED|95.0|-0.01|0.06|||Mixed Models Analysis|||Health State Index US||0.06|-0.01|0.176
92268495|NCT03733301|184438956|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.017||0.004|TWO_SIDED|95.0|0.02|0.09|||Mixed Models Analysis|||Health State Index US||0.09|0.02|0.004
92268496|NCT03733301|184438956|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.024||0.176|TWO_SIDED|95.0|-0.01|0.08|||Mixed Models Analysis|||Health State Index UK||0.08|-0.01|0.176
92268497|NCT03733301|184438956|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.024||0.003|TWO_SIDED|95.0|0.02|0.12|||Mixed Models Analysis|||Health State Index UK||0.12|0.02|0.003
92268498|NCT03733301|184438957|SUPERIORITY||Mean Difference (Final Values)|4.12|STANDARD_ERROR_OF_MEAN|2.593||0.113|TWO_SIDED|95.0|-0.98|9.23|||Mixed Models Analysis|||||9.23|-0.98|0.113
92268499|NCT03733301|184438957|SUPERIORITY||Mean Difference (Final Values)|6.06|STANDARD_ERROR_OF_MEAN|2.592||0.02|TWO_SIDED|95.0|0.96|11.16|||Mixed Models Analysis|||||11.16|0.96|0.020
92268500|NCT03733301|184438958|SUPERIORITY||Mean Difference (Final Values)|10.04|STANDARD_ERROR_OF_MEAN|4.36||0.022|TWO_SIDED|95.0|1.46|18.36|||ANCOVA|||||18.36|1.46|0.022
92268501|NCT03733301|184438958|SUPERIORITY||Mean Difference (Final Values)|17.33|STANDARD_ERROR_OF_MEAN|4.34|<|0.001|TWO_SIDED|95.0|8.79|25.88|||ANCOVA|||||25.88|8.79|< 0.001
92268502|NCT03733301|184438959|SUPERIORITY||Odds Ratio (OR)|3.83||||0.006|TWO_SIDED|95.0|1.46|10.03|||Regression, Logistic|||||10.03|1.46|0.006
92268503|NCT03733301|184438959|SUPERIORITY||Odds Ratio (OR)|4.58||||0.002|TWO_SIDED|95.0|1.77|11.87|||Regression, Logistic|||||11.87|1.77|0.002
92268504|NCT01275170|184438971|OTHER|Geometric mean ratio (GMR) \[Renal Impairment/Healthy Control\]|GMR|1.63|||||TWO_SIDED|90.0|1.12|2.39||||||||2.39|1.12|
92268505|NCT01275170|184438971|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.19|||||TWO_SIDED|90.0|1.51|3.18||||||||3.18|1.51|
92268506|NCT01275170|184438971|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|4.87|||||TWO_SIDED|90.0|3.37|7.04||||||||7.04|3.37|
92268507|NCT01275170|184438971|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|9.32|||||TWO_SIDED|90.0|6.45|13.46||||||||13.46|6.45|
92268508|NCT01275170|184438971|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.76|||||TWO_SIDED|90.0|1.2|2.58||||||||2.58|1.20|
92268509|NCT01275170|184438972|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.1|||||TWO_SIDED|90.0|0.64|1.88||||||||1.88|0.64|
92268510|NCT01275170|184438972|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.04|||||TWO_SIDED|90.0|0.62|1.77||||||||1.77|0.62|
92268511|NCT01275170|184438972|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.3|||||TWO_SIDED|90.0|0.77|2.2||||||||2.20|0.77|
92268512|NCT01275170|184438972|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.34|||||TWO_SIDED|90.0|1.39|3.96||||||||3.96|1.39|
92268513|NCT01275170|184438972|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.85|||||TWO_SIDED|90.0|0.5|1.44||||||||1.44|0.50|
92268514|NCT01275170|184438973|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.61|||||TWO_SIDED|90.0|0.42|0.9||||||||0.90|0.42|
92268515|NCT01275170|184438973|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.46|||||TWO_SIDED|90.0|0.31|0.66||||||||0.66|0.31|
92268516|NCT01275170|184438973|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.21|||||TWO_SIDED|90.0|0.14|0.3||||||||0.30|0.14|
92268517|NCT01275170|184438973|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.11|||||TWO_SIDED|90.0|0.07|0.16||||||||0.16|0.07|
92268518|NCT01275170|184438973|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.57|||||TWO_SIDED|90.0|0.39|0.84||||||||0.84|0.39|
92268519|NCT01275170|184438974|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.99|||||TWO_SIDED|90.0|0.82|1.21||||||||1.21|0.82|
92192868|NCT00863798|184285070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.045|TWO_SIDED|95.0|0.01|0.98|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for social life and leisure activities component score."||0.98|0.01|0.045
92192869|NCT00863798|184285070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.277|TWO_SIDED|95.0|-0.22|0.76|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for social life and leisure activities component score."||0.76|-0.22|0.277
92192870|NCT00863798|184285070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.056|TWO_SIDED|95.0|-0.01|0.91|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for family life/home responsibilities component score."||0.91|-0.01|0.056
92192871|NCT00863798|184285070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.355|TWO_SIDED|95.0|-0.24|0.68|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for family life/home responsibilities component score."||0.68|-0.24|0.355
92192872|NCT00863798|184285071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54||||0.002|TWO_SIDED|95.0|-2.53|-0.56|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||-0.56|-2.53|0.002
92192873|NCT00863798|184285071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77||||0.129|TWO_SIDED|95.0|-1.75|0.22|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.22|-1.75|0.129
92192874|NCT00863798|184285072|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.3097|TWO_SIDED|95.0|0.52|1.23|||Regression, Linear|||Analysis was conducted using a logistic regression model with treatment and gender as factors and baseline sexual dysfunction status as a covariate.||1.23|0.52|0.3097
92192875|NCT00863798|184285072|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.272||||0.2794|TWO_SIDED|95.0|0.82|1.97|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment and gender as factors and baseline sexual dysfunction status as a covariate.||1.97|0.82|0.2794
92192876|NCT00863798|184285074|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 8.||||0.805
92192877|NCT00863798|184285074|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 9.||||0.805
92192878|NCT00863798|184285074|SUPERIORITY_OR_OTHER|||||||0.978|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 10.||||0.978
92192879|NCT00863798|184285074|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||Regression, Logistic|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 8.||||0.805
92192880|NCT00863798|184285074|SUPERIORITY_OR_OTHER|||||||0.154|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 9.||||0.154
92192881|NCT00863798|184285074|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 10.||||0.805
92192882|NCT01917006|184285121|SUPERIORITY||Least square mean difference|0.11||||0.393||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from analysis of covariance (ANCOVA) Model with treatment as fixed effect and baseline geometric mean IELT as covariate.|ANCOVA|||||||0.393
92192883|NCT01917006|184285121|SUPERIORITY||Least Square Mean Difference|0.25||||0.263||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||||||0.263
92192884|NCT01917006|184285121|SUPERIORITY||Least square mean difference|-0.39||||0.861||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||||||0.861
92192885|NCT01917006|184285121|SUPERIORITY||Least square mean difference|-0.14||||0.647||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||||||0.647
92192886|NCT01917006|184285121|SUPERIORITY||Least square mean difference|-0.13||||0.645||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||||||0.645
92192887|NCT01917006|184285121|SUPERIORITY||Least square mean difference|0.15||||0.343||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||||||0.343
92192888|NCT01917006|184285122|SUPERIORITY||Least square mean difference|55.33||||0.184||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 versus (vs) Placebo at Week 2||||0.184
92268520|NCT01275170|184438974|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.01|||||TWO_SIDED|90.0|0.84|1.22||||||||1.22|0.84|
92268521|NCT01275170|184438974|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.9|||||TWO_SIDED|90.0|0.74|1.08||||||||1.08|0.74|
92268522|NCT01275170|184438974|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.96|||||TWO_SIDED|90.0|0.79|1.16||||||||1.16|0.79|
92268523|NCT01275170|184438974|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|3.28|||||TWO_SIDED|90.0|2.7|4.0||||||||4.00|2.70|
92268524|NCT01275170|184438977|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.41|||||TWO_SIDED|90.0|1.07|1.84||||||||1.84|1.07|
92268525|NCT01275170|184438977|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.53|||||TWO_SIDED|90.0|1.17|1.99||||||||1.99|1.17|
92192889|NCT01917006|184285122|SUPERIORITY||Least square mean difference|170.21||||0.002||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 2||||0.002
92192890|NCT01917006|184285122|SUPERIORITY||Least square mean difference|12.73||||0.404||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 2||||0.404
92192891|NCT01917006|184285122|SUPERIORITY||Least square mean difference|24.23||||0.328||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 2||||0.328
92192892|NCT01917006|184285122|SUPERIORITY||Least square mean difference|18.48||||0.362||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 2||||0.362
92192893|NCT01917006|184285122|SUPERIORITY||Least square mean difference|45.42||||0.203||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 2||||0.203
92192894|NCT01917006|184285122|SUPERIORITY||Least square mean difference|33.05||||0.322||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 4||||0.322
92192895|NCT01917006|184285122|SUPERIORITY||Least square mean difference|148.86||||0.015||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 4||||0.015
92192896|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-6.2||||0.541||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 4||||0.541
92316612|NCT03349060|184536867|SUPERIORITY||Difference in Percentage|0.0||||1|TWO_SIDED|95.0|-28.3|28.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||28.3|-28.3|1.0000
92192897|NCT01917006|184285122|SUPERIORITY||Least square mean difference|6.47||||0.459||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 4||||0.459
92192898|NCT01917006|184285122|SUPERIORITY||Least square mean difference|1.32||||0.491||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 4||||0.491
92192899|NCT01917006|184285122|SUPERIORITY||Least square mean difference|36.8||||0.281||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 4||||0.281
92192900|NCT01917006|184285122|SUPERIORITY||Least square mean difference|14.12||||0.424||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 6||||0.424
92192901|NCT01917006|184285122|SUPERIORITY||Least square mean difference|136.96||||0.026||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 6||||0.026
92192902|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-27.62||||0.67||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 6||||0.670
92192903|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-10.06||||0.561||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 6||||0.561
92192904|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-16.58||||0.604||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 6||||0.604
92192905|NCT01917006|184285122|SUPERIORITY||Least square mean difference|17.76||||0.394||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 6||||0.394
92268526|NCT01275170|184438977|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.51|||||TWO_SIDED|90.0|1.93|3.26||||||||3.26|1.93|
92268527|NCT01275170|184438977|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|3.1|||||TWO_SIDED|90.0|2.39|4.03||||||||4.03|2.39|
92192906|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-5.94||||0.532||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 8||||0.532
92192907|NCT01917006|184285122|SUPERIORITY||Least square mean difference|111.27||||0.058||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 8||||0.058
92192908|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-48.65||||0.778||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 8||||0.778
92192909|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-27.74||||0.662||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 8||||0.662
92192910|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-35.72||||0.712||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 8||||0.712
92192911|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-0.18||||0.501||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 8||||0.501
92192912|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-12.14||||0.565||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 10||||0.565
92316613|NCT03349060|184536867|SUPERIORITY||Difference in Percentage|20.8||||0.1474|TWO_SIDED|95.0|-4.5|46.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||46.2|-4.5|0.1474
92192913|NCT01917006|184285122|SUPERIORITY||Least square mean difference|102.44||||0.071||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 10||||0.071
92192914|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-52.81||||0.799||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 10||||0.799
92192915|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-30.81||||0.681||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 10||||0.681
92192916|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-40.68||||0.741||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 10||||0.741
92192917|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-4.33||||0.526||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 10||||0.526
92192918|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-14.76||||0.584||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 12||||0.584
92192919|NCT01917006|184285122|SUPERIORITY||Least square mean difference|84.09||||0.101||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 12||||0.101
92192920|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-55.14||||0.823||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 12||||0.823
92192921|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-40.18||||0.741||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 12||||0.741
92192922|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-41.31||||0.756||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 12||||0.756
92316614|NCT03349060|184536867|SUPERIORITY||Difference in Percentage|37.3||||0.0123|TWO_SIDED|95.0|12.1|62.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||62.5|12.1|0.0123
92316615|NCT03349060|184536867|SUPERIORITY||Difference in Percentage|-0.4||||0.976|TWO_SIDED|95.0|-28.5|27.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||27.6|-28.5|0.9760
92316616|NCT03349060|184536867|SUPERIORITY||Difference in Percentage|7.8||||0.5965|TWO_SIDED|95.0|-20.4|36.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||36.1|-20.4|0.5965
92316617|NCT03349060|184536868|SUPERIORITY||Difference in Percentage|24.0||||0.2278|TWO_SIDED|95.0|-9.9|58.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||58.0|-9.9|0.2278
92316618|NCT03349060|184536868|SUPERIORITY||Difference in Percentage|35.2||||0.0996|TWO_SIDED|95.0|-2.0|72.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||72.4|-2.0|0.0996
92316619|NCT03349060|184536868|SUPERIORITY||Difference in Percentage|14.5||||0.4449|TWO_SIDED|95.0|-21.6|50.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||50.6|-21.6|0.4449
92316620|NCT03349060|184536868|SUPERIORITY||Difference in Percentage|16.9||||0.4139|TWO_SIDED|95.0|-21.6|55.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.5|-21.6|0.4139
92316621|NCT03349060|184536868|SUPERIORITY||Difference in Percentage|-6.7||||0.729|TWO_SIDED|95.0|-40.7|27.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||27.4|-40.7|0.7290
92316622|NCT03349060|184536868|SUPERIORITY||Difference in Percentage|8.7||||0.6585|TWO_SIDED|95.0|-27.3|44.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||44.6|-27.3|0.6585
92316623|NCT03349060|184536868|SUPERIORITY||Difference in Percentage|18.2||||0.3638|TWO_SIDED|95.0|-18.7|55.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.1|-18.7|0.3638
92316624|NCT03349060|184536868|SUPERIORITY||Difference in Percentage|40.5||||0.055|TWO_SIDED|95.0|2.4|78.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||78.5|2.4|0.0550
92316625|NCT03349060|184536869|SUPERIORITY||Difference in Percentage|-18.8||||0.4036|TWO_SIDED|95.0|-58.4|20.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||20.9|-58.4|0.4036
92316626|NCT03349060|184536869|SUPERIORITY||Difference in Percentage|-35.3||||0.158|TWO_SIDED|95.0|-75.9|5.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.3|-75.9|0.1580
92316627|NCT03349060|184536869|SUPERIORITY||Difference in Percentage|-14.2||||0.514|TWO_SIDED|95.0|-53.5|25.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.1|-53.5|0.5140
92316628|NCT03349060|184536869|SUPERIORITY||Difference in Percentage|-19.8||||0.4149|TWO_SIDED|95.0|-63.3|23.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.7|-63.3|0.4149
92316629|NCT03349060|184536869|SUPERIORITY||Difference in Percentage|-18.8||||0.4036|TWO_SIDED|95.0|-58.4|20.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||20.9|-58.4|0.4036
92316630|NCT03349060|184536869|SUPERIORITY||Difference in Percentage|-30.7||||0.2092|TWO_SIDED|95.0|-70.9|9.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.6|-70.9|0.2092
92192923|NCT01917006|184285122|SUPERIORITY||Least square mean difference|-2.57||||0.517||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 12||||0.517
92192924|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.59||||0.079||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 2||||0.079
92192925|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.77||||0.025||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 2||||0.025
92192926|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.07||||0.417||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 2||||0.417
92192927|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.16||||0.33||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 2||||0.330
92192928|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.3||||0.199||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 2||||0.199
92192929|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.45||||0.113||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 2||||0.113
92192930|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.5||||0.127||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 4||||0.127
92192931|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.56||||0.087||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 4||||0.087
92192932|NCT01917006|184285123|SUPERIORITY||Least square mean difference|-0.04||||0.543||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 4||||0.543
92192933|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.12||||0.377||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 4||||0.377
92192934|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.17||||0.321||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 4||||0.321
92192935|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.4||||0.149||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 4||||0.149
92192936|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.35||||0.215||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 6||||0.215
92192937|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.47||||0.126||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 6||||0.126
92192938|NCT01917006|184285123|SUPERIORITY||Least square mean difference|-0.28||||0.774||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 6||||0.774
92268528|NCT01275170|184438977|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.99|||||TWO_SIDED|90.0|0.76|1.29||||||||1.29|0.76|
92268529|NCT01275170|184438978|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.15|||||TWO_SIDED|90.0|0.65|2.06||||||||2.06|0.65|
92268530|NCT01275170|184438978|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.07|||||TWO_SIDED|90.0|0.61|1.89||||||||1.89|0.61|
92268531|NCT01275170|184438978|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.32|||||TWO_SIDED|90.0|0.75|2.32||||||||2.32|0.75|
92268532|NCT01275170|184438978|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.46|||||TWO_SIDED|90.0|1.4|4.33||||||||4.33|1.40|
92268533|NCT01275170|184438978|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.86|||||TWO_SIDED|90.0|0.49|1.51||||||||1.51|0.49|
92268534|NCT01275170|184438979|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.71|||||TWO_SIDED|90.0|0.54|0.93||||||||0.93|0.54|
92268535|NCT01275170|184438979|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.65|||||TWO_SIDED|90.0|0.5|0.85||||||||0.85|0.50|
92268536|NCT01275170|184438979|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.4|||||TWO_SIDED|90.0|0.31|0.52||||||||0.52|0.31|
92268537|NCT01275170|184438979|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.32|||||TWO_SIDED|90.0|0.25|0.42||||||||0.42|0.25|
92268538|NCT01275170|184438979|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.01|||||TWO_SIDED|90.0|0.78|1.31||||||||1.31|0.78|
92268539|NCT01275170|184438980|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.81|||||TWO_SIDED|90.0|0.61|1.08||||||||1.08|0.61|
92192939|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.01||||0.495||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 6||||0.495
92192940|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.0||||0.495||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 6||||0.495
92192941|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.23||||0.274||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 6||||0.274
92192942|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.22||||0.308||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 8||||0.308
92192943|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.34||||0.205||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 8||||0.205
92192944|NCT01917006|184285123|SUPERIORITY||Least square mean difference|-0.39||||0.849||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 8||||0.849
92192945|NCT01917006|184285123|SUPERIORITY||Least square mean difference|-0.07||||0.571||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 8||||0.571
92316631|NCT03349060|184536869|SUPERIORITY||Difference in Percentage|11.9||||0.5982|TWO_SIDED|95.0|-29.1|53.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||53.0|-29.1|0.5982
92192946|NCT01917006|184285123|SUPERIORITY||Least square mean difference|-0.09||||0.592||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 8||||0.592
92192947|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.16||||0.34||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 8||||0.340
92192948|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.16||||0.36||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 10||||0.360
92192949|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.35||||0.192||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 10||||0.192
92192950|NCT01917006|184285123|SUPERIORITY||Least square mean difference|-0.37||||0.843||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 10||||0.843
92192951|NCT01917006|184285123|SUPERIORITY||Least square mean difference|-0.07||||0.572||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 10||||0.572
92316632|NCT03349060|184536869|SUPERIORITY||Difference in Percentage|4.2||||0.8647|TWO_SIDED|95.0|-36.3|44.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||44.7|-36.3|0.8647
92192952|NCT01917006|184285123|SUPERIORITY||Least square mean difference|-0.12||||0.628||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 10||||0.628
92192953|NCT01917006|184285123|SUPERIORITY||Least square mean difference|0.12||||0.38||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 10||||0.380
92192954|NCT02509312|184285141|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
92192955|NCT02509312|184285142|SUPERIORITY|||||||0.257|||||||Chi-squared|||||||.257
92192956|NCT02509312|184285143|SUPERIORITY|||||||0.085|||||||t-test, 2 sided|||||||0.085
92192957|NCT02509312|184285144|SUPERIORITY|||||||0.164|||||||Wilcoxon (Mann-Whitney)|||||||0.164
92192958|NCT02509312|184285145|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
92192959|NCT02509312|184285146|SUPERIORITY||Risk Difference (RD)|-0.27||||0.0367|TWO_SIDED|95.0|-0.52|-0.03|||Chi-squared|||||-0.03|-0.52|0.0367
92192960|NCT02509312|184285147|SUPERIORITY|||||||0.0231|||||||Wilcoxon (Mann-Whitney)|||||||0.0231
92192961|NCT02509312|184285148|SUPERIORITY|||||||0.467|||||||Wilcoxon (Mann-Whitney)|||||||0.467
92192962|NCT02509312|184285149|SUPERIORITY|||||||0.273|||||||Wilcoxon (Mann-Whitney)|||||||0.273
92316633|NCT03349060|184536870|SUPERIORITY||Difference in Percentage|-78.6||||0.0546|TWO_SIDED|95.0|-117.5|-39.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||-39.6|-117.5|0.0546
92192963|NCT02509312|184285150|SUPERIORITY|||||||0.0162||||||p-value for 12 hours post-op between-group comparison.|t-test, 2 sided|||||||0.0162
92192964|NCT02509312|184285152|SUPERIORITY|||||||0.048||||||p-value for 6 hours post-op between-group comparison.|Wilcoxon (Mann-Whitney)|||||||0.048
92192965|NCT00496626|184285190|SUPERIORITY_OR_OTHER||GMT ratio|101.6|||<=|0.05|TWO_SIDED|95.0|88.1|117.2||The ANCOVA models showed the lower bounds of two-sided 95% CI on the GMT ratio \[GARDASIL™/placebo\] were greater than 1 for each HPV type, so the null hypothesis was rejected. The CI reported is for HPV18, the type with the smallest CI lower bound.|ANCOVA||Superiority of GARDASIL™ to placebo was claimed if, for each of the four HPV types, the lower bound of the two-sided 95% CI on the GMT ratio \[GARDASIL™/placebo\] being \>1, or equivalently, the two-sided p-value \<0.05.|An Analysis of Covariance (ANCOVA) model was used for each HPV type, based on the pooled data from all age groups and genders. The natural-log-transformed titer was the response variable, and vaccination group, gender and age group were covariates. The null hypothesis was that the GMT ratio (Gardasil/Placebo) was equal to 1.||117.2|88.1|<=0.05
92192966|NCT00496626|184285191|SUPERIORITY_OR_OTHER||Seroconversion Rate|96.65|||<=|0.05||95.0|93.74|98.46||The lower bound of the 95% CI for the seroconversion rate was greater than 90% for each type so the null hypothesis was rejected. The CI reported is for HPV6, the type with the smallest lower bound.|Exact Binomial CI|||The null hypothesis was that the seroconversion rate in the Gardasil® Group was less than 90% for each HPV type.||98.46|93.74|<=0.05
92192967|NCT01670188|184285270|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92192968|NCT00241969|184285273|SUPERIORITY|Some data were missing for energy intake (n=3 baseline, n=13 post-treatment), thus the PROC MIXED procedure (SAS) with maximum likelihood estimation was used to analyze this outcome with time as a repeated measure factor.|maximum likelihood estimation|431.0|||<|0.001|TWO_SIDED|95.0|282.0|581.0|||ANCOVA||||All analyses were performed on the full intention-to-treat sample (defined a priori as attending the first treatment session). Some data were missing for energy intake (N = 3 baseline; 13 post treatment), and thus the PROC MIXED procedure (SAS) with maximum likelihood estimation was used to analyze this outcome with time as a repeated measures factor, no group main effect at baseline for energy intake, and sex, baseline Pseudomonas aeruginosa status, and treatment modality as covariates in the statistical model. This model is similar to an analysis of covariance model with baseline energy intake included as an additional covariate, but the PROC MIXED model employs maximum likelihood estimation and consequently allows for data to be missing at random. The test of the time by group interaction within this PROC MIXED model indicated whether the behavioral and nutrition treatment was efficacious relative to our control treatment.|581|282|<0.001
92192969|NCT00241969|184285274|SUPERIORITY|All analyses were performed on the full intention-to-treat sample (defined a priori as attending the first treatment session). Analyses of WAZ change scores were carried out within the PROC GLM procedure (SAS Institute Inc.) using an analysis of covariance model with sex, Pseudomonas aeruginosa status at baseline, treatment modality, and baseline value of the corresponding outcome variable as covariates.|maximum likelihood|0.09||||0.25|TWO_SIDED|95.0|-0.06|0.24|||ANCOVA||||All analyses were performed on the full intention-to-treat sample (defined a priori as attending the first treatment session). Analyses of WAZ change scores were carried out within the PROC GLM procedure (SAS Institute Inc.) using an analysis of covariance model with sex, Pseudomonas aeruginosa status at baseline, treatment modality, and baseline value of the corresponding outcome variable as covariates. Group main effects on these change scores in the presence of covariates were examined to determine the efficacy of the behavioral and nutrition treatment.|0.24|-0.06|0.25
92192970|NCT00241969|184285275|SUPERIORITY|All analyses were performed on the full intention-to-treat sample (defined a priori as attending the first treatment session). Analyses of HAZ change scores were carried out within the PROC GLM procedure (SAS Institute Inc.) using an analysis of covariance model with sex, Pseudomonas aeruginosa status at baseline, treatment modality, and baseline value of the corresponding outcome variable as covariates.|maximum likelihood|0.14||||0.049|TWO_SIDED|95.0|0.001|0.27|||ANCOVA||||All analyses were performed on the full intention-to-treat sample (defined a priori as attending the first treatment session). Analyses of WAZ and HAZ change scores were carried out within the PROC GLM procedure (SAS Institute Inc.) using an analysis of covariance model with sex, Pseudomonas aeruginosa status at baseline, treatment modality, and baseline value of the corresponding outcome variable as covariates. Group main effects on these change scores in the presence of covariates were examined to determine the efficacy of the behavioral and nutrition treatment.|0.27|0.001|0.049
92192971|NCT00413634|184285276|SUPERIORITY_OR_OTHER_LEGACY|||||||0.092||95.0|||||ANOVA|||||||0.092
92192972|NCT00413634|184285279|SUPERIORITY_OR_OTHER_LEGACY|||||||0.857||95.0|||||ANOVA|||||||0.857
92192973|NCT00413634|184285280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||95.0|||||ANOVA|||||||0.013
92192974|NCT00413634|184285281|SUPERIORITY_OR_OTHER_LEGACY|||||||0.378||95.0|||||ANOVA|||||||0.378
92192975|NCT00413634|184285282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||95.0|||||ANOVA|||||||0.013
92192976|NCT00413634|184285283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035||95.0|||||ANOVA|||||||0.035
92192977|NCT00413634|184285284|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||95.0|||||ANOVA|||||||0.023
92192978|NCT00413634|184285285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.557||95.0|||||ANOVA|||||||0.557
92192979|NCT00413634|184285286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027||95.0|||||ANOVA|||||||0.027
92192980|NCT00413634|184285287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0|||||ANOVA|||||||0.007
92192981|NCT00413634|184285288|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027||95.0|||||ANOVA|||||||0.027
92192982|NCT00413634|184285289|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011||95.0|||||ANOVA|||||||0.011
92192983|NCT00874497|184285329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0824||||0.1761|TWO_SIDED|95.0|-0.0378|0.2025||P-values are based on Analysis of Covariance (ANCOVA) model of the change FEV1 from baseline to the specified study week using treatment group and current smoking status as fixed effects and the baseline FEV1 value as a covariate.|ANCOVA|||Statistical analysis at Week 104.||0.2025|-0.0378|0.1761
92192984|NCT00874497|184285330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.904||||0.139|TWO_SIDED|95.0|-6.77|0.97|||ANCOVA|||Statistical analysis of Right Upper region of the lung at Week 104.||0.97|-6.77|0.139
92192985|NCT00874497|184285330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.46|TWO_SIDED|95.0|-4.46|2.04|||ANCOVA|||Statistical analysis of Right Middle region of the Lung at Week 104.||2.04|-4.46|0.460
92192986|NCT00874497|184285330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.176||||0.457|TWO_SIDED|95.0|-7.98|3.63|||ANCOVA|||Statistical analysis of Right Lower region of the Lung at Week 104.||3.63|-7.98|0.457
92192987|NCT00874497|184285330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.167||||0.362|TWO_SIDED|95.0|-6.88|2.54|||ANCOVA|||Statistical analysis of Left Upper region of the Lung at Week 104.||2.54|-6.88|0.362
92192988|NCT00874497|184285330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.225||||0.67|TWO_SIDED|95.0|-6.94|4.48|||ANCOVA|||Statistical analysis of Left Lower region of the Lung at Week 104.||4.48|-6.94|0.670
92192989|NCT00874497|184285330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.218||||0.244|TWO_SIDED|95.0|-5.98|1.55|||ANCOVA|||Statistical analysis of Right Whole region of the Lung at Week 104.||1.55|-5.98|0.244
92192990|NCT00874497|184285330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.374||||0.574|TWO_SIDED|95.0|-6.23|3.48|||ANCOVA|||Statistical analysis of Left Whole region of the Lung at Week 104.||3.48|-6.23|0.574
92192991|NCT00874497|184285332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97||||0.436|TWO_SIDED|95.0|-1.53|3.47|||ANCOVA|||Statistical analysis of Right Upper region of the Lung at Week 104.||3.47|-1.53|0.436
92192992|NCT00874497|184285332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.31||||0.067|TWO_SIDED|95.0|-0.17|4.79|||ANCOVA|||Statistical analysis of Right Middle region of the Lung at Week 104.||4.79|-0.17|0.067
92192993|NCT00874497|184285332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97||||0.163|TWO_SIDED|95.0|-0.83|4.77|||ANCOVA|||Statistical analysis of Right Lower region of the Lung at Week 104.||4.77|-0.83|0.163
92192994|NCT00874497|184285332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.27||||0.102|TWO_SIDED|95.0|-0.48|5.02|||ANCOVA|||Statistical analysis of Left Upper region of the Lung at Week 104.||5.02|-0.48|0.102
92192995|NCT00874497|184285332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.11||||0.162|TWO_SIDED|95.0|-0.89|5.12|||ANCOVA|||Statistical analysis of Left Lower region of the Lung at Week 104.||5.12|-0.89|0.162
92192996|NCT00874497|184285332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.78||||0.16|TWO_SIDED|95.0|-0.73|4.29|||ANCOVA|||Statistical analysis of Right Whole region of the Lung at Week 104.||4.29|-0.73|0.160
92192997|NCT00874497|184285332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.08||||0.122|TWO_SIDED|95.0|-0.58|4.75|||ANCOVA|||Statistical analysis of Left Whole region of the Lung at Week 104.||4.75|-0.58|0.122
92192998|NCT00874497|184285332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.05||||0.106|TWO_SIDED|95.0|-0.46|4.56|||ANCOVA|||Statistical analysis of Whole Lung region of the Lung at Week 104.||4.56|-0.46|0.106
92192999|NCT00874497|184285333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.423||||0.469|TWO_SIDED|95.0|-5.32|2.48|||ANCOVA|||LS Mean Difference between Tetomilast and Placebo at Week 104.||2.48|-5.32|0.469
92193000|NCT00874497|184285334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.519|TWO_SIDED|95.0|-4.42|2.27|||ANCOVA|||Statistical analysis of right upper region of the lung at Week 104.||2.27|-4.42|0.519
92193001|NCT00874497|184285334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05||||0.463|TWO_SIDED|95.0|-3.92|1.82|||ANCOVA|||Statistical analysis of right middle region of the lung at Week 104.||1.82|-3.92|0.463
92193002|NCT00874497|184285334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.598|TWO_SIDED|95.0|-6.74|3.94|||ANCOVA|||Statistical analysis of right lower region of the lung at Week 104.||3.94|-6.74|0.598
92193003|NCT00874497|184285334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.94||||0.142|TWO_SIDED|95.0|-6.92|1.03|||ANCOVA|||Statistical analysis of left upper region of the lung at Week 104.||1.03|-6.92|0.142
92193004|NCT00874497|184285334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.757|TWO_SIDED|95.0|-6.26|4.59|||ANCOVA|||Statistical analysis of left lower region of the lung at Week 104.||4.59|-6.26|0.757
92193005|NCT00874497|184285334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27||||0.5|TWO_SIDED|95.0|-5.03|2.5|||ANCOVA|||Statistical analysis of right whole region of the lung at Week 104.||2.50|-5.03|0.500
92193006|NCT00874497|184285334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93||||0.353|TWO_SIDED|95.0|-6.09|2.23|||ANCOVA|||Statistical analysis of left whole region of the lung at Week 104.||2.23|-6.09|0.353
92193007|NCT00874497|184285334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52||||0.438|TWO_SIDED|95.0|-5.43|2.4|||ANCOVA|||Statistical analysis of whole region of the lung at Week 104.||2.40|-5.43|0.438
92193008|NCT00874497|184285335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|351487.0||||0.22|TWO_SIDED|95.0|-219976.0|922951.0|||ANCOVA|||Statistical analysis of right upper region of the lung at Week 104.||922951|-219976|0.220
92193009|NCT00874497|184285335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|103036.0||||0.146|TWO_SIDED|95.0|-37651.0|243723.0|||ANCOVA|||Statistical analysis of right middle region of the lung at Week 104||243723|-37651|0.146
92268540|NCT01275170|184438980|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.95|||||TWO_SIDED|90.0|0.72|1.26||||||||1.26|0.72|
92268541|NCT01275170|184438980|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.8|||||TWO_SIDED|90.0|0.61|1.06||||||||1.06|0.61|
92268542|NCT01275170|184438980|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.83|||||TWO_SIDED|90.0|0.63|1.09||||||||1.09|0.63|
92268543|NCT01275170|184438980|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.54|||||TWO_SIDED|90.0|1.93|3.36||||||||3.36|1.93|
92268544|NCT01275170|184438983|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.6|||||TWO_SIDED|90.0|1.03|2.49||||||||2.49|1.03|
92268545|NCT01275170|184438983|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.86|||||TWO_SIDED|90.0|1.21|2.87||||||||2.87|1.21|
92316634|NCT03349060|184536870|SUPERIORITY||Difference in Percentage|-27.9||||0.3573|TWO_SIDED|95.0|-62.5|6.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.7|-62.5|0.3573
92316635|NCT03349060|184536870|SUPERIORITY||Difference in Percentage|-3.6||||0.9219|TWO_SIDED|95.0|-55.6|48.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||48.5|-55.6|0.9219
92316636|NCT03349060|184536870|SUPERIORITY||Difference in Percentage|24.6||||0.3173|TWO_SIDED|95.0|-14.4|63.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||63.6|-14.4|0.3173
92316637|NCT03349060|184536870|SUPERIORITY||Difference in Percentage|-25.0||||0.5408|TWO_SIDED|95.0|-77.0|27.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||27.0|-77.0|0.5408
92316638|NCT03349060|184536870|SUPERIORITY||Difference in Percentage|24.6||||0.3173|TWO_SIDED|95.0|-14.4|63.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||63.6|-14.4|0.3173
92316639|NCT03349060|184536870|SUPERIORITY||Difference in Percentage|-25.0||||0.5408|TWO_SIDED|95.0|-77.0|27.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||27.0|-77.0|0.5408
92316640|NCT03349060|184536870|SUPERIORITY||Difference in Percentage|24.6||||0.3173|TWO_SIDED|95.0|-14.4|63.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||63.6|-14.4|0.3173
92316641|NCT03349060|184536871|SUPERIORITY||Difference in LS mean|-2.8||||0.0006|TWO_SIDED|95.0|-4.4|-1.2|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.2|-4.4|0.0006
92316642|NCT03349060|184536871|SUPERIORITY||Difference in LS mean|-6.3|||<|0.0001|TWO_SIDED|95.0|-7.9|-4.7|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-4.7|-7.9|<0.0001
92316643|NCT03349060|184536871|SUPERIORITY||Difference in LS mean|-3.8|||<|0.0001|TWO_SIDED|95.0|-5.6|-2.0|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-2.0|-5.6|<0.0001
92316644|NCT03349060|184536871|SUPERIORITY||Difference in LS mean|-8.4|||<|0.0001|TWO_SIDED|95.0|-10.2|-6.6|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-6.6|-10.2|<0.0001
92316645|NCT03349060|184536871|SUPERIORITY||Difference in LS mean|-2.7||||0.0096|TWO_SIDED|95.0|-4.7|-0.7|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.7|-4.7|0.0096
92316646|NCT03349060|184536871|SUPERIORITY||Difference in LS mean|-7.2|||<|0.0001|TWO_SIDED|95.0|-9.3|-5.2|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-5.2|-9.3|<0.0001
92316647|NCT03349060|184536871|SUPERIORITY||Difference in LS mean|-3.1||||0.0049|TWO_SIDED|95.0|-5.2|-0.9|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.9|-5.2|0.0049
92316648|NCT03349060|184536871|SUPERIORITY||Difference in LS mean|-6.9|||<|0.0001|TWO_SIDED|95.0|-9.0|-4.7|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-4.7|-9.0|<0.0001
92316649|NCT03349060|184536872|SUPERIORITY||Difference in LS mean|-0.4||||0.002|TWO_SIDED|95.0|-0.6|-0.1|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.1|-0.6|0.0020
92193010|NCT00874497|184285335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|247358.0||||0.322|TWO_SIDED|95.0|-252728.0|747444.0|||ANCOVA|||Statistical analysis of right lower region of the lung at Week 104||747444|-252728|0.322
92193011|NCT00874497|184285335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|362384.0||||0.141|TWO_SIDED|95.0|-126518.0|851286.0|||ANCOVA|||Statistical analysis of left upper region of the lung at Week 104.||851286|-126518|0.141
92316650|NCT03349060|184536872|SUPERIORITY||Difference in LS mean|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.6|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.0|<0.0001
92193012|NCT00874497|184285335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|294202.0||||0.325|TWO_SIDED|95.0|-303329.0|891733.0|||ANCOVA|||Statistical analysis of left lower region of the lung at Week 104.||891733|-303329|0.325
92193013|NCT00874497|184285335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|575882.0||||0.258|TWO_SIDED|95.0|-439692.0|1591457.0|||ANCOVA|||Statistical analysis of right whole region of the lung at Week 104.||1591457|-439692|0.258
92193014|NCT00874497|184285335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|589373.0||||0.247|TWO_SIDED|95.0|-426928.0|1605673.0|||ANCOVA|||Statistical analysis of left whole region of the lung at Week 104.||1605673|-426928|0.247
92193015|NCT00874497|184285335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1156318.0||||0.251|TWO_SIDED|95.0|-855009.0|3167645.0|||ANCOVA|||Statistical analysis of whole lung region of the lung at Week 104.||3167645|-855009|0.251
92193016|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|77.9||||0.181|TWO_SIDED|95.0|-38.0|193.8|||ANCOVA|||Statistical analysis of right upper lung region (RV) at Week 104.||193.8|-38.0|0.181
92193017|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9||||0.781|TWO_SIDED|95.0|-48.8|36.9|||ANCOVA|||Statistical analysis of right middle lung region (RV) at Week 104.||36.9|-48.8|0.781
92193018|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.7||||0.445|TWO_SIDED|95.0|-77.8|173.2|||ANCOVA|||Statistical analysis of right lower lung region (RV) at Week 104.||173.2|-77.8|0.445
92193019|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|62.6||||0.259|TWO_SIDED|95.0|-48.1|173.2|||ANCOVA|||Statistical analysis of left upper lung region (RV) at Week 104.||173.2|-48.1|0.259
92193020|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.0||||0.639|TWO_SIDED|95.0|-105.6|169.6|||ANCOVA|||Statistical analysis of left lower lung region (RV) at Week 104.||169.6|-105.6|0.639
92193021|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|102.3||||0.408|TWO_SIDED|95.0|-145.9|350.5|||ANCOVA|||Statistical analysis of right whole lung region (RV) at Week 104.||350.5|-145.9|0.408
92193022|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|85.2||||0.445|TWO_SIDED|95.0|-138.8|309.2|||ANCOVA|||Statistical analysis of left whole lung region (RV) at Week 104.||309.2|-138.8|0.445
92193023|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|187.6||||0.421|TWO_SIDED|95.0|-279.6|654.8|||ANCOVA|||Statistical analysis of whole lung region (RV) at Week 104.||654.8|-279.6|0.421
92193024|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.7||||0.353|TWO_SIDED|95.0|-58.5|159.9|||ANCOVA|||Statistical analysis of right upper lung region (TLC) at Week 104.||159.9|-58.5|0.353
92193025|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9||||0.66|TWO_SIDED|95.0|-35.3|55.0|||ANCOVA|||Statistical analysis of right middle lung region (TLC) at Week 104.||55.0|-35.3|0.660
92193026|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.7||||0.859|TWO_SIDED|95.0|-110.7|132.1|||ANCOVA|||Statistical analysis of right lower lung region (TLC) at Week 104.||132.1|-110.7|0.859
92193027|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.5||||0.253|TWO_SIDED|95.0|-38.4|141.4|||ANCOVA|||Statistical analysis of left upper lung region (TLC)at Week 104.||141.4|-38.4|0.253
92193028|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.3||||0.754|TWO_SIDED|95.0|-126.0|172.6|||ANCOVA|||Statistical analysis of left lower lung region (TLC) at Week 104.||172.6|-126.0|0.754
92193029|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|62.2||||0.546|TWO_SIDED|95.0|-145.1|269.5|||ANCOVA|||Statistical analysis of right whole lung region (TLC) at Week 104.||269.5|-145.1|0.546
92193030|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.9||||0.554|TWO_SIDED|95.0|-155.5|285.3|||ANCOVA|||Statistical analysis of left whole lung region (TLC) at Week 104.||285.3|-155.5|0.554
92193031|NCT00874497|184285336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|132.2||||0.524|TWO_SIDED|95.0|-284.9|549.4|||ANCOVA|||Statistical analysis of whole lung region (TLC) at Week 104.||549.4|-284.9|0.524
92193032|NCT00874497|184285337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.5843|TWO_SIDED|95.0|-0.07|0.04|||ANCOVA|||||0.04|-0.07|0.5843
92193033|NCT00874497|184285338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.249||||0.1252|TWO_SIDED|95.0|-0.073|0.571|||ANCOVA|||||0.571|-0.073|0.1252
92193034|NCT00874497|184285339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1835||||0.4661|TWO_SIDED|95.0|-0.6892|0.3221|||ANCOVA|||||0.3221|-0.6892|0.4661
92193035|NCT00874497|184285340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.134|TWO_SIDED|95.0|-0.19|1.4|||ANCOVA|||||1.40|-0.19|0.134
92193036|NCT00874497|184285341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.074|TWO_SIDED|95.0|-1.5|0.07|||ANCOVA|||Statistical analysis for sRaw||0.07|-1.50|0.074
92193037|NCT00874497|184285341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.155|TWO_SIDED|95.0|-0.09|0.52|||ANCOVA|||Statistical analysis for sGaw||0.52|-0.09|0.155
92193038|NCT00874497|184285342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.845|TWO_SIDED|95.0|-0.77|0.64|||ANCOVA|||Statistical analysis for mean prior daily breath symptoms||0.64|-0.77|0.845
92193039|NCT00874497|184285342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.549|TWO_SIDED|95.0|-0.52|0.94|||ANCOVA|||Statistical analysis for mean prior daily cough symptoms||0.94|-0.52|0.549
92268546|NCT01275170|184438983|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|5.6|||||TWO_SIDED|90.0|3.64|8.59||||||||8.59|3.64|
92268547|NCT01275170|184438983|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|13.75|||||TWO_SIDED|90.0|8.96|21.12||||||||21.12|8.96|
92268548|NCT01275170|184438983|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|3.64|||||TWO_SIDED|90.0|2.32|5.69||||||||5.69|2.32|
92268549|NCT01275170|184438984|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.25|||||TWO_SIDED|90.0|0.75|2.08||||||||2.08|0.75|
92268550|NCT01275170|184438984|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.13|||||TWO_SIDED|90.0|0.69|1.87||||||||1.87|0.69|
92268551|NCT01275170|184438984|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.49|||||TWO_SIDED|90.0|0.9|2.44||||||||2.44|0.90|
92268552|NCT01275170|184438984|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.49|||||TWO_SIDED|90.0|1.51|4.09||||||||4.09|1.51|
92268553|NCT01275170|184438984|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.94|||||TWO_SIDED|90.0|0.57|1.54||||||||1.54|0.57|
92268554|NCT01275170|184438985|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.63|||||TWO_SIDED|90.0|0.4|0.97||||||||0.97|0.40|
92268555|NCT01275170|184438985|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.54|||||TWO_SIDED|90.0|0.35|0.83||||||||0.83|0.35|
92193040|NCT00874497|184285342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.717|TWO_SIDED|95.0|-0.93|0.65|||ANCOVA|||Statistical analysis for mean prior daily sputum symptoms||0.65|-0.93|0.717
92193041|NCT00874497|184285344|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Statistical analysis for level I (self management) at week 104.||||1.000
92193042|NCT00874497|184285344|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Statistical analysis for level II (physician visit) at week 104.||||1.0000
92193043|NCT00874497|184285344|SUPERIORITY_OR_OTHER|||||||0.5092|||||||Fisher Exact|||Statistical analysis for level III (hospital visit) at week 104.||||0.5092
92193044|NCT00874497|184285345|SUPERIORITY_OR_OTHER|||||||0.63||||||Fisher's Exact test was used to determine whether the tetomilast and placebo groups differ in the proportion of participants who experienced Level 2 or higher COPD exacerbations during the study.|Fisher Exact|||Statistical analysis at Week 104||||0.630
92193045|NCT01013740|184285346|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||||95.0|0.53|1.35|||||The Pike estimator of the treatment HR was based on the log rank test.|||1.35|0.53|
92193046|NCT01013740|184285351|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|0.63|3.58||||||||3.58|0.63|
92193047|NCT03790878|184285401|OTHER|||||||0.018|||||||ANCOVA|||||||0.018
92193048|NCT03790878|184285402|OTHER|||||||0.396|||||||Multilevel modeling|||||||0.396
92193049|NCT03790878|184285403|OTHER|||||||0.002|||||||Multilevel modeling|||||||0.002
92193050|NCT00776984|184285405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.091|0.217||Step-wise testing for co-primary endpoints, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.217|0.091|<0.0001
92193051|NCT00776984|184285406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.03||0.0002||95.0|0.053|0.169||Step-wise testing for co-primary endpoints, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.169|0.053|0.0002
92193052|NCT00776984|184285407|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0343||||||Confirmatory only if previous hypotheses for each of the 2 twin studies had been successful, significance level of alpha=0.05 (2-sided). A pre-specified interim analysis was performed. Cui et al (Biometrics,1999) was used to calculate the p-value.|Regression, Cox|Parameter estimates of Cox proportional hazard model regression regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|||||0.0343
92193053|NCT00776984|184285408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.042||0.0275||95.0|0.01|0.177||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.177|0.010|0.0275
92193054|NCT00776984|184285409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.041||0.0099||95.0|0.025|0.186||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.186|0.025|0.0099
92193055|NCT00776984|184285410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.084|0.202||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.202|0.084|<0.0001
92193056|NCT00776984|184285411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.109|STANDARD_ERROR_OF_MEAN|0.04||0.0063||95.0|0.031|0.187||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.187|0.031|0.0063
92316651|NCT03349060|184536872|SUPERIORITY||Difference in LS mean|-0.5||||0.0011|TWO_SIDED|95.0|-0.7|-0.2|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.2|-0.7|0.0011
92193057|NCT00776984|184285412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.087|0.217||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.217|0.087|<0.0001
92193058|NCT00776984|184285413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.03||0.0026||95.0|0.032|0.151||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.151|0.032|0.0026
92193059|NCT00776984|184285414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.078|0.199||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.199|0.078|<0.0001
92193060|NCT00776984|184285415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.044||0.0088||95.0|0.029|0.2||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.200|0.029|0.0088
92193061|NCT00776984|184285416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.071|STANDARD_ERROR_OF_MEAN|0.042||0.0933||95.0|-0.012|0.153||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.153|-0.012|0.0933
92193062|NCT00776984|184285417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.109|STANDARD_ERROR_OF_MEAN|0.041||0.0074||95.0|0.029|0.189||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.189|0.029|0.0074
92193063|NCT00776984|184285418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.654|STANDARD_ERROR_OF_MEAN|4.807|<|0.0001||95.0|11.199|30.108||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||30.108|11.199|<0.0001
92193064|NCT00776984|184285419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.453|STANDARD_ERROR_OF_MEAN|5.044|<|0.0001||95.0|22.532|42.374||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||42.374|22.532|<0.0001
92193065|NCT00776984|184285420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.03||0.0027||95.0|0.031|0.149||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.149|0.031|0.0027
92193066|NCT00776984|184285421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.074|0.2||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.200|0.074|<0.0001
92193067|NCT00776984|184285422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.197|STANDARD_ERROR_OF_MEAN|0.741||0.1073||95.0|-0.261|2.655||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||2.655|-0.261|0.1073
92193068|NCT00776984|184285423|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.4788||95.0|0.65|1.23||Significance level of alpha=0.05 (two-sided).|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|||1.23|0.65|0.4788
92193069|NCT00776984|184285424|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8|STANDARD_ERROR_OF_MEAN|0.11||0.1007||95.0|0.61|1.04||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo|||1.04|0.61|0.1007
92193070|NCT00776984|184285425|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96|STANDARD_ERROR_OF_MEAN|0.15||0.7906||95.0|0.71|1.3||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo|||1.30|0.71|0.7906
92193071|NCT00776984|184285426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.57||||0.004||95.0|0.38|0.84||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95 percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||0.84|0.38|0.0040
92193072|NCT00776984|184285427|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.5481||95.0|0.58|1.32||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95 percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||1.32|0.58|0.5481
92193073|NCT00776984|184285428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.7188||95.0|0.33|2.14||Significance level of alpha=0.05 (two-sided).|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|||2.14|0.33|0.7188
92193074|NCT00776984|184285429|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.95|STANDARD_ERROR_OF_MEAN|0.23||0.8503||95.0|0.59|1.54||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo.|||1.54|0.59|0.8503
92193075|NCT00776984|184285430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.8129||95.0|0.29|2.46||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95 percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||2.46|0.29|0.8129
92193076|NCT00776984|184285431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.078||0.0225||95.0|0.025|0.331||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.331|0.025|0.0225
92193077|NCT00776984|184285432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.08||0.0803||95.0|-0.017|0.296||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.296|-0.017|0.0803
92193078|NCT00776984|184285433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.199|STANDARD_ERROR_OF_MEAN|0.067||0.003||95.0|-0.33|-0.068||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||-0.068|-0.330|0.0030
92316652|NCT03349060|184536872|SUPERIORITY||Difference in LS mean|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.7|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.7|-1.2|<0.0001
92193079|NCT00776984|184285434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.133|STANDARD_ERROR_OF_MEAN|0.069||0.0533||95.0|-0.267|0.002||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.002|-0.267|0.0533
92193080|NCT00776984|184285435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.028||0.6632||95.0|-0.043|0.067||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.067|-0.043|0.6632
92193081|NCT00776984|184285436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.263|STANDARD_ERROR_OF_MEAN|0.189||0.1664||95.0|-0.635|0.11||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.110|-0.635|0.1664
92316653|NCT03349060|184536872|SUPERIORITY||Difference in LS mean|-0.5||||0.002|TWO_SIDED|95.0|-0.8|-0.2|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.2|-0.8|0.0020
92316654|NCT03349060|184536872|SUPERIORITY||Difference in LS mean|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.6|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.2|<0.0001
92316655|NCT03349060|184536872|SUPERIORITY||Difference in LS mean|-0.5||||0.0014|TWO_SIDED|95.0|-0.8|-0.2|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.2|-0.8|0.0014
92316656|NCT03349060|184536872|SUPERIORITY||Difference in LS mean|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.6|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.3|<0.0001
92316657|NCT03349060|184536873|SUPERIORITY||Difference in Percentage|6.0||||0.0575|TWO_SIDED|95.0|0.3|11.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.7|0.3|0.0575
92316658|NCT03349060|184536873|SUPERIORITY||Difference in Percentage|18.1||||0.0002|TWO_SIDED|95.0|10.7|25.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.5|10.7|0.0002
92268556|NCT01275170|184438985|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.18|||||TWO_SIDED|90.0|0.12|0.27||||||||0.27|0.12|
92268557|NCT01275170|184438985|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.07|||||TWO_SIDED|90.0|0.05|0.11||||||||0.11|0.05|
92268558|NCT01275170|184438985|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.27|||||TWO_SIDED|90.0|0.18|0.43||||||||0.43|0.18|
92268559|NCT01275170|184438986|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.8|||||TWO_SIDED|90.0|0.62|1.04||||||||1.04|0.62|
92268560|NCT01275170|184438986|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.91|||||TWO_SIDED|90.0|0.71|1.17||||||||1.17|0.71|
92268561|NCT01275170|184438986|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.8|||||TWO_SIDED|90.0|0.62|1.03||||||||1.03|0.62|
92268562|NCT01275170|184438986|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.76|||||TWO_SIDED|90.0|0.59|0.97||||||||0.97|0.59|
92268563|NCT01275170|184438986|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.81|||||TWO_SIDED|90.0|2.16|3.65||||||||3.65|2.16|
92268564|NCT01275170|184438992|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.52|||||TWO_SIDED|90.0|1.07|2.15||||||||2.15|1.07|
92268565|NCT01275170|184438992|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.63|||||TWO_SIDED|90.0|0.45|0.9||||||||0.90|0.45|
92268566|NCT01275170|184438992|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.67|||||TWO_SIDED|90.0|0.47|0.94||||||||0.94|0.47|
92268567|NCT01275170|184438993|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.07|||||TWO_SIDED|90.0|0.63|1.83||||||||1.83|0.63|
92268568|NCT01275170|184438993|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.6|||||TWO_SIDED|90.0|0.35|1.01||||||||1.01|0.35|
92268569|NCT01275170|184438993|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.61|||||TWO_SIDED|90.0|0.36|1.04||||||||1.04|0.36|
92268570|NCT01275170|184438994|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.47|||||TWO_SIDED|90.0|0.63|3.4||||||||3.40|0.63|
92268571|NCT01275170|184438994|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.91|||||TWO_SIDED|90.0|0.41|2.0||||||||2.00|0.41|
92268572|NCT01275170|184438994|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.81|||||TWO_SIDED|90.0|0.37|1.78||||||||1.78|0.37|
92268573|NCT04636437|184439026|SUPERIORITY||Mean Difference (Net)|1.36||||0.23|TWO_SIDED|97.5|-1.2|3.92||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry weight, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in body weight from entry to week 48.||3.92|-1.20|0.23
92268574|NCT04636437|184439026|SUPERIORITY||Mean Difference (Net)|-0.89||||0.41|TWO_SIDED|97.5|-3.34|1.57||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry weight, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in body weight from entry to week 48.||1.57|-3.34|0.41
92268575|NCT04636437|184439027|SUPERIORITY||Mean Difference (Net)|0.83||||0.31|TWO_SIDED|97.5|-0.99|2.64||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry weight, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in body weight from entry to week 24.||2.64|-0.99|0.31
92268576|NCT04636437|184439027|SUPERIORITY||Mean Difference (Net)|-1.99||||0.012|TWO_SIDED|97.5|-3.76|-0.21||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry weight, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in body weight from entry to week 24.||-0.21|-3.76|0.012
92268577|NCT04636437|184439028|SUPERIORITY||Mean Difference (Net)|1.72||||0.2|TWO_SIDED|97.5|-1.33|4.77||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry waist circumference, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in waist circumference from entry to week 48.||4.77|-1.33|0.20
92193082|NCT00776984|184285437|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.0427|TWO_SIDED|95.0|1.01|1.73||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|Comparison at 24 weeks||1.73|1.01|0.0427
92193083|NCT00776984|184285437|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0001|TWO_SIDED|95.0|1.28|2.21||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|Comparison at 48 weeks||2.21|1.28|0.0001
92193084|NCT04414397|184285449|SUPERIORITY||Rate Difference|66.9|||<|0.0001|TWO_SIDED|95.0|54.9|78.8||Analysis was performed using the SAS procedure MIANALYZE with normal approximation to generate an associated p-value for the comparison of responder rates between groups.|Multiple imputation regression|||JUVÉDERM® VOLUMA® XC Treatment vs No-treatment control||78.8|54.9|<0.0001
92193085|NCT04414397|184285453|OTHER||||||<|0.0001||||||P-value is based on a 2-sided paired t-test at the 5% level to demonstrate that the mean satisfaction score at Month 3 visit is statistically greater than at Baseline for the treatment group.|t-test, 2 sided|||||||<0.0001
92193086|NCT04414397|184285454|OTHER||||||<|0.0001||||||P-value is based on a 2-sided paired t-test at the 5% level to demonstrate that the mean satisfaction score at Month 3 is statistically greater than at Baseline for the treatment group.|t-test, 2 sided|||||||<0.0001
92193087|NCT03640754|184285456|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92193088|NCT03640754|184285456|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92193089|NCT03640754|184285457|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92193090|NCT03640754|184285457|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92316659|NCT03349060|184536873|SUPERIORITY||Difference in Percentage|9.2||||0.0411|TWO_SIDED|95.0|1.3|17.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.1|1.3|0.0411
92193091|NCT03640754|184285458|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92193092|NCT03640754|184285458|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92193093|NCT03640754|184285459|SUPERIORITY|||||||0.199|||||||t-test, 1 sided|||||||0.199
92193094|NCT03640754|184285459|SUPERIORITY|||||||0.189|||||||t-test, 1 sided|||||||0.189
92193095|NCT03640754|184285460|SUPERIORITY|Least squares means (LS Means) from a mixed effects repeated measures model with baseline M+S score, current smoking status, bmi, and parity as covariates||||||0.398|||||||Mixed Models Analysis|||||||0.398
92193096|NCT03640754|184285460|SUPERIORITY|Least squares means (LS Means) from a mixed effects repeated measures model with baseline M+S score, current smoking status, bmi, and parity as covariates||||||0.391|||||||Mixed Models Analysis|||||||0.391
92193097|NCT03640754|184285461|SUPERIORITY|||||||0.232|||||||Mixed Models Analysis|||Least squares means (LS Means) from a mixed effects repeated measures model with baseline M+S score, current smoking status, bmi, and parity as covariates||||0.232
92193098|NCT03640754|184285461|SUPERIORITY|||||||0.085|||||||Mixed Models Analysis|||Least squares means (LS Means) from a mixed effects repeated measures model with baseline M+S score, current smoking status, bmi, and parity as covariates||||0.085
92193099|NCT03640754|184285462|SUPERIORITY|||||||0.501|||||||Mixed Models Analysis|||||||0.501
92193100|NCT03640754|184285462|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|||||||0.370
92193101|NCT03640754|184285463|SUPERIORITY|||||||0.333|||||||Mixed Models Analysis|||||||0.333
92193102|NCT03640754|184285463|SUPERIORITY|||||||0.014|||||||Mixed Models Analysis|||||||0.014
92193103|NCT03640754|184285464|SUPERIORITY|||||||0.124|||||||Mixed Models Analysis|||||||0.124
92193104|NCT03640754|184285464|SUPERIORITY|||||||0.175|||||||Mixed Models Analysis|||||||0.175
92193105|NCT03640754|184285465|SUPERIORITY|||||||0.032|||||||Mixed Models Analysis|||||||0.032
92193106|NCT03640754|184285465|SUPERIORITY|||||||0.077|||||||Mixed Models Analysis|||||||0.077
92193107|NCT03640754|184285469|SUPERIORITY|||||||0.047|||||||t-test, 1 sided|||||||0.047
92193108|NCT03640754|184285469|SUPERIORITY|||||||0.139|||||||t-test, 1 sided|||||||0.139
92193109|NCT03640754|184285469|SUPERIORITY|||||||0.395|||||||t-test, 1 sided|||||||0.395
92193110|NCT03640754|184285470|SUPERIORITY|||||||0.147|||||||t-test, 1 sided|||||||0.147
92193111|NCT03640754|184285470|SUPERIORITY|||||||0.16|||||||t-test, 1 sided|||||||0.160
92193112|NCT03640754|184285470|SUPERIORITY|||||||0.152|||||||t-test, 1 sided|||||||0.152
92193113|NCT03640754|184285471|SUPERIORITY|||||||0.286|||||||t-test, 1 sided|||||||0.286
92193114|NCT03640754|184285471|SUPERIORITY|||||||0.107|||||||t-test, 1 sided|||||||0.107
92193115|NCT03640754|184285472|SUPERIORITY|||||||0.289|||||||t-test, 1 sided|||||||0.289
92193116|NCT03640754|184285472|SUPERIORITY|||||||0.338|||||||t-test, 1 sided|||||||0.338
92193117|NCT03640754|184285473|SUPERIORITY|||||||0.393|||||||t-test, 1 sided|||||||0.393
92193118|NCT03640754|184285473|SUPERIORITY|||||||0.365|||||||t-test, 1 sided|||||||0.365
92193119|NCT03640754|184285474|SUPERIORITY|||||||0.406|||||||t-test, 1 sided|||||||0.406
92193120|NCT03640754|184285474|SUPERIORITY|||||||0.494|||||||t-test, 1 sided|||||||0.494
92193121|NCT00276016|184285476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.561||95.0|||||ANOVA|||For endpoint||||0.561
92193122|NCT00276016|184285477|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||For endpoint||||<.001
92193123|NCT04380688|184285486|OTHER|No formal hypothesis testing for this endpoint.|Hazard Ratio (HR)|0.553|||||TWO_SIDED|90.0|0.145|1.952||P-value not generated.|Regression, Cox|Adjusting for age (\<65 vs \>=65 years) and comorbidities (present vs absent). Ties handled by Efron approach. HR CI using profile likelihood approach.||||1.952|0.145|
92193124|NCT04380688|184285494|OTHER|No formal hypothesis testing for this endpoint.|Hazard Ratio (HR)|1.314|||||TWO_SIDED|90.0|0.794|2.183||P-value not generated.|Regression, Cox|Adjusting for age (\<65 vs \>=65 years) and comorbidities (present vs absent). Ties handled by Efron approach. HR CI using profile likelihood approach.||||2.183|0.794|
92193125|NCT01751165|184285593|NON_INFERIORITY_OR_EQUIVALENCE|Non-nferiority criteria: The upper limit (UL) of the 97.5% confidence interval (CI) for the anti-gE ELISA geometric mean concentration (GMC) ratio (0,2-month schedule over 0,6-month schedule) at one month post-dose 2 had to be below 1.5.|Adjusted GMC ratio|1.16|||||TWO_SIDED|97.5|0.98|1.39|||ANCOVA|||To demonstrate the non-inferiority in terms of anti-gE humoral immune response one month post-dose 2 given according to a 0,6-month schedule compared to a 0,2-month schedule.||1.39|0.98|
92316660|NCT03349060|184536873|SUPERIORITY||Difference in Percentage|26.2|||<|0.0001|TWO_SIDED|95.0|16.9|35.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.5|16.9|<0.0001
92316661|NCT03349060|184536873|SUPERIORITY||Difference in Percentage|8.9||||0.0781|TWO_SIDED|95.0|-0.1|18.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||18.0|-0.1|0.0781
92316662|NCT03349060|184536873|SUPERIORITY||Difference in Percentage|26.2|||<|0.0001|TWO_SIDED|95.0|16.2|36.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||36.3|16.2|<0.0001
92316663|NCT03349060|184536873|SUPERIORITY||Difference in Percentage|14.2||||0.0075|TWO_SIDED|95.0|5.3|23.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.2|5.3|0.0075
92316664|NCT03349060|184536873|SUPERIORITY||Difference in Percentage|29.3|||<|0.0001|TWO_SIDED|95.0|19.6|38.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.9|19.6|<0.0001
92316665|NCT03349060|184536874|SUPERIORITY||Difference in LS mean|0.034||||0.0453|TWO_SIDED|95.0|0.001|0.066|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.066|0.001|0.0453
92316666|NCT03349060|184536874|SUPERIORITY||Difference in LS mean|0.068|||<|0.0001|TWO_SIDED|95.0|0.036|0.101|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.101|0.036|<0.0001
92316667|NCT03349060|184536874|SUPERIORITY||Difference in LS mean|0.025||||0.1821|TWO_SIDED|95.0|-0.012|0.062|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.062|-0.012|0.1821
92316668|NCT03349060|184536874|SUPERIORITY||Difference in LS mean|0.055||||0.0038|TWO_SIDED|95.0|0.018|0.092|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.092|0.018|0.0038
92316669|NCT03349060|184536874|SUPERIORITY||Difference in LS mean|0.048||||0.0241|TWO_SIDED|95.0|0.006|0.09|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.090|0.006|0.0241
92316670|NCT03349060|184536874|SUPERIORITY||Difference in LS mean|0.093|||<|0.0001|TWO_SIDED|95.0|0.051|0.134|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.134|0.051|<0.0001
92316671|NCT03349060|184536874|SUPERIORITY||Difference in LS mean|0.044||||0.0461|TWO_SIDED|95.0|0.001|0.087|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.087|0.001|0.0461
92193126|NCT01751165|184285593|NON_INFERIORITY_OR_EQUIVALENCE|Non-nferiority criteria: The upper limit (UL) of the 97.5% confidence interval (CI) for the anti-gE ELISA geometric mean concentration (GMC) ratio (0,2-month schedule over 0,6-month schedule) at one month post-dose 2 had to be below 1.5.|Adjusted GMC ratio|1.19|||||TWO_SIDED|97.5|0.93|1.53|||ANCOVA|||To demonstrate the non-inferiority in terms of anti-gE humoral immune response one month post-dose 2 given according to a 0,12-month schedule compared to a 0,2-month schedule.||1.53|0.93|
92193127|NCT01036165|184285613|SUPERIORITY_OR_OTHER||Mean positive response|0.78|||||TWO_SIDED|95.0|0.7|0.86|||||Confidence Interval calculated from normal approximation to the binomial. The primary objective was met if the lower limit of the 95% confidence interval was \>0.50.|||0.86|0.70|
92316672|NCT03349060|184536874|SUPERIORITY||Difference in LS mean|0.064||||0.0037|TWO_SIDED|95.0|0.021|0.107|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.107|0.021|0.0037
92316673|NCT03349060|184536875|SUPERIORITY||Difference in LS mean|4.548||||0.0319|TWO_SIDED|95.0|0.397|8.7|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||8.700|0.397|0.0319
92316674|NCT03349060|184536875|SUPERIORITY||Difference in LS mean|8.659|||<|0.0001|TWO_SIDED|95.0|4.496|12.822|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||12.822|4.496|<0.0001
92193128|NCT01387815|184285615|OTHER||||||<|0.001|||||||Chi-squared|||Comparison does not include missing.||||<0.001
92193129|NCT01387815|184285616|OTHER||||||<|0.001|||||||Log Rank|||||||<0.001
92193130|NCT01387815|184285617|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92193131|NCT01387815|184285618|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92193132|NCT01387815|184285619|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92193133|NCT01387815|184285620|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92316675|NCT03349060|184536875|SUPERIORITY||Difference in LS mean|4.361||||0.0702|TWO_SIDED|95.0|-0.362|9.084|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||9.084|-0.362|0.0702
92316676|NCT03349060|184536875|SUPERIORITY||Difference in LS mean|10.085|||<|0.0001|TWO_SIDED|95.0|5.349|14.821|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||14.821|5.349|<0.0001
92316677|NCT03349060|184536875|SUPERIORITY||Difference in LS mean|6.045||||0.03|TWO_SIDED|95.0|0.589|11.501|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||11.501|0.589|0.0300
92316678|NCT03349060|184536875|SUPERIORITY||Difference in LS mean|9.803||||0.0005|TWO_SIDED|95.0|4.368|15.237|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||15.237|4.368|0.0005
92316679|NCT03349060|184536875|SUPERIORITY||Difference in LS mean|7.569||||0.0067|TWO_SIDED|95.0|2.119|13.019|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||13.019|2.119|0.0067
92316680|NCT03349060|184536875|SUPERIORITY||Difference in LS mean|9.374||||0.0008|TWO_SIDED|95.0|3.933|14.815|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||14.815|3.933|0.0008
92316681|NCT03349060|184536876|SUPERIORITY||Difference in LS mean|-0.004||||0.9568|TWO_SIDED|95.0|-0.137|0.13|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.130|-0.137|0.9568
92316682|NCT03349060|184536876|SUPERIORITY||Difference in LS mean|0.09||||0.1782|TWO_SIDED|95.0|-0.042|0.223|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.223|-0.042|0.1782
92316683|NCT03349060|184536876|SUPERIORITY||Difference in LS mean|0.174||||0.0491|TWO_SIDED|95.0|0.001|0.347|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.347|0.001|0.0491
92316684|NCT03349060|184536876|SUPERIORITY||Difference in LS mean|0.284||||0.0015|TWO_SIDED|95.0|0.112|0.456|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.456|0.112|0.0015
92316685|NCT03349060|184536876|SUPERIORITY||Difference in LS mean|0.004||||0.9638|TWO_SIDED|95.0|-0.185|0.194|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.194|-0.185|0.9638
92316686|NCT03349060|184536876|SUPERIORITY||Difference in LS mean|0.08||||0.4016|TWO_SIDED|95.0|-0.109|0.27|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.270|-0.109|0.4016
92316687|NCT03349060|184536876|SUPERIORITY||Difference in LS mean|0.007||||0.9429|TWO_SIDED|95.0|-0.184|0.198|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.198|-0.184|0.9429
92316688|NCT03349060|184536876|SUPERIORITY||Difference in LS mean|0.062||||0.5212|TWO_SIDED|95.0|-0.13|0.254|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.254|-0.130|0.5212
92316689|NCT03349060|184536877|SUPERIORITY||Difference in LS mean|2.131||||0.6467|TWO_SIDED|95.0|-7.095|11.358|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||11.358|-7.095|0.6467
92316690|NCT03349060|184536877|SUPERIORITY||Difference in LS mean|11.549||||0.0147|TWO_SIDED|95.0|2.338|20.761|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||20.761|2.338|0.0147
92316691|NCT03349060|184536877|SUPERIORITY||Difference in LS mean|6.853||||0.1894|TWO_SIDED|95.0|-3.453|17.159|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||17.159|-3.453|0.1894
92316692|NCT03349060|184536877|SUPERIORITY||Difference in LS mean|16.99||||0.0015|TWO_SIDED|95.0|6.699|27.281|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||27.281|6.699|0.0015
92316693|NCT03349060|184536877|SUPERIORITY||Difference in LS mean|8.672||||0.1267|TWO_SIDED|95.0|-2.518|19.862|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||19.862|-2.518|0.1267
92193134|NCT01387815|184285621|OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
92193135|NCT01387815|184285622|OTHER|||||||0.016|||||||t-test, 2 sided|||||||0.016
92193136|NCT01387815|184285623|OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.060
92193137|NCT01387815|184285624|OTHER|||||||0.056|||||||t-test, 2 sided|||||||0.056
92193138|NCT01387815|184285625|OTHER|||||||0.755|||||||t-test, 2 sided|||||||0.755
92193139|NCT01387815|184285626|OTHER|||||||0.091|||||||t-test, 2 sided|||||||0.091
92193140|NCT01387815|184285627|OTHER|||||||0.106|||||||t-test, 2 sided|||||||0.106
92193141|NCT01387815|184285628|OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
92193142|NCT01387815|184285629|OTHER|||||||0.008|||||||t-test, 2 sided|||||||0.008
92193143|NCT01387815|184285630|OTHER|||||||0.083|||||||t-test, 2 sided|||||||0.083
92193144|NCT01387815|184285631|OTHER|||||||0.495|||||||t-test, 2 sided|||||||0.495
92193145|NCT01387815|184285632|OTHER|||||||0.097|||||||t-test, 2 sided|||||||0.097
92193146|NCT01387815|184285633|OTHER|||||||0.006|||||||t-test, 2 sided|||||||0.006
92193147|NCT01387815|184285634|OTHER|||||||0.037|||||||t-test, 2 sided|||||||0.037
92193148|NCT01387815|184285635|OTHER|||||||0.084|||||||t-test, 2 sided|||||||0.084
92193149|NCT01387815|184285636|OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.090
92193150|NCT01387815|184285637|OTHER|||||||0.059|||||||t-test, 2 sided|||||||0.059
92193151|NCT01387815|184285638|OTHER|||||||0.004|||||||t-test, 2 sided|||||||0.004
92193152|NCT01387815|184285639|OTHER|||||||0.115|||||||t-test, 2 sided|||||||0.115
92193153|NCT01387815|184285640|OTHER|||||||0.002|||||||Log Rank|||||||0.002
92193154|NCT01387815|184285641|OTHER|||||||0.002|||||||Chi-squared|||"Comparison does not include the Missing category."||||0.002
92193155|NCT01387815|184285642|OTHER|"Comparison does not include the Missing category."||||||0.017|||||||Chi-squared|||||||0.017
92193156|NCT01387815|184285643|OTHER|||||||0.01||||||"Comparison does not include the Missing category."|Chi-squared|||||||0.010
92193157|NCT01387815|184285644|OTHER|||||||0.015|||||||Chi-squared|||"Comparison does not include the Missing category."||||0.015
92193158|NCT01387815|184285645|OTHER|||||||0.06|||||||Chi-squared|||"Comparison does not include the Missing category."||||0.060
92193159|NCT01387815|184285646|OTHER|||||||0.501|||||||t-test, 2 sided|||||||0.501
92193160|NCT01387815|184285647|OTHER|||||||0.807|||||||t-test, 2 sided|||||||0.807
92193161|NCT01387815|184285648|OTHER|||||||0.479|||||||t-test, 2 sided|||||||0.479
92193162|NCT01387815|184285649|OTHER|||||||0.918|||||||t-test, 2 sided|||||||0.918
92193163|NCT01387815|184285650|OTHER|||||||0.609|||||||t-test, 2 sided|||||||0.609
92193164|NCT01387815|184285651|OTHER|||||||0.367|||||||t-test, 2 sided|||||||0.367
92193165|NCT01387815|184285652|OTHER|||||||0.521|||||||t-test, 2 sided|||||||0.521
92193166|NCT01387815|184285653|OTHER|||||||0.793|||||||t-test, 2 sided|||||||0.793
92193167|NCT01387815|184285654|OTHER|||||||0.442|||||||t-test, 2 sided|||||||0.442
92193168|NCT01387815|184285655|OTHER|||||||0.434|||||||t-test, 2 sided|||||||0.434
92193169|NCT01387815|184285656|OTHER|||||||0.752|||||||t-test, 2 sided|||||||0.752
92193170|NCT01387815|184285657|OTHER|||||||0.469|||||||t-test, 2 sided|||||||0.469
92193171|NCT01387815|184285658|OTHER|||||||0.419|||||||t-test, 2 sided|||||||0.419
92193172|NCT01387815|184285659|OTHER|||||||0.695|||||||t-test, 2 sided|||||||0.695
92193173|NCT01387815|184285660|OTHER|||||||0.452|||||||t-test, 2 sided|||||||0.452
92193174|NCT01387815|184285661|OTHER|||||||0.008|||||||t-test, 2 sided|||||||0.008
92193175|NCT01387815|184285662|OTHER|||||||0.181|||||||t-test, 2 sided|||||||0.181
92193176|NCT01387815|184285663|OTHER|||||||0.252|||||||t-test, 2 sided|||||||0.252
92193177|NCT01387815|184285667|OTHER|||||||0.143|||||||Chi-squared|||||||0.143
92193178|NCT01387815|184285668|OTHER|||||||0.415|||||||Chi-squared|||||||0.415
92193179|NCT01387815|184285669|OTHER|||||||0.604|||||||Chi-squared|||||||0.604
92193180|NCT01387815|184285670|OTHER|||||||0.504|||||||Fisher Exact|||||||0.504
92193181|NCT01387815|184285671|OTHER|||||||0.92|||||||Chi-squared|||||||0.920
92193182|NCT01387815|184285672|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92193183|NCT01387815|184285673|OTHER|||||||0.575|||||||Chi-squared|||||||0.575
92193184|NCT01387815|184285676|OTHER|||||||0.856|||||||Chi-squared|||||||0.856
92193185|NCT01387815|184285677|OTHER|||||||0.623|||||||Chi-squared|||||||0.623
92193186|NCT01387815|184285678|OTHER|||||||0.732|||||||Chi-squared|||||||0.732
92193187|NCT01387815|184285679|OTHER|||||||0.896|||||||t-test, 2 sided|||||||0.896
92193188|NCT01387815|184285680|OTHER|||||||0.879|||||||t-test, 2 sided|||||||0.879
92193189|NCT01387815|184285681|OTHER|||||||0.763|||||||t-test, 2 sided|||||||0.763
92193190|NCT01387815|184285682|OTHER|||||||0.657|||||||Chi-squared|||||||0.657
92193191|NCT01387815|184285683|OTHER|||||||0.987|||||||Chi-squared|||||||0.987
92193192|NCT01387815|184285684|OTHER|||||||0.011|||||||Fisher Exact|||||||0.011
92193193|NCT01387815|184285685|OTHER|||||||0.351|||||||t-test, 2 sided|||||||0.351
92193194|NCT01387815|184285686|OTHER|||||||0.835|||||||t-test, 2 sided|||||||0.835
92193195|NCT01387815|184285688|OTHER|||||||0.714|||||||Fisher Exact|||||||0.714
92193196|NCT01387815|184285689|OTHER|||||||0.737|||||||Fisher Exact|||||||0.737
92193197|NCT01387815|184285690|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92193198|NCT01387815|184285694|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92193199|NCT01387815|184285695|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92193200|NCT01387815|184285697|OTHER|||||||0.714|||||||Fisher Exact|||||||0.714
92193201|NCT01387815|184285698|OTHER|||||||0.747|||||||Fisher Exact|||||||0.747
92193202|NCT01387815|184285699|OTHER|||||||0.495|||||||Fisher Exact|||||||0.495
92193203|NCT01387815|184285703|OTHER|||||||0.364|||||||Fisher Exact|||||||0.364
92193204|NCT01387815|184285704|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92193205|NCT01387815|184285705|OTHER|||||||0.723|||||||Fisher Exact|||||||0.723
92193206|NCT01387815|184285712|OTHER|||||||0.006|||||||t-test, 2 sided|||||||0.006
92193207|NCT01387815|184285713|OTHER|||||||0.672|||||||t-test, 2 sided|||||||0.672
92193208|NCT01387815|184285714|OTHER|||||||0.482|||||||t-test, 2 sided|||||||0.482
92193209|NCT01387815|184285715|OTHER|||||||0.938|||||||t-test, 2 sided|||||||0.938
92193210|NCT01387815|184285716|OTHER|||||||0.144|||||||t-test, 2 sided|||||||0.144
92193211|NCT01387815|184285717|OTHER|||||||0.36|||||||t-test, 2 sided|||||||0.360
92193212|NCT01387815|184285718|OTHER|||||||0.808|||||||t-test, 2 sided|||||||0.808
92193213|NCT01387815|184285719|OTHER|||||||0.208|||||||t-test, 2 sided|||||||0.208
92316694|NCT03349060|184536877|SUPERIORITY||Difference in LS mean|9.354||||0.1009|TWO_SIDED|95.0|-1.866|20.573|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||20.573|-1.866|0.1009
92316695|NCT03349060|184536877|SUPERIORITY||Difference in LS mean|6.071||||0.1915|TWO_SIDED|95.0|-3.107|15.249|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||15.249|-3.107|0.1915
92316696|NCT03349060|184536877|SUPERIORITY||Difference in LS mean|12.948||||0.0064|TWO_SIDED|95.0|3.754|22.143|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||22.143|3.754|0.0064
92316697|NCT03349060|184536878|SUPERIORITY||Difference in LS mean|3.6||||0.0102|TWO_SIDED|95.0|0.9|6.4||Analysis of covariance (ANCOVA) model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||6.4|0.9|0.0102
92316698|NCT03349060|184536878|SUPERIORITY||Difference in LS mean|4.5||||0.0013|TWO_SIDED|95.0|1.8|7.3||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||7.3|1.8|0.0013
92316699|NCT03349060|184536879|SUPERIORITY||Difference in LS mean|1.0||||0.5241|TWO_SIDED|95.0|-2.1|4.2||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||4.2|-2.1|0.5241
92193214|NCT01387815|184285720|OTHER|||||||0.184|||||||t-test, 2 sided|||||||0.184
92316700|NCT03349060|184536879|SUPERIORITY||Difference in LS mean|0.9||||0.5821|TWO_SIDED|95.0|-2.3|4.1||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||4.1|-2.3|0.5821
92316701|NCT03349060|184536880|SUPERIORITY||Difference in LS mean|3.8||||0.0013|TWO_SIDED|95.0|1.5|6.1||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||6.1|1.5|0.0013
92316702|NCT03349060|184536880|SUPERIORITY||Difference in LS mean|4.7|||<|0.0001|TWO_SIDED|95.0|2.4|7.0||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||7.0|2.4|<0.0001
92316703|NCT03349060|184536881|SUPERIORITY||Difference in LS mean|1.7||||0.2256|TWO_SIDED|95.0|-1.0|4.4||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||4.4|-1.0|0.2256
92316704|NCT03349060|184536881|SUPERIORITY||Difference in LS mean|3.0||||0.0275|TWO_SIDED|95.0|0.3|5.8||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||5.8|0.3|0.0275
92316705|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|3.9|||<|0.0001|TWO_SIDED|95.0|2.0|7.7||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||7.7|2.0|<0.0001
92193215|NCT01387815|184285721|OTHER|||||||0.305|||||||t-test, 2 sided|||||||0.305
92193216|NCT01387815|184285723|OTHER|||||||0.757|||||||t-test, 2 sided|||||||0.757
92193217|NCT01387815|184285724|OTHER|||||||0.321|||||||t-test, 2 sided|||||||0.321
92193218|NCT01387815|184285725|OTHER|||||||0.181|||||||t-test, 2 sided|||||||0.181
92193219|NCT01387815|184285726|OTHER|||||||0.395|||||||t-test, 2 sided|||||||0.395
92193220|NCT01387815|184285728|OTHER|||||||0.739|||||||t-test, 2 sided|||||||0.739
92193221|NCT01387815|184285729|OTHER|||||||0.291|||||||t-test, 2 sided|||||||0.291
92193222|NCT01649297|184285766|NON_INFERIORITY_OR_EQUIVALENCE|"Null hypotheses for non-inferiority:~H10: Mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 5 mg twice daily ≥ mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 10 mg once daily + 0.35%~H20: Mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 12.5 mg twice daily ≥ mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 25 mg once daily + 0. 35%"|Adjusted mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|-0.16|0.13||The two non-inferiority hypotheses H10 and H20 were tested using the Hochberg procedure in order to control the family-wise type I error at 0.025 (one-sided).|ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||The primary objective was to test the non-inferiority of empagliflozin 5 mg BID versus empagliflozin 10 mg QD, and non-inferiority of empagliflozin 12.5 mg BID versus empagliflozin 25 mg QD, assuming a non-inferiority margin of 0.35%||0.13|-0.16|<0.0001
92268578|NCT04636437|184439028|SUPERIORITY||Mean Difference (Net)|-1.49||||0.25|TWO_SIDED|97.5|-4.43|1.44||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry waist circumference, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in waist circumference from entry to week 48.||1.44|-4.43|0.25
92268579|NCT04636437|184439029|SUPERIORITY||Mean Difference (Net)|-0.16||||0.9|TWO_SIDED|97.5|-3.23|2.9||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry waist circumference, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in waist circumference from entry to week 24.||2.90|-3.23|0.90
92193223|NCT01649297|184285766|NON_INFERIORITY_OR_EQUIVALENCE|"Null hypotheses for non-inferiority:~H10: Mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 5 mg twice daily ≥ mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 10 mg once daily + 0.35%~H20: Mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 12.5 mg twice daily ≥ mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 25 mg once daily + 0. 35%"|Adjusted mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|-0.26|0.03||The two non-inferiority hypotheses H10 and H20 were tested using the Hochberg procedure in order to control the family-wise type I error at 0.025 (one-sided).|ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||The primary objective was to test the non-inferiority of empagliflozin 5 mg BID versus empagliflozin 10 mg QD, and non-inferiority of empagliflozin 12.5 mg BID versus empagliflozin 25 mg QD, assuming a non-inferiority margin of 0.35%||0.03|-0.26|<0.0001
92193224|NCT01649297|184285766|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.79|-0.44|||ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing HbA1c after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided).||-0.44|-0.79|<0.0001
92193225|NCT01649297|184285766|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.68|-0.32|||ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing HbA1c after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided).||-0.32|-0.68|<0.0001
92193226|NCT01649297|184285766|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.62|-0.27|||ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing HbA1c after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided).||-0.27|-0.62|<0.0001
92193227|NCT01649297|184285766|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.6|-0.25|||ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing HbA1c after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided).||-0.25|-0.60|<0.0001
92193228|NCT01649297|184285767|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.6|STANDARD_ERROR_OF_MEAN|2.8||||95.0|-9.0|1.8|||ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening (eGFR)\[MDRD\]value)-fixed effects and baseline HbA1c,baseline FPG-linear covariates||||1.8|-9.0|
92193229|NCT01649297|184285767|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.0|STANDARD_ERROR_OF_MEAN|2.8||||95.0|-10.4|0.5||The two non-inferiority hypotheses H10 and H20 were tested using the Hochberg procedure in order to control the family-wise type I error at 0.025 (one-sided).|ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening (eGFR)\[MDRD\]value)-fixed effects and baseline HbA1c,baseline FPG-linear covariates||||0.5|-10.4|
92193230|NCT01649297|184285767|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.5|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-34.2|-20.9|||ANCOVA|ANCOVA:'Treatment','geographical region','renal function'(screening(eGFR)\[MDRD\]value)-fixed effects and 'baseline HbA1c',baseline FPG-linear covariate||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing FPG after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided)||-20.9|-34.2|<0.0001
92193231|NCT01649297|184285767|SUPERIORITY_OR_OTHER||Adjusted mean difference|-22.5|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-29.2|-15.9|||ANCOVA|ANCOVA:'Treatment','geographical region','renal function'(screening(eGFR)\[MDRD\]value)-fixed effects and 'baseline HbA1c',baseline FPG-linear covariate||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing FPG after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided)||-15.9|-29.2|<0.0001
92193232|NCT01649297|184285767|SUPERIORITY_OR_OTHER||Adjusted mean difference|-21.1|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-27.7|-14.4|||ANCOVA|ANCOVA:'Treatment','geographical region','renal function'(screening(eGFR)\[MDRD\]value)-fixed effects and 'baseline HbA1c',baseline FPG-linear covariate||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing FPG after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided)||-14.4|-27.7|<0.0001
92193233|NCT01649297|184285767|SUPERIORITY_OR_OTHER||Adjusted mean difference|-17.5|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-24.1|-10.8|||ANCOVA|ANCOVA:'Treatment','geographical region','renal function'(screening(eGFR)\[MDRD\]value)-fixed effects and 'baseline HbA1c',baseline FPG-linear covariate||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing FPG after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided)||-10.8|-24.1|<0.0001
92316706|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.3|||<|0.0001|TWO_SIDED|95.0|0.1|0.6||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.6|0.1|<0.0001
92193234|NCT01685047|184285768|OTHER|There were no formal pre-specified statistical hypotheses for the endpoints of the study due to the exploratory nature of this study. Datasets (Device info at Baseline versus 15 minutes prior to the event) were compared using a 2-sided t-test.|||||<|0.05||||||All events with p \<0.05 were visually inspected to confirm they were evaluable; additional criteria for exclusion from further analysis included inappropriate therapy, aberrant conduction, and occurrence of VT/VF within 24h prior to the event.|t-test, 2 sided|||There were no formal pre-specified statistical hypotheses for the endpoints of the study due to the exploratory nature of this study. Some data was excluded from the primary analysis. All device detections resulting in therapy have been reviewed for appropriateness of the therapy. VT/VF therapy delivered from the device as a result of a non-ventricular arrhythmia or as a result of oversensing by the device has not been included in the primary data analysis.||||<0.05
92193235|NCT02847637|184285777|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.02|0.075||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value was obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm A is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm A versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm A versus Arm C ≠ 1.||0.075|0.020|<0.0001
92193236|NCT02847637|184285777|SUPERIORITY||ABR Ratio|0.03|||<|0.0001|TWO_SIDED|95.0|0.017|0.066||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value was obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm B is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm B versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm B versus Arm C ≠ 1.||0.066|0.017|<0.0001
92193237|NCT02847637|184285778|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.028|0.099||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value was obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm A is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm A versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm A versus Arm C ≠ 1.||0.099|0.028|<0.0001
92193238|NCT02847637|184285778|SUPERIORITY||ABR Ratio|0.06|||<|0.0001|TWO_SIDED|95.0|0.03|0.103||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value was obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm B is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm B versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm B versus Arm C ≠ 1.||0.103|0.030|<0.0001
92193239|NCT02847637|184285779|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.019|0.085||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value is obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm A is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm A versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm A versus Arm C ≠ 1.||0.085|0.019|<0.0001
92193240|NCT02847637|184285779|SUPERIORITY||ABR Ratio|0.03|||<|0.0001|TWO_SIDED|95.0|0.015|0.07||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value is obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm B is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm B versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm B versus Arm C ≠ 1.||0.070|0.015|<0.0001
92193241|NCT02847637|184285780|SUPERIORITY||ABR Ratio|0.06|||<|0.0001|TWO_SIDED|95.0|0.025|0.151||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value is obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm A is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm A versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm A versus Arm C ≠ 1.||0.151|0.025|<0.0001
92193242|NCT02847637|184285780|SUPERIORITY||ABR Ratio|0.02|||<|0.0001|TWO_SIDED|95.0|0.006|0.056||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value is obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm B is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm B versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm B versus Arm C ≠ 1.||0.056|0.006|<0.0001
92193243|NCT02847637|184285781|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.016|0.143||Not controlled for type I error|Stratified Wald test||Arm A is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm A versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm A versus Arm C ≠ 1.||0.143|0.016|<0.0001
92316707|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|1.5||||0.6334|TWO_SIDED|95.0|0.8|3.0||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||3.0|0.8|0.6334
92193244|NCT02847637|184285781|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.018|0.147||Not controlled for type I error|Stratified Wald test||Arm B is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm B versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm B versus Arm C ≠ 1.||0.147|0.018|<0.0001
92193245|NCT02847637|184285782|SUPERIORITY||ABR Ratio|0.32|||<|0.0001|TWO_SIDED|95.0|0.195|0.514||Statistical significance is controlled at the 2-sided, 0.05 alpha level.|Non-stratified Wald test||Dnisp: Emicizumab Prophylaxis is the numerator and Dnisp: Pre-Study FVIII Prophylaxis is the denominator for this ABR ratio.|H0 (null hypothesis): ABR Ratio = 1. H1 (alternative hypothesis): ABR Ratio ≠ 1.||0.514|0.195|<0.0001
92316708|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.6||||0.8065|TWO_SIDED|95.0|0.2|1.6||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||1.6|0.2|0.8065
92193246|NCT02847637|184285783|SUPERIORITY||ABR Ratio|0.37||||0.0002|TWO_SIDED|95.0|0.22|0.626||Statistical significance is controlled at the 2-sided, 0.05 alpha level.|Non-stratified Wald test||Dnisp: Emicizumab Prophylaxis is the numerator and Dnisp: Pre-Study FVIII Prophylaxis is the denominator for this ABR ratio.|H0 (null hypothesis): ABR Ratio = 1. H1 (alternative hypothesis): ABR Ratio ≠ 1.||0.626|0.220|0.0002
92193247|NCT02847637|184285784|SUPERIORITY||ABR Ratio|0.03|||<|0.0001|TWO_SIDED|95.0|0.014|0.067||Not controlled for type I error|Non-stratified Wald test||Arm A+Bnise: Emicizumab Prophylaxis is the numerator and Arm A+Bnise: Pre-Study Episodic FVIII is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio = 1. H1 (alternative hypothesis): ABR Ratio ≠ 1.||0.067|0.014|<0.0001
92193248|NCT02847637|184285785|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.023|0.068||Not controlled for type I error|Non-stratified Wald test||Arm A+Bnise: Emicizumab Prophylaxis is the numerator and Arm A+Bnise: Pre-Study Episodic FVIII is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio = 1. H1 (alternative hypothesis): ABR Ratio ≠ 1.||0.068|0.023|<0.0001
92193249|NCT02847637|184285786|SUPERIORITY||Mean Difference (Final Values)|12.51||||0.0891|TWO_SIDED|95.0|-1.96|26.98||Statistical significance is controlled at the 2-sided, 0.05 alpha level.|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm A.|||26.98|-1.96|0.0891
92193250|NCT02847637|184285786|SUPERIORITY||Mean Difference (Final Values)|15.97||||0.0349|TWO_SIDED|95.0|1.16|30.78||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm B.|||30.78|1.16|0.0349
92193251|NCT02847637|184285787|SUPERIORITY||Mean Difference (Final Values)|5.91||||0.1269|TWO_SIDED|95.0|-1.72|13.55||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm A.|||13.55|-1.72|0.1269
92193252|NCT02847637|184285787|SUPERIORITY||Mean Difference (Final Values)|8.56||||0.0317|TWO_SIDED|95.0|0.77|16.35||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm B.|||16.35|0.77|0.0317
92193253|NCT02847637|184285788|SUPERIORITY||Mean Difference (Final Values)|-4.04||||0.3402|TWO_SIDED|95.0|-12.43|4.35||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm A.|||4.35|-12.43|0.3402
92193254|NCT02847637|184285788|SUPERIORITY||Mean Difference (Final Values)|-9.15||||0.0373|TWO_SIDED|95.0|-17.74|-0.55||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm B.|||-0.55|-17.74|0.0373
92193255|NCT02847637|184285789|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.006|TWO_SIDED|95.0|-0.22|-0.04||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm A.|||-0.04|-0.22|0.0060
92193256|NCT02847637|184285789|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.0059|TWO_SIDED|95.0|-0.23|-0.04||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm B.|||-0.04|-0.23|0.0059
92193257|NCT03036150|184285833|SUPERIORITY||Hazard Ratio (HR)|0.61|||<|0.0001||95.0|0.51|0.72|||Regression, Cox|Stratified by randomization stratification of Type 2 Diabetes and urine albumin creatinine ratio and adjusting for baseline eGFR.||||0.72|0.51|< 0.0001
92193258|NCT03036150|184285834|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001||95.0|0.45|0.68|||Regression, Cox|Stratified by randomization stratification of Type 2 Diabetes and urine albumin creatinine ratio and adjusting for baseline eGFR.||||0.68|0.45|< 0.0001
92193259|NCT03036150|184285835|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0089||95.0|0.55|0.92|||Regression, Cox|Stratified by randomization stratification of Type 2 Diabetes and urine albumin creatinine ratio and adjusting for baseline eGFR.||||0.92|0.55|0.0089
92193260|NCT03036150|184285836|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0035||95.0|0.53|0.88|||Regression, Cox|Stratified by randomization stratification of Type 2 Diabetes and urine albumin creatinine ratio and adjusting for baseline eGFR.||||0.88|0.53|0.0035
92193261|NCT01318538|184285838|SUPERIORITY_OR_OTHER|||||||0.821|TWO_SIDED|95.0|||||loglinear (negative binomial) regression|Analyzed using loglinear (negative binomial) regression models with estimation via generalized estimating equations (relative changes i.e. % change)||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction.The study was powered for the primary analysis concerning treatment group differences in the degree of improvement in the number of days of any substance use and in the Addiction Severity Index (ASI) composite scores. With a total of 100 women, the study was adequately powered to detect a minimum 5 day benefit in the # of days of any substance use (power = 83%).||||0.821
92193262|NCT01318538|184285839|SUPERIORITY_OR_OTHER|||||||0.519|||||||loglinear (negative binomial) regression|We used loglinear (negative binomial) regression models with estimation via generalized estimating equations (GEE).||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction. Note: Women in both WRG and GDC groups had significant (p\<0.0001 reductions in mean # of alcohol use days during treatment (9.9 and 12.4 day reductions for WRG and GDC respectively) and at 6 months post-treatment (8.3 and 12.2 day reductions).||||0.519
92193263|NCT01318538|184285840|SUPERIORITY_OR_OTHER|||||||0.253|TWO_SIDED|95.0|||||Linear mixed effect models|This measure was analyzed using using linear mixed effect models with estimation via restricted maximum likelihood (absolute changes in the mean).||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction. The study was powered for the primary analysis concerning treatment group differences in the degree of improvement in the number of days of any substance use and in the Addiction Severity Index (ASI) composite scores.With 100 women (50 in each treatment group), the study was adequately powered to detect a 0.2 benefit in the ASI drug and alcohol composite scores (power = 94%).||||0.253
92193264|NCT01318538|184285841|SUPERIORITY_OR_OTHER|||||||0.667|TWO_SIDED|95.0|||||Linear mixed effect models|This measure was analyzed using using linear mixed effect models with estimation via restricted maximum likelihood (absolute changes in the mean).||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction. The study was powered for the primary analysis concerning treatment group differences in the degree of improvement in the number of days of any substance use and in the Addiction Severity Index (ASI) composite scores.With 100 women (50 in each treatment group), the study was adequately powered to detect a 0.2 benefit in the ASI drug and alcohol composite scores (power = 94%).||||0.667
92193265|NCT01318538|184285843|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92193266|NCT01318538|184285844|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92193267|NCT01318538|184285845|SUPERIORITY_OR_OTHER|||||||0.464|||||||loglinear (negative binomial) regression|We used loglinear (negative binomial) regression models with estimation via generalized estimating equations (GEE).||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction. Note: Women in both WRG and GDC groups had significant (p\<0.05) reductions in mean number of drug use days during treatment (3.0 and 1.5 day reductions for WRG and GDC respectively); however at 6 months post-treatment, the reductions were significant for WRG (2.8 day reduction; p\<0.05) but not for GDC (1.5 day reduction; p\>0.01).||||0.464
92193268|NCT01318538|184285846|SUPERIORITY_OR_OTHER|||||||0.904|||||||loglinear (negative binomial) regression|We used loglinear (negative binomial) regression models with estimation via generalized estimating equations (GEE).||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction. Note: Women in both WRG and GDC groups had significant (p\<0.0001) reductions in mean number of heavy drinking days during treatment (8.6 and 12.1 days reduction for WRG and GDC, respectively) and at 6 months post-treatment (8.0 and 11.8 day reductions).||||0.904
92193269|NCT01318538|184285847|SUPERIORITY_OR_OTHER|||||||0.799|||||||linear mixed effect model|This measure was analyzed using using linear mixed effect models with estimation via restricted maximum likelihood (absolute changes in the mean).||The models included the effects of treatment group, phase (3 levels), and the treatment by phase interaction. Note: Women in both the WRG and GDC groups had significant (p\<0.05) reductions in mean number of drinks per drinking day only during the in treatment phase (2.0 and 2.9 reductions for WRG and GDC, respectively).||||0.799
92193270|NCT00570921|184285853|SUPERIORITY_OR_OTHER||Median Time to Progression|7.4|||||TWO_SIDED|95.0|1.9|12.1||||||We hypothesized that median time to progression (TTP) in our trial will increase from 3.7 months for the historical fulvestrant-only control to 7.0 months on the combination of fulvestrant and everolimus in the current trial. A sample of 40 evaluable patients was calculated to show the increase in TTP with 80% power and 5% significance level based on a two sided test of differences in survival times between historical controls and treated group.||12.1|1.9|
92193271|NCT00570921|184285854|SUPERIORITY_OR_OTHER||Response Rate Percentage|12.9|||||TWO_SIDED|95.0|3.63|29.83|||||Percentage of Patients with a complete or partial response with 95% exact binomial proportion confidence interval|||29.83|3.63|
92193272|NCT00570921|184285855|SUPERIORITY_OR_OTHER||Percentage with clinical benefit|48.39|||||TWO_SIDED|95.0|30.15|66.94|||||Percentage of patients that had a complete response, partial response, or stable disease for 24 weeks or more as defined by RECIST v1.0.|||66.94|30.15|
92193273|NCT02447432|184285867|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.09|||||TWO_SIDED|95.0|0.89|1.33||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-1 serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.33|0.89|
92193274|NCT02447432|184285867|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|0.92|||||TWO_SIDED|95.0|0.75|1.12||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-4 serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.12|0.75|
92193275|NCT02447432|184285867|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.03|||||TWO_SIDED|95.0|0.85|1.26||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-5 serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.26|0.85|
92193276|NCT02447432|184285867|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.12|||||TWO_SIDED|95.0|0.78|1.61||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-6B serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.61|0.78|
92193277|NCT02447432|184285867|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.05|||||TWO_SIDED|95.0|0.88|1.25||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-7F serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.25|0.88|
92316709|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|10.0|||<|0.0001|TWO_SIDED|95.0|3.8|26.6||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||26.6|3.8|<0.0001
92193278|NCT02447432|184285867|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|0.88|||||TWO_SIDED|95.0|0.69|1.13||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-9V serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.13|0.69|
92193279|NCT02447432|184285867|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|0.98|||||TWO_SIDED|95.0|0.73|1.31||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-14 serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.31|0.73|
92193280|NCT02447432|184285867|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.08|||||TWO_SIDED|95.0|0.86|1.37||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-18C serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.37|0.86|
92193281|NCT02447432|184285867|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|0.99|||||TWO_SIDED|95.0|0.78|1.25||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-19F serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.25|0.78|
92193282|NCT02447432|184285867|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.28|||||TWO_SIDED|95.0|0.92|1.8||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-23F serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.80|0.92|
92193283|NCT03231969|184285910|SUPERIORITY||Mean Difference (Final Values)|-0.791||||0.0002|TWO_SIDED|95.0|-1.203|-0.378|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.2% arm minus Bilastine 0% (Vehicle) arm at Visit 4b (including all time points).||-0.378|-1.203|0.0002
92193284|NCT03231969|184285910|SUPERIORITY||Mean Difference (Final Values)|-0.851|||<|0.0001|TWO_SIDED|95.0|-1.263|-0.439|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.4% arm minus Bilastine 0% (Vehicle) arm at Visit 4b (including all time points).||-0.439|-1.263|<.0001
92193285|NCT03231969|184285910|SUPERIORITY||Mean Difference (Final Values)|-1.545|||<|0.0001|TWO_SIDED|95.0|-1.954|-1.135|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.6% arm minus Bilastine 0% (Vehicle) arm at Visit 4b (including all time points).||-1.135|-1.954|<.0001
92193286|NCT03231969|184285910|SUPERIORITY||Mean Difference (Final Values)|-1.208|||<|0.0001|TWO_SIDED|95.0|-1.639|-0.778|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.2% arm minus Bilastine 0% (Vehicle) arm at Visit 5b (including all time points).||-0.778|-1.639|<.0001
92193287|NCT03231969|184285910|SUPERIORITY||Mean Difference (Final Values)|-1.245|||<|0.0001|TWO_SIDED|95.0|-1.679|-0.811|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.4% arm minus Bilastine 0% (Vehicle) arm at Visit 5b (including all time points).||-0.811|-1.679|<.0001
92193288|NCT03231969|184285910|SUPERIORITY||Mean Difference (Final Values)|-1.846|||<|0.0001|TWO_SIDED|95.0|-2.273|-1.418|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.6% arm minus Bilastine 0% (Vehicle) arm at Visit 5b (including all time points).||-1.418|-2.273|<.0001
92193289|NCT03231969|184285910|SUPERIORITY||Mean Difference (Final Values)|-1.696|||<|0.0001|TWO_SIDED|95.0|-2.08|-1.312|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.2% arm minus Bilastine 0% (Vehicle) arm at Visit 6 (including all time points).||-1.312|-2.080|<.0001
92316710|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.0|0.3||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.3|0.0|<0.0001
92316711|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.0|0.3||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.3|0.0|<0.0001
92316712|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.0|0.1||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.1|0.0|<0.0001
92193290|NCT03231969|184285910|SUPERIORITY||Mean Difference (Final Values)|-1.617|||<|0.0001|TWO_SIDED|95.0|-2.001|-1.232|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.4% arm minus Bilastine 0% (Vehicle) arm at Visit 6 (including all time points).||-1.232|-2.001|<.0001
92193291|NCT03231969|184285910|SUPERIORITY||Mean Difference (Final Values)|-2.009|||<|0.0001|TWO_SIDED|95.0|-2.387|-1.63|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.6% arm minus Bilastine 0% (Vehicle) arm at Visit 6 (including all time points).||-1.630|-2.387|<.0001
92193292|NCT02561806|184285914|NON_INFERIORITY|Non-inferiority margin was -12.6% for 97.5% confidence interval|Risk Difference (RD)|0.321|||<|0.001|TWO_SIDED|97.5|0.198|0.445|||Regression, Logistic|||||0.445|0.198|<0.001
92193293|NCT02561806|184285915|SUPERIORITY||Risk Ratio (RR)|1.285|||<|0.001|TWO_SIDED|95.0|1.13|1.439|||Regression, Logistic|||||1.439|1.130|<0.001
92193294|NCT02561806|184285916|SUPERIORITY||Risk Ratio (RR)|2.699||||0.009|TWO_SIDED|95.0|1.423|3.975|||Regression, Logistic|||||3.975|1.423|0.009
92193295|NCT02561806|184285917|SUPERIORITY||Risk Ratio (RR)|1.469|||<|0.001|TWO_SIDED|95.0|1.244|1.695|||Regression, Logistic|||||1.695|1.244|<0.001
92193296|NCT02561806|184285918|SUPERIORITY||Risk Ratio (RR)|3.421||||0.021|TWO_SIDED|95.0|1.353|5.488|||Regression, Logistic|||||5.488|1.353|0.021
92193297|NCT02561806|184285925|SUPERIORITY||Risk Ratio (RR)|1.391||||0.012|TWO_SIDED|95.0|1.085|1.698|||Regression, Logistic|||||1.698|1.085|0.012
92316713|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.4||||0.0011|TWO_SIDED|95.0|0.2|0.8||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.8|0.2|0.0011
92193298|NCT00002597|184285954|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.0309|TWO_SIDED|95.0|1.01|1.35|||Log Rank||Reference level = Hormone Therapy + Radiation Therapy|Null hypothesis: 8-year OS rate of 60% radiation therapy (RT) alone vs. 67% with hormone therapy. The study was designed with 90% power to detect a 7-percentage- point absolute difference in the 8-year survival rate, with the use of a one-sided log-rank test at the 0.025 significance level, requiring 1980 patients and 716 deaths for definitive analysis.||1.35|1.01|0.0309
92193299|NCT00002597|184285955|SUPERIORITY||Hazard Ratio (HR)|1.86||||0.001|TWO_SIDED|95.0|1.27|2.74|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||2.74|1.27|0.001
92193300|NCT00002597|184285956|SUPERIORITY||Hazard Ratio (HR)|1.5||||0.0013|TWO_SIDED|95.0|1.17|1.93|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||1.93|1.17|0.0013
92193301|NCT00002597|184285957|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.035|TWO_SIDED|95.0|1.03|2.06|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||2.06|1.03|0.035
92193302|NCT00002597|184285958|SUPERIORITY||Hazard Ratio (HR)|1.74|||<|0.001|TWO_SIDED|95.0|1.48|2.04|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||2.04|1.48|<0.001
92193303|NCT00002597|184285959|SUPERIORITY||Hazard Ratio (HR)|1.5|||<|0.001|TWO_SIDED|95.0|1.21|1.85|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||1.85|1.21|<0.001
92193304|NCT00002597|184285960|SUPERIORITY||Hazard Ratio (HR)|2.06|||<|0.001|TWO_SIDED|95.0|1.34|3.16|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||3.16|1.34|<0.001
92193305|NCT00002597|184285961|SUPERIORITY||Hazard Ratio (HR)|1.38|||<|0.001|TWO_SIDED|95.0|1.22|1.56|||Log Rank||Reference level = Hormone Therapy + Radiation Therapy|Treatment arms were compared using the log-rank test (one-sided significance level of 0.025).||1.56|1.22|<0.001
92193306|NCT00002597|184285962|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92193307|NCT05324007|184285976|EQUIVALENCE|Estimated effect size was based on Liberman et al. (2017) that found a partial eta squared of .478 for the interaction between different-language and same-language conditions. Using G\*power using an alpha of .05, our target sample size of 30 per condition should provide 99.73% power to detect the main effect in the White-White and Black-Black condition and 99.99% power to detect the main effect in the Black-White condition.|partial eta squared|0.062|||<|0.05|TWO_SIDED||||||ANOVA|||We will examine whether looking time at affiliation will be greater when looking at Black-White interactions than at White-White or Black-Black interactions. That is, we will test if infants will be more surprised (look longer) by affiliation between different-race people interacting than same race people interacting. We will conduct a mixed ANOVA with conditions (Black-White, White-White, Black-Black) as a between-subject and test type (affiliation vs. disengagement) as within-subject factors.||||<.05
92193308|NCT00510146|184285980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15||||0.018|TWO_SIDED|95.0|-3.93|-0.36||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in MADRS total score from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.36|-3.93|0.018
92193309|NCT00510146|184285981|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with symptomatic response at endpoint from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.050
92193310|NCT00510146|184285982|SUPERIORITY_OR_OTHER|||||||0.367||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with symptomatic remission at any time from a Cochran-Mantel-Haenszel test using region as strata.|Cochran-Mantel-Haenszel|||||||0.367
92193311|NCT00510146|184285983|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.11||||0.008|TWO_SIDED|95.0|-0.2|-0.03||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in CGI-BP Mania score from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.03|-0.20|0.008
92193312|NCT00510146|184285983|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.24||||0.037|TWO_SIDED|95.0|-0.47|-0.01||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in CGI-BP Depression score from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.01|-0.47|0.037
92193313|NCT00510146|184285983|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.3||||0.008|TWO_SIDED|95.0|-0.53|-0.08||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in CGI-BP Overall score from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.08|-0.53|0.008
92193314|NCT00510146|184285984|SUPERIORITY_OR_OTHER|||||||0.156||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with recovery from a Cochran-Mantel-Haenszel test using region as strata.|Cochran-Mantel-Haenszel|||||||0.156
92193315|NCT00510146|184285985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99|||<|0.001|TWO_SIDED|95.0|-1.56|-0.43||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.43|-1.56|<0.001
92193316|NCT00510146|184285986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.21||||0.002|TWO_SIDED|95.0|-3.61|-0.81||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.81|-3.61|0.002
92193317|NCT00510146|184285987|SUPERIORITY_OR_OTHER|||||||0.297||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with major depressive episode from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.297
92193318|NCT00510146|184285987|SUPERIORITY_OR_OTHER|||||||0.264||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with major depressive episode with melancholic features from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.264
92193319|NCT00510146|184285988|SUPERIORITY_OR_OTHER|||||||0.195||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with current hypomanic episode from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.195
92193320|NCT00510146|184285989|SUPERIORITY_OR_OTHER|||||||0.163||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with current psychotic disorders from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.163
92193321|NCT00510146|184285989|SUPERIORITY_OR_OTHER|||||||0.442||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with current mood disorders with psychotic features from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.442
92193322|NCT00510146|184285990|SUPERIORITY_OR_OTHER|||||||1||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with current alcohol dependence from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||1.00
92193323|NCT00510146|184285990|SUPERIORITY_OR_OTHER|||||||0.324||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with current alcohol abuse from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.324
92193324|NCT00510146|184285992|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with emergence of mania at endpoint from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.031
92193325|NCT00510146|184285993|SUPERIORITY_OR_OTHER|||||||0.269||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with EPS symptoms (akathisia) at endpoint from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.269
92193326|NCT00510146|184285993|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with EPS symptoms (parkinsonism) at endpoint from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.736
92193327|NCT00510146|184285994|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-standing systolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.146
92316714|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.2|||<|0.0001|TWO_SIDED|95.0|0.1|0.4||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.4|0.1|<0.0001
92316715|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|2.6||||0.0718|TWO_SIDED|95.0|1.0|6.9||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||6.9|1.0|0.0718
92316716|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.4||||0.0593|TWO_SIDED|95.0|0.1|1.0||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||1.0|0.1|0.0593
92316717|NCT02861586|184536883|SUPERIORITY||Gemetric mean ratio|0.4||||0.0593|TWO_SIDED|95.0|0.1|1.0||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||1.0|0.1|0.0593
92193328|NCT00510146|184285994|SUPERIORITY_OR_OTHER|||||||0.249||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-sitting systolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.249
92193329|NCT00510146|184285994|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-standing diastolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.146
92193330|NCT00510146|184285994|SUPERIORITY_OR_OTHER|||||||0.271||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-sitting diastolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.271
92193331|NCT00510146|184285994|SUPERIORITY_OR_OTHER|||||||0.284||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-orthostatic change in systolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.284
92193332|NCT00510146|184285994|SUPERIORITY_OR_OTHER|||||||0.067||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-orthostatic change in diastolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.067
92193333|NCT00510146|184285995|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in weight from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||<0.001
92193334|NCT00510146|184285996|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in fasting glucose from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.179
92193335|NCT00510146|184285996|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in cholesterol from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||<0.001
92193336|NCT00510146|184285996|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in triglycerides from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.003
92193337|NCT00510146|184285996|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in LDL cholesterol from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||<0.001
92193338|NCT00510146|184285996|SUPERIORITY_OR_OTHER|||||||0.095||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in HDL cholesterol from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.095
92193339|NCT00510146|184285997|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in albumin from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||0.001
92193340|NCT00510146|184285998|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in ALT/SGPT from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193341|NCT00510146|184285998|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in AST/SGOT from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||0.001
92193342|NCT00510146|184285998|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in GGT from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193343|NCT00510146|184285999|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in direct bilirubin from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193344|NCT00510146|184285999|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in total bilirubin from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193345|NCT00510146|184285999|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in uric acid from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193346|NCT00510146|184286000|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in erythrocyte count from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||0.003
92193347|NCT00510146|184286001|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in hematocrit from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||0.001
92193348|NCT00510146|184286002|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in hemoglobin A1c from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||0.009
92316718|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|5.2|||<|0.0001|TWO_SIDED|95.0|2.6|10.4||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||10.4|2.6|<0.0001
92193349|NCT00510146|184286003|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in hemoglobin from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193350|NCT00510146|184286004|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in prolactin from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193351|NCT00510146|184286005|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in urinalysis-specific gravity from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193352|NCT00510146|184286006|SUPERIORITY_OR_OTHER|||||||0.104||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in QTcF interval from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.104
92193353|NCT00510146|184286006|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in QTcB interval from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.006
92193354|NCT00510146|184286007|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in heart rate from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.035
92193355|NCT00510146|184286008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.943|TWO_SIDED|95.0|-0.59|0.64||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint for MINI Suicidality Total Score from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||0.64|-0.59|0.943
92193356|NCT00510146|184286016|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||p-value represents change from baseline to endpoint-standing diastolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.736
92193357|NCT00510146|184286016|SUPERIORITY_OR_OTHER|||||||0.944||95.0||||p-value represents change from baseline to endpoint-sitting diastolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.944
92193358|NCT00510146|184286016|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||p-value represents change from baseline to endpoint-standing systolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.080
92193359|NCT00510146|184286016|SUPERIORITY_OR_OTHER|||||||0.612||95.0||||p-value represents change from baseline to endpoint-sitting systolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.612
92193360|NCT00510146|184286016|SUPERIORITY_OR_OTHER|||||||0.64||95.0||||p-value represents change from baseline to endpoint-orthostatic change in diastolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.640
92193361|NCT00510146|184286016|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||p-value represents change from baseline to endpoint-orthostatic change in systolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.122
92193362|NCT00510146|184286017|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for weight from t-tests on change.|t-test, 2 sided|||||||<0.001
92193363|NCT00510146|184286018|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for albumin from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193364|NCT00510146|184286018|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value represents change from baseline to endpoint for total protein from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.002
92193365|NCT00510146|184286019|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value represents change from baseline to endpoint for alkaline phosphatase from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.002
92316719|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|2.2||||0.2005|TWO_SIDED|95.0|0.8|5.7||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||5.7|0.8|0.2005
92316720|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|35.0|||<|0.0001|TWO_SIDED|95.0|13.1|93.1||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||93.1|13.1|<0.0001
92316721|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.1||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.1|0.0|<0.0001
92316722|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.0|||<|0.0001|TWO_SIDED|0.0|0.0|0.1|||ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.1|0.0|<0.0001
92316723|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.4||||0.1138|TWO_SIDED|95.0|0.2|1.1||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||1.1|0.2|0.1138
92316724|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|6.7|||<|0.0001|TWO_SIDED|95.0|2.5|18.1||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||18.1|2.5|<0.0001
92316725|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.1|0.4||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.4|0.1|<0.0001
92316726|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.1|0.4||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.4|0.1|<0.0001
92193366|NCT00510146|184286019|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||p-value represents change from baseline to endpoint for CPK from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.010
92193367|NCT00510146|184286019|SUPERIORITY_OR_OTHER|||||||0.354||95.0||||p-value represents change from baseline to endpoint for GGT from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.354
92193368|NCT00510146|184286020|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||p-value represents change from baseline to endpoint for chlorine from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.010
92193369|NCT00510146|184286021|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for creatinine from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92316727|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|16.0|||<|0.0001|TWO_SIDED|95.0|4.9|52.4||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||52.4|4.9|<0.0001
92316728|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.0|0.2||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.2|0.0|<0.0001
92316729|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.0|0.2||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.2|0.0|<0.0001
92193370|NCT00510146|184286022|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||p-value represents change from baseline to endpoint for erythrocyte count from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.021
92193371|NCT00510146|184286023|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||p-value represents change from baseline to endpoint for hemoglobin from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.035
92193372|NCT00510146|184286024|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||p-value represents change from baseline to endpoint for platelet count from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.024
92193373|NCT00510146|184286025|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for prolactin from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193374|NCT00510146|184286026|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for uric acid from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||<0.001
92193375|NCT00510146|184286027|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||p-value represents change from baseline to endpoint for fasting glucose from t-tests on change.|t-test, 2 sided|||||||0.047
92193376|NCT00510146|184286027|SUPERIORITY_OR_OTHER|||||||0.13||95.0||||p-value represents change from baseline to endpoint for cholesterol from t-tests on change.|t-test, 2 sided|||||||0.130
92193377|NCT00510146|184286027|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||p-value represents change from baseline to endpoint for triglycerides from t-tests on change.|t-test, 2 sided|||||||0.055
92193378|NCT00510146|184286027|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||p-value represents change from baseline to endpoint for LDL cholesterol from t-tests on change.|t-test, 2 sided|||||||0.049
92193379|NCT00510146|184286027|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for HDL cholesterol from t-tests on change.|t-test, 2 sided|||||||<0.001
92193380|NCT00510146|184286028|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||p-value represents change from baseline to endpoint for QTcF from t-test.|t-test, 2 sided|||||||0.023
92193381|NCT00510146|184286028|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||p-value represents change from baseline to endpoint for QTcB from t-test.|t-test, 2 sided|||||||0.044
92193382|NCT00510146|184286029|SUPERIORITY_OR_OTHER|||||||0.919||95.0||||p-value represents change from baseline to endpoint for heart rate from t-test.|t-test, 2 sided|||||||0.919
92193383|NCT02573883|184286064|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
92193384|NCT02573883|184286065|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
92193385|NCT02573883|184286067|SUPERIORITY|||||||0.011|||||||Chi-squared|||||||0.011
92193386|NCT02573883|184286069|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
92316730|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|1.0||||1|TWO_SIDED|95.0|0.3|3.3||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||3.3|0.3|1.0000
92316731|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|1.0||||1|TWO_SIDED|95.0|0.3|3.3||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||3.3|0.3|1.0000
92316732|NCT02861586|184536883|SUPERIORITY||Geometric mean ratio|1.0||||1|TWO_SIDED|95.0|0.3|3.2||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||3.2|0.3|1.0000
92316733|NCT02861586|184536892|SUPERIORITY||Geometric mean ratio|0.9||||0.9775|TWO_SIDED|95.0|0.4|2.0|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||2.0|0.4|0.9775
92193387|NCT00582114|184286080|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.36||||0.001|TWO_SIDED|95.0|1.36|4.23|||Mixed Models Analysis|||Cardiovascular events were counted by subject and included the following: myocardial infarction, stroke, hospitalization for congestive heart failure, hospitalized angina, arrhythmias, cardiac arrest, coronary revascularization and heart valve replacement. The duration of participation in the study per subject, which according to the trial design could be up to 12 months, was determined. Incidence rate ratio (IRR) by treatment was then determined along with the 95%confidence intervals (95% CIs).||4.23|1.36|0.001
92193388|NCT00582114|184286080|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.29||||0.02|TWO_SIDED|95.0|1.07|5.21|||Mixed Models Analysis|||As a post hoc analysis, we determined the narrower definition of cardiovascular events per group that included myocardial infarction, stroke, congestive heart failure or cardiovascular death. The duration of participation in the study per subject, which according to the trial design could be up to 12 months, was determined. Incidence rate ratio (IRR) by treatment was then determined along with the 95%confidence intervals (95% CIs).||5.21|1.07|0.02
92193389|NCT00582114|184286080|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.13||||0.02|TWO_SIDED|95.0|1.08|10.99|||Mixed Models Analysis|||Hospitalization for congestive heart failure between groups was analyzed. The duration of participation in the study per subject, which according to the trial design could be up to 12 months, was determined. Incidence rate ratio (IRR) by treatment was then determined along with the 95%confidence intervals.||10.99|1.08|0.02
92193390|NCT00582114|184286080|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.61||||0.002|TWO_SIDED|95.0|1.18|2.19|||Mixed Models Analysis|||All-cause hospitalizations between groups were analyzed. The duration of participation in the study per subject, which according to the trial design could be up to 12 months, was determined. Incidence rate ratio (IRR) by treatment was then determined along with the 95%confidence intervals.||2.19|1.18|0.002
92316734|NCT02861586|184536892|SUPERIORITY||Geometric mean ratio|1.3||||0.8366|TWO_SIDED|95.0|0.6|3.1|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||3.1|0.6|0.8366
92316735|NCT02861586|184536892|SUPERIORITY||Geometric mean ratio|1.5||||0.5625|TWO_SIDED|95.0|0.7|3.6|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||3.6|0.7|0.5625
92316736|NCT02861586|184536892|SUPERIORITY||Geometric mean ratio|1.5||||0.5924|TWO_SIDED|95.0|0.6|3.5|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||3.5|0.6|0.5924
92316737|NCT02861586|184536892|SUPERIORITY||Geometric mean ratio|1.8||||0.3122|TWO_SIDED|95.0|0.8|4.1|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||4.1|0.8|0.3122
92316738|NCT02861586|184536892|SUPERIORITY||Geometric mean ratio|1.2||||0.9665|TWO_SIDED|95.0|0.5|2.8|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||2.8|0.5|0.9665
92193391|NCT00130728|184286096|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.7583||95.0|0.799|1.177||relative to placebo arm|Log Rank||Stratified analysis; Hazard ratio is relative to placebo arm.|||1.177|0.799|0.7583
92193392|NCT00130728|184286097|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.623|||<|0.0001||95.0|0.519|0.748||relative to placebo arm|Log Rank||Stratified analysis; hazard ratio is relative to placebo arm.|||0.748|0.519|<.0001
92193393|NCT00130728|184286098|SUPERIORITY_OR_OTHER_LEGACY||Percentage difference|6.4||||0.0068||95.0|1.8|11.3||Relative to placebo arm|Mantel Haenszel||Difference in objective response rates relative to placebo arm|||11.3|1.8|0.0068
92193394|NCT02341599|184286106|OTHER|LS mean ratio of Group B/Group A|LS mean ratio|1.29|||||TWO_SIDED|90.0|1.06|1.58|||||LS mean ratio was calculated from analysis of variance (ANOVA) model.|||1.58|1.06|
92193395|NCT02341599|184286106|OTHER|LS mean ratio of Group C/Group A|LS mean ratio|1.08|||||TWO_SIDED|90.0|0.889|1.32|||||LS mean ratio was calculated from ANOVA model.|||1.32|0.889|
92193396|NCT02341599|184286106|OTHER|LS mean ratio of Group D/Group A|LS mean ratio|2.51|||||TWO_SIDED|90.0|2.06|3.06|||||LS mean ratio was calculated from ANOVA model.|||3.06|2.06|
92193397|NCT02341599|184286106|OTHER|LS mean ratio of Group E: Period 1/Group A|LS mean ratio|0.989|||||TWO_SIDED|90.0|0.806|1.21|||||LS mean ratio was calculated from ANOVA model.|||1.21|0.806|
92193398|NCT02341599|184286106|OTHER|LS mean ratio of Group E: Period 2/Group A|LS mean ratio|3.27|||||TWO_SIDED|90.0|2.67|4.02|||||LS mean ratio was calculated from ANOVA model.|||4.02|2.67|
92193399|NCT02341599|184286106|OTHER|LS mean ratio of Group E: Period 1/Group E: Period 2|LS mean ratio|0.299|||||TWO_SIDED|90.0|0.236|0.378|||||LS mean ratio was calculated from ANOVA model.|||0.378|0.236|
92193400|NCT02341599|184286107|OTHER|LS mean ratio of Group B/Group A|LS mean ratio|1.04|||||TWO_SIDED|90.0|0.846|1.27|||||LS mean ratio was calculated from ANOVA model.|||1.27|0.846|
92193401|NCT02341599|184286107|OTHER|LS mean ratio of Group C/Group A|LS mean ratio|0.524|||||TWO_SIDED|90.0|0.428|0.641|||||LS mean ratio was calculated from ANOVA model.|||0.641|0.428|
92193402|NCT02341599|184286107|OTHER|LS mean ratio of Group D/Group A|LS mean ratio|0.678|||||TWO_SIDED|90.0|0.554|0.831|||||LS mean ratio was calculated from ANOVA model.|||0.831|0.554|
92316739|NCT04796909|184536911|SUPERIORITY|||||||0.05|||||||Repeated-measures ANCOVA|||||||0.05
92316740|NCT04796909|184536912|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
92316741|NCT04796909|184536913|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
92316742|NCT04796909|184536914|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
92316743|NCT04796909|184536915|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
92316744|NCT04796909|184536916|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
92316745|NCT04796909|184536917|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
92316746|NCT04796909|184536918|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92316747|NCT04796909|184536919|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92316748|NCT04796909|184536920|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92316749|NCT05277922|184536927|SUPERIORITY||Geometric mean ratio|0.9999|||||TWO_SIDED|95.0|0.8313|1.2025||||||||1.2025|0.8313|
92316750|NCT05277922|184536927|SUPERIORITY||Geometric mean ratio|1.2454|||||TWO_SIDED|95.0|1.0355|1.4979||||||||1.4979|1.0355|
92193403|NCT02341599|184286107|OTHER|LS mean ratio of Group E: Period 1/Group A|LS mean ratio|0.273|||||TWO_SIDED|90.0|0.221|0.336|||||LS mean ratio was calculated from ANOVA model.|||0.336|0.221|
92193404|NCT02341599|184286107|OTHER|LS mean ratio of Group E: Period 2/Group A|LS mean ratio|0.326|||||TWO_SIDED|90.0|0.265|0.402|||||LS mean ratio was calculated from ANOVA model.|||0.402|0.265|
92316751|NCT05277922|184536927|SUPERIORITY||Geometric mean ratio|1.2392|||||TWO_SIDED|95.0|1.0304|1.4904||||||||1.4904|1.0304|
92316752|NCT05277922|184536927|SUPERIORITY||Geometric mean ratio|1.2394|||||TWO_SIDED|95.0|1.0305|1.4906||||||||1.4906|1.0305|
92316753|NCT05277922|184536927|SUPERIORITY||Geometric mean ratio|0.995|||||TWO_SIDED|95.0|0.8273|1.1967||||||||1.1967|0.8273|
92316754|NCT05277922|184536927|SUPERIORITY||Geometric mean ratio|1.5058|||||TWO_SIDED|95.0|1.252|1.811||||||||1.8110|1.2520|
92316755|NCT05277922|184536927|SUPERIORITY||Geometric mean ratio|1.506|||||TWO_SIDED|95.0|1.2522|1.8113||||||||1.8113|1.2522|
92316756|NCT05277922|184536927|SUPERIORITY||Geometric mean ratio|1.2091|||||TWO_SIDED|95.0|1.0053|1.4541||||||||1.4541|1.0053|
92316757|NCT05277922|184536927|SUPERIORITY||Geometric mean ratio|1.2151|||||TWO_SIDED|95.0|1.0103|1.4614||||||||1.4614|1.0103|
92316758|NCT05277922|184536927|SUPERIORITY||Geometric mean ratio|1.2456|||||TWO_SIDED|95.0|1.0357|1.4981||||||||1.4981|1.0357|
92316759|NCT03851406|184536958|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||||||> 0.99
92316760|NCT03851406|184536959|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||||||> 0.99
92316761|NCT03851406|184536960|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||> 0.99
92316762|NCT03851406|184536960|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||> 0.99
92316763|NCT03851406|184536961|OTHER|||||||0.38||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.38
92316764|NCT03851406|184536961|OTHER|||||||0.38||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.38
92193405|NCT02341599|184286107|OTHER|LS mean ratio of Group E: Period 2/Group E: Period 1|LS mean ratio|0.808|||||TWO_SIDED|90.0|0.65|1.0|||||LS mean ratio was calculated from ANOVA model.|||1.00|0.650|
92193406|NCT00519285|184286116|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.942||||0.3802|TWO_SIDED|95.6|0.822|1.08||A priori threshold for statistical significance was set to 0.044 using the O'Brien-Fleming alpha spending function to account for two interim analyses.|Log Rank|Log rank test stratified on ECOG Performance Status|Hazard ratio (HR) aflibercept versus placebo estimated from a Cox proportional hazard model stratified on ECOG Performance Status|"Null hypothesis: No difference between aflibercept and placebo~The study was designed to provide 90% power to detect a 1.25-fold increase in median survival with aflibercept compared to placebo at a overall one-sided significance level of 0.025 with 873 deaths."||1.08|0.822|0.3802
92316765|NCT03851406|184536962|OTHER|||||||0.25||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.25
92316766|NCT03851406|184536962|OTHER|||||||0.63||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.63
92316767|NCT03851406|184536963|OTHER|||||||0.88||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.88
92316768|NCT03851406|184536963|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||>0.99
92316769|NCT03851406|184536964|OTHER|||||||0.88||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.88
92316770|NCT03851406|184536964|OTHER|||||||0.25||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.25
92316771|NCT03851406|184536965|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||>0.99
92316772|NCT03851406|184536965|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||>0.99
92316773|NCT03851406|184536966|OTHER|||||||0.75||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.75
92316774|NCT03851406|184536966|OTHER|||||||0.38||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.38
92193407|NCT02970305|184286127|SUPERIORITY||Difference in MMRM LSMs|-1.9|STANDARD_ERROR_OF_MEAN|0.95||0.0434|TWO_SIDED|95.0|-3.8|-0.1|||Mixed-effects model for repeated measure|||||-0.1|-3.8|0.0434
92193408|NCT01355471|184286163|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||GEE: Logit link function|Generalized Estimation Equation (GEE) methods with Logit link function and marginal expectation model.||||||<0.001
92193409|NCT02979613|184286215|NON_INFERIORITY|Non-inferiority was assessed using a 95% confidence interval (CI) approach, with a non-inferiority margin of 4%.|Difference in the Percentages|0.0|||||TWO_SIDED|95.0|-1.9|2.0|||||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted Mantel-Haenszel (MH) percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|The null hypothesis was that the TAF group is at least 4% worse than the TDF group with respect to the percentage of participants with HBV DNA ≥ 20 IU/mL at Week 48. The alternative hypothesis was that the TAF group is less than 4% worse than the TDF group with respect to the percentage of participants with HBV DNA ≥ 20 IU/mL at Week 48.||2.0|-1.9|
92193410|NCT02979613|184286216|NON_INFERIORITY|Non-inferiority was assessed using a 95% confidence interval (CI) approach, with a non-inferiority margin of 4%.|Difference in the Percentages|0.0|||||TWO_SIDED|95.0|-1.9|1.9|||||Difference in the percentage of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||1.9|-1.9|
92193411|NCT02979613|184286216|SUPERIORITY|||||||0.9953||||||P-value for the superiority tests compared the percentage of each HBV DNA outcome was from CMH tests stratified by baseline age groups and baseline HBeAg status strata.|Cochran-Mantel-Haenszel|||||||0.9953
92193412|NCT02979613|184286217|NON_INFERIORITY|Non-inferiority was assessed using a 95% CI approach, with a non-inferiority margin of 4%.|Difference in the Percentages|0.0|||||TWO_SIDED|95.0|-3.7|3.7|||||Difference in the percentage of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||3.7|-3.7|
92193413|NCT02979613|184286217|SUPERIORITY|||||||0.98||||||P-value for the superiority tests compared the percentage of each HBV DNA outcome was from CMH tests stratified by baseline age groups and baseline HBeAg status strata.|Cochran-Mantel-Haenszel|||||||0.98
92193414|NCT02979613|184286219|NON_INFERIORITY|Non-inferiority was assessed using a 95% confidence interval (CI) approach, with a non-inferiority margin of 4%.|Difference in the Percentages|0.9|||||TWO_SIDED|95.0|-3.5|5.2|||||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||5.2|-3.5|
92193415|NCT02979613|184286219|SUPERIORITY|||||||0.6863||||||P-value for the superiority tests compared the percentage of each HBV DNA outcome was from CMH tests stratified by baseline age groups and baseline HBeAg status strata.|Cochran-Mantel-Haenszel|||||||0.6863
92193416|NCT02979613|184286221|SUPERIORITY||Difference in the Percentages|1.4||||0.7258|TWO_SIDED|95.0|-7.2|10.1||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years).|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups.|||10.1|-7.2|0.7258
92316775|NCT01120184|184537010|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The study was powered for superiority with target hazard ratio (HR) equal to 0.75, as well as for non-inferiority with HR equal to 1.1765 for comparison between each of the trastuzumab emtansine-containing arms and the trastuzumab + taxane arm. Non-inferiority was established if the upper bound of the 97.5% CI was less than (\<) 1.1765. Superiority was achieved if the upper bound of the 97.5% CI was \<1.00.|Hazard Ratio (HR)|0.91||||0.3125|TWO_SIDED|97.5|0.73|1.13||Test and p-value apply for superiority test. Two-sided significance level of 2.5% was used to adjust for independent comparison between each of the trastuzumab emtansine-containing arms and the trastuzumab + taxane arm.|Log Rank||Direction of comparison: Trastuzumab Emtansine + Placebo vs. Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.13|0.73|0.3125
92193417|NCT02979613|184286222|SUPERIORITY||Difference in the Percentages|2.7||||0.1348|TWO_SIDED|95.0|-2.3|7.7||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years).|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups.|||7.7|-2.3|0.1348
92193418|NCT02979613|184286223|SUPERIORITY||Difference in the Percentages|9.0||||0.1005|TWO_SIDED|95.0|-2.0|20.1||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years).|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups.|||20.1|-2.0|0.1005
92193419|NCT02979613|184286224|SUPERIORITY||Difference in the Percentages|2.5||||0.4154|TWO_SIDED|95.0|-4.5|9.5||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years).|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups.|||9.5|-4.5|0.4154
92193420|NCT02979613|184286225|SUPERIORITY||Difference in the Percentages|-2.0||||0.0281|TWO_SIDED|95.0|-4.4|0.3||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||0.3|-4.4|0.0281
92193421|NCT02979613|184286227|SUPERIORITY||Difference in the Percentages|-0.8||||0.5373|TWO_SIDED|95.0|-3.7|2.1||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||2.1|-3.7|0.5373
92316776|NCT01120184|184537010|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The study was powered for superiority with target HR equal to 0.75, as well as for non-inferiority with HR equal to 1.1765 for comparison between each of the trastuzumab emtansine-containing arms and the trastuzumab + taxane arm. Non-inferiority was established if the upper bound of the 97.5% CI was \<1.1765. Superiority was achieved if the upper bound of the 97.5% CI was \<1.00.|Hazard Ratio (HR)|0.87||||0.1407|TWO_SIDED|97.5|0.69|1.08||Test and p-value apply for superiority test. Two-sided significance level of 2.5% was used to adjust for independent comparison between each of the trastuzumab emtansine-containing arms and the trastuzumab + taxane arm.|Log Rank||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs. Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.08|0.69|0.1407
92316777|NCT01120184|184537010|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The study was powered for superiority with target HR equal to 0.75, as well as for non-inferiority with HR equal to 1.1765 for comparison between each of the trastuzumab emtansine-containing arms and the trastuzumab + taxane arm.|Hazard Ratio (HR)|0.91||||0.3075|TWO_SIDED|97.5|0.73|1.13||Test and p-value apply for superiority test. Primary endpoint did not meet superiority of PFS for trastuzumab emtansine + pertuzumab versus trastuzumab + taxane (two-sided significance level 2.5%); thus, tests and p-value are considered descriptive.|Log Rank||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs. Trastuzumab Emtansine + Placebo|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.13|0.73|0.3075
92316778|NCT01120184|184537012|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.6568|TWO_SIDED|97.5|0.73|1.2|||Log Rank||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.20|0.73|0.6568
92316779|NCT01120184|184537012|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.5691|TWO_SIDED|97.5|0.67|1.11|||Log Rank||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.11|0.67|0.5691
92316780|NCT01120184|184537014|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|97.5|0.69|1.04|||||Direction of comparison: Trastuzumab Emtasine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.04|0.69|
92316781|NCT01120184|184537014|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|97.5|0.63|0.95|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.95|0.63|
92316782|NCT01120184|184537016|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|97.5|0.66|0.97|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.97|0.66|
92316783|NCT01120184|184537016|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|97.5|0.65|0.95|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.95|0.65|
92193422|NCT02979613|184286228|SUPERIORITY||Difference in the Percentages|0.4||||0.5845|TWO_SIDED|95.0|-1.7|2.5||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||2.5|-1.7|0.5845
92316784|NCT01120184|184537026|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-8.2|||||TWO_SIDED|95.0|-15.9|-0.5|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||-0.5|-15.9|
92316785|NCT01120184|184537026|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-3.7|||||TWO_SIDED|95.0|-11.4|3.9|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|||3.9|-11.4|
92316786|NCT01120184|184537026|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|4.5|||||TWO_SIDED|95.0|-3.3|12.2|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab Emtansine + Placebo|||12.2|-3.3|
92316787|NCT01120184|184537027|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-4.6|||||TWO_SIDED|95.0|-12.1|2.8|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||2.8|-12.1|
92316788|NCT01120184|184537027|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-1.8|||||TWO_SIDED|95.0|-9.2|5.7|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|||5.7|-9.2|
92193423|NCT02979613|184286229|SUPERIORITY||Difference in the Percentages|4.5||||0.1405|TWO_SIDED|95.0|-1.6|10.6||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Central Laboratory Criteria||10.6|-1.6|0.1405
92193424|NCT02979613|184286229|SUPERIORITY||Difference in the Percentages|3.8||||0.3133|TWO_SIDED|95.0|-3.7|11.4||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|AASLD Criteria||11.4|-3.7|0.3133
92193425|NCT02979613|184286230|SUPERIORITY||Difference in the Percentages|14.1||||0.3381|TWO_SIDED|95.0|-16.4|44.6||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Central Laboratory criteria||44.6|-16.4|0.3381
92193426|NCT02979613|184286230|SUPERIORITY||Difference in the Percentages|23.8||||0.0136|TWO_SIDED|95.0|5.3|42.3||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|AASLD Criteria||42.3|5.3|0.0136
92193427|NCT02979613|184286231|SUPERIORITY||Difference in the Percentages|-2.9||||0.2803|TWO_SIDED|95.0|-8.4|2.6||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Central Laboratory Criteria||2.6|-8.4|0.2803
92193428|NCT02979613|184286231|SUPERIORITY||Difference in the Percentages|-5.9||||0.0788|TWO_SIDED|95.0|-12.6|0.7||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|AASLD Criteria||0.7|-12.6|0.0788
92193429|NCT02979613|184286232|SUPERIORITY||Difference in the Percentages|-23.9||||0.088|TWO_SIDED|95.0|-51.2|3.4||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Central Laboratory Criteria||3.4|-51.2|0.0880
92193430|NCT02979613|184286232|SUPERIORITY||Difference in the Percentages|-18.6||||0.051|TWO_SIDED|95.0|-37.4|0.2||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|AASLD Criteria||0.2|-37.4|0.0510
92193431|NCT02979613|184286233|SUPERIORITY||Difference in LSM|-0.02||||0.0186|TWO_SIDED|95.0|-0.03|0.0|||ANOVA|||P-value, difference in least squares mean (LSM), and its 95% CI were derived from analysis of variance (ANOVA) model with baseline age groups (\< 50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||0.00|-0.03|0.0186
92193432|NCT02979613|184286234|SUPERIORITY||Difference in LSM|0.0||||0.6956|TWO_SIDED|95.0|-0.02|0.01|||ANOVA|||P-value, difference in LSM, and its 95% CI were from ANOVA with baseline age groups (\<50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||0.01|-0.02|0.6956
92193433|NCT02979613|184286235|SUPERIORITY||Difference in LSM|1.167|||<|0.0001|TWO_SIDED|95.0|0.797|1.536|||ANOVA|||P-value, difference in LSM, and its 95% CI were from ANOVA with baseline age groups (\<50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||1.536|0.797|< 0.0001
92193434|NCT02979613|184286236|SUPERIORITY||Difference in LSM|0.977||||0.0002|TWO_SIDED|95.0|0.465|1.49|||ANOVA|||P-value, difference in LSM, and its 95% CI were from ANOVA with baseline age groups (\<50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||1.490|0.465|0.0002
92316789|NCT01120184|184537027|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|2.9|||||TWO_SIDED|95.0|-4.5|10.3|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab Emtansine + Placebo|||10.3|-4.5|
92316790|NCT01120184|184537028|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|97.5|0.43|0.84|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.84|0.43|
92193435|NCT02979613|184286237|SUPERIORITY||Difference in LSM|1.881|||<|0.0001|TWO_SIDED|95.0|1.275|2.486|||ANOVA|||P-value, difference in LSM, and its 95% CI were from ANOVA with baseline age groups (\<50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||2.486|1.275|< 0.0001
92193436|NCT02979613|184286238|SUPERIORITY||Difference in LSM|0.604||||0.097|TWO_SIDED|95.0|-0.11|1.317|||ANOVA|||P-value, difference in LSM, and its 95% CI were from ANOVA with baseline age groups (\<50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||1.317|-0.110|0.0970
92193437|NCT02979613|184286239|SUPERIORITY||||||<|0.0001||||||P-values were from the 2-sided Wilcoxon rank sum test to compare the 2 treatment groups.|Wilcoxon rank sum test|||||||< 0.0001
92193438|NCT02979613|184286240|SUPERIORITY|||||||0.7535||||||P-values were from the 2-sided Wilcoxon rank sum test to compare the 2 treatment groups.|Wilcoxon rank sum test|||||||0.7535
92193439|NCT05294328|184286244|SUPERIORITY||Odds Ratio (OR)|34.262|||<|0.0001|TWO_SIDED||||||Generalized Estimating Equation (GEE)|||||||<0.0001
92193440|NCT05294328|184286244|SUPERIORITY||Odds Ratio (OR)|73.443|||<|0.0001|TWO_SIDED||||||Generalized Estimating Equation (GEE)|||||||<0.0001
92193441|NCT02056873|184286245|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.05|ONE_SIDED||||||Wilcoxon (Mann-Whitney)|||"At 6 months post-surgery the YGTSS scores of each subjects is statistically tested against their baseline scores.~A decrease in this tic severity scale means that the severity of the tics have reduced.~Hence, we performed a superiority test, which statistically verifies if the reduction in the tic severity scale was meaningful."||||0.05
92193442|NCT02820597|184286260|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|Paired t-tests on the mean change from baseline. No adjustments were made for multiple comparisons.||Null hypothesis is that the within-participant change from baseline in rTNSS is 0.||||<0.001
92193443|NCT02820597|184286261|SUPERIORITY||||||<|0.001||||||Paired t-tests on the mean change from baseline. No adjustments were made for multiple comparisons.|t-test, 2 sided|||Null hypothesis is that the within-participant change from baseline in rhinitis symptoms VAS is 0.||||<0.001
92193444|NCT01475461|184286264|SUPERIORITY_OR_OTHER||Least squares (LS) Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.172||0.5206|TWO_SIDED|80.0|-0.21|0.23||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Week 12: Treatment difference and 80 percent(%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||0.23|-0.21|0.5206
92193445|NCT01475461|184286264|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.178||0.1645|TWO_SIDED|80.0|-0.4|0.05||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo||0.05|-0.40|0.1645
92193446|NCT01475461|184286264|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.172||0.1592|TWO_SIDED|80.0|-0.39|0.05||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||0.05|-0.39|0.1592
92193447|NCT01475461|184286264|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.174||0.0049|TWO_SIDED|80.0|-0.68|-0.23||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||-0.23|-0.68|0.0049
92193448|NCT01475461|184286264|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.173||0.0068|TWO_SIDED|80.0|-0.65|-0.21||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||-0.21|-0.65|0.0068
92193449|NCT01475461|184286265|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.097||0.3434|TWO_SIDED|80.0|-0.16|0.09||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80 percent(%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.09|-0.16|0.3434
92193450|NCT01475461|184286265|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.101||0.0892|TWO_SIDED|80.0|-0.27|-0.01||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, as the covariates, time was repeated for participant.||-0.01|-0.27|0.0892
92193451|NCT01475461|184286265|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.097||0.0826|TWO_SIDED|80.0|-0.26|-0.01||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, as the covariates, time was repeated for participant.||-0.01|-0.26|0.0826
92316791|NCT01120184|184537028|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|97.5|0.45|0.85|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.85|0.45|
92316792|NCT01120184|184537030|SUPERIORITY_OR_OTHER_LEGACY||Difference in Symptom Rate|-32.2|||||TWO_SIDED|95.0|-40.0|-24.0|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||-24|-40|
92193452|NCT01475461|184286265|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.098||0.0031|TWO_SIDED|80.0|-0.4|-0.15||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, as the covariates, time was repeated for participant.||-0.15|-0.40|0.0031
92193453|NCT01475461|184286265|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.098||0.0005|TWO_SIDED|80.0|-0.45|-0.2||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.20|-0.45|0.0005
92193454|NCT01475461|184286265|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.144||0.5133|TWO_SIDED|80.0|-0.18|0.19||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.19|-0.18|0.5133
92193455|NCT01475461|184286265|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.15||0.1873|TWO_SIDED|80.0|-0.33|0.06||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.06|-0.33|0.1873
92193456|NCT01475461|184286265|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.145||0.212|TWO_SIDED|80.0|-0.3|0.07||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.07|-0.30|0.2120
92193457|NCT01475461|184286265|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.146||0.0001|TWO_SIDED|80.0|-0.73|-0.35||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, as the covariates, time was repeated for participant.||-0.35|-0.73|0.0001
92193458|NCT01475461|184286265|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.146||0.0021|TWO_SIDED|80.0|-0.61|-0.23||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.23|-0.61|0.0021
92193459|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|2.87|STANDARD_ERROR_OF_MEAN|4.823||0.724|TWO_SIDED|80.0|-3.32|9.07||p-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80 percent(%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||9.07|-3.32|0.7240
92193460|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.77|STANDARD_ERROR_OF_MEAN|4.952||0.3608|TWO_SIDED|80.0|-8.13|4.59||p-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||4.59|-8.13|0.3608
92193461|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|4.816||0.2511|TWO_SIDED|80.0|-9.42|2.95||p-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.95|-9.42|0.2511
92193462|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.28|STANDARD_ERROR_OF_MEAN|4.851||0.0673|TWO_SIDED|80.0|-13.51|-1.05||p-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-1.05|-13.51|0.0673
92193463|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.22|STANDARD_ERROR_OF_MEAN|4.843||0.0106|TWO_SIDED|80.0|-17.44|-5.0||p-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-5.00|-17.44|0.0106
92193464|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|5.138||0.4127|TWO_SIDED|80.0|-7.73|5.47||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.47|-7.73|0.4127
92316793|NCT01120184|184537030|SUPERIORITY_OR_OTHER_LEGACY||Difference in Symptom Rate|-24.2|||||TWO_SIDED|95.0|-32.0|-16.0|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||-16|-32|
92193465|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.88|STANDARD_ERROR_OF_MEAN|5.261||0.3604|TWO_SIDED|80.0|-8.64|4.87||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||4.87|-8.64|0.3604
92193466|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.35|STANDARD_ERROR_OF_MEAN|5.147||0.077|TWO_SIDED|80.0|-13.96|-0.74||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.74|-13.96|0.0770
92193467|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.79|STANDARD_ERROR_OF_MEAN|5.171||0.0451|TWO_SIDED|80.0|-15.43|-2.15||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-2.15|-15.43|0.0451
92193468|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.9|STANDARD_ERROR_OF_MEAN|5.191||0.0001|TWO_SIDED|80.0|-26.57|-13.23||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-13.23|-26.57|0.0001
92193469|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|1.11|STANDARD_ERROR_OF_MEAN|5.599||0.5783|TWO_SIDED|80.0|-6.08|8.3||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||8.30|-6.08|0.5783
92193470|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.07|STANDARD_ERROR_OF_MEAN|5.785||0.3604|TWO_SIDED|80.0|-9.5|5.36||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.36|-9.50|0.3604
92193471|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.12|STANDARD_ERROR_OF_MEAN|5.636||0.0161|TWO_SIDED|80.0|-19.36|-4.88||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-4.88|-19.36|0.0161
92193472|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.41|STANDARD_ERROR_OF_MEAN|5.663||0.2185|TWO_SIDED|80.0|-11.68|2.87||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.87|-11.68|0.2185
92193473|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.41|STANDARD_ERROR_OF_MEAN|5.649||0.0034|TWO_SIDED|80.0|-22.67|-8.16||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-8.16|-22.67|0.0034
92193474|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17|STANDARD_ERROR_OF_MEAN|6.387||0.5727|TWO_SIDED|80.0|-7.03|9.37||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||9.37|-7.03|0.5727
92193475|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|6.578||0.4961|TWO_SIDED|80.0|-8.51|8.38||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||8.38|-8.51|0.4961
92193476|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|6.411||0.2616|TWO_SIDED|80.0|-12.33|4.14||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||4.14|-12.33|0.2616
92193477|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|9.06|STANDARD_ERROR_OF_MEAN|6.441||0.9197|TWO_SIDED|80.0|0.79|17.34||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||17.34|0.79|0.9197
92193478|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.76|STANDARD_ERROR_OF_MEAN|6.398||0.086|TWO_SIDED|80.0|-16.98|-0.54||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.54|-16.98|0.0860
92193479|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|6.476||0.5132|TWO_SIDED|80.0|-8.1|8.53||p-value was 1-sided.|t-test, 1 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||8.53|-8.10|0.5132
92193480|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|2.68|STANDARD_ERROR_OF_MEAN|6.676||0.656|TWO_SIDED|80.0|-5.89|11.26||p-value was 1-sided.|t-test, 1 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||11.26|-5.89|0.6560
92193481|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|6.17|STANDARD_ERROR_OF_MEAN|6.496||0.8285|TWO_SIDED|80.0|-2.17|14.52||p-value was 1-sided.|t-test, 1 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||14.52|-2.17|0.8285
92193482|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|15.98|STANDARD_ERROR_OF_MEAN|6.527||0.9925|TWO_SIDED|80.0|7.59|24.36||p-value was 1-sided.|t-test, 1 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||24.36|7.59|0.9925
92193483|NCT01475461|184286266|SUPERIORITY_OR_OTHER||LS Mean Difference|1.66|STANDARD_ERROR_OF_MEAN|6.487||0.601|TWO_SIDED|80.0|-6.67|10.0||p-value was 1-sided.|t-test, 1 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||10.00|-6.67|0.6010
92193484|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76|STANDARD_ERROR_OF_MEAN|0.449||0.0913|TWO_SIDED|80.0|0.18|1.34||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80 percent (%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.34|0.18|0.0913
92193485|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.461||0.5236|TWO_SIDED|80.0|-0.3|0.89||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.89|-0.30|0.5236
92193486|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.447||0.9244|TWO_SIDED|80.0|-0.53|0.62||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.62|-0.53|0.9244
92193487|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.452||0.5066|TWO_SIDED|80.0|-0.28|0.88||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.88|-0.28|0.5066
92193488|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.449||0.8947|TWO_SIDED|80.0|-0.64|0.52||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.52|-0.64|0.8947
92316794|NCT01120184|184537030|SUPERIORITY_OR_OTHER_LEGACY||Difference in Symptom Rate|8.0|||||TWO_SIDED|95.0|-2.3|18.4|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab Emtansine + Placebo|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||18.4|-2.3|
92316795|NCT01120184|184537034|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.57|0.86|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.86|0.57|
92316796|NCT01120184|184537034|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.55|0.84|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.84|0.55|
92316797|NCT01120184|184537038|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.4|1.15|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||1.15|0.40|
92316798|NCT01120184|184537039|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.66|||||TWO_SIDED|95.0|0.41|1.07|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||1.07|0.41|
92316799|NCT01120184|184537041|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|97.5|0.65|1.25|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||1.25|0.65|
92316800|NCT01120184|184537043|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|97.5|0.74|1.34|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||1.34|0.74|
92193489|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.91|STANDARD_ERROR_OF_MEAN|0.478||0.0577|TWO_SIDED|80.0|0.3|1.52||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.52|0.30|0.0577
92316801|NCT03190993|184537048|OTHER|Linear mixed effect models were used to test if changes (Day 28 - Baseline) were equal between treatment groups (primary outcome).|Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|0.43|=|0.22|TWO_SIDED||||||Regression, Linear|||||||=0.22
92316802|NCT02069015|184537122|SUPERIORITY||Mean Difference|0.05|||<|0.001|TWO_SIDED|95.0|-4.781|6.906|||paired t-test|||||6.906|-4.781|<0.001
92316803|NCT03123068|184537195|OTHER||||||>|0.05|||||||Mann Whitney U test|||||||>0.05
92316804|NCT02329015|184537203|SUPERIORITY_OR_OTHER||Slope|0.58||||0.54|TWO_SIDED|95.0|-1.25|2.41|||Regression, Logistic|||Model 1: An intent to treat analyses was performed determining effect of group assignment on academic performance while controlling for previous year GPA.||2.41|-1.25|0.54
92316805|NCT02329015|184537203|SUPERIORITY_OR_OTHER||Slope|1.67||||0.08|TWO_SIDED|95.0|-0.21|3.55|||Regression, Linear|||Model 2: As active participation between groups was significantly different a second intent to treat analysis was performed which added to Model 1 (controlling for previous year GPA) by controlling for active participation.||3.55|-0.21|0.08
92316806|NCT02329015|184537203|SUPERIORITY_OR_OTHER||Slope|2.7||||0.009|TWO_SIDED|95.0|0.69|4.71|||Regression, Linear|||Model 3: Per Protocol Analysis: it was hypothesized that any benefit of yoga education would only accrue if the student was assigned to yoga classes and actively participated in the class. A third Model was fit with an interaction term for class assignment and class participation.||4.71|0.69|0.009
92316807|NCT02329015|184537204|SUPERIORITY_OR_OTHER|||||||0.301|||||||Regression, Linear|||Analysis of the Voluntary subscale of the Response to Stress Questionnaire||||0.301
92316808|NCT02845700|184537235|SUPERIORITY|||||||0.08|||||||ANOVA|2 (time) x 2 (group) x 5 (dilution %) repeated measures ANOVA||||||.08
92316809|NCT02845700|184537236|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|t(4) = -1.19, p = .39||Post-hoc estimates of observed power for the difference between group means was calculated to be .15.||||.39
92316810|NCT02845700|184537239|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|t(4) = 0.66, p = .54||Post-hoc estimates of observed power for the difference between group means was calculated to be .08.||||.54
92316811|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.93|TWO_SIDED|95.0|-0.4|0.44|||Mixed model for repeated measurements|||"Day 1, 30 min post dose.~SpO2/FiO2 and FiO2 (%) over the first 24 hours: analyzed using a linear mixed model for repeated measures (MMRM) including treatment, timepoint, treatment by timepoint interaction, investigational site and gestational age (GA) group as fixed effects, and predose values as covariates. The adjusted mean difference between treatments, and their 95% confidence intervals (CIs) at each timepoint and averaged over the first 24 hours were estimated by the model."||0.44|-0.40|0.930
92316812|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.346|TWO_SIDED|95.0|-0.59|0.21|||Mixed model for repeated measurements|||Day 1, 1 h post dose||0.21|-0.59|0.346
92316813|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.549|TWO_SIDED|95.0|-0.43|0.23|||Mixed model for repeated measurements|||Day 1, 3 h post dose||0.23|-0.43|0.549
92193490|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|0.49||0.3012|TWO_SIDED|80.0|-0.12|1.14||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.14|-0.12|0.3012
92193491|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.476||0.3165|TWO_SIDED|80.0|-0.13|1.09||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.09|-0.13|0.3165
92193492|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.481||0.5191|TWO_SIDED|80.0|-0.31|0.93||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.93|-0.31|0.5191
92193493|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.479||0.5107|TWO_SIDED|80.0|-0.3|0.93||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.93|-0.30|0.5107
92193494|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.79|STANDARD_ERROR_OF_MEAN|0.488||0.1054|TWO_SIDED|80.0|0.17|1.42||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.42|0.17|0.1054
92193495|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.502||0.5341|TWO_SIDED|80.0|-0.33|0.96||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.96|-0.33|0.5341
92193496|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.487||0.2782|TWO_SIDED|80.0|-0.1|1.15||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.15|-0.10|0.2782
92193497|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.492||0.5331|TWO_SIDED|80.0|-0.32|0.94||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.94|-0.32|0.5331
92193498|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.489||0.907|TWO_SIDED|80.0|-0.57|0.68||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.68|-0.57|0.9070
92193499|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.512||0.1757|TWO_SIDED|80.0|0.04|1.35||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.35|0.04|0.1757
92193500|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.527||0.4083|TWO_SIDED|80.0|-0.24|1.11||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.11|-0.24|0.4083
92193501|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|0.511||0.315|TWO_SIDED|80.0|-0.14|1.17||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.17|-0.14|0.3150
92316814|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.539|TWO_SIDED|95.0|-0.43|0.23|||Mixed model for repeated measurements|||Day 1, 6 h post dose||0.23|-0.43|0.539
92316815|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.491|TWO_SIDED|95.0|-0.21|0.43|||Mixed model for repeated measurements|||Day 1, 12 h post dose||0.43|-0.21|0.491
92316816|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.623|TWO_SIDED|95.0|-0.22|0.37|||Mixed model for repeated measurements|||Day 1, 18 h post dose||0.37|-0.22|0.623
92316817|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.608|TWO_SIDED|95.0|-0.25|0.43|||Mixed model for repeated measurements|||Day 1, 24 h post dose||0.43|-0.25|0.608
92316818|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.869|TWO_SIDED|95.0|-0.35|0.3|||Mixed Models Analysis|||"Day 2, post dose~SpO2/FiO2 was compared between treatments at the remaining post-treatment time points (i.e., Days 2, 3, 5, 7): analyzed using mixed model including treatment, investigational site and gestational age group as fixed effects and pre-dose ratio as covariate."||0.30|-0.35|0.869
92193502|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.516||0.6631|TWO_SIDED|80.0|-0.44|0.89||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.89|-0.44|0.6631
92193503|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.512||0.8694|TWO_SIDED|80.0|-0.74|0.57||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.57|-0.74|0.8694
92193504|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.545||0.2031|TWO_SIDED|80.0|0.0|1.4||P-value was 2-sided.|t-test, 2 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.40|0.00|0.2031
92193505|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.563||0.7137|TWO_SIDED|80.0|-0.52|0.93||P-value was 2-sided.|t-test, 2 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.93|-0.52|0.7137
92316819|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.833|TWO_SIDED|95.0|-0.38|0.31|||Mixed Models Analysis|||Day 3, post dose||0.31|-0.38|0.833
92193506|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.545||0.681|TWO_SIDED|80.0|-0.48|0.92||P-value was 2-sided.|t-test, 2 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.92|-0.48|0.6810
92193507|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.55||0.6921|TWO_SIDED|80.0|-0.92|0.49||P-value was 2-sided.|t-test, 2 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.49|-0.92|0.6921
92193508|NCT01475461|184286273|SUPERIORITY_OR_OTHER||LS Mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.545||0.3702|TWO_SIDED|80.0|-1.19|0.21||P-value was 2-sided.|t-test, 2 sided|||Week 14 (Follow-up): Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.21|-1.19|0.3702
92316820|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.772|TWO_SIDED|95.0|-0.39|0.29|||Mixed Models Analysis|||Day 5, post dose||0.29|-0.39|0.772
92316821|NCT02452476|184537251|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.963|TWO_SIDED|95.0|-0.33|0.35|||Mixed Models Analysis|||Day 7, post dose||0.35|-0.33|0.963
92316822|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|-1.94||||0.519|TWO_SIDED|95.0|-7.87|3.99|||Mixed model for repeated measurements|||Day 1, 30 min post dose||3.99|-7.87|0.519
92316823|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|2.45||||0.282|TWO_SIDED|95.0|-2.04|6.93|||Mixed model for repeated measurements|||Day 1, 1 h post dose||6.93|-2.04|0.282
92316824|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.854|TWO_SIDED|95.0|-4.04|4.86|||Mixed model for repeated measurements|||Day 1, 3 h post dose||4.86|-4.04|0.854
92316825|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.861|TWO_SIDED|95.0|-5.0|4.19|||Mixed model for repeated measurements|||Day 1, 6 h post dose||4.19|-5.00|0.861
92316826|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|-2.77||||0.117|TWO_SIDED|95.0|-6.24|0.7|||Mixed model for repeated measurements|||Day 1, 12 h post dose||0.70|-6.24|0.117
92316827|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|-1.92||||0.185|TWO_SIDED|95.0|-4.79|0.94|||Mixed model for repeated measurements|||Day 1, 18 h post dose||0.94|-4.79|0.185
92316828|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|-1.01||||0.678|TWO_SIDED|95.0|-5.82|3.8|||Mixed model for repeated measurements|||Day 1, 24 h post dose||3.80|-5.82|0.678
92316829|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.961|TWO_SIDED|95.0|-3.49|3.67|||Mixed Models Analysis|||"Day 2, post dose~SpO2/FiO2 was compared between treatments at the remaining post-treatment time points (i.e., Days 2, 3, 5, 7): analyzed using mixed model including treatment, investigational site and gestational age group as fixed effects and pre-dose ratio as covariate."||3.67|-3.49|0.961
92316830|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|-1.53||||0.544|TWO_SIDED|95.0|-6.53|3.46|||Mixed Models Analysis|||Day 3, post dose||3.46|-6.53|0.544
92316831|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|1.74||||0.492|TWO_SIDED|95.0|-3.28|6.76|||Mixed Models Analysis|||Day 5, post dose||6.76|-3.28|0.492
92316832|NCT02452476|184537252|SUPERIORITY||Mean Difference (Final Values)|1.23||||0.634|TWO_SIDED|95.0|-3.9|6.36|||Mixed Models Analysis|||Day 7, post dose||6.36|-3.90|0.634
92316833|NCT02452476|184537253|SUPERIORITY|Mortality or BPD incidence at 36-week PMA was compared by treatment, using Cochran-Mantel-Haenszel (CMH), adjusting for stratification gestational age (GA) group. Relative risk (RR) and its 95% confidence interval are also provided.|Relative risk|1.03||||0.811|TWO_SIDED|95.0|0.81|1.32|||Cochran-Mantel-Haenszel|||Week 36 PMA Incidence of BPD||1.32|0.81|0.811
92316834|NCT02452476|184537253|SUPERIORITY||Relative risk|1.0||||0.972|TWO_SIDED|95.0|0.81|1.25|||Cochran-Mantel-Haenszel|||Week 36 PMA Incidence of Mortality/BPD||1.25|0.81|0.972
92316835|NCT02452476|184537253|SUPERIORITY||Relative risk|0.74||||0.619|TWO_SIDED|95.0|0.23|2.42|||Cochran-Mantel-Haenszel|||Week 36 PMA Mortality||2.42|0.23|0.619
92316836|NCT02452476|184537253|SUPERIORITY||Relative risk|1.46||||0.602|TWO_SIDED|95.0|0.35|6.09|||Cochran-Mantel-Haenszel|||Day 28 PNA Mortality||6.09|0.35|0.602
92316837|NCT02452476|184537253|SUPERIORITY||Relative risk|0.56||||0.606|TWO_SIDED|95.0|0.06|5.29|||Cochran-Mantel-Haenszel|||Day 14 PNA RDS-associated mortality in 14 days of life||5.29|0.06|0.606
92316838|NCT02452476|184537254|SUPERIORITY||Odds Ratio (OR)|0.69||||0.409|TWO_SIDED|95.0|0.3|1.57|||Fisher Exact|||||1.57|0.30|0.409
92316839|NCT02452476|184537255|SUPERIORITY|The percentage of patients requiring at least one rescue surfactant dose were compared by treatment group using the Fisher's exact test at 5% significance interval. Odds ratio (OR) and related exact 95% CI are also provided.|Odds Ratio (OR)|1.21||||0.689|TWO_SIDED|95.0|0.55|2.67|||Fisher Exact|||The percentage of patients requiring at least one rescue surfactant dose.||2.67|0.55|0.689
92316840|NCT02452476|184537256|SUPERIORITY|||||||0.935|||||||Wilcoxon (Mann-Whitney)|||||||0.935
92316841|NCT02348112|184537259|NON_INFERIORITY|The number and proportion of subjects experiencing a 50% or greater reduction in pad weight at 6 months were compared, and non-inferiority assessed using a normal approximation test (Z-test) for a difference in binomial proportion. Non-inferiority was considered achieved if the 95% confidence interval for the difference in proportions (Comparator - Altis) was less than 0.15.|Difference in Proportions|-0.054||||0.013|TWO_SIDED|95.0|-0.139|0.031|||Normal approximation test (Z-test)|||||0.031|-0.139|0.013
92193509|NCT01049984|184286282|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.012|TWO_SIDED|95.0|-4.3|-0.5||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted.|ANCOVA|Repeated measures model with baseline score as a covariate and factors Treatment, Week in Study, Pooled Center and Week by Treatment interaction.||||-0.5|-4.3|0.012
92193510|NCT01049984|184286283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.301|TWO_SIDED|95.0|-1.1|0.3||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted.|ANCOVA|Repeated measures model with baseline score as a covariate and factors Treatment, Week in Study, Pooled Center and Week by Treatment interaction.||||0.3|-1.1|0.301
92193511|NCT01049984|184286284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.007|TWO_SIDED|95.0|-3.1|-0.5||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted.|ANCOVA|Repeated measures model with baseline score as a covariate and factors Treatment, Week in Study, Pooled Center and Week by Treatment interaction.||||-0.5|-3.1|0.007
92193512|NCT01049984|184286285|SUPERIORITY_OR_OTHER|||||||0.255||||||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted. Only participants with assessment (\>0) are included in the CMH test.|Cochran-Mantel-Haenszel|CMH used the proportion of participants in each category between the two treatment arms, with treatment and pooled center as strata.||||||0.255
92193513|NCT01049984|184286286|SUPERIORITY_OR_OTHER|||||||0.996||||||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted. Only participants with assessment (\>0) are included in the CMH test.|Cochran-Mantel-Haenszel|CMH used the proportion of participants in each category between the two treatment arms, with treatment and pooled center as strata.||||||0.996
92316842|NCT02348112|184537260|NON_INFERIORITY|The number and proportion of subjects experiencing device- and/or procedure-related serious adverse events were tabulated for each study group. Non-inferiority through 36 months was calculated using a normal approximation test (Z-test) for a difference in binomial proportion. Non-inferiority was considered achieved if the lower limit of the 95% confidence interval for the difference in proportions (Comparator - Altis) is greater than -0.10 in the mITT analysis population.|Difference in Proportions|0.013|||<|0.0001|TWO_SIDED|95.0|-0.023|0.048|||Normal approximation test (Z-test)|||||0.048|-0.023|<0.0001
92316843|NCT03714828|184537273|OTHER||Overall Response Rate|100.0||||0.0005|ONE_SIDED|95.0|76.2||||One-sample binomial test|One-sample binomial test versus null hypothesis value of 0.50.|||||76.2|0.0005
92316844|NCT03714828|184537275|OTHER|Descriptive statistics|Mean|48.7|STANDARD_DEVIATION|29.2|||TWO_SIDED|||||||||||||
92316845|NCT03714828|184537277|OTHER|Binomial proportion of TILs|Percentage|83.3|||||TWO_SIDED|||||||||||||
92316846|NCT03714828|184537280|OTHER|Counts of TILs|Percentage|100.0|||||TWO_SIDED|||||||||||||
92316847|NCT03714828|184537281|OTHER||Percentage|100.0|||||TWO_SIDED|||||||||||||
92316848|NCT00946920|184537284|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between treatments (degarelix versus goserelin acetate) was chosen to be -5 percentage points.|Kaplan-Meier estimate|79.6|||||TWO_SIDED|95.0|75.6|83.7||||||The cumulative probability of testosterone ≤0.5 ng/mL from Day 3 to Day 364 was estimated by the Kaplan-Meier method. Only testosterone measurements taken at scheduled trial visits from Day 3 to Day 364 were included in the analysis. The hypothesis to test was the following: a non-inferiority assessment determined whether degarelix was non-inferior to goserelin with respect to the cumulative probability of testosterone ≤0.5 ng/mL from Day 3 to Day 364.||83.7|75.6|
92193514|NCT01049984|184286287|SUPERIORITY_OR_OTHER|||||||0.967||||||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted. Only participants with assessment (\>0) are included in the CMH test.|Cochran-Mantel-Haenszel|CMH used the proportion of participants in each category between the two treatment arms, with treatment, pooled center, and baseline value as strata.||||||0.967
92316849|NCT01168427|184537289|OTHER|There was no formal statistical hypothesis tested. The goal was to estimate the procedure-related complications 90 days post implant using the Kaplan-Meier method.|Rate|0.034|||||ONE_SIDED|95.0||0.1292||||||||0.1292||
92316850|NCT01709500|184537370|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.4|||<|0.0001|TWO_SIDED|95.0|-58.1|-44.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Alirocumab group was compared to the placebo group using an appropriate contrast statement.||-44.8|-58.1|<0.0001
92316851|NCT01709500|184537371|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.2|||<|0.0001|TWO_SIDED|95.0|-58.7|-45.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 5% level.||-45.6|-58.7|<0.0001
92316852|NCT01709500|184537372|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.4|||<|0.0001|TWO_SIDED|95.0|-54.7|-42.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-42.2|-54.7|<0.0001
92316853|NCT01709500|184537373|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.8|||<|0.0001|TWO_SIDED|95.0|-55.0|-42.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-42.5|-55|<0.0001
92316854|NCT01709500|184537374|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.3|||<|0.0001|TWO_SIDED|95.0|-44.1|-34.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-34.5|-44.1|<0.0001
92316855|NCT01709500|184537375|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.8|||<|0.0001|TWO_SIDED|95.0|-44.5|-35.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-35.1|-44.5|<0.0001
92193515|NCT00337285|184286288|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||< 0.0001
92193516|NCT00337285|184286290|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||< 0.0001
92193517|NCT00553605|184286291|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower bound of the 2-sided 95% CI of the treatment difference (parecoxib - ketoprofen) was greater than -10 mm.|Least-squares (LS) mean difference|-1.12|STANDARD_ERROR_OF_MEAN|2.75|||TWO_SIDED|95.0|-6.53|4.3||||||LS mean difference and 95 percent (%) confidence interval (CI) were based on analysis of covariance (ANCOVA) model with terms for treatment group and country, and baseline as covariates.||4.30|-6.53|
92193518|NCT00553605|184286292|SUPERIORITY_OR_OTHER||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|2.52||0.972|TWO_SIDED|95.0|-5.04|4.86|||ANCOVA|||p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||4.86|-5.04|0.972
92316856|NCT01709500|184537376|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.7|||<|0.0001|TWO_SIDED|95.0|-51.8|-39.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-39.7|-51.8|<0.0001
92316857|NCT01709500|184537377|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.4|||<|0.0001|TWO_SIDED|95.0|-52.3|-40.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-40.4|-52.3|<0.0001
92316858|NCT01709500|184537378|SUPERIORITY_OR_OTHER||LS Mean difference|-32.8|||<|0.0001|TWO_SIDED|95.0|-37.4|-28.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-28.1|-37.4|<0.0001
92316859|NCT01709500|184537379|SUPERIORITY_OR_OTHER||LS Mean Difference|-34.5|||<|0.0001|TWO_SIDED|95.0|-39.2|-29.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-29.8|-39.2|<0.0001
92316860|NCT01709500|184537380|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.0|||<|0.0001|TWO_SIDED|95.0|-47.8|-36.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-36.2|-47.8|<0.0001
92316861|NCT01709500|184537381|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.9|||<|0.0001|TWO_SIDED|95.0|-34.5|-25.4|||Mixed Models Analysis|Threshold for significance ≤ 0.05.||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-25.4|-34.5|<0.0001
92316862|NCT01709500|184537382|SUPERIORITY_OR_OTHER||LS Mean Difference|-58.8|||<|0.0001|TWO_SIDED|95.0|-66.8|-50.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-50.8|-66.8|<0.0001
92316863|NCT01709500|184537383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|52.2|||<|0.0001|TWO_SIDED|95.0|20.9|130.0||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||130|20.9|<0.0001
92316864|NCT01709500|184537384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|53.3|||<|0.0001|TWO_SIDED|95.0|21.4|132.6||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||132.6|21.4|<0.0001
92193519|NCT00553605|184286294|SUPERIORITY_OR_OTHER||LS mean difference|0.75|STANDARD_ERROR_OF_MEAN|2.56||0.768|TWO_SIDED|95.0|-4.28|5.79|||ANCOVA|||Minute 15: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||5.79|-4.28|0.768
92193520|NCT00553605|184286294|SUPERIORITY_OR_OTHER||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|2.91||0.866|TWO_SIDED|95.0|-6.22|5.24|||ANCOVA|||Minute 30: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||5.24|-6.22|0.866
92193521|NCT00553605|184286294|SUPERIORITY_OR_OTHER||LS mean difference|0.94|STANDARD_ERROR_OF_MEAN|2.7||0.729|TWO_SIDED|95.0|-4.38|6.26|||ANCOVA|||Minute 45: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||6.26|-4.38|0.729
92193522|NCT00553605|184286294|SUPERIORITY_OR_OTHER||LS mean difference|2.62|STANDARD_ERROR_OF_MEAN|2.47||0.29|TWO_SIDED|95.0|-2.24|7.48|||ANCOVA|||Minute 60: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||7.48|-2.24|0.290
92316865|NCT01709500|184537385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|239.7|||<|0.0001|TWO_SIDED|95.0|31.6|1820.3||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||1820.3|31.6|<0.0001
92316866|NCT01709500|184537386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|240.6|||<|0.0001|TWO_SIDED|95.0|31.4|1841.7||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||1841.7|31.4|<0.0001
92316867|NCT01709500|184537387|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-20.3|||<|0.0001|TWO_SIDED|95.0|-26.4|-14.2||Threshold for significance ≤ 0.05.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-14.2|-26.4|<0.0001
92316868|NCT01709500|184537388|SUPERIORITY_OR_OTHER||LS Mean Difference|6.8|||=|0.0009|TWO_SIDED|95.0|2.8|10.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||10.7|2.8|= 0.0009
92316869|NCT01709500|184537389|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-10.9|||=|0.0012|TWO_SIDED|95.0|-17.5|-4.3||Threshold for significance ≤ 0.05.|Regression, Robust|||Testing according to the hierarchical testing procedure. Statistical analysis used a multiple imputation approach followed by a robust regression model.||-4.3|-17.5|= 0.0012
92316870|NCT01709500|184537390|SUPERIORITY_OR_OTHER||LS Mean Difference|4.4|||=|0.0062|TWO_SIDED|95.0|1.3|7.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||7.5|1.3|= 0.0062
92193523|NCT00553605|184286294|SUPERIORITY_OR_OTHER||LS mean difference|2.16|STANDARD_ERROR_OF_MEAN|2.14||0.314|TWO_SIDED|95.0|-2.05|6.37|||ANCOVA|||Minute 90: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||6.37|-2.05|0.314
92193524|NCT00553605|184286294|SUPERIORITY_OR_OTHER||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|1.72||0.926|TWO_SIDED|95.0|-3.23|3.55|||ANCOVA|||Minute 120: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||3.55|-3.23|0.926
92193525|NCT00553605|184286295|SUPERIORITY_OR_OTHER||LS mean difference|10.13|STANDARD_ERROR_OF_MEAN|13.43||0.451|TWO_SIDED|95.0|-16.3|36.54|||ANCOVA|||p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country as covariates.||36.54|-16.3|0.451
92316871|NCT01709500|184537391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-19.1|||<|0.0001|TWO_SIDED|95.0|-25.0|-13.1||Threshold for significance ≤ 0.05.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-13.1|-25|<0.0001
92316872|NCT01709500|184537392|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3|||=|0.0147|TWO_SIDED|95.0|0.9|7.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||7.8|0.9|= 0.0147
92316873|NCT01709500|184537393|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.6|||=|0.024|TWO_SIDED|95.0|-16.1|-1.1||Threshold for significance ≤ 0.05.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-1.1|-16.1|= 0.024
92316874|NCT01709500|184537394|SUPERIORITY_OR_OTHER||LS Mean Difference|2.3|||=|0.1475|TWO_SIDED|95.0|-0.8|5.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||5.5|-0.8|= 0.1475
92316875|NCT00856492|184537441|SUPERIORITY_OR_OTHER|||||||0.019|||||||Chi-squared|||||||0.019
92316876|NCT00856492|184537442|SUPERIORITY_OR_OTHER|||||||0.64|||||||Log Rank|||||||0.64
92316877|NCT00856492|184537443|SUPERIORITY_OR_OTHER|||||||0.71|||||||Log Rank|||||||0.71
92316878|NCT06389487|184537445|NON_INFERIORITY|Non-Inferiority (NI) was to be demonstrated if the upper limit of the 95% confidence interval (CI) of the group GMT ratio between Part A:RSV-OA Group over Part A:RSV-A-AIR Group at 1 month post RSVPreF3 OA vaccine administration was less than or equal to (≤) 1.5.|GMT Ratio|0.72|||||TWO_SIDED|95.0|0.64|0.81|||||The comparison is done using the group ratio of adjusted GMT (Part A:RSV-OA/ Part A:RSV-A-AIR) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the humoral immune response in participants aged 18-49 YOA at increased risk for RSV disease (Part A:RSV-A-AIR Group) compared to older adults aged ≥60 YOA (Part A:RSV-OA Group) for the RSV-A strain after RSVPreF3 OA investigational vaccine administration.||0.81|0.64|
92316879|NCT06389487|184537446|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 95% CI of the group SRR difference between Part A:RSV-OA Group and Part A:RSV-A-AIR Group at 1 month post RSVPreF3 OA vaccine administration was ≤10%.|Difference in percentage|-9.33|||||TWO_SIDED|95.0|-14.55|-4.1|||||The comparison is done using the difference of SRR (Part A:RSV-OA - Part A:RSV-A-AIR).|To demonstrate the non-inferiority of the humoral immune response in participants aged 18-49 YOA at increased risk for RSV disease (Part A:RSV-A-AIR Group) compared to older adults aged ≥60 YOA (Part A:RSV-OA Group) for the RSV-A strain after RSVPreF3 OA investigational vaccine administration.||-4.10|-14.55|
92316880|NCT06389487|184537447|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 95% CI of the group GMT ratio between Part A:RSV-OA Group over Part A:RSV-A-AIR Group at 1 month post RSVPreF3 OA vaccine administration was ≤1.5.|GMT Ratio|0.73|||||TWO_SIDED|95.0|0.65|0.82|||||The comparison is done using the group ratio of adjusted GMT (Part A:RSV-OA/ Part A:RSV-A-AIR) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the humoral immune response in participants aged 18-49 YOA at increased risk for RSV disease (Part A:RSV-A-AIR Group) compared to older adults aged ≥60 YOA (Part A:RSV-OA Group) for the RSV-B strain after RSVPreF3 OA investigational vaccine administration.||0.82|0.65|
92316881|NCT06389487|184537448|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 95% CI of the group SRR difference between Part A:RSV-OA Group and Part A:RSV-A-AIR Group at 1 month post RSVPreF3 OA vaccine administration was ≤10%.|Difference in percentage|-10.03|||||TWO_SIDED|95.0|-15.26|-4.8|||||The comparison is done using the difference of SRR (Part A:RSV-OA - Part A:RSV-A-AIR).|To demonstrate the non-inferiority of the humoral immune response in participants aged 18-49 YOA at increased risk for RSV disease (Part A:RSV-A-AIR Group) compared to older adults aged ≥60 YOA (Part A:RSV-OA Group) for the RSV-B strain after RSVPreF3 OA investigational vaccine administration.||-4.80|-15.26|
92316882|NCT02954601|184537557|OTHER|Values obtained using a Mixed Model Repeated Measures Analysis of Variance with an unstructured covariance matrix. Treatment, Period and Baseline value (for change and percent change) are factors in the model with repeated values for a subject.||||||0.1311|||||||Mixed Models Analysis|||||||0.1311
92193526|NCT00553605|184286296|SUPERIORITY_OR_OTHER|||||||0.3982|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 30: p-value was calculated using Cochran-Mantel-Haenszel (CMH) model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.3982
92316883|NCT02954601|184537560|OTHER|||||||0.3061|TWO_SIDED|95.0|||||Mixed Models Analysis|||Values obtained using a Mixed Model Repeated Measures Analysis of Variance with an unstructured covariance matrix. Treatment period and Baseline value (for change and percent change) are factors in the model with repeated values for subject.||||0.3061
92316884|NCT00471081|184537568|SUPERIORITY||Percentage of subjects with hSBA titers|88.4|||||TWO_SIDED|95.0|81.9|93.2|||||Immunogenecity of GSK134612 was demonstrated if the lower limit (LL) of the 2-sided exact 95% confidence interval (CI) was higher than the pre-defined clinical limit of 80%.|To demonstrate the immunogenicity of GSK134612 administered on a 2-dose schedule at 9 and 12 months of age with respect to serum bactericidal assay using human complement (hSBA) titers ≥1:8 for each discrete N. meningitidis serogroup A.||93.2|81.9|
92316885|NCT00471081|184537568|SUPERIORITY||Percentage of subjects with hSBA titers|100.0|||||TWO_SIDED|95.0|97.3|100.0|||||Immunogenecity of GSK134612 was demonstrated if the lower limit (LL) of the 2-sided exact 95% confidence interval (CI) was higher than the pre-defined clinical limit of 90%.|To demonstrate the immunogenicity of GSK134612 administered on a 2-dose schedule at 9 and 12 months of age with respect to serum bactericidal assay using human complement (hSBA) titers ≥1:8 for each discrete N. meningitidis serogroup C.||100|97.3|
92316886|NCT00471081|184537568|SUPERIORITY||Percentage of subjects with hSBA titers|99.3|||||TWO_SIDED|95.0|96.2|100.0|||||Immunogenecity of GSK134612 was demonstrated if the lower limit (LL) of the 2-sided exact 95% confidence interval (CI) was higher than the pre-defined clinical limit of 80%.|To demonstrate the immunogenicity of GSK134612 administered on a 2-dose schedule at 9 and 12 months of age with respect to serum bactericidal assay using human complement (hSBA) titers ≥1:8 for each discrete N. meningitidis serogroup W-135.||100|96.2|
92316887|NCT00471081|184537568|SUPERIORITY||Percentage of subjects with hSBA titers|99.3|||||TWO_SIDED|95.0|96.2|100.0|||||Immunogenecity of GSK134612 was demonstrated if the lower limit (LL) of the 2-sided exact 95% confidence interval (CI) was higher than the pre-defined clinical limit of 80%.|To demonstrate the immunogenicity of GSK134612 administered on a 2-dose schedule at 9 and 12 months of age with respect to serum bactericidal assay using human complement (hSBA) titers ≥1:8 for each discrete N. meningitidis serogroup Y.||100|96.2|
92316888|NCT03871543|184537633|OTHER|Statistical Difference|Mean difference|0.159|STANDARD_ERROR_OF_MEAN|0.287|||ONE_SIDED|95.0|-0.402||||Mixed Models Analysis|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Symptomatic minus Asymptomatic|Upper Lid|||-0.402|
92316889|NCT03871543|184537633|OTHER|Statistical Difference|Mean Difference|0.236|STANDARD_ERROR_OF_MEAN|0.289|||ONE_SIDED|95.0|-0.328||||Mixed Models Analysis|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Symptomatic minus Asymptomatic|Lower Lid|||-0.328|
92316890|NCT03871543|184537634|OTHER|Statistical difference|Mean Ratio|0.918|||||ONE_SIDED|95.0||1.227|||Generalized Linear Mixed Model|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean ratio was calculated as Symptomatic divided by Asymptomatic|||1.227||
92316891|NCT03871543|184537635|OTHER|Statistical difference|Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.019|||ONE_SIDED|95.0||0.022|||Mixed Models Analysis|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Symptomatic minus Asymptomatic|||0.022||
92316892|NCT03871543|184537636|OTHER|Statistical difference|Mean Difference|1.185|STANDARD_ERROR_OF_MEAN|3.483|||ONE_SIDED|95.0|-4.613||||Mixed Models Analysis|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Symptomatic minus Asymptomatic||||-4.613|
92316893|NCT03871543|184537637|OTHER|Statistical difference|Mean Ratio|1.984|||||ONE_SIDED|95.0|1.198||||Generalized Linear Mixed Model|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean Ratio was calculated as Symptomatic divided by Asymptomatic|Upper Lid|||1.198|
92316894|NCT03871543|184537637|OTHER|Statistical Difference|Mean Ratio|1.8|||||ONE_SIDED|95.0|1.093||||Generalized Linear Mixed Model|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean Ratio was calculated as Symptomatic divided by Asymptomatic|Lower Lid|||1.093|
92316895|NCT03871543|184537638|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.1416||||0.3446|TWO_SIDED|95.0|-0.4148|0.1551|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.1551|-0.4148|0.3446
92316896|NCT03871543|184537639|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|0.0887||||0.5556|TWO_SIDED|95.0|-0.207|0.3694|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.3694|-0.2070|0.5556
92316897|NCT03871543|184537640|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.2052||||0.1676|TWO_SIDED|95.0|-0.4676|0.0905|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.0905|-0.4676|0.1676
92316898|NCT03871543|184537641|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|0.0903||||0.5483|TWO_SIDED|95.0|-0.2054|0.3709|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.3709|-0.2054|0.5483
92316899|NCT03871543|184537642|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.2679||||0.0719|TWO_SIDED|95.0|-0.5205|0.0278|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.0278|-0.5205|0.0719
92316900|NCT03871543|184537643|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.3434||||0.019|TWO_SIDED|95.0|-0.5786|0.0554|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.0554|-0.5786|0.0190
92316901|NCT03871543|184537644|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.2975||||0.042|TWO_SIDED|95.0|-0.541|-0.0078|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||-0.0078|-0.5410|0.0420
92316902|NCT03871543|184537645|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|0.127||||0.3973|TWO_SIDED|95.0|-0.1696|0.4024|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.4024|-0.1696|0.3973
92316903|NCT03871543|184537646|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.021||||0.8894|TWO_SIDED|95.0|-0.3094|0.271|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.2710|-0.3094|0.8894
92316904|NCT03871543|184537647|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|0.0762||||0.6129|TWO_SIDED|95.0|-0.219|0.3585|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.3585|-0.2190|0.6129
92316905|NCT03871543|184537648|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.1402||||0.3493|TWO_SIDED|95.0|-0.4137|0.1565|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.1565|-0.4137|0.3493
92316906|NCT03871543|184537649|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.1192||||0.427|TWO_SIDED|95.0|-0.3958|0.1772|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.1772|-0.3958|0.4270
92316907|NCT00663793|184537674|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 8 per group was estimated to confer an 80% power to detect a 40% difference in testosterone AUC with a standard deviation of 20% at an alpha of 0.05|||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon sign-rank|||||||<0.05
92316908|NCT00663793|184537675|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation was performed for this pilot study.|||||<|0.05||95.0|||||Wilcoxon sign-rank|||||||<0.05
92316909|NCT00663793|184537676|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation was performed for this pilot study||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Area-under-the-curve for serum estradiol||||0.05
92316910|NCT03335475|184537760|SUPERIORITY|||||||0.24|||||||Mixed Models Analysis|||||||0.24
92316911|NCT03335475|184537761|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|||||||0.70
92316912|NCT03335475|184537762|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||||||0.21
92316913|NCT04886596|184537763|OTHER|VE is demonstrated if the lower limit (LL) of the 2-sided confidence interval (CI) for vaccine efficacy (VE) is above 20%.|VE|82.58|||||TWO_SIDED|96.95|57.89|94.08|||Poisson regression method||VE in terms of occurrence of RSV-confirmed LRTD was evaluated using the conditional exact binomial method based on the Poisson model|To demonstrate the vaccine efficacy (VE) efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD during the first season in adults ≥ 60 YOA||94.08|57.89|
92316914|NCT04886596|184537764|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 20%.|VE|62.91|||||TWO_SIDED|97.5|46.74|74.79|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over three seasons.||74.79|46.74|
92316915|NCT04886596|184537764|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 20%.|VE|67.18|||||TWO_SIDED|97.5|48.19|80.04|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over two seasons.||80.04|48.19|
92316916|NCT04886596|184537765|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 20%.|VE|67.76|||||TWO_SIDED|97.5|51.82|79.11|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine followed by 1 annual revaccination before Season 2 in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over three seasons.||79.11|51.82|
92316917|NCT04886596|184537765|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 20%.|VE|67.12|||||TWO_SIDED|97.5|48.09|80.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine followed by 1 annual revaccination before Season 2 in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over two seasons.||80.00|48.09|
92193527|NCT00553605|184286296|SUPERIORITY_OR_OTHER|||||||0.5552|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 120: p-value was calculated using Cochran-Mantel-Haenszel (CMH) model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.5552
92316918|NCT04886596|184537766|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 0%.|VE|69.83|||||TWO_SIDED|97.5|42.18|85.72|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD for RSV subtype A in adults ≥ 60 YOA over 3 seasons.||85.72|42.18|
92316919|NCT04886596|184537766|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 0%.|VE|58.57|||||TWO_SIDED|97.5|35.9|74.11|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD for RSV subtype B in adults ≥ 60 YOA over 3 seasons.||74.11|35.90|
92193528|NCT00553605|184286297|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.007||||0.9785|TWO_SIDED|95.0|0.6|1.69|||Regression, Logistic|||p-value was based on logistic regression model with terms for treatment group and baseline as covariates.||1.69|0.60|0.9785
92193529|NCT00553605|184286298|SUPERIORITY_OR_OTHER|||||||0.2482|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 30: p-value was calculated using Cochran-Mantel-Haenszel (CMH) model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.2482
92316920|NCT04886596|184537767|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 0%.|VE|55.12|||||TWO_SIDED|97.5|16.52|77.52|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose and 1 annual revaccination before Season 2 of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD for RSV subtype A in adults ≥ 60 YOA over 3 seasons.||77.52|16.52|
92316921|NCT04886596|184537767|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 0%.|VE|73.58|||||TWO_SIDED|97.5|55.1|85.4|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose and 1 annual revaccination before Season 2 of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD for RSV subtype B in adults ≥ 60 YOA over 3 seasons.||85.40|55.10|
92193530|NCT00553605|184286298|SUPERIORITY_OR_OTHER|||||||0.7659|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 120: p-value was calculated using CMH model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.7659
92193531|NCT00553605|184286299|SUPERIORITY_OR_OTHER|||||||0.9783|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 30: p-value was calculated using CMH model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.9783
92193532|NCT00553605|184286299|SUPERIORITY_OR_OTHER|||||||0.6847|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 120: p-value was calculated using CMH model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.6847
92193533|NCT00553605|184286300|SUPERIORITY_OR_OTHER|||||||0.9645|TWO_SIDED||||||Log Rank|||||||0.9645
92316922|NCT04886596|184537768|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|18.41|||||TWO_SIDED|95.0|-19.1|44.33|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season)|To evaluate vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hMPV-confirmed LRTD in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine up to the end of Season 1.||44.33|-19.10|
92316923|NCT04886596|184537769|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|58.78|||||TWO_SIDED|95.0|40.73|71.96|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=65YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||71.96|40.73|
92316924|NCT04886596|184537769|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|65.98|||||TWO_SIDED|95.0|44.32|80.16|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=70YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||80.16|44.32|
92316925|NCT04886596|184537769|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|36.24|||||TWO_SIDED|95.0|-93.99|82.47|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=80YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||82.47|-93.99|
92316926|NCT04886596|184537769|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|66.56|||||TWO_SIDED|95.0|49.33|78.64|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=65YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||78.64|49.33|
92316927|NCT04886596|184537769|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|64.25|||||TWO_SIDED|95.0|40.49|79.55|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=70YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine at end of season 3.||79.55|40.49|
92316928|NCT04886596|184537769|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|32.81|||||TWO_SIDED|95.0|-108.42|81.73|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=80YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine at end of season 3.||81.73|-108.42|
92316929|NCT04886596|184537770|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|80.64|||||TWO_SIDED|95.0|55.9|92.73|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over season 1 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||92.73|55.90|
92316930|NCT04886596|184537770|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|61.39|||||TWO_SIDED|95.0|36.44|77.7|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over season 2 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||77.70|36.44|
92316931|NCT04886596|184537770|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|47.15|||||TWO_SIDED|95.0|7.06|71.59|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over season 3 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||71.59|7.06|
92193534|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.016|0.092|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.092|0.016|
92193535|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.027|0.103|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.103|0.027|
92316932|NCT04886596|184537770|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|54.92|||||TWO_SIDED|95.0|27.85|72.98|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over season 2 in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||72.98|27.85|
92316933|NCT04886596|184537770|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.51|||||TWO_SIDED|95.0|22.35|88.79|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over season 3 in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||88.79|22.35|
92316934|NCT04886596|184537771|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|78.86|||||TWO_SIDED|95.0|57.62|90.48|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over Year 1 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||90.48|57.62|
92316935|NCT04886596|184537771|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|58.59|||||TWO_SIDED|95.0|34.0|75.1|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over Year 2 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||75.10|34.00|
92316936|NCT04886596|184537771|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|47.91|||||TWO_SIDED|95.0|8.51|71.97|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over Year 3 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||71.97|8.51|
92316937|NCT04886596|184537771|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|58.33|||||TWO_SIDED|95.0|33.59|74.94|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over Year 2 in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||74.94|33.59|
92316938|NCT04886596|184537771|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|68.4|||||TWO_SIDED|95.0|24.64|89.08|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over Year 3 in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||89.08|24.64|
92316939|NCT04886596|184537772|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|78.75|||||TWO_SIDED|95.0|57.95|89.26|||Regression, Cox||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Piecewise Cox model with time-varying efficacy - adjusted by age and region).|To evaluate the evolution of efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over Season 1.||89.26|57.95|
92316940|NCT04886596|184537772|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.63|||||TWO_SIDED|95.0|52.47|77.95|||Regression, Cox||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Piecewise Cox model with time-varying efficacy - adjusted by age and region).|To evaluate the evolution of efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over Season 2, following a single dose of the RSVPreF3 OA investigational vaccine.||77.95|52.47|
92316941|NCT04886596|184537772|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|62.87|||||TWO_SIDED|95.0|46.76|74.11|||Regression, Cox||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Piecewise Cox model with time-varying efficacy - adjusted by age and region).|To evaluate the evolution of efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over Season 3, following a single dose of the RSVPreF3 OA investigational vaccine.||74.11|46.76|
92316942|NCT04886596|184537772|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.49|||||TWO_SIDED|95.0|52.27|77.86|||Regression, Cox||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Piecewise Cox model with time-varying efficacy - adjusted by age and region).|To evaluate the evolution of efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over Season 2, following annual revaccination of the RSVPreF3 OA investigational vaccine.||77.86|52.27|
92316943|NCT04886596|184537772|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.66|||||TWO_SIDED|95.0|51.71|78.34|||Regression, Cox||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Piecewise Cox model with time-varying efficacy - adjusted by age and region).|To evaluate the evolution of efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over Season 3, following annual revaccination of the RSVPreF3 OA investigational vaccine.||78.34|51.71|
92316944|NCT04886596|184537773|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|66.49|||||TWO_SIDED|95.0|47.54|79.4|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA by baseline comorbidities with low/medium risk (Charlson Comorbidity Index), following a single dose of the RSVPreF3 OA investigational vaccine.||79.40|47.54|
92316945|NCT04886596|184537773|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|58.88|||||TWO_SIDED|95.0|34.81|74.98|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA by baseline comorbidities with high risk (Charlson Comorbidity Index), following a single dose of the RSVPreF3 OA investigational vaccine.||74.98|34.81|
92316946|NCT04886596|184537773|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|72.55|||||TWO_SIDED|95.0|54.34|84.37|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA by baseline comorbidities with low/medium risk (Charlson Comorbidity Index), following annual revaccination of the RSVPreF3 OA investigational vaccine.||84.37|54.34|
92316947|NCT04886596|184537773|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|61.99|||||TWO_SIDED|95.0|37.17|78.01|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA by baseline comorbidities with high risk (Charlson Comorbidity Index), following annual revaccination of the RSVPreF3 OA investigational vaccine.||78.01|37.17|
92316948|NCT04886596|184537774|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|61.48|||||TWO_SIDED|95.0|38.62|76.74|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with no pre-existing comorbidity of interest, following a single dose of the RSVPreF3 OA investigational vaccine.||76.74|38.62|
92316949|NCT04886596|184537774|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|64.73|||||TWO_SIDED|95.0|45.1|78.14|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing comorbidity of interest, following a single dose of the RSVPreF3 OA investigational vaccine.||78.14|45.10|
92316950|NCT04886596|184537774|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|68.14|||||TWO_SIDED|95.0|45.71|82.33|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing cardiorespiratory condition, following a single dose of the RSVPreF3 OA investigational vaccine.||82.33|45.71|
92316951|NCT04886596|184537774|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|63.88|||||TWO_SIDED|95.0|31.35|82.48|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing endocrinometabolic condition, following a single dose of the RSVPreF3 OA investigational vaccine.||82.48|31.35|
92316952|NCT04886596|184537774|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|64.16|||||TWO_SIDED|95.0|41.08|79.17|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with no pre-existing comorbidity of interest, following annual revaccination of the RSVPreF3 OA investigational vaccine.||79.17|41.08|
92193536|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.046|0.122|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.122|0.046|
92193537|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|-0.027|0.049|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.049|-0.027|
92193538|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.008|0.069|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.069|-0.008|
92193539|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.019|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|-0.019|0.058|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.058|-0.019|
92193540|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.013|0.089|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.089|0.013|
92193541|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.045|0.122|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.122|0.045|
92193542|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.042|0.119|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.119|0.042|
92193543|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.006|0.071|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.071|-0.006|
92193544|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|-0.009|0.068|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.068|-0.009|
92193545|NCT01040403|184286312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|-0.041|0.035|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.035|-0.041|
92193546|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.04|0.159|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.159|0.040|
92193547|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.061|0.179|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.179|0.061|
92193548|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.041|0.16|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.160|0.041|
92193549|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.039|0.079|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.079|-0.039|
92193550|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.031|||TWO_SIDED|95.0|-0.059|0.061|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.061|-0.059|
92193551|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.079|0.04|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.040|-0.079|
92193552|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.071|0.19|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.190|0.071|
92193553|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.072|0.191|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.191|0.072|
92193554|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.067|0.187|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.187|0.067|
92193555|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.031|||TWO_SIDED|95.0|-0.059|0.061|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.061|-0.059|
92193556|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.063|0.056|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.056|-0.063|
92193557|NCT01040403|184286313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.064|0.055|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.055|-0.064|
92193558|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.035|0.114|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-3h||0.114|0.035|
92193559|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.057|0.137|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-3h||0.137|0.057|
92193560|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.079|0.159|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-3h||0.159|0.079|
92193561|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.017|0.062|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-3h||0.062|-0.017|
92193562|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.021|||TWO_SIDED|95.0|0.004|0.085|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-3h||0.085|0.004|
92193563|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.018|0.062|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-3h||0.062|-0.018|
92193564|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.057|0.137|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-3h||0.137|0.057|
92193565|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.088|0.168|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-3h||0.168|0.088|
92193566|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.103|0.183|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-3h||0.183|0.103|
92316953|NCT04886596|184537774|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|71.19|||||TWO_SIDED|95.0|51.92|83.65|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing comorbidity of interest, following annual revaccination of the RSVPreF3 OA investigational vaccine.||83.65|51.92|
92316954|NCT04886596|184537774|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|75.94|||||TWO_SIDED|95.0|54.11|88.54|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing cardiorespiratory condition,following annual revaccination of the RSVPreF3 OA investigational vaccine.||88.54|54.11|
92316955|NCT04886596|184537774|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|69.85|||||TWO_SIDED|95.0|37.51|87.05|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing endocrinometabolic condition, following annual revaccination of the RSVPreF3 OA investigational vaccine.||87.05|37.51|
92316956|NCT04886596|184537775|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-153.57|||||TWO_SIDED|95.0|-16322.97|88.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (frail) in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||88.00|-16322.97|
92316957|NCT04886596|184537775|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|70.07|||||TWO_SIDED|95.0|43.89|85.33|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (pre-frail) in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||85.33|43.89|
92316958|NCT04886596|184537775|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|61.04|||||TWO_SIDED|95.0|42.89|74.08|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (fit) in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||74.08|42.89|
92316959|NCT04886596|184537775|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|13.62|||||TWO_SIDED|95.0|-6751.38|98.91|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (frail) in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||98.91|-6751.38|
92316960|NCT04886596|184537775|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|74.32|||||TWO_SIDED|95.0|49.33|88.31|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (pre-frail) in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||88.31|49.33|
92316961|NCT04886596|184537775|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|64.79|||||TWO_SIDED|95.0|46.1|77.75|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (fit) in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||77.75|46.10|
92316962|NCT04886596|184537776|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.38|||||TWO_SIDED|95.0|42.43|82.68|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to any case definition, following a single dose of the RSVPreF3 OA investigational vaccine.||82.68|42.43|
92193567|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.009|0.071|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-3h||0.071|-0.009|
92193568|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.006|0.086|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-3h||0.086|0.006|
92193569|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.015|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.025|0.055|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-3h||0.055|-0.025|
92193570|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.04|0.117|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-6h||0.117|0.040|
92193571|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.06|0.137|||Mixed Models Analysis||difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-6h||0.137|0.060|
92193572|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.08|0.157|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-6h||0.157|0.080|
92193573|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|-0.018|0.058|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-6h||0.058|-0.018|
92193574|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.001|0.079|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-6h||0.079|0.001|
92193575|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.019|0.058|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-6h||0.058|-0.019|
92316963|NCT04886596|184537776|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.38|||||TWO_SIDED|95.0|42.43|82.68|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to case definition 1, following a single dose of the RSVPreF3 OA investigational vaccine.||82.68|42.43|
92193576|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.06|0.136|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-6h||0.136|0.060|
92193577|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.083|0.159|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-6h||0.159|0.083|
92193578|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.105|0.182|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-6h||0.182|0.105|
92193579|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.016|0.062|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-6h||0.062|-0.016|
92193580|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.007|0.084|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-6h||0.084|0.007|
92193581|NCT01040403|184286314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.016|0.061|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-6h||0.061|-0.016|
92193582|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.058|0.012|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.012|-0.058|
92193583|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.029|0.04|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.040|-0.029|
92193584|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.034|0.036|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.036|-0.034|
92193585|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.006|0.063|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.063|-0.006|
92193586|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.011|0.059|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.059|-0.011|
92193587|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.039|0.031|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.031|-0.039|
92193588|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|0.004|0.073|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.073|0.004|
92193589|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.004|0.066|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.066|-0.004|
92193590|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|0.006|0.076|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.076|0.006|
92193591|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.043|0.027|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.027|-0.043|
92193592|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.032|0.037|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.037|-0.032|
92193593|NCT01040403|184286315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.025|0.045|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.045|-0.025|
92193594|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|0.041|0.138|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.138|0.041|
92193595|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.024|||TWO_SIDED|95.0|0.043|0.139|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.139|0.043|
92193596|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|0.066|0.164|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.164|0.066|
92193597|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.046|0.05|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.050|-0.046|
92193598|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.023|0.074|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.074|-0.023|
92193599|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.025|0.072|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.072|-0.025|
92193600|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|0.059|0.156|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.156|0.059|
92193601|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|0.084|0.181|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.181|0.084|
92193602|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|0.096|0.193|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.193|0.096|
92193603|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.025|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.024|0.074|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.074|-0.024|
92193604|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.01|0.086|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.086|-0.010|
92193605|NCT01040403|184286316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.013|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.036|0.061|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.061|-0.036|
92193606|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.059|0.02|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.020|-0.059|
92193607|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.026|0.053|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.053|-0.026|
92193608|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.028|0.051|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.051|-0.028|
92193609|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.006|0.072|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.072|-0.006|
92193610|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.009|0.071|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.071|-0.009|
92193611|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.041|0.037|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.037|-0.041|
92193612|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.015|0.093|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.093|0.015|
92193613|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.006|0.084|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.084|0.006|
92193614|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.008|0.087|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.087|0.008|
92193615|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.009|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.049|0.031|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.031|-0.049|
92193616|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.046|0.033|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.033|-0.046|
92193617|NCT01040403|184286317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.037|0.042|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.042|-0.037|
92193618|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.084|0.202|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-3h||0.202|0.084|
92193619|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.092|0.21|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-3h||0.210|0.092|
92193620|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.072|0.191|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-3h||0.191|0.072|
92193621|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.051|0.066|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-3h||0.066|-0.051|
92193622|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.071|0.048|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-3h||0.048|-0.071|
92193623|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.079|0.039|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-3h||0.039|-0.079|
92316964|NCT04886596|184537776|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|59.16|||||TWO_SIDED|95.0|-119.6|95.93|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to the case definition 2, following a single dose of the RSVPreF3 OA investigational vaccine.||95.93|-119.60|
92316965|NCT04886596|184537776|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|78.8|||||TWO_SIDED|95.0|57.05|90.75|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to any case definition, following annual revaccination of the RSVPreF3 OA investigational vaccine.||90.75|57.05|
92316966|NCT04886596|184537776|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|78.8|||||TWO_SIDED|95.0|57.05|90.75|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to case definition 1, following annual revaccination of the RSVPreF3 OA investigational vaccine.||90.75|57.05|
92316967|NCT04886596|184537776|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|100.0|||||TWO_SIDED|95.0|20.27|100.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to case definition 2, following annual revaccination of the RSVPreF3 OA investigational vaccine.||100.00|20.27|
92316968|NCT04886596|184537777|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|51.13|||||TWO_SIDED|95.0|40.31|60.21|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed ARI in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||60.21|40.31|
92316969|NCT04886596|184537777|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|58.44|||||TWO_SIDED|95.0|48.1|66.96|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed ARI in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||66.96|48.10|
92316970|NCT04886596|184537778|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|2.33|||||TWO_SIDED|95.0|-1.47|5.99|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of any ARI in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||5.99|-1.47|
92316971|NCT04886596|184537778|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|3.32|||||TWO_SIDED|95.0|-0.5|6.98|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of any ARI in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||6.98|-0.50|
92316972|NCT04886596|184537778|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|3.68|||||TWO_SIDED|95.0|-1.55|8.63|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of any LRTD in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||8.63|-1.55|
92316973|NCT04886596|184537778|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|6.99|||||TWO_SIDED|95.0|1.81|11.9|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of any LRTD in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||11.90|1.81|
92316974|NCT04886596|184537779|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|50.37|||||TWO_SIDED|95.0|-184.45|95.19|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||95.19|-184.45|
92316975|NCT04886596|184537779|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|50.37|||||TWO_SIDED|95.0|-184.45|95.19|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease or complication related to RT-PCR-confirmed RSV ARI during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||95.19|-184.45|
92316976|NCT04886596|184537779|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|100.0|||||TWO_SIDED|95.0|11.56|100.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||100.00|11.56|
92316977|NCT04886596|184537779|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|100.0|||||TWO_SIDED|95.0|11.56|100.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease or complication related to RT-PCR-confirmed RSV ARI during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||100.00|11.56|
92316978|NCT04886596|184537779|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|22.14|||||TWO_SIDED|95.0|-457.67|93.12|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease during the RSV seson in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||93.12|-457.67|
92316979|NCT04886596|184537779|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|22.14|||||TWO_SIDED|95.0|-457.67|93.12|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease or complication related to RT-PCR-confirmed RSV ARI during the RSV season in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||93.12|-457.67|
92316980|NCT04886596|184537779|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|100.0|||||TWO_SIDED|95.0|-54.53|100.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease during the RSV season in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||100.00|-54.53|
92316981|NCT04886596|184537779|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|100.0|||||TWO_SIDED|95.0|-54.53|100.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease or complication related to RT-PCR-confirmed RSV ARI during the RSV season in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||100.00|-54.53|
92316982|NCT04886596|184537780|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-1.81|||||TWO_SIDED|95.0|-25.43|17.49|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||17.49|-25.43|
92316983|NCT04886596|184537780|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-4.72|||||TWO_SIDED|95.0|-28.26|14.61|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases or complication related to any respiratory disease during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||14.61|-28.26|
92193624|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.116|0.234|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-3h||0.234|0.116|
92193625|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.116|0.234|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-3h||0.234|0.116|
92193626|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.14|0.259|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-3h||0.259|0.140|
92193627|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.06|0.059|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-3h||0.059|-0.060|
92193628|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.035|0.083|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-3h||0.083|-0.035|
92193629|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.035|0.083|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-3h||0.083|-0.035|
92193630|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.081|0.197|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-6h||0.197|0.081|
92316984|NCT04886596|184537780|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-3.61|||||TWO_SIDED|95.0|-28.2|16.38|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine||16.38|-28.20|
92316985|NCT04886596|184537780|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-3.59|||||TWO_SIDED|95.0|-27.55|15.98|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases or complication related to any respiratory diseases during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||15.98|-27.55|
92316986|NCT04886596|184537780|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|2.98|||||TWO_SIDED|95.0|-23.52|23.99|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases during the RSV season in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||23.99|-23.52|
92316987|NCT04886596|184537780|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-1.71|||||TWO_SIDED|95.0|-28.56|19.7|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases or complication related to any respiratory disease during the RSV seasons in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||19.70|-28.56|
92316988|NCT04886596|184537780|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|4.8|||||TWO_SIDED|95.0|-22.14|26.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases during the RSV seasons in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||26.00|-22.14|
92316989|NCT04886596|184537780|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|4.64|||||TWO_SIDED|95.0|-21.73|25.48|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases or complication related to any respiratory diseases during the RSV seasons in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||25.48|-21.73|
92316990|NCT04886596|184537781|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|62.94|||||TWO_SIDED|95.0|28.91|82.15|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to RSV- ARI during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||82.15|28.91|
92193631|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.092|0.207|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-6h||0.207|0.092|
92193632|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.073|0.189|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-6h||0.189|0.073|
92193633|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.047|0.068|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-6h||0.068|-0.047|
92193634|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.066|0.051|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-6h||0.051|-0.066|
92193635|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.076|0.039|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-6h||0.039|-0.076|
92316991|NCT04886596|184537781|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|63.8|||||TWO_SIDED|95.0|28.5|83.2|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to RSV-ARI during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||83.20|28.50|
92316992|NCT04886596|184537781|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|65.69|||||TWO_SIDED|95.0|28.56|85.47|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to RSV- ARI during the RSV seasons in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||85.47|28.56|
92316993|NCT04886596|184537781|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|62.87|||||TWO_SIDED|95.0|21.45|84.29|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to RSV-ARI during the RSV seasons in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||84.29|21.45|
92316994|NCT04886596|184537782|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|2.59|||||TWO_SIDED|95.0|-8.29|12.42|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to any ARI during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||12.42|-8.29|
92316995|NCT04886596|184537782|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|6.7|||||TWO_SIDED|95.0|-4.05|16.39|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to any ARI during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||16.39|-4.05|
92316996|NCT04886596|184537782|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|10.95|||||TWO_SIDED|95.0|-0.68|21.31|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to any ARI during the RSV seasons in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||21.31|-0.68|
92316997|NCT04886596|184537782|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|12.12|||||TWO_SIDED|95.0|0.32|22.58|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to any ARI during the RSV seasons in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||22.58|0.32|
92316998|NCT02211209|184537808|SUPERIORITY||Least Squares Mean Difference|-94.1|||<|0.0001|TWO_SIDED|95.0|-121.7|-66.6|||ANCOVA|||||-66.6|-121.7|< 0.0001
92316999|NCT02211209|184537810|SUPERIORITY||Least Squares Mean Difference|-1804.0|STANDARD_ERROR_OF_MEAN|251.0|<|0.0001|TWO_SIDED|95.0|-2306.0|-1302.0|||ANCOVA|||||-1302|-2306|< 0.0001
92317000|NCT02211209|184537811|SUPERIORITY||Odds Ratio (OR)|186.16||||0.0001|TWO_SIDED|95.0|12.86||NA indicates that the upper limit of 95% CI was not estimable. The upper limit of the odds ratio estimate from the logistic regression model was \>999.999, and it was reported as NA per statistical reporting convention.||Regression, Logistic||||||12.86|0.0001
92317001|NCT02211209|184537812|SUPERIORITY||Odds Ratio (OR)|99.69|||<|0.0001|TWO_SIDED|95.0|15.75|631.06|||Regression, Logistic|||||631.06|15.75|<0.0001
92317002|NCT02211209|184537814|SUPERIORITY|||||||0.6131|||||||t-test, 2 sided|||||||0.6131
92317003|NCT02211209|184537815|SUPERIORITY||Least Squares Mean Difference|138.0||||0.1206|TWO_SIDED|95.0|-36.0|312.0|||ANCOVA|||||312|-36|0.1206
92317004|NCT02964247|184537834|SUPERIORITY||Treatment difference|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.89|-0.48|||pattern mixture model||Liraglutide - Placebo|Statistical analysis for the primary estimand. Primary estimand: treatment effect (effectiveness) based on the FAS using week 26 measurements from the in-trial observation period. The change in HbA1c from baseline to week 26 were analysed using a pattern mixture model with multiple imputation to impute missing data, with treatment, country and the stratification factor (metformin use at baseline: yes vs. no) as categorical fixed effects and baseline HbA1c as covariate.||-0.48|-0.89|<.001
92193636|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.189|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.131|0.247|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-6h||0.247|0.131|
92317005|NCT02964247|184537834|SUPERIORITY|Test was not controlled for type I error. Secondary estimand: treatment effect (efficacy) based on the FAS using post baseline measurements up to and including week 26 from the on-treatment without rescue medication obs. period.|Treatment difference|-0.74|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.94|-0.53|||Mixed Models Analysis||Liraglutide - Placebo|Statistical analysis for the secondary estimand.The change in HbA1c from baseline up to and including week 26 at scheduled time points were analysed using MMRM with treatment, country and the stratification factor (metformin use at baseline: yes vs. no) as categorical fixed effects and baseline HbA1c as covariate, all nested within visit.||-0.53|-0.94|<.001
92317006|NCT02964247|184537835|SUPERIORITY||Treatment difference|-0.82|STANDARD_ERROR_OF_MEAN|0.46||0.077|TWO_SIDED|95.0|-1.73|0.09|||pattern mixture model||Liraglutide - Placebo|Statistical analysis for the primary estimand. Primary estimand: treatment effect (effectiveness) based on the FAS using week 26 measurements from the in-trial observation period. The change in body weight from baseline to week 26 were analysed using a pattern mixture model with multiple imputation to impute missing data, with treatment, country and the stratification factor (metformin use at baseline: yes vs. no) as categorical fixed effects and baseline body weight as covariate.||0.09|-1.73|0.077
92317007|NCT02964247|184537835|SUPERIORITY|Test was not controlled for type I error. Secondary estimand: treatment effect (efficacy) based on the FAS using post baseline measurements up to and including week 26 from the on-treatment without rescue medication obs. period.|Treatment difference|-0.86|STANDARD_ERROR_OF_MEAN|0.46||0.062|TWO_SIDED|95.0|-1.77|0.04|||Mixed Models Analysis||Liraglutide - Placebo|Statistical analysis for the secondary estimand. The change in body weight from baseline up to and including week 26 at scheduled time points were analysed using MMRM with treatment, country and the stratification factor (metformin use at baseline: yes vs. no) as categorical fixed effects and baseline body weight as covariate, all nested within visit.||0.04|-1.77|0.062
92317008|NCT03832686|184537875|OTHER|||||||0.86||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||||||0.86
92317009|NCT03832686|184537876|OTHER|||||||0.69||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||||||0.69
92317010|NCT03832686|184537877|OTHER|||||||0.47||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||Comparison of Eating in Public Score||||0.47
92317011|NCT03832686|184537877|OTHER|||||||0.73||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||Comparison of Normalcy of Diet score||||0.73
92317012|NCT03832686|184537878|OTHER|||||||0.65||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||Comparison of MBSImP Oral score||||0.65
92317013|NCT03832686|184537878|OTHER|||||||0.24||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||Comparison of MBSImP Pharyngeal score||||0.24
92193637|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.121|0.236|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-6h||0.236|0.121|
92317014|NCT03832686|184537879|OTHER|||||||0.53||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||||||0.53
92317015|NCT03832686|184537880|OTHER|||||||0.5||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||||||0.50
92317016|NCT05479435|184537909|OTHER|||||||0.83|||||||Kruskal-Wallis|||||||0.830
92317017|NCT05479435|184537910|OTHER|||||||0.654|||||||ANCOVA|||||||0.654
92193638|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.155|0.271|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-6h||0.271|0.155|
92193639|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.069|0.048|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-6h||0.048|-0.069|
92317018|NCT05479435|184537911|OTHER|||||||0.803|||||||ANCOVA|||||||0.803
92317019|NCT05479435|184537912|OTHER|||||||0.398|||||||ANCOVA|||||||0.398
92317020|NCT05479435|184537913|OTHER|||||||0.132|||||||Kruskal-Wallis|||||||0.132
92317021|NCT05479435|184537914|OTHER|||||||0.991|||||||Kruskal-Wallis|||||||0.991
92317022|NCT05479435|184537915|OTHER|||||||0.278|||||||Kruskal-Wallis|||||||0.278
92317023|NCT05479435|184537916|OTHER|||||||0.479|||||||ANCOVA|||||||0.479
92317024|NCT05479435|184537917|OTHER|||||||0.849|||||||Kruskal-Wallis|||||||0.849
92317025|NCT05479435|184537918|OTHER|||||||0.504|||||||Kruskal-Wallis|||||||0.504
92317026|NCT05479435|184537919|OTHER|||||||0.017|||||||ANCOVA|||||||0.017
92317027|NCT05479435|184537920|OTHER|||||||0.025|||||||Kruskal-Wallis|||||||0.025
92317028|NCT05479435|184537921|OTHER|||||||0.016|||||||ANCOVA|||||||0.016
92317029|NCT05479435|184537922|OTHER|||||||0.041|||||||ANCOVA|||||||0.041
92317030|NCT05479435|184537923|OTHER|||||||0.352|||||||Kruskal-Wallis|||||||0.352
92317031|NCT05479435|184537924|OTHER|||||||0.39|||||||Kruskal-Wallis|||||||0.390
92317032|NCT05479435|184537925|OTHER|||||||0.928|||||||ANCOVA|||||||0.928
92317033|NCT05479435|184537926|OTHER|||||||0.558|||||||Kruskal-Wallis|||||||0.558
92317034|NCT05479435|184537927|OTHER|||||||0.133|||||||Kruskal-Wallis|||||||0.133
92317035|NCT05479435|184537928|OTHER|||||||0.367|||||||Kruskal-Wallis|||||||0.367
92317036|NCT05479435|184537929|OTHER|||||||0.631|||||||ANCOVA|||||||0.631
92317037|NCT05479435|184537930|OTHER|||||||0.056|||||||ANCOVA|||||||0.056
92317038|NCT05479435|184537931|OTHER|||||||0.979|||||||ANCOVA|||||||0.979
92317039|NCT05479435|184537932|OTHER|||||||0.377|||||||ANCOVA|||||||0.377
92317040|NCT05479435|184537933|OTHER|||||||0.979|||||||ANCOVA|||||||0.979
92317041|NCT05479435|184537934|OTHER|||||||0.055|||||||ANCOVA|||||||0.055
92317042|NCT02342678|184537999|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.13|TWO_SIDED|95.0|-0.3|2.2|||ANCOVA|||||2.2|-0.3|0.13
92317043|NCT02342678|184538000|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.18|TWO_SIDED|95.0|-0.2|1.1|||ANCOVA|||||1.1|-0.2|0.18
92317044|NCT02342678|184538001|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.89|TWO_SIDED|95.0|-1.2|1.3|||ANCOVA|||||1.3|-1.2|0.89
92317045|NCT02342678|184538002|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.13|TWO_SIDED|95.0|-0.3|2.0|||ANCOVA|||||2.0|-0.3|0.13
92317046|NCT02342678|184538003|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.73|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||||0.4|-0.3|0.73
92317047|NCT02342678|184538004|SUPERIORITY||Mean Difference (Final Values)|-19.3||||0.38|TWO_SIDED|95.0|-62.9|24.3|||ANCOVA|||||24.3|-62.9|0.38
92193640|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.033|0.082|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-6h||0.082|-0.033|
92193641|NCT01040403|184286318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.023|0.092|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-6h||0.092|-0.023|
92193642|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.048|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.106|0.01|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.010|-0.106|
92317048|NCT02342678|184538005|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.24|TWO_SIDED|95.0|-3.7|14.8|||ANCOVA|||||14.8|-3.7|0.24
92317049|NCT02342678|184538006|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.46|TWO_SIDED|95.0|-0.4|0.9|||ANCOVA|||||0.9|-0.4|0.46
92317050|NCT03889418|184538024|SUPERIORITY||Odds Ratio, log|-0.009|STANDARD_ERROR_OF_MEAN|0.153||0.956|TWO_SIDED|95.0|-0.309|0.292|||Mixed Models Analysis|||||0.292|-0.309|0.956
92317051|NCT03889418|184538025|SUPERIORITY||Risk Ratio, log|-0.103|STANDARD_ERROR_OF_MEAN|0.05||0.039|TWO_SIDED|95.0|-0.2|-0.005|||Mixed Models Analysis|||||-.005|-0.200|0.039
92317052|NCT03889418|184538026|SUPERIORITY||Rate Ratio, log|0.049|STANDARD_ERROR_OF_MEAN|0.282||0.864|TWO_SIDED|95.0|-0.506|0.603|||Mixed Models Analysis|||||0.603|-0.506|0.864
92317053|NCT03889418|184538027|SUPERIORITY||rate ratio, log|0.018|STANDARD_ERROR_OF_MEAN|0.148||0.901|TWO_SIDED|95.0|-0.272|0.308|||Mixed Models Analysis|||||0.308|-0.272|0.901
92317054|NCT01416636|184538052|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
92317055|NCT01416636|184538052|SUPERIORITY|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||||||0.0003
92317056|NCT01416636|184538053|SUPERIORITY|||||||0.605|||||||Wilcoxon (Mann-Whitney)|||||||0.605
92317057|NCT01416636|184538054|SUPERIORITY|||||||0.307|||||||Wilcoxon (Mann-Whitney)|||||||0.307
92193643|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.065|0.051|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.051|-0.065|
92193644|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.072|0.044|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.044|-0.072|
92193645|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.017|0.099|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.099|-0.017|
92193646|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.024|0.093|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.093|-0.024|
92193647|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.065|0.051|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.051|-0.065|
92193648|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.032|0.148|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.148|0.032|
92193649|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.001|0.118|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.118|0.001|
92317058|NCT01416636|184538055|SUPERIORITY|||||||0.0019|||||||Chi-squared|||||||0.0019
92317059|NCT01416636|184538056|SUPERIORITY|||||||0.557|||||||Wilcoxon (Mann-Whitney)|||||||0.557
92317060|NCT01416636|184538057|SUPERIORITY|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
92317061|NCT01416636|184538058|SUPERIORITY|||||||1e-05|||||||Wilcoxon (Mann-Whitney)|||||||0.00001
92317062|NCT01416636|184538059|SUPERIORITY|||||||3e-06|||||||Wilcoxon (Mann-Whitney)|||||||0.000003
92317063|NCT01416636|184538060|SUPERIORITY|||||||8e-05|||||||Wilcoxon (Mann-Whitney)|||||||0.00008
92317064|NCT01416636|184538061|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92317065|NCT01416636|184538062|SUPERIORITY|||||||0.227|||||||Wilcoxon (Mann-Whitney)|||||||0.227
92317066|NCT00793455|184538075|SUPERIORITY_OR_OTHER||Rate Ratio|3.1|||<|0.05|TWO_SIDED|95.0|1.5|6.2|||Chi-squared|||We compared the outcomes in the intervention and control groups using rate ratios and chi square test at 3 and 6 months, a 2 sided test with a p value \< .05 was used to determine significance. The study was powered to detect a 10-percentage point difference in screening completion between intervention and control groups if the control rate of completion as 20% or less with 80% power.||6.2|1.5|<0.05
92317067|NCT00793455|184538076|SUPERIORITY_OR_OTHER||Rate Ratio|1.5|||<|0.05|TWO_SIDED|95.0|1.03|2.2|||Chi-squared|||Same as primary outcome.||2.2|1.03|<0.05
92317068|NCT04910100|184538096|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.5 mm Hg|6.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
92317069|NCT04910100|184538096|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.0 mm Hg|9.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
92317070|NCT04910100|184538096|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.5 mm Hg|0.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
92317071|NCT04910100|184538096|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.0 mm Hg|0.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
92317072|NCT04910100|184538096|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.5 mm Hg|0.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
92317073|NCT04910100|184538096|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.0 mm Hg|0.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
92317074|NCT00699998|184538187|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.915||||0.21|TWO_SIDED|95.0|0.793|1.055||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.055|0.793|0.210
92317075|NCT00699998|184538187|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.029||||0.731|TWO_SIDED|95.0|0.865|1.225||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.225|0.865|0.731
92317076|NCT00699998|184538188|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.388|TWO_SIDED|95.0|0.812|1.088|||Log Rank|Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.088|0.812|0.388
92317077|NCT00699998|184538188|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.998||||0.99|TWO_SIDED|95.0|0.833|1.195||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.195|0.833|0.990
92317078|NCT00699998|184538189|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.941||||0.353|TWO_SIDED|95.0|0.826|1.073||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.073|0.826|0.353
92317079|NCT00699998|184538189|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.029||||0.719|TWO_SIDED|95.0|0.869|1.218||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.218|0.869|0.719
92317080|NCT00699998|184538190|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.928||||0.27|TWO_SIDED|95.0|0.81|1.063||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.063|0.810|0.270
92317081|NCT00699998|184538190|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.017||||0.831|TWO_SIDED|95.0|0.862|1.2||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.200|0.862|0.831
92317082|NCT00699998|184538191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-100.208|||<|0.001|TWO_SIDED|95.0|-107.872|-92.545||p-value is for Day 30 comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Estimated Mean Difference (Final Values) for Day 30 comparison|||-92.545|-107.872|<0.001
92193650|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.002|0.114|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.114|-0.002|
92317083|NCT00699998|184538191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-104.475|||<|0.001|TWO_SIDED|95.0|-115.383|-93.566||p-value is for 12 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Estimated Mean Difference (Final Values) for 12 month comparison.|||-93.566|-115.383|<0.001
92317084|NCT00699998|184538191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.413|||<|0.001|TWO_SIDED|95.0|-63.718|-33.108||p-value is for 30 day comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Estimated Mean Difference (Final Values) is for the 30 day comparison.|||-33.108|-63.718|<0.001
92317085|NCT00699998|184538191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.264|||<|0.001|TWO_SIDED|95.0|-69.061|-23.468||p-value is for the 12 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Estimated Mean Difference (Final Values) is for the 12 month comparison.|||-23.468|-69.061|<0.001
92317086|NCT00699998|184538192|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|0.982||||0.631|TWO_SIDED|95.0|0.91|1.059||p-value is for the 30 day comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 30 day comparison.|||1.059|0.910|0.631
92317087|NCT00699998|184538192|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.01||||0.844|TWO_SIDED|95.0|0.916|1.113||p-value is for the 6 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 6 month comparison.|||1.113|0.916|0.844
92317088|NCT00699998|184538192|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.138||||0.098|TWO_SIDED|95.0|0.977|1.325||p-value is for the 30 day comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 30 day comparison.|||1.325|0.977|0.098
92317089|NCT00699998|184538192|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.066||||0.545|TWO_SIDED|95.0|0.867|1.31||p-value is for the 6 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 6 month comparison.|||1.310|0.867|0.545
92317090|NCT00699998|184538193|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.018||||0.727|TWO_SIDED|95.0|0.919|1.129||p-value is for the 30 day comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 30 day comparison.|||1.129|0.919|0.727
92317091|NCT00699998|184538193|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.057||||0.346|TWO_SIDED|95.0|0.942|1.187||p-value is for the 6 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 6 month comparison.|||1.187|0.942|0.346
92317092|NCT00699998|184538193|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.096||||0.458|TWO_SIDED|95.0|0.859|1.399||p-value is for the 30 day comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 30 day comparison.|||1.399|0.859|0.458
92317093|NCT00699998|184538193|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.033||||0.802|TWO_SIDED|95.0|0.803|1.329||p-value is for the 6 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 6 month comparison.|||1.329|0.803|0.802
92317094|NCT00699998|184538195|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||p-value is for the comparison of physical limitations at baseline. p-values are from a regression model with treatment group and the respective baseline quality-of-life measure as predictors.|ANCOVA|||||||0.5
92317095|NCT00699998|184538195|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||p-value is for the comparison of angina frequency at baseline. p-values are from a regression model with treatment group and the respective baseline quality-of-life measure as predictors.|ANCOVA|||||||0.72
92317096|NCT00699998|184538195|SUPERIORITY_OR_OTHER|||||||0.63||95.0||||p-value is for the comparison of physical limitations at 24 months. p-values are from a regression model with treatment group and the respective baseline quality-of-life measure as predictors.|ANCOVA|||||||0.63
92193651|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.031|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.089|0.028|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.028|-0.089|
92317097|NCT00699998|184538195|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||p-value is for the comparison of angina frequency at at 24 months. p-values are from a regression model with treatment group and the respective baseline quality-of-life measure as predictors.|ANCOVA|||||||0.53
92317098|NCT04616612|184538203|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||.04
92317099|NCT04616612|184538204|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||.04
92317100|NCT04616612|184538205|OTHER||||||||||||||||||"Qualitative data evaluated from interviews tailored after the acceptability scale questionnaire. These interview questions specifically asked participant to rate from strongly disagree to strongly agree on each question and then rationalize answers.~Mobile support: 77% of participants agreed that mobile messages supported their health behaviors.~Time required: 85% disagreed that the intervention took too much time to learn.~Program effectiveness: 92% enjoyed this learning approach, with 100% agreeing they could use the information to improve health behaviors.~Rationalization feedback found participants in rural areas reported difficulties accessing texts."|||
92317101|NCT04616612|184538206|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
92317102|NCT04616612|184538207|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
92317103|NCT04616612|184538208|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis|||||||0.66
92317104|NCT04616612|184538209|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis|||||||0.66
92317105|NCT04616612|184538210|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|||||||.84
92317106|NCT04616612|184538211|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|||||||0.84
92317107|NCT04740918|184538216|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (estrogen receptors (ER) and/or progesterone receptor (PgR) positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the Hazard Ratio (HR).|Hazard Ratio (HR)|0.75||||0.2876|TWO_SIDED|95.0|0.44|1.28|||Log Rank|||||1.28|0.44|0.2876
92193652|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.034|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.092|0.024|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.024|-0.092|
92193653|NCT01040403|184286319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.062|0.055|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.055|-0.062|
92317108|NCT04740918|184538217|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.|Hazard Ratio (HR)|1.59||||0.5151|TWO_SIDED|95.0|0.39|6.43|||Log Rank|||||6.43|0.39|0.5151
92317109|NCT04740918|184538218|SUPERIORITY|A Cochran-Mantel-Haenszel chi-square test, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis), was used to test for difference in response rates.|Odds Ratio (OR)|1.16||||0.724|TWO_SIDED|95.0|0.5|2.7|||Cochran-Mantel-Haenszel|||||2.70|0.50|0.7240
92317110|NCT04740918|184538219|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.|Hazard Ratio (HR)|0.65||||0.3531|TWO_SIDED|95.0|0.26|1.61|||Log Rank|||||1.61|0.26|0.3531
92317111|NCT04740918|184538220|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.|Hazard Ratio (HR)|1.35||||0.7175|TWO_SIDED|95.0|0.27|6.81|||Log Rank|||||6.81|0.27|0.7175
92317112|NCT04740918|184538221|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.||||||0.3173|||||||Log Rank|||||||0.3173
92317113|NCT04740918|184538222|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.|Hazard Ratio (HR)|1.19||||0.8658|TWO_SIDED|95.0|0.16|8.6|||Log Rank|||||8.60|0.16|0.8658
92317114|NCT04740918|184538223|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.|Hazard Ratio (HR)|1.16||||0.8407|TWO_SIDED|95.0|0.27|4.99|||Log Rank|||||4.99|0.27|0.8407
92317115|NCT01451463|184538234|SUPERIORITY_OR_OTHER|||||||0.009|||||||t-test, 2 sided|||||||.009
92317116|NCT01451463|184538235|SUPERIORITY_OR_OTHER|||||||0.114|||||||t-test, 2 sided|||||||.114
92193654|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.087|0.223|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.223|0.087|
92317117|NCT01256879|184538238|OTHER|Each CimTest-A, CimTest-B, and Commercial Cimetidine Solution are compared to Active Comparator (i.e. Sorbitol-free Cimetidine Solution), as a percentage of Active Comparator, per routine FDA bioequivalence testing of AUC.|||||||||||||||||Bioequivalence testing of AUC, per FDA guidance, is applied. Each CimTest-A, CimTest-B, and Commercial Cimetidine Solution are compared to Active Comparator (i.e. Sorbitol-free Cimetidine Solution), as a percentage of Active Comparator, per routine FDA bioequivalence testing of AUC. The upper and lower 90% Confidence Interval for CimTest-A is 104.4% to 120.6%. The upper and lower 90% Confidence Interval for CimTest-B is 97.9% to 113.0%. The upper and lower 90% Confidence Interval for Commercial Cimetidine Solution is 93.2% to 107.7%.|||
92317118|NCT00725920|184538239|SUPERIORITY_OR_OTHER|||||||0.0076||95.0|||||t-test, 2 sided|||||||0.0076
92193655|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.079|0.215|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.215|0.079|
92193656|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.058|0.195|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.195|0.058|
92193657|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.075|0.06|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.060|-0.075|
92193658|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.097|0.041|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.041|-0.097|
92317119|NCT01288079|184538240|SUPERIORITY_OR_OTHER||LS mean|-1.5|STANDARD_ERROR_OF_MEAN|2.95||0.617|TWO_SIDED|95.0|-7.35|4.39|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit, treatment by visit interaction, region, responsiveness, and region by responsiveness as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit treatment by visit interaction, region, responsiveness, and region by responsiveness are fixed effects in the model; pooled center is a random effect.||4.39|-7.35|0.617
92317120|NCT01288079|184538240|SUPERIORITY_OR_OTHER||LS mean|-3.6|STANDARD_ERROR_OF_MEAN|3.26||0.277|TWO_SIDED|95.0|-10.06|2.91|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit, treatment by visit interaction, region, responsiveness, and region by responsiveness as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit, treatment by visit interaction, region, responsiveness, and region by responsiveness are fixed effects in the model; pooled center is a random effect.||2.91|-10.06|0.277
92193659|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.089|0.048|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.048|-0.089|
92317121|NCT01288079|184538240|SUPERIORITY_OR_OTHER||LS mean|-3.9|STANDARD_ERROR_OF_MEAN|2.95||0.194|TWO_SIDED|95.0|-9.72|2.0|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit, treatment by visit interaction, region, responsiveness, and region by responsiveness as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit, treatment by visit interaction, region, responsiveness, and region by responsiveness are fixed effects in the model; pooled center is a random effect.||2.00|-9.72|0.194
92317122|NCT03170544|184538244|OTHER||Mean|1.33|STANDARD_ERROR_OF_MEAN|0.326|||TWO_SIDED|95.0|0.63|2.04|||||Mean (SE) and 95% CI were based on a linear fixed effects model containing a fixed effect for treatment (MK1092 Doses, Glargine).||The primary hypothesis would be supported if the Bayesian posterior probability of the true mean of GIRmax of MK-1092 lying within 1.5 and 4.5 mg/kg/min exceeded the prespecified threshold of 70% (in Part 3).|2.04|0.63|
92317123|NCT03170544|184538244|OTHER||Mean|2.74|STANDARD_ERROR_OF_MEAN|0.326|||TWO_SIDED|95.0|2.03|3.44|||||Mean (SE) and 95% CI were based on a linear fixed effects model containing a fixed effect for treatment (MK1092 Doses, Glargine).||The primary hypothesis would be supported if the Bayesian posterior probability of the true mean of GIRmax of MK-1092 lying within 1.5 and 4.5 mg/kg/min exceeded the prespecified threshold of 70% (in Part 3).|3.44|2.03|
92317124|NCT02387840|184538269|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.0002|||||||Wilcoxon (Mann-Whitney)|||Comparison of T1 values||||0.0002
92317125|NCT02387840|184538269|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||Comparison of T2 values||||0.0003
92317126|NCT02387840|184538270|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.081|||||||Wilcoxon (Mann-Whitney)|||Comparison of T1 values||||0.081
92317127|NCT02387840|184538270|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.081|||||||Wilcoxon (Mann-Whitney)|||Comparison of T2 values||||0.081
92317128|NCT02387840|184538271|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Comparison of T1 values||||0.12
92317129|NCT02387840|184538271|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Comparison of T2 values||||0.14
92193660|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.106|0.242|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.242|0.106|
92317130|NCT01213966|184538273|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||PPR24 was summarized descriptively. No statistical test was performed. The PRR24 values were summarised when the corresponding regression fit had a p-value of p ≤0.01 and an adjusted coefficient of determination (R2) ≥0.85.|Regression, Linear|||PPR24 was summarised descriptively. No statistical test was performed.||||0.01
92193661|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.113|0.25|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.250|0.113|
92317131|NCT03888469|184538287|NON_INFERIORITY|Non-inferiority margin = 0.05|Least Squares Mean Difference|0.0|||||ONE_SIDED|95.0||0.0|||Mixed effects repeated measures model|Mixed effects repeated measures model with terms for lens, period and sequence as fixed effects and subject as a random effect.|Difference = DDT2 - Moist|||0.00||
92193662|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.135|0.272|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.272|0.135|
92193663|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.061|0.076|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.076|-0.061|
92193664|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.038|0.098|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.098|-0.038|
92193665|NCT01040403|184286320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.046|0.09|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.090|-0.046|
92193666|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.051|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.114|0.013|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.013|-0.114|
92317132|NCT00420420|184538339|SUPERIORITY_OR_OTHER|||||||0.283||95.0||||A longitudinal mixed model was used to compare groups, including factors for week, strata (MMSE score and concomitant AD therapy), treatment, and week-by-treatment interaction.|Mixed Models Analysis|||comparison at Week 4||||0.283
92317133|NCT00420420|184538340|SUPERIORITY_OR_OTHER|||||||0.18||95.0||||A longitudinal mixed model was used to compare groups, including factors for week, strata (MMSE score and concomitant AD therapy), treatment, and week-by-treatment interaction.|Mixed Models Analysis|||comparison at week 4||||0.180
92317134|NCT00420420|184538341|SUPERIORITY_OR_OTHER|||||||0.716||95.0||||A longitudinal mixed model was used to compare groups, including factors for week, strata (MMSE score and concomitant AD therapy), treatment, and week-by-treatment interaction.|Mixed Models Analysis|||comparison at Week 4||||0.716
92317135|NCT00273182|184538345|SUPERIORITY_OR_OTHER||Overall survival rate at 36 month|71.0|||||TWO_SIDED|95.0|68.6|73.2||No p values for the analysis.|Kaplan-Meier (product limit) estimates|Survival curves of cause-specific mortality were created based on Kaplan-Meier (product limit) estimates.|The estimate is the overall survival rate at 36 month. left-truncation methods were used in the survival analysis for previously implanted subjects.|For overall mortality, the endpoint is the proportion of subjects alive during three years post-implant. Survival curves of overall mortality and cause-specific mortality were created based on Kaplan-Meier (product limit) estimates. Confidence intervals will be calculated on a log-log scale.||73.2|68.6|
92317136|NCT00273182|184538345|SUPERIORITY_OR_OTHER||Cause specific survival rate at 36 month|85.3|||||TWO_SIDED|95.0|83.3|87.1||No p value for this analysis.|Kaplan-Meier (product limit) estimates|Cause specific survival rate at 36 month.|left-truncation methods were used in the survival analysis for previously implanted subjects.|For cause-specific mortality, the endpoint is the proportion of patients who are alive or do not die due to the progressive heart failure or sudden cardiac death causes during 3 years post-implant. Survival curves of cause-specific mortality were created based on Kaplan-Meier (product limit) estimates. Confidence intervals were calculated on a log-log scale.||87.1|83.3|
92317137|NCT00273182|184538349|SUPERIORITY_OR_OTHER||event free rate|89.8|||||TWO_SIDED|95.0|88.3|91.2||No p value for this analysis.|Kaplan-Meier (product limit) estimate|||Kaplan-Meier (product limit) estimate of the curve representing the time to first post-implant LV lead related complication were calculated to the first time point where fewer than 50 patients are still at risk. Confidence intervals will be calculated on a log-log scale.||91.2|88.3|
92317138|NCT00359424|184538350|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.5||||0.7031|TWO_SIDED|95.0|-6.1|9.1||The CMH statistic is tested at the two-sided alpha level of 0.05. For the interim analyses of the primary efficacy analysis, the alpha spending function method (Lan and DeMets, 1987) with O'Brien and Fleming (1979) stopping boundaries were adopted.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusting for the dichotomized baseline NIHSS score (\<20 or ≥20).|Positive adjusted risk difference indicates greater risk in the Endovascular group, while negative adjusted risk difference indicates greater risk in the IV Only group.|Test of null hypothesis (equal proportions of subjects with mRS of 0-2 at 90 days post-randomization in IV Only and Endovascular treatment arms) versus alternative hypothesis (unequal proportions of subjects with mRS of 0-2 at 90 days post-randomization in IV Only and Endovascular treatment arms).||9.1|-6.1|.7031
92317139|NCT00359424|184538351|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.0||||0.5241|TWO_SIDED|99.0|-10.3|6.2||The CMH statistic is tested at the two-sided alpha level of 0.01.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusting for the dichotomized baseline NIHSS score (\<20 or ≥20).|Positive adjusted risk difference indicates greater risk in the Endovascular group, while negative adjusted risk difference indicates greater risk in the IV Only group.|Test of null hypothesis (equal proportions of subjects with mortality within 90 days post-randomization in IV Only and Endovascular treatment arms) versus alternative hypothesis (unequal proportions of subjects with mortality within 90 days post-randomization in IV Only and Endovascular treatment arms).||6.2|-10.3|.5241
92317140|NCT00359424|184538352|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.4||||0.8275|TWO_SIDED|99.0|-4.6|5.5||The CMH statistic is tested at the two-sided alpha level of 0.01.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusting for the dichotomized baseline NIHSS score (\<20 or ≥20).|Positive adjusted risk difference indicates greater risk in the Endovascular group, while negative adjusted risk difference indicates greater risk in the IV Only group.|Test of null hypothesis (equal proportions of subjects with sICH within 30 hours post IV tPA initiation in IV Only and Endovascular treatment arms) versus alternative hypothesis (unequal proportions of subjects with sICH within 30 hours post IV tPA initiation in IV Only and Endovascular treatment arms).||5.5|-4.6|.8275
92317141|NCT01609790|184538383|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98|||||||Z-test|One-sided test, significance level 0.15||Assuming a 36% 6-month (6m) rate in the placebo arm \[from the March 2009 Food and Drug Administration (FDA) briefing\], a 55% rate in the AMG 386 arm, and an exponential distribution corresponds to median PFS of 4.1 and 7 months, respectively, with a hazard ratio of 0.59 (AMG 386 arm vs. placebo arm). A total of 114 patients (57 per arm) will yield 85% power to detect an absolute 19% difference of 6m PFS rate at a 1-sided alpha level of 0.15 based on a 2-sample proportion test.||||0.98
92317142|NCT01609790|184538384|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85|||||||Chi-squared|||||||0.85
92317143|NCT01609790|184538385|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.46||||0.09|TWO_SIDED|95.0|0.95|2.27|||Log Rank|||||2.27|0.95|0.09
92317144|NCT01609790|184538386|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.51||||0.04|TWO_SIDED|95.0|1.02|2.24|||Log Rank|||||2.24|1.02|0.04
92317145|NCT01609790|184538387|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|||||||Chi-squared|||||||0.7
92317146|NCT03055338|184538413|SUPERIORITY||Difference in LSM|2.6||||0.44|TWO_SIDED|95.0|-4.0|9.2|||Longitudinal ANCOVA|Includes terms for treatment, baseline PANSS total score, age, duration of illness, week, and the interaction of week by treatment.|Difference in LSM = MK-8189 - Risperidone|||9.2|-4.0|0.440
92317147|NCT03055338|184538413|SUPERIORITY||Difference in LSM|-4.7||||0.074|TWO_SIDED|95.0|-9.8|0.5|||Longitudinal ANCOVA|Includes terms for treatment, baseline PANSS total score, age, duration of illness, week, and the interaction of week by treatment.|Difference in LSM = MK-8189 - Placebo|||0.5|-9.8|0.074
92317148|NCT03055338|184538413|SUPERIORITY||Difference in LSM|-7.3||||0.033|TWO_SIDED|95.0|-14.0|-0.6|||Longitudinal ANCOVA|Includes terms for treatment, baseline PANSS total score, age, duration of illness, week, and the interaction of week by treatment.|Difference in LSM = Risperidone - Placebo|||-0.6|-14.0|0.033
92317149|NCT03055338|184538414|OTHER||Difference in % versus Placebo|17.2|||||TWO_SIDED|95.0|3.0|30.8|||||Difference in % = MK-8918 - Placebo||Based on Miettinen \& Nurminen method.|30.8|3.0|
92193667|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.055|0.071|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.071|-0.055|
92317150|NCT03055338|184538415|OTHER||Difference in % versus Placebo|-1.2|||||TWO_SIDED|95.0|-9.6|7.0|||||Difference in % = MK-8918 - Placebo||Based on Miettinen \& Nurminen method.|7.0|-9.6|
92317151|NCT03055338|184538416|OTHER||Difference in LSM|0.2|||||TWO_SIDED|95.0|-0.2|0.6|||||Difference in LSM = MK-8189 - Risperidone|||0.6|-0.2|
92317152|NCT03055338|184538416|OTHER||Difference in LSM|-0.2|||||TWO_SIDED|95.0|-0.5|0.2|||||Difference in LSM = MK-8189 - Placebo|||0.2|-0.5|
92317153|NCT03055338|184538416|OTHER||Difference in LSM|-0.4|||||TWO_SIDED|95.0|-0.8|0.1|||||Difference in LSM = Risperidone - Placebo|||0.1|-0.8|
92317154|NCT01415518|184538424|SUPERIORITY_OR_OTHER||Ratio|1.069|||<|0.0001|TWO_SIDED|95.0|1.043|1.096|||ANCOVA|multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.096|1.043|<.0001
92317155|NCT01415518|184538425|SUPERIORITY_OR_OTHER||Ratio|1.067|||<|0.0001|TWO_SIDED|95.0|1.044|1.09|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.090|1.044|<.0001
92193668|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.074|0.053|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.053|-0.074|
92193669|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.004|0.122|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.122|-0.004|
92193670|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.033|||TWO_SIDED|95.0|-0.024|0.104|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.104|-0.024|
92193671|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.082|0.045|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus +O 2.5/5|||0.045|-0.082|
92193672|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|0.047|0.174|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.174|0.047|
92193673|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|0.017|0.144|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.144|0.017|
92193674|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|0.005|0.132|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.132|0.005|
92193675|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.033|||TWO_SIDED|95.0|-0.094|0.034|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.034|-0.094|
92193676|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.105|0.021|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.021|-0.105|
92193677|NCT01040403|184286321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.075|0.052|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.052|-0.075|
92193678|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.759|STANDARD_ERROR_OF_MEAN|4.189|||TWO_SIDED|95.0|10.533|26.985|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-3h||26.985|10.533|
92193679|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.157|STANDARD_ERROR_OF_MEAN|4.173|||TWO_SIDED|95.0|16.962|33.351|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-3h||33.351|16.962|
92193680|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.804|STANDARD_ERROR_OF_MEAN|4.216|||TWO_SIDED|95.0|21.526|38.082|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-3h||38.082|21.526|
92193681|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.398|STANDARD_ERROR_OF_MEAN|4.173|||TWO_SIDED|95.0|-1.796|14.592|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-3h||14.592|-1.796|
92193682|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.046|STANDARD_ERROR_OF_MEAN|4.239|||TWO_SIDED|95.0|2.721|19.37|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-3h||19.370|2.721|
92193683|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.648|STANDARD_ERROR_OF_MEAN|4.204|||TWO_SIDED|95.0|-3.608|12.903|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-3h||12.903|-3.608|
92193684|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.318|STANDARD_ERROR_OF_MEAN|4.201|||TWO_SIDED|95.0|10.068|26.568|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-3h||26.568|10.068|
92193685|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.511|STANDARD_ERROR_OF_MEAN|4.197|||TWO_SIDED|95.0|15.27|31.752|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-3h||31.752|15.270|
92193686|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.817|STANDARD_ERROR_OF_MEAN|4.214|||TWO_SIDED|95.0|14.543|31.092|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-3h||31.092|14.543|
92193687|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.193|STANDARD_ERROR_OF_MEAN|4.23|||TWO_SIDED|95.0|-3.115|13.5|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-3h||13.500|-3.115|
92193688|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.499|STANDARD_ERROR_OF_MEAN|4.185|||TWO_SIDED|95.0|-3.719|12.717|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-3h||12.717|-3.719|
92193689|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.694|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-8.941|7.554|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-3h||7.554|-8.941|
92193690|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.751|STANDARD_ERROR_OF_MEAN|4.013|||TWO_SIDED|95.0|10.87|26.632|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-6h||26.632|10.870|
92193691|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.009|STANDARD_ERROR_OF_MEAN|3.998|||TWO_SIDED|95.0|18.158|33.86|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-6h||33.860|18.158|
92193692|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.347|STANDARD_ERROR_OF_MEAN|4.039|||TWO_SIDED|95.0|21.416|37.278|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-6h||37.278|21.416|
92193693|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.259|STANDARD_ERROR_OF_MEAN|3.998|||TWO_SIDED|95.0|-0.592|15.109|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-6h||15.109|-0.592|
92193694|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.596|STANDARD_ERROR_OF_MEAN|4.061|||TWO_SIDED|95.0|2.621|18.571|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-6h||18.571|2.621|
92193695|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.337|STANDARD_ERROR_OF_MEAN|4.028|||TWO_SIDED|95.0|-4.572|11.247|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-6h||11.247|-4.572|
92193696|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.654|STANDARD_ERROR_OF_MEAN|4.025|||TWO_SIDED|95.0|11.75|27.558|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-6h||27.558|11.750|
92193697|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.762|STANDARD_ERROR_OF_MEAN|4.021|||TWO_SIDED|95.0|14.866|30.659|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-6h||30.659|14.866|
92193698|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.536|STANDARD_ERROR_OF_MEAN|4.038|||TWO_SIDED|95.0|17.607|33.464|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-6h||33.464|17.607|
92193699|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.108|STANDARD_ERROR_OF_MEAN|4.053|||TWO_SIDED|95.0|-4.852|11.067|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-6h||11.067|-4.852|
92193700|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.881|STANDARD_ERROR_OF_MEAN|4.009|||TWO_SIDED|95.0|-1.991|13.754|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-6h||13.754|-1.991|
92193701|NCT01040403|184286322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.773|STANDARD_ERROR_OF_MEAN|4.024|||TWO_SIDED|95.0|-5.129|10.675|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-6h||10.675|-5.129|
92193702|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.316|STANDARD_ERROR_OF_MEAN|4.371|||TWO_SIDED|95.0|-6.268|10.9|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||10.900|-6.268|
92193703|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.478|STANDARD_ERROR_OF_MEAN|4.362|||TWO_SIDED|95.0|-4.088|13.044|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||13.044|-4.088|
92193704|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.668|STANDARD_ERROR_OF_MEAN|4.403|||TWO_SIDED|95.0|-3.978|13.314|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||13.314|-3.978|
92193705|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.162|STANDARD_ERROR_OF_MEAN|4.349|||TWO_SIDED|95.0|-6.379|10.702|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||10.702|-6.379|
92193706|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.352|STANDARD_ERROR_OF_MEAN|4.419|||TWO_SIDED|95.0|-6.326|11.029|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||11.029|-6.326|
92193707|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|4.39|||TWO_SIDED|95.0|-8.43|8.81|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||8.810|-8.430|
92193708|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.488|STANDARD_ERROR_OF_MEAN|4.392|||TWO_SIDED|95.0|-7.136|10.113|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||10.113|-7.136|
92193709|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.262|STANDARD_ERROR_OF_MEAN|4.386|||TWO_SIDED|95.0|-5.35|11.875|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||11.875|-5.350|
92193710|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.121|STANDARD_ERROR_OF_MEAN|4.408|||TWO_SIDED|95.0|-1.535|15.778|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||15.778|-1.535|
92193711|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.774|STANDARD_ERROR_OF_MEAN|4.423|||TWO_SIDED|95.0|-6.91|10.458|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||10.458|-6.910|
92193712|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.663|STANDARD_ERROR_OF_MEAN|4.381|||TWO_SIDED|95.0|-2.97|14.236|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||14.236|-2.970|
92193713|NCT01040403|184286323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.859|STANDARD_ERROR_OF_MEAN|4.403|||TWO_SIDED|95.0|-4.786|12.504|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||12.504|-4.786|
92193714|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.682|STANDARD_ERROR_OF_MEAN|4.849|||TWO_SIDED|95.0|9.161|28.204|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||28.204|9.161|
92193715|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.599|STANDARD_ERROR_OF_MEAN|4.83|||TWO_SIDED|95.0|14.116|33.083|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||33.083|14.116|
92193716|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.097|STANDARD_ERROR_OF_MEAN|4.879|||TWO_SIDED|95.0|20.517|39.677|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||39.677|20.517|
92193717|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.917|STANDARD_ERROR_OF_MEAN|4.83|||TWO_SIDED|95.0|-4.568|14.402|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||14.402|-4.568|
92193718|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.415|STANDARD_ERROR_OF_MEAN|4.907|||TWO_SIDED|95.0|1.78|21.05|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||21.050|1.780|
92193719|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.498|STANDARD_ERROR_OF_MEAN|4.866|||TWO_SIDED|95.0|-3.057|16.053|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||16.053|-3.057|
92193720|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.742|STANDARD_ERROR_OF_MEAN|4.862|||TWO_SIDED|95.0|8.194|27.29|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||27.290|8.194|
92193721|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.115|STANDARD_ERROR_OF_MEAN|4.856|||TWO_SIDED|95.0|14.58|33.651|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||33.651|14.580|
92193722|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.095|STANDARD_ERROR_OF_MEAN|4.876|||TWO_SIDED|95.0|15.52|34.67|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||34.670|15.520|
92193723|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.373|STANDARD_ERROR_OF_MEAN|4.896|||TWO_SIDED|95.0|-3.24|15.986|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||15.986|-3.240|
92193724|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.353|STANDARD_ERROR_OF_MEAN|4.845|||TWO_SIDED|95.0|-2.161|16.866|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||16.866|-2.161|
92193725|NCT01040403|184286324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.98|STANDARD_ERROR_OF_MEAN|4.861|||TWO_SIDED|95.0|-8.566|10.525|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||10.525|-8.566|
92193726|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17|STANDARD_ERROR_OF_MEAN|4.853|||TWO_SIDED|95.0|-8.36|10.699|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||10.699|-8.360|
92193727|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.436|STANDARD_ERROR_OF_MEAN|4.843|||TWO_SIDED|95.0|-5.073|13.945|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||13.945|-5.073|
92193728|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.189|STANDARD_ERROR_OF_MEAN|4.887|||TWO_SIDED|95.0|-4.407|14.785|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||14.785|-4.407|
92193729|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.267|STANDARD_ERROR_OF_MEAN|4.828|||TWO_SIDED|95.0|-6.214|12.747|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||12.747|-6.214|
92193730|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.02|STANDARD_ERROR_OF_MEAN|4.904|||TWO_SIDED|95.0|-5.61|13.65|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||13.650|-5.610|
92193731|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.753|STANDARD_ERROR_OF_MEAN|4.873|||TWO_SIDED|95.0|-8.816|10.322|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||10.322|-8.816|
92193732|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.986|STANDARD_ERROR_OF_MEAN|4.876|||TWO_SIDED|95.0|-6.589|12.561|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||12.561|-6.589|
92193733|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.916|STANDARD_ERROR_OF_MEAN|4.868|||TWO_SIDED|95.0|-4.643|14.475|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||14.475|-4.643|
92193734|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.432|STANDARD_ERROR_OF_MEAN|4.882|||TWO_SIDED|95.0|-2.154|17.019|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||17.019|-2.154|
92193735|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.93|STANDARD_ERROR_OF_MEAN|4.909|||TWO_SIDED|95.0|-7.708|11.568|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||11.568|-7.708|
92193736|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.446|STANDARD_ERROR_OF_MEAN|4.854|||TWO_SIDED|95.0|-5.085|13.978|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||13.978|-5.085|
92193737|NCT01040403|184286325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.517|STANDARD_ERROR_OF_MEAN|4.87|||TWO_SIDED|95.0|-7.046|12.079|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||12.079|-7.046|
92193738|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.212|STANDARD_ERROR_OF_MEAN|0.158|||TWO_SIDED|95.0|-0.523|0.099|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|Week 1||0.099|-0.523|
92193739|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.319|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.634|-0.004|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|Week 1||-0.004|-0.634|
92193740|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.065|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.379|0.249|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|Week 1||0.249|-0.379|
92193741|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.107|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|95.0|-0.42|0.206|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|Week 1||0.206|-0.420|
92193742|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.168|0.462|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|Week 1||0.462|-0.168|
92193743|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.255|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|95.0|-0.062|0.571|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|Week 1||0.571|-0.062|
92193744|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.271|0.355|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|Week 1||0.355|-0.271|
92193745|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.251|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|95.0|-0.564|0.062|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|Week 1||0.062|-0.564|
92193746|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.178|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.492|0.135|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|Week 1||0.135|-0.492|
92193747|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.293|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|95.0|-0.611|0.024|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|Week 1||0.024|-0.611|
92193748|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.221|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|95.0|-0.533|0.092|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|Week 1||0.092|-0.533|
92193749|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.242|0.388|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|Week 1||0.388|-0.242|
92193750|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.241|0.462|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|Week 4||0.462|-0.241|
92193751|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.092|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.445|0.261|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|Week 4||0.261|-0.445|
92193752|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.301|0.406|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|Week 4||0.406|-0.301|
92193753|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.202|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.555|0.15|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|Week 4||0.150|-0.555|
92193754|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.058|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.411|0.296|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|Week 4||0.296|-0.411|
92193755|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.208|0.496|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|Week 4||0.496|-0.208|
92193756|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.217|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.568|0.135|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|Week 4||0.135|-0.568|
92193757|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.363|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.714|-0.012|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|Week 4||-0.012|-0.714|
92193758|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.246|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.598|0.106|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|Week 4||0.106|-0.598|
92193759|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.146|STANDARD_ERROR_OF_MEAN|0.182|||TWO_SIDED|95.0|-0.503|0.21|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|Week 4||0.210|-0.503|
92193760|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.029|STANDARD_ERROR_OF_MEAN|0.178|||TWO_SIDED|95.0|-0.379|0.321|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|Week 4||0.321|-0.379|
92193761|NCT01040403|184286329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.235|0.47|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|Week 4||0.470|-0.235|
92193762|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.223|0.25|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|Day 1||0.250|-0.223|
92193763|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.133|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.37|0.104|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|Day 1||0.104|-0.370|
92193764|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|95.0|-0.278|0.199|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|Day 1||0.199|-0.278|
92193765|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.147|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.382|0.088|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|Day 1||0.088|-0.382|
92193766|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.291|0.186|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|Day 1||0.186|-0.291|
92193767|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.144|0.332|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|Day 1||0.332|-0.144|
92193768|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.282|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.519|-0.045|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|Day 1||-0.045|-0.519|
92193769|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.113|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.35|0.124|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|Day 1||0.124|-0.350|
92193770|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.056|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.293|0.18|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|Day 1||0.180|-0.293|
92317156|NCT01415518|184538426|SUPERIORITY_OR_OTHER||Ratio|1.068|||<|0.0001||95.0|1.043|1.092|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.092|1.043|<.0001
92193771|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.069|0.408|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|Day 1||0.408|-0.069|
92193772|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.01|0.461|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|Day 1||0.461|-0.010|
92193773|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.18|0.293|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|Day 1||0.293|-0.180|
92193774|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.067|0.387|||Mixed Models Analysis||Difference calculated as T+O 1.25/ minus Olo 5|Day 29||0.387|-0.067|
92193775|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|0.034|0.491|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|Day 29||0.491|0.034|
92193776|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.118|||TWO_SIDED|95.0|-0.148|0.316|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|Day 29||0.316|-0.148|
92193777|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.115|||TWO_SIDED|95.0|-0.124|0.328|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|Day 29||0.328|-0.124|
92193778|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.076|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|95.0|-0.306|0.154|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|Day 29||0.154|-0.306|
92193779|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.178|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|95.0|-0.408|0.052|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|Day 29||0.052|-0.408|
92193780|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.056|0.4|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|Day 29||0.400|-0.056|
92193781|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.171|0.285|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|Day 29||0.285|-0.171|
92193782|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.11|0.346|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|Day 29||0.346|-0.110|
92193783|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.115|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|95.0|-0.345|0.115|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|Day 29||0.115|-0.345|
92193784|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.281|0.173|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|Day 29||0.173|-0.281|
92193785|NCT01040403|184286330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.166|0.289|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|Day 29||0.289|-0.166|
92193786|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.222|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.481|0.037|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.037|-0.481|
92193787|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.441|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.7|-0.182|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||-0.182|-0.700|
92317157|NCT01415518|184538427|SUPERIORITY_OR_OTHER||Ratio|1.04||||0.0007|TWO_SIDED|95.0|1.017|1.064|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.064|1.017|0.0007
92193788|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.149|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|-0.409|0.111|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.111|-0.409|
92193789|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.219|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.478|0.04|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.040|-0.478|
92193790|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|-0.189|0.335|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.335|-0.189|
92193791|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.292|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|0.031|0.553|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.553|0.031|
92193792|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.382|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.641|-0.123|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||-0.123|-0.641|
92193793|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.132|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.39|0.127|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.127|-0.390|
92193794|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.326|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.585|-0.067|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||-0.067|-0.585|
92193795|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|-0.01|0.511|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.511|-0.010|
92193796|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.202|0.314|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.314|-0.202|
92193797|NCT01040403|184286331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.194|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.453|0.065|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.065|-0.453|
92193798|NCT05694533|184286334|OTHER|Descriptive only.|Geometric Mean Ratio|0.84|||||TWO_SIDED|90.0|0.76|0.92||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between Midazolam on Day 15 and Midazolam on Day 1.||0.92|0.76|
92193799|NCT05694533|184286334|OTHER|Descriptive only.|Geometric Mean Ratio|0.8|||||TWO_SIDED|90.0|0.69|0.93||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between 1-hydroxymidazolam on Day 15 and 1-hydroxymidazolam on Day 1.||0.93|0.69|
92193800|NCT05694533|184286335|OTHER|Descriptive only.|Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.78|0.92||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between Midazolam on Day 15 and Midazolam on Day 1.||0.92|0.78|
92193801|NCT05694533|184286335|OTHER|Descriptive only.|Geometric Mean Ratio|0.81|||||TWO_SIDED|90.0|0.74|0.89||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between 1-hydroxymidazolam on Day 15 and 1-hydroxymidazolam on Day 1.||0.89|0.74|
92193802|NCT05694533|184286336|OTHER|Descriptive only.|Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.78|0.91||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between Midazolam on Day 15 and Midazolam on Day 1.||0.91|0.78|
92193803|NCT05694533|184286336|OTHER|Descriptive only.|Geometric Mean Ratio|0.87|||||TWO_SIDED|90.0|0.78|0.97||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between 1-hydroxymidazolam on Day 15 and 1-hydroxymidazolam on Day 1.||0.97|0.78|
92193804|NCT00594178|184286339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-250.8||||0.318|TWO_SIDED|95.0|-778.87|277.21|||t-test, 2 sided|||Paired samples T-test was used to assess the statisical changes between baseline and post-exercise lean muscle mass.||277.21|-778.87|.318
92193805|NCT00594178|184286340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0645||||0.011|TWO_SIDED|95.0|0.01827|0.11073|||t-test, 2 sided|||Paired samples T-test was used to assess the statisical changes between baseline and post-exercise bone density.||.11073|.01827|.011
92193806|NCT05215418|184286341|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.|||||<|0.001|||||||ANCOVA|||||||< 0.001
92193807|NCT05215418|184286341|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0059|||||||ANCOVA|||||||0.0059
92193808|NCT05215418|184286341|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.1867|||||||ANCOVA|||||||0.1867
92193809|NCT05215418|184286342|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0277|||||||ANCOVA|||||||0.0277
92193810|NCT05215418|184286342|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0852|||||||ANCOVA|||||||0.0852
92193811|NCT05215418|184286342|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.|||||<|0.0001|||||||ANCOVA|||||||<.0001
92193812|NCT05215418|184286343|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0109|||||||ANCOVA|||In-clinic systolic blood pressure||||0.0109
92193813|NCT05215418|184286343|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0339|||||||ANCOVA|||In-clinic systolic blood pressure||||0.0339
92193814|NCT05215418|184286343|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.6769|||||||ANCOVA|||In-clinic systolic blood pressure||||0.6769
92193815|NCT05215418|184286343|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0082|||||||ANCOVA|||In-clinic diastolic blood pressure||||0.0082
92193816|NCT05215418|184286343|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.8131|||||||ANCOVA|||In-clinic diastolic blood pressure||||0.8131
92193817|NCT05215418|184286343|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.015|||||||ANCOVA|||In-clinic diastolic blood pressure||||0.0150
92193818|NCT02005393|184286344|NON_INFERIORITY_OR_EQUIVALENCE|Image settings were considered non-inferior if scores overlapped within 1 SD of mean.||||||||||||||||All 20 subjects enrolled in the study, including Subject 219 that was dropped from the Reader assessments due to corrupted images, were all rated as having similar white light images between the FICE and NBI procedures for each location used in the concurrence study. This assessment was intended to assure that no procedural sequence or visualization bias was introduced into the image acquisition process. The overall Reader mean (SD) for both FICE and NBI were equal to or greater than 3.0 (0.8).|The results reported utilized the average Likert scores for each of the 3 readers, for each of the FICE settings (0-9), as compared to FICE. The overall Reader mean (SD) for both FICE and NBI were equal to or greater than 3.0 (0.8).The overall mean scores were comparable between FICE and NBI to provide acceptable diagnostic image visualization quality.|||
92193819|NCT04358068|184286602|SUPERIORITY|Participant specific durations were compared between randomized arms using a two-sided Wilcoxon test with a two-sided 5% type I error rate||||||0.51||||||Wilcoxon Test was not stratified by high/low risk because of the small number enrolled|Wilcoxon (Mann-Whitney)|||||||0.51
92193820|NCT04358068|184286603|SUPERIORITY|Participant specific durations were compared between randomized arms using a two-sided Wilcoxon test with a two-sided 5% type I error rate||||||0.79||||||Wilcoxon Test was not stratified by high/low risk because of the small number enrolled|Wilcoxon (Mann-Whitney)|||||||0.79
92193821|NCT04358068|184286604|SUPERIORITY|Participant specific AUCs were compared between randomized arms using a two-sided Wilcoxon test with a two-sided 5% type I error rate||||||0.53||||||Wilcoxon Test was not stratified by high/low risk because of the small number enrolled|Wilcoxon (Mann-Whitney)|||||||0.53
92193822|NCT04358068|184286605|SUPERIORITY|Participant specific durations were compared between randomized arms using a two-sided Wilcoxon test with a two-sided 5% type I error rate||||||0.83||||||Wilcoxon Test was not stratified by high/low risk because of the small number enrolled|Wilcoxon (Mann-Whitney)|||||||0.83
92193823|NCT01193218|184286609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.87|-0.57||the analyses were made sequentially compared with placebo from high dose of empagliflozin and the full significant level (5%) was maintained by the hierarchical procedure.|ANCOVA|'treatment', 'renal function', and 'number of previous antidiabetic medication' as a fixed effect and baseline HbA1c as a covariate||Difference calculated as empa 5mg minus placebo||-0.57|-0.87|<0.0001
92193824|NCT01193218|184286609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.85|-0.55||the analyses were made sequentially compared with placebo from high dose of empagliflozin and the full significant level (5%) was maintained by the hierarchical procedure.|ANCOVA|'treatment', 'renal function', and 'number of previous antidiabetic medication' as a fixed effect and baseline HbA1c as a covariate||Difference calculated as empa 10mg minus placebo||-0.55|-0.85|<0.0001
92193825|NCT01193218|184286609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.1|-0.8||the analyses were made sequentially compared with placebo from high dose of empagliflozin and the full significant level (5%) was maintained by the hierarchical procedure.|ANCOVA|'treatment', 'renal function', and 'number of previous antidiabetic medication' as a fixed effect and baseline HbA1c as a covariate||Difference calculated as empa 25mg minus placebo||-0.80|-1.10|<0.0001
92193826|NCT01193218|184286609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.06|-0.76||the analyses were made sequentially compared with placebo from high dose of empagliflozin and the full significant level (5%) was maintained by the hierarchical procedure.|ANCOVA|'treatment', 'renal function', and 'number of previous antidiabetic medication' as a fixed effect and baseline HbA1c as a covariate||Difference calculated as empa 50mg minus placebo||-0.76|-1.06|<0.0001
92317158|NCT01415518|184538428|SUPERIORITY_OR_OTHER||Ratio|1.045|||<|0.0001|TWO_SIDED|95.0|1.024|1.065|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.065|1.024|<.0001
92193827|NCT01193218|184286610|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|19.367|||<|0.0001|TWO_SIDED|95.0|5.34|70.236|||Regression, Logistic|The model includes 'treatment', 'renal function', 'number of previous antidiabetic medications' and 'continuous baseline HbA1c'.||Odds ratio calculated as the odds of Empa 5mg divided by the odds of placebo||70.236|5.340|<0.0001
92317159|NCT01415518|184538429|SUPERIORITY_OR_OTHER||Ratio|1.038||||0.0003|TWO_SIDED|95.0|1.017|1.06|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.060|1.017|0.0003
92317160|NCT01415518|184538430|SUPERIORITY_OR_OTHER||Ratio|1.035||||0.0248|TWO_SIDED|95.0|1.004|1.066|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.066|1.004|0.0248
92317161|NCT01415518|184538431|SUPERIORITY_OR_OTHER||Ratio|1.038||||0.0074|TWO_SIDED|95.0|1.01|1.067|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.067|1.010|0.0074
92317162|NCT01415518|184538432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|25.172||||0.0001|TWO_SIDED|95.0|12.733|37.611|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||37.611|12.733|0.0001
92317163|NCT01415518|184538433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.136|||<|0.0001|TWO_SIDED|95.0|12.163|30.11|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||30.110|12.163|<.0001
92317164|NCT01415518|184538434|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.044|||<|0.0001|TWO_SIDED|95.0|14.927|31.161|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||31.161|14.927|<.0001
92317165|NCT01415518|184538435|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.513|||<|0.0001|TWO_SIDED|95.0|18.74|44.286|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||44.286|18.740|<.0001
92317166|NCT01415518|184538436|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.322|||<|0.0001|TWO_SIDED|95.0|14.425|34.22|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||34.220|14.425|<.0001
92317167|NCT01415518|184538437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.168|||<|0.0001|TWO_SIDED|95.0|18.906|35.431|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||35.431|18.906|<.0001
92193828|NCT01193218|184286610|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.889||||0.0003|TWO_SIDED|95.0|2.942|40.301|||Regression, Logistic|The model includes 'treatment', 'renal function', 'number of previous antidiabetic medications' and 'continuous baseline HbA1c'.||Odds ratio calculated as the odds of Empa 10mg divided by the odds of placebo||40.301|2.942|0.0003
92193829|NCT01193218|184286610|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.624|||<|0.0001|TWO_SIDED|95.0|7.601|99.99|||Regression, Logistic|The model includes 'treatment', 'renal function', 'number of previous antidiabetic medications' and 'continuous baseline HbA1c'.|The upper limit of confidence interval is actually \>99.99|Odds ratio calculated as the odds of Empa 25mg divided by the odds of placebo||99.99|7.601|<0.0001
92193830|NCT01193218|184286610|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|44.906|||<|0.0001|TWO_SIDED|95.0|12.12|99.99|||Regression, Logistic|The model includes 'treatment', 'renal function', 'number of previous antidiabetic medications' and 'continuous baseline HbA1c'.|The upper limit of confidence interval is actually \>99.99|Odds ratio calculated as the odds of Empa 50mg divided by the odds of placebo||99.99|12.120|<0.0001
92193831|NCT01193218|184286611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.7|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-31.61|-21.8|||ANCOVA|treatment, renal function, number of previous antidiabetic medication as fixed effects, baseline fasting plasma glucose, baseline HbA1c as covariates||Difference calculated as empa 5mg minus placebo||-21.80|-31.61|<0.0001
92193832|NCT01193218|184286611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.34|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-34.25|-24.42|||ANCOVA|treatment, renal function, number of previous antidiabetic medication as fixed effects, baseline fasting plasma glucose, baseline HbA1c as covariates||Difference calculated as empa 10mg minus placebo||-24.42|-34.25|<0.0001
92193833|NCT01193218|184286611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-37.75|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-42.66|-32.84|||ANCOVA|treatment, renal function, number of previous antidiabetic medication as fixed effects, baseline fasting plasma glucose, baseline HbA1c as covariates||Difference calculated as empa 25mg minus placebo||-32.84|-42.66|<0.0001
92317168|NCT01415518|184538438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.297||||0.0102|TWO_SIDED|95.0|-0.522|-0.071|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||-0.071|-0.522|0.0102
92317169|NCT01415518|184538439|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.343||||0.0004|TWO_SIDED|95.0|-0.533|-0.153|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||-0.153|-0.533|0.0004
92317170|NCT01415518|184538440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.342||||0.0002|TWO_SIDED|95.0|-0.523|-0.162|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||-0.162|-0.523|0.0002
92317171|NCT01415518|184538441|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.279|||<|0.0001|TWO_SIDED|95.0|-0.381|-0.177|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of score as a covariate||||-0.177|-0.381|<.0001
92317172|NCT01415518|184538442|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.193||||0.0002|TWO_SIDED|95.0|-0.294|-0.092|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of score as a covariate||||-0.092|-0.294|0.0002
92317173|NCT01415518|184538443|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.208||||0.0001|TWO_SIDED|95.0|-0.308|-0.108|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of score as a covariate||||-0.108|-0.308|0.0001
92317174|NCT01415518|184538444|SUPERIORITY_OR_OTHER||Rate ratio|0.565||||0.0425|TWO_SIDED|95.0|0.325|0.981|||Poisson regression|Poisson regression model with treatment as a factor and the duration time in study as an offset variable||||0.981|0.325|0.0425
92317175|NCT01415518|184538444|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.604||||0.088|TWO_SIDED|95.0|0.339|1.078|||Regression, Cox|Time to the first COPD exacerbation||||1.078|0.339|0.0880
92317176|NCT01415518|184538444|SUPERIORITY_OR_OTHER|||||||0.0845|||||||Log Rank|Time to the first COPD exacerbation||||||0.0845
92193834|NCT01193218|184286611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.6|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-41.51|-31.69|||ANCOVA|treatment, renal function, number of previous antidiabetic medication as fixed effects, baseline fasting plasma glucose, baseline HbA1c as covariates||Difference calculated as empa 50mg minus placebo||-31.69|-41.51|<0.0001
92193835|NCT00665223|184286615|SUPERIORITY|This analysis compared ACR16 45 mg vs. placebo during the randomization phase.|Mean Difference (Final Values)|-0.36||||0.456|TWO_SIDED|97.5|-1.44|0.72|||ANCOVA|||The analysis of covariance (ANCOVA) main effects model included a term for treatment and covariates for baseline mMS, gender, and use of antipsychotic medication.||0.72|-1.44|0.456
92193836|NCT00665223|184286615|SUPERIORITY|This analysis compared ACR16 90 mg vs. placebo during the randomization phase.|Mean Difference (Final Values)|-0.99||||0.042|TWO_SIDED|97.5|-2.08|0.1|||ANCOVA|||The analysis of covariance (ANCOVA) main effects model included a term for treatment and covariates for baseline mMS, gender, and use of antipsychotic medication.||0.10|-2.08|0.042
92193837|NCT01161628|184286642|SUPERIORITY_OR_OTHER||||||<|0.5|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis: p (CR rate) is 0.5 or less versus... Alternative hypothesis: p \>0.5 A sample size of 25 patients gives 90% power with an alpha = 0.05||||<0.5
92193838|NCT01125566|184286655|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.4224||95.0|0.87|1.41||Two sided p-value was derived from a log rank test stratified by the setting of prior Trastuzumab failure, hormone receptors status and region of the investigational site.|Regression, Cox||Hazard ratio is derived from Cox proportional hazard model stratified by prior Trastuzumab failure, hormone receptors status and region of the investigational site.|||1.41|0.87|0.4224
92193839|NCT01125566|184286656|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.024|TWO_SIDED|95.0|1.03|1.63||Two sided p-value from a log rank test stratified by the setting of prior Trastuzumab failure, hormone receptors status and region of the investigational site.|Regression, Cox||Hazard ratio is derived from Cox proportional hazard model stratified by prior Trastuzumab failure, hormone receptors status and region of the investigational site.|Results of presented analyses are to be seen as exploratory (no confirmatory testing was performed)||1.63|1.03|0.0240
92193840|NCT01125566|184286657|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.6431||95.0|0.756|1.572|||Regression, Logistic|Logistic regression stratified by prior Trastuzumab failure, hormone receptors status and region of the investigational site.|The odds ratio for the comparison afatinib + vinorelbine vs. trastuzumab + vinorelbine below 1 favours Afatinib.|Results of presented analyses are to be seen as exploratory (no confirmatory testing was performed)||1.572|0.756|0.6431
92193841|NCT01125566|184286658|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.029||||0.8829||95.0|0.707|1.496|||Regression, Logistic|Logistic regression stratified by prior Trastuzumab failure, hormone receptors status and region of the investigational site.|The odds ratio for the comparison afatinib + vinorelbine vs. trastuzumab + vinorelbine below 1 favours AV.|Results of presented analyses are to be seen as exploratory (no confirmatory testing was performed)||1.496|0.707|0.8829
92193842|NCT01424189|184286678|NON_INFERIORITY_OR_EQUIVALENCE|With 300 subjects in the ReSTOR Toric IOL test group and 150 subjects in the ReSTOR IOL control group, there was over 99% power to demonstrate that the upper 95% confidence limit for the observed difference in UCDVA between IOL groups was less than the clinical performance target of 0.1 logMAR units at Month 12, assuming the true difference between groups is zero. This was based on an assumed standard deviation for UCDVA of 0.16 logMAR units and a 1-sided, α=0.05 test.|Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.013|||ONE_SIDED|95.0||0.03||||||||0.030||
92193843|NCT01424189|184286679|NON_INFERIORITY_OR_EQUIVALENCE|With 300 subjects in the ReSTOR Toric IOL test group and 150 subjects in the ReSTOR IOL control group, there was over 99% power to demonstrate that the upper 95% confidence limit for the observed difference in UCNVA between IOL groups was less than the clinical performance target of 0.1 logMAR units at Month 12, assuming the true difference between groups is zero. This estimate was based on an assumed standard deviation for UCNVA of 0.16 logMAR units and a 1-sided, α=0.05 test.|Mean Difference (Final Values)|-0.044|STANDARD_ERROR_OF_MEAN|0.015|||ONE_SIDED|95.0||-0.017||||||||-0.017||
92193844|NCT00513461|184286684|SUPERIORITY||Mean Difference (Net)|7.78||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.160
92193845|NCT00513461|184286697|SUPERIORITY||Mean Difference (Net)|0.43||||0.878|TWO_SIDED||||||Two-Group t-test|||||||0.878
92193846|NCT00513461|184286698|SUPERIORITY||Mean Difference (Net)|-3.66||||0.212|TWO_SIDED||||||Two-Group t-test|||||||0.212
92193847|NCT00312845|184286707|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Log Rank|||||||0.039
92193848|NCT00312845|184286708|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92193849|NCT01123512|184286734|NON_INFERIORITY_OR_EQUIVALENCE|"Pr( Pt - Pc \> -12.5% \| data), calculated using Bayesian multiple imputation for missing 12-month values, as specified in the protocol. The Kiva System is declared non-inferior to control if Pr( Pt - Pc \> -12.5% \| data)\> 96.6%."|% Probability of Equivalence = 99.92|99.92|||||TWO_SIDED|||||"Pr( Pt - Pc \> -12.5% \| data), calculated using Bayesian multiple imputation for missing 12-month values, as specified in the protocol. The Kiva System is declared non-inferior to control if Pr( Pt - Pc \> -12.5% \| data)\> 96.6%."|Bayesian test of proportions|||||||
92193850|NCT00496834|184286746|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= -1.5m/s|Mean Difference (Final Values)|-0.41|STANDARD_DEVIATION|1.43|||TWO_SIDED|95.0|-0.83|0.01|||||The lower limit of ≥-1.5m/s was judged to prove the non-inferiority of the test group to the control group.|Participants for analysis was modified intention to treat (Number of patients: Losartan group was 88, Carvedilol group was 94).||0.01|-0.83|
92193851|NCT00496834|184286747|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin=-1.5m/s|Mean Difference (Final Values)|-0.36|STANDARD_DEVIATION|1.4|||TWO_SIDED|95.0|-0.86|0.15|||||The lower limit of ≥-1.5m/s was judged to prove the non-inferiority of the test group to the control group.|Participants for analysis was per protocol (Number of patients: Losartan group was 54, Carvedilol group was 67). For the primary efficacy endpoints, Per protocol analysis approach was supplementary used.||0.15|-0.86|
92193852|NCT00496834|184286748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9032||95.0||||Significance level=0.05|t-test, 2 sided|The secondary efficacy analysis was performed in the modified intention to treat population using t-test.||||||0.9032
92193853|NCT00496834|184286749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6574||95.0||||Significance level=0.05|t-test, 2 sided|The secondary efficacy analysis was performed in the modified intention to treat population using t-test||||||0.6574
92317177|NCT01415518|184538445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.055||||0.2281|TWO_SIDED|95.0|-0.144|0.035|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||0.035|-0.144|0.2281
92317178|NCT01415518|184538446|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.122||||0.001|TWO_SIDED|95.0|-0.194|-0.049|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||-0.049|-0.194|0.0010
92317179|NCT01415518|184538447|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.106||||0.0073|TWO_SIDED|95.0|-0.183|-0.029|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||-0.029|-0.183|0.0073
92317180|NCT01256164|184538448|NON_INFERIORITY_OR_EQUIVALENCE|With 90 subjects, randomized on a 2:1 ratio into the Fibrocaps plus gelatin sponge active arm or the gelatin sponge arm, and assuming a mean TTH of 3.5 minutes with a standard deviation of 2.5 minutes in the active arm and a mean TTH of 6 minutes in the control arm, this translates in a power of 99.4% at a two-sided significance level alpha of 5%, using a two-sample t-test.|||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
92317181|NCT01256164|184538449|SUPERIORITY_OR_OTHER|||||||1||95.0|||||t-test, 2 sided|||||||1.00
92317182|NCT01256164|184538450|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||Intent-to-treat analysis||||<0.001
92317183|NCT01256164|184538451|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||intent-to- treat analysis||||0.001
92317184|NCT01256164|184538452|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||intent-to-treat analysis||||0.003
92317185|NCT02999269|184538453|SUPERIORITY|||||||0.04||||||p-value for time by amplitude interaction|Regression, Linear|||For the primary outcomes (change in HDRS24), we performed a full longitudinal model with an unstructured repeated measures covariance matrix on subjects who completed the study in the assigned treatment arm. The dependent variable was HDRS at each visit and the independent variables included progress (time within the ECT series: pre-, mid-, and post-ECT), amplitude, age, sex, pulse width and the following interactions: progress/amplitude, progress/sex, and progress/pulse width.|Time-by-amplitude interaction (F4, 72 = 2.65, p = 0.04).|||0.04
92193854|NCT01227928|184286762|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.984|||||TWO_SIDED|95.0|0.595|1.626|||||The Hazard Ratio (HR) is estimated using a Pike estimator. The HR was adjusted for the stratification factor of first-line treatment outcome.|||1.626|0.595|
92317186|NCT02999269|184538453|SUPERIORITY|||||||0.0001|||||||Regression, Linear|||||||0.0001
92317187|NCT02999269|184538454|SUPERIORITY|||||||0.37|||||||Regression, Linear|||||||0.37
92193855|NCT01227928|184286763|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.811||||0.5901|TWO_SIDED|95.0|0.376|1.751|||Log Rank||The Hazard Ratio (HR) is estimated using a Pike estimator. The HR was adjusted for the three stratification factors.|||1.751|0.376|0.5901
92193856|NCT01042145|184286777|SUPERIORITY_OR_OTHER|||||||0.34|||||||Fisher Exact|||||||0.34
92193857|NCT01042145|184286778|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.63
92193858|NCT01042145|184286780|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.51
92193859|NCT01042145|184286781|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.24
92193860|NCT01042145|184286782|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
92193861|NCT04088136|184286783|EQUIVALENCE|A one-tailed independent samples t-test was conducted. A p-value of .05 was used to determine statistical significance.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.17||0.67|TWO_SIDED|95.0|-0.42|0.55|||t-test, 2 sided|Use of pooled error term, df = 60.|Negative number reflects fewer errors in EMMI group, as predicted.|||0.55|-0.42|.67
92193862|NCT04088136|184286784|SUPERIORITY|Everyday Metacognitive Memory group predicted to have superior scores to Memory Strategy Control|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.28|<|0.47|TWO_SIDED||||||t-test, 1 sided||pooled error term, equal variance assumption, df = 60|||||<.47
92317188|NCT02999269|184538454|SUPERIORITY|||||||0.5||||||p-value is time-by-amplitude interaction|Regression, Linear|||||||0.50
92317189|NCT02999269|184538454|SUPERIORITY||||||<|0.01||||||Progress (F2,71 = 11.15, p \< 0.01)|Regression, Linear|||||||< 0.01
92317190|NCT01102257|184538473|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
92317191|NCT03752970|184538475|OTHER||Risk Difference (RD)|-0.609|||||TWO_SIDED|95.0|-0.88|-0.186||||||||-0.186|-0.880|
92317192|NCT03752970|184538476|OTHER||Risk Difference (RD)|-0.509|||||TWO_SIDED|95.0|-0.816|-0.087||||||||-0.087|-0.816|
92317193|NCT03752970|184538477|OTHER||Risk Difference (RD)|-0.509|||||TWO_SIDED|95.0|-0.816|-0.087||||||||-0.087|-0.816|
92317194|NCT03976362|184538478|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.004|TWO_SIDED|95.0|0.63|0.93||One-sided p-value based on log-rank test stratified by Eastern Cooperative Cancer Group (ECOG) at pre-randomization visit, response at randomization and baseline PD-L1 status.|Log Rank||Based on Cox regression model with Efron's method of tie handling and with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|||0.93|0.63|0.0040
92317195|NCT03976362|184538479|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5481|TWO_SIDED|95.0|0.83|1.24||One-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|Log Rank||Based on Cox regression model with Efron's method of tie handling and with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|||1.24|0.83|0.5481
92317196|NCT03976362|184538482|OTHER||Difference in LS Means|0.37||||0.8238|TWO_SIDED|95.0|-2.91|3.66||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||3.66|-2.91|0.8238
92317197|NCT03976362|184538483|OTHER||Hazard Ratio (HR)|0.87||||0.3083|TWO_SIDED|95.0|0.66|1.14||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization Visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization Visit, response at randomization, and baseline PD-L1 expression.|||1.14|0.66|0.3083
92317198|NCT03976362|184538484|OTHER||Difference in Least Square Means|1.68||||0.4686|TWO_SIDED|95.0|-2.87|6.23||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||6.23|-2.87|0.4686
92317199|NCT03976362|184538485|OTHER||Hazard Ratio (HR)|1.01||||0.9174|TWO_SIDED|95.0|0.76|1.35||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.35|0.76|0.9174
92317200|NCT03976362|184538486|OTHER||Difference in Least Square Means|3.83||||0.0245|TWO_SIDED|95.0|0.5|7.16||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||7.16|0.50|0.0245
92317201|NCT03976362|184538487|OTHER||Hazard Ratio (HR)|1.24||||0.2133|TWO_SIDED|95.0|0.88|1.75||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.75|0.88|0.2133
92317202|NCT03976362|184538488|OTHER||Hazard Ratio (HR)|0.18||||0.9381|TWO_SIDED|95.0|-4.27|4.62||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||4.62|-4.27|0.9381
92317203|NCT03976362|184538489|OTHER||Hazard Ratio (HR)|0.97||||0.8464|TWO_SIDED|95.0|0.72|1.31||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.31|0.72|0.8464
92317204|NCT03976362|184538490|OTHER||Difference in Least Square Means|-2.81||||0.087|TWO_SIDED|95.0|-6.02|0.41||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||0.41|-6.02|0.0870
92317205|NCT03976362|184538491|OTHER||Hazard Ratio (HR)|1.6||||0.002|TWO_SIDED|95.0|1.18|2.16||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||2.16|1.18|0.0020
92317206|NCT01467713|184538513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.286|TWO_SIDED|98.3|0.42|1.39|||Log Rank||Cox proportional hazards model with only treatment in the model.|||1.39|0.42|0.286
92317207|NCT01467713|184538513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.332|TWO_SIDED|98.3|0.43|1.43|||Log Rank||Cox proportional hazards model with only treatment in the model.|||1.43|0.43|0.332
92317208|NCT01467713|184538513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.808|TWO_SIDED|98.3|0.6|1.86|||Log Rank||Cox proportional hazards model with only treatment in the model.|||1.86|0.60|0.808
92317209|NCT01467713|184538513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.286|TWO_SIDED|98.3|0.48|1.61|||Log Rank||Cox proportional hazards model with treatment, pooled center, age, gender, and baseline MADRS score in the model.|||1.61|0.48|0.286
92317210|NCT01467713|184538513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.332|TWO_SIDED|98.3|0.42|1.49|||Log Rank||Cox proportional hazards model with treatment, pooled center, age, gender, and baseline MADRS score in the model.|||1.49|0.42|0.332
92317211|NCT01467713|184538513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.808|TWO_SIDED|98.3|0.6|1.95|||Log Rank||Cox proportional hazards model with treatment, pooled center, age, gender, and baseline MADRS score in the model.|||1.95|0.60|0.808
92193863|NCT04088136|184286785|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|2.0|<|0.13|TWO_SIDED|95.0|-3.7|7.6|||t-test, 1 sided|||||7.6|-3.7|< .13
92317212|NCT04846569|184538525|SUPERIORITY||Mean Difference (Final Values)|0.004|||||TWO_SIDED|95.0|-0.38|0.39||||||||0.39|-0.38|
92317213|NCT04846569|184538526|SUPERIORITY||Mean Difference (Final Values)|-0.15|||||TWO_SIDED|95.0|-0.78|0.47||||||||0.47|-0.78|
92317214|NCT04846569|184538527|SUPERIORITY|||||||||||||||||All participants who we were able to obtain records for were virally suppressed thus an effect size was unable to be calculated.|All participants who we were able to obtain records for were virally suppressed thus an effect size was unable to be calculated as originally planned.|||
92317215|NCT04846569|184538528|SUPERIORITY||Median Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.2|0.53||||||||0.53|-0.20|
92317216|NCT04846569|184538529|OTHER|Qualitative data analysis|||||||||||||||||Thematic qualitative data analysis was conducted to determine the count of participants reporting positively about the intervention|||
92317217|NCT05251337|184538591|SUPERIORITY|||||||0.462|||||||Mixed Models Analysis|||||||0.462
92317218|NCT05251337|184538592|SUPERIORITY|||||||0.285|||||||Mixed Models Analysis|||||||0.285
92317219|NCT05251337|184538594|SUPERIORITY|||||||0.091|||||||t-test, 2 sided|||||||0.091
92317220|NCT00460603|184538707|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.585||||0.9726|TWO_SIDED|95.0|0.332|1.031|||Cochran-Mantel-Haenszel|||One-sided Cochran-Mantel-Haenszel test of treatment stratified by prior adjuvant chemotherapy (yes versus \[vs.\] no) and prior pelvic irradiation (yes vs. no) was used for the analysis.||1.031|0.332|0.9726
92317221|NCT00460603|184538707|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.735||||0.8391|TWO_SIDED|95.0|0.399|1.352|||Cochran-Mantel-Haenszel|||One-sided Cochran-Mantel-Haenszel test of treatment stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no) was used for the analysis.||1.352|0.399|0.8391
92317222|NCT00460603|184538707|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.797||||0.8192|TWO_SIDED|95.0|0.489|1.299|||Cochran-Mantel-Haenszel|||One-sided Cochran-Mantel-Haenszel test of treatment stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no) was used for the analysis.||1.299|0.489|0.8192
92317223|NCT00460603|184538739|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.5699|TWO_SIDED|95.0|0.47|2.45|||Log Rank|||Hazard ratio and corresponding 95% confidence interval (CI) was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.45|0.47|0.5699
92317224|NCT00460603|184538739|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.2167|TWO_SIDED|95.0|0.33|1.61|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||1.61|0.33|0.2167
92317225|NCT00460603|184538739|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||0.8746|TWO_SIDED|95.0|0.75|2.98|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.98|0.75|0.8746
92317226|NCT00460603|184538740|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.8884|TWO_SIDED|95.0|0.81|2.41|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.41|0.81|0.8884
92317227|NCT00460603|184538740|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.6648|TWO_SIDED|95.0|0.66|1.89|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||1.89|0.66|0.6648
92317228|NCT00460603|184538740|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.8065|TWO_SIDED|95.0|0.75|2.07|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.07|0.75|0.8065
92317229|NCT00460603|184538741|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.155||||0.6904|TWO_SIDED|95.0|0.656|2.033|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.033|0.656|0.6904
92317230|NCT00460603|184538741|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.203||||0.7364|TWO_SIDED|95.0|0.676|2.141|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.141|0.676|0.7364
92193864|NCT04088136|184286786|EQUIVALENCE|Directional hypothesis of fewer errors in Everyday Metacognitive Memory group|Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|1.8||0.57|TWO_SIDED|95.0|-4.8|2.6||A p-value of .05 was used to determine statistical significance.|t-test, 2 sided|Pooled error term, df = 51||||2.6|-4.8|.57
92317231|NCT00460603|184538741|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.941||||0.414|TWO_SIDED|95.0|0.535|1.653|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||1.653|0.535|0.4140
92317232|NCT01651117|184538754|EQUIVALENCE|Mixed methods ANCOVA with patient random effects, to compare change in HbA1c from baseline to 6 months between treatment and control groups.|Mean Difference (Final Values)|-0.3268|STANDARD_ERROR_OF_MEAN|0.1739||0.0611|TWO_SIDED|95.0|-0.669|0.0154||Subject random effect included because same model was used for analyses of 2 separate follow up periods (baseline to 6 month, and baseline to 12 month, reported separately).|Mixed Models Analysis|Multiple imputation used for intent-to-treat analysis.|Negative parameter estimate means decrease in HbA1c was greater for treatment group than for control group.|||0.0154|-0.6690|0.0611
92317233|NCT03808948|184538789|OTHER||Odds Ratio (OR)|0.62||||0.4842|TWO_SIDED|95.0|0.08|1.97|||Regression, Logistic|||Binary logistic regression with mGFR/eGFR ratio as independent variate, AKI as binary outcome||1.97|0.08|0.4842
92193865|NCT04088136|184286787|EQUIVALENCE|Two-tailed test of hypothesis of fewer errors in EMMI group|Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|2.3||0.72|TWO_SIDED|95.0|-3.8|5.5||A p-value of .05 was used to determine statistical significance|t-test, 2 sided|Pooled error term, df = 49||||5.5|-3.8|.72
92317234|NCT03982511|184538864|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.73|TWO_SIDED|||||Given that this is a pilot RCT, primary aim is to estimate effect sizes for a more fully-powered RCT. P-values will be provided in addition to effect size.|ANOVA|Repeated measures|Effect size: 0.17|Difference on difference from T2 to T1 for BMI z-score||||.73
92317235|NCT03982511|184538864|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.98|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for BMI z-score from T3 to T1|Effect size: -0.01|||.98
92317236|NCT03982511|184538864|SUPERIORITY||Mean Difference (Net)|1.93|STANDARD_ERROR_OF_MEAN|3.97||0.63|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for BMI percentile from T2 to T1|Effect size: 0.24|||0.63
92317237|NCT03982511|184538864|SUPERIORITY||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|4.51||0.96|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for BMI percentile from T3 to T1|Effect size: 0.03|||0.96
92317238|NCT03982511|184538865|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.12||0.12|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for Emotion regulation subscale from T2 to T1|Effect size: 0.79|||0.12
92317239|NCT03982511|184538865|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.14||0.96|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for emotion regulation subscale from T3 to T1|Effect size: -0.02|||0.96
92317240|NCT03982511|184538866|SUPERIORITY||Mean Difference (Net)|-6.08|STANDARD_ERROR_OF_MEAN|5.42||0.28|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for child weekly screen time from T2 to T1|Effect size: -0.41|||0.28
92317241|NCT03982511|184538866|SUPERIORITY||Mean Difference (Net)|5.83|STANDARD_ERROR_OF_MEAN|7.17||0.43|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for child weekly screen time from T3 to T1|Effect size: 0.42|||0.43
92317242|NCT03982511|184538867|SUPERIORITY||Mean Difference (Net)|35.32|STANDARD_ERROR_OF_MEAN|23.86||0.16|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference score for MVPA minutes from T2 to T1|Effect size: 0.85|||0.16
92317243|NCT03982511|184538867|SUPERIORITY|Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|Mean Difference (Net)|16.09|STANDARD_ERROR_OF_MEAN|30.32||0.61|TWO_SIDED||||||ANOVA|Repeated measures||Difference on difference score for MVPA minutes from T3 to T1|Effect size: 0.35|||0.61
92317244|NCT03982511|184538867|SUPERIORITY||Mean Difference (Net)|-64.4|STANDARD_ERROR_OF_MEAN|54.5||0.26|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference score for sedentary minutes from T2 to T1|Effect size: -0.68|||0.26
92317245|NCT03982511|184538867|SUPERIORITY||Mean Difference (Net)|66.25|STANDARD_ERROR_OF_MEAN|66.43||0.34|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference score for sedentary minutes from T3 to T1|effect size: 0.66|||0.34
92317246|NCT03982511|184538868|SUPERIORITY||Mean Difference (Net)|-0.64|STANDARD_ERROR_OF_MEAN|0.75||0.41|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for parent-reported sleep time from T2 to T1|effect size: -0.41|||0.41
92317247|NCT03982511|184538868|SUPERIORITY||Mean Difference (Net)|1.39|STANDARD_ERROR_OF_MEAN|0.95||0.16|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for parent-reported sleep time from T3 to T1|effect size: 0.76|||0.16
92317248|NCT03982511|184538869|SUPERIORITY||Mean Difference (Net)|-12.62|STANDARD_ERROR_OF_MEAN|14.84||0.42|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for actigraphy-recorded sleep time from T2 to T1|effect size: -0.54|||0.42
92317249|NCT03982511|184538869|SUPERIORITY||Mean Difference (Net)|-38.83|STANDARD_ERROR_OF_MEAN|16.61||0.04|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for actigraphy-recorded sleep time from T3 to T1|effect size: -1.56|||0.04
92317250|NCT03982511|184538870|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.26||0.77|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for problematic media use from T2 to T1|effect size: 0.15|||0.77
92317251|NCT03982511|184538870|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.28||0.47|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for problematic media use from T3 to T1|effect size: -0.38|||0.47
92317252|NCT03982511|184538871|SUPERIORITY||Mean Difference (Net)|9.11|STANDARD_ERROR_OF_MEAN|2.76||0.005|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for child-centered skills from T2 to T1|effect size: 1.65|||0.005
92317253|NCT03982511|184538871|SUPERIORITY||Mean Difference (Net)|8.22|STANDARD_ERROR_OF_MEAN|3.81||0.05|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for child-centered skills from T3 to T1|effect size: 1.20|||0.05
92193866|NCT04088136|184286788|OTHER|Test of Group X Time interaction|||||<|0.69|||||||Mixed Models Analysis|pooled df = 59||"We ran a 2 X 2 (Group X Time) mixed model analysis with repeated measures on Time (pretest, posttest).~Hypothesis was that Memory Strategy Control group would show greater improvements from pretest to posttest in recall scores"||||< .69
92193867|NCT04088136|184286789|OTHER|One-tailed test of Group X Time interaction|||||<|0.037|||||||Mixed Models Analysis|||"We ran a 2 X 2 (Group X Time) mixed effect model with repeated measures on Time (pretest-posttest).~Predicted hypothesis was greater pretest-posttest improvement in the Memory Strategy Contol group"||||< .037
92193868|NCT04088136|184286790|OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|9.9||0.69|TWO_SIDED|95.0|-4.0|8.4|||t-test, 2 sided||one instance of missing data due to computer failure during testing. Pooled error term resulting in df = 59|||8.4|-4.0|.69
92193869|NCT04088136|184286791|EQUIVALENCE|Directional hypothesis of shorter time in Everyday Metacognitive Memory group|Mean Difference (Final Values)|-50.0|STANDARD_ERROR_OF_MEAN|103.3||0.63|TWO_SIDED|95.0|-257.4|157.4||A p-value of .05 was used to determine statistical significance|t-test, 2 sided|Use of pooled error term, DF = 51||||157.4|-257.4|.63
92193870|NCT04088136|184286792|EQUIVALENCE|Two-tailed test of hypothesis of shorter time in Everyday Metacognitive Memory group|Mean Difference (Final Values)|10.6|STANDARD_ERROR_OF_MEAN|43.8||0.81|TWO_SIDED|95.0|-77.4|98.5||A p-value of .05 was used to determine statistical significance|t-test, 2 sided|Use of pooled error term, df = 49||||98.5|-77.4|.81
92193871|NCT04088136|184286793|OTHER||||||<|0.14|||||||Mixed Models Analysis|mixed procedure with unrestricted error covariance matrix. Pooled df for MSWithin = 60||We conducted a 2 X 2 (Group X Time) mixed effects model with repeated measures on Time (pretest, posttest). Hypothesis was greater reduction in memory complaints from pretest to posttest in EMMI group||||< .14
92193872|NCT04088136|184286794|OTHER|||||||0.037|||||||Mixed Models Analysis|||We ran a 2 X 2 (Group X Time) mixed effect model with repeated measures on Time (pretest-posttest)||||.037
92193873|NCT04088136|184286795|OTHER|Hypothesis was greater increase in memory self-efficacy for Everyday Metacognitive Memory group|||||<|0.33|||||||Mixed Models Analysis|mixed model specified unrestricted residual (error) covariance matrix. Pooled df in MS Error = 60||We ran a 2 X 2 (Group X Time) mixed effects model with repeated measures on Time (pretest, posttest).||||< .33
92193874|NCT04088136|184286796|OTHER||||||<|0.2|||||||Mixed Models Analysis|||We ran a 2 X 2 (Group X Time) mixed effects model with repeated measures on Time (pretest, posttest). Hypothesis was greater increase in memory control in EMMI group||||< .20
92193875|NCT04088136|184286797|OTHER|Hypothesis was greater increase in use of external mnemonics in EMMI group|||||<|0.2|||||||Mixed Models Analysis|||||||< .20
92193876|NCT01494298|184286798|SUPERIORITY_OR_OTHER||||||=|0.002||95.0||||The control group average age was 6 years lower(P=0.001). Results were adjusted via a logistic regression and presented as age-adjusted means and SE. The unadjusted differences had similar results.|t-test, 2 sided|||Hypothesis - There will be differences in ApoB between AA with T2DM and those without. To achieve a power of 80%, 48 subjects in each group were needed to detect 15 mg/dL difference in ApoB levels, assuming a standard deviation of 26 mg/dL if alpha was set at 0.05. Continuous data were compared using a Students t-test and categorical data were compared using test.||||=0.002
92193877|NCT01494298|184286800|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||t-test, 2 sided|||||||0.84
92193878|NCT04159805|184286802|SUPERIORITY||Difference in Least Square (LS) Mean|0.29|||=|0.772|TWO_SIDED|95.0|-1.72|2.3||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||2.30|-1.72|=0.772
92193879|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|1.01|||=|0.299|TWO_SIDED|95.0|-0.94|2.97||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||2.97|-0.94|=0.299
92193880|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|-0.11|||=|0.924|TWO_SIDED|95.0|-2.34|2.13||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||2.13|-2.34|=0.924
92193881|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|1.86|||=|0.091|TWO_SIDED|95.0|-0.32|4.04||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||4.04|-0.32|=0.091
92193882|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|-0.18|||=|0.887|TWO_SIDED|95.0|-2.82|2.45||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||2.45|-2.82|=0.887
92193883|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|1.8|||=|0.162|TWO_SIDED|95.0|-0.76|4.36||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||4.36|-0.76|=0.162
92193884|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|-0.36|||=|0.784|TWO_SIDED|95.0|-3.01|2.29||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||2.29|-3.01|=0.784
92193885|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|1.79|||=|0.166|TWO_SIDED|95.0|-0.79|4.37||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||4.37|-0.79|=0.166
92193886|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|0.42|||=|0.724|TWO_SIDED|95.0|-1.98|2.82||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||2.82|-1.98|=0.724
92317254|NCT03982511|184538872|SUPERIORITY||Mean Difference (Net)|-17.23|STANDARD_ERROR_OF_MEAN|6.93||0.02|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for PCDI scores from T2 to T1.|effect size: -1.21|||0.02
92317255|NCT03982511|184538872|SUPERIORITY||Mean Difference (Net)|-19.43|STANDARD_ERROR_OF_MEAN|6.4||0.008|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for PCDI scores from T3 to T1|effect size: -1.57|||0.008
92317256|NCT03982511|184538873|SUPERIORITY||Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.36||0.5|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for pressure to eat scores from T2 to T1|effect size: -0.34|||0.50
92317257|NCT03982511|184538873|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.37||0.98|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for pressure to eat scores from T3 to T1|effect size: -0.01|||0.98
92317258|NCT03982511|184538874|SUPERIORITY||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|0.32||0.17|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for restrictive feeding scores from T2 to T1|effect size: -0.70|||0.17
92317259|NCT03982511|184538874|SUPERIORITY||Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|0.35||0.34|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for restrictive feeding scores from T3 to T1|effect size: -0.51|||0.34
92317260|NCT03982511|184538875|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.23||0.91|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for emotional feeding scores from T2 to T1|effect size: -0.06|||0.91
92317261|NCT03982511|184538875|SUPERIORITY||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.22||0.45|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for emotional feeding scores from T3 to T1|effect size: -0.40|||0.45
92317262|NCT03982511|184538876|SUPERIORITY||Mean Difference (Net)|-0.47|STANDARD_ERROR_OF_MEAN|0.2||0.03|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for instrumental feeding scores from T2 to T1.|effect size: -1.12|||0.03
92193887|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|1.81|||=|0.124|TWO_SIDED|95.0|-0.52|4.14||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||4.14|-0.52|=0.124
92317263|NCT03982511|184538876|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.23||0.03|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for instrumental feeding scores from T3 to T1|effect size: -1.25|||0.03
92317264|NCT03982511|184538877|SUPERIORITY||Mean Difference (Net)|2.23|STANDARD_ERROR_OF_MEAN|1.06||0.05|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for active mediation from T2 to T1|effect size: 1.02|||0.05
92317265|NCT03982511|184538877|SUPERIORITY||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|1.47||0.11|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for active mediation scores from T3 to T1|effect size: 0.88|||0.11
92317266|NCT03982511|184538878|SUPERIORITY||Mean Difference (Net)|3.64|STANDARD_ERROR_OF_MEAN|1.0||0.002|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for restrictive mediation scores from T2 to T1|effect size: 1.77|||0.002
92317267|NCT03982511|184538878|SUPERIORITY||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|1.08||0.24|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for restrictive mediation scores from T3 to T1|effect size: 0.63|||0.24
92317268|NCT03982511|184538879|SUPERIORITY||Mean Difference (Net)|0.68|STANDARD_ERROR_OF_MEAN|1.05||0.53|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for social coviewing from T2 to T1|effect size: 0.31|||0.53
92317269|NCT03982511|184538879|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|1.1||0.77|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for social coviewing from T3 to T1|effect size: 0.15|||0.77
92317270|NCT03982511|184538880|SUPERIORITY||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|1.23||0.91|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for number of screens in the home from T2 to T1|effect size: 0.04|||0.91
92317271|NCT03982511|184538880|SUPERIORITY||Mean Difference (Net)|0.65|STANDARD_ERROR_OF_MEAN|1.36||0.64|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for number of screens in the home from T3 to T1|effect size: 0.17|||0.64
92317272|NCT03982511|184538880|SUPERIORITY||Mean Difference (Net)|-0.36|STANDARD_ERROR_OF_MEAN|0.34||0.31|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for number of screens in child bedroom from T2 to T1|effect size: -0.36|||0.31
92317273|NCT03982511|184538880|SUPERIORITY||Mean Difference (Net)|-0.91|STANDARD_ERROR_OF_MEAN|0.39||0.04|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for number of screens in child bedroom from T3 to T1|effect size: -0.85|||0.04
92317274|NCT03982511|184538881|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.03|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided|ANOVA|repeated measures||Difference on difference for TV on during mealtime from T2 to T1|effect size: -1.25|||0.03
92317275|NCT03982511|184538881|SUPERIORITY||Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.19||0.1|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided|ANOVA|repeated measures||Difference on difference for TV on during mealtime from T3 to T1|effect size: -1.08|||0.10
92317276|NCT03982511|184538881|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.41|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mobile device present during mealtime from T2 to T1|effect size: -0.44|||0.41
92317277|NCT03982511|184538881|SUPERIORITY||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.22||0.21|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mobile device present during mealtime from T3 to T1|effect size: -0.80|||0.21
92317278|NCT03982511|184538881|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.16||0.02|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for other media present during mealtime from T2 to T1|effect size: -1.29|||0.02
92317279|NCT03982511|184538881|SUPERIORITY||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.2|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for other media present during mealtime from T3 to T1|effect size: -0.82|||0.20
92317280|NCT03982511|184538882|SUPERIORITY||Mean Difference (Net)|0.42|STANDARD_ERROR_OF_MEAN|0.14||0.009|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mealtime task accomplishment scores from T2 to T1|effect size: 1.55|||0.009
92317281|NCT03982511|184538882|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.15||0.84|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mealtime task accomplishment scores from T3 to T1|effect size: -0.13|||0.84
92193888|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|0.29|||=|0.856|TWO_SIDED|95.0|-2.91|3.48||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||3.48|-2.91|=0.856
92193889|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|1.64|||=|0.292|TWO_SIDED|95.0|-1.48|4.76||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||4.76|-1.48|=0.292
92317282|NCT03982511|184538882|SUPERIORITY||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.2||0.24|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mealtime behavior control scores from T2 to T1|effect size: 0.63|||0.24
92193890|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|0.11|||=|0.944|TWO_SIDED|95.0|-3.14|3.37||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||3.37|-3.14|=0.944
92317283|NCT03982511|184538882|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.15||0.84|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mealtime behavior control scores from T3 to T1.|effect size: -0.13|||0.84
92317284|NCT03982511|184538883|SUPERIORITY||Mean Difference (Net)|-9.5|STANDARD_ERROR_OF_MEAN|2.17||0|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for ECBI intensity t-scores from T2 to T1|effect size: -1.50|||0.00
92317285|NCT03982511|184538883|SUPERIORITY||Mean Difference (Net)|-7.63|STANDARD_ERROR_OF_MEAN|2.48||0.01|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for ECBI intensity t-scores from T3 to T1|effect size: -1.12|||0.01
92193891|NCT04159805|184286802|SUPERIORITY||Difference in LS Mean|0.85|||=|0.589|TWO_SIDED|95.0|-2.33|4.02||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||4.02|-2.33|=0.589
92317286|NCT03982511|184538884|SUPERIORITY||Mean Difference (Net)|-6.93|STANDARD_ERROR_OF_MEAN|2.63||0.02|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for internalizing symptoms from T2 to T1|effect size: -0.93|||0.02
92317287|NCT03982511|184538884|SUPERIORITY||Mean Difference (Net)|-6.58|STANDARD_ERROR_OF_MEAN|3.56||0.08|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for internalizing symptoms from T3 to T1|effect size: -0.68|||0.08
92317288|NCT03982511|184538884|SUPERIORITY||Mean Difference (Net)|-6.47|STANDARD_ERROR_OF_MEAN|6.92||0.36|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for adaptive skills from T2 to T1|effect size: -0.33|||0.36
92317289|NCT03982511|184538884|SUPERIORITY||Mean Difference (Net)|-3.57|STANDARD_ERROR_OF_MEAN|8.83||0.69|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for adaptive skills from T3 to T1|effect size: -0.15|||0.69
92317290|NCT03982511|184538885|SUPERIORITY||Mean Difference (Net)|35.78|STANDARD_ERROR_OF_MEAN|7.21||0|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for PSICA intensity scores from T2 to T1 (higher scores indicate better outcomes).|effect size: 1.70|||0.000
92317291|NCT03982511|184538885|SUPERIORITY||Mean Difference (Net)|21.78|STANDARD_ERROR_OF_MEAN|7.64||0.01|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for PSICA intensity scores from T3 to T1|effect size: 1.04|||0.01
92317292|NCT03982511|184538886|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.73|TWO_SIDED|||||Given this is a pilot RCT, primary aim is to estimate effect size for a more fully-powered RCT. P-values will be provided in addition to effect size.|ANOVA|Repeated measures|Effect size: 0.17|Difference on difference from T2 to T1 for BMI z-score||||.73
92317293|NCT03982511|184538886|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.98|TWO_SIDED|||||Given this is a pilot RCT, primary aim is to estimate effect size for a more fully-powered RCT. P-values will be provided in addition to effect size.|ANOVA|Repeated measures||Difference on difference for BMI z-scores from T3 to T1.|Effect size: -0.01|||.98
92193892|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|-0.93|||=|0.406|TWO_SIDED|95.0|-3.17|1.31||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||1.31|-3.17|=0.406
92317294|NCT00568451|184538889|SUPERIORITY_OR_OTHER||Median|12.5|||||ONE_SIDED|95.0|4.5||||Kaplan-Meier||||||4.5|
92193893|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|0.9|||=|0.418|TWO_SIDED|95.0|-1.34|3.14||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||3.14|-1.34|=0.418
92193894|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|-0.94|||=|0.463|TWO_SIDED|95.0|-3.53|1.65||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||1.65|-3.53|=0.463
92317295|NCT02996968|184538895|NON_INFERIORITY|"Non-inferiority was declared if the POUR rate at 1-week with self-discontinuation was no worse than the POUR rate at 1-week with office-discontinuation, by a pre-specified margin of 15%.~A sample size was calculated to be 74 patients in each arm based on the following:~* The estimated POUR requiring indwelling urinary catheter at 1-week postoperative is 16%~* The non-inferiority margin was set at 15%.~* The power was set at 80%"|Proportion Difference|0.002||||0.5|ONE_SIDED|95.0||0.095||2-sample test for equality of proportions with continuity correction|Two proportions Z-test|||||0.095||0.5
92317296|NCT00791778|184538902|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.655|TWO_SIDED|95.0|0.72|1.63|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.10 stratified by the same factors as randomization|Sorafenib compared to Placebo|Sample size based on the primary efficacy endpoint of PFS. Clinically meaningful improvement defined as 65% increase in median PFS. With one-sided alpha of 0.10, power of 90% and a randomization ratio of 1:1 between Sorafenib and Placebo, a total of 105 PFS events were required.||1.63|0.72|0.655
92317297|NCT00791778|184538903|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.43||||0.951|TWO_SIDED|95.0|0.93|2.2|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.10 stratified by the same factors as randomization|Sorafenib compared to Placebo|||2.20|0.93|0.951
92317298|NCT00791778|184538904|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||0.84|TWO_SIDED|95.0|0.69|3.23|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.10 stratified by the same factors as randomization.|Sorafenib compared to Placebo|||3.23|0.69|0.84
92317299|NCT01704495|184538931|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.56||||0.119|TWO_SIDED|90.0|0.98|2.49||2-sided p-value|Poisson regression|Correction for overdispersion made by Pearson chi-square|AZD5069 45 mg BID vs Placebo|||2.49|0.98|0.119
92317300|NCT01704495|184538931|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.53||||0.141|TWO_SIDED|90.0|0.95|2.46||2-sided|Poisson Regression|Correction for overdispersion made by Pearson chi-square|AZD5069 15 mg BID vs Placebo|||2.46|0.95|0.141
92317301|NCT01704495|184538931|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.29||||0.397|TWO_SIDED|90.0|0.79|2.11||2-sided|Poisson Regression|Correction for overdispersion made by Pearson chi-square|AZD5069 5 mg BID vs Placebo|||2.11|0.79|0.397
92193895|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|-0.1|||=|0.936|TWO_SIDED|95.0|-2.7|2.49||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||2.49|-2.70|=0.936
92193896|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|-1.8|||=|0.17|TWO_SIDED|95.0|-4.41|0.82||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||0.82|-4.41|=0.170
92193897|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|0.52|||=|0.687|TWO_SIDED|95.0|-2.1|3.13||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||3.13|-2.10|=0.687
92193898|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|-1.24|||=|0.374|TWO_SIDED|95.0|-4.05|1.57||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||1.57|-4.05|=0.374
92193899|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|0.99|||=|0.478|TWO_SIDED|95.0|-1.82|3.8||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||3.80|-1.82|=0.478
92193900|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|-0.51|||=|0.69|TWO_SIDED|95.0|-3.12|2.09||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||2.09|-3.12|=0.690
92193901|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|2.12|||=|0.106|TWO_SIDED|95.0|-0.48|4.71||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||4.71|-0.48|=0.106
92193902|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|-0.89|||=|0.547|TWO_SIDED|95.0|-3.89|2.12||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||2.12|-3.89|=0.547
92193903|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|2.19|||=|0.144|TWO_SIDED|95.0|-0.81|5.18||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||5.18|-0.81|=0.144
92193904|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|-1.37|||=|0.431|TWO_SIDED|95.0|-4.91|2.17||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||2.17|-4.91|=0.431
92193905|NCT04159805|184286803|SUPERIORITY||Difference in LS Mean|1.2|||=|0.488|TWO_SIDED|95.0|-2.34|4.74|||MMRM|||Change From Baseline at Week 16||4.74|-2.34|=0.488
92193906|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|-0.34|||=|0.855|TWO_SIDED|95.0|-4.14|3.45||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||3.45|-4.14|=0.855
92193907|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|3.19|||=|0.093|TWO_SIDED|95.0|-0.56|6.95||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||6.95|-0.56|=0.093
92193908|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|1.8|||=|0.41|TWO_SIDED|95.0|-2.61|6.2||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||6.20|-2.61|=0.410
92193909|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|3.13|||=|0.154|TWO_SIDED|95.0|-1.25|7.5||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||7.50|-1.25|=0.154
92193910|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|-0.94|||=|0.662|TWO_SIDED|95.0|-5.29|3.41||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||3.41|-5.29|=0.662
92193911|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|3.26|||=|0.13|TWO_SIDED|95.0|-1.02|7.54||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||7.54|-1.02|=0.130
92193912|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|1.27|||=|0.586|TWO_SIDED|95.0|-3.44|5.98||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||5.98|-3.44|=0.586
92193913|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|4.93|||=|0.039|TWO_SIDED|95.0|0.26|9.6||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||9.60|0.26|=0.039
92193914|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|-0.22|||=|0.909|TWO_SIDED|95.0|-4.03|3.6||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||3.60|-4.03|=0.909
92193915|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|2.65|||=|0.158|TWO_SIDED|95.0|-1.09|6.4||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||6.40|-1.09|=0.158
92193916|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|-0.88|||=|0.764|TWO_SIDED|95.0|-6.8|5.05||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||5.05|-6.80|=0.764
92193917|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|5.2|||=|0.08|TWO_SIDED|95.0|-0.67|11.06||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||11.06|-0.67|=0.080
92193918|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|-1.01|||=|0.677|TWO_SIDED|95.0|-5.98|3.95||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||3.95|-5.98|=0.677
92193919|NCT04159805|184286804|SUPERIORITY||Difference in LS Mean|4.81|||=|0.055|TWO_SIDED|95.0|-0.1|9.73||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||9.73|-0.10|=0.055
92193920|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|0.52|||=|0.78|TWO_SIDED|95.0|-3.23|4.27||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||4.27|-3.23|=0.780
92193921|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|0.5|||=|0.771|TWO_SIDED|95.0|-2.99|3.99||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||3.99|-2.99|=0.771
92193922|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|-0.04|||=|0.984|TWO_SIDED|95.0|-4.22|4.14||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||4.14|-4.22|=0.984
92193923|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|2.44|||=|0.213|TWO_SIDED|95.0|-1.47|6.35||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||6.35|-1.47|=0.213
92193924|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|-1.97|||=|0.371|TWO_SIDED|95.0|-6.4|2.45||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||2.45|-6.40|=0.371
92193925|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|0.11|||=|0.956|TWO_SIDED|95.0|-4.01|4.23||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||4.23|-4.01|=0.956
92193926|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|-1.06|||=|0.641|TWO_SIDED|95.0|-5.65|3.53||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||3.53|-5.65|=0.641
92193927|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|-0.33|||=|0.876|TWO_SIDED|95.0|-4.61|3.95||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||3.95|-4.61|=0.876
92193928|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|-1.86|||=|0.458|TWO_SIDED|95.0|-6.91|3.18||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||3.18|-6.91|=0.458
92193929|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|-0.68|||=|0.769|TWO_SIDED|95.0|-5.37|4.0||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||4.00|-5.37|=0.769
92193930|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|-1.14|||=|0.699|TWO_SIDED|95.0|-7.07|4.8||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||4.80|-7.07|=0.699
92193931|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|1.1|||=|0.687|TWO_SIDED|95.0|-4.41|6.62||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||6.62|-4.41|=0.687
92317302|NCT01256450|184538973|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.587|TWO_SIDED|95.0|-0.646|0.366|||ANCOVA|||||0.366|-0.646|.5870
92317303|NCT02275819|184539028|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||.14
92193932|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|0.2|||=|0.944|TWO_SIDED|95.0|-5.55|5.95||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||5.95|-5.55|=0.944
92193933|NCT04159805|184286805|SUPERIORITY||Difference in LS Mean|2.48|||=|0.351|TWO_SIDED|95.0|-2.87|7.83||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||7.83|-2.87|=0.351
92193934|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-27.9|||=|0.09|TWO_SIDED|95.0|-60.18|4.38||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 2||4.38|-60.18|=0.090
92193935|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-15.77|||=|0.328|TWO_SIDED|95.0|-47.5|15.96||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 2||15.96|-47.50|=0.328
92193936|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-12.65|||=|0.441|TWO_SIDED|95.0|-44.94|19.63||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 3||19.63|-44.94|=0.441
92193937|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|1.39|||=|0.931|TWO_SIDED|95.0|-30.33|33.12||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 3||33.12|-30.33|=0.931
92193938|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-28.18|||=|0.087|TWO_SIDED|95.0|-60.46|4.11||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||4.11|-60.46|=0.087
92193939|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|4.44|||=|0.783|TWO_SIDED|95.0|-27.29|36.16||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||36.16|-27.29|=0.783
92193940|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-29.08|||=|0.077|TWO_SIDED|95.0|-61.36|3.21||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 5||3.21|-61.36|=0.077
92193941|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-15.72|||=|0.33|TWO_SIDED|95.0|-47.45|16.0||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 5||16.00|-47.45|=0.330
92193942|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-14.14|||=|0.4|TWO_SIDED|95.0|-47.19|18.91||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||18.91|-47.19|=0.400
92193943|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|0.0|||=|1|TWO_SIDED|95.0|-32.18|32.19||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||32.19|-32.18|=1.000
92193944|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-26.47|||=|0.117|TWO_SIDED|95.0|-59.64|6.69||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 7||6.69|-59.64|=0.117
92193945|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-12.75|||=|0.436|TWO_SIDED|95.0|-44.94|19.44||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 7||19.44|-44.94|=0.436
92193946|NCT04159805|184286806|SUPERIORITY|From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|Difference in LS Mean|-47.91|||=|0.005|TWO_SIDED|95.0|-81.54|-14.29||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||-14.29|-81.54|=0.005
92193947|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-20.48|||=|0.215|TWO_SIDED|95.0|-52.92|11.95||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||11.95|-52.92|=0.215
92193948|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-3.97|||=|0.815|TWO_SIDED|95.0|-37.34|29.4||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||29.40|-37.34|=0.815
92193949|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-4.31|||=|0.794|TWO_SIDED|95.0|-36.84|28.22||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||28.22|-36.84|=0.794
92317304|NCT02275819|184539029|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|||||||.22
92317305|NCT02275819|184539030|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||.12
92317306|NCT02275819|184539031|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||.08
92317307|NCT02275819|184539032|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
92317308|NCT02025725|184539071|SUPERIORITY|||||||0.881|||||||ANCOVA|||||||0.881
92317309|NCT02025725|184539072|SUPERIORITY||Mean Difference (Net)|-0.201||||0.036|TWO_SIDED||||||ANCOVA|||Change in mean daily GSA total score from Baseline to Week 1: metoclopramide nasal spray minus placebo.||||0.036
92317310|NCT02025725|184539072|SUPERIORITY||Mean Difference (Net)|-0.336||||0.025|TWO_SIDED||||||ANCOVA|||Change in mean daily GSA total score from Baseline to Week 2: metoclopramide nasal spray minus placebo||||0.025
92317311|NCT02025725|184539072|SUPERIORITY||Mean Difference (Net)|-0.347||||0.039|TWO_SIDED||||||ANCOVA|||Change in mean daily GSA total score from Baseline to Week 3: metoclopramide nasal spray minus placebo.||||0.039
92317312|NCT02025725|184539072|SUPERIORITY||Mean Difference (Net)|-0.364||||0.085|TWO_SIDED||||||ANCOVA|||Change in mean daily GSA total score from Baseline to Week 4: metoclopramide nasal spray minus placebo.||||0.085
92317313|NCT00235755|184539080|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-parametric rank analysis of covariance adjusted for baseline 28-seizure frequency and stratified by baseline seizure frequency category and region|Non-parametric rank ANCOVA|||||||<0.001
92193950|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-36.78|||=|0.033|TWO_SIDED|95.0|-70.48|-3.08||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||-3.08|-70.48|=0.033
92193951|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-10.79|||=|0.513|TWO_SIDED|95.0|-43.26|21.67||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Week 12||21.67|-43.26|=0.513
92193952|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-56.21|||=|0.002|TWO_SIDED|95.0|-91.69|-20.73||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Week 14||-20.73|-91.69|=0.002
92317314|NCT00235755|184539080|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||Non-parametric rank analysis of covariance adjusted for baseline 28-seizure frequency and stratified by baseline seizure frequency category and region|Non-parametric rank ANCOVA|||||||0.007
92193953|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-36.94|||=|0.036|TWO_SIDED|95.0|-71.39|-2.48||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Week 14||-2.48|-71.39|=0.036
92317315|NCT00235755|184539081|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92317316|NCT00235755|184539081|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92317317|NCT02816736|184539100|SUPERIORITY||ratio of the AUCs|0.95||||0.45|TWO_SIDED|95.0|0.84|1.08|||Regression, Linear|||AUC was normalized for time; With the log-scale, the value of 0 indicates, on average, no change in NTproBNP from baseline.||1.08|0.84|0.45
92317318|NCT02816736|184539101|SUPERIORITY||Mean Difference (Net)|-11.22||||0.15|TWO_SIDED|95.0|-26.4|3.97|||general linear model|||||3.97|-26.4|0.15
92317319|NCT02816736|184539102|SUPERIORITY||Odds Ratio (OR)|1.14||||0.51|TWO_SIDED|95.0|0.78|1.68|||ordinal logistic regression|||||1.68|0.78|0.51
92317320|NCT02816736|184539103|SUPERIORITY||Odds Ratio (OR)|1.55||||0.16|TWO_SIDED|95.0|0.84|2.87|||Regression, Logistic|||||2.87|0.84|0.16
92317321|NCT02816736|184539104|SUPERIORITY||Odds Ratio (OR)|0.99||||0.99|TWO_SIDED|95.0|0.34|2.91|||Regression, Logistic|||||2.91|0.34|0.99
92317322|NCT02816736|184539105|SUPERIORITY||Odds Ratio (OR)|2.05||||0.035|TWO_SIDED|95.0|1.05|4.0|||Regression, Logistic|||||4.00|1.05|0.035
92317323|NCT01532934|184539127|SUPERIORITY_OR_OTHER|||||||0.02||||||As stated, the p-value reflects the Factor 1 by treatment interaction term and its effect on percent days abstinent/month.|Regression, Linear|||A priori hypothesis. Psychopathy Factor 1 (F1) X treatment interaction to predict higher substance use among people high in F1 + who get treatment relative to individuals with high F1 who get standard care.||||.02
92317324|NCT01532934|184539128|SUPERIORITY_OR_OTHER|||||||0.34||||||As stated, the p-value reflects the F1 X treatment interaction term and its effect on substance use consequences. A priori threshold for significance was p\<.05.|Regression, Linear|||Experimental hypothesis: The F1 X treatment interaction will show that individuals low on F1 who get treatment will reduce substance use consequences at six months relative to those low on F1 who get standard care.||||.34
92317325|NCT01532934|184539129|SUPERIORITY_OR_OTHER|||||||0.69||||||a priori threshold p\<.05|Regression, Logistic|||Experimental hypothesis: Treatment X F1 interaction will predict fewer charges at one-year follow-up for individuals low on F1 who got treatment relative to individuals low on F1 who did not.||||.69
92317326|NCT02723344|184539148|OTHER|||||||0.056|||||||Wilcoxon-rank sum|||||||.056
92317327|NCT02723344|184539149|OTHER|||||||0.26||||||Wilcoxon Rank-Sum|Wilcoxon (Mann-Whitney)|||||||.26
92317328|NCT02723344|184539151|OTHER|||||||0.64|||||||Wilcoxon Rank-Sum|||||||.64
92317329|NCT03473184|184539156|OTHER|p-values are from an ANOVA of the average numerical score (sum of erythema and edema) at 24 and 48 hours post irradiation (Days 3 and 4) with effects of subject and treatment, using Fisher's least significant differences.||||||1|||||||ANOVA|||Irradiated vehicle and untreated irradiated sites versus irradiated diacerein site, and non-irradiated vehicle site versus non-irradiated diacerein site and untreated irradiated site versus irradiated vehicle site.||||1.0000
92317330|NCT03473184|184539156|OTHER|p-values are from an ANOVA of the average numerical score (sum of erythema and edema) at 24 and 48 hours post irradiation (Days 3 and 4) with effects of subject and treatment, using Fisher's least significant differences.||||||0.0008|||||||ANOVA|||Non-irradiated diacerein and vehicle sites versus irradiated diacerein site, and irradiated vehicle and untreated irradiated sites versus non-irradiated diacerein site, and non-irradiated vehicle site versus irradiated vehicle site, and untreated irradiated site versus non-irradiated vehicle site.||||0.0008
92317331|NCT03759392|184539157|SUPERIORITY||Least squares mean difference|-0.447|STANDARD_ERROR_OF_MEAN|0.2931||0.13|TWO_SIDED|95.0|-1.024|0.131|||ANCOVA|Using multiple imputation||||0.131|-1.024|0.13
92193954|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-62.98|||=|0.001|TWO_SIDED|95.0|-100.64|-25.31||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Week 16||-25.31|-100.64|=0.001
92193955|NCT04159805|184286806|SUPERIORITY||Difference in LS Mean|-28.81|||=|0.13|TWO_SIDED|95.0|-66.12|8.51||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Week 16||8.51|-66.12|=0.130
92193956|NCT02930837|184286811|SUPERIORITY||Percentage of patients|63.3|||<|0.0001|TWO_SIDED|95.0|54.42|71.42|||One-sample test||Percentage of patients with Favourable outcome|A null hypothesis of p ≤40% versus the alternative hypothesis of p \>40% was tested using a one sample test at two-sided significance level of 0.05, where p denoted the response rate in Chinese patients who were treated within 3-4.5 h after stroke onset.||71.42|54.42|<0.0001
92317332|NCT03759392|184539158|SUPERIORITY||Least squares mean difference|-5.388|STANDARD_ERROR_OF_MEAN|2.3937||0.025|TWO_SIDED|95.0|-10.108|-0.0668|||ANCOVA|Using multiple imputation||||-0.0668|-10.108|0.025
92317333|NCT03759392|184539159|SUPERIORITY||Least squares mean difference|0.414|STANDARD_ERROR_OF_MEAN|0.6215||0.51|TWO_SIDED|95.0|-0.81|1.639|||ANCOVA|Using multiple imputation||||1.639|-0.810|0.51
92317334|NCT03759392|184539160|SUPERIORITY||Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.42||0.54|TWO_SIDED|95.0|-0.6|1.1|||Repeated measures mixed model|||||1.1|-0.6|0.54
92317335|NCT02996227|184539171|NON_INFERIORITY|The noninferiority was defined as no more than 25% greater opioid consumption and no worse than 1-point higher pain score at rest. Non-inferiority of TAP with liposomal bupivacaine to epidural could be claimed if the upper limit of the 95.2% CI for the mean difference of pain scores at rest was less than 1 point and the CI for the ratio of geometric means in opioid consumption was less than 1.25.|Mean Difference (Final Values)|0.09|||<|0.001|TWO_SIDED|95.2|-0.12|0.3|||Mixed Models Analysis|||||0.30|-0.12|<0.001
92317336|NCT02996227|184539172|NON_INFERIORITY|The noninferiority was defined as no more than 25% greater opioid consumption and no worse than 1-point higher pain score at rest. Non-inferiority of TAP with liposomal bupivacaine to epidural could be claimed if the upper limit of the 95.2% CI for the mean difference of pain scores at rest was less than 1 point and the CI for the ratio of geometric means in opioid consumption was less than 1.25.|Ratio of Geometric means|1.37||||0.754|TWO_SIDED|95.2|1.05|1.79|||Mixed Models Analysis|||||1.79|1.05|0.754
92317337|NCT02996227|184539173|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.56|TWO_SIDED|99.0|0.53|2.76|||Regression, Linear|linear regression after logarithm transformation||||2.76|0.53|0.560
92317338|NCT02996227|184539174|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.357|TWO_SIDED|99.0|-0.65|1.37|||Regression, Linear||Difference in means between two groups was assessed using mixed effects model with repeated measurements with unstructured correlation structure|||1.37|-0.65|0.357
92317339|NCT02996227|184539175|SUPERIORITY||Risk Ratio (RR)|0.64||||0.006|TWO_SIDED|99.0|0.42|0.98|||generalized linear regression|||||0.98|0.42|0.006
92193957|NCT01393613|184286818|SUPERIORITY_OR_OTHER|||||||0.0093|||||||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare the average effect analysis for brexpiprazole 2 mg/day and 4 mg/day and placebo combined treatment groups at Week 6. The primary analysis was performed by fitting a Mixed Model Repeated Measures (MMRM) with an unstructured variance covariance structure. The model included fixed class effect terms for treatment, trial site, visit week, baseline, baseline and visit interaction and an interaction term of treatment by visit week.||||0.0093
92193958|NCT01393613|184286818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.47||||0.0022|TWO_SIDED|95.0|-10.6|-2.35|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-2.35|-10.6|0.0022
92317340|NCT02996227|184539176|SUPERIORITY||Mean Difference (Final Values)|0.77||||0.695|TWO_SIDED|99.0|-4.31|5.85|||Regression, Linear||Difference in means between two groups was assessed using mixed effects model with repeated measurements with unstructured correlation structure.|||5.85|-4.31|0.695
92193959|NCT01393613|184286818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.08||||0.1448|TWO_SIDED|95.0|-7.23|1.07|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||1.07|-7.23|0.1448
92317341|NCT02996227|184539177|SUPERIORITY||Ratio of geometric means|0.98||||0.738|TWO_SIDED|99.0|0.86|1.12|||Regression, Linear|linear regression after logarithmic transformation||||1.12|0.86|0.738
92317342|NCT01100086|184539201|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|102.0|||||TWO_SIDED|90.0|99.35|105.42|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||105.42|99.35|
92317343|NCT01100086|184539202|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|98.0|||||TWO_SIDED|90.0|94.94|101.19|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||101.19|94.94|
92317344|NCT01100086|184539203|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|98.3|||||TWO_SIDED|90.0|95.2|101.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||101.48|95.20|
92317345|NCT01100086|184539203|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|98.3|||||TWO_SIDED|90.0|95.2|101.48|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||101.48|95.20|
92317346|NCT03158038|184539219|SUPERIORITY||Rate difference|0.0|||||TWO_SIDED|95.0|-6.7|1.9||||||||1.9|-6.7|
92317347|NCT03158038|184539220|SUPERIORITY||Rate difference|1.3|||||TWO_SIDED|95.0|-12.8|13.2||||||Statistical analysis up to Day 8||13.2|-12.8|
92317348|NCT03158038|184539220|SUPERIORITY||Rate difference|0.4|||||TWO_SIDED|95.0|-14.1|13.2||||||Statistical analysis up to Day 15||13.2|-14.1|
92317349|NCT04227197|184539230|SUPERIORITY|The p value compares the trend in the number of indicated or completed evaluations in the Intervention arm versus Control arm.||||||0.018|||||||Cochran-Armitage trend test|Two tailed; no continuity correction||||||0.018
92317350|NCT04227197|184539232|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group.||||||0.468|||||||ANOVA|||This is the p value for the PedsQL Psychosocial Health Score||||0.468
92317351|NCT04227197|184539232|SUPERIORITY|||||||0.802|||||||ANOVA|||This p value is for the PedsQL Physical Functioning Score||||0.802
92317352|NCT04227197|184539232|SUPERIORITY|||||||0.761|||||||ANOVA|||This is the p value for the PedsQL Total Scale Score||||0.761
92317353|NCT04227197|184539232|SUPERIORITY|||||||0.965|||||||ANOVA|||This is the p value for the PedsQL FIM Parental HRQL Summary Score||||0.965
92317354|NCT04227197|184539232|SUPERIORITY|||||||0.619|||||||ANOVA|||This is the p value for the PedsQL FIM Family Functioning Summary Score||||0.619
92317355|NCT04227197|184539232|SUPERIORITY|||||||0.469|||||||ANOVA|||This is the p value for the PedsQL FIM Total Scale Score||||0.469
92317356|NCT04227197|184539233|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.068|||||||ANOVA|||This is for the change from baseline on PedsQL Psychosocial Health Score||||0.068
92317357|NCT04227197|184539233|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.907|||||||ANOVA|||This is for the change from baseline for PedsQL Physical Functioning Score||||0.907
92317358|NCT04227197|184539233|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.196|||||||ANOVA|||This is for the change from baseline for PedsQL Total Scale Score||||0.196
92193960|NCT01393613|184286818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.37||||0.1588|TWO_SIDED|95.0|-8.06|1.32|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6. MMRM analysis fixed effect of treatment, clinical visit, trial site, treatment visit interaction, Baseline value, and Baseline visit interaction as covariates.||1.32|-8.06|0.1588
92193961|NCT01393613|184286819|SUPERIORITY_OR_OTHER|||||||0.0069|||||||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare the average effect analysis for brexpiprazole 2 mg/day and 4 mg/day and placebo combined treatment groups at Week 6.||||0.0069
92317359|NCT04227197|184539233|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.112|||||||ANOVA|||This is for the change from baseline for PedsQL FIM Parental HRQL Summary Score||||0.112
92317360|NCT04227197|184539233|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.245|||||||ANOVA|||This is for change from baseline for PedsQL FIM Family Functioning Summary Score||||0.245
92317361|NCT04227197|184539233|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.219|||||||ANOVA|||This is for change from baseline for PedsQL FIM Total Scale Score||||0.219
92317362|NCT02992236|184539294|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
92317363|NCT02549859|184539297|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
92317364|NCT02549859|184539298|SUPERIORITY||||||<|0.01|||||||Paired t-test, 2 sided|||||||<0.01
92317365|NCT02549859|184539299|SUPERIORITY||||||<|0.01|||||||Paired t-test, 2 sided|||||||<0.01
92317366|NCT02549859|184539300|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
92317367|NCT02549859|184539301|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
92317368|NCT02549859|184539302|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
92317369|NCT02549859|184539303|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
92317370|NCT02549859|184539304|SUPERIORITY||||||<|0.01|||||||Paired t-test, 2 sided|||||||<0.01
92317371|NCT02549859|184539305|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
92317372|NCT02549859|184539306|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
92317373|NCT02549859|184539307|SUPERIORITY||||||<|0.01|||||||Paired t-test, 2 sided|||||||<0.01
92317374|NCT02549859|184539308|SUPERIORITY||||||<|0.001|||||||Paired t-test, 2 sided|||||||<0.001
92317375|NCT02549859|184539309|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
92317376|NCT02549859|184539310|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
92317377|NCT02549859|184539311|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
92317378|NCT02549859|184539312|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
92317379|NCT02549859|184539313|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
92317380|NCT02549859|184539314|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
92317381|NCT02549859|184539315|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
92317382|NCT02549859|184539316|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
92317383|NCT03446027|184539317|OTHER|"Prespecified Tobit Regression mode: the model included the AWD baseline measurement, a treatment indicator and the type of centre (SET versus non-SET) as covariates. As the data collected for AWD showed a right-skewed distribution, a square root transformation was used to normalise the data and used for the regression Tobit model. This resulted in the unit of measure being units rather than meters."|square root transformation|0.835||||0.28|TWO_SIDED|95.0|-0.674|2.343|||Tobit Regression|||"Right censored Tobit regression model for AWD at 3 months for the ITT population.~Difference between arms (between baseline and 3 months) - the primary analysis estimates the difference in the AWD at 3 months between the two treatment groups control vs. device. Control group includes both BMT and BMT + SET and the treatment group includes NMES + BMT and NMES + BMT + SET Included participants with both baseline and 3 month treadmill data."||2.343|-0.674|0.28
92193962|NCT01393613|184286819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.0015|TWO_SIDED|95.0|-0.62|-0.15|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6. The analysis of this key secondary endpoint was conducted if both comparisons of brexpiprazole 4 mg/day vs placebo and brexpiprazole 2 mg/day vs placebo of the primary endpoint were significant. Because only the comparison of brexpiprazole 4 mg/day vs placebo met the threshold in the primary analysis, the following analysis is not part of the formal statistical testing and is descriptive only.||-0.15|-0.62|0.0015
92193963|NCT01393613|184286819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.1269|TWO_SIDED|95.0|-0.42|-0.05|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||-0.05|-0.42|0.1269
92193964|NCT01393613|184286819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.4449|TWO_SIDED|95.0|-0.37|0.16|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.16|-0.37|0.4449
92193965|NCT01393613|184286820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.59||||0.0005|TWO_SIDED|95.0|2.02|7.17|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||7.17|2.02|0.0005
92193966|NCT01393613|184286820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.1286|TWO_SIDED|95.0|-0.58|4.59|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||4.59|-0.58|0.1286
92193967|NCT01393613|184286820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.21||||0.0332|TWO_SIDED|95.0|0.26|6.16|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||6.16|0.26|0.0332
92193968|NCT01393613|184286821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.0166|TWO_SIDED|95.0|-3.08|-0.31|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.31|-3.08|0.0166
92193969|NCT01393613|184286821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.5101|TWO_SIDED|95.0|-1.86|0.93|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.93|-1.86|0.5101
92193970|NCT01393613|184286821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.3938|TWO_SIDED|95.0|-2.26|0.89|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.89|-2.26|0.3938
92193971|NCT01393613|184286822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22||||0.0231|TWO_SIDED|95.0|-2.28|-0.17|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.17|-2.28|0.0231
92193972|NCT01393613|184286822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77||||0.1547|TWO_SIDED|95.0|-1.83|0.29|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.29|-1.83|0.1547
92193973|NCT01393613|184286822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.2004|TWO_SIDED|95.0|-1.98|0.42|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.42|-1.98|0.2004
92193974|NCT01393613|184286823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0009|TWO_SIDED|95.0|-0.78|-0.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenzel (CMH) row mean scores differ test controlling for study center.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.20|-0.78|0.0009
92193975|NCT01393613|184286823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.0422|TWO_SIDED|95.0|-0.6|-0.01|||Cochran-Mantel-Haenszel|CMH row mean scores differ test controlling for study center.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||-0.01|-0.60|0.0422
92193976|NCT01393613|184286823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.1358|TWO_SIDED|95.0|-0.56|0.08|||Cochran-Mantel-Haenszel|CMH row mean scores differ test controlling for study center.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.08|-0.56|0.1358
92193977|NCT01393613|184286824|SUPERIORITY_OR_OTHER||Relative Risk|1.54||||0.0006|TWO_SIDED|95.0|1.2|2.0|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||2.00|1.20|0.0006
92193978|NCT01393613|184286824|SUPERIORITY_OR_OTHER||Relative Risk|1.22||||0.168|TWO_SIDED|95.0|0.92|1.62|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||1.62|0.92|0.1680
92193979|NCT01393613|184286824|SUPERIORITY_OR_OTHER||Relative Risk|1.35||||0.0433|TWO_SIDED|95.0|1.02|1.79|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||1.79|1.02|0.0433
92193980|NCT01393613|184286825|SUPERIORITY_OR_OTHER||Relative Risk|0.82||||0.5202|TWO_SIDED|95.0|0.44|1.51|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||1.51|0.44|0.5202
92193981|NCT01393613|184286825|SUPERIORITY_OR_OTHER||Relative Risk|1.0||||0.9894|TWO_SIDED|95.0|0.55|1.85|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||1.85|0.55|0.9894
92193982|NCT01393613|184286825|SUPERIORITY_OR_OTHER||Relative Risk|0.76||||0.4586|TWO_SIDED|95.0|0.36|1.59|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||1.59|0.36|0.4586
92193983|NCT01393613|184286826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39||||0.0029|TWO_SIDED|95.0|-2.3|-0.48|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.48|-2.30|0.0029
92193984|NCT01393613|184286826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.3559|TWO_SIDED|95.0|-1.34|0.48|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.48|-1.34|0.3559
92193985|NCT01393613|184286826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.3646|TWO_SIDED|95.0|-1.51|0.56|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.56|-1.51|0.3646
92193986|NCT01393613|184286827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.1273|TWO_SIDED|95.0|-2.61|0.33|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||0.33|-2.61|0.1273
92193987|NCT01393613|184286827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.64|TWO_SIDED|95.0|-1.83|1.12|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||1.12|-1.83|0.6400
92193988|NCT01393613|184286827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.4423|TWO_SIDED|95.0|-2.32|1.01|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||1.01|-2.32|0.4423
92193989|NCT01393613|184286828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.0194|TWO_SIDED|95.0|-2.36|-0.21|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.21|-2.36|0.0194
92193990|NCT01393613|184286828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98||||0.0754|TWO_SIDED|95.0|-2.06|0.1|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.10|-2.06|0.0754
92193991|NCT01393613|184286828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.108|TWO_SIDED|95.0|-2.22|0.22|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.22|-2.22|0.1080
92193992|NCT01393613|184286829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39||||0.0045|TWO_SIDED|95.0|-2.34|-0.43|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6. Because only the comparison of brexpiprazole 4 mg/day versus placebo met the threshold in the primary analysis, the following analysis is not part for the formal statistical testing and is descriptive only.||-0.43|-2.34|0.0045
92193993|NCT01393613|184286829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.4753|TWO_SIDED|95.0|-1.31|0.61|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.61|-1.31|0.4753
92193994|NCT01393613|184286829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.115|TWO_SIDED|95.0|-1.96|0.21|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.21|-1.96|0.1150
92193995|NCT01393613|184286830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26||||0.0021|TWO_SIDED|95.0|-2.05|-0.46|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.46|-2.05|0.0021
92193996|NCT01393613|184286830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.6792|TWO_SIDED|95.0|-0.97|0.63|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.63|-0.97|0.6792
92193997|NCT01393613|184286830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.5752|TWO_SIDED|95.0|-1.16|0.65|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.65|-1.16|0.5752
92193998|NCT01393613|184286831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86||||0.0104|TWO_SIDED|95.0|-1.51|-0.2|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.20|-1.51|0.0104
92193999|NCT01393613|184286831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.0373|TWO_SIDED|95.0|-1.35|-0.04|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||-0.04|-1.35|0.0373
92194000|NCT01393613|184286831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.089|TWO_SIDED|95.0|-1.39|0.1|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.10|-1.39|0.0890
92194001|NCT00497874|184286873|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.003||95.0||||Statistical significance of the pooled results was evaluated using a t-test and degrees of freedom that take into account the uncertainty in the data and the uncertainty due to missing values.|t-test, 1 sided|t(145) = 2.8||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, the t-test-and the results pooled.||||.003
92194002|NCT00497874|184286874|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.002||95.0||||Statistical significance of the pooled results was evaluated using a t-test and degrees of freedom that take into account the uncertainty in the data and the uncertainty due to missing values.|t-test, 1 sided|t(181) = 2.9||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, logistic regression-and the results pooled.||||.002
92194003|NCT00497874|184286875|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.04||95.0||||Statistical significance of the pooled results was evaluated using a t-test and degrees of freedom that take into account the uncertainty in the data and the uncertainty due to missing values.|t-test, 1 sided|t(153) = 1.8||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, logistic regression-and the results pooled.||||.04
92194004|NCT00497874|184286876|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.07||95.0||||Statistical significance of the pooled results was evaluated using a t-test and degrees of freedom that take into account the uncertainty in the data and the uncertainty due to missing values.|t-test, 1 sided|t(57) = 1.5||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, logistic regression-and the results pooled.||||.07
92194005|NCT00497874|184286877|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.05||95.0|||||t-test, 1 sided|t(94) = 1.5||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, logistic regression-and the results pooled.||||.05
92194006|NCT00497874|184286878|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.13||95.0||||Statistical significance of the pooled results was evaluated using a t-test and degrees of freedom that take into account the uncertainty in the data and the uncertainty due to missing values.|t-test, 1 sided|t(123) = 1.2||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, the t-test-and the results pooled.||||.13
92194007|NCT01114139|184286988|SUPERIORITY|The 95% confidence interval was calculated using the large sample assumption.|Treatment Difference|75.59|||<|0.0001|TWO_SIDED|95.0|71.15|80.02|||Cochran-Mantel-Haenszel|The p-value is the result of the Cochran-Mantel-Haenszel test, adjusted for Baseline hemoglobin level and underlying condition.|The treatment difference (ferumoxytol - placebo) was expressed as a percentage.|Participants who achieved a ≥2.0 g/dL increase in hemoglobin from Baseline up to Week 5 were analyzed. Statistical comparison was performed for data up to Week 5 only. Baseline was defined as the Day 1 value (prior to injection of study drug). The screening or most recent value prior to Day 1 was used for any participant with missing Day 1 information.||80.02|71.15|<0.0001
92194008|NCT01983553|184287048|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.93|||||TWO_SIDED|95.0|0.64|1.36|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Any of the 4 Serotypes||1.36|0.64|
92194009|NCT01983553|184287048|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 1 between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.96|||||TWO_SIDED|95.0|0.44|2.21|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Serotype 1||2.21|0.44|
92194010|NCT01983553|184287048|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 2 between the CYD Dengue vaccine group and the Control group.|Relative Risk|1.326|||||TWO_SIDED|95.0|0.64|2.94|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Serotype 2||2.94|0.64|
92194011|NCT01983553|184287048|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 3 between the CYD Dengue vaccine group and the Control group.|Relative Risk|1.056|||||TWO_SIDED|95.0|0.48|2.51|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Serotype 3||2.51|0.48|
92194012|NCT01983553|184287048|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.629|||||TWO_SIDED|95.0|0.27|1.47|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Serotype 4||1.47|0.27|
92194013|NCT01983553|184287048|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Unserotyped between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|1.22|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Unserotyped||1.22|0.00|
92194014|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes (4 to 5 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|1.411|||||TWO_SIDED|95.0|0.64|3.42|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Any Serotype||3.42|0.64|
92194015|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|0.807|||||TWO_SIDED|95.0|0.53|1.25|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Any Serotype||1.25|0.53|
92194016|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 1 (4 to 5 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|4.885|||||TWO_SIDED|95.0|0.7|212.02|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Serotype 1||212.02|0.70|
92194017|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 1 (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|0.557|||||TWO_SIDED|95.0|0.21|1.46|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Serotype 1||1.46|0.21|
92194018|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 2 (4 to 5 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|2.931|||||TWO_SIDED|95.0|0.36|134.83|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Serotype 2||134.83|0.36|
92194019|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 2 (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|1.165|||||TWO_SIDED|95.0|0.53|2.74|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Serotype 2||2.74|0.53|
92194020|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants at Year 1 for Serotype 3 (4 to 5 year) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|1.221|||||TWO_SIDED|95.0|0.2|12.83|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Serotype 3||12.83|0.20|
92194021|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 3 (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|1.013|||||TWO_SIDED|95.0|0.41|2.73|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Serotype 3||2.73|0.41|
92194022|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 (4 to 5 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|0.977|||||TWO_SIDED|95.0|0.21|6.04|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Serotype 4||6.04|0.21|
92194023|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|0.506|||||TWO_SIDED|95.0|0.18|1.44|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Serotype 4||1.44|0.18|
92194024|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Unserotyped (4 to 5 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|2.6|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Unserotyped||2.60|0.00|
92194025|NCT01983553|184287051|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Unserotyped (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|19.75|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Unserotyped||19.75|0.00|
92194026|NCT01983553|184287059|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes; Any grade between the CYD Dengue vaccine group and the Control group.|Relative Risk|1.174|||||TWO_SIDED|95.0|0.27|7.03|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Any serotype; Any grade||7.03|0.27|
92194027|NCT01983553|184287059|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes; Grade I between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.252|||||TWO_SIDED|95.0|0.0|4.83|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Any serotype; Grade I||4.83|0.00|
92194028|NCT01983553|184287059|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes Grade II between the CYD Dengue vaccine group and the Control group.|Relative Risk|2.012|||||TWO_SIDED|95.0|0.2|99.1|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Any serotype; Grade II||99.10|0.20|
92194029|NCT01983553|184287059|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 2 Any grade between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.503|||||TWO_SIDED|95.0|0.01|39.49|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Serotype 2; Any grade||39.49|0.01|
92194030|NCT01983553|184287059|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 2 Grade I between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.503|||||TWO_SIDED|95.0|0.01|39.49|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Serotype 2; Grade I||39.49|0.01|
92194031|NCT01983553|184287059|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 Any grade between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.252|||||TWO_SIDED|95.0|0.0|4.83|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Serotype 4; Any grade||4.83|0.00|
92194032|NCT01983553|184287059|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 Grade I between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|19.62|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Serotype 4; Grade I||19.62|0.00|
92194033|NCT01983553|184287059|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 Grade II between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.503|||||TWO_SIDED|95.0|0.01|39.49|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Serotype 4; Grade II||39.49|0.01|
92194034|NCT02971228|184287174|OTHER|A paired t-test was used for the parametric method to compare patients receiving both treatments. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint. Thus, the 2 patients who withdrew from the trial after the Lilly Glucagon treatment before receiving ZP4207 were not included in the analysis.|Mean Difference (Final Values)|-6.9||||0.2518|TWO_SIDED|95.0|-19.63|5.84|||t-test, 2 sided||The estimated mean difference is based on the difference between the mean values for 10 patients in the ZP4207 group (12.78) and the matching 10 patients in the Lilly glucagon group (19.67)|A paired t-test or the Wilcoxon signed rank test for comparison of means with normally or non normally distributed residuals, respectively, was used. The Shapiro-Wilk test was used to determine the normality of the residuals for each comparison. The residuals were obtained from an analysis of variance (ANOVA) model with treatment group as the fixed effect. If the p-value of the test was \<0.001, the non-parametric method was utilized to analyze the endpoint parameter.||5.84|-19.63|0.2518
92194035|NCT02971228|184287174|OTHER||Median Difference (Final Values)|-8.02||||0.25|TWO_SIDED|95.0|-25.85|10.68|||Wilcoxon (Mann-Whitney)|||Non-parametric method p-value was from a Wilcoxon signed rank text. The normality of the residuals was assessed using the Shapiro-Wilk test, where the residuals were obtained from an ANOVA model with treatment group as the fixed effect. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint.||10.68|-25.85|0.2500
92194036|NCT02971228|184287175|OTHER|A paired t-test was used for the parametric method to compare patients receiving both treatments. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint. Thus, the 2 patients who withdrew from the trial after the Lilly Glucagon treatment before receiving ZP4207 were not included in the analysis.|Mean Difference (Final Values)|-0.28||||0.8508|TWO_SIDED|95.0|-3.55|2.99|||t-test, 2 sided|||A paired t-test or the Wilcoxon signed rank test for comparison of means with normally or non normally distributed residuals, respectively, was used. The Shapiro-Wilk test was used to determine the normality of the residuals for each comparison. The residuals were obtained from an analysis of variance (ANOVA) model with treatment group as the fixed effect. If the p-value of the test was \<0.001, the non-parametric method was utilized to analyze the endpoint parameter.||2.99|-3.55|0.8508
92194037|NCT02971228|184287175|OTHER||Median Difference (Final Values)|0.03|||>|0.9999|TWO_SIDED|95.0|-4.12|3.13|||Wilcoxon (Mann-Whitney)|||Non-parametric method p-value was from a Wilcoxon signed rank text. The normality of the residuals was assessed using the Shapiro-Wilk test, where the residuals were obtained from an ANOVA model with treatment group as the fixed effect. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint.||3.13|-4.12|>0.9999
92194038|NCT02971228|184287176|OTHER|A paired t-test was used for the parametric method to compare patients receiving both treatments. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint. Thus, the 2 patients who withdrew from the trial after the Lilly Glucagon treatment before receiving ZP4207 were not included in the analysis.|Mean Difference (Final Values)|0.63||||0.1847|TWO_SIDED|95.0|-0.36|1.62|||t-test, 2 sided|||A paired t-test or the Wilcoxon signed rank test for comparison of means with normally or non normally distributed residuals, respectively, was used. The Shapiro-Wilk test was used to determine the normality of the residuals for each comparison. The residuals were obtained from an analysis of variance (ANOVA) model with treatment group as the fixed effect. If the p-value of the test was \<0.001, the non-parametric method was utilized to analyze the endpoint parameter.||1.62|-0.36|0.1847
92194039|NCT02971228|184287176|OTHER||Median Difference (Final Values)|0.02||||0.0781|TWO_SIDED|95.0|-0.01|3.09|||Wilcoxon (Mann-Whitney)|||Non-parametric method p-value was from a Wilcoxon signed rank text. The normality of the residuals was assessed using the Shapiro-Wilk test, where the residuals were obtained from an ANOVA model with treatment group as the fixed effect. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint.||3.09|-0.01|0.0781
92194040|NCT01664923|184287190|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.181|0.32||P-value based on log-rank test stratified by disease stage at study entry as reported on the case report form (CRF).|Log Rank||Hazard ratio is based on a Cox regression model (with treatment as the only covariate) stratified by disease stage at study entry and is relative to bicalutamide with \< 1 favoring enzalutamide.|||0.320|0.181|<0.0001
92194041|NCT01664923|184287191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.137|0.264||P-value based on log-rank test stratified by disease stage at study entry as reported on the CRF.|Log Rank||Hazard ratio is based on a Cox regression model (with treatment as the only covariate) stratified by disease stage at study entry and is relative to bicalutamide with \< 1 favoring enzalutamide.|||0.264|0.137|<0.0001
92194042|NCT01664923|184287192|SUPERIORITY_OR_OTHER||Difference in rates|50.0|||<|0.0001|TWO_SIDED|95.0|41.4|58.5|||Cochran-Mantel-Haenszel|Comparison of the 2 treatment groups using the Cochran-Mantel-Haenszel mean score test stratified by disease stage at study entry.|Enzalutamide response rate minus bicalutamide response rate.|||58.5|41.4|<0.0001
92194043|NCT01664923|184287193|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.324|||<|0.0001|TWO_SIDED|95.0|0.211|0.497|||Log Rank|P-value is based on an unstratified log-rank test.|Hazard ratio is based on an unstratified Cox-regression model (with treatment as the only covariate) and is relative to bicalutamide with \< 1 favoring enzalutamide.|||0.497|0.211|<0.0001
92194044|NCT01664923|184287194|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.4945|TWO_SIDED|95.0|0.695|1.192||This secondary endpoint was not adjusted for multiple comparisons.|Log Rank|P-value is based on a log-rank test stratified by disease stage at study entry.|Hazard ratio is based on a Cox regression model (with treatment as the only covariate) stratified by disease stage at study entry and is relative to bicalutamide with \< 1 favoring enzalutamide.|||1.192|0.695|0.4945
92194045|NCT01664923|184287195|SUPERIORITY_OR_OTHER||Difference in objective response rate|46.05|||<|0.0001|TWO_SIDED|95.0|26.79|65.3||This secondary endpoint was not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Based on unstratified Cochran-Mantel-Haenszel mean score test.||||65.30|26.79|<0.0001
92194046|NCT00726713|184287198|SUPERIORITY_OR_OTHER||||||=|0.013|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Change from Baseline, Week 16||||=0.013
92194047|NCT00726713|184287198|SUPERIORITY_OR_OTHER||||||=|0.033|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Change from Baseline, Week 24||||=0.033
92194048|NCT00726713|184287199|SUPERIORITY_OR_OTHER||||||=|0.027|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Change from Baseline, Week 16||||=0.027
92194049|NCT00726713|184287200|SUPERIORITY_OR_OTHER||||||=|0.0001||||||Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes|Mixed Models Analysis|||Total Folate, Change from BL, Week 16||||=0.0001
92194050|NCT00726713|184287200|SUPERIORITY_OR_OTHER||||||=|0.0001||||||Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes|Mixed Models Analysis|||Total Folate, Change from BL, Week 24||||=0.0001
92194051|NCT00726713|184287200|SUPERIORITY_OR_OTHER||||||=|0.0001|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Total MMA, Change from Baseline Week 16||||=0.0001
92194052|NCT00726713|184287200|SUPERIORITY_OR_OTHER||||||=|0.0008|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Total MMA, Change from BL, Week 24||||=0.0008
92194053|NCT00726713|184287200|SUPERIORITY_OR_OTHER||||||=|0.0001||||||Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes|Mixed Models Analysis|||Total Homocysteine, Change from BL, Week 16||||=0.0001
92194054|NCT00726713|184287200|SUPERIORITY_OR_OTHER||||||=|0.0001|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Total Homocysteine, Change from BL, Week 24||||=0.0001
92194055|NCT00726713|184287201|SUPERIORITY_OR_OTHER||||||=|0.0306||||||Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes|Mixed Models Analysis|||SF-36 MCS, Change from BL, Week 24||||=0.0306
92194056|NCT00726713|184287204|SUPERIORITY_OR_OTHER||||||=|0.054|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||HADS Depression, Change from BL, Week 24||||=0.054
92194057|NCT00129649|184287223|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
92194058|NCT02547441|184287225|SUPERIORITY|||||||0.043|||||||ANCOVA|||||||0.043
92194059|NCT02547441|184287226|SUPERIORITY|||||||0.019|||||||Cochran-Mantel-Haenszel|||||||0.019
92194060|NCT01322009|184287232|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|Analysis run over study period but data entered only for the 6 h time point||||||>0.05
92194061|NCT01657877|184287235|NON_INFERIORITY_OR_EQUIVALENCE|The success criterion for this study was to observe the upper bound of the 2-sided 95% confidence interval for difference in % change in SMHR to be \<= 6 units SMHR i.e. 1500 ppm fluoride as SMFP + 5% CSP is no more than 6 units inferior to the 1500 ppm fluoride as SMFP + 0 % CSP dentifrice.|Adjusted mean difference|-2.23||||0.2601|TWO_SIDED|95.0|-6.11|1.66|||ANOVA|Based on the mixed effects ANOVA considering treatment and study period as factors, and subject as random effect|Difference is 1500 ppm fluoride as SMFP and 0 % CSP minus 1500 ppm fluoride as SMFP and 5 % CSP such that a positive difference favors 1500 ppm fluoride as SMFP and 0 % CSP|The null hypothesis states that the population mean for the 1500 ppm fluoride as SMFP + 0% CSP minus the population mean for the 1500 ppm fluoride as SMFP and 5% CSP dentifrice is more than 6 %.||1.66|-6.11|0.2601
92194062|NCT00846768|184287307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.015|STANDARD_ERROR_OF_MEAN|0.015||0.3011||95.0|-0.014|0.044|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.044|-0.014|0.3011
92194063|NCT00846768|184287307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.015||0.1582||95.0|-0.008|0.05|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.050|-0.008|0.1582
92194064|NCT00846768|184287307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.015||0.0003||95.0|0.025|0.083|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.083|0.025|0.0003
92194065|NCT00846768|184287307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.015||0.7046||95.0|-0.034|0.023|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.023|-0.034|0.7046
92194066|NCT00846768|184287307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.015||0.0248||95.0|0.004|0.063|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.063|0.004|0.0248
92194067|NCT00846768|184287308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.052|STANDARD_ERROR_OF_MEAN|0.015||0.0006||95.0|-0.081|-0.023|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||-0.023|-0.081|0.0006
92194068|NCT00846768|184287308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.047|STANDARD_ERROR_OF_MEAN|0.015||0.0019||95.0|-0.076|-0.017|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||-0.017|-0.076|0.0019
92194069|NCT00846768|184287308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012|STANDARD_ERROR_OF_MEAN|0.015||0.4111||95.0|-0.041|0.017|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.017|-0.041|0.4111
92194070|NCT00846768|184287308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.015||0.709||95.0|-0.035|0.024|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.024|-0.035|0.7090
92194071|NCT00846768|184287308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.015||0.0211||95.0|0.005|0.064|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.064|0.005|0.0211
92194072|NCT00846768|184287309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.014||0.1753||95.0|-0.045|0.008|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.008|-0.045|0.1753
92194073|NCT00846768|184287309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.014||0.3444||95.0|-0.04|0.014|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.014|-0.040|0.3444
92194074|NCT00846768|184287309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.014||0.1161||95.0|-0.005|0.049|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.049|-0.005|0.1161
92194075|NCT00846768|184287309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.014||0.6789||95.0|-0.033|0.021|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.021|-0.033|0.6789
92194076|NCT00846768|184287309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.014||0.0129||95.0|0.007|0.062|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.062|0.007|0.0129
92194077|NCT00846768|184287310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.017||0.4931||95.0|-0.023|0.047|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.047|-0.023|0.4931
92194078|NCT00846768|184287310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.017||0.2597||95.0|-0.015|0.054|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.054|-0.015|0.2597
92194079|NCT00846768|184287310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.018||0.0006||95.0|0.027|0.097|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.097|0.027|0.0006
92194080|NCT00846768|184287310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.017||0.6578||95.0|-0.042|0.027|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.027|-0.042|0.6578
92194081|NCT00846768|184287310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.018||0.0175||95.0|0.008|0.077|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.077|0.008|0.0175
92194082|NCT00846768|184287311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.02||0.0353||95.0|-0.081|-0.003|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||-0.003|-0.081|0.0353
92194083|NCT00846768|184287311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.02||0.2875||95.0|-0.06|0.018|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.018|-0.060|0.2875
92194084|NCT00846768|184287311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.015|STANDARD_ERROR_OF_MEAN|0.02||0.4553||95.0|-0.024|0.054|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.054|-0.024|0.4553
92194085|NCT00846768|184287311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.02||0.2902||95.0|-0.06|0.018|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.018|-0.060|0.2902
92194086|NCT00846768|184287311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036|STANDARD_ERROR_OF_MEAN|0.02||0.0731||95.0|-0.003|0.075|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.075|-0.003|0.0731
92194087|NCT00846768|184287312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.027||0.0917||95.0|-0.008|0.099|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.099|-0.008|0.0917
92194088|NCT00846768|184287312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041|STANDARD_ERROR_OF_MEAN|0.027||0.1273||95.0|-0.012|0.095|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.095|-0.012|0.1273
92194089|NCT00846768|184287312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.027||0.008||95.0|0.019|0.127|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.127|0.019|0.0080
92194090|NCT00846768|184287312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.027||0.8683||95.0|-0.049|0.058|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.058|-0.049|0.8683
92194091|NCT00846768|184287312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032|STANDARD_ERROR_OF_MEAN|0.027||0.2444||95.0|-0.022|0.086|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.086|-0.022|0.2444
92194092|NCT00846768|184287313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.099|STANDARD_ERROR_OF_MEAN|0.032||0.0023||95.0|-0.162|-0.036|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||-0.036|-0.162|0.0023
92194093|NCT00846768|184287313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.103|STANDARD_ERROR_OF_MEAN|0.032||0.0015||95.0|-0.165|-0.04|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||-0.040|-0.165|0.0015
92194094|NCT00846768|184287313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.032||0.4508||95.0|-0.087|0.039|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.039|-0.087|0.4508
92194095|NCT00846768|184287313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.032||0.9087||95.0|-0.059|0.066|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.066|-0.059|0.9087
92194096|NCT00846768|184287313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.032||0.0146||95.0|0.016|0.142|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.142|0.016|0.0146
92194097|NCT00846768|184287314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.027|STANDARD_ERROR_OF_MEAN|0.027||0.3291||95.0|-0.08|0.027|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.027|-0.080|0.3291
92194098|NCT00846768|184287314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.027||0.2638||95.0|-0.084|0.023|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.023|-0.084|0.2638
92194099|NCT00846768|184287314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026|STANDARD_ERROR_OF_MEAN|0.027||0.3386||95.0|-0.028|0.08|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.080|-0.028|0.3386
92194100|NCT00846768|184287314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.027||0.8877||95.0|-0.05|0.057|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.057|-0.050|0.8877
92194101|NCT00846768|184287314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.027||0.0402||95.0|0.003|0.111|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.111|0.003|0.0402
92194102|NCT00846768|184287315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.034||0.0133||95.0|0.018|0.151|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.151|0.018|0.0133
92194103|NCT00846768|184287315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.034||0.045||95.0|0.002|0.135|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.135|0.002|0.0450
92194104|NCT00846768|184287315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.034||0.0078||95.0|0.025|0.159|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.159|0.025|0.0078
92194105|NCT00846768|184287315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.034||0.6268||95.0|-0.05|0.083|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.083|-0.050|0.6268
92194106|NCT00846768|184287315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.034||0.4891||95.0|-0.044|0.091|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.091|-0.044|0.4891
92194107|NCT00846768|184287316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.04||0.6259||95.0|-0.097|0.059|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.059|-0.097|0.6259
92194108|NCT00846768|184287316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.039||0.919||95.0|-0.082|0.074|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.074|-0.082|0.9190
92194109|NCT00846768|184287316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.04||0.0985||95.0|-0.012|0.145|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.145|-0.012|0.0985
92194110|NCT00846768|184287316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.039||0.6991||95.0|-0.093|0.063|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.063|-0.093|0.6991
92194111|NCT00846768|184287316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.04||0.0802||95.0|-0.009|0.149|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.149|-0.009|0.0802
92194112|NCT04353817|184287352|SUPERIORITY||Least Squares (LS) Mean Difference|-2.26|||<|0.0001|TWO_SIDED|95.0|-2.71|-1.81|||Mixed-effects Model for Repeated Measure|||||-1.81|-2.71|<0.0001
92194113|NCT04353817|184287353|SUPERIORITY||LS Mean Difference|-51.2|||<|0.0001|TWO_SIDED|95.0|-55.3|-47.1||This is the nominal p-value without multiplicity controlled.|Mixed-effects Model for Repeated Measure|||||-47.1|-55.3|<0.0001
92194114|NCT00878553|184287366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.606|STANDARD_ERROR_OF_MEAN|2.42||0.0118|TWO_SIDED|95.0|-15.284|-1.927||Change from baseline in mean WASO3-7 compared values for the 20-mg dose vs. placebo. If that comparison demonstrated superiority of the 20-mg dose, then results for the 15-mg dose vs. placebo were compared; if significant, then 10-mg vs. placebo|Mixed Models Analysis|This hierarchical, 2-sided testing procedure maintained the overall level of significance at approximately 0.05|Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment. A negative mean change from baseline indicates an improvement.|Literature-based estimates of WASO (Wake After Sleep Onset) SD (Standard Deviation) range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 15-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes||-1.927|-15.284|0.0118
92194115|NCT00878553|184287366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.98|STANDARD_ERROR_OF_MEAN|2.421||0.0037|TWO_SIDED|95.0|-16.685|-3.275||Change from baseline in mean WASO3-7 compared values for the 20-mg dose vs. placebo. If that comparison demonstrated superiority of the 20-mg dose, then results for the 15-mg dose vs. placebo were compared; if significant, then 10-mg vs. placebo|Mixed Models Analysis|This hierarchical, 2-sided testing procedure maintained the overall level of significance at approximately 0.05|Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment. A negative mean change from baseline indicates an improvement|Literature-based estimates of WASO SD range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 15-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes||-3.275|-16.685|0.0037
92194116|NCT00878553|184287366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.153|STANDARD_ERROR_OF_MEAN|2.422||0.0077|TWO_SIDED|95.0|-15.857|-2.448||Change from baseline in mean WASO3-7 compared values for the 20-mg dose vs. placebo. If that comparison demonstrated superiority of the 20-mg dose, then results for the 15-mg dose vs. placebo were compared; if significant, then 10-mg vs. placebo.|Mixed Models Analysis|This hierarchical, 2-sided testing procedure maintained the overall level of significance at approximately 0.05.|Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment. A negative mean change from baseline indicates an improvement|Literature-based estimates of WASO SD range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 20-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes.||-2.448|-15.857|0.0077
92194117|NCT00878553|184287367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.604|STANDARD_ERROR_OF_MEAN|2.755||0.1476|TWO_SIDED|95.0|-13.208|2.0||Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|Literature-based estimates of WASO (Wake After Sleep Onset) SD (Standard Deviation) range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 15-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes.||2.000|-13.208|0.1476
92317384|NCT03446027|184539318|OTHER|"Right censored, Tobit Regression model to assess the effects of baseline characteristics for ICD at 3 months for the ITT Population. This resulted in the unit of measure being units and not meters.~Included participants with both baseline and 3 month treadmill data. Calculation between arms - estimates the difference in the ICD at 3 months between the two treatment groups.~Control group includes both BMT and BMT + SET and the treatment group includes NMES + BMT and NMES + BMT + SET"|square root transformation|0.972||||0.23|TWO_SIDED|95.0|-0.6|2.546|||Right censored, Tobit Regression|||||2.546|-0.600|0.23
92317385|NCT03446027|184539322|OTHER|"Linear Regression Model for Duplex ultrasonography (Volume flow - measured in one leg) at 3 months for the ITT population.~Difference (calculation) between the two groups and not per arm (control vs treatment). Unit of measure is Units due to the use of a linear regression model rather than cc/min."|Linear regression|0.483||||0.516|TWO_SIDED|95.0|-0.984|1.95|||Regression, Linear|||||1.950|-0.984|0.516
92317386|NCT00708552|184539372|SUPERIORITY||Mean Difference (Net)|1.1||||0.159|TWO_SIDED|95.0|-0.4|2.7|||Mixed model repeated measures|||ADAS-Cog Total Score, Placebo Vs SB-742457-15mg at Week 24||2.7|-0.4|0.159
92317387|NCT00708552|184539372|SUPERIORITY||Mean Difference (Net)|0.7||||0.41|TWO_SIDED|95.0|-0.9|2.3|||Mixed model repeated measures|||ADAS-Cog Total Score, Placebo Vs SB-742457-35mg at Week 24||2.3|-0.9|0.410
92317388|NCT00708552|184539372|SUPERIORITY||Mean Difference (Net)|-0.2||||0.821|TWO_SIDED|95.0|-1.6|1.2|||Mixed model repeated measures|||ADAS-Cog Total Score, Placebo Vs Donepezil at Week 24||1.2|-1.6|0.821
92317389|NCT00708552|184539373|SUPERIORITY||Mean Difference (Net)|0.2||||0.254|TWO_SIDED|95.0|-0.1|0.5|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs SB-742457-15mg at Week 24||0.5|-0.1|0.254
92317390|NCT00708552|184539373|SUPERIORITY||Mean Difference (Net)|-0.1||||0.394|TWO_SIDED|95.0|-0.4|0.2|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs SB-742457-35mg at Week 24||0.2|-0.4|0.394
92194118|NCT00878553|184287367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.912|STANDARD_ERROR_OF_MEAN|2.757||0.0757|TWO_SIDED|95.0|-14.546|0.722||Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|Literature-based estimates of WASO (Wake After Sleep Onset) SD (Standard Deviation) range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 15-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes.||0.722|-14.546|0.0757
92194119|NCT00878553|184287367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.521|STANDARD_ERROR_OF_MEAN|2.757||0.1553|TWO_SIDED|95.0|-13.154|2.113||Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|Literature-based estimates of WASO (Wake After Sleep Onset) SD (Standard Deviation) range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 15-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes.||2.113|-13.154|0.1553
92194120|NCT00878553|184287368|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.831|STANDARD_ERROR_OF_MEAN|2.4||0.0092|TWO_SIDED|95.0|2.208|15.454||All aspects of the study's primary endpoint were statistically significant, and no adjustment for multiple testing was made for secondary efficacy endpoints.|Mixed Models Analysis||A positive mean difference from baseline indicates an improvement.|The adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence, and treatment.||15.454|2.208|0.0092
92317391|NCT00708552|184539373|SUPERIORITY||Mean Difference (Net)|-0.3||||0.049|TWO_SIDED|95.0|-0.6|0.0|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs Donepezil at Week 24||-0.0|-0.6|0.049
92317392|NCT00708552|184539374|SUPERIORITY||Mean Difference (Net)|-1.6||||0.423|TWO_SIDED|95.0|-5.6|2.3|||Mixed model repeated measures|||RBANS Total Score, Placebo Vs SB-742457-15mg at Week 24||2.3|-5.6|0.423
92317393|NCT00708552|184539374|SUPERIORITY||Mean Difference (Net)|-2.1||||0.305|TWO_SIDED|95.0|-6.1|1.9|||Mixed model repeated measures|||RBANS Total Score, Placebo Vs SB-742457-35mg at Week 24||1.9|-6.1|0.305
92194121|NCT00878553|184287368|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.425|STANDARD_ERROR_OF_MEAN|2.402||0.0023|TWO_SIDED|95.0|3.775|17.075||All aspects of the study's primary endpoint were statistically significant, and no adjustment for multiple testing was made for secondary efficacy endpoints.|Mixed Models Analysis||A positive mean difference from baseline indicates an improvement.|The adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence, and treatment.||17.075|3.775|0.0023
92317394|NCT00708552|184539374|SUPERIORITY||Mean Difference (Net)|2.0||||0.282|TWO_SIDED|95.0|-1.7|5.7|||Mixed model repeated measures|||RBANS Total Score, Placebo Vs Donepezil at Week 24||5.7|-1.7|0.282
92317395|NCT00708552|184539375|SUPERIORITY||Mean Difference (Net)|1.4||||0.096|TWO_SIDED|95.0|-0.3|3.1|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs SB-742457-15mg at Week 24||3.1|-0.3|0.096
92317396|NCT00708552|184539375|SUPERIORITY||Mean Difference (Net)|1.0||||0.281|TWO_SIDED|95.0|-0.8|2.8|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs SB-742457-35mg at Week 24||2.8|-0.8|0.281
92317397|NCT00708552|184539375|SUPERIORITY||Mean Difference (Net)|0.4||||0.63|TWO_SIDED|95.0|-1.1|1.9|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs Donepezil at Week 24||1.9|-1.1|0.630
92317398|NCT00708552|184539375|SUPERIORITY||Mean Difference (Net)|-1.1||||0.655|TWO_SIDED|95.0|-5.7|3.6|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs SB-742457-15mg at Week 24||3.6|-5.7|0.655
92317399|NCT00708552|184539375|SUPERIORITY||Mean Difference (Net)|-1.5||||0.545|TWO_SIDED|95.0|-6.2|3.3|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs SB-742457-35mg at Week 24||3.3|-6.2|0.545
92194122|NCT00878553|184287368|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.147|STANDARD_ERROR_OF_MEAN|2.402||0.003|TWO_SIDED|95.0|3.498|16.796||All aspects of the study's primary endpoint were statistically significant, and no adjustment for multiple testing was made for secondary efficacy endpoints.|Mixed Models Analysis||A positive mean difference from baseline indicates an improvement.|The adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence, and treatment.||16.796|3.498|0.0030
92194123|NCT00878553|184287369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.562|STANDARD_ERROR_OF_MEAN|0.244||0.1005|TWO_SIDED|95.0|-1.235|0.11||Adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period,sequence, and treatment.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|This endpoint summarizes the number of times during Hours 3 7, after onset of persistent sleep, that there was a wake entry of at least 2 epochs duration. To be counted, each entry must have been separated by a sleep stage of 2, 3 4, or rapid eye movement.||0.110|-1.235|0.1005
92194124|NCT00878553|184287369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.037|STANDARD_ERROR_OF_MEAN|0.244||0.0028|TWO_SIDED|95.0|-1.712|-0.362||Adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period,sequence, and treatment.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary endpoints.|A negative mean change from baseline indicates an improvement.|This endpoint summarizes the number of times during Hours 3 7, after onset of persistent sleep, that there was a wake entry of at least 2 epochs duration. To be counted, each entry must have been separated by a sleep stage of 2, 3 4, or rapid eye movement.||-0.362|-1.712|0.0028
92194125|NCT00878553|184287369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.793|STANDARD_ERROR_OF_MEAN|0.244||0.0216|TWO_SIDED|95.0|-1.467|-0.118||Adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period,sequence, and treatment.|Mixed Models Analysis|No adjustments for multiple testing were made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|This endpoint summarizes the number of times during Hours 3 7, after onset of persistent sleep, that there was a wake entry of at least 2 epochs duration. To be counted, each entry must have been separated by a sleep stage of 2, 3 4, or rapid eye movement.||-0.118|-1.467|0.0216
92194126|NCT00878553|184287370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.452|STANDARD_ERROR_OF_MEAN|0.219||0.219|TWO_SIDED|95.0|-21.98|5.077||Mean (SEM) = adjusted mean change from baseline in each group (and standard error of the mean) and P value = P value for the comparison of the SEM of the active group with that of the placebo group.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|Study was powered on the primary endpoint. Data for sWASO were sourced from Question 5 of the Morning Sleep Questionnaire. Its analysis follows a general linear model change from baseline as response variable including effects for patient, period, sequence, and treatment.||5.077|-21.980|0.2190
92194127|NCT00878553|184287370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.365|STANDARD_ERROR_OF_MEAN|4.937||0.8441|TWO_SIDED|95.0|-12.327|15.056||Mean (SEM) = adjusted mean change from baseline in each group (and standard error of the mean) and P value = P value for the comparison of the SEM of the active group with that of the placebo group.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A positive mean change from baseline indicates a worsening.|Study was powered on the primary endpoint. Data for sWASO were sourced from Question 5 of the Morning Sleep Questionnaire. Its analysis follows a general linear model change from baseline as response variable including effects for patient, period, sequence, and treatment.||15.056|-12.327|0.8441
92194128|NCT00878553|184287370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.84|STANDARD_ERROR_OF_MEAN|4.936||0.0894|TWO_SIDED|95.0|-25.522|1.842||Mean (SEM) = adjusted mean change from baseline in each group (and standard error of the mean) and P value = P value for the comparison of the SEM of the active group with that of the placebo group.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|Study was powered on the primary endpoint. Data for sWASO were sourced from Question 5 of the Morning Sleep Questionnaire. Its analysis follows a general linear model change from baseline as response variable including effects for patient, period, sequence, and treatment.||1.842|-25.522|0.0894
92194129|NCT00878553|184287371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|1.469||0.6433|TWO_SIDED|95.0|-1.823|2.943||Analysis included effects for patient, period, sequence and treatment.|Mixed Models Analysis||A positive mean difference from baseline indicates improvement.|Adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable.||2.943|-1.823|0.6433
92194130|NCT00878553|184287371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.912|STANDARD_ERROR_OF_MEAN|1.523||0.1167|TWO_SIDED|95.0|-4.304|0.481||Analysis included effects for patient, period, sequence and treatment|Mixed Models Analysis||A negative mean difference from baseline indicates a worsening.|Adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable.||0.481|-4.304|0.1167
92194131|NCT00878553|184287371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.434|STANDARD_ERROR_OF_MEAN|1.626||0.2385|TWO_SIDED|95.0|-0.958|3.826||Analysis included effects for patient, period, sequence and treatment.|Mixed Models Analysis||A positive mean difference from baseline indicates improvement.|Adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable.||3.826|-0.958|0.2385
92194132|NCT00878553|184287372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|0.256||0.0914|TWO_SIDED|95.0|-0.073|0.972|||Mixed Models Analysis||A positive mean change from baseline indicates an improvement.|The adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence and treatment.||0.972|-0.073|0.0914
92194133|NCT00878553|184287372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.165|STANDARD_ERROR_OF_MEAN|0.259||0.536|TWO_SIDED|95.0|-0.36|0.69|||Mixed Models Analysis||A positive mean change from baseline indicates an improvement.|The adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence and treatment.||0.690|-0.360|0.5360
92194134|NCT00878553|184287372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.262|STANDARD_ERROR_OF_MEAN|0.237||0.3254|TWO_SIDED|95.0|-0.787|0.263|||Mixed Models Analysis||A negative mean change from baseline indicates a worsening.|The adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence and treatment.||0.263|-0.787|0.3254
92194135|NCT00878553|184287373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.71|STANDARD_ERROR_OF_MEAN|1.818||0.719|TWO_SIDED|95.0|-3.175|4.595||Adjusted mean differences were analyzed in a general linear model that used change from baseline as the response variable.|Mixed Models Analysis|The Model included effects for patient, period, sequence and treatment.|A positive mean change from baseline indicates improvement.|||4.595|-3.175|0.7190
92194136|NCT00878553|184287373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.821|STANDARD_ERROR_OF_MEAN|2.422||0.6784|TWO_SIDED|95.0|-3.08|4.722||Adjusted mean differences were analyzed in a general linear model that used change from baseline as the response variable.|Mixed Models Analysis|The Model included effects for patient, period, sequence and treatment.|A positive mean change from baseline indicates an improvement.|||4.722|-3.080|0.6784
92194137|NCT00878553|184287373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.314|STANDARD_ERROR_OF_MEAN|2.058||0.2433|TWO_SIDED|95.0|-1.586|6.214||Adjusted mean differences were analyzed in a general linear model that used change from baseline as the response variable.|Mixed Models Analysis|The Model included effects for patient, period, sequence and treatment.|A positive mean change from baseline indicates an improvement.|||6.214|-1.586|0.2433
92194138|NCT00878553|184287374|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.39||||0.0009|TWO_SIDED||||||ANOVA|F-test 2 degrees of freedom||Cmax(ng/mL) \[Maximum plasma zaleplon concentration\]||||0.0009
92194139|NCT00878553|184287375|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.9142||95.0|||||ANOVA|F-test two degrees of freedom||Cmax normalized per dose||||0.9142
92194140|NCT00878553|184287376|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.24||||0.1193||95.0|||||ANOVA|F-test 2 degrees of freedom||Time (hour)post-dose of maximum plasma zaleplon concentration||||0.1193
92194141|NCT00878553|184287377|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.85||||0.0003||95.0|||||ANOVA|F-test 2 degrees of freedom||AUC ng\*h/mL)||||0.0003
92194142|NCT00878553|184287378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.28||||0.2281||95.0|||||ANOVA|F-test 2 degrees of freedom||AUC/Dose (ng\*h/mL/mg)||||0.2281
92194143|NCT00878553|184287379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74||||0.4835||95.0|||||ANOVA|2 degrees of freedom F-test||Half-Life (t1/2 in hours) of plasma zaleplon from each of 3 doses of SKP-1041||||0.4835
92194144|NCT02143063|184287380|SUPERIORITY||comparison of rank sum|3752.0||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.01
92194145|NCT02143063|184287380|SUPERIORITY||comparison of rank sum|5287.5||||0.78|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.78
92317400|NCT00708552|184539375|SUPERIORITY||Mean Difference (Net)|2.4||||0.27|TWO_SIDED|95.0|-1.9|6.8|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs Donepezil at Week 24||6.8|-1.9|0.270
92194146|NCT02143063|184287381|SUPERIORITY||comparison of rank sum|3675.5||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Primary Aim 1: Compare the standard care and standard care plus traditional CM conditions||||.02
92194147|NCT02143063|184287381|SUPERIORITY||comparison of rank sum|5189.5||||0.61|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.61
92194148|NCT00909532|184287423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.6|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|8.6|12.6||The primary and key secondary endpoints were analyzed using Hochberg's step-up procedure: test 1, primary (α=0.05); test 2, CFQ-R resp domain (Wk24) and sweat chloride (Wk24)(α=0.05).|Mixed Models Analysis|Denominator degrees of freedom were estimated using the Kenward-Roger approximation.||The primary analysis for the primary efficacy variable was based on a Mixed-Effects Model for Repeated Measures (MMRM). The model included absolute change from baseline in percent predicted forced expiratory volume in 1 second (FEV1) as the dependent variable, treatment (ivacaftor versus placebo) and visit (Day 15, Week 8, Week 16, and Week 24) as fixed effects, and subject as a random effect, with adjustment for the continuous baseline values of age and percent predicted FEV1.||12.6|8.6|<0.0001
92194149|NCT00909532|184287424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.5|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|8.5|12.5||There was no adjustment for multiple comparisons.|Mixed Models Analysis|Denominator degrees of freedom were estimated using the Kenward-Roger approximation. No imputation of missing data was done.||Analysis of this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were obtained from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for the continuous baseline values of age and percent predicted forced expiratory volume in 1 second (FEV1),using unstructured covariance matrix.||12.5|8.5|<0.0001
92194150|NCT00909532|184287425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|4.7|11.4||Analyzed in sequence: test 1, primary (α=0.05); test 2, using Hochberg's step-up procedure on CFQ-R resp domain(Wk 24) and sweat chloride (Wk 24) (α=0.05).|Mixed Models Analysis|||Through Week 24: Analysis for the respiratory domain score endpoint was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for age, domain score, and percent predicted FEV1, using unstructured covariance matrix.||11.4|4.7|<0.0001
92194151|NCT00909532|184287425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|5.3|11.9||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Through Week 48: Analysis for the CFQ-R respiratory domain score endpoint was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from MMRM with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for age,sweat chloride, and percent predicted FEV1,using unstructured covariance matrix.||11.9|5.3|<0.0001
92317401|NCT00708552|184539376|SUPERIORITY||Mean Difference (Net)|1.5||||0.138|TWO_SIDED|95.0|-0.5|3.6|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs SB-742457-15mg at Week 24||3.6|-0.5|0.138
92317402|NCT00708552|184539376|SUPERIORITY||Mean Difference (Net)|1.3||||0.216|TWO_SIDED|95.0|-0.7|3.2|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs SB-742457-35mg at Week 24||3.2|-0.7|0.216
92194152|NCT00909532|184287426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.9|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|-51.3|-44.5||Analyzed in sequence: test 1, primary (α=0.05); test 2, using Hochberg's step-up procedure on CFQ-R resp domain(Wk 24) and sweat chloride (Wk 24) (α=0.05); test 3 using Hochberg's on time to pulmonary exacerbation (Wk 48) and weight (Wk 48).|Mixed Models Analysis|||Through Week 24: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for age, sweat chloride, and percent predicted FEV1, using unstructured covariance matrix.||-44.5|-51.3|<0.0001
92194153|NCT00909532|184287426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|-51.5|-44.7||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Through Week 48: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for age, sweat chloride, and percent predicted FEV1, using unstructured covariance matrix.||-44.7|-51.5|<0.0001
92194154|NCT00909532|184287427|SUPERIORITY_OR_OTHER||Cox Proportional Hazard at Week 24|0.4||||0.0016|TWO_SIDED|95.0|0.23|0.71||There was no adjustment for multiple comparisons.|Regression, Cox|||Time to first pulmonary exacerbation through Week 24 was analyzed using Cox regression. The model included a covariate for treatment and adjustments for the age group and percent predicted forced expiratory volume in 1 second (FEV1) severity at baseline.||0.71|0.23|0.0016
92194155|NCT00909532|184287427|SUPERIORITY_OR_OTHER||Cox Proportional Hazard at 48 Weeks|0.46||||0.0012|TWO_SIDED|95.0|0.28|0.73||Analyzed in sequence: test 1, primary (α=0.05); test 2, using Hochberg's step-up procedure on CFQ-R resp domain(Wk 24) and sweat chloride (Wk 24) (α=0.05); test 3 using Hochberg's on time to pulmonary exacerbation (Wk 48) and weight (Wk 48).|Regression, Cox|||Time to first pulmonary exacerbation through Week 48 was analyzed using Cox regression. The model included a covariate for treatment and adjustments for the age group and percent predicted forced expiratory volume in 1 second (FEV1) severity at baseline.||0.73|0.28|0.0012
92194156|NCT00909532|184287428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|1.8|3.7|||Mixed Models Analysis|There was no adjustment for multiple comparisons.||At Week 24: Analysis for this variable was based on a linear mixed effects (LME) model with treatment as a fixed effect, and intercept, visit (days on study) and treatment by visit interaction as random effects, with adjustment for age group and baseline percent predicted forced expiratory volume in 1 second (FEV1) severity.||3.7|1.8|<0.0001
92194157|NCT00909532|184287428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|0.7||0.0001|TWO_SIDED|95.0|1.3|4.1||Analyzed in sequence: test 1, primary (α=0.05); test 2, using Hochberg's step-up procedure on CFQ-R resp domain(Wk 24) and sweat chloride (Wk 24) (α=0.05).|Mixed Models Analysis|||At Week 48: Analysis for this variable was based on a linear mixed effects (LME) model with treatment as a fixed effect and visit (days on study) and treatment by visit interaction as random effects, with adjustment for age group and baseline percent predicted forced expiratory volume in 1 second (FEV1) severity.||4.1|1.3|0.0001
92194158|NCT00859976|184287445|SUPERIORITY|A superiority test was used to calculate the number of patients that are needed in order to show a difference between the bone mineral density surrounding BoneMaster coated cups compared to plasma HA sprayed cups.||||||0.457|||||||Wilcoxon (Mann-Whitney)|Change in bone mineral density, normalised to baseline levels.||||||0.4570
92194159|NCT02864342|184287460|OTHER||||||<|0.001|||||||Satterthwaite t-test|||The effect of medication reminders on Symbicort adherence was evaluated using a t-test. The equality of variances was also tested and as the variances were not equal, the Satterthwaite-t test was reported.||||<0.001
92194160|NCT00118703|184287468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094||||0.604|TWO_SIDED|95.0|-0.26|0.45|||ANCOVA|The analysis method was adjusted for Baseline rTNSS, country, age, and gender, in addition to treatment effect.||||0.45|-0.26|0.604
92194161|NCT00118703|184287469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061||||0.729|TWO_SIDED|95.0|-0.29|0.41|||ANCOVA|The analysis method was adjusted for Baseline iTNSS, country, age, and gender, in addition to treatment effect.||||0.41|-0.29|0.729
92194162|NCT00118703|184287470|SUPERIORITY_OR_OTHER|||||||0.064|||||||Regression, Logistic|Overall evaluation of response to therapy was illustrated and analyzed using logistic regression adjusting for age, gender, investigator, and treatmen||||||0.064
92317403|NCT00708552|184539376|SUPERIORITY||Mean Difference (Net)|-0.1||||0.921|TWO_SIDED|95.0|-1.9|1.7|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs Donepezil at Week 24||1.7|-1.9|0.921
92317404|NCT00708552|184539376|SUPERIORITY||Mean Difference (Net)|-2.1||||0.41|TWO_SIDED|95.0|-7.0|2.9|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs SB-742457-15mg at Week 24||2.9|-7.0|0.410
92194163|NCT00461123|184287471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.93||||0.5248||95.0|-4.18|8.05|||ANCOVA|Analysis of covariance (ANCOVA), baseline as covariate, treatment as fixed factor|Difference of least squares (LS) means (Placebo minus Vardenafil)|null hypothesis: mean of Vardenafil group equals mean of Placebo group at day +90||8.05|-4.18|0.5248
92194164|NCT00461123|184287472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.87||95.0|-3.58|3.04|||ANCOVA|Analysis of covariance (ANCOVA), baseline as covariate, treatment as fixed factor|Difference of LS means (Placebo minus Vardenafil)|null hypothesis: mean of Vardenafil group equals mean of Placebo group at day +90||3.04|-3.58|0.8700
92194165|NCT00461123|184287473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.57||||0.4162||95.0|-8.21|19.35|||ANCOVA|Analysis of covariance (ANCOVA), baseline as covariate, treatment as fixed factor|Difference of LS means (Placebo minus Vardenafil)|null hypothesis: mean of Vardenafil group equals mean of Placebo group at day +90||19.35|-8.21|0.4162
92194166|NCT00461123|184287474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5||||0.0588||95.0|-13.25|0.26|||ANCOVA|Analysis of covariance (ANCOVA), baseline as covariate, treatment as fixed factor|Difference of LS means (Placebo minus Vardenafil)|null hypothesis: mean of Vardenafil group equals mean of Placebo group at day +90||0.26|-13.25|0.0588
92317405|NCT00708552|184539376|SUPERIORITY||Mean Difference (Net)|-1.1||||0.667|TWO_SIDED|95.0|-5.9|3.8|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs SB-742457-35mg at Week 24||3.8|-5.9|0.667
92194167|NCT00461123|184287475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.61||||0.7878||95.0|-22.03|16.82|||ANCOVA|Analysis of variance (ANOVA), treatment as fixed factor|Difference of LS means (Placebo minus Vardenafil)|null hypothesis: mean of Vardenafil group equals mean of Placebo group||16.82|-22.03|0.7878
92194168|NCT00984698|184287490|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||Analysis must be qualified by small sample size, worse baseline symptom severity in CBSRT arm, and greater levels of attrition in PCGT arm||||<.05
92194169|NCT00984698|184287491|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||Analysis must be qualified by small sample size, worse baseline symptom severity in CBSRT arm, and greater levels of attrition in PCGT arm||||<.05
92194170|NCT00746356|184287493|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was calculated for an 80% power to reject the null hypothesis at 1.67% significance level.|Mean Difference (Final Values)|0.0066|STANDARD_DEVIATION|0.3103|<|0.0001|ONE_SIDED|95.0|-0.25|||P-value was adjusted for multiple efficacy endpoints. If all three primary effectiveness endpoints were met a value of 5% was used, if two were met a value of 2.5% was used, and if one was met a value of 1.67% was used.|t-test, 1 sided|If the data is not normally distributed, then the Wilcoxon signed rank test will be used to perform the two one-sided testing.||The null hypothesis was rejected at significance level 1.67% if the mean difference between the automatic test and the manual test was \<0.25 volts.|||-0.25|<0.0001
92194171|NCT00746356|184287494|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was calculated for an 80% power to reject the null hypothesis at 1.67% significance level.|Mean Difference (Final Values)|-0.0625|STANDARD_DEVIATION|0.0948||0.0001|ONE_SIDED|95.0|-0.25|||P-value was adjusted for multiple efficacy endpoints. If all three primary effectiveness endpoints were met a value of 5% was used, if two were met a value of 2.5% was used and if one was met a value of 1.67% was used.|t-test, 1 sided|If the data is not normally distributed, then the Wilcoxon signed rank test will be used to perform the two one-sided testing.||The null hypothesis was rejected at significance level 1.67% if the mean difference between the automatic test and the manual test was \<0.25 volts.|||-0.25|0.0001
92194172|NCT00746356|184287495|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was calculated for an 80% power to reject the null hypothesis at 1.67% significance level.|Mean Difference (Final Values)|-0.0556|STANDARD_DEVIATION|0.0824||0.0001|ONE_SIDED|95.0|-0.25|||P-value was adjusted for multiple efficacy endpoints. If all three primary effectiveness endpoints were met a value of 5% was used, if two were met, a value of 2.5% were used and if one was met a value of 1.67% was used.|t-test, 1 sided|If the data is not normally distributed, then the Wilcoxon signed rank test will be used to perform the two one-sided testing.||The null hypothesis was rejected at significance level 1.67% if the mean difference between the automatic test and the manual test was \<0.25 volts.|||-0.25|0.0001
92194173|NCT00746356|184287496|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was calculated for an 80% power to reject the null hypothesis at 1.67% significance level.|Mean Difference (Final Values)|0.0028|STANDARD_DEVIATION|0.2852||0.0001|ONE_SIDED|95.0|-0.25|||P-value was adjusted for multiple efficacy endpoints. If three primary effectiveness endpoints were met a value of 5% was used, if two were met a value of 2.5% was used and if one was met a value of 1.67% was used.|t-test, 1 sided|If the data is not normally distributed, then the Wilcoxon signed rank test will be used to perform the two one-sided testing.||The null hypothesis was rejected at significance level 1.67% if the mean difference between the automatic test and the manual test was \<0.25 volts.|||-0.25|0.0001
92194174|NCT00477464|184287527|SUPERIORITY_OR_OTHER||percentage of participants|59.0|||||TWO_SIDED|95.0|44.2|72.4|||||The estimated value represents the percentage of participants who achieved a best overall response of complete response, partial response, or stable disease.|||72.4|44.2|
92194175|NCT03568812|184287547|SUPERIORITY||Mean Difference (Net)|111.8||||0.02|TWO_SIDED|95.0|40.9|182.7||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||Treatment difference = Probiotics - Placebo|The statistical analysis of unadjusted CD4 level||182.7|40.9|0.02
92194176|NCT03568812|184287547|SUPERIORITY||Mean Difference (Net)|73.4||||0.03|TWO_SIDED|95.0|5.9|140.8||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||Treatment difference = Probiotics - Placebo|The statistical analysis of adjusted CD4 level||140.8|5.9|0.03
92194177|NCT03568812|184287548|SUPERIORITY||Mean Difference (Net)|0.3||||0.55|TWO_SIDED|95.0|-0.5|1.0||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||There is no difference between probiotics - placebo|The statistical analysis of unadjusted Th17 change after intervention||1.0|-0.5|0.55
92194178|NCT03568812|184287548|SUPERIORITY||Mean Difference (Net)|0.1||||0.79|TWO_SIDED|95.0|-0.7|0.9||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||There is no difference between probiotics - placebo|The statistical analysis of adjusted Th17 change after intervention||0.9|-0.7|0.79
92194179|NCT03568812|184287550|SUPERIORITY||Mean Difference (Net)|-12.7||||0.03|TWO_SIDED|95.0|-23.9|-1.5||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||Treatment difference = Probiotics - Placebo|The statistical analysis of unadjusted Fecal Calprotectin Level change after intervention||-1.5|-23.9|0.03
92194180|NCT03568812|184287550|SUPERIORITY||Mean Difference (Net)|-15.6||||0.01|TWO_SIDED|95.0|-27.6|-3.6||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||Treatment difference = Probiotics - Placebo|The statistical analysis of adjusted Fecal Calprotectin Level change after intervention||-3.6|-27.6|0.01
92194181|NCT03568812|184287552|SUPERIORITY|||||||0.551||||||The threshold for statistical significance was p = 0.05|Chi-squared|||The statistical analysis of food frequency change after intervention (12 weeks)||||0.551
92268580|NCT04636437|184439029|SUPERIORITY||Mean Difference (Net)|-1.48||||0.26|TWO_SIDED|97.5|-4.47|1.51||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry waist circumference, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in waist circumference from entry to week 24.||1.51|-4.47|0.26
92317406|NCT00708552|184539376|SUPERIORITY||Mean Difference (Net)|2.7||||0.246|TWO_SIDED|95.0|-1.9|7.2|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs Donepezil at Week 24||7.2|-1.9|0.246
92194182|NCT00634842|184287560|NON_INFERIORITY_OR_EQUIVALENCE|The primary hypothesis was that there would be no difference in efficacy as measured by the proportion of subjects reaching HbA1c level \< 7% between the two FPG titration arms (70-90 mg/dL and 80-110 mg/dL, respectively) with a non-inferiority margin of 20%. If non-inferiority of the 70-90mg/dL arm was established, superiority was to be tested using a Logistic regression model with baseline HbA1c as a covariate. Superiority was to be concluded if the odds ratio was significantly greater than 1.|Odds Ratio (OR)|1.86||||0.0411||95.0|1.03|3.37|||Test for Difference in Proportions|||To show non-inferiority for the primary endpoint, 100 subjects per group provides 80% power to show that the 95% CI for the difference of proportions between treatments is within the 20% margin under the assumption of equality of proportions. It is also sufficient to show superiority under the assumption that the first proportion is greater than the second by at least 20%. With a predicted withdrawal rate of 15%, 236 subjects were needed based on a treatment ratio of 1:1 for the two treatments.||3.37|1.03|0.0411
92194183|NCT00634842|184287561|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis was that there would be no difference in efficacy as measured by the proportion of subjects reaching HbA1c level \<= 6.5% between the two FPG titration arms (70-90 mg/dL and 80-110 mg/dL, respectively) with a non-inferiority margin of 20%. If non-inferiority of the 70-90mg/dL arm was established, superiority was to be tested using a Logistic regression model with baseline HbA1c as a covariate. Superiority was to be concluded if the odds ratio was significantly greater than 1.|Odds Ratio (OR)|2.34||||0.0064||95.0|1.27|4.3|||Regression, Logistic|||||4.30|1.27|0.0064
92194184|NCT00634842|184287562|SUPERIORITY_OR_OTHER||LSMean|-0.271||||0.0019||95.0|-0.441|-0.101|||ANCOVA|The analyses for HbA1c were adjusted for baseline HbA1c values.||||-0.101|-0.441|0.0019
92194185|NCT00832000|184287586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.68|STANDARD_DEVIATION|1.24|<|0.001|TWO_SIDED|95.0|-2.66|-0.706|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model (n=57). When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.706|-2.66|<0.001
92194186|NCT00832000|184287586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.68|STANDARD_DEVIATION|1.24||0.04||95.0|-3.85|-0.139|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model (n=57). When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.139|-3.85|0.04
92194187|NCT00832000|184287587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63|STANDARD_DEVIATION|1.19|<|0.001|TWO_SIDED|95.0|-2.0|-1.26|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||-1.26|-2.00|<0.001
92194188|NCT00832000|184287588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|STANDARD_DEVIATION|1.27|<|0.001|TWO_SIDED|95.0|-1.67|-0.861|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.861|-1.67|<0.001
92194189|NCT00832000|184287589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.918|STANDARD_DEVIATION|1.29|<|0.001|TWO_SIDED|95.0|-1.3|-0.532|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.532|-1.30|<0.001
92194190|NCT00832000|184287590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.109|STANDARD_DEVIATION|0.563|<|0.001|TWO_SIDED|95.0|-0.177|-0.056|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.056|-0.177|<0.001
92194191|NCT00832000|184287591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.54|STANDARD_DEVIATION|13.1||0.09|TWO_SIDED|95.0|-0.68|9.75|||wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||9.75|-0.680|0.09
92194192|NCT00832000|184287592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.568|STANDARD_DEVIATION|0.6|<|0.001|TWO_SIDED|95.0|-0.812|-0.325|||Wilcoxon (Mann-Whitney)||Residual standard deviation.|P value indicates significance level of the Wilcoxon test associated with mexiletine effect from the linear mixed effects model. The Wilcoxon test was substituted because the outcome is not continuous and therefore normality of the residuals is not satisfied. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.325|-0.812|<0.001
92194193|NCT00832000|184287593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_DEVIATION|1.083|<|0.001|TWO_SIDED|95.0|-0.633|-0.142|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.142|-0.633|<0.001
92194194|NCT00832000|184287594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.313|STANDARD_DEVIATION|0.889|<|0.001|TWO_SIDED|95.0|-0.602|-0.149|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.149|-0.602|<0.001
92194195|NCT00832000|184287595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.464|STANDARD_DEVIATION|0.516|<|0.001|TWO_SIDED|95.0|-0.675|-0.254|||Wilcoxon (Mann-Whitney)||Residual standard deviation.|P value indicates significance level of the Wilcoxon test associated with mexiletine effect from the linear mixed effects model. The Wilcoxon test was substituted because the outcome is not continuous and therefore normality of the residuals is not satisfied. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.254|-0.675|<0.001
92194196|NCT00832000|184287596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|STANDARD_DEVIATION|12.6||0.5|TWO_SIDED|95.0|-3.34|6.73|||wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||6.73|-3.34|0.50
92194197|NCT00832000|184287597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.69|STANDARD_DEVIATION|3.44|<|0.001|TWO_SIDED|95.0|-4.07|-1.3|||wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-1.30|-4.07|<0.001
92194198|NCT00832000|184287598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.58|STANDARD_DEVIATION|5.35|<|0.001|TWO_SIDED|95.0|3.44|7.72|||wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||7.72|3.44|<0.001
92194199|NCT00832000|184287599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.351|STANDARD_DEVIATION|6.5||0.9|TWO_SIDED|95.0|-5.87|5.17|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||5.17|-5.87|0.90
92194200|NCT00832000|184287599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.4|STANDARD_ERROR_OF_MEAN|6.5||0.03|TWO_SIDED|95.0|0.941|20.6|||wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||20.6|0.941|0.03
92194201|NCT03974100|184287600|EQUIVALENCE|Equivalence criteria (analysis set PPS): 95% CI for difference in means contained in \[-1.45%, 1.45%\]|Mean Difference (Final Values)|-0.145|STANDARD_ERROR_OF_MEAN|0.3325|||TWO_SIDED|95.0|-0.798|0.509|||Mixed-model repeated measures (MMRM)|MMRM included treatment, prior bisphosphonate use, DXA machine type, visit, visit-treatment interaction, and baseline LS-BMD as a continuous covariate|Difference GP2411 (Test) - EU-Prolia (Reference)|||0.509|-0.798|
92194202|NCT03974100|184287601|EQUIVALENCE|Equivalence criteria (analysis set TP1 FAS): 95% CI for difference in means contained in \[-1.45%, 1.45%\] (criteria 1) or in \[-2.00%, 2.00%\] (criteria 2)|Mean Difference (Final Values)|-0.177|STANDARD_ERROR_OF_MEAN|0.3321|||TWO_SIDED|95.0|-0.83|0.475|||Mixed-model repeated measures (MMRM)|MMRM included treatment, prior bisphosphonate use, DXA machine type, visit, visit-treatment interaction, and baseline LS-BMD as a continuous covariate|Difference GP2411 (Test) - EU-Prolia (Reference)|||0.475|-0.830|
92194203|NCT03974100|184287602|EQUIVALENCE|Equivalence criteria (analysis set PDS): 95% CI for ratio of geometric means contained in \[0.80, 1.25%\]|Geometric mean ratio|1.0|||||TWO_SIDED|95.0|0.98|1.01|||ANCOVA|ANCOVA was performed on log-transformed AUEC including treatment and log baseline CTX value as a continuous covariate|Geometric mean ratio of GP2411 (Test) to EU-Prolia (Reference)|||1.01|0.98|
92317407|NCT00708552|184539377|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.146|TWO_SIDED|95.0|-0.1|0.6|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+ score, Placebo Vs SB-742457-15mg at Week 24||0.6|-0.1|0.146
92317408|NCT00708552|184539377|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.733|TWO_SIDED|95.0|-0.4|0.3|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+ score, Placebo Vs SB-742457-35mg at Week 24||0.3|-0.4|0.733
92317409|NCT00708552|184539377|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.145|TWO_SIDED|95.0|-0.5|0.1|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+ score, Placebo Vs Donepezil at Week 24||0.1|-0.5|0.145
92317410|NCT00708552|184539378|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.295|TWO_SIDED|95.0|-0.2|0.6|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+, Placebo Vs SB-742457-15mg at Week 24||0.6|-0.2|0.295
92194204|NCT03974100|184287602|EQUIVALENCE|Equivalence criteria (analysis set PDS): 90% CI for ratio of geometric means contained in \[0.80, 1.25%\]|Geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.98|1.01|||ANCOVA|ANCOVA was performed on log-transformed AUEC including treatment and log baseline CTX value as a continuous covariate|Geometric mean ratio of GP2411 (Test) to EU-Prolia (Reference)|||1.01|0.98|
92194205|NCT03974100|184287603|EQUIVALENCE|Equivalence criteria (analysis set PKS): 90% CI for ratio of geometric means contained in \[0.80, 1.25%\]|Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.92|1.03|||ANCOVA|ANCOVA was performed on log-transformed Cmax including treatment and weight as a continuous covariate|Geometric mean ratio of GP2411 (Test) to EU-Prolia (Reference)|||1.03|0.92|
92317411|NCT00708552|184539378|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.495|TWO_SIDED|95.0|-0.5|0.2|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+, Placebo Vs SB-742457-35mg at Week 24||0.2|-0.5|0.495
92317412|NCT00708552|184539378|SUPERIORITY||Mean Difference (Net)|-0.3||||0.166|TWO_SIDED|95.0|-0.6|0.1|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+, Placebo Vs Donepezil at Week 24||0.1|-0.6|0.166
92317413|NCT00708552|184539379|SUPERIORITY||Mean Difference (Net)|0.1||||0.847|TWO_SIDED|95.0|-1.1|1.4|||Mixed model repeated measures|||ADAS-Cog Total Score, Placebo Vs SB-742457-15mg at Week 12||1.4|-1.1|0.847
92317414|NCT00708552|184539379|SUPERIORITY||Mean Difference (Net)|-0.1||||0.833|TWO_SIDED|95.0|-1.4|1.1|||Mixed Models Analysis|||ADAS-Cog Total Score, Placebo Vs SB-742457-35mg at Week 12||1.1|-1.4|0.833
92317415|NCT00708552|184539379|SUPERIORITY||Mean Difference (Net)|-0.5||||0.443|TWO_SIDED|95.0|-1.6|0.7|||Mixed model repeated measures|||ADAS-Cog Total Score, Placebo Vs Donepzil at Week 12||0.7|-1.6|0.443
92194206|NCT03974100|184287604|EQUIVALENCE|Equivalence criteria (analysis set PKS): 90% CI for ratio of geometric means contained in \[0.80, 1.25%\]|Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.93|1.05|||ANCOVA|ANCOVA was performed on log-transformed AUCinf including treatment and weight as a continuous covariate|Geometric mean ratio of GP2411 (Test) to EU-Prolia (Reference)|||1.05|0.93|
92194207|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|-2.99|STANDARD_ERROR_OF_MEAN|0.81||0.0002|TWO_SIDED|95.0|-4.58|-1.4|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance (ANCOVA) model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-1.40|-4.58|0.0002
92194208|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|-3.78|STANDARD_ERROR_OF_MEAN|0.82|<|0.0001|TWO_SIDED|95.0|-5.38|-2.17|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-2.17|-5.38|<.0001
92194209|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|-6.07|STANDARD_ERROR_OF_MEAN|0.87|<|0.0001|TWO_SIDED|95.0|-7.77|-4.36|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-4.36|-7.77|<.0001
92194210|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|-6.68|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-8.28|-5.09|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-5.09|-8.28|<.0001
92194211|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|-7.79|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|95.0|-9.42|-6.16|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-6.16|-9.42|<.0001
92194212|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|-5.98|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|95.0|-7.61|-4.35|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-4.35|-7.61|<.0001
92194213|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|2.99|STANDARD_ERROR_OF_MEAN|0.82||0.0003|TWO_SIDED|95.0|1.38|4.6|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||4.60|1.38|0.0003
92194214|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|2.2|STANDARD_ERROR_OF_MEAN|0.83||0.0082|TWO_SIDED|95.0|0.57|3.84|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||3.84|0.57|0.0082
92194215|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|-0.09|STANDARD_ERROR_OF_MEAN|0.88||0.9209|TWO_SIDED|95.0|-1.82|1.64|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||1.64|-1.82|0.9209
92194216|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|-0.7|STANDARD_ERROR_OF_MEAN|0.83||0.396|TWO_SIDED|95.0|-2.33|0.92|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||0.92|-2.33|0.3960
92194217|NCT03856047|184287640|SUPERIORITY||Treatment difference (%-points)|-1.81|STANDARD_ERROR_OF_MEAN|0.84||0.0316|TWO_SIDED|95.0|-3.46|-0.16|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-0.16|-3.46|0.0316
92194218|NCT03398421|184287667|SUPERIORITY||Ratio of adjusted geometric mean|2.005|||||TWO_SIDED|90.0|1.807|2.224||||||||2.224|1.807|
92194219|NCT03398421|184287674|SUPERIORITY||Ratio of adjusted geometric mean|0.802|||||TWO_SIDED|90.0|0.69|0.933||||||||0.933|0.690|
92317416|NCT00708552|184539380|SUPERIORITY||Mean Difference (Net)|0.1||||0.32|TWO_SIDED|95.0|-0.1|0.3|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs SB-742457-15mg at Week 12||0.3|-0.1|0.320
92317417|NCT00708552|184539380|SUPERIORITY||Mean Difference (Net)|0.0||||0.927|TWO_SIDED|95.0|-0.2|0.2|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs SB-742457-35mg at Week 12||0.2|-0.2|0.927
92317418|NCT00708552|184539380|SUPERIORITY||Mean Difference (Net)|-0.2||||0.059|TWO_SIDED|95.0|-0.4|0.0|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs Donepzil at Week 12||0.0|-0.4|0.059
92194220|NCT00338949|184287717|SUPERIORITY_OR_OTHER_LEGACY|||||||0.228|||||||t-test, 2 sided|||||||0.228
92194221|NCT00338949|184287718|SUPERIORITY_OR_OTHER_LEGACY|||||||0.958|||||||t-test, 2 sided|||||||0.958
92194222|NCT02271230|184287755|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.78|1.11||||||||1.11|0.78|
92194223|NCT02271230|184287755|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.8|1.14||||||||1.14|0.80|
92194224|NCT02271230|184287756|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.81|1.09||||||||1.09|0.81|
92194225|NCT02271230|184287756|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.74|0.998||||||||0.998|0.74|
92194226|NCT02601209|184287788|OTHER||Maximum Tolerated Dose (mg)|30.0|||||TWO_SIDED|||||||||||||
92194227|NCT02601209|184287789|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.1419|ONE_SIDED|85.0||1.7|||Log Rank|1-sided statistical test and p-value||||1.70||0.1419
92194228|NCT02024750|184287804|OTHER||Mean Difference (Net)|0.005||||0.72|TWO_SIDED|95.0|-0.021|0.03||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Negative values indicate a clinical benefit.|During the intervention period, the treatment effect on A1c. Results reflect the difference in A1c trend between usual care and intervention arms.||0.030|-0.021|0.72
92194229|NCT02024750|184287804|OTHER||Mean Difference (Net)|-0.01||||0.38|TWO_SIDED|95.0|-0.034|0.013||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Negative values indicate a clinical benefit.|During the post-intervention period, the treatment effect on A1c. Results reflect the difference in A1c trend between usual care and intervention arms.||0.013|-0.034|0.38
92194230|NCT02024750|184287805|OTHER||Mean Difference (Net)|0.023||||0.87|TWO_SIDED|95.0|-0.249|0.295||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the intervention period, the treatment effect on child quality of life. Results reflect the difference in QOL trend between usual care and intervention arms.||0.295|-0.249|0.87
92194231|NCT02024750|184287805|OTHER||Mean Difference (Net)|-0.074||||0.74|TWO_SIDED|95.0|-0.517|0.369||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the post-intervention period, the treatment effect on child quality of life. Results reflect the difference in QOL trend between usual care and intervention arms.||0.369|-0.517|0.74
92194232|NCT02024750|184287806|OTHER||Mean Difference (Net)|-0.037||||0.79|TWO_SIDED|95.0|-0.312|0.237||The a priori threshold for statistical significance was p\<0.05|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the intervention period, the treatment effect on parent quality of life. Results reflect the difference in QOL trend between usual care and intervention arms.||0.237|-0.312|0.79
92194233|NCT02024750|184287806|OTHER||Mean Difference (Net)|-0.009||||0.97|TWO_SIDED|95.0|-0.467|0.448||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the post-intervention period, the treatment effect on parent quality of life. Results reflect the difference in QOL trend between usual care and intervention arms.||0.448|-0.467|0.97
92194234|NCT02024750|184287807|OTHER||Mean Difference (Net)|0.134||||0.3|TWO_SIDED|95.0|-0.121|0.388||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the intervention period, the treatment effect on parent fear of hypoglycemia. Results reflect the difference in FOH trend between usual care and intervention arms.||0.388|-0.121|0.30
92194235|NCT02024750|184287807|OTHER||Mean Difference (Net)|-0.006||||0.98|TWO_SIDED|95.0|-0.384|0.373||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the post-intervention period, the treatment effect on parent fear of hypoglycemia. Results reflect the difference in FOH trend between usual care and intervention arms.||0.373|-0.384|0.98
92194236|NCT00983892|184287820|SUPERIORITY_OR_OTHER||Slope|-1.56||||0.03|TWO_SIDED|95.0|-2.97|-0.15|||GEE|Adjusting for baseline symptom severity, caregiver type, week number, and cancer site.||||-0.15|-2.97|0.030
92194237|NCT03181282|184287823|SUPERIORITY||Slope|0.0529|STANDARD_ERROR_OF_MEAN|0.0194||0.0194|TWO_SIDED|95.0|0.0132|0.0925|||Mixed Models Analysis|Mixed model analysis with repeated measures.||This analysis is for the On Medication / On Stimulation condition. Age was controlled for in the analysis given the baseline difference in age between groups.||0.0925|0.0132|0.0194
92194238|NCT03181282|184287823|SUPERIORITY||Slope|0.0718|STANDARD_ERROR_OF_MEAN|0.0231||0.004625|TWO_SIDED|95.0|0.0242|0.1194|||Mixed Models Analysis|Mixed models analysis with repeated measures.||This analysis is for the Off Medication / Off Stimulation Condition. Age was controlled for in the analysis given the baseline difference in age between groups.||0.1194|0.0242|0.004625
92194239|NCT03181282|184287824|SUPERIORITY||Slope|10.5248|STANDARD_ERROR_OF_MEAN|4.8439||0.038389|TWO_SIDED|95.0|0.6038|20.4459|||Mixed Models Analysis|Mixed models analysis with repeated measures.||This analysis is for the On Medication / On Stimulation condition. Age was controlled for in the analysis given the baseline difference in age between groups.||20.4459|0.6038|0.038389
92194240|NCT03181282|184287824|SUPERIORITY||Slope|7.7233|STANDARD_ERROR_OF_MEAN|4.668||0.109873|TWO_SIDED|95.0|-1.8652|17.3117|||Mixed Models Analysis|Mixed models analysis with repeated measures.||This analysis is for the Off Medication / Off Stimulation condition. Age was controlled for in the analysis given the baseline difference in age between groups.||17.3117|-1.8652|0.109873
92268581|NCT04636437|184439030|SUPERIORITY||Mean Difference (Net)|1.19||||0.91|TWO_SIDED|97.5|-22.2|24.59||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting triglycerides, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting triglycerides from entry to week 48.||24.59|-22.2|0.91
92317419|NCT00708552|184539381|SUPERIORITY||Mean Difference (Net)|-1.9||||0.257|TWO_SIDED|95.0|-5.2|1.4|||Mixed model repeated measures|||RBANS total score, Placebo Vs SB-742457-15mg at Week 12||1.4|-5.2|0.257
92317420|NCT00708552|184539381|SUPERIORITY||Mean Difference (Net)|0.9||||0.57|TWO_SIDED|95.0|-2.2|4.0|||Mixed model repeated measures|||RBANS total score, Placebo Vs SB-742457-35mg at Week 12||4.0|-2.2|0.570
92317421|NCT00708552|184539381|SUPERIORITY||Mean Difference (Net)|3.4||||0.031|TWO_SIDED|95.0|0.3|6.4|||Mixed model repeated measures|||RBANS total score, Placebo Vs Donepzil at Week 12||6.4|0.3|0.031
92317422|NCT00708552|184539382|SUPERIORITY||Mean Difference (Net)|0.2||||0.798|TWO_SIDED|95.0|-1.1|1.5|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs SB-742457-15mg at Week 12||1.5|-1.1|0.798
92317423|NCT00708552|184539382|SUPERIORITY||Mean Difference (Net)|0.1||||0.918|TWO_SIDED|95.0|-1.3|1.4|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs SB-742457-35mg at Week 12||1.4|-1.3|0.918
92317424|NCT00708552|184539382|SUPERIORITY||Mean Difference (Net)|0.1||||0.924|TWO_SIDED|95.0|-1.2|1.3|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs Donepezil at Week 12||1.3|-1.2|0.924
92317425|NCT00708552|184539382|SUPERIORITY||Mean Difference (Net)|-0.8||||0.676|TWO_SIDED|95.0|-4.7|3.0|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs SB-742457-15mg at Week 12||3.0|-4.7|0.676
92317426|NCT00708552|184539382|SUPERIORITY||Mean Difference (Net)|3.1||||0.086|TWO_SIDED|95.0|-0.4|6.7|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs SB-742457-35mg at Week 12||6.7|-0.4|0.086
92317427|NCT00708552|184539382|SUPERIORITY||Mean Difference (Net)|4.2||||0.021|TWO_SIDED|95.0|0.6|7.7|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs Donepezil at Week 12||7.7|0.6|0.021
92317428|NCT00708552|184539383|SUPERIORITY||Mean Difference (Net)|0.1||||0.908|TWO_SIDED|95.0|-1.5|1.7|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs SB-742457-15mg at Week 12||1.7|-1.5|0.908
92194241|NCT02484547|184287840|SUPERIORITY||Difference|-0.26||||0.0901|TWO_SIDED|95.0|-0.569|0.041|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in CDR-SB as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline CDR-SB, baseline CDR-SB by visit interaction, baseline MMSE, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.041|-0.569|0.0901
92194242|NCT02484547|184287840|SUPERIORITY||Difference|-0.39||||0.012|TWO_SIDED|95.0|-0.694|-0.086|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in CDR-SB as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline CDR-SB, baseline CDR-SB by visit.||-0.086|-0.694|0.0120
92317429|NCT00708552|184539383|SUPERIORITY||Mean Difference (Net)|-0.2||||0.826|TWO_SIDED|95.0|-1.7|1.4|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs SB-742457-35mg at Week 12||1.4|-1.7|0.826
92317430|NCT00708552|184539383|SUPERIORITY||Mean Difference (Net)|-1.2||||0.088|TWO_SIDED|95.0|-2.7|0.2|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs Donepezil at Week 12||0.2|-2.7|0.088
92317431|NCT00708552|184539383|SUPERIORITY||Mean Difference (Net)|-3.6||||0.053|TWO_SIDED|95.0|-7.3|0.0|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs SB-742457-15mg at Week 12||0.0|-7.3|0.053
92317432|NCT00708552|184539383|SUPERIORITY||Mean Difference (Net)|-0.4||||0.848|TWO_SIDED|95.0|-4.0|3.3|||Mixed Models Analysis|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs SB-742457-35mg at Week 12||3.3|-4.0|0.848
92317433|NCT00708552|184539383|SUPERIORITY||Mean Difference (Net)|4.7||||0.011|TWO_SIDED|95.0|1.1|8.2|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs Donepezil at Week 12||8.2|1.1|0.011
92317434|NCT00708552|184539384|SUPERIORITY||Mean Difference (Net)|0.1||||0.671|TWO_SIDED|95.0|-0.2|0.3|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CIBIC+ score, Placebo Vs SB-742457-15mg at Week 12||0.3|-0.2|0.671
92317435|NCT00708552|184539384|SUPERIORITY||Mean Difference (Net)|-0.1||||0.413|TWO_SIDED|95.0|-0.4|0.2|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CIBIC+ Total score, Placebo Vs SB-742457-35mg at Week 12||0.2|-0.4|0.413
92317436|NCT00708552|184539384|SUPERIORITY||Mean Difference (Net)|-0.1||||0.245|TWO_SIDED|95.0|-0.4|0.1|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CIBIC+ Total score, Placebo Vs Donepezil at Week 12||0.1|-0.4|0.245
92317437|NCT00708552|184539385|SUPERIORITY||Mean Difference (Net)|0.1||||0.369|TWO_SIDED|95.0|-0.2|0.4|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on CIBIC+ score, Placebo Vs SB-742457-15mg at Week 12||0.4|-0.2|0.369
92317438|NCT00708552|184539385|SUPERIORITY||Mean Difference (Net)|0.1||||0.55|TWO_SIDED|95.0|-0.2|0.4|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on CIBIC+ Total score, Placebo Vs SB-742457-35mg at Week 12||0.4|-0.2|0.550
92317439|NCT00708552|184539385|SUPERIORITY||Mean Difference (Net)|-0.3||||0.082|TWO_SIDED|95.0|-0.5|0.0|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on CIBIC+ Total score, Placebo Vs Donepezil at Week 12||0.0|-0.5|0.082
92317440|NCT00708552|184539386|SUPERIORITY||Mean Difference (Net)|-0.7||||0.417|TWO_SIDED|95.0|-2.4|1.0|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs SB-742457-15mg at Week 12||1.0|-2.4|0.417
92317441|NCT00708552|184539386|SUPERIORITY||Mean Difference (Net)|0.3||||0.725|TWO_SIDED|95.0|-1.4|2.0|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs SB-742457-35mg at Week 12||2.0|-1.4|0.725
92317442|NCT00708552|184539386|SUPERIORITY||Mean Difference (Net)|0.6||||0.506|TWO_SIDED|95.0|-1.1|2.2|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs Donepezil at Week 12||2.2|-1.1|0.506
92317443|NCT00708552|184539386|SUPERIORITY||Mean Difference (Net)|-0.3||||0.723|TWO_SIDED|95.0|-2.3|1.6|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs SB-742457-15mg at Week 24||1.6|-2.3|0.723
92317444|NCT00708552|184539386|SUPERIORITY||Median Difference (Net)|-0.1||||0.919|TWO_SIDED|95.0|-2.2|2.0|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs SB-742457-35mg at Week 24||2.0|-2.2|0.919
92194243|NCT02484547|184287841|SUPERIORITY||Difference|-0.1||||0.7578|TWO_SIDED|95.0|-0.65|0.48|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MMSE as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline MMSE, baseline MMSE by visit interaction, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.48|-0.65|0.7578
92194244|NCT02484547|184287841|SUPERIORITY||Difference|0.6||||0.0493|TWO_SIDED|95.0|0.0|1.13|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MMSE as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline MMSE, baseline MMSE by visit interaction, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||1.13|0.00|0.0493
92194245|NCT02484547|184287842|SUPERIORITY||Difference|-0.701||||0.1962|TWO_SIDED|95.0|-1.7649|0.3627|||MMRM|||Adjusted mean for each treatment group(Placebo,BIIB037 Low Dose,BIIB037 High Dose),difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADASCog 13 as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction,baseline ADAS-Cog 13,baseline ADAS-Cog 13 by visit interaction,baseline MMSE,AD symptomatic medication use at baseline,region, and laboratory ApoE status.||0.3627|-1.7649|0.1962
92194246|NCT02484547|184287842|SUPERIORITY||Difference|-1.4||||0.0097|TWO_SIDED|95.0|-2.4596|-0.3396|||MMRM|||Adjusted mean for each treatment group(Placebo,BIIB037 Low Dose,BIIB037 High Dose),difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADASCog 13 as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction,baseline ADAS-Cog 13,baseline ADAS-Cog 13 by visit interaction,baseline MMSE,AD symptomatic medication use at baseline,region, and laboratory ApoE status.||-0.3396|-2.4596|0.0097
92194247|NCT02484547|184287843|SUPERIORITY||Difference|0.7||||0.1515|TWO_SIDED|95.0|-0.27|1.73|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low dose and BIIB037 High Dose), difference from Placebo,95% CI and p-value at each time point were based on an MMRM model, with change from baseline in ADCSADL-MCI as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline ADCS-ADL-MCI, baseline ADCS-ADL-MCI by visit interaction, baseline MMSE, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||1.73|-0.27|0.1515
92194248|NCT02484547|184287843|SUPERIORITY||Difference|1.7||||0.0006|TWO_SIDED|95.0|0.75|2.74|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low dose and BIIB037 High Dose), difference from Placebo,95% CI and p-value at each time point were based on an MMRM model, with change from baseline in ADCSADL-MCI as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline ADCS-ADL-MCI, baseline ADCS-ADL-MCI by visit interaction, baseline MMSE, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||2.74|0.75|0.0006
92194249|NCT03448536|184287847|SUPERIORITY||LS Means Difference|4.31|||<|0.001|TWO_SIDED|95.0|2.06|6.56|||ANCOVA|||||6.56|2.06|< 0.001
92194250|NCT03448536|184287848|SUPERIORITY||LS Means Difference|9.8|||<|0.001|TWO_SIDED|95.0|5.75|13.85|||ANCOVA|||||13.85|5.75|< 0.001
92194251|NCT03448536|184287849|SUPERIORITY||LS Means Difference|1.52|||=|0.129|TWO_SIDED|95.0|-0.45|3.49|||ANCOVA|||||3.49|-0.45|= 0.129
92194252|NCT03448536|184287850|SUPERIORITY||LS Means Difference|8.27|||<|0.001|TWO_SIDED|95.0|5.76|10.78|||ANCOVA|||||10.78|5.76|< 0.001
92194253|NCT03448536|184287851|SUPERIORITY||LS Means Difference|0.56|||=|0.307|TWO_SIDED|95.0|-0.52|1.64|||ANCOVA|||||1.64|-0.52|= 0.307
92194254|NCT03448536|184287852|SUPERIORITY||LS Means Difference|3.75|||<|0.001|TWO_SIDED|95.0|2.34|5.16|||ANCOVA|||||5.16|2.34|< 0.001
92194255|NCT03448536|184287853|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||< 0.001
92194256|NCT03448536|184287855|SUPERIORITY||||||=|0.002|||||||Cochran-Mantel-Haenszel|||||||= 0.002
92194257|NCT00988117|184287918|SUPERIORITY_OR_OTHER||Tscore|5.19|||<|0.01||95.0||||t-tests were statistically thresholded using the joint probability distribution method to correct for multiple comparisons, p \< 0.01 for voxel height and p \< 0.05 for cluster extent|t-test, 2 sided|A mask included only those regions where the patients showed abnormally low fALFF at either timepoint relative to a sample of 15 age-matched controls.||"Each voxel's BOLD signal time series was detrended and transformed to the frequency domain. We divided the sum of the square roots across the 0.01-0.08 Hz range by that across the entire frequency range (0-0.25 Hz).~fALFF group comparisons were evaluated using t-tests corrected for multiple comparisons. To determine if there were treatment-associated changes in brain activity, we compared voxel-wise fALFF in the patients at baseline to post-treatment."||||<0.01
92194258|NCT00988117|184287919|SUPERIORITY_OR_OTHER||pearson's r correlation coefficient|-0.82|||<|0.01||95.0||||This p-value was not adjusted for multiple comparisons.|Regression, Linear|||correlation with left inferior frontal gyrus / premotor falff change||||<.01
92194259|NCT00988117|184287919|SUPERIORITY_OR_OTHER||pearson's correlation coefficient|-0.35||||0.36||95.0||||This p-value was not adjusted for multiple comparisons.|Regression, Linear|||correlation with left supplementary motor area falff change||||.36
92194260|NCT00988117|184287920|SUPERIORITY_OR_OTHER||pearson's r correlation|0.18||||0.58||95.0|||||Regression, Linear|||correlation with left premotor / inferior frontal gyri falff change||||.58
92194261|NCT00988117|184287920|SUPERIORITY_OR_OTHER||pearson's correlation coefficient|0.26||||0.41||95.0||||This p-value was not adjusted for multiple comparisons.|Regression, Linear|||correlation with left supplementary motor area falff change||||.41
92194262|NCT05400226|184287921|OTHER|Summary statistics of quantitative data, one-sided exact binomial test for null hypothesis, Clopper-Pearson method for 95% exact confidence intervals|Proportion|0.425|||<|0.0001|TWO_SIDED|95.0|0.27|0.591|||Exact Binomial Test||The Parameter Dispersion Value is the asymptotic standard error of the proportion.|Single arm open-label||0.591|0.270|< .0001
92194263|NCT05400226|184287922|OTHER||Proportion|0.85|||||TWO_SIDED|95.0|0.675|0.939||||||||0.939|0.675|
92194264|NCT05400226|184287923|OTHER||Proportion|0.455|||||TWO_SIDED|95.0|0.202|0.733||||||||0.733|0.202|
92194265|NCT05400226|184287924|OTHER||Proportion|0.333|||||TWO_SIDED|95.0|0.126|0.633||||||||0.633|0.126|
92194266|NCT05400226|184287925|OTHER||Proportion|0.773|||||TWO_SIDED|95.0|0.65|0.862||||||||0.862|0.650|
92194267|NCT01077622|184287943|SUPERIORITY_OR_OTHER||percentage of participants|70.0|||||TWO_SIDED|95.0|34.8|93.3|||||SERC assessment|||93.3|34.8|
92194268|NCT01077622|184287943|SUPERIORITY_OR_OTHER||percentage of participants|70.0|||||TWO_SIDED|95.0|34.8|93.3|||||Investigator assessment|||93.3|34.8|
92194269|NCT00424177|184287985|SUPERIORITY_OR_OTHER||Proportion of subjects in Cycle 2 or 3|0.87||||||95.0|0.74|0.94||||||||0.94|0.74|
92194270|NCT01817712|184288007|SUPERIORITY||Odds Ratio (OR)|2.14|||<|0.001|TWO_SIDED|95.0|1.46|3.14|||Regression, Logistic|||||3.14|1.46|<0.001
92194271|NCT01817712|184288008|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|Site used as strata||||||0.004
92194272|NCT01817712|184288009|OTHER|Longitudinal analysis of PCL-5 (change from baseline)|Mean Difference (Net)|-1.9||||0.07|TWO_SIDED|95.0|-3.91|0.12|||Mixed Models Analysis|||||0.12|-3.91|0.07
92194273|NCT00562484|184288091|SUPERIORITY_OR_OTHER||Vaccine Efficacy|42.0|||||TWO_SIDED|95.0|30.0|52.0||||||Vaccine efficacy = 100 x (1 - ratio of incidence rate)||52|30|
92194274|NCT00562484|184288092|SUPERIORITY_OR_OTHER||Vaccine efficacy|60.0|||||TWO_SIDED|95.0|44.0|72.0||||||Vaccine efficacy = 100 x (1 - ratio of incidence rate)||72|44|
92194275|NCT02598934|184288115|SUPERIORITY_OR_OTHER||Difference in percentage of participants|16.9||||0.002|TWO_SIDED|95.0|6.1|27.7||P-value between Consult group and Non-consult group for the item in the BCS: ibandronate was effective in treating osteoporosis|Chi-squared, Corrected|||||27.7|6.1|0.002
92194276|NCT02598934|184288115|SUPERIORITY_OR_OTHER||Difference in percentage of participants|14.9||||0.009|TWO_SIDED|95.0|4.0|25.8||P-value between Consult group and Non-consult group for the item in the BCS: ibandronate reduces risk of breaking bone.|Chi-squared, Corrected|||||25.8|4.0|0.009
92194277|NCT02598934|184288115|SUPERIORITY_OR_OTHER||Difference in percentage of participants|16.9||||0.001|TWO_SIDED|95.0|6.3|27.5|||Chi-squared, Corrected|P-value between Consult group and Non-consult group for items in BCS: ibandronate effective in treating osteoporosis or reduces risk of breaking bone.||||27.5|6.3|0.001
92194278|NCT02598934|184288115|SUPERIORITY_OR_OTHER||Difference in percentage of participants|14.9||||0.01|TWO_SIDED|95.0|3.9|25.9||P-value between Consult group and Non-consult group for items in BCS: ibandronate effective in treating osteoporosis and reduces risk of breaking bone.|Chi-squared, Corrected|||||25.9|3.9|0.010
92194279|NCT02811302|184288116|OTHER|A simple count and percentage of the population were calculated based on the number of patients adjudicated as having Respiratory Depression.|||||||||||||||||To determine the risk assessment score, first the number of patients with Respiratory Depression (RD) had to be identified. Per the rules established for the Clinical Endpoint Committee, 655 (43.6%) patients were identified as having RD.|||
92194280|NCT02811302|184288117|OTHER|Multivariable model for (Multivariate logistic regression) Respiratory Depression, followed by validation with Harrell's Optimism using a bootstrap sampling method.|Area Under the Curve|0.76|||||TWO_SIDED|95.0|0.73|0.79|||||The model was performed using stepwise selection including all potential predictors and interactions terms (medical history and baseline characteristics).|A modified Full Analysis Dataset (1335) was used to derive and validate the risk assessment tool. Subjects were excluded if they had major deviations or consent withdrawals. Subjects that did not have any monitoring data were also excluded. Finally, 69 subjects were further excluded from the model, as they were missing parameters to calculate their risk score.|The model derived from the logistic regression was assessed by the Hosmer-Lemshow goodness of fit test (P = 0.831). The derived model was validated by Harrell's Optimism using a Bootstrap sampling method (500 samples from the modified dataset, 1335) with replacement. The logistic regression model with stepwise selection was performed for each bootstrap sample, and AUC calculated. The optimism calculated by Harrell's algorithm was 0.02. The model was then checked for the quartiles of the effective monitoring and for geography used as a random effect. The performance measurement of the final model was adjusted according the Harrell's Optimism for a final adjusted AUC of 0.74.|0.79|0.73|
92194281|NCT02154347|184288123|SUPERIORITY||Mean Difference (Final Values)|-0.66|||<|0.001|TWO_SIDED|95.0|-0.95|-0.37|||t-test, 2 sided|||||-0.37|-0.95|<0.001
92317445|NCT00708552|184539386|SUPERIORITY||Mean Difference (Net)|-0.1||||0.896|TWO_SIDED|95.0|-2.3|2.0|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs Donepezil at Week 24||2.0|-2.3|0.896
92194282|NCT02250183|184288155|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|||||A priori threshold for statistical significance was p\<0.05. Each case (participant) serves as its own control because they received both treatment modalities simultaneously.|McNemar|McNemar test was used because participants received both treatments, so this variable was non-independent in our single group sample.|2-sided|Each participant received both treatment modalities - MEDIHONEY® and SANTYL - and thus had two wound cultures performed, one for each treatment modality. This was a single group study; however, wound culture results were contrasted with each other across participants. Thus, independent variable was treatment modality, while dependent variable was the wound culture result (positive for presence of bacteria versus negative for absence of bacteria).||||1.00
92194283|NCT02250183|184288156|SUPERIORITY||Mean Difference (Final Values)|3.615|STANDARD_ERROR_OF_MEAN|0.79||0.003|TWO_SIDED|95.0|1.149|4.565||The null hypothesis was that the two mean scores would not differ significantly at p\<.05 level.|t-test, 2 sided|df = 13||A paired samples, 2-tailed, t-test was used to compare means within participants for ratings of MEDIHONEY and SANTYL satisfaction total scores. The null hypothesis was that the two mean scores would not differ significantly at p\<.05 level.||4.565|1.149|.003
92194284|NCT03282799|184288158|OTHER||||||<|0.001|||||||Fisher Exact|||||||<.001
92194285|NCT03282799|184288159|OTHER||||||<|0.001|||||||Fisher Exact|||||||<.001
92194286|NCT03282799|184288160|OTHER||||||<|0.001|||||||Fisher Exact|||||||<.001
92194287|NCT03282799|184288161|OTHER||||||>|0.99|||||||Fisher Exact|||||||>.99
92194288|NCT03282799|184288162|OTHER|||||||0.685|||||||Wilcoxon (Mann-Whitney)|||||||.685
92194289|NCT03282799|184288163|OTHER|||||||0.784|||||||Wilcoxon (Mann-Whitney)|||||||.784
92194290|NCT03282799|184288164|OTHER|||||||0.587|||||||Wilcoxon (Mann-Whitney)|||||||.587
92194291|NCT03282799|184288165|OTHER|||||||0.394|||||||Wilcoxon (Mann-Whitney)|||||||.394
92194292|NCT03282799|184288166|OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||.660
92194293|NCT03282799|184288167|OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||.290
92194294|NCT03302559|184288190|OTHER|Testing hypothesis is that the mean change from baseline is zero.|||||<|0.001||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12||||<0.001
92194295|NCT03302559|184288191|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.005||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Forehead)||||0.005
92194296|NCT03302559|184288191|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.02||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Periocular)||||0.02
92194297|NCT03302559|184288191|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.0006||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Cheeks)||||0.0006
92194298|NCT03302559|184288191|OTHER|Testing hypothesis is that the mean change from baseline is zero||||||0.001||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Perioral)||||0.001
92194299|NCT03302559|184288192|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.02||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Forehead)||||0.02
92194300|NCT03302559|184288192|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.006||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Periocular)||||0.006
92194301|NCT03302559|184288192|OTHER|Testing hypothesis is that the mean change from baseline is zero.|||||<|0.001||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Cheeks)||||<0.001
92194302|NCT03302559|184288192|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.5||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Perioral)||||0.5
92194303|NCT03302559|184288193|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.002||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12||||0.002
92194304|NCT03302559|184288194|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.0008||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12||||0.0008
92194305|NCT03302559|184288195|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.02||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12||||0.02
92317446|NCT00708552|184539387|SUPERIORITY||Mean Difference (Net)|-0.2||||0.594|TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|||CSDD Total score, Placebo Vs SB-742457-15mg at Week 24||0.5|-0.9|0.594
92194306|NCT03302559|184288200|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.3||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Normal Skin)||||0.3
92194307|NCT03302559|184288200|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.4||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Target Lesion)||||0.4
92194308|NCT02080403|184288209|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.1159|TWO_SIDED|95.0|-0.4|0.04|||Mixed Models Analysis|||||0.04|-0.40|0.1159
92317447|NCT00708552|184539387|SUPERIORITY||Mean Difference (Net)|0.2||||0.523|TWO_SIDED|95.0|-0.5|0.9|||ANCOVA|||CSDD Total score, Placebo Vs SB-742457-35mg at Week 24||0.9|-0.5|0.523
92194309|NCT01171183|184288237|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.52|STANDARD_DEVIATION|37.64||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92194310|NCT01171183|184288238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_DEVIATION|4.54||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92194311|NCT04260464|184288239|OTHER||Test/Reference Ratio|110.15|||||TWO_SIDED|95.0|83.76|144.86||||||Analysis of variance (ANOVA) was used to compare the natural log transformed Cmax for PF-06700841 between the normal renal function group (Reference) and the severe impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||144.86|83.76|
92194312|NCT04260464|184288239|OTHER||Test/Reference Ratio|94.58|||||TWO_SIDED|90.0|55.84|160.19||||||ANOVA was used to compare the natural log transformed Cmax for PF-06700841 between the normal renal function group (Reference) and the mild impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||160.19|55.84|
92194313|NCT04260464|184288239|OTHER||Test/Reference Ratio|124.2|||||TWO_SIDED|90.0|100.24|153.89||||||ANOVA was used to compare the natural log transformed Cmax for PF-06700841 between the normal renal function group (Reference) and the moderate impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||153.89|100.24|
92194314|NCT04260464|184288240|OTHER||Test/Reference Ratio|112.08|||||TWO_SIDED|95.0|60.85|206.45||||||ANOVA was used to compare the natural log transformed AUCinf for PF-06700841 between normal renal function group (Reference) and the severe impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||206.45|60.85|
92194315|NCT04260464|184288240|OTHER||Test/Reference Ratio|70.97|||||TWO_SIDED|90.0|27.6|182.49||||||ANOVA was used to compare the natural log transformed AUCinf for PF-06700841 between normal renal function group (Reference) and the mild impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||182.49|27.60|
92194316|NCT04260464|184288240|OTHER||Test/Reference Ratio|147.7|||||TWO_SIDED|90.0|75.17|290.21||||||ANOVA was used to compare the natural log transformed AUCinf for PF-06700841 between normal renal function group (Reference) and the moderate impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||290.21|75.17|
92194317|NCT04260464|184288241|OTHER||Test/Reference Ratio|177.53|||||TWO_SIDED|95.0|135.82|232.04||||||ANOVA was used to compare the natural log transformed Cmax for M1 between normal renal function group (Reference) and the severe impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||232.04|135.82|
92194318|NCT04260464|184288241|OTHER||Test/Reference Ratio|132.69|||||TWO_SIDED|90.0|95.08|185.17||||||ANOVA was used to compare the natural log transformed Cmax for M1 between normal renal function group (Reference) and the mild impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||185.17|95.08|
92317448|NCT00708552|184539387|SUPERIORITY||Mean Difference (Net)|0.3||||0.429|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||CSDD Total score, Placebo Vs Donepezil at Week 24||1.0|-0.4|0.429
92317449|NCT00708552|184539388|SUPERIORITY||Mean Difference (Net)|0.0||||0.966|TWO_SIDED|95.0|-0.8|0.8|||ANCOVA|||MMSE Total score, Placebo Vs SB-742457-15mg at Week 24||0.8|-0.8|0.966
92317450|NCT00708552|184539388|SUPERIORITY||Mean Difference (Net)|0.3||||0.505|TWO_SIDED|95.0|-0.5|1.1|||ANCOVA|||MMSE Total score, Placebo Vs SB-742457-35mg at Week 24||1.1|-0.5|0.505
92317451|NCT00708552|184539388|SUPERIORITY||Mean Difference (Net)|0.8||||0.044|TWO_SIDED|95.0|0.0|1.6|||ANCOVA|||MMSE Total score, Placebo Vs Donepezil at Week 24||1.6|0.0|0.044
92317452|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.0||||0.869|TWO_SIDED|95.0|-0.5|0.5|||Mixed model repeated measures|||Basic Score, Placebo Vs SB-742457-15mg at Week 12||0.5|-0.5|0.869
92317453|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.2||||0.5|TWO_SIDED|95.0|-0.4|0.8|||Mixed model repeated measures|||Basic Score, Placebo Vs SB-742457-35mg at Week 12||0.8|-0.4|0.500
92317454|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.3||||0.14|TWO_SIDED|95.0|-0.1|0.8|||Mixed model repeated measures|||Basic Score, Placebo Vs Donepezil at Week 12||0.8|-0.1|0.140
92317455|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.0||||0.91|TWO_SIDED|95.0|-0.6|0.5|||Mixed model repeated measures|||Basic Score, Placebo Vs SB-742457-15mg at Week 24||0.5|-0.6|0.910
92317456|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.1||||0.774|TWO_SIDED|95.0|-0.5|0.7|||Mixed model repeated measures|||Basic Score, Placebo Vs SB-742457-35mg at Week 24||0.7|-0.5|0.774
92317457|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|-0.1||||0.726|TWO_SIDED|95.0|-0.7|0.5|||Mixed model repeated measures|||Basic Score, Placebo Vs Donepezil at Week 24||0.5|-0.7|0.726
92317458|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|-0.8||||0.292|TWO_SIDED|95.0|-2.2|0.7|||Mixed model repeated measures|||Instrumental Score, Placebo Vs SB-742457-15mg at Week 12||0.7|-2.2|0.292
92317459|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.0||||0.946|TWO_SIDED|95.0|-1.3|1.4|||Mixed model repeated measures|||Instrumental Score, Placebo Vs SB-742457-35mg at Week 12||1.4|-1.3|0.946
92317460|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.2||||0.802|TWO_SIDED|95.0|-1.3|1.6|||Mixed model repeated measures|||Instrumental Score, Placebo Vs Donepezil at Week 12||1.6|-1.3|0.802
92194319|NCT04260464|184288241|OTHER||Test/Reference Ratio|122.04|||||TWO_SIDED|90.0|84.47|176.3||||||ANOVA was used to compare the natural log transformed Cmax for M1 between normal renal function group (Reference) and the moderate impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||176.30|84.47|
92317461|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|-0.4||||0.636|TWO_SIDED|95.0|-2.1|1.3|||Mixed model repeated measures|||Instrumental Score, Placebo Vs SB-742457-15mg at Week 24||1.3|-2.1|0.636
92317462|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|-0.3||||0.752|TWO_SIDED|95.0|-2.0|1.5|||Mixed model repeated measures|||Instrumental Score, Placebo Vs SB-742457-35mg at Week 24||1.5|-2.0|0.752
92317463|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|-0.1||||0.92|TWO_SIDED|95.0|-1.9|1.7|||Mixed model repeated measures|||Instrumental Score, Placebo Vs Donepezil at Week 24||1.7|-1.9|0.920
92317464|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.0||||0.972|TWO_SIDED|95.0|-0.7|0.6|||Mixed model repeated measures|||Total Independence Score, Placebo Vs SB-742457-15mg at Week 12||0.6|-0.7|0.972
92317465|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.3||||0.378|TWO_SIDED|95.0|-0.4|0.9|||Mixed model repeated measures|||Total Independence Score, Placebo Vs SB-742457-35mg at Week 12||0.9|-0.4|0.378
92317466|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.3||||0.346|TWO_SIDED|95.0|-0.3|0.9|||Mixed model repeated measures|||Total Independence Score, Placebo Vs Donepezil at Week 12||0.9|-0.3|0.346
92317467|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.1||||0.72|TWO_SIDED|95.0|-0.6|0.9|||Mixed model repeated measures|||Total Independence Score, Placebo Vs SB-742457-15mg at Week 24||0.9|-0.6|0.720
92317468|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.2||||0.598|TWO_SIDED|95.0|-0.6|1.0|||Mixed model repeated measures|||Total Independence Score, Placebo Vs SB-742457-35mg at Week 24||1.0|-0.6|0.598
92317469|NCT00708552|184539389|SUPERIORITY||Mean Difference (Net)|0.3||||0.48|TWO_SIDED|95.0|-0.5|1.1|||Mixed model repeated measures|||Total Independence Score, Placebo Vs Donepezil at Week 24||1.1|-0.5|0.480
92317470|NCT05344560|184539448|NON_INFERIORITY|A non-inferiority margin of -5 points was used.|Mean Difference (Final Values)|-2.92|STANDARD_ERROR_OF_MEAN|2.018|||TWO_SIDED|95.0|-6.92|1.07|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Test \[senofilcon A (C3) HEV chromophore\] minus Control \[senofilcon A (C3)\]|||1.07|-6.92|
92317471|NCT01051960|184539475|OTHER|comparison of means|Mean Difference (Final Values)|-93.0||||0.0008|TWO_SIDED|||||significant at p\<0.05|t-test, 2 sided|||Whether change from baseline to 24-weeks is significantly different from zero||||.0008
92194320|NCT04260464|184288242|OTHER||Test/Reference Ratio|445.99|||||TWO_SIDED|95.0|326.55|609.13||||||ANOVA was used to compare the natural log transformed AUCinf for M1 between normal renal function group (Reference) and the severe impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||609.13|326.55|
92317472|NCT01051960|184539476|OTHER||Mean Difference (Final Values)|44.5||||7e-05|TWO_SIDED||||||t-test, 2 sided|||change from baseline to 24 weeks||||0.00007
92317473|NCT00391768|184539488|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Spearman Correlation|||||||0.07
92317474|NCT00391768|184539488|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Spearman Correlation|||||||0.60
92317475|NCT00391768|184539488|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Spearman Correlation|||||||0.27
92317476|NCT00391768|184539488|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||Spearman Correlation|||||||0.77
92317477|NCT00391768|184539488|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||Spearman Correlation|||||||0.47
92317478|NCT00391768|184539488|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||Spearman Correlation|||||||0.96
92317479|NCT00607620|184539490|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.79|0.98||||||||0.98|0.79|
92317480|NCT00607620|184539491|SUPERIORITY||Mean Difference (Net)|-1.2|||||TWO_SIDED|95.0|-2.1|-0.3|||||The data represented refers to the group mean difference (intervention versus control) of the change score between baseline to 12-months.|||-0.3|-2.1|
92317481|NCT00607620|184539492|SUPERIORITY||Mean Difference (Net)|3.4|||||TWO_SIDED|95.0|0.4|6.4|||||The data represented refers to the group mean difference (intervention versus control) of the change score between 6-months and 12-months.|||6.4|0.4|
92317482|NCT00607620|184539493|SUPERIORITY||Mean Difference (Net)|-0.7|||||TWO_SIDED|95.0|-3.3|1.9|||||The data represented refers to the group mean difference (intervention versus control) of the change score between 6-months and 12-months.|||1.9|-3.3|
92194321|NCT04260464|184288242|OTHER||Test/Reference Ratio|144.63|||||TWO_SIDED|90.0|112.76|185.5||||||ANOVA was used to compare the natural log transformed AUCinf for M1 between normal renal function group (Reference) and the mild impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||185.50|112.76|
92194322|NCT04260464|184288242|OTHER||Test/Reference Ratio|229.12|||||TWO_SIDED|90.0|189.97|276.35||||||ANOVA was used to compare the natural log transformed AUCinf for M1 between normal renal function group (Reference) and the moderate impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||276.35|189.97|
92194323|NCT02806505|184288263|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.6746|TWO_SIDED|95.0|0.49|3.06||Assessed by Cochran-Mantel-Haenszel test stratified by country (Brazil, France, Other) and HCV genotype (1 vs. non-1).|Cochran-Mantel-Haenszel|||The odds ratio is the ratio of the odds of a response in the Peginterferon alfa-2a 135 mcg group with the odds of a response in the Peginterferon alfa-2a 90 mcg group.||3.06|0.49|0.6746
92194324|NCT02806505|184288264|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.3923|TWO_SIDED|95.0|0.6|3.76||Assessed by Cochran-Mantel-Haenszel test stratified by country (Brazil, France, Other) and HCV genotype (1 vs. non-1).|Cochran-Mantel-Haenszel|||The odds ratio is the ratio of the odds of a response in the Peginterferon alfa-2a 135 mcg group with the odds of a response in the Peginterferon alfa-2a 90 mcg group.||3.76|0.60|0.3923
92194325|NCT02806505|184288265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8843|TWO_SIDED|95.0|0.43|2.68||Assessed by Cochran-Mantel-Haenszel test stratified by country (Brazil, France, Other) and HCV genotype (1 vs. non-1).|Cochran-Mantel-Haenszel|||Week 12: The odds ratio is the ratio of the odds of a response in the Peginterferon alfa-2a 135 mcg group with the odds of a response in the Peginterferon alfa-2a 90 mcg group.||2.68|0.43|0.8843
92194326|NCT02806505|184288265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.5866|TWO_SIDED|95.0|0.28|2.04||Assessed by Cochran-Mantel-Haenszel test stratified by country (Brazil, France, Other) and HCV genotype (1 vs. non-1).|Cochran-Mantel-Haenszel|||Week 24: The odds ratio is the ratio of the odds of a response in the Peginterferon alfa-2a 135 mcg group with the odds of a response in the Peginterferon alfa-2a 90 mcg group.||2.04|0.28|0.5866
92194327|NCT03898700|184288281|OTHER||Median Difference (Final Values)|2.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This one-group feasibility study examined outcomes of coaching using descriptive statistics (changed score) and the Wilcoxon signed-rank test. A changed score of 2 points reflects clinical significance. The Wilcoxon was used to determine statistical significance. Performance scores from 31 coaching goals across 7 informal caregivers were used for analysis.||||<0.001
92194328|NCT03898700|184288281|OTHER||Median Difference (Net)|2.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This one-group feasibility study examined outcomes of coaching using descriptive statistics (changed score) and the Wilcoxon signed-rank test. A changed score of 2 points reflects clinical significance. The Wilcoxon was used to determine statistical significance. Satisfaction scores from 31 coaching goals across 7 informal caregivers were used for analysis.||||<0.001
92194329|NCT04702893|184288377|OTHER|No formal hypotheses were tested.||||||0.1185|||||||Z-test of correlation|||||||0.1185
92194330|NCT04702893|184288378|OTHER|No formal hypotheses were tested.||||||0.5135|||||||Z-test of correlation|||||||0.5135
92194331|NCT04702893|184288379|OTHER|No formal hypotheses were tested.||||||0.0764|||||||Z-test of correlation|||||||0.0764
92194332|NCT04702893|184288380|OTHER|No formal hypotheses were tested.||||||0.3478|||||||Z-test of correlation|||||||0.3478
92194333|NCT03954223|184288400|SUPERIORITY|||||||0.4|TWO_SIDED|95.0|||||ANOVA|||||||0.4
92194334|NCT03954223|184288401|SUPERIORITY||Median Difference (Final Values)|-7.0||||0.2|TWO_SIDED|95.0|||||Regression, Linear|Mixed-effects generalized linear model of the glycemic profile change extracted from CGM data.||||||0.2
92194335|NCT00469456|184288431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.07||95.0|-0.1|2.8|||ANCOVA|||The primary efficacy parameter was change from Baseline to Week 12 in FLCI total score. Missing FLCI total scores at Week 12 were imputed using the last-observation-carried-forward (LOCF) approach.||2.8|-0.1|0.070
92194336|NCT00469456|184288432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9||||0.022||95.0|0.9|10.9|||ANCOVA|||The secondary efficacy parameter was change from Baseline at Week 12 in the total score of the Social Communication subscale and Communication of Basic Needs subscale of the ASHA FACS. Missing scores at week 12 were imputed using the last-observation-carried-forward (LOCF) approach.||10.9|0.9|0.022
92194337|NCT00704171|184288448|SUPERIORITY_OR_OTHER|||||||0.257|||||||Fisher Exact|||Primary objective was to demonstrate superiority of PleuraSeal as an adjunct compared to standard of care alone. Tissue closure rates for the treatment and control groups were assumed to be 0.40 and 0.15, respectively. To achieve 80 percent power (alpha=0.05, 2-tailed, Fisher's Exact Test) required 112 completed subjects. To account for potential subject withdrawals, an additional 8 subjects were to be enrolled for a total of 120 randomized subjects (approx. 60 per treatment group).||||0.257
92194338|NCT00704171|184288449|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|two-sided||||||<0.001
92194339|NCT00704171|184288450|SUPERIORITY_OR_OTHER|||||||0.79|||||||Kaplan-Meier|Kaplan-Meier method was used to obtain estimated median times for each treatment group and the log-rank test was used to compare the two treatments.||||||0.790
92194340|NCT00704171|184288451|SUPERIORITY_OR_OTHER|||||||0.559|||||||2-sample t-test|||||||0.559
92194341|NCT00704171|184288452|SUPERIORITY_OR_OTHER|||||||0.292|||||||2-sample t-test|||||||0.292
92194342|NCT00704171|184288453|SUPERIORITY_OR_OTHER|||||||0.53||||||For subgroup with pre-randomization air leak grade of 1|Fisher Exact|||||||0.53
92194343|NCT00704171|184288453|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||For subgroup with pre-randomization air leak grade of 2 or 3|Fisher Exact|||||||.013
92194344|NCT00913068|184288456|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012||95.0|||||Chi-squared|||||||0.0012
92194345|NCT04269434|184288463|NON_INFERIORITY|"The No Screening Arm is considered non-inferior if the upper limit of the 95% Confidence Interval is less than 1.25"|Incidence rate ratio|1.318|||||TWO_SIDED|95.0|1.068|1.627||||||Compared to screening group||1.627|1.068|
92194346|NCT04269434|184288464|NON_INFERIORITY|No prespecified margin|Incidence rate ratio|0.788|||||TWO_SIDED|95.0|0.719|0.863||||||For Azithromycin. Compared to screening group||0.863|0.719|
92194347|NCT04269434|184288464|NON_INFERIORITY|No prespecified margin|Incidence rate ratio|0.561|||||TWO_SIDED|95.0|0.426|0.739||||||For Ceftriaxone. Compared to screening group||0.739|0.426|
92194348|NCT04269434|184288464|NON_INFERIORITY|No prespecified margin|Incidence rate ratio|0.55|||||TWO_SIDED|95.0|0.515|0.588||||||For Doxycycline. Compared to screening group||0.588|0.515|
92194349|NCT04269434|184288465|NON_INFERIORITY|No prespecified margin.|Incidence rate ratio|1.373|||||TWO_SIDED|95.0|0.963|1.956||||||Compared to screening group||1.956|0.963|
92194350|NCT04269434|184288466|NON_INFERIORITY|No prespecified margin.|Incidence rate ratio|1.471|||||TWO_SIDED|95.0|0.943|2.299||||||Compared to screening group||2.299|0.943|
92194351|NCT01196819|184288467|NON_INFERIORITY|Non-inferiority margin is 0.13mm, if the two-sided upper 95% confidence bound is \<Δ, the Firehawk Stent being tested will be considered non-inferior to the control. This corresponds to a P value \<0.05 from a two-sided Student t-test comparing the difference between FirehawkStent and Xience stent to delta.|Mean Difference (Final Values)|0.17||||0.94|TWO_SIDED|95.0|0.0|0.29|||ANCOVA|||H0: Pe - Pc≥ ∆, H1: Pe - Pc \< ∆. Pe and Pc are the mean 9-month in-stent late loss for the subject in the Firehawk DES group and the Xience group, respectively. ∆ is the non-inferiority margin. A two-sided upper 95% confidence bound will be calculated for the difference in 9-month in-stent late loss .||0.29|0|0.94
92194352|NCT01196819|184288468|NON_INFERIORITY|Assume the in-stent percent diameter stenosis of both FIREHAWK and XIENCE V are 16 ± 16%, the non-inferiority value is 5%, the level of statistical significance is 0.05 (bilateral test), the power is 85%.||||||0.69|||||||Mixed Models Analysis|||||||0.69
92194353|NCT01196819|184288469|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92194354|NCT01196819|184288470|OTHER|||||||0.76|||||||Fisher Exact|||||||0.76
92194355|NCT01196819|184288471|OTHER|||||||0.77|||||||Fisher Exact|||||||0.77
92194356|NCT01196819|184288472|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92194357|NCT01086384|184288475|SUPERIORITY_OR_OTHER||Regression Cox|0.795|||||TWO_SIDED|95.0|0.642|0.985|||||The estimated values is the Hazard ratio obtained from the Cox regression analysis for FF/VI 100/25 µg versus FF 100 µg, adjusted for an interim analysis.|||0.985|0.642|
92194358|NCT01086384|184288475|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|15.9||||0.036|TWO_SIDED|95.0|13.5|18.2||P-value for the Hazard ratio obtained from the Cox regression analysis for FF/VI 100/25 µg versus FF 100 µg, adjusted for an interim analysis.|Regression, Cox||The estimated value represents the adjusted probability of 1 or more severe asthma exacerbations by Week 52 for FF 100 µg. Cox Proportional Hazards Model estimate at mean Baseline FEV1, age, and proportional coefficients for sex and region.|||18.2|13.5|0.036
92194359|NCT01086384|184288475|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|12.8||||0.036|TWO_SIDED|95.0|10.7|14.9||P-value for the Hazard ratio obtained from the Cox regression analysis for FF/VI 100/25 µg versus FF 100 µg, adjusted for an interim analysis.|Regression, Cox||The estimated value represents the adjusted probability of 1 or more severe asthma exacerbations by Week 52 for FF/VI 100/25 µg. Cox Proportional Hazards Model estimate at mean Baseline FEV1, age, and proportional coefficients for sex and region.|||14.9|10.7|0.036
92194360|NCT02586415|184288505|SUPERIORITY||Odds Ratio (OR)|2.77|||<|0.001|TWO_SIDED|95.0|1.63|4.7||Criteria to assess superiority was a two-sided P value of \<0.05. The study was terminated early because the pre-specified stopping boundary of P \<0.0025 was crossed at the first interim analysis (N=182)|Cochran-Mantel-Haenszel|||||4.70|1.63|<0.001
92194361|NCT01841112|184288524|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.3712|||||TWO_SIDED|95.0|0.7272|2.0151|||||The standard error of slope estimate = 0.3038.|Dose proportionality was assessed in Chinese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||2.0151|0.7272|
92194362|NCT01841112|184288524|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.3652|||||TWO_SIDED|95.0|1.0421|1.6883|||||The standard error of slope estimate = 0.1516.|Dose proportionality was assessed in Japanese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||1.6883|1.0421|
92194363|NCT01841112|184288525|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.1998|||||TWO_SIDED|95.0|0.4794|1.9202|||||The standard error of slope estimate = 0.3380.|Dose proportionality was assessed in Chinese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||1.9202|0.4794|
92194364|NCT01841112|184288525|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.0299|||||TWO_SIDED|95.0|0.7131|1.3466|||||The standard error of slope estimate = 0.1486.|Dose proportionality was assessed in Japanese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||1.3466|0.7131|
92194365|NCT01841112|184288526|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.2015|||||TWO_SIDED|95.0|0.5078|1.8952|||||The standard error of slope estimate = 0.3272.|Dose proportionality was assessed in Chinese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||1.8952|0.5078|
92194366|NCT01841112|184288526|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.0301|||||TWO_SIDED|95.0|0.7133|1.3469|||||The standard error of slope estimate = 0.1486.|Dose proportionality was assessed in Japanese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||1.3469|0.7133|
92194367|NCT03029819|184288576|SUPERIORITY|||||||0.52|||||||Chi-squared|||||||.52
92194368|NCT03605368|184288584|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.13||0.23|TWO_SIDED||||||Regression, Linear|||Overall Behavior. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and BeSAFE).||||.23
92194369|NCT03605368|184288584|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.09||0.07|TWO_SIDED||||||Regression, Linear|||Appropriate Response. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and BeSAFE).||||.07
92194370|NCT03605368|184288584|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.99|TWO_SIDED||||||Regression, Linear|||Orienting. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and BeSAFE).||||.99
92194371|NCT03605368|184288584|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.16||0.005|TWO_SIDED||||||Regression, Linear|||Fidget. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and BeSAFE).||||.005
92194372|NCT03605368|184288584|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.11||0.01|TWO_SIDED||||||Regression, Linear|||Overall Behavior. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and TAU).||||.01
92194373|NCT03605368|184288584|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.09||0.04|TWO_SIDED||||||Regression, Linear|||Appropriate Response. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and TAU).||||.04
92194374|NCT03605368|184288584|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.17||0.06|TWO_SIDED||||||Regression, Linear|||Appropriate Response. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and TAU).||||.06
92194375|NCT03605368|184288584|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.14||0.09|TWO_SIDED||||||Regression, Linear|||||||.09
92194376|NCT03605368|184288585|EQUIVALENCE|A linear regression compared change in Police Interaction Knowledge scores by group (Floreo vs. TAU) from pre- to post-intervention. Significance was set at p\<.05.|Mean Difference (Final Values)|1.62|STANDARD_ERROR_OF_MEAN|2.67||0.55|TWO_SIDED||||||Regression, Linear|||||||.55
92194377|NCT03605368|184288585|EQUIVALENCE|A linear regression compared change in Police Interaction Knowledge scores by group (Floreo vs. TAU) from pre- to post-intervention. Significance was set at p\<.05.|Mean Difference (Final Values)|5.42|STANDARD_ERROR_OF_MEAN|2.73||0.05|TWO_SIDED||||||Regression, Linear|||||||.05
92194378|NCT01149876|184288586|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
92194379|NCT01149876|184288586|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|||||||.25
92194380|NCT01149876|184288586|SUPERIORITY_OR_OTHER|||||||0.48|||||||t-test, 2 sided|||||||.48
92194381|NCT02920021|184288611|SUPERIORITY||Least Squares (LS) Mean Difference|60.046|STANDARD_ERROR_OF_MEAN|79.918||0.463|TWO_SIDED|95.0|-108.566|228.657|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline value as covariate.|Treatment Difference = Etokimab - Placebo|||228.657|-108.566|0.463
92194382|NCT02920021|184288612|SUPERIORITY||LS Mean Difference|0.001|STANDARD_ERROR_OF_MEAN|0.016||0.962|TWO_SIDED|95.0|-0.031|0.032|||ANCOVA|ANCOVA model with treatment as fixed effect and baseline value as covariate.|Treatment Difference = Etokimab - Placebo|||0.032|-0.031|0.962
92194383|NCT00511836|184288667|SUPERIORITY_OR_OTHER||||||<|2e-05|||||||t-test, 1 sided|||Null hypothesis: mean treatment difference=0.||||<0.00002
92194384|NCT00511836|184288670|SUPERIORITY_OR_OTHER||||||<|0.013|||||||t-test, 1 sided|||Null hypothesis: mean treatment difference=0||||<0.013
92194385|NCT00511836|184288671|SUPERIORITY_OR_OTHER|||||||0.245|||||||t-test, 1 sided|||Null hypothesis: mean treatment difference=0||||0.245
92194386|NCT02166476|184288711|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority margin was a difference of 15%. Noninferiority was concluded if the lower limit of the two-sided 95% confidence interval (CI) for the treatment difference for overall success at EOIVT was \>-15%.|Treatment difference|4.5|||||TWO_SIDED|95.0|0.7|9.1|||||Treatment difference is the estimate of the difference in the overall success rate between the two treatment arms. The difference estimates and the 95% CIs are obtained based on Miettinen and Nurminen method.|Treatment comparison of the m-MITT population||9.1|0.7|
92194387|NCT02166476|184288712|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority margin was a difference of 15%. Meropenem-vaborbactam was claimed to be noninferior only if noninferiority was demonstrated for microbial eradication at TOC in the m-MITT Population.|Treatment difference|9.0|||||TWO_SIDED|95.0|-0.9|18.7|||||Treatment difference is the estimate of the difference in the Eradication rate between the two treatment arms. The difference estimates and the 95% CIs are obtained based on Miettinen and Nurminen method.|Treatment comparison of the m-MITT population||18.7|-0.9|
92194388|NCT02166476|184288713|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority margin was a difference of 15%. Meropenem-vaborbactam was claimed to be noninferior only if noninferiority was demonstrated for microbial eradication at TOC in the ME Population.|Treatment Difference|5.9|||||TWO_SIDED|95.0|-4.2|16.0|||||Treatment difference is the estimate of the difference in the overall success rate between the two treatment arms. The difference estimates and the 95% CIs are obtained based on Miettinen and Nurminen method.|Treatment comparison of the ME population||16.0|-4.2|
92194389|NCT00362375|184288750|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.05|TWO_SIDED|95.0|1.28|4.5|||Generalized Estimating Equation|||GEE cluster-adjusted odds ratio||4.50|1.28|<0.05
92194390|NCT00362375|184288751|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48|||<|0.05|TWO_SIDED|95.0|0.2|1.16|||GEE|||||1.16|0.20|<0.05
92194391|NCT00362375|184288752|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39|||<|0.05|TWO_SIDED|95.0|0.99|1.95|||GEE|||||1.95|0.99|<0.05
92194392|NCT00362375|184288753|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07|||<|0.05|TWO_SIDED|95.0|0.8|1.44|||GEE|GEE incident rate ratio||||1.44|0.80|<0.05
92194393|NCT00362375|184288754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44|||<|0.05|TWO_SIDED|95.0|0.76|2.71|||GEE|||||2.71|0.76|<0.05
92194394|NCT02106195|184288759|SUPERIORITY|Change from Baseline to Day 28|Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|3.04||0.324|TWO_SIDED|95.0|-3.7|1.4|||t-test, 2 sided|||||1.4|-3.7|0.324
92194395|NCT03463577|184288866|NON_INFERIORITY|The objective was to rule out a two-fold increase (non-inferiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis Ho: RR ≥ 2 was rejected if upper limit of the 98.75% CI for the adjusted RR was below 2.|Risk Ratio (RR)|1.38|||||TWO_SIDED|98.75|1.21|1.58|||||Adjusted relative risk with 98.75% CI was estimated by Poisson regression model|Demonstration of adjusted relative risk (RR) for pre-eclampsia and eclampsia in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was less than 2 (non-inferiority testing).||1.58|1.21|
92317483|NCT00607620|184539494|SUPERIORITY||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-1.02|0.99|||||The data represented refers to the group mean difference (intervention versus control) of the change score between 6-months and 12-months.|||0.99|-1.02|
92194396|NCT03463577|184288866|NON_INFERIORITY|The objective was to rule out a two-fold increase (non-inferiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis Ho: RR ≥ 2 was rejected if upper limit of the 98.75% CI for the adjusted RR was below 2.|Risk Ratio (RR)|1.28|||||TWO_SIDED|98.75|1.12|1.47|||||Adjusted relative risk with 98.75% CI was estimated by Poisson regression model|Demonstration of adjusted RR for intra-uterine infections (chorioamnionitis and endometritis) in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was less than 2 (non-inferiority testing).||1.47|1.12|
92317484|NCT00444535|184539523|OTHER|Clopper-Pearson exact test (binomial)|Exact binomial procedure|69.2||||||95.0|54.9|81.3||||||||81.3|54.9|
92317485|NCT01568892|184539530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.16|||<|0.001|TWO_SIDED|95.0|-1.52|-0.8|||ANCOVA||The estimated value represents the adjusted mean difference between the two treatment arms.|||-0.80|-1.52|<0.001
92317486|NCT01169064|184539568|SUPERIORITY_OR_OTHER|||||||0.365|||||||Chi-squared|||||||.365
92317487|NCT01169064|184539569|SUPERIORITY|||||||0.282|||||||Mixed Models Analysis|||||||.282
92317488|NCT01697748|184539588|SUPERIORITY|With an SSI rate of 15% at Tampa General Hospital at the time of study design, a sample size of 600 patients was determined to provide a power of 80% to detect a 50% absolute reduction (15 vs. 7.5%) surgical site infection at a two sided alpha = 0.05. Assuming an approximate 10% dropout loss to follow up rate, the total sample size was adjusted to 660.|Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.44|1.96||Variables with at least a borderline association with a treatment arm (P≤ .10) were included in a multiple logistic regression model to verify which is independently associated with the outcome of interest||No P values were reported for the association between dressing type and infection, only relative risk and 95% confidence intervals were reported.||With an SSI rate of 15% at Tampa General Hospital at the time of study design, a sample size of 600 patients was determined to provide a power of 80% to detect a 50% absolute reduction (15 vs. 7.5%) surgical site infection at a two sided alpha = 0.05. Assuming an approximate 10% dropout loss to follow up rate, the total sample size was adjusted to 660.|Besides the Chi Square, Fisher's Exact test, Student T-test, Mann Whitney U test, and logistic regression were utilized where appropriate|1.96|0.44|
92317489|NCT01697748|184539588|SUPERIORITY|With an SSI rate of 15% at Tampa General Hospital at the time of study design, a sample size of 600 patients was determined to provide a power of 80% to detect a 50% absolute reduction (15% vs. 7.5%) surgical site infection at a two side alpha = 0.05. Assuming an approximate 10% dropout loss to follow up rate, the total sample size was adjusted to 660.|||||<|0.05|TWO_SIDED|95.0||||Variables with at least a borderline association (P≤.10) were then included in a multiple logistic regression model to verify which is independently associated with the outcome of interest|Mixed Models Analysis|In addition to the Chi-Square, Fisher's exact test, Student T-Test, Mann Whitney U test and logistic regression were utilized when appropriate.||||||<0.05
92317490|NCT01697748|184539589|SUPERIORITY||||||<|0.05|||||||see below|Chi square, Fisher Exact, Student t-test, Wilcoxon-Mann-Whitney test where appropriate|||In addition to Chi-Square, Fisher's Exact test, Student T-test, Wilcoxon-Mann Whitney test were utilized where appropriate|||<.05
92317491|NCT01697748|184539590|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Chi Square, Fisher's Exact, Student's T test, Wilcoxon-Mann-Whitney test and logistic regression when appropriate,|||Besides the Chi Square, Fisher's Exact test, Student T-test, Wilcoxon-Mann-Whitney Test, and logistic regression were utilized where appropriate|||<.05
92317492|NCT01697748|184539590|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Chi Square, Fisher Exact, Student t-test, Wilcoxon-Mann-Whitney test|||Besides the Chi Square, Fisher's Exact test, Student T-test, Wilcoxon-Mann-Whitney test and logistic regression were utilized where appropriate|||<.05
92317493|NCT01697748|184539592|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis||||Besides the Chi Square, Fisher's Exact test, Student T-test, Wilcoxon-Mann-Whitney test, and logistic regression were utilized where appropriate|||<0.05
92317494|NCT01697748|184539593|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis||||In addition to the Chi-square, Fisher's exact test, Student T-Test, Wilcoxon-Mann-Whitney test and logistic regression were utilized where approprate|||<0.05
92317495|NCT02104219|184539598|SUPERIORITY_OR_OTHER|||||||0.0755|TWO_SIDED|||||The p-value is based on a nonparametric sign test used to determine whether the median RGI-C score differs from 0 for each time interval. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||Pairs of radiographs were centrally evaluated by 3 independent, blinded pediatric radiologists trained in the assessment of the skeletal manifestations of HPP. The mean RGI-C score across the 3 radiologists was calculated and served as the patient's RGI-C score for a specific time point||||0.0755
92317496|NCT02104219|184539599|SUPERIORITY_OR_OTHER|||||||0.6344|TWO_SIDED|||||The p-value is based on a nonparametric sign test used to determine whether the median change in height Z-score from baseline to last assessment differs from 0. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||The earliest documented height measurement that was abstracted within the period from 5 to 15 years of age, inclusive, was defined as the baseline height. Height measurements were assigned to Z-scores calculated using Centers for Disease Control and Prevention 2000 growth charts and methodology. Changes in height Z-score from Baseline were computed by subtracting baseline height Z-score from post baseline height Z-scores. The post baseline time points were grouped by time intervals.||||0.6344
92317497|NCT02104219|184539600|SUPERIORITY_OR_OTHER|||||||0.452|TWO_SIDED|||||The p-value is based on a nonparametric sign test used to determine whether the median change in weight Z-score from baseline to last assessment differs from 0. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||The earliest documented weight measurement that was abstracted within the period from 5 to 15 years of age, inclusive, was defined as the baseline weight. Weight measurements were assigned to Z-scores calculated using Centers for Disease Control and Prevention 2000 growth charts and methodology. Changes in weight Z-score from Baseline were computed by subtracting baseline weight Z-score from post baseline weight Z-scores. The post baseline time points were grouped by time intervals.||||0.4520
92194397|NCT03463577|184288867|NON_INFERIORITY|The objective was to rule out a two-fold increase (non-inferiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis Ho: RR ≥ 2 was rejected if upper limit of the 98.75% CI for the adjusted RR was below 2.|Risk Ratio (RR)|0.71|||||TWO_SIDED|98.75|0.64|0.78|||||Adjusted relative risk with 98.75% CI was estimated by Poisson regression model|Demonstration of adjusted RR for preterm delivery in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was less than 2 (non-inferiority testing).||0.78|0.64|
92194398|NCT03463577|184288868|NON_INFERIORITY|The objective was to rule out a two-fold increase (non-inferiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis Ho: RR ≥ 2 was rejected if upper limit of the 98.75% CI for the adjusted RR was below 2.|Risk Ratio (RR)|1.04|||||TWO_SIDED|98.75|0.94|1.16|||||Adjusted RR with 98.75% CI-Poisson regression model|Demonstration of adjusted RR for small for gestational age in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was less than 2 (non-inferiority testing).||1.16|0.94|
92194399|NCT03463577|184288869|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. Superiority to be concluded if lower limit of the 95% CI for the adjusted RR is above 1.|Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.7|0.98|||||Adjusted RR with 95% CI -Poisson regression model|Assessment of adjusted RR for poor fetal growth in the Exposed pregnant women cohort (on or after 1st day of 27th week of pregnancy) compared to the Unexposed historical women cohort was 1 or differed from 1 (superiority testing).||0.98|0.70|
92194400|NCT03463577|184288869|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. Superiority to be concluded if lower limit of the 95% CI for the adjusted RR is above 1.|Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.99|1.72|||||Adjusted RR with 95% CI - Poisson regression model|Assessment of adjusted RR for placental abortion in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was 1 or differed from 1 (superiority testing).||1.72|0.99|
92194401|NCT03463577|184288869|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. Superiority to be concluded if lower limit of the 95% CI for the adjusted RR is above 1.|Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.64|0.91|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for preterm pre-labor rupture of membranes in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was 1 or differed from 1 (superiority testing).||0.91|0.64|
92194402|NCT03463577|184288870|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR =1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|0.38|||||TWO_SIDED|95.0|0.22|0.67|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for stillbirth/fetal death in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was 1 or differed from 1 (superiority testing).||0.67|0.22|
92194403|NCT03463577|184288870|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.86|1.33|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for transfusion during delivery hospitalization in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was 1 or differed from 1 (superiority testing).||1.33|0.86|
92194404|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.38|1.73|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for neonatal death in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.73|0.38|
92194405|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.35|||||TWO_SIDED|95.0|0.81|2.24|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of nervous system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||2.24|0.81|
92317498|NCT02104219|184539601|SUPERIORITY_OR_OTHER|||||||0.4545|TWO_SIDED|||||The p-value is based on a nonparametric sign test used to determine whether change from baseline in the median RSS score differs from 0 for each time interval. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||The Baseline x-ray set defined for RGI-C, which was compared with its subsequent x-ray sets, was also used as the Baseline x-ray set for the RSS reading. Changes from Baseline were computed based on this baseline RSS score, and postbaseline time points were grouped by intervals of time from Baseline.||||0.4545
92317499|NCT02375971|184539602|SUPERIORITY|The primary efficacy variable was treatment success, defined as the absence of active ROP and absence of unfavorable structural outcomes in both eyes 24 weeks after starting study treatment.|Odds Ratio (OR)|2.19||||0.0254|TWO_SIDED|95.0|0.9932|4.8235|||Cochran-Mantel-Haenszel|||||4.8235|0.9932|0.0254
92317500|NCT03810092|184539635|OTHER||Odds Ratio, log|-0.04||||0.05|TWO_SIDED|95.0|-0.55|0.42|||Regression, Linear|||Relationship between ADL score evolution and hemoglobine rate, in the no transfusion group||0.42|-0.55|0.05
92317501|NCT03810092|184539635|OTHER||Odds Ratio, log|0.39||||0.05|TWO_SIDED|95.0|-1.0|2.2|||Regression, Logistic|||Relationship between ADL score evolution and hemoglobine rate, in the transfusion group||2.2|-1|0.05
92317502|NCT00806403|184539636|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Fisher Exact|||Null hypothesis:there is no difference in ST resolution at 120 minutes after inclusion between thrombolysis and primary PCI. The power calculation was based on the aim to prove a 50% reduction of failure to achive at least a 50% ST resolution (40% failure in thrombolysis group and 20% failure in Primary PCI group). With a power of 80% and a significance level of 0.05 (2-sided test), a total of 166 patients would be required.||||0.56
92317503|NCT00806403|184539637|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
92317504|NCT00806403|184539638|SUPERIORITY_OR_OTHER|||||||0.04|||||||Fisher Exact|||Null hypothesis:there is no difference in number of patients with TIMI 3 flow at 5-7 days after inclusion between thrombolysis and primary PCI. The power calculation was based on the aim to prove a 65% reduction of failure to achive TIMI 3 flow (30% failure in thrombolysis group and 10% failure in Primary PCI group). With a power of 90% and a significance level of 0.05 (2-sided test), a total of 180 patients would be required.||||0.04
92317505|NCT00806403|184539639|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Fisher Exact|||||||0.50
92317506|NCT00806403|184539640|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Fisher Exact|||||||0.21
92317507|NCT01320293|184539644|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 1 sided|||Null hypothesis: Percent change in endothelial function from baseline visit to end of treatment/month 6 will be zero change. (percent change=0)||||<0.05
92317508|NCT01320293|184539645|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 1 sided|||Null hypothesis: change in IL-6 levels from baseline visit to end of treatment/month 6 will be zero change. (percent change=0)||||<0.05
92317509|NCT01320293|184539646|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 1 sided|||Null hypothesis: change in adiponectin levels from baseline visit to end of treatment/month 6 will be zero change. (percent change=0)||||0.05
92317510|NCT01787292|184539652|SUPERIORITY|||||||0.001||||||To account for sequence carryover, we employed analysis of covariance inclusive of sequence by period covariates against treatment effects.|ANCOVA|Least square means were adjusted for carryover from the crossover design and between subjects effects were analyzed using Kenward-Roger df estimation||||||.001
92194406|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.17|||||TWO_SIDED|95.0|1.06|1.29|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of eye in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.29|1.06|
92317511|NCT01787292|184539653|SUPERIORITY|||||||0.8|||||||ANCOVA|||To account for sequence carryover, we employed analysis of covariance inclusive of sequence by period covariates against treatment effects.||||.8
92317512|NCT01787292|184539654|SUPERIORITY|||||||0.05||||||To account for sequence carryover, we employed analysis of covariance inclusive of sequence by period covariates against treatment effects.|ANCOVA|||||||.05
92317513|NCT01787292|184539655|SUPERIORITY|||||||0.05||||||To account for sequence carryover, we employed analysis of covariance inclusive of sequence by period covariates against treatment effects.|ANCOVA|A Kenward-Rogers adjustment for degrees of freedom was made to account for carryover effects.||||||.05
92317514|NCT01787292|184539656|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
92317515|NCT01787292|184539657|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
92317516|NCT01787292|184539658|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
92317517|NCT01787292|184539659|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||.5
92317518|NCT01787292|184539660|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|A Kenward-Rogers adjustment for df was made to account for carryover effects.||||||.6
92317519|NCT01787292|184539661|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||.4
92317520|NCT01787292|184539662|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||.05
92317521|NCT01787292|184539663|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||.25
92317522|NCT01787292|184539664|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
92317523|NCT01597778|184539685|SUPERIORITY||Difference in Kaplan-Meier estimates|6.1||||0.4092|TWO_SIDED|95.0|-5.2|17.4||Statistical significance was determined using a pre-specified threshold of 0.05. Final p-value is adjusted for the interim looks per study design.|Z-test to compare the Kaplan-Meier Est.|||The primary null hypothesis of the study is that there is no difference between the 2 year PFS probabilities for dUCB vs. haplo-BM.||17.4|-5.2|0.4092
92317524|NCT01597778|184539685|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.06|TWO_SIDED|95.0|0.99|1.7||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||The null hypothesis of the study is that there is no difference between the 2 year PFS probabilities for dUCB vs. haplo-BM after adjustment for age, performance score, and disease type.||1.70|0.99|0.060
92317525|NCT01597778|184539687|SUPERIORITY|||||||0.046||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death before neutrophil recovery is competing risk.||The null hypothesis is that there is no difference between the neutrophil engraftment post-transplantation for dUCB vs. haplo-BM.||||0.046
92317526|NCT01597778|184539688|SUPERIORITY|||||||0.16||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death before Platelet recovery is competing risk.||The null hypothesis is that there is no difference between the platelet engraftment to 20k post-transplantation for dUCB vs. haplo-BM.||||0.160
92317527|NCT01597778|184539688|SUPERIORITY|||||||0.146||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death before Platelet recovery is competing risk.||The null hypothesis is that there is no difference between the platelet engraftment to 50k post-transplantation for dUCB vs. haplo-BM.||||0.146
92317528|NCT01597778|184539690|SUPERIORITY|||||||0.693||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death before 2nd graft failure is competing risk.||The null hypothesis is that there is no difference between the secondary graft failure probabilities post-transplantation for dUCB vs. haplo-BM.||||0.693
92317529|NCT01597778|184539691|SUPERIORITY|||||||0.142||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death prior to aGVHD is competing risk.||The null hypothesis is that there is no difference between the aGVHD grade II - IV probabilities post-transplantation for dUCB vs. haplo-BM.||||0.142
92268582|NCT04636437|184439030|SUPERIORITY||Mean Difference (Net)|-7.1||||0.48|TWO_SIDED|97.5|-29.7|15.47||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting triglycerides, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting triglycerides from entry to week 48.||15.47|-29.7|0.48
92268583|NCT04636437|184439031|SUPERIORITY||Mean Difference (Net)|-15.2||||0.3|TWO_SIDED|97.5|-48.6|18.2||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting triglycerides, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting triglycerides from entry to week 24.||18.20|-48.6|0.30
92268584|NCT04636437|184439031|SUPERIORITY||Mean Difference (Net)|-18.5||||0.21|TWO_SIDED|97.5|-51.8|14.76||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting triglycerides, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting triglycerides from entry to week 24.||14.76|-51.8|0.21
92268585|NCT04636437|184439032|SUPERIORITY||Mean Difference (Net)|-2.84||||0.58|TWO_SIDED|97.5|-14.4|8.72||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting LDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting LDL from entry to week 48.||8.72|-14.4|0.58
92268586|NCT04636437|184439032|SUPERIORITY||Mean Difference (Net)|-6.88||||0.16|TWO_SIDED|97.5|-18.0|4.2||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting LDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting LDL from entry to week 48.||4.20|-18.0|0.16
92268587|NCT04636437|184439033|SUPERIORITY||Mean Difference (Net)|-2.92||||0.47|TWO_SIDED|97.5|-12.1|6.27||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting LDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting LDL from entry to week 24.||6.27|-12.1|0.47
92268588|NCT04636437|184439033|SUPERIORITY||Mean Difference (Net)|-15.1|||<|0.001|TWO_SIDED|97.5|-24.2|-5.91||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting LDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting LDL from entry to week 24.||-5.91|-24.2|<0.001
92268589|NCT04636437|184439034|SUPERIORITY||Mean Difference (Net)|0.8||||0.79|TWO_SIDED|97.5|-6.17|7.77||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting HDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting HDL from entry to week 48.||7.77|-6.17|0.79
92268590|NCT04636437|184439034|SUPERIORITY||Mean Difference (Net)|-5.46||||0.063|TWO_SIDED|97.5|-12.1|1.16||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting HDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting HDL from entry to week 48.||1.16|-12.1|0.063
92268591|NCT04636437|184439035|SUPERIORITY||Mean Difference (Net)|-1.38||||0.27|TWO_SIDED|97.5|-4.21|1.45||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting HDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting HDL from entry to week 24.||1.45|-4.21|0.27
92268592|NCT04636437|184439035|SUPERIORITY||Mean Difference (Net)|-5.45|||<|0.001|TWO_SIDED|97.5|-8.25|-2.66||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting HDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting HDL from entry to week 24.||-2.66|-8.25|<0.001
92317530|NCT01597778|184539691|SUPERIORITY|||||||0.604||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death prior to aGVHD is competing risk.||The null hypothesis is that there is no difference between the aGVHD grade III - IV probabilities post-transplantation for dUCB vs. haplo-BM.||||0.604
92317531|NCT01597778|184539692|SUPERIORITY|||||||0.361||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death before cGVHD is competing risk.||The null hypothesis is that there is no difference between the cGVHD probabilities post-transplantation for dUCB vs. haplo-BM.||||0.361
92317532|NCT01597778|184539693|SUPERIORITY|||||||0.0373||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Log Rank|||The null hypothesis is that there is no difference between the OS probabilities at year 2 post-randomization for dUCB vs. haplo-BM.||||0.0373
92317533|NCT01597778|184539693|SUPERIORITY|||||||0.0235||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Log Rank|||The null hypothesis is that there is no difference between the OS probabilities at year 2 post-transplant for dUCB vs. haplo-BM.||||0.0235
92317534|NCT01597778|184539694|SUPERIORITY|||||||0.039||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality across the two treatment groups.||The null hypothesis is that there is no difference between the TRM probabilities post-randomization for dUCB vs. haplo-BM.||||0.039
92317535|NCT01597778|184539694|SUPERIORITY|||||||0.03||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality across the two treatment groups.||The null hypothesis is that there is no difference between the TRM probabilities post-transplantation for dUCB vs. haplo-BM||||0.030
92317536|NCT01597778|184539695|SUPERIORITY|||||||0.968||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death prior to relapse is competing risk.||The null hypothesis is that there is no difference between the relapse/progression probabilities post-randomization for dUCB vs. haplo-BM.||||0.968
92317537|NCT01597778|184539695|SUPERIORITY|||||||0.907||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death prior to relapse is competing risk.||The null hypothesis is that there is no difference between the relapse/progression probabilities post- transplantation for dUCB vs. haplo-BM.||||0.907
92317538|NCT01597778|184539698|SUPERIORITY|||||||0.0003||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference between the total duration of hospitalization within 6 months post-randomization for dUCB vs. haplo-BM.||||0.0003
92317539|NCT05691712|184539703|SUPERIORITY||LS Mean Difference|-16.1|||<|0.001|TWO_SIDED|95.0|-19.9|-12.36|||Mixed Models Analysis|||||-12.36|-19.9|<0.001
92317540|NCT05691712|184539703|SUPERIORITY||LS Mean Difference|-15.9|||<|0.001|TWO_SIDED|95.0|-19.7|-12.1|||Mixed Models Analysis|||||-12.10|-19.7|<0.001
92317541|NCT05691712|184539704|SUPERIORITY||LS Mean Difference|-13.06|||<|0.001|TWO_SIDED|95.0|-16.8|-9.34|||Mixed Models Analysis|||||-9.34|-16.8|<0.001
92317542|NCT05691712|184539705|SUPERIORITY||LS Mean Difference|-4.4|||<|0.001|TWO_SIDED|95.0|-5.8|-2.9|||Mixed Models Analysis|||||-2.9|-5.8|<0.001
92317543|NCT05691712|184539705|SUPERIORITY||LS Mean Difference|-6.5|||<|0.001|TWO_SIDED|95.0|-8.0|-5.0|||Mixed Models Analysis|||||-5.0|-8.0|<0.001
92317544|NCT05691712|184539705|SUPERIORITY||LS Mean Difference|-6.0|||<|0.001|TWO_SIDED|95.0|-7.5|-4.5|||Mixed Models Analysis|||||-4.5|-7.5|<0.001
92317545|NCT05691712|184539707|SUPERIORITY||LS Mean Difference|-21.9|||<|0.001|TWO_SIDED|95.0|-32.4|-11.3|||Mixed Models Analysis|||||-11.3|-32.4|<0.001
92317546|NCT05691712|184539707|SUPERIORITY||LS Mean Difference|-28.9|||<|0.001|TWO_SIDED|95.0|-39.6|-18.1|||Mixed Models Analysis|||||-18.1|-39.6|<0.001
92317547|NCT05691712|184539707|SUPERIORITY||LS Mean Difference|-27.3|||<|0.001|TWO_SIDED|95.0|-38.2|-16.5|||Mixed Models Analysis|||||-16.5|-38.2|<0.001
92317548|NCT00226499|184539738|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|94.943|||<|0.0001|TWO_SIDED|97.5|92.446|96.615|||Regression, Cox|||Vaccine Efficacy (VE) was measured by calculating the relative risk of a confirmed varicella case in a vaccine group compared to a confirmed varicella case in the control group.||96.615|92.446|<0.0001
92317549|NCT00226499|184539738|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|65.428||||0.1265|TWO_SIDED|97.5|57.182|72.086|||Regression, Cox|||Vaccine Efficacy (VE) was measured by calculating the relative risk of a confirmed varicella case in a vaccine group compared to a confirmed varicella case in the control group.||72.086|57.182|0.1265
92317550|NCT00226499|184539739|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|99.498||||0.0001|TWO_SIDED|95.0|97.522|99.898|||Regression, Cox|||VE was measured by calculating the relative risk of a moderate or severe confirmed varicella case in a vaccine group compared to a moderate or severe confirmed varicella case in the control group.||99.898|97.522|0.0001
92317551|NCT00226499|184539739|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|90.741||||0.1265|TWO_SIDED|95.0|85.866|93.934|||Regression, Cox|||VE was measured by calculating the relative risk of a moderate or severe confirmed varicella case in a vaccine group compared to a moderate or severe confirmed varicella case in the control group.||93.934|85.866|0.1265
92317552|NCT00226499|184539740|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|92.487|||<|0.0001|TWO_SIDED|95.0|89.927|94.396|||Regression, Cox|||VE was measured by calculating the relative risk of a probable or confirmed varicella case in a vaccine group compared to a probable or confirmed varicella case in the control group.||94.396|89.927|<0.0001
92317553|NCT00226499|184539740|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|64.585||||0.1265|TWO_SIDED|95.0|57.503|70.486|||Regression, Cox|||VE was measured by calculating the relative risk of a probable or confirmed varicella case in a vaccine group compared to a probable or confirmed varicella case in the control group.||70.486|57.503|0.1265
92317554|NCT00226499|184539760|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|95.855|||<|0.0001|TWO_SIDED|95.0|94.075|97.101|||Regression, Cox|||VE was measured by calculating the relative risk of a confirmed varicella case in a vaccine group compared to a confirmed varicella case in the control group.||97.101|94.075|<0.0001
92317555|NCT00226499|184539760|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|69.812||||0.1265|TWO_SIDED|95.0|62.848|75.47|||Regression, Cox|||VE was measured by calculating the relative risk of a confirmed varicella case in a vaccine group compared to a confirmed varicella case in the control group.||75.470|62.848|0.1265
92317556|NCT00226499|184539761|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|99.072|||<|0.0001|TWO_SIDED|95.0|97.907|99.589|||Regression, Cox|||VE was measured by calculating the relative risk of a moderate or severe confirmed varicella case in a vaccine group compared to a moderate or severe confirmed varicella case in the control group.||99.589|97.907|<0.0001
92317557|NCT00226499|184539761|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|89.532||||0.1265|TWO_SIDED|95.0|86.126|92.102|||Regression, Cox|||VE was measured by calculating the relative risk of a moderate or severe confirmed varicella case in a vaccine group compared to a moderate or severe confirmed varicella case in the control group.||92.102|86.126|0.1265
92317558|NCT00226499|184539762|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|94.816|||<|0.0001|TWO_SIDED|95.0|92.838|96.248|||Regression, Cox|||VE was measured by calculating the relative risk of a probable or confirmed varicella case in a vaccine group compared to a probable or confirmed varicella case in the control group.||96.248|92.838|<0.0001
92317559|NCT00226499|184539762|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|68.932||||0.1265|TWO_SIDED|95.0|61.893|74.671|||Regression, Cox|||VE was measured by calculating the relative risk of a probable or confirmed varicella case in a vaccine group compared to a probable or confirmed varicella case in the control group.||74.671|61.893|0.1265
92317560|NCT02524847|184539775|OTHER||Overall response rate (%)|55.2|||<|0.001|TWO_SIDED|95.0|35.7|73.6|||t-test, 2 sided|2-sided p-value for testing the null hypothesis H0: Standard therapy has a CR+PR rate = 10% after 4 weeks, using the exact Binomial test.||||73.6|35.7|<.001
92194407|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|2.02|||||TWO_SIDED|95.0|1.59|2.55|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of ear, face or neck in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing.||2.55|1.59|
92317561|NCT01268527|184539790|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|711.4||||0.0038|TWO_SIDED|95.0|292.5|1130.3|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, Least Squares Means (LSM), and Confidence Intervals (CI) were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||1130.3|292.5|0.0038
92317562|NCT01268527|184539790|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|1119.8|||<|0.0001|TWO_SIDED|95.0|858.9|1380.6|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||1380.6|858.9|<0.0001
92317563|NCT01268527|184539790|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|780.0||||0.0523|TWO_SIDED|95.0|-8.5|1568.5|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||1568.5|-8.5|0.0523
92317564|NCT01268527|184539790|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|1775.1|||<|0.0001|TWO_SIDED|95.0|1392.3|2158.0|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||2158.0|1392.3|<0.0001
92317565|NCT01268527|184539790|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|921.4||||0.0002|TWO_SIDED|95.0|515.7|1327.1|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||1327.1|515.7|0.0002
92194408|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|0.96|1.31|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of cardiovascular system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infant cohort was 1 or differed from 1 (superiority testing).||1.31|0.96|
92268593|NCT04636437|184439036|SUPERIORITY||Mean Difference (Net)|1.55||||0.77|TWO_SIDED|97.5|-10.3|13.44||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting glucose, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting glucose from entry to week 48.||13.44|-10.3|0.77
92268594|NCT04636437|184439036|SUPERIORITY||Mean Difference (Net)|-5.23||||0.3|TWO_SIDED|97.5|-16.7|6.2||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting glucose, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting glucose from entry to week 48.||6.20|-16.7|0.30
92268595|NCT04636437|184439037|SUPERIORITY||Mean Difference (Net)|0.18||||0.96|TWO_SIDED|97.5|-8.78|9.15||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting glucose, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting glucose from entry to week 24.||9.15|-8.78|0.96
92268596|NCT04636437|184439037|SUPERIORITY||Mean Difference (Net)|-6.32||||0.11|TWO_SIDED|97.5|-15.2|2.55||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting glucose, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting glucose from entry to week 24.||2.55|-15.2|0.11
92268597|NCT04636437|184439038|SUPERIORITY||Mean Difference (Net)|8.07||||0.16|TWO_SIDED|97.5|-4.93|21.06||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting insulin, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting insulin from entry to week 48.||21.06|-4.93|0.16
92268598|NCT04636437|184439038|SUPERIORITY||Mean Difference (Net)|8.89||||0.1|TWO_SIDED|97.5|-3.37|21.15||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting insulin, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting insulin from entry to week 48.||21.15|-3.37|0.10
92268599|NCT04636437|184439039|SUPERIORITY||Mean Difference (Net)|4.28||||0.37|TWO_SIDED|97.5|-6.42|14.99||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting insulin, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting insulin from entry to week 24.||14.99|-6.42|0.37
92268600|NCT04636437|184439039|SUPERIORITY||Mean Difference (Net)|0.37||||0.94|TWO_SIDED|97.5|-10.0|10.77||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting insulin, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting insulin from entry to week 24.||10.77|-10.0|0.94
92268601|NCT04636437|184439040|SUPERIORITY||Mean Difference (Net)|2.77||||0.2|TWO_SIDED|97.5|-2.08|7.63||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry HOMA-IR, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in HOMA-IR from entry to week 48.||7.63|-2.08|0.20
92268602|NCT04636437|184439040|SUPERIORITY||Mean Difference (Net)|2.21||||0.28|TWO_SIDED|97.5|-2.44|6.87||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry HOMA-IR, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in HOMA-IR from entry to week 48.||6.87|-2.44|0.28
92268603|NCT04636437|184439041|SUPERIORITY||Mean Difference (Net)|1.79||||0.24|TWO_SIDED|97.5|-1.68|5.25||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry HOMA-IR, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in HOMA-IR from entry to week 24.||5.25|-1.68|0.24
92268604|NCT04636437|184439041|SUPERIORITY||Mean Difference (Net)|-0.57||||0.7|TWO_SIDED|97.5|-3.91|2.78||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry HOMA-IR, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in HOMA-IR from entry to week 24.||2.78|-3.91|0.70
92268605|NCT04636437|184439043|SUPERIORITY|||||||0.43||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of Grade ≥3 AEs from entry to week 48.||||0.43
92317566|NCT01268527|184539790|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|937.8||||0.0115|TWO_SIDED|95.0|267.6|1607.9|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||1607.9|267.6|0.0115
92194409|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.34|||||TWO_SIDED|95.0|1.07|1.68|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of respiratory system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was1 or differed from 1 (superiority testing).||1.68|1.07|
92268606|NCT04636437|184439043|SUPERIORITY|||||||0.26||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of Grade ≥3 AEs from entry to week 48.||||0.26
92268607|NCT04636437|184439044|SUPERIORITY|||||||0.008||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of \>10% reduction in CrCl from entry to week 48.||||0.008
92268608|NCT04636437|184439044|SUPERIORITY|||||||0.068||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of \>10% reduction in CrCl from entry to week 48.||||0.068
92268609|NCT04636437|184439045|SUPERIORITY|||||||0.2||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of premature discontinuation of study treatment from entry to week 48.||||0.20
92268610|NCT04636437|184439045|SUPERIORITY|||||||0.56||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of premature discontinuation of study treatment from entry to week 48.||||0.56
92268611|NCT04636437|184439046|SUPERIORITY||Mean Difference (Net)|3.43||||0.13|TWO_SIDED|97.5|-1.62|8.47||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry total fat, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in total fat from entry to week 48.||8.47|-1.62|0.13
92268612|NCT04636437|184439046|SUPERIORITY||Mean Difference (Net)|-0.09||||0.97|TWO_SIDED|97.5|-4.89|4.72||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry total fat, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in total fat from entry to week 48.||4.72|-4.89|0.97
92268613|NCT04636437|184439047|SUPERIORITY||Mean Difference (Net)|0.31||||0.78|TWO_SIDED|97.5|-2.18|2.8||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry lean mass, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in lean mass from entry to week 48.||2.80|-2.18|0.78
92268614|NCT04636437|184439047|SUPERIORITY||Mean Difference (Net)|1.24||||0.23|TWO_SIDED|97.5|-1.11|3.59||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry lean mass, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in lean mass from entry to week 48.||3.59|-1.11|0.23
92268615|NCT04636437|184439048|SUPERIORITY||Mean Difference (Net)|3.71||||0.18|TWO_SIDED|97.5|-2.48|9.9||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry trunk fat, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in trunk fat from entry to week 48.||9.90|-2.48|0.18
92268616|NCT04636437|184439048|SUPERIORITY||Mean Difference (Net)|-1.35||||0.6|TWO_SIDED|97.5|-7.23|4.53||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry trunk fat, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in trunk fat from entry to week 48.||4.53|-7.23|0.60
92268617|NCT04636437|184439049|SUPERIORITY||Mean Difference (Net)|4.19||||0.094|TWO_SIDED|97.5|-1.45|9.83||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear|||Null hypothesis: There is no difference between the two arms in percent change in limb fat from entry to week 48.|Mean difference and CI come from a linear regression model adjusting for entry limb fat, sex, and race (Black and not Black).|9.83|-1.45|0.094
92268618|NCT04636437|184439049|SUPERIORITY||Mean Difference (Net)|1.76||||0.46|TWO_SIDED|97.5|-3.59|7.11||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear|||Null hypothesis: There is no difference between the two arms in percent change in limb fat from entry to week 48.|Mean difference and CI come from a linear regression model adjusting for entry limb fat, sex, and race (Black and not Black).|7.11|-3.59|0.46
92268619|NCT04636437|184439050|SUPERIORITY||Mean Difference (Net)|2.19||||0.26|TWO_SIDED|97.5|-2.19|6.56||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry appendicular lean mass, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in appendicular lean mass from entry to week 48.||6.56|-2.19|0.26
92194410|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.41||||||95.0|0.78|2.57|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for clefts in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||2.57|0.78|
92194411|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.75|||||TWO_SIDED|95.0|1.57|1.95|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of upper gastrointestinal system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.95|1.57|
92194412|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|0.63|||||TWO_SIDED|95.0|0.36|1.12|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of lower gastrointestinal system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.12|0.36|
92194413|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.19|||||TWO_SIDED|95.0|1.01|1.42|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of genital organs in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.42|1.01|
92194414|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.4|||||TWO_SIDED|95.0|1.04|1.88|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of renal system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing.||1.88|1.04|
92194415|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.5||||||95.0|1.21|1.86|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of musculoskeletal system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.86|1.21|
92194416|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.13|||||TWO_SIDED|95.0|0.85|1.52|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of limb in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.52|0.85|
92194417|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.98|||||TWO_SIDED|95.0|1.76|2.23|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of integument in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||2.23|1.76|
92194418|NCT03463577|184288871|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.64|1.85|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for other and unspecified congenital anomalies in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.85|0.64|
92194419|NCT00236184|184288879|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared, Corrected|||||||<0.001
92194420|NCT01101997|184288880|SUPERIORITY||sucess proportion|0.853|||<|0.001|TWO_SIDED|95.0|0.773|0.91|||Chi-squared|||H0: p= 0.6 and Ha: p ≠ 0.6||.910|.773|<0.001
92194421|NCT01101997|184288881|OTHER||Mean Difference (Net)|-1.9|STANDARD_DEVIATION|2.49|||TWO_SIDED|||||||||||||
92317567|NCT01268527|184539791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|101.5||||0.0042|TWO_SIDED|95.0|36.0|167.0|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||167.0|36.0|0.0042
92194422|NCT01841697|184288883|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the two-sided 95% confidence interval for the mean difference between omarigilptin and sitagliptin is less than the non-inferiority margin, δ =0.3%, then omarigliptin will be declared non-inferior to sitagliptin in terms of A1C reduction at Week 24.|Difference in least squares mean|-0.03|||||TWO_SIDED|95.0|-0.15|0.08|||||Difference is omarigliptin minus sitagliptin.|Constrained longitudinal data analysis||0.08|-0.15|
92317568|NCT01268527|184539791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|182.4|||<|0.0001|TWO_SIDED|95.0|140.3|224.4|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||224.4|140.3|<0.0001
92317569|NCT01268527|184539791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|169.5|||<|0.0001|TWO_SIDED|95.0|127.4|211.5|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||211.5|127.4|<0.0001
92317570|NCT01268527|184539791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|246.6|||<|0.0001|TWO_SIDED|95.0|185.0|308.1|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||308.1|185.0|<0.0001
92317571|NCT01268527|184539791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|132.3||||0.0043|TWO_SIDED|95.0|53.9|210.7|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||210.7|53.9|0.0043
92317572|NCT01268527|184539791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|145.0||||0.0036|TWO_SIDED|95.0|64.2|225.8|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM) and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||225.8|64.2|0.0036
92194423|NCT01841697|184288884|SUPERIORITY_OR_OTHER||Difference in percent|-4.3|||||TWO_SIDED|95.0|-11.8|3.2|||||Difference is omarigliptin minus sitagliptin.|||3.2|-11.8|
92194424|NCT01841697|184288885|SUPERIORITY_OR_OTHER||Difference in percent|-1.3|||||TWO_SIDED|95.0|-3.6|0.8|||||Difference is omarigliptin minus sitagliptin.|||0.8|-3.6|
92194425|NCT01841697|184288886|SUPERIORITY_OR_OTHER||Difference in least squares mean|-4.2||||0.089|TWO_SIDED|95.0|-9.0|0.6|||Constrained logitudinal data analysis|Terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups.|Difference is omarigliptin minus sitagliptin.|||0.6|-9.0|0.089
92194426|NCT01841697|184288887|SUPERIORITY_OR_OTHER||Between-group rate difference|2.0||||0.619|TWO_SIDED|95.0|-5.9|9.9|||Miettinen & Nurminen method|||Proportion (rate) for each group was estimated using standard multiple imputation techniques. Between-group difference in proportion is omarigliptin minus sitagliptin.||9.9|-5.9|0.619
92194427|NCT01841697|184288888|SUPERIORITY_OR_OTHER||Between-group rate difference|4.4||||0.212|TWO_SIDED|95.0|-2.5|11.4|||Miettinen & Nurminen method|||Proportion (rate) for each group was estimated using standard multiple imputation techniques. Between-group difference in proportion is omarigliptin minus sitagliptin.||11.4|-2.5|0.212
92194428|NCT01772563|184288893|OTHER||Geometric mean ratio (GMR) [%]|93.63|||||TWO_SIDED|90.0|82.07|106.81|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV%)=25.1.|"Statistical analysis of Volasertib:~AUC0-tz was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||106.81|82.07|
92194429|NCT01772563|184288893|OTHER||Geometric mean ratio (GMR) [%]|75.77|||||TWO_SIDED|90.0|67.83|84.632|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV %)=21.0.|"Statistical analysis of CD 10899:~AUC0-tz was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||84.632|67.830|
92194430|NCT01772563|184288894|OTHER||Geometric mean ratio (GMR) [%]|79.4|||||TWO_SIDED|90.0|64.896|97.137|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV %)=39.3.|"Statistical analysis of volasertib:~Cmax was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||97.137|64.896|
92317573|NCT01268527|184539792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|80.7||||0.0013|TWO_SIDED|95.0|34.6|126.7|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||126.7|34.6|0.0013
92317574|NCT01268527|184539792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|127.9|||<|0.0001|TWO_SIDED|95.0|92.4|163.5|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||163.5|92.4|<0.0001
92317575|NCT01268527|184539792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|110.2||||0.0458|TWO_SIDED|95.0|2.4|218.0|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||218.0|2.4|0.0458
92317576|NCT01268527|184539792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|207.5|||<|0.0001|TWO_SIDED|95.0|155.2|259.9|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||259.9|155.2|<0.0001
92317577|NCT01268527|184539792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|125.3||||0.0003|TWO_SIDED|95.0|71.5|179.0|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||179.0|71.5|0.0003
92317578|NCT01268527|184539792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|128.6||||0.0029|TWO_SIDED|95.0|93.9|163.3|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||163.3|93.9|0.0029
92317579|NCT01008605|184539796|SUPERIORITY_OR_OTHER||Lower limit, 95% one-sided CI|95.83|||||ONE_SIDED|95.0|87.46||||||||||87.46|
92317580|NCT05142722|184539840|SUPERIORITY||Least Squares (LS) Means|-32.65|STANDARD_ERROR_OF_MEAN|1.602|<|0.0001|TWO_SIDED|95.0|-35.79|-29.5|||ANCOVA|||||-29.50|-35.79|<.0001
92317581|NCT05142722|184539841|SUPERIORITY||Least Squares (LS) Means|-33.78|STANDARD_ERROR_OF_MEAN|1.678|<|0.0001|TWO_SIDED|95.0|-37.07|-30.49|||ANCOVA|||||-30.49|-37.07|<.0001
92317582|NCT05142722|184539842|SUPERIORITY||Least Squares (LS) Means|-23.98|STANDARD_ERROR_OF_MEAN|1.979|<|0.0001|TWO_SIDED|95.0|-27.87|-20.09||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-20.09|-27.87|<.0001
92317583|NCT05142722|184539843|SUPERIORITY||Least Squares (LS) Means|-18.92|STANDARD_ERROR_OF_MEAN|0.936|<|0.0001|TWO_SIDED|95.0|-20.76|-17.09||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-17.09|-20.76|<.0001
92317584|NCT05142722|184539844|SUPERIORITY||Least Squares (LS) Means|-18.31|STANDARD_ERROR_OF_MEAN|1.057|<|0.0001|TWO_SIDED|95.0|-20.38|-16.23||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-16.23|-20.38|<.0001
92317585|NCT05142722|184539845|SUPERIORITY||Least Squares (LS) Means|-13.8|STANDARD_ERROR_OF_MEAN|1.219|<|0.0001|TWO_SIDED|95.0|-16.2|-11.41||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-11.41|-16.20|<.0001
92194431|NCT01772563|184288894|OTHER||Geometric mean ratio (GMR) [%]|63.48|||||TWO_SIDED|90.0|55.372|72.775|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV%)=26.1.|"Statistical analysis of CD 10899:~Cmax was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||72.775|55.372|
92317586|NCT05142722|184539846|SUPERIORITY||Least Squares (LS) Means|-29.44|STANDARD_ERROR_OF_MEAN|1.251|<|0.0001|TWO_SIDED|95.0|-31.89|-26.99||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-26.99|-31.89|<.0001
92317587|NCT05142722|184539847|SUPERIORITY||Least Squares (LS) Means|-28.32|STANDARD_ERROR_OF_MEAN|1.339|<|0.0001|TWO_SIDED|95.0|-30.94|-25.69||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-25.69|-30.94|<.0001
92317588|NCT05142722|184539848|SUPERIORITY||Least Squares (LS) Means|-23.02|STANDARD_ERROR_OF_MEAN|1.564|<|0.0001|TWO_SIDED|95.0|-26.09|-19.95||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-19.95|-26.09|<.0001
92317589|NCT05142722|184539849|SUPERIORITY||Least Squares (LS) Means|136.26|STANDARD_ERROR_OF_MEAN|1.939|<|0.0001|TWO_SIDED|95.0|132.46|140.07||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||140.07|132.46|<.0001
92317590|NCT05142722|184539850|SUPERIORITY||Least Squares (LS) Means|134.43|STANDARD_ERROR_OF_MEAN|2.343|<|0.0001|TWO_SIDED|95.0|129.84|139.03||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||139.03|129.84|<.0001
92317591|NCT05142722|184539851|SUPERIORITY||Least Squares (LS) Means|122.04|STANDARD_ERROR_OF_MEAN|2.299|<|0.0001|TWO_SIDED|95.0|117.53|126.55||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||126.55|117.53|<.0001
92317592|NCT05142722|184539852|SUPERIORITY||Least Squares (LS) Means|-14.12|STANDARD_ERROR_OF_MEAN|20.183||0.4841|TWO_SIDED|95.0|-53.68|25.44||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05; therefore hierarchical testing was stopped for subsequent secondary endpoints|ANCOVA|||||25.44|-53.68|0.4841
92317593|NCT05161481|184539897|OTHER|"The adjusted mean values for percentage change at Week 24 are derived for each group using the MMRM. The mean difference for the Comparison vs Placebo, is the adjusted mean of the treatment group subtracted from the adjusted mean of the placebo group."|Difference of adjusted means|-8.4|STANDARD_ERROR_OF_MEAN|8.9|||TWO_SIDED|95.0|-26.25|9.45||||||Model includes baseline HVPG as linear covariate and treatment and use of NSBBs or carvedilol as fixed effects, treatment by visit interaction and baseline HVPG by visit interaction. The following covariance structure has been used to fit the mixed model: Unstructured.||9.45|-26.25|
92317594|NCT05161481|184539897|OTHER|"The adjusted mean values for percentage change at Week 24 are derived for each group using the MMRM. The mean difference for the Comparison vs Placebo, is the adjusted mean of the treatment group subtracted from the adjusted mean of the placebo group."|Difference of adjusted means|-14.18|STANDARD_ERROR_OF_MEAN|9.93|||TWO_SIDED|95.0|-34.09|5.72||||||Model includes baseline HVPG as linear covariate and treatment and use of NSBBs or carvedilol as fixed effects, treatment by visit interaction and baseline HVPG by visit interaction. The following covariance structure has been used to fit the mixed model: Unstructured.||5.72|-34.09|
92317595|NCT05161481|184539898|OTHER|"The adjusted mean values for percentage change at Week 8 are derived for each group using the MMRM. The mean difference for the Comparison vs Placebo, is the adjusted mean of the treatment group subtracted from the adjusted mean of the placebo group."|Difference of adjusted means|3.51|STANDARD_ERROR_OF_MEAN|6.23|||TWO_SIDED|95.0|-8.94|15.96||||||The analysis of covariance (ANCOVA) model includes baseline hepatic venous pressure gradient (HVPG) as a linear covariate, with treatment and use of non-selective beta-blockers (NSBBs) or carvedilol as fixed effects. All intercurrent events (ICEs) will be handled using the treatment policy for the primary objective as a sensitivity analysis. That is, all data collected after the intercurrent events will be included in the analysis.||15.96|-8.94|
92317596|NCT05161481|184539898|OTHER|"The adjusted mean values for percentage change at Week 8 are derived for each group using the MMRM. The mean difference for the Comparison vs Placebo, is the adjusted mean of the treatment group subtracted from the adjusted mean of the placebo group."|Difference of adjusted means|2.69|STANDARD_ERROR_OF_MEAN|6.82|||TWO_SIDED|95.0|-10.94|16.33||||||ANCOVA) model includes baseline hepatic venous pressure gradient (HVPG) as a linear covariate, with treatment and use of non-selective beta-blockers (NSBBs) or carvedilol as fixed effects. All intercurrent events (ICEs) will be handled using the treatment policy for the primary objective as a sensitivity analysis. That is, all data collected after the intercurrent events will be included in the analysis.||16.33|-10.94|
92317597|NCT04795466|184539916|SUPERIORITY||Least square mean difference|0.069|STANDARD_ERROR_OF_MEAN|0.1442||0.6386|TWO_SIDED|90.0|-0.178|0.316|||Mixed Models Analysis|||NTB Total z-score - day 171||0.316|-0.178|0.6386
92317598|NCT04795466|184539917|SUPERIORITY||Least squares mean difference|-0.002|STANDARD_ERROR_OF_MEAN|0.1739||0.9917|TWO_SIDED|90.0|-0.3|0.296|||Mixed Models Analysis|||Memory function - day 171||0.296|-0.300|0.9917
92317599|NCT04795466|184539918|SUPERIORITY||least squares mean difference|0.186|STANDARD_ERROR_OF_MEAN|0.1958||0.351|TWO_SIDED|90.0|-0.148|0.52|||Mixed Models Analysis|||Executive function- day 171||0.520|-0.148|0.3510
92317600|NCT04795466|184539919|SUPERIORITY||Repeated measures analysis|-0.49|STANDARD_ERROR_OF_MEAN|1.8||0.787|TWO_SIDED|90.0|-3.56|2.58|||Mixed Models Analysis|||DSST - day 171||2.58|-3.56|0.7870
92317601|NCT00838903|184539935|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.91|||||TWO_SIDED|95.0|-1.16|-0.65|||ANCOVA|||||-0.65|-1.16|
92317602|NCT00838903|184539935|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35|||||TWO_SIDED|95.0|-0.53|-0.17|||ANCOVA|||||-0.17|-0.53|
92194432|NCT01772563|184288895|OTHER||Geometric mean ratio (GMR) [%]|97.85|||||TWO_SIDED|90.0|87.09|109.94|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV %)=22.7.|"Statistical analysis of volasertib:~AUC0-∞ was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||109.94|87.09|
92194433|NCT01772563|184288895|OTHER||Geometric mean ratio (GMR) [%]|77.42|||||TWO_SIDED|90.0|69.001|86.871|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV %)=22.5.|"Statistical analysis of CD 10899:~AUC0-∞ was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||86.871|69.001|
92194434|NCT00935259|184288905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|STANDARD_DEVIATION|52.1||0.455||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||||||0.455
92317603|NCT00838903|184539935|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27|||||TWO_SIDED|95.0|-0.45|-0.09|||ANCOVA|||||-0.09|-0.45|
92317604|NCT00838903|184539935|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value is for superiority testing of albiglutide over placebo at 0.05 level.|t-test, 2 sided|The p-value is from a two-sided t-test to test whether the difference of least square means (albiglutide - placebo) is equal to zero||||||<0.0001
92317605|NCT00838903|184539935|NON_INFERIORITY_OR_EQUIVALENCE|To test whether the difference of least square means (albiglutide - sitagliptin) is equal to the pre-specified non-inferiority margin of 0.3%.|||||<|0.0001||||||The p-value is for non-inferiority testing of albiglutide versus sitagliptin at 0.0125 level.|t-test, 1 sided|||||||<0.0001
92317606|NCT00838903|184539935|NON_INFERIORITY_OR_EQUIVALENCE|To test whether the difference of least square means (albiglutide - glimepiride) is equal to the pre-specified non-inferiority margin of 0.3%.|||||<|0.0001||||||The p-value is for non-inferiority testing of albiglutide versus glimepiride at 0.0125 level.|t-test, 1 sided|||||||<0.0001
92317607|NCT00838903|184539935|SUPERIORITY_OR_OTHER|||||||0.0001||||||The p-value is for superiority testing of albiglutide versus sitagliptin at 0.025 level.|t-test, 2 sided|The p-value is from a two-sided t-test to test whether the difference of least square means (albiglutide - sitagliptin) is equal to zero.||||||0.0001
92317608|NCT00838903|184539935|SUPERIORITY_OR_OTHER|||||||0.0033||||||The p-value is for superiority testing of albiglutide versus glimepiride at 0.025 level.|t-test, 2 sided|The p-value is from a two-sided t-test to test whether the difference of least square means (albiglutide - glimepiride) is equal to zero.||||||0.0033
92317609|NCT04225715|184539947|SUPERIORITY||Difference in Response Rate|7.2|||||TWO_SIDED|95.0|-2.1|16.4|||||95% CI for difference of two proportions was calculated using Cochran-Mantel-Haenszel (CMH) method.|||16.4|-2.1|
92317610|NCT04225715|184539947|SUPERIORITY||Difference in Response Rate|3.5|||||TWO_SIDED|95.0|-3.1|10.0|||||95% CI for difference of two proportions was calculated using CMH method.|||10|-3.1|
92317611|NCT04225715|184539947|SUPERIORITY||Difference in Response Rate|24.3|||||TWO_SIDED|95.0|9.0|39.5|||||95% CI for difference of two proportions was calculated using CMH method.|||39.5|9|
92317612|NCT04225715|184539947|SUPERIORITY||Difference in Response Rate|12.3|||||TWO_SIDED|95.0|1.3|23.3|||||95% CI for difference of two proportions was calculated using CMH method.|||23.3|1.3|
92317613|NCT04225715|184539947|SUPERIORITY||Difference in Response Rate|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||95% CI for difference of two proportions was calculated using CMH method.|||0|0|
92317614|NCT04225715|184539947|SUPERIORITY||Difference in Response Rate|6.7|||||TWO_SIDED|95.0|-2.2|15.7|||||95% CI for difference of two proportions was calculated using CMH method.|||15.7|-2.2|
92317615|NCT04225715|184539948|SUPERIORITY||6.2|6.2|||||TWO_SIDED|95.0|-2.0|14.5|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 7: Week 24||14.5|-2|
92194435|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.7||||0.014||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 16:00||||0.014
92194436|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5|||<|0.001||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 18:3n3||||<0.001
92194437|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.217||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 20:3n6||||0.217
92194438|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.666||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 20:3n9||||0.666
92194439|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.776||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 22:5n6||||0.776
92194440|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.018||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 22:6n3||||0.018
92194441|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.152||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Lysophosphatidylcholine 20:4n6||||0.152
92194442|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-132.1||||0.007||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylcholine 18:2n6||||0.007
92194443|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.8||||0.325||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylcholine 20:3n6||||0.325
92194444|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.3||||0.419||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylcholine 20:4n6||||0.419
92194445|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.07||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylcholine 22:5n3||||0.070
92194446|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.769||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylcholine 22:5n6||||0.769
92194447|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1|||<|0.001||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylethanolamine 18:2n6||||<0.001
92194448|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-240.8||||0.016||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Triacylglycerol 16:00||||0.016
92194449|NCT00935259|184288906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.833||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Triacylglycerol 20:3n9||||0.833
92194450|NCT00935259|184288907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.027||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Fasted||||0.027
92194451|NCT00935259|184288907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|||<|0.001||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Fed||||<0.001
92194452|NCT00935259|184288909|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||Mixed Models Analysis|||Cholesterol ester c20:4n6 / c20:3n6||||0.247
92194453|NCT00935259|184288909|SUPERIORITY_OR_OTHER|||||||0.151||95.0|||||Mixed Models Analysis|||Cholesterol ester c20:5n3 / c20:4n3||||0.151
92194454|NCT01721746|184288925|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.68|1.08|||||From stratified cox proportional hazard model with treatment group as a single covariate, stratified by BRAF status, prior anti-CTLA-4 benefit, and PD-L1 status (IVRS source)|Hazard Ratio is Nivolumab 3 mg/kg (IV) over Investigator's Choice (Dacarbazine or Carboplatin+Paclitaxel)||1.08|0.68|
92194455|NCT01721746|184288926|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.1|0.78|1.36|||||Stratified Cox proportional hazard model.|Hazard Ratio is Nivolumab 3 mg/kg (IV) over Investigator's Choice (Dacarbazine or Carboplatin+Paclitaxel)||1.36|0.78|
92194456|NCT01721746|184288927|SUPERIORITY||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.44|3.16||||||For \<5% PD-L1 expression. Ratio of Nivolumab over Investigator's Choice||3.16|0.44|
92194457|NCT01721746|184288927|SUPERIORITY||Odds Ratio (OR)|5.49|||||TWO_SIDED|95.0|1.92|19.08||||||For \>=5% PD-L1 expression. Ratio of Nivolumab over Investigator's Choice||19.08|1.92|
92194458|NCT01721746|184288928|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.5|1.01|||||From unstratified Cox proportional hazard model|PD-L1 Positive||1.01|0.50|
92194459|NCT01721746|184288929|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.75|1.41|||||From unstratified Cox proportional hazard model|PD-L1 Negative||1.41|0.75|
92194460|NCT03121612|184288931|SUPERIORITY|Power calculated based on 40 infants in each arm, permitting detection of a difference of 0.67 SD between the groups with power of 80% and alpha=0.05. Study recruitment was below anticipated (51/80) despite extending the planned period of recruitment.||||||0.65||||||Threshold for superiority p\<0.05; primary outcome, so not adjusted for multiple comparisons.|van Elteren's extension to Wilcoxon|van Elteren's extension used to control for stratification by gestation||"Analysis restricted to change at 6 hours, as least affected by missing data.~Distribution non-normal, so non-parametric test (Wilcoxon) used."||||0.65
92194461|NCT03121612|184288931|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Planned sub-group analysis for infants born at 28-33 gestational weeks (n=41). No adjustment for multiple comparisons.||||0.64
92194462|NCT03121612|184288931|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Planned sub-group analysis for infants born at 34-36 gestational weeks (n=10). No adjustment for multiple comparisons.||||1.0
92194463|NCT03121612|184288932|SUPERIORITY|Power calculated based on 40 infants in each arm, permitting detection of a difference of 0.67 SD between the groups with power of 80% and alpha=0.05. Study recruitment was below anticipated (51/80) despite extending the planned period of recruitment.||||||0.8||||||Threshold for superiority p\<0.05; not adjusted for multiple comparisons|van Elteren's extension to Wilcoxon|van Elteren's extension used to control for stratification by gestation.||"Analysis restricted to change at 6 hours, as least affected by missing data.~Distribution not normal by visual examination, so non-parametric test (Wilcoxon) used."||||0.80
92194464|NCT03121612|184288933|SUPERIORITY|Power calculated based on 40 infants in each arm, permitting detection of a difference of 0.67 SD between the groups with power of 80% and alpha=0.05. Study recruitment was below anticipated (51/80) despite extending the planned period of recruitment.||||||0.86||||||Threshold for superiority p\<0.05; not adjusted for multiple comparisons.|van Elteren's extension to Wilcoxon|van Elteren's extension used to control for stratification by gestation.||"Analysis restricted to change at 6 hours, as least affected by missing data.~Distribution non-normal, so non-parametric test (Wilcoxon) used."||||0.86
92194465|NCT03121612|184288937|SUPERIORITY|||||||1||||||Not adjusted for multiple comparisons.|Fisher Exact|No failures in older stratum, so stratification by gestational age-group not controlled for in analysis.||||||1.0
92194466|NCT03121612|184288938|SUPERIORITY|||||||0.33||||||Not adjusted for multiple comparisons|Cochran-Mantel-Haenszel|Controlling for stratification by gestational group.||||||0.33
92194467|NCT03121612|184288939|SUPERIORITY|||||||0.31||||||Not adjusted for multiple comparisons|Cochran-Mantel-Haenszel|Controlling for stratification by gestational age-group.||||||0.31
92194468|NCT03121612|184288940|SUPERIORITY|||||||0.81||||||Not adjusted for multiple comparisons.|van Elteren's extension to Wilcoxon|van Elteren's extension used to control for stratification by gestation||||||0.81
92194469|NCT03121612|184288941|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92194470|NCT03121612|184288947|SUPERIORITY|||||||1||||||No adjustment for multiple comparisons.|Fisher Exact|No failures in older stratum, so stratification by gestational age-group not controlled for in analysis.||||||1.0
92194471|NCT03121612|184288949|SUPERIORITY|||||||1|||||||Fisher Exact|No adjustment for multiple comparisons||||||1.0
92194472|NCT01438840|184288959|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92194473|NCT01062269|184288962|SUPERIORITY_OR_OTHER||||||<|0.05||||||Differences between test products were assessed by repeated measures analysis of variance. If sequence was not found to be statistically significant(p\>0.05),then it was removed from the final model.|measures analysis of variance|Differences between test powders assessed by repeated measures analysis of variance, pairwise comparisons between treatments by Scheffe procedure.||"The BASA scale components were derived from the parameters best shown to differentiate acceptability between different BAS preparations (taste and texture),as well as other parameters useful for differentiating between different BAS preparations(appearance and mixability). The scale was then weighted based upon an Importance of Acceptability questionnaire regarding the individual scale components. The developed scale should reasonably allow for future comparisons of differing BAS formulations."||||<0.05
92194474|NCT02604342|184288972|SUPERIORITY||Hazard Ratio (HR)|0.2|||<|0.001|TWO_SIDED|95.0|0.12|0.33|||Stratified log-rank test||Estimated hazard ratio obtained from stratified Cox model with treatment group as covariate.|||0.33|0.12|<0.001
92194475|NCT02604342|184288973|SUPERIORITY||Difference in C-ORR|0.667|||<|0.001|TWO_SIDED|95.0|0.39|0.86|||Chi-squared|||95% confidence interval of the difference (alectinib - chemotherapy) computed using Hauck-Anderson approach.||0.86|0.39|<0.001
92194476|NCT01702519|184288996|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence was established if 90% confidence interval (CI) of the ratio (Test/Ref) of geometric means was included in the limit of 0.80 - 1.25|Treatment Ratio|0.946|||||TWO_SIDED|90.0|0.912|0.982|||Treatment Ratio||The ratio between the geometric means of the test and reference formulations was calculated|Null hypothesis considered no difference between the two treatments.||0.982|0.912|
92194477|NCT01702519|184288997|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if 90% confidence interval (CI) of the ratio (Test/Ref) of geometric means was included in the limit of 0.80 - 1.25.|Treatment Ratio|0.962|||||TWO_SIDED|90.0|0.92|1.0|||Treatment Ratio||The ratio between the geometric means of the test and reference formulations was calculated|Null hypothesis considered no difference between the treatments.||1.00|0.92|
92194478|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||ANS X axis||||0.098
92194479|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.389|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||ANS Y axis||||0.389
92194480|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||ANS Z axis||||0.780
92194481|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.054|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||A point X axis||||0.054
92194482|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.323|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||A point Y axis||||0.323
92194483|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.371|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||A point X axis||||0.371
92194484|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||UI level X axis||||0.011
92194485|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.426|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||UI level Y axis||||0.426
92194486|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.621|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||UI level Z axis||||0.621
92194487|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.275|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||pronasale X axis||||0.275
92194488|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.361|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||pronasale Y axis||||0.361
92194489|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.284|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||pronasale Z axis||||0.284
92194490|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.119|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||subnasale X axis||||0.119
92194491|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||subnasale Y axis||||0.019
92194492|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||subnasale Z axis||||0.034
92194493|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.422|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||labiale superious X axis||||0.422
92194494|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.177|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||labiale superious Y axis||||0.177
92194495|NCT01473745|184289008|SUPERIORITY_OR_OTHER|||||||0.133|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||labiale superious Z axis||||0.133
92194496|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.218|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||Intercanthal distance||||0.218
92194497|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.336|TWO_SIDED||||||t-test, 2 sided|P- value \< 0.05 was set as statistical significance.||nasal height||||0.336
92194498|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.192|TWO_SIDED||||||t-test, 2 sided|P- value \< 0.05 was set as statistical significance||||||0.192
92194499|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.135|TWO_SIDED||||||t-test, 2 sided|P value \< 0.05 was set as statistical significance.||nasal tip protrusion||||0.135
92194500|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.277|TWO_SIDED||||||t-test, 2 sided|P value \< 0.05 was set as statistical significance.||nasal width||||0.277
92194501|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.505|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||alar base width||||0.505
92194502|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.299|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||R nostril show vertical dimension||||0.299
92194503|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.738|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||L nostril show vertical dimension||||0.738
92194504|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||columellar length||||0.008
92194505|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.116|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||cutaneious height of upper lip||||0.116
92194506|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.528|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||overall upper lip height||||0.528
92194507|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.123|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||vermillion height of upper lip||||0.123
92194508|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||lower prolabial width||||0.250
92194509|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.706|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||upper lip protrusion||||0.706
92194510|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.804|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||intercanthal distance||||0.804
92194511|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.114|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal height||||0.114
92194512|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.457|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||Nasal length||||0.457
92194513|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.565|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||Nasal tip protrusion||||0.565
92194514|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.781|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal width||||0.781
92194515|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.164|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||alar base width||||0.164
92194516|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.554|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||R nostril show vertical dimension||||0.554
92194517|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.508|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||L nostril show vertical dimension||||0.508
92194518|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.358|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||columellar length||||0.358
92194519|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||cutaneous height of upper lip||||0.049
92194520|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||overall upper lip height||||0.057
92194521|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.062|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||vermillion height of upper lip||||0.062
92194522|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||lower prolabial width||||0.029
92194523|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||upper lip protrusion||||0.011
92194524|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.211|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||intercanthal distance||||0.211
92194525|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.102|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal height||||0.102
92194526|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.136|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal length||||0.136
92194527|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.113|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal tip protrusion||||0.113
92194528|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.115|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal width||||0.115
92194529|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.535|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||alar base width||||0.535
92194530|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||R nostril show vertical dimension||||0.850
92194531|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.891|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||L nostril show vertical dimension||||0.891
92194532|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.262|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||columellar length||||0.262
92194533|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.344|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||cutaneous height of upper lip||||0.344
92194534|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||overall upper lip height||||0.057
92194535|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.995|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||vermillion height of upper lip||||0.995
92194536|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||lower prolabial width||||0.440
92194537|NCT01473745|184289009|SUPERIORITY_OR_OTHER|||||||0.078|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||upper lip protrusion||||0.078
92194538|NCT01473745|184289010|SUPERIORITY_OR_OTHER|||||||0.104|TWO_SIDED|||||intergroup difference of conventional group|t-test, 2 sided|P value \< 0.05 was set as statistical significance.||||||0.104
92194539|NCT01473745|184289010|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED|||||Intergroup difference of modified group|t-test, 2 sided|P value \<0.05 was set as statistical significance.||||||0.043
92194540|NCT01473745|184289010|SUPERIORITY_OR_OTHER|||||||0.888|TWO_SIDED||||||t-test, 2 sided|P value \< 0.05 was set as statistical significance.||||||0.888
92194541|NCT02330276|184289011|SUPERIORITY_OR_OTHER|||||||0.05||||||The reported P-Value was calculated|General linear mixed-effects models|||||||0.05
92194542|NCT02330276|184289012|OTHER|one way ANOVA between groups|Mean Difference (Final Values)|77.9|STANDARD_DEVIATION|11.9|<|0.05|TWO_SIDED|95.0|70.3|85.5||for change in heart rate at 24 hr post-dosing from baseline between the 3 doses|ANOVA|||Primary hypothesis: None of the doses of (+)-epicatechin will differ with regard to change from baseline in any of the major safety endpoints; heart rate, systolic and diastolic blood pressure.||85.5|70.3|<0.05
92194543|NCT02330276|184289013|SUPERIORITY_OR_OTHER|||||||0.05||||||The reported P-Value was calculated|General linear mixed-effects models|||||||0.05
92194544|NCT02330276|184289014|SUPERIORITY_OR_OTHER|||||||0.05||||||The reported P-Value was calculated|General linear mixed-effects models|||||||0.05
92194545|NCT02330276|184289015|SUPERIORITY_OR_OTHER|||||||0.05||||||The reported P-Value was calculated|General linear mixed-effects models|||||||0.05
92194546|NCT02034162|184289016|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
92194547|NCT02034162|184289017|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
92194548|NCT02034162|184289019|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92194549|NCT02034162|184289020|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
92194550|NCT00760513|184289026|SUPERIORITY||Mean Difference (Net)|-1.7||||0.48|TWO_SIDED|95.0|-6.3|3.0||The a priori threshold for statistical significance = P\</=0.05|Regression, Linear|Adjusted for baseline value of liver fat percentage||We estimated that a 20% decrease in liver fat with Omacor treatment, assuming a sigma of 0.3, and an alpha of 0.05; with 91 participants completing our trial, we had 86% power to detect a 20% change in liver fat (two tailed test) (see HEPATOLOGY 2014;60:1211-1221).||3.0|-6.3|0.48
92194551|NCT00760513|184289027|SUPERIORITY||Mean Difference (Net)|-0.001||||1|TWO_SIDED|95.0|-0.3|0.3||A priori p value threshold \</=0.5|Regression, Linear|Adjusted for baseline||Based on the available evidence at the time, we assumed that a 0.6-1.0 unit change in fibrosis score might be clinically significant (Hepatology 2008 Feb;47(2):455-460). Consequently, to detect a minimum 0.6 unit change in score (e.g. 9.0 at baseline and 8.4 at the end of the study) with an SD of 1.0, 100 participants would provide \>80% power at the 5% significance level, and with a 15% drop out of participants there would also be \>80% power to detect this effect.||0.3|-0.3|1.0
92194552|NCT00760513|184289028|SUPERIORITY||Mean Difference (Net)|-0.03||||0.9|TWO_SIDED|95.0|-0.4|0.3||A priori threshold for statistical significance p \</=0.05|Regression, Linear|Adjusted for baseline measurement.||There was no power calculation for this end point.||0.3|-0.4|0.9
92194553|NCT00158197|184289029|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98|||<|0.01|TWO_SIDED||||||Generalized estimating equations||Value represents the odds of submitting a methamphetamine negative urine sample in the treatment group (1 of 3) compared to the standard care group.|||||<0.01
92194554|NCT00158197|184289029|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.01|||||||Generalized estimating equations||Value represents the odds of submitting a methamphetamine negative urine sample in the treatment group (1 of 3) compared to the standard care group.|||||<0.01
92194555|NCT00158197|184289029|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72|||<|0.01|||||||Generalized estimating equations||Value represents the odds of submitting a methamphetamine negative urine sample in the treatment group (1 of 3) compared to the standard care group.|||||<0.01
92194556|NCT00158197|184289030|SUPERIORITY_OR_OTHER|||||||0.02||||||Yes, the a priori plan to handle post hoc multiple comparisons was to use the method of Bonferroni adjustment. Thus, the new alpha level for these comparisons was \<0.0125.|ANOVA|||||||0.02
92194557|NCT00158197|184289030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92194558|NCT00158197|184289030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92194559|NCT00158197|184289030|SUPERIORITY_OR_OTHER|||||||0.2|||||||t-test, 2 sided|||||||0.20
92194560|NCT00158197|184289031|SUPERIORITY_OR_OTHER|||||||0.78|||||||Generalized estimating equations|||We used GEE to investigate change in methamphetamine abstinence (i.e., provision of a negative methamphetamine UA) during the follow-up period.||||0.78
92194561|NCT00158197|184289031|SUPERIORITY_OR_OTHER|||||||0.68|||||||Generalized estimating equations|||We used GEE to investigate change in methamphetamine abstinence (i.e., provision of a negative methamphetamine UA) during the follow-up period.||||0.68
92194562|NCT00158197|184289031|SUPERIORITY_OR_OTHER|||||||0.2|||||||Generalized estimating equations|||We used GEE to investigate change in methamphetamine abstinence (i.e., provision of a negative methamphetamine UA) during the follow-up period.||||0.20
92194563|NCT02808975|184289032|SUPERIORITY||||||=|0.049|||||||Cochran-Mantel-Haenszel|Across all strata, P-value calculated from Cochran-Mantel-Haenszel test adjusted for strata. Stratum containing zero count: 0.1 added to each cell.||||||=0.049
92194564|NCT02808975|184289033|SUPERIORITY||||||=|0.067|||||||Cochran-Mantel-Haenszel|Across all strata, P-value calculated from Cochran-Mantel-Haenszel test adjusted for strata. Stratum containing zero count: 0.1 added to each cell.||||||=0.067
92194565|NCT02808975|184289034|SUPERIORITY||||||=|0.003|||||||Cochran-Mantel-Haenszel|Across all strata, P-value calculated from Cochran-Mantel-Haenszel test adjusted for strata. Stratum containing zero count: 0.1 added to each cell.||||||=0.003
92194566|NCT02808975|184289035|SUPERIORITY||||||=|0.313|||||||ANCOVA|Across all strata, P-values are calculated from ANCOVA with stratum, baseline value, and treatment in the model.||||||=0.313
92194567|NCT02808975|184289036|SUPERIORITY||||||=|0.746|||||||Cochran-Mantel-Haenszel|Across all strata, P-value calculated from Cochran-Mantel-Haenszel test adjusted for strata. Stratum containing zero count: 0.1 added to each cell.||||||=0.746
92194568|NCT04469465|184289037|SUPERIORITY|||||||0.0007|||||||Re-randomization Test|||Interim Efficacy Analysis||||0.0007
92194569|NCT04469465|184289037|SUPERIORITY|||||||0.0007|||||||Re-randomization Test|||Full Analysis||||0.0007
92194570|NCT04469465|184289037|SUPERIORITY||LS Mean Difference|24.44|STANDARD_ERROR_OF_MEAN|3.751|<|0.0001|TWO_SIDED|95.0|16.9|31.99|||Mixed Models Analysis|||Interim Efficacy Analysis||31.99|16.90|<0.0001
92194571|NCT04469465|184289037|SUPERIORITY||Difference|23.46|STANDARD_ERROR_OF_MEAN|3.585|<|0.0001|TWO_SIDED|95.0|16.31|30.61|||Mixed Models Analysis|||Full Analysis||30.61|16.31|<0.0001
92194572|NCT02641587|184289056|OTHER|"The analysis will test if the geometric LS mean level of MHBMA for CHTP is lower than for CC. The following hypothesis will be evaluated:~H0: XCHTP - XCC ≤ 0.0~HA: XCHTP - XCC \> 0.0~where XCHTP and XCC are the geometric LS means of CHTP and CC, respectively. H0 is rejected with a type I error α = 2.5% (one-sided test)."|LS Mean Reduction|85.01|||<|0.001|TWO_SIDED|95.0|82.06|87.47||The primary endpoints will be tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|Generalized linear model||Least squares (LS) means and estimate of the difference, and 95% CI will be back-transformed for obtaining geometric LS means for each arm, the reduction (calculated as 100% - ratio of CHTP 1.2 : CC \[%\]), and their 95% CI.|Analysis will be conducted on the natural log scale. The Day 5 levels of MHBMA will be analyzed by means of a generalized linear model using randomized arm as covariate adjusting for sex, average cigarette consumption over the previous 6 weeks prior to Admission (value at Admission for stratification), and log-transformed baseline value of MHBMA.||87.47|82.06|<0.001
92194573|NCT02641587|184289057|OTHER|"The analysis will test if the geometric LS mean level of 3-HPMA for CHTP is lower than for CC. The following hypothesis will be evaluated:~H0: XCHTP - XCC ≤ 0.0~HA: XCHTP - XCC \> 0.0~where XCHTP and XCC are the geometric LS means of CHTP and CC, respectively. H0 is rejected with a type I error α = 2.5% (one-sided test)."|LS Mean Reduction|40.2|||<|0.001|TWO_SIDED|95.0|30.25|48.73||The primary endpoints will be tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|Generalized linear model||Least squares (LS) means and estimate of the difference, and 95% CI will be back-transformed for obtaining geometric LS means for each arm, the reduction (calculated as 100% - ratio of CHTP 1.2 : CC \[%\]), and their 95% CI.|Analysis will be conducted on the natural log scale. The Day 5 levels of 3-HPMA will be analyzed by means of a generalized linear model using randomized arm as covariate adjusting for sex, average cigarette consumption over the previous 6 weeks prior to Admission (value at Admission for stratification), and log-transformed baseline value of 3-HPMA.||48.73|30.25|<0.001
92194574|NCT02641587|184289058|OTHER|"The analysis will test if the geometric LS mean level of S-PMA for CHTP is lower than for CC. The following hypothesis will be evaluated:~H0: XCHTP - XCC ≤ 0.0~HA: XCHTP - XCC \> 0.0~where XCHTP and XCC are the geometric LS means of CHTP and CC, respectively. H0 is rejected with a type I error α = 2.5% (one-sided test)."|LS Mean Reduction|83.9|||<|0.001|TWO_SIDED|95.0|81.61|85.9||The primary endpoints will be tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|Generalized linear model||Least squares (LS) means and estimate of the difference, and 95% CI will be back-transformed for obtaining geometric LS means for each arm, the reduction (calculated as 100% - ratio of CHTP 1.2 : CC \[%\]), and their 95% CI.|Analysis will be conducted on the natural log scale. The Day 5 levels of S-PMA will be analyzed by means of a generalized linear model using randomized arm as covariate adjusting for sex, average cigarette consumption over the previous 6 weeks prior to Admission (value at Admission for stratification), and log-transformed baseline value of S-PMA.||85.90|81.61|<0.001
92194575|NCT02641587|184289059|OTHER|"The analysis will test if the geometric LS mean level of COHb for CHTP is lower than for CC. The following hypothesis will be evaluated:~H0: XCHTP - XCC ≤ 0.0~HA: XCHTP - XCC \> 0.0~where XCHTP and XCC are the geometric LS means of CHTP and CC, respectively. H0 is rejected with a type I error α = 2.5% (one-sided test)."|LS Mean Reduction|55.74|||<|0.001|TWO_SIDED|95.0|49.03|61.56||The primary endpoints will be tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|Generalized linear model||Least squares (LS) means and estimate of the difference, and 95% CI will be back-transformed for obtaining geometric LS means for each arm, the reduction (calculated as 100% - ratio of CHTP 1.2 : CC \[%\]), and their 95% CI.|Analysis will be conducted on the natural log scale. The Day 5 levels of COHb will be analyzed by means of a generalized linear model using randomized arm as covariate adjusting for sex, average cigarette consumption over the previous 6 weeks prior to Admission (value at Admission for stratification), and log-transformed baseline value of COHb.||61.56|49.03|<0.001
92194576|NCT02641587|184289060|OTHER|"The analysis will test if the geometric LS mean level of Total NNAL for CHTP is lower than for CC. The following hypothesis will be evaluated:~H0: XCHTP - XCC ≤ 0.0~HA: XCHTP - XCC \> 0.0~where XCHTP and XCC are the geometric LS means of CHTP and CC, respectively. H0 is rejected with a type I error α = 2.5% (one-sided test)."|LS Mean Reduction|79.36|||<|0.001|TWO_SIDED|95.0|72.73|84.39||The primary endpoints will be tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|Generalized linear model||Least squares (LS) means and estimate of the difference, and 95% CI will be back-transformed for obtaining geometric LS means for each arm, the reduction (calculated as 100% - ratio of CHTP 1.2 : CC \[%\]), and their 95% CI.|Analysis will be conducted on the natural log scale. The Day 5 levels of Total NNAL will be analyzed by means of a generalized linear model using randomized arm as covariate adjusting for sex, average cigarette consumption over the previous 6 weeks prior to Admission (value at Admission for stratification), and log-transformed baseline value of Total NNAL.||84.39|72.73|<0.001
92194577|NCT01150045|184289063|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.12|TWO_SIDED|95.0|0.76|1.03|||Log Rank|||||1.03|0.76|0.12
92194578|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|0.7||||||95.0|-3.9|5.6||||||For serotype 4 the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||5.6|-3.9|
92194579|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|3.3||||||95.0|-7.3|13.8||||||For serotype 6B the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||13.8|-7.3|
92194580|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|2.3||||||95.0|-2.1|7.3||||||For serotype 9V the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||7.3|-2.1|
92194581|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|-1.6||||||95.0|-8.2|4.7||||||For serotype 14 the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||4.7|-8.2|
92194582|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|3.0||||||95.0|-2.8|9.2||||||For serotype 18C the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||9.2|-2.8|
92194583|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|0.7||||||95.0|-3.5|5.1||||||For serotype 19F the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||5.1|-3.5|
92194584|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|1.1||||||95.0|-8.4|10.6||||||For serotype 23F the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||10.6|-8.4|
92194585|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|2.1||||||95.0|-4.8|9.2||||||For serotype 1 the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||9.2|-4.8|
92317616|NCT04225715|184539948|SUPERIORITY||Difference in Response Rate|13.4|||||TWO_SIDED|95.0|1.2|25.6|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 8: Week 36||25.6|1.2|
92317617|NCT04225715|184539948|SUPERIORITY||Difference in Response Rate|7.2|||||TWO_SIDED|95.0|-2.1|16.4|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 2: Week 48||16.4|-2.1|
92194586|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|-1.7||||||95.0|-7.9|4.2||||||For serotype 3 the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||4.2|-7.9|
92194587|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|2.1||||||95.0|-5.6|9.9||||||For serotype 5 the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||9.9|-5.6|
92194588|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|-1.1||||||95.0|-9.9|7.6||||||For serotype 6A the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||7.6|-9.9|
92194589|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-3.0|2.8||||||For serotype 7F the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||2.8|-3.0|
92194590|NCT00464945|184289083|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-3.6|3.5||||||For serotype 19A the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||3.5|-3.6|
92194591|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|1.35||||||95.0|1.1|1.65||||||For serotype 4 the GMC ratio was calculated||1.65|1.10|
92194592|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|0.96||||||95.0|0.7|1.31||||||For serotype 6B the GMC ratio was calculated||1.31|0.70|
92317618|NCT04225715|184539948|SUPERIORITY||Difference in Response Rate|3.5|||||TWO_SIDED|95.0|-3.1|10.0|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 3: Week 48||10|-3.1|
92317619|NCT04225715|184539948|SUPERIORITY||Difference in Response Rate|31.2|||||TWO_SIDED|95.0|14.7|47.6|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 4: Week 48||47.6|14.7|
92317620|NCT04225715|184539948|SUPERIORITY||Difference in Response Rate|18.4|||||TWO_SIDED|95.0|5.4|31.4|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 6: Week 48||31.4|5.4|
92317621|NCT04225715|184539948|SUPERIORITY||Difference in Response Rate|8.1|||||TWO_SIDED|95.0|-3.9|20.1|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 2: FUW 48||20.1|-3.9|
92317622|NCT04225715|184539948|SUPERIORITY||Difference in Response Rate|-2.7|||||TWO_SIDED|95.0|-8.1|2.7|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 3: FUW 48||2.7|-8.1|
92194593|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|1.05||||||95.0|0.89|1.24||||||For serotype 9V the GMC ratio was calculated||1.24|0.89|
92194594|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|0.93||||||95.0|0.71|1.22||||||For serotype 14 the GMC ratio was calculated||1.22|0.71|
92194595|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|1.06||||||95.0|0.86|1.3||||||For serotype 18C the GMC ratio was calculated||1.30|0.86|
92194596|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|0.98||||||95.0|0.81|1.17||||||For serotype 19F the GMC ratio was calculated||1.17|0.81|
92194597|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|0.9||||||95.0|0.7|1.15||||||For serotype 23F the GMC ratio was calculated||1.15|0.70|
92194598|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|1.1||||||95.0|0.88|1.37||||||For serotype 1 the GMC ratio was calculated||1.37|0.88|
92194599|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|1.0||||||95.0|0.83|1.2||||||For serotype 3 the GMC ratio was calculated||1.20|0.83|
92194600|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|0.95||||||95.0|0.79|1.16||||||For serotype 5 the GMC ratio was calculated||1.16|0.79|
92194601|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|0.83||||||95.0|0.66|1.05||||||For serotype 6A the GMC ratio was calculated||1.05|0.66|
92194602|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|0.93||||||95.0|0.79|1.11||||||For serotype 7F the GMC ratio was calculated||1.11|0.79|
92194603|NCT00464945|184289087|SUPERIORITY_OR_OTHER||Ratio|0.95||||||95.0|0.79|1.13||||||For serotype 19A the GMC ratio was calculated||1.13|0.79|
92194604|NCT03831854|184289088|SUPERIORITY||Median Difference (Final Values)|0.0||||0.08|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.08
92194605|NCT03831854|184289089|SUPERIORITY|||||||0.11|||||||Fisher Exact|The relative risk could not be assessed due to zero incidence in the treatment group||||||0.11
92194606|NCT03831854|184289090|SUPERIORITY||Median Difference (Final Values)|-2.3||||0.63|TWO_SIDED|98.5|-9.5|5.0|||Wilcoxon (Mann-Whitney)|||||5.0|-9.5|0.63
92194607|NCT03831854|184289091|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.58|TWO_SIDED|98.3|-1.7|2.6|||t-test, 2 sided|||||2.6|-1.7|0.58
92194608|NCT03831854|184289092|SUPERIORITY||Risk Ratio (RR)|1.0||||1|TWO_SIDED|98.3|0.3|3.8|||Chi-squared|||||3.8|0.3|1.0
92194609|NCT02094898|184289098|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
92194610|NCT02094898|184289098|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.05
92194611|NCT02094898|184289099|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.001
92194612|NCT02094898|184289100|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
92194613|NCT02094898|184289100|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
92194614|NCT02094898|184289100|SUPERIORITY||||||<|0.08|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.08
92194615|NCT02094898|184289101|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.001
92194616|NCT02094898|184289102|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
92194617|NCT02094898|184289102|SUPERIORITY||||||<|0.08|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.08
92194618|NCT02094898|184289103|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
92194619|NCT02094898|184289104|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
92194620|NCT02094898|184289104|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
92194621|NCT02094898|184289105|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
92194622|NCT02094898|184289106|SUPERIORITY||||||<|0.08|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.08
92194623|NCT02094898|184289106|SUPERIORITY||||||<|0.08|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.08
92194624|NCT02094898|184289107|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.001
92194625|NCT02094898|184289108|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.05
92194626|NCT02094898|184289108|SUPERIORITY||||||<|0.08|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.08
92194627|NCT02094898|184289109|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.001
92194628|NCT02094898|184289110|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
92194629|NCT02094898|184289110|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
92194630|NCT03520075|184289122|SUPERIORITY||Geometric Least Squares Mean (Geo LSM)|27.8|||||TWO_SIDED|90.0|8.5|91.2|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on AUC0-24 between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C1D1.||91.2|8.50|
92194631|NCT03520075|184289122|SUPERIORITY||Geo LSM|38.8|||||TWO_SIDED|90.0|11.4|132.0|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on AUC0-24 between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C2D1.||132|11.4|
92194632|NCT03520075|184289122|SUPERIORITY||Geo LSM|58.9|||||TWO_SIDED|90.0|15.7|222.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on AUC0-24 between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C1D1.||222|15.7|
92194633|NCT03520075|184289122|SUPERIORITY||Geo LSM|47.2|||||TWO_SIDED|90.0|20.7|108.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on AUC0-24 between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C2D1.||108|20.7|
92194634|NCT03520075|184289123|SUPERIORITY||Geo LSM|18.1|||||TWO_SIDED|90.0|5.28|61.9|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on AUC0-inf between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C1D1.||61.9|5.28|
92194635|NCT03520075|184289123|SUPERIORITY||Geo LSM|44.1|||||TWO_SIDED|90.0|8.32|234.0|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on AUC0-inf between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C2D1.||234|8.32|
92317623|NCT04225715|184539948|SUPERIORITY||Difference in Response Rate|14.6|||||TWO_SIDED|95.0|0.4|28.8|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 4: FUW 48||28.8|0.4|
92194636|NCT03520075|184289123|SUPERIORITY||Geo LSM|58.7|||||TWO_SIDED|90.0|15.7|220.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on AUC0-inf between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C1D1.||220|15.7|
92194637|NCT03520075|184289123|SUPERIORITY||Geo LSM|40.2|||||TWO_SIDED|90.0|14.3|113.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on AUC0-inf between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C2D1.||113|14.3|
92194638|NCT03520075|184289124|SUPERIORITY||Geo LSM|17.5|||||TWO_SIDED|90.0|5.62|54.3|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on Cmax between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C1D1.||54.3|5.62|
92194639|NCT03520075|184289124|SUPERIORITY||Geo LSM|34.5|||||TWO_SIDED|90.0|12.0|99.4|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on Cmax between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C2D1.||99.4|12.0|
92194640|NCT03520075|184289124|SUPERIORITY||Geo LSM|72.6|||||TWO_SIDED|90.0|17.6|299.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on Cmax between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C1D1.||299|17.6|
92194641|NCT03520075|184289124|SUPERIORITY||Geo LSM|72.5|||||TWO_SIDED|90.0|29.1|181.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on Cmax between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C1D1.||181|29.1|
92194642|NCT03520075|184289125|SUPERIORITY||Hodges-Lehmann Estimator|-2.275||||0.0388671|TWO_SIDED|90.0|-5.216|-0.083|||Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator and 90% confidence interval (CI) was calculated using the Moses approximation.|Comparison of effect of food on Tmax between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C1D1.||-0.0830|-5.2160|0.0388671
92194643|NCT03520075|184289125|SUPERIORITY||Hodges-Lehmann Estimator|1.45||||0.4795001|TWO_SIDED|90.0|-0.917|5.15|||Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator and 90% CI was calculated using the Moses approximation.|Comparison of effect of food on Tmax between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C2D1.||5.1500|-0.9170|0.4795001
92194644|NCT03520075|184289125|SUPERIORITY||Hodges-Lehmann Estimator|-0.45||||0.8272593|TWO_SIDED|90.0|-2.467|0.95|||Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator and 90% CI was calculated using the Moses approximation.|Comparison of effect of food on Tmax between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C1D1.||0.9500|-2.4670|0.8272593
92194645|NCT03520075|184289125|SUPERIORITY||Hodges-Lehmann Estimator|0.583||||0.5126908|TWO_SIDED|90.0|-6.45|3.5|||Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator and 90% CI was calculated using the Moses approximation.|Comparison of effect of food on Tmax between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C2D1.||3.5000|-6.4500|0.5126908
92194646|NCT03305809|184289145|SUPERIORITY||Posterior Mean Difference|-0.89|||||TWO_SIDED|95.0|-2.776|0.969|||||Analyses were conducted using a bayesian mixed-model repeated measures (MMRM), and posterior mean change difference is reported.|||0.969|-2.776|
92194647|NCT03305809|184289145|SUPERIORITY||Posterior Mean Difference|-0.08|||||TWO_SIDED|95.0|-1.996|1.879|||||Analyses were conducted using a bayesian MMRM, and posterior mean change difference is reported.|||1.879|-1.996|
92194648|NCT03305809|184289145|SUPERIORITY||Posterior Mean Difference|-0.78|||||TWO_SIDED|95.0|-2.873|1.277|||||Analyses were conducted using a bayesian MMRM, and posterior mean change difference is reported.|||1.277|-2.873|
92194649|NCT03305809|184289146|SUPERIORITY||Mean Difference (Net)|-0.2||||0.273|TWO_SIDED|95.0|-0.54|0.15|||Mixed Models Analysis|||||0.15|-0.54|0.273
92194650|NCT03305809|184289146|SUPERIORITY||Mean Difference (Net)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.02|-0.3|||Mixed Models Analysis|||||-0.30|-1.02|<0.001
92194651|NCT03305809|184289146|SUPERIORITY||Mean Difference (Net)|-0.9|||<|0.001|TWO_SIDED|95.0|-1.29|-0.53|||Mixed Models Analysis|||||-0.53|-1.29|< 0.001
92194652|NCT03305809|184289147|SUPERIORITY||Mean Difference (Net)|-70.71|STANDARD_ERROR_OF_MEAN|68.495||0.303|TWO_SIDED|95.0|-205.53|64.11|||Mixed Models Analysis|||||64.11|-205.53|0.303
92194653|NCT03305809|184289147|SUPERIORITY||Median Difference (Net)|-107.02|STANDARD_ERROR_OF_MEAN|69.647||0.125|TWO_SIDED|95.0|-244.09|30.06|||Mixed Models Analysis|||||30.06|-244.09|0.125
92194654|NCT03305809|184289147|SUPERIORITY||Mean Difference (Net)|-123.72|STANDARD_ERROR_OF_MEAN|72.892||0.091|TWO_SIDED|95.0|-267.18|19.74|||Mixed Models Analysis|||||19.74|-267.18|0.091
92194655|NCT03305809|184289148|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.985||0.686|TWO_SIDED|95.0|-2.34|1.54|||Mixed Models Analysis|||||1.54|-2.34|0.686
92194656|NCT03305809|184289148|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|1.011||0.485|TWO_SIDED|95.0|-2.7|1.28|||Mixed Models Analysis|||||1.28|-2.70|0.485
92194657|NCT03305809|184289148|SUPERIORITY||Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|1.064||0.406|TWO_SIDED|95.0|-2.98|1.21|||Mixed Models Analysis|||||1.21|-2.98|0.406
92194658|NCT03305809|184289149|SUPERIORITY||Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|0.603||0.464|TWO_SIDED|95.0|-0.74|1.63|||Mixed Models Analysis|||||1.63|-0.74|0.464
92194659|NCT03305809|184289149|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.623||0.72|TWO_SIDED|95.0|-1.0|1.45|||Mixed Models Analysis|||||1.45|-1.00|0.720
92194660|NCT03305809|184289149|SUPERIORITY||Mean Difference (Net)|0.95|STANDARD_ERROR_OF_MEAN|0.655||0.149|TWO_SIDED|95.0|-0.34|2.24|||Mixed Models Analysis|||||2.24|-0.34|0.149
92194661|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|1.213||0.607|TWO_SIDED|95.0|-3.01|1.76|||Mixed Models Analysis|||Total Score||1.76|-3.01|0.607
92194662|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|1.265||0.18|TWO_SIDED|95.0|-4.19|0.79|||Mixed Models Analysis|||Total Score||0.79|-4.19|0.180
92194663|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.75|STANDARD_ERROR_OF_MEAN|1.325||0.572|TWO_SIDED|95.0|-3.36|1.86|||Mixed Models Analysis|||Total Score||1.86|-3.36|0.572
92194664|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.173||0.32|TWO_SIDED|95.0|-0.51|0.17|||Mixed Models Analysis|||Delusions||0.17|-0.51|0.320
92194665|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.38|STANDARD_ERROR_OF_MEAN|0.18||0.037|TWO_SIDED|95.0|-0.73|-0.02|||Mixed Models Analysis|||Delusions||-0.02|-0.73|0.037
92194666|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.19||0.558|TWO_SIDED|95.0|-0.49|0.26|||Mixed Models Analysis|||Delusions||0.26|-0.49|0.558
92194667|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.182||0.924|TWO_SIDED|95.0|-0.38|0.34|||Mixed Models Analysis|||Hallucinations||0.34|-0.38|0.924
92194668|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.36|STANDARD_ERROR_OF_MEAN|0.189||0.061|TWO_SIDED|95.0|-0.73|0.02|||Mixed Models Analysis|||Hallucinations||0.02|-0.73|0.061
92194669|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.199||0.148|TWO_SIDED|95.0|-0.68|0.1|||Mixed Models Analysis|||Hallucinations||0.10|-0.68|0.148
92194670|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.18||0.552|TWO_SIDED|95.0|-0.46|0.25|||Mixed Models Analysis|||Agitation/Aggression||0.25|-0.46|0.552
92194671|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.188||0.735|TWO_SIDED|95.0|-0.43|0.31|||Mixed Models Analysis|||Agitation/Aggression||0.31|-0.43|0.735
92194672|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.197||0.224|TWO_SIDED|95.0|-0.63|0.15|||Mixed Models Analysis|||Agitation/Aggression||0.15|-0.63|0.224
92194673|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.216||0.783|TWO_SIDED|95.0|-0.37|0.48|||Mixed Models Analysis|||Depression/Dysphoria||0.48|-0.37|0.783
92194674|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.226||0.64|TWO_SIDED|95.0|-0.55|0.34|||Mixed Models Analysis|||Depression/Dysphoria||0.34|-0.55|0.640
92194675|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.236||0.592|TWO_SIDED|95.0|-0.59|0.34|||Mixed Models Analysis|||Depression/Dysphoria||0.34|-0.59|0.592
92194676|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.197||0.993|TWO_SIDED|95.0|-0.39|0.39|||Mixed Models Analysis|||Anxiety||0.39|-0.39|0.993
92194677|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.205||0.29|TWO_SIDED|95.0|-0.19|0.62|||Mixed Models Analysis|||Anxiety||0.62|-0.19|0.290
92194678|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.215||0.722|TWO_SIDED|95.0|-0.5|0.35|||Mixed Models Analysis|||Anxiety||0.35|-0.50|0.722
92194679|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.097||0.246|TWO_SIDED|95.0|-0.3|0.08|||Mixed Models Analysis|||Elation/Euphoria||0.08|-0.30|0.246
92194680|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.101||0.175|TWO_SIDED|95.0|-0.34|0.06|||Mixed Models Analysis|||Elation/Euphoria||0.06|-0.34|0.175
92194681|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.106||0.482|TWO_SIDED|95.0|-0.28|0.13|||Mixed Models Analysis|||Elation/Euphoria||0.13|-0.28|0.482
92194682|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.45|STANDARD_ERROR_OF_MEAN|0.266||0.091|TWO_SIDED|95.0|-0.97|0.07|||Mixed Models Analysis|||Apathy/Indifference||0.07|-0.97|0.091
92194683|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.278||0.248|TWO_SIDED|95.0|-0.87|0.23|||Mixed Models Analysis|||Apathy/Indifference||0.23|-0.87|0.248
92194684|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.29||0.516|TWO_SIDED|95.0|-0.76|0.38|||Mixed Models Analysis|||Apathy/Indifference||0.38|-0.76|0.516
92194685|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.114||0.875|TWO_SIDED|95.0|-0.21|0.24|||Mixed Models Analysis|||Disinhibition||0.24|-0.21|0.875
92194686|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.34|STANDARD_ERROR_OF_MEAN|0.119||0.005|TWO_SIDED|95.0|0.1|0.57|||Mixed Models Analysis|||Disinhibition||0.57|0.10|0.005
92194687|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.125||0.761|TWO_SIDED|95.0|-0.21|0.28|||Mixed Models Analysis|||Disinhibition||0.28|-0.21|0.761
92194688|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.181||0.183|TWO_SIDED|95.0|-0.6|0.12|||Mixed Models Analysis|||Irritability/Lability||0.12|-0.60|0.183
92194689|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.189||0.765|TWO_SIDED|95.0|-0.43|0.31|||Mixed Models Analysis|||Irritability/Lability||0.31|-0.43|0.765
92194690|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.198||0.279|TWO_SIDED|95.0|-0.18|0.61|||Mixed Models Analysis|||Irritability/Lability||0.61|-0.18|0.279
92194691|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.147||0.252|TWO_SIDED|95.0|-0.12|0.46|||Mixed Models Analysis|||Aberrant Motor Behavior||0.46|-0.12|0.252
92194692|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.154||0.526|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|||Aberrant Motor Behavior||0.20|-0.40|0.526
92194693|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.161||0.8|TWO_SIDED|95.0|-0.28|0.36|||Mixed Models Analysis|||Aberrant Motor Behavior||0.36|-0.28|0.800
92194694|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.623|TWO_SIDED|95.0|-0.59|0.98|||Mixed Models Analysis|||Sleep/Nighttime Behavior Disorders||0.98|-0.59|0.623
92194695|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|0.418||0.354|TWO_SIDED|95.0|-1.21|0.44|||Mixed Models Analysis|||Sleep/Nighttime Behavior Disorders||0.44|-1.21|0.354
92194696|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.437||0.809|TWO_SIDED|95.0|-0.97|0.75|||Mixed Models Analysis|||Sleep/Nighttime Behavior Disorders||0.75|-0.97|0.809
92194697|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.376||0.79|TWO_SIDED|95.0|-0.84|0.64|||Mixed Models Analysis|||Appetite/Eating Disorders||0.64|-0.84|0.790
92194698|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.392||0.28|TWO_SIDED|95.0|-1.2|0.35|||Mixed Models Analysis|||Appetite/Eating Disorders||0.35|-1.20|0.280
92194699|NCT03305809|184289150|SUPERIORITY||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.412||0.797|TWO_SIDED|95.0|-0.7|0.92|||Mixed Models Analysis|||Appetite/Eating Disorders||0.92|-0.70|0.797
92194700|NCT03305809|184289151|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|0.61||0.247|TWO_SIDED|95.0|-1.91|0.49|||Mixed Models Analysis|||||0.49|-1.91|0.247
92194701|NCT03305809|184289151|SUPERIORITY||Mean Difference (Net)|-0.88|STANDARD_ERROR_OF_MEAN|0.631||0.164|TWO_SIDED|95.0|-2.12|0.36|||Mixed Models Analysis|||||0.36|-2.12|0.164
92194702|NCT03305809|184289151|SUPERIORITY||Mean Difference (Net)|-1.59|STANDARD_ERROR_OF_MEAN|0.663||0.017|TWO_SIDED|95.0|-2.9|-0.29|||Mixed Models Analysis|||||-0.29|-2.90|0.017
92194703|NCT03305809|184289152|SUPERIORITY||Mean Difference (Net)|-6.41|STANDARD_ERROR_OF_MEAN|2.86||0.026|TWO_SIDED|95.0|-12.04|-0.77|||Mixed Models Analysis|||||-0.77|-12.04|0.026
92194704|NCT03305809|184289152|SUPERIORITY||Mean Difference (Net)|-7.39|STANDARD_ERROR_OF_MEAN|2.969||0.014|TWO_SIDED|95.0|-13.24|-1.53|||Mixed Models Analysis|||||-1.53|-13.24|0.014
92194705|NCT03305809|184289152|SUPERIORITY||Mean Difference (Net)|-10.6|STANDARD_ERROR_OF_MEAN|3.104|<|0.001|TWO_SIDED|95.0|-16.72|-4.48|||Mixed Models Analysis|||||-4.48|-16.72|<0.001
92194706|NCT03305809|184289153|SUPERIORITY||Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|1.362||0.683|TWO_SIDED|95.0|-2.13|3.24|||Mixed Models Analysis|||||3.24|-2.13|0.683
92194707|NCT03305809|184289153|SUPERIORITY||Mean Difference (Net)|2.41|STANDARD_ERROR_OF_MEAN|1.413||0.089|TWO_SIDED|95.0|-0.37|5.19|||Mixed Models Analysis|||||5.19|-0.37|0.089
92194708|NCT03305809|184289153|SUPERIORITY||Mean Difference (Net)|1.56|STANDARD_ERROR_OF_MEAN|1.489||0.294|TWO_SIDED|95.0|-1.37|4.49|||Mixed Models Analysis|||||4.49|-1.37|0.294
92194709|NCT03305809|184289154|SUPERIORITY||Mean Difference (Net)|0.63|STANDARD_ERROR_OF_MEAN|0.389||0.105|TWO_SIDED|95.0|-0.13|1.4|||Mixed Models Analysis|||||1.40|-0.13|0.105
92194710|NCT03305809|184289154|SUPERIORITY||Mean Difference (Net)|1.07|STANDARD_ERROR_OF_MEAN|0.406||0.009|TWO_SIDED|95.0|0.27|1.87|||Mixed Models Analysis|||||1.87|0.27|0.009
92194711|NCT03305809|184289154|SUPERIORITY||Mean Difference (Net)|0.49|STANDARD_ERROR_OF_MEAN|0.428||0.253|TWO_SIDED|95.0|-0.35|1.33|||Mixed Models Analysis|||||1.33|-0.35|0.253
92194712|NCT03305809|184289155|SUPERIORITY||Mean Difference (Net)|-1.74|STANDARD_ERROR_OF_MEAN|0.923||0.061|TWO_SIDED|95.0|-3.56|0.08|||Mixed Models Analysis|||Motor Experiences of Daily Living||0.08|-3.56|0.061
92194713|NCT03305809|184289155|SUPERIORITY||Mean Difference (Net)|-2.37|STANDARD_ERROR_OF_MEAN|0.96||0.014|TWO_SIDED|95.0|-4.26|-0.47|||Mixed Models Analysis|||Motor Experiences of Daily Living||-0.47|-4.26|0.014
92194714|NCT03305809|184289155|SUPERIORITY||Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|1.013|<|0.001|TWO_SIDED|95.0|-5.5|-1.51|||Mixed Models Analysis|||Motor Experiences of Daily Living||-1.51|-5.50|<0.001
92194715|NCT03305809|184289155|SUPERIORITY||Mean Difference (Net)|-3.27|STANDARD_ERROR_OF_MEAN|1.822||0.074|TWO_SIDED|95.0|-6.86|0.32|||Mixed Models Analysis|||Motor Exam||0.32|-6.86|0.074
92194716|NCT03305809|184289155|SUPERIORITY||Mean Difference (Net)|-3.27|STANDARD_ERROR_OF_MEAN|1.891||0.085|TWO_SIDED|95.0|-7.0|0.45|||Mixed Models Analysis|||Motor Exam||0.45|-7.00|0.085
92194717|NCT03305809|184289155|SUPERIORITY||Mean Difference (Net)|-4.23|STANDARD_ERROR_OF_MEAN|1.959||0.032|TWO_SIDED|95.0|-8.09|-0.37|||Mixed Models Analysis|||Motor Exam||-0.37|-8.09|0.032
92194718|NCT03305809|184289157|SUPERIORITY||Mean Difference (Net)|0.3||||0.898|TWO_SIDED|95.0|-4.92|5.61|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||5.61|-4.92|0.898
92194719|NCT03305809|184289157|SUPERIORITY||Mean Difference (Net)|0.6||||0.821|TWO_SIDED|95.0|-4.71|5.94|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||5.94|-4.71|0.821
92194720|NCT03305809|184289157|SUPERIORITY||Mean Difference (Net)|9.4|||<|0.001|TWO_SIDED|95.0|4.11|14.61|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||14.61|4.11|<0.001
92194721|NCT03305809|184289157|SUPERIORITY||Mean Difference (Net)|0.3||||0.805|TWO_SIDED|95.0|-2.4|3.08|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||3.08|-2.40|0.805
92194722|NCT03305809|184289157|SUPERIORITY||Mean Difference (Net)|0.9||||0.513|TWO_SIDED|95.0|-1.85|3.69|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||3.69|-1.85|0.513
92194723|NCT03305809|184289157|SUPERIORITY||Mean Difference (Net)|3.6||||0.011|TWO_SIDED|95.0|0.83|6.28|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||6.28|0.83|0.011
92194724|NCT03305809|184289158|SUPERIORITY||Mean Difference (Net)|2.5||||0.065|TWO_SIDED|95.0|-0.16|5.08|||Mixed Models Analysis|||||5.08|-0.16|0.065
92194725|NCT03305809|184289158|SUPERIORITY||Mean Difference (Net)|3.6||||0.008|TWO_SIDED|95.0|0.93|6.21|||Mixed Models Analysis|||||6.21|0.93|0.008
92194726|NCT03305809|184289158|SUPERIORITY||Mean Difference (Net)|8.7|||<|0.001|TWO_SIDED|95.0|6.06|11.27|||Mixed Models Analysis|||||11.27|6.06|<0.001
92194727|NCT03305809|184289159|SUPERIORITY||Mean Difference (Net)|1.6||||0.339|TWO_SIDED|95.0|-1.72|4.99|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||4.99|-1.72|0.339
92194728|NCT03305809|184289159|SUPERIORITY||Mean Difference (Net)|1.2||||0.486|TWO_SIDED|95.0|-2.26|4.73|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||4.73|-2.26|0.486
92194729|NCT03305809|184289159|SUPERIORITY||Mean Difference (Net)|4.2||||0.024|TWO_SIDED|95.0|0.56|7.81|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||7.81|0.56|0.024
92194730|NCT03305809|184289159|SUPERIORITY||Mean Difference (Net)|-0.1||||0.935|TWO_SIDED|95.0|-2.04|1.88|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||1.88|-2.04|0.935
92194731|NCT03305809|184289159|SUPERIORITY||Mean Difference (Net)|0.7||||0.505|TWO_SIDED|95.0|-1.34|2.72|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||2.72|-1.34|0.505
92194732|NCT03305809|184289159|SUPERIORITY||Mean Difference (Net)|1.22||||0.266|TWO_SIDED|95.0|-0.91|3.3|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||3.30|-0.91|0.266
92194733|NCT03305809|184289160|SUPERIORITY||Mean Difference (Net)|0.6||||0.55|TWO_SIDED|95.0|-1.28|2.41|||Mixed Models Analysis|||||2.41|-1.28|0.550
92194734|NCT03305809|184289160|SUPERIORITY||Mean Difference (Net)|1.8||||0.069|TWO_SIDED|95.0|-0.14|3.68|||Mixed Models Analysis|||||3.68|-0.14|0.069
92194735|NCT03305809|184289160|SUPERIORITY||Mean Difference (Net)|2.9||||0.005|TWO_SIDED|95.0|0.89|4.83|||Mixed Models Analysis|||||4.83|0.89|0.005
92194736|NCT03305809|184289161|SUPERIORITY||Mean Difference (Net)|-7.0||||0.045|TWO_SIDED|95.0|-13.92|-0.15|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||-0.15|-13.92|0.045
92194737|NCT03305809|184289161|SUPERIORITY||Mean Difference (Net)|3.1||||0.39|TWO_SIDED|95.0|-4.05|10.32|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||10.32|-4.05|0.390
92194738|NCT03305809|184289161|SUPERIORITY||Mean Difference (Net)|-1.1||||0.768|TWO_SIDED|95.0|-8.32|6.16|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||6.16|-8.32|0.768
92194739|NCT03305809|184289161|SUPERIORITY||Mean Difference (Net)|-4.3||||0.041|TWO_SIDED|95.0|-8.48|-0.17|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||-0.17|-8.48|0.041
92194740|NCT03305809|184289161|SUPERIORITY||Mean Difference (Net)|-0.5||||0.802|TWO_SIDED|95.0|-4.81|3.72|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||3.72|-4.81|0.802
92194741|NCT03305809|184289161|SUPERIORITY||Mean Difference (Net)|-2.4||||0.284|TWO_SIDED|95.0|-6.67|1.97|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||1.97|-6.67|0.284
92194742|NCT03305809|184289162|SUPERIORITY||Mean Difference (Net)|0.0||||0.996|TWO_SIDED|95.0|-4.17|4.19|||Mixed Models Analysis|||||4.19|-4.17|0.996
92194743|NCT03305809|184289162|SUPERIORITY||Mean Difference (Net)|-0.7||||0.767|TWO_SIDED|95.0|-4.99|3.69|||Mixed Models Analysis|||||3.69|-4.99|0.767
92194744|NCT03305809|184289162|SUPERIORITY||Mean Difference (Net)|-0.6||||0.791|TWO_SIDED|95.0|-4.96|3.79|||Mixed Models Analysis|||||3.79|-4.96|0.791
92194745|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|0.98||||0.312|TWO_SIDED|95.0|-0.93|2.88|||ANCOVA|||Week 12||2.88|-0.93|0.312
92194746|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|1.03||||0.289|TWO_SIDED|95.0|-0.89|2.95|||ANCOVA|||Week 12||2.95|-0.89|0.289
92194747|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|1.56||||0.141|TWO_SIDED|95.0|-0.53|3.65|||ANCOVA|||Week 12||3.65|-0.53|0.141
92194748|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|0.06||||0.954|TWO_SIDED|95.0|-1.89|2.01|||ANCOVA|||Week 12||2.01|-1.89|0.954
92194749|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|0.59||||0.584|TWO_SIDED|95.0|-1.53|2.7|||ANCOVA|||||2.70|-1.53|0.584
92194750|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|0.53||||0.623|TWO_SIDED|95.0|-1.59|2.65|||ANCOVA|||Week 12||2.65|-1.59|0.623
92194751|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|1.39||||0.256|TWO_SIDED|95.0|-1.02|3.79|||ANCOVA|||Follow-up||3.79|-1.02|0.256
92194752|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|1.41||||0.258|TWO_SIDED|95.0|-1.04|3.86|||ANCOVA|||Follow-up||3.86|-1.04|0.258
92194753|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|4.59|||<|0.001|TWO_SIDED|95.0|1.93|7.25|||ANCOVA|||Follow-up||7.25|1.93|<0.001
92194754|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|0.02||||0.988|TWO_SIDED|95.0|-2.47|2.51|||ANCOVA|||Follow-up||2.51|-2.47|0.988
92194755|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|3.2||||0.02|TWO_SIDED|95.0|0.51|5.9|||ANCOVA|||Follow-up||5.90|0.51|0.020
92194756|NCT03305809|184289163|SUPERIORITY||Mean Difference (Net)|3.18||||0.022|TWO_SIDED|95.0|0.46|5.91|||ANCOVA|||Follow-up||5.91|0.46|0.022
92194757|NCT05146206|184289165|OTHER||||||<|0.001|||||||ANOVA|||||||<.001
92194758|NCT05146206|184289166|OTHER||||||<|0.001|||||||MANOVA|||||||<0.001
92194759|NCT00816556|184289167|SUPERIORITY_OR_OTHER|||||||0.42|||||||ANOVA|||Dryness severity: P-value for the global F-test testing for all treatment arm effects equal.||||0.42
92194760|NCT00816556|184289167|SUPERIORITY_OR_OTHER|||||||0.22|||||||ANOVA|||Dryness bothersomeness: P-value for the global F-test testing for all treatment arm effects equal.||||0.22
92194761|NCT00816556|184289167|SUPERIORITY_OR_OTHER|||||||0.37|||||||ANOVA|||Itching severity: P-value for the global F-test testing for all treatment arm effects equal.||||0.37
92194762|NCT00816556|184289167|SUPERIORITY_OR_OTHER|||||||0.27|||||||ANOVA|||Itching bothersomeness: P-value for the global F-test testing for all treatment arm effects equal.||||0.27
92194763|NCT00816556|184289167|SUPERIORITY_OR_OTHER|||||||0.46|||||||ANOVA|||Burning severity: P-value for the global F-test testing for all treatment arm effects equal.||||0.46
92194764|NCT00816556|184289167|SUPERIORITY_OR_OTHER|||||||0.67|||||||ANOVA|||Burning bothersomeness: P-value for the global F-test testing for all treatment arm effects equal.||||0.67
92194765|NCT00816556|184289168|SUPERIORITY_OR_OTHER|||||||0.33|||||||ANOVA|||Baseline vs. week 2: P-value for the global F-test testing for all treatment arm effects equal.||||0.33
92194766|NCT00816556|184289168|SUPERIORITY_OR_OTHER|||||||0.99|||||||ANOVA|||Baseline vs. week 12: P-value for the global F-test testing for all treatment arm effects equal.||||0.99
92194767|NCT00816556|184289168|SUPERIORITY_OR_OTHER|||||||0.58|||||||ANOVA|||Week 2 vs. week 12: P-value for the global F-test testing for all treatment arm effects equal.||||0.58
92194768|NCT00816556|184289169|SUPERIORITY_OR_OTHER|||||||0.007|||||||ANOVA|||Baseline vs. week 2: P-value for the global F-test testing for all treatment arm effects equal.||||0.007
92194769|NCT00816556|184289169|SUPERIORITY_OR_OTHER|||||||0.32|||||||ANOVA|||Baseline vs. week 12: P-value for the global F-test testing for all treatment arm effects equal.||||0.32
92194770|NCT00816556|184289169|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANOVA|||Week 2 vs. week 12: P-value for the global F-test testing for all treatment arm effects equal.||||0.02
92194771|NCT01642147|184289170|SUPERIORITY_OR_OTHER|||||||0.554||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: Mean Blood Flow Velocity in Middle Cerebral Artery of the 2 groups are the same before anesthesia.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||0.554
92194772|NCT01642147|184289171|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: Mean Blood Flow Velocity in Middle Cerebral Artery of the 2 groups are the same at extubation.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||<0.001
92194773|NCT01642147|184289172|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: mean blood flow velocity in middle cerebral artery of the 2 groups are the same 30min after extubation.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||<0.001
92194774|NCT01642147|184289173|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: mean blood flow velocity in middle cerebral artery of the 2 groups are the same 60min after extubation.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||<0.001
92194775|NCT01642147|184289174|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: mean blood flow velocity in middle cerebral artery of the 2 groups are the same 90min after extubation.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||<0.001
92194776|NCT01642147|184289175|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: mean blood flow velocity in middle cerebral artery of the 2 groups are the same 120min after extubation.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||<0.001
92194777|NCT02007200|184289197|SUPERIORITY_OR_OTHER||||||<|0.005|||||||Linear Repeated Measures Model|||||||<0.005
92317624|NCT04225715|184539948|SUPERIORITY||Difference in Response Rate|9.5|||||TWO_SIDED|95.0|-2.5|21.5|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 6: FUW 48||21.5|-2.5|
92194778|NCT01844726|184289206|SUPERIORITY||Mean Difference (Net)|0.05||||0.1|TWO_SIDED||||||t-test, 2 sided|||Change in BOLD signal activation across task derived learning circuit were compared between GLYX-13 and placebo groups using an independent group t-test.||||.10
92194779|NCT01844726|184289207|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||.57
92194780|NCT02229578|184289208|SUPERIORITY||Mean Difference (Final Values)|0.45|||<|0.05|TWO_SIDED|95.0|-1.2|2.1|||t-test, 2 sided|||Outcome was residual change score calculated by regressing immediate postop pain on 24 hour pain. This allows patient to serve as own control for intial values.||2.1|-1.2|<0.05
92194781|NCT02229578|184289209|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.79|<|0.05|TWO_SIDED|95.0|-1.77|1.49|||t-test, 2 sided|||Outcome was residual change score calculated by regressing immediate postop pain on 24 hour pain. This allows patient to serve as own control for intial values.||1.49|-1.77|<0.05
92194782|NCT02229578|184289210|SUPERIORITY||Mean Difference (Final Values)|-1.76|STANDARD_ERROR_OF_MEAN|3.61|<|0.05|TWO_SIDED|95.0|-9.62|6.09|||t-test, 2 sided|||Outcome was residual change score calculated by regressing immediate postop hydromorphone on 24 hour hydromorphone. This allows patient to serve as own control for intial values.||6.09|-9.62|<0.05
92194783|NCT01496365|184289222|SUPERIORITY||Least squares mean|-0.05||||0.8916|TWO_SIDED|95.0|-0.81|0.7|||ANCOVA|||||0.70|-0.81|0.8916
92194784|NCT01496365|184289222|SUPERIORITY||Least squares mean|-0.22||||0.5569|TWO_SIDED|95.0|-0.95|0.51|||ANCOVA|||||0.51|-0.95|0.5569
92194785|NCT01496365|184289222|SUPERIORITY||Least squares mean|-0.53||||0.1544|TWO_SIDED|95.0|-1.25|0.2|||ANCOVA|||||0.20|-1.25|0.1544
92194786|NCT01496365|184289222|SUPERIORITY||Least squares mean|-0.94||||0.0137|TWO_SIDED|95.0|-1.69|-0.19|||ANCOVA|||||-0.19|-1.69|0.0137
92194787|NCT01496365|184289222|SUPERIORITY||Least squares mean|-0.88||||0.0171|TWO_SIDED|95.0|-1.61|0.16|||ANCOVA|||||0.16|-1.61|0.0171
92194788|NCT01496365|184289222|SUPERIORITY||Least square means|-1.01||||0.006|TWO_SIDED|95.0|-1.74|-0.29|||ANCOVA|||||-0.29|-1.74|0.0060
92194789|NCT01496365|184289222|SUPERIORITY||Least squares mean|-0.17||||0.7051|TWO_SIDED|95.0|-1.03|0.69|||ANCOVA|||||0.69|-1.03|0.7051
92194790|NCT01496365|184289222|SUPERIORITY||Least squares mean|-0.47||||0.2772|TWO_SIDED|95.0|-1.33|0.38|||ANCOVA|||||0.38|-1.33|0.2772
92194791|NCT01496365|184289222|SUPERIORITY||Least squares mean|-0.89||||0.0458|TWO_SIDED|95.0|-1.77|-0.02|||ANCOVA|||||-0.02|-1.77|0.0458
92194792|NCT01496365|184289222|SUPERIORITY||Least squares mean|-0.83||||0.0569|TWO_SIDED|95.0|-1.69|0.02|||ANCOVA|||||0.02|-1.69|0.0569
92194793|NCT01496365|184289222|SUPERIORITY||Least squares mean|-0.96||||0.0271|TWO_SIDED|95.0|-1.81|-0.11|||ANCOVA|||||-0.11|-1.81|0.0271
92194794|NCT01015677|184289235|SUPERIORITY_OR_OTHER||Differrence in the least squares means|-6.28||||0.488|TWO_SIDED|95.0|-24.2|11.64|||Longitudinal Data Analysis (LDA)|LDA model terms for treatment, week (Weeks 1, 2 and 4), region, and interaction of treatment by week.||||11.64|-24.20|0.488
92194795|NCT01015677|184289235|SUPERIORITY_OR_OTHER||Difference in the least squares means|-17.45||||0.069|TWO_SIDED|95.0|-36.28|1.38|||Longitudinal Data Analysis|LDA model with terms for treatment, week (Weeks 1, 2 and 4), region, and interaction of treatment by week.||||1.38|-36.28|0.069
92194796|NCT01015677|184289238|SUPERIORITY_OR_OTHER||Differrence in the least squares means|-6.05||||0.529|TWO_SIDED|95.0|-25.06|12.96|||Longitudinal Data Analysis (LDA)|LDA model includes terms for treatment, week (Weeks 1, 2 and 4), region, and interaction of treatment by week.||||12.96|-25.06|0.529
92194797|NCT01015677|184289238|SUPERIORITY_OR_OTHER||Difference in the least squares means|-11.22||||0.264|TWO_SIDED|95.0|-31.03|8.59|||Longitudinal Data Analysis|LDA model includes terms for treatment, week (Weeks 1, 2 and 4), region, and interaction of treatment by week.||||8.59|-31.03|0.264
92194798|NCT01015677|184289239|SUPERIORITY_OR_OTHER||Difference in LS means|0.94||||0.827|TWO_SIDED|90.0|-6.19|8.07|||ANCOVA|Analysis of covariance (ANCOVA) with terms for treatment, region, stage of the trial, and baseline value as a covariate in PP population only.||||8.07|-6.19|0.827
92194799|NCT01015677|184289239|SUPERIORITY_OR_OTHER||Difference in the LS means|-14.52||||0.001|TWO_SIDED|90.0|-21.73|-7.32|||ANCOVA|ANCOVA with terms for treatment, region, stage of the trial, and baseline value as a covariate in PP population only.||||-7.32|-21.73|0.001
92194800|NCT01660256|184289240|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92194801|NCT01660256|184289241|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92194802|NCT01646385|184289245|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.836||||0.084|TWO_SIDED|95.0|0.683|1.025|||Regression, Cox|||Cox proportional hazards model adjusted for age, baseline steroid, smoking history, previous cancer, and body mass index was used for analysis.||1.025|0.683|0.084
92194803|NCT01646385|184289246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.512||||0.035|TWO_SIDED|95.0|0.276|0.952|||Regression, Cox|||Cox proportional hazards model adjusted for age was used for analysis.||0.952|0.276|0.035
92194804|NCT01646385|184289247|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.019||||0.855|TWO_SIDED|95.0|0.831|1.251|||Regression, Cox|||Cox proportional hazards model adjusted for age, gender, previous non-RA drugs, baseline steroid, baseline DMARDs, methotrexate, disease activity score based on 28-joints count (DAS28), and smoking history was used for analysis.||1.251|0.831|0.855
92194805|NCT01646385|184289248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.001|TWO_SIDED|95.0|0.564|0.87|||Regression, Cox|||Cox proportional hazards model adjusted for age, gender, previous non-RA drugs, baseline steroid, methotrexate, and baseline health assessment questionnaire (HAQ) score was used for analysis.||0.870|0.564|0.001
92194806|NCT01646385|184289249|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.717||||0.024|TWO_SIDED|95.0|0.537|0.958|||Regression, Cox|||Cox proportional hazards model adjusted for age, gender, previous non-RA drugs, baseline steroid, methotrexate, baseline HAQ score, Charlson index, smoking history, and body mass index was used for analysis.||0.958|0.537|0.024
92194807|NCT01646385|184289252|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92194808|NCT01646385|184289253|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Change at Year 1: analysis was performed with Analysis of Covariance (ANCOVA) using the General Linear Model (GLM) method applying age, gender, baseline DAS28, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.0001
92317625|NCT01894841|184539967|SUPERIORITY||Partial eta squared|0.03||||0.13|TWO_SIDED|||||Adjusted for change in depression from baseline to 1yr (measured via QIDS).|RMANOVA|||||||.13
92194809|NCT01646385|184289253|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Change at Year 2: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline DAS28, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.0001
92194810|NCT01646385|184289253|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Change at Year 3: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline DAS28, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.0001
92194811|NCT01646385|184289253|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Change at Year 4: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline DAS28, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.0001
92194812|NCT01646385|184289253|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANCOVA|||Change at Year 5: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline DAS28, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||0.01
92194813|NCT01646385|184289256|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92194814|NCT01646385|184289257|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Change at Year 1: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline HAQ, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.001
92194815|NCT01646385|184289257|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Change at Year 2: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline HAQ, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.001
92194816|NCT01646385|184289257|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Change at Year 3: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline HAQ, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.001
92194817|NCT03603639|184289272|SUPERIORITY||LS Mean difference|1.38|||||TWO_SIDED|90.0|-0.72|3.48||||||The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||3.48|-0.72|
92194818|NCT03603639|184289272|SUPERIORITY||LS Mean difference|1.07|||||TWO_SIDED|90.0|-0.49|2.63||||||The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||2.63|-0.49|
92194819|NCT03603639|184289273|SUPERIORITY||LS Mean Difference|0.39|||||TWO_SIDED|90.0|-0.75|1.54||||||In eye closure condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||1.54|-0.75|
92194820|NCT03603639|184289273|SUPERIORITY||LS Mean Difference|0.3|||||TWO_SIDED|90.0|-0.6|1.21||||||In eye closure condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||1.21|-0.60|
92194821|NCT03603639|184289273|SUPERIORITY||LS Mean Difference|1.62|||||TWO_SIDED|90.0|-1.16|4.39||||||In eyes closed condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||4.39|-1.16|
92194822|NCT03603639|184289273|SUPERIORITY||LS Mean Difference|1.05|||||TWO_SIDED|90.0|-0.89|2.98||||||In eyes closed condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||2.98|-0.89|
92194823|NCT03603639|184289273|SUPERIORITY||LS Mean Difference|0.21|||||TWO_SIDED|90.0|-1.87|2.28||||||In eyes open condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||2.28|-1.87|
92194824|NCT03603639|184289273|SUPERIORITY||LS Mean Difference|1.27|||||TWO_SIDED|90.0|-0.57|3.11||||||In eyes open condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||3.11|-0.57|
92194825|NCT00858247|184289296|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANCOVA|||||||0.95
92194826|NCT00858247|184289297|SUPERIORITY_OR_OTHER|||||||0.8|||||||ANCOVA|||||||0.80
92194827|NCT00858247|184289298|SUPERIORITY_OR_OTHER|||||||0.65|||||||ANCOVA|||||||0.65
92194828|NCT00858247|184289299|SUPERIORITY_OR_OTHER|||||||0.68|||||||ANCOVA|||||||0.68
92194829|NCT00858247|184289300|SUPERIORITY_OR_OTHER|||||||0.4|||||||ANCOVA|||||||0.40
92194830|NCT00858247|184289301|SUPERIORITY_OR_OTHER|||||||0.47|||||||ANCOVA|||||||0.47
92194831|NCT02165397|184289314|SUPERIORITY||Hazard Ratio (HR)|0.25|||<|0.0001|TWO_SIDED|95.0|0.148|0.42||The treatment effect was tested with a stratified log rank test.|Log Rank||The hazard ratio and its 95% confidence interval were based on a Cox regression model stratified by the randomization stratification factors.|||0.420|0.148|< 0.0001
92194832|NCT02165397|184289315|SUPERIORITY||Rate Ratio|2.526|||<|0.0001|TWO_SIDED|95.0|1.753|3.639||Response rate was compared using Cochran-Mantel-Haenszel (CMH) chi-square test.|Cochran-Mantel-Haenszel|||||3.639|1.753|< 0.0001
92194833|NCT02165397|184289316|SUPERIORITY||Hazard Ratio (HR)|0.102|||<|0.0001|TWO_SIDED|95.0|0.049|0.212||P-value is from a stratified log-rank test.|Log Rank||Hazard ratio is estimated using a stratified Cox regression model.|||0.212|0.049|< 0.0001
92194834|NCT02165397|184289317|SUPERIORITY||Rate Ratio|1.813|||<|0.0001|TWO_SIDED|95.0|1.357|2.421|||Chi-squared|||||2.421|1.357|< 0.0001
92194835|NCT02165397|184289318|SUPERIORITY||Rate Ratio|1.238||||0.1059|TWO_SIDED|95.0|0.955|1.603||CMH chi squared test|Cochran-Mantel-Haenszel|||||1.603|0.955|0.1059
92194836|NCT02165397|184289319|SUPERIORITY||Hazard Ratio (HR)|0.808||||0.643|TWO_SIDED|95.0|0.328|1.99||P-value is from unstratified log rank test.|Log Rank||Hazard ratio is estimated using unstratified Cox regression model with treatment as the only covariate.|Data cutoff 18 December 2019||1.99|0.328|0.643
92194837|NCT01898442|184289330|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||ANCOVA|||||||0.017
92317626|NCT01894841|184539968|SUPERIORITY||Partial eta squared|0.01||||0.79|TWO_SIDED||||||RMANOVA|Adjusted for change in depression from baseline to 1yr (measured via QIDS).||||||.79
92194838|NCT00702546|184289341|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-9.4|||||TWO_SIDED|95.0|-19.5|0.7||||||Treatment groups were compared with a generalized linear model for the cumulative ongoing pregnancy rate including covariates treatment group, age class (\< 32 yrs vs. ≥ 32 yrs), planned IVF treatment (IVF vs. ICSI) and region (Europe vs. Asia).||0.7|-19.5|
92194839|NCT02725008|184289348|SUPERIORITY||Odds Ratio (OR)|2.32||||0.3|TWO_SIDED|95.0|0.54|10.07|||Chi-squared|||||10.07|0.54|0.3
92194840|NCT02725008|184289349|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||||||0.95
92194841|NCT03783546|184289350|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||||||0.0003
92194842|NCT03783546|184289352|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||0.002
92194843|NCT04522778|184289459|OTHER|||||||0.029|||||||t-test, 1 sided|||A ratio of events per month was calculated for each participant. Participants were compared to themselves prior to intervention (i.e. event ratios pre intervention were compared to event ratios following intervention.)||||.029
92194844|NCT04522778|184289460|SUPERIORITY|||||||0.35|||||||t-test, 1 sided|||A ratio of events per month was calculated for each participant. Participants were compared to themselves prior to intervention (i.e. event ratios pre intervention were compared to event ratios following intervention.)||||.35
92194845|NCT04522778|184289461|SUPERIORITY|||||||0.334|||||||t-test, 1 sided|||||||.334
92194846|NCT04522778|184289462|SUPERIORITY||Odds Ratio (OR)|38.26|STANDARD_ERROR_OF_MEAN|50.195||0.005|TWO_SIDED|95.0|2.926154|500.4402|||Chi-squared|||||500.4402|2.926154|.005
92194847|NCT04522778|184289463|SUPERIORITY||Odds Ratio (OR)|30.975|STANDARD_ERROR_OF_MEAN|35.73483||0.003|TWO_SIDED|95.0|3.22|297.17|||Chi-squared|||||297.17|3.22|.003
92194848|NCT04522778|184289464|SUPERIORITY||Odds Ratio (OR)|27.36|STANDARD_ERROR_OF_MEAN|31.72||0.004|TWO_SIDED|95.0|2.82|265.45|||Chi-squared|||||265.45|2.82|.004
92194849|NCT04522778|184289465|SUPERIORITY||Odds Ratio (OR)|10.93|STANDARD_ERROR_OF_MEAN|10.345||0.011|TWO_SIDED|95.0|1.71|69.82|||Chi-squared|||||69.82|1.71|.011
92194850|NCT04522778|184289466|SUPERIORITY||Odds Ratio (OR)|0.298|STANDARD_ERROR_OF_MEAN|0.2189||0.099|TWO_SIDED|95.0|0.0706|1.258|||Chi-squared|||||1.258|.0706|.099
92194851|NCT04522778|184289467|SUPERIORITY||Odds Ratio (OR)|1.201|STANDARD_ERROR_OF_MEAN|1.201||0.312|TWO_SIDED|95.0|0.549|6.562|||Chi-squared|||||6.562|.549|.312
92194852|NCT04522778|184289468|SUPERIORITY||Odds Ratio (OR)|1.519|STANDARD_ERROR_OF_MEAN|2.022||0.753|TWO_SIDED|95.0|0.112|20.623|||Chi-squared|||||20.623|.112|.753
92194853|NCT04522778|184289469|SUPERIORITY||Odds Ratio (OR)|0.321|STANDARD_ERROR_OF_MEAN|0.257||0.156|TWO_SIDED|95.0|0.067|1.541|||Chi-squared|||||1.541|.067|.156
92194854|NCT04522778|184289470|SUPERIORITY||Odds Ratio (OR)|0.458|STANDARD_ERROR_OF_MEAN|0.358||0.318|TWO_SIDED|95.0|0.099|2.122|||Chi-squared|||||2.122|.099|.318
92194855|NCT04522778|184289471|SUPERIORITY||Odds Ratio (OR)|0.449|STANDARD_ERROR_OF_MEAN|0.882||0.684|TWO_SIDED|95.0|0.009|21.003|||Chi-squared|||||21.003|.009|.684
92194856|NCT04522778|184289472|SUPERIORITY||Odds Ratio (OR)|2.335|STANDARD_ERROR_OF_MEAN|2.683||0.46|TWO_SIDED|95.0|0.246|22.194|||Chi-squared|||||22.194|.246|.460
92194857|NCT04522778|184289473|SUPERIORITY||Odds Ratio (OR)|2.299|STANDARD_ERROR_OF_MEAN|2.47293||0.439|TWO_SIDED|95.0|0.279|18.927|||Chi-squared|||||18.927|.279|.439
92194858|NCT04522778|184289474|SUPERIORITY||Odds Ratio (OR)|1.634|STANDARD_ERROR_OF_MEAN|2.187||0.714|TWO_SIDED|95.0|0.119|22.514|||Chi-squared|||||22.514|.119|.714
92194859|NCT04522778|184289475|SUPERIORITY||Odds Ratio (OR)|0.379|STANDARD_ERROR_OF_MEAN|0.448||0.412|TWO_SIDED|95.0|0.037|3.842|||Chi-squared|||||3.842|.037|.412
92194860|NCT04522778|184289476|SUPERIORITY||Odds Ratio (OR)|0.579|STANDARD_ERROR_OF_MEAN|0.539||0.558|TWO_SIDED|95.0|0.094|3.582|||Chi-squared|||||3.582|.094|.558
92194861|NCT04522778|184289477|SUPERIORITY||Odds Ratio (OR)|0.688|STANDARD_ERROR_OF_MEAN|0.609||0.673|TWO_SIDED|95.0|0.121|3.9|||Chi-squared|||||3.90|.121|.673
92194862|NCT04522778|184289478|SUPERIORITY||Odds Ratio (OR)|0.674|STANDARD_ERROR_OF_MEAN|0.438||0.544|TWO_SIDED|95.0|0.189|2.406|||Chi-squared|||||2.406|.189|.544
92194863|NCT04522778|184289479|SUPERIORITY||Odds Ratio (OR)|1.88|STANDARD_ERROR_OF_MEAN|1.631||0.464|TWO_SIDED|95.0|0.345|10.278|||Chi-squared|||||10.278|.345|.464
92194864|NCT04522778|184289480|SUPERIORITY||Odds Ratio (OR)|5.595|STANDARD_ERROR_OF_MEAN|5.675||0.09|TWO_SIDED|95.0|0.766|40.854|||Chi-squared|||||40.854|.766|.090
92194865|NCT04522778|184289481|SUPERIORITY||Odds Ratio (OR)|0.987|STANDARD_ERROR_OF_MEAN|1.119||0.991|TWO_SIDED|95.0|0.107|9.114|||Chi-squared|||||9.114|.107|.991
92194866|NCT04522778|184289482|SUPERIORITY||Odds Ratio (OR)|4.239|STANDARD_ERROR_OF_MEAN|5.027||0.223|TWO_SIDED|95.0|0.415|43.326|||Chi-squared|||||43.326|.415|.223
92194867|NCT04522778|184289483|SUPERIORITY||Odds Ratio (OR)|2.199|STANDARD_ERROR_OF_MEAN|2.496||0.488|TWO_SIDED|95.0|0.238|20.348|||Chi-squared|||||20.348|.238|.488
92194868|NCT04522778|184289484|SUPERIORITY||Odds Ratio (OR)|0.177|STANDARD_ERROR_OF_MEAN|0.129||0.018|TWO_SIDED|95.0|0.0424|0.743|||Chi-squared|||||.743|.0424|.018
92194869|NCT04522778|184289485|SUPERIORITY||Odds Ratio (OR)|3.688|STANDARD_ERROR_OF_MEAN|4.358||0.269|TWO_SIDED|95.0|0.364|37.379|||Chi-squared|||||37.379|.364|.269
92194870|NCT04522778|184289486|SUPERIORITY||Odds Ratio (OR)|4.251|STANDARD_ERROR_OF_MEAN|3.829||0.108|TWO_SIDED|95.0|0.728|24.84|||Chi-squared|||||24.84|.728|.108
92194871|NCT04522778|184289487|SUPERIORITY||Odds Ratio (OR)|3.658|STANDARD_ERROR_OF_MEAN|2.99||0.113|TWO_SIDED|95.0|0.737|18.157|||Chi-squared|||||18.157|.737|.113
92194872|NCT04522778|184289488|SUPERIORITY||Odds Ratio (OR)|2.495|STANDARD_ERROR_OF_MEAN|1.156||0.049|TWO_SIDED|95.0|1.004|6.202|||Chi-squared|||||6.202|1.004|.049
92194873|NCT00953199|184289499|SUPERIORITY_OR_OTHER|||||||0.45||||||.05 was set as level of significance|Chi-squared|||We calculated the sample size to be 570 in each arm, providing 80% power, allocation 1:1, two-sided, alpha 0.05, withdrawal rate of 3% and a reduction in pancreatitis from 8% to 4%. Randomization is performed with permuted blocks of 20. Analysis is based on intention to treat.||||.45
92194874|NCT01024036|184289503|SUPERIORITY_OR_OTHER||difference in the response rate|34.0||||0.0012|TWO_SIDED|95.0|11.1|54.8|||Cochran-Mantel-Haenszel|Adjusted for the stratification factor: corticosteroid use||Null hypothesis: there is no difference in the durable tumor and symptomatic response rate between the 2 treatment arms||54.8|11.1|0.0012
92194875|NCT01024036|184289503|SUPERIORITY_OR_OTHER||difference in the response rate|34.0||||0.0004|TWO_SIDED|95.0|11.1|54.8|||Fisher Exact|Without adjusting for the stratification factor: corticosteroid use||Null hypothesis: there is no difference in the durable tumor and symptomatic response rate between the 2 treatment arms||54.8|11.1|0.0004
92194876|NCT01024036|184289505|SUPERIORITY_OR_OTHER||Difference in overall response rates|33.9||||0.0022|TWO_SIDED|95.0|11.1|54.8|||Cochran-Mantel-Haenszel|||||54.8|11.1|0.0022
92194877|NCT01024036|184289507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.418||||0.0084|TWO_SIDED|95.0|0.214|0.815|||Log Rank||Hazard ratio and 95% CI from a Cox proportional hazards model|||0.815|0.214|0.0084
92194878|NCT01024036|184289508|SUPERIORITY_OR_OTHER||Difference of hemoglobin response rates|61.3||||0.0002|TWO_SIDED|95.0|28.3|85.1|||Cochran-Mantel-Haenszel||Difference in hemoglobin response rates is equal to hemoglobin response rate for siltuximab+best supportive care \[BSC\] arm minus hemoglobin response rate for Placebo+BSC arm.|||85.1|28.3|0.0002
92194879|NCT01024036|184289509|SUPERIORITY_OR_OTHER||Difference of hemoglobin response rates|41.9||||0.0195|TWO_SIDED|95.0|7.8|70.7|||Cochran-Mantel-Haenszel||Difference in hemoglobin response rates is equal to hemoglobin response rate for siltuximab+best supportive care \[BSC\] arm minus hemoglobin response rate for Placebo+BSC arm.|||70.7|7.8|0.0195
92194880|NCT00097669|184289533|SUPERIORITY|"We used Kaplan-Meier methods to construct cumulative time-to-event curves for the two groups, with a comparison by use of the log-rank test.~We used a Cox proportional hazard model analysis to control for any potential imbalance in baseline characteristics and follow-up between the two groups."|Risk Ratio (RR)|0.91||||0.05|TWO_SIDED|95.0|0.82|1.0|||Log Rank|||||1.00|0.82|0.05
92194881|NCT00097669|184289533|SUPERIORITY||Hazard Ratio (HR)|0.9|||<|0.05|TWO_SIDED|95.0|0.81|1.0|||Regression, Cox|Analysis before adjusting for any potential imbalance in the baseline characteristics and follow-up duration between the groups.||||1.00|0.81|<0.05
92194882|NCT00097669|184289533|SUPERIORITY||Hazard Ratio (HR)|0.91|||<|0.05|TWO_SIDED|95.0|0.81|1.03|||Regression, Cox|Analysis after adjusting for any potential imbalance in the baseline characteristics and follow-up duration between the groups.||||1.03|0.81|<0.05
92194883|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.377|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Creatinine concentration. We test the null hypothesis that serum Creatinine was the same in both groups. The first blood samples from both groups were collected before cardiopulmonary bypass.||||0.377
92194884|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.051|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Creatinine concentration. We test the null hypothesis that serum Creatinine was the same in both groups. The blood samples were collected from both groups on arrival of intensive care unit.||||0.051
92194885|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.282|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Creatinine concentration. We test the null hypothesis that serum Creatinine was the same in both groups. The blood samples from both groups were collected 24 hours after Operation.||||0.282
92194886|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.277|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Creatinine concentration. We test the null hypothesis that serum Creatinine was the same in both groups. These blood samples were collected 48 hours after cardiopulmonary Bypass.||||0.277
92317627|NCT01894841|184539969|SUPERIORITY||Partial eta squared|0.02||||0.49|TWO_SIDED|||||Adjusted for change in depression from baseline to 1yr (measured via QIDS).|RMANOVA|||||||.49
92194887|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.308|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Creatinine concentration. We test the null hypothesis that serum Creatinine was the same in both groups. The blood samples were collected from both groups 72 hours after cardiopulmonary bypass.||||0.308
92194888|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.211|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Cystatin C concentration. We test the null hypothesis that serum Cystatin C was the same in both groups. The first blood samples were collected before cardiopulmonary bypass.||||0.211
92194889|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Cystatin C concentration. We test the null hypothesis that serum Cystatin C was the same in both groups. The blood samples were collected on arrival of intensive care unit.||||0.004
92194890|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.221|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Cystatin C concentration. We test the null hypothesis that serum Cystatin C was the same in both groups. The blood samples were collected 24 hours after operation.||||0.221
92194891|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.796|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Cystatin C concentration. We test the null hypothesis that serum Cystatin C was the same in both groups. The blood samples were collected 48 hours after operation.||||0.796
92194892|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.463|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Cystatin C concentration. We test the null hypothesis that serum Cystatin C was the same in both groups. The blood samples were collected 72 hours after operation.||||0.463
92194893|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.118|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of the postoperative NGAL levels in plasma. We test the null hypothesis that the NGAL level was the same in both groups. The first blood samples were collected before cardiopulmonary bypass.||||0.118
92194894|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of the postoperative NGAL levels in plasma. We test the null hypothesis that the NGAL level was the same in both groups. The blood samples were collected on arrival of intensive care unit.||||0.0001
92317628|NCT01894841|184539970|SUPERIORITY||Partial eta-squared|0.003||||0.96|TWO_SIDED|||||Adjusted for change in depression from baseline to 1yr (measured via QIDS).|RMANOVA|||||||.96
92317629|NCT01894841|184539971|SUPERIORITY||Partial eta squared|0.01||||0.62|TWO_SIDED||||||RMANOVA|Adjusted for change in depression from baseline to 1yr (measured via QIDS).||||||.62
92194895|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of the postoperative NGAL levels in plasma. We test the null hypothesis that the NGAL level was the same in both groups. The blood samples were collected one hour after cardiopulmonary bypass.||||0.0001
92194896|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of the postoperative NGAL levels in plasma. We test the null hypothesis that the NGAL level was the same in both groups. The blood samples were collected four hours after cardiopulmonary bypass.||||0.0001
92194897|NCT02672514|184289583|SUPERIORITY_OR_OTHER|||||||0.171|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of the postoperative NGAL levels in plasma. We test the null hypothesis that the NGAL level was the same in both groups. The blood samples were collected 48 hours after cardiopulmonary bypass.||||0.171
92194898|NCT00942188|184289585|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.854|||||TWO_SIDED|95.0|-1.94|0.23|||ANCOVA|||||0.23|-1.94|
92194899|NCT00942188|184289585|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.252|||||TWO_SIDED|95.0|-2.48|-0.03|||ANCOVA|||||-0.03|-2.48|
92194900|NCT00942188|184289585|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|||||TWO_SIDED|95.0|-1.76|0.54|||ANCOVA|||||0.54|-1.76|
92194901|NCT00942188|184289586|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.995|||||TWO_SIDED|95.0|-9.82|3.83|||ANCOVA|||||3.83|-9.82|
92194902|NCT00942188|184289586|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.324|||||TWO_SIDED|95.0|-10.21|5.56|||ANCOVA|||||5.56|-10.21|
92194903|NCT00942188|184289586|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.635|||||TWO_SIDED|95.0|-9.16|5.89|||ANCOVA|||||5.89|-9.16|
92194904|NCT00942188|184289588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|||||TWO_SIDED|95.0|-0.59|0.05||This is the estimated value for week 10 HbA1c.|ANCOVA|||||0.05|-0.59|
92194905|NCT00942188|184289588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.369|||||TWO_SIDED|95.0|-0.74|0.0||This is the estimated value for HbA1c at Week 10.|ANCOVA|||||0.00|-0.74|
92194906|NCT00942188|184289588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.227|||||TWO_SIDED|95.0|-0.59|0.13||This is the estimated value for HbA1c at Week 10.|ANCOVA|||||0.13|-0.59|
92194907|NCT00942188|184289588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.267|||||TWO_SIDED|95.0|-0.61|0.08||This is the estimated value for HbA1c at week 12.|ANCOVA|||||0.08|-0.61|
92194908|NCT00942188|184289588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.396|||||TWO_SIDED|95.0|-0.79|0.0||This is the estimated value for HbA1c at Week 12.|ANCOVA|||||0.00|-0.79|
92194909|NCT00942188|184289588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.221|||||TWO_SIDED|95.0|-0.59|0.15||This is the estimated value for HbA1c at week 12.|ANCOVA|||||0.15|-0.59|
92194910|NCT00143598|184289599|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.58|TWO_SIDED|95.0|0.73|1.76|||Regression, Cox|Adjusted for centre||||1.76|.73|.58
92268620|NCT04636437|184439050|SUPERIORITY||Mean Difference (Net)|3.15||||0.084|TWO_SIDED|97.5|-0.96|7.25||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry appendicular lean mass, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in appendicular lean mass from entry to week 48.||7.25|-0.96|0.084
92268621|NCT04636437|184439051|SUPERIORITY||Mean Difference (Net)|0.78||||0.19|TWO_SIDED|97.5|-0.57|2.13||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry hip bone mineral density, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in hip bone mineral density from entry to week 48.||2.13|-0.57|0.19
92268622|NCT04636437|184439051|SUPERIORITY||Mean Difference (Net)|-0.64||||0.27|TWO_SIDED|97.5|-1.93|0.66||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry hip bone mineral density, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in hip bone mineral density from entry to week 48.||0.66|-1.93|0.27
92268623|NCT04636437|184439052|SUPERIORITY||Mean Difference (Net)|0.5||||0.58|TWO_SIDED|97.5|-1.57|2.58||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry lumbar spine bone mineral density, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in lumbar spine bone mineral density from entry to week 48.||2.58|-1.57|0.58
92268624|NCT04636437|184439052|SUPERIORITY||Mean Difference (Net)|0.05||||0.95|TWO_SIDED|97.5|-1.93|2.03||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry lumbar spine bone mineral density, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in lumbar spine bone mineral density from entry to week 48.||2.03|-1.93|0.95
92268625|NCT03743571|184439061|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.42||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 0.67, p = 0.42||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.42
92317630|NCT02612623|184540005|OTHER||LSM Difference|-0.56|||||TWO_SIDED|95.0|-2.08|0.96|||||Gefapixant minus Placebo|Least squares mean (LSM) difference: Mixed effect repeated measures model (MMRM) uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||0.96|-2.08|
92317631|NCT02612623|184540005|OTHER||LSM Difference|-0.71|||||TWO_SIDED|95.0|-2.34|0.92|||||Gefapixant minus Placebo|LSM difference: MMRM uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||0.92|-2.34|
92317632|NCT02612623|184540005|OTHER||LSM Difference|-1.35|||||TWO_SIDED|95.0|-2.99|0.3|||||Gefapixant minus Placebo|LSM difference: MMRM uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||0.30|-2.99|
92317633|NCT02612623|184540005|OTHER||Percentage Change|-42.6|||||TWO_SIDED|95.0|-87.5|162.3|||||100 x \[(Exponent of LSM Difference) minus 1\]|Estimated Percentage Change: MMRM uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||162.3|-87.5|
92317634|NCT02612623|184540005|OTHER||Percentage Change|-50.8|||||TWO_SIDED|95.0|-90.3|151.1|||||100 x \[(Exponent of LSM Difference) minus 1\]|Estimated Percentage Change: MMRM uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||151.1|-90.3|
92317635|NCT02612623|184540005|OTHER||Percentage Change|-74.0|||||TWO_SIDED|95.0|-95.0|34.7|||||100 x \[(Exponent of LSM Difference) minus 1\]|Estimated Percentage Change: MMRM uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||34.7|-95.0|
92317636|NCT03971071|184540051|SUPERIORITY||Common odds ratio|1.37||||0.13|TWO_SIDED|95.0|0.92|2.05|||Cochran-Mantel-Haenszel||Erenumab 70 mg versus Placebo. Common odds ratio and p-value were obtained from a Cochran-Mantel-Haenszel test, stratified by concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No).|||2.05|0.92|0.13
92317637|NCT03971071|184540051|SUPERIORITY||Common odds ratio|2.01|||<|0.001|TWO_SIDED|95.0|1.33|3.05|||Cochran-Mantel-Haenszel||Erenumab 140 mg versus Placebo. Common odds ratio and p-value were obtained from a Cochran-Mantel-Haenszel test, stratified by concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No).|||3.05|1.33|<0.001
92194911|NCT04367480|184289635|SUPERIORITY||Mean Difference (Final Values)|1.05|STANDARD_ERROR_OF_MEAN|0.81||0.199|TWO_SIDED|95.0|-0.56|2.67|||ANCOVA|||"Missing data were accounted for using multiple imputation (MI) with the fully conditional specification (FCS) method. 100 replicates were imputed.~ANCOVA analysis was applied within each replicate. SAS PROC MI and MIANALYZE were used to calculate the reported estimates. (N: Active TENS=71, Placebo TENS=70)"||2.67|-0.56|0.199
92194912|NCT04367480|184289636|SUPERIORITY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.36||0.302|TWO_SIDED|95.0|-0.34|1.08|||ANCOVA|||Analysis on the Study Completers (N: Active TENS=67, Placebo TENS=62)||1.08|-0.34|0.302
92194913|NCT04367480|184289636|SUPERIORITY||Mean Difference (Final Values)|1.37|STANDARD_ERROR_OF_MEAN|0.85||0.112|TWO_SIDED|95.0|-0.33|3.08|||ANCOVA|||Subgroup analysis on participants who reported at least 4 out of 10 at baseline for Hot/Burning Pain. (N: Active TENS=22, Placebo TENS=22)||3.08|-0.33|0.112
92194914|NCT04367480|184289637|SUPERIORITY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.35||0.351|TWO_SIDED|95.0|-0.37|1.02|||ANCOVA|||Analysis on the Study Completers (N: Active TENS=67, Placebo TENS=62)||1.02|-0.37|0.351
92194915|NCT04367480|184289637|SUPERIORITY||Mean Difference (Final Values)|1.21|STANDARD_ERROR_OF_MEAN|0.78||0.128|TWO_SIDED|95.0|-0.36|2.79|||ANCOVA|||Subgroup analysis was performed on participants who reported at least 4 out of 10 at baseline for Sharp/Shooting Pain. (N: Active TENS=24, Placebo TENS=23)||2.79|-0.36|0.128
92194916|NCT04367480|184289638|SUPERIORITY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.38||0.166|TWO_SIDED|95.0|-0.22|1.27|||ANCOVA|||Analysis on the Study Completers (N: Active TENS=67, Placebo TENS=62)||1.27|-0.22|0.166
92194917|NCT04367480|184289638|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.39||0.492|TWO_SIDED|95.0|-0.51|1.05|||ANCOVA|||Subgroup analysis was performed on participants who reported at least 4 out of 10 at baseline for Numbness. (N: Active TENS=60, Placebo TENS=50)||1.05|-0.51|0.492
92194918|NCT04367480|184289639|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.38||0.622|TWO_SIDED|95.0|-0.56|0.94|||ANCOVA|||Analysis on the Study Completers (N: Active TENS=67, Placebo TENS=62)||0.94|-0.56|0.622
92317638|NCT03971071|184540052|SUPERIORITY||Least squares mean difference|-1.23||||0.033|TWO_SIDED|95.0|-2.35|-0.1||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 70 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||-0.10|-2.35|0.033
92317639|NCT03971071|184540052|SUPERIORITY||Least squares mean difference|-2.74|||<|0.001|TWO_SIDED|95.0|-3.87|-1.62||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 140 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||-1.62|-3.87|<0.001
92317640|NCT03971071|184540053|SUPERIORITY||Common odds ratio|1.62||||0.019|TWO_SIDED|95.0|1.08|2.43|||Cochran-Mantel-Haenszel||Erenumab 70 mg versus Placebo. Common odds ratio and p-value were obtained from a Cochran-Mantel-Haenszel test, stratified by concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No).|||2.43|1.08|0.019
92317641|NCT03971071|184540053|SUPERIORITY||Common odds ratio|2.63|||<|0.001|TWO_SIDED|95.0|1.75|3.96|||Cochran-Mantel-Haenszel||Erenumab 140 mg versus Placebo. Common odds ratio and p-value were obtained from a Cochran-Mantel-Haenszel test, stratified by concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No).|||3.96|1.75|<0.001
92317642|NCT03971071|184540054|SUPERIORITY||Least squares mean difference|-3.25||||0.007|TWO_SIDED|95.0|-5.62|-0.88||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 70 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||-0.88|-5.62|0.007
92194919|NCT04367480|184289639|SUPERIORITY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.43||0.587|TWO_SIDED|95.0|-0.61|1.08|||ANCOVA|||Subgroup analysis was performed on participants who reported at least 4 out of 10 at baseline for Tingling. (N: Active TENS=55, Placebo TENS=50)||1.08|-0.61|0.587
92194920|NCT04367480|184289640|SUPERIORITY||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.34||0.058|TWO_SIDED|95.0|-0.02|1.31|||ANCOVA|||Analysis on the Study Completers (N: Active TENS=67, Placebo TENS=62)||1.31|-0.02|0.058
92194921|NCT04367480|184289640|SUPERIORITY||Mean Difference (Final Values)|1.35|STANDARD_ERROR_OF_MEAN|0.82||0.11|TWO_SIDED|95.0|-0.32|3.02|||ANCOVA|||Subgroup analysis was performed on participants who reported at least 4 out of 10 at baseline for Cramping. (N: Active TENS=18, Placebo TENS=18)||3.02|-0.32|0.110
92194922|NCT03382561|184289641|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.17|TWO_SIDED|95.0|0.55|1.11|||Log Rank||Hazard ratio: Arm A (CEN)/Arm B (CE)|||1.11|0.55|0.17
92194923|NCT01076244|184289647|SUPERIORITY_OR_OTHER||change from baseline|13.43|STANDARD_DEVIATION|16.55|<|0.0001|TWO_SIDED|95.0|8.42|18.43|||t-test, 2 sided|||||18.43|8.42|<0.0001
92194924|NCT01076244|184289649|SUPERIORITY_OR_OTHER||change from baseline|2.17|STANDARD_DEVIATION|3.29|<|0.0001|TWO_SIDED|95.0|1.17|3.16|||t-test, 2 sided|||||3.16|1.17|<0.0001
92194925|NCT01165177|184289658|OTHER|Criteria for the vaccine efficacy (VE) objective of herpes zoster subunit (HZ/su) vaccine against herpes zoster (HZ) disease, in the 50-59 YOA strata : The lower limit (LL) of the two-sided 95% confidence interval (CI) of VE had to be above 10%.|Vaccine efficacy|96.6|||<|0.0001|TWO_SIDED|95.0|89.6|99.3||Two sided exact P-value conditional to number of cases.|Poisson exact test|||Comparison of vaccine efficacy in prevention of HZ between GSK1437173A 50-59 YOA group and placebo 50-59 YOA group||99.3|89.6|<0.0001
92194926|NCT01165177|184289658|OTHER|Criteria for the VE objective of HZ/su vaccine against herpes zoster disease, in the 60-69 YOA strata : The lower limit (LL) of the two-sided 95% confidence interval (CI) of VE had to be above 10%.|Vaccine efficacy|97.4|||<|0.0001|TWO_SIDED|95.0|90.1|99.7||Two sided exact P-value conditional to number of cases.|Poisson exact test|||Comparison of vaccine efficacy in prevention of HZ between GSK1437173A over 60-69 YOA group and placebo over 60-69 YOA group||99.7|90.1|<0.0001
92194927|NCT01165177|184289658|OTHER|Criteria for the VE objective of HZ/su vaccine against herpes zoster disease, in the 70-79 YOA strata : The lower limit (LL) of the two-sided 95% confidence interval (CI) of VE had to be above 10%.|Vaccine efficacy|97.9||||0.0001|TWO_SIDED|95.0|87.9|100.0||Two sided exact P-value conditional to number of cases.|Poisson exact test|||Comparison of vaccine efficacy in prevention of HZ between GSK1437173A over 70 YOA group and placebo over 70 YOA group||100|87.9|0.0001
92194928|NCT01165177|184289658|OTHER|Criteria for the VE objective of HZ/su vaccine against herpes zoster disease, in the overall age strata : The lower limit (LL) of the two-sided 95% confidence interval (CI) of VE had to be above 10%.|Vaccine efficacy|97.2|||<|0.0001|TWO_SIDED|95.0|93.7|99.0||Two sided exact P-value conditional to number of cases.|Poisson exact test|||Comparison of vaccine efficacy in prevention of HZ between GSK1437173A overall ages group and placebo overall ages group||99|93.7|<0.0001
92194929|NCT01165177|184289659|OTHER|Criteria for the VE objective of HZ/su vaccine against PHN in the 50-59 YOA strata: The lower limit of the 95% CI of VE had to be above 0%|Vaccine efficacy|100.0||||0.0081|TWO_SIDED|95.0|40.9|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between GSK1437173A 50-59 YOA group and placebo 50-59 YOA group||100|40.9|0.0081
92194930|NCT01165177|184289659|OTHER|Criteria for VE objective of HZ/su vaccine against PHN in the 60-69 YOA strata: The lower limit of the 95% CI of VE had to be above 0%|Vaccine efficacy|100.0||||0.5097|TWO_SIDED|95.0|-442.8|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between GSK1437173A 60-69 YOA group and placebo 60-69 YOA group||100|-442.8|0.5097
92194931|NCT01165177|184289659|OTHER|Criteria for the VE objective of HZ/su vaccine against PHN in the 70-79 YOA strata: The lower limit of the 95% CI of VE had to be above 0%|Vaccine efficacy|100.0||||0.0078|TWO_SIDED|95.0|41.4|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between GSK1437173A over 70 YOA group and placebo over 70 YOA group||100|41.4|0.0078
92194932|NCT01165177|184289659|OTHER|Criteria for the VE objective of HZ/su vaccine against PHN in the overall ages strata: The lower limit of the 95% CI of VE had to be above 0%|Vaccine efficacy|100.0|||<|0.0001|TWO_SIDED|95.0|77.1|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between GSK1437173A overall ages group and placebo overall ages group||100|77.1|<0.0001
92194933|NCT05499130|184289680|OTHER||Difference in Response Rate|15.7||||||||||||||||||
92194934|NCT05499130|184289680|OTHER||Posterior Probability|0.949|||||||||||||A beta-binomial model was employed to obtain this posterior probability using a non-informative prior to assess superior efficacy compared to placebo.|||||
92194935|NCT05499130|184289680|OTHER||Difference in Response Rate|27.4||||||||||||||||||
92194936|NCT05499130|184289680|OTHER||Posterior Probability|0.997|||||||||||||A beta-binomial model was employed to obtain this posterior probability using a non-informative prior to assess superior efficacy compared to placebo.|||||
92194937|NCT05499130|184289681|OTHER||Difference in Response Rate|13.0||||||||||||||||||
92194938|NCT05499130|184289681|OTHER||Posterior Probability|0.939|||||||||||||A beta-binomial model was employed to obtain this posterior probability using a non-informative prior to assess superior efficacy compared to placebo.|||||
92194939|NCT05499130|184289681|OTHER||Difference in Response Rate|34.8||||||||||||||||||
92194940|NCT05499130|184289681|OTHER||Posterior Probability|1.0|||||||||||||A beta-binomial model was employed to obtain this posterior probability using a non-informative prior to assess superior efficacy compared to placebo.|||||
92194941|NCT00781937|184289699|SUPERIORITY_OR_OTHER||Treatment Contrast|-6.06|||<|0.0001||95.0|-7.5|-4.62||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3) and the hypotheses of equality between liraglutide and placebo for each were tested in a hierarchical manner; i.e. a conclusion of liraglutide superiority for a given co-primary endpoint could be drawn only if all preceding hypotheses of equality in the hierarchy had been rejected.||-4.62|-7.50|<0.0001
92317643|NCT03971071|184540054|SUPERIORITY||Least squares mean difference|-2.13||||0.075|TWO_SIDED|95.0|-4.48|0.22||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 140 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||0.22|-4.48|0.075
92317644|NCT03971071|184540055|SUPERIORITY||Least squares mean difference|-2.61||||0.028|TWO_SIDED|95.0|-4.92|-0.29||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 70 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||-0.29|-4.92|0.028
92317645|NCT03971071|184540055|SUPERIORITY||Least squares mean difference|-2.37||||0.043|TWO_SIDED|95.0|-4.67|-0.07||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 140 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||-0.07|-4.67|0.043
92317646|NCT00360282|184540063|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Sign test|||||||0.007
92317647|NCT00360282|184540064|SUPERIORITY_OR_OTHER|||||||0.549|TWO_SIDED||||||Sign test|||||||.549
92317648|NCT00925704|184540065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.171||95.0|||||Mixed Models Analysis|||Exogenous calcitriol was analyzed using a mixed linear effects model. This model contained sequence group, period, and treatment as fixed effects. The subject within sequence effect was included as a random effect.||||0.171
92317649|NCT00925704|184540065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024||95.0|||||Mixed Models Analysis|||Exogenous calcitriol was analyzed using a mixed linear effects model. This model contained sequence group, period, and treatment as fixed effects. The subject within sequence effect was included as a random effect.||||0.024
92317650|NCT00925704|184540066|SUPERIORITY_OR_OTHER_LEGACY|||||||0.313||95.0|||||Mixed Models Analysis|||Exogenous calcitriol was analyzed using a mixed linear effects model. This model contained sequence group, period, and treatment as fixed effects. The subject within sequence effect was included as a random effect.||||0.313
92317651|NCT00925704|184540066|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Mixed Models Analysis|||Exogenous calcitriol was analyzed using a mixed linear effects model. This model contained sequence group, period, and treatment as fixed effects. The subject within sequence effect was included as a random effect.||||< 0.001
92317652|NCT00925704|184540067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0|||||Wilcoxon (Hodges-Lehmann)|||Analysis for Tmax used the Hodges-Lehmann estimate for Wilcoxon's Signed Rank Test.||||0.039
92317653|NCT00925704|184540067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.305||95.0|||||Wilcoxon (Hodges-Lehmann)|||Analysis for Tmax used the Hodges-Lehmann estimate for Wilcoxon's Signed Rank Test.||||0.305
92317654|NCT04537078|184540078|OTHER||Median Difference (Final Values)|1.5||||0.254|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.254
92317655|NCT04537078|184540079|OTHER||Median Difference (Final Values)|9.48||||0.219|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.219
92317656|NCT04537078|184540080|OTHER||Median Difference (Final Values)|1.0||||0.269|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.269
92317657|NCT04537078|184540081|OTHER||Median Difference (Final Values)|0.0||||0.072|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.072
92317658|NCT04537078|184540082|OTHER|||||||1|||||||Fisher Exact|||||||1
92317659|NCT04537078|184540083|OTHER|||||||0.72|||||||Chi-squared|||||||0.720
92317660|NCT04537078|184540084|OTHER||Median Difference (Final Values)|2.0||||0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.002
92317661|NCT04537078|184540085|OTHER||Median Difference (Final Values)|600.0||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.007
92317662|NCT04537078|184540086|OTHER||Median Difference (Final Values)|2.0||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
92317663|NCT04537078|184540087|OTHER||Median Difference (Final Values)|33.33||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
92317664|NCT04537078|184540088|OTHER||Median Difference (Final Values)|2.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92317665|NCT04537078|184540089|OTHER||Median Difference (Final Values)|0.0||||0.851|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.851
92317666|NCT04537078|184540090|OTHER||Median Difference (Final Values)|25.0||||0.304|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.304
92317667|NCT04537078|184540091|OTHER||Median Difference (Final Values)|1.0||||0.486|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.486
92317668|NCT03207815|184540092|SUPERIORITY||Difference in Treatment Failure Rate|-30.1||||0.0064|TWO_SIDED|95.0|-56.2|-4.1||P-value was estimated from the Cochran-Mantel-Haenszel (CMH) test, adjusted for the stratification factors.|Cochran-Mantel-Haenszel|Participants with missing values on treatment failure status were analyzed as treatment failures using a nonresponder imputation (NRI) method.||||-4.1|-56.2|0.0064
92317669|NCT03207815|184540093|SUPERIORITY||Stratified Hazard Ratio|0.309||||0.0014|TWO_SIDED|95.0|0.144|0.663||P-value was derived from the log rank test stratified by the stratification factors.|Stratified Log-Rank Test||Stratified hazard ratio (95% confidence interval \[CI\]) were derived from the Cox model stratified by the stratification factors.|||0.663|0.144|0.0014
92317670|NCT03207815|184540094|SUPERIORITY||Least Squares Mean Treatment Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.355|TWO_SIDED|95.0|-0.4|0.2||P-value was estimated using a repeated measure Analysis of Covariance (ANCOVA) model which included treatment, eye, interaction of treatment and eye, stratification factors and best state value.|Repeated Measure ANCOVA|The repeated measure ANCOVA model was used to control for the clustered observations from each eye of a participant.|Treatment difference in Least Squares (LS)-means (95% CI) were obtained from the repeated measure ANCOVA model.|||0.2|-0.4|0.3550
92317671|NCT03207815|184540095|SUPERIORITY||LS Mean Treatment Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0145|TWO_SIDED|95.0|-0.8|-0.1||P-value was estimated using a repeated measure ANCOVA model which included treatment, eye, interaction of treatment and eye, stratification factors and best state value.|Repeated Measure ANCOVA|The repeated measure ANCOVA model was used to control for the clustered observations from each eye of a participant.|Treatment difference in LS-means (95% CI) were obtained from the repeated measure ANCOVA model.|||-0.1|-0.8|0.0145
92317672|NCT03207815|184540096|SUPERIORITY||LS Mean Treatment Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.025||0.0389|TWO_SIDED|95.0|-0.1|0.0||P-value was estimated using a repeated measure ANCOVA model which included treatment, eye, interaction of treatment and eye, stratification factors and best state value.|Repeated Measure ANCOVA|The repeated measure ANCOVA model was used to control for the clustered observations from each eye of a participant.|Treatment difference in LS-means (95% CI) were obtained from the repeated measure ANCOVA model.|||-0.00|-0.10|0.0389
92317673|NCT03207815|184540097|SUPERIORITY||LS Mean Treatment Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.011||0.034|TWO_SIDED|95.0|-0.05|0.0||P-value was estimated using a repeated measure ANCOVA model which included treatment, eye, interaction of treatment and eye, OCT machine, and best state value.|Repeated Measure ANCOVA|The repeated measure ANCOVA model was used to control for the clustered observations from each eye of a participant.|Treatment difference in LS-means (95% CI) were obtained from the repeated measure ANCOVA model.|||-0.00|-0.05|0.0340
92317674|NCT03207815|184540098|SUPERIORITY||Stratified Hazard Ratio|1.193||||0.5893|TWO_SIDED|95.0|0.625|2.277||P-value was derived from the log rank test stratified by the stratification factors.|Stratified Log-Rank Test||Stratified hazard ratio (95% CI) were derived from the Cox model stratified by the stratification factors.|||2.277|0.625|0.5893
92317675|NCT01620138|184540112|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92317676|NCT02667704|184540150|SUPERIORITY_OR_OTHER||Ratio of geometric means in percentage|98.85|STANDARD_DEVIATION|11.4|||TWO_SIDED|90.0|91.32|107.01|||ANOVA||Relative bioavailability was estimated by the ratio (T/R) of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient of variation.|Analysis of variance (ANOVA) model on the log scale including treatment as fixed effect and subject as a random effect||107.010|91.320|
92317677|NCT02667704|184540151|SUPERIORITY_OR_OTHER||Ratio of geometric means in percentage|103.36|STANDARD_DEVIATION|26.5|||TWO_SIDED|90.0|86.134|124.025|||ANOVA||Relative bioavailability was estimated by the ratio (T/R) of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient of variation.|Analysis of variance (ANOVA) model on the log scale including treatment as fixed effect and subject as a random effect||124.025|86.134|
92317678|NCT02667704|184540152|SUPERIORITY_OR_OTHER||Ratio of geometric means in percentage|101.98|STANDARD_DEVIATION|10.3|||TWO_SIDED|90.0|94.909|109.57|||ANOVA||Relative bioavailability was estimated by the ratio (T/R) of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient of variation.|Analysis of variance (ANOVA) model on the log scale including treatment as fixed effect and subject as a random effect||109.570|94.909|
92317679|NCT00997373|184540167|SUPERIORITY_OR_OTHER|||||||0.0373|TWO_SIDED||||||Fisher Exact|||||||0.0373
92317680|NCT00832455|184540180|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar|||||||<0.001
92317681|NCT00832455|184540180|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar|||||||<0.001
92317682|NCT00832455|184540182|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar-Bowker|The McNemar-Bowker test is a statistical procedure used to compare the proportion of physician satisfaction at week 0 compared to week 12.||||||<0.001
92317683|NCT00832455|184540182|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar-Bowker|The McNemar-Bowker test is a statistical procedure used to compare the proportion of physician satisfaction at week 0 compared to week 8.||||||<0.001
92317684|NCT00832455|184540183|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar-Bowker|The McNemar-Bowker test is a statistical procedure used to compare the proportion of patient satisfaction at week 0 compared to week 12.||||||<0.001
92317685|NCT00832455|184540184|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|Change in PACQLQ score between Week 12 and baseline is statistically different than zero||||||<0.001
92317686|NCT03817190|184540312|SUPERIORITY||Proportion of participants|-0.2277||||0.688|TWO_SIDED|95.0|-1.0415|0.586|||GLMM|||||0.5860|-1.0415|0.6880
92317687|NCT03817190|184540313|SUPERIORITY||Proportion of participants|-0.276||||0.4321|TWO_SIDED|95.0|-0.9185|0.3665|||GLMM|||||0.3665|-0.9185|0.4321
92317688|NCT00868530|184540335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12|TWO_SIDED||||||t-test, 2 sided|||||||0.120
92317689|NCT04955691|184540343|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92317690|NCT04955691|184540344|SUPERIORITY|||||||0.57|||||||t-test, 1 sided|||\<54 mg/dL||||0.57
92317691|NCT04955691|184540344|SUPERIORITY|||||||0.43|||||||t-test, 1 sided|||54-69 mg/dL||||0.43
92317692|NCT04955691|184540345|SUPERIORITY|||||||0.006|||||||t-test, 1 sided|||181-250 mg/dL||||0.006
92317693|NCT04955691|184540345|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||\>250 mg/dL||||<0.001
92317694|NCT04042467|184540406|SUPERIORITY||Estimated intervention effect at 24 mo.|-0.33|||<|0.001|TWO_SIDED|95.0|-0.57|-0.09||The p-value was not adjusted for multiple comparisons, and the a priori threshold for statistical significance was 0.05.|Regression, Linear|Wald test (4 DoF) of intervention main effect and 3 intervention by age interaction parameters equal 0 vs. alternative that at least one was not 0.|The p-value is for the Wald test (4 DoF) evaluating whether the Greenlight Plus and Greenlight group trajectories were significantly different. The estimation parameter is the model-estimated intervention effect at 24 months (kg/m).|"Linear mixed-effects model (random intercepts and slopes for clinics and participants within clinics). A priori adjustment for baseline variables: child birth weight and biological sex, race/ethnicity, health literacy, language, education, income, and food insecurity. Child age and birth weight were included using natural splines with 3 DoF.~Effect evaluated using Wald test with a 2-sided, 0.05 significance level. Null hypothesis: Equal weight-for-length growth trajectories in the two groups."||-0.09|-0.57|<0.001
92317695|NCT05151744|184540410|SUPERIORITY||Difference in Adjusted Means|3.4||||0.0625|TWO_SIDED|95.0|-0.2|7.0|||MMRM|||||7.0|-0.2|0.0625
92317696|NCT05151744|184540412|SUPERIORITY||Difference in Adjusted Mean|2.7||||0.2052|TWO_SIDED|95.0|-1.5|7.0|||MMRM|||||7.0|-1.5|0.2052
92317697|NCT05151744|184540413|SUPERIORITY||Difference in Adjusted Mean|3.3||||0.0192|TWO_SIDED|95.0|0.5|6.0|||MMRM|||||6.0|0.5|0.0192
92317698|NCT05151744|184540414|SUPERIORITY||Difference in Adjusted Mean|2.5||||0.0637|TWO_SIDED|95.0|-0.1|5.2|||MMRM|||||5.2|-0.1|0.0637
92317699|NCT05151744|184540415|SUPERIORITY||Difference in Adjusted Mean|0.8||||0.7091|TWO_SIDED|95.0|-3.3|4.9|||MMRM|||||4.9|-3.3|0.7091
92317700|NCT05151744|184540416|SUPERIORITY||Difference in Adjusted Mean|1.8||||0.1107|TWO_SIDED|95.0|-0.4|4.1|||MMRM|||||4.1|-0.4|0.1107
92317701|NCT05151744|184540417|SUPERIORITY||Difference in Adjusted Mean|2.1||||0.1498|TWO_SIDED|95.0|-0.8|5.0|||MMRM|||||5.0|-0.8|0.1498
92317702|NCT05151744|184540418|SUPERIORITY||Difference in Adjusted Mean|1.8||||0.3783|TWO_SIDED|95.0|-2.3|6.0|||MMRM|||||6.0|-2.3|0.3783
92317703|NCT05151744|184540419|SUPERIORITY||Difference in Adjusted Mean|1.9||||0.1036|TWO_SIDED|95.0|-0.4|4.3|||MMRM|||||4.3|-0.4|0.1036
92317704|NCT05151744|184540426|SUPERIORITY||Difference in Adjusted Mean|-10.0||||0.4968|TWO_SIDED|95.0|-38.9|18.9|||MMRM|||||18.9|-38.9|0.4968
92317705|NCT05151744|184540427|SUPERIORITY||Difference in Adjusted Mean|-23.2||||0.3951|TWO_SIDED|95.0|-76.8|30.5|||MMRM|||||30.5|-76.8|0.3951
92194942|NCT00781937|184289700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.82|||<|0.0001||95.0|3.01|7.71||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3) and the hypotheses of equality between liraglutide and placebo for each were tested in a hierarchical manner; i.e. a conclusion of liraglutide superiority for a given co-primary endpoint could be drawn only if all preceding hypotheses of equality in the hierarchy had been rejected.||7.71|3.01|<0.0001
92194943|NCT00781937|184289701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.86|||<|0.0001||95.0|2.44|6.09||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3) and the hypotheses of equality between liraglutide and placebo for each were tested in a hierarchical manner; i.e. a conclusion of liraglutide superiority for a given co-primary endpoint could be drawn only if all preceding hypotheses of equality in the hierarchy had been rejected.||6.09|2.44|<0.0001
92317706|NCT05151744|184540428|SUPERIORITY||Difference in Adjusted Mean|-22.8||||0.0521|TWO_SIDED|95.0|-45.8|0.2|||MMRM|||||0.2|-45.8|0.0521
92317707|NCT05151744|184540429|SUPERIORITY||Difference in Adjusted Mean|-17.5||||0.2227|TWO_SIDED|95.0|-45.7|10.7|||MMRM|||||10.7|-45.7|0.2227
92317708|NCT05151744|184540430|SUPERIORITY||Difference in Adjusted Mean|-27.2||||0.2972|TWO_SIDED|95.0|-78.6|24.2|||MMRM|||||24.2|-78.6|0.2972
92317709|NCT05151744|184540431|SUPERIORITY||Difference in Adjusted Mean|-19.4||||0.1071|TWO_SIDED|95.0|-42.9|4.2|||MMRM|||||4.2|-42.9|0.1071
92317710|NCT05151744|184540432|SUPERIORITY||Difference in Adjusted Mean|-14.6||||0.303|TWO_SIDED|95.0|-42.4|13.2|||MMRM|||||13.2|-42.4|0.3030
92317711|NCT05151744|184540433|SUPERIORITY||Difference in Adjusted Mean|-43.0||||0.0878|TWO_SIDED|95.0|-92.4|6.4|||MMRM|||||6.4|-92.4|0.0878
92317712|NCT05151744|184540434|SUPERIORITY||Difference in Adjusted Mean|-22.3||||0.1111|TWO_SIDED|95.0|-49.8|5.2|||MMRM|||||5.2|-49.8|0.1111
92317713|NCT02565628|184540457|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.02|STANDARD_ERROR_OF_MEAN|10.49||0.6382|ONE_SIDED|90.0||8.97|||Mixed Models Analysis|||||8.97||0.6382
92317714|NCT03771898|184540475|SUPERIORITY|Survival probability free of loss of locomotion estimated up to Week 106 (or two years).|Difference in survival probability (%)|-2.2|||=|0.585|TWO_SIDED|95.0|-22.2|17.7||One-sided, over time intervals during entire follow-up. Stratified generalized log-rank test was used, where matching identification created from matching process in SAS PSMATCH Procedure used as strata.|Log Rank||For the shared time interval up to Week 106 (or two years).|Interval censoring survival analysis.||17.7|-22.2|=0.585
92317715|NCT03123120|184540497|OTHER||Risk Difference (RD)|-0.232|||||TWO_SIDED|95.0|-0.568|0.118|||||Risk difference was calculated as the observed proportion of response from Spesolimab minus the one from Placebo. Newcombe method was used in the calculation of the 95% confidence interval around the risk difference.|||0.118|-0.568|
92317716|NCT03123120|184540498|OTHER||Risk Difference (RD)|-0.054|||||TWO_SIDED|95.0|-0.404|0.21|||||Risk difference was calculated as the observed proportion of response from Spesolimab minus the one from Placebo. Newcombe method was used in the calculation of the 95% confidence interval around the risk difference.|||0.210|-0.404|
92317717|NCT03123120|184540499|OTHER||Risk Difference (RD)|-0.286|||||TWO_SIDED|95.0|-0.602|0.101|||||Risk difference was calculated as the observed proportion of response from Spesolimab minus the one from Placebo. Newcombe method was used in the calculation of the 95% confidence interval around the risk difference.|||0.101|-0.602|
92317718|NCT03123120|184540500|OTHER||Risk Difference (RD)|0.143|||||TWO_SIDED|95.0|-0.197|0.399|||||Risk difference was calculated as the observed proportion of response from Spesolimab minus the one from Placebo. Newcombe method was used in the calculation of the 95% confidence interval around the risk difference.|||0.399|-0.197|
92317719|NCT03135548|184540503|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|0.078|||||TWO_SIDED|95.0|-0.19|0.338|||Wilson/Newcombe|95% confidence intervals (CI) are calculated using the method of Wilson/Newcombe.|Unadjusted absolute risk difference versus placebo was calculated as the difference in the observed proportion of patients with ppPASI50 at Week 16 for each treatment scenario, for the FAS.|||0.338|-0.190|
92317720|NCT03135548|184540503|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|0.078|||||TWO_SIDED|95.0|-0.19|0.338|||Wilson/Newcombe|95% CIs are calculated using the method of Wilson/Newcombe.|Unadjusted absolute risk difference versus placebo was calculated as the difference in the observed proportion of patients with ppPASI50 at Week 16 for each treatment scenario, for the FAS.|||0.338|-0.190|
92317721|NCT03135548|184540505|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|-0.095|||||TWO_SIDED|95.0|-0.289|0.086|||Wilson/Newcombe|95% CIs are calculated using the method of Wilson/Newcombe.|Unadjusted absolute risk difference versus placebo was calculated as the difference in the observed proportion of patients with ppPASI50 at Week 16 for each treatment scenario, for the FAS.|||0.086|-0.289|
92317722|NCT03135548|184540505|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|0.115|||||TWO_SIDED|95.0|-0.116|0.348|||Wilson/Newcombe|95% CIs are calculated using the method of Wilson/Newcombe.|Unadjusted absolute risk difference versus placebo was calculated as the difference in the observed proportion of patients with ppPASI50 at Week 16 for each treatment scenario, for the FAS.|||0.348|-0.116|
92317723|NCT03135548|184540506|OTHER|No formal hypothesis testing was performed in this trial.|Mean Difference (Final Values)|7.24|||||TWO_SIDED|95.0|-20.01|34.48|||Student's t-distribution|CIs were based on Student's t-distribution.||||34.48|-20.01|
92317724|NCT03135548|184540506|OTHER|No formal hypothesis testing was performed in this trial.|Mean Difference (Final Values)|-5.82|||||TWO_SIDED|95.0|-28.35|16.7|||Student's t-distribution|CIs were based on Student's t-distribution.||||16.70|-28.35|
92317725|NCT03135548|184540507|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|-0.143|||||TWO_SIDED|95.0|-0.346|0.049|||Wilson/Newcombe|95% CIs are calculated using the method of Wilson/Newcombe.||||0.049|-0.346|
92317726|NCT03135548|184540507|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|0.015|||||TWO_SIDED|95.0|-0.213|0.252|||Wilson/Newcombe|95% CIs are calculated using the method of Wilson/Newcombe.||||0.252|-0.213|
92317727|NCT05022667|184540561|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.3
92317728|NCT05022667|184540562|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||.5
92194944|NCT00781937|184289702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.3|||<|0.0001||95.0|2.79|10.08||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||||10.08|2.79|<0.0001
92194945|NCT00781937|184289703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.09|||<|0.0001||95.0|0.03|0.26||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||||0.26|0.03|<0.0001
92194946|NCT00781937|184289705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.86|||<|0.0001||95.0|3.12|10.98||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||||10.98|3.12|<0.0001
92194947|NCT00781937|184289706|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.02|||<|0.0001||95.0|3.65|9.92||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||||9.92|3.65|<0.0001
92194948|NCT00781937|184289707|SUPERIORITY_OR_OTHER||Treatment Contrast|-5.86|||<|0.0001||95.0|-7.3|-4.43||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-4.43|-7.30|<0.0001
92194949|NCT00781937|184289708|SUPERIORITY_OR_OTHER||Treatment Contrast|-4.23|||<|0.0001||95.0|-6.04|-2.43||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-2.43|-6.04|<0.0001
92194950|NCT00781937|184289709|SUPERIORITY_OR_OTHER||Treatment Contrast|-2.72||||0.0068||95.0|-4.69|-0.76||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||Analysis is of treatment contrast, change in systolic blood pressure.||-0.76|-4.69|0.0068
92194951|NCT00781937|184289709|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.34||||0.6386||95.0|-1.74|1.07||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||Analysis is of treatment contrast, change in diastolic blood pressure.||1.07|-1.74|0.6386
92194952|NCT00781937|184289710|SUPERIORITY_OR_OTHER||Treatment Contrast|0.97||||0.1968||95.0|-0.51|2.45||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||2.45|-0.51|0.1968
92194953|NCT00781937|184289711|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.11||||0.031||95.0|-0.2|-0.01||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-0.01|-0.20|0.0310
92194954|NCT00781937|184289712|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.09||||0.1098||95.0|-0.2|0.02||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||0.02|-0.20|0.1098
92194955|NCT00781937|184289713|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.11||||0.1149||95.0|-0.24|0.03||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||0.03|-0.24|0.1149
92194956|NCT00781937|184289714|SUPERIORITY_OR_OTHER||Treatment Contrast|-13.01||||0.0141||95.0|-23.4|-2.64||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-2.64|-23.40|0.0141
92194957|NCT00781937|184289715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.1199||95.0|0.36|1.12||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, and stratification factor(s) as fixed effects and metabolic status and weight at baseline as covariates.||||1.12|0.36|0.1199
92194958|NCT00781937|184289716|SUPERIORITY_OR_OTHER||Treatment Contrast|-3.5|||<|0.0001||95.0|-4.84|-2.15||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-2.15|-4.84|<0.0001
92194959|NCT00781937|184289717|SUPERIORITY_OR_OTHER||Treatment Contrast|-2.05|||<|0.0001||95.0|-2.53|-1.57||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-1.57|-2.53|<0.0001
92194960|NCT00781937|184289718|SUPERIORITY_OR_OTHER||Treatment Contrast|2.35||||0.3689||95.0|-2.79|7.49||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||7.49|-2.79|0.3689
92194961|NCT00781937|184289719|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.1||||0.0053||95.0|-0.16|-0.03||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-0.03|-0.16|0.0053
92194962|NCT00781937|184289720|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.38|||<|0.0001||95.0|-0.5|-0.26||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-0.26|-0.50|<0.0001
92194963|NCT00781937|184289721|SUPERIORITY_OR_OTHER||Treatment Contrast|-1.85||||0.0147||95.0|-3.34|-0.37||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-0.37|-3.34|0.0147
92317729|NCT05022667|184540563|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||.2
92317730|NCT05022667|184540564|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.3
92317731|NCT05022667|184540565|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||.4
92317732|NCT05022667|184540567|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||.3
92317733|NCT03521154|184540570|SUPERIORITY||Hazard Ratio (HR)|0.16|||<|0.001|TWO_SIDED|95.0|0.1|0.24|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.24|0.10|<0.001
92194964|NCT00781937|184289722|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.27|||<|0.0001||95.0|-0.33|-0.21||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-0.21|-0.33|<0.0001
92194965|NCT00013611|184289725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.47|TWO_SIDED|95.0|0.7|1.18|||Regression, Cox|Stratification by CD4+ count stratum (50-199 or 200-299) and country of randomization.||Null hypothesis was that event rates in two groups are equal. Study was designed with 80%, two-sided alpha=.05, assuming a 28% reduction in the hazard of opportunistic disease or death.||1.18|0.70|0.47
92194966|NCT00013611|184289726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.73|TWO_SIDED|95.0|0.77|1.44|||Regression, Cox|Stratification by CD4+ stratum and country of randomization.||||1.44|0.77|0.73
92194967|NCT00013611|184289727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.1|TWO_SIDED|95.0|0.51|1.06|||Regression, Cox|Stratification by CD4+ stratum and country of randomization.||||1.06|0.51|0.10
92194968|NCT00013611|184289728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.35|TWO_SIDED|95.0|0.9|1.34|||Regression, Cox|||||1.34|0.90|0.35
92194969|NCT00013611|184289729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.0|STANDARD_ERROR_OF_MEAN|6.5|<|0.001|TWO_SIDED|95.0|40.3|65.7|||Mixed Models Analysis|||||65.7|40.3|< 0.001
92194970|NCT01663506|184289737|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 3||||<0.01
92194971|NCT01663506|184289737|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.01
92194972|NCT01663506|184289737|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.01
92194973|NCT01663506|184289739|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.001
92194974|NCT01663506|184289739|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.0001
92194975|NCT01663506|184289740|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.05
92194976|NCT01663506|184289740|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.0001
92194977|NCT01663506|184289742|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.05
92194978|NCT01663506|184289742|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.01
92194979|NCT01663506|184289743|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.01
92194980|NCT01663506|184289745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.001
92194981|NCT01663506|184289745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.01
92194982|NCT01663506|184289746|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.05
92194983|NCT01663506|184289746|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.01
92194984|NCT01663506|184289748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||SJC28: Change from Baseline at Month 6||||<0.01
92194985|NCT01663506|184289748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||TJC28: Change from Baseline at Month 6||||<0.01
92194986|NCT01663506|184289748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||SJC28: Change from Baseline at Month 12||||<0.001
92194987|NCT01663506|184289748|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||TJC28: Change from Baseline at Month 12||||<0.01
92194988|NCT01663506|184289749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.01
92194989|NCT01663506|184289749|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.001
92194990|NCT01663506|184289750|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.01
92194991|NCT01663506|184289750|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.001
92194992|NCT01657799|184289770|SUPERIORITY|||||||0.933|||||||Log Rank|Log-rank test stratified by graded prognostic assessment (GPA) score (≤ 2.5 or \> 2.5) at screening. Nominal P-values were reported.||The primary analysis used a Hochberg testing procedure to preserve the familywise error rate for multiple comparisons, where the larger P-value for the comparisons of veliparib 50 mg BID + WBRT with placebo BID + WBRT and veliparib 200 mg BID + WBRT with placebo BID + WBRT were compared to an α = 0.05. If statistically significant (P ≤ 0.05), both comparisons were considered significant. If the larger P-value was not statistically significant, the smaller P-value was compared to an α = 0.025.||||0.933
92194993|NCT01657799|184289770|SUPERIORITY|||||||0.909|||||||Log Rank|Log-rank test stratified by GPA score (≤ 2.5 or \> 2.5) at screening. Nominal P-values were reported.||The primary analysis used a Hochberg testing procedure to preserve the familywise error rate for multiple comparisons, where the larger P-value for the comparisons of veliparib 50 mg BID + WBRT with placebo BID + WBRT and veliparib 200 mg BID + WBRT with placebo BID + WBRT were compared to an α = 0.05. If statistically significant (P ≤ 0.05), both comparisons were considered significant. If the larger P-value was not statistically significant, the smaller P-value was compared to an α = 0.025.||||0.909
92194994|NCT01657799|184289770|SUPERIORITY||Hazard Ratio (HR)|0.985||||0.927|TWO_SIDED|95.0|0.716|1.355|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening. Nominal P-values were reported.||||1.355|0.716|0.927
92194995|NCT01657799|184289770|SUPERIORITY||Hazard Ratio (HR)|0.981||||0.906|TWO_SIDED|95.0|0.71|1.354|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening. Nominal P-values were reported.||||1.354|0.710|0.906
92194996|NCT01657799|184289771|SUPERIORITY|||||||0.535|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.535
92317734|NCT03521154|184540571|SUPERIORITY||Hazard Ratio (HR)|0.17|||||TWO_SIDED|95.0|0.1|0.29|||Cox proportional hazard model||A hazard ratio \< 1 favours osimertinib|PFS in Ex19Del positive patients||0.29|0.10|
92317735|NCT03521154|184540571|SUPERIORITY||Hazard Ratio (HR)|0.32||||||95.0|0.19|0.56|||Cox proportional hazard model||A hazard ratio \< 1 favours osimertinib|PFS in L858R positive patients||0.56|0.19|
92317736|NCT03521154|184540572|SUPERIORITY||Hazard Ratio (HR)|0.22|||||TWO_SIDED|95.0|0.15|0.34|||Cox proportional hazard model||A hazard ratio \< 1 favours osimertinib|Negative at screening||0.34|0.15|
92317737|NCT03521154|184540573|SUPERIORITY||Hazard Ratio (HR)|0.17|||<|0.001|TWO_SIDED|95.0|0.09|0.32|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.32|0.09|<0.001
92317738|NCT03521154|184540575|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.53|TWO_SIDED|95.0|0.42|1.56|||Log Rank||A hazard ratio \< 1 favours osimertinib|||1.56|0.42|0.530
92194997|NCT01657799|184289771|SUPERIORITY|||||||0.898|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.898
92194998|NCT01657799|184289772|SUPERIORITY|||||||0.314|||||||Log Rank|Log-rank test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.314
92194999|NCT01657799|184289772|SUPERIORITY|||||||0.536|||||||Log Rank|Log-rank test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.536
92195000|NCT01657799|184289772|SUPERIORITY||Hazard Ratio (HR)|1.301||||0.313|TWO_SIDED|95.0|0.78|2.168|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||2.168|0.780|0.313
92195001|NCT01657799|184289772|SUPERIORITY||Hazard Ratio (HR)|1.181||||0.534|TWO_SIDED|95.0|0.698|1.999|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||1.999|0.698|0.534
92195002|NCT01657799|184289773|SUPERIORITY|||||||0.864|||||||Log Rank|Log-rank test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.864
92195003|NCT01657799|184289773|SUPERIORITY|||||||0.301|||||||Log Rank|Log-rank test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.301
92195004|NCT01657799|184289773|SUPERIORITY||Hazard Ratio (HR)|1.047||||0.86|TWO_SIDED|95.0|0.626|1.754|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||1.754|0.626|0.860
92317739|NCT03521154|184540576|SUPERIORITY||Odds Ratio (OR)|2.77|||<|0.001|TWO_SIDED|95.0|1.54|5.08|||Regression, Logistic||An odds ratio \> 1 favours osimertinib|||5.08|1.54|<0.001
92317740|NCT03521154|184540578|SUPERIORITY||Odds Ratio (OR)|2.06||||0.069|TWO_SIDED|95.0|0.94|4.47|||Regression, Logistic||An odds ratio \> 1 favours osimertinib.|||4.47|0.94|0.069
92317741|NCT03521154|184540581|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|95.0|0.11|0.38|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.38|0.11|<0.001
92317742|NCT03521154|184540582|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|95.0|0.14|0.32|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.32|0.14|<0.001
92317743|NCT03521154|184540583|SUPERIORITY||Hazard Ratio (HR)|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.21|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.21|0.08|<0.001
92317744|NCT03521154|184540584|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.022|TWO_SIDED|95.0|0.28|0.91|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.91|0.28|0.022
92317745|NCT03521154|184540585|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.088|TWO_SIDED|95.0|0.35|1.08|||Log Rank||A hazard ratio \< 1 favours osimertinib|||1.08|0.35|0.088
92317746|NCT04632927|184540594|OTHER||Odds Ratio (OR)|3.647||||0.002|TWO_SIDED|95.0|1.601|8.311|||Regression, Logistic|The OR was calculated using a logistic regression model with treatment group, baseline HAQ-DI and strata (body weight) as independent variables||||8.311|1.601|0.002
92317747|NCT01624740|184540616|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||ANOVA|Period effect p=0.11||||||0.74
92317748|NCT02535026|184540627|SUPERIORITY_OR_OTHER|||||||0.28|||||||Chi-squared|||ER status association with age groups||||0.280
92317749|NCT02535026|184540628|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||ER status association with nuclear grade.||||<0.001
92317750|NCT02535026|184540629|SUPERIORITY_OR_OTHER||||||=|0.03|||||||Chi-squared|||ER status association with lymphovascular invasion.||||=0.03
92317751|NCT02535026|184540630|SUPERIORITY_OR_OTHER||||||=|0.004|||||||Chi-squared|||PR status association with age groups||||=0.004
92317752|NCT02535026|184540631|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||PR status association with nuclear grade.||||<0.001
92317753|NCT02535026|184540632|SUPERIORITY_OR_OTHER||||||=|0.025|||||||ANOVA|||PR status association with lymphovascular invasion.||||=0.025
92317754|NCT02535026|184540633|SUPERIORITY_OR_OTHER||||||=|0.056|||||||ANOVA|||HER2 status association with age groups.||||=0.056
92317755|NCT02535026|184540634|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||HER2 status association with nuclear grade.||||<0.001
92317756|NCT02535026|184540635|SUPERIORITY_OR_OTHER||||||=|0.129|||||||Chi-squared|||||||=0.129
92317757|NCT02535026|184540636|SUPERIORITY_OR_OTHER||||||=|0.003|||||||ANOVA|||Breast cancer phenotypes association with age groups.||||=0.003
92317758|NCT02535026|184540637|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Breast cancer phenotypes association with nuclear grades.||||<0.001
92317759|NCT02535026|184540638|SUPERIORITY_OR_OTHER||||||=|0.001|||||||ANOVA|||phenotypes of breast cancer association with lymphovascular invasion.||||=0.001
92317760|NCT02535026|184540639|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||phenotypes of breast cancer association with ER status.||||<0.001
92317761|NCT02535026|184540640|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Phenotypes of breast cancer association with PR status.||||<0.001
92317762|NCT02535026|184540641|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||phenotypes of breast cancer association with HER2 status.||||<0.001
92317763|NCT01671007|184540643|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.64|1.08|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.08|0.64|
92317764|NCT01671007|184540644|OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.7|1.27|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.27|0.70|
92317765|NCT01671007|184540645|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.43|1.06|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.06|0.43|
92317766|NCT01671007|184540646|OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.43|1.09|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.09|0.43|
92317767|NCT01671007|184540650|OTHER||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.38|0.88|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous myocardial infarction, abnormal kidney function, concomitant antiplatelets use and concomitant use of drugs related to bleeding.||0.88|0.38|
92317768|NCT01671007|184540653|OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.49|1.84|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous myocardial infarction, concomitant antiplatelets use, concomitant use of drugs related to bleeding, hypertension, and diabetes.||1.84|0.49|
92317769|NCT01671007|184540654|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.6|1.01|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.01|0.60|
92317770|NCT00449865|184540672|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Global Statistical Test|The global statistical test yielded t = -0.75 (2-sided p-value = .45, df=1865.8).||||||0.45
92317771|NCT00406367|184540673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.4|-0.5||No type I-error adjustment was necessary in this study.|ANCOVA|Indepent variables in the model were treatment, baseline JRS-Severity score, gender, age, dose, and pooled center.||The null hypothesis in the analysis of covariance (ANCOVA) model was the absence of difference in the change from baseline in the JRS severity subscore between incobotulinumtoxinA (Xeomin) and placebo. The ANCOVA model was performed 2-sided (type-I error=5 percent) and change from baseline in the JRS Severity subscore assessed by a blinded Independent Rater as dependent variable. The independent variables were treatment, baseline JRS Severity subscore, gender, age, dose group, and pooled center.||-0.5|-1.4|<0.001
92317772|NCT03809663|184540729|SUPERIORITY||Odds Ratio (OR)|1.686||||0.56|TWO_SIDED|95.0|0.29|9.809||Nominal p-value|Regression, Logistic|||||9.809|0.290|0.56
92317773|NCT03809663|184540729|SUPERIORITY||Odds Ratio (OR)|1.011||||0.99|TWO_SIDED|95.0|0.135|7.551||Nominal p-value|Regression, Logistic|||||7.551|0.135|0.99
92317774|NCT03809663|184540729|SUPERIORITY||Odds Ratio (OR)|2.146||||0.38|TWO_SIDED|95.0|0.39|11.8||Nominal p-value|Regression, Logistic|||||11.800|0.390|0.38
92195005|NCT01657799|184289773|SUPERIORITY||Hazard Ratio (HR)|1.295||||0.289|TWO_SIDED|95.0|0.803|2.086|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||2.086|0.803|0.289
92195006|NCT04599855|184289781|SUPERIORITY||least square (LS) means difference|-5.1|STANDARD_ERROR_OF_MEAN|1.42|<|0.001|TWO_SIDED|95.0|-7.91|-2.33|||Mixed model for repeated measures|||||-2.33|-7.91|<0.001
92317775|NCT03809663|184540730|SUPERIORITY||Odds Ratio (OR)|0.982||||0.97|TWO_SIDED|95.0|0.344|2.803||Nominal p-value|Regression, Logistic|||||2.803|0.344|0.97
92317776|NCT03809663|184540730|SUPERIORITY||Odds Ratio (OR)|1.217||||0.7|TWO_SIDED|95.0|0.441|3.356||Nominal p-value|Regression, Logistic|||||3.356|0.441|0.70
92317777|NCT03809663|184540730|SUPERIORITY||Odds Ratio (OR)|0.73||||0.58|TWO_SIDED|95.0|0.243|2.197||Nominal p-value|Regression, Logistic|||||2.197|0.243|0.58
92195007|NCT04599855|184289781|SUPERIORITY||LS means difference|-6.8|STANDARD_ERROR_OF_MEAN|1.38|<|0.001|TWO_SIDED|95.0|-9.48|-4.07|||Mixed model for repeated measures|||||-4.07|-9.48|<0.001
92195008|NCT04599855|184289782|SUPERIORITY||LS means difference|-3.8|STANDARD_ERROR_OF_MEAN|1.29|=|0.004|TWO_SIDED|95.0|-6.29|-1.22|||Mixed model for repeated measures|||||-1.22|-6.29|=0.004
92195009|NCT04599855|184289782|SUPERIORITY||LS means difference|-3.4|STANDARD_ERROR_OF_MEAN|1.24|=|0.006|TWO_SIDED|95.0|-5.89|-1.0|||Mixed model for repeated measures|||||-1.00|-5.89|=0.006
92195010|NCT04962698|184289792|SUPERIORITY||||||>|0.00238||||||The threshold for statistical significance was 0.00238, which was adjusted from the original 0.05 as described below.|Wilcoxon (Mann-Whitney)|The alpha value for p-value comparison was adjusted for 21 pair-wise comparisons (0.05/21 = 0.00238) across seven tasks.||||||>0.00238
92317778|NCT02792062|184540754|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|113.06||||0.659|TWO_SIDED|90.0|70.37|181.67|||Mixed Models Analysis|||Mixed effect model with natural log-transformed Cmax of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value before breakfast - value in fasted condition without breakfast).||181.67|70.37|0.659
92317779|NCT02792062|184540754|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|45.43||||0.012|TWO_SIDED|90.0|27.86|74.07|||Mixed Models Analysis|||Mixed effect model with natural log-transformed Cmax of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value after breakfast - value in fasted condition without breakfast).||74.07|27.86|0.012
92317780|NCT02792062|184540755|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|84.28||||0.238|TWO_SIDED|90.0|66.09|107.47|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUC∞ of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value before breakfast - value in fasted condition without breakfast).||107.47|66.09|0.238
92195011|NCT04962698|184289793|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was 0.05.|ANOVA|||||||<0.001
92195012|NCT04962698|184289794|SUPERIORITY|||||||0.028||||||The threshold for statistical significance was 0.05.|ANOVA|||||||0.028
92195013|NCT04962698|184289795|SUPERIORITY||||||<|0.00231||||||The threshold for statistical significance was 0.00238, which was adjusted from the original 0.05 as described below.|Wilcoxon (Mann-Whitney)|The alpha value for p-value comparison was adjusted for 21 pair-wise comparisons (0.05/21 = 0.00238) across seven tasks.||||||<0.00231
92195014|NCT04962698|184289796|SUPERIORITY||||||<|0.002||||||The threshold for statistical significance was 0.00238, which was adjusted from the original 0.05 as described below.|Wilcoxon (Mann-Whitney)|The alpha value for p-value comparison was adjusted for 21 pair-wise comparisons (0.05/21 = 0.00238) across seven tasks.||||||<0.0020
92195015|NCT00364377|184289829|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||Paired comparisons (within groups) to examine differences between the baseline study and after 8-weeks of treatment were made using Student's two-tailed t-test for paired samples. Between-group comparisons were made using Student's two-tailed t-test for unpaired samples. Given the previously observed variation in fasting glucose||||>0.05
92195016|NCT00736125|184289853|EQUIVALENCE|nonparametric data were analyzed using Mann Whitney U Tests|||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92195017|NCT00736125|184289854|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
92195018|NCT03124550|184289855|OTHER|||||||0.0008|||||||Multilevel Modeling|||Multilevel modeling with the LMER package in R was used to determine whether participants changed in weekly average steps over the 6-week intervention.||||.0008
92195019|NCT03124550|184289856|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Pre-test and post-test comparison||||.01
92195020|NCT03124550|184289857|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||Pre-test and post-test comparison||||.94
92195021|NCT03124550|184289858|OTHER|||||||0.0007|||||||Multilevel Modeling|||Multilevel modeling with the LMER package in R was used to determine whether participants changed in weekly number of social contact over the 6-week intervention.||||.0007
92195022|NCT01121913|184289880|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LS means) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-t) is between 80% and 125%.|Mean ratio|102.0|||||TWO_SIDED|90.0|91.8|114.0|||||Trazodone Contramid® OAD (prototype 1)/Triticco®|||114|91.8|
92195023|NCT01121913|184289880|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LS means) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-t) is between 80% and 125%.|Mean ratio|105.0|||||TWO_SIDED|90.0|93.9|117.0|||||Trazodone Contramid® OAD (prototype 1)/Desyrel®|||117|93.9|
92195024|NCT01121913|184289880|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LS means) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-t) is between 80% and 125%.|Mean ratio|95.3|||||TWO_SIDED|90.0|85.5|106.0|||||Trazodone Contramid® OAD (prototype 2)/Triticco®|||106|85.5|
92195025|NCT01121913|184289880|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LS means) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-t) is between 80% and 125%.|Mean ratio|97.7|||||TWO_SIDED|90.0|87.7|109.0|||||Trazodone Contramid® OAD (prototype 2)/Desyrel®|||109|87.7|
92195026|NCT01121913|184289881|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-∞) is between 80% and 125%.|Mean ratio|102.0|||||TWO_SIDED|90.0|91.8|114.0|||||Trazodone Contramid® OAD (prototype 1)/Triticco®|||114|91.8|
92195027|NCT01121913|184289881|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-∞) is between 80% and 125%.|Mean ratio|106.0|||||TWO_SIDED|90.0|95.1|118.0|||||Trazodone Contramid® OAD (prototype 1)/Desyrel®|||118|95.1|
92195028|NCT01121913|184289881|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-∞) is between 80% and 125%.|Mean ratio|94.9|||||TWO_SIDED|90.0|85.1|106.0|||||Trazodone Contramid® OAD (prototype 2)/Triticco®|||106|85.1|
92195029|NCT01121913|184289881|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-∞) is between 80% and 125%.|Mean ratio|98.4|||||TWO_SIDED|90.0|88.3|110.0|||||Trazodone Contramid® OAD (prototype 2)/Desyrel®|||110|88.3|
92195030|NCT01121913|184289882|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax is between 75% and 133%.|Mean ratio|73.3|||||TWO_SIDED|90.0|63.2|85.0|||||Trazodone Contramid® OAD (prototype 1)/Triticco®|||85|63.2|
92195031|NCT01121913|184289882|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax is between 75% and 133%.|Mean ratio|59.8|||||TWO_SIDED|90.0|51.5|69.4|||||Trazodone Contramid® OAD (prototype 1)/Desyrel®|||69.4|51.5|
92195032|NCT01121913|184289882|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax is between 75% and 133%.|Mean ratio|83.0|||||TWO_SIDED|90.0|71.5|96.4|||||Trazodone Contramid® OAD (prototype 2)/Triticco®|||96.4|71.5|
92195033|NCT01121913|184289882|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax is between 75% and 133%.|Mean ratio|67.7|||||TWO_SIDED|90.0|58.4|78.5|||||Trazodone Contramid® OAD (prototype 2)/Desyrel®|||78.5|58.4|
92195034|NCT00014222|184289906|SUPERIORITY|||||||0.0007|||||||Log Rank|||||||0.0007
92195035|NCT00014222|184289907|SUPERIORITY|||||||0.084|||||||Log Rank|||||||0.084
92195036|NCT03269695|184289911|SUPERIORITY||Treatment difference|1.8||||1|TWO_SIDED|95.0|-41.0|47.2|||Chan and Zhang (1999)|||||47.2|-41.0|1.0000
92195037|NCT03269695|184289912|SUPERIORITY||Treatment difference|0.0||||1|TWO_SIDED|95.0|-37.0|37.0|||Chan and Zhang (1999)|||||37.0|-37.0|1.0000
92195038|NCT03269695|184289913|SUPERIORITY||Treatment difference|14.3||||0.47|TWO_SIDED|95.0|-23.8|57.9|||Chan and Zhang (1999)|||||57.9|-23.8|0.4700
92195039|NCT03269695|184289914|SUPERIORITY||Treatment difference|10.0||||0.5221|TWO_SIDED|95.0|-20.7|45.6|||Chan and Zhang (1999)|||||45.6|-20.7|0.5221
92195040|NCT03269695|184289915|SUPERIORITY||Treatment difference|32.1||||0.3166|TWO_SIDED|95.0|-23.7|74.1|||Chan and Zhang (1999)|||||74.1|-23.7|0.3166
92195041|NCT03269695|184289916|SUPERIORITY||Treatment difference|20.0||||0.5234|TWO_SIDED|95.0|-22.9|58.5|||Chan and Zhang (1999)|||||58.5|-22.9|0.5234
92195042|NCT03269695|184289917|SUPERIORITY||Treatment difference|-25.0||||0.7393|TWO_SIDED|95.0|-69.6|29.1|||Chan and Zhang (1999)|||||29.1|-69.6|0.7393
92195043|NCT03269695|184289918|SUPERIORITY||Least squares mean difference|5.8||||0.2705|TWO_SIDED|95.0|-5.08|16.67|||ANCOVA|||||16.67|-5.08|0.2705
92195044|NCT03269695|184289919|SUPERIORITY||Treatment difference|48.2||||0.0732|TWO_SIDED|95.0|-4.4|84.7|||Chan and Zhang (1999)|||||84.7|-4.4|0.0732
92195045|NCT03269695|184289920|SUPERIORITY||Treatment difference|30.0||||0.2633|TWO_SIDED|95.0|-18.4|69.2|||Chan and Zhang (1999)|||||69.2|-18.4|0.2633
92195046|NCT03269695|184289921|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.15|6.54|||Generalized Linear Mixed Model|||At Week 2||6.54|0.15|1.0000
92195047|NCT03269695|184289921|SUPERIORITY||Odds Ratio (OR)|1.5||||0.6691|TWO_SIDED|95.0|0.23|10.0|||Generalized Linear Mixed Model|||At Week 4||10.00|0.23|0.6691
92195048|NCT03269695|184289921|SUPERIORITY||Odds Ratio (OR)|0.62||||0.6248|TWO_SIDED|95.0|0.09|4.4|||Generalized Linear Mixed Model|||At Week 8||4.40|0.09|0.6248
92195049|NCT03269695|184289921|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9965|TWO_SIDED|95.0|0.12|8.3|||Generalized Linear Mixed Model|||At Week 12||8.30|0.12|0.9965
92195050|NCT05043883|184289930|SUPERIORITY|This clinical investigation is intended to demonstrate that the performance of the PVI Analyzer software is superior to clinically relevant performance level, and therefore the study is designed as a 1-sample superiority test of the sampled outcome specificity. The lower bound 95% CI (α=0.05) and at a statistical power of 95% (β=0.05).|Percentage (%)|87.0||||0.006|ONE_SIDED|95.0||||The success of the PVI Analyzer output was assumed to follow a binominal distribution with a given true proportion of 87.50%. It was tested whether the specificity was superior to the 80% limit.|Z-test|A one-tailed test with a significance level of 95% (α = 0.05) was applied.||Specificity is the ability to correctly detect true negative values of the ground-truth negative EGM classifications. The PVI Analyzer software classifies an EGM in positive (isolated) or negative (non-isolated), compared to the SOC outcomes. EGMs prior-isolation were labeled as ground-truth negative (non-isolated), EGMs after isolation as ground-truth positive (isolated). The null hypothesis is that specificity is lower or equal to the superiority limit 80%.||||0.006
92195051|NCT05043883|184289930|SUPERIORITY|This clinical investigation is intended to demonstrate that the performance of the PVI Analyzer software is superior to clinically relevant performance level, and therefore the study is designed as a 1-sample superiority test of the sampled outcome Sensitivity. The lower bound 95% CI (α=0.05) and at a statistical power of 95% (β=0.05).|Percentage|86.0||||0.004|ONE_SIDED|95.0||||The success of the PVI Analyzer output was assumed to follow a binominal distribution with a given true proportion of 87.50%. It was tested whether the sensitivity was superior to the 80% limit.|Z-test|A one-tailed test with a significance level of 95% (α = 0.05) was applied.||Sensitivity of the PVI analyzer is determined by the capability to detect true positive among all ground-truth positive EGM classifications.The PVI Analyzer software classifies an EGM in positive (isolated) or negative (non-isolated), compared to the SOC outcomes. EGMs prior-isolation were labeled as ground-truth negative (non-isolated), EGMs after isolation as ground-truth positive (isolated). The null hypothesis is that sensitivity is lower or equal to the superiority limit 80%.||||0.004
92195052|NCT05043883|184289931|OTHER|Descriptive|Percentage|0.99|STANDARD_DEVIATION|0.1|||TWO_SIDED|95.0|0.02|5.39|||||Only one AE was reported for one subject ( which was considered moderate in severity and not related to the device, but related to the SOC procedure.|A descriptive analysis was performed to evaluate the AEs and device deficiencies, estimating the percentages and 95% CI on each category.||5.39|0.02|
92195053|NCT05043883|184289932|SUPERIORITY||Percentage (%)|94.0||||2e-05|TWO_SIDED|||||Computed p values are the result of running a one sample z-test with a null hypothesis that specificity is below 80%.|Z-test|||Automated PVI Analyzer classification of PV isolation in SR by Radiofrequency procedure from EP procedure until study completion at discharge (an average of 24 hours), with a specificity superior to 80%. A superiority Z-test for Specificity was performed.||||0.00002
92195054|NCT05043883|184289932|SUPERIORITY||Percentage (%)|82.0||||0.32|TWO_SIDED|||||Computed p values are the result of running a one sample z-test with a null hypothesis that sensitivity is below 80% and alternative hypothesis that sensitivity is at or above 80%.|Z-test|||Automated PVI Analyzer classification of PV isolation in SR by Radiofrequency procedure from EP procedure until study completion at discharge (an average of 24 hours), with sensitivity superior to 80%. A superiority Z-test for Sensitivity was performed.||||0.32
92195055|NCT05043883|184289932|SUPERIORITY||Percentage (%)|79.0||||0.66|TWO_SIDED|||||Computed p values are the result of running a one sample z-test with a null hypothesis that specificity is below 80%.|Z-test|||Automated PVI Analyzer classification of PV isolation in SR by Cryo-balloon procedure from EP procedure until study completion at discharge (an average of 24 hours), with a specificity superior to 80%. A superiority Z-test for Specificity was performed.||||0.66
92195056|NCT05043883|184289932|SUPERIORITY||Percentage (%)|92.0||||0.0008|TWO_SIDED|||||Computed p values are the result of running a one sample z-test with a null hypothesis that sensitivity is below 80% and alternative hypothesis that sensitivity is at or above 80%.|Z-test|||Automated PVI Analyzer classification of PV isolation in SR by Cryo-balloon procedure from EP procedure until study completion at discharge (an average of 24 hours), with a sensitivity superior to 80%. A superiority Z-test for Sensitivity was performed.||||0.0008
92195057|NCT05043883|184289933|SUPERIORITY||Percentage (%)|96.0||||5e-06|TWO_SIDED|||||To compute the proportional agreement between two non-overlapping samples, a one-sample Z-test was performed with the alternative hypothesis that agreement was above 90%, which was considered sufficient for a real-time assessment.|Z-test|||This endpoint used the same EGMs extracted for the primary endpoint, including only EGMs from T Baseline and T Final measurements from patients in sinus rhythm.||||0.000005
92195058|NCT05043883|184289934|SUPERIORITY||Percentage (%)|54.0||||1|TWO_SIDED|||||The p values calculated are the result of running a one sample z-test with a null hypothesis that the specificity are below 80%.|Z-test|||The data analysis and processing were similar to those of the primary endpoint, but taking into consideration that subjects shall be in non-sinus rhythm during the duration of the EGM snippet. Apart from this, the processing was the same and the threshold was also defined as 50: values below 50 were classified as baseline, while values at or above 50 were considered as isolated veins.||||1
92195059|NCT05043883|184289934|SUPERIORITY||Percentage (%)|100.0||||0.0007|TWO_SIDED|||||The p values calculated are the result of running a one sample z-test with a null hypothesis that the sensitivity are below 80% and an alternative hypothesis that sensitivity is at or above 80%.|Z-test|||The data analysis and processing were similar to those of the primary endpoint, but taking into consideration that subjects shall be in non-sinus rhythm during the duration of the EGM snippet. Apart from this, the processing was the same and the threshold was also defined as 50: values below 50 were classified as baseline, while values at or above 50 were considered as isolated veins.||||0.0007
92195060|NCT05043883|184289935|SUPERIORITY||Percentage (%)|87.0||||0.04|TWO_SIDED||||||Z-test|The estimate was done using a one-sample Z-test with a null hypothesis that sensitivity is at or below 80% and a 95% significance level.||This secondary endpoint aimed to determine the sensitivity of the PVI Analyzer at the time of isolation, which requires the EGMs at the T PVI. A Z-test for sensitivity was performed to assess the sensitivity of the PVI Analyzer analysis to identify expert-defined isolation during the PVI ablation.||||0.04
92195061|NCT05043883|184289936|OTHER|||||||0.0002||||||McNemar test assumes as a null hypothesis that the two datasets cause the PVI Analyzer to have a similar proportion of errors.|McNemars test|A paired McNemars test with an alpha value of 0.05, was applied to analyze the differences in classification performance.||A paired McNemar's Chi-Square test was performed to analyze the differences in classification performances||||0.0002
92317781|NCT02792062|184540755|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|53.2|||<|0.001|TWO_SIDED|90.0|41.39|68.37|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUC∞ of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value after breakfast - value in fasted condition without breakfast).||68.37|41.39|<0.001
92195062|NCT00239681|184289954|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56|||<|0.0001||95.0|0.46|0.69|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||0.69|0.46|<0.0001
92195063|NCT00239681|184289955|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||<|0.021||95.0|0.67|0.97|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||0.97|0.67|<0.021
92195064|NCT00239681|184289956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84|||<|0.172||95.0|0.65|1.08|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||1.08|0.65|<0.172
92195065|NCT00239681|184289957|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.27|||<|0.015||95.0|1.05|1.53|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||1.53|1.05|<0.015
92195066|NCT00239681|184289958|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.018||95.0|0.35|0.91|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||0.91|0.35|0.018
92195067|NCT00239681|184289959|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.548||95.0|0.88|1.28|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||1.28|0.88|0.548
92195068|NCT03599622|184289970|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|4.3||||0.5812|TWO_SIDED|95.0|-11.0|19.5||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||19.5|-11.0|0.5812
92195069|NCT03599622|184289970|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|1.2||||0.5812|TWO_SIDED|95.0|0.6|2.5||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||2.5|0.6|0.5812
92195070|NCT03599622|184289970|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|-6.3||||0.372|TWO_SIDED|95.0|-20.2|7.6||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||7.6|-20.2|0.3720
92195071|NCT03599622|184289970|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|0.7||||0.372|TWO_SIDED|95.0|0.3|1.5||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||1.5|0.3|0.3720
92195072|NCT03599622|184289971|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|15.0||||0.0198|TWO_SIDED|95.0|3.7|26.3||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||26.3|3.7|0.0198
92195073|NCT03599622|184289971|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|3.4||||0.0198|TWO_SIDED|95.0|1.2|9.8||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||9.8|1.2|0.0198
92195074|NCT03599622|184289971|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|8.2||||0.1584|TWO_SIDED|95.0|-2.6|19.0||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||19.0|-2.6|0.1584
92195075|NCT03599622|184289971|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|2.1||||0.1584|TWO_SIDED|95.0|0.7|6.1||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||6.1|0.7|0.1584
92195076|NCT03599622|184289972|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|7.7||||0.3464|TWO_SIDED|95.0|-8.2|23.6||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||23.6|-8.2|0.3464
92195077|NCT03599622|184289972|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|1.4||||0.3464|TWO_SIDED|95.0|0.7|2.8||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||2.8|0.7|0.3464
92195078|NCT03599622|184289972|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|-1.2||||0.8857|TWO_SIDED|95.0|-17.0|14.7||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||14.7|-17.0|0.8857
92195079|NCT03599622|184289972|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|1.0||||0.8857|TWO_SIDED|95.0|0.5|1.9||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||1.9|0.5|0.8857
92195080|NCT03599622|184289973|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|8.1||||0.2841|TWO_SIDED|95.0|-6.7|22.9||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||22.9|-6.7|0.2841
92195081|NCT03599622|184289973|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|1.5||||0.2841|TWO_SIDED|95.0|0.7|3.1||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||3.1|0.7|0.2841
92195082|NCT03599622|184289973|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|-4.2||||0.5417|TWO_SIDED|95.0|-17.6|9.2||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||9.2|-17.6|0.5417
92195083|NCT03599622|184289973|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|0.8||||0.5417|TWO_SIDED|95.0|0.3|1.8||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||1.8|0.3|0.5417
92195084|NCT03599622|184289974|EQUIVALENCE|Mean Change From Baseline|Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|95.0|-4.3|-1.8|||ANCOVA|||||-1.8|-4.3|
92195085|NCT03599622|184289974|SUPERIORITY|Adjusted means, 95% confidence intervals, and p-values are from an analysis of covariance model with factors for geographic region, prior exposure to tumor necrosis factor inhibitor, and concomitant corticosteroid use, and the baseline value as a covariate.|Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.92||0.0428|TWO_SIDED|95.0|-3.7|-0.1||Based on a 2-sided test at a significance level of 0.025.|ANCOVA||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||-0.1|-3.7|0.0428
92195086|NCT03599622|184289974|EQUIVALENCE|Mean Change from Baseline|Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-4.8|-2.0|||ANCOVA|||||-2.0|-4.8|
92195087|NCT03599622|184289974|SUPERIORITY|Adjusted means, 95% confidence intervals, and p-values are from an analysis of covariance model with factors for geographic region, prior exposure to tumor necrosis factor inhibitor, and concomitant corticosteroid use, and the baseline value as a covariate.|Mean Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|0.95||0.0177|TWO_SIDED|95.0|-4.1|-0.4||Based on a 2-sided test at a significance level of 0.025.|ANCOVA||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||-0.4|-4.1|0.0177
92195088|NCT03599622|184289974|EQUIVALENCE|Mean Change From Baseline|Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-2.6|0.3||||||||0.3|-2.6|
92195089|NCT03599622|184289974|EQUIVALENCE|Mean Change from Baseline|Mean Difference (Final Values)|-6.0|STANDARD_ERROR_OF_MEAN|1.88|||TWO_SIDED|95.0|-9.7|-2.3|||ANCOVA|||||-2.3|-9.7|
92195090|NCT00905359|184289980|NON_INFERIORITY_OR_EQUIVALENCE|t-test analysis performed using Multiple imputation and one-sided p-value testing non-inferiority of the percentage change from baseline at 10%. One-sided p-value is significant if \<0.025 or the upper limit of the CI is less than 10%.||||||0.172|||||||t-test, 1 sided|||||||0.172
92195091|NCT02485899|184289997|OTHER||Hazard Ratio (HR)|0.14|||<|0.0001|TWO_SIDED|95.0|0.06|0.33|||Cox Proportional Hazards model|||||0.33|0.06|<0.0001
92195092|NCT02485899|184289998|OTHER||Hazard Ratio (HR)|0.01|||<|0.0001|TWO_SIDED||||||Cox Proportional Hazards model|||||||<0.0001
92195093|NCT03713320|184290004|SUPERIORITY|||||||0.9539|||||||Cochran-Mantel-Haenszel|||Comparison of the treatment groups is based on a Cochran-Mantel-Haenzel test controlling for the number of tumors at screening (at least one tumor at screening versus no tumors at screening) and number of prognostic factors (0-1 versus 2 prognostic factors). Prognostic factors include age at diagnosis \> 60 years and lactate dehydrogenase level \> upper limit of normal at diagnosis. Number of subjects achieving ORR4 and exact binomial (Clopper-Pearson) confidence intervals are presented.||||.9539
92195094|NCT03713320|184290005|SUPERIORITY|||||||0.011|||||||Regression, Cox|||Hazard ratio (cobomarsen/vorinostat) and p-value comparing the treatment groups is based on a Cox proportional hazards model. A hazard ratio \< 1 favors cobomarsen over vorinostat.||||0.011
92195095|NCT02725528|184290019|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
92195096|NCT02725528|184290020|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
92195097|NCT02725528|184290021|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
92195098|NCT02725528|184290022|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
92195099|NCT02725528|184290023|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
92195100|NCT02725528|184290024|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
92195101|NCT02725528|184290025|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
92195102|NCT02725528|184290026|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
92195103|NCT02725528|184290027|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
92195104|NCT02706847|184290028|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|36.2|||<|0.001|TWO_SIDED|95.0|26.2|46.2||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||46.2|26.2|<0.001
92195105|NCT02706847|184290028|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|28.0|||<|0.001|TWO_SIDED|95.0|17.8|38.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||38.1|17.8|<0.001
92195106|NCT02706847|184290029|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|29.1|||<|0.001|TWO_SIDED|95.0|19.9|38.3||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||38.3|19.9|<0.001
92195107|NCT02706847|184290029|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|28.2|||<|0.001|TWO_SIDED|95.0|19.0|37.4||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||37.4|19.0|<0.001
92317782|NCT02792062|184540756|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|84.68||||0.256|TWO_SIDED|90.0|66.23|108.27|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUC(0-120) of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value before breakfast - value in fasted condition without breakfast).||108.27|66.23|0.256
92317783|NCT02792062|184540756|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|52.56|||<|0.001|TWO_SIDED|90.0|40.78|67.74|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUC(0-120) of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value after breakfast - value in fasted condition without breakfast).||67.74|40.78|<0.001
92317784|NCT02792062|184540757|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|84.68||||0.256|TWO_SIDED|90.0|66.23|108.27|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUClast of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value before breakfast - value in fasted condition without breakfast).||108.27|66.23|0.256
92317785|NCT02792062|184540757|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|52.56|||<|0.001|TWO_SIDED|90.0|40.78|67.74|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUClast of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value after breakfast - value in fasted condition without breakfast).||67.74|40.78|<0.001
92317786|NCT02883062|184540764|SUPERIORITY|||||||0.36|||||||Generalized estimating equation (GEE)|||||||0.36
92317787|NCT02883062|184540765|SUPERIORITY|||||||0.018|||||||Regression, Logistic|||||||0.018
92317788|NCT00380874|184540782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.08||0.2536||||||Cycle 1. No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 1. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.2536
92317789|NCT00380874|184540782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.23||0.5757||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 2. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.5757
92317790|NCT00380874|184540782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.3||0.6065||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 3. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.6065
92195108|NCT02706847|184290030|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-1.29|||<|0.001|TWO_SIDED|95.0|-1.57|-1.01||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|Analysis of covariance (ANCOVA) model with treatment, prior biological DMARD use (stratum 1 vs stratum 2) and baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-1.01|-1.57|<0.001
92195109|NCT02706847|184290030|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-1.28|||<|0.001|TWO_SIDED|95.0|-1.56|-0.99||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use (stratum 1 vs stratum 2) and baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.99|-1.56|<0.001
92317791|NCT00380874|184540782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.31||0.4301||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 4. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.4301
92317792|NCT00380874|184540782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.49||0.3125||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 5. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.3125
92317793|NCT00380874|184540782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.41||0.8169||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 6.Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.8169
92317794|NCT00380874|184540782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.4||0.9359|||||||ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 7. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.9359
92317795|NCT00380874|184540782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.6233|||||||ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 8. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.6233
92317796|NCT00380874|184540782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.5||0.1569||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 9.Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.1569
92317797|NCT00380874|184540783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.11||0.7207||95.0|-0.25|0.17||Model terms include treatment, study center, and baseline score.|ANCOVA|Cycle 1. No multiple comparisons adjustment was made.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 1.||0.17|-0.25|0.7207
92317798|NCT00380874|184540783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.36||0.3111||95.0|-0.36|1.1||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 2.||1.10|-0.36|0.3111
92317799|NCT00380874|184540783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.48||0.5925||95.0|-0.7|1.22||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 3.||1.22|-0.70|0.5925
92317800|NCT00380874|184540783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.55||0.5812||95.0|-0.8|1.41||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 4.||1.41|-0.80|0.5812
92317801|NCT00380874|184540783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.75|STANDARD_ERROR_OF_MEAN|0.7||0.2925||95.0|-0.67|2.16||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 5.||2.16|-0.67|0.2925
92317802|NCT00380874|184540783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.54||0.9276||95.0|-1.15|1.05||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 6.||1.05|-1.15|0.9276
92317803|NCT00380874|184540783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.53||0.9952||95.0|-1.06|1.07|||ANCOVA|Model terms include treatment, study center, and baseline score.||Cycle 7.||1.07|-1.06|0.9952
92317804|NCT00380874|184540783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.55||0.6265||95.0|-0.85|1.38|||ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 8.||1.38|-0.85|0.6265
92317805|NCT00380874|184540783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.62||0.4209||95.0|-1.77|0.76||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 9.||0.76|-1.77|0.4209
92195110|NCT02706847|184290031|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-0.22|||<|0.001|TWO_SIDED|95.0|-0.34|-0.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use (stratum 1 vs stratum 2) and baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.10|-0.34|<0.001
92195111|NCT02706847|184290031|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-0.25|||<|0.001|TWO_SIDED|95.0|-0.38|-0.13||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use (stratum 1 vs stratum 2) and baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.13|-0.38|<0.001
92195112|NCT02706847|184290032|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean DIfference|3.44|||<|0.001|TWO_SIDED|95.0|1.72|5.15||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.15|1.72|<0.001
92195113|NCT02706847|184290032|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|4.63|||<|0.001|TWO_SIDED|95.0|2.89|6.36||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.36|2.89|<0.001
92195114|NCT02706847|184290033|SUPERIORITY||Response Rate Difference|22.3|||<|0.001|TWO_SIDED|95.0|13.6|31.1||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||31.1|13.6|<0.001
92195115|NCT02706847|184290033|SUPERIORITY||Response Rate Difference|23.9|||<|0.001|TWO_SIDED|95.0|15.1|32.7||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||32.7|15.1|<0.001
92195116|NCT02706847|184290034|SUPERIORITY||Response Rate Difference|5.1||||0.11|TWO_SIDED|95.0|-1.1|11.2||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||11.2|-1.1|0.110
92195117|NCT02706847|184290034|SUPERIORITY||Response Rate Difference|16.5|||<|0.001|TWO_SIDED|95.0|9.1|23.9||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||23.9|9.1|<0.001
92195118|NCT02706847|184290035|SUPERIORITY||Response Rate Difference|16.8|||<|0.001|TWO_SIDED|95.0|8.5|25.1||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||25.1|8.5|<0.001
92195119|NCT02706847|184290035|SUPERIORITY||Response Rate Difference|14.2|||<|0.001|TWO_SIDED|95.0|6.1|22.3||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||22.3|6.1|<0.001
92195120|NCT01174264|184290036|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.75||||0.003|TWO_SIDED|90.0|1.3|2.34|||t-test, 2 sided|Performed on log-transformed data.||||2.34|1.30|0.003
92195121|NCT01174264|184290036|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.08||||0.65|TWO_SIDED|90.0|0.81|1.44||Performed on log-transformed data.|t-test, 2 sided|||||1.44|0.81|0.65
92195122|NCT01174264|184290037|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.74||||0.008|TWO_SIDED|90.0|1.25|2.42|||t-test, 2 sided|Performed on log-transformed data.||||2.42|1.25|0.008
92195123|NCT01174264|184290037|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.12||||0.51|TWO_SIDED|90.0|0.84|1.49|||t-test, 2 sided|Performed on log-transformed data.||||1.49|0.84|0.51
92317806|NCT00380874|184540783|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.54||0.9657||95.0|-1.06|1.11||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Last Observation Carried Forward (LOCF)endpoint.||1.11|-1.06|0.9657
92317807|NCT00380874|184540784|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.5392||95.0|-0.24|0.12|||ANCOVA|||Cycle 1.||0.12|-0.24|0.5392
92195124|NCT01174264|184290039|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.83
92195125|NCT01174264|184290039|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.57
92195126|NCT01174264|184290040|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0001
92195127|NCT01174264|184290040|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0001
92195128|NCT01174264|184290041|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.16||||0.17|TWO_SIDED|90.0|0.97|1.38|||t-test, 2 sided|Performed on log-transformed data.||||1.38|0.97|0.17
92195129|NCT01174264|184290042|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.13||||0.25|TWO_SIDED|90.0|0.95|1.35|||t-test, 2 sided|Performed on log-transformed data.||||1.35|0.95|0.25
92195130|NCT01174264|184290043|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.22||||0.096|TWO_SIDED|90.0|1.0|1.48||Performed on log-transformed data.|t-test, 2 sided|||||1.48|1.00|0.096
92195131|NCT01174264|184290044|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.27
92195132|NCT03432390|184290045|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.0001
92195133|NCT01185171|184290105|NON_INFERIORITY|The power of the study was conducted as a two-stage, non-inferiority phase II trial with a total sample size of 59 patients to detect a 15% lower rate than 80% achieved with TFHX, with alpha = 0.05 and beta = 0.20. In the first stage, 25 patients were recruited, with a plan to terminate if 16 or less complete responses (CR) were observed. Otherwise, additional 34 patients would be recruited and the treatment would be deemed not inferior to historical if more than 45 CRs were observed.|proportion|0.88|||<|0.01|TWO_SIDED|95.0|0.77|0.95||Ho: CR rate = 0.65 vs Ha: CR rate \> 0.65|Binomial test for a proportion|||||0.95|0.77|< 0.01
92195134|NCT03559829|184290112|OTHER|||||||0.025|||||||paired t-test|||||||0.025
92195135|NCT03559829|184290113|OTHER|||||||0.01|||||||paired t-test|||||||0.01
92195136|NCT03559829|184290114|OTHER|||||||0.3|||||||paired t-test|||||||0.3
92195137|NCT03559829|184290115|OTHER|||||||0.098|||||||paired t-test|||||||0.098
92195138|NCT03559829|184290116|OTHER|||||||0.2|||||||paired t-test|||||||0.2
92195139|NCT03559829|184290117|OTHER|||||||0.07|||||||paired t-test|||||||0.07
92195140|NCT01482429|184290119|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||binomial test|||||||0.03
92195141|NCT01482429|184290120|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92195142|NCT03506347|184290123|SUPERIORITY|||||||0.001|||||||ANOVA|||||||0.001
92195143|NCT03506347|184290124|SUPERIORITY|||||||0.009|||||||ANOVA|||||||0.009
92195144|NCT01502371|184290150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.87||||0.019|TWO_SIDED|95.0|0.64|7.09||Constrained longitudinal data analysis (cLDA) model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA model|||Change from Baseline in percent predicted FEV1 at Week 12: MF MDI 50 mcg BID vs. Placebo||7.09|0.64|0.019
92195145|NCT01502371|184290150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.29|||<|0.001|TWO_SIDED|95.0|3.05|9.53||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in percent predicted FEV1 at Week 12: MF MDI 100 mcg BID vs. Placebo||9.53|3.05|<0.001
92195146|NCT01502371|184290150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.34||||0.001|TWO_SIDED|95.0|2.07|8.61||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in percent predicted FEV1 at Week 12: MF MDI 200 mcg BID vs. Placebo||8.61|2.07|0.001
92317808|NCT00380874|184540784|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.22||0.5412||95.0|-0.3|0.57|||ANCOVA|||Cycle 2.||0.57|-0.30|0.5412
92195147|NCT01502371|184290151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|19.15||||0.045|TWO_SIDED|95.0|0.43|37.87||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in AM PEF: MF MDI 50 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||37.87|0.43|0.045
92195148|NCT01502371|184290151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|27.35||||0.004|TWO_SIDED|95.0|8.63|46.08||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in AM PEF: MF MDI 100 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||46.08|8.63|0.004
92195149|NCT01502371|184290151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|18.01||||0.057|TWO_SIDED|95.0|-0.51|36.53||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in AM PEF: MF MDI 200 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||36.53|-0.51|0.057
92195150|NCT01502371|184290152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1||||0.28|TWO_SIDED|95.0|-0.08|0.27||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in PAQLQ(S) Total Score: MF MDI 50 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||0.27|-0.08|0.280
92195151|NCT01502371|184290152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.12||||0.178|TWO_SIDED|95.0|-0.06|0.3||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in PAQLQ(S) Total Score: MF MDI 100 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||0.30|-0.06|0.178
92195152|NCT01502371|184290152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.18||||0.045|TWO_SIDED|95.0|0.0|0.36||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in PAQLQ(S) Total Score: MF MDI 200 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||0.36|0.00|0.045
92195153|NCT01502371|184290153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.39||||0.368|TWO_SIDED|95.0|-1.65|4.44||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA model|||Change from Baseline in percent predicted FEV1 at Week 12: MF MDI 50 mcg BID vs. MF DPI 100 mcg QD. Only participants who received MF MDI 50 mcg BID or MF DPI 100 mcg QD were included in the statistical analysis.||4.44|-1.65|0.368
92195154|NCT00575042|184290202|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Sample size calculation estimated that with 20 patients, and assuming a 10% drop-out rate, the study would have 80% power to detect a response rate in 35% or more of the study patients. A two-sided p value\<0.05 was considered statistically significant.||||<0.0001
92195155|NCT01458522|184290222|OTHER|||||||0.512|||||||Poisson regression model|||||||0.512
92195156|NCT00730015|184290253|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.72|||<|0.0001|TWO_SIDED|95.0|3.41|17.47||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference in the proportion of 12-week CSBM overall responders between patients taking the 145-μg dose and those taking placebo. The power, adjusted for multiplicity, was expected to be at least 90% based on study NCT00402337(MCP-103-201) data.||17.47|3.41|<0.0001
92195157|NCT00730015|184290253|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.21|||<|0.0001|TWO_SIDED|95.0|3.14|16.59||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference in the proportion of 12-week CSBM overall responders between patients taking the 290-μg dose and those taking placebo. The power, adjusted for multiplicity, was expected to be greater than 96% based on study NCT00402337(MCP-103-201) data.||16.59|3.14|<0.0001
92195158|NCT02053610|184290298|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||<|0.0001|TWO_SIDED|95.0|0.41|0.58|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.58|0.41|<0.0001
92195159|NCT02053610|184290300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.33|0.54|||Log Rank, Stratified|Stratified by Binet stage at Baseline.|Stratified by Binet stage at Baseline.|||0.54|0.33|<0.0001
92195160|NCT02053610|184290302|SUPERIORITY_OR_OTHER||Difference in Response Rates|13.22||||0.0001|TWO_SIDED|95.0|6.3|20.1|||Chi-squared|||Includes participants with EOTR: CR, CRi, PR or nPR.||20.1|6.3|0.0001
92195161|NCT02053610|184290303|SUPERIORITY_OR_OTHER||Difference in Response Rates|12.92||||0.0002|TWO_SIDED|95.0|6.1|19.8|||Chi-squared|||Includes participants with best overall response: CR, CRi, PR or nPR.||19.8|6.1|0.0002
92195162|NCT02053610|184290304|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.43|0.61|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.61|0.43|<0.0001
92195163|NCT02053610|184290305|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.76||||0.0245|TWO_SIDED|95.0|0.6|0.97|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.97|0.60|0.0245
92195164|NCT02053610|184290306|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.41|0.61|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.61|0.41|<0.0001
92195165|NCT02053610|184290308|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.58|||<|0.0001|TWO_SIDED|95.0|0.46|0.73|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.73|0.46|<0.0001
92195166|NCT02431052|184290318|OTHER|||||||0.0006|||||||Cochran-Mantel-Haenszel|ANCOVA with factors of treatment group (combined vehicle as one group) and baseline count as covariate.||||||0.0006
92317809|NCT00380874|184540784|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.34||0.5358||95.0|-0.48|0.9|||ANCOVA|||Cycle 3.||0.90|-0.48|0.5358
92195167|NCT02431052|184290319|OTHER|||||||0.0002|||||||Cochran-Mantel-Haenszel|ANCOVA with factors of treatment group (combined vehicle as one group) and baseline count as covariate.||||||0.0002
92317810|NCT00380874|184540784|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.41||0.4059||95.0|-0.48|1.17|||ANCOVA|||Cycle 4.||1.17|-0.48|0.4059
92317811|NCT00380874|184540784|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.49||0.2712||95.0|-0.44|1.52|||ANCOVA|||Cycle 5.||1.52|-0.44|0.2712
92195168|NCT02431052|184290320|OTHER|||||||0.0055|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test (vehicle treatment groups included as single combined treatment group).||||||0.0055
92195169|NCT03546816|184290331|SUPERIORITY|||||||0.229||||||P-value from a Cochran-Mantel-Haenszel (CMH) test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||||||0.229
92195170|NCT03546816|184290332|SUPERIORITY|||||||0.013||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||||||0.013
92195171|NCT03546816|184290333|SUPERIORITY|||||||0.236||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||||||0.236
92195172|NCT03546816|184290334|SUPERIORITY|||||||0.083||||||P-values, least squares means (LS Mean) and standard deviations (LS SD) from an analysis of covariance (ANCOVA) with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 2||||0.083
92195173|NCT03546816|184290334|SUPERIORITY|||||||0.049||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.049
92195174|NCT03546816|184290334|SUPERIORITY|||||||0.081||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 6||||0.081
92195175|NCT03546816|184290334|SUPERIORITY|||||||0.157||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.157
92195176|NCT03546816|184290335|SUPERIORITY|||||||0.151||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 2||||0.151
92195177|NCT03546816|184290335|SUPERIORITY|||||||0.052||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 4||||0.052
92195178|NCT03546816|184290335|SUPERIORITY|||||||0.175||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 10||||0.175
92195179|NCT03546816|184290336|SUPERIORITY|||||||0.475||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 2||||0.475
92317812|NCT00380874|184540784|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.38||0.9181||95.0|-0.81|0.73|||ANCOVA|||Cycle 6.||0.73|-0.81|0.9181
92317813|NCT00380874|184540784|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.42||0.4357||95.0|-0.52|1.17|||ANCOVA|||Cycle 7.||1.17|-0.52|0.4357
92317814|NCT00380874|184540784|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.49||0.5103||95.0|-0.67|1.33|||ANCOVA|||||1.33|-0.67|0.5103
92195180|NCT03546816|184290336|SUPERIORITY|||||||0.02||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.020
92317815|NCT00380874|184540784|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.58||0.8499||95.0|-1.29|1.07|||ANCOVA|||Cycle 9.||1.07|-1.29|0.8499
92317816|NCT00380874|184540784|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.39||0.7359||95.0|-0.9|0.64|||ANCOVA|||LOCF endpoint.||0.64|-0.90|0.7359
92317817|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.09||0.2034||95.0|-0.06|0.29|||ANCOVA|||Burning Spontaneous Pain Cycle 3||0.29|-0.06|0.2034
92317818|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.3062||95.0|-0.4|0.13|||ANCOVA|||Burning Spontaneous Pain Cycle 4||0.13|-0.40|0.3062
92317819|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.12||0.2787||95.0|-0.37|0.11|||ANCOVA|||Burning Spontaneous Pain Cycle 5||0.11|-0.37|0.2787
92317820|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.17||0.4124||95.0|-0.2|0.47|||ANCOVA|||Burning Spontaneous Pain Cycle 6||0.47|-0.20|0.4124
92317821|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.35||0.9541||95.0|-0.68|0.73|||ANCOVA|||Burning Spontaneous Pain Cycle 7||0.73|-0.68|0.9541
92317822|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.3383||95.0|-0.33|0.92|||ANOVA|||Burning Spontaneous Pain Cycle 8||0.92|-0.33|0.3383
92317823|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.39||0.8918||95.0|-0.84|0.74|||ANCOVA|||Burning Spontaneous Pain||0.74|-0.84|0.8918
92317824|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.26||0.9614||95.0|-0.54|0.51|||ANCOVA|||Burning Spontaneous Pain LOCF endpoint||0.51|-0.54|0.9614
92195181|NCT03546816|184290336|SUPERIORITY|||||||0.492||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.492
92317825|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.3022||95.0|-0.17|0.05|||ANCOVA|||Pressing Spontaneous Pain Cycle 2||0.05|-0.17|0.3022
92317826|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.04||0.3747||95.0|-0.04|0.12|||ANCOVA|||Pressing Spontaneous Pain Cycle 3||0.12|-0.04|0.3747
92317827|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.12||0.163||95.0|-0.4|0.07|||ANCOVA|||Pressing Spontaneous Pain Cycle 4||0.07|-0.40|0.1630
92317828|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9568||95.0|-0.12|0.11|||ANOVA|||Pressing Spontaneous Pain Cycle 5||0.11|-0.12|0.9568
92195182|NCT03546816|184290337|SUPERIORITY|||||||0.175||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 2||||0.175
92195183|NCT03546816|184290337|SUPERIORITY|||||||0.169||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.169
92317829|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.9793||95.0|-0.13|0.13|||ANCOVA|||Pressing Spontaneous Pain Cycle 6||0.13|-0.13|0.9793
92317830|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.25||0.885||95.0|-0.54|0.47|||ANCOVA|||Pressing Spontaneous Pain Cycle 7||0.47|-0.54|0.8850
92317831|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.21||0.2199||95.0|-0.17|0.7|||ANCOVA|||Pressing Spontaneous Pain Cycle 8||0.70|-0.17|0.2199
92317832|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.4017||95.0|-0.14|0.35|||ANCOVA|||Pressing Spontaneous Pain Cycle 9||0.35|-0.14|0.4017
92317833|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.09||0.4113||95.0|-0.1|0.24|||ANCOVA|||Pressing Spontaneous Pain LOCF Endpoint||0.24|-0.10|0.4113
92317834|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.3011||95.0|-0.06|0.02|||ANCOVA|||Paroxysmal Pain Cycle 3||0.02|-0.06|0.3011
92317835|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.1||0.4482||95.0|-0.26|0.12|||ANCOVA|||Paroxysmal Pain Cycle 4||0.12|-0.26|0.4482
92317836|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.1||0.3058||95.0|-0.31|0.1|||ANCOVA|||Paroxysmal Pain Cycle 5||0.10|-0.31|0.3058
92317837|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.12||0.3035||95.0|-0.38|0.12|||ANCOVA|||Paroxysmal Pain Cycle 6||0.12|-0.38|0.3035
92317838|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.23||0.9636||95.0|-0.46|0.48|||ANCOVA|||Paroxysmal Pain Cycle 7||0.48|-0.46|0.9636
92317839|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.35||0.366||95.0|-0.38|1.02|||ANCOVA|||Paroxysmal Pain Cycle 8||1.02|-0.38|0.3660
92317840|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.4093||95.0|-0.69|0.29|||ANCOVA|||Paroxysmal Pain Cycle 9||0.29|-0.69|0.4093
92317841|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.5208||95.0|-0.39|0.2|||ANCOVA|||Paroxysmal Pain LOCF Endpoint||0.20|-0.39|0.5208
92317842|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.9931||95.0|-0.17|0.17|||ANCOVA|||Evoke Pain Cycle 2||0.17|-0.17|0.9931
92317843|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.17||0.5867||95.0|-0.25|0.44|||ANCOVA|||Evoke Pain Cycle 3||0.44|-0.25|0.5867
92317844|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.12||0.2748||95.0|-0.37|0.11|||ANCOVA|||Evoke Pain Cycle 4||0.11|-0.37|0.2748
92195184|NCT03546816|184290337|SUPERIORITY|||||||0.516||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.516
92195185|NCT03546816|184290338|SUPERIORITY|||||||0.814||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.814
92195186|NCT03546816|184290339|SUPERIORITY|||||||0.113||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.113
92195187|NCT01161446|184290341|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92195188|NCT01161446|184290342|NON_INFERIORITY|Non-inferiority bound: Self-testing was to be considered non-inferior to standard testing if the upper bound of the 95% confidence interval for the odds ratio fell below 2.|Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.61|1.9|||Regression, Logistic|Used generalized estimating equations with exchangeable working correlation and robust standard errors to account for repeated measures.|The home testing arm represents the numerator and the standard testing arm the denominator.|||1.90|0.61|
92195189|NCT01161446|184290343|NON_INFERIORITY|Home testing was to be considered non-inferior to standard testing with respect to STI prevalence if the upper bound of the 95% confidence interval for the difference between the two arms (home - standard) fell below 10%.|Difference in proportions|-0.068|||||TWO_SIDED|95.0|-0.16|0.016||||||||0.016|-0.16|
92195190|NCT01161446|184290344|NON_INFERIORITY|Self-testing was to be considered non-inferior with respect to the number of reported male CAI partners if the upper bound of the 95% CI for the fold-difference in the number of partners between the two arms (self ÷ standard testing) fell below 2.|Incidence Rate Ratio|0.92|||||TWO_SIDED|95.0|0.64|1.33|||Poisson regression|Used generalized estimating equations with exchangeable working correlation and robust standard errors to account for repeated measures.|The home testing arm represents the numerator and the standard testing arm the denominator.|||1.33|0.64|
92317845|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.2||0.5521||95.0|-0.51|0.28|||ANCOVA|||Evoke Pain Cycle 5||0.28|-0.51|0.5521
92317846|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.39||0.6734||95.0|-0.96|0.62|||ANCOVA|||Evoke Pain Cycle 6||0.62|-0.96|0.6734
92317847|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.37||0.1214||95.0|-0.16|1.33|||ANCOVA|||Evoke Pain Cycle 7||1.33|-0.16|0.1214
92317848|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.51||0.1845||95.0|-0.34|1.72|||ANCOVA|||Evoke Pain Cycle 8||1.72|-0.34|0.1845
92317849|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.37||0.6863||95.0|-0.6|0.9|||ANCOVA|||Evoke Pain Cycle 9||0.90|-0.60|0.6863
92195191|NCT02270671|184290345|SUPERIORITY_OR_OTHER||||||>|0.05||||||Group x Time interaction p-value: \>.05; Gender p-value: \>.05|ANOVA|2x2x3 repeated measures ANOVA. 2 between-subjects factors (Group; Gender) and 1 within-subject factor (Time). P value adjusted to p \< .025.||||||>.05
92195192|NCT02270671|184290346|SUPERIORITY_OR_OTHER||||||>|0.05||||||Group x Time interaction p-value: \>.05; Gender p-value: =.026|ANOVA|2x2x3 repeated measures ANOVA. 2 between-subjects factors (Group; Gender) and 1 within-subject factor (Time). P value adjusted to p \< .025.||||||>.05
92195193|NCT02270671|184290347|SUPERIORITY_OR_OTHER||||||>|0.05||||||Group x Time interaction p-value: \>.05; Gender p-value: \>.05|ANOVA|2x2x3 repeated measures ANOVA. 2 between-subjects factors (Group; Gender) and 1 within-subject factor (Time). P value adjusted to p \< .025.||||||>.05
92195194|NCT02270671|184290348|SUPERIORITY_OR_OTHER||||||>|0.05||||||Group x Time interaction p-value: \>.05; Gender p-value: \<.0001|ANOVA|2x2x3 repeated measures ANOVA. 2 between-subjects factors (Group; Gender) and 1 within-subject factor (Time). P value adjusted to p \< .025.||||||>.05
92195195|NCT02270671|184290349|SUPERIORITY_OR_OTHER||||||>|0.05||||||Group x Time interaction p-value: \>.05; Gender p-value: =.007|ANOVA|2x2x3 repeated measures ANOVA. 2 between-subjects factors (Group; Gender) and 1 within-subject factor (Time). P value adjusted to p \< .025.||||||>.05
92195196|NCT00476242|184290351|SUPERIORITY_OR_OTHER|||||||0.047|||||||Log Rank|||||||.047
92195197|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|-2.6||||0.887|TWO_SIDED|90.0|-6.2|1.0|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 2||1.0|-6.2|0.887
92195198|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|0.3||||0.431|TWO_SIDED|90.0|-2.6|3.2|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 2||3.2|-2.6|0.431
92195199|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|-1.0||||0.647|TWO_SIDED|90.0|-5.4|3.4|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 8||3.4|-5.4|0.647
92195200|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|2.4||||0.13|TWO_SIDED|90.0|-1.1|6.0|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 8||6.0|-1.1|0.130
92317850|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.27||0.9273||95.0|-0.51|0.56|||ANCOVA|||Evoke Pain LOCF Endpoint||0.56|-0.51|0.9273
92317851|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.12||0.0416||95.0|0.01|0.5|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 2||0.50|0.01|0.0416
92317852|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.15||0.1819||95.0|-0.1|0.5|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 3||0.50|-0.10|0.1819
92317853|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.17||0.0331||95.0|0.03|0.7|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 4||0.70|0.03|0.0331
92317854|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0608||95.0|-0.02|0.83|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 5||0.83|-0.02|0.0608
92317855|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.33||0.2809||95.0|-0.31|1.03|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 6||1.03|-0.31|0.2809
92317856|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.32||0.3445||95.0|-0.34|0.95|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 7||0.95|-0.34|0.3445
92195201|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|-2.5||||0.818|TWO_SIDED|90.0|-6.9|2.0|||Mixed model repeated measures analysis||Comparison of model-based mean estimates|Day 15||2.0|-6.9|0.818
92195202|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|0.3||||0.457|TWO_SIDED|90.0|-3.6|4.1|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 15||4.1|-3.6|0.457
92195203|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|-3.1||||0.906|TWO_SIDED|90.0|-6.9|0.8|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 29||0.8|-6.9|0.906
92195204|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|-0.4||||0.566|TWO_SIDED|90.0|-4.1|3.3|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 29||3.3|-4.1|0.566
92195205|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|-1.3||||0.686|TWO_SIDED|90.0|-5.6|3.1|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 43||3.1|-5.6|0.686
92317857|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.47||0.2806||95.0|-0.44|1.46|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 8||1.46|-0.44|0.2806
92317858|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.49||0.5217||95.0|-0.68|1.33|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 9||1.33|-0.68|0.5217
92317859|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.34||0.3628||95.0|-0.37|1.0|||ANCOVA|||Parethesia/Dysesthesia Pain LOCF Endpoint||1.00|-0.37|0.3628
92195206|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|1.4||||0.28|TWO_SIDED|90.0|-2.5|5.2|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 43||5.2|-2.5|0.280
92195207|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|-2.4||||0.849|TWO_SIDED|90.0|-6.3|1.4|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 57||1.4|-6.3|0.849
92195208|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|1.5||||0.254|TWO_SIDED|90.0|-2.2|5.2|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 57||5.2|-2.2|0.254
92195209|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|-2.7||||0.866|TWO_SIDED|90.0|-6.6|1.3|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 85||1.3|-6.6|0.866
92195210|NCT03927690|184290364|SUPERIORITY||Difference (Test vs Reference)|2.0||||0.198|TWO_SIDED|90.0|-1.9|5.8|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 85||5.8|-1.9|0.198
92195211|NCT03927690|184290370|SUPERIORITY||Ratio (Test vs Reference)|1.2||||0.998|TWO_SIDED|90.0|1.08|1.33|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 8||1.33|1.08|0.998
92195212|NCT03927690|184290370|SUPERIORITY||Ratio (Test vs Reference)|1.0||||0.527|TWO_SIDED|90.0|0.92|1.09|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 8||1.09|0.92|0.527
92195213|NCT03927690|184290370|SUPERIORITY||Ratio (Test vs Reference)|1.21||||0.999|TWO_SIDED|90.0|1.1|1.33|||Mixed model repeated measures analysis||Comparison of model-based mean estimates|Day 15||1.33|1.10|0.999
92195214|NCT03927690|184290370|SUPERIORITY||Ratio (Test vs Reference)|1.03||||0.716|TWO_SIDED|90.0|0.95|1.12|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 15||1.12|0.95|0.716
92195215|NCT03927690|184290370|SUPERIORITY||Ratio (Test vs Reference)|1.21||||1|TWO_SIDED|90.0|1.13|1.31|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 29||1.31|1.13|1.000
92195216|NCT03927690|184290370|SUPERIORITY||Ratio (Test vs Reference)|0.98||||0.281|TWO_SIDED|90.0|0.91|1.05|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 29||1.05|0.91|0.281
92195217|NCT03927690|184290370|SUPERIORITY||Ratio (Test vs Reference)|1.32||||1|TWO_SIDED|90.0|1.2|1.46|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 43||1.46|1.20|1.000
92195218|NCT03927690|184290370|SUPERIORITY||Ratio (Test vs Reference)|0.96||||0.2|TWO_SIDED|90.0|0.88|1.04|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 43||1.04|0.88|0.200
92195219|NCT03927690|184290370|SUPERIORITY||Ratio (Test vs Reference)|1.18||||1|TWO_SIDED|90.0|1.09|1.28|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 57||1.28|1.09|1.000
92195220|NCT03927690|184290370|SUPERIORITY||Ratio (Test vs Reference)|0.94||||0.083|TWO_SIDED|90.0|0.87|1.01|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 57||1.01|0.87|0.083
92195221|NCT03927690|184290370|SUPERIORITY||Ratio(Test vs Reference)|1.26||||1|TWO_SIDED|90.0|1.14|1.38|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 85||1.38|1.14|1.000
92195222|NCT03927690|184290370|SUPERIORITY||Ratio(Test vs Reference)|0.96||||0.254|TWO_SIDED|90.0|0.88|1.06|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 85||1.06|0.88|0.254
92195223|NCT04182113|184290418|SUPERIORITY||Mean Difference (Net)|-0.042||||0.32|TWO_SIDED|95.0|-0.129|0.044||Not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-test comparing Target vs. Foil activity following 1Hz rTMS to Target vs. Foil activity following 20 Hz rTMS stimulation.||0.044|-0.129|0.32
92317860|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.3557||95.0|0.0|0.01|||ANCOVA|||Total Score Cycle 2||0.01|-0.00|0.3557
92317861|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.2824||95.0|0.0|0.01|||ANCOVA|||Total Score Cycle 3||0.01|-0.00|0.2824
92317862|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.5931||95.0|-0.01|0.01|||ANCOVA|||Total Score Cycle 4||0.01|-0.01|0.5931
92317863|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.9865||95.0|-0.01|0.01|||ANCOVA|||Total Score Cycle 5||0.01|-0.01|0.9865
92317864|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9854||95.0|-0.02|0.02|||ANCOVA|||Total Score Cycle 6||0.02|-0.02|0.9854
92317865|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.01||0.3403||95.0|-0.01|0.04|||ANCOVA|||Total Score Cycle 7||0.04|-0.01|0.3403
92317866|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.2226||95.0|-0.01|0.05|||ANCOVA|||Total Score Cycle 8||0.05|-0.01|0.2226
92317867|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9694||95.0|-0.03|0.03|||ANCOVA|||Total Score Cycle 9||0.03|-0.03|0.9694
92317868|NCT00380874|184540785|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.8957||95.0|-0.02|0.02|||ANCOVA|||Total Score LOCF Endpoint||0.02|-0.02|0.8957
92317869|NCT00380874|184540787|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.49||0.7489||95.0||||No multiple comparisons adjustment was necessary.|ANCOVA|Model terms include treatment, study center, and baseline score.|Least squares (LS) means and corresponding standard errors derived from ANCOVA model were used.|LOCF cycle endpoint. Sample size based on original primary efficacy parameter (PEP) of time to persistent symptoms (developing in 35% of pregabalin subjects \& 60% of placebo subjects). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, study would have had at least 90% power using 100 subjects per treatment group. Original PEP was modified to secondary due to lack of persistent paresthetic symptom emergence.||||0.7489
92317870|NCT03380429|184540788|SUPERIORITY||Mean Difference (Final Values)|12.0|||<|0.001|TWO_SIDED|95.0|5.2|18.8||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||18.8|5.2|<0.001
92317871|NCT03380429|184540789|OTHER||Mean Difference (Final Values)|8.2||||0.016|TWO_SIDED|95.0|1.6|14.9||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||14.9|1.6|0.016
92317872|NCT03380429|184540789|OTHER||Mean Difference (Final Values)|9.3||||0.006|TWO_SIDED|95.0|2.7|16.0||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||16.0|2.7|0.006
92195224|NCT04182113|184290418|SUPERIORITY||Mean Difference (Net)|0.043||||0.25|TWO_SIDED|95.0|-0.03|0.12||Not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-test between Target vs. Foil activation following 1 Hz rTMS and Target vs. Foil activation following Sham stimulation..||0.12|-0.03|0.25
92195225|NCT04182113|184290418|SUPERIORITY||Mean Difference (Net)|0.078||||0.13|TWO_SIDED|95.0|-0.024|0.181||Not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-test between Target vs. Foil activity following 20 Hz rTMS and Target vs. Foil activity following Sham stimulation.||0.181|-0.024|0.13
92195226|NCT04182113|184290419|SUPERIORITY||Mean Difference (Net)|0.018||||0.038|TWO_SIDED|95.0|0.001|0.034||Not corrected for multiple comparisons.|t-test, 2 sided|||Paired t-test comparing precuneus connectivity following 1Hz rTMS to precuneus connectivity following 20 Hz rTMS stimulation.||0.034|0.001|0.038
92195227|NCT04182113|184290419|SUPERIORITY||Mean Difference (Net)|0.009||||0.44|TWO_SIDED|95.0|-0.015|0.033|||t-test, 2 sided|||Paired t-test comparing precuneus connectivity following 1Hz rTMS to precuneus connectivity following 20 Hz rTMS stimulation.||0.033|-0.015|0.44
92195228|NCT04182113|184290419|SUPERIORITY||Mean Difference (Net)|-0.012||||0.25|TWO_SIDED|95.0|-0.032|0.009|||t-test, 2 sided|||Paired t-test comparing precuneus connectivity following 20Hz rTMS to precuneus connectivity following sham stimulation.||0.009|-0.032|0.25
92317873|NCT03380429|184540789|OTHER||Mean Difference (Final Values)|8.1||||0.018|TWO_SIDED|95.0|1.4|14.8||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||14.8|1.4|0.018
92317874|NCT03380429|184540790|OTHER||Mean Difference (Final Values)|9.3||||0.003|TWO_SIDED|95.0|3.2|15.3||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||15.3|3.2|0.003
92317875|NCT03380429|184540790|OTHER||Mean Difference (Final Values)|7.7||||0.011|TWO_SIDED|95.0|1.8|13.7||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||13.7|1.8|0.011
92317876|NCT03380429|184540790|OTHER||Mean Difference (Final Values)|5.5||||0.066|TWO_SIDED|95.0|-0.4|11.4||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||11.4|-0.4|0.066
92317877|NCT03380429|184540790|OTHER||Mean Difference (Final Values)|2.8||||0.359|TWO_SIDED|95.0|-3.1|8.7||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||8.7|-3.1|0.359
92317878|NCT03380429|184540791|OTHER||Mean Difference (Final Values)|9.7||||0.004|TWO_SIDED|95.0|3.1|16.3||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||16.3|3.1|0.004
92317879|NCT03380429|184540791|OTHER||Mean Difference (Final Values)|7.1||||0.032|TWO_SIDED|95.0|0.6|13.5||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||13.5|0.6|0.032
92317880|NCT03380429|184540791|OTHER||Mean Difference (Final Values)|5.9||||0.07|TWO_SIDED|95.0|-0.5|12.4||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||12.4|-0.5|0.070
92317881|NCT03380429|184540791|OTHER||Mean Difference (Final Values)|3.4||||0.294|TWO_SIDED|95.0|-3.0|9.9||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||9.9|-3.0|0.294
92317882|NCT03380429|184540792|OTHER||Mean Difference (Final Values)|4.8||||0.118|TWO_SIDED|95.0|-1.2|10.8||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline rescue use, duration of run-in (visits), country, gender and age.|||10.8|-1.2|0.118
92317883|NCT03380429|184540792|OTHER||Mean Difference (Final Values)|4.8||||0.105|TWO_SIDED|95.0|-1.0|10.7||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline rescue use, duration of run-in (visits), country, gender and age.|||10.7|-1.0|0.105
92195229|NCT04182113|184290420|SUPERIORITY||Mean Difference (Net)|2.7||||0.2|TWO_SIDED|95.0|-1.6|6.9||Not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-test of scene recognition performance accuracy following 1Hz rTMS to accuracy following 20 Hz rTMS.||6.9|-1.6|0.20
92317884|NCT03380429|184540792|OTHER||Mean Difference (Final Values)|9.2||||0.002|TWO_SIDED|95.0|3.3|15.1||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline rescue use, duration of run-in (visits), country, gender and age.|||15.1|3.3|0.002
92317885|NCT03380429|184540792|OTHER||Mean Difference (Final Values)|7.3||||0.015|TWO_SIDED|95.0|1.5|13.2||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline rescue use, duration of run-in (visits), country, gender and age.|||13.2|1.5|0.015
92195230|NCT04182113|184290420|SUPERIORITY||Mean Difference (Net)|4.0||||0.17|TWO_SIDED|95.0|-1.9|9.9||Not corrected for multiple comparisons.|t-test, 2 sided|||Paired t-test of scene recognition performance accuracy following 1Hz rTMS to accuracy following sham rTMS.||9.9|-1.9|0.17
92195231|NCT04182113|184290420|SUPERIORITY||Mean Difference (Net)|-1.3||||0.77|TWO_SIDED|95.0|-10.8|8.2||Not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-test of scene recognition performance accuracy following 20Hz rTMS to accuracy following 20 Hz rTMS.||8.2|-10.8|0.77
92195232|NCT01667406|184290421|OTHER|Fishers exact conditional test was used to confirm significance|Mean Difference (Final Values)|6.0|||||ONE_SIDED|95.0||||||||Data presented using descriptive statistics. Confidence intervals were derived for the difference between the means of different doses.||||
92195233|NCT01667406|184290421|OTHER||||||<|0.05|||||||Fisher Exact|||Phase 2||||<0.05
92195234|NCT01667406|184290421|OTHER||Odds Ratio (OR)|0.05|||<|0.05|ONE_SIDED|95.0|||||Regression, Logistic||Estimate of difference in success rates and estimate of odds ratio for success were derived, with P value comparing 2 treatment groups, 95% conﬁdence intervals.|Phase 3||||<0.05
92195235|NCT01667406|184290422|OTHER|secondary outcomes were analysed using descriptive statistics.||||||||||||||||Study data were summarised using standard descriptive methods. Continuous variables following a normal distribution have been summarised using mean and SD.|secondary outcomes were analysed using descriptive statistics.|||
92195236|NCT03539068|184290434|SUPERIORITY||||||<|1e-05|||||||Chi-squared|||||||<0.00001
92195237|NCT00551135|184290436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0668|TWO_SIDED|||||Hochberg's adjustment applied to p-value; Hochberg's adjusted p-value was the primary analysis.|ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline worst pain (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0668
92195238|NCT00551135|184290436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0334|TWO_SIDED|||||Unadjusted (raw) p-value.|ANOVA|||LS (least squares) means from ANOVA model with terms of treatment, pooled center and baseline worst pain (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0334
92195239|NCT00551135|184290436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8003|TWO_SIDED|||||Hochberg's adjustment applied to p-value; Hochberg's adjusted p-value was the primary analysis.|ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline worst pain (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8003
92317886|NCT03380429|184540794|OTHER||Mean Difference (Net)|-0.5||||0.4|TWO_SIDED|95.0|-1.6|0.6||p-value was calculated using Mixed Model Repeated Measures (MMRM).|MMRM||Analysis was performed by MMRM adjusted for randomized treatment arm,Baseline ACT total score,randomized treatment arm-by-visit interaction,Baseline ACT total score-by-visit interaction,gender,age,country and participant fitted as a random factor.|||0.6|-1.6|0.400
92317887|NCT03380429|184540794|OTHER||Mean Difference (Net)|0.4||||0.441|TWO_SIDED|95.0|-0.7|1.5||p-value was calculated using MMRM.|MMRM||Analysis was performed by MMRM adjusted for randomized treatment arm,Baseline ACT total score,randomized treatment arm-by-visit interaction,Baseline ACT total score-by-visit interaction,gender,age,country and participant fitted as a random factor.|||1.5|-0.7|0.441
92195240|NCT00551135|184290436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8003|TWO_SIDED|||||Unadjusted (raw) p-value.|ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline worst pain (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8003
92195241|NCT00551135|184290436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6932|TWO_SIDED|||||Unadjusted (raw) p-value.|ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline worst pain (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6932
92195242|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4471|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4471
92195243|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7248|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7248
92195244|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7556|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7556
92195245|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0571|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0571
92317888|NCT03380429|184540794|OTHER||Mean Difference (Net)|0.8||||0.164|TWO_SIDED|95.0|-0.3|1.9||p-value was calculated using MMRM.|MMRM||Analysis was performed by MMRM adjusted for randomized treatment arm,Baseline ACT total score,randomized treatment arm-by-visit interaction,Baseline ACT total score-by-visit interaction,gender,age,country and participant fitted as a random factor.|||1.9|-0.3|0.164
92195246|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0197|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0197
92195247|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2398|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2398
92195248|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0709|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0709
92195249|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9902|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9902
92195250|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0018|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0018
92195251|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4639|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4639
92195252|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4845|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4845
92317889|NCT03380429|184540794|OTHER||Mean Difference (Net)|0.3||||0.661|TWO_SIDED|95.0|-0.9|1.4||p-value was calculated using MMRM.|MMRM||Analysis was performed by MMRM adjusted for randomized treatment arm,Baseline ACT total score,randomized treatment arm-by-visit interaction,Baseline ACT total score-by-visit interaction,gender,age,country and participant fitted as a random factor.|||1.4|-0.9|0.661
92195253|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1641|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1641
92195254|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1025|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1025
92195255|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5615|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5615
92195256|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2904|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2904
92195257|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6017|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6017
92195258|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8549|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8549
92317890|NCT03380429|184540795|OTHER||Odds Ratio (OR)|0.75||||0.385|TWO_SIDED|95.0|0.39|1.44||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.44|0.39|0.385
92195259|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3386|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3386
92195260|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.707|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7070
92195261|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5244|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5244
92195262|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4245|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4245
92195263|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8624|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8624
92195264|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7552|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7552
92195265|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7329|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7329
92195266|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3053|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3053
92195267|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.529|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5290
92195268|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7951|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7951
92195269|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.715|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7150
92195270|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4566|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4566
92317891|NCT03380429|184540795|OTHER||Odds Ratio (OR)|1.24||||0.517|TWO_SIDED|95.0|0.64|2.42||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||2.42|0.64|0.517
92195271|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.775|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7750
92195272|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9241|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9241
92195273|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8994|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8994
92195274|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2088|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2088
92195275|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2152|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2152
92195276|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7662|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7662
92195277|NCT00551135|184290437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7579|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7579
92317892|NCT03380429|184540795|OTHER||Odds Ratio (OR)|0.97||||0.921|TWO_SIDED|95.0|0.51|1.85||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.85|0.51|0.921
92317893|NCT03380429|184540795|OTHER||Odds Ratio (OR)|0.72||||0.321|TWO_SIDED|95.0|0.38|1.38||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.38|0.38|0.321
92195278|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6896|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6896
92195279|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1934|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1934
92195280|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6034|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6034
92195281|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7992|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7992
92195282|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.477|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4770
92317894|NCT03380429|184540796|OTHER||Odds Ratio (OR)|1.04||||0.911|TWO_SIDED|95.0|0.54|1.98||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.98|0.54|0.911
92317895|NCT03380429|184540796|OTHER||Odds Ratio (OR)|1.33||||0.383|TWO_SIDED|95.0|0.7|2.54||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||2.54|0.70|0.383
92317896|NCT03380429|184540796|OTHER||Odds Ratio (OR)|1.08||||0.814|TWO_SIDED|95.0|0.57|2.04||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||2.04|0.57|0.814
92317897|NCT03380429|184540796|OTHER||Odds Ratio (OR)|1.01||||0.986|TWO_SIDED|95.0|0.53|1.89||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.89|0.53|0.986
92317898|NCT03380429|184540797|OTHER||Odds Ratio (OR)|0.93||||0.833|TWO_SIDED|95.0|0.48|1.81||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.81|0.48|0.833
92317899|NCT03380429|184540797|OTHER||Odds Ratio (OR)|1.35||||0.383|TWO_SIDED|95.0|0.69|2.67||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||2.67|0.69|0.383
92317900|NCT03380429|184540797|OTHER||Odds Ratio (OR)|0.85||||0.628|TWO_SIDED|95.0|0.44|1.63||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.63|0.44|0.628
92317901|NCT03380429|184540797|OTHER||Odds Ratio (OR)|0.94||||0.844|TWO_SIDED|95.0|0.49|1.8||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.80|0.49|0.844
92317902|NCT01139775|184540810|SUPERIORITY_OR_OTHER||Bayesian Posterior Probability|0.96|||||TWO_SIDED||||||||Pemetrexed + cisplatin + LY2603618 was considered superior to pemetrexed + cisplatin if the posterior probability of superiority exceeded 0.85.|The analysis for comparing progression-free survival time between the treatment arms used a Bayesian Augmented Control model with a hierarchical random-effects distribution on treatment effects. The final model incorporated historical data from a completed Phase 3 study (NCT00789373) to augment the prospective control arm data.||||
92317903|NCT01139775|184540812|SUPERIORITY_OR_OTHER|||||||0.2294|TWO_SIDED|||||The test of treatment effect was conducted at a 2-sided alpha level of 0.10.|Log Rank|||||||0.2294
92317904|NCT01139775|184540813|SUPERIORITY_OR_OTHER|||||||0.0824|TWO_SIDED|||||The test of treatment effect was conducted at a 2-sided alpha level of 0.10.|Chi-squared|||||||0.0824
92317905|NCT01139775|184540814|SUPERIORITY_OR_OTHER|||||||0.4924|TWO_SIDED|||||The test of treatment effect was conducted at a 2-sided alpha level of 0.10.|Wilcoxon (Mann-Whitney)|||||||0.4924
92317906|NCT01139775|184540825|SUPERIORITY_OR_OTHER|||||||0.0946|TWO_SIDED|||||The test of treatment effect was conducted at a 2-sided alpha level of 0.10.|Chi-squared|||||||0.0946
92317907|NCT03197389|184540832|OTHER||Median Difference (Net)|0.0|||||TWO_SIDED|||||||||||||
92317908|NCT04129125|184540837|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|83.4|||<|0.0001|TWO_SIDED|95.0|78.0|88.0||The p-value a priori threshold for statistical significance was \<0.025|Fisher Exact|||The FDA agreed performance goal for the primary efficacy endpoint was for the lower bound of the two-sided 95% CI to be \>69%||88|78|<0.0001
92317909|NCT04129125|184540838|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|1.9|||||TWO_SIDED|95.0|0.6|4.4||||||The FDA agreed performance goal for the primary safety endpoint was for the observed rate to be ≤6.0%||4.4|0.6|
92317910|NCT04129125|184540839|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|84.0||||0.0001|TWO_SIDED|95.0|78.0|89.0||The p-value a priori threshold for statistical significance was \<0.025|Fisher Exact|||The FDA agreed performance goal for the primary efficacy endpoint was for the lower bound of the two-sided 95% CI to be \>69%||89|78|0.0001
92317911|NCT04129125|184540840|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|0.9|||||TWO_SIDED|95.0|0.1|3.4||||||The FDA agreed performance goal for the primary safety endpoint was for the observed rate to be ≤6.0%||3.4|0.1|
92317912|NCT04129125|184540849|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|12.7|||||TWO_SIDED|95.0|8.5|16.7|||||Event and CI estimated using Kaplan-Meier method|The FDA agreed performance goal for the all-cause mortality endpoint was for the observed rate to be ≤20.3%||16.7|8.5|
92317913|NCT04129125|184540860|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|12.3|||||TWO_SIDED|95.0|8.1|17.2|||||Event and CI estimated using Kaplan-Meier method|The FDA agreed performance goal for the primary safety endpoint was for the observed rate to be ≤20.3%||17.2|8.1|
92317914|NCT00204490|184540892|OTHER|||||||0.071|||||||t-test, 2 sided|||(FGBT% at 1 year of treatment minus FGBT% at baseline) divided by FGBT% at baseline.||||0.071
92317915|NCT00204490|184540892|OTHER|||||||0.08|||||||t-test, 2 sided|||(FGBT% at 2 year of treatment minus FGBT% at baseline) divided by FGBT% at baseline.||||0.080
92317916|NCT00204490|184540892|OTHER||Slope|-0.107|STANDARD_ERROR_OF_MEAN|0.045||0.019|TWO_SIDED||||||Regression, Linear|Mixed model|slope for interaction of treatment and time, placebo was the reference group; square root transformed outcome.|Intention to treat||||0.019
92317917|NCT03477006|184540895|SUPERIORITY|||||||0.91|||||||Chi-squared|||||||0.91
92317918|NCT03477006|184540896|SUPERIORITY|||||||0.23|||||||Chi-squared|||||||0.23
92317919|NCT03477006|184540897|SUPERIORITY|||||||0.76|||||||Chi-squared|||||||0.76
92317920|NCT02174627|184540898|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% confidence interval (CI) of the difference between roxadustat and placebo exceeded 0 g/dL.|LS Mean Difference|1.35|STANDARD_ERROR_OF_MEAN|0.041|<|0.001|TWO_SIDED|95.0|1.27|1.43|||ANCOVA|||Difference between groups (roxadustat minus placebo) in LS mean changes; MAR-based multiple imputation ANCOVA model.||1.43|1.27|<0.001
92317921|NCT02174627|184540899|SUPERIORITY||Relative Risk|9.12|||<|0.001|TWO_SIDED|95.0|7.63|10.89|||Cochran-Mantel-Haenszel|||Comparison of the percentage of responders for roxadustat versus placebo was analysed using a Cochran-Mantel-Haenszel test adjusting for baseline Hb, baseline eGFR, geographic region and CV history.||10.89|7.63|<0.001
92317922|NCT02174627|184540900|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0 g/dL.|LS Mean Difference|1.13|STANDARD_ERROR_OF_MEAN|0.112|<|0.001|TWO_SIDED|95.0|0.91|1.35|||ANCOVA|||Difference between groups (roxadustat minus placebo) in LS mean changes; MAR-based multiple imputation ANCOVA model.||1.35|0.91|<0.001
92317923|NCT02174627|184540901|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0.|LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.013|<|0.001|TWO_SIDED|95.0|0.47|0.52|||ANCOVA|||Difference between groups (roxadustat minus placebo) in LS mean changes; ANCOVA model.||0.52|0.47|<0.001
92317924|NCT02174627|184540902|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0.|LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.013|<|0.001|TWO_SIDED|95.0|0.4|0.45|||ANCOVA|||Difference between groups (roxadustat minus placebo) in LS mean changes; ANCOVA model.||0.45|0.40|<0.001
92317925|NCT02174627|184540903|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0.|LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.033|<|0.001|TWO_SIDED|95.0|-0.42|-0.29|||ANCOVA|||Difference between groups (roxadustat minus placebo) in LS mean changes; ANCOVA model.||-0.29|-0.42|<0.001
92317926|NCT02174627|184540904|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the upper limit of the 2-sided 95% CI for the HR was ≤1.0.|Hazard Ratio (HR)|0.26|||<|0.001|TWO_SIDED|95.0|0.23|0.31|||Regression, Cox|||Treatments were compared using a Cox proportional hazards model, with baseline Hb and baseline eGFR as continuous variables used as covariates, and treatment group, CV history and geographic region as fixed effects. The Efron method was used for ties and p-values were calculated using the Wald test.||0.31|0.23|<0.001
92317927|NCT02174627|184540905|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the upper limit of the 2-sided 95% CI for the HR was ≤1.0.|Hazard Ratio (HR)|0.37|||<|0.001|TWO_SIDED|95.0|0.3|0.44|||Regression, Cox|||Treatments were compared using a Cox proportional hazards model, with baseline Hb and baseline eGFR as continuous variables used as covariates, and treatment group, CV history and geographic region as fixed effects. The Efron method was used for ties and p-values were calculated using the Wald test.||0.44|0.30|<0.001
92317928|NCT02174627|184540906|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0.|LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.283||0.12|TWO_SIDED|95.0|-0.11|0.99|||Mixed Models Analysis|||Difference between groups (roxadustat minus placebo) in LS mean changes; MMRM analysis.||0.99|-0.11|0.120
92317929|NCT02174627|184540907|OTHER||Rate of Change Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.254||0.046|TWO_SIDED|95.0|-1.0|-0.01||Nominal p-value (as prior sequential outcome measure p-value did not meet \< 0.05.|Random Effects Analysis|||Difference between groups (roxadustat minus placebo) in rate of change in eGFR; random effects analysis.||-0.01|-1.00|0.046
92317930|NCT02174627|184540908|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0.|LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.269||0.051|TWO_SIDED|95.0|0.0|1.05||Nominal p-value (as prior sequential outcome measure p-value did not meet \< 0.05.|Mixed Models Analysis|||Difference between groups (roxadustat minus placebo) in LS mean changes; MMRM analysis.||1.05|0.00|0.051
92317931|NCT02166333|184540909|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.54|TWO_SIDED|95.0|0.76|1.15||The P value is nominal and two-sided.|Log Rank||The Experience on Best Dose versus 200 IU/day hazard ratio and its 95% confidence interval were derived from a Cox regression model with dose group as the single model variable.|The Experience on Best Dose group includes all participants assigned or switched to best dose (1000 IU/day) and excludes 41 participants randomized to 2000 or 4000 IU/day who were never issued a bottle of best dose. For those randomized to 2000 or 4000 IU/day, at-risk time and events are measured from the date of their switch to best dose. 150 Experience on Best Dose participants (median follow-up, 10.2 mos) and 125 200 IU/day participants (median follow-up, 20.3 mos) were censored.||1.15|0.76|0.54
92317932|NCT02166333|184540909|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.86|1.25|||||The comparison of the Pooled Higher Doses group versus the 200 IU/d group is a sensitivity analysis.|||1.25|0.86|
92317933|NCT02166333|184540910|SUPERIORITY|The overall P tests for difference between groups in differential change from baseline over time and is from a 3 degree of freedom test of the combined 3 treatment-by-time interaction terms from the longitudinal mixed effects model.||||||0.15||||||The P value is nominal and not adjusted for multiple comparisons.|Regression, Linear|3 degree of freedom interaction test||The two groups were assessed for differential change over time in change from baseline using a longitudinal mixed effects regression model with gait speed as the outcome and fixed effects including a single treatment term, 3 time point terms and 3 treatment-by-time interaction terms and a random intercept for participant.||||0.15
92317934|NCT00503698|184540916|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.97||||0.91|TWO_SIDED|95.0|0.6|1.57|||Regression, Cox|Time to all-cause death analysed using stratified Cox regression model with treatment and sex as fixed factors, age and time in dialysis as covariates||||1.57|0.60|0.91
92317935|NCT00503698|184540917|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.4977|TWO_SIDED|95.0|0.6|1.28|||Regression, Cox|Time to all-cause death analysed using stratified Cox regression model with treatment and sex as fixed factors, age and time in dialysis as covariates||||1.28|0.60|0.4977
92317936|NCT00503698|184540918|SUPERIORITY_OR_OTHER||Rate ratio|1.13||||0.4409|TWO_SIDED|95.0|0.83|1.53|||Negative binomial regression|||||1.53|0.83|0.4409
92317937|NCT01766076|184540921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.0|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Mann Whitney test was used for nonparametric variables||||||<0.05
92317938|NCT00529087|184541061|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|24.4|||<|0.001||95.0|17.3|31.4|||Chi-squared|||||31.4|17.3|<0.001
92317939|NCT00529087|184541062|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|19.5|||<|0.001||95.0|15.1|24.0|||t-test, 2 sided|||||24.0|15.1|<0.001
92317940|NCT00529087|184541062|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|20.9|||<|0.001||95.0|16.1|25.7|||t-test, 2 sided|||||25.7|16.1|<0.001
92317941|NCT00529087|184541063|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Log Rank|Log-rank test for comparisons of survival distributions||||||<0.001
92317942|NCT00529087|184541064|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.6|||<|0.001||95.0|1.1|2.1|||ANCOVA|Treatment as factor and baseline weekly RFBM as covariate||||2.1|1.1|<0.001
92317943|NCT00529087|184541064|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.7||||0.011||95.0|0.2|1.2|||ANCOVA|Treatment as factor and baseline weekly RFBM as covariate||||1.2|0.2|0.011
92317944|NCT00529087|184541066|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|20.4|||<|0.001||95.0|9.5|31.3|||Chi-squared|||||31.3|9.5|<0.001
92317945|NCT00529087|184541066|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|7.0||||0.212||95.0|-4.0|18.0|||Chi-squared|||||18.0|-4.0|0.212
92317946|NCT00529087|184541067|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||The statistical analysis for all time points (1, 2, 3 and 6 hours) is only shown once as the p value is the same for all time points.||||<0.001
92317947|NCT00529087|184541067|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||The statistical analysis for all time points (1, 2, 3 and 6 hours) is only shown once as the p value is the same for all time points.||||<0.001
92195283|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.873|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8730
92195284|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2000
92317948|NCT00529087|184541068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.5|||<|0.001||95.0|11.2|17.9|||ANOVA|Treatment as a factor||1 hour||17.9|11.2|<0.001
92317949|NCT00529087|184541068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.0|||<|0.001||95.0|4.6|11.4|||ANOVA|Treatment as a factor||1 hour||11.4|4.6|<0.001
92317950|NCT00529087|184541068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.5|||<|0.001||95.0|14.4|22.5|||ANOVA|Treatment as a factor||2 hours||22.5|14.4|<0.001
92317951|NCT00529087|184541068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.4|||<|0.001||95.0|6.3|14.5|||ANOVA|Treatment as a factor||2 hours||14.5|6.3|<0.001
92317952|NCT00529087|184541068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.3|||<|0.001||95.0|15.0|23.5|||ANOVA|Treatment as a factor||3 hours||23.5|15.0|<0.001
92317953|NCT00529087|184541068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|||<|0.001||95.0|6.7|15.3|||ANOVA|Treatment as a factor||3 hours||15.3|6.7|<0.001
92317954|NCT00529087|184541068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.5|||<|0.001||95.0|15.2|23.9|||ANOVA|Treatment as a factor||4 hours||23.9|15.2|<0.001
92317955|NCT00529087|184541068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|||<|0.001||95.0|6.6|15.4|||ANOVA|Treatment as a factor||4 hours||15.4|6.6|<0.001
92195285|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5059|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5059
92317956|NCT00529087|184541068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.7|||<|0.001||95.0|15.2|24.1|||ANOVA|Treatment as a factor||6 hours||24.1|15.2|<0.001
92317957|NCT00529087|184541068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.7|||<|0.001||95.0|6.2|15.2|||ANOVA|Treatment as a factor||6 hours||15.2|6.2|<0.001
92317958|NCT00529087|184541069|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|21.0|||<|0.001||95.0|10.2|31.9|||Chi-squared|||||31.9|10.2|<0.001
92317959|NCT00529087|184541069|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|5.6||||0.316||95.0|-5.3|16.5|||Chi-squared|||||16.5|-5.3|0.316
92317960|NCT00529087|184541070|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|19.7|||<|0.001||95.0|9.4|30.1|||Chi-squared|||||30.1|9.4|<0.001
92317961|NCT00529087|184541070|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|13.3||||0.016||95.0|2.6|24.0|||Chi-squared|||||24.0|2.6|0.016
92317962|NCT00529087|184541071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4|||<|0.001||95.0|1.0|1.9|||ANCOVA|Treatment as factor, Baseline as covariate||||1.9|1.0|<0.001
92317963|NCT00529087|184541071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.102||95.0|-0.1|0.8|||ANCOVA|Treatment as factor, Baseline as covariate||||0.8|-0.1|0.102
92317964|NCT00529087|184541072|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.1|||<|0.001||95.0|0.6|1.5|||ANCOVA|||||1.5|0.6|<0.001
92317965|NCT00529087|184541072|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.4|||<|0.001||95.0|0.0|0.9|||ANCOVA|||||0.9|0.0|<0.001
92317966|NCT00529087|184541073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2|||<|0.001||95.0|0.8|1.6|||ANCOVA|Treatment as factor, Baseline as covariate||||1.6|0.8|<0.001
92317967|NCT00529087|184541073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.012||95.0|0.1|0.9|||ANCOVA|Treatment as factor, Baseline as covariate||||0.9|0.1|0.012
92317968|NCT00529087|184541074|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.002||95.0|0.2|0.7|||ANCOVA|Treatment as factor, Baseline as covariate||||0.7|0.2|0.002
92317969|NCT00529087|184541074|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.119||95.0|-0.1|0.5|||ANCOVA|Treatment as factor, Baseline as covariate||||0.5|-0.1|0.119
92317970|NCT00529087|184541075|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.3||||0.008||95.0|-0.5|-0.1|||ANCOVA|Treatment as factor, Baseline as covariate||||-0.1|-0.5|0.008
92317971|NCT00529087|184541075|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.2||||0.015||95.0|-0.5|0.0|||ANCOVA|Treatment as factor, Baseline as covariate||||0.0|-0.5|0.015
92195286|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0348|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0348
92195287|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3815|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3815
92195288|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4716|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4716
92195289|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1063|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1063
92195290|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3884|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3884
92195291|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3787|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3787
92195292|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2537|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2537
92195293|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0952|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0952
92195294|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7725|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7725
92195295|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.066|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0660
92195296|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3657|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3657
92195297|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7717|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7717
92195298|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5849|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5849
92195299|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.958|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9580
92195300|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9884|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9884
92195301|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6743|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6743
92195302|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2689|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2689
92195303|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6907|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6907
92195304|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4798|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4798
92195305|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5609|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5609
92195306|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9834|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9834
92195307|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8339|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8339
92195308|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.873|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8730
92195309|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6327|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6327
92195310|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3986|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3986
92195311|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.637|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6370
92195312|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9869|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9869
92195313|NCT00551135|184290438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.755|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7550
92195314|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2912|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2912
92195315|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3723|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3723
92195316|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6116|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6116
92195317|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0835|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0835
92195318|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1497|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1497
92195319|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.395|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3950
92195320|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5892|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5892
92195321|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6143|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6143
92195322|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0104|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0104
92195323|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5666|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5666
92195324|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9008|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9008
92195325|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0967|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0967
92195326|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8353|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8353
92195327|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.453|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4530
92195328|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7297|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7297
92195329|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0692|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0692
92195330|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6333|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6333
92195331|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0325|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0325
92195332|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5788|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5788
92195333|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9224|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9224
92195334|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5527|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5527
92195335|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2624|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2624
92195336|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3263|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3263
92195337|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3746|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3746
92195338|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0050
92195339|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0493|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0493
92195340|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0773|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0773
92195341|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0547|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0547
92195342|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1976|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1976
92195343|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3832|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3832
92195344|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4216|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4216
92195345|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5852|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5852
92195346|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7336|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7336
92195347|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1647|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1647
92195348|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2813|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2813
92195349|NCT00551135|184290439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8423|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8423
92195350|NCT00551135|184290440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.397|TWO_SIDED||||||ANOVA|||"Sitting; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by sitting. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.3970
92195351|NCT00551135|184290440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.764|TWO_SIDED||||||ANOVA|||"Sitting; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by sitting. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.7640
92195352|NCT00551135|184290440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5064|TWO_SIDED||||||ANOVA|||"Sitting; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by sitting. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.5064
92195353|NCT00551135|184290440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1318|TWO_SIDED||||||ANOVA|||"Walking; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by walking. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.1318
92195354|NCT00551135|184290440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9367|TWO_SIDED||||||ANOVA|||"Walking; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by walking. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.9367
92195355|NCT00551135|184290440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1259|TWO_SIDED||||||ANOVA|||"Walking; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by walking. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.1259
92195356|NCT00551135|184290440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1812|TWO_SIDED||||||ANOVA|||"Coughing; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by coughing. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.1812
92195357|NCT00551135|184290440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96|TWO_SIDED||||||ANOVA|||"Coughing; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by coughing. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.9600
92195358|NCT00551135|184290440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.105|TWO_SIDED||||||ANOVA|||"Coughing; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by coughing. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.1050
92195359|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2818|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2818
92195360|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8631|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8631
92195361|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5074|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5074
92195362|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0401|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0401
92195363|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5509|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5509
92195364|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0004
92195365|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.707|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7070
92317972|NCT00529087|184541078|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.731||95.0|-5.4|7.7|||ANCOVA|Treatment as factor, Baseline as covariate||||7.7|-5.4|0.731
92317973|NCT00529087|184541078|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.779||95.0|-5.6|7.5|||ANCOVA|Treatment as factor, Baseline as covariate||||7.5|-5.6|0.779
92317974|NCT00529087|184541079|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|5.6||||0.023||95.0|0.8|10.4|||ANCOVA|Treatment as factor, baseline as covariate||||10.4|0.8|0.023
92317975|NCT00529087|184541079|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|2.8||||0.258||95.0|-2.0|7.6|||ANCOVA|Treatment as factor, baseline as covariate||||7.6|-2.0|0.258
92317976|NCT00529087|184541081|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.0||||0.071||95.0|-0.6|14.5|||ANCOVA|Treatment as factor, baseline as covariate||||14.5|-0.6|0.071
92317977|NCT00529087|184541081|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.6||||0.087||95.0|-1.0|14.2|||ANCOVA|Treatment as factor, baseline as covariate||||14.2|-1.0|0.087
92317978|NCT00529087|184541082|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.6||||0.038||95.0|0.4|14.7|||ANCOVA|Treatment as factor, baseline as covariate||||14.7|0.4|0.038
92317979|NCT00529087|184541082|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.3||||0.237||95.0|-2.8|11.5|||ANCOVA|Treatment as factor, baseline as covariate||||11.5|-2.8|0.237
92317980|NCT01598064|184541083|SUPERIORITY_OR_OTHER|||||||0.25|||||||Chi-squared|||||||0.25
92317981|NCT00333983|184541103|SUPERIORITY_OR_OTHER|||||||0.025||||||P value was set at .025 to adjust for 2 treatment comparisons and for interim monitoring for the treatment effect.|Mixed Models Analysis|||An analysis of all robot interventions compared with intensive conventional exercise for Fugl-Meyer change were completed using linear mixed models.||||.025
92317982|NCT03656068|184541115|OTHER|Wilcoxon signed-rank test was used for statistical inference.|Median Difference (Net)|0.003||||0.0039|TWO_SIDED|||||p-value for testing median = 0|Sign test|||||||0.0039
92195366|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.384|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3840
92195367|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2732|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2732
92317983|NCT03656068|184541116|OTHER|Wilcoxon signed-rank test was used for statistical inference.|Median Difference (Net)|10.0||||0.0026|TWO_SIDED|||||p-value for testing median = 0|Sign test|||||||0.0026
92317984|NCT03656068|184541117|OTHER|Wilcoxon signed-rank test was used for statistical inference.|Median Difference (Net)|0.002||||0.5555|TWO_SIDED|||||p-value for testing median = 0|Sign test|||||||0.5555
92317985|NCT03656068|184541118|OTHER|Wilcoxon signed-rank test was used for statistical inference.|Median Difference (Net)|1.72||||0.3778|TWO_SIDED|||||p-value for testing median = 0|Sign test|||||||0.3778
92317986|NCT03656068|184541119|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-8.1||||0.4638|TWO_SIDED|95.0|-31.0|14.8||p-value for testing mean = 0|t-test, 2 sided|||||14.8|-31.0|0.4638
92317987|NCT03656068|184541120|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-1.65||||0.6532|TWO_SIDED|95.0|-9.26|5.97||p-value for testing mean = 0|t-test, 2 sided|||||5.97|-9.26|0.6532
92317988|NCT03656068|184541121|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.38||||0.7254|TWO_SIDED|95.0|-1.86|2.61||p-value for testing mean = 0|t-test, 2 sided|||||2.61|-1.86|0.7254
92317989|NCT03656068|184541122|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|8.77||||0.3772|TWO_SIDED|95.0|-11.7|29.25||p-value for testing mean = 0|t-test, 2 sided|||||29.25|-11.70|0.3772
92317990|NCT03656068|184541123|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.12||||0.5799|TWO_SIDED|95.0|-0.56|0.33||p-value for testing mean = 0|t-test, 2 sided|||||0.33|-0.56|0.5799
92317991|NCT03656068|184541124|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-1.89||||0.7088|TWO_SIDED|95.0|-12.65|8.87||p-value for testing mean = 0|t-test, 2 sided|||||8.87|-12.65|0.7088
92317992|NCT03656068|184541125|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.35||||0.0609|TWO_SIDED|95.0|-0.72|0.02||p-value for testing mean = 0|t-test, 2 sided|||||0.02|-0.72|0.0609
92317993|NCT03656068|184541126|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-6.61||||0.1556|TWO_SIDED|95.0|-16.16|2.94||p-value for testing mean = 0|t-test, 2 sided|||||2.94|-16.16|0.1556
92317994|NCT03656068|184541127|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-14.6||||0.0709|TWO_SIDED|95.0|-30.6|1.4||p-value for testing mean = 0|t-test, 2 sided|||||1.4|-30.6|0.0709
92317995|NCT03656068|184541128|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-3.61||||0.1799|TWO_SIDED|95.0|-9.02|1.81||p-value for testing mean = 0|t-test, 2 sided|||||1.81|-9.02|0.1799
92317996|NCT03656068|184541129|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-6.8||||0.3306|TWO_SIDED|95.0|-21.2|7.6||p-value for testing mean = 0|t-test, 2 sided|||||7.6|-21.2|0.3306
92317997|NCT03656068|184541130|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-1.94||||0.4504|TWO_SIDED|95.0|-7.25|3.37||p-value for testing mean = 0|t-test, 2 sided|||||3.37|-7.25|0.4504
92317998|NCT03656068|184541131|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|33.8||||0.1349|TWO_SIDED|95.0|-11.5|79.0||p-value for testing mean = 0|t-test, 2 sided|||||79.0|-11.5|0.1349
92317999|NCT03656068|184541132|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|76.24||||0.0117|TWO_SIDED|95.0|19.04|133.43||p-value for testing mean = 0|t-test, 2 sided|||||133.43|19.04|0.0117
92318000|NCT03656068|184541133|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|31.3||||0.4281|TWO_SIDED|95.0|-50.3|112.9||p-value for testing mean = 0|t-test, 2 sided|||||112.9|-50.3|0.4281
92318001|NCT03656068|184541134|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|117.37||||0.0407|TWO_SIDED|95.0|5.6|229.14||p-value for testing mean = 0|t-test, 2 sided|||||229.14|5.60|0.0407
92318002|NCT03656068|184541135|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|47.28||||0.7065|TWO_SIDED|95.0|-210.9|305.46||p-value for testing mean = 0|t-test, 2 sided|||||305.46|-210.90|0.7065
92195368|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4418|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4418
92195369|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8379|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8379
92195370|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5944|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5944
92195371|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8139|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8139
92195372|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9709|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9709
92195373|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9666|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9666
92195374|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3204|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3204
92195375|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0869|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0869
92195376|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9386|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9386
92195377|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4352|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4352
92195378|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4522|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4522
92195379|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6606|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6606
92195380|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1733|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1733
92195381|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8788|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8788
92195382|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8474|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8474
92195383|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2938|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2938
92195384|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7602|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7602
92195385|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6881|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6881
92195386|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7883|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7883
92195387|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5374|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5374
92195388|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9774|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9774
92195389|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3082|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3082
92195390|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4373|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4373
92195391|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.654|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6540
92195392|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0002
92195393|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0696|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0696
92195394|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0029|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0029
92195395|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3695|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3695
92195396|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9346|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9346
92195397|NCT00551135|184290441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9631|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9631
92195398|NCT00551135|184290442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9025|TWO_SIDED||||||ANOVA|||"LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.9025
92195399|NCT00551135|184290442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5652|TWO_SIDED||||||ANOVA|||"LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.5652
92195400|NCT00551135|184290442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.792|TWO_SIDED||||||ANOVA|||"LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.7920
92195401|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6679|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6679
92195402|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7308|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7308
92195403|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6781|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6781
92195404|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.093|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0930
92195405|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3751|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3751
92195406|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0111|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0111
92195407|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6811|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6811
92195408|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7426|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7426
92195409|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1619|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1619
92195410|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1132|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1132
92195411|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9822|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9822
92195412|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1883|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1883
92195413|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9391|TWO_SIDED||||||ANOVA|||Day 1 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9391
92318003|NCT03656068|184541136|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|43.11||||0.1693|TWO_SIDED|95.0|-19.95|106.17||p-value for testing mean = 0|t-test, 2 sided|||||106.17|-19.95|0.1693
92318004|NCT03656068|184541137|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-48.14||||0.7099|TWO_SIDED|95.0|-317.64|221.36||p-value for testing mean = 0|t-test, 2 sided|||||221.36|-317.64|0.7099
92318005|NCT03656068|184541138|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|30.03||||0.3597|TWO_SIDED|95.0|-37.48|97.55||p-value for testing mean = 0|t-test, 2 sided|||||97.55|-37.48|0.3597
92318006|NCT03656068|184541139|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|169.0||||0.9893|TWO_SIDED|95.0|-25908.2|26246.2||p-value for testing mean = 0|t-test, 2 sided|||||26246.2|-25908.2|0.9893
92318007|NCT03656068|184541140|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|13.82||||0.1454|TWO_SIDED|95.0|-5.21|32.85||p-value for testing mean = 0|t-test, 2 sided|||||32.85|-5.21|0.1454
92318008|NCT03656068|184541141|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|3016.8||||0.8089|TWO_SIDED|95.0|-22996.2|29029.7||p-value for testing mean = 0|t-test, 2 sided|||||29029.7|-22996.2|0.8089
92318009|NCT03656068|184541142|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|12.78||||0.1365|TWO_SIDED|95.0|-4.5|30.06||p-value for testing mean = 0|t-test, 2 sided|||||30.06|-4.50|0.1365
92318010|NCT03656068|184541143|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|28.954||||0.1322|TWO_SIDED|95.0|-9.525|67.433||p-value for testing mean = 0|t-test, 2 sided|||||67.433|-9.525|0.1322
92318011|NCT03656068|184541144|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|23.99||||0.1062|TWO_SIDED|95.0|-5.59|53.57|||t-test, 2 sided|p-value for testing mean = 0||||53.57|-5.59|0.1062
92318012|NCT03656068|184541145|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|28.311||||0.0831|TWO_SIDED|95.0|-4.151|60.774||p-value for testing mean = 0|t-test, 2 sided|||||60.774|-4.151|0.0831
92318013|NCT03656068|184541146|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|32.72||||0.0543|TWO_SIDED|95.0|-0.69|66.13||p-value for testing mean = 0|t-test, 2 sided|||||66.13|-0.69|0.0543
92318014|NCT03656068|184541147|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.056||||0.6325|TWO_SIDED|95.0|-0.185|0.298||p-value for testing mean = 0|t-test, 2 sided|||||0.298|-0.185|0.6325
92318015|NCT03656068|184541148|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.46||||0.6925|TWO_SIDED|95.0|-1.94|2.87||p-value for testing mean = 0|t-test, 2 sided|||||2.87|-1.94|0.6925
92318016|NCT03656068|184541149|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.161||||0.2733|TWO_SIDED|95.0|-0.14|0.462|||t-test, 2 sided|||||0.462|-0.140|0.2733
92318017|NCT03656068|184541150|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|1.47||||0.3288|TWO_SIDED|95.0|-1.63|4.56||p-value for testing mean = 0|t-test, 2 sided|||||4.56|-1.63|0.3288
92318018|NCT03656068|184541151|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|5.649||||0.9271|TWO_SIDED|95.0|-121.923|133.22||p-value for testing mean = 0|t-test, 2 sided|||||133.220|-121.923|0.9271
92318019|NCT03656068|184541152|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.89||||0.9244|TWO_SIDED|95.0|-18.58|20.37||p-value for testing mean = 0|t-test, 2 sided|||||20.37|-18.58|0.9244
92318020|NCT03656068|184541153|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-30.244||||0.7288|TWO_SIDED|95.0|-211.93|151.441||p-value for testing mean = 0|t-test, 2 sided|||||151.441|-211.930|0.7288
92318021|NCT03656068|184541154|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|3.34||||0.7824|TWO_SIDED|95.0|-21.85|28.52||p-value for testing mean = 0|t-test, 2 sided|||||28.52|-21.85|0.7824
92318022|NCT03656068|184541155|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-47.629||||0.6448|TWO_SIDED|95.0|-260.433|165.176||p-value for testing mean = 0|t-test, 2 sided|||||165.176|-260.433|0.6448
92318023|NCT03656068|184541156|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.38||||0.9806|TWO_SIDED|95.0|-32.04|32.8||p-value for testing mean = 0|t-test, 2 sided|||||32.80|-32.04|0.9806
92318024|NCT03656068|184541157|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-113.616||||0.3256|TWO_SIDED|95.0|-351.124|123.891||p-value for testing mean = 0|t-test, 2 sided|||||123.891|-351.124|0.3256
92318025|NCT03656068|184541158|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|8.78||||0.6582|TWO_SIDED|95.0|-32.52|50.09||p-value for testing mean = 0|t-test, 2 sided|||||50.09|-32.52|0.6582
92318026|NCT03656068|184541159|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.2438||||0.5459|TWO_SIDED|95.0|-1.0847|0.5972||p-value for testing mean = 0|t-test, 2 sided|||||0.5972|-1.0847|0.5459
92318027|NCT03656068|184541160|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|23.91||||0.286|TWO_SIDED|95.0|-22.15|69.97|||t-test, 2 sided|||||69.97|-22.15|0.2860
92318028|NCT03656068|184541161|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.2893||||0.4887|TWO_SIDED|95.0|-1.158|0.5794||p-value for testing mean = 0|t-test, 2 sided|||||0.5794|-1.1580|0.4887
92318029|NCT03656068|184541162|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|30.27||||0.361|TWO_SIDED|95.0|-38.21|98.75||p-value for testing mean = 0|t-test, 2 sided|||||98.75|-38.21|0.3610
92318030|NCT03656068|184541163|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.63||||0.4945|TWO_SIDED|95.0|-2.51|1.26||p-value for testing mean = 0|t-test, 2 sided|||||1.26|-2.51|0.4945
92318031|NCT03656068|184541164|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.99||||0.8191|TWO_SIDED|95.0|-9.94|7.95||p-value for testing mean = 0|t-test, 2 sided|||||7.95|-9.94|0.8191
92318032|NCT03656068|184541165|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-3.22||||0.0243|TWO_SIDED|95.0|-5.96|-0.47||p-value for testing mean = 0|t-test, 2 sided|||||-0.47|-5.96|0.0243
92318033|NCT03656068|184541166|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-9.94||||0.0493|TWO_SIDED|95.0|-19.84|-0.04||p-value for testing mean = 0|t-test, 2 sided|||||-0.04|-19.84|0.0493
92318034|NCT03656068|184541167|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.6||||0.3066|TWO_SIDED|95.0|-0.59|1.79||p-value for testing mean = 0|t-test, 2 sided|||||1.79|-0.59|0.3066
92195414|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9664|TWO_SIDED||||||ANOVA|||Day 1 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9664
92195415|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0747|TWO_SIDED||||||ANOVA|||Day 1 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0747
92195416|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9681|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9681
92195417|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3246|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3246
92195418|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7984|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7984
92195419|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8581|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8581
92195420|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9677|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9677
92195421|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7104|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7104
92195422|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8978|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8978
92195423|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.626|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6260
92195424|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4047|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4047
92195425|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4461|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4461
92195426|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9099|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9099
92195427|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8805|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8805
92195428|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2348|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2348
92195429|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4445|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4445
92195430|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8849|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8849
92195431|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2796|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2796
92195432|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5225|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5225
92195433|NCT00551135|184290443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7015|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7015
92195434|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3332|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3332
92195435|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0933|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0933
92195436|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0031|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0031
92195437|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9451|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9451
92318035|NCT03656068|184541168|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|3.4||||0.2671|TWO_SIDED|95.0|-2.82|9.63||p-value for testing mean = 0|t-test, 2 sided|||||9.63|-2.82|0.2671
92195438|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7312|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7312
92195439|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0348|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0348
92195440|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8936|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8936
92195441|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7672|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7672
92195442|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4285|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4285
92195443|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0785|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0785
92195444|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3348|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3348
92195445|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1366|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1366
92195446|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3338|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3338
92195447|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.446|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4460
92195448|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1078|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1078
92195449|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8273|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8273
92195450|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.614|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6140
92195451|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1684|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1684
92195452|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1285|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1285
92195453|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.264|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2640
92195454|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8956|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8956
92195455|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0058|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0058
92195456|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9929|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9929
92195457|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0473|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0473
92195458|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2426|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2426
92195459|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3478|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3478
92195460|NCT00551135|184290447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1694|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1694
92195461|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.063|TWO_SIDED||||||ANOVA|||24 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0630
92195462|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0347|TWO_SIDED||||||ANOVA|||24 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0347
92195463|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0024|TWO_SIDED||||||ANOVA|||24 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0024
92318036|NCT03656068|184541169|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.11||||0.8241|TWO_SIDED|95.0|-0.94|1.16||p-value for testing mean = 0|t-test, 2 sided|||||1.16|-0.94|0.8241
92318037|NCT03656068|184541170|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|1.1||||0.7587|TWO_SIDED|95.0|-6.37|8.57||p-value for testing mean = 0|t-test, 2 sided|||||8.57|-6.37|0.7587
92318038|NCT03656068|184541171|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.567||||0.3784|TWO_SIDED|95.0|-1.88|0.746||p-value for testing mean = 0|t-test, 2 sided|||||0.746|-1.880|0.3784
92318039|NCT03656068|184541172|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-4.64||||0.3526|TWO_SIDED|95.0|-14.8|5.53||p-value for testing mean = 0|t-test, 2 sided|||||5.53|-14.80|0.3526
92318040|NCT03656068|184541173|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.098||||0.9218|TWO_SIDED|95.0|-1.978|2.173||p-value for testing mean = 0|t-test, 2 sided|||||2.173|-1.978|0.9218
92318041|NCT03656068|184541174|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.15||||0.9833|TWO_SIDED|95.0|-14.71|15.01||p-value for testing mean = 0|t-test, 2 sided|||||15.01|-14.71|0.9833
92318042|NCT03656068|184541175|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|12.68||||0.3957|TWO_SIDED|95.0|-17.79|43.16||p-value for testing mean = 0|t-test, 2 sided|||||43.16|-17.79|0.3957
92318043|NCT03656068|184541176|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|3.81||||0.344|TWO_SIDED|95.0|-4.39|12.01||p-value for testing mean = 0|t-test, 2 sided|||||12.01|-4.39|0.3440
92318044|NCT03656068|184541177|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|15.22||||0.0607|TWO_SIDED|95.0|-0.77|31.21||p-value for testing mean = 0|t-test, 2 sided|||||31.21|-0.77|0.0607
92318045|NCT03656068|184541178|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|5.83||||0.0644|TWO_SIDED|95.0|-0.39|12.05||p-value for testing mean = 0|t-test, 2 sided|||||12.05|-0.39|0.0644
92195464|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0767|TWO_SIDED||||||ANOVA|||48 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0767
92195465|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1327|TWO_SIDED||||||ANOVA|||48 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1327
92195466|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0078|TWO_SIDED||||||ANOVA|||48 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0078
92195467|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0694|TWO_SIDED||||||ANOVA|||72 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0694
92318046|NCT03656068|184541179|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.3665||||0.0487|TWO_SIDED|95.0|-0.7306|-0.0023||p-value for testing mean = 0|t-test, 2 sided|||||-0.0023|-0.7306|0.0487
92318047|NCT03656068|184541180|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|16.64||||0.5919|TWO_SIDED|95.0|-47.25|80.54||p-value for testing mean = 0|t-test, 2 sided|||||80.54|-47.25|0.5919
92318048|NCT03656068|184541181|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.2679||||0.1272|TWO_SIDED|95.0|-0.634|0.0983||p-value for testing mean = 0|t-test, 2 sided|||||0.0983|-0.6340|0.1272
92318049|NCT03656068|184541182|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|15.02||||0.5881|TWO_SIDED|95.0|-47.55|77.59||p-value for testing mean = 0|t-test, 2 sided|||||77.59|-47.55|0.5881
92318050|NCT03656068|184541183|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.18||||0.1458|TWO_SIDED|95.0|-0.42|0.07|||t-test, 2 sided|||||0.07|-0.42|0.1458
92318051|NCT03656068|184541184|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-11.53||||0.1495|TWO_SIDED|95.0|-27.61|4.54||p-value for testing mean = 0|t-test, 2 sided|||||4.54|-27.61|0.1495
92318052|NCT03656068|184541185|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.12||||0.3174|TWO_SIDED|95.0|-0.4|0.15||p-value for testing mean = 0|t-test, 2 sided|||||0.15|-0.40|0.3174
92318053|NCT03656068|184541186|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-8.02||||0.242|TWO_SIDED|95.0|-22.86|6.82||p-value for testing mean = 0|t-test, 2 sided|||||6.82|-22.86|0.2420
92318054|NCT01436370|184541187|SUPERIORITY_OR_OTHER|||||||0.145|||||||Fisher Exact|||This is the comparison for the B/Brisbane/60/2008 strain.||||0.145
92318055|NCT01436370|184541187|SUPERIORITY_OR_OTHER|||||||0.145|||||||Fisher Exact|||This is the comparison for the A/Perth/16/2009 (A/H3N2) strain||||0.145
92318056|NCT01436370|184541187|SUPERIORITY_OR_OTHER|||||||0.999|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain.||||0.999
92318057|NCT01436370|184541195|SUPERIORITY_OR_OTHER|||||||0.182|||||||Fisher Exact|||This is the comparison for the B/Wisconsin/1/2010 strain||||0.182
92318058|NCT01436370|184541195|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||This is the comparison for the A/Victoria/361/2011 (A/H3N2) strain.||||0.500
92318059|NCT01436370|184541195|SUPERIORITY_OR_OTHER|||||||0.087|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain.||||0.087
92318060|NCT01436370|184541196|SUPERIORITY_OR_OTHER|||||||0.234|||||||Fisher Exact|||This is the comparison for the B/Brisbane/60/2008 strain at Day 7.||||0.234
92318061|NCT01436370|184541196|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher Exact|||This is the comparison for the B/Brisbane/60/2008 strain at Day 180.||||0.250
92318062|NCT01436370|184541196|SUPERIORITY_OR_OTHER|||||||0.145|||||||Fisher Exact|||This is the comparison for the A/Perth/16/2009 (A/H3N2) strain at Day 7.||||0.145
92318063|NCT01436370|184541196|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||This is the comparison for the A/Perth/16/2009 (A/H3N2) strain at Day 180.||||0.500
92318064|NCT01436370|184541196|SUPERIORITY_OR_OTHER|||||||0.999|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 7.||||0.999
92318065|NCT01436370|184541196|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 180.||||0.500
92318066|NCT01436370|184541197|SUPERIORITY_OR_OTHER|||||||0.716|||||||Fisher Exact|||This is the comparison for the B/Wisconsin/1/2010 strain at Day 7.||||0.716
92195468|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2173|TWO_SIDED||||||ANOVA|||72 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2173
92195469|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0193|TWO_SIDED||||||ANOVA|||72 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0193
92195470|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0673|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0673
92318067|NCT01436370|184541197|SUPERIORITY_OR_OTHER|||||||0.999|||||||Fisher Exact|||This is the comparison for the B/Wisconsin/1/2010 strain at Day 180.||||0.999
92318068|NCT01436370|184541197|SUPERIORITY_OR_OTHER|||||||0.503|||||||Fisher Exact|||This is the comparison for the A/Victoria/361/2011 (A/H3N2) strain at Day 7.||||0.503
92318069|NCT01436370|184541197|SUPERIORITY_OR_OTHER|||||||0.475|||||||Fisher Exact|||This is the comparison for the A/Victoria/361/2011 (A/H3N2) strain at Day 180.||||0.475
92318070|NCT01436370|184541197|SUPERIORITY_OR_OTHER|||||||0.182|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 7.||||0.182
92318071|NCT01436370|184541197|SUPERIORITY_OR_OTHER|||||||0.014|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 180.||||0.014
92318072|NCT01436370|184541199|SUPERIORITY_OR_OTHER|||||||0.317|||||||McNemar|||This is the comparison for the B/Brisbane/60/2008 strain at Day 21.||||0.317
92318073|NCT01436370|184541199|SUPERIORITY_OR_OTHER|||||||0.564|||||||McNemar|||This is the comparison for the A/Perth/16/2009 (A/H3N2) strain at Day 21.||||0.564
92318074|NCT01436370|184541199|SUPERIORITY_OR_OTHER|||||||0.999|||||||McNemar|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 21.||||0.999
92195471|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2629|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2629
92195472|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0388|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0388
92195473|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0651|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0651
92195474|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3242|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3242
92195475|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0345|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0345
92195476|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0487|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0487
92318075|NCT01436370|184541199|SUPERIORITY_OR_OTHER|||||||0.564|||||||McNemar|||This is the comparison for the B/Brisbane/60/2008 strain at Day 21.||||0.564
92318076|NCT01436370|184541199|SUPERIORITY_OR_OTHER|||||||0.999|||||||McNemar|||This is the comparison for the A/Perth/16/2009 (A/H3N2) strain at Day 21.||||0.999
92318077|NCT01436370|184541199|SUPERIORITY_OR_OTHER|||||||0.655|||||||McNemar|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 21.||||0.655
92318078|NCT01436370|184541200|SUPERIORITY_OR_OTHER|||||||0.18|||||||McNemar|||This is the comparison for the B/Wisconsin/1/2010 strain at Day 21.||||0.180
92318079|NCT01436370|184541200|SUPERIORITY_OR_OTHER|||||||0.763|||||||McNemar|||This is the comparison for the A/Victoria/361/2011 (A/H3N2) strain at Day 21.||||0.763
92318080|NCT01436370|184541200|SUPERIORITY_OR_OTHER|||||||0.096|||||||McNemar|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 21.||||0.096
92318081|NCT01436370|184541200|SUPERIORITY_OR_OTHER|||||||0.157|||||||McNemar|||This is the comparison for the B/Wisconsin/1/2010 strain at Day 21||||0.157
92318082|NCT01436370|184541200|SUPERIORITY_OR_OTHER|||||||0.705|||||||McNemar|||This is the comparison for the A/Victoria/361/2011 (A/H3N2) strain at Day 21.||||0.705
92318083|NCT01436370|184541200|SUPERIORITY_OR_OTHER|||||||0.132|||||||McNemar|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 21.||||0.132
92318084|NCT02770170|184541201|OTHER|||||||0.7271||||||An alpha of 0.20 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod quadratic model fit|||Multiple comparison procedures and modelling (MCPmod) techniques for logistic regression was used.||||0.7271
92318085|NCT02770170|184541201|OTHER|||||||0.6415||||||An alpha of 0.20 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod sigmoidal Emax model fit|||Multiple comparison procedures and modelling (MCPmod) techniques for logistic regression was used.||||0.6415
92318086|NCT02770170|184541201|OTHER|||||||0.7367||||||An alpha of 0.20 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod Emax model fit|||Multiple comparison procedures and modelling (MCPmod) techniques for logistic regression was used.||||0.7367
92318087|NCT02770170|184541201|OTHER|||||||0.6624||||||An alpha of 0.20 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod exponential model fit|||Multiple comparison procedures and modelling (MCPmod) techniques for logistic regression was used.||||0.6624
92318088|NCT02770170|184541201|OTHER||Risk Difference (RD)|-10.0||||0.4645|TWO_SIDED|80.0|-27.292|7.288|||Regression, Logistic|include treatment and covariates, race (Asian or non-Asian), proteinuria at screening (\<3g/day or \>= 3g/day)|Confidence intervals calculated using delta method|||7.288|-27.292|0.4645
92195477|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3384|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3384
92195478|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0467|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0467
92195479|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0347|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0347
92195480|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3086|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3086
92318089|NCT02770170|184541201|OTHER||Risk Difference (RD)|-3.38||||0.8084|TWO_SIDED|80.0|-21.204|14.451|||Regression, Logistic|include treatment and covariates, race (Asian or non-Asian), proteinuria at screening (\<3g/day or \>= 3g/day)|Confidence intervals calculated using delta method|||14.451|-21.204|0.8084
92195481|NCT00551135|184290448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0406|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0406
92195482|NCT00551135|184290449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4177|TWO_SIDED||||||ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4177
92195483|NCT00551135|184290449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.441|TWO_SIDED||||||ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4410
92195484|NCT00551135|184290449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.556|TWO_SIDED||||||ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5560
92195485|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4273|TWO_SIDED||||||ANOVA|||Total CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4273
92318090|NCT02770170|184541201|OTHER||Risk Difference (RD)|-3.77||||0.7398|TWO_SIDED|80.0|-18.364|10.832|||Regression, Logistic|include treatment and covariates, race (Asian or non-Asian), proteinuria at screening (\<3g/day or \>= 3g/day)|Confidence intervals calculated using delta method|||10.832|-18.364|0.7398
92318091|NCT02770170|184541202|OTHER||Risk Difference (RD)|-8.93||||0.5773|TWO_SIDED|80.0|-23.66|7.64|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||7.64|-23.66|0.5773
92318092|NCT02770170|184541202|OTHER||Risk Difference (RD)|12.5||||0.4013|TWO_SIDED|80.0|-4.59|29.03|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||29.03|-4.59|0.4013
92318093|NCT02770170|184541202|OTHER||Risk Difference (RD)|-2.5||||0.8965|TWO_SIDED|80.0|-15.98|11.1|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||11.10|-15.98|0.8965
92195486|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4466|TWO_SIDED||||||ANOVA|||Total CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4466
92195487|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3785|TWO_SIDED||||||ANOVA|||Total CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3785
92195488|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5272|TWO_SIDED||||||ANOVA|||Total CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5272
92195489|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4257|TWO_SIDED||||||ANOVA|||Total CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4257
92195490|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1428|TWO_SIDED||||||ANOVA|||Total CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1428
92195491|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2316|TWO_SIDED||||||ANOVA|||Total CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2316
92195492|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3468|TWO_SIDED||||||ANOVA|||Total CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3468
92195493|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5367|TWO_SIDED||||||ANOVA|||Total CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5367
92195494|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0549|TWO_SIDED||||||ANOVA|||Total CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0549
92195495|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1351|TWO_SIDED||||||ANOVA|||Total CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1351
92318094|NCT02770170|184541203|OTHER||Risk Difference (RD)|-19.64||||0.1476|TWO_SIDED|80.0|-35.38|-2.48|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||-2.48|-35.38|0.1476
92318095|NCT02770170|184541203|OTHER||Risk Difference (RD)|12.5||||0.4013|TWO_SIDED|80.0|-4.2|26.86|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||26.86|-4.20|0.4013
92195496|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9599|TWO_SIDED||||||ANOVA|||Total CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9599
92195497|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4273|TWO_SIDED||||||ANOVA|||CT Distinct CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4273
92195498|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4466|TWO_SIDED||||||ANOVA|||CT Distinct CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4466
92318096|NCT02770170|184541203|OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|80.0|-13.63|13.63|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||13.63|-13.63|
92318097|NCT02770170|184541204|OTHER||Risk Difference (RD)|-26.67||||0.0512|TWO_SIDED|80.0|-41.52|-9.42|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||-9.42|-41.52|0.0512
92318098|NCT02770170|184541204|OTHER||Risk Difference (RD)|5.0||||0.7597|TWO_SIDED|80.0|-12.1|20.74|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||20.74|-12.10|0.7597
92318099|NCT02770170|184541204|OTHER||Risk Difference (RD)|-5.0||||0.7505|TWO_SIDED|80.0|-18.74|9.02|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||9.02|-18.74|0.7505
92318100|NCT02770170|184541205|OTHER||Risk Difference (RD)|-21.43||||0.1269|TWO_SIDED|80.0|-36.03|-4.41|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||-4.41|-36.03|0.1269
92318101|NCT02770170|184541205|OTHER||Risk Difference (RD)|5.0||||0.7889|TWO_SIDED|80.0|-12.24|21.62|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||21.62|-12.24|0.7889
92318102|NCT02770170|184541205|OTHER||Risk Difference (RD)|-12.5||||0.2906|TWO_SIDED|80.0|-25.99|1.68|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||1.68|-25.99|0.2906
92318103|NCT02770170|184541206|OTHER||Risk Difference (RD)|-9.64||||0.5687|TWO_SIDED|80.0|-25.79|7.45|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||7.45|-25.79|0.5687
92318104|NCT02770170|184541206|OTHER||Risk Difference (RD)|2.5||||0.9217|TWO_SIDED|80.0|-14.67|19.17|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||19.17|-14.67|0.9217
92318105|NCT02770170|184541206|OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|80.0|-14.03|14.03|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||14.03|-14.03|
92318106|NCT00162981|184541210|SUPERIORITY_OR_OTHER||||||<|0.0182||95.0|||||1-sided Wilcoxon signed rank test|1-sided Wilcoxon signed rank test was used to assess the difference from baseline.||||||<0.0182
92195499|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3785|TWO_SIDED||||||ANOVA|||CT Distinct CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3785
92195500|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2869|TWO_SIDED||||||ANOVA|||CT Distinct CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2869
92318107|NCT00162981|184541210|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||1-sided Wilcoxon signed rank test was used to assess the difference from baseline.|1-sided Wilcoxon signed rank test|||||||0.0001
92318108|NCT00162981|184541213|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a standard deviation of 50%, one-tailed significance at 0.05 and a power of 80% to detect a reduction of at least 25% (baseline to final in a within-subjects design), then approximately 27 subjects would have been required in each treatment arm. Assuming a 10% drop-out rate, then approximately 30 subjects per treatment were to be enrolled in the study.|||||<|0.0001||95.0|||||1-sided Wilcoxon Rank-Sum Test|1-sided Wilcoxon Rank-Sum Test was used to compare the high dose group to the low dose group.||||||<0.0001
92318109|NCT03187301|184541231|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% confidence intervals (CIs) for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|0.5|7.4||||||15 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The mixed model for repeated measurements (MMRM) included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||7.4|0.5|
92318110|NCT03187301|184541231|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean difference|3.0|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|-0.5|6.5||||||30 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||6.5|-0.5|
92318111|NCT03187301|184541231|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|0.2|7.2||||||45 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||7.2|0.2|
92318112|NCT03187301|184541231|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean Difference|6.2|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|2.7|9.7||||||60 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||9.7|2.7|
92318113|NCT03187301|184541231|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean Difference|4.8|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|1.3|8.3||||||2 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||8.3|1.3|
92318114|NCT03187301|184541231|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|90.0|-1.7|5.3||||||3 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||5.3|-1.7|
92318115|NCT03187301|184541231|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Sqaure (LS) Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.12||||90.0|-4.2|2.8||||||4 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||2.8|-4.2|
92318116|NCT03187301|184541236|NON_INFERIORITY|15 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|4.4|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|90.0|0.3|8.6||||||||8.6|0.3|
92318117|NCT03187301|184541236|NON_INFERIORITY|30 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|90.0|-1.6|6.7||||||||6.7|-1.6|
92318118|NCT03187301|184541236|NON_INFERIORITY|45 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|90.0|-0.9|7.4||||||||7.4|-0.9|
92318119|NCT03187301|184541236|NON_INFERIORITY|60 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|90.0|-0.9|7.5||||||||7.5|-0.9|
92318120|NCT03187301|184541236|NON_INFERIORITY|2 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|90.0|0.8|9.2||||||||9.2|0.8|
92318121|NCT03187301|184541236|NON_INFERIORITY|3 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|2.55|||TWO_SIDED|90.0|0.4|8.8||||||||8.8|0.4|
92318122|NCT03187301|184541236|NON_INFERIORITY|4 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Differeence|2.6|STANDARD_ERROR_OF_MEAN|2.56|||TWO_SIDED|90.0|-1.6|6.9||||||||6.9|-1.6|
92318123|NCT03187301|184541240|NON_INFERIORITY|The hypothesis of assay sensitivity(difference in QTcF time between moxifloxacin and placebo)was evaluated by observing if any of the 4 post-dose evaluation time points had a one-sided(Bonferroni-corrected)95% lower confidence limit which was equal to, or exceeded, 5 msec.|Least Square (LS) Mean Difference|10.0|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|5.3|14.8||||||60 mins post-dose: time-matched, baseline-corrected comparison between moxifloxacin and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||14.8|5.3|
92318124|NCT03187301|184541240|NON_INFERIORITY|The hypothesis of assay sensitivity(difference in QTcF time between moxifloxacin and placebo)was evaluated by observing if any of the 4 post-dose evaluation time points had a one-sided(Bonferroni-corrected)95% lower confidence limit which was equal to, or exceeded, 5 msec.|Least Square (LS) Mean Difference|12.3|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|90.0|7.5|17.1||||||2 hours post-dose: time-matched, baseline-corrected comparison between moxifloxacin and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||17.1|7.5|
92318125|NCT03187301|184541240|NON_INFERIORITY|The hypothesis of assay sensitivity(difference in QTcF time between moxifloxacin and placebo)was evaluated by observing if any of the 4 post-dose evaluation time points had a one-sided(Bonferroni-corrected)95% lower confidence limit which was equal to, or exceeded, 5 msec.|Least Square (LS) Mean Difference|10.9|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|90.0|6.1|15.7||||||3 hours post-dose: time-matched, baseline-corrected comparison between moxifloxacin and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||15.7|6.1|
92318126|NCT03187301|184541240|NON_INFERIORITY|The hypothesis of assay sensitivity(difference in QTcF time between moxifloxacin and placebo)was evaluated by observing if any of the 4 post-dose evaluation time points had a one-sided(Bonferroni-corrected)95% lower confidence limit which was equal to, or exceeded, 5 msec.|Least Square (LS) Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|90.0|4.2|13.8||||||4 hours post-dose: time-matched, baseline-corrected comparison between moxifloxacin and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||13.8|4.2|
92318127|NCT02158585|184541248|SUPERIORITY||Mean Difference (Final Values)|8.93||||0.5618|TWO_SIDED|95.0|-3.49|21.35|||Wilcoxon (Mann-Whitney)|||Null hypothesis: no difference between groups in average total number of vertigo attacks||21.35|-3.49|0.5618
92318128|NCT02158585|184541249|SUPERIORITY|||||||0.03429|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: no difference between average total number of vertigo attacks in pre-treatment and treatment||||0.03429
92318129|NCT02158585|184541250|SUPERIORITY||Mean Difference (Net)|4.57||||0.0092|TWO_SIDED|95.0|0.85|8.29|||Wilcoxon (Mann-Whitney)|||Null hypothesis: no difference in total average number of vertigo attacks during 3 week time periods||8.29|0.85|0.0092
92318130|NCT02158585|184541253|SUPERIORITY||Median Difference (Final Values)|11.14||||0.0385|TWO_SIDED|95.0|-15.64|37.92|||Wilcoxon (Mann-Whitney)|||||37.92|-15.64|0.0385
92318131|NCT03309943|184541298|SUPERIORITY|Mixed model analysis examining the effects of drug condition on response to smoking vs. non-smoking cues (collapsed across category - proximal, standard environment, personal environment). Data were analyzed using the underlying raw values versus collapsing them together.||||||0.019|||||||Mixed Models Analysis|Adjusted for FTCD. Carried out using SPSS Mixed Models with a repeated statement and compound symmetry covariance structure.||||||.019
92318132|NCT03309943|184541299|SUPERIORITY|Mixed model analysis examining the effects of drug condition on response to smoking vs. non-smoking cues (collapsed across category - proximal, standard environment, personal environment). Data were analyzed using the underlying raw values versus collapsing them together.||||||0.83|||||||Mixed Models Analysis|Adjusted for FTCD||||||.830
92318133|NCT03309943|184541300|SUPERIORITY|Mixed model analysis examining the effects of drug condition on response to smoking vs. non-smoking cues (collapsed across category - proximal, standard environment, personal environment). Data were analyzed using the underlying raw values versus collapsing them together.||||||0.006|||||||Mixed Models Analysis|||||||.006
92318134|NCT03309943|184541301|SUPERIORITY|Mixed model analysis examining the effects of drug condition on response to smoking vs. non-smoking cues (collapsed across category - proximal, standard environment, personal environment). Data were analyzed using the underlying raw values versus collapsing them together.||||||0.653|||||||Mixed Models Analysis|||||||.653
92318135|NCT03309943|184541302|SUPERIORITY|Mixed model analysis examining the effects of drug condition on response to smoking vs. non-smoking cues (collapsed across category - proximal, standard environment, personal environment). Data were analyzed using the underlying raw values versus collapsing them together.||||||0.012|||||||Mixed Models Analysis|Adjusted for FTCD||||||.012
92318136|NCT03309943|184541303|SUPERIORITY|Mixed model analysis examining the effects of drug condition on PPI indexes while viewing proximal smoking cues (which drove activation effects).||||||0.013|||||||Mixed Models Analysis|||||||.013
92318137|NCT03309943|184541304|SUPERIORITY|Repeated Measures ANCOVA analysis examining condition differences (adjusting for FTCD score)||||||0.024|||||||Repeated Measures ANCOVA|Adjusted for FTCD.||||||.024
92318138|NCT03309943|184541305|SUPERIORITY|Repeated Measures ANCOVA analysis examining condition differences (adjusting for FTCD score)||||||0.086|||||||Repeated Measures ANCOVA|Adjusted for FTCD score||||||.086
92318139|NCT03309943|184541306|SUPERIORITY|Repeated Measures ANCOVA analysis examining condition differences (adjusting for FTCD score)||||||0.14|||||||Repeated Measures ANCOVA|Adjusted for FTCD score||||||.140
92318140|NCT03309943|184541307|SUPERIORITY|Standard ANCOVA analysis examining condition differences (adjusting for baseline craving and FTCD score).||||||0.556|||||||ANCOVA|Adjusted for baseline craving and FTCD score||||||.556
92318141|NCT03309943|184541308|SUPERIORITY|Standard ANCOVA analysis examining condition differences (adjusting for FTCD score).||||||0.463||||||Adjusted for FTCD score only.|ANCOVA|||||||.463
92318142|NCT02230904|184541474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.115|STANDARD_DEVIATION|1.635|||TWO_SIDED|||||||||The change in average adhesiveness score was average score for Treatment B minus average score for Treatment A.||||
92318143|NCT02230904|184541481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.442|STANDARD_DEVIATION|0.895|||TWO_SIDED|||||||||The change in average adhesiveness score was average score for Treatment B minus average score for Treatment A.||||
92318144|NCT00343044|184541511|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED|||||Standard statistical methods (log-rank tests) were used in post hoc analyses that compared efficacy parameters in patients who received 1 vs 2 prior treatment regimens.|Log Rank|||Planned enrollment of 40 patients was determined assuming a median progression free survival (PFS) of 9 months (based on a median PFS of 7.2 months for low-dose, metronomic cyclophosphamide plus bevacizumab in a phase 2 study) and an analysis calculating the sample size at which the narrowing of its 95% confidence interval (CI) became greater than .2 for every 2 patients added. Progression free survival was estimated using the Kaplan-Meier method.||||.08
92318145|NCT00343044|184541512|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Standard statistical methods (log-rank tests) were used in post hoc analyses that compared efficacy parameters in patients who received 1 vs 2 prior treatment regimens.|Log Rank|||Overall survival(OS)was estimated using the Kaplan-Meier method.||||.02
92318146|NCT01511978|184541515|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92318147|NCT01511978|184541516|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
92318148|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|1.01|||||TWO_SIDED|95.0|0.87|1.18|||||Adjusted GMT/GMT Ratio based on analysis of covariance (ANCOVA) model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H1N1 (California)||1.18|0.87|
92318149|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|0.96|||||TWO_SIDED|95.0|0.82|1.12|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H1N1 (California)||1.12|0.82|
92318150|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|0.94|||||TWO_SIDED|95.0|0.81|1.1|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H1N1 (California)||1.10|0.81|
92195501|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9905|TWO_SIDED||||||ANOVA|||CT Distinct CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9905
92318151|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|0.94|||||TWO_SIDED|95.0|0.77|1.13|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H3N2 (Hong Kong)||1.13|0.77|
92318152|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|1.09|||||TWO_SIDED|95.0|0.91|1.32|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H3N2 (Hong Kong)||1.32|0.91|
92318153|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|1.17|||||TWO_SIDED|95.0|0.97|1.41|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H3N2 (Hong Kong)||1.41|0.97|
92318154|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.15|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Brisbane||1.15|0.87|
92318155|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|1.09|||||TWO_SIDED|95.0|0.95|1.26|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Brisbane||1.26|0.95|
92318156|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|1.1|||||TWO_SIDED|95.0|0.95|1.26|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Brisbane||1.26|0.95|
92318157|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|0.93|||||TWO_SIDED|95.0|0.8|1.09|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Phuket||1.09|0.80|
92318158|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|0.91|||||TWO_SIDED|95.0|0.78|1.07|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Phuket||1.07|0.78|
92318159|NCT03321968|184541529|SUPERIORITY||Adjusted GMT Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.15|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Phuket||1.15|0.84|
92318160|NCT02632409|184541564|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0008|TWO_SIDED|98.22|0.55|0.9|||Stratified Cox Proportional hazard model|||||0.90|0.55|0.0008
92195502|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9381|TWO_SIDED||||||ANOVA|||CT Distinct CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9381
92318161|NCT02632409|184541565|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.0005|TWO_SIDED|98.72|0.35|0.84|||Stratified Cox Proportional hazard model|||||0.84|0.35|0.0005
92318162|NCT01262872|184541585|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|-7.9|||||TWO_SIDED|95.0|-36.3|14.6||||||VE-10PP-LD 3+0d vs Synflorix 3+0d - 1M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, one month (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||14.6|-36.3|
92318163|NCT01262872|184541585|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|6.4|||||TWO_SIDED|95.0|-17.8|25.7||||||VE-10PP-LD 3+0d vs Synflorix 3+0d - 5M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, five months (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||25.7|-17.8|
92318164|NCT01262872|184541585|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|2.5|||||TWO_SIDED|95.0|-22.6|22.5||||||VE-10PP-LD 3+0d vs Synflorix 3+0d - 8M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, eight months (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||22.5|-22.6|
92318165|NCT01262872|184541585|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|4.5|||||TWO_SIDED|95.0|-21.4|25.0||||||VE-10PP-HD 3+0d vs Synflorix 3+0d - 1M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, one month (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||25.0|-21.4|
92195503|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2158|TWO_SIDED||||||ANOVA|||CT Distinct CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2158
92195504|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7887|TWO_SIDED||||||ANOVA|||CT Distinct CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7887
92195505|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.925|TWO_SIDED||||||ANOVA|||CT Distinct CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9250
92195506|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1472|TWO_SIDED||||||ANOVA|||CT Distinct CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1472
92195507|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5383|TWO_SIDED||||||ANOVA|||CT Distinct CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5383
92195508|NCT00551135|184290450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8869|TWO_SIDED||||||ANOVA|||CT Distinct CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8869
92195509|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4024|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 3 h PS;||||0.4024
92195510|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9766|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 3 h PS;||||0.9766
92195511|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9975|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 3 h PS;||||0.9975
92195512|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9038|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 24 h PS;||||0.9038
92195513|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.937|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 24 h PS;||||0.9370
92195514|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2134|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 24 h PS;||||0.2134
92318166|NCT01262872|184541585|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|5.3|||||TWO_SIDED|95.0|-19.2|24.8||||||VE-10PP-HD 3+0d vs Synflorix 3+0d - 5M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, five months (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||24.8|-19.2|
92195515|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 72 h PS;||||0.2482
92195516|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 72 h PS;||||0.2207
92195517|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9191|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 72 h PS;||||0.9191
92195518|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0686|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at EOT;||||0.0686
92195519|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0746|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at EOT;||||0.0746
92195520|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0512|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at EOT;||||0.0512
92195521|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7118|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 3 h PS;||||0.7118
92195522|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9883|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 3 h PS;||||0.9883
92195523|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.977|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 3 h PS;||||0.9770
92195524|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5457|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 24 h PS;||||0.5457
92195525|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2579|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 24 h PS;||||0.2579
92195526|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1232|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 24 h PS;||||0.1232
92195527|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.288|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 72 h PS;||||0.2880
92195528|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0894|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 72 h PS;||||0.0894
92195529|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1979|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 72 h PS;||||0.1979
92195530|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0686|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at EOT;||||0.0686
92195531|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0746|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at EOT;||||0.0746
92318167|NCT01262872|184541585|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|0.6|||||TWO_SIDED|95.0|-24.9|20.9||||||VE-10PP-HD 3+0d vs Synflorix 3+0d - 8M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, eight months (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||20.9|-24.9|
92318168|NCT01262872|184541586|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE (see above)|6.6|||||TWO_SIDED|95.0|-18.2|26.2||||||VE-10PP-HD 2+1d vs Synflorix 2+1d - 1M post-Dose 2. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, one month (M) post-dose 2 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||26.2|-18.2|
92195532|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4669|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at EOT;||||0.4669
92195533|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5533|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 3 h PS;||||0.5533
92195534|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1611|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 3 h PS;||||0.1611
92195535|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1611|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 3 h PS;||||0.1611
92195536|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4793|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 24 h PS;||||0.4793
92195537|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3533|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 24 h PS;||||0.3533
92195538|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8852|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 24 h PS;||||0.8852
92195539|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 72 h PS;||||0.3173
92195540|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 72 h PS;||||0.3173
92195541|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8864|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 72 h PS;||||0.8864
92195542|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8084|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at EOT;||||0.8084
92195543|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at EOT;||||0.3173
92195544|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at EOT;||||0.2207
92318169|NCT01262872|184541586|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE (see above)|6.3|||||TWO_SIDED|95.0|-18.0|25.7||||||VE-10PP-HD 2+1d vs Synflorix 2+1d - 5M post-Dose 2. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, five months (M) post-dose 2 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||25.7|-18.0|
92318170|NCT01262872|184541586|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE (see above)|-3.5|||||TWO_SIDED|95.0|-29.3|17.2||||||VE-10PP-HD 2+1d vs Synflorix 2+1d - 3M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, three months (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||17.2|-29.3|
92318171|NCT00720213|184541696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.98|STANDARD_DEVIATION|8.03||0.0054|TWO_SIDED|95.0|1.44|6.51|||Wilcoxon Signed Rank test|||Each participant was treated with the BiPAP autoSV2 (ASV2) and autoSV Advanced (ASV3) on two separate nights; therefore, the data were analyzed as paired samples. Depending on normality, each endpoint was analyzed with either a paired t-test or the nonparametric Wilcoxon Signed Ranks test. All comparisons were 2-sided conducted at a 5% level of significance.||6.51|1.44|0.0054
92318172|NCT03296527|184541772|NON_INFERIORITY|If the lower-limit of the two-sided 95% confidence interval (CI) was greater than the non-inferiority limit (-10.0%), the null hypothesis was rejected. In that case, it would be claimed that FE 999049 was non-inferior to GONAL-F with respect to ongoing pregnancy rate in women undergoing controlled ovarian stimulation.|Risk Difference (RD)|5.4|||||TWO_SIDED|95.0|-0.2|11.0|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of participants with ongoing pregnancy rate||11.0|-0.2|
92318173|NCT03296527|184541773|OTHER||Risk Difference (RD)|6.3|||||TWO_SIDED|95.0|0.3|12.3|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of participants with positive beta-hCG||12.3|0.3|
92318174|NCT03296527|184541774|OTHER||Risk Difference (RD)|4.9|||||TWO_SIDED|95.0|-0.9|10.7|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of participants with at least one gestational sac 5-6 weeks after transfer||10.7|-0.9|
92318175|NCT03296527|184541775|OTHER||Risk Difference (RD)|4.2|||||TWO_SIDED|95.0|-1.5|9.8|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of participants with at least one intrauterine gestational sac with fetal heart beat 5-6 weeks after transfer||9.8|-1.5|
92318176|NCT03296527|184541776|OTHER||Risk Difference (RD)|3.9|||||TWO_SIDED|95.0|-1.6|9.5|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of implanted embryos 5-6 weeks after transfer||9.5|-1.6|
92318177|NCT03296527|184541777|OTHER||Risk Difference (RD)|4.4|||||TWO_SIDED|95.0|-0.9|9.7|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of participants with ongoing implantation rate||9.7|-0.9|
92318178|NCT03296527|184541778|SUPERIORITY|Logistic regression including AMH group as a factor.|Odds Ratio (OR)|0.79||||0.083|TWO_SIDED|95.0|0.6|1.03||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with \<4 or \>=15 oocytes retrieved||1.03|0.60|0.083
92318179|NCT03296527|184541778|OTHER|Logistic regression including AMH group as a factor.|Odds Ratio (OR)|0.89||||0.489|TWO_SIDED|95.0|0.65|1.23||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with \<4 or \>=20 oocytes retrieved||1.23|0.65|0.489
92318180|NCT03296527|184541779|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.6||||0.075|TWO_SIDED|95.0|0.34|1.06||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with early OHSS (any grade)||1.06|0.34|0.075
92318181|NCT03296527|184541779|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.75||||0.365|TWO_SIDED|95.0|0.4|1.4||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with early OHSS (moderate/severe)||1.40|0.40|0.365
92318182|NCT03296527|184541779|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.33||||0.012|TWO_SIDED|95.0|0.13|0.83||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with any preventive intervention||0.83|0.13|0.012
92318183|NCT03296527|184541779|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.49||||0.004|TWO_SIDED|95.0|0.3|0.81||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with early OHSS (any grade) and/or preventive interventions||0.81|0.30|0.004
92195545|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3747|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 3 h PS;||||0.3747
92195546|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.145|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 3 h PS;||||0.1450
92195547|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2054|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 3 h PS;||||0.2054
92195548|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4106|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 24 h PS;||||0.4106
92195549|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2199|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 24 h PS;||||0.2199
92195550|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2896|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 24 h PS;||||0.2896
92195551|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at EOT;||||1.0000
92195552|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at EOT;||||0.3173
92195553|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3943|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at EOT;||||0.3943
92195554|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1703|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 3 h PS;||||0.1703
92195555|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0807|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 3 h PS;||||0.0807
92195556|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7728|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 3 h PS;||||0.7728
92195557|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.477|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 24 h PS;||||0.4770
92195558|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3625|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 24 h PS;||||0.3625
92195559|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0617|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 24 h PS;||||0.0617
92195560|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3061|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 72 h PS;||||0.3061
92195561|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at EOT;||||0.2207
92195562|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at EOT;||||0.3173
92195563|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9191|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 3 h PS;||||0.9191
92195564|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 3 h PS;||||0.3173
92195565|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 3 h PS;||||0.2207
92195566|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6692|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 24 h PS;||||0.6692
92195567|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7793|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 24 h PS;||||0.7793
92195568|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6065|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 24 h PS;||||0.6065
92195569|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.357|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 72 h PS;||||0.3570
92195570|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.969|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 72 h PS;||||0.9690
92195571|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5299|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 72 h PS;||||0.5299
92195572|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4821|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at EOT;||||0.4821
92195573|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8295|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at EOT;||||0.8295
92195574|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3304|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at EOT;||||0.3304
92195575|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 3 h PS;||||0.2482
92318184|NCT03296527|184541779|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.56||||0.029|TWO_SIDED|95.0|0.33|0.95|||Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with early OHSS (moderate/severe) and/or preventive interventions||0.95|0.33|0.029
92318185|NCT03296527|184541780|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|4.58||||0.002|TWO_SIDED|95.0|1.52|13.74||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with cycle cancellation due to poor response||13.74|1.52|0.002
92318186|NCT03296527|184541780|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.39|||<|0.001|TWO_SIDED|95.0|0.24|0.62||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with transfer cancellation due to excessive ovarian response/OHSS risk||0.62|0.24|<0.001
92318187|NCT03296527|184541780|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.62||||0.02|TWO_SIDED|95.0|0.42|0.93||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with cycle cancellation due to poor or excessive response, or transfer cancellation due to excessive response/OHSS risk||0.93|0.42|0.020
92318188|NCT03296527|184541781|SUPERIORITY||||||<|0.001||||||2-sided|van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 10 mm||||<.001
92318189|NCT03296527|184541781|SUPERIORITY||||||<|0.001||||||2-sided|van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 12 mm||||<.001
92318190|NCT03296527|184541781|SUPERIORITY|||||||0.568||||||2-sided|van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 15 mm||||0.568
92195576|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 24 h PS;||||0.2482
92195577|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 24 h PS;||||0.2207
92318191|NCT03296527|184541781|SUPERIORITY|||||||0.839||||||2-sided|van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 17 mm||||0.839
92318192|NCT03296527|184541782|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 10 mm||||<.001
92318193|NCT03296527|184541782|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 12 mm||||<.001
92318194|NCT03296527|184541782|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 15 mm||||<.001
92318195|NCT03296527|184541782|SUPERIORITY|||||||0.011|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 17 mm||||0.011
92318196|NCT03296527|184541783|SUPERIORITY|||||||0.14|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Largest follicle (mm)||||0.140
92318197|NCT03296527|184541783|SUPERIORITY|||||||0.155|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Average follicle size (mm)||||0.155
92318198|NCT03296527|184541783|SUPERIORITY|||||||0.159|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Treatment comparison: Average size of 3 largest follicles (mm)||||0.159
92318199|NCT03296527|184541784|SUPERIORITY|||||||0.848|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Largest follicle (mm)||||0.848
92318200|NCT03296527|184541784|SUPERIORITY|||||||0.629|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Average follicle size (mm)||||0.629
92318201|NCT03296527|184541784|SUPERIORITY|||||||0.768|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Average size of 3 largest follicles (mm)||||0.768
92318202|NCT03296527|184541785|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Mean number of oocytes retrieved||||<.001
92318203|NCT03296527|184541787|SUPERIORITY|||||||0.197|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Percentage of MII oocytes / oocytes retrieved||||0.197
92318204|NCT03296527|184541788|SUPERIORITY|||||||0.79|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Fertilization rate relative to oocytes retrieved||||0.790
92318205|NCT03296527|184541789|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of embryos on day 3||||<.001
92318206|NCT03296527|184541789|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of good-quality embryos on Day 3||||<.001
92318207|NCT03296527|184541790|SUPERIORITY||Mean ratio|0.81|||<|0.001|TWO_SIDED|95.0|0.74|0.88||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of LH on stimulation Day 6||0.88|0.74|<0.001
92318208|NCT03296527|184541791|SUPERIORITY||Mean ratio|0.9||||0.018|TWO_SIDED|95.0|0.82|0.98||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.||Circulating concentrations of LH at end-of-stimulation||0.98|0.82|0.018
92318209|NCT03296527|184541792|SUPERIORITY||Mean ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.7|0.84||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Estradiol on stimulation Day 6||0.84|0.70|<0.001
92318210|NCT03296527|184541793|SUPERIORITY||Mean ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.68|0.81||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Estradiol at end-of-stimulation||0.81|0.68|<0.001
92318211|NCT03296527|184541794|SUPERIORITY||Mean Ratio|0.89||||0.003|TWO_SIDED|95.0|0.82|0.96||The p-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Progesterone on stimulation Day 6||0.96|0.82|0.003
92318212|NCT03296527|184541795|SUPERIORITY||Mean ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.68|0.79||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Progesterone at end-of-stimulation||0.79|0.68|<0.001
92318213|NCT03296527|184541796|SUPERIORITY||Mean ratio|0.76|||<|0.001|TWO_SIDED|95.0|0.7|0.83||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.||Circulating concentrations of Inhibin A on stimulation Day 6||0.83|0.70|<0.001
92318214|NCT03296527|184541797|SUPERIORITY||Mean ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.71|0.83||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Inhibin A at end-of-stimulation||0.83|0.71|<0.001
92318215|NCT03296527|184541798|SUPERIORITY||Mean ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.77|0.89||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Inhibin B on stimulation Day 6||0.89|0.77|<0.001
92318216|NCT03296527|184541799|SUPERIORITY||Mean ratio|0.87||||0.001|TWO_SIDED|95.0|0.8|0.95||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Inhibin B at end-of-stimulation||0.95|0.80|0.001
92318217|NCT03296527|184541800|SUPERIORITY||Mean ratio|1.08|||<|0.001|TWO_SIDED|95.0|1.04|1.12||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of FSH on stimulation Day 6||1.12|1.04|<0.001
92318218|NCT03296527|184541801|SUPERIORITY||Mean ratio|0.92|||<|0.001|TWO_SIDED|95.0|0.89|0.95||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of FSH at end-of-stimulation||0.95|0.89|<0.001
92318219|NCT03296527|184541802|SUPERIORITY||Mean ratio|1.03||||0.184|TWO_SIDED|95.0|0.99|1.07||The p-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of FSH at oocyte retrieval visit||1.07|0.99|0.184
92318220|NCT03296527|184541803|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value is based on van Elteren test adjusted for AMH group.||Total gonadotropin dose||||<.001
92318221|NCT03296527|184541805|SUPERIORITY|Treatment groups were compared using the van Elteren test.||||||0.001|||||||van Elteren|p-value is based on van Elteren test adjusted for AMH group.||Number of stimulation days||||0.001
92318222|NCT01597973|184541833|SUPERIORITY|||||||0.21|||||||Chi-squared|||||||0.21
92318223|NCT01597973|184541834|SUPERIORITY|||||||0.583|||||||Chi-squared|||||||0.5830
92318224|NCT01597973|184541835|SUPERIORITY|||||||0.07|||||||Chi-squared|||||||0.07
92318225|NCT01597973|184541836|SUPERIORITY|||||||0.255|||||||Chi-squared|||||||0.255
92318226|NCT01597973|184541837|SUPERIORITY|||||||0.59|||||||Chi-squared|||nephrotoxicity analysis||||0.59
92318227|NCT01597973|184541837|SUPERIORITY|||||||0.22|||||||Fisher Exact|||Hypersensitivity analysis||||0.22
92318228|NCT01597973|184541837|SUPERIORITY|||||||0.94|||||||Chi-squared|||Hepatoxicity analysis||||0.94
92318229|NCT01597973|184541837|SUPERIORITY|||||||1|||||||Fisher Exact|||Seizures analysis||||1.00
92318230|NCT01597973|184541837|SUPERIORITY|||||||0.2|||||||Fisher Exact|||Neurotoxicity analysis||||0.20
92318231|NCT03655405|184541865|SUPERIORITY||Incidence Rate Ratio|0.972||||0.723|TWO_SIDED|95.0|0.83|1.138|||Regression, Poisson|Number of PIMs at follow-up, adjusted for baseline value||||1.138|0.830|0.723
92318232|NCT03655405|184541866|SUPERIORITY||Incidence Rate Ratio|0.763||||0.033|TWO_SIDED|95.0|0.594|0.979|||Regression, Poisson|Number of potentially inappropriate DDD at follow-up, adjusted for baseline value||||0.979|0.594|0.033
92318233|NCT03655405|184541867|SUPERIORITY||Incidence Rate Ratio|0.915||||0.064|TWO_SIDED|95.0|0.834|1.005|||Regression, Poisson|Number of chronic drugs at follow-up, adjusted for baseline value||||1.005|0.834|0.064
92318234|NCT03655405|184541868|SUPERIORITY||Incidence Rate Ratio|1.019||||0.857|TWO_SIDED|95.0|0.833|1.246|||Regression, Poisson|Number of chronic drugs at follow-up, adjusted for baseline value||||1.246|0.833|0.857
92318235|NCT03655405|184541870|SUPERIORITY||Slope|-1.36||||0.769|TWO_SIDED|95.0|-10.6|7.89|||Regression, Linear|Scale value at follow-up, adjusted for baseline value||Analysis for the scale component||7.89|-10.60|0.769
92318236|NCT03655405|184541870|SUPERIORITY||Slope|-0.096||||0.075|TWO_SIDED|95.0|-0.202|0.01|||Regression, Linear|Scale value at follow-up, adjusted for baseline value||Analysis for the index component||0.01|-0.202|0.075
92318237|NCT03655405|184541871|SUPERIORITY||Incidence Rate Ratio|1.237||||0.212|TWO_SIDED|95.0|0.886|1.727|||Mixed-effect regression, Poisson|Number at follow-up, adjusted for baseline value||||1.727|0.886|0.212
92318238|NCT03655405|184541872|SUPERIORITY||p-value|0.675||||0.675|TWO_SIDED||||||Fisher Exact|||||||0.675
92318239|NCT03655405|184541873|SUPERIORITY||p-value|0.615||||0.615|TWO_SIDED||||||Fisher Exact|||||||0.615
92318240|NCT03655405|184541874|SUPERIORITY||p-value|0.366||||0.366|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.366
92318241|NCT03655405|184541875|SUPERIORITY||p-value|0.738||||0.738|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.738
92318242|NCT03655405|184541876|SUPERIORITY||p-value|0.781||||0.781|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.781
92318243|NCT03655405|184541877|SUPERIORITY||p-value|0.958||||0.958|TWO_SIDED||||||Fisher Exact|||||||0.958
92318244|NCT03655405|184541878|SUPERIORITY||p-value|0.911||||0.911|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.911
92318245|NCT00833105|184541881|SUPERIORITY_OR_OTHER||||||<|0.025|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||<0.025
92318246|NCT00833105|184541882|SUPERIORITY_OR_OTHER|||||||0.299|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||0.299
92318247|NCT00833105|184541883|SUPERIORITY_OR_OTHER|||||||0.459|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||0.459
92318248|NCT00833105|184541884|SUPERIORITY_OR_OTHER|||||||0.343|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||0.343
92318249|NCT00833105|184541885|SUPERIORITY_OR_OTHER|||||||0.951|TWO_SIDED||||||Mixed Models Analysis|Random subject effects||||||0.951
92318250|NCT00833105|184541886|SUPERIORITY_OR_OTHER|||||||0.371|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||0.371
92318251|NCT00833105|184541887|SUPERIORITY_OR_OTHER|||||||0.164|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||0.164
92195578|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8055|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 24 h PS;||||0.8055
92195579|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9191|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 72 h PS;||||0.9191
92318252|NCT00833105|184541888|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon Signed-Rank|No multiple comparison procedure||Pre-training score is average of a total of 9 efforts, including 3 efforts from the first 3 days of training. Post-training score is average of a total of 9 efforts, including 3 efforts from the last 3 days of training.||||<0.01
92318253|NCT00833105|184541889|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||No multiple comparison procedure performed|Wilcoxon Signed Rank Test|||||||<0.05
92318254|NCT00833105|184541890|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||No multiple comparison procedure|Wilcoxon Signed Rank Test|||||||<0.0001
92318255|NCT00833105|184541891|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED|||||No multiple comparison adjustment.|Wilcoxon Signed Rank Test|||||||<0.005
92318256|NCT00833105|184541892|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||No multiple comparison adjustment.|Wilcoxon Signed Rank Test|||||||<0.001
92318257|NCT00833105|184541893|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||No multiple comparisons adjustment.|Wilcoxon Signed Rank Test|||||||<0.001
92195580|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8488|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 72 h PS;||||0.8488
92318258|NCT02898597|184541894|SUPERIORITY||Odds Ratio (OR)|12.31|||<|0.05|TWO_SIDED|95.0|1.37|110.3|||Regression, Logistic|||||110.30|1.37|< 0.05
92318259|NCT02898597|184541894|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||Fisher Exact test was performed, comparing the proportion of participants whose abstinence was verified with salivary cotinine test between the two arms, which was significant (p = 0.02).||||<0.05
92318260|NCT01011816|184541908|SUPERIORITY_OR_OTHER|||||||0.52|||||||Fisher Exact|||Null: No differenc between the percent success of Saline and BIOSTAT BIOLOGX||||0.52
92318261|NCT01081769|184541911|SUPERIORITY_OR_OTHER|||||||0.0191|||||||Log Rank|||||||0.0191
92318262|NCT01081769|184541925|SUPERIORITY_OR_OTHER|||||||0.0323|||||||Fisher Exact|||||||0.0323
92318263|NCT02282813|184541934|SUPERIORITY_OR_OTHER|||||||0.1041|||||||Cochran-Mantel-Haenszel|||||||0.1041
92318264|NCT02282813|184541935|SUPERIORITY_OR_OTHER|||||||0.0503|||||||Cochran-Mantel-Haenszel|||||||.0503
92318265|NCT02282813|184541936|SUPERIORITY_OR_OTHER|||||||0.4817|||||||Cochran-Mantel-Haenszel|||||||0.4817
92318266|NCT02282813|184541937|SUPERIORITY_OR_OTHER|||||||0.8086|||||||Cochran-Mantel-Haenszel|||||||0.8086
92318267|NCT06509438|184541944|OTHER|Compare 4 weeks after the last injection to baseline|Difference of medians|-0.45|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92318268|NCT06509438|184541944|OTHER|Compare 12 weeks after the last injection to baseline|Difference of medians|-0.4|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92318269|NCT03331796|184541948|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|3.1||0.63|TWO_SIDED|95.0|-4.8|7.9|||Regression, Linear|Adjusted for baseline||||7.9|-4.8|0.63
92318270|NCT03331796|184541948|SUPERIORITY||Mean Difference (Final Values)|6.9|STANDARD_ERROR_OF_MEAN|3.3||0.0476|TWO_SIDED|95.0|0.1|13.7|||Regression, Linear|||||13.7|0.1|0.0476
92318271|NCT03331796|184541949|SUPERIORITY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|4.1||0.45|TWO_SIDED|95.0|-11.4|5.2|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||5.2|-11.4|0.45
92318272|NCT03331796|184541949|SUPERIORITY||Mean Difference (Final Values)|5.7|STANDARD_ERROR_OF_MEAN|4.4||0.21|TWO_SIDED|95.0|-3.3|14.8|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||14.8|-3.3|0.21
92318273|NCT03331796|184541950|SUPERIORITY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.38||0.29|TWO_SIDED|95.0|-0.36|1.19|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||1.19|-0.36|0.29
92318274|NCT03331796|184541950|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.4||0.51|TWO_SIDED|95.0|-0.55|1.08|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||1.08|-0.55|0.51
92318275|NCT03331796|184541951|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|1.0||0.33|TWO_SIDED|95.0|-1.0|3.0|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||3.0|-1.0|.33
92318276|NCT03331796|184541951|SUPERIORITY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.0||0.0038|TWO_SIDED|95.0|1.1|5.3|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||5.3|1.1|0.0038
92318277|NCT03331796|184541952|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.78||0.58|TWO_SIDED|95.0|-1.1|2.0|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.0|-1.1|0.58
92318278|NCT03331796|184541952|SUPERIORITY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.86||0.59|TWO_SIDED|95.0|-2.2|1.3|||Regression, Linear|Adjusted for baseline||||1.3|-2.2|0.59
92318279|NCT03331796|184541953|SUPERIORITY||Mean Difference (Final Values)|5.5|STANDARD_ERROR_OF_MEAN|5.2||0.3|TWO_SIDED|95.0|-5.2|16.1|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||16.1|-5.2|0.30
92318280|NCT03331796|184541953|SUPERIORITY||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|4.9||0.34|TWO_SIDED|95.0|-14.9|5.3|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||5.3|-14.9|0.34
92318281|NCT03331796|184541954|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|10.6||0.996|TWO_SIDED|95.0|-22.0|22.1|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||22.1|-22.0|0.996
92318282|NCT03331796|184541954|SUPERIORITY||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|10.8||0.87|TWO_SIDED|95.0|-20.6|24.3|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||24.3|-20.6|0.87
92318283|NCT03331796|184541955|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|1.06||0.97|TWO_SIDED|95.0|-2.14|2.22|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.22|-2.14|0.97
92318284|NCT03331796|184541955|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|1.11||0.91|TWO_SIDED|95.0|-2.15|2.41|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.41|-2.15|0.91
92195581|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 72 h PS;||||0.2482
92195582|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at EOT;||||0.2482
92195583|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at EOT;||||0.2207
92195584|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at EOT;||||0.2482
92195585|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3291|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 3 h PS;||||0.3291
92195586|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1391|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 3 h PS;||||0.1391
92318285|NCT03331796|184541956|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_DEVIATION|1.0||0.84|TWO_SIDED|95.0|-2.3|1.9|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||1.9|-2.3|0.84
92318286|NCT03331796|184541956|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|1.0||0.8|TWO_SIDED|95.0|-1.9|2.4|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.4|-1.9|0.80
92195587|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6318|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 3 h PS;||||0.6318
92195588|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6319|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 24 h PS;||||0.6319
92195589|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8149|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 24 h PS;||||0.8149
92195590|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5795|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 24 h PS;||||0.5795
92318287|NCT03331796|184541957|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|2.0||0.48|TWO_SIDED|95.0|-5.5|2.6|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.6|-5.5|0.48
92318288|NCT03331796|184541957|SUPERIORITY||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|2.0||0.18|TWO_SIDED|95.0|-6.8|1.3|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||1.3|-6.8|0.18
92318289|NCT03331796|184541958|SUPERIORITY||Median Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|1.5||0.075|TWO_SIDED|95.0|-5.7|0.3|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||0.3|-5.7|0.075
92318290|NCT03331796|184541958|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|1.6||0.195|TWO_SIDED|95.0|-5.4|1.1|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||1.1|-5.4|0.195
92318291|NCT03331796|184541959|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.1||0.28|TWO_SIDED|95.0|-1.0|3.4|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||3.4|-1.0|0.28
92318292|NCT03331796|184541959|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|1.1||0.21|TWO_SIDED|95.0|-0.8|3.6|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||3.6|-0.8|0.21
92318293|NCT03331796|184541960|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.3||0.66|TWO_SIDED|95.0|-3.2|2.1|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.1|-3.2|0.66
92195591|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.175|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 72 h PS;||||0.1750
92195592|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0676|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 72 h PS;||||0.0676
92195593|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2943|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at EOT;||||0.2943
92195594|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0719|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at EOT;||||0.0719
92195595|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9283|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 3 h PS;||||0.9283
92195596|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9024|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 3 h PS;||||0.9024
92195597|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7655|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 3 h PS;||||0.7655
92195598|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 24 h PS;||||1.0000
92195599|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.846|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 24 h PS;||||0.8460
92195600|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6419|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 24 h PS;||||0.6419
92195601|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9522|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 72 h PS;||||0.9522
92195602|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 72 h PS;||||0.5800
92195603|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7675|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 72 h PS;||||0.7675
92195604|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1672|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at EOT;||||0.1672
92195605|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9634|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at EOT;||||0.9634
92195606|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1161|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at EOT;||||0.1161
92195607|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0754|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 3 h PS;||||0.0754
92195608|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0711|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 3 h PS;||||0.0711
92195609|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0711|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 3 h PS;||||0.0711
92195610|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 24 h PS;||||0.2482
92195611|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8091|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 24 h PS;||||0.8091
92195612|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 24 h PS;||||0.2482
92195613|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at EOT;||||0.3173
92195614|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at EOT;||||0.3173
92195615|NCT00551135|184290451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4386|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at EOT;||||0.4386
92318294|NCT03331796|184541960|SUPERIORITY||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|1.3||0.11|TWO_SIDED|95.0|-4.9|0.5|||Regression, Linear|||a priori threshold for statistical significance = .05||0.5|-4.9|0.11
92318295|NCT03331796|184541961|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.11||0.59|TWO_SIDED|95.0|-0.29|0.17|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||0.17|-0.29|0.59
92318296|NCT03331796|184541961|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.64|TWO_SIDED|95.0|-0.17|0.28|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||0.28|-0.17|0.64
92318297|NCT03331796|184541964|SUPERIORITY|||||||0.768||||||a priori threshold for statistical significance = .05|ANOVA|||||||0.768
92318298|NCT02949973|184541979|OTHER||Percentage|70.0|||||TWO_SIDED|||||||||||||
92318299|NCT02949973|184541980|OTHER||Percentage|40.0|||||TWO_SIDED|||||||||||||
92318300|NCT02949973|184541981|OTHER||Percentage|20.0|||||TWO_SIDED|||||||||||||
92318301|NCT02949973|184541982|OTHER||Percentage|20.0|||||TWO_SIDED|||||||||||||
92318302|NCT02949973|184541983|OTHER||Percentage|70.0|||||TWO_SIDED|95.0|34.8|93.3||||||||93.3|34.8|
92195616|NCT00551135|184290452|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1723|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||24 h PS.||||0.1723
92195617|NCT00551135|184290452|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0639|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||24 h PS||||0.0639
92195618|NCT00551135|184290452|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0021|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||24 h PS.||||0.0021
92195619|NCT00551135|184290452|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1127|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||EOT.||||0.1127
92195620|NCT00551135|184290452|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0703|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||EOT.||||0.0703
92195621|NCT00551135|184290452|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||EOT.||||0.0012
92195622|NCT00551135|184290454|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1927|TWO_SIDED|||||P-values derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjests have been combined into pooled centers.|Cochran-Mantel-Haenszel|||24 h PS.||||0.1927
92318303|NCT02949973|184541984|OTHER||Percentage|50.0|||||TWO_SIDED|95.0|15.7|84.3||||||||84.3|15.7|
92318304|NCT01420068|184541985|SUPERIORITY||Mean Difference (Net)|0.31||||0.84|TWO_SIDED|95.0|-2.74|3.37||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and hypertension etiology (primary, secondary) as factors, and Baseline weight as covariates.||||3.37|-2.74|0.840
92318305|NCT01420068|184541986|SUPERIORITY||Mean Difference (Net)|0.69||||0.303|TWO_SIDED|95.0|-0.63|2.02||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and hypertension etiology (primary, secondary) as factors, and Baseline height as covariates.||||2.02|-0.63|0.303
92318306|NCT01420068|184541987|SUPERIORITY||Mean Difference (Net)|0.03||||0.957|TWO_SIDED|95.0|-1.06|1.12||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and hypertension etiology (primary, secondary) as factors, and Baseline BMI as covariates.||||1.12|-1.06|0.957
92318307|NCT01420068|184541989|SUPERIORITY||Mean Difference (Net)|0.02||||0.992|TWO_SIDED|95.0|-3.29|3.33||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline weight as covariates||Primary Hypertension group (at LT Visit 18 \[Week 104\])||3.33|-3.29|0.992
92318308|NCT01420068|184541989|SUPERIORITY||Mean Difference (Net)|-3.06||||0.215|TWO_SIDED|95.0|-8.22|2.1||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline weight as covariates.||Secondary hypertension group (at LT Visit 19 \[Week 156\])||2.10|-8.22|0.215
92318309|NCT01420068|184541990|SUPERIORITY||Mean Difference (Net)|0.62||||0.403|TWO_SIDED|95.0|-0.85|2.09||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline height as covariates||Primary Hypertension group (at LT Visit 18 \[Week 104\])||2.09|-0.85|0.403
92318310|NCT01420068|184541990|SUPERIORITY||Mean Difference (Net)|0.92||||0.67|TWO_SIDED|95.0|-3.74|5.57||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline height as covariates.||Secondary hypertension group (at LT Visit 19 \[Week 156\])||5.57|-3.74|0.670
92318311|NCT01420068|184541991|SUPERIORITY||Mean Difference (Net)|-0.11||||0.86|TWO_SIDED|95.0|-1.29|1.08||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline BMI as covariates||Primary Hypertension group (at LT Visit 18 \[Week 104\])||1.08|-1.29|0.860
92318312|NCT01420068|184541991|SUPERIORITY||Mean Difference (Net)|-1.17||||0.32|TWO_SIDED|95.0|-3.66|1.32||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline BMI as covariates.||Secondary hypertension group (at LT Visit 19 \[Week 156\])||1.32|-3.66|0.320
92318313|NCT00365794|184541994|OTHER|||||||0.77|||||||t-test, 2 sided|||Total body mass||||0.77
92318314|NCT00365794|184541994|OTHER|||||||0.003|||||||t-test, 2 sided|||Total fat mass||||0.003
92318315|NCT00365794|184541994|OTHER|||||||0.0007|||||||t-test, 2 sided|||Statistical analysis is for change in trunk fat mass after 20 weeks of testosterone gel.||||0.0007
92318316|NCT00365794|184541994|OTHER|||||||0.01|||||||t-test, 2 sided|||Statistical analysis is for change in extremity fat mass after 20 weeks of testosterone gel.||||0.01
92318317|NCT00365794|184541995|OTHER|||||||0.12||||||No adjustment in p for multiple comparisons.|t-test, 2 sided|||||||0.12
92318318|NCT00365794|184541996|OTHER|||||||0.008|||||||t-test, 2 sided|||||||0.008
92195623|NCT00551135|184290454|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3865|TWO_SIDED|||||P-values derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjests have been combined into pooled centers.|Cochran-Mantel-Haenszel|||72 h PS||||0.3865
92318319|NCT00365794|184541997|OTHER|||||||0.0002||||||No adjustment for multiple comparisons.|t-test, 2 sided|||||||0.0002
92318320|NCT00365794|184541998|OTHER|||||||0.04|||||||t-test, 2 sided|||Statistical analysis for change in whole body insulin sensitivity after treatment with testosterone gel for 20 weeks.||||0.04
92318321|NCT00365794|184541998|OTHER|||||||0.59|||||||t-test, 2 sided|||Statistical analysis for change in hepatic glucose output (measure of central insulin sensitivity) after treatment with testosterone gel for 20 weeks||||0.59
92318322|NCT00365794|184541998|OTHER|||||||0.03|||||||t-test, 2 sided|||Statistical analysis for change in rate of peripheral glucose disposal (test of peripheral insulin sensitivity) after treatment with testosterone gel for 20 weeks||||0.03
92318323|NCT00365794|184541999|OTHER|||||||0.0006|||||||t-test, 2 sided|||Change in DEXA extremity (appendicular) lean tissue, a measure of extremity muscle mass after 20 weeks ot treatent with testosterone gel.||||0.0006
92318324|NCT00365794|184542000|OTHER|Test for fasting triglycerides||||||0.02|||||||t-test, 2 sided|||A change in 20 plasma lipids (fasting triglycerides and lipid fractions) after 20 weeks of treatment with testosterone gel.||||0.02
92318325|NCT00365794|184542000|OTHER|Test for total cholesterol||||||0.004|||||||t-test, 2 sided|||A change in 20 plasma lipids (fasting triglycerides and lipid fractions) after 20 weeks of treatment with testosterone gel||||0.004
92318326|NCT00365794|184542000|OTHER|Test for LDL cholesterol||||||0.02|||||||t-test, 2 sided|||nts A change in 20 plasma lipids (fasting triglycerides and lipid fractions) after 20 weeks of treatment with testosterone gel||||.02
92318327|NCT00365794|184542000|OTHER|Test for HDL cholesterol||||||0.004|||||||t-test, 2 sided|||A change in 20 plasma lipids (fasting triglycerides and lipid fractions) after 20 weeks of treatment with testosterone gel||||0.004
92318328|NCT00365794|184542001|OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
92195624|NCT00551135|184290454|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9869|TWO_SIDED|||||P-values derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjests have been combined into pooled centers.|Cochran-Mantel-Haenszel|||72 h PS.||||0.9869
92195625|NCT00551135|184290454|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4354|TWO_SIDED|||||P-values derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjests have been combined into pooled centers.|Cochran-Mantel-Haenszel|||72 h PS.||||0.4354
92318329|NCT00365794|184542002|OTHER|||||||0.97|||||||t-test, 2 sided|||||||0.97
92318330|NCT00365794|184542003|OTHER|||||||0.83|||||||t-test, 2 sided|||||||0.83
92318331|NCT04760626|184542006|NON_INFERIORITY|Non-inferiority of insulin icodec was considered confirmed if the upper limit of the two-sided 95% confidence interval (CI) for mean treatment difference (insulin icodec with doseguide minus once daily basal insulin analogue) was strictly below 0.3 percent point.|Treatment difference|-0.38|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.09|||ANCOVA|||The response and change from baseline in response after 52 weeks were analysed using an analysis of covariance (ANCOVA) model with region and randomised treatment as fixed factors, and baseline HbA1c as a covariate.||-0.09|-0.66|<0.0001
92318332|NCT00745901|184542015|SUPERIORITY_OR_OTHER|||||||0.9698||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9698
92318333|NCT00745901|184542016|SUPERIORITY_OR_OTHER|||||||0.0715||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0715
92318334|NCT00745901|184542017|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0050
92318335|NCT00745901|184542018|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0006
92195626|NCT00551135|184290454|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8061|TWO_SIDED|||||P-values derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjests have been combined into pooled centers.|Cochran-Mantel-Haenszel|||72 h PS.||||0.8061
92318336|NCT00745901|184542019|SUPERIORITY_OR_OTHER|||||||0.0031||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0031
92318337|NCT00745901|184542020|SUPERIORITY_OR_OTHER|||||||0.0013||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0013
92318338|NCT00745901|184542021|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92318339|NCT00745901|184542022|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92318340|NCT00745901|184542023|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92318341|NCT00745901|184542024|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92318342|NCT00745901|184542025|SUPERIORITY_OR_OTHER|||||||0.0033||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0033
92318343|NCT00745901|184542026|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0060
92318344|NCT00745901|184542027|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92318345|NCT00745901|184542028|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92318346|NCT00745901|184542029|SUPERIORITY_OR_OTHER|||||||0.912||95.0|||||Fisher Exact|||||||0.912
92318347|NCT00745901|184542030|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||||||0.003
92318348|NCT00745901|184542031|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Fisher Exact|||||||0.002
92318349|NCT00745901|184542032|SUPERIORITY_OR_OTHER|||||||0.816||95.0|||||Fisher Exact|||||||0.816
92318350|NCT00745901|184542033|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Fisher Exact|||||||0.012
92318351|NCT00745901|184542034|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||||||0.003
92318352|NCT02554682|184542036|SUPERIORITY|||||||0.906|||||||Generalized Linear Model|||||||.906
92318353|NCT02554682|184542036|SUPERIORITY|||||||0.796|||||||Generalized Linear Model|||||||.796
92318354|NCT02554682|184542036|SUPERIORITY|||||||0.886|||||||Generalized Linear Model|||||||.886
92318355|NCT02554682|184542036|OTHER|||||||0.082|||||||Generalized Linear Model|||||||.082
92318356|NCT02554682|184542037|SUPERIORITY|||||||0.677|||||||Generalized Linear Model|||||||0.677
92318357|NCT02554682|184542037|SUPERIORITY|||||||0.02|||||||Generalized Linear Model|||||||0.020
92318358|NCT02554682|184542037|SUPERIORITY|||||||0.952|||||||Generalized Linear Model|||||||.952
92318359|NCT02554682|184542037|SUPERIORITY|||||||0.21|||||||Generalized Linear Model|||||||0.210
92318360|NCT02554682|184542038|SUPERIORITY|||||||0.505|||||||Generalized Linear Model|||||||0.505
92318361|NCT02554682|184542038|SUPERIORITY|||||||0.176|||||||Generalized Linear Model|||||||.176
92318362|NCT02554682|184542038|SUPERIORITY|||||||0.134|||||||Generalized Linear Model|||||||0.134
92318363|NCT02554682|184542038|SUPERIORITY|||||||0.029|||||||Generalized Linear Model|||||||0.029
92318364|NCT02554682|184542039|SUPERIORITY|||||||0.037|||||||t-test, 2 sided|||||||.037
92318365|NCT02554682|184542040|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||.003
92318366|NCT02554682|184542041|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92318367|NCT02554682|184542042|SUPERIORITY|||||||0.571|||||||t-test, 2 sided|||||||.571
92318368|NCT02554682|184542043|SUPERIORITY|||||||0.394|||||||t-test, 2 sided|||||||.394
92318369|NCT02554682|184542044|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||.008
92318370|NCT02554682|184542045|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92318371|NCT02554682|184542046|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||.001
92318372|NCT02554682|184542047|SUPERIORITY|||||||0.159|||||||t-test, 2 sided|||||||.159
92318373|NCT02554682|184542048|SUPERIORITY|||||||0.112|||||||t-test, 2 sided|||||||.112
92195627|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1682|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1682
92318374|NCT02554682|184542049|SUPERIORITY|||||||0.165|||||||t-test, 2 sided|||||||.165
92318375|NCT02554682|184542050|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||.006
92318376|NCT00758290|184542051|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
92318377|NCT00884117|184542062|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<0.0001
92318378|NCT00884117|184542062|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Pairwise Wilcoxon|||||||<0.01
92318379|NCT00884117|184542062|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Pairwise Wilcoxon|||||||<0.01
92318380|NCT00884117|184542063|SUPERIORITY_OR_OTHER|||||||0.015|||||||Kruskal-Wallis|||||||0.015
92318381|NCT00884117|184542063|SUPERIORITY_OR_OTHER|||||||0.009|||||||Pairwise Wilcoxon|||||||0.009
92318382|NCT00884117|184542063|SUPERIORITY_OR_OTHER|||||||0.03|||||||Pairwise Wilcoxon|||||||0.03
92318383|NCT00884117|184542064|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Kruskal-Wallis|||||||0.0005
92318384|NCT00884117|184542064|SUPERIORITY_OR_OTHER|||||||0.008|||||||Pairwise Wilcoxon|||||||0.008
92195628|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2821|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2821
92318385|NCT00884117|184542064|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Pairwise Wilcoxon|||||||<0.0001
92318386|NCT00884117|184542065|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Kruskal-Wallis|||||||0.0002
92318387|NCT00884117|184542065|SUPERIORITY_OR_OTHER|||||||0.008|||||||Pairwise Wilcoxon|||||||0.008
92318388|NCT00884117|184542065|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Pairwise Wilcoxon|||||||<0.0001
92318389|NCT00884117|184542068|SUPERIORITY_OR_OTHER|||||||0.4464|||||||Cochran-Mantel-Haenszel|||Resistant versus Susceptible||||0.4464
92318390|NCT00884117|184542069|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Resistant versus Susceptible||||<0.0001
92318391|NCT00884117|184542070|SUPERIORITY_OR_OTHER|||||||0.2499|||||||Cochran-Mantel-Haenszel|||Resistant versus Susceptible||||0.2499
92318392|NCT01753310|184542077|SUPERIORITY_OR_OTHER||Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|1.95|<|0.001|TWO_SIDED|95.0|-12.17|-4.47|||t-test, 2 sided|The 2 sided t-test was on weighted overall treatment difference.|Based on the sample size weighted overall treatment difference.|The superiority of Dysport® to placebo was tested at a two-tailed 5% level by using a stratified analysis of covariance (ANCOVA) with baseline TWSTRS total score as covariate and stratified by the randomisation stratification factor (BoNT-A naïve versus BoNT-A non-naïve).||-4.47|-12.17|<0.001
92318393|NCT01753310|184542078|SUPERIORITY_OR_OTHER||Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|1.65|=|0.001|TWO_SIDED|95.0|-8.67|-2.14|||t-test, 2 sided|The 2 sided t-test was on weighted overall treatment difference.|Based on the sample size weighted overall treatment difference.|The superiority of Dysport® to placebo was tested at a two-tailed 5% level by using a stratified ANCOVA with baseline TWSTRS total score as covariate and stratified by the randomisation stratification factor (BoNT-A naïve versus BoNT-A non-naïve).||-2.14|-8.67|=0.001
92318394|NCT01753310|184542079|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||The superiority of Dysport® to placebo on CGIC of CD was tested at a two-tailed 5% level by using an analysis of variance (ANOVA) with treatment and randomisation stratification factor as main effects.||||<0.001
92318395|NCT01753310|184542080|SUPERIORITY_OR_OTHER||||||=|0.033|||||||Mantel-Haenszel chi-squared test|||The superiorty of Dysport® to placebo on treatment response was tested at a two-tailed 5% level by using a Mantel-Haenszel chi-squared test stratified by the randomisation factor.||||=0.033
92318396|NCT01753310|184542081|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||The superiority of Dysport® to placebo on CGIC of CD was tested at a two-tailed 5% level by using an ANOVA with treatment and randomisation stratification factor as main effects.||||<0.001
92318397|NCT01753310|184542082|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mantel-Haenszel chi-squared test|||The superiorty of Dysport® to placebo on treatment response was tested at a two-tailed 5% level by using a Mantel-Haenszel chi-squared test stratified by the randomisation factor.||||<0.001
92318398|NCT01753310|184542083|SUPERIORITY_OR_OTHER||||||=|0.174|||||||ANOVA|||The superiority of Dysport® to placebo on CDIP-58 was tested at a two-tailed 5% level by using an ANOVA with treatment and randomisation stratification factor as main effects.||||=0.174
92318399|NCT01753310|184542084|SUPERIORITY_OR_OTHER||||||=|0.583|||||||ANOVA|||The superiority of Dysport® to placebo on CDIP-58 was tested at a two-tailed 5% level by using an ANOVA with treatment and randomisation stratification factor as main effects.||||=0.583
92318400|NCT02946463|184542085|NON_INFERIORITY|LDH-N was analyzed using a generalized estimating equation (GEE) approach. The model included the following terms: treatment group, history of transfusion (as a categorical variable based on the stratification factor levels), and baseline LDH level (as a continuous variable). Noninferiority margin was based on the lower bound of the 95% confidence interval (CI) for the odds ratio (OR) of ravulizumab versus eculizumab for LDH normalization being greater than an OR of 0.39.|Odds Ratio (OR)|1.187|||||TWO_SIDED|95.0|0.796|1.769||||||A minimum of 142 participants were estimated to provide 80% power to demonstrate noninferiority of ravulizumab to eculizumab.||1.769|0.796|
92318401|NCT02946463|184542086|NON_INFERIORITY|Noninferiority margin was based on the lower bound of the 95% CI. Noninferiority margin was -20%.|Treatment difference|6.8|||||TWO_SIDED|95.0|-4.66|18.14|||||Treatment difference was estimated for ravulizumab - eculizumab.|A minimum of 193 participants were estimated to provide 80% power to demonstrate noninferiority of ravulizumab to eculizumab. The difference of percentages were calculated using stratified Newcombe CI method. Stratification factors were: observed stratification groups of packed red blood cells (pRBC)/whole blood units transfused in the 1 year prior to first dose of study drug and screening LDH levels.||18.14|-4.66|
92318402|NCT02946463|184542087|NON_INFERIORITY|Noninferiority margin was based on the upper bound of the 95% CI. Noninferiority margin was 20%.|Treatment difference|-6.7|||||TWO_SIDED|95.0|-14.21|0.18|||||Treatment difference was estimated for ravulizumab - eculizumab.|The difference of percentages was calculated using stratified Newcombe CI method. The stratification factors were: observed stratification groups of pRBC units transfused in the 1 year prior to first dose of study drug and screening LDH levels.||0.18|-14.21|
92318403|NCT02946463|184542088|NON_INFERIORITY|Noninferiority margin was based on the upper bound of the 95% CI. Noninferiority margin was 20%.|Treatment difference|-0.83|||||TWO_SIDED|95.0|-5.21|3.56|||||Treatment difference was estimated for ravulizumab - eculizumab.|||3.56|-5.21|
92318404|NCT02946463|184542089|NON_INFERIORITY|Noninferiority margin was based on the lower bound of the 95% CI. Noninferiority margin was -5%.|Treatment difference|0.67|||||TWO_SIDED|95.0|-1.21|2.55|||||Treatment difference was estimated for ravulizumab - eculizumab.|||2.55|-1.21|
92318405|NCT02946463|184542090|NON_INFERIORITY|Noninferiority margin was based on the lower bound of the 95% CI. Noninferiority margin was -20%.|Treatment difference|2.9|||||TWO_SIDED|95.0|-8.8|14.64|||||Treatment difference was estimated for ravulizumab - eculizumab.|The difference of percentages was calculated using stratified Newcombe CI method. The stratification factors were: observed stratification groups of pRBC units transfused in the 1 year prior to first dose of study drug and screening LDH levels.||14.64|-8.80|
92318406|NCT04390763|184542120|OTHER||Hazard Ratio (HR)|0.7|||||ONE_SIDED|90.0||1.04|||Bayesian two-piece hazard model||Estimated posterior median of the HR after the risk changing timepoint and one-sided 90% credible interval are reported.|||1.04||
92318407|NCT04390763|184542120|OTHER||Hazard Ratio (HR)|1.41|||||ONE_SIDED|90.0||1.96|||Bayesian two-piece hazard model||Estimated posterior median of the HR after the risk changing timepoint and one-sided 90% credible interval are reported.|||1.96||
92318408|NCT04390763|184542121|OTHER||Hazard Ratio (HR)|1.02||||0.46|ONE_SIDED|90.0||1.37|||Regression, Cox|||||1.37||0.46
92318409|NCT04390763|184542121|OTHER||Hazard Ratio (HR)|1.08||||0.38|ONE_SIDED|90.0||1.44|||Regression, Cox|||||1.44||0.38
92318410|NCT01786993|184542147|SUPERIORITY_OR_OTHER||Event-Free Probability|0.932|||||TWO_SIDED|95.0|0.904|0.951||||||"The hypothesis is formally expressed as:~H0: Freedom from system-related complications through 9 months ≤ 75% Ha: Freedom from system-related complications through 9 months \> 75%"||0.951|0.904|
92318411|NCT01786993|184542148|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a binomial distribution with a 44% probability for non-responders between 3 months and 9 months in both study arms, the sample size required for 85% power to reject the null hypothesis at the 5% significance level is 394. To adjust for a potential net crossover of 15% and an overall attrition rate of 20%, the total number of patients required to be enrolled in this study is 506.|Difference of proportions|-0.049||||0.0131|ONE_SIDED|97.5|-0.138||||normal approximation for binomial dist|||"H0: (Non-responder rate in the BiV arm between 3 M randomization and 9 M) - (Non-responder rate in the MPP arm between 3 M randomization and 9 M) ≤ -0.15~Ha: (Non-responder rate in the BiV arm between 3 M randomization and 9 M) - (Non-responder rate in the MPP arm between 3 M randomization and 9 M) \> -0.15~The null hypothesis will be rejected at the 2.5% significance level if the lower one-sided 97.5% confidence bound for the difference in the proportions is above -0.15."|||-0.138|0.0131
92318412|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.89|||||TWO_SIDED|95.0|0.68|1.16|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain A at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.16|0.68|
92318413|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.95|||||TWO_SIDED|95.0|0.73|1.23|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.23|0.73|
92318414|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.06|||||TWO_SIDED|95.0|0.81|1.38|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.38|0.81|
92318415|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.2|||||TWO_SIDED|95.0|0.9|1.6|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.6|0.9|
92318416|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.33|||||TWO_SIDED|95.0|1.0|1.77|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain C at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.77|1|
92318417|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.9|||||TWO_SIDED|95.0|0.68|1.2|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.2|0.68|
92318418|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.79|||||TWO_SIDED|95.0|0.63|0.97|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain W at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||0.97|0.63|
92318419|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.06|||||TWO_SIDED|95.0|0.86|1.13|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.13|0.86|
92318420|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.35|||||TWO_SIDED|95.0|1.09|1.67|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.67|1.09|
92318421|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.79|||||TWO_SIDED|95.0|0.61|1.02|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain Y at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.02|0.61|
92318422|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.91|||||TWO_SIDED|95.0|0.7|1.18|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.18|0.7|
92318423|NCT00450437|184542149|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.16|||||TWO_SIDED|95.0|0.89|1.5|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.5|0.89|
92318424|NCT00450437|184542150|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|8.0|||||TWO_SIDED|95.0|3.0|14.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenA.||14|3|
92318425|NCT00450437|184542150|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.0|7.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenC.||7|-2|
92318426|NCT00450437|184542150|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|12.0|||||TWO_SIDED|95.0|6.0|18.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenW.||18|6|
92318427|NCT00450437|184542150|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|27.0|||||TWO_SIDED|95.0|20.0|33.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenY.||33|20|
92318428|NCT00450437|184542151|NON_INFERIORITY_OR_EQUIVALENCE|MenACWY was considered noninferior to Menactra if the upper limit of the two-sided 95% CI of the difference in the percentage of subjects experiencing at least one severe systemic reaction \[MenACWY minus Menactra\] was less than 6%.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-1.0|2.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, safety.||2|-1|
92318429|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-10.0|3.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||3|-10|
92318430|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-12.0|0.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||0|-12|
92318431|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-9.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||4|-9|
92318432|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|5.0|||||TWO_SIDED|95.0|0.0|10.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||10|0|
92318433|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-1.0|10.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||10|-1|
92318434|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-6.0|5.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||5|-6|
92318435|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-13.0|0.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||0|-13|
92318436|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-3.0|11.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||11|-3|
92318437|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|10.0|||||TWO_SIDED|95.0|4.0|17.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||17|4|
92318438|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-13.0|1.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||1|-13|
92318439|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-6.0|8.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||8|-6|
92318440|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|7.0|||||TWO_SIDED|95.0|0.0|14.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||14|0|
92318441|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-10.0|3.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||3|-10|
92318442|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-12.0|0.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||0|-12|
92318443|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-9.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||4|-9|
92195629|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4781|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4781
92195630|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0557|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0557
92318444|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-3.0|6.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||6|-3|
92318445|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|3.0|||||TWO_SIDED|95.0|-2.0|7.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||7|-2|
92318446|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-3.0|6.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||6|-3|
92318447|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-5.0|1.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||1|-5|
92318448|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-4.0|2.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||2|-4|
92318449|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||4|-2|
92318450|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-8.0|2.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||2|-8|
92318451|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-8.0|2.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||2|-8|
92318452|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-5.0|5.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||5|-5|
92318453|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-9.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||4|-9|
92318454|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-5.0|||||TWO_SIDED|95.0|-11.0|1.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||1|-11|
92318455|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-8.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||4|-8|
92318456|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-3.0|5.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%)||5|-3|
92318457|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-4.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||4|-4|
92318458|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-4.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||4|-4|
92318459|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-5.0|1.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||1|-5|
92195631|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6098|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6098
92195632|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1821|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1821
92195633|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1628|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1628
92318460|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-4.0|2.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||2|-4|
92318461|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-2.0|3.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||3|-2|
92318462|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-8.0|1.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||1|-8|
92318463|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-4.0|||||TWO_SIDED|95.0|-9.0|0.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||0|-9|
92318464|NCT00450437|184542152|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-5.0|3.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||3|-5|
92318465|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with seroresponse one month after vaccination is \> -10%.|Vaccine group difference|4.0|||||TWO_SIDED|95.0|0.0|8.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenA.||8|0|
92318466|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with seroresponse one month after vaccination is \> -10%.|Vaccine group difference|5.0|||||TWO_SIDED|95.0|1.0|9.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenC.||9|1|
92318467|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with seroresponse one month after vaccination is \> -10%.|Vaccine group difference|15.0|||||TWO_SIDED|95.0|11.0|20.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs.Licensed MenaCWY vaccine, MenW.||20|11|
92318468|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with seroresponse one month after vaccination is \> -10%.|Vaccine group difference|23.0|||||TWO_SIDED|95.0|19.0|28.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenY.||28|19|
92318469|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:8 one month after vaccination is \> -10%.|Vaccine group difference|4.0|||||TWO_SIDED|95.0|0.0|8.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenA.||8|0|
92318470|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:8 one month after vaccination is \> -10%.|Vaccine group difference|3.0|||||TWO_SIDED|95.0|0.0|7.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenC.||7|0|
92195634|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8999|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8999
92195635|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.399|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3990
92195636|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2665|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2665
92195637|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4885|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4885
92195638|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6415|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6415
92195639|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2269|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2269
92195640|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3228|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3228
92195641|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1808|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1808
92318471|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with with hSBA ≥ 1:8 one month after vaccination is \> -10%.|Vaccine group difference|6.0|||||TWO_SIDED|95.0|4.0|9.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenW.||9|4|
92195642|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3282|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3282
92195643|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0342|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0342
92195644|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4198|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4198
92195645|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9049|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9049
92195646|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0456|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0456
92318472|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:8 one month after vaccination is \> -10%.|Vaccine group difference|15.0|||||TWO_SIDED|95.0|12.0|20.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenY.||20|12|
92195647|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2463|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2463
92195648|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8231|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8231
92318473|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:4 one month after vaccination is \> -10%.|Vaccine group difference|3.0|||||TWO_SIDED|95.0|-1.0|7.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenA.||7|-1|
92195649|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0221|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0221
92195650|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6974|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6974
92195651|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7461|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7461
92195652|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1198|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1198
92195653|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8031|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8031
92195654|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8515|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8515
92318474|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:4 one month after vaccination is \> -10%.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-1.0|4.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenC.||4|-1|
92318475|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:4 one month after vaccination is \> -10%.|Vaccine group difference|6.0|||||TWO_SIDED|95.0|3.0|8.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenW.||8|3|
92318476|NCT00450437|184542153|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:4 one month after vaccination is \> -10%.|Vaccine group difference|12.0|||||TWO_SIDED|95.0|9.0|16.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenY.||16|9|
92318477|NCT00450437|184542154|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence lower limit was 0.5. If the lower limit of two sided 95% CIs for the ratio of the hSBA GMT (GMT for investigational vaccine / GMT for licensed vaccine) at one month following vaccination was above this limit, Investigational MenACWY vaccine would be non-inferior to Licensed MenACWY vaccine for Neisseria Meningitidis strain A with respect to the immune response.|hSBA GMT ratios|1.32|||||TWO_SIDED|95.0|1.12|1.56|||ANOVA|||"Non-inferiority of Investigational MenACWY Vaccine vs. Licensed MenACWY vaccine, MenA.~The study would be considered a success if the lower limit of the two-sided 95% CIs for the hSBA GMT ratios comparing Investigational MenACWY vaccine to Licensed MenACWY vaccine for Neisseria Meningitidis strain A at 1 month after vaccination was to be above 0.5."||1.56|1.12|
92318478|NCT00450437|184542154|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence lower limit was 0.5. If the lower limit of two sided 95% CIs for the ratio of the hSBA GMT (GMT for investigational vaccine / GMT for licensed vaccine) at one month following vaccination was above this limit, Investigational MenACWY vaccine would be non-inferior to Licensed MenACWY vaccine for Neisseria Meningitidis strain C with respect to the immune response.|hSBA GMT ratios|1.4|||||TWO_SIDED|95.0|1.17|1.67|||ANOVA|||"Non-inferiority of Investigation MenACWY vaccine vs. Licensed MenACWY vaccine, MenC.~The study would be considered a success if the lower limit of the two-sided 95% CIs for the hSBA GMT ratios comparing Investigational MenACWY vaccine to Licensed MenACWY vaccine for Neisseria Meningitidis strain C at 1 month after vaccination was to be above 0.5."||1.67|1.17|
92318479|NCT00450437|184542154|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence lower limit was 0.5. If the lower limit of two sided 95% CIs for the ratio of the hSBA GMT (GMT for investigational vaccine / GMT for licensed vaccine) at one month following vaccination was above this limit, Investigational MenACWY vaccine would be non-inferior to Licensed MenACWY vaccine for Neisseria Meningitidis strain W with respect to the immune response.|hSBA GMT ratios|1.76|||||TWO_SIDED|95.0|1.51|2.05|||ANOVA|||"Non-inferiority of Investigational MenACWY vaccine vs. Licensed MenACWY vaccine, MenW.~The study would be considered a success if the lower limit of the two-sided 95% CIs for the hSBA GMT ratios comparing Investigational MenACWY vaccine to Licensed MenACWY vaccine for Neisseria Meningitidis strain W at 1 month after vaccination was to be above 0.5."||2.05|1.51|
92195655|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1285|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1285
92195656|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5561|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5561
92195657|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6858|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6858
92195658|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0693|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0693
92195659|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5547|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5547
92318480|NCT00450437|184542154|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence lower limit was 0.5. If the lower limit of two sided 95% CIs for the ratio of the hSBA GMT (GMT for investigational vaccine / GMT for licensed vaccine) at one month following vaccination was above this limit, Investigational MenACWY vaccine would be non-inferior to Licensed MenACWY vaccine for Neisseria Meningitidis strain Y with respect to the immune response.|hSBA GMT ratios|2.49|||||TWO_SIDED|95.0|2.11|2.95|||ANOVA|||"Non-inferiority of Investigational MenACWY Vaccine vs. Licensed MenACWY vaccine, MenY.~The study would be considered a success if the lower limit of the two-sided 95% CIs for the hSBA GMT ratios comparing Investigational MenACWY vaccine to Licensed MenACWY vaccine for Neisseria Meningitidis strain Y at 1 month after vaccination was to be above 0.5."||2.95|2.11|
92318481|NCT00450437|184542156|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-7.0|5.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenA.||5|-7|
92318482|NCT00450437|184542156|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|9.0|||||TWO_SIDED|95.0|3.0|15.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine. MenC.||15|3|
92318483|NCT00450437|184542156|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|9.0|||||TWO_SIDED|95.0|2.0|17.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenW.||17|2|
92318484|NCT00450437|184542156|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|16.0|||||TWO_SIDED|95.0|9.0|23.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenY.||23|9|
92318485|NCT01890122|184542157|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.107|<|0.0001|TWO_SIDED|95.0|-0.7|-0.278||An analysis of covariance (ANCOVA) model was used with treatment and country as fixed effects, and Baseline HbA1c as a continuous covariate.|ANCOVA|||||-0.278|-0.700|< 0.0001
92318486|NCT01890122|184542157|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.108|<|0.0001|TWO_SIDED|95.0|-0.889|-0.467||An ANCOVA model was used with treatment and country as fixed effects, and Baseline HbA1c as a continuous covariate.|ANCOVA|||||-0.467|-0.889|< 0.0001
92318487|NCT04025879|184542171|SUPERIORITY||Cox Proportional Hazard|0.58||||0.00025|TWO_SIDED|95.0|0.43|0.78|||Log Rank||Stratified by randomization stratification factors: PD-L1 Status (\>=1% vs \<1%/not evaluable/indeterminate), disease stage (II vs III), histology (squamous vs non-squamous).|||0.78|0.43|0.00025
92318488|NCT04025879|184542173|SUPERIORITY||DIFFERENCE OF PCR|20.5|||||TWO_SIDED|95.0|14.3|26.6|||||Strata adjusted difference based on Cochran-Mantel-Haenszel (CMH) method of weighting.|||26.6|14.3|
92318489|NCT04025879|184542173|SUPERIORITY||Odds Ratio (OR)|6.64|||||TWO_SIDED|95.0|3.4|12.97|||||Strata adjusted odds ratio using Mantel-Haenszel method.|||12.97|3.40|
92318490|NCT04025879|184542174|SUPERIORITY||DIFFERENCE OF MPR|23.2|||||TWO_SIDED|95.0|15.8|30.6|||||Strata adjusted difference based on Cochran-Mantel-Haenszel (CMH) method of weighting.|||30.6|15.8|
92318491|NCT04025879|184542174|SUPERIORITY||Odds Ratio (OR)|4.01||||||95.0|2.48|6.49|||||Strata adjusted odds ratio using Mantel-Haenszel method.|||6.49|2.48|
92195660|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.461|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4610
92195661|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.664|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6640
92195662|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6158|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6158
92318492|NCT00122382|184542194|SUPERIORITY_OR_OTHER||Estimated Difference between ABA and PLA|15.1|||<|0.001|TWO_SIDED|95.0|6.0|24.2||p-value of \<0.05: probability for testing the difference between ABA and PLA.|Chi-squared, Continuity-Corrected|||Estimated Difference between ABA and PLA is the estimated difference between ABA and PLA in the proportion of subjects achieving an ACR 50 response.||24.2|6.0|<0.001
92318493|NCT00122382|184542195|SUPERIORITY_OR_OTHER||Estimated Difference between ABA and PLA|15.5|||<|0.001|TWO_SIDED|95.0|8.2|22.8||p-value of \<0.05: probability for testing the difference between ABA and PLA.|Chi-squared, Continuity-Corrected|||Estimated Difference between ABA and PLA is the estimated difference between ABA and PLA in the proportion of subjects achieving MCR.||22.8|8.2|<0.001
92318494|NCT00122382|184542196|SUPERIORITY_OR_OTHER||Estimate of/Adjusted Difference|-0.73|||<|0.001|TWO_SIDED|95.0|-0.98|-0.48||p-value of \<0.05: probability for testing the difference between ABA and PLA.|ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.||||-0.48|-0.98|<0.001
92318495|NCT00122382|184542197|SUPERIORITY_OR_OTHER||Estimated Difference between ABA and PLA|9.8||||0.024|TWO_SIDED|95.0|1.3|18.4||p-value of \<0.05: probability for testing the difference between ABA and PLA.|Chi-squared, Continuity-Corrected|||Estimated Difference between ABA and PLA is the estimated difference between ABA and PLA in the proportion of subjects achieving HAQ response.||18.4|1.3|0.024
92195663|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1632|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1632
92195664|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.177|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1770
92195665|NCT00551135|184290455|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4882|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4882
92318496|NCT00122382|184542198|SUPERIORITY_OR_OTHER||Estimate of/Adjusted Difference|2.5||||0.005|TWO_SIDED|95.0|0.77|4.23||p-value of \<0.05: probability for testing the difference between ABA and PLA.|ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.||PCS Adjusted Mean Change from Baseline to Month 12||4.23|0.77|0.005
92318497|NCT00122382|184542198|SUPERIORITY_OR_OTHER||Estimate of/Adjusted Difference|1.81||||0.046|TWO_SIDED|95.0|0.03|3.6||p-value of \<0.05: probability for testing the difference between ABA and PLA.|ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.||MCS Adjusted Mean Change from Baseline to Month 12||3.60|0.03|0.046
92318498|NCT00122382|184542199|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-value of \<0.05: probability for comparison of change in radiographic scores between abatacept and placebo.|Nonparametric ANCOVA|||comparison of change in erosion scores between abatacept and placebo||||0.033
92318499|NCT00122382|184542199|SUPERIORITY_OR_OTHER|||||||0.353||95.0||||P-value of \<0.05: probability for comparison of change in radiographic scores between abatacept and placebo.|Nonparametric ANCOVA|||comparison of change in JSN scores between abatacept and placebo||||0.353
92318500|NCT00122382|184542201|SUPERIORITY_OR_OTHER||Estimated Difference between ABA and PLA|18.1|||<|0.001|TWO_SIDED|95.0|9.6|26.6||Total score was tested only if there was statistical significance in remission rate. For each test, the nominal type I error rate is set at 5%; this sequential testing procedure preserves the overall type I error rate at 5%.|Chi-squared, Continuity-Corrected|||Estimated Difference between ABA and PLA is the estimated difference between ABA and PLA in the proportion of subjects achieving DAS28-CRP remission.||26.6|9.6|<0.001
92318501|NCT00122382|184542202|SUPERIORITY_OR_OTHER||||||<|0.04||95.0||||Total score was tested only if there was statistical significance in remission rate. For each test, the nominal type I error rate is set at 5%; this sequential testing procedure preserves the overall type I error rate at 5%.|non-parametric ANCOVA|||||||<0.040
92318502|NCT00122382|184542217|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||signed rank test|||||||<0.001
92195666|NCT00551135|184290456|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7936|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7936
92195667|NCT00551135|184290456|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5092|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5092
92195668|NCT00551135|184290456|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4233|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4233
92195669|NCT00551135|184290456|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2033|TWO_SIDED||||||ANOVA|||Change at EOT; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2033
92195670|NCT00551135|184290456|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2142|TWO_SIDED||||||ANOVA|||Change at EOT; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2142
92195671|NCT00551135|184290456|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1218|TWO_SIDED||||||ANOVA|||Change at EOT; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1218
92318503|NCT02040805|184542220|NON_INFERIORITY|Margin based on clinically meaningful change of \>= 5 points.||||||0.04|||||||t-test, 1 sided|||Test of non-inferiority.||||0.04
92318504|NCT02040805|184542221|NON_INFERIORITY|Margin based on clinically meaningful change of \>= 2.5 points.||||||0.05|||||||t-test, 1 sided|||Test of non-inferiority.||||0.05
92318505|NCT02040805|184542222|OTHER|linear mixed models analysis|||||<|0.0001|||||||Mixed Models Analysis|df=1||||||<0.0001
92318506|NCT02040805|184542223|OTHER|linear mixed model|||||<|0.0001|||||||Mixed Models Analysis|df=1||||||<0.0001
92318507|NCT00908544|184542225|OTHER|Changes (within CHI group) in HIV DNA in PBMC from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at months 36.|Mean Difference (Final Values)|0.2||||0.98|TWO_SIDED|95.0|0.0|0.4|||t-test, 1 sided|||||0.4|0.0|0.98
92318508|NCT00908544|184542225|OTHER|Changes (within PHI group) in HIV DNA in PBMC from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at months 36.|Mean Difference (Final Values)|-1.4|||<|0.01|TWO_SIDED|95.0|-1.7|-1.1|||t-test, 1 sided|||||-1.1|-1.7|<0.01
92318509|NCT00908544|184542225|OTHER|Changes (within CHI group) in HIV DNA in PBMC from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at months 84.|Mean Difference (Final Values)|0.12||||0.93|TWO_SIDED|95.0|-0.1|0.3|||t-test, 1 sided|||||0.3|-0.1|0.93
92195672|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.083|TWO_SIDED||||||ANOVA|||Total score change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0830
92318510|NCT00908544|184542225|OTHER|Changes (within PHI group) in HIV DNA in PBMC from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at months 84.|Mean Difference (Final Values)|-1.3|||<|0.01|TWO_SIDED|95.0|-1.6|-1.0|||t-test, 1 sided|||||-1.0|-1.6|<0.01
92318511|NCT00908544|184542226|OTHER|Changes (within CHI Group) in HIV DNA in CD4+T cells from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at month 36.|Mean Difference (Final Values)|0.2||||0.99|TWO_SIDED|95.0|0.0|0.4|||t-test, 1 sided|||||0.4|0.0|0.99
92318512|NCT00908544|184542226|OTHER|Changes (within PHI Group) in HIV DNA in CD4+T cells from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at month 36.|Mean Difference (Final Values)|-1.7|||<|0.01|TWO_SIDED|95.0|-2.0|-1.5|||t-test, 1 sided|||||-1.5|-2.0|<0.01
92318513|NCT00908544|184542226|OTHER|Changes (within CHI Group) in HIV DNA in CD4+T cells from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at month 84.|Mean Difference (Final Values)|0.2||||0.97|TWO_SIDED|95.0|0.0|0.3|||t-test, 1 sided|||||0.3|-0.0|0.97
92318514|NCT00908544|184542226|OTHER|Changes (within PHI Group) in HIV DNA in CD4+T cells from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at month 84.|Mean Difference (Final Values)|-1.7|||<|0.01|TWO_SIDED|95.0|-2.0|-1.4|||t-test, 1 sided|||||-1.4|-2.0|<0.01
92318515|NCT00071110|184542249|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||Statistic (t): -1.00|t-test, 2 sided|||||||0.32
92318516|NCT00071110|184542250|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||Statistic (t): 1.56|t-test, 2 sided|||||||0.09
92318517|NCT00071110|184542251|SUPERIORITY_OR_OTHER|||||||0.17||95.0||||Statistic (t): 1.40|t-test, 2 sided|||||||0.17
92318518|NCT03859427|184542269|NON_INFERIORITY|The non-inferiority margin was 0.87 for the estimated ORR risk ratio.|Risk Ratio (RR)|0.954||||0.0666|TWO_SIDED|95.0|0.882|1.032||P-value (2.5% significance level) of the non-inferiority test via the synthesis approach (FDA, 2016) for non-inferiority comparison of ORR between treatment arms.|Synthesis approach||Risk ratio and 95% CIs were estimated by a stratified analysis using the Cochran-Mantel-Haenszel method.|||1.032|0.882|0.0666
92318519|NCT03859427|184542271|OTHER||Odds Ratio (OR)|1.049|||||TWO_SIDED|95.0|0.653|1.683|||||Odds ratio and 95% CIs were estimated by a stratified analysis using the Cochran-Mantel-Haenszel method.|||1.683|0.653|
92318520|NCT03859427|184542277|OTHER||Odds Ratio (OR)|1.235|||||TWO_SIDED|95.0|0.775|1.97|||||Odds ratio and 95% CIs were estimated by a stratified analysis using the Cochran-Mantel-Haenszel method.|||1.970|0.775|
92318521|NCT03859427|184542278|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.657|1.711|||||Odds ratio and 95% CIs were estimated by a stratified analysis using the Cochran-Mantel-Haenszel method.|||1.711|0.657|
92195673|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2339|TWO_SIDED||||||ANOVA|||Total score change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2339
92318522|NCT03859427|184542279|OTHER||Least Squares (LS) Mean Difference|2.53|||||TWO_SIDED|95.0|0.38|4.69|||||Analysis was based on repeated measures analysis of covariance (ANCOVA) model, including arm, baseline scale score, randomization stratification factors and visit as repeated measure.|||4.69|0.38|
92318523|NCT03859427|184542280|OTHER||LS Mean Difference|1.73|||||TWO_SIDED|95.0|-1.26|4.72|||||Analysis was based on ANCOVA model, including arm, baseline scale score, randomization stratification factors and visit as repeated measure.|||4.72|-1.26|
92318524|NCT03859427|184542281|OTHER||LS Mean difference|-0.26|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|95.0|-2.54|2.03|||||Treatment difference at Cycle 5|||2.03|-2.54|
92318525|NCT03859427|184542281|OTHER||LS Mean difference|-0.48|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|-3.24|2.28|||||Treatment difference at Cycle 12|||2.28|-3.24|
92318526|NCT03859427|184542281|OTHER||LS Mean difference|1.44|STANDARD_ERROR_OF_MEAN|1.59|||TWO_SIDED|95.0|-1.69|4.58|||||Treatment difference at safety follow-up|||4.58|-1.69|
92318527|NCT03175536|184542282|SUPERIORITY||Mean Difference (Net)|3.4||||0.05|TWO_SIDED|95.0|-5.2|12.1|||GEE models|Negative binomial regression with GEE model; term of interest was interaction between study group and time period (baseline vs follow-up year).|Using terms from the regression model, we applied marginal effects methods to calculate mean adjusted baseline and follow-up PDC and absolute changes|||12.1|-5.2|0.05
92318528|NCT03175536|184542283|SUPERIORITY||Mean Difference (Net)|1.3||||0.05|TWO_SIDED|95.0|-4.4|7.0|||GEE model|Negative binomial regression with GEE model; term of interest was interaction between study group and time period (baseline vs follow-up year).|Using terms from the regression model, we applied marginal effects methods to calculate mean adjusted baseline and follow-up PDC and absolute changes|||7.0|-4.4|0.05
92318529|NCT03175536|184542284|SUPERIORITY||Mean Difference (Net)|6.0||||0.05|TWO_SIDED|95.0|0.7|11.3|||GEE model|Binomial regression with GEE model; term of interest was interaction between study group and time period (baseline vs follow-up year).|Using terms from the regression model, we applied marginal effects methods to calculate mean adjusted baseline and follow-up PDC and absolute changes.|||11.3|0.7|0.05
92318530|NCT03175536|184542285|SUPERIORITY||Mean Difference (Net)|0.16||||0.05|TWO_SIDED|95.0|-0.74|1.06|||GEE model|Negative binomial regression with GEE model; term of interest was interaction between study group and time period (baseline vs follow-up year).|Using terms from the regression model, we applied marginal effects methods to calculate mean adjusted baseline and follow-up PDC and absolute changes|||1.06|-0.74|0.05
92318531|NCT03175536|184542286|SUPERIORITY||Median Difference (Net)|-34.0||||0.05|TWO_SIDED|95.0|-47.0|-21.0|||GEE model|Negative binomial regression with GEE model; term of interest was interaction between study group and time period (baseline vs follow-up year).|Using terms from the regression model, we applied marginal effects methods to calculate mean adjusted baseline and follow-up PDC and absolute changes.|||-21|-47|0.05
92195674|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0629|TWO_SIDED||||||ANOVA|||Total score change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0629
92195675|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5721|TWO_SIDED||||||ANOVA|||Total score change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5721
92318532|NCT00722137|184542299|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.5|0.79|||Log Rank|Based on Log rank test stratified with International Prognostic Index (IPI) risk and stage of disease.|Hazards ratio estimate is based on a Cox´s model stratified by IPI risk and stage of disease. A hazard ratio \< 1 indicates an advantage for VcR-CAP.|||0.79|0.50|<0.001
92318533|NCT00722137|184542300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.45|0.74|||Log Rank|Based on Log rank test stratified with IPI risk and stage of disease.|Hazards ratio estimate is based on a Cox´s model stratified by IPI risk and stage of disease. A hazard ratio \< 1 indicates an advantage for VcR-CAP.|||0.74|0.45|<0.001
92318534|NCT00722137|184542302|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.38|0.65|||Log Rank|Based on Log rank test stratified with IPI risk and stage of disease.|Hazards ratio estimate is based on a Cox´s model stratified by IPI risk and stage of disease. A hazard ratio \< 1 indicates an advantage for VcR-CAP.|||0.65|0.38|<0.001
92318535|NCT00722137|184542303|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||=|0.001|TWO_SIDED|95.0|0.38|0.65|||Log Rank|||||0.65|0.38|=0.001
92318536|NCT00722137|184542304|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.428||||0.275|TWO_SIDED|95.0|0.749|2.722|||Cochran-Mantel-Haenszel Chi-Square||Mantel-Haenszel estimate of the common odds ratio for stratified tables is used, with IPI risk and Stage of Disease as stratification factors. An odds ratio (OR) \> 1 indicates an advantage for VcR-CAP.|||2.722|0.749|0.275
92318537|NCT00722137|184542305|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.688|||<|0.007|TWO_SIDED|95.0|1.148|2.481|||Cochran-Mantel-Haenszel Chi-Square||Mantel-Haenszel estimate of the common odds ratio for stratified tables is used, with IPI risk and Stage of Disease as stratification factors. An odds ratio (OR) \> 1 indicates an advantage for VcR-CAP.|||2.481|1.148|<0.007
92318538|NCT00722137|184542306|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.173|TWO_SIDED|95.0|0.59|1.1|||Log Rank|Based on Log rank test stratified with IPI risk and stage of disease.|Hazards ratio estimate is based on a Cox´s model stratified by IPI risk and stage of disease. A hazard ratio \< 1 indicates an advantage for VcR-CAP.|||1.10|0.59|0.173
92318539|NCT04031846|184542326|OTHER|Difference in % and 95 % confidence interval (CI) are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|0.6|||=|0.824|TWO_SIDED|95.0|-5.0|6.3|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in % : Injection site erythema||6.3|-5.0|= 0.824
92318540|NCT04031846|184542326|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|2.8|||=|0.324|TWO_SIDED|95.0|-2.8|8.4|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Injection site induration||8.4|-2.8|= 0.324
92318541|NCT04031846|184542326|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|11.3|||<|0.001|TWO_SIDED|95.0|5.8|16.6|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Injection site pain||16.6|5.8|< 0.001
92318542|NCT04031846|184542326|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|4.1|||=|0.128|TWO_SIDED|95.0|-1.2|9.4|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Injection site swelling||9.4|-1.2|= 0.128
92318543|NCT04031846|184542327|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|0.4|||=|0.885|TWO_SIDED|95.0|-5.0|5.8|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Decreased appetite||5.8|-5.0|= 0.885
92318544|NCT04031846|184542327|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|5.4|||=|0.045|TWO_SIDED|95.0|0.1|10.7|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Irritability||10.7|0.1|= 0.045
92318545|NCT04031846|184542327|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|4.4|||=|0.131|TWO_SIDED|95.0|-1.3|10.0|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Somnolence||10.0|-1.3|= 0.131
92318546|NCT04031846|184542327|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|-0.1|||=|0.898|TWO_SIDED|95.0|-2.4|2.1|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Urticaria||2.1|-2.4|= 0.898
92318547|NCT04031846|184542328|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|-0.2|||||TWO_SIDED|95.0|-1.0|0.5|||||V114 minus Prevenar 13™|Difference in %||0.5|-1.0|
92318548|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.62|||<|0.001|TWO_SIDED|95.0|0.57|0.68||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 1 GMC Ratio: CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.68|0.57|< 0.001
92318549|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.28|||<|0.001|TWO_SIDED|95.0|1.17|1.39||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 3 GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.39|1.17|< 0.001
92318550|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.68|0.82||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 4 GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.82|0.68|< 0.001
92318551|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.64|||<|0.001|TWO_SIDED|95.0|0.59|0.7||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 5 GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.70|0.59|< 0.001
92318552|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.68|||<|0.001|TWO_SIDED|95.0|0.61|0.76||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 6A GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.76|0.61|< 0.001
92318553|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.95|||<|0.001|TWO_SIDED|95.0|0.85|1.07||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 6B GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.07|0.85|< 0.001
92318554|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.72|0.85||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 7F GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.85|0.72|< 0.001
92318555|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.72|||<|0.001|TWO_SIDED|95.0|0.66|0.78||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 9V GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.78|0.66|< 0.001
92318556|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.67|0.83||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 14 GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.83|0.67|< 0.001
92318557|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.88|||<|0.001|TWO_SIDED|95.0|0.8|0.95||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 18C GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.95|0.80|< 0.001
92318558|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.75|0.91||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 19A GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.91|0.75|< 0.001
92318559|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.88|||<|0.001|TWO_SIDED|95.0|0.8|0.97||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 19F GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.97|0.80|< 0.001
92318560|NCT04031846|184542329|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.87|||<|0.001|TWO_SIDED|95.0|0.79|0.97||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 23F GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.97|0.79|< 0.001
92318561|NCT04031846|184542329|SUPERIORITY|Superiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>2.0 (1-sided p-value \<0.025).|GMC Ratio|71.79|||<|0.001|TWO_SIDED|95.0|65.16|79.1||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 22F GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||79.10|65.16|< 0.001
92195676|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9713|TWO_SIDED||||||ANOVA|||Total score change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9713
92195677|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4809|TWO_SIDED||||||ANOVA|||Total score change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4809
92318562|NCT04031846|184542329|SUPERIORITY|Superiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>2.0 (1-sided p-value \<0.025).|GMC Ratio|46.58|||<|0.001|TWO_SIDED|95.0|42.19|51.42||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 33F GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||51.42|42.19|< 0.001
92318563|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-2.8|||<|0.001|TWO_SIDED|95.0|-4.7|-1.3||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 1|95% CI is based on the Miettinen \& Nurminen method.|-1.3|-4.7|< 0.001
92318564|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|8.2|||<|0.001|TWO_SIDED|95.0|4.4|12.2||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 3|95% CI is based on the Miettinen \& Nurminen method.|12.2|4.4|< 0.001
92318565|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-2.2|||<|0.001|TWO_SIDED|95.0|-4.5|-0.1||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 4|95% CI is based on the Miettinen \& Nurminen method.|-0.1|-4.5|< 0.001
92318566|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-2.2|-0.2||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 5|95% CI is based on the Miettinen \& Nurminen method.|-0.2|-2.2|< 0.001
92318567|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.9|1.1||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 6A|95% CI is based on the Miettinen \& Nurminen method.|1.1|-1.9|< 0.001
92318568|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-3.5|-0.1||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 6B|95% CI is based on the Miettinen \& Nurminen method.|-0.1|-3.5|< 0.001
92318569|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.9|0.9||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 7F|95% CI is based on the Miettinen \& Nurminen method.|0.9|-0.9|< 0.001
92318570|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-1.1|||<|0.001|TWO_SIDED|95.0|-2.4|-0.4||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 9V|95% CI is based on the Miettinen \& Nurminen method.|-0.4|-2.4|< 0.001
92318571|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.0|0.5||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 14|95% CI is based on the Miettinen \& Nurminen method.|0.5|-1.0|< 0.001
92318572|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.8|0.9||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 18C|95% CI is based on the Miettinen \& Nurminen method.|0.9|-1.8|< 0.001
92318573|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-2.2|-0.2||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 19A|95% CI is based on the Miettinen \& Nurminen method.|-0.2|-2.2|< 0.001
92318574|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.3|0.3||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 19F|95% CI is based on the Miettinen \& Nurminen method.|0.3|-1.3|< 0.001
92318575|NCT04031846|184542330|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.5|||<|0.001|TWO_SIDED|95.0|-2.7|1.5||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 23F|95% CI is based on the Miettinen \& Nurminen method.|1.5|-2.7|< 0.001
92318576|NCT04031846|184542330|SUPERIORITY|Superiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>10 percentage points (1-sided p-value \<0.025).|Percentage Difference|93.8|||<|0.001|TWO_SIDED|95.0|91.5|95.6||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 22F|95% CI is based on the Miettinen \& Nurminen method.|95.6|91.5|< 0.001
92318577|NCT04031846|184542330|SUPERIORITY|Superiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>10 percentage points (1-sided p-value \<0.025).|Percentage Difference|94.9|||<|0.001|TWO_SIDED|95.0|92.7|96.5||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 33F|95% CI is based on the Miettinen \& Nurminen method.|96.5|92.7|< 0.001
92318578|NCT04031846|184542331|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.6|||<|0.001|TWO_SIDED|95.0|-1.7|0.4||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Diphtheria toxoid|95% CI is based on the Miettinen \& Nurminen method.|0.4|-1.7|< 0.001
92318579|NCT04031846|184542331|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -5% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.3|0.3||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Tetanus toxoid|95% CI is based on the Miettinen \& Nurminen method.|0.3|-1.3|< 0.001
92318580|NCT04031846|184542331|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.3|0.9||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Pertussis PT|95% CI is based on the Miettinen \& Nurminen method.|0.9|-1.3|< 0.001
92318581|NCT04031846|184542331|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.0|0.5||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Pertussis FHA|95% CI is based on the Miettinen \& Nurminen method.|0.5|-1.0|< 0.001
92318582|NCT04031846|184542331|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.3|0.3||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Pertussis PRN|95% CI is based on the Miettinen \& Nurminen method.|0.3|-1.3|< 0.001
92318583|NCT04031846|184542331|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.3|2.1||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Hib PRP|95% CI is based on the Miettinen \& Nurminen method.|2.1|-1.3|< 0.001
92318584|NCT04031846|184542331|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-2.0|0.0||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: HBsAg|95% CI is based on the Miettinen \& Nurminen method.|-0.0|-2.0|< 0.001
92318585|NCT04031846|184542331|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -5% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|0.7||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Poliovirus 1|95% CI is based on the Miettinen \& Nurminen method.|0.7|-0.7|< 0.001
92318586|NCT04031846|184542331|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -5% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|0.7||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Poliovirus 2|95% CI is based on the Miettinen \& Nurminen method.|0.7|-0.7|< 0.001
92318587|NCT04031846|184542331|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -5% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.5|1.1||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Poliovirus 3|95% CI is based on the Miettinen \& Nurminen method.|1.1|-0.5|< 0.001
92318588|NCT04031846|184542332|NON_INFERIORITY|Non-inferiority of Rotarix™ administered concomitantly with V114 to Rotarix™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMT ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.8|1.16||1-sided p-value|t-distribution||V114/Prevenar 13™|GMT Ratio: CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group||1.16|0.80|< 0.001
92318589|NCT04031846|184542333|OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.73|0.88|||||V114 / Prevenar 13™|GMC Ratio Serotype 1: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.88|0.73|
92195678|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1561|TWO_SIDED||||||ANOVA|||Rumination change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1561
92195679|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5267|TWO_SIDED||||||ANOVA|||Rumination change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5267
92195680|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1125|TWO_SIDED||||||ANOVA|||Rumination change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1125
92195681|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2965|TWO_SIDED||||||ANOVA|||Rumination change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2965
92195682|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7774|TWO_SIDED||||||ANOVA|||Rumination change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7774
92195683|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.399|TWO_SIDED||||||ANOVA|||Rumination change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3990
92195684|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4465|TWO_SIDED||||||ANOVA|||Magnification change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4465
92195685|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4385|TWO_SIDED||||||ANOVA|||Magnification change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4385
92195686|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2265|TWO_SIDED||||||ANOVA|||Magnification change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2265
92195687|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5985|TWO_SIDED||||||ANOVA|||Magnification change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5985
92195688|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2146|TWO_SIDED||||||ANOVA|||Magnification change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2146
92195689|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3382|TWO_SIDED||||||ANOVA|||Magnification change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3382
92318590|NCT04031846|184542333|OTHER||GMC Ratio|1.85|||||TWO_SIDED|95.0|1.7|2.02|||||V114 / Prevenar 13™|GMC Ratio Serotype 3: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||2.02|1.70|
92195690|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|TWO_SIDED||||||ANOVA|||Helplessness change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0430
92195691|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1128|TWO_SIDED||||||ANOVA|||Helplessness change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1128
92195692|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0632|TWO_SIDED||||||ANOVA|||Helplessness change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0632
92195693|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8667|TWO_SIDED||||||ANOVA|||Helplessness change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8667
92195694|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6365|TWO_SIDED||||||ANOVA|||Helplessness change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6365
92195695|NCT00551135|184290457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9275|TWO_SIDED||||||ANOVA|||Helplessness change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9275
92318591|NCT04031846|184542333|OTHER||GMC Ratio|1.08|||||TWO_SIDED|95.0|0.98|1.19|||||V114 / Prevenar 13™|GMC Ratio Serotype 4: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.19|0.98|
92318592|NCT04031846|184542333|OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.74|0.94|||||V114 / Prevenar 13™|GMC Ratio Serotype 5: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.94|0.74|
92318593|NCT04031846|184542333|OTHER||GMC Ratio|0.45|||||TWO_SIDED|95.0|0.4|0.52|||||V114 / Prevenar 13™|GMC Ratio Serotype 6A: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.52|0.40|
92318594|NCT04031846|184542333|OTHER||GMC Ratio|1.18|||||TWO_SIDED|95.0|1.0|1.41|||||V114 / Prevenar 13™|GMC Ratio Serotype 6B: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.41|1.00|
92318595|NCT04031846|184542333|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.76|0.91|||||V114 / Prevenar 13™|GMC Ratio Serotype 7F: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.91|0.76|
92318596|NCT04031846|184542333|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.77|0.96|||||V114 / Prevenar 13™|GMC Ratio Serotype 9V: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.96|0.77|
92318597|NCT04031846|184542333|OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.66|0.86|||||V114 / Prevenar 13™|GMC Ratio Serotype 14: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.86|0.66|
92318598|NCT04031846|184542333|OTHER||GMC Ratio|0.85|||||TWO_SIDED|95.0|0.77|0.95|||||V114 / Prevenar 13™|GMC Ratio Serotype 18C: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.95|0.77|
92318599|NCT04031846|184542333|OTHER||GMC Ratio|0.78|||||TWO_SIDED|95.0|0.7|0.87|||||V114 / Prevenar 13™|GMC Ratio Serotype 19A: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.87|0.70|
92195696|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2136|TWO_SIDED||||||ANOVA|||PCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.2136
92195697|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0094|TWO_SIDED||||||ANOVA|||PCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.0094
92195698|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2131|TWO_SIDED||||||ANOVA|||PCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.2131
92318600|NCT04031846|184542333|OTHER||GMC Ratio|0.77|||||TWO_SIDED|95.0|0.7|0.85|||||V114 / Prevenar 13™|GMC Ratio Serotype 19F: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.85|0.70|
92195699|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3245|TWO_SIDED||||||ANOVA|||PCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.3245
92318601|NCT04031846|184542333|OTHER||GMC Ratio|1.22|||||TWO_SIDED|95.0|1.07|1.4|||||V114 / Prevenar 13™|GMC Ratio Serotype 23F: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.40|1.07|
92318602|NCT04031846|184542333|OTHER||GMC Ratio|57.69|||||TWO_SIDED|95.0|51.2|65.0|||||V114 / Prevenar 13™|GMC Ratio Serotype 22F: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||65.00|51.20|
92318603|NCT04031846|184542333|OTHER||GMC Ratio|6.24|||||TWO_SIDED|95.0|5.46|7.14|||||V114 / Prevenar 13™|GMC Ratio Serotype 33F: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||7.14|5.46|
92318604|NCT04031846|184542334|OTHER||Percentage Difference|-2.0|||||TWO_SIDED|95.0|-4.4|0.3|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 1|95% CI are based on the Miettinen \& Nurminen method.|0.3|-4.4|
92318605|NCT04031846|184542334|OTHER||Percentage Difference|25.7|||||TWO_SIDED|95.0|21.1|30.3|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 3|95% CI are based on the Miettinen \& Nurminen method.|30.3|21.1|
92318606|NCT04031846|184542334|OTHER||Percentage Difference|-2.9|||||TWO_SIDED|95.0|-5.7|-0.3|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 4|95% CI are based on the Miettinen \& Nurminen method.|-0.3|-5.7|
92318607|NCT04031846|184542334|OTHER||Percentage Difference|-3.9|||||TWO_SIDED|95.0|-8.1|0.3|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 5|95% CI are based on the Miettinen \& Nurminen method.|0.3|-8.1|
92318608|NCT04031846|184542334|OTHER||Percentage Difference|-19.4|||||TWO_SIDED|95.0|-23.9|-15.0|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 6A|95% CI are based on the Miettinen \& Nurminen method.|-15.0|-23.9|
92318609|NCT04031846|184542334|OTHER||Percentage Difference|4.6|||||TWO_SIDED|95.0|-1.5|10.7|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 6B|95% CI are based on the Miettinen \& Nurminen method.|10.7|-1.5|
92318610|NCT04031846|184542334|OTHER||Percentage Difference|-1.1|||||TWO_SIDED|95.0|-2.9|0.5|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 7F|95% CI are based on the Miettinen \& Nurminen method.|0.5|-2.9|
92195700|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.407|TWO_SIDED||||||ANOVA|||PCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.4070
92195701|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.349|TWO_SIDED||||||ANOVA|||PCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.3490
92195702|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1122|TWO_SIDED||||||ANOVA|||MCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.1122
92195703|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.138|TWO_SIDED||||||ANOVA|||MCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.1380
92195704|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2023|TWO_SIDED||||||ANOVA|||MCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.2023
92195705|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2639|TWO_SIDED||||||ANOVA|||MCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.2639
92195706|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2524|TWO_SIDED||||||ANOVA|||MCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.2524
92195707|NCT00551135|184290459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0832|TWO_SIDED||||||ANOVA|||MCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.0832
92195708|NCT00551135|184290460|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2371|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||1 month PS.||||0.2371
92195709|NCT00551135|184290460|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4435|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||1 month PS.||||0.4435
92195710|NCT00551135|184290460|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1692|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||1 month PS.||||0.1692
92195711|NCT00551135|184290460|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8169|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||3 month PS.||||0.8169
92195712|NCT00551135|184290460|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5592|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||3 month PS.||||0.5592
92195713|NCT00551135|184290460|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4453|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||3 month PS.||||0.4453
92195714|NCT00551135|184290460|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4795|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||6 month PS.||||0.4795
92195715|NCT00551135|184290460|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2733|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||6 month PS.||||0.2733
92195716|NCT00551135|184290460|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||6 month PS.||||0.3173
92195717|NCT04294667|184290463|SUPERIORITY|The difference in proportion responding between SOC+DZP 24mg/kg and SOC+PBO was estimated and tested using the Cochran-Mantel-Haenszel (CMH) risk difference estimate controlling for the randomization stratification factors, Pooled Region (North America vs Western Europe/Asia-Pacific vs Latin America/Eastern Europe), Screening disease activity (chronic active vs acute flaring) and Screening SLEDAI score (\<10 vs \>=10).|Difference in Proportions (%)|14.6||||0.011|TWO_SIDED|95.0|3.3|25.8|||Cochran-Mantel-Haenszel|||||25.8|3.3|0.0110
92195718|NCT04294667|184290464|SUPERIORITY|The difference in proportion responding between SOC+DZP 24mg/kg and SOC+PBO was estimated and tested using the CMH risk difference estimate controlling for the randomization stratification factors, Pooled Region (North America vs Western Europe/Asia-Pacific vs Latin America/Eastern Europe), Screening disease activity (chronic active vs acute flaring) and Screening SLEDAI score (\<10 vs \>=10).|Difference in Proportions (%)|7.9||||0.1776|TWO_SIDED|95.0|-3.6|19.4|||Cochran-Mantel-Haenszel|||||19.4|-3.6|0.1776
92195719|NCT04294667|184290465|SUPERIORITY|The difference in proportion responding between SOC+DZP 24mg/kg and SOC+PBO was estimated and tested using the CMH risk difference estimate controlling for the randomization stratification factors, Pooled Region (North America vs Western Europe/Asia-Pacific vs Latin America/Eastern Europe), Screening disease activity (chronic active vs acute flaring) and Screening SLEDAI score (\<10 vs \>=10).|Difference in Proportions (%)|10.8||||0.0518|TWO_SIDED|95.0|-0.1|21.7|||Cochran-Mantel-Haenszel|||||21.7|-0.1|0.0518
92318611|NCT04031846|184542334|OTHER||Percentage Difference|-6.7|||||TWO_SIDED|95.0|-10.1|-3.5|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 9V|95% CI are based on the Miettinen \& Nurminen method.|-3.5|-10.1|
92318612|NCT04031846|184542334|OTHER||Percentage Difference|-0.5|||||TWO_SIDED|95.0|-2.6|1.7|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 14|95% CI are based on the Miettinen \& Nurminen method.|1.7|-2.6|
92318613|NCT04031846|184542334|OTHER||Percentage Difference|-0.7|||||TWO_SIDED|95.0|-3.9|2.6|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 18C|95% CI are based on the Miettinen \& Nurminen method.|2.6|-3.9|
92318614|NCT04031846|184542334|OTHER||Percentage Difference|-1.2|||||TWO_SIDED|95.0|-3.5|1.0|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 19A|95% CI are based on the Miettinen \& Nurminen method.|1.0|-3.5|
92318615|NCT04031846|184542334|OTHER||Percentage Difference|-0.5|||||TWO_SIDED|95.0|-2.0|0.7|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 19F|95% CI are based on the Miettinen \& Nurminen method.|0.7|-2.0|
92318616|NCT04031846|184542334|OTHER||Percentage Difference|6.6|||||TWO_SIDED|95.0|1.3|11.9|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 23F|95% CI are based on the Miettinen \& Nurminen method.|11.9|1.3|
92318617|NCT04031846|184542334|OTHER||Percentage Difference|90.4|||||TWO_SIDED|95.0|87.4|92.7|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 22F|95% CI are based on the Miettinen \& Nurminen method.|92.7|87.4|
92318618|NCT04031846|184542334|OTHER||Percentage Difference|45.9|||||TWO_SIDED|95.0|41.3|50.3|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 33F|95% CI are based on the Miettinen \& Nurminen method.|50.3|41.3|
92318619|NCT04031846|184542337|OTHER|Percentage difference and CI are based on the Miettinen \& Nurminen method.|Percentage Difference|15.8|||||TWO_SIDED|95.0|12.9|19.2|||||V114 minus Prevenar 13™|Percentage Difference: V114 Serotype 22F minus Prevenar 13™ Serotype 3||19.2|12.9|
92318620|NCT04031846|184542337|OTHER|Percentage difference and CI are based on the Miettinen \& Nurminen method.|Percentage Difference|15.3|||||TWO_SIDED|95.0|12.2|18.7|||||V114 minus Prevenar 13™|Percentage Difference: V114 Serotype 33F minus Prevenar 13™ Serotype 3||18.7|12.2|
92318621|NCT01622673|184542343|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for TUMS® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.678|||||TWO_SIDED|90.0|0.531|0.866|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean C12hrs for TUMS® + raltegravir / geometric least squares mean C12hrs for raltegravir alone|||0.866|0.531|
92318622|NCT01622673|184542343|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% CI falls above 0.4 for the geometric least squares mean ratio for MINTOX® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.373|||||TWO_SIDED|90.0|0.293|0.475|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is the geometric least squares mean C12hrs for MINTOX® + raltegravir / geometric least squares mean C12hrs for raltegravir alone|||0.475|0.293|
92318623|NCT01622673|184542344|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® before raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.437|||||TWO_SIDED|90.0|0.344|0.554|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean C12hrs for MINTOX® before raltegravir / geometric least squares mean C12hrs for raltegravir alone|||0.554|0.344|
92318624|NCT01622673|184542344|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® after raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.433|||||TWO_SIDED|90.0|0.341|0.55|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean C12hrs for MINTOX® after raltegravir / geometric least squares mean C12hrs for raltegravir alone|||0.550|0.341|
92318625|NCT01622673|184542345|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for TUMS® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.445|||||TWO_SIDED|90.0|0.35|0.565|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean AUC0-12hrs for TUMS® + raltegravir / geometric least squares mean AUC0-12hrs for raltegravir alone|||0.565|0.350|
92318626|NCT01622673|184542345|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.51|||||TWO_SIDED|90.0|0.402|0.646|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean AUC0-12hrs for MINTOX® + raltegravir / geometric least squares mean AUC0-12hrs for raltegravir alone|||0.646|0.402|
92318627|NCT01622673|184542346|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® before raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.485|||||TWO_SIDED|90.0|0.351|0.669|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean AUC0-12hrs for MINTOX® before raltegravir / geometric least squares mean AUC0-12hrs for raltegravir alone|||0.669|0.351|
92318628|NCT01622673|184542346|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® after raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.696|||||TWO_SIDED|90.0|0.504|0.96|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean AUC0-12hrs for MINTOX® after raltegravir / geometric least squares mean AUC0-12hrs for raltegravir alone|||0.960|0.504|
92318629|NCT01622673|184542347|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for TUMS® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.476|||||TWO_SIDED|90.0|0.362|0.627|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean Cmax for TUMS® + raltegravir / geometric least squares mean Cmax for raltegravir alone|||0.627|0.362|
92318630|NCT01622673|184542347|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% CI falls above 0.4 for the geometric least squares mean ratio for MINTOX® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.555|||||TWO_SIDED|95.0|0.423|0.729|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is the geometric least squares mean Cmax for MINTOX® + raltegravir / geometric least squares mean Cmax for raltegravir alone|||0.729|0.423|
92318631|NCT01622673|184542348|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® before raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.485|||||TWO_SIDED|90.0|0.332|0.709|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean Cmax for MINTOX® before raltegravir / geometric least squares mean Cmax for raltegravir alone|||0.709|0.332|
92318632|NCT01622673|184542348|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® after raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.775|||||TWO_SIDED|90.0|0.53|1.132|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean Cmax for MINTOX® after raltegravir / geometric least squares mean Cmax for raltegravir alone|||1.132|0.530|
92318633|NCT01609010|184542387|SUPERIORITY_OR_OTHER|||||||0.3023|||||||Log Rank|||||||0.3023
92318634|NCT01609010|184542388|SUPERIORITY_OR_OTHER|||||||0.3362|||||||Chi-squared|||Week 10, Cycle 1||||0.3362
92318635|NCT01609010|184542388|SUPERIORITY_OR_OTHER|||||||0.1157|||||||Chi-squared|||Week 16, Cycle 2||||0.1157
92318636|NCT01609010|184542389|SUPERIORITY_OR_OTHER|||||||0.854|||||||Chi-squared|||Week 10, Cycle 1||||0.8540
92318637|NCT01609010|184542389|SUPERIORITY_OR_OTHER|||||||0.0051|||||||Chi-squared|||Week 16, Cycle 2||||0.0051
92195720|NCT04294667|184290466|SUPERIORITY|The difference in proportion responding between SOC+DZP 24mg/kg and SOC+PBO was estimated and tested using the CMH risk difference estimate controlling for the randomization stratification factors, Pooled Region (North America vs Western Europe/Asia-Pacific vs Latin America/Eastern Europe), Screening disease activity (chronic active vs acute flaring) and Screening SLEDAI score (\<10 vs \>=10).|Difference in Proportions (%)|11.5||||0.0257|TWO_SIDED|95.0|1.4|21.6|||Cochran-Mantel-Haenszel|||||21.6|1.4|0.0257
92195721|NCT04294667|184290467|SUPERIORITY|The difference in proportion responding between SOC+DZP 24mg/kg and SOC+PBO was estimated and tested using the Cochran-Mantel-Haenszel (CMH) risk difference estimate controlling for the randomization stratification factors, Pooled Region (North America vs Western Europe/Asia-Pacific vs Latin America/Eastern Europe), Screening disease activity (chronic active vs acute flaring) and Screening SLEDAI score (\<10 vs \>=10).|Difference in Proportions (%)|7.2||||0.1042|TWO_SIDED|95.0|-1.5|16.0|||Cochran-Mantel-Haenszel|||||16.0|-1.5|0.1042
92318638|NCT01609010|184542391|SUPERIORITY_OR_OTHER|||||||0.784|||||||Log Rank|Stratification by previous treatment for lymphoma (yes or no).||CR+CRu+PR||||0.7840
92318639|NCT01609010|184542391|SUPERIORITY_OR_OTHER|||||||0.4419|||||||Log Rank|Stratification by previous treatment for lymphoma (yes or no).||CR+CRu||||0.4419
92195722|NCT04294667|184290468|SUPERIORITY||Difference of Change(DZP+SOC vs PBO+SOC)|-1.8||||0.0001|TWO_SIDED|95.0|-2.7|-0.9|||MMRM|The Least Squares (LS) Mean, the difference (DZP+SOC versus PBO+SOC), and the 95% CIs was computed from the MMRM.||||-0.9|-2.7|0.0001
92195723|NCT04294667|184290473|SUPERIORITY|||||||0.0111|||||||Log Rank|||||||0.0111
92195724|NCT04294667|184290474|SUPERIORITY|||||||0.0228|||||||Log Rank|||||||0.0228
92318640|NCT01609010|184542391|SUPERIORITY_OR_OTHER|||||||0.5942|||||||Log Rank|Stratification by previous treatment for lymphoma (yes or no).||CR only||||0.5942
92318641|NCT01609010|184542393|SUPERIORITY_OR_OTHER|||||||0.8946|||||||Log Rank|Stratified by previous treatment for lymphoma (yes or no).||||||0.8946
92318642|NCT01609010|184542395|SUPERIORITY_OR_OTHER|||||||0.4963|||||||Log Rank|Stratified by previous treatment for lymphoma (yes or no).||||||0.4963
92318643|NCT01134107|184542400|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.36|||||TWO_SIDED|95.0|0.06|0.66|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline HbA1c|This was the primary gated analysis.||0.66|0.06|
92318644|NCT01134107|184542401|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.18|||||TWO_SIDED|95.0|-0.1|0.47|||||Least Squares Mean Difference = Insulin Lispro 6 Day (Day 1-6) minus Insulin Aspart 6 Day (Day 1-6); adjusted for Treatment + Sequence + Period + Baseline HbA1c|||0.47|-0.10|
92318645|NCT01134107|184542401|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.42|||||TWO_SIDED|95.0|0.25|0.58|||||Least Squares Mean Difference = Insulin Lispro 6 Day (Day 6) minus Insulin Lispro 6 Day (Day 2); adjusted for DayGroup + Period + Baseline HbA1c|||0.58|0.25|
92318646|NCT01134107|184542402|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.38|||||TWO_SIDED|95.0|-0.13|0.88|||||Daily Total Insulin: Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose|||0.88|-0.13|
92318647|NCT01134107|184542402|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.02|||||TWO_SIDED|95.0|-0.26|0.31|||||Daily Basal Insulin: Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose|||0.31|-0.26|
92318648|NCT01134107|184542402|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.23|||||TWO_SIDED|95.0|-0.15|0.6|||||Daily Bolus Insulin: Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose|||0.60|-0.15|
92195725|NCT03634839|184290487|SUPERIORITY||Mean Difference (Final Values)|-5.184||||0.053|TWO_SIDED||||||t-test, 2 sided|||||||0.053
92195726|NCT03634839|184290488|SUPERIORITY||Mean Difference (Final Values)|-1.881||||0.187|TWO_SIDED||||||t-test, 2 sided|||Outcome analyses will be intent-to-treat and using mixed-effects models with flavor as a within-subject factor. A significant main effect of flavor with greater liking of sweet plus cooling flavor than sweet minus cooling flavor will be considered supportive of our hypotheses.||||0.187
92195727|NCT03634839|184290489|SUPERIORITY||Mean Difference (Final Values)|-0.286||||0.135|TWO_SIDED||||||t-test, 2 sided|||||||0.135
92195728|NCT03634839|184290490|SUPERIORITY||Mean Difference (Final Values)|1.942||||0.21|TWO_SIDED||||||t-test, 2 sided|||||||0.210
92195729|NCT04198948|184290491|EQUIVALENCE|Sample size calculation was performed using SAS Proc Power procedure for equivalence test in 2x2 crossover design. For an equivalence range of 80-125%, the within-subject coefficient of variation for the AUC values for gliclazide of 7.8% based on previous PK studies, and expected test/reference geometric mean ratios between 87-115%, 14 volunteers (7 individuals per sequence) are required to show the lack of interaction with 85% power.|Geometric least square mean ratio|1.13|||||TWO_SIDED|90.0|0.86|1.48|||||The TOST (two one-sided test) test of equivalence showed that the geometric mean ratio and 90% CI for gliclazide AUC(0-24) between omeprazole and placebo phase was 1.13 (0.86-1.48), with upper confidence limit above the usual 1.25 boundary.|The main evaluated outcome was systemic exposure to gliclazide, expressed as AUC(0-t). The geometric mean was calculated for gliclazide AUC(0-24). The ratio of the geometric means with 90% CIs was assessed by linear mixed models between the two treatment assignments: gliclazide and omeprazole co-administration to that of gliclazide and placebo. The obtained 90% CI was compared with the equivalence 0.8-1.25 range.||1.48|0.86|
92195730|NCT04198948|184290492|SUPERIORITY|||||||0.636|||||||t-test, 2 sided|||||||0.636
92195731|NCT04198948|184290493|SUPERIORITY|||||||0.055|||||||t-test, 2 sided|||||||0.055
92318649|NCT01134107|184542403|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.16|||||TWO_SIDED|95.0|0.08|0.24|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Period + Sequence + Baseline HbA1c|||0.24|0.08|
92318650|NCT01134107|184542404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.39|1.63|||||Odds Ratio of HbA1c ≤6.5% for Insulin Lispro 6 Day versus Insulin Aspart 6 Day.|||1.63|0.39|
92318651|NCT01134107|184542404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36|||||TWO_SIDED|95.0|0.2|0.63|||||Odds Ratio of HbA1c \<7% for Insulin Lispro 6 Day versus Insulin Aspart 6 Day.|||0.63|0.20|
92318652|NCT01134107|184542405|SUPERIORITY_OR_OTHER|||||||0.595||95.0||||P-value for Total Insulin Dose computed using Crossover model: Variable = Treatment + Sequence + Period + Baseline Insulin Total Dose.|Crossover Model|||||||0.595
92318653|NCT01134107|184542405|SUPERIORITY_OR_OTHER|||||||0.506||95.0||||P-value for Basal Insulin Dose computed using Crossover model: Variable = Treatment + Sequence + Period + Baseline Insulin Basal Dose.|Crossover Model|||||||0.506
92195732|NCT02312206|184290516|SUPERIORITY||Hazard Ratio (HR)|0.826||||0.3028|TWO_SIDED|95.0|0.5735|1.1889|||Log Rank|||||1.1889|0.5735|0.3028
92195733|NCT01006616|184290519|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.031||||0.325|TWO_SIDED|95.0|-0.03|0.091|||Constrained Longitudinal Data Analysis|Model with treatment, time, treatment by time interaction, and baseline smoking status (yes/no) and inhaled corticosteroid (ICS) use (yes/no)||||0.091|-0.030|0.325
92195734|NCT01006616|184290519|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.029||||0.37|TWO_SIDED|95.0|-0.091|0.034|||Constrained Longitudinal Data Analysis|Model with treatment, time, treatment by time interaction, and baseline smoking status (yes/no) and ICS use (yes/no)||||0.034|-0.091|0.370
92195735|NCT01006616|184290519|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.067||||0.037|TWO_SIDED|95.0|0.004|0.131|||Constrained Longitudinal Data Analysis|Model with treatment, time, treatment by time interaction, and baseline smoking status (yes/no) and ICS use (yes/no)||||0.131|0.004|0.037
92195736|NCT01006616|184290520|SUPERIORITY_OR_OTHER||Difference in percentages|2.6||||0.096|TWO_SIDED|95.0|-0.6|6.9|||Miettinen and Nurminen||Analysis of Week 26 data|||6.9|-0.6|0.096
92195737|NCT01006616|184290520|SUPERIORITY_OR_OTHER||Difference in percentages|12.2|||<|0.001|TWO_SIDED|95.0|7.4|18.4|||Miettinen and Nurminen||Analysis of Week 26 data|||18.4|7.4|<0.001
92195738|NCT01006616|184290520|SUPERIORITY_OR_OTHER||Difference in percentages|19.7|||<|0.001|TWO_SIDED|95.0|13.8|26.9|||Miettinen and Nurminen||Analysis of Week 26 data|||26.9|13.8|<0.001
92195739|NCT03672175|184290551|SUPERIORITY||Least Square (LS) Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.85||0.6638|TWO_SIDED|95.0|-2.0|1.3||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Mixed effect model for repeated measures (MMRM)||1.3|-2.0|0.6638
92195740|NCT03672175|184290551|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.89||0.1158|TWO_SIDED|95.0|-3.1|0.3||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||||0.3|-3.1|0.1158
92195741|NCT03672175|184290552|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.6905|TWO_SIDED|95.0|-0.4|0.2||MMRM was used for the analysis. Treatment, BL CGI-S score, BL antidepressant use, assessment time point, and time point-by-treatment interaction were included in the model and were treated as fixed effects.|MMRM|||||0.2|-0.4|0.6905
92318654|NCT01134107|184542405|SUPERIORITY_OR_OTHER|||||||0.79||95.0||||P-value for Bolus Insulin Dose computed using Crossover model: Variable = Treatment + Sequence + Period + Baseline Insulin Bolus Dose.|Crossover Model|||||||0.790
92318655|NCT01134107|184542407|SUPERIORITY_OR_OTHER|||||||0.059||95.0|||||negative binomial test|P-value computed using a negative binomial test including factors for treatment, period and sequence.||||||0.059
92318656|NCT01134107|184542408|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for overall pump complications associated with a premature reservoir change computed using Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used.|Gart's Test|||||||1.00
92318657|NCT01134107|184542408|SUPERIORITY_OR_OTHER|||||||0.472||95.0||||P-value for overall pump complications associated with a premature infusion set change computed using Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used.|Gart's Test|||||||0.472
92318658|NCT01134107|184542409|SUPERIORITY_OR_OTHER|||||||0.383||95.0||||P-value for Premature Reservoir Change computed using negative binomial test including factors for treatment, period and sequence.|negative binomial test|||||||0.383
92318659|NCT01134107|184542409|SUPERIORITY_OR_OTHER|||||||0.499||95.0||||P-value for Premature Infusion Set Change computed using negative binomial test including factors for treatment, period and sequence.|negative binomial test|||||||0.499
92318660|NCT01134107|184542410|SUPERIORITY_OR_OTHER|||||||1||95.0||||The p-value is for the Documented Hypoglycemic Episodes category treatment arm comparison. The p-value for the All Reported Hypoglycemic Episodes category could not be generated using Gart's Test.|Gart's Test|Participants represented in both treatment groups, and with non-missing incidence value in each treatment period, were used for p-value calculation.||||||1.00
92318661|NCT01134107|184542411|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Negative Binomial Test|P-value computed using a negative binomial test including factors for treatment, period and sequence.||||||<0.001
92318662|NCT01134107|184542412|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Crossover Model|P-value computed using crossover model. Response = treatment + sequence + period + baseline body weight||||||<0.001
92318663|NCT01134107|184542413|SUPERIORITY_OR_OTHER|||||||0.147||95.0||||P-value for the Systolic Blood Pressure (SBP) computed using crossover model. Response = treatment + sequence + period + baseline systolic blood pressure.|Crossover Model|||||||0.147
92318664|NCT01134107|184542413|SUPERIORITY_OR_OTHER|||||||0.894||95.0||||P-value for Diastolic Blood Pressure (DBP) computed using crossover model. Response = treatment + sequence + period + baseline diastolic blood pressure.|Crossover Model|||||||0.894
92318665|NCT02314260|184542414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.917|STANDARD_ERROR_OF_MEAN|0.0318||0|TWO_SIDED|95.0|0.854|0.979||Under the nonparametric assumption. P-value \<0.05, means statistical significance|t-test, 2 sided||The positive actual state is failed induction and performing Caesarean Section, So as the numbers approaches 1, induction fails. the Y-axis of the curve is sensitivity and the x- axis is (1-Specificity).|Null hypothesis: true area = 0.5 The positive actual state is failed induction, the true positive rate (Sensitivity) is plotted in function of the false positive rate (100-Specificity)||0.979|0.854|0.000
92318666|NCT02314260|184542415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.806|STANDARD_ERROR_OF_MEAN|0.0578||0|TWO_SIDED|95.0|0.693|0.919||Under the nonparametric assumption P value \<0.05 is statistically significant|t-test, 2 sided||The positive actual state is failed induction and performing Caesarean Section, So as the numbers approaches 1, induction fails. the Y-axis of the curve is sensitivity and the x- axis is (1-specificity).|Null hypothesis: true area = 0.5 The positive actual state is failed induction, the true positive rate (Sensitivity) is plotted in function of the false positive rate (100-Specificity)||0.919|0.693|0.000
92318667|NCT02314260|184542416|SUPERIORITY_OR_OTHER||Slope|4.5|STANDARD_ERROR_OF_MEAN|0.0318||0|TWO_SIDED|95.0|0.0|10.0||P\<0.05 is significant|t-test, 2 sided||at a cutoff value of 4.5, the sensitivity for failure to labour induction is 0.83 (83%), with a specificity of 0.87(87%).|The smallest cutoff value is the minimum observed test value minus 1, and the largest cutoff value is the maximum observed test value plus 1. All the other cutoff values are the averages of two consecutive ordered observed test values.||10|0.00|0.000
92318668|NCT02314260|184542417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|STANDARD_ERROR_OF_MEAN|0.0578||0|TWO_SIDED|95.0|0.0|10.0||P\<0.05 is significant|t-test, 2 sided||at a cutoff value of 5.5, the sensitivity for failure to labour induction is 0.83 (83%), with a specificity of 0.73 (73%).|The smallest cutoff value is the minimum observed test value minus 1, and the largest cutoff value is the maximum observed test value plus 1. All the other cutoff values are the averages of two consecutive ordered observed test values.||10|0.00|0.000
92318669|NCT01543178|184542472|SUPERIORITY_OR_OTHER|||||||0.0232|TWO_SIDED|||||The a priori threshold for statistical significance was p \< 0.05.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel method was adjusted for analysis center and time to recurrence during Maintenance Phase 1.||A worst case analysis was performed, in which patients with \< 4 days of IBS symptom data in a given week were considered as non-responders for that week.||||0.0232
92318670|NCT03581123|184542484|OTHER|Omnibus test for equality of means across the 4 treatment groups||||||0.16||||||Threshold for significance: 0.025 (0.05/2)|ANOVA|Adjusted for site, time period (pre-COVID, COVID, post-COVID), risk for chronicity (medium vs. high), and baseline pain intensity||The null hypothesis here is that the means are equal across the 4 treatment groups. A significant p value indicates rejection of the null.||||0.16
92318671|NCT03581123|184542484|OTHER|Estimation|Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.5|0.0|||||SSM - MC|Adjusted for site, time period, risk of chronicity, and baseline pain intensity.||0.0|-0.5|
92318672|NCT03581123|184542484|OTHER|Estimation|Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.3|0.3|||||SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline pain intensity.||0.3|-0.3|
92318673|NCT03581123|184542484|OTHER|Estimation|Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.4|0.1|||||SSM/SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline pain intensity.||0.1|-0.4|
92318674|NCT03581123|184542485|OTHER|Omnibus test for equality of means across the 4 treatment groups.||||||0.001||||||Threshold for significance: 0.025 (0.05/2)|ANOVA|Adjusted for site, time period (pre-COVID, COVID, post-COVID), risk for chronicity (medium vs. high), and baseline disability||The null hypothesis here is that the means are equal across the 4 treatment groups. A significant p value indicates rejection of the null.||||0.001
92318675|NCT03581123|184542485|OTHER|Estimation|Mean Difference (Net)|-1.2|||||TWO_SIDED|95.0|-1.9|-0.5|||||SSM - MC|Adjusted for site, time period, risk of chronicity, and baseline RMDQ.||-0.5|-1.9|
92318676|NCT03581123|184542485|OTHER|Estimation|Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-1.2|0.4|||||SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline RMDQ.||0.4|-1.2|
92318677|NCT03581123|184542485|OTHER|Estimation|Mean Difference (Net)|-1.1|||||TWO_SIDED|95.0|-1.9|-0.3|||||SSM/SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline RMDQ.||-0.3|-1.9|
92318678|NCT03581123|184542486|OTHER|Omnibus test for equality of means across the 4 treatment groups.||||||0.006||||||Threshold for significance: 0.05|ANOVA|Adjusted for site, time period (pre-COVID, COVID, post-COVID), risk for chronicity (medium vs. high), and baseline LBP impact score.||The null hypothesis here is that the means are equal across the 4 treatment groups. A significant p value indicates rejection of the null.||||0.006
92318679|NCT03581123|184542486|OTHER|Estimation|Mean Difference (Net)|-1.7|||||TWO_SIDED|95.0|-2.7|-0.6|||||SSM - MC|Adjusted for site, time period, risk of chronicity, and baseline LBP impact score.||-0.6|-2.7|
92195742|NCT03672175|184290552|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.1082|TWO_SIDED|95.0|-0.5|0.1||MMRM was used for the analysis. Treatment, BL CGI-S score, BL antidepressant use, assessment time point, and time point-by-treatment interaction were included in the model and were treated as fixed effects.|MMRM|||||0.1|-0.5|0.1082
92195743|NCT03672175|184290553|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.65||0.5725|TWO_SIDED|95.0|-1.7|0.9||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 3||0.9|-1.7|0.5725
92318680|NCT03581123|184542486|OTHER|Estimation|Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.5|1.0|||||SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline LBP impact score.||1.0|-1.5|
92318681|NCT03581123|184542486|OTHER|Estimation|Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-2.5|0.0|||||SSM/SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline LBP impact score.||-0.0|-2.5|
92318682|NCT03581123|184542488|OTHER|Estimation (percent difference)|Risk Difference (RD)|-6.0|||||TWO_SIDED|95.0|-11.0|-1.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-1|-11|
92318683|NCT03581123|184542488|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-7.0|5.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||5|-7|
92318684|NCT03581123|184542488|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-13.0|2.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||2|-13|
92318685|NCT03581123|184542489|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-15.0|||||TWO_SIDED|95.0|-23.0|-7.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-7|-23|
92318686|NCT03581123|184542489|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-11.0|||||TWO_SIDED|95.0|-20.0|2.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||2|-20|
92318687|NCT03581123|184542489|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-18.0|||||TWO_SIDED|95.0|-27.0|-9.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-9|-27|
92318688|NCT03581123|184542490|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-16.0|||||TWO_SIDED|95.0|-23.0|-10.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-10|-23|
92318689|NCT03581123|184542490|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-14.0|||||TWO_SIDED|95.0|-22.0|-7.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||-7|-22|
92318690|NCT03581123|184542490|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-17.0|||||TWO_SIDED|95.0|-24.0|-9.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-9|-24|
92195744|NCT03672175|184290553|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.64||0.016|TWO_SIDED|95.0|-2.8|-0.3||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 3||-0.3|-2.8|0.0160
92195745|NCT03672175|184290553|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.75||0.445|TWO_SIDED|95.0|-2.1|0.9||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 8||0.9|-2.1|0.4450
92318691|NCT03581123|184542491|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-13.0|-3.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-3|-13|
92318692|NCT03581123|184542491|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-5.0|||||TWO_SIDED|95.0|-12.0|1.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||1|-12|
92318693|NCT03581123|184542491|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-15.0|-1.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-1|-15|
92318694|NCT03581123|184542498|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-21.0|-4.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-4|-21|
92318695|NCT03581123|184542498|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-22.0|-3.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||-3|-22|
92318696|NCT03581123|184542498|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-22.0|-3.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-3|-22|
92318697|NCT03581123|184542499|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-20.0|||||TWO_SIDED|95.0|-28.0|-12.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-12|-28|
92318698|NCT03581123|184542499|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-4.0|||||TWO_SIDED|95.0|-13.0|6.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||6|-13|
92318699|NCT03581123|184542499|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-16.0|||||TWO_SIDED|95.0|-26.0|-7.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-7|-26|
92318700|NCT03581123|184542500|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-15.0|-1.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-1|-15|
92318701|NCT03581123|184542500|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-7.0|||||TWO_SIDED|95.0|-22.0|-3.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||-3|-22|
92318702|NCT03581123|184542500|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-22.0|-3.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-3|-22|
92318703|NCT03581123|184542501|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-19.0|-5.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-5|-19|
92318704|NCT03581123|184542501|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-16.0|-1.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||-1|-16|
92318705|NCT03581123|184542501|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-16.0|1.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||1|-16|
92318706|NCT04195685|184542521|OTHER||Mean Difference (Final Values)|10.7|||<|0.0001|TWO_SIDED|95.0|7.0|14.4|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||14.4|7.0|<.0001
92195746|NCT03672175|184290553|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.79||0.0081|TWO_SIDED|95.0|-3.6|-0.5||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 8||-0.5|-3.6|0.0081
92195747|NCT03672175|184290553|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.95||0.8219|TWO_SIDED|95.0|-1.6|2.1||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 42||2.1|-1.6|0.8219
92195748|NCT03672175|184290553|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.92||0.8166|TWO_SIDED|95.0|-2.0|1.6||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 42||1.6|-2.0|0.8166
92318707|NCT04195685|184542522|OTHER||Mean Difference (Final Values)|9.5|||<|0.0001|TWO_SIDED|95.0|4.9|14.0|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||14.0|4.9|<.0001
92318708|NCT04195685|184542523|OTHER||Mean Difference (Final Values)|10.3|||<|0.0001|TWO_SIDED|95.0|7.4|13.2|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||13.2|7.4|<.0001
92318709|NCT04195685|184542524|OTHER||Mean Difference (Final Values)|7.4|||<|0.0001|TWO_SIDED|95.0|4.2|10.6|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||10.6|4.2|<.0001
92318710|NCT04195685|184542525|OTHER||Mean Difference (Final Values)|-32.5||||0.0022|TWO_SIDED|95.0|-53.3|-11.7|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||-11.7|-53.3|0.0022
92318711|NCT04195685|184542526|OTHER||Mean Difference (Final Values)|-32.2|||<|0.0001|TWO_SIDED|95.0|-45.0|-19.4|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||-19.4|-45.0|<.0001
92318712|NCT04195685|184542527|OTHER||Mean Difference (Final Values)|-7.3||||0.0002|TWO_SIDED|95.0|-11.1|-3.4|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||-3.4|-11.1|0.0002
92318713|NCT04195685|184542528|OTHER||Mean Difference (Final Values)|-6.2|||<|0.0001|TWO_SIDED|95.0|-9.0|-3.4|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||-3.4|-9.0|<.0001
92318714|NCT04195685|184542529|OTHER||Mean Difference (Final Values)|-4.5||||0.0033|TWO_SIDED|95.0|-7.4|-1.5|||t-test, 2 sided|||||-1.5|-7.4|0.0033
92318715|NCT04195685|184542530|OTHER||Mean Difference (Final Values)|10.0||||0.0005|TWO_SIDED|95.0|4.4|15.6|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||15.6|4.4|0.0005
92318716|NCT04195685|184542531|OTHER||Mean Difference (Final Values)|6.4|||<|0.0001|TWO_SIDED|95.0|3.5|9.2|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||9.2|3.5|<.0001
92318717|NCT04195685|184542532|OTHER||Mean Difference (Final Values)|14.2||||0.0001|TWO_SIDED|95.0|7.1|21.4|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||21.4|7.1|0.0001
92318718|NCT04195685|184542533|OTHER||Mean Difference (Final Values)|68.0|||<|0.0001|TWO_SIDED|95.0|36.9|99.2|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||99.2|36.9|<.0001
92318719|NCT00300235|184542538|SUPERIORITY_OR_OTHER||proportion of subjects|35.2||||||95.0|32.5|37.9||||||This was a survey designed to estimate prevalence, no formal comparisons between age or genotype groups were performed.||37.9|32.5|
92318720|NCT00455403|184542542|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.01||||0.7279|TWO_SIDED|||||"Applies to row Title year 1"|Mixed Models Analysis||"applies to row title year 1"|||||0.7279
92318721|NCT00427648|184542549|SUPERIORITY|||||||0.588|||||||Kruskal-Wallis|||null hypothesis - no difference in average number of voids between the 2 groups, power calculation estimated 40 participants needed per arm to show a 2 void difference between lidocaine and saline placebo.||||0.588
92318722|NCT00427648|184542550|SUPERIORITY|||||||0.617|||||||Kruskal-Wallis|||||||0.617
92318723|NCT00427648|184542551|SUPERIORITY|||||||0.441|||||||Kruskal-Wallis|||||||0.441
92318724|NCT00427648|184542552|SUPERIORITY|||||||0.189|||||||Kruskal-Wallis|||||||0.189
92318725|NCT00427648|184542553|SUPERIORITY|||||||0.342|||||||Kruskal-Wallis|||||||0.342
92318726|NCT00427648|184542554|SUPERIORITY|||||||0.802|||||||Kruskal-Wallis|||||||0.802
92318727|NCT00427648|184542555|SUPERIORITY|||||||0.366|||||||Kruskal-Wallis|||||||0.366
92318728|NCT02259010|184542594|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Ratio|0.98|||||TWO_SIDED|90.0|0.82|1.19|||||Estimates were obtained using a mixed effects model of log (PK parameter) with fixed terms for the itraconazole effect and random terms for participant within period.|||1.19|0.82|
92318729|NCT02259010|184542595|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Ratio|1.35|||||TWO_SIDED|90.0|1.02|1.79|||||Estimates were obtained using a mixed effects model of log (PK parameter) with fixed terms for the itraconazole effect and random terms for participant within period.|||1.79|1.02|
92318730|NCT02259010|184542596|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Ratio|1.39|||||TWO_SIDED|90.0|0.99|1.95|||||Estimates were obtained using a mixed effects model of log (PK parameter) with fixed terms for the itraconazole effect and random terms for participant within period.|||1.95|0.99|
92318731|NCT02640664|184542633|SUPERIORITY||Mean Difference (Net)|4.7|STANDARD_ERROR_OF_MEAN|2.93|||TWO_SIDED|95.0|-1.1|10.5||primary endpoint in the extension study does not have p-values. It's a descriptive analysis.|ANOVA|||||10.5|-1.1|
92318732|NCT02640664|184542633|SUPERIORITY||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|2.96|||TWO_SIDED|95.0|-3.4|8.3||primary endpoint in the extension study does not have p-values. It's a descriptive analysis.|ANOVA|||||8.3|-3.4|
92318733|NCT02640664|184542633|SUPERIORITY||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|2.79|||TWO_SIDED|95.0|-3.3|7.8||primary endpoint in the extension study does not have p-values. It's a descriptive analysis.|ANOVA|||||7.8|-3.3|
92318734|NCT02640664|184542636|SUPERIORITY||Mean Difference (Net)|8.0|STANDARD_ERROR_OF_MEAN|4.42|||TWO_SIDED|95.0|-0.8|16.7||P value not applicable because it's a descriptive analysis.|ANOVA|||||16.7|-0.8|
92318735|NCT02640664|184542636|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|4.49|||TWO_SIDED|95.0|-7.3|10.5||P value not applicable because it's a descriptive analysis.|ANOVA|||||10.5|-7.3|
92318736|NCT02640664|184542636|SUPERIORITY||Mean Difference (Net)|6.4|STANDARD_ERROR_OF_MEAN|4.24|||TWO_SIDED|95.0|-2.0|14.8|||ANOVA|||||14.8|-2.0|
92318737|NCT05514873|184542660|NON_INFERIORITY|Non-inferiority of Week 12 MG-ADL over Baseline was shown if the upper limit of the 2-sided 95% confidence interval (CI) is less than 2.|||||<|0.001|||||||Mixed Model for Repeated Measures (MMRM)|||||||<0.001
92318738|NCT01267019|184542664|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||This is a statistical analysis to determine the training effect of social cognitive skills training (in vivo and social cog versus control).||||< .05
92318739|NCT01267019|184542665|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
92318740|NCT01267019|184542666|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
92318741|NCT02729025|184542667|SUPERIORITY||LS Mean Treatment Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.24||0.18|TWO_SIDED|95.0|-7.4|1.39|||Multivariate regression model||Treatment difference used placebo as the reference|A multivariate regression was modelled on the primary endpoint as well as three other response variables (percent change in Lp\[a\] at Weeks 8 and 16, baseline MDS TBR, and baseline Lp\[a\]). The primary endpoint was regressed on the treatment group and statin stratification factor; baseline MDS TBR and Lp(a) were regressed on the statin stratification factor, and percent changes in Lp(a) were regressed on the treatment group, statin stratification factor, visit, and treatment group by visit.||1.39|-7.40|0.18
92318742|NCT02729025|184542668|SUPERIORITY||LS Mean Treatment Difference|-13.89|STANDARD_ERROR_OF_MEAN|2.73|<|0.0001|TWO_SIDED|95.0|-19.29|-8.49|||Repeated measures linear effects model|The model included treatment group, statin stratification, scheduled visit, and the interaction of treatment with scheduled visit.|Treatment difference used placebo as the reference|||-8.49|-19.29|<0.0001
92318743|NCT02729025|184542669|SUPERIORITY||LS Mean Treatment Difference|-60.66|STANDARD_ERROR_OF_MEAN|2.6|<|0.0001|TWO_SIDED|95.0|-65.81|-55.51|||Repeated measures linear effects model|The model included treatment group, statin stratification, scheduled visit, and the interaction of treatment with scheduled visit.|Treatment difference used placebo as the reference|||-55.51|-65.81|<0.0001
92318744|NCT02729025|184542670|SUPERIORITY||LS Mean Treatment Difference|-51.29|STANDARD_ERROR_OF_MEAN|2.15|<|0.0001|TWO_SIDED|95.0|-55.85|-47.33|||Repeated measures linear effects model|The model included treatment group, statin stratification, scheduled visit, and the interaction of treatment with scheduled visit.|Treatment difference used placebo as the reference|||-47.33|-55.85|<0.0001
92318745|NCT03782792|184542784|OTHER||Risk Difference (RD)|0.487||||0.0004|TWO_SIDED|95.0|0.215|0.672||One-sided P Value.|Suissa-Shuster Z-pooled test||Risk difference=Response rate of spesolimab - response rate of placebo.|The Suissa-Shuster Z-pooled test was implemented to test the treatment effect on the primary endpoint on the RS (estimand EN) at a 1-sided, alpha level of 0.025. Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.672|0.215|0.0004
92318746|NCT03782792|184542785|OTHER||Risk Difference (RD)|0.317||||0.0118|TWO_SIDED|95.0|0.022|0.527||One-sided P Value.|Suissa-Shuster Z-pooled test||Risk difference=Response rate of spesolimab - response rate of placebo.|The Suissa-Shuster Z-pooled test was implemented to test the treatment effect on the RS (estimand EN) at a 1-sided, alpha level of 0.025. Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.527|0.022|0.0118
92318747|NCT03782792|184542786|OTHER||Risk Difference (RD)|0.346||||0.0081|TWO_SIDED|95.0|0.058|0.554||One-sided P Value.|Suissa-Shuster Z-pooled test||Risk difference=Response rate of spesolimab - response rate of placebo.|The Suissa-Shuster Z-pooled test was implemented to test the treatment effect on the RS (estimand EN) at a 1-sided, alpha level of 0.025. Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.554|0.058|0.0081
92318748|NCT03782792|184542787|OTHER|||||||0.0012||||||One-sided P Value.|Wilcoxon (Mann-Whitney)|||The effect of spesolimab was evaluated by a Wilcoxon rank test using the RS. Any assessments after death, the use of escape medication (before or after Day 8), open label spesolimab on Day 8, or rescue medication with spesolimab after Day 8 were assigned worst ranks for the testing. Missing data at Week 4 were imputed and handled via assessment of ranks.|The difference between treatments, based on the RS, using a modified Hodges-Lehmann (HL) estimate of the median difference and 95% Confidence Intervals could not be calculated due to lack of valid data.|||0.0012
92318749|NCT03782792|184542788|OTHER|||||||0.0044||||||One-sided P Value.|Wilcoxon (Mann-Whitney)|||The effect of spesolimab was evaluated by a Wilcoxon rank test using the RS. Any assessments after death, the use of escape medication (before or after Day 8), open label spesolimab on Day 8, or rescue medication with spesolimab after Day 8 were assigned worst ranks for the testing. Missing data at Week 4 were imputed and handled via assessment of ranks.|The difference between treatments, based on the RS, using a modified Hodges-Lehmann (HL) estimate of the median difference and 95% Confidence Intervals could not be calculated due to lack of valid data.|||0.0044
92318750|NCT03782792|184542789|OTHER|||||||0.0012||||||One-sided P Value.|Wilcoxon (Mann-Whitney)|||The effect of spesolimab was evaluated by a Wilcoxon rank test using the RS. Any assessments after death, the use of escape medication (before or after Day 8), open label spesolimab on Day 8, or rescue medication with spesolimab after Day 8 were assigned worst ranks for the testing. Missing data at Week 4 were imputed and handled via assessment of ranks.|The difference between treatments, based on the RS, using a modified Hodges-Lehmann (HL) estimate of the median difference and 95% Confidence Intervals could not be calculated due to lack of valid data.|||0.0012
92318751|NCT03782792|184542790|OTHER||Risk Difference (RD)|0.375|||||TWO_SIDED|95.0|0.058|0.581|||||Risk difference=Response rate of spesolimab - response rate of placebo.|Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.581|0.058|
92318752|NCT03782792|184542791|OTHER||Risk Difference (RD)|0.403|||||TWO_SIDED|95.0|0.096|0.607|||||Risk difference=Response rate of spesolimab - response rate of placebo.|Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.607|0.096|
92318753|NCT03782792|184542792|OTHER||Risk Difference (RD)|0.432|||||TWO_SIDED|95.0|0.096|0.636|||||Risk difference=Response rate of spesolimab - response rate of placebo.|Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.636|0.096|
92318754|NCT03782792|184542794|OTHER||Risk Difference (RD)|0.151|||||TWO_SIDED|95.0|-0.138|0.401|||||Risk difference=Response rate of spesolimab - response rate of placebo.|Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.401|-0.138|
92318755|NCT03782792|184542795|OTHER||Median Difference (Final Values)|-16.88|||||TWO_SIDED|95.0|-67.32|12.76|||||Median difference was calculated by modified Hodges-Lehmann method.|Any assessments after death, the use of escape medication (before or after Day 8), open label spesolimab on Day 8, or rescue medication with spesolimab after Day 8 and assigned with the worst possible outcomes in rank analysis. Missing data at Week 4 were imputed and handled via assessment of ranks.||12.76|-67.32|
92318756|NCT04506463|184542834|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||||||0.850
92318757|NCT04506463|184542834|SUPERIORITY|||||||0.085|||||||Mixed Models Analysis|||||||0.085
92195749|NCT03672175|184290553|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.11||0.9|TWO_SIDED|95.0|-2.3|2.0||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 182||2.0|-2.3|0.9000
92195750|NCT03672175|184290553|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.03||0.5004|TWO_SIDED|95.0|-2.7|1.3||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 182||1.3|-2.7|0.5004
92195751|NCT03672175|184290554|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8903|TWO_SIDED|95.0|0.65|1.63||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15: Generalized estimating equation (GEE)||1.63|0.65|0.8903
92195752|NCT03672175|184290554|SUPERIORITY||Odds Ratio (OR)|1.43||||0.1207|TWO_SIDED|95.0|0.91|2.25||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15||2.25|0.91|0.1207
92195753|NCT03672175|184290554|SUPERIORITY||Odds Ratio (OR)|1.07||||0.7897|TWO_SIDED|95.0|0.67|1.7||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 42||1.70|0.67|0.7897
92195754|NCT03672175|184290554|SUPERIORITY||Odds Ratio (OR)|1.1||||0.6837|TWO_SIDED|95.0|0.69|1.76||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 42||1.76|0.69|0.6837
92195755|NCT03672175|184290554|SUPERIORITY||Odds Ratio (OR)|0.88||||0.6602|TWO_SIDED|95.0|0.51|1.53||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 182||1.53|0.51|0.6602
92318758|NCT04506463|184542834|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||||||0.850
92318759|NCT04506463|184542835|SUPERIORITY|||||||0.062|||||||Mixed Models Analysis|||||||0.062
92318760|NCT04506463|184542835|SUPERIORITY|||||||0.007|||||||Mixed Models Analysis|||||||0.007
92318761|NCT04506463|184542835|SUPERIORITY|||||||0.936|||||||Mixed Models Analysis|||||||0.936
92318762|NCT04506463|184542836|SUPERIORITY|||||||0.042|||||||Mixed Models Analysis|||||||0.042
92318763|NCT04506463|184542836|SUPERIORITY|||||||0.037|||||||Mixed Models Analysis|||||||0.037
92318764|NCT04506463|184542836|SUPERIORITY|||||||0.648|||||||Mixed Models Analysis|||||||0.648
92318765|NCT04229095|184542841|SUPERIORITY||Slope|-4.58|STANDARD_ERROR_OF_MEAN|1.82||0.007|ONE_SIDED|95.0||-1.01|||Mixed Models Analysis||The effect of the drug on lowering VAS was limited to individuals with impaired sleep at baseline (PSQI \> or = to 5).|Mixed effect model with directional hypothesis that drug reduces strength of craving (VAS). Principle predictors were drug condition, and baseline sleep disturbance (Pittsburgh Sleep Quality Index {PSQI} total score less than 5 or 5 and greater). Arms were combined for this analysis.||-1.01||.007
92318766|NCT04229095|184542843|SUPERIORITY||Mean Difference (Net)|-1.52|STANDARD_ERROR_OF_MEAN|0.54||0.0025|ONE_SIDED|95.0||-0.46|||Mixed Models Analysis|||Mixed effect model with directional hypothesis that drug reduces number of drinks per day. Principle predictors were drug condition and sex. Arms were combined for this analysis.||-0.46||.0025
92318767|NCT01780038|184542845|OTHER||||||||||||||||||Frequencies and percentages were used to determine this secondary outcome.|||
92318768|NCT01085630|184542848|SUPERIORITY|||||||0.2423|||||||Fisher Exact|||||||0.2423
92318769|NCT01237041|184542850|SUPERIORITY|Univariate ANOVA||||||0.016||||||A priori threshold p\<0.05|ANOVA|Comparison of 3 dose-finding groups. Post-hoc comparisons between groups also done.||ANOVA to compare AUC of GH among groups||||.016
92318770|NCT01237041|184542851|SUPERIORITY|ANOVA of the 3 dose-finding groups. Data transformed using log(10) for analysis||||||0.043||||||A priori threshold for significance p\<0.05|ANOVA|||Analysis of FFA Area Under Curve in dose-finding studies. Data were log-transformed before analysis.||||.043
92318771|NCT01237041|184542852|SUPERIORITY|||||||0.543|||||||ANOVA|||ANOVA, 3 dose-finding groups||||0.543
92318772|NCT01237041|184542853|SUPERIORITY|||||||0.113|||||||ANOVA|||ANOVA, 2 groups, essentially an unpaired t-test.||||.113
92318773|NCT00651261|184542870|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78||||0.009|TWO_SIDED|95.0|0.63|0.96|||1-sided stratified log-rank|||||0.96|0.63|0.009
92318774|NCT00651261|184542871|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78||||0.0024|TWO_SIDED|95.0|0.66|0.93|||1-sided stratified log rank|||||0.93|0.66|0.0024
92318775|NCT00651261|184542873|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|||||||Fisher Exact|||||||0.15
92195756|NCT03672175|184290554|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9268|TWO_SIDED|95.0|0.56|1.69||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 182||1.69|0.56|0.9268
92195757|NCT03672175|184290555|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8245|TWO_SIDED|95.0|0.62|1.83||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15||1.83|0.62|0.8245
92195758|NCT03672175|184290555|SUPERIORITY||Odds Ratio (OR)|1.59||||0.0756|TWO_SIDED|95.0|0.95|2.67||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15||2.67|0.95|0.0756
92195759|NCT03672175|184290555|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5309|TWO_SIDED|95.0|0.7|2.01||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 42||2.01|0.70|0.5309
92195760|NCT03672175|184290555|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9085|TWO_SIDED|95.0|0.56|1.66||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 42||1.66|0.56|0.9085
92318776|NCT00651261|184542874|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0049|||||||1-sided stratified log rank|||||||0.0049
92195761|NCT03672175|184290555|SUPERIORITY||Odds Ratio (OR)|1.34||||0.3476|TWO_SIDED|95.0|0.73|2.44||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 182||2.44|0.73|0.3476
92318777|NCT02027545|184542876|SUPERIORITY|||||||0.491|||||||Regression, Logistic|||||||0.491
92318778|NCT02027545|184542877|SUPERIORITY|||||||0.049|||||||Regression, Logistic|||||||0.049
92318779|NCT03351608|184542885|SUPERIORITY||GM Ratio (SUG 2 mg / NEO + [GLY or ATR])|0.22|||<|0.0001|TWO_SIDED|95.0|0.16|0.32|||ANOVA|||||0.32|0.16|< 0.0001
92318780|NCT02877004|184542888|SUPERIORITY|||||||0.723|||||||ANCOVA|Data were analyzed using analysis of covariance with the baseline value included as the covariate.||||||0.723
92318781|NCT02877004|184542889|SUPERIORITY|||||||0.368|||||||ANCOVA|Data were analyzed using analysis of covariance with the baseline value included as the covariate||||||.368
92318782|NCT02727478|184542890|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||< 0.001
92318783|NCT02727478|184542891|SUPERIORITY||||||=|0.001|||||||ANOVA|||||||=0.001
92318784|NCT02727478|184542892|OTHER|||||||0.254|||||||Wilcoxon (Mann-Whitney)|||||||0.254
92195762|NCT03672175|184290555|SUPERIORITY||Odds Ratio (OR)|1.45||||0.206|TWO_SIDED|95.0|0.82|2.57||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 182||2.57|0.82|0.2060
92318785|NCT02727478|184542893|SUPERIORITY||||||=|0.065|||||||Wilcoxon (Mann-Whitney)|||||||=0.065
92318786|NCT02727478|184542894|SUPERIORITY||||||=|0.301|||||||ANOVA|||||||=0.301
92318787|NCT02727478|184542895|SUPERIORITY||||||=|0.792|||||||ANOVA|||||||=0.792
92318788|NCT02727478|184542896|OTHER|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
92318789|NCT00216125|184542927|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.0||||0.883|TWO_SIDED|95.0|||||Log Rank|||||||0.883
92318790|NCT00502242|184542932|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.228||||0.0002|TWO_SIDED|95.0|0.099|0.528||2-sided p-value; alpha equals (=) 0.05|Log Rank|Stratified log-rank test with region and race strata|Stratified Cox proportional hazard model with region and race strata|||0.528|0.099|0.0002
92318791|NCT00502242|184542933|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.425||||0.0031|TWO_SIDED|95.0|0.237|0.763||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Log Rank|Stratified log-rank test with region and race strata|Stratified Cox proportional hazard model with region and race strata|||0.763|0.237|0.0031
92318792|NCT00502242|184542934|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 24 weeks post-conversion||||0.002
92318793|NCT00502242|184542934|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 52 weeks post-conversion||||0.074
92318794|NCT00502242|184542935|SUPERIORITY_OR_OTHER|||||||0.093|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 24 weeks post-conversion||||0.093
92318795|NCT00502242|184542935|SUPERIORITY_OR_OTHER|||||||0.219|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 52 weeks post-conversion||||0.219
92318796|NCT00502242|184542936|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 24 weeks post-conversion||||0.002
92318797|NCT00502242|184542936|SUPERIORITY_OR_OTHER|||||||0.121|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 52 weeks post-conversion||||0.121
92318798|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.16|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 3, Ramipril||||
92318799|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.36|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 3, Placebo||||
92318800|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Treatment Ratio|0.85||||0.0098|TWO_SIDED|95.0|0.76|0.96||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from baseline at Week 3, Ramipril versus (vs.) Placebo||0.96|0.76|0.0098
92318801|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.18|||||TWO_SIDED||||||||Adjusted for baseline|Change from baseline at Week 4, Ramipril||||
92318802|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.52|||||TWO_SIDED||||||||Adjusted for baseline|Change from baseline at Week 4, Placebo||||
92318803|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Treatment Ratio|0.78||||0.0003|TWO_SIDED|95.0|0.68|0.89||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from baseline at Week 4, Ramipril vs. Placebo||0.89|0.68|0.0003
92318804|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.27|||||TWO_SIDED||||||||Adjusted for baseline|Change from baseline at Week 8, Ramipirl||||
92318805|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.61|||||TWO_SIDED||||||||Adjusted for baseline|Change from baseline at Week 8, Placebo||||
92318806|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Treatment Ratio|0.79||||0.0016|TWO_SIDED|95.0|0.68|0.91||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 8, Ramipril vs. Placebo||0.91|0.68|0.0016
92318807|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.34|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 12, Ramipril||||
92318808|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.63|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 12, Placebo||||
92318809|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Treatment Ratio|0.82||||0.0165|TWO_SIDED|95.0|0.7|0.96||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 12, Ramipril vs. Placebo||0.96|0.70|0.0165
92318810|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.48|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 24, Ramipril||||
92318811|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.78|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 24, Placebo||||
92195763|NCT03672175|184290556|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8303|TWO_SIDED|95.0|0.67|1.65||GEE for binary response model, with factors for treatment, CGI-S BL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||||1.65|0.67|0.8303
92318812|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Treatment Ratio|0.83||||0.0264|TWO_SIDED|95.0|0.7|0.98||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 24, Ramipril vs. Placebo||0.98|0.70|0.0264
92318813|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.43|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 30, Ramipril||||
92318814|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.82|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 30, Placebo||||
92318815|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Treatment Ratio|0.79||||0.0062|TWO_SIDED|95.0|0.66|0.93||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 30, Ramipril vs. Placebo||0.93|0.66|0.0062
92318816|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.4|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 36, Ramipril||||
92318817|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.67|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 36, Placebo||||
92318818|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Treatment Ratio|0.84||||0.0341|TWO_SIDED|95.0|0.72|0.99||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 36, Ramipril vs. Placebo||0.99|0.72|0.0341
92318819|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.56|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 52, Ramipril||||
92318820|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.86|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 52, Placebo||||
92318821|NCT00502242|184542937|SUPERIORITY_OR_OTHER||Treatment Ratio|0.84||||0.06|TWO_SIDED|95.0|0.7|1.01||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 52, Ramipril vs. Placebo||1.01|0.70|0.0600
92318822|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.46|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 3, Ramipril||||
92318823|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.05|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 3, Placebo||||
92195764|NCT03672175|184290556|SUPERIORITY||Odds Ratio (OR)|1.43||||0.1199|TWO_SIDED|95.0|0.91|2.24||GEE for binary response model, with factors for treatment, CGI-S BL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||||2.24|0.91|0.1199
92195765|NCT03672175|184290557|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.71||0.5021|TWO_SIDED|95.0|-1.9|0.9||MMRM with treatment, BL HAM-A total score, anti-depressant use at BL (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||||0.9|-1.9|0.5021
92195766|NCT03672175|184290557|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.7||0.2868|TWO_SIDED|95.0|-2.1|0.6||MMRM with treatment, BL HAM-A total score, anti-depressant use at BL (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||||0.6|-2.1|0.2868
92195767|NCT03672175|184290558|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.35||0.5987|TWO_SIDED|95.0|-3.4|1.9||MMRM with treatment, BL MADRS total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||||1.9|-3.4|0.5987
92195768|NCT03672175|184290558|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.36||0.1443|TWO_SIDED|95.0|-4.7|0.7||MMRM with treatment, BL MADRS total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||||0.7|-4.7|0.1443
92195769|NCT03672175|184290559|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.87||0.8499|TWO_SIDED|95.0|-3.3|4.0||MMRM with treatment, BL HAM-D core subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||4.0|-3.3|0.8499
92195770|NCT03672175|184290559|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.88||0.6265|TWO_SIDED|95.0|-4.6|2.8||MMRM with treatment, BL HAM-D core subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||2.8|-4.6|0.6265
92195771|NCT03672175|184290559|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.97||0.7418|TWO_SIDED|95.0|-3.2|4.5||MMRM with treatment, BL HAM-D core subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||4.5|-3.2|0.7418
92195772|NCT03672175|184290559|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.94||0.7837|TWO_SIDED|95.0|-4.3|3.3||MMRM with treatment, BL HAM-D core subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||3.3|-4.3|0.7837
92195773|NCT03672175|184290560|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.74||0.6848|TWO_SIDED|95.0|-4.1|2.7||MMRM with treatment, BL HAM-D anxiety subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||2.7|-4.1|0.6848
92195774|NCT03672175|184290560|SUPERIORITY||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|1.72||0.11|TWO_SIDED|95.0|-6.1|0.6||MMRM with treatment, BL HAM-D anxiety subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||0.6|-6.1|0.1100
92195775|NCT03672175|184290560|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.86||0.509|TWO_SIDED|95.0|-2.4|4.9||MMRM with treatment, BL HAM-D anxiety subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||4.9|-2.4|0.5090
92195776|NCT03672175|184290560|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.77||0.8948|TWO_SIDED|95.0|-3.2|3.7||MMRM with treatment, BL HAM-D anxiety subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||3.7|-3.2|0.8948
92195777|NCT03672175|184290561|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|2.25||0.9591|TWO_SIDED|95.0|-4.5|4.3||MMRM with treatment, BL HAM-D Bech-6 subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||4.3|-4.5|0.9591
92318824|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Treatment Ratio|0.71||||0.0034|TWO_SIDED|95.0|0.57|0.89||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 3, Ramipril vs. Placebo||0.89|0.57|0.0034
92318825|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.43|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 4, Ramipril||||
92195778|NCT03672175|184290561|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|2.28||0.2713|TWO_SIDED|95.0|-7.0|2.0||MMRM with treatment, BL HAM-D Bech-6 subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||2.0|-7.0|0.2713
92195779|NCT03672175|184290561|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|2.43||0.8048|TWO_SIDED|95.0|-4.2|5.4||MMRM with treatment, BL HAM-D Bech-6 subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||5.4|-4.2|0.8048
92195780|NCT03672175|184290561|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.35||0.7665|TWO_SIDED|95.0|-5.3|3.9||MMRM with treatment, BL HAM-D Bech-6 subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||3.9|-5.3|0.7665
92195781|NCT03672175|184290562|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.91||0.8575|TWO_SIDED|95.0|-3.4|4.1||MMRM with treatment, BL HAM-D Maier subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||4.1|-3.4|0.8575
92318826|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.37|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 4, Placebo||||
92195782|NCT03672175|184290562|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.94||0.1978|TWO_SIDED|95.0|-6.3|1.3||MMRM with treatment, BL HAM-D Maier subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||1.3|-6.3|0.1978
92195783|NCT03672175|184290562|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|2.08||0.9298|TWO_SIDED|95.0|-3.9|4.3||MMRM with treatment, BL HAM-D Maier subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||4.3|-3.9|0.9298
92195784|NCT03672175|184290562|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.03||0.5487|TWO_SIDED|95.0|-5.2|2.8||MMRM with treatment, BL HAM-D Maier subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||2.8|-5.2|0.5487
92195785|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.627|TWO_SIDED|95.0|-0.2|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Depressed Mood||0.3|-0.2|0.6270
92195786|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.5463|TWO_SIDED|95.0|-0.4|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Depressed Mood||0.2|-0.4|0.5463
92195787|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.15||0.8716|TWO_SIDED|95.0|-0.3|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Depressed Mood||0.3|-0.3|0.8716
92195788|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.4383|TWO_SIDED|95.0|-0.4|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Depressed Mood||0.2|-0.4|0.4383
92195789|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4794|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Feelings of Guilt||0.3|-0.1|0.4794
92195790|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.9717|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Feelings of Guilt||0.2|-0.2|0.9717
92195791|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.11||0.3701|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Feelings of Guilt||0.3|-0.1|0.3701
92195792|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.11||0.3972|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Feelings of Guilt||0.3|-0.1|0.3972
92318827|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Treatment Ratio|0.6|||<|0.0001|TWO_SIDED|95.0|0.47|0.76||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 4, Ramipril vs. Placebo||0.76|0.47|<0.0001
92195793|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.5761|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Suicide||0.1|-0.1|0.5761
92195794|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.4379|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Suicide||0.1|-0.1|0.4379
92195795|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.6087|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Suicide||0.1|-0.1|0.6087
92195796|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.9791|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Suicide||0.1|-0.1|0.9791
92195797|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2093|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Early - Early Night||0.1|-0.3|0.2093
92195798|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5189|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Early - Early Night||0.1|-0.3|0.5189
92195799|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.6617|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Early - Early Night||0.2|-0.2|0.6617
92318828|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.67|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 8, Ramipril||||
92318829|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.74|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 8, Placebo||||
92195800|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2632|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Early - Early Night||0.3|-0.1|0.2632
92195801|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.274|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Middle - Middle Night||0.1|-0.3|0.2740
92195802|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.1185|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Middle - Middle Night||0.0|-0.3|0.1185
92195803|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.945|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Middle - Middle Night||0.2|-0.2|0.9450
92195804|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.6343|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Middle - Middle Night||0.1|-0.2|0.6343
92195805|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.3169|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Early Hours - Morning||0.1|-0.3|0.3169
92195806|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.0178|TWO_SIDED|95.0|-0.4|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Early Hours - Morning||0.0|-0.4|0.0178
92195807|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8504|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Early Hours - Morning||0.2|-0.2|0.8504
92195808|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5647|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Early Hours - Morning||0.1|-0.2|0.5647
92195809|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.5914|TWO_SIDED|95.0|-0.3|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Work and Activities||0.2|-0.3|0.5914
92195810|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.4603|TWO_SIDED|95.0|-0.4|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Work and Activities||0.2|-0.4|0.4603
92195811|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.5637|TWO_SIDED|95.0|-0.4|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Work and Activities||0.2|-0.4|0.5637
92195812|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.4638|TWO_SIDED|95.0|-0.4|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Work and Activities||0.2|-0.4|0.4638
92195813|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.1846|TWO_SIDED|95.0|0.0|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Retardation||0.2|0.0|0.1846
92195814|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.4837|TWO_SIDED|95.0|-0.1|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Retardation||0.2|-0.1|0.4837
92318830|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Treatment Ratio|0.61||||0.0002|TWO_SIDED|95.0|0.47|0.79||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 8, Ramipril vs. Placebo||0.79|0.47|0.0002
92195815|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.1178|TWO_SIDED|95.0|0.0|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Retardation||0.2|0.0|0.1178
92195816|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.7888|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Retardation||0.1|-0.1|0.7888
92195817|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.9496|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Agitation||0.1|-0.1|0.9496
92318831|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.91|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 12, Ramipril||||
92195818|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.0497|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Agitation||0.0|-0.3|0.0497
92318832|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.92|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 12, Placebo||||
92318833|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Treatment Ratio|0.65||||0.0032|TWO_SIDED|95.0|0.49|0.87||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 12, Ramipril vs. Placebo||0.87|0.49|0.0032
92318834|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.33|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 24, Ramipril||||
92318835|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|3.39|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 24, Placebo||||
92318836|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Treatment Ratio|0.69||||0.013|TWO_SIDED|95.0|0.51|0.92||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 24, Ramipril vs. Placebo||0.92|0.51|0.0130
92318837|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.5|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 30, Ramipril||||
92318838|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|3.39|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 30, Placebo||||
92318839|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Treatment Ratio|0.74||||0.0577|TWO_SIDED|95.0|0.54|1.01||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 30, Ramipril vs. Placebo||1.01|0.54|0.0577
92318840|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.52|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 36, Ramipril||||
92318841|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|3.27|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 36, Placebo||||
92195819|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.4189|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Agitation||0.1|-0.2|0.4189
92195820|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.1342|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Agitation||0.0|-0.3|0.1342
92195821|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.9202|TWO_SIDED|95.0|-0.3|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Anxiety Psychic||0.2|-0.3|0.9202
92318842|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Treatment Ratio|0.77||||0.1146|TWO_SIDED|95.0|0.56|1.07||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 36, Ramipril vs. Placebo||1.07|0.56|0.1146
92318843|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.92|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 52, Ramipril||||
92195822|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.026|TWO_SIDED|95.0|-0.5|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Anxiety Psychic||0.0|-0.5|0.0260
92195823|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.937|TWO_SIDED|95.0|-0.3|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Anxiety Psychic||0.2|-0.3|0.9370
92318844|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|3.45|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 52, Placebo||||
92318845|NCT00502242|184542938|SUPERIORITY_OR_OTHER||Treatment Ratio|0.85||||0.3496|TWO_SIDED|95.0|0.6|1.2||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 52, Ramipril vs. Placebo||1.20|0.60|0.3496
92318846|NCT00502242|184542939|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 24 weeks post-conversion||||1.0000
92318847|NCT00502242|184542939|SUPERIORITY_OR_OTHER|||||||0.1115|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 52 weeks post-conversion||||0.1115
92318848|NCT00502242|184542940|SUPERIORITY_OR_OTHER||Adjusted LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|1.26||0.4933|TWO_SIDED|95.0|-3.33|1.61||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with MDRD change as dependent variable, treatment and region/race as factors, and baseline as covariate.|Adjusted for baseline|Change from Baseline at Week 12||1.61|-3.33|0.4933
92318849|NCT00502242|184542940|SUPERIORITY_OR_OTHER||Adjusted LS Mean Difference|2.48|STANDARD_ERROR_OF_MEAN|1.45||0.0888|TWO_SIDED|95.0|-0.38|5.33||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with MDRD change as dependent variable, treatment and region/race as factors, and baseline as covariate.|Adjusted for baseline|Change from Baseline at Week 24||5.33|-0.38|0.0888
92318850|NCT00502242|184542940|SUPERIORITY_OR_OTHER||Adjusted LS Mean Difference|2.12|STANDARD_ERROR_OF_MEAN|1.46||0.1475|TWO_SIDED|95.0|-0.75|4.99||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with MDRD change as dependent variable, treatment and region/race as factors, and baseline as covariate|Adjusted for baseline|Change from Baseline at Week 52||4.99|-0.75|0.1475
92318851|NCT00502242|184542941|SUPERIORITY_OR_OTHER||Treatment Ratio|0.84||||0.1167|TWO_SIDED|95.0|0.68|1.04||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|Log (Fraction of albumin to protein in urine) as dependent variable, treatment and region/race as factor, and Log(baseline) as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean.|Week 24||1.04|0.68|0.1167
92318852|NCT00502242|184542941|SUPERIORITY_OR_OTHER||Treatment Ratio|1.04||||0.7519|TWO_SIDED|95.0|0.82|1.31||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|Log (Fraction of albumin to protein in urine) as dependent variable, treatment and region/race as factor, and Log(baseline) as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean.|Week 52||1.31|0.82|0.7519
92318853|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL, Low DBP ≤50 mmHg||||0.470
92318854|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL, High DBP ≥110 mmHg||||0.220
92318855|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL, Low SBP: ≤90 mmHg||||0.470
92318856|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL, High SBP: ≥180 mmHg||||1.000
92318857|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||0.725|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On Therapy, Low DBP ≤50 mmHg||||0.725
92318858|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||0.227|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On Therapy, High DBP ≥110 mmHg||||0.227
92318859|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On Therapy, Low SBP: ≤90 mmHg||||1.000
92318860|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||0.106|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On Therapy, High SBP: ≥180 mmHg||||0.106
92318861|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off Therapy, High DBP ≥110 mmHg||||1.000
92318862|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off Therapy, Low SBP: ≤90 mmHg||||1.000
92318863|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||0.475|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline, Low DBP ≤50 mmHg||||0.475
92318864|NCT00502242|184542942|SUPERIORITY_OR_OTHER|||||||0.475|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline, Low SBP: ≤90 mmHg||||0.475
92318865|NCT00502242|184542944|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline||||1.000
92318866|NCT00502242|184542944|SUPERIORITY_OR_OTHER|||||||0.626|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL||||0.626
92318867|NCT00502242|184542944|SUPERIORITY_OR_OTHER|||||||0.297|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On-Therapy||||0.297
92318868|NCT00502242|184542944|SUPERIORITY_OR_OTHER|||||||0.356|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off-Therapy||||0.356
92318869|NCT00502242|184542945|SUPERIORITY_OR_OTHER|||||||0.064|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline||||0.064
92318870|NCT00502242|184542945|SUPERIORITY_OR_OTHER|||||||0.069|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL||||0.069
92318871|NCT00502242|184542945|SUPERIORITY_OR_OTHER|||||||0.752|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On-Therapy||||0.752
92318872|NCT00502242|184542945|SUPERIORITY_OR_OTHER|||||||0.261|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off-Therapy||||0.261
92318873|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.09|STANDARD_ERROR_OF_MEAN|0.1||0.381|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||TC, Week 4||||0.381
92318874|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.01|STANDARD_ERROR_OF_MEAN|0.13||0.956|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||TC, Week 12||||0.956
92318875|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in adjusted means|0.02|STANDARD_ERROR_OF_MEAN|0.14||0.903|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||TC, Week 24||||0.903
92318876|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.1|STANDARD_ERROR_OF_MEAN|0.15||0.503|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||TC, Week 52||||0.503
92318877|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.451|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||HDL-C, Week 4||||0.451
92318878|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.919|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||HDL-C, Week 12||||0.919
92318879|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.637|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||HDL-C, Week 24||||0.637
92318880|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.229|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||HDL-C, Week 52||||0.229
92195824|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.844|TWO_SIDED|95.0|-0.3|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Anxiety Psychic||0.2|-0.3|0.8440
92195825|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.09||0.448|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Anxiety Somatic||0.3|-0.1|0.4480
92318881|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.766|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||LDL-C, Week 4||||0.766
92318882|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.14|STANDARD_ERROR_OF_MEAN|0.11||0.217|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||LDL-C, Week 12||||0.217
92318883|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.457|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||LDL-C, Week 24||||0.457
92318884|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.26|STANDARD_ERROR_OF_MEAN|0.13||0.041|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||LDL-C, Week 52||||0.041
92318885|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.25|STANDARD_ERROR_OF_MEAN|0.12||0.044|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||Triglycerides, Week 4||||0.044
92318886|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.18|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||Triglycerides, Week 12||||0.180
92318887|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.19|STANDARD_ERROR_OF_MEAN|0.17||0.264|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||Triglycerides, Week 24||||0.264
92318888|NCT00502242|184542946|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.14|STANDARD_ERROR_OF_MEAN|0.17||0.408|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||Triglycerides, Week 52||||0.408
92318889|NCT00502242|184542947|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.487||||0.0732|TWO_SIDED|95.0|0.887|6.978||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Log Rank||Hazard ratio was based on the Cox proportional hazards model.|||6.978|0.887|0.0732
92318890|NCT00502242|184542949|SUPERIORITY_OR_OTHER|||||||0.7165|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel row mean test||Post-SRL, AM BCAR||||0.7165
92318891|NCT00502242|184542949|SUPERIORITY_OR_OTHER|||||||0.4795|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel row mean test||Post-SRL (On-Therapy), AM BCAR||||0.4795
92318892|NCT00502242|184542950|SUPERIORITY_OR_OTHER|||||||0.4773|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Week 52||||0.4773
92318893|NCT00502242|184542951|SUPERIORITY_OR_OTHER|||||||0.124|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline||||0.124
92318894|NCT00502242|184542951|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL||||0.410
92318895|NCT00502242|184542951|SUPERIORITY_OR_OTHER|||||||0.423|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On-Therapy||||0.423
92318896|NCT00502242|184542951|SUPERIORITY_OR_OTHER|||||||0.297|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off-Therapy||||0.297
92318897|NCT00502242|184542952|SUPERIORITY_OR_OTHER|||||||0.726|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||||||0.726
92318898|NCT00502242|184542953|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||||||1.000
92318899|NCT00502242|184542954|SUPERIORITY_OR_OTHER|||||||0.753|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||||||0.753
92318900|NCT00502242|184542955|SUPERIORITY_OR_OTHER|||||||0.224|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline||||0.224
92318901|NCT00502242|184542955|SUPERIORITY_OR_OTHER|||||||0.179|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL||||0.179
92318902|NCT00502242|184542955|SUPERIORITY_OR_OTHER|||||||0.604|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On-Therapy||||0.604
92318903|NCT00502242|184542955|SUPERIORITY_OR_OTHER|||||||0.486|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off-Therapy||||0.486
92318904|NCT00442897|184543046|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.714||||||95.0|1.77|7.78|||||Odds ratio was adjusted by baseline LDL strata.|||7.78|1.77|
92318905|NCT00442897|184543047|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.579||||||95.0|1.32|5.06|||||Odds ratio was adjusted by baseline LDL strata.|||5.06|1.32|
92318906|NCT03448419|184543048|SUPERIORITY||Median difference (HL-estimate)|-4.0||||0.4236|TWO_SIDED|95.0|-16.0|6.0|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodge-Lehman (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of placebo and the effect of empagliflozin.||6.0|-16.0|0.4236
92318907|NCT03448419|184543049|SUPERIORITY||Median difference (HL-estimate)|3.13||||0.0893|TWO_SIDED|95.0|0.0|7.29|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodge-Lehman (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of placebo and the effect of empagliflozin.||7.29|0.00|0.0893
92318908|NCT03448419|184543050|SUPERIORITY||Median Difference (HL-estimate)|0.1||||0.4702|TWO_SIDED|95.0|-0.2|0.4|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodge-Lehman (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of placebo and the effect of empagliflozin.||0.40|-0.20|0.4702
92195826|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.6345|TWO_SIDED|95.0|-0.1|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Anxiety Somatic||0.2|-0.1|0.6345
92195827|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4123|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Anxiety Somatic||0.3|-0.1|0.4123
92195828|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.7523|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Anxiety Somatic||0.2|-0.2|0.7523
92195829|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.6505|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Somatic Symptoms Gastrointestinal||0.1|-0.2|0.6505
92195830|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.3674|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Somatic Symptoms Gastrointestinal||0.1|-0.3|0.3674
92318909|NCT03448419|184543051|SUPERIORITY||Median difference (HL-estimate)|0.0||||0.983|TWO_SIDED|95.0|-9.0|9.0|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodge-Lehman (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of placebo and the effect of empagliflozin.||9.0|-9.0|0.9830
92318910|NCT03448419|184543052|OTHER||Difference of adjusted means|-0.31||||0.0053|TWO_SIDED|95.0|-0.53|-0.09|||Mixed Model repeated Measures (MMRM)|Covariates: visit-by-treatment interaction, baseline-by-visit interaction. Unstructured covariance structure was used to model within-patient errors.||||-0.09|-0.53|0.0053
92318911|NCT03448419|184543053|OTHER|||||||0.6189|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.6189
92318912|NCT03448419|184543054|OTHER|||||||0.6672|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.6672
92318913|NCT03448419|184543055|OTHER|||||||0.5147|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.5147
92318914|NCT03448419|184543056|OTHER|||||||0.863|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.8630
92318915|NCT03448419|184543057|OTHER||Adjusted geometric mean ratio|0.91||||0.141|TWO_SIDED|95.0|0.81|1.03|||Mixed Model repeated Measures (MMRM)|Covariates: NT-proBNP-by-visit interaction and visit-by-treatment interaction. Unstructured covariance structure to model within-patient errors.|Adjusted geometric mean ratio \[Empagliflozin/Placebo\] of relative change to baseline.|The endpoint 'relative change from baseline in NT-proBNP at Week 12' (after log-transformation) was evaluated using an MMRM analysis over time with baseline log-transformed NT-proBNP-by-visit interaction and visit-by-treatment interaction as covariates.Unstructured covariance structure was used to model within-patient errors.||1.03|0.81|0.1410
92318916|NCT04548193|184543061|SUPERIORITY||Mean Difference (Final Values)|6.14||||0.28|TWO_SIDED|95.0|-5.72|17.99|||Wilcoxon (Mann-Whitney)|||||17.99|-5.72|0.28
92318917|NCT04548193|184543062|SUPERIORITY||Mean Difference (Final Values)|0.72||||0.0054|TWO_SIDED|95.0|0.06|1.38|||Wilcoxon (Mann-Whitney)|||||1.38|0.06|.0054
92318918|NCT04548193|184543064|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.0098|TWO_SIDED|95.0|0.24|1.65|||Wilcoxon (Mann-Whitney)|||||1.65|0.24|.0098
92318919|NCT00630825|184543065|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318920|NCT00630825|184543065|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318921|NCT00630825|184543065|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318922|NCT00630825|184543066|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318923|NCT00630825|184543066|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318924|NCT00630825|184543066|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318925|NCT00630825|184543067|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318926|NCT00630825|184543067|SUPERIORITY_OR_OTHER|||||||0.047||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.047
92318927|NCT00630825|184543067|SUPERIORITY_OR_OTHER|||||||0.025||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.025
92318928|NCT00630825|184543068|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 4. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318929|NCT00630825|184543068|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 4. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318930|NCT00630825|184543068|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 4. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318931|NCT00630825|184543068|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 8. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318932|NCT00630825|184543068|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 8. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92195831|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.836|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Somatic Symptoms Gastrointestinal||0.2|-0.2|0.8360
92195832|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.687|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Somatic Symptoms Gastrointestinal||0.1|-0.2|0.6870
92195833|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.1364|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: General Somatic Symptoms||0.0|-0.3|0.1364
92195834|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.1578|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: General Somatic Symptoms||0.0|-0.3|0.1578
92195835|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.9062|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: General Somatic Symptoms||0.2|-0.2|0.9062
92195836|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.8596|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: General Somatic Symptoms||0.2|-0.2|0.8596
92195837|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.9488|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Genital Symptoms||0.2|-0.2|0.9488
92195838|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.1514|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Genital Symptoms||0.0|-0.3|0.1514
92195839|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.5796|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Genital Symptoms||0.1|-0.2|0.5796
92195840|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4739|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Genital Symptoms||0.1|-0.3|0.4739
92195841|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.9439|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Hypochondriasis||0.1|-0.1|0.9439
92195842|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.3891|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Hypochondriasis||0.1|-0.2|0.3891
92195843|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.0308|TWO_SIDED|95.0|0.0|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Hypochondriasis||0.3|0.0|0.0308
92195844|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.062|TWO_SIDED|95.0|0.0|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Hypochondriasis||0.3|0.0|0.0620
92195845|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.7744|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Loss of Weight||0.1|-0.2|0.7744
92195846|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.9312|TWO_SIDED|95.0|-0.1|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Loss of Weight||0.2|-0.1|0.9312
92195847|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.3105|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Loss of Weight||0.1|-0.2|0.3105
92195848|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.8406|TWO_SIDED|95.0|-0.1|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Loss of Weight||0.2|-0.1|0.8406
92195849|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.4834|TWO_SIDED|95.0|-0.1|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insight||0.0|-0.1|0.4834
92318933|NCT00630825|184543068|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 8. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318934|NCT00630825|184543068|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318935|NCT00630825|184543068|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318936|NCT00630825|184543068|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318937|NCT00630825|184543069|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of HOMA2-%B. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318938|NCT00630825|184543069|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of HOMA2-%B. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318939|NCT00630825|184543069|SUPERIORITY_OR_OTHER|||||||0.004||||||Treatment comparison of HOMA2-%B. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.004
92318940|NCT00630825|184543069|SUPERIORITY_OR_OTHER|||||||0.904||||||Treatment comparison of HOMA2-%S. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.904
92318941|NCT00630825|184543069|SUPERIORITY_OR_OTHER|||||||0.138|||||||ANCOVA|Treatment comparison of HOMA2-%S. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.||||||0.138
92318942|NCT00630825|184543069|SUPERIORITY_OR_OTHER|||||||0.729||||||Treatment comparison of HOMA2-%S. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.729
92318943|NCT00630825|184543071|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 4 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318944|NCT00630825|184543071|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 4 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92195850|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.0961|TWO_SIDED|95.0|-0.1|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insight||0.0|-0.1|0.0961
92195851|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.829|TWO_SIDED|95.0|0.0|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insight||0.0|0.0|0.8290
92195852|NCT03672175|184290563|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.9546|TWO_SIDED|95.0|0.0|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insight||0.0|0.0|0.9546
92318945|NCT00630825|184543071|SUPERIORITY_OR_OTHER|||||||0.113||||||Treatment comparison at 4 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.113
92318946|NCT00630825|184543071|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 8 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92195853|NCT03672175|184290564|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.78||0.1308|TWO_SIDED|95.0|-2.7|0.4||MMRM with treatment, BL ISI total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||0.4|-2.7|0.1308
92318947|NCT00630825|184543071|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 8 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318948|NCT00630825|184543071|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 8 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92195854|NCT03672175|184290564|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.77||0.0096|TWO_SIDED|95.0|-3.5|-0.5||MMRM with treatment, BL ISI total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||-0.5|-3.5|0.0096
92195855|NCT03672175|184290564|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.86||0.2674|TWO_SIDED|95.0|-0.7|2.7||MMRM with treatment, BL ISI total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||2.7|-0.7|0.2674
92318949|NCT00630825|184543071|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 16 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
92318950|NCT00630825|184543071|SUPERIORITY_OR_OTHER|||||||0.004||||||Treatment comparison at 16 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.004
92318951|NCT00630825|184543071|SUPERIORITY_OR_OTHER|||||||0.001||||||Treatment comparison at 16 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.001
92318952|NCT00630825|184543072|SUPERIORITY_OR_OTHER|||||||0.009||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.009
92318953|NCT00630825|184543072|SUPERIORITY_OR_OTHER|||||||0.028||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.028
92318954|NCT00630825|184543072|SUPERIORITY_OR_OTHER|||||||0.047||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.047
92318955|NCT02019264|184543100|NON_INFERIORITY|Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates. MACE met non-inferiority when the one-sided upper bound of 97.5% confidence interval of the HR was less than 1.4 (the non-inferiority margin).|Hazard Ratio (HR)|1.005||||0.0001|TWO_SIDED|97.5|0.842|1.198|||Primary Analytic Method|||||1.198|0.842|0.0001
92318956|NCT02019264|184543101|SUPERIORITY|Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|0.969||||0.5464|TWO_SIDED|95.0|0.873|1.074|||Primary Analytic Method|||||1.074|0.873|0.5464
92318957|NCT02019264|184543102|SUPERIORITY|Hazard ratio was based on Cox-regression model including treatment as covariate.|Hazard Ratio (HR)|0.807||||0.038|TWO_SIDED|95.0|0.659|0.988|||Primary Analytic Method|||||0.988|0.659|0.0380
92318958|NCT02019264|184543103|NON_INFERIORITY|Myocardial Infarction: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates. 97.5% confidence interval refers to the upper limit of the displayed 2-sided 95% confidence interval.|Hazard Ratio (HR)|0.991||||0.0001|TWO_SIDED|97.5|0.824|1.191|||Primary Analytic Method|||||1.191|0.824|0.0001
92318959|NCT02019264|184543103|NON_INFERIORITY|Time to Stroke: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates. 97.5% CI refers to the upper limit of the displayed 2-sided 95% CI.|Hazard Ratio (HR)|0.856||||0.0005|TWO_SIDED|97.5|0.639|1.145|||Primary Analytic Method|||||1.145|0.639|0.0005
92318960|NCT02019264|184543103|NON_INFERIORITY|Cardiovascular Death: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates. 97.5% confidence interval refers to the upper limit of the displayed 2-sided 95% confidence interval.|Hazard Ratio (HR)|1.045||||0.0262|TWO_SIDED|97.5|0.778|1.404|||Primary Analytic Method|||||1.404|0.778|0.0262
92318961|NCT02019264|184543103|SUPERIORITY|Hospitalization for Unstable Angina: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|1.163||||0.3243|TWO_SIDED|95.0|0.861|1.571|||Primary Analytic Method|||||1.571|0.861|0.3243
92318962|NCT02019264|184543103|SUPERIORITY|Heart Failure: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|0.952||||0.6758|TWO_SIDED|95.0|0.757|1.197|||Primary Analytic Method|||||1.197|0.757|0.6758
92318963|NCT02019264|184543103|SUPERIORITY|Coronary Revascularization: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|0.981||||0.7817|TWO_SIDED|95.0|0.856|1.125|||Primary Analytic Method|||||1.125|0.856|0.7817
92318964|NCT02019264|184543104|SUPERIORITY|Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|1.082||||0.4212|TWO_SIDED|95.0|0.893|1.31|||Primary Analytic Method|||||1.310|0.893|0.4212
92318965|NCT02019264|184543105|SUPERIORITY|Hazard ratio was based on a Cox regression model including treatment as covariate.|Hazard Ratio (HR)|1.124||||0.181|TWO_SIDED|95.0|0.947|1.333|||Primary Analytic Method|||||1.333|0.947|0.1810
92318966|NCT02019264|184543106|SUPERIORITY|Hazard ratio was based on a Cox regression model including treatment as covariate.|Hazard Ratio (HR)|0.773||||0.0116|TWO_SIDED|95.0|0.633|0.944|||Primary Analytic Method|||||0.944|0.633|0.0116
92318967|NCT02019264|184543107|SUPERIORITY||Least square (LS) Mean Difference (Net)|-0.39|||<|0.0001|TWO_SIDED|95.0|-0.43|-0.35||P-value was based on analysis of covariance (ANCOVA) model with treatment and stratification variable (presence of established CV disease or CV risk factors without established CV disease) as factors, and baseline HbA1c, as a covariate.|ANCOVA|||||-0.35|-0.43|<0.0001
92318968|NCT02019264|184543108|SUPERIORITY|Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|0.869||||0.0054|TWO_SIDED|95.0|0.787|0.959|||Primary Analytic Method|||||0.959|0.787|0.0054
92195856|NCT03672175|184290564|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.87||0.9771|TWO_SIDED|95.0|-1.7|1.7||MMRM with treatment, BL ISI total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||1.7|-1.7|0.9771
92195857|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|4.42||0.611|TWO_SIDED|95.0|-10.9|6.4||MMRM with treatment, BL sSL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sSL||6.4|-10.9|0.6110
92318969|NCT02019264|184543109|SUPERIORITY|Hazard ratio on a Cox regression model including treatment as covariate.|Hazard Ratio (HR)|0.904||||0.3661|TWO_SIDED|95.0|0.727|1.125|||Primary Analytic Method|||||1.125|0.727|0.3661
92318970|NCT02019264|184543110|SUPERIORITY||Hazard Ratio (HR)|0.855||||0.0082|TWO_SIDED|95.0|0.762|0.96|||Primary Analytic Method|||||0.960|0.762|0.0082
92318971|NCT02019264|184543111|SUPERIORITY|Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|1.182||||0.0297|TWO_SIDED|95.0|1.017|1.375|||Primary Analytic Method|||||1.375|1.017|0.0297
92318972|NCT02019264|184543112|SUPERIORITY||Odds Ratio (OR)|1.21||||0.5015|TWO_SIDED|95.0|0.69|2.11||P-value was based on logistic regression including treatment as a factor and baseline body mass index (BMI) as a covariate.|Regression, Logistic|||||2.11|0.69|0.5015
92318973|NCT02019264|184543113|SUPERIORITY||Odds Ratio (OR)|1.31||||0.7249|TWO_SIDED|95.0|0.29|5.98||P-value was based on logistic regression including treatment as a factor and baseline BMI as a covariate.|Regression, Logistic|||||5.98|0.29|0.7249
92318974|NCT02019264|184543114|SUPERIORITY||Least square (LS) Mean Difference (Net)|-0.9036||||0.2976|TWO_SIDED|95.0|-1.2908|-0.5163||P value was based on a mixed-effects model (unstructured covariance matrix) with repeated measures with treatment, month and treatment by month interaction as factors and baseline pulmonary arterial systolic pressure and baseline BMI as covariates.|Mixed-effects model|||||-0.5163|-1.2908|0.2976
92318975|NCT01575834|184543119|SUPERIORITY||Odds Ratio (OR)|0.27|||<|0.001|TWO_SIDED|95.0|0.15|0.47||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test.|Values \< 1 for odds ratio favor romosozumab.|||0.47|0.15|< 0.001
92318976|NCT01575834|184543120|SUPERIORITY||Odds Ratio (OR)|0.24|||<|0.001|TWO_SIDED|95.0|0.15|0.39||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test.|Values \< 1 for odds ratio favor romosozumab.|||0.39|0.15|< 0.001
92318977|NCT01575834|184543121|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.008|TWO_SIDED|95.0|0.46|0.89||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||0.89|0.46|0.008
92318978|NCT01575834|184543122|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.096|TWO_SIDED|95.0|0.53|1.05||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||1.05|0.53|0.096
92318979|NCT01575834|184543123|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.057|TWO_SIDED|95.0|0.57|0.97||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||0.97|0.57|0.057
92318980|NCT01575834|184543124|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.096|TWO_SIDED|95.0|0.52|0.87||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||0.87|0.52|0.096
92318981|NCT01575834|184543125|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.096|TWO_SIDED|95.0|0.44|1.02||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||1.02|0.44|0.096
92318982|NCT01575834|184543126|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.096|TWO_SIDED|95.0|0.49|0.91||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab|||0.91|0.49|0.096
92318983|NCT01575834|184543127|SUPERIORITY||Odds Ratio (OR)|0.28||||0.096|TWO_SIDED|95.0|0.17|0.49||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test.|Values \< 1 for odds ratio favor romosozumab.|||0.49|0.17|0.096
92318984|NCT01575834|184543128|SUPERIORITY||Odds Ratio (OR)|0.26||||0.096|TWO_SIDED|95.0|0.16|0.41||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test|Values \< 1 for odds ratio favor romosozumab.|||0.41|0.16|0.096
92318985|NCT01575834|184543129|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.18|TWO_SIDED|95.0|0.22|1.35||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||1.35|0.22|0.18
92318986|NCT01575834|184543130|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.12|TWO_SIDED|95.0|0.24|1.04||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||1.04|0.24|0.12
92318987|NCT01575834|184543131|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.012|TWO_SIDED|95.0|0.4|0.9|||Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||0.90|0.40|0.012
92318988|NCT01575834|184543132|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.002|TWO_SIDED|95.0|0.46|0.84|||Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||0.84|0.46|0.002
92318989|NCT01575834|184543133|SUPERIORITY||Odds Ratio (OR)|0.11||||0.011|TWO_SIDED|95.0|0.01|0.87|||Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test.|Values \< 1 for odds ratio favor romosozumab.|||0.87|0.01|0.011
92318990|NCT01575834|184543134|SUPERIORITY||Odds Ratio (OR)|0.06|||<|0.001|TWO_SIDED|95.0|0.01|0.44|||Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test.|Values \< 1 for odds ratio favor romosozumab.|||0.44|0.01|< 0.001
92318991|NCT01575834|184543135|SUPERIORITY||LS Mean Difference|12.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|12.4|12.9|||ANCOVA|||The treatment comparison of BMD at the lumbar spine was analyzed using an analysis of covariance (ANCOVA) model which included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||12.9|12.4|< 0.001
92318992|NCT01575834|184543136|SUPERIORITY||LS Mean Difference|11.1|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|10.8|11.4|||ANCOVA|||The treatment comparison of BMD at the lumbar spine was analyzed using an analysis of covariance (ANCOVA) model which included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||11.4|10.8|< 0.001
92318993|NCT01575834|184543137|SUPERIORITY||LS Mean Difference|5.8|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|5.6|6.0|||ANCOVA|||The treatment comparison of BMD at the total hip was analyzed using an ANCOVA model which included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||6.0|5.6|< 0.001
92318994|NCT01575834|184543138|SUPERIORITY||LS Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|5.1|5.5|||ANCOVA|||The treatment comparison of BMD at the total hip was analyzed using an ANCOVA model which included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||5.5|5.1|< 0.001
92318995|NCT01575834|184543139|SUPERIORITY||LS Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|4.9|5.4|||ANCOVA|||The treatment comparison of BMD at the femoral neck was analyzed using an ANCOVA model which included included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||5.4|4.9|< 0.001
92195858|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|4.19||0.0581|TWO_SIDED|95.0|-16.2|0.3||MMRM with treatment, BL sSL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sSL||0.3|-16.2|0.0581
92195859|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|5.68||0.4493|TWO_SIDED|95.0|-15.5|6.9||MMRM with treatment, BL sSL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sSL||6.9|-15.5|0.4493
92195860|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|6.25||0.5587|TWO_SIDED|95.0|-16.0|8.6||MMRM with treatment, BL sSL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sSL||8.6|-16.0|0.5587
92195861|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|4.06||0.5976|TWO_SIDED|95.0|-10.1|5.8||MMRM with treatment, BL sWASO score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sWASO||5.8|-10.1|0.5976
92195862|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|5.05||0.9421|TWO_SIDED|95.0|-9.6|10.3||MMRM with treatment, BL sWASO score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sWASO||10.3|-9.6|0.9421
92195863|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|4.86||0.5581|TWO_SIDED|95.0|-6.7|12.4||MMRM with treatment, BL sWASO score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sWASO||12.4|-6.7|0.5581
92195864|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|5.82||0.4997|TWO_SIDED|95.0|-7.5|15.4||MMRM with treatment, BL sWASO score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sWASO||15.4|-7.5|0.4997
92195865|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|24.0|STANDARD_ERROR_OF_MEAN|10.5||0.0224|TWO_SIDED|95.0|3.4|44.7||MMRM with treatment, BL sTST score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sTST||44.7|3.4|0.0224
92195866|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|17.4|STANDARD_ERROR_OF_MEAN|10.93||0.1117|TWO_SIDED|95.0|-4.1|38.9||MMRM with treatment, BL sTST score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sTST||38.9|-4.1|0.1117
92195867|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|14.1|STANDARD_ERROR_OF_MEAN|14.18||0.3208|TWO_SIDED|95.0|-13.8|42.0||MMRM with treatment, BL sTST score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sTST||42.0|-13.8|0.3208
92195868|NCT03672175|184290565|SUPERIORITY||LS Mean Difference|10.3|STANDARD_ERROR_OF_MEAN|13.4||0.444|TWO_SIDED|95.0|-16.1|36.6||MMRM with treatment, BL sTST score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sTST||36.6|-16.1|0.4440
92195869|NCT03672175|184290566|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4737|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, BL sNAW score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||0.1|-0.3|0.4737
92195870|NCT03672175|184290566|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0138|TWO_SIDED|95.0|-0.4|0.0||MMRM with treatment, BL sNAW score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||0.0|-0.4|0.0138
92195871|NCT03672175|184290566|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.12||0.1098|TWO_SIDED|95.0|0.0|0.4||MMRM with treatment, BL sNAW score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28||0.4|0.0|0.1098
92195872|NCT03672175|184290566|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.11||0.6234|TWO_SIDED|95.0|-0.2|0.3||MMRM with treatment, BL sNAW score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28||0.3|-0.2|0.6234
92195873|NCT03672175|184290567|SUPERIORITY||Odds Ratio (OR)|0.89||||0.6741|TWO_SIDED|95.0|0.52|1.53||GEE for binary response model, with factors for treatment, BL sleep quality response, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15||1.53|0.52|0.6741
92195874|NCT03672175|184290567|SUPERIORITY||Odds Ratio (OR)|0.79||||0.3924|TWO_SIDED|95.0|0.46|1.36||GEE for binary response model, with factors for treatment, BL sleep quality response, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15||1.36|0.46|0.3924
92195875|NCT03672175|184290567|SUPERIORITY||Odds Ratio (OR)|0.9||||0.7307|TWO_SIDED|95.0|0.51|1.6||GEE for binary response model, with factors for treatment, BL sleep quality response, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 28||1.60|0.51|0.7307
92195876|NCT03672175|184290567|SUPERIORITY||Odds Ratio (OR)|0.94||||0.8358|TWO_SIDED|95.0|0.52|1.7||GEE for binary response model, with factors for treatment, BL sleep quality response, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 28||1.70|0.52|0.8358
92195877|NCT03672175|184290568|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.72||0.7375|TWO_SIDED|95.0|-1.6|1.2||MMRM with treatment, BL SF-36v2 physical component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: PCS Score||1.2|-1.6|0.7375
92195878|NCT03672175|184290568|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.74||0.5144|TWO_SIDED|95.0|-1.9|1.0||MMRM with treatment, BL SF-36v2 physical component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: PCS Score||1.0|-1.9|0.5144
92195879|NCT03672175|184290568|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.79||0.8343|TWO_SIDED|95.0|-1.7|1.4||MMRM with treatment, BL SF-36v2 physical component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: PCS Score||1.4|-1.7|0.8343
92318996|NCT01575834|184543140|SUPERIORITY||LS Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|4.7|5.2|||ANCOVA|||The treatment comparison of BMD at the femoral neck was analyzed using an ANCOVA model which included included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||5.2|4.7|< 0.001
92318997|NCT01383174|184543174|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||0.015
92318998|NCT01383174|184543175|SUPERIORITY_OR_OTHER|||||||0.465|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.465
92318999|NCT01383174|184543176|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.025
92319000|NCT01383174|184543177|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.004
92319001|NCT01383174|184543178|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.013
92319002|NCT01383174|184543179|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.267
92319003|NCT01383174|184543180|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.030
92319004|NCT01383174|184543181|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.045
92319005|NCT01383174|184543182|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.005
92319006|NCT01383174|184543183|SUPERIORITY_OR_OTHER|||||||0.226|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.226
92319007|NCT01153815|184543185|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Exact Smirnov test|||||||<0.001
92319008|NCT00030901|184543224|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||P-value is adjusted for stratification factors age older than 60, African American, baseline PSA, and vitamin E supplementation.|Regression, Logistic|||With target sample size of 466 randomized patients (233 per arm), there is a 90% of power to detect a one-third reduction in the three-year incidence rate of prostate cancer. The alpha level is set at 0.025, one-sided.||||0.73
92319009|NCT01205776|184543234|NON_INFERIORITY|p-value and 95% CI of the Difference derived from the Com-Nougue Approach of non-inferiority for two Kaplan-Meier Failure rates with a non-inferiority margin of 2% at the 0.05 level of significance.|Hazard Ratio (HR)|-3.1|||<|0.0001|TWO_SIDED|||||p-value and 95% CI of the Difference derived from the Com-Nougue Approach of non-inferiority for two Kaplan-Meier Failure rates with a non-inferiority margin of 2% at the 0.05 level of significance.|Com-Nougue|||||||<0.0001
92319010|NCT01205776|184543246|NON_INFERIORITY|p-value and 95% CI of the Difference derived from the Com-Nougue Approach of non-inferiority for two Kaplan-Meier Failure rates with a non-inferiority margin of 8.4% at the 0.05 level of significance.|Hazard Ratio (HR)|4.0||||0.011|TWO_SIDED|||||p-value and 95% CI of the Difference derived from the Com-Nougue Approach of non-inferiority for two Kaplan-Meier Failure rates with a non-inferiority margin of 8.4% at the 0.05 level of significance.|Com-Nougue Approach|||||||0.011
92319011|NCT05253573|184543365|SUPERIORITY||Risk Ratio (RR)|1.85|||||TWO_SIDED|95.0|1.21|2.83||||||The overall number of participants analyzed reflects the cancer survivors and/or independent caregivers. Participants are not represented separately (as cancer survivors or caregivers) for each Arm. This is because the originally proposed statistical data analysis plan did not aim to analyze the data by each group of caregivers versus cancer patients/survivors (because the statistical power would be very low for doing so||2.83|1.21|
92195880|NCT03672175|184290568|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.85||0.4569|TWO_SIDED|95.0|-1.0|2.3||MMRM with treatment, BL SF-36v2 physical component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: PCS Score||2.3|-1.0|0.4569
92319012|NCT01754129|184543396|OTHER||||||<|0.001||||||Missing values were replaced using the Last Observation Carried Forward (LOCF) technique for data of questionnaires. Missing data at Visit 3 was replaced with the (non-missing) data recorded at Visit 2.|Paired t-test|||Mean change from baseline to Visit 3||||<0.001
92319013|NCT01754129|184543396|OTHER||||||<|0.001|||||||Paired t-test|||Change from baseline to Visit 2||||<0.001
92319014|NCT04630002|184543412|OTHER||Ratio of geometric least square means|1.137|||||TWO_SIDED|90.0|0.999|1.293|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||1.293|0.9990|
92319015|NCT04630002|184543413|OTHER||Ratio of geometric least square means|1.068|||||TWO_SIDED|90.0|0.9185|1.242|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||1.242|0.9185|
92319016|NCT04630002|184543414|OTHER||Ratio of geometric least square means|0.9891|||||TWO_SIDED|90.0|0.9313|1.051|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||1.051|0.9313|
92319017|NCT04630002|184543415|OTHER||Ratio of geometric least square means|1.05|||||TWO_SIDED|90.0|0.9816|1.122|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||1.122|0.9816|
92319018|NCT04630002|184543416|OTHER||Ratio of geometric least square means|1.102|||||TWO_SIDED|90.0|1.025|1.185|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||1.185|1.025|
92319019|NCT04630002|184543417|OTHER||Ratio of geometric least square means|1.12|||||TWO_SIDED|90.0|0.9947|1.26|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||1.260|0.9947|
92319020|NCT04630002|184543418|OTHER||Ratio of geometric least square means|0.5299|||||TWO_SIDED|90.0|0.4801|0.5848|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||0.5848|0.4801|
92319021|NCT04630002|184543419|OTHER||Ratio of geometric least square means|0.6001|||||TWO_SIDED|90.0|0.5271|0.6833|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||0.6833|0.5271|
92319022|NCT04630002|184543420|OTHER||Ratio of geometric least square means|1.144|||||TWO_SIDED|90.0|1.082|1.21|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||1.210|1.082|
92319023|NCT04630002|184543421|OTHER||Ratio of geometric least square means|1.104|||||TWO_SIDED|90.0|1.026|1.187|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||1.187|1.026|
92319024|NCT04630002|184543422|OTHER||Ratio of geometric least square means|0.9435|||||TWO_SIDED|90.0|0.8147|1.093|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||1.093|0.8147|
92319025|NCT04630002|184543423|OTHER||Ratio of geometric least square means|0.8928|||||TWO_SIDED|90.0|0.7467|1.068|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||1.068|0.7467|
92319026|NCT04498182|184543471|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.81||0.2305|TWO_SIDED|95.0|-8.9|2.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||2.2|-8.9|0.2305
92319027|NCT04498182|184543471|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.81||0.7436|TWO_SIDED|95.0|-4.6|6.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.4|-4.6|0.7436
92319028|NCT04498182|184543472|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.7||0.4936|TWO_SIDED|95.0|-1.9|0.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.9|-1.9|0.4936
92319029|NCT04498182|184543472|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.7131|TWO_SIDED|95.0|-1.1|1.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.6|-1.1|0.7131
92319030|NCT04498182|184543473|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.81||0.2305|TWO_SIDED|95.0|-8.9|2.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||2.2|-8.9|0.2305
92319031|NCT04498182|184543473|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.81||0.7436|TWO_SIDED|95.0|-4.6|6.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.4|-4.6|0.7436
92319032|NCT04498182|184543474|SUPERIORITY||LS Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|3.17||0.0281|TWO_SIDED|95.0|-13.2|-0.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.8|-13.2|0.0281
92319033|NCT04498182|184543474|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|3.18||0.9186|TWO_SIDED|95.0|-5.9|6.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.6|-5.9|0.9186
92319034|NCT04498182|184543475|SUPERIORITY||LS Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|3.17||0.0281|TWO_SIDED|95.0|-13.2|-0.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.8|-13.2|0.0281
92319035|NCT04498182|184543475|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|3.18||0.9186|TWO_SIDED|95.0|-5.9|6.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.6|-5.9|0.9186
92319036|NCT04498182|184543476|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.75||0.9846|TWO_SIDED|95.0|-1.5|1.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.5|-1.5|0.9846
92319037|NCT04498182|184543476|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.75||0.6508|TWO_SIDED|95.0|-1.1|1.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.8|-1.1|0.6508
92319038|NCT04498182|184543477|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.75||0.9846|TWO_SIDED|95.0|-1.5|1.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.5|-1.5|0.9846
92319039|NCT04498182|184543477|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.75||0.6508|TWO_SIDED|95.0|-1.1|1.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.8|-1.1|0.6508
92319040|NCT04498182|184543478|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.7||0.4936|TWO_SIDED|95.0|-1.9|0.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.9|-1.9|0.4936
92319041|NCT04498182|184543478|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.7131|TWO_SIDED|95.0|-1.1|1.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.6|-1.1|0.7131
92319042|NCT04498182|184543479|SUPERIORITY||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|3.38||0.0786|TWO_SIDED|95.0|-12.6|0.7|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.7|-12.6|0.0786
92319043|NCT04498182|184543479|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|3.39||0.9477|TWO_SIDED|95.0|-6.9|6.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.5|-6.9|0.9477
92319044|NCT04498182|184543480|SUPERIORITY||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|3.38||0.0786|TWO_SIDED|95.0|-12.6|0.7|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.7|-12.6|0.0786
92319045|NCT04498182|184543480|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|3.39||0.9477|TWO_SIDED|95.0|-6.9|6.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.5|-6.9|0.9477
92319046|NCT04498182|184543481|SUPERIORITY||LS Means Difference|-5.0|STANDARD_ERROR_OF_MEAN|3.16||0.1153|TWO_SIDED|95.0|-11.2|1.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.2|-11.2|0.1153
92319047|NCT04498182|184543481|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|3.15||0.9975|TWO_SIDED|95.0|-6.2|6.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.2|-6.2|0.9975
92319048|NCT04498182|184543482|SUPERIORITY||LS Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|3.16||0.1153|TWO_SIDED|95.0|-11.2|1.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.2|-11.2|0.1153
92319049|NCT04498182|184543482|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|3.15||0.9975|TWO_SIDED|95.0|-6.2|6.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.2|-6.2|0.9975
92319050|NCT04498182|184543483|SUPERIORITY||LS Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|3.82||0.1518|TWO_SIDED|95.0|-13.0|2.0|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||2.0|-13.0|0.1518
92319051|NCT04498182|184543483|SUPERIORITY||LS Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|3.87||0.407|TWO_SIDED|95.0|-4.4|10.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||10.8|-4.4|0.4070
92319052|NCT04498182|184543484|SUPERIORITY||LS Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|3.82||0.1518|TWO_SIDED|95.0|-13.0|2.0|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||2.0|-13.0|0.1518
92319053|NCT04498182|184543484|SUPERIORITY||LS Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|3.87||0.407|TWO_SIDED|95.0|-4.4|10.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||10.8|-4.4|0.4070
92319054|NCT04498182|184543485|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|3.56||0.756|TWO_SIDED|95.0|-8.1|5.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.9|-8.1|0.7560
92319055|NCT04498182|184543485|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|3.62||0.8308|TWO_SIDED|95.0|-7.9|6.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.4|-7.9|0.8308
92319056|NCT04498182|184543486|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|3.56||0.756|TWO_SIDED|95.0|-8.1|5.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.9|-8.1|0.7560
92319057|NCT04498182|184543486|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|3.62||0.8308|TWO_SIDED|95.0|-7.9|6.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.4|-7.9|0.8308
92319058|NCT04498182|184543487|SUPERIORITY||LS Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|2.26||0.0005|TWO_SIDED|95.0|-12.4|-3.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-3.5|-12.4|0.0005
92319059|NCT04498182|184543487|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|2.26||0.0585|TWO_SIDED|95.0|-8.7|0.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.2|-8.7|0.0585
92319060|NCT04498182|184543488|SUPERIORITY||LS Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|2.26||0.0005|TWO_SIDED|95.0|-12.4|-3.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-3.5|-12.4|0.0005
92319061|NCT04498182|184543488|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|2.26||0.0585|TWO_SIDED|95.0|-8.7|0.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.2|-8.7|0.0585
92319062|NCT04498182|184543489|SUPERIORITY||LS Mean Difference|-8.9|STANDARD_ERROR_OF_MEAN|2.77||0.0015|TWO_SIDED|95.0|-14.3|-3.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-3.4|-14.3|0.0015
92319063|NCT04498182|184543489|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.78||0.6812|TWO_SIDED|95.0|-6.6|4.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.3|-6.6|0.6812
92319064|NCT04498182|184543490|SUPERIORITY||LS Mean Difference|-8.9|STANDARD_ERROR_OF_MEAN|2.77||0.0015|TWO_SIDED|95.0|-14.3|-3.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-3.4|-14.3|0.0015
92319065|NCT04498182|184543490|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.78||0.6812|TWO_SIDED|95.0|-6.6|4.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.3|-6.6|0.6812
92319066|NCT04498182|184543491|SUPERIORITY||LS Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|2.5||0.152|TWO_SIDED|95.0|-8.5|1.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.3|-8.5|0.1520
92319067|NCT04498182|184543491|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.49||0.8515|TWO_SIDED|95.0|-5.4|4.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.4|-5.4|0.8515
92319068|NCT04498182|184543492|SUPERIORITY||LS Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|2.5||0.152|TWO_SIDED|95.0|-8.5|1.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.3|-8.5|0.1520
92319069|NCT04498182|184543492|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.49||0.8515|TWO_SIDED|95.0|-5.4|4.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.4|-5.4|0.8515
92319070|NCT04498182|184543493|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|2.91||0.0302|TWO_SIDED|95.0|-12.1|-0.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.6|-12.1|0.0302
92319071|NCT04498182|184543493|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.92||0.8013|TWO_SIDED|95.0|-6.5|5.0|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.0|-6.5|0.8013
92319072|NCT04498182|184543494|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|2.91||0.0302|TWO_SIDED|95.0|-12.1|-0.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.6|-12.1|0.0302
92319073|NCT04498182|184543494|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.92||0.8013|TWO_SIDED|95.0|-6.5|5.0|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.0|-6.5|0.8013
92319074|NCT04498182|184543495|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|2.52||0.8166|TWO_SIDED|95.0|-4.4|5.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.5|-4.4|0.8166
92319075|NCT04498182|184543495|SUPERIORITY||LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|2.52||0.3371|TWO_SIDED|95.0|-2.5|7.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||7.4|-2.5|0.3371
92319076|NCT04498182|184543496|SUPERIORITY|||||||0.3365|||||||Wilcoxon (Mann-Whitney)|||||||0.3365
92319077|NCT04498182|184543496|SUPERIORITY|||||||0.7323|||||||Wilcoxon (Mann-Whitney)|||||||0.7323
92319078|NCT04498182|184543497|SUPERIORITY|||||||0.1557|||||||Wilcoxon (Mann-Whitney)|||||||0.1557
92319079|NCT04498182|184543497|SUPERIORITY|||||||0.6845|||||||Wilcoxon (Mann-Whitney)|||||||0.6845
92319080|NCT04498182|184543498|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|2.52||0.8166|TWO_SIDED|95.0|-4.4|5.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.5|-4.4|0.8166
92319081|NCT04498182|184543498|SUPERIORITY|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|2.52||0.3371|TWO_SIDED|95.0|-2.5|7.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||7.4|-2.5|0.3371
92319082|NCT04498182|184543499|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.81||0.5215|TWO_SIDED|95.0|-3.7|7.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||7.3|-3.7|0.5215
92319083|NCT04498182|184543499|SUPERIORITY||LS Mean Difference|4.2|STANDARD_ERROR_OF_MEAN|2.81||0.1312|TWO_SIDED|95.0|-1.3|9.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||9.8|-1.3|0.1312
92195881|NCT03672175|184290568|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.63||0.4663|TWO_SIDED|95.0|-2.0|4.4||MMRM with treatment, BL SF-36v2 mental component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: MCS Score||4.4|-2.0|0.4663
92319084|NCT04498182|184543500|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.81||0.5215|TWO_SIDED|95.0|-3.7|7.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||7.3|-3.7|0.5215
92319085|NCT04498182|184543500|SUPERIORITY||LS Mean Difference|4.2|STANDARD_ERROR_OF_MEAN|2.81||0.1312|TWO_SIDED|95.0|-1.3|9.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||9.8|-1.3|0.1312
92319086|NCT04498182|184543501|SUPERIORITY||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.99||0.0254|TWO_SIDED|95.0|-8.4|-0.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.6|-8.4|0.0254
92319087|NCT04498182|184543501|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.99||0.1362|TWO_SIDED|95.0|-6.9|0.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.9|-6.9|0.1362
92319088|NCT04498182|184543502|SUPERIORITY||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.99||0.0254|TWO_SIDED|95.0|-8.4|-0.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.6|-8.4|0.0254
92319089|NCT04498182|184543502|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.99||0.1362|TWO_SIDED|95.0|-6.9|0.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.9|-6.9|0.1362
92319090|NCT04498182|184543503|SUPERIORITY||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|2.06||0.0573|TWO_SIDED|95.0|-8.0|0.1|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.1|-8.0|0.0573
92319091|NCT04498182|184543503|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|2.06||0.993|TWO_SIDED|95.0|-4.0|4.1|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.1|-4.0|0.9930
92319092|NCT04498182|184543504|SUPERIORITY||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|2.06||0.0573|TWO_SIDED|95.0|-8.0|0.1|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.1|-8.0|0.0573
92319093|NCT04498182|184543504|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|2.06||0.993|TWO_SIDED|95.0|-4.0|4.1|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.1|-4.0|0.9930
92319094|NCT04498182|184543505|SUPERIORITY||Odds Ratio (OR)|1.48||||0.3068|TWO_SIDED|95.0|0.7|3.15|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||3.15|0.70|0.3068
92319095|NCT04498182|184543505|SUPERIORITY||Odds Ratio (OR)|1.22||||0.6167|TWO_SIDED|95.0|0.56|2.68|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||2.68|0.56|0.6167
92319096|NCT04498182|184543506|SUPERIORITY||Odds Ratio (OR)|0.64||||0.2867|TWO_SIDED|95.0|0.28|1.46|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||1.46|0.28|0.2867
92319097|NCT04498182|184543506|SUPERIORITY||Odds Ratio (OR)|0.7||||0.3803|TWO_SIDED|95.0|0.32|1.57|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||1.57|0.32|0.3803
92319098|NCT04498182|184543507|SUPERIORITY||Odds Ratio (OR)|1.44||||0.4375|TWO_SIDED|95.0|0.58|3.58|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||3.58|0.58|0.4375
92319099|NCT04498182|184543507|SUPERIORITY||Odds Ratio (OR)|1.3||||0.584|TWO_SIDED|95.0|0.51|3.27|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||3.27|0.51|0.5840
92319100|NCT04498182|184543508|SUPERIORITY||Odds Ratio (OR)|0.73||||0.5046|TWO_SIDED|95.0|0.29|1.84|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||1.84|0.29|0.5046
92319101|NCT04498182|184543508|SUPERIORITY||Odds Ratio (OR)|1.27||||0.5751|TWO_SIDED|95.0|0.56|2.88|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||2.88|0.56|0.5751
92319102|NCT00375973|184543518|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Regression, Linear|||||||0.23
92319103|NCT00375973|184543519|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Regression, Linear|||||||0.05
92319104|NCT00375973|184543520|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Regression, Linear|||||||0.67
92319105|NCT00375973|184543521|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Regression, Linear|||||||0.02
92319106|NCT00375973|184543522|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Regression, Linear|||||||0.06
92319107|NCT00375973|184543523|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Fisher Exact|||||||0.02
92319108|NCT00375973|184543524|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||Fisher Exact|||||||0.24
92319109|NCT03137160|184543525|SUPERIORITY|||||||1|||||||Fisher Exact|||This is the Investigator Global Assessment comparing the proportion of subjects who achieved a 2 pt reduction at study close (0).||||1
92319110|NCT01339260|184543532|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.001|TWO_SIDED|95.0|1.16|1.87||If superiority of netupitant/palonosetron was established for the CR delayed, CR acute and then CR overall at cycle 1 were to be tested according to a hierarchical procedure;no adjustment for multiplicity was needed.The a priori threshold was 0.050|Cochran-Mantel-Haenszel||Cochran Mantel Haenszel (CMH) test including treatment, age class and region as strata. All missing data were to be imputed as treatment failures.|The null hypothesis was rejected if the 2 sided p value from the Cochran Mantel Haenszel test was less than or equal to 0.050 and in the right direction i.e., the Odds Ratio (OR) was in favor of netupitant/palonosetron. Power was 90%.||1.87|1.16|0.001
92319111|NCT01339260|184543533|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.047|TWO_SIDED|95.0|1.0|1.87||If the null hypothesis for CR delayed was rejected, analysis of the first key secondary endpoint CR acute was to be performed. Since the analysis was performed according to a hierarchical procedure, no further adjustment for multiplicity was needed.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test including treatment, age class and region as strata. All missing data were to be imputed as treatment failures.||CR in the acute phase was to be tested using the same 2 sided CMH test as for the primary endpoint. netupitant/palonosetron combination was to be considered superior to palonosetron in the acute phase if the 2 sided p value from the CMH was less than or equal to 0.050 and in the right direction.||1.87|1.0|0.047
92319112|NCT01339260|184543534|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.001|TWO_SIDED|95.0|1.17|1.85||If the null hypothesis for CR acute was rejected, analysis of the 2nd key secondary endpoint CR overall was to be performed. Since the analysis was performed according to a hierarchical procedure, no further adjustment for multiplicity was needed.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test including treatment, age class and region as strata. All missing data were to be imputed as treatment failures.||CR in the overall phase was to be tested using the same 2 sided CMH test as for the primary endpoint. netupitant/palonosetron combination was to be considered superior to palonosetron in the overall phase if the 2 sided p value from the CMH was less than or equal to 0.050 and in the right direction.||1.85|1.17|0.001
92319113|NCT00558467|184543565|SUPERIORITY_OR_OTHER||Least Squares mean difference|0.01||||0.996|TWO_SIDED|95.0|-4.95|4.97|||ANCOVA|||||4.97|-4.95|0.996
92319114|NCT00558467|184543566|SUPERIORITY_OR_OTHER||Least square means difference|-3.94|||||TWO_SIDED|95.0|-5.81|-2.08|||Repeated Measures|||||-2.08|-5.81|
92319115|NCT00558467|184543567|SUPERIORITY_OR_OTHER||Least square means difference|-5.3|||||TWO_SIDED|95.0|-7.21|-3.39|||Repeated measures|||||-3.39|-7.21|
92319116|NCT00558467|184543569|SUPERIORITY_OR_OTHER||Least square means difference|-5.97|||||TWO_SIDED|95.0|-7.88|-4.06|||Repeated measures|||||-4.06|-7.88|
92319117|NCT00558467|184543570|SUPERIORITY_OR_OTHER||Least Squares Mean differnce|-0.15||||0.978|TWO_SIDED|95.0|-11.05|10.75|||ANCOVA|||||10.75|-11.05|0.9780
92319118|NCT00558467|184543575|SUPERIORITY_OR_OTHER|||||||0.1052|||||||Cochran-Mantel-Haenszel|||||||0.1052
92319119|NCT00558467|184543576|SUPERIORITY_OR_OTHER|||||||0.2274|||||||Cochran-Mantel-Haenszel|||||||0.2274
92319120|NCT00558467|184543577|SUPERIORITY_OR_OTHER|||||||0.7691|||||||Cochran-Mantel-Haenszel|||||||0.7691
92319121|NCT00558467|184543578|SUPERIORITY_OR_OTHER|||||||0.0674|||||||Cochran-Mantel-Haenszel|||||||0.0674
92319122|NCT00558467|184543579|SUPERIORITY_OR_OTHER|||||||0.4944|||||||Cochran-Mantel-Haenszel|||||||0.4944
92319123|NCT00558467|184543580|SUPERIORITY_OR_OTHER|||||||0.162|||||||Cochran-Mantel-Haenszel|||||||0.162
92319124|NCT00558467|184543581|SUPERIORITY_OR_OTHER|||||||0.6375|||||||Cochran-Mantel-Haenszel|||||||0.6375
92319125|NCT00558467|184543582|SUPERIORITY_OR_OTHER|||||||0.6625|||||||Cochran-Mantel-Haenszel|||||||0.6625
92319126|NCT00558467|184543583|SUPERIORITY_OR_OTHER|||||||0.2664|||||||Cochran-Mantel-Haenszel|||||||0.2664
92319127|NCT00558467|184543584|SUPERIORITY_OR_OTHER|||||||0.7302|||||||Cochran-Mantel-Haenszel|||||||0.7302
92319128|NCT00558467|184543585|SUPERIORITY_OR_OTHER|||||||0.7723|||||||Cochran-Mantel-Haenszel|||||||0.7723
92319129|NCT00558467|184543586|SUPERIORITY_OR_OTHER|||||||0.4852|||||||Cochran-Mantel-Haenszel|||||||0.4852
92319130|NCT00558467|184543587|SUPERIORITY_OR_OTHER|||||||0.4607|||||||Cochran-Mantel-Haenszel|||||||0.4607
92319131|NCT00558467|184543588|SUPERIORITY_OR_OTHER|||||||0.7723|||||||Cochran-Mantel-Haenszel|||||||0.7723
92319132|NCT00558467|184543589|SUPERIORITY_OR_OTHER|||||||0.9389|||||||Cochran-Mantel-Haenszel|||||||0.9389
92319133|NCT01514292|184543694|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Fisher Exact|||"Hence, the hypothesis is established as:~Ho: pi \< 71.5% Ha: pi \>71.5% Thus, the objective is to conclude that the proportion of G4 Sensor-YSI points in the present study meeting the 20 mg/dL/20% criterion is no worse than the existing FDA-approved SEVEN PLUS System. The null hypothesis will be rejected if pi observed in this study is greater than 71.5%, the G4 System performance is no worse than the historical performance of the existing FDA approved CGM system will be concluded."||||0.0001
92319134|NCT03858998|184543695|SUPERIORITY||Risk Difference (RD)|0.004||||0.91|TWO_SIDED|95.0|-0.06|0.07|||Chi-squared||Direction = Linkage minus SOC|||0.07|-0.06|0.91
92319135|NCT04157348|184543753|SUPERIORITY||Difference in remission rates|0.0121||||0.8773|TWO_SIDED|95.0|-0.1411|0.1653|||Regression, Logistic|marginal standardization method|The difference of remission rates (Benralizumab - Mepolizumab) are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|||0.1653|-0.1411|0.8773
92319136|NCT04157348|184543754|SUPERIORITY||difference in remission rates|0.0544|||||TWO_SIDED|95.0|-0.0746|0.1834|||Regression, Logistic|marginal standardization method||||0.1834|-0.0746|
92319137|NCT04157348|184543755|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.72|2.4|||Proportional Odds Model||The odds ratio (Benralizumab vs. Mepolizumab) and its 95% CI are estimated with a proportional odds model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region. A \>1 odds ratio means Benralizumab is favored.|main remission||2.40|0.72|
92319138|NCT04157348|184543755|SUPERIORITY||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.55|2.29|||Proportional Odds Model||The odds ratio (Benralizumab vs. Mepolizumab) and its 95% CI are estimated with a proportional odds model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region. A \>1 odds ratio means Benralizumab is favored.|supportive remission||2.29|0.55|
92319139|NCT04157348|184543756|SUPERIORITY||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.74|2.44|||Proportional Odds Model||The odds ratio (Benralizumab vs. Mepolizumab) and its 95% CI are estimated with a proportional odds model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|sustained main remission||2.44|0.74|
92319140|NCT04157348|184543756|SUPERIORITY||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|0.64|2.34|||Proportional Odds Model||The odds ratio (Benralizumab vs. Mepolizumab) and its 95% CI are estimated with a proportional odds model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region. A \>1 odds ratio means Benralizumab is favored.|sustained supportive remission||2.34|0.64|
92319141|NCT04157348|184543757|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.53|1.82|||Regression, Cox||The HR (Benralizumab vs. Mepolizumab) and 95% CI are estimated using a Cox regression model with Efron method to control for ties. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|relapse||1.82|0.53|
92319142|NCT04157348|184543758|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.56|1.9|||negative binomial model|marginal standardization method|The rate ratio (Benralizumab/Mepolizumab) and the corresponding 95% CI are calculated using a negative binomial model. The covariates in the model include treatment arm, baseline dose of prednisone, baseline BVAS and region.|relapse||1.90|0.56|
92319143|NCT04157348|184543760|SUPERIORITY||Odds Ratio (OR)|1.38|||||TWO_SIDED|95.0|0.75|2.54|||proportional odds model||The odds ratio (Benralizumab 30 mg vs. Mepolizumab 300 mg) and 95% CI are estimated using a proportional odds model. The covariates in the model include treatment arm, baseline dose of prednisone, baseline BVAS and region.|||2.54|0.75|
92319144|NCT04157348|184543761|SUPERIORITY||Odds Ratio (OR)|1.76|||||TWO_SIDED|95.0|0.96|3.22|||proportional odds model||The odds ratio (Benralizumab 30 mg vs. Mepolizumab 300 mg) for higher % reduction and 95% CI are estimated using a proportional odds model. The covariates in the model include treatment arm, baseline dose of prednisone, baseline BVAS and region.|||3.22|0.96|
92319145|NCT04157348|184543762|SUPERIORITY||difference in proportions|0.1079|||||TWO_SIDED|95.0|-0.0225|0.2383|||Regression, Logistic|marginal standardization method|The difference of proportions (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|\>=50% reduction||0.2383|-0.0225|
92319146|NCT04157348|184543762|SUPERIORITY||difference in proportions|0.1569|||||TWO_SIDED|95.0|0.0067|0.3017|||Regression, Logistic|marginal standardization method|The difference of proportions (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|100% reduction||0.3017|0.0067|
92319147|NCT04157348|184543762|SUPERIORITY||difference in proportions|-0.0068|||||TWO_SIDED|95.0|-0.1555|0.1418|||Regression, Logistic|marginal standardization method|The difference of proportions (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|OCS dose \<=4 mg/day||0.1418|-0.1555|
92319148|NCT04157348|184543763|SUPERIORITY||difference in response rates|0.046|||||TWO_SIDED|95.0|-0.0422|0.1341|||Regression, Logistic|marginal standardization method|The difference of response rates (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|any clinical response-definition 1||0.1341|-0.0422|
92319149|NCT04157348|184543763|SUPERIORITY||difference in response rates|0.079|||||TWO_SIDED|95.0|-0.0732|0.2312|||Regression, Logistic|marginal standardization method|The difference of response rates (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|complete response-definition 1||0.2312|-0.0732|
92319150|NCT04157348|184543764|SUPERIORITY||difference in remission rates|0.0554|||||TWO_SIDED|95.0|-0.093|0.2037|||Regression, Logistic|marginal standardization method|The difference of remission rates (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|main remission||0.2037|-0.0930|
92319151|NCT04157348|184543764|SUPERIORITY||difference in remission rates|0.0467|||||TWO_SIDED|95.0|-0.1021|0.1956|||Regression, Logistic|marginal standardization method|The difference of remission rates (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|supportive remission||0.1956|-0.1021|
92195882|NCT03672175|184290568|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|1.68||0.1138|TWO_SIDED|95.0|-0.6|6.0||MMRM with treatment, BL SF-36v2 mental component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: MCS Score||6.0|-0.6|0.1138
92195883|NCT03672175|184290568|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.74||0.7901|TWO_SIDED|95.0|-3.0|3.9||MMRM with treatment, BL SF-36v2 mental component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: MCS Score||3.9|-3.0|0.7901
92195884|NCT03672175|184290568|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.71||0.3955|TWO_SIDED|95.0|-1.9|4.8||MMRM with treatment, BL SF-36v2 mental component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: MCS Score||4.8|-1.9|0.3955
92195885|NCT03672175|184290569|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.83||0.8821|TWO_SIDED|95.0|-1.8|1.5||MMRM with treatment, BL PHQ-9 total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|MMRM|||Day 15||1.5|-1.8|0.8821
92195886|NCT03672175|184290569|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.83||0.151|TWO_SIDED|95.0|-2.8|0.4||MMRM with treatment, BL PHQ-9 total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|MMRM|||Day 15||0.4|-2.8|0.1510
92195887|NCT03672175|184290569|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.84||0.2926|TWO_SIDED|95.0|-0.8|2.5||MMRM with treatment, BL PHQ-9 total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|MMRM|||Day 42||2.5|-0.8|0.2926
92195888|NCT03672175|184290569|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.83||0.4785|TWO_SIDED|95.0|-2.2|1.0||MMRM with treatment, BL PHQ-9 total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|MMRM|||Day 42||1.0|-2.2|0.4785
92195889|NCT01313624|184290602|SUPERIORITY_OR_OTHER||Difference in least squares mean|0.8||||0.68|TWO_SIDED|95.0|-3.1|4.7||P-value was based on T-test from mixed-effect model repeated measures (MMRM).|MMRM|||||4.7|-3.1|0.68
92195890|NCT01313624|184290603|SUPERIORITY_OR_OTHER||Difference in least squares mean|1.3||||0.56|TWO_SIDED|95.0|-3.0|5.6||P-value was based on T-test from mixed-effect model repeated measures (MMRM).|MMRM|||||5.6|-3.0|0.56
92195891|NCT02654132|184290605|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0043|TWO_SIDED|95.0|0.32|0.82|||Log Rank|||||0.82|0.32|0.0043
92195892|NCT02654132|184290606|SUPERIORITY||Odds Ratio (OR)|4.62||||0.0002|TWO_SIDED|95.0|2.05|10.43|||Cochran-Mantel-Haenszel|||||10.43|2.05|0.0002
92195893|NCT02654132|184290607|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0217|TWO_SIDED|95.0|0.37|0.93|||Log Rank|||||0.93|0.37|0.0217
92195894|NCT00623363|184290616|SUPERIORITY|||||||0.503|||||||Monte Carlo estimates|||Baseline (Day -7)||||0.503
92195895|NCT00623363|184290616|SUPERIORITY||Least Squares (LS) Mean|20.6|||||TWO_SIDED|95.0|1.82|39.37||||||Average of Days 1 and 2||39.37|1.82|
92195896|NCT00623363|184290616|SUPERIORITY||Least Squares (LS) Mean|3.6|||||TWO_SIDED|95.0|-15.18|22.37||||||Change from Baseline||22.37|-15.18|
92195897|NCT00623363|184290616|SUPERIORITY||Least Squares (LS) Mean|36.59|||||TWO_SIDED|95.0|24.04|49.14||||||Average of Days 1 and 2||49.14|24.04|
92195898|NCT00623363|184290616|SUPERIORITY||Least Squares (LS) Mean|19.59||||0.16|TWO_SIDED|95.0|7.04|32.14|||ANCOVA|||Change from Baseline||32.14|7.04|0.160
92195899|NCT04706793|184290632|OTHER||Risk Difference (RD)|17.86|||||TWO_SIDED|95.0|-3.1|38.82||||||||38.82|-3.10|
92195900|NCT04706793|184290633|OTHER||Risk Difference (RD)|28.57|||||TWO_SIDED|95.0|6.28|50.86||||||||50.86|6.28|
92195901|NCT04706793|184290634|OTHER||Risk Difference (RD)|32.14|||||TWO_SIDED|95.0|9.58|54.71||||||||54.71|9.58|
92195902|NCT04706793|184290635|OTHER||Risk Difference (RD)|21.43|||||TWO_SIDED|95.0|-0.07|42.92||||||||42.92|-0.07|
92195903|NCT04706793|184290636|OTHER||Risk Difference (RD)|17.86|||||TWO_SIDED|95.0|-3.1|38.82||||||||38.82|-3.10|
92195904|NCT04706793|184290637|OTHER||Risk Difference (RD)|7.14|||||TWO_SIDED|95.0|-2.4|16.68||||||||16.68|-2.40|
92195905|NCT00823836|184290638|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of ropinirole PR/XR tablets to ropinirole IR tablets was assessed with a non-inferiority margin of 2.5.|Median Difference (Net)|0.34||||0.702|TWO_SIDED|95.0|-1.41|2.09||Analysis of covariance (ANCOVA) model: value of change from Week 0 at Week 24 = treatment group + Week 0 value|ANCOVA|||||2.09|-1.41|0.702
92195906|NCT01130168|184290700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.1|||<|0.0005|TWO_SIDED|95.0|-15.3|-10.9|||ANOVA|||||-10.9|-15.3|<0.0005
92195907|NCT01130168|184290700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.016|TWO_SIDED|95.0|-4.9|-0.6|||ANOVA|||||-0.6|-4.9|0.016
92195908|NCT01130168|184290701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.407|TWO_SIDED|95.0|-1.7|4.3|||ANOVA|||||4.3|-1.7|0.407
92195909|NCT01130168|184290701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|||<|0.0005|TWO_SIDED|95.0|-8.9|-2.9|||ANOVA|||||-2.9|-8.9|<0.0005
92195910|NCT01130168|184290702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4|||<|0.0005|TWO_SIDED|95.0|-21.2|-10.1|||ANOVA|||||-10.1|-21.2|<0.0005
92195911|NCT01130168|184290702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3||||0.001|TWO_SIDED|95.0|-17.4|-6.3|||ANOVA|||||-6.3|-17.4|0.001
92195912|NCT01130168|184290703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.186|TWO_SIDED|95.0|-9.5|1.8|||ANOVA|||||1.8|-9.5|0.186
92195913|NCT01130168|184290703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.1|||<|0.0005|TWO_SIDED|95.0|-21.7|-10.5|||ANOVA|||||-10.5|-21.7|<0.0005
92195914|NCT01130168|184290704|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-9.2|||<|0.0005|TWO_SIDED|95.0|-12.1|-6.4|||ANOVA|||||-6.4|-12.1|<0.0005
92195915|NCT01130168|184290704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.035|TWO_SIDED|95.0|-6.0|-0.3|||ANOVA|||||-0.3|-6.0|0.035
92195916|NCT01130168|184290705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.428|TWO_SIDED|95.0|-6.1|2.6|||ANOVA|||||2.6|-6.1|0.428
92195917|NCT01130168|184290705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.8|||<|0.0005|TWO_SIDED|95.0|-13.1|-4.5|||ANOVA|||||-4.5|-13.1|<0.0005
92195918|NCT01130168|184290706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.0005|TWO_SIDED|95.0|-17.5|-10.0|||ANOVA|||||-10.0|-17.5|<0.0005
92195919|NCT01130168|184290706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8||||0.015|TWO_SIDED|95.0|-8.5|-1.0|||ANOVA|||||-1.0|-8.5|0.015
92195920|NCT01130168|184290707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.112|TWO_SIDED|95.0|-9.9|1.0|||ANOVA|||||1.0|-9.9|0.112
92319152|NCT02220764|184543804|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Log Rank|||Null hypothesis: The chipping rates between tooth- and implant- supoorted FDPs are equally distributed.||||0.03
92319153|NCT03020992|184543806|OTHER||Rate ratio|0.18|||<|0.001|TWO_SIDED|95.0|0.116|0.281|||Poisson regression|||"The Poisson regression allowed for a comparison of event rates adjusting for differences in time between prestudy/on-study periods.~Event rates were based on a Poisson model with generalized estimating equations and a log-link, including an offset term for time interval length, and with period and disease duration of axSpA (\<2 years/≥2 years) as covariates. A repeated statement was included for participants and assumed an exchangeable correlation structure between prestudy and on-study flares."||0.281|0.116|<0.001
92319154|NCT05000164|184543838|SUPERIORITY||Least-square Mean|-0.12|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.17|-0.07|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|The upper limit of each 95% confidence interval was compared to 0.0 logMAR for distance.|Distance (4m)||-0.07|-0.17|
92319155|NCT05000164|184543838|SUPERIORITY||Least-square Mean|-0.01|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|95.0|-0.06|0.04|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|The upper limit of each 95% confidence interval was compared to 0.17 logMAR for intermediate.|Intermediate (64cm)||0.04|-0.06|
92319156|NCT05000164|184543838|SUPERIORITY||Least-square Mean|0.09|STANDARD_ERROR_OF_MEAN|0.024|||TWO_SIDED|95.0|0.04|0.15|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|The upper limit of each 95% confidence interval was compared to 0.17 logMAR for near.|Near (40cm)||0.15|0.04|
92319157|NCT01006122|184543839|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.747||0.418|TWO_SIDED|80.0|-0.81|1.12|||Mixed Models Analysis|||One sided p-value was based on linear mixed effects model with treatment and period as fixed effects, baseline MWT as a covariate and participant as random effect.||1.12|-0.81|0.418
92319158|NCT01006122|184543840|SUPERIORITY_OR_OTHER||LS Means Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.457||0.054|TWO_SIDED|80.0|-1.32|-0.15|||Mixed Models Analysis|||Day 5 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||-0.15|-1.32|0.054
92319159|NCT01006122|184543840|SUPERIORITY_OR_OTHER||LS Means Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.453||0.247|TWO_SIDED|80.0|-0.89|0.27|||Mixed Models Analysis|||Day 10 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||0.27|-0.89|0.247
92319160|NCT01006122|184543840|SUPERIORITY_OR_OTHER||LS Means Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.457||0.095|TWO_SIDED|80.0|-1.19|-0.01|||Mixed Models Analysis|||Day 15 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||-0.01|-1.19|0.095
92319161|NCT01006122|184543840|SUPERIORITY_OR_OTHER||LS Means Difference|0.13|STANDARD_ERROR_OF_MEAN|0.487||0.604|TWO_SIDED|80.0|-0.5|0.75|||Mixed Models Analysis|||Day 20 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||0.75|-0.50|0.604
92319162|NCT01006122|184543840|SUPERIORITY_OR_OTHER||LS Means Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.473||0.232|TWO_SIDED|80.0|-0.95|0.26|||Mixed Models Analysis|||Day 7 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||0.26|-0.95|0.232
92319163|NCT01006122|184543840|SUPERIORITY_OR_OTHER||LS Means Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.473||0.093|TWO_SIDED|80.0|-1.23|-0.02|||Mixed Models Analysis|||Day 14 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||-0.02|-1.23|0.093
92319164|NCT01006122|184543840|SUPERIORITY_OR_OTHER||LS Means Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.498||0.274|TWO_SIDED|80.0|-0.94|0.34|||Mixed Models Analysis|||Day 21 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||0.34|-0.94|0.274
92319165|NCT01006122|184543841|SUPERIORITY_OR_OTHER||LS Means Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.244||0.121|TWO_SIDED|80.0|-0.6|0.03|||Mixed Models Analysis|||Day 5 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.03|-0.60|0.121
92319166|NCT01006122|184543841|SUPERIORITY_OR_OTHER||LS Means Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.243||0.394|TWO_SIDED|80.0|-0.38|0.25|||Mixed Models Analysis|||Day 10 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.25|-0.38|0.394
92195921|NCT01130168|184290707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|||<|0.0005|TWO_SIDED|95.0|-20.7|-9.8|||ANOVA|||||-9.8|-20.7|<0.0005
92195922|NCT01130168|184290708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|||<|0.0005|TWO_SIDED|95.0|-11.8|-6.2|||ANOVA|||||-6.2|-11.8|<0.0005
92195923|NCT01130168|184290708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.039|TWO_SIDED|95.0|-5.8|-0.2|||ANOVA|||||-0.2|-5.8|0.039
92195924|NCT01130168|184290709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.267|TWO_SIDED|95.0|-6.6|1.8|||ANOVA|||||1.8|-6.6|0.267
92195925|NCT01130168|184290709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5|||<|0.0005|TWO_SIDED|95.0|-12.7|-4.3|||ANOVA|||||-4.3|-12.7|<0.0005
92195926|NCT02804399|184290750|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|14.74|||||TWO_SIDED|90.0|12.78|17.01||||||Mixed model was fitted to obtain ratio of geometric means of Rifampin 600 mg QD + PF-06463922 100 mg SD (test) to PF-06463922 100 mg SD (reference) and the results are presented as percentage. 90% CI was calculated on ratio of geometric means.||17.01|12.78|
92319167|NCT01006122|184543841|SUPERIORITY_OR_OTHER||LS Means Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.244||0.073|TWO_SIDED|80.0|-0.67|-0.04|||Mixed Models Analysis|||Day 15 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||-0.04|-0.67|0.073
92319168|NCT01006122|184543841|SUPERIORITY_OR_OTHER||LS Means Difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.495|TWO_SIDED|80.0|-0.34|0.33|||Mixed Models Analysis|||Day 20 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.33|-0.34|0.495
92319169|NCT01006122|184543841|SUPERIORITY_OR_OTHER||LS Means Difference|0.14|STANDARD_ERROR_OF_MEAN|0.253||0.711|TWO_SIDED|80.0|-0.18|0.46|||Mixed Models Analysis|||Day 7 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.46|-0.18|0.711
92319170|NCT01006122|184543841|SUPERIORITY_OR_OTHER||LS Means Difference|0.18|STANDARD_ERROR_OF_MEAN|0.253||0.767|TWO_SIDED|80.0|-0.14|0.51|||Mixed Models Analysis|||Day 14 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.51|-0.14|0.767
92319171|NCT01006122|184543841|SUPERIORITY_OR_OTHER||LS Means Difference|0.14|STANDARD_ERROR_OF_MEAN|0.266||0.698|TWO_SIDED|80.0|-0.2|0.48|||Mixed Models Analysis|||Day 21 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.48|-0.20|0.698
92319172|NCT01006122|184543844|SUPERIORITY_OR_OTHER||LS Means Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.142||0.127|TWO_SIDED|80.0|-0.34|0.02|||Mixed Models Analysis|||Day 5 (TP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.02|-0.34|0.127
92319173|NCT01006122|184543844|SUPERIORITY_OR_OTHER||LS Means Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.141||0.303|TWO_SIDED|80.0|-0.25|0.11|||Mixed Models Analysis|||Day 10 (TP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.11|-0.25|0.303
92195927|NCT02804399|184290751|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|23.88|||||TWO_SIDED|90.0|21.58|26.43||||||Mixed model was fitted to obtain ratio of geometric means of Rifampin 600 mg QD + PF-06463922 100 mg SD (test) to PF-06463922 100 mg SD (reference) and the results are presented as percentage. 90% CI was calculated on ratio of geometric means.||26.43|21.58|
92195928|NCT02804399|184290752|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|13.96|||||TWO_SIDED|90.0|12.09|16.12||||||Mixed model was fitted to obtain ratio of geometric means of Rifampin 600 mg QD + PF-06463922 100 mg SD (test) to PF-06463922 100 mg SD (reference) and the results are presented as percentage. 90% CI was calculated on ratio of geometric means.||16.12|12.09|
92195929|NCT00691678|184290853|SUPERIORITY||Mean Difference (Final Values)|-13.3||||0.004|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis measures whether there is a statistically significant change, at the 5% significance level, between the mean WOMAC score among study participants at baseline and at week 24.||||0.004
92195930|NCT02188784|184290855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.03||||0.457|TWO_SIDED|95.0|-34.38|76.43|||Regression, Linear|||||76.43|-34.38|0.4570
92319174|NCT01006122|184543844|SUPERIORITY_OR_OTHER||LS Means Difference|0.09|STANDARD_ERROR_OF_MEAN|0.143||0.738|TWO_SIDED|80.0|-0.09|0.27|||Mixed Models Analysis|||Day 15 (TP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.27|-0.09|0.738
92319175|NCT01006122|184543844|SUPERIORITY_OR_OTHER||LS Means Difference|0.16|STANDARD_ERROR_OF_MEAN|0.152||0.85|TWO_SIDED|80.0|-0.04|0.35|||Mixed Models Analysis|||Day 20 (TP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.35|-0.04|0.850
92319176|NCT01006122|184543844|SUPERIORITY_OR_OTHER||LS Means Difference|0.05|STANDARD_ERROR_OF_MEAN|0.148||0.631|TWO_SIDED|80.0|-0.14|0.24|||Mixed Models Analysis|||Day 7 (SP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.24|-0.14|0.631
92319177|NCT01006122|184543844|SUPERIORITY_OR_OTHER||LS Means Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.147||0.16|TWO_SIDED|80.0|-0.34|0.04|||Mixed Models Analysis|||Day 14 (SP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.04|-0.34|0.160
92319178|NCT01006122|184543844|SUPERIORITY_OR_OTHER||LS Means Difference|0.02|STANDARD_ERROR_OF_MEAN|0.156||0.541|TWO_SIDED|80.0|-0.18|0.22|||Mixed Models Analysis|||Day 21 (SP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.22|-0.18|0.541
92319179|NCT03493854|184543856|NON_INFERIORITY|The null hypothesis could be rejected and non-inferiority concluded if the lower bound of the 90% confidence interval of the geometric mean ratio was ≥0.8.|Geometric Mean Ratio|1.22|||||TWO_SIDED|90.0|1.14|1.31|||||The CtroughSC/CtroughIV geometric mean ratio was calculated as the SC dose of pertuzumab (Arm B) relative to the pertuzumab IV dose (Arm A).|The null hypothesis was that the pertuzumab Arm A SC dose is inferior to the pertuzumab Arm B IV dose (i.e., the CtroughSC/CtroughIV geometric mean ratio of the SC dose of pertuzumab relative to the IV dose is not greater than 0.8).||1.31|1.14|
92319180|NCT03493854|184543857|NON_INFERIORITY|The null hypothesis could be rejected and non-inferiority concluded if the lower bound of the 90% confidence interval of the geometric mean ratio was ≥0.8. Non-inferiority was tested in hierarchical order after the primary outcome measure, to adjust for multiple statistical testing and control the type I error at one sided 5% significance level.|Geometric Mean Ratio|1.33|||||TWO_SIDED|90.0|1.24|1.43|||||The CtroughSC/CtroughIV geometric mean ratio was calculated as the SC dose of trastuzumab (Arm B) relative to the trastuzumab IV dose (Arm A).|The null hypothesis was that the trastuzumab Arm B SC dose is inferior to the Arm A trastuzumab IV dose (i.e., the CtroughSC/CtroughIV geometric mean ratio of the SC dose of trastuzumab relative to the IV dose is not greater than 0.8).||1.43|1.24|
92195931|NCT02188784|184290856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.77||||0.9487|TWO_SIDED|95.0|-24.12|22.59|||Regression, Linear|||Change from Baseline to Week 8||22.59|-24.12|0.9487
92319181|NCT03493854|184543858|OTHER|Descriptive analysis only. tpCR was analyzed outside of a hypothesis-testing framework and according to the methodology outlined in the outcome measure description.|Difference in tpCR Rate|0.15|||||TWO_SIDED|95.0|-8.67|8.97|||||Difference in tpCR rate was calculated as Arm B: PH FDC SC minus Arm A: P+H IV.|||8.97|-8.67|
92319182|NCT03493854|184543859|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.2||||0.5216|TWO_SIDED|95.0|0.68|2.11|||Log Rank|||||2.11|0.68|0.5216
92319183|NCT03493854|184543860|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.15||||0.5992|TWO_SIDED|95.0|0.68|1.97|||Log Rank|||||1.97|0.68|0.5992
92319184|NCT03493854|184543861|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.2||||0.4844|TWO_SIDED|95.0|0.72|1.98|||Log Rank|||||1.98|0.72|0.4844
92319185|NCT03493854|184543862|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.16||||0.5474|TWO_SIDED|95.0|0.71|1.88|||Log Rank|||||1.88|0.71|0.5474
92319186|NCT03493854|184543863|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.17||||0.6291|TWO_SIDED|95.0|0.61|2.24|||Log Rank|||||2.24|0.61|0.6291
92319187|NCT03493854|184543864|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.26||||0.5609|TWO_SIDED|95.0|0.58|2.72|||Log Rank|||||2.72|0.58|0.5609
92319188|NCT04205643|184543885|SUPERIORITY||Difference estimated using CMH weights|21.1|||<|0.0001|TWO_SIDED|95.0|11.8|29.3||If the primary endpoint is significant, a fixed sequence procedure was employed to control the overall type I error rate of the key secondary endpoints.|Cochran-Mantel-Haenszel|Stratified by Previous biologic agent and/or JAK inhibitors exposure, Use of oral corticosteroids treatment at Week 0, Clinical remission at Week 10.|The 95% stratified Newcombe CI with CMH weights|||29.3|11.8|<0.0001
92319189|NCT02748356|184543906|OTHER|1 sample t-test|||||=|0.351|||||||t-test, 2 sided|This is a single group comparison||||||=0.351
92319190|NCT03482635|184543980|OTHER||Risk Difference (RD)|0.042|||||TWO_SIDED|95.0|-0.105|0.202|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.202|-0.105|
92319191|NCT03482635|184543980|OTHER||Risk Difference (RD)|0.087|||||TWO_SIDED|95.0|-0.069|0.268|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.268|-0.069|
92319192|NCT03482635|184543980|OTHER||Risk Difference (RD)|0.071|||||TWO_SIDED|95.0|-0.081|0.226|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.226|-0.081|
92319193|NCT03482635|184543981|OTHER||Risk Difference (RD)|-0.051|||||TWO_SIDED|95.0|-0.276|0.176|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.176|-0.276|
92319194|NCT03482635|184543981|OTHER||Risk Difference (RD)|0.043|||||TWO_SIDED|95.0|-0.199|0.28|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.280|-0.199|
92195932|NCT02188784|184290856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.67||||0.1921|TWO_SIDED|95.0|-31.71|6.37|||Regression, Linear|||Change from Baseline to Week 16||6.37|-31.71|0.1921
92319195|NCT03482635|184543981|OTHER||Risk Difference (RD)|0.033|||||TWO_SIDED|95.0|-0.204|0.252|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.252|-0.204|
92319196|NCT03482635|184543982|OTHER||Risk Difference (RD)|0.083|||||TWO_SIDED|95.0|-0.072|0.258|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.258|-0.072|
92319197|NCT03482635|184543982|OTHER||Risk Difference (RD)|0.087|||||TWO_SIDED|95.0|-0.069|0.268|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.268|-0.069|
92319198|NCT03482635|184543982|OTHER||Risk Difference (RD)|0.071|||||TWO_SIDED|95.0|-0.081|0.226|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.226|-0.081|
92319199|NCT03482635|184543983|OTHER||Risk Difference (RD)|0.083|||||TWO_SIDED|95.0|-0.072|0.258|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\].|||0.258|-0.072|
92319200|NCT03482635|184543983|OTHER||Risk Difference (RD)|0.043|||||TWO_SIDED|95.0|-0.104|0.21|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\].|||0.210|-0.104|
92319201|NCT03482635|184543983|OTHER||Risk Difference (RD)|0.036|||||TWO_SIDED|95.0|-0.11|0.177|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\].|||0.177|-0.110|
92319202|NCT03482635|184543984|OTHER||Difference of adjusted means|-0.3|STANDARD_ERROR_OF_MEAN|10.7||0.9776|TWO_SIDED|95.0|-21.6|21.0|||Mixed Models Analysis|||Restricted maximum likelihood (REML)-based repeated measures approach. The model included fixed, categorical effects of treatment, visit, and treatment by visit interaction, and stratification factors (prior biologic treatment failure and concomitant corticosteroid therapy at Visit 2/randomisation), as well as the continuous fixed covariates of baseline and baseline-by-visit interaction. An unstructured covariance structure was used to model the within-patient measurements.||21.0|-21.6|0.9776
92319203|NCT03482635|184543984|OTHER||Difference of adjusted means|1.4|STANDARD_ERROR_OF_MEAN|10.6||0.894|TWO_SIDED|95.0|-19.6|22.4|||Mixed Models Analysis|||Restricted maximum likelihood (REML)-based repeated measures approach. The model included fixed, categorical effects of treatment, visit, and treatment by visit interaction, and stratification factors (prior biologic treatment failure and concomitant corticosteroid therapy at Visit 2/randomisation), as well as the continuous fixed covariates of baseline and baseline-by-visit interaction. An unstructured covariance structure was used to model the within-patient measurements.||22.4|-19.6|0.8940
92319204|NCT03482635|184543984|OTHER||Difference of adjusted means|1.0|STANDARD_ERROR_OF_MEAN|10.6||0.9241|TWO_SIDED|95.0|-20.0|22.1|||Mixed Models Analysis|||Restricted maximum likelihood (REML)-based repeated measures approach. The model included fixed, categorical effects of treatment, visit, and treatment by visit interaction, and stratification factors (prior biologic treatment failure and concomitant corticosteroid therapy at Visit 2/randomisation), as well as the continuous fixed covariates of baseline and baseline-by-visit interaction. An unstructured covariance structure was used to model the within-patient measurements||22.1|-20.0|0.9241
92195933|NCT02188784|184290857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|182.43||||0.4296|TWO_SIDED|95.0|-272.14|637.0|||Regression, Linear|||||637.0|-272.14|0.4296
92319205|NCT01804946|184543994|NON_INFERIORITY_OR_EQUIVALENCE|The pre-determined margin of 20% of the control group effect was used.|Risk Difference (RD)|0.0||||0.05|ONE_SIDED|95.0||||One-sided, p-value was adjusted for multiple comparisons using the adaptive Holm method|Wald method of Z statistics calculation|Wald method of Z statistics computed a confidence interval of proportion difference.||PP set was analyzed||||0.05
92319206|NCT01804946|184543995|NON_INFERIORITY_OR_EQUIVALENCE|The pre-determined margin of 20% of the control group effect was used.|Risk Difference (RD)|0.0|||<|0.05|ONE_SIDED|95.0||||One-sided, p-value was adjusted for multiple comparisons using the adaptive Holm method|Wald method of Z statistics calculation|Wald method of Z statistics computed a confidence interval of proportion difference.||PP set was analyzed||||<0.05
92319207|NCT01804946|184543996|NON_INFERIORITY_OR_EQUIVALENCE|The clinically significant margin was assumed to be 0.2 of Oseltamivir effect|Mean Difference (Final Values)|0.0|||<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons, the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|Means were compared using the modified two-sample Student t-test including computation of a confidence interval for a difference between means||PP set was analyzed||||<0.05
92319208|NCT01804946|184543997|NON_INFERIORITY_OR_EQUIVALENCE|The clinically significant margin was assumed to be 0.2°C|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.5|<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons, the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|Means were compared using the modified two-sample Student t-test including computation of a confidence interval for a difference between means.||PP set was analyzed||||<0.05
92319209|NCT01804946|184543998|NON_INFERIORITY_OR_EQUIVALENCE|The margin of no clinical importance was assumed to be 0.5 point or less to assess any symptom based on 4 point scale.|Mean Difference (Final Values)|0.0|||<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|Means were compared using the modified two-sample Student t-test including computation of a confidence interval for a difference between means||PP set was analyzed||||<0.05
92319210|NCT01804946|184543999|NON_INFERIORITY_OR_EQUIVALENCE|To compare the number of antipyretic intake the margin of no clinical importance was assumed to be 0.2|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.5|<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons, the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|Means were compared using the modified two-sample Student t-test including computation of a confidence interval for a difference between means||PP set was analyzed||||<0.05
92319211|NCT01804946|184544000|NON_INFERIORITY_OR_EQUIVALENCE|To compare the quality of life total score the margin of no clinical importance was assumed to be 0.2 of Oseltamivir group value|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|2.2|<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons, the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|The changes of means (Day 7 vs Day 1) were compared using the modified two-sample Student t-test including computation of a confidence interval||PP set was analyzed||||<0.05
92319212|NCT01804946|184544001|NON_INFERIORITY_OR_EQUIVALENCE|To compare the patient subjective health status assessment the margin of no clinical importance was assumed to be 0.2 of Oseltamivir group value|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|18.2|<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons, the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|Changes of means (Day 7 vs Day 1) were compared using the modified two-sample Student t-test including computation of a confidence interval||PP set was analyzed||||<0.05
92319213|NCT01804946|184544002|NON_INFERIORITY_OR_EQUIVALENCE|The clinically significant difference (margin) between two percentages was assumed to be 20% or more of the effect of Oseltamivir|Risk Difference (RD)|0.0|||<|0.05|ONE_SIDED|95.0|||||The Wald method of Z statistics calcul|The Wald method of Z statistics calculation was performed including computation a confidence interval for a difference between proportions||PP set was analyzed||||<0.05
92319214|NCT01445730|184544027|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92319215|NCT01445730|184544028|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92319216|NCT01445730|184544029|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92195934|NCT02188784|184290858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.6||||0.0722|TWO_SIDED|95.0|-0.33|7.52|||Regression, Linear|||Change from baseline to week 8||7.52|-0.33|0.0722
92319217|NCT01445730|184544030|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92319218|NCT01445730|184544031|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
92319219|NCT01445730|184544032|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92319220|NCT01445730|184544033|OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92319221|NCT01938092|184544039|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||||||0.62
92319222|NCT01938092|184544040|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.66
92319223|NCT01938092|184544041|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
92195935|NCT02188784|184290858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.71||||0.6927|TWO_SIDED|95.0|-2.83|4.24|||Regression, Linear|||Change from baseline to week 16||4.24|-2.83|0.6927
92195936|NCT02188784|184290859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.56||||0.0643|TWO_SIDED|95.0|-0.21|7.33|||Regression, Linear|||||7.33|-0.21|0.0643
92195937|NCT02188784|184290860|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77||||0.4006|TWO_SIDED|95.0|-1.04|2.58|||Regression, Linear|||||2.58|-1.04|0.4006
92195938|NCT01568112|184290870|SUPERIORITY_OR_OTHER||Difference in percentage|-9.0|||||TWO_SIDED|95.0|-30.8|12.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||12.9|-30.8|
92319224|NCT01367886|184544042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.53|STANDARD_DEVIATION|4.88||0.19|||||||t-test, 2 sided|||||||0.19
92319225|NCT01367886|184544043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|STANDARD_DEVIATION|0.87||0.0021|||||||t-test, 2 sided|||||||0.0021
92319226|NCT01367886|184544044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34|STANDARD_DEVIATION|1.02||0.18|||||||t-test, 2 sided|||||||0.18
92319227|NCT01367886|184544045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.38|STANDARD_DEVIATION|1.34||0.0025|||||||t-test, 2 sided|||||||0.0025
92319228|NCT00985504|184544051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.612|TWO_SIDED|95.0|-1.87|1.1|||Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||1.10|-1.87|0.612
92319229|NCT00985504|184544052|SUPERIORITY_OR_OTHER|||||||0.504||95.0||||This is the p-value for Cognition Items Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.504
92319230|NCT00985504|184544052|SUPERIORITY_OR_OTHER|||||||0.665||95.0||||This is the p-value for the Behavior Items Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.665
92319231|NCT00985504|184544052|SUPERIORITY_OR_OTHER|||||||0.489||95.0||||This is the p-value for Emotional Items Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.489
92319232|NCT00985504|184544052|SUPERIORITY_OR_OTHER|||||||0.945||95.0||||This is the p-value for Other Items Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.945
92319233|NCT00985504|184544053|SUPERIORITY_OR_OTHER|||||||0.157||95.0||||This is the p-value for the Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.157
92319234|NCT00985504|184544053|SUPERIORITY_OR_OTHER|||||||0.119||95.0||||This is the p-value for the Energy Level score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.119
92319235|NCT00985504|184544053|SUPERIORITY_OR_OTHER|||||||0.184||95.0||||This is the p-value for the Motivation and Interest score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.184
92319236|NCT00985504|184544053|SUPERIORITY_OR_OTHER|||||||0.226||95.0||||This is the p-value for the Cognitive Functioning score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.226
92319237|NCT00985504|184544053|SUPERIORITY_OR_OTHER|||||||0.059||95.0||||This is the p-value for the Weight Gain score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.059
92319238|NCT00985504|184544053|SUPERIORITY_OR_OTHER|||||||0.466||95.0||||This is the p-value for the Sleep score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.466
92319239|NCT00985504|184544053|SUPERIORITY_OR_OTHER|||||||0.822||95.0||||This is the p-value for the Sexual Functioning score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.822
92319240|NCT00985504|184544053|SUPERIORITY_OR_OTHER|||||||0.599||95.0||||This is the p-value for the Affect score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.599
92319241|NCT00985504|184544054|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||This is the p-value for the PGI-I.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.723
92195939|NCT01568112|184290870|SUPERIORITY_OR_OTHER||Difference in percentage|7.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||27.8|-14.1|
92319242|NCT00985504|184544055|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.410
92319243|NCT00985504|184544056|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||This is the p-value for the Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.880
92319244|NCT00985504|184544056|SUPERIORITY_OR_OTHER|||||||0.224||95.0||||This is the p-value for the Item 8 (Inability to Feel) score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.224
92319245|NCT00985504|184544057|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED|95.0||||This is the p-value for the Total Score.|ANCOVA|ANCOVA main effect F test||||||0.910
92319246|NCT00985504|184544057|SUPERIORITY_OR_OTHER|||||||0.882||95.0||||This is the p-value for the Motivation/Interest/Enthusiasm Score.|ANCOVA|ANCOVA main effect F test||||||0.882
92195940|NCT01568112|184290870|SUPERIORITY_OR_OTHER||Difference in percentage|-9.0|||||TWO_SIDED|95.0|-30.8|12.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall redness events||12.9|-30.8|
92319247|NCT00985504|184544057|SUPERIORITY_OR_OTHER|||||||0.657||95.0||||This is the p-value for the Wakefulness/Alertness Score.|ANCOVA|ANCOVA main effect F test||||||0.657
92319248|NCT00985504|184544057|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||This is the p-value for the Energy Score.|ANCOVA|ANCOVA main effect F test||||||0.457
92319249|NCT00985504|184544057|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||This is the p-value for the Ability to Focus/Sustain Attention Score.|ANCOVA|ANCOVA main effect F test||||||0.737
92319250|NCT00985504|184544057|SUPERIORITY_OR_OTHER|||||||0.404||95.0||||This is the p-value for the Ability to Remember/Recall Information Score.|ANCOVA|ANCOVA main effect F test||||||0.404
92319251|NCT00985504|184544057|SUPERIORITY_OR_OTHER|||||||0.808||95.0||||This is the p-value for the Ability to Find Words Score.|ANCOVA|ANCOVA main effect F test||||||0.808
92195941|NCT01568112|184290870|SUPERIORITY_OR_OTHER||Difference in percentage|4.0|||||TWO_SIDED|95.0|-16.4|25.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall redness events||25.5|-16.4|
92319252|NCT00985504|184544057|SUPERIORITY_OR_OTHER|||||||0.431||95.0||||This is the p-value for the Sharpness/Mental Acuity Score.|ANCOVA|ANCOVA main effect F test||||||0.431
92319253|NCT00985504|184544058|SUPERIORITY_OR_OTHER|||||||0.821||95.0||||This is the p-value for the SDS Total Score.|ANCOVA|ANCOVA main effect F test||||||0.821
92319254|NCT00985504|184544058|SUPERIORITY_OR_OTHER|||||||0.491||95.0||||This is the p-value for the Item 1 (Work) Score.|ANCOVA|ANCOVA main effect F test||||||0.491
92319255|NCT00985504|184544058|SUPERIORITY_OR_OTHER|||||||0.451||95.0||||This is the p-value for the Item 2 (Family) Score.|ANCOVA|ANCOVA main effect F test||||||0.451
92319256|NCT00985504|184544058|SUPERIORITY_OR_OTHER|||||||0.443||95.0||||This is the p-value for the Item 3 (Social) Score.|ANCOVA|ANCOVA main effect F test||||||0.443
92319257|NCT00985504|184544058|SUPERIORITY_OR_OTHER|||||||0.719||95.0||||This is the p-value for the Item 4 (Days Lost) Score.|ANCOVA|ANCOVA main effect F test||||||0.719
92319258|NCT00985504|184544058|SUPERIORITY_OR_OTHER|||||||0.517||95.0||||This is the p-value for the Item 5 (Days Underproductive) Score.|ANCOVA|ANCOVA main effect F test||||||0.517
92319259|NCT00985504|184544059|SUPERIORITY_OR_OTHER|||||||0.776||95.0|||||Fisher Exact|||||||0.776
92319260|NCT00985504|184544060|SUPERIORITY_OR_OTHER|||||||0.691||95.0|||||Log Rank|||The log-rank test was conducted using Kaplan-Meier Product-Limit method.||||0.691
92319261|NCT00985504|184544061|SUPERIORITY_OR_OTHER|||||||0.724||95.0|||||Fisher Exact|||||||0.724
92319262|NCT03805412|184544068|SUPERIORITY|||||||0.694|||||||t-test, 2 sided|||||||0.694
92319263|NCT03711786|184544071|SUPERIORITY||Odds Ratio (OR)|1.2||||0.836|TWO_SIDED|95.0|0.22|6.65|||Regression - GEE, logistic|From Wald z-statistic from generalized estimating equations (GEE) model with bias-corrected standard error|Enhanced arm (index) compared to basic arm (referent). GEE model with bias-corrected standard errors.|||6.65|0.22|0.836
92319264|NCT03711786|184544072|SUPERIORITY||Odds Ratio (OR)|0.86||||0.877|TWO_SIDED|95.0|0.12|6.14|||Regression - GEE, logistic|From Wald z-statistic from GEE model with bias-corrected standard error|Enhanced arm (index) compared to basic arm (referent). GEE model with bias-corrected standard errors.|||6.14|0.12|0.877
92319265|NCT03711786|184544073|SUPERIORITY||Odds Ratio (OR)|18.36||||0.001|TWO_SIDED|95.0|3.23|104.23|||Regression - GEE, logistic|From Wald z-statistic from GEE model with bias-corrected standard error|Enhanced arm (index) compared to basic arm (referent). GEE model with bias-corrected standard errors.|||104.23|3.23|0.001
92319266|NCT03711786|184544074|SUPERIORITY||Odds Ratio (OR)|2.15||||0.017|TWO_SIDED|95.0|1.15|4.01|||Regression - GEE, logistic|From Wald z-statistic from GEE model with bias-corrected standard error|Enhanced arm (index) compared to basic arm (referent). GEE model with bias-corrected standard errors.|||4.01|1.15|0.017
92319267|NCT03711786|184544075|SUPERIORITY||Odds Ratio (OR)|0.9||||0.759|TWO_SIDED|95.0|0.45|1.8|||Regression - GEE, logistic|From Wald z-statistic from GEE model with bias-corrected standard error|Enhanced arm (index) compared to basic arm (referent). GEE model with bias-corrected standard errors.|||1.80|0.45|0.759
92319268|NCT01465412|184544076|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the least squares mean (LSM) Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.075|||||TWO_SIDED|90.0|0.695|1.662||||||The analysis was performed using an analysis of covariance (ANCOVA) model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, Body Mass Index (BMI) and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||1.662|0.695|
92319269|NCT01465412|184544076|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|2.598|||||TWO_SIDED|90.0|1.334|5.06||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||5.060|1.334|
92319270|NCT01465412|184544077|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.305|||||TWO_SIDED|90.0|0.84|2.027||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||2.027|0.840|
92319271|NCT01465412|184544077|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.434|||||TWO_SIDED|90.0|0.643|3.198||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||3.198|0.643|
92319272|NCT01465412|184544078|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.852|||||TWO_SIDED|90.0|0.81|4.234||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||4.234|0.810|
92195942|NCT01568112|184290870|SUPERIORITY_OR_OTHER||Difference in percentage|-21.0|||||TWO_SIDED|95.0|-41.7|1.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall tingling events||1.3|-41.7|
92195943|NCT01568112|184290870|SUPERIORITY_OR_OTHER||Difference in percentage|-3.0|||||TWO_SIDED|95.0|-23.3|18.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall tingling events||18.7|-23.3|
92195944|NCT01568112|184290870|SUPERIORITY_OR_OTHER||Difference in percentage|-14.0|||||TWO_SIDED|95.0|-35.2|8.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall itching events||8.3|-35.2|
92195945|NCT01568112|184290870|SUPERIORITY_OR_OTHER||Difference in percentage|12.0|||||TWO_SIDED|95.0|-9.5|32.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall itching events||32.2|-9.5|
92195946|NCT01568112|184290870|SUPERIORITY_OR_OTHER||Difference in percentage|-9.0|||||TWO_SIDED|95.0|-30.8|12.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall warmth events||12.9|-30.8|
92195947|NCT01568112|184290870|SUPERIORITY_OR_OTHER||Difference in percentage|5.0|||||TWO_SIDED|95.0|-16.4|25.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall warmth events||25.5|-16.4|
92195948|NCT01568112|184290871|SUPERIORITY_OR_OTHER||Difference in percentage|-14.0|||||TWO_SIDED|95.0|-35.2|8.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||8.3|-35.2|
92195949|NCT01568112|184290871|SUPERIORITY_OR_OTHER||Difference in percentage|12.0|||||TWO_SIDED|95.0|-9.5|32.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||32.2|-9.5|
92195950|NCT01568112|184290871|SUPERIORITY_OR_OTHER||Difference in percentage|-19.0|||||TWO_SIDED|95.0|-39.6|3.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||3.7|-39.6|
92195951|NCT01568112|184290871|SUPERIORITY_OR_OTHER||Difference in percentage|7.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||27.8|-14.1|
92195952|NCT01568112|184290871|SUPERIORITY_OR_OTHER||Difference in percentage|-21.0|||||TWO_SIDED|95.0|-41.7|1.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||1.3|-41.7|
92195953|NCT01568112|184290871|SUPERIORITY_OR_OTHER||Difference in percentage|7.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||27.8|-14.1|
92195954|NCT01568112|184290871|SUPERIORITY_OR_OTHER||Difference in percentage|-33.0|||||TWO_SIDED|95.0|-52.2|-10.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||-10.6|-52.2|
92319273|NCT01465412|184544078|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|2.392|||||TWO_SIDED|90.0|1.306|4.382||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||4.382|1.306|
92319274|NCT01465412|184544079|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.548|||||TWO_SIDED|90.0|0.918|2.61||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||2.610|0.918|
92319275|NCT01465412|184544079|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.407|||||TWO_SIDED|90.0|0.72|2.75||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||2.750|0.720|
92319276|NCT01465412|184544080|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.555|||||TWO_SIDED|90.0|0.617|3.917||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||3.917|0.617|
92319277|NCT01465412|184544080|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|4.806|||||TWO_SIDED|90.0|2.77|8.335||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||8.335|2.770|
92319278|NCT01465412|184544081|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.269|||||TWO_SIDED|90.0|0.703|2.288||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||2.288|0.703|
92319279|NCT01465412|184544081|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.98|||||TWO_SIDED|90.0|1.316|2.977||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||2.977|1.316|
92319280|NCT01465412|184544082|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.326|||||TWO_SIDED|90.0|0.749|2.348||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||2.348|0.749|
92195955|NCT01568112|184290871|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-21.0|21.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||21.0|-21.0|
92319281|NCT01465412|184544082|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|4.041|||||TWO_SIDED|90.0|1.46|11.187||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||11.187|1.460|
92319282|NCT01465412|184544083|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.609|||||TWO_SIDED|90.0|1.007|2.572||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||2.572|1.007|
92319283|NCT01465412|184544083|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|2.231|||||TWO_SIDED|90.0|0.844|5.896||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||5.896|0.844|
92319284|NCT04390113|184544094|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.6253|TWO_SIDED|95.0|0.55|1.55|||Log Rank|||||1.55|0.55|0.6253
92319285|NCT01611883|184544101|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Ezetimibe treatment group will be considered non-inferior to the placebo control group if the upper bound of the two-sided 95% confidence interval (CI) of the between-treatment difference (ezetimibe minus placebo) in means for change in HbA1c from baseline to the end of treatment does not exceed 0.5%.|Difference in Least-squares Means|0.08|||||TWO_SIDED|95.0|-0.07|0.23|||Longitudinal analysis of covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||0.23|-0.07|
92195956|NCT01568112|184290871|SUPERIORITY_OR_OTHER||Difference in percentage|-21.0|||||TWO_SIDED|95.0|-41.7|1.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||1.3|-41.7|
92195957|NCT01568112|184290871|SUPERIORITY_OR_OTHER||Difference in percentage|18.0|||||TWO_SIDED|95.0|-2.4|38.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||38.8|-2.4|
92195958|NCT01568112|184290872|SUPERIORITY_OR_OTHER||Difference in percentage|-14.0|||||TWO_SIDED|95.0|-35.6|9.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||9.2|-35.6|
92195959|NCT01568112|184290872|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-24.7|21.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||21.7|-24.7|
92195960|NCT01568112|184290872|SUPERIORITY_OR_OTHER||Difference in percentage|-14.0|||||TWO_SIDED|95.0|-35.6|9.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||9.2|-35.6|
92195961|NCT01568112|184290872|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-22.9|23.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||23.7|-22.9|
92195962|NCT01568112|184290872|SUPERIORITY_OR_OTHER||Difference in percentage|-11.0|||||TWO_SIDED|95.0|-33.0|11.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||11.9|-33.0|
92195963|NCT01568112|184290872|SUPERIORITY_OR_OTHER||Difference in percentage|-5.0|||||TWO_SIDED|95.0|-27.5|18.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||18.8|-27.5|
92195964|NCT01568112|184290872|SUPERIORITY_OR_OTHER||Difference in percentage|-17.0|||||TWO_SIDED|95.0|-38.1|6.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||6.5|-38.1|
92195965|NCT01568112|184290872|SUPERIORITY_OR_OTHER||Difference in percentage|-11.0|||||TWO_SIDED|95.0|-34.2|12.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||12.2|-34.2|
92195966|NCT01568112|184290872|SUPERIORITY_OR_OTHER||Difference in percentage|-20.0|||||TWO_SIDED|95.0|-40.6|3.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||3.8|-40.6|
92195967|NCT01568112|184290872|SUPERIORITY_OR_OTHER||Difference in percentage|-18.0|||||TWO_SIDED|95.0|-40.2|5.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||5.5|-40.2|
92195968|NCT01568112|184290873|SUPERIORITY_OR_OTHER||Mean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-3.0|-0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||-0.9|-3.0|
92195969|NCT01568112|184290873|SUPERIORITY_OR_OTHER||Mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|0.2|2.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||2.3|0.2|
92195970|NCT01568112|184290873|SUPERIORITY_OR_OTHER||Mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-3.2|-1.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||-1.2|-3.2|
92195971|NCT01568112|184290873|SUPERIORITY_OR_OTHER||Mean difference|1.3|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|0.1|2.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||2.5|0.1|
92195972|NCT01568112|184290873|SUPERIORITY_OR_OTHER||Mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|-2.8|-0.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||-0.7|-2.8|
92195973|NCT01568112|184290873|SUPERIORITY_OR_OTHER||Mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|0.1|2.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||2.3|0.1|
92195974|NCT01568112|184290873|SUPERIORITY_OR_OTHER||Mean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.7|-0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||-0.9|-2.7|
92195975|NCT01568112|184290873|SUPERIORITY_OR_OTHER||Mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-0.4|1.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||1.6|-0.4|
92195976|NCT01568112|184290873|SUPERIORITY_OR_OTHER||Mean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-2.8|-1.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||-1.0|-2.8|
92195977|NCT01568112|184290873|SUPERIORITY_OR_OTHER||Mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|0.2|2.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||2.2|0.2|
92195978|NCT01568112|184290874|SUPERIORITY_OR_OTHER||Mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-1.7|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||0.8|-1.7|
92195979|NCT01568112|184290874|SUPERIORITY_OR_OTHER||Mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|-1.8|0.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||0.4|-1.8|
92195980|NCT01568112|184290874|SUPERIORITY_OR_OTHER||Mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-2.0|0.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||0.6|-2.0|
92195981|NCT01568112|184290874|SUPERIORITY_OR_OTHER||Mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.9|0.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||0.5|-1.9|
92195982|NCT01568112|184290874|SUPERIORITY_OR_OTHER||Mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-2.0|0.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||0.4|-2.0|
92195983|NCT01568112|184290874|SUPERIORITY_OR_OTHER||Mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-2.1|0.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||0.2|-2.1|
92195984|NCT01568112|184290874|SUPERIORITY_OR_OTHER||Mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|-2.2|0.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||0.1|-2.2|
92195985|NCT01568112|184290874|SUPERIORITY_OR_OTHER||Mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-2.2|0.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||-0.0|-2.2|
92195986|NCT01568112|184290874|SUPERIORITY_OR_OTHER||Mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-2.1|0.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||0.4|-2.1|
92195987|NCT01568112|184290874|SUPERIORITY_OR_OTHER||Mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-2.4|-0.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||-0.1|-2.4|
92195988|NCT01568112|184290875|SUPERIORITY_OR_OTHER||Difference in percentage|-12.0|||||TWO_SIDED|95.0|-32.2|9.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||9.5|-32.2|
92195989|NCT01568112|184290875|SUPERIORITY_OR_OTHER||Difference in percentage|7.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||27.8|-14.1|
92319286|NCT01611883|184544102|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|0.0|||||TWO_SIDED|95.0|-0.47|0.47|||Longitudinal analysis of covariance||ezetimibe minus placebo|||0.47|-0.47|
92319287|NCT01611883|184544103|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-4.8|||||TWO_SIDED|95.0|-12.1|2.5|||Longitudinal Analysis of Covariance||ezetimibe minus placebo|||2.5|-12.1|
92319288|NCT01611883|184544104|SUPERIORITY_OR_OTHER_LEGACY|||||||0.779|||||||Fisher Exact|||Comparison of percentage difference between ezetimibe and placebo||||0.779
92319289|NCT01611883|184544105|SUPERIORITY_OR_OTHER_LEGACY|||||||0.365|||||||Fisher Exact|||Comparison of percentage difference between ezetimibe and placebo||||0.365
92319290|NCT01611883|184544106|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-21.05|||<|0.001|TWO_SIDED|95.0|-25.06|-17.03|||Longitudinal analysis of covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||-17.03|-25.06|<0.001
92319291|NCT01611883|184544107|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-13.54|||<|0.001|TWO_SIDED|95.0|-16.66|-10.42|||Longitudinal analysis of covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||-10.42|-16.66|<0.001
92319292|NCT01611883|184544108|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-11.36||||0.025|TWO_SIDED|95.0|-21.27|-1.44|||Longitudinal Analysis of Covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||-1.44|-21.27|0.025
92319293|NCT01611883|184544109|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|2.45||||0.246|TWO_SIDED|95.0|-1.71|6.61|||Longitudinal Analysis of Covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||6.61|-1.71|0.246
92319294|NCT01611883|184544110|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-19.07|||<|0.001|TWO_SIDED|95.0|-22.71|-15.43|||Longitudinal Analysis of Covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||-15.43|-22.71|<0.001
92319295|NCT07091916|184544125|OTHER|This objective was for the purpose of gathering data pertaining to device safety over the first 2 weeks post-implant. There were no pre-specified performance criteria or hypotheses for this objective.|Proportion|92.9|||||TWO_SIDED||||||descriptive statistics|||The first primary objective is to characterize the freedom from major complications related to the EV ICD System and/or procedure at 2 weeks post-implant. The endpoint is defined as a subject's first occurrence of a major complication related to the EV ICD System and/or procedure, as determined by an independent Clinical Events Committee (CEC), that occurs on or prior to 2 weeks (14 days) post-implant.||||
92319296|NCT07091916|184544126|OTHER|There were no hypotheses for this objective.|Proportion|100.0|||||||||||descriptive statistics|||The primary efficacy objective was to characterize the defibrillation efficacy at implant of the EV ICD System.||||
92319297|NCT05682729|184544127|SUPERIORITY||Partial Eta Squared|0.03||||0.41|TWO_SIDED|||||A priori threshold for statistical significance was p \< .05. Wilks' Lambda F(3, 109) = .96, p = .41, ηp2 = .03.|ANCOVA|||We specifically compared the pre-to-post test change in accuracy on the FAM task across the four groups using a within-subjects ANCOVA and specifically a group by time (pre-to-post test) interaction. We controlled for age, gender, and children's executive function skills.||||.41
92319298|NCT05682729|184544127|SUPERIORITY||Partial Eta Squared|0.07||||0.004|TWO_SIDED||||||ANCOVA|||Following the omnibus test, we conducted planned comparisons to compare pre-to-post test change within our experimental and control groups to test for significant positive change from pre-to-post test.||||.004
92319299|NCT05682729|184544127|SUPERIORITY||Partial Eta Squared|0.04||||0.031|TWO_SIDED||||||ANCOVA|||Following the omnibus test, we conducted planned comparisons to compare pre-to-post test change within our experimental and control groups to test for significant positive change from pre-to-post test.||||.031
92319300|NCT05682729|184544127|SUPERIORITY||Partial Eta Squared|0.01||||0.463|TWO_SIDED||||||ANCOVA|||Following the omnibus test, we conducted planned comparisons to compare pre-to-post test change within our experimental and control groups to test for significant positive change from pre-to-post test.||||.463
92319301|NCT05682729|184544127|SUPERIORITY||Partial Eta Squared|0.02||||0.186|TWO_SIDED||||||ANCOVA|||Following the omnibus test, we conducted planned comparisons to compare pre-to-post test change within our experimental and control groups to test for significant positive change from pre-to-post test.||||.186
92319302|NCT05682729|184544128|SUPERIORITY||Partial Eta Squared|0.02||||0.605|TWO_SIDED||||||ANCOVA|||||||.605
92195990|NCT01568112|184290876|SUPERIORITY_OR_OTHER||Difference in percentage|-22.0|||||TWO_SIDED|95.0|-41.0|0.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||0.1|-41.0|
92319303|NCT05682729|184544129|SUPERIORITY||Partial Eta Squared|0.02||||0.618|TWO_SIDED||||||ANCOVA|||||||.618
92319304|NCT03100903|184544130|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale, accounting for the treatment group as a source of variation. The effect 'treatment group' was considered as fixed.|Geometric Mean ratio (%)|71.64|||||TWO_SIDED|90.0|60.57|84.73|||||"gMean ratio = gMean of BI 655130 high dose SC/gMean of BI 655130 high dose IV.~Inter-individual geometric coefficient of variation (gCV) \[%\] = 23.7"|||84.73|60.57|
92319305|NCT03100903|184544131|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale, accounting for the treatment group as a source of variation. The effect 'treatment group' was considered as fixed.|Geometric Mean (gMean) Ratio %|29.29|||||TWO_SIDED|90.0|24.27|35.35|||||"gMean ratio = gMean of BI 655130 high dose SC/gMean of BI 655130 high dose IV.~Inter-individual geometric coefficient of variation (gCV) \[%\] = 26.6"|||35.35|24.27|
92195991|NCT01568112|184290876|SUPERIORITY_OR_OTHER||Difference in percentage|7.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||27.8|-14.1|
92195992|NCT01568112|184290877|SUPERIORITY_OR_OTHER||Difference in percentage|-20.0|||||TWO_SIDED|95.0|-40.6|3.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||3.8|-40.6|
92195993|NCT01568112|184290877|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-24.7|21.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||21.7|-24.7|
92319306|NCT03100903|184544132|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale, accounting for the treatment group as a source of variation. The effect 'treatment group' was considered as fixed.|Geometric Mean (gMean) Ratio %|70.22|||||TWO_SIDED|90.0|59.26|83.2|||||"gMean ratio = gMean of BI 655130 high dose SC/gMean of BI 655130 high dose IV.~Inter-individual geometric coefficient of variation (gCV) \[%\] = 23.9"|||83.20|59.26|
92319307|NCT04659993|184544133|SUPERIORITY|To test the change over the 8 weeks, a paired t-test (using the baseline and Visit 8 scores within the same patient) will be used; the expected difference in the CBI-B between the two scores would be no change. All statistical test used an alpha of 0.05.|Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|7.8||0.8036|TWO_SIDED|95.0|-7.3|9.0||All statistical tests were performed with a significance level of 0.05.|t-test, 2 sided|||To test the change over the 8 weeks, a paired t-test (using the baseline and Visit 8 scores within the same patient) will be used; the expected difference in the CBI-B between the two scores would be no change. All statistical test used an alpha of 0.05.||9.0|-7.3|0.8036
92319308|NCT04659993|184544134|SUPERIORITY|Paired t-test for Coronavirus Anxiety Scale. Statistical significance using alpha of 0.05.|Mean Difference (Net)|-0.2|STANDARD_DEVIATION|0.4||0.3632|TWO_SIDED|95.0|-0.6|0.3|||t-test, 2 sided|||||0.3|-0.6|0.3632
92319309|NCT04659993|184544135|SUPERIORITY|Paired t-test of Purpose in life test. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|9.7||0.7918|TWO_SIDED|95.0|-11.3|9.1|||t-test, 2 sided|||||9.1|-11.3|0.7918
92319310|NCT04659993|184544136|SUPERIORITY|Paired t-test of The Mini-Mental Adjustment to Cancer Anxious preoccupation Subscale. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|-0.7|STANDARD_DEVIATION|5.3||0.7711|TWO_SIDED|95.0|-6.2|4.9|||t-test, 2 sided|||||4.9|-6.2|0.7711
92319311|NCT04659993|184544136|SUPERIORITY|Paired t-test of The Mini-Mental Adjustment to Cancer Cognitive avoidance Subscale. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|-5.3|STANDARD_DEVIATION|5.9||0.0772|TWO_SIDED|95.0|-11.5|0.8|||t-test, 2 sided|||||0.8|-11.5|0.0772
92319312|NCT04659993|184544136|SUPERIORITY|Paired t-test of The Mini-Mental Adjustment to Cancer Fatalism Subscale. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|5.6||0.2452|TWO_SIDED|95.0|-2.9|8.9|||t-test, 2 sided|||||8.9|-2.9|0.2452
92319313|NCT04659993|184544136|SUPERIORITY|Paired t-test of The Mini-Mental Adjustment to Cancer Fighting spirit Subscale. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|-1.8|STANDARD_DEVIATION|8.3||0.6099|TWO_SIDED|95.0|-10.5|6.8|||t-test, 2 sided|||||6.8|-10.5|0.6099
92319314|NCT04659993|184544136|SUPERIORITY|Paired t-test of The Mini-Mental Adjustment to Cancer Helplessness/hopelessness Subscale. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|3.5||0.0913|TWO_SIDED|95.0|-6.7|0.7|||t-test, 2 sided|||||0.7|-6.7|0.0913
92319315|NCT04850989|184544137|SUPERIORITY||Mean Difference (Net)|-5.14|STANDARD_DEVIATION|0.49|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.05
92319316|NCT04850989|184544138|SUPERIORITY||Mean Difference (Net)|-11.54|STANDARD_DEVIATION|-1.23|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.05
92195994|NCT01568112|184290878|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-22.0|22.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||22.0|-22.0|
92319317|NCT04850989|184544139|SUPERIORITY||Mean Difference (Net)|-8.08|STANDARD_DEVIATION|1.91|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.05
92319318|NCT04850989|184544140|SUPERIORITY||Mean Difference (Net)|-8.08|STANDARD_DEVIATION|1.91|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.05
92319319|NCT04850989|184544141|SUPERIORITY||Mean Difference (Net)|-3.48|STANDARD_DEVIATION|0.28|>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||> 0.05
92319320|NCT01540487|184544142|SUPERIORITY_OR_OTHER||adjusted gMean ratio|99.5|||||TWO_SIDED|90.0|94.7|104.5|||ANOVA|||||104.5|94.7|
92319321|NCT01540487|184544142|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.8|||||TWO_SIDED|90.0|95.1|106.8|||ANOVA|||||106.8|95.1|
92319322|NCT01540487|184544143|SUPERIORITY_OR_OTHER||adjusted gMean ratio|101.9|||||TWO_SIDED|90.0|95.4|109.0|||ANOVA|||||109.0|95.4|
92319323|NCT01540487|184544143|SUPERIORITY_OR_OTHER||adjusted gMean ratio|111.4|||||TWO_SIDED|90.0|100.4|123.5|||ANOVA|||||123.5|100.4|
92319324|NCT01540487|184544144|SUPERIORITY_OR_OTHER||adjusted gMean ratio|97.0|||||TWO_SIDED|90.0|90.6|103.8|||ANOVA|||||103.8|90.6|
92319325|NCT01540487|184544144|SUPERIORITY_OR_OTHER||adjusteg gMean ratio|103.0|||||TWO_SIDED|90.0|96.2|110.1|||ANOVA|||||110.1|96.2|
92319326|NCT01540487|184544145|SUPERIORITY_OR_OTHER||adjusted gMean ratio|94.6|||||TWO_SIDED|90.0|85.4|104.8|||ANOVA|||||104.8|85.4|
92319327|NCT01540487|184544145|SUPERIORITY_OR_OTHER||adjusted gMean ratio|102.5|||||TWO_SIDED|90.0|92.2|113.9|||ANOVA|||||113.9|92.2|
92319328|NCT01540487|184544146|SUPERIORITY_OR_OTHER||adjusted gMean ratio|110.1|||||TWO_SIDED|90.0|100.5|120.6|||ANOVA|||||120.6|100.5|
92319329|NCT01540487|184544146|SUPERIORITY_OR_OTHER||adjusted gMean ratio|89.3|||||TWO_SIDED|90.0|80.2|99.3|||ANOVA|||||99.3|80.2|
92319330|NCT01540487|184544147|SUPERIORITY_OR_OTHER||adjusted gMean ratio|98.0|||||TWO_SIDED|90.0|92.0|104.5|||ANOVA|||||104.5|92.0|
92319331|NCT01540487|184544147|SUPERIORITY_OR_OTHER||adjusted gMean ratio|102.8|||||TWO_SIDED|90.0|97.0|109.0|||ANOVA|||||109.0|97.0|
92319332|NCT01540487|184544148|SUPERIORITY_OR_OTHER||adjusted gMean ratio|99.5|||||TWO_SIDED|90.0|94.7|104.6|||ANOVA|||||104.6|94.7|
92319333|NCT01540487|184544148|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.8|||||TWO_SIDED|90.0|95.1|106.8|||ANOVA|||||106.8|95.1|
92195995|NCT01568112|184290878|SUPERIORITY_OR_OTHER||Difference in percentage|4.0|||||TWO_SIDED|95.0|-16.4|25.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||25.5|-16.4|
92319334|NCT03503370|184544149|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.39|1.8|||||Hazard ratio from Cox Proportional Hazard comparing the chlorhexidine group to the placebo group.|||1.80|0.39|
92319335|NCT03503370|184544150|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
92319336|NCT03503370|184544151|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.34|1.77|||||Hazard ratio from Cox Proportional Hazard comparing the chlorhexidine group to the placebo group.|||1.77|0.34|
92319337|NCT03483961|184544152|SUPERIORITY|||||||0.0015||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 2 vs. Group 1.||Groups 2-8 are compared to Group 1.||||0.0015
92319338|NCT03483961|184544152|SUPERIORITY|||||||0.0761||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 3 vs. Group 1.||Groups 2-8 are compared to Group 1||||0.0761
92319339|NCT03483961|184544152|SUPERIORITY|||||||0.9317||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 4 vs. Group 1.||Groups 2-8 are compared to Group 1.||||0.9317
92319340|NCT03483961|184544152|SUPERIORITY||||||<|0.0001||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 5 vs. Group 1.||Groups 2-8 are compared to Group 1.||||<.0001
92319341|NCT03483961|184544152|SUPERIORITY|||||||0.0045||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 6 vs. Group 1.||Groups 2-8 are compared to Group 1.||||0.0045
92319342|NCT03483961|184544152|SUPERIORITY|||||||0.1437||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 7 vs. Group 1.||Groups 2-8 are compared to Group 1.||||0.1437
92319343|NCT03483961|184544152|SUPERIORITY|||||||0.3216||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 8 vs. Group 1.||Groups 2-8 are compared to Group 1.||||0.3216
92319344|NCT00457002|184544157|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87||||0.4364|TWO_SIDED|95.0|0.62|1.23|||Mantel Haenszel|||To conclude superiority of apixaban versus enoxaparin on the primary efficacy endpoint, the upper bound of the two-sided 95.004% confidence interval (CI) for the relative risk (pa/ pe) must be less than 1.||1.23|0.62|0.4364
92319345|NCT00457002|184544157|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.39|||||TWO_SIDED|95.0|-1.37|0.59||||||||0.59|-1.37|
92319346|NCT00457002|184544158|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.69|1.63||||||Formal testing of noninferiority for the key secondary efficacy endpoint was not performed since the superiority of the primary efficacy endpoint was not demonstrated.||1.63|0.69|
92319347|NCT00457002|184544158|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.61|0.81||||||||0.81|-0.61|
92319348|NCT00457002|184544159|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.7|1.71||||||||1.71|0.70|
92319349|NCT00457002|184544159|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.14|||||TWO_SIDED|95.0|-0.57|0.85||||||||0.85|-0.57|
92319350|NCT00457002|184544160|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.78|1.2||||||||1.20|0.78|
92319351|NCT00457002|184544160|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.24|||||TWO_SIDED|95.0|-1.65|1.17||||||||1.17|-1.65|
92319352|NCT00457002|184544161|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.79|1.22||||||||1.22|0.79|
92319353|NCT00457002|184544161|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.12|||||TWO_SIDED|95.0|-1.52|1.29||||||||1.29|-1.52|
92319354|NCT00457002|184544162|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.65|1.29||||||||1.29|0.65|
92319355|NCT00457002|184544162|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.26|||||TWO_SIDED|95.0|-1.23|0.71||||||||0.71|-1.23|
92319356|NCT00457002|184544163|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.68|||||TWO_SIDED|95.0|0.11|4.05||||||||4.05|0.11|
92319357|NCT00457002|184544163|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.03|||||TWO_SIDED|95.0|-0.16|0.1||||||||0.10|-0.16|
92319358|NCT00457002|184544164|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.89|||||TWO_SIDED|95.0|0.68|1.16||||||||1.16|0.68|
92319359|NCT00457002|184544164|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.38|||||TWO_SIDED|95.0|-1.25|0.48||||||||0.48|-1.25|
92319360|NCT00457002|184544165|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.26|0.96||||||||0.96|0.26|
92319361|NCT00457002|184544165|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-0.78|-0.03||||||||-0.03|-0.78|
92319362|NCT00457002|184544166|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.04|||||TWO_SIDED|95.0|0.84|1.28||||||||1.28|0.84|
92319363|NCT00457002|184544166|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.28|||||TWO_SIDED|95.0|-1.18|1.73||||||||1.73|-1.18|
92319364|NCT00457002|184544167|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.32|2.43||||||||2.43|0.32|
92319365|NCT00457002|184544167|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.03|||||TWO_SIDED|95.0|-0.26|0.2||||||||0.20|-0.26|
92319366|NCT00457002|184544168|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.32|2.43||||||||2.43|0.32|
92319367|NCT00457002|184544168|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.03|||||TWO_SIDED|95.0|-0.26|0.2||||||||0.20|-0.26|
92319368|NCT00457002|184544169|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.31|||||TWO_SIDED|95.0|0.11|0.83||||||||0.83|0.11|
92319369|NCT00457002|184544169|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.34|||||TWO_SIDED|95.0|-0.62|-0.07||||||||-0.07|-0.62|
92319370|NCT00457002|184544170|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.65|1.37||||||||1.37|0.65|
92319371|NCT00457002|184544170|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.14|||||TWO_SIDED|95.0|-1.04|0.76||||||||0.76|-1.04|
92319372|NCT00457002|184544171|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.15|||||TWO_SIDED|95.0|-0.29|-0.02||||||Note: Relative risk was not estimable (0.0); only risk difference could be estimated.||-0.02|-0.29|
92319373|NCT00457002|184544172|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.41|||||TWO_SIDED|95.0|0.14|1.16||||||||1.16|0.14|
92319374|NCT00457002|184544172|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.22|||||TWO_SIDED|95.0|-0.47|0.03||||||||0.03|-0.47|
92319375|NCT00457002|184544173|SUPERIORITY_OR_OTHER||Adjusted Difference of event rates|0.29||||0.0437|TWO_SIDED|95.0|0.01|0.57||The Mantel-Haenszel test stratified by the stratification factors will be used at the one-sided alpha=0.025 level.|Mantel Haenszel|||Adjusted difference of event rates takes the stratification factor into consideration: previous VTE (yes, no) and active or previous cancer (yes, no).||0.57|0.01|0.0437
92319376|NCT00457002|184544174|SUPERIORITY_OR_OTHER||Adjusted Difference of event rates|0.36|||||TWO_SIDED|95.0|-0.33|1.06||||||Adjusted difference of event rates takes the stratification factor into consideration: previous VTE (yes, no) and active or previous cancer (yes, no).||1.06|-0.33|
92319377|NCT00457002|184544175|SUPERIORITY_OR_OTHER||Adjustted difference of event rates|0.59|||||TWO_SIDED|95.0|-16.0|1.33||||||Adjusted difference of event rates takes the stratification factor into consideration: previous VTE (yes, no) and active or previous cancer (yes, no).||1.33|-016|
92319378|NCT00457002|184544176|SUPERIORITY_OR_OTHER||Adjusted Difference of Event Rates|0.87|||||TWO_SIDED|95.0|-0.4|2.14||||||||2.14|-0.40|
92319379|NCT00457002|184544177|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.74|1.61||||||||1.61|0.74|
92319380|NCT00457002|184544177|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.2|||||TWO_SIDED|95.0|-0.66|1.07||||||||1.07|-0.66|
92319381|NCT00457002|184544186|SUPERIORITY_OR_OTHER||Adjusted Event rate difference|0.0|||||TWO_SIDED|95.0|-0.3|0.29|||||stratification factor: previous VTE (yes, no), and active or previous cancer (yes, no).|Adjusted difference in event rates in MI or stroke.||0.29|-0.30|
92319382|NCT00457002|184544186|SUPERIORITY_OR_OTHER||Adjusted difference of event rates|0.09|||||TWO_SIDED|95.0|-0.11|0.3|||||stratification factor: previous VTE (yes, no), and active or previous cancer (yes, no).|Adjusted difference of event rates for myocardial infarction.||0.30|-0.11|
92319383|NCT00457002|184544186|SUPERIORITY_OR_OTHER||Adjusted difference in event rates|-0.1|||||TWO_SIDED|95.0|-0.32|0.12||||||Adjusted difference in event rates for stroke.||0.12|-0.32|
92319384|NCT00457002|184544186|SUPERIORITY_OR_OTHER||Adjusted difference in event rates|0.09|||||TWO_SIDED|95.0|-0.09|0.28|||||stratification factor: previous VTE (yes, no), and active or previous cancer (yes, no).|Adjusted difference of event rates in thrombocytopenia.||0.28|-0.09|
92319385|NCT00734162|184544225|SUPERIORITY_OR_OTHER||||||<|0.001||||||A p-value of \< 0.05 was considered statistically significant.|Cochran-Mantel-Haenszel|||Analysis is the difference between treatment groups in the proportion of participants who met the outcome measure criterion, controlling for randomization age group.||||< 0.001
92319386|NCT00603902|184544276|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio, log|2.69|||<|0.0001|TWO_SIDED|95.0|2.31|3.13|||Regression, Logistic|Adjustments for baseline body weight.||||3.13|2.31|<0.0001
92319387|NCT00603902|184544277|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0|||<|0.0001|TWO_SIDED|95.0|-3.44|-2.56|||ANCOVA|||||-2.56|-3.44|<0.0001
92319388|NCT05483686|184544278|SUPERIORITY|||||||0.19|||||||Regression, Logistic|||This analysis aims to detect a significant change (p = .05) in percentage of participants with HIV transmission risk between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.19
92319389|NCT05483686|184544279|SUPERIORITY||||||=|0.24|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in ART adherence between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||=.24
92319390|NCT05483686|184544280|SUPERIORITY|||||||0.79|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in condom use between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.79
92319391|NCT05483686|184544281|SUPERIORITY|||||||0.81|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in barriers to ART use between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.81
92195996|NCT01568112|184290879|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-24.2|19.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||19.7|-24.2|
92319392|NCT05483686|184544282|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in barriers to PrEP use between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.14
92319393|NCT05483686|184544283|SUPERIORITY|||||||0.81|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in barriers to condom use between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.81
92319394|NCT05483686|184544284|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in social support between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.30
92319395|NCT05483686|184544285|SUPERIORITY|||||||0.94|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in gender identity comfort between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.94
92319396|NCT03126630|184544290|EQUIVALENCE|The null hypothesis that there are no differences between the classes in the population. The purpose of the test is to evaluate how likely the observed frequencies would be assuming the null hypothesis is true.||||||0.27541|||||||Chi-squared|||||||0.27541
92319397|NCT03126630|184544293|SUPERIORITY||Hazard Ratio (HR)|0.0||||0.1936|TWO_SIDED|95.0|0.0||Not enough events||Log Rank||||||0.0|0.1936
92319398|NCT03126630|184544294|SUPERIORITY||Hazard Ratio (HR)|1.81||||0.1952|TWO_SIDED|95.0|0.73|4.51|||Log Rank|||||4.51|0.73|0.1952
92319399|NCT06028438|184544299|SUPERIORITY||Least square mean difference|-0.06|||=|0.822|TWO_SIDED|95.0|-0.6|0.48|||ANCOVA|||||0.48|-0.60|=0.822
92195997|NCT01568112|184290879|SUPERIORITY_OR_OTHER||Difference in percentage|-3.0|||||TWO_SIDED|95.0|-23.3|18.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||18.7|-23.3|
92319400|NCT01017874|184544313|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.217|TWO_SIDED|95.0|0.63|1.13|||Wilcoxon (Mann-Whitney)|||||1.13|0.63|0.217
92319401|NCT01017874|184544314|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.788|TWO_SIDED|95.0|0.68|1.31|||Wilcoxon (Mann-Whitney)|||||1.31|0.68|0.788
92319402|NCT01017874|184544317|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.252|TWO_SIDED|95.0|0.63|1.14|||Wilcoxon (Mann-Whitney)|||||1.14|0.63|0.252
92319403|NCT01017874|184544318|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.952|TWO_SIDED|95.0|0.53|1.32|||Wilcoxon (Mann-Whitney)|||||1.32|0.53|0.952
92319404|NCT03150719|184544334|SUPERIORITY||Mean Difference|2.7|||||TWO_SIDED|95.0|1.0|4.4||||||||4.4|1.0|
92195998|NCT01568112|184290880|SUPERIORITY_OR_OTHER||Difference in percentage|-7.0|||||TWO_SIDED|95.0|-29.4|17.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||17.1|-29.4|
92195999|NCT01568112|184290880|SUPERIORITY_OR_OTHER||Difference in percentage|1.0|||||TWO_SIDED|95.0|-22.1|24.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||24.5|-22.1|
92196000|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-1.1|1.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||1.1|-1.1|
92196001|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-1.1|0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||0.9|-1.1|
92196002|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|-1.4|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||0.8|-1.4|
92196003|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.7|0.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||0.1|-1.7|
92196004|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-0.5|1.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||1.6|-0.5|
92319405|NCT03150719|184544335|SUPERIORITY||Mean Difference|6.7|||||TWO_SIDED|95.0|2.5|10.9||||||||10.9|2.5|
92319406|NCT03150719|184544336|SUPERIORITY||Mean Difference|1.1|||||TWO_SIDED|95.0|-4.9|7.0||||||||7.0|-4.9|
92319407|NCT01790984|184544339|OTHER||General linear mixed model|2.0|||<|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing differences between 2 Groups on 2 Diets (NAFLD, Control,high \& low sugar diets).|Details of our statistical approach are given below.|The sample size of the NAFDL \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B \& TAG production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TAG (α=33%). A paired comparison of two diets (5% level), gave sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||<0.05
92319408|NCT01790984|184544340|OTHER||General linear mixed model|11.0|||<|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing the impact of 'Diet' (high and low sugar) and Group (NAFLD and Control) status on outcome variables.|Details of our statistical analyses are given below.|The sample size for NAFLD \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B and triacylglycerol production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TG (α=33%). A paired comparison of two diets (5% level) produced sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||<0.05
92196005|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-0.7|1.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||1.3|-0.7|
92196006|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|95.0|-1.0|0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||0.9|-1.0|
92196007|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.1|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||0.8|-1.1|
92196008|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.6|0.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||0.7|-0.6|
92196009|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.6|0.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||0.5|-0.6|
92196010|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-1.0|0.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||0.3|-1.0|
92196011|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.8|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||0.8|-0.8|
92196012|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.0|0.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||0.6|-1.0|
92196013|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-0.8|0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||0.9|-0.8|
92196014|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Difference in percentage|0.2|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-0.7|1.1||||||Bloating||1.1|-0.7|
92196015|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-0.9|0.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||0.7|-0.9|
92196016|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.8|0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||0.9|-0.8|
92196017|NCT01568112|184290881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-0.7|1.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||1.1|-0.7|
92196018|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-1.0|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||0.8|-1.0|
92196019|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.8|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||0.8|-0.8|
92319409|NCT01790984|184544341|OTHER||General linear mixed model|110.0|||<|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing the impact of 'Diet' (high and low sugar) and Group (NAFLD and Control) status on outcome variables.|Details of our statistical analyses are given below.|The sample size of the NAFDL \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B \& TAG production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TG (α=33%). A paired comparison of two diets (5% level), gave sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||<0.05
92319410|NCT01790984|184544342|OTHER||General linear mixed model|0.26|||<|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing the impact of 'Diet' (high and low sugar) and Group (NAFLD and Control) status on outcome variables.|Details of our statistical approach are given below.|The sample size of the NAFDL \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B \& TAG production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TG (α=33%). A paired comparison of two diets (5% level), gave sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||<0.05
92196020|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-1.7|0.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||0.4|-1.7|
92196021|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.7|0.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||0.2|-1.7|
92196022|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.7|0.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||0.6|-0.7|
92196023|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-0.7|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||0.8|-0.7|
92196024|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|95.0|-0.6|0.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||0.7|-0.6|
92196025|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-0.2|1.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||1.3|-0.2|
92196026|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|-0.4|0.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||0.4|-0.4|
92319411|NCT01790984|184544343|OTHER||General linear mixed model|10.0|||>|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing the impact of 'Diet' (high and low sugar) and Group (NAFLD and Control) status on outcome variables|Details of our statistical analyses are described below.|The sample size of the NAFDL \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B \& TAG production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TG (α=33%). A paired comparison of two diets (5% level), gave sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||>0.05
92319412|NCT01790984|184544344|OTHER||General linear mixed model|0.28|||<|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing the impact of 'Diet' (high and low sugar) and Group (NAFLD and Control) status on outcome variables.|Details of our statistical analyses are given below.|The sample size of the NAFDL \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B \& TAG production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TG (α=33%). A paired comparison of two diets (5% level), gave sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||<0.05
92319413|NCT01691560|184544387|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.09||||0.4553|TWO_SIDED|95.0|-0.14|0.32|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.32|-0.14|0.4553
92319414|NCT01691560|184544387|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.07||||0.5689|TWO_SIDED|95.0|-0.16|0.3|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.30|-0.16|0.5689
92319415|NCT01691560|184544387|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.04||||0.7517|TWO_SIDED|95.0|-0.2|0.27|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.27|-0.20|0.7517
92319416|NCT01691560|184544387|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.02||||0.8549|TWO_SIDED|95.0|-0.21|0.25|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.25|-0.21|0.8549
92319417|NCT01691560|184544387|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.05||||0.6685|TWO_SIDED|95.0|-0.18|0.29|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.29|-0.18|0.6685
92319418|NCT01691560|184544387|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03||||0.8031|TWO_SIDED|95.0|-0.26|0.2|||ANCOVA||Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.20|-0.26|0.8031
92319419|NCT01691560|184544388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0467|TWO_SIDED|95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.0467
92319420|NCT01691560|184544388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.1133|TWO_SIDED|95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test.|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.1133
92196027|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.4|0.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||0.2|-0.4|
92196028|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.6|0.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||0.6|-0.6|
92319421|NCT01691560|184544388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.2579||95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.2579
92319422|NCT01691560|184544388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.6149|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test.|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0|0|0.6149
92319423|NCT01691560|184544388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.3259|TWO_SIDED|95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.3259
92319424|NCT01691560|184544388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.5721|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0|0|0.5721
92319425|NCT01691560|184544389|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.36||||0.0292|TWO_SIDED|95.0|0.04|0.69|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.69|0.04|0.0292
92319426|NCT01691560|184544389|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12||||0.4484|TWO_SIDED|95.0|-0.44|0.2|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.20|-0.44|0.4484
92319427|NCT01691560|184544389|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12||||0.4537|TWO_SIDED|95.0|-0.45|0.2|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.20|-0.45|0.4537
92319428|NCT01691560|184544389|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.49||||0.0037|TWO_SIDED|95.0|0.16|0.81|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.81|0.16|0.0037
92319429|NCT01691560|184544389|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.48||||0.004|TWO_SIDED|95.0|0.16|0.81|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Treatment as fixed factor, baseline Schiff score as covariate. Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.81|0.16|0.0040
92319430|NCT01691560|184544389|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0||||0.9974|TWO_SIDED|95.0|-0.32|0.32|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.32|-0.32|0.9974
92319431|NCT01691560|184544390|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8861|TWO_SIDED|95.0|-5.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|-5|0.8861
92319432|NCT01691560|184544390|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0641|TWO_SIDED|95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.0641
92319433|NCT01691560|184544390|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.1831||95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.1831
92319434|NCT01691560|184544390|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0871|TWO_SIDED|95.0|-10.0|0.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0|-10|0.0871
92319435|NCT01691560|184544390|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.169|TWO_SIDED|95.0|-10.0|0.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0|-10|0.1690
92319436|NCT01691560|184544390|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.3829|TWO_SIDED|95.0|-5.0|0.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0|-5|0.3829
92319437|NCT01691560|184544391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.03||||0.9421|TWO_SIDED|95.0|-0.74|0.8|||ANCOVA|ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.80|-0.74|0.9421
92319438|NCT01691560|184544391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15||||0.6918|TWO_SIDED|95.0|-0.9|0.6|||ANCOVA|ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.60|-0.90|0.6918
92319439|NCT01691560|184544391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.13||||0.7421|TWO_SIDED|95.0|-0.63|0.88|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.88|-0.63|0.7421
92319440|NCT01691560|184544391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.18||||0.6433|TWO_SIDED|95.0|-0.58|0.94|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.94|-0.58|0.6433
92319441|NCT01691560|184544391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1||||0.801|TWO_SIDED|95.0|-0.86|0.67|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.67|-0.86|0.8010
92319442|NCT01691560|184544391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.28||||0.4692|TWO_SIDED|95.0|-0.48|1.03|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||1.03|-0.48|0.4692
92319443|NCT01691560|184544392|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.31||||0.4797|TWO_SIDED|95.0|-0.55|1.16|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||1.16|-0.55|0.4797
92196029|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|95.0|-0.7|0.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||0.5|-0.7|
92196030|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|95.0|-0.1|1.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||1.0|-0.1|
92196031|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.2|0.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||0.6|-0.2|
92196032|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-0.8|0.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||0.7|-0.8|
92319444|NCT01691560|184544392|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.54||||0.2023|TWO_SIDED|95.0|-1.37|0.29|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.29|-1.37|0.2023
92319445|NCT01691560|184544392|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.45||||0.2917|TWO_SIDED|95.0|-1.29|0.39|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.39|-1.29|0.2917
92196033|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-0.7|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||0.8|-0.7|
92196034|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-1.6|0.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||-0.0|-1.6|
92196035|NCT01568112|184290882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-1.2|0.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||0.5|-1.2|
92196036|NCT01568112|184290883|SUPERIORITY_OR_OTHER||Difference in percentage|9.0|||||TWO_SIDED|95.0|-11.8|30.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||30.0|-11.8|
92196037|NCT01568112|184290883|SUPERIORITY_OR_OTHER||Difference in percentage|9.0|||||TWO_SIDED|95.0|-11.8|30.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||30.0|-11.8|
92196038|NCT01568112|184290884|SUPERIORITY_OR_OTHER||Difference in percentage|2.0|||||TWO_SIDED|95.0|-18.8|23.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||23.3|-18.8|
92196039|NCT01568112|184290884|SUPERIORITY_OR_OTHER||Difference in percentage|6.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||27.8|-14.1|
92196040|NCT01568112|184290885|SUPERIORITY_OR_OTHER||Difference in percentage|-9.0|||||TWO_SIDED|95.0|-32.1|14.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||14.3|-32.1|
92196041|NCT01568112|184290885|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-25.0|21.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||21.7|-25.0|
92196042|NCT01568112|184290892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|13.79|||TWO_SIDED|95.0|-20.9|34.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||34.1|-20.9|
92196043|NCT01568112|184290892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_ERROR_OF_MEAN|10.03|||TWO_SIDED|95.0|-14.2|25.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||25.7|-14.2|
92196044|NCT01568112|184290893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.2|STANDARD_ERROR_OF_MEAN|24.4|||TWO_SIDED|95.0|-26.5|70.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||70.9|-26.5|
92196045|NCT01568112|184290893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|11.08|||TWO_SIDED|95.0|-20.5|23.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||23.6|-20.5|
92196046|NCT01568112|184290894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.5|STANDARD_ERROR_OF_MEAN|13.32|||TWO_SIDED|95.0|-9.2|44.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||44.2|-9.2|
92196047|NCT01568112|184290894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|8.8|||TWO_SIDED|95.0|-17.2|18.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||18.0|-17.2|
92196048|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.96|STANDARD_ERROR_OF_MEAN|4.601|||TWO_SIDED|95.0|-6.34|12.26|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||12.26|-6.34|
92196049|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.07|STANDARD_ERROR_OF_MEAN|2.347|||TWO_SIDED|95.0|-8.81|0.67|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||0.67|-8.81|
92196050|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.74|STANDARD_ERROR_OF_MEAN|7.335|||TWO_SIDED|95.0|-3.15|26.63|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||26.63|-3.15|
92196051|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.05|STANDARD_ERROR_OF_MEAN|2.321|||TWO_SIDED|95.0|-2.67|6.77|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||6.77|-2.67|
92196052|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.21|STANDARD_ERROR_OF_MEAN|7.812|||TWO_SIDED|95.0|-6.72|25.14|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||25.14|-6.72|
92196053|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.84|STANDARD_ERROR_OF_MEAN|4.152|||TWO_SIDED|95.0|-11.31|5.63|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||5.63|-11.31|
92196054|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.09|STANDARD_ERROR_OF_MEAN|7.516|||TWO_SIDED|95.0|-18.36|12.19|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||12.19|-18.36|
92319446|NCT01691560|184544392|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.85||||0.0503|TWO_SIDED|95.0|0.0|1.69|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||1.69|0.00|0.0503
92319447|NCT01691560|184544392|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.76||||0.0811|TWO_SIDED|95.0|-0.09|1.61|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||1.61|-0.09|0.0811
92196055|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.18|STANDARD_ERROR_OF_MEAN|7.141|||TWO_SIDED|95.0|-20.71|8.35|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||8.35|-20.71|
92196056|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.21|STANDARD_ERROR_OF_MEAN|5.292|||TWO_SIDED|95.0|-22.9|6.49|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||6.49|-22.90|
92196057|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.33|STANDARD_ERROR_OF_MEAN|6.536|||TWO_SIDED|95.0|-30.13|11.47|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||11.47|-30.13|
92196058|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.69|STANDARD_ERROR_OF_MEAN|8.376|||TWO_SIDED|95.0|-30.02|4.63|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||4.63|-30.02|
92196059|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.58|STANDARD_ERROR_OF_MEAN|8.654|||TWO_SIDED|95.0|-29.48|6.32|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||6.32|-29.48|
92196060|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.93|STANDARD_ERROR_OF_MEAN|10.274|||TWO_SIDED|95.0|-35.44|7.57|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||7.57|-35.44|
92196061|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.29|STANDARD_ERROR_OF_MEAN|12.369|||TWO_SIDED|95.0|-33.39|18.81|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||18.81|-33.39|
92196062|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.24|STANDARD_ERROR_OF_MEAN|6.472|||TWO_SIDED|95.0|-20.4|5.93|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||5.93|-20.40|
92196063|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|60.33|STANDARD_ERROR_OF_MEAN|34.455|||TWO_SIDED|95.0|-10.78|131.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||131.4|-10.78|
92196064|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|59.87|STANDARD_ERROR_OF_MEAN|65.007|||TWO_SIDED|95.0|-71.51|191.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||191.2|-71.51|
92196065|NCT01568112|184290895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|54.78|STANDARD_ERROR_OF_MEAN|40.44|||TWO_SIDED|95.0|-27.09|136.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||136.6|-27.09|
92319448|NCT01691560|184544392|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.09||||0.8322|TWO_SIDED|95.0|-0.75|0.93|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.93|-0.75|0.8322
92319449|NCT04244084|184544424|SUPERIORITY||Median Difference (Final Values)|-0.89||||0.0155|TWO_SIDED|95.0|-1.61|-0.17|||ANCOVA|Site used as covariate||Mean differences (MMH-407 vs. Placebo) were compared||-0.17|-1.61|0.0155
92319450|NCT04244084|184544425|SUPERIORITY|||||||0.1839|||||||Wilcoxon (Mann-Whitney)|||||||0.1839
92319451|NCT04244084|184544426|SUPERIORITY|||||||0.064||||||Day used as independent strata.|Cochran-Mantel-Haenszel|||||||0.0640
92319452|NCT04244084|184544427|SUPERIORITY|||||||0.1927|||||||Wilcoxon (Mann-Whitney)|||||||0.1927
92319453|NCT04244084|184544428|SUPERIORITY|||||||0.0014||||||Day used as independent strata.|Cochran-Mantel-Haenszel|||||||0.0014
92319454|NCT04244084|184544429|SUPERIORITY|||||||0.2009|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to Day 1 row."||||0.2009
92319455|NCT04244084|184544429|SUPERIORITY|||||||0.4717|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to Day 2 row."||||0.4717
92319456|NCT04244084|184544429|SUPERIORITY|||||||0.5144|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to Day 3 row."||||0.5144
92319457|NCT04244084|184544430|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
92319458|NCT04244084|184544432|SUPERIORITY|||||||0.5981|||||||Kruskal-Wallis|||"This analysis applies to Systolic blood pressure/Visit 1 row."||||0.5981
92319459|NCT04244084|184544432|SUPERIORITY|||||||0.4913|||||||Kruskal-Wallis|||"This analysis applies to Systolic blood pressure/Visit 2 row."||||0.4913
92319460|NCT04244084|184544432|SUPERIORITY|||||||0.6441|||||||Kruskal-Wallis|||"This analysis applies to Systolic blood pressure/Visit 3 row."||||0.6441
92319461|NCT04244084|184544432|SUPERIORITY|||||||0.8186|||||||Kruskal-Wallis|||"This analysis applies to Diastolic blood pressure/Visit 1 row."||||0.8186
92319462|NCT04244084|184544432|SUPERIORITY|||||||0.8931|||||||Kruskal-Wallis|||"This analysis applies to Diastolic blood pressure/Visit 2 row."||||0.8931
92319463|NCT04244084|184544432|SUPERIORITY|||||||0.5887|||||||Kruskal-Wallis|||"This analysis applies to Diastolic blood pressure/Visit 3 row."||||0.5887
92319464|NCT04244084|184544433|SUPERIORITY|||||||0.4426|||||||Kruskal-Wallis|||"This analysis applies to Heart rate/Visit 1 row."||||0.4426
92319465|NCT04244084|184544433|SUPERIORITY|||||||0.5998|||||||Kruskal-Wallis|||"This analysis applies to Heart rate/Visit 2 row."||||0.5998
92319466|NCT04244084|184544433|SUPERIORITY|||||||0.971|||||||Kruskal-Wallis|||"This analysis applies to Heart rate/Visit 3 row."||||0.9710
92319467|NCT04244084|184544434|SUPERIORITY|||||||0.6197|||||||Kruskal-Wallis|||"This analysis applies to Breathing rate/Visit 1 row."||||0.6197
92319468|NCT04244084|184544434|SUPERIORITY|||||||0.7042|||||||Kruskal-Wallis|||"This analysis applies to Breathing rate/Visit 2 row."||||0.7042
92319469|NCT04244084|184544434|SUPERIORITY|||||||0.7693|||||||Kruskal-Wallis|||"This analysis applies to Breathing rate/Visit 3 row."||||0.7693
92319470|NCT04244084|184544435|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92319471|NCT00232739|184544452|SUPERIORITY_OR_OTHER||Primary analysis posterior probability|0.9926||||||||||The primary analysis of comparing Sirolimus stent with POBA using Bayesian regression model yields that Sirolimus is superior to POBA in reducing the BAR risk.|Bayesian regression model|Multi-level Bayesian regression model was used in the secondary analysis|Secondary analysis for comparing Sirolimus stent with BMS1 and BMS2 signified that Sirolimus stent is superior to POBA, BMS1 and BMS2 in reducing the BAR risk.|Historical control groups consist of propensity-scored matched cohorts (100 patients each, based on Reference Vessel Diameter, lesion length, diabetes, left anterior artery diseased vessel, and gender) of plain old balloon angioplasty (POBA), first generation (Palmaz-Schatz) bare metal stent (BMS1), and BX VELOCITY bare metal stent (BMS2). Study showed the risk of 6-month in-lesion binary angiographic restenosis (BAR) was much lower for the 2.25 Sirolimus stent compared with POBA, BMS1 or BMS2.||||
92319472|NCT00676364|184544476|NON_INFERIORITY_OR_EQUIVALENCE|We determined that we will need to enroll 43 children in each group, for a power of .80, alpha=0.05. We used a per protocol analysis.|Mean Difference (Final Values)|2.1||||0.71|||||||Chi-squared||To assess the association between pain and anxiety with intervention group while controlling for other factors, linear regression was used.|P-value determined from linear regression models that include age, gender, number of needle sticks in previous 2 years and nurse reported difficulty in performing venipuncture.||||0.71
92319473|NCT02268916|184544525|SUPERIORITY|The study was powered based on a two-sample t-test of the primary outcomes, changes in physical activity or social participant over 6 months. Based on previous literature, in order to detect an effect size of 0.28 with at least 70% power, we aimed to recruit at least 35 participants in each treatment group.|Mean Difference (Final Values)|0.39|||=|0.18|TWO_SIDED|95.0|-0.18|0.97|||Mixed Models Analysis|The outcome was adjusted for time of visit, visit x intervention group, age, gender, body mass index, insulin, depression, and time-up-and-go score.||We hypothesized that at the end of 6 months, the intervention group will have increased physical activity as measured by CHAMPS compared to the control group.||0.97|-0.18|=0.18
92319474|NCT02268916|184544526|SUPERIORITY||Slope|-2.2||||0.19|TWO_SIDED|95.0|-5.45|1.06|||Mixed Models Analysis|||We hypothesized that at the end of 6 months, intervention group will have improved participation as measured by satisfaction with participation in social roles.||1.06|-5.45|0.19
92319475|NCT02268916|184544526|SUPERIORITY||Slope|-1.02||||0.57|TWO_SIDED|95.0|-4.53|2.48|||Mixed Models Analysis|||We hypothesized that at the end of 6 months, intervention group will have improved participation as measured by satisfaction with participation in discretionary social activities.||2.48|-4.53|0.57
92319476|NCT02268916|184544526|SUPERIORITY||Slope|-2.44||||0.12|TWO_SIDED|95.0|-5.52|0.63|||Mixed Models Analysis|||We hypothesized that at the end of 6 months, intervention group will have improved participation as measured by the survey on the ability to participate in social roles and activities.||0.63|-5.52|0.12
92319477|NCT02268916|184544527|SUPERIORITY||Slope|-1.99|||<|0.05|TWO_SIDED|95.0|-3.97|-0.02|||Mixed Models Analysis|||We hypothesized that at 6-month follow-up, the intervention group will have better performance than the control group in timed up and go test.||-0.02|-3.97|<0.05
92319478|NCT02268916|184544528|SUPERIORITY||Slope|0.11||||0.02|TWO_SIDED|95.0|0.02|0.2|||Mixed Models Analysis|||We hypothesized that at 6-month follow-up, the intervention group will have better performance than the control group in gait speed.||0.20|0.02|0.02
92319479|NCT02268916|184544529|SUPERIORITY||Slope|40.04||||0.02|TWO_SIDED|95.0|7.9|72.17|||Mixed Models Analysis|||We hypothesized that at 6-month follow-up, the intervention group will have better performance than the control group in six-minute walk test.||72.17|7.90|0.02
92319480|NCT04830969|184544543|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.16
92319481|NCT04830969|184544544|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.08
92319482|NCT04830969|184544545|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.14
92319483|NCT04830969|184544545|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.8
92319484|NCT04830969|184544546|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||<0.01
92319485|NCT04830969|184544546|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.09
92319486|NCT04830969|184544547|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||< 0.01
92319487|NCT04830969|184544547|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.03
92319488|NCT04830969|184544548|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||< 0.01
92319489|NCT04830969|184544548|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.09
92196066|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95|STANDARD_ERROR_OF_MEAN|5.281|||TWO_SIDED|95.0|-6.79|14.68|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||14.68|-6.79|
92319490|NCT04830969|184544549|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Baseline to 3 months||||0.01
92319491|NCT04830969|184544549|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.86
92319492|NCT04830969|184544549|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||Baseline to 6 months||||0.047
92319493|NCT04830969|184544549|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.75
92319494|NCT04830969|184544550|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Baseline to 3 months||||0.44
92319495|NCT04830969|184544550|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.22
92319496|NCT04830969|184544550|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Baseline to 6 months||||0.29
92196067|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.37|STANDARD_ERROR_OF_MEAN|2.563|||TWO_SIDED|95.0|-9.57|0.83|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||0.83|-9.57|
92196068|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.51|STANDARD_ERROR_OF_MEAN|8.024|||TWO_SIDED|95.0|-2.84|29.86|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||29.86|-2.84|
92196069|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44|STANDARD_ERROR_OF_MEAN|2.379|||TWO_SIDED|95.0|-2.41|7.29|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||7.29|-2.41|
92196070|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.84|STANDARD_ERROR_OF_MEAN|8.143|||TWO_SIDED|95.0|-5.81|27.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||27.50|-5.81|
92196071|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|4.671|||TWO_SIDED|95.0|-12.08|7.09|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||7.09|-12.08|
92319497|NCT04830969|184544550|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.15
92319498|NCT04830969|184544551|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||Baseline to 3 months||||<0.01
92319499|NCT04830969|184544551|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.31
92319500|NCT04830969|184544551|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||Baseline to 6 months||||0.08
92319501|NCT04830969|184544551|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.54
92319502|NCT04830969|184544552|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Baseline to 3 months||||0.01
92319503|NCT04830969|184544552|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.04
92319504|NCT04830969|184544552|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Baseline to 6 months||||0.03
92319505|NCT04830969|184544552|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.38
92319506|NCT04830969|184544553|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Baseline to 3 months||||0.02
92319507|NCT04830969|184544553|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.18
92319508|NCT04830969|184544553|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||Baseline to 6 months||||0.08
92319509|NCT04830969|184544553|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.41
92319510|NCT04830969|184544554|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.27
92319511|NCT04830969|184544555|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.54
92319512|NCT04830969|184544556|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.12
92319513|NCT04830969|184544557|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.20
92319514|NCT04830969|184544557|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.07
92319515|NCT04830969|184544558|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
92319516|NCT04830969|184544558|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.64
92319517|NCT04830969|184544559|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
92319518|NCT04830969|184544559|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.11
92319519|NCT04830969|184544560|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||at baseline||||0.7
92319520|NCT04830969|184544560|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||6 months||||0.29
92319521|NCT04830969|184544561|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
92319522|NCT02712554|184544584|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92319523|NCT02712554|184544584|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92319524|NCT02712554|184544584|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2344|||||||ANOVA|||||||0.2344
92196072|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|STANDARD_ERROR_OF_MEAN|8.488|||TWO_SIDED|95.0|-19.03|15.64|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||15.64|-19.03|
92196073|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.91|STANDARD_ERROR_OF_MEAN|7.832|||TWO_SIDED|95.0|-23.93|8.11|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||8.11|-23.93|
92196074|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|4.811|||TWO_SIDED|95.0|-23.8|17.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||17.60|-23.80|
92196075|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.88|STANDARD_ERROR_OF_MEAN|4.155|||TWO_SIDED|95.0|-22.75|13.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||13.00|-22.75|
92196076|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.08|STANDARD_ERROR_OF_MEAN|16.243|||TWO_SIDED|95.0|-59.2|9.05|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||9.05|-59.20|
92196077|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.95|STANDARD_ERROR_OF_MEAN|14.83|||TWO_SIDED|95.0|-54.89|6.98|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||6.98|-54.89|
92196078|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.49|STANDARD_ERROR_OF_MEAN|10.847|||TWO_SIDED|95.0|-35.38|10.39|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||10.39|-35.38|
92196079|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.33|STANDARD_ERROR_OF_MEAN|12.542|||TWO_SIDED|95.0|-32.79|20.13|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||20.13|-32.79|
92196080|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.73|STANDARD_ERROR_OF_MEAN|6.442|||TWO_SIDED|95.0|-15.87|10.41|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||10.41|-15.87|
92196081|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|81.89|STANDARD_ERROR_OF_MEAN|50.239|||TWO_SIDED|95.0|-22.04|185.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||185.8|-22.04|
92319525|NCT02712554|184544584|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4737|||||||ANOVA|||||||0.4737
92319526|NCT02712554|184544584|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92319527|NCT02712554|184544584|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<0.0001
92319528|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<.0001
92319529|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<.0001
92319530|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1267|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.1267
92196082|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.52|STANDARD_ERROR_OF_MEAN|32.896|||TWO_SIDED|95.0|-40.13|93.18|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||93.18|-40.13|
92196083|NCT01568112|184290896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.78|STANDARD_ERROR_OF_MEAN|41.055|||TWO_SIDED|95.0|-31.65|135.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||135.2|-31.65|
92319531|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1767|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.1767
92319532|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||<.0001
92319533|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<.0001
92319534|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0119|||||||ANOVA|||Emin: Treatment C (low-dose M366) - Placebo||||0.0119
92319535|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0025|||||||ANOVA|||Emin: Treatment D (high-dose M366) - Placebo||||0.0025
92319536|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1679|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.1679
92319537|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0318|||||||ANOVA|||Emin: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0318
92319538|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Placebo||||0.0002
92319539|NCT02712554|184544588|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<.0001
92319540|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<.0001
92319541|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<.0001
92319542|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0858|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.0858
92319543|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2877|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.2877
92319544|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||<.0001
92319545|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<.0001
92319546|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|||||||ANOVA|||Emin: Treatment C (low-dose M366) - Placebo||||0.0009
92319547|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||ANOVA|||Emin: Treatment D (high-dose M366) - Placebo||||0.0001
92319548|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.1130
92319549|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0575|||||||ANOVA|||Emin: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0575
92319550|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Placebo||||<.0001
92319551|NCT02712554|184544589|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emin: Treatment B (high-dose CL-108) - Placebo||||<.0001
92319552|NCT02712554|184544590|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<.0001
92319553|NCT02712554|184544590|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<.0001
92319554|NCT02712554|184544590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4025|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.4025
92319555|NCT02712554|184544590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3184|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.3184
92319556|NCT02712554|184544590|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||<.0001
92319557|NCT02712554|184544590|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<.0001
92319558|NCT02712554|184544591|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||<.0001
92319559|NCT02712554|184544591|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||<.0001
92319560|NCT02712554|184544591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2628|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.2628
92319561|NCT02712554|184544591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2262|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.2262
92196084|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|2.626|||TWO_SIDED|95.0|-7.35|3.99|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||3.99|-7.35|
92196085|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|2.18|||TWO_SIDED|95.0|-6.62|2.62|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||2.62|-6.62|
92196086|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|5.717|||TWO_SIDED|95.0|-11.64|12.49|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||12.49|-11.64|
92196087|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.48|STANDARD_ERROR_OF_MEAN|4.597|||TWO_SIDED|95.0|-14.11|5.14||||||Diarrhea||5.14|-14.11|
92196088|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|0.794|||TWO_SIDED|95.0|-1.1|2.57|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||2.57|-1.10|
92319562|NCT02712554|184544591|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||<.0001
92319563|NCT02712554|184544591|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<.0001
92319564|NCT02712554|184544592|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<.0001
92196089|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.775|||TWO_SIDED|95.0|-1.17|2.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||2.40|-1.17|
92319565|NCT02712554|184544592|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<.0001
92319566|NCT02712554|184544592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1839|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.1839
92319567|NCT02712554|184544592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1751|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.1751
92319568|NCT02712554|184544592|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||<.0001
92319569|NCT02712554|184544592|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<.0001
92319570|NCT02712554|184544593|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||<.0001
92319571|NCT02712554|184544593|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||<.0001
92319572|NCT02712554|184544593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4013|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.4013
92319573|NCT02712554|184544593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0736|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0736
92319574|NCT02712554|184544593|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||<.0001
92319575|NCT02712554|184544593|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<.0001
92319576|NCT02712554|184544594|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<0.001
92319577|NCT02712554|184544594|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<0.001
92319578|NCT02712554|184544594|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2223|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.2223
92319579|NCT02712554|184544594|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1638|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.1638
92319580|NCT02712554|184544594|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0041|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||0.0041
92319581|NCT02712554|184544594|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<0.001
92319582|NCT02712554|184544595|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||0.0001
92319583|NCT02712554|184544595|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||<0.0001
92319584|NCT02712554|184544595|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2706|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.2706
92319585|NCT02712554|184544595|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5507|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.5507
92319586|NCT02712554|184544595|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0047|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||0.0047
92319587|NCT02712554|184544595|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<0.0001
92319588|NCT02712554|184544596|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||ANOVA|||Emin: Treatment C (low-dose M366) - Placebo||||0.0001
92319589|NCT02712554|184544596|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emin: Treatment D (high-dose M366) - Placebo||||<0.0001
92319590|NCT02712554|184544596|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.0014
92319591|NCT02712554|184544596|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|||||||ANOVA|||Emin: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0080
92196090|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|1.705|||TWO_SIDED|95.0|-5.08|2.79|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||2.79|-5.08|
92196091|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.56|STANDARD_ERROR_OF_MEAN|27.886|||TWO_SIDED|95.0|-42.19|79.32|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||79.32|-42.19|
92196092|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.46|STANDARD_ERROR_OF_MEAN|2.801|||TWO_SIDED|95.0|-3.65|8.56|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||8.56|-3.65|
92319592|NCT02712554|184544596|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Placebo||||<0.0001
92319593|NCT02712554|184544596|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emin: Treatment B (high-dose CL-108) - Placebo||||<0.0001
92319594|NCT02712554|184544597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0024|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||0.0024
92319595|NCT02712554|184544597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||0.0012
92319596|NCT02712554|184544597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0037|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.0037
92319597|NCT02712554|184544597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0011
92196093|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|1.242|||TWO_SIDED|95.0|-3.71|1.83|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||1.83|-3.71|
92196094|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.83|STANDARD_ERROR_OF_MEAN|19.649|||TWO_SIDED|95.0|-48.73|60.38|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||60.38|-48.73|
92319598|NCT02712554|184544597|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||<0.0001
92319599|NCT02712554|184544597|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<0.0001
92319600|NCT02712554|184544598|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<0.0001
92319601|NCT02712554|184544598|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<0.0001
92319602|NCT02712554|184544598|SUPERIORITY_OR_OTHER_LEGACY|||||||0.063|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.0630
92319603|NCT02712554|184544598|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4436|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.4436
92319604|NCT02712554|184544598|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||<0.0001
92319605|NCT02712554|184544598|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<0.0001
92319606|NCT02712554|184544599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||<0.0001
92319607|NCT02712554|184544599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||<0.0001
92319608|NCT02712554|184544599|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2335|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.2335
92319609|NCT02712554|184544599|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1808|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.1808
92319610|NCT02712554|184544599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||<0.0001
92319611|NCT02712554|184544599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<0.0001
92319612|NCT02712554|184544602|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||MPC: Treatment C (low-dose M366) - Placebo||||<0.0001
92319613|NCT02712554|184544602|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Treatment D: M366 37.5 mg/1625 mg, Treatment E: Placebo||||<0.0001
92319614|NCT02712554|184544602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1268|||||||ANOVA|||MPC: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.1268
92319615|NCT02712554|184544602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014|||||||ANOVA|||MPC: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0014
92319616|NCT02712554|184544602|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||MPC: Treatment A (low-dose CL-108) - Placebo||||<0.0001
92319617|NCT02712554|184544602|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||MPC: Treatment B (high-dose CL-108) - Placebo||||<0.0001
92319618|NCT02712554|184544603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||<0.0001
92319619|NCT02712554|184544603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||<0.0001
92319620|NCT02712554|184544603|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.0120
92319621|NCT02712554|184544603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||<0.0001
92319622|NCT02712554|184544603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||<0.0001
92319623|NCT02712554|184544603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<0.0001
92319624|NCT03830333|184544643|NON_INFERIORITY|Ceftolozane/tazobactam + metronidazole is concluded to be non-inferior to meropenem + placebo if the lower bound of the 95% CI for the treatment difference in percent response is above -12.5 percentage points.|Difference in percentages|2.1|||||TWO_SIDED|95.0|-4.7|8.8||||||Difference in percentage was based on Miettinen and Nurminen method with the Cochran-Mantel-Haenszel (CMH) weighting stratified by anatomic site of infection (bowel \[small or large\] versus other site of cIAI).||8.8|-4.7|
92319625|NCT03830333|184544644|OTHER||Difference in percentages|-4.4|||||TWO_SIDED|95.0|-12.6|3.7||||||Difference in percentage was based on Miettinen and Nurminen method with the CMH weighting stratified by anatomic site of infection (bowel \[small or large\] versus other site of cIAI).||3.7|-12.6|
92319626|NCT03830333|184544645|OTHER||Difference in percentages|1.4|||||TWO_SIDED|95.0|-3.8|6.7||||||Difference in percentage was based on Miettinen and Nurminen method with the CMH weighting stratified by anatomic site of infection (bowel \[small or large\] versus other site of cIAI).||6.7|-3.8|
92319627|NCT03830333|184544646|OTHER||Difference in percentages|-1.5|||||TWO_SIDED|95.0|-8.0|4.8||||||Difference in percentage was based on Miettinen and Nurminen method with the CMH weighting stratified by anatomic site of infection (bowel \[small or large\] versus other site of cIAI).||4.8|-8.0|
92319628|NCT03830333|184544647|OTHER||Difference in percentages|1.2|||||TWO_SIDED|95.0|-9.2|10.4||||||Difference in percentage based on Miettinen and Nurminen method with the CMH weighting stratified by anatomic site of infection (bowel \[small or large\] versus other site of cIAI).||10.4|-9.2|
92319629|NCT03830333|184544648|OTHER|Difference in percentage was based on unstratified Miettinen and Nurminen method. Confidence Interval is displayed only when there are at least 4 participants in at least one treatment group.|Difference in percentages|-1.0|||||TWO_SIDED|95.0|-11.9|8.7||||||Gram-negative aerobes comparison: Based on unstratified Miettinen and Nurminen method.||8.7|-11.9|
92319630|NCT03830333|184544648|OTHER|Difference in percentage was based on unstratified Miettinen and Nurminen method. Confidence Interval is displayed only when there are at least 4 participants in at least one treatment group.|Difference in percentages|-1.2|||||TWO_SIDED|95.0|-12.5|8.5||||||All enterobacteriaceae comparison: Based on unstratified Miettinen and Nurminen method.||8.5|-12.5|
92319631|NCT03830333|184544648|OTHER|Difference in percentage was based on unstratified Miettinen and Nurminen method. Confidence Interval is displayed only when there are at least 4 participants in at least one treatment group.|Difference in percentages|-8.2|||||TWO_SIDED|95.0|-42.2|20.0||||||Gram-positive aerobes comparison: Based on unstratified Miettinen and Nurminen method.||20.0|-42.2|
92319632|NCT03830333|184544649|OTHER||Difference in Percentages|-0.7|||||TWO_SIDED|95.0|-12.6|11.2||||||Difference in percentage was based on Miettinen \& Nurminen method.||11.2|-12.6|
92319633|NCT03830333|184544650|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-4.4|4.4||||||Difference in percentage was based on Miettinen \& Nurminen method.||4.4|-4.4|
92196095|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.76|STANDARD_ERROR_OF_MEAN|11.219|||TWO_SIDED|95.0|-28.38|33.91|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||33.91|-28.38|
92319634|NCT00652626|184544754|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|98.4|||||TWO_SIDED|90.0|64.0|151.3|||||Ratio of geometric means is calculated as Azacitidine 50 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% confidence interval (CI) of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-t, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||151.3|64.0|
92319635|NCT00652626|184544754|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|67.5|||||TWO_SIDED|90.0|44.7|101.8|||||Ratio of geometric means is calculated as Azacitidine 75 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-t, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||101.8|44.7|
92319636|NCT00652626|184544754|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|82.7|||||TWO_SIDED|90.0|53.8|127.2|||||Ratio of geometric means is calculated as Azacitidine 100 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-t, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||127.2|53.8|
92319637|NCT00652626|184544755|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|97.4|||||TWO_SIDED|90.0|63.8|148.8|||||Ratio of geometric mean is calculated as Azacitidine 50 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-inf, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||148.8|63.8|
92319638|NCT00652626|184544755|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|68.5|||||TWO_SIDED|90.0|45.7|102.7|||||Ratio of geometric mean is calculated as Azacitidine 75 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-inf, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||102.7|45.7|
92319639|NCT00652626|184544755|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|83.2|||||TWO_SIDED|90.0|54.5|127.1|||||Ratio of geometric mean is calculated as Azacitidine 100 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-inf, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||127.1|54.5|
92319640|NCT00652626|184544756|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|127.7|||||TWO_SIDED|90.0|66.3|245.7|||||Ratio of geometric means is calculated as Azacitidine 50 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized Cmax, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||245.7|66.3|
92196096|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.36|STANDARD_ERROR_OF_MEAN|9.811|||TWO_SIDED|95.0|-35.56|6.83|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||6.83|-35.56|
92196097|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|67.12|STANDARD_ERROR_OF_MEAN|41.961|||TWO_SIDED|95.0|-22.88|157.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||157.1|-22.88|
92319641|NCT00652626|184544756|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|84.7|||||TWO_SIDED|90.0|45.3|158.5|||||Ratio of geometric means is calculated as Azacitidine 75 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized Cmax, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||158.5|45.3|
92319642|NCT00652626|184544756|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|107.5|||||TWO_SIDED|90.0|55.9|207.0|||||Ratio of geometric means is calculated as Azacitidine 100 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized Cmax, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||207.0|55.9|
92319643|NCT00652626|184544759|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|101.1|||||TWO_SIDED|90.0|71.2|143.6|||||Ratio of geometric mean is calculated as Azacitidine 50 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance model on the nature log-transformed CL/F obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||143.6|71.2|
92319644|NCT00652626|184544759|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|144.9|||||TWO_SIDED|90.0|103.6|202.7|||||Ratio of geometric mean is calculated as Azacitidine 75 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance model on the nature log-transformed CL/F obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||202.7|103.6|
92319645|NCT00652626|184544759|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|101.4|||||TWO_SIDED|90.0|71.4|143.9|||||Ratio of geometric mean is calculated as Azacitidine 100 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance model on the nature log-transformed CL/F obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||143.9|71.4|
92319646|NCT00652626|184544762|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|169.3|||||TWO_SIDED|90.0|109.2|262.5|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of AUC0-t after a single dose (Day 1) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters"||262.5|109.2|
92319647|NCT00652626|184544762|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|140.4|||||TWO_SIDED|90.0|90.6|217.7|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of AUC0-t after multiple doses (Day 5) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters."||217.7|90.6|
92196098|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|98.65|STANDARD_ERROR_OF_MEAN|74.566|||TWO_SIDED|95.0|-58.01|255.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||255.3|-58.01|
92196099|NCT01568112|184290897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.27|STANDARD_ERROR_OF_MEAN|7.928|||TWO_SIDED|95.0|-5.22|27.76|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||27.76|-5.22|
92196100|NCT02366143|184290921|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.52|0.74|||Log Rank|||ITT-WT population||0.74|0.52|<0.0001
92319648|NCT00652626|184544763|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|166.3|||||TWO_SIDED|90.0|108.6|254.6|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of AUC0-inf after a single dose (Day 1) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters."||254.6|108.6|
92319649|NCT00652626|184544763|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|141.2|||||TWO_SIDED|90.0|92.2|216.2|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of AUC0-inf after multiple doses (Day 5) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters."||216.2|92.2|
92319650|NCT00652626|184544764|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|141.7|||||TWO_SIDED|90.0|73.2|274.6|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of Cmax after a single dose (Day 1) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters."||274.6|73.2|
92196101|NCT02366143|184290921|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.38|0.68|||Log Rank|||Teff-high WT Population||0.68|0.38|<0.0001
92196102|NCT02366143|184290922|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.78||||0.0164|TWO_SIDED|95.0|0.64|0.96|||Log Rank|||||0.96|0.64|0.0164
92196103|NCT02366143|184290923|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.842||||0.0528|TWO_SIDED|95.0|0.707|1.002|||Log Rank|||||1.002|0.707|0.0528
92196104|NCT02366143|184290924|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.71||||0.0002|TWO_SIDED|95.0|0.59|0.85|||Log Rank|||ITT-WT population||0.85|0.59|0.0002
92196105|NCT02366143|184290924|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.564||||0.0001|TWO_SIDED|95.0|0.418|0.76|||Log Rank|||Teff-high WT Population||0.760|0.418|0.0001
92196106|NCT02366143|184290925|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.492|||<|0.0001|TWO_SIDED|95.0|0.374|0.649|||Log Rank|||Teff-high Population||0.649|0.374|<.0001
92196107|NCT02366143|184290925|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.517|0.72|||Log Rank|||ITT Population||0.720|0.517|<.0001
92196108|NCT02366143|184290927|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.471|||<|0.0001|TWO_SIDED|95.0|0.352|0.647|||Log Rank|||TC2/3 or IC2/3 Subgroup||0.647|0.352|<.0001
92196109|NCT02366143|184290927|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.486|||<|0.0001|TWO_SIDED|95.0|0.386|0.639|||Log Rank|||TC1/2/3 or IC1/2/3 Subgroup||0.639|0.386|<.0001
92196110|NCT02366143|184290928|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.824||||0.2765|TWO_SIDED|95.0|0.58|1.169|||Log Rank|||TC2/3 or IC2/3, WT ITT||1.169|0.580|0.2765
92196111|NCT02366143|184290928|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.771||||0.0829|TWO_SIDED|95.0|0.575|1.035|||Log Rank|||TC1/2/3 or IC1/2/3, WT ITT||1.035|0.575|0.0829
92319651|NCT00652626|184544764|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|105.6|||||TWO_SIDED|90.0|54.5|204.6|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of Cmax after multiple doses (Day 5) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters."||204.6|54.5|
92319652|NCT00652626|184544765|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.25||||0.1342|TWO_SIDED|90.0|0.0|0.52|||Wilcoxon (Mann-Whitney)||Median difference is Severe RI - Normal RF.|Comparison of Tmax after a single dose (Day 1) in participants with normal renal function and participants with severe renal impairment.||0.52|0|0.1342
92196112|NCT02366143|184290929|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.709||||0.0073|TWO_SIDED|95.0|0.551|0.913|||Log Rank|||TC1/2/3 or IC1/2/3 ITT-WT||0.913|0.551|0.0073
92196113|NCT02366143|184290929|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.662||||0.0097|TWO_SIDED|95.0|0.484|0.907|||Log Rank|||TC2/3 or IC2/3 Population||0.907|0.484|0.0097
92196114|NCT02366143|184290930|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.831||||0.2843|TWO_SIDED|95.0|0.592|1.167|||Log Rank|||Teff high-WT||1.167|0.592|0.2843
92196115|NCT02366143|184290930|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.802||||0.1861|TWO_SIDED|95.0|0.579|1.113|||Log Rank|||Teff high||1.113|0.579|0.1861
92196116|NCT02366143|184290930|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.764||||0.006|TWO_SIDED|95.0|0.63|0.926|||Log Rank|||ITT||0.926|0.630|0.0060
92196117|NCT02366143|184290931|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.786||||0.0894|TWO_SIDED|95.0|0.595|1.038|||Log Rank|||Teff high-WT||1.038|0.595|0.0894
92196118|NCT02366143|184290931|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.815||||0.1276|TWO_SIDED|95.0|0.626|1.061|||Log Rank|||Teff high||1.061|0.626|0.1276
92196119|NCT02366143|184290931|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.861||||0.0681|TWO_SIDED|95.0|0.733|1.011|||Log Rank|||ITT||1.011|0.733|0.0681
92196120|NCT02366143|184290932|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.901||||0.4599|TWO_SIDED|95.0|0.683|1.188|||Log Rank|||Teff high-WT ITT||1.188|0.683|0.4599
92196121|NCT02366143|184290933|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.523|||<|0.0001|TWO_SIDED|95.0|0.406|0.675|||Log Rank|||ITT-WT||0.675|0.406|<.0001
92196122|NCT02366143|184290933|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.283|0.624|||Log Rank|||Teff-high WT||0.624|0.283|<.0001
92319653|NCT00652626|184544765|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.25||||0.1017|TWO_SIDED|90.0|0.0|0.5|||Wilcoxon (Mann-Whitney)||Median difference is Severe RI - Normal RF.|Comparison of Tmax after multiple doses (Day 5) in participants with normal renal function and participants with severe renal impairment.||0.50|0|0.1017
92196123|NCT02366143|184290935|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|6.68||||0.0697|TWO_SIDED|95.0|-0.54|13.9|||Z-test|||1-Year ITT-WT Population||13.90|-0.54|0.0697
92196124|NCT02366143|184290935|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|9.71||||0.0347|TWO_SIDED|95.0|0.7|18.73|||Z-test|||2-Year ITT-WT Population||18.73|0.70|0.0347
92196125|NCT02366143|184290935|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|9.89||||0.089|TWO_SIDED|95.0|-1.51|21.29|||Z-test|||1-Year Teff-high WT Population||21.29|-1.51|0.0890
92196126|NCT02366143|184290935|OTHER|Stratified Analysis|Difference in Event Free Rate|10.34||||0.1336|TWO_SIDED|95.0|-3.17|23.84|||Z-test|||2-Year Teff-high WT Population||23.84|-3.17|0.1336
92196127|NCT02366143|184290936|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|4.18||||0.2624|TWO_SIDED|95.0|-3.13|11.48|||Z-test|||1-Year ITT-WT Population||11.48|-3.13|0.2624
92196128|NCT02366143|184290936|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|9.67||||0.0088|TWO_SIDED|95.0|2.43|16.9|||Z-test|||2-Year ITT-WT Population||16.90|2.43|0.0088
92196129|NCT02366143|184290936|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|10.56||||0.0649|TWO_SIDED|95.0|-0.65|21.77|||Z-test|||1-Year Teff-high WT Population||21.77|-0.65|0.0649
92196130|NCT02366143|184290936|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|7.27||||0.212|TWO_SIDED|95.0|-4.15|18.69|||Z-test|||2-Year Teff-high WT Population||18.69|-4.15|0.2120
92196131|NCT02366143|184290937|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.909||||0.6899|TWO_SIDED|95.0|0.571|1.45|||Log Rank|||Teff-high WT Population||1.450|0.571|0.6899
92196132|NCT02366143|184290937|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.671||||0.1043|TWO_SIDED|95.0|0.413|1.089|||Log Rank|||Teff-high WT Population||1.089|0.413|0.1043
92196133|NCT02366143|184290937|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.232||||0.173||95.0|0.912|1.665|||Log Rank|||ITT WT||1.665|0.912|0.1730
92196134|NCT02366143|184290937|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.084||||0.6145|TWO_SIDED|95.0|0.792|1.483|||Log Rank|||ITT WT||1.483|0.792|0.6145
92196135|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.041||||0.8816|TWO_SIDED|95.0|0.614|1.763|||Log Rank|||Cough for Teff-high WT ITT population||1.763|0.614|0.8816
92196136|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.741||||0.2995|TWO_SIDED|95.0|0.419|1.309|||Log Rank|||Cough for Teff-high WT ITT Population||1.309|0.419|0.2995
92196137|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.936||||0.7578|TWO_SIDED|95.0|0.616|1.422|||Log Rank|||Dyspnea in Teff-high WT Population||1.422|0.616|0.7578
92196138|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.041||||0.847|TWO_SIDED|95.0|0.694|1.56|||Log Rank|||Dyspnea in Teff-high WT Population||1.560|0.694|0.8470
92196139|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.659||||0.1289|TWO_SIDED|95.0|0.383|1.133|||Log Rank|||Pain in Chest in Teff-high WT Population||1.133|0.383|0.1289
92196140|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.729||||0.2381|TWO_SIDED|95.0|0.43|1.235|||Log Rank|||Pain in Chest in Teff-high WT Population||1.235|0.430|0.2381
92196141|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.09||||0.7163|TWO_SIDED|95.0|0.685|1.732|||Log Rank|||Arm and/or Shoulder Pain in Teff-high WT||1.732|0.685|0.7163
92319654|NCT04003636|184544770|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0034|TWO_SIDED|95.0|0.72|0.95|||Regression, Cox|One-sided p-value based on log-rank test stratified by geographic region, disease status, site of origin with small strata collapsed|HR=Arm A/Arm B|||0.95|0.72|0.0034
92196142|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.693||||0.1502|TWO_SIDED|95.0|0.42|1.145|||Log Rank|||Arm and/or Shoulder Pain in Teff-high WT||1.145|0.420|0.1502
92196143|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.01||||0.9568|TWO_SIDED|95.0|0.713|1.43|||Log Rank|||Cough in ITT-WT Population||1.430|0.713|0.9568
92196144|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.891||||0.5377|TWO_SIDED|95.0|0.619|1.284|||Log Rank|||Cough in ITT-WT Population||1.284|0.619|0.5377
92196145|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.893||||0.4012|TWO_SIDED|95.0|0.685|1.163|||Log Rank|||Dyspnea in ITT-WT Population||1.163|0.685|0.4012
92196146|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.05||||0.7149|TWO_SIDED|95.0|0.809|1.363|||Log Rank|||Dyspnea in ITT-WT Population||1.363|0.809|0.7149
92196147|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.057||||0.7126|TWO_SIDED|95.0|0.786|1.422|||Log Rank|||Arm and/or Shoulder Pain in ITT-WT||1.422|0.786|0.7126
92196148|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.921||||0.6053|TWO_SIDED|95.0|0.675|1.258|||Log Rank|||Arm and/or Shoulder Pain in ITT-WT||1.258|0.675|0.6053
92196149|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.829||||0.3134|TWO_SIDED|95.0|0.576|1.194|||Log Rank|||Pain in Chest in ITT-WT Population||1.194|0.576|0.3134
92196150|NCT02366143|184290938|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.91||||0.6115|TWO_SIDED|95.0|0.633|1.309|||Log Rank|||Pain in Chest in ITT-WT Population||1.309|0.633|0.6115
92196151|NCT01536587|184290958|SUPERIORITY_OR_OTHER|||||||0.5062||95.0|||||paired t-Test, 2-sided|||||||0.5062
92196152|NCT02666664|184291005|SUPERIORITY||Difference in LS mean|-18.1|STANDARD_ERROR_OF_MEAN|1.01|<|0.001|TWO_SIDED|95.0|-20.0|-16.1|||ANCOVA|||||-16.1|-20|<0.001
92196153|NCT02666664|184291007|SUPERIORITY||Difference in LS mean|-16.1|STANDARD_ERROR_OF_MEAN|1.07|<|0.001|TWO_SIDED|95.0|-18.2|-14.0|||ANCOVA|||||-14|-18.2|<0.001
92196154|NCT02666664|184291008|SUPERIORITY||Difference in LS mean|-13.3|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-15.1|-11.6|||ANCOVA|||||-11.6|-15.1|<0.001
92196155|NCT02666664|184291009|SUPERIORITY||Difference in LS mean|-11.1|STANDARD_ERROR_OF_MEAN|0.69|<|0.001|TWO_SIDED|95.0|-12.5|-9.8|||ANCOVA|||||-9.8|-12.5|<0.001
92196156|NCT02666664|184291010|SUPERIORITY||Difference in LS mean|-11.9|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|-13.6|-10.2|||ANCOVA|||||-10.2|-13.6|<0.001
92196157|NCT02666664|184291011|SUPERIORITY||Location shift|-21.5|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-26.96|-16.0|||Wilcoxon (Mann-Whitney)|||||-16|-26.96|<0.001
92196158|NCT02666664|184291012|SUPERIORITY||Difference in LS mean|-13.6|STANDARD_ERROR_OF_MEAN|1.13|<|0.001|TWO_SIDED|95.0|-15.8|-11.3|||ANCOVA|||||-11.3|-15.8|<0.001
92196159|NCT02666664|184291021|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92196160|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.008|||||TWO_SIDED|95.0|0.258|3.94|||||"Risk Ratio of age \< 15 years to ≥ 15 to \< 65 years"|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 65 years\]||3.940|0.258|
92196161|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.04|||||TWO_SIDED|95.0|0.497|2.177|||||"Risk Ratio of age ≥ 65 years to ≥ 15 to \< 65 years"|Subgroup analyses of age \[≥ 65 years, ≥ 15 to \< 65 years\]||2.177|0.497|
92196162|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.084|||||TWO_SIDED|95.0|0.317|3.71|||||"Risk Ratio of age \< 18 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[\< 18 years, ≥ 18 to \< 55 years\]||3.710|0.317|
92196163|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.212|||||TWO_SIDED|95.0|0.536|2.74|||||"Risk Ratio of age ≥ 55 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[≥ 55 years, ≥ 18 to \< 55 years\]||2.740|0.536|
92196164|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.091|||||TWO_SIDED|95.0|0.247|4.827|||||"Risk Ratio of age \< 15 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 40 years\]||4.827|0.247|
92196165|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.137|||||TWO_SIDED|95.0|0.461|2.801|||||"Risk Ratio of age ≥ 40 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[≥ 40 years, ≥ 15 to \< 40 years\]||2.801|0.461|
92196166|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.409|||||TWO_SIDED|95.0|0.493|4.03|||||"Risk Ratio of hepatic impairment present to absent"|Subgroup analyses of hepatic impairment||4.030|0.493|
92196167|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.096|||||TWO_SIDED|95.0|0.301|3.994|||||"Risk Ratio of past medical history - Hepatitis or hepatic disease present to absent"|Subgroup analyses of past medical history - Hepatitis or hepatic disease||3.994|0.301|
92196168|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.409|||||TWO_SIDED|95.0|0.493|4.03|||||"Risk Ratio of present medical history - Hepatitis or hepatic disease present to absent"|Subgroup analyses of present medical history - Hepatitis or hepatic disease||4.030|0.493|
92196169|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|2.954|||||TWO_SIDED|95.0|1.172|7.445|||||"Risk Ratio of ECOG PS before the start of this drug 0 to 1"|Subgroup analyses of ECOG PS before the start of this drug||7.445|1.172|
92196170|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.152|||||TWO_SIDED|95.0|0.299|4.432|||||"Risk Ratio of ECOG PS before the start of this drug ≥ 2 to 1"|Subgroup analyses of ECOG PS before the start of this drug||4.432|0.299|
92319655|NCT04003636|184544771|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0225|TWO_SIDED|95.0|0.75|1.0|||Regression, Cox|One-sided p-value based on log-rank test stratified by geographic region, disease status, site of origin with small strata collapsed|HR=Arm A/Arm B|||1.00|0.75|0.0225
92319656|NCT04003636|184544772|SUPERIORITY||Difference in Percentages|0.2||||0.4735|TWO_SIDED|95.0|-5.2|5.6||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0|Miettinen & Nurminen||Difference=Arm A minus Arm B|||5.6|-5.2|0.4735
92319657|NCT01234870|184544786|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The MR images resulting from two different image acquisition techniques, including Non-Corrected Breath-Hold Shallow-Breathing and Motion-Corrected, were assessed independently by two radiologists (average of 7 years of experience in reading cardiac MRI) using the American Heart Association modified 16 segment model and were evaluated using a four point Likert scale (1 = poor, 2 = fair, 3 = good, and 4 = excellent) for image quality||||<0.001
92319658|NCT01262287|184544788|SUPERIORITY_OR_OTHER|||||||0.9|||||||t-test, 2 sided|||||||0.9
92319659|NCT01262287|184544789|SUPERIORITY_OR_OTHER|||||||0.9|||||||t-test, 2 sided|||||||0.9
92319660|NCT01262287|184544789|SUPERIORITY_OR_OTHER|||||||0.9|||||||t-test, 2 sided|||||||0.9
92319661|NCT00693498|184544822|OTHER||||||<|0.03||||||the reported value is for POD#1 assessment|Wald Wolfowitz|||||||<0.03
92319662|NCT00693498|184544822|OTHER|||||||0.29||||||for POD#2 assessment|Wald-Wolf|||||||0.29
92196171|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|0.873|||||TWO_SIDED|95.0|0.113|6.743|||||"Risk Ratio of ECOG PS before the start of this drug not performed to 1"|Subgroup analyses of ECOG PS before the start of this drug||6.743|0.113|
92196172|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.158|||||TWO_SIDED|95.0|0.545|2.461|||||"Risk Ratio of AST and ALT levels immediately before the start of this drug either \> 1.5 × the institutional upper limit normal range (IULN) to ≤ 1.5 × IULN"|Subgroup analyses of AST and ALT levels immediately before the start of this drug||2.461|0.545|
92319663|NCT06152224|184544842|EQUIVALENCE|"Power analysis was determined based on a 4.3 point improvement on the Vaizey score in both groups.~With an allowable difference of 1 point between randomized groups, standard deviation = 3, margin = 4.3, power = 0.8, alpha = 0.05, attrition = 25 percent."|Mean Difference (Final Values)|-4.3|STANDARD_DEVIATION|3.0||0.918|TWO_SIDED|||||a priori threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline||||0.918
92319664|NCT06152224|184544847|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.801||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline||||0.801
92319665|NCT06152224|184544847|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.317||||||a priori threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline||||0.317
92319666|NCT06152224|184544848|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline Brink Score: Pressure||||<0.001
92319667|NCT06152224|184544848|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline in Brink Score: Pressure||||<0.001
92319668|NCT06152224|184544849|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Change from baseline in Brink Score: Vertical Displacement||||<0.001
92319669|NCT06152224|184544849|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline in Brink Score: Vertical Displacement||||<0.001
92319670|NCT06152224|184544850|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline in Brink Score: Duration Contraction||||<0.001
92319671|NCT06152224|184544850|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline in Brink Score: Duration Contraction||||<0.001
92319672|NCT06152224|184544860|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.035||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Q1. The app was easy to use||||0.035
92319673|NCT06152224|184544860|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.063||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Q2. It was easy for me to learn to use the app||||0.063
92319674|NCT06152224|184544860|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.587||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Q11. I would use this app again||||0.587
92196173|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|0.59|||||TWO_SIDED|95.0|0.28|1.244|||||"Risk Ratio of γ-GTP level immediately before the start of this drug \> 50 IU/L to ≤ 50 IU/L"|Subgroup analyses of γ-GTP level immediately before the start of this drug||1.244|0.280|
92196174|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|0.267|||||TWO_SIDED|95.0|0.038|1.862|||||"Risk Ratio of γ-GTP level immediately before the start of this drug not performed to ≤ 50 IU/L"|Subgroup analyses of γ-GTP level immediately before the start of this drug||1.862|0.038|
92196175|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|0.413|||||TWO_SIDED|95.0|0.201|0.849|||||"Risk Ratio of platelet count immediately before the start of this drug \< 10 × 10⁴/μL to ≥ 10 × 10⁴/μL"|Subgroup analyses of platelet count immediately before the start of this drug||0.849|0.201|
92196176|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|0.299|||||TWO_SIDED|95.0|0.075|1.194|||||"Risk Ratio of peripheral blast count immediately before the start of this drug \> 1000 /μL to ≤ 1000 /μL"|Subgroup analyses of peripheral blast count immediately before the start of this drug||1.194|0.075|
92196177|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|2.415|||||TWO_SIDED|95.0|0.917|6.362|||||"Risk Ratio of salvage line of the induction treatment with this drug 2nd to 1st"|Subgroup analyses of salvage line of the induction treatment with this drug||6.362|0.917|
92196178|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|1.688|||||TWO_SIDED|95.0|0.612|4.655|||||"Risk Ratio of salvage line of the induction treatment with this drug 3rd or later to 1st"|Subgroup analyses of salvage line of the induction treatment with this drug||4.655|0.612|
92196179|NCT05923112|184291023|OTHER|Estimation|Risk Ratio (RR)|0.901|||||TWO_SIDED|95.0|0.408|1.99|||||"Risk Ratio of HSCT before the start of this drug performed to not performed"|Subgroup analyses of HSCT before the start of this drug||1.990|0.408|
92319675|NCT06152224|184544860|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.107||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Q12. Overall, I am satisfied with this app||||0.107
92319676|NCT06152224|184544860|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.486||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Q15. The app helped me manage my health effectively||||0.486
92196180|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.616|||||TWO_SIDED|95.0|0.086|4.391|||||"Risk Ratio of age \< 15 years to ≥ 15 to \< 65 years"|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 65 years\]||4.391|0.086|
92196181|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.53|||||TWO_SIDED|95.0|0.188|1.491|||||"Risk Ratio of age ≥ 65 years to ≥ 15 to \< 65 years"|Subgroup analyses of age \[≥ 65 years, ≥ 15 to \< 65 years\]||1.491|0.188|
92319677|NCT01164579|184544867|SUPERIORITY_OR_OTHER||Difference in least squares (LS) Mean|-0.63|STANDARD_ERROR_OF_MEAN|0.57||0.2696|TWO_SIDED|90.0|-1.58|0.31||2-sided p-value; alpha equals (=) 0.10|mixed model repeated measures analysis|||||0.31|-1.58|0.2696
92319678|NCT01164579|184544867|SUPERIORITY_OR_OTHER||Difference in LS Mean|-0.52|STANDARD_ERROR_OF_MEAN|0.57||0.3561|TWO_SIDED|90.0|-1.46|0.41||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||||0.41|-1.46|0.3561
92196182|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|1.012|||||TWO_SIDED|95.0|0.217|4.723|||||"Risk Ratio of age \< 18 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[\< 18 years, ≥ 18 to \< 55 years\]||4.723|0.217|
92196183|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.905|||||TWO_SIDED|95.0|0.316|2.594|||||"Risk Ratio of age ≥ 55 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[≥ 55 years, ≥ 18 to \< 55 years\]||2.594|0.316|
92196184|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.682|||||TWO_SIDED|95.0|0.085|5.455|||||"Risk Ratio of age \< 15 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 40 years\]||5.455|0.085|
92196185|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.789|||||TWO_SIDED|95.0|0.267|2.335|||||"Risk Ratio of age ≥ 40 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[≥ 40 years, ≥ 15 to \< 40 years\]||2.335|0.267|
92319679|NCT01164579|184544868|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.55|STANDARD_ERROR_OF_MEAN|0.59||0.0089|TWO_SIDED|90.0|-2.52|-0.58||2-sided p-value; alpha= 0.10|mixed model repeated measures analysis|||||-0.58|-2.52|0.0089
92196186|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|2.583|||||TWO_SIDED|95.0|0.845|7.9|||||"Risk Ratio of hepatic impairment present to absent"|Subgroup analyses of hepatic impairment||7.900|0.845|
92196187|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.131|6.163|||||"Risk Ratio of past medical history - Hepatitis or hepatic disease present to absent"|Subgroup analyses of past medical history - Hepatitis or hepatic disease||6.163|0.131|
92196188|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|2.583|||||TWO_SIDED|95.0|0.845|7.9|||||"Risk Ratio of present medical history - Hepatitis or hepatic disease present to absent"|Subgroup analyses of present medical history - Hepatitis or hepatic disease||7.900|0.845|
92196189|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|2.769|||||TWO_SIDED|95.0|0.796|9.63|||||"Risk Ratio of ECOG PS before the start of this drug 0 to 1"|Subgroup analyses of ECOG PS before the start of this drug||9.630|0.796|
92196190|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|1.92|||||TWO_SIDED|95.0|0.418|8.827|||||"Risk Ratio of ECOG PS before the start of this drug ≥ 2 to 1"|Subgroup analyses of ECOG PS before the start of this drug||8.827|0.418|
92196191|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of ECOG PS before the start of this drug|"Regarding Risk Ratio of ECOG PS before the start of this drug not performed to 1"|||
92196192|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.615|||||TWO_SIDED|95.0|0.184|2.062|||||"Risk Ratio of AST and ALT levels immediately before the start of this drug either \> 1.5 × the institutional upper limit normal range (IULN) to ≤ 1.5 ×IULN"|Subgroup analyses of AST and ALT levels immediately before the start of this drug||2.062|0.184|
92196193|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.656|||||TWO_SIDED|95.0|0.249|1.729|||||"Risk Ratio of γ-GTP level immediately before the start of this drug \> 50 IU/L to ≤ 50 IU/L"|Subgroup analyses of γ-GTP level immediately before the start of this drug||1.729|0.249|
92196194|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of γ-GTP level immediately before the start of this drug|"Regarding Risk Ratio of γ-GTP level immediately before the start of this drug not performed to ≤ 50 IU/L"|||
92196195|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.707|||||TWO_SIDED|95.0|0.273|1.836|||||"Risk Ratio of platelet count immediately before the start of this drug \< 10 × 10⁴/μL to ≥ 10 × 10⁴/μL"|Subgroup analyses of platelet count immediately before the start of this drug||1.836|0.273|
92196196|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|0.245|||||TWO_SIDED|95.0|0.034|1.79|||||"Risk Ratio of peripheral blast count immediately before the start of this drug \> 1000 /μL to ≤ 1000 /μL"|Subgroup analyses of peripheral blast count immediately before the start of this drug||1.790|0.034|
92196197|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|2.927|||||TWO_SIDED|95.0|0.832|10.294|||||"Risk Ratio of salvage line of the induction treatment with this drug 2nd to 1st"|Subgroup analyses of salvage line of the induction treatment with this drug||10.294|0.832|
92196198|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|1.25|||||TWO_SIDED|95.0|0.296|5.279|||||"Risk Ratio of salvage line of the induction treatment with this drug 3rd or later to 1st"|Subgroup analyses of salvage line of the induction treatment with this drug||5.279|0.296|
92196199|NCT05923112|184291024|OTHER|Estimation|Risk Ratio (RR)|1.545|||||TWO_SIDED|95.0|0.588|4.058|||||"Risk Ratio of HSCT before the start of this drug performed to not performed"|Subgroup analyses of HSCT before the start of this drug||4.058|0.588|
92196200|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|0.528|||||TWO_SIDED|95.0|0.144|1.939|||||"Risk Ratio of age \< 15 years to ≥ 15 to \< 65 years"|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 65 years\]||1.939|0.144|
92196201|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|1.316|||||TWO_SIDED|95.0|0.849|2.041|||||"Risk Ratio of age ≥ 65 years to ≥ 15 to \< 65 years"|Subgroup analyses of age \[≥ 65 years, ≥ 15 to \< 65 years\]||2.041|0.849|
92196202|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|1.084|||||TWO_SIDED|95.0|0.5|2.351|||||"Risk Ratio of age \< 18 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[\< 18 years, ≥ 18 to \< 55 years\]||2.351|0.500|
92196203|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|1.293|||||TWO_SIDED|95.0|0.781|2.142|||||"Risk Ratio of age ≥ 55 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[≥ 55 years, ≥ 18 to \< 55 years\]||2.142|0.781|
92196204|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|0.455|||||TWO_SIDED|95.0|0.12|1.715|||||"Risk Ratio of age \< 15 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 40 years\]||1.715|0.120|
92196205|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.605|1.653|||||"Risk Ratio of age ≥ 40 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[≥ 40 years, ≥ 15 to \< 40 years\]||1.653|0.605|
92196206|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|1.099|||||TWO_SIDED|95.0|0.542|2.228|||||"Risk Ratio of hepatic impairment present to absent"|Subgroup analyses of hepatic impairment||2.228|0.542|
92196207|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|1.069|||||TWO_SIDED|95.0|0.667|1.714|||||"Risk Ratio of ECOG PS before the start of this drug 0 to 1"|Subgroup analyses of ECOG PS before the start of this drug||1.714|0.667|
92196208|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|0.909|||||TWO_SIDED|95.0|0.485|1.705|||||"Risk Ratio of ECOG PS before the start of this drug ≥ 2 to 1"|Subgroup analyses of ECOG PS before the start of this drug||1.705|0.485|
92196209|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|0.459|||||TWO_SIDED|95.0|0.125|1.688|||||"Risk Ratio of ECOG PS before the start of this drug not performed to 1"|Subgroup analyses of ECOG PS before the start of this drug||1.688|0.125|
92319680|NCT01164579|184544868|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.74|STANDARD_ERROR_OF_MEAN|0.59||0.0038|TWO_SIDED|90.0|-2.72|-0.76||2-sided p-value; alpha= 0.10|mixed model repeated measures analysis|||||-0.76|-2.72|0.0038
92196210|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|0.889|||||TWO_SIDED|95.0|0.58|1.362|||||"Risk Ratio of white blood cell count immediately before the start of this drug ≥ 4000/mm³ to \< 4000/mm³"|Subgroup analyses of white blood cell count immediately before the start of this drug||1.362|0.580|
92196211|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|1.121|||||TWO_SIDED|95.0|0.728|1.725|||||"Risk Ratio of neutrophil count immediately before the start of this drug ≥ 2000/mm³ to \< 2000/mm³"|Subgroup analyses of neutrophil count immediately before the start of this drug||1.725|0.728|
92196212|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.639|1.536|||||"Risk Ratio of platelet count immediately before the start of this drug \< 10 × 10⁴/μL to ≥ 10 × 10⁴/μL"|Subgroup analyses of platelet count immediately before the start of this drug||1.536|0.639|
92196213|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|1.996|||||TWO_SIDED|95.0|1.093|3.643|||||"Risk Ratio of salvage line of the induction treatment with this drug 2nd to 1st"|Subgroup analyses of salvage line of the induction treatment with this drug||3.643|1.093|
92196214|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|1.79|||||TWO_SIDED|95.0|0.977|3.279|||||"Risk Ratio of salvage line of the induction treatment with this drug 3rd or later to 1st"|Subgroup analyses of salvage line of the induction treatment with this drug||3.279|0.977|
92196215|NCT05923112|184291025|OTHER|Estimation|Risk Ratio (RR)|0.772|||||TWO_SIDED|95.0|0.464|1.286|||||"Risk Ratio of HSCT before the start of this drug performed to not performed"|Subgroup analyses of HSCT before the start of this drug||1.286|0.464|
92196216|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|0.584|||||TWO_SIDED|95.0|0.158|2.159|||||"Risk Ratio of age \< 15 years to ≥ 15 to \< 65 years"|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 65 years\]||2.159|0.158|
92196217|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|1.104|||||TWO_SIDED|95.0|0.667|1.826|||||"Risk Ratio of age ≥ 65 years to ≥ 15 to \< 65 years"|Subgroup analyses of age \[≥ 65 years, ≥ 15 to \< 65 years\]||1.826|0.667|
92196218|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|0.973|||||TWO_SIDED|95.0|0.41|2.311|||||"Risk Ratio of age \< 18 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[\< 18 years, ≥ 18 to \< 55 years\]||2.311|0.410|
92196219|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|1.088|||||TWO_SIDED|95.0|0.624|1.897|||||"Risk Ratio of age ≥ 55 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[≥ 55 years, ≥ 18 to \< 55 years\]||1.897|0.624|
92196220|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|0.545|||||TWO_SIDED|95.0|0.141|2.108|||||"Risk Ratio of age \< 15 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 40 years\]||2.108|0.141|
92196221|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|0.979|||||TWO_SIDED|95.0|0.547|1.753|||||"Risk Ratio of age ≥ 40 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[≥ 40 years, ≥ 15 to \< 40 years\]||1.753|0.547|
92196222|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|1.36|||||TWO_SIDED|95.0|0.662|2.793|||||"Risk Ratio of hepatic impairment present to absent"|Subgroup analyses of hepatic impairment||2.793|0.662|
92196223|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|0.769|||||TWO_SIDED|95.0|0.439|1.349|||||"Risk Ratio of ECOG PS before the start of this drug 0 to 1"|Subgroup analyses of ECOG PS before the start of this drug||1.349|0.439|
92196224|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.507|1.816|||||"Risk Ratio of ECOG PS before the start of this drug ≥ 2 to 1"|Subgroup analyses of ECOG PS before the start of this drug||1.816|0.507|
92319681|NCT01164579|184544869|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.25|STANDARD_ERROR_OF_MEAN|0.57||0.6576|TWO_SIDED|90.0|-1.19|0.69||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||0.69|-1.19|0.6576
92196225|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|0.242|||||TWO_SIDED|95.0|0.036|1.627|||||"Risk Ratio of ECOG PS before the start of this drug not performed to 1"|Subgroup analyses of ECOG PS before the start of this drug||1.627|0.036|
92196226|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|0.848|||||TWO_SIDED|95.0|0.518|1.391|||||"Risk Ratio of white blood cell count immediately before the start of this drug ≥ 4000/mm³ to \< 4000/mm³"|Subgroup analyses of white blood cell count immediately before the start of this drug||1.391|0.518|
92319682|NCT01164579|184544869|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.17|STANDARD_ERROR_OF_MEAN|0.55||0.7565|TWO_SIDED|90.0|-1.09|0.74||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||0.74|-1.09|0.7565
92319683|NCT01164579|184544869|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.94|STANDARD_ERROR_OF_MEAN|0.58||0.1038|TWO_SIDED|90.0|-1.89|0.01||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.01|-1.89|0.1038
92319684|NCT01164579|184544869|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.01|STANDARD_ERROR_OF_MEAN|0.59||0.0868|TWO_SIDED|90.0|-1.98|-0.04||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.04|-1.98|0.0868
92319685|NCT01164579|184544869|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.6|STANDARD_ERROR_OF_MEAN|0.62||0.0103|TWO_SIDED|90.0|-2.62|-0.58||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.58|-2.62|0.0103
92196227|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|0.945|||||TWO_SIDED|95.0|0.578|1.547|||||"Risk Ratio of neutrophil count immediately before the start of this drug ≥ 2000/mm³ to \< 2000/mm³"|Subgroup analyses of neutrophil count immediately before the start of this drug||1.547|0.578|
92196228|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|1.156|||||TWO_SIDED|95.0|0.685|1.95|||||"Risk Ratio of platelet count immediately before the start of this drug \< 10 × 10⁴/μL to ≥ 10 × 10⁴/μL"|Subgroup analyses of platelet count immediately before the start of this drug||1.950|0.685|
92196229|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|2.195|||||TWO_SIDED|95.0|1.113|4.329|||||"Risk Ratio of salvage line of the induction treatment with this drug 2nd to 1st"|Subgroup analyses of salvage line of the induction treatment with this drug||4.329|1.113|
92196230|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|1.667|||||TWO_SIDED|95.0|0.821|3.384|||||"Risk Ratio of salvage line of the induction treatment with this drug 3rd or later to 1st"|Subgroup analyses of salvage line of the induction treatment with this drug||3.384|0.821|
92319686|NCT01164579|184544869|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.49|STANDARD_ERROR_OF_MEAN|0.63||0.435|TWO_SIDED|90.0|-1.53|0.55||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.55|-1.53|0.4350
92319687|NCT01164579|184544870|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4|STANDARD_ERROR_OF_MEAN|0.58||0.489|TWO_SIDED|90.0|-1.36|0.56||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||0.56|-1.36|0.4890
92319688|NCT01164579|184544870|SUPERIORITY_OR_OTHER||Difference in LS Means|0.08|STANDARD_ERROR_OF_MEAN|0.57||0.8817|TWO_SIDED|90.0|-0.85|1.02||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||1.02|-0.85|0.8817
92319689|NCT01164579|184544870|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.24|STANDARD_ERROR_OF_MEAN|0.59||0.0351|TWO_SIDED|90.0|-2.21|-0.27||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||-0.27|-2.21|0.0351
92319690|NCT01164579|184544870|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.32|STANDARD_ERROR_OF_MEAN|0.58||0.0231|TWO_SIDED|90.0|-2.28|-0.37||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||-0.37|-2.28|0.0231
92319691|NCT01164579|184544870|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.1|STANDARD_ERROR_OF_MEAN|0.62||0.0008|TWO_SIDED|90.0|-3.13|-1.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-1.08|-3.13|0.0008
92319692|NCT01164579|184544870|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.29|STANDARD_ERROR_OF_MEAN|0.63||0.0003|TWO_SIDED|90.0|-3.32|-1.25||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-1.25|-3.32|0.0003
92319693|NCT01164579|184544871|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.35||0.2689|TWO_SIDED|90.0|-0.96|0.19||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||0.19|-0.96|0.2689
92196231|NCT05923112|184291026|OTHER|Estimation|Risk Ratio (RR)|1.004|||||TWO_SIDED|95.0|0.586|1.719|||||"Risk Ratio of HSCT before the start of this drug performed to not performed"|Subgroup analyses of HSCT before the start of this drug||1.719|0.586|
92196232|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 65 years\]|"Regarding Risk Ratio of age \< 15 years to ≥ 15 to \< 65 years"|||
92196233|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|2.383|||||TWO_SIDED|95.0|0.48|11.824|||||"Risk Ratio of age ≥ 65 years to ≥ 15 to \< 65 years"|Subgroup analyses of age \[≥ 65 years, ≥ 15 to \< 65 years\]||11.824|0.480|
92196234|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|2.529|||||TWO_SIDED|95.0|0.168|38.18|||||"Risk Ratio of age \< 18 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[\< 18 years, ≥ 18 to \< 55 years\]||38.180|0.168|
92196235|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|2.829|||||TWO_SIDED|95.0|0.342|23.432|||||"Risk Ratio of age ≥ 55 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[≥ 55 years, ≥ 18 to \< 55 years\]||23.432|0.342|
92196236|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 40 years\]|"Regarding Risk Ratio of age \< 15 years to ≥ 15 to \< 40 years"|||
92196237|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|0.789|||||TWO_SIDED|95.0|0.161|3.862|||||"Risk Ratio of age ≥ 40 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[≥ 40 years, ≥ 15 to \< 40 years\]||3.862|0.161|
92319694|NCT01164579|184544871|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0|STANDARD_ERROR_OF_MEAN|0.35||0.9935|TWO_SIDED|90.0|-0.58|0.57||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||0.57|-0.58|0.9935
92319695|NCT01164579|184544871|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.35||0.1086|TWO_SIDED|90.0|-1.15|0.01||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||0.01|-1.15|0.1086
92319696|NCT01164579|184544871|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.08|STANDARD_ERROR_OF_MEAN|0.35||0.8092|TWO_SIDED|90.0|-0.66|0.49||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||0.49|-0.66|0.8092
92319697|NCT01164579|184544871|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.35||0.0463|TWO_SIDED|90.0|-1.29|-0.12||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.12|-1.29|0.0463
92319698|NCT01164579|184544871|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.35||0.0624|TWO_SIDED|90.0|-1.25|-0.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.08|-1.25|0.0624
92319699|NCT01164579|184544871|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.29|STANDARD_ERROR_OF_MEAN|0.37||0.0005|TWO_SIDED|90.0|-1.9|-0.69||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.69|-1.90|0.0005
92319700|NCT01164579|184544871|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.26|STANDARD_ERROR_OF_MEAN|0.37||0.0008|TWO_SIDED|90.0|-1.87|-0.65||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.65|-1.87|0.0008
92319701|NCT01164579|184544872|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.72||0.5019|TWO_SIDED|90.0|-1.68|0.71||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.71|-1.68|0.5019
92319702|NCT01164579|184544872|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.07|STANDARD_ERROR_OF_MEAN|0.73||0.1462|TWO_SIDED|90.0|-2.28|0.14||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.14|-2.28|0.1462
92319703|NCT01164579|184544872|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.74||0.49|TWO_SIDED|90.0|-1.74|0.72||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.72|-1.74|0.4900
92319704|NCT01164579|184544872|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.51|STANDARD_ERROR_OF_MEAN|0.75||0.0459|TWO_SIDED|90.0|-2.76|-0.27|||mixed model repeated measures analysis|||Month 12||-0.27|-2.76|0.0459
92196238|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of hepatic impairment|"Regarding Risk Ratio of hepatic impairment present to absent"|||
92196239|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|0.923|||||TWO_SIDED|95.0|0.196|4.355|||||"Risk Ratio of ECOG PS before the start of this drug 0 to 1"|Subgroup analyses of ECOG PS before the start of this drug||4.355|0.196|
92319705|NCT01164579|184544873|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.72||0.5019|TWO_SIDED|90.0|-1.68|0.71||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.71|-1.68|0.5019
92319706|NCT01164579|184544873|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.07|STANDARD_ERROR_OF_MEAN|0.73||0.1462|TWO_SIDED|90.0|-2.28|0.14||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.14|-2.28|0.1462
92319707|NCT01164579|184544873|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.74||0.49|TWO_SIDED|90.0|-1.74|0.72||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.72|-1.74|0.4900
92319708|NCT01164579|184544873|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.51|STANDARD_ERROR_OF_MEAN|0.75||0.0459|TWO_SIDED|90.0|-2.76|-0.27||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.27|-2.76|0.0459
92196240|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|0.64|||||TWO_SIDED|95.0|0.07|5.84|||||"Risk Ratio of ECOG PS before the start of this drug ≥ 2 to 1"|Subgroup analyses of ECOG PS before the start of this drug||5.840|0.070|
92319709|NCT01164579|184544874|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.07|STANDARD_ERROR_OF_MEAN|0.5||0.8959|TWO_SIDED|90.0|-0.89|0.76||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.76|-0.89|0.8959
92319710|NCT01164579|184544874|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.5||0.4193|TWO_SIDED|90.0|-1.25|0.43||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.43|-1.25|0.4193
92319711|NCT01164579|184544874|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.29|STANDARD_ERROR_OF_MEAN|0.51||0.5764|TWO_SIDED|90.0|-1.13|0.56||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.56|-1.13|0.5764
92319712|NCT01164579|184544874|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.83|STANDARD_ERROR_OF_MEAN|0.52||0.1101|TWO_SIDED|90.0|-1.69|0.02||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.02|-1.69|0.1101
92319713|NCT01164579|184544875|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.07|STANDARD_ERROR_OF_MEAN|0.5||0.8959|TWO_SIDED|90.0|-0.89|0.76||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.76|-0.89|0.8959
92319714|NCT01164579|184544875|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.5||0.4193|TWO_SIDED|90.0|-1.25|0.43||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.43|-1.25|0.4193
92319715|NCT01164579|184544875|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.29|STANDARD_ERROR_OF_MEAN|0.51||0.5764|TWO_SIDED|90.0|-1.13|0.56||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.56|-1.13|0.5764
92319716|NCT01164579|184544875|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.83|STANDARD_ERROR_OF_MEAN|0.52||0.1101|TWO_SIDED|90.0|-1.69|0.02||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.02|-1.69|0.1101
92196241|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of ECOG PS before the start of this drug|"Regarding Risk Ratio of ECOG PS before the start of this drug not performed to 1"|||
92196242|NCT05923112|184291027|OTHER|Estimation|Risk Ratio (RR)|0.386|||||TWO_SIDED|95.0|0.048|3.107|||||"Risk Ratio of HSCT before the start of this drug performed to not performed"|Subgroup analyses of HSCT before the start of this drug||3.107|0.048|
92196243|NCT05923112|184291027|OTHER|Estimation||||||||||||||||Subgroup analyses of salvage line of the induction treatment with this drug|"Regarding Risk Ratio of salvage line of the induction treatment with this drug 2nd to 1st, the risk ratio was reported as participants in this group are related to Category(B)."|||
92319717|NCT01164579|184544876|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.42|STANDARD_ERROR_OF_MEAN|0.35||0.2351|TWO_SIDED|90.0|-1.0|0.16||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.16|-1.00|0.2351
92196244|NCT05923112|184291027|OTHER|Estimation||||||||||||||||Subgroup analyses of salvage line of the induction treatment with this drug|"Regarding Risk Ratio of salvage line of the induction treatment with this drug 3rd or later to 1st, the risk ratio was reported as participants in this group are related to Category(B)."|||
92196245|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 65 years\]|"Regarding Risk Ratio of age \< 15 years to ≥ 15 to \< 65 years"|||
92196246|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|0.953|||||TWO_SIDED|95.0|0.139|6.556|||||"Risk Ratio of age ≥ 65 years to ≥ 15 to \< 65 years"|Subgroup analyses of age \[≥ 65 years, ≥ 15 to \< 65 years\]||6.556|0.139|
92319718|NCT01164579|184544876|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.36||0.0631|TWO_SIDED|90.0|-1.27|-0.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.08|-1.27|0.0631
92319719|NCT01164579|184544876|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.23|STANDARD_ERROR_OF_MEAN|0.36||0.5369|TWO_SIDED|90.0|-0.83|0.38||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.38|-0.83|0.5369
92319720|NCT01164579|184544876|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.69|STANDARD_ERROR_OF_MEAN|0.37||0.062|TWO_SIDED|90.0|-1.31|-0.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.08|-1.31|0.0620
92319721|NCT01164579|184544877|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.42|STANDARD_ERROR_OF_MEAN|0.35||0.2351|TWO_SIDED|90.0|-1.0|0.16||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.16|-1.00|0.2351
92319722|NCT01164579|184544877|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.36||0.0631|TWO_SIDED|90.0|-1.27|-0.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.08|-1.27|0.0631
92319723|NCT01164579|184544877|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.23|STANDARD_ERROR_OF_MEAN|0.36||0.5369|TWO_SIDED|90.0|-0.83|0.38||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.38|-0.83|0.5369
92319724|NCT01164579|184544877|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.69|STANDARD_ERROR_OF_MEAN|0.37||0.062|TWO_SIDED|90.0|-1.31|-0.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.08|-1.31|0.0620
92319725|NCT01164579|184544878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.12|STANDARD_ERROR_OF_MEAN|11.24||0.243|TWO_SIDED|90.0|-5.36|31.62|||Normal approximation to the binomial|||Month 1||31.62|-5.36|0.2430
92319726|NCT01164579|184544878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.41|STANDARD_ERROR_OF_MEAN|11.24||0.0147|TWO_SIDED|90.0|8.91|45.9|||Normal approximation to the binomial|||Month 1||45.90|8.91|0.0147
92196247|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|2.529|||||TWO_SIDED|95.0|0.168|38.18|||||"Risk Ratio of age \< 18 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[\< 18 years, ≥ 18 to \< 55 years\]||38.180|0.168|
92196248|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|1.132|||||TWO_SIDED|95.0|0.106|12.119|||||"Risk Ratio of age ≥ 55 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[≥ 55 years, ≥ 18 to \< 55 years\]||12.119|0.106|
92196249|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 40 years\]|"Regarding Risk Ratio of age \< 15 years to ≥ 15 to \< 40 years"|||
92196250|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|0.316|||||TWO_SIDED|95.0|0.046|2.146|||||"Risk Ratio of age ≥ 40 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[≥ 40 years, ≥ 15 to \< 40 years\]||2.146|0.046|
92319727|NCT01164579|184544878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.03|STANDARD_ERROR_OF_MEAN|11.25||0.0127|TWO_SIDED|90.0|9.51|46.54|||Normal approximation to the binomial|||Month 2||46.54|9.51|0.0127
92319728|NCT01164579|184544878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.57|STANDARD_ERROR_OF_MEAN|11.45||0.0724|TWO_SIDED|90.0|1.73|39.41|||Normal approximation to the binomial|||Month 2||39.41|1.73|0.0724
92319729|NCT01164579|184544878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.49|STANDARD_ERROR_OF_MEAN|10.85||0.0086|TWO_SIDED|90.0|10.63|46.35|||Normal approximation to the binomial|||Month 3||46.35|10.63|0.0086
92319730|NCT01164579|184544878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.46|STANDARD_ERROR_OF_MEAN|11.55||0.2808|TWO_SIDED|90.0|-6.54|31.47|||Normal approximation to the binomial|||Month 3||31.47|-6.54|0.2808
92319731|NCT01164579|184544878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.18|STANDARD_ERROR_OF_MEAN|11.16||0.0115|TWO_SIDED|90.0|9.81|46.55|||Normal approximation to the binomial|||Month 9||46.55|9.81|0.0115
92319732|NCT01164579|184544878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.09|STANDARD_ERROR_OF_MEAN|11.56||0.1921|TWO_SIDED|90.0|-3.94|34.12|||Normal approximation to the binomial|||Month 9||34.12|-3.94|0.1921
92196251|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of hepatic impairment|"Regarding Risk Ratio of hepatic impairment present to absent"|||
92196252|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|0.462|||||TWO_SIDED|95.0|0.043|4.928|||||"Risk Ratio of ECOG PS before the start of this drug 0 to 1"|Subgroup analyses of ECOG PS before the start of this drug||4.928|0.043|
92196253|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.091|10.079|||||"Risk Ratio of ECOG PS before the start of this drug ≥ 2 to 1"|Subgroup analyses of ECOG PS before the start of this drug||10.079|0.091|
92196254|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of ECOG PS before the start of this drug|"Regarding Risk Ratio of ECOG PS before the start of this drug not performed to 1"|||
92196255|NCT05923112|184291028|OTHER|Estimation|Risk Ratio (RR)|0.772|||||TWO_SIDED|95.0|0.083|7.207|||||"Risk Ratio of HSCT before the start of this drug performed to not performed"|Subgroup analyses of HSCT before the start of this drug||7.207|0.083|
92196256|NCT05923112|184291028|OTHER|Estimation||||||||||||||||Subgroup analyses of salvage line of the induction treatment with this drug|"Regarding Risk Ratio of salvage line of the induction treatment with this drug 2nd to 1st, the risk ratio was reported as participants in this group are related to Category(B)."|||
92319733|NCT01164579|184544878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.18|STANDARD_ERROR_OF_MEAN|11.16||0.0115|TWO_SIDED|90.0|9.81|46.55|||Normal approximation to the binomial|||Month 12||46.55|9.81|0.0115
92319734|NCT01164579|184544878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.86|STANDARD_ERROR_OF_MEAN|11.5||0.1203|TWO_SIDED|90.0|-1.05|36.79|||Normal approximation to the binomial|||Month 12||36.79|-1.05|0.1203
92319735|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.15|STANDARD_ERROR_OF_MEAN|7.58||0.0078|TWO_SIDED|90.0|7.68|32.62|||Normal approximation to the binomial|||Month 1||32.62|7.68|0.0078
92319736|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.15|STANDARD_ERROR_OF_MEAN|7.58||0.0078|TWO_SIDED|90.0|7.68|32.62|||Normal approximation to the binomial|||Month 1||32.62|7.68|0.0078
92319737|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.49|STANDARD_ERROR_OF_MEAN|10.37||0.0044|TWO_SIDED|90.0|12.43|46.56|||Normal approximation to the binomial|||Month 2||46.56|12.43|0.0044
92319738|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.11|STANDARD_ERROR_OF_MEAN|9.92||0.0845|TWO_SIDED|90.0|0.79|33.43|||Normal approximation to the binomial|||Month 2||33.43|0.79|0.0845
92319739|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.24|STANDARD_ERROR_OF_MEAN|11.0||0.0275|TWO_SIDED|90.0|6.14|42.35|||Normal approximation to the binomial|||Month 3||42.35|6.14|0.0275
92319740|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.67|STANDARD_ERROR_OF_MEAN|10.91||0.0186|TWO_SIDED|90.0|7.71|43.63|||Normal approximation to the binomial|||Month 3||43.63|7.71|0.0186
92319741|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.52|STANDARD_ERROR_OF_MEAN|10.75||0.0009|TWO_SIDED|90.0|17.82|53.22|||Normal approximation to the binomial|||Month 6||53.22|17.82|0.0009
92196257|NCT05923112|184291028|OTHER|Estimation||||||||||||||||Subgroup analyses of salvage line of the induction treatment with this drug|"Regarding Risk Ratio of salvage line of the induction treatment with this drug 3rd or later to 1st, the risk ratio was reported as participants in this group are related to Category(B)."|||
92319742|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.6|STANDARD_ERROR_OF_MEAN|10.72||0.0169|TWO_SIDED|90.0|7.95|43.24|||Normal approximation to the binomial|||Month 6||43.24|7.95|0.0169
92319743|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.41|STANDARD_ERROR_OF_MEAN|11.24||0.0147|TWO_SIDED|90.0|8.91|45.9|||Normal approximation to the binomial|||Month 9||45.90|8.91|0.0147
92319744|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.71|STANDARD_ERROR_OF_MEAN|11.18||0.1882|TWO_SIDED|90.0|-3.68|33.11|||Normal approximation to the binomial|||Month 9||33.11|-3.68|0.1882
92319745|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.41|STANDARD_ERROR_OF_MEAN|11.24||0.0147|TWO_SIDED|90.0|8.91|45.9|||Normal approximation to the binomial|||Month 12||45.90|8.91|0.0147
92319746|NCT01164579|184544879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.71|STANDARD_ERROR_OF_MEAN|11.18||0.1882|TWO_SIDED|90.0|-3.68|33.11|||Normal approximation to the binomial|||Month 12||33.11|-3.68|0.1882
92319747|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.57|STANDARD_ERROR_OF_MEAN|4.73||0.07|TWO_SIDED|90.0|0.78|16.35|||Normal approximation to the binomial|||Month 1||16.35|0.78|0.0700
92319748|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.85|STANDARD_ERROR_OF_MEAN|2.81||0.3102|TWO_SIDED|90.0|-1.77|7.48|||Normal approximation to the binomial|||Month 1||7.48|-1.77|0.3102
92319749|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.02|STANDARD_ERROR_OF_MEAN|8.68||0.0027|TWO_SIDED|90.0|11.73|40.3|||Normal approximation to the binomial|||Month 2||40.30|11.73|0.0027
92319750|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.81|STANDARD_ERROR_OF_MEAN|7.86||0.0324|TWO_SIDED|90.0|3.88|29.75|||Normal approximation to the binomial|||Month 2||29.75|3.88|0.0324
92319751|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.9|STANDARD_ERROR_OF_MEAN|8.97||0.0969|TWO_SIDED|90.0|0.13|29.67|||Normal approximation to the binomial|||Month 3||29.67|0.13|0.0969
92319752|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.96|STANDARD_ERROR_OF_MEAN|9.04||0.0606|TWO_SIDED|90.0|2.09|31.84|||Normal approximation to the binomial|||Month 3||31.84|2.09|0.0606
92319753|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.66|STANDARD_ERROR_OF_MEAN|10.49||0.2276|TWO_SIDED|90.0|-4.6|29.93|||Normal approximation to the binomial|||Month 6||29.93|-4.60|0.2276
92319754|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.93|STANDARD_ERROR_OF_MEAN|10.23||0.3827|TWO_SIDED|90.0|-7.9|25.76|||Normal approximation to the binomial|||Month 6||25.76|-7.90|0.3827
92319755|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|STANDARD_ERROR_OF_MEAN|10.15||0.2177|TWO_SIDED|90.0|-4.18|29.2|||Normal approximation to the binomial|||Month 9||29.20|-4.18|0.2177
92319756|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.41|STANDARD_ERROR_OF_MEAN|10.15||0.1558|TWO_SIDED|90.0|-2.29|31.12|||Normal approximation to the binomial|||Month 9||31.12|-2.29|0.1558
92319757|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|9.8||0.8997|TWO_SIDED|90.0|-14.89|17.36|||Normal approximation to the binomial|||Month 12||17.36|-14.89|0.8997
92319758|NCT01164579|184544880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.71|STANDARD_ERROR_OF_MEAN|10.36||0.2587|TWO_SIDED|90.0|-5.34|28.76|||Normal approximation to the binomial|||Month 12||28.76|-5.34|0.2587
92319759|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|||||TWO_SIDED|90.0|-0.56|0.13||||||Baseline||0.13|-0.56|
92319760|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||||TWO_SIDED|90.0|-0.19|0.43||||||Baseline||0.43|-0.19|
92319761|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|||||TWO_SIDED|90.0|-1.38|-0.5||||||Month 1||-0.50|-1.38|
92319762|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|||||TWO_SIDED|90.0|-1.01|-0.22||||||Month 1||-0.22|-1.01|
92319763|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21|||||TWO_SIDED|90.0|-1.73|-0.7||||||Month 2||-0.70|-1.73|
92319764|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|||||TWO_SIDED|90.0|-1.2|-0.18||||||Month 2||-0.18|-1.20|
92319765|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|||||TWO_SIDED|90.0|-1.33|-0.29||||||Month 3||-0.29|-1.33|
92319766|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||||TWO_SIDED|90.0|-0.94|0.12||||||Month 3||0.12|-0.94|
92319767|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18|||||TWO_SIDED|90.0|-1.75|-0.61||||||Month 6||-0.61|-1.75|
92319768|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18|||||TWO_SIDED|90.0|-1.73|-0.63||||||Month 6||-0.63|-1.73|
92319769|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21|||||TWO_SIDED|90.0|-1.81|-0.61||||||Month 9||-0.61|-1.81|
92319770|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|||||TWO_SIDED|90.0|-1.33|-0.13||||||Month 9||-0.13|-1.33|
92319771|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|90.0|-1.69|-0.51||||||Month 12||-0.51|-1.69|
92319772|NCT01164579|184544881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|90.0|-1.51|-0.29||||||Month 12||-0.29|-1.51|
92319773|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.88|STANDARD_ERROR_OF_MEAN|0.26||0.001|TWO_SIDED|90.0|-1.31|-0.45||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||-0.45|-1.31|0.0010
92319774|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.26||0.0102|TWO_SIDED|90.0|-1.1|-0.24||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||-0.24|-1.10|0.0102
92319775|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.08|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|90.0|-1.52|-0.64||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 2||-0.64|-1.52|<0.0001
92196258|NCT05923112|184291029|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of hepatic impairment|"Regarding Risk Ratio of hepatic impairment present to absent"|||
92319776|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.27||0.0175|TWO_SIDED|90.0|-1.08|-0.2||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 2||-0.20|-1.08|0.0175
92319777|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.68|STANDARD_ERROR_OF_MEAN|0.27||0.0125|TWO_SIDED|90.0|-1.13|-0.23||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||-0.23|-1.13|0.0125
92196259|NCT05923112|184291029|OTHER|Estimation|Risk Ratio (RR)|0.923|||||TWO_SIDED|95.0|0.059|14.352|||||"Risk Ratio of ECOG PS before the start of this drug 0 to 1"|Subgroup analyses of ECOG PS before the start of this drug||14.352|0.059|
92196260|NCT05923112|184291029|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of ECOG PS before the start of this drug|"Regarding Risk Ratio of ECOG PS before the start of this drug ≥ 2 to 1"|||
92319778|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.27||0.1457|TWO_SIDED|90.0|-0.84|0.05||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||0.05|-0.84|0.1457
92319779|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.02|STANDARD_ERROR_OF_MEAN|0.28||0.0003|TWO_SIDED|90.0|-1.48|-0.57||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.57|-1.48|0.0003
92319780|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.03|STANDARD_ERROR_OF_MEAN|0.28||0.0002|TWO_SIDED|90.0|-1.49|-0.58||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.58|-1.49|0.0002
92319781|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.16|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|90.0|-1.63|-0.69||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 9||-0.69|-1.63|<0.0001
92319782|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.28||0.0196|TWO_SIDED|90.0|-1.14|-0.2||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 9||-0.20|-1.14|0.0196
92196261|NCT05923112|184291029|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of ECOG PS before the start of this drug|"Regarding Risk Ratio of ECOG PS before the start of this drug not performed to 1"|||
92196262|NCT05923112|184291029|OTHER|Estimation|Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|||||||The risk ratio was reported as participants in this group are related to Category(A).|Subgroup analyses of HSCT before the start of this drug|"Regarding Risk Ratio of HSCT before the start of this drug performed to not performed"|||
92319783|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.01|STANDARD_ERROR_OF_MEAN|0.3||0.0007|TWO_SIDED|90.0|-1.5|-0.52||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.52|-1.50|0.0007
92319784|NCT01164579|184544882|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.84|STANDARD_ERROR_OF_MEAN|0.3||0.0049|TWO_SIDED|90.0|-1.32|-0.35||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.35|-1.32|0.0049
92319785|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|90.0|-0.53|0.15||||||Baseline||0.15|-0.53|
92319786|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|90.0|-0.24|0.36||||||Baseline||0.36|-0.24|
92319787|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91|||||TWO_SIDED|90.0|-1.4|-0.42||||||Month 1||-0.42|-1.40|
92319788|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|||||TWO_SIDED|90.0|-1.01|-0.14||||||Month 1||-0.14|-1.01|
92319789|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|||||TWO_SIDED|90.0|-1.82|-0.73||||||Month 2||-0.73|-1.82|
92319790|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|||||TWO_SIDED|90.0|-1.25|-0.13||||||Month 2||-0.13|-1.25|
92319791|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|||||TWO_SIDED|90.0|-1.55|-0.38||||||Month 3||-0.38|-1.55|
92319792|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||||TWO_SIDED|90.0|-1.12|0.11||||||Month 3||0.11|-1.12|
92319793|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.43|||||TWO_SIDED|90.0|-2.13|-0.72||||||Month 6||-0.72|-2.13|
92319794|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24|||||TWO_SIDED|90.0|-1.91|-0.57||||||Month 6||-0.57|-1.91|
92319795|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11|||||TWO_SIDED|90.0|-1.84|-0.39||||||Month 9||-0.39|-1.84|
92319796|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||||TWO_SIDED|90.0|-1.3|0.13||||||Month 9||0.13|-1.30|
92319797|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11|||||TWO_SIDED|90.0|-1.84|-0.39||||||Month 12||-0.39|-1.84|
92319798|NCT01164579|184544883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|90.0|-1.43|0.11||||||Month 12||0.11|-1.43|
92319799|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.84|STANDARD_ERROR_OF_MEAN|0.29||0.0046|TWO_SIDED|90.0|-1.32|-0.35||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||-0.35|-1.32|0.0046
92319800|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.29||0.0303|TWO_SIDED|90.0|-1.11|-0.15||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||-0.15|-1.11|0.0303
92319801|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.18|STANDARD_ERROR_OF_MEAN|0.3||0.0001|TWO_SIDED|90.0|-1.69|-0.68||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 2||-0.68|-1.69|0.0001
92319802|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.3||0.0255|TWO_SIDED|90.0|-1.17|-0.18||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 2||-0.18|-1.17|0.0255
92319803|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.89|STANDARD_ERROR_OF_MEAN|0.3||0.0035|TWO_SIDED|90.0|-1.39|-0.39||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||-0.39|-1.39|0.0035
92319804|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.55|STANDARD_ERROR_OF_MEAN|0.3||0.0683|TWO_SIDED|90.0|-1.05|-0.05||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||-0.05|-1.05|0.0683
92319805|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.29|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|90.0|-1.81|-0.78||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.78|-1.81|<0.0001
92196263|NCT05923112|184291029|OTHER|Estimation||||||||||||||||Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 65 years\]|"Regarding Risk Ratio of age \< 15 years to ≥ 15 to \< 65 years, the risk ratio was reported as participants in this group are related to Category(B)."|||
92196264|NCT05923112|184291029|OTHER|Estimation||||||||||||||||Subgroup analyses of age \[≥ 65 years, ≥ 15 to \< 65 years\]|"Regarding Risk Ratio of age ≥ 65 years to ≥ 15 to \< 65 years, the risk ratio was reported as participants in this group are related to Category(B)."|||
92319806|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.08|STANDARD_ERROR_OF_MEAN|0.31||0.0006|TWO_SIDED|90.0|-1.59|-0.56||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.56|-1.59|0.0006
92196265|NCT05923112|184291029|OTHER|Estimation||||||||||||||||Subgroup analyses of age \[\< 18 years, ≥ 18 to \< 55 years\]|"Regarding Risk Ratio of age \< 18 years to ≥ 18 to \< 55 years, the risk ratio was reported as participants in this group are related to Category(B)."|||
92196266|NCT05923112|184291029|OTHER|Estimation||||||||||||||||Subgroup analyses of age \[≥ 55 years, ≥ 18 to \< 55 years\]|"Regarding Risk Ratio of age ≥ 55 years to ≥ 18 to \< 55 years, the risk ratio was reported as participants in this group are related to Category(B)."|||
92196267|NCT05923112|184291029|OTHER|Estimation||||||||||||||||Subgroup analyses of age \[\< 15 years, ≥ 15 to \< 40 years\]|"Regarding Risk Ratio of age \< 15 years to ≥ 15 to \< 40 years, the risk ratio was reported as participants in this group are related to Category(B)."|||
92196268|NCT05923112|184291029|OTHER|Estimation||||||||||||||||Subgroup analyses of age \[≥ 40 years, ≥ 15 to \< 40 years\]|"Regarding Risk Ratio of age ≥ 40 years to ≥ 15 to \< 40 years, the risk ratio was reported as participants in this group are related to Category(B)."|||
92319807|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.15|STANDARD_ERROR_OF_MEAN|0.32||0.0004|TWO_SIDED|90.0|-1.67|-0.62||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 9||-0.62|-1.67|0.0004
92319808|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.32||0.0706|TWO_SIDED|90.0|-1.1|-0.05||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 9||-0.05|-1.10|0.0706
92196269|NCT05923112|184291029|OTHER|Estimation||||||||||||||||Subgroup analyses of salvage line of the induction treatment with this drug|"Regarding Risk Ratio of salvage line of the induction treatment with this drug 2nd to 1st, the risk ratio was reported as participants in this group are related to Category(B)."|||
92196270|NCT05923112|184291029|OTHER|Estimation||||||||||||||||Subgroup analyses of salvage line of the induction treatment with this drug|"Regarding Risk Ratio of salvage line of the induction treatment with this drug 3rd or later to 1st, the risk ratio was reported as participants in this group are related to Category(B)."|||
92196271|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|0.333|||||TWO_SIDED|95.0|0.046|2.405|||||"Risk Ratio of age \< 18 years to ≥ 18 to \< 55 years"|Subgroup analyses of age \[\< 18 years, ≥ 18 to \< 55 years\]||2.405|0.046|
92196272|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.34|3.56|||||"Risk Ratio of age ≥ 40 years to ≥ 15 to \< 40 years"|Subgroup analyses of age \[≥ 40 years, ≥ 15 to \< 40 years\]||3.560|0.340|
92196273|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|1.227|||||TWO_SIDED|95.0|0.371|4.056|||||"Risk Ratio of chromosome karyotype Philadelphia chromosome positive to negative"|Subgroup analyses of chromosome karyotype||4.056|0.371|
92319809|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.13|STANDARD_ERROR_OF_MEAN|0.33||0.0008|TWO_SIDED|90.0|-1.67|-0.58||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.58|-1.67|0.0008
92319810|NCT01164579|184544884|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.66|STANDARD_ERROR_OF_MEAN|0.33||0.0466|TWO_SIDED|90.0|-1.21|-0.12||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.12|-1.21|0.0466
92319811|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.51|STANDARD_ERROR_OF_MEAN|11.04||0.0032|TWO_SIDED|90.0|14.34|50.68||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||50.68|14.34|0.0032
92319812|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.18|STANDARD_ERROR_OF_MEAN|11.16||0.0115|TWO_SIDED|90.0|9.81|46.55||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||46.55|9.81|0.0115
92319813|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.41|STANDARD_ERROR_OF_MEAN|9.48||0.0002|TWO_SIDED|90.0|18.81|50.02||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||50.02|18.81|0.0002
92319814|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.79|STANDARD_ERROR_OF_MEAN|10.48||0.0231|TWO_SIDED|90.0|6.55|41.03||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||41.03|6.55|0.0231
92319815|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.41|STANDARD_ERROR_OF_MEAN|9.48||0.0002|TWO_SIDED|90.0|18.81|50.02||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||50.02|18.81|0.0002
92196274|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|0.6|||||TWO_SIDED|95.0|0.183|1.966|||||"Risk Ratio of ECOG PS before the start of this drug 0 to 1"|Subgroup analyses of ECOG PS before the start of this drug||1.966|0.183|
92196275|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.284|2.481|||||"Risk Ratio of hemoglobin level immediately before the start of this drug \< 10 g/dL to ≥ 10 g/dL"|Subgroup analyses of hemoglobin level immediately before the start of this drug||2.481|0.284|
92196276|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|2.0|||||TWO_SIDED|95.0|0.604|6.621|||||"Risk Ratio of platelet count immediately before the start of this drug \< 10 × 10⁴/μL to ≥ 10 × 10⁴/μL"|Subgroup analyses of platelet count immediately before the start of this drug||6.621|0.604|
92196277|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|0.917|||||TWO_SIDED|95.0|0.278|3.026|||||"Risk Ratio of myeloblast count immediately before the start of this drug \> 50% to ≤ 50%"|Subgroup analyses of myeloblast count immediately before the start of this drug||3.026|0.278|
92196278|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|0.264|||||TWO_SIDED|95.0|0.036|1.93|||||"Risk Ratio of salvage line of the induction treatment with this drug 2nd to 1st"|Subgroup analyses of salvage line of the induction treatment with this drug||1.930|0.036|
92196279|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|1.438|||||TWO_SIDED|95.0|0.497|4.161|||||"Risk Ratio of HSCT before the start of this drug performed to not performed"|Subgroup analyses of HSCT before the start of this drug||4.161|0.497|
92196280|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|0.616|||||TWO_SIDED|95.0|0.187|2.03|||||"Risk Ratio of type of the first HSCT after the start of this drug allogeneic hematopoietic stem cell transplant with myeloablative conditioning to allogeneic hematopoietic stem cell transplant with nonmyeloablative conditioning"|Subgroup analyses of type of the first HSCT after the start of this drug||2.030|0.187|
92196281|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|0.583|||||TWO_SIDED|95.0|0.155|2.192|||||"Risk Ratio of ECOG PS before conditioning for the first HSCT after the start of this drug 0 to 1"|Subgroup analyses of ECOG PS before conditioning for the first HSCT after the start of this drug||2.192|0.155|
92196282|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|2.545|||||TWO_SIDED|95.0|0.63|10.293|||||"Risk Ratio of hemoglobin level before conditioning for the first HSCT after the start of this drug \< 10 g/dL to ≥ 10 g/dL"|Subgroup analyses of hemoglobin level before conditioning for the first HSCT after the start of this drug||10.293|0.630|
92196283|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|1.179|||||TWO_SIDED|95.0|0.237|5.87|||||"Risk Ratio of time from the date of final dose of this drug to the date of the first HSCT after the start of this drug ≥ 4 weeks to \< 8 weeks to \< 4 weeks"|Subgroup analyses of time from the date of final dose of this drug to the date of the first HSCT after the start of this drug||5.870|0.237|
92196284|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|2.182|||||TWO_SIDED|95.0|0.665|7.158|||||"Risk Ratio of best overall response progression or relapse to complete remission (CR) or complete remission with incomplete hematologic recovery (CRi)"|Subgroup analyses of best overall response||7.158|0.665|
92196285|NCT05923112|184291031|OTHER|Estimation|Risk Ratio (RR)|1.538|||||TWO_SIDED|95.0|0.392|6.037|||||"Risk Ratio of MRD test not performed to negativity achieved"|Subgroup analyses of minimal residual disease (MRD)||6.037|0.392|
92196286|NCT03865953|184291050|SUPERIORITY|Analysis used a two-period two-treatment crossover design|Mean Difference (Net)|-0.14||||0.67|TWO_SIDED|95.0|-0.76|0.49|||Mixed Models Analysis|||Subject numbers gave a 90% power to demonstrate a statistically significant difference in the mean change from baseline NPRS for the active treatment compared with placebo of at least 1 unit, with a two sided test at a 5% level of significance||0.49|-0.76|0.67
92196287|NCT01777126|184291066|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.0|||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The primary outcome measure was the interval from surgery to discharge. Discharge means that the patient returns to his home. Preliminary data from our institution showed that all patients received parenteral nutrition very early post-surgery and were discharged after a mean of 19.3 ± 5.6 days. Therefore, the primary objective by implementing the ONP was to reduce the length of stay with 3 days.||||<0.001
92319816|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.02|STANDARD_ERROR_OF_MEAN|10.69||0.0493|TWO_SIDED|90.0|3.43|38.61||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||38.61|3.43|0.0493
92319817|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.18|STANDARD_ERROR_OF_MEAN|9.88||0.0005|TWO_SIDED|90.0|17.92|50.43||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||50.43|17.92|0.0005
92196288|NCT01777126|184291069|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.0|||<|0.01|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed by the Leuven Statistics Research Centre, KU Leuven, using SPSS package (SPSS Statistics 20.0 for Windows). Statistical analysis was performed using the Wilcoxon rank sum test. The result was considered statistically significant if p-values were \< 0.05.||||<0.01
92196289|NCT01777126|184291070|SUPERIORITY_OR_OTHER||proportion|||||0.487||95.0|||||Fisher Exact|||Statistical analysis was performed by the Leuven Statistics Research Centre, KU Leuven, using SPSS package (SPSS Statistics 20.0 for Windows). Statistical analysis was performed using Chi-square and Fisher's Exact Test. Results were considered statistically significant if p-values were \< 0.05.||||0.487
92196290|NCT01777126|184291071|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.302|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.302
92196291|NCT01777126|184291072|SUPERIORITY_OR_OTHER||Proportion|||||0.117|TWO_SIDED|95.0|||||Fisher Exact|||Statistical analysis was performed by the Leuven Statistics Research Centre, KU Leuven, using SPSS package (SPSS Statistics 20.0 for Windows). Statistical analysis was performed using Fisher's Exact Test. The result was considered statistically significant if p-values were \< 0.05.||||0.117
92196292|NCT01777126|184291073|SUPERIORITY_OR_OTHER||Proportion|||||0.049||95.0|||||Chi-squared|||Statistical analysis was performed by the Leuven Statistics Research Centre, KU Leuven, using SPSS package (SPSS Statistics 20.0 for Windows). Statistical analysis was performed using Chi-square Test. Outcome measures were considered statistically significant if p-values were \< 0.05.||||0.049
92196293|NCT01777126|184291074|SUPERIORITY_OR_OTHER||proportion|||||0.698||95.0|||||Chi-squared|||Statistical analysis was performed by the Leuven Statistics Research Centre, KU Leuven, using SPSS package (SPSS Statistics 20.0 for Windows). Statistical analysis was performed using Chi-square Test. Outcome measures were considered statistically significant if p-values were \< 0.05.||||0.698
92319818|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.72|STANDARD_ERROR_OF_MEAN|10.73||0.027|TWO_SIDED|90.0|6.07|41.37||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||41.37|6.07|0.0270
92319819|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.46|STANDARD_ERROR_OF_MEAN|10.73||0.0018|TWO_SIDED|90.0|15.8|51.12||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||51.12|15.80|0.0018
92319820|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.49|STANDARD_ERROR_OF_MEAN|11.22||0.0363|TWO_SIDED|90.0|5.02|41.96||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||41.96|5.02|0.0363
92319821|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.4|STANDARD_ERROR_OF_MEAN|10.48||0.0005|TWO_SIDED|90.0|19.16|53.64||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||53.64|19.16|0.0005
92319822|NCT01164579|184544885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.27|STANDARD_ERROR_OF_MEAN|11.08||0.0177|TWO_SIDED|90.0|8.04|44.5||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||44.50|8.04|0.0177
92319823|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.52|STANDARD_ERROR_OF_MEAN|9.66||0.0197|TWO_SIDED|90.0|6.62|38.42||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||38.42|6.62|0.0197
92319824|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.33|STANDARD_ERROR_OF_MEAN|8.16||0.4379|TWO_SIDED|90.0|-7.09|19.76||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||19.76|-7.09|0.4379
92319825|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.37|STANDARD_ERROR_OF_MEAN|10.92||0.0093|TWO_SIDED|90.0|10.4|46.34||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||46.34|10.40|0.0093
92319826|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.48|STANDARD_ERROR_OF_MEAN|10.48||0.1669|TWO_SIDED|90.0|-2.75|31.73||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||31.73|-2.75|0.1669
92319827|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.37|STANDARD_ERROR_OF_MEAN|10.92||0.0093|TWO_SIDED|90.0|10.4|46.34||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||46.34|10.40|0.0093
92319828|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.04|STANDARD_ERROR_OF_MEAN|10.64||0.0596|TWO_SIDED|90.0|2.53|37.55||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||37.55|2.53|0.0596
92319829|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.73|STANDARD_ERROR_OF_MEAN|11.07||0.0017|TWO_SIDED|90.0|16.51|52.96||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||52.96|16.51|0.0017
92319830|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.52|STANDARD_ERROR_OF_MEAN|11.04||0.0097|TWO_SIDED|90.0|10.36|46.69||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||46.69|10.36|0.0097
92196294|NCT02232399|184291088|OTHER|||||||0.45||||||To test whether there were any significant differences between the two treatment groups over time (group vs time interaction), a repeated measurement mixed-model approach was used. This assumed an unstructured covariance pattern.|Mixed Models Analysis|Unstructured covariance pattern was assumed.||To test whether there were any significant differences between the two treatment groups over time (group vs time interaction), a repeated measurement mixed-model approach was used. This assumed an unstructured covariance pattern.||||0.45
92196295|NCT02232399|184291089|OTHER|||||||0.7|||||||Regression, Logistic|||||||0.70
92319831|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.97|STANDARD_ERROR_OF_MEAN|11.11||0.0016|TWO_SIDED|90.0|16.68|53.26||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||53.26|16.68|0.0016
92319832|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.6|STANDARD_ERROR_OF_MEAN|11.13||0.0102|TWO_SIDED|90.0|10.28|46.91||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||46.91|10.28|0.0102
92319833|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.73|STANDARD_ERROR_OF_MEAN|11.07||0.0017|TWO_SIDED|90.0|16.51|52.96||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||52.96|16.51|0.0017
92319834|NCT01164579|184544886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.97|STANDARD_ERROR_OF_MEAN|11.07||0.0381|TWO_SIDED|90.0|4.74|41.19||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||41.19|4.74|0.0381
92319835|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.77|STANDARD_ERROR_OF_MEAN|7.67||0.0959|TWO_SIDED|90.0|0.15|25.4||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||25.40|0.15|0.0959
92319836|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|5.4||0.9544|TWO_SIDED|90.0|-8.58|9.19||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||9.19|-8.58|0.9544
92319837|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.18|STANDARD_ERROR_OF_MEAN|9.34||0.0036|TWO_SIDED|90.0|11.81|42.55||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||42.55|11.81|0.0036
92319838|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.55|STANDARD_ERROR_OF_MEAN|7.66||0.264|TWO_SIDED|90.0|-4.04|21.16||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||21.16|-4.04|0.2640
92319839|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.83|STANDARD_ERROR_OF_MEAN|9.79||0.0544|TWO_SIDED|90.0|2.72|34.95||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||34.95|2.72|0.0544
92319840|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.7|STANDARD_ERROR_OF_MEAN|8.92||0.329|TWO_SIDED|90.0|-5.96|23.38||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||23.38|-5.96|0.3290
92319841|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.84|STANDARD_ERROR_OF_MEAN|10.48||0.0032|TWO_SIDED|90.0|13.59|48.09||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||48.09|13.59|0.0032
92319842|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.11|STANDARD_ERROR_OF_MEAN|9.92||0.0845|TWO_SIDED|90.0|0.79|33.43||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||33.43|0.79|0.0845
92319843|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.08|STANDARD_ERROR_OF_MEAN|10.72||0.0037|TWO_SIDED|90.0|13.44|48.72||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||48.72|13.44|0.0037
92319844|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.96|STANDARD_ERROR_OF_MEAN|10.36||0.054|TWO_SIDED|90.0|2.91|37.02||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||37.02|2.91|0.0540
92319845|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.54|STANDARD_ERROR_OF_MEAN|10.24||0.001|TWO_SIDED|90.0|16.7|50.39||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||50.39|16.70|0.0010
92319846|NCT01164579|184544887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.81|STANDARD_ERROR_OF_MEAN|9.66||0.0401|TWO_SIDED|90.0|3.92|35.71||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||35.71|3.92|0.0401
92319847|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.91|STANDARD_ERROR_OF_MEAN|10.99||0.0005|TWO_SIDED|90.0|19.83|55.99||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||55.99|19.83|0.0005
92319848|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.12|STANDARD_ERROR_OF_MEAN|11.09||0.0028|TWO_SIDED|90.0|14.87|51.38||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||51.38|14.87|0.0028
92319849|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.83|STANDARD_ERROR_OF_MEAN|10.1||0.0105|TWO_SIDED|90.0|9.21|42.45||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||42.45|9.21|0.0105
92319850|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.98|STANDARD_ERROR_OF_MEAN|11.13||0.37|TWO_SIDED|90.0|-8.33|28.3||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||28.30|-8.33|0.3700
92319851|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|39.82|STANDARD_ERROR_OF_MEAN|9.54|<|0.0001|TWO_SIDED|90.0|24.11|55.53||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||55.53|24.11|<0.0001
92196296|NCT02706951|184291098|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|26.5|||<|0.001|TWO_SIDED|95.0|17.5|35.6||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||35.6|17.5|<0.001
92319852|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.09|STANDARD_ERROR_OF_MEAN|11.24||0.1076|TWO_SIDED|90.0|-0.4|36.59||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||36.59|-0.40|0.1076
92319853|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.94|STANDARD_ERROR_OF_MEAN|10.21||0.0008|TWO_SIDED|90.0|17.13|50.75||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||50.75|17.13|0.0008
92319854|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.42|STANDARD_ERROR_OF_MEAN|10.74||0.0139|TWO_SIDED|90.0|8.74|44.1||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||44.10|8.74|0.0139
92319855|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.4|STANDARD_ERROR_OF_MEAN|10.48||0.0005|TWO_SIDED|90.0|19.16|53.64||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||53.64|19.16|0.0005
92319856|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.27|STANDARD_ERROR_OF_MEAN|11.08||0.0177|TWO_SIDED|90.0|8.04|44.5|||Normal approximation to the binomial|||Month 9||44.50|8.04|0.0177
92319857|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.46|STANDARD_ERROR_OF_MEAN|10.73||0.0018|TWO_SIDED|90.0|15.8|51.12||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||51.12|15.80|0.0018
92319858|NCT01164579|184544888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.49|STANDARD_ERROR_OF_MEAN|11.22||0.0363|TWO_SIDED|90.0|5.02|41.96||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||41.96|5.02|0.0363
92319859|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.88|STANDARD_ERROR_OF_MEAN|7.42||0.016|TWO_SIDED|90.0|5.66|30.1||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||30.10|5.66|0.0160
92319860|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.86|STANDARD_ERROR_OF_MEAN|5.43||0.2798|TWO_SIDED|90.0|-3.06|14.8||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||14.80|-3.06|0.2798
92319861|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.18|STANDARD_ERROR_OF_MEAN|9.34||0.0036|TWO_SIDED|90.0|11.81|42.55||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||42.55|11.81|0.0036
92319862|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.78|STANDARD_ERROR_OF_MEAN|7.3||0.4287|TWO_SIDED|90.0|-6.23|17.79||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||17.79|-6.23|0.4287
92319863|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.83|STANDARD_ERROR_OF_MEAN|9.79||0.0544|TWO_SIDED|90.0|2.72|34.95||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||34.95|2.72|0.0544
92319864|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.04|STANDARD_ERROR_OF_MEAN|9.51||0.0732|TWO_SIDED|90.0|1.39|32.69||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||32.69|1.39|0.0732
92319865|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.25|STANDARD_ERROR_OF_MEAN|10.61||0.036|TWO_SIDED|90.0|4.79|39.72||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||39.72|4.79|0.0360
92319866|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.85|STANDARD_ERROR_OF_MEAN|9.85||0.3688|TWO_SIDED|90.0|-7.35|25.07||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||25.07|-7.35|0.3688
92319867|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.19|STANDARD_ERROR_OF_MEAN|10.67||0.0182|TWO_SIDED|90.0|7.63|42.76||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||42.76|7.63|0.0182
92319868|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.41|STANDARD_ERROR_OF_MEAN|10.15||0.1558|TWO_SIDED|90.0|-2.29|31.12||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||31.12|-2.29|0.1558
92319869|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.78|STANDARD_ERROR_OF_MEAN|10.49||0.0012|TWO_SIDED|90.0|16.51|51.05||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||51.05|16.51|0.0012
92319870|NCT01164579|184544889|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.33|STANDARD_ERROR_OF_MEAN|9.78||0.1426|TWO_SIDED|90.0|-1.74|30.42||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||30.42|-1.74|0.1426
92196297|NCT02706951|184291098|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|30.0|||<|0.001|TWO_SIDED|95.0|21.0|38.9||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||38.9|21.0|<0.001
92319871|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.88|STANDARD_ERROR_OF_MEAN|4.03||0.1449|TWO_SIDED|90.0|-0.75|12.52||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||12.52|-0.75|0.1449
92319872|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.85|STANDARD_ERROR_OF_MEAN|2.81||0.3102|TWO_SIDED|90.0|-1.77|7.48||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||7.48|-1.77|0.3102
92319873|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.94|STANDARD_ERROR_OF_MEAN|7.06||0.0342|TWO_SIDED|90.0|3.32|26.55||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||26.55|3.32|0.0342
92319874|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.85|STANDARD_ERROR_OF_MEAN|4.65||0.54|TWO_SIDED|90.0|-4.8|10.51||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||10.51|-4.80|0.5400
92319875|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.01|STANDARD_ERROR_OF_MEAN|9.19||0.2759|TWO_SIDED|90.0|-5.1|25.13||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||25.13|-5.10|0.2759
92319876|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.73|STANDARD_ERROR_OF_MEAN|6.25||0.0859|TWO_SIDED|90.0|-21.02|-0.45||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||-0.45|-21.02|0.0859
92319877|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.89|STANDARD_ERROR_OF_MEAN|9.62||0.0985|TWO_SIDED|90.0|0.06|31.73||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||31.73|0.06|0.0985
92319878|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|8.05||0.9628|TWO_SIDED|90.0|-12.86|13.61||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||13.61|-12.86|0.9628
92319879|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.07|STANDARD_ERROR_OF_MEAN|10.19||0.0612|TWO_SIDED|90.0|2.31|35.84||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||35.84|2.31|0.0612
92319880|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.32|STANDARD_ERROR_OF_MEAN|8.36||0.7807|TWO_SIDED|90.0|-16.08|11.43||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||11.43|-16.08|0.7807
92319881|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.83|STANDARD_ERROR_OF_MEAN|9.79||0.0544|TWO_SIDED|90.0|2.72|34.95||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||34.95|2.72|0.0544
92319882|NCT01164579|184544890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.93|STANDARD_ERROR_OF_MEAN|8.66||0.4937|TWO_SIDED|90.0|-8.32|20.18||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||20.18|-8.32|0.4937
92319883|NCT00789373|184544937|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||6e-05|TWO_SIDED|95.0|0.49|0.79|||Log Rank|||900 patients were planned to be enrolled in order to randomize 558 pts to maintenance therapy. This trial was powered for the primary endpoint, PFS (90% power, assuming 238 events with 52% censoring and a PFS Hazard Ratio (HR)=0.65, alpha=0.05). This trial was also powered for a secondary endpoint, OS (93% power, assuming 390 events with 30% censoring and an OS HR=0.70). Alpha was controlled for both a preliminary analysis (alpha=0.0001) and final analysis of OS (alpha=0.0499).||0.79|0.49|0.00006
92319884|NCT00789373|184544938|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.0002|TWO_SIDED|95.0|0.51|0.81|||Log Rank|||||0.81|0.51|0.0002
92319885|NCT00789373|184544939|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0195|TWO_SIDED|95.0|0.64|0.96||The predefined alpha for the final analysis of OS is 0.0498 for the unadjusted log-rank test.|Log Rank||Unadjusted HR from Cox model with treatment as the only cofactor.|Type 1 (alpha) error was controlled for the analyses of both PFS and OS in order to maintain an overall two-sided alpha level of 0.05 using a statistical gatekeeping and alpha spending scheme. The unconditional statistical power of the final OS analysis was 93%.||0.96|0.64|0.0195
92319886|NCT01050582|184544967|SUPERIORITY_OR_OTHER||Slope|0.447|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|0.22|0.674|||Regression, Linear|Covariates: weight (wt) divided expected wt for age and height (ht), age, use of concomitant medication with growth effects, preexposure ht z-score.|Slope associated with treatment dummy variable with 1 indicating risperidone and 0 indicating other atypical antipychotics.|Null hypothesis is that there is no difference between the risperidone and other atypical antipsychotics groups in current height z-score.||0.674|0.220|<0.001
92319887|NCT01050582|184544968|SUPERIORITY_OR_OTHER||Slope|-0.221|STANDARD_ERROR_OF_MEAN|0.25||0.378|TWO_SIDED|95.0|-0.711|0.269|||Regression, Linear|Covariates: Tanner stage and gender|Slope associated with treatment dummy variable with 1 indicating risperidone and 0 indicating other atypical antipsychotics.|The null hypothesis is that there is no difference between the risperidone and other atypical antipsychotics groups in age (years) at current Tanner stage.||0.269|-0.711|0.378
92319888|NCT01050582|184544969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.865|||>|0.999||95.0|0.189|3.963|||Fisher Exact||Estimated OR is from a logistic regression model including factors for treatment arm, age, indication, and use of concomitant medication with growth effects.|Null hypothesis is that there is no difference between the risperidone and other atypical antipsychotics groups in frequency of retrospectively reported potentially prolactin-related adverse events||3.963|0.189|>0.999
92319889|NCT01019694|184544971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.6|||<|0.0001||95.0|6.02|13.19|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||13.19|6.02|< 0.0001
92319890|NCT01019694|184544971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2||||0.0009||95.0|2.57|9.91|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||9.91|2.57|0.0009
92319891|NCT01019694|184544972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3||||0.0006||95.0|2.29|8.28|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||8.28|2.29|0.0006
92319892|NCT01019694|184544972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4|||<|0.0001||95.0|4.41|10.39|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||10.39|4.41|< 0.0001
92319893|NCT01019694|184544973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9|||<|0.0001||95.0|4.71|11.09|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||11.09|4.71|< 0.0001
92319894|NCT01019694|184544973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.6|||<|0.0001||95.0|6.44|12.83|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||12.83|6.44|< 0.0001
92319895|NCT01019694|184544974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.2|||<|0.0001||95.0|5.94|12.37|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||12.37|5.94|< 0.0001
92319896|NCT01019694|184544974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.7|||<|0.0001||95.0|4.44|10.96|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||10.96|4.44|< 0.0001
92196298|NCT02706951|184291099|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|25.3|||<|0.001|TWO_SIDED|95.0|16.8|33.7||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||33.7|16.8|<0.001
92196299|NCT02706951|184291099|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|33.6|||<|0.001|TWO_SIDED|95.0|25.1|42.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||42.1|25.1|<0.001
92196300|NCT02706951|184291100|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Least Squares (LS) Mean Difference|-1.08|||<|0.001|TWO_SIDED|95.0|-1.32|-0.85||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|Analysis of covariance (ANCOVA) model with treatment as the fixed factor, and baseline value and geographic region as the covariates.|Difference = Upadacitinib - Methotrexate|||-0.85|-1.32|<0.001
92196301|NCT02706951|184291100|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|-1.4|||<|0.001|TWO_SIDED|95.0|-1.64|-1.17||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment as the fixed factor, and baseline value and the stratification factor geographic region as the covariates.|Difference = Upadacitinib - Methotrexate|||-1.17|-1.64|<0.001
92319897|NCT01019694|184544975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.3|||<|0.0001||95.0|7.9|14.76|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||14.76|7.90|< 0.0001
92319898|NCT01019694|184544975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.7|||<|0.0001||95.0|4.23|11.23|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||11.23|4.23|< 0.0001
92319899|NCT01019694|184544977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.1167||95.0|-0.05|0.42|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.42|-0.05|0.1167
92319900|NCT01019694|184544977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0026||95.0|0.13|0.59|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.59|0.13|0.0026
92319901|NCT01019694|184544978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.2826||95.0|-0.11|0.38|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.38|-0.11|0.2826
92319902|NCT01019694|184544978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0013||95.0|0.16|0.66|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.66|0.16|0.0013
92319903|NCT01019694|184544979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0023||95.0|0.13|0.59|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.59|0.13|0.0023
92319904|NCT01019694|184544979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||<|0.0001||95.0|0.25|0.71|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.71|0.25|< 0.0001
92319905|NCT01019694|184544980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0006||95.0|0.18|0.65|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.65|0.18|0.0006
92319906|NCT01019694|184544980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0004||95.0|0.2|0.68|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.68|0.20|0.0004
92319907|NCT01019694|184544981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.0673||95.0|-0.02|0.47|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.47|-0.02|0.0673
92319908|NCT01019694|184544981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.0245||95.0|0.04|0.54|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.54|0.04|0.0245
92319909|NCT01019694|184544983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.5695||95.0|-0.24|0.13|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.13|-0.24|0.5695
92319910|NCT01019694|184544983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3093||95.0|-0.28|0.09|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.09|-0.28|0.3093
92319911|NCT01019694|184544984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3578||95.0|-0.31|0.11|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.11|-0.31|0.3578
92319912|NCT01019694|184544984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.7433||95.0|-0.18|0.25|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.25|-0.18|0.7433
92319913|NCT01019694|184544985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.524||95.0|-0.29|0.15|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.15|-0.29|0.524
92319914|NCT01019694|184544985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3171||95.0|-0.34|0.11|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.11|-0.34|0.3171
92196302|NCT02706951|184291101|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.43|-0.22||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment as the fixed factor, and baseline value and the stratification factor geographic region as the covariates.|Difference = Upadacitinib - Methotrexate|||-0.22|-0.43|<0.001
92196303|NCT02706951|184291101|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|-0.41|||<|0.001|TWO_SIDED|95.0|-0.51|-0.3||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment as the fixed factor, and baseline value and the stratification factor geographic region as the covariates.|Difference = Upadacitinib - Methotrexate|||-0.30|-0.51|<0.001
92196304|NCT02706951|184291102|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|3.97|||<|0.001|TWO_SIDED|95.0|2.52|5.42||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, treatment-by-visit interaction, and geographic region, and the baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||5.42|2.52|<0.001
92196305|NCT02706951|184291102|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|5.87|||<|0.001|TWO_SIDED|95.0|4.42|7.32||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, treatment-by-visit interaction, and geographic region, and the baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||7.32|4.42|<0.001
92196306|NCT02706951|184291103|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|19.8|||<|0.001|TWO_SIDED|95.0|12.8|26.8||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||26.8|12.8|<0.001
92319915|NCT01019694|184544986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.2499||95.0|-0.38|0.1|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.10|-0.38|0.2499
92319916|NCT01019694|184544986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.6144||95.0|-0.31|0.18|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.18|-0.31|0.6144
92319917|NCT01019694|184544987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.5142||95.0|-0.16|0.33|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.33|-0.16|0.5142
92319918|NCT01019694|184544987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.2691||95.0|-0.39|0.11|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.11|-0.39|0.2691
92319919|NCT01019694|184544989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.6236||95.0|-0.23|0.14|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.14|-0.23|0.6236
92319920|NCT01019694|184544989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3342||95.0|-0.28|0.09|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.09|-0.28|0.3342
92319921|NCT01019694|184544990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.1884||95.0|-0.36|0.07|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.07|-0.36|0.1884
92319922|NCT01019694|184544990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.6978||95.0|-0.17|0.26|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.26|-0.17|0.6978
92319923|NCT01019694|184544991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.4197||95.0|-0.32|0.13|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.13|-0.32|0.4197
92319924|NCT01019694|184544991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3949||95.0|-0.33|0.13|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.13|-0.33|0.3949
92319925|NCT01019694|184544992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.299||95.0|-0.38|0.12|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.12|-0.38|0.299
92319926|NCT01019694|184544992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.1404||95.0|-0.44|0.06|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.06|-0.44|0.1404
92319927|NCT01019694|184544993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.463||95.0|-0.36|0.16|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.16|-0.36|0.463
92319928|NCT01019694|184544993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.3824||95.0|-0.15|0.38|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.38|-0.15|0.3824
92319929|NCT01019694|184544994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8282||95.0|-0.036|0.045|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.045|-0.036|0.8282
92319930|NCT01019694|184544994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.6587||95.0|-0.032|0.05|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.050|-0.032|0.6587
92319931|NCT01019694|184544995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.1185||95.0|-0.009|0.081|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.081|-0.009|0.1185
92319932|NCT01019694|184544995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.2651||95.0|-0.02|0.072|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.072|-0.020|0.2651
92319933|NCT01019694|184544996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.5852||95.0|-0.058|0.033|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.033|-0.058|0.5852
92319934|NCT01019694|184544996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.7242||95.0|-0.054|0.038|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.038|-0.054|0.7242
92319935|NCT01019694|184544997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.0328||95.0|0.005|0.11|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||||0.110|0.005|0.0328
92319936|NCT01019694|184544997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8896||95.0|-0.058|0.05|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.050|-0.058|0.8896
92319937|NCT01019694|184544998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.402||95.0|-0.042|0.105|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.105|-0.042|0.402
92319938|NCT01019694|184544998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.659||95.0|-0.057|0.09|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.090|-0.057|0.659
92319939|NCT01019694|184544999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.0893||95.0|-0.01|0.139|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.139|-0.010|0.0893
92319940|NCT01019694|184544999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.5424||95.0|-0.052|0.099|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.099|-0.052|0.5424
92319941|NCT01019694|184545000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.6396||95.0|-0.104|0.064|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.064|-0.104|0.6396
92319942|NCT01019694|184545000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.6455||95.0|-0.106|0.066|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.066|-0.106|0.6455
92319943|NCT01019694|184545001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.2596||95.0|-0.038|0.141|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.141|-0.038|0.2596
92319944|NCT01019694|184545001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.6659||95.0|-0.112|0.071|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.071|-0.112|0.6659
92319945|NCT01019694|184545003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.476||95.0|-0.4|0.19|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.19|-0.40|0.476
92319946|NCT01019694|184545003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.6976||95.0|-0.35|0.23|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.23|-0.35|0.6976
92319947|NCT01019694|184545004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9506||95.0|-0.4|0.37|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.37|-0.40|0.9506
92319948|NCT01019694|184545004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.2362||95.0|-0.15|0.62|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.62|-0.15|0.2362
92319949|NCT01019694|184545005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.5645||95.0|-0.3|0.54|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.54|-0.30|0.5645
92319950|NCT01019694|184545005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.0163||95.0|0.1|0.95|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.95|0.10|0.0163
92319951|NCT01019694|184545006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.4339||95.0|-0.6|0.26|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.26|-0.60|0.4339
92319952|NCT01019694|184545006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.4886||95.0|-0.28|0.59|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.59|-0.28|0.4886
92319953|NCT01019694|184545007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.7637||95.0|-0.5|0.37|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.37|-0.50|0.7637
92196307|NCT02706951|184291103|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|32.1|||<|0.001|TWO_SIDED|95.0|24.6|39.7||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||39.7|24.6|<0.001
92196308|NCT02706951|184291104|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|-41.53||||0.001|TWO_SIDED|95.0|-66.56|-16.5||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, treatment-by-visit interaction, and geographic region, and the baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-16.50|-66.56|0.001
92319954|NCT01019694|184545007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.3755||95.0|-0.24|0.65|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.65|-0.24|0.3755
92196309|NCT02706951|184291104|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|-49.31|||<|0.001|TWO_SIDED|95.0|-74.23|-24.4||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, treatment-by-visit interaction, and geographic region, and the baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-24.40|-74.23|<0.001
92319955|NCT04994691|184545010|SUPERIORITY||Risk Ratio (RR)|1.92||||0|TWO_SIDED|95.0|1.38|2.6|||Regression, Logistic||Standard Message vs. No Message|||2.60|1.38|0.000
92319956|NCT04994691|184545010|SUPERIORITY||Risk Ratio (RR)|1.52||||0.023|TWO_SIDED|95.0|1.06|2.13|||Regression, Logistic||Tailored Message vs. No Message|||2.13|1.06|0.023
92319957|NCT04994691|184545010|SUPERIORITY||Risk Ratio (RR)|1.26||||0.124|TWO_SIDED|95.0|0.94|1.66|||Regression, Logistic||Standard Message vs. Tailored Message|||1.66|0.94|0.124
92319958|NCT04994691|184545011|SUPERIORITY||Risk Ratio (RR)|1.97||||0.001|TWO_SIDED|95.0|1.32|2.84|||Regression, Logistic||Standard Message vs. No Message|||2.84|1.32|0.001
92319959|NCT04994691|184545011|SUPERIORITY||Risk Ratio (RR)|1.57||||0.04|TWO_SIDED|95.0|1.02|2.34|||Regression, Logistic||Tailored Message vs. No Message|||2.34|1.02|0.040
92319960|NCT04994691|184545011|SUPERIORITY||Risk Ratio (RR)|1.26||||0.202|TWO_SIDED|95.0|0.88|1.74|||Regression, Logistic||Standard Message vs. Tailored Message|||1.74|0.88|0.202
92319961|NCT00463047|184545022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|0.18|0.29|||Mixed effects ANOVA|Crossover analysis||The statistical hypothesis to be tested was:HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID15 for double-blind episodes for which patients use FBT and oxycodone (OXY), respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.29|0.18|<0.0001
92319962|NCT00463047|184545023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.0081|TWO_SIDED|95.0|0.01|0.05||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID5 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.05|0.01|0.0081
92319963|NCT00463047|184545024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.05|0.13||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID10 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.13|0.05|<0.0001
92319964|NCT00463047|184545025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|0.3|0.45||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID10 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.45|0.30|<0.0001
92319965|NCT00463047|184545026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|0.2|0.35||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID45 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.35|0.20|<0.0001
92319966|NCT00463047|184545027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|0.08|0.25||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID60 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.25|0.08|<0.0001
92319967|NCT00463047|184545034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|0.39|0.58|||ANOVA|||||0.58|0.39|<0.0001
92319968|NCT00463047|184545035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.34|<|0.0001|TWO_SIDED|95.0|0.7|1.16|||ANOVA|||||1.16|0.70|<0.0001
92319969|NCT00463047|184545036|SUPERIORITY_OR_OTHER|||||||0.1966||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.1966
92196310|NCT02706951|184291105|SUPERIORITY||Response Rate Difference|26.7|||<|0.001|TWO_SIDED|95.0|18.5|34.8||This comparison was not part of the pre-specified multiplicity testing sequence; the nominal p-value is reported.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||34.8|18.5|<0.001
92196311|NCT02706951|184291105|SUPERIORITY||Response Rate Difference|36.8|||<|0.001|TWO_SIDED|95.0|28.6|45.0||This comparison was not part of the pre-specified multiplicity testing sequence; the nominal p-value is reported.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||45.0|28.6|<0.001
92196312|NCT02706951|184291106|SUPERIORITY||Response Rate Difference|19.8|||<|0.001|TWO_SIDED|95.0|13.8|25.8||This comparison was not part of the pre-specified multiplicity testing sequence; the nominal p-value is reported.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||25.8|13.8|<0.001
92196313|NCT02706951|184291106|SUPERIORITY||Response Rate Difference|30.2|||<|0.001|TWO_SIDED|95.0|23.6|36.9||This comparison was not part of the pre-specified multiplicity testing sequence; the nominal p-value is reported.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||36.9|23.6|<0.001
92319970|NCT00463047|184545037|SUPERIORITY_OR_OTHER|||||||0.0275||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0275
92319971|NCT00463047|184545038|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0001
92319972|NCT00463047|184545039|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||<0.0001
92319973|NCT00463047|184545040|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0004
92319974|NCT00463047|184545041|SUPERIORITY_OR_OTHER|||||||0.0074||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0074
92319975|NCT00463047|184545042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001||95.0|0.55|0.83||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||||0.83|0.55|<0.0001
92319976|NCT00463047|184545044|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5054||||0.3022|TWO_SIDED|95.0|0.7|3.3|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||3.3|0.7|0.3022
92319977|NCT00463047|184545045|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4042||||0.0268|TWO_SIDED|95.0|1.0|1.9|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.9|1.0|0.0268
92196314|NCT03491215|184291107|OTHER|Comparison|GMR|0.801|||||TWO_SIDED|90.0|0.49|1.311||||||Group 3 vs Group 2||1.311|0.490|
92196315|NCT03491215|184291107|OTHER|Comparison|GMR|0.991|||||TWO_SIDED|90.0|0.532|1.846||||||Group 3 vs. Group 1||1.846|0.532|
92319978|NCT00463047|184545046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4631||||0.0008|TWO_SIDED|95.0|1.2|1.8|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.8|1.2|0.0008
92319979|NCT00463047|184545047|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3184||||0.0084|TWO_SIDED|95.0|1.1|1.6|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.6|1.1|0.0084
92319980|NCT00463047|184545048|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0788||||0.5283|TWO_SIDED|95.0|0.9|1.4|||Generalize estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.4|0.9|0.5283
92319981|NCT00463047|184545049|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9491||||0.711|TWO_SIDED|95.0|0.7|1.3|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.3|0.7|0.7110
92319982|NCT00463047|184545050|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5355||||0.3288|TWO_SIDED|95.0|0.2|1.9|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.9|0.2|0.3288
92319983|NCT00463047|184545051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1485||||0.5145|TWO_SIDED|95.0|0.8|1.7|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.7|0.8|0.5145
92196316|NCT03491215|184291107|OTHER|Comparison|GMR|1.237|||||TWO_SIDED|90.0|0.639|2.394||||||Group 2 vs. Group 1||2.394|0.639|
92196317|NCT03491215|184291108|OTHER|Comparison|GMR|0.709|||||TWO_SIDED|90.0|0.425|1.184||||||Group 3 vs. Group 2||1.184|0.425|
92319984|NCT00463047|184545052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4481||||0.0191|TWO_SIDED|95.0|1.1|2.0|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.0|1.1|0.0191
92319985|NCT00463047|184545053|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4396||||0.0006|TWO_SIDED|95.0|1.2|1.8|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.8|1.2|0.0006
92319986|NCT00463047|184545054|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3426||||0.0044|TWO_SIDED|95.0|1.1|1.6|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.6|1.1|0.0044
92319987|NCT00463047|184545055|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1448||||0.2184|TWO_SIDED|95.0|0.9|1.4|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.4|0.9|0.2184
92319988|NCT00463047|184545056|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9249||||0.5808|TWO_SIDED|95.0|0.7|1.2|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.2|0.7|0.5808
92319989|NCT00463047|184545057|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8908|||<|0.0001|TWO_SIDED|95.0|1.7|2.2|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A cumulative logit link function and independent working correlation were applied in this model. Treatment differences for each time point were measured across all categories of responses.||2.2|1.7|<0.0001
92319990|NCT00463047|184545058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5841|||<|0.0001|TWO_SIDED|95.0|1.4|1.8|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A cumulative logit link function and independent working correlation were applied in this model. Treatment differences for each time point were measured across all categories of responses.||1.8|1.4|<0.0001
92319991|NCT04278417|184545077|NON_INFERIORITY|Non-inferiority of brolucizumab to PRP with respect to change from baseline in BCVA at Week 54, considering a non-inferiority margin of 4 ETDRS letters. Assuming that the BCVA changes follow a normal distribution with equal means between treatments, and a common standard deviation of 10 letters, for a one-sided alpha level of 0.025, with 300 subjects per arm there is \>99% power to reject the null hypothesis that brolucizumab 6 mg is inferior to PRP.|LS mean difference|4.4|STANDARD_ERROR_OF_MEAN|1.03|<|0.001|TWO_SIDED|95.0|2.4|6.4|||ANCOVA|||1||6.4|2.4|<0.001
92319992|NCT04278417|184545077|SUPERIORITY||||||<|0.001|||||||ANCOVA|||2||||<0.001
92319993|NCT04278417|184545078|SUPERIORITY||Difference in % of Participants|39.4|||<|0.001|TWO_SIDED|95.0|32.0|46.8|||Cochran-Mantel-Haenszel|||||46.8|32.0|< 0.001
92319994|NCT04278417|184545080|SUPERIORITY||Difference in % of Participants|-41.1|||<|0.001|TWO_SIDED|95.0|-48.0|-34.2|||Cochran-Mantel-Haenszel|||||-34.2|-48.0|< 0.001
92196318|NCT03491215|184291108|OTHER|Comparison|GMR|0.968|||||TWO_SIDED|90.0|0.506|1.851||||||Group 3 vs. Group 1||1.851|0.506|
92196319|NCT03491215|184291108|OTHER|Comparison|GMR|1.365|||||TWO_SIDED|90.0|0.686|2.714||||||Group 2 vs. Group 1||2.714|0.686|
92196320|NCT03491215|184291110|OTHER|Comparison|GMR|0.759|||||TWO_SIDED|90.0|0.245|2.352||||||Group 3 vs. Group 2||2.352|0.245|
92196321|NCT03491215|184291110|OTHER|Comparison|GMR|0.516|||||TWO_SIDED|90.0|0.15|1.784||||||Group 3 vs. Group 1||1.784|0.150|
92196322|NCT03491215|184291110|OTHER|Comparison|GMR|0.681|||||TWO_SIDED|90.0|0.178|2.597||||||Group 2 vs. Group 1||2.597|0.178|
92196323|NCT03491215|184291118|SUPERIORITY||Odds Ratio (OR)|0.976|||||TWO_SIDED|95.0|0.858|1.109||||||||1.109|0.858|
92196324|NCT03491215|184291118|SUPERIORITY||Odds Ratio (OR)|0.951|||||TWO_SIDED|95.0|0.735|1.232||||||||1.232|0.735|
92319995|NCT04278417|184545083|SUPERIORITY||Difference in % of Participants|26.4|||<|0.001|TWO_SIDED|95.0|19.5|33.3|||Cochran-Mantel-Haenszel|||Week 54||33.3|19.5|<0.001
92319996|NCT01732458|184545154|SUPERIORITY_OR_OTHER||Difference in Percentage vs. Ondansetron|-16.5|||||TWO_SIDED|95.0|-34.0|2.0||||||The Miettinen and Nurminen method was used to provide 95% confidence intervals (CIs) for between-treatment differences in the percentage of participants with events.||2.0|-34.0|
92319997|NCT01732458|184545154|SUPERIORITY_OR_OTHER||Difference in Percentage vs. Ondansetron|-4.4|||||TWO_SIDED|95.0|-22.9|14.3||||||The Miettinen and Nurminen method was used to provide 95% confidence intervals (CIs) for between-treatment differences in the percentage of participants with events.||14.3|-22.9|
92319998|NCT01732458|184545154|SUPERIORITY_OR_OTHER||Difference in Percentage vs. Ondansetron|-12.4|||||TWO_SIDED|95.0|-30.3|6.3||||||The Miettinen and Nurminen method was used to provide 95% confidence intervals (CIs) for between-treatment differences in the percentage of participants with events.||6.3|-30.3|
92319999|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.37|||=|0.002|TWO_SIDED|||||The above p value corresponds to the Mastoid Process left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Mastoid Process left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.002
92320000|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.28|||=|0.018|TWO_SIDED|||||The above p value corresponds to the Mastoid Process right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Mastoid Process right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.018
92196325|NCT03491215|184291119|SUPERIORITY||Hazard Ratio (HR)|1.014|||||TWO_SIDED|95.0|0.921|1.115||||||||1.115|0.921|
92320001|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.32|||=|0.02|TWO_SIDED|||||The above p value corresponds to the Bladder 10 left (BL 10) algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Bladder 10 left (BL 10) algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.020
92320002|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.39|||=|0.025|TWO_SIDED|||||The above p value corresponds to the Bladder 10 right (BL 10) algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Bladder 10 right (BL 10) algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.025
92320003|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.55|||<|0.001|TWO_SIDED|||||The above p value corresponds to the Zygapophyseal Joint left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Zygapophyseal Joint left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||<0.001
92320004|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.57|||<|0.001|TWO_SIDED|||||The above p value corresponds to the Zygapophyseal Joint right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Zygapophyseal Joint right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||<0.001
92320005|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.36|||=|0.139|TWO_SIDED|||||The above p value corresponds to the Upper Trapezius Muscle left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Upper Trapezius Muscle left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.139
92320006|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.3|||=|0.011|TWO_SIDED|||||The above p value corresponds to the Upper Trapezius Muscle right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Upper Trapezius Muscle right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.011
92320007|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.67|||=|0.01|TWO_SIDED|||||The above p value corresponds to the Levator Scapulae Muscle left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Levator Scapulae Muscle left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.010
92196326|NCT03491215|184291119|SUPERIORITY||Hazard Ratio (HR)|1.029|||||TWO_SIDED|95.0|0.841|1.258||||||||1.258|0.841|
92196327|NCT03491215|184291120|SUPERIORITY||Hazard Ratio (HR)|1.063|||||TWO_SIDED|95.0|1.012|1.117||||||||1.117|1.012|
92196328|NCT03491215|184291120|SUPERIORITY||Hazard Ratio (HR)|1.132|||||TWO_SIDED|95.0|1.025|1.25||||||||1.25|1.025|
92320008|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.62|||=|0.06|TWO_SIDED|||||The above p value corresponds to the Levator Scapulae Muscle right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Levator Scapulae Muscle right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.06
92320009|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.51|||=|0.05|TWO_SIDED|||||The above p value corresponds to the Deltoid Muscle left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Deltoid Muscle left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.050
92320010|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.41|||=|0.068|TWO_SIDED|||||The above p value corresponds to the Deltoid Muscle right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Deltoid Muscle right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.068
92320011|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.59|||=|0.049|TWO_SIDED|||||The above p value corresponds to the Tibialis Anterior Muscle left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Tibialis Anterior Muscle left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.049
92320012|NCT05870371|184545156|OTHER||Mean Difference (Net)|0.73|||=|0.004|TWO_SIDED|||||The above p value corresponds to the Tibialis Anterior Muscle right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Tibialis Anterior Muscle right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.004
92320013|NCT05870371|184545156|OTHER||Dependence coefficient (β)|-0.03|STANDARD_ERROR_OF_MEAN|0.03|=|0.297|TWO_SIDED|||||The above p value corresponds to the Mastoid Process left algometric site. The threshold for statistical significance was p \< 0.05. The above value correspond to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Mastoid Process left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.297
92196329|NCT02489734|184291140|SUPERIORITY||Relative risk (RR)|3.4||||0.003|TWO_SIDED|95.0|1.4|8.1|||Chi-squared|||||8.1|1.4|0.003
92196330|NCT00424554|184291190|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||t-test, 2 sided|||||||0.09
92320014|NCT05870371|184545156|OTHER||Dependence coefficient (β)|-0.004|STANDARD_ERROR_OF_MEAN|0.03|=|0.855|TWO_SIDED|||||The above p value corresponds to the Mastoid Process right algometric site. The threshold for statistical significance was p \< 0.05. The above value correspond to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Mastoid Process right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.855
92320015|NCT05870371|184545156|OTHER||Dependence coefficient (β)|-0.01|STANDARD_ERROR_OF_MEAN|0.02|=|0.594|TWO_SIDED|||||The above p value corresponds to the Bladder 10 (BL 10) left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Bladder 10 (BL 10) left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.594
92320016|NCT05870371|184545156|OTHER||Dependence coefficient (β)|0.002|STANDARD_ERROR_OF_MEAN|0.02|=|0.929|TWO_SIDED|||||The above p value corresponds to the Bladder 10 (BL 10) right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Bladder 10 (BL 10) right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.929
92196331|NCT00107978|184291204|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 10% was specified based on historical regulatory precedent.|Risk Difference (RD)|2.5||||||95.0|-2.9|7.9||p-values were not calculated in deference to confidence intervals.|2-sided 95% confidence interval|2-sided 95% confidence interval calculated on the difference in cure rates between treatment groups.||||7.9|-2.9|
92196332|NCT02669407|184291206|OTHER|Single group|||||<|0.001|||||||Tukey's method|||||||<0.001
92196333|NCT02669407|184291207|OTHER|Single group||||||0.001|||||||Tukey's method|||Baseline, 30 minutes||||0.001
92196334|NCT02669407|184291208|OTHER|Single group||||||0.007|||||||Tukey's method|||baseline, 30 minutes||||0.007
92320017|NCT05870371|184545156|OTHER||Dependence coefficient (β)|0.002|STANDARD_ERROR_OF_MEAN|0.05|=|0.725|TWO_SIDED|||||The above p value corresponds to the Zygapophyseal Joint left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Zygapophyseal Joint left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.725
92320018|NCT05870371|184545156|OTHER||Dependence coefficient (β)|-0.01|STANDARD_ERROR_OF_MEAN|0.02|=|0.725|TWO_SIDED|||||The above p value corresponds to the Zygapophyseal Joint right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Zygapophyseal Joint right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.725
92320019|NCT05870371|184545156|OTHER||Dependence coefficient (β)|0.02|STANDARD_ERROR_OF_MEAN|0.03|=|0.398|TWO_SIDED|||||The above p value corresponds to the Upper Trapezius Muscle left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Upper Trapezius Muscle left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.398
92320020|NCT05870371|184545156|OTHER||Dependence coefficient (β)|0.04|STANDARD_ERROR_OF_MEAN|0.03|=|0.186|TWO_SIDED|||||The above p value corresponds to the Mastoid Process right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Upper Trapezius Muscle right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.186
92320021|NCT05870371|184545156|OTHER||Dependence coefficient (β)|0.01|STANDARD_ERROR_OF_MEAN|0.02|=|0.833|TWO_SIDED|||||The above p value corresponds to the Levator Scapulae Muscle left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Levator Scapulae Muscle left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.833
92196335|NCT02669407|184291212|OTHER|Single group||||||0.237|||||||t-test, 2 sided|||Change in left ventricular end diastolic dimension||||0.237
92196336|NCT02669407|184291212|OTHER|Single group||||||0.586|||||||t-test, 2 sided|||Change in left ventricular end systolic dimension||||0.586
92196337|NCT02669407|184291213|OTHER|Single group||||||0.175|||||||t-test, 2 sided|||||||0.175
92196338|NCT02669407|184291215|OTHER|Single group||||||0.061|||||||t-test, 2 sided|||||||0.061
92320022|NCT05870371|184545156|OTHER||Dependence coefficient (β)|-0.02|STANDARD_ERROR_OF_MEAN|0.03|=|0.469|TWO_SIDED|||||The above p value corresponds to the Levator Scapulae Muscle right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Levator Scapulae Muscle right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.469
92196339|NCT02669407|184291216|OTHER|Single group||||||0.787|||||||t-test, 2 sided|||||||0.787
92196340|NCT02669407|184291218|OTHER|Single group||||||0.606|||||||t-test, 2 sided|||Baseline, 90 minutes||||0.606
92196341|NCT02669407|184291218|OTHER|Single group||||||0.045|||||||t-test, 2 sided|||Baseline, 24 hours||||0.045
92196342|NCT04593823|184291305|SUPERIORITY||Win Ratio|1.11|||||TWO_SIDED|95.0|0.48|2.5|||||A win ratio parameter signifies the percentage of wins that a treatment group has achieved when compared against a comparator.|||2.50|0.48|
92196343|NCT04593823|184291306|SUPERIORITY||Mean Difference (Final Values)|2.9|||>|0.999|TWO_SIDED|95.0|-17.0|15.9|||Chi-squared|||||15.9|-17.0|>0.999
92196344|NCT04593823|184291307|SUPERIORITY||Median Difference (Final Values)|-8.8||||0.459|TWO_SIDED|95.0|-36.4|13.6|||Chi-squared|||||13.6|-36.4|0.459
92196345|NCT04593823|184291309|SUPERIORITY||Least Squares Mean Difference|8.887||||0.547|TWO_SIDED|95.0|-20.01|37.784|||ANOVA|Repeated measures analysis||||37.784|-20.010|0.547
92196346|NCT04593823|184291310|SUPERIORITY|||||||0.336|||||||Wilcoxon (Mann-Whitney)|||||||0.336
92320023|NCT05870371|184545156|OTHER||Dependence coefficient (β)|-0.02|STANDARD_ERROR_OF_MEAN|0.03|=|0.399|TWO_SIDED|||||The above p value corresponds to the Deltoid Muscle left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Deltoid Muscle left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.399
92320024|NCT05870371|184545156|OTHER||Dependence coefficient (β)|-0.01|STANDARD_ERROR_OF_MEAN|0.02|=|0.752|TWO_SIDED|||||The above p value corresponds to the Deltoid Muscle right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Deltoid Muscle right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.752
92320025|NCT05870371|184545156|OTHER||Dependence coefficient (β)|-0.07|STANDARD_ERROR_OF_MEAN|0.02|=|0.002|TWO_SIDED|||||The above p value corresponds to the Tibialis Anterior Muscle left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Tibialis Anterior Muscle left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.002
92320026|NCT05870371|184545156|OTHER||Dependence coefficient (β)|-0.07|STANDARD_ERROR_OF_MEAN|0.02|=|0.003|TWO_SIDED|||||The above p value corresponds to the Tibialis Anterior Muscle right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Tibialis Anterior Muscle right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.003
92320027|NCT05870371|184545157|OTHER||Mean Difference (Net)|5.41|||=|0.002|TWO_SIDED|||||The above p value corresponds to the Rotation maximum. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Rotation maximum.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.002
92320028|NCT05870371|184545157|OTHER||Mean Difference (Net)|4.92|||=|0.046|TWO_SIDED|||||The above p value corresponds to the Rotation average. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Rotation average.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.046
92196347|NCT04974723|184291321|NON_INFERIORITY|Cox proportional hazard model was used to calculate the hazard ratio with teriparatide as reference. Noninferiority of abaloparatide to teriparatide was to be concluded if the upper bound of the 2-sided 95% CI of the HR between abaloparatide versus teriparatide was \<1.3.|Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.81|1.1||||||||1.10|0.81|
92196348|NCT04974723|184291322|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.89|1.3||||||Cox proportional hazard model was used to calculate the hazard ratio with teriparatide as reference. Noninferiority of abaloparatide to teriparatide was to be concluded if the upper bound of the 2-sided 95% CI of the HR between abaloparatide versus teriparatide was \<1.3.||1.30|0.89|
92320029|NCT05870371|184545157|OTHER||Mean Difference (Net)|3.81|||<|0.001|TWO_SIDED|||||The above p value corresponds to the Lateral Flexion maximum. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Lateral Flexion maximum.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320030|NCT05870371|184545157|OTHER||Mean Difference (Net)|3.57|||=|0.043|TWO_SIDED|||||The above p value corresponds to the Lateral Flexion average. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Lateral Flexion average.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.043
92320031|NCT05870371|184545157|OTHER||Mean Difference (Net)|4.52|||=|0.018|TWO_SIDED|||||The above p value corresponds to the Flexion maximum. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Flexion maximum.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.018
92320032|NCT05870371|184545157|OTHER||Mean Difference (Net)|4.45|||=|0.102|TWO_SIDED|||||The above p value corresponds to the Flexion average. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Flexion average.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.102
92320033|NCT05870371|184545157|OTHER||Mean Difference (Net)|5.85|||=|0.16|TWO_SIDED|||||The above p value corresponds to the Extension maximum. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Extension maximum.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.160
92320034|NCT05870371|184545157|OTHER||Mean Difference (Net)|5.48|||<|0.039|TWO_SIDED|||||The above p value corresponds to the Extension average. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Extension average.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||<0.039
92320035|NCT05870371|184545157|OTHER||Dependence coefficient (β)|-5.0|STANDARD_ERROR_OF_MEAN|1.51|=|0.001|TWO_SIDED|||||The above p-value corresponds to the Rotation maximum. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Rotation maximum. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.001
92320036|NCT05870371|184545157|OTHER||Dependence coefficient (β)|-5.0|STANDARD_ERROR_OF_MEAN|1.51|=|0.002|TWO_SIDED||||||Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Rotation average. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.002
92320037|NCT05870371|184545157|OTHER||Dependence coefficient (β)|-4.84|STANDARD_ERROR_OF_MEAN|1.6|=|0.048|TWO_SIDED|||||The above p value corresponds to the Lateral Flexion maximum. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Lateral Flexion maximum. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.048
92320038|NCT05870371|184545157|OTHER||Dependence coefficient (β)|-2.0|STANDARD_ERROR_OF_MEAN|1.06|=|0.059|TWO_SIDED|||||The above p value corresponds to the Lateral Flexion average. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Lateral Flexion average. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.059
92320039|NCT05870371|184545157|OTHER||Dependence coefficient (β)|-0.92|STANDARD_ERROR_OF_MEAN|1.62|=|0.57|TWO_SIDED|||||The above p value corresponds to the Flexion maximum. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Flexion maximum. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.57
92320040|NCT05870371|184545157|OTHER||Dependence coefficient (β)|-0.14|STANDARD_ERROR_OF_MEAN|1.65|=|0.931|TWO_SIDED|||||The above p value corresponds to the Flexion average. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Flexion average. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.931
92320041|NCT05870371|184545157|OTHER||Dependence coefficient (β)|-1.17|STANDARD_ERROR_OF_MEAN|1.99|=|0.558|TWO_SIDED|||||The above p value corresponds to the Extension maximum. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Extension maximum . The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.558
92320042|NCT05870371|184545157|OTHER||Dependence coefficient (β)|-0.03|STANDARD_ERROR_OF_MEAN|1.96|=|0.989|TWO_SIDED|||||The above p value corresponds to the Extension average. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Extension average. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.989
92320043|NCT05870371|184545158|OTHER||Mean Difference (Net)|1.37|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null hypothesis: The application of ATM does not affect the strength of deep neck flexor muscles as measured by the Chattanooga Stabilizer Pressure Biofeedback in patients with chronic pain in the cervical spine (secondary hypothesis).||||<0.001
92320044|NCT05870371|184545158|OTHER||Dependence coefficient (β)|0.01|STANDARD_ERROR_OF_MEAN|0.01|=|0.437|TWO_SIDED|||||The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of applying ATM does not differ in improving the strength of deep neck flexor muscles measured by the Chattanooga Stabilizer Pressure Biofeedback in patients with chronic neck pain than applying A-S (secondary hypothesis).||||=0.437
92320045|NCT05870371|184545159|OTHER||Mean Difference (Net)|0.02|||=|0.919|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null Hypothesis: The application of ATM does not affect the respiratory function assessed by the portable spirometer (MIR Spirodoc) in patients with chronic neck pain (secondary hypothesis).||||=0.919
92320046|NCT05870371|184545159|OTHER||Dependence coefficients (β)|-0.05|STANDARD_ERROR_OF_MEAN|0.02|=|0.01|TWO_SIDED|||||The above value corresponds to the comparison between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis||The above value corresponds to the comparison between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of the respiratory function in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.010
92320047|NCT05870371|184545160|OTHER||Mean Difference (Net)|0.09|||=|0.659|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null Hypothesis: The application of ATM does not affect the respiratory function assessed by the portable spirometer (MIR Spirodoc) in patients with chronic neck pain (secondary hypothesis).||||=0.659
92320048|NCT05870371|184545160|OTHER||Dependence coefficient (β)|-0.04|STANDARD_ERROR_OF_MEAN|0.02|=|0.05|TWO_SIDED|||||The above value correspond to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of the respiratory function in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.05
92196349|NCT04974723|184291323|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.95|1.22||||||Cox proportional hazard model was used to calculate the hazard ratio with teriparatide as reference. Noninferiority of abaloparatide to teriparatide was to be concluded if the upper bound of the 2-sided 95% CI of the HR between abaloparatide versus teriparatide was \<1.3.||1.22|0.95|
92196350|NCT00458393|184291348|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.577|STANDARD_ERROR_OF_MEAN|0.105||0.002|TWO_SIDED|95.0|0.404|0.824||secondary p-value given.|Log Rank|stratified by site|Efron correction for ties. Placebo is reference. Results typically quoted as efficacy = 100\*(1-HR)|Primary null hypothesis: Relative hazard of 0.7 or less. Secondary null hypothesis: Relative hazard of 1.0 or less.||.824|.404|0.002
92320049|NCT05870371|184545161|OTHER||Mean Difference (Net)|10.28|||=|0.09|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null Hypothesis: The application of ATM does not affect the respiratory function assessed by the portable spirometer (MIR Spirodoc) in patients with chronic neck pain (secondary hypothesis).||||=0.09
92320050|NCT05870371|184545161|OTHER||Dependence coefficient (β)|-0.06|STANDARD_ERROR_OF_MEAN|0.02|=|0.005|TWO_SIDED|||||The above value correspond to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of the respiratory function in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.005
92196351|NCT00458393|184291349|SUPERIORITY||Risk Ratio (RR)|1.33||||0.28|TWO_SIDED|95.0|0.79|2.25||p-value is not adjusted for multiple comparisons, a priori threshold for statistical significance was p \< 0.05|Fisher Exact||||Extensive analysis and methods published in https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3966916/|2.25|0.79|0.28
92320051|NCT05870371|184545162|OTHER||Mean Difference (Net)|-7.87|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Total McGill Score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Total McGill Score.|Null Hypothesis: The application of ATM does not affect the pain in the cervical spine in terms of its intensity and quality, i.e., its sensory, emotional and behavioral dimensions using the McGill Pain Questionnaire-short form (SFMPQ) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320052|NCT05870371|184545162|OTHER||Mean Difference (Net)|-5.55|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Sensory Score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Sensory Score.|Null Hypothesis: The application of ATM does not affect the pain in the cervical spine in terms of its intensity and quality, i.e., its sensory, emotional and behavioral dimensions using the McGill Pain Questionnaire-short form (SFMPQ) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320053|NCT05870371|184545162|OTHER||Mean Difference (Net)|-2.33|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Affective Score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Affective Score.|Null Hypothesis: The application of ATM does not affect the pain in the cervical spine in terms of its intensity and quality, i.e., its sensory, emotional and behavioral dimensions using the McGill Pain Questionnaire-short form (SFMPQ) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320054|NCT05870371|184545162|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.996|TWO_SIDED|||||The above p-value corresponds to the Total McGill score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models. The above p-value corresponds to the comparison which is between groups at baseline.|The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the reduction of pain in terms of its intensity and quality in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.996
92320055|NCT05870371|184545162|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.968|TWO_SIDED|||||The above p-value corresponds to the Sensory Score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models. The above p-value corresponds to the comparison which is between groups at baseline.|The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the reduction of pain in terms of its intensity and quality in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.968
92320056|NCT05870371|184545162|OTHER||Dependence coefficient (β)|0.01|STANDARD_ERROR_OF_MEAN|0.05|=|0.854|TWO_SIDED|||||The above p-value corresponds to the Affective Score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models. The above p-value corresponds to the comparison which is between groups at baseline.|The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the reduction of pain in terms of its intensity and quality in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.854
92320057|NCT05870371|184545163|OTHER||Mean Difference (Net)|-2.59|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||||||<0.001
92320058|NCT05870371|184545163|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.03|=|0.952|TWO_SIDED|||||The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the comparison which is between groups at baseline.|||||=0.952
92320059|NCT05870371|184545164|OTHER||Mean Difference (Net)|-1.06|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|Log transformation was used for the mixed linear models.||||||<0.001
92320060|NCT05870371|184545164|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.02|=|0.989|TWO_SIDED|||||The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the comparison which is between groups at baseline.|||||=0.989
92320061|NCT05870371|184545165|OTHER||Mean Difference (Net)|-5.6|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null Hypothesis: The application of ATM does not affect the functionality recorded with the Neck Disability Index (NDI) in patients with chronic pain in the cervical spine (secondary hypothesis).||||<0.001
92320062|NCT05870371|184545165|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.03|=|0.973|TWO_SIDED|||||The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of functionality recorded with the Neck Disability Index (NDI) in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.973
92320063|NCT05870371|184545166|OTHER||Mean Difference (Net)|-2.11|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Depression subscale of HADS. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|Log transformation was used for the mixed linear models.|The above value corresponds to the Depression subscale of HADS.|Null Hypothesis: The application of ATM does not affect the anxiety and depression captured by the Hospital Anxiety \& Depression Scale (HADS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320064|NCT05870371|184545166|OTHER||Mean Difference (Net)|-2.05|||<|0.001|TWO_SIDED|||||The above value corresponds to the Anxiety subscale of HADS. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|Log transformation was used for the mixed linear models.|The above value corresponds to the Anxiety subscale of HADS.|Null Hypothesis: The application of ATM does not affect the anxiety and depression captured by the Hospital Anxiety \& Depression Scale (HADS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320065|NCT05870371|184545166|OTHER||Dependence coefficient (β)|0.04|STANDARD_ERROR_OF_MEAN|0.04|=|0.305|TWO_SIDED|||||The above p-value corresponds to the Depression subscale of HADS. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Depression subscale of HADS. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the reduction of anxiety and depression captured by the Hospital Anxiety \& Depression Scale (HADS) in patients with chronic pain in the cervical spine from the application of A-S (secondary hypothesis).||||=0.305
92320066|NCT05870371|184545166|OTHER||Dependence coefficient (β)|0.05|STANDARD_ERROR_OF_MEAN|0.03|=|0.137|TWO_SIDED|||||The above p-value corresponds to the Anxiety subscale of HADS. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|Log transformation was used for the mixed linear models.|The above values correspond to the Anxiety subscale of HADS. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the reduction of anxiety and depression captured by the Hospital Anxiety \& Depression Scale (HADS) in patients with chronic pain in the cervical spine from the application of A-S (secondary hypothesis).||||=0.137
92320067|NCT05870371|184545167|OTHER||Mean Difference (Net)|-3.82|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null Hypothesis: The application of ATM does not affect the kinesiophobia as measured by the Tampa Scale Kinesiophobia (TSK\_GR) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320068|NCT05870371|184545167|OTHER||Dependence coefficient (β)|0.02|STANDARD_ERROR_OF_MEAN|0.01|=|0.151|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ from the application of A-S in reducing kinesiophobia measured by the Tampa Scale Kinesiophobia (TSK\_GR) in patients with chronic neck pain (secondary hypothesis).||||=0.151
92320069|NCT05870371|184545167|OTHER||||||=|0.021||||||The threshold for statistical significance was p \< 0.05.|McNemar|||||||=0.021
92320070|NCT05870371|184545168|OTHER||Mean Difference (Net)|-4.24|||=|0.006|TWO_SIDED|||||The above p-value corresponds to the FABQ\_physical subscale. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the FABQ\_physical subscale.|Null Hypothesis: The application of ATM does not affect the perception of the fear and the effort to avoid pain in relation to physical and work activities assessed by the Fear Avoidance Beliefs Questionnaire\_Greek version (FABQ\_GR) in patients with chronic neck pain (secondary hypothesis).||||=0.006
92320071|NCT05870371|184545168|OTHER||Mean Difference (Net)|-2.24|||=|0.001|TWO_SIDED|||||The above p-value corresponds to the FABQ\_work subscale. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the FABQ\_work subscale.|Null Hypothesis: The application of ATM does not affect the perception of the fear and the effort to avoid pain in relation to physical and work activities assessed by the Fear Avoidance Beliefs Questionnaire\_Greek version (FABQ\_GR) in patients with chronic neck pain (secondary hypothesis).||||=0.001
92320072|NCT05870371|184545168|OTHER||Dependence coefficient (β)|0.1|STANDARD_ERROR_OF_MEAN|0.07|=|0.197|TWO_SIDED|||||The above p-value corresponds to the FABQ\_work subscale. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the FABQ\_work subscale. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of perception of fear and effort to avoid pain in relation to physical and work activities assessed by the Fear Avoidance Beliefs Questionnaire\_Greek version (FABQ\_GR) in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.197
92320073|NCT05870371|184545168|OTHER||Dependence coefficient (β)|0.07|STANDARD_ERROR_OF_MEAN|0.04|=|0.066|TWO_SIDED|||||The above p-value corresponds to the FABQ\_physical subscale. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the FABQ\_physical subscale. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of perception of fear and effort to avoid pain in relation to physical and work activities assessed by the Fear Avoidance Beliefs Questionnaire\_Greek version (FABQ\_GR) in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.066
92320074|NCT05870371|184545169|OTHER||Mean Difference (Net)|-7.07|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Total PCS score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Total PCS score.|Null Hypothesis: The application of ATM does not affect the degree of pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320075|NCT05870371|184545169|OTHER||Mean Difference (Net)|-2.02|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Rumination subscale of PCS. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Rumination subscale of PCS.|Null Hypothesis: The application of ATM does not affect the degree of pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320076|NCT05870371|184545169|OTHER||Mean Difference (Net)|-1.66|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Magnification subscale of PCS. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Magnification subscale of PCS.|Null Hypothesis: The application of ATM does not affect the degree of pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320077|NCT05870371|184545169|OTHER||Mean Difference (Net)|-3.39|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Helplessness subscale of PCS. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Helplessness subscale of PCS.|Null Hypothesis: The application of ATM does not affect the degree of pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320078|NCT05870371|184545169|OTHER||Dependence coefficient (β)|0.01|STANDARD_ERROR_OF_MEAN|0.05|=|0.871|TWO_SIDED|||||The above p-value corresponds to the Total PCS score. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Total PCS score. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ from the application of A-S in reducing pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).|The above values correspond to the comparison which is between groups at baseline.|||=0.871
92320079|NCT05870371|184545169|OTHER||Dependence coefficient (β)|-0.01|STANDARD_ERROR_OF_MEAN|0.06|=|0.887|TWO_SIDED|||||The above p-value corresponds to the Rumination subscale of PCS. The above value correspond to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Rumination subscale of PCS. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ from the application of A-S in reducing pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||=0.887
92320080|NCT05870371|184545169|OTHER||Dependence coefficient (β)|0.01|STANDARD_ERROR_OF_MEAN|0.05|=|0.879|TWO_SIDED|||||The above p-value corresponds to the Magnification subscale of PCS. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Magnification subscale of PCS. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ from the application of A-S in reducing pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||=0.879
92320081|NCT05870371|184545169|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.961|TWO_SIDED|||||The above p-value corresponds to the Helplessness subscale of PCS. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Helplessness subscale of PCS. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ from the application of A-S in reducing pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||=0.961
92320082|NCT05870371|184545170|OTHER||Mean Difference (Net)|4.99|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Physical Component Summary/PCS subscale of SF-12. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Physical Component Summary/PCS subscale of SF-12.|Null Hypothesis: The application of ATM does not affect the quality of life as measured by the Short Form 12-item Health Survey (SF-12) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320083|NCT05870371|184545170|OTHER||Mean Difference (Net)|8.33|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Mental Component Summary/MCS subscale of SF-12. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Mental Component Summary/MCS subscale of SF-12.|Null Hypothesis: The application of ATM does not affect the quality of life as measured by the Short Form 12-item Health Survey (SF-12) in patients with chronic neck pain (secondary hypothesis).||||<0.001
92320084|NCT05870371|184545170|OTHER||Dependence coefficient (β)|-0.76|STANDARD_ERROR_OF_MEAN|1.32|=|0.564|TWO_SIDED|||||The above p-value corresponds to the Physical Component Summary/PCS of SF-12. The above p-value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Physical Component Summary/PCS subscale of SF-12. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of quality of life measured by the Short Form 12-item Health Survey (SF-12) in patients with chronic pain in the cervical spine from the application of A-S (secondary hypothesis).||||=0.564
92320085|NCT05870371|184545170|OTHER||Dependence coefficient (β)|-3.05|STANDARD_ERROR_OF_MEAN|1.34|=|0.023|TWO_SIDED|||||The above p-value corresponds to Mental Component Summary/MCS of SF-12. The above p-value corresponds to the comparison which is between groups at baseline.The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Mental Component Summary/MCS of SF-12. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of quality of life measured by the Short Form 12-item Health Survey (SF-12) in patients with chronic pain in the cervical spine from the application of A-S (secondary hypothesis).||||=0.023
92196352|NCT00458393|184291350|SUPERIORITY||Risk Ratio (RR)|1.3||||0.54|TWO_SIDED|95.0|0.57|2.96|||Fisher Exact|||||2.96|.57|0.54
92320086|NCT05870371|184545171|OTHER||||||=|0.014||||||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||=0.014
92320087|NCT05870371|184545171|OTHER||Median Difference (Net)|1.0|||||TWO_SIDED|||||||||||||
92196353|NCT00458393|184291351|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.5|TWO_SIDED|95.0|0.65|1.23|||Log Rank|||||1.23|0.65|0.50
92196354|NCT00458393|184291352|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.92|TWO_SIDED|95.0|0.79|1.23|||Log Rank|||||1.23|0.79|0.92
92196355|NCT00458393|184291353|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Null hypothesis of no difference||||1.00
92196356|NCT00458393|184291353|SUPERIORITY|Desc|Risk Difference (RD)|0.0||||1|TWO_SIDED||||||Fisher Exact|||||||1.00
92196357|NCT00458393|184291354|SUPERIORITY||Mean Difference (Net)|-0.91||||0.001|TWO_SIDED|||||\< 0.05 for statistical significance. no adjustment for multiple comparisons|Mixed Models Analysis|||||||0.001
92320088|NCT05870371|184545171|OTHER||Median Difference (Net)|2.0|||||TWO_SIDED|||||||||||||
92320089|NCT04495751|184545199|SUPERIORITY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|90.0|-3.5|1.1||||||||1.1|-3.5|
92320090|NCT04495751|184545200|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||||0.1|-0.5|
92320091|NCT04495751|184545201|SUPERIORITY||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.7|2.0||||||||2.0|-0.7|
92320092|NCT04495751|184545202|SUPERIORITY||Mean Difference (Final Values)|-973.5|||||TWO_SIDED|95.0|-3500.0|1553.0||||||||1553|-3500|
92320093|NCT04495751|184545203|SUPERIORITY||Mean Difference (Final Values)|20.7|||||TWO_SIDED|95.0|-32.4|73.8||||||||73.8|-32.4|
92320094|NCT04495751|184545204|SUPERIORITY||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-2.2|3.2||||||||3.2|-2.2|
92320095|NCT04495751|184545205|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.2|0.7||||||Quality of Life - Self-rate health||0.7|-0.2|
92320096|NCT04495751|184545205|SUPERIORITY|Quality of life - Ability to carry out social activities and roles|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.3|0.6||||||||0.6|-0.3|
92320097|NCT04495751|184545205|SUPERIORITY||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-2.7|4.5||||||Physical health (t score)||4.5|-2.7|
92320098|NCT04495751|184545205|SUPERIORITY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-5.4|2.5||||||Global Mental health (t score||2.5|-5.4|
92320099|NCT04495751|184545206|SUPERIORITY||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-99.7|101.9||||||||101.9|-99.7|
92320100|NCT04495751|184545207|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.5|0.5||||||||0.5|-0.5|
92320101|NCT00708461|184545208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.125|STANDARD_ERROR_OF_MEAN|0.1202||0.36|TWO_SIDED|95.0|-0.21|0.46||Adjusted for age, educational attainment, race/ethnicity, and smoking status as individual, fixed-effect covariates. 95% confidence intervals and p-values derived from t-statistics with 4 degrees of freedom, reflecting the group-randomized design.|ANCOVA|Adjusted for age, educational attainment, race/ethnicity, and smoking status as individual, fixed-effect covariates.||"The null hypothesis was no effect of the environmental intervention. The following power assumptions were made:~* Intraclass correlation (ICC) of 0.016, estimated from an earlier study~* Variance of 118 kg, estimated from an earlier study~* Cohort N=400~* 15% attrition (by turnover) Using the external control and a worksite correlation of 0.2 gives a detectable difference of about 1.5 kg or 3 lb, or an effect size of 0.14. The effect size using internal control is 0.20."||0.46|-0.21|0.36
92320102|NCT02907177|184545209|SUPERIORITY||Treatment effect (rate ratio)|1.27||||0.5252|TWO_SIDED|95.0|0.608|2.654|||Negative binomial regression||Rate ratio is ponesimod 20 mg / DMF versus placebo /DMF|||2.654|0.608|0.5252
92320103|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.0415||||0.3184|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model based on all 3 dosage data points, not just the 0.5mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 2 and 3 for the other two data points (1.0mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~Emax model analysis is shown here."||||0.3184
92320104|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.1225||||0.3184|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model based on all 3 dosage data points, not just the 1.0mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 1 and 3 for the other two data points (0.5mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~Emax model analysis is shown here."||||0.3184
92196358|NCT00458393|184291355|SUPERIORITY||Median Difference (Net)|-3.8||||0.009|TWO_SIDED|95.0|-6.6|-0.95|||median regression|||||-0.95|-6.6|0.009
92196359|NCT00458393|184291356|SUPERIORITY||Median Difference (Net)|0.0||||1|TWO_SIDED|95.0|-9.3|9.3|||median regression|||||9.3|-9.3|1.00
92320105|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.208||||0.3184|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model based on all 3 dosage data points, not just the 2.0mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 1 and 2 for the other two data points (0.5mg/kg and 1.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~Emax model analysis is shown here."||||0.3184
92196360|NCT00458393|184291357|SUPERIORITY||Median Difference (Net)|-2.2||||0.19|TWO_SIDED|95.0|-5.5|1.1|||median regression|||||1.1|-5.5|0.19
92196361|NCT00458393|184291358|SUPERIORITY||Mean Difference (Net)|0.08||||0.56|TWO_SIDED|95.0|-0.18|0.33|||t-test, 2 sided|||||0.33|-.18|0.56
92196362|NCT00458393|184291359|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.0||||1|TWO_SIDED||||||Fisher Exact|||Null hypothesis is the proportion of mutations is identical.|Detailed resistance data is found at https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4176446/|||1.00
92320106|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.0415||||0.2265|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the sigEmax curve model based on data points for all 3 dosages, not just the 0.5mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 5 and 6 for the other two data points (1.0mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~sigEmax model analysis is shown here."||||0.2265
92320107|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.1225||||0.2265|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the sigEmax curve model based on data points for all 3 dosages, not just the 1.0mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 4 and 6 for the other two data points (0.5mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~sigEmax model analysis is shown here."||||0.2265
92320108|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.208||||0.2265|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the sigEmax curve model based on data points for all 3 dosages, not just the 2.0mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 4 and 5 for the other two data points (0.5mg/kg and 1.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~sigEmax model analysis is shown here."||||0.2265
92320109|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.2671||||0.0764|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model for high HCT based on all 3 dosage data points, not just the 0.5mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 8 and 9 for the other two data points (1.0mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for only the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.0764
92196363|NCT00458393|184291360|SUPERIORITY||Mean Difference (Net)|-7.0||||0.32|TWO_SIDED|95.0|-69.0|54.0|||Mixed Models Analysis|||||54|-69|0.32
92196364|NCT00458393|184291361|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.005||||0.53|TWO_SIDED|95.0|-0.02|0.01|||Mixed Models Analysis|||Null hypothesis is equal proportion of pills returned||0.01|-0.02|0.53
92196365|NCT00458393|184291362|SUPERIORITY||Mean Difference (Net)|0.25||||0.7|TWO_SIDED|95.0|-1.1|1.6|||t-test, 2 sided||||Detailed methods and results are available at https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4110718/|1.6|-1.1|0.70
92196366|NCT00458393|184291363|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|||||Not adjusted for multiple comparisons and the a priori threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.99
92320110|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.6561||||0.0764|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model for high HCT based on all 3 dosage data points, not just the 1.0mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 7 and 9 for the other two data points (0.5mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for only the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.0764
92320111|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.4668||||0.0764|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model for high HCT based on all 3 dosage data points, not just the 2.0mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 7 and 8 for the other two data points (0.5mg/kg and 1.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for only the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.0764
92320112|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.2671||||0.0574|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model for high HCT based on all 3 dosage data points, not just the 0.5mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 11 and 12 for the other two data points (1.0mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. sigEmax model analysis is shown here.||||0.0574
92320113|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.6561||||0.0574|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model for high HCT based on all 3 dosage data points, not just the 1.0mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 10 and 12 for the other two data points (0.5mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. sigEmax model analysis is shown here.||||0.0574
92196367|NCT00458393|184291364|SUPERIORITY||Median Difference (Final Values)|0.0||||0.76|TWO_SIDED|95.0|-0.42|0.42||Not adjusted for multiple comparisons, a priori threshold for statistical significance, p \< 0.05|Wilcoxon (Mann-Whitney)||||Full details available in the methods section of https://www.ncbi.nlm.nih.gov/pubmed/24367497|.42|-.42|0.76
92196368|NCT00458393|184291365|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.008||||0.68|TWO_SIDED|95.0|-0.047|0.03|||Chi-squared|||Null is no difference between arms||0.030|-0.047|0.68
92196369|NCT00458393|184291366|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.13||||0.3|TWO_SIDED|95.0|0.89|1.43|||Log Rank|||Null hypothesis of no difference between the arms||1.43|0.89|0.30
92196370|NCT00458393|184291367|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.41|TWO_SIDED|95.0|0.8|1.7|||Log Rank||||Details in the manuscript https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3956614/|1.7|0.8|0.41
92320114|NCT04681066|184545221|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.4668||||0.0574|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model for high HCT based on all 3 dosage data points, not just the 2.0mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 10 and 11 for the other two data points (0.5mg/kg and 1.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. sigEmax model analysis is shown here.||||0.0574
92320115|NCT04681066|184545222|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-2.3604||||0.2379|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the Emax curve model based on all 4 dosage data points, not just the placebo data point shown here.|Mixed Models Analysis|See Statistical Analysis 2, 3, \& 4 for the other data points (0.5mg/kg, 1.0mg/kg, and 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.2379
92320116|NCT04681066|184545222|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-2.5078||||0.2379|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the Emax curve model based on all 4 dosage data points, not just the 0.5mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 1, 3, \& 4 for the other data points (placebo, 1.0mg/kg, \& 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.2379
92320117|NCT04681066|184545222|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-4.834||||0.2379|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the Emax curve model based on all 4 dosage data points, not just the 1.0mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 1, 2, \& 4 for the other data points (placebo, 0.5mg/kg, \& 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.2379
92320118|NCT04681066|184545222|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-4.7657||||0.2379|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the Emax curve model based on all 4 dosage data points, not just the 2.0mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 1, 2, \& 3 for the other data points (placebo, 0.5mg/kg, \& 1.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.2379
92320119|NCT04681066|184545222|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-2.3604||||0.0291|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model based on all 4 dosage data points, not just the placebo data point shown here.|Mixed Models Analysis|See Statistical Analysis 6, 7, \& 8 for the other data points (0.5mg/kg, 1.0mg/kg, and 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. SigEmax model analysis is shown here.||||0.0291
92320120|NCT04681066|184545222|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-2.5078||||0.0291|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model based on all 4 dosage data points, not just the 0.5mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 5, 7, \& 8 for the other data points (placebo, 1.0mg/kg, \& 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. SigEmax model analysis is shown here.||||0.0291
92320121|NCT04681066|184545222|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-4.834||||0.0291|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model based on all 4 dosage data points, not just the 1.0mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 5, 6, \& 8 for the other data points (placebo, 0.5mg/kg, \& 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. SigEmax model analysis is shown here.||||0.0291
92320122|NCT04681066|184545222|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-4.7657||||0.0291|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model based on all 4 dosage data points, not just the 2.0mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 5, 6, \& 7 for the other data points (placebo, 0.5mg/kg, \& 1.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.0291
92320123|NCT04681066|184545233|SUPERIORITY|||||||0.0372|||||||Finkelstein-Schoenfeld|||||||0.0372
92320124|NCT04681066|184545233|SUPERIORITY|||||||0.4918|||||||Finkelstein-Schoenfeld|||||||0.4918
92320125|NCT04681066|184545233|SUPERIORITY|||||||0.6224|||||||Finkelstein-Schoenfeld|||||||0.6224
92320126|NCT03868930|184545313|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Post-Treatment (T2).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on reintegration (measured by the Military to Civilian Questionnaire).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||<.0001
92196371|NCT00458393|184291368|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.09|TWO_SIDED|95.0|0.34|1.09|||Log Rank|||||1.09|0.34|0.09
92196372|NCT05178979|184291378|SUPERIORITY||Wald Chi-Square|1.94||||0.38|TWO_SIDED|||||Models control for clinic, gender, lifetime experience of intimate partner violence (IPV) and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.38
92196373|NCT05178979|184291378|SUPERIORITY||unstandardized beta|0.93|STANDARD_ERROR_OF_MEAN|4.63||0.84|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up|Regression, Linear|Models control for clinic, gender, lifetime experience of intimate partner violence (IPV) and are adjusted for multiple time points.||Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.||||0.84
92320127|NCT03868930|184545313|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Follow-Up (T3).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on reintegration (measured by the Military to Civilian Questionnaire).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||<.0001
92320128|NCT03868930|184545313|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Post-Treatment (T2).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on reintegration (measured by the Military to Civilian Questionnaire).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||<.0001
92320129|NCT03868930|184545313|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Follow-Up (T3).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on reintegration (measured by the Military to Civilian Questionnaire).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||<.0001
92320130|NCT03868930|184545314|SUPERIORITY|||||||0.0044||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Post-Treatment (T2).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on readjustment (measured by the Post Deployment Readjustment Inventory).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups~Statistical analysis reported on the total score only."||||0.0044
92320131|NCT03868930|184545314|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Follow-Up (T3).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on readjustment (measured by the Post Deployment Readjustment Inventory).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups~Statistical analysis reported on the total score only."||||<.0001
92320132|NCT03868930|184545314|SUPERIORITY|||||||0.0162||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Post-Treatment (T2).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on readjustment (measured by the Post Deployment Readjustment Inventory).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups~Statistical analysis reported on the total score only."||||0.0162
92320133|NCT03868930|184545314|SUPERIORITY|||||||0.0009||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Follow-Up (T3).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on readjustment (measured by the Post Deployment Readjustment Inventory).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups~Statistical analysis reported on the total score only."||||0.0009
92320134|NCT03868930|184545315|SUPERIORITY|||||||0.014||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Post-Treatment (T2) Trait Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0140
92320135|NCT03868930|184545315|SUPERIORITY|||||||0.1548||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Post-Treatment (T2) State Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.1548
92320136|NCT03868930|184545315|SUPERIORITY|||||||0.0302||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Post-Treatment (T2) Anger Expression Index.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0302
92320137|NCT03868930|184545315|SUPERIORITY|||||||0.0158||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Post-Treatment (T2) Trait Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0158
92196374|NCT05178979|184291378|SUPERIORITY||unstandardized beta|-2.62|STANDARD_ERROR_OF_MEAN|3.87||0.5|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up|Regression, Linear|Models control for clinic, gender, lifetime experience of intimate partner violence (IPV) and are adjusted for multiple time points.||Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.||||0.50
92320138|NCT03868930|184545315|SUPERIORITY|||||||0.0034||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Post-Treatment (T2) State Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0034
92320139|NCT03868930|184545315|SUPERIORITY|||||||0.8776||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Post-Treatment (T2) Anger Expression Index.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.8776
92320140|NCT03868930|184545315|SUPERIORITY|||||||0.0002||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Follow-Up (T3) Trait Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0002
92320141|NCT03868930|184545315|SUPERIORITY|||||||0.0198||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Follow-Up (T3) State Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0198
92320142|NCT03868930|184545315|SUPERIORITY|||||||0.0013||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Follow-Up (T3) Anger Expression Index.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0013
92320143|NCT03868930|184545315|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy Group from Baseline (T1) to Follow-Up (T3) Trait Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||<.0001
92320144|NCT03868930|184545315|SUPERIORITY|||||||0.0345||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Follow-Up (T3) State Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||.0345
92320145|NCT03868930|184545315|SUPERIORITY|||||||0.5918||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Follow-Up (T3) Anger Expression Index.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.5918
92320146|NCT06047366|184545328|OTHER|||||||0.18||||||p \< 0.05 was used as the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||||||0.18
92320147|NCT06047366|184545329|OTHER|||||||0.09||||||p \< 0.05 was used as the threshold for statistical significance|Log Rank|||||||0.09
92320148|NCT02151851|184545331|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.899|||<|0.001|TWO_SIDED|95.0|2.382|6.382||Difference of CZP + MTX versus Placebo + MTX (and corresponding p-value) was estimated from a logistic regression model with factors for treatment and region.|Regression, Logistic|||||6.382|2.382|<0.001
92320149|NCT02151851|184545332|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.641|||<|0.001|TWO_SIDED|95.0|3.57|16.352||Difference of CZP + MTX versus Placebo + MTX (and corresponding p-value) was estimated from a logistic regression model with factors for treatment and region.|Regression, Logistic|||||16.352|3.570|<0.001
92320150|NCT02151851|184545333|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.248|||<|0.001|TWO_SIDED|95.0|2.209|23.786||Difference of CZP + MTX versus Placebo + MTX (and corresponding p-value) was estimated from a logistic regression model with factors for treatment and region.|Regression, Logistic|||||23.786|2.209|<0.001
92320151|NCT02640950|184545345|SUPERIORITY||||||<|0.001||||||Paired t test for pre and post treatment scores for all subjects|t-test, 2 sided|||Paired t-test of pre and post treatment scores on MADRS||||<0.001
92320152|NCT02640950|184545346|OTHER|Descriptive Frequencies Analysis|||||||||||||||||A frequencies analysis was conducted to determine the number of participants that were diagnosed with BP I and BP II as well as the number of participants that developed an onset of maniac symptoms during the 7 week treatment period.|||
92320153|NCT00915018|184545355|SUPERIORITY||Hazard Ratio (HR)|1.015||||0.8934|TWO_SIDED|95.0|0.813|1.269|||Log Rank|||||1.269|0.813|0.8934
92320154|NCT00915018|184545356|OTHER||Risk Difference (RD)|0.028||||0.5219|TWO_SIDED|95.0|-0.048|0.105|||Mantel Haenszel|||||0.105|-0.048|0.5219
92320155|NCT00915018|184545357|OTHER||Hazard Ratio (HR)|0.974||||0.8431|TWO_SIDED|95.0|0.752|1.262|||Log Rank|||||1.262|0.752|0.8431
92320156|NCT00915018|184545358|OTHER||Risk Difference (RD)|-0.032||||0.236|TWO_SIDED|95.0|-0.093|0.029|||Mantel Haenszel|||||0.029|-0.093|0.2360
92320157|NCT00915018|184545359|OTHER||Hazard Ratio (HR)|0.449||||0.0036|TWO_SIDED|95.0|0.259|0.78|||Log Rank|||||0.780|0.259|0.0036
92320158|NCT02582242|184545360|OTHER||Treatment difference at week 24|-0.09||||0.2601|TWO_SIDED|95.0|-0.23|0.06|||Mixed model for repeated measurements||Treatment difference at week 24: BIAsp 30 (TID) - BIAsp 30 (BID). Number of subjects contributed to the statistical analysis: N=217 for BIAsp 30 (TID) and N=213 for BIAsp 30 (BID).|The analysis was based on a mixed-effect model for repeated measures including changes from baseline in HbA1c at visit 6, 10, 14, 18, 22 and 26 (in week 4, 8, 12, 16, 20 and 24, respectively). The model included treatment, strata and region as fixed factors, subject as random effect, baseline HbA1c as covariate and interaction between all fixed effects and visit, and between the covariate and visit.||0.06|-0.23|0.2601
92320159|NCT00300885|184545378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.915||95.0|0.94|1.41||According to protocol specified O'Brien-Fleming type alpha spending function and 384 deaths at interim analysis (IA), one-sided alpha value for IA was 0.0046.|Log Rank||Two treatment groups compared using one-sided log-rank test (Sorafenib+C/P over Placebo+C/P) with overall alpha of 0.025 stratified by same stratification factors as randomization|Sample size based on primary efficacy endpoint of OS. Clinically meaningful improvement defined as 30% improvement in median OS (i.e. HR of 0.76923, Sorafenib+C/P over Placebo+C/P -Null: theta\>=1, Alternative: theta\<=0.76923). With overall one-sided alpha of 0.025, 90% power and randomization of 1:1, one formal interim analysis and one final analysis were planned using O'Brien-Fleming type error spending function, and a total of 614 events (deaths) were required.||1.41|0.94|0.915
92320160|NCT00300885|184545379|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.433||95.0|0.84|1.16|||Log Rank|||Two treatment groups compared using one-sided log-rank test (Sorafenib+C/P over Placebo+C/P) with alpha of 0.025 stratified by same stratification factors at randomization||1.16|0.84|0.433
92320161|NCT00300885|184545380|SUPERIORITY_OR_OTHER||difference in response rate (CR+PR rate)|-3.65||||0.1015||95.0|-9.18|1.89||no adjustments|Cochran-Mantel-Haenszel||difference in response rates (Complete Response (CR) + Partial Response (PR)) = Placebo+C/P - Sorafenib+C/P|Objective response rate (ie. CR+PR rate) was compared between treatment arms using Cochran-Mantel-Haenszel test with one-side alpha 0.025 adjusting for same stratification factors as randomization||1.89|-9.18|0.1015
92320162|NCT01637922|184545384|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|118.12|STANDARD_DEVIATION|15.4||0.1638|TWO_SIDED|90.0|107.06|130.32||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. Methadone(MTD) alone on Day 1||130.32|107.06|0.1638
92320163|NCT01637922|184545385|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|114.08|STANDARD_DEVIATION|13.2||0.0391|TWO_SIDED|90.0|104.812|124.164||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. Methadone(MTD) alone on Day 1||124.164|104.812|0.0391
92320164|NCT01637922|184545386|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|111.79|STANDARD_DEVIATION|18.7||0.0603|TWO_SIDED|90.0|99.243|125.922||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. Methadone(MTD) alone on Day 1||125.922|99.243|0.0603
92320165|NCT01637922|184545387|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|117.65|STANDARD_DEVIATION|15.0||0.1424|TWO_SIDED|90.0|106.89|129.5||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|S-Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. S-Methadone(MTD) alone on Day 1||129.50|106.89|0.1424
92320166|NCT01637922|184545388|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|111.46|STANDARD_DEVIATION|16.3||0.0367|TWO_SIDED|90.0|100.42|123.715||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|S-Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. S-Methadone(MTD) alone on Day 1||123.715|100.420|0.0367
92320167|NCT01637922|184545389|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|111.52|STANDARD_DEVIATION|17.7||0.0488|TWO_SIDED|90.0|99.577|124.888||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|S-Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. S-Methadone(MTD) alone on Day 1||124.888|99.577|0.0488
92320168|NCT01637922|184545390|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.01098|||||TWO_SIDED|95.0|-0.189801|0.16864||||||Pearson correlation of trough concentrations of R-methadone and OOWS||0.168640|-0.189801|
92320169|NCT01637922|184545390|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.10188|||||TWO_SIDED|95.0|-0.287471|0.092062||||||Pearson correlation of change from baseline for trough concentrations of R-methadone and OOWS||0.092062|-0.287471|
92196375|NCT05178979|184291379|SUPERIORITY||Wald Chi-square|2.0||||0.37|TWO_SIDED|||||Models control for clinic and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.37
92320170|NCT01637922|184545390|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.03198|||||TWO_SIDED|95.0|-0.209893|0.148238||||||Pearson correlation of trough concentrations of S-methadone and OOWS||0.148238|-0.209893|
92320171|NCT01637922|184545390|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.0026|||||TWO_SIDED|95.0|-0.189172|0.194156||||||Pearson correlation of change from baseline for trough concentrations of S-methadone and OOWS||0.194156|-0.189172|
92320172|NCT01637922|184545390|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.03364|||||TWO_SIDED|95.0|-0.214505|0.149733||||||Pearson correlation of trough concentrations of Buprenorphine and OOWS||0.149733|-0.214505|
92320173|NCT01637922|184545390|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.14703|||||TWO_SIDED|95.0|-0.404929|0.135425||||||Pearson correlation of change from baseline for trough concentrations of Buprenorphine and OOWS||0.135425|-0.404929|
92320174|NCT01637922|184545390|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.05431|||||TWO_SIDED|95.0|-0.240578|0.136305||||||Pearson correlation of trough concentrations of norbuprenorphine and OOWS||0.136305|-0.240578|
92320175|NCT01637922|184545390|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.09727|||||TWO_SIDED|95.0|-0.344024|0.163687||||||Pearson correlation of change from baseline for trough concentrations of norbuprenorphine and OOWS||0.163687|-0.344024|
92320176|NCT01637922|184545390|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.36105|||||||||||||Confidence interval is not provided due to sparse data. There was only 1 patient for this analysis.|Pearson correlation of trough concentrations of naloxone and OOWS||||
92320177|NCT01637922|184545391|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|108.71|STANDARD_DEVIATION|36.1||0.1642|TWO_SIDED|90.0|85.14|138.8||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|BUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. BUPRENORPHINE(BUP) alone on Day 1||138.80|85.14|0.1642
92320178|NCT01637922|184545392|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|92.43|STANDARD_DEVIATION|33.7||0.142|TWO_SIDED|90.0|73.48|116.27||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|BUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. BUPRENORPHINE(BUP) alone on Day 1||116.27|73.48|0.1420
92320179|NCT01637922|184545393|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|108.36|STANDARD_DEVIATION|38.1||0.1915|TWO_SIDED|90.0|81.611|143.883||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|BUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. BUPRENORPHINE(BUP) alone on Day 1||143.883|81.611|0.1915
92320180|NCT01637922|184545394|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.04783|||||TWO_SIDED|95.0|-0.13275|0.224946||||||Pearson correlation of trough concentrations of R-methadone and SOWS||0.224946|-0.132750|
92320181|NCT01637922|184545394|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.39865|||||TWO_SIDED|95.0|-0.547072|-0.222288||||||Pearson correlation of change from baseline for trough concentrations of R-methadone and SOWS||-0.222288|-0.547072|
92320182|NCT01637922|184545394|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.11175|||||TWO_SIDED|95.0|-0.069336|0.284848||||||Pearson correlation of trough concentrations of S-methadone and SOWS||0.284848|-0.069336|
92320183|NCT01637922|184545394|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.16815|||||TWO_SIDED|95.0|-0.34787|0.025107||||||Pearson correlation of change from baseline for trough concentrations of S-methadone and SOWS||0.025107|-0.347870|
92320184|NCT01637922|184545394|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.0126|||||TWO_SIDED|95.0|-0.17016|0.194417||||||Pearson correlation of trough concentrations of Buprenorphine and SOWS||0.194417|-0.170160|
92320185|NCT01637922|184545394|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.02352|||||TWO_SIDED|95.0|-0.253932|0.29696||||||Pearson correlation of change from baseline for trough concentrations of Buprenorphine and SOWS||0.296960|-0.253932|
92320186|NCT01637922|184545394|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.05787|||||TWO_SIDED|95.0|-0.24392|0.132819||||||Pearson correlation of trough concentrations of norbuprenorphine and SOWS||0.132819|-0.243920|
92320187|NCT01637922|184545394|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.04052|||||TWO_SIDED|95.0|-0.218159|0.293233||||||Pearson correlation of change from baseline for trough concentrations of norbuprenorphine and SOWS||0.293233|-0.218159|
92320188|NCT01637922|184545394|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.92231|||||||||||||Confidence interval is not provided due to sparse data. There was only 1 patient for this analysis.|Pearson correlation of trough concentrations of naloxone and SOWS||||
92320189|NCT01637922|184545395|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|138.0|STANDARD_DEVIATION|50.7||0.6889|TWO_SIDED|90.0|97.2|195.92||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|NORBUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. NORBUPRENORPHINE(BUP) alone on Day 1||195.92|97.20|0.6889
92320190|NCT01637922|184545396|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|132.86|STANDARD_DEVIATION|51.1||0.6188|TWO_SIDED|90.0|93.32|189.16||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|NORBUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. NORBUPRENORPHINE(BUP) alone on Day 1||189.16|93.32|0.6188
92320191|NCT01637922|184545397|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|112.03|STANDARD_DEVIATION|52.5||0.3152|TWO_SIDED|90.0|74.85|167.67||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|NORBUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. NORBUPRENORPHINE(BUP) alone on Day 1||167.67|74.85|0.3152
92196376|NCT05178979|184291379|SUPERIORITY||unstandardized beta|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.18|TWO_SIDED|||||P-value is adjusted for clinic; this value is the 6-month follow-up|Regression, Linear|Model controls for clinic||Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.||||0.18
92320192|NCT01637922|184545398|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|98.94|STANDARD_DEVIATION|19.6||0.0107|TWO_SIDED|90.0|85.81|114.076||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|NALOXONE(BUP) + Faldaprevir(FDV) on Day 9 vs. NALOXONE(BUP) alone on Day 1||114.076|85.810|0.0107
92320193|NCT01637922|184545399|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|94.33|STANDARD_DEVIATION|27.6||0.0738|TWO_SIDED|90.0|78.017|114.054||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|NALOXONE(BUP) + Faldaprevir(FDV) on Day 9 vs. NALOXONE(BUP) alone on Day 1||114.054|78.017|0.0738
92320194|NCT00638404|184545401|OTHER|correlation of anxiety, anticipated pain medication use and anticipated pain to 24 hour evoked pain measured|||||<|0.001|||||||Spearman Correlation|anxiety to evoked pain is 0.24 (P\<.001); anticipated pain to evoked pain is 0.33 (P\<.001); anticipated pain medication to evoked pain is 0.33(P\<.001).||||||<.001
92196377|NCT05178979|184291379|SUPERIORITY||unstandardized beta|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.19|TWO_SIDED|||||P-value is adjusted for clinic; this value is the 12-month follow-up|Regression, Linear|Model controls for clinic|Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.||||0.19
92320195|NCT00638404|184545401|OTHER|correlation of anxiety to evoked pain at 24 hour|||||<|0.001|||||||Spearman Correlation|||||||<.001
92320196|NCT00638404|184545401|OTHER|correlation of anticipated pain medication 24 hour evoked pain measured|||||<|0.001|||||||Spearman Correlation|||||||<.001
92320197|NCT00638404|184545401|OTHER|correlation of anticipated pain to 24 hour evoked pain measured|||||<|0.001|||||||Spearman Correlation|||||||<.001
92320198|NCT00638404|184545402|OTHER||||||<|0.001|||||||Spearman Correlation|||preoperative questionnaire evaluating anticipated amount of pain medication potentially needed postoperatively; 0= none at all up to 100=as much as possible||||<.001
92320199|NCT00638404|184545403|OTHER||||||<|0.001|||||||Spearman Correlation|||||||<.001
92320200|NCT00638404|184545404|OTHER|Correlation of|||||<|0.001|||||||Spearman Correlation|||||||<.001
92320201|NCT02282631|184545419|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|"U=390.5 Z=-2.3 p=0.02~The mean and SD values are provided for descriptive purposes only."||||||0.02
92320202|NCT02282631|184545420|SUPERIORITY_OR_OTHER|||||||0.02||||||"U=665.5 Z=-2.3 p=0.02~The mean and SD values are provided for descriptive purposes only."|Wilcoxon (Mann-Whitney)|||||||0.02
92320203|NCT02282631|184545421|SUPERIORITY_OR_OTHER|||||||0.02||||||"U=596.5 Z=-2.4 p=0.02~The mean and SD values are provided for descriptive purposes only."|Wilcoxon (Mann-Whitney)|||||||0.02
92320204|NCT02282631|184545422|SUPERIORITY_OR_OTHER|||||||0.01||||||"U=955.0 Z=-2.5 p=0.01~The mean and SD values are provided for descriptive purposes only."|Wilcoxon (Mann-Whitney)|||||||0.01
92320205|NCT00459290|184545430|SUPERIORITY_OR_OTHER|||||||0.7912|||||||Log Rank|||||||0.7912
92320206|NCT00459290|184545431|SUPERIORITY_OR_OTHER|||||||0.1545|||||||Log Rank|||||||0.1545
92320207|NCT00459290|184545432|SUPERIORITY_OR_OTHER|||||||0.0648|||||||Log Rank|||||||0.0648
92320208|NCT00687271|184545433|OTHER||Difference in Percentage Change|-10.0|||||TWO_SIDED|95.0|-14.6|-5.5|||Longitudinal Data Analysis (LDA) model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-5.5|-14.6|
92320209|NCT00687271|184545433|OTHER||Difference in Percentage Change|-17.9|||||TWO_SIDED|95.0|-23.4|-12.5|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-12.5|-23.4|
92320210|NCT00687271|184545436|OTHER||Difference in Percentage Change|-8.6|||||TWO_SIDED|95.0|-12.7|-4.4|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-4.4|-12.7|
92196378|NCT05178979|184291380|SUPERIORITY||Wald Chi-square|10.84||||0.004|TWO_SIDED|||||Models control for clinic, cadre, and gender and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.004
92196379|NCT05178979|184291380|SUPERIORITY||unstandardized beta|0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||||||<0.001
92196380|NCT05178979|184291380|SUPERIORITY||unstandardized beta|-0.02|STANDARD_ERROR_OF_MEAN|0.09||0.86|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||||||0.86
92320211|NCT00687271|184545436|OTHER||Diffence in Percentage Change|-13.9|||||TWO_SIDED|95.0|-18.9|-8.9|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-8.9|-18.9|
92320212|NCT00687271|184545437|OTHER||Difference in Percentage Change|-7.7|||||TWO_SIDED|95.0|-11.5|-3.9|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-3.9|-11.5|
92320213|NCT00687271|184545437|OTHER||Difference in Percentage Change|-12.2|||||TWO_SIDED|95.0|-16.8|-7.6|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-7.6|-16.8|
92320214|NCT00687271|184545438|OTHER||Difference in Percentage Change|-7.4|||||TWO_SIDED|95.0|-10.8|-4.1|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-4.1|-10.8|
92320215|NCT00687271|184545438|OTHER||Difference in Percentage Change|-11.0|||||TWO_SIDED|95.0|-15.1|-7.0|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-7.0|-15.1|
92320216|NCT00687271|184545439|OTHER||Dfferecne in Percentage Change|-2.4|||||TWO_SIDED|95.0|-6.6|1.8|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||1.8|-6.6|
92320217|NCT00687271|184545439|OTHER||Difference in Percentage Change|-0.7|||||TWO_SIDED|95.0|-5.8|4.4|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||4.4|-5.8|
92320218|NCT00687271|184545440|OTHER||Difference in Percentage Change|-1.0|||||TWO_SIDED|95.0|-7.7|5.9|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||5.9|-7.7|
92320219|NCT00687271|184545440|OTHER||Difference in Percentage Change|5.5|||||TWO_SIDED|95.0|-4.6|16.9|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||16.9|-4.6|
92320220|NCT02453334|184545441|OTHER||Odds Ratio (OR)|0.51||||0.0143|TWO_SIDED|95.0|0.3|0.87|||Cochran-Mantel-Haenszel|||||0.87|0.30|0.0143
92320221|NCT02453334|184545441|OTHER||Percentage difference|-15.6|||||TWO_SIDED|95.0|-28.01|-3.1||||||||-3.10|-28.01|
92196381|NCT05178979|184291381|SUPERIORITY||Wald Chi-square|21.42|||<|0.001|TWO_SIDED|||||Models control for clinic, cadre, and gender and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Logistic||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
92320222|NCT02453334|184545443|OTHER||Odds Ratio (OR)|2.04||||0.0097|TWO_SIDED|95.0|1.19|3.5|||Cochran-Mantel-Haenszel|||||3.50|1.19|0.0097
92320223|NCT02453334|184545443|OTHER||Percentage difference|16.4|||||TWO_SIDED|95.0|4.19|28.51||||||Percentage difference||28.51|4.19|
92320224|NCT02453334|184545444|OTHER||Percentage difference|-2.7|||||TWO_SIDED|95.0|-12.85|7.45||||||||7.45|-12.85|
92320225|NCT02453334|184545444|OTHER||Odds Ratio (OR)|0.83||||0.5758|TWO_SIDED|95.0|0.43|1.6|||Cochran-Mantel-Haenszel|||Placebo group was used as the denominator for odds ratio calculation.||1.60|0.43|0.5758
92320226|NCT02453334|184545445|OTHER||Odds Ratio (OR)|1.4||||0.2772|TWO_SIDED|95.0|0.76|2.56||Placebo group was used as the denominator for odds ratio calculation|Cochran-Mantel-Haenszel|||||2.56|0.76|0.2772
92320227|NCT02453334|184545445|OTHER||Percentage difference|5.7|||||TWO_SIDED|95.0|-5.01|16.43||||||||16.43|-5.01|
92320228|NCT02453334|184545446|OTHER|||||||0.0011|||||||Log Rank|P-value was estimated using logrank test stratified by country||||||0.0011
92320229|NCT02453334|184545447|OTHER||Percentage difference|0.7|||||TWO_SIDED|95.0|-7.6|9.08||||||||9.08|-7.60|
92320230|NCT02453334|184545447|OTHER||Odds Ratio (OR)|1.05||||0.8924|TWO_SIDED|95.0|0.49|2.29|||Cochran-Mantel-Haenszel|||||2.29|0.49|0.8924
92320231|NCT02453334|184545448|OTHER||Percentage difference|-9.8|||||TWO_SIDED|95.0|-20.41|0.77||||||||0.77|-20.41|
92320232|NCT02453334|184545448|OTHER||Odds Ratio (OR)|0.55||||0.074|TWO_SIDED|95.0|0.28|1.06|||Cochran-Mantel-Haenszel|Placebo group was used as the denominator for odds ratio calculation.||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country. Placebo group was used as the denominator for odds ratio calculation.||1.06|0.28|0.0740
92320233|NCT02453334|184545449|OTHER||Percentage difference|-12.1|||||TWO_SIDED|95.0|-23.31|-0.91||||||||-0.91|-23.31|
92320234|NCT02453334|184545449|OTHER||Odds Ratio (OR)|0.51||||0.0446|TWO_SIDED|95.0|0.26|0.99||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Cochran-Mantel-Haenszel|Placebo group was used as the denominator for odds ratio calculation||||0.99|0.26|0.0446
92320235|NCT02453334|184545450|OTHER||Percentage difference|-19.8|||||TWO_SIDED|95.0|-30.9|-8.69||||||||-8.69|-30.90|
92196382|NCT05178979|184291381|SUPERIORITY||unstandardized beta|0.04|STANDARD_ERROR_OF_MEAN|0.14||0.81|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||update||||0.81
92196383|NCT05178979|184291381|SUPERIORITY||unstandardized beta|-0.22|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||update||||<0.001
92196384|NCT05178979|184291382|SUPERIORITY||Wald Chi-square|150.43|||<|0.001|TWO_SIDED|||||Models control for clinic, cadre, and gender and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
92196385|NCT05178979|184291382|SUPERIORITY||unstandardized beta|0.17|STANDARD_ERROR_OF_MEAN|0.05||0.002|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up|Regression, Linear|||||||0.002
92196386|NCT05178979|184291382|SUPERIORITY||unstandardized beta|0.13|STANDARD_ERROR_OF_MEAN|0.06||0.03|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up|Regression, Linear|||||||0.03
92196387|NCT05178979|184291383|SUPERIORITY||Wald Chi-square|8.72||||0.01|TWO_SIDED|||||Models control for clinic, cadre, and gender and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.01
92320236|NCT02453334|184545450|OTHER||Odds Ratio (OR)|0.3||||0.001|TWO_SIDED|95.0|0.14|0.63||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Cochran-Mantel-Haenszel|Placebo group was used as the denominator for odds ratio calculation.||||0.63|0.14|0.0010
92320237|NCT02453334|184545451|OTHER||Percentage difference|-21.4|||||TWO_SIDED|95.0|-33.22|-9.51||||||||-9.51|-33.22|
92320238|NCT02453334|184545451|OTHER||Odds Ratio (OR)|0.29||||0.0009|TWO_SIDED|95.0|0.13|0.61||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country|Cochran-Mantel-Haenszel||Placebo group was used as the denominator for odds ratio calculation.|||0.61|0.13|0.0009
92196388|NCT05178979|184291383|SUPERIORITY||unstandardized beta|0.42|STANDARD_ERROR_OF_MEAN|0.29||0.15|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||||||0.15
92196389|NCT05178979|184291383|SUPERIORITY||unstandardized beta|0.32|STANDARD_ERROR_OF_MEAN|0.12||0.008|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||||||0.008
92320239|NCT02453334|184545452|OTHER||Percentage difference|-16.0|||||TWO_SIDED|95.0|-27.73|-4.26||||||||-4.26|-27.73|
92320240|NCT02453334|184545452|OTHER||Odds Ratio (OR)|0.34||||0.0093|TWO_SIDED|95.0|0.14|0.79||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Cochran-Mantel-Haenszel||Placebo group was used as the denominator for odds ratio calculation.|||0.79|0.14|0.0093
92320241|NCT02453334|184545453|OTHER||Percentage difference|-4.4|||||TWO_SIDED|95.0|-15.37|6.57||||||||6.57|-15.37|
92320242|NCT02453334|184545453|OTHER||Odds Ratio (OR)|0.7||||0.4786|TWO_SIDED|95.0|0.26|1.89||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Cochran-Mantel-Haenszel||Placebo group was used as the denominator for odds ratio calculation.|||1.89|0.26|0.4786
92320243|NCT02453334|184545454|OTHER||Percentage difference|-7.4|||||TWO_SIDED|95.0|-19.25|4.55||||||||4.55|-19.25|
92320244|NCT02453334|184545454|OTHER||Odds Ratio (OR)|0.54||||0.2084|TWO_SIDED|95.0|0.2|1.43||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Cochran-Mantel-Haenszel||Placebo group was used as the denominator for odds ratio calculation.|||1.43|0.20|0.2084
92320245|NCT02453334|184545455|OTHER||Percentage difference|3.1|||||TWO_SIDED|95.0|-9.33|15.54||||||||15.54|-9.33|
92196390|NCT05178979|184291384|SUPERIORITY||Wald Chi-square|172.52|||<|0.001|TWO_SIDED|||||Models control for clinic and income and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
92196391|NCT05178979|184291384|SUPERIORITY||unstandardized beta|0.14|STANDARD_ERROR_OF_MEAN|0.34||0.68|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is the 6-month follow-up|Regression, Linear|Models control for clinic and income and are adjusted for multiple time points.||||||0.68
92196392|NCT05178979|184291384|SUPERIORITY||unstandardized beta|-0.83|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic and income and are adjusted for multiple time points.||||||<0.001
92196393|NCT05178979|184291385|SUPERIORITY|Models control for clinic, income, years living with HIV and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Wald Chi-square|25.27|||<|0.001|TWO_SIDED||||||Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
92320246|NCT02453334|184545455|OTHER||Odds Ratio (OR)|1.25||||0.6508|TWO_SIDED|95.0|0.48|3.24|||Cochran-Mantel-Haenszel|The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Placebo group was used as the denominator for odds ratio calculation.|||3.24|0.48|0.6508
92320247|NCT02453334|184545457|OTHER|||||||0.0063||||||P-value was estimated using logrank test stratified by pooled sites.|Log Rank|||||||0.0063
92320248|NCT02362672|184545460|SUPERIORITY||Mean Difference (Net)|-0.55||||0.0019|TWO_SIDED||||||z-test|||NKTR-181 (Double-blind Treatment Phase), Placebo (Double-blind Treatment Phase)||||0.0019
92320249|NCT01369030|184545500|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.5|STANDARD_DEVIATION|6.3||0|||||||Wilcoxon signed-rank test|||||||0.000
92320250|NCT02110758|184545525|OTHER|||||||0.025|||||||Regression, Logistic|||To estimate exposure to the intervention on the Access composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||.025
92320251|NCT02110758|184545525|OTHER|||||||0.69|||||||Regression, Logistic|||To estimate exposure to the intervention on the Affective Communication composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||0.69
92320252|NCT02110758|184545525|OTHER|||||||0.013|||||||Regression, Logistic|||To estimate exposure to the intervention on the Shared Decision-Making composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||.013
92320253|NCT02110758|184545525|OTHER|||||||0.85|||||||Regression, Logistic|||To estimate exposure to the intervention on the Patient Self-Management composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||0.85
92320254|NCT02110758|184545525|OTHER|||||||0.013|||||||Regression, Logistic|||To estimate exposure to the intervention on the Exchanging Information composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||.013
92320255|NCT02110758|184545525|OTHER|||||||0.053|||||||Regression, Logistic|||To estimate exposure to the intervention on the Overall Rating of Treatment Team composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||.053
92196394|NCT05178979|184291385|SUPERIORITY||unstandardized beta|-0.26|STANDARD_ERROR_OF_MEAN|0.16||0.1|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is the 6-month follow-up.|Regression, Linear|Models control for clinic, income, years living with HIV and are adjusted for multiple time points.||||||0.10
92196395|NCT05178979|184291385|SUPERIORITY||unstandardized beta|0.08|STANDARD_ERROR_OF_MEAN|0.14||0.54|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is the 12-month follow-up.|Regression, Linear|Models control for clinic, income, years living with HIV and are adjusted for multiple time points||||||0.54
92320256|NCT02110758|184545527|OTHER|||||||0.2|||||||Regression, Logistic|||To estimate exposure to the intervention on Per Member Per Month Hospitalizations, we used a difference-in-differences model with fixed effects for practices. The dependent variable was Per Member Per Month Hospitalizations. The intervention effects were represented by the coefficient estimates for utilization time period (baseline or follow-up) interacted with status (pilot or comparison).||||0.2
92320257|NCT02110758|184545527|OTHER|||||||0.62|||||||Regression, Logistic|||To estimate exposure to the intervention on Per Member Per Month Emergency Department (ED) Visits, we used a difference-in-differences model with fixed effects for practices. The dependent variable was Per Member Per Month ED Visits. The intervention effects were represented by the coefficient estimates for utilization time period (baseline or follow-up) interacted with status (pilot or comparison).||||0.62
92320258|NCT02110758|184545527|OTHER|||||||0.68|||||||Regression, Logistic|||To estimate exposure to the intervention on Per Member Per Month Primary Care Visits, we used a difference-in-differences model with fixed effects for practices. The dependent variable was Per Member Per Month Primary Care Visits. The intervention effects were represented by the coefficient estimates for utilization time period (baseline or follow-up) interacted with status (pilot or comparison).||||0.68
92320259|NCT02110758|184545527|OTHER|||||||0.03|||||||Regression, Logistic|||To estimate exposure to the intervention on Per Member Per Month Specialist Visits, we used a difference-in-differences model with fixed effects for practices. The dependent variable was Per Member Per Month Specialist Visits. The intervention effects were represented by the coefficient estimates for utilization time period (baseline or follow-up) interacted with status (pilot or comparison).||||0.03
92320260|NCT02074358|184545538|SUPERIORITY_OR_OTHER||mixed effect model|425.3|||<|0.001|TWO_SIDED|95.0|219.8|630.7|||Mixed Models Analysis||Treatment B versus Treatment A|The ETP change from pre-PCC baseline was analyzed using a mixed effect model that included treatment, sequence, and period as main effects. A hierarchical analysis was conducted with comparisons beginning with the primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||630.7|219.8|<0.001
92196396|NCT05178979|184291386|SUPERIORITY|Models control for clinic, gender, AUDIT score and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Wald Chi-square|36.04|||<|0.001|TWO_SIDED|||||Models control for clinic, gender, AUDIT score and are adjusted for multiple time points.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
92320261|NCT02074358|184545538|SUPERIORITY_OR_OTHER||mixed effect model|90.6||||0.131|TWO_SIDED|95.0|-31.3|212.4||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for any secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||212.4|-31.3|0.131
92320262|NCT02074358|184545539|SUPERIORITY_OR_OTHER||mixed effect model|-0.21||||0.389|TWO_SIDED|95.0|-0.73|0.3||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for other secondary endpoints since a non-significant treatment difference was observed for this first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|TGA Lag Time. ETP change from pre-PCC baseline was analyzed using a mixed effect model that included treatment, sequence, and period as main effects. A hierarchical analysis was conducted with comparisons beginning with the primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||0.30|-0.73|0.389
92320263|NCT02074358|184545539|SUPERIORITY_OR_OTHER||mixed effect model|-0.16||||0.142|TWO_SIDED|95.0|-0.38|0.06||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|Lag Time. ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||0.06|-0.38|0.142
92320264|NCT02074358|184545539|SUPERIORITY_OR_OTHER||mixed effect model|1.35||||0.2|TWO_SIDED|95.0|-0.81|3.52||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|Time to Peak. ETP change from pre-PCC baseline was analyzed using a mixed effect model that included treatment, sequence, and period as main effects. A hierarchical analysis was conducted with comparisons beginning with the primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||3.52|-0.81|0.200
92320265|NCT02074358|184545539|SUPERIORITY_OR_OTHER||mixed effect model|4.62|||<|0.001|TWO_SIDED|95.0|2.8|6.44||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|Time to Peak. ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||6.44|2.80|<0.001
92320266|NCT02074358|184545540|SUPERIORITY_OR_OTHER||mixed effect model|21.1||||0.014|TWO_SIDED|95.0|4.9|37.2||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|The ETP change from pre-PCC baseline was analyzed using a mixed effect model that included treatment, sequence, and period as main effects. A hierarchical analysis was conducted with comparisons beginning with the primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||37.2|4.9|0.014
92320267|NCT02074358|184545540|SUPERIORITY_OR_OTHER||mixed effect model|-6.4||||0.076|TWO_SIDED|95.0|-13.5|0.8||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||0.8|-13.5|0.076
92320268|NCT02074358|184545541|SUPERIORITY_OR_OTHER||mixed effect model|0.0||||0.996|TWO_SIDED|95.0|-5.6|5.6||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|The ETP change from pre-PCC baseline was analyzed using a mixed effect model that included treatment, sequence, and period as main effects. A hierarchical analysis was conducted with comparisons beginning with the primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||5.6|-5.6|0.996
92320269|NCT02074358|184545541|SUPERIORITY_OR_OTHER||mixed effect model|-6.5|||<|0.001|TWO_SIDED|95.0|-9.5|-3.6||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-3.6|-9.5|<0.001
92320270|NCT02074358|184545542|SUPERIORITY_OR_OTHER||mixed effect model|-1.64|||<|0.001|TWO_SIDED|95.0|-2.16|-1.12||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|PT (Neoplastin CI+). ETP change from pre-PCC baseline was analyzed using mixed effect model that included treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-1.12|-2.16|<0.001
92320271|NCT02074358|184545542|SUPERIORITY_OR_OTHER||mixed effect model|-1.47|||<|0.001|TWO_SIDED|95.0|-1.95|-0.99||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|PT (Neoplastin CI+). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-0.99|-1.95|<0.001
92320272|NCT02074358|184545542|SUPERIORITY_OR_OTHER||mixed effect model|-2.59|||<|0.001|TWO_SIDED|95.0|-3.3|-1.89||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|PT (Recombiplastin 2G). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-1.89|-3.30|<0.001
92196397|NCT05178979|184291386|SUPERIORITY||unstandardized beta|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.97|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, gender, AUDIT score and are adjusted for multiple time points.||||||0.97
92320273|NCT02074358|184545542|SUPERIORITY_OR_OTHER||mixed effect model|-1.89|||<|0.001|TWO_SIDED|95.0|-2.59|-1.2||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|PT (Recombiplastin 2G). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-1.20|-2.59|<0.001
92320274|NCT02074358|184545542|SUPERIORITY_OR_OTHER||mixed effect model|8.47|||<|0.001|TWO_SIDED|95.0|6.29|10.66||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|aPTT. The ETP change from pre-PCC baseline was analyzed using a mixed effect model and included treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||10.66|6.29|<0.001
92320275|NCT02074358|184545542|SUPERIORITY_OR_OTHER||mixed effect model|2.3|||<|0.001|TWO_SIDED|95.0|1.28|3.32||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|aPTT. ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||3.32|1.28|<0.001
92196398|NCT05178979|184291386|SUPERIORITY||unstandardized beta|-0.29|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, gender, AUDIT score and are adjusted for multiple time points.||||||<0.001
92196399|NCT05178979|184291387|SUPERIORITY||Wald Chi-square|9.46||||0.01|TWO_SIDED|||||Models control for clinic, gender, years living with HIV, AUDIT score and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.01
92196400|NCT05178979|184291387|SUPERIORITY||unstandardized beta|0.03|STANDARD_ERROR_OF_MEAN|0.12||0.81|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV, AUDIT score and are adjusted for multiple time points.||||||0.81
92320276|NCT02074358|184545543|SUPERIORITY_OR_OTHER||mixed effect model|-0.198|||<|0.001|TWO_SIDED|95.0|-0.266|-0.13||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|INR (Neoplastin CI+). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-0.130|-0.266|<0.001
92320277|NCT02074358|184545543|SUPERIORITY_OR_OTHER||mixed effect model|-0.17|||<|0.001|TWO_SIDED|95.0|-0.229|-0.111||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|INR (Neoplastin CI+). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-0.111|-0.229|<0.001
92320278|NCT02074358|184545543|SUPERIORITY_OR_OTHER||mixed effect model|-0.239|||<|0.001|TWO_SIDED|95.0|-0.305|-0.173||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|INR (Recombiplastin 2G). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-0.173|-0.305|<0.001
92320279|NCT02074358|184545543|SUPERIORITY_OR_OTHER||mixed effect model|-0.176|||<|0.001|TWO_SIDED|95.0|-0.242|-0.11||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|INR (Recombiplastin 2G). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-0.110|-0.242|<0.001
92320280|NCT02074358|184545544|SUPERIORITY_OR_OTHER||mixed effect models|-0.239||||0.204|TWO_SIDED|95.0|-0.625|0.146||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|Anti-Xa Activity. ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||0.146|-0.625|0.204
92320281|NCT02074358|184545544|SUPERIORITY_OR_OTHER||mixed effect models|-0.17||||0.114|TWO_SIDED|95.0|-0.389|0.048||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|Anti-Xa Activity. ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||0.048|-0.389|0.114
92320282|NCT02074358|184545554|SUPERIORITY_OR_OTHER||mixed effect model|1.039|||||TWO_SIDED|90.0|0.972|1.111|||||Treatment B versus Treatment A|Analysis used a linear mixed effect model including treatment, period, and sequence as fixed effects and within-participant measurements as repeated measures. Point estimates and 90% confidence intervals (CIs) for differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale between each PCC treatment and placebo (ie, Treatment B versus Treatment A, and Treatment C versus Treatment A). No adjustment was made for multiplicity.||1.111|0.972|
92196401|NCT05178979|184291387|SUPERIORITY||unstandardized beta|-0.25|STANDARD_ERROR_OF_MEAN|0.13||0.04|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV, AUDIT score and are adjusted for multiple time points.||||||0.04
92320283|NCT02074358|184545554|SUPERIORITY_OR_OTHER||mixed effect model|1.021|||||TWO_SIDED|90.0|0.938|1.112|||||Treatment C versus Treatment A|Analysis used a linear mixed effect model including treatment, period, and sequence as fixed effects and within-participant measurements as repeated measures. Point estimates and 90% confidence intervals (CIs) for differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale between each PCC treatment and placebo (ie, Treatment C versus Treatment A). No adjustment was made for multiplicity.||1.112|0.938|
92320284|NCT02074358|184545556|SUPERIORITY_OR_OTHER||mixed effect model|1.019|||||TWO_SIDED|90.0|0.955|1.087|||||Treatment B versus Treatment A|Analysis used a linear mixed effect model including treatment, period, and sequence as fixed effects and within-participant measurements as repeated measures. Point estimates and 90% confidence intervals (CIs) for differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale between each PCC treatment and placebo (ie, Treatment B versus Treatment A). No adjustment was made for multiplicity.||1.087|0.955|
92320285|NCT02074358|184545556|SUPERIORITY_OR_OTHER||mixed effect model|1.018|||||TWO_SIDED|90.0|0.94|1.102|||||Treatment C versus Treatment A|Analysis used a linear mixed effect model including treatment, period, and sequence as fixed effects and within-participant measurements as repeated measures. Point estimates and 90% confidence intervals (CIs) for differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale between each PCC treatment and placebo (ie, Treatment C versus Treatment A). No adjustment was made for multiplicity.||1.102|0.940|
92320286|NCT00507455|184545586|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was less than 15 cmH2O for PdetQmax, then the treatment is non-inferior to the placebo in PdetQmax.|LS Mean Difference|-6.15|||||TWO_SIDED|95.0|-14.67|2.37|||||Least squares (LS) means were analyzed using analysis of covariance (ANCOVA) with the site and treatment group as the factors and the baseline value as the covariate.|A hierarchical step-down procedure was used to control for multiplicity. The comparison between solifenacin 6 mg + tamsulosin 0.4 mg and placebo was conducted first. If non-inferiority was demonstrated, solifenacin 9 mg + tamsulosin 0.4 mg was then compared to placebo. If the first comparison did not demonstrate non-inferiority, no further testing was performed. This procedure maintained the overall type I error of 1-sided 2.5%.||2.37|-14.67|
92320287|NCT00507455|184545586|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was less than 15 cmH2O for PdetQmax, then the treatment is non-inferior to the placebo in PdetQmax.|LS Mean Difference|-5.0|||||TWO_SIDED|95.0|-13.85|3.84|||||Least squares (LS) means were analyzed using analysis of covariance (ANCOVA) with the site and treatment group as the factors and the baseline value as the covariate.|A hierarchical step-down procedure was used to control for multiplicity. The comparison between solifenacin 6 mg + tamsulosin 0.4 mg and placebo was conducted first. If non-inferiority was demonstrated, solifenacin 9 mg + tamsulosin 0.4 mg was then compared to placebo. If the first comparison did not demonstrate non-inferiority, no further testing was performed. This procedure maintained the overall type I error of 1-sided 2.5%.||3.84|-13.85|
92320288|NCT00507455|184545588|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was greater than -3 mL/sec for Qmax, then the treatment is non-inferior to the placebo in Qmax.|LS Mean Difference|1.67|||||TWO_SIDED|95.0|0.5|2.85|||||Least squares (LS) means were analyzed using analysis of covariance (ANCOVA) with the site and treatment group as the factors and the baseline value as the covariate.|A hierarchical step-down procedure was used to control for multiplicity. The comparison between solifenacin 6 mg + tamsulosin 0.4 mg and placebo was conducted first. If non-inferiority was demonstrated, solifenacin 9 mg + tamsulosin 0.4 mg was then compared to placebo. If the first comparison did not demonstrate non-inferiority, no further testing was performed. This procedure maintained the overall type I error of 1-sided 2.5%.||2.85|0.50|
92320289|NCT00507455|184545588|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was greater than -3 mL/sec for Qmax, then the treatment is non-inferior to the placebo in Qmax.|LS Mean Difference|2.18|||||TWO_SIDED|95.0|0.98|3.37|||||Least squares (LS) means were analyzed using analysis of covariance (ANCOVA) with the site and treatment group as the factors and the baseline value as the covariate.|A hierarchical step-down procedure was used to control for multiplicity. The comparison between solifenacin 6 mg + tamsulosin 0.4 mg and placebo was conducted first. If non-inferiority was demonstrated, solifenacin 9 mg + tamsulosin 0.4 mg was then compared to placebo. If the first comparison did not demonstrate non-inferiority, no further testing was performed. This procedure maintained the overall type I error of 1-sided 2.5%.||3.37|0.98|
92196402|NCT05178979|184291388|SUPERIORITY||Wald Chi-square|14.77|||<|0.001|TWO_SIDED|||||Models control for clinic, gender, years living with HIV and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
92196403|NCT05178979|184291388|SUPERIORITY||unstandardized beta|0.12|STANDARD_ERROR_OF_MEAN|0.16||0.45|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV and are adjusted for multiple time points.||||||0.45
92196404|NCT05178979|184291388|SUPERIORITY||unstandardized beta|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.02|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV and are adjusted for multiple time points.||||||0.02
92196405|NCT05178979|184291389|SUPERIORITY||Wald Chi-square|11.06||||0.004|TWO_SIDED|||||Models control for clinic, AUDIT score, food insecurity and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.004
92196406|NCT05178979|184291389|SUPERIORITY||unstandardized beta|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.35|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, AUDIT score, food insecurity and are adjusted for multiple time points.||||||0.35
92320290|NCT06110494|184545642|OTHER|Pairwise comparisons were done using Mann-Whitney U test of log10 transformed CFU reduction data to compare the antimicrobial effectiveness.||||||0.05||||||Pairwise comparisons were done using Mann-Whitney U test of log 10 transformed data to compare the antimicrobial effectiveness of Fer/H2O2 in comparison with the negative (saline) and positive (NaOCl) controls with P values set at \< 0.05|Wilcoxon (Mann-Whitney)|||The sample size estimate was calculated in Pass Software 2021, using a test that compares the ratio of two means from independent samples using data that has been log-normalized. An alpha of 0.05 and power of 80% was assumed, with means and standard deviations pulled from previous studies that employed similar methodology. This produced a required sample size of 16 for each group. Pairwise comparisons were done using Mann-Whitney U test to compare the antimicrobial effectiveness.||||0.05
92320291|NCT01605552|184545659|SUPERIORITY|||||||0.21|||||||ANCOVA||||Cohen's d = 0.61|||.21
92320292|NCT01605552|184545660|SUPERIORITY|||||||0.019|||||||ANCOVA||||Cohen's d = 1.33|||.019
92320293|NCT01605552|184545661|SUPERIORITY|||||||0.09|||||||ANCOVA||||Cohen's d = 0.78|||.09
92320294|NCT01605552|184545662|SUPERIORITY|||||||0.43|||||||ANCOVA||||Cohen's d = 0.43|||.43
92320295|NCT01737710|184545678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.082|TWO_SIDED|95.0|0.92|3.55||Null hypothesis: no difference in the percent of participants that were seroprotected against influenza B at Day 28 between the two groups.|Fisher Exact|||||3.55|0.92|0.082
92320296|NCT01737710|184545679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.801|TWO_SIDED|95.0|0.26|2.56||Null hypothesis: no difference in the percent of participants that were seroprotected against influenza H1N1 at Day 28 between the two groups|Fisher Exact|||||2.56|0.26|0.801
92320297|NCT01737710|184545680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.02||||0.177|TWO_SIDED|95.0|0.75|5.71||Null hypothesis: no difference in the percentage of participants that were seroprotected against influenza H3N2 at Day 28 between the two groups.|Fisher Exact|||||5.71|0.75|0.177
92196407|NCT05178979|184291389|SUPERIORITY||unstandardized beta|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.04|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, AUDIT score, food insecurity and are adjusted for multiple time points.||||||0.04
92196408|NCT05178979|184291390|SUPERIORITY||Wald Chi-square|2.84||||0.24|TWO_SIDED|||||Models control for clinic, gender, years living with HIV, travel time to clinic and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.24
92196409|NCT05178979|184291390|SUPERIORITY||unstandardized beta|0.02|STANDARD_ERROR_OF_MEAN|0.17||0.92|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV, travel time to clinic and are adjusted for multiple time points.||||||0.92
92320298|NCT01737710|184545681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25||||0.092|TWO_SIDED|95.0|0.96|1.61||Null hypothesis: the fold differences in geometric mean titers against influenza B are not different between the two groups.|ANCOVA|||||1.61|0.96|0.092
92320299|NCT01737710|184545682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.103|TWO_SIDED|95.0|0.32|1.11||Null hypothesis: the fold differences in geometric mean titers against influenza H1N1 are not different between the two groups.|ANCOVA|||||1.11|0.32|0.103
92320300|NCT01737710|184545683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04||||0.895|TWO_SIDED|95.0|0.6|1.8||Null hypothesis: the fold differences in geometric mean titers against influenza H3N2 are not different between the two groups.|ANCOVA|||||1.80|0.60|0.895
92320301|NCT01737710|184545684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03|||>|0.999|TWO_SIDED|95.0|0.54|1.97||Null hypothesis: no difference in the percentage of participants that were seroprotected against influenza B at Day 28 between the two groups.|Fisher Exact|||||1.97|0.54|>0.999
92320302|NCT01737710|184545685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.253|TWO_SIDED|95.0|0.09|1.63||Null hypothesis: no difference in the percentage of participants that were seroprotected against influenza H1N1 at Day 28 between the two groups.|Fisher Exact|||||1.63|0.09|0.253
92320303|NCT01737710|184545686|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.218|TWO_SIDED|95.0|0.06|1.58||Null hypothesis: no difference in the percentage of participants that were seroprotected against influenza H3N2 at Day 28 between the two groups.|Fisher Exact|||||1.58|0.06|0.218
92320304|NCT01737710|184545687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.14|TWO_SIDED|95.0|0.84|2.94||Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza B at Day 28 between the two groups.|Fisher Exact|||||2.94|0.84|0.140
92320305|NCT01737710|184545688|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.791|TWO_SIDED|95.0|0.24|2.65||Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza H1N1 at Day 28 between the two groups.|Fisher Exact|||||2.65|0.24|0.791
92320306|NCT01737710|184545689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.833|TWO_SIDED|95.0|0.47|2.92||Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza H3N2 at Day 28 between the two groups.|Fisher Exact|||||2.92|0.47|0.833
92320307|NCT01737710|184545690|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.378|TWO_SIDED|95.0|0.4|1.38||Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza B at Day 28 between the two groups.|Fisher Exact|||||1.38|0.40|0.378
92196410|NCT05178979|184291390|SUPERIORITY||unstandardized beta|-0.21|STANDARD_ERROR_OF_MEAN|0.16||0.21|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV, travel time to clinic and are adjusted for multiple time points.||||||0.21
92196411|NCT00817336|184291391|SUPERIORITY_OR_OTHER||Cohen's d|0.8||||0.02|TWO_SIDED||||||Mixed Models Analysis|||||||0.02
92196412|NCT00817336|184291392|SUPERIORITY||Cohen's d|2.3||||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||0.001
92196413|NCT00817336|184291393|SUPERIORITY_OR_OTHER||Cohen's d|0.41||||0.31|TWO_SIDED||||||Mixed Models Analysis|||||||.31
92320308|NCT01737710|184545691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.783|TWO_SIDED|95.0|0.21|2.62||Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza H1N1 at Day 28 between the two groups.|Fisher Exact|||||2.62|0.21|0.783
92320309|NCT01737710|184545692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.45||||0.143|TWO_SIDED|95.0|0.13|1.39|||Fisher Exact|Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza H3N2 at Day 28 between the two groups.||||1.39|0.13|0.143
92320310|NCT03935425|184545693|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
92320311|NCT00885664|184545695|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||0.45
92320312|NCT00885664|184545696|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92320313|NCT00885664|184545697|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
92320314|NCT00885664|184545698|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||0.81
92320315|NCT00885664|184545699|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||||||0.99
92320316|NCT00885664|184545700|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92320317|NCT00885664|184545701|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92320318|NCT00885664|184545702|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92320319|NCT00885664|184545703|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92320320|NCT00885664|184545704|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
92320321|NCT00885664|184545705|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
92320322|NCT01342770|184545706|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon Signed Rank|||||||0.06
92320323|NCT00921557|184545721|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Comparison of percent change from baseline to week 24||||<0.001
92320324|NCT00921557|184545721|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||Comparison of percent change from baseline to week 48||||<0.001
92320325|NCT00921557|184545722|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||||||Not adjusted for multiple comparisons|Fisher Exact|||Comparison of percentage of participants experiencing primary safety outcome||||>0.99
92320326|NCT00086138|184545759|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.98|TWO_SIDED|95.0|0.52|1.97|||Chi-squared|||The statistical analyses compared data collected from the CGIC of participants who received sertraline who had a score equal to or better than the CGIC of participants who received the placebo intervention.||1.97|0.52|0.98
92320327|NCT00086138|184545760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.11|TWO_SIDED|95.0|0.84|5.04|||Chi-squared|||||5.04|0.84|0.11
92320328|NCT02589639|184545797|SUPERIORITY|The superiority of empagliflozin 10 mg against placebo was tested for change from baseline in HbA1c after 16 weeks of treatment at the level of α=0.05 (2-sided)|Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.11|-0.73|||ANCOVA|Analysis of Covariance (ANCOVA) comparing the change from baseline in HbA1c after 16 weeks of treatment||"The statistical model was:~Change from baseline in HbA1c after 16 weeks = overall mean + baseline HbA1c + treatment + baseline renal function + type of insulin therapies + random error"|Adjusted Mean Difference calculated as (Empagliflozin 10 mg - Placebo)|-0.73|-1.11|<0.0001
92320329|NCT02589639|184545797|SUPERIORITY|The superiority of empagliflozin 25 mg against placebo was tested for change from baseline in HbA1c after 16 weeks of treatment at the level of α=0.05 (2-sided)|Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.18|-0.82|||ANCOVA|Analysis of Covariance (ANCOVA) comparing the change from baseline in HbA1c after 16 weeks of treatment|Adjusted Mean Difference calculated as (Empagliflozin 10 mg - Placebo)|The statistical model was: Change from baseline in HbA1c after 16 weeks = overall mean + baseline HbA1c + treatment + baseline renal function + type of insulin therapies + random error||-0.82|-1.18|<0.0001
92320330|NCT01014169|184545799|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.13|||||TWO_SIDED|95.0|0.95|1.34||||||||1.34|0.95|
92320331|NCT01014169|184545800|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.99|1.25||||||||1.25|0.99|
92320332|NCT01014169|184545801|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.12||||||95.0|1.0|1.25||||||||1.25|1.00|
92320333|NCT04873934|184545842|SUPERIORITY||LS mean difference|-46.9|||<|0.001|TWO_SIDED|97.5|-55.4|-38.5|||Mixed Models Analysis|||||-38.5|-55.4|< 0.001
92320334|NCT04873934|184545843|SUPERIORITY||Odds Ratio (OR)|5.42|||<|0.001|TWO_SIDED|97.5|3.29|8.91|||Regression, Logistic|||||8.91|3.29|< 0.001
92320335|NCT04873934|184545844|SUPERIORITY||LS mean difference|-42.0|||<|0.001|TWO_SIDED|95.0|-47.3|-36.7|||Mixed Models Analysis|||Day 90||-36.7|-47.3|< 0.001
92320336|NCT04873934|184545844|SUPERIORITY||LS mean difference|-30.8|||<|0.001|TWO_SIDED|95.0|-37.4|-24.3|||Mixed Models Analysis|||Day 270||-24.3|-37.4|< 0.001
92320337|NCT04873934|184545844|SUPERIORITY||LS mean difference|-37.7|||<|0.001|TWO_SIDED|95.0|-44.5|-31.0|||Mixed Models Analysis|||Day 330||-31.0|-44.5|< 0.001
92320338|NCT04873934|184545845|SUPERIORITY||LS mean difference|-46.7|||<|0.001|TWO_SIDED|95.0|-52.7|-40.8|||ANCOVA|||||-40.8|-52.7|< 0.001
92320339|NCT04873934|184545846|SUPERIORITY||LS mean difference|-37.3|||<|0.001|TWO_SIDED|95.0|-42.4|-32.2|||ANCOVA|||||-32.2|-42.4|< 0.001
92320340|NCT04873934|184545847|SUPERIORITY||Odds Ratio (OR)|11.87|||<|0.001|TWO_SIDED|95.0|6.33|22.25|||Regression, Logistic|||||22.25|6.33|< 0.001
92320341|NCT04873934|184545848|SUPERIORITY||Odds Ratio (OR)|4.38|||<|0.001|TWO_SIDED|95.0|1.92|9.99|||Regression, Logistic|||Achieving LDL-C \< 100 mg/dL||9.99|1.92|< 0.001
92320342|NCT04873934|184545848|SUPERIORITY||Odds Ratio (OR)|8.24|||<|0.001|TWO_SIDED|95.0|4.97|13.65|||Regression, Logistic|||Achieving LDL-C \< 55 mg/dL||13.65|4.97|< 0.001
92320343|NCT04873934|184545849|SUPERIORITY||LS mean difference|-37.5|||<|0.001|TWO_SIDED|95.0|-44.8|-30.3|||Mixed Models Analysis|||Apolipoprotein B||-30.3|-44.8|< 0.001
92320344|NCT04873934|184545849|SUPERIORITY||LS mean difference|-6.4||||0.188|TWO_SIDED|95.0|-16.0|3.1|||Mixed Models Analysis|||VLDL Cholesterol||3.1|-16.0|0.188
92320345|NCT04873934|184545849|SUPERIORITY||LS mean difference|-37.7|||<|0.001|TWO_SIDED|95.0|-44.0|-31.4|||Mixed Models Analysis|||Non-HDL Cholesterol||-31.4|-44.0|< 0.001
92320346|NCT04873934|184545849|SUPERIORITY||LS mean difference|-25.5|||<|0.001|TWO_SIDED|95.0|-30.2|-20.7|||Mixed Models Analysis|||Total Cholesterol||-20.7|-30.2|< 0.001
92320347|NCT04873934|184545849|SUPERIORITY||LS mean difference|-16.4||||0.145|TWO_SIDED|95.0|-38.4|5.7|||Mixed Models Analysis|||Lipoprotein(a)||5.7|-38.4|0.145
92196414|NCT00817336|184291394|SUPERIORITY||Cohen's d|0.41||||0.41|TWO_SIDED||||||Mixed Models Analysis|||||||.41
92196415|NCT03311269|184291398|OTHER|The null hypothesis is that the mean change from baseline for the primary efficacy endpoint=0. The alternative hypothesis is that the mean change does not =0. The primary analysis will be a one-sample t-test for both treatment groups combined, to test the null hypothesis that the mean change from baseline equals 0. Primary analysis will be performed for each treatment group separately.|Mean Difference (Final Values)|-4.2|||<|0.001|TWO_SIDED|95.0|-6.2|-2.3||This p-value corresponds to the change from Baseline to Week 12 for both treatment groups (ClariVein RES 1% Injection and ClariVein RES 3% Injection) combined.|t-test, 2 sided|One-Sample||Continuous variables summarized using descriptive statistics, specifically the mean, median, standard deviation, minimum and maximum. Categorical variables summarized using frequencies and percentages. All statistical tests will be performed at the 0.05 significance level (p -value ≤ 0.050) unless otherwise indicated. For efficacy analyses, missing post-treatment data will be imputed using last observation carried forward (LOCF). Missing safety data will not be imputed.||-2.3|-6.2|<0.001
92320348|NCT04873934|184545849|SUPERIORITY||LS mean difference|3.5||||0.141|TWO_SIDED|95.0|-1.2|8.1|||Mixed Models Analysis|||HDL Cholesterol||8.1|-1.2|0.141
92320349|NCT04873934|184545849|SUPERIORITY||LS mean difference|-5.0||||0.339|TWO_SIDED|95.0|-15.2|5.3|||Mixed Models Analysis|||Triglycerides||5.3|-15.2|0.339
92320350|NCT04873934|184545850|SUPERIORITY||LS mean difference|-28.4|||<|0.001|TWO_SIDED|95.0|-33.0|-23.9|||Mixed Models Analysis|||Apolipoprotein B||-23.9|-33.0|< 0.001
92320351|NCT04873934|184545850|SUPERIORITY||LS mean difference|-2.1||||0.078|TWO_SIDED|95.0|-4.5|0.2|||Mixed Models Analysis|||VLDL Cholesterol||0.2|-4.5|0.078
92320352|NCT04873934|184545850|SUPERIORITY||LS mean difference|-40.1|||<|0.001|TWO_SIDED|95.0|-47.5|-32.8|||Mixed Models Analysis|||Non-HDL Cholesterol||-32.8|-47.5|< 0.001
92320353|NCT04873934|184545850|SUPERIORITY||LS mean difference|-37.7|||<|0.001|TWO_SIDED|95.0|-45.3|-30.2|||Mixed Models Analysis|||Total Cholesterol||-30.2|-45.3|< 0.001
92320354|NCT04873934|184545850|SUPERIORITY||LS mean difference|1.9||||0.065|TWO_SIDED|95.0|-0.1|3.8|||Mixed Models Analysis|||HDL Cholesterol||3.8|-0.1|0.065
92320355|NCT04873934|184545850|SUPERIORITY||LS mean difference|-8.7||||0.222|TWO_SIDED|95.0|-22.8|5.3|||Mixed Models Analysis|||Triglycerides||5.3|-22.8|0.222
92320356|NCT04873934|184545851|SUPERIORITY||LS mean difference|-14.0||||0.005|TWO_SIDED|95.0|-23.8|-4.2|||Mixed Models Analysis|||Lipoprotein(a)||-4.2|-23.8|0.005
92320357|NCT04873934|184545852|SUPERIORITY||Odds Ratio (OR)|0.43||||0.031|TWO_SIDED|95.0|0.2|0.93|||proportional odds model|||||0.93|0.20|0.031
92320358|NCT04873934|184545853|SUPERIORITY||LS mean difference|-0.039||||0.043|TWO_SIDED|95.0|-0.077|-0.001|||ANCOVA|||||-0.001|-0.077|0.043
92320359|NCT04873934|184545854|SUPERIORITY||Odds Ratio (OR)|0.76||||0.346|TWO_SIDED|95.0|0.43|1.35|||Regression, Logistic|||||1.35|0.43|0.346
92320360|NCT01022307|184545904|NON_INFERIORITY_OR_EQUIVALENCE|Power analysis showed that the effect size was small, with a 50% chance of detecting a p \< 0.05 effect requiring 247 subjects.|||||<|0.04|TWO_SIDED||||||F-test|Greenhouse Geisser correction.||F-test evaluating effects of Group||||< 0.04
92320361|NCT04015518|184545912|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-10.5|STANDARD_ERROR_OF_MEAN|8.5||0.2179|TWO_SIDED|95.0|-27.4|6.3|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||6.3|-27.4|0.2179
92320362|NCT04015518|184545912|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-14.6|STANDARD_ERROR_OF_MEAN|8.5||0.0883|TWO_SIDED|95.0|-31.5|2.2|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||2.2|-31.5|0.0883
92320363|NCT04015518|184545912|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-12.6|STANDARD_ERROR_OF_MEAN|8.5||0.1414|TWO_SIDED|95.0|-29.4|4.3|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||4.3|-29.4|0.1414
92320364|NCT04015518|184545912|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-5.3|STANDARD_ERROR_OF_MEAN|7.0||0.4514|TWO_SIDED|95.0|-19.1|8.6|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||8.6|-19.1|0.4514
92320365|NCT04015518|184545912|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.212||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.2120
92196416|NCT03311269|184291398|OTHER|The null hypothesis is that the mean change from baseline for the primary efficacy endpoint=0. The alternative hypothesis is that the mean change does not =0. The primary analysis will be a one-sample t-test for both treatment groups combined, to test the null hypothesis that the mean change from baseline equals 0. Primary analysis will be performed for each treatment group separately.|Mean Difference (Final Values)|-3.4||||0.011|TWO_SIDED|95.0|-5.8|-1.0||This p-value corresponds to the change from Baseline to Week 12 for the ClariVein RES 1% Injection treatment group.|t-test, 2 sided|One-Sample||All statistical tests will be performed at the 0.05 significance level (p -value ≤ 0.050) unless otherwise indicated.||-1.0|-5.8|0.011
92196417|NCT03311269|184291398|OTHER|The null hypothesis is that the mean change from baseline for the primary efficacy endpoint=0. The alternative hypothesis is that the mean change does not =0. The primary analysis will be a one-sample t-test for both treatment groups combined, to test the null hypothesis that the mean change from baseline equals 0. Primary analysis will be performed for each treatment group separately.|Mean Difference (Final Values)|-5.1||||0.01|TWO_SIDED|95.0|-8.7|-1.6||This p-value corresponds to the change from Baseline to Week 12 for the ClariVein RES 3% Injection treatment group.|t-test, 2 sided|One-Sample||All statistical tests will be performed at the 0.05 significance level (p -value ≤ 0.050) unless otherwise indicated.||-1.6|-8.7|0.010
92196418|NCT03311269|184291398|OTHER|An ANCOVA was performed to compare the change from baseline for ClariVein RES 1% Injection versus ClariVein RES 3% Injection with treatment as the class variable and with baseline score as the covariate|Least-Squares Mean Difference|-1.2||||0.531|TWO_SIDED|95.0|-3.7|1.3||This p-value corresponds to the difference between treatment groups (ClariVein RES 1% Injection versus ClariVein RES 3% Injection).|ANCOVA|||All statistical tests will be performed at the 0.05 significance level (p -value ≤ 0.050) unless otherwise indicated.||1.3|-3.7|0.531
92196419|NCT03311269|184291399|OTHER||Descriptive (Percentage)|94.4|||||TWO_SIDED|95.0|72.7|99.9|||||The count of the combined treatment group for the elimination of saphenous vein reflux at Week 12 posttreatment is 17/18 (94.4%).|The secondary efficacy endpoint, the elimination of saphenous vein reflux at Week 12 posttreatment, will be summarized for both treatments combined using the count and percentage, together with a 95% Wilson (score) confidence interval for the proportion.||99.9|72.7|
92196420|NCT03311269|184291399|OTHER||Percentage Difference|11.1||||1|TWO_SIDED|95.0|-20.5|42.8||All statistical tests will be performed at the 0.05 significance level (p -value ≤ 0.050) unless otherwise indicated.|Chi-squared|||For elimination of saphenous vein reflux at Week 12 posttreatment, the treatment difference for ClariVein RES 1% Injection versus ClariVein RES 3% Injection for the proportion was assessed by a chi-square test together with a 95% Wilson (score) confidence interval for the treatment difference.||42.8|-20.5|1.000
92196421|NCT03845075|184291412|SUPERIORITY||LS Mean Difference|3.6||||0.4671|TWO_SIDED|95.0|-6.58|13.78||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 4; Safety set; LOCF||13.78|-6.58|0.4671
92196422|NCT03845075|184291412|SUPERIORITY||LS Mean Difference|10.11||||0.1808|TWO_SIDED|95.0|-5.14|25.36||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 8; Safety set; LOCF||25.36|-5.14|0.1808
92196423|NCT03845075|184291412|SUPERIORITY||LS Mean Difference|4.63||||0.4171|TWO_SIDED|95.0|-7.08|16.33||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 12; Safety set; LOCF||16.33|-7.08|0.4171
92196424|NCT03845075|184291412|SUPERIORITY||LS Mean Difference|5.33||||0.3116|TWO_SIDED|95.0|-5.43|16.1||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 16; Safety set; LOCF||16.10|-5.43|0.3116
92196425|NCT03845075|184291412|SUPERIORITY||LS Mean Difference|5.8||||0.2353|TWO_SIDED|95.0|-4.12|15.72||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 20; Safety set; LOCF||15.72|-4.12|0.2353
92196426|NCT03845075|184291412|SUPERIORITY||LS Mean Difference|5.86||||0.3037|TWO_SIDED|95.0|-5.76|17.48||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24; Safety set; LOCF||17.48|-5.76|0.3037
92196427|NCT03845075|184291413|SUPERIORITY||LS Mean Difference|-1.31||||0.6543|TWO_SIDED|95.0|-7.33|4.72||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 4; Safety set; LOCF||4.72|-7.33|0.6543
92196428|NCT03845075|184291413|SUPERIORITY||LS Mean Difference|0.94||||0.7941|TWO_SIDED|95.0|-6.5|8.38||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 8; Safety set; LOCF||8.38|-6.50|0.7941
92196429|NCT03845075|184291413|SUPERIORITY||LS Mean Difference|-2.0||||0.5937|TWO_SIDED|95.0|-9.72|5.73||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 12; Safety set; LOCF||5.73|-9.72|0.5937
92196430|NCT03845075|184291413|SUPERIORITY||LS Mean Difference|2.56||||0.5423|TWO_SIDED|95.0|-6.11|11.23||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 16; Safety set; LOCF||11.23|-6.11|0.5423
92196431|NCT03845075|184291413|SUPERIORITY||LS Mean Difference|1.2||||0.7226|TWO_SIDED|95.0|-5.77|8.16||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 20; Safety set; LOCF||8.16|-5.77|0.7226
92320366|NCT04015518|184545912|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.1057||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1057
92320367|NCT04015518|184545912|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.5241||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.5241
92320368|NCT04015518|184545912|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.2773||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.2773
92320369|NCT04015518|184545912|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.3867||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.3867
92320370|NCT04015518|184545913|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-6.1|STANDARD_ERROR_OF_MEAN|6.7|||TWO_SIDED|95.0|-19.3|7.1|||||Difference was calculated as Speso - placebo.|||7.1|-19.3|
92196432|NCT03845075|184291413|SUPERIORITY||LS Mean Difference|1.15||||0.7912|TWO_SIDED|95.0|-7.85|10.16||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24; Safety set; LOCF||10.16|-7.85|0.7912
92196433|NCT03845075|184291414|SUPERIORITY||LS Mean Difference|-1.35||||0.7023|TWO_SIDED|95.0|-8.67|5.97||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 4; Safety set; LOCF||5.97|-8.67|0.7023
92196434|NCT03845075|184291414|SUPERIORITY||LS Mean Difference|-0.48||||0.9012|TWO_SIDED|95.0|-8.58|7.61||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 8; Safety set; LOCF||7.61|-8.58|0.9012
92196435|NCT03845075|184291414|SUPERIORITY||LS Mean Difference|2.14||||0.6138|TWO_SIDED|95.0|-6.63|10.92||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 12; Safety set; LOCF||10.92|-6.63|0.6138
92196436|NCT03845075|184291414|SUPERIORITY||LS Mean Difference|1.23||||0.7889|TWO_SIDED|95.0|-8.26|10.72||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 16; Safety set; LOCF||10.72|-8.26|0.7889
92196437|NCT03845075|184291414|SUPERIORITY||LS Mean Difference|0.3||||0.9536|TWO_SIDED|95.0|-10.34|10.94||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 20; Safety set; LOCF||10.94|-10.34|0.9536
92196438|NCT03845075|184291414|SUPERIORITY||LS Mean Difference|2.7||||0.5551|TWO_SIDED|95.0|-6.72|12.12||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24; Safety set; LOCF||12.12|-6.72|0.5551
92320371|NCT04015518|184545913|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-5.4|STANDARD_ERROR_OF_MEAN|6.8|||TWO_SIDED|95.0|-18.8|8.0|||||Difference was calculated as Speso - placebo.|||8.0|-18.8|
92320372|NCT04015518|184545913|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-3.5|STANDARD_ERROR_OF_MEAN|6.6|||TWO_SIDED|95.0|-16.6|9.7|||||Difference was calculated as Speso - placebo.|||9.7|-16.6|
92320373|NCT04015518|184545913|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-9.4|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|-20.3|1.4|||||Difference was calculated as Speso - placebo.|||1.4|-20.3|
92320374|NCT04015518|184545914|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-4.1|STANDARD_ERROR_OF_MEAN|6.9||0.5595|TWO_SIDED|95.0|-17.7|9.6|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||9.6|-17.7|0.5595
92320375|NCT04015518|184545914|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|0.9|STANDARD_ERROR_OF_MEAN|6.9||0.8968|TWO_SIDED|95.0|-12.7|14.5|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||14.5|-12.7|0.8968
92320376|NCT04015518|184545914|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-4.2|STANDARD_ERROR_OF_MEAN|6.9||0.5456|TWO_SIDED|95.0|-17.9|9.5|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||9.5|-17.9|0.5456
92196439|NCT03845075|184291418|SUPERIORITY||LS Mean Difference|-2.52||||0.7782|TWO_SIDED|95.0|-21.23|16.2||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24||16.20|-21.23|0.7782
92196440|NCT03845075|184291418|SUPERIORITY||LS Mean Difference|-7.26||||0.313|TWO_SIDED|95.0|-22.09|7.56||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48||7.56|-22.09|0.3130
92196441|NCT03845075|184291418|SUPERIORITY||LS Mean Difference|-5.73||||0.4033|TWO_SIDED|95.0|-19.92|8.47||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 48||8.47|-19.92|0.4033
92196442|NCT03845075|184291419|SUPERIORITY||LS Mean Difference|-7.5||||0.0325|TWO_SIDED|95.0|-14.29|-0.71||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24||-0.71|-14.29|0.0325
92196443|NCT03845075|184291419|SUPERIORITY||LS Mean Difference|-0.32||||0.9394|TWO_SIDED|95.0|-9.04|8.4||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48||8.40|-9.04|0.9394
92196444|NCT03845075|184291419|SUPERIORITY||LS Mean Difference|6.91||||0.0135|TWO_SIDED|95.0|1.65|12.18||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 28||12.18|1.65|0.0135
92320377|NCT04015518|184545914|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-7.7|STANDARD_ERROR_OF_MEAN|5.7||0.1762|TWO_SIDED|95.0|-19.0|3.5|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||3.5|-19.0|0.1762
92196445|NCT03845075|184291420|SUPERIORITY||LS Mean Difference|-4.17||||0.1048|TWO_SIDED|95.0|-9.31|0.98||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed.||0.98|-9.31|0.1048
92320378|NCT04015518|184545914|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.1726||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1726
92320379|NCT04015518|184545914|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.2353||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.2353
92320380|NCT04015518|184545914|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.1346||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1346
92320381|NCT04015518|184545914|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.195||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1950
92320382|NCT04015518|184545914|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.1681||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1681
92320383|NCT04015518|184545915|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2812|TWO_SIDED|95.0|-1.8|0.5|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||0.5|-1.8|0.2812
92320384|NCT04015518|184545915|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-0.6|STANDARD_ERROR_OF_MEAN|0.6||0.3357|TWO_SIDED|95.0|-1.7|0.6|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||0.6|-1.7|0.3357
92320385|NCT04015518|184545915|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-0.8|STANDARD_ERROR_OF_MEAN|0.6||0.1809|TWO_SIDED|95.0|-2.0|0.4|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||0.4|-2.0|0.1809
92196446|NCT03845075|184291420|SUPERIORITY||LS Mean Difference|-0.99||||0.7189|TWO_SIDED|95.0|-6.75|4.77||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48; mITT observed.||4.77|-6.75|0.7189
92320386|NCT04015518|184545915|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.8322|TWO_SIDED|95.0|-1.1|0.9|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||0.9|-1.1|0.8322
92320387|NCT04015518|184545915|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.4035||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.4035
92196447|NCT03845075|184291420|SUPERIORITY||LS Mean Difference|3.09||||0.1053|TWO_SIDED|95.0|-0.73|6.91||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 48; mITT observed.||6.91|-0.73|0.1053
92196448|NCT03845075|184291421|SUPERIORITY||LS Mean Difference|-3.12||||0.0033|TWO_SIDED|95.0|-5.02|-1.21||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed||-1.21|-5.02|0.0033
92320388|NCT04015518|184545915|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.2563||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.2563
92320389|NCT04015518|184545915|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.681||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.6810
92320390|NCT04015518|184545915|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.4665||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.4665
92320391|NCT04015518|184545915|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.5565||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.5565
92320392|NCT04015518|184545916|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.042|||||TWO_SIDED|95.0|-0.17|0.281|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.281|-0.170|
92196449|NCT03845075|184291421|SUPERIORITY||LS Mean Difference|0.58||||0.6663|TWO_SIDED|95.0|-2.24|3.41||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48; mITT LOCF||3.41|-2.24|0.6663
92320393|NCT04015518|184545916|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.195|||||TWO_SIDED|95.0|-0.048|0.432|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.432|-0.048|
92320394|NCT04015518|184545916|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.27|||||TWO_SIDED|95.0|0.02|0.496|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.496|0.020|
92320395|NCT04015518|184545916|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.129|||||TWO_SIDED|95.0|-0.067|0.314|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.314|-0.067|
92320396|NCT04015518|184545916|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0613||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0613
92196450|NCT03845075|184291421|SUPERIORITY||LS Mean Difference|3.59||||0.0058|TWO_SIDED|95.0|1.21|5.98||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 48; mITT LOCF||5.98|1.21|0.0058
92196451|NCT03845075|184291422|SUPERIORITY||LS Mean Difference|-3.02||||0.0713|TWO_SIDED|95.0|-6.34|0.3||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed||0.30|-6.34|0.0713
92196452|NCT03845075|184291422|SUPERIORITY||LS Mean Difference|-2.48||||0.1457|TWO_SIDED|95.0|-5.92|0.96||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48; mITT LOCF||0.96|-5.92|0.1457
92196453|NCT03845075|184291422|SUPERIORITY||LS Mean Difference|0.85||||0.1837|TWO_SIDED|95.0|-0.45|2.15||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 48; mITT LOCF||2.15|-0.45|0.1837
92196454|NCT03845075|184291423|SUPERIORITY||LS Mean Difference|-0.05||||0.7926|TWO_SIDED|95.0|-0.42|0.33||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT LOCF||0.33|-0.42|0.7926
92196455|NCT03845075|184291423|SUPERIORITY||LS Mean Difference|-0.27||||0.2124|TWO_SIDED|95.0|-0.72|0.17||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48; mITT LOCF||0.17|-0.72|0.2124
92196456|NCT03845075|184291423|SUPERIORITY||LS Mean Difference|-0.14||||0.6084|TWO_SIDED|95.0|-0.72|0.43||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 48; mITT LOCF||0.43|-0.72|0.6084
92196457|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|16.0||||0.0905|TWO_SIDED|95.0|-2.85|34.85||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to week 24; mITT observed. (Like to eat something fatty)||34.85|-2.85|0.0905
92196458|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|6.65||||0.6285|TWO_SIDED|95.0|-22.05|35.36||P-value from ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed. (Like some meat/fish)||35.36|-22.05|0.6285
92320397|NCT04015518|184545916|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0628||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0628
92320398|NCT04015518|184545916|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.1449||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1449
92320399|NCT04015518|184545916|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.046||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0460
92320400|NCT04015518|184545916|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0677||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0677
92320401|NCT04015518|184545917|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.063|||||TWO_SIDED|95.0|-0.069|0.256|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.256|-0.069|
92196459|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|-6.81||||0.5884|TWO_SIDED|95.0|-33.05|19.43||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed. (Eat something salty).||19.43|-33.05|0.5884
92196460|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|2.98||||0.8533|TWO_SIDED|95.0|-30.73|36.68||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed. (Eat something sweet).||36.68|-30.73|0.8533
92196461|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|-17.33||||0.1529|TWO_SIDED|95.0|-41.87|7.2||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Like to eat something fatty).||7.20|-41.87|0.1529
92196462|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|-11.75||||0.3399|TWO_SIDED|95.0|-37.15|13.65||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Like some meat/fish).||13.65|-37.15|0.3399
92196463|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|-23.95||||0.0673|TWO_SIDED|95.0|-49.84|1.93||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Eat something salty).||1.93|-49.84|0.0673
92320402|NCT04015518|184545917|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.188|||||TWO_SIDED|95.0|0.018|0.405|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.405|0.018|
92320403|NCT04015518|184545917|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.102|||||TWO_SIDED|95.0|-0.042|0.303|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.303|-0.042|
92320404|NCT04015518|184545917|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.113|||||TWO_SIDED|95.0|-0.018|0.25|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.250|-0.018|
92320405|NCT04015518|184545917|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0536||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0536
92320406|NCT04015518|184545917|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0476||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0476
92320407|NCT04015518|184545917|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.1076||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1076
92196464|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|-22.6||||0.1657|TWO_SIDED|95.0|-55.65|10.46||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Eat something sweet).||10.46|-55.65|0.1657
92196465|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|-30.18||||0.0108|TWO_SIDED|95.0|-52.31|-8.06||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Like to eat something fatty).||-8.06|-52.31|0.0108
92196466|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|-14.79||||0.171|TWO_SIDED|95.0|-36.71|7.13||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Like some meat/fish).||7.13|-36.71|0.1710
92320408|NCT04015518|184545917|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0606||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0606
92196467|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|-19.86||||0.0083|TWO_SIDED|95.0|-33.8|-5.93||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Eat something salty).||-5.93|-33.80|0.0083
92320409|NCT04015518|184545917|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0824||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0824
92320410|NCT04015518|184545918|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.211|||||TWO_SIDED|95.0|0.04|0.422|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.422|0.040|
92320411|NCT04015518|184545918|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.13|||||TWO_SIDED|95.0|-0.018|0.339|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.339|-0.018|
92320412|NCT04015518|184545918|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.125|||||TWO_SIDED|95.0|-0.022|0.328|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.328|-0.022|
92320413|NCT04015518|184545918|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.144|||||TWO_SIDED|95.0|0.009|0.282|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.282|0.009|
92320414|NCT04015518|184545918|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0333||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0333
92320415|NCT04015518|184545918|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0221||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regime"||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0221
92320416|NCT04015518|184545918|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0707||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0707
92196468|NCT03845075|184291424|SUPERIORITY||LS Mean Difference|-22.98||||0.0631|TWO_SIDED|95.0|-47.39|1.43||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Eat something sweet).||1.43|-47.39|0.0631
92196469|NCT03845075|184291425|SUPERIORITY||LS Mean Difference|-2.56||||0.8082|TWO_SIDED|95.0|-24.65|19.53||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT observed.||19.53|-24.65|0.8082
92196470|NCT03845075|184291425|SUPERIORITY||LS Mean Difference|-1.42||||0.9034|TWO_SIDED|95.0|-25.94|23.1||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF.||23.10|-25.94|0.9034
92196471|NCT03845075|184291425|SUPERIORITY||LS Mean Difference|-7.0||||0.4658|TWO_SIDED|95.0|-26.93|12.93||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF.||12.93|-26.93|0.4658
92196472|NCT03845075|184291426|SUPERIORITY||LS Mean Difference|-5.68||||0.0537|TWO_SIDED|95.0|-11.46|0.1||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT LOCF.||0.10|-11.46|0.0537
92196473|NCT03845075|184291426|SUPERIORITY||LS Mean Difference|-2.69||||0.3772|TWO_SIDED|95.0|-8.98|3.61||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF.||3.61|-8.98|0.3772
92196474|NCT03845075|184291426|SUPERIORITY||LS Mean Difference|3.03||||0.1171|TWO_SIDED|95.0|-0.85|6.91||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF.||6.91|-0.85|0.1171
92196475|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|-0.05||||0.8623|TWO_SIDED|95.0|-0.59|0.5||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT observed. (Change in total cholesterol)||0.50|-0.59|0.8623
92196476|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|0.03||||0.8327|TWO_SIDED|95.0|-0.25|0.3||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT observed. (Change in HDL cholesterol)||0.30|-0.25|0.8327
92196477|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|-0.06||||0.808|TWO_SIDED|95.0|-0.53|0.42||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT observed. (Change in LDL cholesterol)||0.42|-0.53|0.8080
92196478|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|0.22||||0.5791|TWO_SIDED|95.0|-0.62|1.07|||ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT observed. (Change in triglycerides)||1.07|-0.62|0.5791
92196479|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|0.03||||0.9337|TWO_SIDED|95.0|-0.71|0.77||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Change in cholesterol)||0.77|-0.71|0.9337
92196480|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|0.01||||0.9305|TWO_SIDED|95.0|-0.21|0.23||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Change in HDL cholesterol)||0.23|-0.21|0.9305
92196481|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|0.09||||0.691|TWO_SIDED|95.0|-0.4|0.59||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Change in LDL cholesterol)||0.59|-0.40|0.6910
92196482|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|0.35||||0.2688|TWO_SIDED|95.0|-0.3|1.01||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Change in triglycerides)||1.01|-0.30|0.2688
92196483|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|0.06||||0.8262|TWO_SIDED|95.0|-0.54|0.67||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Change in cholesterol)||0.67|-0.54|0.8262
92196484|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|-0.02||||0.8293|TWO_SIDED|95.0|-0.2|0.17||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Change in HDL cholesterol)||0.17|-0.20|0.8293
92196485|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|0.11||||0.5486|TWO_SIDED|95.0|-0.27|0.49||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Change in LDL cholesterol)||0.49|-0.27|0.5486
92196486|NCT03845075|184291427|SUPERIORITY||LS Mean Difference|0.24||||0.3226|TWO_SIDED|95.0|-0.26|0.75||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Change in triglycerides)||0.75|-0.26|0.3226
92196487|NCT03845075|184291428|SUPERIORITY||LS Mean Difference|0.59||||0.842|TWO_SIDED|95.0|-5.55|6.73||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; mITT LOCF. (Physical component score)||6.73|-5.55|0.8420
92196488|NCT03845075|184291428|SUPERIORITY||LS Mean Difference|-1.74||||0.6693|TWO_SIDED|95.0|-10.15|6.67||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; mITT LOCF. (Mental component score)||6.67|-10.15|0.6693
92196489|NCT03845075|184291428|SUPERIORITY||LS Mean Difference|-1.83||||0.5444|TWO_SIDED|95.0|-8.12|4.46||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 48; mITT LOCF. (Physical component score)||4.46|-8.12|0.5444
92196490|NCT03845075|184291428|SUPERIORITY||LS Mean Difference|-1.85||||0.5595|TWO_SIDED|95.0|-8.47|4.76||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 48; mITT LOCF. (Mental component score)||4.76|-8.47|0.5595
92196491|NCT03845075|184291428|SUPERIORITY||LS Mean Difference|-2.07||||0.4331|TWO_SIDED|95.0|-7.54|3.41||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Physical component score)||3.41|-7.54|0.4331
92196492|NCT03845075|184291428|SUPERIORITY||LS Mean Difference|-1.44||||0.6427|TWO_SIDED|95.0|-7.9|5.03||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Mental component score)||5.03|-7.90|0.6427
92196493|NCT03845075|184291430|SUPERIORITY||LS Mean Difference|5.86||||0.3037|TWO_SIDED|95.0|-5.76|17.48||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; safety set LOCF. (Change in systolic blood pressure)||17.48|-5.76|0.3037
92196494|NCT03845075|184291430|SUPERIORITY||LS Mean Difference|1.15||||0.7912|TWO_SIDED|95.0|-7.85|10.16||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; safety set LOCF. (Change in diastolic blood pressure)||10.16|-7.85|0.7912
92196495|NCT03845075|184291430|SUPERIORITY||LS Mean Difference|10.29||||0.1773|TWO_SIDED|95.0|-5.25|25.83||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 48; safety set LOCF. (Change in systolic blood pressure)||25.83|-5.25|0.1773
92320417|NCT04015518|184545918|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0578||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0578
92320418|NCT04015518|184545918|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0771||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0771
92320419|NCT04015518|184545919|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.202|||||TWO_SIDED|95.0|-0.005|0.427|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.427|-0.005|
92320420|NCT04015518|184545919|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.17|||||TWO_SIDED|95.0|-0.032|0.401|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.401|-0.032|
92320421|NCT04015518|184545919|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.248|||||TWO_SIDED|95.0|0.032|0.471|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.471|0.032|
92320422|NCT04015518|184545919|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.202|||||TWO_SIDED|95.0|0.024|0.367|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.367|0.024|
92320423|NCT04015518|184545919|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0158||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0158
92320424|NCT04015518|184545919|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.012||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0120
92196496|NCT03845075|184291430|SUPERIORITY||LS Mean Difference|1.32||||0.798|TWO_SIDED|95.0|-9.55|12.2||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 48; safety set LOCF. (Change in diastolic blood pressure)||12.20|-9.55|0.7980
92196497|NCT03845075|184291430|SUPERIORITY||LS Mean Difference|7.77||||0.158|TWO_SIDED|95.0|-3.4|18.94||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From week 24 to week 48; safety set LOCF. (Change in systolic blood pressure)||18.94|-3.40|0.1580
92196498|NCT03845075|184291430|SUPERIORITY||LS Mean Difference|1.64||||0.7021|TWO_SIDED|95.0|-7.36|10.64||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From week 24 to week 48; safety set LOCF. (Change in diastolic blood pressure)||10.64|-7.36|0.7021
92196499|NCT03845075|184291431|SUPERIORITY||LS Mean Difference|1.5||||0.8728|TWO_SIDED|95.0|-18.17|21.18||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; mITT LOCF. (Change in systolic blood pressure mean)||21.18|-18.17|0.8728
92196500|NCT03845075|184291431|SUPERIORITY||LS Mean Difference|2.46||||0.5714|TWO_SIDED|95.0|-6.61|11.54||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; mITT LOCF. (Change in diastolic blood pressure mean)||11.54|-6.61|0.5714
92196501|NCT03845075|184291431|SUPERIORITY||LS Mean Difference|-10.15||||0.2322|TWO_SIDED|95.0|-27.51|7.22||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 12; mITT LOCF. (Change in systolic blood pressure mean)||7.22|-27.51|0.2322
92196502|NCT03845075|184291431|SUPERIORITY||LS Mean Difference|-3.46||||0.4321|TWO_SIDED|95.0|-12.61|5.68||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 12; mITT LOCF. (Change in diastolic blood pressure mean)||5.68|-12.61|0.4321
92196503|NCT03845075|184291434|SUPERIORITY||LS Mean Difference|2.7||||0.5551|TWO_SIDED|95.0|-6.72|12.12||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; safety set LOCF. (Change in heart rate)||12.12|-6.72|0.5551
92196504|NCT03845075|184291434|SUPERIORITY||LS Mean Difference|-2.13||||0.7256|TWO_SIDED|95.0|-14.88|10.63||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 48; safety set LOCF. (Change in heart rate)||10.63|-14.88|0.7256
92196505|NCT03845075|184291434|SUPERIORITY||LS Mean Difference|-3.29||||0.4822|TWO_SIDED|95.0|-13.05|6.48||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From week 24 to week 48; safety set LOCF. (Change in heart rate)||6.48|-13.05|0.4822
92320425|NCT04015518|184545919|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0429||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0429
92320426|NCT04015518|184545919|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0229||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0229
92196506|NCT00409409|184291458|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANCOVA|||||||0.0010
92196507|NCT01586975|184291459|SUPERIORITY_OR_OTHER|||||||0.0742|TWO_SIDED|||||p-value is not adjusted, and no a priori threshold was used|Kruskal-Wallis|||Kruskal-Wallis non-parametric ANOVA test||||0.0742
92196508|NCT03802617|184291509|OTHER||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.38||0.77|TWO_SIDED|95.0|-0.85|0.63|||MMRM|||||0.63|-0.85|0.770
92196509|NCT03802617|184291509|OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.38||0.038|TWO_SIDED|95.0|-1.55|-0.04|||MMRM|||||-0.04|-1.55|0.038
92196510|NCT03802617|184291509|OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.38||0.041|TWO_SIDED|95.0|-1.54|-0.03|||MMRM|||||-0.03|-1.54|0.041
92196511|NCT02635386|184291524|SUPERIORITY||||||<|0.02|||||||ANOVA|nested repeated measure||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.02
92196512|NCT02635386|184291525|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
92196513|NCT02635386|184291526|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
92196514|NCT02635386|184291527|SUPERIORITY||||||<|0.0001|||||||ANOVA|one way with Bonferroni contrast||One way ANOVA with Bonferroni test to compare differences between groups if significant||||<0.0001
92196515|NCT02635386|184291528|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
92320427|NCT04015518|184545919|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.03||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0300
92320428|NCT04015518|184545920|OTHER|MMRM included 'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-18.7|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|95.0|-37.2|-0.2|||||Difference was calculated as Speso - placebo.|||-0.2|-37.2|
92196516|NCT02635386|184291529|SUPERIORITY||||||<|0.05|||||||ANOVA|Nested repeated measure design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.05
92196517|NCT02635386|184291530|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
92196518|NCT02635386|184291531|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
92196519|NCT02635386|184291532|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
92196520|NCT02635386|184291533|SUPERIORITY||||||<|0.01|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.01
92196521|NCT02635386|184291534|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.035
92196522|NCT02635386|184291535|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
92196523|NCT02635386|184291536|SUPERIORITY||||||<|0.02|||||||ANOVA|nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.02
92196524|NCT02635386|184291537|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.035
92196525|NCT02635386|184291538|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
92196526|NCT02635386|184291539|SUPERIORITY||||||<|0.04|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.04
92196527|NCT02635386|184291540|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||>0.05
92196528|NCT02635386|184291541|SUPERIORITY||||||<|0.04|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.04
92196529|NCT02635386|184291542|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
92196530|NCT02635386|184291543|SUPERIORITY||||||<|0.05|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.05
92196531|NCT02635386|184291544|SUPERIORITY||||||<|0.001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.001
92320429|NCT04015518|184545920|OTHER|MMRM included 'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-19.3|STANDARD_ERROR_OF_MEAN|9.6|||TWO_SIDED|95.0|-38.3|-0.2|||||Difference was calculated as Speso - placebo.|||-0.2|-38.3|
92320430|NCT04015518|184545920|OTHER|MMRM included 'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-26.6|STANDARD_ERROR_OF_MEAN|9.5|||TWO_SIDED|95.0|-45.5|-7.8|||||Difference was calculated as Speso - placebo.|||-7.8|-45.5|
92320431|NCT04015518|184545920|OTHER|MMRM included 'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-5.4|STANDARD_ERROR_OF_MEAN|7.9|||TWO_SIDED|95.0|-21.1|10.2|||||Difference was calculated as Speso - placebo.|||10.2|-21.1|
92320432|NCT04818034|184545921|OTHER|paired t-test|paired t-test|0.965|STANDARD_DEVIATION|37.0||0.965|ONE_SIDED|96.0|||||paired t-test|||||||0.965
92320433|NCT02186873|184545925|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|47.1|||<|0.001|TWO_SIDED|95.0|35.18|58.99|||Cochran-Mantel-Haenszel|||||58.99|35.18|<0.001
92320434|NCT01068730|184545959|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% confidence intervals (CIs) for the test-to-reference ratios (B/A) and (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf.|Ratio (%) of Geometric LS Means|102.58|||||TWO_SIDED|95.0|99.07|106.23|||||Ratio=Treatment B/Treatment A. Geometric least squares (LS) means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the 500-mg or 1000-mg Glucophage tablets manufactured by BMS and 500-mg or 1000-mg Diabex tablets manufactured in Australia by Alphapharm, then 20 subjects would have provided 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would have provided 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||106.23|99.07|
92320435|NCT01068730|184545959|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% confidence intervals (CIs) for the test-to-reference ratios (B/A) and (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf.|Ratio (%) of Geometric LS Means|99.67|||||TWO_SIDED|95.0|96.16|103.31|||||Ratio=Treatment D/Treatment C. Geometric LS means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the 500-mg or 1000-mg Glucophage tablets manufactured by BMS and 500-mg or 1000-mg Diabex tablets manufactured in Australia by Alphapharm, then 20 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would have provided 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||103.31|96.16|
92320436|NCT01068730|184545959|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|7062.8||||||||||||||Geometric least squares means for Treatment A||||
92320437|NCT01068730|184545959|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|7245.2||||||||||||||Geometric least squares means for Treatment B||||
92320438|NCT01068730|184545959|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|11680.0||||||||||||||Geometric least squares means for Treatment C||||
92320439|NCT01068730|184545959|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)]|11641.0||||||95.0||||||||Geometric least squares means for Treatment D||||
92196532|NCT02635386|184291545|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.035
92196533|NCT02635386|184291546|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.035
92196534|NCT00745498|184291547|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||With study power of 80%, a significance level of 0.05, and the assumption that IVB injection will decrease postoperative VH incidence from 35% to 10%, a sample size of 40 patients for each group was calculated.||||<0.05
92268626|NCT03743571|184439062|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.88||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 0.02, p = .88.||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.88
92196535|NCT00267098|184291553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.729||||0.999|TWO_SIDED|95.0|0.592|0.889||BLOCK HF is a Bayesian study;a p-value was not used. Instead, a posterior probability,representing the probability that patients with BiV pacing have lower risk of events than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio can take, and its likelihood of taking such values.|The hazard ratio corresponds to the time until death, a HF urgent care event or visit in which the LVESVI endpoint was met. Data beyond missed LVESVI measurements were excluded. A 95% credible interval was used instead of a 95% confidence interval.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same rate of mortality, a heart failure urgent care visit, or significant increase in LVESVI as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a lower rate of this composite endpoint than patients with right ventricular pacing.||0.889|0.592|0.9990
92320440|NCT01068730|184545960|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% confidence intervals (CIs) for the test-to-reference ratios (B/A) and (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf.|Ratio (%) of Geometric LS Means|101.12|||||TWO_SIDED|95.0|96.36|106.11|||||Ratio=Treatment B/Treatment A. Geometric LS means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the 500-mg or 1000-mg Glucophage tablets manufactured by BMS and 500-mg or 1000-mg Diabex tablets manufactured in Australia by Alphapharm, then 20 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would have provided 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||106.11|96.36|
92320441|NCT01068730|184545960|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% confidence intervals (CIs) for the test-to-reference ratios (B/A) and (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf.|Ratio (%) of Geometric LS Means|98.65|||||TWO_SIDED|95.0|93.94|103.59|||||Ratio=Treatment B/Treatment A. Geometric LS means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the 500-mg or 1000-mg Glucophage tablets manufactured by BMS and 500-mg or 1000-mg Diabex tablets manufactured in Australia by Alphapharm, then 20 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would have provided 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||103.59|93.94|
92320442|NCT01068730|184545960|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|1013.6||||||||||||||Geometric least squares means for Treatment A||||
92320443|NCT01068730|184545960|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|1024.9||||||||||||||Geometric least squares means for Treatment B||||
92320444|NCT01068730|184545960|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|1643.8||||||||||||||Geometric least squares means for Treatment C||||
92320445|NCT01068730|184545960|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|1621.6||||||||||||||Geometric least squares means for Treatment D||||
92320446|NCT01068730|184545970|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|103.19|||||TWO_SIDED|95.0|99.75|106.75|||||Ratio=Treatment B/Treatment A. Geometric LS means values are presented in other statistical analysis entries.|||106.75|99.75|
92320447|NCT01068730|184545970|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|99.44|||||TWO_SIDED|95.0|96.08|102.92|||||Ratio=Treatment D/Treatment C. Geometric LS means values are presented in other statistical analysis entries.|||102.92|96.08|
92320448|NCT01068730|184545970|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|6907.1||||||||||||||Geometric least squares means for Treatment A||||
92320449|NCT01068730|184545970|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|7127.4||||||95.0||||||||Geometric least squares means for Treatment B||||
92320450|NCT01068730|184545970|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|11391.0||||||||||||||Geometric least squares means for Treatment C||||
92320451|NCT01068730|184545970|SUPERIORITY_OR_OTHER||[Geometric Least Squares Mean (ng*hr/mL)|11327.0||||||||||||||Geometric least squares means for Treatment D||||
92320452|NCT01515865|184545990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.8||||0.3145|TWO_SIDED|95.0|-37.6|9.8|||Fisher Exact|||||9.8|-37.6|0.3145
92320453|NCT00402688|184546060|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is a risk difference of 0.2.|Risk Difference (RD)|0.063||||||95.0|-0.089|0.215|||||Difference in success rates (levofloxacin 500mg for 4 weeks minus levofloxacin 750mg for 2 weeks ).|||0.215|-0.089|
92320454|NCT00402688|184546060|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is a risk difference of 0.2.|Risk Difference (RD)|0.045||||||95.0|-0.106|0.195|||||Difference in success rates (levofloxacin 500mg for 4 weeks minus levofloxacin 750mg for 3 weeks).|||0.195|-0.106|
92320455|NCT04157296|184546085|SUPERIORITY||Mean Difference (Final Values)|-0.226|||||TWO_SIDED|||||||||leftIFG (Change in Brain activity \[post minus pre\])||||
92320456|NCT04157296|184546085|SUPERIORITY||Median Difference (Final Values)|-0.309|||||TWO_SIDED|||||||||rightIFG (Change in Brain activity \[post minus pre\])||||
92320457|NCT04157296|184546085|SUPERIORITY||Mean Difference (Final Values)|-0.179|||||TWO_SIDED|||||||||leftParietal (Change in Brain activity \[post minus pre\])||||
92320458|NCT04157296|184546085|SUPERIORITY||Mean Difference (Final Values)|0.324|||||TWO_SIDED|||||||||rightParietal (Change in Brain activity \[post minus pre\])||||
92320459|NCT04157296|184546085|SUPERIORITY||Mean Difference (Final Values)|0.41|||||TWO_SIDED|||||||||leftdACC (Change in Brain activity \[post minus pre\])||||
92320460|NCT04157296|184546085|SUPERIORITY||Mean Difference (Final Values)|-0.067|||||TWO_SIDED|||||||||rightdACC (Change in Brain activity \[post minus pre\])||||
92320461|NCT04157296|184546085|SUPERIORITY||Mean Difference (Final Values)|0.302|||||TWO_SIDED|||||||||leftInsula (Change in Brain activity \[post minus pre\])||||
92320462|NCT04157296|184546085|SUPERIORITY|rightInsula (Change in Brain activity \[post minus pre\])|Mean Difference (Final Values)|0.234|||||TWO_SIDED|||||||||rightInsula (Change in Brain activity \[post minus pre\])||||
92320463|NCT04157296|184546085|SUPERIORITY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|||||||||TCN (Change in Connectivity \[post minus pre\])||||
92320464|NCT04157296|184546086|SUPERIORITY|||||||0.241|||||||t-test, 1 sided|||||||0.241
92320465|NCT04157296|184546087|SUPERIORITY|||||||0.233|||||||t-test, 1 sided|||||||0.233
92320466|NCT04157296|184546088|SUPERIORITY|||||||0.042|||||||t-test, 1 sided|||||||0.042
92320467|NCT04157296|184546089|SUPERIORITY|||||||0.349|||||||t-test, 1 sided|||||||0.349
92196536|NCT00267098|184291554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.843||||0.865|TWO_SIDED|95.0|0.632|1.142||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, posterior probabilities, representing the probability that subjects with biventricular pacing have better outcomes, were calculated. A probability ≥ 0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio for death can take, and its likelihood of taking such values.|Because BLOCK HF was a Bayesian study, a 95% credible interval was used in lieu of a 95% confidence interval. This interval reflects the set of values the Hazard Ratio can take with 95% posterior probability.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same rate of mortality as corresponding patients who receive right ventricular pacing.||1.142|0.632|0.865
92320468|NCT02088905|184546094|SUPERIORITY|||||||0.08||||||No adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Comparison of ECBI Problem Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.080
92320469|NCT02088905|184546094|SUPERIORITY|||||||0.026||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of ECBI Intensity Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.026
92320470|NCT02088905|184546094|OTHER|Type III Tests of Fixed Effects|||||<|0.001||||||Mixed Model Analysis - Significance of Timepoint within the model in determining the effectiveness of assigned treatment.|Mixed Models Analysis|||Mixed Model Analysis of ECBI Intensity Scores, with variables of Timepoint, Treatment Assignment, and Timepoint\*Treatment Assignment interaction. Random intercept used.||||<.001
92320471|NCT02088905|184546094|OTHER|Type III Tests of Fixed Effects||||||0.182||||||Mixed Model Analysis - Significance of Treatment Assignment within the model in determining the effectiveness of assigned treatment.|Mixed Models Analysis|||Mixed Model Analysis of ECBI Intensity Scores, with variables of Timepoint, Treatment Assignment, and Timepoint\*Treatment Assignment interaction. Random intercept used.||||.182
92320472|NCT02088905|184546094|OTHER|Type III Tests of Fixed Effects||||||0.015||||||Mixed Model Analysis - Significance of Treatment Assignment and Timepoint Interaction Term within the model in determining the effectiveness of assigned treatment.|Mixed Models Analysis|||Mixed Model Analysis of ECBI Intensity Scores, with variables of Timepoint, Treatment Assignment, and Timepoint\*Treatment Assignment interaction. Random intercept used.||||.015
92320473|NCT02088905|184546095|SUPERIORITY|||||||0.203||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of PSI Parental Distress between Week 18 scores, 1 sided test for Treatment Group Superiority||||.203
92320474|NCT02088905|184546095|SUPERIORITY|||||||0.17||||||No adjustment for multiple comparisons|Wilcoxon (Mann-Whitney)|||Comparison of PSI Parent-Child Dysfunctional Interaction between Week 18 scores, 1 sided test for Treatment Group Superiority||||0.17
92320475|NCT02088905|184546095|SUPERIORITY|||||||0.308||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of PSI Difficult Child between Week 18 scores, 1 sided test for Treatment Group Superiority||||0.308
92320476|NCT02088905|184546095|SUPERIORITY|||||||0.413||||||No adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Comparison of PSI Total Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.413
92320477|NCT02088905|184546097|SUPERIORITY|||||||0.271||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Total Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||0.271
92320478|NCT02088905|184546097|SUPERIORITY|||||||0.434||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Awareness Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.434
92320479|NCT02088905|184546097|SUPERIORITY|||||||0.298||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Cognition Scores between Week 18 scores, 1 sided test for Treatment Group Superiority||||.298
92320480|NCT02088905|184546097|SUPERIORITY|||||||0.294||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Communication Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.294
92320481|NCT02088905|184546097|SUPERIORITY|||||||0.441||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Motivation between Week 18 scores, 1 sided test for Treatment Group Superiority||||.441
92320482|NCT02088905|184546097|SUPERIORITY|||||||0.204||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Restricted and Repetitive Behavior Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.204
92320483|NCT02088905|184546099|SUPERIORITY||||||<|0.001||||||No adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Comparison of DPICS Negative Skills between Week 18 scores, 1 sided test for Treatment Group Superiority||||<.001
92320484|NCT02088905|184546099|SUPERIORITY||||||<|0.001||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of DPICS Positive Skills between Week 18 scores, 1 sided test for Treatment Group Superiority. Data transformed using a square root transformation.||||<.001
92320485|NCT02649439|184546115|SUPERIORITY|||||||0.4852|||||||Wilcoxon signed rank test|||||||0.4852
92320486|NCT02649439|184546116|SUPERIORITY|||||||0.3269|||||||Wilcoxon signed rank test|||||||0.3269
92320487|NCT02649439|184546119|SUPERIORITY|||||||0.0255||||||The reported p-value is representative of the PBMCs in monocyte nonclassical between responders and non-responders.|Mann Whitney Test|||||||0.0255
92320488|NCT02649439|184546119|OTHER|||||||0.0021||||||The reported p-value is representative of the PBMCs in monocyte nonclassical PD-L1+ between responders and non-responders.|Mann Whitney Test|||||||0.0021
92320489|NCT02649439|184546119|SUPERIORITY|||||||0.0486||||||The reported p-value is representative of the PBMCs in monocyte PD-1+ between responders and non-responders.|Mann Whitney Test|||||||0.0486
92320490|NCT02649439|184546120|SUPERIORITY|||||||0.7317||||||The reported p-value is representative of the PBMCs in CD4 between responders and non-responders.|Mann Whitney Test|||||||0.7317
92320491|NCT02649439|184546120|SUPERIORITY|||||||0.7545||||||The reported p-value is representative of the PBMCs in CD8 between responders and non-responders.|Mann Whitney Test|||||||0.7545
92320492|NCT02649439|184546120|SUPERIORITY|||||||0.531||||||The reported p-value is representative of the PBMCs in Treg between responders and non-responders.|Mann Whitney Test|||||||0.5310
92320493|NCT02649439|184546120|SUPERIORITY|||||||0.8451||||||The reported p-value is representative of the PBMCs in NK between responders and non-responders.|Mann Whitney Test|||||||0.8451
92320494|NCT02649439|184546120|SUPERIORITY|||||||0.9377||||||The reported p-value is representative of the PBMCs in MDSC between responders and non-responders.|Mann Whitney Test|||||||0.9377
92320495|NCT02649439|184546121|SUPERIORITY|||||||0.2012||||||The reported p-value is representative of the % of CD4 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.2012
92320496|NCT02649439|184546121|SUPERIORITY|||||||0.4891||||||The reported p-value is representative of the % of CD8 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.4891
92320497|NCT02649439|184546121|SUPERIORITY|||||||0.4609||||||The reported p-value is representative of the % of Tregs in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.4609
92320498|NCT02649439|184546121|SUPERIORITY|||||||0.0012||||||The reported p-value is representative of the % of NK in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.0012
92320499|NCT02649439|184546121|SUPERIORITY|||||||0.0825||||||The reported p-value is representative of the % of MDSC in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.0825
92320500|NCT02649439|184546121|SUPERIORITY|||||||0.5988||||||The reported p-value is representative of the % of naïve CD4 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.5988
92320501|NCT02649439|184546121|SUPERIORITY|||||||0.592|||||||Wilcoxon signed rank test|The reported p-value is representative of the % of naïve CD8 in PBMCs at Day 1 and Day 29.||||||0.5920
92320502|NCT02649439|184546121|SUPERIORITY|||||||0.6221||||||The reported p-value is representative of the % of CD4 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.6221
92196537|NCT00267098|184291555|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.781||||0.9785|TWO_SIDED|95.0|0.615|0.991||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio can take, and its likelihood of taking such values.|Because BLOCK HF was a Bayesian study, a 95% credible interval was used in lieu of a 95% confidence interval. This interval reflects the set of values the Hazard Ratio can take with 95% posterior probability.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same rate of mortality or heart failure(HF)-related hospitalization as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a lower rate of death or first HF hospitalization than patients with right ventricular pacing.||0.991|0.615|0.9785
92268627|NCT03743571|184439063|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.17||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 1.98, p = .17||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.17
92320503|NCT02649439|184546121|SUPERIORITY|||||||0.7334||||||The reported p-value is representative of the % of CD8 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.7334
92320504|NCT02649439|184546121|OTHER|||||||0.791||||||The reported p-value is representative of the % of Tregs in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.7910
92320505|NCT02649439|184546121|SUPERIORITY|||||||0.5186||||||The reported p-value is representative of the % of NK in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.5186
92320506|NCT02649439|184546121|SUPERIORITY|The reported p-value is representative of the % of MDSC in PBMCs at Day 1 and Day 29.||||||0.5186|||||||Wilcoxon signed rank test|||||||0.5186
92320507|NCT02649439|184546121|SUPERIORITY|||||||0.9097||||||The reported p-value is representative of the % of naïve CD4 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.9097
92320508|NCT02649439|184546121|SUPERIORITY|||||||0.7334||||||The reported p-value is representative of the % of naïve CD8 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.7334
92320509|NCT00911612|184546122|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||Not adjusted since only one comparison was made.|ANCOVA|||An analysis of covariance was used to compare drug with placebo adjusting for baseline geometric center at 24 hours , BMI, and 7 alpha CHO.||||0.22
92320510|NCT00911612|184546123|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANCOVA|||An analysis of covariance was used to compare drug with placebo adjusting for BMI and 7 alpha HCO.||||0.02
92320511|NCT02560922|184546179|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.128|TWO_SIDED|95.0|-1.45|0.18|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||0.18|-1.45|0.128
92320512|NCT02560922|184546179|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.068|TWO_SIDED|95.0|-1.73|0.06|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||0.06|-1.73|0.068
92320513|NCT02560922|184546180|SUPERIORITY||Mean Difference (Final Values)|-2.62||||0.129|TWO_SIDED|95.0|-6.01|0.77|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||0.77|-6.01|0.129
92320514|NCT02560922|184546180|SUPERIORITY||Mean Difference (Final Values)|-3.31||||0.084|TWO_SIDED|95.0|-7.07|0.44|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||0.44|-7.07|0.084
92320515|NCT02560922|184546181|SUPERIORITY||Mean Difference (Final Values)|-1.61||||0.209|TWO_SIDED|95.0|-4.14|0.91|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||0.91|-4.14|0.209
92320516|NCT02560922|184546181|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.128|TWO_SIDED|95.0|-5.03|0.63|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||0.63|-5.03|0.128
92320517|NCT02560922|184546182|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.222|TWO_SIDED|95.0|-2.18|0.51|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||0.51|-2.18|0.222
92320518|NCT02560922|184546182|SUPERIORITY||Mean Difference (Final Values)|-1.14||||0.128|TWO_SIDED|95.0|-2.6|0.33|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||0.33|-2.60|0.128
92320519|NCT02560922|184546183|SUPERIORITY||Mean Difference (Final Values)|1.71||||0.111|TWO_SIDED|95.0|-0.4|3.82|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||3.82|-0.40|0.111
92320520|NCT02560922|184546183|SUPERIORITY||Mean Difference (Final Values)|0.73||||0.502|TWO_SIDED|95.0|-1.42|2.88|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||2.88|-1.42|0.502
92320521|NCT02560922|184546184|SUPERIORITY||Mean Difference (Final Values)|0.76||||0.433|TWO_SIDED|95.0|-1.15|2.66|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||2.66|-1.15|0.433
92320522|NCT02560922|184546184|SUPERIORITY||Mean Difference (Final Values)|1.71||||0.12|TWO_SIDED|95.0|-0.45|3.86|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||3.86|-0.45|0.120
92320523|NCT02560922|184546185|SUPERIORITY||Mean Difference (Final Values)|15.31||||0.001|TWO_SIDED|95.0|9.09|21.53|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||21.53|9.09|0.001
92320524|NCT02560922|184546185|SUPERIORITY||Mean Difference (Final Values)|11.67|||<|0.001|TWO_SIDED|95.0|5.08|18.27|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||18.27|5.08|<0.001
92320525|NCT02560922|184546186|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.356|TWO_SIDED|95.0|-1.57|0.57|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||0.57|-1.57|0.356
92320526|NCT02560922|184546186|SUPERIORITY||Mean Difference (Final Values)|-1.02||||0.087|TWO_SIDED|95.0|-2.19|0.15|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||0.15|-2.19|0.087
92320527|NCT02560922|184546187|SUPERIORITY||Mean Difference (Final Values)|1.01|||<|0.001|TWO_SIDED|95.0|0.61|1.41|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||1.41|0.61|<0.001
92320528|NCT02560922|184546187|SUPERIORITY||Mean Difference (Final Values)|0.67||||0.002|TWO_SIDED|95.0|0.24|1.09|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||1.09|0.24|0.002
92320529|NCT02560922|184546188|SUPERIORITY||Mean Difference (Final Values)|-1.27|||<|0.001|TWO_SIDED|95.0|-1.6|-0.95|||Mixed Models Analysis|||Test of between-group difference in self-reported change in symptoms (from baseline) at 3 months||-0.95|-1.60|<0.001
92196538|NCT00267098|184291556|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.695||||0.9886|TWO_SIDED|95.0|0.558|0.866||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio can take, and its likelihood of taking such values.|The hazard ratio corresponds to the time from randomization to death or a visit in which LVESVI endpoint was met. Data beyond missed LVESVI measurements were excluded. A 95% credible interval was used instead of a 95% confidence interval.|"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or II who receive biventricular pacing have the same rate of mortality or significant increase in LVESVI as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a lower rate of death or significant increase in LVESVI than patients with right ventricular pacing."||0.866|0.558|0.9886
92320530|NCT02560922|184546188|SUPERIORITY||Mean Difference (Final Values)|-0.87|||<|0.001|TWO_SIDED|95.0|-1.24|-0.51|||Mixed Models Analysis|||Test of between-group difference in self-reported change in symptoms (from baseline) at 9 months||-0.51|-1.24|<0.001
92320531|NCT00812981|184546223|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was defined as the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio of HI antibodies against the A/Indonesia/05/2005 strain between the two groups (1562902A CP Group over 1562902A NP Group), being below (\<) 2.0.|Adjusted GMT ratio|0.84|||||TWO_SIDED|95.0|0.71|0.99|||ANCOVA|||Difference in adjusted GMT ratio for HI antibodies: To demonstrate that the NP 1562902A vaccine was non-inferior to the CP 1562902A vaccine, with respect to HI antibody GMT against the A/Indonesia/05/2005 strain, 42 days following vaccination.||0.99|0.71|
92320532|NCT01422889|184546295|SUPERIORITY_OR_OTHER||percentage|2.2|||||TWO_SIDED|||||A p-value was not calculated for the ION Registry 12 month cardiac events. For the protocol specified primary endpoint analysis including data pooled from the PERSEUS SV, PERSEUS WH and TE Prove patient populations please see the citations.||||2.2% (23/1028) of ION Registry subjects experienced CD/MI related to the ION stent at 12 months||||
92320533|NCT01422889|184546296|SUPERIORITY_OR_OTHER||percentage|2.6|||||ONE_SIDED|||||A p-value was not calculated for the ION Registry 2 year cardiac events. For the protocol specified secondary endpoint analysis including data pooled from the PERSEUS SV, PERSEUS WH and TE Prove patient populations please see the citations.||||2.6% (27/1054) of ION Registry subjects experienced ARC ST Definite/Probable related to the ION stent at 2 years.||||
92320534|NCT01757184|184546297|SUPERIORITY|||||||0.0271|||||||Fisher Exact|Fisher's exact test at α=0.05.||A sample size of 50 randomized participants (approximately 25 participants per treatment group) provided 97% power to detect a statistically significant difference between sebelipase alfa and placebo, using Fisher's exact test at α=0.05.||||0.0271
92320535|NCT01757184|184546298|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92320536|NCT01757184|184546299|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92320537|NCT01757184|184546300|SUPERIORITY|||||||0.0003|||||||Fisher Exact|||||||0.0003
92320538|NCT01757184|184546301|SUPERIORITY|||||||0.0375|||||||Wilcoxon (Mann-Whitney)|||||||0.0375
92320539|NCT01757184|184546302|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92320540|NCT01757184|184546303|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92320541|NCT01757184|184546304|SUPERIORITY|||||||0.4216|||||||Fisher Exact|||||||0.4216
92320542|NCT01757184|184546305|SUPERIORITY|||||||0.0068|||||||Wilcoxon (Mann-Whitney)|||||||0.0068
92320543|NCT04468347|184546308|OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED||||||ANOVA|The two-way ANOVA included cognitive and amyloid status, and their interaction as fixed effects.||||||<0.0001
92320544|NCT04468347|184546308|OTHER||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.038||0.0005|TWO_SIDED||||||ANOVA|The two-way ANOVA included cognitive and amyloid status, and their interaction as fixed effects.||||||0.0005
92320545|NCT04468347|184546308|OTHER||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.033||0.2161|TWO_SIDED||||||ANOVA|The two-way ANOVA included cognitive and amyloid status, and their interaction as fixed effects.||||||0.2161
92320546|NCT04468347|184546309|OTHER|||||||0.1998|||||||Cochran-Mantel-Haenszel|||||||0.1998
92320547|NCT04468347|184546310|OTHER|||||||0.0646|||||||Cochran-Mantel-Haenszel|||||||0.0646
92320548|NCT00994461|184546311|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Cochran-Mantel-Haenszel (CMH) test stratified by H. pylori status was employed for the comparison of celecoxib and loxoprofen with placebo. The multiplicity of test was not adjusted because these comparisons were for the secondary objective.|Cochran-Mantel-Haenszel|CMH test stratified by H. pylori status was employed. Continuous correction was used.||Hypothesis testing was conducted with significant p-value level of under 0.05.||||<0.0001
92320549|NCT04586244|184546323|SUPERIORITY|||||||0.0925|||||||paired t-test|The paired t-test used n-1 degrees of freedom, where n is the number of evaluable paired samples.||||||0.0925
92320550|NCT02505217|184546328|SUPERIORITY|||||||0.007|||||||Regression, Cox|||||||0.007
92320551|NCT00953654|184546331|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|The degrees of freedom were adjusted when the sphericity assumption was violated based on Mauchly's test.||Effects of RET and AET were compared to WL using a 3 condition by 3 time ANCOVA. An a priori statistical power analysis showed that a sample of 30 patients would provide a statistical power of .80 to detect a condition-by-time interaction for PSWQ scores assuming a two-tailed alpha value of 0.05, a correlation across repeated measures of 0.75 and a desire to detect a standardized effect size of 0.65.||||<0.05
92320552|NCT03517540|184546341|SUPERIORITY||Odds Ratio (OR)|0.8||||0.688|TWO_SIDED|95.0|0.25|2.63|||Cochran-Mantel-Haenszel|||||2.63|0.25|0.688
92320553|NCT03517540|184546341|SUPERIORITY||Odds Ratio (OR)|1.01||||0.985|TWO_SIDED|95.0|0.51|1.99|||Cochran-Mantel-Haenszel|||||1.99|0.51|0.985
92320554|NCT03517540|184546341|SUPERIORITY||Odds Ratio (OR)|0.92||||0.87|TWO_SIDED|95.0|0.3|2.84|||Cochran-Mantel-Haenszel|||||2.84|0.3|0.870
92320555|NCT03517540|184546341|SUPERIORITY||Odds Ratio (OR)|1.21||||0.71|TWO_SIDED|95.0|0.41|3.61|||Cochran-Mantel-Haenszel|||||3.61|0.41|0.710
92320556|NCT03517540|184546342|SUPERIORITY||Odds Ratio (OR)|0.37||||0.136|TWO_SIDED|95.0|0.08|1.61|||Cochran-Mantel-Haenszel|||||1.61|0.08|0.136
92320557|NCT03517540|184546342|SUPERIORITY||Odds Ratio (OR)|0.83||||0.747|TWO_SIDED|95.0|0.24|2.9|||Cochran-Mantel-Haenszel|||||2.9|0.24|0.747
92320558|NCT03517540|184546342|SUPERIORITY||Odds Ratio (OR)|0.84||||0.784|TWO_SIDED|95.0|0.18|3.63|||Cochran-Mantel-Haenszel|||||3.63|0.18|0.784
92320559|NCT03517540|184546342|SUPERIORITY||Odds Ratio (OR)|1.45||||0.521|TWO_SIDED|95.0|0.4|5.69|||Cochran-Mantel-Haenszel|||||5.69|0.4|0.521
92196539|NCT00267098|184291557|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.704||||0.9904|TWO_SIDED|95.0|0.522|0.947||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio can take, and its likelihood of taking such values.|Because BLOCK HF was a Bayesian study, a 95% credible interval was used in lieu of a 95% confidence interval. This interval reflects the set of values the Hazard Ratio can take with 95% posterior probability.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same rate of first heart failure(HF)-related hospitalization as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a lower rate of first HF hospitalization than patients with right ventricular pacing.||0.947|0.522|0.9904
92320560|NCT00615550|184546350|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.55||||0.02|TWO_SIDED|95.0|0.33|0.92|||Cochran-Mantel-Haenszel|||||0.92|0.33|0.020
92320561|NCT00615550|184546351|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||Cochran-Mantel-Haenszel|||Statistical analysis presented for composite score data.||||0.048
92320562|NCT00615550|184546351|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.39||||0.026|TWO_SIDED|95.0|0.17|0.92|||Cochran-Mantel-Haenszel|||Statistical analysis presented for RDS data.||0.92|0.17|0.026
92320563|NCT00615550|184546352|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5||||0.036|TWO_SIDED|95.0|0.25|0.97|||Cochran-Mantel-Haenszel|||Statistical analysis presented for births \<=27 6/7 weeks data.||0.97|0.25|0.036
92320564|NCT00615550|184546352|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62||||0.016|TWO_SIDED|95.0|0.42|0.92|||Cochran-Mantel-Haenszel|||Statistical analysis presented for \<= 34 6/7 weeks data.||0.92|0.42|0.016
92320565|NCT00615550|184546352|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.89||||0.376|TWO_SIDED|95.0|0.68|1.16|||Cochran-Mantel-Haenszel|||Statistical analysis presented for \<36 weeks data.||1.16|0.68|0.376
92320566|NCT00615550|184546353|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.57||||0.431|TWO_SIDED|95.0|0.14|2.35|||Cochran-Mantel-Haenszel|||||2.35|0.14|0.431
92320567|NCT00615550|184546354|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.47||||0.01|TWO_SIDED|95.0|0.26|0.85|||Cochran-Mantel-Haenszel|||Statistical analysis for birth weight \< 1500 grams data.||0.85|0.26|0.01
92320568|NCT00615550|184546354|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.213|TWO_SIDED|95.0|0.62|1.11|||Cochran-Mantel-Haenszel|||Statistical analysis for birth weight \< 2500 grams data.||1.11|0.62|0.213
92320569|NCT01408303|184546355|SUPERIORITY_OR_OTHER||LS mean difference relative to olive oil|-2.95|||<|0.05|||||||ANCOVA|p-value from ANCOVA with factors for treatment, statin use and potency, and baseline value as a covariate, and adjusted using Hommel's procedure.||||||<0.05
92320570|NCT01408303|184546355|SUPERIORITY_OR_OTHER||LS mean difference relative to olive oil|-6.0|||<|0.0001|||||||ANCOVA|p-value from ANCOVA with factors for treatment, statin use and potency, and baseline value as a covariate, and adjusted using Hommel's procedure.||||||<0.0001
92320571|NCT02644668|184546358|SUPERIORITY||Least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.9086|TWO_SIDED|95.0|-0.13|0.11|||Mixed Models Analysis|||||0.11|-0.13|0.9086
92320572|NCT02644668|184546358|SUPERIORITY||Least squares mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.065||0.4361|TWO_SIDED|95.0|-0.18|0.08|||Mixed Models Analysis|||||0.08|-0.18|0.4361
92320573|NCT02644668|184546359|SUPERIORITY||Least squares mean difference|-2.94|STANDARD_ERROR_OF_MEAN|4.749||0.5382|TWO_SIDED|95.0|-12.43|6.55|||Mixed Models Analysis|||||6.55|-12.43|0.5382
92320574|NCT02644668|184546359|SUPERIORITY||Least squares mean difference|0.99|STANDARD_ERROR_OF_MEAN|5.099||0.8464|TWO_SIDED|95.0|-9.19|11.18|||Mixed Models Analysis|||||11.18|-9.19|0.8464
92320575|NCT02644668|184546360|SUPERIORITY||Least squares mean difference|11.69|STANDARD_ERROR_OF_MEAN|5.506||0.0378|TWO_SIDED|95.0|0.68|22.7|||Mixed Models Analysis|||||22.70|0.68|0.0378
92320576|NCT02644668|184546360|SUPERIORITY||Least squares mean difference|13.15|STANDARD_ERROR_OF_MEAN|5.913||0.0298|TWO_SIDED|95.0|1.33|24.97|||Mixed Models Analysis|||||24.97|1.33|0.0298
92196540|NCT00267098|184291558|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|-1.8||||0.637||||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Difference in Average Ranks|The subjects' individual rates of days hospitalized for HF were ranked, with lower ranks corresponding to fewer days hospitalized for HF.|The posterior probability that the BiV - RV difference in average ranks was below 0 (denoting that the BiV arm had lower ranks than the RV arm, on average) was calculated.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same rate of days hospitalized for heart failure per year as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a lower rate of days hospitalized for HF than patients with right ventricular pacing.||||0.637
92196541|NCT00267098|184291559|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.012||||0.591|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes at 6 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 6 month changes in NYHA classification were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in NYHA classification from randomization to 6 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.591
92196542|NCT00267098|184291559|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.126||||0.986|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 12 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 12 month changes in NYHA classification were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in NYHA classification from randomization to 12 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.986
92196543|NCT00267098|184291559|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.039||||0.726|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 12 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 18 month changes in NYHA classification were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in NYHA classification from randomization to 18 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.726
92196544|NCT00267098|184291559|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.035||||0.701|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 24 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 24 month changes in NYHA classification were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in NYHA classification from randomization to 24 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.701
92196545|NCT00267098|184291560|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.002||||0.534|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes at 6 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 6 month change in HF Stage were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in HF stage from randomization to 6 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.534
92196546|NCT00267098|184291560|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.026||||0.825|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 12 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 12 month changes in HF Stage were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' change in HF stage from randomization to 12 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.825
92196547|NCT00267098|184291560|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.01||||0.651|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 18 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 18 month changes in HF Stage were ranked. The BiV - RV difference in average rank was analyzed.|Positive values denote that the BiV arm had better outcomes over time than the RV arm.|Subjects' changes in HF stage from randomization to 18 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.651
92320577|NCT02644668|184546361|SUPERIORITY||Least squares mean difference|-4.59|STANDARD_ERROR_OF_MEAN|7.56||0.5461|TWO_SIDED|95.0|-19.69|10.52|||Mixed Models Analysis|||||10.52|-19.69|0.5461
92320578|NCT02644668|184546361|SUPERIORITY||Least squares mean difference|-15.23|STANDARD_ERROR_OF_MEAN|8.175||0.0672|TWO_SIDED|95.0|-31.56|1.11|||Mixed Models Analysis|||||1.11|-31.56|0.0672
92196548|NCT00267098|184291560|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|-0.006||||0.425|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 24 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 24 month changes in HF Stage were ranked. The BiV - RV difference in average rank was analyzed.|Positive values denote better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in HF stage from randomization to 24 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.425
92196549|NCT00267098|184291564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7||||0.9976|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Probability of Mean QOL Change|The posterior distribution for the BiV - RV difference in mean QOL score improvement from randomization to 6 months was determined.||"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in QOL score from randomization to 6 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a greater reduction (and thus improvement) in QOL score at 6 months than patients with right ventricular pacing."||||0.9976
92196550|NCT00267098|184291565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.9641|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Probability of Mean QOL Change|The posterior distribution for the BiV - RV difference in mean QOL score improvement from randomization to 12 months was determined.||"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in QOL score from randomization to 12 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a greater reduction (and thus improvement) in QOL score at 12 months than patients with right ventricular pacing."||||0.9641
92196551|NCT00267098|184291566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.8416|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Probability of Mean QOL Change|The parameter of interest was the BiV - RV difference in mean QOL change from randomization to 18 months.||"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in QOL score from randomization to 18 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a greater reduction (and thus improvement) in QOL score at 18 months than patients with right ventricular pacing."||||0.8416
92196552|NCT00267098|184291567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.727|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Probability of Mean QOL Change|The posterior distribution for the BiV - RV difference in mean QOL score improvement from randomization to 24 months was determined.||"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in QOL score from randomization to 24 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a greater reduction (and thus improvement) in QOL score at 24 months than patients with right ventricular pacing."||||0.7270
92196553|NCT00267098|184291568|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|3.334|||||TWO_SIDED|95.0|1.886|4.815||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead, a posterior distribution representing the set of possible values for the BiV - RV difference in improvement in LVEF through 6 months was used|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEF change through 6 months.|"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEF from randomization to 6 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEF from randomization to 6 months than patients with right ventricular pacing."||4.815|1.886|
92196554|NCT00267098|184291569|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|3.232|||||TWO_SIDED|95.0|1.618|4.839||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead, a posterior distribution representing the set of possible values for the BiV - RV difference in improvement in LVEF through 12 months was used|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEF change through 12 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEF from randomization to 12 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEF from randomization to 12 months than patients with right ventricular pacing.||4.839|1.618|
92320579|NCT02644668|184546362|SUPERIORITY||Least squares mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.928||0.6849|TWO_SIDED|95.0|-2.23|1.48|||Mixed Models Analysis|||||1.48|-2.23|0.6849
92320580|NCT02644668|184546362|SUPERIORITY||Least squares mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.98||0.3091|TWO_SIDED|95.0|-2.96|0.95|||Mixed Models Analysis|||||0.95|-2.96|0.3091
92196555|NCT00267098|184291570|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|2.24|||||TWO_SIDED|95.0|0.419|4.066||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead, a posterior distribution representing the set of possible values for the BiV - RV difference in improvement in LVEF at 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEF change through 18 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEF from randomization to 18 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEF from randomization to 18 months than patients with right ventricular pacing.||4.066|0.419|
92196556|NCT00267098|184291571|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|3.623|||||TWO_SIDED|95.0|1.623|5.604||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead, a posterior distribution representing the set of possible values for the BiV - RV difference in improvement in LVEF through 24 months was used|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEF change through 24 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEF from randomization to 24 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEF from randomization to 24 months than patients with right ventricular pacing.||5.604|1.623|
92196557|NCT00267098|184291572|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-7.204|||||TWO_SIDED|95.0|-10.12|-4.214||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESVI through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESVI change through 6 months.|"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESVI from randomization to 6 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a different change in LVESVI from randomization to 6 months than patients with right ventricular pacing."||-4.214|-10.12|
92196558|NCT00267098|184291573|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-7.255|||||TWO_SIDED|95.0|-10.59|-3.829||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESVI through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESVI change through 12 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESVI from randomization to 12 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVESVI from randomization to 12 months than patients with right ventricular pacing.||-3.829|-10.590|
92196559|NCT00267098|184291574|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-8.242|||||TWO_SIDED|95.0|-11.86|-4.574||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESVI through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESVI change through 18 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESVI from randomization to 18 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVESVI from randomization to 18 months than patients with right ventricular pacing.||-4.574|-11.860|
92196560|NCT00267098|184291575|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-7.268|||||TWO_SIDED|95.0|-11.69|-2.846||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESVI through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESVI change through 24 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESVI from randomization to 24 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVESVI from randomization to 24 months than patients with right ventricular pacing.||-2.846|-11.690|
92320581|NCT02644668|184546363|SUPERIORITY||Least squares mean difference|0.61|STANDARD_ERROR_OF_MEAN|0.571||0.2878|TWO_SIDED|95.0|-0.53|1.75|||Mixed Models Analysis|||||1.75|-0.53|0.2878
92320582|NCT02644668|184546363|SUPERIORITY||Least squares mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.616||0.8512|TWO_SIDED|95.0|-1.34|1.11|||Mixed Models Analysis|||||1.11|-1.34|0.8512
92320583|NCT02644668|184546364|SUPERIORITY||Least squares mean difference|-0.78|STANDARD_ERROR_OF_MEAN|2.528||0.7612|TWO_SIDED|95.0|-6.08|4.52|||Mixed Models Analysis|||||4.52|-6.08|0.7612
92320584|NCT02644668|184546364|SUPERIORITY||Least squares mean difference|-3.1|STANDARD_ERROR_OF_MEAN|3.231||0.3502|TWO_SIDED|95.0|-9.91|3.7|||Mixed Models Analysis|||||3.70|-9.91|0.3502
92196561|NCT00267098|184291576|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-5.858|||||TWO_SIDED|95.0|-9.085|-2.562||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDVI through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDVI change through 6 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDVI from randomization to 6 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEDVI from randomization to 6 months than patients with right ventricular pacing.||-2.562|-9.085|
92196562|NCT00267098|184291577|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-5.807|||||TWO_SIDED|95.0|-9.467|-2.038||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDVI through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDVI change through 12 months.|"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDVI from randomization to 12 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEDVI from randomization to 12 months than patients with right ventricular pacing."||-2.038|-9.467|
92196563|NCT00267098|184291578|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-8.844|||||TWO_SIDED|95.0|-12.91|-4.681||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDVI through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDVI change through 18 months.|"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDVI from randomization to 18 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEDVI from randomization to 18 months than patients with right ventricular pacing."||-4.681|-12.910|
92196564|NCT00267098|184291579|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-6.615|||||TWO_SIDED|95.0|-11.37|-1.736||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDVI through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDVI change through 24 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDVI from randomization to 24 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEDVI from randomization to 24 months than patients with right ventricular pacing.||-1.736|-11.370|
92196565|NCT00267098|184291580|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-3.894|||||TWO_SIDED|95.0|-12.13|3.953||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LV Mass through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LV Mass change through 6 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in LV Mass through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in LV Mass through 6 months with BiV pacing than RV pacing. Change was calculated as 6 month value - randomization visit value.||3.953|-12.130|
92196566|NCT00267098|184291581|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-10.16|||||TWO_SIDED|95.0|-19.33|-0.857||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LV Mass through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LV Mass change through 12 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in LV Mass through 12 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in LV Mass through 12 months with BiV pacing than RV pacing. Change was calculated as 12 month value - randomization visit value.||-0.857|-19.330|
92268628|NCT03743571|184439064|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.42||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 0.67, p = 0.42.||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.42
92196567|NCT00267098|184291582|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-8.316|||||TWO_SIDED|95.0|-18.19|1.623||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LV Mass through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LV Mass change through 18 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in LV Mass through 18 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in LV Mass through 18 months with BiV pacing than RV pacing. Change was calculated as 18 month value - randomization visit value.||1.623|-18.190|
92196568|NCT00267098|184291583|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-11.08|||||TWO_SIDED|95.0|-21.11|-0.956||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LV Mass through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LV Mass change through 24 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in LV Mass through 24 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in LV Mass through 24 months with BiV pacing than RV pacing. Change was calculated as 24 month value - randomization visit value.||-0.956|-21.110|
92196569|NCT00267098|184291584|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.126|||||TWO_SIDED|95.0|-0.235|-0.014||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDD through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDD change through 6 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDD from randomization to 6 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVEDD from randomization to 6 months than patients with RV pacing. Negative values reflect reductions in LVEDD.||-0.014|-0.235|
92196570|NCT00267098|184291585|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.162|||||TWO_SIDED|95.0|-0.287|-0.035||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDD through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDD change through 12 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDD from randomization to 12 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVEDD from randomization to 12 months than patients with RV pacing. Negative values reflect reductions in LVEDD.||-0.035|-0.287|
92196571|NCT00267098|184291586|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.163|||||TWO_SIDED|95.0|-0.293|-0.03||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDD through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDD change through 18 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDD from randomization to 18 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVEDD from randomization to 18 months than patients with RV pacing. Negative values reflect reductions in LVEDD.||-0.030|-0.293|
92196572|NCT00267098|184291587|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.245|||||TWO_SIDED|95.0|-0.39|-0.097||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDD through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDD change through 24 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDD from randomization to 24 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVEDD from randomization to 24 months than patients with RV pacing. Negative values reflect reductions in LVEDD.||-0.097|-0.390|
92320585|NCT02644668|184546365|SUPERIORITY||Least squares mean difference|7.72|STANDARD_ERROR_OF_MEAN|10.484||0.4684|TWO_SIDED|95.0|-13.86|29.3|||Mixed Models Analysis|||||29.30|-13.86|0.4684
92320586|NCT02644668|184546365|SUPERIORITY||Least squares mean difference|24.89|STANDARD_ERROR_OF_MEAN|12.55||0.0584|TWO_SIDED|95.0|-0.95|50.74|||Mixed Models Analysis|||||50.74|-0.95|0.0584
92320587|NCT02644668|184546366|SUPERIORITY||Odds Ratio (OR)|0.43||||0.1686|TWO_SIDED|95.0|0.13|1.43|||Regression, Logistic|||Odds ratio of active vs placebo comparison of the patients' global assessment of better than pre-dose vs same or worse than pre-dose||1.43|0.13|0.1686
92320588|NCT02644668|184546366|SUPERIORITY||Odds Ratio (OR)|0.67||||0.5259|TWO_SIDED|95.0|0.2|2.3|||Regression, Logistic|||Odds ratio of active vs placebo comparison of the patients' global assessment of better than pre-dose vs same or worse than pre-dose||2.30|0.20|0.5259
92196573|NCT00267098|184291588|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.066|||||TWO_SIDED|95.0|-0.185|0.055||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESD through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESD change through 6 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESD from randomization to 6 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVESD from randomization to 6 months than patients with RV pacing. Negative values reflect reductions in LVESD.||0.055|-0.185|
92196574|NCT00267098|184291589|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.104|||||TWO_SIDED|95.0|-0.236|0.029||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESD through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESD change through 12 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESD from randomization to 12 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVESD from randomization to 12 months than patients with RV pacing. Negative values reflect reductions in LVESD.||0.029|-0.236|
92196575|NCT00267098|184291590|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.06|||||TWO_SIDED|95.0|-0.204|0.087||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESD through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESD change through 18 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESD from randomization to 18 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVESD from randomization to 18 months than patients with RV pacing. Negative values reflect reductions in LVESD.||0.087|-0.204|
92196576|NCT00267098|184291591|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.18|||||TWO_SIDED|95.0|-0.339|-0.018||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESD through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESD change through 24 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESD from randomization to 24 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVESD from randomization to 24 months than patients with RV pacing. Negative values reflect reductions in LVESD.||-0.018|-0.339|
92196577|NCT00267098|184291592|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.683|||||TWO_SIDED|95.0|-2.828|1.506||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in MR through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean MR change through 6 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Mitral Regurgitation (MR) through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Mitral Regurgitation through 6 months with BiV pacing than RV pacing. Change was calculated as 6 month value - randomization visit value.||1.506|-2.828|
92196578|NCT00267098|184291593|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.564|||||TWO_SIDED|95.0|-2.843|1.773||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in MR through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean MR change through 12 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Mitral Regurgitation (MR) through 12 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Mitral Regurgitation through 12 months with BiV pacing than RV pacing. Change was calculated as 12 month value - randomization visit value.||1.773|-2.843|
92268629|NCT03743571|184439065|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.88||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 0.02, p = .88.||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.88
92320589|NCT02644668|184546367|SUPERIORITY||Odds Ratio (OR)|1.22||||0.7655|TWO_SIDED|95.0|0.34|4.4|||Regression, Logistic|||Odds ratio of active vs placebo comparison of the patients' global assessment of better than pre-dose vs same or worse than pre-dose||4.40|0.34|0.7655
92320590|NCT02644668|184546367|SUPERIORITY||Odds Ratio (OR)|1.61||||0.492|TWO_SIDED|95.0|0.41|6.25|||Regression, Logistic|||Odds ratio of active vs placebo comparison of the patients' global assessment of better than pre-dose vs same or worse than pre-dose||6.25|0.41|0.4920
92320591|NCT02915705|184546370|SUPERIORITY||LS Mean Difference|1.14|||<|0.0001|TWO_SIDED|95.0|0.83|1.45|||ANCOVA|||Least squares (LS) mean, standard error (SE), confidence interval (CI), and 2-sided p value per ANCOVA model, which included RGI-C as the dependent variable, treatment group and baseline age stratification factor as independent variables and baseline RSS score as a continuous covariate.||1.45|0.83|< 0.0001
92320592|NCT02915705|184546371|SUPERIORITY||Odds Ratio (OR)|39.1|||<|0.0001|TWO_SIDED|95.0|7.2|211.7||Odds ratio, CI, and 2-sided p-value were per logistic regression model, which included treatment group and baseline age stratification factor as independent variables and baseline RSS score as a continuous covariate.|Regression, Logistic|||||211.7|7.2|< 0.0001
92320593|NCT02915705|184546372|SUPERIORITY||Odds Ratio (OR)|34.1||||0.0002|TWO_SIDED|95.0|5.6|206.3||Odds ratio, CI, and 2-sided p-value were per generalized linear mixed model, which includes treatment, visit, treatment by visit interaction and baseline age stratification factor as factors, baseline RSS total score as a continuous covariate.|generalized linear mixed model|||||206.3|5.6|0.0002
92320594|NCT02915705|184546373|SUPERIORITY||difference in LS means|1.02|||<|0.0001|TWO_SIDED|95.0|0.72|1.33|||GEE model|||Per generalized estimating equation (GEE) model, which included RGI-C as the dependent variable, treatment, visit, treatment by visit interaction and baseline age stratification factor as factors, baseline RSS score as a continuous covariate, with exchangeable covariate structure.||1.33|0.72|< 0.0001
92320595|NCT02915705|184546374|SUPERIORITY||LS Mean Difference|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.74|-0.94||LS mean, SE, CI, and 2-sided p value per ANCOVA model, which included treatment group and baseline age stratification factor as independent variables and baseline RSS score as a continuous covariate.|ANCOVA|||||-0.94|-1.74|< 0.0001
92320596|NCT02915705|184546375|SUPERIORITY||difference in LS means|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.59|-0.83||LS mean, SE, CI, and 2-sided p value per GEE model, which included treatment, visit, treatment by visit interaction and baseline age stratification factor as factors, baseline RSS score as a continuous covariate.|GEE model|||||-0.83|-1.59|< 0.0001
92320597|NCT02915705|184546376|SUPERIORITY||LS Mean Difference|0.4||||0.0162|TWO_SIDED|95.0|0.07|0.72||LS mean, SE, CI, and 2-sided p value per GEE model, which included treatment, visit, treatment by visit interaction, and baseline age stratification factor as factors; and baseline RSS score as a continuous covariate.|GEE model|||||0.72|0.07|0.0162
92196579|NCT00267098|184291594|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.016|||||TWO_SIDED|95.0|-2.379|2.425||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in MR through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean MR change through 18 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Mitral Regurgitation (MR) through 18 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Mitral Regurgitation through 18 months with BiV pacing than RV pacing. Change was calculated as 18 month value - randomization visit value.||2.425|-2.379|
92320598|NCT02915705|184546377|SUPERIORITY||difference in LS means|0.97|||<|0.0001|TWO_SIDED|95.0|0.57|1.37||LS mean, SE, CI, and 2-sided p value per GEE model, which included treatment, visit, treatment by visit interaction, and baseline age stratification factor as factors; and baseline RSS score as a continuous covariate.|GEE model|||||1.37|0.57|< 0.0001
92320599|NCT02915705|184546378|SUPERIORITY||LS Mean Difference|0.12||||0.0408|TWO_SIDED|95.0|0.01|0.24|||GEE model|||LS mean, SE, CI, and 2-sided p value per GEE model, which included change from baseline for recumbent length/standing height Z score as the dependent variable, treatment group, visit, interaction between treatment group by visit and baseline RSS stratification as factors, age and baseline recumbent length/standing height Z score as continuous covariates, with exchangeable covariance structure.||0.24|0.01|0.0408
92320600|NCT02915705|184546379|SUPERIORITY||difference in LS means|0.14||||0.049|TWO_SIDED|95.0|0.0|0.29|||GEE model|||LS mean, SE, CI, and 2-sided p value per GEE model, which included change from baseline for recumbent length/standing height Z score as the dependent variable, treatment group, visit, interaction between treatment group by visit and baseline RSS stratification as factors, age and baseline recumbent length/standing height Z score as continuous covariates, with exchangeable covariance structure.||0.29|0.00|0.0490
92320601|NCT02915705|184546380|SUPERIORITY||difference in LS means|1.02||||0.0386|TWO_SIDED|95.0|0.06|1.99|||ANCOVA|||LS mean, SE, CI, and 2-sided p value per ANCOVA model, which included change from baseline for growth velocity Z score as the dependent variable, treatment group and baseline RSS total score stratification as factors, baseline Z score and age as continuous covariates.||1.99|0.06|0.0386
92320602|NCT02915705|184546381|SUPERIORITY||difference in LS means|1.12||||0.0047|TWO_SIDED|95.0|0.37|1.88|||ANCOVA|||LS mean, SE, CI, and 2-sided p value per ANCOVA model, which included change from baseline for growth velocity Z score as the dependent variable, treatment group and baseline RSS total score stratification as factors, baseline Z score and age as continuous covariates.||1.88|0.37|0.0047
92320603|NCT02915705|184546382|SUPERIORITY||difference|1.04|||<|0.0001|TWO_SIDED|95.0|0.81|1.27|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 1||1.27|0.81|< 0.0001
92320604|NCT02915705|184546382|SUPERIORITY||difference|1.03|||<|0.0001|TWO_SIDED|95.0|0.79|1.27|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 4||1.27|0.79|< 0.0001
92320605|NCT02915705|184546382|SUPERIORITY||difference|0.78|||<|0.0001|TWO_SIDED|95.0|0.58|0.97|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 8||0.97|0.58|< 0.0001
92320606|NCT02915705|184546382|SUPERIORITY||difference|0.63|||<|0.0001|TWO_SIDED|95.0|0.44|0.81|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 16||0.81|0.44|< 0.0001
92320607|NCT02915705|184546382|SUPERIORITY||difference|0.51|||<|0.0001|TWO_SIDED|95.0|0.3|0.72|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 24||0.72|0.30|< 0.0001
92196580|NCT00267098|184291595|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.653|||||TWO_SIDED|95.0|-3.337|2.046||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in MR through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean MR change through 24 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Mitral Regurgitation (MR) through 24 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Mitral Regurgitation through 24 months with BiV pacing than RV pacing. Change was calculated as 24 month value - randomization visit value.||2.046|-3.337|
92196581|NCT00267098|184291596|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.08|||||TWO_SIDED|95.0|-0.031|0.195||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in CI through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean CI change through 6 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Cardiac Index (CI) through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Cardiac Index through 6 months with BiV pacing than RV pacing. Change was calculated as 6 month value - randomization visit value.||0.195|-0.031|
92196582|NCT00267098|184291597|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.086|||||TWO_SIDED|95.0|-0.022|0.198||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in CI through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean CI change through 12 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Cardiac Index (CI) through 12 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Cardiac Index through 12 months with BiV pacing than RV pacing. Change was calculated as 12 month value - randomization visit value.||0.198|-0.022|
92196583|NCT00267098|184291598|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.081|||||TWO_SIDED|95.0|-0.218|0.058||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in CI through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean CI change through 18 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Cardiac Index (CI) through 18 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Cardiac Index through 18 months with BiV pacing than RV pacing. Change was calculated as 18 month value - randomization visit value.||0.058|-0.218|
92196584|NCT00267098|184291599|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.047|||||TWO_SIDED|95.0|-0.095|0.192||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in CI through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean CI change through 24 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Cardiac Index (CI) through 24 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Cardiac Index through 24 months with BiV pacing than RV pacing. Change was calculated as 24 month value - randomization visit value.||0.192|-0.095|
92196585|NCT00267098|184291600|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|29.3|||||TWO_SIDED|95.0|10.04|48.64||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in IVMD through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean IVMD change through 6 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in IVMD through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in IVMD through 6 months with BiV pacing than RV pacing. Change was calculated as 6 month value - randomization visit value. A positive value reflected reduction in IVMD.||48.640|10.040|
92196586|NCT00267098|184291601|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|21.83|||||TWO_SIDED|95.0|2.841|40.87||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in IVMD through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean IVMD change through 12 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in IVMD through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in IVMD through 12 months with BiV pacing than RV pacing. Change was calculated as 12 month value - randomization visit value. A positive value reflected reduction in IVMD.||40.870|2.841|
92196587|NCT00267098|184291602|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|26.53|||||TWO_SIDED|95.0|6.247|47.19||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in IVMD through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean IVMD change through 18 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in IVMD through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in IVMD through 18 months with BiV pacing than RV pacing. Change was calculated as 18 month value - randomization visit value. A positive value reflected reduction in IVMD.||47.190|6.247|
92196588|NCT00267098|184291603|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|23.32|||||TWO_SIDED|95.0|1.999|44.53||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in IVMD through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean IVMD change through 24 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in IVMD through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in IVMD through 24 months with BiV pacing than RV pacing. Change was calculated as 24 month value - randomization visit value. A positive value reflected reduction in IVMD.||44.530|1.999|
92196589|NCT00267098|184291604|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.047|||||TWO_SIDED|95.0|-0.18|0.089||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in E/A through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean E/A change through 6 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in E:A ratio (E/A) through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in E:A ratio through 6 months with BiV pacing than RV pacing. Change was calculated as 6 month value - randomization visit value.||0.089|-0.180|
92196590|NCT00267098|184291605|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.117|||||TWO_SIDED|95.0|-0.287|0.058||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in E/A through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean E/A change through 12 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in E:A ratio (E/A) through 12 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in E:A ratio through 12 months with BiV pacing than RV pacing. Change was calculated as 12 month value - randomization visit value.||0.058|-0.287|
92196591|NCT00267098|184291606|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.041|||||TWO_SIDED|95.0|-0.136|0.22||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in E/A through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean E/A change through 18 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in E:A ratio (E/A) through 18 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in E:A ratio through 18 months with BiV pacing than RV pacing. Change was calculated as 18 month value - randomization visit value.||0.220|-0.136|
92196592|NCT00267098|184291607|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.11|||||TWO_SIDED|95.0|-0.085|0.311||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in E/A through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean E/A change through 24 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in E:A ratio (E/A) through 24 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in E:A ratio through 24 months with BiV pacing than RV pacing. Change was calculated as 24 month value - randomization visit value.||0.311|-0.085|
92320608|NCT02915705|184546382|SUPERIORITY||difference|0.7|||<|0.0001|TWO_SIDED|95.0|0.51|0.89|||GEE model|||Week 32||0.89|0.51|< 0.0001
92320609|NCT02915705|184546382|SUPERIORITY||difference|0.71|||<|0.0001|TWO_SIDED|95.0|0.51|0.91|||GEE model||Difference (burosumab - Oral Phosphate/Active Vitamin D)|Week 40||0.91|0.51|< 0.0001
92320610|NCT02915705|184546382|SUPERIORITY||difference|0.61|||<|0.0001|TWO_SIDED|95.0|0.39|0.82|||GEE model|||Week 52||0.82|0.39|< 0.0001
92320611|NCT02915705|184546382|SUPERIORITY||difference|0.69|||<|0.0001|TWO_SIDED|95.0|0.49|0.9|||GEE model|||Week 64||0.90|0.49|< 0.0001
92320612|NCT02915705|184546384|SUPERIORITY||difference in LS means|0.74|||<|0.0001|TWO_SIDED|95.0|0.58|0.91|||ANCOVA||Difference (KRN23 - Oral Phosphate/Active Vitamin D)|||0.91|0.58|< 0.0001
92320613|NCT02915705|184546387|SUPERIORITY||difference|48.27|||<|0.0001|TWO_SIDED|95.0|36.53|60.02|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 1||60.02|36.53|< 0.0001
92320614|NCT02915705|184546387|SUPERIORITY||difference|21.09|||<|0.0001|TWO_SIDED|95.0|12.01|30.16|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 4||30.16|12.01|< 0.0001
92320615|NCT02915705|184546387|SUPERIORITY||difference|15.75||||0.001|TWO_SIDED|95.0|6.35|25.15|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 8||25.15|6.35|0.0010
92320616|NCT02915705|184546387|SUPERIORITY||difference|12.97||||0.0078|TWO_SIDED|95.0|3.41|22.53|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 16||22.53|3.41|0.0078
92320617|NCT02915705|184546387|SUPERIORITY||difference|10.89||||0.0101|TWO_SIDED|95.0|2.59|19.19|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 24||19.19|2.59|0.0101
92320618|NCT02915705|184546387|SUPERIORITY||difference|6.23||||0.1165|TWO_SIDED|95.0|-1.55|14.02|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 32||14.02|-1.55|0.1165
92320619|NCT02915705|184546387|SUPERIORITY||difference|11.21||||0.0317|TWO_SIDED|95.0|0.98|21.44|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 40||21.44|0.98|0.0317
92320620|NCT02915705|184546387|SUPERIORITY||difference|5.01||||0.3044|TWO_SIDED|95.0|-4.55|14.56|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 52||14.56|-4.55|0.3044
92320621|NCT02915705|184546387|SUPERIORITY||difference|8.7||||0.0145|TWO_SIDED|95.0|1.72|15.68|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D|Week 64||15.68|1.72|0.0145
92196593|NCT00267098|184291608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1841||||0.9985||95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes, was calculated. A probability ≥ 0.95 was significant.|Posterior probability of mean difference|The posterior probability that the mean difference is greater than 0 was calculated.|This was a one-sided analysis of the BiV arm - RV arm difference in Mean Clinical Composite Scores. Values above 0 suggested better outcomes in the Biventricular arm.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar Clinical Composite Scores after 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients had better scores with BiV pacing than RV pacing. The analysis assigned numerical values (Improved=3, Unchanged=2, Worsened=1) and compared the average score between randomization arms using a one-sided analysis.||||0.9985
92320622|NCT02915705|184546389|SUPERIORITY||difference|1.65|||<|0.0001|TWO_SIDED|95.0|1.28|2.02|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 4||2.02|1.28|< 0.0001
92320623|NCT02915705|184546389|SUPERIORITY||difference|1.42|||<|0.0001|TWO_SIDED|95.0|1.19|1.64|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 8||1.64|1.19|< 0.0001
92320624|NCT02915705|184546389|SUPERIORITY||difference|1.16|||<|0.0001|TWO_SIDED|95.0|0.84|1.48|||GEE model|||Week 16||1.48|0.84|< 0.0001
92320625|NCT02915705|184546389|SUPERIORITY||difference|1.11|||<|0.0001|TWO_SIDED|95.0|0.8|1.41|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 24||1.41|0.80|< 0.0001
92320626|NCT02915705|184546389|SUPERIORITY||difference|1.24|||<|0.0001|TWO_SIDED|95.0|0.98|1.51|||GEE model|||Week 32||1.51|0.98|< 0.0001
92320627|NCT02915705|184546389|SUPERIORITY||difference|1.35|||<|0.0001|TWO_SIDED|95.0|1.1|1.6|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 40||1.60|1.10|< 0.0001
92320628|NCT02915705|184546389|SUPERIORITY||difference|1.26|||<|0.0001|TWO_SIDED|95.0|0.97|1.54|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 52||1.54|0.97|< 0.0001
92320629|NCT02915705|184546389|SUPERIORITY||difference|1.25|||<|0.0001|TWO_SIDED|95.0|0.96|1.54|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 64||1.54|0.96|< 0.0001
92320630|NCT02915705|184546391|SUPERIORITY||difference|-92.53|||<|0.0001|TWO_SIDED|95.0|-131.4|-53.66|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 16||-53.66|-131.40|< 0.0001
92320631|NCT02915705|184546391|SUPERIORITY||difference|-85.57|||<|0.0001|TWO_SIDED|95.0|-126.37|-44.76|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 24||-44.76|-126.37|< 0.0001
92320632|NCT02915705|184546391|SUPERIORITY||difference|-95.95|||<|0.0001|TWO_SIDED|95.0|-136.05|-55.84|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 40||-55.84|-136.05|< 0.0001
92320633|NCT02915705|184546391|SUPERIORITY||difference|-111.28|||<|0.0001|TWO_SIDED|95.0|-152.08|-70.49|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 52||-70.49|-152.08|< 0.0001
92320634|NCT02915705|184546391|SUPERIORITY||difference|-146.56|||<|0.0001|TWO_SIDED|95.0|-191.61|-101.52|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 64||-101.52|-191.61|< 0.0001
92320635|NCT02915705|184546394|SUPERIORITY||difference in LS means|-5.02||||0.0212|TWO_SIDED|95.0|-9.29|-0.75|||GEE model|||Pain Interference Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||-0.75|-9.29|0.0212
92320636|NCT02915705|184546394|SUPERIORITY||difference in LS means|2.68||||0.1009|TWO_SIDED|95.0|-0.52|5.89|||GEE model|||Physical Function Mobility Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||5.89|-0.52|0.1009
92320637|NCT02915705|184546394|SUPERIORITY||difference in LS means|-3.25||||0.1676|TWO_SIDED|95.0|-7.86|1.37|||GEE model|||Fatigue Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||1.37|-7.86|0.1676
92320638|NCT02915705|184546395|SUPERIORITY||difference in LS means|-2.26||||0.3091|TWO_SIDED|95.0|-6.61|2.09|||GEE model|||Pain Interference Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||2.09|-6.61|0.3091
92196594|NCT00267098|184291609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2503||||0.9999||95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes, was calculated. A probability ≥ 0.95 was significant.|Posterior probability of mean difference|The posterior probability that the mean difference is greater than 0 was calculated.|This was a one-sided analysis of the BiV arm - RV arm difference in Mean Clinical Composite Scores. Values above 0 suggested better outcomes in the Biventricular arm.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar Clinical Composite Scores after 12 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients had better scores with BiV pacing than RV pacing. The analysis assigned numerical values (Improved=3, Unchanged=2, Worsened=1) and compared the average score between randomization arms using a one-sided analysis.||||0.9999
92196595|NCT00267098|184291610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1978||||0.9978||95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes, was calculated. A probability ≥ 0.95 was significant.|Posterior probability of mean difference|The posterior probability that the mean difference is greater than 0 was calculated.|This was a one-sided analysis of the BiV arm - RV arm difference in Mean Clinical Composite Scores. Values above 0 suggested better outcomes in the Biventricular arm.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar Clinical Composite Scores after 18 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients had better scores with BiV pacing than RV pacing. The analysis assigned numerical values (Improved=3, Unchanged=2, Worsened=1) and compared the average score between randomization arms using a one-sided analysis.||||0.9978
92196596|NCT00267098|184291611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2069||||0.9983||95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes, was calculated. A probability ≥ 0.95 was significant.|Posterior probability of mean difference|The posterior probability that the mean difference is greater than 0 was calculated.|This was a one-sided analysis of the BiV arm - RV arm difference in Mean Clinical Composite Scores. Values above 0 suggested better outcomes in the Biventricular arm.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar Clinical Composite Scores after 24 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients had better scores with BiV pacing than RV pacing. The analysis assigned numerical values (Improved=3, Unchanged=2, Worsened=1) and compared the average score between randomization arms using a one-sided analysis.||||0.9983
92196597|NCT00267098|184291613|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.189|TWO_SIDED|95.0|0.78|2.01||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes, were calculated. A probability ≥ 0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio can take, and its likelihood of taking such values.|The hazard ratio corresponds to the time from randomization to first ventricular arrhythmia occurring post-randomization for each subject. Ventricular arrhythmias occurring prior to randomization were excluded. A 95% credible interval was used.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, NYHA classifications of I-III, and indicated for defibrillation therapy who receive biventricular (BiV) pacing have the same rate of experiencing their first ventricular arrhythmia as corresponding patients who receive right ventricular pacing. This was tested against the one-side hypothesis that patients with BiV pacing have a lower risk of ventricular arrhythmias than subjects with right ventricular pacing.||2.01|0.78|0.189
92196598|NCT05896696|184291716|OTHER||Mean Difference (Final Values)|-1.87|||<|0.0001|TWO_SIDED|95.0|-2.49|-1.26|||Paired sample t-test|||||-1.26|-2.49|<0.0001
92196599|NCT05896696|184291717|OTHER||Mean Difference (Final Values)|-1.22|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.73|||paired sample t-test|||||-0.73|-1.70|<0.0001
92196600|NCT02783573|184291738|SUPERIORITY||LS Mean Difference (Final Values)|2.51|STANDARD_ERROR_OF_MEAN|1.64||0.129|TWO_SIDED|95.0|-0.752|5.776|||Mixed Models Analysis|||||5.776|-0.752|0.129
92196601|NCT02783573|184291738|SUPERIORITY||LS Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|1.76||0.903|TWO_SIDED|95.0|-3.725|3.296|||Mixed Models Analysis|||||3.296|-3.725|0.903
92196602|NCT02783573|184291739|SUPERIORITY||LS Mean Difference (Final Values)|-2.95|STANDARD_ERROR_OF_MEAN|1.78||0.1|TWO_SIDED|95.0|-6.488|0.58|||Mixed Models Analysis|||||0.580|-6.488|0.100
92196603|NCT02783573|184291739|SUPERIORITY||LS Mean Difference (Final Values)|-3.18|STANDARD_ERROR_OF_MEAN|1.86||0.092|TWO_SIDED|95.0|-6.876|0.525|||Mixed Models Analysis|||||0.525|-6.876|0.092
92196604|NCT02783573|184291740|SUPERIORITY||LS Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|1.14||0.285|TWO_SIDED|95.0|-1.045|3.499|||Mixed Models Analysis|||||3.499|-1.045|0.285
92196605|NCT02783573|184291740|SUPERIORITY||LS Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|1.19||0.661|TWO_SIDED|95.0|-2.889|1.843|||Mixed Models Analysis|||||1.843|-2.889|0.661
92196606|NCT02783573|184291741|SUPERIORITY||LS Mean Difference (Final Values)|-4.77|STANDARD_ERROR_OF_MEAN|2.69||0.079|TWO_SIDED|95.0|-10.103|0.56|||Mixed Models Analysis|||||0.56|-10.103|0.079
92196607|NCT02783573|184291741|SUPERIORITY||LS Mean Difference (Final Values)|-1.97|STANDARD_ERROR_OF_MEAN|2.82||0.486|TWO_SIDED|95.0|-7.573|3.62|||Mixed Models Analysis|||||3.62|-7.573|0.486
92196608|NCT02783573|184291742|SUPERIORITY||LS Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.57||0.663|TWO_SIDED|95.0|-0.89|1.391|||Mixed Models Analysis|||||1.391|-0.890|0.663
92196609|NCT02783573|184291742|SUPERIORITY||LS Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.6||0.717|TWO_SIDED|95.0|-1.423|0.983|||Mixed Models Analysis|||||0.983|-1.423|0.717
92196610|NCT02783573|184291744|SUPERIORITY||LS Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|2.34||0.899|TWO_SIDED|95.0|-4.297|4.889|||Mixed Models Analysis|||||4.889|-4.297|0.899
92196611|NCT02783573|184291744|SUPERIORITY||LS Mean Difference (Final Values)|-3.01|STANDARD_ERROR_OF_MEAN|2.16||0.164|TWO_SIDED|95.0|-7.267|1.238|||Mixed Models Analysis|||||1.238|-7.267|0.164
92196612|NCT02783573|184291745|SUPERIORITY||LS Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|0.82||0.126|TWO_SIDED|95.0|-2.891|0.362|||Mixed Models Analysis|||||0.362|-2.891|0.126
92196613|NCT02783573|184291745|SUPERIORITY||LS Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.86||0.862|TWO_SIDED|95.0|-1.867|1.566|||Mixed Models Analysis|||||1.566|-1.867|0.862
92196614|NCT02783573|184291746|SUPERIORITY||LS Mean Difference (Final Values)|-37.55|STANDARD_ERROR_OF_MEAN|37.49||0.343|TWO_SIDED|95.0|-122.35|47.26|||ANCOVA|||||47.26|-122.35|0.343
92196615|NCT02783573|184291746|SUPERIORITY||LS Mean Difference (Final Values)|-40.72|STANDARD_ERROR_OF_MEAN|35.12||0.276|TWO_SIDED|95.0|-120.17|38.73|||ANCOVA|||||38.73|-120.17|0.276
92196616|NCT02783573|184291747|SUPERIORITY||LS Mean Difference (Final Values)|-61.94|STANDARD_ERROR_OF_MEAN|31.3||0.079|TWO_SIDED|95.0|-132.75|8.87|||ANCOVA|||||8.87|-132.75|0.079
92196617|NCT02783573|184291747|SUPERIORITY||LS Mean Difference (Final Values)|-34.15|STANDARD_ERROR_OF_MEAN|31.27||0.303|TWO_SIDED|95.0|-104.88|36.59|||ANCOVA|||||36.59|-104.88|0.303
92196618|NCT02783573|184291748|SUPERIORITY||LS Mean Difference (Final Values)|16.32|STANDARD_ERROR_OF_MEAN|14.29||0.283|TWO_SIDED|95.0|-16.015|48.659|||ANCOVA|||||48.659|-16.015|0.283
92196619|NCT02783573|184291748|SUPERIORITY||LS Mean Difference (Final Values)|-13.05|STANDARD_ERROR_OF_MEAN|13.21||0.349|TWO_SIDED|95.0|-42.929|16.82|||ANCOVA|||||16.820|-42.929|0.349
92196620|NCT02783573|184291749|SUPERIORITY||LS Mean Difference (Final Values)|1.59|STANDARD_ERROR_OF_MEAN|2.23||0.494|TWO_SIDED|95.0|-3.457|6.64|||ANCOVA|||||6.640|-3.457|0.494
92196621|NCT02783573|184291749|SUPERIORITY||LS Mean Difference (Final Values)|-2.13|STANDARD_ERROR_OF_MEAN|2.04||0.323|TWO_SIDED|95.0|-6.743|2.481|||ANCOVA|||||2.481|-6.743|0.323
92196622|NCT02783573|184291750|SUPERIORITY||LS Mean Difference (Final Values)|2.22|STANDARD_ERROR_OF_MEAN|13.76||0.873|TWO_SIDED|95.0|-26.569|31.017|||ANCOVA|||||31.017|-26.569|0.873
92196623|NCT02783573|184291750|SUPERIORITY||LS Mean Difference (Final Values)|-15.2|STANDARD_ERROR_OF_MEAN|15.43||0.337|TWO_SIDED|95.0|-47.488|17.096|||ANCOVA|||||17.096|-47.488|0.337
92196624|NCT02783573|184291751|SUPERIORITY||LS Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.927|TWO_SIDED|95.0|-0.015|0.017|||ANCOVA|||||0.017|-0.015|0.927
92196625|NCT02783573|184291751|SUPERIORITY||LS Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.93|TWO_SIDED|95.0|-0.015|0.017|||ANCOVA|||||0.017|-0.015|0.930
92196626|NCT02783573|184291752|SUPERIORITY||LS Mean Difference (Final Values)|-1.62|STANDARD_ERROR_OF_MEAN|1.06||0.127|TWO_SIDED|95.0|-3.708|0.464|||ANCOVA|||||0.464|-3.708|0.127
92196627|NCT02783573|184291752|SUPERIORITY||LS Mean Difference (Final Values)|-3.08|STANDARD_ERROR_OF_MEAN|1.06||0.004|TWO_SIDED|95.0|-5.172|-0.991|||ANCOVA|||||-0.991|-5.172|0.004
92196628|NCT00656201|184291756|NON_INFERIORITY_OR_EQUIVALENCE|This was an equivalence comparison. The study was designed to detect a 14% pregnancy difference between the arms with 80% power and one interim analysis using O'Brien-Fleming parameters and an experiment-wise alpha level of 5%.|Odds Ratio (OR)|1.2|||<|0.05|TWO_SIDED|95.0|0.8|1.8|||Wilcoxon (Mann-Whitney)||Crinone is the numerator and IM Progesterone is the denominator.|||1.8|0.8|<0.05
92196629|NCT01434680|184291757|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two-sided 95% CI for the ratio of the hSBA GMTs at 28 days following vaccination was within this equivalence interval for each of the two coprimary comparisons, MenC-CRM LIQ and MenC-CRM EMV would be declared equivalent with respect to the immune response to the vaccines.|hSBA GMT ratios|0.82|||<|0.05|TWO_SIDED|95.0|0.67|1.0|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log10 transformed titers and both the limits of 95% CIs||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing MenC-CRM LIQ to MenC-CRM EMV at 28 days after a single vaccination were both within the equivalence interval (0.5, 2.0).||1.00|0.67|<0.05
92196630|NCT01434680|184291757|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two-sided 95% CI for the ratio of the hSBA GMTs at 28 days following vaccination was within this equivalence interval for each of the two coprimary comparisons,MenC-CRM ROS and MenC-CRM EMV would be declared equivalent with respect to the immune response to the vaccines.|hSBA GMT ratios|1.14|||<|0.05|TWO_SIDED|95.0|0.92|1.41|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log10-transformed titers and both the limits of 95% CIs||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing MenC-CRM ROS to MenC-CRM EMV at 28 days after a single vaccination were both within the equivalence interval (0.5, 2.0).||1.41|0.92|<0.05
92196631|NCT01434680|184291758|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two-sided 95% CI for the ratio of the hSBA GMTs at 28 days following vaccination was within this equivalence interval, the two vaccine groups would be declared equivalent with respect to the immune response to the vaccines.|hSBA GMT ratios|0.72|||<|0.05|TWO_SIDED|95.0|0.58|0.89|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log10-transformed titers and both the limits of 95% CIs||The secondary objective was to be assessed only if both primary objectives were met. Because of this, no adjustment for multiplicity was required. MenC-CRM liquid would be declared equivalent to MenC-CRM ROS if the two-sided 95% CI for the ratio of the hSBA GMTs at approximately 28 days following vaccination was within the equivalence interval (0.5, 2.0).||0.89|0.58|<0.05
92196632|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.2|STANDARD_DEVIATION|3.4||||95.0|17.2|17.3||||||IOP 1 year (n=11602)||17.3|17.2|
92196633|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.9|STANDARD_DEVIATION|2.9||||95.0|16.8|17.0||||||IOP 1 year (n=4450)||17.0|16.8|
92196634|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.3|STANDARD_DEVIATION|2.2||||95.0|17.1|17.5||||||IOP 1 year (n=357)||17.5|17.1|
92196635|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.9|STANDARD_DEVIATION|3.2||||95.0|16.4|17.3||||||IOP 1 year (n=220)||17.3|16.4|
92196636|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.6|STANDARD_DEVIATION|4.1||||95.0|17.5|17.8||||||IOP 1 year (n=3277)||17.8|17.5|
92196637|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.0|STANDARD_DEVIATION|3.4||||95.0|17.0|17.1||||||IOP 2 years (n=8051)||17.1|17.0|
92196638|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.8|STANDARD_DEVIATION|2.9||||95.0|16.7|16.9||||||IOP 2 years (n=2808)||16.9|16.7|
92196639|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.2|STANDARD_DEVIATION|1.8||||95.0|17.0|17.5||||||IOP 2 years (n=175)||17.5|17.0|
92196640|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.6|STANDARD_DEVIATION|2.8||||95.0|15.9|17.2||||||IOP 2 years (n=83)||17.2|15.9|
92196641|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.1|STANDARD_DEVIATION|3.7||||95.0|16.9|17.2||||||IOP 2 years (n=2002)||17.2|16.9|
92320639|NCT02915705|184546395|SUPERIORITY||difference in LS means|1.9||||0.3145|TWO_SIDED|95.0|-1.8|5.59|||GEE model|||Physical Function Mobility Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||5.59|-1.80|0.3145
92320640|NCT02915705|184546395|SUPERIORITY||difference in LS means|-1.08||||0.681|TWO_SIDED|95.0|-6.21|4.06|||GEE model|||Fatigue Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||4.06|-6.21|0.6810
92320641|NCT02915705|184546396|SUPERIORITY||Difference in LS Means|0.01||||0.9862|TWO_SIDED|95.0|-0.79|0.8|||GEE model|||GEE model includes change from baseline for FPS-R as the dependent variable, treatment group, visit, interaction between treatment group by visit and baseline RSS stratification as factors, baseline FPS-R as a covariate, with exchangeable covariance structure. The LS Mean, SE, 95% CI and 2-sided p-value are from the GEE model.||0.80|-0.79|0.9862
92320642|NCT02915705|184546397|SUPERIORITY||difference in LS means|0.05||||0.8786|TWO_SIDED|95.0|-0.58|0.68|||GEE model|||GEE model includes change from baseline for FPS-R as the dependent variable, treatment group, visit, interaction between treatment group by visit and baseline RSS stratification as factors, baseline FPS-R as a covariate, with exchangeable covariance structure. The LS Mean, SE, 95% CI and 2-sided p-value are from the GEE model.||0.68|-0.58|0.8786
92320643|NCT02915705|184546398|SUPERIORITY||difference in LS means|43.46||||0.0514|TWO_SIDED|95.0|-0.26|87.17|||GEE model|||2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||87.17|-0.26|0.0514
92320644|NCT02915705|184546399|SUPERIORITY||difference in LS means|45.55||||0.0399|TWO_SIDED|95.0|2.09|89.02|||GEE model|||2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||89.02|2.09|0.0399
92320645|NCT02915705|184546400|SUPERIORITY||difference in LS means|6.72||||0.0633|TWO_SIDED|95.0|-0.37|13.82|||GEE model|||2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||13.82|-0.37|0.0633
92320646|NCT02915705|184546401|SUPERIORITY||difference in LS means|7.27||||0.0496|TWO_SIDED|95.0|0.01|14.52|||GEE model|||2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||14.52|0.01|0.0496
92320647|NCT05763875|184546406|SUPERIORITY||LS Mean Difference|-35.37|||<|0.0001|TWO_SIDED|95.0|-40.88|-29.86|||ANCOVA|||Treatment Policy Estimand||-29.86|-40.88|<0.0001
92320648|NCT05763875|184546406|SUPERIORITY||LS Mean Difference|-47.91|||<|0.0001|TWO_SIDED|95.0|-53.62|-42.2|||ANCOVA|||Treatment Policy Estimand||-42.20|-53.62|<0.0001
92320649|NCT05763875|184546406|SUPERIORITY||LS Mean Difference|-37.44|||<|0.0001|TWO_SIDED|95.0|-42.63|-32.26|||ANCOVA|||Monotherapy Estimand||-32.26|-42.63|<0.0001
92320650|NCT05763875|184546406|SUPERIORITY||LS Mean Difference|-50.9|||<|0.0001|TWO_SIDED|95.0|-56.51|-45.28|||ANCOVA|||Monotherapy Estimand||-45.28|-56.51|<0.0001
92320651|NCT05763875|184546407|SUPERIORITY||LS Mean Difference|-47.37|||<|0.0001|TWO_SIDED|95.0|-53.91|-40.72|||ANCOVA|||Treatment Policy Estimand||-40.72|-53.91|<0.0001
92320652|NCT05763875|184546407|SUPERIORITY||LS Mean Difference|-63.57|||<|0.0001|TWO_SIDED|95.0|-70.28|-56.87|||ANCOVA|||Treatment Policy Estimand||-56.87|-70.28|<0.0001
92320653|NCT05763875|184546407|SUPERIORITY||LS Mean Difference|-50.05|||<|0.0001|TWO_SIDED|95.0|-56.16|-43.94|||ANCOVA|||Monotherapy Estimand||-43.94|-56.16|<0.0001
92320654|NCT05763875|184546407|SUPERIORITY||LS Mean Difference|-67.51|||<|0.0001|TWO_SIDED|95.0|-74.09|-60.92|||ANCOVA|||Monotherapy Estimand||-60.92|-74.09|<0.0001
92320655|NCT05763875|184546408|SUPERIORITY||LS Mean Difference|-73.16|||<|0.0001|TWO_SIDED|95.0|-81.76|-64.56|||ANCOVA|||Treatment Policy Estimand||-64.56|-81.76|<0.0001
92320656|NCT05763875|184546408|SUPERIORITY||LS Mean Difference|-74.94|||<|0.0001|TWO_SIDED|95.0|-84.51|-65.37|||ANCOVA|||Treatment Policy Estimand||-65.37|-84.51|<0.0001
92320657|NCT05763875|184546408|SUPERIORITY||LS Mean Difference|-76.87|||<|0.0001|TWO_SIDED|95.0|-85.12|-68.62|||ANCOVA|||Monotherapy Estimand||-68.62|-85.12|<0.0001
92320658|NCT05763875|184546408|SUPERIORITY||LS Mean Difference|-79.47|||<|0.0001|TWO_SIDED|95.0|-88.77|-70.17|||ANCOVA|||Monotherapy Estimand||-70.17|-88.77|<0.0001
92320659|NCT05763875|184546409|SUPERIORITY||LS Mean Difference|-30.48|||<|0.0001|TWO_SIDED|95.0|-34.98|-25.98|||ANCOVA|||Treatment Policy Estimand||-25.98|-34.98|<0.0001
92320660|NCT05763875|184546409|SUPERIORITY||LS Mean Difference|-42.32|||<|0.0001|TWO_SIDED|95.0|-47.83|-36.82|||ANCOVA|||Treatment Policy Estimand||-36.82|-47.83|<0.0001
92320661|NCT05763875|184546409|SUPERIORITY||LS Mean Difference|-31.98|||<|0.0001|TWO_SIDED|95.0|-36.07|-27.89|||ANCOVA|||Monotherapy Estimand||-27.89|-36.07|<0.0001
92320662|NCT05763875|184546409|SUPERIORITY||LS Mean Difference|-44.86|||<|0.0001|TWO_SIDED|95.0|-50.28|-39.44|||ANCOVA|||Monotherapy Estimand||-39.44|-50.28|<0.0001
92320663|NCT05763875|184546410|SUPERIORITY||LS Mean Difference|-24.84|||<|0.0001|TWO_SIDED|95.0|-30.32|-19.36|||ANCOVA|||Treatment Policy Estimand||-19.36|-30.32|<0.0001
92320664|NCT05763875|184546410|SUPERIORITY||LS Mean Difference|-33.85|||<|0.0001|TWO_SIDED|95.0|-41.27|-26.44|||ANCOVA|||Treatment Policy Estimand||-26.44|-41.27|<0.0001
92320665|NCT05763875|184546410|SUPERIORITY||LS Mean Difference|-26.58|||<|0.0001|TWO_SIDED|95.0|-32.07|-21.09|||ANCOVA|||Monotherapy Estimand||-21.09|-32.07|<0.0001
92320666|NCT05763875|184546410|SUPERIORITY||LS Mean Difference|-36.06|||<|0.0001|TWO_SIDED|95.0|-43.46|-28.67|||ANCOVA|||Monotherapy Estimand||-28.67|-43.46|<0.0001
92320667|NCT05763875|184546411|SUPERIORITY||LS Mean Difference|-28.98|||<|0.0001|TWO_SIDED|95.0|-33.3|-24.65|||ANCOVA|||Treatment Policy Estimand||-24.65|-33.30|<0.0001
92196642|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.0|STANDARD_DEVIATION|3.4||||95.0|16.9|17.1||||||IOP 3 years (n=5469)||17.1|16.9|
92196643|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.8|STANDARD_DEVIATION|3.2||||95.0|16.7|17.0||||||IOP 3 years (n=1932)||17.0|16.7|
92196644|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.5|STANDARD_DEVIATION|2.5||||95.0|16.9|18.1||||||IOP 3 years (n=64)||18.1|16.9|
92196645|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.5|STANDARD_DEVIATION|2.8||||95.0|15.7|17.4||||||IOP 3 years (n=44)||17.4|15.7|
92196646|NCT01012245|184291760|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.9|STANDARD_DEVIATION|3.6||||95.0|16.7|17.1||||||IOP 3 years (n=1251)||17.1|16.7|
92196647|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.46|STANDARD_DEVIATION|0.25||||95.0|0.46|0.47||||||Vertical C/D ratio 1 year (n=11966)||0.47|0.46|
92196648|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.44|STANDARD_DEVIATION|0.24||||95.0|0.43|0.44||||||Vertical C/D ratio 1 year (n=4944)||0.44|0.43|
92196649|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.39|STANDARD_DEVIATION|0.19||||95.0|0.35|0.43||||||Vertical C/D ratio 1 year (n=88)||0.43|0.35|
92196650|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.5|STANDARD_DEVIATION|0.24||||95.0|0.47|0.53||||||Vertical C/D ratio 1 year (n=241)||0.53|0.47|
92196651|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.51|STANDARD_DEVIATION|0.27||||95.0|0.5|0.52||||||Vertical C/D ratio 1 year (n=2949)||0.52|0.50|
92196652|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.46|STANDARD_DEVIATION|0.25||||95.0|0.46|0.47||||||Vertical C/D ratio 2 years (n=8783)||0.47|0.46|
92196653|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.43|STANDARD_DEVIATION|0.23||||95.0|0.42|0.44||||||Vertical C/D ratio 2 years (n=3396)||0.44|0.42|
92196654|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.39|STANDARD_DEVIATION|0.16||||95.0|0.33|0.45||||||Vertical C/D ratio 2 years (n=31)||0.45|0.33|
92196655|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.49|STANDARD_DEVIATION|0.24||||95.0|0.44|0.54||||||Vertical C/D ratio 2 years (n=95)||0.54|0.44|
92320668|NCT05763875|184546411|SUPERIORITY||LS Mean Difference|-36.66|||<|0.0001|TWO_SIDED|95.0|-41.1|-32.22|||ANCOVA|||Treatment Policy Estimand||-32.22|-41.10|<0.0001
92196656|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.51|STANDARD_DEVIATION|0.27||||95.0|0.5|0.53||||||Vertical C/D ratio 2 years (n=1934)||0.53|0.50|
92196657|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.45|STANDARD_DEVIATION|0.24||||95.0|0.44|0.45||||||Vertical C/D ratio 3 years (n=6344)||0.45|0.44|
92196658|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.42|STANDARD_DEVIATION|0.22||||95.0|0.41|0.43||||||Vertical C/D ratio 3 years (n=2372)||0.43|0.41|
92196659|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.33|STANDARD_DEVIATION|0.14||||95.0|0.27|0.39||||||Vertical C/D ratio 3 years (n=25)||0.39|0.27|
92196660|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.47|STANDARD_DEVIATION|0.18||||95.0|0.41|0.53||||||Vertical C/D ratio 3 years (n=36)||0.53|0.41|
92196661|NCT01012245|184291762|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.49|STANDARD_DEVIATION|0.26||||95.0|0.48|0.51||||||Vertical C/D ratio 3 years (n=1283)||0.51|0.48|
92196662|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.45|STANDARD_DEVIATION|0.25||||95.0|0.45|0.46||||||Horizontal C/D ratio 1 year (n=11433)||0.46|0.45|
92196663|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.42|STANDARD_DEVIATION|0.23||||95.0|0.42|0.43||||||Horizontal C/D ratio 1 year (n=4810)||0.43|0.42|
92196664|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.37|STANDARD_DEVIATION|0.19||||95.0|0.33|0.42||||||Horizontal C/D ratio 1 year (n=87)||0.42|0.33|
92196665|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.5|STANDARD_DEVIATION|0.25||||95.0|0.47|0.53||||||Horizontal C/D ratio 1 year (n=232)||0.53|0.47|
92196666|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.51|STANDARD_DEVIATION|0.27||||95.0|0.5|0.52||||||Horizontal C/D ratio 1 year (n=2703)||0.52|0.50|
92196667|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.45|STANDARD_DEVIATION|0.25||||95.0|0.44|0.45||||||Horizontal C/D ratio 2 years (n=8427)||0.45|0.44|
92196668|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.41|STANDARD_DEVIATION|0.23||||95.0|0.4|0.42||||||Horizontal C/D ratio 2 years (n=3276)||0.42|0.40|
92196669|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.38|STANDARD_DEVIATION|0.19||||95.0|0.31|0.45||||||Horizontal C/D ratio 2 years (n=31)||0.45|0.31|
92196670|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.5|STANDARD_DEVIATION|0.25||||95.0|0.45|0.56||||||Horizontal C/D ratio 2 years (n=92)||0.56|0.45|
92196671|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.51|STANDARD_DEVIATION|0.27||||95.0|0.49|0.52||||||Horizontal C/D ratio 2 years (n=1812)||0.52|0.49|
92196672|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.43|STANDARD_DEVIATION|0.24||||95.0|0.43|0.44||||||Horizontal C/D ratio 3 years (n=6102)||0.44|0.43|
92196673|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.4|STANDARD_DEVIATION|0.22||||95.0|0.39|0.41||||||Horizontal C/D ratio 3 years (n=2289)||0.41|0.39|
92196674|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.31|STANDARD_DEVIATION|0.15||||95.0|0.25|0.38||||||Horizontal C/D ratio 3 years (n=25)||0.38|0.25|
92196675|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.49|STANDARD_DEVIATION|0.21||||95.0|0.42|0.57||||||Horizontal C/D ratio 3 years (n=35)||0.57|0.42|
92196676|NCT01012245|184291763|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.48|STANDARD_DEVIATION|0.26||||95.0|0.47|0.5||||||Horizontal C/D ratio 3 years (n=1204)||0.50|0.47|
92196677|NCT05781750|184291799|OTHER|Trial was early terminated.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.2|3.3||||||Time to complete renal response for zetomipzomib 30 mg + standard-of-care versus placebo + standard-of-care||3.3|0.2|
92196678|NCT05781750|184291799|OTHER|Trial was early terminated.|Hazard Ratio (HR)|2.1|||||TWO_SIDED|95.0|0.7|6.7||||||Time to complete renal response for zetomipzomib 60 mg + standard-of-care versus placebo + standard-of-care||6.7|0.7|
92196679|NCT05781750|184291799|OTHER|Trial was early terminated.|Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.5|3.0||||||Time to partial renal response for zetomipzomib 30 mg + standard-of-care versus placebo + standard-of-care||3.0|0.5|
92196680|NCT05781750|184291799|OTHER|Trial was early terminated.|Hazard Ratio (HR)|2.6|||||TWO_SIDED|95.0|1.1|5.9||||||Time to partial renal response zetomipzomib 60 mg + standard-of-care versus placebo + standard-of-care||5.9|1.1|
92320669|NCT05763875|184546411|SUPERIORITY||LS Mean Difference|-30.16|||<|0.0001|TWO_SIDED|95.0|-34.08|-26.23|||ANCOVA|||Monotherapy Estimand||-26.23|-34.08|<0.0001
92320670|NCT05763875|184546411|SUPERIORITY||LS Mean Difference|-38.78|||<|0.0001|TWO_SIDED|95.0|-43.12|-34.43|||ANCOVA|||Monotherapy Estimand||-34.43|-43.12|<0.0001
92196681|NCT02309346|184291808|NON_INFERIORITY|The non-inferiority margin was defined as a 2% difference. The sample size calculation aimed for 90% power at a 5% one-sided significance level, assuming clinical cure rates of 99% (standard arm) and 100% (experimental arm). This required 95 patients per arm, with a target enrollment of 100 per arm to account for potential dropouts.|Difference between 2 proportions|-0.02||||0.06|ONE_SIDED|95.0|-0.02||||Chi-squared|The 95% confidence interval for the difference in proportions between the two arms was calculated.||The null hypothesis (H₀) was that the treatment success rate of the once-daily clindamycin regimen is inferior to that of the thrice-daily regimen by a pre-specified non-inferiority margin (delta) of 2%. To achieve 90% power with a one-sided significance level (alpha) of 0.05 to reject the null hypothesis, a sample size of approximately 95 patients per group was required.|||-0.02|0.06
92196682|NCT01777334|184291811|SUPERIORITY_OR_OTHER||Least squares mean difference|0.112|||<|0.001|TWO_SIDED|95.0|0.081|0.144|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus TIO 18 µg.|||0.144|0.081|<0.001
92196683|NCT00992992|184291848|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants|56.0|||||TWO_SIDED|95.0|37.0|75.0|||||The estimated value reflects the percentage of participants with unconfirmed complete response (CR).|||75|37|
92196684|NCT00992992|184291848|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants|8.0|||||TWO_SIDED|95.0|0.0|19.0|||||The estimated value reflects the percentage of participants with unconfirmed complete response unconfirmed (CRu).|||19|0|
92196685|NCT00992992|184291848|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants|20.0|||||TWO_SIDED|95.0|4.0|36.0|||||The estimated value reflects the percentage of participants with unconfirmed partial response.|||36|4|
92196686|NCT01182181|184291888|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.6|||||TWO_SIDED|90.0|92.34|98.95|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||98.95|92.34|
92196687|NCT01182181|184291889|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.3|||||TWO_SIDED|90.0|93.14|99.57|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||99.57|93.14|
92196688|NCT00511797|184291890|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.49|-0.34||Pre-defined sequential tests were applied to protect alpha inflation by multiplicity.|t-test, 1 sided|||Three null hypotheses were sequentially tested. H01: DRSP 3 mg \>= Placebo (Active is equal or less in decrease of score) vs H11: DRSP 3 mg \< Placebo (Active is greater in decrease of score), H02: DRSP 2 mg \>= Placebo vs H12: DRSP 2 mg \< Placebo, H03: DRSP 1 mg \>= Placebo vs H13: DRSP 1 mg \< Placebo.||-0.34|-1.49|<0.001
92196689|NCT00511797|184291890|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.277|<|0.001||95.0|-1.64|-0.55|||t-test, 1 sided|||Second null hypothesis was tested. H02: DRSP 2 mg \>= Placebo vs H12: DRSP 2 mg \< Placebo.||-0.55|-1.64|<0.001
92196690|NCT00511797|184291890|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|0.28|<|0.001||95.0|-2.0|-0.89|||t-test, 1 sided|||Third null hypotheses was tested. H03: DRSP 1 mg \>= Placebo vs H13: DRSP 1 mg \< Placebo.||-0.89|-2.00|<0.001
92196691|NCT00511797|184291891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.322|<|0.001|TWO_SIDED|95.0|-1.74|-0.46|||t-test, 1 sided|||Test results of 3 mg DRSP and placebo at Cycle 4 are shown. 2-sided 95% confidence intervals were calculated. To keep consistency with 2-sided 95% confidence intervals, 2.5% 1-sided significance levels were used for the statistical tests.||-0.46|-1.74|<0.001
92196692|NCT00511797|184291891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34|STANDARD_ERROR_OF_MEAN|0.306|<|0.001||95.0|-1.95|-0.73|||t-test, 1 sided|||||-0.73|-1.95|<0.001
92196693|NCT00511797|184291891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53|STANDARD_ERROR_OF_MEAN|0.317|<|0.001||95.0|-2.16|-0.9|||t-test, 1 sided|||||-0.90|-2.16|<0.001
92196694|NCT02138253|184291921|SUPERIORITY|For the primary efficacy analysis based on the Month 24 biopsy, subjects with a missing Month 24 biopsy had their Ishak fibrosis score imputed. Imputation of missing Ishak fibrosis scores was conducted using multiple imputation (MI). Results were imputed based on age, gender, baseline Ishak fibrosis score, and the Month 12 Ishak fibrosis score.|Risk Difference (RD)|2.9||||0.73|TWO_SIDED|95.0|-20.5|26.4||Stratified by baseline Ishak Fibrosis Score strata (F2, F3+F4+F5, and F6).|Cochran-Mantel-Haenszel|||All screening and post-baseline biopsy data collected were used in the primary analysis, irrespective of the defined protocol visit window. Classification of the Ishak fibrosis score was summarized descriptively by treatment group at baseline, Month 12, and Month 24. Response at Months 12 and 24 were summarized descriptively by treatment group, along with exact (Clopper-Pearson) 95% confidence intervals (CIs). The risk difference between groups was also was provided with its 95% CI.||26.4|-20.5|0.73
92320671|NCT05763875|184546412|SUPERIORITY||LS Mean Difference|-30.24|||<|0.0001|TWO_SIDED|95.0|-36.92|-23.57|||ANCOVA|||Treatment Policy Estimand||-23.57|-36.92|<0.0001
92196695|NCT02138253|184291922|SUPERIORITY||Risk Difference (RD)|4.4||||0.658|TWO_SIDED|95.0|-20.0|28.9|||Cochran-Mantel-Haenszel|||All screening and post-baseline biopsy data collected were used in the primary analysis, irrespective of the defined protocol visit window. Classification of the Ishak fibrosis score was summarized descriptively by treatment group at baseline, Month 12, and Month 24. Response at Months 12 and 24 were summarized descriptively by treatment group, along with exact (Clopper-Pearson) 95% confidence intervals (CIs). The risk difference between groups was also was provided with its 95% CI.||28.9|-20.0|0.658
92320672|NCT05763875|184546412|SUPERIORITY||LS Mean Difference|-35.15|||<|0.0001|TWO_SIDED|95.0|-41.18|-29.12|||ANCOVA|||Treatment Policy Estimand||-29.12|-41.18|<0.0001
92320673|NCT05763875|184546412|SUPERIORITY||LS Mean Difference|-32.34|||<|0.0001|TWO_SIDED|95.0|-39.1|-25.59|||ANCOVA|||Monotherapy Estimand||-25.59|-39.10|<0.0001
92196696|NCT02138253|184291923|SUPERIORITY||Risk Difference (RD)|-7.9||||0.421|TWO_SIDED|95.0|-28.8|13.1|||Cochran-Mantel-Haenszel|||All screening and post-baseline biopsy data collected were used in the primary analysis, irrespective of the defined protocol visit window. Classification of the Ishak fibrosis score was summarized descriptively by treatment group at baseline, Month 12, and Month 24. Response at Months 12 and 24 were summarized descriptively by treatment group, along with exact (Clopper-Pearson) 95% confidence intervals (CIs). The risk difference between groups was also was provided with its 95% CI.||13.1|-28.8|0.421
92196697|NCT01390441|184291933|NON_INFERIORITY_OR_EQUIVALENCE|PK bioequivalence was assumed if the 90% confidence interval of the geometric mean ratio for the comparison fell within the range 0.80-1.25.|Geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.87|1.16|||ANOVA|||Back-transformed least squares mean and confidence interval from fixed effects model performed on natural log-transformed values containing treatment as a fixed effect and gender as a covariate.||1.16|0.87|
92196698|NCT01390441|184291935|SUPERIORITY_OR_OTHER||Percent difference|-17.2|||||TWO_SIDED|95.0|-38.6|3.6|||Miettinen-Nurminen|||The difference in percent AE incidence was determined for the treatment comparison (Part A: MK-8808 500 mg/m\^2 - Part A: MabThera 500 mg/m\^2) when \>=4 participants in an arm experienced an event.||3.6|-38.6|
92196699|NCT01390441|184291935|SUPERIORITY_OR_OTHER||Percent difference|-17.5|||||TWO_SIDED|95.0|-44.4|10.9|||Miettinen-Nurminen|||The difference in percent AE incidence was determined for the treatment comparison (Part B: MK-8808 1000 mg - Part B: MabThera 1000 mg) when \>=4 participants in an arm experienced an event.||10.9|-44.4|
92196700|NCT01390441|184291935|SUPERIORITY_OR_OTHER||Percent difference|-5.6|||||TWO_SIDED|95.0|-34.9|24.6|||Miettinen-Nurminen|||The difference in percent AE incidence was determined for the treatment comparison (Part B: MK-8808 1000 mg - Part B: Rituxan® 1000 mg) when \>=4 participants in an arm experienced an event.||24.6|-34.9|
92196701|NCT01390441|184291935|SUPERIORITY_OR_OTHER||Percent differnce|12.0|||||TWO_SIDED|95.0|-15.6|38.9|||Miettinen-Nurminen|||The difference in percent AE incidence was determined for the treatment comparison (Part B: MabThera® 1000 mg - Part B: Rituxan® 1000 mg) when \>=4 participants in an arm experienced an event.||38.9|-15.6|
92196702|NCT01390441|184291937|NON_INFERIORITY_OR_EQUIVALENCE|PK bioequivalence was assumed if the 90% confidence interval of the geometric mean ratio for the comparison fell within the range 0.80-1.25.|Geometric mean ratio|0.98|||||TWO_SIDED|90.0|0.87|1.1|||ANOVA|||Back-transformed least squares mean and confidence interval from fixed effects model performed on natural log-transformed values containing treatment as a fixed effect and gender as a covariate.||1.1|0.87|
92196703|NCT01390441|184291941|NON_INFERIORITY_OR_EQUIVALENCE||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|The model included a term for treatment.||Estimated difference vs MabThera® at 6 weeks.||0.5|-0.9|
92196704|NCT01390441|184291941|NON_INFERIORITY_OR_EQUIVALENCE||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.4|1.2|||ANCOVA|The model included a term for treatment.||Estimated difference vs MabThera® at 12 weeks.||1.2|-0.4|
92196705|NCT02446613|184291944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_DEVIATION|0.007|||TWO_SIDED|95.0|-1.41|5.43|||||The posterior probability statement value for change from baseline in post-challenge TNSS ≤0 was 0.1071.|||5.43|-1.41|
92196706|NCT02446613|184291945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|0.007|||TWO_SIDED|95.0|-1.98|3.75|||||The posterior probability statement value for change from baseline in post-challenge TNSS ≤0 was 0.2417.|||3.75|-1.98|
92196707|NCT02446613|184291946|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.4|STANDARD_DEVIATION|0.007|||TWO_SIDED|95.0|-1.08|1.87|||||The posterior probability statement value for change from baseline in post-challenge TNSS ≤0 was 0.2876.|||1.87|-1.08|
92196708|NCT02446613|184291947|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.9|STANDARD_DEVIATION|0.006|||TWO_SIDED|95.0|-1.86|5.34|||||The posterior probability statement value for change from baseline in post-challenge TNSS ≤0 was 0.1453.|||5.34|-1.86|
92320674|NCT05763875|184546412|SUPERIORITY||LS Mean Difference|-37.38|||<|0.0001|TWO_SIDED|95.0|-43.44|-31.31|||ANCOVA|||Monotherapy Estimand||-31.31|-43.44|<0.0001
92320675|NCT05763875|184546413|SUPERIORITY||Ratio of Geometric Mean|0.757||||0.0002|TWO_SIDED|95.0|0.65|0.882|||ANCOVA|||Treatment Policy Estimand||0.882|0.650|0.0002
92196709|NCT02446613|184291948|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.6|STANDARD_DEVIATION|0.006|||TWO_SIDED|95.0|-10.7|19.71|||||The posterior probability statement value for percentage reduction in the reductions of PNIF ≤0 was 0.2665.|||19.71|-10.70|
92196710|NCT02446613|184291949|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.3|STANDARD_DEVIATION|0.007|||TWO_SIDED|95.0|-14.97|24.38|||||The posterior probability statement value for percentage reduction in the reductions of PNIF ≤0 was 0.3266|||24.38|-14.97|
92196711|NCT02446613|184291950|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.1|STANDARD_DEVIATION|0.008|||TWO_SIDED|95.0|-17.47|19.2|||||The posterior probability statement value for percentage reduction in the reductions of PNIF ≤0 was 0.4528|||19.20|-17.47|
92196712|NCT02446613|184291951|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.6|STANDARD_DEVIATION|0.007|||TWO_SIDED|95.0|-13.69|28.04|||||The posterior probability statement value for percentage reduction in the reductions of PNIF ≤0 was 0.2525|||28.04|-13.69|
92196713|NCT04788511|184291953|SUPERIORITY||Estimated Treatment Difference|7.8|||<|0.0001|TWO_SIDED|95.0|4.8|10.9|||ANCOVA|||The responses at week 52 were analyzed using an analysis of covariance model with randomized treatment and stratification (BMI\<35.0 kg/m\^2, BMI\>=35.0 kg/m\^2) as factors and baseline KCCQ-CSS as covariate. The analysis was based on the in-trial period using the FAS population. Missing observations at week 52 were multiple (x1000) imputed from retrieved participants of the same randomized treatment arm.||10.9|4.8|<0.0001
92196714|NCT04788511|184291954|SUPERIORITY||Estimated Treatment Difference|-10.7|||<|0.0001|TWO_SIDED|95.0|-11.9|-9.4|||ANCOVA|||The responses were analyzed using an analysis of covariance model with randomized treatment and stratification (BMI\<35.0 kg/m\^2, BMI\>=35.0 kg/m\^2) as factors and baseline body weight (kg) as covariate. The analysis was based on the in-trial period using the FAS population. Missing observations at week 52 were multiple (x1000) imputed from retrieved participants of the same randomized treatment arm.||-9.4|-11.9|<0.0001
92196715|NCT03178045|184291975|OTHER|Multivariable Logistic Regression|Estimated Increase|0.23|||||TWO_SIDED|95.0|-3.1|3.6||||||||3.6|-3.1|
92196716|NCT03178045|184291976|OTHER|Multivariable logistic regression|Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.69|1.31||||||||1.31|0.69|
92196717|NCT03178045|184291977|OTHER|Longitudinal mixed effects regression|Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.6|1.32||||||||1.32|0.60|
92196718|NCT04211389|184292005|SUPERIORITY||Odds Ratio (OR)|6.59|||<|0.0001|TWO_SIDED|95.0|3.17|13.7||Stratification by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Cochran-Mantel-Haenszel||Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|IGA Success at Week 8 Odds Ratio||13.70|3.17|<0.0001
92196719|NCT04211389|184292006|SUPERIORITY||Hazard Ratio (HR)|4.207|||<|0.0001|TWO_SIDED|95.0|3.029|5.844|||Log Rank|Unstratified log-rank test|HR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization.|Time to Achieve PASI-50||5.844|3.029|<0.0001
92196720|NCT04211389|184292007|SUPERIORITY||Odds Ratio (OR)|10.42|||<|0.0001|TWO_SIDED|95.0|4.49|24.19|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|PASI-75 at Week 8 Odds Ratio||24.19|4.49|<0.0001
92196721|NCT04211389|184292008|SUPERIORITY||Odds Ratio (OR)|8.51||||0.0002|TWO_SIDED|95.0|2.45|28.86|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|PASI-90 at Week 8 Odds Ratio||28.86|2.45|0.0002
92196722|NCT04211389|184292009|SUPERIORITY||Odds Ratio (OR)|11.18||||0.0004|TWO_SIDED|95.0|2.33|53.68|||Cochran-Mantel-Haenszel|Stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|I-IGA Success at Week 8 Odds Ratio||53.68|2.33|0.0004
92196723|NCT04211389|184292010|SUPERIORITY||Odds Ratio (OR)|15.27||||0.0002|TWO_SIDED|95.0|3.1|75.35|||Cochran-Mantel-Haenszel|Stratified by pooled study site and baseline IGA with multiple imputation of missing data.|Common odds ratio stratified by pooled study site and baseline IGA with multiple imputation of missing data.|I-IGA Clear at Week 8 Odds Ratio||75.35|3.10|0.0002
92196724|NCT04211389|184292011|SUPERIORITY|WI-NRS Success at Week 2 Odds Ratio|Odds Ratio (OR)|2.56||||0.0026|TWO_SIDED|95.0|1.43|4.58|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|||4.58|1.43|0.0026
92196725|NCT04211389|184292011|SUPERIORITY|WI-NRS Success at Week 4 Odds Ratio|Odds Ratio (OR)|4.93|||<|0.0001|TWO_SIDED|95.0|2.65|9.18|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|||9.18|2.65|<0.0001
92196726|NCT04211389|184292011|SUPERIORITY|WI-NRS Success at Week 8 Odds Ratio|Odds Ratio (OR)|3.59|||<|0.0001|TWO_SIDED|95.0|2.07|6.23|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|||6.23|2.07|<0.0001
92196727|NCT04211389|184292012|SUPERIORITY||Mean Difference (Final Values)|-26.0|||<|0.0001|TWO_SIDED|95.0|-31.9|-20.0|||ANCOVA|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|LS Mean Difference at Week 4||-20.0|-31.9|<0.0001
92196728|NCT04211389|184292012|SUPERIORITY||Mean Difference (Final Values)|-26.5|||<|0.0001|TWO_SIDED|95.0|-33.2|-19.7|||ANCOVA|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|LS Mean Difference at Week 8||-19.7|-33.2|<0.0001
92196729|NCT01182207|184292018|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.74|||||TWO_SIDED|90.0|86.82|107.79|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||107.79|86.82|
92196730|NCT01182207|184292019|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.16|||||TWO_SIDED|90.0|101.1|105.27|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||105.27|101.10|
92196731|NCT01182207|184292020|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.72|||||TWO_SIDED|90.0|100.67|104.8|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.80|100.67|
92320676|NCT05763875|184546413|SUPERIORITY||Ratio of Geometric Mean|0.748||||0.001|TWO_SIDED|95.0|0.622|0.898|||ANCOVA|||Treatment Policy Estimand||0.898|0.622|0.0010
92320677|NCT05763875|184546413|SUPERIORITY||Ratio of Geometric Mean|0.753|||<|0.0001|TWO_SIDED|95.0|0.652|0.871|||ANCOVA|||Monotherapy Estimand||0.871|0.652|<0.0001
92320678|NCT05763875|184546413|SUPERIORITY||Ratio of Geometric Mean|0.746||||0.0008|TWO_SIDED|95.0|0.622|0.893|||ANCOVA|||Monotherapy Estimand||0.893|0.622|0.0008
92320679|NCT01399047|184546422|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.105||||0.21|TWO_SIDED|95.0|-0.033|0.243|||Prescott's test||Mycophenolate was tolerated in 17/19 subjects (89.5%, 95% CI: 66.9% - 98.7%), while placebo was tolerated in 19/19 subjects (100%, 95% CI: 82.4% - 100%). The difference in tolerability rates was 10.5% (95% CI: -3.3% - 24.3%, p=0.21).|The primary outcome variable was tolerability, defined as the proportion of subjects able to complete 8 weeks on the assigned treatment. Tolerability was compared among the treatment groups using Prescott's test. A 95% confidence interval was computed for the tolerability of mycophenolate, placebo, and their difference.||0.243|-0.033|0.21
92320680|NCT01399047|184546423|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.69||||0.72|TWO_SIDED|95.0|-4.67|3.28|||Prescott's test|||||3.28|-4.67|0.72
92320681|NCT01399047|184546424|SUPERIORITY|||||||0.78|||||||Prescott's test|||||||0.78
92320682|NCT01399047|184546425|SUPERIORITY|||||||0.98|||||||Prescott's test|||||||0.98
92320683|NCT01399047|184546426|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
92320684|NCT04532619|184546440|SUPERIORITY||Slope|0.5||||0.014|TWO_SIDED|95.0|0.1|0.89||Computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||0.89|0.10|0.014
92320685|NCT04532619|184546441|SUPERIORITY||Slope|-0.05||||0.8|TWO_SIDED|95.0|-0.41|0.32||computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||0.32|-0.41|0.80
92320686|NCT04532619|184546442|SUPERIORITY||Slope|-0.29||||0.009|TWO_SIDED|95.0|-0.51|-0.07||computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||-0.07|-0.51|0.009
92320687|NCT04532619|184546443|SUPERIORITY||Slope|0.17||||0.118|TWO_SIDED|95.0|-0.04|0.38||calculated p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||0.38|-0.04|0.118
92320688|NCT04532619|184546444|SUPERIORITY||Odds Ratio, log|-0.9|STANDARD_ERROR_OF_MEAN|0.77||0.24|TWO_SIDED|||||computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology. A logistic link function was used for this binary outcome.||||.24
92320689|NCT04532619|184546445|SUPERIORITY||Slope|-1.33||||0.43|TWO_SIDED|95.0|-4.64|1.98||computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||1.98|-4.64|0.43
92196732|NCT01182207|184292021|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.6|||||TWO_SIDED|90.0|89.45|106.5|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||106.50|89.45|
92320690|NCT04532619|184546446|SUPERIORITY||Slope|-2.06||||0.07|TWO_SIDED|95.0|-4.27|0.15||computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||0.15|-4.27|0.07
92320691|NCT00769067|184546462|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.657||||0.012|TWO_SIDED|95.0|0.472|0.914||2-Sided.|Log Rank|Adjusted for the stratification factors: EGFR status, KRAS status and baseline ECOG performance status.|The estimated HR was for the Dacomitinib arm versus the Erlotinib arm.|"Total 128 events (progression/death) provided 80% power to detect a hazard ratio (HR) of 1.45 (Erlotinib versus Dacomitinib arm) with 1-sided alpha=0.10.This represented a 45% improvement in true median PFS.~HR and 95% confidence interval estimated from stratified Cox Regression;2-sided p-value was based on stratified log-rank test with epidermal growth factor receptor (EGFR) status, Kirsten Rat Sarcoma status (KRAS), baseline Eastern Cooperative Oncology Group (ECOG) as stratification factors"||0.914|0.472|0.012
92320692|NCT00769067|184546463|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||2-Sided.|Chi-squared|Unadjusted.||||||0.011
92320693|NCT00769067|184546466|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.822||||0.252|TWO_SIDED|95.0|0.587|1.151||2-Sided.|Log Rank|Adjusted by stratification factors: EGFR status, KRAS status and baseline ECOG performance status.|The estimated HR was for the Dacomitinib arm versus the Erlotinib arm.|HR and its 95% confidence interval were estimated from stratified Cox Regression and 2-sided p-value was based on the stratified log-rank test with EGFR status, KRAS status and baseline ECOG as stratification factors.||1.151|0.587|0.252
92320694|NCT00468481|184546519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|384.7|||<|0.0001||95.0|282.42|486.98|||ANCOVA|Analysis of Covariance (ANCOVA) with treatment as factor and Baseline (RBC folate) as covariate|Difference = DRSP/EE/MTHF - YAZ|The null hypothesis was that the difference between DRSP/EE/MTHF and Yaz treatment groups in the RBC folate levels at week 24 was 0.||486.98|282.42|<0.0001
92320695|NCT00468481|184546520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.87|||<|0.0001||95.0|14.04|23.7|||ANCOVA|Analysis of Covariance (ANCOVA) with treatment as factor and Baseline (plasma folate) as covariate|Difference =DRSP/EE/MTHF - YAZ|The null hypothesis was that the difference between DRSP/EE/MTHF and Yaz treatment groups in the plasma folate levels at week 24 was 0.||23.70|14.04|<0.0001
92320696|NCT02498444|184546602|OTHER||Risk Ratio (RR)|1.29||||0.03|TWO_SIDED|95.0|1.02|1.64|||Poisson regression|Poisson regression model demonstrating associations between treatment groups and outcomes (chest tube duration in days and length of stay in days)||||1.64|1.02|0.03
92196733|NCT01182207|184292022|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.88|||||TWO_SIDED|90.0|95.62|102.25|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||102.25|95.62|
92196734|NCT01182207|184292023|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.2|||||TWO_SIDED|90.0|95.36|101.12|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.12|95.36|
92196735|NCT01427738|184292024|SUPERIORITY_OR_OTHER||Difference in proportion with clinical e|0.044|||||TWO_SIDED|95.1|-0.077|0.166||||||Repeated confidence intervals (RCIs) were used to control type I error.A interim analysis was conducted by a 99.7% CI. The final analyses use a 95.1% CI, based on the Lan-DeMets error-spending function corresponding to the O'Brien-Fleming boundary.76% of 100 participant in arm GV had cure or improvement of OC after 14 days of treatment, and 71.6% of 102 in arm nystatin had cure or improvement of OC. Difference in clinical efficacy rates between GV and nystatin 95.1% CI is 0.044 (-0.077, 0.166).||0.166|-0.077|
92320697|NCT02498444|184546603|OTHER||Risk Ratio (RR)|1.23||||0.0498|TWO_SIDED|95.0|1.0|1.51||Poisson regression model demonstrating associations between treatment groups and outcomes (chest tube duration in days and length of stay in days)|Poisson regression|||||1.51|1.00|0.0498
92320698|NCT02498444|184546604|OTHER|||||||0.05|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 0||||0.05
92320699|NCT02498444|184546604|OTHER||||||<|0.01|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 12||||<0.01
92320700|NCT02498444|184546604|OTHER|||||||0.14|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 24||||0.14
92320701|NCT02498444|184546605|OTHER|||||||0.23|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 0||||0.23
92320702|NCT02498444|184546605|OTHER|||||||0.27|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 12||||0.27
92320703|NCT02498444|184546605|OTHER|||||||0.65|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 24||||0.65
92196736|NCT00727506|184292047|SUPERIORITY_OR_OTHER|||||||0.148||95.0||||P-value is from an approximate normal test for the 6 month time point.|z-test|||||||0.148
92320704|NCT02498444|184546606|OTHER|||||||0.37|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 0||||0.37
92320705|NCT02498444|184546606|OTHER||||||<|0.01|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 12||||<0.01
92320706|NCT02498444|184546606|OTHER|||||||0.3|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 24||||0.30
92320707|NCT05656534|184546611|SUPERIORITY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.31||0.19|TWO_SIDED|95.0|-0.2|1.1|||ANOVA|||||1.10|-0.20|.19
92196737|NCT00727506|184292047|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value is an approximate normal test for the six month time point.|z-test|||||||0.008
92320708|NCT05656534|184546612|SUPERIORITY||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|0.33||0.03|TWO_SIDED|95.0|0.07|1.38|||ANOVA|||We conducted a repeated measures analysis of variable with session (pre-treatment vs. post-treatment) as a within-subjects variable and treatment arm as a between-subjects variable. Standardized residual scores reflecting startle reactivity to unpredictable threat (\> no-threat) was the dependent variable.||1.38|0.07|0.03
92320709|NCT05656534|184546613|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||.01
92320710|NCT05656534|184546614|SUPERIORITY||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.28|<|0.05|TWO_SIDED|95.0|-0.01|1.2|||ANOVA|Repeated measures ANOVA modeling session (pre. vs. post) by treatment arm||A session (pre vs. post) by treatment arm (suvorexant vs. placebo) repeated measures analysis of variance (ANOVA) was performed. The effect of session was then probed within each treatment arm.||1.20|-0.01|<.05
92320711|NCT00302848|184546615|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations for VTE risk showed that 50,000 patients should be sufficient to exclude a twofold risk.|Hazard Ratio (HR)|1.0|||<|0.05||95.0|0.6|1.8|||Regression, Cox|||Null hypothesis: HR ≥ 2 (VTE of DRSP vs. LNG)||1.8|0.6|<0.05
92320712|NCT00386360|184546630|SUPERIORITY_OR_OTHER||LS Mean Difference|0.231||||0.7096|TWO_SIDED|95.0|-0.995|1.458|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.458|-0.995|0.7096
92320713|NCT00386360|184546631|SUPERIORITY_OR_OTHER||LS Mean Difference|0.543||||0.2973|TWO_SIDED|95.0|-0.485|1.571|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.571|-0.485|0.2973
92196738|NCT00727506|184292049|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0000
92196739|NCT00727506|184292049|SUPERIORITY_OR_OTHER|||||||0.1954||95.0|||||Fisher Exact|||||||0.1954
92196740|NCT00727506|184292050|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.78||||0.032|TWO_SIDED|95.0|1.088|2.912|||Log Rank|||Hazard ratio was calculated from Cox proportional hazard model stratified by age class (\<=50 vs. \>50 years old) and baseline Karnofsky Performance Scale (KPS) score (70, 80 vs. 90, 100). P-value was two-sided from log-rank test stratified by the same variables.||2.912|1.088|0.0320
92196741|NCT00727506|184292050|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.392||||0.2044|TWO_SIDED|95.0|0.841|2.301|||Log Rank|||Hazard ratio was calculated from Cox proportional hazard model stratified by age class (\<=50 vs. \>50 years old) and baseline KPS score (70, 80 vs. 90, 100). P-value was two-sided from log-rank test stratified by the same variables.||2.301|0.841|0.2044
92196742|NCT01214421|184292087|SUPERIORITY||Ratio of geometric means (final values)|0.99||||0.358|TWO_SIDED|95.0|0.96|1.02|||Mixed Models Analysis||||Derived from the least squares (LS) mean difference between the treatment groups at each visit using MMRM model with factors of treatment, visit, region, baseline, baseline hypertensive status, baseline renal volume status, baseline creatinine clearance status, interaction of treatment and visit, and interaction of baseline and visit.|1.02|0.96|0.358
92196743|NCT01214421|184292088|SUPERIORITY||LS mean difference (final values)|3.15||||0.0003|TWO_SIDED|95.0|1.462|4.836|||Mixed Models Analysis||||Derived from MMRM analysis with fixed factors of treatment, visit, treatment visit interaction, hypertensive status, renal volume status and creatinine clearance status at baseline, region, baseline value, and baseline visit interaction as covariates, and with a heterogeneous toeplitz variance covariance matrix.|4.836|1.462|0.0003
92196744|NCT01214421|184292089|NON_INFERIORITY|The non-inferiority for early-treatment and delayed-treatment groups.|Ratio of geometric means (final values)|1.011||||0.0462|TWO_SIDED|95.0|1.0|1.023|||Mixed Models Analysis||||Derived from testing interaction of time and treatment using linear mixed model in which intercept and time are treated as random effects.|1.023|1.000|0.0462
92196745|NCT01214421|184292090|NON_INFERIORITY|The non-inferiority for early-treatment and delayed-treatment groups.|Ratio of geometric means (final values)|-0.113||||0.7259|TWO_SIDED|95.0|-0.746|0.52|||Mixed Models Analysis||||Derived from testing interaction of time and treatment using linear mixed model in which intercept and time are treated as random effects.|0.520|-0.746|0.7259
92196746|NCT01214421|184292091|SUPERIORITY||Ratio of geometric means (final values)|0.992||||0.108|TWO_SIDED|95.0|0.982|1.002|||Mixed Models Analysis||||Derived from linear mixed model with terms of participant, treatment, time, interaction of treatment and time, interaction of participant and time, and baseline for intra-participant comparison between 251 and 271. Time and intercept are treated as random effects.|1.002|0.982|0.1080
92196747|NCT01214421|184292092|SUPERIORITY||Ratio of geometric means (final values)|0.361||||0.2265|TWO_SIDED|95.0|-0.224|0.946|||Mixed Models Analysis||||Derived from linear mixed model with terms of participant, treatment, time, interaction of treatment and time, interaction of participant and time, and baseline for intra-participant comparison between 251 and 271. Time and intercept are treated as random effects.|0.946|-0.224|0.2265
92196748|NCT04590404|184292108|SUPERIORITY||Odds Ratio (OR)|1.18||||0.461|TWO_SIDED|95.0|0.76|1.82|||Regression, Logistic|Adjusted for arm, randomization strata (cigarettes/day (CPD), insurance category, cardiac admission, NMR category), \& plan to quit after discharge||The primary outcome was biochemically-verified self-reported 7-day point prevalence abstinence (7dPPA) at 6 months. We modeled outcomes using logistic regression adjusted for randomization stratification factors and plan to quit (stay quit vs. try).||1.82|0.76|0.461
92196749|NCT04590404|184292109|SUPERIORITY||Odds Ratio (OR)|1.0||||0.99|TWO_SIDED|95.0|0.64|1.54||Adjusted for arm, randomization strata (cigarettes/day (CPD), insurance category, cardiac admission, NMR category), \& plan to quit after discharge|Regression, Logistic|||The primary outcome was biochemically-verified self-reported 7-day point prevalence abstinence (7dPPA) at 12 months. We modeled outcomes using logistic regression adjusted for randomization stratification factors and plan to quit (stay quit vs. try).||1.54|0.64|0.99
92196750|NCT03912532|184292112|OTHER|The Multiple Comparison Procedure-Modelling (MCP-Mod) is a 2-stage procedure in which dose-response models are selected at the design stage. These candidate models are used for both dose-response testing (MCP step) and estimation (Mod step). The dose-response testing is performed using a multiple comparison method to account for the multiplicity issue associated with the multiple candidate models. Missing responses were imputed using multiple imputation under the assumption of missing at random.||||||0.5534|||||||Multiple comparison procedure step|||||||0.5534
92196751|NCT03522389|184292137|SUPERIORITY|||||||0.003|||||||ANOVA|||After 4 weeks of training - Baseline (T2-T1)||||0.003
92196752|NCT03522389|184292137|SUPERIORITY||||||<|0.001|||||||ANOVA|||1-month follow up - Baseline (T3-T1)||||<0.001
92196753|NCT03522389|184292137|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
92196754|NCT03522389|184292137|SUPERIORITY|||||||0.006|||||||ANOVA|||Within group comparison||||0.006
92196755|NCT03522389|184292137|SUPERIORITY|||||||0.793|||||||ANOVA|||Within group comparison||||0.793
92196756|NCT03522389|184292138|SUPERIORITY||||||<|0.001|||||||ANOVA|||After 4 weeks of training - Baseline (T2-T1)||||<0.001
92196757|NCT03522389|184292138|SUPERIORITY|||||||0.039|||||||ANOVA|||1-month follow-up - Baseline (T3-T1)||||0.039
92196758|NCT03522389|184292138|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
92196759|NCT03522389|184292138|SUPERIORITY|||||||0.002|||||||ANOVA|||Within group comparison||||0.002
92196760|NCT03522389|184292138|SUPERIORITY|||||||0.117|||||||ANOVA|||Within group comparison||||0.117
92196761|NCT03522389|184292139|SUPERIORITY|||||||0.924|||||||ANOVA|||After 4 weeks of training - Baseline (T2-T1)||||0.924
92196762|NCT03522389|184292139|SUPERIORITY|||||||0.855|||||||ANOVA|||1-month follow-up - Baseline (T3-T1)||||0.855
92196763|NCT03522389|184292139|SUPERIORITY|||||||0.937|||||||ANOVA|||Within group comparison||||0.937
92196764|NCT03522389|184292139|SUPERIORITY|||||||0.97|||||||ANOVA|||Within group comparison||||0.970
92196765|NCT03522389|184292139|SUPERIORITY|||||||0.242|||||||ANOVA|||Within group comparison||||0.242
92196766|NCT03522389|184292140|SUPERIORITY|||||||0.161|||||||ANOVA|||After 4 weeks of training - Baseline (T2-T1)||||0.161
92196767|NCT03522389|184292140|SUPERIORITY|||||||0.161|||||||ANOVA|||1-month follow-up - Baseline (T3-T1)||||0.161
92196768|NCT03522389|184292140|SUPERIORITY|||||||0.076|||||||ANOVA|||Within group comparison||||0.076
92196769|NCT03522389|184292140|SUPERIORITY|||||||0.211|||||||ANOVA|||Within group comparison||||0.211
92196770|NCT03522389|184292140|SUPERIORITY|||||||0.573|||||||ANOVA|||Within group comparison||||0.573
92196771|NCT03522389|184292141|SUPERIORITY|||||||0.445|||||||ANOVA|||After 4 weeks of training - Baseline (T2-T1)||||0.445
92196772|NCT03522389|184292141|SUPERIORITY|||||||0.046|||||||ANOVA|||1-month follow-up - Baseline (T3-T1)||||0.046
92196773|NCT03522389|184292141|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
92196774|NCT03522389|184292141|SUPERIORITY|||||||0.028|||||||ANOVA|||Within group comparison||||0.028
92196775|NCT03522389|184292141|SUPERIORITY|||||||0.002|||||||ANOVA|||Within group comparison||||0.002
92196776|NCT04750577|184292142|OTHER|MMRM estimates were used as input for the MCP-Mod. including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit as well as random effects of patient.||||||0.0245|||||||MCP-Mod exponential model fit|Model assumption: 20% of the maximum effect is achieved at 3 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of BI 685509 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, quadratic, Emax and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.050). The total daily dose was considered for MCP-Mod analysis (placebo, active BI 685509 3 mg, 6 mg, and 9 mg).||||0.0245
92196777|NCT04750577|184292142|OTHER|MMRM estimates were used as input for the MCP-Mod. including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit as well as random effects of patient.||||||0.0294|||||||MCP-Mod linear model fit|Model assumption: No assumption was needed.||A flat vs. non-flat dose-response relationship across the 3 doses of BI 685509 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, quadratic, Emax and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.050). The total daily dose was considered for MCP-Mod analysis (placebo, active BI 685509 3 mg, 6 mg, and 9 mg).||||0.0294
92196778|NCT04750577|184292142|OTHER|A flat vs. non-flat dose-response relationship across the 3 doses of BI 685509 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, quadratic, Emax and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.050). The total daily dose was considered for MCP-Mod analysis (placebo, active BI 685509 3 mg, 6 mg, and 9 mg).||||||0.0468||||||MMRM estimates were used as input for the MCP-Mod. including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit as well as random effects of patient.|MCP-Mod quadratic model fit|Model assumption: 50 % of the maximum effect is achieved at a dose of 3 mg. 90 % of the maximum effect is achieved at a dose of 6 mg.||||||0.0468
92196779|NCT04750577|184292142|OTHER|MMRM estimates were used as input for the MCP-Mod. including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit as well as random effects of patient.||||||0.0586|||||||MCP-Mod Emax model fit|Model assumption: 80% of the maximum effect is achieved at 6 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of BI 685509 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, quadratic, Emax and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.050). The total daily dose was considered for MCP-Mod analysis (placebo, active BI 685509 3 mg, 6 mg, and 9 mg).||||0.0586
92320714|NCT00386360|184546632|SUPERIORITY_OR_OTHER||LS Mean Difference|0.485||||0.1275|TWO_SIDED|95.0|-0.141|1.11|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.110|-0.141|0.1275
92196780|NCT04750577|184292142|OTHER|MMRM estimates were used as input for the MCP-Mod. including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit as well as random effects of patient.||||||0.0659|||||||MCP-Mod Sigmoid emax model fit|Model assumption: 30 % of the maximum effect is achieved at a dose of 3 mg. 90 % of the maximum effect is achieved at a dose of 6 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of BI 685509 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, quadratic, Emax and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.050). The total daily dose was considered for MCP-Mod analysis (placebo, active BI 685509 3 mg, 6 mg, and 9 mg).||||0.0659
92196781|NCT04750577|184292142|OTHER||Mean Difference (Net)|-0.103||||0.3224|TWO_SIDED|95.0|-0.309|0.102|||Mixed-effect Model Repeat Measurement||"Least Squares Mean of 1 mg BI 685509 TID- Least Squares Mean ofPlacebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||0.102|-0.309|0.3224
92196782|NCT04750577|184292142|OTHER||Mean Difference (Net)|-0.063||||0.5616|TWO_SIDED|95.0|-0.275|0.15|||Mixed-effect Model Repeat Measurement||"Least Squares Mean of 2 mg BI 685509 TID- Least Squares Mean of Placebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||0.150|-0.275|0.5616
92196783|NCT04750577|184292142|OTHER||Mean Difference (Net)|-0.251||||0.0183|TWO_SIDED|95.0|-0.459|-0.043|||Mixed-effect Model Repeat Measurement||"Least Squares Mean of 3 mg BI 685509 TID- Least Squares Mean of Placebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||-0.043|-0.459|0.0183
92320715|NCT00386360|184546633|SUPERIORITY_OR_OTHER||LS Mean Difference|0.664||||0.336|TWO_SIDED|95.0|-0.697|2.025|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||2.025|-0.697|0.3360
92320716|NCT00386360|184546634|SUPERIORITY_OR_OTHER||LS Mean Difference|0.334||||0.4565|TWO_SIDED|95.0|-0.551|1.219|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.219|-0.551|0.4565
92320717|NCT00386360|184546635|SUPERIORITY_OR_OTHER||LS Mean Difference|0.611||||0.0614|TWO_SIDED|95.0|-0.03|1.252|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.252|-0.030|0.0614
92320718|NCT00386360|184546636|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.9212|TWO_SIDED|95.0|-1.258|1.138|||ANOVA|LS means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.138|-1.258|0.9212
92320719|NCT00386360|184546637|SUPERIORITY_OR_OTHER||LS Mean Difference|3.27|||<|0.0001|TWO_SIDED|95.0|2.231|4.31|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||4.310|2.231|<0.0001
92320720|NCT00386360|184546638|SUPERIORITY_OR_OTHER||LS Mean Difference|1.444|||<|0.0001|TWO_SIDED|95.0|0.748|2.14|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||2.140|0.748|<0.0001
92320721|NCT00386360|184546639|SUPERIORITY_OR_OTHER||LS Mean Difference|1.408||||0.0036|TWO_SIDED|95.0|0.469|2.348|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||2.348|0.469|0.0036
92320722|NCT00386360|184546640|SUPERIORITY_OR_OTHER||LS Mean Difference|1.458||||0.0087|TWO_SIDED|95.0|0.375|2.541|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||2.541|0.375|0.0087
92196784|NCT04750577|184292143|OTHER||Mean Difference (Net)|-0.211||||0.0396|TWO_SIDED|0.95|-0.413|-0.01|||Mixed Models Analysis||"Least Squares Mean of 1 mg BI 685509 TID- Least Squares Mean of Placebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||-0.010|-0.413|0.0396
92196785|NCT04750577|184292143|OTHER||Mean Difference (Net)|-0.12||||0.2568|TWO_SIDED|0.95|-0.327|0.088|||Mixed Models Analysis||"Least Squares Mean of 2 mg BI 685509 TID- Least Squares Mean of Placebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||0.088|-0.327|0.2568
92196786|NCT04750577|184292143|OTHER||Mean Difference (Net)|-0.357||||0.0006|TWO_SIDED|0.95|-0.56|-0.154|||Mixed Models Analysis||"Least Squares Mean of 3 mg BI 685509 TID- Least Squares Mean of Placebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||-0.154|-0.560|0.0006
92196787|NCT04750577|184292144|OTHER||Odds Ratio (OR)|2.25||||0.0519|TWO_SIDED|95.0|0.99|5.1|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||5.10|0.99|0.0519
92196788|NCT04750577|184292144|OTHER||Odds Ratio (OR)|1.43||||0.4159|TWO_SIDED|95.0|0.61|3.36|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||3.36|0.61|0.4159
92196789|NCT04750577|184292144|OTHER||Odds Ratio (OR)|2.9||||0.0106|TWO_SIDED|95.0|1.28|6.55|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||6.55|1.28|0.0106
92196790|NCT04750577|184292145|OTHER||Odds Ratio (OR)|2.79||||0.0176|TWO_SIDED|95.0|1.2|6.53|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||6.53|1.20|0.0176
92196791|NCT04750577|184292145|OTHER||Odds Ratio (OR)|1.32||||0.5467|TWO_SIDED|95.0|0.53|3.29|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||3.29|0.53|0.5467
92196792|NCT04750577|184292145|OTHER||Odds Ratio (OR)|4.46||||0.0005|TWO_SIDED|95.0|1.91|10.39|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||10.39|1.91|0.0005
92196793|NCT03459612|184292146|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in Least Square (LS) means \< 4.4.|Difference in LS Means|0.98|||<|0.0001|TWO_SIDED|95.0|-0.43|2.39|||Mixed Models Analysis|||||2.39|-0.43|<0.0001
92196794|NCT03459612|184292146|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|LS Means|1.76|||<|0.0001|TWO_SIDED|95.0|0.32|3.2|||Mixed Models Analysis|||||3.20|0.32|<0.0001
92196795|NCT03459612|184292146|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|LS Means|4.98|||<|0.0001|TWO_SIDED|95.0|3.58|6.38|||Mixed Models Analysis|||||6.38|3.58|<0.0001
92196796|NCT03459612|184292147|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Difference in LS Means|-0.12|||<|0.0001|TWO_SIDED|95.0|-1.28|1.04|||Mixed Models Analysis|||||1.04|-1.28|<0.0001
92196797|NCT03459612|184292147|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Difference in LS Means|-0.32|||<|0.0001|TWO_SIDED|95.0|-1.51|0.88|||Mixed Models Analysis|||||0.88|-1.51|<0.0001
92196798|NCT03459612|184292147|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Difference in LS Means|4.31|||<|0.0001|TWO_SIDED|95.0|3.17|5.45|||Mixed Models Analysis|||||5.45|3.17|<0.0001
92196799|NCT03459612|184292148|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Differnce in LS Means|-0.97|||<|0.0001|TWO_SIDED|95.0|-2.3|0.36|||Mixed Models Analysis|||||0.36|-2.30|<0.0001
92196800|NCT03459612|184292148|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Difference in LS Means|-1.04|||<|0.0001|TWO_SIDED|95.0|-2.4|0.32|||Mixed Models Analysis|||||0.32|-2.40|<0.0001
92196801|NCT03459612|184292148|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Difference in LS Means|4.05|||<|0.0001|TWO_SIDED|95.0|2.73|5.38|||Mixed Models Analysis|||||5.38|2.73|<0.0001
92196802|NCT03459612|184292149|SUPERIORITY||Differences of Least Square Mean|0.28|||||TWO_SIDED|95.0|-0.15|0.7||||||||0.70|-0.15|
92196803|NCT03459612|184292149|SUPERIORITY||Difference of Least Square Means|0.66|||||TWO_SIDED|95.0|0.22|1.1||||||||1.10|0.22|
92196804|NCT03459612|184292149|SUPERIORITY||Difference of Least Square Means|0.81|||||TWO_SIDED|95.0|0.39|1.24||||||||1.24|0.39|
92196805|NCT03459612|184292150|SUPERIORITY||Difference of Least Square Means|0.48|||||TWO_SIDED|95.0|0.0|0.96||||||||0.96|0.00|
92196806|NCT03459612|184292150|SUPERIORITY||Differnce of Least Square Means|0.34|||||TWO_SIDED|95.0|-0.14|0.82||||||||0.82|-0.14|
92196807|NCT03459612|184292150|SUPERIORITY||Difference of Least Square Means|1.29|||||TWO_SIDED|95.0|0.81|1.78||||||||1.78|0.81|
92196808|NCT03459612|184292151|SUPERIORITY||Difference of Least Square Means|-0.58|||||TWO_SIDED|95.0|-1.1|-0.06||||||||-0.06|-1.10|
92196809|NCT03459612|184292151|SUPERIORITY||Difference of Least Square Means|-0.4|||||TWO_SIDED|95.0|-0.89|0.09||||||||0.09|-0.89|
92196810|NCT03459612|184292151|SUPERIORITY||Difference of Least Square Means|0.44|||||TWO_SIDED|95.0|-0.09|0.96||||||||0.96|-0.09|
92196811|NCT03459612|184292152|SUPERIORITY||Difference in Least Square Means|0.0|||||TWO_SIDED|95.0|-1.61|1.62||||||||1.62|-1.61|
92196812|NCT03459612|184292152|SUPERIORITY||Difference in Lease Square Means|-0.74|||||TWO_SIDED|95.0|-2.49|1.01||||||||1.01|-2.49|
92196813|NCT03459612|184292152|SUPERIORITY||Difference in Least Square Means|-0.72|||||TWO_SIDED|95.0|-2.32|0.89||||||||0.89|-2.32|
92196814|NCT03459612|184292153|SUPERIORITY||Difference of Least Square Means|-1.79|||||TWO_SIDED|95.0|-3.52|-0.06||||||||-0.06|-3.52|
92196815|NCT03459612|184292153|SUPERIORITY||Difference in Least Square Means|-0.29|||||TWO_SIDED|95.0|-2.0|1.42||||||||1.42|-2.00|
92196816|NCT03459612|184292153|SUPERIORITY||Difference in Least Square Means|-3.81|||||TWO_SIDED|95.0|-5.53|-2.08||||||||-2.08|-5.53|
92196817|NCT03459612|184292154|SUPERIORITY||Difference of Least Square Means|-0.28|||||TWO_SIDED|95.0|-1.71|1.15||||||||1.15|-1.71|
92196818|NCT03459612|184292154|SUPERIORITY||Difference of Least Square Means|-0.31|||||TWO_SIDED|95.0|-1.71|1.08||||||||1.08|-1.71|
92196819|NCT03459612|184292154|SUPERIORITY||Difference of Least Square Means|-2.7|||||TWO_SIDED|95.0|-4.13|-1.27||||||||-1.27|-4.13|
92196820|NCT03459612|184292155|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.3||0.6875|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.6875
92196821|NCT03459612|184292155|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.27||0.375|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.3750
92196822|NCT03459612|184292155|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|1.0||0.0115|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.0115
92196823|NCT03459612|184292156|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.42||0.1563|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.1563
92196824|NCT03459612|184292156|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.44||0.5938|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.5938
92196825|NCT03459612|184292156|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_DEVIATION|0.54||0.0938|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.0938
92196826|NCT03459612|184292157|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_DEVIATION|0.56||0.125|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.1250
92196827|NCT03459612|184292157|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|0.94||0.959|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.9590
92196828|NCT03459612|184292157|SUPERIORITY||Mean Difference (Final Values)|0.46|STANDARD_DEVIATION|1.76||0.0097|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.0097
92196829|NCT02473042|184292161|SUPERIORITY|||||||0.2787|||||||Chi-squared|||||||0.2787
92196830|NCT02473042|184292164|SUPERIORITY|||||||0.8252|||||||Wilcoxon (Mann-Whitney)|||||||0.8252
92196831|NCT02473042|184292165|SUPERIORITY|||||||0.8277|||||||Wilcoxon (Mann-Whitney)|||||||0.8277
92196832|NCT02473042|184292166|SUPERIORITY|||||||0.3908|||||||Chi-squared|||Response to ASES\_Coping question (Re-categorized)||||0.3908
92196833|NCT02473042|184292166|SUPERIORITY|||||||0.6029|||||||Chi-squared|||Response to ASES\_Nausea question||||0.6029
92196834|NCT02473042|184292166|SUPERIORITY|||||||0.7785|||||||Chi-squared|||Response to ASES\_Pain question||||0.7785
92196835|NCT02473042|184292166|SUPERIORITY|||||||0.8434|||||||Chi-squared|||Response to ASES\_Recovery question (Re-categorized)||||0.8434
92196836|NCT02473042|184292167|OTHER|||||||0.2742|||||||Chi-squared|||Response to ASES\_Coping question (Re-categorized) and P6 stimulation outcome||||0.2742
92196837|NCT02473042|184292167|OTHER|||||||0.2747|||||||Chi-squared|||Response to ASES\_Nausea question (Re-categorized) and P6 stimulation outcome||||0.2747
92196838|NCT02473042|184292167|OTHER|||||||0.5608|||||||Chi-squared|||Response to ASES\_Pain question (Re-categorized) and P6 stimulation outcome||||0.5608
92196839|NCT02473042|184292167|OTHER|||||||0.1014||||||There is no statistically significant association between expectancy and complete PONV control.|Chi-squared|||Response to ASES\_Recovery question (Re-categorized) and P6 stimulation outcome||||0.1014
92196840|NCT02242643|184292218|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% CI for the difference in SCR (Fluzone® Quadrivalent Group minus FluLaval™ Quadrivalent Group) did not exceed 10% for each of the four strains.|Seroconversion rate (SCR) Difference (%)|-6.32|||||TWO_SIDED|95.0|-10.34|-2.27|||||For A/California/7/2009 (H1N1) vaccine strain.|||-2.27|-10.34|
92196841|NCT02242643|184292218|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% CI for the difference in SCR (Fluzone® Quadrivalent Group minus FluLaval™ Quadrivalent Group) did not exceed 10% for each of the four strains.|SCR Difference (%)|-6.74|||||TWO_SIDED|95.0|-10.68|-2.8|||||For A/Texas/50/2012 (H3N2) vaccine strain|||-2.80|-10.68|
92196842|NCT02242643|184292218|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% CI for the difference in SCR (Fluzone® Quadrivalent Group minus FluLaval™ Quadrivalent Group) did not exceed 10% for each of the four strains.|SCR Difference (%)|-16.38|||||TWO_SIDED|95.0|-20.68|-12.02|||||For B/Massachusetts/2/2012 (Yamagata) vaccine strain|||-12.02|-20.68|
92196843|NCT02242643|184292218|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% CI for the difference in SCR (Fluzone® Quadrivalent Group minus FluLaval™ Quadrivalent Group) did not exceed 10% for each of the four strains.|SCR Difference (%)|-11.75|||||TWO_SIDED|95.0|-15.28|-8.21|||||For B/Brisbane/60/2008 (Victoria) vaccine strain.|||-8.21|-15.28|
92196844|NCT02242643|184292219|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio (Fluzone® Quadrivalent Group/FluLaval™ Quadrivalent Group) did not exceed 1.5 for each of the four strains.|Adjusted GMT ratio|0.85|||||TWO_SIDED|95.0|0.77|0.95|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|||0.95|0.77|
92196845|NCT02242643|184292219|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio (Fluzone® Quadrivalent Group/FluLaval™ Quadrivalent Group) did not exceed 1.5 for each of the four strains.|Adjusted GMT Ratio|0.85|||||TWO_SIDED|95.0|0.77|0.94|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|||0.94|0.77|
92196846|NCT02242643|184292219|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio (Fluzone® Quadrivalent Group/FluLaval™ Quadrivalent Group) did not exceed 1.5 for each of the four strains.|Adjusted GMT Ratio|0.65|||||TWO_SIDED|95.0|0.59|0.71|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|||0.71|0.59|
92320723|NCT00386360|184546641|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.54||||0.0002|TWO_SIDED|95.0|-59.957|-19.123|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||-19.123|-59.957|0.0002
92320724|NCT00386360|184546642|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.269|||<|0.0001|TWO_SIDED|95.0|-51.3|-29.238|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||-29.238|-51.300|<0.0001
92320725|NCT00386360|184546643|SUPERIORITY_OR_OTHER||LS Mean Difference|0.092||||0.1385|TWO_SIDED|95.0|-0.03|0.213|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||0.213|-0.030|0.1385
92320726|NCT01073605|184546672|SUPERIORITY_OR_OTHER|||||||0.02922|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||||||0.02922
92320727|NCT01073605|184546672|SUPERIORITY_OR_OTHER|||||||0.74299|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||||||0.74299
92320728|NCT01073605|184546672|SUPERIORITY_OR_OTHER|||||||0.00467|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||||||0.00467
92320729|NCT01073605|184546674|SUPERIORITY_OR_OTHER|||||||0.00125|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||1 year||||0.00125
92320730|NCT01073605|184546674|SUPERIORITY_OR_OTHER|||||||0.25995|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||1 year||||0.25995
92320731|NCT01073605|184546674|SUPERIORITY_OR_OTHER|||||||8e-05|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||1 year||||0.00008
92320732|NCT01073605|184546674|SUPERIORITY_OR_OTHER|||||||0.03273|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||2 years||||0.03273
92320733|NCT01073605|184546674|SUPERIORITY_OR_OTHER|||||||0.68581|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||2 years||||0.68581
92320734|NCT01073605|184546674|SUPERIORITY_OR_OTHER|||||||0.0053|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||2 years||||0.00530
92196847|NCT02242643|184292219|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio (Fluzone® Quadrivalent Group/FluLaval™ Quadrivalent Group) did not exceed 1.5 for each of the four strains.|Adjusted GMT Ratio|0.62|||||TWO_SIDED|95.0|0.56|0.69|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|||0.69|0.56|
92196848|NCT05093504|184292260|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
92320735|NCT01073605|184546674|SUPERIORITY_OR_OTHER|||||||0.57556|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||0.57556
92320736|NCT01073605|184546674|SUPERIORITY_OR_OTHER|||||||0.63956|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||0.63956
92320737|NCT01073605|184546674|SUPERIORITY_OR_OTHER|||||||0.16421|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||0.16421
92196849|NCT03151551|184292269|SUPERIORITY||Rate Difference|8.1||||0.036|TWO_SIDED|95.0|0.5|15.8|||Regression, Logistic|||After data lock and initial analysis run, a medical inconsistency in baseline PASI data was identified (PASI=0 but BSA≥3%). The scenario was not anticipated or described in protocol or SAP. The inconsistency was resolved using medical judgment. The impacted participants had met baseline criteria for active psoriasis. Therefore, in the primary analysis, participants with baseline PASI=0 \& BSA≥3% were considered PASI100 responders if, and only if, PASI=0 \& BSA=0 achieved at week 24.||15.8|0.5|0.036
92196850|NCT03151551|184292270|NON_INFERIORITY|If the lower bound of the 2-sided 95% confidence Interval (CI) for the difference in proportions of responders on IXE minus ADA is greater than the pre-specified margin -12%, IXE will be deemed non-inferior to ADA.|Rate Difference|3.9|||||TWO_SIDED|95.0|-4.3|12.1||||||||12.1|-4.3|
92320738|NCT01073605|184546678|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||0.0001
92320739|NCT01073605|184546678|SUPERIORITY_OR_OTHER|||||||0.58324|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||0.58324
92320740|NCT01073605|184546678|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||<0.0001
92320741|NCT01073605|184546683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67||||0.0681|TWO_SIDED|95.0|-0.05|1.39||There is no adjustment for multiplicity of treatment comparisons.|ANCOVA|The Analysis of Covariance took into account the patient covariates age and gender.||||1.39|-0.05|0.0681
92320742|NCT01073605|184546683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.8971|TWO_SIDED|95.0|-0.65|0.74||There is no adjustment for multiplicity of treatment comparisons.|ANCOVA|The Analysis of Covariance took into account the patient covariates age and gender.||||0.74|-0.65|0.8971
92196851|NCT03151551|184292271|SUPERIORITY||Rate Difference|13.4||||0.001|TWO_SIDED|95.0|5.3|21.6|||Regression, Logistic|||After data lock and initial analysis run, a medical inconsistency in baseline PASI data was identified (PASI=0 but BSA≥3%). The scenario was not anticipated or described in protocol or SAP. The inconsistency was resolved using medical judgment. The impacted participants had met baseline criteria for active psoriasis. Therefore, in the primary analysis, participants with baseline PASI=0 \& BSA≥3% were considered PASI100 responders if, and only if, PASI=0 \& BSA=0 achieved at week 24.||21.6|5.3|0.001
92196852|NCT03151551|184292272|SUPERIORITY||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.725||0.155|TWO_SIDED|95.0|-2.46|0.39|||Mixed Models Analysis|||||0.39|-2.46|0.155
92196853|NCT03151551|184292273|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.249||0.823|TWO_SIDED|95.0|-0.54|0.43|||Mixed Models Analysis|||||0.43|-0.54|0.823
92320743|NCT01073605|184546683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.0583|TWO_SIDED|95.0|-1.27|0.02||There is no adjustment for multiplicity of treatment comparisons.|ANCOVA|The Analysis of Covariance took into account the patient covariates age and gender.||||0.02|-1.27|0.0583
92320744|NCT03018080|184546685|OTHER|Estimation only.|Rate|0.238|||||TWO_SIDED|95.0|0.082|0.472|||||Confidence interval estimated using the Clopper Pearson method.|The reported grade 3/4 toxicity rate with weekly paclitaxel was 0.35. If it became evident that the grade 3/4 treatment-related toxicity rate on either arm convincingly exceeded 0.35, the study arm would have been halted. Convincing evidence of exceeding 0.35 was based on Bayesian methods and continuous monitoring, where the stopping rule would have held enrollment if the posterior probability at any point exceeded 0.50 or higher.||0.472|0.082|
92320745|NCT03018080|184546685|OTHER|Estimation only.|Rate|0.316|||||TWO_SIDED|95.0|0.126|0.566|||||Confidence interval estimated using the Clopper Pearson method.|The reported grade 3/4 toxicity rate with weekly paclitaxel was 0.35. If it became evident that the grade 3/4 treatment-related toxicity rate on either arm convincingly exceeded 0.35, the study arm would have been halted. Convincing evidence of exceeding 0.35 was based on Bayesian methods and continuous monitoring, where the stopping rule would have held enrollment if the posterior probability at any point exceeded 0.50 or higher.||0.566|0.126|
92320746|NCT03018080|184546686|OTHER|Estimation only|Rate|0.191|||||TWO_SIDED|95.0|0.055|0.419|||||Confidence interval estimated using the Clopper Pearson method.|||0.419|0.055|
92320747|NCT03018080|184546686|OTHER|Estimation only.|Rate|0.421|||||TWO_SIDED|95.0|0.203|0.665|||||Confidence interval estimated using the Clopper Pearson method|||0.665|0.203|
92320748|NCT03018080|184546687|OTHER|Estimation only|Median|4.1|||||TWO_SIDED|95.0|1.4|6.9|||||The Kaplan Meier method was used to estimate the median PFS(in months) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||6.9|1.4|
92320749|NCT03018080|184546687|OTHER|Estimation only|Median|3.9|||||TWO_SIDED|95.0|1.4|6.8|||||The Kaplan Meier method was used to estimate the median PFS(in months) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||6.8|1.4|
92320750|NCT03018080|184546688|OTHER|Estimation only|Median|27.6|||||TWO_SIDED|95.0|9.7||Upper limit of the confidence interval is not reached due to censoring rate||||The Kaplan Meier method was used to estimate median OS (in months). The Greenwood method was used to estimate confidence limits of median overall survival.||||9.7|
92320751|NCT03018080|184546688|OTHER|Estimation only|Median|9.0|||||TWO_SIDED|95.0|6.8|14.0|||||The Kaplan Meier method was used to estimate median OS (in months). The Greenwood method was used to estimate confidence limits of median overall survival.|||14.0|6.8|
92320752|NCT03018080|184546689|OTHER|Estimation only.|Rate|0.667|||||TWO_SIDED|95.0|0.43|0.854|||||Confidence interval estimated using the Clopper Pearson method|||0.854|0.430|
92320753|NCT03018080|184546689|OTHER|Estimation only|Rate|0.632|||||TWO_SIDED|95.0|0.384|0.837|||||Confidence interval estimated using the Clopper Pearson method|||0.837|0.384|
92320754|NCT03018080|184546690|OTHER|Estimation only|Median|7.3|||||TWO_SIDED|95.0|5.6|8.3|||||"The Kaplan Meier method was used to estimate median duration of response (in months).~The Greenwood method was used to estimate confidence limits of median duration of response."|||8.3|5.6|
92320755|NCT03018080|184546690|OTHER|Estimation only|Median|4.0|||||TWO_SIDED|95.0|2.6|8.3|||||"The Kaplan Meier method was used to estimate median duration of response (in months).~The Greenwood method was used to estimate confidence limits of median duration of response."|||8.3|2.6|
92196854|NCT03151551|184292274|SUPERIORITY||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|2.104||0.752|TWO_SIDED|95.0|-4.8|3.47|||Mixed Models Analysis|||||3.47|-4.80|0.752
92196855|NCT03151551|184292275|SUPERIORITY||Mean Difference (Final Values)|-2.79|STANDARD_ERROR_OF_MEAN|2.06||0.177|TWO_SIDED|95.0|-6.83|1.26|||Mixed Models Analysis|||||1.26|-6.83|0.177
92196856|NCT03151551|184292276|SUPERIORITY||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|1.391||0.332|TWO_SIDED|95.0|-4.08|1.38|||Mixed Models Analysis|||||1.38|-4.08|0.332
92320756|NCT03491462|184546691|SUPERIORITY|||||||0.6208|||||||Gehan's extended Wilcoxon's test|||||||0.6208
92320757|NCT03612596|184546699|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||||||0.94
92320758|NCT03612596|184546700|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||0.88
92320759|NCT03612596|184546701|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||||||0.94
92196857|NCT03151551|184292277|SUPERIORITY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.599||0.592|TWO_SIDED|95.0|-0.86|1.5|||Mixed Models Analysis|||||1.50|-0.86|0.592
92196858|NCT03151551|184292278|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.045||0.176|TWO_SIDED|95.0|-0.15|0.03|||Mixed Models Analysis|||||0.03|-0.15|0.176
92196859|NCT03151551|184292279|SUPERIORITY||Rate Difference|13.1|||<|0.001|TWO_SIDED|95.0|5.4|20.7|||Regression, Logistic|||After data lock and initial analysis run, a medical inconsistency in baseline PASI data was identified (PASI=0 but BSA≥3%). The scenario was not anticipated or described in protocol or SAP. The inconsistency was resolved using medical judgment. The impacted participants had met baseline criteria for active psoriasis. Therefore, in the primary analysis, participants with baseline PASI=0 \& BSA≥3% were considered PASI100 responders if, and only if, PASI=0 \& BSA=0 achieved at week 52.||20.7|5.4|<0.001
92196860|NCT03151551|184292280|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.091||0.368|TWO_SIDED|95.0|-0.26|0.1|||Mixed Models Analysis|||||0.10|-0.26|0.368
92196861|NCT03151551|184292281|SUPERIORITY||Rate Difference|6.4||||0.108|TWO_SIDED|95.0|-1.8|14.5|||Regression, Logistic|||MDA-18 Entheseal Points||14.5|-1.8|0.108
92196862|NCT03151551|184292281|SUPERIORITY||Rate Difference|5.3||||0.179|TWO_SIDED|95.0|-2.9|13.5|||Regression, Logistic|||MDA-6 Entheseal Points||13.5|-2.9|0.179
92196863|NCT03151551|184292282|SUPERIORITY||Rate Difference|-1.1||||0.846|TWO_SIDED|95.0|-8.9|6.7|||Regression, Logistic|||||6.7|-8.9|0.846
92196864|NCT03151551|184292283|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.17||0.004|TWO_SIDED|95.0|-0.83|-0.16|||Mixed Models Analysis|||||-0.16|-0.83|0.004
92320760|NCT03612596|184546702|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
92196865|NCT03151551|184292284|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.305||0.687|TWO_SIDED|95.0|-0.48|0.72|||Mixed Models Analysis|||||0.72|-0.48|0.687
92196866|NCT03151551|184292285|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.144||0.507|TWO_SIDED|95.0|-0.19|0.38|||Mixed Models Analysis|||||0.38|-0.19|0.507
92196867|NCT03151551|184292286|SUPERIORITY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|14.951||0.82|TWO_SIDED|95.0|-32.78|25.99|||Mixed Models Analysis|||||25.99|-32.78|0.820
92320761|NCT03612596|184546703|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92320762|NCT03612596|184546704|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|Please note that this analysis was not powered and was used to characterize effect size (d = 1.26) rather than test efficacy.||||||0.53
92320763|NCT03612596|184546705|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|Please note that this analysis was not powered and was used to characterize effect size (d = 1.16) rather than test efficacy.||||||0.44
92196868|NCT03151551|184292287|SUPERIORITY||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|0.79||0.052|TWO_SIDED|95.0|-3.09|0.02|||Mixed Models Analysis|||||0.02|-3.09|0.052
92196869|NCT03151551|184292288|SUPERIORITY||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.949||0.005|TWO_SIDED|95.0|-4.57|-0.84|||Mixed Models Analysis|||||-0.84|-4.57|0.005
92196870|NCT03151551|184292289|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.202||0.158|TWO_SIDED|95.0|-0.68|0.11|||Mixed Models Analysis|||||0.11|-0.68|0.158
92196871|NCT03151551|184292290|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.21||0.711|TWO_SIDED|95.0|-0.49|0.33|||Mixed Models Analysis|||||0.33|-0.49|0.711
92196872|NCT03151551|184292291|SUPERIORITY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.674||0.439|TWO_SIDED|95.0|-0.8|1.85|||Mixed Models Analysis|||||1.85|-0.80|0.439
92196873|NCT03151551|184292292|SUPERIORITY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.86||0.594|TWO_SIDED|95.0|-1.23|2.15|||Mixed Models Analysis|||||2.15|-1.23|0.594
92196874|NCT03151551|184292293|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.017||0.979|TWO_SIDED|95.0|-0.03|0.03|||Mixed Models Analysis|||||0.03|-0.03|0.979
92196875|NCT03151551|184292294|SUPERIORITY||Mean Difference (Final Values)|4.78|STANDARD_ERROR_OF_MEAN|1.782||0.008|TWO_SIDED|95.0|1.28|8.28|||Mixed Models Analysis|||||8.28|1.28|0.008
92196876|NCT03151551|184292295|SUPERIORITY||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.335|<|0.001|TWO_SIDED|95.0|-1.78|-0.46|||Mixed Models Analysis|||||-0.46|-1.78|<0.001
92196877|NCT03151551|184292296|SUPERIORITY||Rate Difference|5.7||||0.165|TWO_SIDED|95.0|-2.4|13.7|||Regression, Logistic|||Effectiveness of Medication||13.7|-2.4|0.165
92196878|NCT03151551|184292296|SUPERIORITY||Rate Difference|6.7||||0.098|TWO_SIDED|95.0|-1.4|14.8|||Regression, Logistic|||Effectiveness over Time of Medication||14.8|-1.4|0.098
92196879|NCT03151551|184292296|SUPERIORITY||Rate Difference|4.6||||0.241|TWO_SIDED|95.0|-3.4|12.6|||Regression, Logistic|||Long Term Safety of Medication||12.6|-3.4|0.241
92196880|NCT03151551|184292296|SUPERIORITY||Rate Difference|4.9||||0.215|TWO_SIDED|95.0|-3.1|13.0|||Regression, Logistic|||Overall Satisfaction with Medication||13.0|-3.1|0.215
92196881|NCT03151551|184292296|SUPERIORITY||Rate Difference|2.1||||0.561|TWO_SIDED|95.0|-5.5|9.7|||Regression, Logistic|||Mostly Satisfied to any Questions||9.7|-5.5|0.561
92196882|NCT04836559|184292317|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.3571|TWO_SIDED|95.0|0.41|1.38|||t-test, 1 sided|||||1.38|0.41|0.3571
92196883|NCT04836559|184292317|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.6306|TWO_SIDED|95.0|0.4|1.75|||t-test, 1 sided|||||1.75|0.40|0.6306
92196884|NCT02472145|184292372|SUPERIORITY||Odds Ratio (OR)|1.5||||0.4747|TWO_SIDED|95.0|0.8|2.8|||Chi-squared|||Statistical Analysis 1||2.8|0.8|0.4747
92196885|NCT02472145|184292373|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7817|TWO_SIDED|95.0|0.79|1.37|||Log Rank|||Statistical Analysis 1||1.37|0.79|0.7817
92320764|NCT03612596|184546706|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|Please note that this analysis was not powered and was used to characterize effect size (d = 0.67) rather than test efficacy.||||||0.93
92320765|NCT03612596|184546707|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||0.29
92320766|NCT03612596|184546708|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||||||0.16
92320767|NCT03612596|184546709|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92320768|NCT03612596|184546710|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
92320769|NCT03612596|184546711|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
92320770|NCT04632069|184546726|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_DEVIATION|0.4||0.009|TWO_SIDED||||||Regression, Linear|repeated measures linear regression: time periods: -14 to Day 0, Day 1-18(independent variable); daily po volumes (Dependent Variable)||Daily change in po feeding volumes expressed as po ml/kg/d \[reported as the mean daily change from Day 1 to 18 during NAC/NAC+taVNS minus baseline mean daily change Day -14 to day 0 (before treatment)\] Null hypothesis: there will be no significant difference in daily change in po feeding volume (ml/kg/d) from baseline to during treatment Power analysis: Estimated +0.2 ml/kg/d before taVNS, and +3ml/kg/d during the 18days of NAC+taVNS treatment, requiring 10 infants with power of 80%, a=0.05.||||0.009
92320771|NCT04632069|184546727|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_DEVIATION|0.08||0.01|TWO_SIDED||||||t-test, 2 sided|paired t-test|mean difference between \[GSH\] Day 4 of NAC and \[GSH\] at baseline|\[GSH\] at baseline compared with \[GSH\] at day 4 of NAC- by paired t-test in which each participant's \[GSH\] is compared at 2 time points Null hypothesis: the \[GSH\] in the basal ganglia will be no different after Day 4 of NAC than \[GSH\] at baseline Power calculation:With 80% power, alpha of 0.05, we would need 7 patients to show a significant change in basal ganglia \[GSH\] of 0.14 +/- 0.13mM from baseline to Day 4 of NAC (paired t-test).||||0.01
92320772|NCT02573181|184546728|OTHER|Difference in percentage with AEs|Difference|4.2|||||TWO_SIDED|95.0|-7.4|15.8|||||Difference and 95% CI calculated based on Miettinen \& Nurminen method.|||15.8|-7.4|
92320773|NCT02573181|184546730|OTHER|Difference in % with fatigue|Fatigue difference|-0.9|||||TWO_SIDED|95.0|-10.7|8.8|||||Difference and 95% CI calculated based on the Miettinen \& Nurminen method.|||8.8|-10.7|
92320774|NCT02573181|184546730|OTHER|Difference in % with arthralgia|Arthralgia difference|-3.2|||||TWO_SIDED|95.0|-10.2|3.4|||||Difference and 95% CI calculated based on the Miettinen \& Nurminen method.|||3.4|-10.2|
92320775|NCT02573181|184546730|OTHER|Difference in % with myalgia|Myalgia difference|4.6|||||TWO_SIDED|95.0|-3.9|13.3|||||Difference and 95% CI calculated based on the Miettinen \& Nurminen method.|||13.3|-3.9|
92320776|NCT02573181|184546730|OTHER|Difference in % with headache|Headache difference|-2.5|||||TWO_SIDED|95.0|-11.4|6.4|||||Difference and 95% CI calculated based on the Miettinen \& Nurminen method.|||6.4|-11.4|
92320777|NCT03412734|184546737|OTHER||Odds Ratio (OR)|10.6|||<|0.001|TWO_SIDED|95.0|3.02|37.34||p-value is adjusted for baseline BV (Bacterial Vaginosis)|Regression, Logistic|||We hypothesized that chlorhexidine would have a lower bacterial count compared to iodine. Our sample size was calculated to be 71 patients per arm to detect a 22% difference in cultures defined as contaminated at 90 minutes from surgical preparation.||37.34|3.02|<0.001
92320778|NCT03777436|184546738|SUPERIORITY||Adjusted difference|20.1||||0.0003|TWO_SIDED|95.0|9.2|30.9|||Cochran-Mantel-Haenszel||Adjusted difference is the weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights. 2-sided 95% CIs based on the stratified Newcombe method. Two-sided p-values were based on the CMH test.|||30.9|9.2|0.0003
92320779|NCT03777436|184546739|SUPERIORITY||Adjusted difference|15.2||||0.0004|TWO_SIDED|95.0|6.9|23.6|||Cochran-Mantel-Haenszel||Adjusted difference is the weighted average of the treatment differences across the strata with the CMH weights. 2-sided 95% CIs based on the stratified Newcombe method. Two-sided p-values were based on the CMH test.|||23.6|6.9|0.0004
92320780|NCT03777436|184546740|SUPERIORITY||Adjusted difference|27.4|||<|0.0001|TWO_SIDED|95.0|15.4|39.3|||Cochran-Mantel-Haenszel||Adjusted difference is the weighted average of the treatment differences across the strata with the CMH weights. 2-sided 95% CIs based on the stratified Newcombe method. Two-sided p-values were based on the CMH test.|||39.3|15.4|<0.0001
92320781|NCT03777436|184546741|SUPERIORITY||Least squares mean difference|-3.33|STANDARD_ERROR_OF_MEAN|0.942||0.0005|TWO_SIDED|95.0|-5.18|-1.47|||MMRM||Based on MMRM model.|||-1.47|-5.18|0.0005
92320782|NCT03777436|184546742|SUPERIORITY||Least squares mean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.79||0.0008|TWO_SIDED|95.0|-4.2|-1.1|||MMRM||Based on MMRM model.|||-1.1|-4.2|0.0008
92320783|NCT03777436|184546743|SUPERIORITY||Difference|-15.1|STANDARD_ERROR_OF_MEAN|2.6|<|0.0001|TWO_SIDED|95.0|-20.3|-10.0|||MMRM||Based on MMRM model.|||-10.0|-20.3|<0.0001
92320784|NCT01562782|184546780|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups in the primary outcome- the mean fold change in plasma VLDL triglyceride palmitate, 0-4 hours. A power calculation was based on data obtained in 15 overweight subjects. Assuming a mean absolute difference of 2.7 in South Asians and 1.0 in Caucasians and a standard deviation of 2.0 for both, group sample sizes of 16 and 16 were expected to achieve 80% power to detect a difference of 1.7 using a 2-sided Mann-Whitney test.|Mean Difference (Final Values)|0.61||||0.05|TWO_SIDED||||||Mixed Models Analysis|||The equivalence test was used to compare the fold change in plasma VLDL triglyceride palmitate in Caucasians and South Asians.||||0.05
92320785|NCT01562782|184546781|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||The equivalence test was used to compare 1) the fold change in triglycerides in South Asians and Caucasians and 2) the fold change in VLDL triglycerides in South Asians and Caucasians.||||<0.05
92320786|NCT01562782|184546782|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||The equivalence test is used to compare levels after the sugar beverage of 1) glucose at 1 hour 2) lactate at 1 hour 3) NEFA at 2 hours in South Asians vs Caucasians.||||<0.05
92320787|NCT01562782|184546783|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92320788|NCT01562782|184546784|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92320789|NCT01562782|184546785|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||Pearson or Spearman's rank test|||The equivalence test was used to analyze the relationship between the primary outcome, fold change in VLDL TG palmitate, and the listed levels of biomarkers of carbohydrate and fat metabolism. The correlation analysis was performed on data from each study group separately.||||<0.05
92320790|NCT01562782|184546786|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92320791|NCT01562782|184546787|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92320792|NCT01562782|184546788|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92320793|NCT01562782|184546789|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92320794|NCT01421225|184546794|EQUIVALENCE|The null hypothesis was that the number of hours would be the same (no effect of control).|Mean Difference (Final Values)|2.2||||0.12|TWO_SIDED|||||Statistical analysis was performed using a paired t-test.|t-test, 2 sided|||We tested the number of nighttime (10 PM - 8 AM) hours glucose was in the target range (110-200 mg/dL) on each of the two nights for which the patient was followed (one night under Standard Insulin Pump Therapy; one night under Closed-loop Insulin Therapy)||||0.12
92320795|NCT00945035|184546799|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Study Primary Hypothesis: The plasma etoricoxib AUC(0-∞) and Cmax values following a single-dose administration of the 120 mg etoricoxib (30%) URC formulation will be bioequivalent to the plasma AUC(0-∞) and Cmax of 120 mg etoricoxib (20%) in the FMI formulation following single-dose administration (geometric mean ratio \[GMR\] no less than 0.8 and no greater than 1.25).|Least-Squares Mean Ratio|1.02||||||90.0|0.97|1.07||||||Least-Squares Mean Ratio (B/A); A=FMI Formulation (20%), Final Market Image; B=URC Formulation (30%), Unmilled Roller Compaction||1.07|0.97|
92320796|NCT00945035|184546800|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Study Primary Hypothesis: The plasma etoricoxib AUC(0-∞) and Cmax values following a single-dose administration of the 120 mg etoricoxib (30%) URC formulation will be bioequivalent to the plasma AUC(0-∞) and Cmax of 120 mg etoricoxib (20%) in the FMI formulation following single-dose administration (geometric mean ratio \[GMR\] no less than 0.8 and no greater than 1.25).|Least-Squares Mean Ratio|1.03||||||90.0|0.95|1.11||||||Least-Squares Mean Ratio (B/A); A=FMI Formulation (20%), Final Market Image; B=URC Formulation (30%), Unmilled Roller Compaction||1.11|0.95|
92320797|NCT02064816|184546839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|3.5||0.277763|TWO_SIDED|95.0|-0.46|1.56|||Mann-Whitney Non Parametric test|||||1.56|-0.46|0.277763
92320798|NCT02064816|184546840|SUPERIORITY_OR_OTHER||Least Square (LS) Mean difference|1.3492||||0.0083|TWO_SIDED|95.0|0.3495|2.3489|||linear mixed model for repeated measures|||Week 4||2.3489|0.3495|0.0083
92320799|NCT02064816|184546840|SUPERIORITY_OR_OTHER||LS Mean difference|1.3367||||0.0079|TWO_SIDED|95.0|0.3534|2.32|||linear mixed model for repeated measures|||Week 8||2.3200|0.3534|0.0079
92320800|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|0.4003||||0.4311|TWO_SIDED|95.0|-0.5992|1.3998|||linear mixed model for repeated measures|||ISRs subscale Week 4||1.3998|-0.5992|0.4311
92320801|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|0.08479||||0.8635|TWO_SIDED|95.0|-0.885|1.0546|||linear mixed model for repeated measures|||ISRs subscale Week 8||1.0546|-0.8850|0.8635
92320802|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|-0.3245||||0.5099|TWO_SIDED|95.0|-1.2927|0.6437|||linear mixed model for repeated measures|||ISRs subscale Week 12||0.6437|-1.2927|0.5099
92320803|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|-0.07079||||0.8574|TWO_SIDED|95.0|-0.8452|0.7036|||linear mixed model for repeated measures|||Global side-effect subscale: Week 4||0.7036|-0.8452|0.8574
92320804|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|0.1897||||0.6338|TWO_SIDED|95.0|-0.5926|0.972|||linear mixed model for repeated measures|||Global side-effect subscale: Week 8||0.9720|-0.5926|0.6338
92320805|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|0.4097||||0.3042|TWO_SIDED|95.0|-0.3734|1.1929|||linear mixed model for repeated measures|||Global side-effect subscale: Week 12||1.1929|-0.3734|0.3042
92320806|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|-0.4083||||0.1038|TWO_SIDED|95.0|-0.9008|0.08419|||linear mixed model for repeated measures|||Benefits: Week 4||0.08419|-0.9008|0.1038
92320807|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|-0.1358||||0.594|TWO_SIDED|95.0|-0.637|0.3653|||linear mixed model for repeated measures|||Benefits: Week 8||0.3653|-0.6370|0.5940
92320808|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|-0.05809||||0.8217|TWO_SIDED|95.0|-0.5651|0.4489|||linear mixed model for repeated measures|||Benefits: Week 12||0.4489|-0.5651|0.8217
92320809|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|0.5909||||0.489|TWO_SIDED|95.0|-1.0873|2.269|||linear mixed model for repeated measures|||Description of pain: Week 4||2.2690|-1.0873|0.4890
92320810|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|-0.7689||||0.3719|TWO_SIDED|95.0|-2.4607|0.9229|||linear mixed model for repeated measures|||Description of pain: Week 8||0.9229|-2.4607|0.3719
92320811|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|0.1422||||0.869|TWO_SIDED|95.0|-1.5521|1.8364|||linear mixed model for repeated measures|||Description of pain: Week 12||1.8364|-1.5521|0.8690
92320812|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|0.6544||||0.8328|TWO_SIDED|95.0|-5.4393|6.7482|||linear mixed model for repeated measures|||VAS: Week 4||6.7482|-5.4393|0.8328
92320813|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|-2.2294||||0.4764|TWO_SIDED|95.0|-8.38|3.9212|||linear mixed model for repeated measures|||VAS: Week 8||3.9212|-8.3800|0.4764
92320814|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|-5.4196||||0.0852|TWO_SIDED|95.0|-11.5939|0.7547|||linear mixed model for repeated measures|||VAS: Week 12||0.7547|-11.5939|0.0852
92320815|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|0.006873||||0.9639|TWO_SIDED|95.0|-0.2918|0.3055|||linear mixed model for repeated measures|||Rating of pain: Week 4||0.3055|-0.2918|0.9639
92320816|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|-0.08689||||0.5715|TWO_SIDED|95.0|-0.3886|0.2148|||linear mixed model for repeated measures|||Rating of pain: Week 8||0.2148|-0.3886|0.5715
92320817|NCT02064816|184546841|SUPERIORITY_OR_OTHER||LS Mean difference|-0.2224||||0.1502|TWO_SIDED|95.0|-0.5256|0.0809|||linear mixed model for repeated measures|||Rating of pain: Week 12||0.08090|-0.5256|0.1502
92320818|NCT01779440|184546887|SUPERIORITY|||||||0.65||||||The P-Value of 0.65 was calculated from the difference between groups for the above outcome variable.|Chi-squared|||||||0.65
92320819|NCT00550745|184546898|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.26||||||95.0|0.91|1.73|||||Relative risk (ZOSTAVAX™/placebo) of proportion of subjects reporting ≥ 1 serious AE through 42 Days postvaccination and 95% Confidence Interval were based on Miettinen and Nurminen \[Comparative analysis of two rates. Stat Med 1985;4:213-26\] method.|||1.73|0.91|
92320820|NCT00550745|184546899|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.13||||||95.0|0.98|1.32|||||Relative risk (ZOSTAVAX™/placebo) of proportion of subjects reporting ≥ 1 serious AE through 6 months postvaccination and 95% Confidence Interval were based on Miettinen and Nurminen \[Comparative analysis of two rates. Stat Med 1985;4:213-26\] method.|||1.32|0.98|
92320821|NCT00764660|184546900|SUPERIORITY_OR_OTHER||Difference in LS Means|2.4||||0.41|TWO_SIDED|95.0|-3.4|8.2|||Repeated Measures Model||Repeated Measures Model with factors for treatment, pooled centers, assessment and assessment by treatment interaction.|||8.2|-3.4|0.41
92320822|NCT00764660|184546901|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|-1.9||||0.3|TWO_SIDED|95.0|-5.5|1.7|||Repeated Measures Model||Repeated Measures Model with factors for treatment, pooled centers, assessment and assessment by treatment interaction.|||1.7|-5.5|0.30
92320823|NCT00764660|184546902|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.52|TWO_SIDED|95.0|0.57|1.33|||Chi-squared|Zero Inflated Negative Binomial (ZINB) Distribution with terms for treatment and region||||1.33|0.57|0.52
92320824|NCT00764660|184546903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.81|TWO_SIDED|95.0|0.71|1.31|||Chi-squared|ZINB Distribution with terms for treatment and region||||1.31|0.71|0.81
92320825|NCT00764660|184546904|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.26|TWO_SIDED|95.0|0.81|2.12||Model with factors treatment and pooled centers as stratum.|Kaplan-Meier|||||2.12|0.81|0.26
92320826|NCT00764660|184546905|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.1||||0.59|TWO_SIDED|95.0|-9.9|5.7|||Repeated Measures Model|Repeated Measures Model with factors for treatment, pooled centers, assessment and assessment by treatment interaction.||||5.7|-9.9|0.59
92320827|NCT00764660|184546906|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.34|TWO_SIDED|95.0|0.65|3.43|||Regression, Logistic|An Odds Ratio (SCH 900435/Placebo) \>1 means SCH 900435 has a higher probability of achieving complete abstinence.||||3.43|0.65|0.34
92320828|NCT00764660|184546909|SUPERIORITY_OR_OTHER||Difference in LS Means|2.88||||0.54|TWO_SIDED|95.0|-6.3|12.06|||Contrained Longitudinal Data Analysis||Constrained Longitudinal Data Analysis (cLDA) Model with terms for treatment, pooled centers, assessment by treatment interaction.|||12.06|-6.30|0.54
92196886|NCT00632021|184292384|EQUIVALENCE|In the primary analysis we compared the number of clinically important medication errors by treatment group using unadjusted negative binomial regression.|Incidence Rate Ratio (IRR)|0.92|||||TWO_SIDED|95.0|0.77|1.09||||||||1.09|0.77|
92320829|NCT00764660|184546910|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.1||||0.51|TWO_SIDED|95.0|-12.35|6.15|||cLDA Model||cLDA Model with terms for treatment, pooled centers, assessment by treatment interaction.|||6.15|-12.35|0.51
92320830|NCT00764660|184546911|SUPERIORITY_OR_OTHER||Difference in LS Means|-9.17||||0.05|TWO_SIDED|95.0|-18.27|-0.07|||cLDA Model||cLDA Model with terms for treatment, pooled centers, assessment by treatment interaction.|||-0.07|-18.27|0.05
92196887|NCT00632021|184292385|EQUIVALENCE|The association between intervention and time to first unplanned health care event (hospital readmission) was examined using multivariable Cox proportional hazards regression models.|Cox Proportional Hazard|0.94|||||TWO_SIDED|95.0|0.63|1.28||||||||1.28|0.63|
92320831|NCT02046005|184546915|SUPERIORITY||Risk Ratio (RR)|1.23||||0.043|TWO_SIDED|95.0|1.01|1.51||We compared the PRE-RA group (PRE-RA arm and PRE-RA Plus arm combined) to the Comparison arm for the primary composite outcome at the 3 primary post-intervention time points using generalized estimating equations (GEE).|generalized estimating equations||PRE-RA group (combined PRE-RA arm and PRE-RA Plus arm) compared to Comparison arm (reference)|"In the primary analysis, we combined the PRE-RA and PRE-RA Plus arms into a single PRE-RA group and compared it to the Comparison arm (aka General Rheumatoid Arthritis Education)"||1.51|1.01|0.043
92320832|NCT03421210|184547015|OTHER|||||||0.001|||||||t-test, 1 sided|||Differences in brain activation in response to personal smoking versus standard smoking cues were examined.||||0.001
92320833|NCT00927862|184547055|NON_INFERIORITY_OR_EQUIVALENCE|Based on power calculations and feasibility, the minimum recruitment target for the randomized, PG-guided comparison was set at 500 patients. All qualifying parallel control patients were included, anticipated to number ≥1000. For hypothesis 1, the power to exclude inferiority of the modified PG arm vs standard PG arm at a margin (delta) of 5% with 250 patients per group at a 2-sided alpha \<0.05 is 87%, assuming a common standard deviation of 0.20.|Mean Difference (Final Values)|0.34|STANDARD_DEVIATION|0.2|<|0.05|TWO_SIDED|95.0||||Comparisons between groups for primary endpoints were made using the unpaired T-test.|t-test, 2 sided|||Comparisons between groups for primary endpoints were made using the unpaired T-test. All consented, randomized patients who were successfully genotyped and received at least one dose of warfarin with at least one post-dose INR were included in efficacy analyses (modified intention to treat \[mITT\]).||||<0.05
92320834|NCT00820248|184547064|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.83|TWO_SIDED|95.0|0.6|1.5|||Regression, Cox||Hazard ratio of panitumumab vs cisplatin|The log rank test stratified by the stratification factors at randomization was used to compare the difference in PFS between two treatment arms.||1.50|0.60|0.83
92320835|NCT00820248|184547065|SUPERIORITY||Cox Proportional Hazard|0.89||||0.66|TWO_SIDED|95.0|0.54|1.48|||Log Rank||hazard ratio for panitumumab vs cisplatin|||1.48|0.54|0.66
92320836|NCT03980145|184547087|SUPERIORITY|||||||0.405||||||Statistical significance set at .05|ANOVA|||Null hypothesis is no difference between the two groups||||.405
92320837|NCT03980145|184547087|SUPERIORITY|||||||0.133|||||||ANOVA|||Null hypothesis is no difference between pretest and posttest||||.133
92320838|NCT03980145|184547087|SUPERIORITY|||||||0.05|||||||ANOVA|||Evaluated the difference between the pretest and posttest within the conventional physical therapy group||||.050
92320839|NCT03980145|184547087|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.017|TWO_SIDED|95.0|0.015|0.124||p value was adjusted for multiple comparisons using a Bonferroni correction|ANOVA|||Evaluating the impact of whether comfortable walking speed for both groups combined resulted in a significant improvement in walking speed||.124|.015|.017
92320840|NCT03980145|184547088|SUPERIORITY|||||||0.369|||||||ANOVA|||Comparison of the impact between the two arms looking an improved walking endurance||||.369
92320841|NCT03980145|184547088|SUPERIORITY|||||||0.71|||||||ANOVA|||Evaluation of impact of end-effector robotic training alone||||.710
92320842|NCT03980145|184547088|SUPERIORITY|||||||0.682|||||||ANOVA|||Evaluating the impact of conventional therapy on walking endurance Null hypothesis is no difference between pretest and posttest||||.682
92320843|NCT03980145|184547088|SUPERIORITY|||||||0.568||||||p value adjusted for multiple comparisons - Bonferroni|ANOVA|||Evaluating the impact of whether both groups combined resulted in a significant change in walking distance||||.568
92320844|NCT03980145|184547089|SUPERIORITY|||||||0.594||||||Outcome specific to the physical domain|ANOVA|||Evaluation of the physical domain||||.594
92320845|NCT03980145|184547089|SUPERIORITY|||||||0.061|||||||ANOVA|||Pretest- Posttest End Effector Robotic Training Comparison for the Physical Domain||||.061
92320846|NCT03980145|184547089|SUPERIORITY|||||||0.812|||||||ANOVA|||Pretest posttest comparison of conventional training group for physical domain||||.812
92320847|NCT03980145|184547089|SUPERIORITY|||||||0.235|||||||ANOVA|||Combined conventional and end-effector training for outcomes in the physical domain||||.235
92320848|NCT03980145|184547089|SUPERIORITY|||||||0.465|||||||ANOVA|||Between group assessment of changes in the MFIS Cognitive domain||||.465
92320849|NCT03980145|184547089|SUPERIORITY|||||||0.165|||||||ANOVA|||Within group differences for the End Effector Robotic Training Group for the Cognitive Domain||||.165
92320850|NCT03980145|184547089|SUPERIORITY|||||||0.682|||||||ANOVA|||Within group assessment for the conventional group within the cognitive domain of the MFIS||||.682
92320851|NCT03980145|184547089|SUPERIORITY||Mean Difference (Final Values)|5.39||||0.017|TWO_SIDED|95.0|1.12|9.67||p value adjusted using a Bonferroni correction|ANOVA|||Combined group outcomes comparing pretest to posttest for the cognitive domain||9.67|1.12|.017
92320852|NCT03980145|184547089|SUPERIORITY|||||||0.052|||||||ANOVA|||Between group comparison for the MFIS Psychological Subscale||||.052
92320853|NCT03980145|184547089|SUPERIORITY|||||||0.483|||||||ANOVA|||Within group comparison for the end-effector robotic training group for the MFIS Psychological subscale||||.483
92320854|NCT03980145|184547089|SUPERIORITY|||||||0.056|||||||ANOVA|||Within group assessment for the conventional physical therapy group for the MFIS Psychological subscale||||.056
92320855|NCT03980145|184547089|SUPERIORITY||Mean Difference (Final Values)|1.313||||0.048|TWO_SIDED|95.0|0.016|2.619||p value is adjusted for multiple comparisons using a Bonferroni correction|ANOVA|||Change in MFIS for all subjects from pre to posttest for the psychological subscale||2.619|.016|.048
92320856|NCT03980145|184547089|SUPERIORITY|||||||0.01|||||||ANOVA|||Between group assessment of differences in total score||||.010
92320857|NCT03980145|184547089|SUPERIORITY|||||||0.089|||||||ANOVA|||Within assessment of change in total fatigue score||||.089
92320858|NCT03980145|184547089|SUPERIORITY|||||||0.5|||||||ANOVA|||Within group assessment of change in total score||||.50
92320859|NCT03980145|184547089|SUPERIORITY||Mean Difference (Final Values)|9.464||||0.1|TWO_SIDED|95.0|2.678|16.251|||ANOVA|||Combined assessment of all subject improvement in total MFIS score||16.251|2.678|0.10
92320860|NCT03980145|184547090|SUPERIORITY|||||||0.071|||||||ANOVA|||Null hypothesis set for no difference between groups Assessment of between group differences for the physical subscale||||.071
92320861|NCT03980145|184547090|SUPERIORITY||Mean Difference (Final Values)|14.84||||0.005|TWO_SIDED|95.0|6.02|23.66|||ANOVA|||With group assessment of change on the physical subscale of the MSIS||23.66|6.02|.005
92320862|NCT03980145|184547090|SUPERIORITY||Mean Difference (Final Values)|13.57||||0.001|TWO_SIDED|95.0|8.3|18.85|||ANOVA|||With group assessment of change on the physical subscale of the MSIS||18.85|8.30|.001
92196888|NCT00443209|184292388|SUPERIORITY_OR_OTHER||Treatment Difference|-6.2|||<|0.001|TWO_SIDED|95.0|-10.4|-2.6|||Miettenen and Nurminen method||Treatment Difference was compared using the Miettinen and Nurminen (MN) method.|||-2.6|-10.4|<0.001
92320863|NCT03980145|184547090|SUPERIORITY||Mean Difference (Final Values)|14.21||||2.6e-05|TWO_SIDED|95.0|9.367|19.04||p value adjusted for multiple comparisons using Bonferroni|ANOVA|||Combined group assessment of change on the physical subscale of the MSIS||19.04|9.367|.000026
92320864|NCT03980145|184547090|SUPERIORITY|||||||0.084||||||Pretest measures were statistically different between the two groups|ANOVA|||Between group comparison for the psychological subscale for the MSIS||||.084
92320865|NCT03980145|184547090|SUPERIORITY|||||||0.412|||||||ANOVA|||Within group comparison for the psychological subscale for the MSIS||||.412
92320866|NCT03980145|184547090|SUPERIORITY||Mean Difference (Final Values)|22.22||||0.00018|TWO_SIDED|95.0|15.59|28.85|||ANOVA|||Within group comparison for the psychological subscale for the MSIS||28.85|15.59|.00018
92320867|NCT03980145|184547090|SUPERIORITY||Mean Difference (Final Values)|13.19||||0.00049|TWO_SIDED|95.0|7.013|19.38|||ANOVA|||Combined group comparison for the psychological subscale for the MSIS||19.38|7.013|.00049
92320868|NCT03980145|184547091|SUPERIORITY|||||||0.352|||||||ANOVA|||Null hypothesis is no difference between the two groups||||.352
92196889|NCT00443209|184292389|SUPERIORITY_OR_OTHER||Treatment Difference|-5.2|||||TWO_SIDED|95.0|-11.7|1.4|||||Treatment Difference was compared using the MN method.|||1.4|-11.7|
92196890|NCT00443209|184292390|SUPERIORITY_OR_OTHER||Treatment Difference|0.3|||||TWO_SIDED|95.0|-2.0|2.0|||||Treatment Difference was compared using the MN method.|||2.0|-2.0|
92196891|NCT00443209|184292392|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58|||||TWO_SIDED|95.0|0.45|0.75|||||Based on mixed logistic regression model with a fixed effect term for treatment, baseline pain severity and a random effect term for participant, with the random effect following a normal distribution. An odds ratio \>1 is in favor of telcagepant.|||0.75|0.45|
92196892|NCT03563313|184292393|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92196893|NCT03563313|184292394|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92196894|NCT03563313|184292395|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92320869|NCT03980145|184547091|SUPERIORITY|||||||0.079|||||||ANOVA|||Within group assessment||||.079
92320870|NCT03980145|184547091|SUPERIORITY|||||||0.393|||||||ANOVA|||Within group assessment||||.393
92320871|NCT03980145|184547091|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.048|TWO_SIDED|95.0|0.001|0.116|||ANOVA|Adjusted for multiple mean comparisons||Evaluating the impact of whether fast walking speed for both groups combined resulted in a significant improvement in walking speed||.116|.001|.048
92320872|NCT03980145|184547092|SUPERIORITY|||||||0.117|||||||ANOVA|||Between group assessment for the HADS Anxiety Subscale||||.117
92320873|NCT03980145|184547092|SUPERIORITY||Mean Difference (Final Values)|1.75||||0.041|TWO_SIDED|95.0|0.093|3.407|||ANOVA|||Within group assessment for HADS Anxiety Subscale||3.407|.093|.041
92320874|NCT03980145|184547092|SUPERIORITY|||||||0.15|||||||ANOVA|||Within group assessment for HADS Anxiety Subscale||||.150
92320875|NCT03980145|184547092|SUPERIORITY||Mean Difference (Final Values)|1.518||||0.012|TWO_SIDED|95.0|0.39|2.646||p value adjusted for multiple comparisons|ANOVA|||Combined group assessment of HADS Anxiety Subscale||2.646|.390|.012
92196895|NCT03563313|184292396|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
92196896|NCT03563313|184292397|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92196897|NCT03563313|184292398|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||||||0.02
92196898|NCT02250534|184292442|SUPERIORITY||Mean Difference (Net)|-5.33|STANDARD_ERROR_OF_MEAN|1.06|<|0.0001|TWO_SIDED|95.0|-7.41|-3.26||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANCOVA||Group difference = 0.12 mg nicotine - 0.8 mg nicotine|The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 4.52 CPD between the 0.8 mg and 0.12 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.||-3.26|-7.41|<0.0001
92196899|NCT02250534|184292442|SUPERIORITY||Mean Difference (Net)|-7.54|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-9.51|-5.57||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANCOVA||Group difference = 0.03 mg nicotine - 0.8 mg nicotine|The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 6.07 CPD between the 0.8 mg and 0.03 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.||-5.57|-9.51|<0.0001
92196900|NCT03042299|184292467|EQUIVALENCE|The difference in the least square (LS) means between formulations (TAK-536 pediatric formulation \[granules\]-TAK-536 commercial formulation \[tablet\]) and the two-sided 90 percent (%) confidence interval (CI) were provided using a crossover analysis of variance (ANOVA) model. The ANOVA model included log-transformed (natural log) PK parameters AUC 48 as dependent variable, and formulation, group, and period as independent variables.|Point estimate|-0.0731|||||TWO_SIDED|90.0|-0.1088|-0.0373||||||||-0.0373|-0.1088|
92320876|NCT03980145|184547093|SUPERIORITY|||||||0.239|||||||ANOVA|||||||.239
92320877|NCT03980145|184547093|SUPERIORITY|||||||0.667|||||||ANOVA|||Comparison between groups for differences in sensory pain score||||.667
92320878|NCT03980145|184547093|SUPERIORITY|||||||0.77|||||||ANOVA|||Between group differences in affective pain||||.770
92320879|NCT03980145|184547094|SUPERIORITY|||||||0.136|||||||ANOVA|||Between group assessment of LLFDI Disability Frequency||||.136
92320880|NCT03980145|184547094|SUPERIORITY|||||||0.833|||||||ANOVA|||Combined group assessment of improvement in LLFDI Disability Frequency||||.833
92320881|NCT03980145|184547094|SUPERIORITY||Mean Difference (Final Values)|6.996||||0.044|TWO_SIDED|95.0|0.212|13.781|||ANOVA|||Between Group Assessment of improvement in LLFDI Disability Limitations||13.781|.212|.044
92320882|NCT03980145|184547094|SUPERIORITY|||||||0.212|||||||ANOVA|||Combined group assessment of improvement in LLFDI Disability Limitations||||.212
92320883|NCT03980145|184547095|SUPERIORITY|||||||0.338|||||||ANOVA|||Between group comparison for the LLDFI Function||||.338
92320884|NCT03980145|184547095|SUPERIORITY||Mean Difference (Final Values)|7.508||||0.007|TWO_SIDED|95.0|2.73|12.28|||ANOVA|||Within group assessment of LLFDI Function||12.28|2.73|.007
92320885|NCT03980145|184547095|SUPERIORITY|||||||0.067|||||||ANOVA|||Within group assessment for changes in LLFDI Function||||.067
92320886|NCT03980145|184547095|SUPERIORITY||Mean Difference (Final Values)|5.99||||0.001|TWO_SIDED|95.0|2.9|9.08||p value adjusted for multiple comparisons|ANOVA|||Combined group improvement in LLFDI Function||9.08|2.90|.001
92320887|NCT01057810|184547096|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.3667|TWO_SIDED|95.87|0.88|1.39|||Log Rank||Hazard ratio = ipilimumab over placebo|||1.39|0.88|0.3667
92320888|NCT01057810|184547097|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.55|0.8|||||HR = ipilimumab over placebo|||0.80|0.55|
92320889|NCT01057810|184547098|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.87|0.52|0.83|||||HR = Ipilimumab over placebo|||0.83|0.52|
92320890|NCT01057810|184547099|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.87|0.71|1.35|||||HR = Ipilimumab over placebo|||1.35|0.71|
92320891|NCT00267969|184547102|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
92320892|NCT00267969|184547102|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control for the multiplicity for the primary endpoint analysis, the Holm's procedure was used at an overall significance level of 0.05|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significance level of 0.05. Sample Size: With 750 patients (250 in each treatment group), simulation studies were conducted to calculate the power to detect a treatment difference in the primary endpoint between ustekinumab groups and placebo using a CMH test stratified by baseline weight \[\<=90kg vs \> 90 kg). For all the scenarios evaluated, the power is \>99% at an overall significance level of 0.05.||||<0.001
92320893|NCT00267969|184547103|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel(CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
92320894|NCT00267969|184547103|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control the multiplicity for the primary and the secondary endpoint analyses, Holm's procedure was used but the two comparisons for the primary endpoint and the two comparisons for the 1st second endpoint analyses need to be significant first|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significance level of 0.05.||||<0.001
92320895|NCT00267969|184547104|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|Treatment and patient's baseline weight (≤ 90kg vs \> 90 kg) as factors in the model||||||<0.001
92320896|NCT00267969|184547104|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control the multiplicity for the primary and the secondary endpoint analyses, Holm's procedure was used but the two comparisons for the primary endpoint and the two comparisons for the 1st second endpoint analyses need to be significant first|ANOVA on van der Waerden normal scores|Treatment and patient's baseline weight (≤ 90kg vs \> 90 kg) as factors in the model||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significance level of 0.05.||||<0.001
92320897|NCT00267969|184547105|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
92320898|NCT00267969|184547105|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
92320899|NCT00267969|184547105|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||To control the overall multiplicity, the combined groups was tested first and each dose will then be tested; but the primary and the 1st 2 secondary endpoint analyses need to be significant before this endpoint can be tested|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||Null Hypothesis: No difference between combined maintenance group and the combined withdrawal group, ustekinumab 90 mg maintenance group and the withdrawal group, ustekinumab 45 mg maintenance group and the withdrawal group at an overall significance level of 0.05.||||0.001
92196901|NCT03042299|184292468|EQUIVALENCE|The difference in the LS means between formulations (TAK-536 pediatric formulation \[granules\]-TAK-536 commercial formulation \[tablet\]) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters Cmax as dependent variable, and formulation, group, and period as independent variables.|Point estimate|-0.0909|||||TWO_SIDED|90.0|-0.1573|-0.0244||||||||-0.0244|-0.1573|
92320900|NCT00862823|184547106|NON_INFERIORITY_OR_EQUIVALENCE|The sample size was determined so there was an 80% chance that a 90% pairwise interval for 2 equivalent formulations would satifsy the FDA criteria for AUC and Cmax of log (0.8), log (1.2).|Geometric Mean Ratio|0.97|||<|0.05||90.0||||Bioequivalent measurew were log-transformed|log transformation|||||||<0.05
92320901|NCT01309360|184547110|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1
92320902|NCT01309360|184547110|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1
92320903|NCT01309360|184547110|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1
92320904|NCT01309360|184547111|SUPERIORITY_OR_OTHER|||||||0||95.0|||||Kruskal-Wallis|||||||0
92320905|NCT01309360|184547112|SUPERIORITY_OR_OTHER|||||||0.059||95.0|||||Fisher Exact|||||||0.059
92320906|NCT01309360|184547112|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92320907|NCT01309360|184547112|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Fisher Exact|||||||0.2
92320908|NCT01309360|184547113|SUPERIORITY_OR_OTHER|||||||0.675||95.0|||||Fisher Exact|||||||0.675
92320909|NCT01309360|184547113|SUPERIORITY_OR_OTHER|||||||0.087||95.0|||||Fisher Exact|||||||0.087
92320910|NCT01309360|184547113|SUPERIORITY_OR_OTHER|||||||0.348||95.0|||||Fisher Exact|||||||0.348
92320911|NCT01309360|184547114|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.247
92320912|NCT01309360|184547114|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92320913|NCT01309360|184547114|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
92320914|NCT01309360|184547115|SUPERIORITY_OR_OTHER|||||||0.116||95.0|||||Fisher Exact|||||||0.116
92320915|NCT01309360|184547115|SUPERIORITY_OR_OTHER|||||||0.116||95.0|||||Fisher Exact|||||||0.116
92320916|NCT01309360|184547115|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1
92196902|NCT04069585|184292490|NON_INFERIORITY|To achieve non-inferiority, the observed p-value must be \<= 0.5 taking into account of the non-inferiority margin (i.e., 10mm difference in Pain VAS between the two treatment groups).|||||<|0.0002||||||One-sided paired t-test|t-test, 1 sided|||||||<0.0002
92196903|NCT00087555|184292518|SUPERIORITY_OR_OTHER|||||||0.052||95.0|||||Chi-squared|||||||0.052
92196904|NCT00087555|184292518|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Chi-squared|||||||0.024
92196905|NCT00087555|184292518|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Chi-squared|||||||0.035
92320917|NCT02901067|184547128|SUPERIORITY|This is a secondary outcome thus no power analysis was done.|||||>|0.05|||||||Fisher Exact|||We hypothesized that the experimental group would present less fibrinolysis shutdown than the control group in all times measured.||||>0.05
92320918|NCT02901067|184547133|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
92320919|NCT02901067|184547136|SUPERIORITY|||||||0.1|||||||Fisher Exact|||We hypothesized that the experimental group would have less pulmonary embolism events than the control group.||||0.10
92320920|NCT02901067|184547137|SUPERIORITY|||||||0.046|||||||Fisher Exact|||We hypothesized that the experimental group would have a lower incidence of venous thromboembolism (VTE) than the control group.||||0.046
92320921|NCT00942890|184547138|SUPERIORITY_OR_OTHER||Slope|0.9|STANDARD_ERROR_OF_MEAN|0.24|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92320922|NCT00942890|184547144|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Regression, Linear|||||||<0.05
92320923|NCT02308540|184547166|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 1 GMC Ratio|0.31||||0.0025|TWO_SIDED|90.0|0.17|0.57|||t-test, 2 sided|||||0.57|0.17|0.0025
92320924|NCT02308540|184547166|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 5 GMC Ratio|0.74||||0.454|TWO_SIDED|90.0|0.38|1.45|||t-test, 2 sided|||||1.45|0.38|0.4540
92320925|NCT02308540|184547166|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 6A GMC Ratio|4.69||||0.0003|TWO_SIDED|90.0|2.46|8.94|||t-test, 2 sided|||||8.94|2.46|0.0003
92320926|NCT02308540|184547166|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 6B GMC Ratio|2.22||||0.046|TWO_SIDED|90.0|1.16|4.24|||t-test, 2 sided|||||4.24|1.16|0.0460
92320927|NCT02308540|184547166|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 7F GMC Ratio|0.76||||0.3365|TWO_SIDED|90.0|0.47|1.22|||t-test, 2 sided|||||1.22|0.47|0.3365
92320928|NCT02308540|184547166|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 9V GMC Ratio|0.56||||0.0313|TWO_SIDED|90.0|0.37|0.87|||t-test, 2 sided|||||0.87|0.37|0.0313
92320929|NCT02308540|184547166|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 14 GMC Ratio|1.08||||0.806|TWO_SIDED|90.0|0.65|1.79|||t-test, 2 sided|||||1.79|0.65|0.8060
92320930|NCT02308540|184547166|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 19A GMC Ratio|1.74||||0.2044|TWO_SIDED|90.0|0.84|3.58|||t-test, 2 sided|||||3.58|0.84|0.2044
92320931|NCT02308540|184547166|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 19F GMC Ratio|1.67||||0.149|TWO_SIDED|90.0|0.93|3.02|||t-test, 2 sided|||||3.02|0.93|0.1490
92320932|NCT02308540|184547166|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 23F GMC Ratio|1.13||||0.7565|TWO_SIDED|90.0|0.59|2.15|||t-test, 2 sided|||||2.15|0.59|0.7565
92320933|NCT02308540|184547167|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 1 GMC Ratio|0.75||||0.2653|TWO_SIDED|90.0|0.54|1.31|||Two-tailed from z-test|||||1.31|0.54|0.2653
92320934|NCT02308540|184547167|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 5 GMC Ratio|0.69||||0.2059|TWO_SIDED|90.0|0.45|1.2|||Two-tailed from z-test|||||1.20|0.45|0.2059
92320935|NCT02308540|184547167|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 6A GMC Ratio|0.84||||0.5664|TWO_SIDED|90.0|0.55|1.54|||Two-tailed from z-test|||||1.54|0.55|0.5664
92196906|NCT01062971|184292519|NON_INFERIORITY|Noninferiority was determined if the treatments did not show differences greater than 20%||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92196907|NCT01062971|184292520|NON_INFERIORITY|Noninferiority was determined if the treatments did not show differences greater than 20%.|||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92196908|NCT03738397|184292537|SUPERIORITY||Adjusted Response Rate Difference|9.7||||0.007|TWO_SIDED|95.0|2.6|16.7||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for vIGA-AD categories (moderate \[3\] versus severe \[4\]).|Response rate difference = Upadacitinib - Dupilumab|||16.7|2.6|0.007
92196909|NCT03738397|184292538|SUPERIORITY||Least Squares (LS) Mean Difference|-18.21|STANDARD_ERROR_OF_MEAN|2.753|<|0.001|TWO_SIDED|95.0|-23.61|-12.8||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD categories in the model.|Difference = Upadacitinib - Dupilumab|||-12.80|-23.61|<0.001
92320936|NCT02308540|184547167|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 6B GMC Ratio|0.82||||0.4456|TWO_SIDED|90.0|0.57|1.31|||Two-tailed from z-test|||||1.31|0.57|0.4456
92320937|NCT02308540|184547167|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 7F GMC Ratio|0.74||||0.2189|TWO_SIDED|90.0|0.52|1.14|||Two-tailed from z-test|||||1.14|0.52|0.2189
92320938|NCT02308540|184547167|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 9V GMC Ratio|0.6||||0.097|TWO_SIDED|90.0|0.38|1.03|||Two-tailed from z-test|||||1.03|0.38|0.0970
92320939|NCT02308540|184547167|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 14 GMC Ratio|1.76||||0.0713|TWO_SIDED|90.0|1.02|2.79|||Two-tailed from z-test|||||2.79|1.02|0.0713
92320940|NCT02308540|184547167|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 19A GMC Ratio|0.71||||0.3443|TWO_SIDED|90.0|0.42|1.35|||Two-tailed from z-test|||||1.35|0.42|0.3443
92320941|NCT02308540|184547167|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 19F GMC Ratio|0.76||||0.3278|TWO_SIDED|90.0|0.48|1.23|||Two-tailed from z-test|||||1.23|0.48|0.3278
92320942|NCT02308540|184547167|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 23F GMC Ratio|0.65||||0.2039|TWO_SIDED|90.0|0.4|1.16|||Two-tailed from z-test|||||1.16|0.40|0.2039
92320943|NCT02308540|184547168|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 1 GMC Ratio|0.89||||0.255|TWO_SIDED|90.0|0.74|1.06|||t-test, 2 sided|||||1.06|0.74|0.2550
92320944|NCT02308540|184547168|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 5 GMC Ratio|1.2||||0.0865|TWO_SIDED|90.0|1.01|1.43|||t-test, 2 sided|||||1.43|1.01|0.0865
92320945|NCT02308540|184547168|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 6A GMC Ratio|0.56||||0.0006|TWO_SIDED|90.0|0.43|0.74|||t-test, 2 sided|||||0.74|0.43|0.0006
92320946|NCT02308540|184547168|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 6B GMC Ratio|0.43|||<|0.0001|TWO_SIDED|90.0|0.33|0.57|||t-test, 2 sided|||||0.57|0.33|<0.0001
92320947|NCT02308540|184547168|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 7F GMC Ratio|0.56|||<|0.0001|TWO_SIDED|90.0|0.47|0.68|||t-test, 2 sided|||||0.68|0.47|<0.0001
92320948|NCT02308540|184547168|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 9V GMC Ratio|0.49|||<|0.0001|TWO_SIDED|90.0|0.41|0.59|||t-test, 2 sided|||||0.59|0.41|<0.0001
92320949|NCT02308540|184547168|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 14 GMC Ratio|1.11||||0.5234|TWO_SIDED|90.0|0.85|1.45|||t-test, 2 sided|||||1.45|0.85|0.5234
92320950|NCT02308540|184547168|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 19A GMC Ratio|0.29|||<|0.0001|TWO_SIDED|90.0|0.22|0.36|||t-test, 2 sided|||||0.36|0.22|<0.0001
92320951|NCT02308540|184547168|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 19F GMC Ratio|0.72||||0.004|TWO_SIDED|90.0|0.6|0.87|||t-test, 2 sided|||||0.87|0.60|0.0040
92320952|NCT02308540|184547168|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 23F GMC Ratio|0.58||||0.0001|TWO_SIDED|90.0|0.46|0.73|||t-test, 2 sided|||||0.73|0.46|0.0001
92320953|NCT02308540|184547170|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 1|-1.0|||||TWO_SIDED|90.0|-5.13|2.66||||||||2.66|-5.13|
92320954|NCT02308540|184547170|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 5|3.0|||||TWO_SIDED|90.0|-1.1|7.95||||||||7.95|-1.10|
92320955|NCT02308540|184547170|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 6A|-12.0|||||TWO_SIDED|90.0|-20.94|-2.97||||||||-2.97|-20.94|
92320956|NCT02308540|184547170|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 6B|-7.9|||||TWO_SIDED|90.0|-15.0|-1.01||||||||-1.01|-15.0|
92320957|NCT02308540|184547170|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 7F|-3.0|||||TWO_SIDED|90.0|-7.95|1.1||||||||1.10|-7.95|
92320958|NCT02308540|184547170|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 9V|-3.0|||||TWO_SIDED|90.0|-9.17|2.9||||||||2.90|-9.17|
92320959|NCT02308540|184547170|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 14|1.0|||||TWO_SIDED|90.0|-4.0|6.27||||||||6.27|-4.00|
92320960|NCT02308540|184547170|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 19A|-5.9|||||TWO_SIDED|90.0|-12.38|0.17||||||||0.17|-12.38|
92320961|NCT02308540|184547170|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 19F|0.0|||||TWO_SIDED|90.0|-4.22|4.33||||||||4.33|-4.22|
92320962|NCT02308540|184547170|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 23F|-6.0|||||TWO_SIDED|90.0|-12.77|0.4||||||||0.40|-12.77|
92320963|NCT02308540|184547172|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 1|9.1|||||TWO_SIDED|90.0|-15.55|36.11||||||||36.11|-15.55|
92320964|NCT02308540|184547172|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 5|0.0|||||TWO_SIDED|90.0|-18.56|18.56||||||||18.56|-18.56|
92320965|NCT02308540|184547172|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 6B|5.0|||||TWO_SIDED|90.0|-12.35|22.97||||||||22.97|-12.35|
92320966|NCT02308540|184547172|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 14|5.3|||||TWO_SIDED|90.0|-12.15|24.01||||||||24.01|-12.15|
92320967|NCT02308540|184547172|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 19A|-5.9|||||TWO_SIDED|90.0|-26.41|11.01||||||||11.01|-26.41|
92320968|NCT02308540|184547172|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 19F|5.0|||||TWO_SIDED|90.0|-11.64|22.97||||||||22.97|-11.64|
92320969|NCT04922255|184547228|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
92320970|NCT04922255|184547229|SUPERIORITY|||||||0.5|||||||Kruskal-Wallis|||||||0.50
92320971|NCT04922255|184547230|SUPERIORITY|||||||0.3|||||||ANOVA|||||||0.30
92320972|NCT04922255|184547231|SUPERIORITY|||||||0.7|||||||Chi-squared|||||||0.70
92320973|NCT04922255|184547232|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
92320974|NCT00648115|184547240|SUPERIORITY_OR_OTHER||Pearson chi square|7.3|||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
92196910|NCT03738397|184292539|SUPERIORITY||Adjusted Response Rate Difference|20.4|||<|0.001|TWO_SIDED|95.0|14.8|26.0||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for vIGA-AD categories (moderate \[3\] versus severe \[4\]).|Response rate difference = Upadacitinib - Dupilumab|||26.0|14.8|<0.001
92320975|NCT00961350|184547286|SUPERIORITY_OR_OTHER||Proportions|3.8||||0.02||95.0|1.8|6.8|||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.|The proportion is from the PA32540 treatment group.|The primary efficacy endpoint was the proportion of subjects with gastric ulcers throughout 6 months of treatment. The primary endpoint was analyzed with the CMH test stratified by NSAID use (COX-2/Other NSAID/No) at randomization. A sample size of 250 subjects/treatment would provide 86% power to detect the difference of 8% between EC aspirin 325 mg (13%) and PA32540 (5%) with a 2-sided significance of 5%; and, provides adequate power to test the key secondary endpoints in sequential order.||6.8|1.8|0.020
92320976|NCT00961350|184547287|SUPERIORITY_OR_OTHER|||||||0.002|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects developing gastric ulcers and/or duodenal ulcers at 6 months was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||0.002
92320977|NCT00961350|184547288|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects with Treatment Success was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
92320978|NCT00961350|184547289|SUPERIORITY_OR_OTHER|||||||0.002|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects discontinuing from the study due to NSAID-associated upper GI adverse events was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||0.002
92320979|NCT00961350|184547290|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO and by baseline heartburn severity at randomization.||The proportion of subjects who had no heartburn at 6 months (regardless of the presence or absence of heartburn at baseline) was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
92320980|NCT03867201|184547291|SUPERIORITY||Mean Difference (Net)|-1.57|STANDARD_ERROR_OF_MEAN|0.64||0.015|TWO_SIDED|95.0|-2.83|-0.3|||Mixed Models Analysis|||||-0.30|-2.83|0.015
92320981|NCT02986282|184547304|OTHER||Median Difference (Final Values)|-0.0600326|||<|0.05|TWO_SIDED|95.0|-0.0799661|-0.0449876|||Wilcoxon (Mann-Whitney)|||It was calculated that the study sample size of 79 subjects would be needed to detect a difference of 0.1 in the ABI measured in sinus rhythm and during atrial fibrillation, with a two-tailed α of 0.05 and a (1-β) of 0.90. Our initial estimate of sample size of 115 patients incorporated an assumption of dropout. Intra-observer variability was calculated using intra-class correlation coefficient.||-0.0449876|-0.0799661|<0.05
92320982|NCT02986282|184547305|OTHER||Median Difference (Final Values)|-0.0249837|||<|0.05|TWO_SIDED|95.0|-0.039992|-0.0100226|||Wilcoxon (Mann-Whitney)|||||-0.0100226|-0.039992|<0.05
92320983|NCT03467217|184547308|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.95|TWO_SIDED|95.0|-30.6|32.7|||ANCOVA|Adjusted for baseline value of ALT.||||32.7|-30.6|.95
92320984|NCT03467217|184547309|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.56|TWO_SIDED|95.0|-11.0|6.0|||ANCOVA|Adjusted for baseline value of GGT.||||6.0|-11.0|0.56
92320985|NCT03467217|184547310|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.53|TWO_SIDED|95.0|-10.3|19.8|||ANCOVA|Adjusted for the baseline AST value.||||19.8|-10.3|0.53
92320986|NCT03467217|184547311|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.57|TWO_SIDED|95.0|-20.8|37.5|||ANCOVA|Adjusted for the baseline ALT value.||||37.5|-20.8|0.57
92320987|NCT03467217|184547312|SUPERIORITY|Adjusted for the baseline ALT value.|Mean Difference (Final Values)|11.6||||0.25|TWO_SIDED|95.0|9.7|36.7|||ANCOVA|||||36.7|9.7|0.25
92320988|NCT03467217|184547313|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.05|TWO_SIDED|95.0|0.0|6.8|||ANCOVA|Adjusted for the baseline HOMA-IR value.||||6.8|0.0|0.05
92320989|NCT03467217|184547314|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.64|TWO_SIDED|95.0|-1.5|2.5|||ANCOVA|Adjusted for the baseline weight value.||||2.5|-1.5|0.64
92320990|NCT03467217|184547315|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.98|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|Adjusted for the baseline BMI value.||||0.6|-0.6|0.98
92320991|NCT03467217|184547316|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.1|TWO_SIDED|95.0|-0.5|5.3|||ANCOVA|Adjusted for the baseline waist circumference value.||||5.3|-0.5|0.10
92320992|NCT03467217|184547317|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.08|TWO_SIDED|95.0|0.0|0.05|||ANCOVA|Adjusted for the baseline waist-to-hip ratio.||||0.05|0.00|0.08
92320993|NCT03467217|184547318|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.29|TWO_SIDED|95.0|-2.8|9.0|||ANCOVA|Adjusted for the baseline PedsQOL Physical Health score.||||9.0|-2.8|0.29
92320994|NCT03467217|184547319|SUPERIORITY|||||||0.17|||||||Exact conditional binomial test|||||||0.17
92320995|NCT03467217|184547320|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.64|TWO_SIDED|95.0|-13.9|8.7|||ANCOVA|Adjusted for baseline total cholesterol value.||||8.7|-13.9|0.64
92320996|NCT03467217|184547321|SUPERIORITY||Mean Difference (Final Values)|7.0||||0.67|TWO_SIDED|95.0|-25.6|39.7|||ANCOVA|Adjusted for baseline triglyceride value.||||39.7|-25.6|0.67
92320997|NCT03467217|184547322|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.45|TWO_SIDED|95.0|-3.4|1.5|||ANCOVA|Adjusted for baseline HDL cholesterol value.||||1.5|-3.4|0.45
92320998|NCT03467217|184547323|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.93|TWO_SIDED|95.0|-10.3|9.4|||ANCOVA|Adjusted for baseline LDL cholesterol value.||||9.4|-10.3|0.93
92320999|NCT03467217|184547324|SUPERIORITY||Median Difference (Final Values)|2.9||||0.29|TWO_SIDED|95.0|-2.5|20.1|||ANCOVA|Adjusted for baseline PedsQOL Psychosocial Health score.||||20.1|-2.5|0.29
92321000|NCT01113385|184547333|SUPERIORITY_OR_OTHER|||||||0.009||||||p value reflects the difference in mean FSPF pre vs post galactose treatment.|t-test, 2 sided|||||||0.009
92321001|NCT03233529|184547345|SUPERIORITY||Least Squares Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-3.1|-1.7|||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.7|-3.1|<0.0001
92321002|NCT03233529|184547346|SUPERIORITY||Least Squares Mean Difference|-0.9906|STANDARD_ERROR_OF_MEAN|0.48404||0.042|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0420
92321003|NCT03233529|184547347|SUPERIORITY||Least Squares Mean Difference|-0.5446|STANDARD_ERROR_OF_MEAN|0.37855||0.1519|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.1519
92321004|NCT03233529|184547348|SUPERIORITY||Least Squares Mean Difference|-1.1273|STANDARD_ERROR_OF_MEAN|0.32552||0.0007|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0007
92321005|NCT03233529|184547349|SUPERIORITY||Least Squares Mean Difference|-0.7612|STANDARD_ERROR_OF_MEAN|0.44266||0.0871|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0871
92321006|NCT03233529|184547350|SUPERIORITY||Least Squares Mean Difference|-1.3641|STANDARD_ERROR_OF_MEAN|0.48603||0.0055|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0055
92321007|NCT03233529|184547351|SUPERIORITY||Least Squares Mean Difference|-1.1246|STANDARD_ERROR_OF_MEAN|0.49359||0.0238|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0238
92321008|NCT03233529|184547352|SUPERIORITY||Least Squares Mean Difference|-1.9913|STANDARD_ERROR_OF_MEAN|0.68659||0.0042|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0042
92321009|NCT03233529|184547359|SUPERIORITY||Least Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.7|-1.4|||Mixed Models Analysis|||Crisaborole 2% was superior to vehicle if p-value was \<0.05.||-1.4|-2.7|< 0.0001
92321010|NCT03233529|184547360|SUPERIORITY||Least Square Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.3|-0.6|||Mixed Models Analysis||Comparison at Day 8|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.6|-1.3|< 0.0001
92321011|NCT03233529|184547360|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.4|-0.8|||Mixed Models Analysis||Comparison at Day 15|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.8|-1.4|< 0.0001
92321012|NCT03233529|184547361|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.36||0.0188|TWO_SIDED|95.0|-1.6|-0.1|||Mixed Models Analysis||Comparison at Day 2|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.1|-1.6|0.0188
92321013|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.36||0.0014|TWO_SIDED|95.0|-1.9|-0.4|||Mixed Models Analysis||Comparison at Day 3|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.4|-1.9|0.0014
92321014|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.36||0.0003|TWO_SIDED|95.0|-2.0|-0.6|||Mixed Models Analysis||Comparison at Day 4|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.6|-2.0|0.0003
92321015|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.2|-0.8|||Mixed Models Analysis||Comparison at Day 5|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.8|-2.2|< 0.0001
92321016|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.36||0.0003|TWO_SIDED|95.0|-2.0|-0.6|||Mixed Models Analysis||Comparison at Day 6|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.6|-2.0|0.0003
92321017|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.3|-0.8|||Mixed Models Analysis||Comparison at Day 7|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.8|-2.3|< 0.0001
92321018|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.5|-1.1|||Mixed Models Analysis||Comparison at Day 8|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.1|-2.5|< 0.0001
92321019|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.6|-1.2|||Mixed Models Analysis||Comparison at Day 9|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.2|-2.6|< 0.0001
92321020|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.7|-1.3|||Mixed Models Analysis||Comparison at Day 10|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.3|-2.7|< 0.0001
92321021|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|95.0|-2.3|-0.9|||Mixed Models Analysis||Comparison at Day 11|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.9|-2.3|< 0.0001
92321022|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.9|-1.5|||Mixed Models Analysis||Comparison at Day 12|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.5|-2.9|< 0.0001
92321023|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.6|-1.2|||Mixed Models Analysis||Comparison at Day 13|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.2|-2.6|< 0.0001
92321024|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.4|-1.0|||Mixed Models Analysis||Comparison at Day 14|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.0|-2.4|< 0.0001
92321025|NCT03233529|184547361|SUPERIORITY||Least-Square Mean of Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.7|-1.2|||Mixed Models Analysis||Comparison at Day 15|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.2|-2.7|< 0.0001
92321026|NCT01177293|184547366|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUC\[0- ∞\] of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted geometric means ratio|89.78|||||TWO_SIDED|90.0|82.74|97.43||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1155 on the natural log scale for AUCinf with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1234 for loge AUCinf.||97.43|82.74|
92321027|NCT01177293|184547367|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUClast of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted geometric mean ratio|99.73|||||TWO_SIDED|90.0|85.1|116.87||||||||116.87|85.10|
92321028|NCT01177293|184547368|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed Cmax of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted geometric means ratio|86.67|||||TWO_SIDED|90.0|79.57|94.42||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1278 on the natural log scale for Cmax with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1366 for loge Cmax.||94.42|79.57|
92321029|NCT00594100|184547371|SUPERIORITY_OR_OTHER||Binomial Proportion|0.054|STANDARD_ERROR_OF_MEAN|0.016||0.002|TWO_SIDED|95.0|0.027|0.095|||One-Sample Binomial|Significance test was based on a one-sample binomial test|95% Confidence Interval is exact binomial using Clopper-Pearson method. Standard Error is from Normal approximation.|The EMPiRE Study tested the null hypothesis that the true MAE rate was greater than or equal to an Objective Performance Criterion (OPC) of 11.83% versus the alternative hypothesis that the true MAE rate was less than the OPC. The sample size was calculated based on 80% power and a Type I error rate of 0.025. The OPC was calculated from results of published carotid artery stenting studies that utilized distal embolic protection systems.||0.095|0.027|0.002
92321030|NCT02801617|184547409|NON_INFERIORITY|it will be considered not inferior if they keep the IOP goal with differences of no more than 2 mmHg analysis by protocol||||||0.861|||||||t-test, 2 sided|||||||0.861
92321031|NCT02801617|184547409|NON_INFERIORITY|it will be considered not inferior if they keep the TIOP with differences of no more than 2 mmHg||||||0.89|||||||t-test, 2 sided|||||||0.890
92321032|NCT02801617|184547410|NON_INFERIORITY|intention-to-treat analysis (ITT)||||||0.329|||||||Chi-squared|||||||0.329
92321033|NCT02801617|184547411|NON_INFERIORITY|it will be considered not inferior if they keep the percentage of ocular burning with differences of no more than 20%||||||0.388|||||||Chi-squared, Corrected|||||||0.388
92321034|NCT02801617|184547412|NON_INFERIORITY|it will be considered not inferior if they keep the percentage of ocular burning with differences of no more than 20%||||||0.125|||||||Chi-squared, Corrected|||||||0.125
92321035|NCT02801617|184547413|NON_INFERIORITY|it will be considered not inferior if they keep the percentage of ocular burning with differences of no more than 20%||||||0.434|||||||Chi-squared, Corrected|||||||0.434
92321036|NCT02801617|184547414|NON_INFERIORITY|it will be considered not inferior if they keep the percentage of ocular burning with differences of no more than 20%||||||0|||||||Chi-squared, Corrected|||||||0
92196911|NCT03738397|184292540|SUPERIORITY||Adjusted Response Rate Difference|21.2|||<|0.001|TWO_SIDED|95.0|13.8|28.6||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for vIGA-AD categories (moderate \[3\] versus severe \[4\]).|Response rate difference = Upadacitinib - Dupilumab|||28.6|13.8|<0.001
92196912|NCT03738397|184292541|SUPERIORITY||LS Mean Difference|-28.02|STANDARD_ERROR_OF_MEAN|3.177|<|0.001|TWO_SIDED|95.0|-34.25|-21.78||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD categories in the model.|Difference = Upadacitinib - Dupilumab|||-21.78|-34.25|<0.001
92321037|NCT02801617|184547415|NON_INFERIORITY|it will be considered not inferior if they keep the percentage of ocular burning with differences of no more than 20%||||||0.039|||||||Chi-squared|||||||0.039
92321038|NCT02237196|184547424|SUPERIORITY||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.5038||0.314|TWO_SIDED|95.0|-1.51|0.49|||Longitudinal repeated measures analysis|Model adjusts for Site, Baseline TNSS AUC, and Baseline Cat exposure (low vs high)||||0.49|-1.51|0.314
92321039|NCT01814696|184547434|SUPERIORITY_OR_OTHER_LEGACY|||||||0.605||||||a prior threshold p\<0.05|Fisher Exact|||||||0.605
92321040|NCT01814696|184547435|SUPERIORITY_OR_OTHER_LEGACY|||||||0.604|TWO_SIDED||||||Fisher Exact|||Heart failure related ED visits||||0.604
92321041|NCT01814696|184547435|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Fisher Exact|||Non-heart failure related ED visits||||1.000
92321042|NCT01814696|184547435|SUPERIORITY_OR_OTHER_LEGACY|||||||0.677|TWO_SIDED||||||Fisher Exact|||All cause ED visits||||0.677
92321043|NCT01814696|184547436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.341|TWO_SIDED||||||Fisher Exact|||||||0.341
92321044|NCT01814696|184547436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.042|TWO_SIDED||||||Fisher Exact|||||||0.042
92321045|NCT01814696|184547437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.497|TWO_SIDED||||||Wilcoxon rank-sum test|||All cause||||0.497
92321046|NCT01814696|184547437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.413|TWO_SIDED||||||Wilcoxon rank-sum test|||Heart failure related||||0.413
92321047|NCT01814696|184547437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.944|TWO_SIDED||||||Wilcoxon rank-sum test|||Non-heart failure ED visits||||0.944
92321048|NCT01814696|184547438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057|TWO_SIDED||||||Wilcoxon rank-sum test|||All cause||||0.057
92321049|NCT01814696|184547438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.236|TWO_SIDED||||||Wilcoxon rank-sum test|||Heart failure related||||0.236
92321050|NCT01814696|184547438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.236|TWO_SIDED||||||Wilcoxon rank-sum test|||Non heart failure related||||0.236
92321051|NCT01814696|184547439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034|||||||Wilcoxon rank-sum test|||All cause||||0.034
92321052|NCT01814696|184547439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.196|||||||Wilcoxon rank-sum test|||Heart failure related||||0.196
92321053|NCT01814696|184547439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|TWO_SIDED||||||Wilcoxon rank-sum test|||Non heart failure related||||0.210
92321054|NCT01814696|184547440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||||||0.002
92321055|NCT02105987|184547464|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is -10%.|Mean Difference (Net)|-3.4|||||TWO_SIDED|95.0|-9.1|2.4|||Cochran-Mantel-Haenszel||Based on Cochran-Mantel Haenszel stratified analysis adjusting for the following Baseline stratification factor: Original ART third agent class (PI, NNRTI, or INI).|||2.4|-9.1|
92321056|NCT02105987|184547466|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-2.0|1.4|||Cochran-Mantel-Haenszel||Based on Cochran-Mantel Haenszel stratified analysis adjusting for the following Baseline stratification factor: Original ART third agent class (PI, NNRTI, or INI).|||1.4|-2.0|
92321057|NCT02105987|184547471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.096|TWO_SIDED|95.0|-0.02|0.23|||ANCOVA||Statistical analysis of cholesterol is presented|||0.23|-0.02|0.096
92321058|NCT02105987|184547471|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.07||||0.167|TWO_SIDED|95.0|-0.03|0.18|||ANCOVA||Statistical analysis of LDL cholesterol is presented|||0.18|-0.03|0.167
92321059|NCT02105987|184547471|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.02||||0.317|TWO_SIDED|95.0|-0.02|0.06|||ANCOVA||Statistical analysis of HDL cholesterol is presented|||0.06|-0.02|0.317
92321060|NCT02105987|184547471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.187|TWO_SIDED|95.0|-0.05|0.27|||ANCOVA||Statistical analysis of triglycerides is presented|||0.27|-0.05|0.187
92321061|NCT02105987|184547472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.175|TWO_SIDED|95.0|-0.04|0.25|||ANCOVA||Statistical analysis of total cholesterol/HDL cholesterol ratio is presented|||0.25|-0.04|0.175
92321062|NCT02105987|184547473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4|||<|0.001|TWO_SIDED|95.0|1.3|3.5|||ANCOVA||Statistical analysis for total score is presented|||3.5|1.3|<0.001
92321063|NCT02105987|184547473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||0.002|TWO_SIDED|95.0|0.4|1.7|||ANCOVA||Statistical analysis for general satisfaction/clinical subscale score is presented|||1.7|0.4|0.002
92321064|NCT02105987|184547473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|||<|0.001|TWO_SIDED|95.0|0.8|1.8|||ANCOVA||Statistical analysis for lifestyle/ease subscale is presented|||1.8|0.8|<0.001
92321065|NCT02105987|184547474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.51|||<|0.001|TWO_SIDED|95.0|4.86|8.16|||ANCOVA|||||8.16|4.86|<0.001
92321066|NCT02105987|184547475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.87|||<|0.001|TWO_SIDED|95.0|-8.64|-5.11|||ANCOVA|||||-5.11|-8.64|<0.001
92321067|NCT02105987|184547476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|||<|0.001|TWO_SIDED|95.0|-0.17|-0.1|||ANCOVA|||||-0.10|-0.17|<0.001
92321068|NCT02105987|184547477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.375|TWO_SIDED|95.0|-0.31|0.12|||ANCOVA|||||0.12|-0.31|0.375
92321069|NCT02105987|184547478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.749|TWO_SIDED|95.0|-0.93|1.3|||ANCOVA|||||1.30|-0.93|0.749
92321070|NCT02105987|184547479|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.86|||<|0.001|TWO_SIDED|95.0|0.82|0.9||Bone specific alkaline phosphatase|ANCOVA|||||0.90|0.82|<0.001
92321071|NCT02105987|184547479|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.91||||0.002|TWO_SIDED|95.0|0.85|0.96||Osteocalcin|ANCOVA|||||0.96|0.85|0.002
92321072|NCT02105987|184547479|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|-0.09||||0.001|TWO_SIDED|95.0|-0.15|-0.04||Procollagen 1 n-terminal propeptide|ANCOVA|||||-0.04|-0.15|0.001
92321073|NCT02105987|184547479|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.91||||0.001|TWO_SIDED|95.0|0.86|0.96||Type I collagen c-telopeptides|ANCOVA|||||0.96|0.86|0.001
92321074|NCT02105987|184547480|SUPERIORITY_OR_OTHER||Geometric Mean ratio|0.64|||<|0.001|TWO_SIDED|95.0|0.57|0.72||Fatty acid binding protein 2|ANCOVA|||||0.72|0.57|<0.001
92321075|NCT02105987|184547480|SUPERIORITY_OR_OTHER||Geometric Mean ratio|1.08||||0.311|TWO_SIDED|95.0|0.93|1.24||Interleukin 6|ANCOVA|||||1.24|0.93|0.311
92321076|NCT02105987|184547480|SUPERIORITY_OR_OTHER||Geometric Mean ratio|0.92|||<|0.001|TWO_SIDED|95.0|0.89|0.96||Soluble CD14|ANCOVA|||||0.96|0.89|<0.001
92321077|NCT02105987|184547480|SUPERIORITY_OR_OTHER||Geometric Mean ratio|1.01||||0.742|TWO_SIDED|95.0|0.95|1.08||Soluble vasc cell adhesion molecule 1|ANCOVA|||||1.08|0.95|0.742
92321078|NCT02105987|184547481|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0||||0.999|TWO_SIDED|95.0|0.84|1.19|||ANCOVA|||||1.19|0.84|0.999
92321079|NCT02105987|184547482|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0||||0.981|TWO_SIDED|95.0|0.91|1.1|||ANCOVA|||||1.10|0.91|0.981
92321080|NCT02105987|184547483|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.97||||0.64|TWO_SIDED|95.0|0.85|1.11|||ANCOVA|||||1.11|0.85|0.640
92321081|NCT02105987|184547484|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.97||||0.645|TWO_SIDED|95.0|0.87|1.09|||ANCOVA|||||1.09|0.87|0.645
92321082|NCT02105987|184547485|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01||||0.577|TWO_SIDED|95.0|0.97|1.06|||ANCOVA|||||1.06|0.97|0.577
92321083|NCT02105987|184547486|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01||||0.687|TWO_SIDED|95.0|0.98|1.03|||ANCOVA|||||1.03|0.98|0.687
92321084|NCT01303172|184547500|OTHER||Cox Proportional Hazard|0.54||||0.011|TWO_SIDED|95.0|0.33|0.87|||Log Rank|||The difference between the two treatment groups was tested with a two-sided log-rank test and a Cox regression model was used to estimate the hazard ratio (HR) and its 95% CI and associated p-value.||0.87|0.33|0.011
92321085|NCT02099110|184547520|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.46|||<|0.001|TWO_SIDED|95.0|-0.63|-0.3||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.30|-0.63|<0.001
92321086|NCT02099110|184547520|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.43|||<|0.001|TWO_SIDED|95.0|-0.6|-0.27||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.27|-0.60|<0.001
92321087|NCT02099110|184547520|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.44|||<|0.001|TWO_SIDED|95.0|-0.61|-0.27||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.27|-0.61|<0.001
92321088|NCT02099110|184547520|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.47|||<|0.001|TWO_SIDED|95.0|-0.63|-0.3||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.30|-0.63|<0.001
92196913|NCT03738397|184292542|SUPERIORITY||Adjusted Response Rate Difference|26.0|||<|0.001|TWO_SIDED|95.0|19.3|32.7||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for vIGA-AD categories (moderate \[3\] versus severe \[4\]).|Response rate difference = Upadacitinib - Dupilumab|||32.7|19.3|<0.001
92321089|NCT02099110|184547521|SUPERIORITY_OR_OTHER||Difference in % vs Ertugliflozin 5 mg|-3.2|||||TWO_SIDED|95.0|-11.7|5.5|||||Based on Miettinen \& Nurminen method.|||5.5|-11.7|
92321090|NCT02099110|184547521|SUPERIORITY_OR_OTHER||Difference in % vs. Ertugliflozin 15 mg|-1.9|||||TWO_SIDED|95.0|-10.6|6.8|||||Based on Miettinen \& Nurminen method.|||6.8|-10.6|
92321091|NCT02099110|184547521|SUPERIORITY_OR_OTHER||Difference in % vs. Sitagliptin 100 mg|1.4|||||TWO_SIDED|95.0|-7.4|10.1|||||Based on Miettinen \& Nurminen method.|||10.1|-7.4|
92321092|NCT02099110|184547521|SUPERIORITY_OR_OTHER||Difference in % vs. Sitagliptin 100 mg|-1.8|||||TWO_SIDED|95.0|-10.5|7.0|||||Based on Miettinen \& Nurminen method.|||7.0|-10.5|
92321093|NCT02099110|184547522|SUPERIORITY_OR_OTHER||Difference in % vs. Ertugliflozin 5 mg|0.1|||||TWO_SIDED|95.0|-3.3|3.6|||||Based on Miettinen \& Nurminen method.|||3.6|-3.3|
92321094|NCT02099110|184547522|SUPERIORITY_OR_OTHER||Difference in % vs. Ertugliflozin 15 mg|0.5|||||TWO_SIDED|95.0|-3.0|4.0|||||Based on Miettinen \& Nurminen method.|||4.0|-3.0|
92321095|NCT02099110|184547522|SUPERIORITY_OR_OTHER||Difference in % vs. Sitagliptin 100 mg|0.5|||||TWO_SIDED|95.0|-2.9|3.9|||||Based on Miettinen \& Nurminen method.|||3.9|-2.9|
92321096|NCT02099110|184547522|SUPERIORITY_OR_OTHER||Difference in % vs. Sitagliptin 100 mg|0.9|||||TWO_SIDED|95.0|-2.5|4.4|||||Based on Miettinen \& Nurminen method.|||4.4|-2.5|
92321097|NCT02099110|184547523|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.85|||<|0.001|TWO_SIDED|95.0|-2.48|-1.22||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-1.22|-2.48|<0.001
92321098|NCT02099110|184547523|SUPERIORITY_OR_OTHER||Difference in the least squares means|-2.27|||<|0.001|TWO_SIDED|95.0|-2.9|-1.64||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained logitudinal data analysis|||||-1.64|-2.90|<0.001
92321099|NCT02099110|184547524|SUPERIORITY_OR_OTHER||Difference in the least squares means|-8.23||||0.004|TWO_SIDED|95.0|-13.82|-2.65||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|||||-2.65|-13.82|0.004
92321100|NCT02099110|184547524|SUPERIORITY_OR_OTHER||Difference in the least squares means|-11.79|||<|0.001|TWO_SIDED|95.0|-17.35|-6.23||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|||||-6.23|-17.35|<0.001
92321101|NCT02099110|184547524|SUPERIORITY_OR_OTHER||Difference in the least squares means|-18.4|||<|0.001|TWO_SIDED|95.0|-24.03|-12.77||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|||||-12.77|-24.03|<0.001
92321102|NCT02099110|184547524|SUPERIORITY_OR_OTHER||Difference in the least squares means|-23.14|||<|0.001|TWO_SIDED|95.0|-28.76|-17.53||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|||||-17.53|-28.76|<0.001
92321103|NCT02099110|184547525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.14|||<|0.001|TWO_SIDED|95.0|2.68|6.4||Adjusted Odds Ratio using a logistic regression model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR.|Regression, Logistic|||||6.40|2.68|<0.001
92321104|NCT02099110|184547525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.53|||<|0.001|TWO_SIDED|95.0|1.68|3.83||Adjusted Odds Ratio using a logistic regression model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR.|Regression, Logistic|||||3.83|1.68|<0.001
92321105|NCT02099110|184547525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.95|||<|0.001|TWO_SIDED|95.0|1.92|4.54||Adjusted Odds Ratio using a logistic regression model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR.|Regression, Logistic|||||4.54|1.92|<0.001
92321106|NCT02099110|184547525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.56|||<|0.001|TWO_SIDED|95.0|1.69|3.89|||Regression, Logistic|Adjusted Odds Ratio using a logistic regression model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR.||||3.89|1.69|<0.001
92321107|NCT02099110|184547526|SUPERIORITY_OR_OTHER||Difference in the least squares means|7.61||||0.155|TWO_SIDED|95.0|-2.9|18.13||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||18.13|-2.90|0.155
92321108|NCT02099110|184547526|SUPERIORITY_OR_OTHER||Difference in the least squares means|-4.87||||0.369|TWO_SIDED|95.0|-15.54|5.8||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||5.80|-15.54|0.369
92321109|NCT02099110|184547526|SUPERIORITY_OR_OTHER||Difference in the least squares means|1.81||||0.734|TWO_SIDED|95.0|-8.66|12.27||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||12.27|-8.66|0.734
92321110|NCT02099110|184547526|SUPERIORITY_OR_OTHER||Difference in the least squares means|-9.59||||0.075|TWO_SIDED|95.0|-20.17|0.98||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the least squares means|||||0.98|-20.17|0.075
92321111|NCT02099110|184547527|SUPERIORITY_OR_OTHER||Difference in the least squares means|-2.76||||0.005|TWO_SIDED|95.0|-4.69|-0.83||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.83|-4.69|0.005
92321112|NCT02099110|184547527|SUPERIORITY_OR_OTHER||Difference in the least squares means|-3.01||||0.002|TWO_SIDED|95.0|-4.94|-1.09||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-1.09|-4.94|0.002
92196914|NCT03738397|184292543|SUPERIORITY||LS Mean Difference|-23.02|STANDARD_ERROR_OF_MEAN|2.548|<|0.001|TWO_SIDED|95.0|-28.03|-18.02||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD categories in the model.|Difference = Upadacitinib - Dupilumab|||-18.02|-28.03|<0.001
92321113|NCT03515811|184547535|OTHER||Percentage and confidence interval|10.6|||||TWO_SIDED|95.0|5.0|19.2|||||95% CI: 5.0%-19.2%|||19.2|5.0|
92321114|NCT03515811|184547535|OTHER||Percentage and confidence interval|0.0|||||TWO_SIDED|95.0|0.0|7.0|||||95% CI: 0.0%-7.0%|||7.0|0.0|
92321115|NCT03515811|184547536|OTHER||Percentage and confidence interval|6.6|||||TWO_SIDED|95.0|3.1|12.2|||||95% CI: 3.1%-12.2%|||12.2|3.1|
92321116|NCT02977572|184547571|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||Based upon previous results, the investigators considered that the need for an intubation could be reduced by 15% \[19% in the CPAP group (control) vs. 4% in the NIV group (study)\]. The estimated sample size was 55 participants in each group (confidence interval \[1-α\] = 90% and power \[1-β\] = 85%).||||1.000
92321117|NCT01075256|184547586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.1||||0.3628|TWO_SIDED|95.0|-6.7|2.46||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no diference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||2.46|-6.70|0.3628
92321118|NCT01075256|184547586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.2||||0.9361|TWO_SIDED|95.0|-4.45|4.83||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||4.83|-4.45|0.9361
92321119|NCT01075256|184547586|SUPERIORITY_OR_OTHER||Adjusted Mean difference|2.3||||0.3257|TWO_SIDED|95.0|-2.31|6.92||No adustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||6.92|-2.31|0.3257
92321120|NCT01075256|184547587|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.0||||0.6674|TWO_SIDED|95.0|-5.73|3.68||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||3.68|-5.73|0.6674
92321121|NCT01075256|184547587|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0||||0.9888|TWO_SIDED|95.0|-4.74|4.81||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is the high concentration minus placebo such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||4.81|-4.74|0.9888
92196915|NCT03738397|184292544|SUPERIORITY||Adjusted Response Rate Difference|19.8|||<|0.001|TWO_SIDED|95.0|12.4|27.3||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for vIGA-AD categories (moderate \[3\] versus severe \[4\]).|Response rate difference = Upadacitinib - Dupilumab|||27.3|12.4|<0.001
92196916|NCT01795859|184292545|SUPERIORITY_OR_OTHER||LSMean Difference|-2.49|||<|0.0001|TWO_SIDED|95.0|-3.69|-1.29|||ANCOVA|||||-1.29|-3.69|<0.0001
92321122|NCT01075256|184547587|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.1||||0.6599|TWO_SIDED|95.0|-3.69|5.81||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||5.81|-3.69|0.6599
92321123|NCT01075256|184547588|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1||||0.9759|TWO_SIDED|95.0|-6.34|6.54||No adjustments for multiple comparisons|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||6.54|-6.34|0.9759
92321124|NCT01075256|184547588|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.5||||0.8903|TWO_SIDED|95.0|-6.97|6.06||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||6.06|-6.97|0.8903
92321125|NCT01075256|184547588|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.6||||0.8662|TWO_SIDED|95.0|-7.04|5.93||No adjustments for multiple comparisons|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.||5.93|-7.04|0.8662
92196917|NCT01795859|184292546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.1||||0.002|TWO_SIDED|95.0|12.4|49.8|||Difference of proportions|||||49.8|12.4|0.0020
92196918|NCT01795859|184292547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.9||||0.0022|TWO_SIDED|95.0|11.4|46.4|||Difference of proportions|||||46.4|11.4|0.0022
92196919|NCT01795859|184292548|SUPERIORITY_OR_OTHER||LSMean Difference|4.34||||0.0308|TWO_SIDED|95.0|0.41|8.27|||Mixed Models Analysis|||||8.27|0.41|0.0308
92196920|NCT01795859|184292549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.1415|TWO_SIDED|95.0|-0.3|2.3|||Mixed Models Analysis|||||2.3|-0.3|0.1415
92196921|NCT02353871|184292562|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 29||||<0.0001
92196922|NCT02353871|184292563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 8 - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
92196923|NCT02353871|184292563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 15 - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
92196924|NCT02353871|184292563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 57 - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
92196925|NCT02353871|184292563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 85 - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
92196926|NCT02353871|184292563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 113 - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
92196927|NCT02353871|184292563|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0035||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 148 - BTX-A-HAC NG solution (50 U) versus placebo||||0.0035
92196928|NCT02353871|184292563|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0441||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 183 (End of Study) - BTX-A-HAC NG solution (50 U) versus placebo||||0.0441
92196929|NCT02353871|184292564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2422||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of the proportion of responders on Day 29 who remained responders at Day 57 - BTX-A-HAC NG solution (50 U) versus Placebo||||0.2422
92196930|NCT02353871|184292564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0917||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of the proportion of responders on Day 29 who remained responders at Day 85 - BTX-A-HAC NG solution (50 U) versus Placebo||||0.0917
92196931|NCT02353871|184292564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7064||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of the proportion of responders on Day 29 who remained responders at Day 113 - BTX-A-HAC NG solution (50 U) versus Placebo||||0.7064
92196932|NCT02353871|184292564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.701||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of the proportion of responders on Day 29 who remained responders at Day 148 - BTX-A-HAC NG solution (50 U) versus Placebo||||0.7010
92196933|NCT02353871|184292564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7894||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of the proportion of responders on Day 29 who remained responders at Day 183 - BTX-A-HAC NG solution (50 U) versus Placebo||||0.7894
92196934|NCT02353871|184292565|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 8||||<0.0001
92196935|NCT02353871|184292565|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 15||||<0.0001
92196936|NCT02353871|184292565|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 29||||<0.0001
92196937|NCT02353871|184292565|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 57||||<0.0001
92321126|NCT01075256|184547589|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.6||||0.8419|TWO_SIDED|95.0|-6.93|5.66||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||5.66|-6.93|0.8419
92321127|NCT01075256|184547589|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.3||||0.9147|TWO_SIDED|95.0|-6.03|6.72||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||6.72|-6.03|0.9147
92321128|NCT01075256|184547589|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.0||||0.76|TWO_SIDED|95.0|-5.36|7.33||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||7.33|-5.36|0.7600
92321129|NCT01075256|184547590|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.5||||0.9124|TWO_SIDED|95.0|-8.28|9.24||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||9.24|-8.28|0.9124
92321130|NCT01075256|184547590|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.5||||0.9083|TWO_SIDED|95.0|-9.13|8.14||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level||8.14|-9.13|0.9083
92321131|NCT01075256|184547590|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.0||||0.8231|TWO_SIDED|95.0|-9.73|7.77||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||7.77|-9.73|0.8231
92321132|NCT01075256|184547591|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.4||||0.5946|TWO_SIDED|95.0|-9.32|16.09||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||16.09|-9.32|0.5946
92321133|NCT01075256|184547591|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0||||0.9944|TWO_SIDED|95.0|-12.51|12.6||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||12.60|-12.51|0.9944
92196938|NCT02353871|184292565|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 85||||<0.0001
92196939|NCT02353871|184292565|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 113||||<0.0001
92321134|NCT01075256|184547591|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.3||||0.5998|TWO_SIDED|95.0|-16.06|9.38||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||9.38|-16.06|0.5998
92321135|NCT01075256|184547592|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.2||||0.7952|TWO_SIDED|95.0|-10.51|8.09||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||8.09|-10.51|0.7952
92321136|NCT01075256|184547592|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.4||||0.601|TWO_SIDED|95.0|-11.56|6.76||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||6.76|-11.56|0.6010
92196940|NCT02353871|184292565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0015||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 183||||0.0015
92321137|NCT01075256|184547592|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.2||||0.7976|TWO_SIDED|95.0|-10.48|8.1||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||8.10|-10.48|0.7976
92321138|NCT01075256|184547593|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.7||||0.906|TWO_SIDED|95.0|-10.38|11.68||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||11.68|-10.38|0.9060
92321139|NCT01075256|184547593|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.7||||0.7575|TWO_SIDED|95.0|-12.63|9.25||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||9.25|-12.63|0.7575
92321140|NCT01075256|184547593|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.3||||0.6727|TWO_SIDED|95.0|-13.42|8.73||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||8.73|-13.42|0.6727
92321141|NCT01197534|184547599|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.15|||<|0.001|TWO_SIDED|95.0|0.08|0.22||Week 24|Mantel Haenszel|Treatment difference in proportion of responders using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.22|0.08|<0.001
92321142|NCT01197534|184547600|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.08|||<|0.001|TWO_SIDED|95.0|0.04|0.12|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.12|0.04|<0.001
92321143|NCT01197534|184547601|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.13|||<|0.001|TWO_SIDED|95.0|0.07|0.18|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.18|0.07|<0.001
92321144|NCT01197534|184547601|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.1|||<|0.001|TWO_SIDED|95.0|0.05|0.15|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.15|0.05|<0.001
92321145|NCT01197534|184547602|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.07|||<|0.001|TWO_SIDED|95.0|0.03|0.1|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.10|0.03|<0.001
92321146|NCT01197534|184547602|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.03||||0.033|TWO_SIDED|95.0|0.0|0.07|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.07|0.00|0.033
92321147|NCT01197534|184547603|SUPERIORITY_OR_OTHER||||||<|0.001||||||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-values are estimated using the Van Elteren test stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||<0.001
92321148|NCT01197534|184547603|SUPERIORITY_OR_OTHER||||||<|0.001||||||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-values are estimated using the Van Elteren test stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||<0.001
92321149|NCT01197534|184547604|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.1|||<|0.001|TWO_SIDED|95.0|3.42|14.8|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||14.80|3.42|<0.001
92321150|NCT01197534|184547604|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0|||<|0.001|TWO_SIDED|95.0|1.88|8.65|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||8.65|1.88|<0.001
92321151|NCT01197534|184547605|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.3|||<|0.001|TWO_SIDED|95.0|3.23|16.65|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||16.65|3.23|<0.001
92321152|NCT01197534|184547605|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.4|||<|0.001|TWO_SIDED|95.0|2.81|14.71|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||14.71|2.81|<0.001
92321153|NCT01197534|184547606|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84|||<|0.001|TWO_SIDED|95.0|2.06|3.91||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|Proportional odds model|No Response, moderate response and good response are included in the model, with treatment, background use of DMARD and pooled country as factors.|An odds ratio \> 1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.91|2.06|<0.001
92321154|NCT01197534|184547606|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.44|||<|0.001|TWO_SIDED|95.0|1.77|3.37||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|Proportional odds model|No Response, moderate response and good response are included in the model, with treatment, background use of DMARD and pooled country as factors.|An odds ratio \> 1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.37|1.77|<0.001
92321155|NCT01197534|184547607|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.001|TWO_SIDED|95.0|1.73|3.46|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.46|1.73|<0.001
92321156|NCT01197534|184547607|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||<|0.001|TWO_SIDED|95.0|1.46|2.94|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.94|1.46|<0.001
92321157|NCT01197534|184547608|SUPERIORITY_OR_OTHER|||||||0.904||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Cochran-Mantel-Haenszel|Residuals from ANCOVA are analysed using a Cochran-Mantel-Haenszel approach, adjusting for the effects of pooled country and background use of DMARD.||This analysis is performed using an ANCOVA model on the ranks of the change from baseline, by pooled country and background use of DMARD, including a term for the ranks of the baseline score as a covariate.||||0.904
92321158|NCT01197534|184547608|SUPERIORITY_OR_OTHER|||||||0.342||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Cochran-Mantel-Haenszel|Residuals from ANCOVA are analysed using a Cochran-Mantel-Haenszel approach, adjusting for the effects of pooled country and background use of DMARD.||This analysis is performed using an ANCOVA model on the ranks of the change from baseline, by pooled country and background use of DMARD, including a term for the ranks of the baseline score as a covariate.||||0.342
92321159|NCT01197534|184547609|SUPERIORITY_OR_OTHER||Treatment difference|2.47|||<|0.001|TWO_SIDED|95.0|1.47|3.48||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as continuous covariate and treatment, background use of DMARD and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.48|1.47|<0.001
92321160|NCT01197534|184547609|SUPERIORITY_OR_OTHER||Treatment difference|1.64||||0.001|TWO_SIDED|95.0|0.63|2.65||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as continuous covariate and treatment, background use of DMARD and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.65|0.63|0.001
92321161|NCT01197534|184547610|SUPERIORITY_OR_OTHER||Treatment difference|2.09|||<|0.001|TWO_SIDED|95.0|0.97|3.2||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as continuous covariate and treatment, background use of DMARD and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.20|0.97|<0.001
92321162|NCT01197534|184547610|SUPERIORITY_OR_OTHER||Treatment difference|1.96|||<|0.001|TWO_SIDED|95.0|0.83|3.08||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as continuous covariate and treatment, background use of DMARD and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.08|0.83|<0.001
92321163|NCT02115581|184547612|SUPERIORITY_OR_OTHER|||||||0.267||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.267
92321164|NCT02115581|184547613|SUPERIORITY_OR_OTHER|||||||0.011|||||||Fisher Exact|||||||0.011
92321165|NCT02593097|184547621|SUPERIORITY|||||||0.83|||||||Hills-Armitage|||||||0.83
92321166|NCT02593097|184547622|SUPERIORITY|||||||0.16|||||||McNemar|||||||0.16
92321167|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||A priori threshold p \< 0.05|Repeated Measures ANOVA|||||||<0.00005
92196941|NCT02353871|184292566|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 8||||<0.0001
92321168|NCT02811965|184547641|SUPERIORITY|||||||5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.00005
92321169|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321170|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321171|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321172|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321173|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321174|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321175|NCT02811965|184547641|SUPERIORITY|||||||0.01||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.01
92321176|NCT02811965|184547641|SUPERIORITY|||||||0.0002||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.0002
92321177|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321178|NCT02811965|184547641|SUPERIORITY||||||<|5e-05|||||||t-test, 2 sided|||||||<0.00005
92321179|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321180|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321181|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321182|NCT02811965|184547641|SUPERIORITY|||||||0.24||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.24
92321183|NCT02811965|184547641|SUPERIORITY|||||||0.14||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.14
92321184|NCT02811965|184547641|SUPERIORITY|||||||0.0093||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.0093
92321185|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321186|NCT02811965|184547641|SUPERIORITY|||||||0.14||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.14
92321187|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321188|NCT02811965|184547641|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321189|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||A priori threshold p\<0.05.|Repeated Measures ANOVA|||||||<0.00005
92321190|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321191|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321192|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321193|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321194|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321195|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321196|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321197|NCT02811965|184547642|SUPERIORITY|||||||0.0011||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.0011
92321198|NCT02811965|184547642|SUPERIORITY|||||||5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.00005
92321199|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321200|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321201|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321202|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321203|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92196942|NCT02353871|184292566|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 15||||<0.0001
92196943|NCT02353871|184292566|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 29||||<0.0001
92196944|NCT02353871|184292566|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 57||||<0.0001
92321204|NCT02811965|184547642|SUPERIORITY|||||||0.53||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.53
92321205|NCT02811965|184547642|SUPERIORITY|||||||0.092||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.092
92321206|NCT02811965|184547642|SUPERIORITY|||||||0.0044|||||||t-test, 2 sided|||||||0.0044
92321207|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321208|NCT02811965|184547642|SUPERIORITY|||||||0.084||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.084
92321209|NCT02811965|184547642|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
92321210|NCT02811965|184547642|SUPERIORITY|||||||5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.00005
92321211|NCT01554527|184547643|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||Intent to treat for controls vs. treatment (adherent/non-adherent)||||0.07
92321212|NCT01554527|184547644|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||Intent to treat for controls vs. treatment (adherent/non-adherent)||||0.34
92321213|NCT01554527|184547645|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||Intent to treat for controls vs. treatment (adherent/non-adherent)||||0.93
92321214|NCT01554527|184547646|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||Intent to treat for controls vs. treatment (adherent/non-adherent)||||0.5
92321215|NCT01554527|184547647|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||Intent to treat for controls vs. treatment (adherent/non-adherent)||||0.25
92321216|NCT01537042|184547673|SUPERIORITY_OR_OTHER||Treatment Ratio|0.44||||0.0232|TWO_SIDED|95.0|0.22|0.88|||ANCOVA|An analysis of covariance (ANCOVA) was performed for the log-transformed PLMI ratio with treatment and region as factors and Baseline as a covariate.||||0.88|0.22|0.0232
92321217|NCT01294241|184547692|SUPERIORITY_OR_OTHER||||||=|0.008||||||Post-hoc superiority analysis: Wounds that were either evaluated controversially (n=2) or as being equal (n=2) were excluded from the analysis of the primary efficacy variable.|Two-sided exact binomial test|||The intra-individual difference in reepithelialization of wound (halves) was tested using a two-sided exact binomial test. The test was performed at a significance level of 5% for the null-hypothesis of no difference δ = 0 against the hypotheses δ ≠ 0: H0: δ = 0 H1: δ ≠ 0||||=0.008
92321218|NCT01294241|184547693|SUPERIORITY_OR_OTHER||||||=|0.21||||||Post-hoc superiority analysis|Wilcoxon (Mann-Whitney)|||The intra-individual difference in median percentage of wound epithelialization was tested using a two-sided Wilcoxon test.||||=0.21
92321219|NCT01294241|184547694|SUPERIORITY_OR_OTHER|||||||0.33||||||Post-hoc superiority analysis|Wilcoxon (Mann-Whitney)|||The intra-individual difference in median percentage of wound epithelialization was tested using a two-sided Wilcoxon test.||||0.33
92321220|NCT02748213|184547705|SUPERIORITY_OR_OTHER||Difference in Response Rates|2.2||||0.717|TWO_SIDED|95.0|-10.17|14.56|||Chi-squared||The approximate 95% CI for the difference in response (CR or PR) rates was determined using the Hauck-Anderson correction.|||14.56|-10.17|0.717
92321221|NCT02748213|184547707|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0449|TWO_SIDED|95.0|0.53|0.99|||Log Rank||Hazard Ratio (HR) calculated using Herceptin + Taxotere arm as reference.|||0.99|0.53|0.0449
92321222|NCT02748213|184547709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.4758|TWO_SIDED|95.0|0.56|1.32|||Log Rank||HR calculated using Herceptin + Taxotere arm as reference.|||1.32|0.56|0.4758
92321223|NCT01270464|184547718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.0507||0.0018|TWO_SIDED|95.0|0.06|0.259||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||The primary variable was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.259|0.060|0.0018
92196945|NCT02353871|184292566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 85||||0.0008
92196946|NCT02353871|184292566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0065||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 113||||0.0065
92196947|NCT02353871|184292566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0643||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 148||||0.0643
92196948|NCT02353871|184292566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.367||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 183||||0.3670
92196949|NCT02353871|184292567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 8||||<0.0001
92196950|NCT02353871|184292567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 15||||<0.0001
92196951|NCT02353871|184292567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 29||||<0.0001
92196952|NCT02353871|184292567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 57||||<0.0001
92196953|NCT02353871|184292567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - Dysport 50 U versus Placebo at Day 85||||<0.0001
92196954|NCT02353871|184292567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 113||||<0.0001
92196955|NCT02353871|184292567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 148||||0.0011
92196956|NCT02353871|184292567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0036||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 183||||0.0036
92196957|NCT02353871|184292568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 8||||<0.0001
92196958|NCT02353871|184292568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 15||||<0.0001
92196959|NCT02353871|184292568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 29||||<0.0001
92196960|NCT02353871|184292568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 57||||<0.0001
92196961|NCT02353871|184292568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 85||||<0.0001
92196962|NCT02353871|184292568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 113||||<0.0001
92196963|NCT02353871|184292568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 148||||<0.0001
92321224|NCT01270464|184547718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.0508||0.0237|TWO_SIDED|95.0|0.016|0.215||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||The primary variable was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.215|0.016|0.0237
92321225|NCT01270464|184547719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.0543||0.0174|TWO_SIDED|95.0|0.023|0.237||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.237|0.023|0.0174
92321226|NCT01270464|184547719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.0543||0.3731|TWO_SIDED|95.0|-0.058|0.155||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.155|-0.058|0.3731
92321227|NCT01270464|184547720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.233|STANDARD_ERROR_OF_MEAN|0.1212||0.0552|TWO_SIDED|95.0|-0.005|0.472||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.472|-0.005|0.0552
92321228|NCT01270464|184547720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.1215||0.802|TWO_SIDED|95.0|-0.209|0.27||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.270|-0.209|0.8020
92321229|NCT01270464|184547722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.359|STANDARD_ERROR_OF_MEAN|0.111||0.0014|TWO_SIDED|95.0|-0.577|-0.14||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.140|-0.577|0.0014
92196964|NCT02353871|184292568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 183||||<0.0001
92321230|NCT01270464|184547722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.238|STANDARD_ERROR_OF_MEAN|0.1108||0.0329|TWO_SIDED|95.0|-0.456|-0.019||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.019|-0.456|0.0329
92321231|NCT01270464|184547723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.359|STANDARD_ERROR_OF_MEAN|0.1582||0.0241|TWO_SIDED|95.0|0.047|0.67||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.670|0.047|0.0241
92321232|NCT01270464|184547723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|STANDARD_ERROR_OF_MEAN|0.1591||0.0822|TWO_SIDED|95.0|-0.036|0.591||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.591|-0.036|0.0822
92321233|NCT01270464|184547724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.0193||0.016|TWO_SIDED|95.0|0.009|0.085||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.085|0.009|0.0160
92196965|NCT02353871|184292569|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Log Rank|||Comparison of time to onset of treatment response - BTX-A-HAC NG solution (50 U) versus Placebo||||<0.0001
92196966|NCT02353871|184292569|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|6.561|||<|0.0001|TWO_SIDED||||||Cox proportional hazard model|Centre, gender and ILA baseline severity score used as covariates.||Comparison of time to onset of treatment response - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
92196967|NCT02554383|184292587|SUPERIORITY|||||||0.02||||||The interactions (1) between treatment \& pathogens and (2) between treatment \& colored nasal discharge are tested simultaneously.|Mixed Models Analysis|The p value is adjusted for PRSS score at enrollment, diary day, study site, treatment, pathogens, colored nasal discharge \& interaction (2).||Null hypothesis: The effect of treatment with antibiotics does not differ in the subgroups of children defined, respectively, by the presence and by the absence of pathogens in the nasopharynx at enrollment, i.e., there is no significant interaction between treatment and pathogens in the nasopharynx.||||0.02
92196968|NCT02554383|184292587|SUPERIORITY||Difference of least-squares means|-1.95|||||TWO_SIDED|95.0|-2.4|-1.51|||||The Amoxicillin-clavulanate group represents the first number in the subtraction and the Placebo group represents the second. The estimates are adjusted for PRSS score at enrollment, diary day and study site.|Null hypothesis: There is no difference between the treatment groups in the subgroup of children defined by the presence of one or more pathogens in the nasopharynx at enrollment.||-1.51|-2.40|
92196969|NCT02554383|184292587|SUPERIORITY||Difference of least-squares means|-0.88|||||TWO_SIDED|95.0|-1.63|-0.12|||||The Amoxicillin-clavulanate group represents the first number in the subtraction and the Placebo group represents the second. The estimates are adjusted for PRSS score at enrollment, diary day and study site.|Null hypothesis: There is no difference between the treatment groups in the subgroup of children defined by the absence of one or more pathogens in the nasopharynx at enrollment.||-0.12|-1.63|
92196970|NCT02554383|184292588|SUPERIORITY|||||||0.37||||||The interactions (1) between treatment \& pathogens and (2) between treatment \& colored nasal discharge are tested simultaneously.|Mixed Models Analysis|The p value is adjusted for PRSS score at enrollment, diary day, study site, treatment, pathogens, colored nasal discharge \& interaction (1).||Null hypothesis: The effect of treatment with antibiotics does not differ in the subgroups of children defined, respectively, by the presence and by the absence of colored nasal discharge at enrollment, i.e., there is no significant interaction between treatment and colored nasal discharge.||||0.37
92196971|NCT02554383|184292588|SUPERIORITY||Difference of least-squares means|-1.62|||||TWO_SIDED|95.0|-2.09|-1.16|||||The Amoxicillin-clavulanate group represents the first number in the subtraction and the Placebo group represents the second. The estimates are adjusted for PRSS score at enrollment, diary day and study site.|Null hypothesis: There is no difference between the treatment groups in the subgroup of children defined by the presence of colored nasal discharge at enrollment.||-1.16|-2.09|
92196972|NCT02554383|184292588|SUPERIORITY||Difference of least-squares means|-1.7|||||TWO_SIDED|95.0|-2.38|-1.03|||||The Amoxicillin-clavulanate group represents the first number in the subtraction and the Placebo group represents the second. The estimates are adjusted for PRSS score at enrollment, diary day and study site.|Null hypothesis: There is no difference between the treatment groups in the subgroup of children defined by the absence of colored nasal discharge at enrollment.||-1.03|-2.38|
92196973|NCT02554383|184292589|SUPERIORITY|||||||0.003|||||||Log-binomial regression|The p-value is adjusted for study site and and presence of colored nasal discharge.||Null hypothesis: There is no difference between the treatment groups in the proportion of children experiencing treatment failure.||||0.003
92196974|NCT02554383|184292590|SUPERIORITY|||||||0.007|||||||Fisher Exact|||Null hypothesis: There is no difference between the treatment groups in the proportion of children developing AOM over the first 10 days of follow-up.||||.007
92196975|NCT02554383|184292591|SUPERIORITY||||||<|0.001|||||||Log-binomial regression|The p-value is adjusted for study site and and presence of colored nasal discharge.||Null hypothesis: There is no difference between the treatment groups in the proportion of children receiving a systemic antibiotic over the first 10 days of follow-up.||||<0.001
92196976|NCT02554383|184292592|SUPERIORITY|||||||0.004|||||||Log-binomial regression|The p-value is adjusted for study site and presence of colored nasal discharge.||Null hypothesis: There is no difference between the treatment groups in the proportion of children for whom diarrhea or generalized rash was reported.||||0.004
92196977|NCT02554383|184292593|SUPERIORITY|||||||0.75|||||||Log-binomial regression|The p-value is adjusted for presence of colored nasal discharge.||Null hypothesis: There is no difference between the treatment groups in the proportion of children compliant with study product.||||0.75
92196978|NCT02554383|184292594|SUPERIORITY|||||||0.63|||||||Log-binomial regression|The p-value is adjusted for study site and presence of colored nasal discharge.||Null hypothesis: There is no difference between the treatment groups in the proportion of children with a nonsusceptible pathogen at the follow-up visit.||||0.63
92196979|NCT02165826|184292631|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.017|TWO_SIDED|95.0|0.47|0.93||Study treatment, country and baseline forced expiratory volume in the first second (FEV1) as explanatory variables.|Regression, Logistic|||Analyses were performed using a hierarchical testing procedure.||0.93|0.47|0.017
92196980|NCT02165826|184292631|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.68|||||TWO_SIDED|95.0|0.51|0.92|||||Cox proportional hazards model with study treatment and country as class effects, and baseline FEV1 as a continuous variable.|Analyses were performed using a hierarchical testing procedure.||0.92|0.51|
92196981|NCT02165826|184292631|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.114|TWO_SIDED|95.0|0.55|1.07||Study treatment, country and baseline forced expiratory volume in the first second (FEV1) as explanatory variables.|Regression, Logistic|||Analyses were performed using a hierarchical testing procedure.||1.07|0.55|0.114
92196982|NCT02165826|184292631|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.77|||||TWO_SIDED|95.0|0.58|1.02|||||Cox proportional hazards model with study treatment and country as class effects, and baseline FEV1 as a continuous variable.|Analyses were performed using a hierarchical testing procedure.||1.02|0.58|
92196983|NCT02165826|184292632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63||||0.001|TWO_SIDED|95.0|0.47|0.83||Study treatment, country and baseline forced expiratory volume in the first second (FEV1) as explanatory variables.|Regression, Logistic|||Analyses were performed using a hierarchical testing procedure.||0.83|0.47|0.001
92321234|NCT01270464|184547724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051|STANDARD_ERROR_OF_MEAN|0.0193||0.0094|TWO_SIDED|95.0|0.012|0.089||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.089|0.012|0.0094
92321235|NCT01270464|184547725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.624|STANDARD_ERROR_OF_MEAN|0.2551||0.0151|TWO_SIDED|95.0|-1.126|-0.121||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.121|-1.126|0.0151
92321236|NCT01270464|184547725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.648|STANDARD_ERROR_OF_MEAN|0.2559||0.0119|TWO_SIDED|95.0|-1.152|-0.144||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.144|-1.152|0.0119
92321237|NCT01270464|184547726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.494|STANDARD_ERROR_OF_MEAN|0.0242||0|TWO_SIDED|95.0|-0.542|-0.447||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Regression, Logistic|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.447|-0.542|0.0000
92321238|NCT01270464|184547726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.323|STANDARD_ERROR_OF_MEAN|0.0243||0|TWO_SIDED|95.0|-0.37|-0.275||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.275|-0.370|0.0000
92321239|NCT00863343|184547778|SUPERIORITY_OR_OTHER||Sensitivity|0.82|||||TWO_SIDED|95.0|0.59|0.94|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||0.94|0.59|
92196984|NCT02165826|184292632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.091|TWO_SIDED|95.0|0.59|1.04||Study treatment, country and baseline forced expiratory volume in the first second (FEV1) as explanatory variables.|Regression, Logistic|||Analyses were performed using a hierarchical testing procedure.||1.04|0.59|0.091
92321240|NCT00863343|184547778|SUPERIORITY_OR_OTHER||Specificity|0.987|||||TWO_SIDED|95.0|0.97|0.99|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||0.99|0.97|
92321241|NCT00863343|184547779|SUPERIORITY_OR_OTHER||Sensitivity|0.81|||||TWO_SIDED|95.0|0.63|0.92|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||0.92|0.63|
92321242|NCT00863343|184547779|SUPERIORITY_OR_OTHER||Specificity|0.997|||||TWO_SIDED|95.0|0.98|1.0|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||1.0|0.98|
92321243|NCT00863343|184547780|SUPERIORITY_OR_OTHER||Sensitivity|0.88|||||TWO_SIDED|95.0|0.7|0.96|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||0.96|0.70|
92321244|NCT00863343|184547780|SUPERIORITY_OR_OTHER||Specificity|0.997||||||95.0|0.98|1.0|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||1.0|0.98|
92321245|NCT00863343|184547781|SUPERIORITY_OR_OTHER||Sensitivity|0.79|||||TWO_SIDED|95.0|0.6|0.9|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||0.90|0.60|
92321246|NCT00863343|184547781|SUPERIORITY_OR_OTHER||Specificity|0.997|||||TWO_SIDED|95.0|0.98|1.0|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||1.0|0.98|
92321247|NCT02049814|184547782|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of 95% CI of Least Square Mean (LS mean) of HbA1C Changes was less than 0.4%, it was considered that the non-inferiority was established.||||||0.0001|||||||Paired t-test|||||||0.0001
92321248|NCT04081610|184547793|NON_INFERIORITY|Compare the safety of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit doses manufactured by Sophia Laboratories S.A. of C.V. through the incidence of AD.|Median Difference (Final Values)|0.05||||0.409|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.409
92321249|NCT04081610|184547794|NON_INFERIORITY|Compare the tolerability of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit-dose manufactured by Sophia Laboratories S.A. of C.V. using the ICO score.||||||0.442|||||||Wilcoxon (Mann-Whitney)|||||||0.442
92321250|NCT04081610|184547794|EQUIVALENCE|F=2.606, 15.926||||||0.009|||||||Wilcoxon (Mann-Whitney)|||Final vs initial Eye Comfort Index||||0.009
92321251|NCT04081610|184547794|EQUIVALENCE|F=3.051, 19.336||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Final vs initial Eye Comfort Index||||0.002
92321252|NCT04081610|184547795|NON_INFERIORITY|Compare the safety of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit doses manufactured by Sophia Laboratories S.A. of C.V. through changes in BCVA.||||||0.904|||||||Wilcoxon (Mann-Whitney)|||||||0.904
92321253|NCT04081610|184547795|EQUIVALENCE|F=-1.414, 1.061||||||0.157|||||||Sign test|||Final vs initial VA||||0.157
92196985|NCT04887506|184292659|EQUIVALENCE|If the 90% confidence interval (CI) fell within the recommended 0.800-1.250 limits of equivalence when analyzed on a natural log scale, then treatments were therapeutically equivalent based on rounded-up average Days 9 and 10 testosterone levels.|Geometric mean ratio|1.0|||||TWO_SIDED|90.0|||||||The 90% CIs for the geometric mean ratio (GMR) were not evaluable.|Primary analysis of equivalence of TAVT 45 and R AA based on average serum testosterone (ng/dL) (rounded up values of Days 9 and 10).||||
92196986|NCT04887506|184292660|EQUIVALENCE|If the 90% CI fell within the recommended 0.800-1.250 limits of equivalence when analyzed on a natural log scale, then treatments were therapeutically equivalent based on rounded-up average Days 9 and 10 testosterone levels.|Geometric mean ratio|0.975|||||TWO_SIDED|90.0|0.944|1.007||||||Supplementary analysis of equivalence of TAVT-45 and R-AA based on average serum testosterone (ng/dL) (rounded up values of Days 9 and 10) in the CS-ITT population.||1.007|0.944|
92196987|NCT04887506|184292661|EQUIVALENCE|If the 90% CI fell within the recommended 0.800-1.250 limits of equivalence when analyzed on a natural log scale, then treatments were therapeutically equivalent based on rounded-up average Days 9 and 10 testosterone levels.|Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.978|1.002||||||Supplementary analysis of equivalence of TAVT-45 and R-AA based on average serum testosterone (ng/dL) (rounded up values of Days 9 and 10) in the mITT population.||1.002|0.978|
92196988|NCT04887506|184292662|EQUIVALENCE|Odds ratio generated using the Wald method.|Odds Ratio (OR)|1.69||||0.3408|TWO_SIDED|95.0|0.574|4.979|||Regression, Logistic|||||4.979|0.574|0.3408
92196989|NCT01963169|184292663|SUPERIORITY||Effect size|0.54|||<|0.001|TWO_SIDED|||||\<0.05 (Threshold)|Mixed Models Analysis||The above values are for Knowledge outcome using the revised Osteoporosis Knowledge Test.|At 8 week, both intervention groups received the same Bone Power Program intervention. Thus, the analysis for the 8-week outcomes was completed as a two-armed RCT.||||< 0.001
92196990|NCT01963169|184292663|SUPERIORITY||Effect size|0.33|||<|0.001|TWO_SIDED|||||\<0.05 (threshold)|Mixed Models Analysis||The above values are for the exercise behavior variable assessed by the 9-item Self-Efficacy for Exercise scale.|At 8 weeks both intervention groups received the same BonePower intervention. Thus the analysis of 8-week outcome was completed as 2-armed RCT.||||<0.001
92196991|NCT01963169|184292663|SUPERIORITY||Effect size|0.2||||0.009|TWO_SIDED|||||\<0.05 (Threshold)|Mixed Models Analysis||The above values are for calcium outcome expectation..|At 8 weeks both intervention groups received the same BonePower intervention. Thus the analysis of 8-week outcome was completed as 2-armed RCT.||||0.009
92196992|NCT01963169|184292663|SUPERIORITY||Effect Size|0.18||||0.002|TWO_SIDED|||||\<0.05 (Threshold)|Mixed Models Analysis||The above values are for exercise self-efficacy.|At 8 weeks both intervention groups received the same BonePower intervention. Thus the analysis of 8-week outcome was completed as 2-armed RCT.||||0.002
92196993|NCT01963169|184292663|SUPERIORITY||Effect size|0.14||||0.032|TWO_SIDED|||||\<0.05 (Threshold)|Mixed Models Analysis||The above values are for exercise outcome expectation.|At 8 weeks both intervention groups received the same BonePower intervention. Thus the analysis of 8-week outcome was completed as 2-armed RCT.||||0.032
92196994|NCT05238103|184292702|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
92196995|NCT05238103|184292703|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||For systolic blood pressure||||0.40
92196996|NCT05238103|184292703|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||For diastolic blood pressure||||0.25
92196997|NCT05238103|184292704|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||||||0.27
92196998|NCT05238103|184292705|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||||||0.39
92196999|NCT05238103|184292706|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
92197000|NCT05238103|184292707|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||For: Global physical health score||||0.16
92197001|NCT05238103|184292707|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||For: Global mental health score||||0.71
92197002|NCT05238103|184292708|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.60
92197003|NCT05238103|184292709|SUPERIORITY|||||||0.57|||||||Chi-squared|||||||0.57
92197004|NCT05238103|184292710|SUPERIORITY|||||||0.28|||||||Chi-squared|||||||0.28
92197005|NCT05238103|184292711|SUPERIORITY|||||||0.09|||||||Chi-squared|||||||0.09
92197006|NCT05238103|184292712|SUPERIORITY|||||||0.19|||||||Chi-squared|||||||0.19
92197007|NCT05238103|184292713|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.60
92197008|NCT05238103|184292714|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
92197009|NCT05238103|184292715|SUPERIORITY|||||||0.35|||||||Chi-squared|||||||0.35
92197010|NCT05238103|184292721|NON_INFERIORITY|The non-inferiority margin of 12.5 meters was chosen to represent about 40% of the minimum important difference of 30 meters in the 6 minute walk test as identified in previous studies. For sample size calculation, to allow for an attrition rate of 20% during follow up after randomization, a total of 200 (100 per group) participants were needed to be recruited and then randomized in a 1:1 ration to Intervention vs. Control groups.|Mean Difference (Final Values)|16.3||||0.04|ONE_SIDED|95.0|-9.1||||t-test, 1 sided|||Significance testing: Generalized regression model|||-9.1|0.04
92197011|NCT05739994|184292723|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.55|TWO_SIDED|||||Pairwise p-values were calculated using independent-samples t-tests on final values because model-based pairwise contrasts were not available. These values do not reflect the full repeated-measures mixed-model structure.|t-test, 2 sided|||||||0.55
92197012|NCT05739994|184292723|SUPERIORITY||Mean Difference (Final Values)|-4.2||||0.18|TWO_SIDED|||||Pairwise p-values were calculated using independent-samples t-tests on final values because model-based pairwise contrasts were not available. These values do not reflect the full repeated-measures mixed-model structure.|t-test, 2 sided|||||||0.18
92197013|NCT05739994|184292724|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.1|TWO_SIDED|||||Pairwise p-values were calculated using independent-samples t-tests on final values because model-based pairwise contrasts were not available. These values do not reflect the full repeated-measures mixed-model structure.|t-test, 2 sided|||||||0.1
92197014|NCT05739994|184292724|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.79|TWO_SIDED|||||Pairwise p-values were calculated using independent-samples t-tests on final values because model-based pairwise contrasts were not available. These values do not reflect the full repeated-measures mixed-model structure.|t-test, 2 sided|||||||0.79
92197015|NCT02911805|184292725|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92197016|NCT01867047|184292748|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||Statistical analysis for intraoperative mild hypotension||||0.140
92197017|NCT01867047|184292748|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Statistical analysis for postoperative mild hypotension||||1.000
92197018|NCT01867047|184292750|SUPERIORITY|||||||0.102|||||||t-test, 2 sided|||Analysis for number of participants given vasopressors intraoperatively||||0.102
92197019|NCT01867047|184292753|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.700
92197020|NCT01867047|184292754|SUPERIORITY|||||||0.702|||||||t-test, 2 sided|||||||0.702
92197021|NCT01641653|184292821|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This is a pilot study no power calculation was performed. The Wilcoxon rank-sum test was used to assess differences in max intraop glucose between placebo and midazolam groups.||||0.87
92197022|NCT01641653|184292822|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.0||||0.56|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||percent change in glucose levels from preoperative level to maximum perioperative measurement level||||0.56
92197023|NCT01641653|184292823|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED|||||Chi-square with continuity correction|Chi-squared, Corrected|||||||0.12
92197024|NCT02825251|184292824|NON_INFERIORITY|Non-inferiority of faster aspart was considered confirmed if the upper limit of the two-sided 95 % CI for the true treatment-difference D (faster aspart minus NovoRapid®) was below 0.4 %.|Treatment difference|0.09|||||TWO_SIDED|95.0|0.01|0.17|||ANOVA|||Change from baseline in HbA1c was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model included treatment, strata (use of own continuous glucose monitoring), previous insulin use, and region as factors, and baseline HbA1c as a covariate.||0.17|0.01|
92197025|NCT00349466|184292915|SUPERIORITY|||||||0.027|||||||ANCOVA|||||||0.027
92197026|NCT00349466|184292916|SUPERIORITY|||||||0.083|||||||ANCOVA|||||||0.083
92197027|NCT00349466|184292917|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028|TWO_SIDED|95.0|||||Fisher Exact|||||||0.028
92197028|NCT00349466|184292918|SUPERIORITY|||||||0.655|||||||Fisher Exact|||||||0.655
92321254|NCT04081610|184547795|EQUIVALENCE|||||||1|||||||Sign test|||Final vs initial VA||||1.000
92197029|NCT00349466|184292919|SUPERIORITY|||||||0.387|||||||ANCOVA|||||||0.387
92197030|NCT00349466|184292920|SUPERIORITY|||||||0.203|||||||Wilcoxon (Mann-Whitney)|||||||0.203
92197031|NCT00349466|184292921|SUPERIORITY|||||||0.807|||||||ANCOVA|||||||.807
92197032|NCT05064488|184292949|OTHER|A general linear model with a fixed effect for treatment and a random effect for participant was applied to log-transformed PK parameters AUC0-inf based on the PK analysis set to assess the effect of multiple doses of evobrutinib on the PK of the transporter substrates digoxin.|Ratio|118.49|||||TWO_SIDED|90.0|111.89|125.47||||||Treatment differences on the log scale of transporter substrates with evobrutinib vs substrates alone.||125.47|111.89|
92197033|NCT05064488|184292950|OTHER|A general linear model with a fixed effect for treatment and a random effect for participant was applied to log-transformed PK parameters AUC0-inf based on the PK analysis set to assess the effect of multiple doses of evobrutinib on the PK of the transporter substrates metformin.|Ratio|208.95|||||TWO_SIDED|90.0|155.48|280.82||||||Treatment differences on the log scale of transporter substrates with evobrutinib vs substrates alone.||280.82|155.48|
92197034|NCT05064488|184292951|OTHER|A general linear model with a fixed effect for treatment and a random effect for participant was applied to log-transformed PK parameters AUC0-inf based on the PK analysis set to assess the effect of multiple doses of evobrutinib on the PK of the transporter substrates rosuvastatin.|Ratio|99.05|||||TWO_SIDED|90.0|80.49|121.89||||||Treatment differences on the log scale of transporter substrates with evobrutinib vs substrates alone.||121.89|80.49|
92197035|NCT05064488|184292952|OTHER|A general linear model with a fixed effect for treatment and a random effect for participant was applied to log-transformed PK parameters AUC0-inf based on the PK analysis set to assess the effect of multiple doses of evobrutinib on the PK of the transporter substrates sumatriptan.|Ratio|89.35||||||90.0|82.7|96.54||||||Treatment differences on the log scale of transporter substrates with evobrutinib vs substrates alone.||96.54|82.70|
92197036|NCT05064488|184292953|OTHER|A general linear model with a fixed effect for treatment and a random effect for participant was applied to log-transformed PK parameters Cmax based on the PK analysis set to assess the effect of multiple doses of evobrutinib on the PK of the transporter substrates digoxin.|Ratio|100.64|||||TWO_SIDED|90.0|85.99|117.79||||||Treatment differences on the log scale of transporter substrates with evobrutinib vs substrates alone.||117.79|85.99|
92197037|NCT05064488|184292954|OTHER|A general linear model with a fixed effect for treatment and a random effect for participant was applied to log-transformed PK parameters Cmax based on the PK analysis set to assess the effect of multiple doses of evobrutinib on the PK of the transporter substrates metformin.|Ratio|203.08|||||TWO_SIDED|90.0|152.93|269.68||||||Treatment differences on the log scale of transporter substrates with evobrutinib vs substrates alone.||269.68|152.93|
92197038|NCT05064488|184292955|OTHER|A general linear model with a fixed effect for treatment and a random effect for participant was applied to log-transformed PK parameters Cmax based on the PK analysis set to assess the effect of multiple doses of evobrutinib on the PK of the transporter substrates rosuvastatin.|Ratio|91.74|||||TWO_SIDED|90.0|76.98|109.33||||||Treatment differences on the log scale of transporter substrates with evobrutinib vs substrates alone.||109.33|76.98|
92197039|NCT05064488|184292956|OTHER|A general linear model with a fixed effect for treatment and a random effect for participant was applied to log-transformed PK parameters Cmax based on the PK analysis set to assess the effect of multiple doses of evobrutinib on the PK of the transporter substrates sumatriptan.|Ratio|81.02|||||TWO_SIDED|90.0|74.23|88.42||||||Treatment differences on the log scale of transporter substrates with evobrutinib vs substrates alone.||88.42|74.23|
92197040|NCT05064488|184292970|OTHER||Ratio|106.83|||||TWO_SIDED|90.0|102.11|111.76||||||||111.76|102.11|
92197041|NCT05064488|184292971|OTHER||Ratio|211.42|||||TWO_SIDED|90.0|156.34|285.91||||||||285.91|156.34|
92197042|NCT05064488|184292972|OTHER||Ratio|99.57|||||TWO_SIDED|90.0|79.69|124.42||||||||124.42|79.69|
92197043|NCT05064488|184292973|OTHER||Ratio|88.83|||||TWO_SIDED|90.0|82.04|96.19||||||||96.19|82.04|
92197044|NCT03616964|184292987|SUPERIORITY||Odds Ratio (OR)|1.07||||0.711|TWO_SIDED|95.0|0.75|1.53|||Regression, Logistic|||||1.53|0.75|0.711
92197045|NCT03616964|184292988|SUPERIORITY||Odds Ratio (OR)|1.05||||0.789|TWO_SIDED|95.0|0.73|1.5|||Regression, Logistic|||||1.50|0.73|0.789
92321255|NCT04081610|184547796|NON_INFERIORITY|Compare the safety of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit doses manufactured by Sophia Laboratories S.A. of C.V. by changes in corneal and conjunctival staining with fluorescein.||||||1|||||||Fisher Exact|||||||1.000
92197046|NCT03616964|184292989|SUPERIORITY||Odds Ratio (OR)|1.1||||0.673|TWO_SIDED|95.0|0.72|1.68|||Regression, Logistic|||||1.68|0.72|0.673
92197047|NCT03616964|184292989|SUPERIORITY||Odds Ratio (OR)|1.15||||0.528|TWO_SIDED|95.0|0.75|1.75|||Regression, Logistic|||||1.75|0.75|0.528
92197048|NCT03616964|184292991|SUPERIORITY||Odds Ratio (OR)|0.91||||0.761|TWO_SIDED|95.0|0.51|1.64|||Regression, Logistic|||||1.64|0.51|0.761
92197049|NCT03616964|184292991|SUPERIORITY||Odds Ratio (OR)|1.17||||0.611|TWO_SIDED|95.0|0.65|2.1|||Regression, Logistic|||||2.10|0.65|0.611
92197050|NCT03616964|184292992|SUPERIORITY||LS Mean difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.2||0.698|TWO_SIDED|95.0|-0.47|0.32|||Mixed Models Analysis|||||0.32|-0.47|0.698
92197051|NCT03616964|184292992|SUPERIORITY||LS Mean difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.2||0.744|TWO_SIDED|95.0|-0.46|0.33|||Mixed Models Analysis|||||0.33|-0.46|0.744
92197052|NCT03616964|184292993|SUPERIORITY||LS Mean difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.84||0.665|TWO_SIDED|95.0|-2.0|1.28|||Mixed Models Analysis|||||1.28|-2.00|0.665
92197053|NCT03616964|184292993|SUPERIORITY||LS Mean difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.84||0.723|TWO_SIDED|95.0|-1.95|1.35|||Mixed Models Analysis|||||1.35|-1.95|0.723
92197054|NCT03616964|184292994|SUPERIORITY||Odds Ratio (OR)|0.69||||0.372|TWO_SIDED|95.0|0.31|1.55|||Regression, Logistic|||||1.55|0.31|0.372
92197055|NCT03616964|184292994|SUPERIORITY||Odds Ratio (OR)|0.78||||0.555|TWO_SIDED|95.0|0.34|1.78|||Regression, Logistic|||||1.78|0.34|0.555
92197056|NCT03616964|184292995|SUPERIORITY||LS Mean difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.422||0.251|TWO_SIDED|95.0|-1.31|0.34|||Mixed Models Analysis|||||0.34|-1.31|0.251
92197057|NCT03616964|184292995|SUPERIORITY||LS Mean difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.425||0.333|TWO_SIDED|95.0|-1.74|-0.07|||Mixed Models Analysis|||||-0.07|-1.74|0.333
92197058|NCT03616964|184292996|SUPERIORITY||LS Mean difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.282||0.284|TWO_SIDED|95.0|-0.86|0.25|||Mixed Models Analysis|||||0.25|-0.86|0.284
92321256|NCT04081610|184547796|EQUIVALENCE|Chi-squared (2)= 6.400||||||0.041|||||||Chi-squared|||Final vs initial fluorescein staining||||0.041
92197059|NCT03616964|184292996|SUPERIORITY||LS Mean difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.284||0.069|TWO_SIDED|95.0|-1.08|0.04|||Mixed Models Analysis|||||0.04|-1.08|0.069
92197060|NCT03121820|184293003|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric mean ratios were fully contained within the predefined equivalence limits of 80.00 % to 125.00 %|Test/Ref Geometric mean ratio x 100|93.8||||0.05|TWO_SIDED|90.0|88.25|99.77|||Test/Ref Geometric mean ratio x 100|Bioequivalence is established when 90% Confidence Interval falls within 80.00 % -125.00 %.||Memantinol 20 mg Tablets Versus Akatinol Memantine® 20 mg||99.77|88.25|0.05
92197061|NCT03121820|184293004|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric mean ratios were fully contained within the predefined equivalence limits of 80.00 % to 125.00 %|Test/Ref Geometric mean ratio x 100|92.3||||0.05|TWO_SIDED|90.0|86.37|98.55|||Test/Ref Geometric mean ratio x 100|Bioequivalence is established when 90% Confidence Interval falls within 80.00 % -125.00 %.||Memantinol 20 mg Tablets Versus Akatinol Memantine® 20 mg||98.55|86.37|0.05
92197062|NCT01245140|184293010|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5731||||0.9705|TWO_SIDED|95.0|-30.9738|32.12|||ANCOVA|||||32.1200|-30.9738|0.9705
92197063|NCT01245140|184293011|SUPERIORITY_OR_OTHER|||||||0.4564||95.0||||PPPASI 50 response|Fisher Exact|||||||0.4564
92197064|NCT01245140|184293011|SUPERIORITY_OR_OTHER|||||||0.6595||95.0||||PPPASI 75 response|Fisher Exact|||||||0.6595
92197065|NCT01245140|184293013|SUPERIORITY_OR_OTHER|||||||0.51||95.0||||Change in Total Pustule Count: BL to Last Visit|Wilcoxon test: Exact Test|||||||0.51
92197066|NCT01245140|184293014|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||Relative change in mPASI score: BL to Last Visit|Wilcoxon test: Exact Test|||||||0.12
92197067|NCT01245140|184293015|SUPERIORITY_OR_OTHER||Least squared estimation|49.4927||||0.2358|TWO_SIDED|95.0|-49.083|148.07|||ANCOVA|||||148.07|-49.0830|0.2358
92197068|NCT01245140|184293016|SUPERIORITY_OR_OTHER|||||||0.1667||95.0||||mPASI 50 response|Fisher Exact|||||||0.1667
92197069|NCT01245140|184293016|SUPERIORITY_OR_OTHER|||||||0.1667||95.0||||mPASI 75 response|Fisher Exact|||||||0.1667
92197070|NCT04082429|184293041|SUPERIORITY|Bleeding endpoints were analysed using a negative binomial regression model with the logarithm of the length of the observation period included (in years) as offset with treatment and bleeding frequency prior to screening as factors.|ABR ratio|0.14|||<|0.001|TWO_SIDED|95.0|0.07|0.29|||Negative binomial regression|||||0.29|0.07|<0.001
92197071|NCT04082429|184293042|SUPERIORITY|Bleeding endpoints were analysed using a negative binomial regression model with the logarithm of the length of the observation period included (in years) as offset with treatment and bleeding frequency prior to screening as factors.|ABR ratio|0.21|||<|0.001|TWO_SIDED|95.0|0.1|0.45|||Negative binomial regression|||||0.45|0.10|<0.001
92197072|NCT03118050|184293068|OTHER||||||<|0.01||||||Main effect of bed rest.|ANOVA|||||||<0.01
92197073|NCT03118050|184293069|OTHER||||||<|0.01||||||Main effect of bed rest|ANOVA|||||||<0.01
92197074|NCT01952847|184293091|OTHER|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
92197075|NCT01952847|184293092|OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92197076|NCT01952847|184293095|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92197077|NCT01952847|184293096|SUPERIORITY|||||||0.59|||||||Fisher Exact|||||||0.59
92197078|NCT01952847|184293097|SUPERIORITY|||||||0.73|||||||Fisher Exact|||||||0.73
92197079|NCT01952847|184293098|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92197080|NCT01952847|184293099|OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
92197081|NCT01952847|184293100|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92197082|NCT01952847|184293101|SUPERIORITY|||||||0.57|||||||Log Rank|||||||0.57
92197083|NCT01952847|184293105|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||0.83
92321257|NCT04081610|184547796|EQUIVALENCE|Chi-squared (2)=0.814||||||0.665|||||||Chi-squared|||||||0.665
92321258|NCT04081610|184547797|NON_INFERIORITY|Compare the safety of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit doses manufactured by Sophia Laboratories S.A. of C.V. by changes of corneal and conjunctival staining with lysamine green.||||||0.713|||||||Fisher Exact|||||||0.713
92321259|NCT04081610|184547797|EQUIVALENCE|Chi-squared (3)=14.345||||||0.002|||||||Chi-squared|||Final vs initial lissamine green staining||||0.002
92321260|NCT04081610|184547797|EQUIVALENCE|Chi-squared (2)=0.506||||||0.777|||||||Chi-squared|||Final vs initial lissamine green staining||||0.777
92321261|NCT04081610|184547798|NON_INFERIORITY|Compare the safety of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit doses manufactured by Sophia Laboratories S.A. of C.V. by changes in conjunctival hyperemia.||||||1|||||||Chi-squared, Corrected|||||||1.000
92321262|NCT04081610|184547798|EQUIVALENCE|F=4.167, 1||||||0.031|||||||Fisher Exact|||Final vs initial conjunctival hyperemia||||0.031
92321263|NCT04081610|184547798|EQUIVALENCE|No significant change was observed.||||||1|||||||Chi-squared, Corrected|||Final vs initial conjunctival hyperemia||||1.000
92321264|NCT01322490|184547844|SUPERIORITY|One-sided p-value is from a stratified log-rank test for PROSTVAC-V/F-TRICOM + GM-CSF placebo vs. Placebo Control with Treatment Arm included in model. Stratification is by randomization strata.||||||0.4742||||||The overall type-one error probability for the entire trial was designed as a one-sided P=0.025. There were two main overall comparisons, which necessitated a type-one error probability to 0.0125 for each comparison using a Bonferroni correction.|Log Rank|The primary analysis method was a stratified log-rank test, and was performed using the ITT Set analyzing data according to the randomized arm.||||||0.4742
92321265|NCT01322490|184547844|SUPERIORITY|One-sided p-value is from a stratified log-rank test for PROSTVAC-V/F-TRICOM + GM-CSF vs. Placebo Control with Treatment Arm included in model. Stratification is by randomization strata.||||||0.5885||||||The overall type-one error probability for the entire trial was designed as a one-sided P=0.025. There were two main overall comparisons, which necessitated a type-one error probability to 0.0125 for each comparison using a Bonferroni correction.|Log Rank|The primary analysis method was a stratified log-rank test, and was performed using the ITT Set analyzing data according to the randomized arm.||||||0.5885
92321266|NCT01322490|184547845|SUPERIORITY|Odds Ratio and Wald 95% CI estimates are for odds of alive without event for PROSTVAC-V/F-TRICOM + GM-CSF placebo vs. Placebo Control and are from a logistic regression model with Treatment Arm included in model stratified by randomization strata.|Odds Ratio (OR)|0.9588|||||TWO_SIDED|95.0|0.7144|1.2867|||||The Alive Without Event endpoint was analyzed using stratified logistic regression. The 95% CI on the odds ratio estimate was computed as the measure of the magnitude of effect.|||1.2867|0.7144|
92321267|NCT01322490|184547845|SUPERIORITY|Odds Ratio and Wald 95% CI estimates are for odds of alive without event for PROSTVAC-V/F-TRICOM + GM-CSF vs. Placebo Control and are from a logistic regression model with Treatment Arm included in model stratified by randomization strata.|Odds Ratio (OR)|0.8941|||||TWO_SIDED|95.0|0.6647|1.2026|||||The Alive Without Event endpoint was analyzed using stratified logistic regression. The 95% CI on the odds ratio estimate was computed as the measure of the magnitude of effect.|||1.2026|0.6647|
92321268|NCT00497289|184547846|SUPERIORITY|||||||0.3654|||||||Wilcoxon (Mann-Whitney)|||||||0.3654
92321269|NCT00497289|184547847|SUPERIORITY|||||||0.0264|||||||Wilcoxon (Mann-Whitney)|||||||0.0264
92321270|NCT04606394|184547852|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.33|TWO_SIDED||||||Chi-squared|||Data outcome reported was the number and percentage of subject test days with DPI Failure in subjects in suboptimal PIF (\<60 L/min) versus normal PIF subjects. Statistical analysis performed was a comparison between rates of DPI Failure in the 2 groups.||||0.33
92321271|NCT04606394|184547853|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.04|TWO_SIDED||||||Chi-squared|||Data outcome reported was the number and percentage of subject test days with DPI Failure in subjects in suboptimal PIF (\<60 L/min) versus normal PIF subjects. Statistical analysis performed was a comparison between rates of DPI Failure in the 2 groups.||||0.04
92321272|NCT02307279|184547869|SUPERIORITY||Mean Difference (Net)|-2.07|STANDARD_ERROR_OF_MEAN|0.59||0.0007|TWO_SIDED|95.0|-3.24|-0.9|||ANCOVA|Adjusted for stratification factors, and baseline weight|Difference in adjusted mean taken for comparability between the two groups (treatment - placebo)|Simple Superiority, H0: μ (Placebo) -μ (Gelesis100) = 0||-0.90|-3.24|0.0007
92321273|NCT02307279|184547869|SUPERIORITY|||||||0.1193|||||||ANCOVA|Adjusted for stratification factors, and baseline weight||Super-Superiority (\>3% difference), H0: μ(Placebo)-μ(Gelesis100) \< 3%||||0.1193
92321274|NCT02307279|184547870|SUPERIORITY|The performance goal for body weight responders was set at 35%.|||||<|0.0001|||||||Binomial Proportion Test|||H0: π (Gelesis100)\< 0.35||||<0.0001
92321275|NCT02307279|184547870|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0008|TWO_SIDED|95.0|1.34|3.01|||Regression, Logistic|Adjusted for stratification factors and baseline weight||"OR-trt refers to the odds ratio of being a body weight responder for Gelesis100 vs. Placebo.~H0: OR-trt= 1."||3.01|1.34|0.0008
92321276|NCT02484456|184547877|SUPERIORITY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.79||0.68|TWO_SIDED||||||Mixed Models Analysis|||||||0.68
92321277|NCT02484456|184547878|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.72||0.83|TWO_SIDED||||||Mixed Models Analysis|||||||0.83
92197084|NCT01952847|184293106|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
92321278|NCT02484456|184547879|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.89||0.71|TWO_SIDED||||||Mixed Models Analysis|||||||0.71
92321279|NCT02484456|184547880|SUPERIORITY||Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|1.06||0.25|TWO_SIDED||||||Mixed Models Analysis|||||||0.25
92321280|NCT02484456|184547881|SUPERIORITY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|1.27||0.51|TWO_SIDED||||||Mixed Models Analysis|||||||0.51
92321281|NCT02484456|184547882|SUPERIORITY||Mean Difference (Final Values)|-1.83|STANDARD_ERROR_OF_MEAN|1.58||0.26|TWO_SIDED||||||Mixed Models Analysis|||||||0.26
92321282|NCT02484456|184547883|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.02||0.67|TWO_SIDED||||||Mixed Models Analysis|||||||0.67
92321283|NCT02484456|184547884|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|1.34||0.99|TWO_SIDED||||||Mixed Models Analysis|||||||0.99
92321284|NCT02484456|184547885|SUPERIORITY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|1.2||0.83|TWO_SIDED||||||Mixed Models Analysis|||||||0.83
92321285|NCT02484456|184547886|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.51||0.51|TWO_SIDED||||||Mixed Models Analysis|||||||0.51
92321286|NCT02484456|184547887|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.76||0.37|TWO_SIDED||||||Mixed Models Analysis|||||||0.37
92321287|NCT02484456|184547888|SUPERIORITY||Mean Difference (Final Values)|-2.02|STANDARD_ERROR_OF_MEAN|1.89||0.29|TWO_SIDED||||||Mixed Models Analysis|||||||0.29
92321288|NCT02484456|184547889|SUPERIORITY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.92||0.6|TWO_SIDED||||||Mixed Models Analysis|||||||0.60
92321289|NCT02484456|184547890|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.98||0.53|TWO_SIDED||||||Mixed Models Analysis|||||||0.53
92321290|NCT02484456|184547891|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|1.1||0.88|TWO_SIDED||||||Mixed Models Analysis|||||||0.88
92321291|NCT02484456|184547892|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.91||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
92321292|NCT02484456|184547893|SUPERIORITY||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|1.3||0.38|TWO_SIDED||||||Mixed Models Analysis|||||||0.38
92321293|NCT02484456|184547894|SUPERIORITY||Mean Difference (Final Values)|-2.05|STANDARD_ERROR_OF_MEAN|1.26||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||0.12
92321294|NCT02484456|184547895|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.98||0.84|TWO_SIDED||||||Mixed Models Analysis|||||||0.84
92197085|NCT02577003|184293113|SUPERIORITY||Difference in least squares means|-0.77|||<|0.001|TWO_SIDED|95.0|-0.98|-0.57|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-0.57|-0.98|<0.001
92197086|NCT02577003|184293116|SUPERIORITY||Difference in least squares means|-28.1|||<|0.001|TWO_SIDED|95.0|-34.8|-21.5|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-21.5|-34.8|<0.001
92321295|NCT02484456|184547896|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|1.23||0.97|TWO_SIDED||||||Mixed Models Analysis|||||||0.97
92321296|NCT02484456|184547897|SUPERIORITY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|1.39||0.81|TWO_SIDED||||||Mixed Models Analysis|||||||0.81
92321297|NCT02484456|184547898|SUPERIORITY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|1.31||0.47|TWO_SIDED||||||Mixed Models Analysis|||||||0.47
92321298|NCT02484456|184547899|SUPERIORITY||Mean Difference (Final Values)|-1.82|STANDARD_ERROR_OF_MEAN|1.89||0.35|TWO_SIDED||||||Mixed Models Analysis|||||||0.35
92321299|NCT02484456|184547900|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|1.63||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||0.12
92321300|NCT01908829|184547931|SUPERIORITY||Least Squares (LS) Means|-0.26|STANDARD_ERROR_OF_MEAN|0.11|=|0.001|TWO_SIDED|95.0|-0.47|-0.05||P values for pairwise comparisons were from the stratified rank ANCOVA model. P \< 0.05 indicated superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group based on ANCOVA model. Means (LS means) and 95% Confidence Intervals (CIs) are from an ANCOVA model with sex, age group (\< 65, ≥ 65 years), geographic region, and 4-week incontinence episode reduction group as fixed factors and mean number of incontinence episodes per 24 hours at baseline as a covariate.||-0.05|-0.47|=0.001
92321301|NCT01908829|184547932|SUPERIORITY||LS Means|-0.33|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.52|-0.14||P values for pairwise comparisons are from the stratified rank ANCOVA model. P \< 0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 4 differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group based on ANCOVA model. Means (LS means) and 95% CIs are from an ANCOVA model with sex, age group (\< 65, ≥ 65 years), geographic region, and 4-week incontinence episode reduction group as fixed factors and mean number of incontinence episodes per 24 hours at baseline as a covariate.||-0.14|-0.52|<0.001
92321302|NCT01908829|184547932|SUPERIORITY||LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.18||P values for pairwise comparisons are from the stratified rank ANCOVA model. P \< 0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 8 differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group based on ANCOVA model. Means (LS means) and 95% CIs are from an ANCOVA model with sex, age group (\< 65, ≥ 65 years), geographic region, and 4-week incontinence episode reduction group as fixed factors and mean number of incontinence episodes per 24 hours at baseline as a covariate.||-0.18|-0.60|<0.001
92197087|NCT02577003|184293117|SUPERIORITY||Difference in least squares means|-48.5|||<|0.001|TWO_SIDED|95.0|-59.6|-37.5|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-37.5|-59.6|<0.001
92197088|NCT02577003|184293118|SUPERIORITY||Difference in least squares means|-84.6|||<|0.001|TWO_SIDED|95.0|-102.6|-66.6|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-66.6|-102.6|<0.001
92197089|NCT02577003|184293119|SUPERIORITY||Difference in least squares means|-1.8|||<|0.001|TWO_SIDED|95.0|-2.5|-1.1|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-1.1|-2.5|<0.001
92197090|NCT01234883|184293120|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92321303|NCT01908829|184547932|SUPERIORITY||LS Means|-0.25|STANDARD_ERROR_OF_MEAN|0.11|=|0.001|TWO_SIDED|95.0|-0.46|-0.03||P-values for pairwise comparisons are from the stratified rank ANCOVA model. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 12 differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group based on ANCOVA model. Means (LS means) and 95% CIs are from an ANCOVA model with sex, age group (\< 65, ≥ 65 years), geographic region, and 4-week incontinence episode reduction group as fixed factors and mean number of incontinence episodes per 24 hours at baseline as a covariate.||-0.03|-0.46|=0.001
92321304|NCT01908829|184547933|SUPERIORITY||LS Means|-0.26|STANDARD_ERROR_OF_MEAN|0.1|=|0.01|TWO_SIDED|95.0|-0.47|-0.06||P-values for pairwise comparisons are from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.06|-0.47|=0.010
92321305|NCT01908829|184547933|SUPERIORITY||LS Means|-0.42|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.65|-0.19||P-values for pairwise comparisons are from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.19|-0.65|<0.001
92321306|NCT01908829|184547933|SUPERIORITY||LS Means|-0.47|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.7|-0.23||P-values for pairwise comparisons are from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.23|-0.70|<0.001
92321307|NCT01908829|184547933|SUPERIORITY||LS Means|-0.45|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.67|-0.22||P-values for pairwise comparisons are from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.22|-0.67|<0.001
92321308|NCT01908829|184547934|SUPERIORITY||Rate Ratio|0.87|STANDARD_ERROR_OF_MEAN|0.05|=|0.005|TWO_SIDED|95.0|0.79|0.96||p\<0.05 indicates superiority in favor of treatment group with lowest rate of incontinence episodes.|Mixed Effects Poisson|||Week 4 rate ratio, 95% CIs, \& p-value for number of incontinence episodes (IEs) during Week 4 3-day diary between combination \& solifenacin treatment was calculated from Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week IE reduction group as factors, log of (number of IEs/valid diary days) at baseline as covariate \& log of number of valid diary days as the offset variable.||0.96|0.79|=0.005
92321309|NCT01908829|184547934|SUPERIORITY||Rate Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|0.66|0.86||p\<0.05 indicates superiority in favor of treatment group with lowest rate of incontinence episodes.|Mixed Effects Poisson|||Week 8 rate ratio, 95% CIs, \& p-value for number of incontinence episodes (IEs) during Week 8 3-day diary between combination \& solifenacin treatment was calculated from Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week IE reduction group as factors, log of (number of IEs/valid diary days) at baseline as covariate \& log of number of valid diary days as the offset variable.||0.86|0.66|<0.001
92321310|NCT01908829|184547934|SUPERIORITY||Rate Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.08|=|0.021|TWO_SIDED|95.0|0.7|0.97||p\<0.05 indicates superiority in favor of treatment group with lowest rate of incontinence episodes.|Mixed Effects Poisson|||Week 12 rate ratio, 95% CIs, \& p-value for number of incontinence episodes (IEs) during Week 12 3-day diary between combination \& solifenacin treatment was calculated from Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week IE reduction group as factors, log of (number of IEs/valid diary days) at baseline as covariate \& log of number of valid diary days as the offset variable.||0.97|0.70|=0.021
92321311|NCT01908829|184547934|SUPERIORITY||Rate Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.08|=|0.014|TWO_SIDED|95.0|0.71|0.96||p\<0.05 indicates superiority in favor of treatment group with lowest rate of incontinence episodes.|Mixed Effects Poisson|||EoT rate ratio, 95% CIs, \& p-value for number of incontinence episodes (IEs) during EoT 3-day diary between combination \& solifenacin treatment was calculated from Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week IE reduction group as factors, log of (number of IEs/valid diary days) at baseline as covariate \& log of number of valid diary days as the offset variable.||0.96|0.71|=0.014
92321312|NCT01908829|184547935|SUPERIORITY||LS Means|3.86|STANDARD_ERROR_OF_MEAN|2.19|<|0.078|TWO_SIDED|95.0|-0.43|8.16||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||8.16|-0.43|<0.078
92321313|NCT01908829|184547935|SUPERIORITY||LS Means|11.19|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|5.98|16.4||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||16.40|5.98|<0.001
92321314|NCT01908829|184547935|SUPERIORITY||LS Means|12.38|STANDARD_ERROR_OF_MEAN|2.92|<|0.001|TWO_SIDED|95.0|6.65|18.12||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||18.12|6.65|<0.001
92197091|NCT01013961|184293121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.722|TWO_SIDED||||||Fisher Exact|||||||0.722
92321315|NCT01908829|184547935|SUPERIORITY||LS Means|11.52|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|6.06|16.99||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||16.99|6.06|<0.001
92321316|NCT01908829|184547936|SUPERIORITY||LS Means|-0.44|STANDARD_ERROR_OF_MEAN|0.15|=|0.003|TWO_SIDED|95.0|-0.73|-0.16||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.16|-0.73|=0.003
92321317|NCT01908829|184547937|SUPERIORITY||LS Means|-0.35|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.54|-0.17||P-values for pairwise comparisons were from stratified rank ANCOVA model. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.17|-0.54|<0.001
92321318|NCT01908829|184547937|SUPERIORITY||LS Means|-0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.65|-0.25||P-values for pairwise comparisons were from stratified rank ANCOVA model. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 8 djusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.25|-0.65|<0.001
92321319|NCT01908829|184547937|SUPERIORITY||LS Means|-0.26|STANDARD_ERROR_OF_MEAN|0.11|=|0.004|TWO_SIDED|95.0|-0.47|-0.05||P-values for pairwise comparisons were from stratified rank ANCOVA model. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.05|-0.47|=0.004
92321320|NCT01908829|184547937|SUPERIORITY||LS Means|-0.27|STANDARD_ERROR_OF_MEAN|0.1|=|0.003|TWO_SIDED|95.0|-0.47|-0.07||P-values for pairwise comparisons were from stratified rank ANCOVA model. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.07|-0.47|=0.003
92321321|NCT01908829|184547938|SUPERIORITY||Rate Ratio|0.85|STANDARD_ERROR_OF_MEAN|0.05|=|0.003|TWO_SIDED|95.0|0.76|0.94||p\<0.05 indicates superiority in favor of treatment group with lowest rate of UI episodes.|Mixed Effects Poisson|||Week 4 rate ratio, 95% CIs, and p-value for number of UI episodes during Week 4 3-day diary between combination and solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of UI episodes/number of valid diary days) at baseline as covariate and log of number of valid diary as the offset variable.||0.94|0.76|=0.003
92321322|NCT01908829|184547938|SUPERIORITY||Rate Ratio|0.74|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.63|0.86||p\<0.05 indicates superiority in favor of treatment group with lowest rate of UI episodes.|Mixed Effects Poisson|||Week 8 rate ratio, 95% CIs, and p-value for number of UI episodes during Week 8 3-day diary between combination and solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of UI episodes/number of valid diary days) at baseline as covariate and log of number of valid diary as the offset variable.||0.86|0.63|<0.001
92321323|NCT01908829|184547938|SUPERIORITY||Rate Ratio|0.83|STANDARD_ERROR_OF_MEAN|0.09|=|0.038|TWO_SIDED|95.0|0.69|0.99||p\<0.05 indicates superiority in favor of treatment group with lowest rate of UI episodes.|Mixed Effects Poisson|||Week 12 rate ratio, 95% CIs, and p-value for number of UI episodes during Week 12 3-day diary between combination and solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of UI episodes/number of valid diary days) at baseline as covariate and log of number of valid diary as the offset variable.||0.99|0.69|=0.038
92197092|NCT01013961|184293122|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0
92197093|NCT01271504|184293145|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.56|1.5||||||||1.50|0.56|
92197094|NCT01271504|184293146|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.57|1.5||||||||1.50|0.57|
92197095|NCT01271504|184293148|SUPERIORITY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.6|1.62||||||||1.62|0.60|
92197096|NCT02768597|184293150|SUPERIORITY|||||||0.552|||||||ANOVA|||||||.552
92197097|NCT02768597|184293151|SUPERIORITY|||||||0.558|||||||ANOVA|||||||.558
92197098|NCT02768597|184293152|SUPERIORITY|||||||0.274|||||||Kruskal-Wallis|||||||.274
92197099|NCT02768597|184293153|SUPERIORITY|||||||0.539|||||||Kruskal-Wallis|||||||.539
92197100|NCT02768597|184293154|SUPERIORITY|||||||0.478|||||||Kruskal-Wallis|||||||.478
92321324|NCT01908829|184547938|SUPERIORITY||Rate Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.09|=|0.022|TWO_SIDED|95.0|0.69|0.97||p\<0.05 indicates superiority in favor of treatment group with lowest rate of UI episodes.|Mixed Effects Poisson|||EoT rate ratio, 95% CIs, and p-value for number of UI episodes during EoT 3-day diary between combination and solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of UI episodes/number of valid diary days) at baseline as covariate and log of number of valid diary as the offset variable.||0.97|0.69|=0.022
92321325|NCT01908829|184547939|SUPERIORITY||LS Means|-0.45|STANDARD_ERROR_OF_MEAN|0.13|=|0.001|TWO_SIDED|95.0|-0.72|-0.19||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.19|-0.72|=0.001
92321326|NCT01908829|184547939|SUPERIORITY||LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.93|-0.35||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.35|-0.93|<0.001
92321327|NCT01908829|184547939|SUPERIORITY||LS Means|-0.52|STANDARD_ERROR_OF_MEAN|0.15|=|0.001|TWO_SIDED|95.0|-0.82|-0.22||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.22|-0.82|=0.001
92321328|NCT01908829|184547939|SUPERIORITY||LS Means|-0.54|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.83|-0.25||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.25|-0.83|<0.001
92321329|NCT01908829|184547940|SUPERIORITY||LS Means|-0.26|STANDARD_ERROR_OF_MEAN|0.1|=|0.008|TWO_SIDED|95.0|-0.46|-0.07||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group \& geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.07|-0.46|=0.008
92321330|NCT01908829|184547940|SUPERIORITY||LS Means|-0.34|STANDARD_ERROR_OF_MEAN|0.11|=|0.002|TWO_SIDED|95.0|-0.55|-0.13||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group \& geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.13|-0.55|=0.002
92321331|NCT01908829|184547940|SUPERIORITY||LS Means|-0.28|STANDARD_ERROR_OF_MEAN|0.1|=|0.006|TWO_SIDED|95.0|-0.47|-0.08||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group \& geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.08|-0.47|=0.006
92321332|NCT01908829|184547940|SUPERIORITY||LS Means|-0.31|STANDARD_ERROR_OF_MEAN|0.1|=|0.002|TWO_SIDED|95.0|-0.51|-0.12||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group \& geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.12|-0.51|=0.002
92321333|NCT01908829|184547941|SUPERIORITY||Rate Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.06|=|0.545|TWO_SIDED|95.0|0.87|1.08||p\<0.05 indicates superiority in favor of treatment group with lowest rate of pads used.|Mixed Effects Poisson|||Week 4 rate ratio, 95% CIs, and p-value for number of pads used during the 3-day diary between combination \& solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of pads used/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||1.08|0.87|=0.545
92321334|NCT01908829|184547941|SUPERIORITY||Rate Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.08|=|0.01|TWO_SIDED|95.0|0.7|0.95||p\<0.05 indicates superiority in favor of treatment group with lowest rate of pads used.|Mixed Effects Poisson|||Week 8 rate ratio, 95% CIs, and p-value for number of pads used during the 3-day diary between combination \& solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of pads used/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||0.95|0.70|=0.010
92321335|NCT01908829|184547941|SUPERIORITY||Rate Ratio|0.79|STANDARD_ERROR_OF_MEAN|0.09|=|0.007|TWO_SIDED|95.0|0.67|0.94||p\<0.05 indicates superiority in favor of treatment group with lowest rate of pads used.|Mixed Effects Poisson|||Week 12 rate ratio, 95% CIs, and p-value for number of pads used during the 3-day diary between combination \& solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of pads used/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||0.94|0.67|=0.007
92321336|NCT01908829|184547941|SUPERIORITY||Rate Ratio|0.78|STANDARD_ERROR_OF_MEAN|0.08|=|0.003|TWO_SIDED|95.0|0.66|0.92||p\<0.05 indicates superiority in favor of treatment group with lowest rate of pads used.|Mixed Effects Poisson|||EoT rate ratio, 95% CIs, and p-value for number of pads used during the 3-day diary between combination \& solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of pads used/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||0.92|0.66|=0.003
92321337|NCT01908829|184547942|SUPERIORITY||LS Means|-0.01|STANDARD_ERROR_OF_MEAN|0.05|=|0.836|TWO_SIDED|95.0|-0.1|0.08||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.08|-0.10|=0.836
92321338|NCT01908829|184547942|SUPERIORITY||LS Means|-0.02|STANDARD_ERROR_OF_MEAN|0.05|=|0.617|TWO_SIDED|95.0|-0.12|0.07||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.07|-0.12|=0.617
92321339|NCT01908829|184547942|SUPERIORITY||LS Means|-0.07|STANDARD_ERROR_OF_MEAN|0.05|=|0.134|TWO_SIDED|95.0|-0.17|0.02||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.02|-0.17|=0.134
92321340|NCT01908829|184547942|SUPERIORITY||LS Means|-0.06|STANDARD_ERROR_OF_MEAN|0.05|=|0.174|TWO_SIDED|95.0|-0.16|0.03||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||EOT adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.03|-0.16|=0.174
92321341|NCT01908829|184547943|SUPERIORITY||Rate Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.04|=|0.993|TWO_SIDED|95.0|0.93|1.08||p\<0.05 indicates superiority in favor of treatment group with lowest rate of nocturia episodes.|Mixed Effects Poisson|||Week 4 rate ratio, 95% CIs, \& p-value for number of nocturia episodes during 3-day diary between combination \& solifenacin treatment calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week incontinence episode reduction group as factors, log of (number of nocturia episodes/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||1.08|0.93|=0.993
92321342|NCT01908829|184547943|SUPERIORITY||Rate Ratio|0.99|STANDARD_ERROR_OF_MEAN|0.04|=|0.736|TWO_SIDED|95.0|0.9|1.07||p\<0.05 indicates superiority in favor of treatment group with lowest rate of nocturia episodes.|Mixed Effects Poisson|||Week 8 rate ratio, 95% CIs, \& p-value for number of nocturia episodes during 3-day diary between combination \& solifenacin treatment calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week incontinence episode reduction group as factors, log of (number of nocturia episodes/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||1.07|0.90|=0.736
92321343|NCT01908829|184547943|SUPERIORITY||Rate Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.05|=|0.121|TWO_SIDED|95.0|0.85|1.02||p\<0.05 indicates superiority in favor of treatment group with lowest rate of nocturia episodes.|Mixed Effects Poisson|||Week 12 rate ratio, 95% CIs, \& p-value for number of nocturia episodes during 3-day diary between combination \& solifenacin treatment calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week incontinence episode reduction group as factors, log of (number of nocturia episodes/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||1.02|0.85|=0.121
92321344|NCT01908829|184547943|SUPERIORITY||Rate Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.04|=|0.172|TWO_SIDED|95.0|0.86|1.03||p\<0.05 indicates superiority in favor of treatment group with lowest rate of nocturia episodes.|Mixed Effects Poisson|||EoT rate ratio, 95% CIs, \& p-value for number of nocturia episodes during 3-day diary between combination \& solifenacin treatment calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week incontinence episode reduction group as factors, log of (number of nocturia episodes/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||1.03|0.86|=0.172
92321345|NCT01908829|184547949|SUPERIORITY||LS Means|-2.89|STANDARD_ERROR_OF_MEAN|0.91|=|0.002|TWO_SIDED|95.0|-4.68|-1.1||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-1.10|-4.68|=0.002
92321346|NCT01908829|184547949|SUPERIORITY||LS Means|-4.5|STANDARD_ERROR_OF_MEAN|0.97|<|0.001|TWO_SIDED|95.0|-6.4|-2.6||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-2.60|-6.40|<0.001
92321347|NCT01908829|184547949|SUPERIORITY||LS Means|-5.59|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|-7.56|-3.62||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-3.62|-7.56|<0.001
92321348|NCT01908829|184547949|SUPERIORITY||LS Means|-4.96|STANDARD_ERROR_OF_MEAN|0.98|<|0.001|TWO_SIDED|95.0|-6.88|-3.04||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-3.04|-6.88|<0.001
92321349|NCT01908829|184547950|SUPERIORITY||LS Means|1.92|STANDARD_ERROR_OF_MEAN|0.83|=|0.021|TWO_SIDED|95.0|0.29|3.55||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||3.55|0.29|=0.021
92321350|NCT01908829|184547950|SUPERIORITY||LS Means|2.31|STANDARD_ERROR_OF_MEAN|0.89|=|0.01|TWO_SIDED|95.0|0.56|4.06||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.06|0.56|=0.010
92321351|NCT01908829|184547950|SUPERIORITY||LS Means|3.49|STANDARD_ERROR_OF_MEAN|0.94|<|0.001|TWO_SIDED|95.0|1.65|5.33||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||5.33|1.65|<0.001
92321352|NCT01908829|184547950|SUPERIORITY||LS Means|3.15|STANDARD_ERROR_OF_MEAN|0.92|=|0.001|TWO_SIDED|95.0|1.35|4.95||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.95|1.35|=0.001
92197101|NCT02768597|184293155|SUPERIORITY|||||||0.527|||||||ANOVA|||||||.527
92197102|NCT02768597|184293156|SUPERIORITY|||||||0.823|||||||ANOVA|||||||.823
92197103|NCT02768597|184293157|SUPERIORITY|||||||0.231|||||||ANOVA|||||||.231
92197104|NCT02768597|184293158|SUPERIORITY|||||||0.595|||||||Kruskal-Wallis|||||||.595
92321353|NCT01908829|184547951|SUPERIORITY||LS Means|2.9|STANDARD_ERROR_OF_MEAN|0.96|=|0.003|TWO_SIDED|95.0|1.02|4.78||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.78|1.02|=0.003
92321354|NCT01908829|184547951|SUPERIORITY||LS Means|3.35|STANDARD_ERROR_OF_MEAN|1.05|=|0.001|TWO_SIDED|95.0|1.29|5.4||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||5.40|1.29|=0.001
92321355|NCT01908829|184547951|SUPERIORITY||LS Means|4.71|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|2.55|6.87||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||6.87|2.55|<0.001
92321356|NCT01908829|184547951|SUPERIORITY||LS Means|4.29|STANDARD_ERROR_OF_MEAN|1.07|<|0.001|TWO_SIDED|95.0|2.2|6.39||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||6.39|2.20|<0.001
92321357|NCT01908829|184547952|SUPERIORITY||LS Means|1.94|STANDARD_ERROR_OF_MEAN|0.96|=|0.044|TWO_SIDED|95.0|0.05|3.83||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||3.83|0.05|=0.044
92321358|NCT01908829|184547952|SUPERIORITY||LS Means|2.5|STANDARD_ERROR_OF_MEAN|1.0|=|0.012|TWO_SIDED|95.0|0.55|4.46||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.46|0.55|=0.012
92321359|NCT01908829|184547952|SUPERIORITY||LS Means|3.61|STANDARD_ERROR_OF_MEAN|1.05|=|0.001|TWO_SIDED|95.0|1.54|5.67||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||5.67|1.54|=0.001
92321360|NCT01908829|184547952|SUPERIORITY||LS Means|3.28|STANDARD_ERROR_OF_MEAN|1.03|=|0.001|TWO_SIDED|95.0|1.27|5.29||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||5.29|1.27|=0.001
92321361|NCT01908829|184547953|SUPERIORITY||LS Means|0.54|STANDARD_ERROR_OF_MEAN|0.96|=|0.575|TWO_SIDED|95.0|-1.35|2.43||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||2.43|-1.35|=0.575
92321362|NCT01908829|184547953|SUPERIORITY||LS Means|1.61|STANDARD_ERROR_OF_MEAN|1.0|=|0.109|TWO_SIDED|95.0|-0.36|3.58||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||3.58|-0.36|=0.109
92321363|NCT01908829|184547953|SUPERIORITY||LS Means|2.26|STANDARD_ERROR_OF_MEAN|1.05|=|0.032|TWO_SIDED|95.0|0.2|4.32||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.32|0.20|=0.032
92321364|NCT01908829|184547953|SUPERIORITY||LS Means|1.86|STANDARD_ERROR_OF_MEAN|1.02|=|0.069|TWO_SIDED|95.0|-0.15|3.87||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||3.87|-0.15|=0.069
92321365|NCT01908829|184547954|SUPERIORITY||LS Means|1.73|STANDARD_ERROR_OF_MEAN|0.83|=|0.037|TWO_SIDED|95.0|0.1|3.36||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||3.36|0.10|=0.037
92321366|NCT01908829|184547954|SUPERIORITY||LS Means|1.09|STANDARD_ERROR_OF_MEAN|0.85|=|0.199|TWO_SIDED|95.0|-0.57|2.76||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||2.76|-0.57|=0.199
92321367|NCT01908829|184547954|SUPERIORITY||LS Means|2.62|STANDARD_ERROR_OF_MEAN|0.87|=|0.003|TWO_SIDED|95.0|0.92|4.31||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.31|0.92|=0.003
92321368|NCT01908829|184547954|SUPERIORITY||LS Means|2.48|STANDARD_ERROR_OF_MEAN|0.85|=|0.004|TWO_SIDED|95.0|0.81|4.15||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.15|0.81|=0.004
92321369|NCT01908829|184547955|SUPERIORITY||LS Means|0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.2|0.6||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as the 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.6|0.2|<0.001
92321370|NCT01908829|184547955|SUPERIORITY||LS Means|0.3|STANDARD_ERROR_OF_MEAN|0.1|=|0.019|TWO_SIDED|95.0|0.0|0.5||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as the 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.5|0.0|=0.019
92321371|NCT01908829|184547955|SUPERIORITY||LS Means|0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.3|0.7||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as the 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.7|0.3|<0.001
92197105|NCT02768597|184293159|SUPERIORITY|||||||0.789|||||||Kruskal-Wallis|||||||.789
92197106|NCT04560374|184293205|EQUIVALENCE|Power analysis was performed after the completion of the study. 98% power was obtained.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92197107|NCT00420784|184293242|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.23|||<|0.001|TWO_SIDED|95.0|4.14|16.36|||Regression, Logistic|||||16.36|4.14|<0.001
92197108|NCT00420784|184293242|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.52|||<|0.001|TWO_SIDED|95.0|4.72|19.2|||Regression, Logistic|||||19.20|4.72|<0.001
92197109|NCT00420784|184293242|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.31||||0.024|TWO_SIDED|95.0|1.12|4.75|||Regression, Logistic|||||4.75|1.12|0.024
92321372|NCT01908829|184547955|SUPERIORITY||LS Means|0.4|STANDARD_ERROR_OF_MEAN|0.1|=|0.001|TWO_SIDED|95.0|0.2|0.6||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as the 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.6|0.2|=0.001
92321373|NCT01908829|184547956|SUPERIORITY||LS Means|-0.2|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.4|-0.1||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as the 95% CIs and p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Difference of adjusted mean was calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.1|-0.4|<0.001
92321374|NCT01908829|184547956|SUPERIORITY||LS Means|-0.2|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.4|-0.1||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as the 95% CIs and p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Difference of adjusted mean was calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.1|-0.4|<0.001
92321375|NCT01908829|184547956|SUPERIORITY||LS Means|-0.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.4|-0.2||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as the 95% CIs and p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Difference of adjusted mean was calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.2|-0.4|<0.001
92321376|NCT01908829|184547956|SUPERIORITY||LS Means|-0.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.4|-0.1||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as the 95% CIs and p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Difference of adjusted mean was calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.1|-0.4|<0.001
92321377|NCT01908829|184547958|SUPERIORITY||Odds Ratio (OR)|1.48|||<|0.001|TWO_SIDED|95.0|1.19|1.84||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.84|1.19|<0.001
92321378|NCT01908829|184547958|SUPERIORITY||Odds Ratio (OR)|1.57|||<|0.001|TWO_SIDED|95.0|1.25|1.98||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.98|1.25|<0.001
92321379|NCT01908829|184547958|SUPERIORITY||Odds Ratio (OR)|1.54|||=|0.001|TWO_SIDED|95.0|1.21|1.95||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.95|1.21|=0.001
92321380|NCT01908829|184547958|SUPERIORITY||Odds Ratio (OR)|1.51|||<|0.001|TWO_SIDED|95.0|1.2|1.9||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.90|1.20|<0.001
92321381|NCT01908829|184547959|SUPERIORITY||Odds Ratio (OR)|1.24|||=|0.119|TWO_SIDED|95.0|0.95|1.63||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.63|0.95|=0.119
92321382|NCT01908829|184547959|SUPERIORITY||Odds Ratio (OR)|1.56|||<|0.001|TWO_SIDED|95.0|1.23|1.98||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.98|1.23|<0.001
92321383|NCT01908829|184547959|SUPERIORITY||Odds Ratio (OR)|1.44|||=|0.002|TWO_SIDED|95.0|1.14|1.82||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.82|1.14|=0.002
92197110|NCT00420784|184293244|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.64|||<|0.001|TWO_SIDED|95.0|3.41|12.96|||Regression, Logistic|||||12.96|3.41|<0.001
92197111|NCT00420784|184293244|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.72|||<|0.001|TWO_SIDED|95.0|2.91|11.27|||Regression, Logistic|||||11.27|2.91|<0.001
92197112|NCT00420784|184293244|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.95||||0.067|TWO_SIDED|95.0|0.95|4.0|||Regression, Logistic|||||4.00|0.95|0.067
92197113|NCT02402322|184293266|NON_INFERIORITY_OR_EQUIVALENCE|In the preliminary analysis, we studied the possible group differences in demographic data and pretreatment measures with chi-square tests and analysis of variance (ANOVA).||||||0.05|TWO_SIDED||||||ANOVA|||The participants' pre- and posttreatment scores were studied with repeated measures ANOVA. Within- and between-group effect sizes were calculated using the pooled standard deviation, Cohen's d.||||0.05
92197114|NCT02818998|184293275|NON_INFERIORITY|Non-inferiority margin: 4 letters|Least Squares mean difference|0.01|||<|0.0001|TWO_SIDED|95.0|-1.46|1.47||Non-inferiority was demonstrated if the p-value (adjusted for multiplicity using the Hochberg procedure) was \< 0.025|ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||1.47|-1.46|<0.0001
92321384|NCT01908829|184547959|SUPERIORITY||Odds Ratio (OR)|1.47|||=|0.001|TWO_SIDED|95.0|1.17|1.84||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.84|1.17|=0.001
92321385|NCT01908829|184547960|SUPERIORITY||Odds Ratio (OR)|1.15|||=|0.305|TWO_SIDED|95.0|0.88|1.5||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.50|0.88|=0.305
92321386|NCT01908829|184547960|SUPERIORITY||Odds Ratio (OR)|1.37|||=|0.014|TWO_SIDED|95.0|1.06|1.76||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.76|1.06|=0.014
92321387|NCT01908829|184547960|SUPERIORITY||Odds Ratio (OR)|1.37|||=|0.012|TWO_SIDED|95.0|1.07|1.76||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.76|1.07|=0.012
92321388|NCT01908829|184547960|SUPERIORITY||Odds Ratio (OR)|1.29|||=|0.036|TWO_SIDED|95.0|1.02|1.64||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.64|1.02|=0.036
92321389|NCT01908829|184547961|SUPERIORITY||Odds Ratio (OR)|1.49|||=|0.001|TWO_SIDED|95.0|1.18|1.88||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.88|1.18|=0.001
92321390|NCT01908829|184547961|SUPERIORITY||Odds Ratio (OR)|1.69|||<|0.001|TWO_SIDED|95.0|1.31|2.18||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||2.18|1.31|<0.001
92321391|NCT01908829|184547961|SUPERIORITY||Odds Ratio (OR)|1.96|||<|0.001|TWO_SIDED|95.0|1.47|2.61||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||2.61|1.47|<0.001
92321392|NCT01908829|184547961|SUPERIORITY||Odds Ratio (OR)|1.75|||<|0.001|TWO_SIDED|95.0|1.34|2.3||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||2.30|1.34|<0.001
92321393|NCT01908829|184547962|SUPERIORITY||Odds Ratio (OR)|1.44|||=|0.003|TWO_SIDED|95.0|1.14|1.82||p\<0.05 indicates superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.82|1.14|=0.003
92197115|NCT02818998|184293275|NON_INFERIORITY|Non-inferiority margin: 4 letters|Least Squares mean difference|0.95|||<|0.0001|TWO_SIDED|95.0|-0.52|2.42||Non-inferiority was demonstrated if the p-value (adjusted for multiplicity using the Hochberg procedure) was \< 0.025|ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||2.42|-0.52|<0.0001
92197116|NCT02818998|184293276|OTHER||Least Square mean difference|14.38||||0.0105|TWO_SIDED|95.0|3.39|25.37|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||25.37|3.39|0.0105
92197117|NCT02818998|184293276|OTHER||Least Square mean difference|21.22||||0.0023|TWO_SIDED|95.0|7.65|34.8|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||34.80|7.65|0.0023
92197118|NCT02818998|184293277|OTHER||Treatment Difference|0.68|||||TWO_SIDED|95.0|-3.14|4.49|||Cochran-Mantel-Haenszel|||≥ 15 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||4.49|-3.14|
92197119|NCT02818998|184293277|OTHER||Treatment Difference|2.66|||||TWO_SIDED|95.0|-3.4|8.73|||Cochran-Mantel-Haenszel|||≥10 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||8.73|-3.40|
92197120|NCT02818998|184293277|OTHER||Treatment Difference|-0.66|||||TWO_SIDED|95.0|-1.94|0.63|||Cochran-Mantel-Haenszel|||≥30 letter loss: Aflibercept 2 mg fixed was regarded as the reference arm||0.63|-1.94|
92321394|NCT01908829|184547962|SUPERIORITY||Odds Ratio (OR)|1.51|||=|0.001|TWO_SIDED|95.0|1.18|1.93||p\<0.05 indicates superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.93|1.18|=0.001
92321395|NCT01908829|184547962|SUPERIORITY||Odds Ratio (OR)|1.64|||<|0.001|TWO_SIDED|95.0|1.27|2.13||p\<0.05 indicates superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||2.13|1.27|<0.001
92321396|NCT01908829|184547962|SUPERIORITY||Odds Ratio (OR)|1.5|||=|0.001|TWO_SIDED|95.0|1.17|1.91||p\<0.05 indicates superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.91|1.17|=0.001
92321397|NCT01908829|184547963|SUPERIORITY||Odds Ratio (OR)|1.42|||=|0.003|TWO_SIDED|95.0|1.13|1.79||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.79|1.13|=0.003
92321398|NCT01908829|184547963|SUPERIORITY||Odds Ratio (OR)|1.44|||=|0.004|TWO_SIDED|95.0|1.12|1.84||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.84|1.12|=0.004
92321399|NCT01908829|184547963|SUPERIORITY||Odds Ratio (OR)|1.5|||=|0.003|TWO_SIDED|95.0|1.15|1.96||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.96|1.15|=0.003
92321400|NCT01908829|184547963|SUPERIORITY||Odds Ratio (OR)|1.43|||=|0.006|TWO_SIDED|95.0|1.11|1.84||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.84|1.11|=0.006
92321401|NCT01908829|184547964|SUPERIORITY||Odds Ratio (OR)|1.28|||=|0.065|TWO_SIDED|95.0|0.99|1.66|||Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.66|0.99|=0.065
92321402|NCT01908829|184547964|SUPERIORITY||Odds Ratio (OR)|1.41|||=|0.004|TWO_SIDED|95.0|1.11|1.79|||Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.79|1.11|=0.004
92321403|NCT01908829|184547964|SUPERIORITY||Odds Ratio (OR)|1.64|||<|0.001|TWO_SIDED|95.0|1.3|2.07|||Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||2.07|1.30|<0.001
92321404|NCT01908829|184547964|SUPERIORITY||Odds Ratio (OR)|1.55|||<|0.001|TWO_SIDED|95.0|1.24|1.94|||Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.94|1.24|<0.001
92321405|NCT01339923|184547979|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-6.4|3.9|||Miettinen and Nurminen method|||Non-inferiority of MenC-CRM was determined following co-administration of MenC-CRM and rMenB+OMV NZ vs MenC-CRM control group at 1 month after 2nd vaccination for serogroup C.||3.9|-6.4|
92321406|NCT01339923|184547979|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-5.2|7.6|||Miettinen and Nurminen method|||Non-inferiority of MenC-CRM was determined following co-administration of MenC-CRM and rMenB+OMV NZ vs MenC-CRM control group at 1 month after booster vaccination for serogroup C.||7.6|-5.2|
92197121|NCT02818998|184293277|OTHER||Treatment Difference|-0.13|||||TWO_SIDED|95.0|-3.68|3.41|||Cochran-Mantel-Haenszel|||≥15 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||3.41|-3.68|
92321407|NCT00828568|184547997|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence limit around the difference in proportion of patients considered a Treatment Success between test and reference products was calculated using Blackwelder's method with Yate's continuity correction. If the 90% confidence interval for the test to reference ratio for the primary endpoint was within -0.20 to +0.20, then the test product would have been declared therapeutically equivalent to the reference product.|Mean Difference (Final Values)|4.85||||||90.0|-5.37|15.08||||||||15.08|-5.37|
92321408|NCT00828568|184547999|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
92321409|NCT00828568|184547999|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<.0001
92197122|NCT02818998|184293277|OTHER||Treatment Difference|1.72|||||TWO_SIDED|95.0|-4.1|7.54|||Cochran-Mantel-Haenszel|||≥10 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||7.54|-4.10|
92197123|NCT02818998|184293277|OTHER||Treatment Difference|-0.68|||||TWO_SIDED|95.0|-2.0|0.65|||Cochran-Mantel-Haenszel|||≥30 letter loss: Aflibercept 2 mg fixed was regarded as the reference arm||0.65|-2.00|
92321410|NCT00460811|184548006|SUPERIORITY_OR_OTHER|||||||0.0002|||||||ANCOVA|||For each of the 4 active linaclotide groups, the null hypothesis was that there was no difference between placebo and the dose group in the change from baseline in the weekly normalized CSBM Rate. An observed cases (OC) approach to missing post-baseline data was applied: any missing data were not imputed.||||0.0002
92321411|NCT00460811|184548006|SUPERIORITY_OR_OTHER|||||||0.0036||95.0|||||ANCOVA|||For each of the 4 active linaclotide groups, the null hypothesis was that there was no difference between placebo and the dose group in the change from baseline in the weekly normalized CSBM Rate. An observed cases (OC) approach to missing post-baseline data was applied: any missing data were not imputed.||||0.0036
92321412|NCT00460811|184548006|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||For each of the 4 active linaclotide groups, the null hypothesis was that there was no difference between placebo and the dose group in the change from baseline in the weekly normalized CSBM Rate. An observed cases (OC) approach to missing post-baseline data was applied: any missing data were not imputed.||||<0.0001
92321413|NCT00460811|184548006|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||ANCOVA|||For each of the 4 active linaclotide groups, the null hypothesis was that there was no difference between placebo and the dose group in the change from baseline in the weekly normalized CSBM Rate. An observed cases (OC) approach to missing post-baseline data was applied: any missing data were not imputed.||||0.0008
92321414|NCT02477332|184548047|SUPERIORITY||Estimated target dose|32.5|||<|0.05|TWO_SIDED|60.0|27.5|42.5|||Regression, Logistic|Target dose was based on this estimated dose response. The 60% CI included the 20 - 80th percentile of target dose estimated in the bootstrap samples.|Min dose with effect size \>15%|||42.5|27.5|<.05
92321415|NCT03627546|184548069|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||.01
92321416|NCT03627546|184548070|SUPERIORITY|||||||0.0007|||||||Chi-squared|||||||0.0007
92321417|NCT02837731|184548079|SUPERIORITY||Mean Difference (Final Values)|-1.37||||0.021|TWO_SIDED|95.0|-2.53|0.21|||t-test, 2 sided|||||0.21|-2.53|0.021
92321418|NCT02837731|184548080|OTHER||Mean Difference (Final Values)|-0.124||||0.042|TWO_SIDED|95.0|-0.27|-0.01|||Fisher Exact||Converted Estimated Value of -12.4% to decimal value of -0.124.|||-0.01|-0.27|0.042
92321419|NCT02837731|184548081|OTHER||Mean Difference (Final Values)|-0.1642||||0.044|TWO_SIDED|95.0|-0.33|0.0|||Chi-squared||Converted Estimated Value of -16.42% to decimal value of -0.1642.|||0|-0.33|0.044
92321420|NCT02837731|184548082|OTHER||Mean Difference (Final Values)|-2.91||||0.113|TWO_SIDED|95.0|-6.67|0.85|||Fisher Exact|||||0.85|-6.67|0.113
92321421|NCT02837731|184548083|OTHER||Mean Difference (Final Values)|-72.43|||||TWO_SIDED|95.0|-154.08|9.22|||Wilcoxon (Mann-Whitney)|||||9.22|-154.08|
92197124|NCT02818998|184293278|NON_INFERIORITY|Non-inferiority margin: 4 letters|Least Squares mean difference|-0.3|||<|0.0001|TWO_SIDED|95.0|-2.13|1.52|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||1.52|-2.13|<0.0001
92321422|NCT02837731|184548084|OTHER||Mean Difference (Final Values)|-14.91||||0.426|TWO_SIDED|95.0|-52.5|22.68|||Wilcoxon (Mann-Whitney)|||||22.68|-52.50|0.426
92321423|NCT02837731|184548085|OTHER||Mean Difference (Final Values)|0.09||||0.453|TWO_SIDED|95.0|-0.34|0.52|||ANCOVA|||||0.52|-0.34|0.453
92321424|NCT01329380|184548115|OTHER|||||||0.0328|||||||Mann-Whitney U-test|||Age||||0.0328
92321425|NCT01329380|184548115|OTHER|||||||0.7128|||||||Fisher Exact|||Sex||||0.7128
92321426|NCT01329380|184548115|OTHER|||||||0.0465|||||||Mann-Whitney U-test|||Body mass index||||0.0465
92321427|NCT01329380|184548115|OTHER|||||||0.8872|||||||Mann-Whitney U-test|||Duration of illness||||0.8872
92321428|NCT01329380|184548115|OTHER|||||||0.0388|||||||Fisher Exact|||Smoking history||||0.0388
92197125|NCT02818998|184293278|NON_INFERIORITY|Non-inferiority margin: 4 letters|Least Squares mean difference|1.39|||<|0.0001|TWO_SIDED|95.0|-0.4|3.19|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||3.19|-0.40|<0.0001
92197126|NCT02818998|184293279|OTHER||Least Square mean difference|16.14||||0.0416|TWO_SIDED|95.0|0.62|31.66|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||31.66|0.62|0.0416
92321429|NCT01329380|184548115|OTHER|||||||0.4855|||||||Fisher Exact|||Complications||||0.4855
92321430|NCT01329380|184548115|OTHER|||||||0.663|||||||Fisher Exact|||Complications - Liver disorder||||0.6630
92321431|NCT01329380|184548115|OTHER|||||||0.2067|||||||Fisher Exact|||Complications - Renal disorder||||0.2067
92321432|NCT01329380|184548115|OTHER|||||||0.8749|||||||Fisher Exact|||Complications - Cardiovascular disorder||||0.8749
92321433|NCT01329380|184548115|OTHER|||||||0.482|||||||Fisher Exact|||Complications - Blood disorder||||0.4820
92321434|NCT01329380|184548115|OTHER|||||||0.6355|||||||Fisher Exact|||Complications - Respiratory disorder||||0.6355
92321435|NCT01329380|184548115|OTHER|||||||0.8193|||||||Fisher Exact|||Complications - Diabetes mellitus||||0.8193
92321436|NCT01329380|184548115|OTHER|||||||0.5723|||||||Fisher Exact|||Complications - Uveitis||||0.5723
92321437|NCT01329380|184548115|OTHER|||||||1|||||||Fisher Exact|||Complications - Inflammatory bowel disease||||1.0000
92321438|NCT01329380|184548115|OTHER|||||||1|||||||Fisher Exact|||Complications - Psoriasis||||1.0000
92321439|NCT01329380|184548115|OTHER|||||||0.0144|||||||Fisher Exact|||Past Illnesses||||0.0144
92321440|NCT01329380|184548115|OTHER|||||||1|||||||Fisher Exact|||Allergy history||||1.0000
92321441|NCT01329380|184548115|OTHER|||||||0.3928|||||||Fisher Exact|||Adalimumab self-injection status||||0.3928
92321442|NCT01329380|184548115|OTHER|||||||0.2735|||||||Fisher Exact|||Prior medications - NSAIDs||||0.2735
92321443|NCT01329380|184548115|OTHER|||||||0.8875|||||||Fisher Exact|||Prior medications - Biological products||||0.8875
92321444|NCT01329380|184548115|OTHER|||||||0.254|||||||Fisher Exact|||Prior medications - Adrenal corticosteroids||||0.2540
92321445|NCT01329380|184548115|OTHER|||||||0.0226|||||||Fisher Exact|||Concomitant drugs||||0.0226
92321446|NCT01329380|184548115|OTHER|||||||1|||||||Fisher Exact|||Concomitant drug: NSAIDs||||1.0000
92321447|NCT01329380|184548115|OTHER|||||||0.2481|||||||Fisher Exact|||Concomitant drugs - DMARDs||||0.2481
92321448|NCT01329380|184548115|OTHER|||||||0.1558|||||||Fisher Exact|||Concomitant drugs - Methotrexate||||0.1558
92321449|NCT01329380|184548115|OTHER|||||||1|||||||Fisher Exact|||Concomitant drugs - salazosulfapyridine||||1.0000
92321450|NCT01329380|184548115|OTHER|||||||0.0094|||||||Fisher Exact|||Concomitant drugs - Adrenal corticosteroids||||0.0094
92321451|NCT01329380|184548115|OTHER|||||||1|||||||Fisher Exact|||Concomitant therapy||||1.0000
92321452|NCT01329380|184548115|OTHER|||||||0.8836|||||||Fisher Exact|||Human leukocyte antigen B27 (HLA-B27) test result||||0.8836
92197127|NCT02818998|184293279|OTHER||Least Square mean difference|4.12||||0.5524|TWO_SIDED|95.0|-9.52|17.77|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||17.77|-9.52|0.5524
92321453|NCT01329380|184548115|OTHER|||||||1|||||||Fisher Exact|||BASDAI at start of treatment||||1.0000
92321454|NCT03291431|184548144|OTHER|Chi-Square comparison of frequencies|Pearson Chi-Square|0.17||||0.99|TWO_SIDED|||||A p-value of \<0.05 is considered statistically significant.|Chi-squared|||||||0.99
92321455|NCT03291431|184548145|OTHER||Slope|-0.2||||0.68|TWO_SIDED|95.0||||p \< .05 considered statistically significant.|Mixed Models Analysis||Rate of change compared between groups using linear mixed modeling.|Linear mixed modeling||||0.68
92321456|NCT03291431|184548146|OTHER|||||||0.34||||||p-value \< .05 considered statistically significant.|Mixed Models Analysis|||||||0.34
92321457|NCT03291431|184548147|OTHER|Linear mixed modeling|Slope|-1.99||||0.7|TWO_SIDED|||||p \< .05 considered statistically significant.|Mixed Models Analysis||Rate of change compared between groups using linear mixed modeling.|||||0.70
92321458|NCT03291431|184548148|OTHER||Slope|0.3||||0.11|TWO_SIDED|||||p \< .05 considered statistically significant.|Mixed Models Analysis|||Linear mixed modeling||||0.11
92321459|NCT06868654|184548149|OTHER||Hazard Ratio (HR)|0.24|||||TWO_SIDED|95.0|0.11|0.56|||||Hazard ratio was estimated using a Cox Proportional Hazards model stratified by the number of lines of prior therapy, prior bortezomib and revised international staging system (R-ISS) at screening, with a covariate of treatment.|||0.56|0.11|
92321460|NCT04075682|184548224|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus their not being equal.|Mean Difference (Net)|0.26|STANDARD_ERROR_OF_MEAN|0.51||0.6|TWO_SIDED|95.0|-0.73|1.25||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.25|-0.73|0.60
92321461|NCT04075682|184548224|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus their not being equal.|Mean Difference (Net)|-0.78|STANDARD_ERROR_OF_MEAN|0.73||0.29|TWO_SIDED|95.0|-2.22|0.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.66|-2.22|0.29
92321462|NCT04075682|184548224|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.72||0.73|TWO_SIDED|95.0|-1.67|1.16||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.16|-1.67|0.73
92321463|NCT04075682|184548224|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|1.04||0.77|TWO_SIDED|95.0|-2.34|1.74||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||1.74|-2.34|0.77
92321464|NCT04075682|184548224|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.73|STANDARD_ERROR_OF_MEAN|1.1||0.51|TWO_SIDED|95.0|-1.43|2.88||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||2.88|-1.43|0.51
92197128|NCT02818998|184293280|OTHER||Treatment Difference|0.67|||||TWO_SIDED|95.0|-2.72|4.05|||Cochran-Mantel-Haenszel|||≥ 15 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||4.05|-2.72|
92197129|NCT02818998|184293280|OTHER||Treatment Difference|4.63|||||TWO_SIDED|95.0|-1.73|10.98|||Cochran-Mantel-Haenszel|||≥10 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||10.98|-1.73|
92197130|NCT02818998|184293280|OTHER||Treatment Difference|0.66|||||TWO_SIDED|95.0|-1.56|2.87|||Cochran-Mantel-Haenszel|||≥30 letter loss: Aflibercept 2 mg fixed was regarded as the reference arm||2.87|-1.56|
92197131|NCT02818998|184293280|OTHER||Treatment Difference|1.9|||||TWO_SIDED|95.0|-1.89|5.69|||Cochran-Mantel-Haenszel|||≥15 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||5.69|-1.89|
92197132|NCT02818998|184293280|OTHER||Treatment Difference|7.54|||||TWO_SIDED|95.0|0.81|14.28|||Cochran-Mantel-Haenszel|||≥10 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||14.28|0.81|
92197133|NCT02818998|184293280|OTHER||Treatment Difference|0.63|||||TWO_SIDED|95.0|-1.61|2.88|||Cochran-Mantel-Haenszel|||≥30 letter loss: Aflibercept 2 mg fixed was regarded as the reference arm||2.88|-1.61|
92197134|NCT01587118|184293292|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The a priori threshold for statistical significance was p\</= 0.05|ANOVA|Change from baseline analyses were conducted using simple one-way analysis of variance; and were recalculated using the Kruskal Wallis procedure.||||||<.0001
92197135|NCT01587118|184293293|SUPERIORITY_OR_OTHER|||||||0.0006||||||The a priori threshold for statistical significance was p\</= 0.05|ANOVA|Change from baseline analyses were conducted using simple one-way analysis of variance; and were recalculated using the Kruskal Wallis procedure.||||||.0006
92197136|NCT00537329|184293294|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|86.1||||||95.0|70.5|95.3||||||Sample size enrollment of 100 subjects was planned. Assuming an overall response rate of 75 percent (%), a 95% confidence interval (CI) for the percentage of subjects responding to treatment would have ranged from 66.3% to 83.7% allowing for 5% nonevaluability. This would have provided a level of precision considered acceptable for this Asian regional study.||95.3|70.5|
92197137|NCT00537329|184293295|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|89.2||||||95.0|74.6|97.0||||||EOIT||97.0|74.6|
92197138|NCT00537329|184293295|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|82.8||||||95.0|64.2|94.2||||||2 Wks post EOT||94.2|64.2|
92197139|NCT00537329|184293295|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|89.5||||||95.0|66.9|98.7||||||6 Wks post EOT||98.7|66.9|
92197140|NCT00537329|184293295|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|72.7||||||95.0|49.8|89.3||||||12 Wks post baseline||89.3|49.8|
92197141|NCT00537329|184293296|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|97.1||||||95.0|85.1|99.9||||||EOIT: success (cure/improvement)||99.9|85.1|
92197142|NCT00537329|184293296|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|94.1||||||95.0|80.3|99.3||||||EOT: success (cure/improvement)||99.3|80.3|
92197143|NCT00537329|184293296|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|92.9||||||95.0|76.5|99.1||||||2 Wks post EOT: success (cure/improvement)||99.1|76.5|
92197144|NCT00537329|184293296|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|94.4||||||95.0|72.7|99.9||||||6 Wks post EOT: success (cure/improvement)||99.9|72.7|
92197145|NCT00537329|184293296|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|85.0||||||95.0|62.1|96.8||||||12 Wks post baseline: success (cure/improvement)||96.8|62.1|
92197146|NCT00537329|184293297|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|97.3||||||95.0|85.8|99.9||||||EOIT: success (erad/presumed erad)||99.9|85.8|
92197147|NCT00537329|184293297|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|97.1||||||95.0|85.1|99.9||||||EOT: success (erad/presumed erad)||99.9|85.1|
92197148|NCT00537329|184293297|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|86.2||||||95.0|68.3|96.1||||||2 Wks post EOT: success (erad/presumed erad)||96.1|68.3|
92197149|NCT00537329|184293297|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|94.4||||||95.0|72.7|99.9||||||6 Wks post EOT: success (erad/presumed erad)||99.9|72.7|
92197150|NCT00537329|184293297|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|84.2||||||95.0|60.4|96.6||||||12 Wks post baseline: success (erad/presumed erad)||96.6|60.4|
92197151|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|50.0||||||95.0|1.3|98.7||||||Neutropenic status: ANC ≤ 500/cmm||98.7|1.3|
92197152|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|75.7||||||95.0|58.8|88.2||||||Neutropenic status: ANC \> 500/cmm||88.2|58.8|
92197153|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|71.4||||||95.0|41.9|91.6||||||Baseline pathogen: Candida albicans||91.6|41.9|
92197154|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|66.7||||||95.0|22.3|95.7||||||Baseline pathogen: Candida glabrata||95.7|22.3|
92197155|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|100.0||||||95.0|39.8|100.0||||||Baseline pathogen: Candida parapsilosis||100.0|39.8|
92197156|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|100.0||||||95.0|2.5|100.0||||||Baseline pathogen: Candida rugosa||100.0|2.5|
92197157|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|72.2||||||95.0|46.5|90.3||||||Baseline pathogen: Candida tropicalis||90.3|46.5|
92197158|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|84.6||||||95.0|54.6|98.1||||||Previous surgery: Any surgery||98.1|54.6|
92197159|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|87.5||||||95.0|47.3|99.7||||||Previous surgery: Abdominal surgery||99.7|47.3|
92197160|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|58.8||||||95.0|32.9|81.6||||||Elderly: Age ≥ 65 years||81.6|32.9|
92197161|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|54.5||||||95.0|23.4|83.3||||||Renal insufficiency (CCC \< 30 mL/min)||83.3|23.4|
92197162|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|81.0||||||95.0|58.1|94.6||||||Use of Central venous catheter = Yes||94.6|58.1|
92197163|NCT00537329|184293304|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|71.4||||||95.0|29.0|96.3||||||Receiving chemotherapy = Yes||96.3|29.0|
92197164|NCT01653210|184293312|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|||||||ANOVA|||||||0.023
92197165|NCT00243022|184293318|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||t-test, 2 sided|||||||0.9
92197166|NCT00243022|184293319|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||t-test, 2 sided|||||||0.12
92197167|NCT00243022|184293320|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||t-test, 2 sided|||||||0.8
92197168|NCT03636373|184293363|NON_INFERIORITY|On a 10 point Likert Pain Scale, non-inferiority margin for the difference is 1.04. Using a Student t-test, there was 80% power for the difference in pain levels to exceed -1.04.||||||1|||||||t-test, 1 sided|||Mean Outcome measure Etanercept arm { ( 8 + 0 + 7)/3 = 5} Triamcinolone Arm { (3+0) /2 = 1.5 }||||1.00
92197169|NCT03636373|184293364|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.00
92197170|NCT03636373|184293365|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92197171|NCT03636373|184293366|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92197172|NCT03636373|184293367|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92197173|NCT03636373|184293368|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92197174|NCT01575873|184293369|NON_INFERIORITY|Non-inferiority was shown if the lower bound of the two-sided 95% CI for the difference between the least-squares means (denosumab minus risedronate) was higher than the prespecified non-inferiority margin of -1.1 percentage points for the glucocorticoid-initiating subpopulation.|LS Mean Difference|2.9|||<|0.001|TWO_SIDED|95.0|2.0|3.9||One-sided p-value based on the prespecified noninferiority margin for lumbar spine of -1.1%.|ANCOVA||Least Squares (LS) Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within the glucocorticoid-continuing and glucocorticoid-initiating subpopulations. A fixed-sequence testing procedure was used to control the experiment-wise type 1 error rate at a two-sided 5% significance level within each subpopulation.~The glucocorticoid-initiating subpopulation was analyzed using an ANCOVA model adjusting for treatment, baseline BMD, sex, machine type, and baseline BMD-by-machine type interaction."||3.9|2.0|< 0.001
92197175|NCT01575873|184293369|NON_INFERIORITY|Non-inferiority was shown if the lower bound of the two-sided 95% CI for the difference between the least-squares means (denosumab minus risedronate) was higher than the prespecified non-inferiority margin of -0.7 percentage points for the glucocorticoid-continuing subpopulation.|LS Mean Difference|2.2|||<|0.001|TWO_SIDED|95.0|1.4|3.0||One-sided p-value based on the prespecified noninferiority margins for lumbar spine of -0.7%.|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-continuing subpopulation was analyzed using an ANCOVA model adjusted for treatment, baseline BMD, sex, machine type, baseline BMD-by-machine type interaction, and duration of prior glucocorticoid use (\< 12 months vs ≥ 12 months)."||3.0|1.4|< 0.001
92197176|NCT01575873|184293370|SUPERIORITY||LS Mean Difference|2.9|||<|0.001|TWO_SIDED|95.0|2.0|3.9||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-initiating subpopulation was analyzed using an ANCOVA model adjusting for treatment, baseline BMD value, sex, machine type, and baseline BMD value-by-machine type interaction."||3.9|2.0|< 0.001
92197177|NCT01575873|184293370|SUPERIORITY||LS Mean Difference|2.2|||<|0.001|TWO_SIDED|95.0|1.4|3.0||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-continuing subpopulation was analyzed using an ANCOVA model adjusted for treatment, baseline BMD, sex, machine type, baseline BMD-by-machine type interaction, and duration of prior glucocorticoid use (\< 12 months vs ≥ 12 months)."||3.0|1.4|< 0.001
92197178|NCT01575873|184293371|SUPERIORITY||LS Mean Difference|1.5|||<|0.001|TWO_SIDED|95.0|0.8|2.1||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-initiating subpopulation was analyzed using an ANCOVA model adjusting for treatment, baseline BMD value, sex, machine type, and baseline BMD value-by-machine type interaction."||2.1|0.8|< 0.001
92197179|NCT01575873|184293371|SUPERIORITY||LS Mean Difference|1.5|||<|0.001|TWO_SIDED|95.0|1.0|2.1||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-continuing subpopulation was analyzed using an ANCOVA model adjusted for treatment, baseline BMD, sex, machine type, baseline BMD-by-machine type interaction, and duration of prior glucocorticoid use (\< 12 months vs ≥ 12 months)."||2.1|1.0|< 0.001
92197180|NCT01575873|184293372|SUPERIORITY||LS Mean Difference|4.5|||<|0.001|TWO_SIDED|95.0|3.2|5.8||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-initiating subpopulation was analyzed using an ANCOVA model adjusting for treatment, baseline BMD value, sex, machine type, and baseline BMD value-by-machine type interaction."||5.8|3.2|< 0.001
92197181|NCT01575873|184293372|SUPERIORITY||LS Mean Difference|3.2|||<|0.001|TWO_SIDED|95.0|2.0|4.3||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-continuing subpopulation was analyzed using an ANCOVA model adjusted for treatment, baseline BMD, sex, machine type, baseline BMD-by-machine type interaction, and duration of prior glucocorticoid use (\< 12 months vs ≥ 12 months)."||4.3|2.0|< 0.001
92197182|NCT01575873|184293373|SUPERIORITY||LS Mean Difference|3.1|||<|0.001|TWO_SIDED|95.0|2.2|3.9||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-initiating subpopulation was analyzed using an ANCOVA model adjusting for treatment, baseline BMD value, sex, machine type, and baseline BMD value-by-machine type interaction."||3.9|2.2|< 0.001
92197183|NCT01575873|184293373|SUPERIORITY||LS Mean Difference|2.5|||<|0.001|TWO_SIDED|95.0|1.7|3.2||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-continuing subpopulation was analyzed using an ANCOVA model adjusted for treatment, baseline BMD, sex, machine type, baseline BMD-by-machine type interaction, and duration of prior glucocorticoid use (\< 12 months vs ≥ 12 months)."||3.2|1.7|< 0.001
92197184|NCT03698019|184293398|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.004|TWO_SIDED||||||Log Rank|||||||0.004
92197185|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|0.99|||||TWO_SIDED|95.0|0.65|1.52||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 1||1.52|0.65|
92197186|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 50|2.11|||||TWO_SIDED|95.0|1.5|2.98||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 50||2.98|1.5|
92197187|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 1|0.68|||||TWO_SIDED|95.0|0.43|1.06||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 1||1.06|0.43|
92197188|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 50|0.71|||||TWO_SIDED|95.0|0.58|0.87||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 50||0.87|0.58|
92197189|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|1.0|||||TWO_SIDED|95.0|0.92|1.08||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 1||1.08|0.92|
92197190|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 50|0.78|||||TWO_SIDED|95.0|0.6|1.01||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 50||1.01|0.6|
92197191|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|1.27|||||TWO_SIDED|95.0|0.83|1.96||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 1||1.96|0.83|
92197192|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 50|1.6|||||TWO_SIDED|95.0|1.13|2.28||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 50||2.28|1.13|
92321465|NCT04075682|184548224|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|2.02|STANDARD_ERROR_OF_MEAN|1.02||0.05|TWO_SIDED|95.0|0.02|4.01||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||4.01|0.02|0.05
92197193|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|0.52|||||TWO_SIDED|95.0|0.33|0.81||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 1||0.81|0.33|
92197194|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 50|0.64|||||TWO_SIDED|95.0|0.52|0.78||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 50||0.78|0.52|
92197195|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 1|0.96|||||TWO_SIDED|95.0|0.89|1.04||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 1||1.04|0.89|
92197196|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 50|0.64|||||TWO_SIDED|95.0|0.49|0.84||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 50||0.84|0.49|
92197197|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|1.02|||||TWO_SIDED|95.0|0.66|1.58||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 1||1.58|0.66|
92197198|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 50|1.62|||||TWO_SIDED|95.0|1.14|2.3||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 50||2.3|1.14|
92197199|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|0.74|||||TWO_SIDED|95.0|0.47|1.17||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 1||1.17|0.47|
92197200|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 50|0.46|||||TWO_SIDED|95.0|0.38|0.57||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 50||0.57|0.38|
92197201|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|0.94|||||TWO_SIDED|95.0|0.87|1.02||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 1||1.02|0.87|
92197202|NCT02035696|184293415|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 50|0.57|||||TWO_SIDED|95.0|0.44|0.75||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 50||0.75|0.44|
92197203|NCT02035696|184293416|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|10.0|||||TWO_SIDED|95.0|0.0|18.9||||||Non-inferiority of immune responses of TIVc-High Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H1N1||18.9|0|
92197204|NCT02035696|184293416|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|2.0|||||TWO_SIDED|95.0|-4.0|8.0||||||Non-inferiority of immune responses of TIVc-High Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H3N2||8|-4|
92197205|NCT02035696|184293416|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group differences|-11.0|||||TWO_SIDED|95.0|-21.1|-1.5||||||Non-inferiority of immune responses of TIVc-High Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain B||-1.5|-21.1|
92197206|NCT02035696|184293416|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|7.0|||||TWO_SIDED|95.0|-2.5|16.8||||||Non-inferiority of immune responses of TIVc-Full Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H1N1||16.8|-2.5|
92197207|NCT02035696|184293416|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group differences|-3.0|||||TWO_SIDED|95.0|-9.5|4.1||||||Non-inferiority of immune responses of TIVc-Full Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H3N2||4.1|-9.5|
92197208|NCT02035696|184293416|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|-11.0|||||TWO_SIDED|95.0|-20.5|-1.0||||||Non-inferiority of immune responses of TIVc-Full Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain B||-1|-20.5|
92197209|NCT02035696|184293416|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|6.0|||||TWO_SIDED|95.0|-4.2|15.4||||||Non-inferiority of immune responses of TIVc- Half Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H1N1||15.4|-4.2|
92197210|NCT02035696|184293416|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|-6.0|||||TWO_SIDED|95.0|-13.4|1.3||||||Non-inferiority of immune responses of TIVc- Half Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H3N2||1.3|-13.4|
92197211|NCT02035696|184293416|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|-18.0|||||TWO_SIDED|95.0|-27.8|-7.2||||||Non-inferiority of immune responses of TIVc- Half Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain B||-7.2|-27.8|
92197212|NCT02035696|184293417|SUPERIORITY_OR_OTHER||Desirability Index Score|0.0|||||TWO_SIDED||||||||Desirability Score: If this difference is negative, then it is defined as non-desirable (D equal to 0), while if the difference is positive, then D will equal to the relative reduction calculated in the following way: D = (TIVe - TIVc Dose )/TIVe.|||||
92268630|NCT03743571|184439066|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.17||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 1.98, p = .17.||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.17
92197213|NCT02035696|184293417|SUPERIORITY_OR_OTHER||Desirability Index Score|0.0|||||TWO_SIDED||||||||Desirability Score: If this difference is negative, then it is defined as non-desirable (D equal to 0), while if the difference is positive, then D will equal to the relative reduction calculated in the following way: D = (TIVe - TIVc Dose )/TIVe.|||||
92197214|NCT02035696|184293417|SUPERIORITY_OR_OTHER||Desirability Index Score|0.0|||||TWO_SIDED||||||||Desirability Score: If this difference is negative, then it is defined as non-desirable (D equal to 0), while if the difference is positive, then D will equal to the relative reduction calculated in the following way: D = (TIVe - TIVc Dose )/TIVe.|||||
92197215|NCT00379769|184293427|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 1.2 for the upper limit of the 95 percent confidence interval in time to event analysis comparing RSG to MET/SU stratified by background medication|Hazard Ratio (HR)|0.99||||||95.0|0.85|1.16||||||||1.16|0.85|
92197216|NCT00379769|184293451|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||||95.0|0.68|1.08||||||||1.08|0.68|
92197217|NCT00379769|184293452|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||||95.0|0.78|1.17||||||||1.17|0.78|
92197218|NCT00379769|184293453|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||||95.0|0.79|1.18||||||||1.18|0.79|
92197219|NCT00379769|184293454|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||||95.0|0.68|1.21||||||||1.21|0.68|
92197220|NCT00379769|184293455|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||||95.0|0.68|1.21||||||||1.21|0.68|
92197221|NCT00379769|184293456|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||||95.0|0.8|1.59||||||||1.59|0.80|
92197222|NCT00379769|184293457|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||||95.0|0.82|1.62||||||||1.62|0.82|
92197223|NCT00379769|184293458|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||||95.0|0.54|1.14||||||||1.14|0.54|
92197224|NCT00379769|184293459|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||||95.0|0.57|1.18||||||||1.18|0.57|
92197225|NCT00667459|184293491|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority margin is 0.1.|Risk Difference (RD)|0.032||||0.995|TWO_SIDED|95.0|-0.07|0.134||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P(p1 - p0 \> -d \| data) be at least 0.95, then the null noninferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.134|-0.070|0.995
92197226|NCT00667459|184293491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.736||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated. If the posterior probability is at least 0.95, a claim of superiority can be made.||||0.736
92197227|NCT00667459|184293492|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.048||||1|TWO_SIDED|95.0|-0.02|0.118||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the success rates of NDI in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P(p1 - p0 \> -d \| data) be at least 0.95, then the null noninferiority hypothesis will be rejected, and non-inferiority of the investigational group will be claimed for this endpoint."||0.118|-0.020|1.0
92197228|NCT00667459|184293492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.912||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.912
92197229|NCT00667459|184293493|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.099||||1|TWO_SIDED|95.0|0.038|0.161||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.161|0.038|1.0
92197230|NCT00667459|184293493|SUPERIORITY_OR_OTHER_LEGACY|||||||0.999||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.999
92268631|NCT03743571|184439067|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham).||||||0.67||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,26) = 0.19, p = .67||We used a null hypothesis significance testing approach in our analyses. For performance on the questionnaires, we completed 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham) and time (within subjects variable; baseline vs follow-up) on outcome measures.||||.67
92197231|NCT00667459|184293494|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.034||||0.992|TWO_SIDED|95.0|-0.085|0.021||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.021|-0.085|0.992
92197232|NCT00667459|184293494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.097||||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.097
92197233|NCT00667459|184293495|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.01||||1|TWO_SIDED|95.0|-0.043|0.023||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.023|-0.043|1.0
92197234|NCT00667459|184293495|SUPERIORITY_OR_OTHER_LEGACY|||||||0.273||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.273
92197235|NCT00667459|184293496|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.019||||1|TWO_SIDED|95.0|-0.018|0.058||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.058|-0.018|1.0
92197236|NCT00667459|184293496|SUPERIORITY_OR_OTHER_LEGACY|||||||0.845||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.845
92197237|NCT00667459|184293497|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.047||||0.936|TWO_SIDED|95.0|-0.113|0.021||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.021|-0.113|0.936
92197238|NCT00667459|184293498|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.105||||1|TWO_SIDED|95.0|0.02|0.19||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.190|0.020|1.0
92197239|NCT00667459|184293498|SUPERIORITY_OR_OTHER_LEGACY|||||||0.992||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.992
92197240|NCT00667459|184293500|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|||Superiority comparison of the operative time in two treatment groups was assessed.||||0.013
92321466|NCT04075682|184548224|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.91|STANDARD_ERROR_OF_MEAN|1.49||0.54|TWO_SIDED|95.0|-3.84|2.02||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.02|-3.84|0.54
92321467|NCT04075682|184548224|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|2.02|STANDARD_ERROR_OF_MEAN|1.61||0.21|TWO_SIDED|95.0|-1.13|5.17||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||5.17|-1.13|0.21
92321468|NCT04075682|184548224|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-1.07|STANDARD_ERROR_OF_MEAN|1.48||0.47|TWO_SIDED|95.0|-3.97|1.83||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.83|-3.97|0.47
92321469|NCT04075682|184548225|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.49||0.57|TWO_SIDED|95.0|-0.68|1.24||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.24|-0.68|0.57
92321470|NCT04075682|184548225|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-1.25|STANDARD_ERROR_OF_MEAN|0.71||0.08|TWO_SIDED|95.0|-2.63|0.14||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.14|-2.63|0.08
92197241|NCT00667459|184293501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.769||||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|||Superiority comparison of the blood loss in two treatment groups was assessed.||||0.769
92197242|NCT00667459|184293502|SUPERIORITY_OR_OTHER_LEGACY|||||||0.273||||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|||Superiority comparison of the hospital stay in two treatment groups was assessed.||||0.273
92197243|NCT04546217|184293515|SUPERIORITY|Since this is a descriptive analysis, no power calculation was conducted.||||||||||||||||Considering the small sample size, a descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits.|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
92197244|NCT04546217|184293516|OTHER|Since this is a descriptive analysis, no power calculation was conducted.||||||||||||||||Considering the small sample size, a descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits.|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessment visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
92197245|NCT04546217|184293517|OTHER|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits.||||||||||||||||Considering the small sample size, a descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits.|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessment visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
92321471|NCT04075682|184548225|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.7||0.39|TWO_SIDED|95.0|-1.97|0.77||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment, comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||0.77|-1.97|0.39
92321472|NCT04075682|184548225|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|1.0||0.61|TWO_SIDED|95.0|-1.45|2.47||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||2.47|-1.45|0.61
92321473|NCT04075682|184548225|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|1.07||0.9|TWO_SIDED|95.0|-2.23|1.97||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.97|-2.23|0.90
92321474|NCT04075682|184548225|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|2.05|STANDARD_ERROR_OF_MEAN|0.98||0.04|TWO_SIDED|95.0|0.13|3.97||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||3.97|0.13|0.04
92321475|NCT04075682|184548225|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.67|STANDARD_ERROR_OF_MEAN|1.43||0.64|TWO_SIDED|95.0|-2.14|3.48||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||3.48|-2.14|0.64
92321476|NCT04075682|184548225|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|1.56||0.92|TWO_SIDED|95.0|-2.91|3.2||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||3.20|-2.91|0.92
92321477|NCT04075682|184548225|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-2.25|STANDARD_ERROR_OF_MEAN|1.41||0.11|TWO_SIDED|95.0|-5.02|0.52||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||0.52|-5.02|0.11
92321478|NCT04075682|184548226|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.59||0.57|TWO_SIDED|95.0|-1.48|0.82||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.82|-1.48|0.57
92321479|NCT04075682|184548226|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.97|STANDARD_ERROR_OF_MEAN|1.14||0.39|TWO_SIDED|95.0|-3.22|1.27||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial warnings (averaged over insert) vs no pictorial warnings (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4)||1.27|-3.22|0.39
92321480|NCT04075682|184548226|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|1.63||0.92|TWO_SIDED|95.0|-3.35|3.04||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||3.04|-3.35|0.92
92321481|NCT04075682|184548227|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.48||0.4|TWO_SIDED|95.0|-1.33|0.53||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.53|-1.33|0.40
92321482|NCT04075682|184548227|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.94||0.99|TWO_SIDED|95.0|-1.83|1.86||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial health warning labels (HWLs) (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||1.86|-1.83|0.99
92321483|NCT04075682|184548227|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.85|STANDARD_ERROR_OF_MEAN|1.34||0.17|TWO_SIDED|95.0|-0.78|4.48||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||4.48|-0.78|0.17
92197246|NCT04546217|184293518|OTHER|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits. Changes in scores post-treatment vs. pre-treatment, and 3 and 6-month follow up vs. post-treatment were calculated.|||||||||||||||||A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessment visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
92197247|NCT04546217|184293519|OTHER|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits. Changes in scores post-treatment vs. pre-treatment, and 3 and 6-month follow up vs. post-treatment were calculated.|||||||||||||||||A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessment visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
92197248|NCT04546217|184293520|OTHER|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits. Changes in scores post-treatment vs. pre-treatment, and 3 and 6-month follow up vs. post-treatment were calculated.|||||||||||||||||A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessment visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
92197249|NCT04328623|184293564|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92197250|NCT02312557|184293565|OTHER||Proportion|0.19|||<|0.01|TWO_SIDED|95.0|0.09|0.29|||One-sample binomial test of proportion|||||0.29|0.09|<0.01
92197251|NCT02330094|184293596|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
92197252|NCT02330094|184293597|SUPERIORITY|||||||0.79|||||||ANOVA|||||||0.79
92197253|NCT02330094|184293598|SUPERIORITY|||||||0.66|||||||ANOVA|||||||0.66
92197254|NCT04486313|184293599|SUPERIORITY|||||||0.8786|||||||Gehan-Wilcoxon Test|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.8786
92197255|NCT04486313|184293600|SUPERIORITY|||||||0.074||||||Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness|Cochran-Mantel-Haenszel|||||||0.0740
92197256|NCT04486313|184293601|SUPERIORITY|||||||0.4479|||||||Cochran-Mantel-Haenszel|||Comparison of proportion positive for SARS-CoV-2 at Day 4||||0.4479
92197257|NCT04486313|184293601|SUPERIORITY|||||||0.2814|||||||Cochran-Mantel-Haenszel|||Comparison of proportion positive for SARS-CoV-2 at Day 10||||0.2814
92197258|NCT04486313|184293602|SUPERIORITY|||||||0.0665|||||||t-test, 2 sided|||Comparison of change from Baseline to Day 4||||0.0665
92197259|NCT04486313|184293602|SUPERIORITY|||||||0.4974|||||||t-test, 2 sided|||Comparison of change from Baseline to Day 10||||0.4974
92197260|NCT04486313|184293603|SUPERIORITY|||||||0.1771|||||||Cochran-Mantel-Haenszel|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.1771
92197261|NCT04486313|184293604|SUPERIORITY|||||||0.2399|||||||Cochran-Mantel-Haenszel|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.2399
92197262|NCT04486313|184293605|SUPERIORITY|||||||0.09|||||||Gehan-Wilcoxon Test|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.09
92197263|NCT04486313|184293606|SUPERIORITY|||||||0.0077|||||||Gehan-Wilcoxon Test|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.0077
92197264|NCT04486313|184293607|SUPERIORITY|||||||0.05|||||||Cochran-Mantel-Haenszel|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.05
92197265|NCT04486313|184293608|SUPERIORITY|||||||0.05|||||||Cochran-Mantel-Haenszel|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.05
92197266|NCT04486313|184293609|SUPERIORITY|||||||0.08|||||||Cochran-Mantel-Haenszel|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.08
92197267|NCT02980523|184293618|NON_INFERIORITY_OR_EQUIVALENCE|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.002|||||||Chi-squared|||||||0.002
92197268|NCT02980523|184293619|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.372|||||||Chi-squared, Corrected|||||||0.372
92197269|NCT02980523|184293620|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.341|||||||Chi-squared, Corrected|||||||0.341
92197270|NCT02980523|184293621|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.001|||||||Chi-squared, Corrected|||||||0.001
92197271|NCT02980523|184293622|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.003|||||||Chi-squared, Corrected|||||||0.003
92197272|NCT02980523|184293623|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.216|||||||Chi-squared, Corrected|||||||0.216
92197273|NCT02980523|184293624|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.829|||||||Chi-squared, Corrected|||||||0.829
92197274|NCT00513747|184293661|SUPERIORITY|||||||0.1521|||||||Log Rank|||||||0.1521
92197275|NCT00513747|184293662|SUPERIORITY|||||||0.0097|||||||Log Rank|||||||0.0097
92197276|NCT00513747|184293663|SUPERIORITY|||||||0.4645|||||||Log Rank|||||||0.4645
92321484|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|0.58||0.45|TWO_SIDED|95.0|-0.69|1.57||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.57|-0.69|0.45
92321485|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.58||0.41|TWO_SIDED|95.0|-1.61|0.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.66|-1.61|0.41
92321486|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-1.44|STANDARD_ERROR_OF_MEAN|0.84||0.08|TWO_SIDED|95.0|-3.08|0.2||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.20|-3.08|0.08
92321487|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.82||0.52|TWO_SIDED|95.0|-2.14|1.09||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.09|-2.14|0.52
92321488|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|1.11||0.75|TWO_SIDED|95.0|-1.82|2.51||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||2.51|-1.82|0.75
92321489|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|1.57||0.64|TWO_SIDED|95.0|-3.82|2.33||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||2.33|-3.82|0.64
92321490|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|1.18||0.91|TWO_SIDED|95.0|-2.17|2.45||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||2.45|-2.17|0.91
92321491|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.84|STANDARD_ERROR_OF_MEAN|1.25||0.5|TWO_SIDED|95.0|-3.29|1.6||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.60|-3.29|0.50
92321492|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|3.14|STANDARD_ERROR_OF_MEAN|1.16||0.007|TWO_SIDED|95.0|0.86|5.41||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||5.41|0.86|0.007
92321493|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.09|STANDARD_ERROR_OF_MEAN|1.69||0.52|TWO_SIDED|95.0|-2.22|4.4||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||4.40|-2.22|0.52
92321494|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|1.82||0.86|TWO_SIDED|95.0|-3.89|3.23||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||3.23|-3.89|0.86
92321495|NCT04075682|184548228|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.86|STANDARD_ERROR_OF_MEAN|1.68||0.61|TWO_SIDED|95.0|-4.15|2.43||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.43|-4.15|0.61
92321496|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.26|STANDARD_ERROR_OF_MEAN|0.28||0.29|TWO_SIDED|95.0|0.82|1.96||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.96|0.82|0.29
92321497|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.19|STANDARD_ERROR_OF_MEAN|0.27||0.43|TWO_SIDED|95.0|0.77|1.85||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||1.85|0.77|0.43
92321498|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.18|STANDARD_ERROR_OF_MEAN|0.37||0.6|TWO_SIDED|95.0|0.63|2.2||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||2.20|0.63|0.60
92321499|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.25|STANDARD_ERROR_OF_MEAN|0.4||0.48|TWO_SIDED|95.0|0.67|2.33||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||2.33|0.67|0.48
92321500|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.8|STANDARD_ERROR_OF_MEAN|0.36||0.62|TWO_SIDED|95.0|0.34|1.91||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||1.91|0.34|0.62
92321501|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|3.04|STANDARD_ERROR_OF_MEAN|1.93||0.079|TWO_SIDED|95.0|0.88|10.52||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||10.52|0.88|0.079
92321502|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.1|STANDARD_ERROR_OF_MEAN|0.95||0.1|TWO_SIDED|95.0|0.87|5.12||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||5.12|0.87|0.10
92197277|NCT00855413|184293707|OTHER|one sided ANOVA.|Mean Difference (Final Values)|4.23|STANDARD_DEVIATION|0.15||0.03|TWO_SIDED|||||The degrees of freedom (df) for the within factor (number of visits - 1) was 2, and the second df is the error df of 17.|ANOVA|||An overall summary score of neurocognitive functioning was created by averaging all tests. Best available demographically corrected normative data were utilized to create z scores and then deficit scores for impairment ratings.Change in neurocognitive functioning was analyzed using a one sided repeated measures ANOVA with neurocognitive performance as the dependent variable (total z score) and time (visit) as the independent variable. Degrees of freedom were 2,17.||||0.03
92197278|NCT00855413|184293709|OTHER|Spearman correlation|spearman correlation|-0.82|||<|0.005|TWO_SIDED|||||R = -0.82|Spearman correlation|||Correlation between time (days) to HIV RNA suppression \<200 copies/mL and total z score (mean) was assessed by Spearman correlation|Correlation between time (days) to HIV RNA suppression \<200 copies/mL and total z score (mean) was assessed by Spearman correlation|||<.005
92197279|NCT01536197|184293725|SUPERIORITY_OR_OTHER|||||||0.19|||||||ANOVA|Two-way ANOVAs with group (gastric bypass and lap banding) as the between-subjects factor and time (before after surgery).||||||0.19
92197280|NCT01999777|184293727|SUPERIORITY|||||||0.1972|||||||Wald asymptotic|P-value based on a standard Wald asymptotic test for equality without a continuity correction.||Assumptions included that the proportion of seizures occurring within 6 hours after placebo administration was \~65% and a relative reduction of 50% would result in a reduction of ≥ 32.5 percentage points. Based on a 2-sided 95% confidence interval (CI) for the differences in proportions, a sample size of 62 analyzable subjects was chosen to detect a 0.35 difference between group. Sample size estimations were based on nQuery Version 7.0 using the table for CIs for differences in 2 proportions.||||0.1972
92197281|NCT01999777|184293728|SUPERIORITY|||||||0.1388|||||||Log Rank|||||||0.1388
92197282|NCT03735121|184293752|NON_INFERIORITY|The null hypothesis that atezolizumab SC is inferior to atezolizumab IV is rejected if the lower bound of the 2-sided 90% confidence interval \[CI\] of the geometric mean ratio is greater than or equal to (≥) the non-inferiority margin 0.8.|Geometric mean ratio|1.05|||||TWO_SIDED|90.0|0.88|1.24||||||||1.24|0.88|
92197283|NCT03735121|184293753|NON_INFERIORITY|The null hypothesis that atezolizumab SC is inferior to atezolizumab IV is rejected if the lower bound of the 2-sided 90% CI of the geometric mean ratio is ≥ the non-inferiority margin 0.8.|Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.83|0.92||||||||0.92|0.83|
92197284|NCT03735121|184293763|SUPERIORITY||Difference in ORR|0.54||||0.8757|TWO_SIDED|95.0|-6.56|7.63|||Cochran-Mantel-Haenszel|||||7.63|-6.56|0.8757
92197285|NCT03735121|184293764|SUPERIORITY||Odds Ratio (OR)|1.05||||0.6906|TWO_SIDED|95.0|0.83|1.33|||Log Rank|||||1.33|0.83|0.6906
92197286|NCT03735121|184293765|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9766|TWO_SIDED|95.0|0.78|1.27|||Log Rank|||||1.27|0.78|0.9766
92197287|NCT03735121|184293766|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.8375|TWO_SIDED|95.0|0.34|2.42|||Log Rank|||||2.42|0.34|0.8375
92197288|NCT02176863|184293780|SUPERIORITY|||||||0.0469||||||The overall adjusted p-value for the selected dose of Flebogamma® 5% DIF vs placebo was calculated from the p-values of both Stage 1 and Stage 2 by Posch \& Bauer for testing the equality of means between the selected dose and placebo.|Posch and Bauer Method|||||||0.0469
92197289|NCT02176863|184293781|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|3.65||0.8897|TWO_SIDED|95.0|-7.7|6.7||MMRM include change from baseline in VAS as dependent variable;treatment,protocol-specified visit,treatment-by-visit interaction,main part affected(fixed effect);baseline as covariate \& measures within-participants at each visit(repeated measure).|Mixed-effect Model Repeated Measures|||||6.7|-7.7|0.8897
92197290|NCT02176863|184293782|SUPERIORITY||LS Mean Difference|1.98|STANDARD_ERROR_OF_MEAN|1.41||0.1615|TWO_SIDED|95.0|-0.8|4.8||MMRM include change from baseline in SF-36PCS as dependent variable;treatment protocol-specified visit,treatment-by-visit interaction,main part affected(fixed effect);baseline measure as covariate \& within-participant at each visit(repeated measure).|Mixed-effect Model Repeated Measures|||||4.8|-0.8|0.1615
92197291|NCT02176863|184293783|SUPERIORITY||LS Mean Difference|15.8|STANDARD_ERROR_OF_MEAN|10.112||0.1205|TWO_SIDED|95.0|-4.19|35.79||MMRM include change from baseline in 6MWD as dependent variable;treatment,protocol-specified visit,treatment-by-visit interaction,main part affected(fixed effect);baseline as covariate \& measures within-participants at each visit(repeated measure).|Mixed-effect Model Repeated Measures|||||35.79|-4.19|0.1205
92197292|NCT02647645|184293784|SUPERIORITY|Power calculation was based on similar studies of cognitive training with transcranial direct current stimulation (tDCS).||||||0.02||||||Probability associated with the test of the interaction between participants' performance and session number in repeated measures analysis of covariance. In light of small sample size, estimated effect size was also calculated (d = 1.78).|ANCOVA|Test was adjusted for age, gender, race, education, CD4 count, and log viral load.||Analysis results are overall estimated marginal means from repeated measures analysis of covariance with treatment group as a fixed factor and age, gender, race, education, cluster of differentiation (CD4) cell count, and log viral load as covariates.||||0.02
92197293|NCT02647645|184293785|SUPERIORITY|Power calculation was based on similar studies of cognitive training with transcranial direct current stimulation (tDCS).||||||0.34||||||Probability associated with the test of the interaction between participants' performance and session number in repeated measures analysis of covariance. In light of small sample size, estimated effect size was also calculated (d = .71).|ANCOVA|Test was adjusted for age, gender, race, education, CD4 count, and log viral load.||Results are overall estimated marginal means from repeated measures analysis of covariance with treatment group as a fixed factor and age, gender, race, education, CD4 count, and log viral load as covariates.||||0.34
92197294|NCT02647645|184293786|SUPERIORITY|Power calculation was based on the investigators' estimate of the impact of cognitive training with transcranial direct current stimulation (tDCS) on subjective cognitive problems, as similar studies were not available to develop effect size estimates.||||||0.33||||||Probability associated with the test of the interaction between participants' performance and session number in repeated measures analysis of covariance. In light of small sample size, estimated effect size was also calculated (d = .63).|ANCOVA|Test was adjusted for age, gender, race, education, CD4 count, and log viral load.||Results are overall estimated marginal means from repeated measures analysis of covariance with treatment group as a fixed factor and age, gender, race, education, CD4 count, and log viral load as covariates.||||0.33
92197295|NCT02037256|184293788|OTHER||percentage|0.24|||||TWO_SIDED|95.0|0.07|0.5||||||Median time to engraftment||0.50|0.07|
92197296|NCT01527162|184293789|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
92197297|NCT01527162|184293790|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.14|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||= 0.14
92197298|NCT01527162|184293791|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.54|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon Sign Rank TEst||||>.54
92197299|NCT01527162|184293791|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||= 0.20
92197300|NCT04599907|184293801|SUPERIORITY||||||<|0.05|||||||Cochran-Mantel-Haenszel|||||||<0.05
92197301|NCT04599907|184293802|SUPERIORITY||Mean Difference (Final Values)|-0.91|||<|0.05|TWO_SIDED|95.0|-1.42|-0.04|||Mixed Models Analysis|||"This is the data for the Level of Botherstatistical analysis"||-0.040|-1.42|<0.05
92197302|NCT04599907|184293802|SUPERIORITY||Mean Difference (Final Values)|-0.87|||<|0.05|TWO_SIDED|95.0|-1.35|-0.4|||Mixed Models Analysis|||"This is the data for the Level of Impact on Daily Activities Statistical Analysis"||-0.40|-1.35|<0.05
92197303|NCT01310699|184293825|SUPERIORITY|||||||0.21|||||||Chi-squared|||||||0.21
92197304|NCT01310699|184293826|SUPERIORITY|||||||0.18|||||||Chi-squared|||||||0.18
92197305|NCT02272244|184293892|SUPERIORITY||Odds Ratio (OR)|4.83|||<|0.001|TWO_SIDED|95.0|3.08|7.58|||Regression, Logistic|Model adjusted for age, sex, practice, baseline preferred test and baseline overall decision stage||||7.58|3.08|<0.001
92197306|NCT02272244|184293893|SUPERIORITY||Odds Ratio (OR)|4.91|||<|0.001|TWO_SIDED|95.0|2.55|9.47|||Regression, Logistic|Model compares Forward Change to No Change or Backwards Change and is adjusted for all baseline covariates.||||9.47|2.55|<0.001
92197307|NCT02272244|184293894|SUPERIORITY||||||<|0.001|||||||Regression, Multinomial|Model compared rates of SBT, CX and none; model is adjusted for age, sex, practice, baseline preferred test and baseline overall decision stage|||Reference for the outcome is No Screening; reference for the study group is the Standard Intervention group.|||<0.001
92197308|NCT02272244|184293894|SUPERIORITY||Odds Ratio (OR)|4.2||||0.001|TWO_SIDED|95.0|2.63|6.7|||Odds Ratio (OR)|Stool Blood Test vs None||||6.70|2.63|0.001
92197309|NCT02272244|184293894|SUPERIORITY|Colonscopy vs None|Odds Ratio (OR)|8.79||||0.001|TWO_SIDED|95.0|4.13|18.74|||Odds Ratio (OR)|||||18.74|4.13|0.001
92197310|NCT02272244|184293895|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.862|TWO_SIDED|95.0|-0.15|0.13|||Regression, Linear|Model of difference in Preventive Health Model (PHM) total score adjusts for all baseline covariates.|Model compares DSNI to SI.|||0.13|-0.15|0.862
92321503|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.38|STANDARD_ERROR_OF_MEAN|0.68||0.52|TWO_SIDED|95.0|0.52|3.61||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||3.61|0.52|0.52
92321504|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.32|STANDARD_ERROR_OF_MEAN|0.59||0.54|TWO_SIDED|95.0|0.55|3.17||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||3.17|0.55|0.54
92321505|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.88|STANDARD_ERROR_OF_MEAN|1.21||0.33|TWO_SIDED|95.0|0.53|6.61||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||6.61|0.53|0.33
92321506|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.53|STANDARD_ERROR_OF_MEAN|1.08||0.55|TWO_SIDED|95.0|0.38|6.11||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||6.11|0.38|0.55
92321507|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.61|STANDARD_ERROR_OF_MEAN|0.39||0.44|TWO_SIDED|95.0|0.18|2.14||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.14|0.18|0.44
92321508|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.29|STANDARD_ERROR_OF_MEAN|0.28||0.251|TWO_SIDED|95.0|0.84|1.98||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the multiple imputation models for pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.98|0.84|0.2510
92321509|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.27|STANDARD_ERROR_OF_MEAN|0.28||0.2822|TWO_SIDED|95.0|0.82|1.95||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the multiple imputation model for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||1.95|0.82|0.2822
92197311|NCT02272244|184293895|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.88|TWO_SIDED|95.0|-0.47|0.55|||Regression, Linear|Model of knowledge test score adjusts for all baseline covariates|Model compares DSNI to SI.|||.55|-.47|0.880
92197312|NCT03670277|184293896|OTHER|Statistically significance of difference. Statistical difference will be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|-0.013|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.081|0.056|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|This was a pilot study for assessing the investigational test articles. As such, the sample size was not determined based on any power analysis with regard to the primary endpoint.||0.056|-0.081|
92197313|NCT03670277|184293897|OTHER|Statistically significance of difference. Statistical difference will be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|0.031|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.037|0.1|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|This was a pilot study for assessing the investigational test articles. As such, the sample size was not determined based on any power analysis with regard to the primary endpoint.||0.100|-0.037|
92321510|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.34|STANDARD_ERROR_OF_MEAN|0.42||0.3558|TWO_SIDED|95.0|0.72|2.47||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for multiple imputation models for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||2.47|0.72|0.3558
92321511|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.36|STANDARD_ERROR_OF_MEAN|0.43||0.3291|TWO_SIDED|95.0|0.73|2.51||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the multiple imputation model for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||2.51|0.73|0.3291
92321512|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.89|STANDARD_ERROR_OF_MEAN|0.39||0.7818|TWO_SIDED|95.0|0.38|2.09||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||2.09|0.38|0.7818
92321513|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.87|STANDARD_ERROR_OF_MEAN|1.79||0.0912|TWO_SIDED|95.0|0.84|9.73||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||9.73|0.84|0.0912
92321514|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.94|STANDARD_ERROR_OF_MEAN|0.87||0.1361|TWO_SIDED|95.0|0.81|4.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||4.66|0.81|0.1361
92197314|NCT03670277|184293898|OTHER|Statistically significance of difference. Statistical difference would be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|3.403|STANDARD_ERROR_OF_MEAN|0.431|||TWO_SIDED|95.0|2.557|4.248|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|At -30°||4.248|2.557|
92321515|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.19|STANDARD_ERROR_OF_MEAN|0.58||0.72|TWO_SIDED|95.0|0.46|3.07||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||3.07|0.46|0.7200
92321516|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.48|STANDARD_ERROR_OF_MEAN|0.66||0.3737|TWO_SIDED|95.0|0.62|3.53||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||3.53|0.62|0.3737
92321517|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.58|STANDARD_ERROR_OF_MEAN|1.63||0.1345|TWO_SIDED|95.0|0.75|8.9||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||8.90|0.75|0.1345
92321518|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.96|STANDARD_ERROR_OF_MEAN|1.36||0.3318|TWO_SIDED|95.0|0.5|7.67||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||7.67|0.50|0.3318
92321519|NCT04075682|184548229|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.79|STANDARD_ERROR_OF_MEAN|0.49||0.7017|TWO_SIDED|95.0|0.23|2.7||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.70|0.23|0.7017
92321520|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.47|STANDARD_ERROR_OF_MEAN|0.7||0.001|TWO_SIDED|95.0|1.42|4.31||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||4.31|1.42|0.001
92321521|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.89|STANDARD_ERROR_OF_MEAN|0.54||0.025|TWO_SIDED|95.0|1.09|3.3||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||3.30|1.09|0.025
92197315|NCT03670277|184293898|OTHER|Statistically significance of difference. Statistical difference would be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|2.431|STANDARD_ERROR_OF_MEAN|0.431|||TWO_SIDED|95.0|1.585|3.277|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|At +30°||3.277|1.585|
92197316|NCT03670277|184293899|OTHER|Statistically significance of difference. Statistical difference would be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|3.039|STANDARD_ERROR_OF_MEAN|0.603|||TWO_SIDED|95.0|1.854|4.225|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test - Control|At -30°||4.225|1.854|
92321522|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.37|STANDARD_ERROR_OF_MEAN|0.56||0.44|TWO_SIDED|95.0|0.62|3.06||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||3.06|0.62|0.44
92321523|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.8|STANDARD_ERROR_OF_MEAN|0.73||0.15|TWO_SIDED|95.0|0.81|3.97||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||3.97|0.81|0.15
92321524|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.19|STANDARD_ERROR_OF_MEAN|0.67||0.76|TWO_SIDED|95.0|0.39|3.58||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||3.58|0.39|0.76
92321525|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.79|STANDARD_ERROR_OF_MEAN|0.63||0.77|TWO_SIDED|95.0|0.16|3.8||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||3.80|0.16|0.77
92321526|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.18|STANDARD_ERROR_OF_MEAN|1.23||0.17|TWO_SIDED|95.0|0.72|6.61||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||6.61|0.72|0.17
92321527|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.46|STANDARD_ERROR_OF_MEAN|0.29||0.22|TWO_SIDED|95.0|0.14|1.57||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.57|0.14|0.22
92197317|NCT03670277|184293899|OTHER|Statistically significance of difference. Statistical difference would be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|1.414|STANDARD_ERROR_OF_MEAN|0.603|||TWO_SIDED|95.0|0.228|2.599|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test - Control|At +30°||2.599|0.228|
92197318|NCT02660112|184293900|SUPERIORITY|||||||0.336|||||||Wilcoxon (Mann-Whitney)|||||||0.336
92197319|NCT03733899|184293915|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-Square Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|4.96|||TWO_SIDED|95.0|-7.3|12.4|||Linear Mixed Model||Difference was calculated as Test - Placebo|5-Mintues Post Treatment||12.4|-7.3|
92197320|NCT03733899|184293915|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-9.6|11.5|||Linear Mixed Model||Difference was calculated as Test - Placebo|10-Minutes Post Treatment||11.5|-9.6|
92197321|NCT03733899|184293915|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-Square Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|4.67|||TWO_SIDED|95.0|-8.2|9.8|||Linear Mixed Model||difference was calculated as Test - Placebo.|5-Minutes Post Treatment||9.8|-8.2|
92197322|NCT03733899|184293915|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|4.67|||TWO_SIDED|95.0|-6.5|12.2|||Linear Mixed Model||Difference was calculated as Test - Placebo.|10-Mintues Post Treatment||12.2|-6.5|
92197323|NCT03733899|184293915|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|4.37|||TWO_SIDED|95.0|-5.7|11.7|||Linear Mixed Model||Difference was calculated as Test - Placebo.|5-Mintues Post Treatment||11.7|-5.7|
92197324|NCT03733899|184293915|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-sqaure Mean Difference|7.7|STANDARD_ERROR_OF_MEAN|4.54|||TWO_SIDED|95.0|-1.4|16.8|||Linear Mixed Model||difference was calculated as Test - Placebo.|10-Mintues Post Treatment||16.8|-1.4|
92197325|NCT03733899|184293916|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-Square Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|6.22|||TWO_SIDED|95.0|-10.3|14.4|||Linear Mixed Model||Difference was calculated as Test - Placebo|5-Mintues Post Treatment||14.4|-10.3|
92197326|NCT03733899|184293916|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|6.3|||TWO_SIDED|95.0|-12.1|12.9|||Linear Mixed Model||Difference was calculated as Test - Placebo|10-Minutes Post Treatment||12.9|-12.1|
92197327|NCT03733899|184293916|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|5.92|||TWO_SIDED|95.0|-11.4|12.1|||Linear Mixed Model||difference was calculated as Test - Placebo.|5-Minutes Post Treatment||12.1|-11.4|
92197328|NCT03733899|184293916|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|5.83|||TWO_SIDED|95.0|-9.2|14.0|||Linear Mixed Model||Difference was calculated as Test - Placebo.|10-Mintues Post Treatment||14.0|-9.2|
92197329|NCT03733899|184293916|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|5.76|||TWO_SIDED|95.0|-8.5|14.3|||Linear Mixed Model||Difference was calculated as Test - Placebo.|5-Mintues Post Treatment||14.3|-8.5|
92197330|NCT03733899|184293916|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-sqaure Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|5.67|||TWO_SIDED|95.0|-3.7|18.8|||Linear Mixed Model||difference was calculated as Test - Placebo.|10-Mintues Post Treatment||18.8|-3.7|
92197331|NCT03733899|184293917|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|4.61|||TWO_SIDED|95.0|-13.2|5.1|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean difference was calculated as (5-min Post-Treatment MINUS Immediate Post-insertion).|5.1|-13.2|
92197332|NCT03733899|184293917|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|4.85|||TWO_SIDED|95.0|-13.9|5.3|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean difference was calculated as (10-min Post-Treatment MINUS Immediate Post-insertion).|5.3|-13.9|
92197333|NCT03733899|184293917|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|4.04|||TWO_SIDED|95.0|-24.4|-8.3|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean difference was calculated as (5-min Post-Treatment MINUS Immediate Post-insertion).|-8.3|-24.4|
92197334|NCT03733899|184293917|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|4.14|||TWO_SIDED|95.0|-17.8|-1.4|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean difference was calculated as (10-min Post-Treatment MINUS Immediate Post-insertion).|-1.4|-17.8|
92197335|NCT03733899|184293917|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-12.3|STANDARD_ERROR_OF_MEAN|4.15|||TWO_SIDED|95.0|-20.6|-4.1|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean difference was calculated as (5-min Post-Treatment MINUS Immediate Post-insertion).|-4.1|-20.6|
92321528|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|3.45|STANDARD_ERROR_OF_MEAN|1.94||0.02|TWO_SIDED|95.0|1.15|10.37||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||10.37|1.15|0.02
92321529|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|5.45|STANDARD_ERROR_OF_MEAN|4.4||0.04|TWO_SIDED|95.0|1.12|26.53||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||26.53|1.12|0.04
92321530|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.59|STANDARD_ERROR_OF_MEAN|0.53||0.56|TWO_SIDED|95.0|0.1|3.47||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||3.47|0.10|0.56
92321531|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.55|STANDARD_ERROR_OF_MEAN|0.44||0.46|TWO_SIDED|95.0|0.11|2.68||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.68|0.11|0.46
92321532|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.58|STANDARD_ERROR_OF_MEAN|0.66||0.0002|TWO_SIDED|95.0|1.56|4.27||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||4.27|1.56|0.0002
92321533|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.89|STANDARD_ERROR_OF_MEAN|0.48||0.0135|TWO_SIDED|95.0|1.14|3.12||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||3.12|1.14|0.0135
92197336|NCT03733899|184293917|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-8.2|STANDARD_ERROR_OF_MEAN|4.25|||TWO_SIDED|95.0|-16.7|0.2|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean difference was calculated as (10-min Post-Treatment MINUS Immediate Post-insertion).|0.2|-16.7|
92197337|NCT03733899|184293918|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|5.07|||TWO_SIDED|95.0|-8.7|11.6|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Lower Lid Margin|11.6|-8.7|
92197338|NCT03733899|184293918|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|8.5|STANDARD_ERROR_OF_MEAN|4.77|||TWO_SIDED|95.0|-1.0|18.0|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Lower Lid Margin|18.0|-1.0|
92197339|NCT03733899|184293918|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|5.12|||TWO_SIDED|95.0|-3.5|17.0|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Upper Lid Margin|17.0|-3.5|
92197340|NCT03733899|184293918|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Mean Difference (Final Values)|11.2|STANDARD_ERROR_OF_MEAN|4.82|||TWO_SIDED|95.0|1.6|20.8|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Upper Lid Margin|20.8|1.6|
92197341|NCT03733899|184293919|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|6.12|||TWO_SIDED|95.0|-11.4|12.9|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Lower Lid Margin: 10-mintues post treatment - Pre Treatment.|12.9|-11.4|
92197342|NCT03733899|184293919|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|7.8|STANDARD_ERROR_OF_MEAN|6.1|||TWO_SIDED|95.0|-4.9|19.9|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Lower Lid Margin: 5-mintues post treatment - Pre Treatment.|19.9|-4.9|
92197343|NCT03733899|184293919|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|6.19|||TWO_SIDED|95.0|-9.3|15.2|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Upper Lid Margin: 10-mintues post treatment - Pre Treatment.|15.2|-9.3|
92197344|NCT03733899|184293919|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Mean Difference (Final Values)|7.4|STANDARD_ERROR_OF_MEAN|6.17|||TWO_SIDED|95.0|-4.9|19.6|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Upper Lid Margin: 5-mintues post treatment - Pre Treatment.|19.6|-4.9|
92197345|NCT03733899|184293920|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|-12.4|STANDARD_ERROR_OF_MEAN|4.22|||TWO_SIDED|95.0|-20.9|-3.9|||Mixed Models Analysis||||mean difference was calculated as postremoval minus pre-insertion with Test and corneal region.|-3.9|-20.9|
92197346|NCT02358668|184293937|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.46||||0.57|TWO_SIDED|95.0|-6.28|11.2||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||11.20|-6.28|0.57
92197347|NCT02358668|184293937|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.57||||0.72|TWO_SIDED|95.0|-10.3|7.11||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||7.11|-10.3|0.72
92197348|NCT02358668|184293938|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25||||0.66|TWO_SIDED|95.0|-0.91|1.42||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.42|-0.91|0.66
92197349|NCT02358668|184293938|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.9|TWO_SIDED|95.0|-1.03|1.18||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.18|-1.03|0.90
92197350|NCT02358668|184293939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.86|TWO_SIDED|95.0|-0.5|0.59||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.59|-0.50|0.86
92197351|NCT02358668|184293939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.59|TWO_SIDED|95.0|-0.66|0.38||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.38|-0.66|0.59
92197352|NCT02358668|184293940|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.62|TWO_SIDED|95.0|-0.44|0.73||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.73|-0.44|0.62
92197353|NCT02358668|184293940|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.97|TWO_SIDED|95.0|-0.52|0.55||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.55|-0.52|0.97
92197354|NCT02358668|184293941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.4|TWO_SIDED|95.0|-0.2|0.51||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.51|-0.20|0.40
92197355|NCT02358668|184293941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.49|TWO_SIDED|95.0|-0.21|0.44||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.44|-0.21|0.49
92197356|NCT02358668|184293942|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.84||||0.41|TWO_SIDED|95.0|-2.88|1.21||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.21|-2.88|0.41
92197357|NCT02358668|184293942|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.34||||0.15|TWO_SIDED|95.0|-3.18|0.51||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.51|-3.18|0.15
92197358|NCT02358668|184293943|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.64|TWO_SIDED|95.0|-0.29|0.18||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.18|-0.29|0.64
92197359|NCT02358668|184293943|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.41|TWO_SIDED|95.0|-0.3|0.12||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.12|-0.30|0.41
92197360|NCT02358668|184293944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.19||||0.46|TWO_SIDED|95.0|-4.43|2.05||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||2.05|-4.43|0.46
92197361|NCT02358668|184293944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.75||||0.24|TWO_SIDED|95.0|-4.72|1.21||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.21|-4.72|0.24
92197362|NCT02358668|184293945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.83|TWO_SIDED|95.0|-0.13|0.1||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.10|-0.13|0.83
92197363|NCT02358668|184293945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.48|TWO_SIDED|95.0|-0.16|0.08||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.08|-0.16|0.48
92197364|NCT02358668|184293946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.14||||0.83|TWO_SIDED|95.0|-9.17|11.45||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||11.45|-9.17|0.83
92197365|NCT02358668|184293946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.92||||0.86|TWO_SIDED|95.0|-11.1|9.27||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||9.27|-11.1|0.86
92197366|NCT02358668|184293947|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.6||||0.75|TWO_SIDED|95.0|-99.6|72.3||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||72.3|-99.6|0.75
92197367|NCT02358668|184293947|SUPERIORITY_OR_OTHER||Mean Difference (Net)|40.0||||0.34|TWO_SIDED|95.0|-43.9|123.9||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||123.9|-43.9|0.34
92197368|NCT02358668|184293948|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-980.0||||0.23|TWO_SIDED|95.0|-2604.0|643.8||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||643.8|-2604|0.23
92197369|NCT02358668|184293948|SUPERIORITY_OR_OTHER||Mean Difference (Net)|323.9||||0.68|TWO_SIDED|95.0|-1269.0|1916.6||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1916.6|-1269|0.68
92197370|NCT02358668|184293949|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.0||||0.79|TWO_SIDED|95.0|-99.6|129.6||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||129.6|-99.6|0.79
92197371|NCT02358668|184293949|SUPERIORITY_OR_OTHER||Mean Difference (Net)|60.1||||0.29|TWO_SIDED|95.0|-52.5|172.6||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||172.6|-52.5|0.29
92197372|NCT02358668|184293950|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-120.2||||0.37|TWO_SIDED|95.0|-385.3|144.9||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||144.9|-385.3|0.37
92197373|NCT02358668|184293950|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.0||||0.69|TWO_SIDED|95.0|-198.1|296.2||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||296.2|-198.1|0.69
92197374|NCT02358668|184293952|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.57|TWO_SIDED|95.0|-9.8|5.5||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||5.5|-9.8|0.57
92197375|NCT02358668|184293952|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||0.79|TWO_SIDED|95.0|-6.6|8.6||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||8.6|-6.6|0.79
92197376|NCT02358668|184293953|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.54|TWO_SIDED|95.0|-3.4|1.8||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.8|-3.4|0.54
92197377|NCT02358668|184293953|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5||||0.68|TWO_SIDED|95.0|-2.0|3.1||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||3.1|-2.0|0.68
92197378|NCT02358668|184293954|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.03|TWO_SIDED|95.0|-3.2|-0.1||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||-0.1|-3.2|0.03
92197379|NCT02358668|184293954|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.86|TWO_SIDED|95.0|-1.7|1.4||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.4|-1.7|0.86
92197380|NCT02358668|184293955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.9|TWO_SIDED|95.0|-0.39|0.44||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.44|-0.39|0.90
92321534|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.51|STANDARD_ERROR_OF_MEAN|0.56||0.2619|TWO_SIDED|95.0|0.73|3.12||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||3.12|0.73|0.2619
92321535|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.07|STANDARD_ERROR_OF_MEAN|0.76||0.0474|TWO_SIDED|95.0|1.01|4.24||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||4.24|1.01|0.0474
92321536|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.13|STANDARD_ERROR_OF_MEAN|0.58||0.8094|TWO_SIDED|95.0|0.42|3.07||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||3.07|0.42|0.8094
92321537|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.83|STANDARD_ERROR_OF_MEAN|0.6||0.7978|TWO_SIDED|95.0|0.2|3.44||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||3.44|0.20|0.7978
92321538|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.29|STANDARD_ERROR_OF_MEAN|1.15||0.1016|TWO_SIDED|95.0|0.85|6.15||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||6.15|0.85|0.1016
92321539|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.45|STANDARD_ERROR_OF_MEAN|0.25||0.157|TWO_SIDED|95.0|0.15|1.36||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.36|0.15|0.1570
92321540|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|3.02|STANDARD_ERROR_OF_MEAN|1.53||0.0297|TWO_SIDED|95.0|1.11|8.18||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||8.18|1.11|0.0297
92197381|NCT02358668|184293955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.3|TWO_SIDED|95.0|-0.63|0.2||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.20|-0.63|0.30
92197382|NCT02358668|184293956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.62||||0.52|TWO_SIDED|95.0|-1.32|2.57||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||2.57|-1.32|0.52
92197383|NCT02358668|184293956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.13||||0.24|TWO_SIDED|95.0|-0.75|3.05||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||3.05|-0.75|0.24
92197384|NCT02358668|184293957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.002||||0.93|TWO_SIDED|95.0|-0.035|0.038||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.038|-0.035|0.93
92197385|NCT02358668|184293957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.015||||0.4|TWO_SIDED|95.0|-0.021|0.051||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.051|-0.021|0.40
92197386|NCT02358668|184293958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.36|TWO_SIDED|95.0|-1.2|0.5||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.5|-1.2|0.36
92197387|NCT02358668|184293958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.36|TWO_SIDED|95.0|-0.4|1.2||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.2|-0.4|0.36
92197388|NCT02358668|184293959|SUPERIORITY_OR_OTHER|||||||0.09||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.09
92197389|NCT02358668|184293959|SUPERIORITY_OR_OTHER|||||||0.82||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.82
92197390|NCT02358668|184293960|SUPERIORITY_OR_OTHER|||||||0.68||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.68
92197391|NCT02358668|184293960|SUPERIORITY_OR_OTHER|||||||0.26||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.26
92197392|NCT02358668|184293961|SUPERIORITY_OR_OTHER|||||||0.67||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.67
92197393|NCT02358668|184293961|SUPERIORITY_OR_OTHER|||||||0.3||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.30
92197394|NCT02358668|184293962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|||<|0.01|TWO_SIDED|95.0|-0.48|-0.11||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.11|-0.48|<0.01
92197395|NCT02358668|184293962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.13|TWO_SIDED|95.0|-0.32|0.04||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.04|-0.32|0.13
92197396|NCT02358668|184293963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.01|TWO_SIDED|95.0|-1.01|-0.18||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.18|-1.01|0.01
92197397|NCT02358668|184293963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.42|TWO_SIDED|95.0|-0.57|0.24||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.24|-0.57|0.42
92197398|NCT02358668|184293964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74||||0.02|TWO_SIDED|95.0|-1.35|-0.14||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.14|-1.35|0.02
92197399|NCT02358668|184293964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.57|TWO_SIDED|95.0|-0.75|0.42||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.42|-0.75|0.57
92197400|NCT02358668|184293965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32|||<|0.01|TWO_SIDED|95.0|-0.52|-0.12||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.12|-0.52|<0.01
92197401|NCT02358668|184293965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.14|TWO_SIDED|95.0|-0.34|0.05||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.05|-0.34|0.14
92197402|NCT02358668|184293966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31|||<|0.01|TWO_SIDED|95.0|-0.52|-0.1||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.10|-0.52|<0.01
92197403|NCT02358668|184293966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.38|TWO_SIDED|95.0|-0.3|0.12||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.12|-0.30|0.38
92197404|NCT02358668|184293967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.01|TWO_SIDED|95.0|-0.48|-0.07||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.07|-0.48|0.01
92321541|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|5.28|STANDARD_ERROR_OF_MEAN|3.81||0.0213|TWO_SIDED|95.0|1.28|21.73||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||21.73|1.28|0.0213
92321542|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.96|STANDARD_ERROR_OF_MEAN|0.78||0.9648|TWO_SIDED|95.0|0.2|4.74||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||4.74|0.20|0.9648
92321543|NCT04075682|184548230|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.72|STANDARD_ERROR_OF_MEAN|0.53||0.6512|TWO_SIDED|95.0||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||||0.6512
92321544|NCT04075682|184548231|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.55|STANDARD_ERROR_OF_MEAN|0.66||0.41|TWO_SIDED|95.0|-0.75|1.85||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.85|-0.75|0.41
92321545|NCT04075682|184548231|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-1.67|STANDARD_ERROR_OF_MEAN|0.96||0.08|TWO_SIDED|95.0|-3.55|0.21||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.21|-3.55|0.08
92321546|NCT04075682|184548231|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|0.95||0.55|TWO_SIDED|95.0|-2.42|1.29||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.29|-2.42|0.55
92321547|NCT04075682|184548231|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|1.36||0.38|TWO_SIDED|95.0|-1.47|3.86||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||3.86|-1.47|0.38
92197405|NCT02358668|184293967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.41|TWO_SIDED|95.0|-0.28|0.11||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.11|-0.28|0.41
92197406|NCT02358668|184293968|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19||||0.08|TWO_SIDED|95.0|-0.4|0.03||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.03|-0.40|0.08
92197407|NCT02358668|184293968|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.1|TWO_SIDED|95.0|-0.38|0.03||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.03|-0.38|0.10
92197408|NCT02358668|184293969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.01|TWO_SIDED|95.0|-0.67|-0.12||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.12|-0.67|0.01
92197409|NCT02358668|184293969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.54|TWO_SIDED|95.0|-0.35|0.18||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.18|-0.35|0.54
92197410|NCT02358668|184293970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42||||0.03|TWO_SIDED|95.0|-0.81|-0.03||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.03|-0.81|0.03
92197411|NCT02358668|184293970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.63|TWO_SIDED|95.0|-0.48|0.29||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.29|-0.48|0.63
92197412|NCT02358668|184293971|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.18|TWO_SIDED|95.0|-0.13|0.02||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.02|-0.13|0.18
92197413|NCT02358668|184293971|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.73|TWO_SIDED|95.0|-0.06|0.09||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.09|-0.06|0.73
92197414|NCT02358668|184293972|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.06|TWO_SIDED|95.0|-0.15|0.0||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.00|-0.15|0.06
92197415|NCT02358668|184293972|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.46|TWO_SIDED|95.0|-0.05|0.1||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.10|-0.05|0.46
92197416|NCT02358668|184293973|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.06|TWO_SIDED|95.0|-0.15|0.0||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.00|-0.15|0.06
92197417|NCT02358668|184293973|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.46|TWO_SIDED|95.0|-0.05|0.1||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.10|-0.05|0.46
92197418|NCT02358668|184293974|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16||||0.03|TWO_SIDED|95.0|-0.31|-0.02||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.02|-0.31|0.03
92197419|NCT02358668|184293974|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.87|TWO_SIDED|95.0|-0.13|0.15||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.15|-0.13|0.87
92197420|NCT02358668|184293975|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||0.34|TWO_SIDED|95.0|-1.46|0.5||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.50|-1.46|0.34
92197421|NCT02358668|184293975|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22||||0.64|TWO_SIDED|95.0|-0.73|1.18||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||1.18|-0.73|0.64
92197422|NCT02358668|184293976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.62||||0.17|TWO_SIDED|95.0|-1.5|0.26||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.26|-1.50|0.17
92197423|NCT02358668|184293976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.37|TWO_SIDED|95.0|-0.46|1.24||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||1.24|-0.46|0.37
92197424|NCT02358668|184293977|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.65||||0.18|TWO_SIDED|95.0|-1.62|0.31||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.31|-1.62|0.18
92197425|NCT02358668|184293977|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.42||||0.37|TWO_SIDED|95.0|-0.51|1.36||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||1.36|-0.51|0.37
92197426|NCT02358668|184293978|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.14||||0.06|TWO_SIDED|95.0|-4.36|0.09||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.09|-4.36|0.06
92197427|NCT02358668|184293978|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.43||||0.69|TWO_SIDED|95.0|-1.71|2.58||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||2.58|-1.71|0.69
92321548|NCT04075682|184548231|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.54|STANDARD_ERROR_OF_MEAN|1.44||0.71|TWO_SIDED|95.0|-3.35|2.28||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||2.28|-3.35|0.71
92321549|NCT04075682|184548231|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|3.21|STANDARD_ERROR_OF_MEAN|1.34||0.02|TWO_SIDED|95.0|0.59|5.83||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||5.83|0.59|0.02
92321550|NCT04075682|184548231|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|1.94||0.98|TWO_SIDED|95.0|-3.85|3.76||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||3.76|-3.85|0.98
92321551|NCT04075682|184548231|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-2.13|STANDARD_ERROR_OF_MEAN|2.08||0.31|TWO_SIDED|95.0|-6.2|1.95||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.95|-6.2|0.31
92321552|NCT04075682|184548231|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.93||0.68|TWO_SIDED|95.0|-4.58|2.97||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.97|-4.58|0.68
92321553|NCT04075682|184548232|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.3||0.45|TWO_SIDED|95.0|-0.81|0.36||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.36|-0.81|0.45
92321554|NCT04075682|184548232|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.25||0.5767|TWO_SIDED|95.0|-0.64|0.7||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.70|-0.64|0.5767
92321555|NCT04075682|184548233|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.34||0.36|TWO_SIDED|95.0|-0.98|0.36||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.36|-0.98|0.36
92321556|NCT04075682|184548233|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.67||0.63|TWO_SIDED|95.0|-1.64|0.99||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||0.99|-1.64|0.63
92321557|NCT04075682|184548233|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.95||0.79|TWO_SIDED|95.0|-1.62|2.12||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||2.12|-1.62|0.79
92321558|NCT04075682|184548233|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.31||0.4491|TWO_SIDED|95.0|-0.84|0.37||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|These results from the multiple imputation model are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.37|-0.84|0.4491
92321559|NCT04075682|184548233|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.59||0.8713|TWO_SIDED|95.0|-1.26|1.06||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||1.06|-1.26|0.8713
92321560|NCT04075682|184548233|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.85||0.99|TWO_SIDED|95.0|-1.66|1.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||1.66|-1.66|0.99
92321561|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.69|STANDARD_ERROR_OF_MEAN|0.34||0.04|TWO_SIDED|95.0|0.02|1.37||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.37|0.02|0.04
92197428|NCT02358668|184293979|SUPERIORITY_OR_OTHER|||||||0.29||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.29
92197429|NCT02358668|184293979|SUPERIORITY_OR_OTHER|||||||0.22||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.22
92197430|NCT02358668|184293980|SUPERIORITY_OR_OTHER|||||||0.41||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.41
92197431|NCT02358668|184293980|SUPERIORITY_OR_OTHER|||||||0.48||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.48
92197432|NCT02358668|184293981|SUPERIORITY_OR_OTHER|||||||0.61||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.61
92197433|NCT02358668|184293981|SUPERIORITY_OR_OTHER|||||||0.89||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.89
92197434|NCT02104505|184293982|SUPERIORITY||Mean Difference (Net)|0.41|STANDARD_ERROR_OF_MEAN|0.18||0.04|TWO_SIDED||||||Mixed Models Analysis||Comparison of change in sputum %PMNs during active treatment vs placebo (crossover design).|||||0.04
92197435|NCT02104505|184293983|SUPERIORITY||Mean Difference (Net)|0.64|STANDARD_ERROR_OF_MEAN|0.22||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
92197436|NCT02104505|184293984|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.33||0.6|TWO_SIDED||||||Mixed Models Analysis|||||||0.6
92197437|NCT02104505|184293985|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.33||0.34|TWO_SIDED||||||Mixed Models Analysis|||||||0.34
92197438|NCT01730950|184293992|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.46|TWO_SIDED|95.0|0.7|1.38|||Log Rank|Two-side significance level = 0.05|Reference level = Bevacizumab|Null hypothesis: median survival time for both arms is 9 months; alternative hypothesis: participants receiving radiation therapy plus bevacizumab will have an improvement in median survival time to 13 months. One hundred and sixty eligible participants provides 80% power to detect a 31% reduction in the hazard ratio to 0.69 at a one-sided significance level of 0.10. Analysis was planned to occur when 135 deaths were reported, expected to occur 16 to 21 months after trial closure.||1.38|0.70|0.46
92197439|NCT01730950|184293993|SUPERIORITY|||||||0.18|||||||Chi-squared|Two-sided significance level = 0.05||||||0.18
92197440|NCT01730950|184293994|SUPERIORITY|||||||0.001|||||||Chi-squared|Two-sided significance level = 0.05||||||0.001
92197441|NCT01730950|184293995|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.05|TWO_SIDED|95.0|0.53|1.0|||Log Rank|Two-sided significance level = 0.05|Reference level = Bevacizumab|||1.00|0.53|0.05
92197442|NCT00078377|184294017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8||||0.0024||95.0|1.02|4.61|||ANCOVA|The corresponding baseline value as a covariate.||Statistical data is for the Armodafinil Combined treatment (250 mg/day and 150 mg/day groups) compared to the placebo treatment group||4.61|1.02|0.0024
92197443|NCT00078377|184294018|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92197444|NCT00581893|184294035|SUPERIORITY|||||||0.5|||||||McNemar|||||||0.50
92197445|NCT01381575|184294036|NON_INFERIORITY|Non-inferiority with respect to seroconversion was demonstrated if, 1 month after the last dose, for both anti-HPV-16 and anti-HPV-18, the upper limit of the 95% Confidence Interval (CI) for the difference (Cervarix 2 Group minus Cervarix 1 Group) was below 5%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.08|0.78||||||Immune response to anti-HPV-16 in terms of seroconversion (SCR) rates: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule of 0,6 months in 9-14 year old females was non-inferior to that administered according to the standard 3-dose schedule of 0,1,6 months in 15-25 year old females, 1 month after the last dose of study vaccine, in initially seronegative subjects.||0.78|-1.08|
92197446|NCT01381575|184294036|NON_INFERIORITY|Non-inferiority with respect to seroconversion was demonstrated if, 1 month after the last dose, for both anti-HPV-16 and anti-HPV-18, the upper limit of the 95% Confidence Interval (CI) for the difference (Cervarix 2 Group minus Cervarix 1 Group) was below 5%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.0|0.77||||||Immune response to anti-HPV-18 in terms of seroconversion (SCR) rates: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule of 0,6 months in 9-14 year old females was non-inferior to that administered according to the standard 3-dose schedule of 0,1,6 months in 15-25 year old females, 1 month after the last dose of study vaccine, in initially seronegative subjects.||0.77|-1.00|
92197447|NCT01381575|184294037|NON_INFERIORITY|Non-inferiority with respect to Geometric Mean Concentrations (GMCs) was demonstrated if, 1 month after the last dose, for both anti-HPV-16 and anti-HPV-18, the upper limit of 95% CI for the GMT ratio (Cervarix 2 Group divided by Cervarix 1 Group) was below 2.|Geometric mean ratio|1.09|||||TWO_SIDED|95.0|0.97|1.22||||||Immune response to anti-HPV-16 in terms of Geometric Mean Concentrations (GMCs): To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months in 9-14 year old females was non-inferior to that administered according to the standard 3-dose schedule of 0,1,6 months in 15-25 year old females, 1 month after the last dose of study vaccine, in initially seronegative subjects.||1.22|0.97|
92197448|NCT01381575|184294037|NON_INFERIORITY|Non-inferiority with respect to Geometric Mean Concentrations (GMCs) was demonstrated if, 1 month after the last dose, for both anti-HPV-16 and anti-HPV-18, the upper limit of 95% CI for the GMT ratio (Cervarix 2 Group divided by Cervarix 1 Group) was below 2.|Geometric mean ratio|0.85|||||TWO_SIDED|95.0|0.76|0.95||||||Immune response to anti-HPV-18 in terms of Geometric Mean Concentrations (GMCs): To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months in 9-14 year old females was non-inferior to that administered according to the standard 3-dose schedule of 0,1,6 months in 15-25 year old females, 1 month after the last dose of study vaccine, in initially seronegative subjects.||0.95|0.76|
92197449|NCT05224843|184294085|OTHER||Percentage of enrolled from eligible|82.5|||||TWO_SIDED|95.0|73.7|88.8||||||||88.8|73.7|
92197450|NCT05224843|184294086|OTHER||Percentage of enrolled from eligible|100.0|||||TWO_SIDED|95.0|95.4|100.0||||||||100|95.4|
92197451|NCT05224843|184294088|OTHER||Percentage screened positive for EM|7.5|||||TWO_SIDED|95.0|3.5|15.4||||||||15.4|3.5|
92197452|NCT05224843|184294090|OTHER||Percentage who changed after BNI|25.0|||||TWO_SIDED|95.0|4.6|69.9||||||||69.9|4.6|
92197453|NCT05224843|184294091|OTHER||Percentage reported APS from EM positive|20.0|||||TWO_SIDED|95.0|3.6|62.4||||||||62.4|3.6|
92197454|NCT01920932|184294092|SUPERIORITY||Binomial proportions|31.25|||||TWO_SIDED|90.0||||The comparison of the complete rate between the first 32 evaluable participants and the historical control of HOD99 unfavorable risk patients was estimated by the binomial proportions test.||||In the historical control (HOD99) 17% of patients had CR at week 8. Sample size for this objective is calculated based on a binomial distribution to test H0: p=17% vs. Ha: p\>17%, where p is the true CR rate after 2 cycles of AEPA. 32 patients are needed to detect 20% increase of CR rate with 80% power and 5% type I error. If it shows efficacy, the response results will be reported, and the study will continue to enroll for a total of 77 patients to assess response and EFS.||||
92197455|NCT01920932|184294094|SUPERIORITY|||||||0.004|||||||Fisher Exact|||Comparison of proportion of patient's complete response rate between HLHR13 and HOD99 (NCT00145600) unfavorable risk arm 2 (UR2).||||0.004
92197456|NCT01920932|184294095|SUPERIORITY|||||||0.0008|||||||Log Rank|||The comparison of the EFS between HLHR13 and historical control of HOD99 unfavorable risk 2 arm (UR2) was done by the two-sample log-rank test.||||0.0008
92197457|NCT01920932|184294100|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Total Score-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||<.001
92197458|NCT01920932|184294100|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Total Score-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.002
92197459|NCT01920932|184294100|SUPERIORITY|||||||0.067|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Total Score-T4, completion of radiation (approximately 8 months)||||0.067
92197460|NCT01920932|184294100|SUPERIORITY|||||||0.115|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Pain and Hurt-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.115
92197461|NCT01920932|184294100|SUPERIORITY|||||||0.455|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Pain and Hurt-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.455
92197462|NCT01920932|184294100|SUPERIORITY|||||||0.636|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Pain and Hurt-T4, completion of radiation (approximately 8 months)||||0.636
92197463|NCT01920932|184294100|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Nausea-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||<.001
92197464|NCT01920932|184294100|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Nausea-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||<.001
92197465|NCT01920932|184294100|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Nausea-T4, completion of radiation (approximately 8 months)||||0.006
92197466|NCT01920932|184294100|SUPERIORITY|||||||0.099|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Procedural Anxiety-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.099
92197467|NCT01920932|184294100|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Procedural Anxiety-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.050
92197468|NCT01920932|184294100|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Procedural Anxiety-T4, completion of radiation (approximately 8 months)||||0.520
92197469|NCT01920932|184294100|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Treatment Anxiety-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.024
92197470|NCT01920932|184294100|SUPERIORITY|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Treatment Anxiety-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.011
92197471|NCT01920932|184294100|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Treatment Anxiety-T4, completion of radiation (approximately 8 months)||||0.009
92197472|NCT01920932|184294100|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Worry-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||<.001
92197473|NCT01920932|184294100|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Worry-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||<.001
92197474|NCT01920932|184294100|SUPERIORITY|||||||0.035|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Worry-T4, completion of radiation (approximately 8 months)||||0.035
92197475|NCT01920932|184294100|SUPERIORITY|||||||0.037|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Cognitive Problems-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.037
92197476|NCT01920932|184294100|SUPERIORITY|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Cognitive Problems-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.043
92197477|NCT01920932|184294100|SUPERIORITY|||||||0.044|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Cognitive Problems-T4, completion of radiation (approximately 8 months)||||0.044
92197478|NCT01920932|184294100|SUPERIORITY|||||||0.091|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Perceived Physical Appearance-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.091
92197479|NCT01920932|184294100|SUPERIORITY|||||||0.248|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Perceived Physical Appearance-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.248
92197480|NCT01920932|184294100|SUPERIORITY|||||||0.069|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Perceived Physical Appearance-T4, completion of radiation (approximately 8 months)||||0.069
92197481|NCT01920932|184294100|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Communication-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.010
92197482|NCT01920932|184294100|SUPERIORITY|||||||0.292|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Communication-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.292
92197483|NCT01920932|184294100|SUPERIORITY|||||||0.429|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Communication-T4, completion of radiation (approximately 8 months)||||0.429
92197484|NCT01920932|184294101|SUPERIORITY|||||||0.975|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Total Score-T1, At Diagnosis (baseline)||||0.975
92197485|NCT01920932|184294101|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||PedsQL v.4.0 Total Score-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.032
92197486|NCT01920932|184294101|SUPERIORITY|||||||0.497|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Total Score-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.497
92321562|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.87|STANDARD_ERROR_OF_MEAN|0.5||0.08|TWO_SIDED|95.0|-1.85|0.11||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.11|-1.85|0.08
92321563|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.23|STANDARD_ERROR_OF_MEAN|0.49||0.65|TWO_SIDED|95.0|-0.74|1.19||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.19|-0.74|0.65
92321564|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.73|STANDARD_ERROR_OF_MEAN|0.71||0.3|TWO_SIDED|95.0|-0.66|2.11||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||2.11|-0.66|0.30
92321565|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.75||0.78|TWO_SIDED|95.0|-1.68|1.26||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.26|-1.68|0.78
92321566|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.48|STANDARD_ERROR_OF_MEAN|0.69||0.03|TWO_SIDED|95.0|0.12|2.83||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||2.83|0.12|0.03
92321567|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|1.01||0.95|TWO_SIDED|95.0|-1.92|2.04||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.04|-1.92|0.95
92197487|NCT01920932|184294101|SUPERIORITY|||||||0.399|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Total Score-T4, completion of radiation (approximately 8 months)||||0.399
92197488|NCT01920932|184294101|SUPERIORITY|||||||0.451|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Physical Functioning-T1, At Diagnosis (baseline)||||0.451
92197489|NCT01920932|184294101|SUPERIORITY|||||||0.198|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Physical Functioning-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.198
92197490|NCT01920932|184294101|SUPERIORITY|||||||0.967|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Physical Functioning-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.967
92197491|NCT01920932|184294101|SUPERIORITY|||||||0.647|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Physical Functioning-T4, completion of radiation (approximately 8 months)||||0.647
92197492|NCT01920932|184294101|SUPERIORITY|||||||0.145|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Emotional Functioning-T1, At Diagnosis (baseline)||||0.145
92197493|NCT01920932|184294101|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Emotional Functioning-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||<.001
92197494|NCT01920932|184294101|SUPERIORITY|||||||0.073|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Emotional Functioning-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.073
92197495|NCT01920932|184294101|SUPERIORITY|||||||0.156|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Emotional Functioning-T4, completion of radiation (approximately 8 months)||||0.156
92197496|NCT01920932|184294101|SUPERIORITY|||||||0.844|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Social Functioning-T1, At Diagnosis (baseline)||||0.844
92197497|NCT01920932|184294101|SUPERIORITY|||||||0.206|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Social Functioning-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.206
92197498|NCT01920932|184294101|SUPERIORITY|||||||0.491|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Social Functioning-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.491
92321568|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.78|STANDARD_ERROR_OF_MEAN|1.09||0.48|TWO_SIDED|95.0|-2.91|1.36||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.36|-2.91|0.48
92197499|NCT01920932|184294101|SUPERIORITY|||||||0.906|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Social Functioning-T4, completion of radiation (approximately 8 months)||||0.906
92197500|NCT01920932|184294101|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 School Functioning-T1, At Diagnosis (baseline)||||0.580
92197501|NCT01920932|184294101|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 School Functioning-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.012
92197502|NCT01920932|184294101|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 School Functioning-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.010
92197503|NCT01920932|184294101|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 School Functioning-T4, completion of radiation (approximately 8 months)||||0.005
92197504|NCT05274750|184294107|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group.|Difference in Least Square Means|-0.7|||<|0.001|TWO_SIDED|95.0|-1.1|-0.3|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||-0.3|-1.1|<0.001
92197505|NCT05274750|184294108|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group.|Difference in Least Square Means|-0.23||||0.047|TWO_SIDED|95.0|-0.46|0.0|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||0.00|-0.46|0.047
92197506|NCT05274750|184294109|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints will be evaluated for nominal significance in a descriptive manner, using a 5 percent (%) reference level.|Difference in Least Square Means|-0.22||||0.074|TWO_SIDED|95.0|-0.46|0.02|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 49 to Week 52 in participants with a diagnosis of CRSwNP||0.02|-0.46|0.074
92197507|NCT05274750|184294110|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints will be evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.19||||0.055|TWO_SIDED|95.0|-0.39|0.0|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 49 to Week 52 in participants with a diagnosis of CRSwNP||0.00|-0.39|0.055
92197508|NCT05274750|184294111|OTHER|Analysis performed using an analysis of covariance model (ANCOVA) with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region and previous surgery for nasal polyps. If the hierarchy is broken, subsequent endpoints will be evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-2.0||||0.002|TWO_SIDED|95.0|-3.3|-0.8|||ANCOVA|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||-0.8|-3.3|0.002
92197509|NCT05274750|184294112|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints will be evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-6.8||||0.113|TWO_SIDED|95.0|-15.2|1.6|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||1.6|-15.2|0.113
92197510|NCT05274750|184294113|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints will be evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.17||||0.094|TWO_SIDED|95.0|-0.37|0.03|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 21 to Week 24 in participants with a diagnosis of CRSwNP||0.03|-0.37|0.094
92197511|NCT05274750|184294114|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints will be evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.8|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 26 in participants with a diagnosis of CRSwNP||-0.4|-1.1|<0.001
92197512|NCT05274750|184294115|OTHER|Cox Proportional Hazards Model with covariates of treatment, baseline total endoscopic nasal polyps score, baseline nasal obstruction score (VRS), log(e) baseline blood eosinophil count, region, study and previous surgery for nasal polyps. The covariate for study is removed for the individual-study analyses. If the hierarchy is broken, subsequent endpoints will be evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Hazard Ratio (HR)|0.735||||0.128|TWO_SIDED|95.0|0.495|1.092|||Cox Proportional Hazards Model|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis)||1.092|0.495|0.128
92197513|NCT05274750|184294116|OTHER|Cox Proportional Hazards Model with covariates of treatment, baseline total endoscopic nasal polyps score, baseline nasal obstruction score (VRS), log(e) baseline blood eosinophil count, region, study and previous surgery for nasal polyps. The covariate for study is removed for the individual-study analyses. If the hierarchy is broken, subsequent endpoints will be evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Hazard Ratio (HR)|0.713||||0.146|TWO_SIDED|95.0|0.453|1.124|||Cox Proportional Hazards Model|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis)||1.124|0.453|0.146
92197514|NCT05274750|184294117|OTHER|Logistic regression with covariates of treatment, number of courses of systemic CS in 12 months prior to screening for NP (0, 1, \>1), log(e) baseline blood eosinophil count, baseline total endoscopic NP score, baseline nasal obstruction score (VRS), region, study and previous surgery for NPs. The study covariate is removed for individual study analyses. If the hierarchy is broken, subsequent endpoints will be evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Odds Ratio (OR)|0.58||||0.006|TWO_SIDED|95.0|0.4|0.86|||Regression, Logistic|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis)||0.86|0.40|0.006
92197515|NCT05274750|184294118|OTHER|The pooled statistical analyses will be performed using a Mixed Models Repeated Measures (MMRM) model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, study, visit and interaction terms for visit by baseline score and visit by treatment group. If the hierarchy is broken, subsequent endpoints will be evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Hazard Ratio (HR)|-0.75||||0.004|TWO_SIDED|95.0|-1.26|-0.25|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis)||-0.25|-1.26|0.004
92197516|NCT01375751|184294163|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.82|STANDARD_ERROR_OF_MEAN|3.92|<|0.001|TWO_SIDED|95.0|-51.56|-36.09||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference.|The null hypothesis was that there was no mean difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo.||-36.09|-51.56|<0.001
92197517|NCT01375751|184294163|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.36|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-64.06|-48.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo.||-48.67|-64.06|<0.001
92197518|NCT01375751|184294164|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-65.5|STANDARD_ERROR_OF_MEAN|7.1|<|0.001|TWO_SIDED|95.0|-79.6|-51.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-51.4|-79.6|<0.001
92197519|NCT01375751|184294164|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-84.7|STANDARD_ERROR_OF_MEAN|7.1|<|0.001|TWO_SIDED|95.0|-98.8|-70.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-70.7|-98.8|<0.001
92197520|NCT01375751|184294165|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.79|STANDARD_ERROR_OF_MEAN|3.81|<|0.001|TWO_SIDED|95.0|-49.32|-34.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-34.26|-49.32|<0.001
92197521|NCT01375751|184294165|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-53.46|STANDARD_ERROR_OF_MEAN|3.79|<|0.001|TWO_SIDED|95.0|-60.95|-45.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-45.97|-60.95|<0.001
92321569|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|1.0||0.37|TWO_SIDED|95.0|-2.86|1.07||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.07|-2.86|0.37
92321570|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.73|STANDARD_ERROR_OF_MEAN|0.31||0.0192|TWO_SIDED|95.0|0.12|1.34||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.34|0.12|0.0192
92321571|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.59|STANDARD_ERROR_OF_MEAN|0.45||0.186|TWO_SIDED|95.0|-1.48|0.29||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.29|-1.48|0.1860
92321572|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|0.44||0.3863|TWO_SIDED|95.0|-0.49|1.26||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.26|-0.49|0.3863
92321573|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.36|STANDARD_ERROR_OF_MEAN|0.64||0.571|TWO_SIDED|95.0|-0.89|1.61||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||1.61|-0.89|0.5710
92321574|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.73|STANDARD_ERROR_OF_MEAN|0.68||0.2797|TWO_SIDED|95.0|-2.06|0.6||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||0.60|-2.06|0.2797
92321575|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.33|STANDARD_ERROR_OF_MEAN|0.62||0.0312|TWO_SIDED|95.0|0.12|2.55||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||2.55|0.12|0.0312
92197522|NCT01375751|184294166|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.75|STANDARD_ERROR_OF_MEAN|3.55|<|0.001|TWO_SIDED|95.0|-41.77|-27.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-27.74|-41.77|<0.001
92321576|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.91||0.5086|TWO_SIDED|95.0|-1.19|2.39||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.39|-1.19|0.5086
92321577|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.98||0.9474|TWO_SIDED|95.0|-1.86|1.99||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.99|-1.86|0.9474
92321578|NCT04075682|184548234|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.9||0.5018|TWO_SIDED|95.0|-2.36|1.16||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.16|-2.36|0.5018
92321579|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|0.39||0.25|TWO_SIDED|95.0|-0.31|1.21||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.21|-0.31|0.25
92321580|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.53|STANDARD_ERROR_OF_MEAN|0.56||0.34|TWO_SIDED|95.0|-1.63|0.57||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.57|-1.63|0.34
92321581|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.56||0.76|TWO_SIDED|95.0|-1.26|0.92||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||0.92|-1.26|0.76
92197523|NCT01375751|184294166|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.2|STANDARD_ERROR_OF_MEAN|3.53|<|0.001|TWO_SIDED|95.0|-53.18|-39.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-39.23|-53.18|<0.001
92197524|NCT01375751|184294167|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.66|STANDARD_ERROR_OF_MEAN|3.72|<|0.001|TWO_SIDED|95.0|-44.01|-29.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placbo is the reference|||-29.32|-44.01|<0.001
92321582|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|0.78||0.15|TWO_SIDED|95.0|-0.42|2.63||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||2.63|-0.42|0.15
92321583|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.003|STANDARD_ERROR_OF_MEAN|0.85||1|TWO_SIDED|95.0|-1.66|1.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.66|-1.66|1.00
92321584|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|0.78||0.01|TWO_SIDED|95.0|0.38|3.43||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||3.43|0.38|0.01
92321585|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.62|STANDARD_ERROR_OF_MEAN|1.11||0.58|TWO_SIDED|95.0|-1.56|2.8||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.80|-1.56|0.58
92321586|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|1.23||0.39|TWO_SIDED|95.0|-3.47|1.35||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.35|-3.47|0.39
92321587|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.85|STANDARD_ERROR_OF_MEAN|1.12||0.45|TWO_SIDED|95.0|-3.05|1.35||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.35|-3.05|0.45
92321588|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.54|STANDARD_ERROR_OF_MEAN|0.34||0.1147|TWO_SIDED|95.0|-0.13|1.21||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.21|-0.13|0.1147
92197525|NCT01375751|184294167|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.01|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-52.32|-37.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-37.70|-52.32|<0.001
92197526|NCT01375751|184294168|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.92|STANDARD_ERROR_OF_MEAN|3.45|<|0.001|TWO_SIDED|95.0|-40.72|-27.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-27.11|-40.72|<0.001
92197527|NCT01375751|184294168|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.64|STANDARD_ERROR_OF_MEAN|3.43|<|0.001|TWO_SIDED|95.0|-51.41|-37.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-37.86|-51.41|<0.001
92197528|NCT00882115|184294178|OTHER||||||<|0.001|||||||ANOVA|Data followed the normal distribution, therefore, a parametric repeated measure (mixed model) ANOVA model was used to compare means.||Comparison was made to the 24 h minus baseline change in both control phase and intervention phase.||||<0.001
92197529|NCT00882115|184294178|OTHER||||||<|0.01|||||||ANOVA|Data followed the normal distribution, therefore, a parametric repeated measure (mixed model) ANOVA model was used to compare means.||Comparison waws made to the 6 hour minus baseline change in both control phase and intervention phase.||||<0.01
92197530|NCT02552147|184294179|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||.44
92197531|NCT02552147|184294180|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||0.38
92197532|NCT02552147|184294184|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||0.13
92197533|NCT02552147|184294185|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||0.13
92197534|NCT02552147|184294186|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||0.50
92197535|NCT02552147|184294187|SUPERIORITY|||||||1||||||P value was calculated to \>0.99 and thus rounded to 1.0.|Wilcoxon (Mann-Whitney)|Two-tailed||||||1.0
92197536|NCT02552147|184294188|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||0.25
92197537|NCT02552147|184294189|SUPERIORITY|||||||0.69|||||||Binomial test|||||||0.69
92197538|NCT00940875|184294191|SUPERIORITY_OR_OTHER||Difference in Response Rates|-3.3|||||TWO_SIDED|95.0|-17.5|10.9|||||The 95% CI for the difference of 2 rates was estimated using the Hauck-Anderson method.|||10.9|-17.5|
92197539|NCT00940875|184294192|SUPERIORITY_OR_OTHER|||||||0.4798|TWO_SIDED||||||Log Rank|||Difference between treatment groups in PFS||||0.4798
92197540|NCT00940875|184294192|SUPERIORITY_OR_OTHER||Hazard Ratio, log|1.3||||0.4805|TWO_SIDED|95.0|0.63|2.68|||Wald Test||The hazard ratio was estimated using the Cox regression model and stratified by Eastern Cooperative Oncology Group (ECOG) Performance Status (PS), disease stage, histology, and smoking status.|||2.68|0.63|0.4805
92197541|NCT00940875|184294193|SUPERIORITY_OR_OTHER||Difference in Response Rates|-11.54|||||TWO_SIDED|95.0|-40.3|17.2|||||The 95% CI for difference of 2 rates was determined using the Hauck-Anderson method.|Week 8||17.2|-40.3|
92197542|NCT00940875|184294193|SUPERIORITY_OR_OTHER||Difference in Response Rates|-13.46|||||TWO_SIDED|95.0|-36.0|9.0|||||The 95% CI for difference of 2 rates was determined using the Hauck-Anderson method.|Week 16||9.0|-36.0|
92197543|NCT00940875|184294195|SUPERIORITY_OR_OTHER|||||||0.5393|TWO_SIDED||||||Log Rank|||Difference between treatment groups in OS||||0.5393
92197544|NCT00940875|184294195|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.5399|TWO_SIDED|95.0|0.38|1.66|||Wald Test||The hazard ratio was estimated using the Cox regression model and stratified by ECOG PS, disease stage, histology, and smoking status.|||1.66|0.38|0.5399
92197545|NCT05186311|184294217|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit (CAL).||||||||||||||||One hundred (100) participants (with paired numerical data) per each analyte provide \> 90% power to ensure that mean biases and confidence intervals are within the clinical acceptance limit (CAL), at medically relevant points, assuming no true bias between the tube types, residual standard deviation (SD) or coefficient of variation (CV) = CAL and collected data cover medically relevant points.|"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197546|NCT05186311|184294218|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197547|NCT05186311|184294219|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197548|NCT05186311|184294220|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197549|NCT05186311|184294221|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197550|NCT05186311|184294222|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197551|NCT05186311|184294223|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197552|NCT05186311|184294224|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92321589|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.44|STANDARD_ERROR_OF_MEAN|0.49||0.3721|TWO_SIDED|95.0|-1.41|0.53||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.53|-1.41|0.3721
92321590|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.49||0.8827|TWO_SIDED|95.0|-0.89|1.03||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.03|-0.89|0.8827
92321591|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.54|STANDARD_ERROR_OF_MEAN|0.68||0.4335|TWO_SIDED|95.0|-0.8|1.87||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||1.87|-0.80|0.4335
92321592|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|0.74||0.4063|TWO_SIDED|95.0|-2.07|0.84||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||0.84|-2.07|0.4063
92321593|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.69|STANDARD_ERROR_OF_MEAN|0.68||0.0132|TWO_SIDED|95.0|0.35|3.03||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||3.03|0.35|0.0132
92321594|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.83|STANDARD_ERROR_OF_MEAN|0.98||0.3949|TWO_SIDED|95.0|-1.08|2.75||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.75|-1.08|0.3949
92321595|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|1.08||0.7145|TWO_SIDED|95.0|-2.5|1.72||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.72|-2.50|0.7145
92321596|NCT04075682|184548235|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.98||0.6081|TWO_SIDED|95.0||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||||0.6081
92321597|NCT04075682|184548236|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.46||0.58|TWO_SIDED|95.0|-1.15|0.64||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.64|-1.15|0.58
92321598|NCT04075682|184548236|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.9||0.82|TWO_SIDED|95.0|-1.98|1.57||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4)||1.57|-1.98|0.82
92321599|NCT04075682|184548236|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.67|STANDARD_ERROR_OF_MEAN|1.31||0.2|TWO_SIDED|95.0|-0.9|4.24||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||4.24|-0.90|0.20
92321600|NCT04075682|184548236|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.36||0.88|TWO_SIDED|95.0|-0.77|0.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation analysis are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.66|-0.77|0.8800
92321601|NCT04075682|184548236|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Median Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.72||0.8864|TWO_SIDED|95.0|-1.3|1.5||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4)||1.50|-1.30|0.8864
92321602|NCT04075682|184548236|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.12|STANDARD_ERROR_OF_MEAN|1.02||0.2748|TWO_SIDED|95.0|-0.89|3.12||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||3.12|-0.89|0.2748
92321603|NCT04075682|184548237|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.1|STANDARD_ERROR_OF_MEAN|0.5||0.83|TWO_SIDED|95.0|0.45|2.7||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be lower in the insert groups than in the no insert groups.||2.70|0.45|0.83
92321604|NCT04075682|184548237|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.86|STANDARD_ERROR_OF_MEAN|1.34||0.03|TWO_SIDED|95.0|1.14|7.18||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||7.18|1.14|0.03
92321605|NCT04075682|184548237|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.53|STANDARD_ERROR_OF_MEAN|0.27||0.18|TWO_SIDED|95.0|0.15|1.44||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be lower in the insert and pictorial warning group than in the pictorial warning only group.||1.44|0.15|0.18
92321606|NCT04075682|184548237|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|1.3||0.99|TWO_SIDED|95.0|0.08|12.57||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be lower for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||12.57|0.08|0.99
92321607|NCT04075682|184548237|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.52||0.86|TWO_SIDED|95.0|0.29|2.82||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.||These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||2.82|0.29|0.86
92321608|NCT04075682|184548237|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.1|STANDARD_ERROR_OF_MEAN|0.43||0.8045|TWO_SIDED|||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be lower in the insert groups than in the no insert groups.||||0.8045
92321609|NCT04075682|184548237|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.53|STANDARD_ERROR_OF_MEAN|1.01||0.0205|TWO_SIDED|||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||||0.0205
92321610|NCT04075682|184548237|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.53|STANDARD_ERROR_OF_MEAN|0.26||0.1918|TWO_SIDED|||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be lower in the insert and pictorial warning group than in the pictorial warning only group.||||0.1918
92197553|NCT05186311|184294225|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197554|NCT05186311|184294226|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197555|NCT05186311|184294227|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197556|NCT05186311|184294228|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
92197557|NCT01607879|184294263|SUPERIORITY|||||||0.1497|||||||t-test, 1 sided|||||||0.1497
92321611|NCT04075682|184548237|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|1.12||0.99|TWO_SIDED|||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be lower for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||||0.99
92321612|NCT04075682|184548237|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.56|STANDARD_ERROR_OF_MEAN|1.54||0.6873|TWO_SIDED|||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||||0.6873
92321613|NCT04075682|184548238|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|0.39||0.37|TWO_SIDED|95.0|-1.12|0.41||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.41|-1.12|0.37
92197558|NCT01607879|184294264|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
92321614|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.05||0.92|TWO_SIDED|95.0|0.9|1.1||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.10|0.90|0.92
92321615|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|1.0|STANDARD_ERROR_OF_MEAN|0.05||0.95|TWO_SIDED|95.0|0.9|1.11||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||1.11|0.90|0.95
92321616|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.08||0.85|TWO_SIDED|95.0|0.85|1.14||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||1.14|0.85|0.85
92321617|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.98|STANDARD_ERROR_OF_MEAN|0.07||0.75|TWO_SIDED|95.0|0.84|1.13||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.13|0.84|0.75
92321618|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.97|STANDARD_ERROR_OF_MEAN|0.11||0.78|TWO_SIDED|95.0|0.78|1.2||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4)||1.20|0.78|0.78
92321619|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|1.31|STANDARD_ERROR_OF_MEAN|0.22||0.11|TWO_SIDED|95.0|0.94|1.82||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||1.82|0.94|0.11
92321620|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.11||0.93|TWO_SIDED|95.0|0.8|1.22||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||1.22|0.80|0.93
92197559|NCT01607879|184294265|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||0.75
92197560|NCT01607879|184294266|SUPERIORITY|||||||0.925|||||||Wilcoxon (Mann-Whitney)|||||||0.925
92197561|NCT01607879|184294267|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
92197562|NCT03721172|184294277|SUPERIORITY||Adjusted difference|17.5|||<|0.0001|TWO_SIDED|95.0|12.2|22.8|||Cochran-Mantel-Haenszel|Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|2-sided 95% CIs based on the stratified Newcombe method. Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|||22.8|12.2|<0.0001
92197563|NCT03721172|184294278|SUPERIORITY||Adjusted difference|25.6|||<|0.0001|TWO_SIDED|95.0|19.1|32.1|||Cochran-Mantel-Haenszel|Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|2-sided 95% CIs based on the stratified Newcombe method. Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|||32.1|19.1|<0.0001
92197564|NCT03721172|184294279|SUPERIORITY||Least squares mean difference|-3.38|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-4.04|-2.73|||Mixed-effect model for repeated measures|||||-2.73|-4.04|<0.0001
92197565|NCT03721172|184294280|SUPERIORITY||Least squares mean difference|-2.93|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-3.47|-2.39|||Mixed-effect model for repeated measures|||||-2.39|-3.47|<0.0001
92321621|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.98|STANDARD_ERROR_OF_MEAN|0.11||0.86|TWO_SIDED|95.0|0.78|1.23||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.23|0.78|0.86
92321622|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.11||0.94|TWO_SIDED|95.0|0.81|1.22||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||1.22|0.81|0.94
92321623|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|1.29|STANDARD_ERROR_OF_MEAN|0.21||0.13|TWO_SIDED|95.0|0.93|1.78||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.78|0.93|0.13
92197566|NCT03721172|184294281|SUPERIORITY||Adjusted difference|38.0|||<|0.0001|TWO_SIDED|95.0|29.7|46.3|||Cochran-Mantel-Haenszel|Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|2-sided 95% CIs based on the stratified Newcombe method. Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|||46.3|29.7|<0.0001
92197567|NCT03721172|184294282|SUPERIORITY||Adjusted difference|24.7|||<|0.0001|TWO_SIDED|95.0|16.5|32.8|||Cochran-Mantel-Haenszel|Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|2-sided 95% CIs based on the stratified Newcombe method. Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|||32.8|16.5|<0.0001
92197568|NCT03721172|184294283|SUPERIORITY||Adjusted difference|27.4|||<|0.0001|TWO_SIDED|95.0|18.6|36.3|||Cochran-Mantel-Haenszel|Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|2-sided 95% CIs based on the stratified Newcombe method. Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|||36.3|18.6|<0.0001
92197569|NCT03721172|184294284|SUPERIORITY||Least squares mean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-3.7|-2.1|||Mixed-effect model for repeated measures|||||-2.1|-3.7|<0.0001
92197570|NCT00607672|184294311|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Mixed Models Analysis|||||||0.28
92197571|NCT00607672|184294312|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Mixed Models Analysis|||||||0.84
92197572|NCT00607672|184294313|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Kruskal-Wallis|||||||0.67
92197573|NCT00607672|184294314|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Chi-squared|||||||0.73
92197574|NCT00607672|184294315|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||For plasma transfusion comparison. Ramipril and Candesartan versus placebo|Chi-squared|||||||0.04
92197575|NCT00607672|184294316|SUPERIORITY_OR_OTHER|||||||0.27||95.0||||Comparison for norepinephrine use|Chi-squared|||||||0.27
92197576|NCT00607672|184294317|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Chi-squared|||||||0.62
92197577|NCT00607672|184294318|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Chi-squared|||||||0.51
92197578|NCT00607672|184294319|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Chi-squared|||||||0.87
92197579|NCT00607672|184294320|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Kruskal-Wallis|||||||0.04
92197580|NCT00607672|184294321|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Mixed Models Analysis|||||||0.69
92197581|NCT00607672|184294322|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||Mixed Models Analysis|||||||0.97
92197582|NCT00607672|184294323|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Mixed Models Analysis|||||||0.46
92321624|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.18||0.96|TWO_SIDED|95.0|0.7|1.41||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.41|0.70|0.96
92321625|NCT04075682|184548239|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.16||0.95|TWO_SIDED|95.0|0.72|1.36||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.36|0.72|0.95
92321626|NCT01222520|184548242|SUPERIORITY_OR_OTHER||Least square mean difference|9.14|||<|0.0001||95.0|7.09|11.18|||ANCOVA|||||11.18|7.09|<0.0001
92321627|NCT01222520|184548243|SUPERIORITY_OR_OTHER||Least square mean difference|14.88|||<|0.0001||95.0|11.82|17.94|||ANCOVA|||||17.94|11.82|<0.0001
92321628|NCT01222520|184548244|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92321629|NCT01222520|184548245|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92321630|NCT01222520|184548246|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92197583|NCT00825305|184294383|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis states that the Zagreb schedule is inferior to the Essen schedule in terms of day 14 antibody titers assuming no difference between the two schedules and the equivalence limit of 1.5 titer levels (log2).|ratio of log2 mean|-0.2|||||TWO_SIDED|95.0|-0.81|0.4|||ANOVA||Ratio of log2 mean (Zagreb/Essen) on day 14|||0.4|-0.81|
92321631|NCT01222520|184548247|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92321632|NCT01222520|184548248|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92321633|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|Geometric Mean Titer (GMT) Ratio|0.69|||||TWO_SIDED|95.0|0.46|1.04|||||Analysis of variance (ANOVA) model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||1.04|0.46|
92321634|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.91|||||TWO_SIDED|95.0|0.6|1.38|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||1.38|0.60|
92197584|NCT00825305|184294384|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis states that the Zagreb schedule is inferior to the Essen schedule in terms of day 7 antibody titers assuming no difference between the two schedules and the equivalence limit of 1.5 titer levels (log2).|ratio of log2 mean (day7)|-0.21|||||TWO_SIDED|95.0|-0.77|0.35|||ANOVA||Ratio of log2 means (Zagreb/Essen) on day 7|||0.35|-0.77|
92321635|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.63|||||TWO_SIDED|95.0|0.41|0.96|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||0.96|0.41|
92321636|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|1.3|||||TWO_SIDED|95.0|0.98|1.71|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||1.71|0.98|
92321637|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.67|||||TWO_SIDED|95.0|0.51|0.88|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||0.88|0.51|
92321638|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.86|||||TWO_SIDED|95.0|0.65|1.15|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||1.15|0.65|
92321639|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|1.27|||||TWO_SIDED|95.0|0.91|1.78|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.78|0.91|
92321640|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.68|1.33|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.33|0.68|
92197585|NCT00825305|184294384|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis states that the Zagreb schedule is inferior to the Essen schedule in terms of day 42 antibody titers assuming no difference between the two schedules and the equivalence limit of 1.5 titer levels (log2).|ratio of log2 mean (day 42)|-0.07|||||TWO_SIDED|95.0|-0.72|0.58|||ANOVA||Ratio of log2 mean (Zagreb/(Essen) on day 42|||0.58|-0.72|
92197586|NCT03617289|184294392|SUPERIORITY|||||||0.771||||||Threshold for statistical significance set at p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.771
92197587|NCT03617289|184294393|SUPERIORITY||||||<|0.046||||||Threshold for statistical significance was set at p\<0.05|Chi-squared|||||||<0.046
92197588|NCT02357264|184294406|OTHER|||||||0.162|||||||Fisher Exact|||||||.162
92197589|NCT00715117|184294437|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||||||0.005
92197590|NCT00715117|184294437|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92197591|NCT00715117|184294438|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Bowel symptoms||||>0.05
92197592|NCT00715117|184294438|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||t-test, 2 sided|||Social well-being||||0.035
92197593|NCT00715117|184294438|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Emotional well-being||||>0.05
92197594|NCT00715117|184294438|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED|95.0||||Systemic symptoms|t-test, 2 sided|||||||0.035
92197595|NCT00715117|184294438|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Body Image||||>0.05
92197596|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Sleep disturbance||||1.0
92197597|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||0.45|||||||Fisher Exact|||Unusual dreams||||0.45
92197598|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Twitching||||1.0
92197599|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Headaches||||1.0
92197600|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Decreased appetite||||1.0
92197601|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Nausea||||1.0
92197602|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Hair loss||||1.0
92197603|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Fatigue||||1.0
92197604|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Flushed ears||||1.0
92197605|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Papules, rash||||1.0
92197606|NCT00715117|184294439|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Double vision||||1.0
92197607|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|2.39|||||TWO_SIDED|95.0|1.39|4.1|||ANOVA|||Day 1, Men A, Pairwise comparison of geometric mean titer||4.1|1.39|
92197608|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|0.71|||||TWO_SIDED|95.0|0.42|1.2|||ANOVA|||Day 1, Men A, Pairwise comparison of geometric mean titer||1.2|0.42|
92197609|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|1.68|||||TWO_SIDED|95.0|0.98|2.9|||ANOVA|||Day 1, Men A, Pairwise comparison of geometric mean titer||2.9|0.98|
92197610|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|1.31|||||TWO_SIDED|95.0|0.59|2.91|||ANOVA|||Day 8, Men A, Pairwise comparison of geometric mean titer||2.91|0.59|
92197611|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|24.0|||||TWO_SIDED|95.0|11.0|52.0|||ANOVA|||Day 8, Men A, Pairwise comparison of geometric mean titer||52|11|
92197612|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|31.0|||||TWO_SIDED|95.0|14.0|69.0|||ANOVA|||Day 8, Men A, Pairwise comparison of geometric mean titer||69|14|
92197613|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|1.3|||||TWO_SIDED|95.0|0.7|2.42|||ANOVA|||Day 29, Men A, Pairwise comparison of geometric mean titer||2.42|0.7|
92197614|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|5.56|||||TWO_SIDED|95.0|3.01|10.0|||ANOVA|||Day 29, Men A, Pairwise comparison of geometric mean titer||10|3.01|
92197615|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|7.22|||||TWO_SIDED|95.0|3.86|13.0|||ANOVA|||Day 29, Men A, Pairwise comparison of geometric mean titer||13|3.86|
92197616|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|2.64|||||TWO_SIDED|95.0|1.4|4.99|||ANOVA|||Day 1, Men C, Pairwise comparison of geometric mean titer||4.99|1.4|
92197617|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|1.05|||||TWO_SIDED|95.0|0.56|1.97|||ANOVA|||Day 1, Men C, Pairwise comparison of geometric mean titer||1.97|0.56|
92197618|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|2.78|||||TWO_SIDED|95.0|1.47|5.27|||ANOVA|||Day 1, Men C, Pairwise comparison of geometric mean titer||5.27|1.47|
92197619|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|0.52|||||TWO_SIDED|95.0|0.23|1.13|||ANOVA|||Day 8, Men C, Pairwise comparison of geometric mean titer||1.13|0.23|
92197620|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|45.0|||||TWO_SIDED|95.0|21.0|97.0|||ANOVA|||Day 8, Men C, Pairwise comparison of geometric mean titer||97|21|
92197621|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|23.0|||||TWO_SIDED|95.0|10.0|51.0|||ANOVA|||Day 8, Men C, Pairwise comparison of geometric mean titer||51|10|
92197622|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|0.4|||||TWO_SIDED|95.0|0.2|0.82|||ANOVA|||Day 29, Men C, Pairwise comparison of geometric mean titer||0.82|0.2|
92197623|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|24.0|||||TWO_SIDED|95.0|12.0|48.0|||ANOVA|||Day 29, Men C, Pairwise comparison of geometric mean titer||48|12|
92197624|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|9.61|||||TWO_SIDED|95.0|4.69|20.0|||ANOVA|||Day 29, Men C, Pairwise comparison of geometric mean titer||20|4.69|
92197625|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|1.11|||||TWO_SIDED|95.0|0.55|2.21|||ANOVA|||Day 1, Men W-135, Pairwise comparison of geometric mean titer||2.21|0.55|
92197626|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|2.51|||||TWO_SIDED|95.0|1.27|4.96|||ANOVA|||Day 1, Men W-135, Pairwise comparison of geometric mean titer||4.96|1.27|
92197627|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|2.77|||||TWO_SIDED|95.0|1.38|5.57|||ANOVA|||Day 1, Men W-135, Pairwise comparison of geometric mean titer||5.57|1.38|
92197628|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|0.54|||||TWO_SIDED|95.0|0.28|1.04|||ANOVA|||Day 8, Men W-135, Pairwise comparison of geometric mean titer||1.04|0.28|
92197629|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|50.0|||||TWO_SIDED|95.0|26.0|94.0|||ANOVA|||Day 8, Men W-135, Pairwise comparison of geometric mean titer||94|26|
92197630|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|27.0|||||TWO_SIDED|95.0|14.0|52.0|||ANOVA|||Day 8, Men W-135, Pairwise comparison of geometric mean titer||52|14|
92197631|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|0.6|||||TWO_SIDED|95.0|0.34|1.04|||ANOVA|||Day 29, Men W-135, Pairwise comparison of geometric mean titer||1.04|0.34|
92197632|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|35.0|||||TWO_SIDED|95.0|20.0|60.0|||ANOVA|||Day 29, Men W-135, Pairwise comparison of geometric mean titer||60|20|
92321641|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|1.22|||||TWO_SIDED|95.0|0.87|1.71|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.71|0.87|
92321642|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.62|||||TWO_SIDED|95.0|0.46|0.82|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||0.82|0.46|
92321643|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|1.62|||||TWO_SIDED|95.0|1.22|2.17|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||2.17|1.22|
92321644|NCT03423173|184548266|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.75|1.35|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||1.35|0.75|
92321645|NCT03423173|184548267|OTHER||Seropositivity Rates Difference|0.6|||||TWO_SIDED|95.0|-4.99|6.06|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 120||6.06|-4.99|
92321646|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-1.65|||||TWO_SIDED|95.0|-6.9|3.19|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 120||3.19|-6.90|
92321647|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-2.25|||||TWO_SIDED|95.0|-7.45|2.69|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 120||2.69|-7.45|
92197633|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|21.0|||||TWO_SIDED|95.0|12.0|36.0|||ANOVA|||Day 29, Men W-135, Pairwise comparison of geometric mean titer||36|12|
92321648|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|7.87|||||TWO_SIDED|95.0|0.64|15.3|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 270||15.30|0.64|
92321649|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|1.5|||||TWO_SIDED|95.0|-4.67|7.65|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 270||7.65|-4.67|
92321650|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-6.37|||||TWO_SIDED|95.0|-14.0|1.04|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 270||1.04|-14.00|
92321651|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|0.72|||||TWO_SIDED|95.0|-3.87|5.29|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 120||5.29|-3.87|
92197634|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|0.9|||||TWO_SIDED|95.0|0.48|1.69|||ANOVA|||Day 1, Men Y, Pairwise comparison of geometric mean titer||1.69|0.48|
92197635|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|3.61|||||TWO_SIDED|95.0|1.94|6.74||||||Day 1, Men Y, Pairwise comparison of geometric mean titer||6.74|1.94|
92197636|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|3.24|||||TWO_SIDED|95.0|1.71|6.13|||ANOVA|||Day 1, Men Y, Pairwise comparison of geometric mean titer||6.13|1.71|
92321652|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-0.83|||||TWO_SIDED|95.0|-5.24|3.17|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 120||3.17|-5.24|
92321653|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-1.55|||||TWO_SIDED|95.0|-6.05|2.58|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 120||2.58|-6.05|
92321654|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|2.42|||||TWO_SIDED|95.0|-2.12|7.44|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 270||7.44|-2.12|
92321655|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|0.83|||||TWO_SIDED|95.0|-3.41|5.24|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 270||5.24|-3.41|
92321656|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-1.59|||||TWO_SIDED|95.0|-6.67|3.17|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 270||3.17|-6.67|
92321657|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|2.93|||||TWO_SIDED|95.0|-3.07|9.06|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 120||9.06|-3.07|
92197637|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|0.33|||||TWO_SIDED|95.0|0.16|0.66|||ANOVA|||Day 8, Men Y, Pairwise comparison of geometric mean titer||0.66|0.16|
92197638|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|121.0|||||TWO_SIDED|95.0|61.0|241.0|||ANOVA|||Day 8, Men Y, Pairwise comparison of geometric mean titer||241|61|
92197639|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|40.0|||||TWO_SIDED|95.0|20.0|80.0|||ANOVA|||Day 8, Men Y, Pairwise comparison of geometric mean titer||80|20|
92321658|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-0.81|||||TWO_SIDED|95.0|-6.17|4.44|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 120||4.44|-6.17|
92321659|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-3.73|||||TWO_SIDED|95.0|-9.74|2.03|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 120||2.03|-9.74|
92321660|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|6.79|||||TWO_SIDED|95.0|-1.03|14.56|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 270||14.56|-1.03|
92321661|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|3.0|||||TWO_SIDED|95.0|-4.28|10.23|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 270||10.23|-4.28|
92197640|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|0.58|||||TWO_SIDED|95.0|0.32|1.05|||ANOVA|||Day 29, Men Y, Pairwise comparison of geometric mean titer||1.05|0.32|
92321662|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-3.79|||||TWO_SIDED|95.0|-11.97|4.39|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 270||4.39|-11.97|
92321663|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-2.5|||||TWO_SIDED|95.0|-7.68|1.55|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 120||1.55|-7.68|
92321664|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|0.04|||||TWO_SIDED|95.0|-5.47|5.62|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 120||5.62|-5.47|
92321665|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|2.54|||||TWO_SIDED|95.0|-1.52|7.81|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 120||7.81|-1.52|
92321666|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|-1.52|||||TWO_SIDED|95.0|-9.14|5.69|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 270||5.69|-9.14|
92321667|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|1.13|||||TWO_SIDED|95.0|-6.9|8.95|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 270||8.95|-6.90|
92321668|NCT03423173|184548267|OTHER||Seropositivity Rate Difference|2.64|||||TWO_SIDED|95.0|-4.68|10.18|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 270||10.18|-4.68|
92321669|NCT03423173|184548268|OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.56|1.42|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||1.42|0.56|
92321670|NCT03423173|184548268|OTHER||GMT Ratio|0.81|||||TWO_SIDED|95.0|0.51|1.28|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||1.28|0.51|
92321671|NCT03423173|184548268|OTHER||GMT Ratio|0.73|||||TWO_SIDED|95.0|0.46|1.16|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||1.16|0.46|
92321672|NCT03423173|184548268|OTHER||GMT Ratio|1.37|||||TWO_SIDED|95.0|1.02|1.86|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||1.86|1.02|
92197641|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|33.0|||||TWO_SIDED|95.0|18.0|60.0|||ANOVA|||Day 29, Men Y, Pairwise comparison of geometric mean titer||60|18|
92197642|NCT01018732|184294454|SUPERIORITY_OR_OTHER||ratio of titer|19.0|||||TWO_SIDED|95.0|10.0|35.0|||ANOVA|||Day 29, Men Y, Pairwise comparison of geometric mean titer||35|10|
92197643|NCT01385748|184294530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.677||||0.165|TWO_SIDED|95.0|0.387|1.186|||Log Rank|The log rank test at 5% significance level was used.||||1.186|0.387|0.165
92197644|NCT01385748|184294530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.817||||0.421|TWO_SIDED|95.0|0.495|1.35|||Log Rank|The log rank test at 5% significance level was used.||||1.35|0.495|0.421
92197645|NCT01385748|184294530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.754||||0.211|TWO_SIDED|95.0|0.484|1.175|||Log Rank|The log rank test at 5% significance level was used.||||1.175|0.484|0.211
92321673|NCT03423173|184548268|OTHER||GMT Ratio|0.65|||||TWO_SIDED|95.0|0.48|0.87|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||0.87|0.48|
92321674|NCT03423173|184548268|OTHER||GMT ratio|0.89|||||TWO_SIDED|95.0|0.66|1.21|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||1.21|0.66|
92321675|NCT03423173|184548268|OTHER||GMT Ratio|1.4|||||TWO_SIDED|95.0|1.0|1.94|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.94|1.00|
92321676|NCT03423173|184548268|OTHER||GMT Ratio|0.88|||||TWO_SIDED|95.0|0.64|1.21|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.21|0.64|
92321677|NCT03423173|184548268|OTHER||GMT Ratio|1.23|||||TWO_SIDED|95.0|0.88|1.71|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.71|0.88|
92321678|NCT03423173|184548268|OTHER||GMT Ratio|0.83|||||TWO_SIDED|95.0|0.58|1.18|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||1.18|0.58|
92321679|NCT03423173|184548268|OTHER||GMT Ratio|1.51|||||TWO_SIDED|95.0|1.07|2.14|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||2.14|1.07|
92321680|NCT03423173|184548268|OTHER||GMT Ratio|1.25|||||TWO_SIDED|95.0|0.88|1.78|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||1.78|0.88|
92321681|NCT02920008|184548274|SUPERIORITY||||||=|0.3287|||||||Stratified log-rank|||||||= 0.3287
92321682|NCT02411396|184548293|OTHER|In order to eliminate bias from the naïve estimation on the treatment effects due to the confounders, time varying propensity score model was developed. This balanced the covariates between the two arms at each single acute visit of each patient. A sub classification on the propensity scores was used to estimate the potential outcome for each arm and the average treatment effects (ATE). Bootstrapping was employed to estimate the standard error of ATE.|Mean Difference (Final Values)|124.6|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|118.3|130.9||||||This analysis is to compare outcome measure between ED or IC visits by using time varying propensity score method developed by our group to adjust imbalance of covariates between the two arms. Each patient can have multiple visits to the facility of choice.||130.9|118.3|
92321683|NCT02411396|184548294|OTHER|In order to eliminate bias from the naïve estimation on the treatment effects due to the confounders, time varying propensity score model was developed. This balanced the covariates between the two arms at each single acute visit of each patient. A sub classification on the propensity scores was used to estimate the potential outcome for each arm and the average treatment effects (ATE). Bootstrapping was employed to estimate the standard error of ATE.|Odds Ratio (OR)|5.14|||||TWO_SIDED|95.0|4.13|6.41|||||VOC in patients with SCD whom went to EDs represents the numerator, VOC in patients with SCD whom went to ICs represents the denominator for Odds Ratio.|||6.41|4.13|
92321684|NCT02411396|184548295|OTHER|In order to eliminate bias from the naïve estimation on the treatment effects due to the confounders, time varying propensity score model was developed. This balanced the covariates between the two arms at each single acute visit of each patient. A sub classification on the propensity scores was used to estimate the potential outcome for each arm and the average treatment effects (ATE). Bootstrapping was employed to estimate the standard error of ATE.|Odds Ratio (OR)|2.24|||||TWO_SIDED|95.0|1.84|2.72|||||VOC in patients with SCD whom went to ICs represents the numerator, VOC in patients with SCD whom went to EDs represents the denominator for Odds Ratio.|||2.72|1.84|
92321685|NCT02016105|184548302|EQUIVALENCE|Adjusted response rates were estimated using a logistic regression model including treatment, body weight strata, region and prior systemic therapy. The 95% CI for the rate difference was derived based on the normal approximation and standard error computed using the delta method.To conclude equivalent efficacy, the 95% CI had to be entirely within the interval \[-18%, 18%\].|Risk Difference (RD)|1.8|STANDARD_ERROR_OF_MEAN|4.75|||TWO_SIDED|95.0|-7.46|11.15||||||||11.15|-7.46|
92321686|NCT02016105|184548303|EQUIVALENCE|"LS means, SE and 95% CI were estimated by a Mixed Model Repeated Measures (MMRM) model with treatment, visit, treatment-by-visit interaction, body weight strata, region and prior systemic therapy, as fixed factors and baseline PASI score as covariate.~Therapeutic equivalence in terms of the % change from baseline in PASI score was to be determined if the 95% CI for the difference between GP2017 and Humira treatment was contained within the interval \[-15%; 15%\]."|LS means difference|0.8|STANDARD_ERROR_OF_MEAN|2.03|||TWO_SIDED|95.0|-3.15|4.84||||||||4.84|-3.15|
92321687|NCT02016105|184548304|EQUIVALENCE|LSM, SE and 95% CI were estimated using an ANCOVA model with treatment, body weight strata, region and prior systemic therapy as fixed effects and baseline PASI score as covariate. Therapeutic equivalence in terms of the % change from baseline in PASI score was to be determined if the 95% CI for the difference between GP2017 and Humira was contained within the interval \[-15%; 15%\].|LS means difference|1.2|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-2.78|5.08||||||||5.08|-2.78|
92321688|NCT03521115|184548372|SUPERIORITY||Odds Ratio (OR)|0.4|||<|0.01|TWO_SIDED||||||Regression, Logistic|b=-.91, controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.||6 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.01
92321689|NCT03521115|184548372|SUPERIORITY||Odds Ratio (OR)|0.58|||<|0.1|TWO_SIDED||||||Regression, Logistic||Controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|12 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.10
92321690|NCT03521115|184548372|SUPERIORITY||Chi-Square|5.129||||0.077|TWO_SIDED||||||Chi-squared|||18 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. All controls were assigned 0 dosage.||||.077
92321691|NCT03521115|184548373|SUPERIORITY||b|-0.47|||<|0.001|TWO_SIDED||||||Regression, Linear|Controled for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.||6 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.001
92321692|NCT03521115|184548373|SUPERIORITY||b|-0.97|||<|0.01|TWO_SIDED||||||Regression, Linear|Controlled for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.||12 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.01
92321693|NCT03521115|184548373|SUPERIORITY||F|0.85|||>|0.1|TWO_SIDED||||||ANOVA|||18 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. All controls were assigned 0 dosage.||||>0.10
92321694|NCT03521115|184548374|SUPERIORITY||b|-0.22|||<|0.1|TWO_SIDED||||||Regression, Linear||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|6 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.10
92321695|NCT03521115|184548374|SUPERIORITY||b|-0.24|||<|0.05|TWO_SIDED||||||Regression, Linear||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|12 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.05
92197646|NCT01385748|184294533|SUPERIORITY_OR_OTHER|||||||0.807||||||Significance threshold = 5%|Wilcoxon (Mann-Whitney)|||||||0.807
92197647|NCT01385748|184294533|SUPERIORITY_OR_OTHER|||||||0.971||||||Significance threshold = 5%|Wilcoxon (Mann-Whitney)|||||||0.971
92321696|NCT03521115|184548374|SUPERIORITY||F|0.43|||>|0.1|TWO_SIDED||||||ANOVA|||18 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. All controls were assigned 0 dosage.||||>0.10
92321697|NCT03521115|184548375|SUPERIORITY||b|-0.16|||<|0.1|TWO_SIDED||||||Regression, Linear|Controlled for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.||6 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<.10
92321698|NCT03521115|184548375|SUPERIORITY||b|-0.26|||<|0.05|TWO_SIDED||||||Regression, Linear|Controlled for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.||12 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.05
92321699|NCT03521115|184548375|SUPERIORITY||F|1.55|||>|0.1|TWO_SIDED||||||ANOVA|||18 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. All controls were assigned 0 dosage.||||>0.10
92321700|NCT03521115|184548376|SUPERIORITY||b|-0.35|||<|0.05|TWO_SIDED||||||Regression, Linear||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|6 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.05
92321701|NCT03521115|184548376|SUPERIORITY||b|-0.02|||>|0.1|TWO_SIDED||||||Regression, Linear||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|12 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||>0.10
92197648|NCT01385748|184294535|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.698||||0.199|TWO_SIDED|95.0|0.398|1.223||Significance threshold = 5%|Log Rank|||||1.223|0.398|0.199
92197649|NCT01385748|184294535|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.817||||0.424|TWO_SIDED|95.0|0.493|1.353|||Log Rank|Significance threshold = 5%||||1.353|0.493|0.424
92197650|NCT01385748|184294535|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.764||||0.235|TWO_SIDED|95.0|0.489|1.193|||Log Rank|Significance threshold = 5%||||1.193|0.489|0.235
92197651|NCT01385748|184294536|SUPERIORITY_OR_OTHER|||||||0.176|||||||Kruskal-Wallis|Significance threshold = 5%||||||0.176
92197652|NCT01385748|184294536|SUPERIORITY_OR_OTHER|||||||0.61|||||||Kruskal-Wallis|Significance threshold = 5%||||||0.61
92197653|NCT01385748|184294536|SUPERIORITY_OR_OTHER|||||||0.295|||||||Kruskal-Wallis|Significance threshold = 5%||||||0.295
92321702|NCT03521115|184548377|SUPERIORITY||b|0.299|||<|0.01|TWO_SIDED||||||generalized estimating equations||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.01
92321703|NCT03521115|184548378|SUPERIORITY||b|0.268|||<|0.03|TWO_SIDED||||||generalized estimating equations|||Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<.03
92321704|NCT03521115|184548379|SUPERIORITY||b|0.075|||>|0.1|TWO_SIDED||||||generalized estimating equations||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||>0.10
92321705|NCT03521115|184548380|SUPERIORITY||b|0.051|||>|0.1|TWO_SIDED||||||generalized estimating equations||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||>0.10
92197654|NCT01385748|184294537|SUPERIORITY_OR_OTHER|||||||0.063||||||Significance threshold = 5%|Chi-squared|||||||0.063
92197655|NCT01385748|184294537|SUPERIORITY_OR_OTHER|||||||0.169|||||||Chi-squared|||||||0.169
92197656|NCT01385748|184294537|SUPERIORITY_OR_OTHER|||||||0.064|||||||Chi-squared|Significance threshold = 5%||||||0.064
92197657|NCT01385748|184294538|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.824||||0.388|TWO_SIDED|95.0|0.484|1.401|||Log Rank|Significance threshold = 5%||||1.401|0.484|0.388
92321706|NCT03521115|184548381|SUPERIORITY||b|0.72|||<|0.05|TWO_SIDED||||||generalized estimating equations|||Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.05
92321707|NCT03521115|184548382|SUPERIORITY||||||>|0.1|||||||Chi-squared|||Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||>0.10
92321708|NCT01430403|184548386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48|STANDARD_ERROR_OF_MEAN|0.331||0.03|TWO_SIDED|95.0|0.25|0.92|||Odds Ratio|Adjusted for Site, dosing group and treatment step|Placebo serves as the reference group. Values \< 1 represent more exacerbations in the placebo arm.|Null hypothesis is that there is no difference between the arms. Power calculation is described in detail in the study protocol.||0.92|0.25|0.03
92197658|NCT01385748|184294538|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.601||||0.054|TWO_SIDED|95.0|0.357|1.012|||Log Rank|Significance threshold = 5%||||1.012|0.357|0.054
92197659|NCT01385748|184294538|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.692||||0.102|TWO_SIDED|95.0|0.444|1.078|||Log Rank|Significance threshold = 5%||||1.078|0.444|0.102
92197660|NCT00159263|184294540|OTHER|Friedman ANOVA followed Dunn's pairwise comparisons||||||0.04|||||||ANOVA|||||||0.04
92197661|NCT00159263|184294541|OTHER|Friedman Anova||||||0.01|||||||ANOVA|||||||0.01
92197662|NCT00159263|184294542|OTHER|Friedman Anova||||||0.04|||||||ANOVA|||||||0.04
92197663|NCT03332784|184294579|SUPERIORITY||||||<|0.0001||||||The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group.|ANOVA|||||||<0.0001
92197664|NCT03332784|184294579|SUPERIORITY||||||<|0.0001||||||The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group.|ANOVA|||||||<0.0001
92197665|NCT03332784|184294579|SUPERIORITY|||||||0.0001||||||The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group.|ANOVA|||||||0.0001
92197666|NCT00763451|184294601|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.089|<|0.0001|TWO_SIDED|95.0|-0.583|-0.232||Stepwise testing procedure applied to control type 1 error: Lixisenatide (2-step titration) was compared with Placebo (combined), if found statistically significant, then Lixisenatide (1-step titration) arm compared with Placebo (combined).|ANCOVA|Threshold for significance at 0,05 level||"To detect a difference of 0.5% (or 0.4%) in absolute change from baseline in HbA1c at Week 24 between 1 lixisenatide arm and placebo (combined), 150 patients per group would provide a power of 91% (or 75%) assuming common standard deviation of 1.3% with 2-sided test at 5% significance level.~Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0,\>=8.0%) and screening BMI (\<30,\>=30 kg/m\^2), country as fixed effects, baseline HbA1c as covariate."||-0.232|-0.583|<0.0001
92197667|NCT00763451|184294601|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.67|-0.317||Stepwise testing procedure applied to control type 1 error: Lixisenatide (2-step titration) was compared with Placebo (combined), if found statistically significant, then Lixisenatide (1-step titration) arm compared with Placebo (combined).|ANCOVA|Threshold for significance at 0,05 level||"To detect a difference of 0.5% (or 0.4%) in absolute change from baseline in HbA1c at Week 24 between 1 lixisenatide arm and placebo (combined), 150 patients per group would provide a power of 91% (or 75%) assuming common standard deviation of 1.3% with 2-sided test at 5% significance level.~Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0,\>=8.0%) and screening BMI (\<30,\>=30 kg/m\^2), country as fixed effects, baseline HbA1c as covariate."||-0.317|-0.670|<0.0001
92197668|NCT01827046|184294609|SUPERIORITY||Risk Difference (RD)|2.0||||0.73|TWO_SIDED|95.0|-6.8|10.7|||Chi-squared|||||10.7|-6.8|0.73
92197669|NCT01827046|184294609|SUPERIORITY||Risk Difference (RD)|4.0||||0.33|TWO_SIDED|95.0|-4.0|12.0|||Multivariate logit model|||Adjusted for age, GCS, stability ICH volume, stability IVH volume, ICH deep location||12|-4|0.33
92197670|NCT01827046|184294610|SUPERIORITY||Risk Difference (RD)|0.03||||0.55|TWO_SIDED|95.0|-0.06|0.11|||Chi-squared|||||0.11|-0.06|0.55
92197671|NCT01827046|184294610|SUPERIORITY||Risk Difference (RD)|1.26||||0.27|TWO_SIDED|95.0|0.82|1.97|||Multivariate logit model|Adjusted for age, GCS, stability ICH volume, stability IVH volume and ICH deep location||||1.97|0.82|0.27
92321709|NCT01430403|184548387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73|STANDARD_ERROR_OF_MEAN|0.41||0.45|TWO_SIDED|95.0|0.33|1.64|||Odds Ratio|Adjusted for Site, dosing group and treatment step|ICS Boost serves as the reference group. Values \< 1 represent more exacerbations in the ICS arm.|Null hypothesis is that there is no difference between the arms. Power calculation is described in detail in the study protocol.||1.64|0.33|0.45
92321710|NCT01430403|184548388|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.53|||<|0.01|TWO_SIDED|95.0|2.38|5.22|||Chi-squared||Adjusted for site|||5.22|2.38|<0.01
92321711|NCT01430403|184548389|SUPERIORITY_OR_OTHER||Linear Regression|0.004||||0.94|TWO_SIDED|95.0|-0.1|0.11|||F-Test|||||0.11|-0.10|0.94
92321712|NCT01430403|184548389|SUPERIORITY_OR_OTHER||Linear Regression|-0.13||||0.33|TWO_SIDED|95.0|-0.4|0.13|||F-Test|||||0.13|-0.40|0.33
92321713|NCT01430403|184548390|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.552|TWO_SIDED|95.0|0.87|1.31|||Chi-squared|||||1.31|0.87|0.552
92321714|NCT01430403|184548390|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.37|TWO_SIDED|95.0|0.87|1.44|||Chi-squared|||||1.44|0.87|0.37
92321715|NCT01430403|184548391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.3||0.09|TWO_SIDED|95.0|-1.11|0.07|||Regression, Linear|Adjustments for randomization CASI, site, dosing group and treatment group step (2-4 as one step and 5 separately)||||0.07|-1.11|0.09
92321716|NCT01430403|184548392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.3||0.39|TWO_SIDED|95.0|-0.86|0.34|||Regression, Linear|Adjustments for randomization CASI, site and dosing group||||0.34|-0.86|0.39
92321717|NCT01430403|184548393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|1.58||0.84|TWO_SIDED|95.0|-3.42|2.78|||Regression, Linear|Adjustments for randomization FEV1 % predicted, site, dosing group and treatment group step (2-4 as one step and 5 separately)||||2.78|-3.42|0.84
92321718|NCT01430403|184548394|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.37|STANDARD_ERROR_OF_MEAN|1.59||0.14|TWO_SIDED|95.0|-0.76|5.51|||Regression, Linear|Adjustments for randomization FEV1 % predicted, site and dosing group.||||5.51|-0.76|0.14
92321719|NCT01430403|184548395|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.89||0.78|TWO_SIDED|95.0|-1.49|1.99|||Regression, Linear|Adjustments for randomization FEV1:FVCx100, site, dosing group and treatment group step (2-4 as one step and 5 separately)||||1.99|-1.49|0.78
92321720|NCT01430403|184548396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.15|STANDARD_ERROR_OF_MEAN|0.89||0.2|TWO_SIDED|95.0|-0.61|2.91|||Regression, Linear|Adjustments for randomization FEV1:FVCx100, site and dosing group.||||2.91|-0.61|0.20
92321721|NCT01430403|184548397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.11|STANDARD_ERROR_OF_MEAN|0.4||0.006|TWO_SIDED|95.0|0.32|1.9|||Regression, Linear|Adjustments for randomization ACT, site, dosing group and treatment group step (2-4 as one step and 5 separately)||||1.90|0.32|0.006
92197672|NCT01827046|184294611|SUPERIORITY|||||||0.08|TWO_SIDED|95.0|||||Log Rank|||||||0.08
92197673|NCT01827046|184294611|SUPERIORITY||Cox Proportional Hazard|0.67||||0.037|TWO_SIDED|95.0|0.45|0.98|||Adjusted Cox proportional Hazard|Adjusted for age, GCS, Stability ICH volume, Stability IVH volume, ICH deep location, diabetes, cardiovascular disease and race.||||0.98|0.45|0.037
92197674|NCT01827046|184294612|SUPERIORITY||Odds Ratio (OR)|0.7|||<|0.001|TWO_SIDED|95.0|0.62|0.8|||Logit model|||||0.80|0.62|<0.001
92321722|NCT01430403|184548398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.41||0.89|TWO_SIDED|95.0|-0.76|0.86|||Regression, Linear|Adjustments for randomization ACT, site and dosing group.||||0.86|-0.76|0.89
92321723|NCT01430403|184548399|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.71|STANDARD_ERROR_OF_MEAN|0.36||0.05|TWO_SIDED|95.0|0.0|1.41|||Regression, Linear|Adjustments for randomization C-ACT, site, dosing group and treatment group step (2-4 as one step and 5 separately)||||1.41|0.00|0.05
92321724|NCT01430403|184548400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|0.37||0.12|TWO_SIDED|95.0|-0.15|1.3|||Regression, Linear|Adjustments for randomization C-ACT, site and dosing group||||1.30|-0.15|0.12
92321725|NCT01430403|184548401|SUPERIORITY_OR_OTHER||Rate Ratio|0.72|STANDARD_ERROR_OF_MEAN|0.68||0.63|TWO_SIDED|95.0|0.19|0.72|||Negative Binomial Generalized Estimating|Adjustments for site, dosing group and treatment group step (2-4 as one step and 5 separately)||||0.72|0.19|0.63
92321726|NCT01430403|184548402|SUPERIORITY_OR_OTHER||Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.63||0.99|TWO_SIDED|95.0|0.29|3.46|||Negative Binomial Generalized Estimating|Adjustments for site and dosing group||||3.46|0.29|0.99
92321727|NCT01430403|184548403|SUPERIORITY_OR_OTHER||Ratio|0.72|STANDARD_ERROR_OF_MEAN|0.32||0.31|TWO_SIDED|95.0|0.39|1.35|||Negative Binomial Generalized Estimating|Adjustments for site, dosing group and treatment group step (2-4 as one step and 5 separately)||||1.35|0.39|0.31
92321728|NCT01430403|184548404|SUPERIORITY_OR_OTHER||Ratio|0.48|STANDARD_ERROR_OF_MEAN|0.39||0.06|TWO_SIDED|95.0|0.23|1.02|||Negative Binomial Generalized Estimating|Adjustments for site and dosing group||||1.02|0.23|0.06
92321729|NCT01430403|184548405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|1.48||0.9|TWO_SIDED|95.0|-3.08|2.72|||Regression, Linear|Adjustments for site, dosing group and treatment group step (2-4 as one step and 5 separately)||||2.72|-3.08|0.90
92321730|NCT01430403|184548406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|1.52||0.86|TWO_SIDED|95.0|-3.26|2.71|||Regression, Linear|Adjustments for site and dosing group.||||2.71|-3.26|0.86
92321731|NCT02677922|184548414|SUPERIORITY||Odds Ratio (OR)|4.86||||0.0003|TWO_SIDED|95.0|1.99|11.85|||Chi-squared|||||11.85|1.99|0.0003
92321732|NCT02677922|184548417|SUPERIORITY||Cox Proportional Hazard|0.59||||0.1083|TWO_SIDED|95.0|0.3|1.13|||Log Rank|||||1.13|0.30|0.1083
92321733|NCT02677922|184548419|SUPERIORITY||Odds Ratio (OR)|8.65|||<|0.001|TWO_SIDED|95.0|2.74|27.31|||Chi-squared|||||27.31|2.74|<0.001
92321734|NCT02677922|184548420|SUPERIORITY||Odds Ratio (OR)|1.77||||0.1943|TWO_SIDED|95.0|0.74|4.2|||Chi-squared|||||4.20|0.74|0.1943
92321735|NCT02677922|184548423|SUPERIORITY||Cox Proportional Hazard|0.99||||0.972|TWO_SIDED|95.0|0.52|1.87|||Log Rank|Unstratified log-rank test|Cox proportional hazards regression model|||1.87|0.52|0.9720
92321736|NCT02677922|184548424|OTHER|Confidence interval of difference|Difference|2.6|||||TWO_SIDED|95.0|-17.3|22.5|||||The CI for the difference was derived using Greenwood's variance estimate.|||22.5|-17.3|
92321737|NCT01080118|184548439|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.05||||0.001|TWO_SIDED|99.0|0.05|0.05|||t-test, 2 sided|||||.05|.05|.001
92321738|NCT01080118|184548439|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence||||||0.001||95.0|||||t-test, 2 sided|||||||.001
92321739|NCT00637000|184548441|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|The statistical method used was a group by time repeated measures model with a first-order autoregressive covariance structure||To test the primary study hypothesis that neither soluble film formulation would precipitate an opioid withdrawal syndrome, peak COWS score in the 23.5 hour period after the initial soluble film administration were compared to pre-administration baseline COWS scores (30 minutes prior to soluble film administration) using a group by time repeated measures model with a first-order autoregressive covariance structure.||||<0.0001
92321740|NCT00637000|184548442|SUPERIORITY_OR_OTHER|||||||0|||||||Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.000
92321741|NCT00637000|184548443|SUPERIORITY_OR_OTHER|||||||0.035||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.035
92197675|NCT01827046|184294612|SUPERIORITY||Odds Ratio (OR)|0.68|||<|0.001|TWO_SIDED|95.0|0.59|0.78|||Multivariate logit model|Adjusted for age, GCS, stability IVH volume, and ICH deep location||||0.78|0.59|<0.001
92197676|NCT01827046|184294613|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
92321742|NCT00637000|184548444|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
92321743|NCT00637000|184548445|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
92321744|NCT00637000|184548446|SUPERIORITY_OR_OTHER|||||||0.006||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.006
92321745|NCT00637000|184548447|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
92321746|NCT00637000|184548448|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
92321747|NCT00637000|184548449|SUPERIORITY_OR_OTHER|||||||0.762||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.762
92321748|NCT00637000|184548450|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
92197677|NCT01827046|184294614|SUPERIORITY||Risk Difference (RD)|0.04||||0.34|TWO_SIDED|95.0|-0.04|0.11|||Chi-squared|||||0.11|-0.04|0.34
92197678|NCT01827046|184294615|SUPERIORITY||Risk Difference (RD)|-0.01||||0.76|TWO_SIDED|95.0|-0.1|0.07|||Chi-squared|||||0.07|-0.10|0.76
92197679|NCT01827046|184294615|SUPERIORITY||Odds Ratio (OR)|1.25||||0.31|TWO_SIDED|95.0|0.81|1.94|||Multivariate logit model|Adjusted for age, GCS, Stability ICH volume, Stability IVH volume, ICH deep location||||1.94|0.81|0.31
92197680|NCT01827046|184294616|SUPERIORITY||Risk Difference (RD)|0.01||||0.79|TWO_SIDED|95.0|-0.07|0.09|||Chi-squared|||||0.09|-0.07|0.79
92197681|NCT01827046|184294616|SUPERIORITY||Odds Ratio (OR)|1.24||||0.35|TWO_SIDED|95.0|0.79|1.97|||Multivariate logit model|Adjusted for age, GCS, Stability ICH volume, Stability IVH volume, ICH deep location||||1.97|0.79|0.35
92197682|NCT01827046|184294617|SUPERIORITY|||||||0.46|||||||Median test|||||||0.46
92197683|NCT01827046|184294618|SUPERIORITY|||||||0.75|||||||Median test|||||||0.75
92197684|NCT01827046|184294619|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.66
92197685|NCT01827046|184294620|SUPERIORITY|||||||0.87|||||||Chi-squared|||||||0.87
92197686|NCT01827046|184294621|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.02
92197687|NCT01827046|184294622|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92197688|NCT01827046|184294623|SUPERIORITY|||||||0.32|||||||Chi-squared|||||||0.32
92197689|NCT01827046|184294624|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
92197690|NCT01827046|184294625|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
92197691|NCT05594589|184294634|SUPERIORITY||Least Squares Geometric Mean(LSGM) Ratio|0.377||||0.0133|TWO_SIDED|95.0|0.175|0.81|||ANCOVA|P-value was based on analysis of covariance (ANCOVA) model with log transformation of baseline LPS and treatment arms as fixed effects.|LSGM ratio was calculated as Lemborexant 5 mg/Placebo.|||0.810|0.175|0.0133
92197692|NCT05594589|184294635|SUPERIORITY||LSGM Ratio|0.48||||0.0619|TWO_SIDED|95.0|0.222|1.038|||ANCOVA|P-value was based on ANCOVA model with log transformation of baseline LPS and treatment arms as fixed effects.|LSGM ratio was calculated as Lemborexant 10 mg/Placebo.|||1.038|0.222|0.0619
92197693|NCT05594589|184294636|SUPERIORITY||Least Square Mean (LSM) Difference|7.38||||0.0689|TWO_SIDED|95.0|-0.59|15.35|||ANCOVA|P-value was based on ANCOVA model with log transformation of baseline LPS and treatment arms as fixed effects.|LSM difference was calculated as Lemborexant 5 mg - Placebo.|||15.35|-0.59|0.0689
92321749|NCT00637000|184548451|SUPERIORITY_OR_OTHER|||||||0.349||||||The p-value is not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.349
92321750|NCT00637000|184548452|SUPERIORITY_OR_OTHER|||||||0.028||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.028
92321751|NCT00637000|184548453|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
92321752|NCT00637000|184548454|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
92321753|NCT00637000|184548455|SUPERIORITY_OR_OTHER|||||||0.117||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.117
92321754|NCT00637000|184548456|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
92321755|NCT00637000|184548457|SUPERIORITY_OR_OTHER|||||||0.238||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.238
92321756|NCT04791319|184548472|SUPERIORITY||MH weights|7.1||||0.489|TWO_SIDED|95.0|-12.1|26.2||Threshold for significance at 0.05 level.|Chi-squared|||||26.2|-12.1|0.489
92321757|NCT04791319|184548472|SUPERIORITY||MH Weights|7.1||||0.448|TWO_SIDED|95.0|-9.4|23.7|||Chi-squared|||||23.7|-9.4|0.448
92321758|NCT04791319|184548472|SUPERIORITY||MH Weights|42.0||||0.001|TWO_SIDED|95.0|22.9|61.1|||Chi-squared|||||61.1|22.9|0.001
92321759|NCT03660189|184548480|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||||||0.54
92321760|NCT03660189|184548480|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||||||0.44
92321761|NCT03660189|184548482|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92321762|NCT03660189|184548485|SUPERIORITY|||||||0.91|||||||Fisher Exact|||||||0.91
92321763|NCT03660189|184548486|SUPERIORITY|||||||0.45|||||||Fisher Exact|||||||0.45
92321764|NCT03660189|184548490|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92321765|NCT03660189|184548491|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
92321766|NCT00791661|184548496|SUPERIORITY_OR_OTHER||Geometric mean ratio (fed/fasted)|0.92||||||95.0|||||Mixed-effect model|Based on mixed effect model with panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.||||||
92321767|NCT00791661|184548498|SUPERIORITY_OR_OTHER||Geometric mean ratio (fed/fasted)|0.81||||||95.0|||||Mixed-effect model|Based on mixed effect model with panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.||||||
92321768|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Difference in least squares mean|-8.1||||0.368|TWO_SIDED|90.0|-23.0|6.8||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 15 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||6.8|-23.0|0.368
92321769|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Difference in least squares mean|-16.6||||0.079|TWO_SIDED|90.0|-32.2|-1.1||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 30 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-1.1|-32.2|0.079
92321770|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Difference in least squares mean|-25.7||||0.007|TWO_SIDED|90.0|-40.9|-10.5||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 45 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-10.5|-40.9|0.007
92321771|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Diffrence in least squares mean|-36.3|||<|0.001|TWO_SIDED|90.0|-52.0|-20.5||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 60 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-20.5|-52.0|<.001
92197694|NCT05594589|184294637|SUPERIORITY||LSM Difference|8.16||||0.0439|TWO_SIDED|95.0|0.23|16.09|||ANCOVA|P-value was based on ANCOVA model with log transformation of baseline LPS and treatment arms as fixed effects.|LSM difference was calculated as Lemborexant 10 mg - Placebo.|||16.09|0.23|0.0439
92197695|NCT01262092|184294649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2887||||0.035||95.0||||p values \<0.05 considered statistically significant|Mixed Models Analysis|Used proc GLIMMIX to model group by time (6 study visits)||"test null hypothesis that gbp and pla did not differ in terms of opioid-positive urines during the buprenorphine detox.~For the analysis, data from 2 participants in the GBP groups were excluded due to evidence of medication diversion (N=1) and not being maintained on the 1600 mg/day dose of GBP (N=1)."||||0.035
92321772|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Difference in least squares mean|-19.7||||0.147|TWO_SIDED|90.0|-42.2|2.7|||Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 60 mg fed minus LS mean for placebo fed.|||2.7|-42.2|0.147
92197696|NCT03784820|184294650|SUPERIORITY||Odds Ratio (OR)|0.35||||0.36|TWO_SIDED|95.0|0.04|3.27||Comparison of Patients at Post (T2) \[CBT-E is the reference\]|Mixed Models Analysis|||||3.27|0.04|0.36
92197697|NCT03784820|184294650|SUPERIORITY||Odds Ratio (OR)|0.29||||0.38|TWO_SIDED|95.0|0.02|4.6||Comparison of Patients at 3 Month Fup (T3) \[CBT-E is the reference\]|Mixed Models Analysis|||||4.60|0.02|0.38
92197698|NCT03784820|184294650|SUPERIORITY||Odds Ratio (OR)|2.2||||0.54|TWO_SIDED|95.0|0.18|27.39||Comparison of Patients at 6 Month Fup (T4) \[CBT-E is the reference\]|Mixed Models Analysis|||||27.39|0.18|0.54
92197699|NCT03784820|184294651|SUPERIORITY||LS mean difference|0.51||||0.52|TWO_SIDED|95.0|-1.06|2.09||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||2.09|-1.06|0.52
92321773|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Difference in least squares mean|12.3||||0.114|TWO_SIDED|90.0|-0.5|25.2|||Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|Difference in least squares mean (LS mean) was calculated as LS mean for MK-1006 60 mg minus LS mean for MK-1006 60 mg fed.|||25.2|-0.5|0.114
92321774|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Difference in least squares mean|-28.9||||0.026|TWO_SIDED|90.0|-49.9|-7.9|||Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for placebo fed minus LS mean for placebo.|||-7.9|-49.9|0.026
92321775|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Difference in least squares mean|-57.6|||<|0.001|TWO_SIDED|90.0|-73.3|-41.9||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 80 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-41.9|-73.3|<.001
92197700|NCT03784820|184294651|SUPERIORITY||LS mean difference|0.04||||0.97|TWO_SIDED|95.0|-1.99|2.07||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||2.07|-1.99|0.97
92197701|NCT03784820|184294651|SUPERIORITY||LS mean difference|0.62||||0.59|TWO_SIDED|95.0|-1.66|2.89||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||2.89|-1.66|0.59
92197702|NCT03784820|184294652|SUPERIORITY||LS mean difference|0.05||||0.86|TWO_SIDED|95.0|-0.45|0.54||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||0.54|-0.45|0.86
92197703|NCT03784820|184294652|SUPERIORITY||LS mean difference|0.3||||0.44|TWO_SIDED|95.0|-0.46|1.06||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||1.06|-0.46|0.44
92197704|NCT03784820|184294652|SUPERIORITY||LS mean difference|0.31||||0.36|TWO_SIDED|95.0|-0.36|0.98||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||0.98|-0.36|0.36
92197705|NCT03784820|184294653|SUPERIORITY||LS mean difference|2.47||||0.33|TWO_SIDED|95.0|-2.54|7.49||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||7.49|-2.54|0.33
92197706|NCT03784820|184294653|SUPERIORITY||LS mean difference|2.18||||0.46|TWO_SIDED|95.0|-3.59|7.95||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||7.95|-3.59|0.46
92197707|NCT03784820|184294653|SUPERIORITY||LS mean difference|3.83||||0.27|TWO_SIDED|95.0|-2.94|10.6||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||10.60|-2.94|0.27
92197708|NCT03784820|184294654|SUPERIORITY||LS mean difference|1.06||||0.62|TWO_SIDED|95.0|-3.14|5.25||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||5.25|-3.14|0.62
92197709|NCT03784820|184294654|SUPERIORITY||LS mean difference|1.83||||0.54|TWO_SIDED|95.0|-4.07|7.73||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||7.73|-4.07|0.54
92197710|NCT03784820|184294655|SUPERIORITY||LS mean difference|4.8||||0.1|TWO_SIDED|95.0|-0.91|10.51||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||10.51|-0.91|0.10
92197711|NCT03784820|184294655|SUPERIORITY||LS mean difference|1.08||||0.76|TWO_SIDED|95.0|-5.97|8.13||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||8.13|-5.97|0.76
92197712|NCT03784820|184294655|SUPERIORITY||LS mean difference|3.26||||0.23|TWO_SIDED|95.0|-2.03|8.55||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||8.55|-2.03|0.23
92197713|NCT03784820|184294655|SUPERIORITY||LS mean difference|-0.25||||0.94|TWO_SIDED|95.0|-6.63|6.14||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||6.14|-6.63|0.94
92197714|NCT03784820|184294655|SUPERIORITY||LS mean difference|-1.46||||0.68|TWO_SIDED|95.0|-8.38|5.46||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||5.46|-8.38|0.68
92197715|NCT03784820|184294655|SUPERIORITY||LS mean difference|-0.61||||0.89|TWO_SIDED|95.0|-9.06|7.84||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||7.84|-9.06|0.89
92197716|NCT03784820|184294656|SUPERIORITY||LS mean difference|-0.41||||0.91|TWO_SIDED|95.0|-7.61|6.79||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||6.79|-7.61|0.91
92197717|NCT03784820|184294656|SUPERIORITY||LS mean difference|4.72||||0.2|TWO_SIDED|95.0|-2.49|11.93||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||11.93|-2.49|0.20
92197718|NCT03784820|184294656|SUPERIORITY||LS mean difference|4.78||||0.14|TWO_SIDED|95.0|-1.63|11.2||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||11.20|-1.63|0.14
92197719|NCT03784820|184294656|SUPERIORITY||LS mean difference|3.86||||0.25|TWO_SIDED|95.0|-2.76|10.49||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||10.49|-2.76|0.25
92197720|NCT03784820|184294656|SUPERIORITY||LS mean difference|4.22||||0.14|TWO_SIDED|95.0|-1.45|9.89||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||9.89|-1.45|0.14
92197721|NCT03784820|184294656|SUPERIORITY||LS mean difference|3.15||||0.28|TWO_SIDED|95.0|-2.58|8.87||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||8.87|-2.58|0.28
92197722|NCT03784820|184294657|SUPERIORITY||LS mean difference|1.73||||0.85|TWO_SIDED|95.0|-16.73|20.19||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||20.19|-16.73|0.85
92197723|NCT03784820|184294657|SUPERIORITY||LS mean difference|7.94||||0.47|TWO_SIDED|95.0|-13.59|29.48||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||29.48|-13.59|0.47
92197724|NCT03784820|184294657|SUPERIORITY||LS mean difference|9.79||||0.37|TWO_SIDED|95.0|-11.5|31.08||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||31.08|-11.50|0.37
92197725|NCT03784820|184294657|SUPERIORITY||LS mean difference|0.36||||0.97|TWO_SIDED|95.0|-19.31|20.03||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||20.03|-19.31|0.97
92197726|NCT03784820|184294657|SUPERIORITY||LS mean difference|-5.88||||0.52|TWO_SIDED|95.0|-23.85|12.09||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||12.09|-23.85|0.52
92197727|NCT03784820|184294657|SUPERIORITY||LS mean difference|-3.55||||0.68|TWO_SIDED|95.0|-20.33|13.23||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||13.23|-20.33|0.68
92197728|NCT03784820|184294658|SUPERIORITY||LS mean difference|-0.27||||0.91|TWO_SIDED|95.0|-5.02|4.47||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||4.47|-5.02|0.91
92197729|NCT03784820|184294658|SUPERIORITY||LS mean difference|4.73||||0.07|TWO_SIDED|95.0|-0.36|9.81||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||9.81|-0.36|0.07
92197730|NCT03784820|184294658|SUPERIORITY||LS mean difference|1.75||||0.65|TWO_SIDED|95.0|-5.73|9.23||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||9.23|-5.73|0.65
92197731|NCT03784820|184294658|SUPERIORITY||LS mean difference|-2.05||||0.52|TWO_SIDED|95.0|-8.21|4.12|||Mixed Models Analysis|||Comparison of Partners at Post (T2)||4.12|-8.21|0.52
92197732|NCT03784820|184294658|SUPERIORITY||LS mean difference|-6.62||||0.07|TWO_SIDED|95.0|-13.74|0.51||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||0.51|-13.74|0.07
92197733|NCT03784820|184294658|SUPERIORITY||LS mean difference|-6.64||||0.03|TWO_SIDED|95.0|-12.73|-0.56||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||-0.56|-12.73|0.03
92197734|NCT03784820|184294659|SUPERIORITY||LS mean difference|0.88||||0.9|TWO_SIDED|95.0|-13.43|15.19||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||15.19|-13.43|0.90
92321776|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Difference in least squares mean|-15.3||||0.099|TWO_SIDED|90.0|-30.5|-0.1||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 100 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-0.1|-30.5|0.099
92321777|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Difference in least squares mean|-43.9|||<|0.001|TWO_SIDED|90.0|-60.8|-27.0||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 140 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-27.0|-60.8|<.001
92321778|NCT00791661|184548502|SUPERIORITY_OR_OTHER||Difference in least squares mean|-59.4|||<|0.001|TWO_SIDED|90.0|-75.1|-43.7||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 170 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-43.7|-75.1|<.001
92321779|NCT04513080|184548503|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from baseline to week 6||||
92321780|NCT04513080|184548503|SUPERIORITY||Mean Difference (Final Values)|0.7|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from week 6 to week 12||||
92321781|NCT04513080|184548504|SUPERIORITY||Mean Difference (Final Values)|0.53|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from baseline to week 6||||
92321782|NCT04513080|184548504|SUPERIORITY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from week 6 to week 12||||
92321783|NCT04513080|184548504|SUPERIORITY||Mean Difference (Final Values)|0.44|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from baseline to week 6||||
92197735|NCT03784820|184294659|SUPERIORITY||LS mean difference|-0.64||||0.95|TWO_SIDED|95.0|-18.95|17.66||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||17.66|-18.95|0.95
92197736|NCT03784820|184294659|SUPERIORITY||LS mean difference|1.37||||0.89|TWO_SIDED|95.0|-17.17|19.9||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||19.90|-17.17|0.89
92197737|NCT03784820|184294659|SUPERIORITY||LS mean difference|5.81||||0.39|TWO_SIDED|95.0|-7.37|18.98|||Mixed Models Analysis|||Comparison of Partners at Post (T2)||18.98|-7.37|0.39
92321784|NCT04513080|184548504|SUPERIORITY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from week 6 to week 12||||
92321785|NCT04513080|184548504|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from baseline to week 6||||
92321786|NCT04513080|184548504|SUPERIORITY||Mean Difference (Final Values)|0.68|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from week 6 to week 12||||
92321787|NCT00937040|184548518|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline AISRS total score. Change from baseline to endpoint uses the latest non-missing score after baseline for each subject.|ANCOVA|P-value for Change from baseline at endpoint. Each outcome involved with gate-keeping will be numbered with a Gate-Keeper-Sequence-Number from 01-16.||Gate-Keeper-Sequence#01. The primary efficacy was tested at the 0.05 level of significance. To control the overall Type I error at 0.05, the secondary efficacy endpoints were tested in a fixed sequence if the preceding null hypothesis was rejected. No further hypotheses could be tested when the preceding null hypothesis was not rejected. All nominal p-values were presented even though the formal testing procedure stopped at the primary endpoint. No unqualified statements can be made.||||<0.001
92321788|NCT00937040|184548519|SUPERIORITY_OR_OTHER|||||||0.206||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score. Endpoint for extended day sites is the 4 hour timepoint and for other sites is the last non-missing value after baseline.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#02.||||0.206
92321789|NCT00937040|184548520|SUPERIORITY_OR_OTHER|||||||0.348||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score. Endpoint for extended day sites is the 4 hour timepoint and for other sites is the last non-missing value after baseline.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#03.||||0.348
92321790|NCT00937040|184548521|SUPERIORITY_OR_OTHER|||||||0.324||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score. Endpoint for extended day sites is the 4 hour timepoint and for other sites is the last non-missing value after baseline.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#04.||||0.324
92321791|NCT00937040|184548522|SUPERIORITY_OR_OTHER|||||||0.631||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score. Endpoint for extended day sites is the 4 hour timepoint and for other sites is the last non-missing value after baseline.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#05.||||0.631
92321792|NCT00937040|184548523|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#06.||||<0.001
92321793|NCT00937040|184548524|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#07.||||<0.001
92321794|NCT00937040|184548525|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#08.||||0.008
92321795|NCT00937040|184548526|SUPERIORITY_OR_OTHER|||||||0.372||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#09.||||0.372
92321796|NCT00937040|184548527|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was determined by using the Cochran-Mantel-Haenszel (CMH) row mean scores controlling for center.|Cochran-Mantel-Haenszel|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#10.||||<0.001
92321797|NCT00937040|184548528|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value was determined using CMH general association controlling for pooled center.|Cochran-Mantel-Haenszel|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#11.||||0.008
92321798|NCT00937040|184548529|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#12.||||<0.001
92321799|NCT00937040|184548530|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#13.||||0.003
92321800|NCT00937040|184548531|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#14.||||0.016
92321801|NCT00937040|184548532|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#15.||||0.092
92321802|NCT00937040|184548533|SUPERIORITY_OR_OTHER|||||||0.284||95.0||||P-value was determined by using the Cochran-Mantel-Haenszel (CMH) row mean scores controlling for center. Missing/unknown responses are not included in the p-value.|Cochran-Mantel-Haenszel|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#16.||||0.284
92321803|NCT00937040|184548534|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|||P-value for Change from baseline at endpoint||||<0.001
92321804|NCT00937040|184548535|SUPERIORITY_OR_OTHER|||||||0.319||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|||P-value for Change from baseline at endpoint||||0.319
92321805|NCT00937040|184548536|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|||P-value for Change from baseline at endpoint||||0.007
92321806|NCT00403481|184548546|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|One-sample t-test|||||||<0.0001
92321807|NCT00403481|184548547|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||\<0.0001 for both daytime and nighttime. No multiplicity adjustments.|one-sample t-test|||||||<0.0001
92321808|NCT00403481|184548548|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||One-sample t-test|||||||<0.0001
92321809|NCT00403481|184548549|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||No multiplicity adjustments|one-sample t-test|||||||0.0001
92321810|NCT00403481|184548551|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||one-sample t-test|||||||<0.0001
92321811|NCT00403481|184548552|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||\<0.0001 applies to both the daytime and nighttime analyses|one-sample t-test|||||||<0.0001
92321812|NCT00403481|184548553|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||one-sample t-test|||||||<0.0001
92321813|NCT00403481|184548554|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||\<0.0001 applies to both 4 hour and 6 hour analyses|one-sample t-test|||||||<0.0001
92321814|NCT00520533|184548578|SUPERIORITY|||||||0.194|||||||t-test, 2 sided|||Comparison of Biological T1/2 at Week 1 and Week 5.||||0.194
92321815|NCT00520533|184548579|SUPERIORITY|||||||0.172|||||||t-test, 2 sided|||Comparison of Effective T1/2 at Week 1 and Week 5.||||0.172
92321816|NCT00305084|184548588|OTHER||MDT|1.6|||||TWO_SIDED|||||||||All data regarding safety were registered and analyzed by descriptive analyses. Summary table were generated to document the safety|at least 3 patients per cohort had to be enrolled with expansion to 6 in presence of Dose Limiting Toxicity(DLT) (stop escalation if 2 or more DLTs at the same dose level). With a projection to achieve the highest level of NGR-hTNF, without significative toxicity (1.6 μg/m2) a planned sample of 20-25 patients was expected. DLTs were defined as: any severe toxicity clearly related to the administration of NGR-hTNF. The patient was defined assessable, according to the standard analysis, if he/she received at least one infusion of the investigational product. Maximal Tollerated Dose (MTD) was defined as the dose which produces DLTs in 2 or more patients out of 6 and will be recommended for phase II trials.|||
92321817|NCT03850483|184548628|SUPERIORITY||Least square (LS) mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.65||0.1641|TWO_SIDED|90.0|-1.71|0.43||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.43|-1.71|0.1641
92321818|NCT03850483|184548628|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.65||0.61|TWO_SIDED|90.0|-0.89|1.26||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||1.26|-0.89|0.6100
92197738|NCT03784820|184294659|SUPERIORITY||LS mean difference|6.29||||0.36|TWO_SIDED|95.0|-7.26|19.84||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||19.84|-7.26|0.36
92321819|NCT03850483|184548628|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.65||0.1686|TWO_SIDED|90.0|-1.7|0.45||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.45|-1.70|0.1686
92321820|NCT03850483|184548628|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.64||0.1051|TWO_SIDED|90.0|-1.87|0.25||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.25|-1.87|0.1051
92321821|NCT03850483|184548628|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.68||0.3583|TWO_SIDED|90.0|-1.37|0.88||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.88|-1.37|0.3583
92321822|NCT03850483|184548628|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.66||0.1131|TWO_SIDED|90.0|-1.88|0.29||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.29|-1.88|0.1131
92321823|NCT03850483|184548628|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.64||0.1812|TWO_SIDED|90.0|-1.64|0.47||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.47|-1.64|0.1812
92321824|NCT03850483|184548629|SUPERIORITY||Risk Difference (RD)|3.4||||0.3747|TWO_SIDED|90.0|-10.6|17.9|||Chan and Zhang method|||||17.9|-10.6|0.3747
92321825|NCT03850483|184548629|SUPERIORITY||Risk Difference (RD)|8.5||||0.243|TWO_SIDED|90.0|-6.6|25.9|||Chan and Zhang method|||||25.9|-6.6|0.2430
92321826|NCT03850483|184548629|SUPERIORITY||Risk Difference (RD)|3.4||||0.3747|TWO_SIDED|90.0|-10.6|17.9|||Chan and Zhang method|||||17.9|-10.6|0.3747
92321827|NCT03850483|184548629|SUPERIORITY||Risk Difference (RD)|14.5||||0.0665|TWO_SIDED|0.0665|-1.3|31.5|||Chan and Zhang method|||||31.5|-1.3|0.0665
92321828|NCT03850483|184548629|SUPERIORITY||Risk Difference (RD)|6.1||||0.3423|TWO_SIDED|90.0|-12.1|25.5|||Chan and Zhang method|||||25.5|-12.1|0.3423
92197739|NCT03784820|184294659|SUPERIORITY||LS mean difference|-1.55||||0.87|TWO_SIDED|95.0|-20.0|16.91||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||16.91|-20.00|0.87
92321829|NCT03850483|184548629|SUPERIORITY||Risk Difference (RD)|12.9||||0.1271|TWO_SIDED|90.0|-4.7|30.9|||Chan and Zhang method|||||30.9|-4.7|0.1271
92321830|NCT03850483|184548629|SUPERIORITY||Risk Difference (RD)|3.2||||0.401|TWO_SIDED|90.0|-13.2|21.1|||Chan and Zhang method|||||21.1|-13.2|0.4010
92321831|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-0.1||||0.4225|TWO_SIDED|90.0|-11.2|10.4|||Chan and Zhang method|||Week 1||10.4|-11.2|0.4225
92321832|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7483|TWO_SIDED|90.0|-14.0|5.0|||Chan and Zhang method|||Week 1||5.0|-14.0|0.7483
92321833|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7539|TWO_SIDED|90.0|-14.0|4.8|||Chan and Zhang method|||Week 1||4.8|-14.0|0.7539
92321834|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7539|TWO_SIDED|90.0|-14.0|4.8|||Chan and Zhang method|||Week 1||4.8|-14.0|0.7539
92197740|NCT03784820|184294660|SUPERIORITY||LS mean difference|0.27||||0.84|TWO_SIDED|95.0|-2.29|2.83||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||2.83|-2.29|0.84
92197741|NCT03784820|184294660|SUPERIORITY||LS mean difference|-0.82||||0.57|TWO_SIDED|95.0|-3.66|2.01||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||2.01|-3.66|0.57
92197742|NCT03784820|184294660|SUPERIORITY||LS mean difference|0.6||||0.67|TWO_SIDED|95.0|-2.15|3.35||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||3.35|-2.15|0.67
92197743|NCT03784820|184294660|SUPERIORITY||LS mean difference|0.46||||0.63|TWO_SIDED|95.0|-1.43|2.35||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||2.35|-1.43|0.63
92321835|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-6.4|8.9|||Chan and Zhang method|||Week 1||8.9|-6.4|0.5000
92321836|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|2.9||||0.2125|TWO_SIDED|90.0|-3.4|13.2|||Chan and Zhang method|||Week 1||13.2|-3.4|0.2125
92321837|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|2.7||||0.2267|TWO_SIDED|90.0|-3.5|12.2|||Chan and Zhang method|||Week 1||12.2|-3.5|0.2267
92321838|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7592|TWO_SIDED|90.0|-14.0|4.6|||Chan and Zhang method|||Week 2||4.6|-14.0|0.7592
92321839|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7299|TWO_SIDED|90.0|-14.0|5.5|||Chan and Zhang method|||Week 2||5.5|-14.0|0.7299
92321840|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-0.3||||0.4463|TWO_SIDED|90.0|-11.3|9.4|||Chan and Zhang method|||Week 2||9.4|-11.3|0.4463
92321841|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7539|TWO_SIDED|90.0|-14.0|4.8|||Chan and Zhang method|||Week 2||4.8|-14.0|0.7539
92321842|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-2.2||||0.7009|TWO_SIDED|90.0|-10.1|5.9|||Chan and Zhang method|||Week 2||5.9|-10.1|0.7009
92321843|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|4.0||||0.2507|TWO_SIDED|90.0|-4.5|15.6|||Chan and Zhang method|||Week 2||15.6|-4.5|0.2507
92321844|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|3.5||||0.2993|TWO_SIDED|90.0|-4.8|14.3|||Chan and Zhang method|||Week 2||14.3|-4.8|0.2993
92321845|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7363|TWO_SIDED|90.0|-14.0|5.5|||Chan and Zhang method|||Week 4||5.5|-14.0|0.7363
92321846|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|0.4||||0.5369|TWO_SIDED|90.0|-10.5|12.3|||Chan and Zhang method|||Week 4||12.3|-10.5|0.5369
92321847|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7483|TWO_SIDED|90.0|-14.0|5.0|||Chan and Zhang method|||Week 4||5.0|-14.0|0.7483
92321848|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7483|TWO_SIDED|90.0|-14.0|5.0|||Chan and Zhang method|||Week 4||5.0|-14.0|0.7483
92321849|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-2.2||||0.599|TWO_SIDED|90.0|-13.7|11.6|||Chan and Zhang method|||Week 4||11.6|-13.7|0.5990
92321850|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-5.9||||0.7926|TWO_SIDED|90.0|-16.4|4.9|||Chan and Zhang method|||Week 4||4.9|-16.4|0.7926
92321851|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|3.2||||0.3402|TWO_SIDED|90.0|-9.0|17.6|||Chan and Zhang method|||Week 4||17.6|-9.0|0.3402
92321852|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.2||||0.7364|TWO_SIDED|90.0|-14.4|5.7|||Chan and Zhang method|||Week 6||5.7|-14.4|0.7364
92321853|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|4.2||||0.3009|TWO_SIDED|90.0|-7.4|17.7|||Chan and Zhang method|||Week 6||17.7|-7.4|0.3009
92321854|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|3.2||||0.34|TWO_SIDED|90.0|-8.1|15.9|||Chan and Zhang method|||Week 6||15.9|-8.1|0.3400
92321855|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|7.1||||0.1631|TWO_SIDED|90.0|-4.8|21.1|||Chan and Zhang method|||Week 6||21.1|-4.8|0.1631
92321856|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.2||||0.6214|TWO_SIDED|90.0|-17.8|13.0|||Chan and Zhang method|||Week 6||13.0|-17.8|0.6214
92321857|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.2||||0.6214|TWO_SIDED|90.0|-17.8|13.0|||Chan and Zhang method|||Week 6||13.0|-17.8|0.6214
92321858|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.5||||0.6413|TWO_SIDED|90.0|-17.9|11.7|||Chan and Zhang method|||Week 6||11.7|-17.9|0.6413
92321859|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-13.1|13.1|||Chan and Zhang method|||Week 8||13.1|-13.1|0.5000
92321860|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|0.7||||0.5134|TWO_SIDED|90.0|-12.6|15.2|||Chan and Zhang method|||Week 8||15.2|-12.6|0.5134
92321861|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-0.2||||0.4468|TWO_SIDED|90.0|-13.4|12.5|||Chan and Zhang method|||Week 8||12.5|-13.4|0.4468
92321862|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|7.6||||0.2778|TWO_SIDED|90.0|-6.8|23.9|||Chan and Zhang method|||Week 8||23.9|-6.8|0.2778
92321863|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|2.1||||0.4571|TWO_SIDED|90.0|-14.5|21.0|||Chan and Zhang method|||Week 8||21.0|-14.5|0.4571
92321864|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-0.1||||0.4741|TWO_SIDED|90.0|-15.3|16.7|||Chan and Zhang method|||Week 8||16.7|-15.3|0.4741
92321865|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|0.4||||0.5153|TWO_SIDED|90.0|-14.8|16.7|||Chan and Zhang method|||Week 8||16.7|-14.8|0.5153
92321866|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-7.0||||0.8287|TWO_SIDED|90.0|-21.1|5.3|||Chan and Zhang method|||Week 10||5.3|-21.1|0.8287
92197744|NCT03784820|184294660|SUPERIORITY||LS mean difference|1.44||||0.21|TWO_SIDED|95.0|-0.82|3.7||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||3.70|-0.82|0.21
92197745|NCT03784820|184294660|SUPERIORITY||LS mean difference|1.07||||0.34|TWO_SIDED|95.0|-1.14|3.28||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||3.28|-1.14|0.34
92197746|NCT03784820|184294661|SUPERIORITY||LS mean difference|-3.42||||0.5|TWO_SIDED|95.0|-13.36|6.52||Demand/Withdraw score: Comparison of Patients at Post (T2)|Mixed Models Analysis|||||6.52|-13.36|0.50
92197747|NCT03784820|184294661|SUPERIORITY||LS mean difference|-0.47||||0.89|TWO_SIDED|95.0|-7.49|6.54||Demand/Withdraw Score: Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||6.54|-7.49|0.89
92321867|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-2.3||||0.5675|TWO_SIDED|90.0|-17.8|14.2|||Chan and Zhang method|||Week 10||14.2|-17.8|0.5675
92321868|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|6.9||||0.2648|TWO_SIDED|90.0|-9.8|23.2|||Chan and Zhang method|||Week 10||23.2|-9.8|0.2648
92321869|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|3.9||||0.3792|TWO_SIDED|90.0|-11.8|20.8|||Chan and Zhang method|||Week 10||20.8|-11.8|0.3792
92321870|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|2.7||||0.4438|TWO_SIDED|90.0|-16.3|23.1|||Chan and Zhang method|||Week 10||23.1|-16.3|0.4438
92321871|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-7.5||||0.7014|TWO_SIDED|90.0|-23.3|9.4|||Chan and Zhang method|||Week 10||9.4|-23.3|0.7014
92321872|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-2.8||||0.5841|TWO_SIDED|90.0|-19.7|15.0|||Chan and Zhang method|||Week 10||15.0|-19.7|0.5841
92321873|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-15.3|15.3|||Chan and Zhang method|||Week 12||15.3|-15.3|0.5000
92321874|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-2.7||||0.5834|TWO_SIDED|90.0|-17.5|12.3|||Chan and Zhang method|||Week 12||12.3|-17.5|0.5834
92321875|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|10.3||||0.1534|TWO_SIDED|90.0|-6.4|27.2|||Chan and Zhang method|||Week 12||27.2|-6.4|0.1534
92321876|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|7.5||||0.272|TWO_SIDED|90.0|-8.8|24.9|||Chan and Zhang method|||Week 12||24.9|-8.8|0.2720
92321877|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-8.1||||0.6815|TWO_SIDED|90.0|-25.1|10.4|||Chan and Zhang method|||Week 12||10.4|-25.1|0.6815
92321878|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|3.5||||0.39|TWO_SIDED|90.0|-14.4|22.0|||Chan and Zhang method|||Week 12||22.0|-14.4|0.3900
92321879|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-2.7||||0.5865|TWO_SIDED|90.0|-20.0|15.9|||Chan and Zhang method|||Week 12||15.9|-20.0|0.5865
92321880|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|4.2||||0.3087|TWO_SIDED|90.0|-8.2|18.9|||Chan and Zhang method|||Week 14||18.9|-8.2|0.3087
92321881|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|5.2||||0.3137|TWO_SIDED|90.0|-8.2|20.9|||Chan and Zhang method|||Week 14||20.9|-8.2|0.3137
92321882|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|18.0||||0.0245|TWO_SIDED|90.0|2.7|34.8|||Chan and Zhang method|||Week 14||34.8|2.7|0.0245
92321883|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|10.8||||0.1119|TWO_SIDED|90.0|-3.0|26.0|||Chan and Zhang method|||Week 14||26.0|-3.0|0.1119
92321884|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|2.7||||0.414|TWO_SIDED|90.0|-13.2|20.4|||Chan and Zhang method|||Week 14||20.4|-13.2|0.4140
92321885|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|9.7||||0.2356|TWO_SIDED|90.0|-7.2|28.5|||Chan and Zhang method|||Week 14||28.5|-7.2|0.2356
92321886|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|4.5||||0.3638|TWO_SIDED|90.0|-11.5|21.5|||Chan and Zhang method|||Week 14||21.5|-11.5|0.3638
92321887|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|7.7||||0.1613|TWO_SIDED|90.0|-5.2|22.9|||Chan and Zhang method|||Week 16||22.9|-5.2|0.1613
92321888|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|13.9||||0.0557|TWO_SIDED|90.0|-0.5|31.4|||Chan and Zhang method|||Week 16||31.4|-0.5|0.0557
92321889|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|21.6||||0.0114|TWO_SIDED|90.0|5.6|38.3|||Chan and Zhang method|||Week 16||38.3|5.6|0.0114
92321890|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|11.9||||0.0753|TWO_SIDED|90.0|-1.8|28.1|||Chan and Zhang method|||Week 16||28.1|-1.8|0.0753
92321891|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.1||||0.5635|TWO_SIDED|90.0|-20.1|15.2|||Chan and Zhang method|||Week 16||15.2|-20.1|0.5635
92321892|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-3.6||||0.6201|TWO_SIDED|90.0|-20.3|14.5|||Chan and Zhang method|||Week 16||14.5|-20.3|0.6201
92321893|NCT03850483|184548630|SUPERIORITY||Risk Difference (RD)|-0.7||||0.4792|TWO_SIDED|90.0|-17.6|17.0|||Chan and Zhang method|||Week 16||17.0|-17.6|0.4792
92321894|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.8038|TWO_SIDED|90.0|-0.25|0.79|||MMRM|||Week 1: Mixed-effect model with repeated measures (MMRM) analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.79|-0.25|0.8038
92321895|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.8267|TWO_SIDED|90.0|-0.22|0.81|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.81|-0.22|0.8267
92321896|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.31||0.6039|TWO_SIDED|90.0|-0.43|0.6|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.60|-0.43|0.6039
92321897|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.31||0.6339|TWO_SIDED|90.0|-0.41|0.62|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.62|-0.41|0.6339
92321898|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.2666|TWO_SIDED|90.0|-0.68|0.31|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.31|-0.68|0.2666
92321899|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.29||0.2257|TWO_SIDED|90.0|-0.7|0.26|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.26|-0.70|0.2257
92321900|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.29||0.1306|TWO_SIDED|90.0|-0.81|0.15|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.15|-0.81|0.1306
92321901|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.37||0.9704|TWO_SIDED|90.0|0.09|1.31|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.31|0.09|0.9704
92321902|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.38||0.889|TWO_SIDED|90.0|-0.16|1.09|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.09|-0.16|0.8890
92321903|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.37||0.4506|TWO_SIDED|90.0|-0.66|0.57|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.57|-0.66|0.4506
92321904|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.37||0.584|TWO_SIDED|90.0|-0.53|0.69|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.69|-0.53|0.5840
92321905|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.0769|TWO_SIDED|90.0|-1.17|0.08|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.08|-1.17|0.0769
92321906|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.38||0.0242|TWO_SIDED|90.0|-1.39|-0.13|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.13|-1.39|0.0242
92197748|NCT03784820|184294661|SUPERIORITY||LS mean difference|-0.63||||0.86|TWO_SIDED|95.0|-7.56|6.3||Demand/Withdraw Score: Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||6.30|-7.56|0.86
92321907|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.38||0.0127|TWO_SIDED|90.0|-1.49|-0.23|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.23|-1.49|0.0127
92321908|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.44||0.6693|TWO_SIDED|90.0|-0.54|0.93|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.93|-0.54|0.6693
92321909|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.45||0.6742|TWO_SIDED|90.0|-0.55|0.96|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.96|-0.55|0.6742
92321910|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.44||0.4486|TWO_SIDED|90.0|-0.79|0.67|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.67|-0.79|0.4486
92321911|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.3219|TWO_SIDED|90.0|-0.93|0.53|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.53|-0.93|0.3219
92321912|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.55||0.0096|TWO_SIDED|90.0|-2.21|-0.39|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.39|-2.21|0.0096
92321913|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.54||0.0862|TWO_SIDED|90.0|-1.64|0.15|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.15|-1.64|0.0862
92321914|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.54||0.0111|TWO_SIDED|90.0|-2.15|-0.36|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.36|-2.15|0.0111
92321915|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.5||0.6107|TWO_SIDED|90.0|-0.68|0.97|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.97|-0.68|0.6107
92321916|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.51||0.724|TWO_SIDED|90.0|-0.54|1.15|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.15|-0.54|0.7240
92321917|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.43|TWO_SIDED|90.0|-0.91|0.74|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.74|-0.91|0.4300
92321918|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.0501|TWO_SIDED|90.0|-1.66|0.0|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.00|-1.66|0.0501
92321919|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.58||0.0157|TWO_SIDED|90.0|-2.23|-0.3|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.30|-2.23|0.0157
92321920|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.57||0.0645|TWO_SIDED|90.0|-1.83|0.07|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.07|-1.83|0.0645
92321921|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.57||0.0621|TWO_SIDED|90.0|-1.84|0.06|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.06|-1.84|0.0621
92321922|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.55||0.2959|TWO_SIDED|90.0|-1.21|0.62|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.62|-1.21|0.2959
92321923|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.57||0.9043|TWO_SIDED|90.0|-0.19|1.69|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.69|-0.19|0.9043
92321924|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.55||0.2014|TWO_SIDED|90.0|-1.38|0.45|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.45|-1.38|0.2014
92321925|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.56||0.0948|TWO_SIDED|90.0|-1.66|0.19|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.19|-1.66|0.0948
92321926|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.65||0.0416|TWO_SIDED|90.0|-2.21|-0.06|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.06|-2.21|0.0416
92321927|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.64||0.0454|TWO_SIDED|90.0|-2.14|-0.03|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.03|-2.14|0.0454
92321928|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.64||0.0256|TWO_SIDED|90.0|-2.31|-0.2|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.20|-2.31|0.0256
92321929|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.57||0.2326|TWO_SIDED|90.0|-1.36|0.53|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.53|-1.36|0.2326
92321930|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.59||0.5141|TWO_SIDED|90.0|-0.95|0.99|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.99|-0.95|0.5141
92321931|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.57||0.1124|TWO_SIDED|90.0|-1.64|0.25|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.25|-1.64|0.1124
92321932|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.58||0.0983|TWO_SIDED|90.0|-1.7|0.21|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.21|-1.70|0.0983
92321933|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.72||0.0412|TWO_SIDED|90.0|-2.46|-0.07|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.07|-2.46|0.0412
92321934|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.71||0.034|TWO_SIDED|90.0|-2.47|-0.13|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.13|-2.47|0.0340
92321935|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.71||0.0379|TWO_SIDED|90.0|-2.44|-0.09|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.09|-2.44|0.0379
92321936|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.68||0.1291|TWO_SIDED|90.0|-1.91|0.36|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.36|-1.91|0.1291
92321937|NCT03850483|184548631|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.7||0.5776|TWO_SIDED|90.0|-1.03|1.3|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.30|-1.03|0.5776
92321938|NCT03850483|184548631|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.69||0.1044|TWO_SIDED|90.0|-2.0|0.27|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.27|-2.00|0.1044
92321939|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.69||0.0608|TWO_SIDED|90.0|-2.23|0.07|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.07|-2.23|0.0608
92321940|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.8||0.0309|TWO_SIDED|90.0|-2.84|-0.18|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.18|-2.84|0.0309
92321941|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.78||0.0242|TWO_SIDED|90.0|-2.85|-0.26|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.26|-2.85|0.0242
92321942|NCT03850483|184548631|SUPERIORITY||LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.78||0.0394|TWO_SIDED|90.0|-2.69|-0.09|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.09|-2.69|0.0394
92321943|NCT03850483|184548633|SUPERIORITY||LS mean difference|2.6|STANDARD_ERROR_OF_MEAN|5.09||0.6917|TWO_SIDED|90.0|-5.86|10.97|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||10.97|-5.86|0.6917
92321944|NCT03850483|184548633|SUPERIORITY||LS mean difference|7.3|STANDARD_ERROR_OF_MEAN|5.07||0.9241|TWO_SIDED|90.0|-1.09|15.69|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||15.69|-1.09|0.9241
92321945|NCT03850483|184548633|SUPERIORITY||LS mean difference|5.1|STANDARD_ERROR_OF_MEAN|5.03||0.8443|TWO_SIDED|90.0|-3.21|13.42|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||13.42|-3.21|0.8443
92321946|NCT03850483|184548633|SUPERIORITY||LS mean difference|2.5|STANDARD_ERROR_OF_MEAN|5.04||0.6911|TWO_SIDED|90.0|-5.82|10.86|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||10.86|-5.82|0.6911
92197749|NCT03784820|184294661|SUPERIORITY||LS mean difference|2.55||||0.25|TWO_SIDED|95.0|-1.83|6.93||Constructive Communication Score: Comparison of Patients at Post (T2)|Mixed Models Analysis|||||6.93|-1.83|0.25
92197750|NCT03784820|184294661|SUPERIORITY||LS mean difference|2.05||||0.56|TWO_SIDED|95.0|-4.83|8.92||Constructive Communication Score: Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||8.92|-4.83|0.56
92197751|NCT03784820|184294661|SUPERIORITY||LS mean difference|3.13||||0.34|TWO_SIDED|95.0|-3.27|9.54||Constructive Communication Score: Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||9.54|-3.27|0.34
92197752|NCT03784820|184294661|SUPERIORITY||LS mean difference|-10.24||||0.02|TWO_SIDED|95.0|-19.05|-1.42||Demand/Withdraw score: Comparison of Partners at Post (T2)|Mixed Models Analysis|||||-1.42|-19.05|0.02
92321947|NCT03850483|184548633|SUPERIORITY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|4.79||0.3676|TWO_SIDED|90.0|-9.56|6.31|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||6.31|-9.56|0.3676
92321948|NCT03850483|184548633|SUPERIORITY||LS mean difference|-6.3|STANDARD_ERROR_OF_MEAN|4.72||0.0915|TWO_SIDED|90.0|-14.13|1.5|||MMRM|||Week 1: Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.50|-14.13|0.0915
92321949|NCT03850483|184548633|SUPERIORITY||LS mean difference|-6.2|STANDARD_ERROR_OF_MEAN|4.72||0.097|TWO_SIDED|90.0|-13.96|1.65|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.65|-13.96|0.0970
92321950|NCT03850483|184548633|SUPERIORITY||LS mean difference|9.2|STANDARD_ERROR_OF_MEAN|5.91||0.9389|TWO_SIDED|90.0|-0.59|18.97|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||18.97|-0.59|0.9389
92321951|NCT03850483|184548633|SUPERIORITY||LS mean difference|9.0|STANDARD_ERROR_OF_MEAN|6.07||0.9295|TWO_SIDED|90.0|-1.06|19.02|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors||19.02|-1.06|0.9295
92321952|NCT03850483|184548633|SUPERIORITY||LS mean difference|3.7|STANDARD_ERROR_OF_MEAN|5.92||0.7308|TWO_SIDED|90.0|-6.15|13.45|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||13.45|-6.15|0.7308
92321953|NCT03850483|184548633|SUPERIORITY||LS mean difference|1.8|STANDARD_ERROR_OF_MEAN|5.94||0.6199|TWO_SIDED|90.0|-8.01|11.64|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||11.64|-8.01|0.6199
92321954|NCT03850483|184548633|SUPERIORITY||LS mean difference|-9.0|STANDARD_ERROR_OF_MEAN|6.09||0.0699|TWO_SIDED|90.0|-19.13|1.04|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.04|-19.13|0.0699
92321955|NCT03850483|184548633|SUPERIORITY||LS mean difference|-11.6|STANDARD_ERROR_OF_MEAN|6.14||0.03|TWO_SIDED|90.0|-21.79|-1.48|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-1.48|-21.79|0.0300
92321956|NCT03850483|184548633|SUPERIORITY||LS mean difference|-13.1|STANDARD_ERROR_OF_MEAN|6.09||0.0168|TWO_SIDED|90.0|-23.15|-2.98|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-2.98|-23.15|0.0168
92321957|NCT03850483|184548633|SUPERIORITY||LS mean difference|3.6|STANDARD_ERROR_OF_MEAN|6.61||0.7083|TWO_SIDED|90.0|-7.3|14.57|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||14.57|-7.30|0.7083
92321958|NCT03850483|184548633|SUPERIORITY||LS mean difference|8.5|STANDARD_ERROR_OF_MEAN|6.77||0.8955|TWO_SIDED|90.0|-2.66|19.75|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||19.75|-2.66|0.8955
92321959|NCT03850483|184548633|SUPERIORITY||LS mean difference|6.5|STANDARD_ERROR_OF_MEAN|6.56||0.8386|TWO_SIDED|90.0|-4.35|17.37|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||17.37|-4.35|0.8386
92321960|NCT03850483|184548633|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|6.58||0.4371|TWO_SIDED|90.0|-11.93|9.84|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||9.84|-11.93|0.4371
92321961|NCT03850483|184548633|SUPERIORITY||LS mean difference|-20.7|STANDARD_ERROR_OF_MEAN|8.91||0.0108|TWO_SIDED|90.0|-35.42|-5.92|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-5.92|-35.42|0.0108
92321962|NCT03850483|184548633|SUPERIORITY||LS mean difference|-10.9|STANDARD_ERROR_OF_MEAN|8.75||0.1066|TWO_SIDED|90.0|-25.43|3.55|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||3.55|-25.43|0.1066
92321963|NCT03850483|184548633|SUPERIORITY||LS mean difference|-16.0|STANDARD_ERROR_OF_MEAN|8.76||0.0344|TWO_SIDED|90.0|-30.54|-1.55|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-1.55|-30.54|0.0344
92321964|NCT03850483|184548633|SUPERIORITY||LS mean difference|3.4|STANDARD_ERROR_OF_MEAN|8.29||0.6594|TWO_SIDED|90.0|-10.3|17.13|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||17.13|-10.30|0.6594
92321965|NCT03850483|184548633|SUPERIORITY||LS mean difference|5.3|STANDARD_ERROR_OF_MEAN|8.52||0.7307|TWO_SIDED|90.0|-8.85|19.36|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||19.36|-8.85|0.7307
92321966|NCT03850483|184548633|SUPERIORITY||LS mean difference|1.9|STANDARD_ERROR_OF_MEAN|8.28||0.5914|TWO_SIDED|90.0|-11.78|15.61|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||15.61|-11.78|0.5914
92321967|NCT03850483|184548633|SUPERIORITY||LS mean difference|-12.3|STANDARD_ERROR_OF_MEAN|8.34||0.0709|TWO_SIDED|90.0|-26.13|1.49|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.49|-26.13|0.0709
92321968|NCT03850483|184548633|SUPERIORITY||LS mean difference|-18.8|STANDARD_ERROR_OF_MEAN|9.53||0.0253|TWO_SIDED|90.0|-34.55|-3.01|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-3.01|-34.55|0.0253
92321969|NCT03850483|184548633|SUPERIORITY||LS mean difference|-13.4|STANDARD_ERROR_OF_MEAN|9.38||0.078|TWO_SIDED|90.0|-28.89|2.15|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||2.15|-28.89|0.0780
92321970|NCT03850483|184548633|SUPERIORITY||LS mean difference|-9.7|STANDARD_ERROR_OF_MEAN|9.36||0.1516|TWO_SIDED|90.0|-25.17|5.83|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||5.83|-25.17|0.1516
92321971|NCT03850483|184548633|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|9.14||0.4861|TWO_SIDED|90.0|-15.45|14.81|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||14.81|-15.45|0.4861
92321972|NCT03850483|184548633|SUPERIORITY||LS mean difference|11.0|STANDARD_ERROR_OF_MEAN|9.38||0.8795|TWO_SIDED|90.0|-4.48|26.55|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||26.55|-4.48|0.8795
92321973|NCT03850483|184548633|SUPERIORITY||LS mean difference|-5.1|STANDARD_ERROR_OF_MEAN|9.11||0.2867|TWO_SIDED|90.0|-20.22|9.94|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||9.94|-20.22|0.2867
92321974|NCT03850483|184548633|SUPERIORITY||LS mean difference|-10.6|STANDARD_ERROR_OF_MEAN|9.23||0.1267|TWO_SIDED|90.0|-25.86|4.69|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||4.69|-25.86|0.1267
92321975|NCT03850483|184548633|SUPERIORITY||LS mean difference|-17.1|STANDARD_ERROR_OF_MEAN|10.49||0.0526|TWO_SIDED|90.0|-34.48|0.26|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.26|-34.48|0.0526
92321976|NCT03850483|184548633|SUPERIORITY||LS mean difference|-14.3|STANDARD_ERROR_OF_MEAN|10.25||0.0827|TWO_SIDED|90.0|-31.26|2.68|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||2.68|-31.26|0.0827
92321977|NCT03850483|184548633|SUPERIORITY||LS mean difference|-16.1|STANDARD_ERROR_OF_MEAN|10.26||0.0592|TWO_SIDED|90.0|-33.12|0.86|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.86|-33.12|0.0592
92321978|NCT03850483|184548633|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|9.03||0.4657|TWO_SIDED|90.0|-15.72|14.16|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||14.16|-15.72|0.4657
92321979|NCT03850483|184548633|SUPERIORITY||LS mean difference|3.9|STANDARD_ERROR_OF_MEAN|9.3||0.6612|TWO_SIDED|90.0|-11.52|19.26|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||19.26|-11.52|0.6612
92321980|NCT03850483|184548633|SUPERIORITY||LS mean difference|-8.5|STANDARD_ERROR_OF_MEAN|9.03||0.1749|TWO_SIDED|90.0|-23.42|6.48|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||6.48|-23.42|0.1749
92321981|NCT03850483|184548633|SUPERIORITY||LS mean difference|-9.3|STANDARD_ERROR_OF_MEAN|9.12||0.1548|TWO_SIDED|90.0|-24.39|5.8|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||5.80|-24.39|0.1548
92321982|NCT03850483|184548633|SUPERIORITY||LS mean difference|-21.0|STANDARD_ERROR_OF_MEAN|11.89||0.04|TWO_SIDED|90.0|-40.67|-1.28|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-1.28|-40.67|0.0400
92321983|NCT03850483|184548633|SUPERIORITY||LS mean difference|-22.6|STANDARD_ERROR_OF_MEAN|11.6||0.0267|TWO_SIDED|90.0|-41.82|-3.39|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-3.39|-41.82|0.0267
92197753|NCT03784820|184294661|SUPERIORITY||LS mean difference|-0.12||||0.98|TWO_SIDED|95.0|-8.18|7.95||Demand/Withdraw score: Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||7.95|-8.18|0.98
92197754|NCT03784820|184294661|SUPERIORITY||LS mean difference|-2.2||||0.59|TWO_SIDED|95.0|-10.1|5.7||Demand/Withdraw score: Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||5.70|-10.10|0.59
92197755|NCT03784820|184294661|SUPERIORITY||LS mean difference|2.41||||0.16|TWO_SIDED|95.0|-0.99|5.82||Constructive Communication Score: Comparison of Partners at Post (T2)|Mixed Models Analysis|||||5.82|-0.99|0.16
92197756|NCT03784820|184294661|SUPERIORITY||LS mean difference|3.94||||0.12|TWO_SIDED|95.0|-1.05|8.93||Constructive Communication Score: Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||8.93|-1.05|0.12
92197757|NCT03784820|184294661|SUPERIORITY||LS mean difference|2.26||||0.34|TWO_SIDED|95.0|-2.35|6.87||Constructive Communication Score: Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||6.87|-2.35|0.34
92197758|NCT03784820|184294662|SUPERIORITY||LS mean difference|0.09||||0.7|TWO_SIDED|95.0|-0.35|0.53||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||0.53|-0.35|0.70
92321984|NCT03850483|184548633|SUPERIORITY||LS mean difference|-22.2|STANDARD_ERROR_OF_MEAN|11.63||0.0295|TWO_SIDED|90.0|-41.42|-2.89|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-2.89|-41.42|0.0295
92321985|NCT03850483|184548633|SUPERIORITY||LS mean difference|-9.1|STANDARD_ERROR_OF_MEAN|10.38||0.1903|TWO_SIDED|90.0|-26.3|8.05|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||8.05|-26.30|0.1903
92321986|NCT03850483|184548633|SUPERIORITY||LS mean difference|1.4|STANDARD_ERROR_OF_MEAN|10.65||0.553|TWO_SIDED|90.0|-16.21|19.06|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||19.06|-16.21|0.5530
92321987|NCT03850483|184548633|SUPERIORITY||LS mean difference|-13.8|STANDARD_ERROR_OF_MEAN|10.37||0.0933|TWO_SIDED|90.0|-30.92|3.4|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||3.40|-30.92|0.0933
92321988|NCT03850483|184548633|SUPERIORITY||LS mean difference|-19.0|STANDARD_ERROR_OF_MEAN|10.49||0.036|TWO_SIDED|90.0|-36.37|-1.65|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-1.65|-36.37|0.0360
92321989|NCT03850483|184548633|SUPERIORITY||LS mean difference|-24.5|STANDARD_ERROR_OF_MEAN|13.46||0.0354|TWO_SIDED|90.0|-46.85|-2.23|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-2.23|-46.85|0.0354
92321990|NCT03850483|184548633|SUPERIORITY||LS mean difference|-26.1|STANDARD_ERROR_OF_MEAN|13.07||0.0239|TWO_SIDED|90.0|-47.77|-4.46|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-4.46|-47.77|0.0239
92321991|NCT03850483|184548633|SUPERIORITY||LS mean difference|-24.1|STANDARD_ERROR_OF_MEAN|13.11||0.0342|TWO_SIDED|90.0|-45.84|-2.38|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-2.38|-45.84|0.0342
92321992|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.43||0.3279|TWO_SIDED|90.0|-0.91|0.52|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.52|-0.91|0.3279
92321993|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.3566|TWO_SIDED|90.0|-0.88|0.56|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.56|-0.88|0.3566
92321994|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.45||0.1165|TWO_SIDED|90.0|-1.29|0.21|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.21|-1.29|0.1165
92321995|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.43||0.3633|TWO_SIDED|90.0|-0.85|0.55|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.55|-0.85|0.3633
92321996|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.42||0.3766|TWO_SIDED|90.0|-0.83|0.56|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.56|-0.83|0.3766
92321997|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.43||0.1179|TWO_SIDED|90.0|-1.22|0.2|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.20|-1.22|0.1179
92321998|NCT03850483|184548635|SUPERIORITY||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.44||0.8647|TWO_SIDED|90.0|-0.24|1.2|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||1.20|-0.24|0.8647
92197759|NCT03784820|184294662|SUPERIORITY||LS mean difference|-0.03||||0.9|TWO_SIDED|95.0|-0.48|0.42||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||0.42|-0.48|0.90
92197760|NCT03784820|184294662|SUPERIORITY||LS mean difference|0.25||||0.38|TWO_SIDED|95.0|-0.31|0.82||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||0.82|-0.31|0.38
92197761|NCT03784820|184294663|SUPERIORITY||LS mean difference|-0.33||||0.89|TWO_SIDED|95.0|-5.1|4.43||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||4.43|-5.10|0.89
92321999|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.43||0.3294|TWO_SIDED|90.0|-0.9|0.52|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.52|-0.90|0.3294
92322000|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.44||0.1231|TWO_SIDED|90.0|-1.23|0.21|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.21|-1.23|0.1231
92322001|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.45||0.0878|TWO_SIDED|90.0|-1.37|0.13|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.13|-1.37|0.0878
92322002|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.43||0.1225|TWO_SIDED|90.0|-1.2|0.21|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.21|-1.20|0.1225
92322003|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.43||0.3663|TWO_SIDED|90.0|-0.85|0.56|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.56|-0.85|0.3663
92322004|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.43||0.0929|TWO_SIDED|90.0|-1.27|0.14|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.14|-1.27|0.0929
92322005|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.3111|TWO_SIDED|90.0|-0.95|0.51|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.51|-0.95|0.3111
92322006|NCT03850483|184548635|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.43||0.4745|TWO_SIDED|90.0|-0.74|0.69|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.69|-0.74|0.4745
92322007|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.44||0.2409|TWO_SIDED|90.0|-1.03|0.42|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.42|-1.03|0.2409
92322008|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.45||0.2018|TWO_SIDED|90.0|-1.13|0.37|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.37|-1.13|0.2018
92322009|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.43||0.3925|TWO_SIDED|90.0|-0.83|0.59|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.59|-0.83|0.3925
92322010|NCT03850483|184548635|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.42||0.5348|TWO_SIDED|90.0|-0.66|0.73|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.73|-0.66|0.5348
92322011|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.43||0.0739|TWO_SIDED|90.0|-1.33|0.09|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.09|-1.33|0.0739
92322012|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.44||0.4014|TWO_SIDED|90.0|-0.84|0.62|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.62|-0.84|0.4014
92322013|NCT03850483|184548635|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.45||0.6588|TWO_SIDED|90.0|-0.56|0.93|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.93|-0.56|0.6588
92322014|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.46||0.2997|TWO_SIDED|90.0|-1.0|0.52|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.52|-1.00|0.2997
92322015|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.2518|TWO_SIDED|90.0|-1.08|0.46|||MMRM|||Week 4:MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.46|-1.08|0.2518
92322016|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.44||0.2634|TWO_SIDED|90.0|-1.0|0.45|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.45|-1.00|0.2634
92197762|NCT03784820|184294663|SUPERIORITY||LS mean difference|0.45||||0.85|TWO_SIDED|95.0|-4.14|5.04||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||5.04|-4.14|0.85
92197763|NCT03784820|184294663|SUPERIORITY||LS mean difference|-0.85||||0.72|TWO_SIDED|95.0|-5.54|3.85||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||3.85|-5.54|0.72
92197764|NCT03784820|184294663|SUPERIORITY||LS mean difference|-3.05||||0.29|TWO_SIDED|95.0|-8.73|2.63||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||2.63|-8.73|0.29
92197765|NCT03784820|184294663|SUPERIORITY||LS mean difference|-4.69||||0.08|TWO_SIDED|95.0|-9.9|0.51||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||0.51|-9.90|0.08
92197766|NCT03784820|184294663|SUPERIORITY||LS mean difference|-3.29||||0.19|TWO_SIDED|95.0|-8.23|1.65||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||1.65|-8.23|0.19
92197767|NCT03784820|184294664|SUPERIORITY||LS mean difference|-1.2||||0.41|TWO_SIDED|95.0|-4.08|1.67||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||1.67|-4.08|0.41
92197768|NCT03784820|184294664|SUPERIORITY||LS mean difference|0.33||||0.84|TWO_SIDED|95.0|-2.87|3.54||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||3.54|-2.87|0.84
92197769|NCT03784820|184294664|SUPERIORITY||LS mean difference|-1.21||||0.5|TWO_SIDED|95.0|-4.76|2.34||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||2.34|-4.76|0.50
92322017|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.45||0.1999|TWO_SIDED|90.0|-1.11|0.36|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.36|-1.11|0.1999
92322018|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.44||0.1847|TWO_SIDED|90.0|-1.13|0.33|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.33|-1.13|0.1847
92322019|NCT03850483|184548635|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.46||0.4569|TWO_SIDED|90.0|-0.81|0.71|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.71|-0.81|0.4569
92322020|NCT03850483|184548635|SUPERIORITY||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.45||0.8536|TWO_SIDED|90.0|-0.27|1.22|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||1.22|-0.27|0.8536
92322021|NCT03850483|184548635|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.46||0.4812|TWO_SIDED|90.0|-0.79|0.74|||MMRM|||Week 6:MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.74|-0.79|0.4812
92322022|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.47||0.2276|TWO_SIDED|90.0|-1.13|0.42|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.42|-1.13|0.2276
92322023|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.45||0.0895|TWO_SIDED|90.0|-1.34|0.14|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.14|-1.34|0.0895
92322024|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.47||0.0411|TWO_SIDED|90.0|-1.58|-0.04|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.04|-1.58|0.0411
92322025|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.47||0.0928|TWO_SIDED|90.0|-1.4|0.15|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.15|-1.40|0.0928
92322026|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.49||0.0799|TWO_SIDED|90.0|-1.48|0.12|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.12|-1.48|0.0799
92322027|NCT03850483|184548635|SUPERIORITY||LS mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.46||0.7872|TWO_SIDED|90.0|-0.39|1.11|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||1.11|-0.39|0.7872
92322028|NCT03850483|184548635|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.47||0.6294|TWO_SIDED|90.0|-0.61|0.92|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.92|-0.61|0.6294
92322029|NCT03850483|184548635|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.48||0.5174|TWO_SIDED|90.0|-0.76|0.8|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.80|-0.76|0.5174
92322030|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.46||0.3136|TWO_SIDED|90.0|-0.98|0.53|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.53|-0.98|0.3136
92322031|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.48||0.102|TWO_SIDED|90.0|-1.42|0.18|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.18|-1.42|0.1020
92322032|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.47||0.1923|TWO_SIDED|90.0|-1.2|0.37|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.37|-1.20|0.1923
92197770|NCT03784820|184294664|SUPERIORITY||LS mean difference|-1.09||||0.52|TWO_SIDED|95.0|-4.43|2.24||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||2.24|-4.43|0.52
92197771|NCT03784820|184294664|SUPERIORITY||LS mean difference|-1.38||||0.3|TWO_SIDED|95.0|-3.96|1.21||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||1.21|-3.96|0.30
92197772|NCT03784820|184294664|SUPERIORITY||LS mean difference|-2.52||||0.03|TWO_SIDED|95.0|-4.78|-0.25||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||-0.25|-4.78|0.03
92197773|NCT03784820|184294665|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.79|TWO_SIDED|95.0|-3.66|4.72||Comparison of Patients at Post (T2)|t-test, 2 sided|||||4.72|-3.66|0.79
92197774|NCT00658606|184294680|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.032
92197775|NCT00658606|184294681|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||No adjustments were made to multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.037
92322033|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.49||0.0997|TWO_SIDED|90.0|-1.44|0.18|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.18|-1.44|0.0997
92322034|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.2497|TWO_SIDED|90.0|-1.08|0.45|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.45|-1.08|0.2497
92322035|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.2568|TWO_SIDED|90.0|-1.08|0.47|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.47|-1.08|0.2568
92322036|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.48||0.373|TWO_SIDED|90.0|-0.95|0.64|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.64|-0.95|0.3730
92322037|NCT03850483|184548635|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.46||0.0137|TWO_SIDED|90.0|-1.76|-0.26|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.26|-1.76|0.0137
92322038|NCT03850483|184548635|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.49||0.0055|TWO_SIDED|90.0|-2.06|-0.44|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.44|-2.06|0.0055
92322039|NCT03850483|184548635|SUPERIORITY||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.48||0.0069|TWO_SIDED|90.0|-1.99|-0.4|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.40|-1.99|0.0069
92322040|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.51||0.1648|TWO_SIDED|90.0|-1.34|0.34|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.34|-1.34|0.1648
92197776|NCT00658606|184294682|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||No adjustments were made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Statistical Analysis applies to 'Change from Baseline'||||0.001
92322041|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.46||0.2931|TWO_SIDED|90.0|-1.02|0.51|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.51|-1.02|0.2931
92322042|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.47||0.3047|TWO_SIDED|90.0|-1.01|0.53|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.53|-1.01|0.3047
92322043|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.48||0.1924|TWO_SIDED|90.0|-1.22|0.38|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.38|-1.22|0.1924
92322044|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.46||0.0465|TWO_SIDED|90.0|-1.52|-0.02|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.02|-1.52|0.0465
92322045|NCT03850483|184548635|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.49||0.0048|TWO_SIDED|90.0|-2.08|-0.47|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.47|-2.08|0.0048
92322046|NCT03850483|184548635|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.48||0.0186|TWO_SIDED|90.0|-1.78|-0.21|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.21|-1.78|0.0186
92322047|NCT03850483|184548635|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.51||0.0675|TWO_SIDED|90.0|-1.61|0.08|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.08|-1.61|0.0675
92322048|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.33||0.3232|TWO_SIDED|90.0|-0.69|0.39|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.39|-0.69|0.3232
92322049|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.33||0.0736|TWO_SIDED|90.0|-1.03|0.07|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.07|-1.03|0.0736
92322050|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.35||0.0743|TWO_SIDED|90.0|-1.07|0.07|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.07|-1.07|0.0743
92322051|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.32||0.0641|TWO_SIDED|90.0|-1.03|0.04|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.04|-1.03|0.0641
92322052|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.36||0.3887|TWO_SIDED|90.0|-0.71|0.5|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.50|-0.71|0.3887
92322053|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.37||0.0767|TWO_SIDED|90.0|-1.15|0.08|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.08|-1.15|0.0767
92197777|NCT00658606|184294683|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||Results were adjusted for use of concomitant psoriasis treatment.|ANOVA|||Statistical Analysis applies to 'Change from Baseline'||||0.382
92197778|NCT00658606|184294684|SUPERIORITY_OR_OTHER|||||||0.052||95.0||||No adjustments were made for multiple comparisons.|Fisher Exact|||Statistical Analysis applies to 'Clear or Almost Clear = Yes'||||0.052
92197779|NCT00658606|184294685|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||No adjustments were made for multiple comparisons.|Fisher Exact|||Statistical Analysis applies to 'Clear or Almost Clear = Yes'||||0.026
92322054|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.38||0.2529|TWO_SIDED|90.0|-0.89|0.38|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.38|-0.89|0.2529
92322055|NCT03850483|184548637|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.5304|TWO_SIDED|90.0|-0.61|0.67|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.67|-0.61|0.5304
92322056|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.39||0.292|TWO_SIDED|90.0|-0.87|0.43|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.43|-0.87|0.2920
92322057|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.41||0.2593|TWO_SIDED|90.0|-0.7|0.57|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.57|-0.70|0.2593
92322058|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.38||0.431|TWO_SIDED|90.0|-0.7|0.57|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.57|-0.70|0.4310
92197780|NCT00658606|184294686|SUPERIORITY_OR_OTHER|||||||0.147||95.0||||No adjustments were made for multiple comparisons.|Fisher Exact|||Statistical Analysis applies to 'PASI 90 = Yes'||||0.147
92197781|NCT00658606|184294687|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||No adjustments were made for multiple comparisons.|Log Rank|||||||0.566
92197782|NCT00658606|184294688|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||No adjustments were made for multiple comparisons.|Log Rank|||||||0.001
92197783|NCT00658606|184294689|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||No adjustments were made for multiple comparisons.|Log Rank|||||||0.007
92197784|NCT00658606|184294690|SUPERIORITY_OR_OTHER|||||||0.539||95.0||||Results were adjusted for use of concomitant psoriasis treatment.|ANOVA|||Statistical Analysis applies to 'Change from Baseline'||||0.539
92197785|NCT03786744|184294702|SUPERIORITY||Mean Difference (Net)|9.0||||0.049367|TWO_SIDED|||||Alternative hypothesis: can be changed of speech, language, communication skills for Cord Blood versus Placebo groups in 2-month Threshold \<0.05|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile||||0.049367
92197786|NCT03786744|184294702|SUPERIORITY||Median Difference (Net)|9.0||||0.004072|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 2-month of Health/Physical Development/Behaviour for Cord Blood versus Control groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0 and MS Office Excel 2007. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile.||||0.004072
92197787|NCT03786744|184294702|SUPERIORITY||Mean Difference (Net)|9.0||||0.017258|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 12-month of Health/Physical Development/Behaviour for Cord Blood versus Placebo groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0 and MS Office Excel 2007. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile.||||0.017258
92197788|NCT03786744|184294702|SUPERIORITY||Mean Difference (Net)|10.0||||0.03121|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 1-month of total score for Cord Blood versus Placebo groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile||||0.031210
92197789|NCT03786744|184294702|SUPERIORITY||Mean Difference (Net)|24.0||||0.00194|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 2-month of Total score for Cord Blood versus Placebo groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile||||0.001940
92197790|NCT03786744|184294702|SUPERIORITY||Mean Difference (Net)|15.0||||0.03121|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 6-month of Total score for Cord Blood versus Placebo groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile||||0.031210
92197791|NCT03786744|184294702|SUPERIORITY||Mean Difference (Net)|16.0||||0.01133|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 12-month of Total score for Cord Blood versus Placebo groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile||||0.011330
92197792|NCT00569127|184294712|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.55|TWO_SIDED|95.0|0.73|1.18||Central-review based progression-free survival was analyzed using the stratified log rank test (which is the score test from the stratified Cox-model) using stratification factors as defined in Section 6.0.|Regression, Cox||The reported hazard ratio estimate is for the comparison of the Octreotide, Bevacizumab arm to the Octreotide, Interferon Alpha-2b arm.|According to the intent-to-treat principle, all eligible patients were included in the analysis according to the randomized treatment assignment, regardless of actual treatments received.||1.18|0.73|0.55
92197793|NCT06314438|184294745|EQUIVALENCE|paired samples t test with significance set at 0.05 p value||||||0.34|||||||t-test, 2 sided|||||||0.34
92197794|NCT06314438|184294746|EQUIVALENCE|paired samples t test with significance level at 0.05||||||0.05|||||||t-test, 2 sided|||||||0.05
92197795|NCT06314438|184294747|EQUIVALENCE|paired samples t test with significance set at 0.05 p value|||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92197796|NCT03170518|184294777|SUPERIORITY|Imputed datasets were analyzed using analysis of covariance (ANCOVA) with terms for treatment, stratification factors (antihyperglycemic agent background and age group), and baseline HbA1c.|Least square mean difference|-0.76|||=|0.002|TWO_SIDED|95.0|-1.25|-0.27|||ANCOVA|||||-0.27|-1.25|= 0.002
92322059|NCT03850483|184548637|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.5477|TWO_SIDED|90.0|-0.59|0.69|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.69|-0.59|0.5477
92322060|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.39||0.0696|TWO_SIDED|90.0|-1.24|0.07|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.07|-1.24|0.0696
92322061|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.41||0.3583|TWO_SIDED|90.0|-0.82|0.53|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.53|-0.82|0.3583
92322062|NCT03850483|184548637|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.47||0.6826|TWO_SIDED|90.0|-0.56|1.01|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.01|-0.56|0.6826
92322063|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.48||0.457|TWO_SIDED|90.0|-0.84|0.74|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.74|-0.84|0.4570
92322064|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.49||0.3265|TWO_SIDED|90.0|-1.03|0.59|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.59|-1.03|0.3265
92322065|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.46||0.3039|TWO_SIDED|90.0|-1.0|0.53|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.53|-1.00|0.3039
92322066|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.5||0.2086|TWO_SIDED|90.0|-1.23|0.42|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.42|-1.23|0.2086
92322067|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.5||0.2172|TWO_SIDED|90.0|-1.22|0.44|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.44|-1.22|0.2172
92322068|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.52||0.2855|TWO_SIDED|90.0|-1.16|0.57|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.57|-1.16|0.2855
92322069|NCT03850483|184548637|SUPERIORITY||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.51||0.8372|TWO_SIDED|90.0|-0.34|1.36|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.36|-0.34|0.8372
92197797|NCT01948076|184294802|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.11
92322070|NCT03850483|184548637|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.52||0.4792|TWO_SIDED|90.0|-0.89|0.84|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.84|-0.89|0.4792
92322071|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.53||0.3331|TWO_SIDED|90.0|-1.12|0.65|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.65|-1.12|0.3331
92322072|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.51||0.108|TWO_SIDED|90.0|-1.47|0.21|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.21|-1.47|0.1080
92322073|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.48||0.0455|TWO_SIDED|90.0|-1.61|-0.02|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.02|-1.61|0.0455
92322074|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.48||0.0761|TWO_SIDED|90.0|-1.49|0.1|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.10|-1.49|0.0761
92322075|NCT03850483|184548637|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.5||0.0273|TWO_SIDED|90.0|-1.8|-0.14|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.14|-1.80|0.0273
92322076|NCT03850483|184548637|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.54||0.7214|TWO_SIDED|90.0|-0.57|1.2|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.20|-0.57|0.7214
92322077|NCT03850483|184548637|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.55||0.6132|TWO_SIDED|90.0|-0.75|1.06|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.06|-0.75|0.6132
92197798|NCT01948076|184294803|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED|95.0|||||McNemar|||||||0.043
92197799|NCT00356811|184294804|SUPERIORITY_OR_OTHER||percentage of participants|50.9|||||TWO_SIDED|95.0|37.3|64.4|||||The estimated value represents the percentage of participants with a confirmed CR or PR.|||64.4|37.3|
92197800|NCT02201901|184294842|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Binomial test|P-value is from the 2-sided exact 1-sample binomial test for the superiority of SOF/VEL 12 weeks (Group 1) over prespecified rate of 1% .||A sample size of 75 participants per treatment group would provide over 99% power to detect 40% improvement in SVR12 rate from the assumed spontaneous rate of 1% or less using a 2-sided exact 1-sample binomial test at significance level of 0.0167.||||<0.001
92197801|NCT02201901|184294842|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Binomial test|P-value is from the 2-sided exact 1-sample binomial test for the superiority of SOF/VEL+RBV 12 weeks (Group 2) over prespecified rate of 1%.||A sample size of 75 participants per treatment group would provide over 99% power to detect 40% improvement in SVR12 rate from the assumed spontaneous rate of 1% or less using a 2-sided exact 1-sample binomial test at significance level of 0.0167.||||<0.001
92197802|NCT02201901|184294842|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Binomial test|P-value is from the 2-sided exact 1-sample binomial test for the superiority of SOF/VEL 24 weeks (Group 3) over prespecified rate of 1%.||A sample size of 75 participants per treatment group would provide over 99% power to detect 40% improvement in SVR12 rate from the assumed spontaneous rate of 1% or less using a 2-sided exact 1-sample binomial test at significance level of 0.0167.||||<0.001
92197803|NCT01431950|184294850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.077||||||95.0|-0.039|0.192||||||||0.192|-0.039|
92197804|NCT03494985|184294858|OTHER||Least square mean difference|0.6|||<|0.0001|TWO_SIDED|95.0|0.4|0.9||p-value was adjusted using Dunnett's method for multiple comparisons|ANOVA|ANOVA model with factors for treatment, study site and DMI stratification (mild, moderate, severe).|First named treatment minus second named treatment such that a positive value favours the first named treatment.|||0.9|0.4|<0.0001
92197805|NCT03494985|184294858|OTHER||LS mean difference|0.9|||<|0.0001|TWO_SIDED|95.0|0.6|1.2||p-value was adjusted using Dunnett's method for multiple comparisons|ANOVA|ANOVA model with factors for treatment, study site and DMI stratification (mild, moderate, severe).|First named treatment minus second named treatment such that a positive value favours the first named treatment.|||1.2|0.6|<0.0001
92197806|NCT03494985|184294858|OTHER||LS mean difference|0.6|||<|0.0001|TWO_SIDED|95.0|0.3|0.9||p-value was adjusted using Dunnett's method for multiple comparisons.|ANOVA|ANOVA model with factors for treatment, study site and DMI stratification (mild, moderate, severe).|First named treatment minus second named treatment such that a positive value favours the first named treatment.|||0.9|0.3|<0.0001
92197807|NCT03459846|184294872|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.789|TWO_SIDED|95.0|0.641|1.387|||Regression, Cox|||||1.387|0.641|0.789
92197808|NCT03459846|184294873|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.728|TWO_SIDED|95.0|0.719|1.606|||Regression, Cox|||||1.606|0.719|0.728
92322078|NCT03850483|184548637|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.56||0.5704|TWO_SIDED|90.0|-0.83|1.02|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.02|-0.83|0.5704
92322079|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.53||0.3449|TWO_SIDED|90.0|-1.1|0.67|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.67|-1.10|0.3449
92197809|NCT03459846|184294874|SUPERIORITY||Odds Ratio (OR)|1.76||||0.142|TWO_SIDED|95.0|0.821|3.778|||Regression, Logistic|||||3.778|0.821|0.142
92197810|NCT00310180|184294900|SUPERIORITY|Since the noninferiority comparison is formulated using a conventional superiority null hypothesis described as above, a type II error corresponds to concluding that Arm B is not inferior when in fact it is. The design therefore uses a one-sided type I error of 10% and is planned to have 95% power (5% type II error). If the null hypothesis is rejected (at the one-sided 10% level), then it will be concluded that endocrine therapy alone is inferior to chemoendocrine therapy.|Hazard Ratio (HR)|1.08||||0.13|TWO_SIDED|95.0|0.94|1.24||One-sided p value for stratified Cox proportional hazard analysis, stratified on recurrence score, tumor size and menopausal status.|Regression, Cox|||This study uses a noninferiority design, but the noninferiority question is formulated using the conventional superiority null hypothesis of equal DFS on the two arms (that is, the null hypothesis is that Arm B is not inferior to Arm C). The alternative hypothesis is that Arm B has substantially worse DFS than Arm C, specified by a hazard ratio for B vs. C of 1.322.||1.24|0.94|0.13
92197811|NCT00310180|184294904|OTHER|Treatment-by-Age and RS subset was performed via Cox proportional hazard analysis||||||0.004|||||||Regression, Cox|||Treatment interaction test was performed for the 9 age by RS subsets (3 groups for each, age groups \<=50 vs. 51-65 vs. 66-75; RS groups 0-10 vs. 11-25 vs. \>25) in patients randomized to arms B and C||||0.004
92197812|NCT01443403|184294924|SUPERIORITY_OR_OTHER||LS Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|0.605||0.0003|TWO_SIDED|95.0|1.02|3.41|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment group as a term and baseline value as a covariate.||||3.41|1.02|0.0003
92197813|NCT01443403|184294924|SUPERIORITY_OR_OTHER||LS Mean Difference|1.95|STANDARD_ERROR_OF_MEAN|0.604||0.0014|TWO_SIDED|95.0|0.76|3.14|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||3.14|0.76|0.0014
92197814|NCT01443403|184294924|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56|STANDARD_ERROR_OF_MEAN|0.599||0.3504|TWO_SIDED|95.0|-0.62|1.74|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.74|-0.62|0.3504
92197815|NCT01443403|184294926|SUPERIORITY_OR_OTHER||LS Mean Difference|1.93|STANDARD_ERROR_OF_MEAN|0.568||0.0008|TWO_SIDED|95.0|0.81|3.05|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||3.05|0.81|0.0008
92197816|NCT01443403|184294926|SUPERIORITY_OR_OTHER||LS Mean Difference|1.91|STANDARD_ERROR_OF_MEAN|0.569||0.0009|TWO_SIDED|95.0|0.79|3.04|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||3.04|0.79|0.0009
92197817|NCT01443403|184294926|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.558||0.2572|TWO_SIDED|95.0|-0.47|1.73|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.73|-0.47|0.2572
92322080|NCT03850483|184548637|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.58||0.0493|TWO_SIDED|90.0|-1.94|0.0|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.00|-1.94|0.0493
92322081|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.57||0.149|TWO_SIDED|90.0|-1.55|0.35|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.35|-1.55|0.1490
92322082|NCT03850483|184548637|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.6||0.054|TWO_SIDED|90.0|-1.96|0.02|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.02|-1.96|0.0540
92322083|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.61||0.3119|TWO_SIDED|90.0|-1.32|0.71|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.71|-1.32|0.3119
92322084|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.62||0.3947|TWO_SIDED|90.0|-1.2|0.86|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.86|-1.20|0.3947
92322085|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.64||0.4205|TWO_SIDED|90.0|-1.18|0.93|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.93|-1.18|0.4205
92322086|NCT03850483|184548637|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.6||0.0472|TWO_SIDED|90.0|-2.02|-0.02|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.02|-2.02|0.0472
92322087|NCT03850483|184548637|SUPERIORITY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.59||0.0044|TWO_SIDED|90.0|-2.55|-0.6|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.60|-2.55|0.0044
92322088|NCT03850483|184548637|SUPERIORITY||LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.58||0.0098|TWO_SIDED|90.0|-2.32|-0.41|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.41|-2.32|0.0098
92322089|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.61||0.1285|TWO_SIDED|90.0|-1.71|0.32|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.32|-1.71|0.1285
92322090|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.6||0.3243|TWO_SIDED|90.0|-1.27|0.72|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.72|-1.27|0.3243
92322091|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.61||0.3795|TWO_SIDED|90.0|-1.2|0.82|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.82|-1.20|0.3795
92322092|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.62||0.307|TWO_SIDED|90.0|-1.35|0.72|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.72|-1.35|0.3070
92322093|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.59||0.1014|TWO_SIDED|90.0|-1.74|0.22|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.22|-1.74|0.1014
92322094|NCT03850483|184548637|SUPERIORITY||LS mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.62||0.0033|TWO_SIDED|90.0|-2.75|-0.69|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.69|-2.75|0.0033
92322095|NCT03850483|184548637|SUPERIORITY||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.6||0.028|TWO_SIDED|90.0|-2.18|-0.17|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.17|-2.18|0.0280
92197818|NCT01443403|184294928|SUPERIORITY_OR_OTHER||LS Mean Difference|1.33|STANDARD_ERROR_OF_MEAN|0.484||0.0065|TWO_SIDED|95.0|0.38|2.28|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.28|0.38|0.0065
92322096|NCT03850483|184548637|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.64||0.0781|TWO_SIDED|90.0|-1.98|0.15|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.15|-1.98|0.0781
92322097|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-0.1||||0.4216|TWO_SIDED|90.0|-9.4|9.1|||Chan and Zhang method|||Week 1||9.1|-9.4|0.4216
92322098|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-0.1||||0.4216|TWO_SIDED|90.0|-9.4|9.1|||Chan and Zhang method|||Week 1||9.1|-9.4|0.4216
92197819|NCT01443403|184294928|SUPERIORITY_OR_OTHER||LS Mean Difference|1.64|STANDARD_ERROR_OF_MEAN|0.482||0.0008|TWO_SIDED|95.0|0.69|2.58|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.58|0.69|0.0008
92197820|NCT01443403|184294928|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.476||0.2921|TWO_SIDED|95.0|-0.43|1.44|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.44|-0.43|0.2921
92197821|NCT01443403|184294930|SUPERIORITY_OR_OTHER||LS Mean Difference|1.44|STANDARD_ERROR_OF_MEAN|0.495||0.0039|TWO_SIDED|95.0|0.47|2.42|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.42|0.47|0.0039
92197822|NCT01443403|184294930|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.492||0.0007|TWO_SIDED|95.0|0.73|2.67|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.67|0.73|0.0007
92197823|NCT01443403|184294930|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.488||0.3077|TWO_SIDED|95.0|-0.46|1.46|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.46|-0.46|0.3077
92197824|NCT01443403|184294932|SUPERIORITY_OR_OTHER||Difference|27.3||||0.003|TWO_SIDED|95.0|10.0|44.6|||Chi-squared|||||44.6|10.0|0.0030
92197825|NCT01443403|184294932|SUPERIORITY_OR_OTHER||Difference|31.8||||0.0005|TWO_SIDED|95.0|15.0|48.7|||Chi-squared|||||48.7|15.0|0.0005
92197826|NCT01443403|184294932|SUPERIORITY_OR_OTHER||Difference|13.1||||0.1461|TWO_SIDED|95.0|-4.4|30.6|||Chi-squared|||||30.6|-4.4|0.1461
92197827|NCT01443403|184294934|SUPERIORITY_OR_OTHER||Difference|24.3||||0.005|TWO_SIDED|95.0|7.8|40.8|||Chi-squared|||||40.8|7.8|0.0050
92197828|NCT01443403|184294934|SUPERIORITY_OR_OTHER||Difference|24.5||||0.0045|TWO_SIDED|95.0|8.1|40.8|||Chi-squared|||||40.8|8.1|0.0045
92197829|NCT01443403|184294934|SUPERIORITY_OR_OTHER||Difference|8.2||||0.2984|TWO_SIDED|95.0|-7.2|23.6|||Chi-squared|||||23.6|-7.2|0.2984
92197830|NCT01443403|184294936|SUPERIORITY_OR_OTHER||LS Mean Difference|1.54|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|0.9|2.17|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.17|0.90|<0.0001
92197831|NCT01443403|184294936|SUPERIORITY_OR_OTHER||LS Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|0.32||0.0002|TWO_SIDED|95.0|0.59|1.85|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.85|0.59|0.0002
92197832|NCT01443403|184294936|SUPERIORITY_OR_OTHER||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.317||0.0698|TWO_SIDED|95.0|-0.05|1.2|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.20|-0.05|0.0698
92197833|NCT01443403|184294938|SUPERIORITY_OR_OTHER||LS Mean Difference|1.19|STANDARD_ERROR_OF_MEAN|0.307||0.0001|TWO_SIDED|95.0|0.58|1.79|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.79|0.58|0.0001
92197834|NCT01443403|184294938|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.305||0.0004|TWO_SIDED|95.0|0.49|1.7|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.70|0.49|0.0004
92197835|NCT01443403|184294938|SUPERIORITY_OR_OTHER||LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.302||0.1648|TWO_SIDED|95.0|-0.17|1.02|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.02|-0.17|0.1648
92197836|NCT01443403|184294940|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0004
92197837|NCT01443403|184294940|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92197838|NCT01443403|184294940|SUPERIORITY_OR_OTHER|||||||0.0118||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0118
92197839|NCT01443403|184294941|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92197840|NCT01443403|184294941|SUPERIORITY_OR_OTHER|||||||0.0011||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0011
92197841|NCT01443403|184294941|SUPERIORITY_OR_OTHER|||||||0.0079||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0079
92197842|NCT01443403|184294944|SUPERIORITY_OR_OTHER||LS Mean Difference|1.33|STANDARD_ERROR_OF_MEAN|0.358||0.0003|TWO_SIDED|95.0|0.62|2.03|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.03|0.62|0.0003
92197843|NCT01443403|184294944|SUPERIORITY_OR_OTHER||LS Mean Difference|1.51|STANDARD_ERROR_OF_MEAN|0.359|<|0.0001|TWO_SIDED|95.0|0.8|2.22|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.22|0.80|<0.0001
92197844|NCT01443403|184294944|SUPERIORITY_OR_OTHER||LS Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.352||0.1211|TWO_SIDED|95.0|-0.15|1.24|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.24|-0.15|0.1211
92197845|NCT01443403|184294946|SUPERIORITY_OR_OTHER||LS Mean Difference|2.36|STANDARD_ERROR_OF_MEAN|0.551|<|0.0001|TWO_SIDED|95.0|1.28|3.45|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||3.45|1.28|<0.0001
92197846|NCT01443403|184294946|SUPERIORITY_OR_OTHER||LS Mean Difference|2.07|STANDARD_ERROR_OF_MEAN|0.549||0.0002|TWO_SIDED|95.0|0.99|3.15|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||3.15|0.99|0.0002
92197847|NCT01443403|184294946|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.542||0.2022|TWO_SIDED|95.0|-0.37|1.76|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.76|-0.37|0.2022
92197848|NCT01443403|184294949|SUPERIORITY_OR_OTHER|||||||0.0272||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0272
92197849|NCT01443403|184294949|SUPERIORITY_OR_OTHER|||||||0.1355||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1355
92197850|NCT01443403|184294949|SUPERIORITY_OR_OTHER|||||||0.3689||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3689
92197851|NCT01443403|184294951|SUPERIORITY_OR_OTHER|||||||0.2126||95.0|||||Welch's t-test|||||||0.2126
92197852|NCT01443403|184294951|SUPERIORITY_OR_OTHER|||||||0.2799||95.0|||||Welch's t-test|||||||0.2799
92197853|NCT01443403|184294951|SUPERIORITY_OR_OTHER|||||||0.6466||95.0|||||Welch's t-test|||||||0.6466
92197854|NCT01443403|184294953|SUPERIORITY_OR_OTHER|||||||0.9826||95.0|||||Welch's t-test|||||||0.9826
92197855|NCT01443403|184294953|SUPERIORITY_OR_OTHER|||||||0.5188||95.0|||||Welch's t-test|||||||0.5188
92197856|NCT01443403|184294953|SUPERIORITY_OR_OTHER|||||||0.5029||95.0|||||Welch's t-test|||||||0.5029
92197857|NCT03607422|184294978|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|59.6|||<|0.001|TWO_SIDED|95.0|53.1|66.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||66.2|53.1|<0.001
92197858|NCT03607422|184294978|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|46.9|||<|0.001|TWO_SIDED|95.0|39.9|53.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||53.9|39.9|<0.001
92322099|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-2.8||||0.7362|TWO_SIDED|90.0|-12.5|5.0|||Chan and Zhang method|||Week 1||5.0|-12.5|0.7362
92322100|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-2.8||||0.7417|TWO_SIDED|90.0|-12.5|4.7|||Chan and Zhang method|||Week 1||4.7|-12.5|0.7417
92322101|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-5.9|8.0|||Chan and Zhang method|||Week 1||8.0|-5.9|0.5000
92322102|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|5.7||||0.0714|TWO_SIDED|90.0|-0.8|16.9|||Chan and Zhang method|||Week 1||16.9|-0.8|0.0714
92322103|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|5.3||||0.0813|TWO_SIDED|90.0|-1.1|15.7|||Chan and Zhang method|||Week 1||15.7|-1.1|0.0813
92322104|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-2.8||||0.7417|TWO_SIDED|90.0|-12.5|4.7|||Chan and Zhang method|||Week 2||4.7|-12.5|0.7417
92322105|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-2.8||||0.7417|TWO_SIDED|90.0|-12.5|4.7|||Chan and Zhang method|||Week 2||4.7|-12.5|0.7417
92322106|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-9.6|9.6|||Chan and Zhang method|||Week 2||9.6|-9.6|0.5000
92322107|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-0.1||||0.4216|TWO_SIDED|90.0|-9.4|9.1|||Chan and Zhang method|||Week 2||9.1|-9.4|0.4216
92322108|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-2.0||||0.6894|TWO_SIDED|90.0|-9.4|5.9|||Chan and Zhang method|||Week 2||5.9|-9.4|0.6894
92322109|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|3.7||||0.2518|TWO_SIDED|90.0|-4.2|14.3|||Chan and Zhang method|||Week 2||14.3|-4.2|0.2518
92322110|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|8.5||||0.0565|TWO_SIDED|90.0|-0.3|20.3|||Chan and Zhang method|||Week 2||20.3|-0.3|0.0565
92322111|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-0.2||||0.4446|TWO_SIDED|90.0|-11.0|11.0|||Chan and Zhang method|||Week 4||11.0|-11.0|0.4446
92322112|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-5.6||||0.9001|TWO_SIDED|90.0|-16.5|1.9|||Chan and Zhang method|||Week 4||1.9|-16.5|0.9001
92322113|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-11.0|11.0|||Chan and Zhang method|||Week 4||11.0|-11.0|0.5000
92322114|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-0.2||||0.4446|TWO_SIDED|90.0|-11.0|11.0|||Chan and Zhang method|||Week 4||11.0|-11.0|0.4446
92322115|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|0.2||||0.5054|TWO_SIDED|90.0|-10.5|12.5|||Chan and Zhang method|||Week 4||12.5|-10.5|0.5054
92197859|NCT03607422|184294979|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|47.4|||<|0.001|TWO_SIDED|95.0|41.0|53.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||53.7|41.0|<0.001
92322116|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|3.3||||0.3401|TWO_SIDED|90.0|-8.2|16.9|||Chan and Zhang method|||Week 4||16.9|-8.2|0.3401
92322117|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|12.9||||0.0489|TWO_SIDED|90.0|0.1|27.5|||Chan and Zhang method|||Week 4||27.5|0.1|0.0489
92322118|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-2.9||||0.6349|TWO_SIDED|90.0|-14.8|8.4|||Chan and Zhang method|||Week 6||8.4|-14.8|0.6349
92322119|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-5.6||||0.8253|TWO_SIDED|90.0|-17.2|4.4|||Chan and Zhang method|||Week 6||4.4|-17.2|0.8253
92322120|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-12.5|12.5|||Chan and Zhang method|||Week 6||12.5|-12.5|0.5000
92322121|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|5.2||||0.2709|TWO_SIDED|90.0|-8.3|19.1|||Chan and Zhang method|||Week 6||19.1|-8.3|0.2709
92322122|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|0.2||||0.5054|TWO_SIDED|90.0|-10.5|12.5|||Chan and Zhang method|||Week 6||12.5|-10.5|0.5054
92322123|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-2.4||||0.6319|TWO_SIDED|90.0|-12.9|9.3|||Chan and Zhang method|||Week 6||9.3|-12.9|0.6319
92322124|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|5.0||||0.3199|TWO_SIDED|90.0|-6.4|18.1|||Chan and Zhang method|||Week 6||18.1|-6.4|0.3199
92322125|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-5.7||||0.7306|TWO_SIDED|90.0|-19.1|6.1|||Chan and Zhang method|||Week 8||6.1|-19.1|0.7306
92322126|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-5.7||||0.7306|TWO_SIDED|90.0|-19.1|6.1|||Chan and Zhang method|||Week 8||6.1|-19.1|0.7306
92322127|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-8.3||||0.8808|TWO_SIDED|90.0|-20.6|2.7|||Chan and Zhang method|||Week 8||2.7|-20.6|0.8808
92322128|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-0.3||||0.4644|TWO_SIDED|90.0|-13.7|13.7|||Chan and Zhang method|||Week 8||13.7|-13.7|0.4644
92322129|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|7.8||||0.1534|TWO_SIDED|90.0|-3.4|20.9|||Chan and Zhang method|||Week 8||20.9|-3.4|0.1534
92322130|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-0.4||||0.4867|TWO_SIDED|90.0|-10.0|11.4|||Chan and Zhang method|||Week 8||11.4|-10.0|0.4867
92322131|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|12.3||||0.0435|TWO_SIDED|90.0|0.4|25.9|||Chan and Zhang method|||Week 8||25.9|0.4|0.0435
92322132|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-2.9||||0.6349|TWO_SIDED|90.0|-14.8|8.4|||Chan and Zhang method|||Week 10||8.4|-14.8|0.6349
92322133|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-0.2||||0.4565|TWO_SIDED|90.0|-12.6|12.5|||Chan and Zhang method|||Week 10||12.5|-12.6|0.4565
92322134|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-12.5|12.5|||Chan and Zhang method|||Week 10||12.5|-12.5|0.5000
92322135|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|7.9||||0.1765|TWO_SIDED|90.0|-5.7|21.8|||Chan and Zhang method|||Week 10||21.8|-5.7|0.1765
92322136|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|0.3||||0.5013|TWO_SIDED|90.0|-14.0|15.2|||Chan and Zhang method|||Week 10||15.2|-14.0|0.5013
92322137|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-7.8||||0.7969|TWO_SIDED|90.0|-20.7|5.9|||Chan and Zhang method|||Week 10||5.9|-20.7|0.7969
92322138|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|-3.2||||0.6424|TWO_SIDED|90.0|-16.4|10.6|||Chan and Zhang method|||Week 10||10.6|-16.4|0.6424
92322139|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|10.7||||0.062|TWO_SIDED|90.0|-0.7|23.6|||Chan and Zhang method|||Week 14||23.6|-0.7|0.0620
92322140|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|2.8||||0.3402|TWO_SIDED|90.0|-7.0|13.4|||Chan and Zhang method|||Week 14||13.4|-7.0|0.3402
92322141|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|5.8||||0.1743|TWO_SIDED|90.0|-4.5|17.6|||Chan and Zhang method|||Week 14||17.6|-4.5|0.1743
92322142|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|10.7||||0.062|TWO_SIDED|90.0|-0.7|23.6|||Chan and Zhang method|||Week 14||23.6|-0.7|0.0620
92322143|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|2.6||||0.3534|TWO_SIDED|90.0|-7.8|15.4|||Chan and Zhang method|||Week 14||15.4|-7.8|0.3534
92322144|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|5.5||||0.2508|TWO_SIDED|90.0|-5.5|18.8|||Chan and Zhang method|||Week 14||18.8|-5.5|0.2508
92322145|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|1.9||||0.4238|TWO_SIDED|90.0|-8.2|13.6|||Chan and Zhang method|||Week 14||13.6|-8.2|0.4238
92322146|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|5.9||||0.2696|TWO_SIDED|90.0|-6.2|19.3|||Chan and Zhang method|||Week 16||19.3|-6.2|0.2696
92322147|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|3.0||||0.3648|TWO_SIDED|90.0|-8.6|15.3|||Chan and Zhang method|||Week 16||15.3|-8.6|0.3648
92322148|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|8.7||||0.1267|TWO_SIDED|90.0|-3.8|22.2|||Chan and Zhang method|||Week 16||22.2|-3.8|0.1267
92322149|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|10.7||||0.0832|TWO_SIDED|90.0|-2.5|24.4|||Chan and Zhang method|||Week 16||24.4|-2.5|0.0832
92322150|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|6.5||||0.2099|TWO_SIDED|90.0|-5.7|21.3|||Chan and Zhang method|||Week 16||21.3|-5.7|0.2099
92322151|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|3.6||||0.3474|TWO_SIDED|90.0|-8.0|17.4|||Chan and Zhang method|||Week 16||17.4|-8.0|0.3474
92322152|NCT03850483|184548641|SUPERIORITY||Risk Difference (RD)|8.1||||0.2124|TWO_SIDED|90.0|-4.0|21.6|||Chan and Zhang method|||Week 16||21.6|-4.0|0.2124
92322153|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|13.7||||0.0544|TWO_SIDED|90.0|-0.3|27.9|||Chan and Zhang method|||Week 1||27.9|-0.3|0.0544
92322154|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|6.1||||0.2697|TWO_SIDED|90.0|-6.3|19.6|||Chan and Zhang method|||Week 1||19.6|-6.3|0.2697
92322155|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|16.5||||0.0286|TWO_SIDED|90.0|2.0|31.0|||Chan and Zhang method|||Week 1||31.0|2.0|0.0286
92322156|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|7.8||||0.1512|TWO_SIDED|90.0|-4.7|20.8|||Chan and Zhang method|||Week 1||20.8|-4.7|0.1512
92322157|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|-7.7||||0.79|TWO_SIDED|90.0|-21.9|7.4|||Chan and Zhang method|||Week 1||7.4|-21.9|0.7900
92322158|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|7.3||||0.3137|TWO_SIDED|90.0|-8.5|24.0|||Chan and Zhang method|||Week 1||24.0|-8.5|0.3137
92322159|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|5.0||||0.3789|TWO_SIDED|90.0|-10.9|22.6|||Chan and Zhang method|||Week 1||22.6|-10.9|0.3789
92322160|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|13.7||||0.0636|TWO_SIDED|90.0|-1.0|28.5|||Chan and Zhang method|||Week 2||28.5|-1.0|0.0636
92322161|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|9.6||||0.1435|TWO_SIDED|90.0|-4.9|24.5|||Chan and Zhang method|||Week 2||24.5|-4.9|0.1435
92322162|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|25.7||||0.0058|TWO_SIDED|90.0|8.9|42.4|||Chan and Zhang method|||Week 2||42.4|8.9|0.0058
92322163|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|22.9||||0.0112|TWO_SIDED|90.0|6.5|38.9|||Chan and Zhang method|||Week 2||38.9|6.5|0.0112
92322164|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|4.9||||0.3349|TWO_SIDED|90.0|-10.8|21.3|||Chan and Zhang method|||Week 2||21.3|-10.8|0.3349
92322165|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|10.6||||0.2065|TWO_SIDED|90.0|-6.1|27.7|||Chan and Zhang method|||Week 2||27.7|-6.1|0.2065
92322166|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|11.4||||0.1871|TWO_SIDED|90.0|-5.6|29.1|||Chan and Zhang method|||Week 2||29.1|-5.6|0.1871
92322167|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|13.4||||0.1245|TWO_SIDED|90.0|-4.9|31.4|||Chan and Zhang method|||Week 4||31.4|-4.9|0.1245
92322168|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|14.0||||0.128|TWO_SIDED|90.0|-4.7|33.7|||Chan and Zhang method|||Week 4||33.7|-4.7|0.1280
92322169|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|32.9||||0.003|TWO_SIDED|90.0|12.4|50.5|||Chan and Zhang method|||Week 4||50.5|12.4|0.0030
92322170|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|22.6||||0.0235|TWO_SIDED|90.0|3.1|40.6|||Chan and Zhang method|||Week 4||40.6|3.1|0.0235
92322171|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|4.9||||0.3728|TWO_SIDED|90.0|-13.6|24.1|||Chan and Zhang method|||Week 4||24.1|-13.6|0.3728
92322172|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|25.5||||0.0153|TWO_SIDED|90.0|4.0|43.6|||Chan and Zhang method|||Week 4||43.6|4.0|0.0153
92322173|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|9.4||||0.2543|TWO_SIDED|90.0|-8.8|27.8|||Chan and Zhang method|||Week 4||27.8|-8.8|0.2543
92322174|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|7.9||||0.2785|TWO_SIDED|90.0|-10.2|26.4|||Chan and Zhang method|||Week 6||26.4|-10.2|0.2785
92322175|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|13.3||||0.1434|TWO_SIDED|90.0|-7.4|33.7|||Chan and Zhang method|||Week 6||33.7|-7.4|0.1434
92322176|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|36.1||||0.0015|TWO_SIDED|90.0|12.8|54.1|||Chan and Zhang method|||Week 6||54.1|12.8|0.0015
92322177|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|24.1||||0.0242|TWO_SIDED|90.0|3.4|43.9|||Chan and Zhang method|||Week 6||43.9|3.4|0.0242
92322178|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|35.1||||0.0037|TWO_SIDED|90.0|10.0|54.1|||Chan and Zhang method|||Week 6||54.1|10.0|0.0037
92322179|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|16.6||||0.1037|TWO_SIDED|90.0|-4.9|36.7|||Chan and Zhang method|||Week 6||36.7|-4.9|0.1037
92322180|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|1.8||||0.4607|TWO_SIDED|90.0|-17.7|22.5|||Chan and Zhang method|||Week 6||22.5|-17.7|0.4607
92322181|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|12.2||||0.1725|TWO_SIDED|90.0|-8.0|31.9|||Chan and Zhang method|||Week 8||31.9|-8.0|0.1725
92197860|NCT03607422|184294979|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|34.0|||<|0.001|TWO_SIDED|95.0|27.8|40.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||40.2|27.8|<0.001
92197861|NCT03607422|184294980|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|50.4|||<|0.001|TWO_SIDED|95.0|43.8|57.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||57.1|43.8|<0.001
92197862|NCT03607422|184294980|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|32.6|||<|0.001|TWO_SIDED|95.0|25.8|39.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||39.4|25.8|<0.001
92197863|NCT03607422|184294981|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|53.1|||<|0.001|TWO_SIDED|95.0|46.7|59.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||59.4|46.7|<0.001
92197864|NCT03607422|184294981|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|36.9|||<|0.001|TWO_SIDED|95.0|30.6|43.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||43.3|30.6|<0.001
92197865|NCT03607422|184294982|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|57.0|||<|0.001|TWO_SIDED|95.0|50.9|63.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||63.0|50.9|<0.001
92197866|NCT03607422|184294982|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|45.2|||<|0.001|TWO_SIDED|95.0|38.9|51.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||51.4|38.9|<0.001
92197867|NCT03607422|184294983|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|40.4|||<|0.001|TWO_SIDED|95.0|34.2|46.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||46.5|34.2|<0.001
92197868|NCT03607422|184294983|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|29.4|||<|0.001|TWO_SIDED|95.0|23.5|35.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||35.3|23.5|<0.001
92197869|NCT03607422|184294984|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|14.9|||<|0.001|TWO_SIDED|95.0|10.6|19.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||19.3|10.6|<0.001
92197870|NCT03607422|184294984|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|6.7|||<|0.001|TWO_SIDED|95.0|3.4|10.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||10.0|3.4|<0.001
92322182|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|22.8||||0.0451|TWO_SIDED|90.0|0.2|43.6|||Chan and Zhang method|||Week 8||43.6|0.2|0.0451
92322183|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|44.4||||0.0003|TWO_SIDED|90.0|21.3|62.9|||Chan and Zhang method|||Week 8||62.9|21.3|0.0003
92197871|NCT03607422|184294985|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|7.2|||<|0.001|TWO_SIDED|95.0|3.8|10.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||10.5|3.8|<0.001
92197872|NCT03607422|184294986|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|8.6|||<|0.001|TWO_SIDED|95.0|4.3|12.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||12.9|4.3|<0.001
92197873|NCT03607422|184294987|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|-23.1|||<|0.001|TWO_SIDED|95.0|-28.4|-17.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||-17.8|-28.4|<0.001
92322184|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|26.7||||0.0239|TWO_SIDED|90.0|3.8|47.6|||Chan and Zhang method|||Week 8||47.6|3.8|0.0239
92322185|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|20.8||||0.0643|TWO_SIDED|90.0|-2.1|41.2|||Chan and Zhang method|||Week 8||41.2|-2.1|0.0643
92322186|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|-6.0||||0.6676|TWO_SIDED|90.0|-25.9|15.9|||Chan and Zhang method|||Week 8||15.9|-25.9|0.6676
92322187|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|17.6||||0.0898|TWO_SIDED|90.0|-4.2|37.8|||Chan and Zhang method|||Week 8||37.8|-4.2|0.0898
92322188|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|11.8||||0.2707|TWO_SIDED|90.0|-10.1|32.9|||Chan and Zhang method|||Week 10||32.9|-10.1|0.2707
92322189|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|9.0||||0.2981|TWO_SIDED|90.0|-14.2|31.0|||Chan and Zhang method|||Week 10||31.0|-14.2|0.2981
92322190|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|31.0||||0.011|TWO_SIDED|90.0|8.0|51.4|||Chan and Zhang method|||Week 10||51.4|8.0|0.0110
92322191|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|33.3||||0.0083|TWO_SIDED|90.0|9.1|53.2|||Chan and Zhang method|||Week 10||53.2|9.1|0.0083
92322192|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|4.8||||0.4217|TWO_SIDED|90.0|-18.3|27.5|||Chan and Zhang method|||Week 10||27.5|-18.3|0.4217
92322193|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|1.3||||0.5152|TWO_SIDED|90.0|-20.8|23.2|||Chan and Zhang method|||Week 10||23.2|-20.8|0.5152
92322194|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|-11.8||||0.7002|TWO_SIDED|90.0|-33.1|11.7|||Chan and Zhang method|||Week 10||11.7|-33.1|0.7002
92322195|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|27.6||||0.0169|TWO_SIDED|90.0|5.2|47.9|||Chan and Zhang method|||Week 12||47.9|5.2|0.0169
92197874|NCT03607422|184294987|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|-22.4|||<|0.001|TWO_SIDED|95.0|-27.8|-16.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||-16.9|-27.8|<0.001
92322196|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|25.9||||0.0283|TWO_SIDED|90.0|3.2|46.2|||Chan and Zhang method|||Week 12||46.2|3.2|0.0283
92322197|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|37.9||||0.002|TWO_SIDED|90.0|14.3|57.1|||Chan and Zhang method|||Week 12||57.1|14.3|0.0020
92322198|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|31.4||||0.0095|TWO_SIDED|90.0|8.4|51.5|||Chan and Zhang method|||Week 12||51.5|8.4|0.0095
92322199|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|21.0||||0.0798|TWO_SIDED|90.0|-2.7|42.6|||Chan and Zhang method|||Week 12||42.6|-2.7|0.0798
92322200|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|10.9||||0.2848|TWO_SIDED|90.0|-11.3|31.8|||Chan and Zhang method|||Week 12||31.8|-11.3|0.2848
92322201|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|0.5||||0.5062|TWO_SIDED|90.0|-21.1|23.1|||Chan and Zhang method|||Week 12||23.1|-21.1|0.5062
92322202|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|36.9||||0.0012|TWO_SIDED|90.0|16.7|55.3|||Chan and Zhang method|||Week 14||55.3|16.7|0.0012
92322203|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|38.7||||0.0007|TWO_SIDED|90.0|17.3|57.4|||Chan and Zhang method|||Week 14||57.4|17.3|0.0007
92322204|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|47.0||||0.0001|TWO_SIDED|90.0|24.6|65.1|||Chan and Zhang method|||Week 14||65.1|24.6|0.0001
92322205|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|29.9||||0.0039|TWO_SIDED|90.0|9.5|48.7|||Chan and Zhang method|||Week 14||48.7|9.5|0.0039
92322206|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|4.5||||0.3895|TWO_SIDED|90.0|-17.5|26.5|||Chan and Zhang method|||Week 14||26.5|-17.5|0.3895
92322207|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|10.1||||0.2793|TWO_SIDED|90.0|-11.8|31.8|||Chan and Zhang method|||Week 14||31.8|-11.8|0.2793
92322208|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|-8.5||||0.7027|TWO_SIDED|90.0|-28.4|12.2|||Chan and Zhang method|||Week 14||12.2|-28.4|0.7027
92322209|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|37.0||||0.0009|TWO_SIDED|90.0|15.4|55.2|||Chan and Zhang method|||Week 16||55.2|15.4|0.0009
92322210|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|23.0||||0.0205|TWO_SIDED|90.0|4.1|43.2|||Chan and Zhang method|||Week 16||43.2|4.1|0.0205
92322211|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|46.8||||0.0001|TWO_SIDED|90.0|24.6|65.7|||Chan and Zhang method|||Week 16||65.7|24.6|0.0001
92197875|NCT03607422|184294988|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|49.8|||<|0.001|TWO_SIDED|95.0|42.2|57.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||57.3|42.2|<0.001
92197876|NCT03607422|184294988|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|37.9|||<|0.001|TWO_SIDED|95.0|30.1|45.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||45.8|30.1|<0.001
92197877|NCT03607422|184294989|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|51.8|||<|0.001|TWO_SIDED|95.0|44.4|59.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||59.1|44.4|<0.001
92197878|NCT03607422|184294989|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|35.9|||<|0.001|TWO_SIDED|95.0|28.2|43.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||43.5|28.2|<0.001
92197879|NCT03607422|184294990|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|53.3|||<|0.001|TWO_SIDED|95.0|46.0|60.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.6|46.0|<0.001
92197880|NCT03607422|184294990|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|40.3|||<|0.001|TWO_SIDED|95.0|32.7|48.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||48.0|32.7|<0.001
92197881|NCT03607422|184294991|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|54.8|||<|0.001|TWO_SIDED|95.0|47.2|62.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||62.3|47.2|<0.001
92322212|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|44.6||||0.0002|TWO_SIDED|90.0|21.5|62.9|||Chan and Zhang method|||Week 16||62.9|21.5|0.0002
92197882|NCT03607422|184294991|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|40.3|||<|0.001|TWO_SIDED|95.0|32.3|48.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||48.3|32.3|<0.001
92197883|NCT03607422|184294992|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|50.6|||<|0.001|TWO_SIDED|95.0|42.8|58.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||58.5|42.8|<0.001
92197884|NCT03607422|184294992|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|37.9|||<|0.001|TWO_SIDED|95.0|29.5|46.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||46.3|29.5|<0.001
92322213|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|-18.5||||0.9209|TWO_SIDED|90.0|-38.3|3.2|||Chan and Zhang method|||Week 16||3.2|-38.3|0.9209
92322214|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|-13.9||||0.793|TWO_SIDED|90.0|-34.4|8.7|||Chan and Zhang method|||Week 16||8.7|-34.4|0.7930
92322215|NCT03850483|184548642|SUPERIORITY||Risk Difference (RD)|-5.1||||0.6156|TWO_SIDED|90.0|-28.0|20.1|||Chan and Zhang method|||Week 16||20.1|-28.0|0.6156
92197885|NCT03607422|184294993|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|18.1|||<|0.0001|TWO_SIDED|95.0|13.5|22.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||22.7|13.5|<0.0001
92197886|NCT03607422|184294993|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|13.4|||<|0.001|TWO_SIDED|95.0|9.2|17.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||17.6|9.2|<0.001
92197887|NCT03607422|184294994|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for European Union (EU)/European Medicines Agency (EMA) regulatory purposes only.|Least Squares (LS) Mean Difference|-49.45|STANDARD_ERROR_OF_MEAN|3.364|<|0.001|TWO_SIDED|95.0|-56.05|-42.84|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-42.84|-56.05|<0.001
92197888|NCT03607422|184294994|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-34.16|STANDARD_ERROR_OF_MEAN|3.386|<|0.001|TWO_SIDED|95.0|-40.81|-27.51|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-27.51|-40.81|<0.001
92197889|NCT03607422|184294995|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-50.14|STANDARD_ERROR_OF_MEAN|3.127|<|0.001|TWO_SIDED|95.0|-56.28|-44.0|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-44.00|-56.28|<0.001
92197890|NCT03607422|184294995|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-39.62|STANDARD_ERROR_OF_MEAN|3.139|<|0.001|TWO_SIDED|95.0|-45.79|-33.46|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-33.46|-45.79|<0.001
92197891|NCT03607422|184294996|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|54.7|||<|0.001|TWO_SIDED|95.0|47.7|61.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||61.7|47.7|<0.001
92197892|NCT03607422|184294996|SUPERIORITY||Adjusted Response Rate Difference|42.1|||<|0.001|TWO_SIDED|95.0|34.5|49.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.||49.8|34.5|<0.001
92197893|NCT03607422|184294997|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|49.0|||<|0.001|TWO_SIDED|95.0|41.4|56.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||56.5|41.4|<0.001
92322216|NCT01106677|184548683|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation: assuming a difference between canagliflozin and placebo of 0.5% and a common standard deviation of 1.0%, and using a 2-sample, 1-sided t-test with a Type I error rate of 0.05, it was estimated that 86 subjects per group would provide 90% power to demonstrate superiority of canagliflozin over placebo.|Least-Squares Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|95.0|-0.758|-0.481|||ANCOVA|||||-0.481|-0.758|<0.001
92322217|NCT01106677|184548683|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation: assuming a difference between canagliflozin and placebo of 0.5% and a common standard deviation of 1.0%, and using a 2-sample, 1-sided t-test with a Type I error rate of 0.05, it was estimated that 86 subjects per group would provide 90% power to demonstrate superiority of canagliflozin over placebo.|Least-Squares Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|95.0|-0.914|-0.636|||ANCOVA|||||-0.636|-0.914|<0.001
92322218|NCT01106677|184548683|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.071|||TWO_SIDED|95.0|-0.795|-0.516||No formal statistical comparison was conducted.|ANCOVA|||||-0.516|-0.795|
92322219|NCT01106677|184548684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.29|||<|0.001|TWO_SIDED|95.0|1.5|3.5|||Regression, Logistic|||||3.50|1.50|<0.001
92322220|NCT01106677|184548684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.39|||<|0.001|TWO_SIDED|95.0|2.85|6.77|||Regression, Logistic|||||6.77|2.85|<0.001
92322221|NCT01106677|184548685|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-29.8|STANDARD_ERROR_OF_MEAN|3.044|<|0.001|TWO_SIDED|95.0|-35.76|-23.81|||ANCOVA|||||-23.81|-35.76|<0.001
92322222|NCT01106677|184548685|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-40.3|STANDARD_ERROR_OF_MEAN|3.055|<|0.001|TWO_SIDED|95.0|-46.25|-34.26|||ANCOVA|||||-34.26|-46.25|<0.001
92322223|NCT01106677|184548685|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-22.7|STANDARD_ERROR_OF_MEAN|3.06|||TWO_SIDED|95.0|-28.7|-16.69||No formal statistical comparison was conducted.|ANCOVA|||||-16.69|-28.70|
92322224|NCT01106677|184548686|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-38.1|STANDARD_ERROR_OF_MEAN|5.601|<|0.001|TWO_SIDED|95.0|-49.14|-27.16|||ANCOVA|||||-27.16|-49.14|<0.001
92322225|NCT01106677|184548686|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-47.3|STANDARD_ERROR_OF_MEAN|5.635|<|0.001|TWO_SIDED|95.0|-58.4|-36.29|||ANCOVA|||||-36.29|-58.40|<0.001
92322226|NCT01106677|184548686|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-39.6|STANDARD_ERROR_OF_MEAN|5.608|||TWO_SIDED|95.0|-50.56|-28.55||No formal statistical comparison was conducted.|ANCOVA|||||-28.55|-50.56|
92322227|NCT01106677|184548687|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.1|-1.9|||ANCOVA|||||-1.9|-3.1|<0.001
92322228|NCT01106677|184548687|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.5|-2.3|||ANCOVA|||||-2.3|-3.5|<0.001
92322229|NCT01106677|184548687|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.6|0.6||No formal statistical comparison was conducted.|ANCOVA|||||0.6|-0.6|
92322230|NCT01106677|184548688|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.36|STANDARD_ERROR_OF_MEAN|0.979|<|0.001|TWO_SIDED|95.0|-7.28|-3.439|||ANCOVA|||||-3.439|-7.280|<0.001
92322231|NCT01106677|184548688|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-6.58|STANDARD_ERROR_OF_MEAN|0.981|<|0.001|TWO_SIDED|95.0|-8.504|-4.653|||ANCOVA|||||-4.653|-8.504|<0.001
92322232|NCT01106677|184548688|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.34|STANDARD_ERROR_OF_MEAN|0.984|||TWO_SIDED|95.0|-5.273|-1.413||No formal statistical comparison was conducted.|ANCOVA|||||-1.413|-5.273|
92322233|NCT01106677|184548689|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|4.2||0.702||95.0|-9.9|6.7|||ANCOVA|||||6.7|-9.9|0.702
92322234|NCT01106677|184548689|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-4.7|STANDARD_ERROR_OF_MEAN|4.3||0.274|TWO_SIDED|95.0|-13.0|3.7|||ANCOVA|||||3.7|-13.0|0.274
92322235|NCT01106677|184548689|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-10.6|6.1||No formal statistical comparison was conducted.|ANCOVA|||||6.1|-10.6|
92322236|NCT01106677|184548690|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|3.6|9.7|||ANCOVA|||||9.7|3.6|<0.001
92322237|NCT01106677|184548690|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|8.5|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|5.4|11.5|||ANCOVA|||||11.5|5.4|<0.001
92322238|NCT01106677|184548690|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|1.6|||TWO_SIDED|95.0|-1.7|4.4||No formal statistical comparison was conducted.|ANCOVA|||||4.4|-1.7|
92322239|NCT01106677|184548691|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a discontinuation rate of 35% at Week 52, with a 2:2:2:1 treatment assignment ratio for canagliflozin 100 mg, canagliflozin 300 mg, sitagliptin 100 mg, or placebo, it was estimated that 360 subjects would need to be randomly assigned to each of the 3 active treatment groups and approximately 180 subjects to the placebo group to demonstrate non-inferiority with a non-inferiority margin of 0.3%.|Least-Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.061|||TWO_SIDED|95.0|-0.119|0.122|||ANCOVA|||||0.122|-0.119|
92322240|NCT01106677|184548691|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a discontinuation rate of 35% at Week 52, with a 2:2:2:1 treatment assignment ratio for canagliflozin 100 mg, canagliflozin 300 mg, sitagliptin 100 mg, or placebo, it was estimated that 360 subjects would need to be randomly assigned to each of the 3 active treatment groups and approximately 180 subjects to the placebo group to demonstrate non-inferiority with a non-inferiority margin of 0.3%.|Least-Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.062|||TWO_SIDED|95.0|-0.273|-0.031|||ANCOVA|||||-0.031|-0.273|
92322241|NCT01106677|184548692|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-8.55|STANDARD_ERROR_OF_MEAN|2.394|<|0.001|TWO_SIDED|95.0|-13.25|-3.857|||ANCOVA|||||-3.857|-13.25|<0.001
92322242|NCT01106677|184548692|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-17.5|STANDARD_ERROR_OF_MEAN|2.404|<|0.001|TWO_SIDED|95.0|-22.24|-12.81|||ANCOVA|||||-12.81|-22.24|<0.001
92322243|NCT01106677|184548693|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.0|-1.8|||ANCOVA|||||-1.8|-3.0|<0.001
92322244|NCT01106677|184548693|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.4|-2.3|||ANCOVA|||||-2.3|-3.4|<0.001
92322245|NCT01106677|184548694|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.87|STANDARD_ERROR_OF_MEAN|0.812|<|0.001|TWO_SIDED|95.0|-4.464|-1.276|||ANCOVA|||||-1.276|-4.464|<0.001
92322246|NCT01106677|184548694|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.99|STANDARD_ERROR_OF_MEAN|0.815|<|0.001|TWO_SIDED|95.0|-5.589|-2.389|||ANCOVA|||||-2.389|-5.589|<0.001
92322247|NCT01106677|184548695|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|3.2||0.466|TWO_SIDED|95.0|-3.9|8.5|||ANCOVA|||||8.5|-3.9|0.466
92322248|NCT01106677|184548695|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|3.2||0.323|TWO_SIDED|95.0|-3.1|9.4|||ANCOVA|||||9.4|-3.1|0.323
92322249|NCT01106677|184548696|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|2.5|8.0|||ANCOVA|||||8.0|2.5|<0.001
92322250|NCT01106677|184548696|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|7.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|4.5|10.1|||ANCOVA|||||10.1|4.5|<0.001
92322251|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|3.998|||||TWO_SIDED|95.0|2.659|6.009||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||6.009|2.659|
92322252|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.222|||||TWO_SIDED|95.0|0.813|1.838||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.838|0.813|
92322253|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.661|||||TWO_SIDED|95.0|0.44|0.994||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.994|0.440|
92322254|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|2.178|||||TWO_SIDED|95.0|1.449|3.276||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.276|1.449|
92322255|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.017|||||TWO_SIDED|95.0|0.676|1.528||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.528|0.676|
92322256|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.673|||||TWO_SIDED|95.0|0.448|1.012||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.012|0.448|
92322257|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.742|||||TWO_SIDED|95.0|1.156|2.626||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.626|1.156|
92197894|NCT03607422|184294997|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|42.8||||0.002|TWO_SIDED|95.0|35.0|50.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||50.6|35.0|0.002
92322258|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.306|||||TWO_SIDED|95.0|0.204|0.458||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.458|0.204|
92322259|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.165|||||TWO_SIDED|95.0|0.11|0.248||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.248|0.110|
92197895|NCT03607422|184294998|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-40.01|STANDARD_ERROR_OF_MEAN|2.949|<|0.001|TWO_SIDED|95.0|-45.8|-34.22|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-34.22|-45.80|<0.001
92197896|NCT03607422|184294998|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-29.47|STANDARD_ERROR_OF_MEAN|2.941|<|0.001|TWO_SIDED|95.0|-35.24|-23.69|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.||||-23.69|-35.24|<0.001
92197897|NCT03607422|184294999|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|44.5|||<|0.001|TWO_SIDED|95.0|35.0|54.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||54.1|35.0|<0.001
92197898|NCT03607422|184294999|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|34.4|||<|0.001|TWO_SIDED|95.0|24.7|44.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||44.2|24.7|<0.001
92197899|NCT03607422|184295000|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|33.3|||<|0.001|TWO_SIDED|95.0|26.9|39.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||39.8|26.9|<0.001
92197900|NCT03607422|184295000|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|19.1|||<|0.001|TWO_SIDED|95.0|13.3|24.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||24.9|13.3|<0.001
92197901|NCT03607422|184295001|SUPERIORITY||Adjusted Response Rate Difference|59.9|||<|0.001|TWO_SIDED|95.0|45.9|73.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||73.8|45.9|<0.001
92197902|NCT03607422|184295001|SUPERIORITY||Adjusted Response Rate Difference|55.8|||<|0.001|TWO_SIDED|95.0|41.1|70.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||70.4|41.1|<0.001
92197903|NCT03607422|184295002|SUPERIORITY||Adjusted Response Rate Difference|53.9|||<|0.001|TWO_SIDED|95.0|40.6|67.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||67.3|40.6|<0.001
92322260|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.545|||||TWO_SIDED|95.0|0.363|0.818||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.818|0.363|
92197904|NCT03607422|184295002|SUPERIORITY||Adjusted Response Rate Difference|39.4|||<|0.001|TWO_SIDED|95.0|25.7|53.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||53.1|25.7|<0.001
92197905|NCT03607422|184295003|SUPERIORITY||Adjusted Response Rate Difference|53.1|||<|0.001|TWO_SIDED|95.0|40.0|66.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||66.1|40.0|<0.001
92197906|NCT03607422|184295003|SUPERIORITY||Adjusted Response Rate Difference|35.0|||<|0.001|TWO_SIDED|95.0|21.8|48.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.2|21.8|<0.001
92197907|NCT03607422|184295004|SUPERIORITY||Adjusted Response Rate Difference|60.2|||<|0.001|TWO_SIDED|95.0|47.5|72.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||72.9|47.5|<0.001
92197908|NCT03607422|184295004|SUPERIORITY||Adjusted Response Rate Difference|46.7|||<|0.001|TWO_SIDED|95.0|33.4|59.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||59.9|33.4|<0.001
92197909|NCT03607422|184295005|SUPERIORITY||Adjusted Response Rate Difference|46.4|||<|0.001|TWO_SIDED|95.0|33.2|59.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||59.6|33.2|<0.001
92197910|NCT03607422|184295005|SUPERIORITY||Adjusted Response Rate Difference|34.9|||<|0.001|TWO_SIDED|95.0|21.4|48.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.4|21.4|<0.001
92197911|NCT03607422|184295006|SUPERIORITY||Adjusted Response Rate Difference|46.2|||<|0.001|TWO_SIDED|95.0|32.4|60.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||60.0|32.4|<0.001
92197912|NCT03607422|184295006|SUPERIORITY||Adjusted Response Rate Difference|31.3|||<|0.001|TWO_SIDED|95.0|17.3|45.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||45.3|17.3|<0.001
92197913|NCT03607422|184295007|SUPERIORITY||Adjusted Response Rate Difference|5.0||||0.075|TWO_SIDED|95.0|-0.5|10.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||10.6|-0.5|0.075
92197914|NCT03607422|184295007|SUPERIORITY||Adjusted Response Rate Difference|12.7||||0.005|TWO_SIDED|95.0|3.9|21.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||21.5|3.9|0.005
92197915|NCT03607422|184295008|SUPERIORITY||Adjusted Response Rate Difference|3.2||||0.151|TWO_SIDED|95.0|-1.2|7.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||7.6|-1.2|0.151
92322261|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.254|||||TWO_SIDED|95.0|0.17|0.381||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.381|0.170|
92197916|NCT03607422|184295009|SUPERIORITY||Adjusted Response Rate Difference|12.9||||0.008|TWO_SIDED|95.0|3.4|22.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||22.3|3.4|0.008
92197917|NCT03607422|184295010|SUPERIORITY||Adjusted Response Rate Difference|-18.0|||<|0.001|TWO_SIDED|95.0|-28.0|-8.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||-8.0|-28.0|<0.001
92197918|NCT03607422|184295010|SUPERIORITY||Adjusted Response Rate Difference|-17.9||||0.001|TWO_SIDED|95.0|-28.1|-7.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||-7.7|-28.1|0.001
92197919|NCT03607422|184295011|SUPERIORITY||Adjusted Response Rate Difference|51.5|||<|0.001|TWO_SIDED|95.0|34.8|68.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||68.3|34.8|<0.001
92197920|NCT03607422|184295011|SUPERIORITY||Adjusted Response Rate Difference|29.2||||0.001|TWO_SIDED|95.0|11.8|46.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||46.6|11.8|0.001
92197921|NCT03607422|184295012|SUPERIORITY||Adjusted Response Rate Difference|53.2|||<|0.001|TWO_SIDED|95.0|38.4|68.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||68.0|38.4|<0.001
92197922|NCT03607422|184295012|SUPERIORITY||Adjusted Response Rate Difference|31.8|||<|0.001|TWO_SIDED|95.0|16.5|47.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||47.1|16.5|<0.001
92322262|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.168|||||TWO_SIDED|95.0|0.112|0.252||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.252|0.112|
92197923|NCT03607422|184295013|SUPERIORITY||Adjusted Response Rate Difference|48.9|||<|0.001|TWO_SIDED|95.0|33.8|64.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||64.1|33.8|<0.001
92197924|NCT03607422|184295013|SUPERIORITY||Adjusted Response Rate Difference|37.3|||<|0.001|TWO_SIDED|95.0|21.1|53.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||53.6|21.1|<0.001
92197925|NCT03607422|184295014|SUPERIORITY||Adjusted Response Rate Difference|53.8|||<|0.001|TWO_SIDED|95.0|37.4|70.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||70.2|37.4|<0.001
92197926|NCT03607422|184295014|SUPERIORITY||Adjusted Response Rate Difference|42.0|||<|0.001|TWO_SIDED|95.0|24.3|59.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||59.7|24.3|<0.001
92197927|NCT03607422|184295015|SUPERIORITY||Adjusted Response Rate Difference|45.3|||<|0.001|TWO_SIDED|95.0|28.0|62.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||62.7|28.0|<0.001
92197928|NCT03607422|184295015|SUPERIORITY||Adjusted Response Rate Difference|29.8||||0.002|TWO_SIDED|95.0|10.7|48.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.8|10.7|0.002
92197929|NCT03607422|184295016|SUPERIORITY||Adjusted Response Rate Difference|17.1|||<|0.001|TWO_SIDED|95.0|7.5|26.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||26.7|7.5|<0.001
92197930|NCT03607422|184295016|SUPERIORITY||Adjusted Response Rate Difference|13.7||||0.006|TWO_SIDED|95.0|3.9|23.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||23.5|3.9|0.006
92197931|NCT03607422|184295017|SUPERIORITY||LS Mean Difference|-55.93|STANDARD_ERROR_OF_MEAN|7.284|<|0.001|TWO_SIDED|95.0|-70.32|-41.55|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-41.55|-70.32|<0.001
92197932|NCT03607422|184295017|SUPERIORITY||LS Mean Difference|-36.54|STANDARD_ERROR_OF_MEAN|7.384|<|0.001|TWO_SIDED|95.0|-51.12|-21.96|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-21.96|-51.12|<0.001
92197933|NCT03607422|184295018|SUPERIORITY||LS Mean Difference|-42.62|STANDARD_ERROR_OF_MEAN|6.432|<|0.001|TWO_SIDED|95.0|-55.34|-29.9|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-29.90|-55.34|<0.001
92197934|NCT03607422|184295018|SUPERIORITY||LS Mean Difference|-35.66|STANDARD_ERROR_OF_MEAN|6.447|<|0.001|TWO_SIDED|95.0|-48.41|-22.9|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-22.90|-48.41|<0.001
92197935|NCT03607422|184295019|SUPERIORITY||Adjusted Response Rate Difference|52.5|||<|0.001|TWO_SIDED|95.0|36.9|68.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||68.1|36.9|<0.001
92197936|NCT03607422|184295019|SUPERIORITY||Adjusted Response Rate Difference|38.1|||<|0.001|TWO_SIDED|95.0|21.2|54.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||54.9|21.2|<0.001
92197937|NCT03607422|184295020|SUPERIORITY||Adjusted Response Rate Difference|55.9|||<|0.001|TWO_SIDED|95.0|35.5|76.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||76.3|35.5|<0.001
92197938|NCT03607422|184295020|SUPERIORITY||Adjusted Response Rate Difference|49.6|||<|0.001|TWO_SIDED|95.0|26.3|72.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||72.9|26.3|<0.001
92197939|NCT03607422|184295021|SUPERIORITY||LS Mean Difference|-44.9|STANDARD_ERROR_OF_MEAN|6.492|<|0.001|TWO_SIDED|95.0|-57.74|-32.06|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category|Difference = Upadacitinib - Placebo|||-32.06|-57.74|<0.001
92197940|NCT03607422|184295021|SUPERIORITY||LS Mean Difference|-29.98|STANDARD_ERROR_OF_MEAN|6.383|<|0.001|TWO_SIDED|95.0|-42.6|-17.36|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category|Difference = Upadacitinib - Placebo|||-17.36|-42.60|<0.001
92197941|NCT03607422|184295022|SUPERIORITY||Adjusted Response Rate Difference|27.8||||0.016|TWO_SIDED|95.0|5.2|50.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||50.4|5.2|0.016
92197942|NCT03607422|184295022|SUPERIORITY||Adjusted Response Rate Difference|22.3||||0.062|TWO_SIDED|95.0|-1.1|45.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||45.7|-1.1|0.062
92197943|NCT03607422|184295023|SUPERIORITY||Adjusted Response Rate Difference|38.9|||<|0.001|TWO_SIDED|95.0|18.4|59.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||59.4|18.4|<0.001
92197944|NCT03607422|184295023|SUPERIORITY||Adjusted Response Rate Difference|5.9||||0.51|TWO_SIDED|95.0|-11.7|23.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||23.6|-11.7|0.510
92197945|NCT03258723|184295036|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||<0.0001
92197946|NCT03258723|184295037|SUPERIORITY|||||||0.0005|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||0.0005
92197947|NCT03258723|184295038|SUPERIORITY|||||||0.1809|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||0.1809
92197948|NCT03258723|184295039|SUPERIORITY|||||||0.0973|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||0.0973
92197949|NCT03258723|184295041|SUPERIORITY|||||||0.1992|||||||t-test, 2 sided|||Within subject change on matched cases.||||0.1992
92197950|NCT03258723|184295042|SUPERIORITY|||||||0.7017|||||||t-test, 2 sided|||Within subject change on matched cases.||||0.7017
92197951|NCT03258723|184295043|SUPERIORITY|||||||0.1573|||||||McNemar|||Within group change from baseline assessed on matched cases in low activity group at baseline.||||0.1573
92197952|NCT03258723|184295043|SUPERIORITY|||||||0.4328|||||||McNemar|||Within group change from baseline assessed on matched cases in medium activity group at baseline.||||0.4328
92197953|NCT03258723|184295043|SUPERIORITY|||||||0.6698|||||||McNemar|||Within group change from baseline assessed on matched cases in high activity group at baseline.||||0.6698
92197954|NCT03258723|184295044|SUPERIORITY|||||||0.5271|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||0.5271
92197955|NCT03258723|184295045|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||<0.0001
92197956|NCT04832971|184295046|SUPERIORITY||Difference vs. Placebo at Week 24|-51.22|||<|0.0001|TWO_SIDED|95.0|-61.73|-40.7||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures (MMRM)||ARO-ANG3 - Placebo|||-40.70|-61.73|<.0001
92197957|NCT04832971|184295046|SUPERIORITY||||||<|0.0001||||||The adjusted p-value is calculated using the Holm method for multiplicity adjustment.|Holm method|||||||<.0001
92197958|NCT04832971|184295046|SUPERIORITY||Difference vs Placebo at Week 24|-56.56|||<|0.0001|TWO_SIDED|95.0|-67.09|-46.04||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures (MMRM)||ARO-ANG3 - Placebo|||-46.04|-67.09|<.0001
92197959|NCT04832971|184295046|SUPERIORITY||||||<|0.0001||||||The adjusted p-value is calculated using the Holm method for multiplicity adjustment.|Holm method|||||||<.0001
92197960|NCT04832971|184295046|SUPERIORITY||Difference vs. Placebo at Week 24|-63.11|||<|0.0001|TWO_SIDED|95.0|-73.56|-52.66||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model with Repeated Measures|||||-52.66|-73.56|<.0001
92197961|NCT04832971|184295046|SUPERIORITY||||||<|0.0001||||||The adjusted p-value is calculated using the Holm method for multiplicity adjustment.|Holm method|||||||<.0001
92197962|NCT04832971|184295047|SUPERIORITY||Difference|-48.52|||<|0.0001|TWO_SIDED|95.0|-58.53|-38.51||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-38.51|-58.53|<.0001
92197963|NCT04832971|184295047|SUPERIORITY||Difference|-59.21|||<|0.0001|TWO_SIDED|95.0|-69.3|-49.12||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-49.12|-69.30|<.0001
92197964|NCT04832971|184295047|SUPERIORITY||Difference|-63.21|||<|0.0001|TWO_SIDED|95.0|-73.24|-53.18||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-53.18|-73.24|<.0001
92197965|NCT04832971|184295047|SUPERIORITY||Difference|-54.6|||<|0.0001|TWO_SIDED|95.0|-66.31|-42.89||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|m|||Week 8||-42.89|-66.31|<.0001
92197966|NCT04832971|184295047|SUPERIORITY||Difference|-61.31|||<|0.0001|TWO_SIDED|95.0|-73.07|-49.55||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-49.55|-73.07|<.0001
92197967|NCT04832971|184295047|SUPERIORITY||Difference|-66.13|||<|0.0001|TWO_SIDED|95.0|-77.9|-54.37||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-54.37|-77.90|<.0001
92197968|NCT04832971|184295047|SUPERIORITY||Difference|-44.96|||<|0.0001|TWO_SIDED|95.0|-56.91|-33.01||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-33.01|-56.91|<.0001
92197969|NCT04832971|184295047|SUPERIORITY||Difference|-43.87|||<|0.0001|TWO_SIDED|95.0|-55.83|-31.92||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-31.92|-55.83|<.0001
92197970|NCT04832971|184295047|SUPERIORITY||Difference|-52.0|||<|0.0001|TWO_SIDED|95.0|-63.83|-40.18||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-40.18|-63.83|<.0001
92197971|NCT04832971|184295047|SUPERIORITY||Difference|-65.66|||<|0.0001|TWO_SIDED|95.0|-85.04|-46.29||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-46.29|-85.04|<.0001
92197972|NCT04832971|184295047|SUPERIORITY||Difference|-69.17|||<|0.0001|TWO_SIDED|95.0|-88.54|-49.8||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-49.80|-88.54|<.0001
92197973|NCT04832971|184295047|SUPERIORITY||Difference|-75.91|||<|0.0001|TWO_SIDED|95.0|-95.11|-56.71||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-56.71|-95.11|<.0001
92197974|NCT04832971|184295047|SUPERIORITY||Difference|-60.24|||<|0.0001|TWO_SIDED|95.0|-76.78|-43.71||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-43.71|-76.78|<.0001
92322263|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.436|||||TWO_SIDED|95.0|0.29|0.655||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.655|0.290|
92322264|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.541|||||TWO_SIDED|95.0|0.361|0.811||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.811|0.361|
92322265|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.783|||||TWO_SIDED|95.0|1.188|2.676||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.676|1.188|
92322266|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.832|||||TWO_SIDED|95.0|0.555|1.246||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.246|0.555|
92322267|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.551|||||TWO_SIDED|95.0|0.367|0.826||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.826|0.367|
92322268|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.426|||||TWO_SIDED|95.0|0.95|2.14||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.140|0.950|
92322269|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|3.295|||||TWO_SIDED|95.0|2.196|4.944||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||4.944|2.196|
92322270|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.538|||||TWO_SIDED|95.0|1.026|2.303||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.303|1.026|
92197975|NCT04832971|184295047|SUPERIORITY||Difference|-64.27|||<|0.0001|TWO_SIDED|95.0|-80.83|-47.72||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-47.72|-80.83|<.0001
92197976|NCT04832971|184295047|SUPERIORITY||Difference|-69.52|||<|0.0001|TWO_SIDED|95.0|-85.85|-53.18||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-53.18|-85.85|<.0001
92197977|NCT04832971|184295047|SUPERIORITY||Difference|-51.22|||<|0.0001|TWO_SIDED|95.0|-61.73|-40.7||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-40.70|-61.73|<.0001
92197978|NCT04832971|184295047|SUPERIORITY||Difference|-56.56|||<|0.0001|TWO_SIDED|95.0|-67.09|-46.04||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-46.04|-67.09|<.0001
92197979|NCT04832971|184295047|SUPERIORITY||Difference|-63.11|||<|0.0001|TWO_SIDED|95.0|-73.56|-52.66||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-52.66|-73.56|<.0001
92322271|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.018|||||TWO_SIDED|95.0|0.679|1.526||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.526|0.679|
92322272|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|2.635|||||TWO_SIDED|95.0|1.754|3.959||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.959|1.754|
92322273|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.467|||||TWO_SIDED|95.0|0.311|0.7||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.7|0.311|
92322274|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.309|||||TWO_SIDED|95.0|0.206|0.463||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.463|0.206|
92322275|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.8|||||TWO_SIDED|95.0|0.532|1.203||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||1.203|0.532|
92322276|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.662|||||TWO_SIDED|95.0|0.442|0.992||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.992|0.442|
92322277|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.714|||||TWO_SIDED|95.0|1.142|2.572||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.572|1.142|
92322278|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.|Geometric mean ratio at day 22|2.589|||||TWO_SIDED|95.0|1.723|3.889||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.889|1.723|
92322279|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|4.975|||||TWO_SIDED|95.0|3.757|6.589||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||6.589|3.757|
92197980|NCT04832971|184295047|SUPERIORITY||Difference|-48.62|||<|0.0001|TWO_SIDED|95.0|-59.66|-37.59||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-37.59|-59.66|<.0001
92322280|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|1.168|||||TWO_SIDED|95.0|0.881|1.547||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.547|0.881|
92322281|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.88|||||TWO_SIDED|95.0|0.665|1.166||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.166|0.665|
92322282|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|3.219|||||TWO_SIDED|95.0|2.43|4.264||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||4.264|2.430|
92322283|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|1.07|||||TWO_SIDED|95.0|0.808|1.417||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.417|0.808|
92322284|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.72|||||TWO_SIDED|95.0|0.544|0.954||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.954|0.544|
92322285|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|2.509|||||TWO_SIDED|95.0|1.891|3.33||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.330|1.891|
92322286|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.235|||||TWO_SIDED|95.0|0.178|0.31||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.310|0.178|
92322287|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.177|||||TWO_SIDED|95.0|0.134|0.234||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.234|0.134|
92322288|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.647|||||TWO_SIDED|95.0|0.489|0.856||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.856|0.489|
92197981|NCT04832971|184295047|SUPERIORITY||Difference|-51.19|||<|0.0001|TWO_SIDED|95.0|-62.32|-40.05||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-40.05|-62.32|<.0001
92197982|NCT04832971|184295047|SUPERIORITY||Difference|-61.63|||<|0.0001|TWO_SIDED|95.0|-72.6|-50.67||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-50.67|-72.60|<.0001
92322289|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.215|||||TWO_SIDED|95.0|0.163|0.284||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.284|0.163|
92322290|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.145||||||95.0|0.109|0.191||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.191|0.109|
92322291|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.504|||||TWO_SIDED|95.0|0.381|0.668||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.668|0.381|
92322292|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.754|||||TWO_SIDED|95.0|0.57|0.997||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.997|0.570|
92322293|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|2.756|||||TWO_SIDED|95.0|2.083|3.647||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.647|2.083|
92322294|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.916|||||TWO_SIDED|95.0|0.694|1.211||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.211|0.694|
92322295|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.616|||||TWO_SIDED|95.0|0.466|1.815||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.815|0.466|
92322296|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|2.149|||||TWO_SIDED|95.0|1.624|2.843||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.843|1.624|
92322297|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|3.656|||||TWO_SIDED|95.0|2.764|4.836||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||4.836|2.764|
92322298|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|1.216|||||TWO_SIDED|95.0|0.92|1.606||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.606|0.920|
92197983|NCT04832971|184295047|SUPERIORITY||Difference|-34.06|||<|0.0001|TWO_SIDED|95.0|-44.65|-23.46||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-23.46|-44.65|<.0001
92322299|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.818|||||TWO_SIDED|95.0|0.619|1.081||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.081|0.619|
92322300|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|2.85|||||TWO_SIDED|95.0|2.152|3.773||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.773|2.152|
92322301|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.332|||||TWO_SIDED|95.0|0.251|0.44||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.440|0.251|
92322302|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.224|||||TWO_SIDED|95.0|0.169|0.296||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.296|0.169|
92322303|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.78|||||TWO_SIDED|95.0|0.588|1.003||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.003|0.588|
92322304|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.673|||||TWO_SIDED|95.0|0.509|0.889||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.889|0.509|
92322305|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|2.345|||||TWO_SIDED|95.0|1.772|3.102||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.102|1.772|
92322306|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|3.485|||||TWO_SIDED|95.0|2.633|4.614||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||4.614|2.633|
92322307|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|2.624|||||TWO_SIDED|95.0|1.817|3.789||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.789|1.817|
92197984|NCT04832971|184295047|SUPERIORITY||Difference|-37.9|||<|0.0001|TWO_SIDED|95.0|-48.56|-27.25||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-27.25|-48.56|<.0001
92197985|NCT04832971|184295047|SUPERIORITY||Difference|-51.19|||<|0.0001|TWO_SIDED|95.0|-61.71|-40.68||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-40.68|-61.71|<.0001
92197986|NCT04832971|184295048|SUPERIORITY||Difference vs. Placebo at Week 24|-29.2|||<|0.0001|TWO_SIDED|95.0|-38.5|-20.0||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-20.0|-38.5|<.0001
92322308|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.096|||||TWO_SIDED|95.0|0.76|1.58||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.580|0.760|
92322309|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.888|||||TWO_SIDED|95.0|0.615|1.282||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.282|0.615|
92322310|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|2.12|||||TWO_SIDED|95.0|1.473|3.052||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.052|1.473|
92322311|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.876|||||TWO_SIDED|95.0|0.61|1.26||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.260|0.610|
92322312|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67|Geometric mean ratio at day 202|0.898|||||TWO_SIDED|95.0|0.622|1.298||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.298|0.622|
92322313|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.451|||||TWO_SIDED|95.0|1.0|2.105||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.105|1.000|
92322314|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.418|||||TWO_SIDED|95.0|0.289|0.603||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.603|0.289|
92322315|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.338|||||TWO_SIDED|95.0|0.235|0.487||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.487|0.235|
92322316|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.808|||||TWO_SIDED|95.0|0.561|1.165||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.165|0.561|
92197987|NCT04832971|184295048|SUPERIORITY||Difference vs. Placebo at Week 24|-28.7|||<|0.0001|TWO_SIDED|95.0|-37.9|-19.5||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-19.5|-37.9|<.0001
92197988|NCT04832971|184295048|SUPERIORITY||Difference vs. Placebo at Week 24|-36.4|||<|0.0001|TWO_SIDED|95.0|-45.5|-27.2||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-27.2|-45.5|<.0001
92322317|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.334|||||TWO_SIDED|95.0|0.233|0.479||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.479|0.233|
92322318|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.342|||||TWO_SIDED|95.0|0.237|0.494||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.494|0.237|
92322319|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.553|||||TWO_SIDED|95.0|0.382|0.801||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.801|0.382|
92322320|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.811|||||TWO_SIDED|95.0|0.562|1.169||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.169|0.562|
92322321|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.935|||||TWO_SIDED|95.0|1.347|2.78||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.780|1.347|
92322322|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.8|||||TWO_SIDED|95.0|0.558|1.147||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.147|0.558|
92322323|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.82|||||TWO_SIDED|95.0|0.568|1.184||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.184|0.568|
92268632|NCT03743571|184439068|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham).||||||0.96||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,26) \< .01, p = .96||We used a null hypothesis significance testing approach in our analyses. For performance on the questionnaires, we completed 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham) and time (within subjects variable; baseline vs follow-up) on outcome measures.||||.96
92268633|NCT03743571|184439069|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham),||||||0.43||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,26) = 0.65, p = .43||We used a null hypothesis significance testing approach in our analyses. For performance on the questionnaires, we completed 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham) and time (within subjects variable; baseline vs follow-up) on outcome measures.||||.43
92268634|NCT00972309|184439079|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92268635|NCT01821391|184439099|SUPERIORITY||||||=|0.2665|||||||Paired Student's t test|||||||=0.2665
92268636|NCT03417102|184439106|SUPERIORITY||ABR ratio|0.092|||<|0.0001|TWO_SIDED|95.0|0.044|0.192||P-value derived from NB regression model, accounted for different follow-up times during EP, with treatment arm and randomization strata of number of bleeds in 6 months prior to study (\<=10,\>10) as fixed effects. Significance threshold was 0.05.|Negative binomial regression model|||||0.192|0.044|<0.0001
92197989|NCT04832971|184295049|SUPERIORITY||Difference|-28.7|||<|0.0001|TWO_SIDED|95.0|-35.7|-21.7||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-21.7|-35.7|<.0001
92322324|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.324|||||TWO_SIDED|95.0|0.915|1.917||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.917|0.915|
92322325|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|2.388|||||TWO_SIDED|95.0|1.658|3.438||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.438|1.658|
92322326|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.987|||||TWO_SIDED|95.0|0.688|1.416||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.416|0.688|
92322327|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.012|||||TWO_SIDED|95.0|0.701|1.46||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.460|0.701|
92322328|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.634|||||TWO_SIDED|95.0|1.128|2.366||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.366|1.128|
92322329|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.413|||||TWO_SIDED|95.0|0.288|0.592||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.592|0.288|
92322330|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.424|||||TWO_SIDED|95.0|0.294|0.61||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.610|0.294|
92197990|NCT04832971|184295049|SUPERIORITY||Difference|-30.5|||<|0.0001|TWO_SIDED|95.0|-37.5|-23.4||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-23.4|-37.5|<.0001
92197991|NCT04832971|184295049|SUPERIORITY||Difference|-38.1|||<|0.0001|TWO_SIDED|95.0|-45.1|-31.2||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-31.2|-45.1|<.0001
92197992|NCT04832971|184295049|SUPERIORITY||Difference|-28.2|||<|0.0001|TWO_SIDED|95.0|-36.6|-19.7||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-19.7|-36.6|<.0001
92197993|NCT04832971|184295049|SUPERIORITY||Difference|-26.6|||<|0.0001|TWO_SIDED|95.0|-35.0|-18.1||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-18.1|-35.0|<.0001
92197994|NCT04832971|184295049|SUPERIORITY||Difference|-34.0|||<|0.0001|TWO_SIDED|95.0|-42.4|-25.6||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-25.6|-42.4|<.0001
92197995|NCT04832971|184295049|SUPERIORITY||Difference|-26.1|||<|0.0001|TWO_SIDED|95.0|-34.6|-17.6||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-17.6|-34.6|<.0001
92197996|NCT04832971|184295049|SUPERIORITY||Difference|-21.8|||<|0.0001|TWO_SIDED|95.0|-30.3|-13.3||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-13.3|-30.3|<.0001
92197997|NCT04832971|184295049|SUPERIORITY||Difference|-31.5|||<|0.0001|TWO_SIDED|95.0|-39.9|-23.1||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-23.1|-39.9|<.0001
92197998|NCT04832971|184295049|SUPERIORITY||Difference|-29.3|||<|0.0001|TWO_SIDED|95.0|-37.3|-21.4||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-21.4|-37.3|<.0001
92197999|NCT04832971|184295049|SUPERIORITY||Difference|-30.8|||<|0.0001|TWO_SIDED|95.0|-38.8|-22.9||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-22.9|-38.8|<.0001
92198000|NCT04832971|184295049|OTHER||Difference|-39.5|||<|0.0001|TWO_SIDED|95.0|-47.4|-31.6||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-31.6|-47.4|<.0001
92198001|NCT04832971|184295049|SUPERIORITY||Difference|-28.9|||<|0.0001|TWO_SIDED|95.0|-36.4|-21.4||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-21.4|-36.4|<.0001
92198002|NCT04832971|184295049|SUPERIORITY||Difference|-27.2|||<|0.0001|TWO_SIDED|95.0|-34.8|-19.7||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-19.7|-34.8|<.0001
92198003|NCT04832971|184295049|SUPERIORITY||Difference|-34.8|||<|0.0001|TWO_SIDED|95.0|-42.3|-27.4||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-27.4|-42.3|<.0001
92198004|NCT04832971|184295049|SUPERIORITY||Difference|-29.2|||<|0.0001|TWO_SIDED|95.0|-38.5|-20.0||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-20.0|-38.5|<.0001
92198005|NCT04832971|184295049|SUPERIORITY||Difference|-28.7|||<|0.0001|TWO_SIDED|95.0|-37.9|-19.5||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-19.5|-37.9|<.0001
92198006|NCT04832971|184295049|SUPERIORITY||Difference|-36.4|||<|0.0001|TWO_SIDED|95.0|-45.5|-27.2||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-27.2|-45.5|<.0001
92198007|NCT04832971|184295049|SUPERIORITY||Difference|-24.3|||<|0.0001|TWO_SIDED|95.0|-32.7|-15.9||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-15.9|-32.7|<.0001
92198008|NCT04832971|184295049|SUPERIORITY||Difference|-23.5|||<|0.0001|TWO_SIDED|95.0|-31.9|-15.1||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-15.1|-31.9|<.0001
92198009|NCT04832971|184295049|SUPERIORITY||Difference|-31.2|||<|0.0001|TWO_SIDED|95.0|-39.5|-22.9||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-22.9|-39.5|<.0001
92198010|NCT04832971|184295049|SUPERIORITY||Difference|-18.6|||<|0.0001|TWO_SIDED|95.0|-27.6|-9.7||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-9.7|-27.6|<.0001
92198011|NCT04832971|184295049|SUPERIORITY||Difference|-15.8||||0.0006|TWO_SIDED|95.0|-24.7|-6.8||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-6.8|-24.7|0.0006
92322331|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.684|||||TWO_SIDED|95.0|0.473|0.99||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.990|0.473|
92322332|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.025|||||TWO_SIDED|95.0|0.714|1.473||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.473|0.714|
92322333|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.656|||||TWO_SIDED|95.0|1.15|2.385||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.385|1.150|
92322334|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.615|||||TWO_SIDED|95.0|1.115|2.339||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.339|1.115|
92322335|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.906|||||TWO_SIDED|95.0|1.177|3.087||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.087|1.177|
92322336|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.945|||||TWO_SIDED|95.0|0.583|1.533||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.533|0.583|
92322337|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.763|||||TWO_SIDED|95.0|0.468|1.245||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.245|0.468|
92198012|NCT04832971|184295049|SUPERIORITY||Difference|-22.6|||<|0.0001|TWO_SIDED|95.0|-31.4|-13.8||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-13.8|-31.4|<.0001
92198013|NCT04832971|184295050|SUPERIORITY||Difference vs. Placebo at Week 24|-18.66|||<|0.0001|TWO_SIDED|95.0|-26.53|-10.8||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-10.80|-26.53|<.0001
92198014|NCT04832971|184295050|SUPERIORITY||Difference vs. Placebo at Week 24|-15.18||||0.0002|TWO_SIDED|95.0|-23.0|-7.36||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-7.36|-23.00|0.0002
92198015|NCT04832971|184295050|SUPERIORITY||Difference vs. Placebo at Week 24|-21.9|||<|0.0001|TWO_SIDED|95.0|-29.69|-14.12||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-14.12|-29.69|<.0001
92198016|NCT04832971|184295051|SUPERIORITY||Difference|-16.57|||<|0.0001|TWO_SIDED|95.0|-22.41|-10.74||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-10.74|-22.41|<.0001
92198017|NCT04832971|184295051|SUPERIORITY||Difference|-14.28|||<|0.0001|TWO_SIDED|95.0|-20.08|-8.48||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-8.48|-20.08|<.0001
92198018|NCT04832971|184295051|SUPERIORITY||Difference|-21.04|||<|0.0001|TWO_SIDED|95.0|-26.85|-15.23||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-15.23|-26.85|<.0001
92198019|NCT04832971|184295051|SUPERIORITY||Difference|-17.35|||<|0.0001|TWO_SIDED|95.0|-24.42|-10.29||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-10.29|-24.42|<.0001
92198020|NCT04832971|184295051|SUPERIORITY||Difference|-12.16||||0.0008|TWO_SIDED|95.0|-19.19|-5.13||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-5.13|-19.19|0.0008
92198021|NCT04832971|184295051|SUPERIORITY||Difference|-16.56|||<|0.0001|TWO_SIDED|95.0|-23.62|-9.5||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-9.50|-23.62|<.0001
92198022|NCT04832971|184295051|SUPERIORITY||Difference|-17.21|||<|0.0001|TWO_SIDED|95.0|-24.61|-9.81||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-9.81|-24.61|<.0001
92198023|NCT04832971|184295051|SUPERIORITY||Difference|-9.95||||0.0082|TWO_SIDED|95.0|-17.3|-2.6||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-2.60|-17.30|0.0082
92198024|NCT04832971|184295051|SUPERIORITY||Difference|-17.35|||<|0.0001|TWO_SIDED|95.0|-24.68|-10.03||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-10.03|-24.68|<.0001
92198025|NCT04832971|184295051|SUPERIORITY||Difference|-14.36|||<|0.0001|TWO_SIDED|95.0|-21.42|-7.3||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-7.30|-21.42|<.0001
92198026|NCT04832971|184295051|SUPERIORITY||Difference|-12.97||||0.0003|TWO_SIDED|95.0|-19.98|-5.95||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-5.95|-19.98|0.0003
92198027|NCT04832971|184295051|OTHER||Difference|-20.3|||<|0.0001|TWO_SIDED|95.0|-27.3|-13.29||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-13.29|-27.30|<.0001
92198028|NCT04832971|184295051|SUPERIORITY||Difference|-17.71|||<|0.0001|TWO_SIDED|95.0|-24.29|-11.13||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-11.13|-24.29|<.0001
92198029|NCT04832971|184295051|SUPERIORITY||Difference|-14.23|||<|0.0001|TWO_SIDED|95.0|-20.75|-7.72||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-7.72|-20.75|<.0001
92198030|NCT04832971|184295051|SUPERIORITY||Difference|-18.3|||<|0.0001|TWO_SIDED|95.0|-24.8|-11.79||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-11.79|-24.80|<.0001
92322338|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.818|||||TWO_SIDED|95.0|1.119|2.956||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.956|1.119|
92322339|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.917|||||TWO_SIDED|95.0|0.568|1.481||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.481|0.568|
92322340|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.855|||||TWO_SIDED|95.0|0.524|1.396||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.396|0.524|
92322341|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.203|||||TWO_SIDED|95.0|0.745|1.943||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.943|0.745|
92322342|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.496|||||TWO_SIDED|95.0|0.31|0.794||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.794|0.310|
92322343|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.4|||||TWO_SIDED|95.0|0.25|0.641||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.641|0.250|
92322344|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.954|||||TWO_SIDED|95.0|0.596|1.528||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.528|0.596|
92322345|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.481|||||TWO_SIDED|95.0|0.306|0.758||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.758|0.306|
92322346|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.449|||||TWO_SIDED|95.0|0.279|0.722||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.722|0.279|
92198031|NCT04832971|184295051|SUPERIORITY||Difference|-18.66|||<|0.0001|TWO_SIDED|95.0|-26.53|-10.8||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-10.80|-26.53|<.0001
92198032|NCT04832971|184295051|SUPERIORITY||Difference|-15.18||||0.0002|TWO_SIDED|95.0|-23.0|-7.36||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-7.36|-23.00|0.0002
92198033|NCT04832971|184295051|SUPERIORITY||Difference|-21.9|||<|0.0001|TWO_SIDED|95.0|-29.69|-14.12||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-14.12|-29.69|<.0001
92198034|NCT04832971|184295051|SUPERIORITY||Difference|-15.9|||<|0.0001|TWO_SIDED|95.0|-23.44|-8.35||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-8.35|-23.44|<.0001
92198035|NCT04832971|184295051|SUPERIORITY||Difference|-12.98||||0.0008|TWO_SIDED|95.0|-20.49|-5.46||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-5.46|-20.49|0.0008
92322347|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.631|||||TWO_SIDED|95.0|0.398|1.002||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.002|0.398|
92322348|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.807|||||TWO_SIDED|95.0|0.5|1.304||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.304|0.500|
92322349|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.924|||||TWO_SIDED|95.0|1.193|3.102||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.102|1.193|
92322350|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.97|||||TWO_SIDED|95.0|0.611|1.541||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.541|0.611|
92322351|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.905|||||TWO_SIDED|95.0|0.561|1.46||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.460|0.561|
92322352|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.273|||||TWO_SIDED|95.0|0.798|2.03||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.030|0.798|
92322353|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|2.383|||||TWO_SIDED|95.0|1.474|3.851||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.851|1.474|
92198036|NCT04832971|184295051|SUPERIORITY||Difference|-17.54|||<|0.0001|TWO_SIDED|95.0|-25.01|-10.07||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-10.07|-25.01|<.0001
92198037|NCT04832971|184295051|SUPERIORITY||Difference|-10.55||||0.0081|TWO_SIDED|95.0|-18.32|-2.77||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-2.77|-18.32|0.0081
92198038|NCT04832971|184295051|SUPERIORITY||Difference|-6.76||||0.0871|TWO_SIDED|95.0|-14.52|0.99||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||0.99|-14.52|0.0871
92198039|NCT04832971|184295051|SUPERIORITY||Difference|-10.91||||0.0058|TWO_SIDED|95.0|-18.61|-3.2||MMRM model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms, and treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-3.20|-18.61|0.0058
92198040|NCT04832971|184295052|SUPERIORITY||Difference vs. Placebo at Week 24|-16.0||||0.0138|TWO_SIDED|95.0|-28.7|-3.3||Model includes treatment arm, study visit, and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-3.3|-28.7|0.0138
92198041|NCT04832971|184295052|SUPERIORITY||Difference vs Placebo at Week 24|-9.3||||0.148|TWO_SIDED|95.0|-22.0|3.3||Model includes treatment arm, study visit, and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repated Measures|||||3.3|-22.0|0.1480
92198042|NCT04832971|184295052|SUPERIORITY||Difference vs Placebo at Week 24|-20.2||||0.0019|TWO_SIDED|95.0|-32.8|-7.5||Model includes treatment arm, study visit, and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mxed Models Repeated Measures|||||-7.5|-32.8|0.0019
92198043|NCT04832971|184295053|SUPERIORITY||Difference|-13.3||||0.0192|TWO_SIDED|95.0|-24.5|-2.2||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-2.2|-24.5|0.0192
92198044|NCT04832971|184295053|SUPERIORITY||Difference|-8.4||||0.1362|TWO_SIDED|95.0|-19.6|2.7||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||2.7|-19.6|0.1362
92198045|NCT04832971|184295053|SUPERIORITY||Difference|-18.7||||0.001|TWO_SIDED|95.0|-29.8|-7.7||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-7.7|-29.8|0.0010
92198046|NCT04832971|184295053|SUPERIORITY||Difference|-13.9||||0.0428|TWO_SIDED|95.0|-27.3|-0.5||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-0.5|-27.3|0.0428
92198047|NCT04832971|184295053|SUPERIORITY||Difference|-4.5||||0.5122|TWO_SIDED|95.0|-17.9|8.9||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||8.9|-17.9|0.5122
92198048|NCT04832971|184295053|SUPERIORITY||Difference|-14.6||||0.0331|TWO_SIDED|95.0|-27.9|-1.2||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-1.2|-27.9|0.0331
92198049|NCT04832971|184295053|SUPERIORITY||Difference|-15.4||||0.14|TWO_SIDED|95.0|-35.8|5.1||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||5.1|-35.8|0.1400
92198050|NCT04832971|184295053|SUPERIORITY||Difference|0.2||||0.9854|TWO_SIDED|95.0|-20.2|20.6||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||20.6|-20.2|0.9854
92198051|NCT04832971|184295053|SUPERIORITY||Difference|-19.8||||0.0552|TWO_SIDED|95.0|-40.1|0.4||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||0.4|-40.1|0.0552
92198052|NCT04832971|184295053|SUPERIORITY||Difference|-13.1||||0.043|TWO_SIDED|95.0|-25.7|-0.4||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-0.4|-25.7|0.0430
92198053|NCT04832971|184295053|SUPERIORITY||Difference|-11.0||||0.0871|TWO_SIDED|95.0|-23.6|1.6||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||1.6|-23.6|0.0871
92198054|NCT04832971|184295053|SUPERIORITY||Difference|-23.1||||0.0004|TWO_SIDED|95.0|-35.7|-10.6||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-10.6|-35.7|0.0004
92198055|NCT04832971|184295053|SUPERIORITY||Difference|-14.0||||0.0219|TWO_SIDED|95.0|-25.9|-2.0||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-2.0|-25.9|0.0219
92198056|NCT04832971|184295053|SUPERIORITY||Difference|-8.7||||0.1526|TWO_SIDED|95.0|-20.6|3.2||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||3.2|-20.6|0.1526
92198057|NCT04832971|184295053|SUPERIORITY||Difference|-17.0||||0.0049|TWO_SIDED|95.0|-28.9|-5.2||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-5.2|-28.9|0.0049
92198058|NCT04832971|184295053|SUPERIORITY||Difference|-16.0||||0.0138|TWO_SIDED|95.0|-28.7|-3.3||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-3.3|-28.7|0.0138
92198059|NCT04832971|184295053|SUPERIORITY||Difference|-9.3||||0.148|TWO_SIDED|95.0|-22.0|3.3||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||3.3|-22.0|0.1480
92198060|NCT04832971|184295053|SUPERIORITY||Difference|-20.2||||0.0019|TWO_SIDED|95.0|-32.8|-7.5||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-7.5|-32.8|0.0019
92198061|NCT04832971|184295053|SUPERIORITY||Difference|-9.3||||0.166|TWO_SIDED|95.0|-22.4|3.9||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||3.9|-22.4|0.1660
92198062|NCT04832971|184295053|SUPERIORITY||Difference|-2.6||||0.6964|TWO_SIDED|95.0|-15.7|10.5||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||10.5|-15.7|0.6964
92322354|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.202|||||TWO_SIDED|95.0|0.754|1.915||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.915|0.754|
92322355|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.12|||||TWO_SIDED|95.0|0.689|1.821||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.821|0.689|
92322356|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.576|||||TWO_SIDED|95.0|0.987|2.516||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.516|0.987|
92322357|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.504|||||TWO_SIDED|95.0|0.316|0.805||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.805|0.316|
92322358|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.47|||||TWO_SIDED|95.0|0.293|0.754||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.754|0.293|
92322359|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.662|||||TWO_SIDED|95.0|0.414|1.056||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.056|0.414|
92322360|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.932|||||TWO_SIDED|95.0|0.583|1.492||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.492|0.583|
92322361|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.312|||||TWO_SIDED|95.0|0.831|2.071||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.071|0.831|
92322362|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.407|||||TWO_SIDED|95.0|0.88|2.249||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.249|0.880|
92198063|NCT04832971|184295053|SUPERIORITY||Difference|-11.5||||0.0831|TWO_SIDED|95.0|-24.5|1.5||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||1.5|-24.5|0.0831
92198064|NCT04832971|184295053|SUPERIORITY||Difference|-12.0||||0.1425|TWO_SIDED|95.0|-28.2|4.1||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||4.1|-28.2|0.1425
92198065|NCT04832971|184295053|SUPERIORITY||Difference|0.5||||0.9494|TWO_SIDED|95.0|-15.6|16.6||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||16.6|-15.6|0.9494
92198066|NCT04832971|184295053|SUPERIORITY||Difference|-7.5||||0.3535|TWO_SIDED|95.0|-23.5|8.4||MMRM model includes treatment arm, study visit, and baseline value as model terms. The model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||8.4|-23.5|0.3535
92198067|NCT04832971|184295054|SUPERIORITY||Difference vs Placebo|-54.26|||<|0.0001|TWO_SIDED|95.0|-62.11|-46.4||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|mixed Models Repeated Measures|||||-46.40|-62.11|<.0001
92198068|NCT04832971|184295054|SUPERIORITY||Difference vs Placebo at Week 24|-69.76|||<|0.0001|TWO_SIDED|95.0|-77.58|-61.95||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-61.95|-77.58|<.0001
92198069|NCT04832971|184295054|SUPERIORITY||Difference vs Placebo at Week 24|-73.69|||<|0.0001|TWO_SIDED|95.0|-81.44|-65.93||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-65.93|-81.44|<.0001
92198070|NCT04832971|184295055|SUPERIORITY||Difference|-67.65|||<|0.0001|TWO_SIDED|95.0|-74.26|-61.04||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-61.04|-74.26|<.0001
92198071|NCT04832971|184295055|SUPERIORITY||Difference|-80.8|||<|0.0001|TWO_SIDED|95.0|-87.42|-74.17||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-74.17|-87.42|<.0001
92198072|NCT04832971|184295055|SUPERIORITY||Difference|-84.69|||<|0.0001|TWO_SIDED|95.0|-91.27|-78.12||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-78.12|-91.27|<.0001
92198073|NCT04832971|184295055|SUPERIORITY||Difference|-59.07|||<|0.0001|TWO_SIDED|95.0|-67.57|-50.57||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-50.57|-67.57|<.0001
92198074|NCT04832971|184295055|SUPERIORITY||Difference|-71.98|||<|0.0001|TWO_SIDED|95.0|-80.47|-63.5||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-63.50|-80.47|<.0001
92198075|NCT04832971|184295055|SUPERIORITY||Difference|-76.44|||<|0.0001|TWO_SIDED|95.0|-84.9|-67.99||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-67.99|-84.90|<.0001
92322363|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|5.428|||||TWO_SIDED|95.0|4.0|7.365||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||7.365|4|
92198076|NCT04832971|184295055|SUPERIORITY||Difference|-55.1|||<|0.0001|TWO_SIDED|95.0|-65.18|-45.01||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-45.01|-65.18|<.0001
92198077|NCT04832971|184295055|SUPERIORITY||Difference|-70.55|||<|0.0001|TWO_SIDED|95.0|-80.6|-60.51||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-60.51|-80.60|<.0001
92198078|NCT04832971|184295055|SUPERIORITY||Difference|-74.0|||<|0.0001|TWO_SIDED|95.0|-83.95|-64.04||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-64.04|-83.95|<.0001
92198079|NCT04832971|184295055|SUPERIORITY||Difference|-72.22|||<|0.0001|TWO_SIDED|95.0|-78.88|-65.56||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-65.56|-78.88|<.0001
92198080|NCT04832971|184295055|SUPERIORITY||Difference|-84.09|||<|0.0001|TWO_SIDED|95.0|-90.72|-77.46||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-77.46|-90.72|<.0001
92198081|NCT04832971|184295055|SUPERIORITY||Difference|-89.0|||<|0.0001|TWO_SIDED|95.0|-95.59|-82.42||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-82.42|-95.59|<.0001
92198082|NCT04832971|184295055|SUPERIORITY||Difference|-64.86|||<|0.0001|TWO_SIDED|95.0|-71.4|-58.31||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-58.31|-71.40|<.0001
92198083|NCT04832971|184295055|SUPERIORITY||Difference|-77.45|||<|0.0001|TWO_SIDED|95.0|-83.98|-70.93||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-70.93|-83.98|<.0001
92198084|NCT04832971|184295055|SUPERIORITY||Difference|-80.6|||<|0.0001|TWO_SIDED|95.0|-87.06|-74.14||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-74.14|-87.06|<.0001
92198085|NCT04832971|184295055|SUPERIORITY||Difference|-54.26|||<|0.0001|TWO_SIDED|95.0|-62.11|-46.4||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-46.40|-62.11|<.0001
92198086|NCT04832971|184295055|SUPERIORITY||Difference|-69.76|||<|0.0001|TWO_SIDED|95.0|-77.58|-61.95||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-61.95|-77.58|<.0001
92198087|NCT04832971|184295055|SUPERIORITY||Difference|-73.69|||<|0.0001|TWO_SIDED|95.0|-81.44|-65.93||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-65.93|-81.44|<.0001
92198088|NCT04832971|184295055|SUPERIORITY||Difference|-54.75|||<|0.0001|TWO_SIDED|95.0|-62.84|-46.67||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-46.67|-62.84|<.0001
92198089|NCT04832971|184295055|SUPERIORITY||Difference|-66.6|||<|0.0001|TWO_SIDED|95.0|-74.69|-58.52||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-58.52|-74.69|<.0001
92322364|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|1.091|||||TWO_SIDED|95.0|0.804|1.481||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.481|0.804|
92198090|NCT04832971|184295055|SUPERIORITY||Difference|-73.37|||<|0.0001|TWO_SIDED|95.0|-81.36|-65.38||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-65.38|-81.36|<.0001
92198091|NCT04832971|184295055|SUPERIORITY||Difference|-45.43|||<|0.0001|TWO_SIDED|95.0|-54.17|-36.69||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-36.69|-54.17|<.0001
92198092|NCT04832971|184295055|SUPERIORITY||Difference|-57.15|||<|0.0001|TWO_SIDED|95.0|-65.88|-48.41||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-48.41|-65.88|<.0001
92198093|NCT04832971|184295055|SUPERIORITY||Difference|-63.58|||<|0.0001|TWO_SIDED|95.0|-72.19|-54.97||Model includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-54.97|-72.19|<.0001
92198094|NCT04832971|184295056|SUPERIORITY||Difference vs Placebo at Week 24|-12.0||||0.0039|TWO_SIDED|95.0|-20.2|-3.9||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-3.9|-20.2|0.0039
92198095|NCT04832971|184295056|SUPERIORITY||Difference vs Placebo at Week 24|-21.6|||<|0.0001|TWO_SIDED|95.0|-29.8|-13.4||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-13.4|-29.8|<.0001
92198096|NCT04832971|184295056|SUPERIORITY||Differeence vs Placebo at week 24|-24.5|||<|0.0001|TWO_SIDED|95.0|-32.6|-16.5||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-16.5|-32.6|<.0001
92198097|NCT04832971|184295057|SUPERIORITY||Difference|-13.7||||0.0003|TWO_SIDED|95.0|-20.9|-6.4||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-6.4|-20.9|0.0003
92198098|NCT04832971|184295057|SUPERIORITY||Difference|-25.3|||<|0.0001|TWO_SIDED|95.0|-32.6|-17.9||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-17.9|-32.6|<.0001
92198099|NCT04832971|184295057|SUPERIORITY||Difference|-24.5|||<|0.0001|TWO_SIDED|95.0|-31.8|-17.3||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 4||-17.3|-31.8|<.0001
92198100|NCT04832971|184295057|SUPERIORITY||Difference|-15.0||||0.0001|TWO_SIDED|95.0|-22.4|-7.5||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-7.5|-22.4|0.0001
92198101|NCT04832971|184295057|SUPERIORITY||Difference|-25.4|||<|0.0001|TWO_SIDED|95.0|-33.0|-17.9||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-17.9|-33.0|<.0001
92198102|NCT04832971|184295057|SUPERIORITY||Difference|-26.2|||<|0.0001|TWO_SIDED|95.0|-33.7|-18.7||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 8||-18.7|-33.7|<.0001
92198103|NCT04832971|184295057|SUPERIORITY||Difference|-8.9||||0.0429|TWO_SIDED|95.0|-17.6|-0.3||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-0.3|-17.6|0.0429
92198104|NCT04832971|184295057|SUPERIORITY||Difference|-20.7|||<|0.0001|TWO_SIDED|95.0|-29.4|-12.0||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-12.0|-29.4|<.0001
92268637|NCT03417102|184439108|SUPERIORITY||ABR ratio|0.108|||<|0.0001|TWO_SIDED|95.0|0.056|0.207||P-value derived from NB regression model, accounted for different follow-up times during TP, with treatment arm and randomization strata of number of bleeds in 6 months prior to study (\<=10,\>10) as fixed effects. Significance threshold was 0.05.|Negative binomial regression model|||||0.207|0.056|<0.0001
92322365|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.759|||||TWO_SIDED|95.0|0.559|1.031||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.031|0.559|
92198105|NCT04832971|184295057|SUPERIORITY||Difference|-20.1|||<|0.0001|TWO_SIDED|95.0|-28.7|-11.6||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 12||-11.6|-28.7|<.0001
92198106|NCT04832971|184295057|SUPERIORITY||Difference|-17.9|||<|0.0001|TWO_SIDED|95.0|-26.2|-9.5||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-9.5|-26.2|<.0001
92198107|NCT04832971|184295057|SUPERIORITY||Difference|-30.6|||<|0.0001|TWO_SIDED|95.0|-39.0|-22.2||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-22.2|-39.0|<.0001
92198108|NCT04832971|184295057|SUPERIORITY||Difference|-32.3|||<|0.0001|TWO_SIDED|95.0|-40.5|-24.0||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 16||-24.0|-40.5|<.0001
92198109|NCT04832971|184295057|SUPERIORITY||Difference|-14.6||||0.0005|TWO_SIDED|95.0|-22.7|-6.5||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-6.5|-22.7|0.0005
92198110|NCT04832971|184295057|OTHER||Difference|-28.4|||<|0.0001|TWO_SIDED|95.0|-36.6|-20.3||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-20.3|-36.6|<.0001
92268638|NCT03417102|184439110|SUPERIORITY||ABR ratio|0.056|||<|0.0001|TWO_SIDED|95.0|0.026|0.121||P-value derived from NB regression model, accounted for different follow-up times during EP, with treatment arm and randomization strata of number of bleeds in 6 months prior to study (\<=10,\>10) as fixed effects. Significance threshold was 0.05.|Negative binomial regression model|||||0.121|0.026|<0.0001
92198111|NCT04832971|184295057|SUPERIORITY||Difference|-30.4|||<|0.0001|TWO_SIDED|95.0|-38.4|-22.4||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 20||-22.4|-38.4|<.0001
92198112|NCT04832971|184295057|SUPERIORITY||Difference|-12.0||||0.0039|TWO_SIDED|95.0|-20.2|-3.9||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-3.9|-20.2|0.0039
92198113|NCT04832971|184295057|SUPERIORITY||Difference|-21.6|||<|0.0001|TWO_SIDED|95.0|-29.8|-13.4||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-13.4|-29.8|<.0001
92198114|NCT04832971|184295057|SUPERIORITY||Difference|-24.5|||<|0.0001|TWO_SIDED|95.0|-32.6|-16.5||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 24||-16.5|-32.6|<.0001
92198115|NCT04832971|184295057|SUPERIORITY||Difference|-8.4||||0.0343|TWO_SIDED|95.0|-16.2|-0.6||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-0.6|-16.2|0.0343
92198116|NCT04832971|184295057|SUPERIORITY||Difference|-17.7|||<|0.0001|TWO_SIDED|95.0|-25.6|-9.8||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-9.8|-25.6|<.0001
92198117|NCT04832971|184295057|SUPERIORITY||Difference|-21.5|||<|0.0001|TWO_SIDED|95.0|-29.3|-13.8||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 28||-13.8|-29.3|<.0001
92198118|NCT04832971|184295057|SUPERIORITY||Difference|-7.8||||0.0501|TWO_SIDED|95.0|-15.6|0.0||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||0.0|-15.6|0.0501
92198119|NCT04832971|184295057|SUPERIORITY||Difference|-20.1|||<|0.0001|TWO_SIDED|95.0|-27.9|-12.2||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-12.2|-27.9|<.0001
92198120|NCT04832971|184295057|SUPERIORITY||Difference|-15.8|||<|0.0001|TWO_SIDED|95.0|-23.5|-8.1||Includes treatment arm, study visit, randomization stratification factor (level of LDL-C at Screening \[≥100 mg/dL versus \<100 mg/dL\]),and baseline value as model terms. Also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model Repeated Measures (MMRM)|||Week 36||-8.1|-23.5|<.0001
92198121|NCT01107899|184295072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the overall effect of initial inhibition on the day to return to baseline platelet function.|Regression, Linear|||||||<0.001
92198122|NCT01107899|184295074|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|p-value was obtained from an analysis of covariance model with treatment as a fixed effect and the baseline value as a covariate.||||||<0.001
92198123|NCT01107899|184295074|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|p-value was obtained from an analysis of covariance model with treatment as a fixed effect and the baseline value as a covariate.||||||<0.001
92198124|NCT01107899|184295074|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||ANCOVA|p-value was obtained from an analysis of covariance model with treatment as a fixed effect and the baseline value as a covariate.||||||0.025
92198125|NCT03584152|184295082|NON_INFERIORITY|The null hypothesis stated that the combination of treatment arm B is worse than the combination of treatment arm A by more than -Δ, where -Δ is the 'non-inferiority margin.'||||||0.156||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||||0.156
92198126|NCT03584152|184295083|OTHER|||||||0.112||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||||0.112
92198127|NCT03584152|184295084|OTHER|||||||0.803||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||||0.803
92198128|NCT03584152|184295085|OTHER|||||||0.403||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||||||0.403
92198129|NCT03584152|184295086|OTHER|||||||0.405||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||Difference between-groups in nausea||||0.405
92198130|NCT03584152|184295086|OTHER|||||||0.001||||||The a priori threshold for statistical significance was \< 0.05.|Fisher Exact|||Difference between-groups in itchiness||||0.001
92198131|NCT03584152|184295086|OTHER|||||||0.571||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||Difference between-groups in constipation||||0.571
92198132|NCT03584152|184295086|OTHER|||||||0.078||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||Difference between-groups in dizziness||||0.078
92198133|NCT03584152|184295086|OTHER|||||||0.724||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||Difference between-groups in bleeding||||0.724
92198134|NCT03584152|184295086|OTHER|||||||0.795||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||Difference between-groups in headache||||0.795
92198135|NCT03584152|184295086|OTHER|||||||0.188||||||The a priori threshold for statistical significance was \< 0.05.|Fisher Exact|||"Difference between-groups in other side effects"||||0.188
92198136|NCT03584152|184295087|OTHER|||||||0.7318||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Difference in change in SCHNOS-O||||0.7318
92322366|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|3.499|||||TWO_SIDED|95.0|2.577|4.751||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||4.751|2.577|
92322367|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.982|||||TWO_SIDED|95.0|0.722|1.334||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.334|0.722|
92322368|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.699|||||TWO_SIDED|95.0|0.513|0.95||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||0.95|0.513|
92322369|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|2.513|||||TWO_SIDED|95.0|1.846|3.421||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.421|1.846|
92322370|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.201|||||TWO_SIDED|95.0|0.149|0.272||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.272|0.149|
92322371|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.14|||||TWO_SIDED|95.0|0.103|0.189||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.189|0.103|
92322372|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.645|||||TWO_SIDED|95.0|0.476|0.873||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.873|0.476|
92322373|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.181|||||TWO_SIDED|95.0|0.134|0.245||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||0.245|0.134|
92322374|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.129|||||TWO_SIDED|95.0|0.095|0.174||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.174|0.095|
92322375|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67|Geometric Mean Ratio at day 29|0.463|||||TWO_SIDED|95.0|0.341|0.628||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||0.628|0.341|
92198137|NCT03584152|184295087|OTHER|||||||0.5267||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Difference in change in SCHNOS-C||||0.5267
92198138|NCT03584152|184295088|OTHER|||||||0.9158||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Difference in change in VAS-F||||0.9158
92198139|NCT03584152|184295089|OTHER|||||||0.5351||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Difference in change in VAS-A||||0.5351
92198140|NCT03584152|184295090|OTHER|||||||0.378||||||The a priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.378
92198141|NCT03584152|184295091|OTHER|||||||0.195||||||The a priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.195
92198142|NCT03584152|184295092|OTHER|||||||0.682|||||||Wilcoxon (Mann-Whitney)|||||||0.682
92198143|NCT04024462|184295093|NON_INFERIORITY|The null hypothesis could be rejected and non-inferiority concluded if the lower bound of the 90% confidence interval of the geometric mean ratio was ≥0.8.|Geometric Mean Ratio|1.07|||||TWO_SIDED|90.0|0.99|1.15|||||The CtroughSC/CtroughIV geometric mean ratio was calculated as the SC dose of pertuzumab (Arm B) relative to the pertuzumab IV dose (Arm A).|The null hypothesis was that the pertuzumab Arm B SC dose is inferior to the pertuzumab Arm A IV dose (i.e., the CtroughSC/CtroughIV geometric mean ratio of the SC dose of pertuzumab relative to the IV dose is not greater than 0.8).||1.15|0.99|
92198144|NCT04024462|184295094|NON_INFERIORITY|The null hypothesis could be rejected and non-inferiority concluded if the lower bound of the 90% confidence interval of the geometric mean ratio was ≥0.8. Non-inferiority was tested in hierarchical order after the primary outcome measure, to adjust for multiple statistical testing and control the type I error at one sided 5% significance level.|Geometric Mean Ratio|1.55|||||TWO_SIDED|90.0|1.44|1.67|||||The CtroughSC/CtroughIV geometric mean ratio was calculated as the SC dose of trastuzumab (Arm B) relative to the trastuzumab IV dose (Arm A).|The null hypothesis was that the trastuzumab Arm B SC dose is inferior to the Arm A trastuzumab IV dose (i.e., the CtroughSC/CtroughIV geometric mean ratio of the SC dose of trastuzumab relative to the IV dose is not greater than 0.8).||1.67|1.44|
92198145|NCT04024462|184295095|OTHER|Descriptive analysis only. tpCR was analyzed outside of a hypothesis-testing framework and according to the methodology outlined in the outcome measure description.|Difference in tpCR Rate|-0.88|||||TWO_SIDED|95.0|-15.21|13.45|||||Difference in tpCR rate was calculated as Arm B: PH FDC SC minus Arm A: P+H IV.|||13.45|-15.21|
92322376|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.696|||||TWO_SIDED|95.0|0.514|0.943||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||0.943|0.514|
92198146|NCT01351805|184295105|OTHER|Test of change from baseline as above.|Percent change in geometric means|8.19||||0.02|TWO_SIDED|95.0|1.52|15.31||IL-6 from baseline to one year: overall % change= 8.19% (95%CI 1.52-15.31).|as above|p above adjusted for age, sex, race and n-3 fatty acid randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||15.31|1.52|0.02
92198147|NCT01351805|184295105|OTHER|Test of change from baseline as above.|Percent change in geometric means|-0.73||||0.97|TWO_SIDED|95.0|-6.87|5.81||4\. IL-6 from baseline to one year: overall % change= -0.73% (95%CI -6.87 to 5.81).|as above|p above adjusted for age, sex, race and vitamin D randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||5.81|-6.87|0.97
92198148|NCT01351805|184295105|SUPERIORITY|Multiplicative interaction between strata based on linear models of ln biomarker from baseline to year 1,p for interaction between strata.||||||0.12||||||Test of multiplicative interaction between the effects of the two supplements|p for interaction|||Test for interaction between effect of vitamin D and effect of omega-3 fatty acids on IL-6 change from baseline to 1 year||||0.12
92198149|NCT01351805|184295106|OTHER|Test of change from baseline as above.|Percent change in geometric means|7.12||||0.16|TWO_SIDED|95.0|-1.81|16.87||3\. HsCRP from baseline to one year: overall % change= 7.12% (95%CI -1.81-16.78).|as above|p above adjusted for age, sex, race and n-3 fatty acid randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||16.87|-1.81|0.16
92198150|NCT01351805|184295106|OTHER|Test of change from baseline as above.|Percent change in geometric means|-3.89||||0.44|TWO_SIDED|95.0|-11.92|4.86||6\. HsCRP from baseline to one year: overall % change= -3.89% (95%CI -11.92-4.86).|as above|p above adjusted for age, sex, race and vitamin D randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||4.86|-11.92|0.44
92198151|NCT01351805|184295106|SUPERIORITY|||||||0.38|||||||P for interaction|||Test for multiplicative interaction between effect of vitamin D and effect of omega-3. based on linear models of ln biomarker from baseline to year 1.||||0.38
92198152|NCT01351805|184295107|OTHER|Test of change from baseline as above.|Percent change in geometric means|0.63||||0.57|TWO_SIDED|95.0|-1.03|2.31||2\. TNFR2 from baseline to one year: overall % change= 0.63% (95%CI -1.03 to 2.31).|as above|p above adjusted for age, sex, race and n-3 fatty acid randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||2.31|-1.03|0.57
92322377|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|3.207|||||TWO_SIDED|95.0|2.368|4.343||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||4.343|2.368|
92322378|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.9|||||TWO_SIDED|95.0|0.665|1.218||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.218|0.665|
92322379|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.64|||||TWO_SIDED|95.0|0.472|0.868||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.868|0.472|
92322380|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|2.303|||||TWO_SIDED|95.0|1.7|3.121||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.121|1.7|
92322381|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|4.608|||||TWO_SIDED|95.0|3.398|6.249||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||6.249|3.398|
92322382|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|1.293|||||TWO_SIDED|95.0|0.954|1.753||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.753|0.954|
92322383|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.92|||||TWO_SIDED|95.0|0.677|1.249||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.249|0.677|
92322384|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|3.31|||||TWO_SIDED|95.0|2.436|4.496||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||4.496|2.436|
92322385|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.281|||||TWO_SIDED|95.0|0.207|0.38||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.38|0.207|
92198153|NCT01351805|184295107|OTHER|Test of change from baseline as above.|Percent change in geometric means|-1.27||||0.13|TWO_SIDED|95.0|-2.89|0.39||5\. TNFR2 from baseline to one year: overall % change= -1.27% (95%CI -2.89 to 0.39).|as above|p above adjusted for age, sex, race and vitamin D randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||0.39|-2.89|0.13
92198154|NCT01351805|184295107|SUPERIORITY|Multiplicative interaction between strata based on linear models of ln biomarker from baseline to year 1 with p for interaction between strata.||||||0.74|||||||P for interaction|||Test for multiplicative interaction between effect of vitamin D and effect of omega-3. based on linear models of ln biomarker from baseline to year 1.||||0.74
92322386|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.2|||||TWO_SIDED|95.0|0.147|0.271||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.271|0.147|
92322387|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.718|||||TWO_SIDED|95.0|0.529|0.975||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.975|0.529|
92322388|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.712|||||TWO_SIDED|95.0|0.524|0.966||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.966|0.524|
92322389|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|2.56|||||TWO_SIDED|95.0|1.886|3.474||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.474|1.886|
92322390|NCT00972816|184548698|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|3.597|||||TWO_SIDED|95.0|2.646|4.89||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||4.89|2.646|
92322391|NCT03806933|184548706|OTHER||Hazard Ratio (HR)|1.03|||=|0.881|TWO_SIDED|95.0|0.7|1.51||P-values were based on Wald Chi-Square tests for hazard ratios.|Wald Chi-square test||Hazard ratio (HR) was estimated using a Cox proportional hazards regression model. 95% CIs were calculated based on individual Wald tests.|||1.51|0.7|= 0.881
92322392|NCT03806933|184548706|OTHER||Hazard Ratio (HR)|0.72|||=|0.089|TWO_SIDED|95.0|0.49|1.05||P-values were based on Wald Chi-Square tests for hazard ratios.|Wald Chi-square test||HR was estimated using a Cox proportional hazards regression model. 95% CIs were calculated based on individual Wald tests.|||1.05|0.49|= 0.089
92322393|NCT03806933|184548706|OTHER||Hazard Ratio (HR)|0.56||||0.0035|TWO_SIDED|95.0|0.38|0.83|||Wald Chi-square test|P-values were based on Wald Chi-Square tests for hazard ratios.|HR was estimated using a Cox proportional hazards regression model. 95% CIs were calculated based on individual Wald tests.|||0.83|0.38|0.0035
92322394|NCT05088603|184548718|SUPERIORITY|||||||0.106|||||||Fisher Exact|||||||0.106
92322395|NCT05088603|184548719|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
92198155|NCT01351805|184295108|OTHER||Cox Proportional Hazard|0.78||||0.05|TWO_SIDED|95.0|0.61|0.99|||Regression, Cox|||||0.99|0.61|0.05
92322396|NCT05088603|184548720|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
92322397|NCT05088603|184548722|SUPERIORITY|||||||0.529|||||||Fisher Exact|||||||0.529
92322398|NCT05088603|184548723|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
92322399|NCT05088603|184548724|SUPERIORITY|||||||0.502|||||||Fisher Exact|||||||0.502
92198156|NCT01351805|184295108|SUPERIORITY||Cox Proportional Hazard|0.85||||0.19|TWO_SIDED|95.0|0.67|1.08|||Regression, Cox|||||1.08|0.67|0.19
92322400|NCT05088603|184548725|SUPERIORITY|||||||0.431|||||||Fisher Exact|||||||0.431
92322401|NCT05088603|184548726|SUPERIORITY|||||||0.434|||||||Fisher Exact|||||||0.434
92322402|NCT05088603|184548727|SUPERIORITY|||||||0.159|||||||Fisher Exact|||||||0.159
92322403|NCT05088603|184548728|SUPERIORITY|||||||0.051|||||||Fisher Exact|||||||0.051
92322404|NCT00955955|184548741|SUPERIORITY_OR_OTHER||Mean Score Reduction|-5.6|STANDARD_DEVIATION|5.7||0.05||95.0|||||SPCD|Sequential Parallel Comparison Design (SPCD)|These results reflect the mean score reduction for the pooled Deplin sample.|Hypothesis 1: There will be a statistically significant difference between the two groups in the degree of improvement, as measured by the change in the 17-item Hamilton Depression Rating Scale (HAM-D-17) score from baseline to endpoint, using the sequential parallel comparison design \[51\]; with a greater degree of reduction in HAM-D-17 scores in the 6(S)-5-MTHF 15 mg qd group than in the placebo group, with the change on placebo being estimated from Trials 1 and 2.||||.05
92322405|NCT03852264|184548784|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|2.61|||||TWO_SIDED|90.0|-1.29|6.38|||||Contrast reflecting Pet Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||6.38|-1.29|
92322406|NCT03852264|184548784|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|1.62|||||TWO_SIDED|90.0|-2.18|5.45|||||Contrast reflecting Unfamiliar Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||5.45|-2.18|
92322407|NCT03852264|184548784|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|-1.0|||||TWO_SIDED|90.0|-4.93|2.83|||||Contrast reflecting Unfamiliar Dog Interaction - Pet Dog Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||2.83|-4.93|
92198157|NCT01351805|184295108|SUPERIORITY|||||||0.2|||||||P for interaction|p multiplicative interaction between effects of vitamin D and n-3 fa supplements||Test for multiplicative interaction between the effects of randomized treatment groups, vitamin D and n-3 fa on incidence of autoimmune disease.||||0.20
92198158|NCT01351805|184295109|OTHER|We assessed the main effects of the treatment arms comparing all those randomized to omega-3 fatty acids or omega-3 fatty acid placebo, regardless of vitamin D randomization status.||||||0.77||||||Repeated measures model with unstructured variance to assess effect of treatment on WOMAC Pain adjusting for age, sex, and other treatment. Linear time by treatment interaction term assessed change in WOMAC Pain over time in treatment vs placebo.|Mixed Models Analysis|Repeated measures model with censoring for total knee replacement.||Intention to treat analysis using a repeated measures model with unstructured variance to assess the effect of treatment arm on WOMAC Pain adjusting for age, sex, and the other treatment arm. The linear time by treatment interaction term assessed change in WOMAC Pain over time between participants randomized to treatment versus placebo.||||0.77
92198159|NCT01351805|184295109|OTHER|We assessed the main effects of the treatment arms comparing all those randomized to vitamin D or vitamin D placebo, regardless of omega-3 fatty acid randomization status.||||||0.41||||||Repeated measures model with unstructured variance to assess effect of treatment on WOMAC Pain adjusting for age, sex, and other treatment. Linear time by treatment interaction term assessed change in WOMAC Pain over time in treatment vs placebo.|Mixed Models Analysis|Linear time by treatment interaction (comparing change in WOMAC pain over time in two randomized groups)||Intention to treat analysis using a repeated measures model with unstructured variance to assess the effect of treatment arm on WOMAC Pain adjusting for age, sex, and the other treatment arm. The linear time by treatment interaction term assessed change in WOMAC Pain over time between participants randomized to treatment versus placebo.|We assessed for effect modification between vitamin D and N-3 FA and tested for other pre-specified interactions. We again used a repeated measures model with censoring for TKR. We adjusted for age, sex and N-3 FA treatment arm (in analyses in which N-3 FA treatment arm was not investigated as a potential modifier).|||0.41
92198160|NCT01351805|184295109|OTHER|Linear regression - WOMAC pain over time mean (Standard error - SE). Differences in WOMAC pain scores in stratified groups.|Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|1.9||0.42|TWO_SIDED||||||Regression, Linear|||Active n3fa vs placebo n3fa among those on placebo vitamin D.||||0.42
92198161|NCT01351805|184295109|OTHER|Linear regression - WOMAC pain over time mean (Standard error - SE). Differences in WOMAC pain scores in stratified groups.|Mean Difference (Net)|-2.5|STANDARD_ERROR_OF_MEAN|1.8||0.18|TWO_SIDED||||||Regression, Linear|||Vitamin D vs. vitamin D placebo among those on placebo omega-3 fatty acids- stratified analyses.||||0.18
92198162|NCT01351805|184295109|OTHER|Linear regression - WOMAC pain over time mean (Standard error - SE). Report only in final year. Differences in WOMAC pain scores in cross-classified groups.|Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|1.89||0.84|TWO_SIDED||||||Regression, Linear|||Omega-3 fatty acids vs. omega-3 fatty acids placebo among those on active vitamin D.||||0.84
92198163|NCT01351805|184295109|OTHER|Linear regression - WOMAC pain over time mean (Standard error - SE). Report only in final year. Differences in WOMAC pain scores in cross-classified groups.|Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|1.8||0.76|TWO_SIDED||||||Regression, Linear|||Omega-3 fatty acids vs. omega-3 fatty acids placebo among those on placebo vitamin D.||||0.76
92198164|NCT01351805|184295110|SUPERIORITY||Hazard Ratio (HR)|1.0|||<|0.05|TWO_SIDED|95.0||||HR with 95%CI|Regression, Cox|||HR for incident autoimmune disease in intervention groups vs. placebo (ref=1.0) using Cox models with 95% confidence intervals||||<0.05
92198165|NCT04292470|184295113|SUPERIORITY|||||||0.41|||||||ANOVA|||||||0.41
92198166|NCT04292470|184295114|SUPERIORITY|||||||0.09|||||||ANOVA|||For statistical testing, we used a general linear model of change in GERD symptoms from baseline to 8 weeks adjusted for the natural log of the index value (of the ratio of the change in skin conductance between patient and physician at baseline) and randomization assignment.||||0.09
92198167|NCT02906020|184295129|SUPERIORITY||LS mean difference|2.58|STANDARD_ERROR_OF_MEAN|1.87|=|0.1679|TWO_SIDED|95.0|-1.1|6.27||The threshold for statistical significance was 0.05.|MMRM|||Least-squares (LS) mean, standard errors (SE) and p-value were estimated from mixed-effect model with repeated measures (MMRM) analysis which included fixed categorical effects of treatment group, randomization strata, time point, treatment-by-time point and strata-by-time point interaction and continuous fixed covariates Baseline value and Baseline value-by-time point interaction.||6.27|-1.10|=0.1679
92198168|NCT02906020|184295130|SUPERIORITY||LS mean difference|-0.97|STANDARD_ERROR_OF_MEAN|1.85|=|0.5996|TWO_SIDED|95.0|-4.63|2.68||The threshold for statistical significance was 0.05.|MMRM|||LS mean, SE and P-value were estimated from MMRM analysis which included fixed categorical effects of treatment group, randomization strata, time point, treatment-by-time point and strata-by-time point interaction and continuous fixed covariates Baseline value and Baseline value-by-time point interaction.||2.68|-4.63|=0.5996
92198169|NCT02906020|184295131|SUPERIORITY||LS mean difference|4.13|STANDARD_ERROR_OF_MEAN|2.13|=|0.0535|TWO_SIDED|95.0|-0.06|8.32||The threshold for statistical significance was 0.05.|MMRM|||LS mean, SE and P-value were estimated from MMRM analysis which included fixed categorical effects of treatment group, randomization strata, time point, treatment-by-time point and strata-by-time point interaction and continuous fixed covariates Baseline value and Baseline value-by-time-interaction||8.32|-0.06|=0.0535
92198170|NCT02906020|184295132|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.08|=|0.74|TWO_SIDED|95.0|-0.12|0.17||The threshold for statistical significance was 0.05.|MMRM|||LS mean, SE and P-value: estimated from MMRM analysis which included fixed categorical effects of treatment group, randomization strata, time point, treatment-by-time point and strata-by-time point interaction and continuous fixed covariates Baseline value and Baseline value-by-time-interaction.||0.17|-0.12|=0.7400
92198171|NCT02701062|184295135|SUPERIORITY|||||||0.2593|||||||Fisher Exact|||||||0.2593
92198172|NCT02701062|184295136|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92198173|NCT02701062|184295137|SUPERIORITY|||||||0.1238|||||||Fisher Exact|||||||0.1238
92198174|NCT02701062|184295138|SUPERIORITY|||||||0.6603|||||||t-test, 2 sided|||LOS (Total)||||0.6603
92198175|NCT02701062|184295138|SUPERIORITY|||||||0.0783|||||||t-test, 2 sided|||LOS (Post-Procedure)||||0.0783
92198176|NCT02701062|184295138|SUPERIORITY|||||||0.4282|||||||t-test, 2 sided|||Readmission LOS (per subject)||||0.4282
92198177|NCT02701062|184295139|SUPERIORITY|||||||0.6603|||||||t-test, 2 sided|||||||0.6603
92322408|NCT03852264|184548785|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|0.3482|||||TWO_SIDED|90.0|-0.476|1.211|||||Contrast reflecting Pet Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||1.211|-0.476|
92322409|NCT03852264|184548785|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|-0.0635|||||TWO_SIDED|90.0|-0.931|0.803|||||Contrast reflecting Unfamiliar Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||0.803|-0.931|
92322410|NCT03852264|184548785|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|-0.422|||||TWO_SIDED|90.0|-1.319|0.445|||||Contrast reflecting Unfamiliar Dog Interaction - Pet Dog Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||0.445|-1.319|
92322411|NCT03852264|184548786|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|0.468|||||TWO_SIDED|90.0|-101.0|99.5|||||Contrast reflecting Pet Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||99.5|-101|
92322412|NCT03852264|184548786|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|-115.0|||||TWO_SIDED|90.0|-225.0|-15.5|||||Contrast reflecting Unfamiliar Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||-15.5|-225|
92322413|NCT03852264|184548786|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|-115.48|||||TWO_SIDED|90.0|-223.0|-16.2|||||Contrast reflecting Unfamiliar Dog Interaction - Pet Dog Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||-16.2|-223|
92322414|NCT01631149|184548790|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7|STANDARD_DEVIATION|0.4|<|0.001|||||||t-test, 2 sided|||"The individual scores obtained during surgery were averaged.~The average values were compared using a t-test between treatments."||||<0.001
92322415|NCT05481125|184548804|NON_INFERIORITY|Non-inferiority margin = 0.1 logMAR|Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.0125|||ONE_SIDED|95.0||-0.024||Since a non-inferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the non-inferiority margin.|||Mean difference (Clareon/Clareon Toric minus Eyhance/Eyhance Toric). Upper Confidence Limit is presented.|||-0.024||
92322416|NCT00839527|184548833|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.07|-0.68|||ANCOVA|||||-0.68|-1.07|<0.0001
92322417|NCT00839527|184548833|NON_INFERIORITY_OR_EQUIVALENCE|The p-value is from a one-sided t-test testing at the 0.025 level of significance whether or not the difference of least square means (albiglutide - pioglitazone) is less than or equal to the pre-specified non-inferiority margin of 0.3%.|Mean Difference (Net)|0.25||||0.2685|TWO_SIDED|95.0|0.1|0.4|||t-test, 1 sided|||||0.40|0.10|0.2685
92198178|NCT02701062|184295139|SUPERIORITY|||||||0.0783|||||||t-test, 2 sided|||LOS (Post-Procedure)||||0.0783
92322418|NCT02295020|184548842|SUPERIORITY_OR_OTHER|||||||0.181|||||||t-test, 2 sided|||||||0.181
92322419|NCT02295020|184548843|SUPERIORITY_OR_OTHER|||||||0.232|||||||t-test, 2 sided|||||||0.232
92322420|NCT02295020|184548844|SUPERIORITY_OR_OTHER|||||||0.311|||||||t-test, 2 sided|||||||0.311
92322421|NCT02295020|184548846|SUPERIORITY_OR_OTHER|||||||0.449|||||||t-test, 2 sided|||||||0.449
92198179|NCT02701062|184295139|SUPERIORITY|||||||0.4282|||||||t-test, 2 sided|||Readmission LOS (per subject)||||0.4282
92198180|NCT02701062|184295140|SUPERIORITY|||||||0.5442|||||||Fisher Exact|||Reoperation||||0.5442
92198181|NCT02701062|184295140|SUPERIORITY|||||||0.2598|||||||Fisher Exact|||ED Visit||||0.2598
92322422|NCT02295020|184548847|SUPERIORITY_OR_OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||||||0.860
92322423|NCT02295020|184548848|SUPERIORITY_OR_OTHER|||||||0.735|||||||Wilcoxon (Mann-Whitney)|||||||0.735
92322424|NCT02295020|184548849|SUPERIORITY_OR_OTHER|||||||0.479|||||||Wilcoxon (Mann-Whitney)|||||||0.479
92322425|NCT02295020|184548850|SUPERIORITY_OR_OTHER|||||||0.323|||||||Wilcoxon (Mann-Whitney)|||||||0.323
92322426|NCT02295020|184548851|SUPERIORITY_OR_OTHER|||||||0.878|||||||Wilcoxon (Mann-Whitney)|||||||0.878
92322427|NCT02751450|184548855|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.15|-0.882|||ANCOVA|Change from baseline in Schiff Sensitivity Score as response and treatment as a factor and baseline Schiff as a covariate|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|All statistical analyses were conducted under the null hypothesis (H0) of no difference between treatments versus the alternate hypothesis (H1) of a difference between treatments.||-0.882|-1.150|<0.0001
92322428|NCT01290679|184548859|SUPERIORITY_OR_OTHER||Difference in proportions of SVR12|32.2|||<|0.001|TWO_SIDED|95.0|23.3|41.2|||Cochran-Mantel-Haenszel|||The null hypothesis is there is no difference in proportions of SVR12 between the treatment groups.||41.2|23.3|<0.001
92322429|NCT01290679|184548860|SUPERIORITY_OR_OTHER||Difference in proportions of SVRW72|29.3|||<|0.001|TWO_SIDED|95.0|20.2|38.5|||Cochran-Mantel-Haenszel|||The null hypothesis is there is no difference in proportions of SVRW72 between the treatment groups.||38.5|20.2|<0.001
92322430|NCT01290679|184548861|SUPERIORITY_OR_OTHER||Difference in proportions of SVR24|31.5|||<|0.001|TWO_SIDED|95.0|22.5|40.5|||Cochran-Mantel-Haenszel|||The null hypothesis is there is no difference in proportions of SVR24 between the treatment groups.||40.5|22.5|<0.001
92322431|NCT01290679|184548862|SUPERIORITY_OR_OTHER||Difference in proportions of SVR4|32.3|||<|0.001|TWO_SIDED|95.0|23.5|41.0|||Cochran-Mantel-Haenszel|||The null hypothesis is there is no difference in proportions of SVR4 between the treatment groups.||41.0|23.5|<0.001
92322432|NCT01290679|184548889|SUPERIORITY_OR_OTHER||Mean differences|-16.776|STANDARD_ERROR_OF_MEAN|6.3081||0.008|TWO_SIDED|95.0|-29.1502|-4.4025|||Piecewise Linear Model|||Fatigue Severity Score AUC60||-4.4025|-29.1502|0.008
92322433|NCT01290679|184548889|SUPERIORITY_OR_OTHER||Mean differences|-18.837|STANDARD_ERROR_OF_MEAN|7.4715||0.012|TWO_SIDED|95.0|-33.4933|-4.1801|||Piecewise Linear Model|||Fatigue Severity Score AUC72||-4.1801|-33.4933|0.012
92322434|NCT01290679|184548890|SUPERIORITY_OR_OTHER||Mean differences|-282.16|STANDARD_ERROR_OF_MEAN|105.4927||0.008|TWO_SIDED|95.0|-489.1252|-75.1949|||Piecewise Linear Model|||Impairment in Work Productivity AUC60||-75.1949|-489.1252|0.008
92322435|NCT01290679|184548890|SUPERIORITY_OR_OTHER||Mean differences|-324.363|STANDARD_ERROR_OF_MEAN|124.026||0.009|TWO_SIDED|95.0|-567.708|-81.0182|||Piecewise Linear Model|||Impairment in Work Productivity AUC72||-81.0182|-567.7080|0.009
92198182|NCT02701062|184295140|SUPERIORITY|||||||0.5442|||||||Fisher Exact|||Neurologic Consult||||0.5442
92322436|NCT01290679|184548891|SUPERIORITY_OR_OTHER||Mean Differences|-282.436|STANDARD_ERROR_OF_MEAN|104.9894||0.007|TWO_SIDED|95.0|-488.415|-76.4566|||Piecewise linear model|||Impairment in Daily Activities AUC60||-76.4566|-488.4150|0.007
92322437|NCT01290679|184548891|SUPERIORITY_OR_OTHER||Mean differences|-329.204|STANDARD_ERROR_OF_MEAN|123.408||0.008|TWO_SIDED|95.0|-571.3389|-87.0695|||Piecewise Linear Model|||Impairment in Daily Activities AUC72||-87.0695|-571.3389|0.008
92322438|NCT01290679|184548892|SUPERIORITY_OR_OTHER||Mean differences|-186.852|STANDARD_ERROR_OF_MEAN|121.4741||0.125|TWO_SIDED|95.0|-425.4109|51.7059|||Piecewise linear model|||Time Missed from Work AUC60||51.7059|-425.4109|0.125
92322439|NCT01290679|184548892|SUPERIORITY_OR_OTHER||Mean differences|-188.202|STANDARD_ERROR_OF_MEAN|141.1702||0.183|TWO_SIDED|95.0|-465.507|89.104|||Piecewise linear model|||Time Missed from Work AUC72||89.1040|-465.5070|0.183
92322440|NCT00943150|184548898|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|||||||<0.001
92322441|NCT00943150|184548899|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||ANOVA|||CD3+ at 0 weeks||||0.33
92322442|NCT00943150|184548899|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||CD3+ at 3 weeks||||0.02
92322443|NCT00943150|184548899|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||ANOVA|||CD3+ at 6 weeks||||0.71
92322444|NCT00943150|184548899|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||ANOVA|||CD68+ at 0 weeks||||0.67
92198183|NCT02701062|184295140|SUPERIORITY|||||||0.2921|||||||Fisher Exact|||Hospital Readmission (per subject)||||0.2921
92322445|NCT00943150|184548899|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||CD68+ at 3 weeks||||0.01
92322446|NCT00943150|184548899|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||ANOVA|||CD68+ at 6 weeks||||0.48
92322447|NCT00943150|184548900|SUPERIORITY_OR_OTHER|||||||0.1128||95.0|||||Exact Wilcoxon rank-sum test|||||||0.1128
92322448|NCT00943150|184548901|SUPERIORITY_OR_OTHER|||||||0.0898||95.0|||||Exact Wilcoxon test|||||||0.0898
92198184|NCT01124097|184295180|SUPERIORITY_OR_OTHER|||||||0.9321|||||||Dunnett's test|||||||0.9321
92198185|NCT01124097|184295180|SUPERIORITY_OR_OTHER|||||||0.261|||||||Dunnett's test|||||||0.2610
92198186|NCT01124097|184295180|SUPERIORITY_OR_OTHER|||||||0.4764|||||||Dunnett's test|||||||0.4764
92198187|NCT00559377|184295263|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.27||||0.42|TWO_SIDED||||||Regression, Cox|||This outcome is for comparing FMISO Hypoxic Volume to overall survival||||.42
92198188|NCT00559377|184295263|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.87|TWO_SIDED||||||Regression, Cox|||This outcome is for comparing FMISO T:Bmax to overall survival||||.87
92322449|NCT00943150|184548902|SUPERIORITY_OR_OTHER|||||||0.076||95.0|||||Exact Wilcoxon test|||Intraoperative narcotic use comparison||||0.0760
92322450|NCT00943150|184548902|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Exact Wilcoxon test|||Postoperative narcotic use comparison||||0.5900
92322451|NCT00943150|184548903|SUPERIORITY_OR_OTHER|||||||0.4589||95.0|||||Exact Wilcoxon test|||||||0.4589
92322452|NCT00943150|184548904|SUPERIORITY_OR_OTHER|||||||0.999||95.0|||||Exact Wilcoxon test|||||||0.999
92322453|NCT00943150|184548905|SUPERIORITY_OR_OTHER|||||||0.0412||95.0|||||Exact Wilcoxon test|||||||0.0412
92322454|NCT04431908|184548957|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Specificity|89.35|||||TWO_SIDED|||||||||||||
92322455|NCT04431908|184548957|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Sensitivity|42.55|||||TWO_SIDED|||||||||||||
92322456|NCT04431908|184548957|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Accuracy|87.24|||||TWO_SIDED|||||||||||||
92322457|NCT04431908|184548959|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Specificity|88.73|||||TWO_SIDED|||||||||||||
92322458|NCT04431908|184548959|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Sensitivity|33.33|||||TWO_SIDED|||||||||||||
92322459|NCT04431908|184548959|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Accuracy|88.13|||||TWO_SIDED|||||||||||||
92322460|NCT01704651|184548966|SUPERIORITY_OR_OTHER|||||||0.34|||||||t-test, 2 sided|||||||0.34
92322461|NCT01704651|184548967|SUPERIORITY_OR_OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
92322462|NCT02477826|184548974|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.67|0.93||||||||0.93|0.67|
92322463|NCT02477826|184548974|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.81|1.12||||||||1.12|0.81|
92322464|NCT02477826|184548974|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.72|0.99||||||||0.99|0.72|
92322465|NCT02477826|184548974|SUPERIORITY||Cox Proportional Hazard|0.76|||||TWO_SIDED|95.0|0.6|0.97||||||||0.97|0.60|
92322466|NCT02477826|184548974|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.59|0.93||||||||0.93|0.59|
92322467|NCT02477826|184548974|SUPERIORITY||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.52|0.72||||||||0.72|0.52|
92322468|NCT02477826|184548974|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.49|0.89||||||||0.89|0.49|
92322469|NCT02477826|184548975|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.67|0.91||||||||0.91|0.67|
92322470|NCT02477826|184548975|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.78|1.05||||||||1.05|0.78|
92322471|NCT02477826|184548975|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.74|1.01||||||||1.01|0.74|
92322472|NCT02477826|184548975|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.51|0.79||||||||0.79|0.51|
92322473|NCT02477826|184548975|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.63|0.96||||||||0.96|0.63|
92322474|NCT02477826|184548975|SUPERIORITY||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.64|0.87||||||||0.87|0.64|
92322475|NCT02477826|184548975|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.64|1.14||||||||1.14|0.64|
92322476|NCT01342523|184548981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.825|TWO_SIDED|95.0|0.88|1.17||P-value is not adjusted for multiple comparisons.|Regression, Logistic|The logistic regression model included all 5 treatment main effects and the 10 two-way interactions as well as gender, race, and age as covariates.||Null hypothesis: No difference in 3-month abstinence rates for participants receiving CIS vs No CIS. We hypothesized that CIS would result in significantly higher abstinence rates compared to No CIS.||1.17|0.88|.825
92322477|NCT01342523|184548981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.028|TWO_SIDED|95.0|1.02|1.36||P-value is not adjusted for multiple comparisons|Regression, Logistic|The logistic regression model included all 5 treatment main effects and the 10 two-way interactions as well as gender, race, and age as covariates.||Null hypothesis: No difference in 3-month abstinence rates for participants receiving NRT vs No NRT. We hypothesized that NRT would result in significantly higher abstinence rates compared to No NRT.||1.36|1.02|.028
92322478|NCT01342523|184548981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.755|TWO_SIDED|95.0|0.85|1.13||P-value is not adjusted for multiple comparisons|Regression, Logistic|The logistic regression model included all 5 treatment main effects and the 10 two-way interactions as well as gender, race, and age as covariates.||Null hypothesis: No difference in 3-month abstinence rates for participants receiving Email Messaging vs No Email Messaging. We hypothesized that Email Messaging would result in significantly higher abstinence rates compared to No Email Messaging.||1.13|0.85|.755
92322479|NCT01342523|184548981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.057|TWO_SIDED|95.0|0.996|1.33||P-value is not adjusted for multiple comparisons|Regression, Logistic|The logistic regression model included all 5 treatment main effects and the 10 two-way interactions as well as gender, race, and age as covariates.||Null hypothesis: No difference in 3-month abstinence rates for participants receiving the Full SmokeFree.gov Website vs the Lite SmokeFree.gov Website . We hypothesized that the Full SmokeFree.gov Website would result in significantly higher abstinence rates compared to the LiteSmokeFree.gov Website .||1.33|0.996|.057
92322480|NCT01342523|184548981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.555||95.0|0.83|1.11||P-value is not adjusted for multiple comparisons|Regression, Logistic|The logistic regression model included all 5 treatment main effects and the 10 two-way interactions as well as gender, race, and age as covariates.||Null hypothesis: No difference in 3-month abstinence rates for participants receiving the Full Cessation Booklet vs the Brief Cessation Booklet We hypothesized that the Full Cessation Booklet would result in significantly higher abstinence rates compared to the Brief Cessation Booklet.||1.11|0.83|.555
92198189|NCT00559377|184295264|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.58|TWO_SIDED||||||Regression, Cox|||This outcome is for comparison of FMISO Hypoxic Volume to disease-free survival||||.58
92198190|NCT00559377|184295264|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.98|TWO_SIDED||||||Regression, Cox|||This outcome is for comarison of FMISO T:Bmax to progression-free survival||||.98
92322481|NCT01218087|184548989|NON_INFERIORITY_OR_EQUIVALENCE|Following the first interim analysis of the first 40 infants, the sample size calculation was revised. A revised sample size of 62 infants (31 per treatment arm) was based on an observed reduction of 41% to 11% in the experimental group with a goal p value of 0.01.||||||0.03|TWO_SIDED||||||Fisher Exact|||||||0.03
92322482|NCT03307252|184549037|OTHER||Adjusted geometric mean (gMean) ratio|100.7|STANDARD_ERROR_OF_MEAN|17.9|||TWO_SIDED|90.0|88.84|114.15|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|114.15|88.84|
92322483|NCT03307252|184549037|OTHER||Adjusted gMean ratio|93.76|STANDARD_ERROR_OF_MEAN|12.1|||TWO_SIDED|90.0|86.12|102.06|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|102.06|86.12|
92322484|NCT03307252|184549037|OTHER||Adjusted gMean Ratio|82.97|STANDARD_ERROR_OF_MEAN|10.7|||TWO_SIDED|90.0|76.96|89.46|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|89.46|76.96|
92322485|NCT03307252|184549037|OTHER||Adjusted gMean Ratio|113.4|STANDARD_ERROR_OF_MEAN|21.5|||TWO_SIDED|90.0|97.62|131.72|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|131.72|97.62|
92198191|NCT00559377|184295265|SUPERIORITY_OR_OTHER||Spearman Correlation|0.004|||<|0.05|TWO_SIDED||||||Spearman Correlation|||The correlation between IHC values and FMISO uptake were analyzed using Spearman correlation where p values less than 0.05 were considered significant.||||<0.05
92198192|NCT00203047|184295276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.11820976||0.8023|TWO_SIDED|95.0|-0.26|0.2|||ANCOVA|||||0.20|-0.26|0.8023
92198193|NCT02229227|184295280|NON_INFERIORITY|If the upper bound of the confidence interval is less than or equal to 0.3%, non-inferiority will be concluded.|Mean Difference (Net)|0.06|||<|0.0001|TWO_SIDED|95.0|-0.05|0.17||Non-inferiority p-value. P-value from testing the null hypothesis that the difference in change from baseline least squares means (albiglutide-insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance.|t-test, 2 sided||Least Square mean of albiglutide + insulin glargine from insulin lispro + insulin glargine has been presented.|||0.17|-0.05|<0.0001
92198194|NCT02229227|184295282|OTHER||Odds Ratio (OR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.31|0.6||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for Baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||0.60|0.31|<0.0001
92198195|NCT02229227|184295283|SUPERIORITY||Mean Difference (Net)|-4.37|||<|0.0001|TWO_SIDED|95.0|-4.93|-3.82|||t-test, 2 sided||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||-3.82|-4.93|<0.0001
92198196|NCT02229227|184295284|OTHER||Mean Difference (Net)|-1.21|||||TWO_SIDED|95.0|-1.43|-1.0|||||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) at Week 4 has been presented.|Week 4||-1.00|-1.43|
92198197|NCT02229227|184295284|OTHER||Mean Difference (Net)|-1.8|||||TWO_SIDED|95.0|-2.05|-1.55|||||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) at Week 5 has been presented.|Week 5||-1.55|-2.05|
92198198|NCT02229227|184295284|OTHER||Mean Difference (Net)|-3.17|||||TWO_SIDED|95.0|-3.51|-2.82|||||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) at Week 10 has been presented.|Week 10||-2.82|-3.51|
92198199|NCT02229227|184295284|OTHER||Mean Difference (Net)|-4.01|||||TWO_SIDED|95.0|-4.48|-3.54|||||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) at Week 18 has been presented.|Week 18||-3.54|-4.48|
92198200|NCT02229227|184295284|OTHER||Mean Difference (Net)|-4.37|||<|0.0001|TWO_SIDED|95.0|-4.93|-3.82|||t-test, 2 sided||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) at Week 26 has been presented.|Week 26||-3.82|-4.93|<0.0001
92198201|NCT02229227|184295285|SUPERIORITY||Mean Difference (Final Values)|-60.83|||<|0.0001|TWO_SIDED|95.0|-66.57|-55.1|||t-test, 2 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||-55.10|-66.57|<0.0001
92198202|NCT02229227|184295286|NON_INFERIORITY|Difference in change from Baseline least squares means (albiglutide - insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance|Mean Difference (Net)|-0.12|||<|0.0001|TWO_SIDED|95.0|-0.18|-0.07|||t-test, 1 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||-0.07|-0.18|<0.0001
92198203|NCT02229227|184295286|NON_INFERIORITY|Difference in change from Baseline least squares means (albiglutide - insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance|Mean Difference (Net)|-0.09|||<|0.0001|TWO_SIDED|95.0|-0.15|-0.02|||t-test, 1 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 5.|Week 5||-0.02|-0.15|<0.0001
92198204|NCT02229227|184295286|NON_INFERIORITY|Difference in change from Baseline least squares means (albiglutide - insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance|Mean Difference (Net)|0.08|||<|0.0001|TWO_SIDED|95.0|-0.01|0.17|||t-test, 1 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||0.17|-0.01|<0.0001
92198205|NCT02229227|184295286|NON_INFERIORITY|Difference in change from Baseline least squares means (albiglutide - insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance|Mean Difference (Net)|0.11|||<|0.0001|TWO_SIDED|95.0|0.01|0.21|||t-test, 1 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||0.21|0.01|<0.0001
92198206|NCT02229227|184295286|NON_INFERIORITY|Difference in change from Baseline least squares means (albiglutide - insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance|Mean Difference (Net)|0.06|||<|0.0001|TWO_SIDED|95.0|-0.05|0.17|||t-test, 1 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|Week 26||0.17|-0.05|<0.0001
92198207|NCT02229227|184295287|SUPERIORITY||Mean Difference (Net)|-0.55||||0.0004|TWO_SIDED|95.0|-0.86|-0.25|||t-test, 2 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||-0.25|-0.86|0.0004
92198208|NCT02229227|184295288|OTHER||Mean Difference (Net)|-0.54|||||TWO_SIDED|95.0|-0.84|-0.24|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||-0.24|-0.84|
92198209|NCT02229227|184295288|OTHER||Mean Difference (Net)|-0.19|||||TWO_SIDED|95.0|-0.51|0.13|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 5.|Week 5||0.13|-0.51|
92198210|NCT02229227|184295288|OTHER||Mean Difference (Net)|-0.53|||||TWO_SIDED|95.0|-0.85|-0.22|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||-0.22|-0.85|
92198211|NCT02229227|184295288|SUPERIORITY||Mean Difference (Net)|-0.55||||0.0004|TWO_SIDED|95.0|-0.86|-0.25|||t-test, 2 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|Week 26||-0.25|-0.86|0.0004
92198212|NCT02229227|184295289|OTHER||Odds Ratio (OR)|0.96||||0.7026|TWO_SIDED|95.0|0.71|1.31||Non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for Baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||1.31|0.71|0.7026
92322486|NCT03307252|184549038|OTHER||Adjusted geometric mean (gMean) ratio|131.41|STANDARD_ERROR_OF_MEAN|17.9|||TWO_SIDED|90.0|115.93|148.97|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|148.97|115.93|
92322487|NCT03307252|184549038|OTHER||Adjusted gMean ratio|119.78|STANDARD_ERROR_OF_MEAN|12.1|||TWO_SIDED|90.0|110.03|130.39|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|130.39|110.03|
92322488|NCT03307252|184549038|OTHER||Adjusted gMean Ratio|108.55|STANDARD_ERROR_OF_MEAN|10.7|||TWO_SIDED|90.0|100.68|117.03|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|117.03|100.68|
92322489|NCT03307252|184549038|OTHER||Adjusted gMean Ratio|348.06|STANDARD_ERROR_OF_MEAN|21.5|||TWO_SIDED|90.0|299.64|404.31|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|404.31|299.64|
92322490|NCT03307252|184549039|OTHER||Adjusted geometric mean (gMean) ratio|125.61|STANDARD_ERROR_OF_MEAN|13.2|||TWO_SIDED|90.0|113.99|138.43|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|138.43|113.99|
92322491|NCT03307252|184549039|OTHER||Adjusted gMean ratio|101.21|STANDARD_ERROR_OF_MEAN|9.2|||TWO_SIDED|90.0|94.59|108.3|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|108.30|94.59|
92322492|NCT03307252|184549039|OTHER||Adjusted gMean Ratio|130.94|STANDARD_ERROR_OF_MEAN|13.6|||TWO_SIDED|90.0|119.82|143.1|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|143.10|119.82|
92322493|NCT03307252|184549039|OTHER||Adjusted gMean Ratio|107.42|STANDARD_ERROR_OF_MEAN|12.9|||TWO_SIDED|90.0|97.57|118.27|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|118.27|97.57|
92322494|NCT03307252|184549040|OTHER||Adjusted geometric mean (gMean) ratio|106.78|STANDARD_ERROR_OF_MEAN|15.5|||TWO_SIDED|90.0|96.51|118.15|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|118.15|96.51|
92198213|NCT02229227|184295290|OTHER||Odds Ratio (OR)|1.17||||0.2883|TWO_SIDED|95.0|0.84|1.64||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4|Week 4||1.64|0.84|0.2883
92198214|NCT02229227|184295290|OTHER||Odds Ratio (OR)|0.82||||0.3034|TWO_SIDED|95.0|0.59|1.15||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 5.|Week 5||1.15|0.59|0.3034
92198215|NCT02229227|184295290|OTHER||Odds Ratio (OR)|0.71||||0.0151|TWO_SIDED|95.0|0.52|0.98||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||0.98|0.52|0.0151
92198216|NCT02229227|184295290|OTHER||Odds Ratio (OR)|0.75||||0.0518|TWO_SIDED|95.0|0.54|1.03||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||1.03|0.54|0.0518
92322495|NCT03307252|184549040|OTHER||Adjusted gMean ratio|271.63|STANDARD_ERROR_OF_MEAN|15.9|||TWO_SIDED|90.0|246.74|299.03|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|299.03|246.74|
92322496|NCT03307252|184549040|OTHER||Adjusted gMean Ratio|100.8|STANDARD_ERROR_OF_MEAN|9.6|||TWO_SIDED|90.0|94.62|107.39|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|107.39|94.62|
92322497|NCT03307252|184549040|OTHER||Adjusted gMean Ratio|223.24|STANDARD_ERROR_OF_MEAN|13.9|||TWO_SIDED|90.0|203.79|244.55|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|244.55|203.79|
92322498|NCT03307252|184549041|OTHER||Adjusted geometric mean (gMean) ratio|121.64|STANDARD_ERROR_OF_MEAN|27.7|||TWO_SIDED|90.0|100.43|147.33|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|147.33|100.43|
92322499|NCT03307252|184549041|OTHER||Adjusted gMean ratio|95.18|STANDARD_ERROR_OF_MEAN|19.6|||TWO_SIDED|90.0|83.03|109.11|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|109.11|83.03|
92322500|NCT03307252|184549041|OTHER||Adjusted gMean Ratio|80.19|STANDARD_ERROR_OF_MEAN|13.4|||TWO_SIDED|90.0|73.01|88.08|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|88.08|73.01|
92322501|NCT03307252|184549041|OTHER||Adjusted gMean Ratio|115.39|STANDARD_ERROR_OF_MEAN|30.1|||TWO_SIDED|90.0|93.8|141.94|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|141.94|93.80|
92322502|NCT03307252|184549042|OTHER||Adjusted geometric mean (gMean) ratio|218.26|STANDARD_ERROR_OF_MEAN|27.7|||TWO_SIDED|90.0|180.19|264.36|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|264.36|180.19|
92322503|NCT03307252|184549042|OTHER||Adjusted gMean ratio|135.07|STANDARD_ERROR_OF_MEAN|19.6|||TWO_SIDED|90.0|117.83|154.84|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|154.84|117.83|
92322504|NCT03307252|184549042|OTHER||Adjusted gMean Ratio|112.31|STANDARD_ERROR_OF_MEAN|13.4|||TWO_SIDED|90.0|102.26|123.35|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|123.35|102.26|
92322505|NCT03307252|184549042|OTHER||Adjusted gMean Ratio|1125.1|STANDARD_ERROR_OF_MEAN|30.1|||TWO_SIDED|90.0|914.63|1384.0|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|1384.00|914.63|
92322506|NCT03307252|184549043|OTHER||Adjusted geometric mean (gMean) ratio|218.26|STANDARD_ERROR_OF_MEAN|27.7|||TWO_SIDED|90.0|180.19|264.36|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|264.36|180.19|
92198217|NCT02229227|184295290|OTHER||Odds Ratio (OR)|0.96||||0.7026|TWO_SIDED|95.0|0.71|1.31||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|Week 26||1.31|0.71|0.7026
92322507|NCT03307252|184549043|OTHER||Adjusted gMean ratio|104.78|STANDARD_ERROR_OF_MEAN|21.0|||TWO_SIDED|90.0|89.97|122.03|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|122.03|89.97|
92322508|NCT03307252|184549043|OTHER||Adjusted gMean Ratio|122.65|STANDARD_ERROR_OF_MEAN|20.1|||TWO_SIDED|90.0|107.68|139.69|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|139.69|107.68|
92322509|NCT03307252|184549043|OTHER||Adjusted gMean Ratio|116.88|STANDARD_ERROR_OF_MEAN|14.4|||TWO_SIDED|90.0|105.07|130.03|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|130.03|105.07|
92322510|NCT03307252|184549044|OTHER||Adjusted geometric mean (gMean) ratio|87.07|STANDARD_ERROR_OF_MEAN|20.9|||TWO_SIDED|90.0|76.08|99.64|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|99.64|76.08|
92322511|NCT03307252|184549044|OTHER||Adjusted gMean ratio|122.94|STANDARD_ERROR_OF_MEAN|18.0|||TWO_SIDED|90.0|110.25|137.09|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|137.09|110.25|
92322512|NCT03307252|184549044|OTHER||Adjusted gMean Ratio|101.35|STANDARD_ERROR_OF_MEAN|12.0|||TWO_SIDED|90.0|93.65|109.7|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|109.70|93.65|
92322513|NCT03307252|184549044|OTHER||Adjusted gMean Ratio|428.23|STANDARD_ERROR_OF_MEAN|26.8|||TWO_SIDED|90.0|359.78|509.7|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|509.70|359.78|
92322514|NCT03307252|184549045|OTHER||Adjusted gMean ratio|92.24|STANDARD_ERROR_OF_MEAN|11.2|||TWO_SIDED|90.0|85.28|99.76|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|99.76|85.28|
92322515|NCT03307252|184549045|OTHER||Adjusted gMean Ratio|83.99|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|90.0|78.32|90.08|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|90.08|78.32|
92322516|NCT03307252|184549045|OTHER||Adjusted gMean Ratio|124.06|STANDARD_ERROR_OF_MEAN|23.9|||TWO_SIDED|90.0|105.11|146.43|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|146.43|105.11|
92322517|NCT03307252|184549046|OTHER||Adjusted gMean Ratio|112.73|STANDARD_ERROR_OF_MEAN|11.2|||TWO_SIDED|90.0|104.23|121.92|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|121.92|104.23|
92198218|NCT02229227|184295291|OTHER||Odds Ratio (OR)|0.85||||0.2298|TWO_SIDED|95.0|0.63|1.17||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||1.17|0.63|0.2298
92322518|NCT03307252|184549046|OTHER||Adjusted gMean Ratio|108.56|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|90.0|101.22|116.43|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|116.43|101.22|
92322519|NCT03307252|184549046|OTHER||Adjusted gMean Ratio|340.67|STANDARD_ERROR_OF_MEAN|23.9|||TWO_SIDED|90.0|288.63|402.1|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|402.10|288.63|
92322520|NCT03307252|184549047|OTHER||Adjusted gMean ratio|100.78|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|90.0|93.59|108.51|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|108.51|93.59|
92322521|NCT03307252|184549047|OTHER||Adjusted gMean Ratio|131.37|STANDARD_ERROR_OF_MEAN|13.4|||TWO_SIDED|90.0|120.37|143.37|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|143.37|120.37|
92322522|NCT03307252|184549047|OTHER||Adjusted gMean Ratio|106.55|STANDARD_ERROR_OF_MEAN|12.8|||TWO_SIDED|90.0|96.87|117.19|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|117.19|96.87|
92322523|NCT03307252|184549048|OTHER||Adjusted gMean ratio|260.11|STANDARD_ERROR_OF_MEAN|14.7|||TWO_SIDED|90.0|237.96|284.32|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|284.32|237.96|
92322524|NCT03307252|184549048|OTHER||Adjusted gMean Ratio|101.21|STANDARD_ERROR_OF_MEAN|9.4|||TWO_SIDED|90.0|95.15|107.66|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|107.66|95.15|
92322525|NCT03307252|184549048|OTHER||Adjusted gMean Ratio|215.28|STANDARD_ERROR_OF_MEAN|13.1|||TWO_SIDED|90.0|197.53|234.63|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|234.63|197.53|
92322526|NCT01052480|184549049|SUPERIORITY_OR_OTHER|||||||0.069|||||||Log Rank|||||||0.069
92322527|NCT00529373|184549071|OTHER||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.4|0.53|||Generalized linear model|||Odanacatib 50 mg OW vs Placebo. Generalized linear model for binary data with cloglog link and terms for time interval, treatment, stratum, and geographic region. cloglog link = complementary log log transformation of probability of an event up to the time-point.||0.53|0.40|<0.001
92322528|NCT00529373|184549072|OTHER||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.39|0.71|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.71|0.39|<0.001
92322529|NCT00529373|184549073|OTHER||Hazard Ratio (HR)|0.77|||<|0.001|TWO_SIDED|95.0|0.68|0.87|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.87|0.68|<0.001
92322530|NCT00529373|184549074|OTHER||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.42|0.55|||Generalized linear model|||Odanacatib 50 mg OW vs Placebo. Generalized linear model for binary data with cloglog link and terms for time interval, treatment, stratum, and geographic region. cloglog link = complementary log log transformation of probability of an event up to the time-point.||0.55|0.42|<0.001
92322531|NCT00529373|184549075|OTHER||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.4|0.67|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.67|0.40|<0.001
92322532|NCT00529373|184549076|OTHER||Hazard Ratio (HR)|0.74|||<|0.001|TWO_SIDED|95.0|0.66|0.83|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.83|0.66|<0.001
92198219|NCT02229227|184295292|OTHER||Odds Ratio (OR)|1.32||||0.2143|TWO_SIDED|95.0|0.78|2.23||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||2.23|0.78|0.2143
92322533|NCT00529373|184549077|OTHER|Miettinen \& Nurminen|Difference in rates|0.88|||||TWO_SIDED|95.0|-2.3|4.07||||||||4.07|-2.3|
92322534|NCT00529373|184549078|OTHER|Miettinen \& Nurminen|Difference in rates|0.11|||||TWO_SIDED|95.0|-0.16|0.37||||||||0.37|-0.16|
92322535|NCT00529373|184549082|OTHER||Difference in Least Squares Means|8.92|||<|0.001|TWO_SIDED|95.0|3.9|13.93|||Longitudinal model|||Odanacatib 50 mg vs Placebo||13.93|3.9|<0.001
92322536|NCT00529373|184549083|OTHER||Difference in Least Squares Means|26.45|||<|0.001|TWO_SIDED|95.0|16.49|36.4|||Longitudinal model|||Odanacatib 50 mg vs Placebo||36.40|16.49|<0.001
92322537|NCT00529373|184549084|OTHER||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.14|0.09||||||Odanacatib 50 mg OW - Placebo at Month 12. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.09|-0.14|
92198220|NCT02229227|184295292|OTHER||Odds Ratio (OR)|1.24||||0.4703|TWO_SIDED|95.0|0.8|1.91||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 5.|Week 5||1.91|0.80|0.4703
92198221|NCT02229227|184295292|OTHER||Odds Ratio (OR)|0.81||||0.2139|TWO_SIDED|95.0|0.58|1.14||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||1.14|0.58|0.2139
92198222|NCT02229227|184295292|OTHER||Odds Ratio (OR)|0.81||||0.079|TWO_SIDED|95.0|0.59|1.11||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||1.11|0.59|0.0790
92198223|NCT02229227|184295292|OTHER||Odds Ratio (OR)|0.85||||0.2298|TWO_SIDED|95.0|0.63|1.17||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|Week 26||1.17|0.63|0.2298
92198224|NCT02229227|184295293|OTHER||Odds Ratio (OR)|1.08||||0.8292|TWO_SIDED|95.0|0.24|4.77||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||4.77|0.24|0.8292
92322538|NCT00529373|184549084|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.12|0.12||||||Odanacatib 50 mg OW - Placebo at Month 24. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.12|-0.12|
92322539|NCT00529373|184549084|OTHER||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.17|0.09||||||Odanacatib 50 mg OW - Placebo at Month 36. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.09|-0.17|
92322540|NCT00529373|184549084|OTHER||Mean Difference (Final Values)|-0.21|||||TWO_SIDED|95.0|-0.5|0.08||||||Odanacatib 50 mg OW - Placebo at Month 48. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.08|-0.50|
92322541|NCT00529373|184549085|OTHER||Difference in Least Squares Means|0.11|||||TWO_SIDED|95.0|-0.16|0.38||||||Odanacatib 50 mg OW - Placebo at Month 12. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.38|-0.16|
92322542|NCT00529373|184549085|OTHER||Difference in Least Squares Means|0.14|||||TWO_SIDED|95.0|-0.15|0.44||||||Odanacatib 50 mg OW - Placebo at Month 24. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.44|-0.15|
92198225|NCT02229227|184295295|OTHER||Mean Difference (Final Values)|-56.38|||||TWO_SIDED|95.0|-59.19|-53.57|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||-53.57|-59.19|
92198226|NCT02229227|184295295|OTHER||Mean Difference (Final Values)|-63.7|||||TWO_SIDED|95.0|-67.78|-59.62|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||-59.62|-67.78|
92322543|NCT00529373|184549085|OTHER||Difference in Least Squares Means|0.19|||||TWO_SIDED|95.0|-0.15|0.54||||||Odanacatib 50 mg OW - Placebo at Month 36. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.54|-0.15|
92322544|NCT00529373|184549085|OTHER||Difference in Least Squares Means|0.19|||||TWO_SIDED|95.0|-0.24|0.62||||||Odanacatib 50 mg OW - Placebo at Month 48. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.62|-0.24|
92322545|NCT00529373|184549086|OTHER||Difference in Least Squares Means|0.04|||||TWO_SIDED|95.0|-0.08|0.15||||||Odanacatib 50 mg OW - Placebo at Month 12. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.15|-0.08|
92198227|NCT02229227|184295295|OTHER||Mean Difference (Final Values)|-62.0|||||TWO_SIDED|95.0|-67.29|-56.7|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||-56.70|-67.29|
92322546|NCT00529373|184549086|OTHER||Difference in Least Squares Means|0.08|||||TWO_SIDED|95.0|-0.06|0.21||||||Odanacatib 50 mg OW - Placebo at Month 24. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.21|-0.06|
92198228|NCT02229227|184295296|SUPERIORITY||Mean Difference (Final Values)|-0.97|||||TWO_SIDED|95.0|-2.25|0.3|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||0.30|-2.25|
92198229|NCT02229227|184295296|OTHER||Mean Difference (Final Values)|0.34|||||TWO_SIDED|95.0|-1.64|2.33|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||2.33|-1.64|
92198230|NCT02229227|184295296|OTHER||Mean Difference (Final Values)|0.24|||||TWO_SIDED|95.0|-2.21|2.69|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||2.69|-2.21|
92322547|NCT00529373|184549086|OTHER||Difference in Least Squares Means|0.03|||||TWO_SIDED|95.0|-0.12|0.17||||||Odanacatib 50 mg OW - Placebo at Month 36. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.17|-0.12|
92322548|NCT00529373|184549086|OTHER||Difference in Least Squares Means|0.09|||||TWO_SIDED|95.0|-0.09|0.28||||||Odanacatib 50 mg OW - Placebo at Month 48. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.28|-0.09|
92322549|NCT00529373|184549087|OTHER|Miettinen \& Nurminen|Difference in rates|1.52|||||TWO_SIDED|95.0|-1.8|4.84||||||||4.84|-1.8|
92322550|NCT00529373|184549088|OTHER|Miettinen \& Nurminen|Difference in rates|0.27|||||TWO_SIDED|95.0|-0.04|0.58||||||||0.58|-0.04|
92322551|NCT00529373|184549089|OTHER||Hazard Ratio (HR)|0.28|||<|0.001|TWO_SIDED|95.0|0.19|0.4|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.40|0.19|<0.001
92322552|NCT00529373|184549090|OTHER||Difference in Least Squares Means|0.01||||0.041|TWO_SIDED|95.0|0.0|0.03|||Mixed Models Analysis|||Odanacatib 50 mg OW versus Placebo. The mixed model contained fixed effects for treatment, region, stratum, treatment-year interaction and random effect intercept and slope (year) and unstructured covariance matrix.||0.03|0.00|0.041
92322553|NCT00529373|184549091|OTHER||Odds Ratio (OR)|0.89||||0.014|TWO_SIDED|95.0|0.81|0.98|||Logistic model|||Odanacatib 50 mg OW versus Placebo. Treatment comparison for height loss at any time during the treatment period. The logistic model contained terms for treatment, geographic region and stratum.||0.98|0.81|0.014
92322554|NCT00529373|184549092|OTHER||Difference in Least Squares Means|1.32|||<|0.001|TWO_SIDED|95.0|0.9|1.75|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.75|0.90|<0.001
92322555|NCT00529373|184549092|OTHER||Difference in Least Squares Means|2.49|||<|0.001|TWO_SIDED|95.0|2.37|2.61|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.61|2.37|<0.001
92322556|NCT00529373|184549092|OTHER||Difference in Least Squares Means|4.47|||<|0.001|TWO_SIDED|95.0|4.31|4.62|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.62|4.31|<0.001
92322557|NCT00529373|184549092|OTHER||Difference in Least Squares Means|6.44|||<|0.001|TWO_SIDED|95.0|6.25|6.64|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.64|6.25|<0.001
92322558|NCT00529373|184549092|OTHER||Difference in Least Squares Means|8.62|||<|0.001|TWO_SIDED|95.0|8.11|9.12|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.12|8.11|<0.001
92198231|NCT02229227|184295296|OTHER||Mean Difference (Final Values)|0.39||||0.7699|TWO_SIDED|95.0|-2.25|3.04|||t-test, 2 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|Week 26||3.04|-2.25|0.7699
92322559|NCT00529373|184549092|OTHER||Difference in Least Squares Means|9.49|||<|0.001|TWO_SIDED|95.0|8.7|10.29|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||10.29|8.70|<0.001
92322560|NCT00529373|184549093|OTHER||Difference in Least Squares Means|2.96|||<|0.001|TWO_SIDED|95.0|2.47|3.46|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.46|2.47|<0.001
92322561|NCT00529373|184549093|OTHER||Difference in Least Squares Means|4.07|||<|0.001|TWO_SIDED|95.0|3.93|4.22|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.22|3.93|<0.001
92322562|NCT00529373|184549093|OTHER||Difference in Least Squares Means|6.05|||<|0.001|TWO_SIDED|95.0|5.87|6.23|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.23|5.87|<0.001
92322563|NCT00529373|184549093|OTHER||Difference in Least Squares Means|7.84|||<|0.001|TWO_SIDED|95.0|7.62|8.06|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||8.06|7.62|<0.001
92322564|NCT00529373|184549093|OTHER||Difference in Least Squares Means|9.72|||<|0.001|TWO_SIDED|95.0|9.16|10.27|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||10.27|9.16|<0.001
92322565|NCT00529373|184549093|OTHER||Difference in Least Squares Means|11.23|||<|0.001|TWO_SIDED|95.0|10.23|12.23|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||12.23|10.23|<0.001
92322566|NCT00529373|184549094|OTHER||Difference in Least Squares Means|1.49|||<|0.001|TWO_SIDED|95.0|0.95|2.03|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.03|0.95|<0.001
92198232|NCT02229227|184295297|OTHER||Mean Difference (Final Values)|-56.05|||||TWO_SIDED|95.0|-58.17|-53.94|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||-53.94|-58.17|
92198233|NCT02229227|184295297|OTHER||Mean Difference (Final Values)|-64.76|||||TWO_SIDED|95.0|-67.68|-61.85|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||-61.85|-67.68|
92322567|NCT00529373|184549094|OTHER||Difference in Least Squares Means|2.21|||<|0.001|TWO_SIDED|95.0|2.05|2.37|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.37|2.05|<0.001
92322568|NCT00529373|184549094|OTHER||Difference in Least Squares Means|4.38|||<|0.001|TWO_SIDED|95.0|4.19|4.57|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.57|4.19|<0.001
92322569|NCT00529373|184549094|OTHER||Difference in Least Squares Means|6.46|||<|0.001|TWO_SIDED|95.0|6.24|6.68|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.68|6.24|<0.001
92322570|NCT00529373|184549094|OTHER||Difference in Least Squares Means|8.42|||<|0.001|TWO_SIDED|95.0|7.82|9.02|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.02|7.82|<0.001
92322571|NCT00529373|184549094|OTHER||Difference in Least Squares Means|8.53|||<|0.001|TWO_SIDED|95.0|7.54|9.53|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.53|7.54|<0.001
92322572|NCT00529373|184549095|OTHER||Difference in Least Squares Means|1.74|||<|0.001|TWO_SIDED|95.0|1.03|2.46|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.46|1.03|<0.001
92322573|NCT00529373|184549095|OTHER||Difference in Least Squares Means|3.5|||<|0.001|TWO_SIDED|95.0|3.31|3.7|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.70|3.31|<0.001
92322574|NCT00529373|184549095|OTHER||Difference in Least Squares Means|6.41|||<|0.001|TWO_SIDED|95.0|6.17|6.65|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 24||6.65|6.17|<0.001
92322575|NCT00529373|184549095|OTHER||Difference in Least Squares Means|9.27|||<|0.001|TWO_SIDED|95.0|8.98|9.57|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 36||9.57|8.98|<0.001
92322576|NCT00529373|184549095|OTHER||Difference in Least Squares Means|12.44|||<|0.001|TWO_SIDED|95.0|11.66|13.22|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 48||13.22|11.66|<0.001
92322577|NCT00529373|184549095|OTHER||Difference in Least Squares Means|13.81|||<|0.001|TWO_SIDED|95.0|12.58|15.04|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 60||15.04|12.58|<0.001
92322578|NCT00529373|184549096|OTHER||Difference in Least Squares Means|1.11|||<|0.001|TWO_SIDED|95.0|0.67|1.55|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.55|0.67|<0.001
92322579|NCT00529373|184549096|OTHER||Difference in Least Squares Means|1.35|||<|0.001|TWO_SIDED|95.0|0.85|1.84|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.84|0.85|<0.001
92322580|NCT00529373|184549096|OTHER||Difference in Least Squares Means|1.93|||<|0.001|TWO_SIDED|95.0|1.38|2.47|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.47|1.38|<0.001
92322581|NCT00529373|184549096|OTHER||Difference in Least Squares Means|2.2||||0.001|TWO_SIDED|95.0|0.89|3.51|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.51|0.89|0.001
92322582|NCT00529373|184549096|OTHER||Difference in Least Squares Means|3.5||||0.001|TWO_SIDED|95.0|1.46|5.54|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||5.54|1.46|0.001
92322583|NCT00529373|184549097|OTHER||Difference in Least Squares Means|5.79|||<|0.001|TWO_SIDED|95.0|5.37|6.2|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.2|5.37|<0.001
92322584|NCT00529373|184549097|OTHER||Difference in Least Squares Means|4.02|||<|0.001|TWO_SIDED|95.0|3.67|4.37|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.37|3.67|<0.001
92322585|NCT00529373|184549097|OTHER||Difference in Least Squares Means|7.62|||<|0.001|TWO_SIDED|95.0|7.11|8.13|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||8.13|7.11|<0.001
92198234|NCT02229227|184295297|OTHER||Mean Difference (Final Values)|-62.92|||||TWO_SIDED|95.0|-66.69|-59.15|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||-59.15|-66.69|
92322586|NCT00529373|184549097|OTHER||Difference in Least Squares Means|9.51|||<|0.001|TWO_SIDED|95.0|7.96|11.06|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||11.06|7.96|<0.001
92322587|NCT00529373|184549098|OTHER||Difference in Least Squares Means|2.4|||<|0.001|TWO_SIDED|95.0|2.11|2.68|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.68|2.11|<0.001
92322588|NCT00529373|184549098|OTHER||Difference in Least Squares Means|4.21|||<|0.001|TWO_SIDED|95.0|3.84|4.57|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.57|3.84|<0.001
92322589|NCT00529373|184549098|OTHER||Difference in Least Squares Means|5.86|||<|0.001|TWO_SIDED|95.0|5.41|6.3|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.30|5.41|<0.001
92322590|NCT00529373|184549098|OTHER||Difference in Least Squares Means|8.54|||<|0.001|TWO_SIDED|95.0|7.0|10.09|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||10.09|7.00|<0.001
92322591|NCT00529373|184549099|OTHER||Difference in Least Squares Means|2.21|||<|0.001|TWO_SIDED|95.0|1.83|2.59|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.59|1.83|<0.001
92322592|NCT00529373|184549099|OTHER||Difference in Least Squares Means|4.33|||<|0.001|TWO_SIDED|95.0|3.87|4.78|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.78|3.87|<0.001
92322593|NCT00529373|184549099|OTHER||Difference in Least Squares Means|6.09|||<|0.001|TWO_SIDED|95.0|5.56|6.62|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.62|5.56|<0.001
92322594|NCT00529373|184549099|OTHER||Difference in Least Squares Means|9.08|||<|0.001|TWO_SIDED|95.0|6.97|11.19|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||11.19|6.97|<0.001
92322595|NCT00529373|184549100|OTHER||Difference in Least Squares Means|3.44|||<|0.001|TWO_SIDED|95.0|2.98|3.9|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 12||3.90|2.98|<0.001
92322596|NCT00529373|184549100|OTHER||Difference in Least Squares Means|6.03|||<|0.001|TWO_SIDED|95.0|5.47|6.59|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.59|5.47|<0.001
92322597|NCT00529373|184549100|OTHER||Difference in Least Squares Means|8.49|||<|0.001|TWO_SIDED|95.0|7.81|9.16|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.16|7.81|<0.001
92322598|NCT00529373|184549100|OTHER||Difference in Least Squares Means|11.76|||<|0.001|TWO_SIDED|95.0|9.15|14.36|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||14.36|9.15|<0.001
92322599|NCT00529373|184549101|OTHER||Difference in Least Squares Means|1.08||||0.083|TWO_SIDED|95.0|-0.14|2.31|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.31|-0.14|0.083
92322600|NCT00529373|184549101|OTHER||Difference in Least Squares Means|1.05||||0.129|TWO_SIDED|95.0|-0.31|2.4|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.40|-0.31|0.129
92322601|NCT00529373|184549101|OTHER||Difference in Least Squares Means|1.21||||0.104|TWO_SIDED|95.0|-0.25|2.67|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.67|-0.25|0.104
92322602|NCT00529373|184549101|OTHER||Difference in Least Squares Means|1.55||||0.617|TWO_SIDED|95.0|-4.92|8.02|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||8.02|-4.92|0.617
92322603|NCT00529373|184549102|OTHER||Difference in Least Squares Means|-58.99|||<|0.001|TWO_SIDED|95.0|-64.68|-53.3|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6.||-53.30|-64.68|<0.001
92322604|NCT00529373|184549102|OTHER||Difference in Least Squares Means|-60.01|||<|0.001|TWO_SIDED|95.0|-66.4|-53.61|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12.||-53.61|-66.40|<0.001
92322605|NCT00529373|184549102|OTHER||Difference in Least Squares Means|-46.7|||<|0.001|TWO_SIDED|95.0|-53.23|-40.17|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24.||-40.17|-53.23|<0.001
92322606|NCT00529373|184549102|OTHER||Difference in Least Squares Means|-44.67||||0.05|TWO_SIDED|95.0|-52.62|-36.72|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36.||-36.72|-52.62|0.050
92322607|NCT00529373|184549102|OTHER||Difference in Least Squares Means|-18.73||||0.05|TWO_SIDED|95.0|-37.44|-0.01|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48.||-0.01|-37.44|0.050
92198235|NCT02229227|184295297|SUPERIORITY||Mean Difference (Final Values)|-61.83|||<|0.0001|TWO_SIDED|95.0|-65.85|-57.81|||t-test, 2 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|week 26||-57.81|-65.85|<0.0001
92322608|NCT00529373|184549103|OTHER||Difference in Least Squares Means|-51.7|||<|0.001|TWO_SIDED|95.0|-56.11|-47.28|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6.||-47.28|-56.11|<0.001
92322609|NCT00529373|184549103|OTHER||Difference in Least Squares Means|-53.59|||<|0.001|TWO_SIDED|95.0|-58.39|-48.79|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12.||-48.79|-58.39|<0.001
92322610|NCT00529373|184549103|OTHER||Difference in Least Squares Means|-56.68|||<|0.001|TWO_SIDED|95.0|-62.52|-50.84|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24.||-50.84|-62.52|<0.001
92322611|NCT00529373|184549103|OTHER||Difference in Least Squares Means|-59.14|||<|0.001|TWO_SIDED|95.0|-66.04|-52.23|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36.||-52.23|-66.04|<0.001
92322612|NCT00529373|184549103|OTHER||Difference in Least Squares Means|-44.54|||<|0.001|TWO_SIDED|95.0|-61.72|-27.36|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48.||-27.36|-61.72|<0.001
92322613|NCT00529373|184549104|OTHER||Mean Difference (Final Values)|-14.13|||<|0.001|TWO_SIDED|95.0|-17.0|-11.27|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-11.27|-17.00|<0.001
92322614|NCT00529373|184549104|OTHER||Mean Difference (Final Values)|-12.01|||<|0.001|TWO_SIDED|95.0|-15.22|-8.79|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-8.79|-15.22|<0.001
92322615|NCT00529373|184549104|OTHER||Mean Difference (Final Values)|-9.29|||<|0.001|TWO_SIDED|95.0|-13.45|-5.13|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-5.13|-13.45|<0.001
92322616|NCT00529373|184549104|OTHER||Mean Difference (Final Values)|-7.64|||<|0.001|TWO_SIDED|95.0|-11.87|-3.41|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-3.41|-11.87|<0.001
92322617|NCT00529373|184549104|OTHER||Mean Difference (Final Values)|-0.77||||0.896|TWO_SIDED|95.0|-12.34|10.79|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||10.79|-12.34|0.896
92198236|NCT02229227|184295299|OTHER||Odds Ratio (OR)|3.5|||<|0.0001|TWO_SIDED|95.0|2.52|4.86||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||4.86|2.52|<0.0001
92322618|NCT00529373|184549105|OTHER||Mean Difference (Final Values)|-29.43|||<|0.001|TWO_SIDED|95.0|-33.47|-25.39|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-25.39|-33.47|<0.001
92198237|NCT02229227|184295300|OTHER||Odds Ratio (OR)|2.36|||<|0.0001|TWO_SIDED|95.0|1.54|3.6||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||3.60|1.54|<0.0001
92322619|NCT00529373|184549105|OTHER||Mean Difference (Final Values)|-25.94|||<|0.001|TWO_SIDED|95.0|-30.54|-21.34|||Longitudinal|||Odanacatib 50 mg OW - Placebo at Month 12. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-21.34|-30.54|<0.001
92322620|NCT00529373|184549105|OTHER||Mean Difference (Final Values)|-16.26|||<|0.001|TWO_SIDED|95.0|-21.41|-11.12|||Longitudinal|||Odanacatib 50 mg OW - Placebo at Month 24. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-11.12|-21.41|<0.001
92322621|NCT00529373|184549105|OTHER||Mean Difference (Final Values)|-12.11|||<|0.001|TWO_SIDED|95.0|-18.03|-6.19|||Longitudinal|||Odanacatib 50 mg OW - Placebo at Month 36. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-6.19|-18.03|<0.001
92322622|NCT00529373|184549105|OTHER||Mean Difference (Final Values)|-3.34||||0.61|TWO_SIDED|95.0|-16.12|9.45|||Longitudinal|||Odanacatib 50 mg OW - Placebo at Month 48. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||9.45|-16.12|0.610
92322623|NCT00529373|184549106|OTHER||Hazard Ratio (HR)|1.12||||0.182|TWO_SIDED|95.0|0.95|1.34|||Regression, Cox|No adjustments for multiplicity were applied; p-value is unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.34|0.95|0.182
92322624|NCT00529373|184549107|OTHER||Hazard Ratio (HR)|1.18||||0.235|TWO_SIDED|95.0|0.9|1.55|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.55|0.9|0.235
92322625|NCT00529373|184549108|OTHER||Hazard Ratio (HR)|1.12||||0.127|TWO_SIDED|95.0|0.97|1.29|||Regression, Cox|No adjustments for multiplicity were applied; p-value is unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.29|0.97|0.127
92322626|NCT00529373|184549109|OTHER||Hazard Ratio (HR)|1.06||||0.857|TWO_SIDED|95.0|0.59|1.89|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.89|0.59|0.857
92322627|NCT00529373|184549110|OTHER||Hazard Ratio (HR)|1.1||||0.606|TWO_SIDED|95.0|0.76|1.59|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.59|0.76|0.606
92198238|NCT02229227|184295301|OTHER||Odds Ratio (OR)|3.78|||<|0.0001|TWO_SIDED|95.0|2.21|6.48||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||6.48|2.21|<0.0001
92198239|NCT01453023|184295333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2|||||TWO_SIDED|95.0|-8.8|0.4|||||Day 1 HR. The estimated value represents the treatment difference: FF/VI 100/25 µg minus FF 100 µg.|||0.4|-8.8|
92198240|NCT01453023|184295333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7|||||TWO_SIDED|95.0|-1.1|8.5|||||Day 14 HR. The estimated value represents the treatment difference: FF/VI 100/25 µg minus FF 100 µg.|||8.5|-1.1|
92198241|NCT01453023|184295334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|-4.4|6.7|||||Day 1 QTcF. The estimated value represents the treatment difference: FF/VI 100/25 µg minus FF 100 µg.|||6.7|-4.4|
92198242|NCT01453023|184295334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-6.0|5.5|||||Day 14 QTcF. The estimated value represents the treatment difference: FF/VI 100/25 µg minus FF 100 µg.|||5.5|-6.0|
92198243|NCT02869867|184295356|SUPERIORITY||Mean Difference (Final Values)|3.2|||<|0.001|TWO_SIDED|95.0|2.09|4.31|||Mixed Models Analysis|||||4.31|2.09|<0.001
92198244|NCT00820664|184295390|SUPERIORITY_OR_OTHER||Least Squares Mean|0.49|||<|0.001||95.0|0.31|1.0||1-sided, alpha=0.05|ANOVA|A one-way ANOVA model with term treatment was fit to the square root transformed response.||||1.00|0.31|<0.001
92198245|NCT00820664|184295390|SUPERIORITY_OR_OTHER||Least Squares Mean|0.19||||0.032||95.0|0.02|1.0||1-sided, alpha=0.05|ANOVA|A one-way ANOVA model with term treatment was fit to the square root transformed response.||||1.00|0.02|0.032
92198246|NCT01667549|184295428|OTHER|Repeated Measures ANOVA were done with type of cereal as within-subjects and experimental group as grouping factors. When significant, planned comparisons were carried out. ANOVAs with a priori contrasts specified determined whether 1-month exposure differed from the no-exposure control (timing hypothesis). ANOVAs with a priori contrasts specified determined whether 1-month differed from 3-months exposure and whether these groups differed from no-exposure control (duration hypothesis).||||||0.02||||||Bonferroni adjustment was made and only planned pairwise comparisons with calculated p values of 0.02 or lower significant.|planned comparison|Bonferroni adjustment was calculated and only planned pair-wise comparisons with calculated p value 0.02 or lower were considered significant.||Separate analyses of variance with a priori contrasts specified were conducted: 1) to determine whether the 1-month exposure groups (1M0.5, 1M1.5, and 1M2.5) differed from the no-exposure control group to test the hypothesis that the timing of exposure affected acceptance; and 2) to determine whether 1 month of exposure differed from 3 months (1M0.5, 3M0.5 groups) and whether these groups differed from the no-exposure control group (duration hypothesis).||||0.02
92198247|NCT01667549|184295429|OTHER||||||<|0.02|||||||ANOVA|||Repeated measures ANOVAs were conducted on maternal gLMS ratings with type of juice and time as the within-subject factors and experimental group as the grouping factor||||<0.02
92198248|NCT01667549|184295430|OTHER|Repeated Measures ANOVA were done with type of cereal as within-subjects and experimental group as grouping factors. When significant, planned comparisons were carried out. ANOVAs with a priori contrasts specified determined whether 1-month exposure differed from the no-exposure control (timing hypothesis). ANOVAs with a priori contrasts specified determined whether 1-month differed from 3-months exposure and whether these groups differed from no-exposure control (duration hypothesis).|||||<|0.02||||||Because three comparisons were made for each outcome measure, a Bonferroni adjustment was calculated and only planned comparison with P's\<0.02 were considered significant.|planned comparison|a Bonferroni adjustment was calculated and only planned comparison with P's\<0.02 were considered significant.||Separate analyses of variance with a priori contrasts specified were conducted: 1) to determine whether the 1-month exposure groups (1M0.5, 1M1.5, and 1M2.5) differed from the no-exposure control group to test the hypothesis that the timing of exposure affected acceptance; and 2) to determine whether 1 month of exposure differed from 3 months (1M0.5, 3M0.5 groups) and whether these groups differed from the no-exposure control group (duration hypothesis).||||<0.02
92198249|NCT01667549|184295431|OTHER||||||<|0.02||||||Because three comparisons were made for each outcome measure, a Bonferroni adjustment was calculated and only planned comparison with P\<0.02 were considered significant.|planned comparison|A Bonferroni adjustment was calculated and only planned comparison with P's\<0.02 were considered significant.||Separate analyses of variance with a priori contrasts specified 1) to determine whether the 1-month exposure groups (1M0.5, 1M1.5, and 1M2.5) differed from the no-exposure control group to test the hypothesis that the timing of exposure affected acceptance; and 2) to determine whether 1 month of exposure differed from 3 months (1M0.5, 3M0.5 groups) and whether these groups differed from the no-exposure control group (duration hypothesis).||||<0.02
92198250|NCT01667549|184295432|OTHER||||||<|0.05|||||||ANOVA|||General linear models were conducted on WLZ scores with time as the within-subjects factor and Group as the between-subjects factor to determine there were differences in growth of the infants over time. This was not done to test hypothesis but to monitor growth of infants during course of trial.||||<0.05
92198251|NCT01407276|184295433|SUPERIORITY_OR_OTHER||GMR|0.94|||||TWO_SIDED|90.0|0.8|1.11|||Geometric mean ratio (GMR)|GMR of Panel A:Panel B||||1.11|0.80|
92198252|NCT01407276|184295433|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|1.34|||||TWO_SIDED|90.0|1.12|1.61|||GMR of Panel C:Panel D|||||1.61|1.12|
92198253|NCT01407276|184295433|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|1.56|||||TWO_SIDED|90.0|1.32|1.85|||GMR of Panel E:Panel F|||||1.85|1.32|
92198254|NCT01407276|184295433|SUPERIORITY_OR_OTHER||GMR or Panel G:Panel H|1.89|||||TWO_SIDED|90.0|1.4|2.55|||GMR of Panel G:Panel H|||||2.55|1.40|
92198255|NCT01407276|184295433|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|1.97|||||TWO_SIDED|90.0|1.46|2.66|||GMR of Panel G:Panel H|||||2.66|1.46|
92198256|NCT01407276|184295434|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.94|||||TWO_SIDED|90.0|0.79|1.12|||GMR of Panel A:Panel B|||||1.12|0.79|
92198257|NCT01407276|184295434|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|1.13|||||TWO_SIDED|90.0|0.91|1.41|||GMR of Panel C:Panel D|||||1.41|0.91|
92198258|NCT01407276|184295434|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.9|||||TWO_SIDED|90.0|0.66|1.23|||GMR of Panel E:Panel F|||||1.23|0.66|
92198259|NCT01407276|184295434|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.74|||||TWO_SIDED|90.0|0.57|0.96|||GMR of Panel E:Panel F|||||0.96|0.57|
92198260|NCT01407276|184295434|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.73|||||TWO_SIDED|90.0|0.56|0.95|||GMR of Panel E:Panel F|||||0.95|0.56|
92198261|NCT01407276|184295435|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.92|||||TWO_SIDED|90.0|0.81|1.05|||GMR of Panel A:Panel B|||||1.05|0.81|
92198262|NCT01407276|184295435|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|1.33||||||90.0|1.07|1.65|||GMR of Panel C:Panel D|||||1.65|1.07|
92198263|NCT01407276|184295435|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|1.37|||||TWO_SIDED|90.0|1.13|1.65|||GMR of Panel E:Panel F|||||1.65|1.13|
92198264|NCT01407276|184295435|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|1.38|||||TWO_SIDED|90.0|1.06|1.79|||GMR of Panel G:Panel H|||||1.79|1.06|
92198265|NCT01407276|184295435|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|1.3|||||TWO_SIDED|90.0|1.0|1.68|||GMR of Panel G:Panel H|||||1.68|1.00|
92198266|NCT01407276|184295436|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.92|||||TWO_SIDED|90.0|0.75|1.12|||GMR of Panel A:Panel B|||||1.12|0.75|
92198267|NCT01407276|184295436|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|1.45|||||TWO_SIDED|90.0|1.19|1.76|||GMR of Panel C:Panel D|||||1.76|1.19|
92198268|NCT01407276|184295436|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|1.83|||||TWO_SIDED|90.0|1.49|2.24|||GMR of Panel E:Panel F|||||2.24|1.49|
92198269|NCT01407276|184295436|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|1.9|||||TWO_SIDED|90.0|1.41|2.54|||GMR of Panel G:Panel H|||||2.54|1.41|
92198270|NCT01407276|184295436|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|1.88|||||TWO_SIDED|90.0|1.4|2.52|||GMR of Panel G:Panel H|||||2.52|1.40|
92322628|NCT00529373|184549111|OTHER||Hazard Ratio (HR)|1.25||||0.074|TWO_SIDED|95.0|0.98|1.6|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.6|0.98|0.074
92198271|NCT01407276|184295437|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|1.11|||||TWO_SIDED|90.0|0.87|1.42|||GMR of Panel A:Panel B|||||1.42|0.87|
92198272|NCT01407276|184295437|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|0.75|||||TWO_SIDED|90.0|0.53|1.07|||GMR of Panel C:Panel D|||||1.07|0.53|
92198273|NCT01407276|184295437|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.68|||||TWO_SIDED|90.0|0.51|0.92|||GMR of Panel E:Panel F|||||0.92|0.51|
92198274|NCT01407276|184295437|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|0.7|||||TWO_SIDED|90.0|0.5|0.98|||GMR of Panel G:Panel H|||||0.98|0.50|
92198275|NCT01407276|184295437|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|0.8|||||TWO_SIDED|90.0|0.57|1.12|||GMR of Panel G:Panel H|||||1.12|0.57|
92198276|NCT01407276|184295438|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|1.06|||||TWO_SIDED|90.0|0.9|1.25|||GMR of Panel A:Panel B|||||1.25|0.90|
92198277|NCT01407276|184295438|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|0.75|||||TWO_SIDED|90.0|0.62|0.89|||GMR of Panel C:Panel D|||||0.89|0.62|
92198278|NCT01407276|184295438|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.64|||||TWO_SIDED|90.0|0.54|0.76|||GMR of Panel E:Panel F|||||0.76|0.54|
92198279|NCT01407276|184295438|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|0.53|||||TWO_SIDED|90.0|0.39|0.71|||GMR of Panel G:Panel H|||||0.71|0.39|
92198280|NCT01407276|184295438|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|0.51|||||TWO_SIDED|90.0|0.38|0.68|||GMR of Panel G:Panel H|||||0.68|0.38|
92198281|NCT01407276|184295439|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.93|||||TWO_SIDED|90.0|0.74|1.18|||GMR of Panel A:Panel B|||||1.18|0.74|
92198282|NCT01407276|184295439|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|0.73|||||TWO_SIDED|90.0|0.55|0.96|||GMR of Panel C:Panel D|||||0.96|0.55|
92198283|NCT01407276|184295439|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.42|||||TWO_SIDED|90.0|0.33|0.54|||GMR of Panel E:Panel F|||||0.54|0.33|
92198284|NCT01407276|184295440|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.86|||||TWO_SIDED|90.0|0.69|1.07|||GMR of Panel A:Panel B|||||1.07|0.69|
92198285|NCT01407276|184295440|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|0.9|||||TWO_SIDED|90.0|0.7|1.15|||GMR of Panel C:Panel D|||||1.15|0.70|
92198286|NCT01407276|184295440|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.5|||||TWO_SIDED|90.0|0.37|0.67|||GMR of Panel E:Panel F|||||0.67|0.37|
92198287|NCT01407276|184295441|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.86|||||TWO_SIDED|90.0|0.69|1.07|||GMR of Panel A:Panel B|||||1.07|0.69|
92198288|NCT01407276|184295441|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|0.9|||||TWO_SIDED|90.0|0.7|1.15|||GMR of Panel C:Panel D|||||1.15|0.70|
92198289|NCT01407276|184295441|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.5|||||TWO_SIDED|90.0|0.37|0.67|||GMR of Panel E:Panel F|||||0.67|0.37|
92198290|NCT02844777|184295460|OTHER|||||||0.9518|||||||ANCOVA|||||||0.9518
92198291|NCT02844777|184295460|OTHER|||||||0.2458|||||||ANCOVA|||||||0.2458
92198292|NCT02844777|184295461|OTHER|||||||0.6201|||||||Fisher Exact|||||||0.6201
92198293|NCT02844777|184295461|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92198294|NCT02844777|184295462|OTHER|||||||0.2912|||||||ANCOVA|||||||0.2912
92198295|NCT02844777|184295462|OTHER|||||||0.4168|||||||ANCOVA|||||||0.4168
92198296|NCT02844777|184295463|OTHER|||||||0.6458|||||||ANCOVA|||||||0.6458
92198297|NCT02844777|184295463|OTHER|||||||0.0721|||||||ANCOVA|||||||0.0721
92198298|NCT02844777|184295464|OTHER|||||||0.42|||||||ANCOVA|||||||0.4200
92198299|NCT02844777|184295464|OTHER|||||||0.0241|||||||ANCOVA|||||||0.0241
92198300|NCT00150618|184295474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0041||95.0|||||ANCOVA|||||||0.0041
92198301|NCT00150618|184295474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0176||95.0|||||ANCOVA|||||||0.0176
92198302|NCT00150618|184295474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0|||||ANCOVA|||||||0.0016
92198303|NCT00150618|184295474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006||95.0|||||ANCOVA|||||||0.0006
92198304|NCT00150618|184295475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||ANCOVA|||||||0.0010
92198305|NCT00150618|184295475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0468||95.0|||||ANCOVA|||||||0.0468
92198306|NCT00150618|184295475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||95.0|||||ANCOVA|||||||0.0056
92198307|NCT00150618|184295475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0237||95.0|||||ANCOVA|||||||0.0237
92198308|NCT00150618|184295476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0074||95.0|||||Cochran-Mantel-Haenszel|||||||0.0074
92198309|NCT00150618|184295476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1404||95.0|||||Cochran-Mantel-Haenszel|||||||0.1404
92322629|NCT00529373|184549112|OTHER||Hazard Ratio (HR)|1.12||||0.127|TWO_SIDED|95.0|0.97|1.29|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.29|0.97|0.127
92322630|NCT00529373|184549113|OTHER||Hazard Ratio (HR)|1.16||||0.277|TWO_SIDED|95.0|0.89|1.52|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.52|0.89|0.277
92198310|NCT00150618|184295476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0055||95.0|||||Cochran-Mantel-Haenszel|||||||0.0055
92322631|NCT00529373|184549114|OTHER||Hazard Ratio (HR)|0.82||||0.256|TWO_SIDED|95.0|0.58|1.15|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.15|0.58|0.256
92322632|NCT00529373|184549115|OTHER||Hazard Ratio (HR)|0.86||||0.794|TWO_SIDED|95.0|0.29|2.57|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||2.57|0.29|0.794
92322633|NCT00529373|184549116|OTHER||Hazard Ratio (HR)|1.32||||0.034|TWO_SIDED|95.0|1.02|1.7|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.7|1.02|0.034
92322634|NCT00529373|184549117|OTHER||Hazard Ratio (HR)|1.91||||0.081|TWO_SIDED|95.0|0.93|3.97|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||3.97|0.93|0.081
92322635|NCT00529373|184549118|OTHER||Difference in Least Squares Means|1.47|||<|0.001|TWO_SIDED|95.0|0.92|2.01|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.01|0.92|<0.001
92322636|NCT00529373|184549118|OTHER||Difference in Least Squares Means|2.21|||<|0.001|TWO_SIDED|95.0|2.05|2.37|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.37|2.05|<0.001
92322637|NCT00529373|184549118|OTHER||Difference in Least Squares Means|4.39|||<|0.001|TWO_SIDED|95.0|4.2|4.57|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.57|4.20|<0.001
92322638|NCT00529373|184549118|OTHER||Difference in Least Squares Means|6.5|||<|0.001|TWO_SIDED|95.0|6.28|6.72|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.72|6.28|<0.001
92198311|NCT00150618|184295476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0041||95.0|||||Cochran-Mantel-Haenszel|||||||0.0041
92198312|NCT00150618|184295477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0303||95.0|||||Cochran-Mantel-Haenszel|||||||0.0303
92198313|NCT00150618|184295477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4982||95.0|||||Cochran-Mantel-Haenszel|||||||0.4982
92322639|NCT00529373|184549118|OTHER||Difference in Least Squares Means|8.29|||<|0.001|TWO_SIDED|95.0|8.02|8.57|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||8.57|8.02|<0.001
92322640|NCT00529373|184549118|OTHER||Difference in Least Squares Means|10.05|||<|0.001|TWO_SIDED|95.0|9.72|10.38|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||10.38|9.72|<0.001
92322641|NCT00529373|184549119|OTHER||Difference in Least Squares Means|1.1|||<|0.001|TWO_SIDED|95.0|0.66|1.54|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.54|0.66|<0.001
92322642|NCT00529373|184549119|OTHER||Difference in Least Squares Means|1.36|||<|0.001|TWO_SIDED|95.0|0.87|1.85|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.85|0.87|<0.001
92322643|NCT00529373|184549119|OTHER||Difference in Least Squares Means|1.96|||<|0.001|TWO_SIDED|95.0|1.42|2.5|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.50|1.42|<0.001
92322644|NCT00529373|184549119|OTHER||Difference in Least Squares Means|2.18|||<|0.001|TWO_SIDED|95.0|1.4|2.96|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.96|1.40|<0.001
92322645|NCT00529373|184549119|OTHER||Difference in Least Squares Means|2.33||||0.001|TWO_SIDED|95.0|1.54|3.11|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.11|1.54|0.001
92322646|NCT00529373|184549120|OTHER||Hazard Ratio (HR)|0.33|||<|0.001|TWO_SIDED|95.0|0.24|0.45|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. the Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.45|0.24|<0.001
92322647|NCT00529373|184549121|OTHER||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|95.0|0.6|0.75|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.75|0.60|<0.001
92322648|NCT00529373|184549122|OTHER||Difference in Least Squares Means|1.34|||<|0.001|TWO_SIDED|95.0|0.94|1.74|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.74|0.94|<0.001
92322649|NCT00529373|184549122|OTHER||Difference in Least Squares Means|2.5|||<|0.001|TWO_SIDED|95.0|2.38|2.62|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.62|2.38|<0.001
92322650|NCT00529373|184549122|OTHER||Difference in Least Squares Means|4.47|||<|0.001|TWO_SIDED|95.0|4.31|4.62|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.62|4.31|<0.001
92198314|NCT00150618|184295477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0|||||Cochran-Mantel-Haenszel|||||||0.0017
92198315|NCT00150618|184295477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0063||95.0|||||Cochran-Mantel-Haenszel|||||||0.0063
92198316|NCT00150618|184295478|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0383||95.0|||||ANCOVA|||Psychosocial category||||0.0383
92198317|NCT00150618|184295478|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5859||95.0|||||ANCOVA|||Psychosocial category||||0.5859
92198318|NCT00150618|184295478|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2136||95.0|||||ANCOVA|||Psychosocial category||||0.2136
92198319|NCT00150618|184295478|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1483||95.0|||||ANCOVA|||Psychosocial category||||0.1483
92198320|NCT04092452|184295479|SUPERIORITY||Risk Difference (RD)|0.7|STANDARD_ERROR_OF_MEAN|9.69||0.4696|TWO_SIDED|90.0|-15.2|16.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||The null hypothesis for primary efficacy analysis was that the percentage of participants achieving HiSCR response at Week 16 was the same for the active treatment (PF-06650833, PF-06700841 or PF-06826647) and placebo. The treatment was considered superior to control if the difference was statistically significant at the overall 1-sided 0.1 level.||16.7|-15.2|0.4696
92198321|NCT04092452|184295479|SUPERIORITY||Risk Difference (RD)|18.7|STANDARD_ERROR_OF_MEAN|9.71||0.0298|TWO_SIDED|90.0|2.7|34.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||The null hypothesis for primary efficacy analysis was that the percentage of participants achieving HiSCR response at Week 16 was the same for the active treatment (PF-06650833, PF-06700841 or PF-06826647) and placebo. The treatment was considered superior to control if the difference was statistically significant at the overall 1-sided 0.1 level.||34.6|2.7|0.0298
92198322|NCT04092452|184295479|SUPERIORITY||Risk Difference (RD)|3.5|STANDARD_ERROR_OF_MEAN|9.79||0.3606|TWO_SIDED|90.0|-12.6|19.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||The null hypothesis for primary efficacy analysis was that the percentage of participants achieving HiSCR response at Week 16 was the same for the active treatment (PF-06650833, PF-06700841 or PF-06826647) and placebo. The treatment was considered superior to control if the difference was statistically significant at the overall 1-sided 0.1 level.||19.6|-12.6|0.3606
92198323|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|-3.8|STANDARD_ERROR_OF_MEAN|7.19|||TWO_SIDED|90.0|-15.6|8.0||||||Week 1||8.0|-15.6|
92198324|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|-0.9|STANDARD_ERROR_OF_MEAN|7.28|||TWO_SIDED|90.0|-12.9|11.1||||||Week 1||11.1|-12.9|
92198325|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|4.6|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|90.0|-8.5|17.8||||||Week 1||17.8|-8.5|
92198326|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|7.9|STANDARD_ERROR_OF_MEAN|9.02|||TWO_SIDED|90.0|-6.9|22.8||||||Week 2||22.8|-6.9|
92198327|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|7.5|STANDARD_ERROR_OF_MEAN|8.91|||TWO_SIDED|90.0|-7.1|22.2||||||Week 2||22.2|-7.1|
92198328|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|3.5|STANDARD_ERROR_OF_MEAN|9.0|||TWO_SIDED|90.0|-11.3|18.3||||||Week 2||18.3|-11.3|
92198329|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|9.0|STANDARD_ERROR_OF_MEAN|9.79|||TWO_SIDED|90.0|-7.1|25.1||||||Week 4||25.1|-7.1|
92198330|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|7.7|STANDARD_ERROR_OF_MEAN|9.57|||TWO_SIDED|90.0|-8.0|23.5||||||Week 4||23.5|-8.0|
92198331|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|-4.0|STANDARD_ERROR_OF_MEAN|9.37|||TWO_SIDED|90.0|-19.4|11.4||||||Week 4||11.4|-19.4|
92198332|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|0.8|STANDARD_ERROR_OF_MEAN|9.96|||TWO_SIDED|90.0|-15.6|17.2||||||Week 6||17.2|-15.6|
92198333|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|6.7|STANDARD_ERROR_OF_MEAN|9.81|||TWO_SIDED|90.0|-9.4|22.9||||||Week 6||22.9|-9.4|
92198334|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|3.7|STANDARD_ERROR_OF_MEAN|10.05|||TWO_SIDED|90.0|-12.8|20.2||||||Week 6||20.2|-12.8|
92198335|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|-7.8|STANDARD_ERROR_OF_MEAN|9.98||0.7798|TWO_SIDED|90.0|-24.2|8.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||8.7|-24.2|0.7798
92198336|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|9.92||0.4819|TWO_SIDED|90.0|-15.9|16.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||16.8|-15.9|0.4819
92198337|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|-2.4|STANDARD_ERROR_OF_MEAN|10.19||0.5933|TWO_SIDED|90.0|-19.2|14.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||14.4|-19.2|0.5933
92198338|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|-9.9|STANDARD_ERROR_OF_MEAN|9.81||0.8421|TWO_SIDED|90.0|-26.1|6.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||6.2|-26.1|0.8421
92198339|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|8.0|STANDARD_ERROR_OF_MEAN|9.85||0.209|TWO_SIDED|90.0|-8.2|24.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||24.2|-8.2|0.2090
92198340|NCT04092452|184295480|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|10.12||0.5183|TWO_SIDED|90.0|-17.1|16.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||16.2|-17.1|0.5183
92198341|NCT04092452|184295481|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|7.54||0.515|TWO_SIDED|90.0|-12.7|12.1||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0 or 1||12.1|-12.7|0.5150
92198342|NCT04092452|184295481|SUPERIORITY||Risk Difference (RD)|12.2|STANDARD_ERROR_OF_MEAN|8.28||0.0737|TWO_SIDED|90.0|-1.4|25.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0 or 1||25.8|-1.4|0.0737
92322651|NCT00529373|184549122|OTHER||Difference in Least Squares Means|6.46|||<|0.001|TWO_SIDED|95.0|6.26|6.65|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.65|6.26|<0.001
92322652|NCT00529373|184549122|OTHER||Difference in Least Squares Means|8.48|||<|0.001|TWO_SIDED|95.0|8.24|8.73|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||8.73|8.24|<0.001
92322653|NCT00529373|184549122|OTHER||Difference in Least Squares Means|10.29|||<|0.001|TWO_SIDED|95.0|9.99|10.59|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||10.59|9.99|<0.001
92322654|NCT00529373|184549123|OTHER||Difference in Least Squares Means|1.74|||<|0.001|TWO_SIDED|95.0|1.06|2.42|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.42|1.06|<0.001
92322655|NCT00529373|184549123|OTHER||Difference in Least Squares Means|3.5|||<|0.001|TWO_SIDED|95.0|3.31|3.7|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.70|3.31|<0.001
92322656|NCT00529373|184549123|OTHER||Difference in Least Squares Means|6.41|||<|0.001|TWO_SIDED|95.0|6.16|6.65|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 24||6.65|6.16|<0.001
92322657|NCT00529373|184549123|OTHER||Difference in Least Squares Means|9.25|||<|0.001|TWO_SIDED|95.0|8.95|9.54|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.54|8.95|<0.001
92322658|NCT00529373|184549123|OTHER||Difference in Least Squares Means|12.14|||<|0.001|TWO_SIDED|95.0|11.76|12.51|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||12.51|11.76|<0.001
92198343|NCT04092452|184295481|SUPERIORITY||Risk Difference (RD)|6.6|STANDARD_ERROR_OF_MEAN|8.11||0.2081|TWO_SIDED|90.0|-6.7|20.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0 or 1||20.0|-6.7|0.2081
92198344|NCT04092452|184295481|SUPERIORITY||Risk Difference (RD)|4.8|STANDARD_ERROR_OF_MEAN|8.9||0.2957|TWO_SIDED|90.0|-9.9|19.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0, 1 or 2||19.4|-9.9|0.2957
92198345|NCT04092452|184295481|SUPERIORITY||Risk Difference (RD)|15.6|STANDARD_ERROR_OF_MEAN|9.07||0.0456|TWO_SIDED|90.0|0.7|30.5||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0, 1 or 2||30.5|0.7|0.0456
92198346|NCT04092452|184295481|SUPERIORITY||Risk Difference (RD)|9.2|STANDARD_ERROR_OF_MEAN|9.05||0.1558|TWO_SIDED|90.0|-5.7|24.1||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0, 1 or 2||24.1|-5.7|0.1558
92198347|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-11.98|STANDARD_ERROR_OF_MEAN|8.622|||TWO_SIDED|90.0|-26.16|2.2||||||Week 1||2.20|-26.16|
92198348|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-15.07|STANDARD_ERROR_OF_MEAN|8.526|||TWO_SIDED|90.0|-29.09|-1.04||||||Week 1||-1.04|-29.09|
92198349|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-17.45|STANDARD_ERROR_OF_MEAN|8.758|||TWO_SIDED|90.0|-31.86|-3.05||||||Week 1||-3.05|-31.86|
92198350|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-12.52|STANDARD_ERROR_OF_MEAN|9.465|||TWO_SIDED|90.0|-28.09|3.05||||||Week 2||3.05|-28.09|
92198351|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-2.86|STANDARD_ERROR_OF_MEAN|9.338|||TWO_SIDED|90.0|-18.22|12.5||||||Week 2||12.50|-18.22|
92198352|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-5.5|STANDARD_ERROR_OF_MEAN|9.438|||TWO_SIDED|90.0|-21.02|10.03||||||Week 2||10.03|-21.02|
92198353|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-4.52|STANDARD_ERROR_OF_MEAN|11.214|||TWO_SIDED|90.0|-22.96|13.93||||||Week 4||13.93|-22.96|
92198354|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-17.54|STANDARD_ERROR_OF_MEAN|11.131|||TWO_SIDED|90.0|-35.84|0.77||||||Week 4||0.77|-35.84|
92322659|NCT00529373|184549123|OTHER||Difference in Least Squares Means|14.56|||<|0.001|TWO_SIDED|95.0|14.11|15.01|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||15.01|14.11|<0.001
92322660|NCT00529373|184549124|OTHER||Difference in Least Squares Means|2.9|||<|0.001|TWO_SIDED|95.0|2.4|3.39|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.39|2.40|<0.001
92322661|NCT00529373|184549124|OTHER||Difference in Least Squares Means|4.01|||<|0.001|TWO_SIDED|95.0|3.87|4.15|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.15|3.87|<0.001
92322662|NCT00529373|184549124|OTHER||Difference in Least Squares Means|5.93|||<|0.001|TWO_SIDED|95.0|5.75|6.11|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.11|5.75|<0.001
92198355|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-3.92|STANDARD_ERROR_OF_MEAN|11.507|||TWO_SIDED|90.0|-22.85|15.0||||||Week 4||15.00|-22.85|
92198356|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|7.09|STANDARD_ERROR_OF_MEAN|13.452|||TWO_SIDED|90.0|-15.04|29.22||||||Week 6||29.22|-15.04|
92198357|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-14.57|STANDARD_ERROR_OF_MEAN|13.688|||TWO_SIDED|90.0|-37.08|7.95||||||Week 6||7.95|-37.08|
92198358|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-8.95|STANDARD_ERROR_OF_MEAN|13.808|||TWO_SIDED|90.0|-31.66|13.76||||||Week 6||13.76|-31.66|
92198359|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|11.5|STANDARD_ERROR_OF_MEAN|13.057||0.8108|TWO_SIDED|90.0|-9.98|32.98||One-sided p-value|ANCOVA|||Week 8||32.98|-9.98|0.8108
92198360|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-16.15|STANDARD_ERROR_OF_MEAN|12.845||0.1043|TWO_SIDED|90.0|-37.28|4.98||One-sided p-value|ANCOVA|||Week 8||4.98|-37.28|0.1043
92198361|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-15.07|STANDARD_ERROR_OF_MEAN|13.355||0.1296|TWO_SIDED|90.0|-37.04|6.9||One-sided p-value|ANCOVA|||Week 8||6.90|-37.04|0.1296
92198362|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-6.54|STANDARD_ERROR_OF_MEAN|16.384||0.345|TWO_SIDED|90.0|-33.49|20.42||One-sided p-value|ANCOVA|||Week 12||20.42|-33.49|0.3450
92198363|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-17.18|STANDARD_ERROR_OF_MEAN|14.116||0.1119|TWO_SIDED|90.0|-40.4|6.04||One-sided p-value|ANCOVA|||Week 12||6.04|-40.40|0.1119
92198364|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-19.99|STANDARD_ERROR_OF_MEAN|14.806||0.0885|TWO_SIDED|90.0|-44.34|4.37||One-sided p-value|ANCOVA|||Week 12||4.37|-44.34|0.0885
92198365|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|10.85|STANDARD_ERROR_OF_MEAN|20.14||0.705|TWO_SIDED|90.0|-22.28|43.98||One-sided p-value|ANCOVA|||Week 16||43.98|-22.28|0.7050
92198366|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-17.62|STANDARD_ERROR_OF_MEAN|19.519||0.1833|TWO_SIDED|90.0|-49.73|14.48||One-sided p-value|ANCOVA|||Week 16||14.48|-49.73|0.1833
92198367|NCT04092452|184295482|SUPERIORITY||Risk Difference (RD)|-9.41|STANDARD_ERROR_OF_MEAN|20.277||0.3213|TWO_SIDED|90.0|-42.76|23.94||One-sided p-value|ANCOVA|||Week 16||23.94|-42.76|0.3213
92198368|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-1.5|STANDARD_ERROR_OF_MEAN|2.67|||TWO_SIDED|90.0|-5.9|2.9||||||Week 1 - Statistical Analysis (MI) - Absolute Score||2.9|-5.9|
92198369|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-2.0|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|90.0|-6.3|2.2||||||Week 1 - Statistical Analysis (MI) - Absolute Score||2.2|-6.3|
92198370|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-1.5|STANDARD_ERROR_OF_MEAN|2.68|||TWO_SIDED|90.0|-5.9|2.9||||||Week 1 - Statistical Analysis (MI) - Absolute Score||2.9|-5.9|
92198371|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-0.9|STANDARD_ERROR_OF_MEAN|2.59|||TWO_SIDED|90.0|-5.2|3.3||||||Week 2 - Statistical Analysis (MI) - Absolute Score||3.3|-5.2|
92198372|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|2.55|||TWO_SIDED|90.0|-4.3|4.1||||||Week 2 - Statistical Analysis (MI) - Absolute Score||4.1|-4.3|
92198373|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|2.61|||TWO_SIDED|90.0|-4.3|4.3||||||Week 2 - Statistical Analysis (MI) - Absolute Score||4.3|-4.3|
92198374|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|2.51|||TWO_SIDED|90.0|-4.5|3.8||||||Week 4 - Statistical Analysis (MI) - Absolute Score||3.8|-4.5|
92198375|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-1.3|STANDARD_ERROR_OF_MEAN|2.48|||TWO_SIDED|90.0|-5.4|2.8||||||Week 4 - Statistical Analysis (MI) - Absolute Score||2.8|-5.4|
92198376|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-4.5|STANDARD_ERROR_OF_MEAN|2.58|||TWO_SIDED|90.0|-8.8|-0.3||||||Week 4 - Statistical Analysis (MI) - Absolute Score||-0.3|-8.8|
92198377|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-1.6|STANDARD_ERROR_OF_MEAN|2.99|||TWO_SIDED|90.0|-6.5|3.3||||||Week 6 - Statistical Analysis (MI) - Absolute Score||3.3|-6.5|
92198378|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-4.7|STANDARD_ERROR_OF_MEAN|2.91|||TWO_SIDED|90.0|-9.5|0.1||||||Week 6 - Statistical Analysis (MI) - Absolute Score||0.1|-9.5|
92198379|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-5.4|STANDARD_ERROR_OF_MEAN|3.08|||TWO_SIDED|90.0|-10.5|-0.4||||||Week 6 - Statistical Analysis (MI) - Absolute Score||-0.4|-10.5|
92198380|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|1.0|STANDARD_ERROR_OF_MEAN|2.78||0.6393|TWO_SIDED|90.0|-3.6|5.6||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Absolute Score||5.6|-3.6|0.6393
92198381|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|2.72||0.5178|TWO_SIDED|90.0|-4.4|4.6||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Absolute Score||4.6|-4.4|0.5178
92198382|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-3.8|STANDARD_ERROR_OF_MEAN|2.82||0.0864|TWO_SIDED|90.0|-8.5|0.8||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Absolute Score||0.8|-8.5|0.0864
92198383|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-1.2|STANDARD_ERROR_OF_MEAN|2.61||0.3172|TWO_SIDED|90.0|-5.5|3.1||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Absolute Score||3.1|-5.5|0.3172
92198384|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-2.7|STANDARD_ERROR_OF_MEAN|2.51||0.1384|TWO_SIDED|90.0|-6.8|1.4||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Absolute Score||1.4|-6.8|0.1384
92198385|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-2.8|STANDARD_ERROR_OF_MEAN|2.66||0.1427|TWO_SIDED|90.0|-7.2|1.5||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Absolute Score||1.5|-7.2|0.1427
92198386|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-2.5|STANDARD_ERROR_OF_MEAN|2.99||0.1975|TWO_SIDED|90.0|-7.5|2.4||One-sided p-value|ANCOVA|||Week 16 - Statistical Analysis (MI) - Absolute Score||2.4|-7.5|0.1975
92198387|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-4.0|STANDARD_ERROR_OF_MEAN|2.76||0.0755|TWO_SIDED|90.0|-8.5|0.6||One-sided p-value|ANCOVA|||Week 16 - Statistical Analysis (MI) - Absolute Score||0.6|-8.5|0.0755
92198388|NCT04092452|184295483|SUPERIORITY||Risk Difference (RD)|-2.6|STANDARD_ERROR_OF_MEAN|2.89||0.1869|TWO_SIDED|90.0|-7.3|2.2||One-sided p-value|ANCOVA|||Week 16 - Statistical Analysis (MI) - Absolute Score||2.2|-7.3|0.1869
92198389|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-3.65|STANDARD_ERROR_OF_MEAN|8.659|||TWO_SIDED|90.0|-17.9|10.59||||||Week 1 - Statistical Analysis (MI) - Percent Change from Baseline||10.59|-17.90|
92322663|NCT00529373|184549124|OTHER||Difference in Least Squares Means|7.7|||<|0.001|TWO_SIDED|95.0|7.48|7.91|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||7.91|7.48|<0.001
92322664|NCT00529373|184549124|OTHER||Difference in Least Squares Means|9.34|||<|0.001|TWO_SIDED|95.0|9.08|9.61|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.61|9.08|<0.001
92322665|NCT00529373|184549124|OTHER||Difference in Least Squares Means|10.87|||<|0.001|TWO_SIDED|95.0|10.55|11.19|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||11.19|10.55|<0.001
92322666|NCT00529373|184549133|OTHER||Difference in Least Squares Means|2.76|||<|0.001|TWO_SIDED|95.0|1.43|4.1|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||4.10|1.43|<0.001
92322667|NCT00529373|184549134|OTHER||Difference in Least Squares Means|5.55|||<|0.001|TWO_SIDED|95.0|4.06|7.05|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||7.05|4.06|<0.001
92322668|NCT00529373|184549135|OTHER||Difference in Least Squares Means|2.79||||0.005|TWO_SIDED|95.0|0.86|4.72|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||4.72|0.86|0.005
92322669|NCT00529373|184549136|OTHER||Difference in Least Squares Means|3.63|||<|0.001|TWO_SIDED|95.0|2.35|4.9|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||4.90|2.35|<0.001
92322670|NCT00529373|184549137|OTHER||Difference in Least Squares Means|5.65|||<|0.001|TWO_SIDED|95.0|3.79|7.5|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||7.50|3.79|<0.001
92322671|NCT00529373|184549138|OTHER||Difference in Least Squares Means|-62.25|||<|0.001|TWO_SIDED|95.0|-79.99|-44.5|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||-44.50|-79.99|<0.001
92198390|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-13.77|STANDARD_ERROR_OF_MEAN|8.749|||TWO_SIDED|90.0|-28.16|0.62||||||Week 1 - Statistical Analysis (MI) - Percent Change from Baseline||0.62|-28.16|
92198391|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-17.51|STANDARD_ERROR_OF_MEAN|8.752|||TWO_SIDED|90.0|-31.91|-3.12||||||Week 1 - Statistical Analysis (MI) - Percent Change from Baseline||-3.12|-31.91|
92322672|NCT00529373|184549139|OTHER||Difference in Least Squares Means|-26.7||||0.001|TWO_SIDED|95.0|-42.56|-10.83|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||-10.83|-42.56|0.001
92322673|NCT00529373|184549140|OTHER||Difference in Least Squares Means|1.67||||0.016|TWO_SIDED|95.0|0.32|3.01|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||3.01|0.32|0.016
92322674|NCT00529373|184549141|OTHER||Difference in Least Squares Means|-25.02|||<|0.001|TWO_SIDED|95.0|-35.92|-14.12|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||-14.12|-35.92|<0.001
92322675|NCT00529373|184549142|OTHER||Difference in Least Squares Means|-64.43|||<|0.001|TWO_SIDED|95.0|-87.8|-41.07|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||-41.07|-87.80|<0.001
92322676|NCT00529373|184549143|OTHER||Difference in Least Squares Means|8.53|||<|0.001|TWO_SIDED|95.0|5.79|11.28|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||11.28|5.79|<0.001
92322677|NCT00529373|184549144|OTHER||Difference in Least Squares Means|11.08|||<|0.001|TWO_SIDED|95.0|8.41|13.74|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||13.74|8.41|<0.001
92198392|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-4.29|STANDARD_ERROR_OF_MEAN|10.103|||TWO_SIDED|90.0|-20.91|12.33||||||Week 2 - Statistical Analysis (MI) - Percent Change from Baseline||12.33|-20.91|
92322678|NCT00529373|184549145|OTHER||Difference in Least Squares Means|10.41|||<|0.001|TWO_SIDED|95.0|8.05|12.78|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||12.78|8.05|<0.001
92322679|NCT00529373|184549146|OTHER||Difference in Least Squares Means|9.98|||<|0.001|TWO_SIDED|95.0|6.91|13.06|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||13.06|6.91|<0.001
92322680|NCT00529373|184549147|OTHER||Difference in Least Squares Means|14.94|||<|0.001|TWO_SIDED|95.0|11.29|18.59|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||18.59|11.29|<0.001
92322681|NCT00529373|184549148|OTHER||Hazard Ratio (HR)|0.79||||0.366|TWO_SIDED|95.0|0.47|1.33|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.33|0.47|0.366
92198393|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-2.05|STANDARD_ERROR_OF_MEAN|9.904|||TWO_SIDED|90.0|-18.34|14.24||||||Week 2 - Statistical Analysis (MI) - Percent Change from Baseline||14.24|-18.34|
92198394|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|0.17|STANDARD_ERROR_OF_MEAN|10.039|||TWO_SIDED|90.0|-16.34|16.68||||||Week 2 - Statistical Analysis (MI) - Percent Change from Baseline||16.68|-16.34|
92322682|NCT00529373|184549149|OTHER||Hazard Ratio (HR)|1.13||||0.246|TWO_SIDED|95.0|0.92|1.4|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.4|0.92|0.246
92322683|NCT00529373|184549150|OTHER||Hazard Ratio (HR)|0.8||||0.638|TWO_SIDED|95.0|0.32|2.03|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||2.03|0.32|0.638
92322684|NCT00529373|184549151|OTHER||Hazard Ratio (HR)|1.17||||0.029|TWO_SIDED|95.0|1.02|1.36|||Regression, Cox|No adjustments for multiplicity were applied; p-value is unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.36|1.02|0.029
92322685|NCT00529373|184549152|OTHER||Hazard Ratio (HR)|1.05||||0.341|TWO_SIDED|95.0|0.95|1.17|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.17|0.95|0.341
92322686|NCT00529373|184549153|OTHER||Hazard Ratio (HR)|1.23||||0.198|TWO_SIDED|95.0|0.9|1.68|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.68|0.9|0.198
92322687|NCT00529373|184549154|OTHER||Hazard Ratio (HR)|0.94||||0.798|TWO_SIDED|95.0|0.7|1.26|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.26|0.7|0.798
92322688|NCT00529373|184549155|OTHER||Hazard Ratio (HR)|1.37||||0.005|TWO_SIDED|95.0|1.1|1.71|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.71|1.1|0.005
92198395|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-0.46|STANDARD_ERROR_OF_MEAN|10.227|||TWO_SIDED|90.0|-17.29|16.36||||||Week 4 - Statistical Analysis (MI) - Percent Change from Baseline||16.36|-17.29|
92198396|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-8.07|STANDARD_ERROR_OF_MEAN|10.155|||TWO_SIDED|90.0|-24.77|8.63||||||Week 4 - Statistical Analysis (MI) - Percent Change from Baseline||8.63|-24.77|
92198397|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-6.06|STANDARD_ERROR_OF_MEAN|10.509|||TWO_SIDED|90.0|-23.35|11.22||||||Week 4 - Statistical Analysis (MI) - Percent Change from Baseline||11.22|-23.35|
92198398|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-3.54|STANDARD_ERROR_OF_MEAN|12.262|||TWO_SIDED|90.0|-23.71|16.63||||||Week 6 - Statistical Analysis (MI) - Percent Change from Baseline||16.63|-23.71|
92198399|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-16.26|STANDARD_ERROR_OF_MEAN|12.51|||TWO_SIDED|90.0|-36.84|4.32||||||Week 6 - Statistical Analysis (MI) - Percent Change from Baseline||4.32|-36.84|
92198400|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-12.52|STANDARD_ERROR_OF_MEAN|12.61|||TWO_SIDED|90.0|-33.27|8.22||||||Week 6 - Statistical Analysis (MI) - Percent Change from Baseline||8.22|-33.27|
92198401|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|5.79|STANDARD_ERROR_OF_MEAN|11.045||0.7|TWO_SIDED|90.0|-12.38|23.96||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Percent Change from Baseline||23.96|-12.38|0.7000
92198402|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-5.81|STANDARD_ERROR_OF_MEAN|10.876||0.2965|TWO_SIDED|90.0|-23.7|12.08||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Percent Change from Baseline||12.08|-23.70|0.2965
92198403|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-11.33|STANDARD_ERROR_OF_MEAN|11.247||0.1568|TWO_SIDED|90.0|-29.83|7.17||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Percent Change from Baseline||7.17|-29.83|0.1568
92198404|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-6.78|STANDARD_ERROR_OF_MEAN|10.912||0.2672|TWO_SIDED|90.0|-24.73|11.17||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Percent Change from Baseline||11.17|-24.73|0.2672
92198405|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-16.57|STANDARD_ERROR_OF_MEAN|10.517||0.0576|TWO_SIDED|90.0|-33.87|0.73||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Percent Change from Baseline||0.73|-33.87|0.0576
92198406|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-13.65|STANDARD_ERROR_OF_MEAN|11.603||0.1197|TWO_SIDED|90.0|-32.74|5.44||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Percent Change from Baseline||5.44|-32.74|0.1197
92198407|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-5.63|STANDARD_ERROR_OF_MEAN|13.545||0.3388|TWO_SIDED|90.0|-27.91|16.65||One-sided p-value|ANCOVA|||Week 16 - Statistical Analysis (MI) - Percent Change from Baseline||16.65|-27.91|0.3388
92198408|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-14.8|STANDARD_ERROR_OF_MEAN|13.567||0.1376|TWO_SIDED|90.0|-37.12|7.51||One-sided p-value|ANCOVA|||Week 16 - Statistical Analysis (MI) - Percent Change from Baseline||7.51|-37.12|0.1376
92198409|NCT04092452|184295484|SUPERIORITY||Risk Difference (RD)|-8.32|STANDARD_ERROR_OF_MEAN|13.86||0.2741|TWO_SIDED|90.0|-31.12|14.48||One-sided p-value|ANCOVA|||Week 16||14.48|-31.12|0.2741
92198410|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|-1.3|STANDARD_ERROR_OF_MEAN|7.06|||TWO_SIDED|90.0|-13.0|10.3||||||Week 4||10.3|-13.0|
92198411|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|-8.5|STANDARD_ERROR_OF_MEAN|6.23|||TWO_SIDED|90.0|-18.7|1.8||||||Week 4||1.8|-18.7|
92198412|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|1.7|STANDARD_ERROR_OF_MEAN|7.55|||TWO_SIDED|90.0|-10.7|14.1||||||Week 4||14.1|-10.7|
92198413|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|6.6|STANDARD_ERROR_OF_MEAN|6.8||0.8372|TWO_SIDED|90.0|-4.6|17.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||17.7|-4.6|0.8372
92198414|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|-6.4|STANDARD_ERROR_OF_MEAN|4.68||0.0819|TWO_SIDED|90.0|-14.1|1.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||1.3|-14.1|0.0819
92198415|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|-8.0|STANDARD_ERROR_OF_MEAN|4.34||0.0242|TWO_SIDED|90.0|-15.2|-0.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||-0.9|-15.2|0.0242
92198416|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|-12.7|STANDARD_ERROR_OF_MEAN|6.33||0.0264|TWO_SIDED|90.0|-23.1|-2.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||-2.3|-23.1|0.0264
92198417|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|-14.5|STANDARD_ERROR_OF_MEAN|6.47||0.0127|TWO_SIDED|90.0|-25.1|-3.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||-3.9|-25.1|0.0127
92198418|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|-16.6|STANDARD_ERROR_OF_MEAN|6.33||0.0059|TWO_SIDED|90.0|-27.0|-6.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||-6.2|-27.0|0.0059
92198419|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|-9.6|STANDARD_ERROR_OF_MEAN|7.97||0.1185|TWO_SIDED|90.0|-22.7|3.5||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||3.5|-22.7|0.1185
92198420|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|-16.1|STANDARD_ERROR_OF_MEAN|6.39||0.004|TWO_SIDED|90.0|-26.6|-5.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||-5.6|-26.6|0.0040
92198421|NCT04092452|184295485|SUPERIORITY||Risk Difference (RD)|-12.8|STANDARD_ERROR_OF_MEAN|7.09||0.0418|TWO_SIDED|90.0|-24.5|-1.1||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||-1.1|-24.5|0.0418
92198422|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|12.1|STANDARD_ERROR_OF_MEAN|7.75||0.0559|TWO_SIDED|90.0|-0.7|24.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Pain at its Worst)||24.8|-0.7|0.0559
92198423|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|9.8|STANDARD_ERROR_OF_MEAN|7.09||0.0758|TWO_SIDED|90.0|-1.9|21.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Pain at its Worst)||21.4|-1.9|0.0758
92198424|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|11.3|STANDARD_ERROR_OF_MEAN|7.21||0.0637|TWO_SIDED|90.0|-0.6|23.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Pain at its Worst)||23.2|-0.6|0.0637
92198425|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|4.2|STANDARD_ERROR_OF_MEAN|8.84||0.3179|TWO_SIDED|90.0|-10.3|18.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Pain at its Worst)||18.8|-10.3|0.3179
92198426|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|11.0|STANDARD_ERROR_OF_MEAN|8.82||0.1078|TWO_SIDED|90.0|-3.5|25.5||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Pain at its Worst)||25.5|-3.5|0.1078
92198427|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|7.6|STANDARD_ERROR_OF_MEAN|8.86||0.1976|TWO_SIDED|90.0|-7.0|22.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Pain at its Worst)||22.2|-7.0|0.1976
92198428|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-18.9|STANDARD_ERROR_OF_MEAN|9.32||0.9738|TWO_SIDED|90.0|-34.3|-3.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Pain at its Worst)||-3.6|-34.3|0.9738
92198429|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|5.8|STANDARD_ERROR_OF_MEAN|10.4||0.2925|TWO_SIDED|90.0|-11.3|22.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Pain at its Worst)||22.9|-11.3|0.2925
92322689|NCT00529373|184549156|OTHER||Hazard Ratio (HR)|1.22||||0.059|TWO_SIDED|95.0|0.99|1.5|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.5|0.99|0.059
92198430|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-3.1|STANDARD_ERROR_OF_MEAN|10.18||0.6178|TWO_SIDED|90.0|-19.8|13.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Pain at its Worst)||13.7|-19.8|0.6178
92198431|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-20.9|STANDARD_ERROR_OF_MEAN|10.04||0.9769|TWO_SIDED|90.0|-37.4|-4.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Pain at its Worst)||-4.4|-37.4|0.9769
92198432|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-4.2|STANDARD_ERROR_OF_MEAN|10.57||0.6529|TWO_SIDED|90.0|-21.6|13.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Pain at its Worst)||13.2|-21.6|0.6529
92198433|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-12.8|STANDARD_ERROR_OF_MEAN|10.36||0.8878|TWO_SIDED|90.0|-29.8|4.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Pain at its Worst)||4.3|-29.8|0.8878
92198434|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-6.2|STANDARD_ERROR_OF_MEAN|10.11||0.7259|TWO_SIDED|90.0|-22.9|10.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Pain at its Worst)||10.4|-22.9|0.7259
92198435|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|14.8|STANDARD_ERROR_OF_MEAN|10.24||0.0826|TWO_SIDED|90.0|-2.1|31.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Pain at its Worst)||31.6|-2.1|0.0826
92198436|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-8.0|STANDARD_ERROR_OF_MEAN|9.75||0.7884|TWO_SIDED|90.0|-24.1|8.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Pain at its Worst)||8.0|-24.1|0.7884
92198437|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-16.1|STANDARD_ERROR_OF_MEAN|10.43||0.9326|TWO_SIDED|90.0|-33.2|1.1||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Pain at its Worst)||1.1|-33.2|0.9326
92198438|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-4.9|STANDARD_ERROR_OF_MEAN|10.41||0.681|TWO_SIDED|90.0|-22.1|12.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Pain at its Worst)||12.2|-22.1|0.6810
92198439|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-10.3|STANDARD_ERROR_OF_MEAN|10.52||0.8308|TWO_SIDED|90.0|-27.6|7.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Pain at its Worst)||7.0|-27.6|0.8308
92198440|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|-8.5|STANDARD_ERROR_OF_MEAN|9.71||0.8063|TWO_SIDED|90.0|-24.5|7.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Pain at its Worst)||7.4|-24.5|0.8063
92322690|NCT00529373|184549157|OTHER||Hazard Ratio (HR)|1.61||||0.114|TWO_SIDED|95.0|0.89|2.9|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||2.9|0.89|0.114
92198441|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|6.5|STANDARD_ERROR_OF_MEAN|10.27||0.2649|TWO_SIDED|90.0|-10.4|23.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Pain at its Worst)||23.4|-10.4|0.2649
92322691|NCT00529373|184549158|OTHER||Hazard Ratio (HR)|1.14||||0.159|TWO_SIDED|95.0|0.99|1.31|||Regression, Cox|No adjustments for multiplicity were applied; p-value is unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.31|0.99|0.159
92198442|NCT04092452|184295486|SUPERIORITY||Risk Difference (RD)|5.3|STANDARD_ERROR_OF_MEAN|10.35||0.3029|TWO_SIDED|90.0|-11.7|22.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Pain at its Worst)||22.4|-11.7|0.3029
92198443|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|7.7|STANDARD_ERROR_OF_MEAN|8.2||0.1687|TWO_SIDED|90.0|-5.7|21.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Average Pain)||21.2|-5.7|0.1687
92198444|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|13.8|STANDARD_ERROR_OF_MEAN|8.03||0.0376|TWO_SIDED|90.0|0.6|27.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Average Pain)||27.0|0.6|0.0376
92198445|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|-1.5|STANDARD_ERROR_OF_MEAN|6.9||0.5883|TWO_SIDED|90.0|-12.9|9.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Average Pain)||9.8|-12.9|0.5883
92198446|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|2.7|STANDARD_ERROR_OF_MEAN|9.07||0.3829|TWO_SIDED|90.0|-12.2|17.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Average Pain)||17.6|-12.2|0.3829
92198447|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|18.2|STANDARD_ERROR_OF_MEAN|9.54||0.0316|TWO_SIDED|90.0|2.5|33.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Average Pain)||33.9|2.5|0.0316
92198448|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|4.6|STANDARD_ERROR_OF_MEAN|9.17||0.3072|TWO_SIDED|90.0|-10.5|19.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Average Pain)||19.7|-10.5|0.3072
92198449|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|-13.1|STANDARD_ERROR_OF_MEAN|10.18||0.8952|TWO_SIDED|90.0|-29.8|3.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Average Pain)||3.7|-29.8|0.8952
92198450|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|13.1|STANDARD_ERROR_OF_MEAN|10.76||0.1157|TWO_SIDED|90.0|-4.6|30.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Average Pain)||30.8|-4.6|0.1157
92198451|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|0.9|STANDARD_ERROR_OF_MEAN|10.93||0.4672|TWO_SIDED|90.0|-17.1|18.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Average Pain)||18.9|-17.1|0.4672
92198452|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|-16.9|STANDARD_ERROR_OF_MEAN|11.29||0.9287|TWO_SIDED|90.0|-35.5|1.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Average Pain)||1.6|-35.5|0.9287
92198453|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|10.85||0.4984|TWO_SIDED|90.0|-17.8|17.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Average Pain)||17.9|-17.8|0.4984
92198454|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|-14.7|STANDARD_ERROR_OF_MEAN|11.27||0.9001|TWO_SIDED|90.0|-33.2|3.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Average Pain)||3.9|-33.2|0.9001
92198455|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|-10.3|STANDARD_ERROR_OF_MEAN|10.53||0.8319|TWO_SIDED|90.0|-27.6|7.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Average Pain)||7.0|-27.6|0.8319
92198456|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|19.7|STANDARD_ERROR_OF_MEAN|10.55||0.034|TWO_SIDED|90.0|2.3|37.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Average Pain)||37.0|2.3|0.0340
92198457|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|-6.8|STANDARD_ERROR_OF_MEAN|10.7||0.7359|TWO_SIDED|90.0|-24.4|10.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Average Pain)||10.8|-24.4|0.7359
92198458|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|-16.0|STANDARD_ERROR_OF_MEAN|10.51||0.9291|TWO_SIDED|90.0|-33.3|1.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Average Pain)||1.3|-33.3|0.9291
92198459|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|10.44||0.5087|TWO_SIDED|90.0|-17.4|16.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Average Pain)||16.9|-17.4|0.5087
92198460|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|-9.5|STANDARD_ERROR_OF_MEAN|10.74||0.8098|TWO_SIDED|90.0|-27.2|8.1||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Average Pain)||8.1|-27.2|0.8098
92198461|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|-8.8|STANDARD_ERROR_OF_MEAN|9.76||0.8114|TWO_SIDED|90.0|-24.8|7.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Average Pain)||7.2|-24.8|0.8114
92198462|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|10.8|STANDARD_ERROR_OF_MEAN|10.44||0.1531|TWO_SIDED|90.0|-6.4|28.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Average Pain)||28.0|-6.4|0.1531
92322692|NCT00529373|184549159|OTHER||Hazard Ratio (HR)|1.17||||0.178|TWO_SIDED|95.0|0.93|1.46|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.46|0.93|0.178
92322693|NCT00529373|184549160|OTHER|Miettinen \& Nurminen|Difference in rates|0.04|||||TWO_SIDED|95.0|-0.01|0.09||||||||0.09|-0.01|
92198463|NCT04092452|184295487|SUPERIORITY||Risk Difference (RD)|3.3|STANDARD_ERROR_OF_MEAN|10.58||0.3784|TWO_SIDED|90.0|-14.1|20.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Average Pain)||20.7|-14.1|0.3784
92198464|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-7.44|STANDARD_ERROR_OF_MEAN|6.661||0.1321|TWO_SIDED|90.0|-18.39|3.52||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||3.52|-18.39|0.1321
92198465|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-10.52|STANDARD_ERROR_OF_MEAN|6.308||0.0477|TWO_SIDED|90.0|-20.9|-0.14||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||-0.14|-20.90|0.0477
92198466|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-14.13|STANDARD_ERROR_OF_MEAN|6.379||0.0134|TWO_SIDED|90.0|-24.62|-3.63||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||-3.63|-24.62|0.0134
92198467|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-5.66|STANDARD_ERROR_OF_MEAN|8.38||0.2496|TWO_SIDED|90.0|-19.45|8.12||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||8.12|-19.45|0.2496
92198468|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-11.92|STANDARD_ERROR_OF_MEAN|7.972||0.0675|TWO_SIDED|90.0|-25.03|1.2||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||1.20|-25.03|0.0675
92198469|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-11.71|STANDARD_ERROR_OF_MEAN|8.054||0.073|TWO_SIDED|90.0|-24.96|1.54||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||1.54|-24.96|0.0730
92322694|NCT00529373|184549161|OTHER|Miettinen \& Nurminen|Difference in rates|0.02|||||TWO_SIDED|95.0|0.01|0.05||||||||0.05|0.01|
92198470|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|3.25|STANDARD_ERROR_OF_MEAN|8.892||0.6426|TWO_SIDED|90.0|-11.38|17.88||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||17.88|-11.38|0.6426
92198471|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-7.82|STANDARD_ERROR_OF_MEAN|8.457||0.1776|TWO_SIDED|90.0|-21.73|6.09||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||6.09|-21.73|0.1776
92198472|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-1.17|STANDARD_ERROR_OF_MEAN|8.579||0.4458|TWO_SIDED|90.0|-15.28|12.94||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||12.94|-15.28|0.4458
92198473|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|7.94|STANDARD_ERROR_OF_MEAN|9.566||0.7969|TWO_SIDED|90.0|-7.79|23.68||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||23.68|-7.79|0.7969
92198474|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-11.09|STANDARD_ERROR_OF_MEAN|9.12||0.112|TWO_SIDED|90.0|-26.09|3.91||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||3.91|-26.09|0.1120
92198475|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|9.188||0.5021|TWO_SIDED|90.0|-15.06|15.16||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||15.16|-15.06|0.5021
92198476|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|2.83|STANDARD_ERROR_OF_MEAN|9.296||0.6197|TWO_SIDED|90.0|-12.46|18.12||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||18.12|-12.46|0.6197
92198477|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-11.3|STANDARD_ERROR_OF_MEAN|8.825||0.1003|TWO_SIDED|90.0|-25.81|3.22||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||3.22|-25.81|0.1003
92198478|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|8.908||0.507|TWO_SIDED|90.0|-14.5|14.81||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||14.81|-14.50|0.5070
92198479|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|0.67|STANDARD_ERROR_OF_MEAN|9.368||0.5283|TWO_SIDED|90.0|-14.74|16.08||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||16.08|-14.74|0.5283
92198480|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-15.31|STANDARD_ERROR_OF_MEAN|8.921||0.0431|TWO_SIDED|90.0|-29.98|-0.63||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||-0.63|-29.98|0.0431
92198481|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-6.39|STANDARD_ERROR_OF_MEAN|9.02||0.2395|TWO_SIDED|90.0|-21.22|8.45||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||8.45|-21.22|0.2395
92198482|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|2.57|STANDARD_ERROR_OF_MEAN|9.617||0.6054|TWO_SIDED|90.0|-13.25|18.39||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||18.39|-13.25|0.6054
92198483|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-21.54|STANDARD_ERROR_OF_MEAN|9.344||0.0106|TWO_SIDED|90.0|-36.91|-6.17||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||-6.17|-36.91|0.0106
92198484|NCT04092452|184295488|SUPERIORITY||Risk Difference (RD)|-12.54|STANDARD_ERROR_OF_MEAN|9.305||0.089|TWO_SIDED|90.0|-27.84|2.77||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||2.77|-27.84|0.0890
92198485|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-6.17|STANDARD_ERROR_OF_MEAN|5.963||0.1505|TWO_SIDED|90.0|-15.98|3.64||One-sided p-value|ANCOVA|||Week 1 Average Pain||3.64|-15.98|0.1505
92198486|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-11.06|STANDARD_ERROR_OF_MEAN|5.555||0.0233|TWO_SIDED|90.0|-20.19|-1.92||One-sided p-value|ANCOVA|||Week 1 Average Pain||-1.92|-20.19|0.0233
92198487|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-6.34|STANDARD_ERROR_OF_MEAN|5.926||0.1423|TWO_SIDED|90.0|-16.09|3.41||One-sided p-value|ANCOVA|||Week 1 Average Pain||3.41|-16.09|0.1423
92198488|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-2.15|STANDARD_ERROR_OF_MEAN|7.202||0.3827|TWO_SIDED|90.0|-14.0|9.7||One-sided p-value|ANCOVA|||Week 2 Average Pain||9.70|-14.00|0.3827
92198489|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-10.35|STANDARD_ERROR_OF_MEAN|6.741||0.0624|TWO_SIDED|90.0|-21.44|0.74||One-sided p-value|ANCOVA|||Week 2 Average Pain||0.74|-21.44|0.0624
92198490|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-2.25|STANDARD_ERROR_OF_MEAN|7.171||0.3771|TWO_SIDED|90.0|-14.04|9.55||One-sided p-value|ANCOVA|||Week 2 Average Pain||9.55|-14.04|0.3771
92322695|NCT00529373|184549162|OTHER|Miettinen \& Nurminen|Difference in rates|0.06|||||TWO_SIDED|95.0|0.03|0.11||||||||0.11|0.03|
92198491|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|8.04|STANDARD_ERROR_OF_MEAN|8.614||0.8247|TWO_SIDED|90.0|-6.13|22.21||One-sided p-value|ANCOVA|||Week 4 Average Pain||22.21|-6.13|0.8247
92198492|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-8.97|STANDARD_ERROR_OF_MEAN|8.09||0.1337|TWO_SIDED|90.0|-22.28|4.33||One-sided p-value|ANCOVA|||Week 4 Average Pain||4.33|-22.28|0.1337
92322696|NCT00529373|184549163|OTHER|Miettinen \& Nurminen|Difference in rates|0.03|||||TWO_SIDED|95.0|0.02|0.06||||||||0.06|0.02|
92322697|NCT01578239|184549175|SUPERIORITY||Hazard Ratio (HR)|0.177|||<|0.0001|TWO_SIDED|95.0|0.108|0.289||Derived from a two-sided test between the two groups|Log Rank||Hazard ratio is expressed as Lu-DOTA-Tyr-Octreotate / Octreotide LAR and estimated from the corresponding Cox model.|||0.289|0.108|<0.0001
92198493|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|5.37|STANDARD_ERROR_OF_MEAN|8.523||0.7357|TWO_SIDED|90.0|-8.65|19.39||One-sided p-value|ANCOVA|||Week 4 Average Pain||19.39|-8.65|0.7357
92198494|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|13.78|STANDARD_ERROR_OF_MEAN|8.977||0.9377|TWO_SIDED|90.0|-0.98|28.55||One-sided p-value|ANCOVA|||Week 6 Average Pain||28.55|-0.98|0.9377
92198495|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-9.39|STANDARD_ERROR_OF_MEAN|8.45||0.1332|TWO_SIDED|90.0|-23.29|4.51||One-sided p-value|ANCOVA|||Week 6 Average Pain||4.51|-23.29|0.1332
92198496|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|6.05|STANDARD_ERROR_OF_MEAN|8.907||0.7514|TWO_SIDED|90.0|-8.6|20.7||One-sided p-value|ANCOVA|||Week 6 Average Pain||20.70|-8.60|0.7514
92198497|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|8.97|STANDARD_ERROR_OF_MEAN|8.902||0.8433|TWO_SIDED|90.0|-5.67|23.62||One-sided p-value|ANCOVA|||Week 8 Average Pain||23.62|-5.67|0.8433
92198498|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-8.84|STANDARD_ERROR_OF_MEAN|8.392||0.1461|TWO_SIDED|90.0|-22.64|4.96||One-sided p-value|ANCOVA|||Week 8 Average Pain||4.96|-22.64|0.1461
92198499|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|8.64|STANDARD_ERROR_OF_MEAN|8.818||0.8364|TWO_SIDED|90.0|-5.86|23.15||One-sided p-value|ANCOVA|||Week 8 Average Pain||23.15|-5.86|0.8364
92198500|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|2.35|STANDARD_ERROR_OF_MEAN|8.527||0.6085|TWO_SIDED|90.0|-11.68|16.37||One-sided p-value|ANCOVA|||Week 12 Average Pain||16.37|-11.68|0.6085
92198501|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-14.38|STANDARD_ERROR_OF_MEAN|8.022||0.0365|TWO_SIDED|90.0|-27.58|-1.19||One-sided p-value|ANCOVA|||Week 12 Average Pain||-1.19|-27.58|0.0365
92198502|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|0.43|STANDARD_ERROR_OF_MEAN|8.469||0.5201|TWO_SIDED|90.0|-13.5|14.36||One-sided p-value|ANCOVA|||Week 12 Average Pain||14.36|-13.50|0.5201
92198503|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|4.04|STANDARD_ERROR_OF_MEAN|8.564||0.6813|TWO_SIDED|90.0|-10.05|18.12||One-sided p-value|ANCOVA|||Week 16 Average Pain||18.12|-10.05|0.6813
92198504|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-18.38|STANDARD_ERROR_OF_MEAN|8.23||0.0128|TWO_SIDED|90.0|-31.91|-4.84||One-sided p-value|ANCOVA|||Week 16 Average Pain||-4.84|-31.91|0.0128
92198505|NCT04092452|184295489|SUPERIORITY||Risk Difference (RD)|-4.09|STANDARD_ERROR_OF_MEAN|8.639||0.3181|TWO_SIDED|90.0|-18.3|10.12||One-sided p-value|ANCOVA|||Week 16 Average Pain||10.12|-18.30|0.3181
92198506|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.31|STANDARD_ERROR_OF_MEAN|0.301||0.1536|TWO_SIDED|90.0|-0.8|0.19||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||0.19|-0.80|0.1536
92198507|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.45|STANDARD_ERROR_OF_MEAN|0.289||0.0581|TWO_SIDED|90.0|-0.93|0.02||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||0.02|-0.93|0.0581
92198508|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.48|STANDARD_ERROR_OF_MEAN|0.3||0.0532|TWO_SIDED|90.0|-0.98|0.01||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||0.01|-0.98|0.0532
92198509|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.383||0.2007|TWO_SIDED|90.0|-0.95|0.31||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||0.31|-0.95|0.2007
92198510|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.55|STANDARD_ERROR_OF_MEAN|0.37||0.0694|TWO_SIDED|90.0|-1.16|0.06||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||0.06|-1.16|0.0694
92198511|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.39|STANDARD_ERROR_OF_MEAN|0.382||0.1509|TWO_SIDED|90.0|-1.02|0.23||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||0.23|-1.02|0.1509
92198512|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|0.07|STANDARD_ERROR_OF_MEAN|0.431||0.5663|TWO_SIDED|90.0|-0.64|0.78||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||0.78|-0.64|0.5663
92198513|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.45|STANDARD_ERROR_OF_MEAN|0.416||0.1396|TWO_SIDED|90.0|-1.13|0.23||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||0.23|-1.13|0.1396
92322698|NCT01578239|184549176|SUPERIORITY|||||||0.0141|||||||Fisher Exact|||||||0.0141
92198514|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.432||0.5227|TWO_SIDED|90.0|-0.69|0.74||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||0.74|-0.69|0.5227
92198515|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|0.45||0.8656|TWO_SIDED|90.0|-0.24|1.24||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||1.24|-0.24|0.8656
92198516|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.42|STANDARD_ERROR_OF_MEAN|0.434||0.1671|TWO_SIDED|90.0|-1.13|0.29||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||0.29|-1.13|0.1671
92198517|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.45||0.6063|TWO_SIDED|90.0|-0.62|0.86||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||0.86|-0.62|0.6063
92198518|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.458||0.6402|TWO_SIDED|90.0|-0.59|0.92||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||0.92|-0.59|0.6402
92198519|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.38|STANDARD_ERROR_OF_MEAN|0.441||0.1916|TWO_SIDED|90.0|-1.11|0.34||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||0.34|-1.11|0.1916
92198520|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|0.13|STANDARD_ERROR_OF_MEAN|0.456||0.6119|TWO_SIDED|90.0|-0.62|0.88||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||0.88|-0.62|0.6119
92198521|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|0.06|STANDARD_ERROR_OF_MEAN|0.45||0.5568|TWO_SIDED|90.0|-0.68|0.8||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||0.80|-0.68|0.5568
92198522|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.56|STANDARD_ERROR_OF_MEAN|0.433||0.0976|TWO_SIDED|90.0|-1.27|0.15||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||0.15|-1.27|0.0976
92198523|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.451||0.5001|TWO_SIDED|90.0|-0.74|0.74||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||0.74|-0.74|0.5001
92198524|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.451||0.581|TWO_SIDED|90.0|-0.65|0.83||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||0.83|-0.65|0.5810
92198525|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-1.07|STANDARD_ERROR_OF_MEAN|0.442||0.0079|TWO_SIDED|90.0|-1.8|-0.34||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||-0.34|-1.80|0.0079
92322699|NCT01578239|184549177|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.3039|TWO_SIDED|95.0|0.6|1.17|||Log Rank|||||1.17|0.60|0.3039
92322700|NCT01578239|184549178|SUPERIORITY||Cox Proportional Hazard|0.84||||0.3039|TWO_SIDED|95.0|0.6|1.17|||Log Rank||Hazard Ratio of Lu-DOTA-Tyr-Octreotate vs. Octreotide LAR|||1.17|0.60|0.3039
92198526|NCT04092452|184295490|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.455||0.1068|TWO_SIDED|90.0|-1.31|0.18||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||0.18|-1.31|0.1068
92198527|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.25|STANDARD_ERROR_OF_MEAN|0.284||0.1898|TWO_SIDED|90.0|-0.72|0.22||One-sided p-value|ANCOVA|||Week 1 Average Pain||0.22|-0.72|0.1898
92198528|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.43|STANDARD_ERROR_OF_MEAN|0.273||0.0562|TWO_SIDED|90.0|-0.88|0.02||One-sided p-value|ANCOVA|||Week 1 Average Pain||0.02|-0.88|0.0562
92198529|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.31|STANDARD_ERROR_OF_MEAN|0.284||0.1382|TWO_SIDED|90.0|-0.78|0.16||One-sided p-value|ANCOVA|||Week 1 Average Pain||0.16|-0.78|0.1382
92198530|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.28|STANDARD_ERROR_OF_MEAN|0.343||0.2039|TWO_SIDED|90.0|-0.85|0.28||One-sided p-value|ANCOVA|||Week 2 Average Pain||0.28|-0.85|0.2039
92198531|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.45|STANDARD_ERROR_OF_MEAN|0.332||0.0855|TWO_SIDED|90.0|-1.0|0.09||One-sided p-value|ANCOVA|||Week 2 Average Pain||0.09|-1.00|0.0855
92198532|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.344||0.3089|TWO_SIDED|90.0|-0.74|0.39||One-sided p-value|ANCOVA|||Week 2 Average Pain||0.39|-0.74|0.3089
92322701|NCT01578239|184549179|SUPERIORITY||Hazard Ratio (HR)|0.137|||<|0.0001|TWO_SIDED|95.0|0.077|0.242|||Log Rank|||||0.242|0.077|<0.0001
92322702|NCT02347813|184549188|OTHER||Mean Difference (Final Values)|0.5||||0.75|TWO_SIDED|95.0|||||ANOVA|||||||0.750
92198533|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.407||0.6124|TWO_SIDED|90.0|-0.55|0.79||One-sided p-value|ANCOVA|||Week 4 Average Pain||0.79|-0.55|0.6124
92198534|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|0.395||0.1003|TWO_SIDED|90.0|-1.15|0.14||One-sided p-value|ANCOVA|||Week 4 Average Pain||0.14|-1.15|0.1003
92198535|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|0.408||0.6875|TWO_SIDED|90.0|-0.47|0.87||One-sided p-value|ANCOVA|||Week 4 Average Pain||0.87|-0.47|0.6875
92198536|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|0.51|STANDARD_ERROR_OF_MEAN|0.427||0.8833|TWO_SIDED|90.0|-0.19|1.21||One-sided p-value|ANCOVA|||Week 6 Average Pain||1.21|-0.19|0.8833
92322703|NCT01385137|184549190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.58|TWO_SIDED|95.0|-0.79|0.44|||Regression, Linear|||||0.44|-0.79|0.58
92322704|NCT01385137|184549192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13||||0.42|TWO_SIDED|95.0|-7.3|3.04|||Regression, Linear|||||3.04|-7.30|0.42
92198537|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.43|STANDARD_ERROR_OF_MEAN|0.413||0.1502|TWO_SIDED|90.0|-1.11|0.25||One-sided p-value|ANCOVA|||Week 6 Average Pain||0.25|-1.11|0.1502
92198538|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|0.428||0.6788|TWO_SIDED|90.0|-0.5|0.9||One-sided p-value|ANCOVA|||Week 6 Average Pain||0.90|-0.50|0.6788
92198539|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|0.21|STANDARD_ERROR_OF_MEAN|0.441||0.6835|TWO_SIDED|90.0|-0.51|0.94||One-sided p-value|ANCOVA|||Week 8 Average Pain||0.94|-0.51|0.6835
92198540|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.425||0.2237|TWO_SIDED|90.0|-1.02|0.38||One-sided p-value|ANCOVA|||Week 8 Average Pain||0.38|-1.02|0.2237
92198541|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.439||0.7234|TWO_SIDED|90.0|-0.46|0.98||One-sided p-value|ANCOVA|||Week 8 Average Pain||0.98|-0.46|0.7234
92198542|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.02|STANDARD_ERROR_OF_MEAN|0.424||0.4773|TWO_SIDED|90.0|-0.72|0.67||One-sided p-value|ANCOVA|||Week 12 Average Pain||0.67|-0.72|0.4773
92198543|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.41||0.0818|TWO_SIDED|90.0|-1.25|0.1||One-sided p-value|ANCOVA|||Week 12 Average Pain||0.10|-1.25|0.0818
92198544|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|0.15|STANDARD_ERROR_OF_MEAN|0.424||0.6397|TWO_SIDED|90.0|-0.55|0.85||One-sided p-value|ANCOVA|||Week 12 Average Pain||0.85|-0.55|0.6397
92198545|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|0.03|STANDARD_ERROR_OF_MEAN|0.428||0.5321|TWO_SIDED|90.0|-0.67|0.74||One-sided p-value|ANCOVA|||Week 16 Average Pain||0.74|-0.67|0.5321
92198546|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.89|STANDARD_ERROR_OF_MEAN|0.42||0.0167|TWO_SIDED|90.0|-1.59|-0.2||One-sided p-value|ANCOVA|||Week 16 Average Pain||-0.20|-1.59|0.0167
92198547|NCT04092452|184295491|SUPERIORITY||Risk Difference (RD)|-0.37|STANDARD_ERROR_OF_MEAN|0.434||0.1963|TWO_SIDED|90.0|-1.09|0.34||One-sided p-value|ANCOVA|||Week 16 Average Pain||0.34|-1.09|0.1963
92198548|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|-2.2|STANDARD_ERROR_OF_MEAN|4.98|||TWO_SIDED|90.0|-10.3|6.0||||||Week 1||6.0|-10.3|
92198549|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|2.0|STANDARD_ERROR_OF_MEAN|5.64|||TWO_SIDED|90.0|-7.3|11.3||||||Week 1||11.3|-7.3|
92198550|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|6.8|STANDARD_ERROR_OF_MEAN|6.47|||TWO_SIDED|90.0|-3.9|17.4||||||Week 1||17.4|-3.9|
92198551|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|10.7|STANDARD_ERROR_OF_MEAN|7.74|||TWO_SIDED|90.0|-2.0|23.4||||||Week 2||23.4|-2.0|
92198552|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|7.6|STANDARD_ERROR_OF_MEAN|7.34|||TWO_SIDED|90.0|-4.5|19.7||||||Week 2||19.7|-4.5|
92198553|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|7.5|STANDARD_ERROR_OF_MEAN|7.36|||TWO_SIDED|90.0|-4.6|19.6||||||Week 2||19.6|-4.6|
92198554|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|7.4|STANDARD_ERROR_OF_MEAN|7.95|||TWO_SIDED|90.0|-5.7|20.5||||||Week 4||20.5|-5.7|
92198555|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|15.1|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|90.0|1.4|28.7||||||Week 4||28.7|1.4|
92198556|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|4.8|STANDARD_ERROR_OF_MEAN|7.74|||TWO_SIDED|90.0|-8.0|17.5||||||Week 4||17.5|-8.0|
92198557|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|14.3|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|90.0|0.7|28.0||||||Week 6||28.0|0.7|
92322705|NCT01385137|184549193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72||||0.77|TWO_SIDED|95.0|-4.17|5.6|||Regression, Linear|||||5.60|-4.17|0.77
92322706|NCT01385137|184549194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.14||||0.21|TWO_SIDED|95.0|-1.16|5.44|||Regression, Linear|||||5.44|-1.16|0.21
92198558|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|10.9|STANDARD_ERROR_OF_MEAN|7.96|||TWO_SIDED|90.0|-2.2|24.0||||||Week 6||24.0|-2.2|
92322707|NCT03634033|184549242|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) on adoption and sustainability using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|10.89|STANDARD_DEVIATION|18.17||0.22|TWO_SIDED|95.0|-7.27|29.05||A priori threshold for statistical significance was .05|t-test, 2 sided|16 degrees of freedom for the t-test comparing two independent groups, n=9 each.||Given 18 sites (9 in each arm) available in Michigan, in the comparison of site-level outcome of adoption and sustainability, the detectable effect size with power of 0.80 in two-sided tests at .05 level of significance was d=1.41.||29.05|-7.27|0.22
92322708|NCT03634033|184549243|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) on beneficiaries ADLs at exit using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.23||0.73|TWO_SIDED|95.0|-0.16|0.73||A priori threshold for statistical significance was .05; no adjustments for multiple comparisons|Mixed Models Analysis|F-test was used built into mixed models that adjusted for clustering via a random effect of site.|IF minus IF+EF|Adjusted means at month 9 were calculated adjusting for baseline value of the outcome and nesting of participants within sites.||0.73|-0.16|0.73
92322709|NCT03634033|184549244|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) needed on beneficiaries IADLs using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.15|TWO_SIDED|95.0|-0.11|0.72||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|Mixed Models Analysis|F-test was used built into mixed models that adjusted for clustering.|IF minus IF+EF|Post-intervention means were compared adjusting for baseline values and nesting of participants within sites.||0.72|-0.11|0.15
92322710|NCT03634033|184549245|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) needed on beneficiaries pain at exit using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.16||0.61|TWO_SIDED|95.0|-0.23|0.39||Threshold for statistical significance was.05; no adjustments for multiple comparisons|Mixed Models Analysis|F-test was used built into mixed models that adjusted for clustering.|IF minus IF+EF|||0.39|-0.23|0.61
92322711|NCT03634033|184549246|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) needed on beneficiaries depression (baseline to exit) using an evidence-based intervention (CAPABLE).|LS Means|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.04|TWO_SIDED|95.0|0.01|0.24|||F-test|F-test was used (related to the t-test arithmetically), built into mixed models that adjusted for clustering.||||0.24|0.01|0.04
92322712|NCT03634033|184549247|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) on beneficiaries fall rates at exit after an evidence-based intervention (CAPABLE).|Odds Ratio (OR)|1.16|STANDARD_ERROR_OF_MEAN|0.01||0.18|TWO_SIDED|95.0|0.93|1.45|||Mixed Models Analysis|||||1.45|0.93|0.18
92322713|NCT03634033|184549247|SUPERIORITY||Odds Ratio (OR)|1.16||||0.18|TWO_SIDED|95.0|0.93|1.45||Threshold for statistical significance was .05; no adjustment for multiple comparisons.|Mixed Models Analysis||Odds ratio for IF versus IF+EF|Occurrence of falls was analyzed with adjustment for baseline and nesting of participants within sites.||1.45|0.93|.18
92198559|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|10.6|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|90.0|-2.6|23.9||||||Week 6||23.9|-2.6|
92322714|NCT03634033|184549248|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) on beneficiaries ED Visits at exit after an evidence-based intervention (CAPABLE).|Odds Ratio (OR)|0.98|STANDARD_ERROR_OF_MEAN|0.01||0.86|TWO_SIDED|95.0|0.79|1.22||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|Mixed Models Analysis|Adjustment for baseline and nesting of participants within sites.||||1.22|0.79|0.86
92198560|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|10.1|STANDARD_ERROR_OF_MEAN|8.38||0.1162|TWO_SIDED|90.0|-3.6|23.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||23.9|-3.6|0.1162
92322715|NCT03634033|184549249|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) needed on beneficiaries hospitalizations (baseline to exit) using an evidence-based intervention (CAPABLE).|Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|1.01||0.95|TWO_SIDED|95.0|0.72|1.42|||F-test|F-test was used (related to the t-test arithmetically), built into mixed models that adjusted for clustering.||||1.42|0.72|0.95
92322716|NCT03634033|184549250|SUPERIORITY|Examination of clinician attitude on facilitation (IF vs IF+EF) at exit when using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|5.11|STANDARD_ERROR_OF_MEAN|2.55||0.05|TWO_SIDED|95.0|0.09|10.14|||Mixed Models Analysis|||Mixed modeling was used to account for nesting of clinicians within sites.||10.14|0.09|0.05
92322717|NCT03634033|184549251|OTHER|Examination of clinician self-efficacy on facilitation (IF vs IF+EF) (baseline to exit) when using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.36||0.54|TWO_SIDED|95.0|-0.51|0.97||Threshold for statistical significance was .05 with no adjustments for multiple testing.|Mixed Models Analysis|Nesting of clinicians within site was adjusted for as a random effect.||||0.97|-0.51|0.54
92322718|NCT03634033|184549254|SUPERIORITY|Pre-/post-intervention comparison.|Mean Difference (Net)|-2.69|STANDARD_ERROR_OF_MEAN|1.63|<|0.01|TWO_SIDED|95.0|-3.96|-1.42|||t-test, 2 sided||Pre minus post|Pain||-1.42|-3.96|<.01
92322719|NCT03634033|184549254|SUPERIORITY||Mean Difference (Net)|1.05|STANDARD_ERROR_OF_MEAN|1.9||0.58|TWO_SIDED|95.0|-2.8|4.91||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|t-test, 2 sided|||ADL||4.91|-2.80|.58
92322720|NCT03634033|184549254|SUPERIORITY||Mean Difference (Net)|1.05|STANDARD_ERROR_OF_MEAN|1.29||0.44|TWO_SIDED|95.0|-2.8|4.91||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|t-test, 2 sided|||IADL||4.91|-2.80|.44
92198561|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|13.1|STANDARD_ERROR_OF_MEAN|8.43||0.0642|TWO_SIDED|90.0|-0.8|27.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||27.0|-0.8|0.0642
92198562|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|8.1|STANDARD_ERROR_OF_MEAN|8.36||0.1664|TWO_SIDED|90.0|-5.7|21.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||21.8|-5.7|0.1664
92198563|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|7.2|STANDARD_ERROR_OF_MEAN|8.1||0.1882|TWO_SIDED|90.0|-6.1|20.5||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||20.5|-6.1|0.1882
92198564|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|14.9|STANDARD_ERROR_OF_MEAN|8.43||0.0423|TWO_SIDED|90.0|1.1|28.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||28.8|1.1|0.0423
92198565|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|3.3|STANDARD_ERROR_OF_MEAN|7.9||0.3396|TWO_SIDED|90.0|-9.7|16.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||16.3|-9.7|0.3396
92198566|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|2.7|STANDARD_ERROR_OF_MEAN|7.35||0.3584|TWO_SIDED|90.0|-9.4|14.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||14.8|-9.4|0.3584
92322721|NCT03634033|184549254|SUPERIORITY||Mean Difference (Net)|1.46|STANDARD_ERROR_OF_MEAN|1.63||0.38|TWO_SIDED|95.0|-1.85|4.77||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|t-test, 2 sided||Pre minus post|Depression||4.77|-1.85|.38
92322722|NCT03634033|184549255|SUPERIORITY|Self-efficacy|Mean Difference (Net)|-0.81|STANDARD_DEVIATION|0.11|<|0.01|TWO_SIDED|95.0|-1.02|-0.6||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|t-test, 2 sided||Pre minus post|Self-efficacy change baseline (month-0) to exit (month-4).||-0.60|-1.02|<0.01
92322723|NCT03634033|184549256|OTHER|Score on scale.|Mean|8.09|STANDARD_DEVIATION|1.6|<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<.01
92322724|NCT03634033|184549256|OTHER||Mean|7.55|STANDARD_DEVIATION|2.06|<|0.01|TWO_SIDED||||||t-test, 2 sided|||Satisfaction with format||||<.01
92198567|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|14.9|STANDARD_ERROR_OF_MEAN|8.17||0.0367|TWO_SIDED|90.0|1.5|28.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||28.3|1.5|0.0367
92198568|NCT04092452|184295492|SUPERIORITY||Risk Difference (RD)|5.2|STANDARD_ERROR_OF_MEAN|7.65||0.2486|TWO_SIDED|90.0|-7.4|17.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||17.8|-7.4|0.2486
92198569|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|0.295|||TWO_SIDED|90.0|-0.69|0.29||||||Week 1-HSS0101-Pain At It's Worst||0.29|-0.69|
92198570|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.48|STANDARD_ERROR_OF_MEAN|0.287|||TWO_SIDED|90.0|-0.96|-0.01||||||Week 1-HSS0101-Pain At It's Worst||-0.01|-0.96|
92198571|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.42|STANDARD_ERROR_OF_MEAN|0.295|||TWO_SIDED|90.0|-0.91|0.06||||||Week 1-HSS0101-Pain At It's Worst||0.06|-0.91|
92322725|NCT03634033|184549256|OTHER||Mean|8.35|STANDARD_DEVIATION|1.5|<|0.01|TWO_SIDED||||||Difference from zero|||Satisfaction with newness of content for caregiver||||<.01
92322726|NCT03634033|184549256|OTHER||Mean|7.85|STANDARD_DEVIATION|1.92|<|0.01|TWO_SIDED||||||Difference from zero|||Satisfaction with newness of content for clinician||||<.01
92322727|NCT03634033|184549256|OTHER||Mean|7.85|STANDARD_DEVIATION|1.92|<|0.01|TWO_SIDED||||||Difference from zero|||Intent to use new information||||<.01
92322728|NCT02162719|184549267|SUPERIORITY||Hazard Ratio (Stratified Analysis)|0.6||||0.0372|TWO_SIDED|90.0|0.4|0.91||Stratification variables were adjuvant/neoadjuvant treatment including treatment with or without radiation, disease-free interval from last dose (\<=12 vs \>12 months vs. no prior chemotherapy), PTEN status of tumor (H-score 0, vs. 1 to 150, vs. \>150).|Log Rank|||||0.91|0.40|0.0372
92198572|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|0.392|||TWO_SIDED|90.0|-0.95|0.35||||||Week 2-HSS0101-Pain At It's Worst||0.35|-0.95|
92322729|NCT02162719|184549268|SUPERIORITY||Hazard Ratio (Stratified Analysis)|0.59||||0.1753|TWO_SIDED|90.0|0.3|1.16||Stratification variables were adjuvant/neoadjuvant treatment including treatment with or without radiation, disease-free interval from last dose (\<=12 vs \>12 months vs. no prior chemotherapy), PTEN status of tumor (H-score 0, vs. 1 to 150, vs. \>150).|Log Rank|||||1.16|0.30|0.1753
92322730|NCT02162719|184549269|SUPERIORITY||Hazard Ratio (Unstratified Analysis)|0.76||||0.3636|TWO_SIDED|90.0|0.46|1.27|||Log Rank|||||1.27|0.46|0.3636
92198573|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.71|STANDARD_ERROR_OF_MEAN|0.377|||TWO_SIDED|90.0|-1.33|-0.08||||||Week 2-HSS0101-Pain At It's Worst||-0.08|-1.33|
92198574|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.391|||TWO_SIDED|90.0|-1.21|0.08||||||Week 2-HSS0101-Pain At It's Worst||0.08|-1.21|
92198575|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.481|||TWO_SIDED|90.0|-0.54|1.05||||||Week 4-HSS0101-Pain At It's Worst||1.05|-0.54|
92198576|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.39|STANDARD_ERROR_OF_MEAN|0.458|||TWO_SIDED|90.0|-1.15|0.37||||||Week 4-HSS0101-Pain At It's Worst||0.37|-1.15|
92198577|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.06|STANDARD_ERROR_OF_MEAN|0.478|||TWO_SIDED|90.0|-0.85|0.73||||||Week 4-HSS0101-Pain At It's Worst||0.73|-0.85|
92198578|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.62|STANDARD_ERROR_OF_MEAN|0.524|||TWO_SIDED|90.0|-0.24|1.49||||||Week 6-HSS0101-Pain At It's Worst||1.49|-0.24|
92198579|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.19|STANDARD_ERROR_OF_MEAN|0.505|||TWO_SIDED|90.0|-1.03|0.64||||||Week 6-HSS0101-Pain At It's Worst||0.64|-1.03|
92198580|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.21|STANDARD_ERROR_OF_MEAN|0.526|||TWO_SIDED|90.0|-0.66|1.08||||||Week 6-HSS0101-Pain At It's Worst||1.08|-0.66|
92198581|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.24|STANDARD_ERROR_OF_MEAN|0.558|||TWO_SIDED|90.0|-0.69|1.16||||||Week 8-HSS0101-Pain At It's Worst||1.16|-0.69|
92198582|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.539|||TWO_SIDED|90.0|-1.21|0.57||||||Week 8-HSS0101-Pain At It's Worst||0.57|-1.21|
92198583|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.44|STANDARD_ERROR_OF_MEAN|0.565|||TWO_SIDED|90.0|-0.49|1.38||||||Week 8-HSS0101-Pain At It's Worst||1.38|-0.49|
92322731|NCT02162719|184549270|SUPERIORITY||Hazard Ratio (Stratified Analysis)|0.8||||0.3607|TWO_SIDED|95.0|0.5|1.28||Stratification variables were adjuvant/neoadjuvant treatment including treatment with/without radiation, disease-free interval from last dose (\<=12 vs \>12 months vs. no prior chemotherapy), PTEN status of tumor (H-score 0, vs. 1 to 150, vs. \>150).|Log Rank|||||1.28|0.50|0.3607
92198584|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.578|||TWO_SIDED|90.0|-0.79|1.12||||||Week 12-HSS0101-Pain At It's Worst||1.12|-0.79|
92198585|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.68|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|90.0|-1.59|0.23||||||Week 12-HSS0101-Pain At It's Worst||0.23|-1.59|
92198586|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.08|STANDARD_ERROR_OF_MEAN|0.576|||TWO_SIDED|90.0|-0.88|1.03||||||Week 12-HSS0101-Pain At It's Worst||1.03|-0.88|
92198587|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.08|STANDARD_ERROR_OF_MEAN|0.631|||TWO_SIDED|90.0|-0.96|1.13||||||Week 16-HSS0101-Pain At It's Worst||1.13|-0.96|
92198588|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-1.25|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-2.24|-0.25||||||Week 16-HSS0101-Pain At It's Worst||-0.25|-2.24|
92198589|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.91|STANDARD_ERROR_OF_MEAN|0.628|||TWO_SIDED|90.0|-1.95|0.13||||||Week 16-HSS0101-Pain At It's Worst||0.13|-1.95|
92198590|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.01|STANDARD_ERROR_OF_MEAN|0.286|||TWO_SIDED|90.0|-0.47|0.48||||||Week 1-HSS0102-Tenderness At It's Worst||0.48|-0.47|
92322732|NCT02162719|184549271|SUPERIORITY||Hazard Ratio (Stratified Analysis)|0.73||||0.4422|TWO_SIDED|95.0|0.32|1.65||Stratification variables were adjuvant/neoadjuvant treatment including treatment with/without radiation, disease-free interval from last dose (\<=12 vs \>12 months vs. no prior chemotherapy), PTEN status of tumor (H-score 0, vs. 1 to 150, vs. \>150).|Log Rank|||||1.65|0.32|0.4422
92198591|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.28|STANDARD_ERROR_OF_MEAN|0.278|||TWO_SIDED|90.0|-0.75|0.18||||||Week 1-HSS0102-Tenderness At It's Worst||0.18|-0.75|
92198592|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.31|STANDARD_ERROR_OF_MEAN|0.286|||TWO_SIDED|90.0|-0.78|0.17||||||Week 1-HSS0102-Tenderness At It's Worst||0.17|-0.78|
92198593|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.22|STANDARD_ERROR_OF_MEAN|0.361|||TWO_SIDED|90.0|-0.81|0.38||||||Week 2-HSS0102-Tenderness At It's Worst||0.38|-0.81|
92198594|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|0.347|||TWO_SIDED|90.0|-0.97|0.18||||||Week 2-HSS0102-Tenderness At It's Worst||0.18|-0.97|
92198595|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.46|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-1.05|0.14||||||Week 2-HSS0102-Tenderness At It's Worst||0.14|-1.05|
92198596|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.22|STANDARD_ERROR_OF_MEAN|0.471|||TWO_SIDED|90.0|-0.56|1.0||||||Week 4-HSS0102-Tenderness At It's Worst||1.00|-0.56|
92322733|NCT02162719|184549272|SUPERIORITY||Hazard Ratio (Unstratified Analysis)|1.13||||0.7599|TWO_SIDED|95.0|0.52|2.47|||Log Rank|||||2.47|0.52|0.7599
92322734|NCT00614523|184549302|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.83||||0.13|TWO_SIDED|95.0|0.66|1.05|||Anderson-Gill model|Anderson-Gill model using the model-based variance estimate and stratified by the randomization stratification factors|Romiplostim /Placebo|||1.05|0.66|0.13
92322735|NCT00614523|184549303|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.766|||<|0.001|TWO_SIDED|95.0|0.66|0.88|||Poisson regression model|Poisson regression model with treatment and stratification factors as covariates.|Romiplostim /Placebo|||0.88|0.66|<0.001
92322736|NCT00614523|184549304|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.922||||0.026|TWO_SIDED|95.0|0.86|0.99|||Poisson regression model|Poisson regression model with treatment and stratification factors as covariates.|Romiplostim /Placebo|||0.99|0.86|0.026
92198597|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.25|STANDARD_ERROR_OF_MEAN|0.448|||TWO_SIDED|90.0|-0.99|0.49||||||Week 4-HSS0102-Tenderness At It's Worst||0.49|-0.99|
92198598|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.11|STANDARD_ERROR_OF_MEAN|0.468|||TWO_SIDED|90.0|-0.88|0.67||||||Week 4-HSS0102-Tenderness At It's Worst||0.67|-0.88|
92198599|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.48|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|90.0|-0.38|1.34||||||Week 6-HSS0102-Tenderness At It's Worst||1.34|-0.38|
92198600|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.23|STANDARD_ERROR_OF_MEAN|0.501|||TWO_SIDED|90.0|-1.06|0.6||||||Week 6-HSS0102-Tenderness At It's Worst||0.60|-1.06|
92198601|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.01|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-0.86|0.87||||||Week 6-HSS0102-Tenderness At It's Worst||0.87|-0.86|
92198602|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.542|||TWO_SIDED|90.0|-0.81|0.99||||||Week 8-HSS0102-Tenderness At It's Worst||0.99|-0.81|
92198603|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.25|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-1.11|0.62||||||Week 8-HSS0102-Tenderness At It's Worst||0.62|-1.11|
92198604|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.35|STANDARD_ERROR_OF_MEAN|0.549|||TWO_SIDED|90.0|-0.56|1.25||||||Week 8-HSS0102-Tenderness At It's Worst||1.25|-0.56|
92198605|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.554|||TWO_SIDED|90.0|-0.87|0.97||||||Week 12-HSS0102-Tenderness At It's Worst||0.97|-0.87|
92198606|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.49|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-1.36|0.38||||||Week 12-HSS0102-Tenderness At It's Worst||0.38|-1.36|
92198607|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.552|||TWO_SIDED|90.0|-0.9|0.93||||||Week 12-HSS0102-Tenderness At It's Worst||0.93|-0.90|
92198608|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.04|STANDARD_ERROR_OF_MEAN|0.606|||TWO_SIDED|90.0|-0.96|1.04||||||Week 16-HSS0102-Tenderness At It's Worst||1.04|-0.96|
92198609|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-1.24|STANDARD_ERROR_OF_MEAN|0.577|||TWO_SIDED|90.0|-2.19|-0.29||||||Week 16-HSS0102-Tenderness At It's Worst||-0.29|-2.19|
92198610|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-1.11|STANDARD_ERROR_OF_MEAN|0.603|||TWO_SIDED|90.0|-2.11|-0.11||||||Week 16-HSS0102-Tenderness At It's Worst||-0.11|-2.11|
92198611|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.284|||TWO_SIDED|90.0|-0.57|0.37||||||Week 1-HSS0103-Swelling At It's Worst||0.37|-0.57|
92198612|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.23|STANDARD_ERROR_OF_MEAN|0.278|||TWO_SIDED|90.0|-0.69|0.22||||||Week 1-HSS0103-Swelling At It's Worst||0.22|-0.69|
92198613|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.47|STANDARD_ERROR_OF_MEAN|0.285|||TWO_SIDED|90.0|-0.94|0.01||||||Week 1-HSS0103-Swelling At It's Worst||0.01|-0.94|
92198614|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.24|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.83|0.35||||||Week 2-HSS0103-Swelling At It's Worst||0.35|-0.83|
92198615|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.46|STANDARD_ERROR_OF_MEAN|0.345|||TWO_SIDED|90.0|-1.03|0.11||||||Week 2-HSS0103-Swelling At It's Worst||0.11|-1.03|
92198616|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.99|0.19||||||Week 2-HSS0103-Swelling At It's Worst||0.19|-0.99|
92198617|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.446|||TWO_SIDED|90.0|-0.58|0.9||||||Week 4-HSS0103-Swelling At It's Worst||0.90|-0.58|
92198618|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.424|||TWO_SIDED|90.0|-0.87|0.53||||||Week 4-HSS0103-Swelling At It's Worst||0.53|-0.87|
92198619|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.443|||TWO_SIDED|90.0|-0.65|0.82||||||Week 4-HSS0103-Swelling At It's Worst||0.82|-0.65|
92198620|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.7|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|90.0|-0.15|1.54||||||Week 6-HSS0103-Swelling At It's Worst||1.54|-0.15|
92198621|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.02|STANDARD_ERROR_OF_MEAN|0.493|||TWO_SIDED|90.0|-0.83|0.8||||||Week 6-HSS0103-Swelling At It's Worst||0.80|-0.83|
92198622|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.513|||TWO_SIDED|90.0|-0.62|1.08||||||Week 6-HSS0103-Swelling At It's Worst||1.08|-0.62|
92198623|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.29|STANDARD_ERROR_OF_MEAN|0.507|||TWO_SIDED|90.0|-0.55|1.13||||||Week 8-HSS0103-Swelling At It's Worst||1.13|-0.55|
92198624|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.489|||TWO_SIDED|90.0|-0.81|0.81||||||Week 8-HSS0103-Swelling At It's Worst||0.81|-0.81|
92198625|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|0.514|||TWO_SIDED|90.0|-0.35|1.35||||||Week 8-HSS0103-Swelling At It's Worst||1.35|-0.35|
92198626|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.07|STANDARD_ERROR_OF_MEAN|0.532|||TWO_SIDED|90.0|-0.81|0.95||||||Week 12-HSS0103-Swelling At It's Worst||0.95|-0.81|
92198627|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.47|STANDARD_ERROR_OF_MEAN|0.505|||TWO_SIDED|90.0|-1.3|0.37||||||Week 12-HSS0103-Swelling At It's Worst||0.37|-1.30|
92198628|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.04|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-0.92|0.84||||||Week 12-HSS0103-Swelling At It's Worst||0.84|-0.92|
92198629|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.589|||TWO_SIDED|90.0|-0.75|1.2||||||Week 16-HSS0103-Swelling At It's Worst||1.20|-0.75|
92198630|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-1.06|STANDARD_ERROR_OF_MEAN|0.561|||TWO_SIDED|90.0|-1.99|-0.13||||||Week 16-HSS0103-Swelling At It's Worst||-0.13|-1.99|
92198631|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-1.02|STANDARD_ERROR_OF_MEAN|0.586|||TWO_SIDED|90.0|-1.99|-0.05||||||Week 16-HSS0103-Swelling At It's Worst||-0.05|-1.99|
92198632|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.262|||TWO_SIDED|90.0|-0.27|0.59||||||Week 1-HSS0104-Tiredness At It's Worst||0.59|-0.27|
92198633|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|90.0|-0.99|-0.15||||||Week 1-HSS0104-Tiredness At It's Worst||-0.15|-0.99|
92198634|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.262|||TWO_SIDED|90.0|-0.35|0.52||||||Week 1-HSS0104-Tiredness At It's Worst||0.52|-0.35|
92198635|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.06|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.54|0.65||||||Week 2-HSS0104-Tiredness At It's Worst||0.65|-0.54|
92198636|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.44|STANDARD_ERROR_OF_MEAN|0.344|||TWO_SIDED|90.0|-1.01|0.13||||||Week 2-HSS0104-Tiredness At It's Worst||0.13|-1.01|
92198637|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.356|||TWO_SIDED|90.0|-0.33|0.85||||||Week 2-HSS0104-Tiredness At It's Worst||0.85|-0.33|
92198638|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.12|STANDARD_ERROR_OF_MEAN|0.434|||TWO_SIDED|90.0|-0.83|0.6||||||Week 4-HSS0104-Tiredness At It's Worst||0.60|-0.83|
92198639|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.81|STANDARD_ERROR_OF_MEAN|0.414|||TWO_SIDED|90.0|-1.49|-0.12||||||Week 4-HSS0104-Tiredness At It's Worst||-0.12|-1.49|
92198640|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.14|STANDARD_ERROR_OF_MEAN|0.431|||TWO_SIDED|90.0|-0.86|0.57||||||Week 4-HSS0104-Tiredness At It's Worst||0.57|-0.86|
92198641|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.04|STANDARD_ERROR_OF_MEAN|0.483|||TWO_SIDED|90.0|-0.76|0.84||||||Week 6-HSS0104-Tiredness At It's Worst||0.84|-0.76|
92198642|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.52|STANDARD_ERROR_OF_MEAN|0.466|||TWO_SIDED|90.0|-1.29|0.26||||||Week 6-HSS0104-Tiredness At It's Worst||0.26|-1.29|
92198643|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.485|||TWO_SIDED|90.0|-0.68|0.92||||||Week 6-HSS0104-Tiredness At It's Worst||0.92|-0.68|
92198644|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.483|||TWO_SIDED|90.0|-0.96|0.63||||||Week 8-HSS0104-Tiredness At It's Worst||0.63|-0.96|
92198645|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.53|STANDARD_ERROR_OF_MEAN|0.466|||TWO_SIDED|90.0|-1.31|0.24||||||Week 8-HSS0104-Tiredness At It's Worst||0.24|-1.31|
92198646|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.11|STANDARD_ERROR_OF_MEAN|0.488|||TWO_SIDED|90.0|-0.69|0.92||||||Week 8-HSS0104-Tiredness At It's Worst||0.92|-0.69|
92198647|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.34|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-1.21|0.53||||||Week 12-HSS0104-Tiredness At It's Worst||0.53|-1.21|
92198648|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.81|STANDARD_ERROR_OF_MEAN|0.503|||TWO_SIDED|90.0|-1.64|0.02||||||Week 12-HSS0104-Tiredness At It's Worst||0.02|-1.64|
92198649|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.15|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-0.72|1.02||||||Week 12-HSS0104-Tiredness At It's Worst||1.02|-0.72|
92198650|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.22|STANDARD_ERROR_OF_MEAN|0.559|||TWO_SIDED|90.0|-0.7|1.15||||||Week 16-HSS0104-Tiredness At It's Worst||1.15|-0.70|
92198651|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.56|STANDARD_ERROR_OF_MEAN|0.532|||TWO_SIDED|90.0|-1.44|0.32||||||Week 16-HSS0104-Tiredness At It's Worst||0.32|-1.44|
92198652|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.557|||TWO_SIDED|90.0|-0.83|1.01||||||Week 16-HSS0104-Tiredness At It's Worst||1.01|-0.83|
92198653|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.264|||TWO_SIDED|90.0|-0.39|0.49||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.49|-0.39|
92198654|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.257|||TWO_SIDED|90.0|-0.75|0.1||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.10|-0.75|
92198655|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.02|STANDARD_ERROR_OF_MEAN|0.266|||TWO_SIDED|90.0|-0.46|0.42||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.42|-0.46|
92198656|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.333|||TWO_SIDED|90.0|-0.65|0.45||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||0.45|-0.65|
92198657|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.8|STANDARD_ERROR_OF_MEAN|0.321|||TWO_SIDED|90.0|-1.33|-0.27||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||-0.27|-1.33|
92198658|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.36|STANDARD_ERROR_OF_MEAN|0.333|||TWO_SIDED|90.0|-0.91|0.19||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||0.19|-0.91|
92198659|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.32|STANDARD_ERROR_OF_MEAN|0.411|||TWO_SIDED|90.0|-0.36|1.0||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||1.00|-0.36|
92198660|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.94|STANDARD_ERROR_OF_MEAN|0.393|||TWO_SIDED|90.0|-1.59|-0.29||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||-0.29|-1.59|
92198661|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.29|STANDARD_ERROR_OF_MEAN|0.411|||TWO_SIDED|90.0|-0.97|0.39||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||0.39|-0.97|
92198662|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.55|STANDARD_ERROR_OF_MEAN|0.454|||TWO_SIDED|90.0|-0.2|1.3||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||1.30|-0.20|
92198663|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.69|STANDARD_ERROR_OF_MEAN|0.439|||TWO_SIDED|90.0|-1.41|0.04||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||0.04|-1.41|
92198664|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.456|||TWO_SIDED|90.0|-0.85|0.66||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||0.66|-0.85|
92198665|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.15|STANDARD_ERROR_OF_MEAN|0.491|||TWO_SIDED|90.0|-0.96|0.66||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||0.66|-0.96|
92198666|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-1.11|STANDARD_ERROR_OF_MEAN|0.473|||TWO_SIDED|90.0|-1.89|-0.33||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||-0.33|-1.89|
92198667|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|0.497|||TWO_SIDED|90.0|-1.13|0.52||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||0.52|-1.13|
92198668|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.547|||TWO_SIDED|90.0|-0.86|0.95||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||0.95|-0.86|
92198669|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.87|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-1.73|-0.01||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||-0.01|-1.73|
92198670|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.547|||TWO_SIDED|90.0|-0.78|1.03||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||1.03|-0.78|
92198671|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|0.39|STANDARD_ERROR_OF_MEAN|0.602|||TWO_SIDED|90.0|-0.6|1.39||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||1.39|-0.60|
92198672|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.95|STANDARD_ERROR_OF_MEAN|0.574|||TWO_SIDED|90.0|-1.9|0.0||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||0.00|-1.90|
92198673|NCT04092452|184295498|SUPERIORITY||Risk Difference (RD)|-0.01|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-1.0|0.99||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||0.99|-1.00|
92198674|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|0.295|||TWO_SIDED|90.0|-0.69|0.29||||||Week 1-HSS0101-Pain At It's Worst||0.29|-0.69|
92198675|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.48|STANDARD_ERROR_OF_MEAN|0.287|||TWO_SIDED|90.0|-0.96|-0.01||||||Week 1-HSS0101-Pain At It's Worst||-0.01|-0.96|
92198676|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.42|STANDARD_ERROR_OF_MEAN|0.295|||TWO_SIDED|90.0|-0.91|0.06||||||Week 1-HSS0101-Pain At It's Worst||0.06|-0.91|
92198677|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|0.392|||TWO_SIDED|90.0|-0.95|0.35||||||Week 2-HSS0101-Pain At It's Worst||0.35|-0.95|
92198678|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.71|STANDARD_ERROR_OF_MEAN|0.377|||TWO_SIDED|90.0|-1.33|-0.08||||||Week 2-HSS0101-Pain At It's Worst||-0.08|-1.33|
92198679|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.391|||TWO_SIDED|90.0|-1.21|0.08||||||Week 2-HSS0101-Pain At It's Worst||0.08|-1.21|
92198680|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.481|||TWO_SIDED|90.0|-0.54|1.05||||||Week 4-HSS0101-Pain At It's Worst||1.05|-0.54|
92198681|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.39|STANDARD_ERROR_OF_MEAN|0.458|||TWO_SIDED|90.0|-1.15|0.37||||||Week 4-HSS0101-Pain At It's Worst||0.37|-1.15|
92198682|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.06|STANDARD_ERROR_OF_MEAN|0.478|||TWO_SIDED|90.0|-0.85|0.73||||||Week 4-HSS0101-Pain At It's Worst||0.73|-0.85|
92198683|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.62|STANDARD_ERROR_OF_MEAN|0.524|||TWO_SIDED|90.0|-0.24|1.49||||||Week 6-HSS0101-Pain At It's Worst||1.49|-0.24|
92198684|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.19|STANDARD_ERROR_OF_MEAN|0.505|||TWO_SIDED|90.0|-1.03|0.64||||||Week 6-HSS0101-Pain At It's Worst||0.64|-1.03|
92198685|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.21|STANDARD_ERROR_OF_MEAN|0.526|||TWO_SIDED|90.0|-0.66|1.08||||||Week 6-HSS0101-Pain At It's Worst||1.08|-0.66|
92198686|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.24|STANDARD_ERROR_OF_MEAN|0.558|||TWO_SIDED|90.0|-0.69|1.16||||||Week 8-HSS0101-Pain At It's Worst||1.16|-0.69|
92198687|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.539|||TWO_SIDED|90.0|-1.21|0.57||||||Week 8-HSS0101-Pain At It's Worst||0.57|-1.21|
92198688|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.44|STANDARD_ERROR_OF_MEAN|0.565|||TWO_SIDED|90.0|-0.49|1.38||||||Week 8-HSS0101-Pain At It's Worst||1.38|-0.49|
92198689|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.578|||TWO_SIDED|90.0|-0.79|1.12||||||Week 12-HSS0101-Pain At It's Worst||1.12|-0.79|
92198690|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.68|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|90.0|-1.59|0.23||||||Week 12-HSS0101-Pain At It's Worst||0.23|-1.59|
92198691|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.08|STANDARD_ERROR_OF_MEAN|0.576|||TWO_SIDED|90.0|-0.88|1.03||||||Week 12-HSS0101-Pain At It's Worst||1.03|-0.88|
92198692|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.08|STANDARD_ERROR_OF_MEAN|0.631|||TWO_SIDED|90.0|-0.96|1.13||||||Week 16-HSS0101-Pain At It's Worst||1.13|-0.96|
92198693|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-1.25|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-2.24|-0.25||||||Week 16-HSS0101-Pain At It's Worst||-0.25|-2.24|
92198694|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.91|STANDARD_ERROR_OF_MEAN|0.628|||TWO_SIDED|90.0|-1.95|0.13||||||Week 16-HSS0101-Pain At It's Worst||0.13|-1.95|
92198695|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.01|STANDARD_ERROR_OF_MEAN|0.286|||TWO_SIDED|90.0|-0.47|0.48||||||Week 1-HSS0102-Tenderness At It's Worst||0.48|-0.47|
92198696|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.28|STANDARD_ERROR_OF_MEAN|0.278|||TWO_SIDED|90.0|-0.75|0.18||||||Week 1-HSS0102-Tenderness At It's Worst||0.18|-0.75|
92198697|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.31|STANDARD_ERROR_OF_MEAN|0.286|||TWO_SIDED|90.0|-0.78|0.17||||||Week 1-HSS0102-Tenderness At It's Worst||0.17|-0.78|
92198698|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.22|STANDARD_ERROR_OF_MEAN|0.361|||TWO_SIDED|90.0|-0.81|0.38||||||Week 2-HSS0102-Tenderness At It's Worst||0.38|-0.81|
92198699|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|0.347|||TWO_SIDED|90.0|-0.97|0.18||||||Week 2-HSS0102-Tenderness At It's Worst||0.18|-0.97|
92198700|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.46|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-1.05|0.14||||||Week 2-HSS0102-Tenderness At It's Worst||0.14|-1.05|
92198701|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.22|STANDARD_ERROR_OF_MEAN|0.471|||TWO_SIDED|90.0|-0.56|1.0||||||Week 4-HSS0102-Tenderness At It's Worst||1.00|-0.56|
92198702|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.25|STANDARD_ERROR_OF_MEAN|0.448|||TWO_SIDED|90.0|-0.99|0.49||||||Week 4-HSS0102-Tenderness At It's Worst||0.49|-0.99|
92198703|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.11|STANDARD_ERROR_OF_MEAN|0.468|||TWO_SIDED|90.0|-0.88|0.67||||||Week 4-HSS0102-Tenderness At It's Worst||0.67|-0.88|
92198704|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.48|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|90.0|-0.38|1.34||||||Week 6-HSS0102-Tenderness At It's Worst||1.34|-0.38|
92198705|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.23|STANDARD_ERROR_OF_MEAN|0.501|||TWO_SIDED|90.0|-1.06|0.6||||||Week 6-HSS0102-Tenderness At It's Worst||0.60|-1.06|
92198706|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.01|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-0.86|0.87||||||Week 6-HSS0102-Tenderness At It's Worst||0.87|-0.86|
92198707|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.542|||TWO_SIDED|90.0|-0.81|0.99||||||Week 8-HSS0102-Tenderness At It's Worst||0.99|-0.81|
92198708|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.25|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-1.11|0.62||||||Week 8-HSS0102-Tenderness At It's Worst||0.62|-1.11|
92198709|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.35|STANDARD_ERROR_OF_MEAN|0.549|||TWO_SIDED|90.0|-0.56|1.25||||||Week 8-HSS0102-Tenderness At It's Worst||1.25|-0.56|
92198710|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.554|||TWO_SIDED|90.0|-0.87|0.97||||||Week 12-HSS0102-Tenderness At It's Worst||0.97|-0.87|
92198711|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.49|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-1.36|0.38||||||Week 12-HSS0102-Tenderness At It's Worst||0.38|-1.36|
92198712|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.552|||TWO_SIDED|90.0|-0.9|0.93||||||Week 12-HSS0102-Tenderness At It's Worst||0.93|-0.90|
92198713|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.04|STANDARD_ERROR_OF_MEAN|0.606|||TWO_SIDED|90.0|-0.96|1.04||||||Week 16-HSS0102-Tenderness At It's Worst||1.04|-0.96|
92198714|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-1.24|STANDARD_ERROR_OF_MEAN|0.577|||TWO_SIDED|90.0|-2.19|-0.29||||||Week 16-HSS0102-Tenderness At It's Worst||-0.29|-2.19|
92198715|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-1.11|STANDARD_ERROR_OF_MEAN|0.603|||TWO_SIDED|90.0|-2.11|-0.11||||||Week 16-HSS0102-Tenderness At It's Worst||-0.11|-2.11|
92198716|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.284|||TWO_SIDED|90.0|-0.57|0.37||||||Week 1-HSS0103-Swelling At It's Worst||0.37|-0.57|
92198717|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.23|STANDARD_ERROR_OF_MEAN|0.278|||TWO_SIDED|90.0|-0.69|0.22||||||Week 1-HSS0103-Swelling At It's Worst||0.22|-0.69|
92198718|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.47|STANDARD_ERROR_OF_MEAN|0.285|||TWO_SIDED|90.0|-0.94|0.01||||||Week 1-HSS0103-Swelling At It's Worst||0.01|-0.94|
92322737|NCT00614523|184549305|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.739|||<|0.001|TWO_SIDED|95.0|0.68|0.8|||Poisson Regression model|Poisson regression model with treatment and stratification factors as covariates|Romiplostim /Placebo|||0.8|0.68|<0.001
92198719|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.24|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.83|0.35||||||Week 2-HSS0103-Swelling At It's Worst||0.35|-0.83|
92198720|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.46|STANDARD_ERROR_OF_MEAN|0.345|||TWO_SIDED|90.0|-1.03|0.11||||||Week 2-HSS0103-Swelling At It's Worst||0.11|-1.03|
92198721|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.99|0.19||||||Week 2-HSS0103-Swelling At It's Worst||0.19|-0.99|
92198722|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.446|||TWO_SIDED|90.0|-0.58|0.9||||||Week 4-HSS0103-Swelling At It's Worst||0.90|-0.58|
92198723|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.424|||TWO_SIDED|90.0|-0.87|0.53||||||Week 4-HSS0103-Swelling At It's Worst||0.53|-0.87|
92198724|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.443|||TWO_SIDED|90.0|-0.65|0.82||||||Week 4-HSS0103-Swelling At It's Worst||0.82|-0.65|
92198725|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.7|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|90.0|-0.15|1.54||||||Week 6-HSS0103-Swelling At It's Worst||1.54|-0.15|
92198726|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.02|STANDARD_ERROR_OF_MEAN|0.493|||TWO_SIDED|90.0|-0.83|0.8||||||Week 6-HSS0103-Swelling At It's Worst||0.80|-0.83|
92198727|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.513|||TWO_SIDED|90.0|-0.62|1.08||||||Week 6-HSS0103-Swelling At It's Worst||1.08|-0.62|
92198728|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.29|STANDARD_ERROR_OF_MEAN|0.507|||TWO_SIDED|90.0|-0.55|1.13||||||Week 8-HSS0103-Swelling At It's Worst||1.13|-0.55|
92198729|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.489|||TWO_SIDED|90.0|-0.81|0.81||||||Week 8-HSS0103-Swelling At It's Worst||0.81|-0.81|
92198730|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|0.514|||TWO_SIDED|90.0|-0.35|1.35||||||Week 8-HSS0103-Swelling At It's Worst||1.35|-0.35|
92198731|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.07|STANDARD_ERROR_OF_MEAN|0.532|||TWO_SIDED|90.0|-0.81|0.95||||||Week 12-HSS0103-Swelling At It's Worst||0.95|-0.81|
92198732|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.47|STANDARD_ERROR_OF_MEAN|0.505|||TWO_SIDED|90.0|-1.3|0.37||||||Week 12-HSS0103-Swelling At It's Worst||0.37|-1.30|
92198733|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.04|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-0.92|0.84||||||Week 12-HSS0103-Swelling At It's Worst||0.84|-0.92|
92198734|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.589|||TWO_SIDED|90.0|-0.75|1.2||||||Week 16-HSS0103-Swelling At It's Worst||1.20|-0.75|
92198735|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-1.06|STANDARD_ERROR_OF_MEAN|0.561|||TWO_SIDED|90.0|-1.99|-0.13||||||Week 16-HSS0103-Swelling At It's Worst||-0.13|-1.99|
92198736|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-1.02|STANDARD_ERROR_OF_MEAN|0.586|||TWO_SIDED|90.0|-1.99|-0.05||||||Week 16-HSS0103-Swelling At It's Worst||-0.05|-1.99|
92198737|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.262|||TWO_SIDED|90.0|-0.27|0.59||||||Week 1-HSS0104-Tiredness At It's Worst||0.59|-0.27|
92198738|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|90.0|-0.99|-0.15||||||Week 1-HSS0104-Tiredness At It's Worst||-0.15|-0.99|
92198739|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.262|||TWO_SIDED|90.0|-0.35|0.52||||||Week 1-HSS0104-Tiredness At It's Worst||0.52|-0.35|
92198740|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.06|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.54|0.65||||||Week 2-HSS0104-Tiredness At It's Worst||0.65|-0.54|
92198741|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.44|STANDARD_ERROR_OF_MEAN|0.344|||TWO_SIDED|90.0|-1.01|0.13||||||Week 2-HSS0104-Tiredness At It's Worst||0.13|-1.01|
92198742|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.356|||TWO_SIDED|90.0|-0.33|0.85||||||Week 2-HSS0104-Tiredness At It's Worst||0.85|-0.33|
92198743|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.12|STANDARD_ERROR_OF_MEAN|0.434|||TWO_SIDED|90.0|-0.83|0.6||||||Week 4-HSS0104-Tiredness At It's Worst||0.60|-0.83|
92198744|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.81|STANDARD_ERROR_OF_MEAN|0.414|||TWO_SIDED|90.0|-1.49|-0.12||||||Week 4-HSS0104-Tiredness At It's Worst||-0.12|-1.49|
92198745|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.14|STANDARD_ERROR_OF_MEAN|0.431|||TWO_SIDED|90.0|-0.86|0.57||||||Week 4-HSS0104-Tiredness At It's Worst||0.57|-0.86|
92198746|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.04|STANDARD_ERROR_OF_MEAN|0.483|||TWO_SIDED|90.0|-0.76|0.84||||||Week 6-HSS0104-Tiredness At It's Worst||0.84|-0.76|
92198747|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.52|STANDARD_ERROR_OF_MEAN|0.466|||TWO_SIDED|90.0|-1.29|0.26||||||Week 6-HSS0104-Tiredness At It's Worst||0.26|-1.29|
92198748|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.485|||TWO_SIDED|90.0|-0.68|0.92||||||Week 6-HSS0104-Tiredness At It's Worst||0.92|-0.68|
92198749|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.483|||TWO_SIDED|90.0|-0.96|0.63||||||Week 8-HSS0104-Tiredness At It's Worst||0.63|-0.96|
92198750|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.53|STANDARD_ERROR_OF_MEAN|0.466|||TWO_SIDED|90.0|-1.31|0.24||||||Week 8-HSS0104-Tiredness At It's Worst||0.24|-1.31|
92322738|NCT00614523|184549306|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|15.6|||<|0.001|TWO_SIDED|95.0|4.7|51.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for stratification factors.|Romiplostim /Placebo|||51.8|4.7|<0.001
92322739|NCT00614523|184549307|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.402||||0.032|TWO_SIDED|95.0|1.03|1.91|||Poisson regression model|Poisson regression model with treatment and stratification factors as covariates|Romiplostim /Placebo|||1.91|1.03|0.032
92198751|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.11|STANDARD_ERROR_OF_MEAN|0.488|||TWO_SIDED|90.0|-0.69|0.92||||||Week 8-HSS0104-Tiredness At It's Worst||0.92|-0.69|
92198752|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.34|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-1.21|0.53||||||Week 12-HSS0104-Tiredness At It's Worst||0.53|-1.21|
92198753|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.81|STANDARD_ERROR_OF_MEAN|0.503|||TWO_SIDED|90.0|-1.64|0.02||||||Week 12-HSS0104-Tiredness At It's Worst||0.02|-1.64|
92198754|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.15|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-0.72|1.02||||||Week 12-HSS0104-Tiredness At It's Worst||1.02|-0.72|
92198755|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.22|STANDARD_ERROR_OF_MEAN|0.559|||TWO_SIDED|90.0|-0.7|1.15||||||Week 16-HSS0104-Tiredness At It's Worst||1.15|-0.70|
92198756|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.56|STANDARD_ERROR_OF_MEAN|0.532|||TWO_SIDED|90.0|-1.44|0.32||||||Week 16-HSS0104-Tiredness At It's Worst||0.32|-1.44|
92198757|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.557|||TWO_SIDED|90.0|-0.83|1.01||||||Week 16-HSS0104-Tiredness At It's Worst||1.01|-0.83|
92198758|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.264|||TWO_SIDED|90.0|-0.39|0.49||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.49|-0.39|
92198759|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.257|||TWO_SIDED|90.0|-0.75|0.1||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.10|-0.75|
92198760|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.02|STANDARD_ERROR_OF_MEAN|0.266|||TWO_SIDED|90.0|-0.46|0.42||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.42|-0.46|
92198761|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.333|||TWO_SIDED|90.0|-0.65|0.45||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||0.45|-0.65|
92198762|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.8|STANDARD_ERROR_OF_MEAN|0.321|||TWO_SIDED|90.0|-1.33|-0.27||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||-0.27|-1.33|
92198763|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.36|STANDARD_ERROR_OF_MEAN|0.333|||TWO_SIDED|90.0|-0.91|0.19||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||0.19|-0.91|
92198764|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.32|STANDARD_ERROR_OF_MEAN|0.411|||TWO_SIDED|90.0|-0.36|1.0||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||1.00|-0.36|
92198765|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.94|STANDARD_ERROR_OF_MEAN|0.393|||TWO_SIDED|90.0|-1.59|-0.29||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||-0.29|-1.59|
92198766|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.29|STANDARD_ERROR_OF_MEAN|0.411|||TWO_SIDED|90.0|-0.97|0.39||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||0.39|-0.97|
92322740|NCT00614523|184549311|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.639|||<|0.001|TWO_SIDED|95.0|0.57|0.71|||Poisson regression model|Poisson regression model with treatment and stratification factors as covariates|Romiplostim /Placebo|||0.71|0.57|<0.001
92322741|NCT03854370|184549332|SUPERIORITY|||||||0.23|||||||Chi-squared|||Comparison of all four groups prior to surgical scrub.||||0.23
92322742|NCT03854370|184549332|SUPERIORITY|||||||0.31|||||||Fisher Exact|||Comparison of baby shampoo versus iodine post surgical scrub||||0.31
92322743|NCT03854370|184549332|SUPERIORITY|||||||0.35|||||||Fisher Exact|||Comparison of Chlorhexidine versus iodine post surgical scrub||||.35
92198767|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.55|STANDARD_ERROR_OF_MEAN|0.454|||TWO_SIDED|90.0|-0.2|1.3||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||1.30|-0.20|
92198768|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.69|STANDARD_ERROR_OF_MEAN|0.439|||TWO_SIDED|90.0|-1.41|0.04||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||0.04|-1.41|
92198769|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.456|||TWO_SIDED|90.0|-0.85|0.66||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||0.66|-0.85|
92198770|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.15|STANDARD_ERROR_OF_MEAN|0.491|||TWO_SIDED|90.0|-0.96|0.66||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||0.66|-0.96|
92198771|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-1.11|STANDARD_ERROR_OF_MEAN|0.473|||TWO_SIDED|90.0|-1.89|-0.33||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||-0.33|-1.89|
92198772|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|0.497|||TWO_SIDED|90.0|-1.13|0.52||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||0.52|-1.13|
92198773|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.547|||TWO_SIDED|90.0|-0.86|0.95||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||0.95|-0.86|
92198774|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.87|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-1.73|-0.01||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||-0.01|-1.73|
92198775|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.547|||TWO_SIDED|90.0|-0.78|1.03||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||1.03|-0.78|
92198776|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|0.39|STANDARD_ERROR_OF_MEAN|0.602|||TWO_SIDED|90.0|-0.6|1.39||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||1.39|-0.60|
92198777|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.95|STANDARD_ERROR_OF_MEAN|0.574|||TWO_SIDED|90.0|-1.9|0.0||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||0.00|-1.90|
92322744|NCT03854370|184549332|SUPERIORITY|||||||0.61|||||||Fisher Exact|||Comparison of chloroxynel versus iodine post surgical scrub||||.61
92198778|NCT04092452|184295499|SUPERIORITY||Risk Difference (RD)|-0.01|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-1.0|0.99||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||0.99|-1.00|
92198779|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|0.4|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-1.7|2.6||||||Week 4||2.6|-1.7|
92198780|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-2.7|1.7||||||Week 4||1.7|-2.7|
92198781|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|0.9|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|90.0|-1.4|3.2||||||Week 4||3.2|-1.4|
92198782|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|90.0|-2.7|1.6||||||Week 8||1.6|-2.7|
92198783|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|-1.1|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|90.0|-3.3|1.0||||||Week 8||1.0|-3.3|
92198784|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|1.34|||TWO_SIDED|90.0|-2.2|2.2||||||Week 8||2.2|-2.2|
92198785|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|-0.8|STANDARD_ERROR_OF_MEAN|1.44|||TWO_SIDED|90.0|-3.2|1.6||||||Week 12||1.6|-3.2|
92198786|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|-2.0|STANDARD_ERROR_OF_MEAN|1.39|||TWO_SIDED|90.0|-4.3|0.3||||||Week 12||0.3|-4.3|
92198787|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|90.0|-2.6|2.2||||||Week 12||2.2|-2.6|
92198788|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|1.7|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-0.7|4.2||||||Week 16||4.2|-0.7|
92198789|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|-1.2|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|90.0|-3.6|1.2||||||Week 16||1.2|-3.6|
92198790|NCT04092452|184295500|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|90.0|-2.4|2.6||||||Week 16||2.6|-2.4|
92198791|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|0.4|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-1.7|2.6||||||Week 4||2.6|-1.7|
92198792|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-2.7|1.7||||||Week 4||1.7|-2.7|
92198793|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|0.9|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|90.0|-1.4|3.2||||||Week 4||3.2|-1.4|
92198794|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|90.0|-2.7|1.6||||||Week 8||1.6|-2.7|
92198795|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|-1.1|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|90.0|-3.3|1.0||||||Week 8||1.0|-3.3|
92198796|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|1.34|||TWO_SIDED|90.0|-2.2|2.2||||||Week 8||2.2|-2.2|
92198797|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|-0.8|STANDARD_ERROR_OF_MEAN|1.44|||TWO_SIDED|90.0|-3.2|1.6||||||Week 12||1.6|-3.2|
92198798|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|-2.0|STANDARD_ERROR_OF_MEAN|1.39|||TWO_SIDED|90.0|-4.3|0.3||||||Week 12||0.3|-4.3|
92198799|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|90.0|-2.6|2.2||||||Week 12||2.2|-2.6|
92198800|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|1.7|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-0.7|4.2||||||Week 16||4.2|-0.7|
92198801|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|-1.2|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|90.0|-3.6|1.2||||||Week 16||1.2|-3.6|
92198802|NCT04092452|184295501|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|90.0|-2.4|2.6||||||Week 16||2.6|-2.4|
92198803|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|5.64|||TWO_SIDED|90.0|-9.1|9.5||||||Week 4||9.5|-9.1|
92198804|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|1.2|STANDARD_ERROR_OF_MEAN|5.25|||TWO_SIDED|90.0|-7.4|9.8||||||Week 4||9.8|-7.4|
92198805|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|-4.0|STANDARD_ERROR_OF_MEAN|4.52|||TWO_SIDED|90.0|-11.4|3.4||||||Week 4||3.4|-11.4|
92198806|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|4.3|STANDARD_ERROR_OF_MEAN|4.57|||TWO_SIDED|90.0|-3.3|11.8||||||Week 8||11.8|-3.3|
92198807|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|6.2|STANDARD_ERROR_OF_MEAN|4.87|||TWO_SIDED|90.0|-1.8|14.2||||||Week 8||14.2|-1.8|
92198808|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|2.5|STANDARD_DEVIATION|4.42|||TWO_SIDED|90.0|-4.8|9.8||||||Week 8||9.8|-4.8|
92322745|NCT03854370|184549333|SUPERIORITY|||||||0.59|||||||Chi-squared|||comparison of all four groups prior to surgical scrub||||.59
92322746|NCT03854370|184549333|SUPERIORITY|||||||0.05|||||||Fisher Exact|||Comparison of baby shampoo versus iodine post surgical scrub||||.05
92322747|NCT03854370|184549333|SUPERIORITY|||||||0.13|||||||Fisher Exact|||Comparison of chlorhexidine versus iodine post surgical scrub||||.13
92322748|NCT03854370|184549333|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Comparison of chloroxynel versus iodine at post surgical scrub||||0.99
92322749|NCT03854370|184549334|SUPERIORITY|||||||0.45|||||||Chi-squared|||Comparison of all four groups prior to surgical scrub||||0.45
92322750|NCT03854370|184549334|SUPERIORITY|||||||0.99||||||all groups were negative for cultures|Fisher Exact|||Comparison of baby shampoo versus iodine post surgical scrub||||0.99
92322751|NCT03854370|184549334|SUPERIORITY|||||||0.99||||||All groups had negative cultures|Fisher Exact|||Comparison of chlorhexidine versus iodine at post surgical scrub||||0.99
92322752|NCT03854370|184549334|SUPERIORITY|||||||0.99||||||All groups had negative cultures|Fisher Exact|||Comparison of chloroxynel versus iodine at post surgical scrub||||0.99
92322753|NCT03854370|184549335|SUPERIORITY|||||||0.61|||||||Fisher Exact|||Comparison of baby shampoo versus iodine at post procedure||||0.61
92322754|NCT03854370|184549335|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Comparison of chlorhexidine versus iodine at post procedure||||0.99
92322755|NCT03854370|184549335|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Comparison of chloroxynel versus iodine at post procedure||||0.99
92322756|NCT03854370|184549336|SUPERIORITY|||||||0.32|||||||Fisher Exact|||Comparison of baby shampoo versus iodine at post procedure||||0.32
92322757|NCT03854370|184549336|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Comparison of chlorhexidine versus iodine at post procedure||||0.99
92322758|NCT03854370|184549336|SUPERIORITY|||||||0.5|||||||Fisher Exact|||Comparison of chloroxynel versus iodine at post procedure||||0.50
92322759|NCT03854370|184549337|SUPERIORITY|||||||0.99||||||All groups had negative cultures|Fisher Exact|||Comparison of baby shampoo versus iodine at post procedure||||0.99
92198809|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|7.6|STANDARD_ERROR_OF_MEAN|5.43|||TWO_SIDED|90.0|-1.3|16.5||||||Week 12||16.5|-1.3|
92198810|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|6.9|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|90.0|-2.0|15.7||||||Week 12||15.7|-2.0|
92322760|NCT03854370|184549337|SUPERIORITY|||||||0.99||||||All groups had negative cultures|Fisher Exact|||comparison of chlorhexidine versus iodine at post procedure||||0.99
92322761|NCT03854370|184549337|SUPERIORITY|||||||0.99||||||All groups had negative cultures|Fisher Exact|||Comparison of chloroxynel versus iodine at post procedure||||0.99
92322762|NCT00394836|184549370|SUPERIORITY_OR_OTHER||percentage of responders|13.0|||||TWO_SIDED|95.0|4.0|31.0|||||Response rate is calculated as the number of responses divided by the number of participants treated \* 100.|||31|4|
92322763|NCT00394836|184549370|SUPERIORITY_OR_OTHER||percentage of responders|10.0|||||TWO_SIDED|95.0|5.0|19.0||||||||19|5|
92322764|NCT03692325|184549389|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
92322765|NCT00748189|184549404|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57|||<|0.001|TWO_SIDED|95.0|0.45|0.72|||Log Rank||Hazard ratios are obtained using the Pike estimator.|||0.72|0.45|<0.001
92322766|NCT00748189|184549407|OTHER||Hazard Ratio (HR)|0.88||||0.363|TWO_SIDED|95.0|0.65|1.17|||Log Rank||hazard ratios are obtained using the Pike estimator. A hazard ratio \<1 indicates a lower risk with O+CHL treatment compared with chlorambucil|||1.17|0.65|0.363
92322767|NCT00748189|184549420|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of dose-normalized chlorambucil Cmax values with ofatumumab in current study and without ofatumumab in prior study|Ratio of Cmax/Dose|0.71|||||TWO_SIDED|90.0|0.53|0.94|||||Ratio of Cmax/Dose is the ratio of dose-normalized chlorambucil Cmax values when given with ofatumumab in the current study and without ofatumumab in the prior study (LEUA1001).|||0.94|0.53|
92322768|NCT00748189|184549420|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of dose-normalized PAAM Cmax values with ofatumumab in current study and without ofatumumab in prior study|Ratio of Cmax/Dose|0.79|||||TWO_SIDED|90.0|0.63|0.99|||||Ratio of Cmax/Dose is the ratio of dose-normalized PAAM Cmax values when given with ofatumumab in the current study and without ofatumumab in the prior study (LEUA1001).|||0.99|0.63|
92322769|NCT00748189|184549421|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of dose-normalized chlorambucil AUC(0-6) values with ofatumumab in current study and without ofatumumab in prior study|Ratio of AUC(0-6)/Dose|1.04|||||TWO_SIDED|90.0|0.77|1.4|||||Ratio of AUC(0-6)/Dose is the ratio of dose-normalized chlorambucil AUC(0-6) values when given with ofatumumab in the current study and without ofatumumab in the prior study (LEUA1001).|||1.40|0.77|
92322770|NCT00748189|184549421|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of dose-normalized chlorambucil AUC(0-inf) values with ofatumumab in current study and without ofatumumab in prior study|Ratio of AUC(0-inf)/Dose|1.11|||||TWO_SIDED|90.0|0.82|1.5|||||Ratio of AUC(0-inf)/Dose is the ratio of dose-normalized chlorambucil AUC(0-inf) values when given with ofatumumab in the current study and without ofatumumab in the prior study (LEUA1001).|||1.50|0.82|
92322771|NCT00748189|184549421|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of dose-normalized PAAM AUC(0-6) values with ofatumumab in current study and without ofatumumab in prior study|Ratio of AUC(0-6)/Dose|0.89|||||TWO_SIDED|90.0|0.72|1.1|||||Ratio of AUC(0-6)/Dose is the ratio of dose-normalized PAAM AUC(0-6) values when given with ofatumumab in the current study and without ofatumumab in the prior study (LEUA1001).|||1.10|0.72|
92322772|NCT04481191|184549430|NON_INFERIORITY|Non-inferiority was declared when the lower bound of the 95% CI for the difference in percentages (Concomitant-use Group - Staggered-use Group) being \> -10 percentage points (one-sided p-value \< 0.025).|Mean Difference (Final Values)|-1.1|||<|0.001|TWO_SIDED|95.0|-4.0|0.9||One-sided p-value|Unstratified Miettinen & Nurminen method|||Difference indicates Concomitant-use Group % - Staggered-use Group %||0.9|-4.0|< 0.001
92322773|NCT04481191|184549430|NON_INFERIORITY|Non-inferiority was declared when the lower bound of the 95% CI for the difference in percentages (Concomitant-use Group - Staggered-use Group) being \> -10 percentage points (one-sided p-value \< 0.025).|Mean Difference (Final Values)|-1.1|||<|0.001|TWO_SIDED|95.0|-4.3|1.5||One-sided p-value|Unstratified Miettinen & Nurminen method|||Difference indicates Concomitant-use Group % - Staggered-use Group %||1.5|-4.3|< 0.001
92322774|NCT04481191|184549430|NON_INFERIORITY|Non-inferiority was declared when the lower bound of the 95% CI for the difference in percentages (Concomitant-use Group - Staggered-use Group) being \> -10 percentage points (one-sided p-value \< 0.025).|Mean Difference (Final Values)|0.5|||<|0.001|TWO_SIDED|95.0|-1.6|3.0||One-sided p-value|Unstratified Miettinen & Nurminen method|||Difference indicates Concomitant-use % - Staggered-use %||3.0|-1.6|< 0.001
92198811|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|2.9|STANDARD_ERROR_OF_MEAN|5.09|||TWO_SIDED|90.0|-5.5|11.3||||||Week 12||11.3|-5.5|
92322775|NCT01560234|184549461|SUPERIORITY_OR_OTHER||Slope|0.81|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|0.63|1.0|||Regression, Linear||AUC (nmol\*h/L) 5 to 30 μg|||1.00|0.63|
92322776|NCT01560234|184549462|SUPERIORITY_OR_OTHER||Slope|0.84|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|0.65|1.04|||Regression, Linear||AUC(0-t) (nmol\*h/L) 5 to 30 μg|||1.04|0.65|
92322777|NCT01560234|184549463|SUPERIORITY_OR_OTHER||Slope|0.95|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|90.0|0.87|1.04|||Regression, Linear||Cmax (nmol/L) 0.5 to 30 μg|||1.04|0.87|
92322778|NCT01560234|184549464|SUPERIORITY_OR_OTHER||Percentage of Placebo|99.75|||||TWO_SIDED|95.0|65.76|151.32|||ANCOVA||Cohort 1/0.15 ug vs Placebo|24 hour Plasma||151.32|65.76|
92322779|NCT01560234|184549464|SUPERIORITY_OR_OTHER||Percentage of Placebo|92.99|||||TWO_SIDED|95.0|61.21|141.27|||ANCOVA||Cohort 2/1.5ug vs Placebo|24 hour Plasma||141.27|61.21|
92322780|NCT01560234|184549464|SUPERIORITY_OR_OTHER||Percentage of Placebo|145.83|||||TWO_SIDED|95.0|96.11|221.28|||ANCOVA||Cohort 4/5 ug vs Placebo|24 hour Plasma||221.28|96.11|
92322781|NCT01560234|184549464|SUPERIORITY_OR_OTHER||Percentage of Placebo|106.23|||||TWO_SIDED|95.0|66.42|169.93|||ANCOVA||Cohort 3/1.5 ug vs Placebo|24 hour Plasma||169.93|66.42|
92322782|NCT01560234|184549464|SUPERIORITY_OR_OTHER||Percentage of Placebo|223.76||||||95.0|144.98|345.35|||ANCOVA||Cohort 5/15 μg vs Placebo|24 hour plasma||345.35|144.98|
92322783|NCT01560234|184549464|SUPERIORITY_OR_OTHER||Percentage of Placebo|228.23|||||TWO_SIDED|95.0|150.36|346.41|||ANCOVA||Cohort 7/15 μg vs Placebo|24 hour plasma||346.41|150.36|
92198812|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|3.88|||TWO_SIDED|90.0|-6.3|6.4||||||Week 16||6.4|-6.3|
92322784|NCT01560234|184549464|SUPERIORITY_OR_OTHER||Percentage of Placebo|684.03|||||TWO_SIDED|95.0|495.31|944.65|||ANCOVA||Cohort 6 and 8/30 μg vs Placebo|24 hour plasma||944.65|495.31|
92322785|NCT01560234|184549465|SUPERIORITY_OR_OTHER||Percentage of Placebo|95.81|||||TWO_SIDED|95.0|72.7|126.28|||ANCOVA||Cohort 1/0.15 ug vs Placebo|48 hour plasma||126.28|72.70|
92322786|NCT01560234|184549465|SUPERIORITY_OR_OTHER||Percentage of Placebo|91.72|||||TWO_SIDED|95.0|69.53|121.0|||ANCOVA||Cohort 2/0.5 ug vs Placebo|48 hour plasma||121.00|69.53|
92322787|NCT01560234|184549465|SUPERIORITY_OR_OTHER||Percentage of Placebo|112.34|||||TWO_SIDED|95.0|82.3|153.35|||ANCOVA||Cohort 3/1.5 ug vs Placebo|48 hour Plasma||153.35|82.30|
92322788|NCT01560234|184549465|SUPERIORITY_OR_OTHER||Percentage of Placebo|120.0|||||TWO_SIDED|95.0|91.04|158.18|||ANCOVA||Cohort 4/5 ug vs Placebo|48 hour plasma||158.18|91.04|
92322789|NCT01560234|184549465|SUPERIORITY_OR_OTHER||Percentage of Placebo|102.67|||||TWO_SIDED|95.0|77.02|136.87|||ANCOVA||Cohort 5/15 ug vs Placebo|48 hour placebo||136.87|77.02|
92322790|NCT01560234|184549465|SUPERIORITY_OR_OTHER||Percentage of Placebo|146.86|||||TWO_SIDED|95.0|111.39|193.62|||ANCOVA||Cohort 7/15 ug vs Placebo|48 hour plasma||193.62|111.39|
92322791|NCT01560234|184549465|SUPERIORITY_OR_OTHER||Percentage of Placebo|240.04|||||TWO_SIDED|95.0|193.82|297.28|||ANCOVA||Cohort 6 and 8/30 ug|48 hour plasma||297.28|193.82|
92322792|NCT01560234|184549467|SUPERIORITY_OR_OTHER||Comparison of Placebo|114.87|||||TWO_SIDED|95.0|34.83|378.78|||ANCOVA||Cohort 1/0.15 ug vs Placebo|24 hour Sputum||378.78|34.83|
92322793|NCT01560234|184549467|SUPERIORITY_OR_OTHER||Comparison of Placebo|81.89|||||TWO_SIDED|95.0|24.96|268.7|||ANCOVA||Cohort 2/0.5 ug vs Placebo|24 hour Sputum||268.70|24.96|
92322794|NCT01560234|184549467|SUPERIORITY_OR_OTHER||Comparison of Placebo|81.55|||||TWO_SIDED|95.0|20.63|322.42|||ANCOVA||Cohort 3/1.5 ug vs Placebo|24 hour Sputum||322.42|20.63|
92322795|NCT01560234|184549467|SUPERIORITY_OR_OTHER||Comparison of Placebo|304.37|||||TWO_SIDED|95.0|76.61|1209.33|||ANCOVA||Cohort 4/5 ug vs Placebo|24 hour Sputum||1209.33|76.61|
92322796|NCT01560234|184549467|SUPERIORITY_OR_OTHER||Comparison of Placebo|193.8|||||TWO_SIDED|95.0|59.01|636.49|||ANCOVA||Cohort 5/15 μg vs Placebo|24 hour Sputum||636.49|59.01|
92322797|NCT01560234|184549467|SUPERIORITY_OR_OTHER||Comparison of Placebo|467.96|||||TWO_SIDED|95.0|142.77|1533.92|||ANCOVA||Cohort 7/15 μg vs Placebo|24 hour Sputum||1533.92|142.77|
92322798|NCT01560234|184549467|SUPERIORITY_OR_OTHER||Comparison of Placebo|1087.35|||||TWO_SIDED|95.0|317.19|3727.57|||ANCOVA||Cohort 6 and 8/30 μg vs Placebo|24 hour Sputum||3727.57|317.19|
92322799|NCT02028767|184549468|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.57|STANDARD_ERROR_OF_MEAN|1.024||0|TWO_SIDED|90.0|94.662|102.639||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log scale: sequence, period and treatment as fixed effects; subjects within sequences as random effect"|||102.639|94.662|0.0000
92198813|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|6.5|STANDARD_ERROR_OF_MEAN|5.63|||TWO_SIDED|90.0|-2.8|15.7||||||Week 16||15.7|-2.8|
92198814|NCT04092452|184295502|SUPERIORITY||Risk Difference (RD)|7.6|STANDARD_ERROR_OF_MEAN|5.64|||TWO_SIDED|90.0|-1.6|16.9||||||Week 16||16.9|-1.6|
92198815|NCT02127125|184295505|SUPERIORITY||||||<|0.025||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Sevelamer treated Obese subjects with normal glucose tolerance will show no post-treatment change in insulin sensitivity compared to placebo treated subjects.||||<0.025
92322800|NCT02028767|184549468|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.71|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|90.0|94.783|102.796||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log-scale: sequence, subjects within sequences, period and treatment as fixed effects"|Analysis with fixed effects for all terms||102.796|94.783|<0.0001
92322801|NCT02028767|184549469|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.93|STANDARD_ERROR_OF_MEAN|1.019||0|TWO_SIDED|90.0|95.856|102.107||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log-scale: sequence, period and treatment as fixed effects; subjects within sequences as random effect"|||102.107|95.856|0.0000
92198816|NCT02127125|184295505|SUPERIORITY||||||>|0.05||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Synbiotic treated Obese subjects with normal glucose tolerance will show no post-treatment change in insulin sensitivity compared to placebo treated subjects.||||>0.05
92198817|NCT02127125|184295506|SUPERIORITY||||||>|0.05||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Sevelamer treated Obese subjects with normal glucose tolerance will show no post-treatment change in insulin sensitivity compared to placebo treated subjects.||||>0.05
92198818|NCT02127125|184295506|SUPERIORITY||||||>|0.05||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Synbiotic treated Obese subjects with normal glucose tolerance will show no post-treatment change in insulin sensitivity compared to placebo treated subjects.||||>0.05
92198819|NCT02127125|184295507|SUPERIORITY||||||>|0.05||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Sevelamer treated Obese subjects with normal glucose tolerance will show no post-treatment change in Lactulose:Mannitol ratio compared to placebo treated subjects.||||>0.05
92198820|NCT02127125|184295507|SUPERIORITY||||||>|0.05||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Synbiotic treated Obese subjects with normal glucose tolerance will show no post-treatment change in Lactulose:Mannitol ratio compared to placebo treated subjects.||||>0.05
92198821|NCT01255761|184295508|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 2-sided 95 % CI was greater than -10 %, the null hypothesis was rejected and RAPID3 was deemed comparable to CDAI in assessing response to Certolizumab Pegol therapy at 12 weeks.|Difference in proportion|-0.119|||||TWO_SIDED|95.0|-0.184|-0.053||Study was intended to show the comparability of RAPID3 with CDAI. Assessment of whether the study objective was met was based on CIs rather than p-values. Both variables need to be significant to claim comparability between the two assessment tools.|ANCOVA|Difference in proportions from ANCOVA with tool as factor \& Baseline DAS28(ESR), gender, age, prior anti-TNF use \& disease duration as covariates.||"The null hypothesis was: (Proportion of Rapid 3 responders)-(Proportion of CDAI responders) ≤ delta with a delta of -10 %.~A 2-sided 95 % Confidence Interval (CI) for the difference in proportion of responders was computed."||-0.053|-0.184|
92198822|NCT01255761|184295509|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 2-sided 95 % CI was greater than -15 %, the null hypothesis was rejected and RAPID3 was deemed comparable to CDAI in assessing percent of Week 12 responders achieving LDA at Week 52.|Difference in proportion|-0.013|||||TWO_SIDED|95.0|-0.093|0.066||Study was intended to show the comparability of RAPID3 with CDAI. Assessment of whether the study objective was met was based on CIs rather than p-values. Both variables need to be significant to claim comparability between the two assessment tools.|ANCOVA|Difference in proportions from ANCOVA with tool as factor \& Baseline DAS28(ESR), gender, age, prior anti-TNF use \& disease duration as covariates.||"The null hypothesis was: (Proportion of Rapid 3 responders)-(Proportion of CDAI responders) ≤ delta with a delta of -15 %.~A 2-sided 95 % Confidence Interval (CI) for the difference in proportion of responders was computed."||0.066|-0.093|
92198823|NCT01210651|184295555|SUPERIORITY_OR_OTHER|||||||0.034||||||Analysis performed via Stata v14.1. Alpha was 2-tailed. P-value was calculated, with p-value \< 0.05 required a priori to reject the null hypothesis.|Regression, Generalized Least Squares|||A random-effects, generalized least squares (GLS) regression model for depression severity was used to analyze participant BDI scores measured just before 1st assigned session at 0 wks, and just after assigned sessions at 2 wks, 4 wks, 6 wks and 8 wks. BDI Scores were modeled as correlated within participants but independent between participants. The GLS regression model tested the null hypothesis that no significant effects on BDI scores would be found by intervention and intervention-by-time.||||0.034
92198824|NCT01210651|184295556|SUPERIORITY_OR_OTHER|||||||0.02||||||Analysis performed via Stata v14.1, with P-value calculated using a t-distribution and assuming unequal variances in the two samples. Alpha was two-tailed. P-value \< 0.05 was required a priori to reject the null hypothesis.|t-test, 2 sided|||Statistical analysis examined Total Change Scores on BDI, using two sample t-test to evaluate the null hypothesis that the Total Change Score on BDI for each intervention group would be statistically comparable.||||0.02
92198825|NCT01210651|184295557|SUPERIORITY_OR_OTHER|||||||0.018||||||Analysis performed via Stata v14.1. Alpha was 2-tailed. P-value was calculated, with a p-value \< 0.05 required a priori to reject the null hypothesis.|Fisher Exact|||Fisher's Exact test evaluated null hypothesis that the proportion of study completers with remitted depression would be statistically comparable in the 2 intervention groups.||||0.018
92198826|NCT01210651|184295558|SUPERIORITY_OR_OTHER|||||||0.5||||||Analysis performed via Stata v14.1, with P-value calculated using a t-distribution and assuming unequal variances in the two samples. Alpha was two-tailed. P-value \< 0.05 was required a priori to reject the null hypothesis.|t-test, 2 sided|||Statistical analysis examined Total Change Scores on GSES, using an independent samples t-test to evaluate null hypothesis that Total Change Score on GSES for each intervention group would be statistically comparable.||||0.50
92198827|NCT01210651|184295559|SUPERIORITY_OR_OTHER|||||||0.053||||||Analysis performed via Stata v14.1, with P-value calculated using a t-distribution and assuming unequal variances in the two samples. Alpha was two-tailed. P-value \< 0.05 was required a priori to reject the null hypothesis.|t-test, 2 sided|||Statistical analysis examined Total Change Scores on RSES, using an independent samples t-test to evaluate null hypothesis that Total Change Score on RSES for each intervention group would be statistically comparable.||||0.053
92198828|NCT02559310|184295560|NON_INFERIORITY|Non-inferiority Margin = 12.5%.|Treatment Difference (Lef - Mox)|-2.9|||||TWO_SIDED|95.0|-8.5|2.8|||||Difference in percentage of Responders for ECR (Lefamulin - Moxifloxacin). CI computed using continuity-corrected Z-statistic.|||2.8|-8.5|
92198829|NCT02559310|184295561|NON_INFERIORITY|Non-inferiority Margin = 10%.|Treatment Difference (Lef - Mox)|-2.6|||||TWO_SIDED|95.0|-8.9|3.9|||||Difference in Percentage of Success for IACR at test of cure visit (Lefamulin - Moxifloxacin). CI computed via Miettinen-Nurminen method, adjusted for prior antibiotic use \[Y vs. N\] and PORT risk class \[III vs. IV/V\], using CMH stratum weights.|||3.9|-8.9|
92198830|NCT02559310|184295561|NON_INFERIORITY|Non-Inferiority Margin = 10%|Treatment Difference (Lef - Mox)|-2.6|||||TWO_SIDED|95.0|-9.2|4.1|||||Difference in percentage of Success for IACR at test of cure visit. CI computed using continuity-corrected Z-statistic.|||4.1|-9.2|
92198831|NCT02559310|184295562|NON_INFERIORITY|Non-Inferiority Margin = 10%.|Treatment Difference|-2.5|||||TWO_SIDED|95.0|-8.4|3.4|||||Difference in percentage of success for IACR at test of cure visit (Lefamulin - Moxifloxacin). CI computed via Miettinen-Nurminen method, adjusted for prior antibiotic use \[Y vs. N\] and PORT risk class \[III vs. IV/V\], using CMH stratum weights.|||3.4|-8.4|
92198832|NCT02559310|184295562|NON_INFERIORITY|Non-Inferiority Margin = 10%|Treatment Difference (Lef - Mox)|-2.5|||||TWO_SIDED|95.0|-8.7|3.7|||||Difference in Percentage of Success for IACR at test of cure visit (Lefamulin - Moxifloxacin). CI computed using continuity-corrected Z-statistic|||3.7|-8.7|
92198833|NCT04596540|184295563|SUPERIORITY||Risk Difference (RD)|0.29||||0.0008|TWO_SIDED|97.5|0.1|0.48|||Mantel Haenszel|||||0.48|0.10|0.0008
92198834|NCT04596540|184295563|SUPERIORITY||Risk Difference (RD)|0.35||||0.0002|TWO_SIDED|97.5|0.14|0.56|||Mantel Haenszel|||||0.56|0.14|0.0002
92198835|NCT04596540|184295564|SUPERIORITY||Least Squares (LS) Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|97.5|-5.07|-1.55|||ANCOVA|||||-1.55|-5.07|<0.001
92198836|NCT04596540|184295564|SUPERIORITY||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|97.5|-6.24|-2.66|||ANCOVA|||||-2.66|-6.24|<0.001
92322802|NCT02028767|184549469|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.96|STANDARD_ERROR_OF_MEAN|1.019|<|0.0001|TWO_SIDED|90.0|95.877|102.15||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log-scale: sequence, subjects within sequences, period and treatment as fixed effects"|Analysis with fixed effects for all terms||102.150|95.877|<0.0001
92198837|NCT04596540|184295565|SUPERIORITY||LS Mean Difference|-40.1|STANDARD_ERROR_OF_MEAN|9.3|<|0.001|TWO_SIDED|97.5|-60.96|-19.27|||ANCOVA|||||-19.27|-60.96|<.001
92198838|NCT04596540|184295565|SUPERIORITY||LS Mean Difference|-53.6|STANDARD_ERROR_OF_MEAN|9.3|<|0.001|TWO_SIDED|97.5|-74.49|-32.66|||ANCOVA|||||-32.66|-74.49|<.001
92198839|NCT04596540|184295566|SUPERIORITY||LS Mean Difference|6.6|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|97.5|2.52|10.66|||Mixed Models Analysis|||||10.66|2.52|<.001
92198840|NCT04596540|184295566|SUPERIORITY||LS Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|1.8||0.011|TWO_SIDED|97.5|0.54|8.59|||Mixed Models Analysis|||||8.59|0.54|0.011
92198841|NCT04596540|184295567|SUPERIORITY||Difference|0.3||||0.047|TWO_SIDED|97.5|-0.02|0.62|||Chi-squared|||||0.62|-0.02|0.0470
92198842|NCT04596540|184295567|SUPERIORITY||Difference|0.39||||0.0022|TWO_SIDED|97.5|0.12|0.66|||Chi-squared|||||0.66|0.12|0.0022
92198843|NCT04596540|184295568|SUPERIORITY||Difference|0.28||||0.0096|TWO_SIDED|97.5|0.05|0.51|||Chi-squared|||||0.51|0.05|0.0096
92198844|NCT04596540|184295568|SUPERIORITY||Difference|0.35||||0.0028|TWO_SIDED|97.5|0.1|0.6|||Chi-squared|||||0.60|0.10|0.0028
92198845|NCT04596540|184295569|SUPERIORITY||LS Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|97.5|-7.55|-1.98|||Mixed Models Analysis|||||-1.98|-7.55|<.001
92198846|NCT04596540|184295569|SUPERIORITY||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|1.2||0.003|TWO_SIDED|97.5|-6.42|-0.91|||Mixed Models Analysis|||||-0.91|-6.42|0.003
92198847|NCT04596540|184295570|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.018|TWO_SIDED|97.5|-0.46|-0.01|||Mixed Models Analysis|||||-0.01|-0.46|0.018
92198848|NCT04596540|184295570|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.785|TWO_SIDED|97.5|-0.25|0.2|||Mixed Models Analysis|||||0.20|-0.25|0.785
92198849|NCT04596540|184295571|SUPERIORITY||LS Mean Difference|0.0||||0.5|TWO_SIDED|97.5|-0.15|0.08|||ANOVA|||||0.08|-0.15|0.500
92198850|NCT04596540|184295571|SUPERIORITY||LS Mean Difference|0.0||||0.421|TWO_SIDED|97.5|-0.15|0.07|||ANOVA|||||0.07|-0.15|0.421
92198851|NCT04596540|184295572|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.634|TWO_SIDED|97.5|-0.22|0.14|||ANOVA|||Treatment Periods 1-3 (Months 1-3)||0.14|-0.22|0.634
92198852|NCT04596540|184295572|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.907|TWO_SIDED|97.5|-0.17|0.19|||ANOVA|||Treatment Periods 1-3 (Month 1-3)||0.19|-0.17|0.907
92198853|NCT00433511|184295599|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.17|TWO_SIDED|95.0|0.71|1.06||Two-sided; based on stratified test using stratification factors at randomization.|Regression, Cox||Hazard ratio: Arm C/Arm A|The primary objective of this trial was to determine whether the addition of bevacizumab improved IDFS. A two-step hierarchical approach was used. In the 1st step, Arm C was to be compared to Arm A. If Arm C significantly improved IDFS relative to Arm A, then in the 2nd step, a comparison of Arm B to Arm A was to be performed. If the treatment in both Arm C and Arm B significantly improved IDFS relative to Arm A, then a comparison of Arm C to Arm B was to be performed with respect to IDFS.||1.06|0.71|0.17
92198854|NCT00433511|184295600|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.41|TWO_SIDED|95.0|0.68|1.17||Two-sided; based on stratified test using stratification factors at randomization.|Regression, Cox||Hazard ratio: Arm C/Arm A|||1.17|0.68|0.41
92198855|NCT00433511|184295600|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.92|TWO_SIDED|95.0|0.77|1.33||Two-sided; based on stratified test using stratification factors at randomization.|Regression, Cox||Hazard ratio: Arm B/Arm A|||1.33|0.77|0.92
92198856|NCT00433511|184295600|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.36|TWO_SIDED|95.0|0.72|1.13||Two-sided; based on stratified test using stratification factors at randomization|Regression, Cox||Hazard ratio: Arm C/Arm B|||1.13|0.72|0.36
92198857|NCT06193967|184295605|OTHER||||||>|0.05|||||||ANOVA|||A standard alpha level of ≥ 0.05 was used to determine statistical significance.|To determine the main effects of positive reinforcement on DSM behavior, a 2x2 factorial ANOVA was conducted with gamification and caregiver praise status as the independent variables and a dependent variable of DSM frequency (number of days with tracking). A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198858|NCT06193967|184295605|OTHER||||||>|0.05|||||||ANOVA||||To determine the main effects of positive reinforcement on DSM behavior, a 2x2 factorial ANOVA was conducted with gamification and caregiver praise status as the independent variables and a dependent variable of DSM frequency (number of days with tracking). A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198859|NCT06193967|184295606|OTHER||||||<|0.001|||||||ANOVA|||A standard alpha level of ≥ 0.05 was used to determine statistical significance.|"Linear mixed-factor ANOVA was used with between-subject factors of praise and gamification status, a within-subject factor of time (week), and a dependent variable of DSM frequency.~Results reflect outcomes for main effect of time."|||<0.001
92198860|NCT06193967|184295607|SUPERIORITY||||||>|0.05|||||||ANOVA|||A standard alpha level of ≥ 0.05 was used to determine statistical significance.|To determine the main effects of positive reinforcement on DSM behavior, a 2x2 factorial ANOVA was conducted with gamification and caregiver praise status as the independent variables and a dependent variable of DSM timing (proportion of items tracked on day of intake). A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198861|NCT06193967|184295607|OTHER||||||>|0.05|||||||ANOVA||||To determine the main effects of positive reinforcement on DSM behavior, a 2x2 factorial ANOVA was conducted with gamification and caregiver praise status as the independent variables and a dependent variable of DSM timing (proportion of items tracked on day of intake). A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198862|NCT06193967|184295608|OTHER|||||||0.01|||||||ANOVA|||A standard alpha level of ≥ 0.05 was used to determine statistical significance.|"Linear mixed-factor ANOVA was used with between-subject factors of praise and gamification status, a within-subject factor of time (week), and a dependent variable of DSM timing (Proportion of Items Tracked on Day of Intake).~Results reflect outcomes for main effect of time."|||0.01
92198863|NCT06193967|184295609|OTHER||||||>|0.05|||||||ANOVA|||A standard alpha level of ≥ 0.05 was used to determine statistical significance.|To determine the main effects of positive reinforcement on DSM behavior, a 2x2 factorial ANOVA was conducted with gamification and caregiver praise status as the independent variables and a dependent variable of DSM timing (number of logging sessions). A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198864|NCT06193967|184295609|OTHER||||||>|0.05|||||||ANOVA||||To determine the main effects of positive reinforcement on DSM behavior, a 2x2 factorial ANOVA was conducted with gamification and caregiver praise status as the independent variables and a dependent variable of DSM timing (number of logging sessions). A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198865|NCT06193967|184295610|OTHER||||||<|0.0001|||||||ANOVA|||A standard alpha level of ≥ 0.05 was used to determine statistical significance.|"Linear mixed-factor ANOVA was used with between-subject factors of praise and gamification status, a within-subject factor of time (week), and a dependent variable of DSM timing (number of loging sessions).~Results reflect outcomes for main effect of time."|||<0.0001
92198866|NCT06193967|184295611|OTHER||||||>|0.05|||||||ANCOVA||||To determine the main effects of positive reinforcement on motivation, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dependent variable of intrinsic motivation at follow-up, and a covariate of intrinsic motivation at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198867|NCT06193967|184295611|OTHER||||||>|0.05|||||||ANCOVA||||To determine the main effects of positive reinforcement on motivation, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dependent variable of intrinsic motivation at follow-up, and a covariate of intrinsic motivation at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92322803|NCT02028767|184549470|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.28|STANDARD_ERROR_OF_MEAN|1.023||0|TWO_SIDED|90.0|94.549|102.156||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log-scale: sequence, period and treatment as fixed effects; subjects within sequences as random effect"|||102.156|94.549|0.0000
92198868|NCT06193967|184295612|OTHER||||||>|0.05|||||||ANCOVA|||A standard alpha level of ≥ 0.05 was used to determine statistical significance.|To determine the main effects of positive reinforcement on motivation, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dependent variable of scores for child motivation to change eating behaviors at follow-up, and a covariate of baseline scores. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198869|NCT06193967|184295612|OTHER||||||>|0.05|||||||ANCOVA||||To determine the main effects of positive reinforcement on motivation, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dependent variable of scores for child motivation to change eating behaviors at follow-up, and a covariate of baseline scores. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198870|NCT06193967|184295613|OTHER||||||>|0.05|||||||ANCOVA||||To determine the main effects of positive reinforcement on dietary intake, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dietary intake at follow-up, and a covariate of dietary intake at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198871|NCT06193967|184295613|OTHER||||||>|0.05|||||||ANCOVA|||A standard alpha level of ≥ 0.05 was used to determine statistical significance.|To determine the main effects of positive reinforcement on dietary intake, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dietary intake at follow-up, and a covariate of dietary intake at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198872|NCT06193967|184295614|OTHER||||||>|0.05|||||||ANCOVA|||A standard alpha level of ≥ 0.05 was used to determine statistical significance.|To determine the main effects of positive reinforcement on dietary intake, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dietary intake at follow-up, and a covariate of dietary intake at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198873|NCT06193967|184295614|OTHER|||||||0.03|||||||ANCOVA||||To determine the main effects of positive reinforcement on dietary intake, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dietary intake at follow-up, and a covariate of dietary intake at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||0.03
92198874|NCT06193967|184295615|OTHER||||||>|0.05|||||||ANCOVA||||To determine the main effects of positive reinforcement on dietary intake, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dietary intake at follow-up, and a covariate of dietary intake at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198875|NCT06193967|184295615|OTHER|||||||0.02|||||||ANCOVA||||To determine the main effects of positive reinforcement on dietary intake, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dietary intake at follow-up, and a covariate of dietary intake at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||0.02
92198876|NCT06193967|184295616|OTHER||||||>|0.05|||||||ANCOVA||||To determine the main effects of positive reinforcement on dietary intake, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dietary intake at follow-up, and a covariate of dietary intake at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198877|NCT06193967|184295616|OTHER||||||>|0.05|||||||ANCOVA||||To determine the main effects of positive reinforcement on dietary intake, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dietary intake at follow-up, and a covariate of dietary intake at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92322804|NCT02028767|184549470|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.35|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|90.0|94.603|102.252|||ANOVA|The p-value relates to the null hypothesis of non-equivalence.|"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log-scale: sequence, subjects within sequences, period and treatment as fixed effects"|Analysis with fixed effects for all terms||102.252|94.603|<0.0001
92322805|NCT00083759|184549495|SUPERIORITY_OR_OTHER|||||||0.089||95.0|||||Cochran-Mantel-Haenszel|||||||0.089
92322806|NCT00083759|184549496|SUPERIORITY_OR_OTHER|||||||0.171||95.0|||||Cochran-Mantel-Haenszel|||||||0.171
92322807|NCT00083759|184549497|SUPERIORITY_OR_OTHER|||||||0.526||95.0|||||Cochran-Mantel-Haenszel|||||||0.526
92322808|NCT02347774|184549498|SUPERIORITY|A sample size of 215 subjects per treatment would give \~ 90% power to detect a treatment difference of 80 mL in the change from baseline in trough FEV1 at Week 12 between each of the 2 SUN-101 dose groups and placebo at alpha= 0.05, assuming a standard deviation of 255 mL and using a 2-sided test.|Least Mean Squared (SE)|0.0736|STANDARD_ERROR_OF_MEAN|0.01989||0.0002|TWO_SIDED|95.0|0.0346|0.1127|||Least Mean Squared (SE)||In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|The change from baseline in trough FEV1 was analyzed using a mixed model repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1127|0.0346|0.0002
92198878|NCT06193967|184295617|OTHER||||||>|0.05|||||||ANCOVA||||To determine the main effects of positive reinforcement on dietary intake, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dietary intake at follow-up, and a covariate of dietary intake at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198879|NCT06193967|184295617|OTHER||||||>|0.05|||||||ANCOVA||||To determine the main effects of positive reinforcement on dietary intake, a 2x2 factorial ANCOVA was conducted with gamification and caregiver praise status as the independent variables, a dietary intake at follow-up, and a covariate of dietary intake at baseline. A gamification\*caregiver praise interaction term was also included in the model to test for interactive effects.|||>0.05
92198880|NCT02349152|184295619|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG\>180 mg/dl) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha= 0.05) between the groups. A total of 116 patients were recruited to allow for dropouts.|Risk Ratio (RR)|1.9||||0.001|TWO_SIDED|95.0|1.3|3.0|||Chi-squared|||The null hypothesis that there was no difference in the percentage of patients with two or more blood glucose values greater than 180mg/dl between the two groups. Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG\>180 mg/dl) to an absolute value of 20%.||3.0|1.3|0.001
92322809|NCT02347774|184549498|SUPERIORITY|A sample size of 215 subjects per treatment would give \~ 90% power to detect a treatment difference of 80 mL in the change from baseline in trough FEV1 at Week 12 between each of the 2 SUN-101 dose groups and placebo at alpha= 0.05, assuming a standard deviation of 255 mL and using a 2-sided test.|Least Mean Squared (SE)|0.081|STANDARD_ERROR_OF_MEAN|0.02006||0.0001|TWO_SIDED|95.0|0.0416|0.1204|||Least Mean Squared (SE)||In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|The change from baseline in trough FEV1 was analyzed using a mixed model repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1204|0.0416|0.0001
92322810|NCT02347774|184549499|SUPERIORITY||Least Mean Squared (SE)|0.082|STANDARD_ERROR_OF_MEAN|0.02055|<|0.0001|TWO_SIDED|95.0|0.0417|0.1224||In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|Least Mean Squared (SE)|I||The change from baseline in trough FEV1 was analyzed using a mixed model repeated measures model including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1224|0.0417|<0.0001
92198881|NCT02349152|184295620|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.004|||||||t-test, 2 sided|||||||0.004
92322811|NCT02347774|184549499|SUPERIORITY||Least Mean Squared (SE)|0.084|STANDARD_ERROR_OF_MEAN|0.02069||0.0001|TWO_SIDED|95.0|0.0433|0.1246||In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|Least Mean Squared (SE)|||The change from baseline in trough FEV1 was analyzed using a mixed model repeated measures model including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1246|0.0433|0.0001
92322812|NCT03567005|184549529|NON_INFERIORITY|The pre-specified non-inferiority margin is 0.05. With a sample size of 36 (18 per sequence group), there was approximately 80% power to reject the null hypothesis of inferiority in distance visual acuity with assumed standard deviation of 0.098 for paired difference (one-sided alpha=0.05).|Least Squares Mean (LSM) Difference|0.0|STANDARD_ERROR_OF_MEAN|0.008|||ONE_SIDED|95.0||0.02||||||||0.02||
92322813|NCT03567005|184549530|NON_INFERIORITY|The pre-specified non-inferiority margin is 1.0. With a sample size of 48 (24 per sequence group), there was approximately 80% power to reject the null hypothesis of inferiority in subjective overall vision with assumed standard deviation of 2.29 for paired differences (one-sided alpha=0.05).|LSM Difference|0.0|STANDARD_ERROR_OF_MEAN|0.15|||ONE_SIDED|95.0|-0.3||||||||||-0.3|
92322814|NCT05338502|184549537|SUPERIORITY||Geometric Least Squares Mean (LSM) Ratio|0.9|||||TWO_SIDED|90.0|0.797|1.02|||ANOVA|||Fasted State||1.02|0.797|
92322815|NCT05338502|184549537|SUPERIORITY||Geometric LS Mean Ratio|0.99|||||TWO_SIDED|90.0|0.876|1.12|||ANOVA|||Fed state||1.12|0.876|
92322816|NCT05338502|184549538|SUPERIORITY||Geometric LS Mean Ratio|0.932|||||TWO_SIDED|90.0|0.829|1.05|||ANOVA|||Fasted state||1.05|0.829|
92322817|NCT05338502|184549538|SUPERIORITY||Geometric LS Mean Ratio|1.0|||||TWO_SIDED|90.0|0.888|1.13|||ANOVA|||Fed State||1.13|0.888|
92322818|NCT05338502|184549540|SUPERIORITY||Geometric LS Mean Ratio|0.818|||||TWO_SIDED|90.0|0.68|0.985|||ANOVA|||Fasted State||0.985|0.680|
92322819|NCT05338502|184549540|SUPERIORITY||Geometric LS Mean Ratio|0.782|||||TWO_SIDED|90.0|0.645|0.949|||ANOVA|||Fed state||0.949|0.645|
92322820|NCT01062113|184549571|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|38.2|STANDARD_ERROR_OF_MEAN|9.1|<|0.0001|TWO_SIDED|95.0|20.3|56.1||The difference in the efficacy rates was tested using normal distribution at a significance level of 2-sided 5%. 2-sided 95% confidence interval (CI) for the difference in the efficacy rates was calculated using normal approximation.|asymptotic z-test|||||56.1|20.3|<0.0001
92322821|NCT01062113|184549573|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||t-test, 2 sided|||||||0.0003
92322822|NCT01062113|184549574|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92322823|NCT03655470|184549602|SUPERIORITY||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.07||0.3|TWO_SIDED||||||Mixed Models Analysis|||||||.30
92322824|NCT03063086|184549604|SUPERIORITY||Mean Difference (Final Values)|0.172|||<|0.0001|TWO_SIDED|95.0|0.137|0.208|||Mixed Models Analysis|||||0.208|0.137|<0.0001
92322825|NCT03063086|184549604|SUPERIORITY||Median Difference (Final Values)|0.159|||<|0.0001|TWO_SIDED|95.0|0.123|0.195|||Mixed Models Analysis|||||0.195|0.123|<0.0001
92322826|NCT03063086|184549609|SUPERIORITY||Mean Difference (Final Values)|0.124|||<|0.0001|TWO_SIDED|95.0|0.086|0.161|||Mixed Models Analysis|||||0.161|0.086|<0.0001
92322827|NCT03702010|184549625|SUPERIORITY|||||||0.112|||||||t-test, 2 sided|||Baseline VAS||||0.112
92322828|NCT03702010|184549625|SUPERIORITY|||||||0.323|||||||t-test, 2 sided|||After first stimulation VAS||||0.323
92322829|NCT03702010|184549625|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||After second stimulation||||0.760
92322830|NCT03702010|184549625|SUPERIORITY|||||||0.624|||||||t-test, 2 sided|||End of Follow-up||||0.624
92322831|NCT03702010|184549626|SUPERIORITY|||||||0.589|||||||t-test, 2 sided|||After first stimulation||||0.589
92322832|NCT03702010|184549626|SUPERIORITY|||||||0.704|||||||t-test, 2 sided|||After second stimulation||||0.704
92322833|NCT03702010|184549626|SUPERIORITY|||||||0.908|||||||t-test, 2 sided|||End of Follow-up||||0.908
92322834|NCT03702010|184549627|SUPERIORITY|||||||0.231|||||||t-test, 2 sided|||Baseline||||0.231
92322835|NCT03702010|184549627|SUPERIORITY|||||||0.663|||||||t-test, 2 sided|||After first stimulation||||0.663
92322836|NCT03702010|184549627|SUPERIORITY|||||||0.998|||||||t-test, 2 sided|||After second stimulation||||0.998
92322837|NCT03702010|184549627|SUPERIORITY|||||||0.713|||||||t-test, 2 sided|||End of Follow-up||||0.713
92322838|NCT02549287|184549758|SUPERIORITY||Odds Ratio, log|0.55||||0.12|TWO_SIDED|95.0|-0.11|1.2||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||1.20|-0.11|0.12
92322839|NCT02549287|184549759|SUPERIORITY||Odds Ratio, log|0.41||||0.14|TWO_SIDED|95.0|-0.2|1.03||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||1.03|-0.20|0.14
92322840|NCT02549287|184549760|SUPERIORITY||Odds Ratio, log|0.44||||0.2|TWO_SIDED|95.0|-0.2|1.07||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||1.07|-0.20|0.20
92322841|NCT02549287|184549761|SUPERIORITY||Odds Ratio, log|-0.07||||0.77|TWO_SIDED|95.0|-0.58|0.43||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.43|-0.58|0.77
92322842|NCT02549287|184549762|SUPERIORITY||Odds Ratio, log|0.35||||0.29|TWO_SIDED|95.0|-0.27|0.97|||Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.97|-0.27|0.29
92322843|NCT02549287|184549763|SUPERIORITY||Odds Ratio, log|0.49||||0.15|TWO_SIDED|95.0|-0.08|1.06||Other \[Marginal Model (e.g., GEE)\]|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||1.06|-0.08|0.15
92322844|NCT02549287|184549764|SUPERIORITY||Odds Ratio, log|-0.11||||0.61|TWO_SIDED|95.0|-0.73|0.52||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.52|-0.73|0.61
92198882|NCT02349152|184295621|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG\>180 mg/dl) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha= 0.05) between the groups. A total of 116 patients were recruited to allow for dropouts.||||||0.01|||||||Fisher Exact|||||||0.01
92198883|NCT02349152|184295622|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.0001|||||||t-test, 2 sided|||Mean Intraoperative Blood Glucose||||0.0001
92198884|NCT02349152|184295622|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.0003|||||||t-test, 2 sided|||Peak Intraoperative Blood Glucose||||0.0003
92198885|NCT02349152|184295622|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.98|||||||t-test, 2 sided|||Lowest Intraoperative Blood Glucose||||0.98
92198886|NCT02349152|184295623|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.14|||||||t-test, 2 sided|||Mean post-operative glucose||||0.14
92198887|NCT02349152|184295623|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.25|||||||t-test, 2 sided|||Peak Postoperative Blood Glucose||||0.25
92198888|NCT02349152|184295624|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.49|||||||t-test, 2 sided|||||||0.49
92198889|NCT02349152|184295626|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.401|||||||t-test, 2 sided|||Prebypass||||0.401
92198890|NCT02349152|184295626|NON_INFERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||30 minutes after the start of CPB||||<0.0001
92198891|NCT02349152|184295626|NON_INFERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||End of CPB||||<0.0001
92198892|NCT02349152|184295626|NON_INFERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||End of Surgery||||<0.0001
92322845|NCT02549287|184549765|SUPERIORITY||Odds Ratio, log|-0.22||||0.47|TWO_SIDED|95.0|-0.76|0.32||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.32|-0.76|0.47
92198893|NCT02349152|184295626|NON_INFERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.021|||||||t-test, 2 sided|||Postoperative (8 hours)||||0.021
92198894|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.58|||||||t-test, 2 sided|||Analyzing the IL-1b Pre bypass||||0.580
92198895|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.815|||||||t-test, 2 sided|||Analyzing the IL-1b CPB-30||||0.815
92322846|NCT02549287|184549766|SUPERIORITY||Slope|-0.75||||0.65|TWO_SIDED|95.0|-3.7|2.2||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||2.20|-3.70|0.65
92198896|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.715|||||||t-test, 2 sided|||Analyzing the CPB-END||||0.715
92198897|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.33|||||||t-test, 2 sided|||Analyzing the IL-1b post-bypass||||0.330
92198898|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.651|||||||t-test, 2 sided|||Analyzing the IL-1b 8 HR||||0.651
92198899|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.439|||||||t-test, 2 sided|||Analyzing the IL-6 Pre bypass||||0.439
92198900|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.284|||||||t-test, 2 sided|||Analyzing the IL-6 CPB-30||||0.284
92198901|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.779|||||||t-test, 2 sided|||Analyzing the CPB-END||||0.779
92198902|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.274|||||||t-test, 2 sided|||Analyzing the IL-6 post-bypass||||0.274
92198903|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.601|||||||t-test, 2 sided|||Analyzing the IL-6 8HR||||0.601
92198904|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.315|||||||t-test, 2 sided|||Analyzing the TNFa Pre-bypass||||0.315
92198905|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.062|||||||t-test, 2 sided|||Analyzing the TNFa CPB-30||||0.062
92198906|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.09|||||||t-test, 2 sided|||Analyzing the TNFa CPB-END||||0.090
92198907|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.004|||||||t-test, 2 sided|||Analyzing the TNFa- post-bypass||||0.004
92198908|NCT02349152|184295627|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.074|||||||t-test, 2 sided|||Analyzing the TNFa-8HR||||0.074
92198909|NCT02349152|184295628|NON_INFERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.74|||||||t-test, 2 sided|||Analyzing the ACTH Pre-bypass group||||0.740
92198910|NCT02349152|184295628|NON_INFERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||Analyzing the ACTH CPB-30 group.||||<0.0001
92198911|NCT02349152|184295628|NON_INFERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||Analyzing the ACTH CPB-END||||<0.0001
92198912|NCT02349152|184295628|NON_INFERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||Analyzing the ACTH post-bypass||||<0.0001
92198913|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.014|||||||t-test, 2 sided|||Analyzing the ACTH 8-hr||||0.014
92198914|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.1|||||||t-test, 2 sided|||Analyzing the GH- Pre-bypass||||0.100
92198915|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||GH-CPB-30||||<0.0001
92198916|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.009|||||||t-test, 2 sided|||Analyzing the GH-CPB-END||||0.009
92198917|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.046|||||||t-test, 2 sided|||GH-Post-bypass||||0.046
92198918|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.695|||||||t-test, 2 sided|||Analyzing the GH-8-hr||||0.695
92198919|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.455|||||||t-test, 2 sided|||Analyzing the Glucagon Pre Bypass||||0.455
92198920|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.059|||||||t-test, 2 sided|||Analyzing the Glucagon CPB-30||||0.059
92198921|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.175|||||||t-test, 2 sided|||Analyzing the Glucagon CPB-END||||0.175
92198922|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.062|||||||t-test, 2 sided|||Analyzing the Glucagon Post-bypass||||0.062
92198923|NCT02349152|184295628|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.261|||||||t-test, 2 sided|||Analyzing the Glucagon 8-hr||||0.261
92198924|NCT02349152|184295629|SUPERIORITY|||||||0.06|||||||Chi-squared|||30-day mortality||||0.06
92322847|NCT02549287|184549767|SUPERIORITY||Odds Ratio, log|0.05||||0.64|TWO_SIDED|95.0|-0.59|0.69||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.69|-0.59|0.64
92322848|NCT02549287|184549768|SUPERIORITY||Odds Ratio, log|-0.25||||0.44|TWO_SIDED|95.0|-0.79|0.29||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.29|-0.79|0.44
92322849|NCT02549287|184549769|SUPERIORITY||Odds Ratio, log|0.25||||0.47|TWO_SIDED|95.0|-0.39|0.89||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.89|-0.39|0.47
92198925|NCT02349152|184295629|SUPERIORITY|||||||0.03|||||||Chi-squared|||30-day readmission||||0.03
92198926|NCT02349152|184295629|SUPERIORITY|||||||0.24|||||||Chi-squared|||Cerebral Vascular Accident||||0.24
92198927|NCT02349152|184295629|SUPERIORITY|||||||0.93|||||||Chi-squared|||Prolonged Mechanical Ventilation||||0.93
92322850|NCT02549287|184549770|SUPERIORITY||Slope|-0.18||||0.63|TWO_SIDED|95.0|-3.57|3.22||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||3.22|-3.57|0.63
92198928|NCT02349152|184295629|SUPERIORITY|||||||1|||||||Chi-squared|||Renal Failure||||1
92198929|NCT02349152|184295629|SUPERIORITY|||||||0.1|||||||Chi-squared|||Atrial Fibrillation||||0.10
92322851|NCT03793842|184549771|EQUIVALENCE|Equivalence margin 1 J/min||||||0.002|||||||t-test, 2 sided|||||||.002
92322852|NCT03793842|184549772|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.2
92198930|NCT02349152|184295629|SUPERIORITY|||||||1|||||||Chi-squared|||cardiac arrest||||1
92198931|NCT02349152|184295630|SUPERIORITY|||||||0.205|||||||t-test, 2 sided|||Hrs 0-6||||0.205
92198932|NCT02349152|184295630|SUPERIORITY|||||||0.339|||||||t-test, 2 sided|||Hrs 7-12||||0.339
92198933|NCT02349152|184295630|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||Hrs 13-18||||0.006
92322853|NCT03793842|184549773|EQUIVALENCE|Equivalence margin 1 cm H20|Mean Difference (Net)|0.05||||0.006|TWO_SIDED||||||t-test, 2 sided|||||||0.006
92322854|NCT03793842|184549774|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
92322855|NCT03793842|184549775|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
92322856|NCT01314872|184549874|SUPERIORITY_OR_OTHER||Difference in least squares (LS) means|-0.46||||0.056|TWO_SIDED|95.0|-0.92|0.01|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, part and interaction of time by treatment.||||0.01|-0.92|0.056
92198934|NCT02349152|184295630|SUPERIORITY|||||||0.747|||||||t-test, 2 sided|||Hrs 19-24||||0.747
92198935|NCT02349152|184295630|SUPERIORITY|||||||0.568|||||||t-test, 2 sided|||Hrs 25-30||||0.568
92198936|NCT02349152|184295630|SUPERIORITY|||||||0.924|||||||t-test, 2 sided|||Hrs 31-36||||0.924
92198937|NCT02349152|184295630|SUPERIORITY|||||||0.501|||||||t-test, 2 sided|||Hrs 37-42||||0.501
92198938|NCT02349152|184295630|SUPERIORITY|||||||0.977|||||||t-test, 2 sided|||Hrs 43-48||||0.977
92198939|NCT02349152|184295634|SUPERIORITY|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.350
92198940|NCT05878873|184295704|OTHER||Mean Difference (Net)|-0.078|STANDARD_ERROR_OF_MEAN|0.027||0.007|TWO_SIDED|||||This value was adjusted using false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44.|This estimate calculation is TENS ON - TENS OFF.|Statistical analysis comparing cortical activation between TENS ON and TENS OFF conditions in people with multiple sclerosis.||||0.007
92198941|NCT05878873|184295704|OTHER||Mean Difference (Net)|-0.089|STANDARD_ERROR_OF_MEAN|0.032||0.008|TWO_SIDED|||||This value was adjusted using false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44|The estimate calculation is TENS ON - TENS OFF.|Statistical analysis comparing cortical activation between TENS ON and TENS OFF conditions in healthy controls.||||0.008
92198942|NCT05878873|184295705|OTHER||Mean Difference (Net)|0.042|STANDARD_ERROR_OF_MEAN|0.0141||0.014|TWO_SIDED|||||This value was adjusted using false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44|This estimate calculation is TENS ON - TENS OFF at Visit 2.|Statistical analysis comparing savings between TENS ON and TENS OFF conditions in people with multiple sclerosis.||||0.014
92198943|NCT05878873|184295705|OTHER||Mean Difference (Net)|-0.0058|STANDARD_ERROR_OF_MEAN|0.167||0.878|TWO_SIDED|||||This value was corrected with false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44|The estimate calculation is TENS ON - TENS OFF at Visit 2|Statistical analysis comparing savings between TENS ON and TENS OFF conditions in healthy controls.||||0.878
92198944|NCT05878873|184295706|OTHER||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.018||0.898|TWO_SIDED|||||This value was corrected using false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44|The estimate calculation is TENS ON - TENS OFF|Statistical analysis comparing rate of adaptation between TENS ON and TENS OFF conditions in people with multiple sclerosis.||||0.898
92198945|NCT05878873|184295706|OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.021||0.698|TWO_SIDED|||||This value was corrected using false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44|The estimate calculation is TENS ON - TENS OFF|Statistical analysis comparing rate of adaptation between TENS ON and TENS OFF conditions in healthy controls.||||0.698
92198946|NCT00340704|184295779|SUPERIORITY_OR_OTHER||Slope|1.0039|STANDARD_ERROR_OF_MEAN|0.1725||||95.0|0.6499|1.3579|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error (SE) of the mean is actually SE of the slope.|Dose proportionality for Cmax,ss was explored based on the regression model.||1.3579|0.6499|
92198947|NCT00340704|184295783|SUPERIORITY_OR_OTHER||Slope|0.98|STANDARD_ERROR_OF_MEAN|0.1884||||95.0|0.5934|1.3666|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of the mean is actually standard error of the slope.|Dose proportionality for AUCτ,ss was explored based on the regression model.||1.3666|0.5934|
92198948|NCT01732549|184295791|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.0315||||||Log-rank test adjusting for presence (or absence) of visceral metastases, opioid analgesic use and region (Eastern Europe, Western Europe). Two-sided p-value.|Log Rank|||Stratified\[a\]||||=0.0315
92198949|NCT01732549|184295791|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.0344|||||||Log Rank|||Unstratified\[b\]||||=0.0344
92198950|NCT01732549|184295792|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.443|||||||Log Rank|Adjusting for presence (or absence) of visceral metastases, opioid analgesic use and region (Eastern Europe, Western Europe). One-sided p-value||Stratified\[a\]||||=0.4430
92198951|NCT01732549|184295793|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5219|||||||Log Rank|Adjusting for presence (or absence) of visceral metastases, opioid analgesic use and region (Eastern Europe, Western Europe). One-sided p-value||Stratified\[a\]||||0.5219
92198952|NCT01732549|184295794|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.5442|||||||Log Rank|Adjusting for presence (or absence) of visceral metastases, opioid analgesic use and region (Eastern Europe, Western Europe). One-sided p-value||Stratified\[a\]||||=0.5442
92198953|NCT01732549|184295795|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.112|||||||Log Rank|Adjusting for presence (or absence) of visceral metastases, opioid analgesic use and region (Eastern Europe, Western Europe). One-sided p-value||Stratified\[a\]||||=0.1120
92198954|NCT01732549|184295796|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.2491|||||||Log Rank|Adjusting for presence (or absence) of visceral metastases, opioid analgesic use (or not) \& region (Eastern Europe, Western Europe). One-sided p-value||Stratified\[a\]||||=0.2491
92322857|NCT01314872|184549874|SUPERIORITY_OR_OTHER||Difference in LS means|-0.45||||0.064|TWO_SIDED|95.0|-0.93|0.03|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, part and interaction of time by treatment.||||0.03|-0.93|0.064
92322858|NCT01314872|184549874|SUPERIORITY_OR_OTHER||Difference in LS means|-0.64||||0.007|TWO_SIDED|95.0|-1.11|-0.18|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, part and interaction of time by treatment.||||-0.18|-1.11|0.007
92322859|NCT01314872|184549874|SUPERIORITY_OR_OTHER||Difference in LS means|-0.91|||<|0.001|TWO_SIDED|95.0|-1.37|-0.44|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, part and interaction of time by treatment.||||-0.44|-1.37|< 0.001
92198955|NCT00121667|184295799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.92|-0.53||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-0.53|-0.92|<.0001
92198956|NCT00121667|184295799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-1.02|-0.63||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-0.63|-1.02|<.0001
92198957|NCT00121667|184295799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.91|-0.52||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF) .Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-0.52|-0.91|<.0001
92198958|NCT00121667|184295800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.55|STANDARD_ERROR_OF_MEAN|3.56|<|0.0001|TWO_SIDED|95.0|-22.55|-8.55||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-8.55|-22.55|<.0001
92198959|NCT00121667|184295800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.28|STANDARD_ERROR_OF_MEAN|3.57|<|0.0001|TWO_SIDED|95.0|-30.29|-16.27||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF) .Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-16.27|-30.29|<.0001
92198960|NCT00121667|184295800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.74|STANDARD_ERROR_OF_MEAN|3.6|<|0.0001|TWO_SIDED|95.0|-28.81|-14.68||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF) .Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-14.68|-28.81|<.0001
92198961|NCT00121667|184295801|SUPERIORITY_OR_OTHER||Difference in Proportions|20.5|||<|0.0001|TWO_SIDED|95.0|10.6|30.5||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||30.5|10.6|<.0001
92198962|NCT00121667|184295801|SUPERIORITY_OR_OTHER||Difference in Proportions|27.0|||<|0.0001|TWO_SIDED|95.0|17.0|36.7||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||36.7|17.0|<.0001
92322860|NCT01314872|184549874|SUPERIORITY_OR_OTHER||Difference in LS means|-0.54||||0.026|TWO_SIDED|95.0|-1.02|-0.07|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, part and interaction of time by treatment.||||-0.07|-1.02|0.026
92322861|NCT01314872|184549879|SUPERIORITY_OR_OTHER||Difference in LS means|-0.28||||0.167|TWO_SIDED|95.0|-0.68|0.12|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||0.12|-0.68|0.167
92322862|NCT01314872|184549879|SUPERIORITY_OR_OTHER||Difference in LS means|-0.57||||0.005|TWO_SIDED|95.0|-0.97|-0.17|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.17|-0.97|0.005
92322863|NCT01314872|184549879|SUPERIORITY_OR_OTHER||Difference in LS means|-0.72|||<|0.001|TWO_SIDED|95.0|-1.11|-0.33|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.33|-1.11|< 0.001
92322864|NCT01314872|184549879|SUPERIORITY_OR_OTHER||Difference in LS means|-0.71|||<|0.001|TWO_SIDED|95.0|-1.1|-0.32|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.32|-1.10|< 0.001
92322865|NCT01314872|184549879|SUPERIORITY_OR_OTHER||Difference in LS means|-0.46||||0.03|TWO_SIDED|95.0|-0.87|-0.04|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.04|-0.87|0.030
92322866|NCT01314872|184549880|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.18||||0.401|TWO_SIDED|95.0|-0.61|0.25|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||0.25|-0.61|0.401
92322867|NCT01314872|184549880|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.48||||0.029|TWO_SIDED|95.0|-0.91|-0.05|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.05|-0.91|0.029
92322868|NCT01314872|184549880|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.005|TWO_SIDED|95.0|-1.02|-0.18|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.18|-1.02|0.005
92198963|NCT00121667|184295801|SUPERIORITY_OR_OTHER||Difference in Proportions|27.9|||<|0.0001|TWO_SIDED|95.0|17.7|37.7||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||37.7|17.7|<.0001
92198964|NCT00121667|184295802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5599.0|STANDARD_ERROR_OF_MEAN|1168.2|<|0.0001|TWO_SIDED|95.0|-7894.0|-3305.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-3305|-7894|<.0001
92322869|NCT01314872|184549880|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.58||||0.007|TWO_SIDED|95.0|-1.01|-0.16|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.16|-1.01|0.007
92322870|NCT01314872|184549880|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.34||||0.14|TWO_SIDED|95.0|-0.78|0.11|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||0.11|-0.78|0.140
92322871|NCT01314872|184549881|SUPERIORITY_OR_OTHER||Difference in LS means|-0.18||||0.598|TWO_SIDED|95.0|-0.84|0.49|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||0.49|-0.84|0.598
92322872|NCT01314872|184549881|SUPERIORITY_OR_OTHER||Difference in LS means|-0.67||||0.052|TWO_SIDED|95.0|-1.35|0.01|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||0.01|-1.35|0.052
92322873|NCT01314872|184549881|SUPERIORITY_OR_OTHER||Difference in LS means|-0.76||||0.024|TWO_SIDED|95.0|-1.43|-0.1|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.10|-1.43|0.024
92322874|NCT01314872|184549881|SUPERIORITY_OR_OTHER||Difference in LS means|-1.24|||<|0.001|TWO_SIDED|95.0|-1.9|-0.58|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.58|-1.90|< 0.001
92322875|NCT01314872|184549881|SUPERIORITY_OR_OTHER||Difference in LS means|-0.94||||0.007|TWO_SIDED|95.0|-1.62|-0.26|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.26|-1.62|0.007
92322876|NCT01314872|184549882|SUPERIORITY_OR_OTHER||Difference in LS means|-0.49|||||TWO_SIDED|95.0|-1.0|0.03||||||||0.03|-1.00|
92322877|NCT01314872|184549882|SUPERIORITY_OR_OTHER||Difference in LS means|-1.1|||||TWO_SIDED|95.0|-1.62|-0.58||||||||-0.58|-1.62|
92322878|NCT01314872|184549883|SUPERIORITY_OR_OTHER||Difference in LS means|-0.29|||||TWO_SIDED|95.0|-0.71|0.13||||||||0.13|-0.71|
92322879|NCT01314872|184549883|SUPERIORITY_OR_OTHER||Difference in LS means|-0.21|||||TWO_SIDED|95.0|-0.64|0.21||||||||0.21|-0.64|
92322880|NCT01314872|184549884|SUPERIORITY_OR_OTHER||Difference in LS means|-0.07|||||TWO_SIDED|95.0|-0.56|0.43||||||||0.43|-0.56|
92322881|NCT01314872|184549884|SUPERIORITY_OR_OTHER||Difference in LS means|0.02|||||TWO_SIDED|95.0|-0.48|0.51||||||||0.51|-0.48|
92322882|NCT01314872|184549885|SUPERIORITY_OR_OTHER||Difference in LS means|-0.76|||||TWO_SIDED|95.0|-1.45|-0.08||||||||-0.08|-1.45|
92322883|NCT01314872|184549885|SUPERIORITY_OR_OTHER||Difference in LS means|-1.24|||||TWO_SIDED|95.0|-1.93|-0.56||||||||-0.56|-1.93|
92322884|NCT06366087|184549886|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.7|||||TWO_SIDED|90.0|0.67|0.724|||Mixed Models Analysis||Bioequivalence will be considered met if the 90% CI of the ratio for AUCinf lies within 80.00 to 125.00%.|||0.724|0.670|
92198965|NCT00121667|184295802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6294.0|STANDARD_ERROR_OF_MEAN|1176.8|<|0.0001|TWO_SIDED|95.0|-8606.0|-3983.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-3983|-8606|<.0001
92198966|NCT00121667|184295802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4845.0|STANDARD_ERROR_OF_MEAN|1175.1|<|0.0001|TWO_SIDED|95.0|-7153.0|-2537.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-2537|-7153|<.0001
92198967|NCT03178344|184295821|EQUIVALENCE|ANOVA||||||0.7||||||P value threshold is 0.05|ANOVA|||||||0.70
92198968|NCT03178344|184295822|EQUIVALENCE|ANOVA||||||0.71||||||P value threshold is 0.05.|ANOVA|||||||0.71
92198969|NCT03994731|184295852|SUPERIORITY||Stratified difference in proportions|32.31|STANDARD_ERROR_OF_MEAN|8.157|<|0.0001|TWO_SIDED|95.0|16.3|48.3||The 2-sided p-value was calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||Stratified difference (Pegloticase+MTX - Pegloticase+Placebo) is a weighted average of the difference within each stratum. Estimates from the 2 strata (tophi presence at baseline: yes, no) were combined with Cochran-Mantel-Haenszel (CMH) weights.|||48.3|16.3|< 0.0001
92198970|NCT03994731|184295853|SUPERIORITY||response rate difference|29.05|STANDARD_ERROR_OF_MEAN|8.084||0.0003|TWO_SIDED|95.0|13.2|44.9||The 2-sided p-value was calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||response rate difference (Peg+MTX - Peg+Placebo)|||44.9|13.2|0.0003
92198971|NCT03994731|184295854|SUPERIORITY||Difference|22.8||||0.0482|TWO_SIDED|95.0|1.2|44.4||The comparison of complete response between groups is performed using an unstratified chi-squared test.|Chi-squared||Difference (Pegloticase+MTX - Pegloticase+Placebo)|||44.4|1.2|0.0482
92198972|NCT03994731|184295855|SUPERIORITY||Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.084||0.6287|TWO_SIDED|95.0|-0.21|0.13||Based on mixed models repeated measures (MMRM) analysis of covariance (ANCOVA) model including the following terms: baseline value, tophi presence (Y/N), treatment group, visit, visit-by-treatment interaction, and visit-by-baseline value interaction.|MMRM ANCOVA||Difference (Pegloticase+MTX - Pegloticase+Placebo)|||0.13|-0.21|0.6287
92198973|NCT03994731|184295856|SUPERIORITY||Difference|-8.43|STANDARD_ERROR_OF_MEAN|3.766||0.0272|TWO_SIDED|95.0|-15.88|-0.97||Based on mixed models repeated measures (MMRM) analysis of covariance (ANCOVA) model including the following terms: baseline value, tophi presence (Y/N), treatment group, visit, visit-by-treatment interaction, and visit-by-baseline value interaction.|MMRM ANCOVA||Difference (Pegloticase+MTX - Pegloticase+Placebo)|||-0.97|-15.88|0.0272
92198974|NCT03994731|184295857|SUPERIORITY||Difference|-10.16|STANDARD_ERROR_OF_MEAN|2.531||0.0222|TWO_SIDED|95.0|-18.84|-1.48||Based on mixed models repeated measures (MMRM) analysis of covariance (ANCOVA) model including the following terms: baseline value, tophi presence (Y/N), treatment group, visit, visit-by-treatment interaction, and visit-by-baseline value interaction.|MMRM ANCOVA||Difference (Pegloticase+MTX - Pegloticase+Placebo)|||-1.48|-18.84|0.0222
92198975|NCT04937920|184295888|OTHER||Mean Paired Change from Baseline|-29620.0||||0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The analysis compared the differences at Day 5 between DBI-002 probiotic gel (active) and vehicle gel (active Cohort 4 only) in abundance of Malassezia based on molecular diagnostic qPCR using a 2-sided Wilcoxon sign rank test, alpha = 0.05, with a null hypothesis of median difference equal to zero.||||0.2
92198976|NCT04937920|184295888|OTHER||Mean Paired Change from Baseline|127195.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The analysis compared the differences at Day 14 between DBI-002 probiotic gel (active) and vehicle gel (active Cohort 4 only) in abundance of Malassezia based on molecular diagnostic qPCR using a 2-sided Wilcoxon sign rank test, alpha = 0.05, with a null hypothesis of median difference equal to zero.||||1.0
92198977|NCT04937920|184295888|OTHER||Mean Paired Change from Baseline|-41659.0||||0.6|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The analysis compared the differences at Day 5 between aqueous gel (control) and vehicle gel (active Cohort 4 only) in abundance of Malassezia based on molecular diagnostic qPCR using a 2-sided Wilcoxon sign rank test, alpha = 0.05, with a null hypothesis of median difference equal to zero.||||0.6
92198978|NCT04937920|184295888|OTHER||Mean Paired Change from Baseline|-483.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The analysis compared the differences at Day 14 between aqueous gel (control) and vehicle gel (active Cohort 4 only) in abundance of Malassezia based on molecular diagnostic qPCR using a 2-sided Wilcoxon sign rank test, alpha = 0.05, with a null hypothesis of median difference equal to zero.||||1.0
92198979|NCT03635086|184295905|OTHER||Geometric Mean Ratio Estimate|1.1||||0.9998|TWO_SIDED|95.0|0.2|4.9|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||4.9|0.2|0.9998
92198980|NCT03635086|184295905|OTHER||Geometric Mean Ratio Estimate|1.5||||0.9345|TWO_SIDED|95.0|0.3|7.5|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||7.5|0.3|0.9345
92198981|NCT03635086|184295905|OTHER||Geometric Mean Ratio Estimate|0.5||||0.5836|TWO_SIDED|95.0|0.1|2.1|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||2.1|0.1|0.5836
92198982|NCT03635086|184295905|OTHER||Geometric Mean Ratio Estimate|2.4||||0.4844|TWO_SIDED|95.0|0.5|10.6|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||10.6|0.5|0.4844
92198983|NCT03635086|184295905|OTHER||Geometric Mean Ratio Estimate|1.4||||0.9725|TWO_SIDED|95.0|0.3|6.8|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||6.8|0.3|0.9725
92198984|NCT03635086|184295905|OTHER||Geometric Mean Ratio Estimate|0.4||||0.4715|TWO_SIDED|95.0|0.1|1.9|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||1.9|0.1|0.4715
92198985|NCT03635086|184295905|OTHER||Geometric Mean Ratio Estimate|2.2||||0.5969|TWO_SIDED|95.0|0.5|9.6|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||9.6|0.5|0.5969
92198986|NCT03635086|184295905|OTHER||Geometric Mean Ratio Estimate|0.3||||0.2043|TWO_SIDED|95.0|0.1|1.4|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||1.4|0.1|0.2043
92198987|NCT03635086|184295905|OTHER||Geometric Mean Ratio Estimate|1.5||||0.9388|TWO_SIDED|95.0|0.3|7.4|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||7.4|0.3|0.9388
92198988|NCT03635086|184295905|OTHER||Geometric Mean Ratio Estimate|5.2||||0.0251|TWO_SIDED|95.0|1.2|23.1|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||23.1|1.2|0.0251
92198989|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups|Geometric Mean Ratio Estimate|0.6||||0.5263|TWO_SIDED|95.0|0.2|1.6|||ANOVA|||Day 0||1.6|0.2|0.5263
92198990|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.8|||ANOVA|||Day 0||2.8|0.4|1.0000
92198991|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.7|||ANOVA|||Day 0||2.7|0.4|1.0000
92198992|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.7|||ANOVA|||Day 0||2.7|0.4|1.0000
92198993|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.7||||0.55|TWO_SIDED|95.0|0.6|4.7|||ANOVA|||Day 0||4.7|0.6|0.5500
92198994|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.7||||0.5263|TWO_SIDED|95.0|0.6|4.6|||ANOVA|||Day 0||4.6|0.6|0.5263
92198995|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.7||||0.5263|TWO_SIDED|95.0|0.6|4.6|||ANOVA|||Day 0||4.6|0.6|0.5263
92198996|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.8|||ANOVA|||Day 0||2.8|0.4|1.0000
92198997|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.8|||ANOVA|||Day 0||2.8|0.4|1.0000
92198998|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.7|||ANOVA|||Day 0||2.7|0.4|1.0000
92198999|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.5||||0.5321|TWO_SIDED|95.0|0.2|1.7|||ANOVA|||Day 28||1.7|0.2|0.5321
92199000|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.1||||0.9983|TWO_SIDED|95.0|0.3|3.9|||ANOVA|||Day 28||3.9|0.3|0.9983
92199001|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.8234|TWO_SIDED|95.0|0.2|2.1|||ANOVA|||Day 28||2.1|0.2|0.8234
92199002|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.8||||0.9882|TWO_SIDED|95.0|0.2|2.7|||ANOVA|||Day 28||2.7|0.2|0.9882
92322885|NCT06366087|184549887|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.67|||||TWO_SIDED|90.0|0.64|0.697|||Mixed Models Analysis||Bioequivalence will be considered met if the 90% CI of the ratio for AUCt lies within 80.00 to 125.00%.|||0.697|0.640|
92322886|NCT06366087|184549888|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.11|||||TWO_SIDED|90.0|0.088|0.136|||Mixed Models Analysis|||||0.136|0.088|
92322887|NCT06366087|184549889|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.15|||||TWO_SIDED|90.0|0.12|0.189|||Mixed Models Analysis|||||0.189|0.120|
92322888|NCT06366087|184549890|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.26|||||TWO_SIDED|90.0|0.217|0.309|||Mixed Models Analysis|||||0.309|0.217|
92322889|NCT06366087|184549891|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.36|||||TWO_SIDED|90.0|0.318|0.416|||Mixed Models Analysis|||||0.416|0.318|
92322890|NCT06366087|184549892|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.44|||||TWO_SIDED|90.0|0.396|0.492|||Mixed Models Analysis|||||0.492|0.396|
92322891|NCT06366087|184549893|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.57|||||TWO_SIDED|90.0|0.532|0.608|||Mixed Models Analysis|||||0.608|0.532|
92322892|NCT06366087|184549894|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.57|||||TWO_SIDED|90.0|0.524|0.62|||Mixed Models Analysis|||||0.620|0.524|
92322893|NCT00251303|184549931|SUPERIORITY_OR_OTHER|||||||0.959||95.0|||||Chi-squared|||||||0.959
92322894|NCT00504725|184549937|SUPERIORITY_OR_OTHER|||||||0.39||95.0||||We will use two way ANOVA (looking for effects due to drug and time) with a p value of 0.05 indicative of statistical significance.|ANOVA|||IL-6||||0.39
92322895|NCT00504725|184549937|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||IL-8||||0.18
92322896|NCT00504725|184549937|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||IL-10||||0.14
92322897|NCT00504725|184549938|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||ANOVA|||||||0.37
92322898|NCT00504725|184549939|SUPERIORITY_OR_OTHER|||||||0.44||95.0||||Baseline Pain Level Score|Fisher Exact|||||||0.44
92322899|NCT00504725|184549939|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||4 Hour Pain Level Score|Fisher Exact|||||||0.20
92199003|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.2||||0.3778|TWO_SIDED|95.0|0.6|7.6|||ANOVA|||Day 28||7.6|0.6|0.3778
92322900|NCT00504725|184549939|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||24 Hour Pain Level Score|Fisher Exact|||||||0.37
92322901|NCT00504725|184549939|SUPERIORITY_OR_OTHER|||||||0.15||95.0||||Pain Level Score at Discharge|Fisher Exact|||||||0.15
92322902|NCT03937908|184549940|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.01|||||||t-test, 2 sided|||Asiatic acid||||0.01
92322903|NCT03937908|184549940|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.23|||||||t-test, 2 sided|||Caffeic acid||||0.23
92322904|NCT03937908|184549940|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.001||||||Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.|t-test, 2 sided|||Dihydrocaffeic acid||||0.001
92322905|NCT03937908|184549940|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.05|||||||t-test, 2 sided|||Dihydroferulic acid||||0.05
92322906|NCT03937908|184549940|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.07|||||||t-test, 2 sided|||Ferulic acid||||0.07
92322907|NCT03937908|184549940|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.09|||||||t-test, 2 sided|||3-(3-hydroxyphenyl)propionic acid||||0.09
92322908|NCT03937908|184549940|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.003|||||||t-test, 2 sided|||Isoferulic acid||||0.003
92322909|NCT03937908|184549940|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.1|||||||t-test, 2 sided|||Madecassic acid||||0.10
92322910|NCT03937908|184549940|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.11|||||||t-test, 2 sided|||Monocaffeoylquinic acids||||0.11
92322911|NCT03937908|184549941|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.82|||||||t-test, 2 sided|||Asiatic acid||||0.82
92322912|NCT03937908|184549941|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.4|||||||t-test, 2 sided|||Caffeic acid||||0.40
92322913|NCT03937908|184549941|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.2|||||||t-test, 2 sided|||Dihydrocaffeic acid||||0.20
92322914|NCT03937908|184549941|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.48|||||||t-test, 2 sided|||Dihydroferulic acid||||0.48
92322915|NCT03937908|184549941|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.2|||||||t-test, 2 sided|||Ferulic acid||||0.20
92322916|NCT03937908|184549941|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.32|||||||t-test, 2 sided|||3-(3-hydroxyphenyl)propionic acid||||0.32
92322917|NCT03937908|184549941|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.35|||||||t-test, 2 sided|||Isoferulic acid||||0.35
92322918|NCT03937908|184549941|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.52|||||||t-test, 2 sided|||Madecassic acid||||0.52
92322919|NCT03937908|184549941|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.13|||||||t-test, 2 sided|||Monocaffeoylquinic acids||||0.13
92322920|NCT03937908|184549942|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.34|||||||t-test, 2 sided|||Asiatic acid||||0.34
92322921|NCT03937908|184549942|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.08|||||||t-test, 2 sided|||Dihydrocaffeic acid||||0.08
92322922|NCT03937908|184549942|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.23|||||||t-test, 2 sided|||Dihydroferulic acid||||0.23
92322923|NCT03937908|184549942|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.14|||||||t-test, 2 sided|||Ferulic acid||||0.14
92322924|NCT03937908|184549942|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.28|||||||t-test, 2 sided|||3-(3-hydroxyphenyl)propionic acid||||0.28
92322925|NCT03937908|184549942|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.17|||||||t-test, 2 sided|||Isoferulic acid||||0.17
92322926|NCT03937908|184549942|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.98|||||||t-test, 2 sided|||Madecassic acid||||0.98
92199004|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.2||||0.9878|TWO_SIDED|95.0|0.4|4.1|||ANOVA|||Day 28||4.1|0.4|0.9878
92322927|NCT03937908|184549942|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.16|||||||t-test, 2 sided|||Monocaffeoylquinic acids||||0.16
92322928|NCT03937908|184549943|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.04|||||||t-test, 2 sided|||Asiatic acid||||0.04
92322929|NCT03937908|184549943|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.01|||||||t-test, 2 sided|||Caffeic acid||||0.01
92322930|NCT03937908|184549943|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.06|||||||t-test, 2 sided|||Dihydrocaffeic acid||||0.06
92322931|NCT03937908|184549943|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.08|||||||t-test, 2 sided|||Dihydroferulic acid||||0.08
92322932|NCT03937908|184549943|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.56|||||||t-test, 2 sided|||Dicaffeoylquinic acids||||0.56
92322933|NCT03937908|184549943|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.21|||||||t-test, 2 sided|||Ferulic acid||||0.21
92322934|NCT03937908|184549943|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.05|||||||t-test, 2 sided|||3-(3-hydroxyphenyl)propionic acid||||0.05
92322935|NCT03937908|184549943|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.05|||||||t-test, 2 sided|||Isoferulic acid||||0.05
92322936|NCT03937908|184549943|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.23|||||||t-test, 2 sided|||Madecassic acid||||0.23
92322937|NCT03937908|184549943|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.16|||||||t-test, 2 sided|||Monocaffeoylquinic acids||||0.16
92322938|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.7|||||||t-test, 2 sided|||Asiatic acid||||0.7
92322939|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.09|||||||t-test, 2 sided|||Madecassic acid||||0.09
92322940|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.4|||||||t-test, 2 sided|||Asiaticoside||||0.4
92322941|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.6|||||||t-test, 2 sided|||Madecassoside||||0.6
92199005|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.6||||0.8213|TWO_SIDED|95.0|0.5|5.3|||ANOVA|||Day 28||5.3|0.5|0.8213
92199006|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.6716|TWO_SIDED|95.0|0.2|1.9|||ANOVA|||Day 28||1.9|0.2|0.6716
92322942|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.4|||||||t-test, 2 sided|||Monocaffeoylquinic acids||||0.4
92322943|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.1|||||||t-test, 2 sided|||Dicaffeoylquinic acids||||0.1
92322944|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.9|||||||t-test, 2 sided|||3-(3-hydroxyphenyl)propionic acid||||0.9
92322945|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.03|||||||t-test, 2 sided|||Caffeic acid||||0.03
92322946|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.9|||||||t-test, 2 sided|||Ferulic acid||||0.9
92322947|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.6|||||||t-test, 2 sided|||Isoferulic acid||||0.6
92322948|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.4|||||||t-test, 2 sided|||Dihydroferulic acid||||0.4
92199007|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.7||||0.938|TWO_SIDED|95.0|0.2|2.5|||ANOVA|||Day 28||2.5|0.2|0.9380
92199008|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9777|TWO_SIDED|95.0|0.4|4.3|||ANOVA|||Day 28||4.3|0.4|0.9777
92199009|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.1||||0.9997|TWO_SIDED|95.0|0.3|4.7|||ANOVA|||Day 56||4.7|0.3|0.9997
92199010|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.5||||0.9287|TWO_SIDED|95.0|0.3|7.2|||ANOVA|||Day 56||7.2|0.3|0.9287
92199011|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.5||||0.5598|TWO_SIDED|95.0|0.1|2.0|||ANOVA|||Day 56||2.0|0.1|0.5598
92322949|NCT03937908|184549944|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.8|||||||t-test, 2 sided|||Dihydrocaffeic acid||||0.8
92322950|NCT03937908|184549945|EQUIVALENCE|Two-sided paired t-tests were used to compare fold induction between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.1|||||||t-test, 1 sided|||1 hour||||0.1
92322951|NCT03937908|184549945|EQUIVALENCE|Two-sided paired t-tests were used to compare fold induction between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.1|||||||t-test, 1 sided|||2 hours||||0.1
92322952|NCT03937908|184549945|EQUIVALENCE|Two-sided paired t-tests were used to compare fold induction between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.3|||||||t-test, 1 sided|||3 hours||||0.3
92322953|NCT03937908|184549945|EQUIVALENCE|Two-sided paired t-tests were used to compare fold induction between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.5|||||||t-test, 1 sided|||4 hours||||0.5
92322954|NCT03937908|184549945|EQUIVALENCE|Two-sided paired t-tests were used to compare fold induction between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.5|||||||t-test, 1 sided|||6 hours||||0.5
92322955|NCT03875092|184549946|OTHER||Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.24|0.52|||||Based on unstratified Cox regression model with treatment as a covariate, due to small sample size.|||0.52|0.24|
92322956|NCT03875092|184549947|OTHER||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.28|0.7|||||Based on unstratified Cox regression model with treatment as a covariate, due to small sample size.|||0.70|0.28|
92322957|NCT03875092|184549948|OTHER||Difference in Percentage|36.7|||||TWO_SIDED|95.0|19.9|51.6|||||Based on unstratified Miettinen \& Nurminen method, due to small sample size.|||51.6|19.9|
92322958|NCT02163226|184549971|OTHER|2 sided p value||||||0.03|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 2 weeks||||.03
92322959|NCT02163226|184549971|SUPERIORITY|||||||0.19|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 1 month||||.19
92322960|NCT02163226|184549971|OTHER|2 sided p value||||||0.04|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 3 months||||.04
92322961|NCT02163226|184549971|SUPERIORITY|||||||0.89|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 6 months||||.89
92322962|NCT02163226|184549971|SUPERIORITY|||||||0.07|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 9 months||||.07
92322963|NCT02163226|184549971|OTHER|2 sided p value||||||0.03|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 2 weeks||||.03
92322964|NCT02163226|184549971|OTHER|2 sided p value||||||0.19|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 1 month||||.19
92322965|NCT02163226|184549971|OTHER|2 sided p value||||||0.04|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 3 months||||.04
92322966|NCT02163226|184549971|OTHER|2 sided p value||||||0.89|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 6 months||||.89
92322967|NCT02163226|184549971|OTHER|2 sided p value||||||0.07|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 9 months||||.07
92199012|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|3.0||||0.2117|TWO_SIDED|95.0|0.7|13.1|||ANOVA|||Day 56||13.1|0.7|0.2117
92322968|NCT02163226|184549972|OTHER|2 sided p value||||||0.01|||||||Fisher Exact|||Pain response Rates (CR+PR) at 2 weeks||||.01
92322969|NCT02163226|184549972|OTHER|2 sided p value||||||0.15|||||||Fisher Exact|||Pain response Rates (CR+PR) at 1 month||||.15
92322970|NCT02163226|184549972|OTHER|2 sided p value||||||0.04|||||||Fisher Exact|||Pain response Rates (CR+PR) at 3 months||||.04
92322971|NCT02163226|184549972|OTHER|2 sided p valued||||||0.78|||||||Fisher Exact|||Pain response Rates (CR+PR) at 6 months||||.78
92322972|NCT02163226|184549972|OTHER|2 sided p valued||||||0.04|||||||Fisher Exact|||Pain response Rates (CR+PR) at 9 months||||.04
92322973|NCT02163226|184549972|OTHER|2 sided p valued||||||0.01|||||||Fisher Exact|||Pain response Rates (CR+PR) at 2 weeks||||.01
92322974|NCT02163226|184549972|OTHER|2 sided p value||||||0.15|||||||Fisher Exact|||Pain response Rates (CR+PR) at 1 month||||.15
92322975|NCT02163226|184549972|OTHER|2 sided p value||||||0.04|||||||Fisher Exact|||Pain response Rates (CR+PR) at 3 months||||.04
92199013|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.4||||0.9699|TWO_SIDED|95.0|0.3|6.6|||ANOVA|||Day 56||6.6|0.3|0.9699
92322976|NCT02163226|184549972|OTHER|2 sided p value||||||0.78|||||||Fisher Exact|||Pain response Rates (CR+PR) at 6 months||||.78
92322977|NCT02163226|184549972|OTHER|2 sided p value||||||0.04|||||||Fisher Exact|||Pain response Rates (CR+PR) at 9 months||||.04
92322978|NCT01585324|184549975|SUPERIORITY_OR_OTHER|||||||0.8333|TWO_SIDED||||||ANCOVA|The analysis of covariance (ANCOVA) test for the efficacy of SVR achievement (Yes/No), treatment adjustment and baseline hemoglobin value was used.||||||0.8333
92322979|NCT01585324|184549977|SUPERIORITY_OR_OTHER|||||||0.0867|TWO_SIDED||||||Fisher Exact|||||||0.0867
92322980|NCT01585324|184549979|SUPERIORITY_OR_OTHER|||||||0.6492|TWO_SIDED||||||ANCOVA|||||||0.6492
92322981|NCT01585324|184549981|SUPERIORITY_OR_OTHER|||||||0.0333|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0333
92322982|NCT03214380|184550016|NON_INFERIORITY|Non-inferiority Margin = 0.4 for HbA1c|Least Square Mean Difference (LSMean)|0.06|||||TWO_SIDED|95.0|-0.05|0.16||||||||0.16|-0.05|
92322983|NCT03214380|184550017|SUPERIORITY||Mean Difference (Net)|-11.8|||<|0.001|TWO_SIDED|95.0|-18.1|-5.5|||ANCOVA|||||-5.5|-18.1|<0.001
92322984|NCT03214380|184550018|SUPERIORITY||Mean Difference (Net)|-17.4|||<|0.001|TWO_SIDED|95.0|-25.3|-9.5|||ANCOVA|||||-9.5|-25.3|<0.001
92322985|NCT02230696|184550027|EQUIVALENCE|provides 85% power of success|Equivalence ratio|94.19|||||TWO_SIDED|90.0|84.77|104.52|||Trial and Error approach|||||104.52|84.77|
92322986|NCT02230696|184550028|EQUIVALENCE|provides 85% power of success|Equivalence ratio|94.68|||||TWO_SIDED|90.0|84.86|105.54|||Trial and Error approach|||||105.54|84.86|
92322987|NCT02579343|184550071|SUPERIORITY|||||||0.05||||||P-value above was calculated. Does not reference threshold for clinical significance.|Repeated Measures Analysis of Variance|||||||.05
92322988|NCT02579343|184550072|SUPERIORITY|||||||0.05|||||||Repeated Measures Analysis of Variance|||||||.05
92322989|NCT04984278|184550073|SUPERIORITY||Combined least mean square difference|-0.29|STANDARD_ERROR_OF_MEAN|0.092|=|0.0048|TWO_SIDED|95.0|-0.48|-0.1|||Mixed Models Analysis|||||-0.10|-0.48|=0.0048
92322990|NCT06175026|184550121|SUPERIORITY||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|0.062|<|0.001|TWO_SIDED|95.0|1.13|1.37||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||The null hypothesis was that the health messages would not elicit different levels of perceived message effectiveness compared to the neutral messages.||1.37|1.13|<0.001
92322991|NCT06175026|184550121|SUPERIORITY||Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|0.062|<|0.001|TWO_SIDED|95.0|1.03|1.26||The p-value was not adjusted for multiple comparisons. The a prior threshold for statistical significance was 0.05.|Mixed Models Analysis|||The null hypothesis was that the environment messages would not elicit different perceived message effectiveness than the control messages.||1.26|1.03|<.001
92322992|NCT06175026|184550121|SUPERIORITY||Mean Difference (Final Values)|1.29|STANDARD_ERROR_OF_MEAN|0.062|<|0.001|TWO_SIDED|95.0|1.17|1.41||The p-value was not adjusted for multiple comparisons. The a prior threshold for statistical significance was 0.05.|Mixed Models Analysis|||The null hypothesis was that the health and environment messages would not elicit different perceived message effectiveness than the control messages.||1.41|1.17|<0.001
92322993|NCT06175026|184550121|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.062||0.1892|TWO_SIDED|95.0|-0.018|0.223||This p-value was adjusted for multiple comparisons (considering 3 tests among intervention arms) using the Bonferroni Holm method.|Mixed Models Analysis|||||.223|-0.018|.1892
92322994|NCT06175026|184550121|SUPERIORITY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.62||0.47|TWO_SIDED|95.0|-0.17|0.08||This p-value was adjusted for multiple comparisons (considering 3 tests among intervention arms) using the Bonferroni Holm method.|Mixed Models Analysis|||||.08|-.17|.47
92322995|NCT06175026|184550121|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.062||0.051|TWO_SIDED|95.0|-0.27|-0.03||This p-value was adjusted for multiple comparisons (considering 3 tests among intervention arms) using the Bonferroni Holm method.|Mixed Models Analysis|||||-.03|-.27|.051
92199014|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.4||||0.446|TWO_SIDED|95.0|0.1|1.8|||ANOVA|||Day 56||1.8|0.1|0.4460
92199015|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.8||||0.292|TWO_SIDED|95.0|0.6|11.9|||ANOVA|||Day 56||11.9|0.6|0.2920
92199016|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.3||||0.184|TWO_SIDED|95.0|0.1|1.4|||ANOVA|||Day 56||1.4|0.1|0.1840
92199017|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.0||||0.7229|TWO_SIDED|95.0|0.4|9.2|||ANOVA|||Day 56||9.2|0.4|0.7229
92199018|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|6.6||||0.0052|TWO_SIDED|95.0|1.5|28.6|||ANOVA|||Day 56||28.6|1.5|0.0052
92199019|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.8||||0.9777|TWO_SIDED|95.0|0.2|3.0|||ANOVA|||Day 182||3.0|0.2|0.9777
92199020|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9812|TWO_SIDED|95.0|0.3|5.3|||ANOVA|||Day 182||5.3|0.3|0.9812
92199021|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.2||||0.9979|TWO_SIDED|95.0|0.3|4.5|||ANOVA|||Day 182||4.5|0.3|0.9979
92199022|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.0||||0.588|TWO_SIDED|95.0|0.5|7.9|||ANOVA|||Day 182||7.9|0.5|0.5880
92199023|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.7||||0.7973|TWO_SIDED|95.0|0.4|7.0|||ANOVA|||Day 182||7.0|0.4|0.7973
92199024|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.5||||0.8992|TWO_SIDED|95.0|0.4|6.0|||ANOVA|||Day 182||6.0|0.4|0.8992
92199025|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.7||||0.2602|TWO_SIDED|95.0|0.7|10.4|||ANOVA|||Day 182||10.4|0.7|0.2602
92199026|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.9||||0.9991|TWO_SIDED|95.0|0.2|3.6|||ANOVA|||Day 182||3.6|0.2|0.9991
92199027|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.5||||0.9028|TWO_SIDED|95.0|0.4|6.2|||ANOVA|||Day 182||6.2|0.4|0.9028
92199028|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.7||||0.7761|TWO_SIDED|95.0|0.4|6.8|||ANOVA|||Day 182||6.8|0.4|0.7761
92199029|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.7833|TWO_SIDED|95.0|0.2|2.1|||ANOVA|||Day 365||2.1|0.2|0.7833
92199030|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.8||||0.9915|TWO_SIDED|95.0|0.2|2.9|||ANOVA|||Day 365||2.9|0.2|0.9915
92199031|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.9||||0.998|TWO_SIDED|95.0|0.3|3.0|||ANOVA|||Day 365||3.0|0.3|0.9980
92199032|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.4||||0.909|TWO_SIDED|95.0|0.4|4.9|||ANOVA|||Day 365||4.9|0.4|0.9090
92199033|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9651|TWO_SIDED|95.0|0.4|4.7|||ANOVA|||Day 365||4.7|0.4|0.9651
92199034|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.4||||0.9112|TWO_SIDED|95.0|0.4|4.7|||ANOVA|||Day 365||4.7|0.4|0.9112
92199035|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.4||||0.257|TWO_SIDED|95.0|0.7|7.8|||ANOVA|||Day 365||7.8|0.7|0.2570
92199036|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.1||||0.9999|TWO_SIDED|95.0|0.3|3.8|||ANOVA|||Day 365||3.8|0.3|0.9999
92199037|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.8||||0.6953|TWO_SIDED|95.0|0.5|6.2|||ANOVA|||Day 365||6.2|0.5|0.6953
92199038|NCT03635086|184295908|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.7||||0.7523|TWO_SIDED|95.0|0.5|5.4|||ANOVA|||Day 365||5.4|0.5|0.7523
92199039|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups|Geometric Mean Ratio Estimate|0.5||||0.5263|TWO_SIDED|95.0|0.1|1.7|||ANOVA|||Day 0||1.7|0.1|0.5263
92199040|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.5|||ANOVA|||Day 0||3.5|0.3|1.0000
92199041|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.4|||ANOVA|||Day 0||3.4|0.3|1.0000
92199042|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.4|||ANOVA|||Day 0||3.4|0.3|1.0000
92199043|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|2.0||||0.55|TWO_SIDED|95.0|0.6|7.0|||ANOVA|||Day 0||7.0|0.6|0.5500
92199044|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|2.0||||0.5263|TWO_SIDED|95.0|0.6|6.7|||ANOVA|||Day 0||6.7|0.6|0.5263
92199045|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.0||||0.5263|TWO_SIDED|95.0|0.6|6.7|||ANOVA|||Day 0||6.7|0.6|0.5263
92199046|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.5|||ANOVA|||Day 0||3.5|0.3|1.0000
92199047|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.5|||ANOVA|||Day 0||3.5|0.3|1.0000
92199048|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.4|||ANOVA|||Day 0||3.4|0.3|1.0000
92199049|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.5||||0.7708|TWO_SIDED|95.0|0.1|2.4|||ANOVA|||Day 28||2.4|0.1|0.7708
92199050|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.2||||0.9966|TWO_SIDED|95.0|0.3|5.4|||ANOVA|||Day 28||5.4|0.3|0.9966
92199051|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.7||||0.9503|TWO_SIDED|95.0|0.2|3.0|||ANOVA|||Day 28||3.0|0.2|0.9503
92199052|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.7||||0.9791|TWO_SIDED|95.0|0.2|3.2|||ANOVA|||Day 28||3.2|0.2|0.9791
92199053|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.2||||0.5739|TWO_SIDED|95.0|0.5|9.8|||ANOVA|||Day 28||9.8|0.5|0.5739
92199054|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9918|TWO_SIDED|95.0|0.3|5.4|||ANOVA|||Day 28||5.4|0.3|0.9918
92199055|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.4||||0.9748|TWO_SIDED|95.0|0.3|5.9|||ANOVA|||Day 28||5.9|0.3|0.9748
92199056|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.827|TWO_SIDED|95.0|0.1|2.6|||ANOVA|||Day 28||2.6|0.1|0.8270
92322996|NCT01598090|184550128|NON_INFERIORITY|Non-inferiority of Lambda/RBV/TVR to Alfa/RBV/TVR was not established because the lower limit of the 95% CI was less than the predefined non-inferiority margin of -12%. As a result, key secondary endpoints were not tested hierarchically to compare treatment groups.||||||0.0855||||||Non-inferiority testing is based on lower limit of confidence interval.|Mantel Haenszel|||||||0.0855
92199057|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.893|TWO_SIDED|95.0|0.1|2.8|||ANOVA|||Day 28||2.8|0.1|0.8930
92199058|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.1||||0.9999|TWO_SIDED|95.0|0.3|4.7|||ANOVA|||Day 28||4.7|0.3|0.9999
92199059|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.9105|TWO_SIDED|95.0|0.1|3.2|||ANOVA|||Day 56||3.2|0.1|0.9105
92199060|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.2|5.5|||ANOVA|||Day 56||5.5|0.2|1.0000
92199061|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.3||||0.3047|TWO_SIDED|95.0|0.1|1.7|||ANOVA|||Day 56||1.7|0.1|0.3047
92199062|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|5.5||||0.0423|TWO_SIDED|95.0|1.0|29.2|||ANOVA|||Day 56||29.2|1.0|0.0423
92199063|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.6||||0.9213|TWO_SIDED|95.0|0.3|9.1|||ANOVA|||Day 56||9.1|0.3|0.9213
92199064|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.5||||0.8092|TWO_SIDED|95.0|0.1|2.8|||ANOVA|||Day 56||2.8|0.1|0.8092
92199065|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|9.1||||0.004|TWO_SIDED|95.0|1.7|48.5|||ANOVA|||Day 56||48.5|1.7|0.0040
92199066|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.3||||0.3347|TWO_SIDED|95.0|0.1|1.8|||ANOVA|||Day 56||1.8|0.1|0.3347
92199067|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|5.6||||0.0488|TWO_SIDED|95.0|1.0|30.7|||ANOVA|||Day 56||30.7|1.0|0.0488
92199068|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|17.4||||0.0001|TWO_SIDED|95.0|3.3|92.2|||ANOVA|||Day 56||92.2|3.3|0.0001
92199069|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.8831|TWO_SIDED|95.0|0.1|3.0|||ANOVA|||Day 182||3.0|0.1|0.8831
92199070|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.2|5.2|||ANOVA|||Day 182||5.2|0.2|1.0000
92199071|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.8916|TWO_SIDED|95.0|0.1|3.1|||ANOVA|||Day 182||3.1|0.1|0.8916
92199072|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.9||||0.794|TWO_SIDED|95.0|0.4|9.9|||ANOVA|||Day 182||9.9|0.4|0.7940
92199073|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.6||||0.9169|TWO_SIDED|95.0|0.3|8.9|||ANOVA|||Day 182||8.9|0.3|0.9169
92322997|NCT03628339|184550138|OTHER||% Ratio of Geometric Least square Mean|101.4|||||TWO_SIDED|90.0|89.35|115.06||||||||115.06|89.35|
92199074|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.2|5.2|||ANOVA|||Day 182||5.2|0.2|1.0000
92322998|NCT03628339|184550139|OTHER||% Ratio of Geometric Least square Mean|101.16|||||TWO_SIDED|90.0|89.24|114.66||||||||114.66|89.24|
92322999|NCT03628339|184550140|OTHER||% Ratio of Geometric Least square Mean|103.62|||||TWO_SIDED|90.0|86.91|123.56||||||||123.56|86.91|
92323000|NCT00355147|184550151|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.69|TWO_SIDED||||||Mixed Models Analysis|Adjusted for site, strata, baseline score, randomized group, month and the group by month interaction|This score represents change from baseline to six months across the groups.|This is an analysis of the outcome, Stroke Specific Quality of Life Overall Total Score.||||0.69
92323001|NCT00355147|184550151|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.47|STANDARD_ERROR_OF_MEAN|0.23||0.05|TWO_SIDED|||||Adjusted for site, strata, baseline value, treatment group, month of assessment, treatment group x month, random subject effect|Mixed Models Analysis||This score represents change from baseline to three months across groups.|This is an analysis of the Perceived Energy Domain within the Stroke Specific Quality of Life Measure||||0.05
92323002|NCT00355147|184550152|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.66|TWO_SIDED||||||Mixed Models Analysis|Adjusted by site, strata, baseline score, treatment group, month and group by month interaction|The score is the change from baseline to six months between groups.|||||0.66
92323003|NCT00355147|184550153|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.74||||0.06|TWO_SIDED|95.0|0.88|51.31|||Regression, Logistic|||||51.31|0.88|0.06
92323004|NCT00355147|184550153|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.45||||0.036|TWO_SIDED|95.0|1.08|10.96|||Regression, Logistic|||Within group Intervention Pre Post Comparison Compliance with Diabetes Medication||10.96|1.08|0.036
92323005|NCT00355147|184550153|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.407|TWO_SIDED|95.0|0.1|2.7|||Regression, Logistic|||Within Group attention control group intervention pre post comparison compliance with Diabetes Medication||2.70|0.10|0.407
92323006|NCT00355147|184550154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.05|TWO_SIDED|95.0|0.54|4.48|||Regression, Logistic|||Between Group Intervention Pre Post Comparison Compliance with Statin Medication||4.48|0.54|0.05
92323007|NCT00355147|184550154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.98||||0.0001|TWO_SIDED|95.0|2.81|12.76|||Regression, Logistic|||Within Group Intervention Pre Post Comparison Compliance with Statin Medication||12.76|2.81|0.0001
92323008|NCT00355147|184550154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.83||||0.0004|TWO_SIDED|95.0|1.83|8.01|||Regression, Logistic|||Within Group Attention Control Pre Post Comparison Compliance with Statin Medication.||8.01|1.83|0.0004
92323009|NCT00355147|184550155|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.34||||0.096|TWO_SIDED|95.0|0.86|6.4|||Regression, Logistic|||Between Group Intervention Pre Post Comparison Compliance with Hypertension Medication||6.40|0.86|0.096
92323010|NCT00355147|184550155|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.68||||0.0004|TWO_SIDED|95.0|1.81|7.48|||Regression, Logistic|||Within Group Intervention Pre Post Comparison Compliance with Hypertension Medication||7.48|1.81|0.0004
92323011|NCT00355147|184550155|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.21|TWO_SIDED|95.0|0.77|3.21|||Regression, Logistic|||Within Group Attention Group Pre Post Comparison Compliance with Hypertension Medication.||3.21|0.77|0.21
92323012|NCT01146379|184550156|SUPERIORITY_OR_OTHER|||||||0.01||||||a prior threshold for statistical significance = 0.05. P value was not corrected for multiple comparisons|Mixed Models Analysis|||The primary analysis used hierarchical linear modeling to examine the rate of change in ARAT over time. The null hypothesis was that all groups would change at a similar rate.||||.01
92199075|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|3.3||||0.2563|TWO_SIDED|95.0|0.6|17.1|||ANOVA|||Day 182||17.1|0.6|0.2563
92199076|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.9237|TWO_SIDED|95.0|0.1|3.3|||ANOVA|||Day 182||3.3|0.1|0.9237
92199077|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.0||||0.7708|TWO_SIDED|95.0|0.4|10.8|||ANOVA|||Day 182||10.8|0.4|0.7708
92323013|NCT01146379|184550156|SUPERIORITY_OR_OTHER|||||||0.036|||||||t-test, 2 sided|||This analysis then asked which groups were different from the Low Movement Dose group||||.036
92323014|NCT01146379|184550156|SUPERIORITY_OR_OTHER|||||||0.679|||||||t-test, 2 sided|||This analysis asked if the Low Movement Dose group was different from the High Movement Dose group||||0.679
92323015|NCT01146379|184550156|SUPERIORITY_OR_OTHER|||||||0.209|||||||t-test, 2 sided|||This analysis tested if the Low Movement Dose group was different from the Individual Maximum High Movement Dose group||||0.209
92323016|NCT00554515|184550169|SUPERIORITY|Comparison against historical control ORR of 14%.||||||0.042|||||||exact binomial test|||||||0.042
92323017|NCT00554515|184550170|SUPERIORITY|||||||0.39|||||||Fisher Exact|||Objective response rates were compared between ISM good and poor risk subgroups. ISM good risk ORR reported under primary endpoint.||||0.39
92323018|NCT00554515|184550171|SUPERIORITY|||||||0.0014|||||||exact binomial test|||Test against the historical ORR was conducted in the overall study population as secondary analyses.||||0.0014
92323019|NCT00554515|184550174|SUPERIORITY|||||||0.89|||||||Fisher Exact|||Objective response rates were compared between MSKCC subgroups.||||.89
92323020|NCT00554515|184550176|SUPERIORITY|||||||0.33|||||||Fisher Exact|||Objective response rates were compared between tumor type subgroups||||.33
92323021|NCT00554515|184550177|SUPERIORITY|||||||0.89|||||||Fisher Exact|||Objective response rates were compared between clear cell histology subgroups||||.89
92323022|NCT00554515|184550178|SUPERIORITY|||||||0.19|||||||Fisher Exact|||Objective response rates were compared between CA-9 score subgroups||||.19
92323023|NCT00554515|184550179|SUPERIORITY|||||||0.01|||||||Fisher Exact|||Objective response rates were compared between PD-L1 tumor subgroups||||0.01
92323024|NCT00554515|184550180|SUPERIORITY|||||||0.08|||||||Fisher Exact|||Objective response rates were compared between B7-H3 tumor subgroups||||.08
92323025|NCT00554515|184550181|SUPERIORITY|||||||0.28|||||||Fisher Exact|||Objective response rates were compared between CA-9 SNP subgroups||||.28
92199078|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|3.3||||0.2661|TWO_SIDED|95.0|0.6|16.9|||ANOVA|||Day 182||16.9|0.6|0.2661
92199079|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.5||||0.7614|TWO_SIDED|95.0|0.1|2.6|||ANOVA|||Day 365||2.6|0.1|0.7614
92199080|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.8||||0.9905|TWO_SIDED|95.0|0.1|4.3|||ANOVA|||Day 365||4.3|0.1|0.9905
92199081|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.933|TWO_SIDED|95.0|0.1|3.3|||ANOVA|||Day 365||3.3|0.1|0.9330
92199082|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9945|TWO_SIDED|95.0|0.2|6.7|||ANOVA|||Day 365||6.7|0.2|0.9945
92199083|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.5||||0.9599|TWO_SIDED|95.0|0.3|8.4|||ANOVA|||Day 365||8.4|0.3|0.9599
92199084|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9942|TWO_SIDED|95.0|0.2|6.4|||ANOVA|||Day 365||6.4|0.2|0.9942
92199085|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.5||||0.4932|TWO_SIDED|95.0|0.5|12.9|||ANOVA|||Day 365||12.9|0.5|0.4932
92199086|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.8||||0.9983|TWO_SIDED|95.0|0.2|4.6|||ANOVA|||Day 365||4.6|0.2|0.9983
92323026|NCT03139578|184550183|NON_INFERIORITY|Non-inferiority margin of 0.625 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of 0.625, then non-inferiority of Test relative to Control was concluded.|Cumulative Odds Ratio|1.18|||||TWO_SIDED|95.0|0.46|3.06|||Generalized linear mixed model|Simulation-based adjustment was utilized to address the multiple comparisons of different base curves.|Cumulative odds ratio was calculated as Test over Control.|||3.06|0.46|
92199087|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.7||||0.9112|TWO_SIDED|95.0|0.3|9.3|||ANOVA|||Day 365||9.3|0.3|0.9112
92199088|NCT03635086|184295917|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.0||||0.7431|TWO_SIDED|95.0|0.4|10.2|||ANOVA|||Day 365||10.2|0.4|0.7431
92199089|NCT03434028|184295939|SUPERIORITY||difference in mortality rate|-0.9||||0.61|TWO_SIDED|95.0|-4.4|2.6|||Z-test|||||2.6|-4.4|0.61
92199090|NCT03434028|184295940|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.5|1.2|||||The mean values is an estimate from the Kaplan-Meier curve, thus it is correct as reported.|||1.2|-0.5|
92199091|NCT03434028|184295941|SUPERIORITY||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.4|1.6||||||||1.6|-0.4|
92199092|NCT03434028|184295942|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.8|1.2||||||||1.2|-0.8|
92199093|NCT03434028|184295943|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.5|1.3||||||||1.3|-0.5|
92199094|NCT03434028|184295944|SUPERIORITY||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.8|1.0||||||||1.0|-0.8|
92199095|NCT03434028|184295945|SUPERIORITY||Mean Difference (Final Values)|0.8|||||TWO_SIDED|95.0|-0.3|1.9||||||||1.9|-0.3|
92199096|NCT03434028|184295946|SUPERIORITY||Risk Difference (RD)|-1.7|||||TWO_SIDED|95.0|-5.1|1.7||||||||1.7|-5.1|
92199097|NCT03434028|184295947|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.8|1.8||||||||1.8|-1.8|
92199098|NCT03434028|184295948|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||||0.1|-0.1|
92199099|NCT03434028|184295949|SUPERIORITY||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.3|0.4||||||||0.4|-0.3|
92199100|NCT03434028|184295950|SUPERIORITY||Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-1.7|1.5||||||||1.5|-1.7|
92199101|NCT03434028|184295951|SUPERIORITY||Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-3.7|1.7||||||||1.7|-3.7|
92199102|NCT03434028|184295952|SUPERIORITY||Risk Difference (RD)|0.5|||||TWO_SIDED|95.0|-3.6|4.7||||||||4.7|-3.6|
92199103|NCT02037776|184295953|SUPERIORITY|||||||0.038|||||||Wilcoxon (Mann-Whitney)|||Comparison between groups in Rikkunshito Placebo and Rikkunshito, based on the count of participants categorized in 1 (Significantly improved) through 7 (Much worse), using the Wilcoxon (Mann-Whitney).||||0.038
92199104|NCT02037776|184295954|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in all symptoms of modified FSSG||||0.027
92199105|NCT02037776|184295954|SUPERIORITY|||||||0.089|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in GERD symptoms of modified FSSG||||0.089
92199106|NCT02037776|184295954|SUPERIORITY|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in dyspeptic symptoms of modified FSSG||||0.148
92199107|NCT02037776|184295955|SUPERIORITY|||||||0.051|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in total score of PAGI-SYM||||0.051
92199108|NCT02037776|184295955|SUPERIORITY|||||||0.947|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Heartburn/Regurgitation of PAGI-SYM||||0.947
92199109|NCT02037776|184295955|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Nausea/Vomiting of PAGI-SYM||||0.157
92199110|NCT02037776|184295955|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Postprandial Fullness/Early satiety of PAGI-SYM||||0.004
92199111|NCT02037776|184295955|SUPERIORITY|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Bloating of PAGI-SYM||||0.011
92199112|NCT02037776|184295955|SUPERIORITY|||||||0.245|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Upper Abdominal Pain of PAGI-SYM||||0.245
92199113|NCT02037776|184295955|SUPERIORITY|||||||0.387|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Lower Abdominal Pain of PAGI-SYM||||0.387
92199114|NCT02037776|184295956|SUPERIORITY|||||||0.034|||||||Wilcoxon (Mann-Whitney)|||||||0.034
92199115|NCT02037776|184295957|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in PCS of SF-8||||0.270
92199116|NCT02037776|184295957|SUPERIORITY|||||||0.342|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in MCS of SF-8||||0.342
92199117|NCT02037776|184295958|SUPERIORITY|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in overall point score of HAD||||0.036
92199118|NCT02037776|184295958|SUPERIORITY|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in depression point score of HAD||||0.084
92199119|NCT02037776|184295958|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in anxiety point score of HAD||||0.022
92199120|NCT02296892|184295959|SUPERIORITY||Difference in Rates|0.7588|||<|0.0001|TWO_SIDED|95.0|0.6903|0.8274|||Cochran-Mantel-Haenszel|||||0.8274|0.6903|<0.0001
92199121|NCT01056263|184295967|SUPERIORITY_OR_OTHER||Five year survival probability|20.6|||||TWO_SIDED|95.0|10.94|32.38||||||Five year survival probability was the probability of survival at 5 year after the date of the start of the study treatment based on the Kaplan-Meier estimate.||32.38|10.94|
92199122|NCT03375320|184295977|SUPERIORITY||||||<|0.0001|||||||One-sided unstratified log-rank|||||||<0.0001
92199123|NCT03375320|184295977|SUPERIORITY||||||<|0.0001|||||||One-sided unstratified log-rank|||||||<0.0001
92323027|NCT03139578|184550183|NON_INFERIORITY|Non-inferiority margin of 0.625 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of 0.625, then non-inferiority of Test relative to Control was concluded.|Cumulative Odds Ratio|0.93|||||TWO_SIDED|95.0|0.34|2.52|||Generalized linear mixed model|Simulation-based adjustment was utilized to address the multiple comparisons of different base curves.|Cumulative odds ratio was calculated as Test over Control.|||2.52|0.34|
92323028|NCT03139578|184550184|EQUIVALENCE|Equivalence margin of 70% was used for no difference in lens power requirement.|Proportion (%)|93.8|||||TWO_SIDED|97.5|81.1|98.1|||Wilson Method||Lens power requirement difference was calculated as Test minus Control. Then the proportion of eyes with similar lens power requirements (no difference or difference within ±0.25D) was calculated.|||98.1|81.1|
92199124|NCT03375320|184295978|SUPERIORITY|||||||0.2438|||||||One-sided stratified log-rank|||||||0.2438
92199125|NCT03375320|184295978|SUPERIORITY|||||||0.4426|||||||One-sided stratified log-rank|||||||0.4426
92199126|NCT03375320|184295980|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
92199127|NCT03375320|184295980|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
92199128|NCT04556305|184295991|SUPERIORITY|||||||0.409|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.409
92199129|NCT04556305|184295991|SUPERIORITY|||||||0.456|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.456
92199130|NCT04556305|184295991|SUPERIORITY|||||||0.692|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.692
92199131|NCT04556305|184295992|SUPERIORITY|||||||0.179|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.179
92199132|NCT04556305|184295992|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.910
92199133|NCT04556305|184295992|SUPERIORITY|||||||0.159|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.159
92199134|NCT04556305|184295993|SUPERIORITY|||||||0.078|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.078
92199135|NCT04556305|184295993|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.130
92199136|NCT04556305|184295993|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.430
92199137|NCT04556305|184295994|SUPERIORITY|||||||0.772|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.772
92199138|NCT04556305|184295994|SUPERIORITY|||||||0.107|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.107
92199139|NCT04556305|184295994|SUPERIORITY|||||||0.915|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.915
92199140|NCT04556305|184295995|SUPERIORITY|||||||0.078|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.078
92199141|NCT04556305|184295995|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.130
92199142|NCT04556305|184295995|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.430
92199143|NCT04556305|184295996|SUPERIORITY|||||||0.487|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.487
92199144|NCT04556305|184295996|SUPERIORITY|||||||0.827|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.827
92199145|NCT04556305|184295996|SUPERIORITY|||||||0.908|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.908
92199146|NCT04556305|184295997|SUPERIORITY|||||||0.371|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.371
92199147|NCT04556305|184295997|SUPERIORITY|||||||0.633|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.633
92199148|NCT04556305|184295997|SUPERIORITY|||||||0.23|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.230
92199149|NCT04556305|184295998|SUPERIORITY|||||||0.798|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.798
92199150|NCT04556305|184295998|SUPERIORITY|||||||0.461|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.461
92323029|NCT03139578|184550184|EQUIVALENCE|Equivalence margin of 70% was used for no difference in lens power requirement.|Proportion (%)|83.3|||||TWO_SIDED|97.5|68.3|92.1|||Wilson Method||Lens power requirement difference was calculated as Test minus Control. Then the proportion of eyes with similar lens power requirements (no difference or difference within ±0.25D) was calculated.|||92.1|68.3|
92323030|NCT03139578|184550184|EQUIVALENCE|Equivalence margin of 80% was used for the lens power requirement difference within ±0.25 D.|Proportion (%)|100.0|||||TWO_SIDED|97.5|90.5|100.0|||Wilson Method||Lens power requirement difference was calculated as Test minus Control. Then the proportion of eyes with similar lens power requirements (no difference or difference within ±0.25D) was calculated.|||100|90.5|
92323031|NCT03139578|184550184|EQUIVALENCE|Equivalence margin of 80% was used for the lens power requirement difference within ±0.25 D.|Proportion (%)|100.0|||||TWO_SIDED|97.5|90.5|100.0|||Wilson Method||Lens power requirement difference was calculated as Test minus Control. Then the proportion of eyes with similar lens power requirements (no difference or difference within ±0.25D) was calculated.|||100.0|90.5|
92323032|NCT03139578|184550185|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.2|||||TWO_SIDED|95.0|-0.3|0.7|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.7|-0.3|
92323033|NCT03139578|184550185|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.5|-0.5|
92323034|NCT03139578|184550186|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.4|0.3|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.3|-0.4|
92323035|NCT03139578|184550186|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.5|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.5|-0.2|
92323036|NCT03139578|184550187|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.4|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.4|-0.1|
92323037|NCT03139578|184550187|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.3|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.3|-0.2|
92323038|NCT03139578|184550188|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.5|-0.5|
92199151|NCT04556305|184295998|SUPERIORITY|||||||0.419|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.419
92199152|NCT04556305|184295999|SUPERIORITY|||||||0.619|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.619
92323039|NCT03139578|184550188|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.6|0.4|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.4|-0.6|
92323040|NCT03139578|184550189|NON_INFERIORITY|Non-inferiority margin of 0.1 was used. If the upper limit of 95% confidence interval was lower than a non-inferiority margin of 0.1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.002|||||TWO_SIDED|95.0|-0.009|0.012|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.012|-0.009|
92323041|NCT03139578|184550189|NON_INFERIORITY|Non-inferiority margin of 0.1 was used. If the upper limit of 95% confidence interval was lower than a non-inferiority margin of 0.1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|-0.001|||||TWO_SIDED|95.0|-0.012|0.009|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.009|-0.012|
92323042|NCT01377922|184550265|OTHER|Estimated via a MMRM with change from baseline (Day 1, Part 2), Day 8, and Day 14 as the dependent variable and terms for treatment, time (Day 8, Day 14), treatment-by-time interaction, and double-blind baseline QMG score as fixed effects and patient as a random effect. The model assumed time effect to be random between patients.||||||0.0452|||||||Mixed Models Analysis|Pairwise contrast at Day 14 from MMRM model.||||||0.0452
92199153|NCT04556305|184295999|SUPERIORITY|||||||0.468|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.468
92199154|NCT04556305|184295999|SUPERIORITY|||||||0.387|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.387
92199155|NCT04556305|184296000|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.380
92199156|NCT04556305|184296000|SUPERIORITY|||||||0.759|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.759
92199157|NCT04556305|184296000|SUPERIORITY|||||||0.219|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.219
92323043|NCT01377922|184550266|OTHER|||||||0.0028||||||Pairwise contrast at Day 14 from MMRM model.|Mixed Models Analysis|||Estimated via a MMRM with change from baseline (Day 1, Part 2), Day 8, and Day 14 as the dependent variable and terms for treatment, time (Day 8, Day 14), treatment-by-time interaction, and double-blind baseline SGI score as fixed effects and patient as a random effect. The model assumed time effect to be random between patients||||0.0028
92323044|NCT01377922|184550267|OTHER|||||||0.6274|||||||Mixed Models Analysis|||Estimated via a MMRM with change from baseline (Day 1, Part 2), Day 8, and Day 14 as the dependent variable and terms for treatment, time (Day 8, Day 14), treatment-by-time interaction, and double-blind baseline T25FW walking speed as fixed effects and patient as a random effect. The model assumed time effect to be random between patients.||||0.6274
92323045|NCT01377922|184550268|OTHER|||||||0.0267|||||||Mixed Models Analysis|||Estimated via a MMRM with change from baseline (Day 1, Part 2), Day 8, and Day 14 as the dependent variable and terms for treatment, time (Day 8, Day 14), treatment-by-time interaction as fixed effects and patient as a random effect. The model assumed time effect to be random between patients||||0.0267
92323046|NCT00665431|184550270|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority margin (NI) margin of 10mm between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-5.94|3.34|||ANCOVA|||||3.34|-5.94|
92323047|NCT00665431|184550271|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority (NI) margin of 10mm between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|-2.11|||||TWO_SIDED|95.0|-6.82|2.6|||ANCOVA|||||2.60|-6.82|
92323048|NCT00665431|184550272|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority (NI) margin of 10mm between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|3.45|||||TWO_SIDED|95.0|-1.41|8.31|||ANCOVA|||||8.31|-1.41|
92323049|NCT02157376|184550290|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the two-sided 95% confidence interval for the difference is larger than -0.05, the non-inferiority claim will be met.|Risk Difference (RD)|1.9||||0.393|TWO_SIDED|95.0|-2.8|6.5|||Pearson's Chi-square||The difference in treatment group percentages is given by Cimetidine minus Esomeprazole.|Assuming a bleeding percent of 6.3% for the active comparator, a risk reduction of 3.7% for esomeprazole, and a 5% non-inferiority margin, 150 patients per treatment arm will provide 94% power to demonstrate non-inferiority. The null hypothesis is that the bleeding rate for iv esomeprazole 40 mg bid exceeds the rate for iv cimetidine by an amount at least as large as 5%.||6.5|-2.8|0.393
92323050|NCT02547220|184550292|SUPERIORITY||Difference in percentage|2.6||||0.6857|TWO_SIDED|95.0|-29.4|34.5|||Fisher Exact||Difference in percentage was calculated by the difference in percentage of new or worsening TG at 6 months between CINRYZE and placebo|||34.5|-29.4|0.6857
92323051|NCT03771560|184550329|OTHER||Mean Difference (Final Values)|-2.4||||0.56|TWO_SIDED|95.0|-11.3|6.4|||Paired Sample t-test|||The parent-reported change in mean ABC total score from baseline to week 12.||6.4|-11.3|0.56
92323052|NCT03771560|184550330|OTHER||Mean Difference (Final Values)|1.2||||0.68|TWO_SIDED|95.0|-5.2|7.6|||Paired Sample t-test|||The teacher-reported change in mean ABC total score from baseline to week 12.||7.6|-5.2|0.68
92323053|NCT03771560|184550331|OTHER||Mean Difference (Final Values)|-7.8||||0.095|TWO_SIDED|95.0|-17.3|1.6|||Paired Sample t-test|||The parent-reported change in mean SRS total score from baseline to week 12.||1.6|-17.3|0.095
92199158|NCT04556305|184296001|SUPERIORITY|||||||0.995|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.995
92323054|NCT03771560|184550332|OTHER||Median Difference (Final Values)|-0.5||||0.95|TWO_SIDED|95.0|-7.0|13.5|||Wilcoxon (Mann-Whitney)|||The teacher-reported change in mean SRS total score from baseline to week 12.||13.5|-7.0|0.95
92323055|NCT03771560|184550333|OTHER||Mean Difference (Final Values)|-0.8||||0.69|TWO_SIDED|95.0|-5.2|3.5|||Paired Sample t-test|||The parent-reported change in mean PedsQL total score from baseline to week 12.||3.5|-5.2|0.69
92323056|NCT02887183|184550334|OTHER||Least Squared Geometric Mean Ratio|0.632|||<|0.0001|TWO_SIDED|95.0|0.5865|0.681|||ANCOVA|||||0.6810|0.5865|<.0001
92323057|NCT02887183|184550335|OTHER||Least Squared Mean|-7.57|||<|0.0001|TWO_SIDED|95.0|-7.98|-7.15|||ANCOVA|||LAVi||-7.15|-7.98|<.0001
92199159|NCT04556305|184296001|SUPERIORITY|||||||0.946|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.946
92199160|NCT04556305|184296001|SUPERIORITY|||||||0.593|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.593
92199161|NCT04556305|184296002|SUPERIORITY|||||||0.092|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.092
92323058|NCT02887183|184550335|OTHER||Least Squared Mean|-12.25|||<|0.0001|TWO_SIDED|95.0|-12.92|-11.58|||ANCOVA|||LVEDVi||-11.58|-12.92|<.0001
92323059|NCT02887183|184550335|OTHER||Least Squared Mean|-15.29|||<|0.0001|TWO_SIDED|95.0|-16.03|-14.55|||ANCOVA|||LVESVi||-14.55|-16.03|<.0001
92323060|NCT02887183|184550336|OTHER||Least Squared Mean|9.37|||<|0.001|TWO_SIDED|95.0|8.84|9.9|||ANCOVA|||||9.90|8.84|<.001
92323061|NCT02887183|184550337|OTHER|Pearson's Correlation|||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||LVESVi, LVEDVi, LAVi. LVEF||||<.0001
92323062|NCT02887183|184550338|OTHER|Pearson's Correlation|||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||LVESVi, LVEDVi, LAVi. LVEF||||<.0001
92323063|NCT02887183|184550339|OTHER|Pearson's Correlation|||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects with new onset HF and/or RAAS naïve||||<.0001
92323064|NCT02887183|184550339|OTHER|Pearson's Correlation||||||0.0003|TWO_SIDED|95.0|||||t-test, 2 sided|||"Subjects with HFrEF and low NT-proBNP"||||0.0003
92323065|NCT02887183|184550339|OTHER|Pearson's Correlation||||||0.0956|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects not receiving target dose||||0.0956
92323066|NCT02887183|184550340|OTHER|Pearson's Correlation||||||0.006|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects with new onset HF and/or RAAS naïve||||0.0060
92323067|NCT02887183|184550340|OTHER|Pearson's Correlation||||||0.0012|TWO_SIDED|95.0|||||t-test, 2 sided|||"Subjects with HFrEF and low NT-proBNP"||||0.0012
92323068|NCT02887183|184550340|OTHER|Pearson's Correlation||||||0.0181|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects not receiving target dose||||0.0181
92323069|NCT02887183|184550341|OTHER|Pearson's Correlation||||||0.2498|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects with new onset HF and/or RAAS naïve||||0.2498
92323070|NCT02887183|184550341|OTHER|Pearson's Correlation||||||0.0495|TWO_SIDED|95.0|||||t-test, 2 sided|||"Subjects with HFrEF and low NT-proBNP"||||0.0495
92323071|NCT02887183|184550341|OTHER|Pearson's Correlation||||||0.2685|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects not receiving target dose||||0.2685
92323072|NCT02887183|184550342|OTHER|Pearson's Correlation||||||0.0029|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects with new onset HF and/or RAAS naïve||||0.0029
92323073|NCT02887183|184550342|OTHER|Pearson's Correlation||||||0.0011|TWO_SIDED|95.0|||||t-test, 2 sided|||"Subjects with HFrEF and low NT-proBNP"||||0.0011
92323074|NCT02887183|184550342|OTHER|Pearson's Correlation||||||0.0012|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects not receiving target dose||||0.0012
92323075|NCT02887183|184550343|OTHER||Least Squared Mean|9.32|||<|0.0001|TWO_SIDED|95.0|7.94|10.69|||ANCOVA|||||10.69|7.94|<.0001
92323076|NCT02702388|184550349|NON_INFERIORITY|Odds ratio of ORR as of Week 24 response (18 mg vs 24 mg) along with its 95% confidence interval (CI) using the Cochran-Mantel-Haenszel (CMH) method, stratified by the randomization stratification factors. The test was performed per the 95% CI using the noninferiority margin of 0.4. Noninferiority will be declared if the lower limit of the 95% CI for the odds ratio is greater than 0.4.|Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.26|0.96||||||||0.96|0.26|
92323077|NCT02729051|184550382|NON_INFERIORITY|If the lower bound of the two-sided 95% confidence interval around the (FF/UMEC/VI versus FF/VI+UMEC) treatment difference is above -50 milliliter (mL) then FF/UMEC/VI was to be considered non-inferior to FF/VI+UMEC.|Mean Difference (Final Values)|0.018|STANDARD_ERROR_OF_MEAN|0.0161|||TWO_SIDED|95.0|-0.013|0.05|||||MMRM method included covariates of Baseline FEV1, stratum (number of long-acting bronchodilators per day during the run-in: 0/1 or 2), visit, geographical region, treatment, visit by treatment and visit by Baseline interaction.|||0.050|-0.013|
92323078|NCT02729051|184550383|OTHER||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.71|1.2|||||Analysis included covariates of treatment group, stratum (number of long-acting bronchodilators per day during the run-in: 0/1 or 2), geographical region, visit, Baseline, Baseline by visit and treatment by visit interactions.|||1.20|0.71|
92323079|NCT02729051|184550384|OTHER||Least Square Mean Difference|-0.906|STANDARD_ERROR_OF_MEAN|0.8327|||TWO_SIDED|95.0|-2.54|0.728|||||Analysis performed using a repeated measures model with covariates of Baseline SGRQ, stratum (number of long-acting bronchodilators per day during the run-in: 0/1 or 2), visit, geographical region, treatment, visit by treatment and visit by Baseline.|||0.728|-2.540|
92323080|NCT02729051|184550385|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.72|1.25|||||Include covariates of treatment group, stratum (number of long-acting bronchodilators/ day during the run-in: 0/1 or 2), geographical region, visit, Baseline dyspnea index (BDI) focal score, BDI focal score/ visit and treatment/ visit interactions.|||1.25|0.72|
92323081|NCT02729051|184550386|OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.1773|||TWO_SIDED|95.0|-0.211|0.485|||||Analysis included covariates of BDI focal score, stratum (number of long-acting bronchodilators per day during the run-in: 0/1 or 2), visit, geographical region, treatment, visit by treatment and visit by BDI Focal score interactions.|||0.485|-0.211|
92323082|NCT02729051|184550387|OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.68|1.12|||||Analysis was performed using a Cox proportional hazards model.|||1.12|0.68|
92323083|NCT00869622|184550391|SUPERIORITY_OR_OTHER|||||||0.0229|TWO_SIDED||||||Fisher Exact|||||||0.0229
92323084|NCT00860249|184550428|SUPERIORITY_OR_OTHER||||||<|0.017||95.0||||We used the Bonferroni calculation to adjust for the planned multiple comparisons among the three groups.|Chi-squared|||Please note that no analyses were performed as the trial was stopped due to low enrollment.||||<0.017
92323085|NCT00860249|184550429|SUPERIORITY_OR_OTHER||||||<|0.017||95.0||||We intended to use a Bonferroni calculation to adjust for multiple comparisons among study arms.|Chi-squared|||Please note that no analyses were performed as the trial was stopped due to low enrollment.||||<0.017
92199162|NCT04556305|184296002|SUPERIORITY|||||||0.245|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.245
92199163|NCT04556305|184296002|SUPERIORITY|||||||0.107|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.107
92199164|NCT04556305|184296003|SUPERIORITY|||||||0.244|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.244
92323086|NCT01435018|184550449|NON_INFERIORITY|"Non-inferiority is defined as demonstrating that the 48-week PFS rate in ET+ART is within 15 percent of PTX+ART. The selection of the 15 percent non-inferiority margin was a combination of clinical judgment and statistical reasoning. A poll of the sites was conducted to derive the maximum treatment difference that is considered clinically relevant (i.e. largest acceptable difference in order to gain the advantages (e.g. cost) of the experimental chemotherapy)."|Cumulative rate difference|-30.3|||||TWO_SIDED|95.0|-52.3|-8.3|||||Confidence interval (CI) estimation was stratified by screening CD4 count using Greenwood's variance with the inverse of this variance used for the stratum weights. CI stratified by country was not performed due to small number of observations.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 PFS rate with 95% two-sided confidence interval.||-8.3|-52.3|
92323087|NCT01435018|184550450|NON_INFERIORITY|"Non-inferiority is defined as demonstrating that the 48-week PFS rate in BV+ART is within 15 percent of PTX+ART. The selection of the 15 percent non-inferiority margin was a combination of clinical judgment and statistical reasoning. A poll of the sites was conducted to derive the maximum treatment difference that is considered clinically irrelevant (i.e. largest acceptable difference in order to gain the advantages (e.g. cost) of the experimental chemotherapy)."|Cumulative rate difference|-19.8|||||TWO_SIDED|95.0|-32.3|-7.4|||||Confidence interval estimation was stratified by screening CD4 count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 PFS rate with 95% two-sided confidence interval.||-7.4|-32.3|
92199165|NCT04556305|184296003|SUPERIORITY|||||||0.085|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.085
92323088|NCT01435018|184550450|NON_INFERIORITY|"Non-inferiority is defined as demonstrating that the 48-week PFS rate in BV+ART is within 15 percent of PTX+ART. The selection of the 15 percent non-inferiority margin was a combination of clinical judgment and statistical reasoning. A poll of the sites was conducted to derive the maximum treatment difference that is considered clinically irrelevant (i.e. largest acceptable difference in order to gain the advantages (e.g. cost) of the experimental chemotherapy)."|Cumulative rate difference|-20.1|||||TWO_SIDED|95.0|-32.2|-7.9|||||Confidence interval estimation was stratified by country using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative PFS rate with 95% two-sided confidence interval.||-7.9|-32.2|
92323089|NCT01435018|184550451|OTHER||Cumulative rate difference|14.7|||||TWO_SIDED|95.0|-1.9|31.4|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of death with 95% two-sided confidence interval.||31.4|-1.9|
92323090|NCT01435018|184550452|OTHER||Cumulative rate difference|8.4|||||TWO_SIDED|95.0|-0.4|17.2|||||Confidence interval estimation was stratified by screening CD4 count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of death with 95% two-sided confidence interval.||17.2|-0.4|
92323091|NCT01435018|184550454|OTHER||Cumulative rate difference|16.3|||||TWO_SIDED|95.0|3.7|28.8||||||Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of IERC-confirmed KS progression with 95% two-sided confidence interval.|Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|28.8|3.7|
92323092|NCT01435018|184550455|OTHER||Cumulative rate difference|-15.0|||||TWO_SIDED|95.0|-34.4|4.3|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of AIDS-defining events with 95% two-sided confidence interval.||4.3|-34.4|
92323093|NCT01435018|184550456|OTHER||Cumulative rate difference|-3.3|||||TWO_SIDED|95.0|-13.3|6.6|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of AIDS-defining events with 95% two-sided confidence interval.||6.6|-13.3|
92323094|NCT01435018|184550457|OTHER||Cumulative rate difference|4.3|||||TWO_SIDED|95.0|-1.9|10.6|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of HIV-1 RNA virologic failure with 95% two-sided confidence interval.||10.6|-1.9|
92199166|NCT04556305|184296003|SUPERIORITY|||||||0.71|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.710
92199167|NCT04556305|184296004|SUPERIORITY|||||||0.491|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.491
92199168|NCT04556305|184296004|SUPERIORITY|||||||0.444|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.444
92199169|NCT04556305|184296004|SUPERIORITY|||||||0.279|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.279
92199170|NCT03512197|184296031|SUPERIORITY||Hazard Ratio (HR)|1.0239|||||TWO_SIDED|95.0|0.8|1.31||||||||1.31|0.8|
92199171|NCT03512197|184296032|SUPERIORITY||Hazard Ratio (HR)|0.8728|||||TWO_SIDED|95.0|0.59|1.29||||||||1.29|0.59|
92323095|NCT01435018|184550458|OTHER||Cumulative rate difference|5.5|||||TWO_SIDED|95.0|-0.1|11.0|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of HIV-1 RNA virologic failure with 95% two-sided confidence interval.||11.0|-0.1|
92323096|NCT01435018|184550461|OTHER||Cumulative rate difference|19.4|||||TWO_SIDED|95.0|-4.1|43.0|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, or AIDS defining event.||43.0|-4.1|
92199172|NCT03512197|184296037|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.6|1.63||||||||1.63|0.60|
92199173|NCT03512197|184296038|SUPERIORITY||Hazard Ratio (HR)|1.5866|||||TWO_SIDED|95.0|0.88|2.87||||||||2.87|0.88|
92199174|NCT03512197|184296039|SUPERIORITY||Hazard Ratio (HR)|0.7937|||||TWO_SIDED|95.0|0.41|1.54||||||||1.54|0.41|
92199175|NCT03512197|184296041|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.75|1.16||||||partial neutrophil recovery||1.16|0.75|
92199176|NCT03512197|184296041|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.72|1.14||||||full neutrophil recovery||1.14|0.72|
92199177|NCT03512197|184296042|SUPERIORITY||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.87|1.52||||||partial platelet recovery||1.52|0.87|
92199178|NCT03512197|184296042|SUPERIORITY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.67|1.0||||||full platelet recovery||1.00|0.67|
92199179|NCT03358238|184296080|OTHER||Proportion|0.404|||||TWO_SIDED|95.0|0.264|0.557|||||Type of confidence interval = Clopper-Pearson|||0.557|0.264|
92199180|NCT03358238|184296081|SUPERIORITY||Difference in Average Proportions|0.0017||||0.99|TWO_SIDED|95.0|-0.1774|0.1807||Statistical significance was an alpha level of 0.05.|t-test, 2 sided|Two-sample t test. Degrees of freedom = 45.|Two-sample t confidence intervals|Null hypothesis was that the difference in average adherence rates of self-reporting between arms was zero.||0.1807|-0.1774|0.99
92199181|NCT03358238|184296082|SUPERIORITY||Risk Difference (RD)|-0.0189||||0.85|TWO_SIDED|95.0|-0.2215|0.1837||Statistical significance was considered an alpha level of 0.05.|t-test, 2 sided|Two-sample t-test. Degrees of freedom = 45|Two-sample t confidence intervals|Null hypothesis was that the difference in average adherence rates to activity tracking between arms was zero.||0.1837|-0.2215|0.85
92199182|NCT03358238|184296083|OTHER||Proportion|0.5385|||||TWO_SIDED|95.0|0.3718|0.6991|||||Type of confidence interval = Clopper-Pearson|Estimating proportion of individuals with higher adherence rates for self-report over activity tracking among individuals with unequal adherence rates||0.6991|0.3718|
92199183|NCT03358238|184296083|SUPERIORITY|||||||0.0828|||||||Chi-squared|Degrees of freedom = 1||Null hypothesis is that among individuals with unequal adherence rates, the proportion of individuals with greater adherence to self-report over activity tracking in the Review Arm is equal to the proportion of individuals with greater adherence to self-report over activity tracking in the No Review Arm.||||0.0828
92199184|NCT03358238|184296084|OTHER||Mean Difference (Net)|0.79||||0.2|TWO_SIDED|95.0|-0.42|1.99||Statistical significance was considered an alpha level of 0.05.|t-test, 2 sided|One-sample t-test. Degrees of freedom = 46.|"One participant had a single item missing on the Young Mania Rating Scale administered at study start. A zero was imputed for the missing item to recover a total score.~One-sample t confidence intervals."|"One participant had a single item missing on the Young Mania Rating Scale administered at study start. A zero was imputed for the missing item to recover a total score.~Null hypothesis was that the average change in total scores was zero."||1.99|-0.42|0.20
92199185|NCT03358238|184296085|OTHER||Mean Difference (Net)|0.89||||0.32|TWO_SIDED|95.0|-0.91|2.7||Statistical significance was considered an alpha level of 0.05.|t-test, 2 sided|One-sample t test. Degrees of freedom = 46|One-sample t confidence intervals|Null hypothesis was that average change in scores on the structured interview guide for the Hamilton rating scale for depression is zero.||2.70|-0.91|0.32
92199186|NCT02633397|184296086|SUPERIORITY|||||||0.19|||||||Regression, Logistic|||P- Value was the exact logistic regression adjusted for clinical site.||||0.19
92199187|NCT02633397|184296087|SUPERIORITY|||||||0.42|||||||Regression, Logistic|||P- Value was the exact logistic regression adjusted for clinical site.||||0.42
92199188|NCT02633397|184296088|SUPERIORITY|||||||0.52|||||||Regression, Logistic|||P- Value was the exact logistic regression adjusted for clinical site.||||0.52
92199189|NCT02633397|184296090|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.69|TWO_SIDED|90.0|-0.7|0.42|||ANCOVA|||ANCOVA model adjusted for clinic site||0.42|-0.70|0.69
92199190|NCT02633397|184296091|SUPERIORITY||Mean Difference (Final Values)|-39.51||||0.4|TWO_SIDED|90.0|-117.05|38.02|||ANCOVA|||ANCOVA model adjusted for clinic site||38.02|-117.05|0.40
92199191|NCT02633397|184296092|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.23|TWO_SIDED|90.0|-0.11|0.73|||Regression, Linear|||Linear regression model adjusted for clinic site||0.73|-0.11|0.23
92199192|NCT02633397|184296093|SUPERIORITY||Mean Difference (Final Values)|-0.08||||-0.8|TWO_SIDED|90.0|-0.62|0.46|||ANCOVA|||ANCOVA model adjusted for clinic site||0.46|-0.62|-0.80
92199193|NCT02633397|184296094|SUPERIORITY||Mean Difference (Final Values)|-6.96|||<|0.001|TWO_SIDED|90.0|-10.22|-3.69|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in MAP as a function of time, the interaction between time and study arm, and clinic site.||-3.69|-10.22|<0.001
92199194|NCT02633397|184296095|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.15|TWO_SIDED|90.0|-0.31|0.02|||ANCOVA|||ANCOVA model adjusted for clinic site||0.02|-0.31|0.15
92199195|NCT02633397|184296096|SUPERIORITY||Mean Difference (Final Values)|-6.7||||0.003|TWO_SIDED|90.0|-10.28|-3.12|||ANCOVA|||ANCOVA model adjusted for clinic site||-3.12|-10.28|0.003
92199196|NCT02633397|184296097|SUPERIORITY||Mean Difference (Final Values)|3.52|||<|0.001|TWO_SIDED|90.0|2.0|5.04|||ANCOVA|||ANCOVA model adjusted for clinic site||5.04|2.00|<0.001
92199197|NCT02633397|184296098|SUPERIORITY||Mean Difference (Final Values)|286.56||||0.51|TWO_SIDED|90.0|-429.86|1002.99|||Regression, Linear|||Linear regression model adjusted for clinic site||1002.99|-429.86|0.51
92199198|NCT02633397|184296099|SUPERIORITY||Mean Difference (Final Values)|-82.18||||0.14|TWO_SIDED|90.0|-173.69|9.32|||Regression, Linear|||Linear regression model adjusted for clinic site||9.32|-173.69|0.14
92199199|NCT02633397|184296100|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept was used to compare microalbuminuria frequency as a function of time and the interaction between time and study arm.||||0.78
92199200|NCT02633397|184296101|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept was used to compare macroalbuminuria frequency as a function of time and the interaction between time and study arm.||||0.30
92199201|NCT02633397|184296102|SUPERIORITY||Mean Difference (Final Values)|-4.91||||0.06|TWO_SIDED|90.0|-9.21|-0.62|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in GFR as a function of time, the interaction between time and study arm, and clinic site.||-0.62|-9.21|0.06
92199202|NCT02633397|184296103|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept was used to compare CKD stage frequency as a function of time and the interaction between time and study arm.||||0.56
92199203|NCT02633397|184296104|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.15|TWO_SIDED|90.0|-0.52|0.03|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in hemoglobin as a function of time, the interaction between time and study arm, and clinic site.||0.03|-0.52|0.15
92199204|NCT02633397|184296105|SUPERIORITY||Mean Difference (Final Values)|1.47||||0.05|TWO_SIDED|90.0|0.22|2.72|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in reticulocyte count as a function of time, the interaction between time and study arm, and clinic site.||2.72|0.22|0.05
92323097|NCT01435018|184550462|OTHER||Cumulative rate difference|14.4|||||TWO_SIDED|95.0|1.8|27.0|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, or AIDS defining event.||27.0|1.8|
92323098|NCT01435018|184550463|OTHER||Cumulative rate difference|24.2|||||TWO_SIDED|95.0|0.9|47.4|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, AIDS defining event, or virologic failure.||47.4|0.9|
92323099|NCT01435018|184550464|OTHER||Cumulative rate difference|18.8|||||TWO_SIDED|95.0|6.3|31.3|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, AIDS defining event, or virologic failure.||31.3|6.3|
92323100|NCT01435018|184550465|OTHER||Cumulative rate difference|24.2|||||TWO_SIDED|95.0|0.9|47.4|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, AIDS defining event, virologic failure, or KS-IRIS.||47.4|0.9|
92323101|NCT01435018|184550466|OTHER||Cumulative rate difference|17.7|||||TWO_SIDED|95.0|6.2|29.3|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, AIDS defining event, virologic failure, or KS-IRIS.||29.3|6.2|
92323102|NCT01435018|184550467|OTHER||Cumulative rate difference|37.5|||||TWO_SIDED|95.0|13.6|61.4|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of change in KS treatment.||61.4|13.6|
92323103|NCT01435018|184550468|OTHER||Cumulative rate difference|11.1|||||TWO_SIDED|95.0|-0.4|22.7|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of change in KS treatment.||22.7|-0.4|
92199205|NCT02633397|184296106|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.75|TWO_SIDED|90.0|-0.93|0.63|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in WBC count as a function of time, the interaction between time and study arm, and clinic site.||0.63|-0.93|0.75
92199206|NCT02633397|184296107|SUPERIORITY||Mean Difference (Final Values)|-29.28||||0.17|TWO_SIDED|90.0|-64.63|6.08|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in WBC count as a function of time, the interaction between time and study arm, and clinic site.||6.08|-64.63|0.17
92323104|NCT01435018|184550469|OTHER||Cumulative rate difference|14.7|||||TWO_SIDED|95.0|-1.9|31.4|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the cumulative rate of death with 95% two-sided confidence interval.||31.4|-1.9|
92323105|NCT01435018|184550470|OTHER||Cumulative rate difference|8.4|||||TWO_SIDED|95.0|-0.4|17.2|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the cumulative rate of death with 95% two-sided confidence interval.||17.2|-0.4|
92323106|NCT01435018|184550471|OTHER||Hazard Ratio (HR)|1.9|||||TWO_SIDED|95.0|1.1|3.4|||||Hazard ratio for ET+ART relative to PTX+ART adjusted for screening CD4 lymphocyte count.|||3.4|1.1|
92323107|NCT01435018|184550472|OTHER||Hazard Ratio (HR)|1.5|||||TWO_SIDED|95.0|1.1|2.2|||||Hazard ratio for BV+ART relative to PTX+ART adjusted for screening CD4 lymphocyte count.|||2.2|1.1|
92323108|NCT01435018|184550473|OTHER||Odds Ratio (OR)|0.3|||||TWO_SIDED|95.0|0.1|0.7|||||Odds ratio for ET+ART relative to PTX+ART adjusted for screening CD4 lymphocyte count.|||0.7|0.1|
92199207|NCT02633397|184296108|SUPERIORITY||Mean Difference (Final Values)|-1.64||||0.07|TWO_SIDED|90.0|-3.13|-0.15|||Regression, Linear|||Linear regression model adjusted for clinic site||-0.15|-3.13|0.07
92323109|NCT01435018|184550474|OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.5|1.3|||||Odds ratio for BV+ART relative to PTX+ART adjusted for screening CD4 lymphocyte count and country.|||1.3|0.5|
92323110|NCT03625466|184550498|SUPERIORITY||Mean Difference|-1.5|||||TWO_SIDED|95.0|-5.5|2.6||||||||2.6|-5.5|
92323111|NCT01058993|184550511|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|Student t-test-comparison means of normal subjects \& controls.||||||<0.05
92323112|NCT01058993|184550511|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Ratio paired t-test|Ratio paired t-test for comparison of baselines and responses for each category of leukocytes||The patients' leukocyte counts before and after plerixafor were compared.||||<0.05
92323113|NCT01608087|184550523|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|96.58|||||TWO_SIDED|93.93|88.54|105.35|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R1) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|105.35|88.54|
92323114|NCT01608087|184550523|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|91.68|||||TWO_SIDED|93.93|83.5|100.65|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R2) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|100.65|83.50|
92323115|NCT01608087|184550523|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|94.92|||||TWO_SIDED|93.93|87.14|103.4|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(R1/R2) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|103.40|87.14|
92323116|NCT01608087|184550524|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|98.96|||||TWO_SIDED|90.0|90.97|107.64|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R1) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|107.64|90.97|
92323117|NCT01608087|184550524|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|91.67|||||TWO_SIDED|90.0|84.02|100.01|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R2) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|100.01|84.02|
92323118|NCT01608087|184550524|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|92.63|||||TWO_SIDED|90.0|85.18|100.74|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(R1/R2) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|100.74|85.18|
92323119|NCT01608087|184550525|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|101.53|||||TWO_SIDED|90.0|92.74|111.14|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R1) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|111.14|92.74|
92323120|NCT01608087|184550525|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|93.25|||||TWO_SIDED|90.0|87.12|99.81|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R2) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|99.81|87.12|
92199208|NCT03036124|184296112|SUPERIORITY||Hazard Ratio (HR)|0.74|||<|0.0001||95.0|0.65|0.85|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization and including the history of hospitalizations due to Heart failure as a factor.||||0.85|0.65|<0.0001
92199209|NCT03036124|184296113|SUPERIORITY||Hazard Ratio (HR)|0.75|||<|0.0001||95.0|0.65|0.85|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization and including the history of hospitalizations due to Heart failure as a factor.||||0.85|0.65|<0.0001
92323121|NCT01608087|184550525|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|91.85|||||TWO_SIDED|90.0|83.91|100.54|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(R1/R2) \* 100||Least square estimates of log-transformed PK endpoint for R1 and R2 were back transformed to original scale to get adjusted point estimator and interval estimates for the inter-subject ratio of the geometric means for treatments.|100.54|83.91|
92323122|NCT00908791|184550526|SUPERIORITY_OR_OTHER|||||||0.003|||||||McNemar|exact McNemar test for paired binary data.||||||0.003
92323123|NCT00908791|184550527|SUPERIORITY_OR_OTHER|||||||0.41|||||||McNemar|||||||0.41
92323124|NCT00908791|184550528|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|95.0|||||bowker's test of symmetry|||||||0.48
92323125|NCT00908791|184550529|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|95.0|||||Sign test|||The Sign-Rank test for paired data.||||0.029
92323126|NCT00908791|184550530|SUPERIORITY_OR_OTHER|||||||0.62|||||||t-test, 2 sided|||||||0.62
92323127|NCT00908791|184550531|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0|||||Other|||||||>0.05
92323128|NCT00908791|184550532|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0|||||Other|||||||>0.05
92323129|NCT00722566|184550543|NON_INFERIORITY_OR_EQUIVALENCE|Assuming ORRs are 35.5% for both SC and IV, one-sided alpha level of 0.025, and approximately 80% power, approximately 216 subjects (144 SC:72 IV) are needed to show non-inferiority of SC to IV VELCADE.|ORR_SQ - 0.6 ORR_IV|16.8||||0.00201|TWO_SIDED|95.0|6.1|27.1|||Farrrington and Manning|CONOR P. FARRINGTON AND GODFREY MANNING STATISTICS IN MEDICINE, VOL. 9, 1447-1454(1990).||In this trial, non-inferiority is defined as retaining 60% of the IV (active control) treatment effect as measured by ORR. The non-inferiority hypothesis can be stated as: H0: ORRSC - 0.60 ORRIV \<0 vs. H1: ORRSC - 0.60 ORRIV ≥0 (non-inferiority).||27.1|6.1|0.00201
92323130|NCT05406479|184550583|NON_INFERIORITY|For the hypothesis testing of non-inferiority the confidence interval should be compared to the non-inferiority margin. More specifically, non-inferiority is established if the upper limit of a one-sided 95% confidence interval around the difference in means QTc 24 hours after treatment administration (BE-PEP - SDR-PEP) is below the non-inferiority limit of +10 ms. A two-sample t-test was used to compare the two groups, but the p-value returned should not be used to conclude non-inferiority.|Mean Difference (Final Values)|-0.193|||||TWO_SIDED|95.0|-5.146|4.76||||||Adults||4.76|-5.146|
92323131|NCT05406479|184550583|NON_INFERIORITY|For the hypothesis testing of non-inferiority the confidence interval should be compared to the non-inferiority margin. More specifically, non-inferiority is established if the upper limit of a one-sided 95% confidence interval around the difference in means QTc 24 hours after treatment administration (BE-PEP - SDR-PEP) is below the non-inferiority limit of +10 ms. A two-sample t-test was used to compare the two groups, but the p-value returned should not be used to conclude non-inferiority.|Mean Difference (Final Values)|10.556|||||TWO_SIDED|95.0|0.926|20.185||||||Adolescents (13-17)||20.185|0.926|
92199210|NCT03036124|184296114|SUPERIORITY||Rate Ratio (RR)|0.75||||0.0002||95.0|0.65|0.88|||LWYY proportional rates model|Stratified by Type 2 Diabetes status at randomization and including the history of hospitalizations due to Heart failure as a factor.||||0.88|0.65|0.0002
92199211|NCT03036124|184296115|SUPERIORITY||Win Ratio (WR)|1.18|||<|0.0001||95.0|1.11|1.26||The p-value is obtained from a rank ANCOVA adjusted for baseline KCCQ score and stratified by T2DM status at randomization.|Win Ratio|Stratified by Type 2 Diabetes status at randomization and including baseline score as a covariate.|The composite of change from baseline in total symptom score at 8 months, or death before 8 months.|||1.26|1.11|<0.0001
92199212|NCT03036124|184296116|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.1681||95.0|0.44|1.16|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization and including baseline eGFR as a covariate.||||1.16|0.44|0.1681
92199213|NCT03036124|184296117|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0217||95.0|0.71|0.97|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization.||||0.97|0.71|0.0217
92199214|NCT01515943|184296173|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.56|TWO_SIDED|97.5|-19.0|11.0||Linear contrasts performed with a type I error rate of 2.5% based on a Bonferroni adjustment (overall type I error rate of 5% for 2 pairwise treatment group comparisons).|Biniomial regression|Adjusted for baseline covariates of CISS score, mean NPC break and mean PFV blur. Linear contrasts performed with Bonferroni adjustment (alpha=0.025)|Negative values for the treatment group difference favor the HB-PU group. Results of the treatment group comparison are adjusted for baseline covariates of CISS, mean NPC break and mean PFV blur.|The primary outcome was success at 12 weeks. The sample size was computed to have 90% power to detect a treatment group difference between the HB-C versus HB-PU groups, assuming true population success percentages of 30% and 15% for the HB-C and HB-PU groups, respectively, with a type I error rate of 2.5%. The treatment group comparison was adjusted for baseline covariates of CISS score (\<28 points vs ≥28 points), mean NPC break (\<10 cm vs ≥10 cm) and mean PFV blur (≥15 pd vs \<15 pd).||11|-19|0.56
92199215|NCT01515943|184296174|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.0||||0.52|TWO_SIDED|97.5|-12.0|22.0||Linear contrasts performed with a type I error rate of 2.5% based on a Bonferroni adjustment (overall type I error rate of 5% for 2 pairwise treatment group comparisons).|Binomial regression|Adjusted for baseline covariates of CISS score, mean NPC break and mean PFV blur. Linear contrasts performed with Bonferroni adjustment (alpha=0.025)|Positive values for the treatment group difference favor the HB-C group. Results of the treatment group comparison are adjusted for baseline covariates of CISS, mean NPC break and mean PFV blur.|The primary outcome was success at 12 weeks. The sample size was computed to have 90% power to detect a treatment group difference between the HB-C versus HB-P groups, assuming true population success percentages of 30% and 10% for the HB-C and HB-PU groups, respectively, with a type I error rate of 2.5%. The treatment group comparison was adjusted for baseline covariates of CISS score (\<28 points vs ≥28 points), mean NPC break (\<10 cm vs ≥10 cm) and mean PFV blur (≥15 pd vs \<15 pd).||22|-12|0.52
92199216|NCT01515943|184296180|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-7.0|||<|0.01|TWO_SIDED|95.0|-27.0|17.0|||Bernard's exact test|A p-value was not reported in the manuscript results, but has been included here, reported directly from the analysis.||For the HB-C group, the association between completion of the computer vergence/accommodative therapy (CVAT) program (defined as achieving at least 15 stars for the jump vergence exercise) and overall success at 12 weeks was evaluated using Bernard's exact test.||17|-27|<0.01
92199217|NCT01888874|184296207|SUPERIORITY||Difference in percentage rates|11.9||||0.1236|TWO_SIDED|95.0|-3.1|26.9|||Regression, Logistic|P-value has been corrected for multiplicity according to Hommel's closed-testing method.||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||26.9|-3.1|0.1236
92199218|NCT01888874|184296207|SUPERIORITY||Difference in percentage rates|19.3||||0.0435|TWO_SIDED|95.0|4.7|34.0||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||34|4.7|0.0435
92199219|NCT01888874|184296207|SUPERIORITY||Difference in percentage rates|24.4||||0.0068|TWO_SIDED|95.0|10.1|38.8||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||38.8|10.1|0.0068
92199220|NCT01888874|184296207|SUPERIORITY||Difference in percentage rates|12.8||||0.1236|TWO_SIDED|95.0|-2.0|27.6||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||27.6|-2|0.1236
92199221|NCT01888874|184296207|SUPERIORITY||Difference in percentage rates|15.8||||0.1056|TWO_SIDED|95.0|1.0|30.6||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||30.6|1|0.1056
92199222|NCT01888874|184296207|SUPERIORITY||Difference in percentage rates|34.4|||<|0.0001|TWO_SIDED|95.0|20.7|48.1||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||48.1|20.7|< 0.0001
92199223|NCT01020877|184296241|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test\[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|110.0|||||TWO_SIDED|90.0|103.0|117.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||117|103|
92199224|NCT01020877|184296242|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.0|||||TWO_SIDED|90.0|98.2|115.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||115|98.2|
92199225|NCT01020877|184296243|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.0|||||TWO_SIDED|90.0|97.6|115.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||115|97.6|
92199226|NCT00709228|184296251|SUPERIORITY_OR_OTHER||simple proportion|0.097|||||TWO_SIDED|95.0|0.06|0.15||||||||0.15|0.06|
92199227|NCT02179177|184296252|OTHER||Mean Difference (Net)|1.0||||0.11|TWO_SIDED||||||t-test, 2 sided|||||||0.11
92199228|NCT01516749|184296268|SUPERIORITY_OR_OTHER|||||||0.024||||||significance was accepted at p\<0.05|t-test, 2 sided|||Significance of decrease in modified Sartorius score from Baseline to 8 weeks||||0.024
92199229|NCT01516749|184296269|SUPERIORITY_OR_OTHER|||||||0.006||||||Significance was accepted at p\<0.05|t-test, 2 sided|||Significance of reductions in Physican Global Assessment mean values between baseline and 8 weeks of therapy||||0.006
92199230|NCT01516749|184296269|SUPERIORITY_OR_OTHER|||||||0.019||||||Significance was accepted at p\<0.05|t-test, 2 sided|||Significance of reductions in Patient Global Assessment mean values between baseline and 8 weeks of therapy||||0.019
92199231|NCT02493946|184296346|SUPERIORITY||Treatment difference|80.8|||<|0.0001|TWO_SIDED|95.0|73.7|88.0||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders.||88.0|73.7|<0.0001
92199232|NCT02493946|184296347|SUPERIORITY||Treatment difference|75.0|||<|0.0001|TWO_SIDED|95.0|67.1|82.8||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 8 Cycle 1.||82.8|67.1|<0.0001
92199233|NCT02493946|184296347|SUPERIORITY||Treatment difference|74.1|||<|0.0001|TWO_SIDED|95.0|66.2|82.1||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 57 Cycle 1.||82.1|66.2|<0.0001
92199234|NCT02493946|184296347|SUPERIORITY||Treatment difference|53.6|||<|0.0001|TWO_SIDED|95.0|44.2|63.1||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 85 Cycle 1.||63.1|44.2|<0.0001
92199235|NCT02493946|184296349|SUPERIORITY||Treatment difference|58.0|||<|0.0001|TWO_SIDED|95.0|44.5|71.6||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 8 Cycle 1.||71.6|44.5|<0.0001
92199236|NCT02493946|184296349|SUPERIORITY||Treatment difference|56.8|||<|0.0001|TWO_SIDED|95.0|44.5|69.0||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 29 Cycle 1.||69.0|44.5|<0.0001
92199237|NCT02493946|184296349|SUPERIORITY||Treatment difference|62.5|||<|0.0001|TWO_SIDED|95.0|52.1|72.9||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 57 Cycle 1.||72.9|52.1|<0.0001
92199238|NCT02493946|184296349|SUPERIORITY||Treatment difference|42.6|||<|0.0001|TWO_SIDED|95.0|29.5|55.7||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 85 Cycle 1.||55.7|29.5|<0.0001
92199239|NCT02493946|184296350|SUPERIORITY||Treatment difference|61.1|||<|0.0001|TWO_SIDED|95.0|51.9|70.3||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 8 Cycle 1.||70.3|51.9|<0.0001
92199240|NCT02493946|184296350|SUPERIORITY||Treatment difference|65.8|||<|0.0001|TWO_SIDED|95.0|56.8|74.8||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 29 Cycle 1.||74.8|56.8|<0.0001
92199241|NCT02493946|184296350|SUPERIORITY||Treatment difference|70.5|||<|0.0001|TWO_SIDED|95.0|62.2|78.8||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 57 Cycle 1.||78.8|62.2|<0.0001
92199242|NCT02493946|184296350|SUPERIORITY||Treatment difference|33.0|||<|0.0001|TWO_SIDED|95.0|24.0|42.0||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 85 Cycle 1.||42.0|24.0|<0.0001
92199243|NCT02493946|184296351|SUPERIORITY||Treatment difference|68.2|||<|0.0001|TWO_SIDED|95.0|58.2|78.3||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Linear|||Treatment difference against placebo in the adjusted percentage of responders at Day 8 Cycle 1.||78.3|58.2|<0.0001
92199244|NCT02493946|184296351|SUPERIORITY||Treatment difference|77.4|||<|0.0001|TWO_SIDED|95.0|68.6|86.2||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 29 Cycle 1.||86.2|68.6|<0.0001
92199245|NCT02493946|184296351|SUPERIORITY||Treatment difference|74.4|||<|0.0001|TWO_SIDED|95.0|65.7|83.1||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 57 Cycle 1.||83.1|65.7|<0.0001
92199246|NCT02493946|184296351|SUPERIORITY||Treatment difference|51.0|||<|0.0001|TWO_SIDED|95.0|42.0|59.9||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 85 Cycle 1.||59.9|42.0|<0.0001
92199247|NCT02493946|184296352|SUPERIORITY||Hazard Ratio (HR)|15.296|||<|0.0001|TWO_SIDED||||||Cox proportional hazard model|The cox proportional hazard model used centre, gender and ILA baseline severity score as covariates.||Treatment difference in median time to onset of treatment response.||||<0.0001
92199248|NCT02493946|184296353|SUPERIORITY||Treatment difference|8.6|||<|0.0001|TWO_SIDED|95.0|5.2|12.0||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariates.|General linear model|||Treatment difference ( BTX-A-HAC Solution - Placebo) at Day 8 Cycle 1.||12.0|5.2|<0.0001
92199249|NCT02493946|184296353|SUPERIORITY||Treatment difference|11.1|||<|0.0001|TWO_SIDED|95.0|7.4|14.8||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariates.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 29 Cycle 1.||14.8|7.4|<0.0001
92199250|NCT02493946|184296353|SUPERIORITY||Treatment difference|10.4|||<|0.0001|TWO_SIDED|95.0|6.8|14.0||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariates.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 57 Cycle 1.||14.0|6.8|<0.0001
92199251|NCT02493946|184296353|SUPERIORITY||Treatment difference|9.6|||<|0.0001|TWO_SIDED|95.0|5.9|13.3||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariates.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 85 Cycle 1.||13.3|5.9|<0.0001
92199252|NCT02493946|184296354|SUPERIORITY||Treatment difference|9.3|||<|0.0001|TWO_SIDED|95.0|5.0|13.6||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 8 Cycle 1.||13.6|5.0|<0.0001
92199253|NCT02493946|184296354|SUPERIORITY||Treatment difference|11.4|||<|0.0001|TWO_SIDED|95.0|6.7|16.0||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 29 Cycle 1.||16.0|6.7|<0.0001
92199254|NCT02493946|184296354|SUPERIORITY||Treatment difference|11.2|||<|0.0001|TWO_SIDED|95.0|6.4|15.9||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 57 Cycle 1.||15.9|6.4|<0.0001
92199255|NCT02493946|184296354|SUPERIORITY||Treatment difference|8.1||||0.0004|TWO_SIDED|95.0|3.7|12.6||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 85 Cycle 1.||12.6|3.7|0.0004
92199256|NCT02493946|184296355|SUPERIORITY||Treatment difference|-0.6||||0.0174|TWO_SIDED|95.0|-1.1|-0.1||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 8 Cycle 1.||-0.1|-1.1|0.0174
92199257|NCT02493946|184296355|SUPERIORITY||Treatment difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.6||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 29 Cycle 1.||-0.6|-1.7|<0.0001
92199258|NCT02493946|184296355|SUPERIORITY||Treatment difference|-1.4||||0.0001|TWO_SIDED|95.0|-2.0|-0.7||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 57 Cycle 1.||-0.7|-2.0|0.0001
92199259|NCT02493946|184296355|SUPERIORITY||Treatment difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-2.1|-0.8||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 85 Cycle 1.||-0.8|-2.1|<0.0001
92199260|NCT00965497|184296371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|95.0||||0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||There were 13 people that completed so there truly was no power to detect true differences; therefore only trends can be discussed.||||0.01
92323132|NCT05406479|184550583|NON_INFERIORITY|For the hypothesis testing of non-inferiority the confidence interval should be compared to the non-inferiority margin. More specifically, non-inferiority is established if the upper limit of a one-sided 95% confidence interval around the difference in means QTc 24 hours after treatment administration (BE-PEP - SDR-PEP) is below the non-inferiority limit of +10 ms. A two-sample t-test was used to compare the two groups, but the p-value returned should not be used to conclude non-inferiority.|Mean Difference (Final Values)|2.076|||||TWO_SIDED|95.0|-3.374|7.525||||||Children (5-12)||7.525|-3.374|
92323133|NCT04932655|184550605|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|103.22|||||TWO_SIDED|90.0|96.88|109.98||||||||109.98|96.88|
92323134|NCT04932655|184550605|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|109.64|||||TWO_SIDED|90.0|102.9|116.82||||||||116.82|102.9|
92323135|NCT04932655|184550605|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|102.9|||||TWO_SIDED|90.0|96.57|109.64||||||||109.64|96.57|
92323136|NCT04932655|184550606|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|98.47|||||TWO_SIDED|90.0|96.33|100.65||||||||100.65|96.33|
92323137|NCT04932655|184550606|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|98.88|||||TWO_SIDED|90.0|96.74|101.07||||||||101.07|96.74|
92323138|NCT04932655|184550606|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|100.32|||||TWO_SIDED|90.0|98.15|102.54||||||||102.54|98.15|
92199261|NCT01055704|184296375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.048|STANDARD_ERROR_OF_MEAN|0.389||0.902|TWO_SIDED|95.0|-0.835|0.739|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.739|-0.835|0.902
92323139|NCT04932655|184550607|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|98.5|||||TWO_SIDED|90.0|96.33|100.71||||||||100.71|96.33|
92323140|NCT04932655|184550607|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|99.03|||||TWO_SIDED|90.0|96.85|101.26||||||||101.26|96.85|
92323141|NCT04932655|184550607|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|100.25|||||TWO_SIDED|90.0|98.05|102.5||||||||102.50|98.05|
92323142|NCT00379080|184550624|OTHER|||||||0.04|||||||Regression, Cox|||VEGFR2||||0.04
92323143|NCT00379080|184550624|OTHER|||||||0.04|||||||Regression, Cox|||PIGF||||0.04
92323144|NCT00379080|184550624|OTHER|||||||0.02|||||||Regression, Cox|||CAIX||||0.02
92323145|NCT00379080|184550624|OTHER|||||||0.05|||||||Regression, Cox|||sFLT\_1||||0.05
92323146|NCT00379080|184550624|OTHER|||||||0.01|||||||Regression, Cox|||sFLT\_1||||0.01
92323147|NCT00379080|184550624|OTHER|||||||0.05|||||||Regression, Cox|||VEGFR2||||0.05
92323148|NCT02780713|184550627|SUPERIORITY||Percentage|17.02|||||TWO_SIDED|95.0|11.79|24.58||||||||24.58|11.79|
92323149|NCT02780713|184550627|SUPERIORITY||Percentage|36.28|||||TWO_SIDED|95.0|23.84|55.2||||||||55.20|23.84|
92323150|NCT02780713|184550627|SUPERIORITY||Percentage|24.1|||||TWO_SIDED|95.0|16.84|34.48||||||||34.48|16.84|
92323151|NCT02780713|184550628|SUPERIORITY||Percentage|31.75|||||TWO_SIDED|95.0|25.77|39.12||||||||39.12|25.77|
92323152|NCT02780713|184550628|SUPERIORITY||Percentage|54.17|||||TWO_SIDED|95.0|42.16|69.6||||||||69.60|42.16|
92323153|NCT02780713|184550628|SUPERIORITY||Pecentage|41.23|||||TWO_SIDED|95.0|34.79|48.86||||||||48.86|34.79|
92323154|NCT01931475|184550640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-0.8|-0.2||||||||-0.2|-0.80|
92323155|NCT01931475|184550641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.54|-0.19||||||||-0.19|-0.54|
92323156|NCT01931475|184550642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.49|||||TWO_SIDED|95.0|-5.62|-1.35|||||Total Score|||-1.35|-5.62|
92323157|NCT01931475|184550642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|||||TWO_SIDED|95.0|-1.21|-0.21|||||Pain|||-0.21|-1.21|
92323158|NCT01931475|184550642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.36|||||TWO_SIDED|95.0|-3.95|-0.78|||||Physical Function|||-0.78|-3.95|
92323159|NCT01931475|184550642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-0.62|-0.16|||||Stiffness|||-0.16|-0.62|
92323160|NCT01931475|184550643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|||||TWO_SIDED|95.0|-0.41|-0.15||||||||-0.15|-0.41|
92323161|NCT01931475|184550644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|||||TWO_SIDED|95.0|-1.07|-0.34|||||BPI Severity of Worst Pain|||-0.34|-1.07|
92323162|NCT01931475|184550644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|||||TWO_SIDED|95.0|-0.6|0.03|||||BPI Severity of Least Pain|||0.03|-0.60|
92323163|NCT01931475|184550644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||||TWO_SIDED|95.0|-0.82|-0.11|||||BPI Severity of Right Now Pain|||-0.11|-0.82|
92323164|NCT01931475|184550645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|||||TWO_SIDED|95.0|-0.53|-0.02|||||BPI Interference Average Score|||-0.02|-0.53|
92323165|NCT01931475|184550645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|||||TWO_SIDED|95.0|-0.94|-0.19|||||General activity|||-0.19|-0.94|
92323166|NCT01931475|184550645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-0.74|-0.05|||||Mood|||-0.05|-0.74|
92323167|NCT01931475|184550645|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.47|||||TWO_SIDED|95.0|-0.82|-0.11|||||Walking ability|||-0.11|-0.82|
92323168|NCT01931475|184550645|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.31|||||TWO_SIDED|95.0|-0.68|0.06|||||Normal work (includes both work outside the home and housework)|||0.06|-0.68|
92199262|NCT01055704|184296375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.351||0.709|TWO_SIDED|95.0|-0.578|0.841|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.841|-0.578|0.709
92199263|NCT01055704|184296376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.971|STANDARD_ERROR_OF_MEAN|4.669||0.675|TWO_SIDED|95.0|-11.415|7.472|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||7.472|-11.415|0.675
92323169|NCT01931475|184550645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|||||TWO_SIDED|95.0|-0.34|0.21|||||Relations with other people|||0.21|-0.34|
92323170|NCT01931475|184550645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|||||TWO_SIDED|95.0|-0.57|0.14|||||Sleep|||0.14|-0.57|
92323171|NCT01931475|184550645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-0.4|0.27|||||Enjoyment of life|||0.27|-0.40|
92323172|NCT01931475|184550647|SUPERIORITY_OR_OTHER||Total Effect|97.49||||0.002|TWO_SIDED||||||Regression, Linear|||Path analysis for the direct analgesic effect was used to test the null hypothesis that the change in BPI average pain severity depends on the improvement of HADS-D or HADS-A, versus the alternative that the improvement in BPI average pain severity is due to a direct analgesic effect of the treatment and not dependent upon the improvement in depression and anxiety symptoms.||||0.002
92323173|NCT01089608|184550656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.01||||0.072|TWO_SIDED|95.0|-16.3|0.28|||Mixed Models Analysis|||||0.28|-16.30|0.072
92199264|NCT01055704|184296376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.28|STANDARD_ERROR_OF_MEAN|4.208||0.591|TWO_SIDED|95.0|-10.792|6.233|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||6.233|-10.792|0.591
92199265|NCT01055704|184296377|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-34.425|STANDARD_ERROR_OF_MEAN|14.67||0.024|TWO_SIDED|95.0|-64.097|-4.753|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||-4.753|-64.097|0.024
92323174|NCT02225860|184550660|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||"The analysis of the primary and secondary outcome was based on an intention to treat principle. Copeptin was measured in each subject at baseline and week 2 and the change from baseline to end point (delta) was calculated for all subjects. The delta copeptin between subjects in the intervention and control arms was compared with a two sample t test for independent groups. One sample t-tests of the delta were used to examine whether there was any change over time for each group separately."||||<0.01
92323175|NCT02225860|184550661|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||"The analysis of the primary and secondary outcome was based on an intention to treat principle. Copeptin was measured in each subject at baseline and week 2 and the change from baseline to end point (delta) was calculated for all subjects. The delta copeptin between subjects in the intervention and control arms was compared with a two sample t test for independent groups. One sample t-tests of the delta were used to examine whether there was any change over time for each group separately."||||<0.01
92323176|NCT01028014|184550663|SUPERIORITY_OR_OTHER||||||>|0.05||||||P values comparing differences across groups, as well as within group changes, were all \>0.05.P-values were not adjusted for multiple testing; p\<0.05 was considered statistically significant.|Wilcoxon (Mann-Whitney)|||Using difference in EMG amplitude as primary outcome, assuming standard deviation of 6, we had greater than 80% power to detect a 10-microvolt change in urethral muscle activity with sample size of 9 participants per group. Due to non-normality and small sample sizes, non-parametric tests were used and data presented as median (IQR). Kruskal-Wallis p-values are reported to compare median scores across groups. Wilcoxon sign-test p-values are reported to evaluate 2-week change within groups.||||>0.05
92323177|NCT01028014|184550664|SUPERIORITY_OR_OTHER||||||>|0.05||||||P values comparing differences across groups, as well as within group changes, were all \>0.05.P-values were not adjusted for multiple testing; p\<0.05 was considered statistically significant.|Wilcoxon (Mann-Whitney)|||Using difference in EMG amplitude as primary outcome, assuming standard deviation of 6, we had greater than 80% power to detect a 10-microvolt change in urethral muscle activity with sample size of 9 participants per group. Due to non-normality and small sample sizes, non-parametric tests were used and data presented as median (IQR). Kruskal-Wallis p-values are reported to compare median scores across groups. Wilcoxon sign-test p-values are reported to evaluate 2-week change within groups.||||>0.05
92323178|NCT01250873|184550666|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.17|||||TWO_SIDED|90.0|1.06|1.3|||ANOVA|||||1.30|1.06|
92323179|NCT01250873|184550667|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.14|||||TWO_SIDED|90.0|1.01|1.28|||ANOVA|||||1.28|1.01|
92323180|NCT01250873|184550668|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8281|TWO_SIDED|90.0|-0.5|1.0|||Wilcoxon (Mann-Whitney)|||||1.00|-0.50|0.8281
92323181|NCT01250873|184550669|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.27|||||TWO_SIDED|90.0|1.17|1.39|||ANOVA|||||1.39|1.17|
92323182|NCT01250873|184550670|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.22|||||TWO_SIDED|90.0|1.1|1.36|||ANOVA|||||1.36|1.10|
92323183|NCT01250873|184550671|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0||||0.3125|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2.00|0.00|0.3125
92323184|NCT00425061|184550681|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-5.2||||0.612|TWO_SIDED|95.0|-25.6|15.2|||ANCOVA|||Day 112: Analysis of co-variance (ANCOVA) model was used with baseline as a covariate, long-acting beta-agonist (LABA) use (Inhaled Corticosteroid \[ICS\] only or ICS plus LABA) and treatment as two factors.||15.2|-25.6|0.612
92323185|NCT00425061|184550683|SUPERIORITY_OR_OTHER||LS mean Difference|0.0||||0.482|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Day 8: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.2|0.482
92323186|NCT00425061|184550683|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.492|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Day 28: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.2|0.492
92199266|NCT01055704|184296377|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.181|STANDARD_ERROR_OF_MEAN|13.24||0.989|TWO_SIDED|95.0|-26.962|26.598|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||26.598|-26.962|0.989
92199267|NCT01055704|184296378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.401|STANDARD_ERROR_OF_MEAN|0.211||0.064|TWO_SIDED|95.0|-0.827|0.025|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.025|-0.827|0.064
92323187|NCT00425061|184550683|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.323|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Day 56: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.2|0.323
92323188|NCT00425061|184550683|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.226|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Day 84: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.2|0.226
92323189|NCT00425061|184550683|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.256|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Day 112: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.2|0.256
92323190|NCT00425061|184550684|SUPERIORITY_OR_OTHER||LS mean difference|1.8||||0.09|TWO_SIDED|95.0|-0.3|3.9|||ANCOVA|||Day 28: ANCOVA model was based on the log 2 transformed methacholine challenge test values with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||3.9|-0.3|0.090
92323191|NCT00425061|184550684|SUPERIORITY_OR_OTHER||LS mean difference|2.1||||0.144|TWO_SIDED|95.0|-0.8|5.0|||ANCOVA|||Day 112: ANCOVA model was based on the log 2 transformed methacholine challenge test values with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||5.0|-0.8|0.144
92323192|NCT00425061|184550686|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.354|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||Day 8: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.4|0.354
92323193|NCT00425061|184550686|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.9|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Day 28: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.4|-0.4|0.900
92323194|NCT00425061|184550686|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.921|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Day 56: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.4|-0.4|0.921
92323195|NCT00425061|184550686|SUPERIORITY_OR_OTHER||LS mean difference|0.2||||0.388|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Day 84: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.6|-0.2|0.388
92323196|NCT00425061|184550686|SUPERIORITY_OR_OTHER||LS mean difference|0.2||||0.249|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Day 112: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.7|-0.2|0.249
92323197|NCT00425061|184550687|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED||||||Chi-squared|||||||0.267
92323198|NCT00425061|184550688|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Chi-squared|||||||0.029
92323199|NCT02111577|184550711|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and Eastern Cooperative Oncology Group (ECOG) score (0, 1 vs 2)|Hazard Ratio (HR)|1.042||||0.596|TWO_SIDED|95.0|0.895|1.213|||Log Rank|||Stratified||1.213|0.895|0.596
92323200|NCT02111577|184550711|SUPERIORITY||Hazard Ratio (HR)|1.036||||0.648|TWO_SIDED|95.0|0.891|1.204|||Log Rank|||Unstratified||1.204|0.891|0.648
92323201|NCT02111577|184550712|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.908||||0.335|TWO_SIDED|95.0|0.746|1.105|||Log Rank|||Stratified||1.105|0.746|0.335
92323202|NCT02111577|184550712|SUPERIORITY||Hazard Ratio (HR)|0.879||||0.192|TWO_SIDED|95.0|0.725|1.067|||Log Rank|||Unstratified||1.067|0.725|0.192
92323203|NCT02111577|184550713|SUPERIORITY|Stratified by region (US vs other), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|1.312||||0.071|TWO_SIDED|95.0|0.976|1.762|||Log Rank|||Stratified||1.762|0.976|0.071
92323204|NCT02111577|184550713|SUPERIORITY||Hazard Ratio (HR)|1.283||||0.09|TWO_SIDED|95.0|0.961|1.712|||Log Rank|||Unstratified||1.712|0.961|0.09
92323205|NCT02111577|184550714|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|1.461||||0.049|TWO_SIDED|95.0|1.0|2.134|||Log Rank|||Stratified||2.134|1|0.049
92323206|NCT02111577|184550714|SUPERIORITY||Hazard Ratio (HR)|1.436||||0.053|TWO_SIDED|95.0|0.993|2.077|||Log Rank|||Unstratified||2.077|0.993|0.053
92323207|NCT02111577|184550715|SUPERIORITY|Stratified by region (US vs other) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.938||||0.501|TWO_SIDED|95.0|0.779|1.13|||Log Rank|||Stratified||1.13|0.779|0.501
92323208|NCT02111577|184550715|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.512|TWO_SIDED|95.0|0.781|1.131|||Log Rank|||Unstratified||1.131|0.781|0.512
92323209|NCT02111577|184550716|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.99||||0.886|TWO_SIDED|95.0|0.863|1.136|||Log Rank|||Stratified||1.136|0.863|0.886
92323210|NCT02111577|184550716|SUPERIORITY||Hazard Ratio (HR)|1.001||||0.992|TWO_SIDED|95.0|0.875|1.145|||Log Rank|||Unstratified||1.145|0.875|0.992
92323211|NCT02111577|184550717|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|1.001||||0.994|TWO_SIDED|95.0|0.847|1.184|||Log Rank|||Stratified||1.184|0.847|0.994
92323212|NCT02111577|184550717|SUPERIORITY||Hazard Ratio (HR)|1.002||||0.982|TWO_SIDED|95.0|0.851|1.18|||Log Rank|||Unstratified||1.18|0.851|0.982
92323213|NCT02111577|184550718|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|1.077||||0.392|TWO_SIDED|95.0|0.909|1.277|||Log Rank|||Stratified||1.277|0.909|0.392
92323214|NCT02111577|184550718|SUPERIORITY||Hazard Ratio (HR)|1.068||||0.439|TWO_SIDED|95.0|0.905|1.262|||Log Rank|||Unstratified||1.262|0.905|0.439
92323215|NCT02111577|184550719|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|1.03||||0.754|TWO_SIDED|95.0|0.857|1.238|||Log Rank|||Stratified||1.238|0.857|0.754
92323216|NCT02111577|184550719|SUPERIORITY||Hazard Ratio (HR)|1.009||||0.924|TWO_SIDED|95.0|0.844|1.207|||Log Rank|||Unstratified||1.207|0.844|0.924
92323217|NCT02111577|184550720|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.918||||0.732|TWO_SIDED|95.0|0.563|1.497|||Log Rank|||Stratified||1.497|0.563|0.732
92323218|NCT02111577|184550720|SUPERIORITY||Hazard Ratio (HR)|0.913||||0.713|TWO_SIDED|95.0|0.561|1.485|||Log Rank|||Unstratified||1.485|0.561|0.713
92323219|NCT02111577|184550721|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.891||||0.694|TWO_SIDED|95.0|0.5|1.587|||Log Rank|||Stratified||1.587|0.5|0.694
92323220|NCT02111577|184550721|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.661|TWO_SIDED|95.0|0.496|1.562|||Log Rank|||Unstratified||1.562|0.496|0.661
92323221|NCT02111577|184550722|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.895||||0.111|TWO_SIDED|95.0|0.781|1.027|||Log Rank|||Stratified||1.027|0.781|0.111
92323222|NCT02111577|184550722|SUPERIORITY||Hazard Ratio (HR)|0.913||||0.184|TWO_SIDED|95.0|0.798|1.044|||Log Rank|||Unstratified||1.044|0.798|0.184
92323223|NCT02111577|184550723|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.939||||0.46|TWO_SIDED|95.0|0.795|1.11|||Log Rank|||Stratified||1.11|0.795|0.46
92323224|NCT02111577|184550723|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.534|TWO_SIDED|95.0|0.807|1.118|||Log Rank|||Unstratified||1.118|0.807|0.534
92323225|NCT02111577|184550724|SUPERIORITY|Adjusted by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Risk Ratio (RR)|0.845||||0.485|TWO_SIDED|95.0|0.528|1.355|||Log binomial model|||Stratified||1.355|0.528|0.485
92199268|NCT01055704|184296378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.19||0.61|TWO_SIDED|95.0|-0.287|0.482|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.482|-0.287|0.610
92323226|NCT02111577|184550725|SUPERIORITY|Adjusted by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Risk Ratio (RR)|0.92||||0.768|TWO_SIDED|95.0|0.529|1.601|||Log binomial model|||Stratified||1.601|0.529|0.768
92323227|NCT04501640|184550733|OTHER||Geomteric Least Squares (LS) Mean Ratio|57.06|||||TWO_SIDED|90.0|46.21|70.47|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an analysis of variance (ANOVA) performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||70.47|46.21|
92323228|NCT04501640|184550733|OTHER||Geometric LSMean Ratio|61.42|||||TWO_SIDED|90.0|52.06|72.47|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an ANOVA performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||72.47|52.06|
92323229|NCT04501640|184550734|OTHER||Geomteric LSMean Ratio|53.31|||||TWO_SIDED|90.0|43.02|66.05|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an ANOVA performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||66.05|43.02|
92323230|NCT04501640|184550734|OTHER||Geomteric LSMean Ratio|59.14|||||TWO_SIDED|90.0|49.48|70.7|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an ANOVA performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||70.70|49.48|
92323231|NCT04501640|184550735|OTHER||Geometric LSMean Ratio|38.93|||||TWO_SIDED|90.0|26.78|56.59|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an ANOVA performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||56.59|26.78|
92323232|NCT04501640|184550735|OTHER||Geometric LSMean Ratio|47.9|||||TWO_SIDED|90.0|31.76|72.24|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an ANOVA performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||72.24|31.76|
92323233|NCT03557931|184550752|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|1.02||0.858|TWO_SIDED|90.0|-1.51|1.88|||MMRM Method|||Mixed model repeated measures (MMRM) analysis model is performed with change from baseline (least square (LS) Mean estimate for observed value from separate model using observed values) at week 12 as response; treatment, site (pooled where necessary), visit, treatment\*visit, and visit\*baseline as fixed effects, and baseline as a covariate.|Cohen's d Effect Size was defined as: (t-value for the least squares mean pairwise difference of ASP4345 50 mg vs placebo) \* sqrt(1/n\[PLACEBO\] + 1/n\[ASP4345\]). The Cohen's d Effect Size value for ASP4345 50 mg vs placebo is 0.035.|1.88|-1.51|0.858
92323234|NCT03557931|184550752|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|-1.93|1.36|||0.775|||MMRM analysis model is performed with change from baseline (LS Mean estimate for observed value from separate model using observed values) at week 12 as response; treatment, site (pooled where necessary), visit, treatment\*visit, and visit\*baseline as fixed effects, and baseline as a covariate.|Cohen's d Effect Size was defined as: (t-value for the least squares mean pairwise difference of ASP4345 150 mg vs placebo) \* sqrt(1/n\[PLACEBO\] + 1/n\[ASP4345\]). The Cohen's d Effect Size value for ASP4345 150 mg vs placebo is - 0.053.|1.36|-1.93|
92323235|NCT03557931|184550758|SUPERIORITY||LS Mean Difference|0.75|STANDARD_ERROR_OF_MEAN|1.6||0.639|TWO_SIDED|90.0|-1.9|3.41|||ANCOVA|||Analysis of covariance (ANCOVA) model is performed with change from baseline (LS Mean estimate for observed value from separate model using observed values) at the Week 12 timepoint as response, treatment and site (pooled where necessary) and baseline as a covariate.||3.41|-1.90|0.639
92323236|NCT03557931|184550758|SUPERIORITY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|1.54||0.721|TWO_SIDED|90.0|-3.11|2.01|||ANCOVA|||ANCOVA model is performed with change from baseline (LS Mean estimate for observed value from separate model using observed values) at the Week 12 timepoint as response, treatment and site (pooled where necessary) and baseline as a covariate.||2.01|-3.11|0.721
92323237|NCT02805179|184550765|SUPERIORITY|Compared to historical controls||||||0.03|||||||1-sided binomial test|||||||0.03
92323238|NCT01031680|184550817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.0473|<|0.0001|TWO_SIDED|95.0|-0.56|-0.37||Significant at alpha=0.025 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group and stratum as effects and baseline value as covariate for each endpoint|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.37|-0.56|<0.0001
92199269|NCT01055704|184296379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.728|STANDARD_ERROR_OF_MEAN|0.497||0.151|TWO_SIDED|95.0|-0.278|1.734|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||1.734|-0.278|0.151
92199270|NCT01055704|184296379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.448||0.806|TWO_SIDED|95.0|-0.795|1.017|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||1.017|-0.795|0.806
92199271|NCT01055704|184296380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.772|STANDARD_ERROR_OF_MEAN|12.583||0.889|TWO_SIDED|95.0|-23.678|27.223|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI as covariates||27.223|-23.678|0.889
92323239|NCT01031680|184550818|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.9|||<|0.0001|TWO_SIDED|95.0|7.0|12.9||Significant at alpha=0.025 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|Cochran-Mantel-Haenszel|with age-by-insulin use-by-time from most recent qualifying CV event as stratum||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||12.9|7.0|<0.0001
92323240|NCT01031680|184550819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97|STANDARD_ERROR_OF_MEAN|0.7898||0.0126|TWO_SIDED|95.0|-3.52|-0.42||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.42|-3.52|0.0126
92323241|NCT01031680|184550820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.27|STANDARD_ERROR_OF_MEAN|0.191|<|0.0001||95.0|-2.64|-1.89||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.89|-2.64|<0.0001
92199272|NCT01055704|184296380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.607|STANDARD_ERROR_OF_MEAN|11.356||0.274|TWO_SIDED|95.0|-10.362|35.577|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||35.577|-10.362|0.274
92199273|NCT01055704|184296381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.214|STANDARD_ERROR_OF_MEAN|0.178||0.236|TWO_SIDED|95.0|-0.572|0.145|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.145|-0.572|0.236
92199274|NCT01055704|184296381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.19||0.885|TWO_SIDED|95.0|-0.412|0.357|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.357|-0.412|0.885
92199275|NCT01055704|184296382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.497|STANDARD_ERROR_OF_MEAN|0.374||0.192|TWO_SIDED|95.0|-1.255|0.261|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.261|-1.255|0.192
92323242|NCT01031680|184550821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.95|STANDARD_ERROR_OF_MEAN|0.8203||0.0174|TWO_SIDED|95.0|-3.56|-0.34||Significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.34|-3.56|0.0174
92323243|NCT01031680|184550822|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.5|STANDARD_ERROR_OF_MEAN|2.126|<|0.0001|TWO_SIDED|95.0|8.3|16.6||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value and stratum (gender)||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||16.6|8.3|<0.0001
92323244|NCT02703467|184550823|SUPERIORITY||||||>|0.05||||||calculated|t-test, 2 sided|||||||>0.05
92199276|NCT01055704|184296382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.063|STANDARD_ERROR_OF_MEAN|0.342||0.855|TWO_SIDED|95.0|-0.756|0.63|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.630|-0.756|0.855
92323245|NCT00596817|184550862|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.01||||0.0035|TWO_SIDED|95.0|1.26|3.21|||Cox-model|Cox-model using an exact method to handle ties||||3.21|1.26|0.0035
92323246|NCT00596817|184550863|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.09||||0.001|TWO_SIDED|95.0|1.35|3.23||A nominal p-value is provided.|Cox-Model|||||3.23|1.35|0.0010
92323247|NCT00596817|184550864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|0.66||0.002|TWO_SIDED|95.0|-3.36|-0.77||A nominal p-value is provided.|ANCOVA|||||-0.77|-3.36|0.0020
92323248|NCT00596817|184550865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31|STANDARD_ERROR_OF_MEAN|0.55||0.0171|TWO_SIDED|95.0|-2.39|-0.24||A nominal p-value is provided.|ANCOVA|||||-0.24|-2.39|0.0171
92199277|NCT01814072|184296500|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
92199278|NCT01814072|184296501|SUPERIORITY||Estimated Change|0.1244||||0.567|TWO_SIDED|95.0|-0.3026|0.5513|||Mixed Models Analysis|||||.5513|-.3026|0.567
92199279|NCT01814072|184296501|SUPERIORITY||Estimated Change|-0.0226||||0.917|TWO_SIDED|95.0|-0.4495|0.4044|||Mixed Models Analysis|||||.4044|-.4495|0.917
92199280|NCT01814072|184296501|SUPERIORITY||Estimated Change|0.084||||0.699|TWO_SIDED|95.0|-0.3429|0.5109|||Mixed Models Analysis|||||.5109|-.3429|0.699
92199281|NCT01814072|184296501|SUPERIORITY||Estimated Change|0.1081||||0.619|TWO_SIDED|95.0|-0.3188|0.535|||Mixed Models Analysis|||||.5350|-.3188|0.619
92199282|NCT01814072|184296501|SUPERIORITY||Estimated Change|-0.4353||||0.046|TWO_SIDED|95.0|-0.8622|-0.0084|||Mixed Models Analysis|||||-.0084|-.8622|0.046
92323249|NCT00596817|184550866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.6||0.0612|TWO_SIDED|95.0|-2.3|0.05||A nominal p-value is provided.|ANCOVA|||||0.05|-2.30|0.0612
92323250|NCT00596817|184550867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.1||0.0002|TWO_SIDED|95.0|-0.57|-0.18||A nominal p-value is provided.|ANCOVA|||||-0.18|-0.57|0.0002
92323251|NCT00596817|184550868|SUPERIORITY_OR_OTHER||Difference|6.35||||0.025|TWO_SIDED|95.0|1.13|11.56||A nominal p-value is provided.|Fisher Exact|||||11.56|1.13|0.025
92323252|NCT00596817|184550869|SUPERIORITY_OR_OTHER||Difference|12.13||||0.002|TWO_SIDED|95.0|4.73|19.52||A nominal p-value is provided.|Fisher Exact|||||19.52|4.73|0.002
92323253|NCT00596817|184550870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.73||0.3642|TWO_SIDED|95.0|-2.12|0.78||A nominal p-value is provided.|ANCOVA|||||0.78|-2.12|0.3642
92323254|NCT05129293|184550871|SUPERIORITY|||||||0.229|||||||ANCOVA|Adjusted for disease duration, SymptoMScreen depression and anxiety scores, and Test of Everyday Cognition baseline performance||||||0.229
92199283|NCT01814072|184296502|OTHER||Estimated Change|0.424||||0.051|TWO_SIDED|95.0|-0.002|0.85|||Mixed Models Analysis|||Using the results from primary aim 1, an intervention with only active treatment components with the largest treatment effect that can be obtained for implementation costs of $500 or less was identified and built.||0.850|-0.002|0.051
92199284|NCT02781311|184296517|SUPERIORITY||Least-squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|4.45||0.9239|TWO_SIDED|95.0|-8.38|9.23||P-values were from analysis of covariance (ANCOVA) model including fixed effects of treatment, and covariates of age and baseline TAHC value, with the Type III sum of squares.|ANCOVA|||||9.23|-8.38|0.9239
92199285|NCT02781311|184296518|SUPERIORITY||Least-squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.9101|TWO_SIDED|95.0|-0.42|0.37||P-values were from analysis of covariance (ANCOVA) model including fixed effects of treatment, and covariates of age, with the Type III sum of squares.|ANCOVA|||||0.37|-0.42|0.9101
92323255|NCT05129293|184550872|SUPERIORITY|||||||0.04|||||||ANCOVA|Adjusted for disease duration, SymptoMScreen depression and anxiety scores, and Test of Everyday Cognition baseline performance||||||0.040
92323256|NCT05129293|184550873|SUPERIORITY|||||||0.266|||||||ANCOVA|Adjusted for disease duration, SymptoMScreen depression and anxiety scores, and Test of Everyday Cognition baseline performance||||||0.266
92323257|NCT00519428|184550874|SUPERIORITY|Hypothesis: Dual Treatment (escitalopram + bupropion) will result in greater improvement over 12 weeks than either monotherapy (i.e., two analyses: 1) dual treatment will outperform escitalopram monotherapy; 2) dual treatment will outperform bupropion monotherapy).|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|4.0||0.05|TWO_SIDED|||||"Each individual test will require the calculated p to be \< .0916 to declare that comparison to be significant. Since the hypothesis requires both comparisons to be significant, this produces an over-all alpha of .05."|Cochran-Mantel-Haenszel|||Hypothesis: Dual Treatment (escitalopram + bupropion) will result in greater improvement over 12 weeks than either monotherapy (i.e., two analyses: 1) dual treatment will outperform escitalopram monotherapy; 2) dual treatment will outperform bupropion monotherapy). Therefore each analysis will be done twice and it will be required that both analyses be significant to declare the over-all study significant.||||.05
92323258|NCT00519428|184550876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|STANDARD_DEVIATION|8.0||0.0916|TWO_SIDED|95.0||||escitalopram + bupropion vs. escitalopram: F(1,159) = 1.93, ns escitalopram + bupropion vs. bupropion: F (1,157) = 1.99, ns|ANCOVA|adjusting for baseline score and country||To test the hypothesis that escitalopram + bupropion would have superior efficacy relative to each monotherapy, the group receiving both medications was separately compared to each monotherapy group, covarying for baseline score and country||||.0916
92323259|NCT01729338|184550887|SUPERIORITY_OR_OTHER|||||||0.45||||||Compared baseline to 3 months|paired t-test|||||||0.45
92323260|NCT01729338|184550887|SUPERIORITY_OR_OTHER|||||||0.19|||||||paired t-test|compares baseline to month 5||||||0.19
92199286|NCT01936467|184296559|OTHER||Sensitivity|93.7|||||TWO_SIDED|||||||||||||
92323261|NCT01729338|184550888|SUPERIORITY_OR_OTHER|||||||0.1||||||baseline, 3 month|paired t-test|||||||0.1
92323262|NCT01729338|184550888|SUPERIORITY_OR_OTHER|||||||0.09|||||||paired t-test|baseline, month 5||||||0.09
92323263|NCT00688701|184550891|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.123|<|0.0001|TWO_SIDED|95.0|-0.785|-0.3||Stepwise testing procedure applied to control type 1 error: Lixisenatide (2-step titration) was compared with Placebo (combined), if found statistically significant, then Lixisenatide (1-step titration) arm compared with Placebo (combined).|ANCOVA|||"To detect a difference of 0.5% in change in HbA1c at Week 12 between 1 lixisenatide arm and placebo (combined), 120 patients per group would provide a power of 90% assuming common standard deviation of 1.2% with 2-sided test at 5% significance level.~Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0,\>=8.0%), BMI (\<30,\>=30 kg/m\^2), country as fixed effects, baseline HbA1c as covariate."||-0.300|-0.785|<0.0001
92323264|NCT00688701|184550891|SUPERIORITY_OR_OTHER||LS mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.122|<|0.0001|TWO_SIDED|95.0|-0.903|-0.423||Stepwise testing procedure applied to control type 1 error: Lixisenatide (2-step titration) was compared with Placebo (combined), if found statistically significant, then Lixisenatide (1-step titration) arm compared with Placebo (combined).|ANCOVA|||"To detect a difference of 0.5% in change in HbA1c at Week 12 between 1 lixisenatide arm and placebo (combined), 120 patients per group would provide a power of 90% assuming common standard deviation of 1.2% with 2-sided test at 5% significance level.~Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0,\>=8.0%), BMI (\<30,\>=30 kg/m\^2), country as fixed effects, baseline HbA1c as covariate."||-0.423|-0.903|<0.0001
92199287|NCT01936467|184296559|OTHER||Specificity|100.0|||||TWO_SIDED|||||||||||||
92199288|NCT01936467|184296560|OTHER||Sensitivity|88.6|||||TWO_SIDED|||||||||||||
92199289|NCT01936467|184296560|OTHER||Specificity|100.0|||||TWO_SIDED|||||||||||||
92199290|NCT01936467|184296561|OTHER|||||||0.47|||||||Chi-squared|||||||0.47
92199291|NCT01936467|184296562|SUPERIORITY_OR_OTHER|||||||0.71|||||||Chi-squared|||||||0.71
92199292|NCT01936467|184296563|SUPERIORITY_OR_OTHER|||||||0.15|||||||Chi-squared|||||||0.15
92199293|NCT01936467|184296564|SUPERIORITY_OR_OTHER|||||||0.46|||||||Chi-squared|||||||0.46
92323265|NCT03962790|184550906|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the credible interval (CrI) of the mean difference between Test and Control was greater than -5.|Posterior Mean Difference|0.09|STANDARD_DEVIATION|2.281|||TWO_SIDED|95.0|-4.37|4.65|||||Posterior mean difference was calculated as Test - Control|Bayesian repeated measurement random-effects model was used to compare between Test and Control lenses.||4.65|-4.37|
92323266|NCT03962790|184550907|NON_INFERIORITY|Non-inferiority is established if the lower limit of the 95% credible interval is above -5 points in CLUE Scale.|Posterior Mean Difference|-1.02|STANDARD_DEVIATION|1.565|||TWO_SIDED|95.0|-4.07|2.06|||||Posterior mean difference was calculated as Test - Control|Bayesian repeated measurement random-effects model was used to compare between Test and Control lenses.||2.06|-4.07|
92323267|NCT03962790|184550908|NON_INFERIORITY|Non-inferiority was declared if the upper bound of the CrI of the mean difference between Test and Control was less than 0.05.|Posterior Mean Difference|-0.001|STANDARD_DEVIATION|0.0054|||TWO_SIDED|95.0|-0.012|0.01|||||Posterior mean difference was calculated as Test - Control|Bayesian repeated measurement random-effects model was used to compare between Test and Control lenses.||0.010|-0.012|
92323268|NCT03962790|184550908|NON_INFERIORITY|Non-inferiority was declared if the upper bound of the CrI of the mean difference between Test and Control was less than 0.05.|Posterior Mean Difference|-0.002|STANDARD_DEVIATION|0.0057|||TWO_SIDED|95.0|-0.014|0.009|||||Posterior mean difference was calculated as Test - Control|Bayesian repeated measurement random-effects model was used to compare between Test and Control lenses.||0.009|-0.014|
92323269|NCT03962790|184550909|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the CrI of the mean difference between Test and Control was greater than -1.|Posterior Mean Difference|0.02|STANDARD_DEVIATION|0.168|||TWO_SIDED|95.0|-0.32|0.34|||||Posterior mean difference was calculated as Test - Control|Bayesian repeated measurement random-effects model was used to compare between Test and Control lenses.||0.34|-0.32|
92323270|NCT02877095|184550910|OTHER|||||||||||||||||All subjects on study received active drug.|Total count of events is provided.|||
92323271|NCT02223650|184550911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.01|TWO_SIDED|95.0|-1.42|-0.07||P-value is calculated for one-sided hypothesis test.|ANCOVA|Comparison of mean 8-wk distance control using ANCOVA adjusted for baseline distance control pre-study spectacle wear, and pre-study IXT treatment|Difference in mean distance control (overminus - observation) and 95% CI from ANCOVA model adjusting for baseline control, pre-study spectacle wear, and pre-study treatment for IXT. + difference suggests observation group worse than overminus group|||-0.07|-1.42|0.01
92199294|NCT00250432|184296565|NON_INFERIORITY_OR_EQUIVALENCE|Safety with caspofungin 150 mg daily will be non-inferior to that of caspofungin 70/50 mg. Non-inferiority was defined as upper limit of the 2-sided, 95% confidence interval for the difference (150-mg group - 70/50-mg group) must be less than 0.15 (15 percentage points).|Rate Difference|1.1|STANDARD_ERROR_OF_MEAN|5.6||||95.0|-4.1|6.8|||||The confidence interval computation was based on the method by Miettinen and Nurminen.|A significant drug-related adverse event was defined as either a drug-related serious adverse event or a drug-related adverse event leading to discontinuation of caspofungin therapy. Comparison between the 2 caspofungin groups was based on upper bound of the 95% confidence interval for the difference.||6.8|-4.1|
92323272|NCT02223650|184550912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.14|TWO_SIDED|95.0|-0.68|0.19||P-value is calculated for one-sided hypothesis test.|ANCOVA|Comparison of mean 8-wk near control using ANCOVA adjusted for baseline near control pre-study spectacle wear, and pre-study IXT treatment.|Comparison of mean 8-wk distance control using ANCOVA adjusted for baseline near control pre-study spectacle wear, and pre-study IXT treatment.|||0.19|-0.68|0.14
92323273|NCT02223650|184550915|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.0||||0.07|TWO_SIDED|95.0|-6.0|45.0||The p-value was not adjusted for multiple comparisons.|Chi-squared|||||45|-6|0.07
92323274|NCT02223650|184550923|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.001||||0.54|TWO_SIDED|95.0|-23.0|24.0||The p-value was not adjusted for multiple comparisons.|Chi-squared|||||24|-23|0.54
92323275|NCT01767506|184550925|SUPERIORITY||Odds Ratio (OR)|2.6|||>|0.05|TWO_SIDED|95.0|0.56|11.9|||Regression, Logistic||||The null hypothesis was that we could further decrease infection to 1% or less in more of the communities in the surveillance intervention arm, compared to control communities.|11.9|0.56|>0.05
92323276|NCT01767506|184550926|SUPERIORITY||Mean Difference (Final Values)|3.9||||1|TWO_SIDED||||||Fisher Exact|||||||1
92323277|NCT00401544|184551012|SUPERIORITY_OR_OTHER||Percentage of participants|71.0||||||95.0|63.0|80.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||80|63|
92323278|NCT00401544|184551012|SUPERIORITY_OR_OTHER||Percentage of participants|63.0||||||95.0|54.0|72.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||72|54|
92323279|NCT00401544|184551013|SUPERIORITY_OR_OTHER||Percentage of participants|73.0||||||95.0|64.0|81.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||81|64|
92323280|NCT00401544|184551013|SUPERIORITY_OR_OTHER||Percentage of participants|62.0||||||95.0|54.0|71.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||71|54|
92323281|NCT00401544|184551018|SUPERIORITY_OR_OTHER||Percentage of participants|36.0||||||95.0|27.0|44.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||44|27|
92323282|NCT00401544|184551018|SUPERIORITY_OR_OTHER||Percentage of participants|38.0||||||95.0|29.0|47.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||47|29|
92323283|NCT00401544|184551019|SUPERIORITY_OR_OTHER||Percentage of participants|35.0||||||95.0|27.0|44.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||44|27|
92323284|NCT00401544|184551019|SUPERIORITY_OR_OTHER||Percentage of participants|39.0||||||95.0|30.0|47.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||47|30|
92323285|NCT00401544|184551020|SUPERIORITY_OR_OTHER||Percentage of participants|26.0||||||95.0|15.0|38.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||38|15|
92323286|NCT00401544|184551020|SUPERIORITY_OR_OTHER||Percentage of participants|31.0||||||95.0|19.0|42.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||42|19|
92323287|NCT00401544|184551020|SUPERIORITY_OR_OTHER||Percentage of participants|28.0||||||95.0|17.0|40.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||40|17|
92323288|NCT00401544|184551020|SUPERIORITY_OR_OTHER||Percentage of participants|25.0||||||95.0|14.0|36.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||36|14|
92323289|NCT00401544|184551021|SUPERIORITY_OR_OTHER||Percentage of participants|68.0||||||95.0|59.0|76.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||76|59|
92323290|NCT00401544|184551021|SUPERIORITY_OR_OTHER||Percentage of participants|59.0||||||95.0|50.0|68.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||68|50|
92323291|NCT00401544|184551022|SUPERIORITY_OR_OTHER||Percentage of participants|53.0||||||95.0|44.0|62.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||62|44|
92323292|NCT00401544|184551022|SUPERIORITY_OR_OTHER||Percentage of participants|74.0||||||95.0|66.0|82.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||82|66|
92199295|NCT00250432|184296566|SUPERIORITY_OR_OTHER||Rate Difference|6.3|STANDARD_ERROR_OF_MEAN|12.1||||95.0|-5.9|18.4|||||The 95% confidence interval on the difference will be based on the method of Miettinen and Nurminen.|There was no formal hypothesis testing for efficacy in this study. The main efficacy analysis was the number (percentage) of patients with a favorable overall response at the end of caspofungin study therapy, together with the within treatment 95% exact binomial confidence intervals, and the estimated treatment difference, and its 95% confidence interval.||18.4|-5.9|
92199296|NCT01011868|184296567|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|97.5|-0.78|-0.33||Hypotheses were tested at significance level of 0.025, which is half of overall alpha of 0.05, split equally between 2 treatment comparisons. This maintained the overall type-I (alpha) at 5%. There was no a priori assumption on testing order.|ANCOVA|ANCOVA that included treatment group and geographic region as fixed effects along with baseline HbA1c as covariate.|The primary analysis consisted of the pair-wise comparisons between each dose of empagliflozin versus placebo using the adjusted means from the model.|"The null and alternative hypotheses to be tested:~* H0,1: No difference in change from baseline to Week 18 in HbA1c between empagliflozin 10 mg and placebo~* H1,1: A difference in change from baseline to Week 18 in HbA1c between empagliflozin 10 mg and placebo"||-0.33|-0.78|<0.0001
92323293|NCT02821338|184551045|EQUIVALENCE|90% confidence interval falls within 80.00-125.00%|Test/Reference ratio|0.9863|||||TWO_SIDED|90.0|0.9598|1.0134||||||90% confidence interval of the geometric mean ratio of test/reference||1.0134|0.9598|
92323294|NCT02821338|184551046|EQUIVALENCE|90% confidence interval falls within 80.00-125.00%|Test/Reference Ratio|0.9785|||||TWO_SIDED|90.0|0.9484|1.0095||||||||1.0095|0.9484|
92323295|NCT02821338|184551047|EQUIVALENCE|90% confidence interval falls within 80.00-125.00%|Test/Reference Ratio|1.047|||||TWO_SIDED|90.0|1.0079|1.0877||||||||1.0877|1.0079|
92323296|NCT02278939|184551052|SUPERIORITY|||||||0.003||||||This was an intention to treat analysis using the Tukey-Kramer adjustment to account for unequal group sample sizes|ANOVA|||Hypothesis: the intervention group will have a significantly greater reduction in weight (kg) compared to the control from baseline to 3-months||||0.003
92323297|NCT02278939|184551053|SUPERIORITY|||||||0.001||||||This was an intention to treat analysis using the Tukey-Kramer adjustment to account for unequal group sample sizes|ANOVA|||Hypothesis: the intervention group will have a statistically greater reduction in percent weight compared to the control from baseline to 3-months||||.001
92323298|NCT02278939|184551054|SUPERIORITY|||||||0.002||||||This was an intention to treat analysis using the Tukey-Kramer adjustment to account for differences in group sample sizes|ANOVA|||Hypothesis: the intervention group will have a statistically greater reduction in BMI compared to the control from baseline to 3 months||||.002
92323299|NCT00930774|184551080|SUPERIORITY_OR_OTHER|||||||0.527|||||||ANOVA|df = 3,83; F=0.748||||||0.527
92323300|NCT00930774|184551081|SUPERIORITY_OR_OTHER|||||||0.835|||||||ANOVA|df = 3,83; F=0.286||||||0.835
92323301|NCT00930774|184551082|SUPERIORITY_OR_OTHER|||||||0.983|||||||ANOVA|df = 3,83; F=0.054||||||0.983
92323302|NCT00930774|184551083|SUPERIORITY_OR_OTHER|||||||0.554||||||df = 3,83; F=0.701|ANOVA|||||||0.554
92323303|NCT00930774|184551084|SUPERIORITY_OR_OTHER|||||||0.757||||||df = 3,83; F=0.395|ANOVA|||||||0.757
92323304|NCT00930774|184551085|SUPERIORITY_OR_OTHER|||||||0.302|||||||ANOVA|df = 3,83; F=1.236||||||0.302
92323305|NCT00930774|184551086|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|df = 3,83. F=6.343||||||0.001
92323306|NCT00930774|184551086|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92323307|NCT00930774|184551087|SUPERIORITY_OR_OTHER|||||||0.013|||||||ANOVA|df = 3,83; F=3.797||||||0.013
92323308|NCT00930774|184551087|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
92323309|NCT00712881|184551088|OTHER|||||||0.154||||||Threshold for significance at 0.05 level.|2-sided, binomial proportions|||||||0.154
92323310|NCT03200704|184551097|NON_INFERIORITY|90% power, 2.5% one-sided significance level,5% non-inferiority margin|||||<|0.0001|||||||Regression, Logistic|||"Hypothesis:~H0: QT ≤ QC - 0.05 H1: QT \> QC - 0.05"||||<0.0001
92323311|NCT01680861|184551101|SUPERIORITY_OR_OTHER|||||||0.32|||||||Log Rank|||||||0.32
92323312|NCT01680861|184551102|SUPERIORITY_OR_OTHER|||||||0.99|||||||Log Rank|||||||0.99
92323313|NCT01680861|184551103|SUPERIORITY_OR_OTHER|||||||1|||||||Log Rank|||||||1.0
92323314|NCT01680861|184551104|SUPERIORITY_OR_OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
92323315|NCT01680861|184551105|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||||||0.18
92323316|NCT01680861|184551106|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
92323317|NCT04590586|184551127|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.6672|TWO_SIDED|95.0|0.59|2.35|||Stratified log-rank test|Stratified by baseline score of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), and geographic region.|Hazard ratio (Lanadelumab vs. placebo) from a Cox regression model including baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||2.35|0.59|0.6672
92323318|NCT04590586|184551128|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8779|TWO_SIDED|95.0|0.77|1.24|||Stratified log-rank test|Stratified by baseline score of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), and geographic region.|Hazard ratio (apremilast vs. placebo) from a Cox regression model including baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||1.24|0.77|0.8779
92323319|NCT04590586|184551140|OTHER||Risk Difference (RD)|-4.0||||0.3773|TWO_SIDED|95.0|-12.9|4.9|||Regression, Logistic||Risk difference is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||4.9|-12.9|0.3773
92323320|NCT04590586|184551140|OTHER||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.52|1.28|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||1.28|0.52|
92323321|NCT04590586|184551141|OTHER||Risk Difference (RD)|-2.9||||0.4846|TWO_SIDED|95.0|-11.2|5.3|||Regression, Logistic||Risk difference is from a logistic regression including baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||5.3|-11.2|0.4846
92323322|NCT04590586|184551141|OTHER||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.51|1.37|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||1.37|0.51|
92323323|NCT04590586|184551142|OTHER||Risk Difference (RD)|0.2||||0.9665|TWO_SIDED|95.0|-7.3|7.6|||Regression, Logistic||Risk difference is from a logistic regression including baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||7.6|-7.3|0.9665
92199297|NCT01011868|184296567|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|97.5|-0.93|-0.47||Hypotheses were tested at significance level of 0.025, which is half of overall alpha of 0.05, split equally between 2 treatment comparisons. This maintained the overall type-I (alpha) at 5%. There was no a priori assumption on testing order.|ANCOVA|ANCOVA that included treatment group and geographic region as fixed effects along with baseline HbA1c as covariate.|The primary analysis consisted of the pair-wise comparisons between each dose of empagliflozin versus placebo using the adjusted means from the model.|"The null and alternative hypotheses to be tested:~* H0,2: No difference in change from baseline to Week 18 in HbA1c between empagliflozin 25 mg and placebo~* H1,2: A difference in change from baseline to Week 18 in HbA1c between empagliflozin 25 mg and placebo"||-0.47|-0.93|<0.0001
92199298|NCT01011868|184296568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.518|||<|0.0001|TWO_SIDED|95.0|3.262|9.334|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c.||Empagliflozin 10 mg vs Placebo at 18 weeks||9.334|3.262|<0.0001
92323324|NCT04590586|184551142|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.59|1.74|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||1.74|0.59|
92323325|NCT04590586|184551143|OTHER||Odds Ratio (OR)|1.02||||0.9119|TWO_SIDED|95.0|0.71|1.46|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|Day 8||1.46|0.71|0.9119
92323326|NCT04590586|184551143|OTHER||Odds Ratio (OR)|1.09||||0.6475|TWO_SIDED|95.0|0.75|1.58|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|Day 15||1.58|0.75|0.6475
92323327|NCT04590586|184551143|OTHER||Odds Ratio (OR)|0.98||||0.9071|TWO_SIDED|95.0|0.64|1.48|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|Day 29||1.48|0.64|0.9071
92323328|NCT04590586|184551144|OTHER||Odds Ratio (OR)|1.15||||0.4507|TWO_SIDED|95.0|0.8|1.66|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|||1.66|0.80|0.4507
92323329|NCT04590586|184551145|OTHER||Odds Ratio (OR)|0.99||||0.9741|TWO_SIDED|95.0|0.64|1.53|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|||1.53|0.64|0.9741
92323330|NCT04590586|184551146|OTHER||Odds Ratio (OR)|1.04||||0.8754|TWO_SIDED|95.0|0.64|1.7|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|||1.70|0.64|0.8754
92323331|NCT04590586|184551147|OTHER||Risk Difference (RD)|0.2||||0.9695|TWO_SIDED|95.0|-8.7|9.1|||Regression, Logistic||Risk difference is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 8||9.1|-8.7|0.9695
92323332|NCT04590586|184551147|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.64|1.59|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 8||1.59|0.64|
92199299|NCT01011868|184296568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.883|||<|0.0001|TWO_SIDED|95.0|2.859|8.338|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 18 weeks||8.338|2.859|<0.0001
92323333|NCT04590586|184551147|OTHER||Risk Difference (RD)|-2.4||||0.6236|TWO_SIDED|95.0|-11.9|7.1|||Regression, Logistic||Risk difference is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 15||7.1|-11.9|0.6236
92323334|NCT04590586|184551147|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.59|1.37|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 15||1.37|0.59|
92323335|NCT04590586|184551147|OTHER||Risk Difference (RD)|-6.2||||0.1664|TWO_SIDED|95.0|-14.9|2.5|||Regression, Logistic||Risk difference is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 29||2.5|-14.9|0.1664
92323336|NCT04590586|184551147|OTHER||Odds Ratio (OR)|0.72|||||TWO_SIDED|95.0|0.45|1.15|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 29||1.15|0.45|
92323337|NCT04590586|184551148|OTHER||Risk Difference (RD)|-0.5||||0.9043|TWO_SIDED|95.0|-9.3|8.3|||Regression, Logistic||Risk difference is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||8.3|-9.3|0.9043
92323338|NCT04590586|184551148|OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.62|1.54|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||1.54|0.62|
92323339|NCT01893281|184551164|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92323340|NCT00910208|184551210|SUPERIORITY|||||||0.82|||||||ANOVA|||||||0.82
92323341|NCT00910208|184551211|SUPERIORITY|||||||0.47|||||||Chi-squared|||||||0.47
92323342|NCT00910208|184551212|SUPERIORITY|||||||0.06|||||||ANOVA|||||||0.06
92323343|NCT00910208|184551213|SUPERIORITY|||||||0.033|||||||Chi-squared|||||||0.033
92323344|NCT00910208|184551214|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
92323345|NCT00910208|184551215|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92323346|NCT00422695|184551218|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92323347|NCT00422695|184551218|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92323348|NCT00737204|184551219|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.001
92323349|NCT00737204|184551220|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|95.0|||||ANCOVA|||Repeated measure analysis||||.01
92323350|NCT00737204|184551221|SUPERIORITY_OR_OTHER||||||>=|0.805||95.0|||||Paired t-tests|||Null hypothesis: CD4 levels for both the Armodafinil and Placebo groups will not change significantly between baseline and week 4.||||>=.805
92323351|NCT03605862|184551254|SUPERIORITY|||||||0.4009|||||||Gehan-Wilcoxon|Analysis was stratified by time from onset of symptoms, pre-enrollment symptom relief medication use, and presence of underlying lung conditions||||||0.4009
92323352|NCT03605862|184551255|SUPERIORITY|||||||0.1923|||||||Gehan-Wilcoxon|Analysis was stratified by time from onset of symptoms, pre-enrollment symptom relief medication use, and presence of underlying lung conditions||||||0.1923
92323353|NCT03605862|184551256|SUPERIORITY|||||||0.2057|||||||Fisher Exact|||||||0.2057
92323354|NCT03605862|184551257|SUPERIORITY|||||||0.0712|||||||Gehan-Wilcoxon|Analysis stratified by time from symptom onset at Baseline, pre-enrollment symptom relief medication use, and presence of underlying lung condition||||||0.0712
92323355|NCT03605862|184551258|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison for study day 2||||1.0000
92323356|NCT03605862|184551258|SUPERIORITY|||||||0.9142|||||||Fisher Exact|||Comparison for study day 3||||0.9142
92323357|NCT03605862|184551258|SUPERIORITY|||||||0.0132|||||||Fisher Exact|||Comparison for study day 7||||0.0132
92323358|NCT03605862|184551259|SUPERIORITY|||||||0.1239|||||||t-test, 2 sided|||Comparison for day 2||||0.1239
92323359|NCT03605862|184551259|SUPERIORITY|||||||0.1022|||||||t-test, 2 sided|||Comparison for day 3||||0.1022
92323360|NCT03605862|184551259|SUPERIORITY|||||||0.46213|||||||t-test, 2 sided|||Comparison for day 7||||0.46213
92323361|NCT03605862|184551262|SUPERIORITY|||||||0.014|||||||Gehan-Wilcoxon|Analysis stratified by time from symptom onset at first dose, pre-enrollment symptom relief medication use, and presence of underlying lung condition||||||0.0140
92323362|NCT03605862|184551263|SUPERIORITY|||||||0.0112|||||||Gehan-Wilcoxon|Analysis stratified by time from onset at first dose, pre-enrollment symptom relief medication use, and presence of underlying lung condition||||||0.0112
92323363|NCT03605862|184551264|SUPERIORITY||||||<|0.0001|||||||Gehan-Wilcoxon|Analysis stratified by time from onset at first dose, pre-enrollment symptom relief medication use, and presence of underlying lung condition||||||<0.0001
92323364|NCT00778869|184551268|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Student t-test|||||||<0.05
92323365|NCT01582178|184551297|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Fisher Exact|||||||0.89
92323366|NCT00570063|184551298|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-1.61|STANDARD_ERROR_OF_MEAN|8.94||0.86|TWO_SIDED|90.0|-16.49|13.27|||Mixed Models Analysis|||P-value and 90 percent confidence interval (CI) were obtained from mixed effects repeated measures analysis using covariance structures spatial power covariance structure (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||13.27|-16.49|0.86
92323367|NCT00570063|184551299|SUPERIORITY_OR_OTHER||LS mean difference|-1.23|STANDARD_ERROR_OF_MEAN|2.69||0.65|TWO_SIDED|90.0|-5.71|3.24|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||3.24|-5.71|0.65
92199300|NCT01011868|184296568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.471|||<|0.0001|TWO_SIDED|95.0|2.077|5.802|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 10 mg vs Placebo at 54 weeks||5.802|2.077|<0.0001
92199301|NCT01011868|184296568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.825|||<|0.0001|TWO_SIDED|95.0|2.268|6.451|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 54 weeks||6.451|2.268|<0.0001
92199302|NCT01011868|184296568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.802||||0.0002|TWO_SIDED|95.0|1.639|4.789|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 10 mg vs Placebo at 78 weeks||4.789|1.639|0.0002
92199303|NCT01011868|184296568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.527|||<|0.0001|TWO_SIDED|95.0|2.051|6.066|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 78 weeks||6.066|2.051|<0.0001
92199304|NCT01011868|184296569|SUPERIORITY_OR_OTHER||Adjusted mean difference|-28.4|STANDARD_ERROR_OF_MEAN|4.65|<|0.0001|TWO_SIDED|95.0|-37.54|-19.27|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 18 - Empagliflozin 10 mg vs Placebo||-19.27|-37.54|<0.0001
92199305|NCT01011868|184296569|SUPERIORITY_OR_OTHER||Adjusted mean difference|-34.21|STANDARD_ERROR_OF_MEAN|4.81|<|0.0001|TWO_SIDED|95.0|-43.67|-24.76|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 18 - Empagliflozin 25 mg vs Placebo at 18 weeks||-24.76|-43.67|<0.0001
92199306|NCT01011868|184296569|SUPERIORITY_OR_OTHER||Adjusted mean difference|-10.75|STANDARD_ERROR_OF_MEAN|5.02||0.0328|TWO_SIDED|95.0|-20.62|-0.89|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 54 - Empagliflozin 10 mg vs Placebo at 18 weeks||-0.89|-20.62|0.0328
92199307|NCT01011868|184296569|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.16|STANDARD_ERROR_OF_MEAN|5.16||0.0002|TWO_SIDED|95.0|-29.31|-9.01|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 54 - Empagliflozin 25 mg vs Placebo||-9.01|-29.31|0.0002
92199308|NCT01011868|184296569|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.03|STANDARD_ERROR_OF_MEAN|5.07||0.3216|TWO_SIDED|95.0|-15.01|4.94|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 78 - Empagliflozin 10 mg vs Placebo||4.94|-15.01|0.3216
92199309|NCT01011868|184296569|SUPERIORITY_OR_OTHER||Adjusted mean difference|-11.95|STANDARD_ERROR_OF_MEAN|5.23||0.0229|TWO_SIDED|95.0|-22.24|-1.67|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 78 - Empagliflozin 25 mg vs Placebo||-1.67|-22.24|0.0229
92199310|NCT01011868|184296570|SUPERIORITY_OR_OTHER||Adjusted mean difference|-25.12|STANDARD_ERROR_OF_MEAN|5.22|<|0.0001|TWO_SIDED|95.0|-35.38|-14.86|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 18 - Empagliflozin 10 mg vs Placebo||-14.86|-35.38|<0.0001
92199311|NCT01011868|184296570|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.01|||<|0.0001|TWO_SIDED|95.0|-41.62|-20.39|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 18 - Empagliflozin 25 mg vs Placebo||-20.39|-41.62|<0.0001
92199312|NCT01011868|184296570|SUPERIORITY_OR_OTHER||Adjusted mean difference|-10.2|STANDARD_ERROR_OF_MEAN|5.15|<|0.0484|TWO_SIDED|95.0|-20.33|-0.07|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 54 - Empagliflozin 10 mg vs Placebo||-0.07|-20.33|<0.0484
92199313|NCT01011868|184296570|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.42|STANDARD_ERROR_OF_MEAN|5.3||0.0003|TWO_SIDED|95.0|-29.84|-8.99|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 54 - Empagliflozin 25 mg vs Placebo||-8.99|-29.84|0.0003
92199314|NCT01011868|184296570|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.73|STANDARD_ERROR_OF_MEAN|5.07||0.3517||95.0|-14.71|5.25|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 78 - Empagliflozin 10 mg vs Placebo||5.25|-14.71|0.3517
92199315|NCT01011868|184296570|SUPERIORITY_OR_OTHER||Adjusted mean difference|-12.39|STANDARD_ERROR_OF_MEAN|5.23||0.0185|TWO_SIDED|95.0|-22.69|-2.1|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 78 - Empagliflozin 25 mg vs Placebo||-2.10|-22.69|0.0185
92199316|NCT01011868|184296571|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.58|STANDARD_ERROR_OF_MEAN|2.4||0.0213|TWO_SIDED|95.0|-10.32|-0.84|||Mixed Models Analysis||Week 54 model includes, baseline basal insulin, baseline HbA1c as linear covariate(s), geographical region, treatment, visit and visit by treatment interaction as fixed effects.|Empagliflozin versus Placebo 10 mg at 54 weeks||-0.84|-10.32|0.0213
92199317|NCT01011868|184296571|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.69|STANDARD_ERROR_OF_MEAN|2.49||0.0237|TWO_SIDED|95.0|-10.62|-0.77|||Mixed Models Analysis||Week 54 model includes, baseline basal insulin, baseline HbA1c as linear covariate(s), geographical region, treatment, visit and visit by treatment interaction as fixed effect(s).|Empagliflozin versus Placebo 25 mg at 54 weeks||-0.77|-10.62|0.0237
92268639|NCT03417102|184439112|SUPERIORITY||ABR ratio|0.098|||<|0.0001|TWO_SIDED|95.0|0.046|0.21||P-value derived from NB regression model, accounted for different follow-up times during EP, with treatment arm and randomization strata of number of bleeds in 6 months prior to study (\<=10,\>10) as fixed effects. Significance threshold was 0.05.|Negative binomial regression model|||||0.210|0.046|<0.0001
92199318|NCT01011868|184296571|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.66|STANDARD_ERROR_OF_MEAN|2.18||0.0024|TWO_SIDED|97.5|-11.56|-1.77||Hierarchical testing approach was applied to Empagliflozin 10 mg vs Placebo. If null hypothesis is rejected for the primary endpoint, at 0.025 (2-sided), testing of the key secondary endpoints continued in a hierarchical fashion for the same dose.|ANCOVA|Model for Week 78 includes baseline basal insulin, baseline HbA1c as linear covariate(s) and geographical region, treatment as fixed effect(s)||"Empagliflozin versus Placebo 10 mg at 78 weeks~H0,1a: No difference in change from baseline to Week 78 in basal insulin dose between Empagliflozin 10 mg and placebo H1,1a: A difference in change from baseline to Week 78 in basal insulin dose between Empagliflozin 10 mg and placebo"||-1.77|-11.56|0.0024
92199319|NCT01011868|184296571|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.92|STANDARD_ERROR_OF_MEAN|2.25||0.009|TWO_SIDED|97.5|-11.0|-0.85||Hierarchical testing approach was applied to Empagliflozin 25 mg vs Placebo. If null hypothesis is rejected for the primary endpoint, at 0.025 (2-sided), testing of the key secondary endpoints continued in a hierarchical fashion for the same dose.|ANCOVA|Model for Week 78 includes baseline basal insulin, baseline HbA1c as linear covariate(s) and geographical region, treatment as fixed effect(s)||"Empagliflozin versus Placebo 25 mg at 78 weeks~H0,1a: No difference in change from baseline to Week 78 in basal insulin dose between Empagliflozin 25 mg and placebo H1,1a: A difference in change from baseline to Week 78 in basal insulin dose between Empagliflozin 25 mg and placebo"||-0.85|-11.00|0.0090
92199320|NCT01011868|184296572|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.04|STANDARD_ERROR_OF_MEAN|0.95||0.032|TWO_SIDED|95.0|-3.9|-0.18|||Mixed Models Analysis||Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 18 - Empagliflozin 10 mg vs Placebo||-0.18|-3.90|0.0320
92199321|NCT01011868|184296572|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.99||0.3818|TWO_SIDED|95.0|-2.81|1.08|||Mixed Models Analysis||Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 18 - Empagliflozin 25 mg vs Placebo||1.08|-2.81|0.3818
92199322|NCT01011868|184296572|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.97|STANDARD_ERROR_OF_MEAN|0.47|<|0.0001|TWO_SIDED|95.0|-2.89|-1.05|||Mixed Models Analysis||Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 54 - Empagliflozin 10 mg vs Placebo||-1.05|-2.89|<0.0001
92199323|NCT01011868|184296572|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.17|STANDARD_ERROR_OF_MEAN|0.49|<|0.0001|TWO_SIDED|95.0|-3.13|-1.22|||Mixed Models Analysis||Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 54 - Empagliflozin 25 mg vs Placebo||-1.22|-3.13|<0.0001
92199324|NCT01011868|184296572|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.63|STANDARD_ERROR_OF_MEAN|1.1||0.0012|TWO_SIDED|95.0|-5.81|-1.45|||Mixed Models Analysis||Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 78 - Empagliflozin 10 mg vs Placebo||-1.45|-5.81|0.0012
92199325|NCT01011868|184296572|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.12|STANDARD_ERROR_OF_MEAN|1.15||0.0073|TWO_SIDED|95.0|-5.39|-0.85|||Mixed Models Analysis|Model includes, baseline weight, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects|Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 78 - Empagliflozin 25 mg vs Placebo||-0.85|-5.39|0.0073
92199326|NCT01011868|184296574|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.68|-0.26|||Mixed Models Analysis||Model includes baseline HbA1c as linear covariate(s), geographical region, treatment, visit and visit by treatment interaction as fixed effect(s).|Change from BL at week 54 - Empagliflozin 10 mg vs Placebo||-0.26|-0.68|<0.0001
92199327|NCT01011868|184296574|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.95|-0.52|||Mixed Models Analysis||Model includes baseline HbA1c as linear covariate(s), geographical region, treatment, visit and visit by treatment interaction as fixed effect(s).|Change from BL at week 54 - Empagliflozin 25 mg vs Placebo||-0.52|-0.95|<0.0001
92268640|NCT03417102|184439114|SUPERIORITY||Least Square (LS) Mean difference|-28.72|||<|0.0001|TWO_SIDED|95.0|-39.07|-18.37||Analysis of Covariance (ANCOVA) model included treatment arm and randomization strata of number of bleeds (\<=10, \> 10) as fixed effects, Baseline score as a covariate. Significance threshold was at 0.05.|ANCOVA|||||-18.37|-39.07|<0.0001
92268641|NCT03417102|184439115|SUPERIORITY||LS Mean difference|-14.85|||<|0.0001|TWO_SIDED|95.0|-21.37|-8.33||ANCOVA model included treatment arm and randomization strata of number of bleeds (\<=10, \> 10) as fixed effects, Baseline score as a covariate. Significance threshold was at 0.05.|ANCOVA|||||-8.33|-21.37|<0.0001
92268642|NCT00795210|184439125|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Kruskal-Wallis|||Kruskal-Wallis Test for overall difference between groups||||0.01
92268643|NCT00795210|184439126|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||ANOVA|||||||0.42
92268644|NCT01017731|184439128|SUPERIORITY_OR_OTHER|||||||0.0161||||||The p-value for QTc interval prolongation compared to baseline.|Mixed Models Analysis|||||||0.0161
92268645|NCT02060526|184439166|SUPERIORITY_OR_OTHER_LEGACY||Difference between proportions|0.286||||0.4615|TWO_SIDED|95.0|-0.297|0.745|||Fisher Exact|||95% exact unconditional confidence interval of the difference in proportion between each of the treatment groups and the untreated control group was considered for the parameter estimation.||0.745|-0.297|0.4615
92268646|NCT02060526|184439166|SUPERIORITY_OR_OTHER_LEGACY||Difference between proportions|0.143||||1|TWO_SIDED|95.0|-0.423|0.647|||Fisher Exact|||95% exact unconditional confidence interval of the difference in proportion between each of the treatment groups and the untreated control group was considered for the parameter estimation.||0.647|-0.423|1.0000
92268647|NCT03126682|184439195|SUPERIORITY|||||||0.212||||||Threshold of \<0.05|t-test, 2 sided|||||||0.212
92268648|NCT01441401|184439200|SUPERIORITY_OR_OTHER_LEGACY|||||||0.045|||||||Fisher Exact|||"The factor tested was baseline severity of epileptic seizure. The null hypothesis was that there was no association between the baseline severity of epileptic seizure (mild, moderate, and severe) and the number of participants who responded to the treatment with gabapentin."||||0.045
92199328|NCT01011868|184296574|NON_INFERIORITY_OR_EQUIVALENCE|"For non-inferiority, a one-sided test at the significance level of 0.0125 was performed using a chosen margin of 0.3% difference between each dose of empagliflozin and placebo.~If the non-inferiority of empagliflozin to placebo with respect to change from baseline in HbA1c after 78 weeks of treatment could be concluded for a specific dose, subsequent testing of superiority was performed at the significance level of 0.025 for the relevant empagliflozin dose versus placebo comparison."|Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.12||0.0001|TWO_SIDED|97.5|-0.73|-0.19||Hierarchical testing approach was applied to Empagliflozin 10 mg vs Placebo. If null hypothesis is rejected for the primary endpoint, at 0.025 (2-sided), testing of the key secondary endpoints continued in a hierarchical fashion for the same dose.|ANCOVA||Model includes baseline HbA1c as linear covariate(s), geographical region, treatment as fixed effect(s).|"Change from BL at week 78 - Empagliflozin 10 mg vs Placebo~H0,1b: The change from baseline to Week 78 in HbA1c between empagliflozin 10 mg and placebo ≥0.3% H1,1b: The change from baseline to Week 78 in HbA1c between empagliflozin 10 mg and placebo \<0.3%"||-0.19|-0.73|0.0001
92199329|NCT01011868|184296574|NON_INFERIORITY_OR_EQUIVALENCE|"For non-inferiority, a one-sided test at the significance level of 0.0125 was performed using a chosen margin of 0.3% difference between each dose of empagliflozin and placebo.~If the non-inferiority of empagliflozin to placebo with respect to change from baseline in HbA1c after 78 weeks of treatment could be concluded for a specific dose, subsequent testing of superiority was performed at the significance level of 0.025 for the relevant empagliflozin dose versus placebo comparison."|Adjusted mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|97.5|-0.9|-0.34||Hierarchical testing approach was applied to Empagliflozin 25 mg vs Placebo. If null hypothesis is rejected for the primary endpoint, at 0.025 (2-sided), testing of the key secondary endpoints continued in a hierarchical fashion for the same dose.|ANCOVA||Model includes baseline HbA1c as linear covariate(s), geographical region, treatment as fixed effect(s).|"Change from BL at week 78 - Empagliflozin 25 mg vs Placebo~H0,1b: The change from baseline to Week 78 in HbA1c between empagliflozin 25 mg and placebo ≥0.3% H1,1b: The change from baseline to Week 78 in HbA1c between empagliflozin 25 mg and placebo \<0.3%"||-0.34|-0.90|<0.0001
92199330|NCT01011868|184296576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.096||||0.0005|TWO_SIDED|95.0|1.846|9.088|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 10 mg vs Placebo at 18 weeks||9.088|1.846|0.0005
92199331|NCT01011868|184296576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.636||||0.0002|TWO_SIDED|95.0|2.083|10.321|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 18 weeks||10.321|2.083|0.0002
92199332|NCT01011868|184296576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.1248|TWO_SIDED|95.0|0.856|3.575|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 10 mg vs Placebo at 54 weeks||3.575|0.856|0.1248
92199333|NCT01011868|184296576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.423||||0.0132|TWO_SIDED|95.0|1.203|4.879|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 54 weeks||4.879|1.203|0.0132
92199334|NCT01011868|184296576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.939||||0.0986|TWO_SIDED|95.0|0.884|4.256|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 10 mg vs Placebo at 78 weeks||4.256|0.884|0.0986
92199335|NCT01011868|184296576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.239||||0.0024|TWO_SIDED|95.0|1.518|6.911|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 78 weeks||6.911|1.518|0.0024
92199336|NCT04147858|184296577|SUPERIORITY|||||||0.539|||||||t-test, 2 sided|||||||0.539
92199337|NCT04147858|184296577|SUPERIORITY|||||||0.425|||||||t-test, 2 sided|||||||0.425
92199338|NCT04147858|184296578|SUPERIORITY|||||||0.824|||||||t-test, 2 sided|||||||0.824
92199339|NCT04147858|184296578|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
92199340|NCT04147858|184296579|SUPERIORITY|||||||0.297|||||||t-test, 2 sided|||||||0.297
92199341|NCT04147858|184296579|SUPERIORITY|||||||0.603|||||||t-test, 2 sided|||||||0.603
92199342|NCT04147858|184296580|SUPERIORITY|||||||0.871|||||||t-test, 2 sided|||||||0.871
92199343|NCT04147858|184296580|SUPERIORITY|||||||0.352|||||||t-test, 2 sided|||||||0.352
92199344|NCT04147858|184296581|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
92199345|NCT04147858|184296581|SUPERIORITY|||||||0.626|||||||t-test, 2 sided|||||||0.626
92199346|NCT04147858|184296582|SUPERIORITY|||||||0.059|||||||t-test, 2 sided|||||||0.059
92199347|NCT04147858|184296582|SUPERIORITY|||||||0.726|||||||t-test, 2 sided|||||||0.726
92199348|NCT04147858|184296583|SUPERIORITY|||||||0.888|||||||t-test, 2 sided|||||||0.888
92199349|NCT04147858|184296583|SUPERIORITY|||||||0.832|||||||t-test, 2 sided|||||||0.832
92199350|NCT04147858|184296584|SUPERIORITY|||||||0.536|||||||t-test, 2 sided|||||||0.536
92199351|NCT04147858|184296584|SUPERIORITY|||||||0.982|||||||t-test, 2 sided|||||||0.982
92199352|NCT04147858|184296585|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.190
92199353|NCT04147858|184296585|SUPERIORITY|||||||0.764|||||||t-test, 2 sided|||||||0.764
92199354|NCT04147858|184296586|SUPERIORITY|||||||0.097|||||||t-test, 2 sided|||||||0.097
92199355|NCT04147858|184296586|SUPERIORITY|||||||0.849|||||||t-test, 2 sided|||||||0.849
92199356|NCT02615938|184296587|SUPERIORITY|||||||1|||||||Fisher Exact|No estimated value can be calculated if in any group no responder exists (i.e. no odds exists for independent groups)||||||1
92268649|NCT01441401|184439200|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017|||||||Cochran-Armitage (EXACT)|||"The factor tested was baseline severity of epileptic seizure. The null hypothesis was that there was no ordinal trend in the number of responders to the treatment with gabapentin across the baseline severity of epileptic seizure (mild, moderate, and severe)."||||0.017
92268650|NCT01441401|184439201|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Fisher Exact|||"The factor tested was baseline frequency of epileptic seizure. The null hypothesis was that there was no difference between the baseline frequency of epileptic seizure and the number of participants who responded to the treatment with gabapentin."||||0.018
92268651|NCT01441401|184439202|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034|||||||Fisher Exact|||"The factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no association between the number of concomitant antiepileptic drugs at baseline and the number of participants who responded to the treatment with gabapentin."||||0.034
92199357|NCT02615938|184296587|OTHER|McNemar test for paired samples was not calculated as in any group no responder exists (i.e. no odds exists for independent groups or no discordant pairs could be determined for dependent groups).|||||||||||||||||No estimated OR value can be calculated if in any group no responder exists (i.e. no odds exists for independent groups) and no P values can be calculated as in any group no responder existed (i.e. no odds exists for independent groups or no disconcordant pairs could be determined for dependent groups)|||
92199358|NCT02615938|184296587|SUPERIORITY|||||||1|||||||Fisher Exact|No estimated value can be calculated if in any group no responder exists (i.e. no odds exists for independent groups)||||||1.0
92199359|NCT02615938|184296587|OTHER|McNemar test for paired samples was not calculated as in any group no responder exists (i.e. no odds exists for independent groups or no discordant pairs could be determined for dependent groups).|||||||||||||||||No estimated OR value can be calculated if in any group no responder exists (i.e. no odds exists for independent groups) and no P values can be calculated as in any group no responder existed (i.e. no odds exists for independent groups or no disconcordant pairs could be determined for dependent groups)|||
92199360|NCT02615938|184296588|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|1.1|0.079|15.16|||Fisher Exact|||||15.16|0.079|1.0
92199361|NCT02615938|184296588|SUPERIORITY||Odds Ratio (OR)|-0.2||||1|TWO_SIDED|95.0|-0.34|0.008|||McNemar|||||0.008|-0.340|1.0
92199362|NCT02615938|184296588|SUPERIORITY|||||||0.196|||||||Fisher Exact|No estimated value can be calculated if in any group no responder exists (i.e. no odds exists for independent groups)||||||0.196
92199363|NCT02615938|184296588|OTHER|McNemar test for paired samples was not calculated as in any group no responder exists (i.e. no odds exists for independent groups or no discordant pairs could be determined for dependent groups).|||||||||||||||||No estimated OR value can be calculated if in any group no responder exists (i.e. no odds exists for independent groups) and no P values can be calculated as in any group no responder existed (i.e. no odds exists for independent groups or no disconcordant pairs could be determined for dependent groups)|||
92199364|NCT02615938|184296589|SUPERIORITY||Mean Difference (Net)|-0.2||||0.757|TWO_SIDED|95.0|-1.2|0.8|||t-test, 2 sided|||||0.8|-1.2|0.757
92199365|NCT02615938|184296589|SUPERIORITY||Mean Difference (Net)|0.6||||0.229|TWO_SIDED|95.0|-0.2|1.1|||t-test, 2 sided|||||1.1|-0.2|0.229
92199366|NCT02615938|184296589|SUPERIORITY||Mean Difference (Net)|-1.2||||0.097|TWO_SIDED|95.0|-2.7|0.4|||t-test, 2 sided|||||0.4|-2.7|0.097
92323368|NCT00570063|184551300|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|2.61||0.93|TWO_SIDED|90.0|-4.59|4.1|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||4.10|-4.59|0.93
92323369|NCT00570063|184551301|SUPERIORITY_OR_OTHER||LS mean difference|0.74|STANDARD_ERROR_OF_MEAN|4.18||0.86|TWO_SIDED|90.0|-6.21|7.69|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||7.69|-6.21|0.86
92323370|NCT00570063|184551302|SUPERIORITY_OR_OTHER||LS mean difference|-2.57|STANDARD_ERROR_OF_MEAN|3.22||0.43|TWO_SIDED|90.0|-7.92|2.79|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||2.79|-7.92|0.43
92323371|NCT00570063|184551303|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|2.68||0.91|TWO_SIDED|90.0|-4.76|4.16|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||4.16|-4.76|0.91
92323372|NCT00570063|184551304|SUPERIORITY_OR_OTHER||LS mean difference|0.63|STANDARD_ERROR_OF_MEAN|2.29||0.78|TWO_SIDED|90.0|-3.17|4.43|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||4.43|-3.17|0.78
92199367|NCT02615938|184296589|SUPERIORITY||Mean Difference (Net)|-0.9||||0.427|TWO_SIDED|95.0|-2.5|0.8|||t-test, 2 sided|||||0.8|-2.5|0.427
92268652|NCT01441401|184439202|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Cochran-Armitage (EXACT)|||"The factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no ordinal trend in the number of responders to the treatment with gabapentin across the increasing number of concomitant antiepileptic drugs at baseline."||||0.005
92199368|NCT02615938|184296590|SUPERIORITY||Mean Difference (Net)|-0.2||||0.543|TWO_SIDED|95.0|-1.2|0.8|||t-test, 2 sided|||||0.8|-1.2|0.543
92199369|NCT02615938|184296590|SUPERIORITY||Mean Difference (Net)|-0.5||||0.421|TWO_SIDED|95.0|-1.2|0.3|||t-test, 2 sided|||||0.3|-1.2|0.421
92199370|NCT02615938|184296590|SUPERIORITY||Mean Difference (Net)|-0.4||||0.553|TWO_SIDED|95.0|-1.8|1.1|||t-test, 2 sided|||||1.1|-1.8|0.553
92199371|NCT02615938|184296590|SUPERIORITY||Mean Difference (Net)|-2.8||||0.102|TWO_SIDED|95.0|-5.0|-0.5|||t-test, 2 sided|||||-0.5|-5|0.1020
92199372|NCT02615938|184296591|SUPERIORITY||Mean Difference (Net)|-0.8||||0.178|TWO_SIDED|95.0|-2.4|0.9|||t-test, 2 sided|||||0.9|-2.4|0.178
92199373|NCT02615938|184296591|SUPERIORITY||Mean Difference (Net)|-1.3||||0.11|TWO_SIDED|95.0|-2.6|-0.1|||t-test, 2 sided|||||-0.1|-2.6|0.110
92199374|NCT02615938|184296591|SUPERIORITY||Mean Difference (Net)|1.6||||0.338|TWO_SIDED|95.0|-0.6|3.9|||t-test, 2 sided|||||3.9|-0.6|0.338
92199375|NCT02615938|184296591|SUPERIORITY||Mean Difference (Net)|-1.0||||0.3979|TWO_SIDED|95.0|-3.0|1.1|||t-test, 2 sided|||||1.1|-3|0.3979
92199376|NCT02615938|184296592|SUPERIORITY||Mean Difference (Net)|0.0||||0.965|TWO_SIDED|95.0|-1.6|1.6|||t-test, 2 sided|||||1.6|-1.6|0.965
92199377|NCT02615938|184296592|SUPERIORITY||Mean Difference (Net)|0.8||||0.374|TWO_SIDED|95.0|-0.4|1.9|||t-test, 2 sided|||||1.9|-0.4|0.374
92268653|NCT01441401|184439203|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||"The factor tested was treatment period with gabapentin. The null hypothesis was that there was no association between the treatment period with gabapentin and the number of participants who responded to the treatment with gabapentin."||||<0.001
92323373|NCT00570063|184551305|SUPERIORITY_OR_OTHER||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|1.35||0.92|TWO_SIDED|90.0|-2.11|2.39|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||2.39|-2.11|0.92
92323374|NCT00570063|184551306|SUPERIORITY_OR_OTHER||LS mean difference|0.84|STANDARD_ERROR_OF_MEAN|1.62||0.6|TWO_SIDED|90.0|-1.85|3.54|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||3.54|-1.85|0.60
92323375|NCT00570063|184551307|SUPERIORITY_OR_OTHER||LS mean difference|0.44|STANDARD_ERROR_OF_MEAN|1.86||0.81|TWO_SIDED|90.0|-2.65|3.53|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||3.53|-2.65|0.81
92323376|NCT00570063|184551308|SUPERIORITY_OR_OTHER||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.48||0.93|TWO_SIDED|90.0|-0.84|0.76|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||0.76|-0.84|0.93
92323377|NCT00570063|184551309|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.68||0.99|TWO_SIDED|90.0|-1.13|1.14|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects.||1.14|-1.13|0.99
92323378|NCT00570063|184551310|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.158|STANDARD_DEVIATION|0.844|||TWO_SIDED|90.0|-1.546|1.231||||||Change at Day 21: Cried||1.231|-1.546|
92199378|NCT02615938|184296592|SUPERIORITY||Mean Difference (Net)|-2.6||||0.149|TWO_SIDED|95.0|-5.2|0.1|||t-test, 2 sided|||||0.1|-5.2|0.149
92199379|NCT02615938|184296592|SUPERIORITY||Mean Difference (Net)|2.6||||0.2963|TWO_SIDED|95.0|0.0|5.3|||t-test, 2 sided|||||5.3|0|0.2963
92199380|NCT02615938|184296593|SUPERIORITY||Mean Difference (Net)|-0.9||||0.024|TWO_SIDED|95.0|-1.9|0.0|||t-test, 2 sided|||||0|-1.9|0.024
92323379|NCT00570063|184551310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.444|STANDARD_DEVIATION|1.078|||TWO_SIDED|90.0|-1.329|2.218||||||Change at Day 21: Felt blue or depressed||2.218|-1.329|
92323380|NCT00570063|184551310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.544|STANDARD_DEVIATION|4.32|||TWO_SIDED|90.0|-5.561|8.649||||||Change at Day 21: Irritability||8.649|-5.561|
92323381|NCT00570063|184551310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.573|STANDARD_DEVIATION|2.955|||TWO_SIDED|90.0|-4.287|5.433||||||Change at Day 21: Manifest psychosis||5.433|-4.287|
92323382|NCT00570063|184551310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.556|STANDARD_DEVIATION|2.096|||TWO_SIDED|90.0|-2.892|4.003||||||Change at Day 21: Personal neatness||4.003|-2.892|
92323383|NCT00570063|184551310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.327|STANDARD_DEVIATION|0.532|||TWO_SIDED|90.0|-1.202|0.547||||||Change at Day 21: Refused to speak||0.547|-1.202|
92323384|NCT00570063|184551310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.632|STANDARD_DEVIATION|2.749|||TWO_SIDED|90.0|-5.152|3.889||||||Change at Day 21: Retardation||3.889|-5.152|
92323385|NCT00570063|184551310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17|STANDARD_DEVIATION|0.572|||TWO_SIDED|90.0|-1.11|0.771||||||Change at Day 21: Said he/she was no good||0.771|-1.110|
92323386|NCT00570063|184551310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.561|STANDARD_DEVIATION|2.63|||TWO_SIDED|90.0|-4.887|3.764||||||Change at Day 21: Social competence||3.764|-4.887|
92199381|NCT02615938|184296593|SUPERIORITY||Mean Difference (Net)|-0.9||||0.045|TWO_SIDED|95.0|-1.7|-0.1|||t-test, 2 sided|||||-0.1|-1.7|0.045
92323387|NCT00570063|184551310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.62|STANDARD_DEVIATION|4.447|||TWO_SIDED|90.0|-7.934|6.694||||||Change at Day 21: Social interest||6.694|-7.934|
92323388|NCT00570063|184551311|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.712|STANDARD_DEVIATION|12.24|||TWO_SIDED|90.0|-14.42|25.845||||||||25.845|-14.42|
92323389|NCT00570063|184551321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.849|STANDARD_DEVIATION|4.23|||TWO_SIDED|90.0|-7.807|6.109||||||||6.109|-7.807|
92323390|NCT00570063|184551322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.195|STANDARD_DEVIATION|9.307|||TWO_SIDED|90.0|-19.5|11.114||||||||11.114|-19.50|
92323391|NCT00570063|184551323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.273|STANDARD_DEVIATION|3.488|||TWO_SIDED|90.0|-6.01|5.465||||||Change at Day 21: Parkinsonism||5.465|-6.010|
92323392|NCT00570063|184551323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.182|STANDARD_DEVIATION|3.008|||TWO_SIDED|90.0|-5.13|4.766||||||Change at Day 21: Dyskinesia||4.766|-5.130|
92323393|NCT00570063|184551323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.932|STANDARD_DEVIATION|1.425|||TWO_SIDED|90.0|-3.275|1.411||||||Change at Day 21: Dystonia||1.411|-3.275|
92323394|NCT00570063|184551323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.705|STANDARD_DEVIATION|1.652|||TWO_SIDED|90.0|-2.013|3.422||||||Change at Day 21: Akathisia||3.422|-2.013|
92323395|NCT00570063|184551324|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.291|STANDARD_DEVIATION|1.203|||TWO_SIDED|90.0|-2.27|1.688||||||Change at Day 4||1.688|-2.270|
92323396|NCT00570063|184551324|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.327|STANDARD_DEVIATION|1.349|||TWO_SIDED|90.0|-1.892|2.547||||||Change at Day 7||2.547|-1.892|
92323397|NCT00570063|184551324|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.436|STANDARD_DEVIATION|1.448|||TWO_SIDED|90.0|-1.946|2.817||||||Change at Day 14||2.817|-1.946|
92199382|NCT02615938|184296593|SUPERIORITY||Mean Difference (Net)|0.5||||0.458|TWO_SIDED|95.0|-0.9|2.0|||t-test, 2 sided|||||2.0|-0.9|0.458
92199383|NCT02615938|184296593|SUPERIORITY||Mean Difference (Net)|-1.1||||0.4216|TWO_SIDED|95.0|-2.8|0.7|||t-test, 2 sided|||||0.7|-2.8|0.4216
92199384|NCT02615938|184296594|SUPERIORITY||Mean Difference (Net)|1.3||||0.063|TWO_SIDED|95.0|0.1|2.5|||t-test, 2 sided|||||2.5|0.1|0.063
92199385|NCT02615938|184296594|SUPERIORITY||Mean Difference (Net)|0.6||||0.41|TWO_SIDED|95.0|-0.3|1.6|||t-test, 2 sided|||||1.6|-0.3|0.410
92199386|NCT02615938|184296594|SUPERIORITY||Mean Difference (Net)|-0.5||||0.574|TWO_SIDED|95.0|-2.3|1.3|||t-test, 2 sided|||||1.3|-2.3|0.574
92199387|NCT02615938|184296595|SUPERIORITY||Mean Difference (Net)|0.3||||0.73|TWO_SIDED|95.0|-0.9|1.5|||t-test, 2 sided|||||1.5|-0.9|0.730
92323398|NCT00570063|184551324|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|1.133|||TWO_SIDED|90.0|-1.763|1.963||||||Change at Day 21||1.963|-1.763|
92323399|NCT00789698|184551366|NON_INFERIORITY_OR_EQUIVALENCE|This is a non-inferiority analysis. Lurasidone will be declared as effective as quetiapine XR in preventing relapse if the upper bound of a 2-sided 95% confidence limit for the hazard ration of lurasidone vs. quetiapine is no greater than an equivalence hazard ratio margin of 1.93.|Hazard Ratio (HR)|0.728|||||TWO_SIDED|95.0|0.41|1.295||There is no hypothesis tested. Since this was a non-inferiority study, the upper bound of the 95% CI for the hazard ratio was compared to the pre-specified margin of 1.93 to demonstrate the non-inferiority of lurasidone compared to Quetiapine XR.|COX Proportional Hazards Model|||Comparison of time to relapse of psychotic symptoms between LUR-LUR and QXR-QXR as analyzed using the Cox proportional-hazards model.||1.295|0.410|
92323400|NCT01921101|184551370|SUPERIORITY_OR_OTHER|||||||0.29|||||||Chi-squared|||||||0.29
92323401|NCT00150488|184551376|OTHER|Compared to baseline|||||<|0.001|||||||Chi-squared|||||||<0.001
92323402|NCT01953874|184551397|OTHER|The primary analysis was based on the Wilcoxon-Mann-Whitney test and therefore the power calculation was approximated using the approach of Tang.||||||0.916|||||||Wilcoxon (Mann-Whitney)|||The primary endpoint was a composite measure of global rank order response based on survival time, freedom from CV hospitalization, and improvement in functional capacity measured by percent change in 6MWD from baseline to 6 months. The plan was to randomize up to 215 subjects. However, due to safety issues observed in SERVE-HF, randomization was stopped at 126 subjects.||||0.916
92323403|NCT00653133|184551452|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Null hypothesis: There is no difference in reported complications associated with the placement of continuous peripheral nerve block catheters between ultrasound imaging guided placement and nerve stimulator guided placement.||||<0.05
92199388|NCT02615938|184296595|SUPERIORITY||Mean Difference (Net)|0.7||||0.17|TWO_SIDED|95.0|-0.3|1.8|||t-test, 2 sided|||||1.8|-0.3|0.170
92199389|NCT02615938|184296595|SUPERIORITY||Mean Difference (Net)|-0.3||||0.724|TWO_SIDED|95.0|-2.1|1.5|||t-test, 2 sided|||||1.5|-2.1|0.724
92199390|NCT02615938|184296595|SUPERIORITY||Mean Difference (Net)|-0.6||||0.487|TWO_SIDED|95.0|-2.2|1.1|||t-test, 2 sided|||||1.1|-2.2|0.487
92323404|NCT01669174|184551534|SUPERIORITY_OR_OTHER||Mean Difference (Net)|106.1|||<|0.001|TWO_SIDED|90.0|104.64|107.58|||ANCOVA|||Week 4||107.58|104.64|<0.001
92323405|NCT01669174|184551534|SUPERIORITY_OR_OTHER||Median Difference (Net)|107.75|||<|0.001|TWO_SIDED|90.0|106.18|109.35|||ANCOVA|||Week 8||109.35|106.18|<0.001
92323406|NCT01669174|184551534|SUPERIORITY_OR_OTHER||Median Difference (Net)|108.63|||<|0.001|TWO_SIDED|90.0|106.31|111.0|||ANCOVA|||Week 16||111.00|106.31|<0.001
92323407|NCT01669174|184551534|SUPERIORITY_OR_OTHER||Median Difference (Net)|106.63|||<|0.001|TWO_SIDED|90.0|104.39|108.93|||ANCOVA|||Week 24||108.93|104.39|<0.001
92323408|NCT01953601|184551549|SUPERIORITY||Difference in Least Squares Mean (LSM)|0.1||||0.6734|TWO_SIDED|97.51|-0.3|0.4|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.4|-0.3|0.6734
92323409|NCT01953601|184551549|SUPERIORITY||Difference in Least Squares Means (LSM)|0.4||||0.0141|TWO_SIDED|97.51|0.0|0.8|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.8|0.0|0.0141
92199391|NCT02615938|184296596|SUPERIORITY||Mean Difference (Net)|0.2||||0.85|TWO_SIDED|95.0|-1.0|1.4|||t-test, 2 sided|||||1.4|-1|0.850
92199392|NCT02615938|184296596|SUPERIORITY||Mean Difference (Net)|0.6||||0.258|TWO_SIDED|95.0|-0.4|1.6|||t-test, 2 sided|||||1.6|-0.4|0.258
92199393|NCT02615938|184296596|SUPERIORITY||Mean Difference (Net)|-0.1||||0.862|TWO_SIDED|95.0|-1.9|1.7|||t-test, 2 sided|||||1.7|-1.9|0.862
92199394|NCT02615938|184296596|SUPERIORITY||Mean Difference (Net)|-0.2||||0.84|TWO_SIDED|95.0|-1.8|1.4|||t-test, 2 sided|||||1.4|-1.8|0.840
92199395|NCT02615938|184296597|SUPERIORITY||Mean Difference (Net)|-1.3||||0.01|TWO_SIDED|95.0|-2.6|0.0|||t-test, 2 sided|||||0|-2.6|0.010
92199396|NCT02615938|184296597|SUPERIORITY||Mean Difference (Net)|-0.5||||0.533|TWO_SIDED|95.0|-1.5|0.5|||t-test, 2 sided|||||0.5|-1.5|0.533
92199397|NCT02615938|184296597|SUPERIORITY||Mean Difference (Net)|0.1||||0.858|TWO_SIDED|95.0|-1.6|1.9|||t-test, 2 sided|||||1.9|-1.6|0.858
92199398|NCT02615938|184296597|SUPERIORITY||Mean Difference (Net)|0.2||||0.661|TWO_SIDED|95.0|-1.4|1.8|||t-test, 2 sided|||||1.8|-1.4|0.661
92199399|NCT02615938|184296598|SUPERIORITY|Due to missing values no statistical test resulting in a P was calculated|Mean Difference (Net)|-8.4|||||TWO_SIDED|95.0|-14.0|-2.7||||||||-2.7|-14|
92199400|NCT02615938|184296598|SUPERIORITY||Mean Difference (Net)|0.5||||0.576|TWO_SIDED|95.0|-0.9|2.0|||t-test, 2 sided|||||2|-0.9|0.576
92199401|NCT02615938|184296598|SUPERIORITY||Mean Difference (Net)|-0.1||||0.884|TWO_SIDED|95.0|-1.9|1.7|||t-test, 2 sided|||||1.7|-1.9|0.884
92323410|NCT01953601|184551551|OTHER||Difference in % vs Placebo|4.32|||||TWO_SIDED|95.0|0.4|8.31|||||Difference in % = Arm A - Arm C|||8.31|0.40|
92323411|NCT01953601|184551551|OTHER||Difference in % vs Placebo|5.17|||||TWO_SIDED|95.0|1.33|9.09|||||Difference in % = Arm B - Arm C|||9.09|1.33|
92323412|NCT01953601|184551552|OTHER||Difference in % vs Placebo|2.08|||||TWO_SIDED|95.0|-0.84|5.1|||||Difference in % = Arm A - Arm C|||5.10|-0.84|
92323413|NCT01953601|184551552|OTHER||Difference in % vs Placebo|5.58|||||TWO_SIDED|95.0|2.35|8.99|||||Difference in % = Arm B - Arm C|||8.99|2.35|
92323414|NCT01953601|184551553|OTHER||Difference in % vs Placebo|-6.79|||||TWO_SIDED|95.0|-16.16|2.68|||||Difference in % = Arm A - Arm C|||2.68|-16.16|
92323415|NCT01953601|184551553|OTHER||Difference in % vs Placebo|-10.68|||||TWO_SIDED|95.0|-20.16|-1.04|||||Difference in % = Arm B - Arm C|||-1.04|-20.16|
92323416|NCT01953601|184551554|OTHER||Difference in % vs Placebo|-2.42|||||TWO_SIDED|95.0|-6.03|0.61|||||Difference in % = Arm A - Arm C|||0.61|-6.03|
92323417|NCT01953601|184551554|OTHER||Difference in % vs Placebo|-2.38|||||TWO_SIDED|95.0|-6.01|0.71|||||Difference in % = Arm B - Arm C|||0.71|-6.01|
92323418|NCT01953601|184551555|SUPERIORITY||Hazard Ratio (HR)|1.301||||0.0222|TWO_SIDED|97.51|1.005|1.684|||Regression, Cox||HR = Arm A / Arm C||Based on Cox regression model with Efron's method of tie handling with treatment, background AD treatment (use, no use), sex, APOE4 status (carrier, non-carrier) and baseline use of Vitamin E as categorical covariates and age and baseline MMSE value as continuous covariates.|1.684|1.005|0.0222
92323419|NCT01953601|184551555|SUPERIORITY||Hazard Ratio (HR)|1.382||||0.005|TWO_SIDED|97.51|1.067|1.79|||Regression, Cox||HR = Arm B / Arm C||Based on Cox regression model with Efron's method of tie handling with treatment, background AD treatment (use, no use), sex, APOE4 status (carrier, non-carrier) and baseline use of Vitamin E as categorical covariates and age and baseline MMSE value as continuous covariates.|1.790|1.067|0.0050
92323420|NCT01953601|184551556|SUPERIORITY||Difference in Least Squares Mean (LSM)|0.0||||0.9109|TWO_SIDED|97.51|-0.3|0.4|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.4|-0.3|0.9109
92323421|NCT01953601|184551556|SUPERIORITY||Difference in Least Squares Mean (LSM)|0.3||||0.0824|TWO_SIDED|97.51|-0.1|0.7|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.7|-0.1|0.0824
92323422|NCT01953601|184551557|SUPERIORITY||Difference in Least Squares Mean (LSM)|0.0||||0.951|TWO_SIDED|97.51|-0.2|0.2|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.2|-0.2|0.9510
92323423|NCT01953601|184551557|SUPERIORITY||Difference in Least Squares Mean (LSM)|0.0||||0.9392|TWO_SIDED|97.51|-0.2|0.2|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.2|-0.2|0.9392
92323424|NCT01953601|184551558|SUPERIORITY||Difference in Least Squares Mean (LSM)|-0.4||||0.1133|TWO_SIDED|97.51|-1.0|0.2|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.2|-1.0|0.1133
92199402|NCT02615938|184296598|SUPERIORITY||Mean Difference (Net)|0.8||||0.563|TWO_SIDED|95.0|-2.4|0.9|||t-test, 2 sided|||||0.9|-2.4|0.563
92199403|NCT04121897|184296614|OTHER|||||||0.024|||||||t-test, 2 sided|||||||0.024
92323425|NCT01953601|184551558|SUPERIORITY||Difference in Least Squares Mean (LSM)|-0.6||||0.031|TWO_SIDED|97.51|-1.2|0.0|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.0|-1.2|0.0310
92323426|NCT01953601|184551559|SUPERIORITY||Difference in Least Squares Mean (LSM)|-0.05|||<|0.0001|TWO_SIDED|97.51|-0.06|-0.04|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|-0.04|-0.06|<0.0001
92323427|NCT01953601|184551559|SUPERIORITY||Difference in Least Squares Mean (LSM)|-0.06|||<|0.0001|TWO_SIDED|97.51|-0.07|-0.05|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|-0.05|-0.07|<0.0001
92199404|NCT04683510|184296627|SUPERIORITY||Odds Ratio (OR)|1.647||||0.2345|TWO_SIDED|95.0|0.724|3.746|||Regression, Logistic|||||3.746|0.724|0.2345
92323428|NCT01953601|184551560|SUPERIORITY||Difference in Least Squares Mean (LSM)|-1.0||||0.096|TWO_SIDED|97.51|-2.4|0.4|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.4|-2.4|0.0960
92199405|NCT04683510|184296627|SUPERIORITY||Odds Ratio (OR)|1.897||||0.124|TWO_SIDED|95.0|0.839|4.291|||Regression, Logistic|||||4.291|0.839|0.124
92199406|NCT04683510|184296628|SUPERIORITY||Odds Ratio (OR)|0.905||||0.2352|TWO_SIDED|95.0|0.768|1.067|||Regression, Logistic|||||1.067|0.768|0.2352
92199407|NCT04683510|184296628|SUPERIORITY||Odds Ratio (OR)|0.924||||0.3418|TWO_SIDED|95.0|0.785|1.088|||Regression, Logistic|||||1.088|0.785|0.3418
92199408|NCT04683510|184296629|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1653|TWO_SIDED|95.0|0.921|1.615|||Regression, Logistic|||||1.615|0.921|0.1653
92199409|NCT04683510|184296629|SUPERIORITY||Odds Ratio (OR)|1.213||||0.181|TWO_SIDED|95.0|0.914|1.609|||Regression, Logistic|||||1.609|0.914|0.181
92323429|NCT01953601|184551560|SUPERIORITY||Difference in Least Squares Mean (LSM)|-1.7||||0.011|TWO_SIDED|97.51|-3.2|-0.2|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|-0.2|-3.2|0.0110
92323430|NCT01246349|184551562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.616|STANDARD_ERROR_OF_MEAN|7.373||0.24|TWO_SIDED|95.0|-5.871|23.103|||Regression, Linear|||Published results comprise baseline and follow-up means and standard deviations for both the MI and control group (reported above), as well as the absolute attributable effect of intervention (i.e., the difference in self-efficacy \[WEL\] change between the treatment and control groups from baseline to a 6 month follow-up).||23.103|-5.871|0.24
92323431|NCT01246349|184551563|SUPERIORITY_OR_OTHER|||||||0.56|||||||Regression, Linear|||Results published comprise baseline and follow-up BMI z-score means and standard deviations for both the MI and control groups (reported above), as well as the attributable effect of intervention (i.e., the difference in BMI change between the treatment and control groups from baseline to a 6-month follow-up)||||0.56
92323432|NCT01246349|184551564|SUPERIORITY_OR_OTHER|||||||0.09|||||||Regression, Linear|||Results published comprise baseline and follow-up means and standard deviations for both the MI and control group (reported above), as well as the attributable effect of intervention (i.e., the difference in waist circumference change between the treatment and control groups from baseline to a 6-month follow-up).||||0.09
92323433|NCT01246349|184551566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|1.265||0.88|TWO_SIDED|95.0|-2.301|2.668|||Regression, Linear|||"Based on previous research , baseline CDSS means were expected between 5 - 6.5 with a SD of 3 - 4. It was hypothesized that an attributable effect of 1.5 would be detected.~Published results comprise baseline and follow-up means and standard deviations for both the MI and control group (reported above), as well as the absolute attributable effect of intervention (i.e., the difference in self-efficacy \[CDSS\] change between the treatment and control groups from baseline to a 6 month follow-up)."||2.668|-2.301|0.88
92323434|NCT02991729|184551567|NON_INFERIORITY|The non-inferiority limit was 1 point on the questionnaire scale.||||||0.929||||||a priori threshold for statistical significance was p\<0.05.|Wilcoxon rank-sum|||||||0.929
92323435|NCT02991729|184551568|SUPERIORITY|||||||0.369|||||||Wilcoxon rank-sum|||Decisional conflict was measured in 2 separate time points in the experimental group - both prior to and following genetic counseling. This analysis compares decisional conflict in the routine care group (after counseling only) to the experimental group following decision aid completion but prior to genetic counseling (first row, second column in above table).||||0.369
92323436|NCT02991729|184551568|SUPERIORITY|||||||0.003|||||||Wilcoxon rank-sum|||Decisional conflict was measured in 2 separate time points in the experimental group - both prior to and following genetic counseling. This analysis compares decisional conflict in the routine care group (after counseling only) to the experimental group following decision aid completion and genetic counseling (second row, second column in above table).||||0.003
92323437|NCT02991729|184551568|SUPERIORITY|||||||0.003|||||||Wilcoxon signed-rank|||Decisional conflict was measured in 2 separate time points in the experimental group - both prior to and following genetic counseling. This analysis compares decisional conflict pre-genetic counseling/post-decision aid to post-genetic counseling.||||0.003
92323438|NCT05537441|184551571|SUPERIORITY||Percent Difference|0.64||||0.216|TWO_SIDED||||||2 proportion Z-test|||||||0.216
92323439|NCT05537441|184551572|SUPERIORITY||Percent Difference|-0.61||||0.34|TWO_SIDED||||||2 proportion Z-test|||Previously vaccinated||||0.34
92323440|NCT05537441|184551572|SUPERIORITY||Percent Difference|-0.45||||0.247|TWO_SIDED||||||2 proportion Z-test|||Previously unvaccinated||||0.247
92323441|NCT01905553|184551573|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The magnitude effect of food on the pharmacokinetic parameters was evaluated by calculating the point estimate and 90% CIs between Treatment A (test treatment, fed) and Treatment B (reference treatment, fasted).|Ratio of Geometric LS Means|0.718|||||TWO_SIDED|90.0|0.67|0.77||||||||0.770|0.670|
92199410|NCT03771638|184296630|SUPERIORITY|Minimum detectable effects: Under assumptions of the adherence of DBS TFV-DP levels \>=700 fmol/punch in the control condition as 60% and intraclass correlation of repeated binary measures of DBS TFV-DP of 0.69, and retention of 80% of participants at 24 weeks, we will have 80% power in 2-sided tests with a type-1 error rate of 5% to detect average between-group differences in adherence of 23 percentage points.|Risk Ratio (RR)|1.01||||0.94|TWO_SIDED|95.0|0.75|1.36||GEE poisson models with robust standard errors were used to assess DBS adherence rates, averaged across visits.|GEE Poisson models|||Null hypothesis: no difference in PrEP adherence levels between DOT Diary Intervention and Control arms||1.36|0.75|0.94
92323442|NCT01905553|184551574|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The magnitude effect of food on the pharmacokinetic parameters was evaluated by calculating the point estimate and 90% CIs between Treatment A (test treatment, fed) and Treatment B (reference treatment, fasted).|Ratio of Geometric LS Means|0.718|||||TWO_SIDED|90.0|0.67|0.769||||||||0.769|0.670|
92323443|NCT01905553|184551575|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The magnitude effect of food on the pharmacokinetic parameters was evaluated by calculating the point estimate and 90% CIs between Treatment A (test treatment, fed) and Treatment B (reference treatment, fasted).|Ratio of Geometric LS Means|0.449|||||TWO_SIDED|90.0|0.38|0.53||||||||0.530|0.380|
92199411|NCT03771638|184296631|OTHER||Kappa statistic|0.49|||||TWO_SIDED|95.0|0.36|0.62|||Kappa|||Kappa statistic to assess concordance between DBS measurement and self-reported PrEP use||0.62|0.36|
92323444|NCT05225298|184551579|OTHER|||||||0.9||||||A p-value of \< 0.05 would be considered statistically significant|log binomial model|||||||0.90
92323445|NCT05225298|184551580|OTHER|||||||0.94||||||A p-value of \< 0.05 would be considered statistically significant|log binomial model|||||||0.94
92323446|NCT05225298|184551581|OTHER|||||||0.053|||||||log binomial model|||||||0.053
92323447|NCT03315286|184551623|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
92323448|NCT03315286|184551624|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92323449|NCT03315286|184551625|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||Baseline results are reported here.||||0.6
92323450|NCT03315286|184551625|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||6 month data is reported here||||0.3
92323451|NCT03315286|184551626|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Baseline data is reported here.||||0.2
92323452|NCT03315286|184551626|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||6 month data is reported here||||0.4
92323453|NCT03315286|184551627|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||baseline data is reported here||||0.07
92323454|NCT03315286|184551627|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||6 month data is reported here||||0.0002
92199412|NCT05101993|184296643|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92199413|NCT02870972|184296665|SUPERIORITY||Difference in Least Square Means|-0.458|||<|0.001|TWO_SIDED|95.0|-0.703|-0.214|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.214|-0.703|<0.001
92199414|NCT02870972|184296665|SUPERIORITY||Difference in Least Square Means|-0.433||||0.006|TWO_SIDED|95.0|-0.74|-0.127|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.127|-0.740|0.006
92199415|NCT02870972|184296665|SUPERIORITY||Difference in Least Square Means|-0.425||||0.012|TWO_SIDED|95.0|-0.755|-0.095|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.095|-0.755|0.012
92199416|NCT02870972|184296665|SUPERIORITY||Difference in Least Square Means|-0.703|||<|0.001|TWO_SIDED|95.0|-1.033|0.373|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.373|-1.033|<0.001
92199417|NCT02870972|184296665|SUPERIORITY||Difference in Least Square Means|-0.1||||0.639|TWO_SIDED|95.0|-0.52|0.32|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.32|-0.52|0.639
92199418|NCT02870972|184296666|SUPERIORITY||Difference vs placebo (%)|17.7||||0.155|TWO_SIDED|95.0|-3.4|38.8|||Fisher Exact|||||38.8|-3.4|0.155
92199419|NCT02870972|184296666|SUPERIORITY||Difference vs placebo (%)|16.9||||0.277|TWO_SIDED|95.0|-6.3|40.1|||Fisher Exact|||||40.1|-6.3|0.277
92199420|NCT02870972|184296666|SUPERIORITY||Difference vs placebo (%)|24.0||||0.064|TWO_SIDED|95.0|-1.2|49.2|||Fisher Exact|||||49.2|-1.2|0.064
92199421|NCT02870972|184296666|SUPERIORITY||Difference vs placebo (%)|-4.5||||1|TWO_SIDED|95.0|-13.2|4.2|||Fisher Exact|||||4.2|-13.2|1.000
92199422|NCT02870972|184296666|SUPERIORITY||Difference vs placebo (%)|-16.2||||0.097|TWO_SIDED|95.0|-30.2|-2.2|||Fisher Exact|||||-2.2|-30.2|0.097
92323455|NCT02989649|184551703|OTHER||Least Square Mean (LSM)|-1.25|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-1.44|-1.05|||Regression, Linear||The LSM and CI are from Mixed effect Model Repeat Measurement (MMRM) model, that used visit as a predictor and baseline value as a covariate. For change from baseline, covariance structure=Unstructured.|Statistical analysis for data at Baseline compared to the data at Month 6||-1.05|-1.44|<0.001
92199423|NCT02870972|184296667|SUPERIORITY||Difference in Least Square Means|-0.061||||0.439|TWO_SIDED|95.0|-0.216|0.094|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.094|-0.216|0.439
92199424|NCT02870972|184296667|SUPERIORITY||Difference in Least Square Means|-0.004||||0.968|TWO_SIDED|95.0|-0.198|0.19|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.190|-0.198|0.968
92199425|NCT02870972|184296667|SUPERIORITY||Difference in Least Square Means|-0.045||||0.667|TWO_SIDED|95.0|-0.254|0.164|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.164|-0.254|0.667
92199426|NCT02870972|184296667|SUPERIORITY||Difference in Least Square Means|-0.197||||0.065|TWO_SIDED|95.0|-0.406|0.012|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.012|-0.406|0.065
92199427|NCT02870972|184296667|SUPERIORITY||Difference in Least Square Means|0.035||||0.797|TWO_SIDED|95.0|-0.232|0.301|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.301|-0.232|0.797
92199428|NCT02870972|184296668|SUPERIORITY||Difference in Least Square Means|-0.364|||<|0.001|TWO_SIDED|95.0|-0.547|-0.181|||ANOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.181|-0.547|<0.001
92199429|NCT02870972|184296668|SUPERIORITY||Difference in Least Square Means|-0.384||||0.001|TWO_SIDED|95.0|-0.613|-0.154|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.154|-0.613|0.001
92199430|NCT02870972|184296668|SUPERIORITY||Difference in Least Square Means|-0.401||||0.002|TWO_SIDED|95.0|-0.647|-0.154|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.154|-0.647|0.002
92199431|NCT02870972|184296668|SUPERIORITY||Difference in Least Square Means|-0.445|||<|0.001|TWO_SIDED|95.0|-0.692|-0.198|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.198|-0.692|<0.001
92199432|NCT02870972|184296668|SUPERIORITY||Difference in Least Square Means|-0.08||||0.614|TWO_SIDED|95.0|-0.394|0.234|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.234|-0.394|0.614
92199433|NCT02870972|184296669|SUPERIORITY||Difference in Least Square Means|-0.326||||0.006|TWO_SIDED|95.0|-0.557|-0.095|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-0.095|-0.557|0.006
92323456|NCT02989649|184551704|OTHER|||||||0.423|||||||Regression, Linear|||Statistical analysis for subgroup: Prior therapy of diabetes mellitus, Ever used or Never used||||0.423
92199434|NCT02870972|184296669|SUPERIORITY||Difference in Least Square Means|-0.293||||0.047|TWO_SIDED|95.0|-0.582|0.004|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||0.004|-0.582|0.047
92199435|NCT02870972|184296669|SUPERIORITY||Difference in Least Square Means|-0.327||||0.04|TWO_SIDED|95.0|-0.638|-0.016|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-0.016|-0.638|0.040
92199436|NCT02870972|184296669|SUPERIORITY||Difference in Least Square Means|-0.558|||<|0.001|TWO_SIDED|95.0|-0.87|-0.247|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-0.247|-0.870|<0.001
92323457|NCT02989649|184551704|OTHER|||||||0.747|||||||Regression, Linear|||Statistical analysis for subgroup: Sex, Male or Female||||0.747
92323458|NCT02989649|184551704|OTHER||||||<|0.001|||||||Regression, Linear|||Statistical analysis for subgroup: Age, \<45 or \>=45 to \<65 years or \>=65 years||||<0.001
92323459|NCT02989649|184551704|OTHER|||||||0.99|||||||Regression, Linear|||Statistical analysis for subgroup: Cardiovascular risk group, Yes or No||||0.990
92199437|NCT02870972|184296669|SUPERIORITY||Difference in Least Square Means|0.057||||0.775|TWO_SIDED|95.0|-0.339|0.454|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||0.454|-0.339|0.775
92199438|NCT02870972|184296670|SUPERIORITY||Difference in Least Square Means|-4.449||||0.209|TWO_SIDED|95.0|-11.453|2.555|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||2.555|-11.453|0.209
92199439|NCT02870972|184296670|SUPERIORITY||Difference in Least Square Means|-9.103||||0.019|TWO_SIDED|95.0|-16.639|-1.567|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-1.567|-16.639|0.019
92199440|NCT02870972|184296670|SUPERIORITY||Difference in Least Square Means|-11.263||||0.004|TWO_SIDED|95.0|-18.808|-3.718|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-3.718|-18.808|0.004
92199441|NCT02870972|184296670|SUPERIORITY||Difference in Least Square Means|4.04||||0.405|TWO_SIDED|95.0|-5.586|13.665|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||13.665|-5.586|0.405
92199442|NCT02870972|184296671|SUPERIORITY||Difference in Least Square Means|-8.12||||0.135|TWO_SIDED|95.0|-18.826|2.584|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||2.584|-18.826|0.135
92199443|NCT02870972|184296671|SUPERIORITY||Difference in Least Square Means|-8.92||||0.121|TWO_SIDED|95.0|-20.26|2.41|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||2.410|-20.260|0.121
92199444|NCT02870972|184296671|SUPERIORITY||Difference in Least Square Means|-24.49|||<|0.001|TWO_SIDED|95.0|-35.834|-13.137|||ANOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-13.137|-35.834|<0.001
92199445|NCT02870972|184296671|SUPERIORITY||Difference in Least Square Means|-7.84||||0.284|TWO_SIDED|95.0|-22.316|6.64|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||6.640|-22.316|0.284
92199446|NCT02870972|184296672|SUPERIORITY||Difference in Least Square Means|-8.27||||0.067|TWO_SIDED|95.0|-17.132|0.592|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||0.592|-17.132|0.067
92199447|NCT02870972|184296672|SUPERIORITY||Difference in Least Square Means|-7.073||||0.136|TWO_SIDED|95.0|-16.432|2.287|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||2.287|-16.432|0.136
92199448|NCT02870972|184296672|SUPERIORITY||Difference in Least Square Means|-11.484||||0.015|TWO_SIDED|95.0|-20.642|-2.325|||ANOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-2.325|-20.642|0.015
92199449|NCT02870972|184296672|SUPERIORITY||Difference in Least Square Means|-9.785||||0.114|TWO_SIDED|95.0|-22.001|2.431|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||2.431|-22.001|0.114
92199450|NCT03274895|184296708|NON_INFERIORITY|Non-inferiority margin= 0.20|difference in proportion of resolution r|-0.036|||||TWO_SIDED|95.0|-0.154|0.081||||||||0.081|-0.154|
92199451|NCT03274895|184296709|OTHER|||||||0.042|||||||Log Rank|||||||0.042
92199452|NCT03274895|184296710|OTHER|||||||0.577|||||||ANCOVA|||||||0.577
92199453|NCT01782690|184296740|SUPERIORITY_OR_OTHER|||||||0.2361|||||||Log Rank|||Comparison of Rash=Yes versus Rash=No within Erlotinib plus Gemcitabine arm||||0.2361
92199454|NCT01637077|184296762|SUPERIORITY|||||||0.56|||||||Kruskal-Wallis|||||||0.56
92199455|NCT01637077|184296763|SUPERIORITY|||||||0.48|||||||Kruskal-Wallis|||||||0.48
92199456|NCT01637077|184296764|SUPERIORITY|||||||0.62|||||||Kruskal-Wallis|||Worst pain over the past 24 hours||||0.62
92199457|NCT01637077|184296764|SUPERIORITY|||||||0.22|||||||Kruskal-Wallis|||Average pain over the past 24 hours||||0.22
92199458|NCT01637077|184296764|SUPERIORITY|||||||0.07|||||||Kruskal-Wallis|||Least pain over the past 24 hours||||0.07
92199459|NCT01637077|184296766|SUPERIORITY|||||||0.87|||||||Chi-squared|||||||0.87
92199460|NCT01637077|184296767|SUPERIORITY|||||||0.84|||||||Chi-squared|||||||0.84
92199461|NCT01637077|184296768|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.03
92199462|NCT01637077|184296769|SUPERIORITY|||||||0.12|||||||Kruskal-Wallis|||||||0.12
92199463|NCT01637077|184296770|SUPERIORITY|||||||0.78|||||||Chi-squared|||||||0.78
92199464|NCT01637077|184296771|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
92199465|NCT01637077|184296772|SUPERIORITY|||||||0.46|||||||Kruskal-Wallis|||Sensory neuropathy||||0.46
92199466|NCT01637077|184296772|SUPERIORITY|||||||0.86|||||||Kruskal-Wallis|||Autonomic neuropathy||||0.86
92199467|NCT01637077|184296772|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Motor neuropathy||||0.40
92199468|NCT02353312|184296786|EQUIVALENCE|Pairwise comparisons of VO2 max means with equal variances between participant on and off treatment.||||||0.823|||||||t-test, 2 sided|||||||0.823
92199469|NCT03023423|184296839|SUPERIORITY||Odds Ratio (OR)|0.3|||||TWO_SIDED|95.0|0.03|1.92||||||||1.92|0.03|
92199470|NCT01151423|184296849|SUPERIORITY||Hazard Ratio (HR)|2.2|||=|0.005|TWO_SIDED|95.0|1.28|3.78||Caplacizumab was compared to placebo using a one-sided log-rank test in order to assess superiority at 2.5% significance level.|Stratified log-rank test||The HR was estimated from a Cox proportional Hazards regression model with presence (yes) / absence (no) of 1 PE session prior to randomization as covariate.|The primary analysis consisted of a Kaplan-Meier analysis with time-to-response as endpoint and treatment group as the independent variable and stratified for absence/presence of one PE session prior to randomization.||3.78|1.28|= 0.005
92323460|NCT02989649|184551704|OTHER|||||||0.841|||||||Regression, Linear|||Statistical analysis for subgroup: Therapy type, Monotherapy or Combined therapy||||0.841
92323461|NCT02989649|184551704|OTHER|||||||0.847|||||||Regression, Linear|||Statistical analysis for subgroup: Baseline BMI, \<25 or 25 to \<30 or \>=30 kg/m\^2||||0.847
92199471|NCT01227616|184296884|NON_INFERIORITY|The study protocol defined the margin for non-inferiority as 0.5 g/dL meaning non-inferiority would be established in a TP if the lower limit of the 95% confidence limit for the difference between ferumoxytol and iron sucrose mean change was ≥0.5 g/dL.|Mean Difference (Final Values)|0.5|||<|0.05|TWO_SIDED||||||ANCOVA|Stats. of primary endpoint performed only for TP1 and TP2. 240 subjects retreated should yield 90% power to detect non-inferiority during TP2.||||||<0.05
92199472|NCT05723263|184296930|OTHER||Proportional difference|94.5|||<|0.001|TWO_SIDED|95.0|94.2|94.8||The threshold for statistical significance was p\<0.05.|Generalized Estimating Equations|||It was calculated that 12 clinic sites with 1200 participants randomized in a 1:1:1 ratio between the three arms would have at least 90% power to detect a 10% difference in the proportion of test uptake between the pay-it-forward and control group participants, using a two-sided, two-sample t-test (α=0.05), assuming a 0.25\~0.31 cluster coefficient of variation, a \<5% lost-to-follow-up rate, and an intra-class correlation of 0.016.||94.8|94.2|<0.001
92323462|NCT02989649|184551704|OTHER||||||<|0.001|||||||Regression, Linear|||Statistical analysis for subgroup: Initial glycemic control, \<7% or \>=7%||||<0.001
92199473|NCT05723263|184296930|OTHER||Proportional difference|87.2|||<|0.001|TWO_SIDED|95.0|86.5|88.0||The threshold for statistical significance was p\<0.05.|Generalized Estimating Equations|||It was estimated that 12 clinic sites with 1200 participants randomized in a 1:1:1 ratio between the three arms would have at least 90% power to detect a 10% difference in the proportion of test uptake between the pay-it-forward and control group participants, using a two-sided, two-sample t-test (α=0.05), assuming a 0.25\~0.31 cluster coefficient of variation, a \<5% lost-to-follow-up rate, and an intra-class correlation of 0.016.||88.0|86.5|<0.001
92199474|NCT05723263|184296930|OTHER||Proportional difference|7.3|||>|0.05|TWO_SIDED|95.0|6.6|7.9|||Generalized Estimating Equations|||Using a binary outcome and cluster RCT design, we estimated that 12 clinic clusters (two per city) and 1200 participants (100 per cluster) were needed to achieve a 90% power and allow for a 0.05 type-I error to detect a 10% difference in the proportion of test uptake between the pay-it-forward and control arm participants and a \<5% lost-to-follow-up rate. We anticipated a test uptake of 65% in the community-engaged pay-it-forward arm, 45% in the standard pay-it-forward arm, and 20% in control.||7.9|6.6|>0.05
92199475|NCT05723263|184296931|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92199476|NCT05723263|184296932|OTHER|||||||0.0059|||||||Chi-squared|||||||0.0059
92199477|NCT05723263|184296933|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92199478|NCT05723263|184296935|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92199479|NCT05723263|184296936|OTHER|||||||0.007|||||||t-test, 2 sided|||||||0.007
92199480|NCT05723263|184296937|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92199481|NCT05723263|184296938|OTHER|||||||0.727|||||||t-test, 2 sided|||||||0.727
92323463|NCT02989649|184551707|OTHER||Least Square Mean (LSM)|-0.95|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-1.29|-0.62|||||The LSM and CI are from Mixed effect Model Repeat Measurement (MMRM) model, that used visit as a predictor and baseline value as a covariate. For change from baseline, covariance structure=Unstructured.|Statistical analysis for data at Baseline compared to the data at Month 3||-0.62|-1.29|
92199482|NCT05723263|184296939|OTHER||Difference in Probability Difference|-0.047||||0.005|TWO_SIDED|95.0|-0.08|-0.014|||Generalized Estimating Equations||Absolute proportional difference in gonorrhea and chlamydia test uptake rate among community-led clinic participants across the three intervention arms|We anticipated a test uptake of 65% in the community-engaged pay-it-forward arm, 45% in the standard pay-it-forward arm, and 20% in the control between community-led and public STI clinic participants.||-0.014|-0.080|0.005
92199483|NCT05723263|184296940|OTHER||Difference in Probability Difference|-0.04||||0.015||95.0|-0.073|-0.008|||Generalized Estimating Equations|||We anticipated a test uptake of 65% in the community-engaged pay-it-forward arm, 45% in the standard pay-it-forward arm, and 20% in the control among MSM and non-MSM participants.||-0.008|-0.073|0.015
92199484|NCT05723263|184296941|OTHER||Difference in Probability Difference|0.015||||0.384||95.0|-0.019|0.049|||Generalized Estimating Equations|||We anticipated a test uptake of 65% in the community-engaged pay-it-forward arm, 45% in the standard pay-it-forward arm, and 20% in the control among participants 30 years and below and those above 30 years.||0.049|-0.019|0.384
92199485|NCT03811002|184296945|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.5819|TWO_SIDED|95.0|0.82|1.34|||Log Rank|Stratified by radiation schedule (BID vs daily), chemotherapy (cisplatin vs carboplatin), and sex (male vs female). 1-sided significance level 0.025.|Stratified by radiation schedule (BID vs daily), chemotherapy (cisplatin vs carboplatin), and sex (male vs female). Reference level = Arm 1.|Assuming exponentially distributed survival times, 480 eligible patients accrued uniformly over 48 months months) with 26 months additional follow-up after the last accrued patient would provide at least 85% power to detect a hazard ratio of 0.71 (median survival times of 38 months \[Arm I\] vs. 27 months \[Arm II\]) at a one-sided significance level of 0.025, after adjusting for type 1 error using group sequential methods for two interim analyses.||1.34|0.82|0.5819
92199486|NCT03811002|184296946|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.8|1.21|||Log Rank||Stratified by radiation schedule (BID vs daily), chemotherapy (cisplatin vs carboplatin), and sex (male vs female). Reference level = Arm 1.|||1.21|0.80|
92199487|NCT03811002|184296949|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.52|1.41|||||Cause-specific hazard ratio stratified by radiation schedule (BID vs daily), chemotherapy (cisplatin vs carboplatin), and sex (male vs female). Reference level = Arm 1.|||1.41|0.52|
92199488|NCT03811002|184296950|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.76|1.2|||||Stratified by radiation schedule (BID vs daily), chemotherapy (cisplatin vs carboplatin), and sex (male vs female). Reference level = Arm I.|||1.20|0.76|
92323464|NCT02989649|184551707|OTHER||Least Square Mean (LSM)|-0.87|STANDARD_ERROR_OF_MEAN|0.245|||TWO_SIDED|95.0|-1.36|-0.39|||||The LSM and CI are from Mixed effect Model Repeat Measurement (MMRM) model, that used visit as a predictor and baseline value as a covariate. For change from baseline, covariance structure=Unstructured.|Statistical analysis for data at Baseline compared to the data at Month 6||-0.39|-1.36|
92323465|NCT02989649|184551708|OTHER||Least Square Mean (LSM)|-0.95|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|95.0|-1.18|-0.72|||||The LSM and CI are from Mixed effect Model Repeat Measurement (MMRM) model, that used visit as a predictor and baseline value as a covariate. For change from baseline, covariance structure=Unstructured.|Statistical analysis for data at Baseline compared to the data at Month 3||-0.72|-1.18|
92323466|NCT02989649|184551708|OTHER||Least Square Mean|-1.25|STANDARD_ERROR_OF_MEAN|0.098|||TWO_SIDED|95.0|-1.44|-1.05|||||The LSM and CI are from Mixed effect Model Repeat Measurement (MMRM) model, that used visit as a predictor and baseline value as a covariate. For change from baseline, covariance structure=Unstructured.|Statistical analysis for data at Baseline compared to the data at Month 6||-1.05|-1.44|
92323467|NCT00281632|184551722|SUPERIORITY_OR_OTHER||Reponse rate|31.0||||||95.0|16.3|48.1|||||50% Response Rate (Normalized and Non-Normalized)|||48.1|16.3|
92323468|NCT00281632|184551726|SUPERIORITY_OR_OTHER||Response rate|17.6||||||95.0|3.8|43.4|||||Response rate (CR+PR)|||43.4|3.8|
92323469|NCT00281632|184551726|SUPERIORITY_OR_OTHER||Response rate|21.1||||||95.0|6.1|45.6|||||Response rate (CR+PR)|||45.6|6.1|
92323470|NCT00281632|184551726|SUPERIORITY_OR_OTHER||Response rate|19.4||||||95.0|8.2|36.0|||||Response rate (CR+PR)|||36.0|8.2|
92323471|NCT03514485|184551746|SUPERIORITY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.34|0.25||||||Linear mixed effects models were then used to make the comparisons of all combinations of primary care and school-based interventions with respect to Asthma Control. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.25|-0.34|
92323472|NCT03514485|184551746|SUPERIORITY||Mean Difference (Final Values)|-0.08|||||TWO_SIDED|95.0|-0.34|0.18||||||Linear mixed effects models were then used to make the comparisons of all combinations of primary care and school-based interventions with respect to Asthma Control. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the COVID-19 pandemic.||0.18|-0.34|
92323473|NCT03514485|184551746|SUPERIORITY||Mean Difference (Final Values)|-0.22|||||TWO_SIDED|95.0|-0.48|0.04||||||Linear mixed effects models were then used to make the comparisons of all combinations of primary care and school-based interventions with respect to Asthma Control. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the COVID-19 pandemic.||0.04|-0.48|
92323474|NCT03514485|184551746|SUPERIORITY||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-0.44|0.9||||||Linear mixed effects models were then used to make the comparisons of all combinations of primary care and school-based interventions with respect to Asthma Control. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the COVID-19 pandemic.||0.9|-0.44|
92323475|NCT03514485|184551746|SUPERIORITY||Mean Difference (Final Values)|-0.14|||||TWO_SIDED|95.0|-0.36|0.09||||||Linear mixed effects models were then used to make the comparisons of all combinations of primary care and school-based interventions with respect to Asthma Control. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the COVID-19 pandemic.||0.09|-0.36|
92323476|NCT03514485|184551747|SUPERIORITY||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.39|0.55||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Daytime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.55|-0.39|
92323477|NCT03514485|184551747|SUPERIORITY||Mean Difference (Net)|0.46|||||TWO_SIDED|95.0|0.04|0.88||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Daytime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.88|0.04|
92323478|NCT03514485|184551747|SUPERIORITY||Mean Difference (Net)|-0.65|||||TWO_SIDED|95.0|-1.06|-0.23||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Daytime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-0.23|-1.06|
92323479|NCT03514485|184551747|SUPERIORITY||Mean Difference (Net)|-1.03|||||TWO_SIDED|95.0|-1.39|-0.67||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Daytime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-0.67|-1.39|
92323480|NCT03514485|184551747|SUPERIORITY||Mean Difference (Net)|-0.57|||||TWO_SIDED|95.0|-0.95|-0.18||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Daytime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-0.18|-0.95|
92323481|NCT03514485|184551748|SUPERIORITY||Mean Difference (Net)|-0.13|||||TWO_SIDED|95.0|-0.53|0.28||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Nighttime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.28|-0.53|
92323482|NCT03514485|184551748|SUPERIORITY||Median Difference (Net)|-0.09|||||TWO_SIDED|95.0|-0.45|0.26||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Nighttime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.26|-0.45|
92323483|NCT03514485|184551748|SUPERIORITY||Mean Difference (Net)|-0.25|||||TWO_SIDED|95.0|-0.6|0.1||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Nighttime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.10|-0.60|
92323484|NCT03514485|184551748|SUPERIORITY||Median Difference (Net)|-0.28|||||TWO_SIDED|95.0|-0.57|0.01||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Nighttime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.01|-0.57|
92323485|NCT03514485|184551748|SUPERIORITY||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-0.72|-0.04||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Nighttime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-0.04|-0.72|
92323486|NCT03514485|184551749|SUPERIORITY||Mean Difference (Net)|2.38|||||TWO_SIDED|95.0|0.58|4.19||||||Mixed-effects generalized linear model with binomial family (n=number of school-days \[varies per child\]) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to school absences. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||4.19|0.58|
92323487|NCT03514485|184551749|SUPERIORITY||Mean Difference (Net)|4.49|||||TWO_SIDED|95.0|2.54|6.43||||||Mixed-effects generalized linear model with binomial family (n=number of school-days \[varies per child\]) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to school absences. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||6.43|2.54|
92323488|NCT03514485|184551749|SUPERIORITY||Mean Difference (Net)|-0.97|||||TWO_SIDED|95.0|-2.78|0.84||||||Mixed-effects generalized linear model with binomial family (n=number of school-days \[varies per child\]) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to school absences. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.84|-2.78|
92323489|NCT03514485|184551749|SUPERIORITY||Mean Difference (Net)|-3.07|||||TWO_SIDED|95.0|-5.03|-1.12||||||Mixed-effects generalized linear model with binomial family (n=number of school-days \[varies per child\]) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to school absences. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-1.12|-5.03|
92323490|NCT03514485|184551749|SUPERIORITY||Mean Difference (Net)|1.41|||||TWO_SIDED|95.0|-0.48|3.31||||||Mixed-effects generalized linear model with binomial family (n=number of school-days \[varies per child\]) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to school absences. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||3.31|-0.48|
92323491|NCT03514485|184551750|SUPERIORITY||Mean Difference (Net)|0.17|||||TWO_SIDED|95.0|-0.19|0.54||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of ED visits. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.54|-0.19|
92323492|NCT03514485|184551750|SUPERIORITY||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.28|0.35||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of ED visits. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.35|-0.28|
92323493|NCT03514485|184551750|SUPERIORITY||Mean Difference (Net)|-0.34|||||TWO_SIDED|95.0|-0.68|-0.01||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of ED visits. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-0.01|-0.68|
92323494|NCT03514485|184551750|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.48|0.08||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of ED visits. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.08|-0.48|
92323495|NCT03514485|184551750|SUPERIORITY||Mean Difference (Net)|-0.17|||||TWO_SIDED|95.0|-0.48|0.14||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of ED visits. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.14|-0.48|
92323496|NCT03514485|184551751|SUPERIORITY||Mean Difference (Net)|0.09|||||TWO_SIDED|95.0|-0.11|0.29||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of hospitalizations. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.29|-0.11|
92323497|NCT03514485|184551751|SUPERIORITY||Mean Difference (Net)|0.16|||||TWO_SIDED|95.0|-0.03|0.34||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of hospitalizations. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.34|-0.03|
92323498|NCT03514485|184551751|SUPERIORITY||Mean Difference (Net)|-0.001|||||TWO_SIDED|95.0|-0.19|0.18||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of hospitalizations. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.18|-0.19|
92199489|NCT05032066|184297195|SUPERIORITY||Least Squares (LS) Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|1.46||0.4388|TWO_SIDED|90.0|-3.56|1.29|||Mixed Model for Repeated Measures (MMRM)|||The primary analysis was based on a mixed model for repeated measures (MMRM) analysis of covariance (ANCOVA) model using observed change in FVC % predicted values from all planned post-baseline assessments (Weeks 4, 16, 28, 40 and 52) with covariates of treatment group (300 mg HZN-825 QD, 300 mg HZN-825 BID, placebo), prior use of IPF therapy \[yes or no\], FVC% predicted at baseline \[≥ 70, \<70\], visit week, and treatment by visit week interaction.||1.29|-3.56|0.4388
92199490|NCT05032066|184297195|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|1.493||0.7959|TWO_SIDED|90.0|-2.86|2.09|||MMRM|||The primary analysis was based on a mixed model for repeated measures (MMRM) analysis of covariance (ANCOVA) model using observed change in FVC % predicted values from all planned post-baseline assessments (Weeks 4, 16, 28, 40 and 52) with covariates of treatment group (300 mg HZN-825 QD, 300 mg HZN-825 BID, placebo), prior use of IPF therapy \[yes or no\], FVC% predicted at baseline \[≥ 70, \<70\], visit week, and treatment by visit week interaction.||2.09|-2.86|0.7959
92199491|NCT05032066|184297197|SUPERIORITY||Odds Ratio (OR)|0.854||||0.7179|TWO_SIDED|90.0|0.417|1.75|||Stratified logistic regression|||The percentage of participants with a decrease in FVC% predicted ≥10% from baseline at Week 52 were analyzed with observed data using a stratified logistic regression model. Baseline value and treatment were considered as factors in the model and prior use of approved IPF therapy \[yes or no\], FVC% predicted at baseline \[≥ 70, \<70\] were considered as stratification factors.||1.750|0.417|0.7179
92199492|NCT05032066|184297197|SUPERIORITY||Odds Ratio (OR)|0.469||||0.0706|TWO_SIDED|90.0|0.236|0.934|||Stratified logistic regression|||The percentage of participants with a decrease in FVC% predicted ≥10% from baseline at Week 52 were analyzed with observed data using a stratified logistic regression model. Baseline value and treatment were considered as factors in the model and prior use of approved IPF therapy \[yes or no\], FVC% predicted at baseline \[≥ 70, \<70\] were considered as stratification factors.||0.934|0.236|0.0706
92199493|NCT05032066|184297198|SUPERIORITY||LS Mean Difference|16.71|STANDARD_ERROR_OF_MEAN|18.109||0.3579|TWO_SIDED|90.0|-13.3|46.73|||MMRM|||Estimated from a mixed effect repeated measurement analysis with unstructured variance-covariance matrix, that included factors treatment (300 mg HZN-825 QD, 300 mg HZN-825 BID, placebo), the Baseline factors used for stratifying randomization as covariates (prior use of approved IPF therapy \[yes/no\] and Baseline FVC% Predicted \[\>=70, \<70\], as used in IRT randomization), visit week, and treatment by visit week interaction.||46.73|-13.30|0.3579
92199494|NCT05032066|184297198|SUPERIORITY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|18.173||0.946|TWO_SIDED|90.0|-31.35|28.88|||MMRM|||Estimated from a mixed effect repeated measurement analysis with unstructured variance-covariance matrix, that included factors treatment (300 mg HZN-825 QD, 300 mg HZN-825 BID, placebo), the Baseline factors used for stratifying randomization as covariates (prior use of approved IPF therapy \[yes/no\] and Baseline FVC% Predicted \[\>=70, \<70\], as used in IRT randomization), visit week, and treatment by visit week interaction.||28.88|-31.35|0.9460
92323499|NCT03514485|184551751|SUPERIORITY||Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.23|0.09||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of hospitalizations. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.09|-0.23|
92323500|NCT03514485|184551751|SUPERIORITY||Mean Difference (Net)|0.09|||||TWO_SIDED|95.0|-0.09|0.26||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of hospitalizations. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.26|-0.09|
92199495|NCT05032066|184297199|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.3||0.6091|TWO_SIDED|90.0|-5.0|2.6|||MMRM|||Estimated from a MMRM with unstructured variance-covariance matrix, that included treatment group, time point, treatment by timepoint interaction, and stratification factors as covariates.||2.6|-5.0|0.6091
92323501|NCT03514485|184551752|SUPERIORITY||Mean Difference (Net)|0.32|||||TWO_SIDED|95.0|0.0|0.65||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL emotional functioning domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.65|0.00|
92323502|NCT03514485|184551752|SUPERIORITY||Mean Difference (Net)|0.16|||||TWO_SIDED|95.0|-0.12|0.45||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL emotional functioning domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.45|-0.12|
92323503|NCT03514485|184551752|SUPERIORITY||Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.4|0.18||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL emotional functioning domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.18|-0.40|
92323504|NCT03514485|184551752|SUPERIORITY||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.2|0.29||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL emotional functioning domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.29|-0.20|
92199496|NCT05032066|184297199|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.31||0.6374|TWO_SIDED|90.0|-4.9|2.7|||MMRM|||Estimated from a MMRM with unstructured variance-covariance matrix, that included treatment group, time point, treatment by timepoint interaction, and stratification factors as covariates.||2.7|-4.9|0.6374
92323505|NCT03514485|184551752|SUPERIORITY||Mean Difference (Net)|0.21|||||TWO_SIDED|95.0|-0.08|0.5||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL emotional functioning domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.50|-0.08|
92323506|NCT03514485|184551753|SUPERIORITY||Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-0.19|0.69||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL activity limitations domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.69|-0.19|
92323507|NCT03514485|184551753|SUPERIORITY||Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-0.14|0.63||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL activity limitations domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.63|-0.14|
92323508|NCT03514485|184551753|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.49|0.3||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL activity limitations domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.30|-0.49|
92323509|NCT03514485|184551753|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.43|0.24||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL activity limitations domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.24|-0.43|
92323510|NCT03514485|184551753|SUPERIORITY||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-0.24|0.54||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL activity limitations domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.54|-0.24|
92323511|NCT03075891|184551757|SUPERIORITY|||||||0.032|||||||Cochran-Mantel-Haenszel|||||||0.032
92323512|NCT00926848|184551845|SUPERIORITY||Mean Difference (Final Values)|4.0|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
92323513|NCT00926848|184551846|SUPERIORITY||Mean Difference (Final Values)|6.6|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
92323514|NCT00926848|184551847|SUPERIORITY||Mean Difference (Final Values)|0.3|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
92323515|NCT00926848|184551848|SUPERIORITY||Mean Difference (Final Values)|0.6|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
92199497|NCT05032066|184297200|SUPERIORITY||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|2.69||0.1526|TWO_SIDED|90.0|-0.6|8.3|||MMRM|||Impact Total Score Estimated from a mixed effect repeated measurement analysis with unstructured variance-covariance matrix, that included factors baseline FVC% predicted, treatment (300 mg HZN-825 QD, 300 mg HZN-825 BID, placebo), the Baseline factors used for stratifying randomization as covariates (prior use of approved IPF therapy \[yes/no\] and Baseline FVC% Predicted \[\>=70, \<70\]), visit week, and treatment by visit week interaction.||8.3|-0.6|0.1526
92323516|NCT00926848|184551849|SUPERIORITY||Mean Difference (Final Values)|0.3|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
92323517|NCT00926848|184551850|SUPERIORITY||Mean Difference (Final Values)|0.8|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
92323518|NCT01551264|184551851|OTHER|P-value by chi-square comparing the Kaplan-Meier recurrence-free survival probability at 1.2 years post treatment with robust estimate of standard error due to the a priori assumption that data from bilateral limbs are correlated.||||||0.03|||||||Chi-squared|||||||0.03
92323519|NCT03482453|184551866|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least square means (LS means) for the log-transformed parameters were exponentiated to obtain the point estimates and 90 percent (%) Confidence Intervals (CIs) of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|0.881|||||TWO_SIDED|90.0|0.7108|1.0921||||||||1.0921|0.7108|
92323520|NCT03482453|184551866|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The LS means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|0.9637|||||TWO_SIDED|90.0|0.8361|1.1107||||||||1.1107|0.8361|
92323521|NCT03482453|184551867|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The LS means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|0.9317|||||TWO_SIDED|90.0|0.8458|1.0263||||||||1.0263|0.8458|
92323522|NCT03482453|184551872|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The LS means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|1.0153|||||TWO_SIDED|90.0|0.8977|1.1483||||||||1.1483|0.8977|
92323523|NCT03482453|184551872|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The LS means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|0.9506|||||TWO_SIDED|90.0|0.874|1.0339||||||||1.0339|0.8740|
92199498|NCT05032066|184297200|SUPERIORITY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|2.72||0.4421|TWO_SIDED|90.0|-2.4|6.6|||MMRM|||Impact Total Score Estimated from a mixed effect repeated measurement analysis with unstructured variance-covariance matrix, that included factors baseline FVC% predicted, treatment (300 mg HZN-825 QD, 300 mg HZN-825 BID, placebo), the Baseline factors used for stratifying randomization as covariates (prior use of approved IPF therapy \[yes/no\] and Baseline FVC% Predicted \[\>=70, \<70\]), visit week, and treatment by visit week interaction.||6.6|-2.4|0.4421
92323524|NCT03482453|184551873|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The LS means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|0.9603|||||TWO_SIDED|90.0|0.8861|1.0408||||||||1.0408|0.8861|
92323525|NCT04740827|184551905|SUPERIORITY||Least Squares Mean Difference|-2.43|STANDARD_ERROR_OF_MEAN|0.426|<|0.0001|TWO_SIDED|95.0|-3.27|-1.59|||MMRM||MMRM=baseline monthly migraine days as covariate, treatment group, visit, region and number of classes of failed prior treatments as fixed factors; treatment group and baseline-by-visit as interaction terms, with an unstructured covariance matrix.|||-1.59|-3.27|<0.0001
92323526|NCT04740827|184551906|SUPERIORITY||Least Squares Mean Difference|-2.35|STANDARD_ERROR_OF_MEAN|0.425|<|0.0001|TWO_SIDED|95.0|-3.19|-1.52|||MMRM||MMRM=baseline monthly migraine days as covariate, treatment group, visit, region and number of classes of failed prior treatments as fixed factors; treatment group and baseline-by-visit as interaction terms, with an unstructured covariance matrix.|||-1.52|-3.19|<0.0001
92323527|NCT04740827|184551907|SUPERIORITY||Odds Ratio (OR)|5.15|||<|0.0001|TWO_SIDED|95.0|3.02|8.79|||Regression, Logistic||Odds ratio and p-value are based on logistic regression with treatment group, region, baseline monthly migraine days, and number of classes of failed prior prophylactic treatments (2 and \>2) as explanatory variables.|||8.79|3.02|<0.0001
92323528|NCT04740827|184551908|SUPERIORITY||Odds Ratio (OR)|4.82|||<|0.0001|TWO_SIDED|95.0|2.85|8.14|||Regression, Logistic||Odds ratio and p-value are based on logistic regression with treatment group, region, baseline monthly migraine days, and number of classes of failed prior prophylactic treatments (2 and \>2) as explanatory variables.|||8.14|2.85|<0.0001
92323529|NCT04740827|184551909|SUPERIORITY||Least Squares Mean Difference|-2.28|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-3.15|-1.42|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-1.42|-3.15|<0.0001
92323530|NCT04740827|184551910|SUPERIORITY||Least Squares Mean Difference|-2.19|STANDARD_ERROR_OF_MEAN|0.439|<|0.0001|TWO_SIDED|95.0|-3.05|-1.32|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-1.32|-3.05|<0.0001
92323531|NCT04740827|184551911|SUPERIORITY||Least Squares Mean Difference|-2.68|STANDARD_ERROR_OF_MEAN|0.381|<|0.0001|TWO_SIDED|95.0|-3.43|-1.93|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-1.93|-3.43|<0.0001
92323532|NCT04740827|184551912|SUPERIORITY||Least Squares Mean Difference|-2.61|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|95.0|-3.36|-1.86|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-1.86|-3.36|<0.0001
92323533|NCT04740827|184551913|SUPERIORITY||Least Squares Mean Difference|17.67|STANDARD_ERROR_OF_MEAN|2.348|<|0.0001|TWO_SIDED|95.0|13.05|22.3|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||22.30|13.05|<0.0001
92323534|NCT04740827|184551914|SUPERIORITY||Least Squares Mean Difference|17.88|STANDARD_ERROR_OF_MEAN|2.308|<|0.0001|TWO_SIDED|95.0|13.34|22.42|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||22.42|13.34|<0.0001
92323535|NCT04740827|184551915|SUPERIORITY||Least Squares Mean Difference|-4.71|STANDARD_ERROR_OF_MEAN|0.844|<|0.0001|TWO_SIDED|95.0|-6.37|-3.05|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-3.05|-6.37|<0.0001
92323536|NCT04740827|184551916|SUPERIORITY||Least Squares Mean Difference|-4.39|STANDARD_ERROR_OF_MEAN|0.786|<|0.0001|TWO_SIDED|95.0|-5.94|-2.85|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-2.85|-5.94|<0.0001
92323537|NCT04740827|184551917|SUPERIORITY||Least Squares Mean Difference|-6.42|STANDARD_ERROR_OF_MEAN|0.912|<|0.0001|TWO_SIDED|95.0|-8.22|-4.63|||MMRM||MMRM=baseline monthly migraine days as covariate, treatment group, visit, region and number of classes of failed prior treatments as fixed factors; treatment group and baseline-by-visit as interaction terms, with an unstructured covariance matrix.|||-4.63|-8.22|<0.0001
92323538|NCT00784550|184551925|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92323539|NCT00784550|184551926|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92323540|NCT00784550|184551927|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANCOVA|||||||0.006
92323541|NCT00784550|184551928|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92323542|NCT00784550|184551929|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
92323543|NCT00784550|184551930|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||Mastery domain|ANCOVA|||||||0.069
92323544|NCT00784550|184551930|SUPERIORITY_OR_OTHER|||||||0.47||95.0||||Fatigue domain|ANCOVA|||||||0.470
92323545|NCT00784550|184551930|SUPERIORITY_OR_OTHER|||||||0.394||95.0||||Emotional function domain|ANCOVA|||||||0.394
92323546|NCT00784550|184551930|SUPERIORITY_OR_OTHER|||||||0.879||95.0|||||ANCOVA|Dyspnea domain||||||0.879
92199499|NCT05032066|184297200|SUPERIORITY||LS Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|1.98||0.0936|TWO_SIDED|90.0|0.1|6.6|||MMRM|||Symptoms Total Score Estimated from a mixed effect repeated measurement analysis with unstructured variance-covariance matrix, that included factors baseline FVC% predicted, treatment (300 mg HZN-825 QD, 300 mg HZN-825 BID, placebo), the Baseline factors used for stratifying randomization as covariates (prior use of approved IPF therapy \[yes/no\] and Baseline FVC% Predicted \[\>=70, \<70\]), visit week, and treatment by visit week interaction.||6.6|0.1|0.0936
92323547|NCT02715700|184551931|OTHER|Geometric mean ratio (GMR) of Methadone + Doravirine/Methadone Alone|GMR|0.95|||||TWO_SIDED|90.0|0.9|1.01||||||||1.01|0.90|
92323548|NCT02715700|184551932|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.95|||||TWO_SIDED|90.0|0.88|1.03||||||||1.03|0.88|
92323549|NCT02715700|184551933|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.98|||||TWO_SIDED|90.0|0.93|1.03||||||||1.03|0.93|
92323550|NCT02715700|184551935|OTHER|Geometric mean ratio (GMR) of Methadone + Doravirine/Methadone Alone|GMR|0.98|||||TWO_SIDED|90.0|0.9|1.06||||||||1.06|0.90|
92323551|NCT02715700|184551936|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.97|||||TWO_SIDED|90.0|0.86|1.1||||||||1.10|0.86|
92323552|NCT02715700|184551937|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.97|||||TWO_SIDED|90.0|0.91|1.04||||||||1.04|0.91|
92323553|NCT02715700|184551939|OTHER|Geometric mean ratio (GMR) of Methadone + Doravirine/Methadone Alone|GMR|0.96|||||TWO_SIDED|90.0|0.9|1.03||||||||1.03|0.90|
92323554|NCT02715700|184551940|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.96|||||TWO_SIDED|90.0|0.87|1.05||||||||1.05|0.87|
92323555|NCT02715700|184551941|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.98|||||TWO_SIDED|90.0|0.92|1.03||||||||1.03|0.92|
92323556|NCT04166591|184551966|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||binomial test|||||||<0.01
92323557|NCT04166591|184551966|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
92323558|NCT04166591|184551966|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
92323559|NCT04166591|184551966|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
92323560|NCT04166591|184551967|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
92323561|NCT04166591|184551967|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.||||||0.12|||||||Binomial test|||||||0.12
92323562|NCT04166591|184551967|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
92323563|NCT04166591|184551967|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
92323564|NCT00601172|184551972|SUPERIORITY_OR_OTHER||difference in percentage of participants|1.0||||0.7273|TWO_SIDED|95.0|-4.6|6.6||p-value based on normal approximation to the binomial using a pooled Z test.|Pooled Z test||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg||6.6|-4.6|0.7273
92323565|NCT00601172|184551973|SUPERIORITY_OR_OTHER||Difference in percentage of participants|1.0||||0.4771|TWO_SIDED|95.0|-1.8|3.8||p-value based on normal approximation to the binomial using a pooled Z test.|Pooled Z test||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg||3.8|-1.8|0.4771
92323566|NCT00601172|184551974|SUPERIORITY_OR_OTHER||Difference in percentage of participants|1.0||||0.7273|TWO_SIDED|95.0|-4.6|6.6|||Pooled Z test|p-value based on normal approximation to the binomial using a pooled Z test.|The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg||6.6|-4.6|0.7273
92323567|NCT00601172|184551975|SUPERIORITY_OR_OTHER||Treatment difference (%)|6.0||||0.0317|TWO_SIDED|95.0|0.5|11.5||p-value based on normal approximation to the binomial using a pooled Z test.|Pooled Z test|||Placebo vs Casopitant 90 mg||11.5|0.5|0.0317
92323568|NCT00601172|184551976|SUPERIORITY_OR_OTHER|||||||0.056|||||||Wilcoxon-rank sum test|||Placebo vs Casopitant 90 mg (0-120 hours)||||0.0560
92323569|NCT00601172|184551976|SUPERIORITY_OR_OTHER|||||||0.0443|||||||Wilcoxon-rank sum test|||Placebo vs Casopitant 90 mg (0-24 hours)||||0.0443
92323570|NCT00601172|184551976|SUPERIORITY_OR_OTHER|||||||0.1709|||||||Wilcoxon-rank sum test|||Placebo vs Casopitant 90 mg (24-120 hours)||||0.1709
92323571|NCT00601172|184551977|SUPERIORITY_OR_OTHER||Treatment difference (%)|-1.8||||0.3986|TWO_SIDED|95.0|-5.9|2.3|||Chi-squared|||Placebo vs Casopitant 90 mg (0-120 hours)||2.3|-5.9|0.3986
92323572|NCT00601172|184551977|SUPERIORITY_OR_OTHER||Treatment difference (%)|-0.9||||0.3545|TWO_SIDED|95.0|-2.7|1.0|||Chi-squared|||Placebo vs Casopitant 90 mg (0-24 hours)||1.0|-2.7|0.3545
92323573|NCT00601172|184551977|SUPERIORITY_OR_OTHER||Treatment difference (%)|-1.8||||0.3986|TWO_SIDED|95.0|-5.9|2.3|||Chi-squared|||Placebo vs Casopitant 90 mg (24-120 hours)||2.3|-5.9|0.3986
92323574|NCT00601172|184551978|SUPERIORITY_OR_OTHER||Treament Difference (%)|-0.9||||0.6795|TWO_SIDED|95.0|-5.4|3.5|||Chi-squared|||Placebo vs Casopitant 90 mg (0-120 hours)||3.5|-5.4|0.6795
92323575|NCT00601172|184551978|SUPERIORITY_OR_OTHER||Treament Difference (%)|-0.9||||0.4507|TWO_SIDED|95.0|-3.1|1.4|||Chi-squared|||Placebo vs Casopitant 90 mg (0-24 hours)||1.4|-3.1|0.4507
92323576|NCT00601172|184551978|SUPERIORITY_OR_OTHER||Treament Difference (%)|-0.9||||0.6795|TWO_SIDED|95.0|-5.4|3.5|||Chi-squared|||Placebo vs Casopitant 90 mg (24-120 hours)||3.5|-5.4|0.6795
92323577|NCT00601172|184551979|SUPERIORITY_OR_OTHER||Difference in percentage of participants|2.1||||0.4846|TWO_SIDED|95.0|-3.8|8.0|||Chi-squared||Difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-120 hours)||8.0|-3.8|0.4846
92323578|NCT00601172|184551979|SUPERIORITY_OR_OTHER||Difference in percentage of participants|0.8||||0.6101|TWO_SIDED|95.0|-2.3|3.9|||Chi-squared||Difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-24 hours)||3.9|-2.3|0.6101
92323579|NCT00601172|184551979|SUPERIORITY_OR_OTHER||Percentage of participants|2.1||||0.4846|TWO_SIDED|95.0|-3.8|8.0|||Chi-squared||Difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (24-120 hours)||8.0|-3.8|0.4846
92323580|NCT00601172|184551980|SUPERIORITY_OR_OTHER||Difference in percentage of participants|3.8||||0.1356|TWO_SIDED|95.0|-1.2|8.9|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-24 hours)||8.9|-1.2|0.1356
92323581|NCT00601172|184551980|SUPERIORITY_OR_OTHER||Difference in percentage of participants|8.1||||0.028|TWO_SIDED|95.0|0.9|15.4|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-120 hours)||15.4|0.9|0.0280
92323582|NCT00601172|184551980|SUPERIORITY_OR_OTHER||Difference in percentage of participants|8.1||||0.028|TWO_SIDED|95.0|0.9|15.4|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (24-120 hours)||15.4|0.9|0.0280
92323583|NCT00601172|184551981|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-0.9||||0.7799|TWO_SIDED|95.0|-7.3|5.5|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-120 hours)||5.5|-7.3|0.7799
92323584|NCT00601172|184551981|SUPERIORITY_OR_OTHER||Difference in percentage of participants|0.5||||0.7883|TWO_SIDED|95.0|-3.2|4.2|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-24 hours)||4.2|-3.2|0.7883
92199500|NCT05032066|184297200|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|2.0||0.3129|TWO_SIDED|90.0|-1.3|5.3|||MMRM|||Symptoms Total Score Estimated from a mixed effect repeated measurement analysis with unstructured variance-covariance matrix, that included factors baseline FVC% predicted, treatment (300 mg HZN-825 QD, 300 mg HZN-825 BID, placebo), the Baseline factors used for stratifying randomization as covariates (prior use of approved IPF therapy \[yes/no\] and Baseline FVC% Predicted \[\>=70, \<70\]), visit week, and treatment by visit week interaction.||5.3|-1.3|0.3129
92323585|NCT00601172|184551981|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-0.9||||0.7799|TWO_SIDED|95.0|-7.3|5.5|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (24-120 hours)||5.5|-7.3|0.7799
92323586|NCT00601172|184551982|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-7.3||||0.0507|TWO_SIDED|95.0|-15.0|0.0|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-120 hours)||0.0|-15|0.0507
92199501|NCT05032066|184297201|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.644||0.5832|TWO_SIDED|90.0|-1.42|0.71|||MMRM|||Estimated from a mixed effect repeated measurement analysis with unstructured variance-covariance matrix, that included factors baseline FVC% predicted, treatment (300 mg HZN-825 QD, 300 mg HZN-825 BID, placebo), the Baseline factors used for stratifying randomization as covariates (prior use of approved IPF therapy \[yes/no\] and Baseline FVC% Predicted \[\>=70, \<70\]), visit week, and treatment by visit week interaction.||0.71|-1.42|0.5832
92323587|NCT00601172|184551982|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-4.7||||0.08|TWO_SIDED|95.0|-9.9|0.5|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-24 hours)||0.5|-9.9|0.0800
92323588|NCT00601172|184551982|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-7.3||||0.0507|TWO_SIDED|95.0|-15.0|0.0|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (24-120 hours)||0.0|-15|0.0507
92323589|NCT00601172|184551983|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-2.6|||||TWO_SIDED|97.5|-9.9|4.7|||||The parameter estimated was difference in percentage of participants with response.|Nausea Impact: Placebo vs. Casopitant 90 mg; Cycle 1 (0-120 hours)||4.7|-9.9|
92323590|NCT00601172|184551983|SUPERIORITY_OR_OTHER||Difference in percentage of participants|0.7||||||97.5|-5.2|6.6|||||The parameter estimated was difference in percentage of participants with response.|Vomiting Impact: Placebo vs. Casopitant 90 mg; Cycle 1 (0-120 hours)||6.6|-5.2|
92323591|NCT00601172|184551984|SUPERIORITY_OR_OTHER|||||||0.1572|||||||Chi-squared|||Placebo vs. Casopitant 90 mg: (0-120 hours) in Cycle 1||||0.1572
92323592|NCT00601172|184551984|SUPERIORITY_OR_OTHER|||||||0.2908|||||||Chi-squared|||Placebo vs. Casopitant 90 mg: (0-24 hours) in Cycle 1||||0.2908
92323593|NCT00601172|184551984|SUPERIORITY_OR_OTHER|||||||0.1572|||||||Chi-squared|||Placebo vs. Casopitant 90 mg: (24-120 hours) in Cycle 1||||0.1572
92323594|NCT02461524|184552008|OTHER||Percentage|2.9|||<|0.001|ONE_SIDED|97.5||8.7|||Exact binomial test|||"The primary safety endpoint was tested against a predetermined safety Performance Goal (PG) using the following statistical hypotheses:~H0: p ≥ 20% vs. H1: p \< 20% where p is the proportion of subjects experiencing a Major Adverse Event (MAE) within 30 days of the index procedure in the target population of subjects treated with the Endurant Evo Abdominal Aortic Aneurysm (AAA) Stent graft system and 20% is the safety PG."||8.7||<0.001
92323595|NCT02461524|184552009|OTHER|Single-arm study with a hypothesis test comparing to performance goal|Percentage|100.0||||0.001|ONE_SIDED|95.0|95.8||||Based on exact binomial distribution|||"The primary effectiveness endpoint was tested against a predetermined effectiveness PG using following statistical hypotheses:~H0: q ≤ 80% vs. H1: q \> 80% where q is the proportion of subjects who have a successful aneurysm treatment in the target population of subjects treated with the Endurant Evo AAA Stent graft system and 80% is the effectiveness PG."|||95.8|0.001
92323596|NCT03535194|184552051|SUPERIORITY||Risk Difference (RD)|73.5|||<|0.001|TWO_SIDED|95.0|68.2|78.7|||Cochran-Mantel-Haenszel|||||78.7|68.2|<0.001
92323597|NCT03535194|184552052|SUPERIORITY||Risk Difference (RD)|68.0|||<|0.001|TWO_SIDED|95.0|62.7|73.3|||Cochran-Mantel-Haenszel|||||73.3|62.7|<0.001
92323598|NCT03535194|184552053|SUPERIORITY||Risk Difference (RD)|81.6|||<|0.001|TWO_SIDED|95.0|76.1|87.0|||Cochran-Mantel-Haenszel|||||87.0|76.1|<0.001
92323599|NCT03535194|184552054|SUPERIORITY||Risk Difference (RD)|51.7|||<|0.001|TWO_SIDED|95.0|47.6|55.8|||Cochran-Mantel-Haenszel|||||55.8|47.6|<0.001
92323600|NCT03535194|184552055|SUPERIORITY||Risk Difference (RD)|23.2|||<|0.001|TWO_SIDED|95.0|19.3|27.1|||Cochran-Mantel-Haenszel|||||27.1|19.3|<0.001
92323601|NCT03535194|184552056|SUPERIORITY||Risk Difference (RD)|53.5|||<|0.001|TWO_SIDED|95.0|47.7|59.3|||Cochran-Mantel-Haenszel|||||59.3|47.7|<0.001
92323602|NCT03535194|184552057|SUPERIORITY||LSMean Difference|-4.94|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED|95.0|-7.01|-2.88|||Mixed Models Analysis|||||-2.88|-7.01|<0.001
92323603|NCT03535194|184552058|SUPERIORITY||LSMean Difference|-15.15|STANDARD_ERROR_OF_MEAN|0.692|<|0.001|TWO_SIDED|95.0|-16.51|-13.8|||Mixed Models Analysis|||||-13.80|-16.51|<0.001
92323604|NCT03535194|184552059|SUPERIORITY||LSMean Difference|-9.59|STANDARD_ERROR_OF_MEAN|1.55|<|0.001|TWO_SIDED|95.0|-12.63|-6.55|||Mixed Models Analysis|||||-6.55|-12.63|<0.001
92323605|NCT03535194|184552060|SUPERIORITY||LSMean Difference|3.46|STANDARD_ERROR_OF_MEAN|0.642|<|0.001|TWO_SIDED|95.0|2.2|4.72|||ANCOVA|||||4.72|2.20|<0.001
92323606|NCT03535194|184552061|SUPERIORITY||LSMean Difference|3.96|STANDARD_ERROR_OF_MEAN|0.711|<|0.001|TWO_SIDED|95.0|2.56|5.35|||ANCOVA|||||5.35|2.56|<0.001
92323607|NCT03535194|184552062|SUPERIORITY||Risk Difference (RD)|65.0|||<|0.001|TWO_SIDED|95.0|59.3|70.8|||Cochran-Mantel-Haenszel|||||70.8|59.3|<0.001
92323608|NCT03535194|184552064|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.255||0.826|TWO_SIDED|95.0|-4.96|3.96|||ANCOVA|||||3.96|-4.96|0.826
92323609|NCT03535194|184552066|NON_INFERIORITY|10% non-inferiority margin was used.|Risk Difference (RD)|3.3|||<|0.0001|TWO_SIDED|95.0|-1.4|7.9|||Cochran-Mantel-Haenszel|||||7.9|-1.4|<0.0001
92323610|NCT03535194|184552067|NON_INFERIORITY|10% non-inferiority margin was used.|Risk Difference (RD)|1.6|||<|0.0001|TWO_SIDED|95.0|-3.4|6.6|||Cochran-Mantel-Haenszel|||||6.6|-3.4|<0.0001
92323611|NCT01665157|184552101|SUPERIORITY_OR_OTHER|||||||0.435||||||Not significant|ANOVA|||||||0.435
92323612|NCT01665157|184552102|SUPERIORITY_OR_OTHER|||||||0.046|||||||Chi-squared|||||||0.046
92323613|NCT01665157|184552102|SUPERIORITY_OR_OTHER|||||||0.024|||||||Chi-squared|||"Null hypothesis: Low-residue diet package and 2L PEG vs. Self-controlled diet and 2L PEG provides same preparation quality."||||0.024
92323614|NCT01665157|184552102|SUPERIORITY_OR_OTHER|||||||0.041|||||||Chi-squared|||||||0.041
92323615|NCT01665157|184552105|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Chi-squared|||||||<0.01
92323616|NCT01665157|184552106|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Chi-squared|||||||<0.01
92323617|NCT01665157|184552107|SUPERIORITY_OR_OTHER|||||||0.025|||||||Chi-squared|||||||0.025
92323618|NCT04304235|184552114|SUPERIORITY||Odds Ratio (OR)|2.22|||||TWO_SIDED|||||||||||||
92323619|NCT04967885|184552126|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
92323620|NCT01011465|184552128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4||||0.03||95.0|||||t-test, 2 sided|||The null hypothesis is that both groups will have similar rise in SBP in response to stress.||||0.03
92323621|NCT01011465|184552128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.89||95.0|||||t-test, 2 sided|||The null hypothesis is that both groups will have similar rise in SBP in response to stress.||||0.89
92323622|NCT01011465|184552128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.52||95.0|||||t-test, 2 sided|||The null hypothesis is that both groups will have similar rise in SBP in response to stress.||||0.52
92323623|NCT01011465|184552129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.43||95.0|||||t-test, 2 sided|||The null hypothesis states that both groups will have similar PANAS negative affect score change in response to stress.||||0.43
92323624|NCT01011465|184552129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.08||95.0|||||t-test, 2 sided|||The null hypothesis states that both groups will have similar PANAS negative affect score change in response to stress.||||0.08
92323625|NCT01011465|184552129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64||||0.25||95.0|||||ANOVA|||The null hypothesis states that both groups will have similar PANAS negative affect score change in response to stress.||||0.25
92323626|NCT01011465|184552130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.83||95.0|||||t-test, 2 sided|||The null hypothesis states that both groups had similar threat/challenge scores during the speech task.||||0.83
92323627|NCT01011465|184552130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.56||95.0|||||t-test, 2 sided|||The null hypothesis states that both groups had similar threat/challenge scores during the speech task.||||0.56
92323628|NCT01011465|184552130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.95||95.0|||||t-test, 2 sided|||The null hypothesis states that both groups had similar threat/challenge scores during the speech task.||||0.95
92323629|NCT05896527|184552142|SUPERIORITY||Odds Ratio (OR)|0.46||||0.4839|TWO_SIDED|95.0|0.07|2.37|||Fisher Exact||DC-806 200 mg BID compared to Placebo|||2.37|0.07|0.4839
92323630|NCT05896527|184552142|SUPERIORITY||Odds Ratio (OR)|1.76||||0.4111|TWO_SIDED|95.0|0.51|6.49|||Fisher Exact||DC-806 400 mg BID compared to Placebo|||6.49|0.51|0.4111
92323631|NCT05896527|184552142|SUPERIORITY||Odds Ratio (OR)|1.3||||0.7744|TWO_SIDED|95.0|0.36|4.99|||Fisher Exact||DC-806 600 mg QD compared to Placebo|||4.99|0.36|0.7744
92323632|NCT05896527|184552142|SUPERIORITY||Odds Ratio (OR)|3.59||||0.0164|TWO_SIDED|95.0|1.15|12.37|||Fisher Exact||DC-806 800 mg BID compared to Placebo|||12.37|1.15|0.0164
92323633|NCT01279070|184552144|SUPERIORITY_OR_OTHER||Effect size|0.43|||<|0.05|TWO_SIDED|95.0|0.1|0.7|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups,standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR)assumption.|To evaluate intervention efficacy on the BADS(Total score and Key search subtest),linear mixed-effects models were fitted using Restricted Maximum Likelihood (REML.An unstructured correlation matrix was used to account for correlation among several observations for each subject.The dependent variable comprised the measures at 16 weeks while the baseline value of the BADS,intervention group(REPYFLEC group vs Leisure group),time and the interaction term (time×treatment)were included as covariates.||0.7|0.1|<0.05
92199502|NCT05032066|184297201|SUPERIORITY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.648||0.1297|TWO_SIDED|90.0|-2.06|0.09|||MMRM|||Estimated from a mixed effect repeated measurement analysis with unstructured variance-covariance matrix, that included factors baseline FVC% predicted, treatment (300 mg HZN-825 QD, 300 mg HZN-825 BID, placebo), the Baseline factors used for stratifying randomization as covariates (prior use of approved IPF therapy \[yes/no\] and Baseline FVC% Predicted \[\>=70, \<70\]), visit week, and treatment by visit week interaction.||0.09|-2.06|0.1297
92323634|NCT01279070|184552145|SUPERIORITY_OR_OTHER||Effect Size|0.42|||<|0.05|TWO_SIDED|95.0|0.1|0.7|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups,standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR)assumption.|To evaluate intervention efficacy on the BADS(Total score and Key search subtest),linear mixed-effects models were fitted using Restricted Maximum Likelihood(REML).An unstructured correlation matrix was used to account for correlation among several observations for each subject.The dependent variable comprised the measures at 40 weeks while the baseline value of the BADS,intervention group(REPYFLEC group vs Leisure group),time and the interaction term (time×treatment)were included as covariates.||0.7|0.1|<0.05
92323635|NCT01279070|184552146|SUPERIORITY_OR_OTHER||Effect Size|0.33|||<|0.05|TWO_SIDED|95.0|0.06|0.6|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups,standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR)assumption.|To evaluate intervention efficacy on the LSP, linear mixed-effects models were fitted using Restricted Maximum Likelihood (REML). An unstructured correlation matrix was used to account for correlation among several observations for each subject. The dependent variable comprised the measures at 16 weeks while the baseline value of the LSP, intervention group (REPYFLEC group vs Leisure group), time and the interaction term (time×treatment) were included as covariates.||0.6|0.06|<0.05
92199503|NCT05032066|184297202|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9996|TWO_SIDED|90.0|0.34|2.9|||Regression, Cox|||Estimated from a stratified Cox proportional hazards regression model stratified by prior use of approved IPF therapy \[yes or no\] and FVC% predicted at baseline \[= 70, \<70\] and treatment group as factor. Placebo group is the reference group for the analysis.||2.90|0.34|0.9996
92323636|NCT01279070|184552147|SUPERIORITY_OR_OTHER||Effect Size|0.35|||<|0.05|TWO_SIDED|95.0|0.09|0.6|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups,standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR)assumption.|To evaluate intervention efficacy on the LSP, linear mixed-effects models were fitted using Restricted Maximum Likelihood (REML). An unstructured correlation matrix was used to account for correlation among several observations for each subject. The dependent variable comprised the measures at 40 weeks while the baseline value of the LSP, intervention group (REPYFLEC group vs Leisure group), time and the interaction term (time×treatment) were included as covariates.||0.6|0.09|<0.05
92323637|NCT01279070|184552148|SUPERIORITY_OR_OTHER||Effect Size|0.3|||<|0.05|TWO_SIDED|95.0|0.01|0.7|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups,standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR)assumption.|To evaluate intervention efficacy on the PANSS, linear mixed-effects models were fitted using Restricted Maximum Likelihood (REML). An unstructured correlation matrix was used to account for correlation among several observations for each subject. The dependent variable comprised the measures at 16 weeks while the baseline value of the PANSS, intervention group (REPYFLEC group vs Leisure group), time and the interaction term (time×treatment) were included as covariates.||0.7|0.01|<0.05
92323638|NCT01279070|184552149|SUPERIORITY_OR_OTHER||Effect Size|0.3|||<|0.05|TWO_SIDED|95.0|0.01|0.7|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups, standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR) assumption.|To evaluate intervention efficacy on the PANSS, linear mixed-effects models were fitted using Restricted Maximum Likelihood (REML). An unstructured correlation matrix was used to account for correlation among several observations for each subject. The dependent variable comprised the measures at 40 weeks while the baseline value of the PANSS, intervention group (REPYFLEC group vs Leisure group), time and the interaction term (time×treatment) were included as covariates.||0.7|0.01|<0.05
92323639|NCT02217410|184552201|OTHER||Mean Difference (Final Values)|0.095||||0.8976|TWO_SIDED|95.0|-0.067|0.263|||Bayesian posterior probability|Posterior probability that the composite efficacy failure difference between CFZ533 and Tac is \< 20%.|Month 3|||0.263|-0.067|0.8976
92323640|NCT02217410|184552201|OTHER||Mean Difference (Final Values)|0.093||||0.8836|TWO_SIDED|95.0|-0.084|0.271|||Bayesian posterior probability|Posterior probability that the composite efficacy failure difference between CFZ533 and Tac is \< 20%.|Month 6|||0.271|-0.084|0.8836
92323641|NCT02217410|184552201|OTHER||Mean Difference (Final Values)|0.093||||0.8822|TWO_SIDED|95.0|-0.085|0.272|||Bayesian posterior probability|Posterior probability that the composite efficacy failure difference between CFZ533 and Tac is \< 20%.|Month 9|||0.272|-0.085|0.8822
92323642|NCT02217410|184552201|OTHER||Mean Difference (Final Values)|0.093||||0.8821|TWO_SIDED|95.0|-0.087|0.273|||Bayesian posterior probability|Posterior probability that the composite efficacy failure difference between CFZ533 and Tac is \< 20%.|Month 12|||0.273|-0.087|0.8821
92323643|NCT00626821|184552211|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.813|STANDARD_ERROR_OF_MEAN|0.133|<|0.0001|TWO_SIDED|95.0|1.553|2.073|||Mixed Models Analysis|||||2.073|1.553|<0.0001
92199504|NCT05032066|184297202|SUPERIORITY||Hazard Ratio (HR)|1.66||||0.3721|TWO_SIDED|90.0|0.66|4.48|||Regression, Cox|||Estimated from a stratified Cox proportional hazards regression model stratified by prior use of approved IPF therapy \[yes or no\] and FVC% predicted at baseline \[= 70, \<70\] and treatment group as factor. Placebo group is the reference group for the analysis.||4.48|0.66|0.3721
92323644|NCT01471340|184552214|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The projected sample size provided 90% power at a 2.5% alpha level (one-sided) to determine non-inferiority of MF/F and MF. For analysis of the first SAO in participants, MF/F MDI BID was considered non-inferior to MF MDI BID if the upper bound for the 95% confidence interval (CI) of the hazard ratio (HR) of MF/F MDI BID versus MF MDI BID was lower than 2.0 (noninferiority margin).|Hazard Ratio (HR)|1.22||||0.411|TWO_SIDED|95.0|0.76|1.94|||Cox proportional-hazard model||The HR and 95% CI were based on the Cox proportional-hazard model with covariates of treatment (MF/F or MF) and ICS dose level (200 or 400 mcg).|Pertains only to the First SAO; pooled MF/F treatments and pooled MF treatments||1.94|0.76|0.411
92323645|NCT01471340|184552215|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89||||0.021|TWO_SIDED|95.0|0.8|0.98|||Cox proportional-hazard model|Superiority of MF/F MDI BID vs MF MDI BID was determined if the HR was less than 1 and achieved statistical significance (one-sided p-value \< 0.025).|The HR and 95% CI were based on the Cox proportional-hazard model with covariates of treatment (MF/F or MF) and ICS dose level (200 or 400 mcg).|Pertains only to the First SAEX; pooled MF/F treatments and pooled MF treatments||0.98|0.80|0.021
92323646|NCT05875025|184552218|OTHER||Adjusted mean difference|1.36||||0.442|TWO_SIDED|95.0|-2.28|4.99|||ANCOVA|Analysis of covariance (ANCOVA) model, included treatment, subject, and period as fixed effects; PPR2 at baseline as a covariate.||||4.99|-2.28|0.442
92323647|NCT05875025|184552219|OTHER||Adjusted mean difference|0.7||||0.553|TWO_SIDED|95.0|-1.73|3.12|||ANCOVA|Analysis of covariance (ANCOVA) model, included treatment, subject, and period as fixed effects; PPR4 at baseline as a covariate.||||3.12|-1.73|0.553
92323648|NCT01098500|184552221|SUPERIORITY_OR_OTHER||Prevalence percentage|2.2|||||TWO_SIDED|95.0|0.9|3.5|||||Prevalence percentage is the number of patients with an ALT \>=3 times ULN divided by all patients that were tested at baseline (30 days prior to initiation of TKI drug).|||3.5|0.9|
92323649|NCT01098500|184552222|SUPERIORITY_OR_OTHER||Incidence Rate (IR)|6.2|||||TWO_SIDED|95.0|3.3|9.0|||||Incidence rate (IR) is the number of patients with an ALT \>=3 times ULN after initiation of TKI divided by person time contributed by all patients with normal ALT (\<1 times ULN) at baseline. IR expressed per 100 person years.|||9.0|3.3|
92323650|NCT01098500|184552223|SUPERIORITY_OR_OTHER||Prevalence percentage|0.4|||||TWO_SIDED|95.0|0.1|1.4|||||Prevalence percentage is the number of patients with Hy's Law divided by all patients that were tested at baseline (30 days prior to initiation of TKI drug).|||1.4|0.1|
92323651|NCT01098500|184552224|SUPERIORITY_OR_OTHER||Incidence Rate (IR)|0.4|||||TWO_SIDED|95.0|0.0|2.0|||||Incidence rate (IR) is the number of patients with Hy's Law after initiation of TKI divided by person time contributed by all patients with normal ALT, AST, ALP, and BIL (\< 1 times ULN) at baseline. IR is expressed per 100 person years.|||2.0|0.0|
92323652|NCT02218736|184552233|SUPERIORITY|||||||0.0095|||||||t-test, 1 sided|||||||0.0095
92323653|NCT02218736|184552234|SUPERIORITY|||||||0.0345|||||||t-test, 1 sided|||||||0.0345
92323654|NCT02218736|184552235|SUPERIORITY|||||||0.43|||||||t-test, 1 sided|||||||0.430
92323655|NCT03452488|184552236|SUPERIORITY|||||||0.2437|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic.||||0.2437
92323656|NCT03452488|184552236|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic||||0.2000
92323657|NCT03452488|184552236|SUPERIORITY|||||||0.324|TWO_SIDED|95.0|||||Adjusted Bayesian Imputation|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic based on adjusted Bayesian Imputation||||0.3240
92323658|NCT03452488|184552236|SUPERIORITY|Gait Speed Based on Adjusted Bayesian Imputation||||||0.5123|||||||Adjusted Bayesian Imputation|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic based on adjusted Bayesian Imputation||||0.5123
92323659|NCT03452488|184552236|SUPERIORITY|||||||0.692|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic based on MI and Adjusted Bayesian Imputation||||0.6920
92323660|NCT03452488|184552236|SUPERIORITY|||||||0.085|TWO_SIDED|95.0|||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic based on MI and Adjusted Bayesian Imputation||||0.0850
92323661|NCT03452488|184552237|SUPERIORITY|||||||0.9408|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Physical Function Domain (PF-10) Sub-score based on Mixed Model Analysis||||0.9408
92323662|NCT03452488|184552237|SUPERIORITY|||||||0.9485|TWO_SIDED|95.0|||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Physical Function Domain (PF-10) Sub-score based on Mixed Model Analysis||||0.9485
92323663|NCT03452488|184552237|SUPERIORITY|||||||0.9848|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Physical Function Domain (PF-10) Sub-Score Based on Adjusted Bayesian Imputation||||0.9848
92323664|NCT03452488|184552237|SUPERIORITY|||||||0.5017|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Physical Function Domain (PF-10) Sub-Score Based on Adjusted Bayesian Imputation||||0.5017
92323665|NCT03452488|184552238|SUPERIORITY|||||||0.52|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test (dominant hand)||||0.5200
92323666|NCT03452488|184552238|SUPERIORITY|||||||0.3577|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test (dominant hand)||||0.3577
92323667|NCT03452488|184552238|SUPERIORITY|||||||0.9237|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test at Month 6 Based on Multiple Imputation (dominant hand)||||0.9237
92323668|NCT03452488|184552238|SUPERIORITY|||||||0.7629|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test at Month 6 Based on Multiple Imputation (dominant hand)||||0.7629
92323669|NCT03452488|184552238|SUPERIORITY|||||||0.5695|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Change from Baseline in Handgrip Strength Test (left hand)||||0.5695
92323670|NCT03452488|184552238|SUPERIORITY|||||||0.3523|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test (Left hand)||||0.3523
92199505|NCT05032066|184297203|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.4778|TWO_SIDED|90.0|0.63|3.32|||Regression, Cox|||Estimated from a stratified Cox proportional hazards regression model stratified by prior use of approved IPF therapy \[yes or no\] and FVC% predicted at baseline \[= 70, \<70\] and treatment group as factor. Placebo group is the reference group for the analysis.||3.32|0.63|0.4778
92323671|NCT03452488|184552238|SUPERIORITY|||||||0.5652|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test (Right hand)||||0.5652
92323672|NCT03452488|184552238|SUPERIORITY|||||||0.2472|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test (Right hand)||||0.2472
92323673|NCT03452488|184552239|SUPERIORITY|||||||0.9859||||||Statistical Analysis of Change from Baseline in ALM|ANCOVA|||||||0.9859
92323674|NCT03452488|184552239|SUPERIORITY|||||||0.404|||||||ANCOVA|||Statistical Analysis of Change from Baseline in ALM||||0.4040
92323675|NCT03452488|184552240|SUPERIORITY|||||||0.1219|||||||Regression, Logistic|||||||0.1219
92323676|NCT03452488|184552240|SUPERIORITY|||||||0.052|TWO_SIDED|95.0|||||Regression, Logistic|||||||0.0520
92323677|NCT03452488|184552241|SUPERIORITY|||||||0.8917|||||||ANCOVA|||||||0.8917
92323678|NCT03452488|184552241|SUPERIORITY||Mean Difference (Final Values)|-4.999|STANDARD_ERROR_OF_MEAN|10.2172||0.6317|TWO_SIDED|95.0|-26.777|16.778|||ANCOVA|||||16.778|-26.777|0.6317
92323679|NCT03452488|184552242|SUPERIORITY|||||||0.3762|||||||Mixed Models Analysis|||||||0.3762
92323680|NCT03452488|184552242|SUPERIORITY|||||||0.0543|||||||Mixed Models Analysis|||||||0.0543
92323681|NCT03452488|184552243|SUPERIORITY|||||||0.8824|||||||ANCOVA|||||||0.8824
92323682|NCT03452488|184552243|SUPERIORITY|||||||0.1578|||||||ANCOVA|||||||0.1578
92323683|NCT03452488|184552244|SUPERIORITY|||||||0.0511|||||||ANCOVA|||||||0.0511
92323684|NCT03452488|184552244|SUPERIORITY|||||||0.2771|||||||ANCOVA|||||||0.2771
92323685|NCT03452488|184552245|SUPERIORITY|||||||0.8084|||||||Mixed Models Analysis|||||||0.8084
92323686|NCT03452488|184552245|SUPERIORITY|||||||0.7266|||||||Mixed Models Analysis|||||||0.7266
92323687|NCT03452488|184552246|SUPERIORITY|||||||0.2312|||||||Mixed Models Analysis|||||||0.2312
92323688|NCT03452488|184552246|SUPERIORITY|||||||0.2701|||||||Mixed Models Analysis|||||||0.2701
92323689|NCT03452488|184552247|SUPERIORITY|||||||0.8934|||||||ANCOVA|||||||0.8934
92323690|NCT03452488|184552247|SUPERIORITY|||||||0.3526|||||||ANCOVA|||||||0.3526
92323691|NCT01876784|184552255|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.08|TWO_SIDED|95.0|0.55|1.03||Threshold for significance at 0.05 level.|Log Rank||Vandetanib 300 mg vs Placebo|A multiple testing procedure (MTP) with an alpha-exhaustive recycling strategy was employed to provide adequate control of type I error.||1.03|0.55|0.080
92323692|NCT00732758|184552283|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||ANCOVA|adjusting for baseline 25(OH)D, race, BMI, diet vitamin D, gender, pubertal status, and sunlight exposure.||||||0.003
92323693|NCT00732758|184552284|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|unadjusted p-values||||||0.51
92323694|NCT00732758|184552285|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||t-test, 2 sided|||||||0.66
92323695|NCT00732758|184552286|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||t-test, 2 sided|||||||0.35
92323696|NCT00373958|184552287|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-3.6||||||95.0|-7.3|-0.1||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||-0.1|-7.3|
92323697|NCT00373958|184552287|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-5.5||||||95.0|-10.9|-0.1||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||-0.1|-10.9|
92323698|NCT00373958|184552287|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-7.9||||||95.0|-12.4|-4.0||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||-4.0|-12.4|
92323699|NCT00373958|184552287|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-2.7|3.5||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.5|-2.7|
92323700|NCT00373958|184552287|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-1.6||||||95.0|-4.7|1.2||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.2|-4.7|
92323701|NCT00373958|184552287|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-2.4|3.4||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.4|-2.4|
92323702|NCT00373958|184552287|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-3.6||||||95.0|-8.5|1.2||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.2|-8.5|
92323703|NCT00373958|184552288|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.68||||||95.0|0.57|0.8||||||For serotype 4 the GMC ratio (13vPnC/7vPnC) was calculated||0.80|0.57|
92323704|NCT00373958|184552288|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.74||||||95.0|0.61|0.89||||||For serotype 6B the GMC ratio (13vPnC/7vPnC) was calculated||0.89|0.61|
92323705|NCT00373958|184552288|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.72||||||95.0|0.62|0.85||||||For serotype 9V the GMC ratio (13vPnC/7vPnC) was calculated||0.85|0.62|
92323706|NCT00373958|184552288|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.72||||||95.0|0.6|0.86||||||For serotype 14 the GMC ratio (13vPnC/7vPnC) was calculated||0.86|0.60|
92323707|NCT00373958|184552288|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.68||||||95.0|0.57|0.81||||||For serotype 18C the GMC ratio (13vPnC/7vPnC) was calculated||0.81|0.57|
92323708|NCT00373958|184552288|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|1.18||||||95.0|0.98|1.41||||||For serotype 19F the GMC ratio (13vPnC/7vPnC) was calculated||1.41|0.98|
92323709|NCT00373958|184552288|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.65||||||95.0|0.54|0.78||||||For serotype 23F the GMC ratio (13vPnC/7vPnC) was calculated||0.78|0.54|
92323710|NCT00373958|184552289|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|0.1||||||95.0|-2.9|3.1||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15μg/mL threshold was calculated.||3.1|-2.9|
92323711|NCT00373958|184552289|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|-0.6||||||95.0|-8.3|7.0||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0 μg/mL threshold was calculated.||7.0|-8.3|
92323712|NCT00373958|184552289|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|-0.4||||||95.0|-4.3|3.5||||||For diphtheria toxoid the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated.||3.5|-4.3|
92323713|NCT00373958|184552289|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|1.7||||||95.0|-2.1|5.6||||||For Pertussis FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 40.5 EU/mL threshold was calculated.||5.6|-2.1|
92323714|NCT00373958|184552289|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|-0.9||||||95.0|-5.2|3.4||||||For Pertussis PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 16.5 EU/mL threshold was calculated.||3.4|-5.2|
92323715|NCT00373958|184552289|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|-2.1||||||95.0|-6.4|2.0||||||For Pertussis PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 26 EU/mL threshold was calculated.||2.0|-6.4|
92323716|NCT00373958|184552290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.6|1.7||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15μg/mL threshold was calculated.||1.7|-1.6|
92323717|NCT00373958|184552290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.6||||||95.0|-7.1|3.8||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0μg/mL threshold was calculated.||3.8|-7.1|
92323718|NCT00373958|184552290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -5%.|Difference|-0.8||||||95.0|-4.5|2.9||||||For Measles the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1.10 I.V. threshold was calculated.||2.9|-4.5|
92323719|NCT00373958|184552290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -5%.|Difference|3.6||||||95.0|-4.7|11.9||||||For Mumps the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1.10 I.V. threshold was calculated.||11.9|-4.7|
92323720|NCT00373958|184552290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -5%.|Difference|1.2||||||95.0|-4.4|6.9||||||For Rubella the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥15 IU/mL threshold was calculated.||6.9|-4.4|
92323721|NCT00373958|184552290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|4.8||||||95.0|-3.4|13.0||||||For Varicella the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1.09 I.V. threshold was calculated.||13.0|-3.4|
92323722|NCT00373958|184552291|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.94||||||95.0|0.75|1.17||||||For Haemophilus influenzae type b (PRP) the GMC ratio (13vPnC/7vPnC) was calculated||1.17|0.75|
92323723|NCT00373958|184552292|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.96|||||TWO_SIDED|95.0|0.85|1.08||||||For Measles the GMC ratio (13vPnC/7vPnC) was calculated||1.08|0.85|
92199506|NCT05032066|184297203|SUPERIORITY||Hazard Ratio (HR)|2.52||||0.0438|TWO_SIDED|90.0|1.22|5.61|||Regression, Cox|||Estimated from a stratified Cox proportional hazards regression model stratified by prior use of approved IPF therapy \[yes or no\] and FVC% predicted at baseline \[= 70, \<70\] and treatment group as factor. Placebo group is the reference group for the analysis.||5.61|1.22|0.0438
92323724|NCT00373958|184552292|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.14||||||For Mumps the GMC ratio (13vPnC/7vPnC) was calculated||1.14|0.87|
92323725|NCT00373958|184552292|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.01|||||TWO_SIDED|95.0|0.92|1.1||||||For Varicella the GMC ratio (13vPnC/7vPnC) was calculated||1.10|0.92|
92323726|NCT00373958|184552293|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.78|||||TWO_SIDED|95.0|0.62|1.0||||||For Rubella the GMC ratio (13vPnC/7vPnC) was calculated||1.00|0.62|
92323727|NCT01552915|184552298|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-2.1|STANDARD_ERROR_OF_MEAN|1.15||0.0717|TWO_SIDED|95.0|-4.3|0.2|||mixed effects model for repeated measure|||||0.2|-4.3|0.0717
92323728|NCT01552915|184552298|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-12.2|STANDARD_ERROR_OF_MEAN|1.45|<|0.0001|TWO_SIDED|95.0|-15.1|-9.4|||mixed effects model for repeated measure|||||-9.4|-15.1|<0.0001
92323729|NCT01552915|184552298|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-10.1|STANDARD_ERROR_OF_MEAN|1.43|<|0.0001|TWO_SIDED|95.0|-13.0|-7.3|||mixed effects model for repeated measure|||||-7.3|-13.0|<0.0001
92323730|NCT01552915|184552299|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6165|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.6165
92323731|NCT01552915|184552299|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
92199507|NCT01124838|184297215|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57||||0.004|TWO_SIDED|95.0|0.39|0.84|||Log Rank|||The primary analysis of the primary endpoint was performed on Main Study data, excluding the Japanese sub-study. The statistical test was performed at a 2-sided significance level of 0.05. The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment as factor.||0.84|0.39|0.004
92199508|NCT01124838|184297215|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.37|0.74|||Log Rank|||An additional analysis of the primary endpoint was performed using the Integrated Study data (Main Study + Japan sub-study). The statistical test was performed at a 2-sided significance level of 0.05. The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment and race (Japanese versus non-Japanese) as factors.||0.74|0.37|<0.001
92199509|NCT01124838|184297216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.14||||0.218|TWO_SIDED|95.0|-0.37|0.08|||ANOVA|From ANOVA with treatment as factor adjusted for clustered observations (i.e., observations from each of the participant's eyes).|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||0.08|-0.37|0.218
92323732|NCT01552915|184552299|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
92323733|NCT01777568|184552303|SUPERIORITY||Risk Ratio (RR)|0.99||||0.85|TWO_SIDED|95.0|0.85|1.14|||GEE model||Relative Risk: 80% (numerator) vs. 30% (denominator)|||1.14|0.85|0.85
92323734|NCT01777568|184552304|SUPERIORITY||Risk Ratio (RR)|0.8||||0.047|TWO_SIDED|95.0|0.66|1.01|||Chi-squared|||||1.01|0.66|0.047
92323735|NCT02120833|184552344|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323736|NCT02120833|184552344|SUPERIORITY_OR_OTHER|||||||0.436|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.4360
92323737|NCT02120833|184552344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.62||0.051|TWO_SIDED|95.0|-2.51|0.01||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.01|-2.51|0.0510
92323738|NCT02120833|184552345|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0004
92323739|NCT02120833|184552345|SUPERIORITY_OR_OTHER|||||||0.0213|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0213
92323740|NCT02120833|184552345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.22||0.7698|TWO_SIDED|95.0|-0.5|0.37|||ANCOVA|The significance threshold level was 0.05 (two-sided).||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.37|-0.50|0.7698
92323741|NCT02120833|184552346|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0003
92323742|NCT02120833|184552346|SUPERIORITY_OR_OTHER|||||||0.6063|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.6063
92323743|NCT02120833|184552346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.43||0.3686|TWO_SIDED|95.0|-1.27|0.48||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.48|-1.27|0.3686
92323744|NCT02120833|184552347|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323745|NCT02120833|184552347|SUPERIORITY_OR_OTHER|||||||0.6118|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.6118
92199510|NCT01124838|184297216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.15||||0.164|TWO_SIDED|95.0|-0.36|0.06|||ANOVA|From ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||0.06|-0.36|0.164
92199511|NCT01124838|184297217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.13||||0.07|TWO_SIDED|95.0|-0.28|0.01|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as factor|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||0.01|-0.28|0.070
92199512|NCT01124838|184297217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.17||||0.016|TWO_SIDED|95.0|-0.31|-0.03|||ANOVA|From ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.03|-0.31|0.016
92199513|NCT01124838|184297218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.04||||0.096|TWO_SIDED|95.0|-0.08|0.01|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as factor adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||0.01|-0.08|0.096
92199514|NCT01124838|184297218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.04||||0.044|TWO_SIDED|95.0|-0.09|0.0|||ANOVA|From ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||0.00|-0.09|0.044
92199515|NCT01124838|184297219|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.491|TWO_SIDED|95.0|0.34|1.69|||Log Rank||The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment as factor.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||1.69|0.34|0.491
92199516|NCT01124838|184297219|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6||||0.185|TWO_SIDED|95.0|0.28|1.28|||Log Rank||The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment and race (Japanese versus non-Japanese) as factors.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||1.28|0.28|0.185
92199517|NCT01124838|184297220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-2.3||||0.451|TWO_SIDED|95.0|-8.5|3.8|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment and OCT machine as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||3.8|-8.5|0.451
92199518|NCT01124838|184297220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-3.9||||0.174|TWO_SIDED|95.0|-9.7|1.8|||ANOVA|From ANOVA with treatment, race (Japanese versus non-Japanese) and OCT machine as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||1.8|-9.7|0.174
92323746|NCT02120833|184552347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.56||0.1485|TWO_SIDED|95.0|-1.98|0.31||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.31|-1.98|0.1485
92323747|NCT02120833|184552348|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323748|NCT02120833|184552348|SUPERIORITY_OR_OTHER|||||||0.2447|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.2447
92323749|NCT02120833|184552348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|0.67||0.0216|TWO_SIDED|95.0|-2.95|-0.25||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.25|-2.95|0.0216
92323750|NCT02120833|184552349|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323751|NCT02120833|184552349|SUPERIORITY_OR_OTHER|||||||0.0476|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0476
92323752|NCT02120833|184552349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|0.78||0.2349|TWO_SIDED|95.0|-2.52|0.64||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.64|-2.52|0.2349
92323753|NCT02120833|184552350|SUPERIORITY_OR_OTHER|||||||0.7842|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.7842
92323754|NCT02120833|184552350|SUPERIORITY_OR_OTHER|||||||0.6083|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.6083
92323755|NCT02120833|184552350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.07||0.3599|TWO_SIDED|95.0|-0.08|0.22||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.22|-0.08|0.3599
92323756|NCT02120833|184552351|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0001
92323757|NCT02120833|184552351|SUPERIORITY_OR_OTHER|||||||0.0317|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0317
92323758|NCT02120833|184552351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.19||0.8037|TWO_SIDED|95.0|-0.42|0.33||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.33|-0.42|0.8037
92323759|NCT02120833|184552352|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92199519|NCT01124838|184297221|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|2.12||||0.16|TWO_SIDED|95.0|-0.84|5.08|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||5.08|-0.84|0.160
92323760|NCT02120833|184552352|SUPERIORITY_OR_OTHER|||||||0.0244|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0244
92323761|NCT02120833|184552352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.21||0.09|TWO_SIDED|95.0|-0.8|0.06||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.06|-0.80|0.0900
92323762|NCT02120833|184552353|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323763|NCT02120833|184552353|SUPERIORITY_OR_OTHER|||||||0.0065|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0065
92323764|NCT02120833|184552353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.28||0.1561|TWO_SIDED|95.0|-0.97|0.16||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.16|-0.97|0.1561
92323765|NCT02120833|184552354|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323766|NCT02120833|184552354|SUPERIORITY_OR_OTHER|||||||0.0049|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0049
92323767|NCT02120833|184552354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.59|STANDARD_ERROR_OF_MEAN|4.71||0.2409|TWO_SIDED|95.0|-3.88|15.07||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||15.07|-3.88|0.2409
92323768|NCT02120833|184552355|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323769|NCT02120833|184552355|SUPERIORITY_OR_OTHER|||||||0.2386|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.2386
92323770|NCT02120833|184552355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.3|STANDARD_ERROR_OF_MEAN|3.98||0.0241|TWO_SIDED|95.0|1.28|17.32||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||17.32|1.28|0.0241
92323771|NCT02120833|184552356|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323772|NCT02120833|184552356|SUPERIORITY_OR_OTHER|||||||0.0696|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0696
92323773|NCT02120833|184552356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.99|STANDARD_ERROR_OF_MEAN|4.23||0.0394|TWO_SIDED|95.0|0.46|17.52||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||17.52|0.46|0.0394
92323774|NCT02120833|184552357|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323775|NCT02120833|184552357|SUPERIORITY_OR_OTHER|||||||0.0772|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0772
92323776|NCT02120833|184552357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.48|STANDARD_ERROR_OF_MEAN|3.54||0.0213|TWO_SIDED|95.0|1.33|15.63||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||15.63|1.33|0.0213
92323777|NCT02120833|184552358|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323778|NCT02120833|184552358|SUPERIORITY_OR_OTHER|||||||0.0172|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0172
92323779|NCT02120833|184552358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.56|STANDARD_ERROR_OF_MEAN|3.48||0.1968|TWO_SIDED|95.0|-2.46|11.58||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||11.58|-2.46|0.1968
92323780|NCT02120833|184552359|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
92323781|NCT02120833|184552359|SUPERIORITY_OR_OTHER|||||||0.0712|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0712
92323782|NCT02120833|184552359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.43|STANDARD_ERROR_OF_MEAN|3.34||0.0313|TWO_SIDED|95.0|0.7|14.15||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||14.15|0.70|0.0313
92323783|NCT02438826|184552419|SUPERIORITY||LSMean Difference|-0.8||||0.334|TWO_SIDED|95.0|-2.77|1.17||Cui, Hung, Wang (CHW) procedure applied|Mixed Models Analysis|||||1.17|-2.77|0.334
92323784|NCT02438826|184552420|SUPERIORITY||Odds Ratio (OR)|1.297||||0.17|TWO_SIDED|95.0|0.83|2.028||Cui, Hung, Wang (CHW) procedure applied|Mixed Models Analysis|||||2.028|0.830|0.170
92323785|NCT02438826|184552421|SUPERIORITY|||||||0.946||||||Chui, Hung, Wang (CHW) procedure applied)|Mixed Models Analysis|||||||0.946
92323786|NCT02438826|184552422|SUPERIORITY||Odds Ratio (OR)|1.51||||0.057|TWO_SIDED|95.0|0.987|2.309|||Mixed Models Analysis|||||2.309|0.987|0.057
92199520|NCT01124838|184297221|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|1.77||||0.205|TWO_SIDED|95.0|-0.97|4.52|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||4.52|-0.97|0.205
92323787|NCT02438826|184552423|SUPERIORITY||Odds Ratio (OR)|1.141||||0.713|TWO_SIDED|95.0|0.563|2.314|||Mixed Models Analysis|||||2.314|0.563|0.713
92323788|NCT02438826|184552424|SUPERIORITY||Odds Ratio (OR)|1.008||||0.979|TWO_SIDED|95.0|0.548|1.856|||Mixed Models Analysis|||||1.856|0.548|0.979
92323789|NCT02438826|184552425|SUPERIORITY||Odds Ratio (OR)|0.788||||0.437|TWO_SIDED|95.0|0.431|1.44|||Mixed Models Analysis|||||1.440|0.431|0.437
92323790|NCT02397122|184552433|SUPERIORITY|||||||0.259|||||||Mann-Whitney|||Baseline||||0.259
92323791|NCT02397122|184552433|SUPERIORITY|||||||0.097|||||||Mann-Whitney|||6 weeks||||0.097
92323792|NCT02397122|184552433|SUPERIORITY|||||||0.07||||||\<0.05|Mann-Whitney U|||6 months||||0.070
92323793|NCT02397122|184552434|SUPERIORITY|||||||0.067|||||||Mann-Whitney|||Baseline||||0.067
92323794|NCT02397122|184552434|SUPERIORITY|||||||0.13|||||||Mann-Whitney|||6 weeks||||0.130
92323795|NCT02397122|184552434|SUPERIORITY|||||||0.128||||||\<0.05|Mann-Whitney U|||6 months||||0.128
92323796|NCT02397122|184552435|SUPERIORITY|||||||0.298|||||||Mann-Whitney|||Baseline||||0.298
92323797|NCT02397122|184552435|SUPERIORITY|||||||0.152|||||||Mann-Whitney|||6 weeks||||0.152
92323798|NCT02397122|184552435|SUPERIORITY|||||||0.317||||||\<0.05|Mann-Whitney U|||6 months||||0.317
92323799|NCT02397122|184552436|SUPERIORITY|||||||0.136|||||||Mann-Whitney|||Baseline||||0.136
92323800|NCT02397122|184552436|SUPERIORITY|||||||0.041|||||||Mann-Whitney|||6 weeks||||0.041
92323801|NCT02397122|184552436|SUPERIORITY|||||||0.064||||||\<0.05|Mann-Whitney U|||6 months||||0.064
92323802|NCT02397122|184552437|SUPERIORITY|||||||0.245|||||||Mann-Whitney|||Baseline||||0.245
92323803|NCT02397122|184552437|SUPERIORITY|||||||0.099|||||||Mann-Whitney|||6 weeks||||0.099
92323804|NCT02397122|184552437|SUPERIORITY|||||||0.077|||||||Mann-Whitney U|||||||0.077
92323805|NCT02397122|184552438|SUPERIORITY|||||||0.946|||||||Mann-Whitney|||Baseline||||0.946
92323806|NCT02397122|184552438|SUPERIORITY|||||||0.001|||||||Mann-Whitney|||6 weeks||||0.001
92323807|NCT02397122|184552438|SUPERIORITY|||||||0.001||||||\<0.05|Mann-Whitney U|||6 months||||0.001
92323808|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern. Statistically, the test of prolongation is equivalent to a non-inferiority test versus placebo by crossover design, with an non-inferiority margin of 10 ms.|Least-Squares Mean Double Delta Value|-0.99|||||ONE_SIDED|95.0||0.635||||||"Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 0.5 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).~Power Calculation:~Enrollment of 72 subjects would provide at least 84% power to conclude a negative effect, given that up to 16 subjects may withdraw early prior to beginning to replace subjects (at least 56 subjects evaluable), and assuming a standard deviation of ΔΔQTcF of 7 msec and an underlying effect of 5 msec."||0.635||
92323809|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|0.59|||||ONE_SIDED|95.0||2.2||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 1 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||2.200||
92323810|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|0.17|||||ONE_SIDED|95.0||1.795||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 2 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||1.795||
92323811|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.42|||||ONE_SIDED|95.0||3.044||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 3 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.044||
92323812|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.17|||||ONE_SIDED|95.0||2.792||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 4 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||2.792||
92323813|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|0.45|||||ONE_SIDED|95.0||2.074||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 6 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||2.074||
92323814|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|-0.83|||||ONE_SIDED|95.0||0.79||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 8 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||0.790||
92323815|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|0.03|||||ONE_SIDED|95.0||1.65||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 12 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||1.650||
92323816|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|-0.53|||||ONE_SIDED|95.0||1.131||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 24 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||1.131||
92323817|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.17|||||ONE_SIDED|95.0||2.815||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 0.5 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||2.815||
92323818|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|2.36|||||ONE_SIDED|95.0||3.997||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 1 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.997||
92323819|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|2.18|||||ONE_SIDED|95.0||3.812||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 2 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.812||
92323820|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|2.59|||||ONE_SIDED|95.0||4.228||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 3 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||4.228||
92323821|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|3.04|||||ONE_SIDED|95.0||4.674||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 4 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||4.674||
92323822|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.63|||||ONE_SIDED|95.0||3.259||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 6 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.259||
92323823|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|-0.07|||||ONE_SIDED|95.0||1.566||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 8 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||1.566||
92323824|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.82|||||ONE_SIDED|95.0||3.459||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 12 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.459||
92323825|NCT03613649|184552439|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.72|||||ONE_SIDED|95.0||3.415||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 24 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.415||
92323826|NCT03613649|184552444|NON_INFERIORITY|"According to ICH E14, the positive control should have an effect on the mean QT/QTc interval of about 5 ms. Comparison of the lower bound of the confidence interval to 5 ms for a 400 mg dose of moxifloxacin is standard practice for demonstrating assay sensitivity in thorough QT studies."|Least-Squares Mean Double Delta Value|10.19|||||ONE_SIDED|98.75|8.257|||||||Null Hypothesis: The trial does not have the sensitivity to detect an effect on QTcF of regulatory concern, as produced by 400 mg moxifloxacin 1 h after dose.|||8.257|
92323827|NCT03613649|184552444|NON_INFERIORITY|"According to ICH E14, the positive control should have an effect on the mean QT/QTc interval of about 5 ms. Comparison of the lower bound of the confidence interval to 5 ms for a 400 mg dose of moxifloxacin is standard practice for demonstrating assay sensitivity in thorough QT studies."|Least-Squares Mean Double Delta Value|10.79|||||ONE_SIDED|98.75|8.86|||||||Null Hypothesis: The trial does not have the sensitivity to detect an effect on QTcF of regulatory concern, as produced by 400 mg moxifloxacin 2 h after dose.|||8.860|
92323828|NCT03613649|184552444|NON_INFERIORITY|"According to ICH E14, the positive control should have an effect on the mean QT/QTc interval of about 5 ms. Comparison of the lower bound of the confidence interval to 5 ms for a 400 mg dose of moxifloxacin is standard practice for demonstrating assay sensitivity in thorough QT studies."|Least-Squares Mean Double Delta Value|10.62|||||ONE_SIDED|98.75|8.683|||||||Null Hypothesis: The trial does not have the sensitivity to detect an effect on QTcF of regulatory concern, as produced by 400 mg moxifloxacin 3 h after dose.|||8.683|
92323829|NCT03613649|184552444|NON_INFERIORITY|"According to ICH E14, the positive control should have an effect on the mean QT/QTc interval of about 5 ms. Comparison of the lower bound of the confidence interval to 5 ms for a 400 mg dose of moxifloxacin is standard practice for demonstrating assay sensitivity in thorough QT studies."|Least-Squares Mean Double Delta Value|10.63|||||ONE_SIDED|98.75|8.698|||||||Null Hypothesis: The trial does not have the sensitivity to detect an effect on QTcF of regulatory concern, as produced by 400 mg moxifloxacin 4 h after dose.|||8.698|
92323830|NCT03421145|184552477|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92323831|NCT03421145|184552478|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92323832|NCT03421145|184552479|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92323833|NCT03421145|184552480|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92323834|NCT03421145|184552481|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92323835|NCT00474201|184552483|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|Students paired, two-tailed T-test||"Null hypothesis: lopinavir-ritonavir does not alter gemfibrozil pharmacokinetics.~A sample size of 13 healthy subjects yielded 81% power to detect a clinically relevant change of 30% in gemfibrozil AUC with concomitant lopinavir-ritonavir (alpha = 0.05; beta = 0.2). Gemfibrozil pharmacokinetic parameters derived pre- and post lopinavir-ritonavir exposure (Days 1 and 14, respectively) were compared using a paired Students t test."||||<0.0001
92323836|NCT01500187|184552484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.636|||||||ANOVA|||Null Hypothesis: there is no intergroup difference (α=0.05) in DIAGNOdent reading at baseline||||0.636
92323837|NCT01500187|184552484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANOVA|||Null Hypothesis: there is no intergroup difference (α=0.05) in DIAGNOdent reading at three months||||0.001
92323838|NCT01500187|184552484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.423|||||||ANOVA|||Null Hypothesis: there is no intergroup difference (α=0.05) in DIAGNOdent reading at six months||||0.423
92323839|NCT00750139|184552487|SUPERIORITY_OR_OTHER|||||||0.01||||||The first primary efficacy analyses will use the Cochran-Mantel-Haenszel (CMH) test after stratification by pooled clinical site. The test will be conducted with the FAS at a one-sided level of significance of α = 0.025.|Cochran-Mantel-Haenszel|||"The first primary efficacy hypotheses tests are:~H01: p1 ≤ p01 vs. H1: p1 \> p01 where p01 and p1 denote the proportions of complete cure in the placebo 2wks and NAFT-500 groups, respectively."||||0.010
92323840|NCT00750139|184552487|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||The second primary efficacy analyses will use the Cochran-Mantel-Haenszel (CMH) test after stratification by pooled clinical site. The test will be conducted with the FAS at a one-sided level of significance of α = 0.025|Cochran-Mantel-Haenszel|||"The second primary efficacy hypotheses tests are:~H02: p2 ≤ P02 vs. H2: P2 \> p02 where p02 and p2 are denote proportions of complete cure in the placebo 4wks and Naftin 1% groups, respectively"||||0.001
92323841|NCT02784613|184552489|SUPERIORITY|||||||0.05||||||Differences in pre- and post-treatment scores were compared using Wilcoxon signed-rank test for non-parametric matched pairs. All tests of significance were 2-tailed. All analyses were performed in Stata®, version 13.|t-test, 2 sided|||||||0.05
92323842|NCT00586820|184552495|SUPERIORITY_OR_OTHER|||||||0.029|||||||t-test, 2 sided|||||||0.029
92323843|NCT00586820|184552496|SUPERIORITY_OR_OTHER|||||||0.019|||||||t-test, 2 sided|||Change between the groups from immediate pre-PCI and 8 hours post PCI.||||0.019
92323844|NCT00586820|184552496|SUPERIORITY_OR_OTHER|||||||0.007|||||||t-test, 2 sided|||Change between the groups from immediate pre-PCI and 16 hours post-PCI.||||0.007
92323845|NCT01483027|184552510|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0013|TWO_SIDED|95.0|0.54|0.88|||Log Rank|||Analysis performed using a log-rank test||0.88|0.54|0.0013
92323846|NCT01483027|184552511|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.46|0.77|||Log Rank|||Analysis performed using a log-rank test.||0.77|0.46|<0.0001
92323847|NCT01683266|184552594|NON_INFERIORITY_OR_EQUIVALENCE|"Stepwise closed testing approach was used to assess non-inferiority and superiority sequentially:~1. Non-inferiority of HOE901-U300 vs Lantus: Upper bound of two-sided 95% confidence interval (CI) of difference between HOE901-U300 and Lantus on mITT population is \<0.4%.~2. Superiority (only if non-inferiority has been demonstrated): Upper bound of two-sided 95% CI for difference in mean change in HbA1c from baseline to endpoint between HOE901-U300 and Lantus on mITT population is \<0."|Least Squares (LS) Mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.072|||TWO_SIDED|95.0|-0.098|0.185||||||Analysis was performed using mixed model for repeated measurements (MMRM) with treatment groups, strata of screening HbA1c (\<8.0, \>=8.0%), geographical region (Non-Japan; Japan), visit and visit-by-treatment groups interaction as fixed categorical effects; baseline HbA1c and baseline HbA1c-by-visit interaction as continuous fixed covariates.||0.185|-0.098|
92323848|NCT01683266|184552597|SUPERIORITY_OR_OTHER||LS Mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.322|||TWO_SIDED|95.0|-0.982|0.287||||||Change in pre-injection SMPG was analyzed using MMRM model with treatment groups, strata of screening HbA1c (\<8.0, \>=8.0%), geographical region (Non-Japan; Japan), visit and visit-by-treatment groups interaction as fixed categorical effects; pre-injection SMPG value and pre-injection SMPG value-by-visit interaction as continuous fixed covariates.||0.287|-0.982|
92323849|NCT00090220|184552623|SUPERIORITY_OR_OTHER||Percent Relative Risk Reduction|88.7||||||95.0|78.1|94.8|||||Confidence Interval based on binomial tail probabilities and not from a dispersion parameter.|||94.8|78.1|
92323850|NCT00090220|184552649|SUPERIORITY_OR_OTHER||Percent Relative Risk Reduction|94.8||||||95.0|79.9|99.4|||||Confidence Interval based on binomial tail probabilities and not from a dispersion parameter.|||99.4|79.9|
92323851|NCT00090220|184552657|SUPERIORITY_OR_OTHER||Percent Relative Risk Reduction|84.7||||||95.0|67.5|93.7|||||Confidence Interval based on binomial tail probabilities and not from a dispersion parameter.|||93.7|67.5|
92323852|NCT02651155|184552672|SUPERIORITY_OR_OTHER||Median Values of CI|1.0||||0.003|TWO_SIDED|95.0|0.1|1.0|||Van Elteren Test|SBM was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|CI was estimated by inverting the hypothesis test.|||1.0|0.1|0.003
92323853|NCT00823043|184552678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<.001
92323854|NCT00823043|184552679|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||t-test, 2 sided|||||||0.024
92323855|NCT00823043|184552680|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||t-test, 2 sided|||||||0.75
92323856|NCT00823043|184552681|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||t-test, 2 sided|||||||0.69
92323857|NCT04016779|184552687|SUPERIORITY||Least Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|1.28||0.004|TWO_SIDED|95.0|-6.2|-1.2|||Mixed Model for Repeated Measures|||||-1.2|-6.2|0.0040
92323858|NCT04016779|184552688|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.0023|TWO_SIDED|95.0|-0.7|-0.2|||Mixed Model for Repeated Measures|||||-0.2|-0.7|0.0023
92323859|NCT04016779|184552689|SUPERIORITY||Difference in percentage of responders|5.6||||0.303|TWO_SIDED|95.0|-5.0|16.1|||Pearson's chi-squared test|||||16.1|-5.0|0.3030
92323860|NCT04016779|184552690|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0076|TWO_SIDED|95.0|-0.6|-0.1|||Mixed Model for Repeated Measures|||||-0.1|-0.6|0.0076
92323861|NCT04016779|184552691|SUPERIORITY||Difference in percentage of responders|10.7||||0.0744|TWO_SIDED|95.0|-1.0|22.1|||Pearson's chi-squared test|||||22.1|-1.0|0.0744
92323862|NCT04016779|184552692|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.43||0.9205|TWO_SIDED|95.0|-0.9|0.8|||Mixed Model for Repeated Measures|||||0.8|-0.9|0.9205
92323863|NCT04016779|184552693|SUPERIORITY||Least Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.77||0.0015|TWO_SIDED|95.0|-4.0|-0.9|||Mixed Model for Repeated Measures|||||-0.9|-4.0|0.0015
92323864|NCT04016779|184552694|SUPERIORITY||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.66||0.038|TWO_SIDED|95.0|-2.7|-0.1|||Mixed Model for Repeated Measures|||||-0.1|-2.7|0.0380
92199521|NCT01124838|184297222|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|1.88||||0.401|TWO_SIDED|95.0|-2.53|6.29|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||6.29|-2.53|0.401
92323865|NCT04016779|184552695|SUPERIORITY||Difference in percentage of responders|12.4||||0.0395|TWO_SIDED|95.0|0.6|23.8|||Pearson's chi-squared test|||||23.8|0.6|0.0395
92323866|NCT04016779|184552696|SUPERIORITY||Difference in percentage of responders|6.4||||0.2736|TWO_SIDED|95.0|-5.0|17.5|||Pearson's chi-squared test|||||17.5|-5.0|0.2736
92323867|NCT04016779|184552697|SUPERIORITY||Least Square Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.22||0.0468|TWO_SIDED|95.0|-4.8|0.0|||ANCOVA|||||0.0|-4.8|0.0468
92323868|NCT04016779|184552698|SUPERIORITY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.04||0.4462|TWO_SIDED|95.0|-2.8|1.3|||ANCOVA|||||1.3|-2.8|0.4462
92323869|NCT04016779|184552699|SUPERIORITY||Least Square Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|1.29||0.01|TWO_SIDED|95.0|-5.9|-0.8|||ANCOVA|||||-0.8|-5.9|0.0100
92323870|NCT04016779|184552700|SUPERIORITY||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|1.16||0.2186|TWO_SIDED|95.0|-3.7|0.9|||ANCOVA|||||0.9|-3.7|0.2186
92323871|NCT04016779|184552701|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.1||0.0344|TWO_SIDED|95.0|-4.5|-0.2|||ANCOVA|||||-0.2|-4.5|0.0344
92323872|NCT04016779|184552702|SUPERIORITY||Least Square Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.99||0.368|TWO_SIDED|95.0|-1.1|2.8|||ANCOVA|||||2.8|-1.1|0.3680
92323873|NCT04016779|184552703|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.1||0.6361|TWO_SIDED|95.0|-2.7|1.6|||ANCOVA|||||1.6|-2.7|0.6361
92323874|NCT04016779|184552704|SUPERIORITY||Least Square Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.2||0.1708|TWO_SIDED|95.0|-4.0|0.7|||ANCOVA|||||0.7|-4.0|0.1708
92323875|NCT04016779|184552705|SUPERIORITY||Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.3||0.0094|TWO_SIDED|95.0|-6.0|-0.8|||ANCOVA|||||-0.8|-6.0|0.0094
92323876|NCT04016779|184552706|SUPERIORITY||Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.34||0.0104|TWO_SIDED|95.0|-6.1|-0.8|||ANCOVA|||||-0.8|-6.1|0.0104
92323877|NCT04016779|184552707|SUPERIORITY||Least Square Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|1.13||0.0178|TWO_SIDED|95.0|-4.9|-0.5|||ANCOVA|||||-0.5|-4.9|0.0178
92323878|NCT04016779|184552708|SUPERIORITY||Least Square Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|1.34||0.0187|TWO_SIDED|95.0|-5.8|-0.5|||ANCOVA|||||-0.5|-5.8|0.0187
92323879|NCT00979875|184552709|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|2.08|||<|0.0001|TWO_SIDED|90.0|1.7|2.55||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|Mixed Models Analysis|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||2.55|1.70|<0.0001
92323880|NCT00979875|184552709|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|5.26|||<|0.0001|TWO_SIDED|90.0|3.88|7.12||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|Mixed Models Analysis|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||7.12|3.88|<0.0001
92323881|NCT00979875|184552709|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|4.14|||<|0.0001|TWO_SIDED|90.0|3.05|5.6||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|Mixed Models Analysis|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||5.60|3.05|<0.0001
92323882|NCT00979875|184552710|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-38.93|||<|0.0001|TWO_SIDED|90.0|-53.31|-24.55||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||-24.55|-53.31|<0.0001
92323883|NCT00979875|184552710|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-26.43||||0.0032|TWO_SIDED|90.0|-40.81|-12.05||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||-12.05|-40.81|0.0032
92323884|NCT00979875|184552710|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-42.14|||<|0.0001|TWO_SIDED|90.0|-56.53|-27.76||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||-27.76|-56.53|<0.0001
92323885|NCT01945970|184552715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.36|TWO_SIDED|95.0|-1.09|0.4|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|||0.40|-1.09|0.36
92323886|NCT01945970|184552716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.18|TWO_SIDED|95.0|-0.24|1.28|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|||1.28|-0.24|0.18
92323887|NCT01945970|184552717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89||||0.014|TWO_SIDED|95.0|-1.59|-0.19|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|||-0.19|-1.59|0.014
92323888|NCT01945970|184552718|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.49||||0.22|TWO_SIDED|95.0|-1.3|0.31|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of positive control adjusted for placebo|||0.31|-1.30|0.22
92323889|NCT01945970|184552719|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.71||||0.09|TWO_SIDED|95.0|-0.11|1.53|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of positive control adjusted for placebo|||1.53|-0.11|0.09
92323890|NCT01945970|184552720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.32|TWO_SIDED|95.0|-1.13|0.37|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of positive control adjusted for placebo|||0.37|-1.13|0.32
92323891|NCT01945970|184552721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.89||||0.14|TWO_SIDED|95.0|-0.61|4.39|||Mixed Models Analysis|Subject as random factor and treatment and period as fixed effects.|Effect of black tea adjusted for placebo|||4.39|-0.61|0.14
92323892|NCT01945970|184552722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.69|TWO_SIDED|95.0|-2.41|1.62|||Mixed Models Analysis|Subject as random factor and treatment and period as fixed effects.|Effect of black tea adjusted for placebo|||1.62|-2.41|0.69
92323893|NCT01945970|184552723|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.44||||0.72|TWO_SIDED|95.0|-2.06|2.95|||Mixed Models Analysis|Subject as random factor and treatment and period as fixed effects|Effect of positive control adjusted for placebo|||2.95|-2.06|0.72
92323894|NCT01945970|184552724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86||||0.39|TWO_SIDED|95.0|-1.15|2.88|||Mixed Models Analysis|Subject as random factor and treatment and period as fixed effects|Effect of positive control adjusted for placebo|||2.88|-1.15|0.39
92323895|NCT01945970|184552725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.74|TWO_SIDED|95.0|-1.75|1.24|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|||1.24|-1.75|0.74
92323896|NCT01945970|184552726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.41|TWO_SIDED|95.0|-2.12|0.88|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|||0.88|-2.12|0.41
92323897|NCT01945970|184552727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.74|TWO_SIDED|95.0|-1.11|1.54|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects||1.54|-1.11|0.74
92323898|NCT01945970|184552728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.66|TWO_SIDED|95.0|-1.84|1.17|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of positive control adjusted for placebo|||1.17|-1.84|0.66
92323899|NCT01945970|184552729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.11|TWO_SIDED|95.0|-2.7|0.3|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of positive control adjusted for placebo|||0.30|-2.70|0.11
92323900|NCT01945970|184552730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.55|TWO_SIDED|95.0|-0.93|1.73|||Mixed Models Analysis||Effect of positive control adjusted for placebo|||1.73|-0.93|0.55
92199522|NCT01124838|184297222|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|2.36||||0.256|TWO_SIDED|95.0|-1.73|6.45|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||6.45|-1.73|0.256
92199523|NCT01124838|184297223|SUPERIORITY_OR_OTHER_LEGACY||Mena Difference|-0.1||||0.967|TWO_SIDED|95.0|-4.81|4.61|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||4.61|-4.81|0.967
92199524|NCT01124838|184297223|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.87||||0.714|TWO_SIDED|95.0|-5.53|3.79|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||3.79|-5.53|0.714
92199525|NCT01124838|184297224|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|0.56||||0.83|TWO_SIDED|95.0|-4.56|5.68|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||5.68|-4.56|0.830
92199526|NCT01124838|184297224|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.49||||0.842|TWO_SIDED|95.0|-5.32|4.34|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment and race (Japanese vs. non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||4.34|-5.32|0.842
92199527|NCT02065882|184297249|OTHER|Confirmatory t-test testing of the MCF difference (1 h post-dose minus pre-dose)|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92199528|NCT03660826|184297295|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.93|TWO_SIDED|95.0|0.91|2.3||Comparing Arm II vs Arm I (reference group)|Log Rank||||Comparing Arm II vs Arm I (reference group)|2.30|0.91|0.93
92199529|NCT03660826|184297295|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.06|TWO_SIDED|95.0|0.43|1.14|||Log Rank|||Comparing Arm III vs Arm I||1.14|0.43|0.06
92199530|NCT03660826|184297295|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.62|TWO_SIDED|95.0|0.67|1.7|||Log Rank|||Comparing Arm IV vs Arm VII||1.70|0.67|0.62
92199531|NCT03660826|184297295|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.36|TWO_SIDED|95.0|0.58|1.46|||Log Rank|||Comparing Arm V vs Arm VII||1.46|0.58|0.36
92199532|NCT03660826|184297295|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.14|TWO_SIDED|95.0|0.49|1.25|||Log Rank|||Comparing Arm VI vs VII||1.25|0.49|0.14
92199533|NCT03931746|184297301|SUPERIORITY||Hodges-Lehmann median difference|-3.5||||0.04|TWO_SIDED|95.0|-8.0|-0.5|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft group minus No Porcine Xenograft group.|||-0.5|-8.0|0.04
92199534|NCT03931746|184297302|SUPERIORITY||Hodges-Lehmann median difference|-2.5||||0.75|TWO_SIDED|95.0|-9.0|12.0|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft minus No Porcine Xenograft.|||12|-9|0.75
92199535|NCT03931746|184297303|SUPERIORITY||Hodges-Lehmann median difference|1.0||||1|TWO_SIDED|95.0|-19.0|20.0|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft group minus No Porcine Xenograft group.|||20.0|-19.0|1
92199536|NCT03931746|184297304|SUPERIORITY||Hodges-Lehmann median difference|0.01||||1|TWO_SIDED|95.0|-0.26|0.33|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft vs. No Porcine Xenograft.|||0.33|-0.26|1
92199537|NCT03931746|184297305|SUPERIORITY||Hodges-Lehmann median difference|0.0||||1|TWO_SIDED|95.0|-6.0|4.0|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft group minus No Porcine Xenograft group.|||4|-6|1
92199538|NCT03931746|184297306|SUPERIORITY||Hodges-Lehmann median difference|0.5||||0.54|TWO_SIDED|95.0|-1.0|2.0|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft group minus No Porcine Xenograft group.|||2|-1|0.54
92199539|NCT03931746|184297307|SUPERIORITY||Odds Ratio (OR)|0.69||||1|TWO_SIDED|95.0|0.03|13.3|||Fisher Exact||"The No Porcine Xenograft group is the reference group."|||13.3|0.03|1
92199540|NCT03931746|184297308|SUPERIORITY||Risk Difference (RD)|-0.167||||0.43|TWO_SIDED|95.0|-0.564|0.185|||Fisher Exact||"The risk difference is calculated as the outcome risk in the Porcine Xenograft group minus the outcome risk in the No Porcine Xenograft group. The confidence interval for the risk difference was calculated using the Newcombe hybrid score method."|||0.185|-0.564|0.43
92199541|NCT03931746|184297309|SUPERIORITY||Odds Ratio (OR)|0.6||||1|TWO_SIDED|95.0|0.006|55.9|||Fisher Exact||"The No Porcine Xenograft group is the reference group."|||55.9|0.006|1
92199542|NCT01183390|184297311|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.6|||||TWO_SIDED|90.0|95.1|102.28|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||102.28|95.10|
92199543|NCT01183390|184297312|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.4|||||TWO_SIDED|90.0|96.99|101.8|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.80|96.99|
92199544|NCT04057573|184297318|SUPERIORITY||Odds Ratio (OR)|3.45||||0.0004|TWO_SIDED|95.0|1.737|6.835||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||6.835|1.737|0.0004
92199545|NCT04057573|184297319|SUPERIORITY||Odds Ratio (OR)|3.99|||<|0.0001|TWO_SIDED|95.0|2.296|6.949||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||6.949|2.296|< 0.0001
92199546|NCT04057573|184297320|SUPERIORITY||Odds Ratio (OR)|15.29||||0.0065|TWO_SIDED|95.0|2.15|108.739||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||108.739|2.150|0.0065
92199547|NCT04057573|184297321|SUPERIORITY||Odds Ratio (OR)|4.29||||0.0006|TWO_SIDED|95.0|1.865|9.853||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||9.853|1.865|0.0006
92199548|NCT04057573|184297322|SUPERIORITY||Odds Ratio (OR)|4.86||||0.0013|TWO_SIDED|95.0|1.851|12.755||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||12.755|1.851|0.0013
92199549|NCT04057573|184297323|SUPERIORITY||Least squares mean difference|-19.5|STANDARD_ERROR_OF_MEAN|4.59|<|0.0001|TWO_SIDED|95.0|-28.46|-10.45||Response Variable = Treatment + Stratification Factors (Skin Type Fitzpatrick scale Type I, II versus Type III, IV, V, and VI, Region North America/Europe) + Baseline|ANCOVA|||||-10.45|-28.46|< 0.0001
92199550|NCT04057573|184297326|SUPERIORITY||Odds Ratio (OR)|3.76|||<|0.0001|TWO_SIDED|95.0|2.267|6.246||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||6.246|2.267|< 0.0001
92199551|NCT04057573|184297328|SUPERIORITY||Least squares mean difference|-28.59|STANDARD_ERROR_OF_MEAN|4.94|<|0.0001|TWO_SIDED|95.0|-38.33|-18.86|||mixed-effect model; repeated measurement|||||-18.86|-38.33|<0.0001
92199552|NCT04057573|184297331|SUPERIORITY||least squares mean difference|-19.85|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-26.55|-13.16|||mixed-effect model; repeated measurement|||||-13.16|-26.55|<0.0001
92199553|NCT04057573|184297333|SUPERIORITY||least squares mean difference|-11.95|STANDARD_ERROR_OF_MEAN|2.68|<|0.0001|TWO_SIDED|95.0|-17.23|-6.67|||mixed-effect model; repeated measurement|||||-6.67|-17.23|<0.0001
92199554|NCT04057573|184297335|SUPERIORITY||Odds Ratio (OR)|3.75|||<|0.0001|TWO_SIDED|95.0|2.121|6.63||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||T-VASI25||6.630|2.121|< 0.0001
92199555|NCT04057573|184297335|SUPERIORITY||Odds Ratio (OR)|4.59||||0.0436|TWO_SIDED|95.0|1.045|20.192||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||T-VASI75||20.192|1.045|0.0436
92199556|NCT04057573|184297335|SUPERIORITY||Odds Ratio (OR)|1.35||||||||||The p value was not evaluable because the response rate in the vehicle group was too low.||||T-VASI90||||
92199557|NCT04057573|184297338|SUPERIORITY||least squares mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.51||0.235|TWO_SIDED|95.0|-1.6|0.39|||mixed-effect model; repeated measurement|||||0.39|-1.60|0.2350
92199558|NCT04991753|184297342|SUPERIORITY||Least square mean difference|-0.45|||=|0.224|TWO_SIDED|95.0|-1.17|0.28|||ANCOVA|||||0.28|-1.17|=0.224
92323901|NCT02738879|184552731|NON_INFERIORITY|Hypothesis A: After 30 weeks, continuing sitagliptin is non-inferior relative to withdrawing sitagliptin on the change from baseline in A1C. Non-inferiority is declared if the upper bound of the two-sided 95% CI for the difference is less than 0.3%.|Between Group Difference in the LSM|-0.46|||||TWO_SIDED|95.0|-0.58|-0.34|||LDA|||A longitudinal data analysis (LDA) model included terms for treatment, AHA treatment at screening (Met + DPP-4i, Met + DPP-4i + SU, Met + SU), time, and the interactions of time by treatment and of time by AHA treatment at screening. Least Squares Means = LSM||-0.34|-0.58|
92199559|NCT00233480|184297355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025|TWO_SIDED|95.0|||||paired t test|||||||0.025
92199560|NCT01475305|184297361|SUPERIORITY_OR_OTHER||Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|2.05|||||Relative risk was calculated as the proportion of participants with RSV infection in the MEDI-557 arm divided by the proportion of participants with RSV infection in the placebo arm.|||2.05|0.00|
92199561|NCT01475305|184297362|SUPERIORITY_OR_OTHER||Relative Risk|1.0|||||TWO_SIDED|95.0|0.16|6.24|||||Relative risk was calculated as the proportion of participants with RSV infection in the MEDI-557 arm divided by the proportion of participants with RSV infection in the placebo arm.|RSV infection by quantitative real-time RT-PCR||6.24|0.16|
92199562|NCT01475305|184297362|SUPERIORITY_OR_OTHER||Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|2.05|||||Relative risk was calculated as the proportion of participants with RSV infection in the MEDI-557 arm divided by the proportion of participants with RSV infection in the placebo arm.|RSV infection by DFA||2.05|0.00|
92199563|NCT01475305|184297362|SUPERIORITY_OR_OTHER||Relative Risk|1.0|||||TWO_SIDED|95.0|0.16|6.24|||||Relative risk was calculated as the proportion of participants with RSV infection in the MEDI-557 arm divided by the proportion of participants with RSV infection in the placebo arm.|RSV infection by Any Method||6.24|0.16|
92199564|NCT01251770|184297395|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 2 sided|||Serum Sodium difference at the beginning||||0.030
92199565|NCT01251770|184297395|SUPERIORITY_OR_OTHER|||||||0.871||95.0|||||t-test, 2 sided|||Serum Sodium at the end of the study||||0.871
92199566|NCT01251770|184297396|SUPERIORITY_OR_OTHER|||||||0.895|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.895
92199567|NCT03299049|184297408|NON_INFERIORITY|Non-inferiority was concluded if the upper bound of the two-sided 95% confidence interval (CI) for the Cochran-Mantel Haenzel (CMH) adjusted treatment difference (Q8W minus Q4W) is less than 4%.|Adjusted difference|0.8|||||TWO_SIDED|95.0|-0.6|2.2|||||Adjusted CMH estimate of the difference in the percentage of participants with Plasma HIV-1 \>=50 c/mL between each treatment group (Q8W - Q4W) and corresponding 95% CI is presented.|||2.2|-0.6|
92199568|NCT03299049|184297409|NON_INFERIORITY|Non-inferiority was concluded if the upper bound of the two-sided 95% CI for the CMH adjusted treatment difference (Q8W minus Q4W) is greater than -10%|Adjusted difference|0.8|||||TWO_SIDED|95.0|-2.1|3.7|||||Adjusted CMH estimate of the difference in the percentage of participants with Plasma HIV-1 \<50 c/mL between each treatment group (Q8W-Q4W) and corresponding 95% CI is presented.|||3.7|-2.1|
92199569|NCT01901419|184297456|SUPERIORITY|||||||0.618|||||||t-test, 2 sided|||||||0.618
92199570|NCT01901419|184297457|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.410
92323902|NCT02738879|184552731|SUPERIORITY|Hypothesis B: After 30 weeks, continuing sitagliptin results in a greater reduction of A1C relative to withdrawing sitagliptin.|Between Group Difference in the LSM|-0.46|||<|0.001|TWO_SIDED|95.0|-0.58|-0.34|||LDA|||A LDA model included terms for treatment, AHA treatment at screening (Met + DPP-4i, Met + DPP-4i + SU, Met + SU), time, and the interactions of time by treatment and of time by AHA treatment at screening.||-0.34|-0.58|< 0.001
92323903|NCT02738879|184552732|SUPERIORITY||Event Rate Ratio|0.73|||=|0.039|TWO_SIDED|95.0|0.54|0.98|||Negative Binomial Model|||Calculated via the Negative Binomial Model including terms for treatment, race (i.e., White and Other), region (i.e., Europe, North America, and Other), AHA treatment at screening, baseline A1C value and baseline body weight and an offset for follow-up time (on the natural log scale).||0.98|0.54|= 0.039
92323904|NCT02738879|184552733|OTHER|95% CI|Between Group Difference in Percentages|-0.3|||||TWO_SIDED|95.0|-2.3|1.7|||Miettinen & Nurminen|||||1.7|-2.3|
92323905|NCT02738879|184552734|SUPERIORITY||Between Group Difference in Percentages|-4.1|||=|0.25|TWO_SIDED|95.0|-11.2|2.9|||Miettinen and Nurminen|||||2.9|-11.2|= 0.250
92323906|NCT02738879|184552735|SUPERIORITY||Between Group Difference in the LSM|-8.0|||=|0.016|TWO_SIDED|95.0|-14.6|-1.5|||LDA model|||The analysis is based on a LDA model including terms for treatment, AHA treatment at screening (Met + DPP-4i, Met + DPP-4i + SU, Met + SU), time, and the interactions of time by treatment and of time by AHA treatment at screening.||-1.5|-14.6|= 0.016
92323907|NCT02738879|184552736|SUPERIORITY||Event Rate Ratio|0.81|||=|0.041|TWO_SIDED|95.0|0.67|0.99|||Negative Binomial Model|||Negative Binomial Model including terms for treatment, race (i.e., White and Other), region (i.e., Europe, North America, and Other), AHA treatment at screening, baseline A1C value and baseline body weight and an offset for follow-up time (on the natural log scale).||0.99|0.67|= 0.041
92323908|NCT02738879|184552737|SUPERIORITY||Event Rate Ratio|0.83|||=|0.473|TWO_SIDED|95.0|0.51|1.37|||Negative Binomial Model|||Negative Binomial Model including terms for treatment, race (i.e., White and Other), region (i.e., Europe, North America, and Other), AHA treatment at screening, baseline A1C value and baseline body weight and an offset for follow-up time (on the natural log scale).||1.37|0.51|= 0.473
92323909|NCT02738879|184552738|SUPERIORITY||Between Group Difference in Percentages|-1.2|||=|0.624|TWO_SIDED|95.0|-6.2|3.7|||Miettinen and Nurminen|||Percentages and difference in percentages were calculated via the Miettinen and Nurminen stratified by AHA treatment at screening. Includes imputed events after participants discontinued from the study medication, using a Gamma frailty model. The bootstrap method was used to obtain the CI and p-value.||3.7|-6.2|= 0.624
92323910|NCT02738879|184552739|SUPERIORITY||Between Group Difference in Percentages|18.8|||<|0.001|TWO_SIDED|95.0|11.6|25.7|||Miettinen and Nurminen|||||25.7|11.6|< 0.001
92323911|NCT02738879|184552740|SUPERIORITY||Between Group Difference in the LSM|-6.5|||=|0.02|TWO_SIDED|95.0|-11.9|-1.0|||LDA|||Analysis was based on a LDA model including terms for treatment, AHA treatment at screening (Met + DPP-4i, Met + DPP-4i + SU, Met + SU), time, and the interactions of time by treatment and of time by AHA treatment at screening.||-1.0|-11.9|= 0.020
92323912|NCT02738879|184552741|OTHER|95% CI|Between Group Difference in Percentages|-2.1|||||TWO_SIDED|95.0|-9.1|5.0|||Miettinen & Nurminen|||||5.0|-9.1|
92199571|NCT01901419|184297458|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||||||0.088
92323913|NCT02738879|184552742|SUPERIORITY||Event Rate Ratio|0.76|||=|0.394|TWO_SIDED|95.0|0.4|1.44|||Negative Binomial Model|||The analysis was calculated via the Negative Binomial Model including terms for treatment, race (i.e., White and Other), region (i.e., Europe, North America, and Other), AHA treatment at screening, baseline A1C value and baseline body weight and an offset for follow-up time (on the natural log scale).||1.44|0.40|= 0.394
92323914|NCT02738879|184552743|SUPERIORITY||Between Group Difference in Percentages|-1.2|||=|0.74|TWO_SIDED|95.0|-8.2|5.8|||Miettinen and Nurminen|||The analysis included imputed events after participants discontinued from the study medication, using a Gamma frailty model. Proportions and difference in proportions were calculated via the Miettinen and Nurminen stratified by AHA treatment at screening. The bootstrap method was used to obtain the CI and p-value.||5.8|-8.2|= 0.740
92323915|NCT02738879|184552744|SUPERIORITY||Between Group Difference in Percentages|-0.7|||=|0.712|TWO_SIDED|95.0|-4.7|3.2|||Miettinen and Nurminen|||Percentages and difference in percentages were calculated via the Miettinen and Nurminen stratified by AHA treatment at screening. The analysis included imputed events after subjects discontinued from the study medication, using a Gamma frailty model. The bootstrap method was used to obtain the CI and p-value.||3.2|-4.7|= 0.712
92323916|NCT02738879|184552745|SUPERIORITY||Between Group Difference in Percentages|5.3|||=|0.03|TWO_SIDED|95.0|0.5|10.1|||Miettinen and Nurminen|||||10.1|0.5|= 0.030
92323917|NCT04143594|184552760|SUPERIORITY||Difference in percentage|-2.6||||0.7178|TWO_SIDED|95.0|-18.4|13.2||P-value was from the Cochran-Mantel-Haenszel (CMH) tests stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing and the B/F/TAF groups, and its 95% confidence interval (CI) were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||13.2|-18.4|0.7178
92199572|NCT01901419|184297459|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||0.320
92199573|NCT01901419|184297460|SUPERIORITY|||||||0.512|||||||t-test, 2 sided|||||||0.512
92199574|NCT01901419|184297461|SUPERIORITY|||||||0.144|||||||t-test, 2 sided|||||||0.144
92199575|NCT01901419|184297462|SUPERIORITY|||||||0.338|||||||t-test, 2 sided|||||||0.338
92199576|NCT01901419|184297463|SUPERIORITY|||||||0.356|||||||t-test, 2 sided|||||||0.356
92199577|NCT01901419|184297464|SUPERIORITY|||||||0.478|||||||t-test, 2 sided|||||||0.478
92199578|NCT01901419|184297465|SUPERIORITY|||||||0.515|||||||t-test, 2 sided|||||||0.515
92199579|NCT01901419|184297466|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
92199580|NCT01901419|184297467|SUPERIORITY|||||||0.227|||||||t-test, 2 sided|||||||0.227
92199581|NCT01901419|184297468|SUPERIORITY|||||||0.141|||||||t-test, 2 sided|||||||0.141
92199582|NCT01901419|184297469|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
92199583|NCT01901419|184297470|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.800
92199584|NCT01901419|184297471|SUPERIORITY|||||||0.948|||||||t-test, 2 sided|||||||0.948
92199585|NCT01901419|184297472|SUPERIORITY|||||||0.682|||||||t-test, 2 sided|||||||0.682
92199586|NCT01901419|184297473|SUPERIORITY|||||||0.928|||||||t-test, 2 sided|||||||0.928
92199587|NCT01901419|184297474|SUPERIORITY|||||||0.672|||||||t-test, 2 sided|||||||0.672
92199588|NCT01901419|184297475|SUPERIORITY|||||||0.894|||||||t-test, 2 sided|||||||0.894
92199589|NCT01901419|184297476|SUPERIORITY|||||||0.135|||||||t-test, 2 sided|||||||0.135
92199590|NCT01901419|184297477|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||||||0.038
92199591|NCT01901419|184297478|SUPERIORITY|||||||0.852|||||||t-test, 2 sided|||||||0.852
92199592|NCT01901419|184297479|SUPERIORITY|||||||0.454|||||||t-test, 2 sided|||||||0.454
92199593|NCT01901419|184297480|SUPERIORITY|||||||0.663|||||||t-test, 2 sided|||||||0.663
92199594|NCT01901419|184297481|SUPERIORITY|||||||0.872|||||||t-test, 2 sided|||||||0.872
92199595|NCT01901419|184297482|SUPERIORITY|||||||0.318|||||||t-test, 2 sided|||||||0.318
92199596|NCT01901419|184297483|SUPERIORITY|||||||0.365|||||||t-test, 2 sided|||||||0.365
92199597|NCT01901419|184297484|SUPERIORITY|||||||0.077|||||||t-test, 2 sided|||||||0.077
92199598|NCT01901419|184297485|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||0.640
92199599|NCT04486625|184297486|OTHER|Analysis of variance (ANOVA) was used to compare the natural log transformed AUC0-24,ss between the normal renal function group (Reference) and the severe renal impairment group (Test). The geometric least squares mean point estimate and the associated 90% confidence intervals (CIs) for the difference of each comparison was estimated.|Ratio (%) of adjusted geometric means|79.48|||||TWO_SIDED|90.0|66.52|94.96||||||||94.96|66.52|
92199600|NCT04486625|184297487|OTHER|ANOVA was used to compare the natural log transformed Cmax between the normal renal function group (Reference) and the severe renal impairment group (Test). The geometric least squares mean point estimate and the associated 90% CIs for the difference of each comparison was estimated.|Ratio (%) of adjusted geometric means|75.58|||||TWO_SIDED|90.0|66.1|86.43||||||||86.43|66.10|
92199601|NCT04486625|184297488|OTHER|ANOVA was used to compare the natural log transformed AUC0-24,ss between the normal renal function group (Reference) and the severe renal impairment group (Test). The geometric least squares mean point estimate and the associated 90% CIs for the difference of each comparison was estimated.|Ratio (%) of of adjusted geometric means|124.19|||||TWO_SIDED|90.0|100.18|153.97||||||||153.97|100.18|
92199602|NCT04486625|184297489|OTHER|ANOVA was used to compare the natural log transformed Cmax between the normal renal function group (Reference) and the severe renal impairment group (Test). The geometric least squares mean point estimate and the associated 90% CIs for the difference of each comparison was estimated.|Ratio (%) of adjusted geometric means|102.42|||||TWO_SIDED|90.0|87.55|119.83||||||||119.83|87.55|
92199603|NCT01411241|184297515|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% Confidence Interval (CI) of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.48|1.4||||||Non-inferiority (Group 1 - Group 2); Anti-diphtheria. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||1.40|-1.48|
92199604|NCT01411241|184297515|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.37|||||TWO_SIDED|95.0|-1.14|2.07||||||Non-inferiority (Group 1 - Group 2); Anti-tetanus. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||2.07|-1.14|
92199605|NCT01411241|184297515|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.37|||||TWO_SIDED|95.0|-1.14|2.08||||||Non-inferiority (Group 1 - Group 2); Anti-polio 1. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||2.08|-1.14|
92199606|NCT01411241|184297515|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.48|1.4||||||Non-inferiority (Group 1 - Group 2); Anti-polio 2. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||1.40|-1.48|
92199607|NCT01411241|184297515|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.37|||||TWO_SIDED|95.0|-1.15|2.09||||||Non-inferiority (Group 1 - Group 2); Anti-polio 3. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||2.09|-1.15|
92199608|NCT01411241|184297515|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.48|1.4||||||Non-inferiority (Group 1 - Group 2); Anti-PRP. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||1.40|-1.48|
92199609|NCT01411241|184297515|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|-0.56|||||TWO_SIDED|95.0|-3.93|2.69||||||Non-inferiority (Group 1 - Group 2); Anti-PT. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||2.69|-3.93|
92199610|NCT01411241|184297515|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|-0.36|||||TWO_SIDED|95.0|-4.87|4.06||||||Non-inferiority (Group 1 - Group 2); Anti-FHA. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||4.06|-4.87|
92199611|NCT02980042|184297524|SUPERIORITY||Risk Ratio (RR)|0.6616||||0.1996|TWO_SIDED|95.0|0.3666|1.1942|||Generalized estimating equations|GEE was necessary because there are repeated measures on subjects.|This is comparing the Switching group to the Comparator group|||1.1942|.3666|0.1996
92323918|NCT04143594|184552760|SUPERIORITY||Difference in percentage|-7.1||||0.39|TWO_SIDED|95.0|-23.4|9.3||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||9.3|-23.4|0.3900
92323919|NCT04143594|184552760|SUPERIORITY||Difference in percentage|-7.2||||0.3797|TWO_SIDED|95.0|-23.5|9.1||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||9.1|-23.5|0.3797
92323920|NCT04143594|184552761|SUPERIORITY||Difference in percentage|-5.5||||0.2398|TWO_SIDED|95.0|-15.9|4.8||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||4.8|-15.9|0.2398
92323921|NCT04143594|184552761|SUPERIORITY||Difference in percentage|-7.4||||0.1639|TWO_SIDED|95.0|-18.3|3.4||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||3.4|-18.3|0.1639
92323922|NCT04143594|184552761|SUPERIORITY||Difference in percentage|-5.7||||0.2307|TWO_SIDED|95.0|-16.3|4.9||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||4.9|-16.3|0.2307
92323923|NCT04143594|184552762|SUPERIORITY||Difference in percentage|-6.7||||0.3142|TWO_SIDED|95.0|-20.7|7.3||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||7.3|-20.7|0.3142
92323924|NCT04143594|184552762|SUPERIORITY||Difference in percentage|-7.2||||0.3009|TWO_SIDED|95.0|-21.3|6.8||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||6.8|-21.3|0.3009
92323925|NCT04143594|184552762|SUPERIORITY||Difference in percentage|-7.6||||0.2859|TWO_SIDED|95.0|-21.8|6.7||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||6.7|-21.8|0.2859
92323926|NCT04143594|184552763|SUPERIORITY||Difference in percentage|-7.1||||0.3686|TWO_SIDED|95.0|-23.2|9.0||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||9.0|-23.2|0.3686
92199612|NCT02980042|184297525|SUPERIORITY||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.5299|1.8872|||Generalized estimating equations|GEE was used because there are repeated measures on subjects|Comparing Switching group Day 1 to combined Comparator group|||1.8872|.5299|1.0000
92199613|NCT02980042|184297525|SUPERIORITY||Risk Ratio (RR)|0.2857||||0.0053|TWO_SIDED|95.0|0.1006|0.8114|||Generalized estimating equations|GEE was used because there are repeated measures on subjects.|Switching group Day 15 was compared to combined Comparator group.|||.8114|.1006|0.0053
92199614|NCT02980042|184297525|SUPERIORITY||Risk Ratio (RR)|0.8571||||0.6474|TWO_SIDED|95.0|0.4385|1.6753|||Generalized estimating equations|GEE was used because there are repeated measures on subjects.||||1.6753|.4385|0.6474
92323927|NCT04143594|184552763|SUPERIORITY||Difference in percentage|-16.5||||0.0887|TWO_SIDED|95.0|-34.0|1.0||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||1.0|-34.0|0.0887
92323928|NCT04143594|184552763|SUPERIORITY||Difference in percentage|-5.4||||0.4949|TWO_SIDED|95.0|-21.5|10.7||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||10.7|-21.5|0.4949
92323929|NCT04143594|184552764|SUPERIORITY||Difference in LSM|0.08||||0.5755|TWO_SIDED|95.0|-0.2|0.37||P-value was from analysis of variance (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in least squares means (Diff in LSM), and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.37|-0.20|0.5755
92199615|NCT02980042|184297529|SUPERIORITY||Risk Ratio (RR)|0.2857||||0.0075|TWO_SIDED|95.0|0.1072|0.7613|||Generalized estimating equations|GEE was used because there are repeated measures on subjects.||||.7613|.1072|0.0075
92199616|NCT02980042|184297529|SUPERIORITY||Risk Ratio (RR)|0.8571||||0.593|TWO_SIDED|95.0|0.4868|1.5093|||Generalized estimating equations|GEE was used because there are repeated measures on subjects.||||1.5093|.4868|0.5930
92199617|NCT02980042|184297529|SUPERIORITY||Risk Ratio (RR)|3.0||||0.0209|TWO_SIDED|95.0|1.126|7.9932|||Generalized estimating equations|GEE was used because there are repeated measures on subjects.||||7.9932|1.1260|0.0209
92199618|NCT02980042|184297534|OTHER||Mean Difference (Net)|0.0||||0.005|TWO_SIDED|95.0|-27.05|-5.01||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-5.01|-27.05|0.005
92199619|NCT02980042|184297535|OTHER||Mean Difference (Net)|2.55|||<|0.0001|TWO_SIDED|95.0|1.54|3.56||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||3.56|1.54|<0.0001
92199620|NCT02980042|184297536|OTHER||Median Difference (Net)|8.58|||<|0.0001|TWO_SIDED|95.0|6.33|10.82||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||10.82|6.33|<0.0001
92323930|NCT04143594|184552764|SUPERIORITY||Difference in LSM|0.02||||0.8697|TWO_SIDED|95.0|-0.25|0.29||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.29|-0.25|0.8697
92323931|NCT04143594|184552764|SUPERIORITY||Difference in LSM|0.06||||0.7052|TWO_SIDED|95.0|-0.23|0.35||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.35|-0.23|0.7052
92323932|NCT04143594|184552765|SUPERIORITY||Difference in LSM|0.02||||0.8942|TWO_SIDED|95.0|-0.26|0.3||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.30|-0.26|0.8942
92199621|NCT02980042|184297537|OTHER||Mean Difference (Net)|-7.37|||<|0.0001|TWO_SIDED|95.0|-10.19|-4.55||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-4.55|-10.19|<0.0001
92323933|NCT04143594|184552765|SUPERIORITY||Difference in LSM|-0.02||||0.9058|TWO_SIDED|95.0|-0.28|0.25||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.25|-0.28|0.9058
92199622|NCT02980042|184297538|OTHER||Mean Difference (Net)|44.32|||<|0.0001|TWO_SIDED|95.0|29.59|59.05||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||59.05|29.59|<0.0001
92199623|NCT02980042|184297539|OTHER||Mean Difference (Net)|353.35||||0.0002|TWO_SIDED|95.0|175.23|531.46||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||531.46|175.23|0.0002
92199624|NCT02980042|184297540|OTHER||Mean Difference (Net)|176.9|||<|0.0001|TWO_SIDED|95.0|124.5|229.31||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||229.31|124.50|<0.0001
92199625|NCT02980042|184297541|OTHER||Mean Difference (Net)|0.19||||0.002|TWO_SIDED|95.0|0.07|0.32||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||0.32|0.07|0.0020
92199626|NCT02980042|184297542|OTHER||Mean Difference (Net)|0.55|||<|0.0001|TWO_SIDED|95.0|0.32|0.77||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||0.77|0.32|<0.0001
92199627|NCT02980042|184297543|OTHER||Mean Difference (Net)|-46.16||||0.0091|TWO_SIDED|95.0|-80.61|-11.72||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-11.72|-80.61|0.0091
92199628|NCT02980042|184297544|OTHER||Mean Difference (Net)|55.26||||0.0002|TWO_SIDED|95.0|27.0|83.52||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||83.52|27.00|0.0002
92199629|NCT02980042|184297545|OTHER||Mean Difference (Net)|-17.24||||0.0044|TWO_SIDED|95.0|-28.96|-5.51||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-5.51|-28.96|0.0044
92323934|NCT04143594|184552765|SUPERIORITY||Difference in LSM|0.04||||0.8129|TWO_SIDED|95.0|-0.27|0.35||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.35|-0.27|0.8129
92323935|NCT04143594|184552766|SUPERIORITY||Difference in LSM|0.04||||0.7864|TWO_SIDED|95.0|-0.25|0.33||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.33|-0.25|0.7864
92323936|NCT04143594|184552766|SUPERIORITY||Difference in LSM|-0.05||||0.7013|TWO_SIDED|95.0|-0.31|0.21||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.21|-0.31|0.7013
92323937|NCT04143594|184552766|SUPERIORITY||Difference in LSM|0.22||||0.2753|TWO_SIDED|95.0|-0.18|0.62||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.62|-0.18|0.2753
92323938|NCT04143594|184552767|SUPERIORITY||Difference in LSM|0.08||||0.564|TWO_SIDED|95.0|-0.19|0.34||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.34|-0.19|0.5640
92323939|NCT04143594|184552767|SUPERIORITY||Difference in LSM|-0.01||||0.9555|TWO_SIDED|95.0|-0.28|0.26||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.26|-0.28|0.9555
92323940|NCT04143594|184552767|SUPERIORITY||Difference in LSM|0.14||||0.4025|TWO_SIDED|95.0|-0.19|0.46||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.46|-0.19|0.4025
92323941|NCT04143594|184552768|SUPERIORITY||Difference in LSM|12.0||||0.7751|TWO_SIDED|95.0|-73.0|97.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||97|-73|0.7751
92323942|NCT04143594|184552768|SUPERIORITY||Difference in LSM|-2.0||||0.9549|TWO_SIDED|95.0|-79.0|75.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||75|-79|0.9549
92323943|NCT04143594|184552768|SUPERIORITY||Difference in LSM|44.0||||0.2603|TWO_SIDED|95.0|-33.0|120.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||120|-33|0.2603
92323944|NCT04143594|184552769|SUPERIORITY||Difference in LSM|-31.0||||0.4827|TWO_SIDED|95.0|-119.0|57.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||57|-119|0.4827
92323945|NCT04143594|184552769|SUPERIORITY||Difference in LSM|-12.0||||0.7963|TWO_SIDED|95.0|-106.0|81.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||81|-106|0.7963
92323946|NCT04143594|184552769|SUPERIORITY||Difference in LSM|-22.0||||0.6169|TWO_SIDED|95.0|-111.0|67.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||67|-111|0.6169
92199630|NCT02980042|184297546|OTHER||Mean Difference (Net)|16.01|||<|0.0001|TWO_SIDED|95.0|9.75|22.28||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||22.28|9.75|<0.0001
92323947|NCT04143594|184552770|SUPERIORITY||Difference in LSM|21.0||||0.6614|TWO_SIDED|95.0|-73.0|115.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||115|-73|0.6614
92323948|NCT04143594|184552770|SUPERIORITY||Difference in LSM|20.0||||0.6791|TWO_SIDED|95.0|-75.0|115.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||115|-75|0.6791
92323949|NCT04143594|184552770|SUPERIORITY||Difference in LSM|27.0||||0.5563|TWO_SIDED|95.0|-65.0|120.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||120|-65|0.5563
92323950|NCT04143594|184552771|SUPERIORITY||Difference in LSM|32.0||||0.5492|TWO_SIDED|95.0|-75.0|140.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||140|-75|0.5492
92323951|NCT04143594|184552771|SUPERIORITY||Difference in LSM|17.0||||0.722|TWO_SIDED|95.0|-80.0|115.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|Difference in LSM||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||115|-80|0.7220
92323952|NCT04143594|184552771|SUPERIORITY||Difference in LSM|-4.0||||0.9486|TWO_SIDED|95.0|-118.0|110.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||110|-118|0.9486
92199631|NCT02980042|184297547|OTHER||Mean Difference (Net)|429.08|||<|0.0001|TWO_SIDED|95.0|296.07|562.1||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||562.10|296.07|<0.0001
92199632|NCT02980042|184297548|OTHER||Mean Difference (Net)|1.23||||0.0101|TWO_SIDED|95.0|0.3|2.16||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||2.16|0.30|0.0101
92199633|NCT02980042|184297549|OTHER||Mean Difference (Net)|8.69|||<|0.0001|TWO_SIDED|95.0|4.87|12.52||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||12.52|4.87|<0.0001
92199634|NCT02980042|184297550|OTHER||Mean Difference (Net)|1.53|||<|0.0001|TWO_SIDED|95.0|1.04|2.03||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||2.03|1.04|<0.0001
92199635|NCT02980042|184297551|OTHER||Mean Difference (Net)|-33.17|||<|0.0001|TWO_SIDED|95.0|-38.91|-27.44||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-27.44|-38.91|<0.0001
92199636|NCT02980042|184297552|OTHER||Mean Difference (Net)|-0.62||||0.0008|TWO_SIDED|95.0|-0.98|-0.26||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-0.26|-0.98|0.0008
92199637|NCT02980042|184297553|OTHER||Mean Difference (Net)|2.01|||<|0.0001|TWO_SIDED|95.0|1.23|2.79||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||2.79|1.23|<0.0001
92199638|NCT02980042|184297554|OTHER||Mean Difference (Net)|-7.84|||<|0.0001|TWO_SIDED|95.0|-9.87|-5.81||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-5.81|-9.87|<0.0001
92323953|NCT01023256|184552798|SUPERIORITY_OR_OTHER|||||||0.095||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||0.095
92199639|NCT02980042|184297555|OTHER||Mean Difference (Net)|-14.2||||0.0022|TWO_SIDED|95.0|-23.15|-5.25||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-5.25|-23.15|0.0022
92199640|NCT02980042|184297556|OTHER||Mean Difference (Net)|0.3|||<|0.0001|TWO_SIDED|95.0|0.17|0.43||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||0.43|0.17|<0.0001
92199641|NCT02980042|184297557|OTHER||Mean Difference (Net)|0.41|||<|0.0001|TWO_SIDED|95.0|0.22|0.61||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||0.61|0.22|<0.0001
92199642|NCT02980042|184297558|OTHER||Mean Difference (Net)|-0.72|||<|0.0001|TWO_SIDED|95.0|-0.95|-0.5||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-0.50|-0.95|<0.0001
92199643|NCT02980042|184297559|OTHER||Mean Difference (Net)|-19.31|||<|0.0001|TWO_SIDED|95.0|-22.64|-15.98||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-15.98|-22.64|<0.0001
92199644|NCT02980042|184297560|OTHER||Mean Difference (Net)|-6.96|||<|0.0001|TWO_SIDED|95.0|-9.85|-4.08||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-4.08|-9.85|<0.0001
92199645|NCT02980042|184297561|OTHER||Mean Difference (Net)|-23.22||||0.0061|TWO_SIDED|95.0|-39.66|-6.78||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-6.78|-39.66|0.0061
92323954|NCT01023256|184552798|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||<0.0001
92323955|NCT01023256|184552798|SUPERIORITY_OR_OTHER|||||||0.003||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||0.003
92323956|NCT01023256|184552800|SUPERIORITY_OR_OTHER|||||||0.421||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||0.421
92323957|NCT01023256|184552800|SUPERIORITY_OR_OTHER|||||||0.003||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||0.003
92323958|NCT01023256|184552800|SUPERIORITY_OR_OTHER|||||||0.065||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||0.065
92323959|NCT01023256|184552801|SUPERIORITY_OR_OTHER|||||||0.243||||||P values \<0.05 were considered to be statistically significant.|Fisher Exact|Patients with missing values were not included||||||0.243
92323960|NCT01023256|184552801|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P values \< 0.05 were considered significant.|Fisher Exact|Patients with missing values were not included||||||<0.0001
92323961|NCT01023256|184552801|SUPERIORITY_OR_OTHER|||||||0.135||||||P values \<0.05 were considered to be statistically significant.|Fisher Exact|Patients with missing values were not included.||||||0.135
92323962|NCT01044290|184552821|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|||<|0.61|TWO_SIDED|95.0|-1.1|0.7|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks||.7|-1.1|<0.61
92323963|NCT01044290|184552821|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|||<|0.02|TWO_SIDED|95.0|0.2|2.0|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks.||2.0|.2|<.02
92323964|NCT01044290|184552822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|||=|0.9|TWO_SIDED|95.0|-1.2|1.1|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks||1.1|-1.2|=.9
92323965|NCT01044290|184552822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|||<|0.97|TWO_SIDED|95.0|-1.2|1.1|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable||Comparison at 5 weeks.||1.1|-1.2|<.97
92323966|NCT01044290|184552823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|||<|0.91|TWO_SIDED|95.0|-1.4|1.5|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable||Comparison at 5 weeks||1.5|-1.4|<.91
92323967|NCT01044290|184552823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|||=|0.42|TWO_SIDED|95.0|-2.1|0.9|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable||Comparison at 5 weeks||0.9|-2.1|=.42
92323968|NCT01044290|184552824|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|||=|0.58|TWO_SIDED|95.0|-1.5|2.8|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks||2.8|-1.5|=.58
92323969|NCT01044290|184552824|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|||<|0.97|TWO_SIDED|95.0|-2.1|2.2|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks.||2.2|-2.1|<.97
92323970|NCT01044290|184552825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.25|TWO_SIDED|95.0|-0.6|2.4|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks||2.4|-.6|.25
92323971|NCT01044290|184552825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||<|0.05|TWO_SIDED|95.0|0.05|3.1|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks||3.1|.05|<.05
92323972|NCT01044290|184552826|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|||<|0.57|TWO_SIDED|95.0|-1.0|1.8|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable. Sex item omitted from scale.||Comparison at 5 weeks.||1.8|-1.0|<.57
92323973|NCT01044290|184552826|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4|||=|0.055|TWO_SIDED|95.0|-0.03|2.7|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable. Sex item omitted from scale.||Comparison at 5 weeks.||2.7|-0.03|=0.055
92323974|NCT01967706|184552832|OTHER||Geometric LS Mean Ratio|88.47|||||TWO_SIDED|95.0|68.64|114.03|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (mTHS - Group 1:mCC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of mTHS:mCC) for Cmax, therefore, there was no statistical hypothesis to be tested for this objective.||114.03|68.64|
92323975|NCT01967706|184552833|OTHER||Geometric LS Mean Ratio|98.13|||||TWO_SIDED|95.0|80.61|119.46|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (mTHS - Group 1:mCC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of mTHS:mCC) for AUC(0-last), therefore, there was no statistical hypothesis to be tested for this objective.||119.46|80.61|
92199646|NCT02980042|184297562|OTHER||Mean Difference (Net)|-5.69|||<|0.0001|TWO_SIDED|95.0|-7.24|-4.14||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-4.14|-7.24|<0.0001
92199647|NCT02980042|184297563|OTHER||Mean Difference (Net)|-0.84||||0.0077|TWO_SIDED|95.0|-1.45|-0.23||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-0.23|-1.45|0.0077
92199648|NCT02980042|184297564|OTHER||Mean Difference (Net)|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.37|-0.27||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-0.27|-0.37|<0.0001
92199649|NCT00725270|184297565|SUPERIORITY_OR_OTHER|||||||0.812|||||||Mixed Models Analysis|||Repeated Measures ANOVA was run on the Positive Symptom Scale of the Brief Psychiatric Rating Scale, using Baseline and Day 9 ratings. Below is the medication \* time interaction.||||.812
92199650|NCT00725270|184297566|SUPERIORITY_OR_OTHER||eta sq|0.157||||0.203|TWO_SIDED||||||Mixed Models Analysis|||||||.203
92199651|NCT00592293|184297620|OTHER||Cumulative incidence|17.0|||||TWO_SIDED|95.0|9.1|27.6||||||||27.6|9.1|
92199652|NCT00592293|184297621|OTHER||Percent Survival, Local Control|87.1|||||TWO_SIDED|95.0|78.1|93.7||||||||93.7|78.1|
92199653|NCT01270828|184297626|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Log Rank|||Kaplan-Meier method was used for the analysis.||||<0.0001
92199654|NCT01270828|184297627|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Log Rank|||Kaplan-Meier method was used for the analysis.||||<0.0001
92199655|NCT01270828|184297628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Chi-squared|||Chi-square test was used for analysis.||||<0.0001
92199656|NCT01270828|184297629|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Chi-squared|||Chi-square test was used for analysis.||||<0.0001
92199657|NCT01270828|184297630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.26|-0.62|||ANCOVA|||This ANCOVA model analysis is for SB Baseline to Week 19. Estimates and p-values are from an ANCOVA main effects model with baseline value, pooled center decided before unblinding, and treatment in the model.||-0.62|-1.26|<0.0001
92199658|NCT01270828|184297630|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.21|-0.61|||ANCOVA|||This ANCOVA model analysis is for DB Baseline to Week 19. Estimates and p-values are from an ANCOVA main effects model with baseline value, pooled center decided before unblinding, and treatment in the model.||-0.61|-1.21|<0.0001
92199659|NCT01270828|184297631|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.47|-0.75|||ANCOVA|||This ANCOVA model analysis is for SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.75|-1.47|<0.0001
92199660|NCT01270828|184297631|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.34|-0.65|||ANCOVA|||This ANCOVA model analysis is for DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.65|-1.34|<0.0001
92199661|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2||||0.0324|TWO_SIDED|95.0|-6.1|-0.3|||ANCOVA|||This ANCOVA model analysis is for Sleep Problem Index I-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.3|-6.1|0.0324
92199662|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3||||0.0223|TWO_SIDED|95.0|-6.1|-0.5|||ANCOVA|||This ANCOVA model analysis is for Sleep Problem Index I-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.5|-6.1|0.0223
92199663|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8||||0.0098|TWO_SIDED|95.0|-6.6|-0.9|||ANCOVA|||"This ANCOVA model analysis is for Sleep Problem Index II-SB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||-0.9|-6.6|0.0098
92199664|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.0||||0.0033|TWO_SIDED|95.0|-6.7|-1.4|||ANCOVA|||"This ANCOVA model analysis is for Sleep Problem Index II-DB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||-1.4|-6.7|0.0033
92199665|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3||||0.0002|TWO_SIDED|95.0|-11.1|-3.5|||ANCOVA|||This ANCOVA model analysis is for Sleep Disturbance-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-3.5|-11.1|0.0002
92199666|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.7|||<|0.0001|TWO_SIDED|95.0|-12.2|-5.2|||ANCOVA|||This ANCOVA model analysis is for Sleep Disturbance-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-5.2|-12.2|<0.0001
92199667|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4||||0.5264|TWO_SIDED|95.0|-2.8|5.6|||ANCOVA|||This ANCOVA model analysis is for Snoring-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||5.6|-2.8|0.5264
92199668|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.452|TWO_SIDED|95.0|-5.2|2.3|||ANCOVA|||This ANCOVA model analysis is for Snoring-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||2.3|-5.2|0.4520
92199669|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5||||0.3714|TWO_SIDED|95.0|-4.7|1.8|||ANCOVA|||"This ANCOVA model analysis is for Awaken Short of Breath or with a Headache-SB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||1.8|-4.7|0.3714
92199670|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.5639|TWO_SIDED|95.0|-4.2|2.3|||ANCOVA|||"This ANCOVA model analysis is for Awaken Short of Breath or with a Headache-DB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||2.3|-4.2|0.5639
92199671|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5||||0.3223|TWO_SIDED|95.0|-2.4|7.3|||ANCOVA|||This ANCOVA model analysis is for Sleep adequacy-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||7.3|-2.4|0.3223
92199672|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.7||||0.2742|TWO_SIDED|95.0|-2.2|7.6|||ANCOVA|||This ANCOVA model analysis is for Sleep adequacy-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||7.6|-2.2|0.2742
92199673|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9816|TWO_SIDED|95.0|-3.2|3.1|||ANCOVA|||This ANCOVA model analysis is for Somnolence-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||3.1|-3.2|0.9816
92199674|NCT01270828|184297632|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.9282|TWO_SIDED|95.0|-2.9|3.2|||ANCOVA|||This ANCOVA model analysis is for Somnolence-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||3.2|-2.9|0.9282
92199675|NCT01270828|184297633|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.1635|TWO_SIDED|95.0|-0.1|0.4|||ANCOVA|||This ANCOVA model analysis is for SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||0.4|-0.1|0.1635
92199676|NCT01270828|184297633|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.0363||95.0|0.0|0.5|||ANCOVA|||This ANCOVA model analysis is for DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||0.5|0.0|0.0363
92199677|NCT01270828|184297634|SUPERIORITY_OR_OTHER_LEGACY|||||||0.432|||||||Chi-squared|||This analysis is for Week 6||||0.432
92199678|NCT01270828|184297634|SUPERIORITY_OR_OTHER_LEGACY|||||||0.987|||||||Chi-squared|||This analysis is for Week 19||||0.987
92323976|NCT01154088|184552834|NON_INFERIORITY|Criterion for non-inferiority: For each serogroup separately, the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the group difference (Nimenrix-A Group minus Mencevax Group) in the percentage of subjects with bactericidal vaccine response would be greater than or equal to (≥) the pre-defined clinical limit of -10%.|Difference in vaccine response rate|5.42|||||TWO_SIDED|95.0|-1.41|12.25||||||Demonstration of the non-inferiority of the vaccine response induced by Nimenrix conjugate vaccine (Nimenrix Lot A) when compared to the licensed Mencevax for Neisseria meningitidis (N. meningitidis) serogroups A as measured by serum bactericidal antibodies using baby rabbit complement (rSBA) at GSK.||12.25|-1.41|
92199679|NCT01270828|184297635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.85||||0.0007|TWO_SIDED|95.0|1.3|2.65|||Regression, Logistic||"Odds ratio is the probability of the event occurring in Pregabalin DB relative to the event occurring in Placebo DB.~Odds ratio \> 1 is in favor of Pregabalin DB."|This analysis is for the original score. Proportional odds Logistic regression with a term for treatment in the model.||2.65|1.30|0.0007
92199680|NCT01270828|184297635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.32||||0.0009|TWO_SIDED|95.0|1.41|3.81|||Regression, Logistic||"Odds ratio is the probability of the event occurring in Pregabalin DB relative to the event occurring in Placebo DB.~Odds ratio \> 1 is in favor of Pregabalin DB."|This analysis is for the categorized score. Proportional odds Logistic regression with a term for treatment in the model.||3.81|1.41|0.0009
92199681|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.4||||0.0003|TWO_SIDED|95.0|3.4|11.5|||ANCOVA|||This ANCOVA model analysis is for Bodily pain-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||11.5|3.4|0.0003
92199682|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.7|||<|0.0001|TWO_SIDED|95.0|4.0|11.3|||ANCOVA|||This ANCOVA model analysis is for Bodily pain-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||11.3|4.0|<0.0001
92199683|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.2||||0.0275|TWO_SIDED|95.0|0.4|6.0|||ANCOVA|||"This ANCOVA model analysis is for General Health Perceptions-SB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||6.0|0.4|0.0275
92199684|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.4|||<|0.0001|TWO_SIDED|95.0|2.8|8.0|||ANCOVA|||"This ANCOVA model analysis is for General Health Perceptions-DB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||8.0|2.8|<0.0001
92199685|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.0||||0.0735|TWO_SIDED|95.0|-0.3|6.4|||ANCOVA|||This ANCOVA model analysis is for Vitality-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||6.4|-0.3|0.0735
92199686|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.0||||0.0684|TWO_SIDED|95.0|-0.2|6.2|||ANCOVA|||This ANCOVA model analysis is for Vitality-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||6.2|-0.2|0.0684
92199687|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.8||||0.1197|TWO_SIDED|95.0|-0.7|6.4|||ANCOVA|||This ANCOVA model analysis is for Social Functioning-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||6.4|-0.7|0.1197
92199688|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.1||||0.221|TWO_SIDED|95.0|-1.3|5.5|||ANCOVA|||This ANCOVA model analysis is for Social Functioning-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||5.5|-1.3|0.2210
92199689|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.3||||0.0847|TWO_SIDED|95.0|-0.5|7.1|||ANCOVA|||This ANCOVA model analysis is for Role-Emotional-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||7.1|-0.5|0.0847
92199690|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.0||||0.0365|TWO_SIDED|95.0|0.3|7.8|||ANCOVA|||This ANCOVA model analysis is for Role-Emotional-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||7.8|0.3|0.0365
92199691|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6||||0.2749|TWO_SIDED|95.0|-1.2|4.3|||ANCOVA|||This ANCOVA model analysis is for Mental Health-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||4.3|-1.2|0.2749
92199692|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5||||0.0806|TWO_SIDED|95.0|-0.3|5.2|||ANCOVA|||This ANCOVA model analysis is for Mental Health-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||5.2|-0.3|0.0806
92199693|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.0||||0.0082|TWO_SIDED|95.0|0.5|3.4|||ANCOVA|||This ANCOVA model analysis is for Physical component-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||3.4|0.5|0.0082
92199694|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3||||0.0008|TWO_SIDED|95.0|1.0|3.7|||ANCOVA|||This ANCOVA model analysis is for Physical component-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||3.7|1.0|0.0008
92199695|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.2097|TWO_SIDED|95.0|-0.8|2.5|||ANCOVA|||This ANCOVA model analysis is for Mental component-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||2.5|-0.8|0.2097
92199696|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2||||0.1669|TWO_SIDED|95.0|-0.5|2.8|||ANCOVA|||This ANCOVA model analysis is for Mental component-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||2.8|-0.5|0.1669
92199697|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.8||||0.1466|TWO_SIDED|95.0|-1.0|6.7|||ANCOVA|||This ANCOVA model analysis is for Physical functioning-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||6.7|-1.0|0.1466
92199698|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.4||||0.0439|TWO_SIDED|95.0|0.1|6.7|||ANCOVA|||This ANCOVA model analysis is for Physical functioning-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||6.7|0.1|0.0439
92199699|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.9||||0.025|TWO_SIDED|95.0|0.6|9.3|||ANCOVA|||This ANCOVA model analysis is for Role Physical-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||9.3|0.6|0.0250
92199700|NCT01270828|184297636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.4||||0.0107|TWO_SIDED|95.0|1.3|9.5|||ANCOVA|||This ANCOVA model analysis is for Role Physical-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||9.5|1.3|0.0107
92199701|NCT01270828|184297637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.23|-0.64|||ANCOVA|||This ANCOVA model analysis is for SB Baseline to Week 19.Estimates and p-values are from an analysis of covariance main effects model with baseline value, pooled center decided before unblinding, and treatment in the model.||-0.64|-1.23|<0.0001
92199702|NCT01270828|184297637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.12|-0.58|||ANCOVA|||This ANCOVA model analysis is for DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with baseline value, pooled center decided before unblinding, and treatment in the model.||-0.58|-1.12|<0.0001
92199703|NCT01270828|184297638|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.0154|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||This ANCOVA model analysis is for HADS-Anxiety-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.1|-1.2|0.0154
92199704|NCT01270828|184297638|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.0027|TWO_SIDED|95.0|-1.3|-0.3|||ANCOVA|||This ANCOVA model analysis is for HADS-Anxiety-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.3|-1.3|0.0027
92199705|NCT01270828|184297638|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.0166|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||This ANCOVA model analysis is for HADS-Depression-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.1|-1.2|0.0166
92199706|NCT01270828|184297638|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.0217|TWO_SIDED|95.0|-1.1|-0.1|||ANCOVA|||This ANCOVA model analysis is for HADS-Depression-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.1|-1.1|0.0217
92199707|NCT01270828|184297639|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2|||<|0.0001|TWO_SIDED|95.0|-5.5|-3.0|||ANCOVA|||This ANCOVA model analysis is for Pain Severity Index-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-3.0|-5.5|<0.0001
92323977|NCT01154088|184552834|NON_INFERIORITY|Criterion for non-inferiority: For each serogroup separately, the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the group difference (Nimenrix-A Group minus Mencevax Group) in the percentage of subjects with bactericidal vaccine response would be greater than or equal to (≥) the pre-defined clinical limit of -10%.|Difference in vaccine response rate|-0.41|||||TWO_SIDED|95.0|-4.11|3.25||||||Demonstration of the non-inferiority of the vaccine response induced by Nimenrix conjugate vaccine (Nimenrix Lot A) when compared to the licensed Mencevax for Neisseria meningitidis (N. meningitidis) serogroups C as measured by serum bactericidal antibodies using baby rabbit complement (rSBA) at GSK.||3.25|-4.11|
92323978|NCT01154088|184552834|NON_INFERIORITY|Criterion for non-inferiority: For each serogroup separately, the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the group difference (Nimenrix-A Group minus Mencevax Group) in the percentage of subjects with bactericidal vaccine response would be greater than or equal to (≥) the pre-defined clinical limit of -10%.|Difference in vaccine response rate|6.83|||||TWO_SIDED|95.0|3.28|10.78||||||Demonstration of the non-inferiority of the vaccine response induced by Nimenrix conjugate vaccine (Nimenrix Lot A) when compared to the licensed Mencevax for Neisseria meningitidis (N. meningitidis) serogroups W-135 as measured by serum bactericidal antibodies using baby rabbit complement (rSBA) at GSK.||10.78|3.28|
92323979|NCT01154088|184552834|NON_INFERIORITY|Criterion for non-inferiority: For each serogroup separately, the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the group difference (Nimenrix-A Group minus Mencevax Group) in the percentage of subjects with bactericidal vaccine response would be greater than or equal to (≥) the pre-defined clinical limit of -10%.|Difference in vaccine response rate|7.02|||||TWO_SIDED|95.0|2.63|11.58||||||Demonstration of the non-inferiority of the vaccine response induced by Nimenrix conjugate vaccine (Nimenrix Lot A) when compared to the licensed Mencevax for Neisseria meningitidis (N. meningitidis) serogroups Y as measured by serum bactericidal antibodies using baby rabbit complement (rSBA) at GSK.||11.58|2.63|
92323980|NCT01154088|184552835|NON_INFERIORITY|Criterion for non-inferiority: Non-inferiority of Nimenrix Lot B vs. Nimenrix Lot A in terms of non-inferiority would be demonstrated if the upper limit (UL) of the 2-sided 95% CIs on the rSBA GMT ratios (GMTs of Nimenrix Lot B over the GMTs of the Nimenrix Lot A) would be below (\<) a limit of 2-fold for antibodies against all meningococcal serogroups.|Adjusted GMT ratio|1.04|||||TWO_SIDED|95.0|0.92|1.17||||||Demonstration of the comparability of the immunogenicity of Lot A to Lot B of Nimenrix conjugate vaccine with respect to rSBA geometric mean titres (GMTs) for N. meningitidis serogroups A, 1 month after vaccination as measured at GSK.||1.17|0.92|
92323981|NCT01154088|184552835|NON_INFERIORITY|Criterion for non-inferiority: Non-inferiority of Nimenrix Lot B vs. Nimenrix Lot A in terms of non-inferiority would be demonstrated if the upper limit (UL) of the 2-sided 95% CIs on the rSBA GMT ratios (GMTs of Nimenrix Lot B over the GMTs of the Nimenrix Lot A) would be below (\<) a limit of 2-fold for antibodies against all meningococcal serogroups.|Adjusted GMT ratio|1.15|||||TWO_SIDED|95.0|0.96|1.37||||||Demonstration of the comparability of the immunogenicity of Lot A to Lot B of Nimenrix conjugate vaccine with respect to rSBA geometric mean titres (GMTs) for N. meningitidis serogroups C, 1 month after vaccination as measured at GSK.||1.37|0.96|
92323982|NCT01154088|184552835|NON_INFERIORITY|Criterion for non-inferiority: Non-inferiority of Nimenrix Lot B vs. Nimenrix Lot A in terms of non-inferiority would be demonstrated if the upper limit (UL) of the 2-sided 95% CIs on the rSBA GMT ratios (GMTs of Nimenrix Lot B over the GMTs of the Nimenrix Lot A) would be below (\<) a limit of 2-fold for antibodies against all meningococcal serogroups.|Adjusted GMT ratio|0.91|||||TWO_SIDED|95.0|0.8|1.04||||||Demonstration of the comparability of the immunogenicity of Lot A to Lot B of Nimenrix conjugate vaccine with respect to rSBA geometric mean titres (GMTs) for N. meningitidis serogroups W-135, 1 month after vaccination as measured at GSK.||1.04|0.8|
92323983|NCT01154088|184552835|NON_INFERIORITY|Criterion for non-inferiority: Non-inferiority of Nimenrix Lot B vs. Nimenrix Lot A in terms of non-inferiority would be demonstrated if the upper limit (UL) of the 2-sided 95% CIs on the rSBA GMT ratios (GMTs of Nimenrix Lot B over the GMTs of the Nimenrix Lot A) would be below (\<) a limit of 2-fold for antibodies against all meningococcal serogroups.|Adjusted GMT ratio|0.88|||||TWO_SIDED|95.0|0.78|0.99||||||Demonstration of the comparability of the immunogenicity of Lot A to Lot B of Nimenrix conjugate vaccine with respect to rSBA geometric mean titres (GMTs) for N. meningitidis serogroups Y, 1 month after vaccination as measured at GSK.||0.99|0.78|
92199708|NCT01270828|184297639|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8|||<|0.0001|TWO_SIDED|95.0|-5.0|-2.7|||ANCOVA|||This ANCOVA model analysis is for Pain Severity Index-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-2.7|-5.0|<0.0001
92323984|NCT00282113|184552856|SUPERIORITY_OR_OTHER||||||>|0.5||95.0|||||Mixed-effects regression|||||||>0.5
92323985|NCT00282113|184552857|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
92323986|NCT00282113|184552858|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92323987|NCT03382834|184552860|SUPERIORITY|||||||0.68|||||||t-test, 1 sided|The hypothesis was that tamoxifen would enhance the HIV transcription effect of vorinostat (i.e., log10 change would be greater in Arm A than Arm B)||||||0.68
92323988|NCT03382834|184552862|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||0.73
92323989|NCT02949843|184552868|OTHER|||||||0.6|||||||Fisher Exact|||Null Hypothesis is that each arm has equal rates of smoking history.||||0.6
92323990|NCT05831644|184552872|SUPERIORITY||Mean Difference (Final Values)|-0.124||||0.1925|TWO_SIDED|90.0|-0.285|0.037|||ANOVA|||The primary endpoint (RHI score) was compared between treatments using an analysis of variance model (ANOVA) with treatment and period as fixed effects and subjects as random effect.||0.037|-0.285|0.1925
92323991|NCT05831644|184552873|SUPERIORITY||Mean Difference (Final Values)|-4.94||||0.1941|TWO_SIDED|90.0|-11.392|1.513|||ANOVA|||The secondary pharmacodynamic endpoint (AI) was analysed using a similar ANOVA model as for the primary endpoint.||1.513|-11.392|0.1941
92323992|NCT02783729|184552874|SUPERIORITY||Least Squares Geometric Mean(LSGM) Ratio|0.773|||=|0.0003|TWO_SIDED|95.0|0.672|0.889||Based on mixed effect model repeated measurement (MMRM) model with log transformation of LPS and factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||||0.889|0.672|= 0.0003
92323993|NCT02783729|184552874|SUPERIORITY||LSGM Ratio|0.723|||<|0.0001|TWO_SIDED|95.0|0.628|0.832||Based on MMRM model with log transformation of LPS and factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||||0.832|0.628|< 0.0001
92199709|NCT01270828|184297639|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|||<|0.0001|TWO_SIDED|95.0|-6.5|-2.7|||ANCOVA|||"This ANCOVA model analysis is for Pain Interference Index-SB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||-2.7|-6.5|<0.0001
92199710|NCT01270828|184297639|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2|||<|0.0001|TWO_SIDED|95.0|-6.0|-2.4|||ANCOVA|||"This ANCOVA model analysis is for Pain Interference Index-DB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||-2.4|-6.0|<0.0001
92199711|NCT01270828|184297640|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.77||||0.0161|TWO_SIDED|95.0|1.34|17.0|||Regression, Logistic||Odds ratio was the probability of the event occurring in pregabalin CR DB relative to the event occurring in placebo DB. Odds ratio \> 1 was in favor of pregabalin CR.|This analysis is for 'Benefit from treatment'. Proportional odds logistic regression was used with a term for treatment in the model.||17.00|1.34|0.0161
92199712|NCT01270828|184297640|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.48||||0.0378|TWO_SIDED|95.0|1.05|5.85|||Regression, Logistic||Odds ratio was the probability of the event occurring in pregabalin CR DB relative to the event occurring in placebo DB. Odds ratio \> 1 was in favor of pregabalin CR.|This analysis is for 'Satisfaction with treatment'. Proportional odds logistic regression was used with a term for treatment in the model.||5.85|1.05|0.0378
92199713|NCT01270828|184297640|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.61||||0.0901|TWO_SIDED|95.0|0.93|2.81|||Regression, Logistic||Odds ratio was the probability of the event occurring in pregabalin CR DB relative to the event occurring in placebo DB. Odds ratio \> 1 was in favor of pregabalin CR.|This analysis is for 'Willingness to continue treatment'. Proportional odds logistic regression was used with a term for treatment in the model.||2.81|0.93|0.0901
92323994|NCT02783729|184552875|SUPERIORITY||Least Squares Mean (LSM) Difference|7.07|STANDARD_ERROR_OF_MEAN|0.746|<|0.0001|TWO_SIDED|95.0|5.61|8.54||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline SE as a covariate.|MMRM|||||8.54|5.61|< 0.0001
92323995|NCT02783729|184552875|SUPERIORITY||LSM Difference|8.03|STANDARD_ERROR_OF_MEAN|0.746|<|0.0001|TWO_SIDED|95.0|6.57|9.49||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline SE as a covariate.|MMRM|||||9.49|6.57|< 0.0001
92323996|NCT02783729|184552876|SUPERIORITY||LSM Difference|-23.96|STANDARD_ERROR_OF_MEAN|3.068|<|0.0001|TWO_SIDED|95.0|-29.98|-17.95||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline WASO as a covariate.|MMRM|||||-17.95|-29.98|< 0.0001
92323997|NCT02783729|184552876|SUPERIORITY||LSM Difference|-25.35|STANDARD_ERROR_OF_MEAN|3.067|<|0.0001|TWO_SIDED|95.0|-31.36|-19.34|||MMRM|||||-19.34|-31.36|< 0.0001
92323998|NCT02783729|184552877|SUPERIORITY|Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline WASO2H as a covariate.|LSM Difference|-6.65|STANDARD_ERROR_OF_MEAN|2.298|=|0.0038|TWO_SIDED|95.0|-11.15|-2.15|||MMRM|||||-2.15|-11.15|= 0.0038
92323999|NCT02783729|184552877|SUPERIORITY|Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline WASO2H as a covariate.|LSM Difference|-8.0|STANDARD_ERROR_OF_MEAN|2.309|=|0.0005|TWO_SIDED|95.0|-12.53|-3.47|||MMRM|||||-3.47|-12.53|= 0.0005
92324000|NCT02783729|184552878|SUPERIORITY||LSM Difference|-9.63|STANDARD_ERROR_OF_MEAN|4.029|=|0.0171|TWO_SIDED|95.0|-17.53|-1.72||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effect, and the baseline posture stability of body sway as a covariate.|MMRM|||Zolpidem Tartrate Extended Release 6.25 mg v Lemborexant 5 mg||-1.72|-17.53|= 0.0171
92324001|NCT02783729|184552878|SUPERIORITY||LSM Difference|-10.74|STANDARD_ERROR_OF_MEAN|4.04|=|0.008|TWO_SIDED|95.0|-18.67|-2.81||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effect, and the baseline posture stability of body sway as a covariate.|MMRM|||Zolpidem Tartrate Extended Release 6.25 mg v Lemborexant 10 mg||-2.81|-18.67|= 0.008
92324002|NCT02783729|184552879|SUPERIORITY||LSGM Ratio|0.874|||=|0.0218|TWO_SIDED|95.0|0.78|0.981||Based on MMRM model with log transformation of LPS and factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS, Days 1/2: Zolpidem ER, Lemborexant 5 mg||0.981|0.78|= 0.0218
92324003|NCT02783729|184552879|OTHER||LSGM Ratio|0.818|||=|0.0006|TWO_SIDED|95.0|0.729|0.917||Based on MMRM model with log transformation of LPS and factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS, Days 1/2: Zolpidem ER, Lemborexant 10 mg||0.917|0.729|= 0.0006
92324004|NCT02783729|184552879|SUPERIORITY||LSGM Ratio|0.634|||<|0.0001|TWO_SIDED|95.0|0.556|0.724||Based on MMRM model with log transformation of LPS and factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS, Days 29/30: Zolpidem ER, Lemborexant 5 mg||0.724|0.556|< 0.0001
92324005|NCT02783729|184552879|SUPERIORITY||LSGM Ratio|0.594|||<|0.0001|TWO_SIDED|95.0|0.521|0.677||Based on MMRM model with log transformation of LPS and factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS, Days 29/30: Zolpidem ER, Lemborexant 10 mg||0.677|0.521|< 0.0001
92199714|NCT04052425|184297660|SUPERIORITY||Odds Ratio (OR)|5.28|||<|0.0001|TWO_SIDED|95.0|2.341|11.903||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||11.903|2.341|< 0.0001
92199715|NCT04052425|184297661|SUPERIORITY||Odds Ratio (OR)|5.18|||<|0.0001|TWO_SIDED|95.0|2.831|9.482||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||9.482|2.831|< 0.0001
92199716|NCT04052425|184297662|SUPERIORITY||Odds Ratio (OR)|8.49||||0.0038|TWO_SIDED|95.0|1.997|36.048||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||36.048|1.997|0.0038
92199717|NCT04052425|184297663|SUPERIORITY||Odds Ratio (OR)|4.93||||0.002|TWO_SIDED|95.0|1.795|13.566||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||13.566|1.795|0.0020
92199718|NCT04052425|184297664|SUPERIORITY||Odds Ratio (OR)|9.53||||0.0002|TWO_SIDED|95.0|2.9|31.29||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||31.290|2.900|0.0002
92324006|NCT02783729|184552879|SUPERIORITY||LSM Difference|-6.16|STANDARD_ERROR_OF_MEAN|2.544|=|0.0154|TWO_SIDED|95.0|-11.15|-1.17||Based on MMRM model with factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline WASO as a covariate.|MMRM|||WASO, Days 1/2: Zolpidem ER, Lemborexant 5 mg||-1.17|-11.15|= 0.0154
92324007|NCT02783729|184552879|SUPERIORITY||LSM Difference|-15.03|STANDARD_ERROR_OF_MEAN|2.542|<|0.0001|TWO_SIDED|95.0|-20.01|-10.05||Based on MMRM model with factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline WASO as a covariate.|MMRM|||WASO, Days 1/2: Zolpidem ER, Lemborexant 10 mg||-10.05|-20.01|< 0.0001
92324008|NCT02783729|184552879|SUPERIORITY||LSM Difference|-7.72|STANDARD_ERROR_OF_MEAN|2.876|=|0.0073|TWO_SIDED|95.0|-13.36|-2.08||Based on MMRM model with factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline WASO as a covariate.|MMRM|||WASO, Days 29/30: Zolpidem ER, Lemborexant 5 mg||-2.08|-13.36|= 0.0073
92324009|NCT02783729|184552879|SUPERIORITY||LSM Difference|-9.1|STANDARD_ERROR_OF_MEAN|2.883|=|0.0016|TWO_SIDED|95.0|-14.75|-3.45|||MMRM|||WASO, Days 29/30: Zolpidem ER, Lemborexant 10 mg||-3.45|-14.75|= 0.0016
92324010|NCT02783729|184552879|SUPERIORITY||LSM Difference|10.25|STANDARD_ERROR_OF_MEAN|3.094|=|0.001|TWO_SIDED|95.0|4.18|16.32||Based on MMRM model with factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline TST as a covariate.|MMRM|||TST, Days 1/2: Zolpidem ER, Lemborexant 5 mg||16.32|4.18|= 0.001
92324011|NCT02783729|184552879|SUPERIORITY||LSM Difference|23.1|STANDARD_ERROR_OF_MEAN|3.085|<|0.0001|TWO_SIDED|95.0|17.04|29.15||Based on MMRM model with factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline TST as a covariate.|MMRM|||TST, Days 1/2: Zolpidem ER, Lemborexant 10 mg||29.15|17.04|< 0.0001
92324012|NCT02783729|184552879|SUPERIORITY||LSM Difference|19.41|STANDARD_ERROR_OF_MEAN|3.457|<|0.0001|TWO_SIDED|95.0|12.63|26.2||Based on MMRM model with factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline TST as a covariate.|MMRM|||TST, Days 29/30: Zolpidem ER, Lemborexant 5 mg||26.2|12.63|< 0.0001
92199719|NCT04052425|184297665|SUPERIORITY||least squares mean difference|-19.3|STANDARD_ERROR_OF_MEAN|3.93|<|0.0001|TWO_SIDED|95.0|-27.05|-11.64||Response Variable = Treatment + Stratification Factors (Skin Type Fitzpatrick scale Type I, II versus Type III, IV, V, and VI, Region North America/Europe) + Baseline|ANCOVA|||||-11.64|-27.05|< 0.0001
92324013|NCT02783729|184552879|SUPERIORITY||LSM Difference|24.1|STANDARD_ERROR_OF_MEAN|3.456|<|0.0001|TWO_SIDED|95.0|17.32|30.88||Based on MMRM model with factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline TST as a covariate.|MMRM|||TST, Days 29/30: Zolpidem ER, Lemborexant 10 mg||30.88|17.32|< 0.0001
92324014|NCT02783729|184552880|SUPERIORITY||LSGM Ratio|0.898|||=|0.0122|TWO_SIDED|95.0|0.825|0.977||Based on MMRM model model with log transformation of sSOL and factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, First 7 nights: Zolpidem ER, Lemborexant 5 mg||0.977|0.825|= 0.0122
92324015|NCT02783729|184552880|SUPERIORITY||LSGM Ratio|0.83|||<|0.0001|TWO_SIDED|95.0|0.763|0.902||Based on MMRM model model with log transformation of sSOL and factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, First 7 nights: Zolpidem ER, Lemborexant 10 mg||0.902|0.763|< 0.0001
92324016|NCT02783729|184552880|SUPERIORITY||LSGM Ratio|0.882|||=|0.0176|TWO_SIDED|95.0|0.796|0.978||Based on MMRM model model with log transformation of sSOL and factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||0.978|0.796|= 0.0176
92324017|NCT02783729|184552880|SUPERIORITY||LSGM Ratio|0.811|||<|0.0001|TWO_SIDED|95.0|0.732|0.899||Based on MMRM model model with log transformation of sSOL and with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, Last 7 nights: Zolpidem ER, Lemborexant 10 mg||0.899|0.732|< 0.0001
92324018|NCT02783729|184552880|SUPERIORITY||LSM Difference|8.12|STANDARD_ERROR_OF_MEAN|4.484|=|0.0706|TWO_SIDED|95.0|-0.68|16.91||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, First 7 nights: Zolpidem ER, Lemborexant 5 mg||16.91|-0.68|= 0.0706
92324019|NCT02783729|184552880|SUPERIORITY||LSM Difference|-5.81|STANDARD_ERROR_OF_MEAN|4.481|=|0.1949|TWO_SIDED|95.0|-14.61|2.98||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, First 7 nights: Zolpidem ER, Lemborexant 10 mg||2.98|-14.61|= 0.1949
92324020|NCT02783729|184552880|SUPERIORITY||LSM Difference|14.45|STANDARD_ERROR_OF_MEAN|5.241|=|0.0059|TWO_SIDED|95.0|4.16|24.73||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||24.73|4.16|= 0.0059
92324021|NCT02783729|184552880|SUPERIORITY||LSM Difference|5.36|STANDARD_ERROR_OF_MEAN|5.241|=|0.3064|TWO_SIDED|95.0|-4.92|15.65||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, Last 7 nights: Zolpidem ER, Lemborexant 10 mg||15.65|-4.92|= 0.3064
92324022|NCT02783729|184552880|SUPERIORITY||LSM Difference|-6.57|STANDARD_ERROR_OF_MEAN|5.325|=|0.2174|TWO_SIDED|95.0|-17.02|3.88||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baselines sTST as a covariate.|MMRM|||sTST, First 7 nights: Zolpidem ER, Lemborexant 5 mg||3.88|-17.02|= 0.2174
92199720|NCT04052425|184297668|SUPERIORITY||Odds Ratio (OR)|5.56|||<|0.0001|TWO_SIDED|95.0|3.226|9.578||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||9.578|3.226|< 0.0001
92199721|NCT04052425|184297670|SUPERIORITY||least squares mean difference|-30.61|STANDARD_ERROR_OF_MEAN|4.28|<|0.0001|TWO_SIDED|95.0|-39.03|-22.19|||mixed-effect model; repeated measurement|||||-22.19|-39.03|<0.0001
92199722|NCT04052425|184297673|SUPERIORITY||least squares mean difference|-16.98|STANDARD_ERROR_OF_MEAN|3.2|<|0.0001|TWO_SIDED|95.0|-23.28|-10.68|||mixed-effect model; repeated measurement|||||-10.68|-23.28|<0.0001
92199723|NCT04052425|184297675|SUPERIORITY||least squares mean difference|-9.07|STANDARD_ERROR_OF_MEAN|2.49||0.0003|TWO_SIDED|95.0|-13.96|-4.18|||mixed-effect model; repeated measurement|||||-4.18|-13.96|0.0003
92199724|NCT04052425|184297677|SUPERIORITY||Odds Ratio (OR)|3.04|||<|0.0001|TWO_SIDED|95.0|1.746|5.307||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||T-VASI25||5.307|1.746|< 0.0001
92199725|NCT04052425|184297677|SUPERIORITY||Odds Ratio (OR)|2.3||||0.2921|TWO_SIDED|95.0|0.489|10.823||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||T-VASI75||10.823|0.489|0.2921
92199726|NCT04052425|184297677|SUPERIORITY||Odds Ratio (OR)|0.49||||||||||The p value was not evaluable because the response rate in the vehicle group was too low.||||T-VASI90||||
92199727|NCT04052425|184297680|SUPERIORITY||least squares mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.48||0.497|TWO_SIDED|95.0|-1.26|0.62|||mixed-effect model; repeated measurement|||||0.62|-1.26|0.4970
92199728|NCT01189110|184297684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81|STANDARD_ERROR_OF_MEAN|0.42||0.74|TWO_SIDED|95.0|0.23|2.83|||Chi-squared|||A two-proportion z-test was used to compare the proportion of self-reported abstinence at 3 weeks between groups.||2.83|0.23|0.74
92199729|NCT00945672|184297735|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|3.959||0.9779|TWO_SIDED|90.0|-6.49|6.71|||Mixed Models Analysis|||Month 3: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||6.71|-6.49|0.9779
92324023|NCT02783729|184552880|SUPERIORITY||LSM Difference|8.88|STANDARD_ERROR_OF_MEAN|5.313|=|0.0949|TWO_SIDED|95.0|-1.55|19.31||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sTST as a covariate.|MMRM|||sTST, First 7 nights: Zolpidem ER, Lemborexant 10 mg||19.31|-1.55|= 0.0949
92324024|NCT02783729|184552880|SUPERIORITY||LSM Difference|-6.82|STANDARD_ERROR_OF_MEAN|6.207|=|0.2718|TWO_SIDED|95.0|-19.01|5.36||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sTST as a covariate.|MMRM|||sTST, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||5.36|-19.01|= 0.2718
92199730|NCT00945672|184297735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|3.815||0.8801|TWO_SIDED|90.0|-5.79|6.94|||Mixed Models Analysis|||Month 6: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||6.94|-5.79|0.8801
92199731|NCT00945672|184297735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|3.845||0.9412|TWO_SIDED|90.0|-6.13|6.7|||Mixed Models Analysis|||Month 9: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||6.70|-6.13|0.9412
92199732|NCT00945672|184297735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.36|STANDARD_ERROR_OF_MEAN|4.223||0.7486|TWO_SIDED|90.0|-8.38|5.66|||Mixed Models Analysis|||Month 13: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||5.66|-8.38|0.7486
92199733|NCT00945672|184297735|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|8.18|STANDARD_ERROR_OF_MEAN|4.171||0.0534|TWO_SIDED|90.0|1.24|15.12|||Mixed Models Analysis|||Month 18: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||15.12|1.24|0.0534
92199734|NCT00945672|184297735|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|3.776||0.998|TWO_SIDED|90.0|-6.29|6.31|||Mixed Models Analysis|||Month 3: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||6.31|-6.29|0.9980
92199735|NCT00945672|184297735|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|3.35|STANDARD_ERROR_OF_MEAN|3.958||0.4004|TWO_SIDED|90.0|-3.25|9.94|||Mixed Models Analysis|||Month 6: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||9.94|-3.25|0.4004
92199736|NCT00945672|184297735|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|1.81|STANDARD_ERROR_OF_MEAN|4.214||0.6685|TWO_SIDED|90.0|-5.2|8.82|||Mixed Models Analysis|||Month 9: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||8.82|-5.20|0.6685
92199737|NCT00945672|184297735|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|4.74|STANDARD_ERROR_OF_MEAN|4.522||0.2968|TWO_SIDED|90.0|-2.77|12.25|||Mixed Models Analysis|||Month 13: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||12.25|-2.77|0.2968
92199738|NCT00945672|184297735|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|4.494||0.772|TWO_SIDED|90.0|-8.77|6.16|||Mixed Models Analysis|||Month 18: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||6.16|-8.77|0.7720
92199739|NCT00945672|184297736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|8.789||0.8205|TWO_SIDED|90.0|-12.68|16.69|||Mixed Models Analysis|||Month 6: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||16.69|-12.68|0.8205
92199740|NCT00945672|184297736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.37|STANDARD_ERROR_OF_MEAN|8.789||0.2007|TWO_SIDED|90.0|-3.31|26.06|||Mixed Models Analysis|||Month 13: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||26.06|-3.31|0.2007
92199741|NCT00945672|184297736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|8.9|STANDARD_ERROR_OF_MEAN|0.8789||0.3152|TWO_SIDED|90.0|-5.78|23.59|||Mixed Models Analysis|||Month 18: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||23.59|-5.78|0.3152
92199742|NCT00945672|184297736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|8.964||0.8071|TWO_SIDED|90.0|-17.18|12.79|||Mixed Models Analysis|||Month 6: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||12.79|-17.18|0.8071
92199743|NCT00945672|184297736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|9.354||0.9918|TWO_SIDED|90.0|-15.72|15.52|||Mixed Models Analysis|||Month 13: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||15.52|-15.72|0.9918
92199744|NCT00945672|184297736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.01|STANDARD_ERROR_OF_MEAN|9.415||0.7498|TWO_SIDED|90.0|-18.73|12.7|||Mixed Models Analysis|||Month 18: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||12.70|-18.73|0.7498
92199745|NCT00945672|184297737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.35|STANDARD_ERROR_OF_MEAN|1.91||0.4855|TWO_SIDED|90.0|-1.9|4.6|||ANCOVA|||Month 13: Analysis of covariance (ANCOVA) with cohort by treatment interaction as fixed effect and baseline scores as covariate.||4.60|-1.90|0.4855
92199746|NCT00945672|184297737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.45|STANDARD_ERROR_OF_MEAN|2.185||0.5132|TWO_SIDED|90.0|-2.27|5.16|||ANCOVA|||Month 13: Analysis of covariance (ANCOVA) with cohort by treatment interaction as fixed effect and baseline scores as covariate.||5.16|-2.27|0.5132
92199747|NCT01150461|184297746|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||Mann-Whitney-Wilcoxon test||||0.02
92199748|NCT01150461|184297747|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Wilcoxon (Mann-Whitney)|||Mann-Whitney-Wilcoxon test||||0.06
92199749|NCT01681992|184297748|NON_INFERIORITY|The lower limit of the 2-sided 97.5% confidence interval (CI) on the group difference (Inv\_MMR\_Min minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to measles virus when tested with ELISA.|Difference in seroresponse rate|-5.48|||||TWO_SIDED|97.5|-7.65|-3.43|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Min vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to measles virus at Day 42.||-3.43|-7.65|
92199750|NCT01681992|184297748|NON_INFERIORITY|The lower limit of the 2-sided 97.5% confidence interval (CI) on the group difference (Inv\_MMR\_Med minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to measles virus when tested with ELISA.|Difference in seroresponse rate|-2.08|||||TWO_SIDED|97.5|-3.96|-0.27|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Med vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to measles virus at Day 42.||-0.27|-3.96|
92324025|NCT02783729|184552880|SUPERIORITY||LSM Difference|7.43|STANDARD_ERROR_OF_MEAN|6.206|=|0.2317|TWO_SIDED|95.0|-4.75|19.61||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sTST as a covariate.|MMRM|||sTST, Last 7 nights: Zolpidem ER, Lemborexant 10 mg||19.61|-4.75|= 0.2317
92324026|NCT02783729|184552881|SUPERIORITY||LSM Difference|-1.37|STANDARD_ERROR_OF_MEAN|1.063|=|0.1963|TWO_SIDED|95.0|-3.46|0.71||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, First 7 nights: Zolpidem ER, Lemborexant 5 mg||0.71|-3.46|= 0.1963
92324027|NCT02783729|184552881|SUPERIORITY|Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate|LSM Difference|1.7|STANDARD_ERROR_OF_MEAN|1.06|=|0.1093|TWO_SIDED|95.0|-0.38|3.78|||MMRM|||sSE, First 7 nights: Zolpidem ER, Lemborexant 10 mg||3.78|-0.38|= 0.1093
92199751|NCT01681992|184297749|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Min minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to mumps virus when tested with ELISA.|Difference in seroresponse rate|-0.42|||||TWO_SIDED|97.5|-1.91|1.04|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Min vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to mumps virus at Day 42.||1.04|-1.91|
92199752|NCT01681992|184297749|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Med minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to mumps virus when tested with ELISA.|Difference in seroresponse rate|-0.58|||||TWO_SIDED|97.5|-2.11|0.91|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Med vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to mumps virus at Day 42.||0.91|-2.11|
92199753|NCT01681992|184297750|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Min minus Com\_MMR) in seroresponse rate should be ≥ -10% for antibodies to mumps virus when tested with PRNT.|Difference in seroresponse rate|-9.41|||||TWO_SIDED|97.5|-13.2|-5.62|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Min vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to mumps virus at Day 42.||-5.62|-13.20|
92199754|NCT01681992|184297750|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Med minus Com\_MMR) in seroresponse rate should be ≥ -10% for antibodies to mumps virus when tested with PRNT.|Difference in seroresponse rate|-7.22|||||TWO_SIDED|97.5|-10.94|-3.49|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Med vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to mumps virus at Day 42.||-3.49|-10.94|
92199755|NCT01681992|184297751|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Min minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to rubella virus when tested with ELISA.|Difference in seroresponse rate|-1.71|||||TWO_SIDED|97.5|-3.11|-0.42|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Min vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to rubella virus at Day 42.||-0.42|-3.11|
92199756|NCT01681992|184297751|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Med minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to rubella virus when tested with ELISA.|Difference in seroresponse rate|-1.18|||||TWO_SIDED|97.5|-2.5|0.05|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Med vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to rubella virus at Day 42.||0.05|-2.50|
92199757|NCT01681992|184297752|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Min over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to measles virus when tested with ELISA.|Adjusted GMC ratio|0.79|||||TWO_SIDED|97.5|0.72|0.88|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Min vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-measles antibodies at Day 42.||0.88|0.72|
92199758|NCT01681992|184297752|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Med over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to measles virus when tested with ELISA.|Adjusted GMC ratio|0.91|||||TWO_SIDED|97.5|0.83|1.01|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Med vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-measles antibodies at Day 42.||1.01|0.83|
92199759|NCT01681992|184297753|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Min over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to mumps virus when tested with ELISA.|Adjusted GMC ratio|0.82|||||TWO_SIDED|97.5|0.76|0.89|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Min vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-mumps antibodies at Day 42.||0.89|0.76|
92199760|NCT01681992|184297753|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Med over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to mumps virus when tested with ELISA.|Adjusted GMC ratio|0.84|||||TWO_SIDED|97.5|0.78|0.91|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Med vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-mumps antibodies at Day 42.||0.91|0.78|
92199761|NCT01681992|184297754|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Min over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to mumps virus when tested with PRNT.|Adjusted GMT ratio|0.6|||||TWO_SIDED|97.5|0.53|0.68|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed titers with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Min vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-mumps antibodies at Day 42.||0.68|0.53|
92199762|NCT01681992|184297754|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Med over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to mumps virus when tested with PRNT.|Adjusted GMT ratio|0.65|||||TWO_SIDED|97.5|0.57|0.74|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed titers with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Med vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-mumps antibodies at Day 42.||0.74|0.57|
92199763|NCT01681992|184297755|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Min over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to rubella virus when tested with ELISA.|Adjusted GMC ratio|0.89|||||TWO_SIDED|97.5|0.83|0.95|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Min vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-rubella antibodies at Day 42.||0.95|0.83|
92199764|NCT01681992|184297755|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Med over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to rubella virus when tested with ELISA.|Adjusted GMC ratio|0.88|||||TWO_SIDED|97.5|0.83|0.95|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Med vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-rubella antibodies at Day 42.||0.95|0.83|
92324028|NCT02783729|184552881|SUPERIORITY||LSM Difference|-1.53|STANDARD_ERROR_OF_MEAN|1.247|=|0.2196|TWO_SIDED|95.0|-3.98|0.92||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||0.92|-3.98|= 0.2196
92324029|NCT02783729|184552881|SUPERIORITY||LSM Difference|1.05|STANDARD_ERROR_OF_MEAN|1.246|=|0.4013|TWO_SIDED|95.0|-1.4|3.49||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, Last 7 nights: Zolpidem ER, Lemborexant 10 mg||3.49|-1.4|= 0.4013
92199765|NCT00447590|184297775|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||2-sided Exact Binomial Test|||p-Value is from a 2-sided exact binomial test to test the null hypothesis that 30% of subjects have at least 30% EWL.||||<0.0001
92199766|NCT04148989|184297787|SUPERIORITY||Mean Difference (Final Values)|-12.8|||<|0.001|TWO_SIDED|95.0|-18.6|-7.0|||Regression, gamma||Change in emergency department door-to-antibiotic time (minutes) associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable gamma regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||-7.0|-18.6|<0.001
92324030|NCT02783729|184552882|SUPERIORITY||LSGM Ratio|0.85|||=|0.0092|TWO_SIDED|95.0|0.752|0.961||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS: Placebo, Lemborexant 5 mg||0.961|0.752|= 0.0092
92199767|NCT04148989|184297788|SUPERIORITY||Odds Ratio (OR)|0.89||||0.45|TWO_SIDED|95.0|0.68|1.19|||Regression, Logistic||Change in all-cause 30-day mortality risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||1.19|0.68|0.45
92199768|NCT04148989|184297789|SUPERIORITY||Odds Ratio (OR)|0.83||||0.1|TWO_SIDED|95.0|0.67|1.04|||Regression, Logistic||Change in all-cause 1-year mortality risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||1.04|0.67|0.10
92199769|NCT04148989|184297790|SUPERIORITY||Odds Ratio (OR)|0.77||||0.15|TWO_SIDED|95.0|0.53|1.1|||Regression, Logistic|||Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.|Change in all-cause in-hospital mortality risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|1.10|0.53|0.15
92199770|NCT04148989|184297791|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.71|TWO_SIDED|95.0|-1.4|2.1|||Regression, gamma||Change in hospital charges ($1000s) associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable gamma regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||2.1|-1.4|0.71
92199771|NCT04148989|184297792|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.19|TWO_SIDED|95.0|-0.4|0.1|||Regression, gamma||Change in hospital length of stay (days) associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable gamma regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||0.1|-0.4|0.19
92199772|NCT04148989|184297793|SUPERIORITY|Multiple imputation was employed to account for missing covariate data affecting 3.6% of eligible patients.|Odds Ratio (OR)|1.1||||0.005|TWO_SIDED|95.0|1.03|1.17||Model adjusted for age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.|Regression, Logistic||Change in antimicrobial treatment risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis.|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for prespecified covariates.||1.17|1.03|0.005
92199773|NCT04148989|184297794|SUPERIORITY||Odds Ratio (OR)|1.09||||0.73|TWO_SIDED|95.0|0.68|1.75|||Regression, Logistic||Change in risk for possible antimicrobial-associated adverse event associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||1.75|0.68|0.73
92199774|NCT04148989|184297795|SUPERIORITY|Multiple imputation was employed to account for missing covariate data affecting 3.6% of eligible patients.|Odds Ratio (OR)|1.02||||0.9|TWO_SIDED|95.0|0.78|1.33||Model adjusted for age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.|Regression, Logistic|||Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for prespecified covariates.|Change in risk for possible antimicrobial-associated adverse event associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis.|1.33|0.78|0.90
92324031|NCT02783729|184552882|SUPERIORITY||LSGM Ratio|0.795|||=|0.0002|TWO_SIDED|95.0|0.704|0.899||Based on MMRM model with factors of age group, region, treatment, visit (Days1/2), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS: Placebo, Lemborexant 10 mg||0.899|0.704|= 0.0002
92324032|NCT02783729|184552882|SUPERIORITY||LSM Difference|-33.4|STANDARD_ERROR_OF_MEAN|2.711|<|0.0001|TWO_SIDED|95.0|-38.71|-28.09||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effect, and the baseline WASO as a covariate.|MMRM|||WASO: Placebo, Lemborexant 5 mg||-28.09|-38.71|< 0.0001
92324033|NCT02783729|184552882|SUPERIORITY||LSM Difference|-42.27|STANDARD_ERROR_OF_MEAN|2.705|<|0.0001|TWO_SIDED|95.0|-47.57|-36.97||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effect, and the baseline WASO as a covariate.|MMRM|||WASO: Placebo, Lemborexant 10 mg||-36.97|-47.57|< 0.0001
92324034|NCT02783729|184552882|SUPERIORITY||LSM Difference|-21.66|STANDARD_ERROR_OF_MEAN|2.221|<|0.0001|TWO_SIDED|95.0|-26.01|-17.3||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline WASO2H as a covariate.|MMRM|||WASO2H: Placebo, Lemborexant 5 mg||-17.3|-26.01|< 0.0001
92324035|NCT02783729|184552882|SUPERIORITY||LSM Difference|-28.33|STANDARD_ERROR_OF_MEAN|2.219|<|0.0001|TWO_SIDED|95.0|-32.68|-23.98||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline WASO2H as a covariate.|MMRM|||WASO2H: Placebo, Lemborexant 10 mg||-23.98|-32.68|< 0.0001
92199775|NCT04148989|184297796|SUPERIORITY||Odds Ratio (OR)|1.03||||0.94|TWO_SIDED|95.0|0.49|2.17|||Regression, Logistic||Change in new-onset Clostridium difficile colitis risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis.|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||2.17|0.49|0.94
92324036|NCT02783729|184552882|SUPERIORITY||LSM Difference|44.05|STANDARD_ERROR_OF_MEAN|3.291|<|0.0001|TWO_SIDED|95.0|37.59|50.51||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effect, and the baseline TST as a covariate.|MMRM|||TST: Placebo, Lemborexant 5 mg||50.51|37.59|< 0.0001
92324037|NCT02783729|184552882|SUPERIORITY||LSM Difference|56.9|STANDARD_ERROR_OF_MEAN|3.284|<|0.0001|TWO_SIDED|95.0|50.46|63.34||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effect, and the baseline TST as a covariate.|MMRM|||TST: Placebo, Lemborexant 10 mg||63.34|50.46|< 0.0001
92324038|NCT02783729|184552883|SUPERIORITY||LSM Difference|9.01|STANDARD_ERROR_OF_MEAN|0.666|<|0.0001|TWO_SIDED|95.0|7.7|10.31||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline SE as a covariate.|MMRM|||SE: Placebo, Lemborexant 5 mg||10.31|7.7|< 0.0001
92324039|NCT02783729|184552883|SUPERIORITY||LSM Difference|11.6|STANDARD_ERROR_OF_MEAN|0.664|<|0.0001|TWO_SIDED|95.0|10.3|12.9||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effect, and the baseline SE as a covariate.|MMRM|||SE: Placebo, Lemborexant 10 mg||12.9|10.3|< 0.0001
92324040|NCT02783729|184552884|SUPERIORITY||LSM Difference|-16.41|STANDARD_ERROR_OF_MEAN|2.457|<|0.0001|TWO_SIDED|95.0|-21.23|-11.6||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline WASO2H as a covariate.|MMRM|||WASO2H: Placebo, Lemborexant 5 mg||-11.6|-21.23|< 0.0001
92324041|NCT02783729|184552884|SUPERIORITY||LSM Difference|-17.76|STANDARD_ERROR_OF_MEAN|2.451|<|0.0001|TWO_SIDED|95.0|-22.57|-12.96||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline WASO2H as a covariate.|MMRM|||WASO2H: Placebo, Lemborexant 10 mg||-12.96|-22.57|< 0.0001
92324042|NCT02783729|184552884|SUPERIORITY||LSM Difference|34.16|STANDARD_ERROR_OF_MEAN|3.673|<|0.0001|TWO_SIDED|95.0|26.95|41.36||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline TST as a covariate.|MMRM|||TST: Placebo, Lemborexant 5 mg||41.36|26.95|< 0.0001
92324043|NCT02783729|184552884|SUPERIORITY||LSM Difference|38.85|STANDARD_ERROR_OF_MEAN|3.672|<|0.0001|TWO_SIDED|95.0|31.64|46.05||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline TST as a covariate.|MMRM|||TST: Placebo, Lemborexant 10 mg||46.05|31.64|< 0.0001
92324044|NCT02783729|184552885|SUPERIORITY||LSGM Ratio|0.815|||<|0.0001|TWO_SIDED|95.0|0.745|0.891||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, First 7 nights: Placebo, Lemborexant 5 mg||0.891|0.745|< 0.0001
92324045|NCT02783729|184552885|SUPERIORITY||LSGM Ratio|0.753|||<|0.0001|TWO_SIDED|95.0|0.689|0.823||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, First 7 nights: Placebo, Lemborexant 10 mg||0.823|0.689|< 0.0001
92324046|NCT02783729|184552885|SUPERIORITY||LSGM Ratio|0.75|||<|0.0001|TWO_SIDED|95.0|0.671|0.837||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, Last 7 nights: Placebo, Lemborexant 5 mg||0.837|0.671|< 0.0001
92324047|NCT02783729|184552885|SUPERIORITY||LSGM Ratio|0.689|||<|0.0001|TWO_SIDED|95.0|0.618|0.769||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, Last 7 nights: Placebo, Lemborexant 10 mg||0.769|0.618|< 0.0001
92324048|NCT02783729|184552885|SUPERIORITY||LSM Difference|-12.41|STANDARD_ERROR_OF_MEAN|4.764|=|0.0093|TWO_SIDED|95.0|-21.76|-3.06||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, First 7 nights: Placebo, Lemborexant 5 mg||-3.06|-21.76|= 0.0093
92324049|NCT02783729|184552885|SUPERIORITY||LSM Difference|-26.34|STANDARD_ERROR_OF_MEAN|4.762|<|0.0001|TWO_SIDED|95.0|-35.68|-16.99||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, First 7 nights: Placebo, Lemborexant 10 mg||-16.99|-35.68|< 0.0001
92324050|NCT02783729|184552885|SUPERIORITY||LSM Difference|-11.49|STANDARD_ERROR_OF_MEAN|5.573|=|0.0396|TWO_SIDED|95.0|-22.42|-0.55||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, Last 7 nights: Placebo, Lemborexant 5 mg||-0.55|-22.42|= 0.0396
92324051|NCT02783729|184552885|SUPERIORITY||LSM Difference|-20.57|STANDARD_ERROR_OF_MEAN|5.574|=|0.0002|TWO_SIDED|95.0|-31.51|-9.63||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, Last 7 nights: Placebo, Lemborexant 10 mg||-9.63|-31.51|= 0.0002
92324052|NCT02783729|184552885|SUPERIORITY||LSM Difference|19.05|STANDARD_ERROR_OF_MEAN|5.619|=|0.0007|TWO_SIDED|95.0|8.03|30.08||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baselines sTST as a covariate.|MMRM|||sTST, First 7 nights: Placebo, Lemborexant 5 mg||30.08|8.03|= 0.0007
92324053|NCT02783729|184552885|SUPERIORITY||LSM Difference|34.51|STANDARD_ERROR_OF_MEAN|5.609|<|0.0001|TWO_SIDED|95.0|23.5|45.52||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baselines sTST as a covariate.|MMRM|||sTST, First 7 nights: Placebo, Lemborexant 10 mg||45.52|23.5|< 0.0001
92324054|NCT02783729|184552885|SUPERIORITY||LSM Difference|23.57|STANDARD_ERROR_OF_MEAN|6.565|=|0.0003|TWO_SIDED|95.0|10.68|36.45||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sTST as a covariate.|MMRM|||sTST, Last 7 nights: Placebo, Lemborexant 5 mg||36.45|10.68|= 0.0003
92324055|NCT02783729|184552885|SUPERIORITY||LSM Difference|37.82|STANDARD_ERROR_OF_MEAN|6.565|<|0.0001|TWO_SIDED|95.0|24.94|50.71||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sTST as a covariate.|MMRM|||sTST, Last 7 nights: Placebo, Lemborexant 10 mg||50.71|24.94|< 0.0001
92324056|NCT02783729|184552886|SUPERIORITY||LSM Difference|3.76|STANDARD_ERROR_OF_MEAN|1.122|=|0.0008|TWO_SIDED|95.0|1.56|5.97||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, First 7 nights: Placebo, Lemborexant 5 mg||5.97|1.56|= 0.0008
92324057|NCT02783729|184552886|SUPERIORITY||LSM Difference|6.84|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|4.64|9.04||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, First 7 nights: Placebo, Lemborexant 10 mg||9.04|4.64|< 0.0001
92324058|NCT02783729|184552886|SUPERIORITY||LSM Difference|4.61|STANDARD_ERROR_OF_MEAN|1.319|=|0.0005|TWO_SIDED|95.0|2.02|7.19||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, Last 7 nights: Placebo, Lemborexant 5 mg||7.19|2.02|= 0.0005
92324059|NCT02783729|184552886|SUPERIORITY||LSM Difference|7.18|STANDARD_ERROR_OF_MEAN|1.319|<|0.0001|TWO_SIDED|95.0|4.6|9.77||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, Last 7 nights: Placebo, Lemborexant 10 mg||9.77|4.6|< 0.0001
92324060|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|0.41|||=|0.9028|TWO_SIDED|95.0|-6.22|7.04||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 1/2: Placebo, Lemborexant 5 mg||7.04|-6.22|= 0.9028
92324061|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|2.49|||=|0.4699|TWO_SIDED|95.0|-4.2|9.18||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 1/2: Placebo, Lemborexant 10 mg||9.18|-4.2|= 0.4699
92324062|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|5.58|||=|0.0566|TWO_SIDED|95.0|-0.14|11.31|||Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test stratified by age group.||LPS, Days 1/2: Zolpidem ER, Lemborexant 5 mg||11.31|-0.14|= 0.0566
92324063|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|7.57|||=|0.0122|TWO_SIDED|95.0|1.71|13.44||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 1/2: Zolpidem ER, Lemborexant 10 mg||13.44|1.71|= 0.0122
92324064|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|4.42|||=|0.2176|TWO_SIDED|95.0|-2.5|11.34||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 29/30: Placebo, Lemborexant 5 mg||11.34|-2.5|= 0.2176
92324065|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|6.47|||=|0.0773|TWO_SIDED|95.0|-0.55|13.49||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 29/30: Placebo, Lemborexant 10 mg||13.49|-0.55|= 0.0773
92324066|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|8.85|||=|0.0054|TWO_SIDED|95.0|2.68|15.02||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 29/30: Zolpidem ER, Lemborexant 5 mg||15.02|2.68|= 0.0054
92324067|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|10.89|||=|0.0008|TWO_SIDED|95.0|4.61|17.17||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 29/30: Zolpidem ER, Lemborexant 10 mg||17.17|4.61|= 0.0008
92324068|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|6.9|||=|0.003|TWO_SIDED|95.0|2.66|11.14||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, First 7 nights: Placebo, Lemborexant 5 mg||11.14|2.66|= 0.003
92324069|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|7.5|||=|0.0016|TWO_SIDED|95.0|3.19|11.81||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, First 7 nights: Placebo, Lemborexant 10 mg||11.81|3.19|= 0.0016
92324070|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|2.22|||=|0.3643|TWO_SIDED|95.0|-2.56|7.01||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, First 7 nights: Zolpidem, Lemborexant 5 mg||7.01|-2.56|= 0.3643
92324071|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|2.82|||=|0.2553|TWO_SIDED|95.0|-2.02|7.66||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, First 7 nights: Zolpidem, Lemborexant 10 mg||7.66|-2.02|= 0.2553
92324072|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|9.69|||=|0.0016|TWO_SIDED|95.0|3.98|15.4||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, Last 7 nights: Placebo, Lemborexant 5 mg||15.4|3.98|= 0.0016
92324073|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|7.29|||=|0.0128|TWO_SIDED|95.0|1.8|12.79||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, Last 7 nights: Placebo, Lemborexant 10 mg||12.79|1.8|= 0.0128
92324074|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|8.16|||=|0.0051|TWO_SIDED|95.0|2.51|13.81||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||13.81|2.51|= 0.0051
92324075|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|5.76|||=|0.0389|TWO_SIDED|95.0|0.34|11.18||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, Last 7nights: Zolpidem ER, Lemborexant 10 mg||11.18|0.34|= 0.0389
92324076|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|34.26|||<|0.0001|TWO_SIDED|95.0|26.46|42.06||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 1/2: Placebo, Lemborexant 5 mg||42.06|26.46|< 0.0001
92324077|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|47.57|||<|0.0001|TWO_SIDED|95.0|40.02|55.13||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 1/2: Placebo, Lemborexant 10 mg||55.13|40.02|< 0.0001
92199776|NCT04148989|184297797|SUPERIORITY|Multiple imputation was employed to account for missing covariate data affecting 3.6% of eligible patients.|Odds Ratio (OR)|1.41||||0.1|TWO_SIDED|95.0|0.93|2.14|||Regression, Logistic||Change in new-onset Clostridium difficile colitis risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis.|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for prespecified covariates.||2.14|0.93|0.10
92324078|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|4.89|||=|0.2534|TWO_SIDED|95.0|-3.49|13.28||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 1/2: Zolpidem ER, Lemborexant 5 mg||13.28|-3.49|= 0.2534
92324079|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|18.25|||<|0.0001|TWO_SIDED|95.0|10.1|26.4||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO: Days 1/2: Zolpidem ER, Lemborexant 10 mg||26.4|10.1|< 0.0001
92324080|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|22.2|||<|0.0001|TWO_SIDED|95.0|14.06|30.35||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 29/30: Placebo, Lemborexant 5 mg||30.35|14.06|< 0.0001
92324081|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|24.13|||<|0.0001|TWO_SIDED|95.0|16.16|32.1||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 29/30: Placebo, Lemborexant 10 mg||32.1|16.16|< 0.0001
92324082|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|9.59|||=|0.023|TWO_SIDED|95.0|1.36|17.81||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 29/30: Zolpidem ER, Lemborexant 5 mg||17.81|1.36|= 0.023
92324083|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|11.43|||=|0.0058|TWO_SIDED|95.0|3.38|19.48||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 29/30: Zolpidem ER, Lemborexant 10 mg||19.48|3.38|= 0.0058
92324084|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|7.3|||=|0.0222|TWO_SIDED|95.0|1.27|13.33||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, First 7 nights: Placebo, Lemborexant 5||13.33|1.27|= 0.0222
92324085|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|10.84|||=|0.0013|TWO_SIDED|95.0|4.57|17.11||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, First 7 nights: Placebo, Lemborexant 10 mg||17.11|4.57|= 0.0013
92324086|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|0.21|||=|0.9495|TWO_SIDED|95.0|-6.17|6.58||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, First 7 nights: Zolpidem ER, Lemborexant 5 mg||6.58|-6.17|= 0.9495
92324087|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|3.72|||=|0.2708|TWO_SIDED|95.0|-2.88|10.32||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO: First 7 nights: Zolpidem ER, Lemborexant 10 mg||10.32|-2.88|= 0.2708
92324088|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|7.91|||=|0.0322|TWO_SIDED|95.0|0.86|14.96||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, Last 7 nights: Placebo, Lemborexant 5 mg||14.96|0.86|= 0.0322
92324089|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|7.69|||=|0.0363|TWO_SIDED|95.0|0.68|14.71||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, Last 7 nights: Placebo, Lemborexant 10 mg||14.71|0.68|= 0.0363
92324090|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|0.05|||=|0.9885|TWO_SIDED|95.0|-7.14|7.24||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||7.24|-7.14|= 0.9885
92324091|NCT02783729|184552887|SUPERIORITY||Difference of Percentage|-0.16|||=|0.9651|TWO_SIDED|95.0|-7.31|6.99||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, Last 7 nights: Zolpidem ER, Lemborexant 10 mg||6.99|-7.31|= 0.9651
92324092|NCT02783729|184552888|SUPERIORITY||LSM Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.319|=|0.0006|TWO_SIDED|95.0|-1.73|-0.47||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Placebo, Lemborexant 5 mg||-0.47|-1.73|= 0.0006
92324093|NCT02783729|184552888|SUPERIORITY||LSM Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.32|=|0.0007|TWO_SIDED|95.0|-1.71|-0.46||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Placebo, Lemborexant 10 mg||-0.46|-1.71|= 0.0007
92324094|NCT02783729|184552888|SUPERIORITY||LSM Difference|0.32|STANDARD_ERROR_OF_MEAN|0.301|=|0.2951|TWO_SIDED|95.0|-0.28|0.91||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Zolpidem ER, Lemborexant 5 mg||0.91|-0.28|= 0.2951
92324095|NCT02783729|184552888|SUPERIORITY||LSM Difference|0.33|STANDARD_ERROR_OF_MEAN|0.303|=|0.2744|TWO_SIDED|95.0|-0.26|0.92||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Zolpidem ER, Lemborexant 10 mg||0.92|-0.26|= 0.2744
92324096|NCT02783729|184552889|SUPERIORITY||LSM Difference|-1.26|STANDARD_ERROR_OF_MEAN|1.063|=|0.2348|TWO_SIDED|95.0|-3.35|0.82||Based on ANCOVA model with factors of age group, region, treatment and the baseline FSS as a covariate.|ANCOVA|||Placebo, Lemborexant 5 mg||0.82|-3.35|= 0.2348
92324097|NCT02783729|184552889|SUPERIORITY||LSM Difference|-1.17|STANDARD_ERROR_OF_MEAN|1.067|=|0.2745|TWO_SIDED|95.0|-3.26|0.93||Based on ANCOVA model with factors of age group, region, treatment and the baseline FSS as a covariate.|ANCOVA|||Placebo, Lemborexant 10 mg||0.93|-3.26|= 0.2745
92324098|NCT02783729|184552889|SUPERIORITY||LSM Difference|-0.37|STANDARD_ERROR_OF_MEAN|1.005|=|0.711|TWO_SIDED|95.0|-2.35|1.6||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Zolpidem ER, Lemborexant 5 mg||1.6|-2.35|= 0.711
92324099|NCT02783729|184552889|SUPERIORITY||LSM Difference|-0.27|STANDARD_ERROR_OF_MEAN|1.009|=|0.7854|TWO_SIDED|95.0|-2.26|1.71||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Zolpidem ER, Lemborexant 10 mg||1.71|-2.26|= 0.7854
92324100|NCT02783729|184552890|SUPERIORITY||LSM Difference|30.77|STANDARD_ERROR_OF_MEAN|12.505|=|0.0141|TWO_SIDED|95.0|6.23|55.31||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline POA as a covariate.|MMRM|||POA: Placebo, Lemborexant 5 mg||55.31|6.23|= 0.0141
92199777|NCT04148989|184297798|SUPERIORITY|Multiple imputation was employed to account for missing covariate data affecting 3.1% of eligible patients.|Odds Ratio (OR)|1.15||||0.59|TWO_SIDED|95.0|0.69|1.93|||Regression, Logistic||Change in risk for antimicrobial administration in the ED associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for prespecified covariates.||1.93|0.69|0.59
92199778|NCT04148989|184297799|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.02|TWO_SIDED|95.0|0.06|0.58|||Regression, Linear||Change in total spectrum score of antibiotics administered within 24 hours of ED arrival associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable ??? regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||0.58|0.06|0.02
92199779|NCT04148989|184297800|SUPERIORITY|Multiple imputation was employed to account for missing covariate data affecting 2.0% of eligible patients.|Mean Difference (Final Values)|0.17||||0.02|TWO_SIDED|95.0|0.03|0.31|||Regression, Linear||Change in total spectrum score of antibiotics administered within 24 hours of ED arrival associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable linear regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for prespecified covariates.||0.31|0.03|0.02
92199780|NCT03812029|184297801|SUPERIORITY|||||||0.0015||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.0015
92199781|NCT03812029|184297801|SUPERIORITY|||||||0.0121||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.0121
92199782|NCT03812029|184297801|SUPERIORITY|||||||0.0371||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.0371
92199783|NCT03812029|184297802|SUPERIORITY|||||||0.003||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.003
92199784|NCT03812029|184297802|SUPERIORITY|||||||0.04||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.04
92199785|NCT03812029|184297803|SUPERIORITY|||||||0.0017||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.0017
92199786|NCT03812029|184297803|SUPERIORITY|||||||0.018||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.018
92199787|NCT03812029|184297803|SUPERIORITY|||||||0.13||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.13
92199788|NCT03812029|184297804|SUPERIORITY|||||||0.001||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.001
92199789|NCT03812029|184297804|SUPERIORITY|||||||0.002||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.002
92199790|NCT03812029|184297804|SUPERIORITY|||||||0.018||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.018
92199791|NCT03812029|184297805|SUPERIORITY|||||||0.09||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.09
92199792|NCT03812029|184297805|SUPERIORITY|||||||0.47||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.47
92199793|NCT03812029|184297805|SUPERIORITY|||||||0.14||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.14
92199794|NCT03812029|184297806|SUPERIORITY||||||<|0.0001||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||<0.0001
92199795|NCT03812029|184297806|SUPERIORITY||||||<|0.0001||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||<0.0001
92199796|NCT03812029|184297806|SUPERIORITY|||||||0.0002||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.0002
92199797|NCT03812029|184297807|SUPERIORITY|||||||0.017||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.017
92199798|NCT03812029|184297807|SUPERIORITY|||||||0.0006||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.0006
92199799|NCT03812029|184297807|SUPERIORITY|||||||0.006||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.006
92199800|NCT03812029|184297808|SUPERIORITY|||||||0.16||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.16
92199801|NCT03812029|184297808|SUPERIORITY|||||||0.01||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.01
92199802|NCT03812029|184297808|SUPERIORITY|||||||0.57||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.57
92199803|NCT03812029|184297809|SUPERIORITY|||||||0.0017||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.0017
92199804|NCT03812029|184297809|SUPERIORITY|||||||0.0093||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.0093
92199805|NCT01080300|184297811|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|0.311||0.0003|TWO_SIDED|95.0|-2.31|-1.09||P-value for the test of difference of the least square mean change from baseline between Gabapentin ER 1800 mg and placebo group is based on the F-test of Type III analysis.|Based on Van Eltereen|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Frequency at Week 4:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate to severe hot flashes at Week 4."||-1.09|-2.31|0.0003
92199806|NCT01080300|184297811|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.14|STANDARD_ERROR_OF_MEAN|0.335||0.1|TWO_SIDED|95.0|-1.8|-0.48||P-value for the test of difference of the least square mean change from baseline between Gabapentin ER 1800 mg and placebo group is based on the F-test of Type III analysis.|Based on Van Elteren|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Frequency at Week 12:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate to severe hot flashes at Week 12."||-0.48|-1.80|0.1000
92199807|NCT01080300|184297812|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|-0.31|-0.1||P-value for the test of difference of the least square mean change from baseline between Gabapentin ER 1800 mg and placebo group is based on the F-test of Type III analysis.|Based on Van Elteren|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Severity Score at Week 4:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate to severe hot flashes at Week 4."||-0.10|-0.31|<0.0001
92199808|NCT01080300|184297812|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.072||0.0004|TWO_SIDED|95.0|-0.33|-0.04||P-value for the test of difference of the least square mean change from baseline between Gabapentin ER 1800 mg and placebo group is based on the F-test of Type III analysis.|Based on Van Elteren|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Severity Score at Week 12:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate to severe hot flashes at Week 12."||-0.04|-0.33|0.0004
92199809|NCT01080300|184297813|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.08|STANDARD_ERROR_OF_MEAN|0.453||0.151|TWO_SIDED|95.0|-1.98|-0.19|||Based on Van Elteren|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Frequency at Week 24:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in observed average daily number of moderate to severe hot flashes at Week 24."||-0.19|-1.98|0.1510
92199810|NCT01080300|184297814|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.0004|TWO_SIDED|95.0|-0.44|0.0|||Van Elteren|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Severity Score at Week 24:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in observed average daily severity score of moderate to severe hot flashes at Week 24."||-0.00|-0.44|0.0004
92199811|NCT01080300|184297815|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|13.6||||0.0008|TWO_SIDED|95.0|5.7|21.6|||2-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|"Proportion of patients who were categorized as very much or much improved in PGIC at Week 12.~Null Hypotheses: no treatment differences, relative to placebo in the proportion of patients who were categorized as very much or much improved in the PGIC score at week 12.."||21.6|5.7|0.0008
92199812|NCT01080300|184297815|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|13.4||||0.0009|TWO_SIDED|95.0|5.5|21.3|||2-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|"Proportion of patients who were categorized as very much or much improved in PGIC at Week 24."||21.3|5.5|0.0009
92199813|NCT01080300|184297816|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.4|||<|0.0001|TWO_SIDED|95.0|8.4|24.3|||2-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|"Proportion of patients who were categorized as very much or much improved in CGIC at Week 12.~Null Hypotheses: no treatment differences, relative to placebo in the proportion of patients who were categorized as very much or much improved in the CGIC score at week 12."||24.3|8.4|<0.0001
92199814|NCT01080300|184297816|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.0||||0.007|TWO_SIDED|95.0|3.0|19.0|||2-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|Week 24||19.0|3.0|0.0070
92199815|NCT01080300|184297817|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|7.5||||0.0609|TWO_SIDED|95.0|-0.3|15.2|||two-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|Week 12||15.2|-0.3|0.0609
92199816|NCT01080300|184297817|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|7.3||||0.072|TWO_SIDED|95.0|-0.7|15.3|||two-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|Week 24||15.3|-0.7|0.0720
92199817|NCT01080300|184297818|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|3.8||||0.1825|TWO_SIDED|95.0|-1.8|9.4|||two-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|Week 12||9.4|-1.8|0.1825
92199818|NCT01080300|184297818|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|4.4||||0.1662|TWO_SIDED|95.0|-1.8|10.7|||two-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|Week 24||10.7|-1.8|0.1662
92199819|NCT01080300|184297819|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.36|STANDARD_ERROR_OF_MEAN|0.196|<|0.0001|TWO_SIDED|95.0|-1.75|-0.97||The P value (versus placebo) for the pairwise test of difference of the LS mean change from Baseline between the G-ER 1800-mg and placebo-treatment groups was based on the F test of type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 4: LOCF daily sleep interference rating.||-0.97|-1.75|<0.0001
92199820|NCT01080300|184297819|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.92|STANDARD_ERROR_OF_MEAN|0.226|<|0.0001|TWO_SIDED|95.0|-1.36|-0.47||The P value (versus placebo) for the pairwise test of difference of the LS mean change from Baseline between the G-ER 1800-mg and placebo-treatment groups was based on the F test of type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 12: LOCF daily sleep interference rating.||-0.47|-1.36|<0.0001
92199821|NCT01080300|184297819|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|0.237|<|0.0001|TWO_SIDED|95.0|-1.42|-0.49||The P value (versus placebo) for the pairwise test of difference of the LS mean change from Baseline between the G-ER 1800-mg and placebo-treatment groups was based on the F test of type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 24: LOCF daily sleep interference rating.||-0.49|-1.42|<0.0001
92324101|NCT02783729|184552890|SUPERIORITY||LSM Difference|39.67|STANDARD_ERROR_OF_MEAN|12.542|=|0.0016|TWO_SIDED|95.0|15.05|64.29||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline POA as a covariate.|MMRM|||POA: Placebo, Lemborexant 10 mg||64.29|15.05|= 0.0016
92199822|NCT01080300|184297820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.62|STANDARD_ERROR_OF_MEAN|0.537|<|0.0001|TWO_SIDED|95.0|-3.67|-1.56||The P value (versus placebo) for the pairwise test of difference of the LS mean change from Baseline between the G-ER 1800-mg and placebo-treatment groups was based on the F test of type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 4: LOCF daily insomnia severity index (ISI) rating.||-1.56|-3.67|<0.0001
92199823|NCT01080300|184297820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.85|STANDARD_ERROR_OF_MEAN|0.543||0.0007|TWO_SIDED|95.0|-2.92|-0.78||The P value (versus placebo) for the pairwise test of difference of the LS mean change from Baseline between the G-ER 1800-mg and placebo-treatment groups was based on the F test of type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 12: LOCF daily insomnia severity index (ISI) rating.||-0.78|-2.92|0.0007
92199824|NCT01080300|184297820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.76|STANDARD_ERROR_OF_MEAN|0.548||0.0014|TWO_SIDED|95.0|-2.84|-0.69|||ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 24: LOCF daily insomnia severity index (ISI) rating.||-0.69|-2.84|0.0014
92199825|NCT01080300|184297821|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.084||0.0137|TWO_SIDED|95.0|-0.37|-0.04||The p-value (vs. Placebo) for the test of difference of the LS mean change from baseline between Gabapentin ER 1800mg and placebo group is based on the F-test of Type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||MENQOL score at Week 4||-0.04|-0.37|0.0137
92199826|NCT01080300|184297821|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.084||0.0872|TWO_SIDED|95.0|-0.31|0.02||The p-value (vs. Placebo) for the test of difference of the LS mean change from baseline between Gabapentin ER 1800mg and placebo group is based on the F-test of Type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||MENQOL score at Week 12||0.02|-0.31|0.0872
92199827|NCT01080300|184297821|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.091||0.5607|TWO_SIDED|95.0|-0.23|0.13||The p-value (vs. Placebo) for the test of difference of the LS mean change from baseline between Gabapentin ER 1800mg and placebo group is based on the F-test of Type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||MENQOL score at Week 24||0.13|-0.23|0.5607
92199828|NCT02269423|184297839|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
92199829|NCT02269423|184297839|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
92199830|NCT02269423|184297839|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
92199831|NCT02269423|184297839|OTHER|||||||0.161||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.161
92199832|NCT02269423|184297839|OTHER|||||||0.008||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.008
92199833|NCT02269423|184297839|OTHER|||||||0.173||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.173
92199834|NCT02269423|184297840|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
92199835|NCT02269423|184297840|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
92199836|NCT02269423|184297840|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
92199837|NCT02269423|184297840|OTHER|||||||0.102||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.102
92199838|NCT02269423|184297840|OTHER|||||||0.124||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.124
92199839|NCT02269423|184297840|OTHER|||||||0.918||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.918
92199840|NCT01281839|184297845|SUPERIORITY_OR_OTHER||Difference in proportions of SVR12|43.8|||<|0.001|TWO_SIDED|95.0|34.6|53.0|||Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference in proportions of SVR12 between the treatment groups.||53.0|34.6|<0.001
92199841|NCT01281839|184297846|SUPERIORITY_OR_OTHER||Difference in proportions of SVR72|43.3|||<|0.001|TWO_SIDED|95.0|34.1|52.5|||Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference in proportions of SVR72 between the treatment groups.||52.5|34.1|<0.001
92199842|NCT01281839|184297847|SUPERIORITY_OR_OTHER||Difference in proportions of SVR24|44.1|||<|0.001|TWO_SIDED|95.0|34.9|53.2|||Cochran-Mantel-Haenszel|||There is no difference in proportions of SVR24 between the treatment groups.||53.2|34.9|<0.001
92199843|NCT01281839|184297848|SUPERIORITY_OR_OTHER||Difference in proportions of SVR4|41.0|||<|0.001|TWO_SIDED|95.0|32.1|49.9|||Cochran-Mantel-Haenszel|||There is no difference in proportions of SVR24 between the treatment groups.||49.9|32.1|<0.001
92324102|NCT02783729|184552890|SUPERIORITY||LSM Difference|-19.22|STANDARD_ERROR_OF_MEAN|11.779|=|0.1031|TWO_SIDED|95.0|-42.34|3.9||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline POA as a covariate.|MMRM|||POA: Zolpidem ER, Lemborexant 5 mg||3.9|-42.34|= 0.1031
92324103|NCT02783729|184552890|SUPERIORITY||LSM Difference|-10.32|STANDARD_ERROR_OF_MEAN|11.813|=|0.3825|TWO_SIDED|95.0|-33.5|12.86||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline POA as a covariate.|MMRM|||POA: Zolpidem ER, Lemborexant 10 mg||12.86|-33.5|= 0.3825
92324104|NCT02783729|184552890|SUPERIORITY||LSM Difference|28.81|STANDARD_ERROR_OF_MEAN|60.626|=|0.6348|TWO_SIDED|95.0|-90.18|147.8||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline SOMT as a covariate.|MMRM|||SOMT: Placebo, Lemborexant 5 mg||147.8|-90.18|= 0.6348
92324105|NCT02783729|184552890|SUPERIORITY||LSM Difference|50.83|STANDARD_ERROR_OF_MEAN|60.702|=|0.4026|TWO_SIDED|95.0|-68.3|169.97||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline SOMT as a covariate.|MMRM|||SOMT: Placebo, Lemborexant 10 mg||169.97|-68.3|= 0.4026
92324106|NCT02783729|184552890|SUPERIORITY||LSM Difference|-203.36|STANDARD_ERROR_OF_MEAN|57.171|=|0.0004|TWO_SIDED|95.0|-315.56|-91.15||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline SOMT as a covariate.|MMRM|||SOMT: Zolpidem ER, Lemborexant 5 mg||-91.15|-315.56|= 0.0004
92324107|NCT02783729|184552890|SUPERIORITY||LSM Difference|-181.33|STANDARD_ERROR_OF_MEAN|57.255|=|0.0016|TWO_SIDED|95.0|-293.71|-68.96||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline SOMT as a covariate.|MMRM|||SOMT: Zolpidem ER, Lemborexant 10 mg||-68.96|-293.71|= 0.0016
92324108|NCT02783729|184552891|SUPERIORITY||LSM Difference|-0.03|STANDARD_ERROR_OF_MEAN|4.141|=|0.9936|TWO_SIDED|95.0|-8.16|8.09||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline QOM as a covariate.|MMRM|||QOM: Placebo, Lemborexant 5 mg||8.09|-8.16|= 0.9936
92324109|NCT02783729|184552891|SUPERIORITY||LSM Difference|-5.85|STANDARD_ERROR_OF_MEAN|4.154|=|0.1595|TWO_SIDED|95.0|-14.0|2.3||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline QOM as a covariate.|MMRM|||QOM: Placebo, Lemborexant 10 mg||2.3|-14|= 0.1595
92324110|NCT02783729|184552891|SUPERIORITY||LSM Difference|12.73|STANDARD_ERROR_OF_MEAN|3.894|=|0.0011|TWO_SIDED|95.0|5.09|20.38||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline QOM as a covariate.|MMRM|||QOM: Zolpidem ER, Lemborexant 5 mg||20.38|5.09|= 0.0011
92324111|NCT02783729|184552891|SUPERIORITY||LSM Difference|6.92|STANDARD_ERROR_OF_MEAN|3.913|=|0.0774|TWO_SIDED|95.0|-0.76|14.6||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline QOM as a covariate.|MMRM|||QOM: Zolpidem ER, Lemborexant 10 mg||14.6|-0.76|= 0.0774
92324112|NCT02783729|184552891|SUPERIORITY||LSM Difference|0.35|STANDARD_ERROR_OF_MEAN|0.393|=|0.3726|TWO_SIDED|95.0|-0.42|1.12||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline COA as a covariate.|MMRM|||COA: Placebo, Lemborexant 5 mg||1.12|-0.42|= 0.3726
92199844|NCT03974022|184297930|SUPERIORITY||||||<|0.0001|||||||binomial exact test against H0|||||||<0.0001
92199845|NCT03974022|184297930|SUPERIORITY||||||<|0.0001|||||||binomial exact test against H0|||||||<0.0001
92199846|NCT00217737|184297952|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.63|1.11|||||Hazard ratio: Arm B/Arm A|||1.11|0.63|
92199847|NCT00475644|184297982|SUPERIORITY||Odds Ratio (OR)|0.031|||||TWO_SIDED|95.0|0.001|0.86||||||||0.860|0.001|
92199848|NCT00790400|184297989|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Clopper-Pearson|||||||<0.0001
92324113|NCT02783729|184552891|SUPERIORITY||LSM Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.394|=|0.2579|TWO_SIDED|95.0|-1.22|0.33||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline COA as a covariate.|MMRM|||COA: Placebo, Lemborexant 10 mg||0.33|-1.22|= 0.2579
92324114|NCT02783729|184552891|SUPERIORITY||LSM Difference|1.39|STANDARD_ERROR_OF_MEAN|0.37|=|0.0002|TWO_SIDED|95.0|0.66|2.11||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline COA as a covariate.|MMRM|||COA: Zolpidem ER, Lemborexant 5 mg||2.11|0.66|= 0.0002
92324115|NCT02783729|184552891|SUPERIORITY||LSM Difference|0.59|STANDARD_ERROR_OF_MEAN|0.372|=|0.112|TWO_SIDED|95.0|-0.14|1.32||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline COA as a covariate.|MMRM|||COA: Zolpidem ER, Lemborexant 10 mg||1.32|-0.14|= 0.112
92324116|NCT03085238|184552908|NON_INFERIORITY|The primary safety endpoint will be analyzed using a unilateral one sample test for binomial proportion at the 5% level.||||||0.1309|||||||unilateral one sample test for binomial|||H0: M-Trap freedom MAE incidence \<= 90% - Non-inferiority margin (25%)||||0.1309
92324117|NCT03085238|184552909|NON_INFERIORITY|The primary safety endpoint will be analyzed using a unilateral one sample test for binomial proportion at the 5% level.||||||0.0181|||||||unilateral one sample test for binomial|||H0: M-Trap freedom MAE incidence \<= 90% - Non-inferiority margin (25%)||||.0181
92324118|NCT00977314|184552988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_DEVIATION|1.0|<|0.001|||||||t-test, 2 sided|||The endpoint was the calculated difference between the HINT result for the unaided condition prior to the 30-day trial period (Day 1) and the HINT result using the SoundBite (aided) at the end of the 30-day trial period (Day 30).||||<0.001
92199849|NCT00078338|184298025|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.943||||0.643|TWO_SIDED|95.0|0.74|1.21|||Cox proportional hazards model|||||1.21|0.74|0.643
92199850|NCT02356705|184298057|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
92199851|NCT02356705|184298058|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
92199852|NCT02356705|184298059|SUPERIORITY|||||||0.88|||||||Kruskal-Wallis|||||||0.88
92199853|NCT02356705|184298061|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
92199854|NCT02356705|184298062|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|||||||0.08
92199855|NCT01606319|184298073|SUPERIORITY_OR_OTHER||relative rate|0.94||||0.67|TWO_SIDED|95.0|0.69|1.28|||log-linear model|log-linear model in which the number of exacerbations was assumed to follow a negative binomial distribution|relative rate with acetaminophen in the numerator and ibuprofen in the denominator|||1.28|.69|0.67
92199856|NCT01606319|184298074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.5|TWO_SIDED|95.0|-0.039|0.0019|||ANCOVA|||||.0019|-0.039|0.5
92199857|NCT01606319|184298075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.69|TWO_SIDED|95.0|-0.9|0.6|||ANCOVA|||||0.6|-0.9|0.69
92199858|NCT01606319|184298076|SUPERIORITY_OR_OTHER||relative rate|0.99||||0.94|TWO_SIDED|95.0|0.72|1.37|||log-linear model|log-linear model in which the number of exacerbations was assumed to follow a negative binomial distribution|relative rate with acetaminophen in the numerator and ibuprofen in the denominator|||1.37|0.72|.94
92199859|NCT01634269|184298077|SUPERIORITY_OR_OTHER_LEGACY||Proportion of IF implanted subjects|87.5||||0.002|TWO_SIDED|95.0|61.7|98.4|||Exact binomial|||||98.4|61.7|0.002
92199860|NCT00584077|184298127|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||ANOVA|||Each subject served as their own control as a comparison of the airway innervated (contralateral native lung) with the denervated airway (allograft)||||<0.01
92199861|NCT00584077|184298128|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value was adjusted for multiple comparisons using Bonferroni test|ANOVA|||For the cross-sectional and longitudinal groups, a comparison of cough frequency after airway irritation of the main carina, and the proximal and distal anastomotic sites was performed using one-way analysis of variance with Bonferroni test. In the longitudinal cohort, a comparison of the cough frequencies at different airway sites at 1.5 and 12 months was performed using one-way analysis of variance with Bonferroni test.||||<0.01
92199862|NCT01294397|184298135|SUPERIORITY_OR_OTHER||Least Squares Mean Ratio of Day 22/Day 1|0.96|||||TWO_SIDED|90.0|0.85|1.08|||||Two one-sided tests|Log-transformed AUC0-168 was analyzed with a mixed-effects model with treatment as the fixed effect and subject as the random effect. The mean difference between day 22 and day 1 was expressed as a percentage of the reference (day 1). The mean differences and the 90% CIs were back transformed to produce the ratio (day 22 vs. day 1) of the geometric means and the 90% CIs. If the CI for the ratio was within the standard acceptance range of 0.80 to 1.25, absence of an interaction was concluded.||1.08|0.85|
92199863|NCT01294397|184298136|SUPERIORITY_OR_OTHER||Least Squares Mean Ratio of Day 22/Day 1|0.92|||||TWO_SIDED|90.0|0.81|1.05|||||Two one-sided tests|Log-transformed Cmax was analyzed with a mixed-effects model with treatment as the fixed effect and subject as the random effect. The mean difference between day 22 and day 1 was expressed as a percentage of the reference (day 1). The mean differences and the 90% CIs were back transformed to produce the ratio (day 22 vs. day 1) of the geometric means and the 90% CIs. If the CI for the ratio was within the standard acceptance range of 0.80 to 1.25, absence of an interaction was concluded.||1.05|0.81|
92199864|NCT04079634|184298151|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
92199865|NCT00479882|184298152|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence LDL-C reduction was established if the 95% CI for the difference between these two treatments in percent change from baseline in LDL-C fell within ±3%.|Difference in Least squares mean|2.4|||||TWO_SIDED|95.0|1.3|3.4|||ANOVA|Factors for sequence, participant within sequence, period and treatment||||3.4|1.3|
92199866|NCT00479882|184298152|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence LDL-C reduction was established if the 95% CI for the difference between these two treatments in percent change from baseline in LDL-C fell within ±3%.|Difference in Least Squares Mean|1.4|||||TWO_SIDED|95.0|0.4|2.4|||ANOVA|Factors for sequence, participant within sequence, period and treatment||||2.4|0.4|
92199867|NCT00479882|184298153|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence HDL-C reduction was established if the 95% CI for the difference between these two treatments in percent change from baseline in LDL-C fell within ±4%.|Difference in Least Squares Mean|-0.2|||||TWO_SIDED|95.0|-1.4|1.0|||ANOVA|Factors for sequence, participant within sequence, period and treatment||||1.0|-1.4|
92199868|NCT00479882|184298153|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence HDL-C reduction was established if the 95% CI for the difference between these two treatments in percent change from baseline in LDL-C fell within ±4%.|Difference in Least Squares Mean|-0.8|||||TWO_SIDED|95.0|-1.9|0.2|||ANOVA|Factors for sequence, participant within sequence, period and treatment||||0.2|-1.9|
92199869|NCT00479882|184298154|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.2||||0.685|TWO_SIDED|95.0|-1.2|0.8|||Fisher Exact||Wilson's Method|Periods I/II||0.8|-1.2|0.685
92199870|NCT00479882|184298154|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.3|||||TWO_SIDED|95.0|-1.8|1.1|||||Wilson's Method|Period III||1.1|-1.8|
92199871|NCT00479882|184298154|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.3||||0.753|TWO_SIDED|95.0|-1.6|0.9|||Fisher Exact||Wilson's Method|Periods I/II||0.9|-1.6|0.753
92199872|NCT00479882|184298154|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-0.8|1.4|||||Wilson's Method|Period III||1.4|-0.8|
92199873|NCT00479882|184298155|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.7|0.6|||Fisher Exact||Wilson's Method|Periods I/II||0.6|-0.7|
92199874|NCT00479882|184298155|SUPERIORITY_OR_OTHER||Difference in Percentage|0.4|||||TWO_SIDED|95.0|-0.5|1.5|||||Wilson's Method|Period III||1.5|-0.5|
92199875|NCT00479882|184298155|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2||||0.617|TWO_SIDED|95.0|-0.6|1.1|||Fisher Exact||Wilson's Method|Periods I/II||1.1|-0.6|0.617
92199876|NCT00479882|184298155|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.8|0.9|||||Wilson's Method|Period III||0.9|-0.8|
92199877|NCT00479882|184298156|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.7|0.6|||Fisher Exact||Wilson's Method|Periods I/II||0.6|-0.7|
92199878|NCT00479882|184298156|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.9|0.8|||||Wilson's Method|Period III||0.8|-0.9|
92199879|NCT00479882|184298156|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.6|0.7|||Fisher Exact||Wilson's Method|Periods I/II||0.7|-0.6|
92199880|NCT00479882|184298156|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.8|0.9|||||Wilson's Method|Period III||0.9|-0.8|
92324119|NCT00688662|184552998|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-15.6||||0.01|TWO_SIDED|95.0|-28.0|-3.3||The primary analysis was conducted using a logistic regression model with treatment group as the factor of interest and clinical center and PSH status as covariates. A Wald test using a two-tailed significance level of 0.0499 was conducted.|Regression, Logistic|Adjusted and unadjusted risk differences with two-sided 95% confidence intervals are reported in the manuscript.|The unadjusted risk difference and confidence interval was -14.3% (-27.3%, -1.2%).|The trial was designed to test for an overall absolute difference of at least 30% in the primary outcome ('success') in patients treated with sphincterotomy compared to those treated with sham. Using a 2:1 allocation, an assumed 10% non-adherence rate, and one interim analysis for efficacy using O'Brien and Fleming boundaries and futility using conditional power, the study required 214 patients to be randomized to ensure greater than 90% likelihood of identifying this difference.||-3.3|-28.0|0.01
92324120|NCT00688662|184552999|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-9.0|||||TWO_SIDED|95.0|-24.1|5.9||A confidence interval approach was used for examining this outcome.||||Only patients with abnormal manometry were included in this subgroup analysis.||5.9|-24.1|
92324121|NCT03010800|184553000|SUPERIORITY|||||||0.0469||||||One subject experienced incontinence with the Yoni.Fit in place (#8) (9.2 g Pad Wt. Without and 17.3 g Pad Wt. With). This was attributed to incorrect Yoni.Fit sizing. This subject was not included in the p-value calculation.|Wilcoxon (Mann-Whitney)|||"Null hypothesis is that the pad weights With Yoni.Fit and Without Yoni.Fit are equivalent.~A one-sided Wilcoxson paired T-test of the group means will be performed. If the p-value is significant, the null hypothesis will be rejected."||||0.0469
92324122|NCT04463251|184553001|OTHER||Least square means ratio|0.58|||||TWO_SIDED|95.0|0.37|0.91|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.91|0.37|
92324123|NCT04463251|184553001|OTHER||Least square means ratio|0.58|||||TWO_SIDED|95.0|0.37|0.91|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.91|0.37|
92324124|NCT04463251|184553002|OTHER||Least square means ratio|0.54|||||TWO_SIDED|95.0|0.34|0.87|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.87|0.34|
92324125|NCT04463251|184553002|OTHER||Least square means ratio|0.6|||||TWO_SIDED|95.0|0.37|0.95|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.95|0.37|
92199881|NCT00479882|184298157|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.7|0.6|||Fisher Exact||Wilson's Method|Periods I/II||0.6|-0.7|
92324126|NCT04463251|184553003|OTHER||Least square means ratio|0.56|||||TWO_SIDED|95.0|0.34|0.91|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation"|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.91|0.34|
92324127|NCT04463251|184553003|OTHER||Least square means ratio|0.61|||||TWO_SIDED|95.0|0.38|0.98|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.98|0.38|
92199882|NCT00479882|184298157|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.9|0.8|||||Wilson's Method|Period III||0.8|-0.9|
92199883|NCT00479882|184298157|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.6|0.7|||Fisher Exact||Wilson's Method|Periods I/II||0.7|-0.6|
92199884|NCT00479882|184298157|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.8|0.9|||||Wilson's Method|Period III||0.9|-0.8|
92199885|NCT00479882|184298158|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.2||||0.497|TWO_SIDED|95.0|-0.9|0.5|||Fisher Exact|||Periods I/II||0.5|-0.9|0.497
92199886|NCT00479882|184298159|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.3||||0.449|TWO_SIDED|95.0|-1.4|0.6|||Fisher Exact||Wilson's Method|Periods I/II||0.6|-1.4|0.449
92199887|NCT00479882|184298159|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.3|||||TWO_SIDED|95.0|-1.6|0.9|||||Wilson's Method|Period III||0.9|-1.6|
92199888|NCT00479882|184298159|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2||||0.685|TWO_SIDED|95.0|-0.8|1.2|||Fisher Exact||Wilson's Method|Period I/II||1.2|-0.8|0.685
92199889|NCT00479882|184298159|SUPERIORITY_OR_OTHER||Difference in Percentage|0.3|||||TWO_SIDED|95.0|-1.0|1.6|||||Wilson's Method|Period III||1.6|-1.0|
92199890|NCT00479882|184298160|SUPERIORITY_OR_OTHER||Difference in Percentage|-1.2||||0.02|TWO_SIDED|95.0|-2.4|-0.2|||Fisher Exact||Wilson's Method|Periods I/II||-0.2|-2.4|0.020
92199891|NCT00479882|184298160|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.3|||||TWO_SIDED|95.0|-1.6|0.9|||||Wilson's Method|Period III||0.9|-1.6|
92199892|NCT00479882|184298160|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.5||||0.452|TWO_SIDED|95.0|-1.6|0.5|||Fisher Exact||Wilson's Method|Periods I/II||0.5|-1.6|0.452
92199893|NCT00479882|184298160|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.4|||||TWO_SIDED|95.0|-1.9|1.0|||||Wilson's Method|Period III||1.0|-1.9|
92199894|NCT00479882|184298161|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.6|0.6|||||Wilson's Method|Periods I/II||0.6|-0.6|
92199895|NCT00479882|184298161|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-0.7|1.2|||||Wilson's Method|Period III||1.2|-0.7|
92199896|NCT00479882|184298161|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-0.5|0.9|||||Wilson's Method|Periods I/II||0.9|-0.5|
92199897|NCT00479882|184298161|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-0.6|1.3|||||Wilson's Method|Period III||1.3|-0.6|
92199898|NCT00479882|184298162|SUPERIORITY_OR_OTHER||Difference in Percentage|-1.4|||||TWO_SIDED|95.0|-6.6|3.8|||||Wilson's Score Method|Periods I/II||3.8|-6.6|
92199899|NCT00479882|184298162|SUPERIORITY_OR_OTHER||Difference in Percentage|-1.9|||||TWO_SIDED|95.0|-8.1|4.3|||||Wilson's Score Method|Period III||4.3|-8.1|
92199900|NCT00479882|184298162|SUPERIORITY_OR_OTHER||Difference in Percentage|0.1|||||TWO_SIDED|95.0|-5.2|5.3|||||Wilson's Score Method|Periods I/II||5.3|-5.2|
92199901|NCT00479882|184298162|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.8|||||TWO_SIDED|95.0|-8.9|3.4|||||Wilson's Score Method|Period III||3.4|-8.9|
92199902|NCT00479882|184298163|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.2|||||TWO_SIDED|95.0|-2.5|2.1|||||Wilson's Score Method|Periods I/II||2.1|-2.5|
92199903|NCT00479882|184298163|SUPERIORITY_OR_OTHER||Difference in Percentage|2.3|||||TWO_SIDED|95.0|-0.5|5.2|||||Wilson's Score Method|Period III||5.2|-0.5|
92199904|NCT00479882|184298163|SUPERIORITY_OR_OTHER||Difference in Percentage|1.6|||||TWO_SIDED|95.0|-1.0|4.2|||||Wilson's Score Method|Periods I/II||4.2|-1.0|
92199905|NCT00479882|184298163|SUPERIORITY_OR_OTHER||Difference in Percentage|2.0|||||TWO_SIDED|95.0|-0.8|5.0|||||Wilson's Score Method|Period III||5.0|-0.8|
92199906|NCT00479882|184298166|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-0.5|0.9|||||Wilson's Score Method|Periods I/II||0.9|-0.5|
92199907|NCT00479882|184298166|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.2|||||TWO_SIDED|95.0|-0.9|0.5|||||Wilson's Score Method|Periods I/II||0.5|-0.9|
92199908|NCT00479882|184298167|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.0||||0.341|TWO_SIDED|95.0|-1.1|3.1|||ANOVA|Factors for treatment, country and gender||||3.1|-1.1|0.341
92199909|NCT00479882|184298167|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|3.7||||0.004|TWO_SIDED|95.0|1.2|6.1|||ANOVA|Factors for treatment, country and gender.||||6.1|1.2|0.004
92199910|NCT00479882|184298168|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.4||||0.69|TWO_SIDED|95.0|-2.3|1.5|||ANOVA|Factors for treatment, country and gender||||1.5|-2.3|0.690
92199911|NCT00479882|184298168|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.2||||0.879|TWO_SIDED|95.0|-1.9|2.3|||ANOVA|Factors for treatment, country and gender||||2.3|-1.9|0.879
92199912|NCT02362503|184298230|SUPERIORITY||Mean Difference (Net)|-0.625|||<|0.0001|TWO_SIDED|95.0|-0.81|-0.441||Hypothesis test:µfostemsavir=µPlacebo where µ is a common intercept.|ANCOVA||Difference in covariate-adjusted least squares means between treatment groups (Fostemsavir 600 mg BID-Placebo) is presented.|||-0.441|-0.810|<0.0001
92199913|NCT02362503|184298231|OTHER||Mean Difference (Net)|45.69|||||TWO_SIDED|95.0|32.95|55.45|||||Difference between treatment groups (fostemsavir 600 mg BID-Placebo) and 95% confidence interval using Newcombe method is presented for \>0.5 log10 c/mL.|||55.45|32.95|
92199914|NCT02362503|184298231|OTHER||Mean Difference (Net)|35.67|||||TWO_SIDED|95.0|24.16|44.25|||||Difference between treatment groups (fostemsavir 600 mg BID-Placebo) and 95% confidence interval using Newcombe method is presented for \>1.0 log10 c/mL.|||44.25|24.16|
92199915|NCT02362503|184298237|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-16.8|16.0|||||Difference in covariate-adjusted least squares means between treatment groups (Fostemsavir 600 mg BID-Placebo) is presented.|||16.0|-16.8|
92199916|NCT02362503|184298238|OTHER||Mean Difference (Net)|0.617|||||TWO_SIDED|95.0|0.082|1.151|||||Difference in covariate-adjusted least squares means between treatment groups (Fostemsavir 600 mg BID-Placebo) is presented.|||1.151|0.082|
92199917|NCT03519204|184298274|SUPERIORITY||Responder Rate Difference|84.7|||<|0.0001|TWO_SIDED|95.0|68.2|94.2||P-value was based on 2-sided Fisher's exact test comparing responder rate between treatment group and no-treated control group.|Fisher Exact|||||94.2|68.2|<0.0001
92199918|NCT03519204|184298276|SUPERIORITY||Median Difference|0.558|STANDARD_ERROR_OF_MEAN|0.109492|<|0.0001|TWO_SIDED|95.0|0.3447|0.7739||P-value was computed using Wilcoxon test with normal approximation.|Wilcoxon Rank-sum Test||The median difference (the location shift) and its 95% CI were computed using Hodges-Lehmann estimation associated with Wilcoxon statistics.|||0.77390|0.34470|<0.0001
92199919|NCT03519204|184298277|SUPERIORITY||Median Difference|13.04|STANDARD_ERROR_OF_MEAN|2.122|<|0.0001|TWO_SIDED|95.0|8.861|17.18||P-value was computed using Wilcoxon test with normal approximation.|Wilcoxon Rank-sum Test||The median difference (the location shift) and its 95% CI were computed using Hodges-Lehmann estimation associated with Wilcoxon statistics.|||17.180|8.861|<0.0001
92199920|NCT03392168|184298300|SUPERIORITY||Least squares mean difference|-28.5||||0.0007|TWO_SIDED|95.0|-44.6|-12.4|||Mixed Models Analysis|||LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-12.4|-44.6|0.0007
92199921|NCT03392168|184298300|SUPERIORITY||Least squares mean difference|-27.8||||0.0011|TWO_SIDED|95.0|-44.2|-11.5|||Mixed Models Analysis|||LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-11.5|-44.2|0.0011
92199922|NCT03392168|184298301|SUPERIORITY||Least squares mean difference|-3.2||||0.5493|TWO_SIDED|95.0|-13.7|7.3|||Mixed Models Analysis|||At Week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||7.3|-13.7|0.5493
92199923|NCT03392168|184298301|SUPERIORITY||Least squares mean difference|-4.9||||0.365|TWO_SIDED|95.0|-15.7|5.9|||Mixed Models Analysis|||At week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||5.9|-15.7|0.3650
92199924|NCT03392168|184298301|SUPERIORITY||Least squares mean difference|-18.3||||0.0064|TWO_SIDED|95.0|-31.3|-5.3|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-5.3|-31.3|0.0064
92199925|NCT03392168|184298301|SUPERIORITY||Least squares mean difference|-19.8||||0.0039|TWO_SIDED|95.0|-33.0|-6.5|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-6.5|-33.0|0.0039
92324128|NCT04463251|184553004|OTHER||Least square means ratio|0.56|||||TWO_SIDED|95.0|0.34|0.91|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation"|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.91|0.34|
92199926|NCT03392168|184298301|SUPERIORITY||Least squares mean difference|-28.9||||0.0001|TWO_SIDED|95.0|-42.9|-14.8|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-14.8|-42.9|0.0001
92199927|NCT03392168|184298301|SUPERIORITY||Least squares mean difference|-23.0||||0.0019|TWO_SIDED|95.0|-37.3|-8.7|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-8.7|-37.3|0.0019
92199928|NCT03392168|184298302|SUPERIORITY||Least squares mean difference|-4.3||||0.3626|TWO_SIDED|95.0|-13.6|5.0|||Mixed Models Analysis|||At Week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||5.0|-13.6|0.3626
92199929|NCT03392168|184298302|SUPERIORITY||Least squares mean difference|-8.1||||0.1011|TWO_SIDED|95.0|-17.8|1.6|||Mixed Models Analysis|||At Week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||1.6|-17.8|0.1011
92199930|NCT03392168|184298302|SUPERIORITY||Least squares mean difference|-15.5||||0.0017|TWO_SIDED|95.0|-25.1|-6.0|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-6.0|-25.1|0.0017
92199931|NCT03392168|184298302|SUPERIORITY||Least squares mean difference|-19.3||||0.0002|TWO_SIDED|95.0|-29.1|-9.4|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-9.4|-29.1|0.0002
92199932|NCT03392168|184298302|SUPERIORITY||Least squares mean difference|-21.3||||0.0003|TWO_SIDED|95.0|-32.4|-10.2|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-10.2|-32.4|0.0003
92199933|NCT03392168|184298302|SUPERIORITY||Least squares mean difference|-21.8||||0.0003|TWO_SIDED|95.0|-33.2|-10.4|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-10.4|-33.2|0.0003
92324129|NCT04463251|184553004|OTHER||Least square means ratio|0.61|||||TWO_SIDED|95.0|0.38|0.98|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.98|0.38|
92199934|NCT03392168|184298302|SUPERIORITY||Least squares mean difference|-18.7||||0.001|TWO_SIDED|95.0|-29.5|-7.8|||Mixed Models Analysis|||At Week 4; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-7.8|-29.5|0.0010
92199935|NCT03392168|184298302|SUPERIORITY||Least squares mean difference|-21.8||||0.0002|TWO_SIDED|95.0|-32.9|-10.6|||Mixed Models Analysis|||At Week 4; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-10.6|-32.9|0.0002
92199936|NCT03392168|184298303|SUPERIORITY||Least squares mean difference|2.67||||0.3209|TWO_SIDED|95.0|-2.65|7.99|||Mixed Models Analysis|||At Week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||7.99|-2.65|0.3209
92199937|NCT03392168|184298303|SUPERIORITY||Least squares mean difference|3.6||||0.1947|TWO_SIDED|95.0|-1.88|9.08|||Mixed Models Analysis|||At Week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||9.08|-1.88|0.1947
92324130|NCT04463251|184553005|OTHER||Least square means ratio|0.52|||||TWO_SIDED|95.0|0.34|0.81||||||"The following (two-sided) hypotheses were tested:~Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is equal to 1.~Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is different from 1."|"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|0.81|0.34|
92324131|NCT04463251|184553005|OTHER||Least square means ratio|0.48|||||TWO_SIDED|95.0|0.31|0.74|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is equal to 1.~Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is different from 1."||0.74|0.31|
92199938|NCT03392168|184298303|SUPERIORITY||Least squares mean difference|-4.58||||0.3561|TWO_SIDED|95.0|-14.4|5.24|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||5.24|-14.40|0.3561
92199939|NCT03392168|184298303|SUPERIORITY||Least squares mean difference|-5.82||||0.249|TWO_SIDED|95.0|-15.79|4.16|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||4.16|-15.79|0.2490
92199940|NCT03392168|184298303|SUPERIORITY||Least squares mean difference|-12.68||||0.0276|TWO_SIDED|95.0|-23.992|-1.44|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-1.44|-23.992|0.0276
92199941|NCT03392168|184298303|SUPERIORITY||Least squares mean difference|-7.04||||0.2223|TWO_SIDED|95.0|-18.44|4.36|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||4.36|-18.44|0.2223
92199942|NCT03392168|184298303|SUPERIORITY||Least squares mean difference|-20.27||||0.0108|TWO_SIDED|95.0|-35.72|-4.82|||Mixed Models Analysis|||At Week 4; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-4.82|-35.72|0.0108
92199943|NCT03392168|184298303|SUPERIORITY||Least squares mean difference|-16.67||||0.0372|TWO_SIDED|95.0|-32.34|-1.01|||Mixed Models Analysis|||At Week 4; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-1.01|-32.34|0.0372
92199944|NCT00762476|184298304|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED|95.0|||||Poisson regression|||||||>0.5000
92199945|NCT00762476|184298305|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED|95.0|||||Poisson regression|||||||>0.5000
92199946|NCT00762476|184298306|SUPERIORITY_OR_OTHER|||||||0.3451|TWO_SIDED|95.0|||||Poisson regression|||||||0.3451
92199947|NCT01441635|184298307|SUPERIORITY||LS Mean Difference|-205.9|STANDARD_ERROR_OF_MEAN|45.1|<|0.001|TWO_SIDED|95.0|-295.77|-116.01|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-116.01|-295.77|< 0.001
92199948|NCT01441635|184298307|SUPERIORITY||LS Mean Difference|-189.9|STANDARD_ERROR_OF_MEAN|44.36|<|0.001|TWO_SIDED|95.0|-278.33|-101.53|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-101.53|-278.33|< 0.001
92199949|NCT01441635|184298307|SUPERIORITY||LS Mean Difference|-138.0|STANDARD_ERROR_OF_MEAN|40.86||0.001|TWO_SIDED|95.0|-220.18|-55.76|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-55.76|-220.18|0.001
92199950|NCT01441635|184298307|SUPERIORITY||LS Mean Difference|-130.6|STANDARD_ERROR_OF_MEAN|37.68||0.001|TWO_SIDED|95.0|-206.7|-54.6|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-54.60|-206.70|0.001
92199951|NCT01441635|184298308|SUPERIORITY||LS Mean Difference|-75.6|STANDARD_ERROR_OF_MEAN|13.71|<|0.001|TWO_SIDED|95.0|-102.93|-48.28|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-48.28|-102.93|< 0.001
92199952|NCT01441635|184298308|SUPERIORITY||LS Mean Difference|-64.27|STANDARD_ERROR_OF_MEAN|13.48|<|0.001|TWO_SIDED|95.0|-91.14|-37.39|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-37.39|-91.14|< 0.001
92199953|NCT01441635|184298308|SUPERIORITY||LS Mean Difference|-67.67|STANDARD_ERROR_OF_MEAN|22.73||0.005|TWO_SIDED|95.0|-113.39|-21.96|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-21.96|-113.39|0.005
92199954|NCT01441635|184298308|SUPERIORITY||LS mean Difference|-56.84|STANDARD_ERROR_OF_MEAN|8.12|<|0.001|TWO_SIDED|95.0|-73.24|-40.45|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-40.45|-73.24|< 0.001
92199955|NCT01441635|184298309|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199956|NCT01441635|184298309|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199957|NCT01441635|184298309|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199958|NCT01441635|184298309|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199959|NCT01441635|184298310|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199960|NCT01441635|184298310|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199961|NCT01441635|184298310|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92324132|NCT04463251|184553006|OTHER||Least square means ratio|0.47|||||TWO_SIDED|95.0|0.29|0.75|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is equal to 1.~Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is different from 1."||0.75|0.29|
92199962|NCT01441635|184298310|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199963|NCT01441635|184298311|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199964|NCT01441635|184298311|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199965|NCT01441635|184298311|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199966|NCT01441635|184298311|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199967|NCT01441635|184298313|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|0.97|2.56|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||2.56|0.97|< 0.001
92199968|NCT01441635|184298313|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|1.0|2.56|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||2.56|1.00|< 0.001
92199969|NCT01441635|184298313|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.4||0.024|TWO_SIDED|95.0|0.13|1.75|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||1.75|0.13|0.024
92199970|NCT01441635|184298313|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.3||0.005|TWO_SIDED|95.0|0.28|1.51|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||1.51|0.28|0.005
92199971|NCT01441635|184298314|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.14||0.011|TWO_SIDED|95.0|-0.63|-0.08|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-0.08|-0.63|0.011
92199972|NCT01441635|184298314|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.14||0.03|TWO_SIDED|95.0|-0.59|-0.03|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-0.03|-0.59|0.030
92199973|NCT01441635|184298314|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.16||0.109|TWO_SIDED|95.0|-0.59|0.06|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||0.06|-0.59|0.109
92199974|NCT01441635|184298314|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.002|TWO_SIDED|95.0|-0.8|-0.19|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-0.19|-0.80|0.002
92199975|NCT01441635|184298315|SUPERIORITY||LS Mean Difference|-10.29|STANDARD_ERROR_OF_MEAN|4.32||0.02|TWO_SIDED|95.0|-18.9|-1.67|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-1.67|-18.90|0.020
92199976|NCT01441635|184298315|SUPERIORITY||LS Mean Difference|-7.62|STANDARD_ERROR_OF_MEAN|4.39||0.087|TWO_SIDED|95.0|-16.36|1.13|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||1.13|-16.36|0.087
92199977|NCT01441635|184298315|SUPERIORITY||LS Mean Difference|-8.81|STANDARD_ERROR_OF_MEAN|4.28||0.045|TWO_SIDED|95.0|-17.43|-0.19|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-0.19|-17.43|0.045
92199978|NCT01441635|184298315|SUPERIORITY||LS Mean Difference|-13.69|STANDARD_ERROR_OF_MEAN|4.14||0.002|TWO_SIDED|95.0|-22.06|-5.32|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-5.32|-22.06|0.002
92199979|NCT01441635|184298316|SUPERIORITY||LS Mean Difference|-5.51|STANDARD_ERROR_OF_MEAN|2.03||0.008|TWO_SIDED|95.0|-9.56|-1.47|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-1.47|-9.56|0.008
92199980|NCT01441635|184298316|SUPERIORITY||LS Mean Difference|-4.95|STANDARD_ERROR_OF_MEAN|2.08||0.02|TWO_SIDED|95.0|-9.11|-0.8|||ANCOVA|||||-0.80|-9.11|0.020
92199981|NCT01441635|184298316|SUPERIORITY||LS Mean Difference|-3.63|STANDARD_ERROR_OF_MEAN|2.75||0.194|TWO_SIDED|95.0|-9.18|1.91|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||1.91|-9.18|0.194
92199982|NCT01441635|184298316|SUPERIORITY||LS Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|2.04||0.001|TWO_SIDED|95.0|-11.33|-3.07|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-3.07|-11.33|0.001
92199983|NCT01441635|184298319|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||< 0.001
92199984|NCT01441635|184298319|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||< 0.001
92324133|NCT04463251|184553006|OTHER||Least square means ratio|0.47|||||TWO_SIDED|95.0|0.3|0.75|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is equal to 1.~Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is different from 1."||0.75|0.30|
92324134|NCT00877487|184553087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.23|||<|0.0001|TWO_SIDED|95.0|-19.1|-11.4|||ANCOVA|||||-11.4|-19.1|<0.0001
92324135|NCT00877487|184553088|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
92324136|NCT00877487|184553089|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
92324137|NCT03425396|184553107|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.5|||||TWO_SIDED|95.0|-16.8|9.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||9.6|-16.8|
92324138|NCT03425396|184553107|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-13.0|||||TWO_SIDED|95.0|-27.4|1.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||1.2|-27.4|
92324139|NCT03425396|184553107|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-5.6|||||TWO_SIDED|95.0|-19.6|7.4|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||7.4|-19.6|
92324140|NCT03425396|184553107|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.2|||||TWO_SIDED|95.0|-44.1|14.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.7|-44.1|
92324141|NCT03425396|184553108|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-1.6|||||TWO_SIDED|95.0|-14.3|11.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||11.2|-14.3|
92199985|NCT01441635|184298319|SUPERIORITY|||||||0.052|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||0.052
92199986|NCT01441635|184298319|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||< 0.001
92199987|NCT01441635|184298320|SUPERIORITY|||||||0.003|||||||Fisher Exact|||||||0.003
92199988|NCT01441635|184298320|SUPERIORITY|||||||0.016|||||||Fisher Exact|||||||0.016
92199989|NCT01441635|184298320|SUPERIORITY|||||||0.012|||||||Fisher Exact|||||||0.012
92324142|NCT03425396|184553108|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.7|||||TWO_SIDED|95.0|-16.8|9.0|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||9.0|-16.8|
92324143|NCT03425396|184553108|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|0.0|||||TWO_SIDED|95.0|-12.3|12.3|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||12.3|-12.3|
92324144|NCT03425396|184553108|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.2|||||TWO_SIDED|95.0|-44.1|14.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.7|-44.1|
92324145|NCT03425396|184553109|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-2.0|||||TWO_SIDED|95.0|-22.5|16.8|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||16.8|-22.5|
92324146|NCT03425396|184553109|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-4.7|||||TWO_SIDED|95.0|-23.3|14.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.2|-23.3|
92324147|NCT03425396|184553109|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|5.7|||||TWO_SIDED|95.0|-13.0|22.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||22.6|-13.0|
92324148|NCT03425396|184553109|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|10.0|||||TWO_SIDED|95.0|-40.4|28.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||28.9|-40.4|
92199990|NCT01441635|184298320|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
92199991|NCT01441635|184298321|SUPERIORITY|||||||0.161|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor||||||0.161
92199992|NCT01441635|184298321|SUPERIORITY|||||||0.173|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||0.173
92199993|NCT01441635|184298321|SUPERIORITY|||||||0.072|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||0.072
92199994|NCT01441635|184298321|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||0.003
92199995|NCT01441635|184298322|SUPERIORITY|||||||0.203|||||||Fisher Exact|||||||0.203
92199996|NCT01441635|184298322|SUPERIORITY|||||||0.342|||||||Fisher Exact|||||||0.342
92199997|NCT01441635|184298322|SUPERIORITY|||||||0.038|||||||Fisher Exact|||||||0.038
92199998|NCT01441635|184298322|SUPERIORITY|||||||0.111|||||||Fisher Exact|||||||0.111
92199999|NCT02627118|184298327|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
92324149|NCT03425396|184553110|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|1.7|||||TWO_SIDED|95.0|-10.0|13.4|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||13.4|-10.0|
92200000|NCT01430468|184298345|EQUIVALENCE|With use of previously established criteria for a malpositioned glenoid, deviations of greater than 10 degrees of version from the planned placement were considered relevant.||||||0.11||||||P-value was calculated. Threshold for statistical significance (p\<0.05)|t-test, 2 sided|||The absolute difference between the actual outcome and the planned outcome was compared between the standard surgical group and the glenoid positioning system group with use of a Student t test. Results were considered to be significant at p \< 0.05.||||0.11
92200001|NCT04547023|184298353|OTHER||Mean Difference (Final Values)|18.7||||0.002|TWO_SIDED|95.0|7.2|30.1|||Fisher Exact|||||30.1|7.2|0.002
92200002|NCT04297618|184298425|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92200003|NCT04297618|184298426|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92200004|NCT02614183|184298455|SUPERIORITY||Mean Difference (Final Values)|-1.92|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.48|-1.37|||Mixed Models Analysis|||||-1.37|-2.48|<.001
92324150|NCT03425396|184553110|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%|Treatment difference|-2.9|||||TWO_SIDED|95.0|-16.2|9.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||9.7|-16.2|
92324151|NCT03425396|184553110|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%|Treatment Difference|7.7|||||TWO_SIDED|95.0|-0.3|18.5|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||18.5|-0.3|
92324152|NCT03425396|184553110|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatm,ent difference|7.7|||||TWO_SIDED|95.0|-34.9|20.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||20.6|-34.9|
92324153|NCT03425396|184553111|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%|Treatment difference|0.0|||||TWO_SIDED|95.0|-12.6|12.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||12.6|-12.6|
92200005|NCT02614183|184298455|SUPERIORITY||Mean Difference (Final Values)|-1.76|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.31|-1.2|||Mixed Models Analysis|||||-1.20|-2.31|<.001
92200006|NCT02614183|184298456|SUPERIORITY||Odds Ratio (OR)|2.63|||||TWO_SIDED|95.0|2.05|3.37||||||Reduction from Baseline ≥50%||3.37|2.05|
92200007|NCT02614183|184298456|SUPERIORITY||Odds Ratio (OR)|2.48|||||TWO_SIDED|95.0|1.94|3.18||||||Reduction from Baseline ≥50%||3.18|1.94|
92200008|NCT02614183|184298456|SUPERIORITY||Odds Ratio (OR)|2.65|||||TWO_SIDED|95.0|2.04|3.45||||||Reduction from Baseline ≥75%||3.45|2.04|
92200009|NCT02614183|184298456|SUPERIORITY||Odds Ratio (OR)|2.62|||||TWO_SIDED|95.0|2.01|3.41||||||Reduction from Baseline ≥75%||3.41|2.01|
92324154|NCT03425396|184553111|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-2.7|||||TWO_SIDED|95.0|-16.3|10.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||10.2|-16.3|
92324155|NCT03425396|184553111|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|6.0|||||TWO_SIDED|95.0|-4.5|17.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated|||17.7|-4.5|
92200010|NCT02614183|184298456|SUPERIORITY||Odds Ratio (OR)|2.8|||||TWO_SIDED|95.0|1.96|4.01||||||Reduction from Baseline = 100%||4.01|1.96|
92200011|NCT02614183|184298456|SUPERIORITY||Odds Ratio (OR)|2.61|||||TWO_SIDED|95.0|1.81|3.75||||||Reduction from Baseline = 100%||3.75|1.81|
92200012|NCT02614183|184298457|SUPERIORITY||Mean Difference (Final Values)|7.74|STANDARD_ERROR_OF_MEAN|1.29|<|0.001|TWO_SIDED|95.0|5.2|10.28|||Mixed Models Analysis|||||10.28|5.20|<.001
92200013|NCT02614183|184298457|SUPERIORITY||Mean Difference (Final Values)|7.4|STANDARD_ERROR_OF_MEAN|1.31|<|0.001|TWO_SIDED|95.0|4.83|9.97|||Mixed Models Analysis|||||9.97|4.83|<.001
92200014|NCT02614183|184298458|SUPERIORITY||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.28|-1.33|||Mixed Models Analysis|||||-1.33|-2.28|<.001
92200015|NCT02614183|184298458|SUPERIORITY||Odds Ratio (OR)|-1.61|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.09|-1.14|||Mixed Models Analysis|||||-1.14|-2.09|<.001
92200016|NCT02614183|184298459|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.52|-0.12|||Mixed Models Analysis|||||-0.12|-0.52|<.001
92200017|NCT02614183|184298459|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.48|-0.07|||Mixed Models Analysis|||||-0.07|-0.48|<.001
92200018|NCT02614183|184298460|SUPERIORITY||Mean Difference (Final Values)|-13.98|STANDARD_ERROR_OF_MEAN|2.55|<|0.001|TWO_SIDED|95.0|-18.99|-8.97|||Mixed Models Analysis|||||-8.97|-18.99|<.001
92200019|NCT02614183|184298460|SUPERIORITY||Mean Difference (Final Values)|-13.64|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED|95.0|-18.68|-8.6|||Mixed Models Analysis|||||-8.60|-18.68|<.001
92200020|NCT02614183|184298461|SUPERIORITY||Mean Difference (Final Values)|-6.29|STANDARD_ERROR_OF_MEAN|1.61|<|0.001|TWO_SIDED|95.0|-9.45|-3.13|||Mixed Models Analysis|||||-3.13|-9.45|<.001
92200021|NCT02614183|184298461|SUPERIORITY||Mean Difference (Final Values)|-5.19|STANDARD_ERROR_OF_MEAN|1.63|<|0.001|TWO_SIDED|95.0|-8.39|-1.98|||Mixed Models Analysis|||||-1.98|-8.39|<.001
92200022|NCT02614183|184298462|SUPERIORITY||||||<|0.16|||||||Fisher Exact|||TE ADA Positive.||||<.160
92200023|NCT02614183|184298462|SUPERIORITY|||||||0.02|||||||Fisher Exact|||TE ADA Positive.||||.020
92200024|NCT02614183|184298462|SUPERIORITY|||||||0.131|||||||Fisher Exact|||Neutralizing Antibodies.||||.131
92200025|NCT02614183|184298462|SUPERIORITY|||||||0.009|||||||Fisher Exact|||Neutralizing Antibodies.||||.009
92200026|NCT04944290|184298485|EQUIVALENCE|8AM Day 14|Mean Difference (Net)|-0.14|||||TWO_SIDED|95.0|-0.71|0.51||||||||0.51|-0.71|
92200027|NCT04944290|184298485|EQUIVALENCE|10AM Day 14|Mean Difference (Net)|-0.35|||||TWO_SIDED|95.0|-0.86|0.26||||||10AM Day 14||0.26|-0.86|
92200028|NCT04944290|184298485|EQUIVALENCE|8AM Day 42|Mean Difference (Net)|-0.04|||||TWO_SIDED|95.0|-0.58|0.58||||||||0.58|-0.58|
92324156|NCT03425396|184553111|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|8.2|||||TWO_SIDED|95.0|-35.3|20.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||20.7|-35.3|
92324157|NCT03425396|184553112|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%|Treatment difference|-6.0|||||TWO_SIDED|95.0|-27.3|13.3|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||13.3|-27.3|
92324158|NCT03425396|184553112|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-10.6|||||TWO_SIDED|95.0|-29.2|8.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||8.6|-29.2|
92324159|NCT03425396|184553112|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment Difference|1.3|||||TWO_SIDED|95.0|-19.0|19.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||19.2|-19.0|
92324160|NCT03425396|184553112|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|10.0|||||TWO_SIDED|95.0|-40.4|28.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||28.9|-40.4|
92324161|NCT03425396|184553113|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-5.3|||||TWO_SIDED|95.0|-18.6|7.8|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||7.8|-18.6|
92324162|NCT03425396|184553113|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-14.8|||||TWO_SIDED|95.0|-29.6|-0.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||-0.6|-29.6|
92200029|NCT04944290|184298485|EQUIVALENCE|10AM Day 42|Mean Difference (Net)|-0.16|||||TWO_SIDED|95.0|-0.7|0.47||||||||0.47|-0.70|
92200030|NCT00474526|184298493|SUPERIORITY_OR_OTHER||Ratio of GMTs|4.53|||||TWO_SIDED|95.0|3.04|6.74|||ANOVA||A (Post-vaccination GMT; group ratio US1A:US2)|Using the MenACWY GMTs, immunogenicity of the fourth dose at 1 month after the 12-month vaccination in those subjects receiving MenACWY at 2, 4, and 6 months was considered superior to the immune response of a single dose given at 12-months of age if the lower limit of the two-sided 95% CI of the ratio of the two GMTs was \>= 2.0.||6.74|3.04|
92324163|NCT03425396|184553113|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-9.3|||||TWO_SIDED|95.0|-23.2|4.4|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||4.4|-23.2|
92324164|NCT03425396|184553113|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.2|||||TWO_SIDED|95.0|-44.1|14.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.7|-44.1|
92324165|NCT03425396|184553114|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-0.3|||||TWO_SIDED|95.0|-13.1|12.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||12.7|-13.1|
92324166|NCT03425396|184553114|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-5.8|||||TWO_SIDED|95.0|-20.7|7.8|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||7.8|-20.7|
92324167|NCT03425396|184553114|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-1.1|||||TWO_SIDED|95.0|-15.1|11.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||11.6|-15.1|
92324168|NCT03425396|184553114|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|8.2|||||TWO_SIDED|95.0|-35.3|20.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||20.7|-35.3|
92324169|NCT03425396|184553115|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-6.0|||||TWO_SIDED|95.0|-27.3|13.3|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated|||13.3|-27.3|
92324170|NCT03425396|184553115|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-13.5|||||TWO_SIDED|95.0|-32.4|5.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated|||5.9|-32.4|
92324171|NCT03425396|184553115|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.0|||||TWO_SIDED|95.0|-25.7|15.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated|||15.6|-25.7|
92324172|NCT03425396|184553115|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|10.0|||||TWO_SIDED|95.0|-40.4|28.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated|||28.9|-40.4|
92324173|NCT03425396|184553116|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-21.3|||||TWO_SIDED|95.0|-44.1|-1.0|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||-1.0|-44.1|
92200031|NCT00474526|184298493|SUPERIORITY_OR_OTHER||Ratio of GMTs|6.39|||||TWO_SIDED|95.0|4.16|9.79|||ANOVA||C (Post-vaccination GMT; group ratio US1A:US2)|Using the MenACWY GMTs, immunogenicity of the fourth dose at 1 month after the 12-month vaccination in those subjects receiving MenACWY at 2, 4, and 6 months was considered superior to the immune response of a single dose given at 12-months of age if the lower limit of the two-sided 95% CI of the ratio of the two GMTs was \>= 2.0.||9.79|4.16|
92324174|NCT03425396|184553116|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-13.9|||||TWO_SIDED|95.0|-32.2|4.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||4.9|-32.2|
92324175|NCT03425396|184553116|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-19.4|||||TWO_SIDED|95.0|-43.1|1.1|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||1.1|-43.1|
92324176|NCT03425396|184553116|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|6.7|||||TWO_SIDED|95.0|-43.8|23.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||23.2|-43.8|
92324177|NCT03425396|184553117|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-14.7|||||TWO_SIDED|95.0|-37.2|3.1|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||3.1|-37.2|
92324178|NCT03425396|184553117|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-15.9|||||TWO_SIDED|95.0|-34.3|1.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||1.2|-34.3|
92324179|NCT03425396|184553117|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-23.8|||||TWO_SIDED|95.0|-46.9|-4.3|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||-4.3|-46.9|
92200032|NCT00474526|184298493|SUPERIORITY_OR_OTHER||Ratio of GMTs|37.0|||||TWO_SIDED|95.0|24.0|58.0|||ANOVA||W (Post-vaccination GMT; group ratio US1A:US2)|Using the MenACWY GMTs, immunogenicity of the fourth dose at 1 month after the 12-month vaccination in those subjects receiving MenACWY at 2, 4, and 6 months was considered superior to the immune response of a single dose given at 12-months of age if the lower limit of the two-sided 95% CI of the ratio of the two GMTs was \>= 2.0.||58|24|
92324180|NCT03425396|184553117|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|3.4|||||TWO_SIDED|95.0|-48.5|19.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||19.7|-48.5|
92200033|NCT00474526|184298493|SUPERIORITY_OR_OTHER||Ratio of GMTs|38.0|||||TWO_SIDED|95.0|24.0|60.0|||ANOVA||Y (Post-vaccination GMT; group ratio US1A:US2)|"Using the MenACWY GMTs, immunogenicity of the fourth dose at 1 month after the 12-month vaccination in those subjects receiving MenACWY at 2, 4, and 6 months was considered superior to the immune response of a single dose given at 12-months of age if the lower limit of the two-sided 95% CI of the ratio of the two GMTs was \>= 2.0.~Ratio of GMTs"||60|24|
92324181|NCT03425396|184553118|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-20.7|||||TWO_SIDED|95.0|-45.1|6.0|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||6.0|-45.1|
92324182|NCT03425396|184553118|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-17.8|||||TWO_SIDED|95.0|-40.2|5.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||5.9|-40.2|
92324183|NCT03425396|184553118|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-11.4|||||TWO_SIDED|95.0|-36.8|14.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.7|-36.8|
92324184|NCT03425396|184553118|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|3.3|||||TWO_SIDED|95.0|-47.0|33.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||33.2|-47.0|
92324185|NCT03425396|184553119|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-13.6|||||TWO_SIDED|95.0|-40.4|13.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||13.2|-40.4|
92324186|NCT03425396|184553119|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-9.6|||||TWO_SIDED|95.0|-32.7|14.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.6|-32.7|
92324187|NCT03425396|184553119|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-11.9|||||TWO_SIDED|95.0|-38.2|14.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.9|-38.2|
92324188|NCT03425396|184553119|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|1.4|||||TWO_SIDED|95.0|-50.3|30.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||30.9|-50.3|
92324189|NCT01082211|184553125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|||||||Chi-squared|||Assuming a 3-year rate of 25% using a chi-squared test, a sample size of 55 patients will ensure at least 90% probability of detecting a reduction in the 3-year ipsilateral in-breast recurrence rate from 25% to 9%, with a significance level of 0.05 (1-sided). In-breast recurrence will be estimated using the cumulative incidence method.||||0.0002
92324190|NCT01082211|184553133|OTHER||Effect size|0.1|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Functional status||||
92324191|NCT01082211|184553133|OTHER||Effect size|0.14|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Cosmetic||||
92324192|NCT01082211|184553133|OTHER||Effect size|0.34|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Breast-specific pain||||
92324193|NCT01082211|184553134|OTHER||Effect size|0.04|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Functional status||||
92324194|NCT01082211|184553134|OTHER||Effect size|0.32|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Cosmetic||||
92324195|NCT01082211|184553134|OTHER||Effect size|0.28|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Breast-specific pain||||
92324196|NCT01082211|184553136|OTHER|||||||0.054|||||||Spearman rank-order correlation test|||||||0.054
92324197|NCT01082211|184553136|OTHER|||||||0.044|||||||Spearman rank-order correlation test|||||||0.044
92324198|NCT01082211|184553136|OTHER|||||||0.087|||||||Spearman rank-order correlation test|||||||0.087
92324199|NCT04338269|184553158|OTHER|Stratified Cox Proportional Hazards Model|Hazard Ratio (HR)|1.03||||0.7844|TWO_SIDED|95.0|0.83|1.28|||Log Rank|Stratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.28|0.83|0.7844
92324200|NCT04338269|184553158|OTHER||Hazard Ratio (HR)|1.04||||0.7195|TWO_SIDED|95.0|0.84|1.29|||Log Rank|Unstratified|Hazard ratios were estimated by Cox regression.|Cox Proportional Hazards Model||1.29|0.84|0.7195
92324201|NCT04338269|184553159|OTHER|Stratified Cox Proportional Hazards Model|Hazard Ratio (HR)|0.94||||0.6902|TWO_SIDED|95.0|0.7|1.27|||Log Rank|Stratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.27|0.70|0.6902
92324202|NCT04338269|184553159|OTHER|Cox Proportional Hazards Model|Hazard Ratio (HR)|0.96||||0.7853||95.0|0.71|1.27|||Log Rank|Unstratified|Hazard ratios were estimated by Cox regression.|||1.27|0.71|0.7853
92324203|NCT04338269|184553160|OTHER|Stratified Cox Proportional Hazards Model|Hazard Ratio (HR)|1.03||||0.8037|TWO_SIDED|95.0|0.83|1.27|||Log Rank|Stratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.27|0.83|0.8037
92324204|NCT04338269|184553160|OTHER|Cox Proportional Hazards Model|Hazard Ratio (HR)|1.03||||0.7894|TWO_SIDED|95.0|0.83|1.27|||Log Rank|Unstratified|Hazard ratios were estimated by Cox regression.|||1.27|0.83|0.7894
92324205|NCT04338269|184553161|OTHER|Difference in Overall Response Rates|Odds Ratio (OR)|-3.68||||0.4306|TWO_SIDED|95.0|-12.45|5.1|||Cochran-Mantel-Haenszel||Odds ratio 95% CI was constructed using the Wald method. If at least one stratum has \<10 events at the time of analysis, the stratification factor containing the level with the smallest number of patients will be removed from the stratified analysis|||5.10|-12.45|0.4306
92200034|NCT00474526|184298502|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the ratio of GMTs between the 2 dose and the 3 dose schedule (GMTLA1/GMTLA3) must be \> 0.5.|Ratio of GMT|0.73|||||TWO_SIDED|95.0|0.55|0.95|||ANOVA|||Serogroup A (Post-vaccination GMT; group ratio LA1:LA3)||0.95|0.55|
92324206|NCT04338269|184553162|OTHER|Difference in Overall Response Rates|Odds Ratio (OR)|1.0||||0.9893|TWO_SIDED|95.0|0.7|1.43|||Cochran-Mantel-Haenszel||Odds ratio 95% CI was constructed using the Wald method. If at least one stratum has \<10 events at the time of analysis, the stratification factor containing the level with the smallest number of patients will be removed from the stratified analysis|||1.43|0.70|0.9893
92324207|NCT04338269|184553163|OTHER|Difference between Duration of Response (DOR) rates|Hazard Ratio (HR)|0.7||||0.0816|TWO_SIDED|95.0|0.47|1.05|||Log Rank|Stratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.05|0.47|0.0816
92324208|NCT04338269|184553163|OTHER|Difference between Duration of Response (DOR) rates|Hazard Ratio (HR)|0.72||||0.1099||95.0|0.49|1.08|||Log Rank|Unstratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.08|0.49|0.1099
92324209|NCT04338269|184553164|OTHER|Difference between Duration of Response (DOR) rates|Hazard Ratio (HR)|1.04||||0.8354|TWO_SIDED|95.0|0.7|1.54|||Log Rank|Stratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.54|0.70|0.8354
92324210|NCT04338269|184553164|OTHER|Difference between Duration of Response (DOR) rates|Hazard Ratio (HR)|1.05||||0.8159|TWO_SIDED|95.0|0.71|1.55|||Log Rank|Unstratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.55|0.71|0.8159
92324211|NCT00174967|184553165|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324212|NCT00174967|184553165|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324213|NCT00174967|184553165|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324214|NCT00174967|184553166|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324215|NCT00174967|184553166|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324216|NCT00174967|184553166|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92200035|NCT00474526|184298502|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the ratio of GMTs between the 2 dose and the 3 dose schedule (GMTLA1/GMTLA3) must be \> 0.5.|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.81|1.31|||ANOVA|||Serogroup C (Post-vaccination GMT; group ratio LA1:LA3)||1.31|0.81|
92324217|NCT00174967|184553167|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324218|NCT00174967|184553167|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324219|NCT00174967|184553167|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324220|NCT00174967|184553168|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324221|NCT00174967|184553168|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324222|NCT00174967|184553168|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
92324223|NCT00174967|184553169|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324224|NCT00174967|184553169|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324225|NCT00174967|184553169|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324226|NCT00174967|184553170|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324227|NCT00174967|184553170|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324228|NCT00174967|184553170|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324229|NCT00174967|184553171|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324230|NCT00174967|184553171|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324231|NCT00174967|184553171|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324232|NCT00174967|184553172|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324233|NCT00174967|184553172|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324234|NCT00174967|184553172|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324235|NCT00174967|184553173|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324236|NCT00174967|184553173|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324237|NCT00174967|184553173|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324238|NCT00174967|184553174|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324239|NCT00174967|184553174|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92324240|NCT00174967|184553174|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
92200036|NCT00474526|184298502|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the ratio of GMTs between the 2 dose and the 3 dose schedule (GMTLA1/GMTLA3) must be \> 0.5.|Ratio of GMTs|1.42|||||TWO_SIDED|95.0|1.18|1.72|||ANOVA|||Serogroup W (Post-vaccination GMT; group ratio LA1:LA3)||1.72|1.18|
92200037|NCT00474526|184298502|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the ratio of GMTs between the 2 dose and the 3 dose schedule (GMTLA1/GMTLA3) must be \> 0.5.|Ratio of GMTs|1.27|||||TWO_SIDED|95.0|1.02|1.58|||ANOVA|||Serogroup Y (Post-vaccination GMT; group ratio LA1:LA3)||1.58|1.02|
92200038|NCT00474526|184298505|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA ≥ 1:8 and ≥1:4 between the 2 dose and the 3 dose schedule (PLA1 - PLA3) must be greater than -10%.|Percentage (hSBA titers >=8) difference|-15.0|||||TWO_SIDED|95.0|-21.2|-8.5|||ANOVA|||Serogroup A (post-vaccination percentage of subjects with hSBA titer \>=8, group difference (PLA1 - PLA3))||-8.5|-21.2|
92200039|NCT00474526|184298505|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA ≥ 1:8 and ≥1:4 between the 2 dose and the 3 dose schedule (PLA1 - PLA3) must be greater than -10%.|Percentage (hSBA titers >=8) difference|-3.0|||||TWO_SIDED|95.0|-7.0|0.3|||ANOVA|||Serogroup C (post-vaccination percentage of subjects with hSBA titer \>=8, group difference (PLA1 - PLA3))||0.3|-7|
92200040|NCT00474526|184298505|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA ≥ 1:8 and ≥1:4 between the 2 dose and the 3 dose schedule (PLA1 - PLA3) must be greater than -10%.|Percentage (hSBA titers >=8) difference|1.0|||||TWO_SIDED|95.0|-1.3|3.1|||ANOVA|||Serogroup W (post-vaccination percentage of subjects with hSBA titer \>=8, group difference (PLA1 - PLA3))||3.1|-1.3|
92200041|NCT00474526|184298505|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA ≥ 1:8 and ≥1:4 between the 2 dose and the 3 dose schedule (PLA1 - PLA3) must be greater than -10%.|Percentage (hSBA titers >=8) difference|-1.0|||||TWO_SIDED|95.0|-4.0|1.7|||ANOVA|||Serogroup Y (post-vaccination percentage of subjects with hSBA titer \>=8, group difference (PLA1 - PLA3))||1.7|-4|
92200042|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.87|||||TWO_SIDED|95.0|0.74|1.04|||ANOVA|||Diphtheria (Post-vaccination GMT; group ratio US1:US2)||1.04|0.74|
92200043|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.08|||||TWO_SIDED|95.0|0.92|1.28|||ANOVA|||Tetanus (Post-vaccination GMT; group ratio US1:US2)||1.28|0.92|
92324241|NCT02730377|184553177|SUPERIORITY||||||<|0.0001|||||||Log Rank|||Test for no treatment difference is based on using a generalised log-rank test for interval censored failure time data.||||<.0001
92324242|NCT03917472|184553200|SUPERIORITY|(1-sided)|LS mean difference|1.1|STANDARD_ERROR_OF_MEAN|0.89||0.099|TWO_SIDED|95.0|-0.6|2.9|||ANOVA|||||2.9|-0.6|0.099
92324243|NCT03917472|184553200|NON_INFERIORITY|(4-letter margin) (1-sided)|||||<|0.001|||||||ANOVA|||||||<0.001
92324244|NCT03917472|184553201|SUPERIORITY|(1-sided); Week 52|LS mean difference|-41.4|STANDARD_ERROR_OF_MEAN|8.94|<|0.001|TWO_SIDED|95.0|-58.9|-23.8|||ANOVA|||||-23.8|-58.9|<0.001
92200044|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.79|1.26|||ANOVA|||PT (Post-vaccination GMT; group ratio US1:US2)||1.26|0.79|
92200045|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.85|1.25||||||FHA (Post-vaccination GMT; group ratio US1:US2)||1.25|0.85|
92200046|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.04|||||TWO_SIDED|95.0|0.83|1.32|||ANOVA|||Pertactin (Post-vaccination GMT; group ratio US1:US2||1.32|0.83|
92200047|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.96|||||TWO_SIDED|95.0|0.75|1.23|||ANOVA|||Polio Type 1 (Post-vaccination GMT; group ratio US1:US2)||1.23|0.75|
92324245|NCT03917472|184553202|SUPERIORITY|(1-sided) Week 52|Difference - %|20.0|||<|0.001|TWO_SIDED|95.0|12.5|28.6|||Clopper-Pearson exact method.|||||28.6|12.5|<0.001
92324246|NCT03917472|184553209|OTHER|Descriptive|Difference - %|9.3|||||TWO_SIDED|95.0|1.7|17.0|||Clopper-Pearson exact method|||≥ 5 letters gain from baseline or BCVA ≥ 84 letters at Week 52||17.0|1.7|
92324247|NCT03917472|184553209|OTHER|Descriptive|Difference - %|7.7|||||TWO_SIDED|95.0|-1.5|17.0|||Clopper-Pearson exact method|||≥ 10 letters gain from baseline or BCVA ≥ 84 letters at Week 52||17.0|-1.5|
92324248|NCT03917472|184553209|OTHER|Descriptive|Difference - %|5.5|||||TWO_SIDED|95.0|-2.7|14.3|||Clopper-Pearson exact method|||≥ 15 letters gain from baseline or BCVA ≥ 84 letters at Week 52||14.3|-2.7|
92324249|NCT03917472|184553210|OTHER|descriptive; week 12|Difference - %|8.3|||||TWO_SIDED|95.0|0.2|16.5|||Clopper-Pearson exact method|||||16.5|0.2|
92324250|NCT03917472|184553210|OTHER|descriptive; week 24|Difference - %|6.0|||||TWO_SIDED|95.0|-3.0|14.9|||Clopper-Pearson exact method|||||14.9|-3.0|
92324251|NCT03917472|184553210|NON_INFERIORITY|(10% margin); week 52|Difference - %|6.0||||0.002|TWO_SIDED|95.0|-3.9|16.1||(10% margin) (1-sided)|Clopper-Pearson exact method|||||16.1|-3.9|0.002
92324252|NCT03917472|184553211|OTHER|descriptive; week 12|Difference - %|2.0|||||TWO_SIDED|95.0|-2.5|6.6|||Clopper-Pearson exact method|||||6.6|-2.5|
92324253|NCT03917472|184553211|OTHER|descriptive; week 24|Difference - %|2.4|||||TWO_SIDED|95.0|-3.0|7.7|||Clopper-Pearson exact method|||||7.7|-3.0|
92200048|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.2|||||TWO_SIDED|95.0|0.93|1.55|||ANOVA|||Polio Type 2 (Post-vaccination GMT; group ratio US1:US2)||1.55|0.93|
92200049|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.15|||||TWO_SIDED|95.0|0.85|1.56|||ANOVA|||Polio Type 3 (Post-vaccination GMT; group ratio US1:US2)||1.56|0.85|
92200050|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.88||||||95.0|0.65|1.2|||ANOVA|||Hepatitis B (Post-vaccination GMT; group ratio US1:US2)||1.2|0.65|
92200051|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.31|||||TWO_SIDED|95.0|0.97|1.77|||ANOVA|||HIb (Post-vaccination GMT; group ratio US1:US2)||1.77|0.97|
92324254|NCT03917472|184553211|OTHER|descriptive; week 52|Difference - %|3.9|||||TWO_SIDED|95.0|-2.0|9.8|||Clopper-Pearson exact method|||||9.8|-2.0|
92324255|NCT01154296|184553232|SUPERIORITY_OR_OTHER||adjusted risk ratio (aRR)|1.12|||||TWO_SIDED|95.0|0.94|1.33||In the statistical tests of all hypotheses and calculation of the presented risk ratios, we used multiple imputations of data sets with all 5012 cases. The aRRs reported are based on the multiply imputed data. Counts are based on the observed data.|Mantel Haenszel|||A total of 2039/2505 participants randomized to the counseling group and 2032/2507 to the information-only group had complete follow-up STI data. Cumulative STI incidence was 250/2039 (12.3%) in the counseling group and 226/2032 (11.1%) in the information-only group (aRR, 1.12; 95%CI, 0.94-1.33).||1.33|0.94|
92324256|NCT01154296|184553233|SUPERIORITY_OR_OTHER||Incidence rate ratio (IRR)|0.99|||||TWO_SIDED|95.0|0.9|1.09|||||In the statistical tests of all hypotheses and calculation of the presented IRR, we used multiple imputations of data sets with all 5012 cases. The adjusted IRRs reported are based on multiply imputed data. Counts are based on the observed data.|Analyses of sexual risk behaviors used zero-inflated negative binomial regressions (ZINB) including treatment group, baseline level of the risk behavior, site, and randomization stratum. (ZINB regression was used instead of ANCOVA because the outcome variable had an excessive number of zeroes and over dispersion.) Adjusted incidence rate ratios (IRR) from the models are presented.||1.09|0.90|
92324257|NCT01154296|184553234|SUPERIORITY_OR_OTHER||Incidence Rate Ratio (IRR)|0.98|||||TWO_SIDED|95.0|0.86|1.13|||||In the statistical tests of all hypotheses and calculation of the presented IRR, we used multiple imputations of data sets with all 5012 cases. The adjusted IRRs reported are based on multiply imputed data. Counts are based on the observed data.|Analyses of sexual risk behaviors used zero-inflated negative binomial regressions (ZINB) including treatment group, baseline level of the risk behavior, site, and randomization stratum. (ZINB regression was used instead of ANCOVA because the outcome variable had an excessive number of zeroes and over dispersion.) Adjusted incidence rate ratios (IRR) from the models are presented.||1.13|0.86|
92324258|NCT01154296|184553235|SUPERIORITY_OR_OTHER||Incidence Rate Ratio (IRR)|0.88|||||TWO_SIDED|95.0|0.82|0.94|||||In the statistical tests of all hypotheses and calculation of the presented IRR, we used multiple imputations of data sets with all 5012 cases. The adjusted IRRs reported are based on multiply imputed data. Counts are based on the observed data.|Analyses of sexual risk behaviors used zero-inflated negative binomial regressions (ZINB) including treatment group, baseline level of the risk behavior, site, and randomization stratum. (ZINB regression was used instead of ANCOVA because the outcome variable had an excessive number of zeroes and over dispersion.) Adjusted incidence rate ratios (IRR) from the models are presented.||0.94|0.82|
92324259|NCT01154296|184553236|SUPERIORITY_OR_OTHER||Incidence Rate Ratio (IRR)|0.97|||||TWO_SIDED|95.0|0.9|1.05|||||In the statistical tests of all hypotheses and calculation of the presented IRR, we used multiple imputations of data sets with all 5012 cases. The adjusted IRRs reported are based on multiply imputed data. Counts are based on the observed data.|Analyses of sexual risk behaviors used zero-inflated negative binomial regressions (ZINB) including treatment group, baseline level of the risk behavior, site, and randomization stratum. (ZINB regression was used instead of ANCOVA because the outcome variable had an excessive number of zeroes and over dispersion.) Adjusted incidence rate ratios (IRR) from the models are presented.||1.05|0.90|
92324260|NCT01154296|184553237|SUPERIORITY_OR_OTHER||Adjusted Risk Ratio (aRR)|1.14||||||95.0|0.89|1.46||In the statistical tests of all hypotheses and calculation of the presented risk ratios, we used multiple imputations of data sets with all 5012 cases. The aRRs reported are based on the multiply imputed data. Counts are based on the observed data.|Mantel Haenszel|||||1.46|0.89|
92324261|NCT02031640|184553275|SUPERIORITY||Least Square Mean (LSM) Difference|0.034||||0.272|TWO_SIDED|95.0|-0.027|0.095|||ANCOVA|||||0.095|-0.027|0.272
92324262|NCT02031640|184553275|SUPERIORITY||LSM Difference|0.045||||0.1415|TWO_SIDED|95.0|-0.015|0.106|||ANCOVA|||||0.106|-0.015|0.1415
92324263|NCT02031640|184553275|SUPERIORITY||LSM Difference|-0.015||||0.6356|TWO_SIDED|95.0|-0.075|0.046|||ANCOVA|||||0.046|-0.075|0.6356
92324264|NCT02031640|184553275|SUPERIORITY||LSM Difference|0.04||||0.1932|TWO_SIDED|95.0|-0.02|0.1|||ANCOVA|||||0.1|-0.02|0.1932
92324265|NCT02031640|184553276|OTHER|The analysis of change from baseline in weekly average of daily trough morning (pre-dose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using a repeated measures mixed model with effects due to baseline weekly average of daily trough morning PEF, sex, age, treatment, time, and time-by-treatment interaction.|LSM Difference|10.616||||0.0036|TWO_SIDED|95.0|3.489|17.744|||Mixed Model for repeated measures|||||17.744|3.489|0.0036
92200052|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.84|||||TWO_SIDED|95.0|0.7|1.0|||ANOVA|||PnC 4 (Post-vaccination GMT; group ratio US1:US2)||1|0.7|
92200053|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.76|||||TWO_SIDED|95.0|0.56|1.03|||ANOVA|||PnC 6B (Post-vaccination GMT; group ratio US1:US2)||1.03|0.56|
92200054|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.85||||||95.0|0.7|1.04|||ANOVA|||PnC 9V (Post-vaccination GMT; group ratio US1:US2)||1.04|0.7|
92200055|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.84|1.26|||ANOVA|||PnC 14 (Post-vaccination GMT; group ratio US1:US2)||1.26|0.84|
92200056|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.77|||||TWO_SIDED|95.0|0.64|0.93|||ANOVA|||PnC 18C (Post-vaccination GMT; group ratio US1:US2)||0.93|0.64|
92200057|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.82|||||TWO_SIDED|95.0|0.69|0.97|||ANOVA|||PnC 19F (Post-vaccination GMT; group ratio US1:US2)||0.97|0.69|
92200058|NCT00474526|184298507|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.79|||||TWO_SIDED|95.0|0.62|1.02|||ANOVA|||PnC 23F (Post-vaccination GMT; group ratio US1:US2)||1.02|0.62|
92200059|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0|||ANOVA|||Diphtheria (Seroconversion percentage difference (PUS1 - PUS2))||3|-3|
92200060|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|4.0|||ANOVA|||Tetanus (Seroconversion percentage difference (PUS1 - PUS2))||4|-2|
92200061|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|2.0|||||TWO_SIDED|95.0|-7.0|12.0|||ANOVA|||PT (Seroconversion percentage difference (PUS1 - PUS2))||12|-7|
92200062|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|6.0|||||TWO_SIDED|95.0|-4.0|17.0|||ANOVA|||FHA(Seroconversion percentage difference (PUS1 - PUS2))||17|-4|
92200063|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-12.0|10.0|||ANOVA|||Pertactin (Seroconversion percentage difference (PUS1 - PUS2))||10|-12|
92200064|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.0|3.0|||ANOVA|||Polio Type 1 (Seroconversion percentage difference (PUS1 - PUS2))||3|-3|
92200065|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|4.0|||ANOVA|||Polio Type 2 (Seroconversion percentage difference (PUS1 - PUS2))||4|-2|
92200066|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.0|3.0|||ANOVA|||Polio Type 3 (Seroconversion percentage difference (PUS1 - PUS2))||3|-3|
92200067|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-4.0|3.0|||ANOVA|||Hepatitis B(Seroconversion percentage difference (PUS1 - PUS2))||3|-4|
92200068|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.0|3.0|||ANOVA|||Hib (≥ 0.15 μg/mL)(Seroconversion percentage difference (PUS1 - PUS2))||3|-3|
92200069|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|5.0|||||TWO_SIDED|95.0|-3.0|14.0|||ANOVA|||Hib (≥1.0 μg/mL)(Seroconversion percentage difference (PUS1 - PUS2))||14|-3|
92200070|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-5.0|2.0|||ANOVA|||PnC 4(Seroconversion percentage difference (PUS1 - PUS2))||2|-5|
92324266|NCT02031640|184553276|SUPERIORITY||LSM Difference|8.419||||0.0204|TWO_SIDED|95.0|1.309|15.53|||Mixed Model for repeated measures|||The analysis of change from baseline in weekly average of daily trough morning (pre-dose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using a repeated measures mixed model with effects due to baseline weekly average of daily trough morning PEF, sex, age, treatment, time, and time-by-treatment interaction||15.53|1.309|0.0204
92324267|NCT02031640|184553276|SUPERIORITY||LSM Difference|6.004||||0.0984|TWO_SIDED|95.0|-1.121|13.129|||Mixed Model for repeated measures|||The analysis of change from baseline in weekly average of daily trough morning (pre-dose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using a repeated measures mixed model with effects due to baseline weekly average of daily trough morning PEF, sex, age, treatment, time, and time-by-treatment interaction||13.129|-1.121|0.0984
92324268|NCT02031640|184553276|SUPERIORITY||LSM Difference|12.512||||0.0006|TWO_SIDED|95.0|5.435|19.589|||Mixed Model for repeated measures|||The analysis of change from baseline in weekly average of daily trough morning (pre-dose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using a repeated measures mixed model with effects due to baseline weekly average of daily trough morning PEF, sex, age, treatment, time, and time-by-treatment interaction||19.589|5.435|0.0006
92324269|NCT02031640|184553277|SUPERIORITY||LSM Difference|9.147||||0.0139|TWO_SIDED|95.0|1.866|16.429|||Mixed Model for repeated measures|||||16.429|1.866|0.0139
92324270|NCT02031640|184553277|SUPERIORITY||LSM Difference|9.17||||0.0133|TWO_SIDED|95.0|1.914|16.425|||Mixed Model for repeated measures|||||16.425|1.914|0.0133
92324271|NCT02031640|184553277|SUPERIORITY||LSM Difference|4.088||||0.2704|TWO_SIDED|95.0|-3.191|11.367|||Mixed Model for repeated measures|||||11.367|-3.191|0.2704
92324272|NCT02031640|184553277|SUPERIORITY||LSM Difference|10.301||||0.0053|TWO_SIDED|95.0|3.073|17.53|||Mixed Model for repeated measures|||||17.53|3.073|0.0053
92200071|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|(Seroconversion percentage difference (P|-8.0|||||TWO_SIDED|95.0|-14.0|-1.0|||ANOVA|||PnC 6B(Seroconversion percentage difference (PUS1 - PUS2))||-1|-14|
92324273|NCT02031640|184553278|SUPERIORITY||LSM Difference|-0.703|||<|0.0001|TWO_SIDED|95.0|-1.044|-0.363|||Mixed Model for repeated measures|||||-0.363|-1.044|<0.0001
92324274|NCT02031640|184553278|SUPERIORITY||LSM Difference|-0.691|||<|0.0001|TWO_SIDED|95.0|-1.029|-0.352|||Mixed Model for repeated measures|||||-0.352|-1.029|<0.0001
92200072|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-4.0|5.0|||ANOVA|||PnC 9V (Seroconversion percentage difference (PUS1 - PUS2))||5|-4|
92324275|NCT02031640|184553278|SUPERIORITY||LSM Difference|-0.651||||0.0002|TWO_SIDED|95.0|-0.994|-0.309|||Mixed Model for repeated measures|||||-0.309|-0.994|0.0002
92324276|NCT02031640|184553278|SUPERIORITY||LSM difference|-0.801|||<|0.0001|TWO_SIDED|95.0|-1.138|-0.464|||Mixed Model for repeated measures|||||-0.464|-1.138|<0.0001
92324277|NCT02031640|184553279|SUPERIORITY||Mean Difference (Final Values)|-0.149||||0.0119|TWO_SIDED|95.0|-0.265|-0.033|||Mixed Models Analysis|||||-0.033|-0.265|0.0119
92324278|NCT02031640|184553279|SUPERIORITY||Mean Difference (Final Values)|-0.102||||0.0854|TWO_SIDED|95.0|-0.217|0.014|||Mixed Models Analysis|||||0.014|-0.217|0.0854
92324279|NCT02031640|184553279|SUPERIORITY||Mean Difference (Final Values)|-0.189||||0.0016|TWO_SIDED|95.0|-0.306|-0.072|||Mixed Models Analysis|||||-0.072|-0.306|0.0016
92324280|NCT02031640|184553279|SUPERIORITY||Mean Difference (Final Values)|-0.216||||0.0003|TWO_SIDED|95.0|-0.332|-0.101|||Mixed Models Analysis|||||-0.101|-0.332|0.0003
92324281|NCT00526669|184553411|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||Biomarker: TS|Wilcoxon signed rank test|||||||0.10
92324282|NCT00526669|184553411|SUPERIORITY_OR_OTHER|||||||0.097||95.0||||Biomarker: DPD|Wilcoxon signed rank test|||||||0.097
92324283|NCT00526669|184553411|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||Biomarker: EGFR/HER1|Wilcoxon signed rank test|||||||0.10
92324284|NCT00526669|184553411|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||Biomarker: HER2|Wilcoxon signed rank test|||||||0.26
92200073|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Diphtheria (Seroconversion percentage di|1.0|||||TWO_SIDED|95.0|-1.0|5.0|||ANOVA|||PnC 14 (Seroconversion percentage difference (PUS1 - PUS2))||5|-1|
92324285|NCT00526669|184553411|SUPERIORITY_OR_OTHER|||||||0.38||95.0||||Biomarker: HER3|Wilcoxon signed rank test|||||||0.38
92324286|NCT00526669|184553412|SUPERIORITY_OR_OTHER||percentage of participants|17.9|||||TWO_SIDED|95.0|9.6|29.2|||||The estimated value represents the percentage of participants with complete response or partial response.|||29.2|9.6|
92324287|NCT00526669|184553413|SUPERIORITY_OR_OTHER||percentage of participants|29.0|||||TWO_SIDED|95.0|17.9|40.3|||||The estimated value reflects the percentage of participants who achieved progression-free survival.|||40.3|17.9|
92324288|NCT04259424|184553449|OTHER|||||||0.15|||||||t-test, 2 sided|||||||.15
92324289|NCT01981954|184553490|OTHER||||||<|0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 MCC Analysis||||<0.001
92324290|NCT01981954|184553492|OTHER|||||||0.003||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline=0.|t-test, 2 sided|||Week 24 Analysis||||0.003
92324291|NCT01981954|184553493|OTHER|||||||0.744||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.744
92324292|NCT01981954|184553494|OTHER|||||||0.352||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.352
92324293|NCT01981954|184553495|OTHER||||||<|0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||<0.001
92324294|NCT01981954|184553496|OTHER|||||||0.177||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.177
92324295|NCT01981954|184553497|OTHER|||||||0.025||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analyis||||0.025
92324296|NCT01981954|184553498|OTHER|||||||0.05||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.050
92324297|NCT01981954|184553499|OTHER|||||||0.567||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.567
92324298|NCT01981954|184553500|OTHER|||||||0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.001
92324299|NCT01981954|184553501|OTHER||||||<|0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||<0.001
92324300|NCT01981954|184553502|OTHER|||||||0.004||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.004
92324301|NCT01981954|184553503|OTHER|||||||0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.001
92324302|NCT01981954|184553504|OTHER|||||||0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.001
92324303|NCT01981954|184553521|OTHER|||||||0.688||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.688
92324304|NCT01981954|184553522|OTHER|||||||0.61||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.610
92324305|NCT01981954|184553523|OTHER|||||||0.562||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.562
92324306|NCT01981954|184553524|OTHER|||||||0.657||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.657
92324307|NCT01981954|184553525|OTHER|||||||0.631||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.631
92324308|NCT01981954|184553526|OTHER|||||||0.41||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.410
92200074|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-3.0|||||TWO_SIDED|95.0|-6.0|1.0|||ANOVA|||PnC 18C (Seroconversion percentage difference (PUS1 - PUS2))||1|-6|
92324309|NCT01981954|184553527|OTHER|||||||0.94||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.940
92324310|NCT01981954|184553528|OTHER|||||||1||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||1.000
92324311|NCT01981954|184553529|OTHER|||||||0.575||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0|t-test, 2 sided|||Week 24 Analysis||||0.575
92324312|NCT01981954|184553530|OTHER|||||||0.031||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.031
92324313|NCT01981954|184553531|OTHER|||||||0.721||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.721
92324314|NCT01489254|184553532|NON_INFERIORITY_OR_EQUIVALENCE|To conclude study sensitivity the combined active treatment groups Glatiramer 20 mg and Copaxone 20 mg needed to be superior to placebo.|Ratio (or Ratio of estimated means)|0.488|||||TWO_SIDED|95.0|0.365|0.651|||||Ratio of combined Glatiramer 20 mg + Copaxone 20 mg to placebo and 95% confidence interval.|Estimates represent the mean total lesions during months 7 through 9 and were estimated from the fitted random effect generalized linear model (longitudinal model) with a negative binomial distribution and logaritmic link function. To assess study sensitivity, data of the active treatment groups and placebo were included in the model, resulting in the ratios and 95% CIs for the combined Glatiramer 20 mg and Copaxone 20 mg treatment group and the individual treatments over placebo.||0.651|0.365|
92324315|NCT01489254|184553532|NON_INFERIORITY_OR_EQUIVALENCE|To conclude equivalence between Glatiramer 20 mg and Copaxone 20 mg, efficacy in the combined active treatment groups needed to be superior to placebo (confirming study sensitivity) and the 2-sided 95% CI for the estimated ratio of Glatiramer 20 mg to Copaxone 20 mg needed to be fully enclosed in the prespecified equivalence margin (0.727 - 1.375).|Ratio (or Ratio of estimated means)|1.095|||||TWO_SIDED|95.0|0.883|1.36|||||Ratio of Glatiramer 20 mg to Copaxone 20 mg and 95% confidence interval.|Estimates represent the mean total lesions during months 7 through 9 and were estimated from the fitted random effect generalized linear model (longitudinal model) with a negative binomial distribution and logaritmic link function including Glatiramer 20 mg and Copaxone 20 mg treatment groups to assess study equivalence.||1.360|0.883|
92324316|NCT01730534|184553533|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.172||95.0|0.84|1.03|||Regression, Cox|||||1.03|0.84|0.172
92324317|NCT01730534|184553534|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.005||95.0|0.73|0.95|||Regression, Cox|||||0.95|0.73|0.005
92324318|NCT01730534|184553535|SUPERIORITY||Hazard Ratio (HR)|0.76|||<|0.001||95.0|0.67|0.87|||Regression, Cox|||||0.87|0.67|<0.001
92324319|NCT01730534|184553536|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.198||95.0|0.82|1.04|||Regression, Cox|||||1.04|0.82|0.198
92324320|NCT01647516|184553557|SUPERIORITY||Odds Ratio (OR)|3.262||||0.0482|TWO_SIDED|95.0|0.969|10.984|||Cochran-Mantel-Haenszel|Stratified by prior anti-tumor necrosing factor (anti-TNF) therapy experience, (yes or no).||||10.984|0.969|0.0482
92324321|NCT01647516|184553557|SUPERIORITY||Odds Ratio (OR)|2.5||||0.1422|TWO_SIDED|95.0|0.722|8.661|||Cochran-Mantel-Haenszel|Stratified by prior anti-tumor necrosing factor (anti-TNF) therapy experience, (yes or no).||||8.661|0.722|0.1422
92324322|NCT01647516|184553558|SUPERIORITY||Odds Ratio (OR)|2.158||||0.0207|TWO_SIDED|95.0|1.093|4.263|||Cochran-Mantel-Haenszel|Stratified by prior anti-tumor necrosing factor (anti-TNF) therapy experience, (yes or no).||||4.263|1.093|0.0207
92324323|NCT01647516|184553558|SUPERIORITY||Odds Ratio (OR)|1.947||||0.0648|TWO_SIDED|95.0|0.961|3.946|||Cochran-Mantel-Haenszel|Stratified by prior anti-tumor necrosing factor (anti-TNF) therapy experience, (yes or no).||||3.946|0.961|0.0648
92324324|NCT01647516|184553559|SUPERIORITY|||||||0.0042|||||||ANCOVA|The analysis of covariance model, adjusting for baseline Mayo score and prior anti-TNF (yes or no).||||||0.0042
92324325|NCT01647516|184553559|SUPERIORITY|||||||0.1415|||||||ANCOVA|The analysis of covariance model, adjusting for baseline Mayo score and prior anti-TNF (yes or no).||||||0.1415
92324326|NCT01647516|184553560|SUPERIORITY||Odds Ratio (OR)|3.861||||0.0023|TWO_SIDED|95.0|1.572|9.484|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||9.484|1.572|0.0023
92324327|NCT01647516|184553560|SUPERIORITY||Odds Ratio (OR)|2.647||||0.0348|TWO_SIDED|95.0|1.058|6.621|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||6.621|1.058|0.0348
92324328|NCT01647516|184553561|SUPERIORITY||Odds Ratio (OR)|4.332||||0.0108|TWO_SIDED|95.0|1.323|14.186|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||14.186|1.323|0.0108
92324329|NCT01647516|184553561|SUPERIORITY||Odds Ratio (OR)|5.443||||0.0021|TWO_SIDED|95.0|1.706|17.365|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||17.365|1.706|0.0021
92324330|NCT01647516|184553562|SUPERIORITY|Stratified by prior anti-TNF therapy experience, (yes or no).|Odds Ratio (OR)|4.03||||0.0002|TWO_SIDED|95.0|1.871|8.678|||Cochran-Mantel-Haenszel|||||8.678|1.871|0.0002
92324331|NCT01647516|184553562|SUPERIORITY||Odds Ratio (OR)|2.154||||0.0571|TWO_SIDED|95.0|0.974|4.763|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||4.763|0.974|0.0571
92324332|NCT01647516|184553563|SUPERIORITY||Odds Ratio (OR)|3.557||||0.0046|TWO_SIDED|95.0|1.444|8.762|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||8.762|1.444|0.0046
92324333|NCT01647516|184553563|SUPERIORITY||Odds Ratio (OR)|3.428||||0.0064|TWO_SIDED|95.0|1.384|8.494|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||8.494|1.384|0.0064
92324334|NCT03886519|184553602|SUPERIORITY||Odds Ratio (OR)|0.73||||0.07|TWO_SIDED|95.0|0.52|1.03||The a priori threshold for statistical significance is \<0.05.|Regression, Logistic|Adjusted for correlation between 2 eyes of a participant and baseline trichiasis severity.||||1.03|0.52|0.07
92324335|NCT04964544|184553610|OTHER||Percentage|90.7|||||TWO_SIDED|95.0|88.9|92.3|||||Proportion of participants|Proportion of participants with overall correct initial TASS assessment, with mitigations, worst case imputation (Self-Selection Population)||92.3|88.9|
92324336|NCT04964544|184553611|OTHER||Percentage|98.1|||||TWO_SIDED|95.0|97.1|98.8|||||Proportion of participants|Proportion of participants with overall correct final TASS assessment, with mitigations, worst case imputation (Per Protocol Population)||98.8|97.1|
92324337|NCT04964544|184553612|OTHER||Mean percent change from paseline|-35.48|||||TWO_SIDED|95.0|-36.63|-34.33||||||||-34.33|-36.63|
92324338|NCT00288600|184553655|SUPERIORITY_OR_OTHER|||||||0.765|TWO_SIDED||||||Chi-squared, Corrected|||Need of Exchange transfusion following the AAP criteria||||0.765
92324339|NCT03600194|184553682|SUPERIORITY|||||||0.019|||||||Mixed Models Analysis|Design\*Therapy interaction term||||||.019
92324340|NCT03689374|184553740|NON_INFERIORITY|The responses were analyzed using an ANCOVA with treatment as fixed factor and baseline value as a covariate. Before analysis, missing data were multiple imputed using observed data from participants within the same group defined by randomized treatment, using a regression model including randomized treatment group and data from baseline and all previous visits as covariates. The prespecified non inferiority margin was 0.3%-point.|Treatment difference|-0.29|||<|0.0001|TWO_SIDED|95.0|-0.38|-0.2|||t-distributed test|The non-inferiority p-value was calculated as two times the one-sided p-value from a t-distributed test.||||-0.20|-0.38|<0.0001
92324341|NCT00986921|184553776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.87||||0.05|TWO_SIDED|95.0|0.0|3.0|||t-test, 1 sided|Data was not distributed normally. After log transformation, the log values were distributed normally.||||3|0|0.05
92324342|NCT00986921|184553777|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|95.0||||A threshold value of p of 0.05 was considered significant.|Chi-squared|||The null hypothesis was that the groups would vary, with a p values of less than 0.05.||||0.49
92324343|NCT00986921|184553778|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||||||0.001
92324344|NCT04445714|184553791|SUPERIORITY||Mean Difference (Final Values)|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.34|-1.03|||Paired t-test test|||Change from baseline||-1.03|-1.34|<.0001
92324345|NCT04445714|184553792|SUPERIORITY||Mean Difference (Final Values)|-2.1|||<|0.0001|TWO_SIDED|95.0|-2.66|-1.51|||Paired t-test test|||Change from baseline||-1.51|-2.66|<.0001
92324346|NCT04445714|184553793|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.8416|TWO_SIDED|95.0|-2.34|1.91|||Paired t-test test|||Change from baseline||1.91|-2.34|0.8416
92324347|NCT04445714|184553794|SUPERIORITY||Mean Difference (Final Values)|-24.4|||<|0.0001|TWO_SIDED|95.0|-33.4|-15.4|||Paired t-test test|||Change from baseline||-15.4|-33.4|<.0001
92324348|NCT02396420|184553795|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324349|NCT02396420|184553796|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324350|NCT02396420|184553797|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324351|NCT02396420|184553798|OTHER|Statistical analysis was not performed as this data was not available for any subjects in the analysis population.||||||||||||||||Statistical analysis was not performed as this data was not available for any subjects in the analysis population.|Statistical analysis was not performed as this data was not available for any subjects in the analysis population.|||
92324352|NCT02396420|184553799|OTHER|Statistical analysis was not performed as this data was not available for any subjects in the analysis population.||||||||||||||||Statistical analysis was not performed as this data was not available for any subjects in the analysis population.|Statistical analysis was not performed as this data was not available for any subjects in the analysis population.|||
92324353|NCT02396420|184553800|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324354|NCT02396420|184553801|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324355|NCT02396420|184553802|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324356|NCT02396420|184553803|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324357|NCT02396420|184553804|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324358|NCT02396420|184553805|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324359|NCT02396420|184553806|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324360|NCT02396420|184553807|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324361|NCT02396420|184553808|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324362|NCT02396420|184553809|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324363|NCT02396420|184553810|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324364|NCT02396420|184553811|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
92324365|NCT01273623|184553822|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92324366|NCT01640379|184553825|SUPERIORITY||Odds Ratio (OR)|0.4||||0.07|TWO_SIDED|95.0|0.15|1.09||Judged by type one error limit alpha = 0.05.|t-test, 2 sided||The odds ratio is for the difference in chlamydia or gonorrhea (CT/GC) rates between arms at ninety days after intervention.|A comparison of Chlamydia or Gonorrhea positivity at 90 days post intervention.||1.09|0.15|0.070
92324367|NCT01640379|184553825|SUPERIORITY||Odds Ratio (OR)|0.59||||0.043|TWO_SIDED|95.0|0.39|0.98||Judged by type one error limit alpha = 0.05.|generalized estimating equations||The odds ratio is for the difference in rate of change over time between arms, so is the difference in the odds increment for those receiving TECH N intervention versus the control group.|"We used generalized estimating equations to test for a difference in the trend of chlamydia or gonorrhea (CT/GC) rates over the study period.~The null hypothesis is that rates of CT/GC for women in the intervention arm were changing over the study period similarly to CT/GC rates in the control arm."||0.98|0.39|0.043
92324368|NCT01640379|184553826|SUPERIORITY||Odds Ratio (OR)|92.2|||<|0.001|TWO_SIDED|95.0|37.0|230.1|||Chi-squared|Adjusted for age, debut age, number of lifetime partners, baseline STI status (any vs none), insurance, and if woman had prior pregnancy.|Odds ratio is interpretable as the expected chance of having a 72 follow-up for intervention women compared to women in the control arm, given similar age, debut age, number of lifetime partners, baseline STI status, insurance, and pregnancy history.|H0: Women in TECHN arm had 72 hour visit with same frequency as women in control arm.||230.1|37.0|<0.001
92324369|NCT01640379|184553826|SUPERIORITY||Odds Ratio (OR)|0.6||||0.084|TWO_SIDED|95.0|0.36|1.05|||Regression, Logistic|Adjusted for age, debut age, number of lifetime partners, pregnancy history, baseline STI status (any versus none), and insurance.|Odds ratio is for intervention arm relative to control.|H0: Women in TECHN arm reported complete adherence to medication regimen (yes or no) with same frequency as women in control arm.||1.05|0.36|0.084
92324370|NCT01640379|184553826|SUPERIORITY||Odds Ratio (OR)|0.9||||0.867|TWO_SIDED|95.0|0.36|2.34|||Regression, Logistic|Adjusted for age, debut age, number of lifetime partners, pregnancy history, baseline STI status (any versus none), and insurance.|Odds ratio is for the chances of partner notification among TECH N recipients, relative to those in control arm.|H0: Women in TECHN arm notified their partners about their diagnoses more often than women in the control arm.||2.34|0.36|0.867
92324371|NCT01640379|184553826|SUPERIORITY||Odds Ratio (OR)|0.6||||0.153|TWO_SIDED|95.0|0.33|1.19|||Regression, Logistic|Adjusted for age, debut age, number of lifetime partners, pregnancy history, baseline STI status (any versus none), and insurance.|Odds ratio is for partners of TECH-N recipients versus partners of women in control arm.|H0: Partners of women receiving the TECH-N intervention were treated more often than the partners of women in the control arm.||1.19|0.33|0.153
92324372|NCT01640379|184553826|SUPERIORITY||Odds Ratio (OR)|1.0||||0.351|TWO_SIDED|95.0|0.86|1.06|||Regression, Logistic|Adjusted for age, debut age, number of lifetime partners, pregnancy history, baseline STI status (any versus none), and insurance.|Odds ratio is for women in the TECH-N arm relative to women in the control arm.|H0: Women in the TECHN arm practiced temporary sexual abstinence for two weeks after their diagnosis more often than those in the control arm.||1.06|0.86|0.351
92324373|NCT04223635|184553827|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Interval (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|92.6|||||TWO_SIDED|90.0|54.38|157.69|||||For the comparison, moderate HI represents the numerator and normal HF represents the denominator.|||157.69|54.38|
92324374|NCT04223635|184553829|OTHER|Least squares means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric Least Square Mean|147.17|||||TWO_SIDED|90.0|95.39|227.07|||||For the comparison, moderate HI represents the numerator and normal HF represents the denominator.|||227.07|95.39|
92324375|NCT04223635|184553830|OTHER|Least squares means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric Least Square Mean|142.87|||||TWO_SIDED|90.0|91.21|223.79|||||For the comparison, moderate HI represents the numerator and normal HF represents the denominator.|||223.79|91.21|
92324376|NCT04934189|184553843|OTHER||Mean Difference (Final Values)|0.295|STANDARD_DEVIATION|1.184||0.08|ONE_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||.08
92200075|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|(Seroconversion percentage difference (P|-1.0|||||TWO_SIDED|95.0|-4.0|3.0|||ANOVA|||PnC 19F (Seroconversion percentage difference (PUS1 - PUS2))||3|-4|
92200076|NCT00474526|184298508|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-8.0|5.0|||ANOVA|||PnC 23F (Seroconversion percentage difference (PUS1 - PUS2))||5|-8|
92200077|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.16|||||TWO_SIDED|95.0|0.96|1.4|||ANOVA|||Diphtheria (Post-vaccination GMC; group ratio LA1:LA2)||1.4|0.96|
92200078|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.1|||||TWO_SIDED|95.0|0.96|1.27|||ANOVA|||Tetanus (Post-vaccination GMC; group ratio LA1:LA2)||1.27|0.96|
92200079|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.04|||||TWO_SIDED|95.0|0.87|1.25|||ANOVA|||PT (Post-vaccination GMC; group ratio LA1:LA2)||1.25|0.87|
92200080|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.05|||||TWO_SIDED|95.0|0.89|1.23|||ANOVA|||FHA (Post-vaccination GMC; group ratio LA1:LA2)||1.23|0.89|
92200081|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.99|||||TWO_SIDED|95.0|0.81|1.21|||ANOVA|||Pertactin (Post-vaccination GMC; group ratio LA1:LA2)||1.21|0.81|
92200082|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMTs|0.9|||||TWO_SIDED|95.0|0.68|1.17|||ANOVA|||Polio Type 1 (Post-vaccination GMT; group ratio LA1:LA2)||1.17|0.68|
92200083|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMTs|0.97|||||TWO_SIDED|95.0|0.73|1.28|||ANOVA|||Polio Type 2 (Post-vaccination GMT; group ratio LA1:LA2)||1.28|0.73|
92200084|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMTs|0.95||||||95.0|0.69|1.31|||ANOVA|||Polio Type 3 (Post-vaccination GMT; group ratio LA1:LA2)||1.31|0.69|
92200085|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.11|||||TWO_SIDED|95.0|0.88|1.4|||ANOVA|||Hepatitis B (Post-vaccination GMC; group ratio LA1:LA2)||1.4|0.88|
92200086|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.27|||||TWO_SIDED|95.0|0.98|1.65|||ANOVA|||HIb (Post-vaccination GMC; group ratio LA1:LA2)||1.65|0.98|
92200087|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.92|||||TWO_SIDED|95.0|0.78|1.09|||ANOVA|||PnC 4 (Post-vaccination GMC; group ratio LA1:LA2)||1.09|0.78|
92200088|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.97|||||TWO_SIDED|95.0|0.74|1.27|||ANOVA|||PnC 6B (Post-vaccination GMC; group ratio LA1:LA2)||1.27|0.74|
92200089|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.86|||||TWO_SIDED|95.0|0.71|1.04|||ANOVA|||PnC 9V (Post-vaccination GMC; group ratio LA1:LA2)||1.04|0.71|
92200090|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.91|||||TWO_SIDED|95.0|0.72|1.14|||ANOVA|||PnC 14 (Post-vaccination GMC; group ratio LA1:LA2)||1.14|0.72|
92200091|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.89|||||TWO_SIDED|95.0|0.74|1.08|||ANOVA|||PnC 18C (Post-vaccination GMC; group ratio LA1:LA2)||1.08|0.74|
92324377|NCT04934189|184553844|OTHER||Mean Difference (Net)|0.417|STANDARD_DEVIATION|0.89||0.005|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month follow-up mean) was statistically different from the baseline mean.||||.005
92324378|NCT04934189|184553846|OTHER||Mean Difference (Net)|-0.103|STANDARD_DEVIATION|2.5||0.4|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||0.40
92324379|NCT04934189|184553847|OTHER||Mean Difference (Net)|-0.01|STANDARD_DEVIATION|2.08||0.49|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month follow-up) mean was statistically different from the baseline mean.||||.49
92324380|NCT04934189|184553849|OTHER||Mean Difference (Net)|0.195|STANDARD_DEVIATION|1.41||0.21|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||.21
92324381|NCT04934189|184553850|OTHER||Mean Difference (Net)|0.019|STANDARD_DEVIATION|1.43||0.47|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean was statistically different from the baseline mean.||||.47
92324382|NCT04934189|184553852|OTHER||Mean Difference (Net)|0.175|STANDARD_DEVIATION|1.02||0.16|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||.16
92324383|NCT04934189|184553853|OTHER||Mean Difference (Net)|0.0481|STANDARD_DEVIATION|0.926||0.38|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean was statistically different from the baseline mean.||||.38
92324384|NCT04934189|184553855|OTHER||Mean Difference (Net)|0.179|STANDARD_DEVIATION|2.73||0.35|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||.35
92324385|NCT04934189|184553856|OTHER||Mean Difference (Net)|-0.335|STANDARD_DEVIATION|2.05||0.17|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean was statistically different from the baseline mean.||||.17
92324386|NCT04934189|184553860|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for gender nonaffirmation was statistically different from the baseline mean.|t-test|2.18||||0.02|ONE_SIDED|||||A priori threshold for statistical significance was \<.05|t-test, 1 sided|||||||.02
92324387|NCT04934189|184553860|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for internalized transphobia was statistically different from the baseline mean.|t-test|1.29||||0.1|ONE_SIDED|||||A priori threshold for statistical significant was p \<.05|t-test, 1 sided|||||||.10
92200092|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.9|||||TWO_SIDED|95.0|0.74|1.1|||ANOVA|||PnC 19F (Post-vaccination GMC; group ratio LA1:LA2)||1.1|0.74|
92324388|NCT04934189|184553860|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for identity nondisclosure was statistically different from the baseline mean.|t-test|0.17||||0.43|ONE_SIDED|||||A priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.43
92200093|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.77|||||TWO_SIDED|95.0|0.6|0.99|||ANOVA|||PnC 23F (Post-vaccination GMC; group ratio LA1:LA2)||0.99|0.6|
92324389|NCT04934189|184553860|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for negative expectations was statistically different from the baseline mean.|t-test|-0.68||||0.25|ONE_SIDED|||||A priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.25
92324390|NCT04934189|184553860|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for community connection was statistically different from the baseline mean.|t-test|-0.36||||0.36|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.36
92324391|NCT04934189|184553860|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for pride was statistically different from the baseline mean.|t-test|-0.09||||0.47|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.47
92324392|NCT04934189|184553861|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for gender nonaffirmation was statistically different from the baseline mean.|t-test|3.76|||<|0.001|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided||||"A series of one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean was statistically different from the baseline mean for each of the five gender minority stress subscales measured. See below for T-scores and associated p-values for each statistical test.~Nonaffirmation (t = 3.76; p = .001) Internalized Transphobia (t = 2.01; p = .02) Negative Expectations (t = 2.06; p =.02) Community Connection (t = -0.82; p =.21) Pride (t = .01; p = .50 )"|||<.001
92324393|NCT04934189|184553861|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for internalized transphobia was statistically different from the baseline mean.|t-test|2.01||||0.02|ONE_SIDED|||||The a priori threshold for statistical significance is p \< .05|t-test, 1 sided|||||||.02
92324394|NCT04934189|184553861|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for identity nondisclosure was statistically different from the baseline mean.|t-test|1.61||||0.06|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.06
92324395|NCT04934189|184553861|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for negative expectations was statistically different from the baseline mean.|t-test|2.06||||0.02|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.02
92200094|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.82|||||TWO_SIDED|95.0|0.69|0.99|||ANOVA|||Diphtheria (Post-vaccination GMC; group ratio LA3:LA4)||0.99|0.69|
92200095|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.95|||||TWO_SIDED|95.0|0.83|1.09|||ANOVA|||Tetanus (Post-vaccination GMC; group ratio LA3:LA4)||1.09|0.83|
92200096|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.93||||||95.0|0.78|1.1|||ANOVA|||PT (Post-vaccination GMC; group ratio LA3:LA4)||1.1|0.78|
92200097|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.88|||||TWO_SIDED|95.0|0.75|1.03|||ANOVA|||FHA (Post-vaccination GMC; group ratio LA3:LA4)||1.03|0.75|
92200098|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.8|||||TWO_SIDED|95.0|0.66|0.97|||ANOVA|||Pertactin (Post-vaccination GMC; group ratio LA3:LA4||0.97|0.66|
92324396|NCT04934189|184553861|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for community connection was statistically different from the baseline mean.|t-test|-0.818||||0.21|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.21
92324397|NCT04934189|184553861|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for pride was statistically different from the baseline mean.|t-test|0.009||||0.5|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.50
92324398|NCT04934189|184553864|OTHER||Chi-squared|5.59||||0.04|TWO_SIDED|||||A priori threshold for statistical significance was p \<.05|Chi-squared|||For this categorical data, chi-square tests of independence were performed to compare post-treatment (i.e., 3 month followup) vs 6 month followup numbers of participants reporting freedom from sexual victimization over a 6 month time period||||.04
92200099|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMTs|0.78|||||TWO_SIDED|95.0|0.6|1.02|||ANOVA|||Polio Type 1 (Post-vaccination GMT; group ratio LA3:LA4)||1.02|0.6|
92324399|NCT04934189|184553864|OTHER|For this categorical data, chi-square tests of independence were performed to compare post-treatment (i.e., 3 month followup) vs 6 month followup numbers of participants reporting any exposure to nonpenetrative sexual assault over a 6 month time period|Chi-squared|0.21||||0.55|TWO_SIDED|||||A priori threshold for statistical significance was p \< .05|Chi-squared|||||||.55
92200100|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMTs|0.83|||||TWO_SIDED|95.0|0.63|1.09|||ANOVA|||Polio Type 2 (Post-vaccination GMT; group ratio LA3:LA4)||1.09|0.63|
92200101|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMTs|0.81|||||TWO_SIDED|95.0|0.59|1.11|||ANOVA|||Polio Type 3 (Post-vaccination GMT; group ratio LA3:LA4)||1.11|0.59|
92200102|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMTs|0.95|||||TWO_SIDED|95.0|0.76|1.19|||ANOVA|||Hepatitis B (Post-vaccination GMT; group ratio LA3:LA4)||1.19|0.76|
92200103|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|1.07|||||TWO_SIDED|95.0|0.83|1.37|||ANOVA|||HIb (Post-vaccination GMC; group ratio LA3:LA4)||1.37|0.83|
92324400|NCT04934189|184553864|OTHER|For this categorical data, chi-square tests of independence were performed to compare post-treatment (i.e., 3 month followup) vs 6 month followup numbers of participants reporting exposure to rape over a 6 month time period|Chi-squared|0.11||||0.59|TWO_SIDED|||||A priori threshold for statistical significance was p \< .05|Chi-squared|||||||.59
92324401|NCT04934189|184553866|OTHER||Mean Difference (Net)|-0.08|STANDARD_DEVIATION|1.68||0.38|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||.38
92324402|NCT04934189|184553867|OTHER||Mean Difference (Net)|-0.265|STANDARD_DEVIATION|2.21||0.25|ONE_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month) mean was statistically different from the baseline mean.||||.25
92324403|NCT03320850|184553875|SUPERIORITY||Least Squares Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.635||0.0845|TWO_SIDED|95.0|-0.15|2.35|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|The null hypothesis is that there is no difference between each (BOTOX® and Hydrogel admixture group) and (placebo and Hydrogel admixture) in the mean change from Baseline in daily average number of UIEs at Week 12.||2.35|-0.15|0.0845
92324404|NCT03320850|184553875|SUPERIORITY||Least Squares Mean Difference|1.83|STANDARD_ERROR_OF_MEAN|0.633||0.0041|TWO_SIDED|95.0|0.59|3.08|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|The null hypothesis is that there is no difference between each (BOTOX® and Hydrogel admixture group) and (placebo and Hydrogel admixture) in the mean change from Baseline in daily average number of UIEs at Week 12.||3.08|0.59|0.0041
92324405|NCT03320850|184553875|SUPERIORITY||Least Squares Mean Difference|1.19|STANDARD_ERROR_OF_MEAN|0.632||0.06|TWO_SIDED|95.0|-0.05|2.44|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|The null hypothesis is that there is no difference between each (BOTOX® and Hydrogel admixture group) and (placebo and Hydrogel admixture) in the mean change from Baseline in daily average number of UIEs at Week 12.||2.44|-0.05|0.0600
92324406|NCT03320850|184553875|SUPERIORITY||Least Squares Mean Difference|0.87|STANDARD_ERROR_OF_MEAN|0.631||0.1702|TWO_SIDED|95.0|-0.37|2.11|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|The null hypothesis is that there is no difference between each (BOTOX® and Hydrogel admixture group) and (placebo and Hydrogel admixture) in the mean change from Baseline in daily average number of UIEs at Week 12.||2.11|-0.37|0.1702
92324407|NCT03320850|184553877|SUPERIORITY||Least Square Mean|0.73|STANDARD_ERROR_OF_MEAN|0.617||0.2361|TWO_SIDED|95.0|-0.48|1.95|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||1.95|-0.48|0.2361
92324408|NCT03320850|184553877|SUPERIORITY||Least Square Mean|0.78|STANDARD_ERROR_OF_MEAN|0.608||0.1985|TWO_SIDED|95.0|-0.41|1.98|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||1.98|-0.41|0.1985
92324409|NCT03320850|184553877|SUPERIORITY||Least Square Mean|0.64|STANDARD_ERROR_OF_MEAN|0.607||0.2923|TWO_SIDED|95.0|-0.56|1.84|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||1.84|-0.56|0.2923
92324410|NCT03320850|184553877|SUPERIORITY||Least Square Mean|0.54|STANDARD_ERROR_OF_MEAN|0.609||0.3769|TWO_SIDED|95.0|-0.66|1.74|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||1.74|-0.66|0.3769
92324411|NCT03320850|184553878|SUPERIORITY||Least Square Mean|-7.05|STANDARD_ERROR_OF_MEAN|13.107||0.5911|TWO_SIDED|95.0|-32.87|18.77|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||18.77|-32.87|0.5911
92324412|NCT03320850|184553878|SUPERIORITY||Least Square Mean|-8.0|STANDARD_ERROR_OF_MEAN|12.956||0.5375|TWO_SIDED|95.0|-33.52|17.52|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||17.52|-33.52|0.5375
92324413|NCT03320850|184553878|SUPERIORITY||Least Square Mean|-1.33|STANDARD_ERROR_OF_MEAN|12.764||0.9173|TWO_SIDED|95.0|-26.47|23.81|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||23.81|-26.47|0.9173
92324414|NCT03320850|184553878|SUPERIORITY||Least Square Mean|9.33|STANDARD_ERROR_OF_MEAN|12.981||0.473|TWO_SIDED|95.0|-16.24|34.9|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||34.90|-16.24|0.4730
92324415|NCT02002533|184553894|SUPERIORITY||||||>|0.9999|||||||exact binomial test|The percentage is greater than or equal to 40%.||||||>0.9999
92324416|NCT02002533|184553895|SUPERIORITY|||||||0.735|||||||exact binomial test|||||||0.7350
92324417|NCT02002533|184553896|SUPERIORITY||Mean Difference (Final Values)|0.8075|STANDARD_ERROR_OF_MEAN|0.0845|<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
92324418|NCT02002533|184553897|SUPERIORITY||Mean Difference (Final Values)|-1.64|STANDARD_ERROR_OF_MEAN|1.21||0.1808|TWO_SIDED||||||ANCOVA||The estimated value is BBT minus HEAL.|||||0.1808
92324419|NCT02002533|184553898|SUPERIORITY||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|0.73||0.14|TWO_SIDED||||||ANCOVA||Estimated value is BBT minus HEAL.|||||0.14
92324420|NCT02002533|184553899|SUPERIORITY||Mean Difference (Final Values)|0.404|STANDARD_ERROR_OF_MEAN|0.137||0.005|TWO_SIDED||||||ANCOVA|For baseline of 0.7.||||||0.005
92324421|NCT02002533|184553899|SUPERIORITY||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.045||0.092|TWO_SIDED|||||At baseline 1.3.|ANCOVA|||||||0.092
92324422|NCT02002533|184553899|SUPERIORITY||Mean Difference (Final Values)|-0.032|STANDARD_ERROR_OF_MEAN|0.053||0.556|TWO_SIDED|||||At baseline of 1.5.|ANCOVA|||||||0.556
92324423|NCT02002533|184553899|SUPERIORITY||Mean Difference (Final Values)|-6.24|STANDARD_ERROR_OF_MEAN|0.221||0.007|TWO_SIDED|||||Grouped by baseline interaction.|ANCOVA||The estimated value is grouped by baseline interaction parameter.|||||0.007
92324424|NCT02002533|184553900|SUPERIORITY|||||||0|||||||ANCOVA|||||||0.000
92324425|NCT02002533|184553901|SUPERIORITY|||||||0.295|||||||ANCOVA|||||||0.295
92324426|NCT02002533|184553902|SUPERIORITY|||||||0.573|||||||ANCOVA|||||||0.573
92324427|NCT02002533|184553903|SUPERIORITY||Mean Difference (Final Values)|-6.502|STANDARD_ERROR_OF_MEAN|2.558||0.015|TWO_SIDED||||||ANCOVA||Group difference (BBT - HEAL) in mean post-pre change.|||||0.015
92200104|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.68|0.95|||ANOVA|||PnC 4 (Post-vaccination GMT; group ratio LA3:LA4)||0.95|0.68|
92200105|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.87|||||TWO_SIDED|95.0|0.67|1.14|||ANOVA|||PnC 6B (Post-vaccination GMC; group ratio LA3:LA4)||1.14|0.67|
92200106|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.83|||||TWO_SIDED|95.0|0.69|1.0|||ANOVA|||PnC 9V (Post-vaccination GMC; group ratio LA3:LA4)||1|0.69|
92200107|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.84||||||95.0|0.67|1.05|||ANOVA|||PnC 14 (Post-vaccination GMC; group ratio LA3:LA4)||1.05|0.67|
92200108|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.75|||||TWO_SIDED|95.0|0.62|0.9|||ANOVA|||PnC 18C (Post-vaccination GMC; group ratio LA3:LA4)||0.9|0.62|
92200109|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.91|||||TWO_SIDED|95.0|0.75|1.1|||ANOVA|||PnC 19F (Post-vaccination GMC; group ratio LA3:LA4)||1.1|0.75|
92200110|NCT00474526|184298509|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.88|||||TWO_SIDED|95.0|0.69|1.12|||ANOVA|||PnC 23F (Post-vaccination GMC; group ratio LA3:LA4)||1.12|0.69|
92200111|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.2|4.4|||ANOVA|||Diphtheria (Seroconversion percentage difference (PLA1 - PLA2))||4.4|-2.2|
92200112|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-1.9|2.6|||ANOVA|||Tetanus (Seroconversion percentage difference (PLA1 - PLA2))||2.6|-1.9|
92200113|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-7.7|7.1|||ANOVA|||PT (Seroconversion percentage difference (PLA1 - PLA2))||7.1|-7.7|
92200114|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-9.2|5.8|||ANOVA|||FHA(Seroconversion percentage difference (PLA1 - PLA2))||5.8|-9.2|
92324428|NCT02002533|184553903|SUPERIORITY||Mean Difference (Final Values)|-1.723|STANDARD_ERROR_OF_MEAN|1.007||0.094|TWO_SIDED||||||ANCOVA||Group difference (BBT - HEAL) in mean post-pre change.|||||0.094
92200115|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-6.0||||||95.0|-12.9|2.2|||ANOVA|||Pertactin (Seroconversion percentage difference (PLA1 - PLA2))||2.2|-12.9|
92200116|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-4.8|1.0|||ANOVA|||Polio Type 1 (Seroconversion percentage difference (PLA1 - PLA2))||1.0|-4.8|
92200117|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-4.6|2.3|||ANOVA|||Polio Type 2 (Seroconversion percentage difference (PLA1 - PLA2))||2.3|-4.6|
92200118|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-3.2|5.1|||ANOVA|||Polio Type 3 (Seroconversion percentage difference (PLA1 - PLA2))||5.1|-3.2|
92324429|NCT02002533|184553903|SUPERIORITY||Mean Difference (Final Values)|3.75|STANDARD_ERROR_OF_MEAN|2.326||0.114|TWO_SIDED||||||ANCOVA||Group difference (BBT - HEAL) in mean post-pre change.|||||0.114
92324430|NCT02002533|184553903|SUPERIORITY||Mean Difference (Final Values)|0.911|STANDARD_ERROR_OF_MEAN|0.4||0.027|TWO_SIDED||||||ANCOVA||This is an arm by baseline interaction parameter.|||||0.027
92324431|NCT03796442|184553914|NON_INFERIORITY|The study was designed to have 80% power to detect 1-year AVMPG of 12.6±4.3mmHg for the study prosthesis and 11.9±4.3mmHg for the control prosthesis, with a 1-sided type I error of 2.5% and a noninferiority margin of 3mmHg. The noninferiority margin was determined by the values of 15mmHg for AVMPG of clinically significant aortic stenosis and 12mmHg for AVMPG of the control prosthesis.||||||0.0004|||||||t-test, 1 sided|||The null hypothesis was that the AvalusTM was inferior to the CEPME based on the AVMPG at 1-year echocardiographic follow-up, with a non-inferiority margin of 3mmHg. The result for the primary endpoint was presented with 97.5% one-sided confidence interval for mean difference between groups. The non-inferiority test was performed using a t-test which compared mean difference between groups with the non-inferiority margin under the one-sided significance level of 0.025.||||0.0004
92324432|NCT03408444|184553924|SUPERIORITY|Superiority is established if the adjusted upper confidence limit is below 0.|Mean Difference|-0.063|STANDARD_ERROR_OF_MEAN|0.0181|||TWO_SIDED|95.0|-0.106|-0.02|||Mixed Models Analysis|The Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 90% power to detect a 0.08 mm difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||-0.020|-0.106|
92324433|NCT03408444|184553924|SUPERIORITY|Superiority is established if the adjusted upper confidence limit is below 0.|Mean Difference|-0.056|STANDARD_ERROR_OF_MEAN|0.0183|||TWO_SIDED|95.0|-0.1|-0.013|||Mixed Models Analysis|The Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 90% power to detect a 0.08 mm difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||-0.013|-0.100|
92324434|NCT03408444|184553924|SUPERIORITY|Superiority is established if the adjusted upper confidence limit is below 0.|Mean Difference|-0.105|STANDARD_ERROR_OF_MEAN|0.0184|||TWO_SIDED|95.0|-0.149|-0.062|||Mixed Models Analysis|The Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 90% power to detect a 0.08 mm difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||-0.062|-0.149|
92324435|NCT03408444|184553925|SUPERIORITY|Superiority is established if the adjusted lower confidence limit is above 0.|Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.053|||TWO_SIDED|95.0|-0.04|0.21|||Mixed Models Analysis|Kenward and Roger method was for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 79% power to detect a 0.20 D difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||0.21|-0.04|
92324436|NCT03408444|184553925|SUPERIORITY|Superiority is established if the adjusted lower confidence limit is above 0.|Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|-0.01|0.25|||Mixed Models Analysis|Kenward and Roger method was used for the denominator degrees of freedom|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 79% power to detect a 0.20 D difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||0.25|-0.01|
92324437|NCT03408444|184553925|SUPERIORITY|Superiority is established if the adjusted lower confidence limit is above 0.|Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|0.09|0.35|||Mixed Models Analysis|Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 79% power to detect a 0.20 D difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||0.35|0.09|
92324438|NCT01194999|184553958|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No significant difference from baseline to final follow-up.||||0.001
92324439|NCT01895270|184553959|SUPERIORITY||Slope|0.34|STANDARD_ERROR_OF_MEAN|0.42||0.42|TWO_SIDED||||||Mixed Models Analysis|||||||.42
92324440|NCT02091375|184553965|SUPERIORITY||Median Difference (Final Values)|-22.79||||0.0123|TWO_SIDED|95.0|-41.06|-5.43|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach.|||-5.43|-41.06|0.0123
92324441|NCT02091375|184553966|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0784|TWO_SIDED|95.0|0.93|4.3|||Cochran-Mantel-Haenszel|Stratified by age group (2-5 years, 6-12 years, and 13-18 years).||||4.30|0.93|0.0784
92324442|NCT03834974|184554002|SUPERIORITY||||||<|0.0286|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There would be no difference in change in intent to tan outdoors 10 or more times in the next year.||||<0.0286
92200119|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-1.5|3.5|||ANOVA|||Hepatitis B (Seroconversion percentage difference (PLA1 - PLA2))||3.5|-1.5|
92324443|NCT03834974|184554002|SUPERIORITY|||||||0.0937|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There would be no difference in change in in intent to tan later in life.||||0.0937
92324444|NCT03834974|184554006|SUPERIORITY||||||<|0.0002|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There would be no difference in tanning outside at follow-up||||<0.0002
92324445|NCT00537316|184554049|SUPERIORITY_OR_OTHER|||||||0.032||95.0|||||Chi-squared|||||||0.032
92324446|NCT00782184|184554056|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.4|||<|0.001|TWO_SIDED|95.0|3.4|21.0|||Regression, Logistic|||COMPARISON BETWEEN GROUPS FOR NUMBER OF PARTICIPANTS REACHING LDL-C GOAL OF \<70 MG/DL||21.0|3.4|<0.001
92324447|NCT00782184|184554057|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-15.0|||<|0.001|TWO_SIDED|95.0|-21.15|-8.84|||Longitudinal Data Analysis (LDA) Model|||||-8.84|-21.15|<0.001
92324448|NCT00782184|184554058|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.7|||<|0.001|TWO_SIDED|95.0|3.3|13.9|||Regression, Logistic|||||13.9|3.3|<0.001
92324449|NCT00782184|184554059|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.5|||<|0.001|TWO_SIDED|95.0|2.0|6.0|||Regression, Logistic|||||6.0|2.0|<0.001
92324450|NCT00782184|184554060|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-8.24|||<|0.001|TWO_SIDED|95.0|-12.5|-3.97|||LDA Model|||||-3.97|-12.50|<0.001
92200120|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|1.0|||||TWO_SIDED|95.0|-1.1|5.0|||ANOVA|||Hib (≥ 0.15 μg/mL)(Seroconversion percentage difference (PLA1 - PLA2))||5|-1.1|
92324451|NCT00782184|184554061|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|2.13||||0.593|TWO_SIDED|95.0|-5.67|9.93|||LDA Model|||||9.93|-5.67|0.593
92200121|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|2.0||||||95.0|-2.8|7.7|||ANOVA|||Hib (≥1.0 μg/mL)(Seroconversion percentage difference (PLA1 - PLA2))||7.7|-2.8|
92200122|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.0|3.3|||ANOVA|||PnC 4(Seroconversion percentage difference (PLA1 - PLA2))||3.3|-3|
92200123|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|4.0|||||TWO_SIDED|95.0|-2.2|12.3|||ANOVA|||PnC 6B(Seroconversion percentage difference (PLA1 - PLA2))||12.3|-2.2|
92200124|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.9|3.6|||ANOVA|||PnC 9V (Seroconversion percentage difference (PLA1 - PLA2))||3.6|-3.9|
92324452|NCT00782184|184554062|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|2.48||||0.211|TWO_SIDED|95.0|-1.41|6.37|||LDA Model|||||6.37|-1.41|0.211
92324453|NCT00782184|184554063|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-11.62|||<|0.001|TWO_SIDED|95.0|-17.32|-5.92|||LDA Model|||||-5.92|-17.32|<0.001
92324454|NCT00782184|184554064|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-16.1|||<|0.001|TWO_SIDED|95.0|-22.77|-9.44|||LDA Model|||||-9.44|-22.77|<0.001
92324455|NCT00782184|184554065|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-10.02|||<|0.001|TWO_SIDED|95.0|-14.96|-5.08|||LDA Model|||||-5.08|-14.96|<0.001
92324456|NCT00782184|184554066|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-13.21|||<|0.001|TWO_SIDED|95.0|-19.83|-6.59|||LDA Model|||||-6.59|-19.83|<0.001
92324457|NCT00782184|184554067|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-7.69||||0.002|TWO_SIDED|95.0|-12.5|-2.88|||LDA Model|||||-2.88|-12.50|0.002
92324458|NCT00782184|184554068|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|5.25|||<|0.001|TWO_SIDED|95.0|2.44|8.06|||LDA Model|||||8.06|2.44|<0.001
92200125|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|1.0|||||TWO_SIDED|95.0|-1.1|6.2|||ANOVA|||PnC 14 (Seroconversion percentage difference (PLA1 - PLA2))||6.2|-1.1|
92324459|NCT00782184|184554069|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-12.91|||<|0.001|TWO_SIDED|95.0|-18.31|-7.52|||LDA Model|||||-7.52|-18.31|<0.001
92324460|NCT00782184|184554070|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|2.68||||0.785|TWO_SIDED|95.0|-16.5|21.86|||LDA Model|||||21.86|-16.50|0.785
92324461|NCT03330262|184554087|SUPERIORITY|||||||0.018|||||||Mixed Models Analysis|||||||0.018
92324462|NCT03330262|184554088|OTHER|Ho: mean change = 0||||||0.006|||||||Mixed Models Analysis|||||||0.006
92324463|NCT03330262|184554088|OTHER|Ho: mean change = 0||||||0.869|||||||Mixed Models Analysis|||||||0.869
92324464|NCT03330262|184554089|SUPERIORITY|||||||0.448|||||||Mixed Models Analysis|||||||0.448
92324465|NCT03330262|184554090|OTHER|This test evaluated whether the change in ABC was significant for the BALCAP condition##. Ho: mean = 0||||||0.273|||||||Mixed Models Analysis|||||||0.273
92324466|NCT03330262|184554090|OTHER|This test evaluated if the change in ABC score was significant for the control group.||||||0.796|||||||Mixed Models Analysis|||||||0.796
92324467|NCT03330262|184554091|OTHER|Ho: Mean change in score = 0||||||0.189|||||||Mixed Models Analysis|||||||0.189
92324468|NCT03330262|184554091|OTHER|Ho: mean change = 0||||||0.713|||||||Mixed Models Analysis|||||||0.713
92324469|NCT02822573|184554109|SUPERIORITY|Mixed effects repeated measures analysis of covariance (RMANCOVA) models with covariates of treatment, time, time by treatment interaction, baseline outcome level, age stratification and an unstructured covariance matrix. The primary objective was assessed using a linear contrast of group effect at 24 weeks.||||||0.32|||||||ANCOVA|||With a sample size of 266, there was 90% power to detect a treatment difference of 2 words for HVLT-R total recall score (SD=4.26, effect size=0.47) with a two-sided 5% level of significance. This calculation assumed an ANCOVA model analysis with 25% dropout and 2% missing data at end of treatment. A single interim analysis for futility occurred after 138 participants, with stopping rule of two-sided p-value \< 0.0154. This design required 3.5% more than fixed design, increasing total to 276.||||0.32
92324470|NCT02833844|184554124|SUPERIORITY||treatment difference|-56.92|STANDARD_ERROR_OF_MEAN|2.36|<|0.0001|TWO_SIDED|95.0|-61.55|-52.28||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-52.28|-61.55|< 0.0001
92324471|NCT02833844|184554125|SUPERIORITY||treatment difference|-75.2|STANDARD_ERROR_OF_MEAN|3.5|<|0.0001|TWO_SIDED|95.0|-82.1|-68.4||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-68.4|-82.1|< 0.0001
92200126|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-4.8|2.9|||ANOVA|||PnC 18C (Seroconversion percentage difference (PLA1 - PLA2))||2.9|-4.8|
92200127|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-4.8|2.9|||ANOVA|||PnC 19F (Seroconversion percentage difference (PLA1 - PLA2))||2.9|-4.8|
92324472|NCT02833844|184554126|SUPERIORITY||treatment difference|65.4|||<|0.0001|TWO_SIDED|95.0|57.8|71.1||Based on Cochran-Mantel-Haenszel test stratified by statin use stratification factor. For testing, nonachievement was imputed for participants with a missing value.|Cochran-Mantel-Haenszel|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as reference.|Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.||71.1|57.8|< 0.0001
92324473|NCT02833844|184554127|SUPERIORITY||treatment difference|71.9|||<|0.0001|TWO_SIDED|95.0|65.7|76.7||Based on Cochran-Mantel-Haenszel test stratified by statin use stratification factor. For testing, nonachievement was imputed for participants with a missing value.|Cochran-Mantel-Haenszel|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as a reference.|Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.||76.7|65.7|< 0.0001
92324474|NCT02833844|184554128|SUPERIORITY||treatment difference|-50.94|STANDARD_ERROR_OF_MEAN|2.01|<|0.0001|TWO_SIDED|95.0|-54.88|-46.99||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-46.99|-54.88|< 0.0001
92324475|NCT02833844|184554129|SUPERIORITY||treatment difference|-47.73|STANDARD_ERROR_OF_MEAN|1.72|<|0.0001|TWO_SIDED|95.0|-51.11|-44.35||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-44.35|-51.11|< 0.0001
92324476|NCT02833844|184554130|SUPERIORITY||treatment difference|-38.12|STANDARD_ERROR_OF_MEAN|1.62|<|0.0001|TWO_SIDED|95.0|-41.3|-34.94||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-34.94|-41.30|< 0.0001
92324477|NCT02833844|184554131|SUPERIORITY||treatment difference|-26.78|STANDARD_ERROR_OF_MEAN|3.76|<|0.0001|TWO_SIDED|95.0|-34.17|-19.4||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-19.40|-34.17|< 0.0001
92324478|NCT02833844|184554132|SUPERIORITY||treatment difference|-22.46|STANDARD_ERROR_OF_MEAN|4.36|<|0.0001|TWO_SIDED|95.0|-31.03|-13.88||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-13.88|-31.03|< 0.0001
92324479|NCT02833844|184554133|SUPERIORITY||treatment difference|8.36|STANDARD_ERROR_OF_MEAN|1.8|<|0.0001|TWO_SIDED|95.0|4.83|11.89||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||11.89|4.83|< 0.0001
92324480|NCT02833844|184554134|SUPERIORITY||treatment difference|-22.15|STANDARD_ERROR_OF_MEAN|4.01|<|0.0001|TWO_SIDED|95.0|-30.04|-14.26||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-14.26|-30.04|< 0.0001
92324481|NCT00308087|184554135|SUPERIORITY_OR_OTHER|||||||0.6182||95.0||||"Exact Conditional Test is stratified on the number~\> of prior therapies (1 or 2, 3 or more prior therapies)."|2-sided Exact Conditional Test|||||||0.6182
92200128|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-4.0|||||TWO_SIDED|95.0|-8.0|1.9|||ANOVA|||PnC 23F (Seroconversion percentage difference (PLA1 - PLA2))||1.9|-8|
92200129|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.3|3.8|||ANOVA|||Diphtheria (Seroconversion percentage difference (PLA3 - PLA4))||3.8|-2.3|
92324482|NCT00308087|184554138|SUPERIORITY_OR_OTHER|||||||0.5501||95.0|||||Log Rank|||Log rank analysis is a comparison between treatment groups of the distribution of time to first progressive disease or death.||||0.5501
92324483|NCT00308087|184554139|SUPERIORITY_OR_OTHER|||||||0.8217||95.0|||||Log Rank|||Log rank analysis is a comparison between treatment groups of the distribution of time to first progressive disease or death.||||0.8217
92324484|NCT01646021|184554146|OTHER||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.35|0.6|||Log Rank|||||0.60|0.35|< 0.0001
92324485|NCT01646021|184554148|SUPERIORITY||Hazard Ratio (HR)|0.74|||=|0.0621|TWO_SIDED|95.0|0.54|1.02|||Log Rank|||||1.02|0.54|= 0.0621
92324486|NCT02347891|184554163|SUPERIORITY||Risk Ratio (RR)|0.5||||0.6|TWO_SIDED|95.0|0.08|2.65|||ANOVA|||Definition of Improvement (DOI) at week 40||2.65|0.08|0.60
92200130|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0||||||95.0|-1.3|2.7|||ANOVA|||Tetanus (Seroconversion percentage difference (PLA3 - PLA4))||2.7|-1.3|
92324487|NCT02347891|184554163|SUPERIORITY||Risk Ratio (RR)|0.6||||0.61|TWO_SIDED|95.0|0.16|1.82|||ANOVA|||Percent patients reaching Total improvement score of ≥40 at Week 40||1.82|0.16|0.61
92324488|NCT02347891|184554163|SUPERIORITY||Risk Ratio (RR)|0.0||||0.23|TWO_SIDED|95.0|0.0|1.47|||ANOVA|||Percent of patient with major improvement TIS ≥60 at Week 40||1.47|0|0.23
92324489|NCT02347891|184554164|SUPERIORITY|||||||0.92|||||||ANOVA|||Mean Total Improvement Score (TIS) during Randomized Phase at Week 40||||0.92
92324490|NCT02347891|184554165|SUPERIORITY||Risk Ratio (RR)|0.0||||0.23|TWO_SIDED|95.0|0.0|1.47|||ANOVA|||Definition of Improvement (DOI) at Week 64||1.47|0|0.23
92324491|NCT02347891|184554165|SUPERIORITY||Risk Ratio (RR)|0.75||||0.99|TWO_SIDED|95.0|0.19|2.51|||ANOVA|||Percent patients reaching Total improvement score of ≥40 at Week 64||2.51|0.19|0.99
92324492|NCT02347891|184554165|SUPERIORITY||Risk Ratio (RR)|0.0||||0.23|TWO_SIDED|95.0|0.0|1.47|||ANOVA|||Percent of patient with major improvement TIS ≥60 at Week 64||1.47|0|0.23
92324493|NCT02347891|184554166|SUPERIORITY|||||||0.62|||||||ANOVA|||Mean Total Improvement Score (TIS) after Open Label Phase at 64 Week||||0.62
92324494|NCT04257032|184554184|OTHER||Ratio of geometric means (T/R) %|105.37|||||TWO_SIDED|90.0|97.94|113.35|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 9.9|Relative bioavailability||113.35|97.94|
92324495|NCT04257032|184554185|OTHER||Ratio of geometric means (T/R) %|114.5|||||TWO_SIDED|90.0|104.22|125.81|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 14.0|Relative bioavailability||125.81|104.22|
92324496|NCT04257032|184554186|OTHER||Ratio of geometric means (T/R) %|108.18|||||TWO_SIDED|90.0|100.26|116.73|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 11.3|Relative bioavailability||116.73|100.26|
92324497|NCT04257032|184554187|OTHER||Ratio of geometric means (T/R) %|108.89|||||TWO_SIDED|90.0|99.84|118.76|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 12.9|Relative bioavailability||118.76|99.84|
92200131|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|2.0|||||TWO_SIDED|95.0|-4.8|10.7|||Seroconversion Percentage difference|||PT (Seroconversion percentage difference (PLA3 - PLA4))||10.7|-4.8|
92324498|NCT04257032|184554188|OTHER||Ratio of geometric means (T/R) %|104.52|||||TWO_SIDED|90.0|97.34|112.23|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 10.6|Relative bioavailability||112.23|97.34|
92324499|NCT04257032|184554189|OTHER||Ratio of geometric means (T/R) %|108.42|||||TWO_SIDED|90.0|100.37|117.12|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 11.5|Relative bioavailability||117.12|100.37|
92324500|NCT00556933|184554193|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|TWO_SIDED||||||Chi-squared|||||||0.0004
92324501|NCT00556933|184554194|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45|TWO_SIDED||||||General Linear Model|||||||0.45
92324502|NCT00556933|184554195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53|TWO_SIDED||||||Fisher Exact|||||||0.53
92324503|NCT00556933|184554196|SUPERIORITY_OR_OTHER_LEGACY|||||||0.463|TWO_SIDED||||||Fisher Exact|||||||0.463
92324504|NCT00556933|184554197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.67|TWO_SIDED||||||Kaplan-Meier|||||||0.67
92324505|NCT00556933|184554198|SUPERIORITY_OR_OTHER_LEGACY|||||||0.193|TWO_SIDED||||||Fisher Exact|||||||0.193
92324506|NCT00556933|184554199|SUPERIORITY_OR_OTHER_LEGACY|||||||0.422|TWO_SIDED||||||Fisher Exact|||||||0.422
92324507|NCT00556933|184554200|SUPERIORITY_OR_OTHER_LEGACY|||||||0.871|TWO_SIDED||||||Fisher Exact|||||||0.871
92324508|NCT00556933|184554201|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068|TWO_SIDED||||||Kruskal-Wallis|||||||0.068
92324509|NCT00556933|184554202|SUPERIORITY_OR_OTHER_LEGACY|||||||0.67|TWO_SIDED||||||Fisher Exact|||||||0.67
92324510|NCT00556933|184554203|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|TWO_SIDED||||||Fisher Exact|||||||0.21
92324511|NCT00556933|184554204|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|TWO_SIDED||||||Kruskal-Wallis|||||||0.40
92324512|NCT00746564|184554206|SUPERIORITY_OR_OTHER||percentage of recordings|100.0|||||TWO_SIDED|95.0|100.0|100.0||||||"The sensitivity was calculated for each recording and for each subject as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recordings/Total amount of time (sec) R waves were recorded on surface ECG"||100|100|
92324513|NCT00746564|184554207|SUPERIORITY_OR_OTHER||percentage of clinical recordings|98.1|||||TWO_SIDED|95.0|95.7|100.0||||||"The sensitivity was calculated for each recording during the treadmill test and for each subject as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recordings/Total amount of time (sec) R waves were recorded on surface ECG"||100|95.7|
92324514|NCT00746564|184554208|SUPERIORITY_OR_OTHER||percentage of recordings|98.0|||||TWO_SIDED|95.0|95.5|100.0||||||"The sensitivity was calculated for each recording and for each subject during the hand to hand and hand to shoulder maneuvers as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recordings/Total amount of time (sec) R waves were recorded on surface ECG"||100|95.5|
92324515|NCT00746564|184554209|SUPERIORITY_OR_OTHER||percentage of recordings|98.9|||||TWO_SIDED|95.0|96.7|100.0||||||"The positive predictive value (PPV) was calculated for each recording and for each subject during the in-clinic recording at rest as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recording / Total amount of time (sec) R waves were recorded by device during in-clinic recording"||100|96.7|
92324516|NCT00746564|184554210|SUPERIORITY_OR_OTHER||percentage of recording|77.1|||||TWO_SIDED|95.0|65.9|88.4||||||"The positive predictive value (PPV) was calculated for each recording and for each subject for the in-clinic recording during the treadmill exercise as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recording / Total amount of time (sec) R waves were recorded by device during in-clinic recording"||88.4|65.9|
92324517|NCT00746564|184554211|SUPERIORITY_OR_OTHER||Percentage of recordings|85.0|||||TWO_SIDED|95.0|78.3|91.7||||||"The positive predictive value (PPV) was calculated for each recording and for each subject during Hand to Hand and Hand to Shoulder Maneuvers as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recording / Total amount of time (sec) R waves were recorded by device during in-clinic recording"||91.7|78.3|
92324518|NCT00746564|184554212|SUPERIORITY_OR_OTHER||percentage of interpretable recording|99.2|||||TWO_SIDED|95.0|98.5|100.0||||||"The proportion of recording time during which the device recording was interpretable was calculated for each weekly Patient Activator recording and for each subject as follows:~Duration (sec) of interpretable recording / Total duration of recording time (sec)"||100|98.5|
92324519|NCT00746564|184554213|SUPERIORITY_OR_OTHER||percentage of interpretable recording|92.3|||||TWO_SIDED|95.0|91.9|92.6||||||"The proportion of recording time during which the device recording was interpretable for each automatically triggered/symptom driven recording and for each subject was calculated as follows:~Duration of interpretable recording / Total duration of recording time"||92.6|91.9|
92324520|NCT00746564|184554214|SUPERIORITY_OR_OTHER||percentage of inappropriate recordings|86.2|||||TWO_SIDED|95.0|79.4|91.0||||||||91.0|79.4|
92324521|NCT00746564|184554215|SUPERIORITY_OR_OTHER||percentage of inappropriate recordings|63.2|||||TWO_SIDED|95.0|48.1|76.2||||||||76.2|48.1|
92324522|NCT03395184|184554244|OTHER||Percentage risk difference|14.3||||0.0119|TWO_SIDED|90.0|4.0|24.5|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum (min) risk weight method (Mehrotra-Railkar 2000)|||24.5|4.0|0.0119
92324523|NCT03395184|184554244|OTHER||Percentage risk difference|21.4||||0.0012|TWO_SIDED|90.0|10.0|32.9|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||32.9|10.0|0.0012
92324524|NCT03395184|184554258|OTHER||Percentage risk difference|13.3||||0.039|TWO_SIDED|90.0|1.0|25.7|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||25.7|1.0|0.0390
92324525|NCT03395184|184554258|OTHER||Percentage risk difference|29.7||||0.0001|TWO_SIDED|90.0|17.2|42.2|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||42.2|17.2|0.0001
92324526|NCT03395184|184554259|OTHER||LS mean difference|-3.0||||0.0007|TWO_SIDED|90.0|-4.55|-1.48|||ANCOVA|The ANCOVA model included treatment and baseline disease activity/extent as factors, and baseline SES-CD score as a covariate.||||-1.48|-4.55|0.0007
92324527|NCT03395184|184554259|OTHER||LS mean difference|-4.9|||<|0.0001|TWO_SIDED|90.0|-6.62|-3.26|||ANCOVA|The ANCOVA model included treatment and baseline disease activity/extent as factors, and baseline SES-CD score as a covariate.||||-3.26|-6.62|<.0001
92324528|NCT03395184|184554260|OTHER||Percentage risk difference|13.9||||0.0279|TWO_SIDED|90.0|2.1|25.6|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using using minimum risk weight method (Mehrotra-Railkar, 2000).|||25.6|2.1|0.0279
92324529|NCT03395184|184554260|OTHER||Percentage risk difference|31.5|||<|0.0001|TWO_SIDED|90.0|19.1|43.9|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||43.9|19.1|<.0001
92324530|NCT03395184|184554261|OTHER||Percentage risk difference|2.5||||0.2922|TWO_SIDED|90.0|-4.3|9.3|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||9.3|-4.3|0.2922
92324531|NCT03395184|184554261|OTHER||Percentage risk difference|7.4||||0.0449|TWO_SIDED|90.0|-0.4|15.2|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||15.2|-0.4|0.0449
92324532|NCT03395184|184554262|OTHER||Percentage risk difference|5.8||||0.0998|TWO_SIDED|90.0|-1.6|13.3|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||13.3|-1.6|0.0998
92324533|NCT03395184|184554262|OTHER||Percentage risk difference|11.8||||0.0111|TWO_SIDED|90.0|2.8|20.9|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||20.9|2.8|0.0111
92324534|NCT02060058|184554265|OTHER|The evaluation of SVR rate was based on full-analysis-set (FAS) and modified intention-to-treat population (mITT). FAS population included subjects receiving ≥ 1 dose of any antiviral agents (boceprevir and/or PEG-IFN, and/or RBV). MITT population included subjects receiving ≥ 1 dose of boceprevir.||||||0.01|||||||Chi-squared|||||||0.01
92324535|NCT02122887|184554285|OTHER|χ² (1) =4.57, Cramer's V=.24|||||<|0.05|||||||Chi-squared|||we hypothesised that following intervention, those undergoing intervention will be more likely to see justice on both sides, compared to control group||||<0.05
92324536|NCT02122887|184554286|EQUIVALENCE|we compared participants levels of tension (in their interaction with an outgroup member in trail 2) in an interaction test between perspective-taking levels and group|Mean Difference (Final Values)|0.65|||>|0.05|TWO_SIDED|95.0|||||ANOVA|df=1||||||>0.05
92324537|NCT02122887|184554287|EQUIVALENCE|we compared participants levels of empathy (in their interaction with an outgroup member in trail 2) in an interaction test between perspective-taking levels and group|Mean Difference (Final Values)|0.04|||>|0.05|TWO_SIDED|95.0|||||ANOVA|||||||>0.05
92324538|NCT00765895|184554294|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86|||||||Mantel Haenszel|Stratified by clinic||||||0.86
92324539|NCT02004886|184554313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.9|||<|0.001|TWO_SIDED|95.0|-38.4|-13.3|||ANCOVA|Terms for treatment, prior AHA therapy status, and baseline 24-hour WMG value as a covariate.||||-13.3|-38.4|<0.001
92324540|NCT02004886|184554313|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-53.6|||<|0.001|TWO_SIDED|95.0|-66.1|-41.1|||ANCOVA|Terms for treatment, prior AHA therapy status, and baseline 24-hour WMG value as a covariate.||||-41.1|-66.1|<0.001
92324541|NCT02004886|184554313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.0|||<|0.001|TWO_SIDED|95.0|-38.4|-13.6|||ANCOVA|Terms for treatment, prior AHA therapy status, and baseline 24-hour WMG value as a covariate.||||-13.6|-38.4|<0.001
92324542|NCT02004886|184554316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.3||||0.04|TWO_SIDED|95.0|-35.7|-0.9|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||-0.9|-35.7|0.04
92324543|NCT02004886|184554316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.6|||<|0.001|TWO_SIDED|95.0|-60.9|-26.3|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||-26.3|-60.9|<0.001
92324544|NCT02004886|184554316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6||||0.32|TWO_SIDED|95.0|-25.7|8.5|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||8.5|-25.7|0.320
92324545|NCT02004886|184554318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.751|TWO_SIDED|95.0|-0.7|0.9|||ANCOVA|||||0.9|-0.7|0.751
92324546|NCT02004886|184554318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.581|TWO_SIDED|95.0|-1.0|0.6|||ANCOVA|||||0.6|-1.0|0.581
92324547|NCT02004886|184554318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.918|TWO_SIDED|95.0|-0.8|0.8|||ANCOVA|||||0.8|-0.8|0.918
92324548|NCT02004886|184554320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7||||0.253|TWO_SIDED|95.0|-21.1|5.6|||ANCOVA|||||5.6|-21.1|0.253
92324549|NCT02004886|184554320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.5||||0.07|TWO_SIDED|95.0|-26.0|1.0|||ANCOVA|||||1.0|-26.0|0.070
92324550|NCT02004886|184554320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.1|||<|0.001|TWO_SIDED|95.0|-39.5|-12.8|||ANCOVA|||||-12.8|-39.5|<0.001
92324551|NCT02004886|184554321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-89.9||||0.002|TWO_SIDED|95.0|-145.6|-34.0|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||-34.0|-145.6|0.002
92324552|NCT02004886|184554321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-191.1|||<|0.001|TWO_SIDED|95.0|-246.4|-135.9|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||-135.9|-246.4|<0.001
92324553|NCT02004886|184554321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-97.7||||0.001|TWO_SIDED|95.0|-152.4|-42.9|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||-42.9|-152.4|0.001
92324554|NCT02004886|184554322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.408|TWO_SIDED|95.0|-1.5|3.7|||ANCOVA|||||3.7|-1.5|0.408
92200132|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-7.1|8.8|||ANOVA|||FHA(Seroconversion percentage difference (PLA3 - PLA4))||8.8|-7.1|
92324555|NCT02004886|184554322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.741|TWO_SIDED|95.0|-3.1|2.2|||ANCOVA|||||2.2|-3.1|0.741
92324556|NCT02004886|184554322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.906|TWO_SIDED|95.0|-2.8|2.5|||ANCOVA|||||2.5|-2.8|0.906
92324557|NCT02004886|184554323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.857|TWO_SIDED|95.0|-30.4|25.3|||ANCOVA|||||25.3|-30.4|0.857
92324558|NCT02004886|184554323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.906|TWO_SIDED|95.0|-30.3|26.9|||ANCOVA|||||26.9|-30.3|0.906
92324559|NCT02004886|184554323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.63|TWO_SIDED|95.0|-34.0|20.8|||ANCOVA|||||20.8|-34.0|0.630
92324560|NCT01369108|184554324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8|||||||ANOVA|||null hypothesis no difference in anatomic form||||0.8
92324561|NCT01369108|184554324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89|||||||ANOVA|||null hypothesis no difference in margin adaptation||||0.89
92324562|NCT01369108|184554324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79|||||||ANOVA|||null hypothesis no difference in margin discoloration||||0.79
92324563|NCT01369108|184554324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|||||||ANOVA|||null hypothesis no difference in surface integrity||||0.18
92324564|NCT01369108|184554324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|||||||ANOVA|||null hypothesis no difference in secondary caries||||0.66
92324565|NCT01369108|184554325|SUPERIORITY_OR_OTHER_LEGACY|||||||0.522|||||||ANOVA|||null hypothesis no difference in sensitivity to cold||||0.522
92324566|NCT01369108|184554325|SUPERIORITY_OR_OTHER_LEGACY|||||||0.449|||||||Chi-squared|||null hypothesis no difference in biting pressure||||.449
92324567|NCT01895608|184554326|OTHER|non-parametric statistic: Mann-Whitney U test for independent samples||||||0.562|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in walking under dual-task conditions following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||0.562
92324568|NCT01895608|184554326|OTHER|||||||0.414|||||||Wilcoxon (Mann-Whitney)|non-parametric statistical analysis: Mann Whitney U Test for independent samples||Null hypothesis: There will not be a difference in improvement in walking under dual-task conditions following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||0.414
92324569|NCT01895608|184554327|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.181|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in walking under dual-task conditions following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||0.181
92324570|NCT01895608|184554327|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||1|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in walking under dual-task conditions following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||1.000
92324571|NCT01895608|184554328|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||1|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in fall risk as measured by dynamic gait index following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||1.000
92324572|NCT01895608|184554328|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.662|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in fall risk as measured by dynamic gait index following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||0.662
92324573|NCT01895608|184554329|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in static balance as measured by sensory organization test following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||0.05
92200133|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-8.0|5.7|||ANOVA|||Pertactin (Seroconversion percentage difference (PLA3 - PLA4))||5.7|-8|
92324574|NCT01895608|184554329|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.171|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in static balance as measured by sensory organization test following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||0.171
92324575|NCT01895608|184554330|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.313|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in gait speed following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||0.313
92324576|NCT01895608|184554330|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.852|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in gait speed following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||0.852
92324577|NCT01895608|184554331|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.263|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in balance confidence following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||0.263
92324578|NCT01895608|184554331|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.181|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in balance confidence following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||0.181
92324579|NCT00614120|184554399|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is concluded if the two-sided upper limit of the 95% confidence interval for treatment difference in mean change in HbA1c between lira 1.8mg + met and glim + met is below 0.4%.|Estimated treatment difference, LS Mean|-0.06|||<|0.0001||95.0|-0.23|0.11||Non-inferiority; \<.0001. In order to protect the overall Type I error rate when testing for non-inferiority of the three doses of lira + met to glim + met, the comparisons will be invoked sequentially for descending doses of liraglutide.|ANCOVA|ANCOVA model with treatment, country and previous treatment as fixed effects and baseline value as a covariate.|The p-values correspond to one-sided hypotheses of either superiority or non-inferiority. Statistical significance on a 2.5% level.|"Based on standard normal theory, the sample size needed in order to be able to show that lira + met is non-inferior to glim + met when using a 1:1 randomisation and a non-inferiority criteria of 0.4% with a power of at least 85%, is tabulated below using different SD of HbA1c.~Assuming a drop out rate of 25%, the total number of subjects to be randomised is 896 (224 for each dose of the liraglutide + metformin group and 224 subjects in metformin+glimepiride treatment group) with a SD of 1.2%."||0.11|-0.23|<0.0001
92324580|NCT00614120|184554399|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is concluded if the two-sided upper limit of the 95% confidence interval for treatment difference in mean change in HbA1c between lira 1.2mg + met and glim + met is below 0.4%.|Estimated treatment difference, LS Mean|0.03|||<|0.0001||95.0|-0.14|0.2||In order to protect the overall Type I error rate when testing for non-inferiority of the three doses of lira + met to glim + met, the comparisons will be invoked sequentially for descending doses of liraglutide.|ANCOVA|ANCOVA model with treatment, country and previous treatment as fixed effects and baseline value as a covariate.|The p-values correspond to one-sided hypotheses of either superiority or non-inferiority. Statistical significance on a 2.5% level.|"Based on standard normal theory, the sample size needed in order to be able to show that lira + met is non-inferior to glim + met when using a 1:1 randomisation and a non-inferiority criteria of 0.4% with a power of at least 85%, is tabulated below using different SD of HbA1c.~Assuming a drop out rate of 25%, the total number of subjects to be randomised is 896 (224 for each dose of the liraglutide + metformin group and 224 subjects in metformin+glimepiride treatment group) with a SD of 1.2%."||0.20|-0.14|<.0001
92200134|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|4.7|||ANOVA|||Polio Type 1 (Seroconversion percentage difference (PLA3 - PLA4))||4.7|-2|
92200135|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-3.0|4.8|||ANOVA|||Polio Type 2 (Seroconversion percentage difference (PLA3 - PLA4))||4.8|-3|
92200136|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-4.4|4.5|||ANOVA|||Polio Type 3 (Seroconversion percentage difference (PLA3 - PLA4))||4.5|-4.4|
92200137|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.3|2.7|||ANOVA|||Hepatitis B (Seroconversion percentage difference (PLA3 - PLA4))||2.7|-2.3|
92324581|NCT00614120|184554399|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is concluded if the two-sided upper limit of the 95% confidence interval for treatment difference in mean change in HbA1c between lira 0.6mg + met and glim + met is below 0.4%.|Estimated treatment difference, LS Mean|0.25||||0.0421||95.0|0.08|0.42||In order to protect the overall Type I error rate when testing for non-inferiority of the three doses of lira + met to glim + met, the comparisons will be invoked sequentially for descending doses of liraglutide.|ANCOVA|ANCOVA model with treatment, country and previous treatment as fixed effects and baseline value as a covariate.|The p-values correspond to one-sided hypotheses of either superiority or non-inferiority.|"Based on standard normal theory, the sample size needed in order to be able to show that lira + met is non-inferior to glim + met when using a 1:1 randomisation and a non-inferiority criteria of 0.4% with a power of at least 85%, is tabulated below using different SD of HbA1c.~Assuming a drop out rate of 25%, the total number of subjects to be randomised is 896 (224 for each dose of the liraglutide + metformin group and 224 subjects in metformin+glimepiride treatment group) with a SD of 1.2%."||0.42|0.08|0.0421
92324582|NCT04789291|184554423|OTHER||Ratios of adjusted geometric means [%]|102.76|||||TWO_SIDED|90.0|99.34|106.29|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 4.8.|Relative bioavailability of BI 1595043 administered in fed state (Test) compared with BI 1595043 administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% CIs were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||106.29|99.34|
92324583|NCT04789291|184554424|OTHER||Ratios of adjusted geometric means [%]|77.81|||||TWO_SIDED|90.0|69.77|86.76|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 15.5.|Relative bioavailability of BI 1595043 administered in fed state (Test) compared with BI 1595043 administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% CIs were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||86.76|69.77|
92324584|NCT04789291|184554425|OTHER||Ratios of adjusted geometric means [%]|103.24|||||TWO_SIDED|90.0|99.73|106.89|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 4.9.|Relative bioavailability of BI 1595043 administered in fed state (Test) compared with BI 1595043 administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% CIs were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||106.89|99.73|
92324585|NCT00459706|184554429|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority test was performed using the 95 percent (%) two-sided confidence interval (CI) of the difference (AI minus PFS) of mean subject satisfactions (α = 2.5%).~Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI \> -1."|Mean Difference (Net)|1.11|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|0.71|1.5|||ANOVA|ANOVA=analysis of variance||Non-inferiority of autoinjector (AI) over prefilled syringe (PFS) was assessed on the primary endpoint. Hypothesis tested was H0: AI minus PFS less than or equal to (≤) -1. The alternate hypothesis was H1: AI minus PFS greater than (\>) -1.||1.50|0.71|<0.001
92324586|NCT00459706|184554430|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority test was performed using the 95% two-sided CI of the difference (AI minus PFS) of mean subject satisfactions (α = 2.5%).~Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI \> -1."|Mean Difference (Net)|1.25|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|0.85|1.64|||ANOVA|||"Non-inferiority of AI over PFS was assessed on the primary endpoint. The hypotheses tested was as follows:~H0: AI - PFS ≤ -1 H1: AI - PFS \> -1"||1.64|0.85|<0.001
92324587|NCT00459706|184554431|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.058|TWO_SIDED|95.0|0.98|3.05|||GEE Model+Logit Link+Binomial Distributn|GEE=Generalized estimating equation Distribn=distribution||||3.05|0.98|0.058
92324588|NCT00459706|184554432|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96||||0.019|TWO_SIDED|95.0|1.12|3.43|||GEE Model+Logit Link+Binomial Distributn|||||3.43|1.12|0.019
92324589|NCT00459706|184554433|SUPERIORITY_OR_OTHER||Regression coefficient|0.11||||0.16|TWO_SIDED|95.0|-0.04|0.27|||Regression, Linear|||All categories||0.27|-0.04|0.160
92324590|NCT00459706|184554434|SUPERIORITY_OR_OTHER||Regression coefficients|-0.75||||0.001|TWO_SIDED|95.0|-1.2|-0.29|||Regression, Linear|||Female versus male (reference).||-0.29|-1.20|0.001
92324591|NCT00459706|184554435|SUPERIORITY_OR_OTHER||Regression coefficient|-0.18||||0.676|TWO_SIDED|95.0|-0.62|0.26|||Regression, Linear|||Participants at High School/Baccalaureate Level versus participants with only Reading/Writing Capacity (reference).||0.26|-0.62|0.676
92324592|NCT00459706|184554435|SUPERIORITY_OR_OTHER||Regression coefficient|0.0||||0.676|TWO_SIDED|95.0|-0.59|0.6|||Regression, Linear|||Participants at University Level versus participants with only Reading/Writing Capacity (reference).||0.60|-0.59|0.676
92324593|NCT00459706|184554436|SUPERIORITY_OR_OTHER||Regression coefficient|-0.28||||0.02|TWO_SIDED|95.0|-0.52|-0.05|||Regression, Linear|||All categories||-0.05|-0.52|0.020
92324594|NCT00459706|184554437|SUPERIORITY_OR_OTHER||Regression coefficient|-0.35||||0.008|TWO_SIDED|95.0|-0.61|-0.09|||Regression, Linear|||All categories||-0.09|-0.61|0.008
92324595|NCT00459706|184554438|SUPERIORITY_OR_OTHER||Regression coefficient|0.17||||0.03|TWO_SIDED|95.0|0.02|0.32|||Regression, Linear|||All categories||0.32|0.02|0.030
92324596|NCT00459706|184554439|SUPERIORITY_OR_OTHER||Regression coefficient|-0.6||||0.006|TWO_SIDED|95.0|-1.03|-0.18|||Regression, Linear|||Self-injection Experience versus No Self-injection Experience (reference).||-0.18|-1.03|0.006
92324597|NCT00459706|184554440|SUPERIORITY_OR_OTHER||Regression coefficient|0.06||||0.278|TWO_SIDED|95.0|-0.05|0.18|||Regression, Linear|||All categories||0.18|-0.05|0.278
92324598|NCT00459706|184554441|SUPERIORITY_OR_OTHER||Regression coefficient|0.03||||0.749|TWO_SIDED|95.0|-0.15|0.21|||Regression, Linear|||All categories||0.21|-0.15|0.749
92324599|NCT00459706|184554442|SUPERIORITY_OR_OTHER||Regression coefficient|-0.08||||0.105|TWO_SIDED|95.0|-0.18|0.02|||Regression, Linear|||All categories||0.02|-0.18|0.105
92324600|NCT00459706|184554443|SUPERIORITY_OR_OTHER||Regression coefficient|0.01||||0.819|TWO_SIDED|95.0|-0.1|0.12|||Regression, Linear|||All categories||0.12|-0.10|0.819
92324601|NCT00459706|184554444|SUPERIORITY_OR_OTHER||Regression coefficient|-0.39||||0.012|TWO_SIDED|95.0|-0.69|-0.09|||Regression, Linear|||All categories, by 1-unit increments.||-0.09|-0.69|0.012
92324602|NCT00459706|184554445|SUPERIORITY_OR_OTHER||Regression coefficient|-0.1||||0.541|TWO_SIDED|95.0|-0.52|0.32|||Regression, Linear|||2 DMARDs versus 1 DMARD (reference).||0.32|-0.52|0.541
92200138|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-5.3|1.0|||ANOVA|||Hib (≥ 0.15 μg/mL)(Seroconversion percentage difference (PLA3 - PLA4))||1|-5.3|
92324603|NCT00459706|184554445|SUPERIORITY_OR_OTHER||Regression coefficient|-0.14||||0.541|TWO_SIDED|95.0|-0.97|0.68|||Regression, Linear|||3 DMARDs versus 1 DMARD (reference).||0.68|-0.97|0.541
92324604|NCT00459706|184554445|SUPERIORITY_OR_OTHER||Regression coefficient|1.72||||0.541|TWO_SIDED|95.0|-0.82|4.25|||Regression, Linear|||At least 4 DMARDs versus 1 DMARD (reference).||4.25|-0.82|0.541
92324605|NCT00459706|184554446|SUPERIORITY_OR_OTHER||Regression coefficient|-0.15||||0.465|TWO_SIDED|95.0|-0.55|0.25|||Regression, Linear|||Prior Injection Experience versus No Prior Injection Experience (reference)||0.25|-0.55|0.465
92324606|NCT00459706|184554447|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.29||0.154|TWO_SIDED|95.0|-0.97|0.15|||ANOVA|||||0.15|-0.97|0.154
92324607|NCT00459706|184554448|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.17||0.212|TWO_SIDED|95.0|-0.12|0.56|||ANOVA|||||0.56|-0.12|0.212
92324608|NCT00459706|184554449|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.19||0.965|TWO_SIDED|95.0|-0.39|0.37|||ANOVA|||||0.37|-0.39|0.965
92324609|NCT00459706|184554450|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.19||0.519|TWO_SIDED|95.0|-0.25|0.5|||ANOVA|||||0.50|-0.25|0.519
92324610|NCT00459706|184554451|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85|||<|0.001|TWO_SIDED|95.0|1.33|2.57|||GEE model+logit link+multinomial distrib|||Day 84||2.57|1.33|<0.001
92200139|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0||||||95.0|-6.6|3.0|||ANOVA|||Hib (≥1.0 μg/mL)(Seroconversion percentage difference (PLA3 - PLA4))||3|-6.6|
92200140|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-4.2|3.0|||ANOVA|||PnC 4 (Seroconversion percentage difference (PLA3 - PLA4))||3|-4.2|
92324611|NCT00459706|184554452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.007|TWO_SIDED|95.0|1.14|2.29|||GEE model+logit link+multinomial distrib|||||2.29|1.14|0.007
92200141|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|2.0|||||TWO_SIDED|95.0|-4.0|9.0|||ANOVA|||PnC 6B (Seroconversion percentage difference (PLA3 - PLA4))||9|-4|
92200142|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|1.0|||||TWO_SIDED|95.0|-2.8|6.0|||ANOVA|||PnC 9V (Seroconversion percentage difference (PLA3 - PLA4))||6|-2.8|
92324612|NCT00459706|184554453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||0.002|TWO_SIDED|95.0|1.26|2.92|||GEE model+logit link+multinomial distrib|||||2.92|1.26|0.002
92324613|NCT00459706|184554454|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|||<|0.001|TWO_SIDED|95.0|1.65|3.46|||GEE model+logit link+multinomial distrib|||||3.46|1.65|<0.001
92324614|NCT00459706|184554455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06|||<|0.001|TWO_SIDED|95.0|1.5|2.83|||GEE model+logit link+multinomial distrib|||||2.83|1.50|<0.001
92324615|NCT00459706|184554456|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||<|0.001|TWO_SIDED|95.0|1.44|2.78|||GEE model+logit link+multinomial distrib|||||2.78|1.44|<0.001
92324616|NCT00459706|184554457|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.184|TWO_SIDED|95.0|0.9|1.72|||GEE model+logit link+multinomial distrib|||||1.72|0.90|0.184
92324617|NCT00459706|184554458|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.106|TWO_SIDED|95.0|0.94|1.85|||GEE model+logit link+multinomial distrib|||||1.85|0.94|0.106
92324618|NCT00459706|184554459|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.112|TWO_SIDED|95.0|0.93|1.96|||GEE model+logit link+multinomial distrib|||||1.96|0.93|0.112
92324619|NCT00459706|184554460|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.002|TWO_SIDED|95.0|1.21|2.24|||GEE model+logit link+multinomial distrib|||||2.24|1.21|0.002
92324620|NCT00459706|184554461|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.57|||<|0.001|TWO_SIDED|95.0|0.41|0.78|||GEE model+logit link+multinomial distrib|||||0.78|0.41|<0.001
92324621|NCT00459706|184554462|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.022|TWO_SIDED|95.0|0.47|0.94|||GEE model+logit link+multinomial distrib|||||0.94|0.47|0.022
92324622|NCT00459706|184554463|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.009|TWO_SIDED|95.0|0.46|0.89|||GEE model+logit link+multinomial distrib|||||0.89|0.46|0.009
92324623|NCT00459706|184554464|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63||||0.007|TWO_SIDED|95.0|0.45|0.88|||GEE model+logit link+multinomial distrib|||||0.88|0.45|0.007
92324624|NCT00459706|184554465|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.014|TWO_SIDED|95.0|0.47|0.92|||GEE model+logit link+multinomial distrib|||||0.92|0.47|0.014
92324625|NCT00459706|184554466|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||<|0.001|TWO_SIDED|95.0|1.53|2.88|||GEE model+logit link+multinomial distrib|||||2.88|1.53|<0.001
92324626|NCT00459706|184554467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.14|||<|0.001|TWO_SIDED|95.0|1.57|2.91|||GEE model+logit link+multinomial distrib|||||2.91|1.57|<0.001
92324627|NCT00459706|184554468|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.08|||<|0.001|TWO_SIDED|95.0|2.23|4.25|||GEE model+logit link+multinomial distrib|||||4.25|2.23|<0.001
92324628|NCT00459706|184554469|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88|||<|0.001|TWO_SIDED|95.0|1.35|2.62|||GEE model+logit link+multinomial distrib|||||2.62|1.35|<0.001
92324629|NCT00459706|184554470|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.25|||<|0.001|TWO_SIDED|95.0|0.18|0.34|||GEE model+logit link+multinomial distrib|||||0.34|0.18|<0.001
92324630|NCT00459706|184554471|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.26|||<|0.001|TWO_SIDED|95.0|0.19|0.36|||GEE model+logit link+multinomial distrib|||||0.36|0.19|<0.001
92324631|NCT00459706|184554472|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27|||<|0.001|TWO_SIDED|95.0|0.2|0.36|||GEE model+logit link+multinomial distrib|||||0.36|0.20|<0.001
92324632|NCT00459706|184554473|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.196|TWO_SIDED|95.0|0.61|1.11|||GEE model+logit link+multinomial distrib|||||1.11|0.61|0.196
92324633|NCT00459706|184554474|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74||||0.001|TWO_SIDED|95.0|1.25|2.42|||GEE model+logit link+multinomial distrib|||||2.42|1.25|0.001
92324634|NCT00459706|184554475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3|||<|0.001|TWO_SIDED|95.0|0.21|0.42|||GEE model+logit link+multinomial distrib|||||0.42|0.21|<0.001
92324635|NCT00459706|184554476|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|||<|0.001|TWO_SIDED|95.0|0.29|0.56|||GEE model+logit link+multinomial distrib|||||0.56|0.29|<0.001
92324636|NCT00459706|184554477|SUPERIORITY_OR_OTHER|||||||0.896|TWO_SIDED||||||ANOVA|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.896
92324637|NCT00459706|184554477|SUPERIORITY_OR_OTHER|||||||0.166|TWO_SIDED||||||ANOVA|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.166
92324638|NCT00459706|184554478|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.069
92324639|NCT00459706|184554478|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.015
92324640|NCT00459706|184554479|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.069
92324641|NCT00459706|184554479|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.015
92200143|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.7|3.4|||ANOVA|||PnC 14 (Seroconversion percentage difference (PLA3 - PLA4))||3.4|-3.7|
92200144|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-3.0|||||TWO_SIDED|95.0|-7.2|0.8|||ANOVA|||PnC 18C (Seroconversion percentage difference (PLA3 - PLA4))||0.8|-7.2|
92200145|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|2.0|||||TWO_SIDED|95.0|-0.8|7.5|||ANOVA|||PnC 19F (Seroconversion percentage difference (PLA3 - PLA4))||7.5|-0.8|
92324642|NCT00459706|184554480|SUPERIORITY_OR_OTHER|||||||0.652||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.652
92324643|NCT00459706|184554480|SUPERIORITY_OR_OTHER|||||||0.459||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.459
92324644|NCT00459706|184554481|SUPERIORITY_OR_OTHER|||||||0.652||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.652
92324645|NCT00459706|184554481|SUPERIORITY_OR_OTHER|||||||0.459||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.459
92324646|NCT00459706|184554482|SUPERIORITY_OR_OTHER|||||||0.652||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.652
92324647|NCT00459706|184554482|SUPERIORITY_OR_OTHER|||||||0.459||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.459
92324648|NCT00459706|184554483|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.023
92324649|NCT00459706|184554483|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||<0.001
92324650|NCT00459706|184554484|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.038
92324651|NCT00459706|184554484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||<0.001
92324652|NCT00459706|184554485|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.018
92324653|NCT00459706|184554485|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.019
92324654|NCT00459706|184554486|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.049
92324655|NCT00459706|184554486|SUPERIORITY_OR_OTHER|||||||0.736||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.736
92324656|NCT00459706|184554487|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.033
92324657|NCT00459706|184554487|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.730
92324658|NCT00459706|184554488|SUPERIORITY_OR_OTHER|||||||0.838||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.838
92324659|NCT00459706|184554488|SUPERIORITY_OR_OTHER|||||||0.483||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.483
92324660|NCT00459706|184554489|SUPERIORITY_OR_OTHER|||||||0.466||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.466
92324661|NCT00459706|184554489|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.035
92324662|NCT00459706|184554490|SUPERIORITY_OR_OTHER|||||||0.784||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.784
92324663|NCT00459706|184554490|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.006
92324664|NCT00459706|184554491|SUPERIORITY_OR_OTHER|||||||0.843||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.843
92200146|NCT00474526|184298510|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|1.0||||||95.0|-3.7|7.0|||ANOVA|||PnC 23F (Seroconversion percentage difference (PLA3 - PLA4))||7|-3.7|
92200147|NCT00474526|184298525|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|0.9|||||TWO_SIDED|95.0|0.67|1.2|||ANOVA|||PnC 4 (Post-vaccination GMC; group ratio US1A:US1B)||1.2|0.67|
92324665|NCT00459706|184554491|SUPERIORITY_OR_OTHER|||||||0.461||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.461
92324666|NCT00459706|184554492|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.150
92324667|NCT00459706|184554492|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.002
92324668|NCT00459706|184554493|SUPERIORITY_OR_OTHER|||||||0.934||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.934
92324669|NCT00459706|184554493|SUPERIORITY_OR_OTHER|||||||0.656||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.656
92324670|NCT00459706|184554494|SUPERIORITY_OR_OTHER|||||||0.934||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.934
92324671|NCT00459706|184554494|SUPERIORITY_OR_OTHER|||||||0.656||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.656
92324672|NCT00459706|184554495|SUPERIORITY_OR_OTHER|||||||0.934||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.934
92324673|NCT00459706|184554495|SUPERIORITY_OR_OTHER|||||||0.656||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.656
92324674|NCT00459706|184554496|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Autoinjector group||||<0.001
92324675|NCT00459706|184554496|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||<0.001
92324676|NCT02447497|184554497|SUPERIORITY||Mean Difference (Final Values)|1.97|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|0.51|4.1|||Paired t-test|||48 hours post treatment time point. The primary analysis used a modified intent to treat population. Subjects were excluded who did not meet the treatment day baseline requirement of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen. The null hypothesis is that there is no difference in log10 CFU/cm\^2 recovery between arms.||4.10|0.51|<0.0001
92200148|NCT00474526|184298525|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|0.8|||||TWO_SIDED|95.0|0.62|1.02|||ANOVA|||PnC 6B (Post-vaccination GMC; group ratio US1A:US1B)||1.02|0.62|
92200149|NCT00474526|184298525|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|0.89|||||TWO_SIDED|95.0|0.67|1.2|||ANOVA|||PnC 9V (Post-vaccination GMC; group ratio US1A:US1B)||1.2|0.67|
92324677|NCT02447497|184554497|SUPERIORITY||Mean Difference (Final Values)|2.37|STANDARD_ERROR_OF_MEAN|0.29||0.0001|TWO_SIDED|95.0|0.6|5.75|||Paired t-test|||48 hours post treatment. The primary analysis used a modified intent to treat population. Subjects were excluded who did not meet the treatment day baseline requirement of greater than or equal to 3.0 log10 CFU/cm\^2 on the groin. The null hypothesis is that there is no difference in log10 CFU/cm\^2 recovery between arms.||5.75|0.60|0.0001
92324678|NCT02447497|184554497|SUPERIORITY||Mean Difference (Final Values)|1.51|STANDARD_ERROR_OF_MEAN|0.23||0.0001|TWO_SIDED|95.0|0.17|3.75|||Paired t-test|||72 hours post treatment. The primary analysis used a modified intent to treat population. Subjects were excluded who did not meet the treatment day baseline requirement of greater than or equal to 3.0 log10 CFUcm2 on the groin. The null hypothesis is that there is no difference in log10 CFU/cm\^2 recovery between arms.||3.75|0.17|0.0001
92324679|NCT02447497|184554497|SUPERIORITY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|0.33||0.0001|TWO_SIDED|95.0|0.13|5.04|||Paired t-test|||72 hours post treatment. The primary analysis used a modified intent to treat population. Subjects were excluded who did not meet the treatment day baseline requirement of greater than or equal to 3.0 log10 CFUcm2 on the groin. The null hypothesis is that there is no difference in log10 CFU/cm\^2 recovery between arms.||5.04|0.13|0.0001
92324680|NCT02017912|184554501|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.5567||0.7208|TWO_SIDED|95.0|-1.321|0.92|||Mixed Models Analysis|||||0.920|-1.321|0.7208
92324681|NCT02017912|184554502|SUPERIORITY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.881||0.641|TWO_SIDED|95.0|-2.187|1.36|||Mixed Models Analysis|||||1.360|-2.187|0.6410
92324682|NCT00985959|184554520|SUPERIORITY_OR_OTHER||Overall response rate (%)|69.8|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001|TWO_SIDED|95.0|58.9|79.2||Significance level 5% one-tailed. Threshold response rate 35%|Binominal test|||||79.2|58.9|<0.0001
92324683|NCT02235077|184554555|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.5688|TWO_SIDED|95.0|-0.11|0.2|||Regression, Linear|||||0.20|-0.11|0.5688
92324684|NCT02235077|184554556|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.4155|TWO_SIDED|95.0|-0.35|0.86|||Regression, Linear|||||0.86|-0.35|0.4155
92324685|NCT02235077|184554557|SUPERIORITY||Odds Ratio (OR)|1.23||||0.3039|TWO_SIDED|95.0|0.83|1.81|||Chi-squared|||||1.81|0.83|0.3039
92324686|NCT02235077|184554558|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.7673|TWO_SIDED|95.0|-0.09|0.07|||Regression, Linear|||||0.07|-0.09|0.7673
92324687|NCT02235077|184554559|SUPERIORITY||Mean Difference (Final Values)|319.2||||0.5734|TWO_SIDED|95.0|-797.4|1435.8|||Regression, Linear|||||1435.8|-797.4|0.5734
92324688|NCT02235077|184554560|SUPERIORITY||Mean Difference (Final Values)|-1.02||||0.3528|TWO_SIDED|95.0|-3.05|1.01|||Regression, Linear|||||1.01|-3.05|0.3528
92324689|NCT02235077|184554561|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.0846|TWO_SIDED|95.0|-0.02|0.25|||Regression, Linear|||||0.25|-0.02|0.0846
92324690|NCT02235077|184554562|SUPERIORITY||Mean Difference (Final Values)|-12.17||||0.0842|TWO_SIDED|95.0|-25.98|1.65|||Regression, Linear|||||1.65|-25.98|0.0842
92200150|NCT00474526|184298525|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|0.8|||||TWO_SIDED|95.0|0.63|1.03|||ANOVA|||PnC 14 (Post-vaccination GMC; group ratio US1A:US1B)||1.03|0.63|
92324691|NCT02235077|184554563|SUPERIORITY||Odds Ratio (OR)|1.11||||0.7628|TWO_SIDED|95.0|0.56|2.23|||Regression, Logistic|||||2.23|0.56|0.7628
92324692|NCT02235077|184554564|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.6102|TWO_SIDED|95.0|-5.02|2.95|||Regression, Linear|||||2.95|-5.02|0.6102
92324693|NCT02235077|184554565|SUPERIORITY||Odds Ratio (OR)|0.76||||0.5818|TWO_SIDED|95.0|0.29|1.99|||Regression, Logistic|||||1.99|0.29|0.5818
92324694|NCT00792688|184554575|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0062||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0062
92324695|NCT00792688|184554575|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0331||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0331
92324696|NCT03386994|184554626|OTHER|||||||0.0002|||||||ANOVA|Total annual IPF-related costs||||||0.0002
92324697|NCT03386994|184554626|OTHER|||||||0.0007|||||||ANOVA|Annual direct health IPF-related costs||||||0.0007
92324698|NCT03386994|184554626|OTHER||||||<|0.0001|||||||ANOVA|Annual direct non-health IPF-related costs||||||<0.0001
92324699|NCT03386994|184554626|OTHER|||||||0.6839|||||||ANOVA|Annual indirect IPF-related costs||||||0.6839
92324700|NCT03386994|184554627|OTHER|||||||0.002|||||||Kruskal-Wallis|Timepoint: T0||||||0.0020
92324701|NCT03386994|184554627|OTHER|||||||0.1385|||||||Kruskal-Wallis|Timepoint: T6||||||0.1385
92324702|NCT03386994|184554627|OTHER|||||||0.0233|||||||Kruskal-Wallis|Timepoint: T12||||||0.0233
92324703|NCT03386994|184554628|OTHER|||||||0.156||||||Timepoint: T0|Kruskal-Wallis|||||||0.1560
92324704|NCT03386994|184554628|OTHER|||||||0.3144||||||Timepoint: T6|Kruskal-Wallis|||||||0.3144
92324705|NCT03386994|184554628|OTHER|||||||0.2019||||||Timepoint: T12|Kruskal-Wallis|||||||0.2019
92324706|NCT03386994|184554629|OTHER|||||||0.0075||||||Timepoint: T0|Kruskal-Wallis|||||||0.0075
92324707|NCT03386994|184554629|OTHER|||||||0.0361||||||Timepoint: T6|Kruskal-Wallis|||||||0.0361
92324708|NCT03386994|184554629|OTHER|||||||0.4794||||||Timepoint: T12|Kruskal-Wallis|||||||0.4794
92324709|NCT03386994|184554630|OTHER|||||||0.0333|||||||Fisher Exact|||||||0.0333
92324710|NCT03386994|184554632|OTHER|||||||0.4711|||||||ANOVA|Total annual IPF-related costs||||||0.4711
92324711|NCT03386994|184554632|OTHER|||||||0.4095|||||||ANOVA|Annual direct health IPF-related costs||||||0.4095
92324712|NCT03386994|184554632|OTHER|||||||0.0435|||||||ANOVA|Annual direct non-health IPF-related costs||||||0.0435
92324713|NCT03386994|184554632|OTHER|||||||0.5479|||||||ANOVA|Annual indirect IPF-related costs||||||0.5479
92324714|NCT03386994|184554634|OTHER|||||||0.7486|||||||ANOVA|Total annual IPF-related costs||||||0.7486
92324715|NCT03386994|184554634|OTHER|||||||0.7652|||||||ANOVA|Annual direct health IPF-related costs||||||0.7652
92324716|NCT03386994|184554634|OTHER|||||||0.0037|||||||ANOVA|Annual direct non-health IPF-related costs||||||0.0037
92324717|NCT03386994|184554634|OTHER|||||||0.6119|||||||ANOVA|Annual indirect IPF-related costs||||||0.6119
92324718|NCT03386994|184554635|OTHER|||||||0.1581|||||||ANOVA|Total annual IPF-related costs||||||0.1581
92324719|NCT03386994|184554635|OTHER|||||||0.1581|||||||ANOVA|Annual direct health IPF-related costs||||||0.1581
92324720|NCT03386994|184554635|OTHER|||||||0.7165|||||||ANOVA|Annual direct non-health IPF-related costs||||||0.7165
92324721|NCT03386994|184554635|OTHER|||||||1|||||||ANOVA|Annual indirect IPF-related costs||||||1.0000
92324722|NCT03386994|184554636|OTHER|||||||0.0733|||||||Kruskal-Wallis|||||||0.0733
92324723|NCT03386994|184554638|OTHER|||||||0.0207|||||||Kruskal-Wallis|||||||0.0207
92324724|NCT03386994|184554639|OTHER|||||||0.0942|||||||Kruskal-Wallis|||||||0.0942
92324725|NCT03386994|184554640|OTHER|||||||0.0747|||||||Kruskal-Wallis|||||||0.0747
92324726|NCT03386994|184554642|OTHER|||||||0.1282|||||||Kruskal-Wallis|||||||0.1282
92324727|NCT03386994|184554643|OTHER|||||||0.7471|||||||Kruskal-Wallis|||||||0.7471
92324728|NCT03226769|184554648|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.9788||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Computer Usage||||0.9788
92324729|NCT03226769|184554648|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.6571||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Reading||||0.6571
92324730|NCT03226769|184554648|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.471||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Leisure Activities||||0.4710
92324731|NCT03226769|184554648|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.736||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Social Activities||||0.7360
92324732|NCT03226769|184554648|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.4999||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Driving||||0.4999
92324733|NCT03226769|184554648|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.1159||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Outdoor Activities||||0.1159
92324734|NCT03226769|184554648|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.4567||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Frequency of Outdoor Activities||||0.4567
92324735|NCT03226769|184554648|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.3439||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Time Spent to Take Care of Eyes||||0.3439
92324736|NCT03226769|184554648|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.3331||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Bothered With Amount of Time Taking Care of Eyes||||0.3331
92324737|NCT03226769|184554648|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.4774||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Bothered by Appearance||||0.4774
92324738|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.5457||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Red Eyes||||0.5457
92324739|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.9786||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Blurred Vision||||0.9786
92324740|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.3894||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Dry Eyes||||0.3894
92324741|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.0591||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Itchy Eyes||||0.0591
92324742|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.1818||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Burning Eyes||||0.1818
92324743|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.4284||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Gritty Eyes||||0.4284
92324744|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.1051||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Painful Eyes||||0.1051
92324745|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.7998||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Watery Eyes||||0.7998
92324746|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.1229||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Swollen Eyelids||||0.1229
92324747|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.3907||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Red Eyelids||||0.3907
92324748|NCT03226769|184554649|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.0336||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Crusty Eyelids||||0.0336
92324749|NCT01516008|184554650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|76.35|||<|0.001|TWO_SIDED|95.0|51.0|101.7||P-value adjusted for multiple treatment group comparisons using the Hochberg method.|ANCOVA|ANCOVA model with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID48 in tapentadol IR group minus SPID48 in placebo group.|||101.7|51.0|<0.001
92324750|NCT01516008|184554650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|90.6|||<|0.001|TWO_SIDED|95.0|65.1|116.1||P-value is adjusted for multiple treatment group comparisons using the Hochberg method.|ANCOVA|ANCOVA model with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID48 in tapentadol IR group minus SPID48 in placebo group.|||116.1|65.1|<0.001
92200151|NCT00474526|184298525|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|1.02|||||TWO_SIDED|95.0|0.78|1.34|||ANOVA|||PnC 18C (Post-vaccination GMC; group ratio US1A:US1B)||1.34|0.78|
92200152|NCT00474526|184298525|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|1.04||||||95.0|0.81|1.34|||ANOVA|||PnC 19F (Post-vaccination GMC; group ratio US1A:US1B)||1.34|0.81|
92324751|NCT01516008|184554651|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value adjusted for multiple treatment group comparisons using the Hochberg method.|Log Rank|Stratified by center||||||<0.001
92200153|NCT00474526|184298525|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|0.94|||||TWO_SIDED|95.0|0.69|1.29|||ANOVA|||PnC 23F (Post-vaccination GMC; group ratio US1A:US1B)||1.29|0.69|
92200154|NCT00474526|184298526|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|1.0|||||TWO_SIDED|95.0|-8.0|10.0|||ANOVA|||PnC 4 (percentage difference (US1A - US1B))||10|-8|
92200155|NCT00474526|184298526|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|4.0|||||TWO_SIDED|95.0|0.0|10.0|||ANOVA|||PnC 6B (percentage difference (US1A - US1B))||10|0|
92200156|NCT00474526|184298526|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|-4.0|||||TWO_SIDED|95.0|-13.0|5.0|||ANOVA|||PnC 9V (percentage difference (US1A - US1B))||5|-13|
92200157|NCT00474526|184298526|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|-1.0|||||TWO_SIDED|95.0|-6.0|3.0|||ANOVA|||PnC 14 (percentage difference (US1A - US1B))||3|-6|
92200158|NCT00474526|184298526|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|-6.0|||||TWO_SIDED|95.0|-15.0|3.0|||ANOVA|||PnC 18C (percentage difference (US1A:US1B))||3|-15|
92200159|NCT00474526|184298526|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|4.0|||||TWO_SIDED|95.0|-4.0|11.0|||ANOVA|||PnC 19F (percentage difference (US1A:US1B))||11|-4|
92324752|NCT01516008|184554651|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value adjusted for multiple treatment group comparisons using the Hochberg method.|Log Rank|Stratified by center||||||<0.001
92200160|NCT00474526|184298526|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|-2.0|||||TWO_SIDED|95.0|-10.0|5.0|||ANOVA|||PnC 239F (percentage difference (US1A:US1B))||5|-10|
92200161|NCT00474526|184298527|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.79|||||TWO_SIDED|95.0|0.61|1.02|||ANOVA|||PnC 4 (Post-vaccination GMC; group ratio LA1A:LA1B)||1.02|0.61|
92200162|NCT00474526|184298527|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.81|||||TWO_SIDED|95.0|0.54|1.2|||ANOVA|||PnC 6B (Post-vaccination GMC; group ratio LA1A:LA1B)||1.2|0.54|
92200163|NCT00474526|184298527|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.74|||||TWO_SIDED|95.0|0.58|0.94|||ANOVA|||PnC 9V (Post-vaccination GMC; group ratio LA1A:LA1B)||0.94|0.58|
92200164|NCT00474526|184298527|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.65|||||TWO_SIDED|95.0|0.51|0.82|||ANOVA|||PnC 14 (Post-vaccination GMC; group ratio LA1A:LA1B)||0.82|0.51|
92200165|NCT00474526|184298527|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.78|||||TWO_SIDED|95.0|0.6|1.01|||ANOVA|||PnC 18C (Post-vaccination GMC; group ratio LA1A:LA1B)||1.01|0.6|
92200166|NCT00474526|184298527|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.77|||||TWO_SIDED|95.0|0.56|1.04|||ANOVA|||PnC 19F (Post-vaccination GMC; group ratio LA1A:LA1B)||1.04|0.56|
92200167|NCT00474526|184298527|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.74|||||TWO_SIDED|95.0|0.54|1.01|||ANOVA|||PnC 23F (Post-vaccination GMC; group ratio LA1A:LA1B)||1.01|0.54|
92200168|NCT00474526|184298528|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-2.0|||||TWO_SIDED|95.0|-9.6|5.2|||ANOVA|||PnC 4 (percentage difference (LA1A - LA1B))||5.2|-9.6|
92200169|NCT00474526|184298528|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-2.0|||||TWO_SIDED|95.0|-11.9|7.3|||ANOVA|||PnC 6B (percentage difference (LA1A - LA1B))||7.3|-11.9|
92200170|NCT00474526|184298528|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-3.0|||||TWO_SIDED|95.0|-10.9|4.3|||ANOVA|||PnC 9V (percentage difference (LA1A - LA1B))||4.3|-10.9|
92200171|NCT00474526|184298528|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-1.0|||||TWO_SIDED|95.0|-5.6|2.7|||ANOVA|||PnC 14 (percentage difference (LA1A - LA1B))||2.7|-5.6|
92324753|NCT01516008|184554652|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||12 hours||||<0.001
92324754|NCT01516008|184554652|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||12 hours||||<0.001
92324755|NCT01516008|184554652|SUPERIORITY_OR_OTHER|||||||0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||24 hours||||0.001
92324756|NCT01516008|184554652|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||24 hours||||<0.001
92324757|NCT01516008|184554652|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||48 hours||||<0.001
92324758|NCT01516008|184554652|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||48 hours||||<0.001
92324759|NCT01516008|184554652|SUPERIORITY_OR_OTHER|||||||0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||72 hours||||0.001
92324760|NCT01516008|184554652|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||72 hours||||<0.001
92324761|NCT01516008|184554653|SUPERIORITY_OR_OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||12 hours||||0.001
92324762|NCT01516008|184554653|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||12 hours||||<0.001
92324763|NCT01516008|184554653|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||24 hours||||<0.001
92324764|NCT01516008|184554653|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||24 hours||||<0.001
92324765|NCT01516008|184554653|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||48 hours||||<0.001
92324766|NCT01516008|184554653|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||48 hours||||<0.001
92200172|NCT00474526|184298528|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-14.0|||||TWO_SIDED|95.0|-24.1|-5.6|||ANOVA|||PnC 18C (percentage difference (LA1A - LA1B))||-5.6|-24.1|
92200173|NCT00474526|184298528|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-3.0|||||TWO_SIDED|95.0|-11.6|5.2|||ANOVA|||PnC 19F (percentage difference (LA1A - LA1B))||5.2|-11.6|
92324767|NCT01516008|184554653|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||72 hours||||<0.001
92324768|NCT01516008|184554653|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||72 hours||||<0.001
92324769|NCT01516008|184554654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||12 hours||||<0.001
92324770|NCT01516008|184554654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||12 hours||||<0.001
92324771|NCT01516008|184554654|SUPERIORITY_OR_OTHER|||||||0.021|||||||Cochran-Mantel-Haenszel|Controlling for center||24 hours||||0.021
92324772|NCT01516008|184554654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||24 hours||||<0.001
92200174|NCT00474526|184298528|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|0.0|||||TWO_SIDED|95.0|-7.0|7.0|||ANOVA|||PnC 23F (percentage difference (LA1A - LA1B))||7|-7|
92324773|NCT01516008|184554654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||48 hours||||<0.001
92324774|NCT01516008|184554654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||48 hours||||<0.001
92324775|NCT01516008|184554654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||72 hours||||<0.001
92324776|NCT01516008|184554654|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||72 hours||||<0.001
92324777|NCT01516008|184554655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.52|||<|0.001|TWO_SIDED|95.0|11.1|22.0|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID12 in tapentadol IR group minus SPID12 in placebo group.|12 hours||22.0|11.1|<0.001
92324778|NCT01516008|184554655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.11|||<|0.001|TWO_SIDED|95.0|13.6|24.6|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID12 in tapentadol IR group minus SPID12 in placebo group.|12 hours||24.6|13.6|<0.001
92324779|NCT01516008|184554655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.71|||<|0.001|TWO_SIDED|95.0|23.2|46.2|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID24 in tapentadol IR group minus SPID24 in placebo group.|24 hours||46.2|23.2|<0.001
92324780|NCT01516008|184554655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|43.04|||<|0.001|TWO_SIDED|95.0|31.5|54.6|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID24 in tapentadol IR group minus SPID24 in placebo group.|24 hours||54.6|31.5|<0.001
92324781|NCT01516008|184554655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|122.32|||<|0.001|TWO_SIDED|95.0|81.8|162.9|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID72 in tapentadol IR group minus SPID72 in placebo group.|72 hours||162.9|81.8|<0.001
92324782|NCT01516008|184554655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|138.57|||<|0.001||95.0|97.8|179.4|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID72 in tapentadol IR group minus SPID72 in placebo group.|72 hours||179.4|97.8|<0.001
92324783|NCT01516008|184554656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.15|||<|0.001|TWO_SIDED|95.0|5.0|9.3|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR12 in tapentadol IR group minus TOTPAR12 in placebo group|12 hours||9.3|5.0|<0.001
92324784|NCT01516008|184554656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.13|||<|0.001|TWO_SIDED|95.0|4.9|9.3|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR12 in tapentadol IR group minus TOTPAR12 in placebo group|12 hours||9.3|4.9|<0.001
92324785|NCT01516008|184554656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.21|||<|0.001|TWO_SIDED|95.0|10.6|19.8|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR24 in tapentadol IR group minus TOTPAR24 in placebo group|24 hours||19.8|10.6|<0.001
92324786|NCT01516008|184554656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.54|||<|0.001|TWO_SIDED|95.0|10.9|20.2|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR24 in tapentadol IR group minus TOTPAR24 in placebo group|24 hours||20.2|10.9|<0.001
92324787|NCT01516008|184554656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.76|||<|0.001|TWO_SIDED|95.0|24.3|45.3|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR48 in tapentadol IR group minus TOTPAR48 in placebo group|48 hours||45.3|24.3|<0.001
92200175|NCT00474526|184298529|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A/GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|1.05|||||TWO_SIDED|95.0|0.86|1.27|||ANOVA|||Diphtheria (Post-vaccination GMC; group ratio LA3A:LA3B)||1.27|0.86|
92200176|NCT00474526|184298529|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A / GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|0.94|||||TWO_SIDED|95.0|0.75|1.18|||ANOVA|||Tetanus (Post-vaccination GMC; group ratio LA3A:LA3B)||1.18|0.75|
92324788|NCT01516008|184554656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|33.6|||<|0.001|TWO_SIDED|95.0|23.0|44.2|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR48 in tapentadol IR group minus TOTPAR48 in placebo group|48 hours||44.2|23.0|<0.001
92324789|NCT01516008|184554656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|56.59|||<|0.001|TWO_SIDED|95.0|39.4|73.8|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR72 in tapentadol IR group minus TOTPAR72 in placebo group|72 hours||73.8|39.4|<0.001
92324790|NCT01516008|184554656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|53.48|||<|0.001|TWO_SIDED|95.0|36.2|70.8|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR72 in tapentadol IR group minus TOTPAR72 in placebo group|72 hours||70.8|36.2|<0.001
92324791|NCT01516008|184554657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.66|||<|0.001|TWO_SIDED|95.0|16.4|30.9|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID12 in the tapentadol IR group minus SPRID12 in the placebo group|12 hours||30.9|16.4|<0.001
92324792|NCT01516008|184554657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.24|||<|0.001|TWO_SIDED|95.0|18.9|33.6|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID12 in the tapentadol IR group minus SPRID12 in the placebo group|12 hours||33.6|18.9|<0.001
92324793|NCT01516008|184554657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.93|||<|0.001|TWO_SIDED|95.0|34.4|65.4|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID24 in the tapentadol IR group minus SPRID24 in the placebo group|24 hours||65.4|34.4|<0.001
92324794|NCT01516008|184554657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|58.58|||<|0.001|TWO_SIDED|95.0|43.0|74.2|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID24 in the tapentadol IR group minus SPRID24 in the placebo group|24 hours||74.2|43.0|<0.001
92324795|NCT01516008|184554657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|111.12|||<|0.001||95.0|76.3|145.9|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID48 in the tapentadol IR group minus SPRID48 in the placebo group|48 hours||145.9|76.3|<0.001
92324796|NCT01516008|184554657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|124.21|||<|0.001|TWO_SIDED|95.0|89.2|159.2|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID48 in the tapentadol IR group minus SPRID48 in the placebo group|48 hours||159.2|89.2|<0.001
92324797|NCT01516008|184554657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|178.91|||<|0.001|TWO_SIDED|95.0|122.4|235.4|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID72 in the tapentadol IR group minus SPRID72 in the placebo group|72 hours||235.4|122.4|<0.001
92324798|NCT01516008|184554657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|192.05|||<|0.001|TWO_SIDED|95.0|135.2|248.9|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID72 in the tapentadol IR group minus SPRID72 in the placebo group|72 hours||248.9|135.2|<0.001
92324799|NCT01516008|184554658|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||||||<0.001
92324800|NCT01516008|184554658|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||||||<0.001
92324801|NCT01217476|184554662|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.4039|TWO_SIDED|95.0|0.66|2.8|||Regression, Logistic|||||2.80|0.66|0.4039
92324802|NCT01217476|184554663|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.52|1.56|||Regression, Logistic|||||1.56|0.52|
92324803|NCT04064411|184554676|NON_INFERIORITY|"Noninferiority margin = 2.0% for abaloparatide-sMTS compared with abaloparatide-SC.~Non-inferiority was to be concluded if the lower bound of the 2-sided 95% confidence interval (CI) for the estimated treatment difference (abaloparatide-sMTS minus abaloparatide-SC) in the percent change from baseline in lumbar spine BMD at 12 months was above -2.0% using a Mixed Model for Repeated Measures (MMRM) analysis."|Least Squares Means (LSM) Difference|-3.721|||||TWO_SIDED|95.0|-5.0089|-2.4331|||||LSM Difference = abaloparatide-sMTS minus abaloparatide-SC|||-2.4331|-5.0089|
92324804|NCT01672710|184554691|SUPERIORITY||Mean Difference (Net)|6.9|||<|0.05|TWO_SIDED|95.0|-0.3|14.2|||ANCOVA|||||14.2|-0.3|<0.05
92324805|NCT02017717|184554720|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.3791|TWO_SIDED|95.0|0.89|1.36|||log-rank test stratified|||||1.36|0.89|0.3791
92324806|NCT02017717|184554721|SUPERIORITY||Difference of OS rates at 12 months|-0.5||||0.9208|TWO_SIDED|95.0|-10.8|9.7|||Z test with variance estimation based on|Greenwood formula using log(-log) transformation||||9.7|-10.8|0.9208
92324807|NCT02017717|184554723|SUPERIORITY||Hazard Ratio (HR)|1.88|||||TWO_SIDED|95.0|1.5|2.35||||||||2.35|1.50|
92324808|NCT02017717|184554724|SUPERIORITY||Odds Ratio (OR)|0.29|||||TWO_SIDED|95.0|0.15|0.59||||||||0.59|0.15|
92324809|NCT02017717|184554725|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.3791|TWO_SIDED|95.0|0.89|1.36|||log-rank test stratified|||||1.36|0.89|0.3791
92324810|NCT00970632|184554749|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.1||||0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 endpoint between tadalafil and placebo treatment groups was for the primary comparison and assessed for significance at a level of 0.05.|ANCOVA|||||||0.001
92324811|NCT00970632|184554749|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.023||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tamsulosin and placebo treatment groups was secondary in nature and assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.023
92324812|NCT00970632|184554750|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.2|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 4 between tadalafil and placebo treatment groups was assessed for significance at a level of 0.05.|ANCOVA|||||||<0.001
92324813|NCT00970632|184554750|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.3|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 4 between tamsulosin and placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||<0.001
92324814|NCT00970632|184554751|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.055||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.055
92324815|NCT00970632|184554751|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.055||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.055
92324816|NCT00970632|184554752|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||<0.001
92324817|NCT00970632|184554752|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.026||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.026
92324818|NCT00970632|184554753|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.08||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.080
92324819|NCT00970632|184554753|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.118||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.118
92324820|NCT00970632|184554754|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.022||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.022
92324821|NCT00970632|184554754|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.546||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 endpoint between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.546
92324822|NCT00970632|184554755|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.003||||||The p-value associated with LS Mean difference of changes from baseline to Week 1 between tadalafil and placebo treatment groups was assessed for significance at a level of 0.05.|ANCOVA|||||||0.003
92324823|NCT00970632|184554755|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.005||||||The p-value associated with LS Mean difference of changes from baseline to Week 1 between tamsulosin and placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.005
92324824|NCT00970632|184554756|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 4 between tadalafil and placebo treatment groups was assessed for significance at a level of 0.05.|ANCOVA|||||||<0.001
92324825|NCT00970632|184554756|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 4 between tamsulosin and placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||<0.001
92324826|NCT00970632|184554757|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.003||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil and placebo treatment groups was assessed for significance at a level of 0.05.|ANCOVA|||||||0.003
92324827|NCT00970632|184554757|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.026||95.0||||The p-value associated with LS Mean difference of changes from baseline to Week 12 endpoint between tamsulosin and placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.026
92324828|NCT00970632|184554758|SUPERIORITY_OR_OTHER|||||||0.001||||||The p-value associated with difference between tadalafil versus placebo treatment groups within the 7 response categories was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|Cochran-Mantel-Haenszel|Analysis used data only from these treatment arms and stratification of baseline LUTS severity (moderate \[total IPSS \<20\]; severe \[total IPSS ≥20\]).||||||0.001
92324829|NCT00970632|184554758|SUPERIORITY_OR_OTHER|||||||0.114||95.0||||The p-value associated with difference between tamsulosin versus placebo treatment groups within the 7 response categories was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|Cochran-Mantel-Haenszel|Analysis used data only from these treatment arms and stratification of baseline LUTS severity (moderate \[total IPSS \<20\]; severe \[total IPSS ≥20\]).||||||0.114
92324830|NCT00970632|184554759|SUPERIORITY_OR_OTHER|||||||0.004||||||The p-value associated with difference between tadalafil versus placebo treatment groups within the 7 response categories was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|Cochran-Mantel-Haenszel|Analysis used data only from these treatment arms and a stratification of baseline LUTS severity (moderate \[total IPSS \<20\]; severe \[total IPSS ≥20\]).||||||0.004
92324831|NCT00970632|184554759|SUPERIORITY_OR_OTHER|||||||0.452||||||The p-value associated with difference between tamsulosin versus placebo treatment groups within the 7 response categories was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|Cochran-Mantel-Haenszel|Analysis used data only from these treatment arms and stratification of baseline LUTS severity (moderate \[total IPSS \<20\]; severe \[total IPSS ≥20\]).||||||0.452
92324832|NCT00970632|184554760|SUPERIORITY_OR_OTHER||Median of Treatment Group Differences|-4.4||||0.005||||||The p-value associated with the testing for differences in medians between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|Van Elteren Tests|P-values testing for differences of medians between placebo and active treatment were based on the Van Elteren test, stratifying by region.||||||0.005
92200177|NCT00474526|184298529|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A / GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|1.11|||||TWO_SIDED|95.0|0.88|1.4|||ANOVA|||PT (Post-vaccination GMC; group ratio LA3A:LA3B)||1.4|0.88|
92324833|NCT00970632|184554760|SUPERIORITY_OR_OTHER||Median of Treatment Group Differences|-2.2||||0.457||||||The p-value associated with the testing for differences in medians between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 without adjustments for multiplicity.|Van Elteren Tests|P-values testing for differences of medians between placebo and active treatment were based on the Van Elteren test, stratifying by region.||||||0.457
92324834|NCT00970632|184554761|SUPERIORITY_OR_OTHER||Difference in LS Means|4.0|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANCOVA|||||||<0.001
92324835|NCT00970632|184554761|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.699||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANCOVA|||||||0.699
92324836|NCT00970632|184554762|SUPERIORITY_OR_OTHER|||||||0.009||||||The p-value associated with median difference of changes from baseline to Week 12 endpoint between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANOVA|Analysis of variance (ANOVA) using rank transformed data.||||||0.009
92324837|NCT00970632|184554762|SUPERIORITY_OR_OTHER|||||||0.014||||||The p-value associated with median difference of changes from baseline to Week 12 endpoint between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANOVA|ANOVA using rank transformed data.||||||0.014
92324838|NCT00970632|184554765|SUPERIORITY_OR_OTHER|||||||0.303||||||The p-value associated with median difference of changes from baseline to Week 12 endpoint between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANOVA|Analysis of variance (ANOVA) using rank transformed data.||||||0.303
92324839|NCT00970632|184554765|SUPERIORITY_OR_OTHER|||||||0.146||||||The p-value associated with median difference of changes from baseline to Week 12 endpoint between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANOVA|ANOVA using rank transformed data.||||||0.146
92324840|NCT03192995|184554766|SUPERIORITY|||||||0.91|||||||Fisher Exact|||||||0.91
92324841|NCT03192995|184554767|SUPERIORITY|||||||0.53|||||||Fisher Exact|||||||0.53
92324842|NCT03192995|184554768|SUPERIORITY|||||||0.32|||||||Fisher Exact|||||||.32
92324843|NCT03192995|184554769|SUPERIORITY|||||||0.541|||||||Fisher Exact|||||||.541
92324844|NCT03192995|184554770|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.24|3.82||||||||3.82|0.24|
92324845|NCT01286168|184554773|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||McNemar|||Antisepsis and Control sides were compared.||||0.02
92324846|NCT01286168|184554774|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||McNemar|||Antisepsis and Control sides were compared.||||0.03
92324847|NCT01286168|184554775|SUPERIORITY_OR_OTHER|||||||0.003|||||||McNemar|||Antisepsis and Control sides were compared.||||0.003
92324848|NCT01286168|184554776|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||McNemar|||Antisepsis and Control sides were compared.||||0.13
92324849|NCT01286168|184554777|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||McNemar|||Antisepsis and Control sides were compared.||||0.45
92324850|NCT01286168|184554778|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||Antisepsis and Control sides were compared. Unadjusted p-value from generalized linear mixed effect model accounting for correlation among multiple drains from the same patient.||||0.02
92324851|NCT01286168|184554778|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||Antisepsis and Control sides were compared. P-value from generalized linear mixed effect model accounting for correlation among multiple drains from the same patient. P-value was adjusted for side- and drain-specific variables: indication (cancer or prophylaxis), operation (mastectomy only, mastectomy+SLNB, mastectomy +ALND), and drain duration.||||0.02
92324852|NCT01286168|184554779|SUPERIORITY_OR_OTHER|||||||0.004|||||||Likelihood-ratio test|||Antisepsis and Control sides were compared. Due to zero events in the antisepsis side for this endpoint, p-value was derived from likelihood-ratio test comparing the intercept only model to the model with intercept and treatment side included.||||0.004
92324853|NCT01286168|184554780|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|||Antisepsis and Control sides were compared. Unadjusted p-value from generalized linear mixed effect model accounting for correlation among multiple drains from the same patient.||||0.003
92324854|NCT01286168|184554780|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|||Antisepsis and Control sides were compared. P-value from generalized linear mixed effect model accounting for correlation among multiple drains from the same patient. P-value was adjusted for side- and drain-specific variables: indication (cancer or prophylaxis), operation (mastectomy only, mastectomy+SLNB, mastectomy +ALND), and drain duration.||||0.003
92324855|NCT01871402|184554854|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||"Treatment groups were compared with respect to the proportions of subjects with treatment success at Day 15 using the Cochran-Mantel-Haenszel (CMH) test stratified by analysis center."|Cochran-Mantel-Haenszel|Multiple imputation was used to impute missing data from the ITT population.||||||<0.001
92324856|NCT01871402|184554855|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance (\<0.001) was achieved for each of the clinical signs of psoriasis (scaling, erythema, and plaque elevation).|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema, and plaque elevation).||||<0.001
92324857|NCT01871402|184554856|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92324858|NCT01871402|184554857|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance (\<0.001) was achieved for each of the clinical signs of psoriasis (scaling, erythema, and plaque elevations).|Cochran-Mantel-Haenszel|||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema, and plaque elevation).||||<0.001
92200178|NCT00474526|184298529|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A / GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|1.14|||||TWO_SIDED|95.0|0.9|1.44|||ANOVA|||FHA (Post-vaccination GMC; group ratio LA3A:LA3B)||1.44|0.9|
92200179|NCT00474526|184298529|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A / GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|1.21|||||TWO_SIDED|95.0|0.92|1.59|||ANOVA|||Pertactin (Post-vaccination GMC; group ratio LA3A:LA3B||1.59|0.92|
92324859|NCT04594941|184554860|OTHER||Least Sqaure (LS) Mean Difference|-0.149|STANDARD_ERROR_OF_MEAN|0.754||0.8452|TWO_SIDED|90.0|-1.431|1.133|||Mixed-effects model for repeated measure|||"Median of Readers: SPE VS HPLC~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||1.133|-1.431|0.8452
92324860|NCT04594941|184554860|OTHER||LS Mean Difference|-0.015|STANDARD_ERROR_OF_MEAN|1.109||0.989|TWO_SIDED|90.0|-1.899|1.868|||Mixed-effects model for repeated measure|||"SPE VS HPLC: Reader 1~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||1.868|-1.899|0.9890
92324861|NCT04594941|184554860|OTHER||LS Mean Difference|-0.753|STANDARD_ERROR_OF_MEAN|0.854||0.3852|TWO_SIDED|90.0|-2.204|0.698|||Mixed-effects model for repeated measure|||"Reader 2: SPE VS HPLC~Reader 2: Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||0.698|-2.204|0.3852
92324862|NCT04594941|184554860|OTHER||LS Mean Difference|-0.091|STANDARD_ERROR_OF_MEAN|0.968||0.926|TWO_SIDED|90.0|-1.735|1.554|||Mixed-effects model for repeated measure|||"Reader 3: SPE VS HPLC~Analysis was based on MMRM model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||1.554|-1.735|0.9260
92324863|NCT04594941|184554861|OTHER||LS Mean Difference|-0.219|STANDARD_ERROR_OF_MEAN|1.109||0.8452|TWO_SIDED|90.0|-2.104|1.667|||Mixed-effects model for repeated measure|||"Median of Readers: SPE VS HPLC~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||1.667|-2.104|0.8452
92324864|NCT04594941|184554861|OTHER||Least Square Mean (LSM) Difference|-0.023|STANDARD_ERROR_OF_MEAN|1.63||0.989|TWO_SIDED|90.0|-2.793|2.747|||Mixed-effects model for repeated measure|||"Reader 1: SPE VS HPLC~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||2.747|-2.793|0.9890
92324865|NCT04594941|184554861|OTHER||LS Mean Difference|-1.107|STANDARD_ERROR_OF_MEAN|1.256||0.3852|TWO_SIDED|90.0|-3.241|1.027|||Mixed-effects model for repeated measure|||"Reader 2: SPE VS HPLC~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||1.027|-3.241|0.3852
92324866|NCT04594941|184554861|OTHER||LS Mean Difference|-0.133|STANDARD_ERROR_OF_MEAN|1.424||0.926|TWO_SIDED|90.0|-2.552|2.285|||Mixed-effects model for repeated measure|||"Reader 3: SPE VS HPLC~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||2.285|-2.552|0.9260
92324867|NCT04594941|184554862|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 1||||<0.0001
92324868|NCT04594941|184554862|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 2||||<0.0001
92324869|NCT04594941|184554862|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 3||||<0.0001
92324870|NCT04594941|184554862|OTHER|||||||0.0072|||||||Wilcoxon Signed Rank Test|||Reader 1||||0.0072
92324871|NCT04594941|184554862|OTHER|||||||0.0051|||||||Wilcoxon Signed Rank Test|||Reader 2||||0.0051
92324872|NCT04594941|184554862|OTHER|||||||0.0023|||||||Wilcoxon Signed Rank Test|||Reader 3||||0.0023
92324873|NCT04594941|184554862|OTHER|||||||0.0002|||||||Wilcoxon Signed Rank Test|||Reader 1||||0.0002
92324874|NCT04594941|184554862|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 2||||<0.0001
92200180|NCT00474526|184298529|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A / GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|0.86|||||TWO_SIDED|95.0|0.63|1.16|||ANOVA|||Hib (Post-vaccination GMC; group ratio LA3A:LA3B)||1.16|0.63|
92200181|NCT00474526|184298530|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|0.0||||||95.0|-4.2|5.4|||ANOVA|||Diphtheria (percentage difference (LA3A - LA3B))||5.4|-4.2|
92324875|NCT04594941|184554862|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 3||||<0.0001
92324876|NCT04594941|184554863|OTHER|||||||0.0089|||||||Wilcoxon Signed Rank Test|||Reader 1||||0.0089
92324877|NCT04594941|184554863|OTHER|||||||0.0207|||||||Wilcoxon Signed Rank Test|||Reader 2||||0.0207
92324878|NCT04594941|184554863|OTHER|||||||0.0089|||||||Wilcoxon Signed Rank Test|||Reader 3||||0.0089
92324879|NCT04594941|184554863|OTHER|||||||0.732|||||||Wilcoxon Signed Rank Test|||Reader 1||||0.732
92324880|NCT04594941|184554863|OTHER|||||||0.0083|||||||Wilcoxon Signed Rank Test|||Reader 2||||0.0083
92324881|NCT04594941|184554863|OTHER|||||||0.0412|||||||Wilcoxon (Mann-Whitney)|||Reader 3||||0.0412
92324882|NCT04594941|184554863|OTHER|||||||0.0001|||||||Wilcoxon Signed Rank Test|||Reader 1||||0.0001
92324883|NCT04594941|184554863|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 2||||<0.0001
92200182|NCT00474526|184298530|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|0.0|||||TWO_SIDED|95.0|-4.2|5.4|||ANOVA|||Tetanus (percentage difference (LA3A - LA3B))||5.4|-4.2|
92200183|NCT00474526|184298530|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|6.0||||||95.0|-3.6|15.2|||ANOVA|||PT (percentage difference (LA3A - LA3B))||15.2|-3.6|
92200184|NCT00474526|184298530|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|-1.0|||||TWO_SIDED|95.0|-10.2|8.2|||ANOVA|||FHA (percentage difference (LA3A - LA3B))||8.2|-10.2|
92200185|NCT00474526|184298530|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|2.0|||||TWO_SIDED|95.0|-7.2|10.6|||ANOVA|||Pertactin (percentage difference (LA3A - LA3B))||10.6|-7.2|
92200186|NCT00474526|184298530|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|0.0|||||TWO_SIDED|95.0|-3.1|3.6|||ANOVA|||Hib (≥ 0.15 μg/mL) (percentage difference (LA3A - LA3B))||3.6|-3.1|
92200187|NCT00474526|184298530|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|1.0|||||TWO_SIDED|95.0|-2.2|5.3|||ANOVA|||Hib (≥1.0 μg/mL) (percentage difference (LA3A - LA3B))||5.3|-2.2|
92200188|NCT00132678|184298533|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||<|0.001||95.0|0.27|0.59|||Log Rank|Adjusting for country|RISPERDAL CONSTA hazard in numerator, placebo hazard in denominator.|||0.59|0.27|<0.001
92200189|NCT00132678|184298534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|1.09|<|0.001||95.0|-8.08|-3.79|||ANCOVA|ANCOVA model with factors for treatment and country and double-blind baseline value as covariate.|Change in RISPERDAL CONSTA arm minus change in placebo arm.|||-3.79|-8.08|<0.001
92200190|NCT00132678|184298535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.87||0.02||95.0|-3.75|-0.32|||ANCOVA|ANCOVA model with factors for treatment and country and double-blind baseline value as covariate.|Change in RISPERDAL CONSTA arm minus change in placebo arm.|||-0.32|-3.75|0.020
92200191|NCT00953147|184298536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|||<|0.0001|TWO_SIDED|95.0|0.35|1.04||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in iTNSS with a two-sided alpha level of 0.025.||1.04|0.35|<0.0001
92200192|NCT00953147|184298536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.54||||0.0005|TWO_SIDED|95.0|0.24|0.84||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in iTNSS with a two-sided alpha level of 0.025.||0.84|0.24|0.0005
92200193|NCT00953147|184298537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.0014|TWO_SIDED|95.0|0.25|0.92|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.92|0.25|0.0014
92200194|NCT00953147|184298537|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.42||||0.0122|TWO_SIDED|95.0|0.12|0.72|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.72|0.12|0.0122
92200195|NCT03838731|184298552|SUPERIORITY||Hazard Ratio (HR)|0.36|||=|0.0083|TWO_SIDED|95.0|0.17|0.77|||Cox Proportional Hazard|||||0.77|0.17|= 0.0083
92200196|NCT03838731|184298553|SUPERIORITY||Hazard Ratio (HR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.12|0.48|||Cox Hazard Model|||Day 29||0.48|0.12|< 0.0001
92200197|NCT03838731|184298553|SUPERIORITY||Hazard Ratio (HR)|0.45|||=|0.0222||95.0|0.22|0.89|||Cox Hazard Model|||Day 57||0.89|0.22|= 0.0222
92200198|NCT03838731|184298553|SUPERIORITY||Hazard Ratio (HR)|0.27|||=|0.0003||95.0|0.13|0.56|||Cox Hazard Model|||Day 85||0.56|0.13|= 0.0003
92200199|NCT03838731|184298554|SUPERIORITY|Day 8|LS Mean Difference|13.56|STANDARD_ERROR_OF_MEAN|3.59|<|0.001|TWO_SIDED|95.0|6.35|20.77|||MMRM|||||20.77|6.35|<0.001
92200200|NCT03838731|184298554|SUPERIORITY|Day 29|LS Mean Difference|16.21|STANDARD_ERROR_OF_MEAN|4.97|=|0.002|TWO_SIDED|95.0|6.18|26.24|||MMRM|||||26.24|6.18|= 0.002
92200201|NCT03838731|184298554|SUPERIORITY|Day 57|LS Mean Difference|12.3|STANDARD_ERROR_OF_MEAN|4.94|=|0.016|TWO_SIDED|95.0|2.4|22.2|||MMRM|||||22.20|2.40|= 0.016
92200202|NCT03838731|184298554|SUPERIORITY|Day 85|LS Mean Difference|12.54|STANDARD_ERROR_OF_MEAN|4.54|=|0.008|TWO_SIDED|95.0|3.43|21.65|||MMRM|||||21.65|3.43|= 0.008
92200203|NCT03838731|184298555|SUPERIORITY||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.21|0.53|||MMRM|||Day 8||0.53|0.21|< 0.001
92200204|NCT03838731|184298555|SUPERIORITY||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|0.23|0.68|||MMRM|||Day 29||0.68|0.23|<0.001
92200205|NCT03838731|184298555|SUPERIORITY||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.11|=|0.002|TWO_SIDED|95.0|0.13|0.55|||MMRM|||Day 57||0.55|0.13|= 0.002
92200206|NCT03838731|184298555|SUPERIORITY||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.11|=|0.002|TWO_SIDED|95.0|0.15|0.47|||MMRM|||Day 85||0.47|0.15|= 0.002
92324884|NCT04594941|184554863|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 3||||<0.0001
92200207|NCT03838731|184298556|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.53|=|0.675|TWO_SIDED|95.0|-0.85|1.29|||MMRM|||Day 8||1.29|-0.85|= 0.675
92200208|NCT03838731|184298556|SUPERIORITY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.51|=|0.182|TWO_SIDED|95.0|-1.7|0.33|||MMRM|||Day 29||0.33|-1.70|= 0.182
92200209|NCT03838731|184298556|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.61|=|0.866|TWO_SIDED|95.0|-1.12|1.32|||MMRM|||Day 57||1.32|-1.12|= 0.866
92200210|NCT03838731|184298556|SUPERIORITY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.6|=|0.146|TWO_SIDED|95.0|-2.08|0.32|||MMRM|||Day 85||0.32|-2.08|= 0.146
92200211|NCT03838731|184298557|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.24|=|0.572|TWO_SIDED|95.0|-0.35|0.63|||MMRM|||Day 8||0.63|-0.35|= 0.572
92200212|NCT03838731|184298557|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2|=|0.997|TWO_SIDED|95.0|-0.41|0.41|||MMRM|||Day 29||0.41|-0.41|= 0.997
92200213|NCT03838731|184298557|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.21|=|0.756|TWO_SIDED|95.0|-0.36|0.49|||MMRM|||Day 57||0.49|-0.36|= 0.756
92200214|NCT03838731|184298557|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.15|=|0.333|TWO_SIDED|95.0|-0.46|0.16|||MMRM|||Day 85||0.16|-0.46|= 0.333
92200215|NCT03838731|184298558|SUPERIORITY||LS Mean Difference|39.5|STANDARD_ERROR_OF_MEAN|12.5|=|0.003|TWO_SIDED|95.0|14.36|64.65|||MMRM|||Day 8||64.65|14.36|= 0.003
92200216|NCT03838731|184298558|SUPERIORITY||LS Mean Difference|54.07|STANDARD_ERROR_OF_MEAN|11.97|<|0.001|TWO_SIDED|95.0|30.01|78.12|||MMRM|||Day 29||78.12|30.01|< 0.001
92200217|NCT03838731|184298558|SUPERIORITY||LS Mean Difference|33.44|STANDARD_ERROR_OF_MEAN|14.28|=|0.023|TWO_SIDED|95.0|4.79|62.08|||MMRM|||Day 57||62.08|4.79|= 0.023
92324885|NCT04594941|184554865|OTHER||Kappa Statistics|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 1||1.0000|1.0000|
92200218|NCT03838731|184298558|SUPERIORITY||LS Mean Difference|41.1|STANDARD_ERROR_OF_MEAN|12.92|=|0.003|TWO_SIDED|95.0|15.1|67.09|||MMRM|||Day 85||67.09|15.10|= 0.003
92200219|NCT03838731|184298559|SUPERIORITY||LS Mean Difference|205.43|STANDARD_ERROR_OF_MEAN|102.09|=|0.049|TWO_SIDED|95.0|0.69|410.17|||MMRM|||Day 8||410.17|0.69|= 0.049
92200220|NCT03838731|184298559|SUPERIORITY||LS Mean Difference|244.6|STANDARD_ERROR_OF_MEAN|99.05|=|0.017|TWO_SIDED|95.0|45.6|443.59|||MMRM|||Day 29||443.59|45.60|= 0.017
92200221|NCT03838731|184298559|SUPERIORITY||LS Mean Difference|183.03|STANDARD_ERROR_OF_MEAN|96.91|=|0.064|TWO_SIDED|95.0|-11.29|377.35|||MMRM|||Day 57||377.35|-11.29|= 0.064
92324886|NCT04594941|184554865|OTHER||Kappa Statistics|0.6957|||||TWO_SIDED|95.0|0.1696|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 2||1.0000|0.1696|
92200222|NCT03838731|184298559|SUPERIORITY||LS Mean Difference|241.01|STANDARD_ERROR_OF_MEAN|114.0|=|0.039|TWO_SIDED|95.0|12.44|469.57|||MMRM|||Day 85||469.57|12.44|= 0.039
92200223|NCT02412735|184298562|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.2072.|||
92200224|NCT02412735|184298562|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.6427.|||
92200225|NCT02412735|184298563|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.2754.|||
92200226|NCT02412735|184298563|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.9087.|||
92200227|NCT02412735|184298564|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.2835.|||
92200228|NCT02412735|184298564|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.4739.|||
92200229|NCT02412735|184298565|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.2650.|||
92200230|NCT02412735|184298565|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.7004.|||
92200231|NCT02412735|184298566|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.1945.|||
92200232|NCT02412735|184298566|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.8093.|||
92200233|NCT02412735|184298567|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.7842|TWO_SIDED|95.0|0.5|2.46|||Regression, Cox|P-value was calculated from a Cox regression model with treatment, pooled site, and opioid/non opioid use at Baseline as covariates.|Hazard ratio and 95% confidence interval (CI) were calculated from a Cox regression model with treatment, pooled site, and opioid/non opioid use at Baseline as covariates.|||2.46|0.50|0.7842
92200234|NCT02412735|184298567|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.8754|TWO_SIDED|95.0|0.41|2.14|||Regression, Cox|P-value was calculated from a Cox regression model with treatment, pooled site, and opioid/non opioid use at Baseline as covariates.|Hazard ratio and 95% CI were calculated from a Cox regression model with treatment, pooled site, and opioid/non opioid use at Baseline as covariates.|||2.14|0.41|0.8754
92200235|NCT02412735|184298568|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.2309.|||
92200236|NCT02412735|184298568|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.1241.|||
92200237|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|3.08||0.9072|TWO_SIDED|95.0|-5.71|6.43|||Mixed Model for Repeated Measures (MMRM)|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 1||6.43|-5.71|0.9072
92324887|NCT04594941|184554865|OTHER||Kappa Statistics|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 3||1.0000|1.0000|
92324888|NCT04594941|184554865|OTHER||Kappa Statistics|0.4615|||||TWO_SIDED|95.0|-0.0699|0.993|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 1||0.9930|-0.0699|
92324889|NCT04594941|184554865|OTHER||Kappa Statistics|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 2||1.0000|1.0000|
92324890|NCT04594941|184554865|OTHER||Kappa Statistics|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 3||1.0000|1.0000|
92324891|NCT04594941|184554865|OTHER||Kappa Statistics|0.8811|||||TWO_SIDED|95.0|0.6567|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 1||1.0000|0.6567|
92200238|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|3.14||0.2883|TWO_SIDED|95.0|-9.51|2.83|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 1||2.83|-9.51|0.2883
92200239|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|3.23||0.6314|TWO_SIDED|95.0|-7.9|4.8|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 3||4.80|-7.90|0.6314
92200240|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|3.29||0.1366|TWO_SIDED|95.0|-11.37|1.56|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 3||1.56|-11.37|0.1366
92200241|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|3.34||0.2497|TWO_SIDED|95.0|-10.43|2.72|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 6||2.72|-10.43|0.2497
92200242|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|3.42||0.0666|TWO_SIDED|95.0|-13.0|0.43|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 6||0.43|-13.00|0.0666
92200243|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|3.4||0.2147|TWO_SIDED|95.0|-10.91|2.46|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 12||2.46|-10.91|0.2147
92200244|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|3.47||0.0162|TWO_SIDED|95.0|-15.19|-1.55|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 12||-1.55|-15.19|0.0162
92200245|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|3.67||0.223|TWO_SIDED|95.0|-11.69|2.74|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 18||2.74|-11.69|0.2230
92200246|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|3.74||0.1152|TWO_SIDED|95.0|-13.27|1.45|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 18||1.45|-13.27|0.1152
92200247|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|3.66||0.4884|TWO_SIDED|95.0|-9.75|4.67|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 24||4.67|-9.75|0.4884
92200248|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|3.74||0.0426|TWO_SIDED|95.0|-14.98|-0.25|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 24||-0.25|-14.98|0.0426
92200249|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|3.77||0.3056|TWO_SIDED|95.0|-11.27|3.54|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 36||3.54|-11.27|0.3056
92200250|NCT02412735|184298569|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|3.85||0.1184|TWO_SIDED|95.0|-13.59|1.54|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 36||1.54|-13.59|0.1184
92200251|NCT01006980|184298570|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.26|0.55|||Log Rank||The hazard ratio for death for vemurafenib relative to dacarbazine and the associated 95% confidence interval were computed using an unstratified Cox regression model.|The trial had a power of 80% to detect a hazard ratio of 0.65 for overall survival with an alpha level of 0.045 (an increase in median survival from 8 months for dacarbazine to 12.3 months for vemurafenib), one interim analysis for overall survival at 50% information.||0.55|0.26|<0.0001
92200252|NCT01006980|184298571|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26|||<|0.0001|TWO_SIDED|95.0|0.2|0.33|||Log Rank||Hazard ratios for treatment with vemurafenib, as compared with dacarbazine, were estimated with the use of unstratified Cox regression.|The trial had a power of 90% to detect a hazard ratio of 0.55 for progression-free survival with an alpha level of 0.005 (an increase in median survival from 2.5 months for dacarbazine to 4.5 months for vemurafenib).||0.33|0.20|<.0001
92200253|NCT04307940|184298587|SUPERIORITY||LS Mean Difference|14.81||||0.001|TWO_SIDED|95.0|6.1|23.51||All p-values were presented using two-sided test with alpha 0.05 and were considered statistically significant.|ANCOVA|||||23.51|6.10|0.001
92324892|NCT04594941|184554865|OTHER||Kappa Statistics|0.8828|||||TWO_SIDED|95.0|0.6614|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 2||1.0000|0.6614|
92200254|NCT04307940|184298587|SUPERIORITY||LS Mean Difference|39.63|||<|0.001|TWO_SIDED|95.0|29.08|50.18||All p-values were presented using two-sided test with alpha 0.05 and were considered statistically significant.|ANCOVA|||||50.18|29.08|<0.001
92324893|NCT04594941|184554865|OTHER||Kappa Statistics|0.8811|||||TWO_SIDED|95.0|0.6567|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 3||1.0000|0.6567|
92324894|NCT05139303|184554978|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
92200255|NCT04307940|184298587|SUPERIORITY||LS Mean Difference|24.82|||<|0.001|TWO_SIDED|95.0|14.26|35.39||All p-values were presented using two-sided test with alpha 0.05 and were considered statistically significant.|ANCOVA|||||35.39|14.26|<0.001
92200256|NCT04896008|184298651|SUPERIORITY||Hazard Ratio (HR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.13|0.43||One-sided p-value based on log-rank test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Log Rank||HR and associated 95% confidence interval were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||0.43|0.13|<0.0001
92200257|NCT04896008|184298652|SUPERIORITY||Hazard Ratio (HR)|0.42||||0.0313|TWO_SIDED|95.0|0.17|1.07||One-sided p-value based on log-rank test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||1.07|0.17|0.0313
92200258|NCT04896008|184298653|SUPERIORITY||Hazard Ratio (HR)|0.34||||0.0039|TWO_SIDED|95.0|0.15|0.78||One-sided p-value based on log-rank test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||0.78|0.15|0.0039
92200259|NCT04896008|184298654|SUPERIORITY||Treatment Difference|-7.29||||0.135|TWO_SIDED|95.0|-17.65|2.41||Two-sided p-value is calculated based on Cochran-Mantel-Haenszel method stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Cochran-Mantel-Haenszel||Based on Miettinen and Nurminen method stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype)|||2.41|-17.65|0.135
92200260|NCT04896008|184298655|SUPERIORITY||Treatment Difference|-3.1|||<|0.001|TWO_SIDED|95.0|-4.25|-1.88||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by a randomization stratification factor (PAH subtype).|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by a randomization stratification factor (PAH subtype).|||-1.88|-4.25|<0.001
92200261|NCT04896008|184298656|SUPERIORITY||Treatment Difference|33.05|||<|0.001|TWO_SIDED|95.0|18.41|46.98||Two-sided p-value is calculated based on Cochran-Mantel-Haenszel method stratified by a randomization stratification factor (PAH subtype).|Cochran-Mantel-Haenszel||Based on Miettinen and Nurminen method stratified by a randomization stratification factors (PAH subtype).|||46.98|18.41|<0.001
92200262|NCT04896008|184298657|SUPERIORITY||Treatment Difference|-2339.1|||<|0.001|TWO_SIDED|95.0|-3378.74|-1299.44||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||-1299.44|-3378.74|<0.001
92200263|NCT04896008|184298658|SUPERIORITY||Treatment Difference|-21.2|||<|0.001|TWO_SIDED|95.0|-27.78|-14.59||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||-14.59|-27.78|<0.001
92200264|NCT04896008|184298659|SUPERIORITY||Treatment Difference|-339.6|||<|0.001|TWO_SIDED|95.0|-511.09|-168.06||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||-168.06|-511.09|<0.001
92200265|NCT04896008|184298660|SUPERIORITY||Treatment Difference|27.41|||<|0.001|TWO_SIDED|95.0|12.85|40.98||Two-sided p-value is calculated based on Cochran-Mantel-Haenszel method stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Cochran-Mantel-Haenszel||Based on Miettinen and Nurminen method stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||40.98|12.85|<0.001
92200266|NCT04896008|184298661|SUPERIORITY||Treatment Difference|63.0|||<|0.001|TWO_SIDED|95.0|23.22|102.73||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by randomization stratification factor (REVEAL Lite 2.0 risk score and PAH subtype).|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by randomization stratification factor (REVEAL Lite 2.0 risk score and PAH subtype).|||102.73|23.22|<0.001
92200267|NCT04896008|184298662|SUPERIORITY||Treatment Difference|0.5||||0.119|TWO_SIDED|95.0|-0.18|1.16||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by randomization stratification factor (REVEAL Lite 2.0 risk score and PAH subtype)|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by randomization stratification factor (REVEAL Lite 2.0 risk score and PAH subtype).|||1.16|-0.18|0.119
92200268|NCT03322540|184298670|SUPERIORITY||Difference in Percentages|-6.5||||0.8|TWO_SIDED|95.0|-21.5|8.7|||Stratified Miettinen and Nurminen method|One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Point estimate was assessed based on Miettinen \& Nurminen method stratified by predominant tumor histology (squamous vs non-squamous).|||8.7|-21.5|0.8000
92200269|NCT03445533|184298685|SUPERIORITY|||||||0.9394||||||p-value was calculated for percentage difference (B-A) using a Cochran-Mantel-Haenszel (CMH) test stratified by metastasis stage and BRAF mutation.|Cochran-Mantel-Haenszel|ORR and OS comprise a primary endpoint family; both have a priori hypotheses and were tested for statistical significance.||The ORR was defined as a percentage of subjects meeting criteria of CR and PR to calculate the p-value.||||0.9394
92200270|NCT03445533|184298686|SUPERIORITY||Cox Proportional Hazard|0.955||||0.6775|TWO_SIDED|95.0|0.77|1.186||The p-value was calculated using the log rank test stratified by metastasis stage and BRAF mutation.|Log Rank|ORR and OS comprise a primary endpoint family; both have a priori hypotheses. ORR will be tested first followed by OS.|Hazard ratio and 95% CI (B/A) are estimated using a Cox proportional hazards model stratified by metastasis stage and BRAF mutation.|||1.186|0.770|0.6775
92324895|NCT02045862|184554983|SUPERIORITY||Least Squares Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.69|-0.21||The 2-sided P value was for pairwise comparisons between the combination therapy group and the corresponding monotherapy group from the stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Mirabegron 50 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.21|-0.69|<0.001
92324896|NCT02045862|184554983|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.12||0.002|TWO_SIDED|95.0|-0.37|0.11||The 2-sided P value was for pairwise comparisons between the combination therapy group and the corresponding monotherapy group from the stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Solifenacin 5 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.11|-0.37|0.002
92324897|NCT02045862|184554984|SUPERIORITY||Least Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.77|-0.2||The 2-sided P value was for pairwise comparisons between the combination therapy group and the corresponding monotherapy group from the ANCOVA model.|ANCOVA|||Difference vs. Mirabegron 50 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.20|-0.77|<0.001
92324898|NCT02045862|184554984|SUPERIORITY||Least Squares Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.15||0.004|TWO_SIDED|95.0|-0.71|-0.13||The 2-sided P value was for pairwise comparisons between the combination therapy group and the corresponding monotherapy group from the ANCOVA model.|ANCOVA|||Difference vs. Solifenacin 5 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.13|-0.71|0.004
92324899|NCT02045862|184554985|SUPERIORITY||Least Squares Mean Difference|15.84|STANDARD_ERROR_OF_MEAN|3.49|<|0.001|TWO_SIDED|95.0|8.99|22.69|||ANCOVA|||Difference vs. Mirabegron 50 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||22.69|8.99|<0.001
92324900|NCT02045862|184554985|SUPERIORITY||Least Squares Mean Difference|12.77|STANDARD_ERROR_OF_MEAN|3.47|<|0.001|TWO_SIDED|95.0|5.98|19.57|||ANCOVA|||Difference vs. Solifenacin 5 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||19.57|5.98|<0.001
92324901|NCT02045862|184554986|SUPERIORITY||Least Squares Mean Difference|-7.55|STANDARD_ERROR_OF_MEAN|1.27|<|0.001|TWO_SIDED|95.0|-10.05|-5.05|||ANCOVA|||Difference vs. Mirabegron 50 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-5.05|-10.05|<0.001
92324902|NCT02045862|184554986|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|1.27|<|0.001|TWO_SIDED|95.0|-7.09|-2.12|||ANCOVA|||Difference vs. Solifenacin 5 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-2.12|-7.09|<0.001
92324903|NCT02045862|184554987|SUPERIORITY||Least Squares Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|0.28|0.82|||ANCOVA|||Difference vs. Mirabegron 50 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.82|0.28|<0.001
92324904|NCT02045862|184554987|SUPERIORITY||Least Squares Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|0.32|0.86|||ANCOVA|||Difference vs. Solifenacin 5 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.86|0.32|<0.001
92324905|NCT02045862|184554989|SUPERIORITY||Rate Ratio|0.67|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|0.54|0.84|||Mixed Effects Poisson-Negative Binomial|||Rate ratio of number of incontinence episodes during the EoT 7-day diary between the combination therapy group and the mirabegron monotherapy group was calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of incontinence episodes divided by number of valid diary days) at baseline included as a covariate and number of valid diary day at EoT as the offset variable.||0.84|0.54|<0.001
92324906|NCT02045862|184554989|SUPERIORITY||Rate Ratio|0.77|STANDARD_ERROR_OF_MEAN|0.12||0.029|TWO_SIDED|95.0|0.61|0.97|||Mixed Effects Poisson-Negative Binomial|||Rate ratio of number of incontinence episodes during the EoT 7-day diary between the combination therapy group and the solifenacin monotherapy group was calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of incontinence episodes divided by number of valid diary days) at baseline included as a covariate and number of valid diary day at EoT as the offset variable.||0.97|0.61|0.029
92324907|NCT02045862|184554990|SUPERIORITY||Least Squares Mean Difference|-3.12|STANDARD_ERROR_OF_MEAN|0.83|<|0.001|TWO_SIDED|95.0|-4.76|-1.49||The two-sided p-value is for pairwise comparisons between the combination therapy group and the mirabegron monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-1.49|-4.76|<0.001
92324908|NCT02045862|184554990|SUPERIORITY||Least Squares Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.84|<|0.001|TWO_SIDED|95.0|-2.57|0.72||The two-sided p-value is for pairwise comparisons between the combination therapy group and the solifenacin monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.72|-2.57|<0.001
92324909|NCT02045862|184554991|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.26|2.01|||Overdispersed Binomial Regression|||Odds ratio vs. Mirabegron 50 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and log transformed baseline mean number of incontinence episodes per 24 hours as a covariate||2.01|1.26|<0.001
92324910|NCT02045862|184554991|SUPERIORITY||Odds Ratio (OR)|1.38||||0.009|TWO_SIDED|95.0|1.08|1.75|||Overdispersed Binomial Regression|||Odds ratio vs. Solifenacin 5 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and log transformed baseline mean number of incontinence episodes per 24 hours as a covariate.||1.75|1.08|0.009
92324911|NCT02045862|184554992|SUPERIORITY||Odds Ratio (OR)|1.61|||<|0.001|TWO_SIDED|95.0|1.26|2.05|||Overdispersed Binomial Regression|||Odds ratio vs. Mirabegron 50 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and log transformed baseline mean number of incontinence episodes per 24 hours and baseline mean number of micturitions per 24 hours as a covariates.||2.05|1.26|<0.001
92324912|NCT02045862|184554992|SUPERIORITY||Odds Ratio (OR)|1.45||||0.002|TWO_SIDED|95.0|1.14|1.85|||Overdispersed Binomial Regression|||Odds ratio vs. Solifenacin 5 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and log transformed baseline mean number of incontinence episodes per 24 hours and baseline mean number of micturitions per 24 hours as a covariates.||1.85|1.14|0.002
92324913|NCT02045862|184554993|SUPERIORITY||Least Squares Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.65|-0.21||The two-sided p-value is for pairwise comparisons between the combination therapy group and the mirabegron monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.21|-0.65|<0.001
92324914|NCT02045862|184554993|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.11||0.009|TWO_SIDED|95.0|-0.36|0.09||The two-sided p-value is for pairwise comparisons between the combination therapy group and the solifenacin monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate||0.09|-0.36|0.009
92324915|NCT02045862|184554994|SUPERIORITY||Rate Ratio|0.62|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|0.48|0.79|||Negative Binomial Regression|||Rate ratio of number of incontinence episodes during the EoT 7-day diary between the combination therapy group and the mirabegron monotherapy group was calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥65 years), geographic region and previous study history as factors, log(number of urgency incontinence episodes divided by number of valid diary days) included as a covariate and post baseline number of valid diary days at EoT as the offset variable||0.79|0.48|<0.001
92324916|NCT02045862|184554994|SUPERIORITY||Rate Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.13||0.023|TWO_SIDED|95.0|0.58|0.96|||Negative Binomial Regression|||Rate ratio of number of incontinence episodes during the EoT 7-day diary between the combination therapy group and the solifenacin monotherapy group is calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of urgency incontinence episodes divided by number of valid diary days) included as a covariate and post baseline number of valid diary day at EoT as the offset variable||0.96|0.58|0.023
92324917|NCT02045862|184554995|SUPERIORITY||Least Squares Mean Difference|-2.98|STANDARD_ERROR_OF_MEAN|0.78|<|0.001|TWO_SIDED|95.0|-4.51|-1.46||The two-sided p-value is for pairwise comparisons between the combination therapy group and the mirabegron monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-1.46|-4.51|<0.001
92324918|NCT02045862|184554995|SUPERIORITY||Stratified Rank ANCOVA|-0.93|STANDARD_ERROR_OF_MEAN|0.78||0.006|TWO_SIDED|95.0|-2.47|0.61||The two-sided p-value is for pairwise comparisons between the combination therapy group and the solifenacin monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.61|-2.47|0.006
92324919|NCT02045862|184554997|SUPERIORITY||Odds Ratio (OR)|1.44||||0.002|TWO_SIDED|95.0|1.14|1.8|||Overdispersed Binomial Regression|||Odds ratio vs. Mirabegron 50 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.8|1.14|0.002
92324920|NCT02045862|184554997|SUPERIORITY||Odds Ratio (OR)|1.37||||0.007|TWO_SIDED|95.0|1.09|1.73|||Overdispersed Binomial Regression|||Odds ratio vs. Solifenacin 5 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.73|1.09|0.007
92324921|NCT02045862|184554998|SUPERIORITY||Least Squares Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.16|-0.41|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||-0.41|-1.16|<0.001
92324922|NCT02045862|184554998|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.037|TWO_SIDED|95.0|-0.77|-0.02|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||-0.02|-0.77|0.037
92324923|NCT02045862|184555000|SUPERIORITY||Least Squares Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.1|-0.37|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.37|-1.10|<0.001
92324924|NCT02045862|184555000|SUPERIORITY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.19||0.036|TWO_SIDED|95.0|-0.76|-0.03|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.03|-0.76|0.036
92324925|NCT02045862|184555001|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.059|TWO_SIDED|95.0|-0.19|0.0|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.00|-0.19|0.059
92324926|NCT02045862|184555001|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.068|TWO_SIDED|95.0|-0.19|0.01|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.01|-0.19|0.068
92324927|NCT02045862|184555002|SUPERIORITY||Rate Ratio|0.9|STANDARD_ERROR_OF_MEAN|0.06||0.067|TWO_SIDED|95.0|0.81|1.01|||Negative Binomial Regression|||Rate ratio of number of nocturia episodes during the EoT 7-day diary between the combination therapy group and the mirabegron monotherapy group was calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of nocturia episodes divided by number of valid diary days) included as a covariate and post baseline number of valid diary days as the offset variable||1.01|0.81|0.067
92324928|NCT02045862|184555002|SUPERIORITY||Rate Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.06||0.131||95.0|0.82|1.03|||Negative Binomial Regression|||Rate ratio of number of nocturia episodes during the EoT 7-day diary between the combination therapy group and the solifenacin monotherapy group was calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of nocturia episodes divided by number of valid diary days) included as a covariate and post baseline number of valid diary day as the offset variable.||1.03|0.82|0.131
92324929|NCT02045862|184555003|SUPERIORITY||Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.35||0.055|TWO_SIDED|95.0|-1.34|0.01|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.01|-1.34|0.055
92324930|NCT02045862|184555003|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.048|TWO_SIDED|95.0|-1.39|-0.01|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.01|-1.39|0.048
92324931|NCT02045862|184555004|SUPERIORITY||Least Squares Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.13||0.002|TWO_SIDED|95.0|-0.69|-0.16|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.16|-0.69|0.002
92324932|NCT02045862|184555004|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.14||0.039|TWO_SIDED|95.0|-0.55|-0.01|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.01|-0.55|0.039
92324933|NCT02045862|184555005|SUPERIORITY||Rate Ratio|0.58|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|0.45|0.76|||Negative Binomial Regression|||Rate ratio vs. Mirabegron 50 mg (EoT): Rate ratio of number of pads during the EoT 7-day diary between the combination therapy group and the mirabegron monotherapy group is calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of pads divided by number of valid diary days) included as a covariate and post baseline number of valid diary days as the offset variable.||0.76|0.45|<0.001
92324934|NCT02045862|184555005|SUPERIORITY||Rate Ratio|0.76|STANDARD_ERROR_OF_MEAN|0.14||0.044|TWO_SIDED|95.0|0.58|0.99|||Negative Binomial Regression|||Rate ratio vs. Solifenacin 5 mg (EoT): Rate ratio of number of pads during the EoT 7-day diary between the combination therapy group and the solifenacin monotherapy group is calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of pads divided by number of valid diary days) included as a covariate and post baseline number of valid diary days as the offset variable.||0.99|0.58|0.044
92324935|NCT02045862|184555006|SUPERIORITY||Least Squares Mean Difference|-2.98|STANDARD_ERROR_OF_MEAN|0.92||0.001|TWO_SIDED|95.0|-4.78|-1.18|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-1.18|-4.78|0.001
92324936|NCT02045862|184555006|SUPERIORITY||Least Squares Mean Difference|-1.68|STANDARD_ERROR_OF_MEAN|0.93||0.072|TWO_SIDED|95.0|-3.52|0.15|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.15|-3.52|0.072
92324937|NCT02045862|184555008|SUPERIORITY||Least Squares Mean Difference|4.76|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|2.56|6.96|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||6.96|2.56|<0.001
92324938|NCT02045862|184555008|SUPERIORITY||Least Squares Mean Difference|2.86|STANDARD_ERROR_OF_MEAN|1.11||0.01|TWO_SIDED|95.0|0.68|5.04|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||5.04|0.68|0.010
92324939|NCT02045862|184555009|SUPERIORITY||Least Squares Mean Difference|5.6|STANDARD_ERROR_OF_MEAN|1.33|<|0.001|TWO_SIDED|95.0|2.99|8.2|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||8.20|2.99|<0.001
92324940|NCT02045862|184555009|SUPERIORITY||Least Squares Mean Difference|3.01|STANDARD_ERROR_OF_MEAN|1.32||0.022|TWO_SIDED|95.0|0.43|5.6|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||5.60|0.43|0.022
92324941|NCT02045862|184555010|SUPERIORITY||Least Squares Mean Difference|5.01|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|2.65|7.38|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||7.38|2.65|<0.001
92324942|NCT02045862|184555010|SUPERIORITY||Least Squares Mean Difference|3.78|STANDARD_ERROR_OF_MEAN|1.2||0.002|TWO_SIDED|95.0|1.43|6.13|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||6.13|1.43|0.002
92324943|NCT02045862|184555011|SUPERIORITY||Least Squares Mean Difference|5.15|STANDARD_ERROR_OF_MEAN|1.36|<|0.001|TWO_SIDED|95.0|2.47|7.83|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||7.83|2.47|<0.001
92324944|NCT02045862|184555011|SUPERIORITY||Least Squares Mean Difference|3.27|STANDARD_ERROR_OF_MEAN|1.35||0.016|TWO_SIDED|95.0|0.62|5.93|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||5.93|0.62|0.016
92324945|NCT02045862|184555012|SUPERIORITY||Least Squares Mean Difference|2.68|STANDARD_ERROR_OF_MEAN|0.98||0.006|TWO_SIDED|95.0|0.77|4.59|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||4.59|0.77|0.006
92324946|NCT02045862|184555012|SUPERIORITY||Least Squares Mean Difference|1.03|STANDARD_ERROR_OF_MEAN|0.97||0.287|TWO_SIDED|95.0|-0.87|2.93|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||2.93|-0.87|0.287
92324947|NCT02045862|184555014|SUPERIORITY||Least Squares Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.47|-0.16|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.16|-0.47|<0.001
92324948|NCT02045862|184555014|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.011|TWO_SIDED|95.0|-0.36|-0.05|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.05|-0.36|0.011
92324949|NCT02045862|184555026|SUPERIORITY||Odds Ratio (OR)|1.65|||<|0.001|TWO_SIDED|95.0|1.26|2.15|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||2.15|1.26|<0.001
92324950|NCT02045862|184555026|SUPERIORITY||Odds Ratio (OR)|1.27||||0.08|TWO_SIDED|95.0|0.97|1.67|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.67|0.97|0.080
92200271|NCT03334253|184298693|SUPERIORITY|"The following assumptions were used in the power calculation:~* 2:1 randomization~* treatment group difference of 0.50D~* standard deviation of 0.80D~* type 1 error of 5% (2-sided)~* up to 10% loss to follow up"|Adjusted mean difference|-0.02|||||TWO_SIDED|95.0|-0.19|0.15|||||Atropine - Placebo Adjusted mean difference, adjusting for baseline refractive error, age, iris color (brown vs. not brown), and race (East Asian vs. non-East Asian).|Null Hypothesis: no difference in mean change in SER from baseline to 24 months between the atropine and placebo groups||0.15|-0.19|
92200272|NCT03334253|184298694|SUPERIORITY|"The following assumptions were used in the power calculation:~* 2:1 randomization~* treatment group difference of 0.50D~* standard deviation of 0.80D~* type 1 error of 5% (2-sided)~* up to 10% loss to follow up"|Adjusted mean difference|-0.04|||||TWO_SIDED|95.0|-0.25|0.17|||||Atropine-Placebo Adjusted mean difference, adjusting for baseline refractive error, age, iris color (brown vs. not brown), and race (East Asian vs. non-East Asian).|Null Hypothesis: no difference in mean change in SER from baseline to 24 months between the atropine and placebo groups||0.17|-0.25|
92200273|NCT03926195|184298730|OTHER||Difference in Percentage|5.8|||||TWO_SIDED|95.0|-7.5|19.2|||||Difference in percentage and 95% confidence interval (CI) was based on a stratified Mantel-Haenszel test.|||19.2|-7.5|
92200274|NCT03926195|184298732|OTHER||Median Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-6.4|3.5|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||3.5|-6.4|
92200275|NCT03926195|184298734|OTHER||Median Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-37.1|36.8|||||Difference in medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||36.8|-37.1|
92200276|NCT03926195|184298736|OTHER||Median Difference (Final Values)|7.4|||||TWO_SIDED|95.0|-6.0|20.8|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||20.8|-6.0|
92200277|NCT03926195|184298738|OTHER||Median Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.6|0.1|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||0.1|-0.6|
92200278|NCT03926195|184298740|OTHER||Median Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-3.0|1.0|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||1|-3|
92200279|NCT03054337|184298742|SUPERIORITY||Least squares mean difference|0.9|STANDARD_ERROR_OF_MEAN|0.301||0.0045|TWO_SIDED|95.0|0.29|1.51|||ANCOVA|The analysis of covariance (ANCOVA) model included treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||1.51|0.29|0.0045
92200280|NCT03054337|184298742|SUPERIORITY||Least squares mean difference|1.59|STANDARD_ERROR_OF_MEAN|0.306|<|0.0001|TWO_SIDED|95.0|0.98|2.21|||ANCOVA|The ANCOVA model included treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||2.21|0.98|<0.0001
92200281|NCT03054337|184298742|SUPERIORITY||Least squares mean difference|2.09|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|1.49|2.7|||ANCOVA|The ANCOVA model included treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||2.70|1.49|<0.0001
92200282|NCT03054337|184298748|SUPERIORITY||Least squares mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.103||0.0018|TWO_SIDED|95.0|0.13|0.55|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.55|0.13|0.0018
92200283|NCT03054337|184298748|SUPERIORITY||Least squares mean difference|0.51|STANDARD_ERROR_OF_MEAN|0.103|<|0.0001|TWO_SIDED|95.0|0.3|0.72|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.72|0.30|<0.0001
92200284|NCT03054337|184298748|SUPERIORITY||Least squares mean difference|0.66|STANDARD_ERROR_OF_MEAN|0.102|<|0.0001|TWO_SIDED|95.0|0.45|0.86|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.86|0.45|<0.0001
92200285|NCT03054337|184298748|SUPERIORITY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.005||0.7804|TWO_SIDED|95.0|-0.01|0.01|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.01|-0.01|0.7804
92200286|NCT03054337|184298748|SUPERIORITY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.005||0.0986|TWO_SIDED|95.0|0.0|0.02|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.02|-0.00|0.0986
92200287|NCT03054337|184298748|SUPERIORITY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.005||0.1661|TWO_SIDED|95.0|0.0|0.02|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.02|-0.00|0.1661
92200288|NCT03054337|184298750|SUPERIORITY||Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|0.942||0.001|TWO_SIDED|95.0|1.4|5.2|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||5.20|1.40|0.0010
92200289|NCT03054337|184298750|SUPERIORITY||Least squares mean difference|5.3|STANDARD_ERROR_OF_MEAN|0.953|<|0.0001|TWO_SIDED|95.0|3.38|7.22|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||7.22|3.38|<0.0001
92200290|NCT03054337|184298750|SUPERIORITY||Least squares mean difference|7.24|STANDARD_ERROR_OF_MEAN|0.93|<|0.0001|TWO_SIDED|95.0|5.37|9.11|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||9.11|5.37|<0.0001
92200291|NCT03054337|184298750|SUPERIORITY||Least squares mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.152||0.5889|TWO_SIDED|95.0|-0.39|0.22|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.22|-0.39|0.5889
92200292|NCT03054337|184298750|SUPERIORITY||Least squares mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.151||0.8074|TWO_SIDED|95.0|-0.27|0.34|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.34|-0.27|0.8074
92200293|NCT03054337|184298750|SUPERIORITY||Least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.148||0.6952|TWO_SIDED|95.0|-0.36|0.24|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.24|-0.36|0.6952
92200294|NCT03054337|184298752|SUPERIORITY|||||||0.3702|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.3702
92200295|NCT03054337|184298752|SUPERIORITY|||||||0.5524|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.5524
92200296|NCT03054337|184298752|SUPERIORITY|||||||0.1589|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.1589
92200297|NCT03054337|184298752|SUPERIORITY|||||||0.0092|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||0.0092
92200298|NCT03054337|184298752|SUPERIORITY||||||<|0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||<0.0001
92200299|NCT03054337|184298752|SUPERIORITY||||||<|0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||<0.0001
92200300|NCT03054337|184298754|SUPERIORITY|||||||0.9092|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.9092
92200301|NCT03054337|184298754|SUPERIORITY|||||||0.1484|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.1484
92200302|NCT03054337|184298754|SUPERIORITY|||||||0.1313|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.1313
92324951|NCT02045862|184555027|SUPERIORITY||Odds Ratio (OR)|2.03|||<|0.001|TWO_SIDED|95.0|1.49|2.78|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline OAB-q subscale as a covariate.||2.78|1.49|<0.001
92324952|NCT02045862|184555027|SUPERIORITY||Odds Ratio (OR)|1.87|||<|0.001|TWO_SIDED|95.0|1.37|2.57|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline OAB-q subscale as a covariate.||2.57|1.37|<0.001
92324953|NCT02045862|184555028|SUPERIORITY||Odds Ratio (OR)|1.82|||<|0.001|TWO_SIDED|95.0|1.36|2.43|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline OAB-q subscale as a covariate.||2.43|1.36|<0.001
92324954|NCT02045862|184555028|SUPERIORITY||Odds Ratio (OR)|1.44||||0.014|TWO_SIDED|95.0|1.08|1.92|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline OAB-q subscale as a covariate.||1.92|1.08|0.014
92324955|NCT02045862|184555029|SUPERIORITY||Odds Ratio (OR)|1.8|||<|0.001|TWO_SIDED|95.0|1.34|2.41|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||2.41|1.34|<0.001
92324956|NCT02045862|184555029|SUPERIORITY||Odds Ratio (OR)|1.44||||0.019|TWO_SIDED|95.0|1.06|1.95|||Regression, Logistic|||Odds ratio wa from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||1.95|1.06|0.019
92324957|NCT02045862|184555030|SUPERIORITY||Odds Ratio (OR)|1.67|||<|0.001|TWO_SIDED|95.0|1.26|2.19|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||2.19|1.26|<0.001
92324958|NCT02045862|184555030|SUPERIORITY||Odds Ratio (OR)|1.23||||0.133|TWO_SIDED|95.0|0.94|1.62|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||1.62|0.94|0.133
92324959|NCT02045862|184555031|SUPERIORITY||Odds Ratio (OR)|1.55||||0.002|TWO_SIDED|95.0|1.18|2.03|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||2.03|1.18|0.002
92324960|NCT02045862|184555031|SUPERIORITY||Odds Ratio (OR)|1.48||||0.006|TWO_SIDED|95.0|1.12|1.95|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.95|1.12|0.006
92324961|NCT02045862|184555032|SUPERIORITY||Odds Ratio (OR)|1.68|||<|0.001|TWO_SIDED|95.0|1.24|2.29|||Regression, Logistic|||Odds ratio is from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline PPBC as a covariate.||2.29|1.24|<0.001
92324962|NCT02045862|184555032|SUPERIORITY||Odds Ratio (OR)|1.29||||0.109|TWO_SIDED|95.0|0.94|1.77|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline PPBC as a covariate.||1.77|0.94|0.109
92200303|NCT03054337|184298756|SUPERIORITY|||||||0.108|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||0.1080
92200304|NCT03054337|184298756|SUPERIORITY|||||||0.0002|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||0.0002
92324963|NCT02045862|184555033|SUPERIORITY||Odds Ratio (OR)|1.69|||<|0.001|TWO_SIDED|95.0|1.26|2.25|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline PPBC as a covariate.||2.25|1.26|<0.001
92324964|NCT02045862|184555033|SUPERIORITY||Odds Ratio (OR)|1.62|||<|0.001|TWO_SIDED|95.0|1.22|2.16|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline PPBC as a covariate.||2.16|1.22|<0.001
92324965|NCT02045862|184555034|SUPERIORITY||Odds Ratio (OR)|1.99|||<|0.001|TWO_SIDED|95.0|1.5|2.62|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||2.62|1.50|<0.001
92324966|NCT02045862|184555034|SUPERIORITY||Odds Ratio (OR)|1.79|||<|0.001|TWO_SIDED|95.0|1.35|2.36|||Regression, Logistic|||Odds ratio is from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||2.36|1.35|<0.001
92200305|NCT03054337|184298756|SUPERIORITY||||||<|0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||<0.0001
92200306|NCT03054337|184298756|SUPERIORITY|||||||0.0672|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Hepcidin||||0.0672
92200307|NCT03054337|184298756|SUPERIORITY|||||||0.0004|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Hepcidin||||0.0004
92200308|NCT03054337|184298756|SUPERIORITY||||||<|0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Hepcidin||||<0.0001
92200309|NCT03054337|184298763|SUPERIORITY|||||||0.0895|||||||Fisher Exact|||||||0.0895
92200310|NCT03054337|184298763|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
92200311|NCT03054337|184298763|SUPERIORITY|||||||0.3845|||||||Fisher Exact|||||||0.3845
92200312|NCT02838979|184298775|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.34||0.15|TWO_SIDED|||||P-value for the interaction of treatment and sequence|ANOVA|Two-way ANOVA was used to assess differences between the groups||||||0.15
92200313|NCT02838979|184298776|SUPERIORITY||Mean Difference (Final Values)|-7.39|STANDARD_DEVIATION|22.18||0.86|TWO_SIDED|||||P-value for the interaction of treatment and sequence|ANOVA|Two-way ANOVA was used to assess differences between the groups||||||0.86
92200314|NCT02838979|184298777|SUPERIORITY||Median Difference (Final Values)|-0.1|STANDARD_DEVIATION|1.04||0.44|TWO_SIDED|||||P-value for the interaction of treatment and sequence|ANOVA|Two-way ANOVA was used to assess differences between the groups||||||0.44
92200315|NCT02838979|184298778|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_DEVIATION|0.21||0.36|TWO_SIDED|||||P-value for the interaction of treatment and sequence|ANOVA|Two-way ANOVA was used to assess differences between the groups||||||0.36
92324967|NCT02045862|184555035|SUPERIORITY||Odds Ratio (OR)|1.93|||<|0.001|TWO_SIDED|95.0|1.46|2.54|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||2.54|1.46|<0.001
92324968|NCT02045862|184555035|SUPERIORITY||Odds Ratio (OR)|1.59||||0.001|TWO_SIDED|95.0|1.2|2.09|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||2.09|1.20|0.001
92324969|NCT02045862|184555036|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.28|2.26|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline PPBC as covariates.||2.26|1.28|<0.001
92324970|NCT02045862|184555036|SUPERIORITY||Odds Ratio (OR)|1.4||||0.019|TWO_SIDED|95.0|1.06|1.86|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline PPBC as covariates.||1.86|1.06|0.019
92324971|NCT02045862|184555037|SUPERIORITY||Odds Ratio (OR)|1.86|||<|0.001|TWO_SIDED|95.0|1.4|2.46|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||2.46|1.40|<0.001
92324972|NCT02045862|184555037|SUPERIORITY||Odds Ratio (OR)|1.58||||0.001|TWO_SIDED|95.0|1.19|2.09|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||2.09|1.19|0.001
92324973|NCT02045862|184555038|SUPERIORITY||Odds Ratio (OR)|1.76|||<|0.001|TWO_SIDED|95.0|1.33|2.34|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||2.34|1.33|<0.001
92324974|NCT02045862|184555038|SUPERIORITY||Odds Ratio (OR)|1.43||||0.012|TWO_SIDED|95.0|1.08|1.89|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||1.89|1.08|0.012
92200316|NCT02838979|184298779|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_DEVIATION|7.87||0.6|TWO_SIDED|||||P-value for the interaction of treatment and sequence|ANOVA|Two-way ANOVA was used to assess differences between the groups||||||0.60
92200317|NCT01762904|184298780|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92200318|NCT01762904|184298781|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92200319|NCT01762904|184298782|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
92200320|NCT00609947|184298785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.2|STANDARD_DEVIATION|21.8|<|0.001|ONE_SIDED|95.0||||"The null and alternative hypotheses were:~H0: µSVS ≥µM H1: µSVS \< µM where µSVS was the mean in-segment 8-month percent diameter stenosis for the SVS study and µM was the mean in-segment 6-month percent diameter stenosis for Micro-Driver."|t-test, 2 sided|The sample size was not reduced below 158 evaluable subjects in order to support the analysis of the primary safety endpoint.||The 8-month in-segment percent diameter stenosis from Endeavor SVS subjects was compared to the 6-month in-segment percent diameter stenosis from Micro Driver subjects. This study assessed the superiority of SVS against the Micro-Driver regarding in-segment percent diameter stenosis at 8 months post procedure.||||<0.001
92200321|NCT00609947|184298786|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|13.5|STANDARD_ERROR_OF_MEAN|6.5||0.0041|ONE_SIDED|95.0||20.0|||t-test, 1 sided|||"The null and alternative hypotheses of interest are:~H0: xSVS \>= 20% vs. H1: xSVS \< 20%, where x is the true SVS 12-month MACE rate.~The assessment of the null hypothesis will be carried out at the one-sided 0.05 level of significance. Rejection of the null hypothesis indicates the SVS 12-month MACE rate is significantly below 20%."||20||0.0041
92200322|NCT00874731|184298804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48|||||TWO_SIDED|90.0|-2.8|3.76|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|3.76|-2.80|
92200323|NCT00874731|184298807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||||TWO_SIDED|95.0|-3.83|2.74|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|2.74|-3.83|
92200324|NCT00874731|184298808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18|||||TWO_SIDED|95.0|-4.5|2.14|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|2.14|-4.50|
92200325|NCT00874731|184298809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47|||||TWO_SIDED|95.0|-2.85|3.79|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|3.79|-2.85|
92200326|NCT00874731|184298810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.18|||||TWO_SIDED|95.0|-2.1|4.47|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|4.47|-2.10|
92200327|NCT00874731|184298811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.49|||||TWO_SIDED|95.0|-0.79|5.78|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|5.78|-0.79|
92200328|NCT00874731|184298812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.48|||||TWO_SIDED|95.0|-0.8|5.76|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|5.76|-0.80|
92200329|NCT00874731|184298813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.89|||||TWO_SIDED|95.0|0.6|7.17|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|7.17|0.60|
92200330|NCT00874731|184298814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-4.85|1.86|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|1.86|-4.85|
92200331|NCT00790205|184298859|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Hazard Ratio of Sitagliptin/Placebo: the between-treatment difference in time to the first primary composite CV outcome measure was assessed by the hazard ratio between the sitagliptin and placebo groups. The confidence interval for the hazard ratio was computed and compared to 1.30, the non-inferiority margin.|Hazard Ratio (HR)|0.98|||<|0.001|TWO_SIDED|95.0|0.88|1.09|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||1.09|0.88|<0.001
92200332|NCT00790205|184298860|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Hazard Ratio of Sitagliptin/Placebo: the between-treatment difference in time to the first primary composite CV outcome measure was assessed by the hazard ratio between the sitagliptin and placebo groups. The confidence interval for the hazard ratio was computed and compared to 1.30, the non-inferiority margin.|Hazard Ratio (HR)|0.98|||<|0.001|TWO_SIDED|95.0|0.89|1.08|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||1.08|0.89|<0.001
92200333|NCT00790205|184298861|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Hazard Ratio of Sitagliptin/Placebo: the between-treatment difference in time to the first primary composite CV outcome measure was assessed by the hazard ratio between the sitagliptin and placebo groups. The confidence interval for the hazard ratio was computed and compared to 1.30, the non-inferiority margin.|Hazard Ratio (HR)|0.99|||<|0.001|TWO_SIDED|95.0|0.89|1.11|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||1.11|0.89|<0.001
92200334|NCT00790205|184298862|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Hazard Ratio of Sitagliptin/Placebo: the between-treatment difference in time to the first primary composite CV outcome measure was assessed by the hazard ratio between the sitagliptin and placebo groups. The confidence interval for the hazard ratio was computed and compared to 1.30, the non-inferiority margin.|Hazard Ratio (HR)|0.99|||<|0.001|TWO_SIDED|95.0|0.89|1.1|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||1.10|0.89|<0.001
92200335|NCT00790205|184298863|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.06||||0.435|TWO_SIDED|95.0|0.91|1.24|||Cox proportional hazards model|||Hazard Ratio of Sitagliptin/Placebo: The between-treatment difference in mortality due to all causes was assessed by the hazard ratio between the Sitagliptin and Placebo groups.||1.24|0.91|0.435
92200336|NCT00790205|184298864|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.875|TWO_SIDED|95.0|0.9|1.14|||Cox proportional hazards model|||Hazard Ratio of Sitagliptin/Placebo: The between-treatment difference in mortality due to all causes was assessed by the hazard ratio between the Sitagliptin and Placebo groups.||1.14|0.90|0.875
92200337|NCT00790205|184298865|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98||||0.858|TWO_SIDED|95.0|0.81|1.19|||Cox proportional hazards model|Model stratified by region with treatment group and history of CHF at baseline as explanatory variables.||Hazard Ratio of Sitagliptin/Placebo: The between-treatment difference in CHF cases requiring hospitalization was assessed by the hazard ratio between the Sitagliptin and Placebo groups.||1.19|0.81|0.858
92200338|NCT00790205|184298866|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.983|TWO_SIDED|95.0|0.83|1.2|||Cox proportional hazards model|Model stratified by region with treatment group and history of CHF at baseline as explanatory variables.||Hazard Ratio of Sitagliptin/Placebo: The between-treatment difference in CHF cases requiring hospitalization was assessed by the hazard ratio between the Sitagliptin and Placebo groups.||1.20|0.83|0.983
92200339|NCT00790205|184298873|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||<|0.001|TWO_SIDED|95.0|0.61|0.77|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||0.77|0.61|<0.001
92200340|NCT00790205|184298874|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||<|0.001|TWO_SIDED|95.0|0.63|0.79|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||0.79|0.63|<0.001
92200341|NCT00790205|184298875|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||<|0.001|TWO_SIDED|95.0|0.65|0.75|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||0.75|0.65|<0.001
92200342|NCT00790205|184298876|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72|||<|0.001|TWO_SIDED|95.0|0.68|0.77|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||0.77|0.68|<0.001
92200343|NCT01993849|184298886|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.69|TWO_SIDED|95.0|-3.81|2.59||The p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|t-test, 2 sided|||||2.59|-3.81|0.69
92200344|NCT00422734|184298906|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Hypotheses were tested in a sequential fashion using a gatekeeping strategy and adjusted for multiplicity. Statistical significance at 0.05 level was required for this variable|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||The null hypotheses (no treatment effect with respect to IIEF EF domain or SEP2 or SEP3) were each tested at a specified level of 0.05. In order to pass a serial gatekeeper, it was necessary to reject all three hypotheses. The two null hypotheses (no treatment effect with respect to subject SLQQ-SQoL domain and no treatment effect with respect to partner SLQQ-SQoL domain) were then each tested at a significance level of 0.025.||||<0.001
92200345|NCT00422734|184298907|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Subject. Hypotheses were tested in a sequential fashion using a gatekeeping strategy and adjusted for multiplicity. To adjust for multiplicity, statistical significance at 0.025 level was required for this variable.|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||The null hypotheses (no treatment effect with respect to IIEF EF domain or SEP2 or SEP3) were each tested at a specified level of 0.05. In order to pass a serial gatekeeper, it was necessary to reject all three hypotheses. The two null hypotheses (no treatment effect with respect to subject SLQQ-SQoL domain and no treatment effect with respect to partner SLQQ-SQoL domain) were then each tested at a significance level of 0.025.||||<0.001
92200346|NCT00422734|184298907|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Partner. Hypotheses were tested in a sequential fashion using a gatekeeping strategy and adjusted for multiplicity. To adjust for multiplicity, statistical significance at 0.025 level was required for this variable.|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||The null hypotheses (no treatment effect with respect to IIEF EF domain or SEP2 or SEP3) were each tested at a specified level of 0.05. In order to pass a serial gatekeeper, it was necessary to reject all three hypotheses. The two null hypotheses (no treatment effect with respect to subject SLQQ-SQoL domain and no treatment effect with respect to partner SLQQ-SQoL domain) were then each tested at a significance level of 0.025.||||<0.001
92200347|NCT00422734|184298908|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92200348|NCT00422734|184298909|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92200349|NCT00422734|184298910|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for subject scores|ANCOVA|ANCOVA included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
92200350|NCT00422734|184298910|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for partner scores|ANCOVA|ANCOVA included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
92200351|NCT00422734|184298911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for SEP Question 2. Hypotheses were tested in a sequential fashion using a gatekeeping strategy and adjusted for multiplicity. Statistical significance at 0.05 level was required for this variable.|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||The null hypotheses (no treatment effect with respect to IIEF EF domain or SEP2 or SEP3) were each tested at a specified level of 0.05. In order to pass a serial gatekeeper, it was necessary to reject all three hypotheses. The two null hypotheses (no treatment effect with respect to subject SLQQ-SQoL domain and no treatment effect with respect to partner SLQQ-SQoL domain) were then each tested at a significance level of 0.025.||||<0.001
92200352|NCT00422734|184298911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for SEP Question 3. Hypotheses were tested in a sequential fashion using a gatekeeping strategy and adjusted for multiplicity. Statistical significance at 0.05 level was required for this variable.|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||The null hypotheses (no treatment effect with respect to IIEF EF domain or SEP2 or SEP3) were each tested at a specified level of 0.05. In order to pass a serial gatekeeper, it was necessary to reject all three hypotheses. The two null hypotheses (no treatment effect with respect to subject SLQQ-SQoL domain and no treatment effect with respect to partner SLQQ-SQoL domain) were then each tested at a significance level of 0.025.||||<0.001
92200353|NCT00422734|184298912|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for SEP Question 4|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92200354|NCT00422734|184298912|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for SEP Question 5|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92200355|NCT00422734|184298913|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92200356|NCT00422734|184298914|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92324975|NCT05239494|184555073|SUPERIORITY||Median Difference (Final Values)|0.001|||<|0.001|TWO_SIDED||||||Shapiro-Wilks|||This study used a ±50 VAS scale, with values in the positive and negative range indicating that the contact lenses were comfortable or uncomfortable, respectively. A score of zero on this scale indicated neutral CL comfort.||||<0.001
92200357|NCT00422734|184298915|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for GAQ Question 1|Regression, Logistic|Model included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
92324976|NCT03155178|184555083|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.15||0.13|TWO_SIDED|95.0|-0.53|0.07|||Paired t-test|||"48-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 48-hours post-treatment."||0.07|-0.53|0.13
92324977|NCT03155178|184555083|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.78|TWO_SIDED|95.0|-0.23|0.3|||Paired t-test|||"72-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 72-hours post-treatment."||0.30|-0.23|0.78
92324978|NCT03155178|184555083|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.17||0.77|TWO_SIDED|95.0|-0.38|0.29|||Paired t-test|||"96-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 96-hours post-treatment."||0.29|-0.38|0.77
92324979|NCT03155178|184555083|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.15||0.37|TWO_SIDED|95.0|-0.45|0.17|||Paired t-test|||"48-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 48-hours post-treatment."||0.17|-0.45|0.37
92324980|NCT03155178|184555083|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.2||0.33|TWO_SIDED|95.0|-0.2|0.58|||Paired t-test|||"72-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 72-hours post-treatment."||0.58|-0.20|0.33
92324981|NCT03155178|184555083|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.16||0.65|TWO_SIDED|95.0|-0.25|0.39|||Paired t-test|||"96-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 96-hours post-treatment."||0.39|-0.25|0.65
92324982|NCT03155178|184555084|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.22||0.38|TWO_SIDED|95.0|-0.63|0.24|||Paired t-test|||"48-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 48-hours post-treatment."||0.24|-0.63|0.38
92324983|NCT03155178|184555084|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.19||0.68|TWO_SIDED|95.0|-0.3|0.45|||Paired t-test|||"72-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 72-hours post-treatment."||0.45|-0.30|0.68
92324984|NCT03155178|184555084|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.23||0.97|TWO_SIDED|95.0|-0.47|0.45|||Paired t-test|||"96-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 96-hours post-treatment."||0.45|-0.47|0.97
92324985|NCT03155178|184555084|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.23||0.4|TWO_SIDED|95.0|-0.27|0.65|||Paired t-test|||"48-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 48-hours post-treatment."||0.65|-0.27|0.40
92324986|NCT03155178|184555084|SUPERIORITY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.25||0.03|TWO_SIDED|95.0|0.05|1.03||Using a Hochberg Step-up procedure the critical p value is 0.17|Paired t-test|||"72-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 72-hours post-treatment."||1.03|0.05|0.03
92324987|NCT03155178|184555084|SUPERIORITY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.23||0.07|TWO_SIDED|95.0|-0.03|0.87|||Paired t-test|||"96-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 96-hours post-treatment."||0.87|-0.03|0.07
92324988|NCT02195310|184555122|SUPERIORITY|||||||0.7007|||||||Fisher Exact Test (2-sided)|||||||0.7007
92324989|NCT00834639|184555130|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|97.36||||||90.0|93.68|101.18|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101.18|93.68|
92324990|NCT00834639|184555131|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|100.59||||||90.0|97.07|104.24|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104.24|97.07|
92324991|NCT00834639|184555132|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|100.36||||||90.0|97.35|103.46|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103.46|97.35|
92324992|NCT05010512|184555143|NON_INFERIORITY|Noninferiority in distance VA was declared if the least squares means difference upper confidence limit was less than 0.05.|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.004|||ONE_SIDED|95.0||0.01||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with terms for lens, period and sequence as fixed effects, subject as a random effect. Difference = DT1 minus Infuse|||0.01||
92324993|NCT00805870|184555144|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.271|STANDARD_ERROR_OF_MEAN|26.298|>|0.05|TWO_SIDED|95.0|-63.521|46.978|||ANOVA|||Null hypothesis is that no difference is observed in quadriceps muscle strength between the fish oil and control groups.||46.978|-63.521|>0.05
92324994|NCT00805870|184555145|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.845|STANDARD_ERROR_OF_MEAN|1.417|>|0.05|TWO_SIDED|95.0|-4.823|1.132|||ANOVA|||Null hypothesis is that there is no difference in the amount of force applied to the quadriceps to elicit pain or discomfort between the fish oil and control groups.||1.132|-4.823|>0.05
92324995|NCT00805870|184555146|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-57.015|STANDARD_ERROR_OF_MEAN|47.093|>|0.05|TWO_SIDED|95.0|-156.373|42.344|||ANOVA|||Null hypothesis is that there is no difference in creatine kinase activity between the fish oil and the control groups.||42.344|-156.373|>0.05
92324996|NCT00805870|184555147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.022|STANDARD_ERROR_OF_MEAN|0.188|>|0.05|TWO_SIDED|95.0|-0.374|0.417|||ANOVA|||The null hypothesis is that there is no difference in interleukin-6 concentration between the fish oil and control groups.||0.417|-0.374|>0.05
92324997|NCT01322035|184555167|EQUIVALENCE|95% confidence limits from standard deviation of the mean were used as the equivalence.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|95% confidence limits from standard deviation||||||<0.05
92324998|NCT00535847|184555175|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.703|||||TWO_SIDED|95.0|4.259|37.884||||||Stratified Analysis (Mantel-Haenszel)- The Mantel-Haenszel estimator provides an estimate of the common odds ratio for the association between eRVR and SVR across the prior response strata.||37.884|4.259|
92200358|NCT00422734|184298915|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for GAQ Question 2|Regression, Logistic|Model included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
92324999|NCT00715728|184555187|EQUIVALENCE|Our primary outcome was the rate of core rewarming during the surgery. Groups were compared on mean rewarming rate in a linear mixed effects regression model with within-subject change of core temperature over time as random effect. Using those model results, equivalence on the mean rate of rewarming for the resistive and warm air systems was assessed with the 2 one-tailed tests equivalence testing approach and equivalence delta of 0.2 degrees C/hours.||||||0.91||||||Two 1-tailed tests were conducted. P-value for lower delta was 0.91. Equivalence will be claimed if p-values for upper and lower delta are both lower than 0.05 ⁄ 2 = 0.025.|t-test, 1 sided|"Two 1-tailed tests were conducted to assess equivalence. See  Type of Statistical Test."||A total of 46 patients (23 per group) were needed to have 90% power to demonstrate equivalence of the two warming methods on final intra-operative temperature at the 0.05 significance level using the 2 one-tailed tests equivalence testing technique and an equivalence region of 0.5 degrees C per hour, assuming a SD of 0.5 degrees C/hour for each group and zero true difference.||||0.91
92325000|NCT00715728|184555187|EQUIVALENCE|Our primary outcome was the rate of core rewarming during the surgery. Groups were compared on mean rewarming rate in a linear mixed effects regression model with within-subject change of core temperature over time as random effect. Using those model results, equivalence on the mean rate of rewarming for the resistive and warm air systems was assessed with the 2 one-tailed tests equivalence testing approach and equivalence delta of 0.2 degrees C/hours.|||||<|0.001||||||Two 1-tailed tests were conducted. P-value for lower delta was 0.91. Equivalence will be claimed if p-values for upper and lower delta are both lower than 0.05 ⁄ 2 = 0.025.|t-test, 1 sided|||A total of 46 patients (23 per group) were needed to have 90% power to demonstrate equivalence of the two warming methods on final intra-operative temperature at the 0.05 significance level using the 2 one-tailed tests equivalence testing technique and an equivalence region of 0.5 degrees C per hour, assuming a SD of 0.5 degrees C/hour for each group and zero true difference.||||<0.001
92325001|NCT00715728|184555188|NON_INFERIORITY|The non-inferiority margin is defined as 0.5 °C. Non-inferiority at the 0.025 significance level will be claimed if the lower limit of the 95% confidence interval is higher than the -0.5 °C.|Mean Difference (Final Values)|-0.12||||0.018|TWO_SIDED|95.0|-0.37|0.14||P-value was adjusted for preoperative oral temperature and ASA physical status.|t-test, 1 sided||Non-inferiority will be established, at the 0.025 significance level, if the lower limit of a 95% confidence interval for the difference is above -0.5 °C.|Null hypothesis is the Hot dog resistive heating system is inferior to the Bair Hugger forced air system. Mean difference (95% CI) of the intraoperative TWA temperature between the groups (resistive heating versus forced-air) will be adjusting for preoperative oral temperature and ASA physical status.||0.14|-0.37|0.018
92200359|NCT00422734|184298916|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for GAQ Question 1|Regression, Logistic|Model included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
92200360|NCT00422734|184298916|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for GAQ Question 2|Regression, Logistic|Model included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
92325002|NCT00478699|184555210|SUPERIORITY||Hazard Ratio (HR)|0.946||||0.73|TWO_SIDED|95.0|0.689|1.298|||Log Rank|||Based on the relevant clinical evidence of the prognostic and predictive value of BRCA1, proposes the present study with which it is intended to demonstrate that adjuvant chemotherapy Individualized based on BRCA1 expression (Experimental arm), it is more effective than chemotherapy without individualize based (Control arm) in patients with completely resected stage II-IIIA NSCLC.||1.298|0.689|0.73
92325003|NCT00478699|184555211|SUPERIORITY||Median Difference (Final Values)|79.3||||0.753|TWO_SIDED|95.0|63.5|95.1|||Log Rank|||Control Arm v Experimental Arm||95.1|63.5|0.753
92325004|NCT00478699|184555211|SUPERIORITY|The initial hyphotesis were the disease free survival were longest under 65 vs upper 65.|Median Difference (Final Values)|38.7||||0.025|TWO_SIDED|95.0|28.0|38.7|||Log Rank|||Control Arm v Experimental Arm||38.7|28|0.025
92325005|NCT01508130|184555212|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.08||||0.6451|TWO_SIDED|95.0|0.78|1.49|||Wald residual chi-square test||Due to the non-interventional study design, the Cox model included a propensity score as a covariate (incorporated important demographics and baseline characteristics) to account for the potential imbalance between treatment groups.|||1.49|0.78|0.6451
92325006|NCT01508130|184555212|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.02||||0.8826|TWO_SIDED|95.0|0.78|1.34|||Wald residual chi-square test||Without Propensity Score as a Covariate.|||1.34|0.78|0.8826
92325007|NCT01508130|184555213|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.7695|TWO_SIDED|95.0|0.58|1.49|||Multiple Logistic Regression||A multiple logistic regression model including a propensity score as a covariate (incorporated important demographics and baseline characteristics) was used for the treatment comparison.|||1.49|0.58|0.7695
92325008|NCT01508130|184555213|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.2594|TWO_SIDED|95.0|0.84|1.92|||Multiple Logistic Regression||Without Propensity Score as a Covariate|||1.92|0.84|0.2594
92325009|NCT01508130|184555220|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.03||||0.9156|TWO_SIDED|95.0|0.64|1.64|||Wald residual chi-square test||95% CI for median was computed using the method of Brookmeyer and Crowley.|||1.64|0.64|0.9156
92200361|NCT00422734|184298917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEP Question 1|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92200362|NCT00422734|184298917|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEP Question 2|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92325010|NCT01508130|184555221|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.5649|TWO_SIDED|95.0|0.57|1.36|||Wald residual chi-square test||95% CI for median was computed using the method of Brookmeyer and Crowley.|||1.36|0.57|0.5649
92325011|NCT01820572|184555279|SUPERIORITY|difference between belatacept and CNI|Difference in proportions|0.9|||||TWO_SIDED|95.0|-8.6|10.4||||||||10.4|-8.6|
92325012|NCT01820572|184555280|SUPERIORITY|difference between belatacept and CNI|Difference in Proportions|-0.4|||||TWO_SIDED|95.0|-9.9|9.0||||||||9.0|-9.9|
92325013|NCT05356533|184555301|SUPERIORITY||Risk Ratio (RR)|1.08|||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>.05
92325014|NCT05356533|184555301|SUPERIORITY||Risk Ratio (RR)|1.08|||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
92200363|NCT00422734|184298918|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEAR Total Score|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92200364|NCT00422734|184298918|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEAR Sexual Relationship|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92200365|NCT00422734|184298918|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEAR Confidence|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92325015|NCT05356533|184555302|SUPERIORITY||Risk Ratio (RR)|1.08|||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>.05
92325016|NCT05356533|184555303|SUPERIORITY||Risk Ratio (RR)|0.81|||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>.05
92325017|NCT05356533|184555304|SUPERIORITY||Risk Ratio (RR)|0.91|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
92325018|NCT05356533|184555305|SUPERIORITY||Risk Ratio (RR)|0.99|||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>.05
92325019|NCT05356533|184555306|SUPERIORITY||Risk Ratio (RR)|1.11|||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>.05
92325020|NCT03852628|184555307|SUPERIORITY||Odds Ratio (OR)|0.17||||0.08|TWO_SIDED|95.0|0.02|1.22|||Mixed Models Analysis|Modeled the probability of having a reduction in AUD||The Placebo arm served as the reference group.||1.22|0.02|0.08
92325021|NCT03852628|184555308|SUPERIORITY||Odds Ratio (OR)|0.76||||0.69|TWO_SIDED|95.0|0.2|2.97|||Mixed Models Analysis|Modeled the probability of reduction in PTSD symptom.||The placebo arm served as the reference group.||2.97|0.20|0.690
92325022|NCT03852628|184555309|SUPERIORITY||Odds Ratio (OR)|0.63||||0.52|TWO_SIDED|95.0|0.15|2.66|||Mixed Models Analysis|Modeled the probability of have both a reduction in PTSD and AUD||The Placebo arm served as the reference group.||2.66|0.15|0.52
92325023|NCT00197002|184555422|NON_INFERIORITY_OR_EQUIVALENCE|"The two-sided standardized asymptotic 95% confidence interval (CI) for the difference in seropositivity rates \[Havrix+Prevnar Group minus Havrix Group\] was computed. The anti-HAV seropositivity rates in the Havrix+Prevnar Group were considered as non-inferior to the seropositivity rates in the Havrix Group, if the lower limit of the 95% CI was not lower (≥) than -5%.~The non-inferiority was concluded if both non-inferiority criteria (for seropositivity rates and GMCs) were met."|Difference in seropositivity rate|-1.06|||||TWO_SIDED|95.0|-5.78|2.45||||||"Difference in seropositivity rates for anti-HAV:~To demonstrate the non-inferiority of Havrix® vaccine co-administered with Prevnar™ vaccine (Havrix+Prevnar Group), compared to Havrix® vaccine administered alone (Havrix Group), in terms of seropositivity rates and geometric mean concentrations (GMCs) for anti-HAV antibody, one month after Dose 2 of Havrix® vaccine (Month 7-10)."||2.45|-5.78|
92200366|NCT00422734|184298919|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEAR Self-Esteem|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92200367|NCT00422734|184298919|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEAR Overall Relationship|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
92200368|NCT00848484|184298920|SUPERIORITY_OR_OTHER|||||||0.277||95.0|||||constrained Longitudinal Data Analysis|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.277
92200369|NCT00848484|184298921|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.1 was used to adjust p-Values among five secondary cognition endpoints.|constrained Longitudinal Data Analysis|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.686
92200370|NCT00848484|184298922|SUPERIORITY_OR_OTHER|||||||0.933||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.1 was used to adjust p-Values among five secondary cognition endpoints.|constrained Longitudinal Data Analysis|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.933
92200371|NCT00848484|184298923|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.1 was used to adjust p-Values among 5 secondary cognition endpoints.|constrained Longitudinal Data Analysis|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.686
92200372|NCT00848484|184298924|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.1 was used to adjust p-Values among five secondary cognition endpoints.|Wilcoxon (Mann-Whitney)|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.686
92200373|NCT00848484|184298925|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.1 was used to adjust p-Values among 5 secondary cognition endpoints.|constrained Longitudinal Data Analysis|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.686
92200374|NCT02567708|184298929|OTHER||Posterior median difference.|0.007|STANDARD_DEVIATION|0.0468||0.57|TWO_SIDED|95.0|-0.083|0.102||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.102|-0.083|0.57
92200375|NCT02567708|184298930|OTHER||Posterior median difference.|0.013|STANDARD_DEVIATION|0.0501||0.61|TWO_SIDED|95.0|-0.084|0.113||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.113|-0.084|0.61
92200376|NCT02567708|184298931|OTHER|The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Posterior median difference|0.05|STANDARD_DEVIATION|0.0818||0.731|TWO_SIDED|95.0|-0.111|0.21|||Bayesian model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.210|-0.111|0.731
92325024|NCT00197002|184555423|NON_INFERIORITY_OR_EQUIVALENCE|"The standardized two-sided 95% CI for the GMC ratio (Havrix+Prevnar Group divided by Havrix Group) was computed. The anti-HAV GMC in the Havrix+Prevnar Group was considered as non-inferior to the anti-HAV GMC in the Havrix Group if the lower limit of the 95% CI was not lower than (≥) 0.5.~The non-inferiority of the anti-HAV immune response in Havrix+Prevnar Group compared to Havrix Group was concluded if both non-inferiority criteria (for seropositivity rates and GMCs) were met."|Adjusted GMC ratio|0.91|||||TWO_SIDED|95.0|0.63|1.31|||ANCOVA|||To demonstrate the non-inferiority of Havrix® vaccine co-administered with Prevnar™ vaccine (Havrix+Prevnar Group), compared to Havrix® vaccine administered alone (Havrix Group), in terms of seropositivity rates and geometric mean concentrations (GMCs) for anti-HAV antibody, one month after Dose 2 of Havrix® vaccine (Month 7-10).||1.31|0.63|
92325025|NCT05072106|184555443|OTHER|Bioequivalence|Least-squares geometric mean ratio|96.83|||||TWO_SIDED|90.0|81.09|115.62|||||The reported results are the same as the ones reported in the CSR of the trial.|||115.62|81.09|
92200377|NCT02567708|184298932|OTHER||Posterior median difference|-0.009|STANDARD_DEVIATION|0.0712||0.44|TWO_SIDED|95.0|-0.151|0.131||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 7. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.131|-0.151|0.44
92200378|NCT02567708|184298932|OTHER||Posterior median difference|0.024|STANDARD_DEVIATION|0.057||0.66|TWO_SIDED|95.0|-0.087|0.137||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 14. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.137|-0.087|0.66
92200379|NCT02567708|184298933|OTHER||Posterior median difference|-0.021|STANDARD_DEVIATION|0.0609||0.35|TWO_SIDED|95.0|-0.14|0.099||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 7. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.099|-0.140|0.35
92200380|NCT02567708|184298933|OTHER||Posterior median difference|0.04|STANDARD_DEVIATION|0.0578||0.76|TWO_SIDED|95.0|-0.071|0.156||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 14. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.156|-0.071|0.76
92200381|NCT02567708|184298933|OTHER||Posterior median difference|0.038|STANDARD_DEVIATION|0.0559||0.76|TWO_SIDED|95.0|-0.073|0.148||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 28. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.148|-0.073|0.76
92200382|NCT02567708|184298934|OTHER||Posterior median difference|0.083|STANDARD_DEVIATION|0.6175||0.56|TWO_SIDED|95.0|-1.102|1.346||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 7. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||1.346|-1.102|0.56
92200383|NCT02567708|184298934|OTHER||Posterior median difference|0.014|STANDARD_DEVIATION|0.6672||0.51|TWO_SIDED|95.0|-1.271|1.341||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 14. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||1.341|-1.271|0.51
92200384|NCT02567708|184298934|OTHER||Posterior median difference|-0.113|STANDARD_DEVIATION|0.5148||0.41|TWO_SIDED|95.0|-1.125|0.908||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 28. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo..|||0.908|-1.125|0.41
92200385|NCT02567708|184298935|OTHER||Posterior median difference|0.5|STANDARD_DEVIATION|0.59||0.81|TWO_SIDED|95.0|-0.6|1.7||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||1.7|-0.6|0.81
92200386|NCT02567708|184298938|OTHER||Posterior median ratio|0.89|STANDARD_DEVIATION|0.063||0.97|TWO_SIDED|95.0|0.78|1.0||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 7. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median ratio is calculated as GSK2269557 1000 μg/ Placebo.|||1.00|0.78|0.97
92200387|NCT02567708|184298938|OTHER||Posterior median ratio|0.95|STANDARD_DEVIATION|0.071||0.76|TWO_SIDED|95.0|0.83|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 14. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median ratio is calculated as GSK2269557 1000 μg/ Placebo.|||1.09|0.83|0.76
92200388|NCT02567708|184298938|OTHER||Posterior median ratio|1.0|STANDARD_DEVIATION|0.085||0.51|TWO_SIDED|95.0|0.84|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than one.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 28. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median ratio is calculated as GSK2269557 1000 μg/ Placebo.|||1.18|0.84|0.51
92200389|NCT00706654|184298947|NON_INFERIORITY_OR_EQUIVALENCE|The test of non-inferiority of was performed using a 95% confidence interval (CI, 2-sided) for the difference in the estimated percentage of patients meeting exacerbation of psychotic symptoms/impending relapse criteria by the end of Week 26. Non-inferiority was considered confirmed if the upper bound of the 2-sided 95% CI was below the predefined margin, 11.5%.|Mean Difference (Final Values)|-0.64||||0.7871|TWO_SIDED|95.0|-5.26|3.99|||z-statistics||The 95% CI of the difference in proportions of subjects with impending relapse events between aripiprazole IM depot 300 or 400 mg mg and oral aripiprazole were provided using the pooled SE with assumption of normality of the estimated difference.|Sample sizes were estimated to achieve 93% power for the primary non-inferiority 2-sided comparison at 0.05 significance using large sample normal approximations for the distribution of the difference in binomial proportions. The assumed proportion of impending relapse at or before Week 26 for the oral aripiprazole 10-30 mg arm was 18% and the predefined non-inferiority margin was 11.5%. The sample size was projected to be 260 each for the IM depot 300 or 400 mg and oral 10-30 mg arms.||3.99|-5.26|0.7871
92268654|NCT00929201|184439250|NON_INFERIORITY_OR_EQUIVALENCE|The FMI sitagliptin/metformin 50/500 mg FDC tablet and coadministration of corresponding doses of sitagliptin and metformin as individual tablets after consumption of a standard high-fat breakfast will be bioequivalent for metformin based on assessment of the AUC0-∞ for metformin \[i.e., the true metformin AUC0-∞GMR (sitagliptin/metformin 50/500 mg FDC tablet/co-administration of sitagliptin and metformin as individual tablets will be contained within (0.80, 1.25)\].|Least-Squares Mean Ratio|0.97||||||90.0|0.95|1.0||||||Least-Squares Mean Ratio calculated as Sitagliptin/Metformin 50/500 mg FDC tablet divided by Sitagliptin 50 mg and metformin 500 mg individual tablets||1.00|0.95|
92325026|NCT05072106|184555444|OTHER|Bioequivalence|Least-squares geometric mean ratio|79.81|||||TWO_SIDED|90.0|64.78|98.32||||||||98.32|64.78|
92325027|NCT05072106|184555445|OTHER|Bioequivalence|Least-squares geometric mean ratio|79.2|||||TWO_SIDED|90.0|64.12|97.82||||||||97.82|64.12|
92325028|NCT05072106|184555446|OTHER|Bioequivalence|Least-squares geometric mean ratio|125.3|||||TWO_SIDED|90.0|101.71|154.36||||||||154.36|101.71|
92200390|NCT00706654|184298947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.68||||0.0006|TWO_SIDED|95.0|-23.09|-6.27||Once non-inferiority was declared, superiority of depot 300/400 mg over depot 25/50 mg was tested by the difference between the proportion of subjects experiencing impending relapse by the end of Week 26 (2-sided 0.05 significance level z-statistic).|z-statistics|The same method was used to compare IM depot 300 or 400 mg with IM depot 25 or 50 mg in the estimated proportion of subjects with impending relapse.||For the superiority comparison (assay sensitivity analysis) of IM depot 300 or 400 mg to IM depot 25 or 50 mg, on a 2:1 randomization, sample sizes of 260 and 130, respectively, were calculated to provide about 95% power at the 0.05 significance level (2-sided). A superiority margin of 17% was assumed.||-6.27|-23.09|0.0006
92200391|NCT00706654|184298949|SUPERIORITY_OR_OTHER|||||||0.875||95.0|||||z-statistics|||||||0.8750
92200392|NCT00706654|184298949|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||z-statistics|||||||0.0001
92200393|NCT00706654|184298950|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||z-statistics|||||||0.3700
92200394|NCT00706654|184298950|SUPERIORITY_OR_OTHER|||||||0.1097||95.0|||||z-statistics|||||||0.1097
92200395|NCT02097303|184298953|OTHER||||||<|1e-05||||||Comparison of ALP levels before and after treatment|t-test, 2 sided|||||||<.00001
92200396|NCT02097303|184298953|OTHER|||||||0.487||||||Comparison of PSA levels before and after treatment|t-test, 2 sided|||||||0.4870
92200397|NCT02975102|184298967|NON_INFERIORITY|A sample size of 33 evaluable patients per treatment group was calculated to provide at least 90% power to demonstrate non-inferiority of CBL-101 to Vismed Multi. Assumptions included a non-inferiority margin of 2 grades and a standard deviation of 2.5|Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.2|0.3|||||Treatment difference : CBL-101 - Vismed Multi|||0.3|-1.2|
92200398|NCT02975102|184298968|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
92200399|NCT02975102|184298969|SUPERIORITY|||||||0.0002||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0002
92200400|NCT02975102|184298970|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
92200401|NCT02975102|184298971|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
92200402|NCT02975102|184298972|SUPERIORITY|||||||0.0186||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0186
92200403|NCT02975102|184298973|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
92200404|NCT02975102|184298974|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
92200405|NCT02975102|184298975|SUPERIORITY|||||||0.0011||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0011
92200406|NCT02975102|184298976|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
92200407|NCT02975102|184298977|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
92200408|NCT02975102|184298978|SUPERIORITY|||||||0.005||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.005
92200409|NCT02975102|184298979|SUPERIORITY|||||||0.0008||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0008
92200410|NCT02975102|184298980|SUPERIORITY|||||||0.0026||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0026
92200411|NCT02975102|184298981|SUPERIORITY|||||||0.077||||||Significance level of 0.05 . P-Value result provided only for Global Question|ANCOVA|Adjustment for baseline||||||0.077
92200412|NCT02975102|184298982|SUPERIORITY|||||||0.6097||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.6097
92200413|NCT02975102|184298983|SUPERIORITY|||||||0.231||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.231
92200414|NCT02975102|184298984|SUPERIORITY|||||||0.0135||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0135
92200415|NCT02975102|184298985|SUPERIORITY|||||||0.575||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.575
92200416|NCT05262751|184298996|OTHER||gMean Ratio|16.69|||||TWO_SIDED|90.0|7.28|38.24|||||gMean Ratio: MR1-1/R. Intra-individual Geometric coefficient of variation \[%\] = 34.1|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||38.24|7.28|
92200417|NCT05262751|184298996|OTHER||gMean Ratio|13.54|||||TWO_SIDED|90.0|8.1|22.64|||||gMean Ratio: MR1-2/R. Intra-individual Geometric coefficient of variation \[%\] = 34.1|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||22.64|8.10|
92200418|NCT05262751|184298996|OTHER||gMean Ratio|41.8|||||TWO_SIDED|90.0|34.24|51.04|||||gMean Ratio: MR2-1/R. Intra-individual Geometric coefficient of variation \[%\] = 28.4|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||51.04|34.24|
92200419|NCT05262751|184298996|OTHER||gMean Ratio|42.91|||||TWO_SIDED|90.0|34.9|52.76|||||gMean Ratio: MR2-2/R. Intra-individual Geometric coefficient of variation \[%\] = 28.4|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||52.76|34.90|
92200420|NCT05262751|184298997|OTHER||gMean Ratio|9.36|||||TWO_SIDED|90.0|5.91|14.8|||||gMean Ratio: MR1-1/R. Intra-individual Geometric coefficient of variation \[%\] = 44.8|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||14.80|5.91|
92200421|NCT05262751|184298997|OTHER||gMean Ratio|12.41|||||TWO_SIDED|90.0|7.93|19.43|||||gMean Ratio: MR1-2/R. Intra-individual Geometric coefficient of variation \[%\] = 44.8|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||19.43|7.93|
92325029|NCT05072106|184555447|OTHER|Bioequivalence|Least-squares geometric mean ratio|106.79|||||TWO_SIDED|90.0|74.63|152.8||||||||152.8|74.63|
92325030|NCT05072106|184555448|OTHER|Bioequivalence|Least-squares geometric mean ratio|104.93|||||TWO_SIDED|90.0|69.49|158.44||||||||158.44|69.49|
92200422|NCT05262751|184298997|OTHER||gMean Ratio|37.9|||||TWO_SIDED|90.0|29.25|49.11|||||gMean Ratio: MR2-1/R. Intra-individual Geometric coefficient of variation \[%\] = 40.4|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||49.11|29.25|
92200423|NCT05262751|184298997|OTHER||gMean Ratio|35.89|||||TWO_SIDED|90.0|27.66|46.55|||||gMean ratio: MR2-2/R. Intra-individual Geometric coefficient of variation \[%\] = 40.4|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||46.55|27.66|
92200424|NCT05262751|184298998|OTHER||gMean Ratio|12.09|||||TWO_SIDED|90.0|6.73|21.71|||||gMean Ratio: MR1-1/R. Intra-individual Geometric coefficient of variation \[%\] = 58.8|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||21.71|6.73|
92200425|NCT05262751|184298998|OTHER||gMean Ratio|23.94|||||TWO_SIDED|90.0|13.51|42.42|||||gMean Ratio: MR1-2/R. Intra-individual Geometric coefficient of variation \[%\] = 58.8|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||42.42|13.51|
92200426|NCT05262751|184298998|OTHER||gMean Ratio|68.55|||||TWO_SIDED|90.0|50.07|93.86|||||gMean ratio: MR2-1/R. Intra-individual Geometric coefficient of variation \[%\] = 50.0|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||93.86|50.07|
92200427|NCT05262751|184298998|OTHER||gMean Ratio|66.85|||||TWO_SIDED|90.0|48.77|91.64|||||gMean ratio: MR2-2/R. Intra-individual Geometric coefficient of variation \[%\] = 50.0|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||91.64|48.77|
92200428|NCT05262751|184298999|OTHER||gMean Ratio|11.96|||||TWO_SIDED|90.0|8.88|16.11|||||gMean ratio: MR1-1/R. Intra-individual Geometric coefficient of variation \[%\] = 23.5|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||16.11|8.88|
92200429|NCT05262751|184298999|OTHER||gMean Ratio|13.98|||||TWO_SIDED|90.0|10.59|18.46|||||gMean ratio: MR1-2/R. Intra-individual Geometric coefficient of variation \[%\] = 23.5|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||18.46|10.59|
92200430|NCT05262751|184298999|OTHER||gMean Ratio|32.13|||||TWO_SIDED|90.0|26.46|39.01|||||gMean ratio: MR2-1/R. Intra-individual Geometric coefficient of variation \[%\] = 29.3.|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||39.01|26.46|
92200431|NCT05262751|184298999|OTHER||gMean Ratio|31.38|||||TWO_SIDED|90.0|25.71|38.3|||||gMean ratio: MR2-2/R. Intra-individual Geometric coefficient of variation \[%\] = 29.3.|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||38.30|25.71|
92325031|NCT05072106|184555449|OTHER|bioequivalence|Least-squares geometric mean ratio|88.44|||||TWO_SIDED|90.0|65.62|119.19||||||||119.19|65.62|
92325032|NCT05072106|184555450|OTHER|bioequivalence|Least-squares geometric mean ratio|81.8|||||TWO_SIDED|90.0|54.8|119.96||||||||119.96|54.8|
92325033|NCT05072106|184555451|OTHER|bioequivalence|Least-squares geometric mean ratio|80.26|||||TWO_SIDED|90.0|54.26|118.72||||||||118.72|54.26|
92200432|NCT00594022|184299000|SUPERIORITY_OR_OTHER|||||||0.1275|||||||t-test, 1 sided|||||||.1275
92200433|NCT01727505|184299037|SUPERIORITY_OR_OTHER|||||||0.44|||||||Wilcoxon signed rank test|||||||0.44
92325034|NCT05072106|184555452|OTHER|bioequivalence|Least-squares geometric mean ratio|123.34|||||TWO_SIDED|90.0|83.36|182.49||||||||182.49|83.36|
92200434|NCT01727505|184299038|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon signed rank test|||||||.75
92200435|NCT01727505|184299039|SUPERIORITY_OR_OTHER|||||||0.2|||||||Wilcoxon signed rank test|||||||0.2
92200436|NCT01727505|184299040|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon signed rank test|||||||0.02
92200437|NCT01727505|184299041|SUPERIORITY_OR_OTHER|||||||0.049|||||||Wilcoxon signed rank test|||||||.049
92200438|NCT01727505|184299042|SUPERIORITY_OR_OTHER|||||||0.006|||||||Paired t-test|||||||0.006
92200439|NCT01154140|184299043|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.454|||<|0.0001|TWO_SIDED|95.0|0.346|0.596||P-value was obtained from 1-sided log rank test, stratified by eastern cooperative oncology group performance status (ECOG PS),race,brain metastases. 1-sided log-rank test at 0.0247 level of significance was used to compare PFS between the 2 arms.|Log Rank|||||0.596|0.346|<0.0001
92200440|NCT01154140|184299044|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.0489|TWO_SIDED|95.0|0.548|1.053||P-value was obtained from 1-sided log rank test, stratified by ECOG PS, race group and brain metastases.|Log Rank||HR was calculated based on the Cox Proportional hazards model stratified by ECOG PS, race group, and brain metastases. Assuming proportional hazards, a hazard ratio (less than)\<1 indicates a reduction in hazard rate in favor of crizotinib.|||1.053|0.548|0.0489
92325035|NCT05072106|184555453|OTHER|bioequivalence|Least-squares geometric mean ratio|120.5|||||TWO_SIDED|90.0|64.79|224.13||||||||224.13|64.79|
92325036|NCT05072106|184555454|OTHER|bioequivalence|Least-squares geometric mean ratio|120.5|||||TWO_SIDED|90.0|64.79|224.13||||||||224.13|64.79|
92325037|NCT05072106|184555455|OTHER|bioequivalence|Least-squares geometric mean ratio|188.13|||||TWO_SIDED|90.0|132.93|266.26||||||PK parameter used was the log-transformed metabolite/parent ratio (MPR) of M1 dose-normalized Cmax.||266.26|132.93|
92325038|NCT05072106|184555456|OTHER|bioequivalence|Least-squares geometric mean ratio|245.46|||||TWO_SIDED|90.0|133.4|451.65||||||PK parameter used was the log-transformed metabolite/parent ratio (MPR) of M1 dose-normalized AUC0-t.||451.65|133.4|
92200441|NCT01154140|184299046|SUPERIORITY_OR_OTHER||Difference in Percentage|29.4|||<|0.0001|TWO_SIDED|95.0|19.5|39.3||P-value was obtained from a Pearson chi-square test.|Pearson chi-square test||95% CI was calculated based on normal distribution.|If the PFS endpoint was significant, ORR was to be considered significant if the 2-sided p-value from Pearson chi-square test was (less than or equal to)\<= 0.0494.||39.3|19.5|<0.0001
92325039|NCT05072106|184555457|OTHER|bioequivalence|Least-squares geometric mean ratio|104.94|||||TWO_SIDED|90.0|94.07|117.05||||||PK parameter used was the log-transformed metabolite/parent ratio (MPR) of M4 dose-normalized Cmax.||117.05|94.07|
92325040|NCT05072106|184555458|OTHER|bioequivalence|Least-squares geometric mean ratio|91.02|||||TWO_SIDED|90.0|71.39|116.04||||||PK parameter used was the log-transformed metabolite/parent ratio (MPR) of M4 dose-normalized AUC0-t.||116.04|71.39|
92325041|NCT05027048|184555474|SUPERIORITY||Mean Difference (Net)|211.0|||<|0.05|TWO_SIDED|95.0|-33.0|410.0||a priori threshold for statistical significance p\<0.05|inverse Gaussian distribution and log li|Inverse Gaussian distribution and log link fit to estimate the effect size and 95% CIs|Inverse gaussian regression with a log link was used to calculate the mean reduction in blood loss in the calcium group relative to placebo group.|||410|-33|<0.05
92325042|NCT05027048|184555475|SUPERIORITY||Risk Ratio (RR)|0.71|||||TWO_SIDED|95.0|0.48|1.03|||Regression (poisson with robust SE)|||||1.03|0.48|
92325043|NCT05027048|184555476|SUPERIORITY||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.46|1.23|||Poisson regression with robust SE|||||1.23|0.46|
92325044|NCT05027048|184555477|SUPERIORITY||Risk Ratio (RR)|0.56|||||TWO_SIDED|95.0|0.2|1.56||||||||1.56|0.2|
92325045|NCT05027048|184555478|SUPERIORITY||Mean Difference (Final Values)|-2.0|||||TWO_SIDED|95.0|-3.6|0.2|||Regression, Linear|Data were log transformed to approximate a normal distribution prior to linear regression.||||0.2|-3.6|
92325046|NCT05027048|184555480|SUPERIORITY|||||||0.415|||||||Wilcoxon (Mann-Whitney)|||||||0.415
92200442|NCT01154140|184299049|SUPERIORITY_OR_OTHER||Difference in Percentage|10.067||||0.0381|TWO_SIDED|95.0|0.8|19.4|||Pearson chi-square test|||The confidence interval for the difference in percentage was based on normal distribution.||19.4|0.8|0.0381
92200443|NCT01154140|184299050|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.441|||<|0.0001|TWO_SIDED|95.0|0.335|0.582||P-value was obtained from 1-sided unstratified log-rank test.|Log Rank|||Analysis was based on the Cox Proportional hazards model assuming proportional hazards, a HR \<1 indicated a reduction in hazard rate in favor of Crizotinib.||0.582|0.335|<0.0001
92325047|NCT05027048|184555481|SUPERIORITY|||||||0.566|||||||Wilcoxon (Mann-Whitney)|||||||0.566
92325048|NCT05027048|184555483|SUPERIORITY|||||||0.348|||||||ANOVA|||Repeated measures ANOVA used to analyze differences between groups.||||0.348
92325049|NCT05027048|184555484|SUPERIORITY|||||||0.011|||||||ANOVA|Repeated measures ANOVA.||Repeated measures ANOVA used to assess for difference between groups in the % change from baseline heart rate.||||0.011
92325050|NCT05027048|184555486|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.25
92325051|NCT05027048|184555487|OTHER||||||||||||||||||"Note: a two-compartment pharmacokinetic model was generated in NONMEM using 6 venous blood ionized calcium measurements per participant at random times. The change in ionized calcium was defined as a measured value minus the measured baseline for the patient.~Once the two-compartment pharmacokinetic model was generated, NONMEM was used to generate a predicted ionized calcium concentration at 10 minutes (Tmax) for each participant to generate mean and 95% confidence interval."|||
92325052|NCT05027048|184555489|SUPERIORITY||Mean Difference (Net)|356.0|||<|0.05|TWO_SIDED|95.0|159.0|515.0|||Inverse Gaussian regression, log link||Reduction in blood loss was calculated by inverse Gaussian regression with a log link as detailed in the description of statistical methods for the primary outcome.|||515|159|<0.05
92325053|NCT03051516|184555508|SUPERIORITY|||||||0.89|||||||Chi-squared|||This p-value compares HPV16 persistence by study arm.||||0.89
92325054|NCT03051516|184555508|SUPERIORITY|||||||0.65|||||||Chi-squared|||This p-value compares HPV18/45 persistence by study arm.||||0.65
92325055|NCT03051516|184555508|SUPERIORITY|||||||0.056|||||||Chi-squared|||This p-value compares HPV31/33/52/58 persistence by study arm.||||0.056
92200444|NCT01154140|184299051|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.595||||0.0347|TWO_SIDED|95.0|0.338|1.048||P-value was obtained from 1-sided unstratified log-rank test.|Log Rank|||Analysis was based on the Cox Proportional hazards model assuming proportional hazards, a HR less than 1 indicated a reduction in hazard rate in favor of Crizotinib.||1.048|0.338|0.0347
92325056|NCT03051516|184555508|SUPERIORITY|||||||0.38|||||||Chi-squared|||This p-value compares HPV35/39/51/56/59 persistence by study arm.||||0.38
92325057|NCT03051516|184555508|SUPERIORITY|||||||0.33||||||This p-value compares overall HPV persistence and is not specific to HPV genotype.|Chi-squared|||||||0.33
92325058|NCT03051516|184555509|SUPERIORITY|||||||0.54|||||||Log Rank|||||||0.54
92325059|NCT03051516|184555510|OTHER|Descriptive analysis||||||0.135|||||||Chi-squared|||This comparison is specific to the incidence of fever or chills.||||0.135
92325060|NCT03051516|184555510|OTHER|Descriptive analysis||||||0.64|||||||Chi-squared|||This comparison is specific to the incidence of headache.||||0.640
92325061|NCT03051516|184555510|OTHER|Descriptive analysis||||||0.838|||||||Chi-squared|||This comparison is specific to the incidence of fatigue.||||0.838
92325062|NCT03051516|184555510|OTHER|Descriptive analysis||||||0.917|||||||Chi-squared|||This comparison is specific to the incidence of muscle aches.||||0.917
92325063|NCT03051516|184555510|OTHER|Descriptive analysis||||||0.005|||||||Chi-squared|||This comparison is specific to the incidence of pain at injection site.||||0.005
92325064|NCT03051516|184555510|OTHER|Descriptive analysis||||||0.001|||||||Chi-squared|||This comparison is specific to the incidence of tenderness at injection site.||||0.001
92325065|NCT03051516|184555510|OTHER|Descriptive analysis||||||0.004|||||||Chi-squared|||This comparison is specific to the incidence of swelling at injection site.||||0.004
92325066|NCT03051516|184555510|OTHER|Descriptive analysis||||||0.133|||||||Chi-squared|||This comparison is specific to the incidence of medical attention/medication required.||||0.133
92325067|NCT03051516|184555511|SUPERIORITY|||||||0.93|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV16, in Arm I (Vaccine)||||0.93
92325068|NCT03051516|184555511|SUPERIORITY|||||||0.77|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV18, in Arm I (Vaccine)||||0.77
92325069|NCT03051516|184555511|SUPERIORITY|||||||0.57|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV31, in Arm I (Vaccine)||||0.57
92325070|NCT03051516|184555511|SUPERIORITY|||||||0.73|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV33, in Arm I (Vaccine)||||0.73
92325071|NCT03051516|184555511|SUPERIORITY|||||||0.998|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV45, in Arm I (Vaccine)||||0.998
92325072|NCT03051516|184555511|SUPERIORITY|||||||0.93|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV52, in Arm I (Vaccine)||||0.93
92325073|NCT03051516|184555511|SUPERIORITY|||||||0.95|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV58, in Arm I (Vaccine)||||0.95
92325074|NCT03051516|184555511|SUPERIORITY|||||||0.91|||||||Log Rank|||This p-value compares HSIL recurrence and presence of any HPV type, in Arm I (Vaccine)||||0.91
92325075|NCT03051516|184555511|SUPERIORITY|||||||0.22|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV16, in Arm II (Placebo)||||0.22
92325076|NCT03051516|184555511|SUPERIORITY|||||||0.27|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV18, in Arm II (Placebo)||||0.27
92325077|NCT03051516|184555511|SUPERIORITY|||||||0.72|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV31, in Arm II (Placebo)||||0.72
92200445|NCT01154140|184299052|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.387|||<|0.0001|TWO_SIDED|95.0|0.286|0.524||P-value was obtained from 1-sided unstratified log-rank test.|Log Rank|||Analysis was based on the Cox Proportional hazards model assuming proportional hazards, a HR less than 1 indicated a reduction in hazard rate in favor of Crizotinib.||0.524|0.286|<0.0001
92325078|NCT03051516|184555511|SUPERIORITY|||||||0.71|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV33, in Arm II (Placebo)||||0.71
92325079|NCT03051516|184555511|SUPERIORITY|||||||0.11|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV45, in Arm II (Placebo)||||0.11
92325080|NCT03051516|184555511|SUPERIORITY|||||||0.58|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV52, in Arm II (Placebo)||||0.58
92325081|NCT03051516|184555511|SUPERIORITY|||||||0.81|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV58, in Arm II (Placebo)||||0.81
92325082|NCT03051516|184555511|SUPERIORITY|||||||0.73|||||||Log Rank|||This p-value compares HSIL recurrence and presence of any HPV type, in Arm II (Placebo)||||0.73
92325083|NCT00507819|184555517|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Regression, Linear|||||||0.73
92325084|NCT00507819|184555518|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Regression, Linear|||||||0.37
92325085|NCT00507819|184555519|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Regression, Linear|||||||0.05
92325086|NCT00507819|184555520|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Regression, Linear|||||||0.04
92325087|NCT02357706|184555537|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"We are testing the Hypothesis that there is a significant difference between CPAP A and CPAP B~The Null Hypothesis is H0 = One CPAP is inferior to the other CPAP The Alternate Hypothesis is H1 = There is no significant difference between the CPAPs"|Mean Difference (Final Values)|1.24||||0.537|TWO_SIDED||||||t-test, 1 sided|||"Comparison of AHI/ oxygen desaturation index (ODI) of Device A compared with Device B.~Efficacy is defined as a residual AHI and ODI on each night of the trial. PSG scored AHI and ODI will be collected on both trial nights (excluding the ramp period); and compared using the Paired T test"||||0.537
92325088|NCT02357706|184555537|NON_INFERIORITY|"We are testing the Hypothesis that there is a significant difference between CPAP A and CPAP B~The Null Hypothesis is H0 = One CPAP is inferior to the other CPAP The Alternate Hypothesis is H1 = There is no significant difference between the CPAPs~The expected difference mu is 0 events/hr The Non-Inferiority Margin delta is 0.75 events/hr (A difference of 1 event per hour is seen as clinically significant. 0.75 has been chosen to ensure any AHI change is seen)."|Mean Difference (Net)|1.24||||0.05|TWO_SIDED||||||t-test, 1 sided|||||||0.05
92325089|NCT02357706|184555538|NON_INFERIORITY|"We are testing the Hypothesis that there is a significant difference between CPAP A and CPAP B~The Null Hypothesis is H0 = One CPAP is inferior to the other CPAP The Alternate Hypothesis is H1 = There is no significant difference between the CPAPs~The expected difference mu is 0 events/hr The Non-Inferiority Margin delta is 0.75 events/hr (A difference of 1 event per hour is seen as clinically significant. 0.75 has been chosen to ensure any AHI change is seen)."|Mean Difference (Net)|2.69||||0.205|TWO_SIDED||||||t-test, 1 sided|||||||0.205
92325090|NCT02357706|184555538|NON_INFERIORITY|"We are testing the Hypothesis that there is a significant difference between CPAP A and CPAP B~The Null Hypothesis is H0 = One CPAP is inferior to the other CPAP The Alternate Hypothesis is H1 = There is no significant difference between the CPAPs~The expected difference mu is 0 events/hr The Non-Inferiority Margin delta is 0.75 events/hr (A difference of 1 event per hour is seen as clinically significant. 0.75 has been chosen to ensure any AHI change is seen)."|Mean Difference (Net)|2.69||||0.134|TWO_SIDED||||||t-test, 1 sided|||||||0.134
92325091|NCT02275780|184555546|NON_INFERIORITY|Doravirine is concluded to be non-inferior to darunavir + ritonavir if the lower bound of the 95% CI for the difference in percent response is above -10 percentage points.|Treatment Difference|3.913|||||TWO_SIDED|95.0|-1.59|9.415|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||9.415|-1.590|
92325092|NCT02275780|184555547|NON_INFERIORITY|Doravirine is concluded to be non-inferior to darunavir + ritonavir if the lower bound of the 95% CI for the difference in percent response is above -10 percentage points.|Treatment Difference|7.082|||||TWO_SIDED|95.0|0.508|13.656|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||13.656|0.508|
92325093|NCT02275780|184555548|OTHER||Mean treatment difference|7.1|||||TWO_SIDED|95.0|-20.8|35.0|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||35.0|-20.8|
92325094|NCT02275780|184555549|OTHER||Mean treatment difference|17.4|||||TWO_SIDED|95.0|-14.5|49.3|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||49.3|-14.5|
92325095|NCT02275780|184555550|OTHER||Treatment Difference (mg/dL)|-14.61|||<|0.0001|TWO_SIDED|95.0|-18.15|-11.06|||ANCOVA|Terms for Baseline lipid level and treatment group||||-11.06|-18.15|<0.0001
92325096|NCT02275780|184555551|OTHER||Treatment Difference (mg/dL)|-19.34|||<|0.0001|TWO_SIDED|95.0|-23.33|-15.35|||ANCOVA|Terms for Baseline lipid level and treatment group||||-15.35|-23.33|<0.0001
92325097|NCT02275780|184555560|OTHER||Treatment Difference|4.169|||||TWO_SIDED|95.0|-1.404|9.743|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||9.743|-1.404|
92325098|NCT02275780|184555561|OTHER||Treatment Difference|7.606|||||TWO_SIDED|95.0|0.98|14.232|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||14.232|0.980|
92200446|NCT01154140|184299059|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.591||||0.0002|TWO_SIDED|95.0|0.452|0.773||Two-sided p-value from the unstratified log rank test was used.|Log Rank|||HR was calculated based on the Cox Proportional hazards model. Assuming proportional hazards, a HR less than 1 indicated a reduction in hazard rate in favor of crizotinib.||0.773|0.452|0.0002
92325099|NCT03960866|184555562|SUPERIORITY||Mean Difference (Net)|0.12||||0.89|TWO_SIDED||||||t-test, 2 sided|||||||0.89
92325100|NCT00380081|184555579|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
92325101|NCT00380081|184555580|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|Cochran-Mantel-Haenszel|||||||<0.001
92325102|NCT00380081|184555581|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
92325103|NCT00380081|184555582|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
92325104|NCT00380081|184555583|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
92325105|NCT00380081|184555584|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
92325106|NCT00380081|184555585|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|Cochran-Mantel-Haenszel|||The outcome noted above reflects the all-night sleep quality rating of study subjects who had a scheduled awakening after approximately 4 hours of sleep, were kept awake for 30 minutes and then allowed to return to bed and to sleep. After 4 hours, they were awakened again and disconnected from the PSG apparatus. Morning testing was conducted that included the Sleep Quality questionnaire. Evaluation of the results should reflect the nature of the study and the scheduled sleep disturbance.||||<0.001
92325107|NCT00380081|184555586|SUPERIORITY_OR_OTHER||||||<|0.004||95.0||||Treatment effect|Cochran-Mantel-Haenszel|||||||<0.004
92325108|NCT00380081|184555587|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Treatment effect|Cochran-Mantel-Haenszel|||||||0.012
92325109|NCT00380081|184555588|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
92325110|NCT00380081|184555589|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
92200447|NCT01154140|184299060|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.8303|||<|0.0001|TWO_SIDED|95.0|10.74|16.92|||Mixed Models Analysis|||QLQ-C30 Global QoL: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||16.92|10.74|<0.0001
92325111|NCT00380081|184555590|SUPERIORITY_OR_OTHER|||||||0.79||95.0||||Treatment effect|ANCOVA|||||||0.790
92325112|NCT00380081|184555591|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||Treatment effect|ANCOVA|||||||0.083
92325113|NCT00380081|184555592|SUPERIORITY_OR_OTHER|||||||0.072||95.0||||Treatment effect|ANCOVA|||||||0.072
92325114|NCT00380081|184555592|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Period effect|ANCOVA|||||||<0.001
92325115|NCT00380081|184555593|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||Treatment effect|ANCOVA|||||||0.017
92325116|NCT02231879|184555595|SUPERIORITY|This is a two-sided test, with the null hypothesis that the distribution of the difference scores is the same in both arms.||||||0.65||||||Not adjusted for multiple comparisons, since this is the only pre-specified primary analysis. P\<=0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||This was a pre-specified primary analysis plan, and the two arms are compared with a Wilcoxon-Mann-Whitney test on the primary outcome. This is non-standard (since both arms contain both treatment groups), however, it is a valid test by randomization since it is a permutation test. The statistic of TISS in Period 1 minus TISS in Period 2 was chosen so that even if there are carry-over effects this will give a valid test.||||0.65
92325117|NCT02231879|184555595|SUPERIORITY||||||<|0.0001||||||Not adjusted for multiple comparisons, one-sided test, a priori significance set at 0.025|McNemar|||Maintenance of absolute lymphocyte count greater than 1000 cells/microliter measured 3 hours after a dose for plerixafor as compared to G-CSF||||<0.0001
92325118|NCT02231879|184555595|NON_INFERIORITY|Pre-specified non-inferiority margin of 0.40 which was estimated to be about 50% of the effect size of G-CSF versus placebo.||||||0.023||||||Not adjusted for multiple comparisons, one-sided test, a priori significance set at 0.025|McNemar|||Maintenance of absolute neutrophil counts \>500 cells/microliter for G-CSF versus plerixafor measured as the proportion of successes (75% of measured) while on G-CSF minus the proportion on plerixafor||||0.023
92325119|NCT00574249|184555630|SUPERIORITY_OR_OTHER|||||||0.086||||||Level of significance 5%; no adjustment for multiple comparisons necessary.|Cochran-Mantel-Haenszel|Two-sided CMH test stratified by country at the alpha level 0.05. Centers were pooled by country (Sweden and Finland pooled due to few participants).||Comparison of the proportion of participants in the adalimumab + calcipotriol/betamethasone group vs. the adalimumab + placebo group.||||0.086
92325120|NCT00574249|184555631|SUPERIORITY_OR_OTHER|||||||0.565||95.0|||||Fisher Exact|||||||0.565
92325121|NCT00574249|184555632|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Fisher Exact|||||||0.002
92325122|NCT00574249|184555633|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||||||0.003
92325123|NCT00574249|184555634|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Fisher Exact|||||||0.004
92325124|NCT00574249|184555635|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||Fisher Exact|||||||0.011
92325125|NCT00574249|184555636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.74||||0.204||95.0|-5.3|24.78|||ANOVA|One-way ANOVA. For confidence interval and difference estimate, adalimumab + calcipotriol/betamethasone minus adalimumab + placebo was used.||||24.78|-5.30|0.204
92325126|NCT00574249|184555637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.55||||0.272||95.0|-48.92|13.82|||ANOVA|One-way ANOVA. Confidence interval and difference estimated from adalimumab + calcipotriol/betamethasone minus adalimumab + placebo.||||13.82|-48.92|0.272
92325127|NCT00574249|184555638|SUPERIORITY_OR_OTHER|||||||0.413||95.0|||||Fisher Exact|||||||0.413
92325128|NCT00574249|184555639|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92325129|NCT00574249|184555640|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Fisher Exact|||||||0.028
92325130|NCT00574249|184555641|SUPERIORITY_OR_OTHER|||||||0.228||95.0|||||ANOVA|One-way ANOVA.||||||0.228
92325131|NCT00574249|184555642|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|One-way ANOVA.||||||< 0.001
92325132|NCT00574249|184555643|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|One-way ANOVA.||||||0.001
92325133|NCT00574249|184555644|SUPERIORITY_OR_OTHER|||||||0.764||95.0|||||ANOVA|One-way ANOVA.||||||0.764
92325134|NCT00574249|184555645|SUPERIORITY_OR_OTHER|||||||0.437||95.0|||||ANOVA|One-way ANOVA.||||||0.437
92325135|NCT00574249|184555646|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||ANOVA|One-way ANOVA.||||||0.740
92325136|NCT00574249|184555647|SUPERIORITY_OR_OTHER|||||||0.634||95.0|||||ANOVA|One-way ANOVA.||||||0.634
92325137|NCT03197870|184555648|SUPERIORITY|The primary hypotheses was tested in the modified intent-to-treat population using a Fisher's Exact Test with a 2-sided 5% significance level. razuprotafib 15 mg twice daily was tested first. If this was found to be statistically significant, then razuprotafib 15 mg once daily will be tested for statistical significance, at the same significance level.||||||0.495||||||Missing data was imputed using last observation carried forward; baseline values were not carried forward.|Fisher Exact|||The primary hypotheses tested was that razuprotafib 15 mg twice daily and razuprotafib 15 mg once daily will be superior to placebo in the improvement of diabetic retinopathy as measured by the Early Treatment Diabetic Retinopathy Study severity scale change from baseline at 48 weeks.||||0.495
92325138|NCT01542034|184555669|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.702|||<|0.001|TWO_SIDED|95.0|2.808|4.88|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) method stratified by pooled study center.|A risk ratio greater than 1 favors deoxycholic acid injection treatment, and between 0 and 1 favors placebo.|The primary analysis was satisfied if both null hypotheses (there is no treatment difference in 1-grade or 2-grade response rate) were rejected in favor of the two-tailed alternative at the 0.05 level of significance for both primary efficacy endpoints, and the response rates were higher for the deoxycholic acid injection treatment group than the placebo group. Because both hypotheses must be rejected, the type I error was preserved when testing the primary endpoints.||4.880|2.808|<0.001
92325139|NCT01542034|184555670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method stratified by pooled study center.||The primary analysis was satisfied if both null hypotheses (there is no treatment difference in 1-grade or 2-grade response rate) were rejected in favor of the two-tailed alternative at the 0.05 level of significance for both primary efficacy endpoints, and the response rates were higher for the deoxycholic acid injection treatment group than the placebo group. Because both hypotheses must be rejected, the type I error was preserved when testing the primary endpoints.||||<0.001
92325140|NCT01542034|184555671|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|8.541|||<|0.001|TWO_SIDED|95.0|3.62|20.148|||Cochran-Mantel-Haenszel|CMH method stratified by pooled study center|A risk ratio greater than 1 favors deoxycholic acid injection treatment, and between 0 and 1 favors placebo.|If both primary endpoints were statistically significant, testing continued to the 2 secondary endpoints using the Bonferroni-Holm method. The smaller of the 2 p-values for the treatment difference was tested at the 0.025 level. If significant, testing proceeded for the remaining secondary endpoint at the 0.05 level. If the smaller p-value was \> 0.025, the null hypothesis for the associated variable would not be rejected, and testing of the second endpoint would not proceed.||20.148|3.620|<0.001
92325141|NCT01542034|184555672|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|Analysis of covariance (ANCOVA) model included treatment and Baseline PR-SMFIS total scale score.||If both primary endpoints were statistically significant, testing continued to the 2 secondary endpoints using the Bonferroni-Holm method. The smaller of the 2 p-values for the treatment difference was tested at the 0.025 level. If significant, testing proceeded for the remaining secondary endpoint at the 0.05 level. If the smaller p-value was \> 0.025, the null hypothesis for the associated variable would not be rejected, and testing of the second endpoint would not proceed.||||<0.001
92325142|NCT02612610|184555673|OTHER||LS Mean Difference|-0.25||||0.0971|TWO_SIDED|95.0|-0.54|0.05|||Mixed Effect Repeated Measures model|||Estimated treatment differences (gefapixant vs. placebo) and corresponding 95% confidence intervals (CIs) were estimated using a mixed effect repeated measures (MMRM) model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate.||0.05|-0.54|0.0971
92325143|NCT02612610|184555673|OTHER||LS Mean Difference|-0.25||||0.0928|TWO_SIDED|95.0|-0.54|0.04|||Mixed Effect Repeated Measures model|||Estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate.||0.04|-0.54|0.0928
92325144|NCT02612610|184555673|OTHER||LS Mean Difference|-0.46||||0.0027|TWO_SIDED|95.0|-0.76|-0.16|||Mixed Effect Repeated Measures model|||Estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate.||-0.16|-0.76|0.0027
92200448|NCT01154140|184299060|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.3532||||0.017|TWO_SIDED|95.0|0.6|6.11|||Mixed Models Analysis|||QLQ-C30 cognitive functioning: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||6.11|0.60|0.0170
92200449|NCT01154140|184299060|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.5165|||<|0.0001|TWO_SIDED|95.0|4.57|10.46|||Mixed Models Analysis|||QLQ-C30 emotional functioning: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||10.46|4.57|<0.0001
92325145|NCT02612610|184555674|OTHER||LS Mean Difference|-0.19||||0.1914|TWO_SIDED|95.0|-0.47|0.09|||Mixed Effect Repeated Measures model|||"Day 28 24-hour Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.09|-0.47|0.1914
92325146|NCT02612610|184555674|OTHER||LS Mean Difference|-0.05||||0.7099|TWO_SIDED|95.0|-0.33|0.23|||Mixed Effect Repeated Measures model|||"Day 28 24-hour Cough Frequency: 20 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.23|-0.33|0.7099
92325147|NCT02612610|184555674|OTHER||LS Mean Difference|-0.52||||0.0003|TWO_SIDED|95.0|-0.8|-0.24|||Mixed Effect Repeated Measures model|||"Day 28 24-hour Cough Frequency: 50 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.24|-0.80|0.0003
92200450|NCT01154140|184299060|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.4035|||<|0.0001|TWO_SIDED|95.0|7.48|13.32|||Mixed Models Analysis|||QLQ-C30 physical functioning: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||13.32|7.48|<0.0001
92200451|NCT01154140|184299060|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.5513|||<|0.0001|TWO_SIDED|95.0|11.29|19.81|||Mixed Models Analysis|||QLQ-C30 role functioning: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||19.81|11.29|<0.0001
92200452|NCT01154140|184299060|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.7641|||<|0.0001|TWO_SIDED|95.0|4.69|12.84|||Mixed Models Analysis|||QLQ-C30 social functioning: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||12.84|4.69|<0.0001
92325148|NCT02612610|184555675|OTHER||LS Mean Difference|-0.4||||0.0099|TWO_SIDED|95.0|-0.71|-0.1|||Mixed Effect Repeated Measures model|||"Day 56 24-hour Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.10|-0.71|0.0099
92325149|NCT02612610|184555675|OTHER||LS Mean Difference|-0.28||||0.0695|TWO_SIDED|95.0|-0.58|0.02|||Mixed Effect Repeated Measures model|||"Day 56 24-hour Cough Frequency: 20 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.02|-0.58|0.0695
92325150|NCT02612610|184555675|OTHER||LS Mean Difference|-0.62||||0.0001|TWO_SIDED|95.0|-0.93|-0.31|||Mixed Effect Repeated Measures model|||"Day 56 24-hour Cough Frequency: 50 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.31|-0.93|0.0001
92325151|NCT02612610|184555676|OTHER||LS Mean Difference|-0.24||||0.0991|TWO_SIDED|95.0|-0.52|0.04|||Mixed Effect Repeated Measures model|||"Day 84 24-hour Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.04|-0.52|0.0991
92325152|NCT02612610|184555676|OTHER||LS Mean Difference|-0.25||||0.0811|TWO_SIDED|95.0|-0.53|0.03|||Mixed Effect Repeated Measures model|||"Day 84 24-hour Cough Frequency: 20 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.03|-0.53|0.0811
92325153|NCT02612610|184555676|OTHER||LS Mean Difference|-0.47||||0.0014|TWO_SIDED|95.0|-0.76|-0.19|||Mixed Effect Repeated Measures model|||"Day 84 24-hour Cough Frequency: 50 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.19|-0.76|0.0014
92325154|NCT02612610|184555677|OTHER||LS Mean Difference|-0.21||||0.1468|TWO_SIDED|95.0|-0.5|0.07|||Mixed Effect Repeated Measures model|||"Day 28 Awake Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate. ."||0.07|-0.50|0.1468
92325155|NCT02612610|184555677|OTHER||LS Mean Difference|-0.08||||0.5874|TWO_SIDED|95.0|-0.36|0.2|||Mixed Effect Repeated Measures model|||"Day 28 Awake Cough Frequency: 20 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.20|-0.36|0.5874
92325156|NCT02612610|184555677|OTHER||LS Mean Difference|-0.49||||0.0008|TWO_SIDED|95.0|-0.78|-0.21|||Mixed Effect Repeated Measures model|||"Day 28 24-hour Cough Frequency: 50 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.21|-0.78|0.0008
92200453|NCT01154140|184299061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.4976|||<|0.0001|TWO_SIDED|95.0|-18.03|-8.97|||Mixed Models Analysis|||QLQ-C30 appetite loss: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-8.97|-18.03|<0.0001
92325157|NCT02612610|184555678|OTHER||Mixed Effect Repeated Measures model|-0.39||||0.0177|TWO_SIDED|95.0|-0.7|-0.07|||Mixed Effect Repeated Measures model|||"Day 56 Awake Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.07|-0.70|0.0177
92325158|NCT02612610|184555678|OTHER||LS Mean Difference|-0.32||||0.0498|TWO_SIDED|95.0|-0.63|0.0|||Mixed Effect Repeated Measures model|||"Day 56 Awake Cough Frequency: 20 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.00|-0.63|0.0498
92200454|NCT01154140|184299061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.4336||||0.057|TWO_SIDED|95.0|-9.0|0.13|||Mixed Models Analysis|||QLQ-C30 constipation: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||0.13|-9.00|0.0570
92200455|NCT01154140|184299061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.4906|||<|0.0001|TWO_SIDED|95.0|8.98|16.0|||Mixed Models Analysis|||QLQ-C30 diarrhea: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||16.00|8.98|<0.0001
92200456|NCT01154140|184299061|SUPERIORITY_OR_OTHER||Median Difference (Net)|-13.4622|||<|0.0001|TWO_SIDED|95.0|-17.2|-9.73|||Mixed Models Analysis|||QLQ-C30 dysponea: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-9.73|-17.20|<0.0001
92200457|NCT01154140|184299061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.9987|||<|0.0001|TWO_SIDED|95.0|-18.52|-11.48|||Mixed Models Analysis|||QLQ-C30 fatigue: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-11.48|-18.52|<0.0001
92200458|NCT01154140|184299061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8186||||0.6681|TWO_SIDED|95.0|-4.56|2.92|||Mixed Models Analysis|||QLQ-C30 financial difficulties: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||2.92|-4.56|0.6681
92325159|NCT02612610|184555678|OTHER||LS Mean Difference|-0.59||||0.0004|TWO_SIDED|95.0|-0.92|-0.27|||Mixed Effect Repeated Measures model|||"Day 56 Awake Cough Frequency: 50 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.27|-0.92|0.0004
92325160|NCT02612610|184555680|OTHER||LS Mean Difference|-6.4||||0.1318|TWO_SIDED|95.0|-14.8|1.9|||Mixed Effect Repeated Measures model|||"Day 28 Cough Severity VAS: 7.5 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||1.9|-14.8|0.1318
92325161|NCT02612610|184555680|OTHER||LS Mean Difference|-2.9||||0.4917|TWO_SIDED|95.0|-11.3|5.4|||Mixed Effect Repeated Measures model|||"Day 28 Cough Severity VAS: 20 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||5.4|-11.3|0.4917
92325162|NCT02612610|184555680|OTHER||LS Mean Difference|-9.8||||0.0228|TWO_SIDED|95.0|-18.2|-1.4|||Mixed Effect Repeated Measures model|||"Day 28 Cough Severity VAS: 50 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-1.4|-18.2|0.0228
92325163|NCT02612610|184555681|OTHER||LS Mean Difference|-2.6||||0.554|TWO_SIDED|95.0|-11.5|6.2|||Mixed Effect Repeated Measures model|||"Day 56 Cough Severity VAS: 7.5 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||6.2|-11.5|0.5540
92325164|NCT02612610|184555681|OTHER||LS Mean Difference|-3.2||||0.4702|TWO_SIDED|95.0|-12.0|5.6|||Mixed Effect Repeated Measures model|||"Day 56 Cough Severity VAS: 20 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||5.6|-12.0|0.4702
92200459|NCT01154140|184299061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.043|||<|0.0001|TWO_SIDED|95.0|-14.22|-5.87|||Mixed Models Analysis|||QLQ-C30 insomnia: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-5.87|-14.22|<0.0001
92200460|NCT01154140|184299061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4446||||0.0468|TWO_SIDED|95.0|-6.84|-0.05|||Mixed Models Analysis|||QLQ-C30 nausea and vomiting: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-0.05|-6.84|0.0468
92325165|NCT02612610|184555681|OTHER||LS Mean Difference|-10.7||||0.0197|TWO_SIDED|95.0|-19.8|-1.7|||Mixed Effect Repeated Measures model|||"Day 56 Cough Severity VAS: 50 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-1.7|-19.8|0.0197
92325166|NCT02612610|184555682|OTHER||LS Mean Difference|-4.4||||0.302|TWO_SIDED|95.0|-12.9|4.0|||Mixed Effect Repeated Measures model|||"Day 84 Cough Severity VAS: 7.5 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||4.0|-12.9|0.3020
92200461|NCT01154140|184299061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.9277|||<|0.0001|TWO_SIDED|95.0|-13.23|-6.62|||Mixed Models Analysis|||QLQ-C30 pain: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-6.62|-13.23|<0.0001
92200462|NCT01154140|184299062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.8149||||0.0108|TWO_SIDED|95.0|-8.52|-1.11|||Mixed Models Analysis|||QLQ-LC13 alopecia: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-1.11|-8.52|0.0108
92200463|NCT01154140|184299062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.3926|||<|0.0001|TWO_SIDED|95.0|-12.06|-4.72|||Mixed Models Analysis|||QLQ-LC13 coughing: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-4.72|-12.06|<0.0001
92325167|NCT02612610|184555682|OTHER||LS Mean Difference|-6.4||||0.1365|TWO_SIDED|95.0|-14.8|2.0|||Mixed Effect Repeated Measures model|||"Day 84 Cough Severity VAS: 20 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.0|-14.8|0.1365
92325168|NCT02612610|184555682|OTHER||LS Mean Difference|-11.2||||0.0108|TWO_SIDED|95.0|-19.7|-2.6|||Mixed Effect Repeated Measures model|||"Day 84 Cough Severity VAS: 50 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-2.6|-19.7|0.0108
92325169|NCT02612610|184555683|OTHER||LS Mean Difference|-4.0||||0.3509|TWO_SIDED|95.0|-12.3|4.4|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination Cough Severity VAS: 7.5 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||4.4|-12.3|0.3509
92325170|NCT02612610|184555683|OTHER||LS Mean Difference|-8.2||||0.0519|TWO_SIDED|95.0|-16.6|0.1|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination Cough Severity VAS: 7.5 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-16.6|0.0519
92325171|NCT02612610|184555683|OTHER||LS Mean Difference|-15.9||||0.0003|TWO_SIDED|95.0|-24.3|-7.5|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination Cough Severity VAS: 50 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-7.5|-24.3|0.0003
92325172|NCT02612610|184555684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1387|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1387
92325173|NCT02612610|184555684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7238|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.7238
92325174|NCT02612610|184555684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0144|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0144
92325175|NCT02612610|184555684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0922|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0922
92325176|NCT02612610|184555684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3812|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3812
92325177|NCT02612610|184555684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0088|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0088
92325178|NCT02612610|184555684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0653|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0653
92325179|NCT02612610|184555684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6443|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.6443
92325180|NCT02612610|184555684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1511|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1511
92325181|NCT02612610|184555685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0045|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0045
92325182|NCT02612610|184555685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0947|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0947
92325183|NCT02612610|184555685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0080
92325184|NCT02612610|184555685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0283|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0283
92325185|NCT02612610|184555685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1493|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1493
92200464|NCT01154140|184299062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6651||||0.5938|TWO_SIDED|95.0|-1.78|3.11|||Mixed Models Analysis|||QLQ-LC13 dysphagia: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||3.11|-1.78|0.5938
92200465|NCT01154140|184299062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.008|||<|0.0001|TWO_SIDED|95.0|-11.96|-6.06|||Mixed Models Analysis|||QLQ-LC13 dyspnoea: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-6.06|-11.96|<0.0001
92325186|NCT02612610|184555685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0026|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0026
92325187|NCT02612610|184555685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0652|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0652
92325188|NCT02612610|184555685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3601|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3601
92325189|NCT02612610|184555685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0086|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0086
92325190|NCT02612610|184555686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3893|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3893
92325191|NCT02612610|184555686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2803|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.2803
92325192|NCT02612610|184555686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0427|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0427
92325193|NCT02612610|184555686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0209|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0209
92325194|NCT02612610|184555686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3401|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3401
92325195|NCT02612610|184555686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0031|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0031
92325196|NCT02612610|184555686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0283|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0283
92325197|NCT02612610|184555686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6233|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.6233
92325198|NCT02612610|184555686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0001
92325199|NCT02612610|184555687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4925|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.4925
92325200|NCT02612610|184555687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9007|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.9007
92325201|NCT02612610|184555687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1602|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1602
92325202|NCT02612610|184555687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.344|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3440
92200466|NCT01154140|184299062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8828||||0.0656|TWO_SIDED|95.0|-1.82|0.06|||Mixed Models Analysis|||QLQ-LC13 haemoptysis: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||0.06|-1.82|0.0656
92200467|NCT01154140|184299062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.0475||||0.0002|TWO_SIDED|95.0|-9.22|-2.88|||Mixed Models Analysis|||QLQ-LC13 pain in arm or shoulder: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-2.88|-9.22|0.0002
92200468|NCT01154140|184299062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.0959|||<|0.0001|TWO_SIDED|95.0|-11.35|-4.84|||Mixed Models Analysis|||QLQ-LC13 pain in chest: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-4.84|-11.35|<0.0001
92325203|NCT02612610|184555687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9876|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.9876
92325204|NCT02612610|184555687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0993|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0993
92325205|NCT02612610|184555687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5968|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.5968
92325206|NCT02612610|184555687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8726|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.8726
92325207|NCT02612610|184555687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4092|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.4092
92325208|NCT02612610|184555688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0781|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0781
92325209|NCT02612610|184555688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7098|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.7098
92325210|NCT02612610|184555688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0068|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0068
92325211|NCT02612610|184555688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1284|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1284
92325212|NCT02612610|184555688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.267|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.2670
92325213|NCT02612610|184555688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0013
92200469|NCT01154140|184299062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.7717||||0.0001|TWO_SIDED|95.0|-10.24|-3.31|||Mixed Models Analysis|||QLQ-LC13 pain in other parts: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-3.31|-10.24|0.0001
92200470|NCT01154140|184299062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.3521||||0.0427|TWO_SIDED|95.0|0.11|6.59|||Mixed Models Analysis|||QLQ-LC13 peripheral neuropathy: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||6.59|0.11|0.0427
92200471|NCT01154140|184299062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1521||||0.1382|TWO_SIDED|95.0|-5.0|0.69|||Mixed Models Analysis|||QLQ-LC13 sore mouth: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||0.69|-5.00|0.1382
92200472|NCT01154140|184299063|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.9908||||0.0139|TWO_SIDED|95.0|0.81|7.17|||Mixed Models Analysis|||Analysis was based on a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EQ-5D VAS subscale baseline score (intercept and time from first dose were included as random effects).||7.17|0.81|0.0139
92200473|NCT00358644|184299067|SUPERIORITY_OR_OTHER||Percentage of Participants|23.6||||||95.0|13.2|37.0||||||||37.0|13.2|
92200474|NCT00401258|184299086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
92200475|NCT00401258|184299087|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Average pain severity statistical analysis||||<.001
92200476|NCT00401258|184299087|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Average pain interference statistical analysis||||<.001
92200477|NCT00401258|184299088|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||.001
92200478|NCT00401258|184299089|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92200479|NCT00401258|184299091|SUPERIORITY_OR_OTHER|||||||0.031|||||||Mixed Models Analysis|||||||0.031
92200480|NCT00401258|184299092|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
92200481|NCT00401258|184299093|SUPERIORITY_OR_OTHER|||||||0.004||||||Refers to work/school sub-scale|Mixed Models Analysis|||||||0.004
92200482|NCT00401258|184299093|SUPERIORITY_OR_OTHER|||||||0.087||||||Refers to social sub scale|Mixed Models Analysis|||||||0.087
92200483|NCT00401258|184299093|SUPERIORITY_OR_OTHER|||||||0.006||||||Refers to family sub scale|Mixed Models Analysis|||||||0.006
92200484|NCT01483144|184299188|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.121|TWO_SIDED|95.0|0.4|1.3||The threshold for statistical significance is p=0.05|stratified Cox proportional (Score)||Eflornithine plus sulindac is the numerator and sulindac plus eflornithine placebo is the denominator.|Intent to treat population with all FAP-related events||1.3|0.4|0.1210
92200485|NCT01483144|184299188|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.1076|TWO_SIDED|95.0|0.4|1.2||The threshold for statistical significance is p=0.05|stratified Cox proportional (Score)||Eflornithine plus sulindac is the numerator and eflornithine plus sulindac placebo is the denominator.|Intent to treat population with all FAP-related events||1.2|0.4|0.1076
92200486|NCT01483144|184299188|SUPERIORITY||Hazard Ratio (HR)|0.2||||0.0201|TWO_SIDED|95.0|0.0|0.8||Threshold for statistical significance was p=0.05|stratified Cox proportional (Score)||Eflornithine and sulindac is the numerator and sulindac and eflornithine placebo is the denominator. Reduction in relative risk for FAP-related events with the combination.|Lower GI population||0.8|0.0|0.0201
92200487|NCT01483144|184299188|SUPERIORITY||Hazard Ratio (HR)|0.17||||0.0101|TWO_SIDED|95.0|0.0|0.7||Threshold of significance was p=0.05|stratified Cox proportional (Score)||Eflornithine and sulindac is the numerator and eflornithine and sulindac placebo is the denominator.|Lower GI population||0.7|0|0.0101
92200488|NCT01483144|184299189|SUPERIORITY|||||||0.8127||||||The threshold of significance was p=0.05|Mantel Haenszel|||||||0.8127
92200489|NCT01483144|184299189|SUPERIORITY|||||||0.8133||||||The threshold for significance was p=0.05|Mantel Haenszel|||||||0.8133
92200490|NCT01483144|184299190|SUPERIORITY|||||||0.999||||||The threshold for significance was p=0.05|Mantel Haenszel|||||||0.999
92200491|NCT01483144|184299190|SUPERIORITY|||||||0.2152||||||The threshold for significance was p=0.05|Mantel Haenszel|||||||0.2152
92200492|NCT04624243|184299193|SUPERIORITY|It was hypothesized that MK-8189 16 mg is superior to placebo in reducing Week 6 PANSS change from baseline|LS Mean Difference|-2.8||||0.241|TWO_SIDED|97.5|-8.3|2.6|||ANCOVA|||||2.6|-8.3|0.241
92200493|NCT04624243|184299193|SUPERIORITY|It was hypothesized that MK-8189 24 mg is superior to placebo in reducing Week 6 PANSS change from baseline|LS Mean Difference|-0.7||||0.784|TWO_SIDED|97.5|-6.3|4.9|||ANCOVA|||||4.9|-6.3|0.784
92200494|NCT04624243|184299195|SUPERIORITY|It was hypothesized that MK-8189 16 mg is superior to placebo in reducing Week 6 PANSS PSS change from baseline|LS Mean Difference|-1.3||||0.096|TWO_SIDED|97.5|-3.1|0.5|||ANCOVA|||||0.5|-3.1|0.096
92200495|NCT04624243|184299195|SUPERIORITY|It was hypothesized that MK-8189 24 mg is superior to placebo in reducing Week 6 PANSS PSS change from baseline|LS Mean Difference|-1.4||||0.094|TWO_SIDED|97.5|-3.2|0.5|||ANCOVA|||||0.5|-3.2|0.094
92200496|NCT04624243|184299196|SUPERIORITY|It was hypothesized that MK-8189 16 mg is superior to placebo in reducing Week 6 CGI-S change from baseline|LS Mean Difference|-0.2||||0.254|TWO_SIDED|97.5|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.254
92200497|NCT04624243|184299196|SUPERIORITY|It was hypothesized that MK-8189 24 mg is superior to placebo in reducing Week 6 CGI-S change from baseline|LS Mean Difference|0.0||||0.959|TWO_SIDED|97.5|-0.3|0.3|||ANCOVA|||||0.3|-0.3|0.959
92200498|NCT04624243|184299200|SUPERIORITY|Estimated Treatment Difference vs Risperidone|LS Mean Difference|-8.5|||<|0.001|TWO_SIDED|97.5|-10.4|-6.5|||ANCOVA|Covariates were treatment, stratum (US Black, US-Non-Black, Other), gender (male, female), and with baseline value, the duration of illness and age||||-6.5|-10.4|<0.001
92200499|NCT04624243|184299200|SUPERIORITY|Estimated Treatment Difference vs Risperidone|LS Mean Difference|-7.3|||<|0.001|TWO_SIDED|97.5|-9.3|-5.2|||ANCOVA|Covariates were treatment, stratum (US Black, US-Non-Black, Other), gender (male, female), and with baseline value, the duration of illness and age||||-5.2|-9.3|<0.001
92200500|NCT04624243|184299201|SUPERIORITY|Estimated Treatment Difference vs Risperidone|LS Mean Difference|-6.0|||<|0.001|TWO_SIDED|97.5|-7.4|-4.6|||ANCOVA|Covariates were treatment, stratum (US Black, US-Non-Black, Other), gender (male, female), and with baseline value, the duration of illness and age||||-4.6|-7.4|<0.001
92200501|NCT04624243|184299201|SUPERIORITY|Estimated Treatment Difference vs Risperidone|LS Mean Difference|-5.6|||<|0.001|TWO_SIDED|97.5|-7.0|-4.2|||ANCOVA|Covariates were treatment, stratum (US Black, US-Non-Black, Other), gender (male, female), and with baseline value, the duration of illness and age||||-4.2|-7.0|<0.001
92200502|NCT01810939|184299214|SUPERIORITY_OR_OTHER_LEGACY||Proportion|0.76|||||TWO_SIDED|95.0|0.7|0.81||||||||0.81|0.7|
92200503|NCT01810939|184299215|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mantel Haenszel|||Test for difference between treatment groups in proportion with serum potassium ≥ 5.5 mEq/L||||<0.001
92200504|NCT01810939|184299216|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mantel Haenszel|||Test for difference between treatment groups in proportion with serum potassium ≥ 5.1 mEq/L||||<0.001
92200505|NCT01810939|184299217|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Longitudinal mixed models|Test that the mean change is significantly different from zero.||Estimation of mean change in serum potassium from Part A Baseline to Part A Week 4 and test mean change different from zero.||||<0.001
92200506|NCT01810939|184299218|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Test for difference between treatment groups in serum potassium change in Part B||||< 0.001
92200507|NCT00789360|184299239|OTHER||Maximum LS mean change difference|0.0917|||||TWO_SIDED|90.0|-0.028|0.212|||||Maximum difference occurred at 10 hours|The largest treatment difference (Loxapine - Placebo) in change in FEV1 from baseline by spirometry||0.212|-0.028|
92200508|NCT00789360|184299240|OTHER||Maximum LS mean change difference|-0.154|||||TWO_SIDED|90.0|-0.29|-0.019|||||Greatest difference occurred at 9 hours after Dose 1|||-0.019|-0.290|
92200509|NCT03559062|184299261|OTHER||||||<|0.0001|||||||Mixed-effects model for repeated measure|||||||<0.0001
92200510|NCT03559062|184299262|OTHER||||||<|0.0001|||||||Mixed-effects model for repeated measure|||||||<0.0001
92200511|NCT03559062|184299263|OTHER|||||||0.0546|||||||Mixed-effects model for repeated measure|||||||0.0546
92325214|NCT02612610|184555688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4343|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.4343
92325215|NCT02612610|184555688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5384|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.5384
92200512|NCT01757197|184299265|OTHER|Not evaluable.|Other|0.0|||||TWO_SIDED|||||Not evaluable.||||Not evaluable.|Not evaluable.|||
92200513|NCT05646719|184299269|SUPERIORITY||Odds Ratio (OR)|2.27|||<|0.01|TWO_SIDED|95.0|1.23|4.2|||t-test, 2 sided|||||4.20|1.23|<0.01
92200514|NCT05646719|184299269|SUPERIORITY||Odds Ratio (OR)|1.44|||||TWO_SIDED|95.0||||||||||||
92200515|NCT01677299|184299284|SUPERIORITY_OR_OTHER||LS mean diff (Day 5 - Baseline)|-22.5|||<|0.05|TWO_SIDED|95.0|-37.0|-8.0|||Mixed Models Analysis|Change in fasting plasma glucose from Baseline to Day 5 (end of treatment) for treatment A.||||-8|-37|<0.05
92200516|NCT01677299|184299284|SUPERIORITY_OR_OTHER||LS mean diff (Day 5 - Baseline)|-20.0|||<|0.05|TWO_SIDED|95.0|-30.0|-9.0|||Mixed Models Analysis|Change in fasting plasma glucose from Baseline to Day 5 (end of treatment) for treatment B.||||-9|-30|<0.05
92200517|NCT01677299|184299284|SUPERIORITY_OR_OTHER||LS mean diff (Day 5 - Baseline)|-16.0|||<|0.05|TWO_SIDED|95.0|-24.0|-8.0|||Mixed Models Analysis|Change in fasting plasma glucose from Baseline to Day 5 (end of treatment) for treatment C.||||-8|-24|<0.05
92200518|NCT01677299|184299284|SUPERIORITY_OR_OTHER||LS mean diff (Day 5 - Baseline)|-21.0|||<|0.05|TWO_SIDED|95.0|-31.0|-11.0|||Mixed Models Analysis|Change in fasting plasma glucose from Baseline to Day 5 (end of treatment) for treatment D.||||-11|-31|<0.05
92200519|NCT01677299|184299285|SUPERIORITY_OR_OTHER||Geometric LS mean ration|1.6|||<|0.05|TWO_SIDED|95.0|1.4|1.9|||Mixed Models Analysis|||||1.9|1.4|<0.05
92200520|NCT01677299|184299285|SUPERIORITY_OR_OTHER||Geo LSmean ratio of (Day 5/Baseline)|1.9|||<|0.05|TWO_SIDED|95.0|1.5|2.3|||Mixed Models Analysis|||||2.3|1.5|<0.05
92200521|NCT01677299|184299285|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.7|||<|0.05|TWO_SIDED|95.0|1.4|2.0|||Mixed Models Analysis|||||2.0|1.4|<0.05
92200522|NCT01677299|184299285|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.9|||<|0.05|TWO_SIDED|95.0|1.5|2.3|||Mixed Models Analysis|||||2.3|1.5|<0.05
92200523|NCT01677299|184299286|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.5|||<|0.05|TWO_SIDED|95.0|1.4|1.8|||Mixed Models Analysis|||||1.8|1.4|<0.05
92200524|NCT01677299|184299286|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.4|||<|0.05|TWO_SIDED|95.0|1.2|1.6|||Mixed Models Analysis|||||1.6|1.2|<0.05
92200525|NCT01677299|184299286|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.5|||<|0.05|TWO_SIDED|95.0|1.3|1.6|||Mixed Models Analysis|||||1.6|1.3|<0.05
92200526|NCT01677299|184299286|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.5|||<|0.05|TWO_SIDED|95.0|1.4|1.6|||Mixed Models Analysis|||||1.6|1.4|<0.05
92200527|NCT00755417|184299329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.38||0.0117|TWO_SIDED|97.5|-1.81|-0.11||Based on F test of type III analysis for pairwise comparison at 0.025 level.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at stable dosing Week 4||-0.11|-1.81|0.0117
92200528|NCT00755417|184299329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|97.5|-2.35|-0.66||Based on F test of type III analysis|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at stable dosing Week 4.||-0.66|-2.35|<0.0001
92200529|NCT00755417|184299330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.42||0.183|TWO_SIDED|97.5|-1.49|0.38||Based on F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at stable dosing Week 12||0.38|-1.49|0.1830
92325216|NCT02612610|184555688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0822|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0822
92200530|NCT00755417|184299330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.41||0.1975|TWO_SIDED|97.5|-1.46|0.4||Based on F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at stable dosing Week 12.||0.40|-1.46|0.1975
92200531|NCT00755417|184299331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.08||0.0016|TWO_SIDED|97.5|-0.44|-0.08||Based on F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at stable dosing Week 4.||-0.08|-0.44|0.0016
92200532|NCT00755417|184299331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|97.5|-0.51|-0.14||Based on the F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at stable dosing Week 4.||-0.14|-0.51|<0.0001
92200533|NCT00755417|184299332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0433|TWO_SIDED|97.5|-0.43|0.02||Based on the F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at stable dosing Week 12.||0.02|-0.43|0.0433
92200534|NCT00755417|184299332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0468|TWO_SIDED|97.5|-0.42|0.03||Based on the F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at stable dosing Week 12.||0.03|-0.42|0.0468
92200535|NCT03443414|184299342|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.139|||<|0.001|TWO_SIDED|95.0|0.069|0.21|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 6.0 mg - Placebo).||0.210|0.069|<0.001
92200536|NCT03443414|184299342|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.2|||<|0.001|TWO_SIDED|95.0|0.131|0.27|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 3.0 mg - Placebo).||0.270|0.131|<0.001
92200537|NCT03443414|184299342|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.153|||<|0.001|TWO_SIDED|95.0|0.083|0.222|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 1.5 mg - Placebo).||0.222|0.083|<0.001
92200538|NCT03443414|184299342|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.146|||<|0.001|TWO_SIDED|95.0|0.075|0.216|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 0.75 mg - Placebo).||0.216|0.075|<0.001
92200539|NCT03443414|184299343|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.002|||=|0.953|TWO_SIDED|95.0|-0.061|0.065|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 6.0 mg - Placebo).||0.065|-0.061|=0.953
92200540|NCT03443414|184299343|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.068|||=|0.032|TWO_SIDED|95.0|0.006|0.13|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 3.0 mg - Placebo).||0.130|0.006|=0.032
92200541|NCT03443414|184299343|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.009|||=|0.773|TWO_SIDED|95.0|-0.053|0.072|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 1.5 mg - Placebo).||0.072|-0.053|=0.773
92200542|NCT03443414|184299343|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.035|||=|0.272|TWO_SIDED|95.0|-0.028|0.099|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 0.75 mg - Placebo).||0.099|-0.028|=0.272
92200543|NCT03443414|184299344|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.087|||<|0.001|TWO_SIDED|95.0|0.045|0.129|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 6.0 mg - Placebo) at Day 1.||0.129|0.045|<0.001
92200544|NCT03443414|184299344|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.095|||<|0.001|TWO_SIDED|95.0|0.053|0.137|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 3.0 mg - Placebo) at Day 1.||0.137|0.053|<0.001
92200545|NCT03443414|184299344|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.07|||=|0.001|TWO_SIDED|95.0|0.028|0.112|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 1.5 mg - Placebo) at Day 1.||0.112|0.028|=0.001
92200546|NCT03443414|184299344|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.08|||<|0.001|TWO_SIDED|95.0|0.038|0.122|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 0.75 mg - Placebo) at Day 1.||0.122|0.038|<0.001
92200547|NCT03443414|184299344|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.065|||=|0.048|TWO_SIDED|95.0|0.001|0.129|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 6.0 mg - Placebo) at Week 4.||0.129|0.001|=0.048
92200548|NCT03443414|184299344|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.119|||<|0.001|TWO_SIDED|95.0|0.055|0.183|||LS mean difference|||Placebo-corrected treatment effect: LS mean difference (RPL554 3.0 mg - Placebo) at Week 4.||0.183|0.055|<0.001
92200549|NCT03443414|184299344|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.085|||=|0.008|TWO_SIDED|95.0|0.022|0.149|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 1.5 mg - Placebo) at Week 4.||0.149|0.022|=0.008
92200550|NCT03443414|184299344|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.072|||=|0.028|TWO_SIDED|95.0|0.008|0.137|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 0.75 mg - Placebo) at Week 4.||0.137|0.008|=0.028
92200551|NCT03933462|184299348|SUPERIORITY|"Categorical preference endpoints that answered at the final visit (e.g., Which device do you prefer?) were analyzed with a One-sample Binomial Test that compared the observed proportion to a 50/50 split."|||||<|0.001|||||||One Sample Binomial|||||||<0.001
92200552|NCT03355209|184299398|SUPERIORITY||Median Difference (A-P)|-19.88||||0.0008|TWO_SIDED|95.0|-31.02|-8.74|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann (HL) method|||-8.74|-31.02|0.0008
92200553|NCT03355209|184299401|SUPERIORITY||Median Difference (A-P)|-10.5||||0.146|TWO_SIDED|95.0|-24.99|3.99|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann (HL) method|||3.99|-24.99|0.1460
92325217|NCT02612610|184555689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0006
92325218|NCT02612610|184555689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0223|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0223
92200554|NCT03355209|184299402|SUPERIORITY||Odds Ratio (OR)|3.3||||0.0051|TWO_SIDED|95.0|1.43|7.59|||Regression, Logistic|||||7.59|1.43|0.0051
92200555|NCT03355209|184299402|SUPERIORITY||Odds Ratio (OR)|2.87||||0.015|TWO_SIDED|95.0|1.23|6.7|||Regression, Logistic|||||6.70|1.23|0.0150
92325219|NCT02612610|184555689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0001
92200556|NCT03355209|184299403|SUPERIORITY||Odds Ratio (OR)|1.58||||0.1565|TWO_SIDED|95.0|0.84|2.97|||Cochran-Mantel-Haenszel|||Visit 12||2.97|0.84|0.1565
92200557|NCT03355209|184299403|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0567|TWO_SIDED|95.0|0.98|3.52|||Cochran-Mantel-Haenszel|||Visit 12||3.52|0.98|0.0567
92200558|NCT01151215|184299447|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.485|TWO_SIDED|95.0|0.77|1.75||Statistical significance threshold at this interim analysis was 5%|Log Rank|The log rank test was stratified for the IVRS stratification factor of disease classification (locally advanced / metastatic disease)|The Hazard Ratio is for AZD8931 40mg + anastrozole 1mg / Placebo + anastrozole 1mg, ie a hazard ratio \<1 favours AZD8931 40mg + anastrozole 1mg|345 patients were to be randomised to observe at least 233 progression events, based on HR=0.60, 90% power, 2-sided 5% significant level and a median of 9 months for the placebo arm. An interim analysis with futility boundary was introduced based on an IDMC recommendation.||1.75|0.77|0.485
92200559|NCT01151215|184299447|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.37||||0.135|TWO_SIDED|95.0|0.91|2.06|||Log Rank|The log rank test was stratified for the IVRS stratification factor of disease classification (locally advanced / metastatic disease)|The Hazard ratio is for AZD8931 20mg + anastrozole 1mg / Placebo + anastrozole 1mg, ie a hazard ratio \< 1 favours AZD8931 20mg + anastrozole 1mg|345 patients were to be randomised to observe at least 233 progression events, based on HR=0.6, 90% power, 2-sided 5% significant level and a median of 9 months for the placebo arm. An interim analysis with futility boundary was introduced based on an IDMC recommendation.||2.06|0.91|0.135
92200560|NCT01299480|184299491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB80 \[A22\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92200561|NCT01299480|184299491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2001 \[A56\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92200562|NCT01299480|184299491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2948 \[B24\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92200563|NCT01299480|184299491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2707 \[B44\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92325220|NCT02612610|184555689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0165|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0165
92325221|NCT02612610|184555689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6255|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.6255
92325222|NCT02612610|184555689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0085|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0085
92325223|NCT02612610|184555689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0722|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0722
92200564|NCT01299480|184299491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB80 \[A22\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92325224|NCT02612610|184555689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3577|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3577
92325225|NCT02612610|184555689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0006
92325226|NCT02612610|184555690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3845|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3845
92325227|NCT02612610|184555690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1177|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1177
92325228|NCT02612610|184555690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0236|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0236
92325229|NCT02612610|184555690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0192|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0192
92325230|NCT02612610|184555690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3301|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3301
92200565|NCT01299480|184299491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2001 \[A56\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92200566|NCT01299480|184299491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2948 \[B24\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92200567|NCT01299480|184299491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2707 \[B44\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92325231|NCT02612610|184555690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0008
92325232|NCT02612610|184555690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0285|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0285
92325233|NCT02612610|184555690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3856|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3856
92325234|NCT02612610|184555690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0001
92325235|NCT02612610|184555691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2441|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.2441
92325236|NCT02612610|184555691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5055|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.5055
92325237|NCT02612610|184555691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1602|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1602
92325238|NCT02612610|184555691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2721|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.2721
92325239|NCT02612610|184555691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9763|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.9763
92325240|NCT02612610|184555691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0993|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0993
92325241|NCT02612610|184555691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4575|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.4575
92325242|NCT02612610|184555691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9706|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.9706
92325243|NCT02612610|184555691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3258|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3258
92325244|NCT02612610|184555692|OTHER||LS Mean Difference|0.0||||0.9858|TWO_SIDED|95.0|-0.53|0.54|||Mixed Effect Repeated Measures model|||"Day 28 Sleep Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.54|-0.53|0.9858
92325245|NCT02612610|184555692|OTHER||LS Mean Difference|-0.01||||0.9813|TWO_SIDED|95.0|-0.53|0.52|||Mixed Effect Repeated Measures model|||"Day 28 Sleep Cough Frequency: 20 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.52|-0.53|0.9813
92325246|NCT02612610|184555692|OTHER||LS Mean Difference|-0.11||||0.6746|TWO_SIDED|95.0|-0.65|0.42|||Mixed Effect Repeated Measures model|||"Day 28 Sleep Cough Frequency: 50 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.42|-0.65|0.6746
92325247|NCT02612610|184555693|OTHER||LS Mean Difference|-0.32||||0.2583|TWO_SIDED|95.0|-0.88|0.24|||Mixed Effect Repeated Measures model|||"Day 56 Sleep Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.24|-0.88|0.2583
92325248|NCT02612610|184555693|OTHER||LS Mean Difference|0.01||||0.9826|TWO_SIDED|95.0|-0.55|0.56|||Mixed Effect Repeated Measures model|||"Day 56 Sleep Cough Frequency: 20 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.56|-0.55|0.9826
92325249|NCT02612610|184555693|OTHER||LS Mean Difference|-0.4||||0.1672|TWO_SIDED|95.0|-0.98|0.17|||Mixed Effect Repeated Measures model|||"Day 56 Sleep Cough Frequency: 50 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.17|-0.98|0.1672
92325250|NCT02612610|184555694|OTHER||LS Mean Difference|0.14||||0.6102|TWO_SIDED|95.0|-0.4|0.68|||Mixed Effect Repeated Measures model|||"Day 84 Sleep Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.68|-0.4|0.6102
92325251|NCT02612610|184555694|OTHER||LS Mean Difference|0.08||||0.7782|TWO_SIDED|95.0|-0.46|0.61|||Mixed Effect Repeated Measures model|||"Day 84 Sleep Cough Frequency: 20 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.61|-0.46|0.7782
92325252|NCT02612610|184555694|OTHER||LS Mean Difference|0.28||||0.3167|TWO_SIDED|95.0|-0.27|0.83|||Mixed Effect Repeated Measures model|||"Day 84 Sleep Cough Frequency: 50 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.83|-0.27|0.3167
92325253|NCT02612610|184555695|OTHER||LS Mean Difference|0.3||||0.1545|TWO_SIDED|95.0|-0.1|0.7|||Mixed Effect Repeated Measures model|||"Week 1 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.7|-0.1|0.1545
92325254|NCT02612610|184555695|OTHER||LS Mean Difference|0.3||||0.2013|TWO_SIDED|95.0|-0.1|0.7|||Mixed Effect Repeated Measures model|||"Week 1 CSD Total Score: 20 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.7|-0.1|0.2013
92325255|NCT02612610|184555695|OTHER||LS Mean Difference|0.0||||0.9962|TWO_SIDED|95.0|-0.4|0.4|||Mixed Effect Repeated Measures model|||"Week 1 CSD Total Score: 50 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.4|0.9962
92325256|NCT02612610|184555696|OTHER||LS Mean Difference|0.1||||0.7328|TWO_SIDED|95.0|-0.4|0.6|||Mixed Effect Repeated Measures model|||"Week 2 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.6|-0.4|0.7328
92325257|NCT02612610|184555696|OTHER||LS Mean Difference|0.1||||0.7635|TWO_SIDED|95.0|-0.4|0.6|||Mixed Effect Repeated Measures model|||"Week 2 CSD Total Score: 20 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.6|-0.4|0.7635
92325258|NCT02612610|184555696|OTHER||LS Mean Difference|-0.4||||0.0951|TWO_SIDED|95.0|-0.9|0.1|||Mixed Effect Repeated Measures model|||"Week 2 CSD Total Score: 50 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-0.9|0.0951
92325259|NCT02612610|184555697|OTHER||LS Mean Difference|-0.2||||0.5797|TWO_SIDED|95.0|-0.7|0.4|||Mixed Effect Repeated Measures model|||"Week 3 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.7|0.5797
92200568|NCT01299480|184299493|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB80 \[A22\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92200569|NCT01299480|184299493|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2001 \[A56\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92200570|NCT01299480|184299493|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2948 \[B24\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92200571|NCT01299480|184299493|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2707 \[B44\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
92325260|NCT02612610|184555697|OTHER||LS Mean Difference|-0.3||||0.2499|TWO_SIDED|95.0|-0.9|0.2|||Mixed Effect Repeated Measures model|||"Week 3 CSD Total Score: 20 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-0.9|0.2499
92325261|NCT02612610|184555697|OTHER||LS Mean Difference|-0.5||||0.0612|TWO_SIDED|95.0|-1.1|0.0|||Mixed Effect Repeated Measures model|||"Week 3 CSD Total Score: 50 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.1|0.0612
92325262|NCT02612610|184555698|OTHER||LS Mean Difference|-0.2||||0.5358|TWO_SIDED|95.0|-0.7|0.4|||Mixed Effect Repeated Measures model|||"Week 4 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.7|0.5358
92325263|NCT02612610|184555698|OTHER||LS Mean Difference|-0.3||||0.3129|TWO_SIDED|95.0|-0.8|0.3|||Mixed Effect Repeated Measures model|||"Week 4 CSD Total Score: 20 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-0.8|0.3129
92325264|NCT02612610|184555698|OTHER||LS Mean Difference|-0.5||||0.1046|TWO_SIDED|95.0|-1.0|0.1|||Mixed Effect Repeated Measures model|||"Week 4 CSD Total Score: 50 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.0|0.1046
92325265|NCT02612610|184555699|OTHER||LS Mean Difference|-0.2||||0.5796|TWO_SIDED|95.0|-0.7|0.4|||Mixed Effect Repeated Measures model|||"Week 5 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.7|0.5796
92325266|NCT02612610|184555699|OTHER||LS Mean Difference|-0.4||||0.143|TWO_SIDED|95.0|-1.0|0.1|||Mixed Effect Repeated Measures model|||"Week 5 CSD Total Score: 20 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.0|0.1430
92325267|NCT02612610|184555699|OTHER||LS Mean Difference|-0.7||||0.0221|TWO_SIDED|95.0|-1.2|-0.1|||Mixed Effect Repeated Measures model|||"Week 5 CSD Total Score: 50 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.1|-1.2|0.0221
92325268|NCT02612610|184555700|OTHER||LS Mean Difference|-0.4||||0.1562|TWO_SIDED|95.0|-1.0|0.2|||Mixed Effect Repeated Measures model|||"Week 6 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.0|0.1562
92325269|NCT02612610|184555700|OTHER||LS Mean Difference|-0.5||||0.071|TWO_SIDED|95.0|-1.1|0.0|||Mixed Effect Repeated Measures model|||"Week 6 CSD Total Score: 20 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.1|0.0710
92325270|NCT02612610|184555700|OTHER||LS Mean Difference|-0.7||||0.0274|TWO_SIDED|95.0|-1.2|-0.1|||Mixed Effect Repeated Measures model|||"Week 6 CSD Total Score: 50 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.1|-1.2|0.0274
92200572|NCT01621776|184299498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|145.1|STANDARD_DEVIATION|78.04||0.971||95.0|129.73|160.47|||ANOVA||This is a three arm study that is not seeking to engage in comparison between individual arms, therefore the mean difference across the study arms is reported.|||160.47|129.73|.971
92200573|NCT01621776|184299499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|161.09|STANDARD_DEVIATION|62.67||0.698|TWO_SIDED|95.0|144.91|177.28|||ANOVA||This is a three arm study that is not seeking to engage in comparison between individual arms, therefore the mean difference across the study arms is reported.|||177.28|144.91|.698
92200574|NCT01621776|184299500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|220.46|STANDARD_DEVIATION|89.97||0.806|TWO_SIDED|95.0|197.22|243.71|||ANOVA||This is a three arm study that is not seeking to engage in comparison between individual arms, therefore the mean difference across the study arms is reported.|||243.71|197.22|.806
92200575|NCT04916730|184299509|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92325271|NCT02612610|184555701|OTHER||LS Mean Difference|-0.2||||0.4464|TWO_SIDED|95.0|-0.8|0.4|||Mixed Effect Repeated Measures model|||"Week 7 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.8|0.4464
92325272|NCT02612610|184555701|OTHER||LS Mean Difference|-0.3||||0.332|TWO_SIDED|95.0|-0.9|0.3|||Mixed Effect Repeated Measures model|||"Week 7 CSD Total Score: 20 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-0.9|0.3320
92325273|NCT02612610|184555701|OTHER||LS Mean Difference|-0.5||||0.0792|TWO_SIDED|95.0|-1.1|0.1|||Mixed Effect Repeated Measures model|||"Week 7 CSD Total Score: 50 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.1|0.0792
92325274|NCT02612610|184555702|OTHER||LS Mean Difference|-0.2||||0.4716|TWO_SIDED|95.0|-0.8|0.4|||Mixed Effect Repeated Measures model|||"Week 8 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.8|0.4716
92325275|NCT02612610|184555702|OTHER||LS Mean Difference|-0.2||||0.4371|TWO_SIDED|95.0|-0.8|0.4|||Mixed Effect Repeated Measures model|||"Week 8 CSD Total Score: 20 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.8|0.4371
92325276|NCT02612610|184555702|OTHER||LS Mean Difference|-0.4||||0.1907|TWO_SIDED|95.0|-1.0|0.2|||Mixed Effect Repeated Measures model|||"Week 8 CSD Total Score: 50 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.0|0.1907
92325277|NCT02612610|184555703|OTHER||LS Mean Difference|-0.3||||0.2772|TWO_SIDED|95.0|-0.9|0.3|||Mixed Effect Repeated Measures model|||"Week 9 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-0.9|0.2772
92325278|NCT02612610|184555703|OTHER||LS Mean Difference|-0.5||||0.1132|TWO_SIDED|95.0|-1.1|0.1|||Mixed Effect Repeated Measures model|||"Week 9 CSD Total Score: 20 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.1|0.1132
92325279|NCT02612610|184555703|OTHER||LS Mean Difference|-0.6||||0.0737|TWO_SIDED|95.0|-1.2|0.1|||Mixed Effect Repeated Measures model|||"Week 9 CSD Total Score: 50 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.2|0.0737
92325280|NCT02612610|184555704|OTHER||LS Mean Difference|-0.1||||0.6266|TWO_SIDED|95.0|-0.8|0.5|||Mixed Effect Repeated Measures model|||"Week 10 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.5|-0.8|0.6266
92325281|NCT02612610|184555704|OTHER||LS Mean Difference|-0.4||||0.1769|TWO_SIDED|95.0|-1.0|0.2|||Mixed Effect Repeated Measures model|||"Week 10 CSD Total Score: 20 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.0|0.1769
92325282|NCT02612610|184555704|OTHER||LS Mean Difference|-0.7||||0.0313|TWO_SIDED|95.0|-1.3|-0.1|||Mixed Effect Repeated Measures model|||"Week 10 CSD Total Score: 50 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.1|-1.3|0.0313
92200576|NCT02078492|184299523|NON_INFERIORITY_OR_EQUIVALENCE|We assumed a minimal clinically significant difference (MCSD) of 1.3 between the three ketorolac groups at the 30-minute pain assessment and a standard deviation of 3.0. A power analysis determined that a sample of 78 subjects per group provided at least 80% power to detect an MCSD of at least 1.3 at 30 minutes with α=0.05.||||||0.783|||||||ANOVA|2 degrees of freedom||The main hypothesis was that there would be equivalence of dose effect across the three groups at every time point, and the primary comparison consisted of the pain assessment at 30 minutes.||||.783
92325283|NCT02612610|184555705|OTHER||LS Mean Difference|-0.4||||0.2058|TWO_SIDED|95.0|-1.0|0.2|||Mixed Effect Repeated Measures model|||"Week 11 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.0|0.2058
92325284|NCT02612610|184555705|OTHER||LS Mean Difference|-0.6||||0.0665|TWO_SIDED|95.0|-1.2|0.0|||Mixed Effect Repeated Measures model|||"Week 11 CSD Total Score: 20 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.2|0.0665
92325285|NCT02612610|184555705|OTHER||LS Mean Difference|-0.8||||0.0155|TWO_SIDED|95.0|-1.4|-0.1|||Mixed Effect Repeated Measures model|||"Week 11 CSD Total Score: 50 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.1|-1.4|0.0155
92200577|NCT00760747|184299524|SUPERIORITY_OR_OTHER||Least square mean differences at week 10|-0.7|STANDARD_ERROR_OF_MEAN|1.7||0.692|TWO_SIDED|95.0|-4.0|2.6|||Mixed Models Analysis|||||2.6|-4.0|0.692
92325286|NCT02612610|184555706|OTHER||LS Mean Difference|-0.4||||0.2458|TWO_SIDED|95.0|-1.0|0.3|||Mixed Effect Repeated Measures model|||"Week 12 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-1.0|0.2458
92325287|NCT02612610|184555706|OTHER||LS Mean Difference|-0.6||||0.0662|TWO_SIDED|95.0|-1.2|0.0|||Mixed Effect Repeated Measures model|||"Week 12 CSD Total Score: 20 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.2|0.0662
92325288|NCT02612610|184555706|OTHER||LS Mean Difference|-0.7||||0.0197|TWO_SIDED|95.0|-1.4|-0.1|||Mixed Effect Repeated Measures model|||"Week 12 CSD Total Score: 50 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.1|-1.4|0.0197
92325289|NCT02612610|184555707|OTHER||LS Mean Difference|0.3||||0.1921|TWO_SIDED|95.0|-0.2|0.8|||Mixed Effect Repeated Measures model|||"Week 1 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.8|-0.2|0.1921
92325290|NCT02612610|184555707|OTHER||LS Mean Difference|0.3||||0.2428|TWO_SIDED|95.0|-0.2|0.8|||Mixed Effect Repeated Measures model|||"Week 1 DCS Total Score: 20 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.8|-0.2|0.2428
92325291|NCT02612610|184555707|OTHER||LS Mean Difference|-0.1||||0.7383|TWO_SIDED|95.0|-0.6|0.4|||Mixed Effect Repeated Measures model|||"Week 1 DCS Total Score: 50 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.6|0.7383
92325292|NCT02612610|184555708|OTHER||LS Mean Difference|0.3||||0.4033|TWO_SIDED|95.0|-0.4|0.9|||Mixed Effect Repeated Measures model|||"Week 2 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.9|-0.4|0.4033
92325293|NCT02612610|184555708|OTHER||LS Mean Difference|0.2||||0.4599|TWO_SIDED|95.0|-0.4|0.9|||Mixed Effect Repeated Measures model|||"Week 2 DCS Total Score: 20 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.9|-0.4|0.4599
92325294|NCT02612610|184555708|OTHER||LS Mean Difference|-0.3||||0.2837|TWO_SIDED|95.0|-1.0|0.3|||Mixed Effect Repeated Measures model|||"Week 2 DCS Total Score: 50 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-1.0|0.2837
92200578|NCT00760747|184299525|SUPERIORITY_OR_OTHER||Least square mean differences at week 10|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.456|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|||||0.7|-0.3|0.456
92325295|NCT02612610|184555709|OTHER||LS Mean Difference|0.1||||0.8084|TWO_SIDED|95.0|-0.6|0.8|||Mixed Effect Repeated Measures model|||"Week 3 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.8|-0.6|0.8084
92325296|NCT02612610|184555709|OTHER||LS Mean Difference|-0.2||||0.6108|TWO_SIDED|95.0|-0.8|0.5|||Mixed Effect Repeated Measures model|||"Week 3 DCS Total Score: 20 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.5|-0.8|0.6108
92325297|NCT02612610|184555709|OTHER||LS Mean Difference|-0.3||||0.422|TWO_SIDED|95.0|-0.9|0.4|||Mixed Effect Repeated Measures model|||"Week 3 DCS Total Score: 50 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.9|0.4220
92200579|NCT00760747|184299526|SUPERIORITY_OR_OTHER||Least square mean differences at week 10|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.517|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|||||0.7|-0.3|0.517
92200580|NCT00760747|184299527|SUPERIORITY_OR_OTHER||Least square mean differences at week 10|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.526|TWO_SIDED|95.0|-0.3|0.6|||Mixed Models Analysis|||||0.6|-0.3|0.526
92200581|NCT00760747|184299528|SUPERIORITY_OR_OTHER||Least square mean differences at week 10|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.898|TWO_SIDED|95.0|-0.4|0.4|||Mixed Models Analysis|||||0.4|-0.4|0.898
92200582|NCT00760747|184299533|SUPERIORITY_OR_OTHER||Least square mean differences at week 2|-0.1|STANDARD_ERROR_OF_MEAN|1.4||0.927|TWO_SIDED|95.0|-2.9|2.6|||Mixed Models Analysis|||||2.6|-2.9|0.927
92200583|NCT00402051|184299539|SUPERIORITY_OR_OTHER||6-Month PFS Rate|52.8|||||TWO_SIDED|95.0|40.3|65.3||||||Hypothesis testing was done independently for each treatment arm (no direct treatment group comparison).||65.3|40.3|
92200584|NCT00402051|184299539|SUPERIORITY_OR_OTHER||6-Month PFS Rate|39.3|||||TWO_SIDED|95.0|27.8|50.8||||||Hypothesis testing was done independently for each treatment arm (no direct treatment group comparison).||50.8|27.8|
92325298|NCT02612610|184555710|OTHER||LS Mean Difference|-0.1||||0.8457|TWO_SIDED|95.0|-0.7|0.6|||Mixed Effect Repeated Measures model|||"Week 4 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.6|-0.7|0.8457
92325299|NCT02612610|184555710|OTHER||LS Mean Difference|-0.3||||0.4044|TWO_SIDED|95.0|-0.9|0.4|||Mixed Effect Repeated Measures model|||"Week 4 DCS Total Score: 20 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.9|0.4044
92325300|NCT02612610|184555710|OTHER||LS Mean Difference|-0.3||||0.3031|TWO_SIDED|95.0|-1.0|0.3|||Mixed Effect Repeated Measures model|||"Week 4 DCS Total Score: 50 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-1.0|0.3031
92325301|NCT02612610|184555711|OTHER||LS Mean Difference|0.0||||0.9126|TWO_SIDED|95.0|-0.7|0.6|||Mixed Effect Repeated Measures model|||"Week 5 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.6|-0.7|0.9126
92325302|NCT02612610|184555711|OTHER||LS Mean Difference|-0.5||||0.1136|TWO_SIDED|95.0|-1.2|0.1|||Mixed Effect Repeated Measures model|||"Week 5 DCS Total Score: 20 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.2|0.1136
92325303|NCT02612610|184555711|OTHER||LS Mean Difference|-0.7||||0.0352|TWO_SIDED|95.0|-1.4|0.0|||Mixed Effect Repeated Measures model|||"Week 5 DCS Total Score: 50 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.0|-1.4|0.0352
92325304|NCT02612610|184555712|OTHER||LS Mean Difference|-0.5||||0.1718|TWO_SIDED|95.0|-1.1|0.2|||Mixed Effect Repeated Measures model|||"Week 6 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.1|0.1718
92325305|NCT02612610|184555712|OTHER||LS Mean Difference|-0.6||||0.0651|TWO_SIDED|95.0|-1.3|0.0|||Mixed Effect Repeated Measures model|||"Week 6 DCS Total Score: 20 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.3|0.0651
92325306|NCT02612610|184555712|OTHER||LS Mean Difference|-0.6||||0.0848|TWO_SIDED|95.0|-1.2|0.1|||Mixed Effect Repeated Measures model|||"Week 6 DCS Total Score: 50 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.2|0.0848
92325307|NCT02612610|184555713|OTHER||LS Mean Difference|-0.1||||0.6715|TWO_SIDED|95.0|-0.8|0.5|||Mixed Effect Repeated Measures model|||"Week 7 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.5|-0.8|0.6715
92325308|NCT02612610|184555713|OTHER||LS Mean Difference|-0.3||||0.3514|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 7 DCS Total Score: 20 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.3514
92325309|NCT02612610|184555713|OTHER||LS Mean Difference|-0.4||||0.2809|TWO_SIDED|95.0|-1.1|0.3|||Mixed Effect Repeated Measures model|||"Week 7 DCS Total Score: 50 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-1.1|0.2809
92325310|NCT02612610|184555714|OTHER||LS Mean Difference|-0.2||||0.6022|TWO_SIDED|95.0|-0.9|0.5|||Mixed Effect Repeated Measures model|||"Week 8 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.5|-0.9|0.6022
92325311|NCT02612610|184555714|OTHER||LS Mean Difference|-0.3||||0.4456|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 8 DCS Total Score: 20 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.4456
92325312|NCT02612610|184555714|OTHER||LS Mean Difference|-0.3||||0.4629|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 8 DCS Total Score: 50 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.4629
92325313|NCT02612610|184555715|OTHER||LS Mean Difference|-0.3||||0.3749|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 9 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.3749
92325314|NCT02612610|184555715|OTHER||LS Mean Difference|-0.6||||0.0854|TWO_SIDED|95.0|-1.3|0.1|||Mixed Effect Repeated Measures model|||"Week 9 DCS Total Score: 20 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.3|0.0854
92325315|NCT02612610|184555715|OTHER||LS Mean Difference|-0.4||||0.2672|TWO_SIDED|95.0|-1.1|0.3|||Mixed Effect Repeated Measures model|||"Week 9 DCS Total Score: 50 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-1.1|0.2672
92325316|NCT02612610|184555716|OTHER||LS Mean Difference|-0.1||||0.7255|TWO_SIDED|95.0|-0.8|0.6|||Mixed Effect Repeated Measures model|||"Week 10 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.6|-0.8|0.7255
92325317|NCT02612610|184555716|OTHER||LS Mean Difference|-0.6||||0.0918|TWO_SIDED|95.0|-1.3|0.1|||Mixed Effect Repeated Measures model|||"Week 10 DCS Total Score: 20 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.3|0.0918
92325318|NCT02612610|184555716|OTHER||LS Mean Difference|-0.5||||0.1263|TWO_SIDED|95.0|-1.2|0.2|||Mixed Effect Repeated Measures model|||"Week 10 DCS Total Score: 50 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.2|0.1263
92325319|NCT02612610|184555717|OTHER||LS Mean Difference|-0.3||||0.4058|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 11 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.4058
92325320|NCT02612610|184555717|OTHER||LS Mean Difference|-0.6||||0.0828|TWO_SIDED|95.0|-1.3|0.1|||Mixed Effect Repeated Measures model|||"Week 11 DCS Total Score: 20 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.3|0.0828
92325321|NCT02612610|184555717|OTHER||LS Mean Difference|-0.7||||0.0575|TWO_SIDED|95.0|-1.4|0.0|||Mixed Effect Repeated Measures model|||"Week 11 DCS Total Score: 50 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.4|0.0575
92325322|NCT02612610|184555718|OTHER||LS Mean Difference|-0.3||||0.4163|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 12 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.4163
92325323|NCT02612610|184555718|OTHER||LS Mean Difference|-0.6||||0.0882|TWO_SIDED|95.0|-1.3|0.1|||Mixed Effect Repeated Measures model|||"Week 12 DCS Total Score: 20 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.3|0.0882
92325324|NCT02612610|184555718|OTHER||LS Mean Difference|-0.6||||0.0961|TWO_SIDED|95.0|-1.4|0.1|||Mixed Effect Repeated Measures model|||"Week 12 DCS Total Score: 50 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.4|0.0961
92325325|NCT02612610|184555719|OTHER||LS Mean Difference|0.8||||0.163|TWO_SIDED|95.0|-0.3|1.9|||Mixed Effect Repeated Measures model|||"Day 28 LCQ Total Score: 7.5 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||1.9|-0.3|0.1630
92325326|NCT02612610|184555719|OTHER||LS Mean Difference|0.2||||0.7601|TWO_SIDED|95.0|-1.0|1.3|||Mixed Effect Repeated Measures model|||"Day 28 LCQ Total Score: 20 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||1.3|-1.0|0.7601
92325327|NCT02612610|184555719|OTHER||LS Mean Difference|2.1||||0.0004|TWO_SIDED|95.0|0.9|3.2|||Mixed Effect Repeated Measures model|||"Day 28 LCQ Total Score: 50 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||3.2|0.9|0.0004
92325328|NCT02612610|184555720|OTHER||LS Mean Difference|1.0||||0.0941|TWO_SIDED|95.0|-0.2|2.3|||Mixed Effect Repeated Measures model|||"Day 56 LCQ Total Score: 7.5 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.3|-0.2|0.0941
92325329|NCT02612610|184555720|OTHER||LS Mean Difference|0.9||||0.1321|TWO_SIDED|95.0|-0.3|2.2|||Mixed Effect Repeated Measures model|||"Day 56 LCQ Total Score: 20 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.2|-0.3|0.1321
92325330|NCT02612610|184555720|OTHER||LS Mean Difference|1.5||||0.0192|TWO_SIDED|95.0|0.2|2.7|||Mixed Effect Repeated Measures model|||"Day 56 LCQ Total Score: 50 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.7|0.2|0.0192
92325331|NCT02612610|184555721|OTHER||LS Mean Difference|1.2||||0.0626|TWO_SIDED|95.0|-0.1|2.4|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination LCQ Total Score: 7.5 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.4|-0.1|0.0626
92325332|NCT02612610|184555721|OTHER||LS Mean Difference|1.0||||0.0967|TWO_SIDED|95.0|-0.2|2.3|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination LCQ Total Score: 20 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.3|-0.2|0.0967
92325333|NCT02612610|184555721|OTHER||LS Mean Difference|1.9||||0.0028|TWO_SIDED|95.0|0.7|3.1|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination LCQ Total Score: 50 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||3.1|0.7|0.0028
92325334|NCT02612610|184555722|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3182|||||||Cochran-Mantel-Haenszel|||"Day 28 PGIC: 7.5 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.3182
92325335|NCT02612610|184555722|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5021|||||||Cochran-Mantel-Haenszel|||"Day 28 PGIC: 20 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.5021
92325336|NCT02612610|184555722|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0665|||||||Cochran-Mantel-Haenszel|||"Day 28 PGIC: 50 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0665
92325337|NCT02612610|184555723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0872|||||||Cochran-Mantel-Haenszel|||"Day 56 PGIC: 7.5 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0872
92325338|NCT02612610|184555723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0994|||||||Cochran-Mantel-Haenszel|||"Day 56 PGIC: 20 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0994
92325339|NCT02612610|184555723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|||||||Cochran-Mantel-Haenszel|||"Day 56 PGIC: 50 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0009
92325340|NCT02612610|184555724|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0037|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination PGIC: 7.5 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0037
92325341|NCT02612610|184555724|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0166|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination PGIC: 20 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0166
92325342|NCT02612610|184555724|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination: 50 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||<0.0001
92325343|NCT02612610|184555725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0396|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination CGIC: 7.5 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0396
92325344|NCT02612610|184555725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0751|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination CGIC: 20 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0751
92325345|NCT02612610|184555725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination CGIC: 50 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0010
92325346|NCT02612610|184555726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8464|||||||Cochran-Mantel-Haenszel|||"1 Year Acceptability: 7.5 mg gefapixant vs. placebo~The distribution of Extremely likely responses was compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for the gefapixant vs. placebo using CMH test."||||0.8464
92325347|NCT02612610|184555726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7687|||||||Cochran-Mantel-Haenszel|||"1 Year Acceptability: 20 mg gefapixant vs. placebo~The distribution of Extremely likely responses was compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.7687
92200585|NCT00402051|184299541|SUPERIORITY_OR_OTHER||Best Overall Response Rate (%)|32.3||||||95.0|21.2|45.1||||||Response rates were evaluated separately for each treatment arm||45.1|21.2|
92200586|NCT00402051|184299541|SUPERIORITY_OR_OTHER||Best Overall Response Rate (%)|20.0||||||95.0|11.1|31.8||||||Response rates were evaluated separately for each treatment arm||31.8|11.1|
92325348|NCT02612610|184555726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4364|||||||Cochran-Mantel-Haenszel|||"1 Year Acceptability: 50 mg gefapixant vs. placebo~The distribution of Extremely likely responses was compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.4364
92325349|NCT02612610|184555727|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9966|||||||Cochran-Mantel-Haenszel|||"6 Month Acceptability: 7.5 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.9966
92325350|NCT02612610|184555727|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6372|||||||Cochran-Mantel-Haenszel|||"6 Month Acceptability: 20 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.6372
92325351|NCT02612610|184555727|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2155|||||||Cochran-Mantel-Haenszel|||"6 Month Acceptability: 50 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.2155
92325352|NCT02612610|184555728|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7559|||||||Cochran-Mantel-Haenszel|||"4 Week Acceptability: 7.5 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.7559
92325353|NCT02612610|184555728|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5091|||||||Cochran-Mantel-Haenszel|||"4 Week Acceptability: 20 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.5091
92325354|NCT02612610|184555728|SUPERIORITY_OR_OTHER_LEGACY|||||||0.279|||||||Cochran-Mantel-Haenszel|||"4 Week Acceptability: 50 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.2790
92325355|NCT02612610|184555729|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3887|||||||Cochran-Mantel-Haenszel|||"Twice Daily Acceptability: 7.5 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.3887
92325356|NCT02612610|184555729|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2333|||||||Cochran-Mantel-Haenszel|||"Twice Daily Acceptability: 20 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.2333
92325357|NCT02612610|184555729|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0534|||||||Cochran-Mantel-Haenszel|||"Twice Daily Acceptability: 50 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.0534
92325358|NCT02612610|184555730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6115|||||||Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 7.5 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Never responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.6115
92325359|NCT02612610|184555730|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 20 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Never responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||<0.0001
92200587|NCT02473965|184299602|SUPERIORITY||Odds Ratio (OR)|0.868|||=|1|TWO_SIDED|95.0|0.27|2.787||The statistical inference was tested as 2-sided with alpha=0.05.|Fisher Exact|||An unstratified analysis using Fisher's exact test was used for treatment comparison without adjustment for stratified baseline prednisone equivalent dose level due to the small cell size. The odds ratio and confidence intervals are calculated overall (i.e. all mITT subjects).||2.787|0.270|=1.00
92325360|NCT02612610|184555730|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 50 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Never responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||<0.0001
92325361|NCT02612610|184555731|SUPERIORITY_OR_OTHER_LEGACY|||||||0||||||"A p-value of zero was calculated if all participants (100%) had No Taste Effect Noted or Not at All responses in both comparison groups."|Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 7.5 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Not at All responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0
92325362|NCT02612610|184555731|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 20 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Not at All responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||<0.0001
92200588|NCT02473965|184299603|SUPERIORITY||LS mean difference|1.58|STANDARD_ERROR_OF_MEAN|12.536|=|0.9|TWO_SIDED|95.0|-23.52|26.68|||ANCOVA|||Treatment comparison of percent change in daily CS dose from baseline to Week 39. The Analysis of Covariance model included the percent change from baseline in daily CS dose as the dependent variable, treatment as a fixed effect and baseline daily CS dose as covariate.||26.68|-23.52|=0.900
92325363|NCT02612610|184555731|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 50 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Not at All responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||<0.0001
92325364|NCT01260272|184555732|SUPERIORITY_OR_OTHER||||||=|0.033||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.033
92325365|NCT01260272|184555733|SUPERIORITY_OR_OTHER||||||=|0.0468||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.0468
92325366|NCT01260272|184555734|SUPERIORITY_OR_OTHER||||||=|0.2114||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.2114
92325367|NCT01260272|184555735|SUPERIORITY_OR_OTHER||||||=|0.1727||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.1727
92325368|NCT01260272|184555736|SUPERIORITY_OR_OTHER||||||=|0.7498||||||Apriori threshold for statistical significance was \<=0.05|Wilcoxon (Mann-Whitney)|||||||=0.7498
92325369|NCT01260272|184555737|SUPERIORITY_OR_OTHER||||||=|0.2615||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.2615
92325370|NCT01260272|184555738|SUPERIORITY_OR_OTHER||||||=|0.6915||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.6915
92325371|NCT01260272|184555739|SUPERIORITY_OR_OTHER|||||||0.106||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||0.1060
92325372|NCT01546571|184555742|OTHER||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0||||||||||||
92325373|NCT02105246|184555754|EQUIVALENCE|This analysis compared the proportion of eligible patients who participated in cardiac rehab after referral to home-based vs. referral to center-based programs.|Risk Ratio (RR)|0.98||||0.8|TWO_SIDED||||||Chi-squared|||Null hypothesis = no difference in proportion of patients who participate in cardiac rehab after referral to home-based vs. facility-based programs||||0.80
92325374|NCT02105246|184555755|NON_INFERIORITY|This analysis compared Baseline to 3-month change in 6-minute walk test distance among subjects who participated in home-based cardiac rehab vs. subjects who participated in center-based cardiac rehab|Median Difference (Final Values)|196.0|||<|0.001|TWO_SIDED|||||This comparison was unadjusted.|Wilcoxon (Mann-Whitney)|||Null hypothesis: 3-month change in 6MWT distance is not inferior among participants enrolled in home-based vs. facility-based cardiac rehab.||||<0.001
92325375|NCT02105246|184555756|NON_INFERIORITY|This analysis compared 6-month change in 6-minute walk test distance among subjects who participated in home-based vs. center-based cardiac rehab.|Median Difference (Final Values)|159.0||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: 6-month change in 6MWT distance is not inferior among participants enrolled in home-based vs. facility-based cardiac rehab.||||0.03
92325376|NCT00387010|184555757|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.3223|TWO_SIDED|95.0|-4.64|1.54|||t-test, 2 sided|||||1.54|-4.64|0.3223
92200589|NCT01681277|184299611|SUPERIORITY_OR_OTHER||Slope|1.2208|STANDARD_ERROR_OF_MEAN|0.1386|||TWO_SIDED|95.0|0.9354|1.5062|||||"Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1.~PK endpoints on the log-transformed scale. Standard Error of the mean is actually the Standard Error of the slope"|This was non confirmatory testing (Single dose). Dose proportionality of BI 113608 for Cmax,ss was analysed.||1.5062|0.9354|
92200590|NCT01681277|184299613|SUPERIORITY_OR_OTHER||Slope|1.3135|STANDARD_ERROR_OF_MEAN|0.1206|||TWO_SIDED|95.0|1.0652|1.5618|||||"Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1.~PK endpoints on the log-transformed scale. Standard Error of the mean is actually the Standard Error of the slope"|This was non confirmatory testing (Single dose). Dose proportionality of BI 113608 for AUCt,ss was analysed.||1.5618|1.0652|
92325377|NCT01167881|184555810|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.46|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|97.5|-4.87|-4.05||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline weight, baseline HbA1c as linear covariates.||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||-4.05|-4.87|<0.0001
92325378|NCT01167881|184555811|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested through a two-sided 97.5% confidence interval for the treatment effect of empagliflozin minus the effect of glimepiride in change from baseline in HbA1c. The null-hypothesis of material inferiority of empagliflozin was rejected if the confidence interval is entirely below the non-inferiority margin 0.3%.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|97.5|-0.2|-0.01|||ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline HbA1c as linear covariate.||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||-0.01|-0.20|<0.0001
92200591|NCT02271984|184299619|SUPERIORITY_OR_OTHER||Ratio (%)|39.9|||||TWO_SIDED|90.0|34.7|46.0|||||Percentage of Geometric Least Squares (LS) Mean Ratio (Treatment A/Treatment B) is reported.|||46.0|34.7|
92200592|NCT02271984|184299619|SUPERIORITY_OR_OTHER||Ratio (%)|27.3|||||TWO_SIDED|90.0|22.5|33.2|||||Percentage of Geometric LS Mean Ratio (Treatment C1/Treatment A) is reported.|||33.2|22.5|
92200593|NCT02271984|184299619|SUPERIORITY_OR_OTHER||Ratio (%)|260.2|||||TWO_SIDED|90.0|214.0|316.4|||||Percentage of Geometric LS Mean Ratio (Treatment C2/Treatment A) is reported.|||316.4|214.0|
92200594|NCT02271984|184299619|SUPERIORITY_OR_OTHER||Ratio (%)|167.1|||||TWO_SIDED|90.0|143.9|194.0|||||Percentage of Geometric LS Mean Ratio (Treatment A/Treatment D) is reported.|||194.0|143.9|
92200595|NCT02271984|184299619|SUPERIORITY_OR_OTHER||Ratio (%)|115.7|||||TWO_SIDED|90.0|99.8|134.1|||||Percentage of Geometric LS Mean Ratio (Treatment E/Treatment A) is reported.|||134.1|99.8|
92200596|NCT01088984|184299634|SUPERIORITY_OR_OTHER|||||||1||||||1-sided p-value is calculated against the null hypothesis of a response rate of 5%.|binomial parameter exact method|||||||1.0000
92200597|NCT02304705|184299642|SUPERIORITY|||||||0.052|||||||t-test, 2 sided|||||||.052
92200598|NCT00770029|184299647|SUPERIORITY_OR_OTHER||Difference response rate|0.6|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001|TWO_SIDED|95.0|0.52|0.68|||Fisher Exact|||The efficacy of the treatment was confirmed if H0 was rejected at a given α of 5%, that means if the two sided p-value was ≤0.05. Power of 90%||0.68|0.52|<0.0001
92200599|NCT05620108|184299653|SUPERIORITY|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||||||0.036
92200600|NCT05602727|184299654|SUPERIORITY|Difference in LS Means (MK-1942 - Placebo)|LS Mean Difference|2.1||||0.186|TWO_SIDED|97.5|-1.6|5.8|||Longitudinal ANCOVA|||||5.8|-1.6|0.186
92200601|NCT05602727|184299654|SUPERIORITY|Difference in LS Means (MK-1942 - Placebo)|LS Mean Difference|-1.4||||0.4|TWO_SIDED|97.5|-5.2|2.4|||Longitudinal ANCOVA|||||2.4|-5.2|0.400
92200602|NCT05602727|184299658|SUPERIORITY|Difference in LS Means|LS Mean Difference|-2.9||||0.196|TWO_SIDED|97.5|-8.0|2.2|||Longitudinal ANCOVA|||||2.2|-8.0|0.196
92200603|NCT05602727|184299658|SUPERIORITY|Difference in LS Means|LS Mean Difference|-4.2||||0.081|TWO_SIDED|97.5|-9.6|1.3|||Longitudinal ANCOVA|||||1.3|-9.6|0.081
92200604|NCT02038842|184299662|OTHER|The co-primary immunogenicity endpoint is analysed per arm, in a frequentist framework, in all randomised participants having received at least one vaccine administration and still HIV-negative at W30.|||||=|0.02||||||One-sided test for the observed proportion being superior to the theoretical decision threshold of 50%.|Binomial|||Trial was designed to compare the observed proportion of responders at week 30 within each group to a predefined minimum immunogenicity level of 50%.||||=0.02
92200605|NCT00955708|184299701|OTHER|Primary endpoint was estimated using the Kaplan-Meier method. In addition, Greenwood's formula was used to calculate the lower one-sided 95% confidence bound.|Kaplan-Meier Rate|95.3|||||ONE_SIDED|95.0|94.0||||||The lower one-sided 95% confidence bound was pre-specified to be greater than 92.5%.|The endpoint data reflected here is a modified primary endpoint analysis requested by the Food and Drug Administration early in the registry to include data that is related to the left ventricular lead function in a chronic setting.|||94.0|
92200606|NCT00955708|184299701|OTHER|Primary endpoint was estimated using the Kaplan-Meier method. In addition, Greenwood's formula was used to calculate the lower one-sided 95% confidence bound.|Kaplan-Meier Rate|100.0|||||ONE_SIDED|95.0|100.0|||||||The non-modified primary endpoint analysis initially included confirmed chronic LV lead related complications that result in permanent loss of therapy, invasive intervention, injury or death, and are deemed attributable to a structural lead failure by an independent Clinical Events Committee (CEC). These results are represented here.|||100|
92200607|NCT01735175|184299739|EQUIVALENCE|The testing procedure was set up in a hierarchical structure, where first equivalence between LA-EP2006 and Neulasta® was assessed (margin ±1 day) and only if this was successfully established, non-inferiority between the two products was tested using a tighter margin of -0.6 days.|Mean Difference (Net)|0.07||||0.05|TWO_SIDED|95.0|-0.12|0.26|||ANCOVA|The primary endpoints was analyzed with analysis of covariance (ANCOVA).|The difference between LA-EP2006 and reference pegfilgrastim was 0.07 days (95% CI \[-0.12, 0.26\]). 95% CIs were within the predefined margin of ±1 day confirming equivalence.|"The hierarchical test procedure aimed to show that~1. LA-EP2006 and Neulasta® are equivalent with respect to DSN duration in Cycle 1 (margin±1 day), and, if so~2. LA-EP2006 is non-inferior to Neulasta® with respect to DSN duration in Cycle 1 (margin of -0.6 days)."||0.26|-0.12|0.05
92200608|NCT01735175|184299739|NON_INFERIORITY|The testing procedure was set up in a hierarchical structure, where first equivalence between LA-EP2006 and Neulasta was assessed (margin ±1 day) and only if this was successfully established, non-inferiority between the two products was tested using a tighter margin of -0.6 days.|Mean Difference (Net)|0.07||||0.05|TWO_SIDED|95.0|-0.12|0.26|||ANCOVA|The primary endpoints was analyzed with analysis of covariance (ANCOVA).|LA-EP2006 is non-inferior to Neulasta® because the lower bound of the 95% CI is entirely above the non-inferiority margin of -0.6 days.|"The hierarchical test procedure aimed to show that~1. LA-EP2006 and Neulasta® are equivalent with respect to DSN duration in Cycle 1 (margin±1 day), and, if so~2. LA-EP2006 is non-inferior to Neulasta® with respect to DSN duration in Cycle 1 (margin of -0.6 days)."||0.26|-0.12|0.05
92200609|NCT02103114|184299749|EQUIVALENCE|T1 (Baseline)||||||0.982|||||||t-test, 2 sided|||||||0.982
92200610|NCT02103114|184299749|EQUIVALENCE|T2 (30 minutes after study drug)|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92200611|NCT02103114|184299749|EQUIVALENCE|T3 (30 minutes on CPB)||||||0.001|||||||t-test, 2 sided|||||||0.001
92200612|NCT02103114|184299749|EQUIVALENCE|T5 (Arrival in ICU)||||||0.003|||||||t-test, 2 sided|||||||0.003
92200613|NCT02103114|184299749|EQUIVALENCE|T6 (POD 2)||||||0.84|||||||t-test, 2 sided|||||||0.840
92200614|NCT02103114|184299749|EQUIVALENCE|T7 (POD 4)||||||0.475|||||||t-test, 2 sided|||||||0.475
92200615|NCT02103114|184299750|EQUIVALENCE|T4 (just prior to coming off of CPB)||||||0.048|||||||Wilcoxon (Mann-Whitney)|||||||0.048
92200616|NCT02103114|184299751|EQUIVALENCE|T1 (Baseline)||||||0.855|||||||Wilcoxon (Mann-Whitney)|||||||0.855
92200617|NCT02103114|184299751|EQUIVALENCE|T5 (Arrival in ICU)||||||0.225|||||||Wilcoxon (Mann-Whitney)|||||||0.225
92200618|NCT02103114|184299751|EQUIVALENCE|T6 (POD 2)||||||0.313|||||||Wilcoxon (Mann-Whitney)|||||||0.313
92200619|NCT02103114|184299751|EQUIVALENCE|T7 (POD 4)||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
92200620|NCT02103114|184299754|EQUIVALENCE|T1 (Baseline) to T5 (Arrival in ICU)||||||0.056|||||||Wilcoxon (Mann-Whitney)|||||||0.056
92200621|NCT02103114|184299755|EQUIVALENCE|T1 (Baseline) to T5 (Arrival in ICU)||||||0.545|||||||Wilcoxon (Mann-Whitney)|||||||0.545
92200622|NCT02103114|184299757|EQUIVALENCE|Baseline (intraoperatively) (Time 1) to before termination of bypass (Time 4)||||||0.757|||||||Wilcoxon (Mann-Whitney)|||||||0.757
92200623|NCT02103114|184299760|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2741|||||||t-test, 2 sided|24 hour postop Fresh Frozen Plasma exposures||||||0.2741
92200624|NCT02103114|184299760|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0351|||||||t-test, 2 sided|24 hour postop Platelet exposures||||||0.0351
92200625|NCT02103114|184299760|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073|||||||t-test, 2 sided|24 hour postop Cryoprecipitate exposures||||||0.073
92200626|NCT02103114|184299760|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0196|||||||t-test, 2 sided|24 hour postop Red Blood Cell exposures||||||0.0196
92200627|NCT02103114|184299761|EQUIVALENCE|protamine time plus 24 hours||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
92200628|NCT02103114|184299763|EQUIVALENCE|24 Hours Post-Operatively||||||0.0004|||||||Fisher Exact|||||||0.0004
92200629|NCT02103114|184299764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.927|||||||t-test, 2 sided|||||||0.927
92200630|NCT02103114|184299765|SUPERIORITY_OR_OTHER_LEGACY|||||||0.738|||||||t-test, 2 sided|||||||0.738
92200631|NCT02103114|184299766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.231|||||||Fisher Exact|||||||0.231
92200632|NCT02103114|184299767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.661|||||||Fisher Exact|||||||0.661
92200633|NCT02103114|184299769|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||||||1.0
92200634|NCT02103114|184299770|SUPERIORITY_OR_OTHER_LEGACY|||||||0.342|||||||Fisher Exact|||||||0.342
92200635|NCT02103114|184299771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.961|||||||t-test, 2 sided|||||||0.961
92200636|NCT01266161|184299781|SUPERIORITY||Mean Difference (Final Values)|23.76|||<|0.001|TWO_SIDED|95.0|16.45|31.07||p-Value from analysis of variance (ANOVA) model, with treatment, baseline PSR, gender terms. To protect type I error at 5% significance, 2 primary parameters tested sequentially: SPRID 8-12 not declared significant unless SPRID 0-12 was significant.|ANOVA|||||31.07|16.45|<0.001
92200637|NCT01266161|184299782|SUPERIORITY||Mean Difference (Final Values)|8.42|||<|0.001|TWO_SIDED|95.0|4.13|12.71||p-Value from ANOVA model, with treatment, baseline PSR, and gender terms. To protect type I error at 5% significance, 2 primary parameters tested sequentially: SPRID 8-12 not declared significant unless SPRID 0-12 was significant.|ANOVA|||||12.71|4.13|<0.001
92200638|NCT01266161|184299783|SUPERIORITY||Least-squares means|8.95|||<|0.001|TWO_SIDED|95.0|5.94|11.95||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 0-12.||11.95|5.94|<0.001
92200639|NCT01266161|184299783|SUPERIORITY||Least-squares means|3.15|||<|0.001|TWO_SIDED|95.0|1.45|4.85||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 8-12.||4.85|1.45|<0.001
92200640|NCT01266161|184299783|SUPERIORITY||Least-squares means|6.56|||<|0.001|TWO_SIDED|95.0|2.84|10.27||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 12-24.||10.27|2.84|<0.001
92200641|NCT01266161|184299783|SUPERIORITY||Least-squares means|2.02||||0.091|TWO_SIDED|95.0|-0.33|4.37||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 20-24.||4.37|-0.33|0.091
92200642|NCT01266161|184299783|SUPERIORITY||Least-squares means|14.95|||<|0.001|TWO_SIDED|95.0|9.12|20.79||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 0-24.||20.79|9.12|<0.001
92200643|NCT01266161|184299783|SUPERIORITY||Least-squares means|5.87||||0.01|TWO_SIDED|95.0|1.42|10.33||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 24-36.||10.33|1.42|0.010
92200644|NCT01266161|184299783|SUPERIORITY||Least-squares means|3.48||||0.004|TWO_SIDED|95.0|1.13|5.83||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 32-36.||5.83|1.13|0.004
92200645|NCT01266161|184299783|SUPERIORITY||Least-squares means|6.09||||0.006|TWO_SIDED|95.0|1.82|10.36||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 36-48.||10.36|1.82|0.006
92200646|NCT01266161|184299783|SUPERIORITY||Least-squares means|2.41||||0.042|TWO_SIDED|95.0|0.09|4.73||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 44-48.||4.73|0.09|0.042
92200647|NCT01266161|184299783|SUPERIORITY||Least-squares means|10.97||||0.004|TWO_SIDED|95.0|3.49|18.45||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 24-48.||18.45|3.49|0.004
92200648|NCT01266161|184299784|SUPERIORITY||Hazard Ratio (HR)|0.18|||<|0.001||95.0|0.1|0.34|||proportional hazards model|||||0.34|0.10|<0.001
92200649|NCT01266161|184299785|SUPERIORITY||Treatment Difference|-48.01|||<|0.001||95.0|-64.46|-31.56||p-Values from the Cochran-Mantel-Haenszel (CMH) test, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||During the first dosing interval (0 to 12 hours).||-31.56|-64.46|<0.001
92200650|NCT01266161|184299785|SUPERIORITY||Treatment Difference|-25.53|||<|0.001||95.0|-39.78|-11.28||p-Values from the CMH test, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||During the second dosing interval (12 to 24 hours).||-11.28|-39.78|<0.001
92200651|NCT01266161|184299785|SUPERIORITY||Treatment Difference|-24.05||||0.002||95.0|-38.93|-9.18||p-Values from the CMH test, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||During the third dosing interval (24 to 36 hours).||-9.18|-38.93|0.002
92200652|NCT01266161|184299785|SUPERIORITY||Treatment Difference|-13.6||||0.035||95.0|-26.41|-0.79||p-Values from the CMH test, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||During the fourth dosing interval (36 to 48 hours).||-0.79|-26.41|0.035
92200653|NCT01266161|184299785|SUPERIORITY||Treatment Difference|-48.01|||<|0.001||95.0|-64.42|-31.6||p-Values from the CMH test, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||During the study overall (0 to 48 hours).||-31.60|-64.42|<0.001
92200654|NCT01266161|184299785|SUPERIORITY||Cox proportional hazard models|0.086||||0.011|TWO_SIDED|95.0|0.01|0.57|||Andersen-Gill (AG)|||Time to First Dose Rescue Medication Over Entire Study Period (0-48 Hours)||0.57|0.01|0.011
92200655|NCT01266161|184299786|SUPERIORITY||Least squares means|0.84|||<|0.001||95.0|0.5|1.19||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 0.5 hours.||1.19|0.50|<0.001
92200656|NCT01266161|184299786|SUPERIORITY||Least squares means|1.53|||<|0.001||95.0|1.11|1.94||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1 hour.||1.94|1.11|<0.001
92200657|NCT01266161|184299786|SUPERIORITY||Least squares means|2.0|||<|0.001||95.0|1.56|2.44||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1.5 hours.||2.44|1.56|<0.001
92200658|NCT01266161|184299786|SUPERIORITY||Least squares means|2.29|||<|0.001||95.0|1.86|2.73||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 2 hours.||2.73|1.86|<0.001
92200659|NCT01266161|184299786|SUPERIORITY||Least squares means|2.18|||<|0.001||95.0|1.69|2.68||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 4 hours.||2.68|1.69|<0.001
92200660|NCT01266161|184299786|SUPERIORITY||Least squares means|0.92|||<|0.001||95.0|0.46|1.38||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA||Treatment difference (ibuprofen minus placebo) and corresponding 95% CI were calculated based on least-squares means from the ANOVA model.|Ibuprofen versus placebo at 6 hours.||1.38|0.46|<0.001
92200661|NCT01266161|184299786|SUPERIORITY||Least squares means|1.04|||<|0.001||95.0|0.54|1.54||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 8 hours.||1.54|0.54|<0.001
92200662|NCT01266161|184299786|SUPERIORITY||Least squares means|1.1|||<|0.001||95.0|0.59|1.6||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 10 hours.||1.60|0.59|<0.001
92200663|NCT01266161|184299786|SUPERIORITY||Least squares means|0.5||||0.052||95.0|0.0|1.01||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 12 hours.||1.01|-0.00|0.052
92200664|NCT01266161|184299787|SUPERIORITY||Least squares means|0.37|||<|0.001||95.0|0.16|0.59||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 0.5 hours.||0.59|0.16|<0.001
92200665|NCT01266161|184299787|SUPERIORITY||Least squares means|0.9|||<|0.001||95.0|0.63|1.18||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1 hour.||1.18|0.63|<0.001
92325379|NCT01167881|184555811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.04||0.0153|TWO_SIDED|97.5|-0.2|-0.01||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline HbA1c as linear covariate.||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||-0.01|-0.20|0.0153
92325380|NCT01167881|184555812|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.102|||<|0.0001|TWO_SIDED|97.5|0.06|0.173||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for baseline HbA1c (\<8.5 / \>=8.5).||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||0.173|0.060|<0.0001
92325381|NCT01167881|184555813|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.6|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|97.5|-7.0|-4.2||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline SBP, baseline HbA1c as linear covariates.||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||-4.2|-7.0|<0.0001
92200666|NCT01266161|184299787|SUPERIORITY||Least squares means|1.22|||<|0.001||95.0|0.91|1.52||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1.5 hours.||1.52|0.91|<0.001
92200667|NCT01266161|184299787|SUPERIORITY||Least squares means|1.4|||<|0.001||95.0|1.1|1.71||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 2 hours.||1.71|1.10|<0.001
92200668|NCT01266161|184299787|SUPERIORITY||Least squares means|1.32|||<|0.001||95.0|0.97|1.67||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 4 hours.||1.67|0.97|<0.001
92200669|NCT01266161|184299787|SUPERIORITY||Least squares means|0.61|||<|0.001||95.0|0.3|0.91||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 6 hours.||0.91|0.30|<0.001
92200670|NCT01266161|184299787|SUPERIORITY||Least squares means|0.64|||<|0.001||95.0|0.31|0.97||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 8 hours.||0.97|0.31|<0.001
92200671|NCT01266161|184299787|SUPERIORITY||Least squares means|0.66|||<|0.001||95.0|0.36|0.97||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 10 hours.||0.97|0.36|<0.001
92200672|NCT01266161|184299787|SUPERIORITY||Least squares means|0.27||||0.089||95.0|-0.04|0.59||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 12 hours.||0.59|-0.04|0.089
92200673|NCT01266161|184299787|SUPERIORITY||Least squares means|1.0|||<|0.001||95.0|0.7|1.29||Ibuprofen versus placebo at 0.5 hours.|ANOVA|||Ibuprofen versus placebo at 16 hours.||1.29|0.70|<0.001
92200674|NCT01266161|184299787|SUPERIORITY||Least squares means|0.47||||0.004||95.0|0.15|0.78||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 20 hours.||0.78|0.15|0.004
92200675|NCT01266161|184299787|SUPERIORITY||Least squares means|0.04||||0.821||95.0|-0.28|0.35||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 24 hours.||0.35|-0.28|0.821
92200676|NCT01266161|184299787|SUPERIORITY||Least squares means|0.56||||0.001||95.0|0.23|0.9||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 28 hours.||0.90|0.23|0.001
92200677|NCT01266161|184299787|SUPERIORITY||Least squares means|0.62|||<|0.001||95.0|0.3|0.94||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 32 hours.||0.94|0.30|<0.001
92200678|NCT01266161|184299787|SUPERIORITY||Least squares means|0.25||||0.127||95.0|-0.07|0.57||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 36 hours.||0.57|-0.07|0.127
92200679|NCT01266161|184299787|SUPERIORITY||Least squares means|0.67|||<|0.001||95.0|0.35|1.0||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 40 hours.||1.00|0.35|<0.001
92200680|NCT01266161|184299787|SUPERIORITY||Least squares means|0.34||||0.036||95.0|0.02|0.67||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 44 hours.||0.67|0.02|0.036
92200681|NCT01266161|184299787|SUPERIORITY||Least squares means|0.26||||0.091||95.0|-0.04|0.56||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 48 hours.||0.56|-0.04|0.091
92200682|NCT01266161|184299788|SUPERIORITY||Least squares means|1.22|||<|0.001||95.0|0.69|1.74||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 0.5 hours.||1.74|0.69|<0.001
92200683|NCT01266161|184299788|SUPERIORITY||Least squares means|2.43|||<|0.001||95.0|1.77|3.09||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1 hour.||3.09|1.77|<0.001
92200684|NCT01266161|184299788|SUPERIORITY||Least squares means|3.22|||<|0.001||95.0|2.49|3.95||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1.5 hours.||3.95|2.49|<0.001
92200685|NCT01266161|184299788|SUPERIORITY||Least squares means|3.7|||<|0.001||95.0|2.98|4.42||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 2 hours.||4.42|2.98|<0.001
92200686|NCT01266161|184299788|SUPERIORITY||Least squares means|3.5|||<|0.001||95.0|2.67|4.33||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 4 hours.||4.33|2.67|<0.001
92200687|NCT01266161|184299788|SUPERIORITY||Least squares means|1.53|||<|0.001||95.0|0.79|2.27||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 6 hours.||2.27|0.79|<0.001
92200688|NCT01266161|184299788|SUPERIORITY||Least squares means|1.67|||<|0.001||95.0|0.87|2.48||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 8 hours.||2.48|0.87|<0.001
92200689|NCT01266161|184299788|SUPERIORITY||Least squares means|1.76|||<|0.001||95.0|0.97|2.54||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 10 hours.||2.54|0.97|<0.001
92200690|NCT01266161|184299788|SUPERIORITY||Least squares means|0.78||||0.056||95.0|-0.02|1.58||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 12 hours.||1.58|-0.02|0.056
92200691|NCT01266161|184299789|SUPERIORITY||Least squares means|14.82|||<|0.001|TWO_SIDED|95.0|10.38|19.25||p-Value from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 0 to 12 hours.||19.25|10.38|<0.001
92200692|NCT01266161|184299789|SUPERIORITY||Least squares means|5.27|||<|0.001|TWO_SIDED|95.0|2.57|7.98||p-Value from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo from 8 to 12 hours.||7.98|2.57|<0.001
92200693|NCT01266161|184299790|SUPERIORITY||CMH-adjusted proportion|-0.73|||<|0.001|TWO_SIDED|95.0|-0.91|-0.55||p-Values from the CMH test with modified ridit scores, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||For the first dosing interval.||-0.55|-0.91|<0.001
92200694|NCT01266161|184299790|SUPERIORITY||CMH-adjusted proportions|-0.72|||<|0.001|TWO_SIDED|95.0|-1.05|-0.4||Treatment difference (ibuprofen minus placebo) and corresponding 95% CI were calculated based on CMH-adjusted proportions and corresponding standard errors.|Cochran-Mantel-Haenszel|||For the second dosing interval.||-0.40|-1.05|<0.001
92200695|NCT01266161|184299790|SUPERIORITY||CMH-adjusted proportions|-0.48||||0.002|TWO_SIDED|95.0|-0.9|-0.06||p-Values from the CMH test with modified ridit scores, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||For the third dosing interval.||-0.06|-0.90|0.002
92200696|NCT01266161|184299790|SUPERIORITY||CMH-adjusted proportion|-0.68||||0.021|TWO_SIDED|95.0|-1.02|-0.35||p-Values from the CMH test with modified ridit scores, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||For the fourth dosing interval.||-0.35|-1.02|0.021
92200697|NCT01266161|184299790|SUPERIORITY||CMH-adjusted proportion|-0.7|||<|0.001|TWO_SIDED|95.0|-0.89|-0.51||p-Values from the CMH test with modified ridit scores, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||For the overall study duration.||-0.51|-0.89|<0.001
92200698|NCT01266161|184299793|SUPERIORITY||Gamma statistic|0.85|||<|0.001|TWO_SIDED|95.0|0.74|0.95||p-Value from the CMH test with modified ridit scores, controlling for baseline PSR score and gender.|Cochran-Mantel-Haenszel|||Ibuprofen versus placebo at 24 hours||0.95|0.74|<0.001
92200699|NCT01266161|184299793|SUPERIORITY||Gamma statistic|0.79|||<|0.001|TWO_SIDED|95.0|0.66|0.92|||Cochran-Mantel-Haenszel|p-Value from the CMH test with modified ridit scores, controlling for baseline PSR score and gender.||Ibuprofen versus placebo at 48 hours||0.92|0.66|<0.001
92200700|NCT04692467|184299794|SUPERIORITY||Mean Difference (Final Values)|-5.88|||<|0.0001|TWO_SIDED|95.0|-8.77|-3.01|||Mixed Models Analysis||The mean difference reflects the difference in mean change (i.e., mean change = 12 months minus baseline for each arm) between the intervention arm and SOC arm (direction = intervention arm minus SOC arm).|||-3.01|-8.77|<0.0001
92200701|NCT05672771|184299856|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.355|TWO_SIDED||||||ANOVA|||||||0.355
92200702|NCT05672771|184299857|SUPERIORITY||Mean Difference (Final Values)|0.56|||<|0.02|TWO_SIDED||||||ANOVA||This is the difference between the Different Mixed and Placebo Control conditions.|||||<.02
92200703|NCT05672771|184299858|OTHER||||||<|0.05||||||for contrasts of DM, DS, and ST groups relative to the PC group.|Mixed Models Analysis|||||||<.05
92200704|NCT03321253|184299877|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
92200705|NCT02209181|184299924|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|16.38|STANDARD_ERROR_OF_MEAN|2.522|<|0.001|TWO_SIDED|95.0|11.42|21.35||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||21.35|11.42|<0.001
92200706|NCT02209181|184299924|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.58|STANDARD_ERROR_OF_MEAN|2.503||0.068|TWO_SIDED|95.0|-0.35|9.51||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||9.51|-0.35|0.068
92200707|NCT02209181|184299924|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|16.2|STANDARD_ERROR_OF_MEAN|2.531|<|0.001|TWO_SIDED|95.0|11.21|21.18||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||21.18|11.21|<0.001
92200708|NCT02209181|184299924|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.81|STANDARD_ERROR_OF_MEAN|2.503|<|0.001|TWO_SIDED|95.0|-16.73|-6.88||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-6.88|-16.73|<0.001
92200709|NCT02209181|184299924|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|2.531||0.941|TWO_SIDED|95.0|-5.17|4.8||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.80|-5.17|0.941
92200710|NCT02209181|184299925|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.15||0.448|TWO_SIDED|95.0|-0.19|0.42||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.42|-0.19|0.448
92200711|NCT02209181|184299925|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.15||0.618|TWO_SIDED|95.0|-0.38|0.22||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.22|-0.38|0.618
92200712|NCT02209181|184299925|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.15||0.621|TWO_SIDED|95.0|-0.23|0.38||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.38|-0.23|0.621
92200713|NCT02209181|184299925|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.15||0.207|TWO_SIDED|95.0|-0.49|0.11||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.11|-0.49|0.207
92200714|NCT02209181|184299925|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.15||0.794|TWO_SIDED|95.0|-0.34|0.26||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.26|-0.34|0.794
92200715|NCT02209181|184299926|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.34|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|0.82|1.86||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.86|0.82|<0.001
92325382|NCT01167881|184555814|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|97.5|-3.5|-1.8||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline DBP, baseline HbA1c as linear covariates.||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||-1.8|-3.5|<0.0001
92200716|NCT02209181|184299926|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.26||0.42|TWO_SIDED|95.0|-0.3|0.72||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.72|-0.30|0.420
92200717|NCT02209181|184299926|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.26||0.083|TWO_SIDED|95.0|-0.06|0.97||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.97|-0.06|0.083
92200718|NCT02209181|184299926|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.64|-0.62||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.62|-1.64|<0.001
92200719|NCT02209181|184299926|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.4|-0.37||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.37|-1.40|<0.001
92200720|NCT02209181|184299927|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.93|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|2.28|3.59||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.59|2.28|<0.001
92200721|NCT02209181|184299927|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.33||0.058|TWO_SIDED|95.0|-0.02|1.29||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.29|-0.02|0.058
92325383|NCT01167881|184555815|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested through a two-sided 97.5% confidence interval for the treatment effect of empagliflozin minus the effect of glimepiride in change from baseline in HbA1c. The null-hypothesis of material inferiority of empagliflozin was rejected if the confidence interval is entirely below the non-inferiority margin 0.3%.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|97.5|-0.16|0.02|||ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline HbA1c as linear covariate.||"Testing Hierarchy for first interim analysis (52 weeks):~1. Non-inferiority in HbA1c change from baseline at 52 weeks,~2. Superiority in body weight change from baseline at 52 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 52 weeks,~4. Superiority in systolic blood pressure change from baseline at 52 weeks,~5. Superiority in diastolic blood pressure change from baseline at 52 weeks."||0.02|-0.16|<0.0001
92325384|NCT01167881|184555816|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.81|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|97.5|-5.16|-4.46||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline weight, baseline HbA1c as linear covariates.||"Testing Hierarchy for first interim analysis (52 weeks):~1. Non-inferiority in HbA1c change from baseline at 52 weeks,~2. Superiority in body weight change from baseline at 52 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 52 weeks,~4. Superiority in systolic blood pressure change from baseline at 52 weeks,~5. Superiority in diastolic blood pressure change from baseline at 52 weeks."||-4.46|-5.16|<0.0001
92325385|NCT01167881|184555817|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.077|||<|0.0001|TWO_SIDED|97.5|0.04|0.148||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for baseline HbA1c (\<8.5 / \>=8.5).||"Testing Hierarchy for first interim analysis (52 weeks):~1. Non-inferiority in HbA1c change from baseline at 52 weeks,~2. Superiority in body weight change from baseline at 52 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 52 weeks,~4. Superiority in systolic blood pressure change from baseline at 52 weeks,~5. Superiority in diastolic blood pressure change from baseline at 52 weeks."||0.148|0.040|<0.0001
92325386|NCT01167881|184555818|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.8|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|97.5|-7.3|-4.4||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline SBP, baseline HbA1c as linear covariates.||"Testing Hierarchy for first interim analysis (52 weeks):~1. Non-inferiority in HbA1c change from baseline at 52 weeks,~2. Superiority in body weight change from baseline at 52 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 52 weeks,~4. Superiority in systolic blood pressure change from baseline at 52 weeks,~5. Superiority in diastolic blood pressure change from baseline at 52 weeks."||-4.4|-7.3|<0.0001
92325387|NCT01167881|184555819|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.8|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|97.5|-3.7|-2.0||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline DBP, baseline HbA1c as linear covariates.||"Testing Hierarchy for first interim analysis (52 weeks):~1. Non-inferiority in HbA1c change from baseline at 52 weeks,~2. Superiority in body weight change from baseline at 52 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 52 weeks,~4. Superiority in systolic blood pressure change from baseline at 52 weeks,~5. Superiority in diastolic blood pressure change from baseline at 52 weeks."||-2.0|-3.7|<0.0001
92325388|NCT02294175|184555843|SUPERIORITY|||||||0.029||||||Repeated Measures ANOVA. The interaction effect is controlling for any potential main effects of treatment arm (SDT vs LDT) and time (days 0, 4, 8).|Repeated Measures ANOVA|Greenhouse-Geisser corrections were applied to the F test degrees of freedom due to violation of the sphericity assumption (p\<.05 for Mauchly's W).||Repeated Measures Analysis of Variance (RMANOVA) to test for effects of treatment arm, time, and treatment-by-time interaction. The effect of interest is the treatment-by-time interaction, i.e, whether the reduction of bacterial CFUs over time varies according to treatment arm.||||.029
92200722|NCT02209181|184299927|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.23|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|0.57|1.89||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.89|0.57|<0.001
92200723|NCT02209181|184299927|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|-2.96|-1.65||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.65|-2.96|<0.001
92200724|NCT02209181|184299927|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.71|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-2.37|-1.04||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.04|-2.37|<0.001
92200725|NCT02209181|184299928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.73|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|3.01|4.46||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.46|3.01|<0.001
92200726|NCT02209181|184299928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|0.36||0.035|TWO_SIDED|95.0|0.06|1.49||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.49|0.06|0.035
92200727|NCT02209181|184299928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.94|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|1.21|2.67||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.67|1.21|<0.001
92200728|NCT02209181|184299928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.96|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-3.68|-2.24||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.24|-3.68|<0.001
92200729|NCT02209181|184299928|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.79|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.52|-1.07||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.07|-2.52|<0.001
92200730|NCT02209181|184299929|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.99|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|3.21|4.77||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.77|3.21|<0.001
92200731|NCT02209181|184299929|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.86|STANDARD_ERROR_OF_MEAN|0.39||0.028|TWO_SIDED|95.0|0.09|1.64||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.64|0.09|0.028
92200732|NCT02209181|184299929|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.48|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|1.7|3.26||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.26|1.70|<0.001
92200733|NCT02209181|184299929|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.12|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-3.9|-2.35||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.35|-3.90|<0.001
92200734|NCT02209181|184299929|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.51|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.29|-0.73||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.73|-2.29|<0.001
92200735|NCT02209181|184299930|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.78|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|2.92|4.65||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.65|2.92|<0.001
92200736|NCT02209181|184299930|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.02|STANDARD_ERROR_OF_MEAN|0.44||0.021|TWO_SIDED|95.0|0.16|1.88||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.88|0.16|0.021
92200737|NCT02209181|184299930|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.06|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|2.19|3.93||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.93|2.19|<0.001
92200738|NCT02209181|184299930|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.77|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|-3.63|-1.91||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.91|-3.63|<0.001
92200739|NCT02209181|184299930|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.44||0.104|TWO_SIDED|95.0|-1.59|0.15||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.15|-1.59|0.104
92200740|NCT02209181|184299931|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.13|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|2.18|4.07||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.07|2.18|<0.001
92200741|NCT02209181|184299931|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.98|STANDARD_ERROR_OF_MEAN|0.48||0.041|TWO_SIDED|95.0|0.04|1.92||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.92|0.04|0.041
92200742|NCT02209181|184299931|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.14|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|2.19|4.09||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.09|2.19|<0.001
92200743|NCT02209181|184299931|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.15|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|-3.09|-1.21||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.21|-3.09|<0.001
92200744|NCT02209181|184299931|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.48||0.973|TWO_SIDED|95.0|-0.93|0.97||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.97|-0.93|0.973
92200745|NCT02209181|184299932|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.87|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.87|3.87||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.87|1.87|<0.001
92200746|NCT02209181|184299932|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.89|STANDARD_ERROR_OF_MEAN|0.5||0.079|TWO_SIDED|95.0|-0.1|1.88||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.88|-0.10|0.079
92200747|NCT02209181|184299932|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.27|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|2.27|4.27||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.27|2.27|<0.001
92200748|NCT02209181|184299932|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-2.98|-1.0||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.00|-2.98|<0.001
92200749|NCT02209181|184299932|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.51||0.44|TWO_SIDED|95.0|-0.61|1.4||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.40|-0.61|0.440
92200750|NCT02209181|184299933|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.55|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|1.52|3.57||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.57|1.52|<0.001
92200751|NCT02209181|184299933|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.81|STANDARD_ERROR_OF_MEAN|0.52||0.118|TWO_SIDED|95.0|-0.21|1.83||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.83|-0.21|0.118
92325389|NCT02294175|184555844|SUPERIORITY|||||||0.037||||||Repeated Measures ANOVA. This interaction effect is controlling for any potential main effects of treatment arm (SDT vs LDT) and time (days 0, 4, 8).|Repeated Measures ANOVA|Greenhouse-Geisser corrections were applied to the F test degrees of freedom due to violation of the sphericity assumption (p\<.05 for Mauchly's W).||Repeated Measures Analysis of Variance (RMANOVA) to test for effects of treatment arm, time, and treatment-by-time interaction. The effect of interest is the treatment-by-time interaction, i.e, whether the reduction of bacterial CFUs over time varies according to treatment arm.||||.037
92325390|NCT02294175|184555845|SUPERIORITY|||||||0.012||||||Repeated Measures ANOVA. This interaction effect is controlling for any potential main effects of treatment arm (SDT vs LDT) and time (days 0, 4, 8).|Repeated Measures ANOVA|||Repeated Measures Analysis of Variance (RMANOVA) to test for effects of treatment arm, time, and treatment-by-time interaction. The effect of interest is the treatment-by-time interaction, i.e, whether the reduction of bacterial CFUs over time varies according to treatment arm.||||.012
92325391|NCT02294175|184555846|SUPERIORITY|||||||0.397|||||||t-test, 2 sided|||||||.397
92325392|NCT02294175|184555847|SUPERIORITY|||||||0.661||||||Repeated Measures ANOVA. The interaction effect is controlling for any potential main effects of treatment arm (SDT vs LDT) and time (days 0, 4, 8).|Repeated Measures ANOVA|||Repeated Measures Analysis of Variance (RMANOVA) to test for effects of treatment arm, time, and treatment-by-time interaction. The effect of interest is the treatment-by-time interaction, i.e, whether change in MMP-9 over time varies according to treatment arm.||||.661
92200752|NCT02209181|184299933|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.13|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|2.1|4.16||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.16|2.10|<0.001
92200753|NCT02209181|184299933|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.73|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|-2.75|-0.71||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.71|-2.75|<0.001
92200754|NCT02209181|184299933|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.52||0.262|TWO_SIDED|95.0|-0.44|1.62||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.62|-0.44|0.262
92200755|NCT02209181|184299934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.92|STANDARD_ERROR_OF_MEAN|0.53|<|0.001|TWO_SIDED|95.0|0.88|2.96||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.96|0.88|<0.001
92200756|NCT02209181|184299934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.52||0.271|TWO_SIDED|95.0|-0.45|1.61||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.61|-0.45|0.271
92200757|NCT02209181|184299934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.95|STANDARD_ERROR_OF_MEAN|0.53|<|0.001|TWO_SIDED|95.0|1.91|3.99||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.99|1.91|<0.001
92200758|NCT02209181|184299934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.52||0.011|TWO_SIDED|95.0|-2.37|-0.32||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.32|-2.37|0.011
92200759|NCT02209181|184299934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.03|STANDARD_ERROR_OF_MEAN|0.53||0.052|TWO_SIDED|95.0|-0.01|2.07||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.07|-0.01|0.052
92200760|NCT02209181|184299935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.25|STANDARD_ERROR_OF_MEAN|0.53||0.018|TWO_SIDED|95.0|0.21|2.29||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.29|0.21|0.018
92200761|NCT02209181|184299935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.52||0.31|TWO_SIDED|95.0|-0.5|1.56||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.56|-0.50|0.310
92200762|NCT02209181|184299935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|0.53|<|0.001|TWO_SIDED|95.0|1.76|3.85||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.85|1.76|<0.001
92200763|NCT02209181|184299935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.52||0.172|TWO_SIDED|95.0|-1.75|0.31||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.31|-1.75|0.172
92200764|NCT02209181|184299935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.55|STANDARD_ERROR_OF_MEAN|0.53||0.004|TWO_SIDED|95.0|0.51|2.6||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.60|0.51|0.004
92200765|NCT02209181|184299936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.84|STANDARD_ERROR_OF_MEAN|0.51||0.102|TWO_SIDED|95.0|-0.17|1.84||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.84|-0.17|0.102
92200766|NCT02209181|184299936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.51||0.479|TWO_SIDED|95.0|-0.64|1.35||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.35|-0.64|0.479
92200767|NCT02209181|184299936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.85|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.85|3.86||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.86|1.85|<0.001
92200768|NCT02209181|184299936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.51||0.345|TWO_SIDED|95.0|-1.47|0.52||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.52|-1.47|0.345
92325393|NCT02294175|184555848|SUPERIORITY|||||||0.979||||||Repeated Measures ANOVA. The interaction effect is controlling for any potential main effects of treatment arm (SDT vs LDT) and time (days 0, 4, 8).|Repeated Measures ANOVA|||Repeated Measures Analysis of Variance (RMANOVA) to test for effects of treatment arm, time, and treatment-by-time interaction. The effect of interest is the treatment-by-time interaction, i.e, whether change in IL6 over time varies according to treatment arm.||||.979
92200769|NCT02209181|184299936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.01|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.01|3.02||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.02|1.01|<0.001
92200770|NCT02209181|184299937|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|0.51||0.338|TWO_SIDED|95.0|-0.52|1.51||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.51|-0.52|0.338
92200771|NCT02209181|184299937|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.51||0.299|TWO_SIDED|95.0|-0.47|1.54||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.54|-0.47|0.299
92200772|NCT02209181|184299937|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.72|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|1.7|3.73||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.73|1.70|<0.001
92200773|NCT02209181|184299937|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.51||0.942|TWO_SIDED|95.0|-0.97|1.04||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.04|-0.97|0.942
92200774|NCT02209181|184299937|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|1.21|3.24||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.24|1.21|<0.001
92200775|NCT02209181|184299938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.51||0.306|TWO_SIDED|95.0|-0.48|1.53||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.53|-0.48|0.306
92200776|NCT02209181|184299938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|0.51||0.335|TWO_SIDED|95.0|-0.51|1.49||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.49|-0.51|0.335
92200777|NCT02209181|184299938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.79|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.78|3.8||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.80|1.78|<0.001
92200778|NCT02209181|184299938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.51||0.946|TWO_SIDED|95.0|-1.03|0.97||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.97|-1.03|0.946
92200779|NCT02209181|184299938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.27|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.25|3.28||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.28|1.25|<0.001
92200780|NCT02209181|184299939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.51||0.279|TWO_SIDED|95.0|-0.45|1.56||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.56|-0.45|0.279
92200781|NCT02209181|184299939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.54|STANDARD_ERROR_OF_MEAN|0.51||0.292|TWO_SIDED|95.0|-0.46|1.53||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.53|-0.46|0.292
92200782|NCT02209181|184299939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.67|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.66|3.68||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.68|1.66|<0.001
92325394|NCT02294175|184555849|SUPERIORITY|||||||0.999|||||||Kolmogorov-Smirnov Z|||Kolmogorov-Smirnov Z test was used as a non-parametric test to compare rank scores between treatment arms (similar to Mann-Whitney, but potentially more powerful).||||.999
92325395|NCT02294175|184555850|SUPERIORITY|||||||0.415|||||||Kolmogorov-Smirnov Z|||Kolmogorov-Smirnov Z test was used as a non-parametric test to compare rank scores between treatment arms (similar to Mann-Whitney, but potentially more powerful).||||.415
92200783|NCT02209181|184299939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.51||0.971|TWO_SIDED|95.0|-1.02|0.98||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.98|-1.02|0.971
92325396|NCT02294175|184555851|SUPERIORITY|||||||0.993|||||||Kolmogorov-Smirnov Z|||Kolmogorov-Smirnov Z test was used as a non-parametric test to compare rank scores between treatment arms (similar to Mann-Whitney, but potentially more powerful).||||.993
92325397|NCT02294175|184555852|SUPERIORITY|||||||0.99|||||||Kolmogorov-Smirnov Z|||Kolmogorov-Smirnov Z test was used as a non-parametric test to compare rank scores between treatment arms (similar to Mann-Whitney, but potentially more powerful).||||.990
92325398|NCT02548351|184555861|OTHER||Hazard Ratio (HR)|0.814||||0.1028|TWO_SIDED|95.0|0.635|1.043|||Log Rank|||||1.043|0.635|0.1028
92325399|NCT02548351|184555861|OTHER||Hazard Ratio (HR)|0.772||||0.0444|TWO_SIDED|95.0|0.6|0.994|||Log Rank|||||0.994|0.600|0.0444
92325400|NCT02548351|184555862|OTHER||Difference in percentages|7.1|||<|0.0001|TWO_SIDED|95.0|3.6|10.6|||Cochran-Mantel-Haenszel|||||10.6|3.6|<0.0001
92200784|NCT02209181|184299939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.11|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.11|3.12||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.12|1.11|<0.001
92200785|NCT02209181|184299940|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.51||0.329|TWO_SIDED|95.0|-0.5|1.5||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.50|-0.50|0.329
92200786|NCT02209181|184299940|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.5||0.531|TWO_SIDED|95.0|-0.68|1.31||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.31|-0.68|0.531
92200787|NCT02209181|184299940|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.53|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.53|3.54||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.54|1.53|<0.001
92325401|NCT02548351|184555862|OTHER||Treatment difference|9.4|||<|0.0001|TWO_SIDED|95.0|5.8|13.0|||Cochran-Mantel-Haenszel|||||13.0|5.8|<0.0001
92325402|NCT02548351|184555863|OTHER||Treatment difference|6.7||||0.0004|TWO_SIDED|95.0|3.0|10.4|||Cochran-Mantel-Haenszel|||||10.4|3.0|0.0004
92268655|NCT00929201|184439251|NON_INFERIORITY_OR_EQUIVALENCE|The FMI sitagliptin/metformin 50/500 mg FDC tablet and co-administration of corresponding doses of sitagliptin and metformin as individual tablets after consumption of a standard high-fat breakfast will be bioequivalent for metformin based on assessment of the Cmax for metformin \[i.e., the true metformin Cmax GMR (sitagliptin/metformin 50/500 mg FDC tablet/ co-administration of sitagliptin and metformin as individual tablets will be contained within (0.80, 1.25)\].|Least-Squares Mean Ratio|0.95||||||90.0|0.93|0.98||||||Least-Squares Mean Ratio calculated as Sitagliptin/Metformin 50/500 mg FDC tablet divided by Sitagliptin 50 mg and metformin 500 mg individual tablets||0.98|0.93|
92325403|NCT02548351|184555863|OTHER||Treatment difference|9.0|||<|0.0001|TWO_SIDED|95.0|5.2|12.8|||Cochran-Mantel-Haenszel|||||12.8|5.2|<0.0001
92325404|NCT02805660|184555906|SUPERIORITY|An exact test for single proportion was performed to test null hypothesis (H0): ORR \<= 5% against alternative hypothesis (H1): ORR \> 5% for Cohorts 1, 3, and 4 and to test H0: ORR \<= 27% against H1: ORR \> 27% for Cohort 2.||||||0.537|||||||Exact Test|||||||0.537
92325405|NCT02805660|184555906|SUPERIORITY|An exact test for single proportion was performed to test null hypothesis (H0): ORR \<= 5% against alternative hypothesis (H1): ORR \> 5% for Cohorts 1, 3, and 4 and to test H0: ORR \<= 27% against H1: ORR \> 27% for Cohort 2.|||||>|0.999|||||||Exact Test|||||||>0.999
92325406|NCT02805660|184555906|SUPERIORITY|An exact test for single proportion was performed to test null hypothesis (H0): ORR \<= 5% against alternative hypothesis (H1): ORR \> 5% for Cohorts 1, 3, and 4 and to test H0: ORR \<= 27% against H1: ORR \> 27% for Cohort 2.||||||0.283|||||||Exact Test|||||||0.283
92325407|NCT02805660|184555906|SUPERIORITY|An exact test for single proportion was performed to test null hypothesis (H0): ORR \<= 5% against alternative hypothesis (H1): ORR \> 5% for Cohorts 1, 3, and 4 and to test H0: ORR \<= 27% against H1: ORR \> 27% for Cohort 2.||||||0.025|||||||Exact Test|||||||0.025
92325408|NCT02572076|184555917|OTHER|Pilot study- no sample size was calculated|number of subjects with adequate cleansi|100.0|||||TWO_SIDED|95.0|66.0|100.0||||||patients had partial bowel preparation to mimic poor bowel cleansing before the colonoscopy procedure at baseline, MCS was used during the procedure to clean the colon.||100|66|
92325409|NCT02778074|184555918|SUPERIORITY||Mean Difference (Final Values)|-2.34|||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92325410|NCT01817582|184555946|OTHER||Least square (LS) mean difference|0.3||||0.6199|TWO_SIDED|95.0|-0.7|1.3||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||1.3|-0.7|0.6199
92325411|NCT01817582|184555946|OTHER||LS mean difference|0.1||||0.807|TWO_SIDED|95.0|-0.9|1.2||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||1.2|-0.9|0.8070
92325412|NCT01817582|184555946|OTHER||LS mean difference|-0.1||||0.8068|TWO_SIDED|95.0|-1.1|0.9||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||0.9|-1.1|0.8068
92325413|NCT01817582|184555947|OTHER||LS mean difference|-4.4||||0.2296|TWO_SIDED|95.0|-11.6|2.8||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||2.8|-11.6|0.2296
92325414|NCT01817582|184555947|OTHER||LS mean difference|-4.9||||0.189|TWO_SIDED|95.0|-12.3|2.5||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||2.5|-12.3|0.1890
92325415|NCT01817582|184555947|OTHER||LS mean difference|-0.5||||0.8836|TWO_SIDED|95.0|-7.7|6.7||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||6.7|-7.7|0.8836
92325416|NCT03053063|184555965|SUPERIORITY||Percentage Difference|1.9||||0.5572|TWO_SIDED|95.0|-4.4|8.2||Difference between SEL 18 mg vs Placebo, 95% confidence interval (CI) and p-value were obtained by stratified Mantel-Haenszel method adjusting for baseline (BL) diabetes mellitus status and BL Enhanced Liver Fibrosis (ELF) score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||8.2|-4.4|0.5572
92325417|NCT03053063|184555965|SUPERIORITY||Percentage Difference|0.3||||0.9272|TWO_SIDED|95.0|-6.0|6.5||Difference between SEL 6 mg vs Placebo, 95% CI and p-value were obtained by stratified Mantel-Haenszel method adjusting for BL diabetes mellitus status and BL ELF score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||6.5|-6.0|0.9272
92325418|NCT03053063|184555968|SUPERIORITY||Percentage Difference|3.8||||0.285|TWO_SIDED|95.0|-3.1|10.6||Difference between SEL 18 mg vs Placebo, 95% CI and p-value were obtained by stratified Mantel-Haenszel method adjusting for BL diabetes mellitus status and BL ELF score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||10.6|-3.1|0.2850
92325419|NCT03053063|184555968|SUPERIORITY||Percentage Difference|1.5||||0.6731|TWO_SIDED|95.0|-5.3|8.2||Difference between SEL 6 mg vs Placebo, 95% CI and p-value were obtained by stratified Mantel-Haenszel method adjusting for BL diabetes mellitus status and BL ELF score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||8.2|-5.3|0.6731
92325420|NCT03053063|184555970|SUPERIORITY||Percentage Difference|-1.7||||0.365|TWO_SIDED|95.0|-5.5|2.0||Difference between SEL 18 mg vs Placebo, 95% CI and p-value were obtained by stratified Mantel-Haenszel method adjusting for BL diabetes mellitus status and BL ELF score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||2.0|-5.5|0.3650
92325421|NCT03053063|184555970|SUPERIORITY||Percentage Difference|-0.4||||0.8557|TWO_SIDED|95.0|-4.3|3.6||Difference between SEL 6 mg vs Placebo, 95% CI and p-value were obtained by stratified Mantel-Haenszel method adjusting for BL diabetes mellitus status and BL ELF score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||3.6|-4.3|0.8557
92325422|NCT03963232|184555976|SUPERIORITY||LS Mean Difference|-1.82|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.32|-1.32|||Mixed Models Analysis|||||-1.32|-2.32|<.0001
92325423|NCT03963232|184555977|SUPERIORITY||Odds Ratio (OR)|2.674|||<|0.0001|TWO_SIDED|95.0|2.01|3.557|||GLIMMIX|||30% responder||3.557|2.010|<.0001
92325424|NCT03963232|184555977|SUPERIORITY||Odds Ratio (OR)|2.481|||<|0.0001|TWO_SIDED|95.0|1.869|3.293|||GLIMMIX|||50% responder||3.293|1.869|<.0001
92325425|NCT03963232|184555977|SUPERIORITY||Odds Ratio (OR)|2.824|||<|0.0001|TWO_SIDED|95.0|2.007|3.972|||GLIMMIX|||75% responder||3.972|2.007|<.0001
92325426|NCT03963232|184555977|SUPERIORITY||Odds Ratio (OR)|3.309|||<|0.0001|TWO_SIDED|95.0|1.989|5.504|||GLIMMIX|||100% responder||5.504|1.989|<.0001
92325427|NCT03963232|184555978|SUPERIORITY||LS Mean Difference|7.07|STANDARD_DEVIATION|0.95|<|0.0001|TWO_SIDED|95.0|5.2|8.95|||Mixed Models Analysis|||||8.95|5.20|<.0001
92325428|NCT03963232|184555979|SUPERIORITY||LS Mean Difference|-1.78|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-2.25|-1.31|||Mixed Models Analysis|||||-1.31|-2.25|<.0001
92325429|NCT03963232|184555980|SUPERIORITY||LS Mean Difference|-1.82|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.35|-1.29|||Mixed Models Analysis|||||-1.29|-2.35|<.0001
92325430|NCT03963232|184555981|SUPERIORITY||Odds Ratio (OR)|3.04|||<|0.0001|TWO_SIDED|95.0|1.92|4.81|||Regression, Logistic|||||4.81|1.92|<.0001
92325431|NCT03963232|184555982|SUPERIORITY||LS Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.15|-0.62|||Mixed Models Analysis|||||-0.62|-1.15|<.0001
92325432|NCT03963232|184555983|SUPERIORITY||LS Mean Difference|-18.88|STANDARD_ERROR_OF_MEAN|2.2|<|0.0001|TWO_SIDED|95.0|-23.21|-14.56|||Mixed Models Analysis|||||-14.56|-23.21|<.0001
92325433|NCT03963232|184555984|SUPERIORITY||LS Mean Difference|-19.24|STANDARD_ERROR_OF_MEAN|2.29|<|0.0001|TWO_SIDED|95.0|-23.73|-14.75|||Mixed Models Analysis|||||-14.75|-23.73|<.0001
92325434|NCT03963232|184555985|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.22|-0.1|||Mixed Models Analysis|||||-0.10|-0.22|<.0001
92325435|NCT03963232|184555986|SUPERIORITY||LS Mean Difference|-0.224|STANDARD_ERROR_OF_MEAN|0.1021||0.0284|TWO_SIDED|95.0|-0.43|-0.02|||ANCOVA|||||-0.02|-0.43|0.0284
92325436|NCT03963232|184555987|SUPERIORITY||LS Mean Difference|-12.429|STANDARD_ERROR_OF_MEAN|3.2484||0.0001|TWO_SIDED|95.0|-18.81|-6.05|||ANCOVA|||||-6.05|-18.81|0.0001
92325437|NCT00356135|184555990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.91|||<|0.0001||95.0|-19.1|-8.73|||ANOVA|Treatment and study sites are fixed effects and MPA right before the randomization treatment period is a covariate in the model.|Mean Difference is for Prasugrel 10/10 mg arm minus Clopidogrel 75/75 mg arm.|||-8.73|-19.10|<0.0001
92200788|NCT02209181|184299940|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.5||0.722|TWO_SIDED|95.0|-1.17|0.81||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.81|-1.17|0.722
92200789|NCT02209181|184299940|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.04|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.03|3.04||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.04|1.03|<0.001
92325438|NCT00356135|184555990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.98|||<|0.0001||95.0|-19.26|-8.71|||ANCOVA|||||-8.71|-19.26|<0.0001
92325439|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.4||||0.4055|TWO_SIDED|95.0|-8.22|3.35||P-value for 2 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||3.35|-8.22|0.4055
92325440|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-23.0|||<|0.0001|TWO_SIDED|95.0|-29.3|-17.51||P-value for 2 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-17.51|-29.30|<0.0001
92325441|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.2||||0.068|TWO_SIDED|95.0|-8.82|0.32||P-value for 24 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||0.32|-8.82|0.0680
92325442|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-29.0|||<|0.0001|TWO_SIDED|95.0|-33.2|-23.94||P-value for 24 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|Comparison of MPA to 20 uM ADP at 24 hours||-23.94|-33.20|<0.0001
92325443|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-19.96|-9.65||P-value for 1 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-9.65|-19.96|<0.0001
92325444|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-19.87|-9.32||P-value for 1 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-9.32|-19.87|<0.0001
92325445|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-20.3|-9.22||P-value for 2 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-9.22|-20.30|<0.0001
92325446|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-20.59|-9.22||P-value for 2 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-9.22|-20.59|<0.0001
92200790|NCT02209181|184299941|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.5||0.38|TWO_SIDED|95.0|-0.54|1.42||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.42|-0.54|0.380
92200791|NCT02209181|184299941|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.49||0.767|TWO_SIDED|95.0|-0.83|1.12||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.12|-0.83|0.767
92200792|NCT02209181|184299941|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|1.52|3.49||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.49|1.52|<0.001
92200793|NCT02209181|184299941|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.49||0.557|TWO_SIDED|95.0|-1.27|0.68||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.68|-1.27|0.557
92200794|NCT02209181|184299941|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.06|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|1.08|3.05||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.05|1.08|<0.001
92200795|NCT02209181|184299942|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.55||0.64|TWO_SIDED|95.0|-0.83|1.35||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.35|-0.83|0.640
92200796|NCT02209181|184299942|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.55||0.798|TWO_SIDED|95.0|-0.94|1.22||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.22|-0.94|0.798
92200797|NCT02209181|184299942|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.32|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|1.23|3.42||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.42|1.23|<0.001
92200798|NCT02209181|184299942|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.55||0.829|TWO_SIDED|95.0|-1.2|0.96||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.96|-1.20|0.829
92200799|NCT02209181|184299942|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.06|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|0.97|3.16||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.16|0.97|<0.001
92200800|NCT02209181|184299943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.16||0.117|TWO_SIDED|95.0|-0.06|0.57||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.57|-0.06|0.117
92200801|NCT02209181|184299943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.687|TWO_SIDED|95.0|-0.25|0.38||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.38|-0.25|0.687
92200802|NCT02209181|184299943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.16||0.497|TWO_SIDED|95.0|-0.21|0.43||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.43|-0.21|0.497
92200803|NCT02209181|184299943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.16||0.239|TWO_SIDED|95.0|-0.51|0.13||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.13|-0.51|0.239
92200804|NCT02209181|184299943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.16||0.376|TWO_SIDED|95.0|-0.46|0.18||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.18|-0.46|0.376
92200805|NCT02209181|184299944|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.78|STANDARD_ERROR_OF_MEAN|0.32|<|0.001|TWO_SIDED|95.0|1.14|2.42||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.42|1.14|<0.001
92200806|NCT02209181|184299944|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.32||0.35|TWO_SIDED|95.0|-0.33|0.94||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.94|-0.33|0.350
92200807|NCT02209181|184299944|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.33||0.183|TWO_SIDED|95.0|-0.21|1.08||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.08|-0.21|0.183
92268656|NCT00566969|184439252|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A hierarchical linear model was used to account for unequal variance and covariance structures across time.||||||0.1|||||||ANOVA|||||||.10
92200808|NCT02209181|184299944|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|0.32|<|0.001|TWO_SIDED|95.0|-2.11|-0.84||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.84|-2.11|<0.001
92200809|NCT02209181|184299944|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|-1.98|-0.7||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.70|-1.98|<0.001
92200810|NCT02209181|184299945|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.78|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|2.94|4.61||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.61|2.94|<0.001
92200811|NCT02209181|184299945|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.88|STANDARD_ERROR_OF_MEAN|0.42||0.037|TWO_SIDED|95.0|0.05|1.71||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.71|0.05|0.037
92200812|NCT02209181|184299945|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.47|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|0.63|2.3||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.30|0.63|<0.001
92200813|NCT02209181|184299945|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-3.73|-2.07||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.07|-3.73|<0.001
92200814|NCT02209181|184299945|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.31|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.15|-1.47||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.47|-3.15|<0.001
92200815|NCT02209181|184299946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.34|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|3.43|5.25||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||5.25|3.43|<0.001
92200816|NCT02209181|184299946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.85|STANDARD_ERROR_OF_MEAN|0.46||0.067|TWO_SIDED|95.0|-0.06|1.75||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.75|-0.06|0.067
92200817|NCT02209181|184299946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.26|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|1.34|3.17||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.17|1.34|<0.001
92325447|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.4||||0.5501|TWO_SIDED|95.0|-5.85|3.14||P-value for 2 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||3.14|-5.85|0.5501
92325448|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-17.0|||<|0.0001|TWO_SIDED|95.0|-21.55|-12.37||P-value for 2 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-12.37|-21.55|<0.0001
92325449|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.1||||0.0752|TWO_SIDED|95.0|-8.58|0.42||P-value for 24 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||0.42|-8.58|0.0752
92200818|NCT02209181|184299946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.49|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|-4.4|-2.59||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.59|-4.40|<0.001
92200819|NCT02209181|184299946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.08|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|-3.0|-1.17||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.17|-3.00|<0.001
92200820|NCT02209181|184299947|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.87|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|3.9|5.84||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||5.84|3.90|<0.001
92200821|NCT02209181|184299947|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.13|STANDARD_ERROR_OF_MEAN|0.49||0.023|TWO_SIDED|95.0|0.16|2.09||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.09|0.16|0.023
92200822|NCT02209181|184299947|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.96|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|1.98|3.93||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.93|1.98|<0.001
92200823|NCT02209181|184299947|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.75|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|-4.71|-2.78||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.78|-4.71|<0.001
92200824|NCT02209181|184299947|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.91|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-2.89|-0.94||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.94|-2.89|<0.001
92200825|NCT02209181|184299948|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.71|STANDARD_ERROR_OF_MEAN|0.54|<|0.001|TWO_SIDED|95.0|3.64|5.78||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||5.78|3.64|<0.001
92200826|NCT02209181|184299948|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.36|STANDARD_ERROR_OF_MEAN|0.54||0.012|TWO_SIDED|95.0|0.3|2.42||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.42|0.30|0.012
92200827|NCT02209181|184299948|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.73|STANDARD_ERROR_OF_MEAN|0.54|<|0.001|TWO_SIDED|95.0|2.66|4.81||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.81|2.66|<0.001
92200828|NCT02209181|184299948|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.35|STANDARD_ERROR_OF_MEAN|0.54|<|0.001|TWO_SIDED|95.0|-4.41|-2.29||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.29|-4.41|<0.001
92200829|NCT02209181|184299948|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.54||0.074|TWO_SIDED|95.0|-2.05|0.09||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.09|-2.05|0.074
92200830|NCT02209181|184299949|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|2.63|4.97||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.97|2.63|<0.001
92325450|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.0|||<|0.0001|TWO_SIDED|95.0|-24.81|-15.64||P-value for 24 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-15.64|-24.81|<0.0001
92325451|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-12.0|||<|0.0001|TWO_SIDED|95.0|-17.21|-7.5||P-value for 1 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-7.50|-17.21|<0.0001
92325452|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.0|||<|0.0001|TWO_SIDED|95.0|-15.79|-5.79||P-value for 1 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-5.79|-15.79|<0.0001
92200831|NCT02209181|184299949|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.32|STANDARD_ERROR_OF_MEAN|0.59||0.026|TWO_SIDED|95.0|0.16|2.48||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.48|0.16|0.026
92200832|NCT02209181|184299949|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.82|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|2.64|4.99||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.99|2.64|<0.001
92200833|NCT02209181|184299949|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.48|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|-3.64|-1.32||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.32|-3.64|<0.001
92200834|NCT02209181|184299949|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.6||0.978|TWO_SIDED|95.0|-1.16|1.19||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.19|-1.16|0.978
92200835|NCT02209181|184299950|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|2.18|4.62||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.62|2.18|<0.001
92200836|NCT02209181|184299950|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.07|STANDARD_ERROR_OF_MEAN|0.61||0.081|TWO_SIDED|95.0|-0.13|2.28||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.28|-0.13|0.081
92200837|NCT02209181|184299950|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.91|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|2.69|5.14||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||5.14|2.69|<0.001
92200838|NCT02209181|184299950|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.32|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|-3.53|-1.11||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.11|-3.53|<0.001
92200839|NCT02209181|184299950|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.62||0.407|TWO_SIDED|95.0|-0.71|1.74||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.74|-0.71|0.407
92200840|NCT02209181|184299951|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.83|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.56|4.1||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.10|1.56|<0.001
92200841|NCT02209181|184299951|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.88|STANDARD_ERROR_OF_MEAN|0.64||0.17|TWO_SIDED|95.0|-0.38|2.14||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.14|-0.38|0.170
92200842|NCT02209181|184299951|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.6|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|2.33|4.87||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.87|2.33|<0.001
92200843|NCT02209181|184299951|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.95|STANDARD_ERROR_OF_MEAN|0.64||0.002|TWO_SIDED|95.0|-3.21|-0.69||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.69|-3.21|0.002
92200844|NCT02209181|184299951|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.77|STANDARD_ERROR_OF_MEAN|0.65||0.235|TWO_SIDED|95.0|-0.5|2.04||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.04|-0.50|0.235
92200845|NCT02209181|184299952|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|0.65||0.001|TWO_SIDED|95.0|0.82|3.39||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.39|0.82|0.001
92200846|NCT02209181|184299952|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.65||0.355|TWO_SIDED|95.0|-0.68|1.87||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.87|-0.68|0.355
92325453|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-13.0|||<|0.0001|TWO_SIDED|95.0|-17.41|-7.72||P-value for 2 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-7.72|-17.41|<0.0001
92200847|NCT02209181|184299952|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.36|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|2.07|4.65||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.65|2.07|<0.001
92200848|NCT02209181|184299952|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.65||0.021|TWO_SIDED|95.0|-2.78|-0.23||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.23|-2.78|0.021
92200849|NCT02209181|184299952|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.26|STANDARD_ERROR_OF_MEAN|0.65||0.056|TWO_SIDED|95.0|-0.03|2.55||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.55|-0.03|0.056
92200850|NCT02209181|184299953|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.21|STANDARD_ERROR_OF_MEAN|0.66||0.067|TWO_SIDED|95.0|-0.09|2.5||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.50|-0.09|0.067
92200851|NCT02209181|184299953|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.65||0.547|TWO_SIDED|95.0|-0.89|1.68||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.68|-0.89|0.547
92325454|NCT00356135|184555991|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-12.0|||<|0.0001|TWO_SIDED|95.0|-16.8|-6.82||P-value for 2 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-6.82|-16.80|<0.0001
92200852|NCT02209181|184299953|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.16|STANDARD_ERROR_OF_MEAN|0.66|<|0.001|TWO_SIDED|95.0|1.86|4.46||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.46|1.86|<0.001
92200853|NCT02209181|184299953|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.65||0.214|TWO_SIDED|95.0|-2.1|0.47||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.47|-2.10|0.214
92200854|NCT02209181|184299953|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.96|STANDARD_ERROR_OF_MEAN|0.66||0.003|TWO_SIDED|95.0|0.66|3.26||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.26|0.66|0.003
92200855|NCT02209181|184299954|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.64||0.281|TWO_SIDED|95.0|-0.57|1.95||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.95|-0.57|0.281
92200856|NCT02209181|184299954|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.63||0.729|TWO_SIDED|95.0|-1.03|1.47||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.47|-1.03|0.729
92200857|NCT02209181|184299954|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.21|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.95|4.47||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.47|1.95|<0.001
92200858|NCT02209181|184299954|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.63||0.459|TWO_SIDED|95.0|-1.72|0.78||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.78|-1.72|0.459
92200859|NCT02209181|184299954|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.52|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.26|3.78||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.78|1.26|<0.001
92200860|NCT02209181|184299955|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.65||0.674|TWO_SIDED|95.0|-1.0|1.55||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.55|-1.00|0.674
92200861|NCT02209181|184299955|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.64||0.417|TWO_SIDED|95.0|-0.74|1.79||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.79|-0.74|0.417
92200862|NCT02209181|184299955|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.05|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.77|4.33||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.33|1.77|<0.001
92200863|NCT02209181|184299955|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.64||0.698|TWO_SIDED|95.0|-1.02|1.52||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.52|-1.02|0.698
92200864|NCT02209181|184299955|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.77|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.49|4.05||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.05|1.49|<0.001
92200865|NCT02209181|184299956|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.64||0.541|TWO_SIDED|95.0|-0.87|1.66||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.66|-0.87|0.541
92200866|NCT02209181|184299956|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.64||0.409|TWO_SIDED|95.0|-0.73|1.79||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.79|-0.73|0.409
92200867|NCT02209181|184299956|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.12|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.85|4.39||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.39|1.85|<0.001
92200868|NCT02209181|184299956|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.64||0.834|TWO_SIDED|95.0|-1.12|1.39||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.39|-1.12|0.834
92200869|NCT02209181|184299956|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.73|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.45|4.0||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.00|1.45|<0.001
92200870|NCT02209181|184299957|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.64||0.573|TWO_SIDED|95.0|-0.9|1.63||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.63|-0.90|0.573
92200871|NCT02209181|184299957|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|0.64||0.448|TWO_SIDED|95.0|-0.77|1.74||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.74|-0.77|0.448
92200872|NCT02209181|184299957|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.98|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.71|4.25||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.25|1.71|<0.001
92200873|NCT02209181|184299957|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.64||0.848|TWO_SIDED|95.0|-1.13|1.38||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.38|-1.13|0.848
92200874|NCT02209181|184299957|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.62|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.35|3.89||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.89|1.35|<0.001
92200875|NCT02209181|184299958|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.64||0.72|TWO_SIDED|95.0|-1.04|1.5||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.50|-1.04|0.720
92200876|NCT02209181|184299958|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.64||0.763|TWO_SIDED|95.0|-1.07|1.45||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.45|-1.07|0.763
92200877|NCT02209181|184299958|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.82|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.55|4.09||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.09|1.55|<0.001
92200878|NCT02209181|184299958|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.64||0.952|TWO_SIDED|95.0|-1.3|1.22||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.22|-1.30|0.952
92200879|NCT02209181|184299958|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.59|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.31|3.86||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.86|1.31|<0.001
92200880|NCT02209181|184299959|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.63||0.821|TWO_SIDED|95.0|-1.1|1.39||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.39|-1.10|0.821
92200881|NCT02209181|184299959|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.63||0.978|TWO_SIDED|95.0|-1.25|1.22||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.22|-1.25|0.978
92200882|NCT02209181|184299959|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.88|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|1.63|4.13||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.13|1.63|<0.001
92200883|NCT02209181|184299959|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.63||0.799|TWO_SIDED|95.0|-1.39|1.07||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.07|-1.39|0.799
92200884|NCT02209181|184299959|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.73|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|1.49|3.98||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.98|1.49|<0.001
92200885|NCT02209181|184299960|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.7||0.726|TWO_SIDED|95.0|-1.62|1.13||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.13|-1.62|0.726
92200886|NCT02209181|184299960|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.69||0.869|TWO_SIDED|95.0|-1.48|1.25||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.25|-1.48|0.869
92200887|NCT02209181|184299960|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.52|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.13|3.9||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.90|1.13|<0.001
92200888|NCT02209181|184299960|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.69||0.851|TWO_SIDED|95.0|-1.24|1.5||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.50|-1.24|0.851
92200889|NCT02209181|184299960|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.76|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.38|4.15||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.15|1.38|<0.001
92200890|NCT02209181|184299961|SUPERIORITY_OR_OTHER|||||||0.042||||||The significance threshold level was 0.05 (two-sided). P-Value is from Log-rank test comparing survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 24 hours, but did not use rescue therapy, were censored at the time of discontinuation. Subjects who did not rescue medication during the 24-hour study period had their time to rescue set to 24 hours and were censored at 24 hours.||||0.042
92200891|NCT02209181|184299961|SUPERIORITY_OR_OTHER|||||||0.779||||||The significance threshold level was 0.05 (two-sided). P-Value is from Log-rank test comparing survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 24 hours, but did not use rescue therapy, were censored at the time of discontinuation. Subjects who did not rescue medication during the 24-hour study period had their time to rescue set to 24 hours and were censored at 24 hours.||||0.779
92200892|NCT02209181|184299961|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). P-Value is from Log-rank test comparing survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 24 hours, but did not use rescue therapy, were censored at the time of discontinuation. Subjects who did not rescue medication during the 24-hour study period had their time to rescue set to 24 hours and were censored at 24 hours.||||<0.001
92325455|NCT00356135|184555992|SUPERIORITY_OR_OTHER|||||||0.1824|||||||t-test, 2 sided|||The mean of MPA 20 uM ADP at the end of Clopidogrel open label of patients on chronic clopidogrel at the time of qualifying events was compared to the mean MPA of patients not using clopidogrel at this time.||||0.1824
92200893|NCT02209181|184299961|SUPERIORITY_OR_OTHER|||||||0.196||||||The significance threshold level was 0.05 (two-sided). P-Value is from Log-rank test comparing survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 24 hours, but did not use rescue therapy, were censored at the time of discontinuation. Subjects who did not rescue medication during the 24-hour study period had their time to rescue set to 24 hours and were censored at 24 hours.||||0.196
92200894|NCT02209181|184299961|SUPERIORITY_OR_OTHER|||||||0.006||||||The significance threshold level was 0.05 (two-sided). P-Value is from Log-rank test comparing survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 24 hours, but did not use rescue therapy, were censored at the time of discontinuation. Subjects who did not rescue medication during the 24-hour study period had their time to rescue set to 24 hours and were censored at 24 hours.||||0.006
92200895|NCT02209181|184299962|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|1.1|1.9||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.9|1.1|<0.001
92200896|NCT02209181|184299962|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.21||0.077|TWO_SIDED|95.0|0.0|0.8||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.8|-0.0|0.077
92200897|NCT02209181|184299962|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|0.8|1.6||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.6|0.8|<0.001
92200898|NCT02209181|184299962|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-1.6|-0.7||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.7|-1.6|<0.001
92200899|NCT02209181|184299962|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.148|TWO_SIDED|95.0|-0.7|0.1||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.1|-0.7|0.148
92200900|NCT05472740|184300003|SUPERIORITY|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
92200901|NCT05131477|184300024|SUPERIORITY||LS Mean Difference|-32.1|STANDARD_ERROR_OF_MEAN|6.01|<|0.0001|TWO_SIDED|95.0|-43.9|-20.3|||ANCOVA||LS Mean Difference|||-20.3|-43.9|<0.0001
92200902|NCT05131477|184300024|SUPERIORITY||LS Mean Difference|-27.3|STANDARD_ERROR_OF_MEAN|5.98|<|0.0001|TWO_SIDED|95.0|-39.1|-15.6|||ANCOVA||LS Mean Difference|||-15.6|-39.1|<0.0001
92200903|NCT05131477|184300024|SUPERIORITY||LS Mean Difference|-22.2|STANDARD_ERROR_OF_MEAN|6.01||0.0002|TWO_SIDED|95.0|-34.0|-10.4|||ANCOVA||LS Mean Difference|||-10.4|-34.0|0.0002
92200904|NCT05131477|184300024|SUPERIORITY||Mean Difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|5.95|<|0.0001|TWO_SIDED|95.0|-41.9|-18.5|||ANCOVA|||||-18.5|-41.9|<0.0001
92325456|NCT00356135|184555992|SUPERIORITY_OR_OTHER|||||||0.1101|||||||F-test|||The variance of MPA 20 uM ADP at the end of Clopidogrel open label of patients on chronic clopidogrel at the time of qualifying events was compared to the variance of MPA for patients not using clopidogrel at this time.||||0.1101
92200905|NCT05131477|184300025|SUPERIORITY||LS Mean Difference|-36.8|STANDARD_ERROR_OF_MEAN|6.62|<|0.0001|TWO_SIDED|95.0|-49.8|-23.8|||ANCOVA||LS Mean Difference|||-23.8|-49.8|<0.0001
92200906|NCT05131477|184300025|SUPERIORITY||LS Mean Difference|-24.6|STANDARD_ERROR_OF_MEAN|6.67||0.0002|TWO_SIDED|95.0|-37.7|-11.6|||ANCOVA||LS Mean Difference|||-11.6|-37.7|0.0002
92200907|NCT05131477|184300025|SUPERIORITY||LS Mean Difference|-26.2|STANDARD_ERROR_OF_MEAN|6.65|<|0.0001|TWO_SIDED|95.0|-39.2|-13.1|||ANCOVA||LS Mean Difference|||-13.1|-39.2|<0.0001
92200908|NCT05131477|184300025|SUPERIORITY||LS Mean Difference|-26.8|STANDARD_ERROR_OF_MEAN|6.58|<|0.0001|TWO_SIDED|95.0|-39.7|-13.9|||ANCOVA||LS Mean Difference|||-13.9|-39.7|<0.0001
92200909|NCT05131477|184300026|SUPERIORITY||Proportion Difference|0.29|||<|0.0001|TWO_SIDED|95.0|0.16|0.42|||Cochran-Mantel-Haenszel|||Week 16||0.42|0.16|< 0.0001
92200910|NCT05131477|184300026|SUPERIORITY||Proportion Difference|0.27|||<|0.0001|TWO_SIDED|95.0|0.14|0.4|||Cochran-Mantel-Haenszel|||Week 16||0.40|0.14|< 0.0001
92200911|NCT05131477|184300026|SUPERIORITY||Proportion Difference|0.31|||<|0.0001|TWO_SIDED|95.0|0.18|0.44|||Cochran-Mantel-Haenszel|||Week 16||0.44|0.18|<0.0001
92200912|NCT05131477|184300026|SUPERIORITY||Proportion Difference|0.29|||<|0.0001|TWO_SIDED|95.0|0.16|0.42|||Cochran-Mantel-Haenszel|||Week 16||0.42|0.16|<0.0001
92200913|NCT05131477|184300026|SUPERIORITY||Proportion Difference|0.36|||<|0.0001|TWO_SIDED|95.0|0.23|0.5|||Cochran-Mantel-Haenszel|||Week 24||0.5|0.23|<0.0001
92200914|NCT05131477|184300026|SUPERIORITY||Proportion Difference|0.21||||0.004|TWO_SIDED|95.0|0.07|0.34|||Cochran-Mantel-Haenszel|||Week 24||0.34|0.07|0.0040
92200915|NCT05131477|184300026|SUPERIORITY||Proportion Difference|0.31|||<|0.0001|TWO_SIDED|95.0|0.17|0.45|||Cochran-Mantel-Haenszel|||||0.45|0.17|<0.0001
92200916|NCT05131477|184300026|SUPERIORITY||Proportion Difference|0.23||||0.0016|TWO_SIDED|95.0|0.09|0.36|||Cochran-Mantel-Haenszel|||||0.36|0.09|0.0016
92200917|NCT05131477|184300027|SUPERIORITY||Proportion Difference|0.17||||0.0022|TWO_SIDED|95.0|0.06|0.27|||Cochran-Mantel-Haenszel|||Week 16||0.27|0.06|0.0022
92200918|NCT05131477|184300027|SUPERIORITY||Proportion Difference|0.09||||0.0562|TWO_SIDED|95.0|0.0|0.18|||Cochran-Mantel-Haenszel|||Week 16||0.18|0|0.0562
92200919|NCT05131477|184300027|SUPERIORITY||Proportion Difference|0.14||||0.0054|TWO_SIDED|95.0|0.04|0.24|||Cochran-Mantel-Haenszel|||Week 16||0.24|0.04|0.0054
92200920|NCT05131477|184300027|SUPERIORITY||Proportion Difference|0.2||||0.0003|TWO_SIDED|95.0|0.1|0.31|||Cochran-Mantel-Haenszel|||Week 16||0.31|0.1|0.0003
92200921|NCT05131477|184300027|SUPERIORITY||Proportion Difference|0.34|||<|0.0001|TWO_SIDED|95.0|0.21|0.47|||Cochran-Mantel-Haenszel|||Week 24||0.47|0.21|<0.0001
92200922|NCT05131477|184300027|SUPERIORITY||Proportion Difference|0.22||||0.0008|TWO_SIDED|95.0|0.1|0.34|||Cochran-Mantel-Haenszel|||Week 24||0.34|0.1|0.0008
92200923|NCT05131477|184300027|SUPERIORITY||Proportion Difference|0.29|||<|0.0001|TWO_SIDED|95.0|0.16|0.41|||Cochran-Mantel-Haenszel|||Week 24||0.41|0.16|<0.0001
92200924|NCT05131477|184300027|SUPERIORITY||Proportion Difference|0.18||||0.0046|TWO_SIDED|95.0|0.06|0.3|||Cochran-Mantel-Haenszel|||Week 24||0.3|0.06|0.0046
92200925|NCT05131477|184300028|SUPERIORITY||Proportion Difference|0.19||||0.0006|TWO_SIDED|95.0|0.09|0.3|||Cochran-Mantel-Haenszel|||Week 16||0.3|0.09|0.0006
92200926|NCT05131477|184300028|SUPERIORITY||Proportion Difference|0.14||||0.0057|TWO_SIDED|95.0|0.04|0.24|||Cochran-Mantel-Haenszel|||Week 16||0.24|0.04|0.0057
92200927|NCT05131477|184300028|SUPERIORITY||Proportion Difference|0.16||||0.0038|TWO_SIDED|95.0|0.05|0.26|||Cochran-Mantel-Haenszel|||Week 16||0.26|0.05|0.0038
92200928|NCT05131477|184300028|SUPERIORITY||Proportion Difference|0.18||||0.0011|TWO_SIDED|95.0|0.07|0.28|||Cochran-Mantel-Haenszel|||Week 16||0.28|0.07|0.0011
92200929|NCT05131477|184300028|SUPERIORITY||Proportion Difference|0.23||||0.0002|TWO_SIDED|95.0|0.11|0.35|||Cochran-Mantel-Haenszel|||Week 24||0.35|0.11|0.0002
92200930|NCT05131477|184300028|SUPERIORITY||Proportion Difference|0.17||||0.0038|TWO_SIDED|95.0|0.06|0.28|||Cochran-Mantel-Haenszel|||Week 24||0.28|0.06|0.0038
92200931|NCT05131477|184300028|SUPERIORITY||Proportion Difference|0.21||||0.0006|TWO_SIDED|95.0|0.09|0.32|||Cochran-Mantel-Haenszel|||Week 24||0.32|0.09|0.0006
92200932|NCT05131477|184300028|SUPERIORITY||Proportion Difference|20.0||||0.0008|TWO_SIDED|95.0|9.0|32.0|||Cochran-Mantel-Haenszel|||Week 24||32|9|0.0008
92200933|NCT02726945|184300111|SUPERIORITY|||||||0.023|||||||Wilcoxon (Mann-Whitney)|||"Data from the groups showed a strong non-normal distribution, thus non-parametric methods were used with a Bonferroni correction for multiple comparison .~Statistical significance was defined as either of the treatment groups to be superior to the placebo group."||||0.023
92200934|NCT02726945|184300111|SUPERIORITY|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||"Data from the groups showed a strong non-normal distribution, thus non-parametric methods were used with a Bonferroni correction for multiple comparison .~Statistical significance was defined as either of the treatment groups to be superior to the placebo group."||||0.043
92200935|NCT03939689|184300121|SUPERIORITY|||||||0.0025|||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel (CMH) test with adjustment for stratification factor (prostate cancer risk factor at Screening) was carried out by using complete cases for the FAS population (missing data were not imputed for this analysis). Intermediate risk at Screening: hemoglobin (Hgb) ≥11 g/dL and LDH \<262 IU/L and ALP \<414 IU/L. High-risk at Screening: Hgb \<11 g/dL or LDH ≥262 IU/L or ALP ≥414 IU/L.||||0.0025
92200936|NCT03939689|184300122|SUPERIORITY|||||||0.806||||||The p-value is based on the chi-squared test of the difference in proportions between treatment groups if expected cell frequencies are all greater than 5; otherwise, the p-value is from the Fisher's exact test.|Chi-squared|||||||0.8060
92200937|NCT03939689|184300123|SUPERIORITY|||||||0.5924||||||Log-rank test of no difference between treatment groups, stratified by prostate cancer risk groups.|Log Rank|||Kaplan-Meier analysis and Greenwood formula used for estimating event-free rates and 95% confidence intervals.||||.5924
92200938|NCT03939689|184300124|SUPERIORITY|||||||0.5924||||||Log-rank test of no difference between treatment groups, stratified by prostate cancer risk groups.|Log Rank|||Kaplan-Meier analysis and Greenwood formula used for estimating event-free rates and 95% confidence intervals.||||0.5924
92200939|NCT03939689|184300125|SUPERIORITY|||||||0.6199||||||P value from the log-rank test of no difference between treatment groups, stratified by prostate cancer risk group at Screening.|Log Rank|||Event-free rates and 95% CI were estimated by using Kaplan-Meier method and Greenwood formula.||||0.6199
92325457|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.1||||0.3466|TWO_SIDED|95.0|-9.5|3.37||P-value for 2 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||3.37|-9.50|0.3466
92325458|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-27.0|||<|0.0001|TWO_SIDED|95.0|-33.4|-20.33||P-value for 2 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-20.33|-33.40|<0.0001
92325459|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.3||||0.0127|TWO_SIDED|95.0|-13.04|-1.6||P-value for 24 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-1.60|-13.04|0.0127
92325460|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-34.0|||<|0.0001|TWO_SIDED|95.0|-39.99|-28.42||P-value for 24 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-28.42|-39.99|<0.0001
92325461|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-18.0|||<|0.0001|TWO_SIDED|95.0|-25.58|-11.09||P-value for 1 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-11.09|-25.58|<0.0001
92200940|NCT03939689|184300126|SUPERIORITY|||||||0.1823||||||P-value from the log-rank test of no difference between treatment groups, stratified by prostate cancer risk group at Screening.|Log Rank|||Event free rates and 95% CI were estimated by using Kaplan-Meier method and Greenwood formula.||||.1823
92325462|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.0|||<|0.0001|TWO_SIDED|95.0|-27.09|-12.26||P-value for 1 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-12.26|-27.09|<0.0001
92325463|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-22.0|||<|0.0001|TWO_SIDED|95.0|-28.42|-14.77||P-value for 2 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-14.77|-28.42|<0.0001
92325464|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-23.0|||<|0.0001|TWO_SIDED|95.0|-29.61|-15.63||P-value for 2 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-15.63|-29.61|<0.0001
92325465|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.6||||0.4954|TWO_SIDED|95.0|-3.11|6.38||P-value for 2 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||6.38|-3.11|0.4954
92325466|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.0|||<|0.0001|TWO_SIDED|95.0|-15.92|-6.24||P-value for 2 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-6.24|-15.92|<0.0001
92325467|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.3||||0.1971|TWO_SIDED|95.0|-8.31|1.74||P-value for 24 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||1.74|-8.31|0.1971
92325468|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.0|||<|0.0001|TWO_SIDED|95.0|-20.98|-10.75||P-value for 24 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-10.75|-20.98|<0.0001
92200941|NCT03939689|184300127|SUPERIORITY|||||||0.0006||||||P-value from the log-rank test of no difference between treatment groups, stratified by prostate cancer risk group at Screening.|Log Rank|||Event-free rates and 95% CI were estimated by using Kaplan-Meier method and Greenwood formula.||||0.0006
92200942|NCT05504954|184300152|SUPERIORITY||Odds Ratio (OR)|0.26||||0.15|TWO_SIDED|95.0|0.04|1.59|||Regression, Logistic|||||1.59|0.04|0.15
92200943|NCT05504954|184300154|SUPERIORITY||Odds Ratio (OR)|2.83||||0.1|TWO_SIDED|95.0|0.81|9.89|||Regression, Logistic|||||9.89|0.81|0.10
92200944|NCT05504954|184300155|SUPERIORITY||beta coefficient|5.0||||0.65|TWO_SIDED|95.0|-17.78|27.78|||Regression, Linear|||||27.78|-17.78|0.65
92200945|NCT05504954|184300156|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||0.70
92200946|NCT05504954|184300157|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||.70
92200947|NCT05504954|184300158|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92200948|NCT05504954|184300159|SUPERIORITY|||||||0.64|||||||Fisher Exact|||||||0.64
92200949|NCT03412773|184300172|NON_INFERIORITY|"Overall survival (OS) was compared between the tislelizumab group (Arm A) and the sorafenib group (Arm B) by testing the null hypothesis of noninferiority: the null hypothesis assumes the hazard ratio (HR) for tislelizumab versus sorafenib is greater than or equal to 1.08, while the alternative hypothesis assumes the hazard ratio is less than 1.08.~Noninferiority was declared if the upper limit of the 95.003% confidence interval (CI) for the HR was less than 1.08"|Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.003|0.712|1.019|||||The hazard ratio is based on a Cox regression model with treatment, geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG (0 vs. 1) as covariates.|||1.019|0.712|
92200950|NCT03412773|184300172|SUPERIORITY|Superiority of tislelizumab over sorafenib was tested for OS using a stratified log-rank test in the ITT analysis set only when noninferiority was demonstrated. Superiority was declared if the one-sided p-value crosses the boundary of 0.0223 (1-sided p-value \< 0.0223) in favor of Arm A in the stratified log-rank test.|Hazard Ratio (HR)|0.85||||0.0398|TWO_SIDED|95.0|0.712|1.019||One sided Log-Rank Test stratified by geography (Asia vs EU/US), macrovascular invasion and/or extrahepatic spread (present vs. absent), etiology (HCV vs. Other) and ECOG (0 vs. 1).|Log Rank||The hazard ratio was derived from a Cox regression model with treatment as a covariate and stratified by geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG score (0 vs. 1).|||1.019|0.712|0.0398
92200951|NCT03412773|184300173|OTHER||Cochran-Mantel-Haenszel ORR difference|8.28||||0.0003|TWO_SIDED|95.0|3.85|12.7||The nominal P-value from the Cochran-Mantel-Haenszel chi-square test, conducted at a 0.05 significance level, was stratified by geography, macrovascular invasion/extrahepatic spread, etiology, and ECOG.|Cochran-Mantel-Haenszel|||The null hypothesis assumed that ORR is equal in both groups, while the alternative hypothesis assumed ORR is higher in the tislelizumab group (Arm A).||12.70|3.85|0.0003
92200952|NCT03412773|184300174|OTHER||Cochran-Mantel-Haenszel ORR difference|9.24|||<|0.0001|TWO_SIDED|95.0|4.71|13.78||The nominal P-value from the Cochran-Mantel-Haenszel chi-square test, conducted at a 0.05 significance level, was stratified by geography, macrovascular invasion/extrahepatic spread, etiology, and ECOG.|Cochran-Mantel-Haenszel|||||13.78|4.71|<0.0001
92200953|NCT03412773|184300175|OTHER||Hazard Ratio (HR)|1.11||||0.1364|TWO_SIDED|95.0|0.92|1.33||One sided Log-Rank Test stratified by geography (Asia vs EU/US), macrovascular invasion and/or extrahepatic spread (present vs. absent), etiology (HCV vs. Other) and ECOG (0 vs. 1).|One-sided log-rank test||The hazard ratio was derived from a Cox regression model with treatment as a covariate and stratified by geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG score (0 vs. 1).|||1.33|0.92|0.1364
92200954|NCT03412773|184300176|OTHER||Hazard Ratio (HR)|1.06||||0.2622|TWO_SIDED|95.0|0.9|1.26||One sided Log-Rank Test stratified by geography (Asia vs EU/US), macrovascular invasion and/or extrahepatic spread (present vs. absent), etiology (HCV vs. Other) and ECOG (0 vs. 1).|One-sided log-rank test||The hazard ratio was derived from a Cox regression model with treatment as a covariate and stratified by geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG score (0 vs. 1).|||1.26|0.90|0.2622
92200955|NCT03412773|184300179|OTHER||Hazard Ratio (HR)|1.14||||0.0859|TWO_SIDED|95.0|0.94|1.38||One sided Log-Rank Test stratified by geography (Asia vs EU/US), macrovascular invasion and/or extrahepatic spread (present vs. absent), etiology (HCV vs. Other) and ECOG (0 vs. 1).|One-sided log-rank test||The hazard ratio was derived from a Cox regression model with treatment as a covariate and stratified by geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG score (0 vs. 1).|||1.38|0.94|0.0859
92200956|NCT03412773|184300180|OTHER||Hazard Ratio (HR)|1.12||||0.1182|TWO_SIDED|95.0|0.94|1.34||One sided Log-Rank Test stratified by geography (Asia vs EU/US), macrovascular invasion and/or extrahepatic spread (present vs. absent), etiology (HCV vs. Other) and ECOG (0 vs. 1).|One-sided log-rank test||The hazard ratio was derived from a Cox regression model with treatment as a covariate and stratified by geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG score (0 vs. 1).|||1.34|0.94|0.1182
92200957|NCT03412773|184300186|OTHER||Least Squares (LS) Mean Difference|-2.3||||0.0033|TWO_SIDED|95.0|-3.8|-0.8||Reported p-values are nominal.|Mixed Models Analysis|||Between-arm differences in the change from Baseline were assessed using a mixed model for repeated measures. The model included Baseline scores, stratification factors, treatment arms, visits, and treatment arm by visit interaction as fixed effects and visit as a repeated measure with an unstructured covariance matrix based on the missing at random assumption.||-0.8|-3.8|0.0033
92200958|NCT03412773|184300187|OTHER||LS Mean Difference|-2.7||||0.0096|TWO_SIDED|95.0|-4.7|-0.7||Reported p-values are nominal.|Mixed Models Analysis|||Between-arm differences in the change from Baseline were assessed using a mixed model for repeated measures. The model included Baseline scores, stratification factors, treatment arms, visits, and treatment arm by visit interaction as fixed effects and visit as a repeated measure with an unstructured covariance matrix based on the missing at random assumption.||-0.7|-4.7|0.0096
92200959|NCT03412773|184300188|OTHER||LS Mean Difference|4.3||||0.0037|TWO_SIDED|95.0|1.4|7.3||Reported p-values are nominal.|Mixed Models Analysis|||Between-arm differences in the change from Baseline were assessed using a mixed model for repeated measures. The model included Baseline scores, stratification factors, treatment arms, visits, and treatment arm by visit interaction as fixed effects and visit as a repeated measure with an unstructured covariance matrix based on the missing at random assumption.||7.3|1.4|0.0037
92200960|NCT03412773|184300189|OTHER||LS Mean Difference|5.0||||0.0022|TWO_SIDED|95.0|1.8|8.2||Reported p-values are nominal.|Mixed Models Analysis|||Between-arm differences in the change from Baseline were assessed using a mixed model for repeated measures. The model included Baseline scores, stratification factors, treatment arms, visits, and treatment arm by visit interaction as fixed effects and visit as a repeated measure with an unstructured covariance matrix based on the missing at random assumption.||8.2|1.8|0.0022
92200961|NCT01028677|184300227|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED|||||Not adjusted for multiple comparisons|t-test, 1 sided|||Analysis of fear emotion||||.61
92200962|NCT01028677|184300228|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||Positive Symptoms||||0.008
92200963|NCT01028677|184300228|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Negative Symptoms||||0.002
92200964|NCT01028677|184300228|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||General Symptoms||||0.04
92200965|NCT01028677|184300228|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||Positive Symptoms||||0.05
92200966|NCT01028677|184300228|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||Negative Symptoms||||0.08
92200967|NCT01028677|184300228|SUPERIORITY|||||||0.025|||||||t-test, 2 sided|||General Symptoms||||0.025
92200968|NCT01028677|184300230|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||Not adjusted for multiple comparisons|t-test, 2 sided|||||||.03
92200969|NCT01028677|184300232|SUPERIORITY_OR_OTHER|||||||0.784|TWO_SIDED|||||Not adjusted for multiple comparisons|t-test, 2 sided|||IRI-total||||.784
92200970|NCT01028677|184300232|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||Distress analysis||||1.00
92200971|NCT01028677|184300232|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||Perspective-Taking||||.03
92200972|NCT01028677|184300232|SUPERIORITY_OR_OTHER|||||||0.135|||||||t-test, 2 sided|||Emotional empathy analysis||||.135
92200973|NCT01028677|184300232|SUPERIORITY_OR_OTHER|||||||0.681|TWO_SIDED||||||t-test, 2 sided|||Fantasy Analysis||||.681
92200974|NCT01028677|184300232|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||t-test, 2 sided|||Distress analysis||||1.00
92200975|NCT01016262|184300276|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0047||||||Statistical significance was assessed at the two-sided 5% level. As there was only a single pre-specified primary analysis, there was no adjustment for multiplicity.|Cochran-Mantel-Haenszel|||The comparison between MAX-002 and placebo during the DB phase with respect to the primary outcome measure was the single pre-specified primary analysis, and the null hypothesis was that the percentages were equal between the two groups.||||0.0047
92200976|NCT01016262|184300276|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0346||||||Statistical significance was assessed at the two-sided 5% level. As there was only a single pre-specified primary analysis, there was no adjustment for multiplicity.|Cochran-Mantel-Haenszel|||The comparison between Canasa® and placebo during the DB phase with respect to the primary outcome measure was a pre-specified tertiary analysis only.||||0.0346
92200977|NCT01128270|184300281|SUPERIORITY_OR_OTHER||Mean of one group (2A)|1.64|STANDARD_DEVIATION|0.4|||TWO_SIDED|95.0|1.31|1.97||||Analysis applies only to Arm 2A. (Period 3)|Only arm 2A is relevant to this variable. There is no intended statistical comparison, but the point estimate for the mean level and 95% confidence interval are provided.|No comparison is relevant. The statistical method is how we obtained the point estimate and confidence interval. No test was intended.||1.97|1.31|
92200978|NCT01128270|184300282|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2432.0|STANDARD_DEVIATION|1403.0||0.0017|TWO_SIDED|95.0|1260.0|3606.0|||t-test, 2 sided|||Only relevant to Arm 2B.||3606|1260|0.0017
92200979|NCT01128270|184300283|SUPERIORITY_OR_OTHER||Mean|0.38|STANDARD_DEVIATION|0.17|||TWO_SIDED|95.0|0.24|0.51||||||Only relevant for arm 2B||0.51|0.24|
92325469|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-13.0|||<|0.0001|TWO_SIDED|95.0|-18.81|-7.32||P-value for 1 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-7.32|-18.81|<0.0001
92200980|NCT03738475|184300285|SUPERIORITY|||||||0.0056||||||Based on Wilcoxon Rank Sum test for the change from baseline between treatment groups.|Wilcoxon Rank Sum test|||||||0.0056
92200981|NCT03738475|184300289|SUPERIORITY|||||||0.0799||||||Based on Wilcoxon Rank Sum test for the change from baseline between treatment groups.|Wilcoxon Rank Sum test|||||||0.0799
92200982|NCT03738475|184300291|SUPERIORITY|||||||0.289||||||Based on Wilcoxon Rank Sum test for the change from baseline between treatment groups.|Wilcoxon Rank Sum test|||||||0.2890
92200983|NCT01304498|184300326|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.67|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.85|1.11|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 16||1.11|0.85|<0.001
92200984|NCT01304498|184300326|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.67|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.91|1.29|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 18||1.29|0.91|<0.001
92200985|NCT03325777|184300334|SUPERIORITY||Slope|0.71|STANDARD_ERROR_OF_MEAN|0.29|=|0.014|TWO_SIDED|95.0|0.14|1.27||a priori threshold is p\<.05|Mixed Models Analysis|Generalized Linear Mixed Models||||1.27|.14|=.014
92200986|NCT03325777|184300335|SUPERIORITY||Mean Difference (Final Values)|172.0|STANDARD_ERROR_OF_MEAN|33.2|<|0.001|TWO_SIDED|95.0|106.0|238.0||a priori threshold for significance was p\<.05|Mixed Models Analysis|||||238|106|<.001
92200987|NCT03004404|184300338|OTHER||Slope|0.748|STANDARD_ERROR_OF_MEAN|0.0743|||TWO_SIDED|95.0|0.5959|0.9001|||||Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|In the SRD part of the trial, dose proportionality for AUC0-inf was assessed in the 25 mg to 400 mg dose groups (BI 730357 tablets administered under fasted conditions) using a power model (regression model applied to log-transformed data).||0.9001|0.5959|
92200988|NCT03004404|184300338|OTHER||Ratio T/R|118.71|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|90.0|94.57|149.03|||||Standard error of the mean is the geometric standard error of the mean. The geometric mean ratio was calculated as: tablet 400mg fed1 (T)/400mg fed2(R), T/R.|Relative bioavailability of AUC0-inf for the SRD part was performed to test the effect of food intake on the PK of 400 mg BI 730357 tablets. The intra-individual comparison of fed conditions was done using an Analysis of Variance (ANOVA) model on the logarithmic scale.||149.03|94.57|
92200989|NCT03004404|184300338|OTHER||Geometric mean ratio T1/R (%)|124.79|STANDARD_ERROR_OF_MEAN|1.036|||TWO_SIDED|90.0|116.858|133.255|||||Standard error of the mean is actually geometric standard error of the mean. The geometric mean ratio was calculated as: oral solution in fasted state (test treatment T1)/tablet in fasted state (reference treatment R), T1/R.|Estimation of relative bioavailability of AUC0-inf was based on ANOVA model on the logarithmic scale, included effects: 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random|Relative bioavailability of BI 730357 for Oral solution (PfOS) fasted (T1) vs. tablet fasted (R) was assessed by the point estimators (geometric means) of the intra-subject ratio of Auc0-inf and their two-sided 90% confidence intervals . No hypothesis was tested.|133.255|116.858|
92200990|NCT03004404|184300338|OTHER||Geometric mean ratio T2/R (%)|125.17|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|90.0|112.89|138.8|||||Standard error of the mean is actually geometric standard error of the mean. The geometric mean ratio was calculated as: tablet in fed state (test treatment T2)/tablet in fasted state (reference treatment R), T2/R.|Estimation of relative bioavailability of AUC0-inf was based on ANOVA model on the logarithmic scale, included effects: 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random|Relative bioavailability of BI 730357 for tablet fed (T2) vs. tablet fasted (R) was assessed by the point estimators (geometric means) of the intra-subject ratio of AUC0-inf and their two-sided 90% confidence intervals . No hypothesis was tested.|138.80|112.89|
92200991|NCT03004404|184300339|OTHER||Slope|0.7065|STANDARD_ERROR_OF_MEAN|0.0587|||TWO_SIDED|95.0|0.5863|0.8267|||||Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1|In the SRD part of the trial, dose proportionality for Cmax was assessed in the 25 mg to 400 mg dose groups (BI 730357 tablets administered under fasted conditions) using a power model (regression model applied to log-transformed data).||0.8267|0.5863|
92200992|NCT03004404|184300339|OTHER||Ratio T/R|151.22|STANDARD_ERROR_OF_MEAN|1.107|||TWO_SIDED|90.0|122.781|186.248|||||Standard error of the mean is the geometric standard error of the mean. The geometric mean ratio was calculated as: tablet 400mg fed1 (T)/400mg fed2(R), T/R.|Relative bioavailability of the Cmax for the SRD part was performed to test the effect of food intake on the PK of 400 mg BI 730357 tablets. The intra-individual comparison of fed conditions was done using an ANOVA model on the logarithmic scale.||186.248|122.781|
92200993|NCT03004404|184300339|OTHER||Geometric mean ratio T1/R (%)|293.21|STANDARD_ERROR_OF_MEAN|1.069|||TWO_SIDED|90.0|259.044|331.891|||||Standard error of the mean is the geometric standard error of the mean. The geometric mean ratio was calculated as: oral solution in fasted state (test treatment T1)/tablet in fasted state (reference treatment R), T1/R.|Estimation of relative bioavailability of Cmax based on ANOVA model on the logarithmic scale, included effects: 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random|Relative bioavailability of BI 730357 for Oral solution (PfOS) fasted (T1) vs. tablet fasted (R) was assessed by the point estimators (geometric means) of the intra-subject ratio of Cmax and their two-sided 90% confidence intervals . No hypothesis was tested.|331.891|259.044|
92200994|NCT03004404|184300339|OTHER||Geometric mean ratio T2/R (%)|180.53|STANDARD_ERROR_OF_MEAN|1.059|||TWO_SIDED|90.0|162.369|200.732|||||Standard error of the mean is the geometric standard error of the mean. The geometric mean ratio was calculated as: tablet in fed state (test treatment T2)/tablet in fasted state (reference treatment R), T2/R.|Estimation of relative bioavailability of Cmax was based on ANOVA model on the logarithmic scale, included effects: 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random|Relative bioavailability of BI 730357 for tablet fasted (T2) vs. tablet fasted (R) was assessed by the point estimators (geometric means) of the intra-subject ratio of Cmax and their two-sided 90% confidence intervals . No hypothesis was tested.|200.732|162.369|
92200995|NCT01937975|184300340|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.87|1.09|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.09|0.87|
92200996|NCT01937975|184300340|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.58|1.25|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.25|0.58|
92200997|NCT01937975|184300340|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.83|||||TWO_SIDED|90.0|0.56|1.22|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.22|0.56|
92200998|NCT01937975|184300340|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.65|||||TWO_SIDED|90.0|1.09|2.49|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.49|1.09|
92200999|NCT01937975|184300341|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.98|||||TWO_SIDED|90.0|0.81|1.19|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.19|0.81|
92201000|NCT01937975|184300341|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.79|||||TWO_SIDED|90.0|0.54|1.16|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.16|0.54|
92201001|NCT01937975|184300341|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.78|||||TWO_SIDED|90.0|0.53|1.14|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.14|0.53|
92201002|NCT01937975|184300341|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.6|||||TWO_SIDED|90.0|1.06|2.42|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.42|1.06|
92201003|NCT01937975|184300342|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.96|||||TWO_SIDED|90.0|0.75|1.22|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.22|0.75|
92201004|NCT01937975|184300342|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.92|||||TWO_SIDED|90.0|0.57|1.48|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.48|0.57|
92201005|NCT01937975|184300342|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.88|||||TWO_SIDED|90.0|0.54|1.42|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.42|0.54|
92201006|NCT01937975|184300342|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.66|||||TWO_SIDED|90.0|0.99|2.77|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.77|0.99|
92201007|NCT01937975|184300345|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.92|1.15|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.15|0.92|
92201008|NCT01937975|184300345|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.18|||||TWO_SIDED|90.0|0.8|1.73|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.73|0.80|
92201009|NCT01937975|184300345|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.21|||||TWO_SIDED|90.0|0.82|1.78|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.78|0.82|
92201010|NCT01937975|184300345|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.61|||||TWO_SIDED|90.0|0.4|0.92|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||0.92|0.40|
92201011|NCT01937975|184300346|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.63|1.42|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|||1.42|0.63|
92201012|NCT01937975|184300346|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.61|||||TWO_SIDED|90.0|0.39|0.94|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|||0.94|0.39|
92201013|NCT01937975|184300347|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.14|||||TWO_SIDED|90.0|1.08|1.21|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.21|1.08|
92201014|NCT01937975|184300347|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.86|||||TWO_SIDED|90.0|0.65|1.14|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.14|0.65|
92201015|NCT01937975|184300347|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.75|1.3|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.30|0.75|
92201016|NCT01937975|184300347|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.86|||||TWO_SIDED|90.0|1.38|2.51|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.51|1.38|
92201017|NCT01937975|184300348|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.24|||||TWO_SIDED|90.0|1.17|1.32|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.32|1.17|
92201018|NCT01937975|184300348|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.77|||||TWO_SIDED|90.0|0.56|1.06|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.06|0.56|
92201019|NCT01937975|184300348|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95|||||TWO_SIDED|90.0|0.69|1.32|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.32|0.69|
92201020|NCT01937975|184300348|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.07|||||TWO_SIDED|90.0|1.46|2.93|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.93|1.46|
92201021|NCT01937975|184300349|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.12|||||TWO_SIDED|90.0|1.0|1.26|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.26|1.00|
92201022|NCT01937975|184300349|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.84|||||TWO_SIDED|90.0|0.62|1.13|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.13|0.62|
92201023|NCT01937975|184300349|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.7|1.27|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.27|0.70|
92201024|NCT01937975|184300349|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.66|||||TWO_SIDED|90.0|1.21|2.28|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.28|1.21|
92201025|NCT01937975|184300352|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.88|||||TWO_SIDED|90.0|0.83|0.92|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||0.92|0.83|
92201026|NCT01937975|184300352|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.16|||||TWO_SIDED|90.0|0.88|1.53|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.53|0.88|
92201027|NCT01937975|184300352|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01|||||TWO_SIDED|90.0|0.77|1.34|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.34|0.77|
92201028|NCT01937975|184300352|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.54|||||TWO_SIDED|90.0|0.4|0.72|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||0.72|0.40|
92201029|NCT01937975|184300353|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95|||||TWO_SIDED|90.0|0.7|1.3|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|||1.30|0.70|
92201030|NCT01937975|184300353|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.63|||||TWO_SIDED|90.0|0.45|0.89|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|||0.89|0.45|
92201031|NCT01602510|184300370|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.86|||=|0.438|TWO_SIDED|95.0|0.59|1.25|||Regression, Cox||p value with Treatment Group as covariate|||1.25|0.59|=0.438
92201032|NCT01602510|184300370|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.86|||=|0.212|TWO_SIDED|95.0|0.59|1.25|||Regression, Cox||p value with Site as covariate|||1.25|0.59|=0.212
92201033|NCT01602510|184300370|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.86|||=|0.724|TWO_SIDED|95.0|0.59|1.25|||Regression, Cox||p value with CGI-S Baseline Score as covariate|||1.25|0.59|=0.724
92325470|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-12.0||||0.0001|TWO_SIDED|95.0|-17.91|-6.09||P-value for 1 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-6.09|-17.91|0.0001
92201034|NCT01602510|184300371|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.95|||=|0.869|TWO_SIDED|95.0|0.55|1.66|||Regression, Cox||p value with Treatment Group as covariate|||1.66|0.55|=0.869
92201035|NCT01602510|184300371|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.95|||=|0.061|TWO_SIDED|95.0|0.55|1.66|||Regression, Cox||p value with Site as covariate|||1.66|0.55|=0.061
92201036|NCT01602510|184300371|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.95|||=|0.505|TWO_SIDED|95.0|0.55|1.66|||Regression, Cox||p value with CGI-S Baseline Score as covariate|||1.66|0.55|=0.505
92201037|NCT01602510|184300372|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.79|||=|0.369|TWO_SIDED|95.0|0.48|1.32|||Regression, Cox||p value with Treatment Group as covariate|||1.32|0.48|=0.369
92201038|NCT01602510|184300372|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.79|||=|0.955|TWO_SIDED|95.0|0.48|1.32|||Regression, Cox||p value with Site as covariate|||1.32|0.48|=0.955
92201039|NCT01602510|184300372|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.79|||=|0.874|TWO_SIDED|95.0|0.48|1.32|||Regression, Cox||p value with CGI-S Baseline Score as covariate|||1.32|0.48|=0.874
92201040|NCT01602510|184300373|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|1.02|||=|0.927|TWO_SIDED|95.0|0.73|1.4|||Regression, Cox||p value with Treatment Group as covariate|||1.40|0.73|=0.927
92201041|NCT01602510|184300373|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|1.02|||=|0.036|TWO_SIDED|95.0|0.73|1.4|||Regression, Cox||p value with Site as covariate|||1.40|0.73|=0.036
92201042|NCT01602510|184300373|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|1.02|||=|0.509|TWO_SIDED|95.0|0.73|1.4|||Regression, Cox||p value with CGI-S Baseline Score as covariate|||1.40|0.73|=0.509
92201043|NCT01602510|184300374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||=|0.833|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||||0.5|-0.4|=0.833
92201044|NCT01602510|184300375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||=|0.245|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|=0.245
92201045|NCT01602510|184300376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||=|0.155|TWO_SIDED|95.0|-3.0|0.5|||ANCOVA|||||0.5|-3.0|=0.155
92201046|NCT01602510|184300377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||=|0.661|TWO_SIDED|95.0|-1.4|2.2|||ANCOVA|||||2.2|-1.4|= 0.661
92201047|NCT01602510|184300378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||=|0.945|TWO_SIDED|95.0|-3.7|3.5|||ANCOVA|||||3.5|-3.7|= 0.945
92201048|NCT01602510|184300379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|||=|0.047|TWO_SIDED|95.0|-1.66|-0.01|||ANCOVA|||||-0.01|-1.66|=0.047
92201049|NCT01825577|184300380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9||||0.55|TWO_SIDED||||||t-test, 2 sided|||||||.55
92201050|NCT01825577|184300381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.67|TWO_SIDED||||||t-test, 2 sided|||||||.67
92201051|NCT03518567|184300436|SUPERIORITY||Slope|0.78||||4e-08|TWO_SIDED||||||Regression, Linear|"hits purchased on the MPT predicting hits actually purchased and smoked in the laboratory.~covariate: baseline total individual income"||||||.00000004
92201052|NCT03518567|184300437|SUPERIORITY||Mean Difference (Final Values)|-0.75|STANDARD_DEVIATION|1.09||9e-09|TWO_SIDED||||||t-test, 2 sided|||||||.000000009
92201053|NCT03518567|184300438|SUPERIORITY||correlation|0.02||||0.87|TWO_SIDED||||||correlation|Correlation between puffs on the topography device and grams of cannabis used per week.||||||.87
92201054|NCT01791972|184300488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2|STANDARD_ERROR_OF_MEAN|1.982|<|0.0001|TWO_SIDED|95.0|-20.19|-12.14||Significance level is 0.05.|mixed-effect analysis of covariance|Fixed effects of sequence, trt group, period, and center, within period baseline FEV1 as a covariate, and random effect for patient within sequence.||||-12.14|-20.19|<0.0001
92201055|NCT01791972|184300489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|0.53|0.84||Terms for treatment and period, computed with the generalized estimating equations (GEE) algorithm, which adjusts for potential correlation between measurements on the same patient. Significance level of 0.05.|Regression, Logistic|||||0.84|0.53|<0.0001
92201056|NCT00630734|184300503|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||Threshold of significance was P\<0.05.|ANOVA|||Relative change data were compared between SLCO1B1 diplotype groups using one-way ANOVA (with post-hoc Bonferroni tests).||||0.43
92201057|NCT00630734|184300504|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||ANOVA|||||||0.28
92201058|NCT00630734|184300505|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||ANOVA|||||||0.66
92201059|NCT00630734|184300506|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANOVA|||||||0.85
92201060|NCT00630734|184300507|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||||||0.11
92201061|NCT00630734|184300508|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANOVA|||||||0.15
92201062|NCT00630734|184300509|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|||||||0.22
92201063|NCT00630734|184300510|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||ANOVA|||||||0.67
92201064|NCT00630734|184300511|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANOVA|||||||0.006
92201065|NCT00630734|184300512|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANOVA|||||||0.08
92201066|NCT01040169|184300564|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92201067|NCT01040169|184300565|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92201068|NCT05239598|184300570|SUPERIORITY||Mean Difference (Net)|4.5||||0.287|TWO_SIDED|95.0|-4.0|13.0|||t-test, 2 sided|||||13.0|-4.0|0.287
92201069|NCT05239598|184300571|SUPERIORITY||Mean Difference (Net)|1.7||||0.625|TWO_SIDED|95.0|-5.2|8.6|||t-test, 2 sided|||5 minutes post intervention||8.6|-5.2|0.625
92201070|NCT05239598|184300571|SUPERIORITY||Mean Difference (Net)|2.5||||0.526|TWO_SIDED|95.0|-5.5|10.5|||t-test, 2 sided|||30 minutes post intervention||10.5|-5.5|0.526
92201071|NCT05239598|184300572|SUPERIORITY||Median Difference (Net)|0.04||||0.511|TWO_SIDED|95.0|-4.2|8.1|||Signed Rank|||Povidone-iodine: 5 minutes Post-Intervention||8.1|-4.2|0.511
92201072|NCT05239598|184300572|SUPERIORITY||Median Difference (Net)|5.4||||0.408|TWO_SIDED|95.0|-10.7|18.6|||Signed Rank|||Povidone-iodine: 30 minutes post-intervention||18.6|-10.7|0.408
92201073|NCT05239598|184300572|SUPERIORITY||Median Difference (Net)|-4.9||||0.907|TWO_SIDED|95.0|-15.2|17.5|||Signed Rank|||Povidone-iodine: 60 minutes post-intervention||17.5|-15.2|0.907
92201074|NCT05239598|184300572|SUPERIORITY||Median Difference (Net)|-2.4||||0.008|TWO_SIDED|95.0|-6.5|-0.9|||Signed Rank|||Placebo: 5 minutes post intervention||-0.9|-6.5|0.008
92201075|NCT05239598|184300572|SUPERIORITY||Median Difference (Net)|-6.6||||0.08|TWO_SIDED|95.0|-10.1|-2.2|||Signed Rank|||Placebo: 30 minutes post-intervention||-2.2|-10.1|0.080
92201076|NCT05239598|184300572|SUPERIORITY||Median Difference (Net)|-8.6||||0.001|TWO_SIDED|95.0|-22.3|-3.9|||Signed Rank|||Placebo: 60 minutes post-intervention||-3.9|-22.3|0.001
92201077|NCT05239598|184300573|SUPERIORITY||Median Difference (Net)|3.1||||0.212|TWO_SIDED|95.0|-2.2|5.8|||Signed Rank|||Povidone-iodine 5 minutes post-intervention||5.8|-2.2|0.212
92201078|NCT05239598|184300573|SUPERIORITY||Median Difference (Net)|1.8||||0.334|TWO_SIDED|95.0|-2.3|6.9|||Signed Rank|||Povidone-iodine 30 minutes post-intervention||6.9|-2.3|0.334
92201079|NCT05239598|184300573|SUPERIORITY||Median Difference (Net)|1.5||||0.269|TWO_SIDED|95.0|-3.1|6.8|||Signed Rank|||Povidone-iodine 60 minutes post-intervention||6.8|-3.1|0.269
92201080|NCT05239598|184300573|SUPERIORITY||Median Difference (Net)|-4.1||||0.026|TWO_SIDED|95.0|-7.1|-0.7|||Signed Rank|||Placebo 5 minutes post-intervention||-0.7|-7.1|0.026
92201081|NCT05239598|184300573|SUPERIORITY||Median Difference (Net)|-0.7||||0.182|TWO_SIDED|95.0|-9.4|2.0|||Signed Rank|||Placebo 30 minutes post-intervention||2.0|-9.4|0.182
92201082|NCT05239598|184300573|SUPERIORITY||Median Difference (Net)|-3.6||||0.353|TWO_SIDED|95.0|-7.7|4.0|||Signed Rank|||Placebo 60 minutes post-intervention||4.0|-7.7|0.353
92201083|NCT04855734|184300604|SUPERIORITY||Mean ratio|0.962||||0.835|TWO_SIDED|95.0|0.661|1.396||Threshold for significance was \<0.05.|Mixed Models Analysis|||||1.396|0.661|0.835
92201084|NCT04855734|184300605|SUPERIORITY||Mean ratio|0.826||||0.032|TWO_SIDED|95.0|0.75|0.986||\<0.05 was threshold for significance level.|Mixed Models Analysis|||Meaning/Peace subscale which was a primary outcome.||0.986|0.75|0.032
92201085|NCT04855734|184300611|SUPERIORITY||Mean ratio|1.052||||0.284|TWO_SIDED|95.0|0.959|1.157||\<0.05 threshold for significance level.|Mixed Models Analysis|||Caregiver strain subscale scores at 3 months post-intervention comparing intervention to TAU, controlling for baseline levels.||1.157|0.959|0.284
92201086|NCT04855734|184300611|SUPERIORITY||Mean ratioj|0.931||||0.228|TWO_SIDED|95.0|0.827|1.048||\<0.05 threshold for significance level.|Mixed Models Analysis|||Caregiver distress subscale controlling for baseline levels.||1.048|0.827|0.228
92201087|NCT04855734|184300611|SUPERIORITY||Mean ratio|0.984||||0.504|TWO_SIDED|95.0|0.94|1.032||\<0.05 significance level.|Mixed Models Analysis|||Family well-being subscale controlling for baseline levels.||1.032|0.94|0.504
92201088|NCT04855734|184300611|SUPERIORITY||Mean ratio|0.995||||0.741|TWO_SIDED|95.0|0.967|1.024||\<0.05 significance level.|Mixed Models Analysis|||Positive Caregiving Appraisals subscale at 3 month follow up, controlling for baseline levels.||1.024|0.967|0.741
92201089|NCT03832595|184300619|EQUIVALENCE|We determined that 1,653 patients provide 80% power to detect a hazard ratio of 0.64, or a 5% absolute risk reduction in intervention arm, assuming a primary end-point rate of 15% in the usual care group at 24 months, 20% loss to follow-up, α = 0.05, and within-practice intra-class correlation of 0.01|Hazard Ratio (HR)|0.96||||0.82|TWO_SIDED|95.0|0.67|1.38|||Mixed Models Analysis|||||1.38|0.67|0.82
92201090|NCT03832595|184300620|EQUIVALENCE|α = 0.05|Slope difference|0.011|||||TWO_SIDED|95.0|-0.008|0.029||||||||0.029|-0.008|
92201091|NCT03832595|184300621|EQUIVALENCE|α = 0.05|Rate ratio|1.21|||||TWO_SIDED|95.0|1.02|1.43||||||||1.43|1.02|
92201092|NCT03832595|184300622|EQUIVALENCE|α = 0.05|Rate ratio|0.8|||||TWO_SIDED|95.0|0.51|1.25||||||||1.25|0.51|
92201093|NCT03832595|184300623|EQUIVALENCE|α = 0.05|Rate ratio|1.18|||||TWO_SIDED|95.0|0.03|53.78||||||||53.78|0.03|
92201094|NCT03832595|184300624|EQUIVALENCE|α = 0.05|Rate ratio|1.12|||||TWO_SIDED|95.0|0.12|9.96||||||||9.96|0.12|
92201095|NCT03317990|184300664|SUPERIORITY||Mean Difference (Final Values)|3.18|||<|0.0001|TWO_SIDED|95.0|1.62|4.75|||Regression, Linear|||Normal linear regression model adjusted for recruitment site, participant's age, and IIEF-5 at baseline, in participants with available data||4.75|1.62|<0.0001
92201096|NCT03317990|184300665|SUPERIORITY||Mean Difference (Final Values)|-1.41||||0.006|TWO_SIDED|95.0|-2.42|-0.41|||Regression, Linear|||||-0.41|-2.42|0.006
92325471|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.0|||<|0.0001|TWO_SIDED|95.0|-15.64|-6.32||P-value for 2 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-6.32|-15.64|<0.0001
92201097|NCT05332912|184300707|SUPERIORITY||||||=|0.066|||||||t-test, 1 sided|df = 26||Null Hypothesis: Participants with Down Syndrome will exhibit no change in number of correct items in Mental Rotation performance following 8 weeks of experiential training.||||=.066
92201098|NCT05332912|184300707|SUPERIORITY||||||=|0.056|||||||t-test, 1 sided|||Null Hypothesis: Amount of change in Mental Rotation performance following 8 weeks of experiential training will not differ for participants with Down Syndrome who received 8 weeks of experiential intervention and Typically Developing Children in the Delayed Intervention who had not received 8 weeks of intervention.||||=.056
92201099|NCT05332912|184300707|SUPERIORITY||||||=|0.65|||||||t-test, 2 sided|df = 55||Null Hypothesis: Amount of change in Mental Rotation performance following 8 weeks of experiential training will not differ for Typically Developing Children Immediate Intervention and Down Syndrome Participants Immediate intervention.||||=.65
92201100|NCT05332912|184300708|SUPERIORITY||||||=|0.039|||||||t-test, 1 sided|||Null Hypothesis: Participants with Down Syndrome will exhibit no change in number of correct items in Mental Rotation performance following 16 weeks of experiential training.||||=.039
92201101|NCT05332912|184300708|SUPERIORITY||||||=|0.32|||||||t-test, 2 sided|df = 48||Null Hypothesis: Participants with Down Syndrome in the Immediate Intervention condition and received 16 weeks of experiential training in Mental Rotation will exhibit a similar change in performance as Typically Developing Children in the Delayed Intervention condition who received only 8 weeks of experiential training.||||= .32
92201102|NCT05332912|184300708|SUPERIORITY||||||=|0.73||||||df = 55|t-test, 2 sided|||Null Hypothesis: Amount of change in Mental Rotation performance following 16 weeks of experiential training will not differ for Typically Developing Children Immediate Intervention and Down Syndrome Participants Immediate intervention.||||=.73
92201103|NCT05332912|184300709|SUPERIORITY||||||=|0.023|||||||t-test, 1 sided|df = 26||Null Hypothesis: Participants with Down Syndrome will exhibit no change in Perspective Taking performance following 8 weeks of experiential training.||||=.023
92201104|NCT05332912|184300709|SUPERIORITY|||||||0.23|||||||t-test, 1 sided|df = 48||Null Hypothesis: Amount of change in Perspective Taking performance following 8 weeks of experiential training will not differ for participants with Down Syndrome who received 8 weeks of experiential intervention and Typically Developing Children in the Delayed Intervention who had not received 8 weeks of intervention.||||.23
92201105|NCT05332912|184300709|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|df = 55||Null Hypothesis: Amount of change in Mental Rotation will not differ for participants with Down Syndrome in the Immediate Intervention Condition who received 8 weeks of experiential intervention and Typically Developing Children in the Immediate Intervention who also received 8 weeks of intervention.||||.42
92201106|NCT05332912|184300710|SUPERIORITY||||||=|0.01|||||||t-test, 1 sided|df = 26||Null Hypothesis: Participants with Down Syndrome will exhibit no change in Perspective Taking performance following 16 weeks of experiential training.||||=.01
92201107|NCT05332912|184300710|SUPERIORITY||||||=|0.28|||||||t-test, 2 sided|df = 48||Null Hypothesis: Amount of change in Perspective Taking will not differ for participants with Down Syndrome in the Immediate Intervention Condition who received16 weeks of experiential intervention and Typically Developing Children in the Delayed Intervention condition who received 8 weeks of intervention.||||=.28
92201108|NCT05332912|184300710|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|df = 55||Null Hypothesis: Amount of change in Perspective Taking will not differ for participants with Down Syndrome in the Immediate Intervention Condition who received16 weeks of experiential intervention and Typically Developing Children in the Immediate Intervention who also received 16 weeks of intervention.||||.23
92201109|NCT01174446|184300718|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence will be established if 90% C.I. of ratio is contained completely in the margins of equivalence of 0.8 to 1.25.|Ratio of Geometric Means|1.063|||||TWO_SIDED|90.0|1.03|1.09||||||||1.09|1.03|
92201110|NCT01174446|184300745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.779||95.0|||||Paired t-test|||||||0.7790
92201111|NCT01174446|184300745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8999||95.0|||||Paired t-test|||||||0.8999
92201112|NCT01174446|184300746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||95.0|||||Paired t-test|||||||0.0056
92201113|NCT01174446|184300746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.413||95.0|||||Paired t-test|||||||0.4130
92201114|NCT01174446|184300747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9059||95.0|||||Paired t-test|||||||0.9059
92201115|NCT01174446|184300747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4098||95.0|||||Paired t-test|||||||0.4098
92201116|NCT01174446|184300748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0189||95.0|||||Paired t-test|||||||0.0189
92201117|NCT01174446|184300748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2974||95.0|||||Paired t-test|||||||0.2974
92201118|NCT01174446|184300749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2009||95.0|||||Paired t-test|||||||0.2009
92201119|NCT01174446|184300749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3552||95.0|||||Paired t-test|||||||0.3552
92201120|NCT01174446|184300750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5143||95.0|||||Paired t-test|||||||0.5143
92201121|NCT01174446|184300750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9223||95.0|||||Paired t-test|||||||0.9223
92201122|NCT01174446|184300751|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0162||95.0|||||Paired t-test|||||||0.0162
92201123|NCT01174446|184300751|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3176||95.0|||||Paired t-test|||||||0.3176
92201124|NCT01174446|184300752|SUPERIORITY_OR_OTHER_LEGACY|||||||0.821||95.0|||||Paired t-test|||||||0.8210
92201125|NCT01174446|184300752|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5565||95.0|||||Paired t-test|||||||0.5565
92201126|NCT01174446|184300753|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0146||95.0|||||Paired t-test|||||||0.0146
92201127|NCT01174446|184300753|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4048||95.0|||||Paired t-test|||||||0.4048
92201128|NCT01174446|184300754|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1258||95.0|||||Paired t-test|||||||0.1258
92201129|NCT01174446|184300754|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2567||95.0|||||Paired t-test|||||||0.2567
92201130|NCT01174446|184300755|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1048||95.0|||||Paired t-test|||||||0.1048
92201131|NCT01174446|184300755|SUPERIORITY_OR_OTHER_LEGACY|||||||0.641||95.0|||||Paired t-test|||||||0.6410
92201132|NCT01174446|184300756|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0663||95.0|||||Paired t-test|||||||0.0663
92325472|NCT00356135|184555993|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.9|||<|0.0001|TWO_SIDED|95.0|-14.67|-5.09||P-value for 2 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-5.09|-14.67|<0.0001
92201133|NCT01174446|184300756|SUPERIORITY_OR_OTHER_LEGACY|||||||0.489||95.0|||||Paired t-test|||||||0.4890
92201134|NCT01174446|184300757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0562||95.0|||||Paired t-test|||||||0.0562
92201135|NCT01174446|184300757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3864||95.0|||||Paired t-test|||||||0.3864
92201136|NCT01174446|184300758|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5792||95.0|||||Paired t-test|||||||0.5792
92201137|NCT01174446|184300759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4208||95.0|||||Paired t-test|||||||0.4208
92201138|NCT01174446|184300760|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0|||||Paired t-test|||||||0.5000
92201139|NCT01174446|184300761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0633||95.0|||||Paired t-test|||||||0.0633
92201140|NCT01174446|184300761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9363||95.0|||||Paired t-test|||||||0.9363
92201141|NCT00847626|184300769|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.0|||<|0.001|TWO_SIDED|95.0|-15.8|-9.5||Tested at 5% significance level.|ANCOVA|||Analysis of covariance model (ANCOVA) using treatment as a fixed effect and baseline as a covariate was performed. Results for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD pool were obtained using contrast with coefficients of 0.5 for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and 0.5 for Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD from the ANCOVA model.||-9.5|-15.8|<0.001
92201142|NCT00847626|184300769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.8|||<|0.001|TWO_SIDED|95.0|-16.7|-10.9||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed. Results for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD pool were obtained using contrast with coefficients of 0.5 for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and 0.5 for Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD from the ANCOVA model.||-10.9|-16.7|<0.001
92201143|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.7|||<|0.001|TWO_SIDED|95.0|-16.2|-9.2||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-9.2|-16.2|<0.001
92201144|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9|||<|0.001|TWO_SIDED|95.0|-13.4|-6.4||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-6.4|-13.4|<0.001
92201145|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.7|||<|0.001|TWO_SIDED|95.0|-19.2|-12.1||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-12.1|-19.2|<0.001
92201146|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||<|0.001|TWO_SIDED|95.0|-15.8|-8.9||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-8.9|-15.8|<0.001
92201147|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.8|||<|0.001|TWO_SIDED|95.0|-19.3|-12.3||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-12.3|-19.3|<0.001
92201148|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.0|||<|0.001|TWO_SIDED|95.0|-16.5|-9.5||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-9.5|-16.5|<0.001
92201149|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.0|||<|0.001|TWO_SIDED|95.0|-17.5|-10.5||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-10.5|-17.5|<0.001
92201150|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.2|||<|0.001|TWO_SIDED|95.0|-20.6|-13.7||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-13.7|-20.6|<0.001
92201151|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.5|||<|0.001|TWO_SIDED|95.0|-17.0|-9.9||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-9.9|-17.0|<0.001
92201152|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2|||<|0.001|TWO_SIDED|95.0|-19.7|-12.7||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-12.7|-19.7|<0.001
92201153|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|||<|0.001|TWO_SIDED|95.0|-16.3|-9.3||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-9.3|-16.3|<0.001
92201154|NCT00847626|184300770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.0|||<|0.001|TWO_SIDED|95.0|-19.4|-12.6||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-12.6|-19.4|<0.001
92201155|NCT00847626|184300771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8||||0.255|TWO_SIDED|95.0|-13.0|3.5||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed. Results for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and Azilsartan Medoxomil 80mg/Chlorthalidone 25 mg QD pool were obtained using contrast with coefficients of 0.5 for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and 0.5 for Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD from the ANCOVA model.||3.5|-13.0|0.255
92201156|NCT00847626|184300771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.2|||<|0.001|TWO_SIDED|95.0|-25.9|-10.6||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed. Results for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and Azilsartan Medoxomil 80mg/Chlorthalidone 25 mg QD pool were obtained using contrast with coefficients of 0.5 for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and 0.5 for Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD from the ANCOVA model.||-10.6|-25.9|<0.001
92201157|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-13.6|-7.0||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-7.0|-13.6|< 0.001
92201158|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|||<|0.001|TWO_SIDED|95.0|-13.7|-7.0||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-7.0|-13.7|<0.001
92201159|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.8|||<|0.001|TWO_SIDED|95.0|-15.1|-8.4||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-8.4|-15.1|<0.001
92201160|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9|||<|0.001|TWO_SIDED|95.0|-17.3|-10.6||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-10.6|-17.3|<0.001
92201161|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.001|TWO_SIDED|95.0|-17.1|-10.3||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-10.3|-17.1|<0.001
92201162|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.0|||<|0.001|TWO_SIDED|95.0|-15.4|-8.7||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-8.7|-15.4|<0.001
92201163|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9|||<|0.001|TWO_SIDED|95.0|-14.2|-7.6||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-7.6|-14.2|<0.001
92201164|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.2|||<|0.001|TWO_SIDED|95.0|-17.6|-10.9||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-10.9|-17.6|<0.001
92201165|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|||<|0.001|TWO_SIDED|95.0|-15.0|-8.3||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-8.3|-15.0|<0.001
92201166|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.0|||<|0.001|TWO_SIDED|95.0|-20.4|-13.6||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-13.6|-20.4|<0.001
92201167|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.2|||<|0.001|TWO_SIDED|95.0|-14.7|-7.8||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-7.8|-14.7|<0.001
92201168|NCT00847626|184300784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|||<|0.001|TWO_SIDED|95.0|-16.2|-9.4||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-9.4|-16.2|<0.001
92201169|NCT03301155|184300787|SUPERIORITY|||||||0.001|||||||Regression, Logistic|Comparison performed on the regression parameters scale. Estimates for mean time obtained under assumption of exponentially distributed time-to-event.||||||0.001
92201170|NCT03301155|184300787|SUPERIORITY|superiority margin for hazard ratio was prespecified as 0.846. Lower hazard is better thus the upper confidence limit of HR expected to be lesser than margin|Hazard Ratio (HR)|0.645||||0.0218|TWO_SIDED|95.0|0.496|0.839|||Regression, Cox||Lower HR is better|||0.839|0.496|0.0218
92201171|NCT03301155|184300788|SUPERIORITY|||||||0.0003||||||Adjusted with Holm method for multiple comparrisons|Fisher Exact|||Comparison between groups on week 4||||0.0003
92201172|NCT03301155|184300788|SUPERIORITY|Adjusted with Holm method for multiple comparrisons||||||0.0003|||||||Fisher Exact|||Comparison between groups on week 8||||0.0003
92201173|NCT03301155|184300788|SUPERIORITY|||||||0.0021|||||||Fisher Exact|||Comparison between groups on week 12||||0.0021
92201174|NCT03301155|184300789|SUPERIORITY|||||||0.1372|||||||Fisher Exact|||||||0.1372
92201175|NCT03301155|184300790|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92201176|NCT03301155|184300791|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
92201177|NCT00384189|184300821|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|9.8|STANDARD_ERROR_OF_MEAN|4.3||0.0116|TWO_SIDED|95.0|1.4|18.3|||ANCOVA|Baseline value and age as covariates. One-sided p-value, significance level 2.5%.||||18.3|1.4|0.0116
92201178|NCT00384189|184300821|SUPERIORITY_OR_OTHER||Least Square Means Difference|9.4|STANDARD_ERROR_OF_MEAN|4.3||0.0148|TWO_SIDED|95.0|0.9|17.8|||ANCOVA|Baseline value and age as covariates. One-sided p-value, significance level 2.5%.||||17.8|0.9|0.0148
92325473|NCT00356135|184555994|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||P-value for MPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||0.0005
92325474|NCT00356135|184555994|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for RPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||<0.0001
92325475|NCT00356135|184555994|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-value for MPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||0.0150
92325476|NCT00356135|184555994|SUPERIORITY_OR_OTHER|||||||0.0152||95.0||||P-value for RPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||0.0152
92201179|NCT00384189|184300821|SUPERIORITY_OR_OTHER||Least Squares Means Difference|12.0|STANDARD_ERROR_OF_MEAN|4.3||0.0028|TWO_SIDED|95.0|3.5|20.4|||ANCOVA|Baseline value and age as covariates. One-sided p-value, significance level 2.5%.||||20.4|3.5|0.0028
92325477|NCT00356135|184555994|SUPERIORITY_OR_OTHER|||||||0.0153||95.0||||P-value for MPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||0.0153
92325478|NCT00356135|184555994|SUPERIORITY_OR_OTHER|||||||0.0018||95.0||||P-value for RPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||0.0018
92325479|NCT05270395|184556015|SUPERIORITY||Odds Ratio (OR)|8.02||||0.02|TWO_SIDED|95.0|1.38|46.69|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||46.69|1.38|0.02
92325480|NCT05270395|184556016|SUPERIORITY||Odds Ratio (OR)|1.35||||0.63|TWO_SIDED|95.0|0.4|4.56|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||4.56|0.40|0.63
92201180|NCT00384189|184300822|SUPERIORITY_OR_OTHER|||||||0.1362||||||Two-sided p-value, significance level 5%.|Log Rank|||||||0.1362
92325481|NCT05270395|184556017|SUPERIORITY||Odds Ratio (OR)|0.29||||0.13|TWO_SIDED|95.0|0.06|1.46|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||1.46|0.06|0.13
92325482|NCT05270395|184556018|SUPERIORITY||Odds Ratio (OR)|0.54||||0.4|TWO_SIDED|95.0|0.13|2.24|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||2.24|0.13|0.40
92325483|NCT05270395|184556019|SUPERIORITY||Odds Ratio (OR)|2.22||||0.29|TWO_SIDED|95.0|0.51|9.62|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||9.62|0.51|0.29
92325484|NCT05270395|184556020|SUPERIORITY||Odds Ratio (OR)|3.55||||0.07|TWO_SIDED|95.0|0.88|14.32|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||14.32|0.88|0.07
92325485|NCT05270395|184556021|SUPERIORITY||Odds Ratio (OR)|3.93||||0.09|TWO_SIDED|95.0|0.82|18.89|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||18.89|0.82|0.09
92325486|NCT05270395|184556022|SUPERIORITY||Odds Ratio (OR)|1.73||||0.42|TWO_SIDED|95.0|0.46|6.43|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||6.43|0.46|0.42
92201181|NCT00384189|184300822|SUPERIORITY_OR_OTHER|||||||0.0891||||||Two-sided p-value, significance level 5%.|Log Rank|||||||0.0891
92201182|NCT00384189|184300822|SUPERIORITY_OR_OTHER|||||||0.1574||||||Two-sided p-value, significance level 5%.|Log Rank|||||||0.1574
92201183|NCT00384189|184300823|SUPERIORITY_OR_OTHER|||||||0.001||||||One-sided p-value for superiority, significance level 2.5%.|Wilcoxon (Mann-Whitney)|||||||0.0010
92201184|NCT00384189|184300823|SUPERIORITY_OR_OTHER|||||||0.0006||||||One-sided p-value for superiority, significance level 2.5%.|Wilcoxon (Mann-Whitney)|||||||0.0006
92201185|NCT00384189|184300823|SUPERIORITY_OR_OTHER|||||||0.0002||||||One-sided p-value for superiority, significance level 2.5%.|Wilcoxon (Mann-Whitney)|||||||0.0002
92201186|NCT02942004|184300835|SUPERIORITY||Least Square (LS) Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|1.664||0.0013|TWO_SIDED|95.0|-8.8|-2.2|||MMRM|||Mixed effect model for repeated measures (MMRM) was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-2.20|-8.80|0.0013
92201187|NCT02942004|184300835|SUPERIORITY||LS mean difference|-3.68|STANDARD_ERROR_OF_MEAN|1.622||0.0252|TWO_SIDED|95.0|-6.9|-0.47|||MMRM|||MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.47|-6.90|0.0252
92201188|NCT02942004|184300836|SUPERIORITY||LS mean difference|-5.63|STANDARD_ERROR_OF_MEAN|1.936||0.0044|TWO_SIDED|95.0|-9.46|-1.79|||MMRM|||MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.79|-9.46|0.0044
92201189|NCT02942004|184300836|SUPERIORITY||LS mean difference|-3.79|STANDARD_ERROR_OF_MEAN|1.899||0.0481|TWO_SIDED|95.0|-7.56|-0.03|||MMRM|||MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-7.56|0.0481
92201190|NCT02942004|184300837|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.951||0.9591|TWO_SIDED|95.0|-1.83|1.93|||MMRM|||Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.93|-1.83|0.9591
92325487|NCT05270395|184556023|SUPERIORITY||Odds Ratio (OR)|2.86||||0.08|TWO_SIDED|95.0|0.87|9.42|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||9.42|0.87|0.08
92325488|NCT05270395|184556024|SUPERIORITY||Odds Ratio (OR)|8.29||||0.004|TWO_SIDED|95.0|1.99|34.49|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||34.49|1.99|0.004
92201191|NCT02942004|184300837|SUPERIORITY||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.917||0.8677|TWO_SIDED|95.0|-1.66|1.97|||MMRM|||Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.97|-1.66|0.8677
92201192|NCT02942004|184300837|SUPERIORITY||LS mean difference|-2.11|STANDARD_ERROR_OF_MEAN|1.208||0.0827|TWO_SIDED|95.0|-4.51|0.28|||MMRM|||Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-4.51|0.0827
92325489|NCT03055494|184556025|OTHER|Statistical hypothesis tests were not performed in this study|difference in percentages|76.1|||||TWO_SIDED|95.0|63.3|88.8|||95% confidence interval|"Statistical analysis of no response of skin histology/K16 expression to treatment at Week 12"|||"A patient with missing assessment was considered as having a yes response of skin histology/K16 expression to treatment regardless of the reason for missing data (eg, premature study discontinuation, missed visit, administrative issues). However, missing baseline value was not imputed."|88.8|63.3|
92325490|NCT03055494|184556026|OTHER|Statistical hypothesis tests were not performed in this study|difference in percentages|55.8|||||TWO_SIDED|95.0|42.3|69.3|||95% confidence interval|||||69.3|42.3|
92325491|NCT03569293|184556041|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|63.4|||<|0.001|TWO_SIDED|95.0|57.1|69.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||69.8|57.1|<0.001
92201193|NCT02942004|184300837|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|1.172||0.7968|TWO_SIDED|95.0|-2.62|2.02|||MMRM|||Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.02|-2.62|0.7968
92201194|NCT02942004|184300837|SUPERIORITY||LS mean difference|-2.04|STANDARD_ERROR_OF_MEAN|1.336||0.1292|TWO_SIDED|95.0|-4.69|0.61|||MMRM|||Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.61|-4.69|0.1292
92201195|NCT02942004|184300837|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|1.299||0.7801|TWO_SIDED|95.0|-2.94|2.21|||MMRM|||Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.21|-2.94|0.7801
92325492|NCT03569293|184556041|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|53.3|||<|0.001|TWO_SIDED|95.0|46.4|60.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.2|46.4|<0.001
92325493|NCT03569293|184556042|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|53.6|||<|0.001|TWO_SIDED|95.0|47.2|60.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response rate difference = Upadacitinib - Placebo|||60.0|47.2|<0.001
92325494|NCT03569293|184556042|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|39.8|||<|0.001|TWO_SIDED|95.0|33.2|46.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response rate difference = Upadacitinib - Placebo|||46.4|33.2|<0.001
92325495|NCT03569293|184556043|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|48.2|||<|0.001|TWO_SIDED|95.0|41.3|55.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||55.0|41.3|<0.001
92325496|NCT03569293|184556043|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|40.5|||<|0.001|TWO_SIDED|95.0|33.5|47.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||47.5|33.5|<0.001
92325497|NCT03569293|184556044|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|57.8|||<|0.001|TWO_SIDED|95.0|51.5|64.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||64.1|51.5|<0.001
92325498|NCT03569293|184556044|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|45.1|||<|0.001|TWO_SIDED|95.0|38.6|51.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||51.7|38.6|<0.001
92325499|NCT03569293|184556045|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|62.3|||<|0.001|TWO_SIDED|95.0|56.3|68.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||68.3|56.3|<0.001
92325500|NCT03569293|184556045|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|47.1|||<|0.001|TWO_SIDED|95.0|40.7|53.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||53.4|40.7|<0.001
92325501|NCT03569293|184556046|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|43.9|||<|0.001|TWO_SIDED|95.0|37.7|50.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||50.0|37.7|<0.001
92325502|NCT03569293|184556046|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|34.5|||<|0.001|TWO_SIDED|95.0|28.6|40.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||40.5|28.6|<0.001
92201196|NCT02942004|184300837|SUPERIORITY||LS mean difference|-1.25|STANDARD_ERROR_OF_MEAN|1.436||0.384|TWO_SIDED|95.0|-4.1|1.59|||MMRM|||Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.59|-4.10|0.3840
92201197|NCT02942004|184300837|SUPERIORITY||LS mean difference|0.71|STANDARD_ERROR_OF_MEAN|1.395||0.6097|TWO_SIDED|0.71|-2.05|3.48|||MMRM|||Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.48|-2.05|0.6097
92325503|NCT03569293|184556047|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|19.2|||<|0.001|TWO_SIDED|95.0|14.6|23.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||23.9|14.6|<0.001
92325504|NCT03569293|184556047|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|14.6|||<|0.001|TWO_SIDED|95.0|10.3|18.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||18.8|10.3|<0.001
92325505|NCT03569293|184556048|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|8.1|||<|0.001|TWO_SIDED|95.0|3.8|12.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||12.5|3.8|<0.001
92325506|NCT03569293|184556049|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|13.0|||<|0.001|TWO_SIDED|95.0|8.1|17.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||17.8|8.1|<0.001
92325507|NCT03569293|184556050|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|-25.2|||<|0.001|TWO_SIDED|95.0|-30.3|-20.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||-20.1|-30.3|<0.001
92325508|NCT03569293|184556050|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|-24.1|||<|0.001|TWO_SIDED|95.0|-29.3|-18.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||-18.9|-29.3|<0.001
92325509|NCT03569293|184556051|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|52.9|||<|0.001|TWO_SIDED|95.0|45.2|60.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.6|45.2|<0.001
92325510|NCT03569293|184556051|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|41.8|||<|0.001|TWO_SIDED|95.0|33.9|49.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||49.7|33.9|<0.001
92325511|NCT03569293|184556052|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|48.6|||<|0.001|TWO_SIDED|95.0|41.0|56.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||56.1|41.0|<0.001
92201198|NCT02942004|184300837|SUPERIORITY||LS mean difference|-4.28|STANDARD_ERROR_OF_MEAN|1.622||0.0094|TWO_SIDED|95.0|-7.5|-1.07|||MMRM|||Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.07|-7.50|0.0094
92201199|NCT02942004|184300837|SUPERIORITY||LS mean difference|-2.32|STANDARD_ERROR_OF_MEAN|1.577||0.144|TWO_SIDED|95.0|-5.45|0.8|||MMRM|||Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.80|-5.45|0.1440
92201200|NCT02942004|184300837|SUPERIORITY||LS mean difference|-5.12|STANDARD_ERROR_OF_MEAN|1.62||0.002|TWO_SIDED|95.0|-8.33|-1.91|||MMRM|||Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.91|-8.33|0.0020
92201201|NCT02942004|184300837|SUPERIORITY||LS mean difference|-1.36|STANDARD_ERROR_OF_MEAN|1.572||0.3906|TWO_SIDED|95.0|-4.47|1.76|||MMRM|||Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.76|-4.47|0.3906
92201202|NCT02942004|184300837|SUPERIORITY||LS mean difference|-4.49|STANDARD_ERROR_OF_MEAN|1.735||0.011|TWO_SIDED|95.0|-7.93|-1.05|||MMRM|||Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.05|-7.93|0.0110
92201203|NCT02942004|184300837|SUPERIORITY||LS mean difference|-3.33|STANDARD_ERROR_OF_MEAN|1.69||0.0511|TWO_SIDED|95.0|-6.68|0.02|||MMRM|||Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-6.68|0.0511
92201204|NCT02942004|184300837|SUPERIORITY||LS mean difference|-5.02|STANDARD_ERROR_OF_MEAN|1.738||0.0046|TWO_SIDED|95.0|-8.47|-1.58|||MMRM|||Change at hour 72: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.58|-8.47|0.0046
92325512|NCT03569293|184556052|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|38.7|||<|0.001|TWO_SIDED|95.0|30.9|46.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||46.5|30.9|<0.001
92325513|NCT03569293|184556053|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|52.9|||<|0.001|TWO_SIDED|95.0|45.4|60.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.3|45.4|<0.001
92201205|NCT02942004|184300837|SUPERIORITY||LS mean difference|-2.53|STANDARD_ERROR_OF_MEAN|1.694||0.1389|TWO_SIDED|95.0|-5.88|0.83|||MMRM|||Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.83|-5.88|0.1389
92201206|NCT02942004|184300837|SUPERIORITY||LS mean difference|-4.07|STANDARD_ERROR_OF_MEAN|1.837||0.0288|TWO_SIDED|95.0|-7.71|-0.43|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.43|-7.71|0.0288
92201207|NCT02942004|184300837|SUPERIORITY||LS mean difference|-1.58|STANDARD_ERROR_OF_MEAN|1.797||0.3799|TWO_SIDED|95.0|-5.15|1.98|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.98|-5.15|0.3799
92325514|NCT03569293|184556053|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|38.3|||<|0.001|TWO_SIDED|95.0|30.4|46.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||46.2|30.4|<0.001
92325515|NCT03569293|184556054|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|52.5|||<|0.001|TWO_SIDED|95.0|44.7|60.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.4|44.7|<0.001
92325516|NCT03569293|184556054|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|42.7|||<|0.001|TWO_SIDED|95.0|34.4|50.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||50.9|34.4|<0.001
92325517|NCT03569293|184556055|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|53.1|||<|0.001|TWO_SIDED|95.0|44.9|61.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||61.3|44.9|<0.001
92325518|NCT03569293|184556055|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|44.7|||<|0.001|TWO_SIDED|95.0|36.2|53.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||53.2|36.2|<0.001
92325519|NCT03569293|184556056|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|25.3|||<|0.001|TWO_SIDED|95.0|20.0|30.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||30.6|20.0|<0.001
92325520|NCT03569293|184556056|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|15.0|||<|0.001|TWO_SIDED|95.0|10.4|19.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||19.6|10.4|<0.001
92325521|NCT03569293|184556057|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for European Union (EU)/European Medicines Agency (EMA) regulatory purposes only.|Least Squares (LS) Mean Difference|-45.98|STANDARD_ERROR_OF_MEAN|6.549|<|0.001|TWO_SIDED|95.0|-58.82|-33.15|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-33.15|-58.82|<0.001
92325522|NCT03569293|184556057|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-36.74|||<|0.001|TWO_SIDED|95.0|-49.66|-23.81|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-23.81|-49.66|<0.001
92325523|NCT03569293|184556058|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-47.03|STANDARD_ERROR_OF_MEAN|2.716|<|0.001|TWO_SIDED|95.0|-52.37|-41.7|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-41.70|-52.37|<0.001
92201208|NCT02942004|184300837|SUPERIORITY||LS mean difference|-2.92|STANDARD_ERROR_OF_MEAN|2.139||0.1747|TWO_SIDED|95.0|-7.16|1.32|||MMRM|||Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.32|-7.16|0.1747
92201209|NCT02942004|184300837|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|2.08||0.631|TWO_SIDED|95.0|-5.13|3.12|||MMRM|||Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.12|-5.13|0.6310
92201210|NCT02942004|184300837|SUPERIORITY||LS mean difference|-4.92|STANDARD_ERROR_OF_MEAN|2.045||0.0178|TWO_SIDED|95.0|-8.98|-0.87|||MMRM|||Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.87|-8.98|0.0178
92201211|NCT02942004|184300837|SUPERIORITY||LS mean difference|-3.51|STANDARD_ERROR_OF_MEAN|1.976||0.0786|TWO_SIDED|95.0|-7.43|0.41|||MMRM|||Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.41|-7.43|0.0786
92201212|NCT02942004|184300838|SUPERIORITY||Odds Ratio (OR)|5.4||||0.0052|TWO_SIDED|95.0|1.7|17.4|||GEE method|||Hour 60: Generalized estimating equation (GEE) method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||17.4|1.7|0.0052
92201213|NCT02942004|184300838|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0493|TWO_SIDED|95.0|1.0|6.9|||GEE method|||Hour 60: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||6.9|1.0|0.0493
92201214|NCT02942004|184300838|SUPERIORITY||Odds Ratio (OR)|2.5||||0.0572|TWO_SIDED|95.0|1.0|6.5|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||6.5|1.0|0.0572
92201215|NCT02942004|184300838|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6768|TWO_SIDED|95.0|0.5|3.0|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||3.0|0.5|0.6768
92201216|NCT02942004|184300838|SUPERIORITY||Odds Ratio (OR)|5.4||||0.0035|TWO_SIDED|95.0|1.7|16.8|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||16.8|1.7|0.0035
92201217|NCT02942004|184300838|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0347|TWO_SIDED|95.0|1.1|7.8|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||7.8|1.1|0.0347
92201218|NCT02942004|184300839|SUPERIORITY||Odds Ratio (OR)|6.0||||0.0011|TWO_SIDED|95.0|2.1|17.8|||GEE method|||Hour 60: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||17.8|2.1|0.0011
92201219|NCT02942004|184300839|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0828|TWO_SIDED|95.0|0.9|7.6|||GEE method|||Hour 60: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||7.6|0.9|0.0828
92201220|NCT02942004|184300839|SUPERIORITY||Odds Ratio (OR)|1.2||||0.7749|TWO_SIDED|95.0|0.4|3.1|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||3.1|0.4|0.7749
92325524|NCT03569293|184556058|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-39.53|STANDARD_ERROR_OF_MEAN|2.738|<|0.001|TWO_SIDED|95.0|-44.91|-34.15|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-34.15|-44.91|<0.001
92325525|NCT03569293|184556059|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|58.6|||<|0.001|TWO_SIDED|95.0|51.9|65.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||65.3|51.9|<0.001
92325526|NCT03569293|184556059|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|52.3|||<|0.001|TWO_SIDED|95.0|45.2|59.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||59.4|45.2|<0.001
92325527|NCT03569293|184556060|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|53.2|||<|0.001|TWO_SIDED|95.0|45.9|60.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.5|45.9|<0.001
92325528|NCT03569293|184556060|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|46.7|||<|0.001|TWO_SIDED|95.0|39.0|54.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||54.4|39.0|<0.001
92325529|NCT03569293|184556061|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-40.39|STANDARD_ERROR_OF_MEAN|2.732|<|0.001|TWO_SIDED|95.0|-45.75|-35.03|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-35.03|-45.75|<0.001
92325530|NCT03569293|184556061|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-33.03|STANDARD_ERROR_OF_MEAN|2.758|<|0.001|TWO_SIDED|95.0|-38.44|-27.61|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-27.61|-38.44|<0.001
92325531|NCT03569293|184556062|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|34.9|||<|0.001|TWO_SIDED|95.0|24.8|45.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||45.1|24.8|<0.001
92325532|NCT03569293|184556062|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|31.5|||<|0.001|TWO_SIDED|95.0|21.4|41.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||41.6|21.4|<0.001
92201221|NCT02942004|184300839|SUPERIORITY||Odds Ratio (OR)|0.6||||0.3401|TWO_SIDED|95.0|0.2|1.7|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||1.7|0.2|0.3401
92201222|NCT02942004|184300839|SUPERIORITY||Odds Ratio (OR)|2.3||||0.1052|TWO_SIDED|95.0|0.8|6.0|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||6.0|0.8|0.1052
92201223|NCT02942004|184300839|SUPERIORITY||Odds Ratio (OR)|1.6||||0.3507|TWO_SIDED|95.0|0.6|4.2|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||4.2|0.6|0.3507
92201224|NCT02942004|184300840|SUPERIORITY||LS mean difference|-12.07|STANDARD_ERROR_OF_MEAN|4.294||0.0058|TWO_SIDED|95.0|-20.58|-3.56|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||-3.56|-20.58|0.0058
92201225|NCT02942004|184300840|SUPERIORITY||LS mean difference|-5.89|STANDARD_ERROR_OF_MEAN|4.188||0.1622|TWO_SIDED|95.0|-14.19|2.41|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||2.41|-14.19|0.1622
92201226|NCT02942004|184300840|SUPERIORITY||LS mean difference|-9.09|STANDARD_ERROR_OF_MEAN|4.51||0.0462|TWO_SIDED|95.0|-18.02|-0.16|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||-0.16|-18.02|0.0462
92201227|NCT02942004|184300840|SUPERIORITY||LS mean difference|-2.24|STANDARD_ERROR_OF_MEAN|4.41||0.6124|TWO_SIDED|95.0|-10.97|6.49|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||6.49|-10.97|0.6124
92201228|NCT02942004|184300840|SUPERIORITY||LS mean difference|-11.68|STANDARD_ERROR_OF_MEAN|4.556||0.0116|TWO_SIDED|95.0|-20.71|-2.66|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||-2.66|-20.71|0.0116
92201229|NCT02942004|184300840|SUPERIORITY||LS mean difference|-8.26|STANDARD_ERROR_OF_MEAN|4.464||0.0667|TWO_SIDED|95.0|-17.1|0.58|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||0.58|-17.10|0.0667
92201230|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.191||0.9681|TWO_SIDED|95.0|-0.39|0.37|||MMRM|||Depressed Mood, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.39|0.9681
92201231|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.185||0.6337|TWO_SIDED|95.0|-0.28|0.46|||MMRM|||Depressed Mood, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.28|0.6337
92201232|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.238||0.469|TWO_SIDED|95.0|-0.64|0.3|||MMRM|||Depressed Mood, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.64|0.4690
92201233|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.232||0.9905|TWO_SIDED|95.0|-0.46|0.46|||MMRM|||Depressed Mood, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.46|0.9905
92325533|NCT03569293|184556063|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|37.3|||<|0.001|TWO_SIDED|95.0|30.8|43.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||43.8|30.8|<0.001
92325534|NCT03569293|184556063|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|25.9|||<|0.001|TWO_SIDED|95.0|19.7|32.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||32.1|19.7|<0.001
92325535|NCT03569293|184556064|SUPERIORITY||Adjusted Response Rate Difference|66.6|||<|0.001|TWO_SIDED|95.0|53.8|79.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||79.4|53.8|<0.001
92325536|NCT03569293|184556064|SUPERIORITY||Adjusted Response Rate Difference|62.0|||<|0.001|TWO_SIDED|95.0|48.6|75.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||75.4|48.6|<0.001
92325537|NCT03569293|184556065|SUPERIORITY||Adjusted Response Rate Difference|57.4|||<|0.001|TWO_SIDED|95.0|44.6|70.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||70.2|44.6|<0.001
92325538|NCT03569293|184556065|SUPERIORITY||Adjusted Response Rate Difference|39.1|||<|0.001|TWO_SIDED|95.0|25.6|52.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||52.6|25.6|<0.001
92325539|NCT03569293|184556066|SUPERIORITY||Adjusted Response Rate Difference|46.6|||<|0.001|TWO_SIDED|95.0|32.6|60.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||60.6|32.6|<0.001
92325540|NCT03569293|184556066|SUPERIORITY||Adjusted Response Rate Difference|38.7|||<|0.001|TWO_SIDED|95.0|24.3|53.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||53.1|24.3|<0.001
92325541|NCT03569293|184556067|SUPERIORITY||Adjusted Response Rate Difference|63.9|||<|0.001|TWO_SIDED|95.0|51.8|75.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||75.9|51.8|<0.001
92325542|NCT03569293|184556067|SUPERIORITY||Adjusted Response Rate Difference|43.8|||<|0.001|TWO_SIDED|95.0|30.9|56.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||56.7|30.9|<0.001
92325543|NCT03569293|184556068|SUPERIORITY||Adjusted Response Rate Difference|54.7|||<|0.001|TWO_SIDED|95.0|41.7|67.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||67.8|41.7|<0.001
92325544|NCT03569293|184556068|SUPERIORITY||Adjusted Response Rate Difference|45.2|||<|0.001|TWO_SIDED|95.0|32.0|58.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||58.3|32.0|<0.001
92325545|NCT03569293|184556069|SUPERIORITY||Adjusted Response Rate Difference|47.1|||<|0.001|TWO_SIDED|95.0|34.0|60.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||60.2|34.0|<0.001
92325546|NCT03569293|184556069|SUPERIORITY||Adjusted Response Rate Difference|35.9|||<|0.001|TWO_SIDED|95.0|23.2|48.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.6|23.2|<0.001
92325547|NCT03569293|184556070|SUPERIORITY||Adjusted Response Rate Difference|21.0|||<|0.001|TWO_SIDED|95.0|11.0|31.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||31.1|11.0|<0.001
92325548|NCT03569293|184556070|SUPERIORITY||Adjusted Response Rate Difference|9.4||||0.008|TWO_SIDED|95.0|2.5|16.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||16.4|2.5|0.008
92325549|NCT03569293|184556071|SUPERIORITY||Adjusted Response Rate Difference|11.0||||0.015|TWO_SIDED|95.0|2.1|19.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||19.9|2.1|0.015
92325550|NCT03569293|184556071|SUPERIORITY||Adjusted Response Rate Difference|6.5||||0.086|TWO_SIDED|95.0|-0.9|13.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||13.9|-0.9|0.086
92325551|NCT03569293|184556072|SUPERIORITY||Adjusted Response Rate Difference|10.8||||0.045|TWO_SIDED|95.0|0.2|21.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||21.4|0.2|0.045
92325552|NCT03569293|184556072|SUPERIORITY||Adjusted Response Rate Difference|11.0||||0.04|TWO_SIDED|95.0|0.5|21.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||21.5|0.5|0.040
92325553|NCT03569293|184556073|SUPERIORITY||Adjusted Response Rate Difference|-22.1|||<|0.001|TWO_SIDED|95.0|-32.6|-11.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||-11.5|-32.6|<0.001
92325554|NCT03569293|184556073|SUPERIORITY||Adjusted Response Rate Difference|-22.1|||<|0.001|TWO_SIDED|95.0|-32.7|-11.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||-11.5|-32.7|<0.001
92325555|NCT03569293|184556074|SUPERIORITY||Adjusted Response Rate Difference|53.6|||<|0.001|TWO_SIDED|95.0|37.7|69.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||69.4|37.7|<0.001
92325556|NCT03569293|184556074|SUPERIORITY||Adjusted Response Rate Difference|34.8|||<|0.001|TWO_SIDED|95.0|18.1|51.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||51.4|18.1|<0.001
92325557|NCT03569293|184556075|SUPERIORITY||Adjusted Response Rate Difference|56.6|||<|0.001|TWO_SIDED|95.0|42.0|71.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||71.1|42.0|<0.001
92325558|NCT03569293|184556075|SUPERIORITY||Adjusted Response Rate Difference|32.5|||<|0.001|TWO_SIDED|95.0|16.9|48.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.1|16.9|<0.001
92325559|NCT03569293|184556076|SUPERIORITY||Adjusted Response Rate Difference|50.9|||<|0.001|TWO_SIDED|95.0|35.1|66.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||66.7|35.1|<0.001
92325560|NCT03569293|184556076|SUPERIORITY||Adjusted Response Rate Difference|35.7|||<|0.001|TWO_SIDED|95.0|18.8|52.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||52.6|18.8|<0.001
92325561|NCT03569293|184556077|SUPERIORITY||Adjusted Response Rate Difference|54.4|||<|0.001|TWO_SIDED|95.0|37.4|71.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||71.3|37.4|<0.001
92325562|NCT03569293|184556077|SUPERIORITY||Adjusted Response Rate Difference|38.1|||<|0.001|TWO_SIDED|95.0|19.8|56.4|||Chi-squared, Corrected|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||56.4|19.8|<0.001
92325563|NCT03569293|184556078|SUPERIORITY||Adjusted Response Rate Difference|51.2|||<|0.001|TWO_SIDED|95.0|33.3|69.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||69.1|33.3|<0.001
92325564|NCT03569293|184556078|SUPERIORITY||Adjusted Response Rate Difference|28.1||||0.006|TWO_SIDED|95.0|8.0|48.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.2|8.0|0.006
92325565|NCT03569293|184556079|SUPERIORITY||Adjusted Response Rate Difference|31.2|||<|0.001|TWO_SIDED|95.0|19.9|42.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||42.5|19.9|<0.001
92325566|NCT03569293|184556079|SUPERIORITY||Adjusted Response Rate Difference|15.8||||0.001|TWO_SIDED|95.0|6.9|24.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||24.6|6.9|0.001
92325567|NCT03569293|184556080|SUPERIORITY||LS Mean Difference|-42.42|||<|0.001|TWO_SIDED|95.0|-56.16|-28.68|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-28.68|-56.16|<0.001
92325568|NCT03569293|184556080|SUPERIORITY||LS Mean Difference|-33.88|||<|0.001|TWO_SIDED|95.0|-47.76|-19.99|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-19.99|-47.76|<0.001
92325569|NCT03569293|184556081|SUPERIORITY||LS Mean Difference|-41.84|||<|0.001|TWO_SIDED|95.0|-52.09|-31.58|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-31.58|-52.09|<0.001
92325570|NCT03569293|184556081|SUPERIORITY||LS Mean Difference|-37.84|||<|0.001|TWO_SIDED|95.0|-48.17|-27.52|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-27.52|-48.17|<0.001
92325571|NCT03569293|184556082|SUPERIORITY||Adjusted Response Rate Difference|54.8|||<|0.001|TWO_SIDED|95.0|40.3|69.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||69.4|40.3|<0.001
92325572|NCT03569293|184556082|SUPERIORITY||Adjusted Response Rate Difference|50.0|||<|0.001|TWO_SIDED|95.0|34.8|65.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||65.3|34.8|<0.001
92325573|NCT03569293|184556083|SUPERIORITY||Adjusted Response Rate Difference|45.1|||<|0.001|TWO_SIDED|95.0|21.0|69.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||69.2|21.0|<0.001
92325574|NCT03569293|184556083|SUPERIORITY||Adjusted Response Rate Difference|49.6|||<|0.001|TWO_SIDED|95.0|26.7|72.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||72.5|26.7|<0.001
92325575|NCT03569293|184556084|SUPERIORITY||LS Mean Difference|-38.92|||<|0.001|TWO_SIDED|95.0|-49.54|-28.31|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category|Difference = Upadacitinib - Placebo|||-28.31|-49.54|<0.001
92325576|NCT03569293|184556084|SUPERIORITY||LS Mean Difference|-32.7|||<|0.001|TWO_SIDED|95.0|-43.44|-21.96|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category|Difference = Upadacitinib - Placebo|||-21.96|-43.44|<0.001
92325577|NCT03569293|184556085|SUPERIORITY||Adjusted Response Rate Difference|51.7|||<|0.001|TWO_SIDED|95.0|31.7|71.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||71.8|31.7|<0.001
92325578|NCT03569293|184556085|SUPERIORITY||Adjusted Response Rate Difference|44.7|||<|0.001|TWO_SIDED|95.0|26.7|62.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||62.8|26.7|<0.001
92201234|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.3984|TWO_SIDED|95.0|-0.68|0.27|||MMRM|||Depressed Mood, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.68|0.3984
92201235|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.234||0.7042|TWO_SIDED|95.0|-0.37|0.55|||MMRM|||Depressed Mood, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.55|-0.37|0.7042
92201236|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.247||0.4941|TWO_SIDED|95.0|-0.66|0.32|||MMRM|||Depressed Mood, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.66|0.4941
92201237|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.24||0.4572|TWO_SIDED|95.0|-0.3|0.65|||MMRM|||Depressed Mood, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.65|-0.30|0.4572
92201238|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.236||0.9866|TWO_SIDED|95.0|-0.47|0.46|||MMRM|||Depressed Mood, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.47|0.9866
92201239|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.229||0.749|TWO_SIDED|95.0|-0.53|0.38|||MMRM|||Depressed Mood, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.38|-0.53|0.7490
92201240|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.247||0.0235|TWO_SIDED|95.0|-1.06|-0.08|||MMRM|||Depressed Mood, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.08|-1.06|0.0235
92201241|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.239||0.9286|TWO_SIDED|95.0|-0.5|0.45|||MMRM|||Depressed Mood, Change Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.45|-0.50|0.9286
92201242|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.251||0.0544|TWO_SIDED|95.0|-0.99|0.01|||MMRM|||Depressed Mood, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.99|0.0544
92201243|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.244||0.2903|TWO_SIDED|95.0|-0.74|0.22|||MMRM|||Depressed Mood, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.74|0.2903
92201244|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.71|STANDARD_ERROR_OF_MEAN|0.244||0.0044|TWO_SIDED|95.0|-1.19|-0.23|||MMRM|||Depressed Mood, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.23|-1.19|0.0044
92325579|NCT03569293|184556086|SUPERIORITY||Adjusted Response Rate Difference|25.1||||0.006|TWO_SIDED|95.0|7.3|43.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||43.0|7.3|0.006
92325580|NCT03569293|184556086|SUPERIORITY||Adjusted Response Rate Difference|15.8||||0.093|TWO_SIDED|95.0|-2.6|34.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||34.2|-2.6|0.093
92325581|NCT03036098|184556088|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.0032|TWO_SIDED|95.0|0.64|0.97|||Log Rank|Stratified weighted log-rank test||||0.97|0.64|0.0032
92325582|NCT03036098|184556095|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0018|TWO_SIDED|95.0|0.59|0.88|||Log Rank|Stratified weighted log-rank test||||0.88|0.59|0.0018
92201245|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.238||0.1339|TWO_SIDED|95.0|-0.83|0.11|||MMRM|||Depressed Mood, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.83|0.1339
92201246|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.234||0.0149|TWO_SIDED|95.0|-1.04|-0.11|||MMRM|||Depressed Mood, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.11|-1.04|0.0149
92201247|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.228||0.3213|TWO_SIDED|95.0|-0.68|0.22|||MMRM|||Depressed Mood, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.68|0.3213
92201248|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.246||0.0703|TWO_SIDED|95.0|-0.94|0.04|||MMRM|||Depressed Mood, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.94|0.0703
92201249|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.24||0.8152|TWO_SIDED|95.0|-0.53|0.42|||MMRM|||Depressed Mood, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.53|0.8152
92201250|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.301||0.0805|TWO_SIDED|95.0|-1.13|0.07|||MMRM|||Depressed Mood, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-1.13|0.0805
92201251|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.291||0.6964|TWO_SIDED|95.0|-0.69|0.46|||MMRM|||Depressed Mood, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.69|0.6964
92201252|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.304||0.2998|TWO_SIDED|95.0|-0.92|0.29|||MMRM|||Depressed Mood, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.92|0.2998
92201253|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.291||0.3448|TWO_SIDED|95.0|-0.85|0.3|||MMRM|||Depressed Mood, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.85|0.3448
92201254|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.248||0.0089|TWO_SIDED|95.0|-1.15|-0.17|||MMRM|||Depressed Mood, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.17|-1.15|0.0089
92201255|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.244||0.0772|TWO_SIDED|95.0|-0.92|0.05|||MMRM|||Depressed Mood, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.92|0.0772
92201256|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.191||0.6809|TWO_SIDED|95.0|-0.46|0.3|||MMRM|||Feelings of Guilt, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.46|0.6809
92325583|NCT03036098|184556096|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0171|TWO_SIDED|95.0|0.63|0.96|||Log Rank|Stratified weighted log-rank test||||0.96|0.63|0.0171
92201257|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.185||0.7297|TWO_SIDED|95.0|-0.3|0.43|||MMRM|||Feelings of Guilt, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.30|0.7297
92325584|NCT02276053|184556128|OTHER||Retention rate|86.0|||||TWO_SIDED|95.0|79.0|93.1|||||"Confidence intervals for the 6-month retention rate were calculated using Greenwood's formula.~Addition of a note: Not all patients had an Observation Period of 6 months."|The retention rate was derived using Kaplan-Meier methodology where patients who completed the study were censored at the date of last administration of LCM in the study.||93.1|79.0|
92325585|NCT02059434|184556147|SUPERIORITY_OR_OTHER||Least squares mean difference|0.104|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.06|0.149||All statistical comparisons were two-sided hypothesis tests, and the significance level was set at 0.05 without multiplicity adjustment|ANCOVA|||Change from baseline to trough FEV1 was analyzed by means of an analysis of covariance (ANCOVA) for cross-over designs with sequence, treatment group and period as fixed effect factors, subject within sequence as random effect, and screening and baseline FEV1 value of each period as covariates||0.149|0.060|<0.0001
92325586|NCT02059434|184556147|SUPERIORITY_OR_OTHER||Least squares mean difference|0.178|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.133|0.223||All statistical comparisons were two-sided hypothesis tests, and the significance level was set at 0.05 without multiplicity adjustment|ANCOVA|||Change from baseline to trough FEV1 was analyzed by means of an analysis of covariance (ANCOVA) for cross-over designs with sequence, treatment group and period as fixed effect factors, subject within sequence as random effect, and screening and baseline FEV1 value of each period as covariates||0.223|0.133|<0.0001
92325587|NCT00771264|184556154|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|Mean values were analyzed for significant change using a 2-sided paired t-test and proportions were analyzed using chi-square methodology.||Mean values were analyzed for significant change using a 2-sided paired t test and proportions were analyzed using chi-square methodology. Median values were analyzed using a Wilcoxon signed rank test with p\<0.05 considered statistically significant. A sample size estimate of 214 subjects, 107 per arm, was calculated using a 2-sided Fisher's exact binomial test based on an estimated 60% responder rate in the PTNS group and a 40% in the sham group with a 5% significance level and 80% power.||||0.05
92325588|NCT02928770|184556155|OTHER|||||||0.0559|||||||t-test, 2 sided|Comparison between baseline and experimental (Nastent) conditions||||||0.0559
92325589|NCT01424514|184556187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-0.6|0.36||||||Placebo vs SB-705498 12 mg for 1 h in WM 0-60 TSS||0.36|-0.60|
92325590|NCT01424514|184556187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-0.45|0.51||||||Placebo vs SB-705498 12 mg for 24 h in WM 0-60 TSS||0.51|-0.45|
92325591|NCT01424514|184556187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-0.58|0.51||||||Placebo vs SB-705498 12 mg for 1 h in Maximum TSS||0.51|-0.58|
92325592|NCT01424514|184556187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.51|0.72||||||Placebo vs SB-705498 12 mg for 24 h in Maximum TSS||0.72|-0.51|
92325593|NCT01424514|184556189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-0.3|0.54||||||Placebo vs SB-705498 12 mg for WM 0-60 TSS||0.54|-0.30|
92325594|NCT01424514|184556189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-0.39|0.57||||||Placebo vs SB-705498 12 mg for Maximum TSS||0.57|-0.39|
92325595|NCT01424514|184556193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.14|0.08||||||Placebo vs SB-705498 12 mg for Day 1, 1 h in WM 0-60 sneezing||0.08|-0.14|
92325596|NCT01424514|184556193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.13|0.09||||||Placebo vs SB-705498 12 mg for Day 14, 1 h in WM 0-60 sneezing||0.09|-0.13|
92325597|NCT01424514|184556193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.2|0.11||||||Placebo vs SB-705498 12 mg for Day 14, 24 h in WM 0-60 sneezing||0.11|-0.20|
92325598|NCT01424514|184556193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.28|0.14||||||Placebo vs SB-705498 12 mg for Day 1, 1 h in Maximum sneezing||0.14|-0.28|
92325599|NCT01424514|184556193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.15|0.13||||||Placebo vs SB-705498 12 mg for Day 14, 1 h in Maximum sneezing||0.13|-0.15|
92325600|NCT01424514|184556193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.2|0.16||||||Placebo vs SB-705498 12 mg for Day 1, 24 h in Maximum sneezing||0.16|-0.20|
92325601|NCT01424514|184556194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.026|||TWO_SIDED|95.0|-0.03|0.07||||||Placebo vs SB-705498 12 mg for Day 1, 2 h in AR||0.07|-0.03|
92325602|NCT01424514|184556194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.027|||TWO_SIDED|95.0|-0.13|-0.02||||||Placebo vs SB-705498 12 mg for Day 14, 2 h in AR||-0.02|-0.13|
92325603|NCT01424514|184556194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.031|||TWO_SIDED|95.0|-0.04|0.08||||||Placebo vs SB-705498 12 mg for Day 14, 25 h in AR||0.08|-0.04|
92325604|NCT01424514|184556195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.36|0.26||||||Placebo vs SB-705498 12 mg for Day 14 in AR||0.26|-0.36|
92325605|NCT01424514|184556196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.06|0.6||||||Placebo vs SB-705498 12 mg for Day 1, 1 h in WM 0-60 TOSS||0.60|-0.06|
92325606|NCT01424514|184556196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-0.32|0.53||||||Placebo vs SB-705498 12 mg for Day 14, 1 h in WM 0-60 TOSS||0.53|-0.32|
92325607|NCT01424514|184556196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-0.22|0.63||||||Placebo vs SB-705498 12 mg for Day 14, 24 h in WM 0-60 TOSS||0.63|-0.22|
92325608|NCT01424514|184556196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-0.3|0.68||||||Placebo vs SB-705498 12 mg for Day 1, 1 h in Maximum TOSS||0.68|-0.30|
92201258|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.226||0.0626|TWO_SIDED|95.0|-0.87|0.02|||MMRM|||Feelings of Guilt, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.87|0.0626
92201259|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.22||0.5196|TWO_SIDED|95.0|-0.58|0.29|||MMRM|||Feelings of Guilt, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.58|0.5196
92201260|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.234||0.0772|TWO_SIDED|95.0|-0.88|0.05|||MMRM|||Feelings of Guilt, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.88|0.0772
92201261|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.228||0.661|TWO_SIDED|95.0|-0.55|0.35|||MMRM|||Feelings of Guilt, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.55|0.6610
92201262|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.239||0.4007|TWO_SIDED|95.0|-0.67|0.27|||MMRM|||Feelings of Guilt, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.67|0.4007
92201263|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.28|STANDARD_ERROR_OF_MEAN|0.232||0.2292|TWO_SIDED|95.0|-0.18|0.74|||MMRM|||Feelings of Guilt, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.74|-0.18|0.2292
92201264|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.234||0.054|TWO_SIDED|95.0|-0.92|0.01|||MMRM|||Feelings of Guilt, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.92|0.0540
92201265|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.227||0.959|TWO_SIDED|95.0|-0.44|0.46|||MMRM|||Feelings of Guilt, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.44|0.9590
92325609|NCT01424514|184556196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.34|0.86||||||Placebo vs SB-705498 12 mg for Day 14, 1 h in Maximum TOSS||0.86|-0.34|
92201266|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.218||0.1048|TWO_SIDED|95.0|-0.79|0.08|||MMRM|||Feelings of Guilt, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.79|0.1048
92268657|NCT00464308|184439260|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 450 subjects per arm will give a 90% power (with a one-sided 95% confidence interval and a minimal clinically important difference of 9%) to demonstrate non-inferiority of rabeprazole 20mg to esomeprazole 40mg with respect to the number of patients with complete resolution of heartburn with or without regurgitation at week 4|Proportion difference|-0.11|||<|0.05||95.0||||Adjustment for multiple comparisons was not made. The a priori threshold for statistical significance was p\<0.05. Tests were 2-sided except for the non-inferiority test which was 1-sided.|Non-inferiority||Assumed that the true resolution rates in the rab20 and eso40 groups would be 30% (0.3). Non inferiority was considered proven if the lower confidence interval of the one sided 95% CI of P(rab20)-P(e40) was above -9%|Primary endpoints were assessed using non-inferiority tests. See below.||||<0.05
92325610|NCT01424514|184556196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.15|0.73||||||Placebo vs SB-705498 12 mg for Day 14, 24 h in Maximum TOSS||0.73|-0.15|
92201267|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.21||0.8979|TWO_SIDED|95.0|-0.44|0.39|||MMRM|||Feelings of Guilt, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.44|0.8979
92201268|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.219||0.0819|TWO_SIDED|95.0|-0.82|0.05|||MMRM|||Feelings of Guilt, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.82|0.0819
92201269|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.213||0.1099|TWO_SIDED|95.0|-0.77|0.08|||MMRM|||Feelings of Guilt, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.77|0.1099
92201270|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.215||0.0373|TWO_SIDED|95.0|-0.88|-0.03|||MMRM|||Feelings of Guilt, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.88|0.0373
92201271|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.209||0.0577|TWO_SIDED|95.0|-0.81|0.01|||MMRM|||Feelings of Guilt, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.81|0.0577
92201272|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.21||0.2023|TWO_SIDED|95.0|-0.69|0.15|||MMRM|||Feelings of Guilt, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.69|0.2023
92201273|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.204||0.4444|TWO_SIDED|95.0|-0.56|0.25|||MMRM|||Feelings of Guilt, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.56|0.4444
92201274|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.3645|TWO_SIDED|95.0|-0.64|0.24|||MMRM|||Feelings of Guilt, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.64|0.3645
92325611|NCT02653170|184556214|SUPERIORITY||difference-in-differences (DID) p-value|0.025||||0.025|TWO_SIDED|||||P-value represents the test of the interaction term for a difference-in-differences (DID) model \[i.e., 2 degree freedom test of the interaction between intervention group\*time\]|Mixed Models Analysis|PROC MIXED MODEL including main effects of intervention group (UC, SWSCM, SWSCM+VSSP website) and time (7-day and 90-day) plus the interaction term|The DID estimates contrasting the 90-day minus 7-day differences in each group are as follows: SWSCM vs Usual Care = 0.970 (p=0.335), SWSCM+VSSP vs Usual Care = 3.370 (p\<0.001), SWSCM+VSSP vs SWSCM = 2.400 (p=0.016)|Data were analyzed as the change over time between treatment groups (i.e., 90-day least square mean minus 7-day least square mean) using a difference-in-differences (DID) analysis that involves a group \* time interaction term.||||0.025
92201275|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.214||0.4035|TWO_SIDED|95.0|-0.6|0.24|||MMRM|||Feelings of Guilt, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.60|0.4035
92201276|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.232||0.4877|TWO_SIDED|95.0|-0.62|0.3|||MMRM|||Feelings of Guilt, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.62|0.4877
92201277|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.226||0.3134|TWO_SIDED|95.0|-0.68|0.22|||MMRM|||Feelings of Guilt, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.68|0.3134
92201278|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.24||0.0922|TWO_SIDED|95.0|-0.89|0.07|||MMRM|||Feelings of Guilt, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.89|0.0922
92201279|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.23||0.0761|TWO_SIDED|95.0|-0.87|0.04|||MMRM|||Feelings of Guilt, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.87|0.0761
92201280|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.217||0.3275|TWO_SIDED|95.0|-0.64|0.22|||MMRM|||Feelings of Guilt, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.64|0.3275
92201281|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.213||0.3041|TWO_SIDED|95.0|-0.64|0.2|||MMRM|||Feelings of Guilt, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.64|0.3041
92201282|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.146||0.045|TWO_SIDED|95.0|-0.59|-0.01|||MMRM|||Suicide, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.59|0.0450
92201283|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.143||0.5351|TWO_SIDED|95.0|-0.19|0.37|||MMRM|||Suicide, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.19|0.5351
92201284|NCT02942004|184300841|SUPERIORITY||LS men difference|-0.28|STANDARD_ERROR_OF_MEAN|0.142||0.0525|TWO_SIDED|95.0|-0.56|0.0|||MMRM|||Suicide, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.56|0.0525
92201285|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.139||0.7932|TWO_SIDED|95.0|-0.24|0.31|||MMRM|||Suicide, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.24|0.7932
92201286|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.128||0.13|TWO_SIDED|95.0|-0.45|0.06|||MMRM|||Suicide, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.45|0.1300
92201287|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.125||0.1631|TWO_SIDED|95.0|-0.07|0.42|||MMRM|||Suicide, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.07|0.1631
92201288|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.129||0.8215|TWO_SIDED|95.0|-0.23|0.29|||MMRM|||Suicide, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.23|0.8215
92325612|NCT02653170|184556215|SUPERIORITY||difference-in-differences (DID) p-value|0.562||||0.562|TWO_SIDED|||||P-value represents the test of the interaction term for a difference-in-differences (DID) model \[i.e., 2 degree freedom test of the interaction between intervention group\*time\]|Mixed Models Analysis|PROC MIXED MODEL including main effects of intervention group (UC, SWSCM, SWSCM+VSSP website) and time (7-day and 90-day) plus the interaction term|The DID estimates contrasting the 90-day minus 7-day differences in each group are as follows: SWSCM vs Usual Care = -1.064 (p=0.422), SWSCM+VSSP vs Usual Care = 0.258 (p=0.844), SWSCM+VSSP vs SWSCM = 1.322 (p=0.309)|Data were analyzed as the change over time between treatment groups (i.e., 90-day least square mean minus 7-day least square mean) using a difference-in-differences (DID) analysis that involves a group \* time interaction term.||||0.562
92325613|NCT02653170|184556216|SUPERIORITY|||||||0.789||||||P-value represents the test of the interaction term for a difference-in-differences (DID) model \[i.e., 2 degree freedom test of the interaction between intervention group\*time\]|Mixed Models Analysis|||Data were analyzed as the change over time between treatment groups (i.e., 90-day least square mean minus 7-day least square mean) using a difference-in-differences (DID) analysis that involves a group \* time interaction term.||||0.789
92325614|NCT02653170|184556217|SUPERIORITY||difference-in-differences (DID) p-value|0.042||||0.042|TWO_SIDED|||||P-value represents the test of the interaction term for a difference-in-differences (DID) model \[i.e., 2 degree freedom test of the interaction between intervention group\*time\]|Mixed Models Analysis||The DID estimates contrasting the 90-day minus 7-day differences in each group are as follows: SWSCM vs Usual Care = -1.651 (p=0.558), SWSCM+VSSP vs Usual Care = 5.023 (p=0.073), SWSCM+VSSP vs SWSCM = 6.674 (p=0.016)|Data were analyzed as the change over time between treatment groups (i.e., 90-day least square mean minus 7-day least square mean) using a difference-in-differences (DID) analysis that involves a group \* time interaction term.||||0.042
92325615|NCT02653170|184556218|SUPERIORITY|||||||0.993||||||P-value represents the test of the interaction term for a difference-in-differences (DID) model \[i.e., 2 degree freedom test of the interaction between intervention group\*time\]|Mixed Models Analysis|||Data were analyzed as the change over time between treatment groups (i.e., 90-day least square mean minus 7-day least square mean) using a difference-in-differences (DID) analysis that involves a group \* time interaction term.||||0.993
92325616|NCT01473394|184556279|SUPERIORITY_OR_OTHER||Least square mean difference|-5.117|||<|1e-05|TWO_SIDED|95.0|-6.886|-3.347|||Mixed-effects model for repeated measure|||||-3.347|-6.886|<0.00001
92325617|NCT01473394|184556280|SUPERIORITY_OR_OTHER||Least square mean difference|-0.622|||<|1e-05|TWO_SIDED|95.0|-0.845|-0.399|||Mixed-effects model for repeated measure|||||-0.399|-0.845|<0.00001
92325618|NCT01473394|184556281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.2||||0.0047|TWO_SIDED|95.0|3.0|17.4|||Cochran-Mantel-Haenszel||The Mean Difference (Final Values), as well as the 95% Confidence Interval, are in units of percentage.|||17.4|3.0|0.0047
92325619|NCT03875482|184556298|SUPERIORITY||Mean Difference|59.0|||<|0.001|TWO_SIDED|95.0|48.4|69.6|||Chi-squared|||The variable was analyzed using the Chi-square test. Both null hypotheses corresponding to the co-primary endpoints must be rejected simultaneously under a two-sided significance level of 0.05.||69.6|48.4|<0.001
92325620|NCT03875482|184556299|SUPERIORITY||Mean Difference|68.5|||<|0.001|TWO_SIDED|95.0|57.2|79.7|||Chi-squared|||The variable was analyzed using the Chi-square test. Both null hypotheses corresponding to the co-primary endpoints must be rejected simultaneously under a two-sided significance level of 0.05.||79.7|57.2|<0.001
92325621|NCT03875482|184556300|SUPERIORITY||Mean Difference|36.2|||<|0.001|TWO_SIDED|95.0|26.2|46.2|||Chi-squared|||The ranked secondary efficacy endpoints at Week 16 were to be tested between the risankizumab and placebo treatment groups among the ITT Population in a hierarchical order only if the null hypotheses for both primary endpoints had been rejected.||46.2|26.2|<0.001
92325622|NCT03875482|184556301|SUPERIORITY||Mean Difference|37.1|||<|0.001|TWO_SIDED|95.0|27.1|47.2|||Chi-squared|||The ranked secondary efficacy endpoints at Week 16 were to be tested between the risankizumab and placebo treatment groups among the ITT Population in a hierarchical order only if the null hypotheses for both primary endpoints and for the first secondary endpoint had been rejected.||47.2|27.1|<0.001
92325623|NCT03875482|184556302|SUPERIORITY||LS Mean Difference|-36.14|STANDARD_ERROR_OF_MEAN|4.956|<|0.001|TWO_SIDED|95.0|-45.936|-26.346|||Mixed-effect Model Repeat Measurements||Risankizumab - placebo|"Risankizumab vs placebo at Week 4~Mixed-effect Model Repeat Measurements (MMRM): The repeated measures analysis was conducted using a mixed model including the baseline value and observed measurements at all post-baseline visits. The mixed model included the categorical fixed effects of treatment, visit and treatment-by-visit interaction as covariates."||-26.346|-45.936|<0.001
92325624|NCT03875482|184556302|SUPERIORITY||LS Mean Difference|-59.97|STANDARD_ERROR_OF_MEAN|5.326|<|0.001|TWO_SIDED|95.0|-70.501|-49.439|||Mixed-effect Model Repeat Measurements||Risankizumab - placebo|"Risankizumab vs placebo at Week 16~Mixed-effect Model Repeat Measurements (MMRM): The repeated measures analysis was conducted using a mixed model including the baseline value and observed measurements at all post-baseline visits. The mixed model included the categorical fixed effects of treatment, visit and treatment-by-visit interaction as covariates."||-49.439|-70.501|<0.001
92325625|NCT04507256|184556308|OTHER|Bioavailability|Ratio of geometric mean AUCinf|68.69|||||||||||||The bioavailability of AZD7442 Dose 1 administered by IM was, calculated as the ratio of geometric mean AUCinf after IM to IV, for mAb AZD8895.|Bioavailability of AZD8895 at the end of study (Day 361)||||
92325626|NCT04507256|184556308|OTHER|Bioavailability|Ratio of geometric mean AUCinf|65.02|||||||||||||The bioavailability of AZD7442 Dose 1 administered by IM was, calculated as the ratio of geometric mean AUCinf after IM to IV, for mAb AZD1061.|Bioavailability of AZD1061 at the end of study (Day 361)||||
92325627|NCT03369067|184556329|OTHER|||||||0.01||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.010
92325628|NCT03369067|184556329|OTHER|||||||0.089||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.089
92325629|NCT03369067|184556329|OTHER|||||||0.024||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.024
92325630|NCT03369067|184556330|OTHER|||||||0.095||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.095
92325631|NCT03369067|184556330|OTHER|||||||0.104||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.104
92325632|NCT03369067|184556330|OTHER|||||||0.042||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.042
92325633|NCT03369067|184556331|OTHER||||||<|0.001||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||<0.001
92201289|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.126||0.038|TWO_SIDED|95.0|0.01|0.51|||MMRM|||Suicide, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.51|0.01|0.0380
92201290|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.124||0.507|TWO_SIDED|95.0|-0.33|0.16|||MMRM|||Suicide, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.33|0.5070
92201291|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.12||0.1094|TWO_SIDED|95.0|-0.04|0.43|||MMRM|||Suicide, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.04|0.1094
92201292|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.099||0.3112|TWO_SIDED|95.0|-0.3|0.1|||MMRM|||Suicide, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.30|0.3112
92201293|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.096||0.1345|TWO_SIDED|95.0|-0.05|0.33|||MMRM|||Suicide, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.05|0.1345
92201294|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.091||0.5148|TWO_SIDED|95.0|-0.24|0.12|||MMRM|||Suicide, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.24|0.5148
92201295|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.088||0.3863|TWO_SIDED|95.0|-0.25|0.1|||MMRM|||Suicide, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.25|0.3863
92201296|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.094||0.0209|TWO_SIDED|95.0|-0.41|-0.03|||MMRM|||Suicide, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.41|0.0209
92201297|NCT02942004|184300841|SUPERIORITY||LS men difference|-0.17|STANDARD_ERROR_OF_MEAN|0.092||0.0616|TWO_SIDED|95.0|-0.35|0.01|||MMRM|||Suicide, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.35|0.0616
92201298|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.099||0.186|TWO_SIDED|95.0|-0.33|0.06|||MMRM|||Suicide, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.33|0.1860
92325634|NCT03369067|184556331|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325635|NCT03369067|184556331|OTHER|||||||0.065||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.065
92325636|NCT03369067|184556332|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325637|NCT03369067|184556332|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325638|NCT03369067|184556332|OTHER|||||||0.063||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.063
92325639|NCT03369067|184556333|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92201299|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.095||0.773|TWO_SIDED|95.0|-0.22|0.16|||MMRM|||Suicide, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.22|0.7730
92201300|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.129||0.1593|TWO_SIDED|95.0|-0.44|0.07|||MMRM|||Suicide, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.44|0.1593
92201301|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.126||0.6371|TWO_SIDED|95.0|-0.31|0.19|||MMRM|||Suicide, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.31|0.6371
92201302|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.124||0.5655|TWO_SIDED|95.0|-0.32|0.18|||MMRM|||Suicide, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.32|0.5655
92201303|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.121||0.3326|TWO_SIDED|95.0|-0.12|0.36|||MMRM|||Suicide, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.36|-0.12|0.3326
92201304|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.201||0.3577|TWO_SIDED|95.0|-0.59|0.22|||MMRM|||Suicide, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.59|0.3577
92201305|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.192||0.1646|TWO_SIDED|95.0|-0.66|0.11|||MMRM|||Suicide, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.66|0.1646
92201306|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.118||0.0545|TWO_SIDED|95.0|-0.46|0.0|||MMRM|||Suicide, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.46|0.0545
92201307|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.115||0.2903|TWO_SIDED|95.0|-0.35|0.11|||MMRM|||Suicide, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.35|0.2903
92201308|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.112||0.0395|TWO_SIDED|95.0|0.01|0.45|||MMRM|||Insomnia - Early, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.45|0.01|0.0395
92201309|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.108||0.469|TWO_SIDED|95.0|-0.14|0.29|||MMRM|||Insomnia - Early, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.14|0.4690
92201310|NCT02942004|184300841|SUPERIORITY||LS difference|0.07|STANDARD_ERROR_OF_MEAN|0.139||0.6066|TWO_SIDED|95.0|-0.2|0.35|||MMRM|||Insomnia - Early, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.20|0.6066
92325640|NCT03369067|184556333|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325641|NCT03369067|184556333|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92201311|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.136||0.9737|TWO_SIDED|95.0|-0.26|0.27|||MMRM|||Insomnia - Early, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.26|0.9737
92201312|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.148||0.403|TWO_SIDED|95.0|-0.17|0.42|||MMRM|||Insomnia - Early, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.17|0.4030
92201313|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.145||0.6357|TWO_SIDED|95.0|-0.36|0.22|||MMRM|||Insomnia - Early, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.36|0.6357
92201314|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.134||0.8605|TWO_SIDED|95.0|-0.29|0.24|||MMRM|||Insomnia - Early, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.29|0.8605
92201315|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.13||0.7534|TWO_SIDED|95.0|-0.3|0.22|||MMRM|||Insomnia - Early, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.30|0.7534
92201316|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.201||0.0021|TWO_SIDED|95.0|-1.03|-0.23|||MMRM|||Insomnia - Early, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.23|-1.03|0.0021
92201317|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.196||0.0394|TWO_SIDED|95.0|-0.8|-0.02|||MMRM|||Insomnia - Early, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.80|0.0394
92201318|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.208||0.0039|TWO_SIDED|95.0|-1.03|-0.2|||Wilcoxon (Mann-Whitney)|||Insomnia - Early, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.20|-1.03|0.0039
92201319|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.202||0.1591|TWO_SIDED|95.0|-0.69|0.11|||MMRM|||Insomnia - Early, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.69|0.1591
92201320|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.21||0.1402|TWO_SIDED|95.0|-0.73|0.1|||MMRM|||Insomnia - Early, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.73|0.1402
92325642|NCT03369067|184556334|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92201321|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.205||0.0143|TWO_SIDED|95.0|-0.91|-0.1|||MMRM|||Insomnia - Early, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.10|-0.91|0.0143
92325643|NCT03369067|184556334|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325644|NCT03369067|184556334|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325645|NCT03369067|184556335|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325646|NCT03369067|184556335|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325647|NCT03369067|184556335|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325648|NCT03369067|184556336|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325649|NCT03369067|184556336|OTHER|||||||0.062||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.062
92325650|NCT03369067|184556336|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325651|NCT03369067|184556337|OTHER|||||||0.015||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.015
92325652|NCT03369067|184556337|OTHER|||||||0.199||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.199
92325653|NCT03369067|184556337|OTHER|||||||0.025||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.025
92325654|NCT03369067|184556338|OTHER|||||||0.059||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.059
92325655|NCT03369067|184556338|OTHER|||||||0.064||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.064
92325656|NCT03369067|184556338|OTHER|||||||0.017||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.017
92325657|NCT03369067|184556339|OTHER|||||||0.034||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.034
92325658|NCT03369067|184556339|OTHER|||||||0.074||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.074
92325659|NCT03369067|184556339|OTHER|||||||0.034||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.034
92325660|NCT03369067|184556340|OTHER|||||||0.023||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.023
92325661|NCT03369067|184556340|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325662|NCT03369067|184556340|OTHER|||||||0.016||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.016
92325663|NCT03369067|184556341|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325664|NCT03369067|184556341|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325665|NCT03369067|184556341|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325666|NCT03369067|184556342|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325667|NCT03369067|184556342|OTHER|||||||0.081||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.081
92325668|NCT03369067|184556342|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325669|NCT03369067|184556343|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325670|NCT03369067|184556343|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325671|NCT03369067|184556343|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325672|NCT03369067|184556344|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325673|NCT03369067|184556344|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325674|NCT03369067|184556344|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325675|NCT03369067|184556345|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325676|NCT03369067|184556345|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325677|NCT03369067|184556345|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325678|NCT03369067|184556346|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325679|NCT03369067|184556346|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325680|NCT03369067|184556346|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325681|NCT03369067|184556347|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325682|NCT03369067|184556347|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325683|NCT03369067|184556347|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325684|NCT03369067|184556348|OTHER|||||||0.124||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.124
92325685|NCT03369067|184556348|OTHER|||||||0.187||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.187
92325686|NCT03369067|184556348|OTHER|||||||0.04||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.040
92325687|NCT03369067|184556349|OTHER|||||||0.108||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.108
92325688|NCT03369067|184556349|OTHER|||||||0.053||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.053
92325689|NCT03369067|184556349|OTHER|||||||0.01||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.010
92325690|NCT03369067|184556350|OTHER|||||||0.08||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.080
92325691|NCT03369067|184556350|OTHER|||||||0.038||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.038
92325692|NCT03369067|184556350|OTHER|||||||0.016||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.016
92325693|NCT03369067|184556351|OTHER|||||||0.111||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.111
92325694|NCT03369067|184556351|OTHER|||||||0.13||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.130
92325695|NCT03369067|184556351|OTHER|||||||0.017||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.017
92325696|NCT03369067|184556352|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325697|NCT03369067|184556352|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325698|NCT03369067|184556352|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325699|NCT03369067|184556353|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325700|NCT03369067|184556353|OTHER|||||||0.044||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.044
92325701|NCT03369067|184556353|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325702|NCT03369067|184556354|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325703|NCT03369067|184556354|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325704|NCT03369067|184556354|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325705|NCT03369067|184556355|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325706|NCT03369067|184556355|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325707|NCT03369067|184556355|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325708|NCT03369067|184556356|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325709|NCT03369067|184556356|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325710|NCT03369067|184556356|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325711|NCT03369067|184556357|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325712|NCT03369067|184556357|OTHER|||||||0.141||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||0.141
92325713|NCT03369067|184556357|OTHER|||||||0.149||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||0.149
92325714|NCT03369067|184556358|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325715|NCT03369067|184556358|OTHER|||||||0.094||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||0.094
92325716|NCT03369067|184556358|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325717|NCT03369067|184556359|OTHER||||||<|0.001||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||<0.001
92325718|NCT03369067|184556359|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325719|NCT03369067|184556359|OTHER|||||||0.033||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.033
92325720|NCT03369067|184556360|OTHER|||||||0.001||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.001
92325721|NCT03369067|184556360|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325722|NCT03369067|184556360|OTHER|||||||0.111||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.111
92325723|NCT03369067|184556361|OTHER|||||||0.118||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.118
92325724|NCT03369067|184556361|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325725|NCT03369067|184556361|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325726|NCT03369067|184556362|OTHER|||||||0.116||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.116
92325727|NCT03369067|184556362|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325728|NCT03369067|184556362|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325729|NCT03369067|184556363|OTHER|||||||0.005||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.005
92325730|NCT03369067|184556363|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92201322|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.204||0.2293|TWO_SIDED|95.0|-0.65|0.16|||MMRM|||Insomnia - Early, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.65|0.2293
92201323|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.2||0.0884|TWO_SIDED|95.0|-0.74|0.05|||MMRM|||Insomnia - Early, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.74|0.0884
92201324|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.207||0.0622|TWO_SIDED|95.0|-0.8|0.02|||MMRM|||Insomnia - Early, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.80|0.0622
92201325|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.202||0.0955|TWO_SIDED|95.0|-0.74|0.06|||MMRM|||Insomnia - Early, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.74|0.0955
92201326|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.21||0.0173|TWO_SIDED|95.0|-0.92|-0.09|||MMRM|||Insomnia - Early, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.92|0.0173
92201327|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.206||0.1687|TWO_SIDED|95.0|-0.69|0.12|||MMRM|||Insomnia - Early, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.69|0.1687
92201328|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.258||0.3861|TWO_SIDED|95.0|-0.74|0.29|||Wilcoxon (Mann-Whitney)|||Insomnia - Early, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.74|0.3861
92201329|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.249||0.706|TWO_SIDED|95.0|-0.59|0.4|||MMRM|||Insomnia - Early, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.40|-0.59|0.7060
92201330|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.23||0.0112|TWO_SIDED|95.0|-1.05|-0.14|||MMRM|||Insomnia - Early, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.14|-1.05|0.0112
92201331|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.219||0.057|TWO_SIDED|95.0|-0.86|0.01|||MMRM|||Insomnia - Early, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.86|0.0570
92201332|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.208||0.0018|TWO_SIDED|95.0|-1.08|-0.26|||MMRM|||Insomnia - Early, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.26|-1.08|0.0018
92325731|NCT03369067|184556363|OTHER|||||||0.193||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.193
92325732|NCT03369067|184556364|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325733|NCT03369067|184556364|OTHER|||||||0.106||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.106
92325734|NCT03369067|184556364|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92201333|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.205||0.0443|TWO_SIDED|95.0|-0.83|-0.01|||MMRM|||Insomnia - Early, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.83|0.0443
92325735|NCT03369067|184556365|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325736|NCT03369067|184556365|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325737|NCT03369067|184556365|OTHER|||||||0.157||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.157
92325738|NCT03369067|184556366|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325739|NCT03369067|184556366|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325740|NCT03369067|184556366|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325741|NCT03369067|184556367|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325742|NCT03369067|184556367|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325743|NCT03369067|184556367|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325744|NCT03369067|184556368|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92201334|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.104||0.1197|TWO_SIDED|95.0|-0.04|0.37|||MMRM|||Insomnia - Middle, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.04|0.1197
92325745|NCT03369067|184556368|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325746|NCT03369067|184556368|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325747|NCT03369067|184556369|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325748|NCT03369067|184556369|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325749|NCT03369067|184556369|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325750|NCT03369067|184556370|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325751|NCT03369067|184556370|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325752|NCT03369067|184556370|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
92325753|NCT03369067|184556371|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325754|NCT03369067|184556371|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325755|NCT03369067|184556371|OTHER|||||||0.073||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.073
92325756|NCT03369067|184556372|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325757|NCT03369067|184556372|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325758|NCT03369067|184556372|OTHER|||||||0.064||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.064
92201335|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.101||0.7171|TWO_SIDED|95.0|-0.24|0.16|||MMRM|||Insomnia - Middle, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.24|0.7171
92201336|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.138||0.7151|TWO_SIDED|95.0|-0.32|0.22|||MMRM|||Insomnia - Middle, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.32|0.7151
92201337|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.134||0.521|TWO_SIDED|95.0|-0.35|0.18|||MMRM|||Insomnia - Middle, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.35|0.5210
92201338|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.142||0.7332|TWO_SIDED|95.0|-0.23|0.33|||MMRM|||Insomnia - Middle, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.23|0.7332
92325759|NCT03369067|184556373|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325760|NCT03369067|184556373|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325761|NCT03369067|184556373|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325762|NCT03369067|184556374|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325763|NCT03369067|184556374|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92201339|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.139||0.4163|TWO_SIDED|95.0|-0.39|0.16|||MMRM|||Insomnia - Middle, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.39|0.4163
92201340|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.132||0.8625|TWO_SIDED|95.0|-0.28|0.24|||MMRM|||Insomnia - Middle, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.28|0.8625
92201341|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.128||0.6196|TWO_SIDED|95.0|-0.32|0.19|||MMRM|||Insomnia - Middle, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.32|0.6196
92325764|NCT03369067|184556374|OTHER|||||||0.104||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.104
92325765|NCT03369067|184556375|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325766|NCT03369067|184556375|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325767|NCT03369067|184556375|OTHER|||||||0.198||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.198
92325768|NCT03369067|184556376|OTHER|||||||0.105||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.105
92325769|NCT03369067|184556376|OTHER|||||||0.001||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.001
92325770|NCT03369067|184556376|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325771|NCT03369067|184556377|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325772|NCT03369067|184556377|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325773|NCT03369067|184556377|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
92325774|NCT05129475|184556391|OTHER||Ratio of Adjusted Geometric Means|120.9|||||TWO_SIDED|90.0|109.3|133.74|||||Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|||133.74|109.30|
92325775|NCT05129475|184556392|OTHER||Ratio of Adjusted Geometric Means|119.67|||||TWO_SIDED|90.0|108.75|131.68|||||Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|||131.68|108.75|
92325776|NCT05129475|184556393|OTHER||Ratio of Adjusted Geometric Means|161.01|||||TWO_SIDED|90.0|139.05|186.44|||||Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|||186.44|139.05|
92325777|NCT01899742|184556402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|||<|0.001|TWO_SIDED|95.0|0.045|0.131|||Mixed Models Analysis|||||0.131|0.045|<0.001
92325778|NCT01899742|184556403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073||||0.004|TWO_SIDED|95.0|0.024|0.122|||Mixed Models Analysis|||||0.122|0.024|0.004
92325779|NCT00135798|184556404|SUPERIORITY_OR_OTHER|||||||0.0477||95.0||||One-sided test|Fisher Exact|||ITT analysis of pTVR: 0/13 Standard care vs. 11/46 Combined LADR-treated groups||||0.0477
92325780|NCT00135798|184556404|SUPERIORITY_OR_OTHER|||||||0.609||95.0|||||Chi-squared|||ITT analysis of LADR-treated: 5/24 Genotypes 1,4,6 vs 6/22 Genotypes 2,3||||0.6090
92325781|NCT00135798|184556405|SUPERIORITY_OR_OTHER|||||||0.2014||95.0||||One-sided test|Fisher Exact|||ITT analysis of CVR: 1/16 Standard care vs. 12/63 Combined LADR-treated groups||||0.2014
92325782|NCT00135798|184556405|SUPERIORITY_OR_OTHER|||||||0.9513||95.0|||||Chi-squared|||ITT analysis of LADR-treated: 6/31 Genotypes 1,4,6 vs 6/32 Genotypes 2,3||||0.9513
92325783|NCT00135798|184556406|SUPERIORITY_OR_OTHER|||||||0.0274||95.0||||One-sided test|Fisher Exact|||PP analysis of pTVR: 0/13 Standard care vs. 11/44 Combined LADR-treated groups||||0.0274
92325784|NCT00135798|184556406|SUPERIORITY_OR_OTHER|||||||0.6011||95.0|||||Chi-squared|||PP analysis of LADR-treated: 5/23 G1,4,6 vs 6/21 G2,3||||0.6011
92325785|NCT00135798|184556407|SUPERIORITY_OR_OTHER|||||||0.0153||95.0||||One-sided test|Fisher Exact|||PP analysis of CVR: 0/20 Standard care vs. 13/59 Combined LADR-treated groups||||0.0153
92325786|NCT00135798|184556407|SUPERIORITY_OR_OTHER|||||||0.8065||95.0|||||Chi-squared|||PP analysis of LADR-treated: 7/30 G1,4,6 vs 6/29 G2,3||||0.8065
92325787|NCT01041976|184556494|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
92325788|NCT01041976|184556495|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
92325789|NCT00844480|184556529|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||.03
92325790|NCT02858180|184556532|OTHER||Proportion|86.7|||||TWO_SIDED|95.0|59.5|98.3||||||||98.3|59.5|
92325791|NCT01252563|184556540|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 4|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory SBP from the baseline was equal to 0.||||<0.001
92325792|NCT01252563|184556540|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 8|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory SBP from the baseline was equal to 0.||||<0.001
92325793|NCT01252563|184556540|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 12|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory SBP from the baseline was equal to 0.||||<0.001
92325794|NCT01252563|184556540|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Last Day|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory SBP from the baseline was equal to 0.||||<0.001
92325795|NCT01252563|184556541|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Week 4|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory DBP from the baseline was equal to 0.||||<0.001
92325796|NCT01252563|184556541|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 8|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory DBP from the baseline was equal to 0.||||<0.001
92325797|NCT01252563|184556541|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 12|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory DBP from the baseline was equal to 0.||||<0.001
92325798|NCT01252563|184556541|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Last Day|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory DBP from the baseline was equal to 0.||||<0.001
92325799|NCT01252563|184556544|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was Complication. The null hypothesis was that there was no difference between participants with complication(s) and participants without complication in the frequency of treatment-related adverse events."||||<0.001
92325800|NCT01252563|184556545|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was Gender. The null hypothesis was that there was no difference between male and female in the frequency of treatment-related adverse events."||||<0.001
92325801|NCT01252563|184556546|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|||||||Chi-squared|||"The risk factor tested was angina pectoris as a complication. The null hypothesis was that there was no difference between participants with angina pectoris and participants without angina pectoris in the frequency of treatment-related adverse events."||||0.036
92325802|NCT01252563|184556547|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Chi-squared|||"The risk factor tested was dyslipidaemia as a complication. The null hypothesis was that there was no difference between participants with dyslipidaemia and participants without dyslipidaemia in the frequency of treatment-related adverse events."||||0.020
92201342|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.197||0.0373|TWO_SIDED|95.0|-0.8|-0.02|||MMRM|||Insomnia - Middle, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.80|0.0373
92201343|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.191||0.0644|TWO_SIDED|95.0|-0.74|0.02|||MMRM|||Insomnia - Middle, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.74|0.0644
92201344|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.191||0.1347|TWO_SIDED|95.0|-0.66|0.09|||MMRM|||Insomnia - Middle, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.66|0.1347
92201345|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.185||0.1269|TWO_SIDED|95.0|-0.65|0.08|||MMRM|||Insomnia - Middle, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.65|0.1269
92201346|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.192||0.165|TWO_SIDED|95.0|-0.65|0.11|||MMRM|||Insomnia - Middle, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.65|0.1650
92201347|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.188||0.1291|TWO_SIDED|95.0|-0.66|0.08|||MMRM|||Insomnia - Middle, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.66|0.1291
92201348|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.189||0.0402|TWO_SIDED|95.0|-0.77|-0.02|||MMRM|||Insomnia - Middle, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.77|0.0402
92201349|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.185||0.0342|TWO_SIDED|95.0|-0.76|-0.03|||MMRM|||Insomnia - Middle, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.76|0.0342
92201350|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.193||0.1269|TWO_SIDED|95.0|-0.68|0.09|||MMRM|||Insomnia - Middle, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.68|0.1269
92201351|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.188||0.3945|TWO_SIDED|95.0|-0.53|0.21|||MMRM|||Insomnia - Middle, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.53|0.3945
92325803|NCT01252563|184556548|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049|||||||Chi-squared|||"The risk factor tested was antihypertensive as a concomitant drug. The null hypothesis was that there was no difference between participants receiving antihypertensive and participants receiving no antihypertensive in the frequency of treatment-related adverse events."||||0.049
92325804|NCT01252563|184556549|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|||||||Chi-squared|||"The risk factor tested was ARB as a concomitant drug. The null hypothesis was that there was no difference between participants receiving ARB and participants receiving no ARB in the frequency of treatment-related adverse events."||||0.043
92325805|NCT01252563|184556550|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was diabetes mellitus as a complication. The null hypothesis was that there was no difference between participants with diabetes mellitus and participants without diabetes mellitus in the efficacy."||||<0.001
92325806|NCT01252563|184556551|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was chronic kidney disease as a complication. The null hypothesis was that there was no difference between participants with chronic kidney disease and participants without chronic kidney disease in the efficacy."||||<0.001
92201352|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.185||0.5828|TWO_SIDED|95.0|-0.47|0.26|||MMRM|||Insomnia - Middle, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.47|0.5828
92201353|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.182||0.6625|TWO_SIDED|95.0|-0.28|0.44|||MMRM|||Insomnia - Middle, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.28|0.6625
92201354|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.216||0.0041|TWO_SIDED|95.0|-1.07|-0.21|||MMRM|||Insomnia - Middle, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.21|-1.07|0.0041
92201355|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.21||0.2222|TWO_SIDED|95.0|-0.67|0.16|||MMRM|||Insomnia - Middle, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.67|0.2222
92201356|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.218||0.0245|TWO_SIDED|95.0|-0.93|-0.07|||MMRM|||Insomnia - Middle, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.07|-0.93|0.0245
92201357|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.209||0.5119|TWO_SIDED|95.0|-0.55|0.28|||MMRM|||Insomnia - Middle, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.55|0.5119
92201358|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.197||0.0299|TWO_SIDED|95.0|-0.82|-0.04|||MMRM|||Insomnia - Middle, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-0.82|0.0299
92201359|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.195||0.2824|TWO_SIDED|95.0|-0.6|0.18|||MMRM|||Insomnia - Middle, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.60|0.2824
92325807|NCT01252563|184556552|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|||||||Chi-squared|||"The risk factor tested was myocardial infarction as a complication. The null hypothesis was that there was no difference between participants with myocardial infarction and participants without myocardial infarction in the efficacy."||||0.039
92325808|NCT01252563|184556553|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was metabolic syndrome as a complication. The null hypothesis was that there was no difference between participants with metabolic syndrome and participants without metabolic syndrome in the efficacy."||||<0.001
92325809|NCT01252563|184556554|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was ambulatory SBP at baseline. The null hypothesis was that there was no association between ambulatory SBP at baseline and the number of participants who achieved the target blood pressure specified in the guidelines."||||<0.001
92325810|NCT01252563|184556556|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 4|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in home SBP from the baseline was equal to 0.||||<0.001
92325811|NCT01252563|184556556|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 8|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in home SBP from the baseline was equal to 0.||||<0.001
92325812|NCT01252563|184556556|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 12|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in home SBP from the baseline was equal to 0.||||<0.001
92325813|NCT01252563|184556556|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Last Day|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in home SBP from the baseline was equal to 0.||||<0.001
92325814|NCT01252563|184556557|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 4|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean changes in home DBP from the baseline are equal to 0.||||<0.001
92325815|NCT01252563|184556557|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 8|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean changes in home DBP from the baseline are equal to 0.||||<0.001
92201360|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.129||0.1768|TWO_SIDED|95.0|-0.08|0.43|||MMRM|||Insomnia - Late, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.08|0.1768
92201361|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.126||0.6498|TWO_SIDED|95.0|-0.31|0.19|||MMRM|||Insomnia - Late, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.31|0.6498
92201362|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.15||0.7689|TWO_SIDED|95.0|-0.25|0.34|||MMRM|||Insomnia - Late, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.34|-0.25|0.7689
92201363|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.146||0.2236|TWO_SIDED|95.0|-0.47|0.11|||MMRM|||Insomnia - Late, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.47|0.2236
92201364|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.148||0.6952|TWO_SIDED|95.0|-0.35|0.23|||MMRM|||Insomnia - Late, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.35|0.6952
92201365|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.144||0.1184|TWO_SIDED|95.0|-0.51|0.06|||MMRM|||Insomnia - Late, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.51|0.1184
92201366|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.149||0.3031|TWO_SIDED|95.0|-0.14|0.45|||MMRM|||Insomnia - Late, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.45|-0.14|0.3031
92201367|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.145||0.3091|TWO_SIDED|95.0|-0.44|0.14|||MMRM|||Insomnia - Late, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.44|0.3091
92201368|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.179||0.1525|TWO_SIDED|95.0|-0.61|0.1|||MMRM|||Insomnia - Late, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.61|0.1525
92201369|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.174||0.1214|TWO_SIDED|95.0|-0.62|0.07|||MMRM|||Insomnia - Late, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.62|0.1214
92201370|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.187||0.3811|TWO_SIDED|95.0|-0.53|0.21|||MMRM|||Insomnia - Late, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.53|0.3811
92201371|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.18||0.3851|TWO_SIDED|95.0|-0.51|0.2|||MMRM|||Insomnia - Late, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.51|0.3851
92325816|NCT01252563|184556557|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 12|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean changes in home DBP from the baseline are equal to 0.||||<0.001
92201372|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.182||0.1373|TWO_SIDED|95.0|-0.63|0.09|||MMRM|||Insomnia - Late, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.63|0.1373
92201373|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.177||0.136|TWO_SIDED|95.0|-0.62|0.09|||MMRM|||Insomnia - Late, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.62|0.1360
92201374|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.176||0.1264|TWO_SIDED|95.0|-0.62|0.08|||MMRM|||Insomnia - Late, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.62|0.1264
92201375|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.172||0.0567|TWO_SIDED|95.0|-0.67|0.01|||MMRM|||Insomnia - Late, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.67|0.0567
92201376|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.176||0.7447|TWO_SIDED|95.0|-0.41|0.29|||MMRM|||Insomnia - Late, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.41|0.7447
92201377|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.172||0.7727|TWO_SIDED|95.0|-0.39|0.29|||MMRM|||Insomnia - Late, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.39|0.7727
92201378|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.183||0.659|TWO_SIDED|95.0|-0.28|0.44|||MMRM|||Insomnia - Late, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.28|0.6590
92201379|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.18||0.3951|TWO_SIDED|95.0|-0.51|0.2|||MMRM|||Insomnia - Late, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.51|0.3951
92201380|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.23||0.4576|TWO_SIDED|95.0|-0.63|0.28|||MMRM|||Insomnia - Late, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.63|0.4576
92201381|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.223||0.7609|TWO_SIDED|95.0|-0.51|0.37|||MMRM|||Insomnia - Late, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.51|0.7609
92201382|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.234||0.622|TWO_SIDED|95.0|-0.58|0.35|||MMRM|||Insomnia - Late, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.58|0.6220
92201383|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.225||0.9081|TWO_SIDED|95.0|-0.42|0.47|||MMRM|||Insomnia - Late, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.47|-0.42|0.9081
92325817|NCT01252563|184556557|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Last Day|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean changes in home DBP from the baseline are equal to 0.||||<0.001
92325818|NCT03403751|184556639|SUPERIORITY|||||||0.649|||||||Chi-squared|||||||0.649
92325819|NCT03403751|184556642|SUPERIORITY|||||||0.871|||||||Chi-squared|||||||0.871
92201384|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.191||0.1668|TWO_SIDED|95.0|-0.65|0.11|||MMRM|||Insomnia - Late, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.65|0.1668
92201385|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.189||0.0935|TWO_SIDED|95.0|-0.69|0.05|||MMRM|||Insomnia - Late, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.69|0.0935
92201386|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.15||0.4038|TWO_SIDED|95.0|-0.42|0.17|||MMRM|||Work and Activities, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.42|0.4038
92201387|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.145||0.7559|TWO_SIDED|95.0|-0.24|0.33|||MMRM|||Work and Activities, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.24|0.7559
92201388|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.181||0.2006|TWO_SIDED|95.0|-0.59|0.13|||MMRM|||Work and Activities, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.59|0.2006
92201389|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.175||0.6334|TWO_SIDED|95.0|-0.26|0.43|||MMRM|||Work and Activities, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.26|0.6334
92201390|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.23||0.5431|TWO_SIDED|95.0|-0.6|0.32|||MMRM|||Work and Activities, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.60|0.5431
92201391|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.225||0.5278|TWO_SIDED|95.0|-0.3|0.59|||MMRM|||Work and Activities, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.59|-0.30|0.5278
92201392|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.232||0.4312|TWO_SIDED|95.0|-0.64|0.28|||MMRM|||Work and Activities, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.64|0.4312
92201393|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.225||0.3947|TWO_SIDED|95.0|-0.25|0.64|||MMRM|||Work and Activities, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.64|-0.25|0.3947
92325820|NCT03403751|184556643|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.420
92325821|NCT03403751|184556644|SUPERIORITY|||||||0.448|||||||Wilcoxon (Mann-Whitney)|||||||0.448
92325822|NCT03403751|184556645|SUPERIORITY|||||||0.579|||||||Wilcoxon (Mann-Whitney)|||||||0.579
92325823|NCT03403751|184556646|SUPERIORITY|||||||0.227|||||||Wilcoxon (Mann-Whitney)|||||||0.227
92325824|NCT03403751|184556649|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92325825|NCT03403751|184556650|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92325826|NCT03403751|184556651|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92325827|NCT03403751|184556652|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
92325828|NCT01623037|184556655|OTHER||sucess proportion|71.1|||||TWO_SIDED|95.0|55.7|83.6||||||||83.6|55.7|
92325829|NCT04442269|184556680|SUPERIORITY||Mean Difference|0.201||||0.0022|TWO_SIDED|95.0|0.0768|0.3256|||Mixed Models Analysis|||||0.3256|0.0768|0.0022
92325830|NCT03559868|184556699|SUPERIORITY||||||<|0.01|||||||ANOVA|Ordinary one-way ANOVA Bartlett's test||For IL10||||<0.01
92325831|NCT04769466|184556729|OTHER|||||||0.02|||||||t-test, 1 sided|||T-Test||||0.020
92325832|NCT04769466|184556730|OTHER|||||||0.223|||||||t-test, 1 sided|||T-Test||||0.223
92325833|NCT04769466|184556731|OTHER|||||||0.036|||||||t-test, 2 sided|||T-Test||||0.036
92201394|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.244||0.6081|TWO_SIDED|95.0|-0.61|0.36|||MMRM|||Work and Activities, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.36|-0.61|0.6081
92201395|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.238||0.8949|TWO_SIDED|95.0|-0.44|0.5|||MMRM|||Work and Activities, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.50|-0.44|0.8949
92201396|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.236||0.112|TWO_SIDED|95.0|-0.84|0.09|||MMRM|||Work and Activities, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.84|0.1120
92201397|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.228||0.1842|TWO_SIDED|95.0|-0.15|0.76|||MMRM|||Work and Activities, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.76|-0.15|0.1842
92201398|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.26||0.2646|TWO_SIDED|95.0|-0.81|0.22|||MMRM|||Work and Activities, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.81|0.2646
92201399|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.253||0.8101|TWO_SIDED|95.0|-0.56|0.44|||MMRM|||Work and Activities, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.56|0.8101
92201400|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.248||0.0215|TWO_SIDED|95.0|-1.07|-0.09|||MMRM|||Work and Activities, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-1.07|0.0215
92201401|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.242||0.3226|TWO_SIDED|95.0|-0.72|0.24|||MMRM|||Work and Activities, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.72|0.3226
92201402|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.238||0.0339|TWO_SIDED|95.0|-0.98|-0.04|||MMRM|||Work and Activities, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-0.98|0.0339
92201403|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.232||0.9824|TWO_SIDED|95.0|-0.46|0.47|||MMRM|||Work and Activities, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.47|-0.46|0.9824
92201404|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.254||0.095|TWO_SIDED|95.0|-0.93|0.08|||MMRM|||Work and Activities, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.93|0.0950
92325834|NCT04769466|184556732|OTHER|||||||0.131|||||||t-test, 1 sided|||||||0.131
92325835|NCT04769466|184556733|OTHER|||||||0.351|||||||t-test, 1 sided|||||||0.351
92325836|NCT04769466|184556734|OTHER|||||||0.08|||||||t-test, 1 sided|||||||0.08
92325837|NCT04769466|184556735|OTHER|||||||0.4|||||||t-test, 1 sided|||T-Test||||0.400
92325838|NCT04769466|184556737|OTHER|||||||0.011|||||||t-test, 2 sided|||||||0.011
92325839|NCT04769466|184556739|OTHER|||||||0.459|||||||t-test, 1 sided|||||||0.459
92325840|NCT04769466|184556740|OTHER|||||||0.033|||||||t-test, 1 sided|||||||0.033
92325841|NCT04769466|184556741|OTHER|||||||0.103|||||||t-test, 1 sided|||||||0.103
92325842|NCT04769466|184556742|OTHER|||||||0.494|||||||t-test, 1 sided|||||||0.494
92325843|NCT04769466|184556743|OTHER|||||||0.214|||||||t-test, 1 sided|||||||0.214
92201405|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.249||0.4865|TWO_SIDED|95.0|-0.67|0.32|||MMRM|||Work and Activities, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.67|0.4865
92201406|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.292||0.9861|TWO_SIDED|95.0|-0.57|0.58|||MMRM|||Work and Activities, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.58|-0.57|0.9861
92201407|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.283||0.9266|TWO_SIDED|95.0|-0.59|0.54|||MMRM|||Work and Activities, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.54|-0.59|0.9266
92201408|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.285||0.036|TWO_SIDED|95.0|-1.17|-0.04|||MMRM|||Work and Activities, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-1.17|0.0360
92201409|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.273||0.0583|TWO_SIDED|95.0|-1.06|0.02|||MMRM|||Work and Activities, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-1.06|0.0583
92201410|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.254||0.0404|TWO_SIDED|95.0|-1.03|-0.02|||MMRM|||Work and Activities, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-1.03|0.0404
92325844|NCT04769466|184556744|OTHER|||||||0.199|||||||t-test, 1 sided|||||||0.199
92325845|NCT04769466|184556747|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92201411|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.249||0.1352|TWO_SIDED|95.0|-0.87|0.12|||MMRM|||Work and Activities, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.87|0.1352
92201412|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.121||0.0056|TWO_SIDED|95.0|0.1|0.58|||MMRM|||Retardation, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.58|0.10|0.0056
92201413|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.118||0.1537|TWO_SIDED|95.0|-0.06|0.4|||MMRM|||Retardation, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.40|-0.06|0.1537
92201414|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|0.129||0.0142|TWO_SIDED|95.0|0.07|0.58|||MMRM|||Retardation, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.58|0.07|0.0142
92201415|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.31|STANDARD_ERROR_OF_MEAN|0.126||0.0159|TWO_SIDED|95.0|0.06|0.56|||MMRM|||Retardation, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.56|0.06|0.0159
92325846|NCT04769466|184556748|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92325847|NCT02759055|184556753|SUPERIORITY||Risk Ratio (RR)|1.003|||<|0.05|TWO_SIDED|95.0|0.998|1.008|||Mixed Models Analysis|||||1.008|0.998|<0.05
92325848|NCT04777201|184556850|OTHER||Mean Difference (Final Values)|0.2||||0.7702|TWO_SIDED|95.0|-1.14|1.54|||Paired t-test||Difference is the result of study eye minus fellow eye.|No formal hypothesis testing was planned for this study. The paired t-tests were for reference purposes and thus not considered formal. The test was 2-sided, with the null hypothesis of no difference in percent change from baseline between the study eye and fellow eye in each patient.||1.54|-1.14|0.7702
92201416|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.132||0.2255|TWO_SIDED|95.0|-0.1|0.42|||MMRM|||Retardation, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.10|0.2255
92201417|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.129||0.1069|TWO_SIDED|95.0|-0.05|0.46|||MMRM|||Retardation, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.05|0.1069
92201418|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.144||0.4932|TWO_SIDED|95.0|-0.19|0.39|||MMRM|||Retardation, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.19|0.4932
92201419|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.14||0.2634|TWO_SIDED|95.0|-0.12|0.43|||MMRM|||Retardation, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.12|0.2634
92201420|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.133||0.9284|TWO_SIDED|95.0|-0.25|0.28|||MMRM|||Retardation, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.25|0.9284
92201421|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.129||0.9459|TWO_SIDED|95.0|-0.25|0.26|||MMRM|||Retardation, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.25|0.9459
92201422|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.151||0.2908|TWO_SIDED|95.0|-0.46|0.14|||MMRM|||Retardation, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.46|0.2908
92201423|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.146||0.6834|TWO_SIDED|95.0|-0.23|0.35|||MMRM|||Retardation, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.23|0.6834
92201424|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.142||0.3579|TWO_SIDED|95.0|-0.41|0.15|||MMRM|||Retardation, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.41|0.3579
92201425|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.138||0.827|TWO_SIDED|95.0|-0.3|0.24|||MMRM|||Retardation, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.30|0.8270
92325849|NCT04777201|184556851|OTHER||Mean Difference (Final Values)|0.27||||0.6305|TWO_SIDED|95.0|-0.84|1.38|||Paired t-test||Difference is the result of study eye minus fellow eye.|No formal hypothesis testing was planned for this study. The paired t-tests were for reference purposes and thus not considered formal. The test was 2-sided, with the null hypothesis of no difference in percent change from baseline between the study eye and fellow eye in each patient.||1.38|-0.84|0.6305
92325850|NCT01663779|184556923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0|||<|0.01|TWO_SIDED|95.0|3.0|7.0|||Chi-squared|||||7|3|<0.01
92325851|NCT05845567|184556932|SUPERIORITY||ratio of the Geometric LSmeans|139.43|||||TWO_SIDED|90.0|129.73|149.86||||||||149.86|129.73|
92325852|NCT05845567|184556933|SUPERIORITY||ratio of the Geometric LSmeans|117.97|||||TWO_SIDED|90.0|112.24|124.0||||||||124.00|112.24|
92325853|NCT05845567|184556934|SUPERIORITY||ratio of the Geometric LSmeans|117.88|||||TWO_SIDED|90.0|112.13|123.92||||||||123.92|112.13|
92325854|NCT01869699|184556967|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.002|TWO_SIDED|95.0|-0.76|-0.18|||ANCOVA|||We estimated that 20 patients per group would provide 80% power for detecting a difference in means of 0.6 degrees Celsius, with a pooled SD of 0.67 degrees, using a two group t test and a two sided alpha level of 0.05. A previous RCT of IV acetaminophen in healthy male volunteers with induced fever found a core temperature difference of 0.60 degrees with a common SD of 0.67 degrees Celsius.||-0.18|-0.76|0.002
92201426|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.13||0.5292|TWO_SIDED|95.0|-0.34|0.18|||MMRM|||Retardation, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.34|0.5292
92201427|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.127||0.879|TWO_SIDED|95.0|-0.23|0.27|||MMRM|||Retardation, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.23|0.8790
92201428|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.133||0.1347|TWO_SIDED|95.0|-0.46|0.06|||MMRM|||Retardation, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.46|0.1347
92201429|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.129||0.2874|TWO_SIDED|95.0|-0.4|0.12|||MMRM|||Retardation, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.40|0.2874
92201430|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.132||0.0086|TWO_SIDED|95.0|-0.61|-0.09|||MMRM|||Retardation, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.61|0.0086
92201431|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.129||0.7864|TWO_SIDED|95.0|-0.29|0.22|||MMRM|||Retardation, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.29|0.7864
92201432|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.172||0.4383|TWO_SIDED|95.0|-0.48|0.21|||MMRM|||Retardation, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.48|0.4383
92201433|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.167||0.8767|TWO_SIDED|95.0|-0.36|0.31|||MMRM|||Retardation, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.36|0.8767
92201434|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.153||0.0341|TWO_SIDED|95.0|-0.63|-0.03|||MMRM|||Retardation, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.63|0.0341
92201435|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.147||0.5629|TWO_SIDED|95.0|-0.38|0.21|||MMRM|||Retardation, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.38|0.5629
92201436|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.129||0.0016|TWO_SIDED|95.0|-0.67|-0.16|||MMRM|||Retardation, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.16|-0.67|0.0016
92201437|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.126||0.0495|TWO_SIDED|95.0|-0.5|0.0|||MMRM|||Retardation, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.50|0.0495
92325855|NCT01869699|184556968|SUPERIORITY||Mean Difference (Final Values)|-6.0||||0.03|TWO_SIDED|95.0|-10.0|-1.0|||ANCOVA|||||-1|-10|0.03
92325856|NCT01869699|184556969|SUPERIORITY||Mean Difference (Final Values)|-17.0|||<|0.001|TWO_SIDED|95.0|-25.0|-8.0|||ANCOVA|||||-8|-25|<0.001
92325857|NCT01869699|184556970|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.42|TWO_SIDED|95.0|-4.0|12.0|||ANCOVA|||||12|-4|0.42
92201438|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.155||0.7177|TWO_SIDED|95.0|-0.36|0.25|||MMRM|||Agitation, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.36|0.7177
92201439|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.151||0.9401|TWO_SIDED|95.0|-0.29|0.31|||MMRM|||Agitation, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.29|0.9401
92201440|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.147||0.3201|TWO_SIDED|95.0|-0.44|0.15|||MMRM|||Agitation, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.44|0.3201
92201441|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.144||0.8286|TWO_SIDED|95.0|-0.25|0.32|||MMRM|||Agitation, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.25|0.8286
92201442|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.162||0.3022|TWO_SIDED|95.0|-0.49|0.15|||MMRM|||Agitation, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.49|0.3022
92201443|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.158||0.8022|TWO_SIDED|95.0|-0.35|0.27|||MMRM|||Agitation, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.35|0.8022
92201444|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.165||0.5665|TWO_SIDED|95.0|-0.42|0.23|||MMRM|||Agitation, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.42|0.5665
92201445|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.161||0.817|TWO_SIDED|95.0|-0.36|0.28|||MMRM|||Agitation, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.36|0.8170
92201446|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.155||0.0404|TWO_SIDED|95.0|-0.63|-0.01|||MMRM|||Agitation, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.63|0.0404
92201447|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.151||0.3128|TWO_SIDED|95.0|-0.45|0.15|||MMRM|||Agitation, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.45|0.3128
92201448|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.162||0.24|TWO_SIDED|95.0|-0.51|0.13|||MMRM|||Agitation, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.51|0.2400
92201449|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.157||0.484|TWO_SIDED|95.0|-0.42|0.2|||MMRM|||Agitation, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.42|0.4840
92325858|NCT01869699|184556971|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.002|TWO_SIDED|95.0|-1.0|-0.3|||ANCOVA|||||-0.3|-1|0.002
92325859|NCT01869699|184556972|SUPERIORITY||Mean Difference (Final Values)|-24.0||||0.001|TWO_SIDED|95.0|-38.0|-10.0|||ANCOVA|||||-10|-38|0.001
92325860|NCT01869699|184556973|SUPERIORITY||Mean Difference (Final Values)|-8.0||||0.02|TWO_SIDED|95.0|-15.0|-1.0|||ANCOVA|||||-1|-15|0.02
92325861|NCT05174949|184557026|SUPERIORITY|We performed a linear regression analysis (generalized estimating equations) in which we compared both intervention groups to the sham group and added a time interaction term|Mean Difference (Final Values)|5.4|STANDARD_DEVIATION|3.58|<|0.0001|TWO_SIDED|95.0|2.4|8.4||Anode compared to sham: p = 0.0516 Cathode compared to sham: p \<.0001 . Anode change over time compared to sham p=0.0255 Cathode change over time compared to sham p\<.0001|Generalized Estimating Equations||Anode mean change = 4.13 std = 4.29 CLM = 0.5-7.7 Cathode mean change = 5.38 std = 3.58 CLM=2.4-8.4|We will report first anode compared to sham and then cathode compared to sham||8.4|2.4|<0.0001
92325862|NCT05174949|184557027|SUPERIORITY||Mean Difference (Final Values)|-24.2|STANDARD_DEVIATION|9.5||0.002|TWO_SIDED|95.0|-32.2|-16.2||anode compared to sham p= 0.0020 cathode compared to sham p = 0.0088 anode over time anode compared to sham p \<.0001 Cathode over time compared to sham p \<.0001|Regression, Cox||anode -24.2 (-32.2, -16.2) cathode -22.2 (-30.6, -13.8)|We compared anode to sham We compared cathode to sham We compared the change over time of anode to sham We compared the change over time of cathode to shal||-16.2|-32.2|0.0020
92325863|NCT05174949|184557028|SUPERIORITY||Mean Difference (Final Values)|0.077||||0.0001|TWO_SIDED|95.0|0.0|0.1||Compare anode to sham p= 0.0001 Compare cathode to sham p=0.1073 Compare anode change in time to sham p=0.0938 Compare cathode change in time to sham 0.0068|Regression, Linear|Using generalized estimating equations with group and time component|Anode = 0.077 (0.00, 0.10) Cathode = -.0.125 (-0.32 0.07 )|e compare anode to sham We compare cathode to sham||0.10|0.00|0.0001
92325864|NCT01537068|184557059|SUPERIORITY_OR_OTHER||Test of Within-subjects effects|2.95||||0.09|TWO_SIDED||||||Mixed Models Analysis|Repeated Measures of ANOVA||||||0.09
92325865|NCT01537068|184557061|SUPERIORITY_OR_OTHER||Chi-squared|6.32||||0.025|TWO_SIDED||||||Chi-squared|||||||0.025
92325866|NCT05870956|184557078|OTHER||Mean Difference (Net)|932.88||||0.516|TWO_SIDED|95.0|-1880.17|3745.94|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||3745.94|-1880.17|0.516
92325867|NCT05870956|184557078|OTHER||Mean Difference (Net)|4902.02||||0.02|TWO_SIDED|95.0|767.6|9036.43|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||9036.43|767.60|0.020
92325868|NCT05870956|184557078|OTHER||Mean Difference (Net)|2727.38||||0.026|TWO_SIDED|95.0|323.48|5131.27|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||5131.27|323.48|0.026
92325869|NCT05870956|184557078|OTHER||Mean Difference (Net)|5462.41||||0|TWO_SIDED|95.0|2520.93|8403.9|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||8403.90|2520.93|0.000
92325870|NCT05870956|184557079|OTHER||Mean Difference (Net)|-303.94||||0.439|TWO_SIDED|95.0|-1074.77|466.9|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||466.90|-1074.77|0.439
92325871|NCT05870956|184557079|OTHER||Mean Difference (Net)|2772.06||||0.021|TWO_SIDED|95.0|422.1|5122.02|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||5122.02|422.10|0.021
92325872|NCT05870956|184557079|OTHER||Mean Difference (Net)|456.79||||0.328|TWO_SIDED|95.0|-458.64|1372.21|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||1372.21|-458.64|0.328
92325873|NCT05870956|184557079|OTHER||Mean Difference (Net)|620.87||||0.382|TWO_SIDED|95.0|-771.77|2013.51|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||2013.51|-771.77|0.382
92325874|NCT05870956|184557080|OTHER||Mean Difference (Net)|2.4||||0.463|TWO_SIDED|95.0|-4.0|8.9|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||8.9|-4.0|0.463
92325875|NCT05870956|184557080|OTHER||Mean Difference (Net)|9.6||||0.008|TWO_SIDED|95.0|2.5|16.8|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||16.8|2.5|0.008
92325876|NCT05870956|184557080|OTHER||Mean Difference (Net)|9.1||||0.005|TWO_SIDED|95.0|2.8|15.3|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||15.3|2.8|0.005
92325877|NCT05870956|184557080|OTHER||Mean Difference (Net)|6.4||||0.019|TWO_SIDED|95.0|1.1|11.7|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||11.7|1.1|0.019
92325878|NCT05870956|184557081|OTHER||Mean Difference (Net)|0.6||||0.801|TWO_SIDED|95.0|-4.3|5.5|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||5.5|-4.3|0.801
92325879|NCT05870956|184557081|OTHER||Mean Difference (Net)|8.7||||0.005|TWO_SIDED|95.0|2.7|14.8|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||14.8|2.7|0.005
92325880|NCT05870956|184557081|OTHER||Mean Difference (Net)|3.4||||0.17|TWO_SIDED|95.0|-1.4|8.2|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||8.2|-1.4|0.170
92325881|NCT05870956|184557081|OTHER||Mean Difference (Net)|1.4||||0.489|TWO_SIDED|95.0|-2.6|5.4|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||5.4|-2.6|0.489
92325882|NCT03724877|184557082|OTHER||Adjusted hazard ratio (HR)|1.04|||||TWO_SIDED|95.0|0.79|1.38|||Regression, Cox||After matching on high-dimensional propensity scores, sex prior severe exacerbation, prior maintenance treatment and calendar time, adjusted further for the deciles of propensity score and percent predicted forced expiratory volume1 (FEV1).|||1.38|0.79|
92325883|NCT03724877|184557083|OTHER||Adjusted HR|0.97|||||TWO_SIDED|95.0|0.87|1.09|||Regression, Cox||After matching on high-dimensional propensity scores, sex prior severe exacerbation, prior maintenance treatment and calendar time, adjusted further for the deciles of propensity score and percent predicted FEV1.|||1.09|0.87|
92325884|NCT03724877|184557084|OTHER||Adjusted HR|1.46|||||TWO_SIDED|95.0|1.03|2.07|||Regression, Cox||After matching on high-dimensional propensity scores, sex prior severe exacerbation, prior maintenance treatment and calendar time, adjusted further for the deciles of propensity score and percent predicted FEV1.|||2.07|1.03|
92325885|NCT03724877|184557085|OTHER||Adjusted rate ratio|0.93|||||TWO_SIDED|95.0|0.83|1.04|||Negative binomial regression model||After matching on high-dimensional propensity scores, sex prior severe exacerbation, prior maintenance treatment and calendar time, adjusted further for the deciles of propensity score and percent predicted FEV1.|Moderate/ sever exacerbation||1.04|0.83|
92325886|NCT03724877|184557085|OTHER||Adjusted rate ratio|0.94|||||TWO_SIDED|95.0|0.7|1.28|||Negative binomial regression model||After matching on high-dimensional propensity scores, sex prior severe exacerbation, prior maintenance treatment and calendar time, adjusted further for the deciles of propensity score and percent predicted FEV1.|Severe exacerbation||1.28|0.70|
92325887|NCT04017832|184557086|SUPERIORITY||Mean Difference (Net)|-0.2||||0.0078|TWO_SIDED|95.0|-0.3|-0.1||Unadjusted two-sided p-value|Mixed model for repeated measurements|||||-0.1|-0.3|0.0078
92325888|NCT04017832|184557086|SUPERIORITY||Mean Difference (Net)|-0.7|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.6||Unadjusted two-sided p-value|Mixed model for repeated measurements|||||-0.6|-0.8|<0.0001
92325889|NCT04017832|184557086|SUPERIORITY||Mean Difference (Net)|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.8||Unadjusted two-sided p-value|Mixed model for repeated measurements|||||-0.8|-1.1|< 0.0001
92325890|NCT01565369|184557132|SUPERIORITY_OR_OTHER||Fleiss' kappa|0.8547|STANDARD_ERROR_OF_MEAN|0.0282|<|0.0001||95.0||||evaluated at the .05 significance level|Fleiss' kappa|||Fleiss' kappa||||<0.0001
92325891|NCT02091986|184557145|SUPERIORITY_OR_OTHER|||||||0.006|||||||Mixed Models Analysis|Baseline FEV1, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.006
92325892|NCT02091986|184557145|SUPERIORITY_OR_OTHER|||||||0.063|||||||Mixed Models Analysis|Baseline FEV1, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.063
92325893|NCT02091986|184557145|SUPERIORITY_OR_OTHER|||||||0.373|||||||Mixed Models Analysis|Baseline FEV1, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.373
92325894|NCT02091986|184557146|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.001
92201450|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.141||0.7768|TWO_SIDED|95.0|-0.32|0.24|||MMRM|||Agitation, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.32|0.7768
92325895|NCT02091986|184557146|SUPERIORITY_OR_OTHER|||||||0.195|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.195
92325896|NCT02091986|184557146|SUPERIORITY_OR_OTHER|||||||0.032|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.032
92325897|NCT02091986|184557147|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||<0.001
92325898|NCT02091986|184557147|SUPERIORITY_OR_OTHER|||||||0.005|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.005
92325899|NCT02091986|184557147|SUPERIORITY_OR_OTHER|||||||0.326|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.326
92325900|NCT02091986|184557148|SUPERIORITY_OR_OTHER|||||||0.276|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.276
92325901|NCT02091986|184557148|SUPERIORITY_OR_OTHER|||||||0.759|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.759
92325902|NCT02091986|184557148|SUPERIORITY_OR_OTHER|||||||0.165|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.165
92325903|NCT02091986|184557149|SUPERIORITY_OR_OTHER|||||||0.724|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.724
92325904|NCT02091986|184557149|SUPERIORITY_OR_OTHER|||||||0.909|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.909
92325905|NCT02091986|184557149|SUPERIORITY_OR_OTHER|||||||0.811|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.811
92325906|NCT02091986|184557150|SUPERIORITY_OR_OTHER|||||||0.134|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.134
92325907|NCT02091986|184557150|SUPERIORITY_OR_OTHER|||||||0.985|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.985
92325908|NCT02091986|184557150|SUPERIORITY_OR_OTHER|||||||0.128|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.128
92325909|NCT02091986|184557151|SUPERIORITY_OR_OTHER|||||||0.684|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.684
92325910|NCT02091986|184557151|SUPERIORITY_OR_OTHER|||||||0.621|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.621
92325911|NCT02091986|184557151|SUPERIORITY_OR_OTHER|||||||0.929|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.929
92325912|NCT02091986|184557152|SUPERIORITY_OR_OTHER|||||||0.664|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.664
92201451|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.137||0.7713|TWO_SIDED|95.0|-0.31|0.23|||MMRM|||Agitation, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.31|0.7713
92201452|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.151||0.0716|TWO_SIDED|95.0|-0.58|0.02|||MMRM|||Agitation, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.58|0.0716
92201453|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.148||0.4317|TWO_SIDED|95.0|-0.41|0.18|||MMRM|||Agitation, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.41|0.4317
92201454|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.162||0.2115|TWO_SIDED|95.0|-0.52|0.12|||MMRM|||Agitation, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.52|0.2115
92201455|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.158||0.2818|TWO_SIDED|95.0|-0.48|0.14|||MMRM|||Agitation, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.48|0.2818
92201456|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.14||0.2018|TWO_SIDED|95.0|-0.46|0.1|||MMRM|||Agitation, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.46|0.2018
92201457|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.137||0.6554|TWO_SIDED|95.0|-0.33|0.21|||MMRM|||Agitation, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.33|0.6554
92201458|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.168||0.4754|TWO_SIDED|95.0|-0.21|0.46|||MMRM|||Agitation, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.21|0.4754
92201459|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.163||0.7776|TWO_SIDED|95.0|-0.28|0.37|||MMRM|||Agitation, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.28|0.7776
92325913|NCT02091986|184557152|SUPERIORITY_OR_OTHER|||||||0.747|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.747
92325914|NCT02091986|184557152|SUPERIORITY_OR_OTHER|||||||0.913|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.913
92325915|NCT02091986|184557153|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANCOVA|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.015
92325916|NCT02091986|184557153|SUPERIORITY_OR_OTHER|||||||0.342|||||||ANCOVA|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.342
92325917|NCT02091986|184557153|SUPERIORITY_OR_OTHER|||||||0.138|||||||ANCOVA|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.138
92325918|NCT02091986|184557157|SUPERIORITY_OR_OTHER|||||||0.098|||||||ANCOVA|The explanatory variables included in the model are: treatment group, baseline overall PAQLQ(S) score, region and age group||||||0.098
92325919|NCT02091986|184557157|SUPERIORITY_OR_OTHER|||||||0.367|||||||ANCOVA|The explanatory variables included in the model are: treatment group, baseline overall PAQLQ(S) score, region and age group||||||0.367
92325920|NCT02091986|184557157|SUPERIORITY_OR_OTHER|||||||0.449|||||||ANCOVA|The explanatory variables included in the model are: treatment group, baseline overall PAQLQ(S) score, region and age group||||||0.449
92325921|NCT00125242|184557164|SUPERIORITY_OR_OTHER||effect size|7.15|STANDARD_DEVIATION|3.1|||TWO_SIDED||||||||the reported effect size is a d-index value|Effect sizes were calculated - this is a comparison of perfomance in baseline (repeated measurements prior to treatment) relative to peformance following treatment||||
92201460|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.213||0.7172|TWO_SIDED|95.0|-0.5|0.35|||MMRM|||Agitation, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.50|0.7172
92325922|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|7.44||0.97|TWO_SIDED|95.0|-14.3|14.9|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and Baseline value as a covariate.~Least squares (LS) mean differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||14.9|-14.3|0.97
92325923|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|6.15||0.58|TWO_SIDED|95.0|-8.6|15.5|||ANCOVA|||||15.5|-8.6|0.58
92325924|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|6.13||0.33|TWO_SIDED|95.0|-6.1|18.0|||ANCOVA|||||18.0|-6.1|0.33
92325925|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|17.6|STANDARD_ERROR_OF_MEAN|6.2||0.005|TWO_SIDED|95.0|5.4|29.8|||ANCOVA|||||29.8|5.4|0.005
92325926|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|18.2|STANDARD_ERROR_OF_MEAN|6.1||0.003|TWO_SIDED|95.0|6.2|30.2|||ANCOVA|||||30.2|6.2|0.003
92325927|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|21.7|STANDARD_ERROR_OF_MEAN|7.37||0.003|TWO_SIDED|95.0|7.2|36.1|||ANCOVA|||||36.1|7.2|0.003
92325928|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|26.3|STANDARD_ERROR_OF_MEAN|7.32|<|0.001|TWO_SIDED|95.0|11.9|40.7|||ANCOVA|||||40.7|11.9|<0.001
92325929|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.0|STANDARD_ERROR_OF_MEAN|8.46||0.2|TWO_SIDED|95.0|-5.6|27.6|||ANCOVA|||||27.6|-5.6|0.20
92325930|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|20.5|STANDARD_ERROR_OF_MEAN|8.43||0.015|TWO_SIDED|95.0|4.0|37.1|||ANCOVA|||||37.1|4.0|0.015
92325931|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|22.4|STANDARD_ERROR_OF_MEAN|8.43||0.008|TWO_SIDED|95.0|5.9|39.0|||ANCOVA|||||39.0|5.9|0.008
92325932|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|22.0|STANDARD_ERROR_OF_MEAN|7.32||0.003|TWO_SIDED|95.0|7.6|36.3|||ANCOVA|||||36.3|7.6|0.003
92325933|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|22.2|STANDARD_ERROR_OF_MEAN|8.46||0.009|TWO_SIDED|95.0|5.6|38.8|||ANCOVA|||||38.8|5.6|0.009
92325934|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|25.4|STANDARD_ERROR_OF_MEAN|7.35|<|0.001|TWO_SIDED|95.0|11.0|39.8|||ANCOVA|||||39.8|11.0|<0.001
92325935|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|27.9|STANDARD_ERROR_OF_MEAN|7.34|<|0.001|TWO_SIDED|95.0|13.5|42.3|||ANCOVA|||||42.3|13.5|<0.001
92325936|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|39.6|STANDARD_ERROR_OF_MEAN|7.39|<|0.001|TWO_SIDED|95.0|25.1|54.1|||ANCOVA|||||54.1|25.1|<0.001
92325937|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean DIfference|40.2|STANDARD_ERROR_OF_MEAN|7.31|<|0.001|TWO_SIDED|95.0|25.8|54.5|||ANCOVA|||||54.5|25.8|<0.001
92201461|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.203||0.4791|TWO_SIDED|95.0|-0.55|0.26|||MMRM|||Agitation, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.55|0.4791
92325938|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|43.6|STANDARD_ERROR_OF_MEAN|8.42|<|0.001|TWO_SIDED|95.0|27.1|60.1|||ANCOVA|||||60.1|27.1|<0.001
92325939|NCT01340027|184557251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|48.3|STANDARD_ERROR_OF_MEAN|8.35|<|0.001|TWO_SIDED|95.0|31.9|64.7|||ANCOVA|||||64.7|31.9|<0.001
92325940|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.366||0.062|TWO_SIDED|95.0|-1.4|0.03|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.03|-1.40|0.062
92325941|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.302||0.91|TWO_SIDED|95.0|-0.63|0.56|||ANCOVA|||||0.56|-0.63|0.91
92325942|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.302||0.2|TWO_SIDED|95.0|-0.98|0.2|||ANCOVA|||||0.20|-0.98|0.20
92325943|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.305||0.96|TWO_SIDED|95.0|-0.62|0.58|||ANCOVA|||||0.58|-0.62|0.96
92325944|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.3||0.007|TWO_SIDED|95.0|-1.39|-0.22|||ANCOVA|||||-0.22|-1.39|0.007
92325945|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.363||0.016|TWO_SIDED|95.0|-1.59|-0.16|||ANCOVA|||||-0.16|-1.59|0.016
92325946|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.36||0.007|TWO_SIDED|95.0|-1.68|-0.27|||ANCOVA|||||-0.27|-1.68|0.007
92325947|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.417||0.91|TWO_SIDED|95.0|-0.87|0.77|||ANCOVA|||||0.77|-0.87|0.91
92325948|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.415||0.76|TWO_SIDED|95.0|-0.94|0.69|||ANCOVA|||||0.69|-0.94|0.76
92325949|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.416||0.99|TWO_SIDED|95.0|-0.82|0.81|||ANCOVA|||||0.81|-0.82|0.99
92325950|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.361||0.77|TWO_SIDED|95.0|-0.82|0.6|||ANCOVA|||||0.60|-0.82|0.77
92325951|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.417||0.058|TWO_SIDED|95.0|-1.61|0.03|||ANCOVA|||||0.03|-1.61|0.058
92325952|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.362||0.69|TWO_SIDED|95.0|-0.85|0.57|||ANCOVA|||||0.57|-0.85|0.69
92325953|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.362||0.17|TWO_SIDED|95.0|-1.21|0.21|||ANCOVA|||||0.21|-1.21|0.17
92325954|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.364||0.73|TWO_SIDED|95.0|-0.84|0.59|||ANCOVA|||||0.59|-0.84|0.73
92325955|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.361||0.012|TWO_SIDED|95.0|-1.62|-0.2|||ANCOVA|||||-0.20|-1.62|0.012
92325956|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.414||0.018|TWO_SIDED|95.0|-1.8|-0.17|||ANCOVA|||||-0.17|-1.80|0.018
92325957|NCT01340027|184557252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.412||0.009|TWO_SIDED|95.0|-1.89|-0.28|||ANCOVA|||||-0.28|-1.89|0.009
92325958|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.46||0.51|TWO_SIDED|95.0|-1.0|0.82||Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.|Stratified Rank ANCOVA|P-values are from pairwise comparisons of the combination/active treatment groups vs. solifenacin 5 mg/placebo within a stratified rank ANCOVA model.||The ANCOVA model including the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and Baseline measurement as a covariate was used to calculate point estimates and 95% confidence intervals (CI) for change from Baseline within each treatment group and for differences between combination treatment groups and solifenacin 5 mg as well as for differences between active treatment groups and placebo.||0.82|-1.00|0.51
92325959|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.355||0.21|TWO_SIDED|95.0|-0.57|0.83|||Stratified Rank ANCOVA|||||0.83|-0.57|0.21
92325960|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.361||0.89|TWO_SIDED|95.0|-0.68|0.74|||Stratified Rank ANCOVA|||||0.74|-0.68|0.89
92325961|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.365||0.001|TWO_SIDED|95.0|-1.06|0.38||P values were calculated from a pairwise comparison of the combination treatment groups vs solifenacin succinate 5 mg or placebo within the ANCOVA model.|Stratified Rank ANCOVA|||||0.38|-1.06|0.001
92325962|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.397||0.058|TWO_SIDED|95.0|-1.04|0.52|||Stratified Rank ANCOVA|||||0.52|-1.04|0.058
92325963|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.395||0.15|TWO_SIDED|95.0|-0.17|1.38|||Stratified Rank ANCOVA|||||1.38|-0.17|0.15
92325964|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.417||0.41|TWO_SIDED|95.0|-0.91|0.73|||Stratified Rank ANCOVA|||||0.73|-0.91|0.41
92325965|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.554||0.44|TWO_SIDED|95.0|-0.88|1.3|||Stratified Rank ANCOVA|||||1.30|-0.88|0.44
92325966|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.505||0.85|TWO_SIDED|95.0|-0.95|1.04|||Stratified Rank ANCOVA|||||1.04|-0.95|0.85
92325967|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.533||0.83|TWO_SIDED|95.0|-1.36|0.74|||Stratified Rank ANCOVA|||||0.74|-1.36|0.83
92325968|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.444||0.56|TWO_SIDED|95.0|-0.8|0.95|||Stratified Rank ANCOVA|||||0.95|-0.80|0.56
92325969|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.534||0.48|TWO_SIDED|95.0|-1.07|1.03|||Stratified Rank ANCOVA|||||1.03|-1.07|0.48
92325970|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.443||0.13|TWO_SIDED|95.0|-0.67|1.07|||Stratified Rank ANCOVA|||||1.07|-0.67|0.13
92325971|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.448||0.62|TWO_SIDED|2.0|-0.78|0.99|||Stratified Rank ANCOVA|||||0.99|-0.78|0.62
92325972|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.454||0.34|TWO_SIDED|95.0|-1.16|0.63|||Stratified Rank ANCOVA|||||0.63|-1.16|0.34
92325973|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.472||0.24|TWO_SIDED|95.0|-1.12|0.74|||Stratified Rank ANCOVA|||||0.74|-1.12|0.24
92325974|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.68|STANDARD_ERROR_OF_MEAN|0.475||0.88|TWO_SIDED|95.0|-0.26|1.61|||Stratified Rank ANCOVA|||||1.61|-0.26|0.88
92325975|NCT01340027|184557253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.494||0.83|TWO_SIDED|95.0|-0.99|0.95|||Stratified Rank ANCOVA|||||0.95|-0.99|0.83
92325976|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.29||||0.42|TWO_SIDED|95.0|0.69|2.39|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||2.39|0.69|0.42
92325977|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.2||||0.48|TWO_SIDED|95.0|0.72|2.0|||Regression, Logistic|||||2.00|0.72|0.48
92325978|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.11||||0.69|TWO_SIDED|95.0|0.67|1.83|||Regression, Logistic|||||1.83|0.67|0.69
92325979|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.95|TWO_SIDED|95.0|0.61|1.69|||Regression, Logistic|||||1.69|0.61|0.95
92325980|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.91||||0.015|TWO_SIDED|95.0|1.14|3.21|||Regression, Logistic|||||3.21|1.14|0.015
92325981|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.06||||0.023|TWO_SIDED|95.0|1.11|3.84|||Regression, Logistic|||||3.84|1.11|0.023
92325982|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.54||||0.16|TWO_SIDED|95.0|0.84|2.84|||Regression, Logistic|||||2.84|0.84|0.16
92201462|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.164||0.3562|TWO_SIDED|95.0|-0.48|0.17|||MMRM|||Agitation, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.48|0.3562
92325983|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.89||||0.73|TWO_SIDED|95.0|0.45|1.76|||Regression, Logistic|||||1.76|0.45|0.73
92325984|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.88||||0.7|TWO_SIDED|95.0|0.45|1.72|||Regression, Logistic|||||1.72|0.45|0.70
92325985|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.49||||0.26|TWO_SIDED|95.0|0.74|2.99|||Regression, Logistic|||||2.99|0.74|0.26
92325986|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.13||||0.69|TWO_SIDED|95.0|0.63|2.04|||Regression, Logistic|||||2.04|0.63|0.69
92325987|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45||||0.29|TWO_SIDED|95.0|0.73|2.89|||Regression, Logistic|||||2.89|0.73|0.29
92325988|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.36||||0.31|TWO_SIDED|95.0|0.75|2.45|||Regression, Logistic|||||2.45|0.75|0.31
92325989|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.45|TWO_SIDED|95.0|0.7|2.25|||Regression, Logistic|||||2.25|0.70|0.45
92325990|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15||||0.64|TWO_SIDED|95.0|0.64|2.07|||Regression, Logistic|||||2.07|0.64|0.64
92325991|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.16||||0.013|TWO_SIDED|95.0|1.18|3.94|||Regression, Logistic|||||3.94|1.18|0.013
92325992|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.33||||0.017|TWO_SIDED|95.0|1.16|4.66|||Regression, Logistic|||||4.66|1.16|0.017
92325993|NCT01340027|184557256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.74||||0.11|TWO_SIDED|95.0|0.88|3.45|||Regression, Logistic|||||3.45|0.88|0.11
92325994|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.64||||0.52|TWO_SIDED|95.0|0.16|2.56|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||2.56|0.16|0.52
92325995|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.67||||0.48|TWO_SIDED|95.0|0.23|1.99|||Regression, Logistic|||||1.99|0.23|0.48
92325996|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.95||||0.93|TWO_SIDED|95.0|0.32|2.81|||Regression, Logistic|||||2.81|0.32|0.93
92325997|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.12||||0.013|TWO_SIDED|95.0|1.47|25.6|||Regression, Logistic|||||25.60|1.47|0.013
92325998|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.49||||0.031|TWO_SIDED|95.0|1.17|25.77|||Regression, Logistic|||||25.77|1.17|0.031
92325999|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.84||||0.059|TWO_SIDED|95.0|0.95|15.58|||Regression, Logistic|||||15.58|0.95|0.059
92326000|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.91||||0.36|TWO_SIDED|95.0|0.48|7.58|||Regression, Logistic|||||7.58|0.48|0.36
92326001|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.34||||0.26|TWO_SIDED|95.0|0.05|2.17|||Regression, Logistic|||||2.17|0.05|0.26
92326002|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.43||||0.33|TWO_SIDED|95.0|0.08|2.31|||Regression, Logistic|||||2.31|0.08|0.33
92326003|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.07||||0.94|TWO_SIDED|95.0|0.17|6.68|||Regression, Logistic|||||6.68|0.17|0.94
92326004|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.44||||0.29|TWO_SIDED|95.0|0.09|2.02|||Regression, Logistic|||||2.02|0.09|0.29
92326005|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.28||||0.15|TWO_SIDED|95.0|0.05|1.6|||Regression, Logistic|||||1.60|0.05|0.15
92326006|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.29||||0.11|TWO_SIDED|95.0|0.06|1.34|||Regression, Logistic|||||1.34|0.06|0.11
92326007|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.41||||0.26|TWO_SIDED|95.0|0.09|1.89|||Regression, Logistic|||||1.89|0.09|0.26
92326008|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.67||||0.28|TWO_SIDED|95.0|0.44|16.17|||Regression, Logistic|||||16.17|0.44|0.28
92326009|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.39||||0.36|TWO_SIDED|95.0|0.37|15.46|||Regression, Logistic|||||15.46|0.37|0.36
92326010|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.68||||0.56|TWO_SIDED|95.0|0.29|9.72|||Regression, Logistic|||||9.72|0.29|0.56
92326011|NCT01340027|184557258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.83||||0.84|TWO_SIDED|95.0|0.15|4.76|||Regression, Logistic|||||4.76|0.15|0.84
92326012|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.61||||0.48|TWO_SIDED|95.0|0.16|2.38|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||2.38|0.16|0.48
92326013|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.74||||0.58|TWO_SIDED|95.0|0.25|2.17|||Regression, Logistic|||||2.17|0.25|0.58
92326014|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.93|TWO_SIDED|95.0|0.34|3.28|||Regression, Logistic|||||3.28|0.34|0.93
92326015|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|12.16||||0.023|TWO_SIDED|95.0|1.4|105.3|||Regression, Logistic|||||105.30|1.40|0.023
92326016|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|9.48||||0.042|TWO_SIDED|95.0|1.08|83.24|||Regression, Logistic|||||83.24|1.08|0.042
92326017|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|9.03||||0.047|TWO_SIDED|95.0|1.03|79.19|||Regression, Logistic|||||79.19|1.03|0.047
92326018|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.79||||0.23|TWO_SIDED|95.0|0.52|14.9|||Regression, Logistic|||||14.90|0.52|0.23
92326019|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.1||||0.058|TWO_SIDED|95.0|0.01|1.08|||Regression, Logistic|||||1.08|0.01|0.058
92326020|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.18||||0.15|TWO_SIDED|95.0|0.02|1.87|||Regression, Logistic|||||1.87|0.02|0.15
92326021|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.46||||0.55|TWO_SIDED|95.0|0.04|5.99|||Regression, Logistic|||||5.99|0.04|0.55
92326022|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.16||||0.11|TWO_SIDED|95.0|0.02|1.48|||Regression, Logistic|||||1.48|0.02|0.11
92326023|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.1||||0.054|TWO_SIDED|95.0|0.01|1.05|||Regression, Logistic|||||1.05|0.01|0.054
92326024|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.12||||0.059|TWO_SIDED|95.0|0.01|1.08|||Regression, Logistic|||||1.08|0.01|0.059
92326025|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.17||||0.12|TWO_SIDED|95.0|0.02|1.58|||Regression, Logistic|||||1.58|0.02|0.12
92326026|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.0||||0.64|TWO_SIDED|95.0|0.11|35.46|||Regression, Logistic|||||35.46|0.11|0.64
92326027|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.56||||0.76|TWO_SIDED|95.0|0.09|27.42|||Regression, Logistic|||||27.42|0.09|0.76
92326028|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.49||||0.79|TWO_SIDED|95.0|0.08|26.47|||Regression, Logistic|||||26.47|0.08|0.79
92326029|NCT01340027|184557259|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.46||||0.55|TWO_SIDED|95.0|0.04|5.77|||Regression, Logistic|||||5.77|0.04|0.55
92326030|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.495||0.25|TWO_SIDED|95.0|-1.24|0.71||All statistical comparisons are for change from Baseline to End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.|Stratified Rank ANCOVA|P-values are from pairwise comparisons of the combination/active treatment groups vs. solifenacin 5 mg/placebo within a stratified rank ANCOVA model.||The ANCOVA model including the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and Baseline measurement as a covariate was used to calculate point estimates and 95% confidence intervals for change from Baseline within each treatment group and for differences between combination treatment groups and solifenacin 5 mg as well as for differences between active treatment groups and placebo.||0.71|-1.24|0.25
92326031|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.383||0.35|TWO_SIDED|95.0|-0.7|0.81|||Stratified Rank ANCOVA|||||0.81|-0.70|0.35
92326032|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.371||1|TWO_SIDED|95.0|-0.74|0.72|||Stratified Rank ANCOVA|||||0.72|-0.74|1.0
92326033|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.377||0.003|TWO_SIDED|95.0|-1.08|0.41|||Stratified Rank ANCOVA|||||0.41|-1.08|0.003
92326034|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.413||0.12|TWO_SIDED|95.0|-1.04|0.59|||Stratified Rank ANCOVA|||||0.59|-1.04|0.12
92326035|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.405||0.24|TWO_SIDED|95.0|-0.21|1.38|||Stratified Rank ANCOVA|||||1.38|-0.21|0.24
92326036|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.435||0.54|TWO_SIDED|95.0|-0.94|0.78|||Stratified Rank ANCOVA|||||0.78|-0.94|0.54
92326037|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.59||0.95|TWO_SIDED|95.0|-1.1|1.22|||Stratified Rank ANCOVA|||||1.22|-1.10|0.95
92326038|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.552||0.74|TWO_SIDED|95.0|-1.11|1.07|||Stratified Rank ANCOVA|||||1.07|-1.11|0.74
92326039|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.57||0.89|TWO_SIDED|95.0|-1.43|0.82|||Stratified Rank ANCOVA|||||0.82|-1.43|0.89
92326040|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.487||0.82|TWO_SIDED|95.0|-0.96|0.96|||Stratified Rank ANCOVA|||||0.96|-0.96|0.82
92326041|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.593||0.58|TWO_SIDED|95.0|-1.44|0.9|||Stratified Rank ANCOVA|||||0.90|-1.44|0.58
92326042|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.5||0.46|TWO_SIDED|95.0|-0.93|1.04|||Stratified Rank ANCOVA|||||1.04|-0.93|0.46
92326043|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.49||0.95|TWO_SIDED|95.0|-0.97|0.96|||Stratified Rank ANCOVA|||||0.96|-0.97|0.95
92326044|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.499||0.18|TWO_SIDED|95.0|-1.32|0.65|||Stratified Rank ANCOVA|||||0.65|-1.32|0.18
92326045|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.517||0.21|TWO_SIDED|95.0|-1.24|0.8|||Stratified Rank ANCOVA|||||0.80|-1.24|0.21
92326046|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.516||0.72|TWO_SIDED|95.0|-0.43|1.6|||Stratified Rank ANCOVA|||||1.60|-0.43|0.72
92326047|NCT01340027|184557260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.541||0.92|TWO_SIDED|95.0|-1.15|0.98|||Stratified Rank ANCOVA|||||0.98|-1.15|0.92
92326048|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.412||0.002|TWO_SIDED|95.0|-2.06|-0.45|||ANCOVA|||"All statistical comparisons are for change from Baseline to End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||-0.45|-2.06|0.002
92326049|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.34||0.16|TWO_SIDED|95.0|-1.15|0.19|||ANCOVA|||||0.19|-1.15|0.16
92326050|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-1.91|-0.57|||ANCOVA|||||-0.57|-1.91|<0.001
92326051|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.343||0.001|TWO_SIDED|95.0|-1.8|-0.46|||ANCOVA|||||-0.46|-1.80|0.001
92326052|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.338|<|0.001|TWO_SIDED|95.0|-2.03|-0.7|||ANCOVA|||||-0.70|-2.03|<0.001
92326053|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.409||0.017|TWO_SIDED|95.0|-1.78|-0.18|||ANCOVA|||||-0.18|-1.78|0.017
92326054|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.405||0.004|TWO_SIDED|95.0|-1.98|-0.39|||ANCOVA|||||-0.39|-1.98|0.004
92326055|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.469||0.53|TWO_SIDED|95.0|-0.63|1.22|||ANCOVA|||||1.22|-0.63|0.53
92326056|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.468||0.85|TWO_SIDED|95.0|-0.83|1.01|||ANCOVA|||||1.01|-0.83|0.85
92326057|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.468||0.84|TWO_SIDED|95.0|-1.01|0.83|||ANCOVA|||||0.83|-1.01|0.84
92326058|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.406||0.05|TWO_SIDED|95.0|0.0|1.59|||ANCOVA|||||1.59|-0.00|0.050
92326059|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.469||0.33|TWO_SIDED|95.0|-1.38|0.46|||ANCOVA|||||0.46|-1.38|0.33
92326060|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.407||0.44|TWO_SIDED|95.0|-0.48|1.12|||ANCOVA|||||1.12|-0.48|0.44
92326061|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.408||0.28|TWO_SIDED|95.0|-1.24|0.36|||ANCOVA|||||0.36|-1.24|0.28
92326062|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.41||0.42|TWO_SIDED|95.0|-1.14|0.47|||ANCOVA|||||0.47|-1.14|0.42
92326063|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.406||0.16|TWO_SIDED|95.0|-1.37|0.23|||ANCOVA|||||0.23|-1.37|0.16
92201463|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.162||0.8859|TWO_SIDED|95.0|-0.3|0.34|||MMRM|||Agitation, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.34|-0.30|0.8859
92326064|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.467||0.7|TWO_SIDED|95.0|-1.1|0.73|||ANCOVA|||||0.73|-1.10|0.70
92326065|NCT01340027|184557261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.464||0.4|TWO_SIDED|95.0|-1.3|0.52|||ANCOVA|||||0.52|-1.30|0.40
92326066|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.079||0.062|TWO_SIDED|95.0|-0.3|0.01|||ANCOVA|||"All statistical comparisons are for change from Baseline to End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.01|-0.30|0.062
92326067|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.065||0.15|TWO_SIDED|95.0|-0.22|0.03|||ANCOVA|||||0.03|-0.22|0.15
92326068|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.065||0.007|TWO_SIDED|95.0|-0.3|-0.05|||ANCOVA|||||-0.05|-0.30|0.007
92326069|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.066||0.017|TWO_SIDED|95.0|-0.29|-0.03|||ANCOVA|||||-0.03|-0.29|0.017
92326070|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.065|<|0.001|TWO_SIDED|95.0|-0.35|-0.1|||ANCOVA|||||-0.10|-0.35|<0.001
92326071|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.078|<|0.001|TWO_SIDED|95.0|-0.41|-0.11|||ANCOVA|||||-0.11|-0.41|<0.001
92326072|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.077||0.07|TWO_SIDED|95.0|-0.29|0.01|||ANCOVA|||||0.01|-0.29|0.070
92326073|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.09||0.15|TWO_SIDED|95.0|-0.05|0.31|||ANCOVA|||||0.31|-0.05|0.15
92326074|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.089||0.57|TWO_SIDED|95.0|-0.12|0.23|||ANCOVA|||||0.23|-0.12|0.57
92326075|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.089||0.89|TWO_SIDED|95.0|-0.16|0.19|||ANCOVA|||||0.19|-0.16|0.89
92326076|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.077||0.086|TWO_SIDED|95.0|-0.02|0.29|||ANCOVA|||||0.29|-0.02|0.086
92326077|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.09||0.88|TWO_SIDED|95.0|-0.19|0.16|||ANCOVA|||||0.16|-0.19|0.88
92326078|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.078||0.61|TWO_SIDED|95.0|-0.11|0.19|||ANCOVA|||||0.19|-0.11|0.61
92326079|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.078||0.58|TWO_SIDED|95.0|-0.2|0.11|||ANCOVA|||||0.11|-0.20|0.58
92326080|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.078||0.76|TWO_SIDED|95.0|-0.18|0.13|||ANCOVA|||||0.13|-0.18|0.76
92326081|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_DEVIATION|0.077||0.23|TWO_SIDED|95.0|-0.25|0.06|||ANCOVA|||||0.06|-0.25|0.23
92326082|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.089||0.15|TWO_SIDED|95.0|-0.3|0.05|||ANCOVA|||||0.05|-0.30|0.15
92326083|NCT01340027|184557262|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.088||0.94|TWO_SIDED|95.0|-0.18|0.17|||ANCOVA|||||0.17|-0.18|0.94
92326084|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.33||0.29|TWO_SIDED|95.0|-0.99|0.3|||ANCOVA|||"All statistical comparisons are for change from Baseline to End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.30|-0.99|0.29
92326085|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.239||0.15|TWO_SIDED|95.0|-0.12|0.82|||ANCOVA|||||0.82|-0.12|0.15
92326086|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.248||0.99|TWO_SIDED|95.0|-0.48|0.49|||ANCOVA|||||0.49|-0.48|0.99
92326087|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.239||0.76|TWO_SIDED|95.0|-0.54|0.4|||ANCOVA|||||0.40|-0.54|0.76
92326088|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.238||0.3|TWO_SIDED|95.0|-0.71|0.22|||ANCOVA|||||0.22|-0.71|0.30
92326089|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.262||0.43|TWO_SIDED|95.0|-0.72|0.31|||ANCOVA|||||0.31|-0.72|0.43
92326090|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.296||0.4|TWO_SIDED|95.0|-0.83|0.33|||ANCOVA|||||0.33|-0.83|0.40
92326091|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.343||0.24|TWO_SIDED|95.0|-1.08|0.27|||ANCOVA|||||0.27|-1.08|0.24
92326092|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.34||0.36|TWO_SIDED|95.0|-0.98|0.36|||ANCOVA|||||0.36|-0.98|0.36
92326093|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.348||0.02|TWO_SIDED|95.0|-1.49|-0.13|||ANCOVA|||||-0.13|-1.49|0.020
92326094|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.293||0.011|TWO_SIDED|95.0|-1.33|-0.18|||ANCOVA|||||-0.18|-1.33|0.011
92326095|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.377||0.004|TWO_SIDED|95.0|-1.84|-0.36|||ANCOVA|||||-0.36|-1.84|0.004
92326096|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.301||0.18|TWO_SIDED|95.0|-1.0|0.19|||ANCOVA|||||0.19|-1.00|0.18
92326097|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.308||0.015|TWO_SIDED|95.0|-1.35|-0.14|||ANCOVA|||||-0.14|-1.35|0.015
92326098|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.301||0.006|TWO_SIDED|95.0|-1.41|-0.23|||ANCOVA|||||-0.23|-1.41|0.006
92326099|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.59|-0.41|||ANCOVA|||||-0.41|-1.59|<0.001
92326100|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.32||0.003|TWO_SIDED|95.0|-1.59|-0.33|||ANCOVA|||||-0.33|-1.59|0.003
92326101|NCT01340027|184557263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.348||0.004|TWO_SIDED|95.0|-1.68|-0.31|||ANCOVA|||||-0.31|-1.68|0.004
92326102|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.177||0.15|TWO_SIDED|95.0|-0.6|0.09|||ANCOVA|||"All statistical comparisons are for change from Baseline to End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.09|-0.60|0.15
92326103|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.146||0.78|TWO_SIDED|95.0|-0.33|0.25|||ANCOVA|||||0.25|-0.33|0.78
92326104|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.146||0.58|TWO_SIDED|95.0|-0.37|0.21|||ANCOVA|||||0.21|-0.37|0.58
92326105|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.147||0.6|TWO_SIDED|95.0|-0.37|0.21|||ANCOVA|||||0.21|-0.37|0.60
92326106|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.145||0.017|TWO_SIDED|95.0|-0.63|-0.06|||ANCOVA|||||-0.06|-0.63|0.017
92326107|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.176||0.16|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||||0.10|-0.60|0.16
92326108|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.175||0.13|TWO_SIDED|95.0|-0.61|0.08|||ANCOVA|||||0.08|-0.61|0.13
92326109|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.201||0.81|TWO_SIDED|95.0|-0.35|0.44|||ANCOVA|||||0.44|-0.35|0.81
92326110|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.199||0.67|TWO_SIDED|95.0|-0.48|0.31|||ANCOVA|||||0.31|-0.48|0.67
92326111|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.2||0.77|TWO_SIDED|95.0|-0.33|0.45|||ANCOVA|||||0.45|-0.33|0.77
92326112|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.81||0.81|TWO_SIDED|95.0|-0.3|0.38|||ANCOVA|||||0.38|-0.30|0.81
92326113|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.201||0.3|TWO_SIDED|95.0|-0.6|0.18|||ANCOVA|||||0.18|-0.60|0.30
92326114|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.174||0.99|TWO_SIDED|95.0|-0.34|0.34|||ANCOVA|||||0.34|-0.34|0.99
92326115|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.175||0.82|TWO_SIDED|95.0|-0.38|0.3|||ANCOVA|||||0.30|-0.38|0.82
92326116|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.175||0.84|TWO_SIDED|95.0|-0.38|0.31|||ANCOVA|||||0.31|-0.38|0.84
92326117|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.173||0.08|TWO_SIDED|95.0|-0.64|0.04|||ANCOVA|||||0.04|-0.64|0.080
92326118|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.2||0.3|TWO_SIDED|95.0|-0.6|0.18|||ANCOVA|||||0.18|-0.60|0.30
92326119|NCT01340027|184557264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.199||0.26|TWO_SIDED|95.0|-0.62|0.17|||ANCOVA|||||0.17|-0.62|0.26
92326120|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.38|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.2|-0.5|0.38
92326121|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.85|TWO_SIDED|95.0|-0.3|0.3|||ANCOVA|||||0.3|-0.3|0.85
92326122|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.024|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||-0.0|-0.6|0.024
92326123|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.005|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|||||-0.1|-0.7|0.005
92326124|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.003|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|||||-0.1|-0.7|0.003
92326125|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.004|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|||||-0.2|-0.8|0.004
92326126|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.15|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||||0.1|-0.6|0.15
92326127|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.99|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||||0.4|-0.4|0.99
92326128|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.67|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||||0.3|-0.5|0.67
92326129|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.44|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||||0.2|-0.5|0.44
92326130|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.88|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||||0.4|-0.3|0.88
92326131|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.53|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||||0.3|-0.5|0.53
92326132|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||1|TWO_SIDED|95.0|-0.3|0.3|||ANCOVA|||||0.3|-0.3|1.0
92326133|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.084|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||0.0|-0.6|0.084
92326134|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.03|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|||||-0.0|-0.7|0.030
92326135|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.02|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|||||-0.1|-0.7|0.020
92326136|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.017|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||||-0.1|-0.8|0.017
92326137|NCT01340027|184557265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.26|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||||0.2|-0.6|0.26
92326138|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.26||||0.04|TWO_SIDED|95.0|1.04|4.95|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||4.95|1.04|0.040
92326139|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.1||||0.73|TWO_SIDED|95.0|0.63|1.92|||Regression, Logistic|||||1.92|0.63|0.73
92326140|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.82||||0.05|TWO_SIDED|95.0|1.0|3.3|||Regression, Logistic|||||3.30|1.00|0.050
92326141|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45||||0.21|TWO_SIDED|95.0|0.81|2.59|||Regression, Logistic|||||2.59|0.81|0.21
92326142|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.02||||0.021|TWO_SIDED|95.0|1.11|3.66|||Regression, Logistic|||||3.66|1.11|0.021
92326143|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.64||||0.19|TWO_SIDED|95.0|0.79|3.4|||Regression, Logistic|||||3.40|0.79|0.19
92326144|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.74|TWO_SIDED|95.0|0.57|2.19|||Regression, Logistic|||||2.19|0.57|0.74
92326145|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.57|TWO_SIDED|95.0|0.58|2.71|||Regression, Logistic|||||2.71|0.58|0.57
92326146|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.67||||0.19|TWO_SIDED|95.0|0.77|3.64|||Regression, Logistic|||||3.64|0.77|0.19
92326147|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.86||||0.69|TWO_SIDED|95.0|0.41|1.79|||Regression, Logistic|||||1.79|0.41|0.69
92326148|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||0.9|TWO_SIDED|95.0|0.55|1.99|||Regression, Logistic|||||1.99|0.55|0.90
92326149|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.36||||0.048|TWO_SIDED|95.0|1.01|5.55|||Regression, Logistic|||||5.55|1.01|0.048
92326150|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15||||0.67|TWO_SIDED|95.0|0.6|2.22|||Regression, Logistic|||||2.22|0.60|0.67
92326151|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.07|TWO_SIDED|95.0|0.95|3.78|||Regression, Logistic|||||3.78|0.95|0.070
92326152|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.51||||0.23|TWO_SIDED|95.0|0.77|2.98|||Regression, Logistic|||||2.98|0.77|0.23
92326153|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.11||||0.034|TWO_SIDED|95.0|1.06|4.19|||Regression, Logistic|||||4.19|1.06|0.034
92326154|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.71||||0.2|TWO_SIDED|95.0|0.76|3.84|||Regression, Logistic|||||3.84|0.76|0.20
92326155|NCT01340027|184557266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.68|TWO_SIDED|95.0|0.55|2.49|||Regression, Logistic|||||2.49|0.55|0.68
92326156|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.62|TWO_SIDED|95.0|0.64|2.12|||Regression, Logistic|||||2.12|0.64|0.62
92326157|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.33||||0.25|TWO_SIDED|95.0|0.82|2.17|||Regression, Logistic|||||2.17|0.82|0.25
92326158|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.48||||0.11|TWO_SIDED|95.0|0.91|2.41|||Regression, Logistic|||||2.41|0.91|0.11
92326159|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.81||||0.02|TWO_SIDED|95.0|1.1|2.97|||Regression, Logistic|||||2.97|1.10|0.020
92326160|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.87||||0.012|TWO_SIDED|95.0|1.15|3.05|||Regression, Logistic|||||3.05|1.15|0.012
92326161|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.72||||0.072|TWO_SIDED|95.0|0.95|3.1|||Regression, Logistic|||||3.10|0.95|0.072
92201464|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.192||0.5888|TWO_SIDED|95.0|-0.49|0.28|||MMRM|||Anxiety Psychic, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.49|0.5888
92201465|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.187||0.3992|TWO_SIDED|95.0|-0.53|0.21|||MMRM|||Anxiety Psychic, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.53|0.3992
92201466|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.227||0.1212|TWO_SIDED|95.0|-0.8|0.1|||MMRM|||Anxiety Psychic, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.80|0.1212
92201467|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.221||0.3185|TWO_SIDED|95.0|-0.66|0.22|||MMRM|||Anxiety Psychic, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.66|0.3185
92201468|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.231||0.4809|TWO_SIDED|95.0|-0.62|0.29|||MMRM|||Anxiety Psychic, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.62|0.4809
92201469|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.225||0.8953|TWO_SIDED|95.0|-0.42|0.48|||MMRM|||Anxiety Psychic, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.48|-0.42|0.8953
92201470|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.223||0.5616|TWO_SIDED|95.0|-0.57|0.31|||MMRM|||Anxiety Psychic, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.57|0.5616
92201471|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.216||0.8571|TWO_SIDED|95.0|-0.39|0.47|||MMRM|||Anxiety Psychic, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.47|-0.39|0.8571
92201472|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.213||0.0037|TWO_SIDED|95.0|-1.05|-0.21|||MMRM|||Anxiety Psychic, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.21|-1.05|0.0037
92201473|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.206||0.0386|TWO_SIDED|95.0|-0.84|-0.02|||MMRM|||Anxiety Psychic, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.84|0.0386
92201474|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.216||0.0044|TWO_SIDED|95.0|-1.05|-0.2|||MMRM|||Anxiety Psychic, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.20|-1.05|0.0044
92201475|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.208||0.8308|TWO_SIDED|95.0|-0.46|0.37|||MMRM|||Anxiety Psychic, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.46|0.8308
92326162|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.29|TWO_SIDED|95.0|0.77|2.44|||Regression, Logistic|||||2.44|0.77|0.29
92326163|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.98||||0.94|TWO_SIDED|95.0|0.49|1.93|||Regression, Logistic|||||1.93|0.49|0.94
92326164|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.91||||0.8|TWO_SIDED|95.0|0.46|1.81|||Regression, Logistic|||||1.81|0.46|0.80
92326165|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.67|TWO_SIDED|95.0|0.59|2.28|||Regression, Logistic|||||2.28|0.59|0.67
92326166|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.55|1.8|||Regression, Logistic|||||1.80|0.55|1.0
92326167|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.66|TWO_SIDED|95.0|0.59|2.31|||Regression, Logistic|||||2.31|0.59|0.66
92326168|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.33||||0.35|TWO_SIDED|95.0|0.73|2.4|||Regression, Logistic|||||2.40|0.73|0.35
92326169|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.48||||0.19|TWO_SIDED|95.0|0.82|2.67|||Regression, Logistic|||||2.67|0.82|0.19
92326170|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8||||0.054|TWO_SIDED|95.0|0.99|3.28|||Regression, Logistic|||||3.28|0.99|0.054
92326171|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.87||||0.038|TWO_SIDED|95.0|1.04|3.38|||Regression, Logistic|||||3.38|1.04|0.038
92326172|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.72||||0.12|TWO_SIDED|95.0|0.87|3.39|||Regression, Logistic|||||3.39|0.87|0.12
92326173|NCT01340027|184557267|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.36|TWO_SIDED|95.0|0.7|2.67|||Regression, Logistic|||||2.67|0.70|0.36
92326174|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.4||||0.32|TWO_SIDED|95.0|0.06|2.43|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||2.43|0.06|0.32
92326175|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.75||||0.65|TWO_SIDED|95.0|0.21|2.61|||Regression, Logistic|||||2.61|0.21|0.65
92326176|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.54||||0.39|TWO_SIDED|95.0|0.13|2.19|||Regression, Logistic|||||2.19|0.13|0.39
92326177|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.41||||0.22|TWO_SIDED|95.0|0.1|1.67|||Regression, Logistic|||||1.67|0.10|0.22
92326178|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.22||||0.082|TWO_SIDED|95.0|0.04|1.22|||Regression, Logistic|||||1.22|0.04|0.082
92326179|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.36||||0.36|TWO_SIDED|95.0|0.04|3.2|||Regression, Logistic|||||3.20|0.04|0.36
92326180|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.51|TWO_SIDED|95.0|0.42|5.71|||Regression, Logistic|||||5.71|0.42|0.51
92326181|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01||||0.99|TWO_SIDED|95.0|0.19|5.36|||Regression, Logistic|||||5.36|0.19|0.99
92326182|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||0.96|TWO_SIDED|95.0|0.24|4.59|||Regression, Logistic|||||4.59|0.24|0.96
92326183|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.62||||0.57|TWO_SIDED|95.0|0.12|3.3|||Regression, Logistic|||||3.30|0.12|0.57
92326184|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.06||||0.93|TWO_SIDED|95.0|0.28|3.95|||Regression, Logistic|||||3.95|0.28|0.93
92326185|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.42||||0.37|TWO_SIDED|95.0|0.06|2.79|||Regression, Logistic|||||2.79|0.06|0.37
92326186|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.79||||0.74|TWO_SIDED|95.0|0.2|3.13|||Regression, Logistic|||||3.13|0.20|0.74
92326187|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.57||||0.46|TWO_SIDED|95.0|0.12|2.59|||Regression, Logistic|||||2.59|0.12|0.46
92326188|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.44||||0.28|TWO_SIDED|95.0|0.1|1.96|||Regression, Logistic|||||1.96|0.10|0.28
92326189|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.23||||0.11|TWO_SIDED|95.0|0.04|1.4|||Regression, Logistic|||||1.40|0.04|0.11
92326190|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.38||||0.4|TWO_SIDED|95.0|0.04|3.66|||Regression, Logistic|||||3.66|0.04|0.40
92326191|NCT01340027|184557268|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.64||||0.5|TWO_SIDED|95.0|0.39|6.85|||Regression, Logistic|||||6.85|0.39|0.50
92326192|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|2.47||0.21|TWO_SIDED|95.0|-8.0|1.7|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||1.7|-8.0|0.21
92326193|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|2.03||0.54|TWO_SIDED|95.0|-5.2|2.7|||ANCOVA|||||2.7|-5.2|0.54
92326194|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|2.03||0.016|TWO_SIDED|95.0|-8.9|-0.9|||ANCOVA|||||-0.9|-8.9|0.016
92326195|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|2.05||0.011|TWO_SIDED|95.0|-9.3|-1.2|||ANCOVA|||||-1.2|-9.3|0.011
92326196|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-10.7|-2.8|||ANCOVA|||||-2.8|-10.7|<0.001
92326197|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|2.43||0.005|TWO_SIDED|95.0|-11.6|-2.0|||ANCOVA|||||-2.0|-11.6|0.005
92326198|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.7|STANDARD_ERROR_OF_MEAN|2.44||0.056|TWO_SIDED|95.0|-9.4|0.1|||ANCOVA|||||0.1|-9.4|0.056
92326199|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|2.81||0.56|TWO_SIDED|95.0|-7.1|3.9|||ANCOVA|||||3.9|-7.1|0.56
92326200|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.8||0.48|TWO_SIDED|95.0|-7.5|3.5|||ANCOVA|||||3.5|-7.5|0.48
92326201|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|0.13||0.13|TWO_SIDED|95.0|-9.8|1.2|||ANCOVA|||||1.2|-9.8|0.13
92201476|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.215||0.0388|TWO_SIDED|95.0|-0.87|-0.02|||MMRM|||Anxiety Psychic, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.87|0.0388
92201477|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.209||0.1622|TWO_SIDED|95.0|-0.71|0.12|||MMRM|||Anxiety Psychic, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.71|0.1622
92201478|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.204||0.0179|TWO_SIDED|95.0|-0.89|-0.09|||MMRM|||Anxiety Psychic, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.89|0.0179
92201479|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.198||0.4283|TWO_SIDED|95.0|-0.55|0.24|||MMRM|||Anxiety Psychic, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.55|0.4283
92201480|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.219||0.1899|TWO_SIDED|95.0|-0.72|0.15|||MMRM|||Anxiety Psychic, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.72|0.1899
92201481|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.213||0.8022|TWO_SIDED|95.0|-0.48|0.37|||MMRM|||Anxiety Psychic, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.48|0.8022
92201482|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.215||0.378|TWO_SIDED|95.0|-0.62|0.24|||MMRM|||Anxiety Psychic, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.62|0.3780
92201483|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.21||0.811|TWO_SIDED|95.0|-0.47|0.36|||MMRM|||Anxiety Psychic, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.36|-0.47|0.8110
92201484|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.272||0.8908|TWO_SIDED|95.0|-0.58|0.5|||MMRM|||Anxiety Psychic, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.50|-0.58|0.8908
92201485|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.263||0.3596|TWO_SIDED|95.0|-0.28|0.76|||MMRM|||Anxiety Psychic, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.76|-0.28|0.3596
92326202|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.42||0.61|TWO_SIDED|95.0|-6.0|3.5|||ANCOVA|||||3.5|-6.0|0.61
92326203|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|2.81||0.12|TWO_SIDED|95.0|-9.9|1.2|||ANCOVA|||||1.2|-9.9|0.12
92326204|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|2.44||0.31|TWO_SIDED|95.0|-7.3|2.3|||ANCOVA|||||2.3|-7.3|0.31
92326205|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|2.44||0.012|TWO_SIDED|95.0|-10.9|-1.3|||ANCOVA|||||-1.3|-10.9|0.012
92326206|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|2.46||0.008|TWO_SIDED|95.0|-11.3|-1.7|||ANCOVA|||||-1.7|-11.3|0.008
92326207|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|2.44||0.001|TWO_SIDED|95.0|-12.8|-3.2|||ANCOVA|||||-3.2|-12.8|0.001
92326208|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|2.78||0.004|TWO_SIDED|95.0|-13.5|-2.6|||ANCOVA|||||-2.6|-13.5|0.004
92326209|NCT01340027|184557269|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|2.79||0.035|TWO_SIDED|95.0|-11.4|-0.4|||ANCOVA|||||-0.4|-11.4|0.035
92326210|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.42||||0.4|TWO_SIDED|95.0|0.63|3.2|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||3.20|0.63|0.40
92326211|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||0.89|TWO_SIDED|95.0|0.55|1.97|||Regression, Logistic|||||1.97|0.55|0.89
92326212|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.21||||0.57|TWO_SIDED|95.0|0.63|2.33|||Regression, Logistic|||||2.33|0.63|0.57
92326213|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.36||||0.36|TWO_SIDED|95.0|0.7|2.66|||Regression, Logistic|||||2.66|0.70|0.36
92326214|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.66||||0.15|TWO_SIDED|95.0|0.83|3.32|||Regression, Logistic|||||3.32|0.83|0.15
92326215|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.31|TWO_SIDED|95.0|0.67|3.59|||Regression, Logistic|||||3.59|0.67|0.31
92326216|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.91||||0.81|TWO_SIDED|95.0|0.42|1.95|||Regression, Logistic|||||1.95|0.42|0.81
92326217|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.75||||0.19|TWO_SIDED|95.0|0.75|4.08|||Regression, Logistic|||||4.08|0.75|0.19
92326218|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.59|TWO_SIDED|95.0|0.56|2.77|||Regression, Logistic|||||2.77|0.56|0.59
92326219|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.97||||0.13|TWO_SIDED|95.0|0.83|4.71|||Regression, Logistic|||||4.71|0.83|0.13
92326220|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.57||||0.2|TWO_SIDED|95.0|0.78|3.16|||Regression, Logistic|||||3.16|0.78|0.20
92326221|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.24||||0.07|TWO_SIDED|95.0|0.94|5.34|||Regression, Logistic|||||5.34|0.94|0.070
92326222|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.64||||0.17|TWO_SIDED|95.0|0.81|3.33|||Regression, Logistic|||||3.33|0.81|0.17
92326223|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.084|TWO_SIDED|95.0|0.92|3.92|||Regression, Logistic|||||3.92|0.92|0.084
92326224|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.14||||0.043|TWO_SIDED|95.0|1.02|4.48|||Regression, Logistic|||||4.48|1.02|0.043
92326225|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.61||||0.013|TWO_SIDED|95.0|1.22|5.58|||Regression, Logistic|||||5.58|1.22|0.013
92326226|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.43||||0.053|TWO_SIDED|95.0|0.99|5.97|||Regression, Logistic|||||5.97|0.99|0.053
92326227|NCT01340027|184557270|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.43||||0.39|TWO_SIDED|95.0|0.63|3.26|||Regression, Logistic|||||3.26|0.63|0.39
92326228|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|2.55||0.26|TWO_SIDED|95.0|-2.1|7.9|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||7.9|-2.1|0.26
92326229|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.1||0.38|TWO_SIDED|95.0|-2.3|6.0|||ANCOVA|||||6.0|-2.3|0.38
92326230|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differrence|4.8|STANDARD_ERROR_OF_MEAN|2.1||0.022|TWO_SIDED|95.0|0.7|8.9|||ANCOVA|||||8.9|0.7|0.022
92326231|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|2.12||0.01|TWO_SIDED|95.0|1.3|9.7|||ANCOVA|||||9.7|1.3|0.010
92326232|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.4|STANDARD_ERROR_OF_MEAN|2.09||0.002|TWO_SIDED|95.0|2.3|10.5|||ANCOVA|||||10.5|2.3|0.002
92326233|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|2.52||0.008|TWO_SIDED|95.0|1.7|11.6|||ANCOVA|||||11.6|1.7|0.008
92326234|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|2.52||0.037|TWO_SIDED|95.0|0.3|10.2|||ANCOVA|||||10.2|0.3|0.037
92326235|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.9||0.5|TWO_SIDED|95.0|-7.7|3.7|||ANCOVA|||||3.7|-7.7|0.50
92326236|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|2.89||0.65|TWO_SIDED|95.0|-4.4|7.0|||ANCOVA|||||7.0|-4.4|0.65
92326237|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|2.88||0.25|TWO_SIDED|95.0|-2.4|8.9|||ANCOVA|||||8.9|-2.4|0.25
92326238|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|2.51||0.76|TWO_SIDED|95.0|-5.7|4.1|||ANCOVA|||||4.1|-5.7|0.76
92326239|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|2.91||0.47|TWO_SIDED|95.0|-3.6|7.8|||ANCOVA|||||7.8|-3.6|0.47
92326240|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|2.52||0.67|TWO_SIDED|95.0|-3.9|6.0|||ANCOVA|||||6.0|-3.9|0.67
92326241|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|2.52||0.11|TWO_SIDED|95.0|-0.9|9.0|||ANCOVA|||||9.0|-0.9|0.11
92326242|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|2.54||0.062|TWO_SIDED|95.0|-0.2|9.7|||ANCOVA|||||9.7|-0.2|0.062
92326243|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.6|STANDARD_ERROR_OF_MEAN|2.52||0.025|TWO_SIDED|95.0|0.7|10.6|||ANCOVA|||||10.6|0.7|0.025
92326244|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|2.88||0.041|TWO_SIDED|95.0|0.2|11.5|||ANCOVA|||||11.5|0.2|0.041
92326245|NCT01340027|184557271|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.5|STANDARD_ERROR_OF_MEAN|2.88||0.12|TWO_SIDED|95.0|-1.2|10.1|||ANCOVA|||||10.1|-1.2|0.12
92201486|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.293||0.7617|TWO_SIDED|95.0|-0.67|0.49|||MMRM|||Anxiety Psychic, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.49|-0.67|0.7617
92201487|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.281||0.5498|TWO_SIDED|95.0|-0.73|0.39|||MMRM|||Anxiety Psychic, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.73|0.5498
92201488|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.235||0.2066|TWO_SIDED|95.0|-0.76|0.17|||MMRM|||Anxiety Psychic, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.76|0.2066
92201489|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.23||0.2321|TWO_SIDED|95.0|-0.73|0.18|||MMRM|||Anxiety Psychic, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.73|0.2321
92201490|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.191||0.5582|TWO_SIDED|95.0|-0.49|0.27|||MMRM|||Anxiety Somatic, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.49|0.5582
92201491|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.186||0.2945|TWO_SIDED|95.0|-0.56|0.17|||MMRM|||Anxiety Somatic, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.56|0.2945
92326246|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||0.92|TWO_SIDED|95.0|0.52|2.08|||Regression, Logistic|||"All statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||2.08|0.52|0.92
92326247|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01||||0.98|TWO_SIDED|95.0|0.58|1.77|||Regression, Logistic|||||1.77|0.58|0.98
92201492|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.208||0.2684|TWO_SIDED|95.0|-0.64|0.18|||MMRM|||Anxiety Somatic, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.64|0.2684
92201493|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.202||0.9396|TWO_SIDED|95.0|-0.42|0.39|||MMRM|||Anxiety Somatic, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.42|0.9396
92326248|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.45|TWO_SIDED|95.0|0.7|2.23|||Regression, Logistic|||||2.23|0.70|0.45
92201494|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.195||0.0283|TWO_SIDED|95.0|-0.82|-0.05|||MMRM|||Anxiety Somatic, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.05|-0.82|0.0283
92201495|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.189||0.1794|TWO_SIDED|95.0|-0.63|0.12|||MMRM|||Anxiety Somatic, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.63|0.1794
92326249|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.41||||0.24|TWO_SIDED|95.0|0.79|2.53|||Regression, Logistic|||||2.53|0.79|0.24
92326250|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.21||||0.012|TWO_SIDED|95.0|1.19|4.09|||Regression, Logistic|||||4.09|1.19|0.012
92326251|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.43||||0.32|TWO_SIDED|95.0|0.7|2.9|||Regression, Logistic|||||2.90|0.70|0.32
92326252|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.51||||0.27|TWO_SIDED|95.0|0.72|3.14|||Regression, Logistic|||||3.14|0.72|0.27
92326253|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5||||0.064|TWO_SIDED|95.0|0.24|1.04|||Regression, Logistic|||||1.04|0.24|0.064
92326254|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||0.57|TWO_SIDED|95.0|0.59|2.61|||Regression, Logistic|||||2.61|0.59|0.57
92326255|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.26||||0.55|TWO_SIDED|95.0|0.59|2.68|||Regression, Logistic|||||2.68|0.59|0.55
92326256|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.11||||0.75|TWO_SIDED|95.0|0.58|2.13|||Regression, Logistic|||||2.13|0.58|0.75
92326257|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15||||0.72|TWO_SIDED|95.0|0.53|2.49|||Regression, Logistic|||||2.49|0.53|0.72
92326258|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.74|TWO_SIDED|95.0|0.58|2.15|||Regression, Logistic|||||2.15|0.58|0.74
92326259|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.39||||0.34|TWO_SIDED|95.0|0.71|2.71|||Regression, Logistic|||||2.71|0.71|0.34
92326260|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.57||||0.19|TWO_SIDED|95.0|0.8|3.07|||Regression, Logistic|||||3.07|0.80|0.19
92326261|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.45||||0.012|TWO_SIDED|95.0|1.22|4.94|||Regression, Logistic|||||4.94|1.22|0.012
92326262|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.59||||0.25|TWO_SIDED|95.0|0.72|3.47|||Regression, Logistic|||||3.47|0.72|0.25
92326263|NCT01340027|184557272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.67||||0.21|TWO_SIDED|95.0|0.74|3.75|||Regression, Logistic|||||3.75|0.74|0.21
92326264|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.376||0.63|TWO_SIDED|95.0|-0.56|0.92|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.92|-0.56|0.63
92326265|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.31||0.56|TWO_SIDED|95.0|-0.43|0.79|||ANCOVA|||||0.79|-0.43|0.56
92326266|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.308||0.14|TWO_SIDED|95.0|-0.15|1.06|||ANCOVA|||||1.06|-0.15|0.14
92326267|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.313||0.027|TWO_SIDED|95.0|0.08|1.3|||ANCOVA|||||1.30|0.08|0.027
92326268|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.308||0.13|TWO_SIDED|95.0|-0.14|1.07|||ANCOVA|||||1.07|-0.14|0.13
92326269|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.73|STANDARD_ERROR_OF_MEAN|0.371||0.049|TWO_SIDED|95.0|0.0|1.46|||ANCOVA|||||1.46|0.00|0.049
92326270|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.94|STANDARD_ERROR_OF_MEAN|0.368||0.011|TWO_SIDED|95.0|0.22|1.66|||ANCOVA|||||1.66|0.22|0.011
92326271|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.428||0.7|TWO_SIDED|95.0|-0.67|1.01|||ANCOVA|||||1.01|-0.67|0.70
92326272|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.73|STANDARD_ERROR_OF_MEAN|0.423||0.084|TWO_SIDED|95.0|-0.1|1.56|||ANCOVA|||||1.56|-0.10|0.084
92326273|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.66|STANDARD_ERROR_OF_MEAN|0.425||0.12|TWO_SIDED|95.0|-0.18|1.49|||ANCOVA|||||1.49|-0.18|0.12
92326274|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.369||0.36|TWO_SIDED|95.0|-0.39|1.06|||ANCOVA|||||1.06|-0.39|0.36
92326275|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.428||0.23|TWO_SIDED|95.0|-0.32|1.36|||ANCOVA|||||1.36|-0.32|0.23
92326276|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.371||0.16|TWO_SIDED|95.0|-0.21|1.25|||ANCOVA|||||1.25|-0.21|0.16
92326277|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.79|STANDARD_ERROR_OF_MEAN|0.371||0.032|TWO_SIDED|95.0|0.07|1.52|||ANCOVA|||||1.52|0.07|0.032
92326278|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.03|STANDARD_ERROR_OF_MEAN|0.373||0.006|TWO_SIDED|95.0|0.3|1.76|||ANCOVA|||||1.76|0.30|0.006
92326279|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.369||0.031|TWO_SIDED|95.0|0.07|1.52|||ANCOVA|||||1.52|0.07|0.031
92326280|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.07|STANDARD_ERROR_OF_MEAN|0.423||0.012|TWO_SIDED|95.0|0.24|1.9|||ANCOVA|||||1.90|0.24|0.012
92326281|NCT01340027|184557280|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.28|STANDARD_ERROR_OF_MEAN|0.421||0.002|TWO_SIDED|95.0|0.45|2.1|||ANCOVA|||||2.10|0.45|0.002
92326282|NCT00915876|184557295|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
92326283|NCT01662791|184557303|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||Comparison between the groups for \>12 ppm.||||1.0
92326284|NCT01662791|184557304|SUPERIORITY_OR_OTHER|||||||0.235|||||||Chi-squared|||Comparison between groups for mobility sub-scale.||||0.235
92326285|NCT01662791|184557304|SUPERIORITY_OR_OTHER|||||||0.206|||||||Chi-squared|||Comparison between groups for activities of daily living sub-scale.||||0.206
92326286|NCT01662791|184557304|SUPERIORITY_OR_OTHER|||||||0.641|||||||Chi-squared|||Comparison between groups for emotional well-being sub-scale.||||0.641
92326287|NCT01662791|184557304|SUPERIORITY_OR_OTHER|||||||0.446|||||||Chi-squared|||Comparison between groups for stigma sub-scale.||||0.446
92326288|NCT01662791|184557304|SUPERIORITY_OR_OTHER|||||||0.466|||||||Chi-squared|||Comparison between groups for social support sub-scale.||||0.466
92326289|NCT01662791|184557304|SUPERIORITY_OR_OTHER|||||||0.205|||||||Chi-squared|||Comparison between groups for cognition sub-scale.||||0.205
92326290|NCT01662791|184557304|SUPERIORITY_OR_OTHER|||||||0.153|||||||Chi-squared|||Comparison between groups for communication sub-scale.||||0.153
92326291|NCT01662791|184557304|SUPERIORITY_OR_OTHER|||||||0.73|||||||Chi-squared|||Comparison between groups for bodily discomfort sub-scale.||||0.730
92326292|NCT01662791|184557304|SUPERIORITY_OR_OTHER|||||||0.334|||||||Chi-squared|||Comparison between groups for summary index sub-scale.||||0.334
92326293|NCT01662791|184557305|SUPERIORITY_OR_OTHER|||||||0.167|||||||McNemar|||Comparison in case group between baseline and 3 months for mobility sub-scale.||||0.167
92326294|NCT01662791|184557305|SUPERIORITY_OR_OTHER|||||||0.159|||||||McNemar|||Comparison in case group between baseline and 3 months for activities of daily living sub-scale.||||0.159
92201496|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.188||0.1091|TWO_SIDED|95.0|-0.68|0.07|||MMRM|||Anxiety Somatic, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.68|0.1091
92201497|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.182||0.7921|TWO_SIDED|95.0|-0.41|0.31|||MMRM|||Anxiety Somatic, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.41|0.7921
92201498|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.166||0.0055|TWO_SIDED|95.0|-0.8|-0.14|||MMRM|||Anxiety Somatic, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.14|-0.80|0.0055
92201499|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.161||0.03|TWO_SIDED|95.0|-0.67|-0.03|||MMRM|||Anxiety Somatic, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.67|0.0300
92326295|NCT01662791|184557305|SUPERIORITY_OR_OTHER|||||||0.041|||||||McNemar|||Comparison in case group between baseline and 3 months for emotional well-being sub-scale.||||0.041
92326296|NCT01662791|184557305|SUPERIORITY_OR_OTHER|||||||0.19|||||||McNemar|||Comparison in case group between baseline and 3 months for stigma sub-scale.||||0.190
92326297|NCT01662791|184557305|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|||Comparison in case group between baseline and 3 months for social support sub-scale.||||1.0
92326298|NCT01662791|184557305|SUPERIORITY_OR_OTHER|||||||0.16|||||||McNemar|||Comparison in case group between baseline and 3 months for cognition sub-scale.||||0.160
92326299|NCT01662791|184557305|SUPERIORITY_OR_OTHER|||||||0.276|||||||McNemar|||Comparison in case group between baseline and 3 months for communication sub-scale.||||0.276
92326300|NCT01662791|184557305|SUPERIORITY_OR_OTHER|||||||0.351|||||||McNemar|||Comparison in case group between baseline and 3 months for bodily discomfort sub-scale.||||0.351
92326301|NCT01662791|184557305|SUPERIORITY_OR_OTHER|||||||0.186|||||||McNemar|||Comparison in case group between baseline and 3 months for summary index sub-scale.||||0.186
92201500|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.185||0.0118|TWO_SIDED|95.0|-0.84|-0.11|||MMRM|||Anxiety Somatic, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.11|-0.84|0.0118
92201501|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.178||0.2266|TWO_SIDED|95.0|-0.57|0.14|||MMRM|||Anxiety Somatic, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.57|0.2266
92326302|NCT01662791|184557306|SUPERIORITY_OR_OTHER|||||||0.303|||||||Chi-squared|||Comparison between groups for constipation sub-scale.||||0.303
92326303|NCT01662791|184557306|SUPERIORITY_OR_OTHER|||||||0.518|||||||Chi-squared|||Comparison between groups for dyspepsia sub-scale.||||0.518
92326304|NCT01662791|184557306|SUPERIORITY_OR_OTHER|||||||0.8|||||||Chi-squared|||Comparison between groups for abdominal discomfort sub-scale.||||0.800
92326305|NCT01662791|184557306|SUPERIORITY_OR_OTHER|||||||0.736|||||||Chi-squared|||Comparison between groups for diarrhea sub-scale.||||0.736
92326306|NCT01662791|184557306|SUPERIORITY_OR_OTHER|||||||0.57|||||||Chi-squared|||Comparison between groups for GERD sub-scale.||||0.570
92326307|NCT01662791|184557306|SUPERIORITY_OR_OTHER|||||||0.394|||||||Chi-squared|||Comparison between groups for nausea and vomiting sub-scale.||||0.394
92326308|NCT01662791|184557307|SUPERIORITY_OR_OTHER|||||||0.056|||||||McNemar|||Comparison in case group between baseline and 3 months for constipation sub-scale.||||0.056
92326309|NCT01662791|184557307|SUPERIORITY_OR_OTHER|||||||0.38|||||||McNemar|||Comparison in case group between baseline and 3 months for dyspepsia sub-scale.||||0.380
92326310|NCT01662791|184557307|SUPERIORITY_OR_OTHER|||||||0.244|||||||McNemar|||Comparison in case group between baseline and 3 months for abdominal discomfort sub-scale.||||0.244
92326311|NCT01662791|184557307|SUPERIORITY_OR_OTHER|||||||0.279|||||||McNemar|||Comparison in case group between baseline and 3 months for diarrhea sub-scale.||||0.279
92326312|NCT01662791|184557307|SUPERIORITY_OR_OTHER|||||||0.554|||||||McNemar|||Comparison in case group between baseline and 3 months for GERD sub-scale.||||0.554
92326313|NCT01662791|184557307|SUPERIORITY_OR_OTHER|||||||0.351|||||||McNemar|||Comparison in case group between baseline and 3 months for nausea and vomiting sub-scale.||||0.351
92326314|NCT01662791|184557308|SUPERIORITY_OR_OTHER|||||||0.872|TWO_SIDED||||||t-test, 1 sided|||Comparison between the two groups at baseline for depression||||0.872
92326315|NCT01662791|184557308|SUPERIORITY_OR_OTHER|||||||0.835|TWO_SIDED||||||t-test, 1 sided|||Comparison between the two groups at baseline for anxiety.||||0.835
92326316|NCT02496091|184557312|OTHER||95% confidence interval (using the exact|92.7|||||TWO_SIDED|95.0|88.8|95.5||||||Only descriptive statistics The implant success rate is analyzed on an implant level (i.e. percent of successful implants) as well as subject level (i.e. percentage of subjects with no unsuccessful implants). This proportion is presented together with a 95% confidence interval (using the exact Binomial approach) and an average follow-up time.||95.5|88.8|
92326317|NCT02272842|184557318|SUPERIORITY|The study had 80% power to detect a standardized effect size of 0.22 and had 90% power to detect an effect size of 0.28. In these calculations, we assumed a loss to follow-up of 10%. Details on the samples size calculations are also presented in the previously published protocol paper.|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.35|>|0.16|TWO_SIDED|95.0|-0.54|0.87||The main analysis was the change in cognitive scores from baseline until the end of the intervention.|t-test, 2 sided||This is the P-value for the effect on the cognitive scores.|||.87|-.54|>.16
92326318|NCT02272842|184557328|SUPERIORITY|the means were compared using Students t-test|Mean Difference (Final Values)|-0.5|||>|0.3|TWO_SIDED|95.0|-1.97|0.94||"Mean difference -0.5 points in the Wechsler Preschool and Primary Scale of Intelligence - Fourth Edition.~95 % Confidence Interval of the mean difference: (-1.97, 0.94)"|t-test, 2 sided|||Comparing mean differences between the two study arms||0.94|-1.97|>.3
92326319|NCT03518619|184557330|OTHER|This is a single group design. Paired-samples t-tests were conducted.|||||<|0.05||||||This is a calculated p-value.|t-test, 2 sided|||||||<.05
92326320|NCT03518619|184557331|OTHER|This is a single group design. Paired-samples t-tests were conducted.|||||<|0.01||||||This is a calculated p-value.|t-test, 2 sided|||||||<.01
92326321|NCT01632904|184557349|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||0.139|TWO_SIDED|95.0|0.82|4.04|||Chi-squared|||||4.04|0.82|0.139
92326322|NCT01752634|184557354|SUPERIORITY||Odds Ratio (OR)|2.32||||0.02|TWO_SIDED|95.0|1.14|4.73|||Regression, Logistic|||||4.73|1.14|0.0200
92326323|NCT01752634|184557354|SUPERIORITY||Odds Ratio (OR)|6.52|||<|1|TWO_SIDED|95.0|3.25|13.08|||Regression, Logistic|||||13.08|3.25|<0001
92326324|NCT01752634|184557354|SUPERIORITY||Odds Ratio (OR)|6.81|||<|0.0001|TWO_SIDED|95.0|3.42|13.56|||Regression, Logistic|||||13.56|3.42|<.0001
92326325|NCT01752634|184557355|SUPERIORITY||Odds Ratio (OR)|2.07||||0.165|TWO_SIDED|95.0|0.74|5.81|||Regression, Logistic|||||5.81|0.74|0.1650
92326326|NCT01752634|184557355|SUPERIORITY||Odds Ratio (OR)|5.7||||0.0006|TWO_SIDED|95.0|2.12|15.34|||Regression, Logistic|||||15.34|2.12|0.0006
92326327|NCT01752634|184557355|SUPERIORITY||Odds Ratio (OR)|9.48|||<|0.0001|TWO_SIDED|95.0|3.33|27.0|||Regression, Logistic|||||27.00|3.33|<.0001
92326328|NCT01752634|184557356|SUPERIORITY||Odds Ratio (OR)|1.38||||0.6421|TWO_SIDED|95.0|0.36|5.36|||Regression, Logistic|||||5.36|0.36|0.6421
92326329|NCT01752634|184557356|SUPERIORITY||Odds Ratio (OR)|6.36||||0.0029|TWO_SIDED|95.0|1.89|21.47|||Regression, Logistic|||||21.47|1.89|0.0029
92326330|NCT01752634|184557356|SUPERIORITY||Odds Ratio (OR)|10.74||||0.0002|TWO_SIDED|95.0|3.13|36.84|||Regression, Logistic|||||36.84|3.13|0.0002
92326331|NCT01752634|184557357|SUPERIORITY||Mean Difference (Net)|-0.16||||0.3763|TWO_SIDED|95.0|-0.53|0.2|||Mixed Models Analysis|||||0.20|-0.53|0.3763
92326332|NCT01752634|184557357|SUPERIORITY||Mean Difference (Net)|-0.62||||0.0008|TWO_SIDED|95.0|-0.98|-0.26|||Mixed Models Analysis|||||-0.26|-0.98|0.0008
92326333|NCT01752634|184557357|SUPERIORITY||Mean Difference (Net)|-0.65||||0.0004|TWO_SIDED|95.0|-1.02|-0.29|||Mixed Models Analysis|||||-0.29|-1.02|0.0004
92326334|NCT01752634|184557358|SUPERIORITY||Mean Difference (Net)|2.42||||0.0482|TWO_SIDED|95.0|0.02|4.83|||Mixed Models Analysis|||||4.83|0.02|0.0482
92326335|NCT01752634|184557358|SUPERIORITY||Mean Difference (Net)|4.44||||0.0003|TWO_SIDED|95.0|2.05|6.83|||Mixed Models Analysis|||||6.83|2.05|0.0003
92326336|NCT01752634|184557358|SUPERIORITY||Mean Difference (Net)|5.3|||<|0.0001|TWO_SIDED|95.0|2.91|7.69|||Mixed Models Analysis|||||7.69|2.91|<0.0001
92326337|NCT01752634|184557359|SUPERIORITY||Mean Difference (Net)|-0.01||||0.9195|TWO_SIDED|95.0|-0.16|0.15|||Mixed Models Analysis|||||0.15|-0.16|0.9195
92326338|NCT01752634|184557359|SUPERIORITY||Mean Difference (Net)|-0.17||||0.0278|TWO_SIDED|95.0|-0.32|-0.02|||Mixed Models Analysis|||||-0.02|-0.32|0.0278
92326339|NCT01752634|184557359|SUPERIORITY||Mean Difference (Net)|-0.25||||0.0013|TWO_SIDED|95.0|-0.4|-0.1|||Mixed Models Analysis|||||-0.10|-0.40|0.0013
92326340|NCT01752634|184557360|SUPERIORITY||Odds Ratio (OR)|2.91||||0.0245|TWO_SIDED|95.0|1.15|7.36|||Regression, Logistic|||||7.36|1.15|0.0245
92326341|NCT01752634|184557360|SUPERIORITY||Odds Ratio (OR)|7.54|||<|0.0001|TWO_SIDED|95.0|3.11|18.25|||Regression, Logistic|||||18.25|3.11|<.0001
92326342|NCT01752634|184557360|SUPERIORITY||Odds Ratio (OR)|7.15|||<|0.0001|TWO_SIDED|95.0|2.97|17.22|||Regression, Logistic|||||17.22|2.97|<.0001
92326343|NCT01752634|184557361|SUPERIORITY||Odds Ratio (OR)|0.51||||0.3149|TWO_SIDED|95.0|0.13|1.91|||Regression, Logistic|||||1.91|0.13|0.3149
92326344|NCT01752634|184557361|SUPERIORITY||Odds Ratio (OR)|0.16||||0.0056|TWO_SIDED|95.0|0.04|0.58|||Regression, Logistic|||||0.58|0.04|0.0056
92326345|NCT01752634|184557361|SUPERIORITY||Odds Ratio (OR)|0.14||||0.0021|TWO_SIDED|95.0|0.04|0.5|||Regression, Logistic|||||0.50|0.04|0.0021
92326346|NCT01752634|184557362|SUPERIORITY||Odds Ratio (OR)|0.58||||0.1678|TWO_SIDED|95.0|0.26|1.26|||Regression, Logistic|||||1.26|0.26|0.1678
92326347|NCT01752634|184557362|SUPERIORITY||Odds Ratio (OR)|0.36||||0.0108|TWO_SIDED|95.0|0.17|0.79|||Regression, Logistic|||||0.79|0.17|0.0108
92326348|NCT01752634|184557362|SUPERIORITY||Odds Ratio (OR)|0.29||||0.0025|TWO_SIDED|95.0|0.13|0.65|||Regression, Logistic|||||0.65|0.13|0.0025
92326349|NCT04542499|184557392|SUPERIORITY||LS Mean of Difference|1.103|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|0.553|1.653||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||||1.653|0.553|<0.0001
92326350|NCT04542499|184557393|SUPERIORITY||LS Mean of Difference|-0.943|STANDARD_ERROR_OF_MEAN|0.271||0.0006|TWO_SIDED|95.0|-1.475|-0.41||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||||-0.410|-1.475|0.0006
92201502|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.181||0.0025|TWO_SIDED|95.0|-0.92|-0.2|||MMRM|||Anxiety Somatic, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.20|-0.92|0.0025
92201503|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.176||0.0555|TWO_SIDED|95.0|-0.69|0.01|||MMRM|||Anxiety Somatic, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.69|0.0555
92201504|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.176||0.0013|TWO_SIDED|95.0|-0.93|-0.23|||MMRM|||Anxiety Somatic, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.23|-0.93|0.0013
92201505|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.171||0.0775|TWO_SIDED|95.0|-0.64|0.03|||MMRM|||Anxiety Somatic, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.64|0.0775
92201506|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.19||0.0006|TWO_SIDED|95.0|-1.05|-0.3|||MMRM|||Anxiety Somatic, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.30|-1.05|0.0006
92201507|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.185||0.0415|TWO_SIDED|95.0|-0.75|-0.01|||MMRM|||Anxiety Somatic, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.75|0.0415
92326351|NCT04542499|184557394|SUPERIORITY||LS Mean of Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.188||0.2216|TWO_SIDED|95.0|-0.6|0.139||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 2||0.139|-0.600|0.2216
92326352|NCT04542499|184557394|SUPERIORITY||LS Mean of Difference|0.099|STANDARD_ERROR_OF_MEAN|0.211||0.6379|TWO_SIDED|95.0|-0.316|0.515||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 5||0.515|-0.316|0.6379
92201508|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.193||0.0581|TWO_SIDED|95.0|-0.75|0.01|||MMRM|||Anxiety Somatic, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.75|0.0581
92201509|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.188||0.6826|TWO_SIDED|95.0|-0.45|0.3|||MMRM|||Anxiety Somatic, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.45|0.6826
92201510|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.226||0.0912|TWO_SIDED|95.0|-0.83|0.06|||MMRM|||Anxiety Somatic, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.83|0.0912
92268658|NCT00464308|184439263|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation was based upon the number of patients acheiveing complete resolution of HEARTBURN. A sample size of 450 subjects per arm will give a 90% power (with a one-sided 95% confidence interval and a minimal clinically important difference of 9%) to demonstrate non-inferiority of rabeprazole 20mg to esomeprazole 40mg with respect to the number of patients with complete resolution of heartburn with or without regurgitation at week 4|Proportion difference|-0.051|||<|0.05||95.0||||All statistical tests were interpreted at the 5% significance level (2-tailed).|non-inferiority||Non inferiority was considered proven if the lower confidence interval of the one sided 95% CI of P(rab20)-P(e40) was above -9%|Primary endpoints were assessed using non-inferiority tests. See below.||||<0.05
92326353|NCT04542499|184557394|SUPERIORITY||LS Mean of Difference|0.582|STANDARD_ERROR_OF_MEAN|0.234||0.0132|TWO_SIDED|95.0|0.122|1.042||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 8||1.042|0.122|0.0132
92201511|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.218||0.3988|TWO_SIDED|95.0|-0.62|0.25|||MMRM|||Anxiety Somatic, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.62|0.3988
92201512|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.231||0.0504|TWO_SIDED|95.0|-0.91|0.0|||MMRM|||Anxiety Somatic, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.91|0.0504
92201513|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.22||0.6019|TWO_SIDED|95.0|-0.55|0.32|||MMRM|||Anxiety Somatic, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.55|0.6019
92201514|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.222||0.007|TWO_SIDED|95.0|-1.05|-0.17|||MMRM|||Anxiety Somatic, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.17|-1.05|0.0070
92201515|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.218||0.3785|TWO_SIDED|95.0|-0.62|0.24|||MMRM|||Anxiety Somatic, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.62|0.3785
92201516|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.159||0.9609|TWO_SIDED|95.0|-0.32|0.31|||MMRM|||Somatic Symptoms GI, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.32|0.9609
92326354|NCT04542499|184557394|SUPERIORITY||LS Mean of Difference|0.358|STANDARD_ERROR_OF_MEAN|0.236||0.1299|TWO_SIDED|95.0|-0.106|0.821||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 11||0.821|-0.106|0.1299
92326355|NCT04542499|184557394|SUPERIORITY||LS Mean of Difference|0.698|STANDARD_ERROR_OF_MEAN|0.257||0.0068|TWO_SIDED|95.0|0.194|1.202||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 14||1.202|0.194|0.0068
92201517|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.154||0.9183|TWO_SIDED|95.0|-0.32|0.29|||MMRM|||Somatic Symptoms GI, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.32|0.9183
92201518|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.149||0.071|TWO_SIDED|95.0|-0.57|0.02|||MMRM|||Somatic Symptoms GI, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.57|0.0710
92201519|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.143||0.2607|TWO_SIDED|95.0|-0.45|0.12|||MMRM|||Somatic Symptoms GI, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.45|0.2607
92201520|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.158||0.2466|TWO_SIDED|95.0|-0.5|0.13|||MMRM|||Somatic Symptoms GI, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.50|0.2466
92326356|NCT04542499|184557394|SUPERIORITY||LS Mean of Difference|0.969|STANDARD_ERROR_OF_MEAN|0.254||0.0002|TWO_SIDED|95.0|0.469|1.469||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 18||1.469|0.469|0.0002
92326357|NCT04542499|184557394|SUPERIORITY||LS Mean of Difference|0.879|STANDARD_ERROR_OF_MEAN|0.259||0.0008|TWO_SIDED|95.0|0.369|1.389||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 22||1.389|0.369|0.0008
92326358|NCT04542499|184557394|SUPERIORITY||LS Mean of Difference|1.103|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|0.553|1.653||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||1.653|0.553|<0.0001
92326359|NCT04542499|184557395|SUPERIORITY||LS Mean of Difference|0.108|STANDARD_ERROR_OF_MEAN|0.18||0.5471|TWO_SIDED|95.0|-0.245|0.461||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 2||0.461|-0.245|0.5471
92326360|NCT04542499|184557395|SUPERIORITY||LS Mean of Difference|-0.237|STANDARD_ERROR_OF_MEAN|0.205||0.2488|TWO_SIDED|95.0|-0.64|0.166||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 5||0.166|-0.640|0.2488
92326361|NCT04542499|184557395|SUPERIORITY||LS Mean of Difference|-0.818|STANDARD_ERROR_OF_MEAN|0.221||0.0002|TWO_SIDED|95.0|-1.252|-0.384||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 8||-0.384|-1.252|0.0002
92326362|NCT04542499|184557395|SUPERIORITY||LS Mean of Difference|-0.753|STANDARD_ERROR_OF_MEAN|0.227||0.001|TWO_SIDED|95.0|-1.199|-0.307||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 11||-0.307|-1.199|0.0010
92326363|NCT04542499|184557395|SUPERIORITY||LS Mean of Difference|-0.904|STANDARD_ERROR_OF_MEAN|0.254||0.0004|TWO_SIDED|95.0|-1.403|-0.405||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 14||-0.405|-1.403|0.0004
92326364|NCT04542499|184557395|SUPERIORITY||LS Mean of Difference|-1.024|STANDARD_ERROR_OF_MEAN|0.256|<|0.0001|TWO_SIDED|95.0|-1.528|-0.52||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 18||-0.520|-1.528|<0.0001
92326365|NCT04542499|184557395|SUPERIORITY||LS Mean of Difference|-0.979|STANDARD_ERROR_OF_MEAN|0.261||0.0002|TWO_SIDED|95.0|-1.493|-0.465||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 22||-0.465|-1.493|0.0002
92326366|NCT04542499|184557395|SUPERIORITY||LS Mean of Difference|-0.943|STANDARD_ERROR_OF_MEAN|0.271||0.0006|TWO_SIDED|95.0|-1.475|-0.41||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.410|-1.475|0.0006
92326367|NCT04542499|184557396|SUPERIORITY||LS Mean of Difference|0.4|STANDARD_ERROR_OF_MEAN|0.4||0.3265|TWO_SIDED|95.0|-0.4|1.2||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Part I||1.2|-0.4|0.3265
92326368|NCT04542499|184557396|SUPERIORITY||LS Mean of Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.52||0.0203|TWO_SIDED|95.0|-2.2|-0.2||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Part II||-0.2|-2.2|0.0203
92326369|NCT04542499|184557396|SUPERIORITY||LS Mean of Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.96||0.0118|TWO_SIDED|95.0|-4.3|-0.5||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Part III||-0.5|-4.3|0.0118
92326370|NCT04281784|184557438|SUPERIORITY||Risk Difference (RD)|0.0421||||0.027|TWO_SIDED|95.0|0.0047|0.0777||two-sided test, no adjustment for multiple comparisons|Regression, Linear|Occurrence of discussion regressed on randomization condition, adjusted for ADRD status, hospital, and time between study start \& randomization date.|Robust standard error|Usual care = reference group; intervention arm = comparison group||0.0777|0.0047|0.027
92326371|NCT04281784|184557440|SUPERIORITY||Mean Difference (Final Values)|-0.078|STANDARD_ERROR_OF_MEAN|0.246||0.75|TWO_SIDED|95.0|-0.56|0.404|||Regression, Linear|Outcome (days alive and out of ICU) regressed on Arm/Group (0=usual care, 1=intervention), adjusted for hospital and ADRD status|Robust (HC3) standard error|Superior outcome for Group 2||0.404|-0.560|0.750
92326372|NCT04281784|184557441|SUPERIORITY||Median Difference (Final Values)|-0.361|STANDARD_ERROR_OF_MEAN|0.357||0.312|TWO_SIDED|95.0|-1.06|0.338|||Regression, Linear|Outcome (days alive and out of hospital) regressed on Arm/Group (0=usual care, 1=intervention), adjusted for hospital and ADRD status|Robust (HC3) standard error|Superior outcome for Group 2||0.338|-1.060|0.312
92326373|NCT04281784|184557442|SUPERIORITY||Risk Difference (RD)|0.012||||0.475|TWO_SIDED|95.0|-0.02|0.043||two-sided test, no adjustment for multiple comparisons|Regression, Linear|Readmission (0, 1) regressed on randomization condition (0=usual care, 1=intervention), adjusted for ADRD status, and hospital site.|Robust standard error|Usual care = reference group; intervention arm = comparison group||0.043|-0.020|0.475
92201521|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.153||0.3461|TWO_SIDED|95.0|-0.45|0.16|||MMRM|||Somatic Symptoms GI, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.45|0.3461
92201522|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.162||0.0919|TWO_SIDED|95.0|-0.6|0.05|||MMRM|||Somatic Symptoms GI, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.60|0.0919
92201523|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.157||0.7554|TWO_SIDED|95.0|-0.36|0.26|||MMRM|||Somatic Symptoms GI, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.36|0.7554
92201524|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.166||0.015|TWO_SIDED|95.0|-0.74|-0.08|||MMRM|||Somatic Symptoms GI, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.08|-0.74|0.0150
92201525|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.16||0.0482|TWO_SIDED|95.0|-0.64|0.0|||MMRM|||Somatic Symptoms GI, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.64|0.0482
92201526|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.163||0.0003|TWO_SIDED|95.0|-0.93|-0.28|||MMRM|||Somatic Symptoms GI, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.28|-0.93|0.0003
92201527|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.156||0.1182|TWO_SIDED|95.0|-0.56|0.06|||MMRM|||Somatic Symptoms GI, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.56|0.1182
92201528|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.159||0.0008|TWO_SIDED|95.0|-0.87|-0.24|||MMRM|||Somatic Symptoms GI, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.24|-0.87|0.0008
92201529|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.154||0.1379|TWO_SIDED|95.0|-0.54|0.08|||MMRM|||Somatic Symptoms GI, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.54|0.1379
92201530|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.145||0.004|TWO_SIDED|95.0|-0.71|-0.14|||MMRM|||Somatic Symptoms GI, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.14|-0.71|0.0040
92201531|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.14||0.31|TWO_SIDED|95.0|-0.42|0.14|||MMRM|||Somatic Symptoms GI, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.42|0.3100
92201532|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.148||0.0003|TWO_SIDED|95.0|-0.85|-0.26|||MMRM|||Somatic Symptoms GI, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.26|-0.85|0.0003
92326374|NCT04281784|184557443|SUPERIORITY||Risk Difference (RD)|-0.009||||0.61|TWO_SIDED|95.0|-0.043|0.025||two-sided test, no adjustment for multiple comparisons|Regression, Linear|ICU care (0,1) regressed on randomization condition (0=usual care, 1=intervention), adjusted for ADRD status, and hospital site.|Robust standard error|Usual care = reference group; intervention arm = comparison group||0.025|-0.043|0.610
92326375|NCT04281784|184557444|SUPERIORITY|Higher cost indicates worse outcome. Missing if cost data unavailable from Finance Office.|Slope|0.022|STANDARD_ERROR_OF_MEAN|0.058||0.71|TWO_SIDED|95.0|-0.092|0.135|||other type of regression|Generalized linear model (gamma family, log link); Outcome on study arm (0=control, 1=intervention) adjusted for hospital and ADRD status, robust SEs.|Robust standard error|Superior outcome for Group 2||0.135|-0.092|0.710
92326376|NCT04281784|184557445|SUPERIORITY||Risk Difference (RD)|0.487|STANDARD_ERROR_OF_MEAN|0.899||0.588|TWO_SIDED|95.0|-1.275|2.249||two-sided test, no adjustment for multiple comparisons|Regression, Linear|Died within 30 days after randomization regressed on randomization condition (0=usual care, 1=intervention) adjusted for hospital and ADRD status|Robust standard error|Usual care=reference group; intervention arm = comparison group||2.249|-1.275|0.588
92326377|NCT04281784|184557446|SUPERIORITY|Higher cost indicates worse outcome. Missing if cost data unavailable from Finance Office.|Slope|-0.028|STANDARD_ERROR_OF_MEAN|0.069||0.685|TWO_SIDED|95.0|-0.162|0.107|||other type of regression|Generalized linear model (gamma family, log link); Outcome on study arm (0=control, 1=intervention) adjusted for hospital and ADRD status, robust SEs.|Robust standard error|Superior outcome for Group 2||0.107|-0.162|0.685
92326378|NCT04488497|184557458|SUPERIORITY|||||||0.005|||||||Chi-squared|||||||0.005
92326379|NCT04488497|184557459|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
92326380|NCT04488497|184557460|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
92326381|NCT04488497|184557461|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
92326382|NCT04488497|184557462|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.50
92326383|NCT04488497|184557463|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.90
92326384|NCT04488497|184557464|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.20
92326385|NCT04322539|184557465|SUPERIORITY||Stratified Hazard Ratio|0.662|||<|0.001|TWO_SIDED|95.0|0.549|0.8||Raw unadjusted p-value was obtained by using a stratified log-rank test accounting for the randomization schedule stratification factors.|stratified log-rank test||The HR between 2 treatment groups (fruquintinib vs placebo), together with its 95 percent (%) confidence interval (CI), was calculated from a stratified Cox proportional hazards model accounting for the randomization schedule stratification factors.|||0.800|0.549|< .001
92326386|NCT04322539|184557466|SUPERIORITY||Hazard Ratio (HR)|0.321|||<|0.001|TWO_SIDED|95.0|0.267|0.386||Raw unadjusted p-value was obtained by using a stratified log-rank test accounting for the randomization schedule stratification factors.|stratified log-rank test||The HR between the 2 treatment groups (fruquintinib vs placebo), together with its 95% CI, was calculated from a stratified Cox proportional hazards model accounting for the randomization schedule stratification factors.|||0.386|0.267|< .001
92326387|NCT04322539|184557467|SUPERIORITY||Adjusted difference|1.5||||0.059|TWO_SIDED|95.0|0.4|2.7||p-value was calculated from a stratified Cochran-Mantel Haenszel test accounting for the randomization schedule stratification factors.|Cochran-Mantel-Haenszel||The adjusted difference and its 95% CI were calculated using the Wald method from Cochran-Mantel Haenszel test to account for the randomization schedule stratification factors.|||2.7|0.4|.059
92326388|NCT04322539|184557468|SUPERIORITY||Adjusted difference|39.4|||<|0.001|TWO_SIDED|95.0|32.8|46.0||p-value was calculated from a stratified Cochran-Mantel Haenszel test accounting for the randomization schedule stratification factors.|Cochran-Mantel-Haenszel||The adjusted difference and its 95% CI were calculated using the Wald method from Cochran-Mantel Haenszel test to account for the randomization schedule stratification factors.|||46.0|32.8|<.001
92326389|NCT04322539|184557474|OTHER|||||||0.06|||||||Wald test|||CminSS Based on the Starting Dose for OS Exposure-Response Analyses||||0.0600
92326390|NCT04322539|184557474|OTHER|||||||0.8065|||||||Wald test|||CminSS Based on the Adjusted RDI for OS Exposure-Response Analyses||||0.8065
92326391|NCT04322539|184557475|OTHER|||||||0.265|||||||Wald test|||CmaxSS for Gr Dermatological toxicity for Exposure-Response Analyses.||||0.265
92326392|NCT04322539|184557475|OTHER|||||||0.0159|||||||Wald test|||CmaxSS for Gr3+ Dermatological Toxicity for Exposure-Response Analyses.||||0.0159
92326393|NCT04322539|184557475|OTHER|||||||0.484|||||||Wald test|||CmaxSS for Gr Proteinuria for Exposure-Response Analyses.||||0.484
92326394|NCT04322539|184557475|OTHER|||||||0.642|||||||Wald test|||CmaxSS for Gr3+ Proteinuria for Exposure-Response Analyses.||||0.642
92326395|NCT04322539|184557475|OTHER|||||||0.166|||||||Wald test|||CmaxSS for Gr Hemorrhage for Exposure-Response Analyses.||||0.166
92326396|NCT02111746|184557481|SUPERIORITY|||||||0.934|||||||Wilcoxon (Mann-Whitney)|||||||0.934
92326397|NCT02111746|184557482|SUPERIORITY|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||||||0.036
92326398|NCT02111746|184557483|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
92326399|NCT02111746|184557484|SUPERIORITY|||||||0.512|||||||Wilcoxon (Mann-Whitney)|||||||0.512
92326400|NCT02111746|184557485|SUPERIORITY|||||||0.449|||||||Wilcoxon (Mann-Whitney)|||||||0.449
92326401|NCT02111746|184557486|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
92326402|NCT02111746|184557487|SUPERIORITY|||||||0.774|||||||Wilcoxon (Mann-Whitney)|||||||0.774
92326403|NCT02111746|184557488|SUPERIORITY|||||||0.188|||||||Wilcoxon (Mann-Whitney)|||||||0.188
92326404|NCT02111746|184557489|SUPERIORITY|||||||0.202|||||||Wilcoxon (Mann-Whitney)|||||||0.202
92326405|NCT01702532|184557507|SUPERIORITY_OR_OTHER||LS Means Difference|-4.9||||0.0141|TWO_SIDED|95.0|-8.8|-0.99||The comparison between treatments was conducted in a hierarchical order; consequently no adjustment of the significance level (5%) for multiplicity was needed.|ANCOVA|ANCOVA model contains pre-provocation baseline, pre-dosing post-provocation craving score, and the terms treatment groups and center as fixed|Comment: The confidence interval is for the difference between treatments groups|Null hypotheses considered change in craving score means from pre-dose post-provocation at 50 seconds to be equal for the two treatment groups.||-0.99|-8.80|0.0141
92326406|NCT03617861|184557509|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Healthy Controls Secretin vs Healthy Controls Placebo||||0.12
92326407|NCT03617861|184557509|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.65
92326408|NCT03617861|184557509|SUPERIORITY|||||||0.0574|||||||ANCOVA|||Healthy Controls vs Functional Dyspepsia||||0.0574
92326409|NCT03617861|184557510|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Healthy Controls Secretin vs Healthy Controls Placebo||||0.85
92326410|NCT03617861|184557510|SUPERIORITY|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.82
92326411|NCT03617861|184557510|SUPERIORITY|||||||0.1451|||||||ANCOVA|||Healthy Controls vs Functional Dyspepsia||||0.1451
92326412|NCT03617861|184557511|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Healthy Controls Secretin vs Healthy Controls Placebo||||0.85
92326413|NCT03617861|184557511|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||1.0
92326414|NCT03617861|184557511|SUPERIORITY|||||||0.4233|||||||ANCOVA|||Healthy Controls vs Functional Dyspepsia||||0.4233
92326415|NCT03617861|184557512|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||Healthy Controls Secretin vs Healthy Controls Placebo||||0.92
92326416|NCT03617861|184557512|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||1.0
92326417|NCT03617861|184557512|SUPERIORITY|||||||0.3891|||||||ANCOVA|||Healthy Controls vs Functional Dyspepsia||||0.3891
92326418|NCT03617861|184557513|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Healthy Secretin vs Healthy Placebo||||0.004
92326419|NCT03617861|184557513|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.03
92326420|NCT03617861|184557513|SUPERIORITY|||||||0.0355|||||||ANCOVA|||Healthy vs Functional Dyspepsia||||0.0355
92326421|NCT03617861|184557514|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Nausea: Healthy Controls Secretin vs Healthy Controls Placebo||||0.5
92326422|NCT03617861|184557514|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Nausea: Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.16
92326423|NCT03617861|184557514|SUPERIORITY|||||||0.0016|||||||ANCOVA|||Nausea: Healthy Controls vs Functional Dyspepsia||||0.0016
92326424|NCT03617861|184557514|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Fullness: Healthy Controls Secretin vs Healthy Controls Placebo||||0.10
92326425|NCT03617861|184557514|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Fullness: Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.30
92326426|NCT03617861|184557514|SUPERIORITY|||||||0.0002|||||||ANCOVA|||Fullness: Healthy Controls vs Functional Dyspepsia||||0.0002
92326427|NCT03617861|184557514|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Bloating: Healthy Controls Secretin vs Healthy Controls Placebo||||0.41
92326428|NCT03617861|184557514|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Bloating Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.67
92326429|NCT03617861|184557514|SUPERIORITY|||||||0.033|||||||ANCOVA|||Bloating: Healthy Controls vs Functional Dyspepsia||||0.0330
92326430|NCT03617861|184557514|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Abdominal Pain: Healthy Controls Secretin vs Healthy Controls Placebo||||0.25
92326431|NCT03617861|184557514|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Abdominal Pain: Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.57
92326432|NCT03617861|184557514|SUPERIORITY|||||||0.2375|||||||ANCOVA|||Abdominal Pain: Healthy Controls vs Functional Dyspepsia||||0.2375
92326433|NCT00308750|184557522|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|||||||Log Rank|||||||0.40
92326434|NCT00308750|184557522|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19|||||||Log Rank|||||||0.19
92326435|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96||||||P-value is for the change in Total FACT-L at Cycle 1 (Week 3).|ANCOVA|||||||0.96
92326436|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15||||||P-value is for the change in Total FACT-L at Cycle 1 (Week 3).|ANCOVA|||||||0.15
92326437|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92||||||P-value is for the change in Total FACT-L at Cycle 2 (Week 6).|ANCOVA|||||||0.92
92326438|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97||||||P-value is for the change in Total FACT-L at Cycle 2 (Week 6).|ANCOVA|||||||0.97
92326439|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||||||P-value is for the change in Total FACT-L at Cycle 3 (Week 9).|ANCOVA|||||||0.71
92326440|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66||||||P-value is for the change in Total FACT-L at Cycle 3 (Week 9).|ANCOVA|||||||0.66
92326441|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93||||||P-value is for the change in Total FACT-L at Cycle 4 (Week 12).|ANCOVA|||||||0.93
92326442|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33||||||P-value is for the change in Total FACT-L at Cycle 4 (Week 12).|ANCOVA|||||||0.33
92326443|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||||||P-value is for the change in Total FACT-L at Cycle 5 (Week 15).|ANCOVA|||||||0.19
92326444|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4||||||P-value is for the change in Total FACT-L at Cycle 5 (Week 15).|ANCOVA|||||||0.40
92326445|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63||||||P-value is for the change in Total FACT-L at Cycle 6 (Week 18).|ANCOVA|||||||0.63
92326446|NCT00308750|184557526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||||||P-value is for the change in Total FACT-L at Cycle 6 (Week 18).|ANCOVA|||||||0.55
92326447|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93||||||P-value is for the change in Total FACT-Taxane at Cycle 1 (Week 3).|ANCOVA|||||||0.93
92326448|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86||||||P-value is for the change in Total FACT-Taxane at Cycle 1 (Week 3).|ANCOVA|||||||0.86
92326449|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69||||||P-value is for the change in Total FACT-Taxane at Cycle 2 (Week 6).|ANCOVA|||||||0.69
92326450|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||||||P-value is for the change in Total FACT-Taxane at Cycle 2 (Week 6).|ANCOVA|||||||0.77
92326451|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.83||||||P-value is for the change in Total FACT-Taxane at Cycle 3 (Week 9).|ANCOVA|||||||0.83
92326452|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78||||||P-value is for the change in Total FACT-Taxane at Cycle 3 (Week 9).|ANCOVA|||||||0.78
92326453|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||1||||||P-value is for the change in Total FACT-Taxane at Cycle 4 (Week 12).|ANCOVA|||||||1.00
92326454|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91||||||P-value is for the change in Total FACT-Taxane at Cycle 4 (Week 12).|ANCOVA|||||||0.91
92326455|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.49||||||P-value is for the change in Total FACT-Taxane at Cycle 5 (Week 15).|ANCOVA|||||||0.49
92326456|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53||||||P-value is for the change in Total FACT-Taxane at Cycle 5 (Week 15).|ANCOVA|||||||0.53
92326457|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8||||||P-value is for the change in Total FACT-Taxane at Cycle 6 (Week 18).|ANCOVA|||||||0.80
92326458|NCT00308750|184557527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85||||||P-value is for the change in Total FACT-Taxane at Cycle 6 (Week 18).|ANCOVA|||||||0.85
92326459|NCT00308750|184557528|SUPERIORITY_OR_OTHER_LEGACY|||||||0.87|||||||Log Rank|||||||0.87
92326460|NCT00308750|184557528|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Log Rank|||||||0.05
92326461|NCT00308750|184557531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71|||||||Log Rank|||||||0.71
92326462|NCT00308750|184557531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|||||||Log Rank|||||||0.04
92326463|NCT01643798|184557542|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
92326464|NCT01643798|184557542|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||||||0.04
92326465|NCT01643798|184557543|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||ANOVA|||||||.0003
92326466|NCT01643798|184557543|SUPERIORITY_OR_OTHER|||||||0.794||95.0|||||ANOVA|||||||0.794
92326467|NCT03409107|184557555|SUPERIORITY||LS Mean Difference|1.4|||<|0.0001|TWO_SIDED|95.0|1.23|1.56|||ANCOVA|One-sided p-value based on test of null hypothesis: (Daprodustat - Placebo) \<= 0 versus alternative: difference \> 0.|Treatment group comparisons were based on a ANCOVA model with terms for treatment, Baseline hemoglobin, and region.|||1.56|1.23|<0.0001
92326468|NCT03409107|184557556|SUPERIORITY||Difference in Response rate|0.56|||<|0.0001|TWO_SIDED|95.0|0.49|0.63||One-sided p-value was based on test of null hypothesis: (Daprodustat - Placebo) \<=0 versus alternative: difference \> 0|Cochran-Mantel-Haenszel||Treatment group comparisons were based on a Cochran-Mantel-Haenszel test adjusted for treatment group and region.|||0.63|0.49|<0.0001
92326469|NCT03409107|184557557|SUPERIORITY||LS Mean Difference|5.36||||0.0005|TWO_SIDED|95.0|2.17|8.56||One-sided p-value based on test of null hypothesis:(Daprodustat-Placebo) \<= 0 vs alternative: difference \> 0.|ANCOVA||Treatment group comparisons were based on ANCOVA model with terms for treatment, Baseline score, and region.|||8.56|2.17|0.0005
92326470|NCT03409107|184557558|SUPERIORITY||Difference in Response rate|0.45|||<|0.0001|TWO_SIDED|95.0|0.37|0.52||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|Cochran-Mantel-Haenszel||Treatment group comparisons are based on a Cochran-Mantel-Haenszel test adjusted for treatment group, and region|||0.52|0.37|<0.0001
92326471|NCT03409107|184557559|SUPERIORITY||Difference in treatment effect|38.8|||||TWO_SIDED|95.0|25.0|54.55|||Hodges-Lehmann Estimate|Hodges-Lehmann Estimate of treatment difference has been reported.||||54.55|25.00|
92326472|NCT03409107|184557560|SUPERIORITY||Difference in treatment effect|0.768|||<|0.0001|TWO_SIDED|95.0|0.729|0.806||One-sided superiority p-value from the van Elteren test|van Elteren test||Mann-Whitney estimate of the treatment difference stratified by region has been presented.|||0.806|0.729|<0.0001
92326473|NCT03409107|184557561|SUPERIORITY||LS Mean difference|1.36|||<|0.0001|TWO_SIDED|95.0|1.16|1.55||One-sided superiority p-value from the MMRM model|MMRM||Treatment group comparisons were based on MMRM fitted from Baseline up to Week 28, with factors for treatment, time, region, Baseline Hb and Baseline Hb by time and treatment by time interactions.|||1.55|1.16|<0.0001
92326474|NCT03409107|184557562|SUPERIORITY||Hazard Ratio (HR)|0.07||||0.0002|TWO_SIDED|95.0|0.02|0.3||One-sided p-value was based on Wald test of null hypothesis: (Daprodustat/Placebo) \>=1 versus alternative: ratio\<1.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model adjusted for treatment group and region.|||0.30|0.02|0.0002
92326475|NCT03409107|184557563|SUPERIORITY||Mean Difference (Net)|5.91|||<|0.0001|TWO_SIDED|95.0|2.83|9.0||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Tired/Low Energy/Weak domain.|||9.00|2.83|<0.0001
92326476|NCT03409107|184557563|SUPERIORITY||Mean Difference (Net)|2.93||||0.0152|TWO_SIDED|95.0|0.28|5.57||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Chest Pain/Shortness of Breath Domain.|||5.57|0.28|0.0152
92326477|NCT03409107|184557563|SUPERIORITY||Mean Difference (Net)|3.79||||0.0045|TWO_SIDED|95.0|0.95|6.63||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Cognitive Domain.|||6.63|0.95|0.0045
92326478|NCT03409107|184557563|SUPERIORITY||Mean Difference (Net)|2.61||||0.1267|TWO_SIDED|95.0|-1.87|7.09||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Difficulty Sleeping|||7.09|-1.87|0.1267
92326479|NCT03409107|184557563|SUPERIORITY||Mean Difference (Net)|4.64||||0.0203|TWO_SIDED|95.0|0.2|9.09||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Difficulty Standing for Long Periods of Time|||9.09|0.20|0.0203
92326480|NCT03409107|184557563|SUPERIORITY||Mean Difference (Net)|2.68||||0.0266|TWO_SIDED|95.0|-0.04|5.39||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Severity of Shortness of Breath While Sitting or Resting|||5.39|-0.04|0.0266
92326481|NCT03409107|184557563|SUPERIORITY||Mean Difference (Net)|2.01||||0.0907|TWO_SIDED|95.0|-0.94|4.96||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Time with Shortness of Breath While not Doing an Activity|||4.96|-0.94|0.0907
92326482|NCT03409107|184557564|SUPERIORITY||Mean Difference (Net)|-0.13||||0.0391|TWO_SIDED|95.0|-0.28|0.02||One-sided p-value was based on test of null hypothesis: (Daprodustat-rhEPO) \>=0 versus alternative: difference \<0|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.02|-0.28|0.0391
92326483|NCT03409107|184557565|SUPERIORITY||Mean Difference (Net)|2.57||||0.0858|TWO_SIDED|95.0|-1.12|6.26||One sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 vs. alternative: difference \>0.|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions.|||6.26|-1.12|0.0858
92326484|NCT03409107|184557566|SUPERIORITY||Mean Difference (Net)|0.17||||0.0357|TWO_SIDED|95.0|-0.02|0.36||One sided p-value based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Did you feel full of life?.|||0.36|-0.02|0.0357
92326485|NCT03409107|184557566|SUPERIORITY||Mean Difference (Net)|0.17||||0.0328|TWO_SIDED|95.0|-0.01|0.35||One-sided p-value based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Did you have a lot of energy?.|||0.35|-0.01|0.0328
92326486|NCT03409107|184557566|SUPERIORITY||Mean Difference (Net)|0.18||||0.0252|TWO_SIDED|95.0|0.0|0.37||One-sided p-value based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Did you feel worn out?.|||0.37|0.00|0.0252
92326487|NCT03409107|184557566|SUPERIORITY||Mean Difference (Net)|0.26||||0.001|TWO_SIDED|95.0|0.1|0.42||One-sided p-value based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Did you feel tired?.|||0.42|0.10|0.0010
92326488|NCT03409107|184557573|SUPERIORITY||Mean Difference (Net)|0.03||||0.1098|TWO_SIDED|95.0|-0.02|0.07||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus. alternative: difference \>0.|MMRM||Based on MMRM model fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.07|-0.02|0.1098
92326489|NCT03409107|184557574|SUPERIORITY||Mean Difference (Net)|4.5||||0.012|TWO_SIDED|95.0|0.6|8.4||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 vs. alternative: difference \>0.|MMRM||MMRM model fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions.|||8.40|0.60|0.0120
92326490|NCT03409107|184557575|SUPERIORITY||Mean Difference (Net)|0.4||||0.6106|TWO_SIDED|95.0|-2.42|3.22||"One-sided p-value was based on test of null hypothesis: (Daprodustat - Placebo) \>= 0 versus alternative:~difference \<0"|MMRM||MMRM model fitted from Baseline up to Week 28, with factors for treatment, time, region, Baseline SBP and Baseline SBP by time and treatment by time interactions.|||3.22|-2.42|0.6106
92326491|NCT03409107|184557575|SUPERIORITY||Mean Difference (Net)|1.8||||0.9819|TWO_SIDED|95.0|0.12|3.49||"One-sided p-value was based on test of null hypothesis: (Daprodustat - Placebo) \>= 0 versus alternative:~difference \< 0"|MMRM||MMRM model fitted from Baseline up to Week 28, with factors for treatment, time, region, Baseline DBP and Baseline DBP by time and treatment by time interactions.|||3.49|0.12|0.9819
92326492|NCT03409107|184557575|SUPERIORITY||Mean Difference (Net)|1.31||||0.9215|TWO_SIDED|95.0|-0.51|3.13||"One-sided p-value was based on test of null hypothesis: (Daprodustat - Placebo) \>= 0 versus alternative:~difference \<0"|MMRM||MMRM model fitted from Baseline up to Week 28, with factors for treatment, time, region, Baseline MAP and Baseline MAP by time and treatment by time interactions.|||3.13|-0.51|0.9215
92326493|NCT03409107|184557576|SUPERIORITY||Difference in Response rate|0.06||||0.068|TWO_SIDED|95.0|-0.02|0.13||One-sided p-value based on test of null hypothesis: (Daprodustat - Placebo) \<= 0 versus alternative: difference \> 0.|Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel test was performed for treatment group comparison.|||0.13|-0.02|0.0680
92326494|NCT01482962|184557587|SUPERIORITY||Odds Ratio (OR)|0.6||||0.038|TWO_SIDED|95.0|0.33|1.08||P-value was stratified using disease type, International Prognostic Index (IPI) Score and region as stratification factors.|Cochran-Mantel-Haenszel|||||1.08|0.33|0.038
92326495|NCT01482962|184557588|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.177|TWO_SIDED|95.0|0.637|1.178|||Stratified Log Rank||Hazard ratio (HR) was based on a stratified Cox's proportional hazard regression model with stratification factors: disease type, IPI Score and region with treatment as a factor in the model.|||1.178|0.637|0.177
92326496|NCT01482962|184557589|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.338|TWO_SIDED|95.0|0.707|1.369|||Stratified Log-rank Test||Hazard ratio (HR) was based on a stratified Cox's proportional hazard regression model with stratification factors: disease type, IPI Score and region with treatment as a factor in the model.|||1.369|0.707|0.338
92326497|NCT01482962|184557594|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.362|TWO_SIDED|95.0|0.679|1.329|||Stratified Log Rank||Hazard ratio was based on a stratified Cox's proportional hazard regression model with stratification factors: disease type, IPI Score and region with treatment as a factor in the model.|||1.329|0.679|0.362
92326498|NCT01152359|184557631|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.05|TWO_SIDED|95.0|-0.8|2.9|||Mixed Models Analysis|||||2.9|-0.8|<0.05
92326499|NCT01152359|184557632|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.66|TWO_SIDED|95.0|-4.9|3.1|||Mixed Models Analysis|||||3.1|-4.9|0.66
92326500|NCT01152359|184557633|SUPERIORITY||Mean Difference (Net)|-0.8||||0.65|TWO_SIDED|95.0|-4.1|2.6|||Mixed Models Analysis|||||2.6|-4.1|0.65
92326501|NCT05007041|184557666|NON_INFERIORITY|The one-sided non-inferiority test with the alpha level set at 0.025 and non-inferiority margin of 10%, stratified by site.|Difference in proportions|-0.96||||0.0037|TWO_SIDED|95.0|-8.94|7.1|||Difference in proportions|The upper bound of a site-stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.||The null hypothesis is simultaneous vaccination with RZV and allV4 is inferior (i.e., RZV and allV4 will have a higher proportion) to RZV and HD-IIV4 with regard to the proportion of adults with at least one severe (Grade 3) solicited local or systemic reactogenicity event on days 1-8 after RZV dose||7.10|-8.94|0.0037
92326502|NCT05007041|184557667|OTHER|Difference in proportions|Difference in proportions|-7.77|||||TWO_SIDED|95.0|-20.22|4.69||||||||4.69|-20.22|
92326503|NCT05007041|184557668|OTHER|Difference in proportions|Difference in proportions|2.59|||||TWO_SIDED|95.0|-7.29|12.47||||||||12.47|-7.29|
92326504|NCT05007041|184557669|NON_INFERIORITY|The one-sided non-inferiority test with the alpha level set at 0.025 and non-inferiority margin of 10%, stratified by site.|Difference in proportions|1.74||||0.0031|TWO_SIDED|95.0|-4.04|7.77||The upper bound of a site-stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Difference in proportions|||Number of Participants With at Least One Severe (Grade 3) Solicited Local Reactogenicity Event After SHINGRIX® Dose 1 in Each Study Group||7.77|-4.04|0.0031
92326505|NCT05007041|184557670|OTHER|Difference in proportions|Difference in proportions|-6.25|||||TWO_SIDED|95.0|-13.1|0.6|||Difference in proportions|||||0.60|-13.10|
92326506|NCT05007041|184557671|OTHER|Difference in proportions|Difference in proportions|5.89|||||TWO_SIDED|95.0|-1.32|13.11|||Difference in proportions|||||13.11|-1.32|
92326507|NCT05007041|184557672|NON_INFERIORITY|The one-sided non-inferiority test with the alpha level set at 0.025 and non-inferiority margin of 10%, stratified by site.|Difference in proportions|-4.17|||<|0.0001|TWO_SIDED|95.0|-10.9|2.47|||Difference in proportions|The upper bound of a site-stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.||||2.47|-10.90|<0.0001
92326508|NCT05007041|184557673|OTHER|Difference in proportions|Difference in proportions|-5.68|||||TWO_SIDED|95.0|-17.64|6.28|||Difference in proportions|||||6.28|-17.64|
92326509|NCT05007041|184557674|OTHER|Difference in proportions|Difference in proportions|-3.3|||||TWO_SIDED|95.0|-10.5|3.89|||Difference in proportions|||||3.89|-10.50|
92326510|NCT05007041|184557675|OTHER|Difference in proportions|Difference in proportions|-0.73|||||TWO_SIDED|95.0|-2.16|0.7|||Difference in proportions|||||0.70|-2.16|
92326511|NCT05007041|184557676|OTHER|The proportion and 95% exact binomial confidence interval between vaccine groups.|Difference in proportions|-2.88|||||TWO_SIDED|95.0|-6.36|0.6|||Difference in proportions|||||0.60|-6.36|
92326512|NCT02901275|184557683|SUPERIORITY|||||||0.61||||||No covariate or correction for multiple comparisons. a priori statistical threshold is p\<.05|Mixed Models Analysis|||||||0.61
92326513|NCT02901275|184557684|SUPERIORITY||||||<|0.0001||||||No covariates or correction for multiple comparisons. a priori threshold is p\<.05.|Mixed Models Analysis|||||||<.0001
92326514|NCT02901275|184557685|SUPERIORITY|||||||0.51||||||No covariate or correction for multiple comparisons. a priori threshold for significance is p\<.05|Mixed Models Analysis|||||||0.51
92326515|NCT01258075|184557694|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.21||0.5494|TWO_SIDED|95.0|-0.54|0.29|||ANCOVA|Based on a mixed effect ANCOVA model with treatment and previous type 2 diabetes treatment stratum as fixed effects and baseline as a covariate.||||0.29|-0.54|0.5494
92326516|NCT02951533|184557715|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
92326517|NCT00606554|184557778|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.60
92326518|NCT00606554|184557782|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
92326519|NCT00606554|184557785|SUPERIORITY_OR_OTHER|||||||0.9|||||||Chi-squared|||||||0.90
92326520|NCT04464720|184557792|OTHER|||||||0.05|||||||Wilcoxon Ranked Sum|||comparing pre and post intervention PM2.5||||0.050
92326521|NCT04464720|184557795|OTHER|||||||0.043|||||||Wilcoxon Ranked Sum|||comparing pre v post intervention NO2||||0.043
92326522|NCT04464720|184557798|OTHER|||||||0.056|||||||Wilcoxon Ranked Sum|||comparing FVC pre and post intervention||||0.056
92326523|NCT04464720|184557799|OTHER|||||||0.058|||||||Wilcoxon Signed Rank|||Comparing FEV1 pre and post intervention||||0.058
92326524|NCT04464720|184557801|OTHER|||||||0.058|||||||Wilcoxon Ranked Sum|||comparing FeNO pre v post intervention||||0.058
92326525|NCT02156895|184557815|OTHER||Odds Ratio (OR)|1.1||||0.1244|TWO_SIDED|95.0|0.97|1.24|||Regression, Logistic|Multiple logistic regression including total duration of treatment with Inlyta as factor||||1.24|0.97|0.1244
92326526|NCT02156895|184557821|OTHER||Odds Ratio (OR)|1.11||||0.0109|TWO_SIDED|95.0|1.02|1.2|||Regression, Logistic|Multiple logistic regression including total duration of treatment with Inlyta as factor||||1.2|1.02|0.0109
92326527|NCT02417961|184557841|SUPERIORITY_OR_OTHER||Percentage|98.2||||||95.0|93.81|99.79|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of patients who successfully administered benralizumab with an APFS at home (Week 12)|||99.79|93.81|
92326528|NCT02417961|184557841|SUPERIORITY_OR_OTHER||Percentage|99.1|||||TWO_SIDED|95.0|94.99|99.98|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 16)|Percentage of patients who successfully administered benralizumab with an APFS at home (Week 16)|||99.98|94.99|
92326529|NCT02417961|184557841|SUPERIORITY_OR_OTHER||Percentage|93.0|||||TWO_SIDED|95.0|86.64|96.92|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12 and 16)|Percentage of patients who successfully administered benralizumab with an APFS at home (Week 12 and 16)|||96.92|86.64|
92326530|NCT02417961|184557842|SUPERIORITY_OR_OTHER||Percentage|99.1|||||TWO_SIDED|95.0|95.21|99.98|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of patients returned functional APFS administered at home (Week 12)|||99.98|95.21|
92326531|NCT02417961|184557842|SUPERIORITY_OR_OTHER||Percentage|99.1|||||TWO_SIDED|95.0|94.99|99.98|||Clopper Pearson Exact CI|One sample confidence interval (Week 16)|Percentage of patients returned functional APFS administered at home (Week 16)|||99.98|94.99|
92326532|NCT02417961|184557843|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|3.13|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0)|Percentage of mulfunctioning APFS used to administer benralizumab at home or clinic (Week 0)|||3.13|0.00|
92326533|NCT02417961|184557843|SUPERIORITY_OR_OTHER||Percentage|0.9|||||TWO_SIDED|95.0|0.02|4.67|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 4)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 4)|||4.67|0.02|
92326534|NCT02417961|184557843|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|3.16|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 8)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 8)|||3.16|0.00|
92326535|NCT02417961|184557843|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|3.13|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 12)|||3.13|0.00|
92201533|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.143||0.0223|TWO_SIDED|95.0|-0.61|-0.05|||MMRM|||Somatic Symptoms GI, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.05|-0.61|0.0223
92201534|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.166||0.0276|TWO_SIDED|95.0|-0.7|-0.04|||MMRM|||Somatic Symptoms GI, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-0.70|0.0276
92201535|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.161||0.8516|TWO_SIDED|95.0|-0.35|0.29|||MMRM|||Somatic Symptoms GI, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.35|0.8516
92201536|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.186||0.1669|TWO_SIDED|95.0|-0.63|0.11|||MMRM|||Somatic Symptoms GI, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.63|0.1669
92201537|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.18||0.4935|TWO_SIDED|95.0|-0.48|0.23|||MMRM|||Somatic Symptoms GI, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.48|0.4935
92201538|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.197||0.0202|TWO_SIDED|95.0|-0.86|-0.07|||MMRM|||Somatic Symptoms GI, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.07|-0.86|0.0202
92326536|NCT02417961|184557843|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|3.33|||Clopper-Pearson Exact CI|One sample Confidence Interval (Week 16)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 16)|||3.33|0|
92326537|NCT02417961|184557843|SUPERIORITY_OR_OTHER||Percentage|0.3|||||TWO_SIDED|95.0|0.01|1.59|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0 to 8)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 0 to 8)|||1.59|0.01|
92201539|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.188||0.2683|TWO_SIDED|95.0|-0.58|0.16|||MMRM|||Somatic Symptoms GI, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.58|0.2683
92268659|NCT00464308|184439264|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation was based upon the number of patients acheiveing complete resolution of HEARTBURN. A sample size of 450 subjects per arm will give a 90% power (with a one-sided 95% confidence interval and a minimal clinically important difference of 9%) to demonstrate non-inferiority of rabeprazole 20mg to esomeprazole 40mg with respect to the number of patients with complete resolution of heartburn with or without regurgitation at week 4|Proportion difference|-0.053|||<|0.05||95.0||||Adjustment for multiple comparisons was not made. The a priori threshold for statistical significance was p\<0.05. Tests were 2-sided except for the non-inferiority test which was 1-sided.|non-inferiority||Non inferiority was considered proven if the lower confidence interval of the one sided 95% CI of P(rab20)-P(e40) was above -9%|Primary endpoints were assessed using non-inferiority tests. See below.||||<0.05
92326538|NCT02417961|184557843|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|1.63|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12 to 16)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 12 to 16)|||1.63|0.00|
92326539|NCT02417961|184557843|SUPERIORITY_OR_OTHER||Percentage|0.2|||||TWO_SIDED|95.0|0.0|0.97|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0 to 16)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 0 to 16)|||0.97|0.00|
92326540|NCT01390428|184557848|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio (GMR)|1.21|||||TWO_SIDED|90.0|0.73|2.01|||||Mild Hepatic Impairment (HI)/Healthy Matched to Mild HI|Day 1||2.01|0.73|
92326541|NCT01390428|184557848|SUPERIORITY_OR_OTHER||GMR|1.66|||||TWO_SIDED|90.0|1.05|2.61|||||Mild HI/Healthy Matched to Mild HI|Day 10||2.61|1.05|
92326542|NCT01390428|184557848|SUPERIORITY_OR_OTHER||GMR|5.03|||||TWO_SIDED|90.0|2.19|11.56|||||Moderate HI/Healthy Matched to Moderate HI|Day 1||11.56|2.19|
92326543|NCT01390428|184557848|SUPERIORITY_OR_OTHER||GMR|4.82|||||TWO_SIDED|90.0|2.6|8.93|||||Moderate HI/Healthy Matched to Moderate HI|Day 10||8.93|2.60|
92326544|NCT01390428|184557848|SUPERIORITY_OR_OTHER||GMR|19.83|||||TWO_SIDED|90.0|8.11|48.51|||||Severe HI/Healthy Matched to Severe HI|Day 1||48.51|8.11|
92326545|NCT01390428|184557848|SUPERIORITY_OR_OTHER||GMR|11.68|||||TWO_SIDED|90.0|6.1|22.35|||||Severe HI/Healthy Matched to Severe HI|Day 10||22.35|6.10|
92326546|NCT01390428|184557849|SUPERIORITY_OR_OTHER||GMR|0.84|||||TWO_SIDED|90.0|0.35|2.01|||||Mild HI/Healthy Matched to Mild HI|Day 1||2.01|0.35|
92326547|NCT01390428|184557849|SUPERIORITY_OR_OTHER||GMR|1.37|||||TWO_SIDED|90.0|0.83|2.27|||||Mild HI/Healthy Matched to Mild HI|Day 10||2.27|0.83|
92201540|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.165||0.0531|TWO_SIDED|95.0|-0.65|0.0|||MMRM|||Somatic Symptoms GI, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.65|0.0531
92201541|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.16||0.5609|TWO_SIDED|95.0|-0.41|0.22|||MMRM|||Somatic Symptoms GI, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.41|0.5609
92201542|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.123||0.6779|TWO_SIDED|95.0|-0.3|0.19|||MMRM|||Somatic Symptoms General, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.30|0.6779
92201543|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.119||0.4559|TWO_SIDED|95.0|-0.15|0.32|||MMRM|||Somatic Symptoms General, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.15|0.4559
92201544|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.133||0.2254|TWO_SIDED|95.0|-0.43|0.1|||MMRM|||Somatic Symptoms General, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.43|0.2254
92326548|NCT01390428|184557849|SUPERIORITY_OR_OTHER||GMR|7.64|||||TWO_SIDED|90.0|2.74|21.27|||||Moderate HI/Healthy Matched to Moderate HI|Day 1||21.27|2.74|
92326549|NCT01390428|184557849|SUPERIORITY_OR_OTHER||GMR|5.98|||||TWO_SIDED|90.0|2.84|12.57|||||Moderate HI/Healthy Matched to Moderate HI|Day 10||12.57|2.84|
92326550|NCT01390428|184557849|SUPERIORITY_OR_OTHER||GMR|15.18|||||TWO_SIDED|90.0|6.02|38.25|||||Severe HI/Healthy Matched to Severe HI|Day 1||38.25|6.02|
92201545|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.129||0.6437|TWO_SIDED|95.0|-0.32|0.2|||MMRM|||Somatic Symptoms General, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.32|0.6437
92201546|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.133||0.6678|TWO_SIDED|95.0|-0.32|0.21|||MMRM|||Somatic Symptoms General, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.32|0.6678
92326551|NCT01390428|184557849|SUPERIORITY_OR_OTHER||GMR|13.01|||||TWO_SIDED|90.0|6.0|28.21|||||Severe HI/Healthy Matched to Severe HI|Day 10||28.21|6.00|
92326552|NCT01390428|184557851|SUPERIORITY_OR_OTHER||GMR|1.86|||||TWO_SIDED|90.0|1.54|2.24|||||Mild HI/Healthy Matched to Mild HI|||2.24|1.54|
92201547|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.129||0.9321|TWO_SIDED|95.0|-0.27|0.24|||MMRM|||Somatic Symptoms General, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.27|0.9321
92326553|NCT01390428|184557851|SUPERIORITY_OR_OTHER||GMR|2.99|||||TWO_SIDED|90.0|1.31|6.82|||||Moderate HI/Healthy Matched to Moderate HI|||6.82|1.31|
92326554|NCT01390428|184557853|SUPERIORITY_OR_OTHER||GMR|1.92|||||TWO_SIDED|90.0|1.4|2.63|||||Mild HI/Healthy Matched to Mild HI|||2.63|1.40|
92326555|NCT01390428|184557853|SUPERIORITY_OR_OTHER||GMR|3.59|||||TWO_SIDED|90.0|1.81|7.11|||||Moderate HI/Healthy Matched to Moderate HI|||7.11|1.81|
92326556|NCT01390428|184557853|SUPERIORITY_OR_OTHER||GMR|9.34|||||TWO_SIDED|90.0|4.98|17.51|||||Severe HI/Healthy Matched to Severe HI|||17.51|4.98|
92326557|NCT05897827|184557855|OTHER|We calculated the mean and 95% confidence interval using a one sample two-sided t-test against the a priori benchmark of success, which was \> 3.75.|Mean|3.93||||0.074|TWO_SIDED|95.0|3.73|4.13||Threshold for statistical significance: \<0.05|t-test, 2 sided|||||4.13|3.73|0.074
92326558|NCT05897827|184557856|OTHER|We calculated the mean and 95% confidence interval using a one sample two-sided t-test against the a priori benchmark of success, which was \> 75.|Mean|75.47||||0.827|TWO_SIDED|95.0|71.12|79.83||Threshold for statistical significance: \<0.05|t-test, 2 sided|||||79.83|71.12|0.827
92326559|NCT05897827|184557857|OTHER|We calculated the mean and 95% confidence interval using a one sample two-sided t-test against the a priori benchmark of success, which was \> 3.75.|Mean|4.01||||0.003|TWO_SIDED|95.0|3.84|4.17||Threshold for statistical significance: \<0.05|t-test, 2 sided|||||4.17|3.84|0.003
92326560|NCT05897827|184557858|OTHER|We calculated the mean and 95% confidence interval using a one sample two-sided t-test against the a priori benchmark of success, which was \> 3.75.|Mean|4.01||||0.002|TWO_SIDED|95.0|3.85|4.18||Threshold for statistical significance: \<0.05|t-test, 2 sided|||||4.18|3.85|0.002
92326561|NCT05897827|184557862|OTHER|To test for within-arm statistical significance, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.22||||0.03|TWO_SIDED|95.0|0.03|0.42||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.42|0.03|0.03
92326562|NCT05897827|184557862|OTHER|To test for within-arm statistical significance, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.01||||0.95|TWO_SIDED|95.0|-0.36|0.38||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.38|-0.36|0.95
92326563|NCT05897827|184557863|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in LGBTQ+ Inclusivity, Awareness, and Advocacy, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.7|||<|0.001|TWO_SIDED|95.0|0.46|0.95||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.95|0.46|<0.001
92326564|NCT05897827|184557863|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in LGBTQ+ Inclusivity, Awareness, and Advocacy, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.45||||0.01|TWO_SIDED|95.0|0.1|0.8||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.80|0.10|0.01
92326565|NCT05897827|184557863|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in Identity-Affirming Practices, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.26||||0.001|TWO_SIDED|95.0|0.11|0.41||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.41|0.11|0.001
92326566|NCT05897827|184557863|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in Identity-Affirming Practices, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.13||||0.01|TWO_SIDED|95.0|0.03|0.24||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.24|0.03|0.01
92326567|NCT05897827|184557863|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in Inclusivity in Restrooms and Changing Options, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.43||||0.001|TWO_SIDED|95.0|0.18|0.68||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.68|0.18|0.001
92201548|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.157||0.9778|TWO_SIDED|95.0|-0.31|0.32|||MMRM|||Somatic Symptoms General, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.31|0.9778
92326568|NCT05897827|184557863|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in Inclusivity in Restrooms and Changing Options, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.44||||0.04|TWO_SIDED|95.0|0.02|0.86||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.86|0.02|0.04
92326569|NCT05897827|184557864|OTHER|To test for within-arm statistical significance of the change in Notice the Event, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.23||||0.1|TWO_SIDED|95.0|-0.5|0.04||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.04|-0.50|0.10
92326570|NCT05897827|184557864|OTHER|To test for within-arm statistical significance of the change in Notice the Event, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.24||||0.14|TWO_SIDED|95.0|-0.55|0.07||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.07|-0.55|0.14
92326571|NCT05897827|184557864|OTHER|To test for within-arm statistical significance of the change in Interpret the Event as an Emergency, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.19||||0.07|TWO_SIDED|95.0|-0.39|0.01||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.01|-0.39|0.07
92326572|NCT05897827|184557864|OTHER|To test for within-arm statistical significance of the change in Interpret the Event as an Emergency, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.02||||0.85|TWO_SIDED|95.0|-0.18|0.22||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.22|-0.18|0.85
92326573|NCT05897827|184557864|OTHER|To test for within-arm statistical significance of the change in Accept Responsibility for Intervening, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.15||||0.06|TWO_SIDED|95.0|-0.3|0.01||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.01|-0.30|0.06
92326574|NCT05897827|184557864|OTHER|To test for within-arm statistical significance of the change in Accept Responsibility for Intervening, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.07||||0.51|TWO_SIDED|95.0|-0.14|0.28||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.28|-0.14|0.51
92326575|NCT05897827|184557864|OTHER|To test for within-arm statistical significance of the change in Know How to Intervene, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.33||||0.001|TWO_SIDED|95.0|0.13|0.53||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.53|0.13|0.001
92326576|NCT05897827|184557864|OTHER|To test for within-arm statistical significance of the change in Know How to Intervene, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.28||||0.04|TWO_SIDED|95.0|0.01|0.55||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.55|0.01|0.04
92326577|NCT05897827|184557864|OTHER|To test for within-arm statistical significance of the change in Implement Intervention Decisions, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.06||||0.36|TWO_SIDED|95.0|-0.19|0.07||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.07|-0.19|0.36
92326578|NCT05897827|184557864|OTHER|To test for within-arm statistical significance of the change in Implement Intervention Decisions, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.03||||0.62|TWO_SIDED|95.0|-0.16|0.1||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.10|-0.16|0.62
92326579|NCT05897827|184557865|OTHER|To test for within-arm statistical significance of the change in Notice the Event, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.15||||0.08|TWO_SIDED|95.0|-0.32|0.02||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.02|-0.32|0.08
92326580|NCT05897827|184557865|OTHER|To test for within-arm statistical significance of the change in Notice the Event, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.21||||0.2|TWO_SIDED|95.0|-0.55|0.12||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.12|-0.55|0.20
92326581|NCT05897827|184557865|OTHER|To test for within-arm statistical significance of the change in Interpret the Event as an Emergency, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.02||||0.74|TWO_SIDED|95.0|-0.14|0.1||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.10|-0.14|0.74
92326582|NCT05897827|184557865|OTHER|To test for within-arm statistical significance of the change in Interpret the Event as an Emergency, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.05||||0.55|TWO_SIDED|95.0|-0.12|0.23||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.23|-0.12|0.55
92326583|NCT05897827|184557865|OTHER|To test for within-arm statistical significance of the change in Accept Responsibility for Intervening, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.07||||0.4|TWO_SIDED|95.0|-0.22|0.09||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.09|-0.22|0.40
92326584|NCT05897827|184557865|OTHER|To test for within-arm statistical significance of the change in Accept Responsibility for Intervening, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.12||||0.36|TWO_SIDED|95.0|-0.37|0.13||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.13|-0.37|0.36
92326585|NCT05897827|184557865|OTHER|To test for within-arm statistical significance of the change in Know How to Intervene, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.39|||<|0.001|TWO_SIDED|95.0|0.18|0.6||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.60|0.18|<0.001
92326586|NCT05897827|184557865|OTHER|To test for within-arm statistical significance of the change in Know How to Intervene, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.12||||0.41|TWO_SIDED|95.0|-0.16|0.39||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.39|-0.16|0.41
92326587|NCT05897827|184557865|OTHER|To test for within-arm statistical significance of the change in Implement Intervention Decisions, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.01||||0.92|TWO_SIDED|95.0|-0.22|0.2||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.20|-0.22|0.92
92326588|NCT05897827|184557865|OTHER|To test for within-arm statistical significance of the change in Implement Intervention Decisions, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.14||||0.37|TWO_SIDED|95.0|-0.16|0.44||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.44|-0.16|0.37
92326589|NCT05897827|184557866|OTHER|To test for within-arm statistical significance, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.44|||<|0.001|TWO_SIDED|95.0|0.28|0.59||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.59|0.28|<0.001
92326590|NCT05897827|184557866|OTHER|To test for within-arm statistical significance, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.49|||<|0.001|TWO_SIDED|95.0|0.29|0.69||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.69|0.29|<0.001
92326591|NCT03339726|184557868|SUPERIORITY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.22||0.3|TWO_SIDED|95.0|-0.205|0.662||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.662|-0.205|0.300
92326592|NCT03339726|184557868|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.222||0.569|TWO_SIDED|95.0|-0.311|0.564||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.564|-0.311|0.569
92201549|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.152||0.9307|TWO_SIDED|95.0|-0.29|0.31|||MMRM|||Somatic Symptoms General, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.29|0.9307
92201550|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.172||0.6791|TWO_SIDED|95.0|-0.41|0.27|||MMRM|||Somatic Symptoms General, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.41|0.6791
92201551|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.167||0.7769|TWO_SIDED|95.0|-0.28|0.38|||MMRM|||Somatic Symptoms General, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.38|-0.28|0.7769
92201552|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.163||0.7206|TWO_SIDED|95.0|-0.38|0.26|||MMRM|||Somatic Symptoms General, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.38|0.7206
92201553|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.156||0.3549|TWO_SIDED|95.0|-0.45|0.16|||MMRM|||Somatic Symptoms General, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.45|0.3549
92201554|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.164||0.0231|TWO_SIDED|95.0|-0.7|-0.05|||MMRM|||Somatic Symptoms General, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.05|-0.70|0.0231
92201555|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.159||0.145|TWO_SIDED|95.0|-0.55|0.08|||MMRM|||Somatic Symptoms General, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.55|0.1450
92201556|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.162||0.0855|TWO_SIDED|95.0|-0.6|0.04|||MMRM|||Somatic Symptoms General, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.60|0.0855
92201557|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.157||0.3068|TWO_SIDED|95.0|-0.47|0.15|||MMRM|||Somatic Symptoms General, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.47|0.3068
92201558|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.164||0.0069|TWO_SIDED|95.0|-0.77|-0.13|||MMRM|||Somatic Symptoms General, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.13|-0.77|0.0069
92326593|NCT03339726|184557868|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.22||0.645|TWO_SIDED|95.0|-0.537|0.333||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.333|-0.537|0.645
92201559|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.159||0.2174|TWO_SIDED|95.0|-0.51|0.12|||MMRM|||Somatic Symptoms General, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.51|0.2174
92326594|NCT03339726|184557869|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.26||0.346|TWO_SIDED|95.0|-0.267|0.759||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.759|-0.267|0.346
92326595|NCT03339726|184557869|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.263||0.938|TWO_SIDED|95.0|-0.498|0.539||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.539|-0.498|0.938
92326596|NCT03339726|184557869|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.261||0.389|TWO_SIDED|95.0|-0.741|0.289||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.289|-0.741|0.389
92326597|NCT03339726|184557870|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.23||0.607|TWO_SIDED|95.0|-0.33|0.57|||ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.57|-0.33|0.607
92326598|NCT03339726|184557870|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.232||0.085|TWO_SIDED|95.0|-0.06|0.86||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.86|-0.06|0.085
92326599|NCT03339726|184557870|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.23||0.22|TWO_SIDED|95.0|-0.17|0.74||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.74|-0.17|0.220
92326600|NCT03339726|184557871|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.271||0.633|TWO_SIDED|95.0|-0.4|0.66||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.66|-0.40|0.633
92326601|NCT03339726|184557871|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.273||0.952|TWO_SIDED|95.0|-0.52|0.56||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.56|-0.52|0.952
92326602|NCT03339726|184557871|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.272||0.678|TWO_SIDED|95.0|-0.65|0.42||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.42|-0.65|0.678
92326603|NCT03339726|184557872|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.25||0.126|TWO_SIDED|95.0|-0.11|0.88||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.88|-0.11|0.126
92326604|NCT03339726|184557872|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.253||0.27|TWO_SIDED|95.0|-0.22|0.78||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.78|-0.22|0.270
92326605|NCT03339726|184557872|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.251||0.676|TWO_SIDED|95.0|-0.6|0.39||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.39|-0.60|0.676
92326606|NCT03339726|184557873|SUPERIORITY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.264||0.421|TWO_SIDED|95.0|-0.31|0.73||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.73|-0.31|0.421
92326607|NCT03339726|184557873|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.266||0.97|TWO_SIDED|95.0|-0.54|0.52||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.52|-0.54|0.970
92326608|NCT03339726|184557873|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.265||0.401|TWO_SIDED|95.0|-0.74|0.3||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.30|-0.74|0.401
92326609|NCT03339726|184557874|SUPERIORITY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.272||0.257|TWO_SIDED|95.0|-0.23|0.85||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.85|-0.23|0.257
92326610|NCT03339726|184557874|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.275||0.877|TWO_SIDED|95.0|-0.5|0.58||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.58|-0.50|0.877
92326611|NCT03339726|184557874|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.273||0.329|TWO_SIDED|95.0|-0.8|0.27||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.27|-0.80|0.329
92326612|NCT03339726|184557875|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.298||0.469|TWO_SIDED|95.0|-0.37|0.8||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.80|-0.37|0.469
92326613|NCT03339726|184557875|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.301||0.924|TWO_SIDED|95.0|-0.57|0.62||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.62|-0.57|0.924
92326614|NCT03339726|184557875|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.299||0.532|TWO_SIDED|95.0|-0.78|0.4||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.40|-0.78|0.532
92326615|NCT03339726|184557876|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.309||0.579|TWO_SIDED|95.0|-0.78|0.44||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.44|-0.78|0.579
92326616|NCT03339726|184557876|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.312||0.394|TWO_SIDED|95.0|-0.88|0.35||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.35|-0.88|0.394
92326617|NCT03339726|184557876|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.31||0.76|TWO_SIDED|95.0|-0.71|0.52||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.52|-0.71|0.760
92326618|NCT03339726|184557877|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.218||0.616|TWO_SIDED|95.0|-0.32|0.539||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.539|-0.320|0.616
92326619|NCT03339726|184557877|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.22||0.734|TWO_SIDED|95.0|-0.359|0.508||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.508|-0.359|0.734
92326620|NCT03339726|184557877|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.218||0.874|TWO_SIDED|95.0|-0.465|0.395||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.395|-0.465|0.874
92326621|NCT03339726|184557878|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.23||0.75|TWO_SIDED|95.0|-0.53|0.38||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.38|-0.53|0.750
92326622|NCT03339726|184557878|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.232||0.39|TWO_SIDED|95.0|-0.26|0.66||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.66|-0.26|0.390
92326623|NCT03339726|184557878|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.23||0.236|TWO_SIDED|95.0|-0.18|0.73||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.73|-0.18|0.236
92326624|NCT03339726|184557879|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.267||0.707|TWO_SIDED|95.0|-0.63|0.43||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.43|-0.63|0.707
92326625|NCT03339726|184557879|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.269||0.839|TWO_SIDED|95.0|-0.59|0.48||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.48|-0.59|0.839
92326626|NCT03339726|184557879|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.267||0.864|TWO_SIDED|95.0|-0.48|0.57||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.57|-0.48|0.864
92326627|NCT03339726|184557880|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.255||0.794|TWO_SIDED|95.0|-0.44|0.57||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.57|-0.44|0.794
92326628|NCT03339726|184557880|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.257||0.628|TWO_SIDED|95.0|-0.38|0.63||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.63|-0.38|0.628
92326629|NCT03339726|184557880|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.255||0.82|TWO_SIDED|95.0|-0.45|0.56||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.56|-0.45|0.820
92326630|NCT03339726|184557881|SUPERIORITY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.266||0.33|TWO_SIDED|95.0|-0.27|0.79||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.79|-0.27|0.330
92326631|NCT03339726|184557881|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.269||0.631|TWO_SIDED|95.0|-0.4|0.66||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.66|-0.40|0.631
92326632|NCT03339726|184557881|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.266||0.625|TWO_SIDED|95.0|-0.66|0.4||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.40|-0.66|0.625
92326633|NCT03339726|184557882|SUPERIORITY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.275||0.24|TWO_SIDED|95.0|-0.22|0.87||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.87|-0.22|0.240
92326634|NCT03339726|184557882|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.278||0.865|TWO_SIDED|95.0|-0.5|0.6||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.60|-0.50|0.865
92326635|NCT03339726|184557882|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.275||0.316|TWO_SIDED|95.0|-0.82|0.27||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.27|-0.82|0.316
92326636|NCT03339726|184557883|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.284||0.529|TWO_SIDED|95.0|-0.38|0.74||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.74|-0.38|0.529
92326637|NCT03339726|184557883|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.287||0.997|TWO_SIDED|95.0|-0.56|0.57||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.57|-0.56|0.997
92326638|NCT03339726|184557883|SUPERIORITY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.285||0.532|TWO_SIDED|95.0|-0.74|0.38||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.38|-0.74|0.532
92326639|NCT03339726|184557884|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.309||0.468|TWO_SIDED|95.0|-0.83|0.38||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.38|-0.83|0.468
92326640|NCT03339726|184557884|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.312||0.218|TWO_SIDED|95.0|-1.0|0.23||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.23|-1.00|0.218
92326641|NCT03339726|184557884|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.309||0.604|TWO_SIDED|95.0|-0.77|0.45||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.45|-0.77|0.604
92326642|NCT03681990|184557885|OTHER|Mixed Model ANOVA with subject as a random effect.||||||0.34||||||F test|ANOVA|||||||0.34
92326643|NCT04599933|184557887|SUPERIORITY||Odds Ratio (OR)|2.916|||<|0.01|TWO_SIDED|95.0|1.663|5.113|||Regression, Logistic|||All treatment comparisons for primary and secondary endpoints related to BDCVA were conducted with a logistic regression model including fixed effects of baseline BDCVA at 40 cm as a covariate and treatment.||5.113|1.663|<0.01
92326644|NCT04599933|184557888|SUPERIORITY||Odds Ratio (OR)|3.035|||<|0.01|TWO_SIDED|95.0|1.736|5.305|||Regression, Logistic|||||5.305|1.736|<0.01
92326645|NCT04599933|184557889|SUPERIORITY||Odds Ratio (OR)|4.751|||<|0.01|TWO_SIDED|95.0|2.694|8.379|||Regression, Logistic|||||8.379|2.694|<0.01
92326646|NCT04599933|184557890|SUPERIORITY||Odds Ratio (OR)|3.422|||<|0.01|TWO_SIDED|95.0|1.923|6.09|||Regression, Logistic|||||6.090|1.923|<0.01
92326647|NCT01911780|184557908|SUPERIORITY_OR_OTHER||Adjusted mean, comparison|-7.5|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-9.7|-5.3|||LOCF-ANCOVA|Last observation carried forward (LOCF) was used as the imputation method|Model includes baseline DBP as a linear covariate, and treatment and center as fixed effects.|||-5.3|-9.7|<0.0001
92326648|NCT01911780|184557909|SUPERIORITY_OR_OTHER||Adjusted mean, comparison|-8.6|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED|95.0|-12.7|-4.5||Additional information, the p-value is not adjusted for multiplicity.|LOCF-ANCOVA||Model includes baseline SBP as a linear covariate, and treatment and center as fixed effects.|||-4.5|-12.7|<0.0001
92326649|NCT01911780|184557910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.1||||0.0052|TWO_SIDED|95.0|1.4|7.1||Additional information, the p-value is not adjusted for multiplicity.|Regression, Logistic|Non-completers considered failures (NCF) was used as the imputation method.|Exact 95 % confidence interval by Clopper and Pearson. Logistic regression includes treatment and center.|||7.1|1.4|0.0052
92326650|NCT01911780|184557912|SUPERIORITY_OR_OTHER||Adjusted Mean|-0.4|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|-3.1|2.3|||mixed-effects model repeated measures||As a linear covariate, and treatment and visit, treatment by visit interaction and baseline value by visit interaction as fixed effects.|||2.3|-3.1|
92326651|NCT01911780|184557913|SUPERIORITY_OR_OTHER||Adjusted Mean|2.3|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|-1.5|6.1|||mixed-effects model repeated measures||Model includes baseline SBP as a linear covariate, and treatment and visit, treatment by visit interaction and baseline value by visit interaction as fixed effects.|||6.1|-1.5|
92326652|NCT03833804|184557925|NON_INFERIORITY|The investigators conducted a noninferiority analysis using a prespecified margin of 0.5%. The noninferiority margin was selected based on expert input from addiction medicine clinicians and implementation scientists, who agreed that a 0.5% absolute difference in the composite intervention rate would be clinically acceptable given the workflow and scalability benefits of automation. The margin was chosen to reflect a reasonable balance between clinical impact and operational gain.|z-test|0.86||||0.2|TWO_SIDED||||||One-sided independent samples z-test|||||||0.20
92201560|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.174||0.102|TWO_SIDED|95.0|-0.63|0.06|||MMRM|||Somatic Symptoms General, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.63|0.1020
92201561|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.9587|TWO_SIDED|95.0|-0.33|0.35|||MMRM|||Somatic Symptoms General, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.33|0.9587
92201562|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.203||0.169|TWO_SIDED|95.0|-0.69|0.12|||MMRM|||Somatic Symptoms General, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.69|0.1690
92201563|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.197||0.7919|TWO_SIDED|95.0|-0.34|0.44|||MMRM|||Somatic Symptoms General, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.34|0.7919
92201564|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.205||0.0192|TWO_SIDED|95.0|-0.89|-0.08|||MMRM|||Somatic Symptoms General, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.08|-0.89|0.0192
92201565|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.196||0.3887|TWO_SIDED|95.0|-0.56|0.22|||MMRM|||Somatic Symptoms General, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.56|0.3887
92201566|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.189||0.0719|TWO_SIDED|95.0|-0.72|0.03|||MMRM|||Somatic Symptoms General, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.72|0.0719
92201567|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.185||0.1195|TWO_SIDED|95.0|-0.66|0.08|||MMRM|||Somatic Symptoms General, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.66|0.1195
92201568|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.079||0.9552|TWO_SIDED|95.0|-0.16|0.15|||MMRM|||Genital Symptoms, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.16|0.9552
92201569|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.076||0.0384|TWO_SIDED|95.0|-0.31|-0.01|||MMRM|||Genital Symptoms, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.31|0.0384
92201570|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.097||0.2582|TWO_SIDED|95.0|-0.3|0.08|||MMRM|||Genital Symptoms, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.30|0.2582
92201571|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.094||0.1511|TWO_SIDED|95.0|-0.32|0.05|||MMRM|||Genital Symptoms, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.32|0.1511
92326653|NCT02677896|184557930|SUPERIORITY||Cox hazard ratio|0.39|||<|0.0001|TWO_SIDED|95.0|0.3|0.5||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Log Rank||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|rPFS Treatment Comparison||0.50|0.30|<0.0001
92201572|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.126||0.4631|TWO_SIDED|95.0|-0.34|0.16|||MMRM|||Genital Symptoms, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.34|0.4631
92201573|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.123||0.4628|TWO_SIDED|95.0|-0.33|0.15|||MMRM|||Genital Symptoms, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.33|0.4628
92201574|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.11||0.9005|TWO_SIDED|95.0|-0.23|0.2|||MMRM|||Genital Symptoms, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.23|0.9005
92201575|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.107||0.1121|TWO_SIDED|95.0|-0.38|0.04|||MMRM|||Genital Symptoms, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.38|0.1121
92201576|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.145||0.4167|TWO_SIDED|95.0|-0.4|0.17|||MMRM|||Genital Symptoms, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.40|0.4167
92201577|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.141||0.4071|TWO_SIDED|95.0|-0.4|0.16|||MMRM|||Genital Symptoms, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.40|0.4071
92201578|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.15||0.1278|TWO_SIDED|95.0|-0.53|0.07|||MMRM|||Genital Symptoms, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.53|0.1278
92201579|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.145||0.0573|TWO_SIDED|95.0|-0.57|0.01|||MMRM|||Genital Symptoms, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.57|0.0573
92326654|NCT02677896|184557931|SUPERIORITY||Cox proportional hazards model|0.39|||<|0.0001|TWO_SIDED|95.0|0.3|0.5|||Log Rank|||rPFS Treatment Comparision||0.50|0.30|<0.0001
92201580|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.156||0.4842|TWO_SIDED|95.0|-0.42|0.2|||MMRM|||Genital Symptoms, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.42|0.4842
92201581|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.152||0.0692|TWO_SIDED|95.0|-0.58|0.02|||MMRM|||Genital Symptoms, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.58|0.0692
92201582|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.157||0.4028|TWO_SIDED|95.0|-0.44|0.18|||MMRM|||Genital Symptoms, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.44|0.4028
92326655|NCT02677896|184557932|SUPERIORITY||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.53|0.81|||Log Rank|P-value from stratified log-rank test.|Significance level is 0.04. Hazard ratio and 95 % CI are estimated by cox proportional hazards model.|||0.81|0.53|<0.0001
92326656|NCT02677896|184557933|SUPERIORITY||Cox hazard ratio|0.19|||<|0.0001|TWO_SIDED|95.0|0.13|0.26||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Log Rank||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Time to PSA Progression Treatment Comparison||0.26|0.13|<0.0001
92326657|NCT02677896|184557934|SUPERIORITY||Hazard Ratio (HR)|0.38|||||TWO_SIDED|95.0|0.31|0.48|||||Hazard ratio and 95 % CI are estimated by cox proportional hazards model.|||0.48|0.31|
92201583|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.154||0.0354|TWO_SIDED|95.0|-0.63|-0.02|||MMRM|||Genital Symptoms, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.63|0.0354
92326658|NCT02677896|184557935|SUPERIORITY||Difference in rate|50.5|||<|0.0001|TWO_SIDED|95.0|45.3|55.7||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Cochran-Mantel-Haenszel|||PSA Undetectable Rate Treatment Comparison||55.7|45.3|<0.0001
92326659|NCT02677896|184557936|SUPERIORITY||Difference in rate|19.3|||<|0.0001|TWO_SIDED|95.0|10.4|28.2||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Cochran-Mantel-Haenszel|||ORR Treatment Comparison||28.2|10.4|<0.0001
92326660|NCT02677896|184557937|SUPERIORITY||Cox hazard ratio|0.88||||0.2162|TWO_SIDED|95.0|0.72|1.08||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Log Rank||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Time to Deterioration of Urinary Symptoms Treatment Comparison||1.08|0.72|0.2162
92326661|NCT02677896|184557938|SUPERIORITY||Cox hazard ratio|0.52||||0.0026|TWO_SIDED|95.0|0.33|0.8|||Log Rank|||Time to SSE Treatment Comparison||0.80|0.33|0.0026
92326662|NCT02677896|184557939|SUPERIORITY||Cox hazard ratio|0.28|||<|0.0001|TWO_SIDED|95.0|0.22|0.36|||Log Rank|||Time to Castration Resistance Treatment Comparison||0.36|0.22|<0.0001
92326663|NCT02677896|184557940|SUPERIORITY||Cox hazard ratio|0.96||||0.6548|TWO_SIDED|95.0|0.81|1.14|||Log Rank|||Time to Deterioration of QoL in FACT-P Treatment Comparison||1.14|0.81|0.6548
92326664|NCT02677896|184557941|SUPERIORITY||Cox hazard ratio|0.92||||0.2715|TWO_SIDED|95.0|0.78|1.07|||Log Rank|||Time to Pain Progression Based on BPI-SF Treatment Comparison||1.07|0.78|0.2715
92326665|NCT02729038|184557950|OTHER||Ratio of geometric LS means|1.507|||||TWO_SIDED|90.0|0.902|2.519|||||AUC (0-inf) for participants with normal renal function Vs participants with moderate renal function has been presented.|||2.519|0.902|
92326666|NCT02729038|184557950|OTHER||Ratio of geometric LS means|1.924|||||TWO_SIDED|90.0|1.151|3.215|||||AUC (0-inf) for participants with normal renal function Vs participants with Severe/ESRD not on hemodialysis|||3.215|1.151|
92326667|NCT02729038|184557951|OTHER||Ratio of geometric LS means|2.375|||||TWO_SIDED|90.0|1.421|3.969|||||AUC (0-inf) for participants with normal renal function Vs ESRD on hemodialysis (before hemodialysis)|||3.969|1.421|
92326668|NCT02729038|184557951|OTHER||Ratio of geometric LS means|4.075|||||TWO_SIDED|90.0|2.438|6.81|||||AUC (0-inf) for participants with normal renal function Vs ESRD on hemodialysis (after hemodialysis)|||6.810|2.438|
92326669|NCT02729038|184557952|OTHER||Ratio of geometric LS means|1.179|||||TWO_SIDED|90.0|0.467|2.977|||||Cmax for participants with normal renal function Vs participants with moderate renal function has been presented.|||2.977|0.467|
92326670|NCT02729038|184557952|OTHER||Ratio of geometric LS means|1.575|||||TWO_SIDED|90.0|0.624|3.975|||||Cmax for participants with normal renal function Vs .participants with Severe/ESRD not on hemodialysis|||3.975|0.624|
92326671|NCT02729038|184557953|OTHER||Ratio of geometric LS means|2.25|||||TWO_SIDED|90.0|0.891|5.681|||||Cmax for participants with normal renal function Vs ESRD on hemodialysis (before hemodialysis)|||5.681|0.891|
92326672|NCT02729038|184557953|OTHER||Ratio of geometric LS means|5.966|||||TWO_SIDED|90.0|2.363|15.062|||||Cmax for participants with normal renal function Vs ESRD on hemodialysis (after hemodialysis)|||15.062|2.363|
92326673|NCT02729038|184557975|OTHER||Ratio of geometric LS means|1.501|||||TWO_SIDED|90.0|0.894|2.52|||||Normal Vs Moderate|||2.520|0.894|
92326674|NCT02729038|184557975|OTHER||Ratio of geometric LS means|1.912|||||TWO_SIDED|90.0|1.139|3.212|||||Normal Vs Severe/ESRD not on hemodialysis|||3.212|1.139|
92326675|NCT02729038|184557976|OTHER||Ratio of geometric LS means|2.375|||||TWO_SIDED|90.0|1.414|3.989|||||Normal Vs ESRD on hemodialysis (before hemodialysis)|||3.989|1.414|
92326676|NCT02729038|184557976|OTHER||Ratio of geometric LS means|4.068|||||TWO_SIDED|90.0|2.422|6.831|||||Normal Vs ESRD on hemodialysis (after hemodialysis)|||6.831|2.422|
92326677|NCT03687372|184558011|SUPERIORITY||Mean Difference (Final Values)|3.22||||0.0003|TWO_SIDED|95.0|1.67|6.22||P-Value test comparing the Patients Cleared of All Baseline Warts in the Active (A-101 45%) and vehicle groups.|Mixed Models Analysis|||A summary of the wart clearance at Visit 10.||6.22|1.67|0.0003
92326678|NCT03687372|184558012|SUPERIORITY|P-Value test comparing the Patients Cleared of All Baseline Warts in the Active (A-101 45%) and vehicle groups.|Mean Difference (Final Values)|2.14||||0.0024|TWO_SIDED|95.0|1.3|3.52|||Mixed Models Analysis|||||3.52|1.30|0.0024
92326679|NCT03687372|184558013|SUPERIORITY||Odds Ratio (OR)|14.12|||<|0.0001|TWO_SIDED|95.0|7.5|20.8|||Wilcoxon (Mann-Whitney)|||||20.8|7.5|<0.0001
92326680|NCT03687372|184558014|SUPERIORITY||Odds Ratio (OR)|3.22||||0.0009|TWO_SIDED|95.0|1.55|6.65|||Wilcoxon (Mann-Whitney)|||||6.65|1.55|0.0009
92326681|NCT03687372|184558015|SUPERIORITY||Hazard Ratio (HR)|2.56|||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
92326682|NCT01210495|184558128|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.907||||0.2872|TWO_SIDED|95.0|0.646|1.274||For the overall stratified analysis the p-value is from a 1-sided log-rank test of treatment stratified by tumor invasion and geographic region.|Log Rank||Assuming proportional hazards, a hazard ratio less than (\<) 1 indicated reduction in hazard rate to favor Axitinib; hazard ratio greater than (\>) 1 indicated reduction to favor Placebo.|The study was designed to test the null hypothesis that the true median OS was 5 months vs. the alternative hypothesis that the true median OS was at least 8.3 months (i.e., 66 percent \[%\] improvement in median OS).||1.274|0.646|0.2872
92326683|NCT01210495|184558129|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.618||||0.0039|TWO_SIDED|95.0|0.438|0.871||For the overall stratified analysis the p-value is from a 1-sided log-rank test of treatment stratified by tumor invasion and geographic region.|Log Rank||Assuming proportional hazards, a hazard ratio \<1 indicated a reduction in hazard rate in favor of Axitinib; a hazard ratio \>1 indicated a reduction in favor of Placebo.|||0.871|0.438|0.0039
92326684|NCT01210495|184558130|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.172||||0.0914|TWO_SIDED|95.0|0.759|13.265||ORR for the 2 treatment arms was compared with a significance level of 0.025 using Cochran-Mantel-Haenszel (CMH) test for stratified analyses.|Cochran-Mantel-Haenszel||Risk ratio and confidence interval (CI) were based on the Mantel-Haenszel estimator; risk ratio was adjusted for geographical region and vascular invasion and extra hepatic spread.|||13.265|0.759|0.0914
92326685|NCT01210495|184558131|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.621||||0.006|TWO_SIDED|95.0|0.434|0.889||For the overall stratified analysis the p-value is from a 1-sided log-rank test of treatment stratified by tumor invasion and geographic region.|Log Rank||Assuming proportional hazards, a hazard ratio \<1 indicated a reduction in hazard rate in favor of Axitinib; a hazard ratio \>1 indicated a reduction in favor of Placebo.|||0.889|0.434|0.006
92326686|NCT01210495|184558133|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.65||||0.0025|TWO_SIDED|95.0|1.319|5.326||For the overall stratified analysis the p-value is from Cochran-Mantel-Haenszel test of treatment stratified by geographical region and vascular invasion and extra hepatic spread.|Cochran-Mantel-Haenszel||Risk Ratio and CI based on the Mantel-Haenszel estimator; risk ratio was adjusted for geographical region and vascular invasion and extra hepatic spread.|||5.326|1.319|0.0025
92326687|NCT01210495|184558142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.89||||0.0006|TWO_SIDED|95.0|-18.7|-5.08||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-5.08|-18.70|0.0006
92326688|NCT01210495|184558143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6||||0.0014|TWO_SIDED|95.0|-12.27|-2.94||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-2.94|-12.27|0.0014
92326689|NCT01210495|184558144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.27|||<|0.0001|TWO_SIDED|95.0|-4.76|-1.78||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-1.78|-4.76|<0.0001
92326690|NCT01210495|184558145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.74|||<|0.0001|TWO_SIDED|95.0|-5.26|-2.21||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis presented above is for FACT-G PWB. Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-2.21|-5.26|<0.0001
92326691|NCT01210495|184558145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27||||0.1642|TWO_SIDED|95.0|-3.07|0.52||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis presented above is for FACT-G SWB. Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||0.52|-3.07|0.1642
92326692|NCT01210495|184558145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.4759|TWO_SIDED|95.0|-1.8|0.84||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis presented above is for FACT-G EWB. Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||0.84|-1.80|0.4759
92326693|NCT01210495|184558145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.07||||0.0288|TWO_SIDED|95.0|-3.92|-0.21||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis presented above is for FACT-G FWB. Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-0.21|-3.92|0.0288
92326694|NCT01210495|184558146|SUPERIORITY||Mean Difference (Final Values)|-4.96||||0.0011|TWO_SIDED|95.0|-7.93|-1.99||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-1.99|-7.93|0.0011
92326695|NCT01210495|184558147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.45|||<|0.0001|TWO_SIDED|95.0|-15.49|-5.42||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-5.42|-15.49|<0.0001
92326696|NCT01210495|184558148|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.252||||0.9182|TWO_SIDED|95.0|0.923|1.698||The p-value is from a 1-sided log-rank test.|1-sided, unstratified log-rank test||Assuming proportional hazards, a hazard ratio \<1 indicates reduction in hazard rate to favor Axitinib, hazard ratio \>1 indicates reduction to favor Placebo.|||1.698|0.923|0.9182
92326697|NCT01210495|184558149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.0024|TWO_SIDED|95.0|-0.2|-0.04|||Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-0.04|-0.20|0.0024
92326698|NCT01210495|184558150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.03||||0.0193|TWO_SIDED|95.0|-12.91|-1.15|||Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-1.15|-12.91|0.0193
92326699|NCT00640653|184558187|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.67||||0.03|TWO_SIDED|95.0|0.48|0.96||The significance criterion was set at alpha = .05.|generalized linear regression|Log link was specified|Treatment was coded as 1 vs health control coded as 0.|With alpha = .05, 2-tailed, and 37.4% of the control group initiating sexual intercourse by 24-month follow-up, a total sample size of 563 participants completing the trial was projected to provide power of 80% to detect a difference of 16.8% in self-reported sexual intercourse between an HIV intervention condition and the health promotion control condition.||0.96|0.48|.03
92326700|NCT02938949|184558192|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
92326701|NCT02938949|184558193|SUPERIORITY||||||>|0.2|||||||ANOVA|||||||> 0.20
92326702|NCT02938949|184558194|SUPERIORITY||||||>|0.2|||||||ANOVA|||||||>0.20
92326703|NCT01323010|184558226|SUPERIORITY_OR_OTHER|||||||0.689|TWO_SIDED||||||Chi-squared|||||||0.689
92326704|NCT01323010|184558227|SUPERIORITY_OR_OTHER|||||||0.591|TWO_SIDED||||||t-test, 2 sided|||||||0.591
92326705|NCT01323010|184558228|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||ANOVA|Method: ANOVA with repetead measures for non parametric data proposed by Brunner and Piri.||||||0.150
92326706|NCT01323010|184558229|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.042
92326707|NCT01323010|184558230|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED||||||ANOVA|||||||0.108
92326708|NCT01323010|184558232|SUPERIORITY_OR_OTHER|||||||0.122|TWO_SIDED||||||ANOVA|||||||0.122
92326709|NCT01323010|184558234|SUPERIORITY_OR_OTHER|||||||0.164|TWO_SIDED||||||ANOVA|Method: ANOVA with repetead measures for non paramteric data proposed by Brunner and Piri.||||||0.164
92326710|NCT01323010|184558235|SUPERIORITY_OR_OTHER|||||||0.165|TWO_SIDED||||||ANOVA|||||||0.165
92201584|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.156||0.1228|TWO_SIDED|95.0|-0.55|0.07|||MMRM|||Genital Symptoms, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.55|0.1228
92201585|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.152||0.0099|TWO_SIDED|95.0|-0.7|-0.1|||MMRM|||Genital Symptoms, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.10|-0.70|0.0099
92201586|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.164||0.2174|TWO_SIDED|95.0|-0.53|0.12|||MMRM|||Genital Symptoms, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.53|0.2174
92201587|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.161||0.082|TWO_SIDED|95.0|-0.6|0.04|||MMRM|||Genital Symptoms, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.60|0.0820
92201588|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.194||0.2642|TWO_SIDED|95.0|-0.6|0.17|||MMRM|||Genital Symptoms, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.60|0.2642
92201589|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.189||0.0718|TWO_SIDED|95.0|-0.72|0.03|||MMRM|||Genital Symptoms, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.72|0.0718
92201590|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.212||0.3055|TWO_SIDED|95.0|-0.64|0.2|||MMRM|||Genital Symptoms, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.64|0.3055
92201591|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.202||0.3533|TWO_SIDED|95.0|-0.59|0.21|||MMRM|||Genital Symptoms, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.59|0.3533
92201592|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.193||0.4514|TWO_SIDED|95.0|-0.53|0.24|||MMRM|||Genital Symptoms, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.53|0.4514
92326711|NCT01323010|184558236|SUPERIORITY_OR_OTHER|||||||0.436|TWO_SIDED||||||ANOVA|||||||0.436
92326712|NCT01323010|184558237|SUPERIORITY_OR_OTHER|||||||0.046|TWO_SIDED||||||ANOVA|||||||0.046
92326713|NCT01323010|184558238|SUPERIORITY_OR_OTHER|||||||0.723|TWO_SIDED||||||ANOVA|||||||0.723
92326714|NCT01323010|184558239|SUPERIORITY_OR_OTHER|||||||0.235|TWO_SIDED||||||ANOVA|||||||0.235
92326715|NCT01323010|184558240|SUPERIORITY_OR_OTHER|||||||0.284|TWO_SIDED||||||ANOVA|||||||0.284
92326716|NCT01323010|184558241|SUPERIORITY_OR_OTHER|||||||0.905|TWO_SIDED||||||ANOVA|||||||0.905
92326717|NCT01323010|184558244|SUPERIORITY_OR_OTHER|||||||0.892|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.892
92326718|NCT01323010|184558245|SUPERIORITY_OR_OTHER|||||||0.195|TWO_SIDED||||||Chi-squared|||||||0.195
92326719|NCT01323010|184558246|SUPERIORITY_OR_OTHER|||||||0.203|TWO_SIDED||||||Chi-squared, Corrected|||||||0.203
92326720|NCT01323010|184558247|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Chi-squared|||||||0.03
92326721|NCT01203826|184558283|OTHER|||||||0.0005|||||||Wilcoxon signed-rank test|P-value based on Wilcoxon signed-rank test.||Change is relative to Baseline in Study ENB-006-09 (NCT00952484). The RGI-C score represents evaluations of skeletal X-rays at each post-treatment study timepoint in Study ENB-008-10 compared with pre-treatment X-rays from Study ENB-006-09, using an ordinal scale. Therefore, no Baseline data for RGI-C are available.||||0.0005
92326722|NCT01785849|184558308|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|32.46|||<|0.001|TWO_SIDED|95.0|18.71|56.31|||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel test stratified by screening PTH category (\< 600, ≥ 600 to ≤ 1000, and \> 1000 pg/mL), recent cinacalcet use within 8 weeks before randomization (yes and no), and region (North America and non-North America) was used to compare the primary endpoint of proportion of participants with \> 30% reduction from baseline in PTH during the EAP between etelcalcetide and placebo.||56.31|18.71|<0.001
92201593|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.191||0.4907|TWO_SIDED|95.0|-0.51|0.25|||MMRM|||Genital Symptoms, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.51|0.4907
92201594|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.151||0.6949|TWO_SIDED|95.0|-0.36|0.24|||MMRM|||Hypochondriasis, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.36|0.6949
92201595|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.147||0.467|TWO_SIDED|95.0|-0.4|0.18|||MMRM|||Hypochondriasis, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.40|0.4670
92201596|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.16||0.6556|TWO_SIDED|95.0|-0.39|0.25|||MMRM|||Hypochondriasis, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.39|0.6556
92201597|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.156||0.9272|TWO_SIDED|95.0|-0.32|0.29|||MMRM|||Hypochondriasis, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.32|0.9272
92201598|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.164||0.1395|TWO_SIDED|95.0|-0.57|0.08|||MMRM|||Hypochondriasis, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.57|0.1395
92201599|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.159||0.2601|TWO_SIDED|95.0|-0.5|0.14|||MMRM|||Hypochondriasis, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.50|0.2601
92201600|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.158||0.5626|TWO_SIDED|95.0|-0.4|0.22|||MMRM|||Hypochondriasis, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.40|0.5626
92201601|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.153||0.4622|TWO_SIDED|95.0|-0.42|0.19|||MMRM|||Hypochondriasis, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.42|0.4622
92326723|NCT01785849|184558309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|22.08|||<|0.001|TWO_SIDED|95.0|11.47|42.48|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by screening PTH category, recent cinacalcet use within 8 weeks before randomization, and region.||||42.48|11.47|<0.001
92201602|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.151||0.2858|TWO_SIDED|95.0|-0.46|0.14|||MMRM|||Hypochondriasis, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.46|0.2858
92201603|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.146||0.5369|TWO_SIDED|95.0|-0.38|0.2|||MMRM|||Hypochondriasis, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.38|0.5369
92326724|NCT01785849|184558310|SUPERIORITY_OR_OTHER||Mean Difference|-71.11|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-77.77|-64.46|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-64.46|-77.77|<0.001
92326725|NCT01785849|184558311|SUPERIORITY_OR_OTHER||Mean Difference|-8.38|STANDARD_ERROR_OF_MEAN|0.58|<|0.001|TWO_SIDED|95.0|-9.52|-7.23|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-7.23|-9.52|<0.001
92326726|NCT01785849|184558312|SUPERIORITY_OR_OTHER||Mean Difference|-14.99|STANDARD_ERROR_OF_MEAN|2.41|<|0.001|TWO_SIDED|95.0|-19.73|-10.25|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-10.25|-19.73|<0.001
92326727|NCT01785849|184558313|SUPERIORITY_OR_OTHER||Mean Difference|-7.45|STANDARD_ERROR_OF_MEAN|2.47||0.003|TWO_SIDED|95.0|-12.31|-2.59|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-2.59|-12.31|0.003
92326728|NCT02880865|184558327|NON_INFERIORITY|Non-inferiority was achieved if the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentages of participants with seropositivity between the two groups (concurrent administration minus separate administration) at 56 days post-vaccination was \> -10% for both measles and rubella results.|Difference|0.0|||||TWO_SIDED|95.0|-2.1|2.2||||||The primary hypotheses evaluated the non-inferiority of the concomitant administration of MMR and CD-JEV vaccines (Group 1) to MMR and CD-JEV vaccines given 2 months apart (Group 2) in children 9 months of age at 56 days in terms of percentage of participants achieving seropositivity to measles and rubella assuming a non-inferiority margin of 10%.||2.2|-2.1|
92326729|NCT02880865|184558328|NON_INFERIORITY|Non-inferiority was achieved if the lower limit of the two-sided 95% CI for the difference in percentages of participants with seropositivity between the two groups (concurrent administration minus separate administration) at 56 days post-vaccination was \> -10% for both measles and rubella results.|Difference|0.3|||||TWO_SIDED|95.0|-0.3|1.0||||||The primary hypotheses evaluated the non-inferiority of the concomitant administration of MMR and CD-JEV vaccines (Group 1) to MMR and CD-JEV vaccines given 2 months apart (Group 2) in children 9 months of age at 56 days in terms of percentage of participants achieving seropositivity to measles and rubella assuming a non-inferiority margin of 10%.||1.0|-0.3|
92326730|NCT02880865|184558329|NON_INFERIORITY|The percentage of participants with seropositivity for mumps at 56 days post-vaccination between Group 1 and Group 2 were compared using a non-inferiority test. Non-inferiority of Group 1 to Group 2 in terms of seropositivity for mumps was demonstrated if the lower limit of the two-sided 95% CI for the difference of seropositivity rates between the two groups (concurrent administration minus separate administration) at 56 days post-vaccination was \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-2.0|2.1||||||||2.1|-2.0|
92326731|NCT02880865|184558330|OTHER||GMC Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.2|||||Group 1/Group 2 ratio obtained using analysis of covariance (ANCOVA) with log10-transformed antibody concentration as dependent variable and treatment group as the explanatory variable adjusted for log10-transformed baseline antibody concentration.|||1.2|0.9|
92326732|NCT02880865|184558331|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.9|1.1|||||Group 1/Group 2 ratio obtained using an ANCOVA method with log 10-transformed antibody concentration as dependent variable and treatment group as explanatory variable adjusted for log 10-transformed baseline antibody concentration.|||1.1|0.9|
92326733|NCT02880865|184558332|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-2.1|2.2|||||Group 1 - Group 2|||2.2|-2.1|
92326734|NCT02880865|184558333|OTHER||Difference|1.6|||||TWO_SIDED|95.0|-1.8|4.9|||||Group 1 - Group 2|||4.9|-1.8|
92326735|NCT02880865|184558334|OTHER||Difference|0.3|||||TWO_SIDED|95.0|-0.3|1.0|||||Group 1 - Group 2|||1.0|-0.3|
92326736|NCT02880865|184558335|OTHER||Difference|4.1|||||TWO_SIDED|95.0|-3.1|11.3||||||||11.3|-3.1|
92326737|NCT02880865|184558336|OTHER||GMT Ratio|1.2|||||TWO_SIDED|95.0|1.0|1.4|||||Group 1 / Group 2 ratio obtained using an analysis of covariance (ANCOVA) method with log 10-transformed antibody concentration as dependent variable and treatment group as explanatory variable adjusted for log 10-transformed baseline antibody titer.|||1.4|1.0|
92326738|NCT03379753|184558343|OTHER||U statistic|984.5||||0.57|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.57
92326739|NCT03728985|184558346|NON_INFERIORITY|Performance Goal 80%|Absolute Percentage with Success|77.5||||0.5908|TWO_SIDED|90.0|69.6|84.1|||Fisher Exact||The lower estimated confidence interval above the Performance Goal of 80% would be considered success.|||84.1|69.6|0.5908
92326740|NCT03728985|184558347|NON_INFERIORITY|Performance Goal 68%|Percentage with Success|70.6||||0.7017|TWO_SIDED|90.0|61.4|78.7|||Fisher Exact|||||78.7|61.4|0.7017
92326741|NCT01573767|184558425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4||||0.227|TWO_SIDED|95.0|-2.7|11.4||Inference for VI 12.5 µg versus (vs) placebo was dependent upon statistical significance (SS) having first been achieved for VI 25 µg vs placebo; inference for VI 6.25 µg vs placebo was dependent on SS having been achieved for VI 12.5 µg vs placebo.|ANCOVA|||||11.4|-2.7|0.227
92326742|NCT01573767|184558425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4||||0.073|TWO_SIDED|95.0|-0.6|13.5|||ANCOVA|||||13.5|-0.6|0.073
92326743|NCT01573767|184558425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5||||0.127|TWO_SIDED|95.0|-1.6|12.5|||ANCOVA|||||12.5|-1.6|0.127
92326744|NCT01573767|184558426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.057|||||TWO_SIDED|95.0|-0.138|0.024||||||||0.024|-0.138|
92326745|NCT01573767|184558426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.017|||||TWO_SIDED|95.0|-0.063|0.096||||||||0.096|-0.063|
92326746|NCT01573767|184558426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.11|0.051||||||||0.051|-0.110|
92326747|NCT01573767|184558427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|||||TWO_SIDED|95.0|-10.5|6.0||||||||6.0|-10.5|
92326748|NCT01573767|184558427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-6.9|9.6||||||||9.6|-6.9|
92326749|NCT01573767|184558427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.7|||||TWO_SIDED|95.0|0.4|17.0||||||||17.0|0.4|
92326750|NCT01573767|184558428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|||||TWO_SIDED|95.0|-1.2|12.3||||||||12.3|-1.2|
92326751|NCT01573767|184558428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5|||||TWO_SIDED|95.0|0.7|14.2||||||||14.2|0.7|
92326752|NCT01573767|184558428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.2||||||95.0|0.4|14.0||||||||14.0|0.4|
92326753|NCT01573767|184558429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|||||TWO_SIDED|95.0|-6.1|13.1||||||||13.1|-6.1|
92326754|NCT01573767|184558429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|-1.8|17.4||||||||17.4|-1.8|
92326755|NCT01573767|184558429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.2|||||TWO_SIDED|95.0|-4.4|14.9||||||||14.9|-4.4|
92326756|NCT01573767|184558430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9|||||TWO_SIDED|95.0|-3.7|15.6||||||||15.6|-3.7|
92201604|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.15||0.151|TWO_SIDED|95.0|-0.52|0.08|||MMRM|||Hypochondriasis, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.52|0.1510
92201605|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.146||0.5107|TWO_SIDED|95.0|-0.38|0.19|||MMRM|||Hypochondriasis, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.38|0.5107
92201606|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.151||0.3301|TWO_SIDED|95.0|-0.45|0.15|||MMRM|||Hypochondriasis, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.45|0.3301
92201607|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.147||0.5139|TWO_SIDED|95.0|-0.39|0.19|||MMRM|||Hypochondriasis, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.39|0.5139
92201608|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.144||0.4073|TWO_SIDED|95.0|-0.4|0.17|||MMRM|||Hypochondriasis, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.40|0.4073
92201609|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.4649|TWO_SIDED|95.0|-0.38|0.17|||MMRM|||Hypochondriasis, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.38|0.4649
92201610|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.141||0.6926|TWO_SIDED|95.0|-0.34|0.22|||MMRM|||Hypochondriasis, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.34|0.6926
92326757|NCT01573767|184558430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7|||||TWO_SIDED|95.0|0.0|19.3||||||||19.3|0.0|
92201611|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.137||0.726|TWO_SIDED|95.0|-0.22|0.32|||MMRM|||Hypochondriasis, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.22|0.7260
92201612|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.136||0.1486|TWO_SIDED|95.0|-0.47|0.07|||MMRM|||Hypochondriasis, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.47|0.1486
92201613|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.133||0.48|TWO_SIDED|95.0|-0.36|0.17|||MMRM|||Hypochondriasis, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.36|0.4800
92326758|NCT01573767|184558430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0||||||95.0|-2.7|16.7||||||||16.7|-2.7|
92326759|NCT01573767|184558431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-7.2|7.5||||||||7.5|-7.2|
92326760|NCT01573767|184558431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.3|||||TWO_SIDED|95.0|1.0|15.7||||||||15.7|1.0|
92326761|NCT01573767|184558431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.8|||||TWO_SIDED|95.0|2.3|17.2||||||||17.2|2.3|
92326762|NCT02339155|184558432|NON_INFERIORITY|If the upper bound of the 90% confidence interval (CI) or the ratio of anti-PA Ab (attributable to AVA) GMCs between the AVA and the AVA + raxibacumab groups at Week 4 is less than 1.5, non-inferiority was to be established.|Ratio|1.18||||0.0016|TWO_SIDED|90.0|1.03|1.35|||t-test, 1 sided|||||1.35|1.03|0.0016
92326763|NCT02339155|184558433|OTHER||Ratio|1.09|||||TWO_SIDED|90.0|0.98|1.22|||t-test, 1 sided||Week 8|||1.22|0.98|
92326764|NCT02339155|184558433|OTHER||Ratio|0.98|||<|0.0001|TWO_SIDED|90.0|0.89|1.07|||t-test, 1 sided||Week 26|||1.07|0.89|<0.0001
92201614|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.177||0.7792|TWO_SIDED|95.0|-0.4|0.3|||MMRM|||Hypochondriasis, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.40|0.7792
92201615|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.171||0.8644|TWO_SIDED|95.0|-0.31|0.37|||MMRM|||Hypochondriasis, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.31|0.8644
92326765|NCT02102100|184558470|OTHER||Mean Difference (Net)|0.9436|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||Least square means and standard errors were calculated to describe the patterns of means for each outcome. Effect slices were tested to explain significant interactions in the models. Pairwise comparisons of least square means were used to describe significant main effects.||||<.0001
92326766|NCT05014815|184558471|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.4698|TWO_SIDED|95.0|0.74|1.33||1-sided p-value|Log Rank|Stratified by PD-L1 expression (\<1% of tumor cells (TC) vs 1-49% TC vs \>= 50% TC) and histology (squamous vs non-squamous).|The HR and its 95% confidence interval (CI) was estimated using a Cox regression model stratified by PD-L1 expression (\<1% of tumor cells (TC) vs 1-49% TC vs \>= 50% TC) and histology (squamous vs non-squamous).|||1.33|0.74|0.4698
92326767|NCT05014815|184558472|OTHER||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.47|1.26|||||The Mantel-Haenszel common OR and its 95% CI were estimated using a normal approximation of the log odds ratio and the Robins-Breslow-Greenland variance, stratified by PD-L1 expression and histology.|||1.26|0.47|
92326768|NCT05014815|184558474|OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.67|1.34|||||The HR and its 95% confidence interval (CI) was estimated using a Cox regression model stratified by PD-L1 expression (\<1% of tumor cells (TC) vs 1-49% TC vs \>= 50% TC) and histology (squamous vs non-squamous).|||1.34|0.67|
92326769|NCT02634268|184558552|SUPERIORITY||Mean Difference (Final Values)|42.3||||0.02|TWO_SIDED|95.0|7.93|76.6|||Mixed Models Analysis|Difference in average six minute walk test distance at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month six minute walk test distance between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||76.6|7.93|.02
92326770|NCT02634268|184558553|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.0008|TWO_SIDED|95.0|-0.63|-0.09|||Mixed Models Analysis|Difference in average Modified Borg Scale score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month Modified Borg Scale score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.09|-0.63|.0008
92326771|NCT02634268|184558554|SUPERIORITY||Mean Difference (Final Values)|-1.34||||0.0008|TWO_SIDED|95.0|-2.33|-0.34|||Mixed Models Analysis|Difference in average body weight at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month body weight between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.34|-2.33|0.0008
92326772|NCT02634268|184558555|SUPERIORITY||Mean Difference (Final Values)|1.48||||0.01|TWO_SIDED|95.0|0.35|2.6|||Mixed Models Analysis|Difference in average SF-12 PCS at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month SF-12 PCS between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||2.60|0.35|0.01
92326773|NCT02634268|184558556|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.45|TWO_SIDED|95.0|-0.84|1.89|||Mixed Models Analysis|Difference in average SF-12 MCS at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month SF-12 MCS between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||1.89|-0.84|0.45
92201616|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.158||0.7994|TWO_SIDED|95.0|-0.27|0.35|||MMRM|||Hypochondriasis, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.27|0.7994
92326774|NCT02634268|184558557|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.009|TWO_SIDED|95.0|-0.71|-0.1|||Mixed Models Analysis|Difference in average Framingham Risk Score at 12 months between control and intervention groups.||Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month Framingham Risk Score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.10|-0.71|0.009
92201617|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.27|STANDARD_ERROR_OF_MEAN|0.152||0.0811|TWO_SIDED|95.0|-0.03|0.57|||MMRM|||Hypochondriasis, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.57|-0.03|0.0811
92201618|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.144||0.6978|TWO_SIDED|95.0|-0.34|0.23|||MMRM|||Hypochondriasis, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.34|0.6978
92201619|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.141||0.9749|TWO_SIDED|95.0|-0.28|0.28|||MMRM|||Hypochondriasis, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.28|0.9749
92201620|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.081||0.3158|TWO_SIDED|95.0|-0.08|0.24|||MMRM|||Loss of Weight, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.08|0.3158
92201621|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.079||0.1901|TWO_SIDED|95.0|-0.05|0.26|||MMRM|||Loss of Weight, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.05|0.1901
92201622|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.073||0.7229|TWO_SIDED|95.0|-0.12|0.17|||MMRM|||Loss of Weight, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.12|0.7229
92201623|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.071||0.2715|TWO_SIDED|95.0|-0.06|0.22|||MMRM|||Loss of Weight, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.06|0.2715
92326775|NCT02634268|184558558|SUPERIORITY||Mean Difference (Final Values)|-0.93||||0.13|TWO_SIDED|95.0|-2.12|0.26|||Mixed Models Analysis|Difference in average waist circumference at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12 month waist circumference between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||0.26|-2.12|0.13
92326776|NCT02634268|184558559|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.64|TWO_SIDED|95.0|-3.02|1.84|||Mixed Models Analysis|Difference in average 12 month systolic blood at 12 months between control and intervention groups|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month systolic blood pressure between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||1.84|-3.02|0.64
92326777|NCT02634268|184558560|SUPERIORITY||Mean Difference (Final Values)|-0.51||||0.004|TWO_SIDED|95.0|-0.85|-0.17|||Mixed Models Analysis|Difference in average BMI at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month BMI between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.17|-0.85|0.004
92326778|NCT02634268|184558561|SUPERIORITY||Mean Difference (Final Values)|-2.25||||0.09|TWO_SIDED|95.0|-4.87|0.36|||Mixed Models Analysis|Difference in average SGRQ-C Symptom score at 12 months between control and intervention groups.||Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12 month SGRQ-C Symptom score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|0.36|-4.87|0.09
92201624|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.086||0.5421|TWO_SIDED|95.0|-0.12|0.22|||MMRM|||Loss of Weight, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.12|0.5421
92201625|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.083||0.7215|TWO_SIDED|95.0|-0.14|0.19|||MMRM|||Loss of Weight, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.14|0.7215
92201626|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.098||0.2246|TWO_SIDED|95.0|-0.07|0.31|||MMRM|||Loss of Weight, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.07|0.2246
92201627|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.096||0.9671|TWO_SIDED|95.0|-0.19|0.19|||MMRM|||Loss of Weight, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.19|0.9671
92201628|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.121||0.6527|TWO_SIDED|95.0|-0.29|0.19|||MMRM|||Loss of Weight, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.29|0.6527
92201629|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.118||0.1647|TWO_SIDED|95.0|-0.4|0.07|||MMRM|||Loss of Weight, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.40|0.1647
92201630|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.11||0.7093|TWO_SIDED|95.0|-0.18|0.26|||MMRM|||Loss of Weight, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.18|0.7093
92201631|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.107||0.6333|TWO_SIDED|95.0|-0.26|0.16|||MMRM|||Loss of Weight, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.26|0.6333
92201632|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.12||0.5238|TWO_SIDED|95.0|-0.31|0.16|||MMRM|||Loss of Weight, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.31|0.5238
92201633|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.117||0.0782|TWO_SIDED|95.0|-0.44|0.02|||MMRM|||Loss of Weight, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.44|0.0782
92201634|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.138||0.2346|TWO_SIDED|95.0|-0.44|0.11|||MMRM|||Loss of Weight, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.44|0.2346
92326779|NCT02634268|184558562|SUPERIORITY||Mean Difference (Final Values)|-2.31||||0.12|TWO_SIDED|95.0|-5.19|0.56|||Mixed Models Analysis|Difference in average SGRQ-C Activity score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12 month SGRQ-C Activity score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||0.56|-5.19|0.12
92201635|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.134||0.0631|TWO_SIDED|95.0|-0.52|0.01|||MMRM|||Loss of Weight, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.52|0.0631
92201636|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.131||0.6274|TWO_SIDED|95.0|-0.32|0.2|||MMRM|||Loss of Weight, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.32|0.6274
92201637|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.128||0.3589|TWO_SIDED|95.0|-0.37|0.14|||MMRM|||Loss of Weight, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.37|0.3589
92326780|NCT02634268|184558563|SUPERIORITY||Mean Difference (Final Values)|-2.72||||0.03|TWO_SIDED|95.0|-5.19|-0.25|||Mixed Models Analysis|Difference in average SGRQ-C Impact score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12 month SGRQ-C Impact score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.25|-5.19|0.03
92326781|NCT02634268|184558564|SUPERIORITY||Mean Difference (Final Values)|-2.42||||0.03|TWO_SIDED|95.0|-4.55|-0.28|||Mixed Models Analysis|Difference in average SGRQ-C Total score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month SGRQ-C Total score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.28|-4.55|0.03
92326782|NCT01500213|184558605|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.043|TWO_SIDED|95.0|1.0|2.1||To control for multiplicity, analyses were performed hierarchically. For the CR delayed the threshold for statistical significance was 0.05; no further adjustment for multiplicity were required for the primary endpoint.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.1|1.0|0.043
92326783|NCT01500213|184558606|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.233|TWO_SIDED|95.0|0.8|2.0||To control for multiplicity, analyses were performed hierarchically. CR-acute was tested only if the result for the primary endpoint, CR delayed, was statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.0|0.8|0.233
92326784|NCT01500213|184558607|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.084|TWO_SIDED|95.0|1.0|1.9||To control for multiplicity, analyses were performed hierarchically. CR overall was tested only if both CR delayed and CR acute were statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||1.9|1.0|0.084
92326785|NCT04027075|184558608|SUPERIORITY||Odds Ratio (OR)|1.02||||0.962|TWO_SIDED|95.0|0.51|2.02|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||2.02|0.51|.962
92326786|NCT04027075|184558609|SUPERIORITY||Odds Ratio (OR)|0.47||||0.109|TWO_SIDED|95.0|0.19|1.18|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||1.18|0.19|.109
92326787|NCT04027075|184558610|SUPERIORITY||Odds Ratio (OR)|1.58||||0.227|TWO_SIDED|95.0|0.75|3.29|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||3.29|0.75|.227
92326788|NCT04027075|184558611|SUPERIORITY||Odds Ratio (OR)|1.2||||0.681|TWO_SIDED|95.0|0.5|2.87|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||2.87|0.50|.681
92326789|NCT04027075|184558612|SUPERIORITY||Odds Ratio (OR)|1.18||||0.65|TWO_SIDED|95.0|0.58|2.42|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||2.42|0.58|.650
92326790|NCT04027075|184558613|SUPERIORITY||Odds Ratio (OR)|1.41||||0.304|TWO_SIDED|95.0|0.73|2.73|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||2.73|0.73|.304
92326791|NCT04027075|184558614|SUPERIORITY||Odds Ratio (OR)|1.44||||0.97|TWO_SIDED|95.0|0.69|3.0|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||3.00|0.69|0.97
92326792|NCT04027075|184558615|SUPERIORITY||Mean Difference (Final Values)|-1.78|STANDARD_ERROR_OF_MEAN|0.64||0.005|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.005
92326793|NCT04027075|184558616|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.09||0.46|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.460
92326794|NCT04027075|184558617|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.26||0.851|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.851
92326795|NCT04027075|184558618|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.23||0.977|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.977
92326796|NCT04027075|184558619|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.27||0.456|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.456
92326797|NCT04027075|184558620|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.31||0.874|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.874
92326798|NCT04027075|184558621|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.24||0.069|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.069
92326799|NCT04027075|184558622|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.658|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.658
92326800|NCT04027075|184558623|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.783|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.783
92326801|NCT01043705|184558626|SUPERIORITY_OR_OTHER||One sided Fisher's exact test.|0.0044||||0.0023|ONE_SIDED|95.0||0.009|||Fisher Exact|||||0.009||0.0023
92326802|NCT01043705|184558626|SUPERIORITY_OR_OTHER||1-sided Fisher's Exact Text|0.002||||0.0052|ONE_SIDED|95.0||0.01|||Fisher Exact|||||0.01||0.0052
92326803|NCT01043705|184558626|SUPERIORITY_OR_OTHER||1-sided Fisher's Exact Test|0.006||||0.0176|ONE_SIDED|95.0||0.014|||Fisher Exact|||||0.014||0.0176
92326804|NCT01043705|184558626|SUPERIORITY_OR_OTHER||Fisher's Exact Test|0.7||||0.3764|TWO_SIDED|95.0|||||Fisher Exact|||||||0.3764
92326805|NCT01043705|184558627|SUPERIORITY_OR_OTHER||Rate compared to performance goal|4.4||||0.0005|TWO_SIDED|95.0|3.3|5.8|||1-sided Chi-square|||||5.8|3.3|0.0005
92326806|NCT01043705|184558627|SUPERIORITY_OR_OTHER||Rate compared to a performance goal|3.1||||0.0444|TWO_SIDED|95.0|1.7|5.1|||1-sided Chi-square test|||||5.1|1.7|0.0444
92326807|NCT01043705|184558627|SUPERIORITY_OR_OTHER||rate compared to performance goal|5.4||||0.0006|TWO_SIDED|95.0|3.8|5.4|||1-sided Chi-squared test|||All types of mechanical complications combined.||5.4|3.8|0.0006
92326808|NCT01043705|184558627|SUPERIORITY_OR_OTHER||Descriptive|5.4||||0.0745|TWO_SIDED|95.0|3.7|7.5|||Chi-squared|||All mechanical complications, retrospective, non-TYRX cohort||7.5|3.7|0.0745
92326809|NCT02635542|184558630|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
92326810|NCT02635542|184558631|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
92326811|NCT02003963|184558633|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
92326812|NCT00195494|184558678|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.0|||<|0.001|||||||Fisher Exact||E+M (49.8%) - M (27.8%) creates the risk difference estimated value.|||||<0.001
92326813|NCT00195494|184558679|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.0|||<|0.001|||||||Fisher Exact||E+M (79.7%) - M (58.7%) creates the risk difference estimated value.|||||<0.001
92326814|NCT00347919|184558701|SUPERIORITY_OR_OTHER||Percentage difference|2.7||||0.3724||90.0|-11.0|16.3|||Chi-squared||Difference in the percentage of independently-evaluated PD between lapatinib and combination therapy (lapatinib plus pazopanib)|||16.3|-11.0|0.3724
92326815|NCT00347919|184558701|SUPERIORITY_OR_OTHER||Percentage difference|5.4||||0.2578||90.0|-8.4|19.2|||Chi-squared||Difference in the percentage of investigator-evaluated PD between lapatinib and combination therapy (lapatinib plus pazopanib)|||19.2|-8.4|0.2578
92326816|NCT00347919|184558702|SUPERIORITY_OR_OTHER|||||||0.7488||95.0|||||Log Rank|||||||0.7488
92326817|NCT04450407|184558755|NON_INFERIORITY|The non-inferiority margin is 0.4%. Non-inferiority is achieved if the upper limit of the 90% CI (Confidence Interval) is below 0.4.|LS Mean Difference|0.17|||||TWO_SIDED|90.0|0.01|0.32||||||||0.32|0.01|
92326818|NCT01187498|184558776|NON_INFERIORITY_OR_EQUIVALENCE|A power analysis indicated that a sample size of 70 per group would provide 80% power with a one-sided alpha of 0.05 to declare two means equivalent, assuming a mean voiding frequency of 8.2 for behavioral treatment, a mean voiding frequency of 8.0 for drug therapy, and a standard deviation of 2.3 for both groups. Equivalence was defined as ±15% of the drug therapy posttreatment mean.|Difference of the Means|0.4|STANDARD_ERROR_OF_MEAN|0.346||0.001||95.0|||||Regression, Linear||The estimated parameter of dispersion is the standard error of the regression coefficient which measured the adjusted difference of the group means.|The primary analysis was an equivalence analysis to compare the two treatment groups on posttreatment 24- hour voiding frequency using a margin of ±15% of the drug group mean. Schuirmann's two one-sided tests (TOST) approach was used first to examine completers and then repeated using last observation carried forward to include participants who did not complete therapy. Adjusting the test to regression, the analyses were repeated using baseline voiding frequency as a covariate.||||.001
92201638|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.187||0.7604|TWO_SIDED|95.0|-0.43|0.31|||MMRM|||Loss of Weight, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.43|0.7604
92201639|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.185||0.1106|TWO_SIDED|95.0|-0.66|0.07|||MMRM|||Loss of Weight, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.66|0.1106
92201640|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.222||0.9776|TWO_SIDED|95.0|-0.43|0.45|||MMRM|||Loss of Weight, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.45|-0.43|0.9776
92201641|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.217||0.3239|TWO_SIDED|95.0|-0.65|0.22|||MMRM|||Loss of Weight, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.65|0.3239
92201642|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.238||0.6736|TWO_SIDED|95.0|-0.57|0.37|||MMRM|||Loss of Weight, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.57|0.6736
92201643|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.231||0.6136|TWO_SIDED|95.0|-0.58|0.34|||MMRM|||Loss of Weight, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.34|-0.58|0.6136
92201644|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.195||0.1141|TWO_SIDED|95.0|-0.7|0.08|||MMRM|||Loss of Weight, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.70|0.1141
92201645|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.194||0.2185|TWO_SIDED|95.0|-0.62|0.14|||MMRM|||Loss of Weight, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.62|0.2185
92201646|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.054||0.6191|TWO_SIDED|95.0|-0.08|0.13|||MMRM|||Insight, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.08|0.6191
92201647|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.053||0.6169|TWO_SIDED|95.0|-0.08|0.13|||MMRM|||Insight, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.08|0.6169
92201648|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.054||0.9911|TWO_SIDED|95.0|-0.11|0.11|||MMRM|||Insight, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.11|0.9911
92201649|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.053||0.336|TWO_SIDED|95.0|-0.05|0.15|||MMRM|||Insight, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.05|0.3360
92201650|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.054||0.9638|TWO_SIDED|95.0|-0.11|0.1|||MMRM|||Insight, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.11|0.9638
92326819|NCT01187498|184558777|SUPERIORITY_OR_OTHER||Difference of the Means|-0.38|STANDARD_ERROR_OF_MEAN|0.188||0.05||95.0|||||Regression, Linear||The estimated parameter of dispersion represents the standard error for the difference of the group means.|Standard regression methods adjusting for baseline values||||.05
92201651|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.053||0.161|TWO_SIDED|95.0|-0.03|0.18|||MMRM|||Insight, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.03|0.1610
92201652|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.054||0.5763|TWO_SIDED|95.0|-0.14|0.08|||MMRM|||Insight, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.14|0.5763
92201653|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.053||0.0599|TWO_SIDED|95.0|0.0|0.2|||MMRM|||Insight, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|0.00|0.0599
92201654|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.054||0.3916|TWO_SIDED|95.0|-0.15|0.06|||MMRM|||Insight, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.15|0.3916
92201655|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.053||0.9602|TWO_SIDED|95.0|-0.1|0.11|||MMRM|||Insight, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.10|0.9602
92201656|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.055||0.9676|TWO_SIDED|95.0|-0.11|0.11|||MMRM|||Insight, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.11|0.9676
92201657|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.053||0.6397|TWO_SIDED|95.0|-0.08|0.13|||MMRM|||Insight, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.08|0.6397
92201658|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.054||0.34|TWO_SIDED|95.0|-0.05|0.16|||MMRM|||Insight, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.05|0.3400
92201659|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.053||0.3472|TWO_SIDED|95.0|-0.05|0.15|||MMRM|||Insight, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.05|0.3472
92201660|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.054||0.916|TWO_SIDED|95.0|-0.11|0.1|||MMRM|||Insight, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.11|0.9160
92201661|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.053||0.5948|TWO_SIDED|95.0|-0.13|0.08|||MMRM|||Insight, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.13|0.5948
92201662|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.054||0.3755|TWO_SIDED|95.0|-0.06|0.16|||MMRM|||Insight, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.06|0.3755
92201663|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.053||0.9752|TWO_SIDED|95.0|-0.11|0.1|||MMRM|||Insight, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.11|0.9752
92201664|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.054||0.9188|TWO_SIDED|95.0|-0.11|0.1|||MMRM|||Insight, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.11|0.9188
92201665|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.053||0.6379|TWO_SIDED|95.0|-0.08|0.13|||MMRM|||Insight, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.08|0.6379
92201666|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.061||0.4967|TWO_SIDED|95.0|-0.16|0.08|||MMRM|||Insight, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.16|0.4967
92201667|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.059||0.3492|TWO_SIDED|95.0|-0.17|0.06|||MMRM|||Insight, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.17|0.3492
92201668|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.062||0.7136|TWO_SIDED|95.0|-0.1|0.14|||MMRM|||Insight, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.10|0.7136
92201669|NCT02942004|184300841|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.059||0.8163|TWO_SIDED|95.0|-0.1|0.13|||MMRM|||Insight, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.10|0.8163
92201670|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.055||0.2825|TWO_SIDED|95.0|-0.17|0.05|||MMRM|||Insight, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.17|0.2825
92201671|NCT02942004|184300841|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.054||0.1603|TWO_SIDED|95.0|-0.18|0.03|||MMRM|||Insight, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.18|0.1603
92201672|NCT02942004|184300842|SUPERIORITY||LS mean difference|-6.85|STANDARD_ERROR_OF_MEAN|2.414||0.0054|TWO_SIDED|95.0|-11.64|-2.07|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||-2.07|-11.64|0.0054
92201673|NCT02942004|184300842|SUPERIORITY||LS mean difference|-4.2|STANDARD_ERROR_OF_MEAN|2.35||0.0763|TWO_SIDED|95.0|-8.86|0.45|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.45|-8.86|0.0763
92201674|NCT02942004|184300842|SUPERIORITY||LS mean difference|-4.3|STANDARD_ERROR_OF_MEAN|2.673||0.1101|TWO_SIDED|95.0|-9.6|0.99|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.99|-9.60|0.1101
92201675|NCT02942004|184300842|SUPERIORITY||LS mean difference|-1.31|STANDARD_ERROR_OF_MEAN|2.618||0.6167|TWO_SIDED|95.0|-6.5|3.87|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.87|-6.50|0.6167
92326820|NCT01187498|184558778|SUPERIORITY_OR_OTHER||Difference of Group Means|0.19|STANDARD_ERROR_OF_MEAN|0.091||0.05||95.0|||||t-test, 2 sided||The estimated parameter of dispersion represents the standard error for the difference of the group means.|Standard regression methods adjusting for baseline values||||.05
92201676|NCT02942004|184300842|SUPERIORITY||LS mean difference|-5.64|STANDARD_ERROR_OF_MEAN|2.777||0.0447|TWO_SIDED|95.0|-11.14|-0.14|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.14|-11.14|0.0447
92201677|NCT02942004|184300842|SUPERIORITY||LS mean difference|-3.59|STANDARD_ERROR_OF_MEAN|2.726||0.1908|TWO_SIDED|95.0|-8.99|1.81|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.81|-8.99|0.1908
92201678|NCT02942004|184300843|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0131|TWO_SIDED|95.0|1.3|11.7|||GEE method|||Hour 60: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||11.7|1.3|0.0131
92201679|NCT02942004|184300843|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0095|TWO_SIDED|95.0|1.4|11.6|||GEE method|||Hour 60: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||11.6|1.4|0.0095
92201680|NCT02942004|184300843|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0323|TWO_SIDED|95.0|1.1|7.5|||GEE method|||Day 7: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||7.5|1.1|0.0323
92201681|NCT02942004|184300843|SUPERIORITY||Odds Ratio (OR)|2.2||||0.0931|TWO_SIDED|95.0|0.9|5.3|||GEE method|||Day 7: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||5.3|0.9|0.0931
92201682|NCT02942004|184300843|SUPERIORITY||Odds Ratio (OR)|3.6||||0.0139|TWO_SIDED|95.0|1.3|10.0|||GEE method|||Day 30: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||10.0|1.3|0.0139
92201683|NCT02942004|184300843|SUPERIORITY||Odds Ratio (OR)|2.6||||0.046|TWO_SIDED|95.0|1.0|6.9|||GEE method|||Day 30: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||6.9|1.0|0.0460
92326821|NCT01187498|184558779|SUPERIORITY_OR_OTHER||Difference in Group Means|-0.14|STANDARD_ERROR_OF_MEAN|0.091||0.33||95.0|||||t-test, 2 sided||The estimated parameter of dispersion represents the standard error for the difference of the group means.|Standard regression methods adjusting for baseline values||||.33
92201684|NCT02942004|184300844|SUPERIORITY||LS mean difference|-1.13|STANDARD_ERROR_OF_MEAN|1.454||0.4389|TWO_SIDED|95.0|-4.01|1.75|||MMRM|||Change at Hour 60: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.75|-4.01|0.4389
92201685|NCT02942004|184300844|SUPERIORITY||LS mean difference|-1.05|STANDARD_ERROR_OF_MEAN|1.427||0.4645|TWO_SIDED|95.0|-3.88|1.78|||MMRM|||Change at Hour 60: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.78|-3.88|0.4645
92201686|NCT02942004|184300844|SUPERIORITY||LS mean difference|-2.56|STANDARD_ERROR_OF_MEAN|1.356||0.0622|TWO_SIDED|95.0|-5.24|0.13|||MMRM|||Change at Day 7: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-5.24|0.0622
92326822|NCT01187498|184558780|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.924||0.84||95.0|||||t-test, 2 sided||The estimated parameter of dispersion represents the standard error for the difference of the group means.|Standard regression methods adjusting for baseline values||||.84
92326823|NCT01187498|184558781|SUPERIORITY_OR_OTHER||Difference in Weighted Group Means|-0.0563|STANDARD_ERROR_OF_MEAN|0.1249||0.69||95.0|||||Cochran-Mantel-Haenszel||The estimated parameter of dispersion represents the standard error for the difference of the weighted group means.|Cochran Mantel-Haenszel procedure used to account for the ordinal nature of responses.||||.69
92201687|NCT02942004|184300844|SUPERIORITY||LS mean difference|0.25|STANDARD_ERROR_OF_MEAN|1.338||0.8495|TWO_SIDED|95.0|-2.4|2.91|||MMRM|||Change at Day 7: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.91|-2.40|0.8495
92326824|NCT01187498|184558782|SUPERIORITY_OR_OTHER||Difference between Group Weighted Means|-0.1563|STANDARD_ERROR_OF_MEAN|0.1009||0.16||95.0|||||Cochran-Mantel-Haenszel||The estimated parameter of dispersion represents the standard error for the difference of the weighted group means.|Cochran Mantel-Haenszel procedure used to account for the ordinal nature of responses.||||.16
92201688|NCT02942004|184300844|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|1.59||0.7063|TWO_SIDED|95.0|-3.75|2.55|||MMRM|||Change at Day 14: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.55|-3.75|0.7063
92201689|NCT02942004|184300844|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|1.552||0.9434|TWO_SIDED|95.0|-3.19|2.97|||MMRM|||Change at Day 14: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.97|-3.19|0.9434
92201690|NCT02942004|184300844|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|1.608||0.9701|TWO_SIDED|95.0|-3.25|3.13|||MMRM|||Change at Day 21: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.13|-3.25|0.9701
92201691|NCT02942004|184300844|SUPERIORITY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|1.566||0.6307|TWO_SIDED|95.0|-3.86|2.35|||MMRM|||Change at Day 21: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.35|-3.86|0.6307
92201692|NCT02942004|184300844|SUPERIORITY||LS mean difference|-2.02|STANDARD_ERROR_OF_MEAN|1.488||0.1767|TWO_SIDED|95.0|-4.97|0.93|||MMRM|||Change at Day 30: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.93|-4.97|0.1767
92201693|NCT02942004|184300844|SUPERIORITY||LS mean difference|-1.46|STANDARD_ERROR_OF_MEAN|1.468||0.3236|TWO_SIDED|95.0|-4.37|1.45|||MMRM|||Change at Day 30: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.45|-4.37|0.3236
92201694|NCT01370655|184300911|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis supported if the upper bound of the two-sided 80% confidence interval (CI; equivalent to a one-sided upper 90% CI) is~≤0 mmHg"|Difference in Least square (LS) means|-7.4|||||TWO_SIDED|80.0|-10.6|-4.1|||||MK-7145 6 mg LS mean minus Placebo LS mean|Type I error rate of alpha=0.10 (1-sided) is specified for testing of the hypothesis.||-4.1|-10.6|
92201695|NCT01370655|184300911|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis supported if the upper bound of the two-sided 90% CI (equivalent to a one-sided upper 95% CI) for the difference ≤ 3.8 mmHg.|Difference in LS means|-5.4|||||TWO_SIDED|90.0|-9.2|-1.6|||||MK-7145 6 mg LS mean minus HCTZ 25 mg LS mean|Type I error rate of alpha=0.05 (1-sided) is specified for testing of the hypothesis.||-1.6|-9.2|
92201696|NCT01370655|184300911|SUPERIORITY_OR_OTHER||Difference in LS means|-4.8|||||TWO_SIDED|90.0|-9.0|-0.5|||||MK-7145 3 mg LS mean minus HCTZ 25 mg LS mean|||-0.5|-9.0|
92201697|NCT01370655|184300911|SUPERIORITY_OR_OTHER||Difference in LS Means|-6.7|||||TWO_SIDED|90.0|-11.2|-2.2|||||MK-7145 3 mg LS mean minus Placebo LS mean|||-2.2|-11.2|
92201698|NCT01370655|184300911|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.9|||||TWO_SIDED|90.0|-6.2|2.3|||||HCTZ 25 mg LS mean minus Placebo LS mean|||2.3|-6.2|
92201699|NCT01370655|184300912|SUPERIORITY_OR_OTHER||Difference in LS means|-3.2|||||TWO_SIDED|90.0|-6.1|-0.3|||||MK-7145 6 mg LS mean minus Placebo LS mean|||-0.3|-6.1|
92201700|NCT01370655|184300912|SUPERIORITY_OR_OTHER||Difference in LS means|-2.9|||||TWO_SIDED|90.0|-5.5|-0.2|||||MK-7145 6 mg LS mean minus HCTZ 25 mg LS mean|||-0.2|-5.5|
92201701|NCT01370655|184300912|SUPERIORITY_OR_OTHER||Difference in LS means|-3.0|||||TWO_SIDED|90.0|-6.0|-0.1|||||MK-7145 3 mg LS mean minus HCTZ 25 mg LS mean|||-0.1|-6.0|
92326825|NCT01187498|184558783|SUPERIORITY_OR_OTHER||Difference in Weighted Group Means|0.1079|STANDARD_ERROR_OF_MEAN|0.1625||0.56||95.0|||||Cochran-Mantel-Haenszel||The estimated parameter of dispersion represents the standard error for the difference of the weighted group means.|Cochran Mantel-Haenszel procedure used to account for the ordinal nature of responses.||||.56
92326826|NCT01187498|184558784|SUPERIORITY_OR_OTHER||Difference in Weighted Group Means|0.054|STANDARD_ERROR_OF_MEAN|0.1265||0.65||95.0|||||Cochran-Mantel-Haenszel||The estimated parameter of dispersion represents the standard error for the difference of the weighted group means.|Cochran Mantel-Haenszel procedure used to account for the ordinal nature of responses.||||.65
92326827|NCT01187498|184558785|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Cochran-Mantel-Haenszel|||Cochran Mantel-Haenszel procedure used to account for the ordinal nature of responses.||||.01
92326828|NCT01187498|184558786|SUPERIORITY_OR_OTHER||Difference in Group Proportions|-0.21|STANDARD_ERROR_OF_MEAN|0.086||0.02||95.0|||||Chi-squared||The estimated parameter of dispersion represents the standard error for the difference of the group proportions.|Cochran Mantel-Haenszel procedure.||||.02
92201702|NCT01370655|184300912|SUPERIORITY_OR_OTHER||Difference in LS means|-3.4|||||TWO_SIDED|90.0|-6.5|-0.2|||||MK-7145 3 mg LS mean minus Placebo LS mean|||-0.2|-6.5|
92201703|NCT01370655|184300912|SUPERIORITY_OR_OTHER||Difference in LS means|-0.3|||||TWO_SIDED|90.0|-3.3|2.7|||||HCTZ 25 mg LS mean minus Placebo LS mean|||2.7|-3.3|
92201704|NCT01370655|184300913|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis supported if the lower bound of the two-sided 80% CI (equivalent to a one-sided lower 90% CI) is \> 89.0 mmol/day.|Difference in LS means|76.5|||||TWO_SIDED|80.0|49.2|103.8|||||MK-7145 6 mg LS mean minus Placebo LS mean|Type I error rate of alpha=0.10 (1-sided) is specified for testing of the hypothesis.||103.8|49.2|
92201705|NCT01370655|184300913|SUPERIORITY_OR_OTHER||Difference in LS means|-63.7|||||TWO_SIDED|90.0|-100.8|-26.7|||||MK-7145 3 mg LS mean minus HCTZ 25 mg LS mean|||-26.7|-100.8|
92201706|NCT01370655|184300913|SUPERIORITY_OR_OTHER||Difference in LS means|-18.1|||||TWO_SIDED|90.0|-49.1|12.9|||||MK-7145 6 mg LS mean minus HCTZ 25 mg LS mean|||12.9|-49.1|
92201707|NCT01370655|184300913|SUPERIORITY_OR_OTHER||Difference in LS means|30.9|||||TWO_SIDED|90.0|-7.0|68.7|||||MK-7145 3 mg LS mean minus Placebo LS mean|||68.7|-7.0|
92201708|NCT01370655|184300913|SUPERIORITY_OR_OTHER||Difference in LS means|94.6|||||TWO_SIDED|90.0|58.8|130.4|||||HCTZ 25 mg LS mean minus Placebo LS mean|||130.4|58.8|
92201709|NCT01370655|184300917|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the two-sided 80% CI (equivalent to a one-sided upper 90% CI) for the difference is \<13 mmol/day the hypothesis will be supported for the 3-mg dose and testing will continue with construction of a two-sided 80% CI for the 6-mg dose (6 mg MK-7145 - placebo). The hypothesis will be supported if one or both doses meet the test criterion.|Difference in LS means|7.9|||||TWO_SIDED|80.0|-2.3|18.2|||||MK-7145 3 mg LS mean minus Placebo LS mean|||18.2|-2.3|
92201710|NCT01370655|184300917|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the two-sided 80% CI (equivalent to a one-sided upper 90% CI) for the difference is \<13 mmol/day the hypothesis will be supported for the 3-mg dose and testing will continue with construction of a two-sided 80% CI for the 6-mg dose (6 mg MK-7145 - placebo). The hypothesis will be supported if one or both doses meet the test criterion.|Difference in LS means|1.1|||||TWO_SIDED|80.0|-8.5|10.7|||||MK-7145 6 mg LS mean minus Placebo LS mean|||10.7|-8.5|
92201711|NCT01370655|184300917|SUPERIORITY_OR_OTHER||Difference in LS means|3.0|||||TWO_SIDED|90.0|-9.6|15.6|||||MK-7145 3 mg LS mean minus HCTZ 25 mg LS mean|||15.6|-9.6|
92201712|NCT01370655|184300917|SUPERIORITY_OR_OTHER||Difference in LS means|-3.9|||||TWO_SIDED|90.0|-15.0|7.2|||||MK-7145 6 mg LS mean minus HCTZ 25 mg LS mean|||7.2|-15.0|
92201713|NCT01370655|184300917|SUPERIORITY_OR_OTHER||Difference in LS means|5.0|||||TWO_SIDED|90.0|-7.7|17.6|||||HCTZ 25 mg LS mean minus Placebo LS mean|||17.6|-7.7|
92201714|NCT02224703|184300922|SUPERIORITY||Treatment Ratio|0.743||||0.0299|TWO_SIDED|95.0|0.568|0.971|||Negative binomial regression|||Model includes total number of seizures as a response variable and age group, time (baseline and treatment period), treatment, and treatment by time interaction as fixed effects, and participant as a random effect. Log-transformed number of days in which seizures were reported by period is included as an offset. Null hypothesis was that the ratio of GWP42003-P to placebo would be 1.||0.971|0.568|0.0299
92201715|NCT02224703|184300922|SUPERIORITY||Treatment Ratio|0.702||||0.0095|TWO_SIDED|95.0|0.538|0.916|||Negative binomial regression|||Model includes total number of seizures as a response variable and age group, time (baseline and treatment period), treatment, and treatment by time interaction as fixed effects, and participant as a random effect. Log-transformed number of days in which seizures were reported by period is included as an offset. Null hypothesis was that the ratio of GWP42003-P to placebo would be 1.||0.916|0.538|0.0095
92201716|NCT02224703|184300923|SUPERIORITY||Treatment Ratio|0.749||||0.0255|TWO_SIDED|95.0|0.581|0.965|||Negative binomial regression|||Model includes total number of seizures as a response variable and age group, time (baseline and treatment period), treatment, and treatment by time interaction as fixed effects, and participant as a random effect. Log-transformed number of days in which seizures were reported by period is included as an offset.||0.965|0.581|0.0255
92201717|NCT02224703|184300923|SUPERIORITY||Treatment Ratio|0.62||||0.0003|TWO_SIDED|95.0|0.481|0.799|||Negative binomial regression|||Model includes total number of seizures as a response variable and age group, time (baseline and treatment period), treatment, and treatment by time interaction as fixed effects, and participant as a random effect. Log-transformed number of days in which seizures were reported by period is included as an offset.||0.799|0.481|0.0003
92201718|NCT02224703|184300924|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0069|TWO_SIDED|95.0|1.32|5.7|||Cochran-Mantel-Haenszel|P-value calculated from a Cochran-Mantel-Haenszel test stratified by age group (2-5, 6-12, and 13-18 years).||||5.70|1.32|0.0069
92201719|NCT02224703|184300924|SUPERIORITY||Odds Ratio (OR)|2.21||||0.0332|TWO_SIDED|95.0|1.06|4.62|||Cochran-Mantel-Haenszel|P-value calculated from a Cochran-Mantel-Haenszel test stratified by age group (2-5, 6-12, and 13-18 years).||||4.62|1.06|0.0332
92201720|NCT02224703|184300925|SUPERIORITY||Odds Ratio (OR)|2.02||||0.0279|TWO_SIDED|95.0|1.08|3.78|||Regression, Logistic||Proportional odds modelling was carried out by including treatment group as a fixed factor. The estimated OR tested the null hypothesis that OR was equal to 1.|||3.78|1.08|0.0279
92201721|NCT02224703|184300925|SUPERIORITY||Odds Ratio (OR)|2.93||||0.0009|TWO_SIDED|95.0|1.56|5.53|||Regression, Logistic||Proportional odds modelling was carried out by including treatment group as a fixed factor. The estimated OR tested the null hypothesis that OR was equal to 1.|||5.53|1.56|0.0009
92201722|NCT02057575|184300926|SUPERIORITY||||||<|0.0001||||||PG324 0.01% vs netarsudil|t-test, 2 sided|||||||<0.0001
92201723|NCT02057575|184300926|SUPERIORITY||||||<|0.0001||||||PG324 0.02% vs. netarsudil|t-test, 2 sided|||||||<0.0001
92201724|NCT02057575|184300926|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|PG324 0.01% vs. latanoprost||||||<0.0001
92201725|NCT02057575|184300926|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|PG324 0.02% vs. latanoprost||||||<0.0001
92201726|NCT00895895|184301002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.424|TWO_SIDED|95.0|-1.0|2.3|||Mixed Models Analysis|Mixed Model with repeated measures: change=Mini Mental State Examination (MMSE) Japan baseline baseline times(\*)visit visit treatment treatment\*visit.||Analysis of adjusted difference in change from baseline.||2.3|-1.0|0.424
92201727|NCT00895895|184301002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.849|TWO_SIDED|95.0|-1.8|1.5|||Mixed Models Analysis|Mixed Model with repeated measures: change equals (=) MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.5|-1.8|0.849
92201728|NCT00895895|184301002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.52|TWO_SIDED|95.0|-2.2|1.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.1|-2.2|0.520
92201729|NCT00895895|184301002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.258|TWO_SIDED|95.0|-2.6|0.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.7|-2.6|0.258
92201730|NCT00895895|184301003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.367|TWO_SIDED|95.0|-5.2|1.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.9|-5.2|0.367
92201731|NCT00895895|184301003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.91|TWO_SIDED|95.0|-3.3|3.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||3.7|-3.3|0.910
92201732|NCT00895895|184301003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.16|TWO_SIDED|95.0|-1.0|6.0|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||6.0|-1.0|0.160
92201733|NCT00895895|184301003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4||||0.06|TWO_SIDED|95.0|-0.1|6.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||6.9|-0.1|0.060
92201734|NCT00895895|184301004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.931|TWO_SIDED|95.0|-2.8|3.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||3.1|-2.8|0.931
92201735|NCT00895895|184301004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.054|TWO_SIDED|95.0|-5.8|0.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.1|-5.8|0.054
92201736|NCT00895895|184301004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.246|TWO_SIDED|95.0|-4.6|1.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.2|-4.6|0.246
92201737|NCT00895895|184301004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.426|TWO_SIDED|95.0|-4.1|1.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.7|-4.1|0.426
92201738|NCT00895895|184301005|SUPERIORITY_OR_OTHER|||||||0.265|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.265
92201739|NCT00895895|184301005|SUPERIORITY_OR_OTHER|||||||0.682|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.682
92201740|NCT00895895|184301005|SUPERIORITY_OR_OTHER|||||||0.532|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.532
92201741|NCT00895895|184301005|SUPERIORITY_OR_OTHER|||||||0.087|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.087
92201742|NCT00895895|184301005|SUPERIORITY_OR_OTHER|||||||0.751|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.751
92201743|NCT00895895|184301006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.553|TWO_SIDED|95.0|-3.9|7.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||7.3|-3.9|0.553
92201744|NCT00895895|184301006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.886|TWO_SIDED|95.0|-6.0|5.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||5.2|-6.0|0.886
92201745|NCT00895895|184301006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.712|TWO_SIDED|95.0|-6.6|4.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||4.5|-6.6|0.712
92201746|NCT00895895|184301006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.785|TWO_SIDED|95.0|-4.8|6.4|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||6.4|-4.8|0.785
92201747|NCT00895895|184301007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.251|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.1|-0.5|0.251
92201748|NCT00895895|184301007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.993|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.3|-0.3|0.993
92201749|NCT00895895|184301007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.553|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.2|-0.4|0.553
92201750|NCT00895895|184301007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.611|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.2|-0.4|0.611
92201751|NCT00895895|184301008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.34|TWO_SIDED|95.0|-1.5|0.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.5|-1.5|0.340
92201752|NCT00895895|184301008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.63|TWO_SIDED|95.0|-0.8|1.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.2|-0.8|0.630
92201753|NCT00895895|184301008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.678|TWO_SIDED|95.0|-0.8|1.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.2|-0.8|0.678
92201754|NCT00895895|184301008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.518|TWO_SIDED|95.0|-1.3|0.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.7|-1.3|0.518
92201755|NCT00895895|184301009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.953|TWO_SIDED|95.0|-0.7|0.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.7|-0.7|0.953
92201756|NCT00895895|184301009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.956|TWO_SIDED|95.0|-0.7|0.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.6|-0.7|0.956
92201757|NCT00895895|184301009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.216|TWO_SIDED|95.0|-1.1|0.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.2|-1.1|0.216
92201758|NCT00895895|184301009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.665|TWO_SIDED|95.0|-0.8|0.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.5|-0.8|0.665
92201759|NCT00895895|184301010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.373|TWO_SIDED|95.0|-0.6|1.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.7|-0.6|0.373
92201760|NCT00895895|184301010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.781|TWO_SIDED|95.0|-1.0|1.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.3|-1.0|0.781
92201761|NCT00895895|184301010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.417|TWO_SIDED|95.0|-0.7|1.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.6|-0.7|0.417
92201762|NCT00895895|184301010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.853|TWO_SIDED|95.0|-1.3|1.0|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.0|-1.3|0.853
92201763|NCT00895895|184301011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.428|TWO_SIDED|95.0|-2.6|1.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.1|-2.6|0.428
92201764|NCT00895895|184301011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.763|TWO_SIDED|95.0|-2.1|1.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.5|-2.1|0.763
92201765|NCT00895895|184301011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.312|TWO_SIDED|95.0|-2.7|0.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.9|-2.7|0.312
92201766|NCT00895895|184301011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.215|TWO_SIDED|95.0|-3.0|0.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.7|-3.0|0.215
92201767|NCT00895895|184301012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.956|TWO_SIDED|95.0|-2.7|2.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||2.5|-2.7|0.956
92201768|NCT00895895|184301012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.988|TWO_SIDED|95.0|-2.6|2.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||2.5|-2.6|0.988
92201769|NCT00895895|184301012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.89|TWO_SIDED|95.0|-2.7|2.4|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||2.4|-2.7|0.890
92201770|NCT00895895|184301012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.28|TWO_SIDED|95.0|-4.0|1.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.2|-4.0|0.280
92201771|NCT00895895|184301013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.154|TWO_SIDED|95.0|-1.5|0.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.2|-1.5|0.154
92201772|NCT00895895|184301013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.74|TWO_SIDED|95.0|-1.0|0.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.7|-1.0|0.740
92201773|NCT00895895|184301013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.179|TWO_SIDED|95.0|-1.4|0.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.3|-1.4|0.179
92201774|NCT00895895|184301013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.543|TWO_SIDED|95.0|-0.6|1.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.1|-0.6|0.543
92201775|NCT00895895|184301014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.4||||0.861|TWO_SIDED|95.0|-739.7|618.8|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||618.8|-739.7|0.861
92201776|NCT00895895|184301014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-926.6||||0.007|TWO_SIDED|95.0|-1596.9|-256.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||-256.3|-1596.9|0.007
92201777|NCT00895895|184301014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|141.3||||0.676|TWO_SIDED|95.0|-522.1|804.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||804.6|-522.1|0.676
92201778|NCT00895895|184301014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|230.6||||0.505|TWO_SIDED|95.0|-449.7|910.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||910.9|-449.7|0.505
92201779|NCT00895895|184301015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8||||0.267|TWO_SIDED|95.0|-2.2|7.8|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||7.8|-2.2|0.267
92201780|NCT00895895|184301015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6||||0.145|TWO_SIDED|95.0|-1.3|8.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||8.6|-1.3|0.145
92201781|NCT00895895|184301015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.139|TWO_SIDED|95.0|-1.2|8.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||8.6|-1.2|0.139
92201782|NCT00895895|184301015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2||||0.386|TWO_SIDED|95.0|-2.8|7.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||7.2|-2.8|0.386
92201783|NCT00895895|184301016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.032|TWO_SIDED|95.0|-2.3|-0.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||-0.1|-2.3|0.032
92201784|NCT00895895|184301016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.264|TWO_SIDED|95.0|-0.5|1.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.7|-0.5|0.264
92201785|NCT00895895|184301016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.893|TWO_SIDED|95.0|-1.0|1.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.1|-1.0|0.893
92201786|NCT00895895|184301016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.525|TWO_SIDED|95.0|-0.7|1.4|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.4|-0.7|0.525
92201787|NCT00895895|184301017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|60.9||||0.056|TWO_SIDED|95.0|-1.6|123.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||123.5|-1.6|0.056
92201788|NCT00895895|184301017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.8||||0.488|TWO_SIDED|95.0|-40.0|83.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||83.5|-40.0|0.488
92201789|NCT00895895|184301017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6||||0.783|TWO_SIDED|95.0|-52.6|69.8|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||69.8|-52.6|0.783
92201790|NCT00895895|184301017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.6||||0.578|TWO_SIDED|95.0|-44.6|79.8|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||79.8|-44.6|0.578
92201791|NCT00895895|184301018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.1||||0.175|TWO_SIDED|95.0|-13.9|76.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||76.1|-13.9|0.175
92201792|NCT00895895|184301018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.0||||0.352|TWO_SIDED|95.0|-23.3|65.4|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||65.4|-23.3|0.352
92201793|NCT00895895|184301018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.7||||0.797|TWO_SIDED|95.0|-38.1|49.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||49.6|-38.1|0.797
92201794|NCT00895895|184301018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9||||0.633|TWO_SIDED|95.0|-55.6|33.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||33.9|-55.6|0.633
92326829|NCT01970475|184558787|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis was tested by comparing the 2-sided 90% confidence interval (CI) of the RR of ACR20 at week 24 between ABP 501 and adalimumab with an equivalence margin of (0.738, 1/0.738).|Risk Ratio (RR)|1.039|||||TWO_SIDED|90.0|0.954|1.133|||||Based on a generalized linear model adjusted for geographic region and prior biological use for RA as covariates in the model.|The study hypothesis was that there were no clinically meaningful differences between ABP 501 and adalimumab in risk ratio (RR) of ACR20 at week 24.||1.133|0.954|
92201795|NCT00895895|184301019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|71.2||||0.066|TWO_SIDED|95.0|-4.7|147.0|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||147.0|-4.7|0.066
92201796|NCT00895895|184301019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0||||0.598|TWO_SIDED|95.0|-54.6|94.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||94.7|-54.6|0.598
92326830|NCT03495154|184558857|OTHER|This was not a comparative endpoint.|Percentage and confidence interval|3.3|||||TWO_SIDED|95.0|1.0|8.5||||||Number of participants with hernia recurrence within 12 months following Parietene™ DS Composite Mesh use in ventral hernia repair||8.5|1.0|
92326831|NCT03495154|184558858|OTHER|Statistical Analysis is based on number of participants with incidence of with ADEs at discharge. Adverse Device Effects (ADE) is inclusive of both procedure and/or device related AEs.|Number of Subjects with ADEs|14.0|||||TWO_SIDED|||||||||||||
92326832|NCT03495154|184558858|OTHER|Statistical Analysis is based on number of participants with incidence of ADEs within 1 month. Adverse Device Effects (ADE) is inclusive of both procedure and/or device related AEs.|Number of Subjects with ADEs|31.0|||||TWO_SIDED|||||||||||||
92326833|NCT03495154|184558858|OTHER|Statistical Analysis is based on number of participants with incidence of ADEs within 3 months. Adverse Device Effects (ADE) is inclusive of both procedure and/or device related AEs.|Number of Subjects with ADEs|34.0|||||TWO_SIDED|||||||||||||
92326834|NCT03495154|184558858|OTHER|Statistical Analysis is based on number of participants with incidence of ADEs within 12 months. Adverse Device Effects (ADE) is inclusive of both procedure and/or device related AEs.|Number of Subjects with ADEs|40.0|||||TWO_SIDED|||||||||||||
92326835|NCT03495154|184558858|OTHER|Statistical Analysis is based on number of participants with incidence of ADEs within 24 months. Adverse Device Effects (ADEs) are inclusive of both procedure and device related AEs.|Number of Subjects with ADEs|42.0|||||TWO_SIDED|||||||||||||
92326836|NCT03495154|184558859|OTHER|This was not a comparative endpoint.|% of Subjects with Recurrence within 1M|0.0|||||TWO_SIDED|95.0|0.0|2.9||||||||2.9|0|
92326837|NCT03495154|184558859|OTHER|This was not a comparative endpoint.|% of Subjects with Recurrence within 3M|0.0|||||TWO_SIDED|95.0|0.0|3.0||||||||3.0|0|
92326838|NCT03495154|184558859|OTHER|This was not a comparative endpoint.|% of Subjects with Recurrence within 24M|4.0|||||TWO_SIDED|95.0|1.2|9.6||||||||9.6|1.2|
92326839|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.75|1.17|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 3||1.17|0.75|<0.001
92326840|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.88|1.33|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 7F||1.33|0.88|<0.001
92326841|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.12|||<|0.001|TWO_SIDED|95.0|0.93|1.36|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 8||1.36|0.93|<0.001
92326842|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.86|1.29|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 9N||1.29|0.86|<0.001
92326843|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.65|||<|0.001|TWO_SIDED|95.0|1.28|2.14|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 10A||2.14|1.28|<0.001
92326844|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.52|||<|0.001|TWO_SIDED|95.0|1.2|1.92|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 11A||1.92|1.20|<0.001
92326845|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.97|||<|0.001|TWO_SIDED|95.0|1.43|2.72|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 12F||2.72|1.43|<0.001
92201797|NCT00895895|184301019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.2||||0.766|TWO_SIDED|95.0|-62.9|85.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||85.3|-62.9|0.766
92201798|NCT00895895|184301019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.8||||0.378|TWO_SIDED|95.0|-41.5|109.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||109.1|-41.5|0.378
92201799|NCT00895895|184301020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.5||||0.481|TWO_SIDED|95.0|-40.2|85.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||85.2|-40.2|0.481
92201800|NCT00895895|184301020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2||||0.894|TWO_SIDED|95.0|-57.5|65.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||65.9|-57.5|0.894
92201801|NCT00895895|184301020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.991|TWO_SIDED|95.0|-61.5|60.8|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||60.8|-61.5|0.991
92201802|NCT00895895|184301020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.5||||0.422|TWO_SIDED|95.0|-87.9|36.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||36.9|-87.9|0.422
92201803|NCT00895895|184301021|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.581|TWO_SIDED|95.0|0.24|2.22|||Regression, Logistic|||||2.22|0.24|0.581
92201804|NCT00895895|184301021|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.77|TWO_SIDED|95.0|0.42|3.19|||Regression, Logistic|||||3.19|0.42|0.770
92201805|NCT00895895|184301021|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.216|TWO_SIDED|95.0|0.71|4.55|||Regression, Logistic|||||4.55|0.71|0.216
92201806|NCT00895895|184301021|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.61||||0.037|TWO_SIDED|95.0|1.06|6.42|||Regression, Logistic|||||6.42|1.06|0.037
92201807|NCT01721954|184301025|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.43|TWO_SIDED|95.0|||||Log Rank|||The null hypothesis tested for the primary efficacy endpoint is overall survival (months) of SIRT/FOLFOX treatment versus FOLFOX is equal for both groups. The two-sided alternative hypothesis tested with 95% confidence is OS time for SIRT/FOLFOX treatment lower to that of FOLFOX.||||0.43
92201808|NCT01721954|184301026|SUPERIORITY||Hazard Ratio (HR)|0.75|||<|0.05|TWO_SIDED||||||Log Rank|||A sample size of at least 209 patients for the SIRFLOX study was estimated to be needed to detect an increase in the median PFS at any site from 9.4 months to 14.5 months with 80% power and 95% confidence. Taking into account the number of patients who might receive the alternative treatment or lack of imaging data, the sample size was increased to 209. The Null hypothesis is no difference between the treatment arms with respect to PFS.||||<0.05
92201809|NCT02278484|184301037|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92201810|NCT01346072|184301039|SUPERIORITY|||||||0.853|||||||Wilcoxon Two-Sample Test|Wilcoxon Two Sample Test was used with Exact Test two sided p value reported||||||0.853
92201811|NCT01346072|184301040|SUPERIORITY|||||||0.035|||||||Wilcoxon Two-Sample Test|Wilcoxon Two Sample Test was used with Exact Test two sided p value reported||||||0.035
92201812|NCT01711853|184301052|SUPERIORITY_OR_OTHER|||||||0.5186|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||"Patients were classified into groups for renal function based on the median values for renal function (1: ≤ median GFR (Glomerular filtration rate), 2: \> median GFR).~Median is calculated based on trial data of treated set"||||0.5186
92201813|NCT01711853|184301052|SUPERIORITY_OR_OTHER|||||||0.9883|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||"Patients were classified into groups for renal function based on the median values for renal function (1: ≤ median age, 2: \> median age).~Median is calculated based on trial data of treated set"||||0.9883
92201814|NCT01711853|184301052|SUPERIORITY_OR_OTHER|||||||0.7853|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||Patients were classified based on the gender distribution.||||0.7853
92201815|NCT01711853|184301053|SUPERIORITY_OR_OTHER|||||||0.4692|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||"Patients were classified into groups for renal function based on the median values for renal function (1: ≤ median GFR, 2: \> median GFR).~Median is calculated based on trial data of treated set"||||0.4692
92201816|NCT01711853|184301053|SUPERIORITY_OR_OTHER|||||||0.9734|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||"Patients were classified into groups for renal function based on the median values for renal function (1: ≤ median age, 2: \> median age).~Median is calculated based on trial data of treated set"||||0.9734
92201817|NCT01711853|184301053|SUPERIORITY_OR_OTHER|||||||0.9201|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||Patients were classified based on the gender distribution.||||0.9201
92201818|NCT02514551|184301113|SUPERIORITY||Hazard Ratio (HR)|0.617|||||TWO_SIDED|95.0|0.447|0.853|||||Unstratified cox proportional hazards model comparing Ramucirumab I4T-MC-JVCZ and I4T-IE-JVBE (NCT01170663)|"This analysis were comparison of PFS for participants treated with ramucirumab 12 mg/kg plus paclitaxel in Study I4T-MC-JVCZ versus placebo plus paclitaxel in I4T-IE-JVBE (NCT01170663) using meta-analysis.~Placebo + 80 mg/m² Paclitaxel in I4T-IE-JVBE Number of participants: 335, Median (95% CI), months: 2.86 (2.79 to 3.02)"||0.853|0.447|
92201819|NCT02514551|184301114|SUPERIORITY||Hazard Ratio (HR)|0.963|||||TWO_SIDED|95.0|0.727|1.274|||||Unstratified cox proportional hazards model.|||1.274|0.727|
92201820|NCT03197766|184301213|SUPERIORITY||||||<|0.0001||||||Confirmatory statistical testing controlling for the Type I error rate was performed on the primary analysis for the primary endpoint.|ANCOVA|Two subjects in the BMN 111 group discontinued from the study before Week 52. The values for these 2 subjects were imputed for this analysis.||||||< 0.0001
92201821|NCT03197766|184301214|SUPERIORITY||||||<|0.0001||||||Confirmatory statistical testing controlling for the Type I error rate was performed on the primary analyses for the two key secondary endpoints.|ANCOVA|Missing assessments at Week 52 were imputed||||||< 0.0001
92201822|NCT03197766|184301215|SUPERIORITY||||||=|0.506||||||Confirmatory statistical testing controlling for the Type I error rate was performed on the primary analyses for the two key secondary endpoints.|ANCOVA|Missing assessments at Week 52 were imputed||||||= 0.506
92201823|NCT00305344|184301226|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Fisher Exact|||Null hypothesis: there will be no difference between AUC C-peptide at baseline and 1 or 2 years post cord blood infusion||||>0.05
92201824|NCT01460225|184301227|EQUIVALENCE|Based on the results of Camilleri et al, this should be adequate to detect up to a 30% difference in gastric emptying scan times with a p-value of 0.05 and 80% power.||||||0.003|||||||t-test, 2 sided|||Comparison of meal retention between pre-treatment and post treatment at 2 hours post meal||||0.003
92201825|NCT01460225|184301227|EQUIVALENCE|Based on the results of Camilleri et al, this should be adequate to detect up to a 30% difference in gastric emptying scan times with a p-value of 0.05 and 80% power.||||||0.122|||||||t-test, 2 sided|||Comparison of meal retention between pre-treatment and post treatment at 4 hours post meal||||0.122
92201826|NCT02755129|184301228|OTHER||||||||||||||||||"To assess the similarity between the Reveal LINQ measures and those from the reference system, correlation coefficients were used.~The correlation coefficient was calculated over windows of 4 seconds and averaged for each exercise. Then, the average correlation coefficient over all patients and exercise was calculated."|||
92201827|NCT04535544|184301269|SUPERIORITY||Difference of percentage|23.7||||0.011|TWO_SIDED|95.0|3.52|43.96|||Mantel-Haenszel|||Stratum-adjusted Mantel-Haenszel (MH) test was used to assess the difference of percentage based on stratification factor: HBeAg status at screening (positive vs negative).||43.96|3.52|0.011
92201828|NCT04535544|184301270|SUPERIORITY||Difference of percentage|26.8||||0.003|TWO_SIDED|95.0|7.38|46.21|||Mantel-Haenszel|||Stratum-adjusted MH test was used to assess the difference of percentage based on stratification factor: HBeAg status at screening (positive vs negative).||46.21|7.38|0.003
92201829|NCT01123070|184301324|EQUIVALENCE|Bioequivalence declared if the back transformed 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.93||||0.4265|TWO_SIDED|90.0|0.797|1.084|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011 arm is the numerator and MabThera arm is the denominator|||1.084|0.797|0.4265
92201830|NCT01123070|184301325|EQUIVALENCE|Bioequivalence declared if the back transformed 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.862||||0.0368|TWO_SIDED|90.0|0.768|0.968|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011 arm is the numerator, MabThera arm is the denominator|||0.968|0.768|0.0368
92201831|NCT01123070|184301327|EQUIVALENCE|Bioequivalence declared if the 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.909||||0.1484|TWO_SIDED|90.0|0.814|1.014|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011/MabThera|Cmax1||1.014|0.814|0.1484
92201832|NCT01123070|184301327|EQUIVALENCE|Bioequivalence declared if the 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.766||||0.0241|TWO_SIDED|90.0|0.633|0.927|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011/MabThera|Cmax2||0.927|0.633|0.0241
92201833|NCT01123070|184301328|EQUIVALENCE|Bioequivalence declared if the 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.969||||0.652|TWO_SIDED|90.0|0.863|1.088|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011 arm is the numerator, MabThera arm is the denominator|AUC1||1.088|0.863|0.6520
92201834|NCT01123070|184301328|EQUIVALENCE|Bioequivalence declared if the 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.961||||0.7835|TWO_SIDED|90.0|0.757|1.222|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011/MabThera|AUC2||1.222|0.757|0.7835
92201835|NCT00918879|184301377|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|0.139||0.0011||95.0|-0.73|-0.18|||ANCOVA|\* adjusted for baseline HbA1c||||-0.18|-0.73|0.0011
92201836|NCT00918879|184301378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.19|STANDARD_ERROR_OF_MEAN|5.438||0.0623||95.0|-20.91|0.53|||ANCOVA|\* Adjusted for baseline FPG||||0.53|-20.91|0.0623
92326846|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.6|||<|0.001|TWO_SIDED|95.0|1.28|2.0|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 17F||2.00|1.28|<0.001
92201837|NCT00918879|184301379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|0.302||0.0623||95.0|-1.17|0.02|||ANCOVA|\* Adjusted for baseline FPG||||0.02|-1.17|0.0623
92201838|NCT00918879|184301380|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.8||||||95.0|-1.7|19.3|||Fisher Exact|||||19.3|-1.7|
92201839|NCT01182441|184301401|SUPERIORITY|Success for this endpoint was achieved if the probability of experiencing an event was statistically less than the performance goal, defined as 2.67%, with an upper bound of the one-sided 95% credible interval less than the performance goal.|probability of experiencing an event|2.2|||||ONE_SIDED|95.0||2.652||||||Bayesian calculations were used to incorporate the data from PROTECT AF CAP Registry through a conjugate beta-binomial model. A one-sided upper 95% credible interval for the event rate was calculated based off this posterior distribution.||2.652||
92201840|NCT01182441|184301402|NON_INFERIORITY|This endpoint is met if the 95% Credible Interval for the rate ratio of WATCHMAN versus Warfarin is entirely less than 1.75.|Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.57|1.89||||||A Bayesian piecewise exponential model was used to model the 18-month event rates. Historical priors for each interval model were based on PROTECT AF. Hazards were modeled for 0-7 day, 7-60 day, 60-182 day, and 182+ day intervals. Event rates were estimated separately by treatment group and event type. The posterior distribution for the 18-month event rate ratio (WATCHMAN vs. Warfarin), and the corresponding equitailed 95% credible interval, were determined via Monte Carlo simulations.||1.89|0.57|
92201841|NCT01182441|184301403|NON_INFERIORITY|This endpoint is met if either the 95% Credible Interval for the risk ratio \< 2.0 or the 95% Credible Interval for the risk difference is \< 0.0275.|Risk Difference (RD)|0.0053|||||TWO_SIDED|95.0|-0.019|0.0273||||||A Bayesian piecewise exponential model was used to model the 18-month event rates. Historical priors for each interval were based on PROTECT AF. Hazards were modeled for 0-7 day, 7-60 day, 60-182 day, and 182+ day intervals. Event rates were estimated separately for the WATCHMAN and Warfarin groups. The posterior distribution for the 18-month event rate ratio (WATCHMAN vs. Warfarin), and the corresponding equitailed 95% credible interval, were determined via Monte Carlo simulations.||0.0273|-0.0190|
92201842|NCT01182441|184301403|NON_INFERIORITY|This endpoint is met if either the 95% Credible Interval for the risk ratio \< 2.0 or the 95% Credible Interval for the risk difference is \< 0.0275.|Risk Ratio (RR)|1.6|||||TWO_SIDED|95.0|0.5|4.2||||||A Bayesian piecewise exponential model was used to model the 18-month event rates. Historical priors for each interval were based on PROTECT AF. Hazards were modeled for 0-7 day, 7-60 day, 60-182 day, and 182+ day intervals. Event rates were estimated separately for the WATCHMAN and Warfarin groups. The posterior distribution for the 18-month event rate ratio (WATCHMAN vs. Warfarin), and the corresponding equitailed 95% credible interval, were determined via Monte Carlo simulations.||4.2|0.5|
92201843|NCT00384774|184301404|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Headache Response||||1.0000
92201844|NCT00384774|184301404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0991|||||||Fisher Exact|||Headache Response||||0.0991
92201845|NCT00384774|184301404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4851|||||||Chi-squared|||Headache Response||||0.4851
92201846|NCT00384774|184301404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1178|||||||Chi-squared|||Headache Response||||0.1178
92201847|NCT00384774|184301404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1093|||||||Chi-squared|||Headache Response||||0.1093
92201848|NCT00384774|184301404|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3364|||||||Fisher Exact|||Headache Response||||0.3364
92201849|NCT00288639|184301413|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-22.72|STANDARD_DEVIATION|55.232||||95.0|-34.16|-11.28|||||Response ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-11.28|-34.16|
92201850|NCT00288639|184301414|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-17.26|STANDARD_DEVIATION|48.797||||95.0|-27.36|-7.15|||||Response ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-7.15|-27.36|
92201851|NCT00288639|184301415|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-22.43|STANDARD_DEVIATION|56.615||||95.0|-34.16|-10.71|||||1-28 Days. Response ratio = 100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency.|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts.Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%.Allowing for dropouts assume 85% pts analyzed.||-10.71|-34.16|
92201852|NCT00288639|184301415|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-22.83|STANDARD_DEVIATION|57.543||||95.0|-34.74|-10.91|||||29-56 Days. Response ratio = 100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency.|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power,true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-10.91|-34.74|
92201853|NCT00288639|184301415|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-27.18|STANDARD_DEVIATION|59.323||||95.0|-39.9|-14.46|||||57-84 Days. Response ratio = 100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency. .|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-14.46|-39.90|
92201854|NCT00288639|184301415|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-30.75|STANDARD_DEVIATION|58.11||||95.0|-43.44|-18.06|||||85-112 Days. Response ratio=100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency.|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%.Allowing for dropouts assume 85% pts analyzed.||-18.06|-43.44|
92201855|NCT00288639|184301415|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-38.75|STANDARD_DEVIATION|59.368||||95.0|-51.79|-25.7|||||113-140 Days. Response ratio=100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency.|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%.Allowing for dropouts assume 85% pts analyzed.||-25.70|-51.79|
92326847|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.16|||<|0.001|TWO_SIDED|95.0|0.93|1.45|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 19A||1.45|0.93|<0.001
92326848|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.44|||<|0.001|TWO_SIDED|95.0|1.18|1.77|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 20A||1.77|1.18|<0.001
92326849|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.39|||<|0.001|TWO_SIDED|95.0|1.1|1.76|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 22F||1.76|1.10|<0.001
92326850|NCT05633992|184558881|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|0.87|||<|0.001|TWO_SIDED|95.0|0.68|1.12|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 33F||1.12|0.68|<0.001
92326851|NCT05633992|184558881|NON_INFERIORITY|For serotype 15B, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.43|||<|0.001|TWO_SIDED|95.0|1.07|1.89|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 15B||1.89|1.07|<0.001
92326852|NCT05633992|184558881|SUPERIORITY|For serotype 15C, a conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>1.0 (one-sided p-value \<0.025).|Day 30 GMT Ratio|2.05|||<|0.001|TWO_SIDED|95.0|1.56|2.7|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 15C||2.70|1.56|<0.001
92326853|NCT05633992|184558882|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|27.6|||<|0.001|TWO_SIDED|95.0|17.8|36.9|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 6A||36.9|17.8|<0.001
92326854|NCT05633992|184558882|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|33.7|||<|0.001|TWO_SIDED|95.0|23.6|43.0|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 15A||43.0|23.6|<0.001
92326855|NCT05633992|184558882|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|38.3|||<|0.001|TWO_SIDED|95.0|29.8|46.4|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 16F||46.4|29.8|<0.001
92326856|NCT05633992|184558882|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|29.5|||<|0.001|TWO_SIDED|95.0|17.4|40.6|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 23A||40.6|17.4|<0.001
92326857|NCT05633992|184558882|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|38.3|||<|0.001|TWO_SIDED|95.0|29.3|46.7|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 23B||46.7|29.3|<0.001
92326858|NCT05633992|184558882|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|27.1|||<|0.001|TWO_SIDED|95.0|18.3|35.6|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 24F||35.6|18.3|<0.001
92326859|NCT05633992|184558882|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|57.3|||<|0.001|TWO_SIDED|95.0|49.3|64.4|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 31||64.4|49.3|<0.001
92326860|NCT05633992|184558882|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|47.0|||<|0.001|TWO_SIDED|95.0|39.5|54.1|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 35B||54.1|39.5|<0.001
92326861|NCT00715104|184558889|SUPERIORITY_OR_OTHER||% Subjects with 2-fold increase|16.2||||1|TWO_SIDED|95.0|1.7|30.7||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD3+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD3+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||30.7|1.7|1.000
92326862|NCT00715104|184558889|SUPERIORITY_OR_OTHER||% Subjects with 2-fold increase|18.9||||1|TWO_SIDED|95.0|3.5|34.3||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD3+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD3+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||34.3|3.5|1.000
92326863|NCT00715104|184558889|SUPERIORITY_OR_OTHER||% Subjects with 2-fold increase|70.3|||<|0.001|TWO_SIDED|95.0|52.3|88.3||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD3+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD3+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||88.3|52.3|<0.001
92326864|NCT00715104|184558890|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|20.6||||1|TWO_SIDED|95.0|4.0|37.2||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD4+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD4+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||37.2|4.0|1.000
92326865|NCT00715104|184558890|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|32.4||||0.014|TWO_SIDED|95.0|13.1|51.6||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD4+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD4+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||51.6|13.1|0.014
92201856|NCT00288639|184301415|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-44.24|STANDARD_DEVIATION|62.703||||95.0|-58.47|-30.01|||||\>140 Days. Response ratio= 100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency.|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power,true change from baseline approximately 25%.Allowing for dropouts assume 85% pts analyzed.||-30.01|-58.47|
92201857|NCT00288639|184301416|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|7.19|STANDARD_DEVIATION|84.425||||95.0|-17.6|31.98|||||Simple Partial Seizures. Response ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||31.98|-17.60|
92326866|NCT00715104|184558890|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|79.4|||<|0.001|TWO_SIDED|95.0|62.8|96.0||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD4+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD4+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||96.0|62.8|<0.001
92201858|NCT00288639|184301416|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-22.24|STANDARD_DEVIATION|68.058||||95.0|-37.8|-6.69|||||Complex Partial Seizures. Response ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-6.69|-37.80|
92201859|NCT00288639|184301416|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-23.85|STANDARD_DEVIATION|84.313||||95.0|-55.33|7.64|||||Evolved to Generalized. Response ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||7.64|-55.33|
92326867|NCT00715104|184558891|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|35.1||||0.002|TWO_SIDED|95.0|16.3|53.9||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD8+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD8+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||53.9|16.3|0.002
92326868|NCT00715104|184558891|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|29.7||||0.036|TWO_SIDED|95.0|11.7|47.7||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD8+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD8+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||47.7|11.7|0.036
92326869|NCT00715104|184558891|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|83.8|||<|0.001|TWO_SIDED|95.0|69.3|98.3||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD8+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD8+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||98.3|69.3|<0.001
92326870|NCT00715104|184558892|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P value is for the visit effect in the mixed model|Mixed Models Analysis|Randomization groups, visits (up to 12-weeks Post-RP), and randomization groups × visits interaction were included in the mixed model.||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach. The ranked data were used in the statistical model.||||<0.001
92326871|NCT00715104|184558893|SUPERIORITY_OR_OTHER|||||||0.173|TWO_SIDED|||||P value is for the visit effect in the mixed model|Mixed Models Analysis|Randomization groups, visits (up to 12-weeks Post-RP), and randomization groups × visits interaction were included in the mixed model.||Repeated measure analysis of variance (ANOVA) methods with a mixed model approach was used. The ranked data were used in the statistical model.||||0.173
92326872|NCT00715104|184558894|SUPERIORITY_OR_OTHER|||||||0.667|TWO_SIDED|||||P value compares 24 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.667
92326873|NCT00715104|184558894|SUPERIORITY_OR_OTHER|||||||0.191|TWO_SIDED|||||P value compares 48 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.191
92326874|NCT00715104|184558894|SUPERIORITY_OR_OTHER|||||||0.699|TWO_SIDED|||||P value compares 72 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.699
92326875|NCT00715104|184558895|SUPERIORITY_OR_OTHER|||||||0.086|TWO_SIDED|||||P value compares 24 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.086
92326876|NCT00715104|184558895|SUPERIORITY_OR_OTHER|||||||0.432|TWO_SIDED|||||P value compares 48 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.432
92326877|NCT00715104|184558895|SUPERIORITY_OR_OTHER|||||||0.249|TWO_SIDED|||||P value compares 72 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.249
92326878|NCT00715104|184558896|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED|||||P value is based on the treatment effect in the mixed model|Mixed Models Analysis|Mixed model includes randomization group, visit, and randomization group × visit interaction, with subject as a random effect.||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach. The ranked data were used in the statistical model.||||0.950
92326879|NCT00715104|184558897|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|||||P value is based on the treatment effect in the mixed model|Mixed Models Analysis|Mixed model includes randomization group, visit, and randomization group × visit interaction, with subject as a random effect||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach. The ranked data were used in the statistical model.||||0.048
92326880|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.101|||||||Paired t-test|||Statistical analysis at Week 12||||0.101
92326881|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.139|||||||Paired t-test|||Statistical analysis at Week 24||||0.139
92326882|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.116|||||||Paired t-test|||Statistical analysis at Week 36||||0.116
92326883|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.167|||||||Paired t-test|||Statistical analysis at Week 48||||0.167
92326884|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.21|||||||Paired t-test|||Statistical analysis at Week 56||||0.210
92326885|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.343|||||||Paired t-test|||Statistical analysis at Week 68||||0.343
92201860|NCT00288639|184301420|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-24.93|STANDARD_DEVIATION|60.867||||95.0|-43.66|-6.2|||||Seizure freq. ≤3 / 28 d. Resp. ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-6.20|-43.66|
92326886|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.533|||||||Paired t-test|||Statistical analysis at Week 80||||0.533
92326887|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.593|||||||Paired t-test|||Statistical analysis at Week 92||||0.593
92326888|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.044|||||||Paired t-test|||Statistical analysis at Week 104||||0.044
92326889|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.243|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.243
92326890|NCT01668966|184558912|SUPERIORITY_OR_OTHER|||||||0.009|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.009
92326891|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.1853|||||||Paired t-test|||Statistical analysis at Week 12||||0.1853
92326892|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.2992|||||||Paired t-test|||Statistical analysis at Week 24||||0.2992
92326893|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.2249|||||||Paired t-test|||Statistical analysis at Week 36||||0.2249
92326894|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.3102|||||||Paired t-test|||Statistical analysis at Week 48||||0.3102
92326895|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.2164|||||||Paired t-test|||Statistical analysis at Week 56||||0.2164
92326896|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.8822|||||||Paired t-test|||Statistical analysis at Week 68||||0.8822
92326897|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.7649|||||||Paired t-test|||Statistical analysis at Week 80||||0.7649
92326898|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.605|||||||Paired t-test|||Statistical analysis at Week 92||||0.6050
92326899|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.4478|||||||Paired t-test|||Statistical analysis at Week 104||||0.4478
92326900|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.4821|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.4821
92326901|NCT01668966|184558913|SUPERIORITY_OR_OTHER|||||||0.0522|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.0522
92326902|NCT01668966|184558914|SUPERIORITY_OR_OTHER|||||||0.0624|||||||Paired t-test|||Statistical analysis at Week 12||||0.0624
92326903|NCT01668966|184558914|SUPERIORITY_OR_OTHER|||||||0.0616|||||||Paired t-test|||Statistical analysis at Week 24||||0.0616
92326904|NCT01668966|184558914|SUPERIORITY_OR_OTHER|||||||0.248|||||||Paired t-test|||Statistical analysis at Week 36||||0.2480
92326905|NCT01668966|184558914|SUPERIORITY_OR_OTHER|||||||0.5393|||||||Paired t-test|||Statistical analysis at Week 48||||0.5393
92326906|NCT01668966|184558914|SUPERIORITY_OR_OTHER|||||||0.1401|||||||Paired t-test|||Statistical analysis at Week 56||||0.1401
92326907|NCT01668966|184558914|SUPERIORITY_OR_OTHER|||||||0.0679|||||||Paired t-test|||Statistical analysis at Week 68||||0.0679
92326908|NCT01668966|184558914|SUPERIORITY_OR_OTHER|||||||0.6017|||||||Paired t-test|||Statistical analysis at Week 80||||0.6017
92326909|NCT01668966|184558914|SUPERIORITY_OR_OTHER|||||||0.4772|||||||Paired t-test|||Statistical analysis at Week 92||||0.4772
92326910|NCT01668966|184558914|SUPERIORITY_OR_OTHER|||||||0.4877|||||||Paired t-test|||Statistical analysis at Week 104||||0.4877
92326911|NCT01668966|184558914|SUPERIORITY_OR_OTHER|||||||0.0624|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.0624
92326912|NCT01668966|184558914|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||<0.0001
92326913|NCT01668966|184558915|SUPERIORITY_OR_OTHER|||||||0.2388|||||||Paired t-test|||Statistical analysis at Week 12||||0.2388
92326914|NCT01668966|184558915|SUPERIORITY_OR_OTHER|||||||0.1084|||||||Paired t-test|||Statistical analysis at Week 24||||0.1084
92326915|NCT01668966|184558915|SUPERIORITY_OR_OTHER|||||||0.0321|||||||Paired t-test|||Statistical analysis at Week 36||||0.0321
92326916|NCT01668966|184558915|SUPERIORITY_OR_OTHER|||||||0.0203|||||||Paired t-test|||Statistical analysis at Week 48||||0.0203
92326917|NCT01668966|184558915|SUPERIORITY_OR_OTHER|||||||0.0193|||||||Paired t-test|||Statistical analysis at Week 56||||0.0193
92326918|NCT01668966|184558915|SUPERIORITY_OR_OTHER|||||||0.6235|||||||Paired t-test|||Statistical analysis at Week 68||||0.6235
92326919|NCT01668966|184558915|SUPERIORITY_OR_OTHER|||||||0.2814|||||||Paired t-test|||Statistical analysis at Week 80||||0.2814
92326920|NCT01668966|184558915|SUPERIORITY_OR_OTHER|||||||0.3391|||||||Paired t-test|||Statistical analysis at Week 92||||0.3391
92326921|NCT01668966|184558915|SUPERIORITY_OR_OTHER|||||||0.1605|||||||Paired t-test|||Statistical analysis at Week 104||||0.1605
92326922|NCT01668966|184558915|SUPERIORITY_OR_OTHER|||||||0.4312|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.4312
92201861|NCT00288639|184301420|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-20.78|STANDARD_DEVIATION|50.334||||95.0|-35.24|-6.33|||||Seizure freq. \>3 / 28 d. Resp. ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-6.33|-35.24|
92201862|NCT05262517|184301463|OTHER||Least square (LS) mean difference|-0.15|||||TWO_SIDED|95.0|-1.78|1.48||||||LS means and CIs were estimated by an analysis of covariance (ANCOVA) model, using restricted maximum likelihood (REML) with baseline NRS value as a covariate and treatment group and stratification factor (use of daily medications/ oral devices to reduce the intensity of TMD symptoms) as the main effects.||1.48|-1.78|
92201863|NCT05262517|184301464|OTHER||LS mean difference|5.12|||||TWO_SIDED|95.0|-21.35|31.59||||||LS means and CIs were estimated by an analysis of covariance model using REML with baseline NRS value as a covariate and treatment group and stratification factor (use of daily medications/ oral devices to reduce the intensity of TMD symptoms) as the main effects.||31.59|-21.35|
92201864|NCT05262517|184301465|OTHER||LS mean difference|0.21|||||TWO_SIDED|95.0|-0.99|1.41||||||LS means, and CIs were based on a generalized linear mixed effect model (GLMEM) that included the baseline value as a covariate and fixed effects for treatment group, stratification factor (use of daily medications/ oral devices to reduce the intensity of TMD symptoms; yes or no), scheduled time point, and time point by-treatment group interaction.||1.41|-0.99|
92201865|NCT05262517|184301466|OTHER||Difference in percentage|-5.2|||||TWO_SIDED|95.0|-21.3|10.9||||||Stratified by use of daily medications/ oral devices to reduce the intensity of TMD symptoms at randomization with Mantel-Haenzsel weighting.||10.9|-21.3|
92201866|NCT05262517|184301469|OTHER||Difference in percentage|4.0|||||TWO_SIDED|95.0|-8.7|16.6||||||Stratified by use of daily medications/oral devices to reduce the intensity of TMD symptoms at randomization with Mantel-Haenszel weighting.||16.6|-8.7|
92201867|NCT03119233|184301526|OTHER||Lower 97.5% Exact Confidence Limit|68.1|||||ONE_SIDED|97.5|60.9|||||||"The primary effectiveness endpoint is defined as primary patency at 12 months as evidenced by a peak systolic velocity ratio (PSVR)~≤2.5 from DUS and no clinically-driven re-intervention within the stented segment. The primary effectiveness endpoint hypotheses are:~* H0: 12-month success rate of the PQ Bypass System ≤60.4%~* HA: 12-month success rate of the PQ Bypass System \>60.4%"|||60.9|
92201868|NCT03119233|184301527|OTHER|The rate of freedom from 30-day MAE is expected to be no less than 92%. Based on a PG of 84% and an estimated 30-day freedom from MAE rate of 92% for the PQ Bypass System, a sample size of 169 evaluable subjects provides 88% power to test the primary safety hypothesis at the one-sided alpha level of 0.025. The Exact Test Method and Commercial software PASS14 was used to determine the sample size.|Lower 97.5% Exact Confidence Limit|93.0|||||ONE_SIDED|97.5|88.5|||||||"The primary safety endpoint hypotheses are:~* H0: 30-day Freedom from MAE rate of the PQ Bypass System~  ≤84%~* HA: 30-day Freedom from MAE rate of the PQ Bypass System \>84%"|||88.5|
92201869|NCT01254552|184301531|OTHER||rate|0.071|||||TWO_SIDED|95.0|0.043|0.1||||||||0.100|0.043|
92201870|NCT01146600|184301556|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||ANOVA|ANOVA, comparing baseline, clarithromycin, and placebo||||||0.47
92201871|NCT01146600|184301557|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.63
92201872|NCT01146600|184301558|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.64
92201873|NCT01146600|184301559|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.002
92201874|NCT01146600|184301560|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.002
92201875|NCT01146600|184301561|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.01
92201876|NCT01146600|184301562|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.76
92326923|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.934|||||||Paired t-test|||Statistical analysis at Week 12||||0.934
92201877|NCT02579135|184301564|SUPERIORITY|Before the onset of the study, we conducted a power calculation to determine the appropriate sample size. We designed the study to have 80% power at a .05 significance level to detect differences in primary outcomes, assuming an effect size of 0.5 and a correlation of 0.4 between assessments. Final enrollment (n= 222) exceeded our target sample size (n= 150).|beta|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.32|TWO_SIDED||||||Regression, Linear|||Third, to assess the effectiveness of the HEART intervention from pretest to immediate posttest, we used linear regression analyses to compute adjusted means and mean differences between intervention and control groups. We included an indicator for school to adjust for clustering by school. For each outcome, the corresponding pretest measure was included as a covariate.||||.32
92201878|NCT02579135|184301565|SUPERIORITY|Before the onset of the study, we conducted a power calculation to determine the appropriate sample size. We designed the study to have 80% power at a .05 significance level to detect differences in primary outcomes, assuming an effect size of 0.5 and a correlation of 0.4 between assessments. Final enrollment (n= 222) exceeded our target sample size (n= 150).|beta|8.31|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED||||||Regression, Linear|||We used linear regression analyses to compute adjusted means and mean differences between intervention and control groups. We included an indicator for school to adjust for clustering by school. For each outcome, the corresponding pretest measure was included as a covariate.||||<.001
92201879|NCT00659880|184301566|SUPERIORITY_OR_OTHER|||||||0.06|||||||Friedman|||||||0.06
92326924|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.624|||||||Paired t-test|||Statistical analysis at Week 24||||0.624
92326925|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.642|||||||Paired t-test|||Statistical analysis at Week 36||||0.642
92326926|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.952|||||||Paired t-test|||Statistical analysis at Week 48||||0.952
92326927|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.928|||||||Paired t-test|||Statistical analysis at Week 56||||0.928
92326928|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.832|||||||Paired t-test|||Statistical analysis at Week 68||||0.832
92326929|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.315|||||||Paired t-test|||Statistical analysis at Week 80||||0.315
92326930|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.485|||||||Paired t-test|||Statistical analysis at Week 92||||0.485
92201880|NCT02964325|184301572|NON_INFERIORITY|An NI analysis was carried out to assess the primary efficacy endpoint with the null hypothesis being the MIRASOL group is inferior to the CONTROL group and the alternative hypothesis being the MIRASOL group is non-inferior to the CONTROL group. In this study, the NI margin was 1.6.|Relative Rate|2.79|||||TWO_SIDED|95.0|1.67|4.67|||||The MIRASOL group represents the numerator and the CONTROL group represents the denominator for the relative rate. For days during off-protocol intervals, bleeding data were simulated using an estimate of the individual-specific bleeding rate.|The MIRASOL and CONTROL groups were compared with respect to the number of days of WHO ≥ Grade 2 bleeding. This was carried out by fitting a negative binomial regression model with an offset defined as the natural logarithm (LN) of the number of days that bleeding was assessed in order to account for the fact that subjects had different numbers of bleeding assessment days.||4.67|1.67|
92201881|NCT02964325|184301574|NON_INFERIORITY|A non-inferiority margin of 1.2 was used to evaluated this endpoint.|Relative Risk|1.32||||0.7274|TWO_SIDED|95.0|0.97|1.81|||Wald Non-inferiority Test||The MIRASOL group represents the numerator and the CONTROL group represents the denominator for the relative risk.|The null hypothesis was H0: pt/pc \> 1.2 (ie, MIRASOL had more than a 20% higher probability of a patient experiencing at least one WHO ≥ Grade 2 bleed compared to CONTROL).||1.81|0.97|0.7274
92201882|NCT02964325|184301575|OTHER|||||||0.07|||||||Log-rank test|||||||0.07
92201883|NCT02964325|184301576|OTHER|||||||0.1649|||||||Fisher Exact|||||||0.1649
92201884|NCT02964325|184301577|OTHER||Risk Ratio (RR)|2.15||||0.0015|TWO_SIDED|95.0|1.32|3.49|||Fisher Exact|||||3.49|1.32|0.0015
92201885|NCT03596762|184301587|SUPERIORITY||Difference in LS means|-1.52|||=|0.1946|TWO_SIDED|95.0|-3.83|0.78|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||0.78|-3.83|= 0.1946
92201886|NCT03596762|184301587|SUPERIORITY||Difference in LS means|1.29|||=|0.3682|TWO_SIDED|95.0|-4.11|1.53|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||1.53|-4.11|= 0.3682
92201887|NCT03596762|184301587|SUPERIORITY||Difference in LS means|-3.93|||=|0.0002|TWO_SIDED|95.0|-5.94|-1.92|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||-1.92|-5.94|= 0.0002
92201888|NCT03596762|184301587|SUPERIORITY||Difference in LS means|-2.63|||=|0.0115|TWO_SIDED|95.0|-4.66|-0.6|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||-0.6|-4.66|= 0.0115
92201889|NCT03596762|184301588|SUPERIORITY||Difference in LS means|-1.67|||=|0.2097|TWO_SIDED|95.0|-4.28|-0.95|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||-0.95|-4.28|= 0.2097
92201890|NCT03596762|184301588|SUPERIORITY||Difference in LS means|-0.77|||=|0.6369|TWO_SIDED|95.0|-3.97|2.44|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||2.44|-3.97|= 0.6369
92201891|NCT03596762|184301588|SUPERIORITY||Difference in LS means|-2.95|||=|0.0116|TWO_SIDED|95.0|-5.22|-0.67|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||-0.67|-5.22|= 0.0116
92201892|NCT03596762|184301588|SUPERIORITY||Difference in LS means|-1.78|||=|0.1346|TWO_SIDED|95.0|-4.12|0.56|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||0.56|-4.12|= 0.1346
92201893|NCT03596762|184301589|SUPERIORITY||Difference in LS means|-0.05|||=|0.7033|TWO_SIDED|95.0|-0.3|0.2|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||0.2|-0.3|= 0.7033
92201894|NCT03596762|184301589|SUPERIORITY||Difference in LS means|-0.14|||=|0.3724|TWO_SIDED|95.0|-0.45|0.17|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||0.17|-0.45|= 0.3724
92201895|NCT03596762|184301589|SUPERIORITY||Difference in LS means|-0.19|||=|0.0896|TWO_SIDED|95.0|-0.41|0.03|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||0.03|-0.41|= 0.0896
92201896|NCT03596762|184301589|SUPERIORITY||Difference in LS means|-0.19|||=|0.09|TWO_SIDED|95.0|-0.41|0.03|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||0.03|-0.41|= 0.09
92201897|NCT03596762|184301590|SUPERIORITY||Difference in LS means|-0.09|||=|0.5511|TWO_SIDED|95.0|-0.39|0.21|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||0.21|-0.39|= 0.5511
92201898|NCT03596762|184301590|SUPERIORITY||Difference in LS means|0.16|||=|0.3822|TWO_SIDED|95.0|-0.2|0.52|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||0.52|-0.2|= 0.3822
92201899|NCT03596762|184301590|SUPERIORITY||Difference in LS means|-0.15|||=|0.2606|TWO_SIDED|95.0|-0.41|0.11|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||0.11|-0.41|= 0.2606
92201900|NCT03596762|184301590|SUPERIORITY||Difference in LS means|-0.27|||=|0.0479|TWO_SIDED|95.0|-0.53|0.0|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||0|-0.53|= 0.0479
92201901|NCT01512797|184301702|OTHER|||||||0.028||||||P-value refers to paired t-test comparing pre-intervention and post-intervention timepoints in Sitagliptin group.|t-test, 2 sided|||Power analysis. Based on the effect of DPP-4 inhibitors in non-operated subjects with type 2 diabetes, showing a significant decrease in 120' post-prandial glucose by 1.67 mmol/L ± 0.98 mmol/L after a MMT, we estimated that a sample size of 16 subjects per group will show post-prandial glucose differences between placebo and sitagliptin group with α = 0.05 for a power \> 90%.||||0.028
92201902|NCT00478192|184301783|SUPERIORITY_OR_OTHER|||||||0.028||95.0||||P-Values are not adjusted on the basis of multiple comparrisons|ANCOVA|||"Statistical Analysis applies to Change from Baseline."||||0.028
92201903|NCT00478192|184301783|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-Values are not adjusted on the basis of multiple comparrisons|ANCOVA|||"Statistical Analysis applies to Change from Baseline."||||0.019
92201904|NCT00478192|184301783|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Values are not adjusted on the basis of multiple comparrisons|ANCOVA|||"Statistical Analysis applies to Change from Baseline."||||<0.001
92201905|NCT00478192|184301788|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||ANCOVA|||||||0.079
92201906|NCT00137969|184301797|SUPERIORITY_OR_OTHER|||||||0.4875||||||One-sided p-value.|Wilcoxon (Mann-Whitney)|||Stratified by randomization factors (race and initial prednisone dose)||||0.4875
92201907|NCT00137969|184301798|SUPERIORITY_OR_OTHER|||||||0.823|||||||Wilcoxon (Mann-Whitney)|||Stratified by randomization factors (race and initial prednisone dose)||||0.8230
92201908|NCT00137969|184301799|SUPERIORITY_OR_OTHER|||||||0.4318|||||||Cochran-Mantel-Haenszel|||Stratified by randomization factors (race and initial prednisone dose)||||0.4318
92201909|NCT00137969|184301800|SUPERIORITY_OR_OTHER|||||||0.9069|||||||Cochran-Mantel-Haenszel|||Stratified by randomization factors (race and initial prednisone dose)||||0.9069
92201910|NCT00137969|184301801|SUPERIORITY_OR_OTHER|||||||0.5602|||||||Cochran-Mantel-Haenszel|||Stratified by randomization factors (race and initial prednisone dose)||||0.5602
92201911|NCT00137969|184301802|SUPERIORITY_OR_OTHER|||||||0.8979|||||||Log Rank|||Stratified by randomization factors (race and initial prednisone dose)||||0.8979
92201912|NCT00137969|184301803|SUPERIORITY_OR_OTHER|||||||0.1277|||||||ANCOVA|||Stratified by randomization factors (race and initial prednisone dose)||||0.1277
92201913|NCT00137969|184301804|SUPERIORITY_OR_OTHER|||||||0.6202|||||||Cochran-Mantel-Haenszel|||Stratified by randomization factors (race and initial prednisone dose)||||0.6202
92201914|NCT00477490|184301805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9303|TWO_SIDED|95.0|-0.221|0.242||The a priori statistically significant difference versus placebo is p≤0.05.|ANCOVA|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||||0.242|-0.221|0.9303
92201915|NCT00477490|184301805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.3104|TWO_SIDED|95.0|-0.353|0.112||The a priori statistically significant difference versus placebo is p≤0.05.|ANCOVA|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||||0.112|-0.353|0.3104
92201916|NCT00477490|184301805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.277||||0.0207|TWO_SIDED|95.0|-0.511|-0.042||The a priori statistically significant difference versus placebo is p≤0.05.|ANCOVA|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||The trial was to be declared positive only if in the 100 μg group, a statistically significant positive effect as compared to placebo on both co-primaries was demonstrated. And only then, the next higher dose group (i.e., 50 μg) could be claimed superior to placebo, if it showed a statistically significant improvement over placebo on both co-primaries.||-0.042|-0.511|0.0207
92326931|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.246|||||||Paired t-test|||Statistical analysis at Week 104||||0.246
92326932|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.375|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.375
92326933|NCT01668966|184558918|SUPERIORITY_OR_OTHER|||||||0.185|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.185
92326934|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.445|||||||Paired t-test|||Statistical analysis at Week 12||||0.445
92201917|NCT00477490|184301805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.613|||<|0.0001|TWO_SIDED|95.0|-0.848|-0.378||The a priori statistically significant difference versus placebo is p≤0.05.|ANCOVA|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||The trial was to be declared positive only if in the 100 μg group, a statistically significant positive effect as compared to placebo on both co-primaries was demonstrated. And only then, the next higher dose group (i.e., 50 μg) could be claimed superior to placebo, if it showed a statistically significant improvement over placebo on both co-primaries.||-0.378|-0.848|<0.0001
92326935|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.414|||||||Paired t-test|||Statistical analysis at Week 24||||0.414
92201918|NCT00477490|184301806|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.017||||0.942|TWO_SIDED|95.0|0.647|1.598||The a priori statistically significant difference versus placebo is p≤0.05.|Regression, Logistic|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids||||1.598|0.647|0.9420
92201919|NCT00477490|184301806|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.147||||0.5527|TWO_SIDED|95.0|0.729|1.807||The a priori statistically significant difference versus placebo is p≤0.05.|Regression, Logistic|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||||1.807|0.729|0.5527
92201920|NCT00477490|184301806|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.296||||0.2662|TWO_SIDED|95.0|0.821|2.05||The a priori statistically significant difference versus placebo is p≤0.05.|Regression, Logistic|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||The trial was to be declared positive only if in the 100 μg group, a statistically significant positive effect as compared to placebo on both co-primaries was demonstrated. And only then, the next higher dose group (i.e., 50 μg) could be claimed superior to placebo, if it showed a statistically significant improvement over placebo on both co-primaries.||2.050|0.821|0.2662
92326936|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.401|||||||Paired t-test|||Statistical analysis at Week 36||||0.401
92326937|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.92|||||||Paired t-test|||Statistical analysis at Week 48||||0.920
92326938|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.834|||||||Paired t-test|||Statistical analysis at Week 56||||0.834
92326939|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.539|||||||Paired t-test|||Statistical analysis at Week 68||||0.539
92326940|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.246|||||||Paired t-test|||Statistical analysis at Week 80||||0.246
92326941|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.602|||||||Paired t-test|||Statistical analysis at Week 92||||0.602
92326942|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.218|||||||Paired t-test|||Statistical analysis at Week 104||||0.218
92326943|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.208|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.208
92326944|NCT01668966|184558919|SUPERIORITY_OR_OTHER|||||||0.101|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.101
92326945|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.565|||||||Paired t-test|||Statistical analysis at Week 12||||0.565
92326946|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.637|||||||Paired t-test|||Statistical analysis at Week 24||||0.637
92326947|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.594|||||||Paired t-test|||Statistical analysis at Week 36||||0.594
92326948|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.788|||||||Paired t-test|||Statistical analysis at Week 48||||0.788
92326949|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.329|||||||Paired t-test|||Statistical analysis at Week 56||||0.329
92326950|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.716|||||||Paired t-test|||Statistical analysis at Week 68||||0.716
92326951|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.119|||||||Paired t-test|||Statistical analysis at Week 80||||0.119
92326952|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.201|||||||Paired t-test|||Statistical analysis at Week 92||||0.201
92326953|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.087|||||||Paired t-test|||Statistical analysis at Week 104||||0.087
92326954|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.116|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.116
92201921|NCT00477490|184301806|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.893|||<|0.0001|TWO_SIDED|95.0|1.795|4.715||The a priori statistically significant difference versus placebo is p≤0.05.|Regression, Logistic|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||The trial was to be declared positive only if in the 100 μg group, a statistically significant positive effect as compared to placebo on both co-primaries was demonstrated. And only then, the next higher dose group (i.e., 50 μg) could be claimed superior to placebo, if it showed a statistically significant improvement over placebo on both co-primaries.||4.715|1.795|<0.0001
92201922|NCT01465763|184301817|SUPERIORITY_OR_OTHER||Percent Difference|10.3||||0.007|TWO_SIDED|95.0|4.3|16.3|||CMH Chi-square test|||P-value based on Cochran-Mantel-Haenszel (CMH) chi-square test stratified by prior treatment with anti-tumor necrosis factor (TNF), steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using Non-responder imputation (NRI).||16.3|4.3|0.0070
92201923|NCT01465763|184301818|SUPERIORITY_OR_OTHER||Percent Difference|15.7||||0.0005|TWO_SIDED|95.0|8.1|23.4|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||23.4|8.1|0.0005
92201924|NCT01465763|184301819|SUPERIORITY_OR_OTHER||Percent Difference|27.1|||<|0.0001|TWO_SIDED|95.0|17.7|36.5|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||36.5|17.7|<0.0001
92201925|NCT01465763|184301820|SUPERIORITY_OR_OTHER||Percent Difference|5.1||||0.0345|TWO_SIDED|95.0|1.9|8.3|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||8.3|1.9|0.0345
92201926|NCT01465763|184301821|SUPERIORITY_OR_OTHER||Percent Difference|10.3||||0.007|TWO_SIDED|95.0|4.3|16.3|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||16.3|4.3|0.0070
92201927|NCT01465763|184301822|SUPERIORITY_OR_OTHER||Percent Difference|6.0||||0.0601|TWO_SIDED|95.0|1.0|11.1|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||11.1|1.0|0.0601
92201928|NCT01465763|184301823|SUPERIORITY_OR_OTHER||Percent Difference|6.5||||0.0043|TWO_SIDED|95.0|4.3|8.7|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||8.7|4.3|0.0043
92201929|NCT01465763|184301825|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed-Effects Model|||At Week 2: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and participants as a random effect.||-0.5|-1.3|<0.0001
92201930|NCT01465763|184301825|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.5|-0.7|||Mixed-Effects Model|||At Week 4: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and participants as a random effect.||-0.7|-1.5|<0.0001
92201931|NCT01465763|184301825|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.9|-1.1|||Mixed-Effects Model|||At Week 8: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and participants as a random effect.||-1.1|-1.9|<0.0001
92201932|NCT01465763|184301826|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.5|-1.4|||ANCOVA|||The change from Baseline at Week 8 was analyzed using an analysis of covariance (ANCOVA) model with treatment group, prior treatment with anti-TNF, steroid use at baseline and geographic region as factors and baseline as a covariate based on the observed-case data.||-1.4|-2.5|<0.0001
92201933|NCT01646177|184301827|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201934|NCT01646177|184301827|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201935|NCT01646177|184301827|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201936|NCT01646177|184301828|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201937|NCT01646177|184301828|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201938|NCT01646177|184301828|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201939|NCT01646177|184301829|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201940|NCT01646177|184301829|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201941|NCT01646177|184301829|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201942|NCT01646177|184301830|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201943|NCT01646177|184301830|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201944|NCT01646177|184301830|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201945|NCT01646177|184301831|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201946|NCT01646177|184301831|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201947|NCT01646177|184301831|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201948|NCT01646177|184301832|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201949|NCT01646177|184301832|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201950|NCT01646177|184301832|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201951|NCT01646177|184301833|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201952|NCT01646177|184301833|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201953|NCT01646177|184301833|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201954|NCT01646177|184301834|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201955|NCT01646177|184301834|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201956|NCT01646177|184301834|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201957|NCT01646177|184301835|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201958|NCT01646177|184301835|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201959|NCT01646177|184301835|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201960|NCT01646177|184301836|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201961|NCT01646177|184301836|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92326955|NCT01668966|184558920|SUPERIORITY_OR_OTHER|||||||0.07|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.070
92201962|NCT01646177|184301836|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201963|NCT01646177|184301837|SUPERIORITY_OR_OTHER_LEGACY|||||||0.473|TWO_SIDED||||||ANCOVA|||||||0.473
92201964|NCT01646177|184301837|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|TWO_SIDED||||||ANCOVA|||||||0.015
92201965|NCT01646177|184301837|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
92201966|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|TWO_SIDED||||||ANCOVA|||Includes analysis only from Absenteeism Score.||||0.006
92201967|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY|||||||0.045|TWO_SIDED||||||ANCOVA|||Includes analysis only from Absenteeism Score.||||0.045
92201968|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|TWO_SIDED||||||ANCOVA|||Includes analysis only from Absenteeism Score.||||0.012
92201969|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Activity Impairment Score.||||<0.001
92201970|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Activity Impairment Score.||||<0.001
92201971|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Activity Impairment Score.||||<0.001
92201972|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Presenteeism Score.||||<0.001
92201973|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Presenteeism Score.||||<0.001
92201974|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Presenteeism Score.||||<0.001
92201975|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Work Productively Loss Score.||||<0.001
92201976|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Work Productively Loss Score.||||<0.001
92201977|NCT01646177|184301838|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Work Productively Loss Score.||||<0.001
92201978|NCT01646177|184301839|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from PCS.||||<0.001
92201979|NCT01646177|184301839|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from PCS.||||<0.001
92201980|NCT01646177|184301839|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from PCS.||||<0.001
92201981|NCT01646177|184301839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.031|TWO_SIDED||||||ANCOVA|||Includes analysis only from MCS.||||0.031
92201982|NCT01646177|184301839|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from MCS.||||<0.001
92201983|NCT01646177|184301839|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from MCS.||||<0.001
92201984|NCT01646177|184301840|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201985|NCT01646177|184301840|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201986|NCT01646177|184301840|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92201987|NCT01646177|184301841|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201988|NCT01646177|184301841|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201989|NCT01646177|184301841|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201990|NCT01646177|184301842|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201991|NCT01646177|184301842|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201992|NCT01646177|184301842|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201993|NCT01646177|184301843|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201994|NCT01646177|184301843|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92201995|NCT01646177|184301843|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
92326956|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.3299|||||||Paired t-test|||Statistical analysis at Week 12||||0.3299
92326957|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.9247|||||||Paired t-test|||Statistical analysis at Week 24||||0.9247
92326958|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.9602|||||||Paired t-test|||Statistical analysis at Week 36||||0.9602
92201996|NCT02992691|184301847|OTHER||Mean Difference (Net)|-0.01||||0.6674|TWO_SIDED|95.0|-0.06|0.04||From ANCOVA analysis for change from pre-brushing with treatment and period as fixed effect, participant as random effect, participant-level baseline and period level minus participant-level baseline as covariates.|ANCOVA|||This comparison was tested under a null hypothesis of no difference against alternative hypothesis of a difference between treatments||0.04|-0.06|0.6674
92201997|NCT00588692|184301850|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||For 25-49% Ejection Fraction Subgroup||||<0.05
92201998|NCT00588692|184301850|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||35-49% Ejection Fraction Subgroup||||<0.05
92201999|NCT00588692|184301852|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||||||0.06
92202000|NCT00588692|184301853|SUPERIORITY_OR_OTHER|||||||0.5|||||||ANOVA|||||||0.5
92202001|NCT00588692|184301853|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202002|NCT00588692|184301853|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202003|NCT00588692|184301854|SUPERIORITY_OR_OTHER|||||||0.26|||||||ANOVA|||||||0.26
92202004|NCT00588692|184301854|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202005|NCT00588692|184301854|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202006|NCT00588692|184301855|SUPERIORITY_OR_OTHER|||||||0.4|||||||ANOVA|||||||0.4
92202007|NCT00588692|184301856|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
92202008|NCT00588692|184301856|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92326959|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.2773|||||||Paired t-test|||Statistical analysis at Week 48||||0.2773
92202009|NCT00588692|184301856|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202010|NCT00588692|184301857|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
92202011|NCT00588692|184301858|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
92202012|NCT00588692|184301859|SUPERIORITY_OR_OTHER|||||||0.3|||||||ANOVA|||||||0.3
92202013|NCT00588692|184301860|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
92202014|NCT00588692|184301860|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202015|NCT00588692|184301860|SUPERIORITY_OR_OTHER|||||||0.24|||||||t-test, 2 sided|||||||0.24
92202016|NCT00588692|184301861|SUPERIORITY_OR_OTHER|||||||0.6|||||||ANOVA|||||||0.6
92202017|NCT00588692|184301862|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
92202018|NCT00588692|184301862|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202019|NCT00588692|184301862|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202020|NCT00588692|184301863|SUPERIORITY_OR_OTHER|||||||0.11|||||||ANOVA|||||||0.11
92202021|NCT00588692|184301863|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202022|NCT00588692|184301863|SUPERIORITY_OR_OTHER|||||||0.16|||||||t-test, 2 sided|||||||0.16
92202023|NCT00588692|184301864|SUPERIORITY_OR_OTHER|||||||0.4|||||||ANOVA|||||||0.4
92202024|NCT00588692|184301864|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202025|NCT00588692|184301864|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202026|NCT00588692|184301865|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
92202027|NCT00588692|184301865|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202028|NCT00588692|184301865|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
92202029|NCT03651700|184301903|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92202030|NCT03651700|184301904|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92202031|NCT05479734|184301906|SUPERIORITY|Expected Outcomes: greater number of activities while receiving parenting tips.|||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. An intervention effect difference by sequence is reported when significant.||Null hypothesis is the number of positive activities engaged in with the child will not differ during the periods with and without app-delivered parenting tips. Mixed effects models were performed regressing mean activity counts on a 'Tips Active' indicator and a measurement-period (1st two weeks vs last two weeks) indicator.||||<0.01
92202032|NCT05479734|184301907|SUPERIORITY||||||<|1||||||Test was performed with a significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. A randomization group difference over time is reported if significant.||Null hypothesis is that the mean positive parenting subscale score would not change from the baseline to the post-intervention assessment. Mixed effects models were performed regressing mean subscale scores on a timeframe (baseline vs post) indicator and a randomization group (early vs late app-delivered parenting tips) indicator. A randomization group difference over time was evaluated. This interaction effect was not included in the final statistical model unless statistically significant.||||<1.00
92202033|NCT05479734|184301908|SUPERIORITY||||||<|0.14||||||Test was performed with a significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. An intervention effect difference by sequence is reported when significant.||Null hypothesis is that the number of hours spent with the child will not differ during the periods with and without app-delivered parenting tips. Mixed effects models were performed regressing mean number of hours on a 'Tips Active' indicator and a measurement-period (1st two weeks vs last two weeks) indicator.||||<0.14
92326960|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.5031|||||||Paired t-test|||Statistical analysis at Week 56||||0.5031
92326961|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.8109|||||||Paired t-test|||Statistical analysis at Week 68||||0.8109
92326962|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.254|||||||Paired t-test|||Statistical analysis at Week 80||||0.2540
92326963|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.3794|||||||Paired t-test|||Statistical analysis at Week 92||||0.3794
92326964|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.8687|||||||Paired t-test|||Statistical analysis at Week 104||||0.8687
92202034|NCT05479734|184301909|OTHER|The model tested the significance of a non-zero location of the data. Effects significantly greater than zero reflect endorsement of app helpfulness.|||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis was that the app was only slightly helpful (scored 0). A Wilcoxon signed rank test was first performed to evaluate potential differences across randomization groups (early vs late app-delivered parenting tips). When the test of a randomization group difference was not significant, the analysis continued with a one-sample Wilcoxon signed rank test.||||<0.01
92202035|NCT05479734|184301910|OTHER|The model tested the significance of a non-zero location of the data. Effects significantly greater than zero reflect endorsement of future app use.|||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis was that there would only be slight interest (scored 0) in using the app in the future. A Wilcoxon signed rank test was, first, performed to evaluate potential differences across randomization groups (early vs late app-delivered parenting tips). When the test of a randomization group difference was not significant, the analysis continued with a one-sample Wilcoxon signed rank test.||||<0.01
92202036|NCT05479734|184301911|OTHER|The model tested the significance of a non-zero location of the data. Effects significantly greater than zero reflect a desire to recommend the app.|||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis was that the participant was neither likely nor unlikely (scored 0) to recommend the app to friends. A Wilcoxon signed rank test was, first, performed to evaluate potential differences across randomization groups (early vs late app-delivered parenting tips). When the test of a randomization group difference was not significant, the analysis continued with a one-sample Wilcoxon signed rank test.||||<0.01
92202037|NCT05479734|184301912|SUPERIORITY||||||<|0.54||||||Test performed with significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. A randomization group difference over time is reported if significant.||Null hypothesis is that the mean general development scale score would not change from the baseline to the post-intervention assessment. Mixed effects models were performed regressing mean scale scores on a timeframe (baseline vs post) indicator and a randomization group (early vs late app-delivered parenting tips) indicator.||||<0.54
92202038|NCT05479734|184301913|SUPERIORITY||||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. An intervention effect difference by sequence is reported if significant.||Null hypothesis is that the number of challenging child behaviors will not differ during the periods with and without app-delivered parenting tips. Mixed effects models were performed regressing mean behavior counts on a 'Tips Active' indicator and a measurement-period (1st two weeks vs last two weeks) indicator.||||<0.01
92202039|NCT05479734|184301914|SUPERIORITY|Expected Outcomes: greater number of behaviors while receiving parenting tips.|||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. An intervention effect difference by sequence is reported if significant.||Null hypothesis is that the daily number of positive child behaviors will not differ during the periods with and without app-delivered parenting tips. Mixed effects models were performed regressing mean behavior counts on a 'Tips Active' indicator and a measurement-period (1st two weeks vs last two weeks) indicator.||||<0.01
92202040|NCT03168542|184301921|SUPERIORITY|Superiority was concluded if the lower 95% of the confidence limit of the proportion of subjects who require no more than one modification was greater than 50%.|Proportion|0.952|||||TWO_SIDED|95.0|0.756|1.0|||Agresti-Coull confidence interval|Agresti-Coull method was used to estimate the confidence interval of the binomial proportions.||||1.000|0.756|
92202041|NCT00455741|184301934|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||effect of age on estrogen negative feedback ( nadir LH as % of baseline LH)||||0.90
92202042|NCT00455741|184301934|SUPERIORITY||||||<|0.03||||||a priori threshold for significance is p\<0.05|ANOVA|||positive feedback||||<0.03
92202043|NCT00455741|184301935|SUPERIORITY||||||=|0.03||||||a priori significance level p\<0.05|ANOVA|||||||=0.03
92202044|NCT00455741|184301936|SUPERIORITY|||||||0.49||||||threshold for significance p\<0.05|t-test, 2 sided|||||||0.49
92202045|NCT00455741|184301937|SUPERIORITY||||||<|0.02||||||a priori threshold for significance p\<0.05|t-test, 2 sided|||||||<0.02
92202046|NCT00455741|184301938|SUPERIORITY||||||<|0.03|||||||t-test, 2 sided|||||||<0.03
92202047|NCT00455741|184301939|SUPERIORITY|||||||0.07||||||a priori significance set at p\<0.05|t-test, 2 sided|||||||0.07
92202048|NCT00203268|184301940|SUPERIORITY_OR_OTHER|||||||0.3025|||||||clustered survival analysis|||||||.3025
92202049|NCT04854850|184301969|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92202050|NCT04092530|184301973|OTHER||Risk Ratio (RR)|0.82||||0.12|TWO_SIDED|95.0|0.64|1.05|||Mixed Models Analysis|Adjusted for time; clustering by clinical site accounted for with random intercept||Please note that there were only 7 units (community health clinics) analyzed at Level 2 of this multilevel study, but due to the crossover design of the study, they were each observed under both the Control and Intervention conditions. Therefore, the Units Analyzed entered above reflect the 7 clinics under both conditions and should not be summed to 14.||1.05|0.64|0.12
92202051|NCT04092530|184301974|OTHER||Risk Ratio (RR)|0.89||||0.33|TWO_SIDED|95.0|0.7|1.13|||Mixed Models Analysis|Adjusted for time; random intercept for clinical site||||1.13|0.70|0.33
92202052|NCT04092530|184301975|OTHER||Risk Ratio (RR)|1.1||||0.88|TWO_SIDED|95.0|0.33|3.73|||Mixed Models Analysis|Adjusted for time; random intercept for clinical site||||3.73|0.33|0.88
92202053|NCT04020185|184301979|OTHER||maximum tolerated dose (monotherapy)|1200.0|||||TWO_SIDED|||||||||||||
92202054|NCT00527787|184301984|SUPERIORITY_OR_OTHER||proportions|4.1||||0.001|TWO_SIDED|95.0|1.9|7.7|||Cochran-Mantel-Haenszel|CMH test stratified by use of low-dose aspirin (Yes/No) at randomization.||The primary efficacy endpoint was the proportion of subjetcs developing gastric ulcers throughout 6 months of study treatment. A summary, including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of gastric ulcers at 6 months. The cumulative proportion of subjects developing gastric ulcers at 6 months was analyzed using the CMH test stratified by use of low-dose aspirin (Yes/No) at randomization.||7.7|1.9|0.001
92202055|NCT00527787|184301985|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92202056|NCT00527787|184301986|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92202057|NCT00527787|184301987|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Cochran-Mantel-Haenszel|||||||0.003
92202058|NCT00527787|184301988|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92202059|NCT02783027|184301993|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|Two sample t-test on the change in sleep quality from baseline to 4 months.||||||0.76
92202060|NCT02783027|184301994|SUPERIORITY||||||<|0.0001||||||Test for group\*time interaction.|Mixed Models Analysis|||||||<0.0001
92202061|NCT02783027|184301995|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Test for group\*time interaction.||||||<0.0001
92202062|NCT02783027|184301996|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Test for group\*time interaction.||||||<0.0001
92202063|NCT02783027|184301997|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|Two sample t-test for change in Occupational Fatigue Exhaustion Recovery (OFER) inter-shift recovery between groups||||||0.91
92202064|NCT04421950|184302034|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92202065|NCT00186017|184302035|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||.08
92202066|NCT00186017|184302036|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Wilcoxon (Mann-Whitney)|||||||>.1
92202067|NCT00186017|184302037|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Wilcoxon (Mann-Whitney)|||||||>.1
92202068|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference :|-13.5|||||TWO_SIDED|95.0|-18.3|-8.7|||||2-Sided 95% CIs were calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.|Serotype 1||-8.7|-18.3|
92202069|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-17.9|||||TWO_SIDED|95.0|-23.2|-12.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 3||-12.4|-23.2|
92202070|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-11.0|||||TWO_SIDED|95.0|-16.0|-5.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 4||-5.9|-16.0|
92202071|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-12.6|||||TWO_SIDED|95.0|-17.8|-7.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 5||-7.2|-17.8|
92202072|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-14.1|||||TWO_SIDED|95.0|-19.5|-8.6|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 6A||-8.6|-19.5|
92202073|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-15.8|||||TWO_SIDED|95.0|-21.0|-10.6|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 6B||-10.6|-21.0|
92202074|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-2.6|||||TWO_SIDED|95.0|-6.3|1.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 7F||1.1|-6.3|
92202075|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-14.3|||||TWO_SIDED|95.0|-19.7|-8.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 9V||-8.9|-19.7|
92202076|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-3.3|||||TWO_SIDED|95.0|-7.9|1.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 14||1.4|-7.9|
92202077|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-5.5|||||TWO_SIDED|95.0|-10.6|-0.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 18C||-0.4|-10.6|
92202078|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-1.7|||||TWO_SIDED|95.0|-4.8|1.3|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 19A||1.3|-4.8|
92202079|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-1.4|||||TWO_SIDED|95.0|-4.0|1.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 19F||1.2|-4.0|
92202080|NCT04546425|184302050|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-18.3|||||TWO_SIDED|95.0|-23.6|-12.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 23F||-12.9|-23.6|
92202081|NCT04546425|184302050|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|59.9|||||TWO_SIDED|95.0|55.6|64.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 8||64.1|55.6|
92202082|NCT04546425|184302050|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|-7.6|||||TWO_SIDED|95.0|-13.1|-2.1|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 10A||-2.1|-13.1|
92202083|NCT04546425|184302050|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|57.6|||||TWO_SIDED|95.0|53.1|61.9|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 11A||61.9|53.1|
92202084|NCT04546425|184302050|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|-6.2|||||TWO_SIDED|95.0|-11.7|-0.7|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 12F||-0.7|-11.7|
92202085|NCT04546425|184302050|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|57.8|||||TWO_SIDED|95.0|53.3|62.1|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 15B||62.1|53.3|
92202086|NCT04546425|184302050|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|57.8|||||TWO_SIDED|95.0|53.3|62.1|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 22F||62.1|53.3|
92202087|NCT04546425|184302050|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|10.3|||||TWO_SIDED|95.0|4.5|16.0|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 33F||16.0|4.5|
92202088|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.61|||||TWO_SIDED|95.0|0.54|0.69|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 1||0.69|0.54|
92202089|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.71|||||TWO_SIDED|95.0|0.64|0.79|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 3||0.79|0.64|
92202090|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.6|||||TWO_SIDED|95.0|0.52|0.69|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 4||0.69|0.52|
92202091|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.6|||||TWO_SIDED|95.0|0.52|0.7|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 5||0.70|0.52|
92202092|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.54|||||TWO_SIDED|95.0|0.45|0.65|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 6A||0.65|0.45|
92202093|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.51|||||TWO_SIDED|95.0|0.43|0.61|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 6B||0.61|0.43|
92202094|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.72|||||TWO_SIDED|95.0|0.64|0.8|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 7F||0.80|0.64|
92326965|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.4685|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.4685
92202095|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.59|||||TWO_SIDED|95.0|0.5|0.69|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 9V||0.69|0.50|
92202096|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.82|||||TWO_SIDED|95.0|0.7|0.96|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 14||0.96|0.70|
92202097|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.79|||||TWO_SIDED|95.0|0.67|0.92|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 18C||0.92|0.67|
92202098|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.59|||||TWO_SIDED|95.0|0.51|0.69|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 19A||0.69|0.51|
92202099|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.72|||||TWO_SIDED|95.0|0.64|0.82|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 19F||0.82|0.64|
92202100|NCT04546425|184302051|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.52|||||TWO_SIDED|95.0|0.44|0.62|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 23F||0.62|0.44|
92202101|NCT04546425|184302051|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|26.55|||||TWO_SIDED|95.0|22.98|30.67|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 8||30.67|22.98|
92202102|NCT04546425|184302051|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|2.67|||||TWO_SIDED|95.0|2.25|3.17|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 10A||3.17|2.25|
92202103|NCT04546425|184302051|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|26.6|||||TWO_SIDED|95.0|22.95|30.82|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 11A||30.82|22.95|
92202104|NCT04546425|184302051|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|2.48|||||TWO_SIDED|95.0|2.08|2.97|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 12F||2.97|2.08|
92202105|NCT04546425|184302051|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|54.6|||||TWO_SIDED|95.0|46.35|64.3|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 15B||64.30|46.35|
92202106|NCT04546425|184302051|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|36.8|||||TWO_SIDED|95.0|31.57|42.89|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 22F||42.89|31.57|
92202107|NCT04546425|184302051|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|5.03|||||TWO_SIDED|95.0|4.27|5.92|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 33F||5.92|4.27|
92326966|NCT01668966|184558921|SUPERIORITY_OR_OTHER|||||||0.0511|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.0511
92326967|NCT01892085|184558935|SUPERIORITY|||||||0.015|||||||Marginalized two part model|||||||0.015
92326968|NCT01892085|184558935|SUPERIORITY|||||||0.339|||||||Marginalized two part model|||||||0.339
92202108|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.67|||||TWO_SIDED|95.0|0.6|0.75|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 1||0.75|0.60|
92202109|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.66|||||TWO_SIDED|95.0|0.59|0.73|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 3||0.73|0.59|
92202110|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.68|0.87|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 4||0.87|0.68|
92202111|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.72|||||TWO_SIDED|95.0|0.64|0.81|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 5||0.81|0.64|
92202112|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.66|||||TWO_SIDED|95.0|0.57|0.75|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 6A||0.75|0.57|
92202113|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.57|||||TWO_SIDED|95.0|0.48|0.67|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 6B||0.67|0.48|
92202114|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.73|||||TWO_SIDED|95.0|0.67|0.8|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 7F||0.80|0.67|
92202115|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.73|||||TWO_SIDED|95.0|0.66|0.81|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 9V||0.81|0.66|
92202116|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.8|||||TWO_SIDED|95.0|0.69|0.92|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 14||0.92|0.69|
92202117|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.75|||||TWO_SIDED|95.0|0.67|0.84|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 18C||0.84|0.67|
92202118|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.82|||||TWO_SIDED|95.0|0.72|0.93|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 19A||0.93|0.72|
92202119|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.68|0.87|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 19F||0.87|0.68|
92202120|NCT04546425|184302052|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.6|||||TWO_SIDED|95.0|0.52|0.69|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 23F||0.69|0.52|
92202121|NCT04546425|184302052|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.48|||||TWO_SIDED|95.0|1.32|1.66|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 8||1.66|1.32|
92326969|NCT01892085|184558936|SUPERIORITY|||||||0.024|||||||Marginalized two part model|||||||0.024
92326970|NCT01892085|184558936|SUPERIORITY|||||||0.317|||||||Marginalized two part model|||||||0.317
92326971|NCT01892085|184558937|SUPERIORITY|||||||0.031|||||||Marginalized two part model|||||||0.031
92202122|NCT04546425|184302052|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|2.02|||||TWO_SIDED|95.0|1.77|2.3|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 10A||2.30|1.77|
92326972|NCT01892085|184558937|SUPERIORITY|||||||0.298|||||||Marginalized two part model|||||||0.298
92326973|NCT01892085|184558938|SUPERIORITY|||||||0.05|||||||Marginalized two part model|||||||0.05
92326974|NCT01892085|184558938|SUPERIORITY|||||||0.27|||||||Marginalized 2 part model|||||||0.27
92326975|NCT01892085|184558939|SUPERIORITY|||||||0.069|||||||Marginalized two part model|||||||0.069
92326976|NCT01892085|184558939|SUPERIORITY|||||||0.244|||||||Marginalized two part model|||||||0.244
92326977|NCT01892085|184558940|SUPERIORITY|||||||0.094|||||||Marginalized two part model|||||||0.094
92326978|NCT01892085|184558940|SUPERIORITY|||||||0.235|||||||Marginalized 2 part model|||||||0.235
92326979|NCT01892085|184558941|SUPERIORITY|||||||0.123|||||||Marginalized two part model|||||||0.123
92326980|NCT01892085|184558941|SUPERIORITY|||||||0.21|||||||Marginalized two part model|||||||0.210
92326981|NCT01892085|184558942|SUPERIORITY|||||||0.143|||||||Marginalized two part model|||||||0.143
92326982|NCT01892085|184558942|SUPERIORITY|||||||0.196|||||||Marginalized two part model|||||||0.196
92202123|NCT04546425|184302052|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.55|||||TWO_SIDED|95.0|1.37|1.75|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 11A||1.75|1.37|
92326983|NCT01892085|184558943|SUPERIORITY|||||||0.185|||||||Marginalized two part model|||||||0.185
92326984|NCT01892085|184558943|SUPERIORITY|||||||0.183|||||||Marginalized two part model|||||||0.183
92326985|NCT01892085|184558944|SUPERIORITY|||||||0.229|||||||Marginalized two part model|||||||0.229
92326986|NCT01892085|184558944|SUPERIORITY|||||||0.17|||||||Marginalized two part model|||||||0.170
92326987|NCT01892085|184558945|SUPERIORITY|||||||0.314|||||||Marginalized two part model|||||||0.314
92326988|NCT01892085|184558945|SUPERIORITY|||||||0.162|||||||Marginalized two part model|||||||0.162
92326989|NCT01892085|184558946|SUPERIORITY|||||||0.377|||||||Marginalized two part model|||||||0.377
92326990|NCT01892085|184558946|SUPERIORITY|||||||0.149|||||||Marginalized two part model|||||||0.149
92326991|NCT01892085|184558947|SUPERIORITY|||||||0.08|||||||ANOVA|||||||0.08
92326992|NCT01892085|184558948|SUPERIORITY|||||||0.82|||||||ANOVA|||||||0.82
92326993|NCT01892085|184558949|SUPERIORITY|||||||0.22|||||||Chi-squared|||||||00.22
92326994|NCT01892085|184558950|SUPERIORITY|||||||0.87|||||||Chi-squared|||||||0.87
92326995|NCT01892085|184558951|SUPERIORITY|||||||0.27|||||||Chi-squared|||||||0.27
92326996|NCT01892085|184558952|SUPERIORITY|||||||0.77|||||||Chi-squared|||||||0.77
92326997|NCT01892085|184558953|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
92326998|NCT01892085|184558954|SUPERIORITY|||||||0.9|||||||Chi-squared|||||||0.90
92326999|NCT01892085|184558955|SUPERIORITY|||||||0.36|||||||Chi-squared|||||||0.36
92327000|NCT01472757|184558956|SUPERIORITY|||||||0.013|||||||ANCOVA|||||||0.013
92327001|NCT01472757|184558956|SUPERIORITY||||||<|0.001||||||Calculated p-value was less than 0.001.|ANCOVA|||||||<0.001
92327002|NCT01472757|184558956|SUPERIORITY||||||<|0.001||||||Calculated p-value was less than 0.001.|ANCOVA|||||||<0.001
92327003|NCT01472757|184558957|SUPERIORITY|||||||0.001|||||||Fisher Exact|||||||0.001
92327004|NCT01472757|184558957|SUPERIORITY|||||||0.006|||||||Fisher Exact|||||||0.006
92327005|NCT01472757|184558957|SUPERIORITY|||||||0.011|||||||Fisher Exact|||||||0.011
92327006|NCT01472757|184558958|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
92327007|NCT01472757|184558958|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
92327008|NCT01472757|184558958|SUPERIORITY|||||||0.008|||||||ANCOVA|||||||0.008
92327009|NCT02961062|184558962|SUPERIORITY||Mean Difference (Final Values)|-11.1|STANDARD_ERROR_OF_MEAN|0.0||0.005|TWO_SIDED|90.0|-17.54|-4.71|||Kenward-Roger method|||||-4.71|-17.54|0.005
92327010|NCT02961062|184558963|SUPERIORITY||Median Difference (Final Values)|-8.56|STANDARD_ERROR_OF_MEAN|3.37||0.017|TWO_SIDED|90.0|-14.29|-2.83|||Kenward-Roger method|||||-2.83|-14.29|0.017
92327011|NCT01629823|184558980|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||0.51|TWO_SIDED|95.0|0.44|1.5||Comparison of 5cm group to control. No adjustment for multiple comparisons.|Regression, Linear|||Both the 5 and 10cm groups were compared to the control group, \<1cm H₂O||1.50|0.44|0.51
92327012|NCT01629823|184558980|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84||||0.57|TWO_SIDED|95.0|0.47|1.52|||Regression, Linear|||||1.52|0.47|0.57
92327013|NCT00455520|184558991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0|-1.7|-0.92|||ANCOVA|||Analysis of Covariance Model with factors of treatment, country, prior opioid use, and baseline dose level and start of DB pain score as factors.||-0.92|-1.7|<0.001
92327014|NCT00033657|184559009|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48|TWO_SIDED|95.0|||||Log Rank|||||||0.48
92327015|NCT01683422|184559011|SUPERIORITY|The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.||||||0.1|||||||t-test, 1 sided|||In the RTOG 9812 (NCT00003591) for unresectable pancreatic cancer, a one-year survival rate of 43% was observed. There were 109 analyzable patients on NCT00003591 with 61 still at risk for death at one year. Using the method of Dixon and Simon, a sample size of 39 analyzable patients followed over 12 months will ensure at least 90% probability of detecting a minimum of 17% improvement in the one-year survival rate compared to NCT00003591 at the 0.10 significance level (with a one-sided test).||||0.1
92202124|NCT04546425|184302052|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.68|0.87|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 12F||0.87|0.68|
92202125|NCT04546425|184302052|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|5.42|||||TWO_SIDED|95.0|4.82|6.1|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 15B||6.10|4.82|
92202126|NCT04546425|184302052|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|3.84|||||TWO_SIDED|95.0|3.4|4.34|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 22F||4.34|3.40|
92202127|NCT04546425|184302052|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|2.64|||||TWO_SIDED|95.0|2.33|2.99|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 33F||2.99|2.33|
92202128|NCT04546425|184302053|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC -13vPnC) was greater than -10%.|Percent difference|-0.2|||||TWO_SIDED|95.0|-1.3|0.8|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Diphtheria||0.8|-1.3|
92202129|NCT04546425|184302053|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|-0.6|||||TWO_SIDED|95.0|-1.8|0.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Tetanus||0.2|-1.8|
92202130|NCT04546425|184302053|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|-2.3|||||TWO_SIDED|95.0|-5.3|0.7|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|PT||0.7|-5.3|
92202131|NCT04546425|184302053|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|0.2|||||TWO_SIDED|95.0|-2.6|2.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|FHA||2.9|-2.6|
92202132|NCT04546425|184302053|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|1.6|||||TWO_SIDED|95.0|-0.9|4.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|PRN||4.2|-0.9|
92202133|NCT04546425|184302053|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|1.1|||||TWO_SIDED|95.0|-1.1|4.0|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Hepatitis B||4.0|-1.1|
92202134|NCT04546425|184302053|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC -13vPnC) was greater than -10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-4.6|4.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Poliovirus Type 1||4.2|-4.6|
92202135|NCT04546425|184302053|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-4.6|4.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Poliovirus Type 2||4.2|-4.6|
92327016|NCT00628095|184559025|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.0221||||0.591|TWO_SIDED|90.0|-0.17|0.13|||Normal Approximation method|No adjustments for multiple comparisons were performed.|Power of 80% and a Type I error at 0.10 in a 1-sided test was calculated. Null hypothesis stated that there was no difference between the CE-224,535 and placebo arm groups, on the percentage of ACR 20 responders at Week 12.|Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||0.13|-0.17|0.591
92202136|NCT04546425|184302053|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-4.6|4.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Poliovirus Type 3||4.2|-4.6|
92202137|NCT04546425|184302053|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.0|2.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Hib||2.2|-2.0|
92202138|NCT04546425|184302054|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.05|||||TWO_SIDED|95.0|0.79|1.42|||||GMR and 2-sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the concentrations (20vPnC - 13vPnC) and the corresponding CIs (based on the Student's t distribution).|Measles||1.42|0.79|
92202139|NCT04546425|184302055|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.76|1.44|||||GMR and 2-sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the concentrations (20vPnC - 13vPnC) and the corresponding CIs (based on the Student's t distribution).|Mumps||1.44|0.76|
92202140|NCT04546425|184302056|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.83|||||TWO_SIDED|95.0|0.63|1.1|||||GMR and 2-sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the concentrations (20vPnC - 13vPnC) and the corresponding CIs (based on the Student's t distribution).|Rubella||1.10|0.63|
92202141|NCT04546425|184302057|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.24|||||TWO_SIDED|95.0|0.98|1.57|||||GMR and 2-sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the concentrations (20vPnC - 13vPnC) and the corresponding CIs (based on the Student's t distribution).|Varicella||1.57|0.98|
92202142|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|-1.0|||||TWO_SIDED|95.0|-3.1|0.9|||||2-Sided 95% CIs are calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.|Serotype 1 \\||0.9|-3.1|
92202143|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|-10.6|||||TWO_SIDED|95.0|-14.7|-6.7|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 3||-6.7|-14.7|
92202144|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.4|1.3|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 4||1.3|-1.4|
92202145|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.4|||||TWO_SIDED|95.0|-1.4|2.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 5||2.2|-1.4|
92202146|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.6|1.5|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 6A||1.5|-1.6|
92202147|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.8|||||TWO_SIDED|95.0|-1.1|2.7|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 6B||2.7|-1.1|
92202148|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|-0.4|||||TWO_SIDED|95.0|-1.5|0.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 7F||0.4|-1.5|
92202149|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.4|||||TWO_SIDED|95.0|-1.0|1.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 9V||1.9|-1.0|
92327017|NCT00628095|184559026|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.1232||||0.941|TWO_SIDED|80.0|-0.22|-0.02|||Normal Approximation method|||Week 2: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||-0.02|-0.22|0.941
92202150|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|-1.5|||||TWO_SIDED|95.0|-3.7|0.6|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 14||0.6|-3.7|
92202151|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|1.0|||||TWO_SIDED|95.0|-0.5|2.7|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 18C||2.7|-0.5|
92202152|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 19A||1.1|-1.1|
92202153|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.2|||||TWO_SIDED|95.0|-0.9|1.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 19F||1.4|-0.9|
92202154|NCT04546425|184302071|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|-0.9|||||TWO_SIDED|95.0|-3.2|1.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 23F||1.4|-3.2|
92202155|NCT04546425|184302071|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F(13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|2.0|||||TWO_SIDED|95.0|0.4|3.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 8||3.9|0.4|
92202156|NCT04546425|184302071|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F(13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|0.6|||||TWO_SIDED|95.0|-1.5|2.7|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 10A||2.7|-1.5|
92202157|NCT04546425|184302071|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|1.2|||||TWO_SIDED|95.0|-0.7|3.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 11A||3.2|-0.7|
92202158|NCT04546425|184302071|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|-0.6|||||TWO_SIDED|95.0|-2.9|1.6|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 12F||1.6|-2.9|
92202159|NCT04546425|184302071|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|2.2|||||TWO_SIDED|95.0|0.7|4.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 15B||4.1|0.7|
92202160|NCT04546425|184302071|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F(13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|2.0|||||TWO_SIDED|95.0|0.4|3.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 22F||3.9|0.4|
92202161|NCT04546425|184302071|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|1.4|||||TWO_SIDED|95.0|-0.4|3.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 33F||3.4|-0.4|
92202162|NCT04546425|184302075|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-4.5|||||TWO_SIDED|95.0|-11.2|2.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Diphtheria||2.1|-11.2|
92202163|NCT04546425|184302075|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-3.0|||||TWO_SIDED|95.0|-7.0|0.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Tetanus||0.4|-7.0|
92202164|NCT04546425|184302075|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-0.5|||||TWO_SIDED|95.0|-5.2|4.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|PT||4.1|-5.2|
92202165|NCT04546425|184302075|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-1.5|||||TWO_SIDED|95.0|-6.4|3.3|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|FHA||3.3|-6.4|
92202166|NCT04546425|184302075|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-1.5|||||TWO_SIDED|95.0|-6.4|3.3|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|PRN||3.3|-6.4|
92202167|NCT04546425|184302075|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-3.3|||||TWO_SIDED|95.0|-10.0|2.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Poliovirus Type 1||2.2|-10.0|
92202168|NCT04546425|184302075|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-2.8|||||TWO_SIDED|95.0|-11.8|5.8|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Poliovirus Type 2||5.8|-11.8|
92202169|NCT04546425|184302075|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-4.2|||||TWO_SIDED|95.0|-10.2|-0.5|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Poliovirus Type 3||-0.5|-10.2|
92202170|NCT04546425|184302075|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|0.0|||||TWO_SIDED|95.0|-1.8|2.0|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Hib||2.0|-1.8|
92202171|NCT03296800|184302079|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|118.66|||||TWO_SIDED|90.0|111.12|126.72|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|Geometric LS Mean was used as PK parameters||126.72|111.12|
92202172|NCT03296800|184302079|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|119.62|||||TWO_SIDED|90.0|94.39|151.59||||||Geometric LS Mean was used as PK parameters|Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|151.59|94.39|
92202173|NCT03296800|184302079|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|106.05|||||TWO_SIDED|90.0|88.81|126.65||||||Geometric LS Mean was used as PK parameters|Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|126.65|88.81|
92202174|NCT03296800|184302082|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|140.98|||||TWO_SIDED|90.0|131.39|151.26|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|Geometric LS Mean was used as PK parameters||151.26|131.39|
92202175|NCT03296800|184302082|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|86.12|||||TWO_SIDED|90.0|70.24|105.59|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|Geometric LS Mean was used as PK parameters||105.59|70.24|
92202176|NCT03296800|184302082|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|97.93|||||TWO_SIDED|90.0|90.26|106.26|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|Geometric LS Mean was used as PK parameters||106.26|90.26|
92202177|NCT01038427|184302228|EQUIVALENCE|If the 90% confidence intervals were contained within the interval 80.0% to 125.0%, then the two products were considered to be therapeutically equivalent.|Ratio Test/Ref. Least Squares (LS) Means|106.644|||||TWO_SIDED|90.0|91.86|123.997||||||||123.997|91.860|
92202178|NCT01038427|184302229|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92202179|NCT01038427|184302229|SUPERIORITY|||||||0.0001|||||||ANCOVA|||||||0.0001
92202180|NCT01038427|184302230|EQUIVALENCE|90% confidence intervals within the interval 80.0% to 125.0%.|Ratio Test/Ref. LS Means|109.716|||||TWO_SIDED|90.0|93.316|129.159||||||||129.159|93.316|
92202181|NCT01038427|184302231|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92202182|NCT01038427|184302231|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92202183|NCT01038427|184302232|SUPERIORITY|||||||0.2655|||||||Cochran-Mantel-Haenszel|||||||0.2655
92202184|NCT01038427|184302232|SUPERIORITY|||||||0.0009|||||||Cochran-Mantel-Haenszel|||||||0.0009
92202185|NCT01038427|184302232|SUPERIORITY|||||||0.1093|||||||Cochran-Mantel-Haenszel|||||||0.1093
92202186|NCT01038427|184302233|SUPERIORITY|||||||0.9915|||||||Cochran-Mantel-Haenszel|||||||0.9915
92202187|NCT01038427|184302233|SUPERIORITY|||||||0.0312|||||||Cochran-Mantel-Haenszel|||||||0.0312
92327018|NCT00628095|184559026|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.0622||||0.742|TWO_SIDED|80.0|-0.18|0.05|||Normal Approximation method|||Week 4: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||0.05|-0.18|0.742
92202188|NCT01038427|184302233|SUPERIORITY|||||||0.0487|||||||Cochran-Mantel-Haenszel|||||||0.0487
92202189|NCT00755105|184302235|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||< 0.05
92327019|NCT00628095|184559026|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.004||||0.482|TWO_SIDED|80.0|-0.11|0.12|||Normal Approximation method|||Week 8: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||0.12|-0.11|0.482
92202190|NCT03995316|184302236|SUPERIORITY||Slope|-0.76|STANDARD_ERROR_OF_MEAN|0.25||0.003|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.003
92202191|NCT03995316|184302237|SUPERIORITY||Slope|-0.18|STANDARD_ERROR_OF_MEAN|0.17||0.283|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.283
92202192|NCT03995316|184302238|SUPERIORITY||Slope|-0.51|STANDARD_ERROR_OF_MEAN|0.22||0.019|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.019
92202193|NCT03995316|184302239|SUPERIORITY||Slope|0.34|STANDARD_ERROR_OF_MEAN|0.44||0.44|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.440
92202194|NCT03995316|184302240|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.03||0.055|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.055
92202195|NCT03995316|184302241|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.04||0.041|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.041
92202196|NCT00664534|184302342|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin is defined as 0.4%. If the upper 95%CI for difference in LSMeans is below 0.4% then MIX arm will be declared noninferior to GLAR arm|Least squares mean difference|-0.14|||||TWO_SIDED|95.0|-0.42|0.13|||||Least squares mean difference = (Premix insulin Lispro -Glargine)|||0.13|-0.42|
92202197|NCT00664534|184302344|SUPERIORITY_OR_OTHER||Least squares mean difference|0.05|||||TWO_SIDED|95.0|-0.18|0.29|||||Least squares mean difference = (Premix insulin Lispro - Glargine). 16 weeks|||0.29|-0.18|
92202198|NCT00664534|184302344|SUPERIORITY_OR_OTHER||Least squares mean difference|0.04|||||TWO_SIDED|95.0|-0.22|0.29|||||Least squares mean difference = (Premix insulin Lispro - Glargine). 32 weeks|||0.29|-0.22|
92202199|NCT00664534|184302344|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.08|||||TWO_SIDED|95.0|-0.33|0.18|||||Least squares mean difference = (Premix insulin Lispro - Glargine). 48 weeks|||0.18|-0.33|
92202200|NCT00664534|184302345|SUPERIORITY_OR_OTHER|||||||0.2127||95.0||||P-value is for Week 16 HbA1c \<=7.0%.|Chi-squared|||||||0.2127
92202201|NCT00664534|184302345|SUPERIORITY_OR_OTHER|||||||0.3281||95.0||||P-value is for Week 16 HbA1c \<=6.5%|Chi-squared|||||||0.3281
92202202|NCT00664534|184302345|SUPERIORITY_OR_OTHER|||||||0.2812||95.0||||P-value is for Week 32 HbA1c \<=7.0%|Chi-squared|||||||0.2812
92202203|NCT00664534|184302345|SUPERIORITY_OR_OTHER|||||||0.6963||95.0||||P-value is for Week 32 HbA1c \<=6.5%|Chi-squared|||||||0.6963
92202204|NCT00664534|184302345|SUPERIORITY_OR_OTHER|||||||0.0643||95.0||||P-value is for Week 48 HbA1c \<=7.0%|Chi-squared|||||||0.0643
92202205|NCT00664534|184302345|SUPERIORITY_OR_OTHER|||||||0.2524||95.0||||P-value is for Week 48 HbA1c \<=6.5%|Chi-squared|||||||0.2524
92202206|NCT00664534|184302347|SUPERIORITY_OR_OTHER|||||||0.6615||95.0||||P-value for Baseline|Wilcoxon (Mann-Whitney)|||||||0.6615
92202207|NCT00664534|184302347|SUPERIORITY_OR_OTHER|||||||0.9798||95.0||||P-value is for Week 16|Wilcoxon (Mann-Whitney)|||||||0.9798
92202208|NCT00664534|184302347|SUPERIORITY_OR_OTHER|||||||0.6169||95.0||||P-value for Week 32|Wilcoxon (Mann-Whitney)|||||||0.6169
92202209|NCT00664534|184302347|SUPERIORITY_OR_OTHER|||||||0.7834||95.0||||P-value for Week 48|Wilcoxon (Mann-Whitney)|||||||0.7834
92202210|NCT00664534|184302349|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-0.89|0.7|||||Least Squares Mean Difference = Premix Insulin Lispro minus Glargine.|||0.70|-0.89|
92202211|NCT00664534|184302350|SUPERIORITY_OR_OTHER|||||||0.4935||95.0|||||Fisher Exact|||||||0.4935
92202212|NCT03041792|184302360|SUPERIORITY||Least Square Mean Difference|-235.75|STANDARD_ERROR_OF_MEAN|43.13||0|TWO_SIDED|95.0|-322.25|-149.25||The p-value was calculated and was rounded to 4th decimal presenting as 0.0000, which was smaller than the required threshold of \<0.05.|Mixed Models Analysis|||Visit 4||-149.25|-322.25|0.0000
92202213|NCT03041792|184302360|SUPERIORITY||Least Square Mean Difference|-243.63|STANDARD_ERROR_OF_MEAN|47.6||0|TWO_SIDED|95.0|-339.1|-148.15||The p-value was calculated and was rounded to 4th decimal presenting as 0.0000, which was smaller than the required threshold of \<0.05.|Mixed Models Analysis|||Visit 5||-148.15|-339.10|0.0000
92202214|NCT03041792|184302365|SUPERIORITY||Least Square Mean Difference|-859.58|STANDARD_ERROR_OF_MEAN|167.76||0|TWO_SIDED|95.0|-1196.1|-523.1||The p-value was calculated and was rounded to 4th decimal presenting as 0.0000, which was smaller than the required threshold of \<0.05.|Mixed Models Analysis|||Visit 4||-523.10|-1196.1|0.0000
92202215|NCT03041792|184302365|SUPERIORITY||Least Square Mean Difference|-928.56|STANDARD_ERROR_OF_MEAN|193.8||0|TWO_SIDED|95.0|-1317.3|-539.86||The p-value was calculated and was rounded to 4th decimal presenting as 0.0000, which was smaller than the required threshold of \<0.05.|Mixed Models Analysis|||Visit 5||-539.86|-1317.3|0.0000
92202216|NCT03041792|184302366|SUPERIORITY||Least Square Mean Difference|4.95|STANDARD_ERROR_OF_MEAN|2.16||0.0263|TWO_SIDED|95.0|0.61|9.29|||Mixed Models Analysis|||Visit 4||9.29|0.61|0.0263
92202217|NCT03041792|184302366|SUPERIORITY||Least Square Mean Difference|5.35|STANDARD_ERROR_OF_MEAN|2.06||0.0121|TWO_SIDED|95.0|1.22|9.48|||Mixed Models Analysis|||Visit 5||9.48|1.22|0.0121
92202218|NCT03041792|184302367|SUPERIORITY||Least Square Mean Difference|3.98|STANDARD_ERROR_OF_MEAN|2.91||0.1768|TWO_SIDED|95.0|-1.85|9.82|||Mixed Models Analysis|||Satiety (Visit 4)||9.82|-1.85|0.1768
92202219|NCT03041792|184302367|SUPERIORITY||Least Square Mean Difference|3.43|STANDARD_ERROR_OF_MEAN|2.13||0.1137|TWO_SIDED|95.0|-0.85|7.7|||Mixed Models Analysis|||Satiety (Visit 5)||7.70|-0.85|0.1137
92202220|NCT03041792|184302367|SUPERIORITY||Least Square Mean Difference|2.85|STANDARD_ERROR_OF_MEAN|2.12||0.1858|TWO_SIDED|95.0|-1.41|7.11|||Mixed Models Analysis|||Fullness (Visit 4)||7.11|-1.41|0.1858
92202221|NCT03041792|184302367|SUPERIORITY||Least Square Mean Difference|1.41|STANDARD_ERROR_OF_MEAN|2.22||0.5288|TWO_SIDED|95.0|-3.05|5.86|||Mixed Models Analysis|||Fullness (Visit 5)||5.86|-3.05|0.5288
92202222|NCT03041792|184302367|SUPERIORITY||Least Square Mean Difference|-8.46|STANDARD_ERROR_OF_MEAN|2.91||0.0054|TWO_SIDED|95.0|-14.3|-2.61|||Mixed Models Analysis|||Prospective food consumption (Visit 4)||-2.61|-14.30|0.0054
92202223|NCT03041792|184302367|SUPERIORITY||Least Square Mean Difference|-9.78|STANDARD_ERROR_OF_MEAN|3.75||0.0117|TWO_SIDED|95.0|-17.29|-2.27|||Mixed Models Analysis|||Prospective food consumption (Visit 5)||-2.27|-17.29|0.0117
92327020|NCT00628095|184559027|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.0072||||0.989|TWO_SIDED|80.0|-0.08|0.06|||Barnard exact test|||Week 2: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.06|-0.08|0.989
92327021|NCT00628095|184559027|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.0096||||0.957|TWO_SIDED|80.0|-0.08|0.07|||Barnard exact test|||Week 4: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.07|-0.08|0.957
92327022|NCT00628095|184559027|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.0044||||0.473|TWO_SIDED|80.0|-0.08|0.09|||Normal Approximation method|||Week 8: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||0.09|-0.08|0.473
92202224|NCT03041792|184302367|SUPERIORITY||Least Square Mean Difference|-6.58|STANDARD_ERROR_OF_MEAN|2.44||0.0093|TWO_SIDED|95.0|-11.48|-1.69|||Mixed Models Analysis|||Hunger (Visit 4)||-1.69|-11.48|0.0093
92202225|NCT03041792|184302367|SUPERIORITY||Least Square Mean Difference|-6.39|STANDARD_ERROR_OF_MEAN|2.86||0.0296|TWO_SIDED|95.0|-12.12|-0.66|||Mixed Models Analysis|||Hunger (Visit 5)||-0.66|-12.12|0.0296
92202226|NCT03041792|184302368|SUPERIORITY||Least Square Mean Difference|35.56|STANDARD_ERROR_OF_MEAN|52.46||0.5008|TWO_SIDED|95.0|-69.64|140.76|||Mixed Models Analysis|||AUC0-60min (Visit 4)||140.76|-69.64|0.5008
92202227|NCT03041792|184302368|SUPERIORITY||Least Square Mean Difference|106.15|STANDARD_ERROR_OF_MEAN|48.95||0.0348|TWO_SIDED|95.0|7.86|204.44|||Mixed Models Analysis|||AUC0-60min (Visit 5)||204.44|7.86|0.0348
92202228|NCT03041792|184302368|SUPERIORITY||Least Square Mean Difference|214.24|STANDARD_ERROR_OF_MEAN|129.48||0.104|TWO_SIDED|95.0|-45.59|474.07|||Mixed Models Analysis|||AUC0-300min (Visit 4)||474.07|-45.59|0.1040
92202229|NCT03041792|184302368|SUPERIORITY||Least Square Mean Difference|348.43|STANDARD_ERROR_OF_MEAN|138.29||0.0152|TWO_SIDED|95.0|70.2|626.66|||Mixed Models Analysis|||AUC0-300min (Visit 5)||626.66|70.20|0.0152
92202230|NCT00935532|184302369|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of exenatide QW to insulin glargine with respect to change in HbA1c was to be concluded if the upper limit of the 95% confidence interval (CI) for the treatment difference was less than 0.4%. Change in HbA1c from baseline to endpoint was analyzed using a LOCF ANCOVA model with treatment, baseline HbA1c stratum (\<8.5%, \>=8.5%), background OAD, and presence/absence of pretreatment with SU as factors and baseline HbA1c as a covariate.|Least Squares Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.59|-0.26||No adjustments for multiplicity will be performed|ANCOVA|||The expected changes in HbA1c from baseline were considered to be the same between the groups, and the common standard deviation assumed to be 1.2%. Assuming a type I error of 0.025 (one-sided), a power of 0.9 and a noninferiority margin of 0.4%, 191 subjects per group would be necessary to confirm the noninferiority by the two-sample t-test. When the proportion of the subjects missing post-baseline data was assumed to be 10%, the target number of subjects were 420 in total (210 subjects/group).||-0.26|-0.59|<.001
92202231|NCT00935532|184302370|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Percentage of subjects achieving HbA1c\<=7% at endpoint were compared between treatments using a Cochran-Mantel-Haenszel (CMH) test, in which background OAD and presence/absence of pretreatment with SU served as the stratification factors.||||<.001
92202232|NCT00935532|184302371|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Percentage of subjects achieving HbA1c\<=6.5% at endpoint were compared between treatments using a CMH test, in which background OAD and presence/absence of pretreatment with SU served as the stratification factors.||||<.001
92202233|NCT00935532|184302372|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.28|STANDARD_ERROR_OF_MEAN|3.23||0.103|TWO_SIDED|95.0|-11.62|1.07|||ANCOVA|||Change in FSG from baseline to endpoint was analyzed using a LOCF ANCOVA model with treatment, background OAD, and presence/absence of pretreatment with SU as factors and baseline FSG as a covariate.||1.07|-11.62|0.103
92202234|NCT00935532|184302373|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.01|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-2.46|-1.56|||ANCOVA|||Change in body weight from baseline to endpoint was analyzed using a LOCF ANCOVA model with treatment, background OAD, and presence/absence of pretreatment with SU as factors and baseline body weight as a covariate.||-1.56|-2.46|<.001
92202235|NCT00935532|184302374|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.89|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|-12.33|-3.45|||ANCOVA|||Change in total cholesterol from baseline to endpoint was analyzed using a LOCF ANCOVA model with treatment, background OAD, and presence/absence of pretreatment with SU as factors and baseline total cholesterol as a covariate.||-3.45|-12.33|<.001
92202236|NCT00935532|184302375|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.69||0.689|TWO_SIDED|95.0|-1.64|1.09|||ANCOVA|||Change in HDL-C from baseline to endpoint was analyzed using a LOCF ANCOVA model with treatment, background OAD, and presence/absence of pre-treatment with SU as factors and baseline HDL-C as a covariate.||1.09|-1.64|0.689
92202237|NCT00935532|184302376|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.0|STANDARD_ERROR_OF_MEAN|1.03||0.99|TWO_SIDED|95.0|0.94|1.06|||ANCOVA|||Triglycerides data were logarithm-transformed and the change at endpoint to baseline, expressed as the ratio, was analyzed using a LOCF ANCOVA model with treatment, background OAD, and presence/absence of pretreatment with SU as factors and baseline triglycerides as a covariate.||1.06|0.94|0.990
92202238|NCT03083665|184302394|SUPERIORITY||Percent reduction over Placebo|24.5||||0.0005|TWO_SIDED|95.0|11.7|35.5||Statistical testing with control of Type I error rate were based on a Hochberg multiple comparison procedure.|ANCOVA||Based on ANCOVA with log-transformed \[log(x+1)\] Treatment Period 28-day adjusted partial seizure frequency.|||35.5|11.7|0.0005
92202239|NCT03083665|184302394|SUPERIORITY||Percent reduction over Placebo|33.4|||<|0.0001|TWO_SIDED|95.0|21.9|43.1||Statistical testing with control of Type I error rate were based on a Hochberg multiple comparison procedure.|ANCOVA||Based on ANCOVA with log-transformed \[log(x+1)\] Treatment Period 28-day adjusted partial seizure frequency.|||43.1|21.9|<0.0001
92202240|NCT03635099|184302416|OTHER||Risk Difference (RD)|5.0||||0.3091|TWO_SIDED|95.0|-1.8|11.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||11.8|-1.8|0.3091
92327023|NCT00628095|184559027|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.057||||0.793|TWO_SIDED|80.0|-0.15|0.03|||Normal Approximation method|||Week 12: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||0.03|-0.15|0.793
92202241|NCT03635099|184302416|OTHER||Risk Difference (RD)|7.7||||0.203|TWO_SIDED|95.0|-0.7|16.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||16.1|-0.7|0.2030
92202242|NCT03635099|184302416|OTHER||Risk Difference (RD)|10.3||||0.138|TWO_SIDED|95.0|0.7|19.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||19.8|0.7|0.1380
92202243|NCT03635099|184302416|OTHER||Risk Difference (RD)|30.0||||0.0062|TWO_SIDED|95.0|15.8|44.2|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||44.2|15.8|0.0062
92202244|NCT03635099|184302416|OTHER||Risk Difference (RD)|25.6|||||TWO_SIDED|95.0|12.5|38.6|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||38.6|12.5|
92202245|NCT03635099|184302416|OTHER||Risk Difference (RD)|23.8|||||TWO_SIDED|95.0|10.9|36.7|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||36.7|10.9|
92327024|NCT00628095|184559028|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.0377||||0.121|TWO_SIDED|80.0|0.0|0.09|||Barnard exact test|||Week 2: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.09|-0.00|0.121
92202246|NCT03635099|184302416|OTHER|First the response rate of PASI 75 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline PASI score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0004||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Linear model fit.|||||||0.0004
92202247|NCT03635099|184302416|OTHER|First the response rate of PASI 75 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline PASI score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0012||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Logistic model fit.|Model assumption: 10% of the maximum effect is achieved at 25 mg and 80% of the maximum effect is achieved at 100 mg.||||||0.0012
92202248|NCT03635099|184302416|OTHER|First the response rate of PASI 75 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline PASI score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0008||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Emax1 model fit.|Model assumption: 30% of the maximum effect is achieved at 50 mg.||||||0.0008
92327025|NCT00628095|184559028|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.0141||||0.421|TWO_SIDED|80.0|-0.05|0.07|||Barnard exact test|||Week 4: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.07|-0.05|0.421
92202249|NCT03635099|184302416|OTHER|First the response rate of PASI 75 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline PASI score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0217||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Emax2 model fit.|Model assumption: 80% of the maximum effect is achieved at 50 mg.||||||0.0217
92202250|NCT03635099|184302416|OTHER|First the response rate of PASI 75 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline PASI score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0004||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Exponential model fit.|Model assumption: 5% of the maximum effect is achieved at 25 mg.||||||0.0004
92202251|NCT03635099|184302417|OTHER||Risk Difference (RD)|2.5||||0.4758|TWO_SIDED|95.0|-2.3|7.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.3|-2.3|0.4758
92202252|NCT03635099|184302417|OTHER||Risk Difference (RD)|7.7||||0.203|TWO_SIDED|95.0|-0.7|16.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||16.1|-0.7|0.2030
92202253|NCT03635099|184302417|OTHER||Risk Difference (RD)|5.1||||0.3028|TWO_SIDED|95.0|-1.8|12.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||12.1|-1.8|0.3028
92202254|NCT03635099|184302417|OTHER||Risk Difference (RD)|27.5||||0.0095|TWO_SIDED|95.0|13.7|41.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||41.3|13.7|0.0095
92202255|NCT03635099|184302417|OTHER|First the response rate of sPGA 0/1 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline sPGA score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0007||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Linear model fit.|||||||0.0007
92202256|NCT03635099|184302417|OTHER|First the response rate of sPGA 0/1 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline sPGA score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0023||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Logistic model fit.|Model assumption: 10% of the maximum effect is achieved at 25 mg and 80% of the maximum effect is achieved at 100 mg.||||||0.0023
92202257|NCT03635099|184302417|OTHER|First the response rate of sPGA 0/1 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline sPGA score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0018||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Emax1 model fit.|Model assumption: 30% of the maximum effect is achieved at 50 mg.||||||0.0018
92202258|NCT03635099|184302417|OTHER|First the response rate of sPGA 0/1 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline sPGA score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0386||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Emax2 model fit.|Model assumption: 80% of the maximum effect is achieved at 50 mg.||||||0.0386
92327026|NCT00628095|184559028|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.0566||||0.058|TWO_SIDED|80.0|0.01|0.12|||Barnard exact test|||Week 8: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.12|0.01|0.058
92202259|NCT03635099|184302417|OTHER|First the response rate of sPGA 0/1 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline sPGA score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0004||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Exponential model fit.|Model assumption: 5% of the maximum effect is achieved at 25 mg.||||||0.0004
92202260|NCT03635099|184302418|OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-11.7|11.7|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||11.7|-11.7|1.0000
92202261|NCT03635099|184302418|OTHER||Risk Difference (RD)|20.6||||0.054|TWO_SIDED|95.0|3.9|37.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||37.3|3.9|0.0540
92202262|NCT03635099|184302418|OTHER||Risk Difference (RD)|15.5||||0.1167|TWO_SIDED|95.0|-0.4|31.4|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||31.4|-0.4|0.1167
92202263|NCT03635099|184302418|OTHER||Risk Difference (RD)|45.0||||0.0006|TWO_SIDED|95.0|26.8|63.2|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||63.2|26.8|0.0006
92327027|NCT00628095|184559028|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.0377||||0.121|TWO_SIDED|80.0|0.0|0.09|||Barnard exact test|||Week 12: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.09|-0.00|0.121
92327028|NCT00628095|184559036|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Barnard exact test|||Week 2: p-value was analyzed using Barnard Exact Test.||||1.0000
92202264|NCT03635099|184302418|OTHER||Risk Difference (RD)|45.8|||||TWO_SIDED|95.0|22.0|69.6|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||69.6|22.0|
92202265|NCT03635099|184302418|OTHER||Risk Difference (RD)|35.2|||||TWO_SIDED|95.0|11.3|59.2|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||59.2|11.3|
92202266|NCT03635099|184302419|OTHER||Risk Difference (RD)|5.1||||0.3028|TWO_SIDED|95.0|-1.8|12.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||12.1|-1.8|0.3028
92327029|NCT00628095|184559036|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Barnard exact test|||Week 4: p-value was analyzed using Barnard Exact Test.||||1.0000
92327030|NCT00628095|184559036|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Barnard exact test|||Week 8: p-value was analyzed using Barnard Exact Test.||||1.0000
92327031|NCT00628095|184559036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0637|TWO_SIDED||||||Barnard exact test|||Week 12: p-value was analyzed using Barnard Exact Test.||||0.0637
92327032|NCT00628095|184559036|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0637|TWO_SIDED||||||Barnard exact test|||Week 14: p-value was analyzed using Barnard Exact Test.||||0.0637
92327033|NCT01005888|184559052|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Observed number of attacks.|ANOVA|||||||<0.0001
92327034|NCT01005888|184559052|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Normalized number of attacks.|ANOVA|||||||<0.0001
92327035|NCT01005888|184559053|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999||95.0||||Period 1.|Fisher Exact|||||||>0.999
92327036|NCT01005888|184559053|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999||95.0||||Period 2.|Fisher Exact|||||||>0.999
92327037|NCT01005888|184559054|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0008
92327038|NCT01005888|184559055|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0004
92202267|NCT03635099|184302419|OTHER||Risk Difference (RD)|2.6||||0.4701|TWO_SIDED|95.0|-2.4|7.5|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.5|-2.4|0.4701
92202268|NCT03635099|184302419|OTHER||Risk Difference (RD)|17.5||||0.0465|TWO_SIDED|95.0|5.7|29.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||29.3|5.7|0.0465
92202269|NCT03635099|184302419|OTHER||Risk Difference (RD)|9.3|||||TWO_SIDED|95.0|0.6|18.0|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||18.0|0.6|
92327039|NCT01005888|184559056|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92327040|NCT01005888|184559057|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92327041|NCT01005888|184559058|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Visit 1 change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92327042|NCT01005888|184559058|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Week 4 change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92327043|NCT01005888|184559058|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0||||Week 8 change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0001
92327044|NCT01005888|184559058|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0028||95.0||||Week 12 change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0028
92327045|NCT01005888|184559059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Visit 1 percent change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92327046|NCT01005888|184559059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Week 4 percent change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92327047|NCT01005888|184559059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Week 8 percent change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
92327048|NCT01005888|184559059|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0||||Week 12 percent change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0002
92327049|NCT02719938|184559102|SUPERIORITY|||||||0.415|||||||t-test, 2 sided|||||||0.415
92327050|NCT02719938|184559103|SUPERIORITY|||||||0.521|||||||t-test, 2 sided|||||||0.521
92327051|NCT02719938|184559104|SUPERIORITY|||||||0.409|||||||t-test, 2 sided|||||||0.409
92327052|NCT02719938|184559105|SUPERIORITY|||||||0.019|||||||Chi-squared|||||||0.019
92327053|NCT02719938|184559106|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92327054|NCT02719938|184559107|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92327055|NCT02719938|184559108|SUPERIORITY|||||||0.516|||||||t-test, 2 sided|||||||0.516
92327056|NCT00955968|184559109|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.54|TWO_SIDED|95.0|0.19|2.4||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||2.40|0.19|0.54
92327057|NCT00955968|184559110|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.66|TWO_SIDED|95.0|0.11|4.01||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||4.01|0.11|0.66
92327058|NCT00955968|184559112|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.44|TWO_SIDED|95.0|0.09|2.81||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||2.81|0.09|0.44
92327059|NCT00955968|184559113|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.79|TWO_SIDED|95.0|0.54|1.6||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||1.60|0.54|0.79
92327060|NCT00955968|184559114|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.71|TWO_SIDED|95.0|0.54|1.52||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||1.52|0.54|0.71
92327061|NCT00955968|184559115|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.42|0.8||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||0.80|0.42|<0.001
92327062|NCT00955968|184559116|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.1|TWO_SIDED|95.0|0.72|1.03||5% alpha level and 2-sided test|Log Rank|||||1.03|0.72|0.10
92202270|NCT03635099|184302419|OTHER||Risk Difference (RD)|4.8|||||TWO_SIDED|95.0|-1.7|11.2|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||11.2|-1.7|
92202271|NCT03635099|184302420|OTHER||Risk Difference (RD)|2.6||||0.4701|TWO_SIDED|95.0|-2.4|7.5|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.5|-2.4|0.4701
92202272|NCT03635099|184302420|OTHER||Risk Difference (RD)|5.0||||0.3091|TWO_SIDED|95.0|-1.8|11.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||11.8|-1.8|0.3091
92202273|NCT03635099|184302420|OTHER||Risk Difference (RD)|2.3|||||TWO_SIDED|95.0|-2.2|6.8|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||6.8|-2.2|
92202274|NCT03635099|184302420|OTHER||Risk Difference (RD)|2.4|||||TWO_SIDED|95.0|-2.2|7.0|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||7.0|-2.2|
92202275|NCT03635099|184302421|OTHER||Risk Difference (RD)|2.5||||0.4758|TWO_SIDED|95.0|-2.3|7.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.3|-2.3|0.4758
92202276|NCT03635099|184302421|OTHER||Risk Difference (RD)|2.6||||0.4701|TWO_SIDED|95.0|-2.4|7.5|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.5|-2.4|0.4701
92202277|NCT03635099|184302421|OTHER||Risk Difference (RD)|12.8||||0.0942|TWO_SIDED|95.0|2.3|23.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||23.3|2.3|0.0942
92202278|NCT03635099|184302421|OTHER||Risk Difference (RD)|27.5||||0.0095|TWO_SIDED|95.0|13.7|41.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||41.3|13.7|0.0095
92202279|NCT03635099|184302421|OTHER||Risk Difference (RD)|5.0||||0.3091|TWO_SIDED|95.0|-1.8|11.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||11.8|-1.8|0.3091
92202280|NCT03635099|184302421|OTHER||Risk Difference (RD)|7.7||||0.203|TWO_SIDED|95.0|-0.7|16.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||16.1|-0.7|0.2030
92202281|NCT03635099|184302421|OTHER||Risk Difference (RD)|10.3||||0.138|TWO_SIDED|95.0|0.7|19.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||19.8|0.7|0.1380
92202282|NCT03635099|184302421|OTHER||Risk Difference (RD)|32.5||||0.004|TWO_SIDED|95.0|18.0|47.0|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||47.0|18.0|0.0040
92202283|NCT03635099|184302421|OTHER||Risk Difference (RD)|10.3||||0.138|TWO_SIDED|95.0|0.7|19.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||19.8|0.7|0.1380
92202284|NCT03635099|184302421|OTHER||Risk Difference (RD)|35.0||||0.0025|TWO_SIDED|95.0|20.2|49.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||49.8|20.2|0.0025
92202285|NCT03635099|184302422|OTHER||Risk Difference (RD)|2.6||||0.4701|TWO_SIDED|95.0|-2.4|7.5|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.5|-2.4|0.4701
92202286|NCT03635099|184302422|OTHER||Risk Difference (RD)|5.0||||0.3091|TWO_SIDED|95.0|-1.8|11.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||11.8|-1.8|0.3091
92202287|NCT03635099|184302423|OTHER||Risk Difference (RD)|2.5||||0.4758|TWO_SIDED|95.0|-2.3|7.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.3|-2.3|0.4758
92202288|NCT03635099|184302423|OTHER||Risk Difference (RD)|5.1||||0.3028|TWO_SIDED|95.0|-1.8|12.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||12.1|-1.8|0.3028
92202289|NCT03635099|184302423|OTHER||Risk Difference (RD)|7.7||||0.203|TWO_SIDED|95.0|-0.7|16.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||16.1|-0.7|0.2030
92202290|NCT03635099|184302423|OTHER||Risk Difference (RD)|30.0||||0.0062|TWO_SIDED|95.0|15.8|44.2|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||44.2|15.8|0.0062
92202291|NCT03635099|184302423|OTHER||Risk Difference (RD)|10.3||||0.138|TWO_SIDED|95.0|0.7|19.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||19.8|0.7|0.1380
92202292|NCT03635099|184302423|OTHER||Risk Difference (RD)|5.1||||0.3028|TWO_SIDED|95.0|-1.8|12.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||12.1|-1.8|0.3028
92202293|NCT03635099|184302423|OTHER||Risk Difference (RD)|25.0||||0.0143|TWO_SIDED|95.0|11.6|38.4|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||38.4|11.6|0.0143
92202294|NCT03635099|184302423|OTHER||Risk Difference (RD)|7.7||||0.203|TWO_SIDED|95.0|-0.7|16.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||16.1|-0.7|0.2030
92202295|NCT03635099|184302423|OTHER||Risk Difference (RD)|10.3||||0.138|TWO_SIDED|95.0|0.7|19.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||19.8|0.7|0.1380
92202296|NCT03635099|184302423|OTHER||Risk Difference (RD)|32.5||||0.004|TWO_SIDED|95.0|18.0|47.0|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||47.0|18.0|0.0040
92202297|NCT03635099|184302424|OTHER||Adjusted mean|0.5|STANDARD_ERROR_OF_MEAN|1.2||0.7008|TWO_SIDED|95.0|-1.9|2.8|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||2.8|-1.9|0.7008
92202298|NCT03635099|184302424|OTHER||Adjusted mean|0.6|STANDARD_ERROR_OF_MEAN|1.2||0.6268|TWO_SIDED|95.0|-1.8|3.0|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||3.0|-1.8|0.6268
92202299|NCT03635099|184302424|OTHER||Adjusted mean|2.7|STANDARD_ERROR_OF_MEAN|1.2||0.0266|TWO_SIDED|95.0|0.3|5.1|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||5.1|0.3|0.0266
92202300|NCT03635099|184302424|OTHER||Adjusted mean|4.0|STANDARD_ERROR_OF_MEAN|1.2||0.0009|TWO_SIDED|95.0|1.7|6.3|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||6.3|1.7|0.0009
92202301|NCT03635099|184302424|OTHER||Adjusted mean|3.1|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|0.4|5.8|||||MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||5.8|0.4|
92202302|NCT03635099|184302424|OTHER||Adjusted mean|3.1|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|0.4|5.8|||||MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||5.8|0.4|
92202303|NCT03635099|184302425|OTHER||Risk Difference (RD)|2.5||||0.7144|TWO_SIDED|95.0|-10.1|15.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||15.1|-10.1|0.7144
92202304|NCT03635099|184302425|OTHER||Risk Difference (RD)|2.7||||0.697|TWO_SIDED|95.0|-10.0|15.4|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||15.4|-10.0|0.6970
92202305|NCT03635099|184302425|OTHER||Risk Difference (RD)|2.7||||0.697|TWO_SIDED|95.0|-10.0|15.4|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||15.4|-10.0|0.6970
92202306|NCT03635099|184302425|OTHER||Risk Difference (RD)|15.0||||0.125|TWO_SIDED|95.0|-0.6|30.6|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||30.6|-0.6|0.1250
92202307|NCT03635099|184302425|OTHER||Risk Difference (RD)|7.9|||||TWO_SIDED|95.0|-20.3|36.1|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||36.1|-20.3|
92202308|NCT03635099|184302425|OTHER||Risk Difference (RD)|6.2|||||TWO_SIDED|95.0|-21.9|34.3|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||34.3|-21.9|
92202309|NCT04103892|184302488|SUPERIORITY||Least square (LS) mean difference|-1.26|STANDARD_ERROR_OF_MEAN|1.69||0.46|TWO_SIDED|95.0|-4.6|2.09|||Mixed Models Repeated Measures (MMRM|||||2.09|-4.60|0.46
92202310|NCT04103892|184302489|SUPERIORITY||Least square (LS) mean difference|-5.28|STANDARD_ERROR_OF_MEAN|2.34||0.03|TWO_SIDED|95.0|-9.91|-0.65|||Mixed Models Repeated Measures (MMRM)|||||-0.65|-9.91|0.03
92202311|NCT05576662|184302490|OTHER||Pooled treatment coefficient|0.026||||0.903|TWO_SIDED|||||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Nonparametric permutation test||Weighted average of treatment coefficients. A pooled treatment coefficient \< 0 favors nirmatrelvir plus ritonavir; a pooled treatment coefficient \> 0 favors placebo plus ritonavir.|A proportional odds logistic regression model was fit for severity of each core symptom at week 10, adjusting for baseline severity of the corresponding symptom and fit using only those who experienced the symptom at baseline. A test statistic for overall efficacy was calculated as the weighted average of the treatment coefficient in the proportional odds model for each symptom with inverse variance weighting. The p-value was obtained by a nonparametric permutation test.||||0.903
92327063|NCT02484651|184559158|SUPERIORITY|||||||0.651|||||||t-test, 2 sided|||Sample size calculation was performed with a power of 0.80 and an α of 0.05, considering the primary hypothesis of a reduction in the BIS variability (measured as the standard deviation). A 25% reduction on the BIS variability (standard deviation) was considered clinically relevant, and gave a minimum sample size of 26 per group.||||0.651
92202312|NCT05576662|184302491|OTHER||Odds Ratio (OR)|1.55||||0.174|TWO_SIDED|95.0|0.82|2.94||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of fatigue score at day 15||2.94|0.82|0.174
92202313|NCT05576662|184302491|OTHER||Odds Ratio (OR)|1.21||||0.548|TWO_SIDED|95.0|0.65|2.25||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of brain fog score at day 15||2.25|0.65|0.548
92327064|NCT02484651|184559159|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||This statistical analysis applies to the propofol effect-site concentration. Sample size calculation was performed with a power of 0.80 and an α of 0.05 also a reduction in the propofol drug consumption (measured as the average effect-site concentration) during maintenance of anesthesia. A reduction on propofol mean effect-site concentration of 20% was considered clinically relevant, giving a minimum of 34 patients per group||||<0.001
92202314|NCT05576662|184302491|OTHER||Odds Ratio (OR)|0.62||||0.134|TWO_SIDED|95.0|0.33|1.16||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of dyspnea score at day 15||1.16|0.33|0.134
92202315|NCT05576662|184302491|OTHER||Odds Ratio (OR)|1.45||||0.241|TWO_SIDED|95.0|0.78|2.69||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of body aches score at day 15||2.69|0.78|0.241
92202316|NCT05576662|184302491|OTHER||Odds Ratio (OR)|1.03||||0.922|TWO_SIDED|95.0|0.55|1.92||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of gastrointestinal symptoms score at day 15||1.92|0.55|0.922
92202317|NCT05576662|184302491|OTHER||Odds Ratio (OR)|0.5||||0.032|TWO_SIDED|95.0|0.26|0.94||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of cardiovascular symptoms score at day 15||0.94|0.26|0.032
92202318|NCT05576662|184302492|OTHER||Odds Ratio (OR)|0.55||||0.09|TWO_SIDED|95.0|0.27|1.09||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|||1.09|0.27|0.09
92202319|NCT05576662|184302493|OTHER||Odds Ratio (OR)|0.72||||0.6|TWO_SIDED|95.0|0.21|2.44||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|||2.44|0.21|.60
92202320|NCT05576662|184302494|OTHER||Odds Ratio (OR)|1.62||||0.156|TWO_SIDED|95.0|0.83|3.15||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of severity at week 5||3.15|0.83|0.156
92202321|NCT05576662|184302494|OTHER||Odds Ratio (OR)|1.99||||0.03|TWO_SIDED|95.0|1.06|3.72||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of severity at week 10||3.72|1.06|0.03
92202322|NCT05576662|184302494|OTHER||Odds Ratio (OR)|2.42||||0.01|TWO_SIDED|95.0|1.27|4.6||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of severity at week 15||4.60|1.27|0.01
92202323|NCT05576662|184302495|OTHER||Hazard Ratio (HR)|0.9||||0.744|TWO_SIDED|95.0|0.45|1.77||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|"Analysis of data for Time to relief - fatigue"||1.77|0.45|0.744
92327065|NCT02484651|184559159|SUPERIORITY|||||||0.245|||||||t-test, 2 sided|||"This statistical analysis applies to the remifentanil effect-site concentration.~Sample size calculation was performed with a power of 0.80 and an α of 0.05 also a reduction in the remifentanil drug consumption (measured as the average effect-site concentration) during maintenance of anesthesia. A reduction on on remifentanil average effect-site concentration of 20% was considered clinically relevant, giving a minimum of 24 patients per group"||||0.245
92202324|NCT05576662|184302495|OTHER||Hazard Ratio (HR)|0.67||||0.259|TWO_SIDED|95.0|0.32|1.37||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|"Analysis of data for Time to relief - brain fog"||1.37|0.32|0.259
92202325|NCT05576662|184302495|OTHER||Hazard Ratio (HR)|1.61||||0.286|TWO_SIDED|95.0|0.65|3.99||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|"Analysis of data for Time to relief - body aches"||3.99|0.65|0.286
92202326|NCT05576662|184302495|OTHER||Hazard Ratio (HR)|0.92||||0.846|TWO_SIDED|95.0|0.38|2.24||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|"Analysis of data for Time to relief - cardiovascular symptoms"||2.24|0.38|0.846
92202327|NCT05576662|184302495|OTHER||Hazard Ratio (HR)|1.56||||0.41|TWO_SIDED|95.0|0.51|4.73||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test|A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.||"Analysis of data for Time to relief - shortness of breath"||4.73|0.51|0.410
92202328|NCT05576662|184302495|OTHER||Hazard Ratio (HR)|0.94||||0.88|TWO_SIDED|95.0|0.42|2.11||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|"Analysis of data for Time to relief - gastrointestinal symptoms"||2.11|0.42|0.880
92202329|NCT05576662|184302496|OTHER||Hazard Ratio (HR)|0.74||||0.33|TWO_SIDED|95.0|0.4|1.38||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|||1.38|0.40|0.33
92327066|NCT02484651|184559160|SUPERIORITY|||||||0.419|||||||Fisher Exact|||The null hypothesis was that PQRS overall recovery at 15 minutes was independent from the study group.||||0.419
92202330|NCT05576662|184302497|OTHER||Mean Difference (Net)|0.57||||0.66|TWO_SIDED|95.0|-1.96|3.1||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors placebo plus ritonavir; a mean difference \> 0 favors nirmatrelvir plus ritonavir.|||3.10|-1.96|.66
92202331|NCT05576662|184302498|OTHER||Mean Difference (Net)|0.38||||0.79|TWO_SIDED|95.0|-2.4|3.15||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|||3.15|-2.40|0.79
92202332|NCT05576662|184302499|OTHER||Mean Difference (Net)|0.6||||0.7|TWO_SIDED|95.0|-2.55|3.75||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|||3.75|-2.55|.70
92202333|NCT05576662|184302500|OTHER||Mean Difference (Net)|0.03||||0.98|TWO_SIDED|95.0|-3.21|3.28||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors placebo plus ritonavir; a mean difference \> 0 favors nirmatrelvir plus ritonavir.|||3.28|-3.21|.98
92202334|NCT05576662|184302501|OTHER||Mean Difference (Net)|1.73||||0.555|TWO_SIDED|95.0|-4.06|7.53||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of data for change of systolic blood pressure||7.53|-4.06|0.555
92202335|NCT05576662|184302501|OTHER||Mean Difference (Net)|-0.68||||0.764|TWO_SIDED|95.0|-5.15|3.79||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of data for change of diastolic blood pressure||3.79|-5.15|0.764
92202336|NCT05576662|184302502|OTHER||Mean Difference (Net)|-0.51||||0.856|TWO_SIDED|95.0|-6.15|5.12||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|||5.12|-6.15|0.856
92202337|NCT05576662|184302503|OTHER||Mean Difference (Net)|-0.41||||0.833|TWO_SIDED|95.0|-4.24|3.42||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors placebo plus ritonavir; a mean difference \> 0 favors nirmatrelvir plus ritonavir.|||3.42|-4.24|0.833
92202338|NCT05576662|184302504|OTHER||Mean Difference (Final Values)|0.32||||0.096|TWO_SIDED|95.0|-0.06|0.7||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of day 15 data||0.70|-0.06|0.096
92202339|NCT05576662|184302504|OTHER||Mean Difference (Final Values)|0.22||||0.293|TWO_SIDED|95.0|-0.2|0.64||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 5 data||0.64|-0.20|0.293
92202340|NCT05576662|184302504|OTHER||Mean Difference (Final Values)|0.19||||0.396|TWO_SIDED|95.0|-0.25|0.62||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 10 data||0.62|-0.25|0.396
92202341|NCT05576662|184302504|OTHER||Mean Difference (Final Values)|0.37||||0.064|TWO_SIDED|95.0|-0.02|0.77||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 15 data||0.77|-0.02|0.064
92202342|NCT05576662|184302505|OTHER||Mean Difference (Final Values)|0.19||||0.444|TWO_SIDED|95.0|-0.3|0.67||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of day 15 data||0.67|-0.30|0.444
92202343|NCT05576662|184302505|OTHER||Mean Difference (Final Values)|-0.25||||0.346|TWO_SIDED|95.0|-0.78|0.28||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 5 data||0.28|-0.78|0.346
92202344|NCT05576662|184302505|OTHER||Mean Difference (Final Values)|0.1||||0.738|TWO_SIDED|95.0|-0.48|0.67||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 10 data||0.67|-0.48|0.738
92202345|NCT05576662|184302505|OTHER||Mean Difference (Final Values)|0.17||||0.578|TWO_SIDED|95.0|-0.43|0.76||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 15 data||0.76|-0.43|0.578
92202346|NCT05576662|184302506|OTHER||Mean Difference (Final Values)|-0.19||||0.758|TWO_SIDED|95.0|-1.41|1.03||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 5 data||1.03|-1.41|0.758
92327067|NCT02484651|184559160|SUPERIORITY|||||||0.107|||||||Fisher Exact|||The null hypothesis was that PQRS overall recovery at 40 minutes was independent from the study group.||||0.107
92202347|NCT05576662|184302506|OTHER||Mean Difference (Final Values)|-0.24||||0.693|TWO_SIDED|95.0|-1.46|0.97||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 10 data||0.97|-1.46|0.693
92202348|NCT05576662|184302506|OTHER||Mean Difference (Final Values)|0.37||||0.558|TWO_SIDED|95.0|-0.87|1.61||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 15 data||1.61|-0.87|0.558
92202349|NCT05576662|184302507|OTHER||Odds Ratio (OR)|0.55||||0.02|TWO_SIDED|95.0|0.33|0.92||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of fatigue data||0.92|0.33|0.02
92202350|NCT05576662|184302507|OTHER||Odds Ratio (OR)|0.5||||0.01|TWO_SIDED|95.0|0.31|0.82||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of brain fog data||0.82|0.31|0.01
92202351|NCT05576662|184302507|OTHER||Odds Ratio (OR)|1.32||||0.34|TWO_SIDED|95.0|0.74|2.33||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of body aches data||2.33|0.74|0.34
92202352|NCT05576662|184302507|OTHER||Odds Ratio (OR)|1.37||||0.29|TWO_SIDED|95.0|0.76|2.48||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of cardiovascular symptoms data||2.48|0.76|0.29
92202353|NCT05576662|184302507|OTHER||Odds Ratio (OR)|1.32||||0.35|TWO_SIDED|95.0|0.73|2.38||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of shortness of breath data||2.38|0.73|0.35
92202354|NCT05576662|184302507|OTHER||Odds Ratio (OR)|1.4||||0.25|TWO_SIDED|95.0|0.79|2.47||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of gastrointestinal symptoms data||2.47|0.79|0.25
92202355|NCT03008005|184302522|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||< 0.05
92202356|NCT03008005|184302523|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||< 0.05
92202357|NCT05292586|184302524|SUPERIORITY||Adjusted mean difference|0.104|||<|0.001|TWO_SIDED|95.0|0.061|0.148|||ANCOVA|||"1\_Change from baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.148|0.061|<0.001
92202358|NCT05292586|184302525|SUPERIORITY||Adjusted mean difference|0.124|||<|0.001|TWO_SIDED|95.0|0.076|0.173|||ANCOVA|||"1\_Change from baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.173|0.076|<0.001
92202359|NCT05292586|184302526|SUPERIORITY||Adjusted mean difference|0.101|||<|0.001|TWO_SIDED|95.0|0.063|0.139|||ANCOVA|||"1\_Change from baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.139|0.063|<0.001
92202360|NCT05292586|184302527|SUPERIORITY||Adjusted mean difference|0.113|||<|0.001|TWO_SIDED|95.0|0.071|0.154|||ANCOVA|||"1\_Change from baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.154|0.071|<0.001
92202361|NCT05292586|184302528|SUPERIORITY||Adjusted mean difference|0.069||||0.003|TWO_SIDED|95.0|0.023|0.115|||ANCOVA|||"1\_Change from baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.115|0.023|0.003
92202362|NCT05292586|184302529|SUPERIORITY||Adjusted mean difference|0.044||||0.05|TWO_SIDED|95.0|0.0|0.088|||ANCOVA|||"1\_Change from baseline -- Week 4~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.088|0.000|0.050
92202363|NCT05292586|184302529|SUPERIORITY||Adjusted mean difference|0.041||||0.098|TWO_SIDED|95.0|-0.007|0.089|||ANCOVA|||"2\_Change from baseline -- Week 8~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.089|-0.007|0.098
92327068|NCT02484651|184559161|SUPERIORITY|||||||0.669|||||||Chi-squared|||The null hypothesis was that PQRS satisfaction with anesthetic care was independent of the study group.||||0.669
92202364|NCT05292586|184302529|SUPERIORITY||Adjusted mean difference|0.043||||0.056|TWO_SIDED|95.0|-0.001|0.086|||ANCOVA|||"3\_Change from baseline -- Week 12~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.086|-0.001|0.056
92202365|NCT05292586|184302530|SUPERIORITY||Odds Ratio (OR)|1.327||||0.098|TWO_SIDED|95.0|0.949|1.855|||Logistic regression model|||1\_Responders at Week 4||1.855|0.949|0.098
92202366|NCT05292586|184302530|SUPERIORITY||Odds Ratio (OR)|1.262||||0.18|TWO_SIDED|95.0|0.898|1.772|||Logistic regression model|||2\_Responders at Week 8||1.772|0.898|0.180
92202367|NCT05292586|184302530|SUPERIORITY||Odds Ratio (OR)|1.568||||0.009|TWO_SIDED|95.0|1.117|2.203|||Logistic regression model|||3\_Responders at Week 12||2.203|1.117|0.009
92202368|NCT05292586|184302531|SUPERIORITY||Odds Ratio (OR)|1.822|||<|0.001|TWO_SIDED|95.0|1.284|2.587|||Logistic regression model|||1\_Responders at Week 12||2.587|1.284|<0.001
92202369|NCT05292586|184302532|SUPERIORITY||Adjusted mean difference|8.78||||0.002|TWO_SIDED|95.0|3.3|14.27|||ANCOVA|||"1\_Change From Baseline; Week 0 -- Week 12~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||14.27|3.30|0.002
92202370|NCT05292586|184302533|SUPERIORITY||Adjusted mean difference|8.73||||0.002|TWO_SIDED|95.0|3.32|14.14|||ANCOVA|||"1\_Change From Baseline; Week 0 -- Week 12~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||14.14|3.32|0.002
92202371|NCT05292586|184302534|SUPERIORITY||Adjusted mean difference|-0.112||||0.026|TWO_SIDED|95.0|-0.211|-0.013|||ANCOVA|||"1\_Change From Baseline in ACQ-7 at Week 12~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||-0.013|-0.211|0.026
92202372|NCT05292586|184302534|SUPERIORITY||Adjusted mean difference|0.02||||0.686|TWO_SIDED|95.0|-0.077|0.118|||ANCOVA|||"2\_Change from baseline in ACQ-5 at Week 12~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.118|-0.077|0.686
92202373|NCT05292586|184302535|SUPERIORITY||Adjusted mean difference|3.82||||0.033|TWO_SIDED|95.0|0.31|7.33|||ANCOVA|||"1\_Change From Baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||7.330|0.310|0.033
92202374|NCT05292586|184302536|SUPERIORITY||Adjusted mean difference|3.78||||0.078|TWO_SIDED|95.0|-0.425|7.985|||ANCOVA|||"1\_Change From Baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||7.985|-0.425|0.078
92202375|NCT00475228|184302537|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||||||0.05
92202376|NCT02367040|184302546|SUPERIORITY|PFS was evaluated with the stratified log-rank test. HR and 95% CI were based on stratified Cox Regression Model.|Hazard Ratio (HR)|0.52||||2e-06|TWO_SIDED|95.0|0.393|0.688||1-sided p-value|Log Rank|||At primary completion date||0.688|0.393|0.000002
92202377|NCT02367040|184302546|SUPERIORITY|PFS was evaluated with the stratified log-rank test. HR and 95% CI were based on stratified Cox Regression Model.|Hazard Ratio (HR)|0.557||||3e-06|TWO_SIDED|95.0|0.431|0.722||1-sided p-value|Log Rank|||At 2-year follow-up cut-off date||0.722|0.431|0.000003
92202378|NCT02367040|184302546|SUPERIORITY|PFS was evaluated with the stratified log-rank test. HR and 95% CI were based on stratified Cox Regression Model.|Hazard Ratio (HR)|0.643||||0.000199|TWO_SIDED|95.0|0.502|0.823||1-sided p-value|Log Rank|||At final analysis||0.823|0.502|0.000199
92202379|NCT02367040|184302547|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in ORR|32.99|||<|1e-06|TWO_SIDED|95.0|23.95|42.03||1-sided p-value|Cochran-Mantel-Haenszel|||At primary completion date||42.03|23.95|<0.000001
92202380|NCT02367040|184302547|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in ORR|30.67|||<|1e-06|TWO_SIDED|95.0|21.63|39.72||1-sided p-value|Cochran-Mantel-Haenszel|||At 2-year follow-up cut-off date||39.72|21.63|<0.000001
92202381|NCT02367040|184302548|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in CRR|19.27|||<|1e-06|TWO_SIDED|95.0|11.57|26.96||1-sided p-value|Cochran-Mantel-Haenszel|||At primary completion date||26.96|11.57|<0.000001
92202382|NCT02367040|184302548|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in CRR|18.92||||1e-06|TWO_SIDED|95.0|11.11|26.73||1-sided p-value|Cochran-Mantel-Haenszel|||At 2-year follow-up cut-off date||26.73|11.11|0.000001
92202383|NCT02367040|184302549|SUPERIORITY|DOR was evaluated with the stratified log-rank test. HR and 95% CI were based on stratified Cox Regression Model.|Kaplan-Meier estimates|0.7||||0.030371|TWO_SIDED|95.0|0.481|1.018||1-sided p-value|Log Rank|||At primary completion date||1.018|0.481|0.030371
92202384|NCT02367040|184302549|SUPERIORITY|DOR was evaluated with the stratified log-rank test. HR and 95% CI were based on stratified Cox Regression Model.|Hazard Ratio (HR)|0.761||||0.051976|TWO_SIDED|95.0|0.547|1.059||1-sided p-value|Log Rank|||At 2-year follow-up cut-off date||1.059|0.547|0.051976
92202385|NCT02367040|184302550|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in DCR|4.43||||0.097339|TWO_SIDED|95.0|-2.26|11.12||1-sided p-value|Cochran-Mantel-Haenszel|||At primary completion date||11.12|-2.26|0.097339
92202386|NCT02367040|184302550|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in DCR|4.43||||0.097339|TWO_SIDED|95.0|-2.26|11.12||1-sided p-value|Cochran-Mantel-Haenszel|||At 2-year follow-up cut-off date||11.12|-2.26|0.097339
92202387|NCT02367040|184302551|SUPERIORITY|TTP was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|0.476|||<|1e-06|TWO_SIDED|95.0|0.357|0.635||1-sided p-value|Log Rank|||At primary completion date||0.635|0.357|<.000001
92202388|NCT02367040|184302551|SUPERIORITY|TTP was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|0.505|||<|1e-06|TWO_SIDED|95.0|0.387|0.659||1-sided p-value|Log Rank|||At 2-year follow-up cut-off date||0.659|0.387|<.000001
92202389|NCT02367040|184302552|SUPERIORITY|OS was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|0.972||||0.436458|TWO_SIDED|95.0|0.691|1.368||1-sided p-value|Log Rank|||||1.368|0.691|0.436458
92202390|NCT02367040|184302553|SUPERIORITY|Time to deterioration in DRS-P was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|1.06||||0.69261|TWO_SIDED|95.0|0.843|1.331||1-sided p-value|Log Rank|||At primary completion date||1.331|0.843|0.692610
92202391|NCT02367040|184302553|SUPERIORITY|Time to deterioration in DRS-P was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|1.047||||0.661145|TWO_SIDED|95.0|0.841|1.302||1-sided p-value|Log Rank|||At 2-year follow-up cut-off date||1.302|0.841|0.661145
92202392|NCT02367040|184302554|SUPERIORITY|Time to improvement in DRS-P was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|0.996||||0.510038|TWO_SIDED|95.0|0.732|1.355||1-sided p-value|Log Rank|||At primary completion date||1.355|0.732|0.510038
92202393|NCT02367040|184302554|SUPERIORITY|Time to improvement in DRS-P was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|1.036||||0.40597|TWO_SIDED|95.0|0.768|1.398||1-sided p-value|Log Rank|||At 2-year follow-up cut-off date||1.398|0.768|0.405970
92202394|NCT02477618|184302558|SUPERIORITY||Odds Ratio (OR)|1.056||||0.878|TWO_SIDED|95.0|0.527|2.118|||Regression, Logistic|||||2.118|0.527|0.878
92202395|NCT02477618|184302559|SUPERIORITY||Hazard Ratio (HR)|0.747||||0.636|TWO_SIDED|95.0|0.222|2.507|||Regression, Cox|||||2.507|0.222|0.636
92202396|NCT02477618|184302560|SUPERIORITY||Odds Ratio (OR)|0.623||||0.199|TWO_SIDED|95.0|0.303|1.282|||Regression, Logistic|||||1.282|0.303|0.199
92202397|NCT02477618|184302561|SUPERIORITY||Hazard Ratio (HR)|0.683||||0.328|TWO_SIDED|95.0|0.318|1.466|||Regression, Cox|||||1.466|0.318|0.328
92202398|NCT02477618|184302563|SUPERIORITY||Hazard Ratio (HR)|0.583||||0.339|TWO_SIDED|95.0|0.193|1.763|||Regression, Cox|||||1.763|0.193|0.339
92202399|NCT02477618|184302564|SUPERIORITY||Hazard Ratio (HR)|1.086||||0.817|TWO_SIDED|95.0|0.539|2.189|||Regression, Cox|||||2.189|0.539|0.817
92202400|NCT02477618|184302565|SUPERIORITY||LS Mean Difference|-0.2||||0.567|TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|||||0.5|-0.9|0.567
92202401|NCT07025837|184302589|SUPERIORITY||||||>|0.9999||||||Week 2 compared to the baseline.|ANOVA|||||||>0.9999
92202402|NCT07025837|184302589|SUPERIORITY||||||>|0.9999||||||Week 4 compared to baseline.|ANOVA|||||||>0.9999
92202403|NCT07025837|184302589|SUPERIORITY|||||||0.6342||||||Week 6 compared to baseline.|ANOVA|||||||0.6342
92202404|NCT07025837|184302589|SUPERIORITY|||||||0.0231||||||Week 8 compared to baseline.|ANOVA|||||||0.0231
92202405|NCT07025837|184302589|SUPERIORITY|||||||0.0862||||||Week 10 compared to baseline.|ANOVA|||||||0.0862
92202406|NCT07025837|184302589|SUPERIORITY|||||||0.0033||||||Week 12 compared to baseline.|ANOVA|||||||0.0033
92202407|NCT07025837|184302590|SUPERIORITY|||||||0.1176||||||Week 2 compared to baseline|ANOVA|||||||0.1176
92202408|NCT07025837|184302590|SUPERIORITY|||||||0.003||||||Week 4 compared to baseline.|ANOVA|||||||0.0030
92202409|NCT07025837|184302590|SUPERIORITY|||||||0.0001||||||Week 6 compared to baseline.|ANOVA|||||||0.0001
92202410|NCT07025837|184302590|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
92202411|NCT07025837|184302590|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202412|NCT07025837|184302591|SUPERIORITY|||||||0.9751||||||Week 2 compared to baseline.|ANOVA|||||||0.9751
92202413|NCT07025837|184302591|SUPERIORITY|||||||0.0078||||||Week 4 compared to baseline.|ANOVA|||||||0.0078
92202414|NCT07025837|184302591|SUPERIORITY|||||||0.0003||||||Week 6 compared to baseline.|ANOVA|||||||0.0003
92202415|NCT07025837|184302591|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
92202416|NCT07025837|184302591|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202417|NCT07025837|184302591|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
92202418|NCT07025837|184302592|SUPERIORITY|||||||0.0544||||||Week 2 compared to baseline.|ANOVA|||||||0.0544
92202419|NCT07025837|184302592|SUPERIORITY|||||||0.0036||||||Week 4 compared to baseline.|ANOVA|||||||0.0036
92202420|NCT07025837|184302592|SUPERIORITY|||||||0.0001||||||Week 6 compared to baseline.|ANOVA|||||||0.0001
92202421|NCT07025837|184302592|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
92202422|NCT07025837|184302592|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202423|NCT07025837|184302592|SUPERIORITY||||||<|0.0001||||||Week 12 compared to Baseline|ANOVA|||||||<0.0001
92202424|NCT07025837|184302593|SUPERIORITY|||||||0.0001||||||Week 2 compared to baseline.|ANOVA|||||||0.0001
92202425|NCT07025837|184302593|SUPERIORITY||||||<|0.0001||||||Week 4 compared to baseline.|ANOVA|||||||<0.0001
92202426|NCT07025837|184302593|SUPERIORITY||||||<|0.0001||||||Week 6 compared to baseline.|ANOVA|||||||<0.0001
92202427|NCT07025837|184302593|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
92202428|NCT07025837|184302593|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202429|NCT07025837|184302593|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
92202430|NCT07025837|184302594|SUPERIORITY|||||||0.1438||||||Week 2 compared to baseline.|ANOVA|||||||0.1438
92202431|NCT07025837|184302594|SUPERIORITY|||||||0.0092||||||Week 4 compared to baseline.|ANOVA|||||||0.0092
92202432|NCT07025837|184302594|SUPERIORITY|||||||0.0003||||||Week 6 compared to baseline.|ANOVA|||||||0.0003
92202433|NCT07025837|184302594|SUPERIORITY|||||||0.0015||||||Week 8 compared to baseline.|ANOVA|||||||0.0015
92202434|NCT07025837|184302594|SUPERIORITY|||||||0.0001||||||Week 10 compared to baseline.|ANOVA|||||||0.0001
92202435|NCT07025837|184302594|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
92202436|NCT07025837|184302595|SUPERIORITY|||||||0.0041||||||Week 2 compared to baseline.|ANOVA|||||||0.0041
92202437|NCT07025837|184302595|SUPERIORITY|||||||0.0001||||||Week 4 compared to baseline.|ANOVA|||||||0.0001
92202438|NCT07025837|184302595|SUPERIORITY||||||<|0.0001||||||Week 6 compared to baseline.|ANOVA|||||||<0.0001
92202439|NCT07025837|184302595|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
92202440|NCT07025837|184302595|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202441|NCT07025837|184302595|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
92202442|NCT07025837|184302596|SUPERIORITY|||||||0.0249||||||Week 2 compared to baseline.|ANOVA|||||||0.0249
92202443|NCT07025837|184302596|SUPERIORITY||||||<|0.0001||||||Week 4 compared to baseline.|ANOVA|||||||<0.0001
92202444|NCT07025837|184302596|SUPERIORITY||||||<|0.0001||||||Week 6 compared to baseline.|ANOVA|||||||<0.0001
92202445|NCT07025837|184302596|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
92202446|NCT07025837|184302596|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202447|NCT07025837|184302596|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
92202448|NCT07025837|184302597|SUPERIORITY||||||>|0.9999||||||Week 2 compared to baseline.|ANOVA|||||||>0.9999
92202449|NCT07025837|184302597|SUPERIORITY|||||||0.7453||||||Week 4 compared to baseline|ANOVA|||||||0.7453
92202450|NCT07025837|184302597|SUPERIORITY|||||||0.2118||||||Week 6 compared to baseline.|ANOVA|||||||0.2118
92202451|NCT07025837|184302597|SUPERIORITY|||||||0.0111||||||Week 8 compared to baseline.|ANOVA|||||||0.0111
92202452|NCT07025837|184302597|SUPERIORITY|||||||0.015||||||Week 10 compared to baseline.|ANOVA|||||||0.0150
92202453|NCT07025837|184302597|SUPERIORITY|||||||0.0003||||||Week 12 compared to baseline.|ANOVA|||||||0.0003
92202454|NCT07025837|184302598|SUPERIORITY|||||||0.0199||||||Week 2 compared to baseline.|ANOVA|||||||0.0199
92202455|NCT07025837|184302598|SUPERIORITY||||||<|0.0001||||||Week 4 compared to baseline.|ANOVA|||||||<0.0001
92202456|NCT07025837|184302598|SUPERIORITY||||||<|0.0001||||||Week 6 compared to baseline.|ANOVA|||||||<0.0001
92202457|NCT07025837|184302598|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
92202458|NCT07025837|184302598|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline|ANOVA|||||||<0.0001
92202459|NCT07025837|184302598|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
92202460|NCT07025837|184302599|SUPERIORITY|||||||0.4438||||||Week 2 compared to baseline.|ANOVA|||||||0.4438
92202461|NCT07025837|184302599|SUPERIORITY|||||||0.0412||||||Week 4 compared to baseline.|ANOVA|||||||0.0412
92202462|NCT07025837|184302599|SUPERIORITY|||||||0.0943||||||Week 6 compared to baseline|ANOVA|||||||0.0943
92202463|NCT07025837|184302599|SUPERIORITY|||||||0.0017||||||Week 8 compared to baseline.|ANOVA|||||||0.0017
92202464|NCT07025837|184302599|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202465|NCT07025837|184302599|SUPERIORITY|||||||0.0007||||||Week 12 compared to baseline.|ANOVA|||||||0.0007
92202466|NCT07025837|184302600|SUPERIORITY|||||||0.6148||||||Week 2 compared to baseline.|ANOVA|||||||0.6148
92202467|NCT07025837|184302600|SUPERIORITY|||||||0.7953||||||Week 4 compared to baseline.|ANOVA|||||||0.7953
92202468|NCT07025837|184302600|SUPERIORITY|||||||0.0019||||||Week 6 compared to baseline.|ANOVA|||||||0.0019
92202469|NCT07025837|184302600|SUPERIORITY|||||||0.0008||||||Week 8 compared to baseline.|ANOVA|||||||0.0008
92202470|NCT07025837|184302600|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202471|NCT07025837|184302600|SUPERIORITY|||||||0.0002||||||Week 12 compared to baseline.|ANOVA|||||||0.0002
92202472|NCT07025837|184302601|SUPERIORITY|||||||0.0067||||||Week 2 compared to baseline.|ANOVA|||||||0.0067
92202473|NCT07025837|184302601|SUPERIORITY|||||||0.0055||||||Week 4 compared to baseline.|ANOVA|||||||0.0055
92202474|NCT07025837|184302601|SUPERIORITY||||||<|0.0001||||||Week 6 compared to baseline.|ANOVA|||||||<0.0001
92202475|NCT07025837|184302601|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
92202476|NCT07025837|184302601|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202477|NCT07025837|184302601|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
92202478|NCT07025837|184302602|SUPERIORITY|||||||0.1476||||||Week 2 compared to baseline.|ANOVA|||||||0.1476
92202479|NCT07025837|184302602|SUPERIORITY|||||||0.0106||||||Week 4 compared to baseline.|ANOVA|||||||0.0106
92202480|NCT07025837|184302602|SUPERIORITY|||||||0.0002||||||Week 6 compared to baseline.|ANOVA|||||||0.0002
92202481|NCT07025837|184302602|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline|ANOVA|||||||<0.0001
92202482|NCT07025837|184302602|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202483|NCT07025837|184302602|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
92202484|NCT07025837|184302603|SUPERIORITY|||||||0.3224||||||Week 2 compared to baseline.|ANOVA|||||||0.3224
92202485|NCT07025837|184302603|SUPERIORITY|||||||0.0426||||||Week 4 compared to baseline.|ANOVA|||||||0.0426
92202486|NCT07025837|184302603|SUPERIORITY|||||||0.0039||||||Week 6 compared to baseline.|ANOVA|||||||0.0039
92202487|NCT07025837|184302603|SUPERIORITY|||||||0.004||||||Week 8 compared to baseline.|ANOVA|||||||0.0040
92202488|NCT07025837|184302603|SUPERIORITY|||||||0.0013||||||Week 10 compared to baseline.|ANOVA|||||||0.0013
92202489|NCT07025837|184302603|SUPERIORITY|||||||0.0005||||||Week 12 compared to baseline.|ANOVA|||||||0.0005
92202490|NCT07025837|184302604|SUPERIORITY|||||||0.3032||||||Week 2 compared to baseline.|ANOVA|||||||0.3032
92202491|NCT07025837|184302604|SUPERIORITY|||||||0.0237||||||Week 4 compared to baseline.|ANOVA|||||||0.0237
92202492|NCT07025837|184302604|SUPERIORITY|||||||0.001||||||Week 6 compared to baseline.|ANOVA|||||||0.0010
92202493|NCT07025837|184302604|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
92202494|NCT07025837|184302604|SUPERIORITY|||||||0.0002||||||Week 10 compared to baseline.|ANOVA|||||||0.0002
92202495|NCT07025837|184302604|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
92202496|NCT07025837|184302605|SUPERIORITY||||||>|0.9999||||||Week 2 compared to baseline.|ANOVA|||||||>0.9999
92202497|NCT07025837|184302605|SUPERIORITY|||||||0.1147||||||Week 4 compared to baseline|ANOVA|||||||0.1147
92202498|NCT07025837|184302605|SUPERIORITY|||||||0.0016||||||Week 6 compared to baseline.|ANOVA|||||||0.0016
92202499|NCT07025837|184302605|SUPERIORITY|||||||0.0048||||||Week 8 compared to baseline.|ANOVA|||||||0.0048
92202500|NCT07025837|184302605|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202501|NCT07025837|184302605|SUPERIORITY|||||||0.0005||||||Week 12 compared to baseline.|ANOVA|||||||0.0005
92202502|NCT07025837|184302606|SUPERIORITY|||||||0.0461||||||Week 2 compared to baseline.|ANOVA|||||||0.0461
92202503|NCT07025837|184302606|SUPERIORITY|||||||0.002||||||Week 4 compared to baseline.|ANOVA|||||||0.002
92202504|NCT07025837|184302606|SUPERIORITY|||||||0.0002||||||Week 6 compared to baseline.|ANOVA|||||||0.0002
92202505|NCT07025837|184302606|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
92202506|NCT07025837|184302606|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
92202507|NCT07025837|184302606|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
92202508|NCT00515671|184302656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8868|TWO_SIDED||||||Mixed Models Analysis|||||||.8868
92202509|NCT00515671|184302657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3328|TWO_SIDED||||||Mixed Models Analysis|||||||.3328
92202510|NCT02683772|184302680|NON_INFERIORITY|The method proposed for this analysis was a one-sided paired t-test using a significance level of 0.05 and a non-inferiority margin of 2 events/hour|Mean Difference (Final Values)|-4.45|STANDARD_DEVIATION|17.23||0.0134|TWO_SIDED||||||t-test, 1 sided|||||||0.0134
92202511|NCT00225017|184302688|NON_INFERIORITY_OR_EQUIVALENCE|25 subjects per arm will have 80% power to detect a difference between groups in mean FMD change of 2.9%, and 90% power to detect a mean FMD change of 3.4%|Mean Difference (Net)|-0.384|STANDARD_DEVIATION|1.0||0.601|TWO_SIDED|95.0|-2.08|1.312|||Wilcoxon (Mann-Whitney)|||||1.312|-2.080|0.601
92202512|NCT00225017|184302689|SUPERIORITY_OR_OTHER||||||<|0.009||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.009
92202513|NCT00225017|184302690|SUPERIORITY_OR_OTHER|||||||0.141||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.141
92202514|NCT01712061|184302796|SUPERIORITY_OR_OTHER||Ratio of geometric mean changes|0.92|||||TWO_SIDED|95.0|0.75|1.09|||ANCOVA|Bayesian ANCOVA with covariates for baseline UACR and systolic blood pressure (SBP).||||1.09|0.75|
92202515|NCT00504777|184302818|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92202516|NCT00504777|184302821|SUPERIORITY_OR_OTHER|||||||0.0054|||||||t-test, 2 sided|||||||0.0054
92202517|NCT01572740|184302833|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-1.3|||<|0.0001||95.0|-1.47|-1.13|||ANCOVA|||||-1.13|-1.47|<0.0001
92202518|NCT01572740|184302834|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.81|||<|0.0001||95.0|-0.99|-0.63|||ANCOVA|||||-0.63|-0.99|<0.0001
92202519|NCT01572740|184302835|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.83|||<|0.0006||95.0|-1.3|-0.36|||ANCOVA|||||-0.36|-1.30|<0.0006
92202520|NCT01572740|184302836|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.26||||0.2511||95.0|-0.7|0.18|||ANCOVA|||||0.18|-0.70|0.2511
92202521|NCT01572740|184302837|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-1.87|||<|0.0001||95.0|-2.37|-1.38|||ANCOVA|||||-1.38|-2.37|<0.0001
92202522|NCT01572740|184302838|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-1.28|||<|0.0001||95.0|-1.73|-0.83|||ANCOVA|||||-0.83|-1.73|<0.0001
92202523|NCT01572740|184302839|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.73||||0.0023||95.0|-1.2|-0.26|||ANCOVA|||||-0.26|-1.20|0.0023
92202524|NCT01572740|184302840|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.39||||0.1787||95.0|-0.97|0.18|||ANCOVA|||||0.18|-0.97|0.1787
92202525|NCT01572740|184302841|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.14||||0.4806||95.0|-0.54|0.25|||ANCOVA|||||0.25|-0.54|0.4806
92202526|NCT01572740|184302842|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.35||||0.2074||95.0|-0.91|0.2|||ANCOVA|||||0.20|-0.91|0.2074
92202527|NCT01401153|184302845|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation based on parallel group design --\> revealed that 68 children are needed to detect a difference of 45ms in the mean reaction time between the groups, with α=.05 and a power of 0.8.||||||0.79|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||Power calculation had been performed.||||0.79
92202528|NCT01401153|184302846|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.07|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.07
92202529|NCT01401153|184302847|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.61|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.61
92202530|NCT01401153|184302848|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been perfomed based on this measure||||||0.03|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.03
92202531|NCT01401153|184302849|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.25|||||||Generalized linear models|The fixed statement considered treatment, test day and the interaction between treatment and test day||||||0.25
92202532|NCT01401153|184302850|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.7|||||||Generalized linear models|||||||0.70
92202533|NCT01401153|184302851|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.33|||||||Generalized linear models|||||||0.33
92202534|NCT01401153|184302852|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.63|||||||Generalized linear models|||||||0.63
92202535|NCT01401153|184302853|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.62|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.62
92202536|NCT01401153|184302854|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.11|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.11
92202537|NCT01401153|184302855|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.45|||||||t-test, 2 sided|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.45
92202538|NCT01401153|184302856|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.13|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.13
92202539|NCT01401153|184302857|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.68|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.68
92202540|NCT01401153|184302858|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.67|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.67
92202541|NCT00672737|184302931|SUPERIORITY_OR_OTHER||Slope|0.0025|||<|0.05|TWO_SIDED|95.0|0.0009|0.0041|||Regression, Linear|Adjusted for body mass index, age of the volunteers, and a binary variable indicating the type (home-based vs. in-laboratory).|Mixed linear regression|Beta for IGFBP-1: for every 1-pg/mL increase in its serum level the cold pain threshold will additionally increase by 0.0025 seconds for every 1-mcg/mL increase in the plasma level of remifentanil.||0.0041|0.0009|<0.05
92202542|NCT00672737|184302931|SUPERIORITY_OR_OTHER||Slope|-0.9694||||0.05|TWO_SIDED|95.0|-1.9127|-0.0261|||Regression, Linear|Adjusted for body mass index, age of the volunteers, and a binary variable indicating the type (home-based vs. in-laboratory).|Mixed linear regression|Beta for SaO2: for every 1-%-absolute decrease in the nadir SaO2 the cold pain threshold will additionally increase by 0.9694 seconds for every 1-mcg/mL increase in the plasma level of remifentanil.||-0.0261|-1.9127|0.05
92202543|NCT00672737|184302932|SUPERIORITY_OR_OTHER||Slope|-0.0001|||<|0.05|TWO_SIDED|95.0|-0.0001|-0.0001|||Regression, Linear|Adjusted for body mass index, age of the volunteers, and a binary variable indicating the type (home-based vs. in-laboratory).|Mixed linear regression|Beta for IGFBP-1: for every 1-pg/mL increase in its serum level, the heat pain threshold will additionally decrease by 0.0001 'C for every 1-mcg/mL increase in the plasma level of remifentanil.||-0.0001|-0.0001|<0.05
92202544|NCT00672737|184302932|SUPERIORITY_OR_OTHER||Slope|-0.0172|||<|0.05|TWO_SIDED|95.0|-0.018|0.0556|||Regression, Linear|Adjusted for body mass index, age of the volunteers, and a binary variable indicating the type (home-based vs. in-laboratory).|Mixed linear regression|Beta for SaO2: for every 1-%-absolute decrease in the nadir SaO2, the heat pain threshold will additionally increase by 0.0172 'C for every 1-mcg/mL increase in the plasma level of remifentanil.||0.0556|-0.018|<0.05
92202545|NCT02193490|184302951|OTHER|||||||0.001|||||||Kruskal-Wallis|||||||0.001
92202546|NCT02193490|184302952|OTHER|||||||0.078|||||||Kruskal-Wallis|||||||0.078
92202547|NCT02193490|184302953|OTHER||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
92202548|NCT02299414|184302958|SUPERIORITY||Risk Ratio (RR)|0.82|||<|0.001|TWO_SIDED|95.0|0.73|0.92|||Chi-squared|||||.92|.73|<0.001
92202549|NCT02299414|184302958|SUPERIORITY||Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.7|0.9||||||||.90|.70|
92202550|NCT02299414|184302958|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.6|0.89||||||||.89|.60|
92202551|NCT02299414|184302958|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.49|1.64||||||||1.64|.49|
92202552|NCT02299414|184302958|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.54|1.21||||||||1.21|.54|
92202553|NCT02299414|184302959|SUPERIORITY||Risk Ratio (RR)|1.07||||0.56|TWO_SIDED|95.0|0.85|1.36|||Chi-squared|||||1.36|0.85|0.56
92202554|NCT02299414|184302960|SUPERIORITY||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.45|1.26||||||||1.26|.45|
92202555|NCT02299414|184302961|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.77|0.91||||||||0.91|0.77|
92202556|NCT02299414|184302962|SUPERIORITY||Risk Ratio (RR)|0.87|||||TWO_SIDED|95.0|0.77|0.99||||||||.99|.77|
92202557|NCT02299414|184302963|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.45|1.3||||||||1.3|.45|
92202558|NCT02299414|184302964|SUPERIORITY||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.98|1.18||||||||1.18|.98|
92202559|NCT02299414|184302965|SUPERIORITY||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.69|0.89||||||||.89|.69|
92202560|NCT02299414|184302966|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.68|1.04||||||||1.04|0.68|
92202561|NCT02299414|184302967|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.74|0.9||||||||.90|.74|
92202562|NCT02299414|184302968|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.93|1.1||||||||1.10|.93|
92202563|NCT02299414|184302969|SUPERIORITY||Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.59|1.27||||||||1.27|.59|
92202564|NCT02299414|184302970|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.81|1.02||||||||1.02|.81|
92202565|NCT02299414|184302971|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.71|0.97||||||||.97|.71|
92202566|NCT02299414|184302972|SUPERIORITY||Mean Difference (Final Values)|0.16|||||TWO_SIDED|95.0|-0.11|0.43||||||||0.43|-0.11|
92202567|NCT02299414|184302973|SUPERIORITY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|95.0|0.05|0.56||||||||0.56|0.05|
92202568|NCT02299414|184302974|SUPERIORITY||Mean Difference (Final Values)|1.7|||||TWO_SIDED|95.0|-17.6|20.9||||||||20.9|-17.6|
92202569|NCT02299414|184302975|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.81|1.17||||||||1.17|.81|
92202570|NCT02299414|184302976|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.55|1.42||||||||1.42|.55|
92202571|NCT02299414|184302977|SUPERIORITY||Risk Ratio (RR)|0.43|||||TWO_SIDED|95.0|0.18|1.05||||||||1.05|.18|
92202572|NCT02299414|184302978|SUPERIORITY||Risk Ratio (RR)|0.87|||||TWO_SIDED|95.0|0.71|1.06||||||||1.06|.71|
92202573|NCT02299414|184302979|SUPERIORITY||Risk Ratio (RR)|0.57|||||TWO_SIDED|95.0|0.24|1.35||||||||1.35|.24|
92202574|NCT02299414|184302980|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.85|1.12||||||||1.12|.85|
92202575|NCT02299414|184302981|SUPERIORITY||Risk Ratio (RR)|0.64|||||TWO_SIDED|95.0|0.3|1.37||||||||1.37|0.30|
92202576|NCT02299414|184302982|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.14|7.06||||||||7.06|.14|
92202577|NCT02299414|184302983|SUPERIORITY||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.81|1.08||||||||1.08|.81|
92202578|NCT02299414|184302984|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.62|1.16||||||||1.16|0.62|
92202579|NCT02299414|184302985|SUPERIORITY||Risk Ratio (RR)|0.61|||||TWO_SIDED|95.0|0.36|1.05||||||||1.05|.36|
92202580|NCT02299414|184302986|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.2|0.03||||||||0.03|-0.2|
92202581|NCT02299414|184302987|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.1|0.1||||||||0.1|-0.1|
92202582|NCT02299414|184302988|SUPERIORITY||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-0.12|0.002||||||||0.002|-0.12|
92202583|NCT02299414|184302989|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.02|0.04||||||||0.04|-0.02|
92202584|NCT02299414|184302990|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.9|1.06||||||||1.06|0.90|
92202585|NCT04954326|184303015|EQUIVALENCE|The 90% Confidence Interval of the geometric mean ratios of the Lyophilisate compared to the Liquid formulations for AUCinf should be completely contained within the predefined \[80.00%-125.00%\] equivalence interval.|Geometric Mean Ratio (%)|102.8||||0.05|TWO_SIDED|90.0|91.4|115.6|||ANOVA|||AUCinf was natural log-transformed and analyzed using an analysis of variance (ANOVA) with fixed effect for formulation. The two one-sided tests procedures were performed on the geometric mean ratio (GMR) between test (S95014 lyophilizate) and reference (S95014 liquid formulation) treatments. The 90% confidence interval for the ratio was obtained within the framework of the ANOVA.||115.6|91.4|0.05
92202586|NCT04954326|184303016|EQUIVALENCE|The 90% Confidence Interval of the geometric mean ratios of the Lyophilisate compared to the Liquid formulations for Cmax should be completely contained within the predefined \[80.00%-125.00%\] equivalence interval.|Geometric Mean Ratio (%)|93.5||||0.05|TWO_SIDED|90.0|82.9|105.5|||ANOVA|||Cmax was natural log-transformed and analyzed using an analysis of variance (ANOVA) with fixed effect for formulation. The two one-sided tests procedures were performed on the geometric mean ratio (GMR) between test (S95014 lyophilizate) and reference (S95014 liquid formulation) treatments. The 90% confidence interval for the ratio was obtained within the framework of the ANOVA.||105.5|82.9|0.05
92202587|NCT04954326|184303017|EQUIVALENCE|The 90% Confidence Interval of the geometric mean ratios of the Lyophilisate compared to the Liquid formulations for Cday14 should be completely contained within the predefined \[80.00%-125.00%\] equivalence interval.|Geometric Mean Ratio (%)|121.5||||0.05|TWO_SIDED|90.0|98.7|149.6|||ANOVA|||Cday14 was natural log-transformed and analyzed using an analysis of variance (ANOVA) with fixed effect for formulation. The two one-sided tests procedures were performed on the geometric mean ratio (GMR) between test (S95014 lyophilizate) and reference (S95014 liquid formulation) treatments. The 90% confidence interval for the ratio was obtained within the framework of the ANOVA.||149.6|98.7|0.05
92202588|NCT01310231|184303020|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.71|TWO_SIDED|95.0|0.63|2.31||One-sided p-value for group-effect obtained from Cox model. The prespecified threshold was 0.20 (one-sided).|Regression, Cox|Cox model for PFS with metf/plac and the two randomization stratification variables line of chemotherapy and hormone receptor status.|Ratio of hazard of progression in the Metformin group relative to hazard in the Placebo group|Power: Final study plan called for 40 progression events, giving 80% power to detect a hazard ratio (HR) of 0.58 for PFS with a one-sided type I error of 20%, where the relatively high type I error reflects the Phase II status of the trial||2.31|0.63|0.71
92202589|NCT01310231|184303021|SUPERIORITY||Odds Ratio (OR)|1.77||||0.41|TWO_SIDED|95.0|0.45|6.99||Two-side p-value from a logistic regression model.|Regression, Logistic|Logistic regression model included metf/plac and the two stratification variables line of chemotherapy and hormone receptor status.||||6.99|0.45|0.41
92202590|NCT01495598|184303031|OTHER|Other = Kaplan Meier||||||0.43|||||||Log Rank|||||||0.43
92202591|NCT01495598|184303041|OTHER|\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.19||||||The reported p-value is representative of the changes in levels of IFNƴ among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.19
92202592|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.72||||||The reported p-value is representative of the changes in levels of IFNƴ among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.72
92202593|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.03||||||The reported p-value is representative of the changes in levels of IFNƴ among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.03
92202594|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.|||||<|0.0001||||||The reported p-value is representative of the changes in levels of IL4 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||<0.0001
92202595|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.|||||<|0.0001||||||The reported p-value is representative of the changes in levels of IL4 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||<0.0001
92202596|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.|||||<|0.0001||||||The reported p-value is representative of the changes in levels of IL4 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||<0.0001
92202597|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.005||||||The reported p-value is representative of the changes in levels of IL6 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.005
92202598|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.06||||||The reported p-value is representative of the changes in levels of IL6 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.06
92202599|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.007||||||The reported p-value is representative of the changes in levels of IL6 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.007
92202600|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.0003||||||The reported p-value is representative of the changes in levels of IL8 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.0003
92202601|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.0002||||||The reported p-value is representative of the changes in levels of IL8 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.0002
92202602|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.01||||||The reported p-value is representative of the changes in levels of IL8 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.01
92202603|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.03||||||The reported p-value is representative of the changes in levels of IL6 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.03
92202604|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.91||||||The reported p-value is representative of the changes in levels of IL10 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.91
92202605|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.64||||||The reported p-value is representative of the changes in levels of IL10 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.64
92202606|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.7||||||The reported p-value is representative of the changes in levels of IL12 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.70
92202607|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.59||||||The reported p-value is representative of the changes in levels of IL12 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.59
92202608|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.26||||||The reported p-value is representative of the changes in levels of IL12 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.26
92202609|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.0008||||||The reported p-value is representative of the changes in levels of IL13 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.0008
92202610|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.|||||<|0.0001||||||The reported p-value is representative of the changes in levels of IL13 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||<0.0001
92202611|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.007||||||The reported p-value is representative of the changes in levels of IL13 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.007
92202612|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.005||||||The reported p-value is representative of the changes in levels of TNFα among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.005
92202613|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.007||||||The reported p-value is representative of the changes in levels of TNFα among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.007
92202614|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.007||||||The reported p-value is representative of the changes in levels of TNFα among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.007
92202615|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.42||||||The reported p-value is representative of the changes in levels of IP-10 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.42
92202616|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.85||||||The reported p-value is representative of the changes in levels of IP-10 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.85
92202617|NCT01495598|184303041|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.16||||||The reported p-value is representative of the changes in levels of IP-10 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.16
92202618|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.07||||||The reported p-value is representative of the changes in levels of CD4+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.07
92202619|NCT01495598|184303042|NON_INFERIORITY|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.13||||||The reported p-value is representative of the changes in levels of CD4+cells/µL among all participants.|Wilcoxon signed rank test|||||||0.13
92202620|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.15||||||The reported p-value is representative of the changes in levels of CD4+cells/µL among all participants.|Wilcoxon signed rank test|||||||0.15
92202621|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.03||||||The reported p-value is representative of the changes in levels of CD4+cells/µL among HIV+ participants.|Wilcoxon signed rank test|||||||0.03
92202622|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.06||||||The reported p-value is representative of the changes in levels of CD4+cells/µL among HIV+ participants.|Wilcoxon signed rank test|||||||0.06
92202623|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.79||||||The reported p-value is representative of the changes in levels of CD4+cells/µL among HIV+ participants.|Wilcoxon rank sum test|||||||0.79
92202624|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.03||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.03
92202625|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.008||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.008
92202626|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.12||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.12
92202627|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.02||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among HIV+ participants.|Wilcoxon signed rank test|||||||0.02
92202628|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.02||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among HIV+ participants.|Wilcoxon signed rank test|||||||0.02
92202629|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.36||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among HIV+ participants.|Wilcoxon signed rank test|||||||0.36
92202630|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.002||||||The reported p-value is representative of the changes in levels of CD19+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.002
92202631|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.0002||||||The reported p-value is representative of the changes in levels of CD19+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.0002
92202632|NCT01495598|184303042|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.|||||<|0.0001||||||The reported p-value is representative of the changes in levels of CD19+ cells/µL among all participants.|Wilcoxon signed rank test|||||||<0.0001
92202633|NCT01495598|184303043|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.13|||||||Wilcoxon signed rank test|||||||0.13
92202634|NCT01495598|184303043|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.65|||||||Wilcoxon signed rank test|||||||0.65
92202635|NCT01495598|184303043|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.32|||||||Wilcoxon signed rank test|||||||0.32
92202636|NCT01495598|184303043|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.06|||||||Wilcoxon signed rank test|||||||0.06
92202637|NCT01495598|184303043|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.007|||||||Wilcoxon signed rank test|||||||0.007
92202638|NCT01495598|184303044|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.56|||||||Wilcoxon signed rank test|||||||0.56
92202639|NCT01495598|184303044|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.65|||||||Wilcoxon signed rank test|||||||0.65
92202640|NCT01495598|184303044|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.56|||||||Wilcoxon signed rank test|||||||0.56
92202641|NCT05140915|184303071|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||||||.77
92202642|NCT02284009|184303146|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|0.0|0.24|||||Analysis was performed using a Bayesian model incorporating historical placebo data using a robust mixture prior. Values above are 95% credible intervals. Probability of treatment difference (Albiglutide - Placebo) \>= 0.2 nmol/L = 0.097.|||0.24|0.00|
92202643|NCT03841526|184303179|OTHER|Parameters that did not meet normality criterion were analyzed non-parametrically. Overall treatment effect was assessed using Friedman's test.||||||0.0002|||||||ANOVA|||The primary efficacy analysis was analyzed by analysis of variance (ANOVA) comparing the mean incidence rates among the 3 treatment groups in the Outpatient Phase. If the performed Friedman's test yielded an overall p-value less than 0.05, post-hoc analysis of groups means were conducted to statistically determine which group means differed.||||0.0002
92202644|NCT03841526|184303179|OTHER||||||<|0.0001|||||||Tukey Test/Kruskal-Wallis Test|Tukey Test (if the difference between 2 treatments was normally distributed) or Kruskal-Wallis Test (if not normally distributed).||If the overall treatment effect was significant, pairwise treatment comparisons were assessed using: If a difference between 2 treatments was normally distributed, the Tukey Test was used or if not normally distributed and the distribution was highly skewed, the sign test/Kruskal-Allis test was used.||||<0.0001
92202645|NCT03841526|184303179|OTHER|||||||0.0032|||||||Tukey Test/Kruskal-Wallis Test|Tukey Test (if the difference between 2 treatments was normally distributed) or Kruskal-Wallis Test (if not normally distributed).||If the overall treatment effect was significant, pairwise treatment comparisons were assessed using: If a difference between 2 treatments was normally distributed, the Tukey Test was used or if not normally distributed and the distribution was highly skewed, the sign test/Kruskal-Allis test was used.||||0.0032
92202646|NCT03841526|184303179|OTHER|||||||0.2072|||||||Tukey Test/Kruskal-Wallis Test|Tukey Test (if the difference between 2 treatments was normally distributed) or Kruskal-Wallis Test (if not normally distributed).||If the overall treatment effect was significant, pairwise treatment comparisons were assessed using: If a difference between 2 treatments was normally distributed, the Tukey Test was used or if not normally distributed and the distribution was highly skewed, the sign test/Kruskal-Allis test was used.||||0.2072
92202647|NCT03841526|184303182|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
92202648|NCT03841526|184303183|OTHER|||||||0.859|||||||Chi-squared|||||||0.8590
92202649|NCT03238963|184303205|OTHER||Risk Difference (RD)|0.057|STANDARD_ERROR_OF_MEAN|0.039|||TWO_SIDED|95.0|-0.053|0.192|||Chan and Zhang method|95% confidence interval was calculating using the Chan and Zhang method.|Risk difference of BI 1467335 10 milligram (mg) group minus Placebo group.|||0.192|-0.053|
92202650|NCT01424813|184303216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.128|<|0.0001|TWO_SIDED|95.0|0.57|1.08||Significance at the 0.05 level.|mixed-model repeated-measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.08|0.57|<0.0001
92202651|NCT01424813|184303217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07|STANDARD_ERROR_OF_MEAN|0.198|<|0.0001|TWO_SIDED|95.0|0.68|1.46||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.46|0.68|<0.0001
92202652|NCT01424813|184303232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73|STANDARD_ERROR_OF_MEAN|0.164|<|0.0001|TWO_SIDED|95.0|0.41|1.06||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.06|0.41|<0.0001
92202653|NCT01424813|184303233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.154|<|0.0001|TWO_SIDED|95.0|0.38|0.99||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||0.99|0.38|<0.0001
92202654|NCT01498887|184303240|SUPERIORITY_OR_OTHER|||||||0.3118|||||||Wilcoxon (Mann-Whitney)|||||||0.3118
92202655|NCT03079297|184303253|SUPERIORITY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|2.5||0.4128|TWO_SIDED|95.0|-3.56|7.56|||t-test, 2 sided|||||7.56|-3.56|0.4128
92202656|NCT03079297|184303254|SUPERIORITY|||||||0.4286|||||||Fisher Exact|||||||0.4286
92202657|NCT03079297|184303255|SUPERIORITY|||||||0.999|||||||Fisher Exact|||||||.999
92202658|NCT03079297|184303256|SUPERIORITY|||||||0.9932||||||P-value for Adverse effect burden 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.9932
92202659|NCT03079297|184303256|SUPERIORITY|||||||0.9932||||||P-value for Adverse effect burden 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.9932
92202660|NCT03079297|184303256|SUPERIORITY|||||||0.2242||||||P-value for Adverse effect burden 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.2242
92202661|NCT03079297|184303257|SUPERIORITY|||||||0.7282||||||P-value for General fatigue 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.7282
92202662|NCT03079297|184303257|SUPERIORITY|||||||0.8781||||||P-value for General fatigue 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.8781
92202663|NCT03079297|184303257|SUPERIORITY|||||||0.226||||||P-value for General fatigue 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.226
92202664|NCT03079297|184303257|SUPERIORITY|||||||0.2158||||||P-value for Mental fatigue 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.2158
92202665|NCT03079297|184303257|SUPERIORITY|||||||0.0081||||||P-value for Mental fatigue 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0081
92202666|NCT03079297|184303257|SUPERIORITY|||||||0.6768||||||P-value for Mental fatigue 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.6768
92202667|NCT03079297|184303257|SUPERIORITY|||||||0.0076||||||P-value for Physical fatigue 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0076
92202668|NCT03079297|184303257|SUPERIORITY|||||||0.0858||||||P-value for Physical fatigue 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0858
92202669|NCT03079297|184303257|SUPERIORITY|||||||0.2065||||||P-value for Physical fatigue 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.2065
92202670|NCT03079297|184303257|SUPERIORITY|||||||0.9712||||||P-value for Reduced motivation 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.9712
92202671|NCT03079297|184303257|SUPERIORITY|||||||0.7572||||||P-value for Reduced motivation 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.7572
92202672|NCT03079297|184303257|SUPERIORITY|||||||0.0588||||||P-value for Reduced motivation 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0588
92202673|NCT03079297|184303257|SUPERIORITY|||||||0.1857||||||P-value for Reduced activity 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.1857
92202674|NCT03079297|184303257|SUPERIORITY|||||||0.9225||||||P-value for Reduced activity 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.9225
92202675|NCT03079297|184303257|SUPERIORITY|||||||0.0414||||||P-value for Reduced activity 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0414
92202676|NCT03079297|184303258|SUPERIORITY|||||||0.4603||||||P-value for Psychosocial function 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.4603
92202677|NCT03079297|184303258|SUPERIORITY|||||||0.2521||||||P-value for Psychosocial function 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.2521
92202678|NCT03079297|184303258|SUPERIORITY|||||||0.6635||||||P-value for Psychosocial function 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.6635
92202679|NCT03079297|184303259|SUPERIORITY|||||||0.7839||||||P-value for Anhedonia 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.7839
92202680|NCT03079297|184303259|SUPERIORITY|||||||0.0248||||||P-value for Anhedonia function 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0248
92202681|NCT03079297|184303259|SUPERIORITY|||||||0.0199||||||P-value for Anhedonia 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0199
92202682|NCT02993406|184303262|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.004|TWO_SIDED|95.0|0.79|0.96|||Log Rank|||||0.96|0.79|0.004
92202683|NCT02993406|184303263|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0058|TWO_SIDED|95.0|0.76|0.96|||Log Rank|||||0.96|0.76|0.0058
92202684|NCT02993406|184303264|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0016|TWO_SIDED|95.0|0.66|0.91|||Log Rank|||||0.91|0.66|0.0016
92202685|NCT02993406|184303265|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0013|TWO_SIDED|95.0|0.72|0.92|||Log Rank|||||0.92|0.72|0.0013
92202686|NCT02993406|184303266|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1593|TWO_SIDED|95.0|0.67|1.07|||Log Rank|||||1.07|0.67|0.1593
92202687|NCT02993406|184303267|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.6227|TWO_SIDED|95.0|0.88|1.24|||Log Rank|||||1.24|0.88|0.6227
92202688|NCT02993406|184303268|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.6608|TWO_SIDED|95.0|0.9|1.18|||Log Rank|||||1.18|0.90|0.6608
92202689|NCT04325282|184303305|OTHER|||||||0.04||||||The a priori threshold for statistical significance was \<0.05.|Wilcoxon signed rank test|||Within-group analysis of change after active rTMS (post-rTMS compared to pre-rTMS).||||0.04
92202690|NCT04325282|184303305|OTHER|||||||0.46||||||The a priori threshold for statistical significance was \<0.05.|Wilcoxon signed rank test|||Within-group analysis of change after sham rTMS (post-rTMS compared to pre-rTMS).||||0.46
92202691|NCT04325282|184303305|OTHER|||||||0.12||||||The a priori threshold for statistical significance was \<0.05.|Wilcoxon signed rank test|||Between-group analysis of change induced by active rTMS versus sham rTMS||||0.12
92202692|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.|||||<|0.0001||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed-rank test|||Within-group analysis of change in cF-iT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||<0.0001
92202693|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.69||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-iT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.69
92202694|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.|||||<|0.0001||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cF-iT connectivity induced by active versus sham rTMS.||||<0.0001
92202695|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.|||||<|0.0001||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cM-iT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||<0.0001
92202696|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.43||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cM-iT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.43
92202697|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.|||||<|0.0001||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cM-iT connectivity induced by active versus sham rTMS.||||<0.0001
92202698|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.002||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.002
92202699|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.54||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cM connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.54
92202700|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.007||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iF-cM connectivity induced by active versus sham rTMS.||||0.007
92202701|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.002||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-iT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.002
92202702|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.32||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-iT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.32
92202703|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.01||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iF-iT connectivity induced by active versus sham rTMS.||||0.01
92202704|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.003||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cF connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.003
92202705|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.29||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cF connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.29
92202706|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.02||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iF-cF connectivity induced by active versus sham rTMS.||||0.02
92202707|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.003||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-cT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.003
92202708|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.66||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-cT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.66
92202709|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.008||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iM-cT connectivity induced by active versus sham rTMS.||||0.008
92202710|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.005||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.005
92202711|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.87||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.87
92202712|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.11||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iF-cT connectivity induced by active versus sham rTMS.||||0.11
92202713|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.012||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-iM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.012
92202714|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.46||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-iM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.46
92202715|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.02||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iF-iM connectivity induced by active versus sham rTMS.||||0.02
92202716|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.01||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iT-cT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.01
92202717|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.99||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iT-cT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.99
92202718|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.04||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iT-cT connectivity induced by active versus sham rTMS.||||0.04
92202719|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.01||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-cT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.01
92202720|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.31||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-cT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.31
92202721|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.05||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cF-cT connectivity induced by active versus sham rTMS.||||0.05
92202722|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.03|||||||Wilcoxon signed rank test|The threshold for statistical significance was p \< 0.0076.||Within-group analysis of change in cF-cM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.03
92202723|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.2||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-cM connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.20
92327069|NCT04972968|184559162|SUPERIORITY||Cox Proportional Hazard|0.49||||0.012|TWO_SIDED|95.0|0.273|0.878||P-value \<= 0.05|Log Rank|Stratified by baseline randomization stratification factors \[Glucocorticoid use at Baseline (\>= 10 mg/day; \< 10 mg/day prednisone equivalent)\].||||0.878|0.273|0.012
92327070|NCT04972968|184559162|SUPERIORITY||Cox Proportional Hazard|0.443||||0.004|TWO_SIDED|95.0|0.248|0.794||P-value \<= 0.01|Log Rank|Stratified by baseline randomization stratification factors \[Glucocorticoid use at Baseline (\>= 10 mg/day; \< 10 mg/day prednisone equivalent)\]||||0.794|0.248|0.004
92327071|NCT04972968|184559162|SUPERIORITY||Cox Proportional Hazard|0.198|||<|0.001|TWO_SIDED|95.0|0.094|0.419||P-value \<= 0.001|Log Rank|Stratified by baseline randomization stratification factors \[Glucocorticoid use at Baseline (\>= 10 mg/day; \< 10 mg/day prednisone equivalent)\]||||0.419|0.094|<0.001
92202724|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.04||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cF-cM connectivity induced by active versus sham rTMS.||||0.04
92202725|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.05||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-iM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.05
92202726|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.59||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-iM connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.59
92327072|NCT04972968|184559163|SUPERIORITY||Mean Difference (Net)|18.7||||0.107|TWO_SIDED|95.0|-4.0|41.4|||Cochran-Mantel-Haenszel||From Cochran-Mantel-Haenszel test adjusting for baseline randomization stratification factors \[Glucocorticoid (GC) use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone equivalent); Length of prior GC treatment for PMR (≤ 1 year; \> 1 year)\].|||41.4|-4.0|0.107
92327073|NCT04972968|184559163|SUPERIORITY||Mean Difference (Net)|18.9||||0.092|TWO_SIDED|95.0|-3.1|41.0||P-value ≤ 0.1|Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel test adjusting for baseline randomization stratification factors \[Glucocorticoid use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone equivalent); Length of prior GC treatment for PMR (≤ 1 year; \> 1 year)\].|||41.0|-3.1|0.092
92327074|NCT04972968|184559163|SUPERIORITY||Mean Difference (Net)|41.9|||<|0.001|TWO_SIDED|95.0|21.4|62.3||P-value ≤ 0.001|Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel test adjusting for baseline randomization stratification factors \[Glucocorticoid use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone equivalent); Length of prior GC treatment for PMR (≤ 1 year; \> 1 year)\].|||62.3|21.4|< 0.001
92327075|NCT04972968|184559164|SUPERIORITY||Mean Difference (Net)|-88.67||||0.144|TWO_SIDED|95.0|-208.04|30.71|||ANCOVA|P-value based on an Analysis of covariance (ANCOVA) model adjusting for baseline randomization stratification factors.|95% CI based on an Analysis of covariance (ANCOVA) model adjusting for baseline randomization stratification factors \[GC use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone equivalent);|||30.71|-208.04|0.144
92327076|NCT04972968|184559164|SUPERIORITY||Mean Difference (Net)|-164.76||||0.007|TWO_SIDED|95.0|-283.62|-45.89||P-value ≤ 0.01|ANCOVA||P-value and 95% CI are based on an Analysis of covariance (ANCOVA) model adjusting for baseline randomization stratification factors \[Glucocorticoid use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone\] equivalent);|||-45.89|-283.62|0.007
92327077|NCT04972968|184559164|SUPERIORITY||Mean Difference (Final Values)|-182.55||||0.003|TWO_SIDED|95.0|-300.52|-64.58||P-value ≤ 0.01|ANCOVA||P-value and 95% CI based on an Analysis of covariance (ANCOVA) model adjusting for baseline randomization stratification factors \[Glucocorticoid use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone equivalent)|||-64.58|-300.52|0.003
92327078|NCT04972968|184559165|SUPERIORITY||Mean Difference (Net)|-1.58||||0.039|TWO_SIDED|95.0|-3.08|-0.08||P-value \<= 0.05|ANCOVA|P-value based on ANCOVA adjusting for baseline randomization stratification factors (GC use at baseline)||||-0.08|-3.08|0.039
92327079|NCT04972968|184559165|SUPERIORITY||Mean Difference (Final Values)|-2.66|||<|0.001|TWO_SIDED|95.0|-4.15|-1.16||P-value \<= 0.001|ANCOVA|P-value based on an ANCOVA model adjusting for baseline randomization stratification factors (GC use at baseline)|95% CI based on an ANCOVA model adjusting for baseline randomization stratification factors (GC use at baseline)|||-1.16|-4.15|<0.001
92327080|NCT04972968|184559165|SUPERIORITY||Mean Difference (Final Values)|-3.0|||<|0.001|TWO_SIDED|95.0|-4.49|-1.52||P-value \<= 0.001|ANCOVA|P-value based on an ANCOVA model adjusting for baseline randomization stratification factors (GC use at baseline)|95% CI based on an ANCOVA model adjusting for baseline randomization stratification factors (GC use at baseline)|||-1.52|-4.49|<0.001
92327081|NCT03649178|184559178|OTHER|||||||0.55|||||||Mixed Models Analysis|||||||0.55
92327082|NCT03649178|184559179|OTHER|||||||0.76|||||||Mixed Models Analysis|||||||0.76
92202727|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.12||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cF-iM connectivity induced by active versus sham rTMS.||||0.12
92327083|NCT03649178|184559180|OTHER|||||||0.02|||||||Mixed Models Analysis|||||||0.02
92327084|NCT04120584|184559181|SUPERIORITY||Mean Difference (Final Values)|9.62|||<|0.001|TWO_SIDED|5.0|||||ANOVA|||||||<0.001
92327085|NCT04120584|184559182|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0|||||ANOVA|||||||<0.001
92327086|NCT03660475|184559194|SUPERIORITY|||||||0.967|||||||t-test, 2 sided|||||||0.967
92327087|NCT03660475|184559195|SUPERIORITY|||||||0.836|||||||t-test, 2 sided|||||||0.836
92327088|NCT03660475|184559196|SUPERIORITY|||||||0.166|||||||t-test, 2 sided|||||||0.166
92327089|NCT03660475|184559197|SUPERIORITY|||||||0.638|||||||t-test, 2 sided|||||||0.638
92327090|NCT03660475|184559198|SUPERIORITY|||||||0.122|||||||t-test, 2 sided|||||||0.122
92327091|NCT03660475|184559199|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.200
92327092|NCT03660475|184559200|SUPERIORITY|||||||0.085|||||||t-test, 2 sided|||||||0.085
92327093|NCT03660475|184559202|SUPERIORITY|||||||0.903|||||||t-test, 2 sided|||||||0.903
92327094|NCT03660475|184559203|SUPERIORITY|||||||0.898|||||||t-test, 2 sided|||||||0.898
92327095|NCT03660475|184559204|SUPERIORITY|||||||0.221|||||||t-test, 2 sided|||||||0.221
92327096|NCT03660475|184559205|SUPERIORITY|||||||0.459|||||||t-test, 2 sided|||||||0.459
92202728|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.1||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-iT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.10
92202729|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.57||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-iT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.57
92202730|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.06||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iM-iT connectivity induced by active versus sham rTMS.||||0.06
92202731|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.12||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cM-cT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.12
92202732|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.69||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cM-cT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.69
92202733|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.14||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cM-cT connectivity induced by active versus sham rTMS.||||0.14
92202734|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.12||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-cM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.12
92202735|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.6||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-cM connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.60
92202736|NCT04325282|184303306|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.04||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iM-cM connectivity induced by active versus sham rTMS.||||0.04
92202737|NCT02175641|184303374|OTHER|Generalized linear mixed-effects models with a logistic link|Odds Ratio (OR)|1.07|||>|0.05|TWO_SIDED|95.0|0.62|1.84|||Regression, Logistic|||||1.84|0.62|>0.05
92202738|NCT02175641|184303375|OTHER|Mixed effect models controlling for study site.|Time by treatment interaction coefficien|0.15|STANDARD_ERROR_OF_MEAN|0.59||0.804|TWO_SIDED||||||Mixed Models Analysis|||||||0.804
92202739|NCT02175641|184303376|OTHER||Time*treatment interaction coefficient|0.05|STANDARD_ERROR_OF_MEAN|0.09||0.91|TWO_SIDED||||||Mixed Models Analysis|||||||0.91
92202740|NCT02175641|184303377|OTHER|Mixed effect models controlling for study site.|time*treatment interaction coefficient|-0.34|STANDARD_ERROR_OF_MEAN|0.74||0.64|TWO_SIDED||||||Mixed Models Analysis|||||||0.64
92202741|NCT02175641|184303378|OTHER|Mixed effect models controlling for study site.|Time*treatment interaction coefficient|0.08|STANDARD_ERROR_OF_MEAN|0.09||0.38|TWO_SIDED||||||Mixed Models Analysis|||||||0.38
92202742|NCT02175641|184303379|OTHER|Mixed effect models controlling for study site.|Time*treatment interaction coefficient|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.39|TWO_SIDED||||||Mixed Models Analysis|||||||0.39
92202743|NCT02175641|184303380|OTHER|Mixed effect models controlling for study site.|Time*treatment interaction coefficient|0.23|STANDARD_ERROR_OF_MEAN|0.37||0.52|TWO_SIDED||||||Mixed Models Analysis|||||||0.52
92202744|NCT02175641|184303381|OTHER|Mixed effect models controlling for study site.|Time*treatment interaction coefficient|3.83|STANDARD_ERROR_OF_MEAN|3.28||0.24|TWO_SIDED||||||Mixed Models Analysis|||||||0.24
92202745|NCT03031496|184303404|EQUIVALENCE|Bioequivalence of hydrochlorothiazide and amiloride hydrochloride was determined.|Least square mean ratio|91.52|||||TWO_SIDED|90.0|87.77|95.43|||||Comparison of AUC (0-t) of hydrochlorothiazide for test and reference product has been presented.|||95.43|87.77|
92202746|NCT03031496|184303404|EQUIVALENCE|Bioequivalence of hydrochlorothiazide and amiloride hydrochloride was determined.|Least square mean ratio|102.42|||||TWO_SIDED|90.0|98.12|106.91|||||Comparison of AUC (0-t) of amiloride for test and reference product has been presented.|||106.91|98.12|
92202747|NCT03031496|184303405|EQUIVALENCE|Bioequivalence of hydrochlorothiazide and amiloride hydrochloride was determined.|Least square mean ratio|82.86|||||TWO_SIDED|90.0|77.37|88.74|||||Comparison of Cmax of hydrochlorothiazide for test and reference product has been presented.|||88.74|77.37|
92202748|NCT03031496|184303405|EQUIVALENCE|Bioequivalence of hydrochlorothiazide and amiloride hydrochloride was determined.|Least square mean ratio|103.92|||||TWO_SIDED|90.0|97.42|110.86|||||Comparison of Cmax of amiloride for test and reference product has been presented.|||110.86|97.42|
92202749|NCT03031496|184303406|EQUIVALENCE|Bioequivalence of hydrochlorothiazide and amiloride hydrochloride was determined.|Least square mean ratio|92.37|||||TWO_SIDED|90.0|88.75|96.12|||||Comparison of Tmax of hydrochlorothiazide for test and reference product has been presented.|||96.12|88.75|
92202750|NCT03031496|184303406|OTHER||Least square mean ratio|101.47|||||TWO_SIDED|90.0|97.84|105.23|||||Comparison of Tmax of amiloride for test and reference product has been presented.|||105.23|97.84|
92202751|NCT01399697|184303425|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||ANCOVA|||||||0.700
92202752|NCT01399697|184303426|SUPERIORITY_OR_OTHER|||||||0.328|TWO_SIDED||||||Chi-squared|||||||0.328
92202753|NCT01399697|184303427|SUPERIORITY_OR_OTHER|||||||0.518|TWO_SIDED||||||Chi-squared|||||||0.518
92202754|NCT01399697|184303428|SUPERIORITY_OR_OTHER|||||||0.358|TWO_SIDED||||||Chi-squared|||||||0.358
92202755|NCT01399697|184303429|SUPERIORITY_OR_OTHER||Difference in Least Square (LS) Mean|0.032||||0.674|TWO_SIDED|95.0|-0.119|0.184|||ANCOVA||Analysis of covariance (ANCOVA) model with treatment as factor and DAS28 value at Week 16 as covariate.|||0.184|-0.119|0.674
92202756|NCT01399697|184303430|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.873||||0.204|TWO_SIDED|95.0|-4.775|1.03|||ANCOVA||ANCOVA model with treatment as factor and mental component score (MCS) as covariate.|||1.030|-4.775|0.204
92202757|NCT01399697|184303431|SUPERIORITY_OR_OTHER||Difference in LS Mean|3.376||||0.015|TWO_SIDED|95.0|0.676|6.076|||ANCOVA||ANCOVA model with treatment as factor and physical component score (PCS) as covariate.|||6.076|0.676|0.015
92202758|NCT01399697|184303432|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.969||||0.769|TWO_SIDED|95.0|-5.526|7.464|||ANCOVA||ANCOVA model with treatment as factor and VAS performed by the participant at Week 16 as a covariate.|||7.464|-5.526|0.769
92202759|NCT01399697|184303433|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.216||||0.655|TWO_SIDED|95.0|-6.573|4.141|||ANCOVA||ANCOVA model with treatment as factor and VAS performed by the investigator at Week 16 as covariate.|||4.141|-6.573|0.655
92202760|NCT00392925|184303449|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANCOVA|||Based on an Analysis of Covariance model including factors for treatment group, sex, enrollment body mass index (BMI) category, lead-in body weight loss category, and baseline (Day 1) weight as a covariate. The p-value is for testing the null hypothesis of no difference between treatments. Analysis performed two-sided at a 5% significance level to compare treatment groups.||||0.0004
92202761|NCT04145700|184303477|SUPERIORITY||Posterior Mean Hazard Ratio|2.62||||0.051|TWO_SIDED|80.0|1.19|4.46|||Bayesian hierarchical model|||To conclude success for the intervention, the Bayesian analysis must yield a minimum of 99% posterior probability for PFS Hazard ratio less than 1 \[i.e., Pr(HR \< 1) \> 99%\]. The Bayesian analyses below include posterior mean of Hazard ratio, posterior probabilities instead of p-values, and credible intervals instead of confidence intervals.||4.46|1.19|0.051
92202762|NCT01840410|184303492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.94|STANDARD_ERROR_OF_MEAN|1.502|<|0.001|TWO_SIDED|95.0|6.97|12.91|||Mixed Models Analysis|||||12.91|6.97|<0.001
92202763|NCT02206061|184303509|OTHER|Repeated measure analyses testing the overall treatment effect were performed by fitting the Generalized Estimating Equation (GEE) with SFD at the three follow-up time points (3, 5, 7 months) as the dependent variable and treatment as independent variable. Normal error and identity link was specified and standard error was calculated using Sandwich estimator. Baseline SFDs, poverty level, and the presence of smokers in the home were controlled in the regression model.|Mean Difference (Net)|0.9|STANDARD_DEVIATION|2.6|<|0.05|TWO_SIDED||||||Regression, Linear|||||||<.05
92202764|NCT01077518|184303544|SUPERIORITY||Stratified Cox propor.hazards regression|0.82||||0.139|TWO_SIDED|95.0|0.62|1.07|||Stratified Log-Rank|||||1.07|0.62|0.1390
92202765|NCT01077518|184303545|OTHER||Stratified Cox propor.hazards regression|0.76||||0.1076|TWO_SIDED|95.0|0.55|1.06|||Stratified Log-Rank|||||1.06|0.55|0.1076
92202766|NCT01077518|184303546|OTHER|||||||0.8003|||||||Cochran-Mantel-Haenszel|adjusted for stratum||for All participants||||0.8003
92202767|NCT01077518|184303547|OTHER|||||||0.613|||||||Cochran-Mantel-Haenszel|adjusted for stratum||for Follicular Lymphoma (FL) participants||||0.6130
92202768|NCT01077518|184303548|OTHER||Hazard Ratio (HR)|0.87||||0.4046|TWO_SIDED|95.0|0.62|1.21|||Stratified Log Rank|||for All patients||1.21|0.62|0.4046
92202769|NCT01077518|184303549|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.3768|TWO_SIDED|95.0|0.55|1.25|||Stratified Log Rank|||for FL participants||1.25|0.55|0.3768
92202770|NCT04662060|184303580|OTHER||Hazard Ratio (HR)|0.6||||0.07|TWO_SIDED|95.0|0.34|1.04||A p-value of \<0.05 would be considered statistically significant.|Cox proportional hazards model|Two-sided Cox proportional hazards model adjusted for age, sex, and receipt of baseline receipt of monoclonal antibodies.||A two-sided log rank test at the 0.04999 level of significance for the final analysis required 78 events (i.e., sustained symptom resolution) to provide 80% power to detect a hazard ratio of 1.91. Based on previous outpatient COVID-19 trials at Stanford, assumed placebo and treatment arm median time to symptom resolution of 10 and 5 days, respectively, for a total sample size of 120 patients. Participants with missing data lasting through Day 28 were censored on Day 28.||1.04|0.34|0.07
92202771|NCT04662060|184303581|OTHER|||||||0.2||||||A p-value of \<0.05 would be considered statistically significant.|Linear mixed-effects regression model|||A generalized linear mixed effects model with parameterization was utilized to capture the difference in change in viral shedding at day 10 between treatment arms. SARS-CoV2 viral RNA CT values were transformed using a standard Reference curve.||||0.20
92202772|NCT04662060|184303583|OTHER||Hazard Ratio (HR)|0.62||||0.05|TWO_SIDED|95.0|0.38|1.01|||Linear mixed-effects regression model|||||1.01|0.38|0.05
92327097|NCT00794040|184559224|SUPERIORITY||Odds Ratio (OR)|11.7||||0.006|TWO_SIDED|95.0|2.0|68.16||priori threshold p\<0.05|Multilevel growth curve model|||||68.16|2.00|0.006
92202773|NCT04662060|184303584|OTHER||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.34|1.01||||||||1.01|0.34|
92202774|NCT04662060|184303585|OTHER|||||||0.21||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||Difference in incidence of ED visits||||0.21
92202775|NCT04157400|184303587|OTHER||||||<|0.01|||||||Kruskal-Wallis|||||||<0.01
92202776|NCT04157400|184303588|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92202777|NCT04157400|184303589|OTHER||||||||||||||||||Segments of EMG recorded during walking at self-selected walking speed were used to investigate complexity of muscle synergies using a nonnegative matrix factorization (NNMF) algorithm (MATLAB®, Mathworks, Natick, MA). The approach involves calculation of an mxt matrix of the original EMG data (EMG0), where m represents the number of muscles being measured and t represents a time base normalized to percentage of gait cycle. The algorithm also calculates two surrogate matrices, mxn and nxt, where n is the amplitude of muscle activation. The product of the surrogate matrices are considered a reconstruction of EMG (EMGr). EMGr for each module is then compared to EMG0 by finding the variability accounted for (VAF). A threshold necessary for module classification was chosen to be 90% for all conditions (8 muscles + 6 phases of gait) based on similar studies in the literature. Classifications were not increased unless the higher module VAF was at least 5% higher than the preceding module.|||
92202778|NCT03852719|184303593|OTHER||Difference in percentages|46.0|||<|0.0001|TWO_SIDED|96.0|30.5|61.4||Fisher's exact test was used for comparison of bulevirtide 10 mg versus Delayed Treatment using a significance level of 0.04 at Week 48.|Fisher Exact|||||61.4|30.5|<0.0001
92202779|NCT03852719|184303593|OTHER||Difference in percentages|42.9|||<|0.0001|TWO_SIDED|96.0|27.0|58.5||Fisher's exact test was used for comparison of bulevirtide 2 mg versus Delayed Treatment using a significance level of 0.04 at Week 48.|Fisher Exact|||||58.5|27.0|<0.0001
92202780|NCT03852719|184303594|OTHER||Difference in percentages|7.8||||0.4139|TWO_SIDED|96.0|-8.5|24.3||Fisher's exact test was used for the comparison of bulevirtide 10 mg versus bulevirtide 2 mg using a significance level of 0.04 at Week 48.|Fisher Exact|||||24.3|-8.5|0.4139
92202781|NCT03852719|184303595|OTHER||Difference in percentages|39.3|||<|0.0001|TWO_SIDED|95.0|20.0|55.8||Fisher's exact test was used for comparison of bulevirtide 2 mg versus Delayed treatment using a significance level of 0.05.|Fisher Exact|||||55.8|20.0|<0.0001
92202782|NCT03852719|184303595|OTHER||Difference in percentage|44.2|||<|0.0001|TWO_SIDED|95.0|25.8|59.9||Fisher's exact test was used for comparison of bulevirtide 10 mg versus Delayed treatment using a significance level of 0.05.|Fisher Exact|||||59.9|25.8|<0.0001
92202783|NCT03852719|184303596|OTHER||Difference in LS Mean|-4.02||||0.001|TWO_SIDED|95.0|-6.39|-1.65|||ANCOVA|||||-1.65|-6.39|0.0010
92202784|NCT03852719|184303596|OTHER||Difference in LS Mean|-3.93||||0.0009|TWO_SIDED|95.0|-6.23|-1.63|||ANCOVA|||||-1.63|-6.23|0.0009
92202785|NCT03852719|184303597|OTHER||Difference in Least Square (LS) Mean|0.57||||0.5156|TWO_SIDED|95.0|-1.16|2.3|||MMRM|||||2.30|-1.16|0.5156
92202786|NCT03852719|184303598|OTHER||Difference in Least Square (LS) Mean|-1.21||||0.2977|TWO_SIDED|95.0|-3.5|1.08|||MMRM|||||1.08|-3.50|0.2977
92202787|NCT03852719|184303599|SUPERIORITY||LS-Mean of Diffrence|-0.04||||0.9719|TWO_SIDED|95.0|-2.23|2.15||P-value was based on the mixed-effects model for repeated measurements (MMRM) model.|MMRM||Least squares (LS) means, standard errors (SE), 95% CIs and p-values were based on the mixed-effects model for repeated measurements (MMRM) model for change from baseline.|||2.15|-2.23|0.9719
92202788|NCT03852719|184303600|SUPERIORITY|P-value was based on the mixed-effects model for repeated measurements (MMRM) model.|LS-Mean of Difference|2.11||||0.2369|TWO_SIDED|95.0|-1.41|5.63|||MMRM||Least squares (LS) means, standard errors (SE), 95% CIs and p-values were based on the mixed-effects model for repeated measurements (MMRM) model for change from baseline.|||5.63|-1.41|0.2369
92202789|NCT03852719|184303601|SUPERIORITY||Response Rate Difference|7.6||||0.4695|TWO_SIDED|95.0|-9.6|24.4||P-value was based on Fisher's Exact Test.|Fisher Exact||For response rate difference, the 95% exact unconditional confidence interval (CI) based on the score statistic was presented.|||24.4|-9.6|0.4695
92202790|NCT03852719|184303601|SUPERIORITY||Response Rate Difference|-0.4||||1|TWO_SIDED|95.0|-16.3|15.5||P-value was based on Fisher's Exact Test.|Fisher Exact||For response rate difference, the 95% exact unconditional confidence interval (CI) based on the score statistic was presented|||15.5|-16.3|1.0000
92202791|NCT03852719|184303602|SUPERIORITY||Response Rate Difference|7.7||||0.4539|TWO_SIDED|95.0|-8.8|24.0||P-value was based on Fisher's Exact Test.|Fisher Exact||For response rate difference, the 95% exact unconditional confidence interval (CI) based on the score statistic was presented|||24.0|-8.8|0.4539
92202792|NCT03852719|184303602|SUPERIORITY||Response Rate Difference|-0.3||||1|TWO_SIDED|95.0|-15.6|15.5||P-value was based on Fisher's Exact Test.|Fisher Exact||For response rate difference, the 95% exact unconditional confidence interval (CI) based on the score statistic was presented.|||15.5|-15.6|1.0000
92202793|NCT04201262|184303604|OTHER||Hazard Ratio (HR)|0.014|||<|0.0001|TWO_SIDED|95.0|0.0|0.103|||Log Rank||HR based on a Cox proportional hazards model, with Firth's adjustment. Confidence interval (CI)= Wald CI or Profile Likelihood CI Limits. HR for ravulizumab compared with placebo presented a 98.6% reduction in risk of relapse, 95% CI (89.7%, 100.0%).|||0.103|0.000|< 0.0001
92202794|NCT04201262|184303606|OTHER|||||||0.0122||||||Proportional Odds p-value|Univariate models|||The test of proportional odds was determined from a score test. The proportional odds was evaluated in univariate models.||||0.0122
92327098|NCT00794040|184559225|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.085|TWO_SIDED|95.0|-1.32|0.09||priori threshold \<0.05|Multilevel growth curve model|||||0.09|-1.32|0.085
92202795|NCT02819024|184303619|OTHER|||||||0.087|||||||t-test, 2 sided|||||||0.087
92202796|NCT03548220|184303659|SUPERIORITY||||||<|0.0001||||||2-sided p-value|Exact Cochran-Mantel-Haenszel|||||||<0.0001
92202797|NCT03548220|184303660|SUPERIORITY||LS Mean Difference|18.21|||<|0.0001|TWO_SIDED|95.0|12.41|24.01|||Mixed-effect Model Repeated Measure||Standard error = 2.913|||24.01|12.41|<0.0001
92202798|NCT03548220|184303663|SUPERIORITY||LS Mean Difference|-26.26|||<|0.0001|TWO_SIDED|95.0|-37.82|-14.7|||Mixed-effect Model Repeated Measure||Standard error = 5.788|||-14.70|-37.82|<0.0001
92202799|NCT03548220|184303664|SUPERIORITY||LS Mean Difference|-70.81||||0.0027|TWO_SIDED|95.0|-115.88|-25.74|||Mixed-effect Model Repeated Measure||Standard error = 22.488|||-25.74|-115.88|0.0027
92202800|NCT03548220|184303665|SUPERIORITY||LS Mean Difference|0.158||||0.0079|TWO_SIDED|95.0|0.043|0.273|||Mixed-effect Model Repeated Measure||Standard error = 0.0578|||0.273|0.043|0.0079
92202801|NCT03548220|184303666|SUPERIORITY||LS Mean Difference|-0.1011|||<|0.0001|TWO_SIDED|95.0|-0.1391|-0.0632|||Mixed-effect Model Repeated Measure||Standard error = 0.01904|||-0.0632|-0.1391|<0.0001
92202802|NCT03548220|184303667|SUPERIORITY||LS Mean Difference|-3.11||||0.0247|TWO_SIDED|95.0|-5.8|-0.41|||Mixed-effect Model Repeated Measure||Standard error = 1.352|||-0.41|-5.80|0.0247
92202803|NCT03548220|184303668|SUPERIORITY||LS Mean Difference|-3.25||||0.0421|TWO_SIDED|95.0|-6.39|-0.12|||Mixed-effect Model Repeated Measure||Standard error = 1.574|||-0.12|-6.39|0.0421
92202804|NCT05718466|184303784|SUPERIORITY|||||||0.11|||||||Log Rank|||||||0.11
92202805|NCT05718466|184303785|SUPERIORITY|||||||0.001|||||||Log Rank|||||||0.001
92202806|NCT01882543|184303791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.061|TWO_SIDED|95.0|-2.1|0.0|||ANCOVA|||A sample size of 28 subjects per group had 80% power to detect a 1.5-point difference in the change from baseline pain score between AQX-1125 and placebo assuming a between-subject SD of 2.0 and a 2-sided 5% significance level. Average daily pain scores were calculated using an average of up to the last 7 recordings within 9 days before each visit. Missing data, including premature discontinuation, was imputed using the LOCF approach for the primary efficacy end point of average daily pain score||0.0|-2.1|0.061
92202807|NCT01882543|184303792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.03|TWO_SIDED|95.0|-2.5|-0.1|||ANCOVA|||E-diary maximum daily pain scores were calculated using an average of up to the last 7 recordings within 9 days before each visit. Missing data, including premature discontinuation, was imputed using the LOCF approach for the secondary efficacy variable of maximum daily pain score||-0.1|-2.5|0.030
92202808|NCT01882543|184303793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.008|TWO_SIDED|95.0|-2.8|-0.5|||ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-0.5|-2.8|0.008
92202809|NCT01882543|184303794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.028|TWO_SIDED|95.0|-3.0|-0.2|||ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-0.2|-3.0|0.028
92202810|NCT01882543|184303795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.4||||0.011|TWO_SIDED|95.0|-9.5|-1.3|||ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-1.3|-9.5|0.011
92202811|NCT01882543|184303796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1||||0.007|TWO_SIDED|95.0|-8.8|-1.4||ICSI/PI|ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-1.4|-8.8|0.007
92202812|NCT01882543|184303796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.005|TWO_SIDED|95.0|-4.6|-0.9||ICSI|ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-0.9|-4.6|0.005
92202813|NCT01882543|184303796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.014|TWO_SIDED|95.0|-4.5|-0.5||ICPI|ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-0.5|-4.5|0.014
92202814|NCT01882543|184303797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.592|TWO_SIDED|95.0|-6.3|3.6||Mental Component|ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||3.6|-6.3|0.592
92202815|NCT01882543|184303797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.221|TWO_SIDED|95.0|-1.6|6.7||Physical Component|ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||6.7|-1.6|0.221
92202816|NCT01882543|184303798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.04|TWO_SIDED|95.0|-5.5|-0.1|||ANOVA|||Analyses of the secondary variable was based on observed data without imputation.||-0.1|-5.5|0.040
92202817|NCT01253135|184303800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|4.7||0.3393|TWO_SIDED|95.0|-3.08|0.84|||Prentice-Wilcoxon test||The Confidence Interval was based on a t-distribution|||0.84|-3.08|.3393
92202818|NCT01253135|184303801|SUPERIORITY_OR_OTHER|||||||0.4771|TWO_SIDED||||||Log Rank|Testing was by a Log Rank test with significance being at P \< 0.05||||||.4771
92202819|NCT00264303|184303821|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25||||0.005||95.0|0.08|0.43|||ANCOVA|ANCOVA with treatment and pooled center as factors and baseline CIU composite score as covariate.||||0.43|0.08|0.005
92202820|NCT00264303|184303822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.041||95.0|0.01|0.34|||ANCOVA|ANCOVA with treatment and pooled center as factors and baseline CIU composite score as covariate||||0.34|0.01|0.041
92202821|NCT00264303|184303823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13||||0.004||95.0|0.04|0.22|||ANCOVA|ANCOVA with treatment and pooled center as factors and baseline pruritus severity score as covariate.||||0.22|0.04|0.004
92202822|NCT00264303|184303824|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.002||95.0|0.06|0.26|||ANCOVA|ANCOVA with treatment and pooled center as factors and baseline pruritus duration as covariate.||||0.26|0.06|0.002
92202823|NCT00264303|184303825|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.009||95.0|0.03|0.22|||ANCOVA|ANCOVA with treatment and pooled centers as factors and baseline pruritus duration score as covariate.||||0.22|0.03|0.009
92202824|NCT00264303|184303826|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|||<|0.001||95.0|0.07|0.26|||ANCOVA|ANCOVA with treatment and pooled center as factors and baseline severity as covariate.||The primary hypothesis to be tested in this study was that the clinical efficacy of Levocetirizine 5 mg is superior to that of Desloratidine 5 mg||0.26|0.07|<0.001
92202825|NCT02815579|184303827|SUPERIORITY||Difference in log odds|-0.08||||0.86|TWO_SIDED|95.0|-1.0|0.84|||Mixed Models Analysis|||The investigators produced a difference-in-difference estimate between baseline and year 2 using multi-level logistic regression. Units are in log odds.||0.84|-1.0|0.86
92202826|NCT02815579|184303828|SUPERIORITY||Difference in log odds|0.32||||0.23|TWO_SIDED|95.0|-0.28|0.92|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2 using multi-level logistic regression. Units are in log odds.||0.92|-0.28|0.23
92202827|NCT02815579|184303829|SUPERIORITY||Mean Difference (Net)|1.39||||0.26|TWO_SIDED|95.0|-1.01|3.78|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2.||3.78|-1.01|0.26
92202828|NCT02815579|184303830|SUPERIORITY||Difference in log odds|0.84||||0.31|TWO_SIDED|95.0|-0.79|2.47|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2 using multi-level logistic regression. Units are in log odds.||2.47|-0.79|0.31
92202829|NCT02815579|184303831|SUPERIORITY||Difference in log odds|-0.34||||0.44|TWO_SIDED|95.0|-1.22|0.53|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2 using multi-level logistic regression. Units are in log odds.||0.53|-1.22|0.44
92202830|NCT02815579|184303832|SUPERIORITY||Mean Difference (Net)|-3.54|||<|0.001|TWO_SIDED|95.0|-4.16|-2.92|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2.||-2.92|-4.16|<0.001
92202831|NCT02815579|184303833|SUPERIORITY||Mean Difference (Net)|-0.21||||0.02|TWO_SIDED|95.0|-0.39|-0.04|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2.||-0.04|-0.39|0.02
92202832|NCT02815579|184303834|SUPERIORITY||Mean Difference (Net)|0.01||||0.98|TWO_SIDED|95.0|-0.82|0.84|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2.||0.84|-0.82|0.98
92202833|NCT02815579|184303835|SUPERIORITY||Mean Difference (Net)|-0.37||||0.001|TWO_SIDED|95.0|-0.59|-0.15|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2.||-0.15|-0.59|0.001
92202834|NCT02815579|184303836|SUPERIORITY||Difference in log odds|-0.83||||0.001|TWO_SIDED|95.0|-1.45|-0.2|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2 using multi-level logistic regression. Units are in log odds.||-0.20|-1.45|0.001
92202835|NCT02815579|184303837|SUPERIORITY||Mean Difference (Net)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.52|-0.31|||Mixed Models Analysis|||||-0.31|-0.52|<0.001
92202836|NCT02389452|184303838|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||||||<0.0001
92202837|NCT02311673|184303856|OTHER||Least Squares (LS) Mean Difference|-0.3||||0.42|TWO_SIDED|95.0|-3.1|2.5||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.5|-3.1|0.420
92202838|NCT02311673|184303856|OTHER||LS Mean Difference|-0.4||||0.348|TWO_SIDED|95.0|-2.3|1.6|||Longitudinal mixed analysis of variance|One sided p-value.|A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||1.6|-2.3|0.348
92202839|NCT02311673|184303856|OTHER||LS Mean Difference|0.8||||0.779|TWO_SIDED|95.0|-1.3|2.9||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.9|-1.3|0.779
92202840|NCT02311673|184303858|OTHER||LS Mean Difference|21.5||||0.901|TWO_SIDED|95.0|-11.8|54.8||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||54.8|-11.8|0.901
92202841|NCT02311673|184303858|OTHER||LS Mean Difference|-3.9||||0.362|TWO_SIDED|95.0|-26.3|18.5||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||18.5|-26.3|0.362
92202842|NCT02311673|184303858|OTHER||LS Mean Difference|-3.7||||0.378|TWO_SIDED|95.0|-28.0|20.5||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||20.5|-28.0|0.378
92202843|NCT02311673|184303859|OTHER||LS Mean Difference|20.6||||0.84|TWO_SIDED|95.0|-20.9|62.2||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||62.2|-20.9|0.840
92202844|NCT02311673|184303859|OTHER||LS Mean Difference|-10.2||||0.236|TWO_SIDED|95.0|-38.7|18.4||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||18.4|-38.7|0.236
92202845|NCT02311673|184303859|OTHER||LS Mean Difference|-13.4||||0.191|TWO_SIDED|95.0|-44.2|17.4|||Longitudinal mixed analysis of variance|One sided p-value.||||17.4|-44.2|0.191
92202846|NCT02311673|184303860|OTHER||LS Mean Difference|19.5||||0.812|TWO_SIDED|95.0|-24.8|63.8||One sided p-value.|Longitudinal mixed analysis of variance||||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|63.8|-24.8|0.812
92202847|NCT02311673|184303860|OTHER||LS Mean Difference|-1.3||||0.464|TWO_SIDED|95.0|-29.9|27.4||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||27.4|-29.9|0.464
92202848|NCT02311673|184303860|OTHER||LS Mean Difference|-2.6||||0.432|TWO_SIDED|95.0|-33.6|28.4||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||28.4|-33.6|0.432
92327099|NCT00794040|184559226|SUPERIORITY||Mean Difference (Final Values)|4.72||||0.124|TWO_SIDED|95.0|-1.3|10.74||priori threshold p\<0.05|Wilcoxon (Mann-Whitney)|||||10.74|-1.30|0.124
92327100|NCT00794040|184559227|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.993|TWO_SIDED|95.0|-4.76|4.8||priori threshold p\<0.05|Multilevel growth curve model|||||4.80|-4.76|0.993
92327101|NCT00794040|184559228|SUPERIORITY||Mean Difference (Final Values)|1.02||||0.598|TWO_SIDED|95.0|-4.23|2.19||priori threshold p\<0.05|Multilevel growth curve model|||||2.19|-4.23|0.598
92202849|NCT02311673|184303861|OTHER||LS Mean Difference|49.9||||0.988|TWO_SIDED|95.0|6.7|93.2||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||93.2|6.7|0.988
92202850|NCT02311673|184303861|OTHER||LS Mean Difference|16.0||||0.859|TWO_SIDED|95.0|-13.7|45.6||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||45.6|-13.7|0.859
92202851|NCT02311673|184303861|OTHER||LS Mean Difference|22.2||||0.916|TWO_SIDED|95.0|-9.8|54.3||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||54.3|-9.8|0.916
92202852|NCT02311673|184303862|OTHER||LS Mean Difference|32.7||||0.943|TWO_SIDED|95.0|-8.4|73.8||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||73.8|-8.4|0.943
92202853|NCT02311673|184303862|OTHER||LS Mean Difference|-4.2||||0.339|TWO_SIDED|95.0|-24.4|16.1||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||16.1|-24.4|0.339
92202854|NCT02311673|184303862|OTHER||LS Mean Difference|1.1||||0.533|TWO_SIDED|95.0|-25.0|27.2||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||27.2|-25.0|0.533
92202855|NCT02311673|184303870|OTHER||LS Mean Difference|-0.2||||0.439|TWO_SIDED|95.0|-3.0|2.6||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.6|-3.0|0.439
92202856|NCT02311673|184303870|OTHER||LS Mean Difference|-0.3||||0.366|TWO_SIDED|95.0|-2.3|1.6||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||1.6|-2.3|0.366
92202857|NCT02311673|184303870|OTHER||LS Mean Difference|0.7||||0.744|TWO_SIDED|95.0|-1.4|2.8||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.8|-1.4|0.744
92202858|NCT02311673|184303871|OTHER||LS Mean Difference|1.0||||0.883|TWO_SIDED|95.0|-0.7|2.8||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.8|-0.7|0.883
92202859|NCT02311673|184303871|OTHER||LS Mean Difference|-0.2||||0.338|TWO_SIDED|95.0|-1.3|0.9||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||0.9|-1.3|0.338
92202860|NCT02311673|184303871|OTHER||LS Mean Difference|-0.2||||0.381|TWO_SIDED|95.0|-1.6|1.2||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||1.2|-1.6|0.381
92202861|NCT02311673|184303873|OTHER||LS Mean Difference|1.3||||0.679|TWO_SIDED|95.0|-4.5|7.0||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|Statistical analysis is provided for percent change from baseline at Day 56.||7.0|-4.5|0.679
92202862|NCT02311673|184303873|OTHER||LS Mean Difference|0.7||||0.641|TWO_SIDED|95.0|-3.3|4.7||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|Statistical analysis is provided for percent change from baseline at Day 56.||4.7|-3.3|0.641
92202863|NCT02311673|184303873|OTHER||LS Mean Difference|1.9||||0.809|TWO_SIDED|95.0|-2.6|6.4||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|Statistical analysis is provided for percent change from baseline at Day 56.||6.4|-2.6|0.809
92202864|NCT02311673|184303874|OTHER||LS Mean Difference|0.5||||0.633|TWO_SIDED|95.0|-2.6|3.6||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||3.6|-2.6|0.633
92202865|NCT02311673|184303874|OTHER||LS Mean Difference|0.1||||0.528|TWO_SIDED|95.0|-2.1|2.3||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.3|-2.1|0.528
92202866|NCT02311673|184303874|OTHER||LS Mean Difference|0.5||||0.648|TWO_SIDED|95.0|-2.0|2.9||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.9|-2.0|0.648
92202867|NCT02311673|184303876|OTHER||LS Mean Difference|0.7||||0.712|TWO_SIDED|95.0|-1.8|3.1||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||3.1|-1.8|0.712
92202868|NCT02311673|184303876|OTHER||LS Mean Difference|-0.2||||0.414|TWO_SIDED|95.0|-1.9|1.5||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||1.5|-1.9|0.414
92202869|NCT02311673|184303876|OTHER||LS Mean Difference|0.6||||0.732|TWO_SIDED|95.0|-1.3|2.5||One sided p-value|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.5|-1.3|0.732
92202870|NCT01006252|184303878|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.121||95.0||||Statistical significance was assessed at an alpha level of 0.05.|Stratified log rank|||||||0.121
92202871|NCT01006252|184303879|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.048||95.0||||Statistical significance was assessed at an alpha level of 0.05.|Stratified log rank|Analysis adjusted for Baseline Lactate Dehydrogenase (LDH); Disease Stage; Sex; Previous Single Agent Immunotherapy Treatment; Age Group||||||0.048
92202872|NCT01006252|184303880|SUPERIORITY_OR_OTHER|||||||0.396||95.0||||Statistical significance was assessed at an alpha level of 0.05.|Unadjusted normal distribution|Unadjusted normal-distribution approximation for the difference in rates||||||0.396
92202873|NCT01006252|184303882|SUPERIORITY_OR_OTHER|||||||0.483||95.0||||Statistical significance was assessed at an alpha level of 0.05.|Unadjusted normal distribution|Unadjusted normal-distribution approximation for the difference in rates.||||||0.483
92202874|NCT01006252|184303883|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.505||95.0||||Statistical significance was assessed at an alpha level of 0.05.|Stratified log rank|||||||0.505
92202875|NCT01006252|184303884|SUPERIORITY_OR_OTHER|||||||0.902||95.0||||P-value given for Overall Main Treatment Effect from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.902
92202876|NCT01006252|184303884|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||P-value given for Treatment-By-Cycle Interaction from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.970
92202877|NCT01006252|184303886|SUPERIORITY_OR_OTHER|||||||0.902||95.0||||P-value given for Overall Main Treatment Effect from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.902
92327102|NCT04687072|184559229|SUPERIORITY||Difference in percentage|-3.5||||0.5081|TWO_SIDED|95.0|-14.7|7.0||The p-value was calculated using the Cochran-Mantel-Haenszel test used in the hierarchical testing procedure.|Cochran-Mantel-Haenszel||The adjusted difference in percentages and 95% confidence interval (CI) (Klingenberg approach) were presented.|||7.0|-14.7|0.5081
92202878|NCT01006252|184303886|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||P-value given for Overall Treatment-By-Cycle Interaction from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.970
92202879|NCT01006252|184303887|SUPERIORITY_OR_OTHER|||||||0.547||95.0||||P-value given for Main Treatment Effect from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.547
92202880|NCT01006252|184303887|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||P-value given for Treatment-By-Cycle Interaction from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.414
92202881|NCT01006252|184303889|SUPERIORITY_OR_OTHER|||||||0.547||95.0||||P-value given for Main Treatment Effect from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.547
92202882|NCT01006252|184303889|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||P-value given for Treatment-By-Cycle Interaction from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.414
92202883|NCT00414908|184303892|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Non parametric ANCOVA|||The following null hypothesis was tested (μ0 and μ1 denote the treatment group means respectively in the placebo and pancrelipase delayed release capsules group): H0: μ0 = μ1 (i.e., placebo and pancrelipase delayed release capsules are equal). The hypothesis corresponded to the primary objective to show superior efficacy of pancrelipase delayed release capsules over placebo. A non-parametric ANCOVA was used because the necessary assumptions were not met for the parametric ANCOVA.||||<0.0001
92202884|NCT00414908|184303893|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Non parametric ANCOVA|||The following null hypothesis was tested (μ0 and μ1 denote the treatment group means respectively in the placebo and pancrelipase delayed release capsules group): H0: μ0 = μ1 (i.e., placebo and pancrelipase delayed release capsules are equal). The hypothesis corresponded to the primary objective to show superior efficacy of pancrelipase delayed release capsules over placebo. A non-parametric ANCOVA was used because the necessary assumptions were not met for the parametric ANCOVA.||||0.0002
92202885|NCT00414908|184303894|SUPERIORITY_OR_OTHER||LS Means difference|-112.45|||<|0.0001||95.0|-147.04|-77.87|||ANCOVA|||"The following null hypothesis was tested (μ0 and μ1 denote the treatment group means in the placebo and pancrelipase delayed release capsules group): H0: μ0 = μ1 (i.e., placebo and pancrelipase capsules are equal).~The hypothesis was to show superior efficacy of pancrelipase delayed release capsules over placebo.~For this secondary efficacy variable, an analysis of covariance (ANCOVA) model was assumed with the treatment group as a fixed factor and the Stool fat at baseline as a covariate."||-77.87|-147.04|<0.0001
92202886|NCT00414908|184303895|SUPERIORITY_OR_OTHER||LS Means difference|-11.68|||<|0.0001||95.0|-17.3|-6.06|||ANCOVA|||"The following null hypothesis was tested (μ0 and μ1 denote the treatment group means in the placebo and pancrelipase delayed release capsules group): H0: μ0 = μ1 (i.e., placebo and pancrelipase capsules are equal).~The hypothesis was to show superior efficacy of pancrelipase delayed release capsules over placebo. For this secondary efficacy variable, an analysis of covariance (ANCOVA) model was assumed with the treatment group as a fixed factor and the Stool nitrogen at baseline as a covariate."||-6.06|-17.30|<0.0001
92202887|NCT00414908|184303896|SUPERIORITY_OR_OTHER||LS Means difference|-0.76||||0.005||95.0|-1.27|-0.24|||ANCOVA|||"The following null hypothesis was tested (μ0 and μ1 denote the treatment group means in the placebo and pancrelipase delayed release capsules group): H0: μ0 = μ1 (i.e., placebo and pancrelipase capsules are equal). The hypothesis was to show superior efficacy of pancrelipase capsules over placebo.~For this secondary efficacy variable, an analysis of covariance (ANCOVA) model was assumed with the treatment group as a fixed factor and the Stool frequency at baseline as a covariate."||-0.24|-1.27|0.005
92202888|NCT00414908|184303900|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|Mean difference based on all subjects combined using the paired t-test between baseline and visit 8 or early termination||||||<0.001
92202889|NCT04143945|184303914|OTHER|Comparison|Estimated treatment difference|2.6||||0.0395|TWO_SIDED|95.0|0.1|5.1|||ANOVA|||The intensity of pain was analysed by a fixed analysis of variance model with VAS pain score as the dependent variable, and product, injection side (right side, left side), injection number (first injection, second injection), and participant as fixed effects.||5.1|0.1|0.0395
92202890|NCT01240915|184303932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.223||0.96|TWO_SIDED|80.0|0.12|0.69||1-sided p-value|ANCOVA|||Pooled MultiStem versus Pooled Placebo||0.69|0.12|0.96
92202891|NCT01240915|184303933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.161||0.54|TWO_SIDED|80.0|-0.19|0.22||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 8||Pooled MultiStem versus Pooled Placebo (Week 4)||0.22|-0.19|0.54
92202892|NCT01240915|184303934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.174||0.67|TWO_SIDED|80.0|-0.15|0.3||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 8||Pooled MultiStem versus Pooled Placebo (Week 8)||0.30|-0.15|0.67
92202893|NCT01240915|184303941|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.02||||0.53|TWO_SIDED|80.0|0.73|1.42||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 4)||1.42|0.73|0.53
92202894|NCT01240915|184303941|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.48||||0.91|TWO_SIDED|80.0|1.02|2.14||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 8)||2.14|1.02|0.91
92202895|NCT01240915|184303941|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.38||||0.81|TWO_SIDED|80.0|0.86|2.23||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 12)||2.23|0.86|0.81
92202896|NCT01240915|184303941|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.94||||0.44|TWO_SIDED|80.0|0.59|1.51||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 12)||1.51|0.59|0.44
92202897|NCT01240915|184303941|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.18||||0.67|TWO_SIDED|80.0|0.72|1.94||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 12)||1.94|0.72|0.67
92202898|NCT01240915|184303941|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.12||||0.62|TWO_SIDED|80.0|0.68|1.84||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 16)||1.84|0.68|0.62
92202899|NCT01240915|184303941|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95||||0.95|TWO_SIDED|80.0|0.58|1.57||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 16)||1.57|0.58|0.95
92202900|NCT01240915|184303941|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.81||||0.3|TWO_SIDED|80.0|0.49|1.36||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 16)||1.36|0.49|0.30
92202901|NCT01240915|184303942|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.17||||0.79|TWO_SIDED|80.0|0.91|1.51||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 4)||1.51|0.91|0.79
92202902|NCT01240915|184303942|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.21||||0.8|TWO_SIDED|80.0|0.9|1.63||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 8)||1.63|0.90|0.80
92202903|NCT01240915|184303942|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.75||||0.99|TWO_SIDED|80.0|1.63|4.64||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 12)||4.64|1.63|0.99
92202904|NCT01240915|184303942|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.96||||0.96|TWO_SIDED|80.0|1.19|3.25||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 12)||3.25|1.19|0.96
92327103|NCT04687072|184559230|SUPERIORITY||Location shift|0.0||||0.4925|TWO_SIDED|95.0|0.0|0.0||The p-value was calculated using the stratified Mann-Whitney test used in the hierarchical testing procedure.|Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator of the treatment difference and 95% CI are presented.|||0.000|0.000|0.4925
92202905|NCT01240915|184303942|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.98||||0.95|TWO_SIDED|80.0|1.15|3.41||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 12)||3.41|1.15|0.95
92202906|NCT01240915|184303942|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.3||||0.99|TWO_SIDED|80.0|1.52|3.48||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 16)||3.48|1.52|0.99
92202907|NCT01240915|184303942|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.1||||0.62|TWO_SIDED|80.0|0.74|1.63||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 16)||1.63|0.74|0.62
92202908|NCT01240915|184303942|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.51||||0.89|TWO_SIDED|80.0|0.98|2.32||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 16)||2.32|0.98|0.89
92202909|NCT01240915|184303943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.34|TWO_SIDED|80.0|0.66|2.19||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo (Week 4)||2.19|0.66|0.34
92202910|NCT01240915|184303943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.33|TWO_SIDED|80.0|0.68|2.23||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo (Week 8)||2.23|0.68|0.33
92202911|NCT01240915|184303943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.37||||0.1|TWO_SIDED|80.0|0.99|5.67||1-sided p-value|Regression, Logistic|||Cohort 3 MM versus Cohort 3 PP (Week 12)||5.67|0.99|0.10
92202912|NCT01240915|184303943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.74|TWO_SIDED|80.0|0.28|1.55||1-sided p-value|Regression, Logistic|||Cohort 3 MP versus Cohort 3 PP (Week 12)||1.55|0.28|0.74
92202913|NCT01240915|184303943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.48|TWO_SIDED|80.0|0.41|2.64||1-sided p-value|Regression, Logistic|||Cohort 3 PM versus Cohort 3 PP (Week 12)||2.64|0.41|0.48
92202914|NCT01240915|184303943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.58|TWO_SIDED|80.0|0.38|2.03||1-sided p-value|Regression, Logistic|||Cohort 3 MM versus Cohort 3 PP (Week 16)||2.03|0.38|0.58
92202915|NCT01240915|184303943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.68|TWO_SIDED|80.0|0.33|1.66||1-sided p-value|Regression, Logistic|||Cohort 3 MP versus Cohort 3 PP (Week 16)||1.66|0.33|0.68
92202916|NCT01240915|184303943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.84|TWO_SIDED|80.0|0.21|1.23||1-sided p-value|Regression, Logistic|||Cohort 3 PM versus Cohort 3 PP (Week 16)||1.23|0.21|0.84
92202917|NCT01240915|184303944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.57|TWO_SIDED|80.0|0.22|3.07||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo||3.07|0.22|0.57
92202918|NCT01240915|184303945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.39||||0.85|TWO_SIDED|80.0|0.12|1.23||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo||1.23|0.12|0.85
92202919|NCT01240915|184303946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.27||||0.05|TWO_SIDED|80.0|1.21|4.24||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo (Week 4)||4.24|1.21|0.05
92202920|NCT01240915|184303946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.43|TWO_SIDED|80.0|0.61|1.95||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo (Week 8)||1.95|0.61|0.43
92202921|NCT01240915|184303946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.44|TWO_SIDED|80.0|0.45|2.76||1-sided p-value|Regression, Logistic|||Cohort 3 MM versus Cohort 3 PP (Week 12)||2.76|0.45|0.44
92202922|NCT01240915|184303946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.38|TWO_SIDED|80.0|0.5|3.04||1-sided p-value|Regression, Logistic|||Cohort 3 MP versus Cohort 3 PP (Week 12)||3.04|0.50|0.38
92202923|NCT01240915|184303946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38||||0.89|TWO_SIDED|80.0|0.14|1.04||1-sided p-value|Regression, Logistic|||Cohort 3 PM versus Cohort 3 PP (Week 12)||1.04|0.14|0.89
92202924|NCT01240915|184303946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.47|TWO_SIDED|80.0|0.45|2.42||1-sided p-value|Regression, Logistic|||Cohort 3 MM versus Cohort 3 PP (Week 16)||2.42|0.45|0.47
92202925|NCT01240915|184303946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.24|TWO_SIDED|80.0|0.7|3.57||1-sided p-value|Regression, Logistic|||Cohort 3 MP versus Cohort 3 PP (Week 16)||3.57|0.70|0.24
92202926|NCT01240915|184303946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.81|TWO_SIDED|80.0|0.22|1.32||1-sided p-value|Regression, Logistic|||Cohort 3 PM versus Cohort 3 PP (Week 16)||1.32|0.22|0.81
92202927|NCT01240915|184303947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.84|TWO_SIDED|80.0|0.2|1.24||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo||1.24|0.20|0.84
92202928|NCT01240915|184303948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3||||0.96|TWO_SIDED|80.0|0.12|0.73||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo||0.73|0.12|0.96
92202929|NCT01240915|184303949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.513||0.87|TWO_SIDED|80.0|-0.08|1.24||1-sided p-value|ANCOVA|||Pooled MultiStem versus Pooled Placebo||1.24|-0.08|0.87
92202930|NCT01240915|184303950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.345||0.8|TWO_SIDED|80.0|-0.15|0.74||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 4)||0.74|-0.15|0.80
92202931|NCT01240915|184303950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.418||0.77|TWO_SIDED|80.0|-0.23|0.84||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 8)||0.84|-0.23|0.77
92202932|NCT01240915|184303950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.666||0.74|TWO_SIDED|80.0|-0.42|1.3||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 12)||1.30|-0.42|0.74
92202933|NCT01240915|184303950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.645||0.88|TWO_SIDED|80.0|-0.08|1.59||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 12)||1.59|-0.08|0.88
92202934|NCT01240915|184303950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.705||0.72|TWO_SIDED|80.0|-0.5|1.33||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 12)||1.33|-0.50|0.72
92202935|NCT01240915|184303950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21|STANDARD_ERROR_OF_MEAN|0.656||0.97|TWO_SIDED|80.0|0.37|2.06||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 16)||2.06|0.37|0.97
92202936|NCT01240915|184303950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.635||0.75|TWO_SIDED|80.0|-0.39|1.25||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 16)||1.25|-0.39|0.75
92202937|NCT01240915|184303950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73|STANDARD_ERROR_OF_MEAN|0.692||0.85|TWO_SIDED|80.0|-0.16|1.63||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 16)||1.63|-0.16|0.85
92202938|NCT01240915|184303951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.753||0.75|TWO_SIDED|80.0|-0.46|1.49||1-sided p-value|ANCOVA|||Pooled MultiStem versus Pooled Placebo||1.49|-0.46|0.75
92202939|NCT01240915|184303952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.144||0.51|TWO_SIDED|80.0|-0.18|0.19||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 4)||0.19|-0.18|0.51
92202940|NCT01240915|184303952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.158||0.62|TWO_SIDED|80.0|-0.16|0.25||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 8)||0.25|-0.16|0.62
92202941|NCT01240915|184303952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.213||0.29|TWO_SIDED|80.0|-0.39|0.16||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 12)||0.16|-0.39|0.29
92202942|NCT01240915|184303952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.209||0.74|TWO_SIDED|80.0|-0.14|0.4||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 12)||0.40|-0.14|0.74
92202943|NCT01240915|184303952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.226||0.36|TWO_SIDED|80.0|-0.37|0.21||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 12)||0.21|-0.37|0.36
92202944|NCT01240915|184303952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.234||0.56|TWO_SIDED|80.0|-0.26|0.34||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 16)||0.34|-0.26|0.56
92202945|NCT01240915|184303952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.231||0.18|TWO_SIDED|80.0|-0.51|0.09||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 16)||0.09|-0.51|0.18
92202946|NCT01240915|184303952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.25||0.31|TWO_SIDED|80.0|-0.45|0.2||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 16)||0.20|-0.45|0.31
92202947|NCT02574845|184303955|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T1/REF (%)|101.95|||||TWO_SIDED|90.0|89.49|116.15|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 10 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||116.15|89.49|
92202948|NCT02574845|184303955|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T2/REF (%)|106.09|||||TWO_SIDED|90.0|96.12|117.11|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 50 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||117.11|96.12|
92202949|NCT02574845|184303955|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T3/REF (%)|152.18|||||TWO_SIDED|90.0|135.12|171.41|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 500 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||171.41|135.12|
92202950|NCT02574845|184303955|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T4/REF (%)|106.97|||||TWO_SIDED|90.0|94.34|121.3|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 1 mg furosemide on the primary outcome measure of the REF treatment.||121.30|94.34|
92202951|NCT02574845|184303955|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T5/REF (%)|115.92|||||TWO_SIDED|90.0|101.93|131.82|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 5 mg furosemide on the primary outcome measure of the REF treatment.||131.82|101.93|
92202952|NCT02574845|184303956|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T1/REF (%)|102.47|||||TWO_SIDED|90.0|87.19|120.42|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 10 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||120.42|87.19|
92202953|NCT02574845|184303956|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T2/REF (%)|106.98|||||TWO_SIDED|90.0|92.54|123.69|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 50 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||123.69|92.54|
92202954|NCT02574845|184303956|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T3/REF (%)|154.07|||||TWO_SIDED|90.0|131.7|180.24|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 500 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||180.24|131.70|
92202955|NCT02574845|184303956|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T4/REF (%)|106.81|||||TWO_SIDED|90.0|91.78|124.3|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 1 mg furosemide on the primary outcome measure of the REF treatment.||124.30|91.78|
92202956|NCT02574845|184303956|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T5/REF (%)|117.98|||||TWO_SIDED|90.0|98.27|141.65|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 5 mg furosemide on the primary outcome measure of the REF treatment.||141.65|98.27|
92202957|NCT02574845|184303957|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T1/REF (%)|101.22|||||TWO_SIDED|90.0|89.23|114.82|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 10 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||114.82|89.23|
92202958|NCT02574845|184303957|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T2/REF (%)|107.26|||||TWO_SIDED|90.0|97.65|117.81|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 50 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||117.81|97.65|
92202959|NCT02574845|184303957|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T3/REF (%)|146.45|||||TWO_SIDED|90.0|135.21|158.62|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 500 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||158.62|135.21|
92202960|NCT02574845|184303957|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T4/REF (%)|105.63|||||TWO_SIDED|90.0|92.2|121.0|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 1 mg furosemide on the primary outcome measure of the REF treatment.||121.00|92.20|
92202961|NCT02574845|184303957|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T5/REF (%)|118.1|||||TWO_SIDED|90.0|106.75|130.67|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 5 mg furosemide on the primary outcome measure of the REF treatment.||130.67|106.75|
92202962|NCT03151993|184303961|NON_INFERIORITY|The non-inferiority hypothesis would be declared if the lower limit of the 95% CI for an mRS score of 0-1 on day 90 did not cross the margin of noninferiority of 16%. The non-inferiority hypothesis was tested using Welch's t-test for the primary outcome only.|Odds Ratio (OR)|9.5|||<|0.01|TWO_SIDED|95.0|-1.7|20.7|||Welch's t-test|||||20.7|-1.7|<0.01
92202963|NCT01145898|184303980|SUPERIORITY_OR_OTHER|||||||0.6261||95.0|||||ANCOVA|||There will be (as shown) differences in the number of subjects based upon the time of analysis due to patient loss, data of insufficient quality at visit, or change in the drug use during period of study (patient switched off treatment by their doctor) so the number of data points varies throughout the analysis by availability.||||.6261
92202964|NCT01145898|184303981|SUPERIORITY_OR_OTHER|||||||0.6081||95.0|||||ANCOVA|||||||.6081
92202965|NCT01145898|184303982|SUPERIORITY_OR_OTHER|||||||0.1822||95.0|||||ANCOVA|||||||.1822
92202966|NCT01145898|184303983|SUPERIORITY_OR_OTHER|||||||0.2383||95.0|||||ANCOVA|||||||.2383
92327104|NCT04687072|184559231|SUPERIORITY||Difference in percentage|-0.5||||0.9314|TWO_SIDED|95.0|-11.7|10.0||The p-value was calculated using the Cochran-Mantel-Haenszel test used in the hierarchical testing procedure.|Cochran-Mantel-Haenszel||The adjusted difference in percentages and 95% CI (Klingenberg approach) were presented.|||10.0|-11.7|0.9314
92202967|NCT01145898|184303984|SUPERIORITY_OR_OTHER|||||||0.2383||95.0|||||ANCOVA|||||||.2383
92202968|NCT01145898|184303985|SUPERIORITY_OR_OTHER|||||||0.1564||95.0|||||ANCOVA|||||||.1564
92202969|NCT01145898|184303986|SUPERIORITY_OR_OTHER|||||||0.2265||95.0|||||ANCOVA|||||||.2265
92202970|NCT01145898|184303987|SUPERIORITY_OR_OTHER|||||||0.4645||95.0|||||ANCOVA|||||||.4645
92202971|NCT01145898|184303988|SUPERIORITY_OR_OTHER|||||||0.5998||95.0|||||ANCOVA|||||||.5998
92202972|NCT01145898|184303989|SUPERIORITY_OR_OTHER|||||||0.8119||95.0|||||ANCOVA|||||||.8119
92202973|NCT01145898|184303990|SUPERIORITY_OR_OTHER|||||||0.1319||95.0|||||ANCOVA|||||||.1319
92202974|NCT01145898|184303991|SUPERIORITY_OR_OTHER|||||||0.0199||95.0|||||ANCOVA|||||||.0199
92202975|NCT01145898|184303992|SUPERIORITY_OR_OTHER|||||||0.7597||95.0|||||ANCOVA|||||||.7597
92202976|NCT01145898|184303993|SUPERIORITY_OR_OTHER|||||||0.2528||95.0|||||ANCOVA|||||||.2528
92202977|NCT03101462|184304005|OTHER|ANOVA||||||0.89|||||||t-test, 2 sided|||A/H1N1 Day 0||||0.89
92202978|NCT03101462|184304005|OTHER|||||||0.00082||||||This is the calculated p-value.|t-test, 2 sided|||A/H1N1 Day 7||||0.00082
92202979|NCT03101462|184304005|OTHER|||||||7.6e-05||||||This is the calculated p-value|t-test, 2 sided|||A/H1N1 Day 45||||0.000076
92202980|NCT03101462|184304005|OTHER|||||||0.63|||||||t-test, 2 sided|||A/H3N2 Day 0||||0.63
92202981|NCT03101462|184304005|OTHER|||||||0.0186||||||This is the calculated p-value|t-test, 2 sided|||A/H3N2 Day 7||||0.0186
92202982|NCT03101462|184304005|OTHER|||||||0.0052||||||This is the calculated p-value|t-test, 2 sided|||A/H3N2 Day 45||||0.0052
92202983|NCT03101462|184304005|OTHER|||||||0.25|||||||t-test, 2 sided|||Influenza B Day 0||||0.25
92202984|NCT03101462|184304005|OTHER|||||||0.061|||||||t-test, 2 sided|||Influenza B Day 7||||0.061
92202985|NCT03101462|184304005|OTHER|||||||0.0025|||||||t-test, 2 sided|||Influenza B Day 45||||0.0025
92202986|NCT03101462|184304006|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and 2, Day 0 and Day 7||||0.24
92202987|NCT03101462|184304006|OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and 2, Day 0 and Day 45||||0.76
92202988|NCT03101462|184304006|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Live H3N2, Day 0 and Day 7||||0.06
92202989|NCT03101462|184304006|OTHER|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||Live H3N2, Day 0 and Day 45||||0.56
92202990|NCT03101462|184304006|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Flumist, Day 0 and Day 7||||0.04
92202991|NCT03101462|184304006|OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Flumist, Day 0 and Day 45||||0.16
92202992|NCT03101462|184304006|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and 2, Day 0 and Day 7||||0.02
92202993|NCT03101462|184304006|OTHER|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and 2, Day 0 and Day 45||||0.94
92202994|NCT03101462|184304006|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Live H3N2, Day 0 and Day 7||||0.002
92202995|NCT03101462|184304006|OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Live H3N2, Day 0 and Day 45||||0.16
92202996|NCT03101462|184304006|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Flumist, Day 0 and Day 7||||0.02
92202997|NCT03101462|184304006|OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||Flumist, Day 0 and Day 45||||0.98
92202998|NCT03101462|184304007|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.04
92202999|NCT03101462|184304007|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.02
92203000|NCT03101462|184304007|OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.95
92203001|NCT03101462|184304007|OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.17
92203002|NCT03101462|184304007|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.06
92203003|NCT03101462|184304007|OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.14
92203004|NCT03101462|184304007|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Live H3N2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.02
92203005|NCT03101462|184304007|OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Live H3N2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.09
92327105|NCT04687072|184559232|SUPERIORITY||Difference in percentage|-1.7||||0.7379|TWO_SIDED|95.0|-12.4|8.2||The Cochran-Mantel-Haenszel test p-value was used in the hierarchical testing procedure.|Cochran-Mantel-Haenszel||The adjusted difference in percentage and 95% CI (Klingenberg approach) are presented.|||8.2|-12.4|0.7379
92327106|NCT04687072|184559233|OTHER||Difference in percentage|4.2|||||TWO_SIDED|95.0|-9.3|16.8|||||||The 95% Agresti-Min CIs are presented.|16.8|-9.3|
92327107|NCT04687072|184559234|SUPERIORITY||Location shift|0.0||||0.726|TWO_SIDED|95.0|0.0|0.0||The p-value was calculated using the stratified Mann-Whitney test.|Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator of the treatment difference and 95% CI are presented.|||0.000|0.000|0.7260
92327108|NCT04687072|184559235|OTHER||Difference in percentage|2.5|||||TWO_SIDED|95.0|-9.6|13.0|||||The 95% Agresti-Min CIs are presented.|||13.0|-9.6|
92203006|NCT03101462|184304007|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Flumist CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.01
92203007|NCT03101462|184304007|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Flumist CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.08
92203008|NCT03101462|184304007|OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.16
92203009|NCT03101462|184304007|OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.76
92203010|NCT03101462|184304007|OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.84
92203011|NCT03101462|184304007|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.04
92203012|NCT03101462|184304007|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.07
92268660|NCT00464308|184439265|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation was based upon the number of patients acheiveing complete resolution of HEARTBURN. A sample size of 450 subjects per arm will give a 90% power (with a one-sided 95% confidence interval and a minimal clinically important difference of 9%) to demonstrate non-inferiority of rabeprazole 20mg to esomeprazole 40mg with respect to the number of patients with complete resolution of heartburn with or without regurgitation at week 4|Proportion difference|-0.061|||<|0.05||95.0||||Adjustment for multiple comparisons was not made. The a priori threshold for statistical significance was p\<0.05. Tests were 2-sided except for the non-inferiority test which was 1-sided.|non-inferiority||Non inferiority was considered proven if the lower confidence interval of the one sided 95% CI of P(rab20)-P(e40) was above -9%|Primary endpoints were assessed using non-inferiority tests. See below.||||<0.05
92327109|NCT04687072|184559238|SUPERIORITY||Location shift|0.0||||0.2929|TWO_SIDED|95.0|0.0|1.0||The p-value was calculated using the stratified Mann-Whitney test.|Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator of the treatment difference and 95% CI are presented.|||1.000|0.000|0.2929
92327110|NCT04687072|184559239|SUPERIORITY||Location shift|0.0||||0.1475|TWO_SIDED|95.0|0.0|1.0||The p-value was calculated using the stratified Mann-Whitney test.|Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator of the treatment difference and 95% CI are presented.|||1.000|0.000|0.1475
92327111|NCT04687072|184559240|SUPERIORITY||Location shift|0.0||||0.7677|TWO_SIDED|95.0|-2.0|2.0||The p-value was calculated using the stratified Mann-Whitney test used in the hierarchical testing procedure.|Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator of the treatment difference and 95% CI are presented.|WHO Classified Bleeding Event Grade ≥1||2.000|-2.000|0.7677
92203013|NCT03101462|184304007|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.27
92203014|NCT03101462|184304007|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Live H3N2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.11
92203015|NCT03101462|184304007|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||Live H3N2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.46
92203016|NCT03101462|184304007|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Flumist CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.006
92203017|NCT03101462|184304007|OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Flumist CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.41
92203018|NCT03101462|184304008|OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Influenza A/H1N1 HA, Day 0 and Day 45||||0.72
92203019|NCT03101462|184304008|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Influenza A/H3N2 HA, Day 0 and 45||||0.06
92203020|NCT03101462|184304008|OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Influenza B HA, Day 0 and Day 45||||0.75
92203021|NCT03101462|184304008|OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Influenza A/H1N1 HA, Day 0 and Day 45||||0.05
92203022|NCT03101462|184304008|OTHER|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||Influenza A/H3N2 HA, Day 0 and Day 45||||0.0004
92203023|NCT03101462|184304008|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Influenza B HA, Day 0 and Day 45||||0.02
92203024|NCT03101462|184304009|OTHER|||||||0.02|||||||Fisher Exact|||Fold increase IgA anti-H1N1 HA, Day 7||||0.02
92203025|NCT03101462|184304009|OTHER|||||||0.67|||||||Fisher Exact|||Fold increase IgA anti-H3N2, Day 7||||0.67
92203026|NCT03101462|184304009|OTHER|||||||0.3|||||||Fisher Exact|||Fold increase IgA anti-influenza B HA, Day 7||||0.30
92268661|NCT01817764|184439290|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.074|||<|0.001|TWO_SIDED|95.0|0.038|0.11|||ANCOVA|||||0.110|0.038|<0.001
92327112|NCT04687072|184559241|OTHER||Difference in percentage|-1.2|||||TWO_SIDED|95.0|-11.8|7.3|||||The 95% Agresti-Min CIs are presented.|IWG Complete Response||7.3|-11.8|
92203027|NCT01669577|184304013|SUPERIORITY_OR_OTHER||GEE(Generalyzed Estimation Equation)|0.989214|||<|0.001|TWO_SIDED|95.0|0.982855|0.995613||arterial hemoglobin Oxygen saturation|ANOVA|Non parametric(NPar) ANOVA|GEE model (dichotomous response variable)with logit link function. The NPar ANOVA (p\<0.1 for death) was the test used for inclusion in the model variables for the final models - backward method, with alpha equal to 0.05.|"significance level of 0.05, power of 0.80, moderate correlation of 0.5 between time periods and assumption that the variability is equal within each factor (non-sphericity). Due to the effect size between 0.1 and 0.5, there was no need for samples larger than 140 patients. A total of 200 patients was defined conservatively, with a margin for possible deaths. The software G\*Power 3.1.7 was used for sample size calculation.~Fischer's test, Mann-Whitney, t-test; Non parametric ANOVA and GEE"||0.995613|0.982855|< 0.001
92203028|NCT01669577|184304013|SUPERIORITY_OR_OTHER||GEE|0.99728|||<|0.001|TWO_SIDED|95.0|0.995791|0.998772|||ANOVA|||diastolic arterial blood pressure||0.998772|0.995791|< 0.001
92203029|NCT01669577|184304013|SUPERIORITY_OR_OTHER||GEE|1.046961|||<|0.004|TWO_SIDED|95.0|1.012521|1.082572|||ANOVA|||lactate||1.082572|1.012521|< 0.004
92203030|NCT01669577|184304013|SUPERIORITY_OR_OTHER||GEE|0.973987|||<|0.001|TWO_SIDED|95.0|0.965308|0.982744|||ANOVA|||Glasgow coma score||0.982744|0.965308|<0.001
92203031|NCT01669577|184304013|SUPERIORITY_OR_OTHER||GEE|1.000013|||<|0.023|TWO_SIDED|95.0|1.0|1.000025|||ANOVA|||amount of Infused crystalloids||1.000025|1.000000|<0.023
92203032|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Cox Proportional Hazard|0.86||||0.0648|TWO_SIDED|95.0|0.75|0.99||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE|H11: The hazard rate of first adjudication committee confirmed MACE in the canakinumab 300 mg dose group is greater than or equal to the hazard rate of the placebo group||0.99|0.75|0.0648
92203033|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Cox Proportional Hazard|0.85||||0.0241|TWO_SIDED|95.0|0.74|0.98||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE|H21: The hazard rate of first adjudication committee confirmed MACE in the canakinumab 150 mg dose group is greater than or equal to the hazard rate of the placebo group||0.98|0.74|0.0241
92203034|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Cox Proportional Hazard|0.93||||0.1895|TWO_SIDED|95.0|0.8|1.07||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE|H31: The hazard rate of first adjudication committee confirmed MACE in the canakinumab 50 mg dose group is greater than or equal to the hazard rate of the placebo group.||1.07|0.80|0.1895
92203035|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.94||||0.572|TWO_SIDED|95.0|0.77|1.16||2-sided unadjusted p-value|Regression, Cox||CV death|||1.16|0.77|0.572
92203036|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.9||||0.296|TWO_SIDED|95.0|0.73|1.1||2-sided unadjusted p-value|Regression, Cox||CV death|||1.10|0.73|0.296
92203037|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.91||||0.369|TWO_SIDED|95.0|0.73|1.12||2-sided unadjusted p-value|Regression, Cox||CV death|||1.12|0.73|0.369
92203038|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.84||||0.067|TWO_SIDED|95.0|0.69|1.01||2-sided unadjusted p-value|Regression, Cox||MI (fatal and non-fatal)|||1.01|0.69|0.067
92203039|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.76||||0.006|TWO_SIDED|95.0|0.63|0.92||2-sided unadjusted p-value|Regression, Cox||MI (fatal and non-fatal)|||0.92|0.63|0.006
92203040|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.94||||0.542|TWO_SIDED|95.0|0.78|1.14||2-sided unadjusted p-value|Regression, Cox||MI (fatal and non-fatal)|||1.14|0.78|0.542
92203041|NCT01327846|184304068|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.68|1.0|||||MI (non-fatal)|||1.00|0.68|
92203042|NCT01327846|184304068|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.62|0.92|||||MI (non-fatal)|||0.92|0.62|
92203043|NCT01327846|184304068|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.78|1.14|||||MI (non-fatal)|||1.14|0.78|
92203044|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.8||||0.19|TWO_SIDED|95.0|0.56|1.12||2-sided unadjusted p-value|Regression, Cox||Stroke (fatal and non-fatal)|||1.12|0.56|0.190
92203045|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.98||||0.912|TWO_SIDED|95.0|0.71|1.35||2-sided unadjusted p-value|Regression, Cox||Stroke (fatal and non-fatal)|||1.35|0.71|0.912
92203046|NCT01327846|184304068|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|1.03||||0.871|TWO_SIDED|95.0|0.74|1.43||2-sided unadjusted p-value|Regression, Cox||Stroke (fatal and non-fatal)|||1.43|0.74|0.871
92203047|NCT01327846|184304068|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.57|1.13|||||Stroke (nonfatal)|||1.13|0.57|
92203048|NCT01327846|184304068|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.72|1.37|||||Stroke (nonfatal)|||1.37|0.72|
92203049|NCT01327846|184304068|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.75|1.45|||||Stroke (nonfatal)|||1.45|0.75|
92203050|NCT01327846|184304071|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.82||||0.0648|TWO_SIDED|95.0|0.72|0.94||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE or unstable angina|||0.94|0.72|0.0648
92203051|NCT01327846|184304071|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.83||||0.0241|TWO_SIDED|95.0|0.73|0.95||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE or unstable angina|||0.95|0.73|0.0241
92203052|NCT01327846|184304071|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.9||||0.1895|TWO_SIDED|95.0|0.79|1.03||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE or unstable angina|||1.03|0.79|0.1895
92203053|NCT01327846|184304071|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.58||||0.007|TWO_SIDED|95.0|0.39|0.86||2-sided unadjusted p-value|Regression, Cox||unstable angina|||0.86|0.39|0.007
92203054|NCT01327846|184304071|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.64||||0.022|TWO_SIDED|95.0|0.44|0.94||2-sided unadjusted p-value|Regression, Cox||unstable angina|||0.94|0.44|0.022
92203055|NCT01327846|184304071|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.71||||0.086|TWO_SIDED|95.0|0.48|1.05||2-sided unadjusted p-value|Regression, Cox||unstable angina|||1.05|0.48|0.086
92327113|NCT04687072|184559241|OTHER||Difference in percentage|8.5|||||TWO_SIDED|95.0|-4.6|20.2|||||The 95% Agresti-Min CIs are presented.|IWG Response||20.2|-4.6|
92203056|NCT01327846|184304072|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|1.01||||0.8456|TWO_SIDED|95.0|0.83|1.23||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank|||||1.23|0.83|0.8456
92203057|NCT01327846|184304072|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|1.06||||0.8456|TWO_SIDED|95.0|0.87|1.29||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank|||||1.29|0.87|0.8456
92203058|NCT01327846|184304072|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.98||||0.6541|TWO_SIDED|95.0|0.8|1.2||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank|||||1.20|0.80|0.6541
92203059|NCT01327846|184304073|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.028|TWO_SIDED|95.0|0.77|0.99||2-sided unadjusted p-value|Regression, Cox||All-cause mortality or MI or Stroke|||0.99|0.77|0.028
92203060|NCT01327846|184304073|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.011|TWO_SIDED|95.0|0.75|0.96||2-sided unadjusted p-value|Regression, Cox||All-cause mortality or MI or Stroke|||0.96|0.75|0.011
92203061|NCT01327846|184304073|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.377|TWO_SIDED|95.0|0.83|1.07||2-sided unadjusted p-value|Regression, Cox||All-cause mortality or MI or Stroke|||1.07|0.83|0.377
92203062|NCT01327846|184304074|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.93||||0.406|TWO_SIDED|95.0|0.79|1.1||2-sided unadjusted p-value|Regression, Cox||All-cause mortality|||1.10|0.79|0.406
92203063|NCT01327846|184304074|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.92||||0.329|TWO_SIDED|95.0|0.78|1.09||2-sided unadjusted p-value|Regression, Cox||All-cause mortality|||1.09|0.78|0.329
92203064|NCT01327846|184304074|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.96||||0.597|TWO_SIDED|95.0|0.81|1.13||2-sided unadjusted p-value|Regression, Cox||All-cause mortality|||1.13|0.81|0.597
92203065|NCT02406677|184304107|SUPERIORITY||Hazard Ratio (HR)|1.073||||0.3503|TWO_SIDED|95.0|0.925|1.246|||Regression, Cox|Cox proportional hazards model accounting for within hospital clustering using robust standard errors|Usual Care arm is the reference group|||1.246|0.925|0.3503
92203066|NCT02406677|184304108|SUPERIORITY||Odds Ratio (OR)|0.838||||0.026|TWO_SIDED|95.0|0.717|0.979|||Regression, Logistic|Logistic regression model with parameters estimated using GEE to account for within hospital clustering for selected patient characteristics||||0.979|0.717|0.0260
92203067|NCT02406677|184304109|SUPERIORITY||Odds Ratio (OR)|2.035|||<|0.0001|TWO_SIDED|95.0|1.564|2.649|||Regression, Logistic|Logistic regression with GEE to account for within hospital clustering||||2.649|1.564|<0.0001
92203068|NCT02833077|184304112|SUPERIORITY||Responder Rate Difference|28.85||||0.0019|TWO_SIDED|95.0|11.16|45.6||If the 2-sided p-value is \< 0.05, the responder rate is greater for treatment than for control group, and point estimate of the responder rater for treatment group is greater than 50%, then treatment will be considered superior to control group.|Fisher's exact test|||Superiority of treatment group was established if responder rate at month 6 was statistically greater than that for the control group at month 6 and the observed responder rate at month 6 for the treatment group was greater than 50%.||45.60|11.16|0.0019
92203069|NCT02833077|184304113|OTHER||||||<|0.0001||||||P-value is based on a 2-sided paired t-test at the 5% level to demonstrate that the mean overall satisfaction score at month 6 visit is statistically greater than that at the baseline for the treatment group.|Two sided paired t-test|||||||<.0001
92203070|NCT04608773|184304116|SUPERIORITY||||||<|0.501|||||||ANCOVA|||Null hypothesis is that there was no difference in change of Dry mouth score between Refresh and Biotene. ANCOVA model was performed by regressing the difference in after-treatment measurement between Refresh and Biotene over the difference of baseline between Refresh and Biotene. The test was performed with a significance level of 0.05 (two- sided)||||<0.501
92203071|NCT04608773|184304117|SUPERIORITY|||||||0.109|||||||ANCOVA|||||||.109
92203072|NCT04608773|184304118|SUPERIORITY|||||||0.107|||||||ANCOVA|||||||.107
92203073|NCT04608773|184304119|SUPERIORITY|||||||0.489|||||||ANCOVA|||||||.489
92203074|NCT04608773|184304120|SUPERIORITY|||||||0.213|||||||ANCOVA|||||||.213
92203075|NCT04608773|184304121|SUPERIORITY|||||||0.486|||||||ANCOVA|||||||.486
92203076|NCT00972322|184304123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.34|STANDARD_ERROR_OF_MEAN|8.7||0.083|TWO_SIDED|90.0|-29.87|-0.82|||Least Squares Means Difference||Placebo - MK-8245 on Day 28|||-0.82|-29.87|0.083
92203077|NCT00316017|184304134|SUPERIORITY_OR_OTHER|||||||0.91||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who survived to day 28 day between the three groups.||||0.91
92203078|NCT00316017|184304135|SUPERIORITY_OR_OTHER|||||||0.94||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in ARDS-free survival through day 28 between the three groups.||||0.94
92203079|NCT00316017|184304136|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in average Worst Multiple Organ Dysfunction Scores (MODS) through day 28 between the three groups.||||0.73
92203080|NCT00316017|184304137|SUPERIORITY_OR_OTHER|||||||0.8||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients with the Presence of Nosocomial Infection through day 28 between the three groups.||||0.8
92203081|NCT00316017|184304138|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in the average number of PRBC units given within the first 24 hours between the three groups.||||0.69
92203082|NCT00316017|184304139|SUPERIORITY_OR_OTHER|||||||0.57||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in the average amount of Total fluids given within the first 24 hours between the three groups.||||0.57
92327114|NCT04687072|184559241|OTHER||Difference in percentage|2.6|||||TWO_SIDED|95.0|-9.7|13.3|||||The 95% Agresti-Min CIs are presented.|Initial Response||13.3|-9.7|
92203083|NCT00316017|184304140|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in the average number of Ventilator-free days through day 28 between the three groups.||||0.66
92203084|NCT00316017|184304141|SUPERIORITY_OR_OTHER|||||||0.82||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in the average number of Days alive out of the ICU through day 28 between the three groups.||||0.82
92203085|NCT00316017|184304142|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in the average number of Days alive out of the hospital through day 28 between the three groups.||||0.98
92203086|NCT00316017|184304143|SUPERIORITY_OR_OTHER|||||||0.85||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who survived to hospital discharge between the three groups.||||0.85
92203087|NCT00316017|184304144|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who received zero units of PRBC in the first 24 hours between the three groups.||||0.48
92203088|NCT00316017|184304145|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died in field or ED between the three groups among the patients who received zero units of PRBC.||||<0.01
92203089|NCT00316017|184304146|SUPERIORITY_OR_OTHER||||||<|0.02||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in percent of patients who died within 6 hours of admission to the hospital between the three groups among patients who received zero units of PRBC.||||<0.02
92203090|NCT00316017|184304147|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died within 28 days from the time of the 911 call between the three groups among the patients who received zero units of PRBC.||||<0.01
92203091|NCT00316017|184304148|SUPERIORITY_OR_OTHER|||||||0.51||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who received 1-9 units PRBC in the first 24 hours between the three groups.||||0.51
92203092|NCT00316017|184304149|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died in Field or ED between the three groups among the patients who received 1-9 units of PRBC.||||0.73
92203093|NCT00316017|184304150|SUPERIORITY_OR_OTHER|||||||0.83||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died within 6 hours of admission to the hospital between the three groups among the patients who received 1-9 units of PRBC.||||0.83
92203094|NCT00316017|184304151|SUPERIORITY_OR_OTHER|||||||0.31||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died within 28 days from the time of the 911 call between the three groups among the patients who received 1-9 units of PRBC.||||0.31
92203095|NCT00316017|184304152|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who received greater than 10 units of PRBC in first 24 hours between the three groups.||||0.97
92203096|NCT00316017|184304154|SUPERIORITY_OR_OTHER|||||||0.35||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died within 6 hours of admission to the hospital between the three groups among the patients who received greater than 10 units of PRBC.||||0.35
92203097|NCT00316017|184304155|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died within 28 days from the time of the 911 call between the three groups among the patients who received greater than 10 units of PRBC.||||0.34
92203098|NCT00422812|184304156|SUPERIORITY|||||||0.0012||||||Overall effect at 2 hr (by Cochran-Mantel-Haenszel) for TREATMENT|Cochran-Mantel-Haenszel|||||||0.0012
92203099|NCT00422812|184304157|SUPERIORITY|||||||0.281|||||||Fisher Exact|||||||0.281
92203100|NCT00422812|184304157|SUPERIORITY|||||||0.0226|||||||Fisher Exact|||||||0.0226
92203101|NCT00422812|184304157|SUPERIORITY|||||||0.0019|||||||Fisher Exact|||||||0.0019
92203102|NCT00422812|184304158|SUPERIORITY|||||||0.0007||||||Overall effect (0-4 hr) for TREATMENT by Log-rank p-value|Log Rank|There was no adjustment for multiple comparisons.||||||0.0007
92203103|NCT00422812|184304158|SUPERIORITY|||||||0.0008|||||||Log Rank|No adjustments were made for multiple comparisons||||||0.0008
92203104|NCT00422812|184304158|SUPERIORITY|||||||0.0008||||||No adjustments were made for multiple comparisons|Log Rank|||||||0.0008
92203105|NCT00422812|184304158|SUPERIORITY|||||||0.0003||||||No adjustments were made for multiple comparisons|Log Rank|||||||0.0003
92203106|NCT02671500|184304180|SUPERIORITY||||||<|0.001|||||||2-sided 1 sample exact binomial test|||A sample size of 260 participants in Region 1 would provide more than 80% power to detect an improvement of at least 6 percentage points in SVR12 rate from the performance goal of 85% by using a two-sided exact one-sample binomial test at the significance level of 0.05.||||<0.001
92203107|NCT01647542|184304235|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.03|STANDARD_ERROR_OF_MEAN|0.126|<|0.001|TWO_SIDED|95.0|-1.27|-0.78||Stepwise Comparison: 1) TAK-875 50 mg versus (vs.) placebo, 2) TAK-875 25 mg vs. placebo. Step 2 was performed only if p-value at step 1 was \<=0.050.|Mixed Model Repeated Measures|Treatment, country, visit, and visit-by-treatment interaction as fixed factors, baseline value as covariate.||Assuming a standard deviation of 0.9% in change from baseline in HbA1c to Week 24 and a dropout rate of 15%, 210 participants per group provided at least 95% power to detect a treatment difference of 0.5% between treatment arms at a 2-sided significance level of 0.05.||-0.78|-1.27|<0.001
92203108|NCT01647542|184304235|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.126|<|0.001|TWO_SIDED|95.0|-1.07|-0.57||Stepwise Comparison: 1) TAK-875 50 mg versus (vs.) placebo, 2) TAK-875 25 mg vs. placebo. Step 2 was performed only if p-value at step 1 was \<=0.050.|Mixed Model Repeated Measures|Treatment, country, visit, and visit-by-treatment interaction as fixed factors, baseline value as covariate.||Assuming a standard deviation of 0.9% in change from baseline in HbA1c to Week 24 and a dropout rate of 15%, 210 participants per group provided at least 95% power to detect a treatment difference of 0.5% between treatment arms at a 2-sided significance level of 0.05.||-0.57|-1.07|<0.001
92203109|NCT01647542|184304236|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.66|||<|0.001|TWO_SIDED|95.0|2.99|10.72||No multiplicity adjustment.|Regression, Logistic|Treatment and baseline HbA1c as explanatory variables.||||10.72|2.99|<0.001
92203110|NCT01647542|184304236|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.42|||<|0.001|TWO_SIDED|95.0|1.81|6.49||No multiplicity adjustment.|Regression, Logistic|Treatment and baseline HbA1c as explanatory variables.||||6.49|1.81|<0.001
92203111|NCT01647542|184304237|SUPERIORITY_OR_OTHER||Least squares mean difference|-35.6|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-44.2|-26.9||No multiplicity adjustment.|Mixed Model Repeated Measures|Treatment, country, visit, and visit-by-treatment interaction as fixed factors, baseline value covariate.||||-26.9|-44.2|<0.001
92203112|NCT01647542|184304237|SUPERIORITY_OR_OTHER||Least Squares mean Difference|-35.7|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-44.3|-27.1||No multiplicity adjustment.|Mixed Model Repeated Measures|Treatment, country, visit, and visit-by-treatment interaction as fixed factors, baseline value as covariate.||||-27.1|-44.3|<0.001
92203113|NCT01647542|184304238|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|29.72||0.846|TWO_SIDED|95.0|-57.9|69.6||No multiplicity adjustments.|ANCOVA|Treatment and country as fixed factors and baseline value as covariate.||||69.6|-57.9|0.846
92203114|NCT01647542|184304238|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-24.9|STANDARD_ERROR_OF_MEAN|30.4||0.427|TWO_SIDED|95.0|-90.1|40.3||No multiplicity adjustments.|ANCOVA|Treatment and country as fixed factors and baseline value as covariate.||||40.3|-90.1|0.427
92327115|NCT04687072|184559243|OTHER||Difference in percentage|-4.0|||||TWO_SIDED|95.0|-15.6|5.7|||||The 95% Agresti-Min CIs are presented.|||5.7|-15.6|
92203115|NCT03843554|184304239|SUPERIORITY|Primary hypothesis. Null hypothesis is that the proportion of patients with a successful outcome of WHO OM severity grades 0-2 at the post study evaluation will not differ between the two randomized intervention groups. The estimated proportion of successes from our pilot trial is 0.30 with SOC. The alternative hypothesis is that the proportion of patients with a successful outcome differs between the two groups from the SOC proportion of 0.30 by +/-0.265 or more.||||||0.999|||||||Fisher Exact|OM WHO grading scale (less or equal to 2) severity employed a two-sided Fisher's exact test to compare the two arms at Visit 9.||||||0.999
92203116|NCT03843554|184304240|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|174.6||0.6336|TWO_SIDED|95.0||||The above t-test p-value is for IL1a.|t-test, 2 sided|||The change in the inflammatory marker from baseline to the final intervention visit was analyzed using 95% confidence intervals and presented by treatment group. The two-sided t-test was used to compare the change in inflammatory markers between the two groups.||||0.6336
92203117|NCT03843554|184304240|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|-17.1|STANDARD_ERROR_OF_MEAN|52.1||0.351|TWO_SIDED|95.0||||IL1b|t-test, 2 sided|||The change in the inflammatory marker from baseline to the final intervention visit was analyzed using 95% confidence intervals and presented by treatment group. The two-sided t- test was used to compare the change in inflammatory markers between the two groups.||||0.3510
92203118|NCT03843554|184304240|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|-102.2|STANDARD_ERROR_OF_MEAN|252.8||0.351|TWO_SIDED|95.0||||IL2|t-test, 2 sided|||The change in the inflammatory marker from baseline to the final intervention visit was analyzed using 95% confidence intervals and presented by treatment group. The two-sided t- test was used to compare the change in inflammatory markers between the two groups.||||0.3510
92203119|NCT03843554|184304240|SUPERIORITY|IL4|Mean Difference (Final Values)|-20.4|STANDARD_ERROR_OF_MEAN|46.0||0.8371|TWO_SIDED|95.0|||||t-test, 2 sided|||The change in the inflammatory marker from baseline to the final intervention visit was analyzed using 95% confidence intervals and presented by treatment group. The two-sided t- test was used to compare the change in inflammatory markers between the two groups.||||0.8371
92203120|NCT03843554|184304240|SUPERIORITY|IL5|Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|10.7||0.2991|TWO_SIDED|95.0|||||t-test, 2 sided|||The change in the inflammatory marker from baseline to the final intervention visit was analyzed using 95% confidence intervals and presented by treatment group. The two-sided t- test was used to compare the change in inflammatory markers between the two groups.||||0.2991
92203121|NCT03843554|184304241|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|-0.2293|STANDARD_ERROR_OF_MEAN|0.8555||0.2373|TWO_SIDED|95.0|-1.906|1.4475|||t-test, 2 sided|||||1.4475|-1.9060|0.2373
92327116|NCT04545567|184559256|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92327117|NCT04545567|184559257|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
92327118|NCT04545567|184559258|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
92327119|NCT04545567|184559259|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92327120|NCT04545567|184559260|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
92327121|NCT04545567|184559261|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||||||0.21
92203122|NCT03843554|184304242|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|0.0569|STANDARD_ERROR_OF_MEAN|0.116||0.6263|TWO_SIDED|95.0|-0.1755|0.2893||A Week 8 general linear mixed effects model (GLM) was used to compare the change in saliva flow rate from Baseline (day 0) to week 8 (day 56) between the two groups. The change was calculated by subtracting week 8 saliva flow rate from the Baseline.|ANCOVA||Estimation of the difference in least-square means for the change from Baseline to FIV in saliva flow rate.|||0.2893|-0.1755|0.6263
92203123|NCT03843554|184304243|SUPERIORITY|OMDP-STANDARD|Mean Difference (Net)|-1.94||||0.6956|TWO_SIDED|95.0|||||Regression, Linear|A Week 8 (Day 56) GLM analyzing the pain change Week 8 relative to Baseline (Day 0) was used with treatment and Baseline pain as covariates.|Difference in least-square mean change from baseline to Visit 9 in pain score.|||||0.6956
92203124|NCT03843554|184304244|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|-0.188|STANDARD_ERROR_OF_MEAN|0.113||0.1153|TWO_SIDED|95.0|-0.4095|0.0334|||ANCOVA|ANCOVA via generalized linear mixed repeated measures model (GLMER)||The statistical analysis comprised an ANCOVA for a longitudinal response based on a generalized linear mixed effects repeated measures model (GLMER). The response variable is the mean change from Baseline to Visit 9 in EORTC QLQ-C30 Questions 31-48 (total).||0.0334|-0.4095|0.1153
92203125|NCT01262677|184304332|SUPERIORITY||Mean Difference|-0.99||||0.9076|TWO_SIDED|95.0|-16.28|17.11||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). 88 participants in each group (264 total) should have provided approximately 90% power.||17.11|-16.28|0.9076
92203126|NCT01262677|184304332|SUPERIORITY||Mean Difference|-13.05||||0.0907|TWO_SIDED|95.0|-26.07|2.25||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). 88 participants in each group (264 total) should have provided approximately 90% power.||2.25|-26.07|0.0907
92203127|NCT01262677|184304333|SUPERIORITY|||||||0.752||||||Statistical testing was done at alpha = 0.05 level, two-sided.|Cochran-Mantel-Haenszel|||A 2-sided Cochran-Mantel-Haenszel test stratified by geographical region (U.S., Europe, Asia, or Rest of the World) was used to calculate the p-value. No adjustments for multiplicity were taken.||||0.752
92203128|NCT01262677|184304333|SUPERIORITY|||||||0.125||||||Statistical testing was done at alpha = 0.05 level, two-sided.|Cochran-Mantel-Haenszel|||A 2-sided Cochran-Mantel-Haenszel test stratified by geographical region (U.S., Europe, Asia, or Rest of the World) was used to calculate the p-value. No adjustments for multiplicity were taken.||||0.125
92203129|NCT01262677|184304334|SUPERIORITY||LS Mean Difference|-9.3||||0.5404|TWO_SIDED|95.0|-39.16|20.56||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model was used to calculate the p-value.||20.56|-39.16|0.5404
92203130|NCT01262677|184304334|SUPERIORITY||LS Mean Difference|-25.84||||0.0786|TWO_SIDED|95.0|-54.64|2.97||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model was used to calculate the p-value.||2.97|-54.64|0.0786
92327122|NCT04545567|184559262|SUPERIORITY||Mean Difference (Final Values)|0.73||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
92203131|NCT01262677|184304335|SUPERIORITY||LS Mean Difference|-0.11||||0.6073|TWO_SIDED|95.0|-0.53|0.31||Statistical testing was done at alpha = 0.05 level, two-sided.|Generalized linear model (GLM)|||A generalized linear model accounting for treatment and geographical region as fixed effects and baseline seizure frequency as a covariate was used to calculate the p-value. This generalized linear model assumed that the SGTC seizure frequency was from a Poisson distribution with a canonical log link function.||0.31|-0.53|0.6073
92203132|NCT01262677|184304335|SUPERIORITY||LS Mean Difference|-0.16||||0.4109|TWO_SIDED|95.0|-0.53|0.22||Statistical testing was done at alpha = 0.05 level, two-sided.|GLM|||A generalized linear model accounting for treatment and geographical region as fixed effects and baseline seizure frequency as a covariate was used to calculate the p-value. This generalized linear model assumed that the SGTC seizure frequency was from a Poisson distribution with a canonical log link function.||0.22|-0.53|0.4109
92203133|NCT01262677|184304336|SUPERIORITY||LS Mean Difference|-1.38||||0.8268|TWO_SIDED|95.0|-12.97|11.75||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||11.75|-12.97|0.8268
92203134|NCT01262677|184304336|SUPERIORITY||LS Mean Difference|0.75||||0.9024|TWO_SIDED|95.0|-10.69|13.66||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||13.66|-10.69|0.9024
92327123|NCT04545567|184559263|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92327124|NCT04545567|184559264|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
92327125|NCT04545567|184559265|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
92327126|NCT04545567|184559266|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92327127|NCT04545567|184559267|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
92327128|NCT04545567|184559268|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.28
92327129|NCT04545567|184559269|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.05|TWO_SIDED||||||t-test, 1 sided|||||||0.05
92327130|NCT04545567|184559270|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
92327131|NCT04545567|184559271|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
92327132|NCT04545567|184559272|OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
92203135|NCT01262677|184304337|SUPERIORITY|||||||0.67||||||Statistical testing was done at alpha = 0.05 level, two-sided.|Cochran-Mantel-Haenszel|||A 2-sided Cochran-Mantel-Haenszel test stratified by geographical region (U.S., Europe, Asia, or Rest of the World) wtih percentage of responders summarized by treatment group was used to calculate the p-value.||||0.670
92203136|NCT01262677|184304337|SUPERIORITY|||||||0.927||||||Statistical testing was done at alpha = 0.05 level, two-sided.|Cochran-Mantel-Haenszel|||A 2-sided Cochran-Mantel-Haenszel test stratified by geographical region (U.S., Europe, Asia, or Rest of the World) wtih percentage of responders summarized by treatment group was used to calculate the p-value.||||0.927
92203137|NCT01262677|184304338|SUPERIORITY||LS Mean Difference|2.28||||0.8034|TWO_SIDED|95.0|-14.37|22.15||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||22.15|-14.37|0.8034
92203138|NCT01262677|184304338|SUPERIORITY||LS Mean Difference|-10.78||||0.1905|TWO_SIDED|95.0|-24.81|5.87||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||5.87|-24.81|0.1905
92203139|NCT01262677|184304339|SUPERIORITY||LS Mean Difference|-0.3||||0.465|TWO_SIDED|95.0|-1.1|0.5||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: HADS-A baseline score as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). No adjustments for multiplicity were taken.||0.5|-1.1|0.4650
92203140|NCT01262677|184304339|SUPERIORITY||LS Mean Difference|0.0||||0.9692|TWO_SIDED|95.0|-0.8|0.8||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: HADS-A baseline score as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). No adjustments for multiplicity were taken.||0.8|-0.8|0.9692
92203141|NCT01262677|184304340|SUPERIORITY||LS Mean Difference|-0.5||||0.2693|TWO_SIDED|95.0|-1.3|0.4||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: HADS-D baseline score as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). No adjustments for multiplicity were taken.||0.4|-1.3|0.2693
92203142|NCT01262677|184304340|SUPERIORITY||LS Mean Difference|-0.5||||0.1893|TWO_SIDED|95.0|-1.4|0.3||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: HADS-D baseline score as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). No adjustments for multiplicity were taken.||0.3|-1.4|0.1893
92203143|NCT01262677|184304341|SUPERIORITY||LS Mean Difference|-0.8||||0.7347|TWO_SIDED|95.0|-5.2|3.6||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep disturbance score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||3.6|-5.2|0.7347
92203144|NCT01262677|184304341|SUPERIORITY||LS Mean Difference|0.3||||0.8971|TWO_SIDED|95.0|-4.0|4.6||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep disturbance score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||4.6|-4.0|0.8971
92327133|NCT04545567|184559273|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92203145|NCT01262677|184304342|SUPERIORITY||LS Mean Difference|-2.7||||0.3972|TWO_SIDED|95.0|-9.1|3.6||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: snoring score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||3.6|-9.1|0.3972
92203146|NCT01262677|184304342|SUPERIORITY||LS Mean Difference|6.7||||0.0319|TWO_SIDED|95.0|0.6|12.9||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: snoring score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||12.9|0.6|0.0319
92327134|NCT04545567|184559274|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||||||0.49
92327135|NCT04545567|184559275|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
92327136|NCT03979807|184559276|OTHER||Adjusted Hazard Ratio|1.11|||||TWO_SIDED|95.0|1.06|1.17|||||Cox proportional hazard model. 'Treatment' is the only Independent variable used to estimate the hazard ratios. Umeclidinium/Vilanterol is Reference Group.|||1.17|1.06|
92327137|NCT02754674|184559277|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
92327138|NCT02754674|184559278|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
92203147|NCT01262677|184304343|SUPERIORITY||LS Mean Difference|0.8||||0.7708|TWO_SIDED|95.0|-4.4|5.9||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: awaken short of breath or with headache score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||5.9|-4.4|0.7708
92203148|NCT01262677|184304343|SUPERIORITY||LS Mean Difference|2.4||||0.356|TWO_SIDED|95.0|-2.7|7.4||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: awaken short of breath or with headache score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||7.4|-2.7|0.3560
92203149|NCT01262677|184304344|SUPERIORITY||LS Mean Difference|0.2||||0.1129|TWO_SIDED|95.0|-0.1|0.5||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: quantity of sleep at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||0.5|-0.1|0.1129
92203150|NCT01262677|184304344|SUPERIORITY||LS Mean Difference|0.0||||0.9388|TWO_SIDED|95.0|-0.3|0.3||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: quantity of sleep at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||0.3|-0.3|0.9388
92203151|NCT01262677|184304345|SUPERIORITY||LS Mean Difference|-0.4||||0.9053|TWO_SIDED|95.0|-7.5|6.6||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep adequacy score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||6.6|-7.5|0.9053
92203152|NCT01262677|184304345|SUPERIORITY||LS Mean Difference|-1.6||||0.6371|TWO_SIDED|95.0|-8.5|5.2||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep adequacy score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||5.2|-8.5|0.6371
92203153|NCT01262677|184304346|SUPERIORITY||LS Mean Difference|-6.4||||0.0119|TWO_SIDED|95.0|-11.4|-1.4||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep somnolence score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||-1.4|-11.4|0.0119
92203154|NCT01262677|184304346|SUPERIORITY||LS Mean Difference|0.0||||0.9909|TWO_SIDED|95.0|-4.9|4.8||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep somnolence score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||4.8|-4.9|0.9909
92203155|NCT01262677|184304347|SUPERIORITY||LS Mean Difference|-1.1||||0.5903|TWO_SIDED|95.0|-5.0|2.8||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep problems index I score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||2.8|-5.0|0.5903
92203156|NCT01262677|184304347|SUPERIORITY||LS Mean Difference|0.7||||0.7126|TWO_SIDED|95.0|-3.1|4.5||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep problems index I score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||4.5|-3.1|0.7126
92327139|NCT02754674|184559279|SUPERIORITY|Student's t-test or the Mann-Whitney U-test was used to analyze intergroup differences. The paired t-test or Wilcoxon signed rank test was used to analyze differences between pre- and postoperative values. The statistical significance level was set at .05.|||||>|0.05|||||||t-test, 2 sided|||We used the Kolmogorov-Smirnov test to assess the normality of the data distribution. Student's t-test or the Mann-Whitney U-test was used to analyze intergroup differences. The paired t-test or Wilcoxon signed rank test was used to analyze differences between pre- and postoperative values. Pearson's Chi-square test or Fisher's exact test was used to analyze categorical variables between groups. The statistical significance level was set at .05.||||>0.05
92203157|NCT01262677|184304348|SUPERIORITY||LS Mean Difference|-2.1||||0.2431|TWO_SIDED|95.0|-5.8|1.5||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep problems index II score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||1.5|-5.8|0.2431
92203158|NCT01262677|184304348|SUPERIORITY||LS Mean Difference|0.3||||0.8654|TWO_SIDED|95.0|-3.2|3.8||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep problems index II score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||3.8|-3.2|0.8654
92203159|NCT01262677|184304349|SUPERIORITY||Odds Ratio (OR)|1.36||||0.3241|TWO_SIDED|95.0|0.74|2.5||Statistical testing was done at alpha = 0.05 level, two-sided.|Regression, Logistic|||Logistic regression model was used to calculate the p-value, with the fixed effects for sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR), average hours per night of sleep at baseline as a coninuous covariate, and optimal sleep at Week 14 as dependent variable. No adjustments for multiplicity were taken.||2.50|0.74|0.3241
92327140|NCT02754674|184559280|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92327141|NCT02754674|184559281|SUPERIORITY|||||||0.054|||||||t-test, 2 sided|||||||0.054
92203160|NCT01262677|184304349|SUPERIORITY||Odds Ratio (OR)|0.96||||0.8932|TWO_SIDED|95.0|0.54|1.71||Statistical testing was done at alpha = 0.05 level, two-sided.|Regression, Logistic|||Logistic regression model was used to calculate the p-value, with the fixed effects for sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR), average hours per night of sleep at baseline as a coninuous covariate, and optimal sleep at Week 14 as dependent variable. No adjustments for multiplicity were taken.||1.71|0.54|0.8932
92203161|NCT00574873|184304360|SUPERIORITY_OR_OTHER|||||||0.667||||||p-value was based on a Cochran Mantel Haenszel test for general association between treatment and responder stratification by Sokal risk group (low, intermediate, high) and region (1 to 3) as determined at time of randomization.|Stratified Cochran-Mantel-Haenszel|||||||0.667
92203162|NCT00574873|184304361|SUPERIORITY_OR_OTHER|||||||0.002||||||p-value was based on a Cochran Mantel Haenszel test for general association between treatment and responder stratification by Sokal risk group (low, intermediate, high) and region (1 to 3) as determined at time of randomization.|Stratified Cochran-Mantel-Haenszel|||||||0.002
92203163|NCT00574873|184304362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.31|1.31|||||Hazard ratio (95% confidence interval) based on the treatment effect (bosutinib compared with imatinib) in a stratified (by Sokal risk group and region at randomization) Cox model for the hazard of the respective event.|||1.31|0.31|
92203164|NCT00574873|184304363|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.32|1.08|||||Hazard ratio (95% confidence interval) based on the treatment effect (bosutinib compared with imatinib) in a stratified (by Sokal risk group and region at randomization) Cox model for the hazard of the respective event.|||1.08|0.32|
92203165|NCT00574873|184304364|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.25|||||TWO_SIDED|95.0|0.9|11.72|||||Hazard ratio (95% confidence interval) based on the treatment effect (bosutinib compared with imatinib) in a stratified (by Sokal risk group and region at randomization) Cox model for the hazard of the respective event.|||11.72|0.90|
92203166|NCT00574873|184304365|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41|||||TWO_SIDED|95.0|0.13|1.29|||||The hazard ratio (95% confidence interval) is obtained from a Cox model for cause-specific hazard as a function of the covariate treatment (bosutinib compared with imatinib) with stratification by region and Sokal risk group at randomization.|||1.29|0.13|
92203167|NCT02187159|184304378|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.183||0.0008|TWO_SIDED|95.0|-0.97|-0.25|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||-0.25|-0.97|0.0008
92203168|NCT02187159|184304378|SUPERIORITY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.183||0.0392|TWO_SIDED|95.0|-0.74|-0.02|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||-0.02|-0.74|0.0392
92327142|NCT03626363|184559288|SUPERIORITY|We sought to have up to 20 participants complete each group so that we could have a statistical power of 0.89 to detect about a 4 burst per minute difference with an alpha of 0.05. We would have had sympathetic nerve data on up to 18 more of the 21 participants that we were not allowed to post-test in the spring of 2020 due to COVID-19 restrictions.|Mean Difference (Net)|-2.0||||0.51|TWO_SIDED||||||ANOVA|||Repeated measures analysis of variance with 2 groups (MBSR and SME) and 2 time points (Pre vs. Post). Outcome data reported is the change in the mean number of bursts per minute of muscle sympathetic nerve activity (MSNA) from pre to post.||||0.51
92203169|NCT02187159|184304378|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.183||0.2192|TWO_SIDED|95.0|-0.58|0.13|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||0.13|-0.58|0.2192
92203170|NCT02187159|184304378|SUPERIORITY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.184||0.2095|TWO_SIDED|95.0|-0.13|0.59|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||0.59|-0.13|0.2095
92203171|NCT02187159|184304378|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.185||0.0381|TWO_SIDED|95.0|0.02|0.75|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||0.75|0.02|0.0381
92203172|NCT02187159|184304380|SUPERIORITY||Mean Difference (Final Values)|-7.67|STANDARD_ERROR_OF_MEAN|1.598|<|0.0001|TWO_SIDED|95.0|-10.71|-4.44|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||-4.44|-10.71|<0.0001
92203173|NCT02187159|184304380|SUPERIORITY||Mean Difference (Final Values)|-3.52|STANDARD_ERROR_OF_MEAN|1.613||0.0289|TWO_SIDED|95.0|-6.68|-0.36|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||-0.36|-6.68|0.0289
92203174|NCT02187159|184304380|SUPERIORITY||Mean Difference (Final Values)|-2.56|STANDARD_ERROR_OF_MEAN|1.625||0.1148|TWO_SIDED|95.0|-5.75|0.62|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||0.62|-5.75|0.1148
92203175|NCT02187159|184304380|SUPERIORITY||Mean Difference (Final Values)|4.05|STANDARD_ERROR_OF_MEAN|1.621||0.0125|TWO_SIDED|95.0|0.87|7.23|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||7.23|0.87|0.0125
92203176|NCT02187159|184304380|SUPERIORITY||Mean Difference (Final Values)|5.01|STANDARD_ERROR_OF_MEAN|1.647||0.0023|TWO_SIDED|95.0|1.78|8.24|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||8.24|1.78|0.0023
92203177|NCT02187159|184304382|SUPERIORITY||Difference in least squares means|-1.2|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-1.8|-0.7|||ANCOVA|||||-0.7|-1.8|<0.0001
92203178|NCT02187159|184304382|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.29||0.0247|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||||-0.1|-1.2|0.0247
92203179|NCT02187159|184304382|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.29||0.0411|TWO_SIDED|95.0|-1.1|0.0|||ANCOVA|||||-0.0|-1.1|0.0411
92203180|NCT02187159|184304382|SUPERIORITY||Difference in least squares means|0.6|STANDARD_ERROR_OF_MEAN|0.29||0.0352|TWO_SIDED|95.0|0.0|1.2|||ANCOVA|||||1.2|0.0|0.0352
92203181|NCT02187159|184304382|SUPERIORITY||Difference in least squares means|0.7|STANDARD_ERROR_OF_MEAN|0.29||0.0214|TWO_SIDED|95.0|0.1|1.2|||ANCOVA|||||1.2|0.1|0.0214
92203182|NCT02187159|184304383|SUPERIORITY||Difference of least squares means|-0.9|STANDARD_ERROR_OF_MEAN|0.26||0.0003|TWO_SIDED|95.0|-1.5|-0.4|||ANCOVA|||Anxiety: Placebo vs Pregabalin 150 mg BID||-0.4|-1.5|0.0003
92203183|NCT02187159|184304383|SUPERIORITY||Difference of least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.26||0.5066|TWO_SIDED|95.0|-0.7|0.3|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg QD||0.3|-0.7|0.5066
92203184|NCT02187159|184304383|SUPERIORITY||Difference of least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.26||0.1462|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg BID||0.1|-0.9|0.1462
92203185|NCT02187159|184304383|SUPERIORITY||Difference of least squares means|0.8|STANDARD_ERROR_OF_MEAN|0.26||0.0035|TWO_SIDED|95.0|0.3|1.3|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg QD||1.3|0.3|0.0035
92203186|NCT02187159|184304383|SUPERIORITY||Difference in least squares means|0.6|STANDARD_ERROR_OF_MEAN|0.26||0.0338|TWO_SIDED|95.0|0.0|1.1|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg BID||1.1|0.0|0.0338
92203187|NCT02187159|184304383|SUPERIORITY||Difference in least squares means|-0.7|STANDARD_ERROR_OF_MEAN|0.28||0.0116|TWO_SIDED|95.0|-1.3|-0.2|||ANCOVA|||Depression: Placebo vs Pregabalin 150 mg BID||-0.2|-1.3|0.0116
92203188|NCT02187159|184304383|SUPERIORITY||Difference of least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.7085|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg QD||0.4|-0.7|0.7085
92203189|NCT02187159|184304383|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.28||0.9392|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg BID||0.6|-0.5|0.9392
92203190|NCT02187159|184304383|SUPERIORITY||Difference in least squares means|0.6|STANDARD_ERROR_OF_MEAN|0.28||0.0311|TWO_SIDED|95.0|0.1|1.2|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg QD||1.2|0.1|0.0311
92203191|NCT02187159|184304383|SUPERIORITY||Difference in least squares means|0.7|STANDARD_ERROR_OF_MEAN|0.28||0.0094|TWO_SIDED|95.0|0.2|1.3|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg BID||1.3|0.2|0.0094
92203192|NCT02187159|184304384|SUPERIORITY||Difference in least squares means|1.256|STANDARD_ERROR_OF_MEAN|0.6027||0.0373|TWO_SIDED|95.0|0.074|2.439|||ANCOVA|||Physical Component: Placebo vs Pregabalin||2.439|0.074|0.0373
92203193|NCT02187159|184304384|SUPERIORITY||Difference of least squares means|0.364|STANDARD_ERROR_OF_MEAN|0.602||0.5458|TWO_SIDED|95.0|-0.817|1.545|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg QD||1.545|-0.817|0.5458
92203194|NCT02187159|184304384|SUPERIORITY||Difference in least squares means|0.235|STANDARD_ERROR_OF_MEAN|0.6038||0.6968|TWO_SIDED|95.0|-0.949|1.42|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg BID||1.420|-0.949|0.6968
92203195|NCT02187159|184304384|SUPERIORITY||Difference in least squares means|-0.893|STANDARD_ERROR_OF_MEAN|0.6014||0.1379|TWO_SIDED|95.0|-2.073|0.287|||ANCOVA|||Physical Component: Pregabalin vs DS-5565 15 mg QD||0.287|-2.073|0.1379
92203196|NCT02187159|184304384|SUPERIORITY||Difference in least squares means|-1.021|STANDARD_ERROR_OF_MEAN|0.6033||0.0908|TWO_SIDED|95.0|-2.205|0.163|||ANCOVA|||Physical Component: Pregabalin vs DS-5565 15 mg BID||0.163|-2.205|0.0908
92203197|NCT02187159|184304384|SUPERIORITY||Difference in least squares means|1.89|STANDARD_ERROR_OF_MEAN|0.6965||0.0068|TWO_SIDED|95.0|0.523|3.256|||ANCOVA|||Mental Component: Placebo vs Pregabalin||3.256|0.523|0.0068
92203198|NCT02187159|184304384|SUPERIORITY||Difference in least squares means|0.406|STANDARD_ERROR_OF_MEAN|0.6956||0.5594|TWO_SIDED|95.0|-0.959|1.771|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg QD||1.771|-0.959|0.5594
92203199|NCT02187159|184304384|SUPERIORITY||Difference in least squares means|0.023|STANDARD_ERROR_OF_MEAN|0.6979||0.9736|TWO_SIDED|95.0|-1.346|1.392|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg BID||1.392|-1.346|0.9736
92203200|NCT02187159|184304384|SUPERIORITY||Difference in least squares means|-1.484|STANDARD_ERROR_OF_MEAN|0.6953||0.0331|TWO_SIDED|95.0|-2.848|-0.119|||ANCOVA|||Mental Component: Pregabalin vs DS-5565 15 mg QD||-0.119|-2.848|0.0331
92203201|NCT02187159|184304384|SUPERIORITY||Difference in least squares means|-1.867|STANDARD_ERROR_OF_MEAN|0.6976||0.0076|TWO_SIDED|95.0|-3.235|-0.498|||ANCOVA|||Mental Component: Pregabalin vs DS-5565 15 mg BID||-0.498|-3.235|0.0076
92203202|NCT02187159|184304385|SUPERIORITY||Difference in least squares means|0.0309|STANDARD_ERROR_OF_MEAN|0.01328||0.0201|TWO_SIDED|95.0|0.0048|0.057|||ANCOVA|||||0.0570|0.0048|0.0201
92203203|NCT02187159|184304385|SUPERIORITY||Difference of least squares means|0.0178|STANDARD_ERROR_OF_MEAN|0.01324||0.1798|TWO_SIDED|95.0|-0.0082|0.0438|||ANCOVA|||||0.0438|-0.0082|0.1798
92203204|NCT02187159|184304385|SUPERIORITY||Difference of least squares means|0.0071|STANDARD_ERROR_OF_MEAN|0.01329||0.5922|TWO_SIDED|95.0|-0.0189|0.0332|||ANCOVA|||||0.0332|-0.0189|0.5922
92203205|NCT02187159|184304385|SUPERIORITY||Difference in least squares means|-0.0131|STANDARD_ERROR_OF_MEAN|0.01326||0.3221|TWO_SIDED|95.0|-0.0392|0.0129|||ANCOVA|||||0.0129|-0.0392|0.3221
92203206|NCT02187159|184304385|SUPERIORITY||Difference in least squares means|-0.0238|STANDARD_ERROR_OF_MEAN|0.0133||0.0739|TWO_SIDED|95.0|-0.0499|0.0023|||ANCOVA|||||0.0023|-0.0499|0.0739
92203207|NCT02187159|184304386|SUPERIORITY||Difference in least squares means|-0.49|STANDARD_ERROR_OF_MEAN|0.153||0.0015|TWO_SIDED|95.0|-0.79|-0.19|||Mixed Models Analysis|||||-0.19|-0.79|0.0015
92203208|NCT02187159|184304386|SUPERIORITY||Difference in least squares means|-0.56|STANDARD_ERROR_OF_MEAN|0.153||0.0003|TWO_SIDED|95.0|-0.86|-0.26|||Mixed Models Analysis|||||-0.26|-0.86|0.0003
92203209|NCT02187159|184304386|SUPERIORITY||Difference in least squares means|-0.51|STANDARD_ERROR_OF_MEAN|0.153||0.0008|TWO_SIDED|95.0|-0.81|-0.21|||Mixed Models Analysis|||||-0.21|-0.81|0.0008
92203210|NCT02187159|184304386|SUPERIORITY||Difference in least squares means|-0.07|STANDARD_ERROR_OF_MEAN|0.154||0.6464|TWO_SIDED|95.0|-0.37|0.23|||Mixed Models Analysis|||||0.23|-0.37|0.6464
92203211|NCT02187159|184304386|SUPERIORITY||Difference in least squares means|-0.03|STANDARD_ERROR_OF_MEAN|0.154||0.8543|TWO_SIDED|95.0|-0.33|0.27|||Mixed Models Analysis|||||0.27|-0.33|0.8543
92203212|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.19||0.0014|TWO_SIDED|95.0|-1.0|0.2|||ANCOVA|||Worst pain: Placebo vs Pregabalin 150 mg BID||0.2|-1.0|0.0014
92203213|NCT02187159|184304388|SUPERIORITY||Difference of least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.1285|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg QD||0.1|-0.7|0.1285
92203214|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.6595|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg BID||0.3|-0.5|0.6595
92203215|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.19||0.0938|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.1|0.0938
92203216|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0061|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|0.1|0.0061
92327143|NCT03626363|184559289|SUPERIORITY|To detect a 0.5 meter per second change in carotid-to-femoral pulse wave velocity with at least 80% power with an alpha of 0.05 we should have had at least 12 participants complete measurements in each group (MBSR and SME). We fell a little short of that in the MBSR group and met the 12 participants in the SME group. The number of participants we were able to study from pre to post was limited by COVID-19 restrictions.|Mean Difference (Net)|-0.2||||0.25|TWO_SIDED||||||ANOVA|||Repeated measures analysis of variance with 2 groups (MBSR and SME) and 2 time points (Pre vs. Post). Outcome data reported is the change in carotid-to-femoral pulse wave velocity in meters per second from pre to post. We had 21 participants in the spring of 2020 that were were not allowed to bring into the laboratory for post testing during COVID-19 restrictions which led to our limited sample size.||||0.25
92327144|NCT01556997|184559321|SUPERIORITY_OR_OTHER|||||||0.025|ONE_SIDED|||||The statistical model was an analysis of covariance model with treatment as the main effect and baseline DBP (\<100 mmHg versus ≥100 mmHg), current type 2 diabetes status (yes versus no), and race (black versus non-black) as covariates.|ANCOVA|||||||0.025
92203217|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0235|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||Least pain: Placebo vs Pregabalin 150 mg BID||-0.1|-0.8|0.0235
92203218|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.3652|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg QD||0.2|-0.5|0.3652
92203219|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.6885|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg BID||0.3|-0.4|0.6885
92203220|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.18||0.1726|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.1|0.1726
92203221|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0627|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.0|0.0627
92203222|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.16||0.0026|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|||Average pain: Placebo vs Pregabalin 150 mg BID||-0.2|-0.8|0.0026
92203223|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.1362|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg QD||0.1|-0.6|0.1362
92203224|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.16||0.4344|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg BID||0.2|-0.4|0.4344
92203225|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.16||0.1264|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.1|0.1264
92203226|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.16||0.026|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|0.0|0.0260
92203227|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0002|TWO_SIDED|95.0|-1.1|-0.4|||ANCOVA|||Pain right now: Placebo vs Pregabalin 150 mg BID||-0.4|-1.1|0.0002
92203228|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0597|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg QD||0.0|-0.8|0.0597
92203229|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1198|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg BID||0.1|-0.7|0.1198
92203230|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.563|STANDARD_ERROR_OF_MEAN|0.1644||0.0006|TWO_SIDED|95.0|-0.885|-0.24|||ANCOVA|||Severity score: Placebo vs Pregabalin 150 mg BID||-0.240|-0.885|0.0006
92203231|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.261|STANDARD_ERROR_OF_MEAN|0.164||0.1118|TWO_SIDED|95.0|-0.583|0.061|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg QD||0.061|-0.583|0.1118
92203232|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.142|STANDARD_ERROR_OF_MEAN|0.1646||0.387|TWO_SIDED|95.0|-0.465|0.18|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg BID||0.180|-0.465|0.3870
92203233|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.302|STANDARD_ERROR_OF_MEAN|0.1642||0.0633|TWO_SIDED|95.0|-0.02|0.624|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.624|-0.020|0.0633
92203234|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.42|STANDARD_ERROR_OF_MEAN|0.1647||0.0108|TWO_SIDED|95.0|0.097|0.744|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.744|0.097|0.0108
92203235|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|7.5|STANDARD_ERROR_OF_MEAN|2.41||0.002|TWO_SIDED|95.0|2.7|12.2|||ANCOVA|||Relief by treatment of pain: Placebo vs Pregabalin 150 mg BID||12.2|2.7|0.0020
92203236|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|3.0|STANDARD_ERROR_OF_MEAN|2.41||0.2188|TWO_SIDED|95.0|-1.8|7.7|||ANCOVA|||Relief by treatment of pain: Placebo vs DS-5565 15 mg QD||7.7|-1.8|0.2188
92203237|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|4.0|STANDARD_ERROR_OF_MEAN|2.41||0.0991|TWO_SIDED|95.0|-0.8|8.7|||ANCOVA|||Relief by treatment of pain: Placebo vs DS-5565 15 mg BID||8.7|-0.8|0.0991
92203238|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-4.5|STANDARD_ERROR_OF_MEAN|2.41||0.0611|TWO_SIDED|95.0|-9.2|0.2|||ANCOVA|||Relief by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.2|-9.2|0.0611
92203239|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-3.5|STANDARD_ERROR_OF_MEAN|2.41||0.1489|TWO_SIDED|95.0|-8.2|1.2|||ANCOVA|||Relief by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||1.2|-8.2|0.1489
92203240|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-6.04|STANDARD_ERROR_OF_MEAN|1.751||0.0006|TWO_SIDED|95.0|-9.47|-2.6|||ANCOVA|||Interference: Placebo vs Pregabalin 150 mg BID||-2.60|-9.47|0.0006
92203241|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-4.09|STANDARD_ERROR_OF_MEAN|1.747||0.0193|TWO_SIDED|95.0|-7.52|-0.67|||ANCOVA|||Interference: Placebo vs DS-5565 15 mg QD||-0.67|-7.52|0.0193
92203242|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-1.64|STANDARD_ERROR_OF_MEAN|1.752||0.3506|TWO_SIDED|95.0|-5.07|1.8|||ANCOVA|||Interference: Placebo vs DS-5565 15 mg BID||1.80|-5.07|0.3506
92203243|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|1.94|STANDARD_ERROR_OF_MEAN|1.748||0.266|TWO_SIDED|95.0|-1.48|5.37|||ANCOVA|||Interference: Pregabalin 150 mg BID vs DS-5565 15 mg QD||5.37|-1.48|0.2660
92203244|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|4.4|STANDARD_ERROR_OF_MEAN|1.754||0.0122|TWO_SIDED|95.0|0.96|7.84|||ANCOVA|||Interference: Pregabalin 150 mg BID vs DS-5565 15 mg BID||7.84|0.96|0.0122
92203245|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0119|TWO_SIDED|95.0|-0.9|-0.1|||ANCOVA|||General activity: Placebo vs Pregabalin 150 mg BID||-0.1|-0.9|0.0119
92203246|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0659|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||General activity: Placebo vs DS-5565 15 mg QD||0.0|-0.8|0.0659
92203247|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5104|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||General activity: Placebo vs DS-5565 15 mg BID||0.3|-0.5|0.5104
92203248|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.4934|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||General activity: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.3|0.4934
92203249|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0634|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||General activity: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.8|-0.0|0.0634
92203250|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.0007|TWO_SIDED|95.0|-1.1|-0.3|||ANCOVA|||Mood: Placebo vs Pregabalin 150 mg BID||-0.3|-1.1|0.0007
92327145|NCT01556997|184559322|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED|||||The statistical model was an analysis of covariance model with treatment as the main effect and baseline DBP (\<100 mmHg versus ≥100 mmHg), current type 2 diabetes status (yes versus no), and race (black versus non-black) as covariates.|ANCOVA|||||||0.025
92203251|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0837|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Mood: Placebo vs DS-5565 15 mg QD||0.0|-0.8|0.0837
92203252|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.2379|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Mood: Placebo vs DS-5565 15 mg BID||0.2|-0.7|0.2379
92203253|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.098|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Mood: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|-0.1|0.0980
92203254|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0283|TWO_SIDED|95.0|0.0|0.9|||ANCOVA|||Mood: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|0.0|0.0283
92203255|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.2179|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Walking ability: Placebo vs Pregabalin 150 mg BID||0.2|-0.7|0.2179
92327146|NCT05459558|184559323|SUPERIORITY||||||<|0.0001||||||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Test for non-zero within group change from Baseline.||||<0.0001
92327147|NCT05459558|184559323|SUPERIORITY||||||<|0.0001||||||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Test for non-zero within group change from Baseline.||||<0.0001
92327148|NCT05459558|184559324|SUPERIORITY||||||<|0.0001|||||||Mixed Models with Repeated Measures|||Test for non-zero within group change from Baseline.||||<0.0001
92203256|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.6683|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Walking ability: Placebo vs DS-5565 15 mg QD||0.3|-0.5|0.6683
92203257|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.2247|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Walking ability: Placebo vs DS-5565 15 mg BID||0.7|-0.2|0.2247
92203258|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.4198|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Walking ability: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.2|0.4198
92203259|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0146|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Walking ability: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|0.1|0.0146
92203260|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0662|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Normal work: Placebo vs Pregabalin 150 mg BID||0.0|-0.8|0.0662
92203261|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.2282|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Normal work: Placebo vs DS-5565 15 mg QD||0.2|-0.7|0.2282
92203262|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.7336|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Normal work: Placebo vs DS-5565 15 mg BID||0.3|-0.5|0.7336
92203263|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.524|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Normal work: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.3|0.5240
92203264|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1349|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Normal work: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.1|0.1349
92203265|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0464|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Relations with other people: Placebo vs Pregabalin 150 mg BID||-0.0|-0.8|0.0464
92203266|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.0975|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Relations with other people: Placebo vs DS-5565 15 mg QD||0.1|-0.7|0.0975
92203267|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.6088|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Relations with other people: Placebo vs DS-5565 15 mg BID||0.5|-0.3|0.6088
92203268|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.7341|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Relations with other people: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.3|0.7341
92203269|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0125|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Relations with other people: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|0.1|0.0125
92327149|NCT05459558|184559324|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Test for non-zero within group change from Baseline.||||<0.0001
92203270|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-1.0|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.4|-0.5|||ANCOVA|||Sleep: Placebo vs Pregabalin 150 mg BID||-0.5|-1.4|<0.0001
92203271|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.23||0.0003|TWO_SIDED|95.0|-1.3|-0.4|||ANCOVA|||Sleep: Placebo vs DS-5565 15 mg QD||-0.4|-1.3|0.0003
92203272|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.7|STANDARD_ERROR_OF_MEAN|0.23||0.004|TWO_SIDED|95.0|-1.1|-0.2|||ANCOVA|||Sleep: Placebo vs DS-5565 15 mg BID||-0.2|-1.1|0.0040
92203273|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.23||0.5801|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||Sleep: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.3|0.5801
92203274|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.23||0.1869|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Sleep: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.1|0.1869
92203275|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.22||0.0002|TWO_SIDED|95.0|-1.3|-0.4|||ANCOVA|||Enjoyment of life: Placebo vs Pregabalin 150 mg BID||-0.4|-1.3|0.0002
92203276|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0271|TWO_SIDED|95.0|-0.9|-0.1|||ANCOVA|||Enjoyment of life: Placebo vs DS-5565 15 mg QD||-0.1|-0.9|0.0271
92327150|NCT05459558|184559325|SUPERIORITY||Mean Difference (Final Values)|-1.75|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-1.88|-1.62|||Mixed Model with Repeated Measures|||Week 4||-1.62|-1.88|<0.0001
92203277|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.1123|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||Enjoyment of life: Placebo vs DS-5565 15 mg BID||0.1|-0.8|0.1123
92203278|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1183|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Enjoyment of life: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|-0.1|0.1183
92203279|NCT02187159|184304388|SUPERIORITY||Difference in least squares means|0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0299|TWO_SIDED|95.0|0.0|0.9|||ANCOVA|||Enjoyment of life: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|0.0|0.0299
92203280|NCT02187159|184304389|SUPERIORITY||Difference in least squares means|-0.015|STANDARD_ERROR_OF_MEAN|0.0249||0.5578|TWO_SIDED|95.0|-0.063|0.034|||ANCOVA|||||0.034|-0.063|0.5578
92327151|NCT05459558|184559325|SUPERIORITY||Mean Difference (Final Values)|-1.74|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-1.87|-1.61|||Mixed Model with Repeated Measures|||Week 4||-1.61|-1.87|<0.0001
92327152|NCT05459558|184559325|SUPERIORITY||Mean Difference (Final Values)|-1.95|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001|TWO_SIDED|95.0|-2.08|-1.81||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Week 8||-1.81|-2.08|<0.0001
92203281|NCT02187159|184304389|SUPERIORITY||Difference in least squares means|-0.009|STANDARD_ERROR_OF_MEAN|0.0248||0.7034|TWO_SIDED|95.0|-0.058|0.039|||ANCOVA|||||0.039|-0.058|0.7034
92203282|NCT02187159|184304389|SUPERIORITY||Difference in least squares means|-0.02|STANDARD_ERROR_OF_MEAN|0.0249||0.4143|TWO_SIDED|95.0|-0.069|0.028|||ANCOVA|||||0.028|-0.069|0.4143
92203283|NCT02187159|184304389|SUPERIORITY||Difference in least squares means|0.005|STANDARD_ERROR_OF_MEAN|0.0249||0.8365|TWO_SIDED|95.0|-0.044|0.054|||ANCOVA|||||0.054|-0.044|0.8365
92203284|NCT02187159|184304389|SUPERIORITY||Difference in least squares means|-0.006|STANDARD_ERROR_OF_MEAN|0.0249||0.8189|TWO_SIDED|95.0|-0.055|0.043|||ANCOVA|||||0.043|-0.055|0.8189
92203285|NCT00567567|184304393|SUPERIORITY_OR_OTHER_LEGACY||Log Rank Test Statistic|6.9883||||0.0082|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients randomized to Regimen A - Single HST (CEM) and randomized to Regimen B - Tandem HST (CEM) were compared using the log-rank test.||||0.0082
92203286|NCT00567567|184304394|SUPERIORITY_OR_OTHER_LEGACY||Chi-squared test statistic|8.5751||||0.0034|TWO_SIDED|95.0|||||Chi-squared|||Chi-square test of proportions in all patients to compare the proportion of responders (complete response \[CR\]+ very good partial response \[VGPR\]) at the end of induction therapy in this study to an analogous cohort of responders in A3973.||||0.0034
92203287|NCT00567567|184304395|SUPERIORITY_OR_OTHER_LEGACY||Gray's test statistic|0.33709||||0.5615|TWO_SIDED|95.0|||||Gray's test for competing risks|||The cumulative incidence rates of local recurrence between patients from ANBL0532 randomized or assigned to receive single CEM transplant and boost radiation and A3973 patients who were transplanted and received boost radiation were compared using Gray's test.||||0.5615
92203288|NCT00567567|184304396|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.0557||||0.0939|TWO_SIDED|95.0|||||Regression, Logistic|||||||0.0939
92203289|NCT00567567|184304397|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.0543||||0.3277|TWO_SIDED|95.0|||||Regression, Logistic|||||||0.3277
92203290|NCT00567567|184304398|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4328||||0.7598|TWO_SIDED|95.0|0.4105|5.001|||Fisher Exact|Fisher's exact test was used instead of chi-square test due to small expected cell counts.||Null Hypothesis: The response rate after two cycles of induction therapy and the presence of a polymorphism are independent in the study population||5.001|0.4105|0.7598
92203291|NCT00567567|184304402|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.015||||0.6853|TWO_SIDED|95.0|||||Regression, Cox|||The relationship between the peak serum isotretinoin concentration level with event-free survival was explored with a Cox proportional hazards model. Eligible patients treated with isotretinoin on A3973, ANBL0032, ANBL0532, or ANBL0931 with peak serum concentration level data were included in the analysis.||||0.6853
92203292|NCT03433677|184304410|SUPERIORITY||Median Difference (Final Values)|0.0||||0.375|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon signed-rank test|||||0.00|0.00|0.375
92203293|NCT03433677|184304411|SUPERIORITY|||||||0.468|||||||Prescott's Exact test|||||||0.468
92203294|NCT03433677|184304412|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
92203295|NCT03433677|184304413|SUPERIORITY||LSMean Difference|-1.8||||0.304|TWO_SIDED|95.0|-5.3|1.7|||Mixed Models Analysis|||||1.7|-5.3|0.304
92203296|NCT03433677|184304414|SUPERIORITY||LSMean Difference|-2.4||||0.057|TWO_SIDED|95.0|-4.8|0.1|||Mixed Models Analysis|||||0.1|-4.8|0.057
92203297|NCT03433677|184304415|SUPERIORITY||LSMeans|0.11||||0.177|TWO_SIDED|95.0|-0.05|0.27|||Mixed Models Analysis||LSMean Difference|||0.27|-0.05|0.177
92327153|NCT05459558|184559325|SUPERIORITY||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001|TWO_SIDED|95.0|-2.18|-1.9||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Week 8||-1.90|-2.18|<0.0001
92203298|NCT04833127|184304454|EQUIVALENCE|Null hypothesis: no difference between the groups|Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.56|1.8||generalized linear models (GLM) and generalized estimating equations (GEE) for clustering within recruitment chain|GLM (logit link) with GEE|||||1.80|0.56|1.0
92203299|NCT04833127|184304454|EQUIVALENCE|Null H: No difference between the groups|Odds Ratio (OR)|1.13||||0.69|TWO_SIDED|95.0|0.62|2.07||GLM with GEE to account for clustering by recruitment chain.|GLM (logit link) with GEE|Adjusted for age, education, if has a main male partner, which differed between the two groups at baseline.||||2.07|0.62|0.69
92203300|NCT04833127|184304455|EQUIVALENCE|Null hypothesis: No difference between the groups.|Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.35|2.85|||GLM with GEE|GLM with GEE accounting for clustering by recruitment chain||||2.85|0.35|1.00
92203301|NCT04833127|184304455|EQUIVALENCE|Null H: No difference between the 2 groups|Odds Ratio (OR)|0.95||||0.927|TWO_SIDED|95.0|0.31|2.9||GLM (logit link) with GEE to account for clustering by recruitment chain|GLM (logit link) with GEE|adjusted for baseline differences in age, educational status, and whether has a primary male partner.||||2.90|0.31|0.927
92203302|NCT04833127|184304456|EQUIVALENCE|Null Hypothesis: No difference between the groups|Odds Ratio (OR)|1.72||||0.215|TWO_SIDED|95.0|0.73|4.04|||GLM (logit link) with GEE|Used GEE to account for clustering by recruitment chain.||||4.04|0.73|0.215
92203303|NCT04833127|184304456|EQUIVALENCE|Null hypothesis: No difference between the groups|Odds Ratio (OR)|1.64||||0.295|TWO_SIDED|95.0|0.65|4.13|||GLM (logit link) with GEE|GEE used to account for clustering by recruitment chain|adjusted for baseline differences in age, education, and whether has a main male partner.|||4.13|0.65|0.295
92327154|NCT05459558|184559326|SUPERIORITY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.097|<|0.0001|TWO_SIDED|95.0|-1.0|-0.62|||Mixed Model with Repeated Measures|||Week 4||-0.62|-1.00|<0.0001
92327155|NCT05459558|184559326|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.097|<|0.0001|TWO_SIDED|95.0|-0.79|-0.41|||Mixed Model with Repeated Measures|||Week 4||-0.41|-0.79|<0.0001
92203304|NCT02383940|184304469|SUPERIORITY||Least squares mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.207||0.1|TWO_SIDED|95.0|-0.76|0.06||Threshold for significance = 0.05|MMRM||Difference is sotagliflozin - placebo|Between-group comparison was based on MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week-4 A1C (\<=10%, \>10%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline A1C-by-time interaction as a covariate.||0.06|-0.76|0.10
92203305|NCT02672852|184304477|OTHER||Adjusted percentage difference|70.8|||<|0.001|TWO_SIDED|95.0|65.7|76.0|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the Cochran-Mantel-Haenszel (CMH) test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||76.0|65.7|< 0.001
92203306|NCT02672852|184304478|OTHER||Adjusted percentage difference|76.5|||<|0.001|TWO_SIDED|95.0|70.4|82.5|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||82.5|70.4|< 0.001
92327156|NCT05459558|184559326|SUPERIORITY||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-2.06|-1.31||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Week 8||-1.31|-2.06|<0.0001
92327157|NCT05459558|184559326|SUPERIORITY||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.191|<|0.0001|TWO_SIDED|95.0|-2.19|-1.44||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Week 8||-1.44|-2.19|<0.0001
92327158|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-2.23|STANDARD_ERROR_OF_MEAN|0.092|<|0.0001|TWO_SIDED|95.0|-2.41|-2.05|||Mixed Model with Repeated Measures|||Gingival Sites, Week 4||-2.05|-2.41|<0.0001
92203307|NCT02672852|184304479|OTHER||Adjusted percentage difference|25.9|||<|0.001|TWO_SIDED|95.0|17.3|34.6|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||34.6|17.3|< 0.001
92203308|NCT02672852|184304480|OTHER||Adjusted percentage difference|80.6|||<|0.001|TWO_SIDED|95.0|74.5|86.6|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||86.6|74.5|< 0.001
92203309|NCT02672852|184304481|OTHER||Adjusted percentage difference|45.5|||<|0.001|TWO_SIDED|95.0|40.3|50.8|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||50.8|40.3|< 0.001
92203310|NCT02672852|184304482|OTHER||Adjusted percentage difference|44.8|||<|0.001|TWO_SIDED|95.0|39.5|50.0|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||50.0|39.5|< 0.001
92203311|NCT02672852|184304483|OTHER||Adjusted percentage difference|62.1|||<|0.001|TWO_SIDED|95.0|56.4|67.9|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||67.9|56.4|< 0.001
92203312|NCT02672852|184304484|OTHER||Adjusted percentage difference|73.9|||<|0.001|TWO_SIDED|95.0|66.0|81.9|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||81.9|66.0|< 0.001
92327159|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-2.23|STANDARD_ERROR_OF_MEAN|0.092|<|0.0001|TWO_SIDED|95.0|-2.41|-2.05|||Mixed Model with Repeated Measures|||Gingival Sites, Week 4||-2.05|-2.41|<0.0001
92327160|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.095|<|0.0001|TWO_SIDED|95.0|-2.69|-2.31|||Mixed Model with Repeated Measures|||Gingival Sites, Week 8||-2.31|-2.69|<0.0001
92327161|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|0.095|<|0.0001|TWO_SIDED|95.0|-2.81|-2.44|||Mixed Model with Repeated Measures|||Gingival Sites, Week 8||-2.44|-2.81|<0.0001
92327162|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001|TWO_SIDED|95.0|-2.22|-1.91|||Mixed Model with Repeated Measures|||Interproximal Sites, Week 4||-1.91|-2.22|<0.0001
92203313|NCT02672852|184304485|OTHER||Adjusted percentage difference|21.2|||<|0.001|TWO_SIDED|95.0|13.7|28.7|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||28.7|13.7|< 0.001
92203314|NCT02672852|184304486|OTHER||Adjusted percentage difference|33.1|||<|0.001|TWO_SIDED|95.0|24.0|42.2|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||42.2|24.0|< 0.001
92203315|NCT02672852|184304487|OTHER||Adjusted percentage difference|33.7|||<|0.001|TWO_SIDED|95.0|23.2|44.2|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||44.2|23.2|< 0.001
92203316|NCT02917603|184304628|EQUIVALENCE|Null hypothesis is that there would be no mean difference between baseline and last measure between intervention and control groups with p\<.05|Mean Difference (Net)|0.12|||<|0.009|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis is that the mean differences between baseline and last measure in the PHQ- 9 score will not differ between groups. Study is powered a two-tailed test of significance, allowing the detection of a significant difference in either direction and the following assumptions: expected difference in PHQ-9 is 5 points, the documented clinically significant effect;78 (2) the variance of scores is 5.33; (3) error protection: α =.10, β = .20 and, (4) anticipated attrition of 15%||||<.009
92203317|NCT02917603|184304629|EQUIVALENCE|Null hypothesis is there will be the mean differences between baseline scores will be the same between groups. Study powered after primary outcome measure.|Mean Difference (Net)|0.46|||<|0.21|TWO_SIDED||||||t-test, 2 sided|||||||<.21
92203318|NCT02917603|184304630|EQUIVALENCE|Null hypothesis is there will be the mean differences between baseline scores will be the same between groups. Study powered after primary outcome measure.|Mean Difference (Net)|1.02|||<|0.06|TWO_SIDED||||||t-test, 2 sided|||||||<.06
92203319|NCT02917603|184304631|EQUIVALENCE|Null hypothesis is there will be the mean differences between baseline scores will be the same between groups. Study powered after primary outcome measure.|Mean Difference (Net)|0.23|||<|0.73|TWO_SIDED||||||t-test, 2 sided|||||||<.73
92203320|NCT03746392|184304678|SUPERIORITY|||||||0.036|||||||Fisher Exact|||||||0.036
92203321|NCT00558792|184304703|SUPERIORITY_OR_OTHER|||||||0.0099||95.0|||||Chi-squared|||||||0.0099
92203322|NCT00558792|184304704|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
92203323|NCT00558792|184304705|SUPERIORITY_OR_OTHER|||||||0.1212||95.0|||||Chi-squared|||||||0.1212
92203324|NCT00558792|184304707|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||||||0.0200
92203325|NCT00558792|184304708|SUPERIORITY_OR_OTHER|||||||0.0044||95.0|||||ANOVA|||||||0.0044
92203326|NCT00558792|184304709|SUPERIORITY_OR_OTHER|||||||0.0371||95.0|||||ANOVA|||||||0.0371
92203327|NCT00558792|184304710|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|14.1||||0.2758|TWO_SIDED|95.0|-11.4|39.6||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||39.6|-11.4|0.2758
92203328|NCT00558792|184304710|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|12.3||||0.3102|TWO_SIDED|95.0|-11.1|35.6||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||35.6|-11.1|0.3102
92203329|NCT00558792|184304710|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|1.9||||0.8893|TWO_SIDED|95.0|-24.6|28.4||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||28.4|-24.6|0.8893
92203330|NCT00558792|184304711|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-1.7||||0.2511|TWO_SIDED|95.0|-4.7|1.3||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||1.3|-4.7|0.2511
92203331|NCT00558792|184304711|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|1.3||||0.4985|TWO_SIDED|95.0|-2.6|5.3||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||5.3|-2.6|0.4985
92203332|NCT00558792|184304711|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-3.1||||0.0693|TWO_SIDED|95.0|-6.5|0.4||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||0.4|-6.5|0.0693
92203333|NCT00558792|184304712|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|-1.5||||0.9104|TWO_SIDED|95.0|-27.9|24.8||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||24.8|-27.9|0.9104
92203334|NCT00558792|184304712|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|-12.6||||0.2857|TWO_SIDED|95.0|-35.7|10.5||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||10.5|-35.7|0.2857
92203335|NCT00558792|184304712|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|11.1||||0.3664|TWO_SIDED|95.0|-13.3|35.5||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||35.5|-13.3|0.3664
92203336|NCT00558792|184304713|SUPERIORITY_OR_OTHER||Difference in Specifcity between Doses|-3.7||||0.1322|TWO_SIDED|95.0|-8.7|1.2||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||1.2|-8.7|0.1322
92327163|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001|TWO_SIDED|95.0|-2.2|-1.89|||Mixed Model with Repeated Measures|||Interproximal Sites, Week 4||-1.89|-2.20|<0.0001
92327164|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-2.29|STANDARD_ERROR_OF_MEAN|0.081|<|0.0001|TWO_SIDED|95.0|-2.45|-2.13|||Mixed Model with Repeated Measures|||Interproximal Sites, Week 8||-2.13|-2.45|<0.0001
92203337|NCT00558792|184304713|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-1.3||||0.6381|TWO_SIDED|95.0|-6.9|4.2||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||4.2|-6.9|0.6381
92203338|NCT00558792|184304713|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-2.4||||0.3217|TWO_SIDED|95.0|-7.2|2.4||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||2.4|-7.2|0.3217
92203339|NCT00558792|184304714|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|7.6||||0.5843|TWO_SIDED|95.0|-19.6|34.7||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||34.7|-19.6|0.5843
92203340|NCT00558792|184304714|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|4.6||||0.7197|TWO_SIDED|95.0|-20.5|29.7||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||29.7|-20.5|0.7197
92203341|NCT00558792|184304714|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|3.0||||0.8292|TWO_SIDED|95.0|-24.1|30.1||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||30.1|-24.1|0.8292
92203342|NCT00558792|184304715|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-4.2||||0.0888|TWO_SIDED|95.0|-9.0|0.7||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||0.7|-9.0|0.0888
92203343|NCT00558792|184304715|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-0.8||||0.7796|TWO_SIDED|95.0|-6.4|4.8||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||4.8|-6.4|0.7796
92203344|NCT00558792|184304715|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-3.4||||0.1662|TWO_SIDED|95.0|-8.2|1.5||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||1.5|-8.2|0.1662
92327165|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-2.41|STANDARD_ERROR_OF_MEAN|0.082|<|0.0001|TWO_SIDED|95.0|-2.57|-2.25|||Mixed Model with Repeated Measures|||Interproximal Sites, Week 8||-2.25|-2.57|<0.0001
92203345|NCT00215137|184304749|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||A Wilcoxon Signed Rank test was performed on the difference between the open label endpoint and baseline YBOCS scores.||||0.0002
92203346|NCT00215137|184304749|SUPERIORITY_OR_OTHER|||||||0.0417|TWO_SIDED|95.0|||||Wilcoxon Rank Sum Test|||A Wilcoxon Rank Sum Test was performed on the difference in the pre and post randomization YBOCS scores, using grouping to either escitalopram or placebo as a grouping variable.||||.0417
92203347|NCT03333876|184304750|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Each group was compared to baseline.||||<.001
92203348|NCT00095498|184304762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.264|||||||van Elteren stratified rank test|||||||0.264
92203349|NCT00095498|184304762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||van Elteren stratified rank test|||||||0.018
92203350|NCT00095498|184304763|SUPERIORITY_OR_OTHER_LEGACY|||||||0.032|||||||van Elteren Stratified Rank Test|||||||0.032
92203351|NCT00095498|184304763|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|||||||van Elteren Stratified Rank Test|||||||0.180
92203352|NCT00095498|184304764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.602|||||||van Elteren Stratified Rank Test|||||||0.602
92203353|NCT00095498|184304764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.181|||||||van Elteren Stratified Rank Test|||||||0.181
92203354|NCT00095498|184304765|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||van Elteren Stratified Rank Test|||||||0.012
92203355|NCT00095498|184304765|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||van Elteren Stratified Rank Test|||||||0.007
92203356|NCT00095498|184304766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.277|||||||van Elteren Stratified Rank Test|||||||0.277
92203357|NCT00095498|184304766|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019|||||||van Elteren Stratified Rank Test|||||||0.019
92203358|NCT00095498|184304767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.382|||||||van Elteren Stratified Rank Test|||||||0.382
92203359|NCT00095498|184304767|SUPERIORITY_OR_OTHER_LEGACY|||||||0.488|||||||van Elteren Stratified Rank Test|||||||0.488
92203360|NCT00095498|184304768|SUPERIORITY_OR_OTHER_LEGACY|||||||0.236|||||||van Elteren Stratified Rank Test|||||||0.236
92203361|NCT00095498|184304768|SUPERIORITY_OR_OTHER_LEGACY|||||||0.712|||||||van Elteren Stratified Rank Test|||||||0.712
92203362|NCT00095498|184304769|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93||||0.026||95.0|0.11|1.74|||Repeated Measures Model|||||1.74|0.11|0.026
92203363|NCT00095498|184304769|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.59||||0.155||95.0|-0.23|1.41|||Repeated measures model|||||1.41|-0.23|0.155
92203364|NCT00095498|184304770|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.67||||0.002||95.0|0.62|2.72|||Repeated Measures Model|||||2.72|0.62|0.002
92203365|NCT00095498|184304770|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.89|||<|0.001||95.0|0.84|2.94|||Repeated Measures Model|||||2.94|0.84|<0.001
92203366|NCT00095498|184304771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.2|||<|0.001||95.0|1.1|3.29|||Repeated Measures Model|||||3.29|1.1|<0.001
92203367|NCT00095498|184304771|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.29|||<|0.001||95.0|2.18|4.39|||Repeated Measures Model|||||4.39|2.18|<0.001
92203368|NCT00095498|184304772|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01||||0.986||95.0|-1.06|1.08|||Repeated Measures Model|||||1.08|-1.06|0.986
92203369|NCT00095498|184304772|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8||||0.141||95.0|-0.27|1.86|||Repeated Measures Model|||||1.86|-0.27|0.141
92203370|NCT00095498|184304773|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.95||||0.073||95.0|-0.09|1.99|||Repeated Measures Model|||||1.99|-0.09|0.073
92327166|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.76|-0.5|||Mixed Model with Repeated Measures|||Body Sites, Week 4||-0.50|-0.76|<0.0001
92327167|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.77|-0.51|||Mixed Model with Repeated Measures|||Body Sites, Week 4||-0.51|-0.77|<0.0001
92203371|NCT00095498|184304773|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.89||||0.09||95.0|-0.14|1.93|||Repeated Measures Model|||||1.93|-0.14|0.09
92203372|NCT00095498|184304774|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.81||||0.007||95.0|0.51|3.12|||Repeated Measures Model|||||3.12|0.51|0.007
92203373|NCT00095498|184304774|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.98||||0.003||95.0|0.67|3.29|||Repeated Measures Model|||||3.29|0.67|0.003
92203374|NCT00095498|184304775|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.938||95.0|-0.58|0.63|||Repeated Measures Model|||||0.63|-0.58|0.938
92203375|NCT00095498|184304775|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08||||0.787||95.0|-0.53|0.69|||Repeated Measures Model|||||0.69|-0.53|0.787
92203376|NCT00095498|184304776|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.004||95.0|0.33|1.67|||Repeated Measures Model|||||1.67|0.33|0.004
92203377|NCT00095498|184304776|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.18|||<|0.001||95.0|0.51|1.85|||Repeated Measures Model|||||1.85|0.51|<0.001
92203378|NCT00095498|184304777|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.94|||<|0.001||95.0|1.02|2.85|||Repeated Measures Model|||||2.85|1.02|<0.001
92203379|NCT00095498|184304777|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.04|||<|0.001||95.0|1.13|2.96|||Repeated Measures Model|||||2.96|1.13|<0.001
92203380|NCT00095498|184304778|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203381|NCT00095498|184304778|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203382|NCT00095498|184304779|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203383|NCT00095498|184304779|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203384|NCT00095498|184304780|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203385|NCT00095498|184304780|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203386|NCT00095498|184304781|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203387|NCT00095498|184304781|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203388|NCT00095498|184304782|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203389|NCT00095498|184304782|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203390|NCT00095498|184304783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016|||||||van Elteren Stratified Rank Test|||||||0.016
92203391|NCT00095498|184304783|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203392|NCT00095498|184304784|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203393|NCT00095498|184304784|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
92203394|NCT00095498|184304785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.673|||||||van Elteren Stratified Rank Test|||||||0.673
92203395|NCT00095498|184304785|SUPERIORITY_OR_OTHER_LEGACY|||||||0.589|||||||van Elteren Stratified Rank Test|||||||0.589
92203396|NCT00095498|184304786|SUPERIORITY_OR_OTHER_LEGACY|||||||0.175|||||||van Elteren Stratified Rank Test|||||||0.175
92203397|NCT00095498|184304786|SUPERIORITY_OR_OTHER_LEGACY|||||||0.133|||||||van Elteren Stratified Rank Test|||||||0.133
92203398|NCT00926497|184304930|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Fisher Exact|||The trial was designed to obtain a power of 90% to detect a 30% difference between the two groups in the duration of antibiotic therapy with an estimated standard deviation of 50%.||||0.002
92203399|NCT00926497|184304931|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||t-test, 2 sided|||||||0.012
92203400|NCT00926497|184304931|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.004
92203401|NCT03439254|184304932|OTHER||Response ratio(Mantel-Haenszel estimate)|1.13||||0.6172|TWO_SIDED|95.0|0.71|1.79|||Cochran-Mantel-Haenszel||Treatment / Placebo Response Ratio = Percentage of Responders in Active Treatment Arm / Percentage of Responders in Placebo, stratified by Baseline diabetes status (yes/no).|||1.79|0.71|0.6172
92203402|NCT03439254|184304932|OTHER||Response ratio(Mantel-Haenszel estimate)|1.2||||0.4184|TWO_SIDED|95.0|0.77|1.89|||Cochran-Mantel-Haenszel||Treatment / Placebo Response Ratio = Percentage of Responders in Active Treatment Arm / Percentage of Responders in Placebo, stratified by Baseline diabetes status (yes/no).|||1.89|0.77|0.4184
92203403|NCT00128102|184304948|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.858|TWO_SIDED|95.0|0.83|1.17|||Log Rank|||||1.17|0.83|0.858
92203404|NCT00128102|184304952|SUPERIORITY||Hazard Ratio (HR)|0.75|||<|0.001|TWO_SIDED|95.0|0.63|0.88|||Likelihood Based Score Test|||||0.88|0.63|<0.001
92203405|NCT00128102|184304953|SUPERIORITY||Difference in Percentage|0.3||||0.621|TWO_SIDED|95.0|-1.18|1.97|||Fisher Exact|||||1.97|-1.18|0.621
92203406|NCT00128102|184304954|SUPERIORITY||Difference in Percent Change|-52.4||||0.259|TWO_SIDED|95.0|-143.5|38.6|||Longitudinal Model|||||38.6|-143.5|0.259
92203407|NCT00128102|184304955|SUPERIORITY||Difference in Percentage|-1.3||||0.736|TWO_SIDED|95.0|-7.2|4.53|||Fisher Exact|||||4.53|-7.20|0.736
92203408|NCT00128102|184304956|SUPERIORITY||Difference in Percent Change|-0.06||||0.979|TWO_SIDED|95.0|-4.61|4.49|||Longitudinal Model|||||4.49|-4.61|0.979
92203409|NCT00128102|184304957|SUPERIORITY||Difference in Percentage|3.1||||0.488|TWO_SIDED|95.0|-4.97|11.17|||Fisher Exact|||||11.17|-4.97|0.488
92203410|NCT02385240|184304958|EQUIVALENCE|provides 85% power of success|Equivalence ratio|1.034|||||TWO_SIDED|90.0|-7.52|10.72|||Wald's method|||||10.72|-7.52|
92203411|NCT02385240|184304959|EQUIVALENCE|provides 85% power of success|Equivalence ratio|1.05|||||TWO_SIDED|90.0|-6.94|11.33|||Wald's method|||||11.33|-6.94|
92203412|NCT02385240|184304960|EQUIVALENCE|provides 85% power of success|Equivalence ratio|1.26|||||TWO_SIDED|90.0|-1.77|15.46|||Wald's method|||||15.46|-1.77|
92203413|NCT01014208|184304961|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.333|TWO_SIDED|95.0|0.89|1.42||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-rank test||The Pike estimator was the statistical method used to estimate the hazard ratio.|||1.42|0.89|0.333
92203414|NCT01014208|184304962|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.4053|TWO_SIDED|95.0|0.56|1.24||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel||For Category title- Independent reviewer-assessed OR|||1.24|0.56|0.4053
92203415|NCT01014208|184304962|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.1167|TWO_SIDED|95.0|0.39|1.1||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel||For Category title- Independent reviewer-assessed CR|||1.10|0.39|0.1167
92203416|NCT01014208|184304963|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.8209|TWO_SIDED|95.0|0.55|2.43||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel||For Category title- Independent reviewer-assessed OR|||2.43|0.55|0.8209
92203417|NCT01014208|184304963|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.6313|TWO_SIDED|95.0|0.62|2.43||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel||For Category title- Independent reviewer-assessed CR|||2.43|0.62|0.6313
92203418|NCT01014208|184304964|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.346|TWO_SIDED|95.0|0.9|1.36||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified log-rank test||Confidence Interval estimated using the Brookmeyer-Crowley method. HR are estimated using Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.|||1.36|0.90|0.346
92203419|NCT01014208|184304965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.377|TWO_SIDED|95.0|0.7|1.15||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified log-rank test||Confidence Interval estimated using the Brookmeyer-Crowley method. HR are estimated using Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.|||1.15|0.70|0.377
92203420|NCT01014208|184304966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.57||||0.1161|TWO_SIDED|95.0|0.83|9.5||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel|||||9.50|0.83|0.1161
92203421|NCT01014208|184304967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.4481|TWO_SIDED|95.0|0.56|1.27||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel||Statistics are presented for Completion rate|||1.27|0.56|0.4481
92203422|NCT01014208|184304968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.978|TWO_SIDED|95.0|-2.11|2.17|||ANCOVA|||||2.170|-2.110|0.978
92203423|NCT01014208|184304969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.129||||0.387|TWO_SIDED|95.0|-1.434|3.691|||ANCOVA|||||3.691|-1.434|0.387
92203424|NCT01014208|184304970|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.479|TWO_SIDED|95.0|0.74|1.16||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Neutrophils, Cycle 1. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.16|0.74|0.479
92203425|NCT01014208|184304970|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.059|TWO_SIDED|95.0|0.64|1.02||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Neutrophils, Cycle 2. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.02|0.64|0.059
92203426|NCT01014208|184304970|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.451|TWO_SIDED|95.0|0.83|1.48||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Neutrophils, Cycle 3. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.48|0.83|0.451
92327168|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|-0.81|-0.57|||Mixed Model with Repeated Measures|||Body Sites, Week 8||-0.57|-0.81|<0.0001
92203427|NCT01014208|184304970|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.597|TWO_SIDED|95.0|0.86|1.29||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Platelets, Cycle 1. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.29|0.86|0.597
92203428|NCT01014208|184304970|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.199|TWO_SIDED|95.0|0.7|1.1||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Platelets, Cycle 2. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.10|0.70|0.199
92203429|NCT01014208|184304970|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.102|TWO_SIDED|95.0|0.93|1.59||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Platelets, Cycle 3. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.59|0.93|0.102
92203430|NCT01014208|184304971|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.035|TWO_SIDED|95.0|0.36|1.0||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank||Confidence Interval estimated using the Brookmeyer-Crowley method. HR are estimated using Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.|||1.00|0.36|0.035
92327169|NCT05459558|184559327|SUPERIORITY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|-0.81|-0.57|||Mixed Model with Repeated Measures|||Body Sites, Week 8||-0.57|-0.81|<0.0001
92327170|NCT05459558|184559328|SUPERIORITY||Mean Difference (Final Values)|-0.89|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|-0.97|-0.82|||Mixed Model with Repeated Measures|||Area, Week 4||-0.82|-0.97|<0.0001
92327171|NCT05459558|184559328|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|-0.95|-0.79|||Mixed Model with Repeated Measures|||Area, Week 4||-0.79|-0.95|<0.0001
92327172|NCT05459558|184559328|SUPERIORITY||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|-1.15|-1.01|||Mixed Model with Repeated Measures|||Area, Week 8||-1.01|-1.15|<0.0001
92203431|NCT01008410|184304975|SUPERIORITY|||||||0.0324||||||Threshold for significance at 0.05 level.|Regression, Logistic|||The logistic regression test was used to test for a difference in the percentages between the 2 treatment arms after adjusting for analysis center (country).||||0.0324
92203432|NCT00297427|184304985|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||0.02
92203433|NCT00297427|184304986|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||t-test, 2 sided|||||||0.32
92203434|NCT00297427|184304987|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.16
92203435|NCT00297427|184304988|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.18
92203436|NCT00297427|184304990|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
92203437|NCT00297427|184304991|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.38
92203438|NCT00297427|184304992|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.43
92203439|NCT00297427|184304994|SUPERIORITY_OR_OTHER|||||||0.04|||||||Repeated measures using GEE|||||||0.04
92203440|NCT00297427|184304995|SUPERIORITY_OR_OTHER|||||||0.01|||||||Repeated measures using GEE|||||||0.01
92203441|NCT00297427|184304996|SUPERIORITY_OR_OTHER|||||||0.41|||||||Repeated measures using GEE|||||||0.41
92203442|NCT00297427|184304997|SUPERIORITY_OR_OTHER|||||||0.04||||||Bivariate (unadjusted) analysis|t-test, 2 sided|||||||0.04
92203443|NCT00297427|184304997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.208||||0.014|TWO_SIDED|95.0|1.039|1.405|||Regression, Logistic||These are the adjusted results of a multivariate logistic regression.|||1.405|1.039|0.014
92203444|NCT00297427|184304998|SUPERIORITY_OR_OTHER|||||||0.023||||||This is the result from the bivariate (unadjusted) analysis.|t-test, 2 sided|||||||0.023
92203445|NCT00297427|184304998|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.936||||0.03|TWO_SIDED|95.0|0.881|0.994|||Regression, Logistic||These are the adjusted results from a multivariate logistic regression analysis.|||0.994|0.881|0.030
92203446|NCT00297427|184304999|SUPERIORITY_OR_OTHER|||||||0.64|||||||t-test, 2 sided|||||||0.64
92203447|NCT00297427|184305000|SUPERIORITY_OR_OTHER|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
92203448|NCT00297427|184305002|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<.001
92203449|NCT00297427|184305003|SUPERIORITY_OR_OTHER|||||||0.48|||||||t-test, 2 sided|||||||0.48
92203450|NCT00297427|184305004|SUPERIORITY_OR_OTHER|||||||0.86|||||||t-test, 2 sided|||||||0.86
92203451|NCT04552899|184305017|SUPERIORITY||Difference in Change from Baseline|-20.83|STANDARD_ERROR_OF_MEAN|34.11||0.54|TWO_SIDED|95.0|-87.94|46.29|||RCRM|Random Coefficient Regression Model (RCRM)||||46.29|-87.94|0.54
92203452|NCT04552899|184305020|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.2512|TWO_SIDED|95.0|0.91|1.47|||Log Rank|||||1.47|0.91|0.2512
92203453|NCT04552899|184305021|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9833|TWO_SIDED|95.0|0.51|1.97|||Log Rank|||||1.97|0.51|0.9833
92203454|NCT04552899|184305024|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.7005|TWO_SIDED|95.0|0.4|1.86|||Log Rank|||||1.86|0.40|0.7005
92203455|NCT00461981|184305039|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-60.6||||||95.0|-79.7|-31.7||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||-31.7|-79.7|
92203456|NCT00461981|184305040|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-60.9||||||95.0|-83.8|-26.0||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||-26.0|-83.8|
92203457|NCT00461981|184305041|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|44.2||||||95.0|12.0|67.8||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||67.8|12.0|
92203458|NCT00461981|184305042|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|16.2||||||95.0|-17.6|45.4||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||45.4|-17.6|
92327173|NCT05459558|184559328|SUPERIORITY||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|-1.22|-1.07|||Mixed Model with Repeated Measures|||Area, Week 8||-1.07|-1.22|<0.0001
92327174|NCT05459558|184559328|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|-0.93|-0.8|||Mixed Model with Repeated Measures|||Intensity, Week 4||-0.80|-0.93|<0.0001
92203459|NCT00461981|184305043|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-18.2||||||95.0|-40.0|4.9||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||4.9|-40.0|
92203460|NCT00461981|184305044|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-5.6||||||95.0|-27.4|13.3||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||13.3|-27.4|
92203461|NCT00461981|184305045|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|35.7||||||95.0|9.5|57.1||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||57.1|9.5|
92203462|NCT00461981|184305046|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-5.0||||||95.0|-27.7|16.0||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||16.0|-27.7|
92203463|NCT00461981|184305047|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|14.7||||||95.0|-6.5|38.4||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||38.4|-6.5|
92203464|NCT00461981|184305048|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|38.1||||||95.0|0.9|65.9||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||65.9|0.9|
92203465|NCT00461981|184305049|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|11.7||||||95.0|-13.0|34.9||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||34.9|-13.0|
92203466|NCT00461981|184305050|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-15.8||||||95.0|-40.7|8.0||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||8.0|-40.7|
92203467|NCT00461981|184305051|SUPERIORITY_OR_OTHER_LEGACY||GMT ratio|0.43||||||95.0|0.24|0.87||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||0.87|0.24|
92203468|NCT00461981|184305052|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.2||||||95.0|0.09|0.48||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||0.48|0.09|
92203469|NCT00461981|184305053|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|3.36||||||95.0|1.54|7.13||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||7.13|1.54|
92203470|NCT00461981|184305054|SUPERIORITY_OR_OTHER_LEGACY||GMT ratio|3.26||||||95.0|1.44|7.19||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||7.19|1.44|
92203471|NCT00461981|184305055|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|1.06||||||95.0|0.56|1.96||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.96|0.56|
92203472|NCT00461981|184305056|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.58||||||95.0|0.31|1.12||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.12|0.31|
92203473|NCT00461981|184305057|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|2.4||||||95.0|1.48|3.97||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||3.97|1.48|
92203474|NCT00461981|184305058|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.48||||||95.0|0.27|0.87||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||0.87|0.27|
92327175|NCT05459558|184559328|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|-0.93|-0.8|||Mixed Model with Repeated Measures|||Intensity, Week 4||-0.80|-0.93|<0.0001
92327176|NCT05459558|184559328|SUPERIORITY||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|-1.04|-0.9|||Mixed Model with Repeated Measures|||Intensity, Week 8||-0.90|-1.04|<0.0001
92327177|NCT05459558|184559328|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|-1.08|-0.95|||Mixed Model with Repeated Measures|||Intensity, Week 8||-0.95|-1.08|<0.0001
92203475|NCT00461981|184305059|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|1.45||||||95.0|0.8|2.66||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||2.66|0.80|
92203476|NCT00461981|184305060|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|1.75||||||95.0|0.88|3.39||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||3.39|0.88|
92203477|NCT00461981|184305061|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|1.49||||||95.0|0.8|2.69||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||2.69|0.80|
92203478|NCT00461981|184305062|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.62||||||95.0|0.33|1.16||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.16|0.33|
92203479|NCT00461981|184305063|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-45.9||||||95.0|-71.7|-11.6||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||-11.6|-71.7|
92203480|NCT00461981|184305064|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-25.0||||||95.0|-57.2|4.8||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||4.8|-57.2|
92203481|NCT00461981|184305065|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|65.0||||||95.0|34.4|85.3||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||85.3|34.4|
92203482|NCT00461981|184305066|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-0.6||||||95.0|-30.4|30.3||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||30.3|-30.4|
92203483|NCT00461981|184305067|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-37.0||||||95.0|-57.8|-17.5||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||-17.5|-57.8|
92203484|NCT00461981|184305068|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-8.3||||||95.0|-38.5|14.5||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||14.5|-38.5|
92203485|NCT00461981|184305069|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|21.9||||||95.0|-6.7|48.1||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||48.1|-6.7|
92203486|NCT00461981|184305070|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-22.4||||||95.0|-54.4|12.2||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||12.2|-54.4|
92203487|NCT00461981|184305071|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|33.3||||||95.0|-81.1|90.6||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||90.6|-81.1|
92327178|NCT05175131|184559337|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.0042|TWO_SIDED|95.0|0.3|1.8|||ANCOVA||Mean difference of Mebeverine+Simethicone combination to Mebeverine. Adjusted least squares mean (difference between Mebeverine+Simethicone combination and Mebeverine) from ANCOVA is presented here|ANCOVA was used for primary end point analysis. The model included the change from baseline of the NRS\_11 score as dependent variable and treatment and site as independent factors, and baseline NRS-11 as covariate.||1.8|0.3|0.0042
92203488|NCT00461981|184305072|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|0.0||||||95.0|-97.5|84.2||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||84.2|-97.5|
92203489|NCT00461981|184305073|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-9.5||||||95.0|-65.2|58.8||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||58.8|-65.2|
92203490|NCT00461981|184305074|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-20.0||||||95.0|-71.6|33.9||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||33.9|-71.6|
92203491|NCT00461981|184305075|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.23||||||95.0|0.15|0.35||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||0.35|0.15|
92203492|NCT00461981|184305076|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.11||||||95.0|0.05|0.22||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||0.22|0.05|
92203493|NCT00461981|184305077|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|4.85||||||95.0|2.51|9.22||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||9.22|2.51|
92203494|NCT00461981|184305078|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|3.31||||||95.0|1.46|7.54||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||7.54|1.46|
92203495|NCT00461981|184305079|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|1.35||||||95.0|0.58|3.04||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||3.04|0.58|
92203496|NCT00461981|184305080|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.44||||||95.0|0.16|1.07||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.07|0.16|
92203497|NCT00461981|184305081|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|2.46||||||95.0|1.26|5.06||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||5.06|1.26|
92203498|NCT00461981|184305082|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.89||||||95.0|0.7|1.0||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.00|0.70|
92203499|NCT00461981|184305083|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.51||||||95.0|0.23|1.22||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.22|0.23|
92203500|NCT00461981|184305084|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|4.0||||||95.0|4.0|4.0||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||4.00|4.00|
92203501|NCT00461981|184305085|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.8||||||95.0|0.22|3.63||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||3.63|0.22|
92203502|NCT00461981|184305086|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.66||||||95.0|0.25|1.73||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.73|0.25|
92203503|NCT00461981|184305091|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence|||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||< 0.001
92203504|NCT00731133|184305099|SUPERIORITY_OR_OTHER||Slope|2.6466|STANDARD_ERROR_OF_MEAN|0.9016||0.05|TWO_SIDED|95.0|0.7858|4.5073|||Mixed Models Analysis|7,24||Open-label study testing for change in side-effects ratings over time (i.e., slope).||4.5073|.7858|0.05
92203505|NCT00731133|184305100|SUPERIORITY_OR_OTHER||Slope|-0.373|STANDARD_ERROR_OF_MEAN|0.2196||0.05|TWO_SIDED|95.0|-0.8075|0.0615|||Mixed Models Analysis|7,24||Open label study testing changes in amphetamine use over time (i.e., slope).||0.06150|-0.8075|0.05
92203506|NCT00943852|184305101|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||1-sided, alpha = 0.05|ANOVA|Fixed effects model with terms for subject, treatment and period||||||<0.001
92203507|NCT00943852|184305102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||1-sided, alpha = 0.05|ANOVA|Fixed effects model with terms for subject, treatment and period||||||<0.001
92203508|NCT03098563|184305103|SUPERIORITY|||||||0.021|||||||ANOVA|||||||.021
92203509|NCT01725126|184305149|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-1.38|1.75|||ANCOVA|Repeated measures analysis of variance was used with terms for treatment, visit, treatment by visit interaction and Baseline.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B-Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 change from Baseline in body weight.||1.75|-1.38|
92203510|NCT01725126|184305149|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|1.08|||||TWO_SIDED|95.0|-0.2|2.36|||ANCOVA|Repeated measures analysis of variance was used with terms for treatment, visit, treatment by visit interaction and Baseline.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 change from Baseline in body weight.||2.36|-0.20|
92203511|NCT01725126|184305150|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-1.64|1.87|||ANCOVA|Repeated measures analysis of variance was used with terms for treatment, visit, treatment by visit interaction and Baseline.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B-Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 percent change from Baseline in body weight.||1.87|-1.64|
92203512|NCT01725126|184305150|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|1.26|||||TWO_SIDED|95.0|-0.24|2.75|||ANCOVA|Repeated measures analysis of variance was used with terms for treatment, visit, treatment by visit interaction and Baseline.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 percent change from Baseline in body weight.||2.75|-0.24|
92203513|NCT01725126|184305151|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.182|||||TWO_SIDED|95.0|-1.694|1.331|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B-Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 change from Baseline in AUC (0-4 hour) weighted mean glucose.||1.331|-1.694|
92203514|NCT01725126|184305151|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.356|||||TWO_SIDED|95.0|-1.409|0.698|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B-Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 change from Baseline in AUC (0-24 hour) weighted mean glucose.||0.698|-1.409|
92203515|NCT01725126|184305151|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.853|||||TWO_SIDED|95.0|-2.232|0.526|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 change from Baseline in AUC (0-4 hour) weighted mean glucose.||0.526|-2.232|
92203516|NCT01725126|184305151|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-1.219|||||TWO_SIDED|95.0|-2.447|0.009|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 change from Baseline in AUC (0-24 hour) weighted mean glucose.||0.009|-2.447|
92203517|NCT01725126|184305152|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|0.155|||||TWO_SIDED|95.0|-1.277|1.587|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B -Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 change from Baseline in fasting glucose.||1.587|-1.277|
92203518|NCT01725126|184305152|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.524|||||TWO_SIDED|95.0|-1.939|0.892|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 change from Baseline in fasting glucose.||0.892|-1.939|
92203519|NCT01725126|184305154|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.065|||||TWO_SIDED|95.0|-0.495|0.365|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B-Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 change from Baseline in HbA1c.||0.365|-0.495|
92203520|NCT01725126|184305154|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.219|||||TWO_SIDED|95.0|-0.91|0.472|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 change from Baseline in HbA1c.||0.472|-0.910|
92203521|NCT01725126|184305158|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|1.046|||||TWO_SIDED|90.0|0.729|1.5008|||Mixed Models Analysis|The PK parameter was log-transformed prior to analysis.|The difference in least squares means and corresponding confidence interval were back-transformed to form ratio of geometric least squares means (Day 42/ Day -1) and confidence interval.|Comparison of Day 42 to Day -1 in GSK2890457+Liraglutide treated participants in the Liraglutide PK Population.||1.5008|0.7290|
92203522|NCT01725126|184305159|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|1.0334|||||TWO_SIDED|90.0|0.781|1.3673|||Mixed Models Analysis|The PK parameter was log-transformed prior to analysis.|The difference in least squares means and corresponding confidence interval were back-transformed to form ratio of geometric least squares means (Day 42/ Day -1) and confidence interval.|Comparison of Day 42 to Day -1 in GSK2890457+Liraglutide treated participants in the Liraglutide PK Population.||1.3673|0.7810|
92203523|NCT01725126|184305161|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|0.675|||||TWO_SIDED|90.0|0.585|0.779|||Mixed Models Analysis|The PK parameter was log-transformed prior to analysis.|The difference in least squares means and corresponding confidence interval were back-transformed to form ratio of geometric least squares means (Day 42/ Day 1) and confidence interval.|Comparison of Day 42 to Day 1 in GSK2890457 treated participants in the PK Population.||0.779|0.585|
92203524|NCT01725126|184305162|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|0.662|||||TWO_SIDED|90.0|0.578|0.757|||Mixed Models Analysis|The PK parameter was log-transformed prior to analysis.|The difference in least squares means and corresponding confidence interval were back-transformed to form ratio of geometric least squares means (Day 42/ Day 1) and confidence interval.|Comparison of Day 42 to Day 1 in GSK2890457 treated participants in the PK Population.||0.757|0.578|
92203525|NCT02145468|184305250|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.238|TWO_SIDED|95.0|0.91|1.47|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|||1.47|0.91|0.238
92203526|NCT02145468|184305251|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.329|TWO_SIDED|95.0|0.9|1.38|||Log Rank||"Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk.~with the treatment compared with placebo."|||1.38|0.90|0.329
92203527|NCT02145468|184305252|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.338|TWO_SIDED|95.0|0.88|1.47|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CV death or MI, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.47|0.88|0.338
92203528|NCT02145468|184305252|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.41|TWO_SIDED|95.0|0.88|1.38|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CV death or MI, Placebo Vs Losmapimod 7.5 mg BID at Week 24||1.38|0.88|0.410
92203529|NCT02145468|184305253|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.472|TWO_SIDED|95.0|0.86|1.38|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CV death, MI or hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.38|0.86|0.472
92203530|NCT02145468|184305254|SUPERIORITY||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.91|1.44|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of arterial CV events (CV death, MI, SRI-UR or stroke), Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.44|0.91|
92203531|NCT02145468|184305255|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.505|TWO_SIDED|95.0|0.86|1.36|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of coronary events (CHD death, MI, SRI-UR or any unplanned coronary artery revascularization), Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.36|0.86|0.505
92203532|NCT02145468|184305256|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.536|TWO_SIDED|95.0|0.64|1.26|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death or hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.26|0.64|0.536
92203533|NCT02145468|184305256|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.6|TWO_SIDED|95.0|0.69|1.24|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death or hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 24||1.24|0.69|0.6
92203534|NCT02145468|184305257|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.356|TWO_SIDED|95.0|0.88|1.43|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death, MI or stroke, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.43|0.88|0.356
92203535|NCT02145468|184305258|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.329|TWO_SIDED|95.0|0.9|1.39|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death, MI, SRI-UR, stroke or hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.39|0.9|0.329
92203536|NCT02145468|184305259|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.285|TWO_SIDED|95.0|0.89|1.47|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CHD death, MI or SRI-UR, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.47|0.89|0.285
92203537|NCT02145468|184305260|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.401|TWO_SIDED|95.0|0.86|1.46|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CHD death or MI, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.46|0.86|0.401
92203538|NCT02145468|184305261|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.295|TWO_SIDED|95.0|0.89|1.44|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of all-cause death, MI or SRI-UR,Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.44|0.89|0.295
92203539|NCT02145468|184305262|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.412|TWO_SIDED|95.0|0.86|1.43|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of all-cause death or MI, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.43|0.86|0.412
92203540|NCT02145468|184305263|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.469|TWO_SIDED|95.0|0.83|1.49|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death, type I (spontaneous) MI or SRI-UR, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.49|0.83|0.469
92203541|NCT02145468|184305264|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.664|TWO_SIDED|95.0|0.78|1.48|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death or type I (spontaneous) MI, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.48|0.78|0.664
92203542|NCT02145468|184305265|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.13|TWO_SIDED|95.0|0.27|1.19|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Participants with first occurrence of definite or probable stent thrombosis, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.19|0.27|0.130
92327179|NCT05175131|184559337|SUPERIORITY||Mean Difference (Final Values)|1.6|||<|0.0001|TWO_SIDED|95.0|0.9|2.4|||ANCOVA||Adjusted least squares mean (difference between Mebeverine+Simethicone combination and Mebeverine) from ANCOVA is presented here|Mean difference of Mebeverine+Simethicone combination to Simethicone. ANCOVA was used for primary end point analysis. The model included the change from baseline of the NRS\_11 score as dependent variable and treatment and site as independent factors, and baseline NRS-11 as covariate.||2.4|0.9|<0.0001
92327180|NCT05711381|184559342|OTHER|PK parameters of HM15912 from the severe renal impairment group (Cohort 2) were to be estimated and compared to the control group (Cohort 1, normal renal function). A one-way analysis of variance (ANOVA) was to be used to compare log transformed PK parameters. The estimates of mean difference and corresponding 90% CIs, as well as each exponentiation of estimates, were to be presented to provide the estimates of GMR.|Geometric mean ratio|0.91|||||TWO_SIDED|90.0|0.59|1.41||||||||1.41|0.59|
92203543|NCT02145468|184305266|SUPERIORITY||Odds Ratio (OR)|1.03||||0.744|TWO_SIDED|95.0|0.84|1.27|||Wald chi-squared||Odds ratio is estimated using a logistic regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. An odds ratio \<1 indicates a lower risk with the treatment compared with placebo.|||1.27|0.84|0.744
92203544|NCT02145468|184305267|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.309|TWO_SIDED|95.0|0.53|1.22|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Participants with all-cause mortality, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.22|0.53|0.309
92203545|NCT02145468|184305268|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.398|TWO_SIDED|95.0|0.53|1.28|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CV death events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.28|0.53|0.398
92203546|NCT02145468|184305268|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.264|TWO_SIDED|95.0|0.55|1.18|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CV death events, Placebo Vs Losmapimod 7.5 mg BID at Week 24||1.18|0.55|0.264
92203547|NCT02145468|184305269|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.251|TWO_SIDED|95.0|0.47|1.22|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CHD death events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.22|0.47|0.251
92203548|NCT02145468|184305270|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.182|TWO_SIDED|95.0|0.91|1.67|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Myocardial infarction (fatal and non-fatal) events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.67|0.91|0.182
92327181|NCT05711381|184559343|OTHER|PK parameters of HM15912 from the severe renal impairment group (Cohort 2) were to be estimated and compared to the control group (Cohort 1, normal renal function). A one-way analysis of variance (ANOVA) was to be used to compare log transformed PK parameters. The estimates of mean difference and corresponding 90% CIs, as well as each exponentiation of estimates, were to be presented to provide the estimates of GMR.|Geometric mean ratio|1.25|||||TWO_SIDED|90.0|0.93|1.68||||||||1.68|0.93|
92203549|NCT02145468|184305270|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.158|TWO_SIDED|95.0|0.93|1.58|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Myocardial infarction (fatal and non-fatal) events, Placebo Vs Losmapimod 7.5 mg BID at Week 24||1.58|0.93|0.158
92203550|NCT02145468|184305271|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.21|TWO_SIDED|95.0|0.85|2.12|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Type I (spontaneous) MI events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||2.12|0.85|0.21
92203551|NCT02145468|184305272|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.697|TWO_SIDED|95.0|0.58|2.24|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|SRI-UR events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||2.24|0.58|0.697
92203552|NCT02145468|184305273|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.883|TWO_SIDED|95.0|0.46|1.96|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Stroke (fatal and non-fatal) events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.96|0.46|0.883
92203553|NCT02145468|184305274|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.457|TWO_SIDED|95.0|0.54|1.32|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.32|0.54|0.457
92203554|NCT02145468|184305274|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.736|TWO_SIDED|95.0|0.63|1.38|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 24||1.38|0.63|0.736
92203555|NCT02145468|184305275|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.581|TWO_SIDED|95.0|0.77|1.59|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Any unplanned coronary revascularization, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.59|0.77|0.581
92203556|NCT00515723|184305291|SUPERIORITY|||||||0.002||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Mixed Models Analysis|||Primary analysis for change in DEXA total fat used a likelihood-based mixed-effects model using time (0, 6, and 12 weeks) as the independent variable, with Toeplitz covariance structure specified, based on Akaike Information Criterion-Corrected (AIC-C). The null hypothesis was that there was no difference in the outcome over time (main effect of time).||||0.002
92203557|NCT00515723|184305291|SUPERIORITY|||||||0.002||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Mixed Models Analysis|||Primary analysis for change in DEXA total fat used a likelihood-based mixed-effects model using time (0, 6, and 12 weeks) and treatment group as independent variables, with Toeplitz covariance structure specified, based on Akaike Information Criterion-Corrected (AIC-C). The null hypothesis was that there were no differences between groups in the change over time (time by treatment condition).||||0.002
92203558|NCT00515723|184305292|SUPERIORITY|||||||0.05||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Mixed Models Analysis|||Primary analysis for change in insulin sensitivity used a likelihood-based mixed-effects model using time (0 and 12 weeks) as the independent variable, with an unstructured covariance structure specified, based on the Akaike Information Criterion-Corrected (AIC-C). The null hypothesis was that there was no difference in the outcome over time (main effect of time).||||0.05
92203559|NCT00515723|184305292|SUPERIORITY|||||||0.22||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Mixed Models Analysis|||Primary analysis for change in insulin sensitivity used a likelihood-based mixed-effects model using time (0 and 12 weeks) and treatment group as the independent variables, with an unstructured covariance structure specified, based on the Akaike Information Criterion-Corrected (AIC-C). The null hypothesis was that there were no differences between groups in the change over time (time by treatment condition).||||0.22
92268662|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis - PT the difference in percentages between the two groups (13vPnC - 7vPnC) at (≥5 EU/mL) threshold was calculated||1.4|-1.4|
92268663|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.7||||||95.0|-4.8|3.3||||||For Pertussis - PTf the difference in percentages between the two groups (13vPnC - 7vPnC) at (≥26.00 EU/mL) threshold was calculated||3.3|-4.8|
92268664|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis - FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at (≥5 EU/mL) threshold was calculated||1.4|-1.4|
92268665|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-2.3||||||95.0|-6.4|1.7||||||For Pertussis - FHAf the difference in percentages between the two groups (13vPnC - 7vPnC) at (≥36.00 EU/mL) threshold was calculated||1.7|-6.4|
92268666|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis - FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at (≥7.82 EU/mL) threshold was calculated||1.4|-1.4|
92203560|NCT00798434|184305293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-2.12|-0.97|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline urgency episodes.||Based on a 2-sided t-test (5% significance). Null hypothesis: no difference in mean change in mean micturition-related urgency episodes per 24 hours at Week 12 for the 2 groups. Last observation carried forward (LOCF) method used for statistical analyses of the FAS (change from baseline to Week 12).||-0.97|-2.12|<0.0001
92203561|NCT00798434|184305294|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-14.44|||<|0.0001|TWO_SIDED|95.0|-14.67|-14.25|||2-sided Van Elteren's test||Hodges-Lehman estimate of median treatment difference and confidence interval (CI)|Week 12 LOCF||-14.25|-14.67|<0.0001
92203562|NCT00798434|184305295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.22||0.0001|TWO_SIDED|95.0|-1.28|-0.42|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline severe urgency episodes||Week 12 LOCF||-0.42|-1.28|0.0001
92203563|NCT00798434|184305296|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0005|TWO_SIDED|95.0|0.0|0.0|||2-sided Van Elteren's test||Hodges-Lehman estimate of median treatment difference and CI|Week 12 LOCF||0.00|0.00|0.0005
92203564|NCT00798434|184305297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.33|-0.64|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline number of micturitions||Week 12 LOCF||-0.64|-1.33|<0.0001
92203565|NCT00798434|184305298|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-7.31|||<|0.0001|TWO_SIDED|95.0|-7.4|-7.19|||2-sided Van Elteren's test|||Week 12 LOCF||-7.19|-7.40|<0.0001
92203566|NCT00798434|184305299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.0026|TWO_SIDED|95.0|-0.4|-0.09|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline number of night-time micturitions||Week 12 LOCF||-0.09|-0.40|0.0026
92203567|NCT00798434|184305300|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-9.52||||0.0012|TWO_SIDED|95.0|-9.52|-9.09|||2-sided Van Elteren's test|||Week 12 LOCF||-9.09|-9.52|0.0012
92203568|NCT00798434|184305301|SUPERIORITY_OR_OTHER||Hodges-Lehman estimate|0.0||||0.1005|TWO_SIDED|95.0|0.0|0.0||The protocol-defined analysis (ANOVA, parametric) not presented because normality assumptions were not met, instead an alternative analysis (Van-Elteren'ts test, non-parametric) as defined in the statistical analysis plan presented.|Van-Elteren's Test||Hodges-Lehman estimate of median treatment difference and CI|Week 12 LOCF||0.00|0.00|0.1005
92327182|NCT00480493|184559383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.46|STANDARD_ERROR_OF_MEAN|3.36||0.468|TWO_SIDED|95.0|-4.32|9.24|||t-test, 2 sided||Confidence scores were also compared using random-effect, mixed regression models to determine whether changes over time differed significantly between groups.|A 2 sided t-test was used to determine if the change in Confidence score was significantly different between the groups.||9.24|-4.32|0.468
92203569|NCT00798434|184305302|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0218|TWO_SIDED|95.0|0.0|0.0|||2-sided Van Elteren's test|||Week 12 LOCF||0.00|0.00|0.0218
92203570|NCT00798434|184305303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-6.3|-3.1|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and daily sum rating of USS at baseline||Week 12 LOCF||-3.10|-6.30|<0.0001
92203571|NCT00798434|184305304|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.515||||0.1113|TWO_SIDED|95.0|0.909|2.528||Logistic regression determined the odds of improvement versus no improvement in dryness, where improvement was defined as dry at both weeks 8 and 12 relative to baseline incontinence.|Regression, Logistic|Covariates were treatment, study center, dosing time, and age category||LOCF||2.528|0.909|0.1113
92203572|NCT00798434|184305305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.11||0.023|TWO_SIDED|95.0|-0.47|-0.04|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline number of pads per 24 hours||Incontinence pads at Week 12 LOCF||-0.04|-0.47|0.0230
92203573|NCT00798434|184305305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.03||0.0909|TWO_SIDED|95.0|-0.12|0.01|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline number of creams per 24 hours||Creams at Week 12 LOCF||0.01|-0.12|0.0909
92203574|NCT00798434|184305305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.2039|TWO_SIDED|95.0|-0.08|0.02|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline number of powders per 24 hours||Powder at Week 12 LOCF||0.02|-0.08|0.2039
92203575|NCT00798434|184305306|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.096|||<|0.0001|TWO_SIDED|95.0|2.181|4.395|||Regression, Logistic|Covariates were treatment, study center, dosing time, and age category||Week 12 LOCF||4.395|2.181|<0.0001
92327183|NCT00480493|184559384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.82|STANDARD_ERROR_OF_MEAN|10.05||0.634|TWO_SIDED|95.0|-15.47|25.11|||t-test, 2 sided||Concern scores were also compared using random-effect, mixed regression models to determine whether changes over time differed significantly between groups.|A 2 sided t-test was used to determine if there were significant differences in Concern between the two groups at 12 months.||25.11|-15.47|0.634
92203576|NCT00798434|184305309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.506|||<|0.0001|TWO_SIDED|95.0|1.767|3.556||Logistic regression determined the odds of improvement versus no improvement in PPBC score, where improvement was defined as a negative change from baseline.|Regression, Logistic|Covariates were treatment, study center, dosing time, age category, and baseline PPBC category||Week 12 LOCF||3.556|1.767|<0.0001
92203577|NCT00798434|184305313|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.916||||0.0009|TWO_SIDED|95.0|1.305|2.811||Logistic regression determined the odds of improvement versus no improvement in PPBC score, where improvement was defined as an increase of 1 or more points in difference of scores relative to baseline.|Regression, Logistic|Covariates were treatment, study center, dosing time, age category, and baseline PPUS category||LOCF||2.811|1.305|0.0009
92203578|NCT00798434|184305315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.12|STANDARD_ERROR_OF_MEAN|1.29|<|0.0001|TWO_SIDED|95.0|-9.65|-4.59|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline symptom/bother score||Week 12 LOCF||-4.59|-9.65|<0.0001
92203579|NCT00798434|184305316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.48|STANDARD_ERROR_OF_MEAN|1.14|<|0.0001|TWO_SIDED|95.0|2.24|6.73|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total health-related quality of life (HRQL) score.||Week 12 LOCF||6.73|2.24|<0.0001
92203580|NCT00798434|184305317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.39|STANDARD_ERROR_OF_MEAN|1.44||0.0002|TWO_SIDED|95.0|2.57|8.22|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline HRQL subscale score||Coping Subscale at Week 12; LOCF||8.22|2.57|0.0002
92203581|NCT00798434|184305317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.39|STANDARD_ERROR_OF_MEAN|1.29|<|0.0001|TWO_SIDED|95.0|2.84|7.93|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline HRQL subscale score||Concern Subscale at Week 12; LOCF||7.93|2.84|<0.0001
92203582|NCT00798434|184305317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.09|STANDARD_ERROR_OF_MEAN|1.38||0.0032|TWO_SIDED|95.0|1.38|6.81|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline HRQL subscale score||Sleep Subscale at Week 12; LOCF||6.81|1.38|0.0032
92203583|NCT00798434|184305317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.51|STANDARD_ERROR_OF_MEAN|1.03||0.0152|TWO_SIDED|95.0|0.49|4.53|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline HRQL subscale score||Social Subscale at Week 12; LOCF||4.53|0.49|0.0152
92203584|NCT00798434|184305318|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.537|||<|0.001|TWO_SIDED|95.0|2.281|5.484||Analysis determined the odds of responding on the OAB-S scale (satisfaction with OAB control) for Fesoterodine versus placebo, where a responder was defined as a response of 'satisfied' or better on all 7 questions at week 12.|Regression, Logistic|Covariates were treatment, study center, dosing time and age category||LOCF||5.484|2.281|<0.001
92203585|NCT00798434|184305319|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.881|||<|0.0001|TWO_SIDED|95.0|2.045|4.058||Analysis determined the odds of responding on the OAB-S scale (OAB medication expectation) for Fesoterodine versus placebo, where a responder was defined as a response of 'satisfied' or better on all 7 questions at week 12.|Regression, Logistic|Covariates were treatment, study center, dosing time and age category||LOCF||4.058|2.045|<0.0001
92327184|NCT00480493|184559385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.48|STANDARD_ERROR_OF_MEAN|3.12||0.43|TWO_SIDED|95.0|-8.76|3.8|||t-test, 2 sided||We also used a random-effect, mixed regression models to look for between group changes over time.|The difference in the Worry score at 12 months was compared between the groups using a 2 sided t-test.||3.80|-8.76|0.430
92327185|NCT03747302|184559386|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||.003
92203586|NCT00798434|184305320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.18|STANDARD_ERROR_OF_MEAN|4.12||0.3163|TWO_SIDED|95.0|-4.13|12.49|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||General Health Perception; LOCF||12.49|-4.13|0.3163
92203587|NCT00798434|184305320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.29|STANDARD_ERROR_OF_MEAN|8.63||0.4698|TWO_SIDED|95.0|-23.7|11.11|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Incontinence Impact; LOCF||11.11|-23.70|0.4698
92203588|NCT00798434|184305320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.85|STANDARD_ERROR_OF_MEAN|9.28||0.5321|TWO_SIDED|95.0|-24.58|12.88|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Role Limitations; LOCF||12.88|-24.58|0.5321
92203589|NCT00798434|184305320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.81|STANDARD_ERROR_OF_MEAN|8.39||0.6523|TWO_SIDED|95.0|-20.74|13.12|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Physical Limitations; LOCF||13.12|-20.74|0.6523
92203590|NCT00798434|184305320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.26|STANDARD_ERROR_OF_MEAN|6.8||0.6344|TWO_SIDED|95.0|-10.47|16.99|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Social Limitations; LOCF||16.99|-10.47|0.6344
92203591|NCT00798434|184305320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.11|STANDARD_ERROR_OF_MEAN|8.38||0.2013|TWO_SIDED|95.0|-28.71|6.49|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Personal Relationships; LOCF||6.49|-28.71|0.2013
92203592|NCT00798434|184305320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.07|STANDARD_ERROR_OF_MEAN|6.88||0.3831|TWO_SIDED|95.0|-19.96|7.83|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Emotions; LOCF||7.83|-19.96|0.3831
92327186|NCT03747302|184559387|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||Change in mean scores for behavioral intent to vaccine: negative values: smaller values indicate more likely to vaccinate.||||>.05
92327187|NCT00738062|184559411|SUPERIORITY_OR_OTHER|||||||0.438|||||||Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at randomization.||||||0.438
92327188|NCT00738062|184559412|SUPERIORITY_OR_OTHER|||||||0.554|||||||Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHDAS Composite value at randomization.||||||0.554
92327189|NCT00738062|184559413|SUPERIORITY_OR_OTHER|||||||0.198|||||||Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Composite value at baseline.||||||0.198
92203593|NCT00798434|184305320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.46|STANDARD_ERROR_OF_MEAN|6.82||0.5167|TWO_SIDED|95.0|-9.3|18.23|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Sleep/Energy; LOCF||18.23|-9.30|0.5167
92203594|NCT00798434|184305320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.19|STANDARD_ERROR_OF_MEAN|5.12||0.0532|TWO_SIDED|95.0|-20.53|0.15|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Severity of Urinary Symptoms; LOCF||0.15|-20.53|0.0532
92203595|NCT00798434|184305321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0016|STANDARD_ERROR_OF_MEAN|0.0125||0.8959|TWO_SIDED|95.0|-0.0229|0.0262|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline single utility score||||0.0262|-0.0229|0.8959
92203596|NCT03524092|184305391|SUPERIORITY||Risk Difference (RD)|23.2|||<|0.001|TWO_SIDED|95.0|15.2|31.2|||Cochran-Mantel-Haenszel|||||31.2|15.2|<0.001
92203597|NCT03524092|184305392|SUPERIORITY||Risk Difference (RD)|28.5|||<|0.001|TWO_SIDED|95.0|20.2|36.8|||Cochran-Mantel-Haenszel|||||36.8|20.2|<0.001
92203598|NCT03524092|184305393|SUPERIORITY||Risk Difference (RD)|22.5|||<|0.001|TWO_SIDED|95.0|14.5|30.5|||Cochran-Mantel-Haenszel|||||30.5|14.5|<0.001
92203599|NCT03524092|184305394|SUPERIORITY||Risk Difference (RD)|30.2|||<|0.001|TWO_SIDED|95.0|21.9|38.6|||Cochran-Mantel-Haenszel|||||38.6|21.9|<0.001
92203600|NCT03524092|184305395|SUPERIORITY||Risk Difference (RD)|31.0|||<|0.001|TWO_SIDED|95.0|22.4|39.6|||Cochran-Mantel-Haenszel|||||39.6|22.4|<0.001
92203601|NCT03524092|184305396|SUPERIORITY||Risk Difference (RD)|30.6|||<|0.001|TWO_SIDED|95.0|22.3|38.9|||Cochran-Mantel-Haenszel|||||38.9|22.3|<0.001
92203602|NCT03524092|184305397|SUPERIORITY||LS Mean difference (Final Values)|25.24|STANDARD_ERROR_OF_MEAN|3.094|<|0.001|TWO_SIDED|95.0|19.16|31.32|||ANCOVA|ANCOVA with modified baseline observation carried forward (mBOCF).||||31.32|19.16|<0.001
92203603|NCT03524092|184305398|SUPERIORITY||LS Mean difference (Final Values)|-839.64|STANDARD_ERROR_OF_MEAN|245.99|<|0.001|TWO_SIDED|95.0|-1323.08|-356.21|||ANCOVA|ANCOVA with modified baseline observation carried forward (mBOCF).||||-356.21|-1323.08|<0.001
92203604|NCT03524092|184305399|SUPERIORITY||LS Mean difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|0.228|<|0.001|TWO_SIDED|95.0|-1.51|-0.61|||Mixed Models Analysis|||||-0.61|-1.51|<0.001
92203605|NCT04893460|184305402|SUPERIORITY|This model is a paired t-test that tests for change in cognitive dissonance from baseline to after the Cost activity|Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|0.33||0.003|TWO_SIDED||||||t-test, 2 sided|||||||.003
92203606|NCT04893460|184305402|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED||||||t-test, 2 sided|||This model is a paired t-test that tests for change in cognitive dissonance from baseline to after the Quit Letter activity||||<.001
92327190|NCT00738062|184559414|SUPERIORITY_OR_OTHER|||||||0.286|||||||Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at randomization.||||||0.286
92203607|NCT04893460|184305402|SUPERIORITY||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|0.41||0.004|TWO_SIDED||||||t-test, 2 sided|||This model is a paired t-test that tests for change in cognitive dissonance from baseline to after the Pitfalls activity||||.004
92203608|NCT04893460|184305402|SUPERIORITY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.48||0.098|TWO_SIDED||||||t-test, 2 sided|||This model is a paired t-test that tests for change in cognitive dissonance from baseline to after the Smoke Free activity||||.098
92203609|NCT04893460|184305402|SUPERIORITY||Mean Difference (Final Values)|-1.46|STANDARD_ERROR_OF_MEAN|0.68||0.042|TWO_SIDED||||||t-test, 2 sided|||This model is a paired t-test that tests for change in cognitive dissonance from baseline to after the Letter to Youth activity||||.042
92203610|NCT04893460|184305402|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.22||0.364|TWO_SIDED||||||t-test, 2 sided|||This model is a paired t-test that tests for change in cognitive dissonance from baseline to 6 weeks post baseline.||||.364
92203611|NCT04893460|184305403|SUPERIORITY||median pairwise average|17.67|||<|0.001|TWO_SIDED||||||Wilcoxson Signed Rank Test|||The non-parametric Wilcoxon signed-rank test was used to evaluate whether participants were smoking fewer cigarettes per day.||||<.001
92203612|NCT04893460|184305404|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to after the Cost activity|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.42||0.776|TWO_SIDED||||||t-test, 2 sided|||||||.776
92203613|NCT04893460|184305404|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to after the Quit Latter activity|Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.45||0.219|TWO_SIDED||||||t-test, 2 sided|||||||.219
92203614|NCT04893460|184305404|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to after the Pitfalls activity|Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|0.55||0.043|TWO_SIDED||||||t-test, 2 sided|||||||.043
92203615|NCT04893460|184305404|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to after the Smoke Free activity|Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.67||0.219|TWO_SIDED||||||t-test, 2 sided|||||||.219
92203616|NCT04893460|184305404|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to after the Letter to Youth activity|Mean Difference (Final Values)|-1.41|STANDARD_ERROR_OF_MEAN|0.54||0.11|TWO_SIDED||||||t-test, 2 sided|||||||.110
92203617|NCT04893460|184305404|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to 6 week post baseline assessment|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.26||0.868|TWO_SIDED||||||t-test, 2 sided|||||||.868
92203618|NCT03578887|184305405|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
92203619|NCT03578887|184305406|SUPERIORITY|||||||0.85|||||||ANOVA|||||||0.85
92203620|NCT01325311|184305442|SUPERIORITY_OR_OTHER|||||||0.922|TWO_SIDED||||||t-test, 2 sided|||Using the Student t-test. If the normality assumption is tenuous, an appropriate transformation of the data such as logarithm will be considered for Student t-test or a nonparametric test such as Wilcoxon rank-sum test will be used for comparison.||||0.922
92203621|NCT01732822|184305457|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.65|TWO_SIDED|95.0|0.92|1.13||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.13|0.92|0.650
92203622|NCT01732822|184305458|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.738|TWO_SIDED|95.0|0.92|1.12||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.12|0.92|0.738
92203623|NCT01732822|184305459|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.4|TWO_SIDED|95.0|0.92|1.23||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.23|0.92|0.400
92203624|NCT01732822|184305460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.482|TWO_SIDED|95.0|0.91|1.23||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.23|0.91|0.482
92327191|NCT00738062|184559415|SUPERIORITY_OR_OTHER|||||||0.251|||||||Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at randomization.||||||0.251
92327192|NCT00738062|184559416|SUPERIORITY_OR_OTHER|||||||0.708|||||||Fisher Exact|||||||0.708
92327193|NCT00738062|184559417|SUPERIORITY_OR_OTHER|||||||0.873|||||||Fisher Exact|||||||0.873
92203625|NCT01732822|184305461|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.913|TWO_SIDED|95.0|0.89|1.11||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.11|0.89|0.913
92203626|NCT01732822|184305462|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.724|TWO_SIDED|95.0|0.92|1.13||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.13|0.92|0.724
92203627|NCT01732822|184305463|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.846|TWO_SIDED|95.0|0.79|1.33||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.33|0.79|0.846
92203628|NCT01732822|184305464|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.298|TWO_SIDED|95.0|0.87|1.05||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.05|0.87|0.298
92203629|NCT01732822|184305465|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.462|TWO_SIDED|95.0|0.9|1.05||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.05|0.90|0.462
92203630|NCT01732822|184305466|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.793|TWO_SIDED|95.0|0.92|1.12|||Regression, Cox|||||1.12|0.92|0.793
92203631|NCT01732822|184305467|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||1|TWO_SIDED|95.0|0.92|1.09|||Regression, Cox|||||1.09|0.92|1.000
92203632|NCT01732822|184305468|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.829|TWO_SIDED|95.0|0.91|1.08|||Regression, Cox|||||1.08|0.91|0.829
92203633|NCT01732822|184305469|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.949|TWO_SIDED|95.0|0.92|1.08|||Regression, Cox|||||1.08|0.92|0.949
92203634|NCT01732822|184305470|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.377|TWO_SIDED|95.0|0.78|1.1|||Regression, Cox|||||1.10|0.78|0.377
92203635|NCT01732822|184305474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.164|TWO_SIDED|95.0|0.71|1.06|||Regression, Cox|||||1.06|0.71|0.164
92203636|NCT01732822|184305475|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.306|TWO_SIDED|95.0|0.67|1.14|||Regression, Cox|||||1.14|0.67|0.306
92203637|NCT01732822|184305476|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.887|TWO_SIDED|95.0|0.93|1.09|||Regression, Cox|||||1.09|0.93|0.887
92327194|NCT00738062|184559418|SUPERIORITY_OR_OTHER|||||||0.252|||||||Fisher Exact|||||||0.252
92203638|NCT01732822|184305477|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.489|TWO_SIDED|95.0|0.84|1.43|||Regression, Cox|||||1.43|0.84|0.489
92203639|NCT01732822|184305478|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.138|TWO_SIDED|95.0|0.95|1.43|||Regression, Cox|||||1.43|0.95|0.138
92203640|NCT01732822|184305479|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.139|TWO_SIDED|95.0|0.95|1.41|||Regression, Cox|||||1.41|0.95|0.139
92203641|NCT01732822|184305480|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.58|||<|0.001|TWO_SIDED|95.0|1.24|2.0|||Regression, Cox|||||2.00|1.24|<0.001
92203642|NCT02314780|184305481|OTHER||||||=|0.001|||||||ANOVA|||||||=0.001
92203643|NCT02314780|184305482|OTHER||||||=|0.002|||||||ANOVA|||||||=0.002
92203644|NCT02314780|184305483|OTHER||||||=|0.002|||||||ANOVA|||||||=0.002
92203645|NCT02314780|184305484|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92203646|NCT02314780|184305485|OTHER||||||=|0.138|||||||ANOVA|||||||=0.138
92203647|NCT02314780|184305486|OTHER||||||=|0.696|||||||ANOVA|||||||=0.696
92203648|NCT01531673|184305545|SUPERIORITY||Least Squares (LS) Mean Difference|4.77||||0.0647|TWO_SIDED|95.0|-0.3|9.84|||Mixed-effect repeated measure (MMRM)|||||9.84|-0.3|0.0647
92203649|NCT01531673|184305545|SUPERIORITY||LS Mean Difference|-3.91||||0.1686|TWO_SIDED|95.0|-9.5|1.68|||MMRM|||||1.68|-9.5|0.1686
92203650|NCT01531673|184305545|SUPERIORITY||LS Mean Difference|-4.2||||0.0348|TWO_SIDED|95.0|-8.1|-0.31|||MMRM|||||-0.31|-8.1|0.0348
92203651|NCT01531673|184305545|SUPERIORITY||LS Mean Difference|-19.58|||<|0.0001|TWO_SIDED|95.0|-24.57|-14.59|||MMRM|||||-14.59|-24.57|<0.0001
92203652|NCT01531673|184305545|SUPERIORITY||LS Mean Difference|-5.14||||0.0101|TWO_SIDED|95.0|-9.03|-1.25|||MMRM|||||-1.25|-9.03|0.0101
92203653|NCT01531673|184305545|SUPERIORITY||LS Mean Difference|-5.19||||0.011|TWO_SIDED|95.0|-9.16|-1.21|||MMRM|||||-1.21|-9.16|0.011
92203654|NCT01531673|184305545|SUPERIORITY||LS Mean Difference|-9.6||||0.0001|TWO_SIDED|95.0|-14.38|-4.82|||MMRM|||||-4.82|-14.38|0.0001
92203655|NCT01531673|184305545|SUPERIORITY||LS Mean Difference|-1.77||||0.3745|TWO_SIDED|95.0|-5.71|2.17|||MMRM|||||2.17|-5.71|0.3745
92203656|NCT01531673|184305546|SUPERIORITY||LS Mean Difference|-6.7||||0.0357|TWO_SIDED|95.0|-12.94|-0.46|||MMRM|||||-0.46|-12.94|0.0357
92203657|NCT01531673|184305547|SUPERIORITY||LS Mean Difference|-17.2||||0.0238|TWO_SIDED|95.0|-31.75|-2.65|||MMRM|||||-2.65|-31.75|0.0238
92327195|NCT00738062|184559419|SUPERIORITY_OR_OTHER|||||||0.33|||||||Fisher Exact|||||||0.330
92327196|NCT02945254|184559420|SUPERIORITY|||||||0.011||||||P\<0.05 considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.011
92203658|NCT00568178|184305562|SUPERIORITY_OR_OTHER_LEGACY||Ratio in Geometric Mean|0.63||||0.001|TWO_SIDED|95.0|0.54|0.74|||Mixed Models Analysis|||||0.74|0.54|0.001
92203659|NCT00568178|184305563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4||||||95.0|-9.9|-1.0|||Mixed Models Analysis|||||-1.0|-9.9|
92203660|NCT00568178|184305564|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6||||||95.0|-9.2|-0.1|||Mixed Models Analysis|||||-0.1|-9.2|
92327197|NCT02945254|184559421|SUPERIORITY|||||||0.13||||||P\<0.05 considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.13
92327198|NCT00783224|184559422|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||ANCOVA|||||||0.0001
92327199|NCT00783224|184559422|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||ANCOVA|||||||0.0001
92327200|NCT01711619|184559423|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Nominal alpha of 4% was predefined for the final analysis.|Fisher Exact|||Subjects with missing information were considered in the test and computation of the proportion for ITT.||||<0.0001
92203661|NCT00568178|184305565|SUPERIORITY_OR_OTHER_LEGACY||Geometric Mean Ratio|1.18|||||TWO_SIDED|95.0|0.86|1.6||No P Value was calculated for this outcome.|Mixed Models Analysis|An unstructured variance-covariance was used.||||1.60|0.86|
92203662|NCT00568178|184305566|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean|-3.8||||||95.0|-15.2|7.6||A P-Value was not calculated for this outcome.|Mixed Models Analysis|||||7.6|-15.2|
92203663|NCT01008553|184305575|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Log Rank|||||||0.0003
92203664|NCT00581555|184305588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|7.5||0.999|TWO_SIDED|95.0|-14.7|14.7||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was covariate.||Analysis at randomization to Week 8.||14.7|-14.7|0.999
92203665|NCT00581555|184305588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|7.5||0.795|TWO_SIDED|95.0|-12.8|16.7||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was covariate.||Analysis at randomization to Week 10.||16.7|-12.8|0.795
92203666|NCT00581555|184305588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|7.6||0.758|TWO_SIDED|95.0|-12.5|17.1||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was covariate.||Analysis at randomization to Week 12.||17.1|-12.5|0.758
92203667|NCT00581555|184305588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|STANDARD_ERROR_OF_MEAN|7.6||0.381|TWO_SIDED|95.0|-8.3|21.6||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was covariate.||Analysis at randomization to Week 16.||21.6|-8.3|0.381
92203668|NCT00581555|184305588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|7.8||0.041|TWO_SIDED|95.0|0.8|31.4||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis at randomization to Week 20.||31.4|0.8|0.041
92203669|NCT00581555|184305588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.5|STANDARD_ERROR_OF_MEAN|8.0|<|0.001|TWO_SIDED|95.0|14.8|46.3||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was covariate.||Analysis at randomization to Week 24.||46.3|14.8|<0.001
92203670|NCT00581555|184305589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.3||0.049|TWO_SIDED|95.0|0.0|1.2||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from randomization to Week 24.||1.2|0.0|0.049
92203671|NCT00581555|184305590|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|Pearson chi-square|Treatment groups and visits were fixed factors with a logit link, a binomial distribution and an auto-regressive correlation structure.||Analysis from randomization to Week 24.||||0.002
92203672|NCT00581555|184305591|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||Log Rank|Time to first relapse was estimated using the Kaplan-Meier's, and comparisons between groups was performed using log rank tests.||||||0.0003
92203673|NCT00581555|184305592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|2.1|7.3||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from randomization to Week 24.||7.3|2.1|<0.001
92203674|NCT00581555|184305593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|135.2|STANDARD_ERROR_OF_MEAN|42.3||0.001|TWO_SIDED|95.0|52.3|218.1||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from randomization to Week 24.||218.1|52.3|0.001
92203675|NCT00581555|184305594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|1.6||0.139||95.0|-0.8|5.5||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from randomization to Week 24.||5.5|-0.8|0.139
92203676|NCT00581555|184305595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|1.2||0.956|TWO_SIDED|95.0|-2.3|2.5||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 2.||2.5|-2.3|0.956
92203677|NCT00581555|184305595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|1.3||0.41|TWO_SIDED|95.0|-3.6|1.5||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 4.||1.5|-3.6|0.41
92203678|NCT00581555|184305595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|2.2||0.844|TWO_SIDED|95.0|-4.8|3.9||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 6.||3.9|-4.8|0.844
92203679|NCT00581555|184305595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.9||0.968|TWO_SIDED|95.0|-1.8|1.8||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 8.||1.8|-1.8|0.968
92327201|NCT01711619|184559424|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Nominal alpha of 5% was pre-defined for the final analysis.|Regression, Linear|||||||<0.0001
92203680|NCT00581555|184305595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.9||0.441|TWO_SIDED|95.0|-1.1|2.5||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 10.||2.5|-1.1|0.441
92203681|NCT00581555|184305595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.9||0.3|TWO_SIDED|95.0|-0.9|2.8||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 12.||2.8|-0.9|0.3
92203682|NCT00581555|184305595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|1.0||0.008|TWO_SIDED|95.0|0.7|4.5||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 16.||4.5|0.7|0.008
92203683|NCT00581555|184305595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|1.0||0.005|TWO_SIDED|95.0|0.9|5.0||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 20.||5.0|0.9|0.005
92203684|NCT00581555|184305595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|1.1||0.031|TWO_SIDED|95.0|0.2|4.6||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 24.||4.6|0.2|0.031
92203685|NCT00581555|184305596|SUPERIORITY_OR_OTHER|||||||0.1196||95.0||||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|Pearson chi-square or Fisher exact test|Treatment groups and visits were fixed factors with a logit link, a binomial distribution and an auto-regressive correlation structure.||Analysis from baseline to Week 24.||||0.1196
92203686|NCT02055781|184305611|SUPERIORITY|||||||0.0011|||||||Fisher Exact|||BAT arm compared to pooled pacritinib arms (QD + BID - ITT Efficacy)||||0.0011
92203687|NCT02055781|184305611|SUPERIORITY|||||||0.0173|||||||Fisher Exact|||||||0.0173
92203688|NCT02055781|184305611|SUPERIORITY|||||||0.0007|||||||Fisher Exact|||||||0.0007
92203689|NCT02055781|184305612|SUPERIORITY|||||||0.0791|||||||Fisher Exact|||BAT arm compared to pooled pacritinib arms (QD + BID - ITT Efficacy)||||0.0791
92203690|NCT02055781|184305612|SUPERIORITY|||||||0.6524|||||||Fisher Exact|||||||0.6524
92203691|NCT02055781|184305612|SUPERIORITY|||||||0.0106|||||||Fisher Exact|||||||0.0106
92203692|NCT00201643|184305622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.45|STANDARD_ERROR_OF_MEAN|0.1162||0.002|TWO_SIDED|95.0|0.27|0.75||Analysis were also conducted in all randomized women with a known outcome \& in randomized treatment group(modified intent to treat). Analysis of the primary outcome used a repeated measures approach where each baby was considered a repeated measure|Fisher Exact|||Our Hypothesis was that administration of a rescue ACS would show a 40% reduction in incidence of composite neonatal morbity in patients delivering \< 34 weeks. Sample size estimates based on composite morbidity of 28%. Each arm required 217 subjects to have 80% power to detect a 40% reduction to 16.8%(2-tailed,alpha =0.05)using comparison for proportions/groups(Fisher exact test) OR,95% CI \& P values were determined using a repeated measure model where each twin is considered a repeat measure.||0.75|0.27|0.002
92203693|NCT02787044|184305631|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.21|TWO_SIDED|95.0|0.97|1.17|||Regression, Cox|||Note, each participant can be included in the primary analysis up to 3 times (participating seasons).||1.17|0.97|0.21
92203694|NCT02787044|184305632|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.44|TWO_SIDED|95.0|0.94|1.15|||Regression, Cox|||||1.15|0.94|0.44
92203695|NCT02787044|184305633|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.16|TWO_SIDED|95.0|0.97|1.2|||Regression, Cox|||Each participant can be analyzed up to three times (seasons)||1.2|.97|0.16
92203696|NCT02787044|184305634|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.26|TWO_SIDED|95.0|0.96|1.15|||Regression, Cox|||||1.15|.96|0.26
92203697|NCT02787044|184305635|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.96|TWO_SIDED|95.0|0.84|1.21|||Regression, Cox|||||1.21|0.84|0.96
92203698|NCT01638429|184305637|SUPERIORITY_OR_OTHER|||||||0.16|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.16
92203699|NCT01638429|184305639|SUPERIORITY_OR_OTHER|||||||0.028|||||||t-test, 2 sided|||P-value is comparing change in methane eradiacators before and after treatment to change in methane non-eradiacators before and after treatment||||0.028
92203700|NCT01638429|184305640|SUPERIORITY_OR_OTHER|||||||0.01|||||||t-test, 2 sided|||P-value is comparing change in methane eradiacators before and after treatment to change in methane non-eradiacators before and after treatment||||0.01
92203701|NCT01638429|184305641|SUPERIORITY_OR_OTHER|||||||0.97|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.97
92203702|NCT01638429|184305641|SUPERIORITY_OR_OTHER|||||||0.85|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.85
92203703|NCT01638429|184305642|SUPERIORITY_OR_OTHER|||||||0.61|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.61
92203704|NCT01638429|184305642|SUPERIORITY_OR_OTHER|||||||0.45|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.45
92203705|NCT01638429|184305643|SUPERIORITY_OR_OTHER|||||||0.018|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.018
92203706|NCT01638429|184305643|SUPERIORITY_OR_OTHER|||||||0.14|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.14
92203707|NCT01638429|184305644|SUPERIORITY_OR_OTHER|||||||0.43|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.43
92203708|NCT01638429|184305644|SUPERIORITY_OR_OTHER|||||||0.44|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.44
92203709|NCT01638429|184305645|SUPERIORITY_OR_OTHER|||||||0.13|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.13
92203710|NCT01638429|184305645|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.25
92203711|NCT01638429|184305646|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.29
92203712|NCT01638429|184305646|SUPERIORITY_OR_OTHER|||||||0.27|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.27
92203713|NCT01638429|184305647|SUPERIORITY_OR_OTHER|||||||0.22|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.22
92203714|NCT01638429|184305647|SUPERIORITY_OR_OTHER|||||||0.059|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.059
92203715|NCT01638429|184305648|SUPERIORITY_OR_OTHER|||||||0.33|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.33
92203716|NCT01638429|184305648|SUPERIORITY_OR_OTHER|||||||0.075|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.075
92203717|NCT02040584|184305649|SUPERIORITY_OR_OTHER|||||||0.9423|||||||Fisher Exact|Week 52||"Null hypothesis (H0): there were no differences in kidney function between the two groups, in contrast with the alternative hypothesis (H1), in which there were differences:~HO: CBS = CBC versus H1: CBS ≠ CBC, where CBS and CBC were percentages of patients who showed clinical benefit at Week 52 for the study group and control group, respectively."||||0.9423
92203718|NCT04978493|184305704|OTHER||Difference of adjusted means|1.92|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|95.0|-0.99|4.84|||||(Adjusted mean BI 706321 and ustekinumab) - (adjusted mean Placebo and ustekinumab)|The analysis was a restricted maximum likelihood (REML) based analysis of covariance (ANCOVA). For the ANCOVA model, absolute change in SES-CD score was the dependent variable, treatment group and baseline corticosteroid use (yes/no) were fixed effects and baseline SES-CD score was a continuous covariate.||4.84|-0.99|
92203719|NCT04978493|184305705|OTHER||Difference of adjusted means|13.34|STANDARD_ERROR_OF_MEAN|11.32|||TWO_SIDED|95.0|-9.46|36.14|||||(Adjusted mean BI 706321 and ustekinumab) - (adjusted mean Placebo and ustekinumab)|The analysis was a restricted maximum likelihood (REML) based analysis of covariance (ANCOVA). For the ANCOVA model, absolute change in SES-CD score was the dependent variable, treatment group and baseline corticosteroid use (yes/no) were fixed effects and baseline SES-CD score was a continuous covariate.||36.14|-9.46|
92203720|NCT04978493|184305706|OTHER||Unadjusted risk difference|-27.5|||||TWO_SIDED|95.0|-48.42|-2.64|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||-2.64|-48.42|
92203721|NCT04978493|184305707|OTHER||Unadjusted risk difference|0.67|||||TWO_SIDED|95.0|-20.49|22.12|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||22.12|-20.49|
92203722|NCT04978493|184305708|OTHER||Unadjusted risk difference|-3.83|||||TWO_SIDED|95.0|-21.14|13.25|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||13.25|-21.14|
92203723|NCT04978493|184305709|OTHER||Unadjusted risk difference|0.33|||||TWO_SIDED|95.0|-17.67|18.78|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||18.78|-17.67|
92203724|NCT04978493|184305710|OTHER||Unadjusted risk difference|-3.33|||||TWO_SIDED|95.0|-24.91|18.85|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||18.85|-24.91|
92203725|NCT04978493|184305711|OTHER||Unadjusted risk difference|-3.5|||||TWO_SIDED|95.0|-23.86|17.34|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||17.34|-23.86|
92203726|NCT04978493|184305712|OTHER||Unadjusted risk difference|-18.5|||||TWO_SIDED|95.0|-42.32|8.89|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||8.89|-42.32|
92203727|NCT04978493|184305713|OTHER||Unadjusted risk difference|0.83|||||TWO_SIDED|95.0|-21.53|23.41|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||23.41|-21.53|
92203728|NCT04978493|184305714|OTHER||Unadjusted risk difference|-22.17|||||TWO_SIDED|95.0|-45.42|5.19|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||5.19|-45.42|
92203729|NCT02387970|184305724|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||||||0.088
92203730|NCT02387970|184305725|SUPERIORITY|||||||0.235|||||||t-test, 2 sided|||||||0.235
92203731|NCT02387970|184305726|SUPERIORITY|||||||0.165|||||||t-test, 2 sided|||||||0.165
92203732|NCT02387970|184305727|SUPERIORITY|||||||0.297|||||||t-test, 2 sided|||||||0.297
92203733|NCT02387970|184305728|SUPERIORITY|||||||0.121|||||||t-test, 2 sided|||||||0.121
92203734|NCT02387970|184305729|SUPERIORITY|||||||0.248|||||||t-test, 2 sided|||||||0.248
92203735|NCT02387970|184305730|SUPERIORITY|||||||0.854|||||||t-test, 2 sided|||||||0.854
92203736|NCT02628028|184305732|SUPERIORITY|||||||0.473|||||||Regression, Logistic|||||||0.473
92203737|NCT02628028|184305732|SUPERIORITY|||||||0.67|||||||Regression, Logistic|||||||0.670
92203738|NCT02628028|184305732|SUPERIORITY|||||||0.823|||||||Regression, Logistic|||||||0.823
92203739|NCT02628028|184305733|SUPERIORITY|||||||0.743|||||||Regression, Logistic|||||||0.743
92203740|NCT02628028|184305733|SUPERIORITY|||||||0.124|||||||Regression, Logistic|||||||0.124
92203741|NCT02628028|184305733|SUPERIORITY|||||||0.858|||||||Regression, Logistic|||||||0.858
92203742|NCT02628028|184305734|SUPERIORITY|||||||0.199|||||||Regression, Logistic|||||||0.199
92203743|NCT02628028|184305734|SUPERIORITY|||||||0.028|||||||Regression, Logistic|||||||0.028
92203744|NCT02628028|184305734|SUPERIORITY|||||||0.863|||||||Regression, Logistic|||||||0.863
92203745|NCT02628028|184305735|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.25||0.863|TWO_SIDED|95.0|-0.53|0.44|||Mixed-effects Model for Repeated Measure|||||0.44|-0.53|0.863
92203746|NCT02628028|184305735|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.25||0.503|TWO_SIDED|95.0|-0.32|0.65|||Mixed-effects Model for Repeated Measure|||||0.65|-0.32|0.503
92203747|NCT02628028|184305735|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.25||0.289|TWO_SIDED|95.0|-0.77|0.23|||Mixed-effects Model for Repeated Measure|||||0.23|-0.77|0.289
92203748|NCT02628028|184305736|SUPERIORITY|||||||0.626|||||||Regression, Logistic|||||||0.626
92203749|NCT02628028|184305736|SUPERIORITY|||||||0.418|||||||Regression, Logistic|||||||0.418
92203750|NCT02628028|184305736|SUPERIORITY|||||||0.951|||||||Regression, Logistic|||||||0.951
92203751|NCT02628028|184305737|SUPERIORITY|||||||0.905|||||||Regression, Logistic|||||||0.905
92203752|NCT02628028|184305737|SUPERIORITY|||||||0.069|||||||Regression, Logistic|||||||0.069
92203753|NCT02628028|184305737|SUPERIORITY|||||||0.547|||||||Regression, Logistic|||||||0.547
92203754|NCT01743989|184305770|SUPERIORITY|||||||0.383|||||||Chi-squared|||||||0.383
92203755|NCT04655027|184305801|OTHER|Treatment effect|Difference in Estimate (LSM)|19.5|STANDARD_ERROR_OF_MEAN|15.62||0.212|TWO_SIDED|95.0|-11.155|50.15|||ANCOVA|||||50.150|-11.155|0.212
92203756|NCT04655027|184305802|OTHER|Baseline hepcidin by treatment effect|Difference in Estimate|-0.13|STANDARD_ERROR_OF_MEAN|0.17||0.441|TWO_SIDED|95.0|-0.477|0.208|||ANCOVA|||||0.208|-0.477|0.441
92203757|NCT04655027|184305802|OTHER|Baseline hs CRP by treatment effect|Difference in Estimates|-2.34|STANDARD_ERROR_OF_MEAN|3.76||0.532|TWO_SIDED|95.0|-9.707|5.017|||ANCOVA|||||5.017|-9.707|0.532
92203758|NCT04655027|184305803|OTHER|Treatment effect|Ratio of Estimates|1.09|STANDARD_ERROR_OF_MEAN|1.23||0.688|TWO_SIDED|95.0|0.723|1.635|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.635|0.723|0.688
92203759|NCT04655027|184305803|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|0.43|STANDARD_ERROR_OF_MEAN|0.2||0.029|TWO_SIDED|95.0|0.045|0.822|||ANCOVA|||||0.822|0.045|0.029
92203760|NCT04655027|184305803|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.08|STANDARD_ERROR_OF_MEAN|0.14||0.568|TWO_SIDED|95.0|-0.201|0.366|||ANCOVA|||||0.366|-0.201|0.568
92203761|NCT04655027|184305804|OTHER|Treatment effect|Ratio of Estimates|0.84|STANDARD_ERROR_OF_MEAN|1.11||0.096|TWO_SIDED|95.0|0.687|1.031|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.031|0.687|0.096
92203762|NCT04655027|184305804|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|-0.06|STANDARD_ERROR_OF_MEAN|0.12||0.63|TWO_SIDED|95.0|-0.282|0.171|||ANCOVA|||||0.171|-0.282|0.630
92203763|NCT04655027|184305804|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.19|STANDARD_ERROR_OF_MEAN|0.08||0.015|TWO_SIDED|95.0|0.037|0.342|||ANCOVA|||||0.342|0.037|0.015
92203764|NCT04655027|184305805|OTHER|Treatment effect|Ratio of Estimates|1.23|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED|95.0|1.123|1.354|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.354|1.123|< 0.001
92203765|NCT04655027|184305805|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|0.06|STANDARD_ERROR_OF_MEAN|0.04||0.171|TWO_SIDED|95.0|-0.027|0.149|||ANCOVA|||||0.149|-0.027|0.171
92203766|NCT04655027|184305805|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.03|STANDARD_ERROR_OF_MEAN|0.04||0.387|TWO_SIDED|95.0|-0.039|0.101|||ANCOVA|||||0.101|-0.039|0.387
92203767|NCT04655027|184305806|OTHER|Treatment effect|Ratio of Estimates|0.89|STANDARD_ERROR_OF_MEAN|1.22||0.561|TWO_SIDED|95.0|0.606|1.312|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.312|0.606|0.561
92203768|NCT04655027|184305806|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|0.38|STANDARD_ERROR_OF_MEAN|0.19||0.043|TWO_SIDED|95.0|0.013|0.75|||ANCOVA|||||0.750|0.013|0.043
92203769|NCT04655027|184305806|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.766|TWO_SIDED|95.0|-0.222|0.302|||ANCOVA|||||0.302|-0.222|0.766
92203770|NCT04655027|184305807|OTHER|Treatment effect|Ratio of Estimates|1.23|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED|95.0|1.108|1.369|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.369|1.108|< 0.001
92327202|NCT01711619|184559425|SUPERIORITY_OR_OTHER|||||||0.0002||||||Nominal alpha of 5% was pre-defined for the final analysis.|Fisher Exact|||Subjects with missing information were considered in the test and computation for ITT.||||0.0002
92203771|NCT04655027|184305807|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.351|TWO_SIDED|95.0|-0.059|0.159|||ANCOVA|||||0.159|-0.059|0.351
92203772|NCT04655027|184305807|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.04|STANDARD_ERROR_OF_MEAN|0.03||0.248|TWO_SIDED|95.0|-0.031|0.114|||ANCOVA|||||0.114|-0.031|0.248
92203773|NCT04655027|184305808|OTHER|Treatment effect|Ratio of Estimates|1.29|STANDARD_ERROR_OF_MEAN|1.11||0.021|TWO_SIDED|95.0|1.043|1.598|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.598|1.043|0.021
92203774|NCT04655027|184305808|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|-0.03|STANDARD_ERROR_OF_MEAN|0.12||0.826|TWO_SIDED|95.0|-0.276|0.223|||ANCOVA|||||0.223|-0.276|0.826
92203775|NCT04655027|184305808|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.634|TWO_SIDED|95.0|-0.212|0.132|||ANCOVA|||||0.132|-0.212|0.634
92203776|NCT04655027|184305809|OTHER|Treatment effect|Ratio of Estimates|0.45|STANDARD_ERROR_OF_MEAN|1.31||0.007|TWO_SIDED|95.0|0.257|0.786|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||0.786|0.257|0.007
92327203|NCT01711619|184559426|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Nominal alpha of 5% was pre-defined for the final analysis.|Fisher Exact|||Subjects with missing information were considered in the test and computation for ITT.||||<0.0001
92203777|NCT04655027|184305809|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|-0.16|STANDARD_ERROR_OF_MEAN|0.31||0.61|TWO_SIDED|95.0|-0.798|0.48|||ANCOVA|||||0.480|-0.798|0.610
92203778|NCT04655027|184305809|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.07|STANDARD_ERROR_OF_MEAN|0.22||0.74|TWO_SIDED|95.0|-0.387|0.536|||ANCOVA|||||0.536|-0.387|0.740
92203779|NCT00186888|184305831|SUPERIORITY_OR_OTHER_LEGACY||Binomial Proportion|88.9|||||TWO_SIDED|95.0|71.3|96.9||||||||96.9|71.3|
92203780|NCT00186888|184305832|SUPERIORITY_OR_OTHER_LEGACY||Binomial Proportion|91.7|||||TWO_SIDED|95.0|65.1|99.6||||||||99.6|65.1|
92203781|NCT00186888|184305833|SUPERIORITY_OR_OTHER_LEGACY|||||||0.452||95.0|||||ANOVA|||CYP3A4\*1B: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.452
92203782|NCT00186888|184305833|SUPERIORITY_OR_OTHER_LEGACY|||||||0.106||95.0|||||ANOVA|||CYP3A5\*3: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.106
92203783|NCT00186888|184305834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.245||95.0|||||ANOVA|||BCRP 1143: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.245
92203784|NCT00186888|184305834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.297||95.0|||||ANOVA|||BCRP 15622: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.297
92203785|NCT00186888|184305834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.372||95.0|||||ANOVA|||BCRP Exon 2: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.372
92203786|NCT00186888|184305834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.844||95.0|||||ANOVA|||BCRP Exon 5: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.844
92327204|NCT03422159|184559427|NON_INFERIORITY|Based on the results of the preliminary study of Marik et al, 5 we projected that the combination of ascorbic acid, thiamine, and hydrocortisone could reduce time to vasopressor discontinuation from 54 (+/-30 hours) vs 30 hours. For the additional primary outcome, we projected a greater change of SOFA score of 4 (+/-3) vs 2. Assuming a type 1 error of 5% (alpha of 0.05) and a power of 80%, this study would require a sample size of 94 patients.|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92327205|NCT04601103|184559437|OTHER|Generalized Fisher's Exact Test was used to detect an association between the 3 treatment groups and the incidence of sloughing||||||0.916|||||||Fisher Exact|||||||.916
92327206|NCT01032239|184559498|SUPERIORITY||Hodges-Lehmann|-0.667||||0.014|TWO_SIDED|95.1|-1.0|-0.1667|||Wilcoxon (Mann-Whitney)|||To test the null hypothesis the sample size needed was 44 evaluable patient (22 per arm) with a power of 80 %.||-0.1667|-1.000|0.0140
92203787|NCT00186888|184305834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.616||95.0|||||ANOVA|||Pgp Exon 21: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.616
92203788|NCT00186888|184305834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.424||95.0|||||ANOVA|||Pgp Exon 26: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.424
92203789|NCT03086655|184305896|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.9|1.93|||||This is the 'inflation part' of the zero inflated negative binomial model. We used cluster robust standard errors due to the multiple observations over time being nested within participant. Result shows odds of intervention group relative to control.|"We used zero inflated negative binomial regression due to the count variable being overdispersed and containing a large number of 0. The analysis aggregated over multiple time points per participant. It simultaneously tests the odds of having 0 openings and the difference in the rate of openings between the 2 intervention groups. These 2 results are reported separately.~Null hypothesis 1: the odds of having 0 openings is lower in intervention than control group."||1.93|0.90|
92203790|NCT03086655|184305896|SUPERIORITY||incidence rate ratio (IRR)|0.77|||||TWO_SIDED|95.0|0.61|0.98|||||This is the negative binomial part of the model. We used cluster robust standard errors due to the multiple observations being nested within participant. Result shows intervention group had lower rate of openings relative to control.|"We used zero inflated negative binomial regression due to the count variable being overdispersed and containing many 0s. The analysis aggregated over multiple time points per participant. It simultaneously tests the odds of having 0 openings and the difference in the rate of openings between the 2 intervention groups. These 2 results are reported separately.~Null hypothesis 2: the incidence rate ratio for # days with box opening is \>1, i.e. more openings in intervention than control group."||0.98|0.61|
92203791|NCT03086655|184305897|SUPERIORITY|||||||0.08|||||||Chi-squared|overall Wald chi2 (2 d.f.), simultaneously testing if parameters for both 6 mo. by intervention and 12 mo. by intervention are different from 0.||"statistical analyses is a GEE model with logit link function and binomial distribution with odds of undetectable VL as outcome and as predictors: intervention, time and time\*intervention. We hypothesize that over time, the odds of undetectable VL will be higher for the intervention than the control group, which would be reflected in a significant interaction effect time\*intervention.~H0: no significant interaction effect time\*intervention"||||0.08
92203792|NCT03086655|184305898|SUPERIORITY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.13|<|0.05|TWO_SIDED|95.0|-0.11|0.43||a priori threshold for statistical significance was p=0.05.|t-test, 2 sided|(equal variances assumed)|Difference = control group - treatment group|||0.43|-0.11|<0.05
92203793|NCT03086655|184305899|SUPERIORITY|||||||0.08|||||||Chi-squared|overall Wald chi2 (4 d.f.), simultaneously testing if parameters for all follow-ups by intervention are different from 0.||"statistical analyses is a GEE model with logit link function and binomial distribution with odds of optimal adherence as outcome and as predictors: intervention, time and time\*intervention. We hypothesize that over time, the odds of optimal adherence will be higher for the intervention than the control group, which would be reflected in a significant interaction effect time\*intervention.~H0: no significant interaction effect time\*intervention"||||0.08
92203794|NCT04531982|184305905|SUPERIORITY|||||||0.4825||||||Two-sided p-value for treatment difference at Week 26 from MMRM analysis.|Mixed Models Analysis|||Difference between LSM changes for adjunctive pimavanserin and adjunctive placebo (pimavanserin - placebo) at the specified visit from MMRM analysis.||||0.4825
92203795|NCT04531982|184305906|SUPERIORITY|||||||0.8872||||||Two-sided p-value for treatment difference at Week 26 from MMRM analysis.|Mixed Models Analysis|||||||0.8872
92203796|NCT04303780|184305930|EQUIVALENCE|A hazard ratio \<1.0 indicates a lower average event rate and a longer PFS for AMG 510 relative to docetaxel. P-value was calculated using a stratified log-rank test.|Hazard Ratio (HR)|0.663||||0.002|TWO_SIDED|95.0|0.509|0.864|||Log Rank|||||0.864|0.509|0.002
92203797|NCT03826030|184305931|SUPERIORITY|||||||0.39|||||||Mixed Models Analysis|||The null hypothesis was no overall difference in FM-UE scale change between the three groups on day 15. The change in FM-UE was modelled using a linear mixed-effects repeated measures model adjusted for visit (ie, day 15, day 45, and day 105), treatment group, treatment group by visit interaction, baseline FM-UE, time from stroke (30-90 vs. 91-180 days), and enrolment site. An AR(1) autocorrelation structure was used for visit, and variance components structure for sites.||||0.39
92203798|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with TEAEs|77.4||||||95.0||||||||||||
92203799|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with related AEs|28.4||||||95.0||||||||||||
92203800|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with severe AEs|5.7||||||95.0||||||||||||
92203801|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with serious AEs|4.9||||||95.0||||||||||||
92203802|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with TEAEs|79.2||||||95.0||||||||||||
92203803|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with related AEs|23.1||||||95.0||||||||||||
92203804|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with severe AEs|3.8||||||95.0||||||||||||
92203805|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with serious AEs|6.1||||||95.0||||||||||||
92203806|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with TEAEs|82.4||||||95.0||||||||||||
92327207|NCT01032239|184559499|SUPERIORITY||Hodges-Lehmann|-0.6||||0.0042|TWO_SIDED|95.0|-1.0|-0.2|||Wilcoxon (Mann-Whitney)|||||-0.2000|-1.0000|0.0042
92203807|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with related AEs|23.5||||||95.0||||||||||||
92203808|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with severe AEs|5.9||||||95.0||||||||||||
92203809|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with serious AEs|5.8||||||95.0||||||||||||
92203810|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with TEAEs|76.9||||||95.0||||||||||||
92203811|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with related AEs|20.0||||||95.0||||||||||||
92203812|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with severe AEs|6.2||||||95.0||||||||||||
92203813|NCT00379288|184305934|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with serious AEs|3.1||||||95.0||||||||||||
92203814|NCT03446781|184306061|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||0.002
92203815|NCT03446781|184306062|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92203816|NCT03446781|184306063|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92203817|NCT03446781|184306064|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92203818|NCT03446781|184306065|SUPERIORITY|||||||0.033|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||0.033
92327208|NCT01032239|184559500|SUPERIORITY|||||||0.054|||||||Wilcoxon (Mann-Whitney)|||||||0.0540
92327209|NCT01032239|184559501|SUPERIORITY|||||||0.6256|||||||Wilcoxon (Mann-Whitney)|||||||0.6256
92327210|NCT01032239|184559502|SUPERIORITY|||||||0.3676|||||||Cochran-Mantel-Haenszel|||||||0.3676
92203819|NCT03446781|184306066|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92203820|NCT03446781|184306067|SUPERIORITY||||||<|0.001|||||||ANCOVA|With factors of treatment group and analysis center adjusted for baseline values in the model||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92203821|NCT03446781|184306068|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92203822|NCT03446781|184306069|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
92203823|NCT02898077|184306130|SUPERIORITY||Hazard Ratio (HR)|0.765||||0.0184|TWO_SIDED|95.0|0.613|0.955|||Log Rank|||||0.955|0.613|0.0184
92203824|NCT02898077|184306131|SUPERIORITY||Hazard Ratio (HR)|0.963|||||TWO_SIDED|95.0|0.771|1.203||||||||1.203|0.771|
92203825|NCT02898077|184306132|SUPERIORITY||Hazard Ratio (HR)|0.761|||||TWO_SIDED|95.0|0.598|0.968||||||||0.968|0.598|
92203826|NCT02898077|184306133|SUPERIORITY||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.5|1.2||||||||1.2|0.5|
92203827|NCT02898077|184306134|SUPERIORITY||Hazard Ratio (HR)|0.905|||||TWO_SIDED|95.0|0.577|1.421||||||||1.421|0.577|
92203828|NCT00996476|184306142|SUPERIORITY_OR_OTHER||LS means difference|-2.4|||||TWO_SIDED|95.0|-2.83|-1.97|||ANCOVA||TMC435 50 mg minus PR48 control|Difference in least square (LS) mean change from baseline from the PR48 control group||-1.97|-2.83|
92203829|NCT00996476|184306142|SUPERIORITY_OR_OTHER||LS Means difference|-2.41|||||TWO_SIDED|95.0|-2.85|-1.98|||ANCOVA||TMC435 100 mg minus PR48 control|Difference in least square (LS) mean change from baseline from the PR48 control group||-1.98|-2.85|
92203830|NCT00996476|184306147|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-24.6|||||TWO_SIDED|95.0|-58.3|11.8|||||PR48 control minus TMC12/PR24|The difference in the percentage of participants between The TMC12/PR24 50 mg treatment group and the PR48 control group||11.8|-58.3|
92203831|NCT00996476|184306147|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-27.5|||||TWO_SIDED|95.0|-61.1|9.8|||||PR48 control minus TMC12/PR24|The difference in the percentage of participants between The TMC12/PR24 100 mg treatment group and the PR48 control group||9.8|-61.1|
92203832|NCT00996476|184306147|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-23.3|||||TWO_SIDED|95.0|-59.9|19.4|||||PR48 control minus TMC24/PR24|The difference in the percentage of participants between The TMC24/PR24 50 mg treatment group and the PR48 control group||19.4|-59.9|
92203833|NCT00996476|184306147|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-32.3|||||TWO_SIDED|95.0|-66.6|8.3|||||PR48 control minus TMC24/PR24|The difference in the percentage of participants between The TMC24/PR24 100 mg treatment group and the PR48 control group||8.3|-66.6|
92327211|NCT01032239|184559503|SUPERIORITY|||||||0.038|||||||Wilcoxon (Mann-Whitney)|||Actual Pain||||0.0380
92327212|NCT01032239|184559503|SUPERIORITY|||||||0.0136|||||||Wilcoxon (Mann-Whitney)|||Least Pain||||0.0136
92327213|NCT01032239|184559503|SUPERIORITY|||||||0.2427|||||||Wilcoxon (Mann-Whitney)|||Worst Pain||||0.2427
92327214|NCT01032239|184559504|SUPERIORITY|||||||0.7661|||||||Fisher Exact|||||||0.7661
92327215|NCT01032239|184559505|SUPERIORITY|||||||0.0197|||||||Wilcoxon (Mann-Whitney)|||Utility Score||||0.0197
92203834|NCT01470001|184306162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.7||||0.1135|TWO_SIDED|95.0|-4.3|39.7|||Mixed Models Analysis|mixed model with repeated measurements||A planned sample size of 56 subjects per group provided 80% power to detect a difference of 0.25 between post void dribbling response rates (assumed to be 0.35 under the null hypothesis and 0.60 under the alternative hypothesis) at a one-sided 0.05 significance level.||39.7|-4.3|.1135
92203835|NCT01470001|184306163|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.3||||0.0919|TWO_SIDED|95.0|-2.3|30.8|||Regression, Logistic|logistic regression with repeated measurements||||30.8|-2.3|.0919
92203836|NCT01470001|184306164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.44|TWO_SIDED|95.0|-17.5|6.2||p value was adjusted for age.|ANCOVA||we calculated the estimated difference in change between the placebo and treatment groups.|the difference in change between the groups was measured||6.2|-17.5|0.44
92203837|NCT02236988|184306197|OTHER||Ratio of Adjusted Geometric Means|65.3|||||TWO_SIDED|90.0|55.0|77.6|||||Ratio of adjusted geometric means (Apremilast Modified Release 1 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an analysis of variance (ANOVA) was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||77.6|55.0|
92203838|NCT02236988|184306197|OTHER||Ratio of Adjusted Geometric Means|80.4|||||TWO_SIDED|90.0|67.8|95.5|||||Ratio of adjusted geometric means (Apremilast Modified Release 2 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||95.5|67.8|
92203839|NCT02236988|184306197|OTHER||Ratio of Adjusted Geometric Means|84.2|||||TWO_SIDED|90.0|70.9|99.9|||||Ratio of adjusted geometric means (Apremilast Modified Release 3 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||99.9|70.9|
92203840|NCT02236988|184306199|OTHER||Ratio of Adjusted Geometric Means|61.8|||||TWO_SIDED|90.0|51.7|73.9|||||Ratio of adjusted geometric means (Apremilast Modified Release 1 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||73.9|51.7|
92203841|NCT02236988|184306199|OTHER||Ratio of Adjusted Geometric Means|71.2|||||TWO_SIDED|90.0|59.6|85.1|||||Ratio of adjusted geometric means (Apremilast Modified Release 2 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||85.1|59.6|
92203842|NCT02236988|184306199|OTHER||Ratio of Adjusted Geometric Means|73.8|||||TWO_SIDED|90.0|61.7|88.2|||||Ratio of adjusted geometric means (Apremilast Modified Release 3 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.2|61.7|
92203843|NCT02236988|184306200|OTHER||Ratio of Adjusted Geometric Means|62.3|||||TWO_SIDED|90.0|52.1|74.4|||||Ratio of adjusted geometric means (Apremilast Modified Release 1 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||74.4|52.1|
92203844|NCT02236988|184306200|OTHER||Ratio of Adjusted Geometric Means|71.3|||||TWO_SIDED|90.0|59.7|85.2|||||Ratio of adjusted geometric means (Apremilast Modified Release 2 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||85.2|59.7|
92203845|NCT02236988|184306200|OTHER||Ratio of Adjusted Geometric Means|74.0|||||TWO_SIDED|90.0|62.0|88.4|||||Ratio of adjusted geometric means (Apremilast Modified Release 3 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.4|62.0|
92203846|NCT02236988|184306201|OTHER||Median Difference|1.0||||0.009|TWO_SIDED|90.0|0.5|2.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 1 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||2.00|0.5|0.0090
92327216|NCT01032239|184559505|SUPERIORITY|||||||0.3807|||||||t-test, 2 sided|||VAS||||0.3807
92203847|NCT02236988|184306201|OTHER||Median Difference|1.26||||0.0073|TWO_SIDED|90.0|0.5|3.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 2 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||3.00|0.50|0.0073
92327217|NCT01032239|184559506|SUPERIORITY|||||||0.1068|||||||t-test, 2 sided|||PCS||||0.1068
92327218|NCT01032239|184559506|SUPERIORITY|||||||0.6824|||||||t-test, 2 sided|||MCS||||0.6824
92327219|NCT01032239|184559507|SUPERIORITY|||||||0.2105|||||||t-test, 2 sided|||||||0.2105
92327220|NCT04713592|184559527|SUPERIORITY||Rate Difference|17.2|||=|0.006|TWO_SIDED|95.0|5.0|29.3||P-value based on Cochran-Mantel-Haenszel (CMH) test adjusted for Baseline ppIGA and Baseline BSA categories for comparison of treatment groups based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19.|Cochran-Mantel-Haenszel||Difference: Risankizumab - Placebo|Risankizumab vs Placebo at Week 16||29.3|5.0|=0.006
92203848|NCT02236988|184306201|OTHER||Median Difference|2.0|||<|0.0001|TWO_SIDED|90.0|1.0|3.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 3 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||3.00|1.00|<0.0001
92203849|NCT02236988|184306207|OTHER||Ratio of Adjusted Geometric Means|90.9|||||TWO_SIDED|90.0|81.8|101.1|||||Ratio of adjusted geometric means (Apremilast Modified Release 4 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||101.1|81.8|
92203850|NCT02236988|184306207|OTHER||Ratio of Adjusted Geometric Means|73.7|||||TWO_SIDED|90.0|66.3|82.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 5 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||82.0|66.3|
92203851|NCT02236988|184306207|OTHER||Ratio of Adjusted Geometric Means|80.2|||||TWO_SIDED|90.0|72.2|89.2|||||Ratio of adjusted geometric means (Apremilast Modified Release 6 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||89.2|72.2|
92203852|NCT02236988|184306208|OTHER||Ratio of Adjusted Geometric Means|84.9|||||TWO_SIDED|90.0|77.5|93.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 4 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||93.0|77.5|
92203853|NCT02236988|184306208|OTHER||Ratio of Adjusted Geometric Means|72.0|||||TWO_SIDED|90.0|65.8|78.9|||||Ratio of adjusted geometric means (Apremilast Modified Release 5 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||78.9|65.8|
92203854|NCT02236988|184306208|OTHER||Ratio of Adjusted Geometric Means|78.0|||||TWO_SIDED|90.0|71.2|85.5|||||Ratio of adjusted geometric means (Apremilast Modified Release 6 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||85.5|71.2|
92203855|NCT02236988|184306209|OTHER||Ratio of Adjusted Geometric Means|85.5|||||TWO_SIDED|90.0|78.1|93.6|||||Ratio of adjusted geometric means (Apremilast Modified Release 4 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||93.6|78.1|
92203856|NCT02236988|184306209|OTHER||Ratio of Adjusted Geometric Means|72.6|||||TWO_SIDED|90.0|66.3|79.5|||||Ratio of adjusted geometric means (Apremilast Modified Release 5 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||79.5|66.3|
92203857|NCT02236988|184306209|OTHER||Ratio of Adjusted Geometric Means|78.9|||||TWO_SIDED|90.0|72.0|86.4|||||Ratio of adjusted geometric means (Apremilast Modified Release 6 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||86.4|72.0|
92203858|NCT02236988|184306210|OTHER||Median Difference|2.0||||0.0002|TWO_SIDED|90.0|1.0|3.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 4 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||3.00|1.00|0.0002
92203859|NCT02236988|184306210|OTHER||Median Difference|1.02||||0.0049|TWO_SIDED|90.0|0.5|2.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 5 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||2.00|0.50|0.0049
92327221|NCT04713592|184559529|SUPERIORITY||Rate Difference|27.6|||<|0.001|TWO_SIDED|95.0|15.4|39.7||P-value based on Cochran-Mantel-Haenszel (CMH) test adjusted for Baseline ppIGA and Baseline BSA categories for comparison of treatment groups based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19.|Cochran-Mantel-Haenszel||Difference: Risankizumab - Placebo|Risankizumab vs Placebo at Week 16||39.7|15.4|<0.001
92203860|NCT02236988|184306210|OTHER||Median Difference|1.5||||0.001|TWO_SIDED|90.0|1.0|2.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 6 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||2.00|1.00|0.0010
92268667|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.7||||||For Pertussis - PT the difference in percentages between the two groups (13vPnC - 7vPnC) at (5 EU/mL) threshold was calculated||2.7|-1.7|
92268668|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|2.1||||||95.0|-1.4|6.8||||||For Pertussis - PTf the difference in percentages between the two groups (13vPnC - 7vPnC) at (17.00 EU/mL) threshold was calculated||6.8|-1.4|
92203861|NCT02236988|184306216|OTHER||Ratio of Adjusted Geometric Means|91.0|||||TWO_SIDED|90.0|80.4|103.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 8 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||103.0|80.4|
92203862|NCT02236988|184306216|OTHER||Ratio of Adjusted Geometric Means|88.4|||||TWO_SIDED|90.0|78.1|100.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 9 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||100.0|78.1|
92203863|NCT02236988|184306217|OTHER||Ratio of Adjusted Geometric Means|80.6|||||TWO_SIDED|90.0|73.8|88.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 8 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.0|73.8|
92203864|NCT02236988|184306217|OTHER||Ratio of Adjusted Geometric Means|78.5|||||TWO_SIDED|90.0|71.9|85.7|||||Ratio of adjusted geometric means (Apremilast Modified Release 9 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||85.7|71.9|
92203865|NCT02236988|184306218|OTHER||Ratio of Adjusted Geometric Means|81.1|||||TWO_SIDED|90.0|74.3|88.6|||||Ratio of adjusted geometric means (Apremilast Modified Release 8 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.6|74.3|
92203866|NCT02236988|184306218|OTHER||Ratio of Adjusted Geometric Means|79.0|||||TWO_SIDED|90.0|72.3|86.3|||||Ratio of adjusted geometric means (Apremilast Modified Release 9 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||86.3|72.3|
92203867|NCT02236988|184306219|OTHER||Median Difference|0.98||||0.0374|TWO_SIDED|90.0|0.02|1.5|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 8 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.50|0.02|0.0374
92203868|NCT02236988|184306219|OTHER||Median Difference|0.51||||0.1907|TWO_SIDED|90.0|0.0|1.5|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 9 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.50|0.00|0.1907
92203869|NCT02236988|184306225|OTHER||Ratio of Adjusted Geometric Means|109.4|||||TWO_SIDED|90.0|98.6|121.3|||||Ratio of adjusted geometric means (Apremilast Modified Release 11 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||121.3|98.6|
92203870|NCT02236988|184306225|OTHER||Ratio of Adjusted Geometric Means|107.2|||||TWO_SIDED|90.0|96.4|119.2|||||Ratio of adjusted geometric means (Apremilast Modified Release 12 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||119.2|96.4|
92203871|NCT02236988|184306225|OTHER||Ratio of Adjusted Geometric Means|72.7|||||TWO_SIDED|90.0|65.5|80.8|||||Ratio of adjusted geometric means (Apremilast Modified Release 13 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||80.8|65.5|
92203872|NCT02236988|184306225|OTHER||Ratio of Adjusted Geometric Means|103.5|||||TWO_SIDED|90.0|93.1|114.9|||||Ratio of adjusted geometric means (Apremilast Modified Release 14 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||114.9|93.1|
92203873|NCT02236988|184306226|OTHER||Ratio of Adjusted Geometric Means|81.5|||||TWO_SIDED|90.0|75.2|88.3|||||Ratio of adjusted geometric means (Apremilast Modified Release 11 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.3|75.2|
92203874|NCT02236988|184306226|OTHER||Ratio of Adjusted Geometric Means|82.4|||||TWO_SIDED|90.0|75.9|89.5|||||Ratio of adjusted geometric means (Apremilast Modified Release 12 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||89.5|75.9|
92203875|NCT02236988|184306226|OTHER||Ratio of Adjusted Geometric Means|68.2|||||TWO_SIDED|90.0|62.9|74.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 13 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||74.0|62.9|
92203876|NCT02236988|184306226|OTHER||Ratio of Adjusted Geometric Means|77.4|||||TWO_SIDED|90.0|71.3|84.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 14 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||84.0|71.3|
92203877|NCT02236988|184306227|OTHER||Ratio of Adjusted Geometric Means|81.9|||||TWO_SIDED|90.0|75.6|88.6|||||Ratio of adjusted geometric means (Apremilast Modified Release 11 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.6|75.6|
92203878|NCT02236988|184306227|OTHER||Ratio of Adjusted Geometric Means|83.0|||||TWO_SIDED|90.0|76.5|90.1|||||Ratio of adjusted geometric means (Apremilast Modified Release 12 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||90.1|76.5|
92203879|NCT02236988|184306227|OTHER||Ratio of Adjusted Geometric Means|68.8|||||TWO_SIDED|90.0|63.4|74.5|||||Ratio of adjusted geometric means (Apremilast Modified Release 13 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||74.5|63.4|
92203880|NCT02236988|184306227|OTHER||Ratio of Adjusted Geometric Means|77.8|||||TWO_SIDED|90.0|71.8|84.4|||||Ratio of adjusted geometric means (Apremilast Modified Release 14 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||84.4|71.8|
92203881|NCT02236988|184306228|OTHER||Median Difference|0.98||||0.0523|TWO_SIDED|90.0|0.03|1.5|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 11 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.50|0.03|0.0523
92203882|NCT02236988|184306228|OTHER||Median Difference|0.5||||0.2598|TWO_SIDED|90.0|0.0|1.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 12 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.00|0.00|0.2598
92203883|NCT02236988|184306228|OTHER||Median Difference|1.5||||0.0053|TWO_SIDED|90.0|1.0|3.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 13 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||3.00|1.00|0.0053
92203884|NCT02236988|184306228|OTHER||Median Difference|0.5||||0.1093|TWO_SIDED|90.0|0.0|1.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 14 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.00|0.00|0.1093
92203885|NCT04308590|184306237|EQUIVALENCE|The primary analysis will determine whether there is a difference between treatment groups in terms of change from Baseline to Week 22 in 24-hour average SBP. This was performed using a linear mixed-model-for-repeated-measures (MMRM) analysis using a placebo wash-out multiple imputation for treatment discontinuation and for patients that use rescue medication.|Least squares mean difference|-2.67||||0.416|TWO_SIDED|95.0|-9.096|3.766|||Mixed Models Analysis|||||3.766|-9.096|0.4160
92203886|NCT01072630|184306346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.1302|TWO_SIDED|95.0|-4.67|0.6||All statistical tests were 2-tailed at the 0.05 level of significance.|mixed-model repeated measures (MMRM)|Treatment, visit, treatment-by-visit interaction, concurrent mood-stabilizing medication, and region of the world used as fixed factors.||||0.60|-4.67|0.1302
92327222|NCT04713592|184559530|SUPERIORITY||Rate Difference|21.8|||<|0.001|TWO_SIDED|95.0|11.5|32.1||P-value based on Cochran-Mantel-Haenszel (CMH) test adjusted for Baseline ppIGA and Baseline BSA categories for comparison of treatment groups based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19.|Cochran-Mantel-Haenszel||Difference: Risankizumab - Placebo|Risankizumab vs Placebo at Week 16||32.1|11.5|<0.001
92203887|NCT01072630|184306346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.135|TWO_SIDED|95.0|-4.51|0.61||All statistical tests were 2-tailed at the 0.05 level of significance.|mixed-model repeated measures (MMRM)|Treatment, visit, treatment-by-visit interaction, concurrent mood-stabilizing medication, and region of the world used as fixed factors.||||0.61|-4.51|0.1350
92203888|NCT02683785|184306369|OTHER||Mean Difference (Net)|-0.36||||0.442|TWO_SIDED|95.0|-1.31|0.58||MMRM model with fixed effects of Baseline Value,Treatment Group,Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used.p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 6 is presented.|||0.58|-1.31|0.442
92203889|NCT02683785|184306370|OTHER||Mean Difference (Net)|-0.46||||0.046|TWO_SIDED|95.0|-0.9|-0.01||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 1 is presented|||-0.01|-0.90|0.046
92327223|NCT04713592|184559531|SUPERIORITY||Rate Difference|20.7|||<|0.001|TWO_SIDED|95.0|9.1|32.2||P-value based on Cochran-Mantel-Haenszel (CMH) test adjusted for Baseline ppIGA and Baseline BSA categories for comparison of treatment groups based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19.|Cochran-Mantel-Haenszel||Difference: Risankizumab - Placebo|Risankizumab vs Placebo at Week 16||32.2|9.1|<0.001
92203890|NCT02683785|184306370|OTHER||Mean Difference (Net)|-0.38||||0.257|TWO_SIDED|95.0|-1.05|0.29||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented|||0.29|-1.05|0.257
92203891|NCT02683785|184306370|OTHER||Mean Difference (Net)|-0.5||||0.22|TWO_SIDED|95.0|-1.31|0.31||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 3 is presented|||0.31|-1.31|0.220
92203892|NCT02683785|184306370|OTHER||Mean Difference (Net)|-0.74||||0.085|TWO_SIDED|95.0|-1.59|0.11||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented|||0.11|-1.59|0.085
92203893|NCT02683785|184306370|OTHER||Mean Difference (Net)|-0.36||||0.442|TWO_SIDED|95.0|-1.31|0.58||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 6 is presented|||0.58|-1.31|0.442
92203894|NCT02683785|184306370|OTHER||Mean Difference (Net)|-0.83||||0.139|TWO_SIDED|95.0|-1.93|0.28||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented|||0.28|-1.93|0.139
92203895|NCT02683785|184306370|OTHER||Mean Difference (Net)|-0.9||||0.103|TWO_SIDED|95.0|-2.0|0.19||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 10 is presented|||0.19|-2.00|0.103
92203896|NCT02683785|184306370|OTHER||Mean Difference (Net)|-0.89||||0.132|TWO_SIDED|95.0|-2.06|0.28||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented.|||0.28|-2.06|0.132
92203897|NCT02683785|184306371|OTHER||Mean Difference (Net)|-0.45||||0.082|TWO_SIDED|95.0|-0.97|0.06||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 1 is presented.|||0.06|-0.97|0.082
92203898|NCT02683785|184306371|OTHER||Mean Difference (Net)|-0.27||||0.426|TWO_SIDED|95.0|-0.96|0.41||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented|||0.41|-0.96|0.426
92203899|NCT02683785|184306371|OTHER||Mean Difference (Net)|-0.6||||0.129|TWO_SIDED|95.0|-1.38|0.18||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 3 is presented|||0.18|-1.38|0.129
92203900|NCT02683785|184306371|OTHER||Mean Difference (Net)|-0.78||||0.067|TWO_SIDED|95.0|-1.63|0.06||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented.|||0.06|-1.63|0.067
92203901|NCT02683785|184306371|OTHER||Mean Difference (Net)|-0.33||||0.494|TWO_SIDED|95.0|-1.28|0.63||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 6 is presented|||0.63|-1.28|0.494
92203902|NCT02683785|184306371|OTHER||Mean Difference (Net)|-0.94||||0.107|TWO_SIDED|95.0|-2.08|0.21||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented.|||0.21|-2.08|0.107
92203903|NCT02683785|184306371|OTHER||Mean Difference (Net)|-0.98||||0.092|TWO_SIDED|95.0|-2.13|0.17||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 10 is presented.|||0.17|-2.13|0.092
92203904|NCT02683785|184306371|OTHER||Mean Difference (Net)|-1.01||||0.098|TWO_SIDED|95.0|-2.22|0.2||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented.|||0.20|-2.22|0.098
92203905|NCT02683785|184306376|OTHER||Mean Difference (Net)|-2.8||||0.061|TWO_SIDED|95.0|-5.6|0.1||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component, Week 1|||0.1|-5.6|0.061
92203906|NCT02683785|184306376|OTHER||Mean Difference (Net)|-2.0||||0.282|TWO_SIDED|95.0|-5.6|1.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Pain component, Week 2|||1.7|-5.6|0.282
92203907|NCT02683785|184306376|OTHER||Mean Difference (Net)|-3.7||||0.113|TWO_SIDED|95.0|-8.4|0.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component Week 4|||0.9|-8.4|0.113
92203908|NCT02683785|184306376|OTHER||Mean Difference (Net)|-1.0||||0.695|TWO_SIDED|95.0|-5.9|4.0||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component, Week 6|||4.0|-5.9|0.695
92203909|NCT02683785|184306376|OTHER||Mean Difference (Net)|-3.8||||0.176|TWO_SIDED|95.0|-9.4|1.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component, Week 8|||1.8|-9.4|0.176
92203910|NCT02683785|184306376|OTHER||Mean Difference (Net)|-5.5||||0.041|TWO_SIDED|95.0|-10.8|-0.2||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component, Week 10|||-0.2|-10.8|0.041
92203911|NCT02683785|184306376|OTHER||Mean Difference (Net)|-4.7||||0.082|TWO_SIDED|95.0|-10.1|0.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component, Week 12|||0.6|-10.1|0.082
92203912|NCT02683785|184306376|OTHER||Mean Difference (Net)|-0.2||||0.587|TWO_SIDED|95.0|-1.1|0.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 1|||0.6|-1.1|0.587
92203913|NCT02683785|184306376|OTHER||Mean Difference (Net)|-0.4||||0.457|TWO_SIDED|95.0|-1.3|0.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 2|||0.6|-1.3|0.457
92203914|NCT02683785|184306376|OTHER||Mean Difference (Net)|-0.6||||0.298|TWO_SIDED|95.0|-1.8|0.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 4|||0.6|-1.8|0.298
92203915|NCT02683785|184306376|OTHER||Mean Difference (Net)|-0.2||||0.726|TWO_SIDED|95.0|-1.3|0.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 6|||0.9|-1.3|0.726
92203916|NCT02683785|184306376|OTHER||Mean Difference (Net)|-0.7||||0.213|TWO_SIDED|95.0|-1.9|0.4||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 8|||0.4|-1.9|0.213
92203917|NCT02683785|184306376|OTHER||Mean Difference (Net)|-0.6||||0.331|TWO_SIDED|95.0|-1.9|0.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 10|||0.7|-1.9|0.331
92203918|NCT02683785|184306376|OTHER||Mean Difference (Net)|-0.8||||0.248|TWO_SIDED|95.0|-2.1|0.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 12|||0.6|-2.1|0.248
92327224|NCT04713592|184559532|SUPERIORITY||Rate Difference|16.2|||<|0.001|TWO_SIDED|95.0|8.2|24.3||P-value based on Cochran-Mantel-Haenszel (CMH) test adjusted for Baseline ppIGA and Baseline BSA categories for comparison of treatment groups based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19.|Cochran-Mantel-Haenszel||Difference: Risankizumab - Placebo|Risankizumab vs Placebo at Week 16||24.3|8.2|<0.001
92203919|NCT02683785|184306376|OTHER||Mean Difference (Net)|-2.9||||0.35|TWO_SIDED|95.0|-9.0|3.3||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 1|||3.3|-9.0|0.350
92203920|NCT02683785|184306376|OTHER||Mean Difference (Net)|-3.0||||0.383|TWO_SIDED|95.0|-9.8|3.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 2|||3.8|-9.8|0.383
92327225|NCT01056198|184559542|SUPERIORITY_OR_OTHER||||||=|0.208||95.0|||||ANCOVA|||The BWAT-m scores were compared at each of the 4 treatment weeks and at the end of the follow-up using a mixed-effects ANCOVA for the intent-to-treat population. Treatment and treatment week, as well as their interaction, were defined as fixed effects with subject as a random effect. The BWAT-m score at baseline was used as a covariate.||||=0.208
92203921|NCT02683785|184306376|OTHER||Mean Difference (Net)|-4.8||||0.271|TWO_SIDED|95.0|-13.5|3.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 4|||3.9|-13.5|0.271
92203922|NCT02683785|184306376|OTHER||Mean Difference (Net)|-2.7||||0.565|TWO_SIDED|95.0|-12.1|6.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 6|||6.7|-12.1|0.565
92203923|NCT02683785|184306376|OTHER||Mean Difference (Net)|-4.9||||0.343|TWO_SIDED|95.0|-15.2|5.4||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 8|||5.4|-15.2|0.343
92203924|NCT02683785|184306376|OTHER||Mean Difference (Net)|-6.2||||0.266|TWO_SIDED|95.0|-17.3|4.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 10|||4.9|-17.3|0.266
92203925|NCT02683785|184306376|OTHER||Mean Difference (Net)|-8.2||||0.136|TWO_SIDED|95.0|-19.1|2.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 12|||2.7|-19.1|0.136
92203926|NCT02683785|184306376|OTHER||Mean Difference (Net)|-5.5||||0.23|TWO_SIDED|95.0|-14.5|3.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 1|||3.6|-14.5|0.230
92203927|NCT02683785|184306376|OTHER||Mean Difference (Net)|-4.6||||0.381|TWO_SIDED|95.0|-15.2|5.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 2|||5.9|-15.2|0.381
92203928|NCT02683785|184306376|OTHER||Mean Difference (Net)|-8.7||||0.207|TWO_SIDED|95.0|-22.4|5.0||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 4|||5.0|-22.4|0.207
92203929|NCT02683785|184306376|OTHER||Mean Difference (Net)|-3.4||||0.648|TWO_SIDED|95.0|-18.4|11.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 6|||11.6|-18.4|0.648
92203930|NCT02683785|184306376|OTHER||Mean Difference (Net)|-9.0||||0.278|TWO_SIDED|95.0|-25.4|7.5||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 8|||7.5|-25.4|0.278
92203931|NCT02683785|184306376|OTHER||Mean Difference (Net)|-12.1||||0.16|TWO_SIDED|95.0|-29.1|5.0||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 10|||5.0|-29.1|0.160
92327226|NCT01056198|184559543|SUPERIORITY_OR_OTHER||||||=|0.2737||95.0|||||ANCOVA|||Null hypothesis: no differences between the 2 treatments with the alternative of non-zero differences. 48 evaluable subjects is sufficient to detect an effect size of 0.80.||||=0.2737
92203932|NCT02683785|184306376|OTHER||Mean Difference (Net)|-13.3||||0.127|TWO_SIDED|95.0|-30.5|3.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 12|||3.9|-30.5|0.127
92203933|NCT02683785|184306377|OTHER||Mean Difference (Net)|0.0||||0.957|TWO_SIDED|95.0|-1.9|1.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 1 is presented|||1.8|-1.9|0.957
92203934|NCT02683785|184306377|OTHER||Mean Difference (Net)|0.3||||0.775|TWO_SIDED|95.0|-2.1|2.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented|||2.8|-2.1|0.775
92327227|NCT01056198|184559544|SUPERIORITY_OR_OTHER||||||=|0.2741||95.0|||||ANCOVA|||Null hypothesis: no differences between the 2 treatments with the alternative of non-zero differences. 48 evaluable subjects is sufficient to detect an effect size of 0.80.||||=0.2741
92327228|NCT01056198|184559545|SUPERIORITY_OR_OTHER||||||=|0.0164||95.0|||||t-test, 2 sided|||Paired t-test, 2-sided, alpha = 0.05||||=0.0164
92327229|NCT01056198|184559546|SUPERIORITY_OR_OTHER||||||=|0.9392||95.0|||||t-test, 2 sided|||Paired t-test, 2-sided, alpha = 0.05||||=0.9392
92327230|NCT00742508|184559555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.38|STANDARD_ERROR_OF_MEAN|5.449|||TWO_SIDED|95.0|-5.75|24.51|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the 24 h assessment.|||24.51|-5.75|
92203935|NCT02683785|184306377|OTHER||Mean Difference (Net)|-0.5||||0.624|TWO_SIDED|95.0|-2.7|1.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented|||1.7|-2.7|0.624
92203936|NCT02683785|184306377|OTHER||Mean Difference (Net)|1.4||||0.243|TWO_SIDED|95.0|-1.0|3.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 6 is presented|||3.8|-1.0|0.243
92203937|NCT02683785|184306377|OTHER||Mean Difference (Net)|0.2||||0.875|TWO_SIDED|95.0|-2.5|2.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented|||2.9|-2.5|0.875
92203938|NCT02683785|184306377|OTHER||Mean Difference (Net)|-0.3||||0.848|TWO_SIDED|95.0|-3.4|2.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 10 is presented|||2.8|-3.4|0.848
92203939|NCT02683785|184306377|OTHER||Mean Difference (Net)|-0.2||||0.883|TWO_SIDED|95.0|-2.8|2.4||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented|||2.4|-2.8|0.883
92203940|NCT02683785|184306378|OTHER||Mean Difference (Net)|-1.2||||0.463|TWO_SIDED|95.0|-4.4|2.0||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 1 is presented|||2.0|-4.4|0.463
92203941|NCT02683785|184306378|OTHER||Mean Difference (Net)|-0.4||||0.809|TWO_SIDED|95.0|-3.7|2.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented|||2.9|-3.7|0.809
92203942|NCT02683785|184306378|OTHER||Mean Difference (Net)|-1.9||||0.324|TWO_SIDED|95.0|-5.8|2.0||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented|||2.0|-5.8|0.324
92203943|NCT02683785|184306378|OTHER||Mean Difference (Net)|-0.5||||0.783|TWO_SIDED|95.0|-4.2|3.2||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 6 is presented|||3.2|-4.2|0.783
92203944|NCT02683785|184306378|OTHER||Mean Difference (Net)|-1.4||||0.464|TWO_SIDED|95.0|-5.4|2.5||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented|||2.5|-5.4|0.464
92203945|NCT02683785|184306378|OTHER||Mean Difference (Net)|-0.7||||0.736|TWO_SIDED|95.0|-4.9|3.5||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 10 is presented|||3.5|-4.9|0.736
92327231|NCT00742508|184559555|SUPERIORITY_OR_OTHER||Median Difference (Net)|7.55|STANDARD_ERROR_OF_MEAN|5.849|||TWO_SIDED|95.0|-8.68|23.79|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Morning assessment.|||23.79|-8.68|
92203946|NCT02683785|184306378|OTHER||Mean Difference (Net)|-0.5||||0.806|TWO_SIDED|95.0|-4.8|3.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented|||3.7|-4.8|0.806
92203947|NCT02683785|184306379|OTHER||Mean Difference (Net)|0.3||||0.586|TWO_SIDED|95.0|-0.9|1.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented|||1.6|-0.9|0.586
92203948|NCT02683785|184306379|OTHER||Mean Difference (Net)|-0.5||||0.416|TWO_SIDED|95.0|-1.9|0.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented|||0.8|-1.9|0.416
92203949|NCT02683785|184306379|OTHER||Mean Difference (Net)|-1.2||||0.12|TWO_SIDED|95.0|-2.8|0.3||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented|||0.3|-2.8|0.120
92327232|NCT00742508|184559555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.92|STANDARD_ERROR_OF_MEAN|3.645|||TWO_SIDED|95.0|-12.04|8.2|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Afternoon assessment.|||8.20|-12.04|
92203950|NCT02683785|184306379|OTHER||Mean Difference (Net)|-0.3||||0.687|TWO_SIDED|95.0|-2.1|1.4||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented|||1.4|-2.1|0.687
92203951|NCT02683785|184306380|OTHER||Mean Difference (Net)|-0.2||||0.651|TWO_SIDED|95.0|-1.3|0.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented.|||0.8|-1.3|0.651
92203952|NCT02683785|184306380|OTHER||Mean Difference (Net)|-0.7||||0.271|TWO_SIDED|95.0|-1.9|0.5||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented|||0.5|-1.9|0.271
92203953|NCT02683785|184306380|OTHER||Mean Difference (Net)|-0.9||||0.186|TWO_SIDED|95.0|-2.2|0.4||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented|||0.4|-2.2|0.186
92203954|NCT02683785|184306380|OTHER||Mean Difference (Net)|-1.1||||0.109|TWO_SIDED|95.0|-2.4|0.2||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented|||0.2|-2.4|0.109
92203955|NCT01305408|184306391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.2717|TWO_SIDED|95.0|-3.76|1.06||Statistical tests were 2-tailed at the 0.05 level of significance.|mixed-model repeated measures (MMRM)|Treatment, visit, treatment-by-visit interaction, concurrent mood-stabilizing medication, and region of the world used as fixed factors.||||1.06|-3.76|0.2717
92203956|NCT04777864|184306485|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Parent group only||||0.18
92203957|NCT04777864|184306485|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|||Adolescent group only||||0.91
92203958|NCT04777864|184306486|SUPERIORITY|||||||0.975|||||||Regression, Linear|||Parent: Post-Index Visit||||0.975
92203959|NCT04777864|184306486|SUPERIORITY|||||||0.854|||||||Regression, Linear|||Adolescent: Post-Index Visit||||0.854
92203960|NCT04777864|184306489|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Post-Index Visit||||0.03
92203961|NCT04777864|184306489|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||3 months after initial clinic visit||||0.21
92203962|NCT04777864|184306490|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||Baseline||||0.76
92203963|NCT04777864|184306490|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Post-Index Visit||||0.96
92203964|NCT04777864|184306490|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||3 months after initial clinic visit||||0.96
92203965|NCT06988800|184306491|SUPERIORITY||Odds Ratio (OR)|37.1|||<|0.001|TWO_SIDED||||||ANCOVA|||ANCOVAs and post hoc Tukey pairwise tests||||<.001
92203966|NCT06988800|184306492|SUPERIORITY||Odds Ratio (OR)|19.5|||<|0.001|TWO_SIDED||||||ANCOVA|||ANCOVAs and post hoc Tukey pairwise tests.||||<.001
92203967|NCT06988800|184306493|SUPERIORITY||Odds Ratio (OR)|18.7|||<|0.001|TWO_SIDED||||||ANCOVA|||ANCOVAs and post hoc Tukey pairwise tests||||<.001
92203968|NCT02344290|184306494|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.48|0.84|||||Hazard ratio is shown as pitavastatin/placebo. Two-sided 95% repeated confidence interval that adjusts for interim looks according to the realized Lan and DeMets implementation of the O'Brien-Fleming sequential stopping boundary is presented.|||0.84|0.48|
92203969|NCT02344290|184306495|SUPERIORITY||Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.36|0.87|||||Hazard ratio is shown as pitavastatin/placebo.|||0.87|0.36|
92203970|NCT02344290|184306496|SUPERIORITY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.4|0.97|||||Hazard ratio is shown as pitavastatin/placebo.|||0.97|0.40|
92203971|NCT02344290|184306497|SUPERIORITY||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.11|4.02|||||Hazard ratio is shown as pitavastatin/placebo.|||4.02|0.11|
92203972|NCT02344290|184306498|SUPERIORITY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.35|1.38|||||Hazard ratio is shown as pitavastatin/placebo.|||1.38|0.35|
92203973|NCT02344290|184306499|SUPERIORITY||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.44|1.03|||||Hazard ratio is shown as pitavastatin/placebo.|||1.03|0.44|
92203974|NCT02344290|184306500|SUPERIORITY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.36|1.05|||||||Hazard ratio is shown as pitavastatin/placebo.|1.05|0.36|
92203975|NCT02344290|184306502|SUPERIORITY||Hazard Ratio (HR)|0.0|||||TWO_SIDED|95.0|0.0|0.54|||||||Hazard ratio is shown as pitavastatin/placebo. Estimation of the confidence interval used a Bayes analysis with a non-informative prior using adaptive rejection Metropolis sampling. In this case, the interval shown is a 95% highest posterior density (HPD) interval.|0.54|0.00|
92203976|NCT02344290|184306503|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.64|0.94|||||Hazard ratio is shown as pitavastatin/placebo.|||0.94|0.64|
92203977|NCT02344290|184306504|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.7|1.12|||||Hazard ratio is shown as pitavastatin/placebo.|||1.12|0.70|
92203978|NCT02344290|184306505|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.76|1.13|||||Hazard ratio is shown as pitavastatin/placebo.|||1.13|0.76|
92203979|NCT02344290|184306506|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.71|1.2|||||Hazard ratio is shown as pitavastatin/placebo.|||1.20|0.71|
92203980|NCT02344290|184306507|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.68|1.31|||||Hazard ratio is shown as pitavastatin/placebo.|||1.31|0.68|
92203981|NCT02344290|184306508|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.14|2.51|||||Hazard ratio is shown as pitavastatin/placebo.|||2.51|0.14|
92203982|NCT02344290|184306509|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.42|2.02|||||Hazard ratio is shown as pitavastatin/placebo.|||2.02|0.42|
92203983|NCT02344290|184306510|SUPERIORITY||Incidence rate ratio|1.0|||||TWO_SIDED|95.0|0.9|1.1|||||Incidence rate ratio is shown as pitavastatin/placebo.|||1.10|0.90|
92203984|NCT02344290|184306511|SUPERIORITY||Incidence rate ratio|1.29|||||TWO_SIDED|95.0|1.07|1.57|||||Incidence rate ratio is shown as pitavastatin/placebo.|||1.57|1.07|
92203985|NCT02344290|184306512|SUPERIORITY||Incidence rate ratio|1.58|||||TWO_SIDED|95.0|1.14|2.19|||||Incidence rate ratio is shown as pitavastatin/placebo.|||2.19|1.14|
92203986|NCT02344290|184306513|SUPERIORITY||Incidence rate ratio|0.75|||||TWO_SIDED|95.0|0.17|3.37|||||Incidence rate ratio is shown as pitavastatin/placebo.|||3.37|0.17|
92203987|NCT02344290|184306514|SUPERIORITY||Incidence rate ratio|1.34|||||TWO_SIDED|95.0|0.56|3.18|||||Incidence rate ratio is shown as pitavastatin/placebo.|||3.18|0.56|
92203988|NCT02344290|184306515|SUPERIORITY||Incidence rate ratio|1.04|||||TWO_SIDED|95.0|0.97|1.12|||||Incidence rate ratio is shown as pitavastatin/placebo.|||1.12|0.97|
92203989|NCT02344290|184306518|SUPERIORITY||Incidence rate ratio|0.75|||||TWO_SIDED|95.0|0.52|1.08|||||Incidence rate ratio is shown as pitavastatin/placebo.|||1.08|0.52|
92203990|NCT02344290|184306519|SUPERIORITY||Incidence rate ratio|1.05|||||TWO_SIDED|95.0|0.96|1.16|||||Incidence rate ratio is shown as pitavastatin/placebo.|||1.16|0.96|
92203991|NCT02344290|184306520|SUPERIORITY||Mean Difference (Net)|-4.3||||0.04|TWO_SIDED|95.0|-8.6|-0.1|||Regression, Linear||Treatment group difference was estimated as baseline-adjusted mean difference in change at year 2, using linear regression.|||-0.1|-8.6|0.04
92203992|NCT02344290|184306521|SUPERIORITY||Risk Ratio (RR)|0.67||||0.003|TWO_SIDED|95.0|0.52|0.88|||Chi-squared||Treatment effect was estimated as relative risk (pitavastatin/placebo), adjusted for presence of NCP at entry.|||0.88|0.52|0.003
92203993|NCT02344290|184306522|SUPERIORITY||Mean Difference (Net)|-4.3|||||TWO_SIDED|95.0|-9.2|0.62|||||Treatment group difference was estimated as baseline-adjusted difference in mean change at year 2, using linear regression.|||0.62|-9.2|
92203994|NCT02344290|184306523|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of LpPla2 Levels at Month 24||||<0.001
92203995|NCT02344290|184306524|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of Change in LpPla2 from Baseline at Month 24||||<0.001
92203996|NCT02344290|184306525|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Comparison of hsCRP Levels at Month 24||||0.02
92203997|NCT02344290|184306526|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Comparison of Change in hsCRP from Baseline at Month 24||||0.09
92327233|NCT00742508|184559555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.21|STANDARD_ERROR_OF_MEAN|6.361|||TWO_SIDED|95.0|-3.45|31.87|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Night assessment.|||31.87|-3.45|
92203998|NCT02344290|184306527|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||Comparison of soluble CD163 Levels at Month 24.||||0.65
92203999|NCT02344290|184306528|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Comparison of Change in soluble CD163 from Baseline at Month 24||||0.88
92204000|NCT02344290|184306529|SUPERIORITY|||||||0.98|||||||Regression, Cox|Treatment effect modification by sex was evaluated via interaction of treatment and sex in the Cox proportional hazards regression model.||Evaluation of treatment effect modification by sex (i.e. pitavastatin effect differing in females compared to males).||||0.98
92204001|NCT02344290|184306529|SUPERIORITY||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.39|1.04|||||Hazard ratio is shown as pitavastatin/placebo among females.|Evaluation of pitavastatin effect among females.||1.04|0.39|
92204002|NCT02344290|184306529|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.48|0.86|||||Hazard ratio is shown as pitavastatin/placebo among males.|Evaluation of pitavastatin effect among males.||0.86|0.48|
92204003|NCT02344290|184306530|SUPERIORITY|||||||0.14|||||||Regression, Cox|Treatment effect modification by race was evaluated via interaction of treatment and race in the Cox proportional hazards regression model.||Evaluation of treatment effect modification by race (i.e. pitavastatin effect differing between races).||||0.14
92204004|NCT02344290|184306530|SUPERIORITY||Hazard Ratio (HR)|0.22|||||TWO_SIDED|95.0|0.09|0.59||||||Pitavastatin effect among Asians from subgroup analysis by race.|Hazard ratio is shown as pitavastatin/placebo among Asians.|0.59|0.09|
92204005|NCT02344290|184306530|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.46|0.96|||||Hazard ratio is shown as pitavastatin/placebo among Blacks.|Pitavastatin effect among Blacks from subgroup analysis by race.||0.96|0.46|
92204006|NCT02344290|184306530|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.49|1.13|||||Hazard ratio is shown as pitavastatin/placebo among Whites.|Pitavastatin effect among Whites from subgroup analysis by race.||1.13|0.49|
92204007|NCT02344290|184306530|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.36|2.1||||||Pitavastatin effect among Other race from subgroup analysis by race.|Hazard ratio is shown as pitavastatin/placebo among Other race.|2.10|0.36|
92204008|NCT00503139|184306546|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sample|A two-sided t-test was performed to test the hypothesis.||The null hypothesis was that mHAQ scores at 6 months, 1 year, 1.5 years, and 2 years were equal to the baseline score.||||<0.001
92204009|NCT00503139|184306547|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sample|A two-sided t-test was performed to test the hypothesis.||The null hypothesis was that VAS Fatigue scores at 6 months, 1 year, 1.5 years, and 2 years were equal to the baseline score.||||<0.001
92204010|NCT00091169|184306551|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.57
92204011|NCT00091169|184306552|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.64
92204012|NCT00091169|184306553|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.93
92204013|NCT00091169|184306554|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.61
92204014|NCT00091169|184306555|SUPERIORITY_OR_OTHER_LEGACY|||||||1e-05|TWO_SIDED||||||Fisher Exact|||||||0.00001
92204015|NCT00091169|184306556|SUPERIORITY_OR_OTHER_LEGACY|||||||0.677|TWO_SIDED||||||Fisher Exact|||||||0.677
92204016|NCT00833833|184306559|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.73|||||TWO_SIDED|95.0|0.54|0.99||||||With a 12-month accrual period and 12-month follow-up after the study closed to accrual, assuming a 10% drop out rate, 96 participants in each treatment arm would have had 85% power to detect a hazard rate ratio of 1.67 using a one-sided log rank test with an overall significance level of 0.025 adjusted for one interim analysis) and a significance level of 0.0245 for the final analysis.||0.99|0.54|
92204017|NCT00833833|184306564|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|6.25|||||TWO_SIDED|95.0|0.84|46.66||||||||46.66|0.84|
92204018|NCT00833833|184306565|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.070
92327234|NCT00742508|184559555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|3.79|||TWO_SIDED|95.0|-10.12|10.92|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Waking assessment.|||10.92|-10.12|
92204019|NCT00833833|184306566|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.85|||||TWO_SIDED|95.0|0.57|1.29||||||||1.29|0.57|
92204020|NCT00921687|184306586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.04|TWO_SIDED|95.0|1.01|2.3|||Generalized Estimating Equation||Intervention clinic (vs control clinic)|||2.30|1.01|0.04
92204021|NCT00921687|184306587|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.44||95.0|0.84|1.49|||Generalized Estimating Equation||Intervention clinic (vs control clinic)|||1.49|0.84|0.44
92204022|NCT00316602|184306588|NON_INFERIORITY|The non-inferiority margin to show that Group 2 (Atopic Dermatitis Participants) is non-inferior to Group 1 (Healthy Participants) in terms of seroconversion rate at Week 6 was predefined as -5% for the difference in seroconversion rates.|Difference in seroconversion rates (%)|-1.2|||||ONE_SIDED|97.5|-4.3||||||||||-4.3|
92204023|NCT00626990|184306603|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.76|TWO_SIDED|99.1|0.73|1.28|||Regression, Cox|||||1.28|0.73|0.76
92204024|NCT00626990|184306603|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.52|0.79|||Regression, Cox|||||0.79|0.52|<0.0001
92204025|NCT00626990|184306604|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.11|TWO_SIDED|95.0|0.72|1.03|||Regression, Cox|||||1.03|0.72|0.11
92204026|NCT00626990|184306604|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.49|0.7|||Regression, Cox|||||0.70|0.49|<0.0001
92327235|NCT00742508|184559555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|25.04|STANDARD_ERROR_OF_MEAN|4.281|||TWO_SIDED|95.0|13.16|36.93|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Sleeping assessment.|||36.93|13.16|
92204027|NCT04410523|184306646|SUPERIORITY||Least Squares mean|0.122|STANDARD_ERROR_OF_MEAN|0.0541||0.025|TWO_SIDED|95.0|0.016|0.229|||MMRM||Treatment difference (CSJ117-placebo)|||0.229|0.016|0.025
92204028|NCT04410523|184306646|SUPERIORITY||Least Squares mean|0.058|STANDARD_ERROR_OF_MEAN|0.0542||0.286|TWO_SIDED|95.0|-0.049|0.165|||MMRM||Treatment difference (CCSJ117-placebo)|||0.165|-0.049|0.286
92204029|NCT04410523|184306646|SUPERIORITY||Least Squares mean|0.065|STANDARD_ERROR_OF_MEAN|0.0521||0.212|TWO_SIDED|95.0|-0.037|0.168|||MMRM||Treatment difference (CCSJ117-placebo)|||0.168|-0.037|0.212
92204030|NCT04410523|184306646|SUPERIORITY||Least Squares mean|0.009|STANDARD_ERROR_OF_MEAN|0.043||0.831|TWO_SIDED|95.0|-0.076|0.094|||MMRM||Treatment difference (CCSJ117-placebo)|||0.094|-0.076|0.831
92204031|NCT04410523|184306646|SUPERIORITY||Least Squares mean|-0.008|STANDARD_ERROR_OF_MEAN|0.0434||0.852|TWO_SIDED|95.0|-0.094|0.077|||MMRM||Treatment difference (CCSJ117-placebo)|||0.077|-0.094|0.852
92204032|NCT04410523|184306647|SUPERIORITY||Least Squares mean|-1.568|STANDARD_ERROR_OF_MEAN|2.363||0.508|TWO_SIDED|95.0|-6.219|3.083|||MMRM||Treatment difference (CSJ117-placebo)|||3.083|-6.219|0.508
92204033|NCT04410523|184306647|SUPERIORITY||Least Squares mean|-3.998|STANDARD_ERROR_OF_MEAN|2.384||0.095|TWO_SIDED|95.0|-8.691|0.695|||MMRM||Treatment difference (CCSJ117-placebo)|||0.695|-8.691|0.095
92204034|NCT04410523|184306647|SUPERIORITY||Least Squares mean|-2.889|STANDARD_ERROR_OF_MEAN|2.2943||0.209|TWO_SIDED|95.0|-7.405|1.627|||MMRM||Treatment difference (CCSJ117-placebo)|||1.627|-7.405|0.209
92204035|NCT04410523|184306647|SUPERIORITY||Least Squares mean|-0.287|STANDARD_ERROR_OF_MEAN|1.8718||0.878|TWO_SIDED|95.0|-3.971|3.398|||MMRM||Treatment difference (CCSJ117-placebo)|||3.398|-3.971|0.878
92204036|NCT04410523|184306647|SUPERIORITY||Least Squares mean|1.093|STANDARD_ERROR_OF_MEAN|1.8652||0.558|TWO_SIDED|95.0|-2.578|4.765|||MMRM||Treatment difference (CCSJ117-placebo)|||4.765|-2.578|0.558
92204037|NCT04410523|184306650|SUPERIORITY||Least Squares mean|-0.042|STANDARD_ERROR_OF_MEAN|0.1493||0.78|TWO_SIDED|95.0|-0.336|0.252|||MMRM||Treatment difference (CSJ117-placebo)|||0.252|-0.336|0.780
92204038|NCT04410523|184306650|SUPERIORITY||Least Squares mean|-0.42|STANDARD_ERROR_OF_MEAN|0.1489||0.005|TWO_SIDED|95.0|-0.713|-0.127|||MMRM||Treatment difference (CCSJ117-placebo)|||-0.127|-0.713|0.005
92204039|NCT04410523|184306650|SUPERIORITY||Least Squares mean|-0.289|STANDARD_ERROR_OF_MEAN|0.1446||0.047|TWO_SIDED|95.0|-0.573|0.004|||MMRM||Treatment difference (CCSJ117-placebo)|||0.004|-0.573|0.047
92204040|NCT04410523|184306650|SUPERIORITY||Least Squares mean|-0.017|STANDARD_ERROR_OF_MEAN|0.1182||0.887|TWO_SIDED|95.0|-0.249|0.216|||MMRM||Treatment difference (CCSJ117-placebo)|||0.216|-0.249|0.887
92204041|NCT04410523|184306650|SUPERIORITY||Least Squares mean|-0.115|STANDARD_ERROR_OF_MEAN|0.1184||0.333|TWO_SIDED|95.0|-0.348|0.118|||MMRM||Treatment difference (CCSJ117-placebo)|||0.118|-0.348|0.333
92204042|NCT04410523|184306651|SUPERIORITY||Least Squares mean|-0.097|STANDARD_ERROR_OF_MEAN|0.1485||0.515|TWO_SIDED|95.0|-0.389|0.195|||MMRM||Treatment difference (CSJ117-placebo)|||0.195|-0.389|0.515
92204043|NCT04410523|184306651|SUPERIORITY||Least Squares mean|0.218|STANDARD_ERROR_OF_MEAN|0.1484||0.143|TWO_SIDED|95.0|-0.074|0.51|||MMRM||Treatment difference (CCSJ117-placebo)|||0.510|-0.074|0.143
92204044|NCT04410523|184306651|SUPERIORITY||Least Squares mean|0.078|STANDARD_ERROR_OF_MEAN|0.145||0.59|TWO_SIDED|95.0|-0.207|0.364|||MMRM||Treatment difference (CCSJ117-placebo)|||0.364|-0.207|0.590
92204045|NCT04410523|184306651|SUPERIORITY||Least Squares mean|0.033|STANDARD_ERROR_OF_MEAN|0.118||0.778|TWO_SIDED|95.0|-0.199|0.265|||MMRM||Treatment difference (CCSJ117-placebo)|||0.265|-0.199|0.778
92204046|NCT04410523|184306651|SUPERIORITY||Least Squares mean|0.073|STANDARD_ERROR_OF_MEAN|0.118||0.539|TWO_SIDED|95.0|-0.16|0.305|||MMRM||Treatment difference (CCSJ117-placebo)|||0.305|-0.160|0.539
92204047|NCT03268603|184306663|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
92204048|NCT00734591|184306713|SUPERIORITY_OR_OTHER||Exact method|2.81|||||TWO_SIDED|95.0|0.5|28.46|||||Incidence density ratio confidence interval derived from exact methods utilizing exact binomial limits and ratio of exposures.|||28.46|0.50|
92204049|NCT00734591|184306714|SUPERIORITY_OR_OTHER||Exact method|2.29|||||TWO_SIDED|95.0|0.37|24.01|||||Incidence density ratio confidence interval derived from exact methods utilizing exact binomial limits and ratio of exposures.|||24.01|0.37|
92204050|NCT00734591|184306715|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.81|||||TWO_SIDED|95.0|0.6|1.1||||||||1.10|0.60|
92204051|NCT00734591|184306716|SUPERIORITY_OR_OTHER||Exact method|3.75|||||TWO_SIDED|95.0|1.01|20.68|||||Incidence density ratio confidence interval derived from exact methods utilizing exact binomial limits and ratio of exposures.|||20.68|1.01|
92204052|NCT03248882|184306727|SUPERIORITY||Mean Difference (Net)|-10.7|||||TWO_SIDED|80.0|-19.4|-1.1||||||||-1.1|-19.4|
92327236|NCT00742508|184559555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45|STANDARD_ERROR_OF_MEAN|10.62||||95.0|-29.94|29.03|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax assessment.|||29.03|-29.94|
92204053|NCT03248882|184306727|SUPERIORITY||Mean Difference (Net)|-46.0|||||TWO_SIDED|80.0|-51.3|-40.1||||||||-40.1|-51.3|
92204054|NCT03248882|184306727|SUPERIORITY||Mean Difference (Net)|-52.4|||||TWO_SIDED|80.0|-57.2|-47.1||||||||-47.1|-57.2|
92204055|NCT03248882|184306727|SUPERIORITY||Mean Difference (Net)|-62.1|||||TWO_SIDED|80.0|-66.0|-57.8||||||||-57.8|-66.0|
92204056|NCT03248882|184306728|SUPERIORITY||Mean Difference (Net)|-4.4|||||TWO_SIDED|80.0|-14.0|6.3||||||||6.3|-14.0|
92204057|NCT03248882|184306728|SUPERIORITY||Mean Difference (Net)|-21.0|||||TWO_SIDED|80.0|-29.0|-12.2||||||||-12.2|-29.0|
92204058|NCT03248882|184306728|SUPERIORITY||Mean Difference (Net)|-25.0|||||TWO_SIDED|80.0|-32.8|-16.1||||||||-16.1|-32.8|
92204059|NCT03248882|184306728|SUPERIORITY||Mean Difference (Net)|-41.8|||||TWO_SIDED|80.0|-47.9|-35.0||||||||-35.0|-47.9|
92204060|NCT05032872|184306749|SUPERIORITY|||||||0.49||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time by condition interaction||||.49
92204061|NCT05032872|184306750|SUPERIORITY|||||||0.48||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.48
92204062|NCT05032872|184306751|SUPERIORITY|||||||0.04||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting satisfaction with contact quality||||.04
92204063|NCT05032872|184306751|SUPERIORITY|||||||0.44||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting dissatisfaction with contact quantity||||.44
92327237|NCT00742508|184559555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.31|STANDARD_ERROR_OF_MEAN|7.194|||TWO_SIDED|95.0|-11.67|28.28|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmin assessment.|||28.28|-11.67|
92204064|NCT05032872|184306751|SUPERIORITY|||||||0.99||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting satisfaction with contact quantity||||.99
92204065|NCT05032872|184306751|SUPERIORITY|||||||0.87||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting knowing others' experience||||.87
92204066|NCT05032872|184306751|SUPERIORITY|||||||0.98||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting shared understanding||||.98
92204067|NCT05032872|184306751|SUPERIORITY|||||||0.76||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting relationship salience||||.76
92204068|NCT05032872|184306752|SUPERIORITY|||||||0.29||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.29
92204069|NCT05032872|184306753|SUPERIORITY|||||||0.51||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition predicting positive affect||||.51
92204070|NCT05032872|184306753|SUPERIORITY|||||||0.83||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition predicting negative affect||||.83
92204071|NCT05032872|184306754|SUPERIORITY|||||||0.51||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.51
92204072|NCT05032872|184306755|SUPERIORITY|||||||0.65||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.65
92204073|NCT05032872|184306756|SUPERIORITY|||||||0.01||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting management of distress||||.01
92204074|NCT05032872|184306756|SUPERIORITY|||||||0.75||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||time x condition interaction predicting caregiver overload||||.75
92204075|NCT05032872|184306756|SUPERIORITY|||||||0.59||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting relational deprivation||||.59
92327238|NCT00742508|184559555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.142|||TWO_SIDED|95.0|-0.63|0.15|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax/PDmin assessment.|||0.15|-0.63|
92204076|NCT05032872|184306756|SUPERIORITY|||||||0.51||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting job caregiving conflict||||.51
92204077|NCT05032872|184306756|SUPERIORITY|||||||0.25||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting role captivity||||.25
92204078|NCT05032872|184306756|SUPERIORITY|||||||0.34||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting sense of self||||.34
92204079|NCT05032872|184306756|SUPERIORITY|||||||0.75||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting personal gain||||.75
92204080|NCT05032872|184306756|SUPERIORITY|||||||0.99||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting caregiving competence||||.99
92204081|NCT05032872|184306756|SUPERIORITY|||||||0.61||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting management of situition||||.61
92204082|NCT05032872|184306756|SUPERIORITY|||||||0.92||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting management of meaning||||.92
92204083|NCT05032872|184306756|SUPERIORITY|||||||0.96||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting expressive support||||.96
92204084|NCT05032872|184306757|SUPERIORITY|||||||0.37||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.37
92204085|NCT05032872|184306758|SUPERIORITY|||||||0.89||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.89
92204086|NCT05032872|184306759|SUPERIORITY|||||||0.3||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.30
92204087|NCT05032872|184306760|SUPERIORITY|||||||0.52||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.52
92204088|NCT05032872|184306761|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||Independent sample T-test comparing the treatment and control group||||.45
92327239|NCT00742508|184559575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.21|STANDARD_ERROR_OF_MEAN|4.833|||TWO_SIDED|95.0|-11.2|15.63|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the 24 h assessment.|||15.63|-11.20|
92327240|NCT00742508|184559575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56|STANDARD_ERROR_OF_MEAN|6.265|||TWO_SIDED|95.0|-17.95|16.84|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Morning assessment.|||16.84|-17.95|
92327241|NCT00742508|184559575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.93|STANDARD_ERROR_OF_MEAN|3.885|||TWO_SIDED|95.0|-15.71|5.86|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Afternoon assessment.|||5.86|-15.71|
92327242|NCT00742508|184559575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.74|STANDARD_ERROR_OF_MEAN|6.07|||TWO_SIDED|95.0|-7.11|26.59|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Night assessment.|||26.59|-7.11|
92327243|NCT00742508|184559575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.45|STANDARD_ERROR_OF_MEAN|4.08|||TWO_SIDED|95.0|-14.78|7.88|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Waking assessment.|||7.88|-14.78|
92204089|NCT00338962|184306763|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||Bonferonni adjustments were applied. Mixed effects models were used to assess changes in PTSD symptoms over time.|Mixed Models Analysis|F=49.633||||||0.00
92204090|NCT00338962|184306765|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||ANOVA|||Gastrointestinal symptoms compared||||0.007
92204091|NCT03733314|184306766|SUPERIORITY||Difference|10.3|||||TWO_SIDED|95.0|-24.9|45.4|||||The difference of percentage was calculated as E6011 minus placebo.|||45.4|-24.9|
92204092|NCT03733314|184306771|SUPERIORITY||Difference|-7.1|||||TWO_SIDED|95.0|-32.1|18.0|||||The difference of percentage was calculated as E6011 minus placebo.|||18.0|-32.1|
92204093|NCT03733314|184306772|SUPERIORITY||Difference|8.3|||||TWO_SIDED|95.0|-7.3|24.0|||||The difference of percentage was calculated as E6011 minus placebo.|||24.0|-7.3|
92204094|NCT04155047|184306801|SUPERIORITY||Least Squares Mean Difference|-0.323|STANDARD_ERROR_OF_MEAN|0.1861||0.0987|TWO_SIDED|95.0|-0.711|0.066|||Mixed Models Analysis|||||0.066|-0.711|0.0987
92204095|NCT04514510|184306802|SUPERIORITY|||||||0.64|||||||ANCOVA with Multiple Imputation|||||||0.64
92204096|NCT04514510|184306808|SUPERIORITY|||||||0.149|||||||Wilcoxon (Mann-Whitney)|||||||0.149
92204097|NCT00821587|184306812|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|95.0||||We hypothesize that subjects on CsA are more likely to achieve undetectable viral level in patients receiving antiviral therapy for recurrent HCV after Liver Transplant|Chi-squared|||We hypothesize that subjects on CsA are more likely to achieve undetectable viral levels after liver transplant. Comparisons between the two groups (Undetectable viral level vs. Detectable viral level) were performed with Pearson Chi-square tests or Fisher's exact test for categorical variables, and Mann-Whitney U test for continuous variables.||||<0.05
92327244|NCT00742508|184559575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.06|STANDARD_ERROR_OF_MEAN|1.694|||TWO_SIDED|95.0|13.36|22.76|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Sleeping assessment.|||22.76|13.36|
92327245|NCT00742508|184559575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.46|STANDARD_ERROR_OF_MEAN|8.902|||TWO_SIDED|95.0|-32.17|17.26|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax assessment.|||17.26|-32.17|
92327246|NCT00742508|184559575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|5.297|||TWO_SIDED|95.0|-13.61|15.8|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmin assessment.|||15.80|-13.61|
92327247|NCT00742508|184559575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.152|||TWO_SIDED|95.0|-0.54|0.3|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax/PDmin assessment.|||0.30|-0.54|
92327248|NCT00742508|184559576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.99|STANDARD_ERROR_OF_MEAN|3.187|||TWO_SIDED|95.0|-12.84|4.86|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the 24 h assessment.|||4.86|-12.84|
92327249|NCT00742508|184559576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.27|STANDARD_ERROR_OF_MEAN|2.962|||TWO_SIDED|95.0|-13.5|2.95|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Morning assessment.|||2.95|-13.50|
92327250|NCT00742508|184559576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.98|STANDARD_ERROR_OF_MEAN|3.209|||TWO_SIDED|95.0|-10.89|6.94|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Afternoon assessment.|||6.94|-10.89|
92327251|NCT00742508|184559576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.14|STANDARD_ERROR_OF_MEAN|3.665|||TWO_SIDED|95.0|-14.32|6.03|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Night assessment.|||6.03|-14.32|
92327252|NCT00742508|184559576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.99|STANDARD_ERROR_OF_MEAN|3.047|||TWO_SIDED|95.0|-11.45|5.47|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Waking assessment.|||5.47|-11.45|
92327253|NCT00742508|184559576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.11|STANDARD_ERROR_OF_MEAN|4.686|||TWO_SIDED|95.0|-16.12|9.89|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Sleeping assessment.|||9.89|-16.12|
92327254|NCT00742508|184559576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.0|STANDARD_ERROR_OF_MEAN|3.749|||TWO_SIDED|95.0|-20.41|0.41|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax assessment.|||0.41|-20.41|
92204098|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dbase at 50 lux is reported."|Slope|7.11|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204099|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dcon at 50 lux is reported."|Slope|5.98|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204100|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Ctime at 50 lux is reported."|Slope|7.17||||0.0006|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0006
92204101|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dend at 50 lux is reported."|Slope|4.75|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204102|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 50 lux is reported."|Slope|5.95||||0.0002|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0002
92327255|NCT00742508|184559576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.42|STANDARD_ERROR_OF_MEAN|5.249|||TWO_SIDED|95.0|-16.0|13.15|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmin assessment.|||13.15|-16.00|
92204103|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for D2m at 500 lux is reported."|Slope|6.92||||0.0285|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0285
92204104|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dbase at 500 lux is reported."|Slope|6.99|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204105|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dcon at 500 lux is reported."|Slope|6.8|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204106|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dend at 500 lux is reported."|Slope|5.94||||0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0001
92327256|NCT00742508|184559576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|-0.71|0.03|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax/PDmin assessment.|||0.03|-0.71|
92327257|NCT02431806|184559580|SUPERIORITY||Least Squares (LS) Mean Difference|-0.38||||0.8035|TWO_SIDED|95.0|-3.41|2.64|||Mixed Model Repeated Measures (MMRM)||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||2.64|-3.41|0.8035
92204107|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 500 lux is reported."|Slope|5.85||||0.012|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.012
92204108|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for NYmass at 500 lux is reported."|Slope|-9.62||||0.0174|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0174
92204109|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for D1m at 500 lux is reported."|Slope|-9.15||||0.013|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.013
92204110|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for NCdiff at 50 lux is reported."|Slope|-4.06|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204111|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dbase at 50 lux is reported."|Slope|0.99||||0.0068|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0068
92204112|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCV at 50 lux is reported."|Slope|1.12||||0.0485|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0485
92204113|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Ctime at 50 lux is reported."|Slope|2.08||||0.0031|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0031
92204114|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 50 lux is reported."|Slope|1.18||||0.0036|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0036
92204115|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for RMCA at 50 lux is reported."|Slope|1.05||||0.0089|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0089
92204116|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for NCdiff at 500 lux is reported."|Slope|-4.04|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204117|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM30 at 500 lux is reported."|Slope|1.62||||0.0239|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0239
92204118|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dcon at 500 lux is reported."|Slope|0.93||||0.0435|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0435
92204119|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Ctime at 500 lux is reported."|Slope|1.26||||0.0126|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0126
92204120|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for NCdiff at 50 lux is reported."|Slope|-0.73||||0.0294|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0294
92204121|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for D1m at 50 lux is reported."|Slope|0.96||||0.0204|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0204
92204122|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for D2m at 50 lux is reported."|Slope|1.41||||0.0004|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0004
92327258|NCT02431806|184559580|SUPERIORITY||LS Mean Difference|0.26||||0.8681|TWO_SIDED|95.0|-2.8|3.31|||MMRM||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||3.31|-2.80|0.8681
92327259|NCT02431806|184559580|SUPERIORITY||LS Mean|-1.47||||0.3439|TWO_SIDED|95.0|-4.52|1.58|||MMRM||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||1.58|-4.52|0.3439
92327260|NCT02431806|184559581|SUPERIORITY||LS Mean Difference|0.02||||0.8788|TWO_SIDED|95.0|-0.25|0.29|||MMRM||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||0.29|-0.25|0.8788
92327261|NCT02431806|184559581|SUPERIORITY||LS Mean Difference|0.01||||0.923|TWO_SIDED|95.0|-0.26|0.29|||MMRM||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||0.29|-0.26|0.9230
92204123|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCV at 50 lux is reported."|Slope|-0.95||||0.0013|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0013
92204124|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 50 lux is reported."|Slope|-0.77||||0.0003|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0003
92204125|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for RMCA at 50 lux is reported."|Slope|-0.94|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204126|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Redness at 50 lux is reported."|Slope|0.81|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204127|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for NCdiff at 500 lux is reported."|Slope|-0.87||||0.0096|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0096
92204128|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Redness at 500 lux is reported."|Slope|0.36||||0.0003|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0003
92204129|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM10 at 50 lux is reported."|Slope|2.13||||0.0063|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0063
92204130|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM30 at 50 lux is reported."|Slope|2.3||||0.0018|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0018
92268669|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.7||||||For Pertussis - FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at (5 EU/mL) threshold was calculated||2.7|-1.7|
92327262|NCT02431806|184559581|SUPERIORITY||LS Mean Difference|-0.15||||0.2895|TWO_SIDED|95.0|-0.42|0.13|||MMRM||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||0.13|-0.42|0.2895
92327263|NCT02426749|184559594|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92204131|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Pa at 50 lux is reported."|Slope|3.22||||0.0134|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0134
92204132|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dbase at 50 lux is reported."|Slope|-1.48|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204133|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCV at 50 lux is reported."|Slope|-2.48|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204134|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dcon at 50 lux is reported."|Slope|-1.264|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204135|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dend at 50 lux is reported."|Slope|-1.47|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204136|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 50 lux is reported."|Slope|-1.64|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204137|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for RMCA at 50 lux is reported."|Slope|-1.63|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204138|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for PESC at 50 lux is reported."|Slope|1.43||||0.0313|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0313
92204139|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM5 at 500 lux is reported."|Slope|1.92||||0.0481|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0481
92204140|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM10 at 500 lux is reported."|Slope|2.57||||0.0171|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0171
92204141|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM30 at 500 lux is reported."|Slope|3.84||||0.0007|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0007
92204142|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for dbase at 500 lux is reported."|Slope|-2.15|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204143|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCV at 500 lux is reported."|Slope|-2.2|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204144|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dcon at 500 lux is reported."|Slope|-2.44|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204145|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dend at 500 lux is reported."|Slope|-3.01|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204146|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 500 lux is reported."|Slope|-1.82|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92204147|NCT05731999|184306834|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for RMCA at 500 lux is reported."|Slope|-1.83|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
92327264|NCT05238025|184559605|OTHER|Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio resulting from a Cox proportional hazards regression model stratified by age group. It is demonstrated if the lower limit (LL) of the 2-sided 95% confidence interval (CI) for VE is above 20%|Vaccine Efficacy|42.9|||||TWO_SIDED|95.0|-16.1|71.9||||||||71.9|-16.1|
92327265|NCT05238025|184559606|OTHER|Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio resulting from a Cox proportional hazards regression model stratified by age group. It is demonstrated if the first primary outcome is met and the lower limit (LL) of the 2-sided 95% confidence interval (CI) for VE is above 20%|Vaccine Efficacy|59.0|||||TWO_SIDED|95.0|34.7|74.3|||||Not formally tested, since the first primary outcome was not met|||74.3|34.7|
92204148|NCT05731999|184306836|OTHER||probability|0.000244|||<|0.05|TWO_SIDED||||||Regression, Logistic|||The null hypothesis is that the logistic regression classifier is unable to correctly classify subjects into sober or under the influence of D1-D4. The smallest odds ratio from the group false positives and false negative is reported.||||<0.05
92204149|NCT05731999|184306836|OTHER||probability|0.00586|||<|0.05|TWO_SIDED||||||Regression, Logistic|||The null hypothesis is that the logistic regression classifier is unable to correctly classify subjects into sober or under the influence of D1-D4. The greatest p value from the group false positives and false negative is reported.||||<0.05
92204150|NCT05731999|184306836|OTHER||probability|0.0193|||<|0.05|TWO_SIDED||||||Regression, Logistic|||The null hypothesis is that the logistic regression classifier is unable to correctly classify subjects into sober or under the influence of D1-D4. The greatest p value from the group false positives and false negative is reported.||||<0.05
92204151|NCT05731999|184306836|OTHER||probability|0.000488|||<|0.05|TWO_SIDED||||||Regression, Logistic|||The null hypothesis is that the logistic regression classifier is unable to correctly classify subjects into sober or under the influence of D1-D4. The greatest p value from the group false positives and false negative is reported.||||<0.05
92204152|NCT05731999|184306836|OTHER||probability|0.1133|||<|0.05|TWO_SIDED||||||Regression, Logistic|||The null hypothesis is that the logistic regression classifier is unable to correctly classify subjects into sober or under the influence of D1-D4. The greatest p value from the group false positives and false negative is reported.||||<0.05
92204153|NCT05731999|184306836|OTHER||probability|0.0107|||<|0.05|TWO_SIDED||||||Regression, Logistic|||||||<0.05
92204154|NCT02551653|184306870|OTHER||Mean Ratio|0.832|||||TWO_SIDED|95.0|0.682|0.979|||||||Volume of Distribution - Heart, Left Ventricular Wall: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|0.979|0.682|
92204155|NCT02551653|184306870|OTHER||Mean Ratio|1.472|||||TWO_SIDED|95.0|1.113|1.891|||||||Volume of Distribution - Heart, Right Ventricular Wall: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|1.891|1.113|
92204156|NCT02551653|184306870|OTHER||Mean Ratio|0.958|||||TWO_SIDED|95.0|0.692|1.241|||||||Volume of Distribution - Lung: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|1.241|0.692|
92204157|NCT02551653|184306871|OTHER||Mean Ratio|1.013|||||TWO_SIDED|95.0|0.846|1.189|||||||Mean Standardized Uptake Values - Heart, Left Ventricular Wall: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|1.189|0.846|
92204158|NCT02551653|184306871|OTHER||Mean Ratio|1.056|||||TWO_SIDED|95.0|0.853|1.269|||||||Mean Standardized Uptake Values - Heart, Right Ventricular Wall: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|1.269|0.853|
92327266|NCT05238025|184559607|OTHER|Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio resulting from a Cox proportional hazards regression model stratified by age group. It is demonstrated if both primary outcomes are met and the lower limit (LL) of the 2-sided 95% confidence interval (CI) for VE is above 20%|Vaccine Efficacy|48.8|||||TWO_SIDED|95.0|25.8|64.7|||||Not formally tested, since the first primary outcome was not met|||64.7|25.8|
92327267|NCT02135107|184559629|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|P-value was calculated using chi-square test at two-sided significance level of alpha = 0.05.||||||<0.001
92204159|NCT02551653|184306871|OTHER||Mean Ratio|1.047|||||TWO_SIDED|95.0|0.786|1.34|||||||Mean Standardized Uptake Values - Lung: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|1.340|0.786|
92204160|NCT02770612|184306875|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||We used a one sided one sample Wilcoxon test to compare the median number of oxycodone tablets chosen and prescribed to the institutional standard of 40 tablets of oxycodone 5mg on discharge||||<0.001
92204161|NCT02233803|184306876|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority (NI) is demonstrated as the lower limit of CI for the difference is greater than the pre-specified NI margin of -1.25ML. The lower limit of the 95% CI for the treatment difference (NEUMOTEROL 400 -Symbicort Forte) was greater than the pre-specified non-inferiority margin of -1.25 mL.|Difference of LS means|0.044|||||TWO_SIDED|95.0|-0.008|0.096||||||Sample size calculations are based on the primary efficacy endpoint (change from baseline in trough FEV1 at day 29). Assuming a within-subject standard deviation of 210 mL, 168 completed subjects are required to demonstrate the non-inferiority of BFF 400/12 mcg SINGLE CAPSULE INHALER and BFF 320/9 mcg TURBUHALER BID, assuming a true difference of -50 mL with 90% power and a 2.5% one-sided significance level. The pre-specified NI margin is set at -1.25mL.||0.096|-0.008|
92204162|NCT02233803|184306877|SUPERIORITY_OR_OTHER||Difference of LS means|0.98|||||TWO_SIDED|95.0|0.576|1.384||||||||1.384|0.576|
92204163|NCT02233803|184306878|SUPERIORITY_OR_OTHER||Difference of LS means|0.6|||||TWO_SIDED|95.0|0.1|1.1||||||||1.1|0.1|
92327268|NCT02135107|184559630|SUPERIORITY||||||<|0.001|||||||Chi-squared|P-value was calculated using chi-square test at a two-sided significance level of alpha = 0.05.||Comparison at Week 12||||<0.001
92327269|NCT02135107|184559630|SUPERIORITY||||||<|0.001|||||||Chi-squared|P-value was calculated using chi-square test at two-sided significance level of alpha = 0.05.||Comparison at Week 24||||<0.001
92327270|NCT02135107|184559631|SUPERIORITY||Hazard Ratio (HR)|0.34|||<|0.001|TWO_SIDED|95.0|0.23|0.49|||Log Rank|||||0.49|0.23|<0.001
92327271|NCT02135107|184559632|SUPERIORITY||Group difference|-15.2|||<|0.001|TWO_SIDED|95.0|-23.5|-6.8|||Chi-squared|P-value was calculated using chi-square test at two-sided significance level of alpha = 0.05.|Group difference (percentage of participants) = Arm D (percentage of participants) - Arm C (percentage of participants) 95% CI was calculated based on normal approximation.|||-6.8|-23.5|<0.001
92204164|NCT03846453|184306879|SUPERIORITY||Least Squares (LS) Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.064||0.1871|TWO_SIDED|95.0|-0.04|0.21||P-value calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.21|-0.04|0.1871
92204165|NCT03846453|184306880|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.09||0.5549|TWO_SIDED|95.0|-0.12|0.23|||ANCOVA|P-value calculated using a model with treatment, baseline score, and site as covariates.||||0.23|-0.12|0.5549
92204166|NCT01696955|184306920|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
92204167|NCT01696955|184306923|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||||||0.47
92204168|NCT01696955|184306924|SUPERIORITY|||||||0.99|||||||Log Rank|||||||0.99
92204169|NCT01696955|184306925|SUPERIORITY|||||||0.58|||||||Log Rank|||||||0.58
92204170|NCT01404429|184306929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.6|TWO_SIDED|95.0|-0.26|0.54|||t-test, 2 sided|||||0.54|-0.26|0.6
92204171|NCT03653208|184306936|OTHER||Slope|1.01||||0.1075|TWO_SIDED|90.0|||||Kruskal-Wallis|||||||0.1075
92204172|NCT03653208|184306937|OTHER||Slope|1.2||||0.0548|TWO_SIDED|90.0|||||Kruskal-Wallis|||||||0.0548
92204173|NCT00573859|184306945|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||A 2 (ADHD medication versus Placebo) repeated measure ANOVA||||<0.05
92204174|NCT00573859|184306946|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||Four-way repeated measure ANOVA||||<0.05
92327272|NCT02135107|184559635|SUPERIORITY||Group difference|0.0|||=|0.992|TWO_SIDED|95.0|-3.5|3.5||P-value was calculated using chi-square test at two-sided significance level of alpha = 0.05.|Chi-squared||Group difference (percentage of participants) = Arm D (percentage of participants) - Arm C (percentage of participants) 95% CI was calculated based on normal approximation.|||3.5|-3.5|=0.992
92204175|NCT00573859|184306947|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||Friedman's two analysis of ranks|||Friedman's two-way analysis of variance by ranks.||||<0.05
92204176|NCT01989169|184306965|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios were within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|1.215|||||TWO_SIDED|90.0|1.116|1.323|||Mixed-effects Model||The ratio of geometric LS means and 90% CIs for the geometric mean ratio is for Treatment B to Treatment A.|The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in AUCinf, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||1.323|1.116|
92204177|NCT01989169|184306966|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios fell within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|1.216|||||TWO_SIDED|90.0|1.115|1.327|||Mixed-effects Model||The ratio of geometric LS means and 90% CIs for the geometric mean ratio is for Treatment B to Treatment A.|The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects, and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in AUClast, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||1.327|1.115|
92204178|NCT01989169|184306967|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios fell within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|1.383|||||TWO_SIDED|90.0|1.282|1.491|||Mixed-effects Model||The ratio of geometric LS means and 90% CIs for the geometric mean ratio is for Treatment B to Treatment A.|The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects, and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in Cmax, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||1.491|1.282|
92204179|NCT01114880|184306968|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92204180|NCT01114880|184306970|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92204181|NCT01114880|184306972|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92204182|NCT01114880|184306974|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92204183|NCT01114880|184306976|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
92204184|NCT01114880|184306978|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared, Corrected|||||||< 0.001
92204185|NCT01114880|184306980|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
92204186|NCT01114880|184306982|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
92204187|NCT01114880|184306984|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
92204188|NCT01114880|184306986|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
92204189|NCT01114880|184306988|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
92204190|NCT03361605|184307035|SUPERIORITY|"Our study adopted a within-subject design, which is not a randomized controlled trial (RCT) such as testing if one treatment is superior to another. Therefore, here the Superiority indicates if propofol administration has a statistically significant impact on the brain activity in response to sensory stimuli."|Mean Difference (Net)|-0.349|STANDARD_DEVIATION|0.223|<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p=0.05. The p-value was not adjusted for multiple comparisons, as only one comparison was performed.|t-test, 2 sided||Difference = BOLD Response During Sedation - BOLD Response During Baseline|The null hypothesis is no difference in BOLD response between sedated state and baseline.||||<0.0001
92204191|NCT03361605|184307036|SUPERIORITY|"Our study adopted a within-subject design, which is not a randomized controlled trial (RCT) such as testing if one treatment is superior to another. Therefore, here the Superiority indicates if propofol administration has a statistically significant impact on the squeeze pressure in response to verbal instructions."|Mean Difference (Net)|-2.16|STANDARD_DEVIATION|3.09||0.00148|TWO_SIDED|||||The threshold for statistical significance was p=0.05. The p-value was not adjusted for multiple comparisons, as only one comparison was performed.|t-test, 2 sided||Difference = Squeeze Pressure During Sedation - Squeeze Pressure During Baseline|The null hypothesis is no difference in squeeze pressure between sedated state and baseline.||||0.00148
92204192|NCT03898167|184307037|OTHER||Relative Participation|2.36|||||TWO_SIDED|95.0|1.99|2.8||95% CIs were calculated.||||Bivariable tables, Pearson chi-square and Kruskal-Wallis nonparametric tests were used to compare demographic/health care characteristics by study group. Log binomial regression was used to calculate screening proportion, participation difference, and relative participation (calculated as relative risk), with 95% CIs. Overall participation difference and relative participation for SC and SC with patient navigation vs TR were calculated by combining numerators and denominators from each group.||2.80|1.99|
92204193|NCT04696653|184307063|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.2|0.1||||||||0.1|-0.2|
92204194|NCT04696653|184307064|SUPERIORITY||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.2|1.8||||||hypertension||1.8|0.2|
92204195|NCT04696653|184307064|SUPERIORITY||Mean Difference (Net)|1.1|||||TWO_SIDED|95.0|0.0|2.1||||||dyslipidemia||2.1|0.0|
92204196|NCT04696653|184307064|SUPERIORITY||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.1|2.0||||||diabetes||2.0|0.1|
92204197|NCT04696653|184307065|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.6|0.1||||||Evidenced based practice||0.1|-0.6|
92204198|NCT04696653|184307065|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.6|0.1||||||CUSP strategy||0.1|-0.6|
92204199|NCT04696653|184307066|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.6|0.2||||||CUSP strategy||0.2|-0.6|
92204200|NCT04696653|184307066|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||Evidenced based practice||0.1|-0.5|
92204201|NCT04696653|184307067|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||evidenced based practice||0.1|-0.5|
92204202|NCT04696653|184307067|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.5|0.2||||||CUSP strategy||0.2|-0.5|
92204203|NCT04696653|184307068|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.9|2.2||||||||2.2|0.9|
92204204|NCT04696653|184307069|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|1.1|1.9||||||||1.9|1.1|
92204205|NCT04696653|184307070|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.7|1.4||||||||1.4|0.7|
92204206|NCT04696653|184307071|SUPERIORITY||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|1.2|2.6||||||||2.6|1.2|
92204207|NCT04696653|184307076|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|1.0|1.6||||||||1.6|1.0|
92204208|NCT04696653|184307077|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.2|0.1||||||||0.1|-0.2|
92204209|NCT04696653|184307078|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
92204210|NCT04696653|184307079|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.2|0.1||||||||0.1|-0.2|
92204211|NCT04696653|184307080|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
92204212|NCT04696653|184307081|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.3|0.0||||||||0.0|-0.3|
92204213|NCT04696653|184307082|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.3|0.0||||||||0.0|-0.3|
92204214|NCT04696653|184307083|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.1|0.3||||||||0.3|-0.1|
92204215|NCT04696653|184307084|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||||0.2|-0.1|
92204216|NCT04696653|184307085|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
92204217|NCT04696653|184307086|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.4|0.0||||||||0.0|-0.4|
92204218|NCT04696653|184307087|SUPERIORITY||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|1.0|3.3||||||||3.3|1.0|
92204219|NCT04348435|184307102|SUPERIORITY||Mean Difference (Net)|0.253|STANDARD_ERROR_OF_MEAN|0.49||0.6113|TWO_SIDED|95.0|||||ANCOVA|||||||0.6113
92204220|NCT04348435|184307102|SUPERIORITY||Mean Difference (Net)|-0.434|STANDARD_ERROR_OF_MEAN|0.638||0.5039|TWO_SIDED|95.0|||||ANCOVA|||||||0.5039
92204221|NCT04348435|184307102|SUPERIORITY||Mean Difference (Net)|0.077|STANDARD_ERROR_OF_MEAN|0.555||0.8903|TWO_SIDED|95.0|||||ANCOVA|||||||0.8903
92204222|NCT04348435|184307103|SUPERIORITY||Mean Difference (Net)|-0.247|STANDARD_ERROR_OF_MEAN|1.056||0.8171|TWO_SIDED|95.0|||||ANCOVA|||||||0.8171
92204223|NCT04348435|184307103|SUPERIORITY||Mean Difference (Net)|-0.913|STANDARD_ERROR_OF_MEAN|1.342||0.5034|TWO_SIDED|95.0|||||ANCOVA|||||||0.5034
92204224|NCT04348435|184307103|SUPERIORITY||Mean Difference (Net)|0.008|STANDARD_ERROR_OF_MEAN|1.193||0.9948|TWO_SIDED|95.0|||||ANCOVA|||||||0.9948
92204225|NCT04348435|184307104|SUPERIORITY||Mean Difference (Net)|0.179|STANDARD_ERROR_OF_MEAN|0.156||0.2641|TWO_SIDED|95.0|||||ANCOVA|||||||0.2641
92204226|NCT04348435|184307104|SUPERIORITY||Mean Difference (Net)|-0.045|STANDARD_ERROR_OF_MEAN|0.198||0.822|TWO_SIDED|95.0|||||ANCOVA|||||||0.8220
92204227|NCT04348435|184307104|SUPERIORITY||Median Difference (Net)|0.178|STANDARD_ERROR_OF_MEAN|0.171||0.3097|TWO_SIDED|95.0|||||ANCOVA|||||||0.3097
92204228|NCT04348435|184307105|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.07||1|TWO_SIDED|95.0|||||ANCOVA|||||||1.000
92204229|NCT04348435|184307105|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.087||1|TWO_SIDED|95.0|||||ANCOVA|||||||1.000
92204230|NCT04348435|184307105|SUPERIORITY||Mean Difference (Net)|0.112|STANDARD_ERROR_OF_MEAN|0.079||0.1713|TWO_SIDED|95.0|||||ANCOVA|||||||0.1713
92204231|NCT04348435|184307106|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.091||0.3868|TWO_SIDED|95.0|||||ANCOVA|||||||0.3868
92204232|NCT04348435|184307106|SUPERIORITY||Mean Difference (Net)|-0.008|STANDARD_ERROR_OF_MEAN|0.115||0.9429|TWO_SIDED|95.0|||||ANCOVA|||||||0.9429
92204233|NCT04348435|184307106|SUPERIORITY||Mean Difference (Net)|-0.008|STANDARD_ERROR_OF_MEAN|0.103||0.9362|TWO_SIDED|95.0|||||ANCOVA|||||||0.9362
92204234|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|-0.708|STANDARD_ERROR_OF_MEAN|8.38||0.9333|TWO_SIDED|95.0|||||ANCOVA|||Average Energy/Fatigue - Treatment Contrast||||0.9333
92204235|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|8.78|STANDARD_ERROR_OF_MEAN|9.483||0.3627|TWO_SIDED|95.0|||||ANCOVA|||Average Energy/Fatigue - Treatment Contrast||||0.3627
92204236|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|6.282|STANDARD_ERROR_OF_MEAN|7.604||0.416|TWO_SIDED|95.0|||||ANCOVA|||Average Energy/Fatigue - Treatment Contrast||||0.4160
92204237|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|0.52|STANDARD_ERROR_OF_MEAN|3.32||0.8768|TWO_SIDED|95.0|||||ANCOVA|||Average Social Functioning - Treatment Contrast||||0.8768
92204238|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|-7.719|STANDARD_ERROR_OF_MEAN|4.344||0.0869|TWO_SIDED|95.0|||||ANCOVA|||Average Social Functioning - Treatment Contrast||||0.0869
92204239|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|1.434|STANDARD_ERROR_OF_MEAN|3.514||0.6864|TWO_SIDED|95.0|||||ANCOVA|||Average Social Functioning - Treatment Contrast||||0.6864
92204240|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|-4.12|STANDARD_ERROR_OF_MEAN|3.571||0.2587|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Physical Health - Treatment Contrast||||0.2587
92204241|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|8.417|STANDARD_ERROR_OF_MEAN|5.316||0.125|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Physical Health - Treatment Contrast||||0.1250
92204242|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|-0.104|STANDARD_ERROR_OF_MEAN|3.732||0.978|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Physical Health - Treatment Contrast||||0.9780
92327273|NCT00474045|184559642|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority can only be declared if the non-inferiority criterion was fulfilled for both (FAS and Per-protocol) analysis sets. Non-inferiority was declared if the upper limit of the two-sided 95% CI for the estimated treatment difference was below 0.4%.|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.074||0.4||95.0|-0.21|0.08||P-value for superiority was calculated.|Regression, Linear|Treatment, country, pregnancy (preg.) status at randomisation (random.)-fixed. HbA1c at rand.(covariate) \& at rand. by preg. status (interaction)|Estimated treatment differences for IDet versus NPH at Visit P4 with the corresponding 95% confidence interval (CI) was calculated. Non-inferiority was established but superiority was not established.|Non-inferiority analysis with a null hypothesis stated that the difference between treatments, IDet-NPH, was equal to or larger than the pre-specified non-inferiority margin of 0.4%. In case non-inferiority was established it was also investigated if IDet was superior to NPH with a null hypothesis stating that the difference between IDet and NPH treatment groups is equal to or greater than 0.||0.08|-0.21|0.400
92204243|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|0.963|STANDARD_ERROR_OF_MEAN|5.925||0.8721|TWO_SIDED|95.0|||||ANCOVA|||Average General Health - Treatment Contrast||||0.8721
92204244|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|3.34|STANDARD_ERROR_OF_MEAN|7.735||0.6694|TWO_SIDED|95.0|||||ANCOVA|||Average General Health - Treatment Contrast||||0.6694
92204245|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|5.498|STANDARD_ERROR_OF_MEAN|6.073||0.3733|TWO_SIDED|95.0|||||ANCOVA|||Average General Health - Treatment Contrast||||0.3733
92204246|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|2.433|STANDARD_ERROR_OF_MEAN|4.116||0.5594|TWO_SIDED|95.0|||||ANCOVA|||Average Physical Functioning - Treatment Contrast||||0.5594
92204247|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|6.878|STANDARD_ERROR_OF_MEAN|5.389||0.2127|TWO_SIDED|95.0|||||ANCOVA|||Average Physical Functioning - Treatment Contrast||||0.2127
92204248|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|3.67|STANDARD_ERROR_OF_MEAN|4.303||0.4012|TWO_SIDED|95.0|||||ANCOVA|||Average Physical Functioning - Treatment Contrast||||0.4012
92204249|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|11.678|STANDARD_ERROR_OF_MEAN|5.748||0.0521|TWO_SIDED|95.0|||||ANCOVA|||Average Pain - Treatment Contrast||||0.0521
92204250|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|5.635|STANDARD_ERROR_OF_MEAN|7.696||0.4704|TWO_SIDED|95.0|||||ANCOVA|||Average Pain - Treatment Contrast||||0.4704
92204251|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|12.101|STANDARD_ERROR_OF_MEAN|6.017||0.0544|TWO_SIDED|95.0|||||ANCOVA|||Average Pain - Treatment Contrast||||0.0544
92204252|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|2.333|STANDARD_ERROR_OF_MEAN|3.888||0.5535|TWO_SIDED|95.0|||||ANCOVA|||Average Emotional Well Being - Treatment Contrast||||0.5535
92204253|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|3.689|STANDARD_ERROR_OF_MEAN|4.969||0.4642|TWO_SIDED|95.0|||||ANCOVA|||Average Emotional Well Being - Treatment Contrast||||0.4642
92204254|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|2.268|STANDARD_ERROR_OF_MEAN|3.936||0.5692|TWO_SIDED|95.0|||||ANCOVA|||Average Emotional Well Being - Treatment Contrast||||0.5692
92204255|NCT04348435|184307107|SUPERIORITY||Median Difference (Net)|2.667|STANDARD_ERROR_OF_MEAN|3.592||0.4642|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Emotional Problems - Treatment Contrast||||0.4642
92204256|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|4.444||1|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Emotional Problems - Treatment Contrast||||1.0000
92204257|NCT04348435|184307107|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|3.526||1|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Emotional Problems - Treatment Contrast||||1.0000
92204258|NCT04348435|184307108|SUPERIORITY||Mean Difference (Net)|-0.144|STANDARD_ERROR_OF_MEAN|0.825||0.8628|TWO_SIDED|95.0|||||ANCOVA|||||||0.8628
92204259|NCT04348435|184307108|SUPERIORITY||Mean Difference (Net)|-0.605|STANDARD_ERROR_OF_MEAN|0.94||0.5257|TWO_SIDED|95.0|||||ANCOVA|||||||0.5257
92204260|NCT04348435|184307108|SUPERIORITY||Mean Difference (Net)|-0.403|STANDARD_ERROR_OF_MEAN|0.659||0.5467|TWO_SIDED|95.0|||||ANCOVA|||||||0.5467
92204261|NCT00660543|184307109|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 1 sided|Differences between groups were assessed by using the Student paired t test and were graphed by using Bland-Altman plots.||||||.003
92204262|NCT00660543|184307109|SUPERIORITY_OR_OTHER|||||||0.008|||||||t-test, 1 sided|Differences between groups were assessed by using the Student paired t test and were graphed by using Bland-Altman plots.||||||.008
92204263|NCT03921723|184307136|EQUIVALENCE|Bioequivalence is established when the 90 percent (%) confidence interval of the ratio for AUC (0 to t) between treatment formulations (Prototype A versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|0.97|||||TWO_SIDED|90.0|0.91|1.03||||||||1.03|0.91|
92204264|NCT03921723|184307136|EQUIVALENCE|Bioequivalence is established when the 90% confidence interval of the ratio for AUC (0 to t) between treatment formulations (Prototype B versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|1.12|||||TWO_SIDED|90.0|1.05|1.2||||||||1.20|1.05|
92204265|NCT03921723|184307155|EQUIVALENCE|Bioequivalence is established when the 90% confidence interval of the ratio for AUC (0 to inf) between treatment formulations (Prototype A versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|0.96|||||TWO_SIDED|90.0|0.91|1.03||||||||1.03|0.91|
92204266|NCT03921723|184307155|EQUIVALENCE|Bioequivalence is established when the 90% confidence interval of the ratio for AUC (0 to inf) between treatment formulations (Prototype B versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|1.13||||||90.0|1.06|1.2||||||||1.20|1.06|
92204267|NCT03921723|184307156|EQUIVALENCE|Bioequivalence is established when the 90% confidence interval of the ratio for Cmax between treatment formulations (Prototype A versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|1.09|||||TWO_SIDED|90.0|1.01|1.19||||||||1.19|1.01|
92204268|NCT03921723|184307156|EQUIVALENCE|Bioequivalence is established when the 90% confidence interval of the ratio for Cmax between treatment formulations (Prototype B versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|1.22|||||TWO_SIDED|90.0|1.13|1.33||||||||1.33|1.13|
92204269|NCT04091061|184307179|OTHER|90% Confidence Intervals (CIs) for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|156.99|||||TWO_SIDED|90.0|83.14|296.44|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference.|||296.44|83.14|
92204270|NCT04091061|184307179|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|125.58|||||TWO_SIDED|90.0|66.51|237.13|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||237.13|66.51|
92204271|NCT04091061|184307179|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|123.75|||||TWO_SIDED|90.0|65.54|233.68|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||233.68|65.54|
92204272|NCT04091061|184307180|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|156.25|||||TWO_SIDED|90.0|81.07|301.16|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||301.16|81.07|
92204273|NCT04091061|184307180|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|165.66|||||TWO_SIDED|90.0|85.95|319.29|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||319.29|85.95|
92204274|NCT04091061|184307180|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|152.18|||||TWO_SIDED|90.0|78.96|293.32|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||293.32|78.96|
92204275|NCT04091061|184307181|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|156.0|||||TWO_SIDED|90.0|80.95|300.6|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||300.60|80.95|
92204276|NCT04091061|184307181|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|165.38|||||TWO_SIDED|90.0|85.82|318.67|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||318.67|85.82|
92204277|NCT04091061|184307181|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|152.2|||||TWO_SIDED|90.0|78.99|293.29|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||293.29|78.99|
92204278|NCT00406692|184307186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|1.5|<|0.0003|TWO_SIDED|95.0||||Null Hypothesis: No difference in the mean daily standard drinks consumed for the baseline period and the zonisamide treatment weeks|Mixed Models Analysis|||Null Hypothesis: No difference in the mean daily standard drinks consumed between the baseline period and the zonisamide treatment weeks.||||<0.0003
92204279|NCT00406692|184307187|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.7|STANDARD_ERROR_OF_MEAN|3.9|<|0.22|TWO_SIDED|95.0|||||Mixed Models Analysis|||Null Hypothesis: No significant change in the mean number of words produced during phonetic portion of the Controlled Word Association Test between the baseline period and the treatment weeks.||||<0.22
92204280|NCT00406692|184307188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|4.0|<|0.55|TWO_SIDED|95.0|||||Mixed Models Analysis|||Null Hypothesis: No significant difference for mean scores obtained for baseline, week 4 and week 12.||||< 0.55
92204281|NCT04488770|184307237|OTHER||Ratio of Geometric Mean|0.75|||||TWO_SIDED|90.0|0.61|0.93|||||Mixed Effect Model has been used to assess Food Effect for the log transformed parameter AUC(0-24). Treatment in the fed/fasted state is fitted as Fixed Effect. Participant is fitted as Random Effect. Unstructured covariance structure is used.|||0.93|0.61|
92204282|NCT04488770|184307238|OTHER||Ratio of Geometric Mean|0.8|||||TWO_SIDED|90.0|0.65|0.98|||||Mixed Effect Model was used to assess Food Effect for the log transformed parameter AUC(0-t). Treatment in the fed/fasted state was fitted as Fixed Effect. Participant was fitted as Random Effect. Unstructured covariance structure was used.|||0.98|0.65|
92204283|NCT04488770|184307239|OTHER||Ratio of Geometric Mean|0.8|||||TWO_SIDED|90.0|0.65|0.98|||||Mixed Effect Model was used to assess Food Effect for log transformed parameter AUC(0-infinity). Treatment in the fed/fasted state was fitted as Fixed Effect. Participant was fitted as Random Effect. Unstructured covariance structure was used.|||0.98|0.65|
92204284|NCT04488770|184307240|OTHER||Ratio of Geometric Mean|0.59|||||TWO_SIDED|90.0|0.46|0.75|||||Mixed Effect Model was used to assess Food Effect for the log transformed parameter Cmax. Treatment in the fed/fasted state was fitted as Fixed Effect. Participant was fitted as Random Effect. Unstructured covariance structure was used.|||0.75|0.46|
92204285|NCT04488770|184307241|OTHER||Ratio of Geometric Mean|0.91|||||TWO_SIDED|90.0|0.74|1.11|||||Mixed Effect Model was used to assess Food Effect for the log transformed parameter C24h. Treatment in the fed/fasted state was fitted as Fixed Effect. Participant was fitted as Random Effect. Unstructured covariance structure was used.|||1.11|0.74|
92204286|NCT04488770|184307242|OTHER||Median Difference (Net)|0.0|||||TWO_SIDED|90.0|0.0|2.0|||||Wilcoxon matched pair test was used to assess Food Effect for the parameter Tmax.|||2.000|0.000|
92204287|NCT04488770|184307243|OTHER||Median Difference (Net)|0.0|||||TWO_SIDED|90.0|0.0|0.25|||||Wilcoxon matched pair test was used to assess Food Effect for the parameter Tlag.|||0.250|0.000|
92204288|NCT03547739|184307244|SUPERIORITY||Risk Ratio (RR)|4.22|||<|0.001|TWO_SIDED|95.0|2.88|6.18|||Chi-squared||Generalized Estimating Equation model with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth index, length of couple relationship, previous couple testing at baseline, and couple age disparity.|Home visits as compared to Standard Care||6.18|2.88|<0.001
92204289|NCT03547739|184307244|SUPERIORITY||Risk Ratio (RR)|3.69|||<|0.001|TWO_SIDED|95.0|2.5|5.45|||Chi-squared||Generalized Estimating Equation model with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth index, length of couple relationship, previous couple testing at baseline, and couple age disparity.|HIV Self-testing as compared to Standard Care||5.45|2.50|<0.001
92327274|NCT00474045|184559643|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority can only be declared if the non-inferiority criterion was fulfilled for both (FAS and Per-protocol) analysis sets. Non-inferiority was declared if the upper limit of the two-sided 95% CI for the estimated treatment difference was below 0.4%.|Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.096||0.122||95.0|-0.34|0.04||P-value for superiority was calculated|Regression, Linear|Treatment, country, preg. status at rand.(fixed factors),HbA1c at rand.(covariate),HbA1c at rand. by preg. status (interaction)|Estimated treatment differences for IDet versus NPH at Visit P4 with the corresponding 95% CI was calculated. Non-inferiority was established but superiority was not established.|Non-inferiority analysis with a null hypothesis stated that the difference between treatments, IDet-NPH, was equal to or larger than the pre-specified non-inferiority margin of 0.4%. In case non-inferiority was established it was also investigated if IDet was superior to NPH with a null hypothesis stating that the difference between IDet and NPH treatment groups is equal to or greater than 0.||0.04|-0.34|0.122
92204290|NCT03547739|184307245|SUPERIORITY||Risk Ratio (RR)|1.21||||0.001|TWO_SIDED|95.0|1.12|1.31|||Chi-squared||Generalized Estimating Equation model with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth index, length of couple relationship, previous couple testing at baseline, and and couple age disparity.|Comparison of the Home Visit arm with Standard Care||1.31|1.12|.001
92204291|NCT03547739|184307245|SUPERIORITY||Risk Ratio (RR)|1.26||||0.001|TWO_SIDED|95.0|1.17|1.36|||Chi-squared||Generalized Estimating Equation model with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth index, length of couple relationship, previous couple testing at baseline, and and couple age disparity.|Comparison of HIVST arm with Standard Care arm||1.36|1.17|.001
92204292|NCT03547739|184307259|SUPERIORITY||Risk Ratio (RR)|1.08||||0.011|TWO_SIDED|95.0|1.03|1.12|||Chi-squared||Generalized Estimating Equation model (binomial family and log link) with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth, length of couple relationship, and couple age disparity.|Comparison of the Home Visit arm with Standard Care||1.12|1.03|.011
92204293|NCT03547739|184307259|SUPERIORITY||Risk Ratio (RR)|1.02||||0.011|TWO_SIDED|95.0|0.97|1.08|||Chi-squared||Generalized Estimating Equation model (binomial family and log link) with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth, length of couple relationship, and couple age disparity.|Comparison of the HIVST arm with Standard Care||1.08|0.97|0.011
92204294|NCT03547739|184307260|OTHER||Kaplan Meier estimates|0.92||||0.087|TWO_SIDED|95.0|0.86|0.95|||Log Rank|||||0.95|0.86|0.087
92204295|NCT03547739|184307260|OTHER||Kaplan Meier estimates|0.96||||0.087|TWO_SIDED|95.0|0.91|0.98|||Log Rank|||||0.98|0.91|0.087
92204296|NCT03547739|184307260|OTHER||Kaplan Meier estimates|0.98||||0.087|TWO_SIDED|95.0|0.93|0.99|||Log Rank|||||0.99|0.93|0.087
92327275|NCT02278120|184559743|SUPERIORITY||Hazard Ratio, log|0.553|||<|1e-07|TWO_SIDED|95.0|0.441|0.694|||Log Rank|||||0.694|0.441|<0.0000001
92204297|NCT02946853|184307302|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.14|7.21|||Regression, Logistic|||||7.21|0.14|1.00
92204298|NCT02946853|184307303|SUPERIORITY||Mean Difference (Net)|-1.0||||0.974|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.974
92204299|NCT02946853|184307304|SUPERIORITY||Mean Difference (Net)|0.5||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Some patients did not undergo 6 month echocardiogram due to restrictions related to COVID-19.||||1.00
92204300|NCT02946853|184307305|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.1|84.4|||Fisher Exact|||||84.4|0.1|1.00
92204301|NCT02946853|184307306|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED||||||Fisher Exact|||||||1.00
92204302|NCT02946853|184307307|SUPERIORITY||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0|42.0|||Fisher Exact|||||42.00|0.00|1.00
92204303|NCT02946853|184307308|SUPERIORITY||Mean Difference (Final Values)|20.6||||0.005|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.005
92204304|NCT02946853|184307309|SUPERIORITY||Median Difference (Final Values)|23.7||||0.565|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.565
92204305|NCT02946853|184307310|SUPERIORITY||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0|42.0|||Fisher Exact|||||42.0|0.0|1.00
92204306|NCT02369068|184307315|OTHER|||||||0.072|||||||Kruskal-Wallis|This test was selected since the distribution of the change in pain was not normal nor approximately symmetric.||The null hypothesis assumed there were no differences in the pain score change between groups. Significance level was set at 0.05.||||0.072
92204307|NCT02369068|184307316|OTHER|||||||0.624|||||||Kruskal-Wallis|||The null hypothesis assumed there were no differences in the median change pain severity between the groups. Significance level was set at 0.05||||0.624
92204308|NCT02369068|184307317|OTHER|||||||0.571|||||||Kruskal-Wallis|||The null hypothesis assumed that there is no difference in the change in pain interference between the groups. Statistical significance was set at 0.05||||0.571
92204309|NCT02369068|184307318|OTHER|||||||0.285|||||||Kruskal-Wallis|||The null hypothesis assumed that there was no difference in the distribution between the groups. Significance level was set at 0.05||||0.285
92204310|NCT00799981|184307357|OTHER|||||||0.8762|||||||Wilcoxon (Mann-Whitney)|||The hypothesis that a 10 cm catheter provides equal emptying of the bladder as a 7 cm catheter was tested.||||0.8762
92204311|NCT00799981|184307358|OTHER|||||||0.7905|||||||McNemar|||||||0.7905
92204312|NCT00799981|184307359|OTHER|||||||1|||||||McNemar|||||||1.00
92204313|NCT00799981|184307362|OTHER|||||||0.0273|||||||Wilcoxon (Mann-Whitney)|||In the table 0=No and 1=Yes.||||0.0273
92204314|NCT03192475|184307363|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
92204315|NCT03192475|184307364|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|||||||0.15
92204316|NCT03192475|184307365|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
92204317|NCT03192475|184307366|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
92204318|NCT03192475|184307367|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
92204319|NCT03192475|184307368|SUPERIORITY|||||||0.53|||||||Mixed Models Analysis|||||||0.53
92204320|NCT03192475|184307369|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||||||0.21
92204321|NCT03192475|184307370|SUPERIORITY|||||||0.6|||||||Mixed Models Analysis|||||||0.60
92204322|NCT03192475|184307371|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|||||||0.15
92204323|NCT03192475|184307372|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||||||0.96
92204324|NCT03192475|184307373|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||||||0.96
92204325|NCT03192475|184307374|SUPERIORITY|||||||0.0009|||||||Mantel Haenszel|||||||0.0009
92204326|NCT03192475|184307375|SUPERIORITY|||||||0.18|||||||Mixed Models Analysis|||||||0.18
92204327|NCT03192475|184307376|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|||||||0.34
92204328|NCT03192475|184307377|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||||||0.82
92204329|NCT03980808|184307382|EQUIVALENCE|A priori significance levels were set to 0.05. As this was a pilot study on a demonstration intervention, power analysis were not performed.|Mean Difference (Net)|1.33|STANDARD_ERROR_OF_MEAN|0.56||0.95|TWO_SIDED||||||ANOVA|Total degrees of freedom (dof) = 17, with between groups dof = 1 and within groups dof = 16.||Composite scores were calculated for the knowledge based tests. Differences in the pre and post test composite scores were compared using ANOVA. We tested the null hypothesis that score changes in the intervention group and control group were the same.||||0.95
92204330|NCT03980808|184307383|EQUIVALENCE|A priori significance levels were set to 0.05. As this was a pilot study on a demonstration intervention, power analysis were not performed.|Mean Difference (Net)|1.03|STANDARD_ERROR_OF_MEAN|0.5376||0.093|TWO_SIDED||||||ANOVA|||Composite scores were calculated for the behavioral self-report tests tests. Differences in the pre and post test composite scores were compared using ANOVA. We tested the null hypothesis that score changes in the intervention group and control group were the same.||||0.093
92204331|NCT00368927|184307423|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Fisher Exact|||With a sample size of 60 evaluable participants per intervention arm, we would have 90% power to detect a bronchial dysplasia response rate of 54% and 82% power to detect a bronchial dysplasia response rate of\> 51% among participants assigned to receive active sulindac (2-sided chi-square test with continuity correction; alpha=0.05).||||0.85
92204332|NCT00368927|184307424|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||t-test, 2 sided|||A sample size of 60 participants per intervention arm would provide 90% power and 80% power to detect effect sizes of 60% and 52%, respectively, using a two-sample t-test(alpha=0.05).||||0.63
92204333|NCT02229851|184307427|SUPERIORITY||Treatment difference|-1.53|||=|0.009|TWO_SIDED|95.0|-2.68|-0.38|||ANCOVA||Somapacitan-Placebo|Changes in truncal fat percentage from baseline to the 34 week's measurements was analysed using an analysis of covariance model with treatment, growth hormone deficiency (GHD) onset type, sex, region, diabetes mellitus (DM) and sex by region by DM interaction as factors and baseline as a covariate. The analysis was conducted using a multiple imputation technique where trajectory after a withdrawn subjects last observation was imputed based on data from the placebo arm.||-0.38|-2.68|=0.0090
92204334|NCT01204710|184307551|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.29||||0.2201|TWO_SIDED|95.0|0.87|1.9||Analysis was stratified by the randomization stratification factor: best overall response to prior docetaxel-based chemotherapy.|Log Rank||Hazard ratio is expressed as IMC-3G3 + Mitoxantrone / Mitoxantrone and estimated from Cox model.|||1.90|0.87|0.2201
92204335|NCT01204710|184307552|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.7291|TWO_SIDED|95.0|0.72|1.61||Analysis was stratified by the randomization stratification factor: best overall response to prior docetaxel-based chemotherapy.|Log Rank||Hazard ratio is expressed as Olaratumab + Mitoxantrone / Mitoxantrone and estimated from Cox model.|||1.61|0.72|0.7291
92204336|NCT01204710|184307553|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3465|TWO_SIDED||||||Fisher Exact|||||||0.3465
92204337|NCT01204710|184307554|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6571|TWO_SIDED||||||Fisher Exact|||||||0.6571
92204338|NCT01204710|184307555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4986|TWO_SIDED||||||Fisher Exact|||||||0.4986
92268670|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.7||||||For Pertussis - FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at (7.82 EU/mL) threshold was calculated||2.7|-1.7|
92204339|NCT05014568|184307606|SUPERIORITY||Risk Ratio, log|2.6|||<|0.0001|TWO_SIDED|95.0|1.66|4.09|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|H0: The proportion of subjects who achieve a vIGA-AD score of clear (0) or almost clear (1) and at least a 2-grade reduction from Baseline at Week 8 is equal between tapinarof cream, 1% and vehicle cream; H1: The proportion of subjects who achieve a vIGA-AD score of clear (0) or almost clear (1) and at least a 2-grade reduction from Baseline at Week 8 is different between the tapinarof cream, 1% and vehicle cream.||4.09|1.66|<0.0001
92204340|NCT05014568|184307607|SUPERIORITY||Risk Ratio, log|2.17|||<|0.0001|TWO_SIDED|95.0|1.57|3.0|||Cochran-Mantel-Haenszel|Stratified by vIGA-AD score at Baseline (vIGA-AD scores of 3 or 4) and age group (2-6 yrs, 7-11 yrs, 12-17 yrs, 18+ yrs)|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|||3.00|1.57|<0.0001
92204341|NCT05014568|184307608|SUPERIORITY||Least squares mean difference|-6.17|STANDARD_ERROR_OF_MEAN|0.657|<|0.0001|TWO_SIDED|95.0|-7.69|-4.66|||ANCOVA|age\*vIGA cohort and treatment as categorical covariates, and baseline %BSA as a continuous covariate||||-4.66|-7.69|<0.0001
92204342|NCT05014568|184307609|SUPERIORITY||Risk Ratio, log|3.74|||<|0.0001|TWO_SIDED|95.0|1.98|7.09|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|||7.09|1.98|<0.0001
92204343|NCT05014568|184307610|SUPERIORITY||Risk Ratio, log|1.54||||0.0366|TWO_SIDED|95.0|1.03|2.31|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|||2.31|1.03|0.0366
92204344|NCT04032613|184307695|OTHER|Paired sample t-test||||||0.2||||||Statistically significant p-value is \<0.05|Paired sample t-test|||||||0.20
92204345|NCT04032613|184307696|OTHER|Paired sample t-test||||||0.05||||||Statistically significant p-value is \<0.05|Paired sample t-test|||||||0.05
92204346|NCT04032613|184307697|OTHER|Paired sample t-test||||||0.004||||||Statistically significant p-value is \<0.05|Paired sample t-test|||||||0.004
92204347|NCT04032613|184307698|OTHER|Paired sample t-test||||||0.14||||||Statistically significant p-value is \<0.05|Paired sample t-test|||||||0.14
92204348|NCT01141647|184307707|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.56|||||TWO_SIDED|90.0|1.8|7.07||||||||7.07|1.80|
92204349|NCT01744392|184307714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2||||0.73|TWO_SIDED||||||t-test, 2 sided|||Difference between percentages. Increases in value indicate improvement in adherence.||||.73
92204350|NCT01417104|184307774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.16|||<|0.031|TWO_SIDED|95.0|0.85|9.47|||t-test, 2 sided|||||9.47|0.85|<0.031
92204351|NCT01417104|184307775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4||||0.041|TWO_SIDED|95.0|0.44|4.36|||t-test, 2 sided|||||4.36|0.44|0.041
92204352|NCT00403767|184307778|NON_INFERIORITY_OR_EQUIVALENCE|Alternative hypothesis of non-inferiority (NI) by a NI margin of 1.46 in hazard ratio (HR) based on on-treatment data from the per protocol population. The required number of primary efficacy endpoint events was determined based on the following assumptions: NI margin of 1.46, 1-sided alpha of 0.025, power of \>95% when true HR is 1, and exponential distributions. The margin was selected based on clinical appropriateness and quantitative analysis of relevant studies in Hart et al.|Hazard Ratio (HR)|0.79|||<|0.001|TWO_SIDED|95.0|0.66|0.96||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.025 (1-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||||0.96|0.66|<0.001
92204353|NCT00403767|184307779|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.015|TWO_SIDED|95.0|0.65|0.95||The p-value Is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||0.95|0.65|0.015
92204354|NCT00403767|184307780|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.442|TWO_SIDED|95.0|0.96|1.11||The p-value is not adjusted for mulitple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as a covariate||Alternate hypothesis of superiority based on on-treatment data from the safety population.||1.11|0.96|0.442
92204355|NCT00403767|184307781|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.034|TWO_SIDED|95.0|0.74|0.99||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||0.99|0.74|0.034
92204356|NCT00403767|184307782|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.01|TWO_SIDED|95.0|0.74|0.96||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||0.96|0.74|0.010
92204357|NCT00403767|184307783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.092|TWO_SIDED|95.0|0.7|1.03||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as a covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||1.03|0.70|0.092
92204358|NCT00403767|184307784|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.23||||0.003|TWO_SIDED|95.0|0.09|0.61||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||0.61|0.09|0.003
92327276|NCT02278120|184559744|SUPERIORITY||Cox Proportional Hazard|0.712||||0.00973|TWO_SIDED|95.0|0.535|0.948||One-sided stratified log-rank test|Log Rank|||||0.948|0.535|0.00973
92327277|NCT02278120|184559745|SUPERIORITY|||||||0.00098|||||||Cochran-Mantel-Haenszel|||||||0.000980
92204359|NCT00403767|184307785|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.121|TWO_SIDED|95.0|0.63|1.06||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as a covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||1.06|0.63|0.121
92204360|NCT00403767|184307786|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.289|TWO_SIDED|95.0|0.73|1.1||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as a covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||1.10|0.73|0.289
92204361|NCT00403767|184307787|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.073|TWO_SIDED|95.0|0.7|1.02||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||1.02|0.70|0.073
92204362|NCT05319912|184307800|OTHER||Geometric Mean Ratio (%)|75.81|||||TWO_SIDED|90.0|52.23|110.02||||||Analysis was performed using analysis of variance (ANOVA).||110.02|52.23|
92204363|NCT05319912|184307800|OTHER||Geometric Mean Ratio (%)|25.2|||||TWO_SIDED|90.0|17.21|36.89||||||Analysis was performed using ANOVA.||36.89|17.21|
92204364|NCT05319912|184307801|OTHER||Geometric Mean Ratio (%)|82.65|||||TWO_SIDED|90.0|63.91|106.9||||||Analysis was performed using ANOVA.||106.90|63.91|
92204365|NCT05319912|184307801|OTHER||Geometric Mean Ratio (%)|40.49|||||TWO_SIDED|90.0|31.12|52.68||||||Analysis was performed using ANOVA.||52.68|31.12|
92204366|NCT01489891|184307819|NON_INFERIORITY_OR_EQUIVALENCE|Beta 0.1; Alpha 0.05|Median Difference (Final Values)|30.6|STANDARD_DEVIATION|42.1|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.05
92204367|NCT01276379|184307876|SUPERIORITY||Hazard Ratio (HR)|2.01||||0.004|TWO_SIDED|95.0|1.23|3.29|||Log Rank|||||3.29|1.23|0.004
92204368|NCT01276379|184307877|SUPERIORITY||Hazard Ratio (HR)|2.29|||<|0.0001|TWO_SIDED|95.0|1.33|3.96|||Log Rank|||||3.96|1.33|<0.0001
92204369|NCT02729831|184307883|SUPERIORITY||Mean Difference (Net)|9.0|||<|0.001|TWO_SIDED|95.0|6.0|12.0|||Regression, Linear|||The comparison groups were: Interactive decision versus Video decision aid.||12|6|<0.001
92204370|NCT02729831|184307884|SUPERIORITY||Odds Ratio (OR)|1.03||||0.86|TWO_SIDED|95.0|0.74|1.44|||Regression, Logistic|General Estimating Equations accounted for clustering of patients within surgeons and controlling for baseline EQ-5D, BMI, joint and education.||We tested for interaction effects. Comparison groups were: MD Usual Care vs. MD Provider report.||1.44|0.74|0.86
92204371|NCT02729831|184307884|SUPERIORITY||Odds Ratio (OR)|1.06||||0.75|TWO_SIDED|95.0|0.76|1.47|||Regression, Logistic|General Estimating Equations accounted for clustering of patients within surgeons and controlling for baseline EQ-5D, BMI, joint and education.||We tested for interaction effects. Comparison groups are: Interactive decision versus Video decision aid||1.47|0.76|0.75
92204372|NCT02729831|184307885|SUPERIORITY||Risk Difference (RD)|18.5|||<|0.001|TWO_SIDED|95.0|12.8|24.5|||Chi-squared|Compared patients who reported using all of the DA compared to everyone else.||Comparison groups were: patients who reported using all of the DA versus everyone else.||24.5|12.8|<0.001
92204373|NCT02729831|184307886|SUPERIORITY||Mean Difference (Net)|0.04|||<|0.001|TWO_SIDED|95.0|0.016|0.065|||Regression, Linear|Generalized Estimating Equation accounting for clustering within surgeons. Model included treatment, sex, age, education, site and joint.||We included all 4 study groups, but the comparison group was: informed, patient centered decision yes vs. no.||0.065|0.016|<0.001
92204374|NCT02729831|184307887|SUPERIORITY||Odds Ratio (OR)|25.7|||<|0.001|TWO_SIDED|95.0|16.5|40.1|||Regression, Logistic|General estimating equations were used to account for clustering of patients within surgeons.||We included all 4 study groups, but the comparison group was: informed, patient centered (IPC) decision yes vs. no. We excluded those who did not provide information to calculate the IPC variable.||40.1|16.5|<0.001
92204375|NCT00864253|184307888|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.792||||0.044|TWO_SIDED|95.1|0.631|0.992||An interim safety review was performed by DMC. An alpha spending function was utilized to preserve the overall Type 1 error at 0.050. The spending function allocated alpha of 0.001 and 0.049 to the interim and final analyses of PFS, respectively.|Log Rank|The treatment difference was tested using the stratified log-rank test, stratified by metastatic stage, region, and baseline LDH.||Two hundred fifty-seven (257) patients were to be randomized to each treatment group for a total of 514 patients. This sample size was chosen to provide at least 80% power for the final analysis (with a two-sided type I error of 0.049) to reject the null hypothesis that the ABI 007/dacarbazine hazard ratio (HR) for PFS is equal to 1.0. This sample size calculation was based on estimates of HR = 0.750. Proportional hazards were assumed.||0.992|0.631|0.044
92204376|NCT00864253|184307889|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.831||||0.094|TWO_SIDED|99.9|0.578|1.196||At the time of the final PFS analysis, an interim analysis of survival was reported. The spending function allocated an alpha of 0.001 and 0.049 for the interim and final analysis, respectively, to preserve the overall Type I error at 0.050.|Log Rank|The treatment difference was tested using the stratified log-rank test, stratified by metastatic stage, region, and baseline LDH.||For the participant survival, at the time at least 417 events are recorded, this sample size provides at least 80% power with a two-sided Type 1 error of 0.049 to reject the null hypothesis that the ABI-007/dacarbazine hazard ratio is equal to 1.0. This was based on a HR = 0.760. Proportional hazards were assumed.||1.196|0.578|0.094
92204377|NCT00864253|184307890|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.845||||0.086|TWO_SIDED|95.0|0.696|1.025|||Log Rank|The treatment difference was tested using the stratified log-rank test, stratified by metastatic stage, region, and baseline LDH.||||1.025|0.696|0.086
92204378|NCT00864253|184307891|SUPERIORITY_OR_OTHER_LEGACY||Response Rate Ratio|1.305||||0.239|TWO_SIDED|95.0|0.837|2.035|||Chi-squared|||||2.035|0.837|0.239
92204379|NCT00864253|184307892|SUPERIORITY_OR_OTHER_LEGACY||Response Rate Ratio|1.442||||0.004|TWO_SIDED|95.0|1.123|1.582|||Chi-squared|||||1.582|1.123|0.004
92204380|NCT00864253|184307893|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.201||||0.057|TWO_SIDED|95.0|0.959|5.053|||Log Rank|||||5.053|0.959|0.057
92204381|NCT01747551|184307925|SUPERIORITY|||||||0.72|||||||Log Rank|||||||0.72
92204382|NCT05384938|184307979|OTHER|Single group|Median time to response|100.0|||||TWO_SIDED|95.0|65.0|160.0|||||Estimate for Time to Response using Kaplan-Meier method|Estimate for Time to Response (Days)||160.0|65.00|
92204383|NCT05384938|184307983|OTHER|Parametric Test|||||<|0.0001|||||||paired t-test|||Week 4 (Visit 2)||||<0.0001
92204384|NCT05384938|184307983|OTHER|Parametric Test|||||<|0.0001|||||||paired t-test|||Week 16 (Visit 4)||||<0.0001
92204385|NCT05384938|184307983|OTHER|Parametric Test|||||<|0.0001|||||||paired t-test|||Week 24 (Visit 5)||||<0.0001
92204386|NCT02626455|184307985|SUPERIORITY|Comparison of PFS|Hazard Ratio (HR)|1.125|||=|0.827974|TWO_SIDED|95.0|0.881|1.437||Significance level is 0.025.|Log Rank|PFS was evaluated with a one-sided stratified log- rank test. HR and 95% CI are based on the stratified Cox regression model.||||1.437|0.881|= 0.827974
92204387|NCT02626455|184307988|SUPERIORITY|ORR of Copa+R-B/R-CHOP minus ORR of Pbo+R-B/R-CHOP|Difference|-1.25|||=|0.658652|TWO_SIDED|95.0|-7.25|4.75||Significance level is 0.025. P-values are descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference.||||4.75|-7.25|= 0.658652
92204388|NCT02626455|184307989|SUPERIORITY|ORR of Copa+R-B/R-CHOP minus ORR of Pbo+R-B/R-CHOP|Difference|-0.8|||=|0.605183|TWO_SIDED|95.0|-6.64|5.05||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference.||||5.05|-6.64|=0.605183
92204389|NCT02626455|184307990|SUPERIORITY|Comparison of DOR|Hazard Ratio (HR)|1.145|||=|0.846204|TWO_SIDED|95.0|0.883|1.484||Significance level is 0.025, P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|DOR was evaluated with a one-sided stratified log-rank test. HR and its 95% CI were based on the stratified Cox regression model.||||1.484|0.883|= 0.846204
92204390|NCT02626455|184307991|SUPERIORITY|Comparison of DOR|Hazard Ratio (HR)|1.117|||=|0.801735|TWO_SIDED|95.0|0.865|1.443||Significance level is 0.025, P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|DOR was evaluated with a one-sided stratified log-rank test. HR and its 95% CI were based on the stratified Cox regression model.||||1.443|0.865|= 0.801735
92204391|NCT02626455|184307992|SUPERIORITY|CRR of Copa+R-B/R-CHOP minus CRR of Pbo+R-B/R-CHOP|Difference|-2.74|||=|0.741153|TWO_SIDED|95.0|-11.06|5.57||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference.||||5.57|-11.06|= 0.741153
92204392|NCT02626455|184307993|SUPERIORITY|CRR of Copa+R-B/R-CHOP minus CRR of Pbo+R-B/R-CHOP|Difference|-2.21|||=|0.696482|TWO_SIDED|95.0|-10.62|6.2||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference.||||6.20|-10.62|= 0.696482
92327278|NCT02278120|184559746|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|||||||0.002
92204393|NCT02626455|184307994|SUPERIORITY|DCR of Copa+R-B/R-CHOP minus DCR of Pbo+R-B/R-CHOP|Difference|-3.95|||=|0.936009|TWO_SIDED|95.0|-9.04|1.14||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference||||1.14|-9.04|= 0.936009
92327279|NCT00808639|184559755|SUPERIORITY_OR_OTHER||Pathologic response rate|49.0|||||TWO_SIDED|80.0|38.0|61.0||||||This study used a Simon's optimal two-stage design. Of 39 eligible patients, if 18 achieved PaR, the treatment would be declared effective. A two-sided 80% CI was estimated considering the two-stage design based on Atkinson and Brown methods.||61|38|
92204394|NCT02626455|184307995|SUPERIORITY|DCR of Copa+R-B/R-CHOP minus DCR of Pbo+R-B/R-CHOP|Difference|-3.89|||=|0.944242|TWO_SIDED|95.0|-8.68|0.9||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference||||0.90|-8.68|= 0.944242
92204395|NCT02626455|184307996|SUPERIORITY|Comparison of TTP|Hazard Ratio (HR)|1.006|||=|0.517849|TWO_SIDED|95.0|0.777|1.303||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|TTP was evaluated with a one-sided stratified log-rank test. HR and its 95% CI are based on the stratified Cox regression model.||||1.303|0.777|= 0.517849
92204396|NCT02626455|184307997|SUPERIORITY|Comparison of TTP|Hazard Ratio (HR)|0.971|||=|0.411398|TWO_SIDED|95.0|0.75|1.257||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|TTP was evaluated with a one-sided stratified log-rank test. HR and its 95% CI are based on the stratified Cox regression model.||||1.257|0.750|= 0.411398
92204397|NCT02626455|184307998|SUPERIORITY|Comparison of TTNT|Hazard Ratio (HR)|1.289|||=|0.955865|TWO_SIDED|95.0|0.962|1.728||Significance level IS 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|TTNT was evaluated with a one-sided stratified log-rank test. HR and its 95% CI are based on the stratified Cox regression model.||||1.728|0.962|= 0.955865
92204398|NCT02626455|184307999|SUPERIORITY|Comparison of OS|Hazard Ratio (HR)|1.132|||=|0.758563|TWO_SIDED|95.0|0.8|1.603||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|OS was evaluated with a one-sided stratified log-rank test. HR and 95% CI are based on the stratified Cox regression model.||||1.603|0.800|= 0.758563
92204399|NCT02626455|184308000|SUPERIORITY|Comparison of time to deterioration in DRS-P|Hazard Ratio (HR)|1.394|||=|0.999695|TWO_SIDED|95.0|1.149|1.691||Significance level IS 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|Time to deterioration in DRS-P was evaluated with one-sided stratified log-rank test.HR and its 95% CI are based on stratified Cox regression model.||||1.691|1.149|= 0.999695
92204400|NCT02626455|184308001|SUPERIORITY|Comparison of time to improvement in DRS-P|Hazard Ratio (HR)|0.81|||=|0.965639|TWO_SIDED|95.0|0.642|1.02||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|Time to improvement in DRS-P was evaluated with one-sided stratified log-rank test.HR and its 95% CI are based on the stratified Cox regression model.||||1.020|0.642|= 0.965639
92204401|NCT01200290|184308064|SUPERIORITY_OR_OTHER|||||||0.324|TWO_SIDED|||||P-value is for Week 8.|Mixed Effect Model Repeat Measurement|||||||0.324
92204402|NCT01200290|184308064|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||P-value is for Week 16.|Mixed Effect Model Repeat Measurement|||||||0.031
92204403|NCT01200290|184308064|SUPERIORITY_OR_OTHER|||||||0.076|TWO_SIDED|||||P-value is for Week 24.|Mixed Effect Model Repeat Measurement|||||||0.076
92204404|NCT01200290|184308064|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||P-value is for Week 36.|Mixed Effect Model Repeat Measurement|||||||0.013
92204405|NCT01200290|184308064|SUPERIORITY_OR_OTHER|||||||0.553|TWO_SIDED|||||P-value is for Week 52.|Mixed Effect Model Repeat Measurement|||||||0.553
92204406|NCT01200290|184308064|SUPERIORITY_OR_OTHER|||||||0.132|TWO_SIDED|||||P-value is for Week 64.|Mixed Effect Model Repeat Measurement|||||||0.132
92204407|NCT01200290|184308064|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|||||P-value is for Week 76.|Mixed Effect Model Repeat Measurement|||||||0.230
92204408|NCT01200290|184308065|SUPERIORITY_OR_OTHER|||||||0.335|TWO_SIDED|||||P-value is for Week 8.|Mixed Effect Model Repeat Measurement|||||||0.335
92204409|NCT01200290|184308065|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED|||||P-value is for Week 16.|Mixed Effect Model Repeat Measurement|||||||0.043
92204410|NCT01200290|184308065|SUPERIORITY_OR_OTHER|||||||0.073|TWO_SIDED|||||P-value is for Week 24.|Mixed Effect Model Repeat Measurement|||||||0.073
92204411|NCT01200290|184308065|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||P-value is for Week 36.|Mixed Effect Model Repeat Measurement|||||||0.004
92204412|NCT01200290|184308065|SUPERIORITY_OR_OTHER|||||||0.699|TWO_SIDED|||||P-value is for Week 52.|Mixed Effect Model Repeat Measurement|||||||0.699
92204413|NCT01200290|184308065|SUPERIORITY_OR_OTHER|||||||0.095|TWO_SIDED|||||P-value is for Week 64.|Mixed Effect Model Repeat Measurement|||||||0.095
92204414|NCT01200290|184308065|SUPERIORITY_OR_OTHER|||||||0.082|TWO_SIDED|||||P-value is for Week 76.|Mixed Effect Model Repeat Measurement|||||||0.082
92204415|NCT00775463|184308118|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|0.0||||0.2|TWO_SIDED|95.0|-1.0|0.0|||Cochran-Mantel-Haenszel|||A Cochran-Mantel Haenszel mean score test was used on the standardized reverse mid-ranks (overall reverse ranks divided by the number of ranks +1, or modified ridit scores; largely negative changes had ranks near 1 and largely positive changes had ranks near 0)of the residuals from an ordinary least squares regression with change in net ulcer burden at Week 20 as a linear function of Baseline PDEI or prostacyclin use (binary variable:Yes/No) and net ulcer burden at Baseline(continuous variable).||0.0|-1.0|0.20
92204416|NCT00775463|184308119|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|-0.4||||0.31|TWO_SIDED|95.0|-1.4|0.4||Analyses of secondary endpoints were descriptive in nature, no adjustments for multiplicity were made. P-values are for the purpose of describing the random imbalance between treatment groups and not to test formal hypotheses.|Wilcoxon (Mann-Whitney)|||The difference between treatment groups for the change from Baseline was tested using the Wilcoxon rank-sum test.||0.40|-1.40|0.31
92204417|NCT00775463|184308120|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|-9.3||||0.12|TWO_SIDED|95.0|-21.3|2.7||Analyses of secondary endpoints were descriptive in nature, no adjustments for multiplicity were made. P-values are for the purpose of describing the random imbalance between treatment groups and not to test formal hypotheses.|Wilcoxon (Mann-Whitney)|||The VAS-global assessments were recorded in centimeters, with possible values ranging from 0.0 to 15.0. The recorded value was divided by 15, then multiplied by 100 to convert it to the VAS-Global scale, with values ranging from 0 (no disease activity) to 100 (very severe disease). The difference between treatment groups for the change from Baseline was tested using the Wilcoxon rank-sum test.||2.7|-21.3|0.12
92204418|NCT00775463|184308121|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|-9.3||||0.04|TWO_SIDED|95.0|-18.0|0.0||Analyses of secondary endpoints were descriptive in nature, no adjustments for multiplicity were made. P-values are for the purpose of describing the random imbalance between treatment groups and not to test formal hypotheses.|Wilcoxon (Mann-Whitney)|||The VAS-global assessments were recorded in centimeters, with possible values ranging from 0.0 to 15.0. The recorded value was divided by 15, then multiplied by 100 to convert it to the VAS-Global scale, with values ranging from 0 (no disease activity) to 100 (very severe disease). The difference between treatment groups for the change from Baseline was tested using the Wilcoxon rank-sum test.||0.0|-18.0|0.04
92204419|NCT00775463|184308122|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|-1.0||||0.47|TWO_SIDED|95.0|-4.0|2.0||Analyses of secondary endpoints were descriptive in nature, no adjustments for multiplicity were made. P-values are for the purpose of describing the random imbalance between treatment groups and not to test formal hypotheses.|Wilcoxon (Mann-Whitney)|||The difference between treatment groups for the change from Baseline in CHFS Score were tested using the Wilcoxon rank-sum test.||2.0|-4.0|0.47
92204420|NCT00775463|184308124|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|0.0||||0.68|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||he difference between treatment groups for the change from Baseline and at Week 20 in the mRSS was tested using the Wilcoxon rank-sum test.||1.0|0.0|0.68
92204421|NCT00775463|184308125|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|-1.0||||0.54|TWO_SIDED|95.0|-3.0|2.0||P value for Total Pain Rating Index Score|Wilcoxon (Mann-Whitney)|||P value for Total Pain Rating Index Score||2.0|-3.0|0.54
92204422|NCT00775463|184308125|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Ef|-0.6||||0.18|TWO_SIDED|95.0|-1.6|0.3||P value for Pain VAS|Wilcoxon (Mann-Whitney)|||P value for Pain VAS||0.3|-1.6|0.18
92204423|NCT00775463|184308125|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|0.0||||0.1|TWO_SIDED|95.0|-1.0|0.0||P value for Total Pain Rating Index Score|Wilcoxon (Mann-Whitney)|||P value for Total Pain Rating Index Score||0.0|-1.0|0.10
92204424|NCT02980731|184308130|SUPERIORITY||||||=|0.004||||||P-value is derived from a paired t-test of H0: mean difference (Week 48 - baseline) ≤ 5 versus H1: mean difference (Week 48 - baseline) \> 5|t-test, 2 sided|||||||=0.004
92204425|NCT02075476|184308163|EQUIVALENCE|Normality in sample distribution was tested using the Kolmororov-Smirnov test and graphic models. For descriptive variables we use Pearson's Chi-square, and for the study of numerical variables over time we use a mixed linear test.||||||0.048|||||||Mixed Models Analysis|||||||0.048
92204426|NCT02075476|184308164|EQUIVALENCE|Normality in sample distribution was tested using the Kolmororov-Smirnov test and graphic models. For descriptive variables we use Pearson's Chi-square, and for the study of numerical variables over time we use a mixed linear test.||||||0.001|||||||Mixed Models Analysis|||||||0.001
92204427|NCT02075476|184308165|EQUIVALENCE|Normality in sample distribution was tested using the Kolmororov-Smirnov test and graphic models. For descriptive variables we use Pearson's Chi-square, and for the study of numerical variables over time we use a mixed linear test.||||||0.011|||||||Mixed Models Analysis|||||||0.011
92204428|NCT02731690|184308176|SUPERIORITY|||||||0.5303||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.5303
92204429|NCT02731690|184308176|SUPERIORITY|||||||0.1646||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.1646
92204430|NCT02731690|184308176|SUPERIORITY|||||||0.1189||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.1189
92204431|NCT02731690|184308176|SUPERIORITY|||||||0.0706||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.0706
92204432|NCT02731690|184308177|SUPERIORITY|||||||0.0715||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.0715
92204433|NCT02731690|184308177|SUPERIORITY|||||||0.1697||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.1697
92327280|NCT02266472|184559759|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% CIs for the ratios (test to reference treatment) of the adjusted gMeans of the primary endpoints, with acceptance range of 80.00 to 125.00 %.|ratio of the adjusted means|99.11|STANDARD_DEVIATION|6.3|<|0.0001|TWO_SIDED|90.0|96.4|101.89|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by the adjusted gMean ratio of Fed 10mg+1000mg FDC divided by Fed 10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||101.89|96.40|<0.0001
92204434|NCT02731690|184308177|SUPERIORITY|||||||0.3428||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.3428
92204435|NCT02731690|184308177|SUPERIORITY|||||||0.0642||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.0642
92204436|NCT02731690|184308178|SUPERIORITY|||||||0.0568||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.0568
92204437|NCT02731690|184308178|SUPERIORITY|||||||0.0533||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.0533
92204438|NCT02731690|184308178|SUPERIORITY|||||||0.0459||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.0459
92204439|NCT02731690|184308178|SUPERIORITY|||||||0.5678||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.5678
92204440|NCT02731690|184308179|SUPERIORITY|||||||0.581||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.5810
92204441|NCT02731690|184308179|SUPERIORITY|||||||0.0465||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.0465
92204442|NCT02731690|184308179|SUPERIORITY|||||||0.1047||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.1047
92204443|NCT02731690|184308179|SUPERIORITY|||||||0.0661||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.0661
92204444|NCT02731690|184308180|SUPERIORITY|||||||0.1615||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.1615
92204445|NCT02731690|184308180|SUPERIORITY|||||||0.6201||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.6201
92204446|NCT02731690|184308180|SUPERIORITY|||||||0.9229||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.9229
92204447|NCT02731690|184308180|SUPERIORITY|||||||0.6307||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.6307
92204448|NCT02731690|184308181|SUPERIORITY|||||||0.0088||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.0088
92204449|NCT02731690|184308181|SUPERIORITY|||||||0.2213||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.2213
92204450|NCT02731690|184308181|SUPERIORITY|||||||0.018||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.0180
92204451|NCT02731690|184308181|SUPERIORITY|||||||0.197||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.1970
92204452|NCT02731690|184308182|SUPERIORITY|||||||0.0752||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.0752
92204453|NCT02731690|184308182|SUPERIORITY|Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.||||||0.6403||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.6403
92327281|NCT02266472|184559760|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% confidence intervals (CIs) for the ratios (test to reference treatment) of the adjusted geometric means (gMeans) of the primary endpoints,using an acceptance range of 80.00 to 125.00 %.|ratio of the adjusted means|101.25|STANDARD_DEVIATION|10.7|<|0.0001|TWO_SIDED|90.0|96.54|106.19|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the adjusted gMean ratio of Fed 10mg+1000mg FDC divided by Fed 10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||106.19|96.54|<0.0001
92327282|NCT02266472|184559761|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% CIs for the ratios (test to reference treatment) of the adjusted gMeans of the primary endpoints, with acceptance range of 80.00 to 125.00%.|ratio of the adjusted means|99.12|STANDARD_DEVIATION|12.9|<|0.0001|TWO_SIDED|90.0|93.69|104.87|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by the adjusted gMean ratio of Fed10mg+1000mg FDC divided by Fed10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||104.87|93.69|<0.0001
92204454|NCT02731690|184308182|SUPERIORITY|Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.||||||0.2316||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.2316
92204455|NCT02731690|184308182|SUPERIORITY|||||||0.7635||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.7635
92204456|NCT02731690|184308183|SUPERIORITY|||||||0.0872||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.0872
92204457|NCT02731690|184308183|SUPERIORITY|||||||0.0073||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.0073
92204458|NCT02731690|184308183|SUPERIORITY|||||||0.0086||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.0086
92204459|NCT02731690|184308183|SUPERIORITY|||||||0.0489||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.0489
92204460|NCT00872989|184308185|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.49|TWO_SIDED|80.0|0.79|1.26|||Regression, Cox|||||1.26|0.79|0.49
92204461|NCT00872989|184308187|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.83|TWO_SIDED|80.0|0.93|1.68|||Regression, Cox|||||1.68|0.93|0.83
92204462|NCT03573583|184308248|SUPERIORITY||Mean Difference (Final Values)|2.29||||0.03|TWO_SIDED|95.0|0.22|4.36||No formal adjustment for type I error due to the pilot nature of the study. All significance tests were 2-tailed and an alpha level of 0.05 was required for significance.|ANCOVA|Adjusted for baseline score.||Continuous variables were expressed as mean (SD) and categorical variables were as frequencies and percentages. A 2-sided independent-sample t test was used to compare group differences in change scores. Change scores were calculated as Week 16 measurements minus baseline measurements. Statistical analyses were done by a blinded statistician without knowledge of group membership.||4.36|0.22|0.03
92204463|NCT03573583|184308249|SUPERIORITY||Mean Difference (Final Values)|1.04||||0.009|TWO_SIDED|95.0|0.31|1.77|||ANCOVA|Adjusted for baseline score.||||1.77|0.31|0.009
92204464|NCT03573583|184308250|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.07|TWO_SIDED|95.0|-0.1|2.67|||ANCOVA|Baseline as covariate||||2.67|-0.10|0.07
92204465|NCT03573583|184308251|OTHER|Pearson's correlation coefficients, along with their 95% confidence intervals (CIs)|Pearson's Correlation coefficient|0.19||||0.49|TWO_SIDED|95.0|-0.35|0.64|||Pearson's Correlation coefficient|||||0.64|-0.35|0.49
92204466|NCT02915302|184308275|NON_INFERIORITY|Non-inferiority was demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the difference in fever rate was \<5%.|Difference in Fever Rate|0.84|||||TWO_SIDED|95.0|-2.13|3.8|||||Fever rate: Fluzone Quadrivalent vaccine (0.5-mL vs. 0.25-mL)|Difference in fever rate was defined as the fever rate following a 0.5-mL dose of Fluzone Quadrivalent vaccine minus the fever rate following a 0.25-mL dose of Fluzone Quadrivalent vaccine.||3.80|-2.13|
92204467|NCT02915302|184308276|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio of GMTs was \>0.667.|GMTs Ratio (A/H1N1)|1.45|||||TWO_SIDED|95.0|1.19|1.77|||||A/H1N1 strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For A/H1N1 strain, GMT ratio was defined as the GMT after 0.5 mL dose(s) of Fluzone Quadrivalent vaccine divided by the GMT after 0.25 mL dose(s) of Fluzone Quadrivalent vaccine.||1.77|1.19|
92204468|NCT02915302|184308276|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio of GMTs was \>0.667.|GMTs Ratio (A/H3N2)|1.5|||||TWO_SIDED|95.0|1.23|1.83|||||A/H3N2 strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For A/H3N2 strain, GMT ratio was defined as the GMT after 0.5 mL dose(s) of Fluzone Quadrivalent vaccine divided by the GMT after 0.25 mL dose(s) of Fluzone Quadrivalent vaccine.||1.83|1.23|
92204469|NCT02915302|184308276|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio of GMTs was \>0.667.|GMTs Ratio (B Victoria lineage)|1.33|||||TWO_SIDED|95.0|1.1|1.62|||||B Victoria lineage strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For B Victoria lineage strain, GMT ratio was defined as the GMT after 0.5 mL dose(s) of Fluzone Quadrivalent vaccine divided by the GMT after 0.25 mL dose(s) of Fluzone Quadrivalent vaccine.||1.62|1.10|
92204470|NCT02915302|184308276|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio of GMTs was \>0.667.|GMTs Ratio (B Yamagata lineage)|1.44|||||TWO_SIDED|95.0|1.2|1.73|||||B Yamagata lineage strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For B Yamagata lineage strain, GMT ratio was defined as the GMT after 0.5 mL dose(s) of Fluzone Quadrivalent vaccine divided by the GMT after 0.25 mL dose(s) of Fluzone Quadrivalent vaccine.||1.73|1.20|
92204471|NCT02915302|184308277|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in SCRs was \>-10%.|Difference in SCR (A/H1N1)|5.1|||||TWO_SIDED|95.0|0.189|10.0|||||A/H1N1 strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For A/H1N1 strain, difference in SCR was defined as SCR after 0.5-mL dose(s) of Fluzone Quadrivalent Vaccine minus SCR after 0.25-mL dose(s) of Fluzone Quadrivalent Vaccine.||10.0|0.189|
92204472|NCT02915302|184308277|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in SCRs was \>-10%.|Difference in SCR (A/H3N2)|4.3|||||TWO_SIDED|95.0|-0.283|8.99|||||A/H3N2 strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For A/H3N2 strain, difference in SCR was defined as SCR after 0.5-mL dose(s) of Fluzone Quadrivalent Vaccine minus SCR after 0.25-mL dose(s) of Fluzone Quadrivalent Vaccine.||8.99|-0.283|
92204473|NCT02915302|184308277|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in SCRs was \>-10%.|Difference in SCR (B Victoria lineage)|1.4|||||TWO_SIDED|95.0|-2.78|5.56|||||B Victoria lineage strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For B Victoria lineage strain, difference in SCR was defined as SCR after 0.5-mL dose(s) of Fluzone Quadrivalent Vaccine minus SCR after 0.25-mL dose(s) of Fluzone Quadrivalent Vaccine.||5.56|-2.78|
92204474|NCT02915302|184308277|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in SCRs was \>-10%.|Difference in SCR (B Yamagata lineage)|3.4|||||TWO_SIDED|95.0|-0.465|7.36|||||B Yamagata lineage strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For B Yamagata lineage strain, difference in SCR was defined as SCR after 0.5-mL dose(s) of Fluzone Quadrivalent Vaccine minus SCR after 0.25-mL dose(s) of Fluzone Quadrivalent Vaccine.||7.36|-0.465|
92204475|NCT01850446|184308281|NON_INFERIORITY|Non-inferiority margin was prespecified as 20% (on each day). Type I error (alpha) level of 0.025 was prospectively planned for this analysis. Power of this analysis was planned to be greater than 0.8|Z-value|8.56|||<|0.0001|TWO_SIDED|||||Global test statistics (GTS) was constructed in accordance with O'Brien Procedures for Comparing Samples with Multiple Endpoints.|Z-test for Global test statistics|||Individual day analyses were combined into Global Test Statistics (patient diary analysis)||||<0.0001
92204476|NCT01850446|184308281|NON_INFERIORITY|Non-inferiority margin was prespecified as 20% (on each day). Type I error (alpha) level of 0.025 was prospectievely planned for this analysis. Power of this analysis was planned to be greater than 0.8|Z-value|7.31|||<|0.0001|TWO_SIDED|||||Global test statistics (GTS) was constructed in accordance with O'Brien, P. (1984). Procedures for Comparing Samples with Multiple Endpoints. Biometrics, 40(4), 1079-1087. doi:10.2307/2531158|Z-test for Global test statistics|||Individual day analyses were combined into Global Test Statistics (physician's examination analysis)||||<0.0001
92204477|NCT01850446|184308282|NON_INFERIORITY|Non-inferiority margin was prespecified as 1.2 degree\*day|Mean Difference (Final Values)|0.44||||0.027|ONE_SIDED|97.5|-0.23||||t-test, 1 sided|||Severity of fever was measured as area under curve (body temperature-time)|||-0.23|0.027
92204478|NCT01850446|184308283|NON_INFERIORITY|Non-inferiority magrin was prespecified as 20% of comparator duration|Mean Difference (Final Values)|0.23||||0.02|ONE_SIDED|97.5||0.63|||t-test, 1 sided|mean survival time estimates obtained from survival analysis were compared by means of t-test with infinite degrees of freedom||||0.63||0.02
92204479|NCT01850446|184308284|NON_INFERIORITY|Non-inferiority margin was prespecified as 20% (on each day)|Z-value|6.95|||<|0.0001|TWO_SIDED|||||Global test statistics (GTS) was constructed in accordance with O'Brien, P. (1984). Procedures for Comparing Samples with Multiple Endpoints. Biometrics, 40(4), 1079-1087. doi:10.2307/2531158|Z-test for Global test statistics|||Individual day analyses were combined into Global Test Statistics||||<0.0001
92204480|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.49|||<|0.001|ONE_SIDED|97.5||1.33|||t-test, 1 sided|||Severity of influenza symptoms (day1 morning)||1.33||<0.001
92204481|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.56||||0.013|ONE_SIDED|97.5||2.59|||t-test, 1 sided|||Severity of influenza symptoms (day2 morning)||2.59||0.013
92204482|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.82||||0.084|ONE_SIDED|97.5||2.66|||t-test, 1 sided|||Severity of influenza symptoms (day3 morning)||2.66||0.084
92204483|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.62||||0.22|ONE_SIDED|97.5||2.2|||t-test, 1 sided|||Severity of influenza symptoms (day4 morning)||2.2||0.22
92204484|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.27||||0.04|ONE_SIDED|97.5||1.07|||t-test, 1 sided|||Severity of influenza symptoms (day5 morning)||1.07||0.04
92204485|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.08||||0.13|ONE_SIDED|97.5||0.98|||t-test, 1 sided|||Severity of influenza symptoms (day6 morning)||0.98||0.13
92204486|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.25||||0.135|ONE_SIDED|97.5||0.74|||t-test, 1 sided|||severity of influenza symptoms (day1 morning)||0.74||0.135
92204487|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.64||||0.004|ONE_SIDED|97.5||2.67|||t-test, 1 sided|||Severity of influenza symptoms (day1 evening)||2.67||0.004
92204488|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.9||||0.05|ONE_SIDED|97.5||2.94|||t-test, 1 sided|||Severity of influenza symptoms (day2 evening)||2.94||0.05
92204489|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|1.34||||0.447|ONE_SIDED|97.5||3.08|||t-test, 1 sided|||Severity of influenza symptoms (day3 evening)||3.08||0.447
92204490|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.08||||0.042|ONE_SIDED|97.5||1.4|||t-test, 1 sided|||Severity of influenza symptoms (day4 evening)||1.4||0.042
92204491|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.29||||0.313|ONE_SIDED|97.5||1.53|||t-test, 1 sided|||Severity of influenza symptoms (day5 evening)||1.53||0.313
92204492|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.27||||0.087|ONE_SIDED|97.5||0.77|||t-test, 1 sided|||Severity of influenza symptoms (day6 evening)||0.77||0.087
92327283|NCT02266472|184559762|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% CIs for the ratios (test to reference treatment) of the adjusted gMeans of the primary endpoints, with acceptance range of 80.00 to 125.00%.|ratio of the adjusted means|108.58|STANDARD_DEVIATION|9.3|<|0.0001|TWO_SIDED|90.0|104.17|113.17|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the adjusted gMean ratio of Fed10mg+1000mg FDC divided by Fed10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||113.17|104.17|<0.0001
92204493|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.43|||<|0.001|ONE_SIDED|97.5||1.41|||t-test, 1 sided|||Severity of influenza symptoms (day1 physician's objective examination)||1.41||<0.001
92204494|NCT01850446|184308285|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|1.34||||0.305|ONE_SIDED|97.5||3.11|||t-test, 1 sided|||Severity of influenza symptoms (day3 physician's objective examination)||3.11||0.305
92204495|NCT01850446|184308286|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.08||||0.02|ONE_SIDED|97.5||0.5|||t-test, 1 sided|||Fever duration||0.5||0.02
92204496|NCT01850446|184308286|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.18|||<|0.001|ONE_SIDED|97.5||0.14|||t-test, 1 sided|||Non-specific symptoms duration||0.14||<0.001
92204497|NCT01850446|184308286|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.25|||<|0.001|ONE_SIDED|97.5||0.11|||t-test, 1 sided|||Nasal/ throat/ chest symptoms duration||0.11||<0.001
92204498|NCT01850446|184308287|NON_INFERIORITY|N.I. margin was prespecified as 20% (AUC ratio supposed to be less than 1.2)|AUC ratio|1.04||||0.015|TWO_SIDED|95.0|0.9|1.17||bootstrap (100000 rep) confidence limits were constructed for AUC ratio|one-sample Z-test|AUC ratio was compared with N.I. margin||Severity of influenza was measured as area under curve (symptoms score-time)||1.17|0.9|0.015
92204499|NCT01850446|184308288|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|0.05||||0.036|ONE_SIDED|97.5||0.19|||Z test for proportions|||Percentage difference of Patients, Who Used Antipyretics (day1)||0.19||0.036
92204500|NCT01850446|184308288|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|0.01||||0.009|ONE_SIDED|97.5||0.15|||Z test for proportions|||Percentage difference of Patients, Who Used Antipyretics (day2)||0.15||0.009
92204501|NCT01850446|184308288|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|0.03|||<|0.001|ONE_SIDED|97.5||0.13|||Z test for proportions|||Percentage difference of Patients, Who Used Antipyretics (day3)||0.13||<0.001
92204502|NCT01850446|184308288|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|-0.02|||<|0.001|ONE_SIDED|97.5||0.13|||Z test for proportions|||Percentage difference of Patients, Who Used Antipyretics (day4)||0.13||<0.001
92204503|NCT01850446|184308288|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|-0.02|||<|0.001|ONE_SIDED|97.5||0.01|||Z test for proportions|||Percentage difference of Patients, Who Used Antipyretics (day5)||0.01||<0.001
92204504|NCT01850446|184308289|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|0.0|||<|0.001|ONE_SIDED|97.5||0.03|||Z test for proportions|||Percentage of Patients Requiring Antibiotics Administration||0.03||<0.001
92204505|NCT01850446|184308290|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|-0.01||||0.014|ONE_SIDED|97.5||0.15|||Z test for proportions|||Proportion difference of Patients With Negative Results (day3)||0.15||0.014
92204506|NCT01850446|184308290|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|-0.08||||0.037|ONE_SIDED|97.5||0.03|||Z test for proportions|||Proportion difference of Patients With Negative Results (day5)||0.03||0.037
92204507|NCT01850446|184308290|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|-0.03|||<|0.001|ONE_SIDED|97.5||0.03|||Z test for proportions|||Proportion difference of Patients With Negative Results (day7)||0.03||<0.001
92204508|NCT01850446|184308291|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.03|TWO_SIDED|95.0|0.19|3.59||P-value IL2 provided for between-group comparisson of difference from days 3 to day 1.|t-test, 2 sided|||difference between changes from day 1 to day 3 (IL-2)||3.59|0.19|0.03
92204509|NCT01850446|184308291|SUPERIORITY||Mean Difference (Final Values)|1.23||||0.19|TWO_SIDED|95.0|-0.64|3.12||P-value IL2 provided for between-group comparisson of difference from day 7 to day 1.|t-test, 2 sided|||difference between changes from day 1 to day 7 (IL-2)||3.12|-0.64|0.19
92204510|NCT01850446|184308291|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (IFN-γ)||||0.012
92204511|NCT01850446|184308291|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (IFN-γ)||||<0.0001
92204512|NCT01850446|184308291|SUPERIORITY|||||||0.795|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (IL-18)||||0.795
92204513|NCT01850446|184308291|SUPERIORITY|||||||0.992|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (IL-18)||||0.992
92204514|NCT01850446|184308291|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.04|TWO_SIDED|95.0|0.02|0.92|||t-test, 2 sided|||difference between changes from day 1 to day 3 (IL-4)||0.92|0.02|0.04
92204515|NCT01850446|184308291|SUPERIORITY||Median Difference (Final Values)|0.37||||0.08|TWO_SIDED|95.0|-0.04|0.79|||t-test, 2 sided|||difference between changes from day 1 to day 7 (IL-4)||0.79|-0.04|0.08
92204516|NCT01850446|184308291|SUPERIORITY|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (IL-16)||||0.062
92204517|NCT01850446|184308291|SUPERIORITY|||||||0.638|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (IL-16)||||0.638
92204518|NCT01850446|184308292|SUPERIORITY|||||||0.065|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (Spontaneous IFN-α)||||0.065
92204519|NCT01850446|184308292|SUPERIORITY|||||||0.404|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (Spontaneous IFN-α)||||0.404
92204520|NCT01850446|184308292|SUPERIORITY|||||||0.204|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (Induced IFN-α)||||0.204
92204521|NCT01850446|184308292|SUPERIORITY|||||||0.386|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (Induced IFN-α)||||0.386
92204522|NCT01850446|184308292|SUPERIORITY|||||||0.592|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (Spontaneous IFN-γ)||||0.592
92204523|NCT01850446|184308292|SUPERIORITY|||||||0.356|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (Spontaneous IFN-γ)||||0.356
92204524|NCT01850446|184308292|SUPERIORITY|||||||0.475|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (Induced IFN-γ)||||0.475
92204525|NCT01850446|184308292|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (Induced IFN-γ)||||>0.99
92204526|NCT01850446|184308293|SUPERIORITY|||||||0.364|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (leukocytes)||||0.364
92204527|NCT01850446|184308293|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (leukocytes)||||0.07
92204528|NCT01850446|184308293|SUPERIORITY|||||||0.607|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day1 to day 3 (neutrophils)||||0.607
92204529|NCT01850446|184308293|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (neutrophils)||||0.028
92204530|NCT01850446|184308293|SUPERIORITY|||||||0.759|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (lymphocytes)||||0.759
92204531|NCT01850446|184308293|SUPERIORITY|||||||0.777|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (lymphocytes)||||0.777
92204532|NCT01850446|184308293|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (monocytes)||||0.02
92204533|NCT01850446|184308293|SUPERIORITY|||||||0.343|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (lymphocytes)||||0.343
92204534|NCT01850446|184308293|SUPERIORITY|||||||0.575|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (eosinophils)||||0.575
92204535|NCT01850446|184308293|SUPERIORITY|||||||0.912|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (eosinophils)||||0.912
92204536|NCT01850446|184308293|SUPERIORITY|||||||0.242|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (basophils)||||0.242
92204537|NCT01850446|184308293|SUPERIORITY|||||||0.102|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (basophils)||||0.102
92204538|NCT01850446|184308293|SUPERIORITY|||||||0.429|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3+)||||0.429
92204539|NCT01850446|184308293|SUPERIORITY|||||||0.783|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3+)||||0.783
92204540|NCT01850446|184308293|SUPERIORITY|||||||0.466|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3+CD4+)||||0.466
92204541|NCT01850446|184308293|SUPERIORITY|||||||0.945|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3+CD4+)||||0.945
92204542|NCT01850446|184308293|SUPERIORITY|||||||0.335|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3+CD8+)||||0.335
92204543|NCT01850446|184308293|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3+CD8+)||||0.66
92204544|NCT01850446|184308293|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3+CD16+CD56+)||||0.01
92204545|NCT01850446|184308293|SUPERIORITY|||||||0.573|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3+CD16+CD56+)||||0.573
92204546|NCT01850446|184308293|SUPERIORITY|||||||0.472|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3-CD16+CD56+)||||0.472
92204547|NCT01850446|184308293|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3-CD16+CD56+)||||0.69
92204548|NCT01850446|184308293|SUPERIORITY|||||||0.727|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3-CD8+)||||0.727
92204549|NCT01850446|184308293|SUPERIORITY|||||||0.554|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3-CD8+)||||0.554
92204550|NCT01850446|184308293|SUPERIORITY|||||||0.837|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD19+CD3-)||||0.837
92204551|NCT01850446|184308293|SUPERIORITY|||||||0.967|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD19+CD3-)||||0.967
92204552|NCT01850446|184308293|SUPERIORITY|||||||0.473|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3+CD119+)||||0.473
92204553|NCT01850446|184308293|SUPERIORITY|||||||0.736|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3+CD119+)||||0.736
92204554|NCT01850446|184308294|SUPERIORITY|||||||0.282|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of neutrophils)||||0.282
92204555|NCT01850446|184308294|SUPERIORITY|||||||0.071|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of neutrophils)||||0.071
92204556|NCT01850446|184308294|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of lymphocytes)||||0.45
92204557|NCT01850446|184308294|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of lymphocytes)||||0.58
92204558|NCT01850446|184308294|SUPERIORITY|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of monocytes)||||0.017
92204559|NCT01850446|184308294|SUPERIORITY|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of monocytes)||||0.019
92204560|NCT01850446|184308294|SUPERIORITY|||||||0.424|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of eosinophils)||||0.424
92204561|NCT01850446|184308294|SUPERIORITY|||||||0.666|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of eosinophils)||||0.666
92204562|NCT01850446|184308294|SUPERIORITY|||||||0.268|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of basophils)||||0.268
92204563|NCT01850446|184308294|SUPERIORITY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of basophils)||||0.031
92204564|NCT01850446|184308294|SUPERIORITY|||||||0.361|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3+)||||0.361
92204565|NCT01850446|184308294|SUPERIORITY|||||||0.699|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3+)||||0.699
92204566|NCT01850446|184308294|SUPERIORITY|||||||0.418|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3+CD4+)||||0.418
92204567|NCT01850446|184308294|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3+CD4+)||||>0.99
92204568|NCT01850446|184308294|SUPERIORITY|||||||0.172|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3+CD8+)||||0.172
92204569|NCT01850446|184308294|SUPERIORITY|||||||0.904|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3+CD8+)||||0.904
92204570|NCT01850446|184308294|SUPERIORITY|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3+CD16+CD56+)||||0.148
92204571|NCT01850446|184308294|SUPERIORITY|||||||0.821|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3+CD16+CD56+)||||0.821
92204572|NCT01850446|184308294|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3-CD16+CD56+)||||0.31
92204573|NCT01850446|184308294|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3-CD16+CD56+)||||>0.99
92204574|NCT01850446|184308294|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3-CD8+)||||0.43
92204575|NCT01850446|184308294|SUPERIORITY|||||||0.821|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3-CD8+)||||0.821
92204576|NCT01850446|184308294|SUPERIORITY|||||||0.943|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD19+CD3-)||||0.943
92204577|NCT01850446|184308294|SUPERIORITY|||||||0.841|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD19+CD3-)||||0.841
92204578|NCT00591721|184308295|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.53|STANDARD_DEVIATION|6.47|<|0.05|TWO_SIDED|95.0|-15.47|10.41|||t-test, 2 sided|Each baseline subscale score was subtracted from 7 week subscale score; t-tests assessed mean individual differences between groups.||Hypothesis: Individuals who participate in the program will report significantly reduced fatigue impact immediately post-intervention compared to individuals allocated to the wait-list control group.||10.41|-15.47|<0.05
92204579|NCT03651622|184308442|SUPERIORITY|||||||0.98|||||||ANOVA|||||||0.98
92204580|NCT03651622|184308443|SUPERIORITY|||||||0.85|||||||ANOVA|||||||0.85
92204581|NCT03651622|184308444|SUPERIORITY|||||||0.4|||||||ANOVA|||||||0.40
92204582|NCT03651622|184308445|SUPERIORITY|||||||0.02|||||||ANOVA|||||||0.02
92204583|NCT03651622|184308446|SUPERIORITY|||||||0.38|||||||ANOVA|||||||0.38
92204584|NCT03651622|184308447|SUPERIORITY|||||||0.18|||||||ANOVA|||||||0.18
92204585|NCT03651622|184308448|SUPERIORITY|||||||0.79|||||||ANOVA|||||||0.79
92204586|NCT03651622|184308449|SUPERIORITY|||||||0.39|||||||ANOVA|||The proposed sample size of n=72 was sufficient to ensure 60% power to detect a moderate effect size (Cohen h=0.68) and 80% to detect a large effect size (Cohen h=0.85) at a significance level of 0.10 for comparing difference in change among the 3 diets. By design, our primary goal for this pilot work is to inform the final efficacy design of a fully powered SMART, and the pilot SMART was therefore not designed to be fully powered for all analyses.||||0.39
92204587|NCT03651622|184308450|SUPERIORITY|||||||0.75|||||||ANOVA|||||||0.75
92204588|NCT03651622|184308451|SUPERIORITY|||||||0.66|||||||ANOVA|||||||0.66
92204589|NCT03651622|184308452|SUPERIORITY|||||||0.96|||||||ANOVA|||||||0.96
92204590|NCT03651622|184308453|SUPERIORITY|||||||0.34|||||||ANOVA|||||||0.34
92204591|NCT03651622|184308454|SUPERIORITY|||||||0.58|||||||ANOVA|||||||0.58
92204592|NCT03651622|184308455|SUPERIORITY|||||||0.95|||||||ANOVA|||||||0.95
92204593|NCT03651622|184308456|SUPERIORITY|||||||0.08|||||||ANOVA|||||||0.08
92268671|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-3.0||||||95.0|-8.0|2.5||||||For Pertussis - FHAf the difference in percentages between the two groups (13vPnC - 7vPnC) at (75.00 EU/mL) threshold was calculated||2.5|-8.0|
92204594|NCT00307684|184308497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.89||||0.2586||95.0|-2.2055|7.9774||No adjustment for multiplicity was performed. threshold for significance: 0.05 (2-sided)|ANCOVA|treatment, sex and country as factors, age and baseline sum of inattention and hyperactivity/impulsivity scores as covariate||Based on preliminary results of a controlled study in adults with MPH, the mean (SD=9) change in CAARS total score from randomization to the 4 week post-randomization endpoint was estimated as +2.5 for PR OROS MPH and +14 for placebo. slightly more conservative, a mean change of 3 in the PR OROS MPH group and a mean increase of 10 in the placebo group were expected. With a two-sided type-I error of 5% and a power of 90%, 37 eligible subjects per group were required.||7.9774|-2.2055|0.2586
92204595|NCT00307684|184308500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3942||||0.2616||95.0|-12.1928|3.4044||No adjustment for multiplicity was performed.|ANCOVA|ANCOVA on the ranks with sex, treatment and country as factors and age and baseline score as a covariate||||3.4044|-12.1928|0.2616
92204596|NCT00307684|184308501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.39||||0.5458||95.0|-5.5469|10.3213|||ANCOVA|treatment and country as factors baseline score as covariate||||10.3213|-5.5469|0.5458
92204597|NCT02285153|184308615|SUPERIORITY||Cox Proportional Hazard|0.434|STANDARD_ERROR_OF_MEAN|1.225||0.57|TWO_SIDED|95.0|0.039|4.792||Due to the low number of participants, the results of the statistical tests must be interpreted with caution!|Chi-squared|||||4.792|0.039|0.57
92204598|NCT02285153|184308616|SUPERIORITY|||||||0.057|||||||Chi-squared|||||||0.057
92204599|NCT02285153|184308617|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
92204600|NCT02285153|184308618|SUPERIORITY|||||||0.467|||||||Chi-squared|||||||0.467
92204601|NCT02045875|184308624|SUPERIORITY|||||||0.046||||||Effect of interaction of time and treatment group|ANOVA|||||||0.046
92204602|NCT02045875|184308625|OTHER||correlation coefficient|-0.508|||||TWO_SIDED||||||||correlation of asthma control and adherence|||||
92204603|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.002||||||This is the PCS KDQOL Subscale p-value for change in 0-6 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"PCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.002
92204604|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.23||||||This is the MCS KDQOL Subscale p-value for change in 0-6 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"MCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.23
92204605|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.18||||||This is the Burden KDQOL Subscale p-value for change in 0-6 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Burden:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.18
92204606|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.02||||||This is the Symptoms KDQOL Subscale p-value for change in 0-6 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Symptoms:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.02
92204607|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.004||||||This is the Effects KDQOL Subscale p-value for change in 0-6 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Effects:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.004
92204608|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.01||||||This is the PCS KDQOL Subscale p-value for change in 6-12 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"PCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.01
92204609|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.21||||||This is the MCS KDQOL Subscale p-value for change in 6-12 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"MCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.21
92204610|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.77||||||This is the Burden KDQOL Subscale p-value for change in 6-12 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Burden:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.77
92204611|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.77||||||This is the Symptoms KDQOL Subscale p-value for change in 6-12 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Symptoms:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.77
92327284|NCT02266472|184559763|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% CIs for the ratios (test to reference treatment) of the adjusted gMeans of the primary endpoints, with acceptance range of 80.00 to 125.00%.|ratio of the adjusted means|98.89|STANDARD_DEVIATION|6.3|||TWO_SIDED|90.0|96.18|101.67|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by the adjusted gMean ratio of Fed10mg+1000mg FDC divided by Fed10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||101.67|96.18|
92204612|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.14||||||This is the Effects KDQOL Subscale p-value for change in 6-12 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Effects:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.14
92204613|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.45||||||This is the PCS KDQOL Subscale p-value for change in 12-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"PCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.45
92204614|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.79||||||This is the MCS KDQOL Subscale p-value for change in 12-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"MCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.79
92204615|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.77||||||This is the Burden KDQOL Subscale p-value for change in 12-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Burden:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.77
92204616|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.03||||||This is the Symptoms KDQOL Subscale p-value for change in 12-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Symptoms:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.03
92204617|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.12||||||This is the Effects KDQOL Subscale p-value for change in 12-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Effects:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.12
92204618|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.29||||||This is the PCS KDQOL Subscale p-value for change in 0-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"PCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.29
92204619|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.01||||||This is the MCS KDQOL Subscale p-value for change in 0-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"MCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.01
92204620|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.08||||||This is the Burden KDQOL Subscale p-value for change in 0-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Burden:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.08
92204621|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.61||||||This is the Symptoms KDQOL Subscale p-value for change in 0-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Symptoms:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.61
92204622|NCT02270515|184308633|SUPERIORITY_OR_OTHER|||||||0.02||||||This is the Effects KDQOL Subscale p-value for change in 0-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Effects:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.02
92204623|NCT05745701|184308634|OTHER||test/reference ratios|195.9|||||TWO_SIDED|90.0|162.13|236.71||||||Natural loge transformed Cmax of PF-07081532 administered without cyclosporine (Reference) or coadministered with cyclosporine (Test) were analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test/Reference) and corresponding 90% CIs was obtained from the models. The ratios (and 90% CIs) were expressed as percentages.||236.71|162.13|
92204624|NCT05745701|184308634|OTHER||test/reference ratios|282.13|||||TWO_SIDED|90.0|258.81|307.55||||||Natural loge transformed Cmax of PF-07081532 administered without itraconazole (Reference) or coadministered with itraconazole (Test) were analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test/Reference) and corresponding 90% CIs was obtained from the models. The ratios (and 90% CIs) were expressed as percentages.||307.55|258.81|
92204625|NCT01607476|184308652|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92204626|NCT01607476|184308652|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92204627|NCT01607476|184308652|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92327285|NCT02266472|184559764|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% CIs for the ratios (test to reference treatment) of the adjusted gMeans of the primary endpoints, with acceptance range of 80.00 to 125.00%.|ratio of the adjusted means|101.37|STANDARD_DEVIATION|11.0|||TWO_SIDED|90.0|96.53|106.45|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the adjusted gMean ratio of Fed10mg+1000mg FDC divided by Fed10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||106.45|96.53|
92204628|NCT01607476|184308653|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92204629|NCT01607476|184308653|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92204630|NCT01607476|184308653|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
92204631|NCT01821352|184308697|SUPERIORITY_OR_OTHER||||||<|5e-05|TWO_SIDED||||||Fisher Exact|||||||<0.00005
92204632|NCT01821352|184308698|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
92204633|NCT01821352|184308699|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92204634|NCT05260021|184308721|SUPERIORITY||LS Mean difference (Final Values)|-1.8|||<|0.001|TWO_SIDED|95.0|-2.35|-1.25|||ANCOVA|||||-1.25|-2.35|<0.001
92204635|NCT05260021|184308722|SUPERIORITY||LS Mean difference (Final Values)|-1.67|||<|0.001|TWO_SIDED|95.0|-2.31|-1.02|||ANCOVA|||||-1.02|-2.31|<0.001
92204636|NCT05260021|184308722|SUPERIORITY||LS Mean difference (Final Values)|-1.93|||<|0.001|TWO_SIDED|95.0|-2.57|-1.29|||ANCOVA|||||-1.29|-2.57|<0.001
92204637|NCT05260021|184308723|SUPERIORITY||Risk Difference (RD)|40.1|||<|0.001|TWO_SIDED|95.0|18.6|61.7|||Regression, Logistic|||||61.7|18.6|<0.001
92204638|NCT05260021|184308723|SUPERIORITY||Risk Difference (RD)|51.6|||<|0.001|TWO_SIDED|95.0|31.1|72.2|||Regression, Logistic|||||72.2|31.1|<0.001
92204639|NCT05260021|184308723|SUPERIORITY||Risk Difference (RD)|45.8|||<|0.001|TWO_SIDED|95.0|27.5|64.1|||Regression, Logistic|||||64.1|27.5|<0.001
92204640|NCT05260021|184308724|SUPERIORITY||LS Mean difference (Final Values)|-0.36|||<|0.001|TWO_SIDED|95.0|-0.55|-0.16|||ANCOVA|||||-0.16|-0.55|< 0.001
92204641|NCT05260021|184308724|SUPERIORITY||LS Mean difference (Final Values)|-0.66|||<|0.001|TWO_SIDED|95.0|-0.86|-0.47|||ANCOVA|||||-0.47|-0.86|<0.001
92204642|NCT05260021|184308724|SUPERIORITY||LS Mean difference (Final Values)|-0.51|||<|0.001|TWO_SIDED|95.0|-0.68|-0.34|||ANCOVA|||||-0.34|-0.68|< 0.001
92204643|NCT05260021|184308725|SUPERIORITY||LS Mean difference (Final Values)|-28.9||||0.007|TWO_SIDED|95.0|-49.7|-8.0|||ANCOVA|||||-8.0|-49.7|0.007
92204644|NCT05260021|184308725|SUPERIORITY||LS Mean difference (Final Values)|-44.0|||<|0.001|TWO_SIDED|95.0|-64.3|-23.6|||ANCOVA|||||-23.6|-64.3|< 0.001
92204645|NCT05260021|184308725|SUPERIORITY||LS Mean difference (Final Values)|-36.4|||<|0.001|TWO_SIDED|95.0|-54.2|-18.6|||ANCOVA|||||-18.6|-54.2|< 0.001
92204646|NCT05260021|184308726|SUPERIORITY||LS Mean difference (Final Values)|-6.18|||<|0.001|TWO_SIDED|95.0|-9.31|-3.05|||ANCOVA|||||-3.05|-9.31|< 0.001
92204647|NCT05260021|184308726|SUPERIORITY||LS Mean difference (Final Values)|-10.52|||<|0.001|TWO_SIDED|95.0|-13.67|-7.38|||ANCOVA|||||-7.38|-13.67|< 0.001
92204648|NCT05260021|184308726|SUPERIORITY||LS Mean difference (Final Values)|-8.35|||<|0.001|TWO_SIDED|95.0|-11.05|-5.66|||ANCOVA|||||-5.66|-11.05|< 0.001
92204649|NCT05260021|184308727|SUPERIORITY||Risk Difference (RD)|29.5||||0.006|TWO_SIDED|95.0|8.6|50.3|||Regression, Logistic|||||50.3|8.6|0.006
92204650|NCT05260021|184308727|SUPERIORITY||Risk Difference (RD)|39.5|||<|0.001|TWO_SIDED|95.0|18.8|60.2|||Regression, Logistic|||||60.2|18.8|< 0.001
92204651|NCT05260021|184308727|SUPERIORITY||Risk Difference (RD)|34.6|||<|0.001|TWO_SIDED|95.0|17.0|52.1|||Regression, Logistic|||||52.1|17|< 0.001
92204652|NCT05260021|184308728|SUPERIORITY||Risk Difference (RD)|43.4|||<|0.001|TWO_SIDED|95.0|22.3|64.4|||Regression, Logistic|||||64.4|22.3|< 0.001
92204653|NCT05260021|184308728|SUPERIORITY||Risk Difference (RD)|47.1|||<|0.001|TWO_SIDED|95.0|26.4|67.7|||Regression, Logistic|||||67.7|26.4|< 0.001
92204654|NCT05260021|184308728|SUPERIORITY||Risk Difference (RD)|45.2|||<|0.001|TWO_SIDED|95.0|26.3|64.1|||Regression, Logistic|||||64.1|26.3|< 0.001
92204655|NCT05260021|184308730|SUPERIORITY||LS Mean difference (Final Values)|0.014||||0.708|TWO_SIDED|95.0|-0.061|0.089|||Mixed Models Analysis|||||0.089|-0.061|0.708
92204656|NCT05260021|184308730|SUPERIORITY||LS Mean difference (Final Values)|-0.001||||0.976|TWO_SIDED|95.0|-0.076|0.074|||Mixed Models Analysis|||||0.074|-0.076|0.976
92204657|NCT05260021|184308730|SUPERIORITY||LS Mean difference (Final Values)|0.007||||0.841|TWO_SIDED|95.0|-0.058|0.071|||Mixed Models Analysis|||||0.071|-0.058|0.841
92204658|NCT05260021|184308731|SUPERIORITY||LS Mean difference (Final Values)|-0.29|||<|0.001|TWO_SIDED|95.0|-0.45|-0.12|||Mixed Models Analysis|||||-0.12|-0.45|< 0.001
92204659|NCT05260021|184308731|SUPERIORITY||LS Mean difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.57|-0.24|||Mixed Models Analysis|||||-0.24|-0.57|< 0.001
92204660|NCT05260021|184308731|SUPERIORITY||LS Mean difference (Final Values)|-0.34|||<|0.001|TWO_SIDED|95.0|-0.49|-0.2|||Mixed Models Analysis|||||-0.2|-0.49|< 0.001
92204661|NCT01241604|184308757|EQUIVALENCE|Equivalent non-parametric tests||||||0.753|||||||Wilcoxon signed ranks test|||||||.753
92204662|NCT01639495|184308782|SUPERIORITY_OR_OTHER||Percentage of subjects|60.6|||||TWO_SIDED|95.0|51.9|68.8|||||The 2-sided 95% confidence intervals are based on exact binomial|||68.8|51.9|
92204663|NCT01639495|184308784|SUPERIORITY_OR_OTHER||Percentage of subjects with primary AEs|17.4|||||TWO_SIDED|95.0|11.6|24.6|||||The 2-sided 95% confidence interval is exact binomial|||24.6|11.6|
92204664|NCT01639495|184308785|SUPERIORITY_OR_OTHER||Percentage of subjects|97.2|||||TWO_SIDED|95.0|95.6|98.2|||||The 2-sided 95% confidence intervals are exact binomial|||98.2|95.6|
92204665|NCT02366468|184308801|NON_INFERIORITY|non-inferiority margin: -4 letters|Median Difference (Final Values)|-0.9||||0.002|TWO_SIDED|95.0|-3.04|1.27|||ANCOVA|including study treatment (DI, PRN) and center as factors and baseline BCVA as continuous covariate.||The primary objective was to demonstrate that the mean visit-averaged change from baseline of BCVA over month 1 to treatment completion for the DI arm was non-inferior to the PRN arm.||1.27|-3.04|0.002
92204666|NCT02366468|184308805|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.62|TWO_SIDED|95.0|-17.1|28.56|||ANCOVA|containing the baseline values of the dependent variables as continuous covariates, and center and treatment as categorical covariates||||28.56|-17.10|0.620
92204667|NCT02366468|184308806|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.925|TWO_SIDED|95.0|-33.66|30.59|||ANCOVA|containing the baseline values of the dependent variables as continuous covariates, and center and treatment as categorical covariates||||30.59|-33.66|0.925
92204668|NCT00359216|184308808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9219||95.0|||||ANCOVA|||The p-value is obtained by F-test in ANCOVA to assess the treatment group difference in changes from baseline, adjusted for baseline.||||0.9219
92204669|NCT05540717|184308809|SUPERIORITY||relative difference (%)|-20.25||||0.00048|TWO_SIDED|95.0|-31.0|-9.49|||Mixed Models Analysis|||Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect||-9.49|-31.0|0.00048
92204670|NCT05540717|184308810|SUPERIORITY||relative difference (%)|-20.2||||0.00032|TWO_SIDED|95.0|-30.13|-10.27|||Mixed Models Analysis|Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect||Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect||-10.27|-30.13|0.00032
92204671|NCT05540717|184308811|SUPERIORITY|Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect|relative difference (%)|-26.54||||0.0008|TWO_SIDED|95.0|-41.15|-11.94|||Mixed Models Analysis|||Comparison of dMS of CSMS on peak GPS||-11.94|-41.15|0.00080
92204672|NCT05540717|184308811|SUPERIORITY|Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect.|relative difference (%)|-26.6||||0.00031|TWO_SIDED|95.0|-40.49|-12.72|||Mixed Models Analysis|||Comparison of dMS of CSMS on entire GPS||-12.72|-40.49|0.00031
92204673|NCT05540717|184308812|SUPERIORITY|Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect|relative difference (%)|-16.35||||0.00223|TWO_SIDED|95.0|-26.27|-6.44|||Mixed Models Analysis|||Comparison of dSS of CSMS on peak GPS||-6.44|-26.27|0.00223
92204674|NCT05540717|184308812|SUPERIORITY|Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect|relative difference (%)|-16.58||||0.00076|TWO_SIDED|95.0|||||Mixed Models Analysis|||Comparison of dSS of CSMS on entire GPS||||0.00076
92204675|NCT05540717|184308813|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.00032|TWO_SIDED|95.0|-0.76|-0.23|||Mixed Models Analysis|Linear mixed model using treatment group as fixed effect, Baseline total RQLQ score as covariate and pooled geographical region as random effect||Average Total RQLQ Score During Peak GPS||-0.23|-0.76|0.00032
92204676|NCT05540717|184308814|SUPERIORITY||Mean Difference (Final Values)|3.99|||<|1e-05|TWO_SIDED|95.0|3.28|4.7|||Mixed Models Analysis|||Change from baseline to Visit 7 of serum grass-specific IgG4 \[mg/L\]||4.7|3.28|<0.00001
92204677|NCT05540717|184308815|SUPERIORITY||Odds Ratio (OR)|1.254||||0.10846|TWO_SIDED|95.0|0.951|1.652|||Regression, Logistic|The probability of a well day was calculated using a generalized estimating equation (GEE) or similar approaches as appropriate.||Probability of Well Days During Peak (truncated) GPS||1.652|0.951|0.10846
92204678|NCT01144052|184308832|NON_INFERIORITY_OR_EQUIVALENCE|No statistical hypothesis tests for efficacy were performed as this was a pilot study serving to generate first data and hypotheses.||||||0.125||95.0|||||Log Rank|||||||0.125
92204679|NCT01144052|184308833|SUPERIORITY_OR_OTHER|||||||0.447||95.0|||||non-parametric|||||||0.447
92204680|NCT01144052|184308834|SUPERIORITY_OR_OTHER|||||||0.447|||||||non-parametric|||||||0.447
92204681|NCT01144052|184308835|SUPERIORITY_OR_OTHER|||||||0.206|||||||t-test, 2 sided|||||||0.206
92204682|NCT01144052|184308837|NON_INFERIORITY_OR_EQUIVALENCE|No statistical hypothesis tests for efficacy were performed, as this was pilot study serving to generate first data and hypotheses.||||||0.234||95.0|||||Wilcoxon (Mann-Whitney)|p-value refers to nT2L at month 12||||||0.234
92204683|NCT00105001|184308840|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|TWO_SIDED|||||Overall test of homogeneity among arms, reflecting events over the entire period of follow-up|Regression, Cox|||||||0.09
92204684|NCT00105001|184308840|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69||||0.1|TWO_SIDED|95.0|0.4|1.1|||Regression, Cox||HR for Arm II relative to Arm I, reflecting events over the entire period of follow-u\[|||1.1|0.4|0.10
92204685|NCT00105001|184308840|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.62||||0.04|TWO_SIDED|95.0|0.6|1.0|||Regression, Cox||HR for Arm III relative to Arm I, reflecting events over the entire period of follow-up|||1.0|0.6|0.04
92204686|NCT00105001|184308841|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|TWO_SIDED|||||Overall test of homogeneity among arms, reflecting events over the entire period of follow-up|Regression, Cox|||||||0.55
92204687|NCT00105001|184308842|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED|||||Overall test of homogeneity among arms, reflecting events over the entire period of follow-up|Regression, Cox|||||||0.009
92204688|NCT00105001|184308842|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.51|TWO_SIDED|95.0|0.5|1.4|||Regression, Cox||HR for Arm II relative to Arm I, reflecting events over the entire period of follow-up|||1.4|0.5|0.51
92204689|NCT00105001|184308842|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47||||0.004|TWO_SIDED|95.0|0.3|0.8|||Regression, Cox||HR for Arm III relative to Arm I, reflecting events over the entire period of follow-up|||0.8|0.3|0.004
92204690|NCT00105001|184308843|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|TWO_SIDED|||||Overall test of homogeneity among arms, reflecting events over the entire period of follow-up|Regression, Cox|||||||0.93
92204691|NCT00105001|184308844|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96|TWO_SIDED|||||Overall test of homogeneity among arms, reflecting events over the entire period of follow-up|Regression, Cox|||||||0.96
92327286|NCT03197324|184559765|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Ratio of Geometric LSM|100.4|||||TWO_SIDED|90.0|86.49|116.56|||||Digoxin group is the denominator and Digoxin with Bexagliflozin is the numerator. Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subjects as a random effect.|Geometric LS Mean was used as PK parameters||116.56|86.49|
92327287|NCT03197324|184559768|SUPERIORITY|Compare if co-administration of digoxin with bexagliflozin had significant impact on the PK of digoxin|Ratio of Geometric LSM|106.12|||||TWO_SIDED|90.0|95.82|117.53|||||Digoxin group is the denominator and Digoxin with Bexagliflozin is the numerator. Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subjects as a random effect.|Geometric LS Mean was used as PK parameters||117.53|95.82|
92204692|NCT00037830|184308885|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||The null hypothesis for Phase I was that at week 24, there is no difference between UPDRS motor scores in placebo vs. GM1-treated subjects.||||<0.0001
92204693|NCT00037830|184308886|SUPERIORITY_OR_OTHER|||||||0.0368|||||||t-test, 2 sided|||The null hypothesis for Phase II is that long-term use of GM1 does not affect the progression of PD symptoms and that there is no benefit to early start of GM1 use.||||0.0368
92204694|NCT00037830|184308887|SUPERIORITY_OR_OTHER|||||||0.1903|||||||estimate of slope of change over time|random intercept model and a variance components covariance structure||||||0.1903
92204695|NCT00037830|184308887|SUPERIORITY_OR_OTHER|||||||0.0063||95.0|||||estimate slope of change over time|random intercept model and a variance components covariance structure||||||0.0063
92204696|NCT00037830|184308888|SUPERIORITY_OR_OTHER|||||||0.0502|||||||estimate of slope of change over time|random intercept model and a variance components covariance structure||||||0.0502
92204697|NCT00037830|184308888|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||estimate slope of change over time|random intercept model and a variance components covariance structure||||||0.0003
92204698|NCT00037830|184308889|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
92204699|NCT00037830|184308890|SUPERIORITY_OR_OTHER|||||||0.131|||||||t-test, 2 sided|||||||0.1310
92204700|NCT00037830|184308891|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Analysis was paired sample t-test on change from baseline.||||<0.05
92204701|NCT00037830|184308892|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
92204702|NCT00037830|184308893|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
92204703|NCT00037830|184308894|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
92204704|NCT03582943|184308898|SUPERIORITY|A priori power analyses was designed to detect at least a 3 second difference in change in balance scores between groups.|Mean Difference (Net)|0.74||||0.984|TWO_SIDED|||||Test of differences between groups.|Mixed Models Analysis|||||||0.984
92204705|NCT03582943|184308898|SUPERIORITY||Mean Difference (Net)|-0.023||||0.455|TWO_SIDED|||||Test of interaction between age and RLIC vs. sham|Mixed Models Analysis|||||||.455
92204706|NCT03582943|184308898|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.803|TWO_SIDED|||||Test of interaction between sex and RLIC vs. sham conditioning|Mixed Models Analysis|||||||0.803
92204707|NCT03582943|184308898|SUPERIORITY||Mean Difference (Net)|0.25||||0.233|TWO_SIDED|||||Test of interaction between BMI and RLIC vs. sham conditioning|Mixed Models Analysis|||||||0.233
92204708|NCT03582943|184308898|SUPERIORITY|Test of interaction between presence of co-morbidities and RLIC vs. sham conditioning|Mean Difference (Net)|4.12||||0.29|TWO_SIDED||||||Mixed Models Analysis|||||||0.29
92204709|NCT01177800|184308957|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92204710|NCT01177800|184308958|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Non parametric ANOVA by van der Waerden|||Change at Week 10: p-value was calculated by Non parametric ANOVA by van der Waerden method.||||<0.001
92204711|NCT01177800|184308959|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
92204712|NCT01177800|184308960|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Non parametric ANOVA by van der Waerden|||Change at Week 26: p-value was calculated by Non parametric ANOVA by van der Waerden method.||||<0.001
92204713|NCT03527550|184308962|SUPERIORITY|||||||0.95|||||||ANOVA|Repeated-measures ANOVA. P-value reflects the significance of the interaction term (condition x time).||A 2 (condition: TAU, TAU + cognitive training) x 2 (time) repeated-measures Analysis of Variance (ANOVA) was used to test change in negative urgency at time 1 (admission) and time 2 (discharge), and whether participants differ in their average change in negative urgency as a function of condition (interaction of condition X time; reported below).||||0.95
92204714|NCT03527550|184308963|SUPERIORITY|||||||0.64|||||||ANOVA|Repeated-measures ANOVA. P-value reflects the significance of the interaction term (condition x time).||A 2 (condition: TAU, TAU + cognitive training) x 2 (time) repeated-measures Analysis of Variance (ANOVA) was used to test change in positive urgency at time 1 (admission) and time 2 (discharge), and whether participants differ in their average change in positive urgency as a function of condition (interaction of condition X time; reported below).||||0.64
92204715|NCT03527550|184308964|SUPERIORITY|||||||0.91||||||Repeated-measures ANOVA. P-value reflects the significance of the interaction term (condition x time).|ANOVA|||A 2 (condition: TAU, TAU + cognitive training) x 2 (time) repeated-measures Analysis of Variance (ANOVA) was used to test change in stop-signal reaction time at time 1 (admission) and time 2 (discharge), and whether participants differ in their average change in stop-signal reaction time as a function of condition (interaction of condition X time; reported below).||||0.91
92204716|NCT03527550|184308968|SUPERIORITY|||||||0.24|||||||ANOVA|Repeated-measures ANOVA. P-value reflects the significance of the interaction term (condition x time).||A 2 (condition: TAU, TAU + cognitive training) x 2 (time) repeated-measures Analysis of Variance (ANOVA) was used to test change in distress intolerance at time 1 (admission) and time 2 (discharge), and whether participants differ in their average change in distress intolerance as a function of condition (interaction of condition X time; reported below).||||.24
92204717|NCT01232738|184308985|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.07|TWO_SIDED|95.0|-0.53|0.02|||Chi-squared|||Difference in slope of decline||0.02|-0.53|0.07
92204718|NCT01232738|184308986|SUPERIORITY|||||||0.58|||||||Log Rank|||||||0.58
92204719|NCT02503852|184308995|SUPERIORITY|||||||0.032|||||||ANCOVA|||||||0.032
92204720|NCT02503852|184308995|OTHER|||||||0.0318||||||P value cited is the difference in non-vellus hair count between the low-dose ADRC NW3 group and the no-fat saline control at week 24|ANCOVA|||Non-vellus hair count in the low-dose ADRC group in the NW3 subgroup beginning at Week 6 (mean change from baseline persisting through weeks 12 , 24, and 52.||||0.0318
92204721|NCT03231800|184308997|SUPERIORITY||Mean Difference (Final Values)|-5.24|STANDARD_ERROR_OF_MEAN|1.059|<|0.001|TWO_SIDED|95.0|-7.351|-3.137|||ANCOVA|||Least squares means, SEs, 95% CIs, and p-values were generated using an ANCOVA model, with treatment (dasotraline/placebo), mean SKAMP-CS at baseline, and site as fixed effects.||-3.137|-7.351|<0.001
92204722|NCT03231800|184309000|SUPERIORITY||Mean Difference (Final Values)|13.86|STANDARD_ERROR_OF_MEAN|5.612||0.016|TWO_SIDED|95.0|2.694|25.017|||ANCOVA|||||25.017|2.694|0.016
92327288|NCT02832375|184559800|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.45|||<|0.0001|TWO_SIDED|95.0|-0.577|-0.319|||ANCOVA|From ANCOVA model with change from baseline in Schiff Sensitivity Score as response and treatment and baseline Schiff sensitivity score as covariates.|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|H0= no difference between experimental dentifrice and control dentifrice H1= a difference between experimental dentifrice and control dentifrice||-0.319|-0.577|<0.0001
92204723|NCT03231800|184309001|SUPERIORITY||Mean Difference (Final Values)|12.06|STANDARD_ERROR_OF_MEAN|5.508||0.031|TWO_SIDED|95.0|1.105|23.017|||ANCOVA|||||23.017|1.105|0.031
92204724|NCT01163292|184309042|SUPERIORITY_OR_OTHER|||||||0.144||95.0|||||Wilcoxon Rank Sum|||Week 0||||0.144
92204725|NCT01163292|184309042|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon Rank Sum|||Week 26||||0.004
92204726|NCT01163292|184309042|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Wilcoxon Rank Sum|||Week 52||||0.006
92204727|NCT01163292|184309043|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Fisher Exact|||Week 0||||0.290
92204728|NCT01163292|184309043|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Week 26||||1.000
92204729|NCT01163292|184309043|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||Week 52||||0.001
92204730|NCT01163292|184309044|SUPERIORITY_OR_OTHER|||||||0.335||95.0|||||Wilcoxon Rank Sum|||||||0.335
92204731|NCT01163292|184309045|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||Wilcoxon Rank Sum|||Week 0||||0.266
92204732|NCT01163292|184309045|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||Wilcoxon Rank Sum|||Week 26||||0.440
92327289|NCT05537792|184559821|OTHER|Paired t-tests were used to compare the offline forward estimation error of each adapted forward estimator with the baseline during overground walking.||||||0.579|||||||t-test, 1 sided|||||||0.579
92204733|NCT01163292|184309045|SUPERIORITY_OR_OTHER|||||||0.609||95.0|||||Wilcoxon Rank Sum|||Week 52||||0.609
92204734|NCT02643472|184309062|SUPERIORITY|||||||0.73|||||||Generalized Estimating Equations|In analyzing predicted means, results of Generalized Estimating Equations (GEE) modeling controlled for time from baseline at each assessment.||||||0.73
92204735|NCT02643472|184309063|SUPERIORITY|||||||0.12|||||||Generalized Estimating Equations|In analyzing predicted means, results of Generalized Estimating Equations (GEE) modeling controlled for time from baseline at each assessment.||STAI Y-1 data was used in these statistical analyses.||||0.12
92204736|NCT02643472|184309064|SUPERIORITY|||||||0.03|||||||Generalized Estimating Equations|In analyzing predicted means, results of Generalized Estimating Equations (GEE) modeling controlled for time from baseline at each assessment.||||||0.03
92204737|NCT02643472|184309067|SUPERIORITY|||||||0.06|||||||Generalized Estimating Equations|In analyzing predicted means, results of Generalized Estimating Equations (GEE) modeling controlled for time from baseline at each assessment.||||||0.06
92204738|NCT02643472|184309068|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
92204739|NCT02643472|184309069|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
92204740|NCT02643472|184309070|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.60
92204741|NCT02643472|184309071|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||Infant development status was evaluated with Bayley subscales. Cognitive subscale.||||0.92
92204742|NCT02643472|184309071|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||Infant development status was evaluated with Bayley subscales. Language subscale.||||0.58
92204743|NCT02643472|184309071|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Infant development status was evaluated with Bayley subscales. Motor subscale.||||0.87
92204744|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.2|||||TWO_SIDED|95.0|-6.8|3.3|||Chan and Zhang|||Common serotypes - serotype 4||3.3|-6.8|
92204745|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.3|||Chan and Zhang|||Common serotypes - serotype 6B||4.3|-4.6|
92204746|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.2|||||TWO_SIDED|95.0|-6.8|3.3|||Chan and Zhang|||Common serotypes - serotype 9V||3.3|-6.8|
92204747|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.3|||Chan and Zhang|||Common serotypes - serotype 14||4.3|-4.6|
92204748|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.3|||Chan and Zhang|||Common serotypes - serotype 18C||4.3|-4.6|
92204749|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.2|||||TWO_SIDED|95.0|-6.8|3.3|||Chan and Zhang|||Common serotypes - serotype 19F||3.3|-6.8|
92204750|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-5.0|||||TWO_SIDED|95.0|-12.3|-0.3|||Chan and Zhang|||Common serotypes - serotype 23F||-0.3|-12.3|
92204751|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|96.3|||||TWO_SIDED|95.0|89.4|99.2|||Chan and Zhang|||Additional serotypes - serotype 1||99.2|89.4|
92204752|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|95.1|||||TWO_SIDED|95.0|87.7|98.6|||Chan and Zhang|||Additional serotypes - serotype 3||98.6|87.7|
92204753|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|37.2|||||TWO_SIDED|95.0|26.2|48.9|||Chan and Zhang|||Additional serotypes - serotype 5||48.9|26.2|
92204754|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|22.9|||||TWO_SIDED|95.0|14.4|33.4|||Chan and Zhang|||Additional serotypes - serotype 6A||33.4|14.4|
92204755|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|97.6|||||TWO_SIDED|95.0|91.6|99.7|||Chan and Zhang|||Additional serotypes - serotype 7F||99.7|91.6|
92204756|NCT00688870|184309094|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.5|||Chan and Zhang|||Additional serotypes - serotype 19A||4.5|-4.6|
92204757|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.3|||||TWO_SIDED|95.0|-6.9|3.1|||Chan and Zhang|||Common serotypes - serotype 4||3.1|-6.9|
92204758|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.4|||Chan and Zhang|||Common serotypes - serotype 6B||4.4|-4.6|
92204759|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.3|||||TWO_SIDED|95.0|-6.9|3.1|||Chan and Zhang|||Common serotypes - serotype 9V||3.1|-6.9|
92204760|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.4|||Chan and Zhang|||Common serotypes - serotype 14||4.4|-4.6|
92204761|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.4|||Chan and Zhang|||Common serotypes - serotype 18C||4.4|-4.6|
92204762|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.3|||||TWO_SIDED|95.0|-6.9|3.1|||Chan and Zhang|||Common serotypes - serotype 19F||3.1|-6.9|
92204763|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.4|||Chan and Zhang|||Common serotypes - serotype 23F||4.4|-4.6|
92204764|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|95.0|||||TWO_SIDED|95.0|87.7|98.6|||Chan and Zhang|||Additional serotypes - serotype 1||98.6|87.7|
92327290|NCT05537792|184559821|OTHER|Paired t-tests were used to compare the offline forward estimation error of each adapted forward estimator with the baseline during overground walking.||||||0.0008|||||||t-test, 1 sided|||||||0.0008
92204765|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|82.5|||||TWO_SIDED|95.0|72.0|90.1|||Chan and Zhang|||Additional serotypes - serotype 3||90.1|72.0|
92327291|NCT05537792|184559821|OTHER|Paired t-tests were used to compare the offline forward estimation error of each adapted forward estimator with the baseline during overground walking.||||||0.5513|||||||t-test, 1 sided|||||||0.5513
92204766|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|9.6|||||TWO_SIDED|95.0|3.8|18.1|||Chan and Zhang|||Additional serotypes - serotype 5||18.1|3.8|
92204767|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.4|||Chan and Zhang|||Additional serotypes - serotype 6A||4.4|-4.6|
92204768|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|93.8|||||TWO_SIDED|95.0|86.0|97.9|||Chan and Zhang|||Additional serotypes - serotype 7F||97.9|86.0|
92204769|NCT00688870|184309095|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|1.2|||||TWO_SIDED|95.0|-3.4|6.5|||Chan and Zhang|||Additional serotypes - serotype 19A||6.5|-3.4|
92204770|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.62|||||TWO_SIDED|95.0|0.5|0.78|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 4||0.78|0.50|
92204771|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.91|||||TWO_SIDED|95.0|0.7|1.17|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 6B||1.17|0.70|
92204772|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.67|||||TWO_SIDED|95.0|0.55|0.82|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 9V||0.82|0.55|
92204773|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.84|||||TWO_SIDED|95.0|0.67|1.06|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 14||1.06|0.67|
92204774|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.78|||||TWO_SIDED|95.0|0.63|0.97|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 18C||0.97|0.63|
92204775|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.75|||||TWO_SIDED|95.0|0.6|0.94|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 19F||0.94|0.60|
92204776|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.59|||||TWO_SIDED|95.0|0.46|0.77|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 23F||0.77|0.46|
92204777|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|202.58|||||TWO_SIDED|95.0|157.04|261.32|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 1||261.32|157.04|
92204778|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|24.11|||||TWO_SIDED|95.0|18.46|31.49|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 3||31.49|18.46|
92204779|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|5.69|||||TWO_SIDED|95.0|4.37|7.41|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 5||7.41|4.37|
92204780|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|5.82|||||TWO_SIDED|95.0|4.42|7.67|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 6A||7.67|4.42|
92204781|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|96.1|||||TWO_SIDED|95.0|75.6|122.17|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 7F||122.17|75.60|
92204782|NCT00688870|184309096|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|1.5|||||TWO_SIDED|95.0|1.23|1.83|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 19A||1.83|1.23|
92204783|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMC|0.64|||||TWO_SIDED|95.0|0.49|0.84|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 4||0.84|0.49|
92204784|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|1.03|||||TWO_SIDED|95.0|0.77|1.36|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 6B||1.36|0.77|
92204785|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.82|||||TWO_SIDED|95.0|0.64|1.05|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 9V||1.05|0.64|
92327292|NCT05537792|184559821|OTHER|Paired t-tests were used to compare the offline forward estimation error of each adapted forward estimator with the baseline during overground walking.||||||0.00034|||||||t-test, 1 sided|||||||0.00034
92204786|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.68|||||TWO_SIDED|95.0|0.51|0.91|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 14||0.91|0.51|
92204787|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.75|||||TWO_SIDED|95.0|0.57|0.99|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 18C||0.99|0.57|
92204788|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|1.09|||||TWO_SIDED|95.0|0.83|1.43|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 19F||1.43|0.83|
92204789|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.69|||||TWO_SIDED|95.0|0.52|0.92|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 23F||0.92|0.52|
92204790|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|303.73|||||TWO_SIDED|95.0|213.63|431.83|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 1||431.83|213.63|
92204791|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|10.65|||||TWO_SIDED|95.0|7.77|14.62|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 3||14.62|7.77|
92204792|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|4.79|||||TWO_SIDED|95.0|3.78|6.08|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 5||6.08|3.78|
92204793|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|3.05|||||TWO_SIDED|95.0|2.28|4.08|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 6A||4.08|2.28|
92204794|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|105.0|||||TWO_SIDED|95.0|75.6|145.84|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 7F||145.84|75.60|
92204795|NCT00688870|184309097|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|4.45|||||TWO_SIDED|95.0|3.54|5.6|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 19A||5.60|3.54|
92204796|NCT00688870|184309098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.735||95.0|||||Fisher Exact|||For Tenderness - Any, Fisher exact test was used to calculate p-value.||||0.735
92204797|NCT00688870|184309098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.533||95.0|||||Fisher Exact|||For Tenderness - Significant, Fisher exact test was used to calculate p-value.||||0.533
92327293|NCT02100670|184559822|SUPERIORITY_OR_OTHER||Difference of LS mean|-9.23||||0.4144|TWO_SIDED|95.0|-31.45|12.98||P-value from multiple comparisons using t-test in Proc Mixed|ANCOVA|Least squares (LS) means from mixed model analysis of covariance with treatment, site as fixed effects, pain intensity at baseline as a covariates.|Difference of LS mean of first named treatment minus second named treatment. Lower values of LS mean favours a better response because of lower pain intensity over time. 95% Confidence intervals of difference between LS means.|||12.98|-31.45|0.4144
92204798|NCT00688870|184309098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0|||||Fisher Exact|||For Swelling - Any, Fisher exact test was used to calculate p-value.||||0.039
92204799|NCT00688870|184309098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.059||95.0|||||Fisher Exact|||For Swelling - Mild, Fisher exact test was used to calculate p-value.||||0.059
92204800|NCT00688870|184309098|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Swelling - Moderate, Fisher exact test was used to calculate p-value.||||>0.99
92204801|NCT00688870|184309098|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Redness - Any, Fisher exact test was used to calculate p-value.||||>0.99
92204802|NCT00688870|184309098|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Redness - Mild, Fisher exact test was used to calculate p-value.||||>0.99
92204803|NCT00688870|184309098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.275||95.0|||||Fisher Exact|||For Redness - Moderate, Fisher exact test was used to calculate p-value.||||0.275
92204804|NCT00688870|184309099|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Tenderness - Any, Fisher exact test was used to calculate p-value.||||>0.99
92204805|NCT00688870|184309099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.617||95.0|||||Fisher Exact|||For Tenderness - Significant, Fisher exact test was used to calculate p-value.||||0.617
92204806|NCT00688870|184309099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81||95.0|||||Fisher Exact|||For Swelling - Any, Fisher exact test was used to calculate p-value.||||0.810
92204807|NCT00688870|184309099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81||95.0|||||Fisher Exact|||For Swelling - Mild, Fisher exact test was used to calculate p-value.||||0.810
92204808|NCT00688870|184309099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.674||95.0|||||Fisher Exact|||For Redness - Any, Fisher exact test was used to calculate p-value.||||0.674
92204809|NCT00688870|184309099|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Redness - Mild, Fisher exact test was used to calculate p-value.||||>0.99
92204810|NCT00688870|184309099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.497||95.0|||||Fisher Exact|||For Redness - Moderate, Fisher exact test was used to calculate p-value.||||0.497
92204811|NCT00688870|184309100|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Tenderness - Any, Fisher exact test was used to calculate p-value.||||>0.99
92204812|NCT00688870|184309100|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Tenderness - Significant, Fisher exact test was used to calculate p-value.||||>0.99
92204813|NCT00688870|184309100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0|||||Fisher Exact|||For Swelling - Any, Fisher exact test was used to calculate p-value.||||0.044
92204814|NCT00688870|184309100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.076||95.0|||||Fisher Exact|||For Swelling - Mild, Fisher exact test was used to calculate p-value.||||0.076
92204815|NCT00688870|184309100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.496||95.0|||||Fisher Exact|||For Swelling - Moderate, Fisher exact test was used to calculate p-value.||||0.496
92204816|NCT00688870|184309100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.361||95.0|||||Fisher Exact|||For Redness - Any, Fisher exact test was used to calculate p-value.||||0.361
92204817|NCT00688870|184309100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.635||95.0|||||Fisher Exact|||For Redness - Mild, Fisher exact test was used to calculate p-value.||||0.635
92204818|NCT00688870|184309100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.244||95.0|||||Fisher Exact|||For Redness - Moderate, Fisher exact test was used to calculate p-value.||||0.244
92204819|NCT00688870|184309101|SUPERIORITY_OR_OTHER_LEGACY|||||||0.076||95.0|||||Fisher Exact|||For Tenderness - Any, Fisher exact test was used to calculate p-value.||||0.076
92204820|NCT00688870|184309101|SUPERIORITY_OR_OTHER_LEGACY|||||||0.735||95.0|||||Fisher Exact|||For Swelling - Any, Fisher exact test was used to calculate p-value.||||0.735
92204821|NCT00688870|184309101|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Swelling - Mild, Fisher exact test was used to calculate p-value.||||>0.99
92204822|NCT00688870|184309101|SUPERIORITY_OR_OTHER_LEGACY|||||||0.477||95.0|||||Fisher Exact|||For Swelling - Moderate, Fisher exact test was used to calculate p-value.||||0.477
92204823|NCT00688870|184309101|SUPERIORITY_OR_OTHER_LEGACY|||||||0.805||95.0|||||Fisher Exact|||For Redness - Any, Fisher exact test was used to calculate p-value.||||0.805
92204824|NCT00688870|184309101|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Redness - Mild, Fisher exact test was used to calculate p-value.||||>0.99
92204825|NCT00688870|184309101|SUPERIORITY_OR_OTHER_LEGACY|||||||0.477||95.0|||||Fisher Exact|||For Redness - Moderate, Fisher exact test was used to calculate p-value.||||0.477
92204826|NCT00688870|184309102|SUPERIORITY_OR_OTHER_LEGACY|||||||0.633||95.0|||||Fisher Exact|||For Fever \>=38 but \<=39 degrees C, Fisher exact test was used to calculate p-value.||||0.633
92204827|NCT00688870|184309102|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Fever \>39 but \<=40 degrees C, Fisher exact test was used to calculate p-value.||||>0.99
92204828|NCT00688870|184309102|SUPERIORITY_OR_OTHER_LEGACY|||||||0.527||95.0|||||Fisher Exact|||For Decreased appetite, Fisher exact test was used to calculate p-value.||||0.527
92204829|NCT00688870|184309102|SUPERIORITY_OR_OTHER_LEGACY|||||||0.613||95.0|||||Fisher Exact|||For Irritability, Fisher exact test was used to calculate p-value.||||0.613
92204830|NCT00688870|184309102|SUPERIORITY_OR_OTHER_LEGACY|||||||0.753||95.0|||||Fisher Exact|||For Increased sleep, Fisher exact test was used to calculate p-value.||||0.753
92204831|NCT00688870|184309102|SUPERIORITY_OR_OTHER_LEGACY|||||||0.748||95.0|||||Fisher Exact|||For Decreased sleep, Fisher exact test was used to calculate p-value.||||0.748
92204832|NCT00688870|184309103|SUPERIORITY_OR_OTHER_LEGACY|||||||0.327||95.0|||||Fisher Exact|||For Fever \>=38 but \<=39 degrees C, Fisher exact test was used to calculate p-value.||||0.327
92204833|NCT00688870|184309103|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Fever \>39 but \<=40 degrees C, Fisher exact test was used to calculate p-value.||||>0.99
92204834|NCT00688870|184309103|SUPERIORITY_OR_OTHER_LEGACY|||||||0.522||95.0|||||Fisher Exact|||For Decreased appetite, Fisher exact test was used to calculate p-value.||||0.522
92204835|NCT00688870|184309103|SUPERIORITY_OR_OTHER_LEGACY|||||||0.872||95.0|||||Fisher Exact|||For Irritability, Fisher exact test was used to calculate p-value.||||0.872
92204836|NCT00688870|184309103|SUPERIORITY_OR_OTHER_LEGACY|||||||0.868||95.0|||||Fisher Exact|||For Increased sleep, Fisher exact test was used to calculate p-value.||||0.868
92204837|NCT00688870|184309103|SUPERIORITY_OR_OTHER_LEGACY|||||||0.237||95.0|||||Fisher Exact|||For Decreased sleep, Fisher exact test was used to calculate p-value.||||0.237
92204838|NCT00688870|184309104|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329||95.0|||||Fisher Exact|||For Fever \>=38 but \<=39 degrees C, Fisher exact test was used to calculate p-value.||||0.329
92204839|NCT00688870|184309104|SUPERIORITY_OR_OTHER_LEGACY|||||||0.492||95.0|||||Fisher Exact|||For Fever \>39 but \<=40 degrees C, Fisher exact test was used to calculate p-value.||||0.492
92204840|NCT00688870|184309104|SUPERIORITY_OR_OTHER_LEGACY|||||||0.496||95.0|||||Fisher Exact|||For Fever \>40 degrees C, Fisher exact test was used to calculate p-value.||||0.496
92204841|NCT00688870|184309104|SUPERIORITY_OR_OTHER_LEGACY|||||||0.322||95.0|||||Fisher Exact|||For Decreased appetite, Fisher exact test was used to calculate p-value.||||0.322
92204842|NCT00688870|184309104|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61||95.0|||||Fisher Exact|||For Irritability, Fisher exact test was used to calculate p-value.||||0.610
92204843|NCT00688870|184309104|SUPERIORITY_OR_OTHER_LEGACY|||||||0.726||95.0|||||Fisher Exact|||For Increased sleep, Fisher exact test was used to calculate p-value.||||0.726
92204844|NCT00688870|184309104|SUPERIORITY_OR_OTHER_LEGACY|||||||0.855||95.0|||||Fisher Exact|||For Decreased sleep, Fisher exact test was used to calculate p-value.||||0.855
92204845|NCT00688870|184309105|SUPERIORITY_OR_OTHER_LEGACY|||||||0.326||95.0|||||Fisher Exact|||For Fever \>=38 but \<=39 degrees C, Fisher exact test was used to calculate p-value.||||0.326
92204846|NCT00688870|184309105|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Fever \>39 but \<=40 degrees C, Fisher exact test was used to calculate p-value.||||>0.99
92204847|NCT00688870|184309105|SUPERIORITY_OR_OTHER_LEGACY|||||||0.714||95.0|||||Fisher Exact|||For Decreased appetite, Fisher exact test was used to calculate p-value.||||0.714
92204848|NCT00688870|184309105|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Irritability, Fisher exact test was used to calculate p-value.||||>0.99
92204849|NCT00688870|184309105|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Increased sleep, Fisher exact test was used to calculate p-value.||||>0.99
92204850|NCT00688870|184309105|SUPERIORITY_OR_OTHER_LEGACY|||||||0.525||95.0|||||Fisher Exact|||For Decreased sleep, Fisher exact test was used to calculate p-value.||||0.525
92204851|NCT01151410|184309110|NON_INFERIORITY_OR_EQUIVALENCE|Indicates statistical significance at 0.025 level for one sided non-inferiority testing at 4mmHg margin.|Mean Difference (Net)|0.31||||0.004|ONE_SIDED|95.0|-2.4||||ANCOVA||||||-2.40|0.0040
92204852|NCT01253018|184309113|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||"Sample size and power calculations were performed based on the difference in the FM score between the two groups with an assumed within group SD of 15.9, the correlation of 0.5 among repeated measures. 30 subjects enrolled in each arm of the study would give 80% power for detecting a difference of 8 points on the FM.~Two sample t-tests were conducted to compare changes in FM between the two interventions groups at final training (12 week)."||||<0.05
92204853|NCT01253018|184309113|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Two sample t-tests were conducted to compare changes in FM between the two interventions groups at retention (24 weeks).||||<0.05
92204854|NCT01253018|184309115|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Two sample t-tests were conducted to compare changes in WMFT between the two interventions groups at final training 12 week.||||<0.05
92204855|NCT01253018|184309115|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Two sample t-tests were conducted to compare changes in WMFT between the two interventions groups at retention 24 weeks.||||<0.05
92204856|NCT01253018|184309116|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Two sample t-tests were conducted to compare changes in SIS Hand between the two interventions groups at final training week 12.||||<0.05
92204857|NCT01253018|184309116|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Two sample t-tests were conducted to compare changes in SIS Hand between the two interventions groups at retention week 24.||||<0.05
92204858|NCT01133418|184309136|SUPERIORITY_OR_OTHER|||||||0.36||||||a priori threshold for statistical significance was .05|General Linear Model|||||||.36
92204859|NCT01133418|184309137|SUPERIORITY_OR_OTHER|||||||0.86|||||||General Linear Model|||||||.86
92204860|NCT01133418|184309138|SUPERIORITY_OR_OTHER|||||||0.79|||||||General Linear Model|||||||.79
92204861|NCT01133418|184309139|SUPERIORITY_OR_OTHER|||||||0.77|||||||General Linear Model|||||||.77
92204862|NCT04150068|184309140|SUPERIORITY|The difference in percentage between 2 treatment groups was compared using an unconditional exact method using 2 invert 1-sided tests with an alpha level at 0.05 to evaluate superiority.|Percentage Difference|70.8|||<|0.0001|TWO_SIDED|95.0|34.9|90.0||The P value and 95% confidence interval (CI) for the point estimate of treatment difference in proportions was estimated and constructed using the Chan and Zhang method.|Chan & Zhang method|||||90.0|34.9|< 0.0001
92204863|NCT05316701|184309149|SUPERIORITY||Hazard Ratio (HR)|0.26|||<|1e-05|TWO_SIDED|95.0|0.14|0.47|||Log Rank|||Log-rank test was stratified by randomization stratification factors.||0.47|0.14|<0.00001
92204864|NCT05316701|184309150|SUPERIORITY||Hazard Ratio (HR)|0.19||||2e-05|TWO_SIDED|95.0|0.08|0.43|||Gray's test|||Gray's test was stratified by randomization stratification factors.||0.43|0.08|0.00002
92204865|NCT05316701|184309151|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.11823|TWO_SIDED|95.0|0.2|1.22|||Log Rank|||Log-rank test was stratified by randomization stratification factors.||1.22|0.20|0.11823
92204866|NCT05316701|184309152|SUPERIORITY||Hazard Ratio (HR)|0.37||||3e-05|TWO_SIDED|95.0|0.23|0.6|||Log Rank|||Log-rank test was stratified by randomization stratification factors.||0.60|0.23|0.00003
92204867|NCT04679935|184309153|OTHER|Analysis was purely descriptive.|Difference|-3.74|STANDARD_ERROR_OF_MEAN|1.84|||TWO_SIDED|95.0|-7.47|-0.01|||MMRM model|||Week 40||-0.01|-7.47|
92204868|NCT04679935|184309153|OTHER|Analysis was purely descriptive.|Difference|-4.15|STANDARD_ERROR_OF_MEAN|2.3|||TWO_SIDED|95.0|-8.78|-0.48|||MMRM model|||Week 44||-0.48|-8.78|
92204869|NCT04679935|184309153|OTHER|Analysis was purely descriptive.|Difference|-5.35|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|-10.13|-0.58|||MMRM model|||Week 48||-0.58|-10.13|
92204870|NCT04679935|184309153|OTHER|Analysis was purely descriptive.|Difference|-4.19|STANDARD_ERROR_OF_MEAN|2.28|||TWO_SIDED|95.0|-8.77|0.39|||MMRM model|||Week 52||0.39|-8.77|
92204871|NCT04679935|184309153|OTHER|Analysis was purely descriptive.|Difference|-4.36|STANDARD_ERROR_OF_MEAN|2.09|||TWO_SIDED|95.0|-8.56|-0.16|||MMRM model|||Mean of Week 40 to Week 52||-0.16|-8.56|
92204872|NCT04679935|184309161|OTHER|Analysis was purely descriptive.|Difference|-4.19|STANDARD_ERROR_OF_MEAN|2.28|||TWO_SIDED|95.0|-8.77|-0.39|||MMRM model|||Week 52||-0.39|-8.77|
92204873|NCT00969709|184309182|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.23||||0.0186|TWO_SIDED|95.0|-5.92|-0.54|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.54|-5.92|0.0186
92204874|NCT00969709|184309182|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.99||||0.0038|TWO_SIDED|95.0|-6.69|-1.29|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-1.29|-6.69|0.0038
92204875|NCT00969709|184309182|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.86||||0.0005|TWO_SIDED|95.0|-7.59|-2.12|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-2.12|-7.59|0.0005
92204876|NCT00969709|184309183|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.41||||0.1687|TWO_SIDED|95.0|-3.42|0.6|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||0.60|-3.42|0.1687
92204877|NCT00969709|184309183|SUPERIORITY_OR_OTHER||least squares mean difference|-2.51||||0.0151|TWO_SIDED|95.0|-4.54|-0.49|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.49|-4.54|0.0151
92204878|NCT00969709|184309183|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.57||||0.0141|TWO_SIDED|95.0|-4.62|-0.52|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.52|-4.62|0.0141
92204879|NCT02516332|184309194|OTHER|||||||0.038|||||||ANCOVA|||||||0.038
92204880|NCT02516332|184309194|OTHER|||||||0.002|||||||ANCOVA|||||||0.002
92204881|NCT02516332|184309199|OTHER|||||||0.011|||||||Regression, Linear|||||||0.011
92204882|NCT02516332|184309199|OTHER|||||||0.036|||||||Regression, Linear|||||||0.036
92204883|NCT02217332|184309205|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|Paired t-test comparing baseline to month 6 on log scale within the dexpramipexole treatment group.||Null hypothesis is the ratio of Month 6 to Baseline within the dexpramipexole group equals '1'.||||< 0.001
92204884|NCT02217332|184309206|SUPERIORITY|||||||0.885||||||Month 6/LOCF was used for the analysis of change from Baseline to Month 6 within the dexpramipexole group.|t-test, 2 sided|||||||0.885
92204885|NCT02217332|184309210|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|Paired t-test comparing baseline to month 3 on log scale within the dexpramipexole treatment group.||Null hypothesis is the ratio of Month 3 to Baseline within the dexpramipexole group equals '1'.||||<.001
92204886|NCT02217332|184309211|SUPERIORITY|||||||1||||||Month 3/LOCF was used for the analysis of change from Baseline to Month 3 within the dexpramipexole group.|t-test, 2 sided|Paired t-test comparing baseline to month 3 within the dexpramipexole treatment group||||||1.0
92204887|NCT02217332|184309212|SUPERIORITY||log scale|||||0.001|||||||Wilcoxon Signed Rank Test (paired)|||Null hypothesis is the ratio of Month 6 to Baseline within the dexpramipexole group equals '1'; 68% confidence interval is equal to plus/minus 1 standard error||||0.001
92204888|NCT03828747|184309242|SUPERIORITY||Least Squares Mean Difference|-2.89|STANDARD_ERROR_OF_MEAN|0.849||0.0008|TWO_SIDED|95.0|-4.56|-1.21|||Mixed Models Analysis|||Change from Baseline at Week 49||-1.21|-4.56|0.0008
92204889|NCT03828747|184309242|SUPERIORITY||Least Squares Mean Difference|-2.75|STANDARD_ERROR_OF_MEAN|1.287||0.0351|TWO_SIDED|95.0|-5.31|-0.2|||Mixed Models Analysis|||Change from Baseline at Week 61||-0.20|-5.31|0.0351
92204890|NCT03828747|184309243|SUPERIORITY||Least Squares Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.295||0.5207||95.0|-3.39|1.72|||Mixed Models Analysis|||Change from Baseline at Week 49||1.72|-3.39|0.5207
92204891|NCT03828747|184309243|SUPERIORITY||Least Squares Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|1.911||0.3704||95.0|-5.5|2.07|||Mixed Models Analysis|||Change from Baseline at Week 61||2.07|-5.50|0.3704
92204892|NCT03828747|184309244|SUPERIORITY||Least Squares Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.282||0.3501||95.0|-0.29|0.82|||Mixed Models Analysis|||Change from Baseline at Week 49||0.82|-0.29|0.3501
92204893|NCT03828747|184309244|SUPERIORITY||Least Squares Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.525||0.7431|TWO_SIDED|95.0|-0.87|1.22|||Mixed Models Analysis|||Change from Baseline at Week 61||1.22|-0.87|0.7431
92204894|NCT03828747|184309245|SUPERIORITY||Least Squares Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.429||0.5366||95.0|-0.58|1.11|||Mixed Models Analysis|||Change from Baseline at Week 49||1.11|-0.58|0.5366
92204895|NCT03828747|184309245|SUPERIORITY||Least Squares Mean Difference|1.08|STANDARD_ERROR_OF_MEAN|0.618||0.0851||95.0|-0.15|2.3|||Mixed Models Analysis|||Change from Baseline at Week 61||2.30|-0.15|0.0851
92204896|NCT04187989|184309273|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.006|STANDARD_ERROR_OF_MEAN|0.239||0.98|TWO_SIDED|95.0|-0.478|0.466|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.466|-.478|.980
92204897|NCT04187989|184309274|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|0.265|STANDARD_ERROR_OF_MEAN|0.18||0.14|TWO_SIDED|95.0|-0.092|0.621||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.621|-.092|.140
92204898|NCT04187989|184309276|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|0.064|STANDARD_ERROR_OF_MEAN|0.181||0.724|TWO_SIDED|95.0|-0.294|0.421||Two-sided test of the null hypothesis of no difference between groups|t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.421|-.294|.724
92204899|NCT04187989|184309277|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.078|STANDARD_ERROR_OF_MEAN|0.175||0.656|TWO_SIDED|95.0|-0.425|0.269|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.269|-.425|.656
92204900|NCT04187989|184309278|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.339|STANDARD_ERROR_OF_MEAN|0.205||0.158|TWO_SIDED|95.0|-0.746|0.067||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|||0.067|-.746|.158
92327294|NCT02100670|184559823|SUPERIORITY_OR_OTHER||LS mean difference|1.58||||0.8761|TWO_SIDED|95.0|-18.34|21.5||P-value from multiple comparisons using t-test in Proc Mixed|ANCOVA|Least squares (LS) means from mixed model analysis of covariance with treatment, site as fixed effects, pain intensity at baseline as a covariates.|Difference of LS mean of first named treatment minus second named treatment. Lower values of LS mean favours a better response because of lower pain intensity over time. 95% Confidence intervals of difference between LS means.|||21.50|-18.34|0.8761
92204901|NCT04187989|184309279|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|0.143|STANDARD_ERROR_OF_MEAN|0.178||0.422|TWO_SIDED|95.0|-0.21|0.495|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.495|-.210|.422
92204902|NCT04187989|184309280|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|0.027|STANDARD_ERROR_OF_MEAN|0.179||0.882|TWO_SIDED|95.0|-0.328|0.381|||t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs||.381|-.328|.882
92204903|NCT04187989|184309281|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.197|STANDARD_ERROR_OF_MEAN|0.268||0.497|TWO_SIDED|95.0|-0.728|0.334||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.334|-.728|.497
92204904|NCT04187989|184309282|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.042|STANDARD_ERROR_OF_MEAN|0.18||0.813|TWO_SIDED|95.0|-0.398|0.313||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.313|-.398|.813
92204905|NCT04187989|184309283|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.034|STANDARD_ERROR_OF_MEAN|0.176||0.849|TWO_SIDED|95.0|-0.381|0.314||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.314|-.381|.849
92204906|NCT04187989|184309284|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.118|STANDARD_ERROR_OF_MEAN|0.247||0.667|TWO_SIDED|95.0|-0.607|0.371||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.371|-.607|.667
92204907|NCT04187989|184309285|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.342|STANDARD_ERROR_OF_MEAN|0.175||0.051|TWO_SIDED|95.0|-0.689|0.005|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs||.005|-.689|.051
92268672|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-8.0||||||95.0|-14.9|-1.2||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 (IU/mL) threshold was calculated||-1.2|-14.9|
92204908|NCT04187989|184309286|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.064|STANDARD_ERROR_OF_MEAN|0.176||0.714|TWO_SIDED|95.0|-0.412|0.284|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model||We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|.284|-.412|.714
92204909|NCT04187989|184309287|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.11|STANDARD_ERROR_OF_MEAN|0.212||0.603|TWO_SIDED|95.0|-0.531|0.311|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|: We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.311|-.531|.603
92204910|NCT04187989|184309288|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|0.162|STANDARD_ERROR_OF_MEAN|0.219||0.457|TWO_SIDED|95.0|-0.273|0.597|||Cohen's D|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects)|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.597|-.273|.457
92204911|NCT04187989|184309289|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.265|STANDARD_ERROR_OF_MEAN|0.212||0.209|TWO_SIDED|95.0|-0.686|0.156|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.156|-.686|.209
92204912|NCT04187989|184309290|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.107|STANDARD_ERROR_OF_MEAN|0.219||0.623|TWO_SIDED|95.0|-0.541|0.328|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects)|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.328|-.541|.623
92204913|NCT00127205|184309298|OTHER|||||||0.49|||||||Log Rank|||||||0.49
92204914|NCT00127205|184309298|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.24|TWO_SIDED|95.0|0.94|1.26|||Regression, Cox|||||1.26|0.94|0.24
92204915|NCT00127205|184309298|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.5|TWO_SIDED|95.0|0.9|1.24|||Regression, Cox|||||1.24|0.90|0.50
92204916|NCT00127205|184309299|OTHER|||||||0.5|||||||Log Rank|||||||0.50
92204917|NCT00127205|184309300|OTHER|||||||0.93|||||||Log Rank|||Statistical analysis for recurrence to bone||||0.93
92268673|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 (IU/mL) threshold was calculated||1.4|-1.4|
92268674|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|2.7||||||95.0|-3.7|9.2||||||For Tetanus the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 (IU/mL) threshold was calculated||9.2|-3.7|
92268675|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.5|1.5||||||For Tetanus the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 (IU/mL) threshold was calculated||1.5|-1.5|
92268676|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.8||||||95.0|-3.1|1.8||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 (IU/mL) threshold was calculated||1.8|-3.1|
92204918|NCT03377699|184309316|NON_INFERIORITY|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% CI for mean treatment difference in HbA1c is strictly below 0.4%.|Mean treatment difference|-0.11|||<|0.0001|TWO_SIDED|95.0|-0.31|0.08|||ANCOVA|||Primary Estimand. Imputation of missing data was done within two groups of participants defined by randomised treatment arm based on a multiple imputation approach (x1000). For each of the 1000 imputed datasets last planned HbA1c prior to delivery after GW 16 was analysed using an ANCOVA with treatment, region and the stratification factor as categorical fixed effects and a pregnancy status at randomisation-by-baseline HbA1c interaction.||0.08|-0.31|<0.0001
92204919|NCT03377699|184309316|EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% CI for mean treatment difference in HbA1c is strictly below 0.4%.|Mean treatment difference|-0.08||||0.3881|TWO_SIDED|95.0|-0.27|0.11|||ANCOVA|||Secondary Estimand. Imputation of missing data was done within two groups of participants defined by randomised treatment arm based on a multiple imputation approach (x1000). For each of the 1000 imputed datasets last planned HbA1c prior to delivery after GW 16 was analysed using an ANCOVA with treatment, region and the stratification factor as categorical fixed effects and a pregnancy status at randomisation-by-baseline HbA1c interaction.||0.11|-0.27|0.3881
92204920|NCT02580305|184309349|SUPERIORITY|||||||0.41||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.41
92204921|NCT02580305|184309349|SUPERIORITY|||||||0.9||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.90
92204922|NCT02580305|184309350|SUPERIORITY|||||||0.46||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.46
92204923|NCT02580305|184309350|SUPERIORITY|||||||0.48||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.48
92204924|NCT02580305|184309351|SUPERIORITY|||||||0.83||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.83
92204925|NCT02580305|184309351|SUPERIORITY|||||||0.24||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.24
92204926|NCT02580305|184309352|SUPERIORITY|||||||0.17||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.17
92327295|NCT02100670|184559823|SUPERIORITY_OR_OTHER||LS mean difference|2.61||||0.8164|TWO_SIDED|95.0|-19.46|24.67||P-value from multiple comparisons using t-test in Proc Mixed|ANCOVA|Least squares (LS) means from mixed model analysis of covariance with treatment, site as fixed effects, pain intensity at baseline as a covariates.|Difference of LS mean of first named treatment minus second named treatment. Lower values of LS mean favours a better response because of lower pain intensity over time. 95% Confidence intervals of difference between LS means.|||24.67|-19.46|0.8164
92204927|NCT02580305|184309352|SUPERIORITY|||||||0.14||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.14
92204928|NCT02580305|184309353|SUPERIORITY|||||||0.79||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.79
92204929|NCT02580305|184309353|SUPERIORITY|||||||0.92||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.92
92204930|NCT00700427|184309354|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||||||0.001
92204931|NCT00700427|184309356|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||||||0.002
92204932|NCT00700427|184309357|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for ADHD Imputed (Attributed) Index Score.|ANCOVA|||||||<0.001
92204933|NCT00700427|184309357|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Hyperactivity/Impulsivity Subscale Imputed Score.|ANCOVA|||||||0.002
92204934|NCT00700427|184309357|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for Inattention Subscale Imputed Score.|ANCOVA|||||||0.009
92204935|NCT00700427|184309357|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Total ADHD Symptom Imputed Score.|ANCOVA|||||||0.003
92204936|NCT00700427|184309358|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for ADHD Imputed (Attributed) Index Score.|ANCOVA|||||||<0.001
92204937|NCT00700427|184309358|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Hyperactivity/Impulsivity Subscale Imputed Score.|ANCOVA|||||||<0.001
92204938|NCT00700427|184309358|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Inattention Subscale Imputed Score.|ANCOVA|||||||<0.001
92204939|NCT00700427|184309358|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Total ADHD Symptom Imputed Score.|ANCOVA|||||||<0.001
92204940|NCT00700427|184309359|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANCOVA|||||||0.006
92204941|NCT00700427|184309360|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANCOVA|||||||0.006
92204942|NCT04587752|184309364|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||.047
92204943|NCT04587752|184309365|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
92204944|NCT04587752|184309366|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
92204945|NCT01871805|184309390|SUPERIORITY|||||||0.0056||||||Tests null hypothesis that the response rate is equal to 35% versus the alternative hypothesis that the response rate is not equal to 35%.|Exact Clopper-Pearson CI, 2 sided|||||||0.0056
92204946|NCT01871805|184309391|SUPERIORITY|||||||0.0251||||||Tests null hypothesis that the response rate is equal to 35% versus the alternative hypothesis that the response rate is not equal to 35%.|Exact Clopper-Pearson CI, 2 sided|||||||0.0251
92204947|NCT01871805|184309391|SUPERIORITY|||||||0.0203||||||Tests null hypothesis that the response rate is equal to 35% versus the alternative hypothesis that the response rate is not equal to 35%.|Exact Clopper-Pearson CI, 2 sided|||||||0.0203
92204948|NCT01871805|184309393|SUPERIORITY|||||||0.001||||||Tests null hypothesis that the response rate is equal to 35% versus the alternative hypothesis that the response rate is not equal to 35%.|Exact Clopper-Pearson CI, 2 sided|||||||0.0010
92204949|NCT03535597|184309458|OTHER||Risk Ratio (RR)|0.99||||0.906|TWO_SIDED|95.0|0.89|1.11|||Chi-squared|||||1.11|0.89|0.906
92204950|NCT03535597|184309458|OTHER||Risk Ratio (RR)|1.27||||0.002|TWO_SIDED|95.0|1.09|1.53|||Chi-squared|||||1.53|1.09|0.002
92204951|NCT03535597|184309458|OTHER||Risk Ratio (RR)|0.97||||0.613|TWO_SIDED|95.0|0.86|1.09|||Chi-squared|||||1.09|0.86|0.613
92204952|NCT03535597|184309459|OTHER||Mean Difference (Net)|-98.5|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
92204953|NCT03535597|184309459|OTHER||Mean Difference (Net)|-120.6|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||< 0.001
92204954|NCT03535597|184309459|OTHER||Mean Difference (Net)|-94.3|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||< 0.001
92204955|NCT03535597|184309460|OTHER||Risk Ratio (RR)|0.77||||0.744|TWO_SIDED|95.0|0.23|2.57|||Fisher Exact|||||2.57|0.23|0.744
92204956|NCT03535597|184309460|OTHER||Risk Ratio (RR)|1.02|||>|0.999|TWO_SIDED|95.0|0.31|3.41|||Fisher Exact|||||3.41|0.31|>0.999
92204957|NCT03535597|184309460|OTHER||Risk Ratio (RR)|0.67||||0.724|TWO_SIDED|95.0|0.18|2.46|||Fisher Exact|||||2.46|0.18|0.724
92204958|NCT03535597|184309461|OTHER||Risk Ratio (RR)|1.44||||0.594|TWO_SIDED|95.0|0.56|3.76|||Fisher Exact|||||3.76|0.56|0.594
92204959|NCT03535597|184309461|OTHER||Risk Ratio (RR)|1.1|||>|0.999|TWO_SIDED|95.0|0.37|3.26|||Fisher Exact|||||3.26|0.37|>0.999
92204960|NCT03535597|184309461|OTHER||Risk Ratio (RR)|1.45||||0.581|TWO_SIDED|95.0|0.55|3.88|||Fisher Exact|||||3.88|0.55|0.581
92204961|NCT03535597|184309462|OTHER||Risk Ratio (RR)|1.92||||0.284|TWO_SIDED|95.0|0.71|5.22|||Fisher Exact|||||5.22|0.71|0.284
92204962|NCT03535597|184309462|OTHER||Risk Ratio (RR)|2.1||||0.243|TWO_SIDED|95.0|0.75|5.9|||Fisher Exact|||||5.9|0.75|0.243
92204963|NCT03535597|184309462|OTHER||Risk Ratio (RR)|2.01||||0.266|TWO_SIDED|95.0|0.74|5.54|||Fisher Exact|||||5.54|0.74|0.266
92204964|NCT04075994|184309467|SUPERIORITY|||||||0.22||||||A priori threshold for statistical significance p\<0.05.|t-test, 2 sided|||Proportion of days covered assessed as a continuous measure (range 0-1) at 12 months between study arms adjusted for trial stratification factors (type of anticoagulant treatment). We determined that a sample size of 120 in the intervention group and 120 in the control group enables us to detect a minimum difference in PDC as small as 12.6% with 90% power. Power calculations assume use of 2-sided tests with 0.05 significance level.||||0.22
92204965|NCT01247285|184309473|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|107.81|||||TWO_SIDED|90.0|97.37|119.38|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||119.38|97.37|
92327296|NCT02100670|184559823|SUPERIORITY_OR_OTHER||LS mean difference|1.03||||0.9279|TWO_SIDED|95.0|-21.27|23.33||P-value from multiple comparisons using t-test in Proc Mixed|ANCOVA|Least squares (LS) means from mixed model analysis of covariance with treatment, site as fixed effects, pain intensity at baseline as a covariates.|Difference of LS mean of first named treatment minus second named treatment. Lower values of LS mean favours a better response because of lower pain intensity over time. 95% Confidence intervals of difference between LS means.|||23.33|-21.27|0.9279
92204966|NCT01247285|184309474|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|100.69|||||TWO_SIDED|90.0|92.9|109.14|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||109.14|92.90|
92204967|NCT01247285|184309475|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|100.77|||||TWO_SIDED|90.0|93.53|108.56|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.56|93.53|
92204968|NCT01247285|184309476|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|104.88|||||TWO_SIDED|90.0|98.53|111.64|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||111.64|98.53|
92204969|NCT01247285|184309477|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.64|||||TWO_SIDED|90.0|99.97|111.56|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||111.56|99.97|
92204970|NCT01247285|184309478|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|101.05|||||TWO_SIDED|90.0|94.76|107.77|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||107.77|94.76|
92204971|NCT01480219|184309483|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.74||||0.042|TWO_SIDED|95.0|1.02|2.96|||Regression, Cox|||Crude hazard ratio (HR) and corresponding 95 percent (%) confidence interval (CI) were calculated using an unadjusted Cox proportional hazards regression model.||2.96|1.02|0.042
92204972|NCT01480219|184309483|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.453|TWO_SIDED|95.0|0.71|2.14|||Regression, Cox|||HR and corresponding 95% CI were calculated using a parsimoniously adjusted Cox proportional hazards regression model.||2.14|0.71|0.453
92204973|NCT01416389|184309508|SUPERIORITY_OR_OTHER_LEGACY|||||||0.344|||||||t-test, 1 sided|||This measure is compared between two treatment arms using a one-sided t-test. This measure followed a normal distribution.||||0.344
92204974|NCT01416389|184309509|SUPERIORITY_OR_OTHER_LEGACY|||||||0.608|||||||Chi-squared|||||||0.608
92204975|NCT01416389|184309511|SUPERIORITY_OR_OTHER_LEGACY|||||||0.365|||||||Chi-squared|||||||0.365
92204976|NCT02310100|184309548|OTHER|This is a one-group comparison to a performance goal.|binomial proportion|0.673||||0.0008|ONE_SIDED|95.0|0.608||||Exact binomial|||H0: PE ≤ 54.9% Ha: PE \> 54.9% Where PE is the primary effectiveness endpoint rate.|||0.608|0.0008
92204977|NCT02310100|184309549|OTHER|One group comparison to a performance goal.|binomial proportion|0.081||||0.0013|ONE_SIDED|95.0||0.124|||Exact binomial|||H0: PS ≥ 16.2% Ha: PS \< 16.2% where PS is the primary safety endpoint rate||0.124||0.0013
92204978|NCT00673400|184309550|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||based on 28 pairwise matches|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Lifestyle (LS)||||0.1340
92204979|NCT00673400|184309550|SUPERIORITY_OR_OTHER|||||||0.088||95.0||||based on 29 matched pairs|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Coping/behavior (C/B)||||0.088
92204980|NCT00673400|184309550|SUPERIORITY_OR_OTHER|||||||0.0012||95.0||||based on 30 matched pairs|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Depression/self-perception (D/S)||||0.0012
92204981|NCT00673400|184309550|SUPERIORITY_OR_OTHER|||||||0.0074||95.0||||based on 30 matched pairs|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Embarrassment (E)||||0.0074
92204982|NCT00673400|184309553|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
92204983|NCT00673400|184309553|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
92204984|NCT00673400|184309553|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
92327297|NCT02100670|184559823|SUPERIORITY_OR_OTHER||LS mean difference|-10.81||||0.3442|TWO_SIDED|95.0|-33.26|11.64||P-value from multiple comparisons using t-test in Proc Mixed.|ANCOVA|Least squares (LS) means from mixed model analysis of covariance with treatment, site as fixed effects, pain intensity at baseline as a covariates.|Difference of LS mean of first named treatment minus second named treatment. Lower values of LS mean favours a better response because of lower pain intensity over time. 95% Confidence intervals of difference between LS means.|||11.64|-33.26|0.3442
92204985|NCT00673400|184309554|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
92204986|NCT00673400|184309554|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
92204987|NCT00673400|184309554|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
92204988|NCT00673400|184309555|SUPERIORITY_OR_OTHER|||||||0.65||95.0||||based on 28 pairwise matches|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Physical component summary (PCS)||||0.65
92204989|NCT00673400|184309555|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||based on 28 pairwise matches|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Mental component summary (MCS)||||0.010
92204990|NCT01680640|184309556|SUPERIORITY||Mean Difference (Net)|-3.8|STANDARD_DEVIATION|0.8|=|0.05|TWO_SIDED|95.0||||The threshold for statistical significance was p=0.05|Regression, Linear|||A total sample size of 100 participants, with a 14% drop out during the study and 43 participants in each group completing the study provided 85% power to detect a difference of 40% in liver fat (in the treatment arm compared with the placebo), using a power calculation test with a 0.05 two-sided significance level. For change in liver fat percentage (and other secondary outcomes), ANCOVA will also be undertaken to assess effect sizes in the intervention group and placebo.||||=0.05
92204991|NCT01680640|184309556|SUPERIORITY|For each primary outcome, a change variable was calculated as the difference between end of study and baseline measurements. Multiple regression analysis was used to assess the effect of synbiotic treatment on each of the change variables of interest.|Median Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
92204992|NCT01680640|184309557|SUPERIORITY|For each primary outcome, a change variable was calculated as the difference between end-of study and baseline measurements. Multiple regression analysis was used to assess the effect of synbiotic treatment on each of the change variables of interest.|Mean Difference (Final Values)|0.1||||1|TWO_SIDED||||||Regression, Linear|||||||1.00
92204993|NCT01680640|184309558|SUPERIORITY|For each primary outcome, a change variable was calculated as the difference between end of study and baseline measurements. Multiple regression analysis was used to assess the effect of synbiotic treatment on each of the change variables of interest.|Mean Difference (Final Values)|0.2||||0.8|TWO_SIDED||||||Regression, Linear|||||||0.80
92204994|NCT01680640|184309559|SUPERIORITY|For each primary outcome, a change variable was calculated as the difference between end of study and baseline measurements. Multiple regression analysis was used to assess the effect of synbiotic treatment on each of the change variables of interest.|Median Difference (Final Values)|0.97|||<|0.001|TWO_SIDED||||||Beta-diversity indexes|Beta-diversity indexes were first visualized through a Principal Coordinates Analysis (PCoA)||||||<0.001
92204995|NCT00548262|184309584|SUPERIORITY_OR_OTHER||percentage of participants with success|59.1|||||TWO_SIDED|95.0|44.6|73.6|||||95% CI based on normal approximation to the binomial.|Success at EOT||73.6|44.6|
92204996|NCT00548262|184309585|SUPERIORITY_OR_OTHER||percentage of participants with success|59.1|||||TWO_SIDED|95.0|44.6|73.6|||||95% CI based on normal approximation to the binomial.|EIVT Success||73.6|44.6|
92204997|NCT00548262|184309585|SUPERIORITY_OR_OTHER||percentage of participants with success|47.7|||||TWO_SIDED|95.0|33.0|62.5|||||95% CI based on normal approximation to the binomial.|Week 2 Follow-up Success||62.5|33.0|
92204998|NCT00548262|184309586|SUPERIORITY_OR_OTHER||percentage of participants with success|52.4|||||TWO_SIDED|95.0|31.0|73.7|||||95% CI based on normal approximation to the binomial.|Candida albicans: Success||73.7|31.0|
92204999|NCT00548262|184309586|SUPERIORITY_OR_OTHER||percentage of participants with success|50.0|||||TWO_SIDED|95.0|0.0|100.0|||||95% CI based on normal approximation to the binomial.|Candida famata: Success||100.0|0.0|
92205000|NCT00548262|184309586|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Candida glabrata: Success||100.0|13.3|
92205001|NCT00548262|184309586|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Candida krusei: Success||100.0|13.3|
92205002|NCT00548262|184309586|SUPERIORITY_OR_OTHER||percentage of participants with success|16.7|||||TWO_SIDED|95.0|0.0|46.5|||||95% CI based on normal approximation to the binomial.|Candida parapsilosis: Success||46.5|0.0|
92205003|NCT00548262|184309586|SUPERIORITY_OR_OTHER||percentage of participants with success|80.0|||||TWO_SIDED|95.0|55.2|100.0|||||95% CI based on normal approximation to the binomial.|Candida tropicalis: Success||100.0|55.2|
92205004|NCT00548262|184309586|SUPERIORITY_OR_OTHER||percentage of participants with success|57.1|||||TWO_SIDED|95.0|20.5|93.8|||||95% CI based on normal approximation to the binomial.|Unidentifiable: Success||93.8|20.5|
92205005|NCT00548262|184309587|SUPERIORITY_OR_OTHER||percentage of participants with success|52.4|||||TWO_SIDED|95.0|31.0|73.7|||||95% CI based on normal approximation to the binomial.|Candida albicans: Success||73.7|31.0|
92205006|NCT00548262|184309587|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Candida glabrata: Success||100.0|13.3|
92205007|NCT00548262|184309587|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Candida krusei: Success||100.0|13.3|
92205008|NCT00548262|184309587|SUPERIORITY_OR_OTHER||percentage of participants with success|16.7|||||TWO_SIDED|95.0|0.0|46.5|||||95% CI based on normal approximation to the binomial.|Candida parapsilosis: Success||46.5|0.0|
92205009|NCT00548262|184309587|SUPERIORITY_OR_OTHER||percentage of participants with success|80.0|||||TWO_SIDED|95.0|55.2|100.0|||||95% CI based on normal approximation to the binomial.|Candida tropicalis: Success||100.0|55.2|
92205010|NCT00548262|184309587|SUPERIORITY_OR_OTHER||percentage of participants with success|57.1|||||TWO_SIDED|95.0|20.5|93.8|||||95% CI based on normal approximation to the binomial.|Unidentifiable: Success||93.8|20.5|
92327298|NCT02100670|184559828|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.1||||0.5404|TWO_SIDED|95.0|0.81|1.48||P-value from chi-square test of survival analysis|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.48|0.81|0.5404
92205011|NCT00548262|184309588|SUPERIORITY_OR_OTHER||percentage of participants with success|47.6|||||TWO_SIDED|95.0|26.3|69.0|||||95% CI based on normal approximation to the binomial.|Candida albicans: Success||69.0|26.3|
92205012|NCT00548262|184309588|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Candida krusei: Success||100.0|13.3|
92205013|NCT00548262|184309588|SUPERIORITY_OR_OTHER||percentage of participants with success|70.0|||||TWO_SIDED|95.0|41.6|98.4|||||95% CI based on normal approximation to the binomial.|Candida tropicalis: Success||98.4|41.6|
92205014|NCT00548262|184309588|SUPERIORITY_OR_OTHER||percentage of participants with success|28.6|||||TWO_SIDED|95.0|0.0|62.0|||||95% CI based on normal approximation to the binomial.|Unidentifiable: Success||62.0|0.0|
92205015|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|56.3|||||TWO_SIDED|95.0|39.1|73.4|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (Yes): Success||73.4|39.1|
92205016|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|40.0|93.3|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (No): Success||93.3|40.0|
92205017|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|54.5|||||TWO_SIDED|95.0|37.6|71.5|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (Yes): Success||71.5|37.6|
92205018|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|72.7|||||TWO_SIDED|95.0|46.4|99.0|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (No): Success||99.0|46.4|
92205019|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|56.4|||||TWO_SIDED|95.0|40.8|72.0|||||95% CI based on normal approximation to the binomial.|Antibiotics (Yes): Success||72.0|40.8|
92205020|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|80.0|||||TWO_SIDED|95.0|44.9|100.0|||||95% CI based on normal approximation to the binomial.|Antibiotics (No): Success||100.0|44.9|
92205021|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|55.3|||||TWO_SIDED|95.0|39.5|71.1|||||95% CI based on normal approximation to the binomial.|CV Catheter (Yes): Success||71.1|39.5|
92205022|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|83.3|||||TWO_SIDED|95.0|53.5|100.0|||||95% CI based on normal approximation to the binomial.|CV Catheter (No): Success||100.0|53.5|
92205023|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|38.5|||||TWO_SIDED|95.0|12.0|64.9|||||95% CI based on normal approximation to the binomial.|TPN (Yes): Success||64.9|12.0|
92205024|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|67.7|||||TWO_SIDED|95.0|51.3|84.2|||||95% CI based on normal approximation to the binomial.|TPN (No): Success||84.2|51.3|
92205025|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|42.9|||||TWO_SIDED|95.0|6.2|79.5|||||95% CI based on normal approximation to the binomial.|Dialysis (Yes): Success||79.5|6.2|
92205026|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|62.2|||||TWO_SIDED|95.0|46.5|77.8|||||95% CI based on normal approximation to the binomial.|Dialysis (No): Success||77.8|46.5|
92205027|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|57.9|||||TWO_SIDED|95.0|35.7|80.1|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (Yes): Success||80.1|35.7|
92205028|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|60.0|||||TWO_SIDED|95.0|40.8|79.2|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (No): Success||79.2|40.8|
92205029|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|59.1|||||TWO_SIDED|95.0|44.6|73.6|||||95% CI based on normal approximation to the binomial.|Solid organ transplant (No): Success||73.6|44.6|
92205030|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|42.9|||||TWO_SIDED|95.0|6.2|79.5|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (Yes): Success||79.5|6.2|
92205031|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|62.2|||||TWO_SIDED|95.0|46.5|77.8|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (No): Success||77.8|46.5|
92205032|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|58.1|||||TWO_SIDED|95.0|43.4|72.9|||||95% CI based on normal approximation to the binomial.|Chemotherapy (No): Success||72.9|43.4|
92205033|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|20.0|||||TWO_SIDED|95.0|0.0|55.1|||||95% CI based on normal approximation to the binomial.|Pancreatitis (Yes): Success||55.1|0.0|
92205034|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|64.1|||||TWO_SIDED|95.0|49.0|79.2|||||95% CI based on normal approximation to the binomial.|Pancreatitis (No): Success||79.2|49.0|
92205035|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|50.0|||||TWO_SIDED|95.0|21.7|78.3|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (Yes): Success||78.3|21.7|
92205036|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|62.5|||||TWO_SIDED|95.0|45.7|79.3|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (No): Success||79.3|45.7|
92205037|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Neutropenic: Success||100.0|13.3|
92327299|NCT02100670|184559828|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|0.9||||0.4639|TWO_SIDED|95.0|0.67|1.2||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.20|0.67|0.4639
92205038|NCT00548262|184309589|SUPERIORITY_OR_OTHER||percentage of participants with success|62.1|||||TWO_SIDED|95.0|44.4|79.7|||||95% CI based on normal approximation to the binomial.|Non-neutropenic: Success||79.7|44.4|
92205039|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|56.3|||||TWO_SIDED|95.0|39.1|73.4|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (Yes): Success||73.4|39.1|
92205040|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|40.0|93.3|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (No): Success||93.3|40.0|
92205041|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|54.5|||||TWO_SIDED|95.0|37.6|71.5|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (Yes): Success||71.5|37.6|
92205042|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|72.7|||||TWO_SIDED|95.0|46.4|99.0|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (No): Success||99.0|46.4|
92205043|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|56.4|||||TWO_SIDED|95.0|40.8|72.0|||||95% CI based on normal approximation to the binomial.|Antibiotics (Yes): Success||72.0|40.8|
92205044|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|80.0|||||TWO_SIDED|95.0|44.9|100.0|||||95% CI based on normal approximation to the binomial.|Antibiotics (No): Success||100.0|44.9|
92205045|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|55.3|||||TWO_SIDED|95.0|39.5|71.1|||||95% CI based on normal approximation to the binomial.|CV Catheter (Yes): Success||71.1|39.5|
92205046|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|83.3|||||TWO_SIDED|95.0|53.5|100.0|||||95% CI based on normal approximation to the binomial.|CV Catheter (No): Success||100.0|53.5|
92205047|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|46.2|||||TWO_SIDED|95.0|19.1|73.3|||||95% CI based on normal approximation to the binomial.|TPN (Yes): Success||73.3|19.1|
92205048|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|64.5|||||TWO_SIDED|95.0|47.7|81.4|||||95% CI based on normal approximation to the binomial.|TPN (No): Success||81.4|47.7|
92205049|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|42.9|||||TWO_SIDED|95.0|6.2|79.5|||||95% CI based on normal approximation to the binomial.|Dialysis (Yes): Success||79.5|6.2|
92205050|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|62.2|||||TWO_SIDED|95.0|46.5|77.8|||||95% CI based on normal approximation to the binomial.|Dialysis (No): Success||77.8|46.5|
92205051|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|63.2|||||TWO_SIDED|95.0|41.5|84.8|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (Yes): Success||84.8|41.5|
92205052|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|56.0|||||TWO_SIDED|95.0|36.5|75.5|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (No): Success||75.5|36.5|
92205053|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|59.1|||||TWO_SIDED|95.0|44.6|73.6|||||95% CI based on normal approximation to the binomial.|Solid organ transplant (No): Success||73.6|44.6|
92205054|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|42.9|||||TWO_SIDED|95.0|6.2|79.5|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (Yes): Success||79.5|6.2|
92205055|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|62.2|||||TWO_SIDED|95.0|46.5|77.8|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (No): Success||77.8|46.5|
92205056|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|58.1|||||TWO_SIDED|95.0|43.4|72.9|||||95% CI based on normal approximation to the binomial.|Chemotherapy (No): Success||72.9|43.4|
92205057|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|40.0|||||TWO_SIDED|95.0|0.0|82.9|||||95% CI based on normal approximation to the binomial.|Pancreatitis (Yes): Success||82.9|0.0|
92205058|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|61.5|||||TWO_SIDED|95.0|46.3|76.8|||||95% CI based on normal approximation to the binomial.|Pancreatitis (No): Success||76.8|46.3|
92205059|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|58.3|||||TWO_SIDED|95.0|30.4|86.2|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (Yes): Success||86.2|30.4|
92205060|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|59.4|||||TWO_SIDED|95.0|42.4|76.4|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (No): Success||76.4|42.4|
92205061|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Neutropenic: Success||100.0|13.3|
92205062|NCT00548262|184309590|SUPERIORITY_OR_OTHER||percentage of participants with success|62.1|||||TWO_SIDED|95.0|44.4|79.7|||||95% CI based on normal approximation to the binomial.|Non-neutropenic: Success||79.7|44.4|
92205063|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|37.5|||||TWO_SIDED|95.0|20.7|54.3|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (Yes): Success||54.3|20.7|
92205064|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|75.0|||||TWO_SIDED|95.0|50.5|99.5|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (No): Success||99.5|50.5|
92205065|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|39.4|||||TWO_SIDED|95.0|22.7|56.1|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (Yes): Success||56.1|22.7|
92205066|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|72.7|||||TWO_SIDED|95.0|46.4|99.0|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (No): Success||99.0|46.4|
92205067|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|48.7|||||TWO_SIDED|95.0|33.0|64.4|||||95% CI based on normal approximation to the binomial.|Antibiotics (Yes): Success||64.4|33.0|
92205068|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|40.0|||||TWO_SIDED|95.0|0.0|82.9|||||95% CI based on normal approximation to the binomial.|Antibiotics (No): Success||82.9|0.0|
92205069|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|47.4|||||TWO_SIDED|95.0|31.5|63.2|||||95% CI based on normal approximation to the binomial.|CV Catheter (Yes): Success||63.2|31.5|
92205070|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|50.0|||||TWO_SIDED|95.0|10.0|90.0|||||95% CI based on normal approximation to the binomial.|CV Catheter (No): Success||90.0|10.0|
92205071|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|38.5|||||TWO_SIDED|95.0|12.0|64.9|||||95% CI based on normal approximation to the binomial.|TPN (Yes): Success||64.9|12.0|
92205072|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|51.6|||||TWO_SIDED|95.0|34.0|69.2|||||95% CI based on normal approximation to the binomial.|TPN (No): Success||69.2|34.0|
92205073|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|14.3|||||TWO_SIDED|95.0|0.0|40.2|||||95% CI based on normal approximation to the binomial.|Dialysis (Yes): Success||40.2|0.0|
92205074|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|54.1|||||TWO_SIDED|95.0|38.0|70.1|||||95% CI based on normal approximation to the binomial.|Dialysis (No): Success||70.1|38.0|
92205075|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|42.1|||||TWO_SIDED|95.0|19.9|64.3|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (Yes): Success||64.3|19.9|
92205076|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|52.0|||||TWO_SIDED|95.0|32.4|71.6|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (No): Success||71.6|32.4|
92205077|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|47.7|||||TWO_SIDED|95.0|33.0|62.5|||||95% CI based on normal approximation to the binomial.|Solid organ transplant (No): Success||62.5|33.0|
92205078|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|14.3|||||TWO_SIDED|95.0|0.0|40.2|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (Yes): Success||40.2|0.0|
92205079|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|54.1|||||TWO_SIDED|95.0|38.0|70.1|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (No): Success||70.1|38.0|
92205080|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|46.5|||||TWO_SIDED|95.0|31.6|61.4|||||95% CI based on normal approximation to the binomial.|Chemotherapy (No): Success||61.4|31.6|
92205081|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|40.0|||||TWO_SIDED|95.0|0.0|82.9|||||95% CI based on normal approximation to the binomial.|Pancreatitis (Yes): Success||82.9|0.0|
92205082|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|48.7|||||TWO_SIDED|95.0|33.0|64.4|||||95% CI based on normal approximation to the binomial.|Pancreatitis (No): Success||64.4|33.0|
92205083|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|41.7|||||TWO_SIDED|95.0|13.8|69.6|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (Yes): Success||69.6|13.8|
92205084|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|50.0|||||TWO_SIDED|95.0|32.7|67.3|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (No): Success||67.3|32.7|
92205085|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Neutropenic: Success||100.0|13.3|
92205086|NCT00548262|184309591|SUPERIORITY_OR_OTHER||percentage of participants with success|51.7|||||TWO_SIDED|95.0|33.5|69.9|||||95% CI based on normal approximation to the binomial.|Non-neutropenic: Success||69.9|33.5|
92205087|NCT00548262|184309592|SUPERIORITY_OR_OTHER||percentage of participants with success|68.6|||||TWO_SIDED|95.0|53.2|84.0|||||95% CI based on normal approximation to the binomial.|APACHE \<20 (EIVT): Success||84.0|53.2|
92205088|NCT00548262|184309592|SUPERIORITY_OR_OTHER||percentage of participants with success|22.2|||||TWO_SIDED|95.0|0.0|49.4|||||95% CI based on normal approximation to the binomial.|APACHE ≥20 (EIVT): Success||49.4|0.0|
92205089|NCT00548262|184309592|SUPERIORITY_OR_OTHER||percentage of participants with success|71.4|||||TWO_SIDED|95.0|56.5|86.4|||||95% CI based on normal approximation to the binomial.|APACHE \<20 (EOT): Success||86.4|56.5|
92205090|NCT00548262|184309592|SUPERIORITY_OR_OTHER||percentage of participants with success|11.1|||||TWO_SIDED|95.0|0.0|31.6|||||95% CI based on normal approximation to the binomial.|APACHE ≥20 (EOT): Success||31.6|0.0|
92205091|NCT00548262|184309592|SUPERIORITY_OR_OTHER||percentage of participants with success|57.1|||||TWO_SIDED|95.0|40.7|73.5|||||95% CI based on normal approximation to the binomial.|APACHE \<20 (Week 2 F/U): Success||73.5|40.7|
92205092|NCT00548262|184309592|SUPERIORITY_OR_OTHER||percentage of participants with success|11.1|||||TWO_SIDED|95.0|0.0|31.6|||||95% CI based on normal approximation to the binomial.|APACHE ≥20 (Week 2 F/U): Success||31.6|0.0|
92205093|NCT03592745|184309619|EQUIVALENCE|Statistical analysis of the median absolute change in bicep peak sEMG amplitude from baseline to DC immediately following 3 weeks of training was measured in the active vs. sham tVNS conditions. Null hypothesis is that there is no difference in median absolute change in bicep peak sEMG amplitude between the active and sham tVNS conditions. A significance level of 0.05 was used (two-tailed).|U value|32.0||||0.002|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare median absolute change in bicep peak sEMG amplitude from baseline to 3 weeks (discharge) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||0.002
92205094|NCT03592745|184309619|EQUIVALENCE|Statistical analysis of the median absolute change in tricep peak sEMG amplitude from baseline to DC immediately following 3 weeks of training was measured in the active vs. sham tVNS conditions. Null hypothesis is that there is no difference in median absolute change in bicep peak sEMG amplitude between the active and sham tVNS conditions. A significance level of 0.05 was used (two-tailed).|U value|87.0||||0.445|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare median absolute change in tricep peak sEMG amplitude from baseline to 3 weeks (discharge) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||0.445
92205095|NCT03592745|184309619|EQUIVALENCE|Statistical analysis of the median absolute change in bicep peak sEMG amplitude from baseline to week 16 (3 month follow-up after training) was measured in the active vs. sham tVNS conditions. Null hypothesis is that there is no difference in median absolute change in bicep peak sEMG amplitude between the active and sham tVNS conditions. A significance level of 0.05 was used (two-tailed).|U value|95.0||||0.678|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare the median absolute change in bicep peak sEMG from baseline to 16 weeks (follow-up) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||0.678
92205096|NCT03592745|184309619|EQUIVALENCE|Statistical analysis of the median absolute change in tricep peak sEMG amplitude from baseline to week 16 (3 month follow-up after training) was measured in the active vs. sham tVNS conditions. Null hypothesis is that there is no difference in median absolute change in bicep peak sEMG amplitude between the active and sham tVNS conditions. A significance level of 0.05 was used (two-tailed).|U value|98.0||||0.777|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare the median absolute change in tricep peak sEMG from baseline to 16 weeks (follow-up) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||0.777
92205097|NCT03592745|184309620|EQUIVALENCE|Statistical analysis of median change from baseline to DC immediately following 3 weeks of training was assessed with the upper extremity fugl meyer score in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in upper extremity fugl meyer score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|112.0||||1|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare median change in Upper Extremity Fugl Meyer score from baseline to 3 weeks (discharge) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||1.000
92205098|NCT03592745|184309620|EQUIVALENCE|Statistical analysis of median change from baseline to week 16 (3 month follow-up) was assessed with the Upper Extremity Fugl Meyer score in the active vs. sham tVNS conditions. Null hypothesis is that there is no difference in median change in Upper Extremity Fugl Meyer score between the active and sham tVNS conditions. A significance level of 0.05 was used (two-tailed).|U value|110.5||||0.95|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare median change in Upper Extremity Fugl Meyer score from baseline to 16 weeks (follow-up) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||0.950
92205099|NCT00293059|184309621|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||inverting 2 one-sided tests|||||||< 0.0001
92205100|NCT04362189|184309693|SUPERIORITY||Slope|-1.93|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
92205101|NCT04362189|184309694|SUPERIORITY||Slope|-1.31|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|||||
92205102|NCT04362189|184309695|SUPERIORITY||Slope|1.36|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
92205103|NCT04362189|184309696|SUPERIORITY||Slope|0.23|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
92205104|NCT04362189|184309697|SUPERIORITY||Slope|-0.15|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
92205105|NCT04362189|184309698|SUPERIORITY||Odds Ratio (OR)|0.2|||||TWO_SIDED||||||||HB-adMSCs represents Numerator and Placebo represents Denominator.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
92205106|NCT04362189|184309705|SUPERIORITY||Slope|-0.17|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
92205107|NCT04362189|184309706|SUPERIORITY||Slope|0.55|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
92205108|NCT04362189|184309707|SUPERIORITY||Slope|0.26|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
92205109|NCT04362189|184309708|SUPERIORITY||Slope|0.81|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
92205110|NCT05116540|184309773|SUPERIORITY||Mean Difference (Final Values)|22.121|STANDARD_ERROR_OF_MEAN|4.616||0.0002|TWO_SIDED|95.0|12.282|31.959|||ANCOVA|||||31.959|12.282|0.0002
92205111|NCT05116540|184309774|SUPERIORITY||Mean Difference (Final Values)|15.764|STANDARD_ERROR_OF_MEAN|5.844||0.0166|TWO_SIDED|95.0|3.307|28.221|||ANCOVA|||||28.221|3.307|0.0166
92205112|NCT05116540|184309775|SUPERIORITY||Mean Difference (Final Values)|22.137|STANDARD_DEVIATION|4.962||0.9905|TWO_SIDED|95.0|12.361|32.006|||ANCOVA|||||32.006|12.361|0.9905
92205113|NCT05116540|184309776|SUPERIORITY||Mean Difference (Final Values)|15.747|STANDARD_DEVIATION|6.274||0.8292|TWO_SIDED|95.0|3.329|28.177|||ANCOVA|||||28.177|3.329|0.8292
92205114|NCT05116540|184309777|SUPERIORITY||Mean Difference (Final Values)|-1.554|STANDARD_ERROR_OF_MEAN|0.638||0.0278|TWO_SIDED|95.0|-2.914|-0.195|||ANCOVA|||||-0.195|-2.914|0.0278
92205115|NCT05116540|184309778|SUPERIORITY||Mean Difference (Final Values)|5.453|STANDARD_ERROR_OF_MEAN|2.757||0.0666|TWO_SIDED|95.0|-0.424|11.33|||ANCOVA|||||11.330|-0.424|0.0666
92205116|NCT05116540|184309779|SUPERIORITY||Mean Difference (Final Values)|10.112|STANDARD_ERROR_OF_MEAN|5.508||0.0863|TWO_SIDED|95.0|-1.629|21.853|||ANCOVA|||||21.853|-1.629|0.0863
92205117|NCT05116540|184309780|SUPERIORITY||Mean Difference (Final Values)|0.977|STANDARD_ERROR_OF_MEAN|1.633||0.5588|TWO_SIDED|95.0|-2.504|4.457|||ANCOVA|||||4.457|-2.504|0.5588
92205118|NCT05116540|184309781|SUPERIORITY||Mean Difference (Final Values)|-4.593|STANDARD_ERROR_OF_MEAN|1.023||0.0004|TWO_SIDED|95.0|-6.773|-2.413|||ANCOVA|||||-2.413|-6.773|0.0004
92205119|NCT00452426|184309816|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED||||||ANOVA|||||||0.028
92205120|NCT00452426|184309818|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANOVA|||||||0.007
92205121|NCT00452426|184309819|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92205122|NCT02914275|184309835|NON_INFERIORITY|The non-inferiority criterion for the GMT ratio (adjusted analysis) was that the upper bound of the two-sided 95% confidence interval (CI) of the GMT ratio for the Comparator QIV GMT, divided by the Seqirus QIV GMT, should not exceed 1.5|Geometric Mean Titer Ratio|0.79|||||TWO_SIDED|95.0|0.72|0.88||||||Non-inferiority of immune responses to A/H1N1 vaccine strain measured in terms of Geometric Mean Titer ratios 28 days after the last vaccination||0.88|0.72|
92205123|NCT02914275|184309835|NON_INFERIORITY|The non-inferiority criterion for the GMT ratio (adjusted analysis) was that the upper bound of the two-sided 95% CI of the GMT ratio for the Comparator QIV GMT, divided by the Seqirus QIV GMT, should not exceed 1.5|Geometric Mean Titer Ratio|1.27|||||TWO_SIDED|95.0|1.15|1.42||||||Non-inferiority of immune responses to A/H3N2 vaccine strain measured in terms of Geometric Mean Titer ratios 28 days after the last vaccination||1.42|1.15|
92205124|NCT02914275|184309835|NON_INFERIORITY|The non-inferiority criterion for the GMT ratio (adjusted analysis) was that the upper bound of the two-sided 95% CI of the GMT ratio for the Comparator QIV GMT, divided by the Seqirus QIV GMT, should not exceed 1.5|Geometric Mean Titer Ratio|1.12|||||TWO_SIDED|95.0|1.01|1.24||||||Non-inferiority of immune responses to B/YAM vaccine strain measured in terms of Geometric Mean Titer ratios 28 days after the last vaccination||1.24|1.01|
92205125|NCT02914275|184309835|NON_INFERIORITY|The non-inferiority criterion for the GMT ratio (adjusted analysis) was that the upper bound of the two-sided 95% CI of the GMT ratio for the Comparator QIV GMT, divided by the Seqirus QIV GMT, should not exceed 1.5|Geometric Mean Titer Ratio|0.97|||||TWO_SIDED|95.0|0.86|1.09||||||Non-inferiority of immune responses to B/VIC vaccine strain measured in terms of Geometric Mean Titer ratios 28 days after the last vaccination||1.09|0.86|
92205126|NCT02914275|184309836|NON_INFERIORITY|The noninferiority criterion for the SCR difference was that the upper bound of the two-sided 95% CI on the difference between SCRs for Comparator QIV minus the Seqirus QIV SCR should not exceed 10%.|Seroconversion Rate Difference|-10.3|||||TWO_SIDED|95.0|-15.4|-5.1||||||Non-inferiority of immune responses to A/H1N1 vaccine strain measured in terms of Seroconversion Rate Difference 28 days after the last vaccination||-5.1|-15.4|
92205127|NCT02914275|184309836|NON_INFERIORITY|The noninferiority criterion for the SCR difference was that the upper bound of the two-sided 95% CI on the difference between SCRs for Comparator QIV minus the Seqirus QIV SCR should not exceed 10%.|Seroconversion Rate Difference|2.6|||||TWO_SIDED|95.0|-2.54|7.8||||||Non-inferiority of immune responses to A/H3N2 vaccine strain measured in terms of Seroconversion Rate Difference 28 days after the last vaccination||7.8|-2.54|
92205128|NCT02914275|184309836|NON_INFERIORITY|The noninferiority criterion for the SCR difference was that the upper bound of the two-sided 95% CI on the difference between SCRs for Comparator QIV minus the Seqirus QIV SCR should not exceed 10%.|Seroconversion Rate Difference|3.1|||||TWO_SIDED|95.0|-2.1|8.2||||||Non-inferiority of immune responses to B/YAM vaccine strain measured in terms of Seroconversion Rate Difference 28 days after the last vaccination||8.2|-2.1|
92205129|NCT02914275|184309836|NON_INFERIORITY|The noninferiority criterion for the SCR difference was that the upper bound of the two-sided 95% CI on the difference between SCRs for Comparator QIV minus the Seqirus QIV SCR should not exceed 10%.|Seroconversion Rate Difference|0.9|||||TWO_SIDED|95.0|-4.2|6.1||||||Non-inferiority of immune responses to B/VIC vaccine strain measured in terms of Seroconversion Rate Difference 28 days after the last vaccination||6.1|-4.2|
92205130|NCT00923260|184309845|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||t-test, 2 sided|||||||0.79
92205131|NCT00923260|184309846|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||t-test, 2 sided|||||||0.49
92205132|NCT00923260|184309847|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||t-test, 2 sided|||||||0.96
92205133|NCT00923260|184309848|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||t-test, 2 sided|||||||.86
92205134|NCT00923260|184309849|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||t-test, 2 sided|||||||0.60
92205135|NCT00923260|184309850|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||t-test, 2 sided|||||||0.76
92205136|NCT00923260|184309851|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||t-test, 2 sided|||||||0.45
92205137|NCT00923260|184309852|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||t-test, 2 sided|||||||0.81
92205138|NCT00923260|184309853|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||t-test, 2 sided|||||||0.92
92205139|NCT00923260|184309854|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||||||0.01
92205140|NCT00923260|184309855|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||t-test, 2 sided|||||||0.15
92205141|NCT00923260|184309856|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||t-test, 2 sided|||||||0.20
92205142|NCT00923260|184309857|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 2 sided|||||||0.64
92205143|NCT00923260|184309858|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||t-test, 2 sided|||||||0.92
92205144|NCT00923260|184309859|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
92205145|NCT00923260|184309860|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||t-test, 2 sided|||||||0.21
92205146|NCT00923260|184309861|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||t-test, 2 sided|||||||0.65
92205147|NCT00923260|184309862|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||t-test, 2 sided|||||||0.33
92205148|NCT00923260|184309863|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||t-test, 2 sided|||||||0.39
92205149|NCT00923260|184309864|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||t-test, 2 sided|||||||0.47
92205150|NCT00923260|184309865|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||t-test, 2 sided|||||||0.75
92205151|NCT00923260|184309866|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||t-test, 2 sided|||||||0.94
92205152|NCT00923260|184309867|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|||||||0.74
92205153|NCT00923260|184309868|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||t-test, 2 sided|||||||0.72
92205154|NCT00923260|184309869|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||t-test, 2 sided|||||||0.67
92205155|NCT00923260|184309870|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 2 sided|||||||0.64
92205156|NCT00923260|184309871|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||t-test, 2 sided|||||||0.038
92205157|NCT00923260|184309872|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||t-test, 2 sided|||||||0.14
92205158|NCT00923260|184309873|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||t-test, 2 sided|||||||0.21
92205159|NCT00923260|184309874|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||t-test, 2 sided|||||||0.42
92205160|NCT00923260|184309875|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||t-test, 2 sided|||||||0.18
92205161|NCT00923260|184309876|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||t-test, 2 sided|||||||0.10
92205162|NCT00923260|184309877|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||t-test, 2 sided|||||||0.16
92205163|NCT00923260|184309878|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||t-test, 2 sided|||||||0.18
92205164|NCT00923260|184309879|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||t-test, 2 sided|||||||0.40
92205165|NCT00923260|184309880|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||t-test, 2 sided|||||||0.44
92205166|NCT00923260|184309881|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||t-test, 2 sided|||||||0.035
92205167|NCT00923260|184309882|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||t-test, 2 sided|||||||0.07
92205168|NCT00923260|184309883|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||t-test, 2 sided|||||||0.99
92205169|NCT00923260|184309884|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||t-test, 2 sided|||||||0.96
92205170|NCT00923260|184309885|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||t-test, 2 sided|||||||0.44
92205171|NCT00923260|184309886|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||t-test, 2 sided|||||||0.97
92205172|NCT00923260|184309887|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||t-test, 2 sided|||||||0.85
92205173|NCT00923260|184309888|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||t-test, 2 sided|||||||0.61
92205174|NCT00923260|184309889|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||t-test, 2 sided|||||||0.55
92205175|NCT00923260|184309890|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||t-test, 2 sided|||||||0.65
92205176|NCT00923260|184309891|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|||||||0.74
92205177|NCT00923260|184309892|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||t-test, 2 sided|||||||0.57
92205178|NCT00923260|184309893|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||t-test, 2 sided|||||||0.87
92205179|NCT00923260|184309894|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||t-test, 2 sided|||||||0.28
92205180|NCT00923260|184309895|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 2 sided|||||||0.64
92205181|NCT00923260|184309896|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||t-test, 2 sided|||||||0.42
92205182|NCT00923260|184309897|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||t-test, 2 sided|||||||0.72
92205183|NCT00923260|184309898|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||t-test, 2 sided|||||||0.68
92205184|NCT00923260|184309899|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||t-test, 2 sided|||||||0.08
92205185|NCT00923260|184309900|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||t-test, 2 sided|||||||0.71
92205186|NCT00923260|184309901|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||t-test, 2 sided|||||||0.32
92205187|NCT00923260|184309902|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 2 sided|||||||0.64
92205188|NCT00923260|184309903|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||t-test, 2 sided|||||||0.52
92205189|NCT00923260|184309904|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||t-test, 2 sided|||||||0.59
92205190|NCT00923260|184309905|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||t-test, 2 sided|||||||0.57
92205191|NCT00923260|184309906|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||t-test, 2 sided|||||||0.43
92205192|NCT00923260|184309907|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||t-test, 2 sided|||||||0.72
92205193|NCT00923260|184309908|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||t-test, 2 sided|||||||0.56
92205194|NCT03507777|184309922|SUPERIORITY||||||<|0.0001|||||||Linear mixed model|||||||<0.0001
92205195|NCT03507777|184309923|SUPERIORITY|||||||0.2487|||||||A Cox regression model|||||||0.2487
92205196|NCT03507777|184309924|SUPERIORITY|||||||0.2952|||||||A Cox regression model|||||||0.2952
92205197|NCT00355199|184309944|SUPERIORITY||Hazard Ratio (HR)|0.99|||<|0.05|TWO_SIDED|95.0|0.66|1.48|||Regression, Cox||HR refers to R-HDS (R-CHOP is the reference level)|||1.48|0.66|<0.05
92205198|NCT00355199|184309946|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.05|TWO_SIDED|95.0|0.29|1.21|||Regression, Cox||HR refers to R-HDS (R-CHOP is the reference level)|||1.21|0.29|<0.05
92205199|NCT00355199|184309947|SUPERIORITY||Hazard Ratio (HR)|0.93|||<|0.05|TWO_SIDED|95.0|0.57|1.52|||Regression, Cox||HR refers to R-HDS (R-CHOP is the reference level)|||1.52|0.57|<0.05
92205200|NCT02071290|184309950|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||||||0.56
92205201|NCT02071290|184309951|SUPERIORITY|||||||0.287|||||||Mixed Models Analysis|||||||0.287
92205202|NCT02071290|184309952|SUPERIORITY|||||||0.597|||||||Mixed Models Analysis|||||||0.597
92205203|NCT02071290|184309953|SUPERIORITY|||||||0.307|||||||Mixed Models Analysis|||||||0.307
92205204|NCT02071290|184309954|SUPERIORITY|||||||0.646|||||||Mixed Models Analysis|||||||0.646
92205205|NCT02071290|184309955|SUPERIORITY|||||||0.757|||||||Mixed Models Analysis|||||||0.757
92205206|NCT02071290|184309956|SUPERIORITY|||||||0.075|||||||Mixed Models Analysis|||||||0.075
92205207|NCT02071290|184309957|SUPERIORITY|||||||0.967|||||||Mixed Models Analysis|||||||0.967
92205208|NCT02071290|184309958|SUPERIORITY|||||||0.637|||||||Mixed Models Analysis|||||||0.637
92205209|NCT02071290|184309959|SUPERIORITY|||||||0.664|||||||Mixed Models Analysis|||||||0.664
92205210|NCT02071290|184309960|SUPERIORITY|||||||0.661|||||||Mixed Models Analysis|||||||0.661
92205211|NCT02071290|184309961|SUPERIORITY|||||||0.916|||||||Mixed Models Analysis|||||||0.916
92205212|NCT02071290|184309962|SUPERIORITY|||||||0.437|||||||Mixed Models Analysis|||||||0.437
92205213|NCT02071290|184309963|SUPERIORITY|||||||0.353|||||||Mixed Models Analysis|||||||0.353
92205214|NCT02071290|184309964|SUPERIORITY|||||||0.99|||||||Mixed Models Analysis|||||||0.99
92205215|NCT02071290|184309965|SUPERIORITY|||||||0.085|||||||Mixed Models Analysis|||||||0.085
92205216|NCT02071290|184309966|SUPERIORITY|||||||0.371|||||||Mixed Models Analysis|||||||0.371
92205217|NCT02071290|184309967|SUPERIORITY|||||||0.106|||||||Mixed Models Analysis|||||||0.106
92205218|NCT02071290|184309968|SUPERIORITY|||||||0.829|||||||Mixed Models Analysis|||||||0.829
92205219|NCT02071290|184309969|SUPERIORITY|||||||0.323|||||||Wilcoxon (Mann-Whitney)|||||||0.323
92205220|NCT02071290|184309970|SUPERIORITY|||||||0.287|||||||Wilcoxon (Mann-Whitney)|||||||0.287
92205221|NCT02071290|184309971|SUPERIORITY|||||||0.151|||||||Wilcoxon (Mann-Whitney)|||||||0.151
92205222|NCT02071290|184309972|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.510
92327300|NCT02100670|184559828|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.09||||0.5118|TWO_SIDED|95.0|0.84|1.43||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.43|0.84|0.5118
92205223|NCT02071290|184309973|SUPERIORITY|||||||0.348|||||||Chi-squared|||||||0.348
92205224|NCT02071290|184309974|SUPERIORITY|||||||0.911|||||||Chi-squared|||||||0.911
92205225|NCT05126563|184309979|SUPERIORITY||LS Means|0.054|STANDARD_ERROR_OF_MEAN|0.738||0.9416|TWO_SIDED|95.0|-1.42|1.53|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Extreme fatigue scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.53|-1.42|0.9416
92205226|NCT05126563|184309980|SUPERIORITY||LS Means|-0.172|STANDARD_ERROR_OF_MEAN|0.685||0.8021|TWO_SIDED|95.0|-1.54|1.2|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Brain fog scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.20|-1.54|0.8021
92205227|NCT05126563|184309981|SUPERIORITY||LS Means|0.399|STANDARD_ERROR_OF_MEAN|0.515||0.4417|TWO_SIDED|95.0|-0.63|1.43|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms. - Headache scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.43|-0.63|0.4417
92205228|NCT05126563|184309982|SUPERIORITY||Slope|0.542|STANDARD_ERROR_OF_MEAN|0.721||0.455|TWO_SIDED|95.0|-0.9|1.98|||ANCOVA|||The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Sleep disturbances scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.98|-0.90|0.4550
92205229|NCT05126563|184309983|SUPERIORITY||LS Means|-0.047|STANDARD_ERROR_OF_MEAN|0.466||0.92|TWO_SIDED|95.0|-0.98|0.89|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Loss of taste scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.89|-0.98|0.9200
92205230|NCT05126563|184309984|SUPERIORITY||LS Means|-0.16|STANDARD_ERROR_OF_MEAN|0.36||0.6589|TWO_SIDED|95.0|-0.88|0.56|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in PHQ-9 scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.56|-0.88|0.6589
92205231|NCT05126563|184309985|SUPERIORITY||LS Means|0.162|STANDARD_ERROR_OF_MEAN|0.725||0.824|TWO_SIDED|95.0|-1.29|1.61|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms Extreme Fatigue scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.61|-1.29|0.8240
92205232|NCT05126563|184309986|SUPERIORITY||LS Means|-0.009|STANDARD_ERROR_OF_MEAN|0.686||0.9892|TWO_SIDED|95.0|-1.38|1.36|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Brain Fog scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.36|-1.38|0.9892
92205233|NCT05126563|184309987|SUPERIORITY||LS Means|0.439|STANDARD_ERROR_OF_MEAN|0.513||0.3952|TWO_SIDED|95.0|-0.59|1.47|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Headache scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.47|-0.59|0.3952
92205234|NCT05126563|184309988|SUPERIORITY||LS Means|0.535|STANDARD_ERROR_OF_MEAN|0.704||0.4504|TWO_SIDED|95.0|-0.87|1.94|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Sleep Disturbances scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.94|-0.87|0.4504
92205235|NCT05126563|184309989|SUPERIORITY||LS Means|-0.161|STANDARD_ERROR_OF_MEAN|0.469||0.7318|TWO_SIDED|95.0|-1.1|0.78|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Loss of Taste scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.78|-1.10|0.7318
92205236|NCT05126563|184309990|SUPERIORITY||LS Means|-0.215|STANDARD_ERROR_OF_MEAN|0.357||0.5485|TWO_SIDED|95.0|-0.93|0.5|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Loss of Smell scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.50|-0.93|0.5485
92205237|NCT05126563|184310021|SUPERIORITY||LS Means|-0.377|STANDARD_ERROR_OF_MEAN|0.407||0.3577|TWO_SIDED|95.0|-1.19|0.44|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Non-Neurological Symptoms. - Dyspnea at rest scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.44|-1.19|0.3577
92205238|NCT05126563|184310022|SUPERIORITY||LS Means|-0.203|STANDARD_ERROR_OF_MEAN|0.563||0.7196|TWO_SIDED|95.0|-1.33|0.92|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Non-Neurological Symptoms. - Dyspnea during activity scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.92|-1.33|0.7196
92205239|NCT05126563|184310023|SUPERIORITY||LS Means|-0.306|STANDARD_ERROR_OF_MEAN|0.435||0.4847|TWO_SIDED|95.0|-1.18|0.56|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Non-Neurological Symptoms. - Cough scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.56|-1.18|0.4847
92205240|NCT05126563|184310024|SUPERIORITY||LS Means|0.619|STANDARD_ERROR_OF_MEAN|0.661||0.3535|TWO_SIDED|95.0|-0.71|1.94|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Non-Neurological Symptoms. - Body aches scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.94|-0.71|0.3535
92205241|NCT05126563|184310025|SUPERIORITY||LS Means|0.472|STANDARD_ERROR_OF_MEAN|0.655||0.4746|TWO_SIDED|95.0|-0.84|1.78|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Non-Neurological Symptoms. - Joint Pain scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.78|-0.84|0.4746
92205242|NCT05126563|184310026|SUPERIORITY||LS Means|-1.433|STANDARD_ERROR_OF_MEAN|2.141||0.5059|TWO_SIDED|95.0|-5.72|2.85|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Subject's energy - Fatigue Assessment form scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||2.85|-5.72|0.5059
92205243|NCT05126563|184310027|SUPERIORITY||LS Means|-6.095|STANDARD_ERROR_OF_MEAN|4.99||0.2269|TWO_SIDED|95.0|-16.08|3.89|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups.|The null hypothesis is that the difference in change from baseline to Weeks 26 in Short Form 36 Health Survey Questionnaire (General Health) between treatment groups (HB-adMSCs - Placebo) is equal to zero.||3.89|-16.08|0.2269
92205244|NCT05126563|184310028|SUPERIORITY||LS Means|-0.122|STANDARD_ERROR_OF_MEAN|1.392||0.8735|TWO_SIDED|95.0|-2.91|2.66|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in PHQ-9 scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||2.66|-2.91|0.8735
92205245|NCT05126563|184310029|SUPERIORITY||LS Means|-3.424|STANDARD_ERROR_OF_MEAN|4.82||0.4802|TWO_SIDED|95.0|-13.07|6.22|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in PHQ-9 scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||6.22|-13.07|0.4802
92205246|NCT06612255|184310030|OTHER|Ratio (%) of adjusted geometric means with comparison presented as test (powder)/reference (tablet).|Fixed Effect Analysis|51.68|||||TWO_SIDED|90.0|45.71|58.43||||||Results obtained from mixed effects model of natural log transformed pharmacokinetic parameters including terms for regimen, period and sequence fitted as fixed effects and subject nested within sequence fitted as a random effect.||58.43|45.71|
92205247|NCT00964886|184310036|SUPERIORITY_OR_OTHER|||||||0.7|||||||ANCOVA|||In an intent-to-treat analysis of all randomized participants assigned to experimental drug (desipramine) or active placebo (benztropine) an analysis of variance compared mean Descriptor Differential Scale scores at 12 weeks (or last observation carried forward) adjusted fro mean baseline score ( = ).||||0.7
92205248|NCT00964886|184310037|SUPERIORITY_OR_OTHER|||||||0.84|||||||ANCOVA|Means are adjusted for baseline Roland and Morris scores.||In the intent-to-treat sample of all randomized participants assigned to experimental drug (desipramine) or active placebo (benztropine) an analysis of variance (ANOVA) compared mean Roland and Morris scores at 12 weeks adjusted for mean baseline scores.||||0.84
92205249|NCT00964886|184310038|SUPERIORITY_OR_OTHER|||||||0.6|||||||ANCOVA|||||||0.6
92327301|NCT02100670|184559829|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|0.93||||0.6918|TWO_SIDED|95.0|0.67|1.31||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.31|0.67|0.6918
92205250|NCT00964886|184310039|SUPERIORITY_OR_OTHER|||||||0.8|||||||ANCOVA|||This analysis compares outcomes for participants assigned at baseline to receive cognitive behavioral therapy or not to receive cognitive behavioral therapy (behavioral effect)||||0.8
92205251|NCT03484273|184310043|SUPERIORITY||||||<|0.001|||||||ANOVA|Repeated Measures ANOVA||Repeated Measured ANOVA was used to compare the 4 compression garment configurations.||||<0.001
92205252|NCT03484273|184310044|SUPERIORITY||||||<|0.001|||||||Repeated Measures ANOVA|||||||<0.001
92205253|NCT03484273|184310045|SUPERIORITY||||||<|0.001|||||||Repeated Measures ANOVA|||||||<0.001
92205254|NCT03484273|184310046|SUPERIORITY|||||||0.01|||||||Repeated Measures ANOVA|||||||0.01
92205255|NCT03484273|184310047|SUPERIORITY||||||<|0.001|||||||Repeated Measures ANOVA|||||||<0.001
92205256|NCT03484273|184310048|SUPERIORITY|||||||0.001|||||||Repeated Measures ANOVA|||||||0.001
92205257|NCT03484273|184310049|SUPERIORITY|||||||0.04|||||||Repeated Measures ANOVA|||||||0.04
92205258|NCT00468104|184310051|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||A univariate analysis was done to identify possible predictors of successful resolution of symptoms. The chi-square analysis was used to compare the percent successful.||||<0.001
92205259|NCT00294515|184310056|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|||<=|0.0002|TWO_SIDED|95.0|0.25|0.66|||Cochran-Mantel-Haenszel|Stratified by Center Pools||||0.66|0.25|<=0.0002
92205260|NCT00294515|184310057|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.2|||<|0.0001||95.0|0.11|0.37|||Cochran-Mantel-Haenszel|Stratified by Center Pools||||0.37|0.11|<0.0001
92205261|NCT00294515|184310058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.37||||0.0001||95.0|0.22|0.6|||Cochran-Mantel-Haenszel|Stratified by Center Pools||||0.60|0.22|0.0001
92205262|NCT00294515|184310059|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.0126||95.0|0.35|0.88|||Cochran-Mantel-Haenszel|Stratified by Center Pools||||0.88|0.35|0.0126
92205263|NCT00294515|184310060|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.01||95.0|0.34|0.86|||Cochran-Mantel-Haenszel|Stratified by Center Pools||||0.86|0.34|0.0100
92205264|NCT01941719|184310110|EQUIVALENCE|This trial aims to show the enhanced education is no better and no worse than the standard education|Mean Difference (Final Values)|-0.1212||||0.077|TWO_SIDED|||||significance level set at 0.05|ANCOVA|At each follow-up point, multivariate ANCOVA models were used to test for significant changes from the baseline||A mixed-effect model with repeated measures is used to compare the difference of group over time.||||0.0770
92205265|NCT01941719|184310111|EQUIVALENCE|This trial aims to show the new treatment is no better and no worse||||||0.6638||||||The threshold of significance level set at 0.05|Mixed Models Analysis|||||||0.6638
92205266|NCT01941719|184310112|EQUIVALENCE|The test will compare the number of complications between the two groups|||||<|0.05|||||||ANOVA|||||||< 0.05
92205267|NCT01670760|184310130|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.69||||0.69|TWO_SIDED||||||ANOVA|||||||0.69
92205268|NCT01167452|184310131|SUPERIORITY_OR_OTHER||Slope|-0.74|STANDARD_DEVIATION|0.19||0.0004|TWO_SIDED||||||Regression, Linear|Multivariate adaptive regression spline (MARS) analysis||We conducted a linear regression analysis of the log transformed elimination rate constant vs. the log transformed weight for each participant.||||0.0004
92205269|NCT01167452|184310131|SUPERIORITY_OR_OTHER||Slope|-0.56|STANDARD_DEVIATION|0.2|<|0.0001|TWO_SIDED||||||Regression, Linear|Multiple Adaptive Regression Spline (MARS)||We conducted a linear regression analysis of the log transformed elimination rate constant vs. the log transformed body mass index for each participant.||||<0.0001
92205270|NCT00858364|184310163|NON_INFERIORITY|Non-inferiority was declared if the upper confidence limit for the hazard ratio (darbepoetin alfa to placebo) was less than 1.15 using a 1-sided significance level of 0.025.|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.83|1.01|||||A hazard ratio \< 1.0 indicates a lower risk of death for darbepoetin alfa relative to placebo.|The primary analysis used the Cox Proportional Hazard Model stratified by the randomization stratification factors (geographic region, histology, and screening hemoglobin), with treatment group as the only covariate.||1.01|0.83|
92205271|NCT00858364|184310163|NON_INFERIORITY|Non-inferiority was declared if the upper confidence limit for the hazard ratio (darbepoetin alfa to placebo) was less than 1.15 using a 1-sided significance level of 0.025.|Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.83|1.0|||||A hazard ratio \< 1.0 indicates a lower risk of death for darbepoetin alfa relative to placebo.|As a sensitivity analysis, an unstratified Cox Proportional Hazard Model with treatment group as the only covariate was conducted.||1.00|0.83|
92205272|NCT00858364|184310163|SUPERIORITY|If non-inferiority was demonstrated for both OS and PFS and superiority was demonstrated for the transfusion endpoint, superiority was then tested for both OS and PFS using the Hochberg procedure to adjust for multiplicity.||||||0.07|||||||Stratified log-rank test|Stratified by the randomization stratification factors (geographic region, histology, screening hemoglobin)||||||0.070
92205273|NCT00858364|184310163|SUPERIORITY|||||||0.047|||||||Log Rank|Unstratified log rank test||||||0.047
92205274|NCT00858364|184310163|OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.84|1.02||||||To evaluate the potential effect of cross-in (participants in the placebo group who began treatment with an erythropoiesis-stimulating agent (ESA) at any point after randomization), a sensitivity analysis was conducted that included ESA use as a time-dependent covariate in a Cox regression model stratified by the randomization stratification factors (geographic region, histology, and screening hemoglobin).||1.02|0.84|
92205275|NCT00858364|184310164|NON_INFERIORITY|If non-inferiority was declared for OS, non-inferiority would be declared for PFS if the upper confidence limit for the hazard ratio was less than 1.15 using a 1-sided significance level of 0.025.|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.87|1.04|||||A hazard ratio \< 1.0 indicates a lower risk of death or progression for darbepoetin alfa relative to placebo.|The primary analysis of PFS used a Cox Proportional Hazard Model stratified by the randomization stratification factors (geographic region, histology, and screening hemoglobin), with treatment group as the only covariate.||1.04|0.87|
92205276|NCT00858364|184310164|NON_INFERIORITY|If non-inferiority was declared for OS, non-inferiority would be declared for PFS if the upper confidence limit for the hazard ratio was less than 1.15 using a 1-sided significance level of 0.025.|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.87|1.04|||||A hazard ratio \< 1.0 indicates a lower risk of death or progression for darbepoetin alfa relative to placebo.|As a sensitivity analysis, an unstratified Cox Proportional Hazard Model with treatment group as the only covariate was conducted.||1.04|0.87|
92205277|NCT00858364|184310164|SUPERIORITY|If non-inferiority was demonstrated for both OS and PFS and superiority was demonstrated for the transfusion endpoint, superiority was then tested for both OS and PFS using the Hochberg procedure to adjust for multiplicity.||||||0.31|||||||Stratified log-rank test|Stratified by the randomization stratification factors (geographic region, histology, screening hemoglobin).||||||0.31
92205278|NCT00858364|184310164|SUPERIORITY|||||||0.27|||||||Log Rank|Unstratified log rank test||||||0.27
92205279|NCT00858364|184310164|OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.88|1.05||||||To evaluate the potential effect of cross-in (participants in the placebo group who began treatment with an erythropoiesis-stimulating agent (ESA) at any point after randomization), a sensitivity analysis was conducted that included ESA use as a time-dependent covariate in a Cox regression model stratified by the randomization stratification factors (geographic region, histology, and screening hemoglobin).||1.05|0.88|
92268677|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.7||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 (IU/mL) threshold was calculated||2.7|-1.7|
92205280|NCT00858364|184310165|SUPERIORITY|If non-inferiority was declared for OS and PFS, superiority would be declared for the transfusion endpoint if the p-value from a two-sided test of significance using the Cochran-Mantel-Haenszel method was less than 0.05 in favor of the darbepoetin alfa group.|Odds Ratio (OR)|0.704|||<|0.001|TWO_SIDED|95.0|0.573|0.864|||Cochran-Mantel-Haenszel||An odds ratio \< 1.0 indicates a lower event rate for darbepoetin alfa relative to placebo.|The primary analysis of the incidence of a transfusion or hemoglobin ≤ 8.0 g/dL from day 29 to EOETP was based on the Cochran-Mantel-Haenszel method to test for treatment group differences while adjusting for the randomization stratification factors (geographic region, histology, and screening hemoglobin).||0.864|0.573|< 0.001
92205281|NCT00858364|184310165|OTHER||Odds Ratio (OR)|0.705|||<|0.001|TWO_SIDED|95.0|0.574|0.866|||Regression, Logistic||An odds ratio \< 1.0 indicates a lower event rate for darbepoetin alfa relative to placebo.|As a sensitivity analysis a logistic regression analysis was conducted, stratified by the randomization stratification factors (geographic region, histology, screening hemoglobin).||0.866|0.574|< 0.001
92205282|NCT00858364|184310167|OTHER||Odds Ratio (OR)|1.173||||0.076|TWO_SIDED|95.0|0.983|1.401|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel method adjusted for the randomization stratification factors (geographic region, histology, screening hemoglobin).|An odds ratio \< 1.0 indicates a lower event rate for darbepoetin alfa relative to placebo.|||1.401|0.983|0.076
92205283|NCT00858364|184310167|OTHER||Odds Ratio (OR)|1.173||||0.078|TWO_SIDED|95.0|0.982|1.401|||Cochran-Mantel-Haenszel|Unstratified analysis||||1.401|0.982|0.078
92205284|NCT00858364|184310169|OTHER||Odds Ratio (OR)|0.741||||0.003|TWO_SIDED|95.0|0.61|0.901|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel method adjusted for the randomization stratification factors (geographic region, histology, screening hemoglobin).|An odds ratio \< 1.0 indicates a lower event rate for darbepoetin alfa relative to placebo.|||0.901|0.610|0.003
92205285|NCT00858364|184310169|OTHER||Odds Ratio (OR)|0.758||||0.003|TWO_SIDED|95.0|0.63|0.913|||Cochran-Mantel-Haenszel|Unstratified analysis||||0.913|0.630|0.003
92205286|NCT01655693|184310175|SUPERIORITY||Hazard Ratio (HR)|1.0|||>|0.991|TWO_SIDED|95.0||||Treatment comparison of DT pooled with BCS used non-stratified Log-rank test at significance level p=0.05.|Log Rank|Log rank test is used after checking the proportional hazards (PH) assumption is valid. The Wilcoxon test is used when the PH assumption fails.|The hazard ratio was controlled for the overall type I error rate at 5% (2-sided) corresponding to 95% confidence interval (CI) and type II error rate as 15%.|Initial 24 month assessment: the primary aim was to demonstrate the superiority of DT pooled (20 mg/m2 and 30 mg/m2) compared to BSC treatment and not individual DT groups per protocol. OS was estimated using the Kaplan-Meier method. The comparison of treatment groups (pooled DT groups versus BSC group) was performed using a non-stratified log-rank test as the primary analysis. The Cox model and Wilcoxon test was used for sensitivity analysis.||||>0.991
92205287|NCT01655693|184310175|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.796|TWO_SIDED|95.0||||Treatment comparison of DT pooled with BCS used non-stratified Log-rank test at significance level p=0.05.|Log Rank|Log rank test is used after checking the proportional hazards (PH) assumption is valid. The Wilcoxon test is used when the PH assumption fails.|The hazard ratio was controlled for the overall type I error rate at 5% (2-sided) corresponding to 95% confidence interval (CI) and type II error rate as 15%.|Follow-up 45 month assessment: the primary aim was to demonstrate the superiority of DT pooled (20 mg/m2 and 30 mg/m2) compared to BSC treatment and not individual DT groups per protocol. OS was estimated using the Kaplan-Meier method. The comparison of treatment groups (pooled DT groups versus BSC group) was performed using a non-stratified log-rank test as the primary analysis. The Cox model and Wilcoxon test was used for sensitivity analysis.||||0.796
92205288|NCT01655693|184310176|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.7|TWO_SIDED|95.0||||Treatment comparison with BCS using non-stratified Log-rank test at significance level p=0.05.|Log Rank||Hazard ratio for treatment variable was determined by Cox model. The hazard ratio was controlled for the overall type I error rate at 5% (2-sided) and type II error rate as 15%.|PFS was estimated using Kaplan-Meier methods and plotted as curves by treatment group. For comparison between treatment groups (pooled DT 20 mg/m2 and 30 mg/m2 versus BSC) used Log-rank test as primary analysis. Hazard ratio, mean, and mean PFS rate were given with corresponding 95% CI.||||0.7
92205289|NCT01655693|184310177|SUPERIORITY|||||||1||||||Treatment comparison with BCS using Fisher's exact test at significance level p=0.05.|Fisher Exact|||The comparisons between groups (pooled DT 20 mg/m2 and 30mg/m2 versus BSC) used Fisher's exact test.||||1.0
92205290|NCT00291642|184310226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.35|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-4.61|-2.09|||ANCOVA|||||-2.09|-4.61|<0.001
92205291|NCT00291642|184310226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.25|STANDARD_ERROR_OF_MEAN|0.637|<|0.001|TWO_SIDED|95.0|-4.5|-2.0|||ANCOVA|||||-2.00|-4.50|<0.001
92205292|NCT00291642|184310226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.13|STANDARD_ERROR_OF_MEAN|0.637|<|0.001|TWO_SIDED|95.0|-5.38|-2.88|||ANCOVA|||||-2.88|-5.38|<0.001
92327302|NCT02100670|184559829|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.23||||0.2389|TWO_SIDED|95.0|0.87|1.73||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.73|0.87|0.2389
92327303|NCT02100670|184559829|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.0||||0.9817|TWO_SIDED|95.0|0.74|1.37||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.37|0.74|0.9817
92205293|NCT00291642|184310226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.74|STANDARD_ERROR_OF_MEAN|0.637|<|0.001|TWO_SIDED|95.0|-4.99|-2.49|||ANCOVA|||||-2.49|-4.99|<0.001
92205294|NCT01472549|184310292|SUPERIORITY||Risk Ratio (RR)|0.55||||0.02|TWO_SIDED|95.0|0.34|0.9|||Chi-squared|||||0.90|0.34|0.02
92205295|NCT01472549|184310293|SUPERIORITY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
92205296|NCT01472549|184310294|SUPERIORITY||Risk Ratio (RR)|0.76||||0.37|TWO_SIDED|95.0|0.43|1.37|||Chi-squared|||||1.37|0.43|0.37
92205297|NCT01472549|184310295|SUPERIORITY||Risk Ratio (RR)|0.73||||0.49|TWO_SIDED|95.0|0.3|1.8|||Chi-squared|||||1.80|0.30|0.49
92205298|NCT01472549|184310296|SUPERIORITY|||||||0.08|||||||Fisher Exact|||||||0.08
92205299|NCT01472549|184310297|SUPERIORITY||Risk Ratio (RR)|2.02||||0.56|TWO_SIDED|95.0|0.18|22.11|||Fisher Exact|||||22.11|0.18|0.56
92205300|NCT03001076|184310300|SUPERIORITY||Difference in LS mean|-28.45|STANDARD_ERROR_OF_MEAN|3.022|<|0.001|TWO_SIDED|95.0|-34.376|-22.531|||ANCOVA|||||-22.531|-34.376|<0.001
92205301|NCT03001076|184310301|SUPERIORITY||Difference in LS mean|-23.56|STANDARD_ERROR_OF_MEAN|2.777|<|0.001|TWO_SIDED|95.0|-29.005|-18.121|||ANCOVA|||||-18.121|-29.005|<0.001
92205302|NCT03001076|184310302|SUPERIORITY||Difference in LS mean|-17.99|STANDARD_ERROR_OF_MEAN|2.018|<|0.001|TWO_SIDED|95.0|-21.94|-14.03|||ANCOVA|||||-14.030|-21.940|<0.001
92205303|NCT03001076|184310303|SUPERIORITY||Difference in LS mean|-19.32|STANDARD_ERROR_OF_MEAN|2.341|<|0.001|TWO_SIDED|95.0|-23.908|-14.732|||ANCOVA|||||-14.732|-23.908|<0.001
92205304|NCT03001076|184310304|SUPERIORITY||Location shift|-31.045|||<|0.001|TWO_SIDED|95.0|-44.761|-17.401|||Wilcoxon Rank Sum Test||The location shift and asymptotic 95% confidence interval are based on Hodges-Lehman estimation.|||-17.401|-44.761|<0.001
92205305|NCT03001076|184310305|SUPERIORITY||Difference in LS mean|-4.53|STANDARD_ERROR_OF_MEAN|5.24|=|0.388|TWO_SIDED|95.0|-14.877|5.812|||ANCOVA|||||5.812|-14.877|=0.388
92205306|NCT03001076|184310306|SUPERIORITY||Difference in LS mean|-5.89|STANDARD_ERROR_OF_MEAN|1.845|=|0.002|TWO_SIDED|95.0|-9.528|-2.25|||ANCOVA|||||-2.250|-9.528|=0.002
92205307|NCT03001076|184310308|SUPERIORITY||Difference in LS mean|-31.09|STANDARD_ERROR_OF_MEAN|2.238|<|0.001|TWO_SIDED|95.0|-35.498|-26.682|||ANCOVA|||Change from Baseline to Week 4||-26.682|-35.498|<0.001
92205308|NCT03001076|184310308|SUPERIORITY||Difference in LS mean|-29.12|STANDARD_ERROR_OF_MEAN|2.513|<|0.001|TWO_SIDED|95.0|-34.074|-24.168|||ANCOVA|||Change from Baseline to Week 8||-24.168|-34.074|<0.001
92205309|NCT03001076|184310309|SUPERIORITY||Difference in LS mean|-25.26|STANDARD_ERROR_OF_MEAN|2.004|<|0.001|TWO_SIDED|95.0|-29.204|-21.308|||ANCOVA|||Change from Baseline to Week 4||-21.308|-29.204|<0.001
92205310|NCT03001076|184310309|SUPERIORITY||Difference in LS mean|-23.75|STANDARD_ERROR_OF_MEAN|2.268|<|0.001|TWO_SIDED|95.0|-28.219|-19.276|||ANCOVA|||Change from Baseline to Week 8||-19.276|-28.219|<0.001
92205311|NCT03001076|184310310|SUPERIORITY||Difference in LS mean|-20.41|STANDARD_ERROR_OF_MEAN|1.513|<|0.001|TWO_SIDED|95.0|-23.39|-17.43|||ANCOVA|||Change from Baseline to Week 4||-17.430|-23.390|<0.001
92205312|NCT03001076|184310310|SUPERIORITY||Difference in LS mean|-18.46|STANDARD_ERROR_OF_MEAN|1.651|<|0.001|TWO_SIDED|95.0|-21.71|-15.206|||ANCOVA|||Change from Baseline to Week 8||-15.206|-21.710|<0.001
92205313|NCT03001076|184310311|SUPERIORITY||Difference in LS mean|-0.8|STANDARD_ERROR_OF_MEAN|4.99|=|0.873|TWO_SIDED|95.0|-10.663|9.059|||ANCOVA|||Change from Baseline to Week 4||9.059|-10.663|=0.873
92205314|NCT03001076|184310311|SUPERIORITY||Difference in LS mean|-0.08|STANDARD_ERROR_OF_MEAN|5.131|=|0.988|TWO_SIDED|95.0|-10.215|10.055|||ANCOVA|||Change from Baseline to Week 8||10.055|-10.215|=0.988
92205315|NCT03001076|184310312|SUPERIORITY||Difference in LS mean|-8.59|STANDARD_ERROR_OF_MEAN|1.619|<|0.001|TWO_SIDED|95.0|-11.778|-5.394|||ANCOVA|||Change from Baseline to Week 4||-5.394|-11.778|<0.001
92205316|NCT03001076|184310312|SUPERIORITY||Difference in LS mean|-6.42|STANDARD_ERROR_OF_MEAN|1.712|<|0.001|TWO_SIDED|95.0|-9.798|-3.049|||ANCOVA|||Change from Baseline to Week 8||-3.049|-9.798|<0.001
92205317|NCT02327351|184310314|SUPERIORITY||survival distribution function|86.0||||0.95|TWO_SIDED|95.0|79.0|94.0|||Gray test|||||94|79|0.95
92205318|NCT02327351|184310320|SUPERIORITY|||||||0.35|||||||Log Rank|||||||0.35
92205319|NCT04602221|184310321|OTHER||Difference of adjusted means|-0.339|STANDARD_ERROR_OF_MEAN|3.8242||0.9296|TWO_SIDED|95.0|-7.975|7.297|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the primary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||7.297|-7.975|0.9296
92205320|NCT04602221|184310321|OTHER||Difference of adjusted means|4.002|STANDARD_ERROR_OF_MEAN|3.8224||0.299|TWO_SIDED|95.0|-3.631|11.634|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the primary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||11.634|-3.631|0.2990
92205321|NCT04602221|184310321|OTHER||Difference of adjusted means|-1.258|STANDARD_ERROR_OF_MEAN|3.6608||0.7322|TWO_SIDED|95.0|-8.565|6.05|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the primary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||6.050|-8.565|0.7322
92205322|NCT04602221|184310322|OTHER||Difference of adjusted means|0.347|STANDARD_ERROR_OF_MEAN|1.563||0.8249|TWO_SIDED|95.0|-2.776|3.471|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||3.471|-2.776|0.8249
92205323|NCT04602221|184310322|OTHER||Difference of adjusted means|-1.085|STANDARD_ERROR_OF_MEAN|1.5889||0.4973|TWO_SIDED|95.0|-4.26|2.091|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||2.091|-4.260|0.4973
92268678|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-2.3||||||95.0|-5.8|1.8||||||For Tetanus the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 (IU/mL) threshold was calculated||1.8|-5.8|
92205324|NCT04602221|184310322|OTHER||Difference of adjusted means|-2.858|STANDARD_ERROR_OF_MEAN|1.5266||0.0658|TWO_SIDED|95.0|-5.909|0.192|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||0.192|-5.909|0.0658
92205325|NCT04602221|184310323|OTHER||Difference of adjusted means|0.0053|STANDARD_ERROR_OF_MEAN|0.00798||0.5081|TWO_SIDED|95.0|-0.0106|0.0213|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||0.0213|-0.0106|0.5081
92205326|NCT04602221|184310323|OTHER||Difference of adjusted means|0.0058|STANDARD_ERROR_OF_MEAN|0.00798||0.4723|TWO_SIDED|95.0|-0.0102|0.0217|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||0.0217|-0.0102|0.4723
92205327|NCT04602221|184310323|OTHER||Difference of adjusted means|0.0333|STANDARD_ERROR_OF_MEAN|0.00767|<|0.0001|TWO_SIDED|95.0|0.018|0.0486|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||0.0486|0.0180|< .0001
92205328|NCT02576587|184310324|OTHER|Conditional logistic regression was used to assess the relationship of PAF and AHI on matched pairs of case and control.|Odds Ratio (OR)|0.98|STANDARD_ERROR_OF_MEAN|0.007||0.054|TWO_SIDED|95.0|0.97|1.0|||Conditional logistic regression|||||1.00|0.97|0.054
92205329|NCT02576587|184310324|OTHER|Conditional logistic regression was used to assess the relationship of PAF and LA volume on matched pairs of case and control.|Odds Ratio (OR)|1.02|STANDARD_ERROR_OF_MEAN|0.007||0.014|TWO_SIDED|95.0|1.0|1.03|||Conditional logistic regression|N = 270 (135 cases and 135 controls)||||1.03|1.00|0.014
92205330|NCT02576587|184310324|OTHER|Conditional logistic regression was used to assess the relationship of PAF and LA volume index on matched pairs of case and control.|Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|0.015||0.03|TWO_SIDED|95.0|1.0|1.06|||Conditional logistic regression|N=268 (134 cases and 134 controls)||||1.06|1.00|0.030
92205331|NCT02576587|184310324|OTHER|Conditional logistic regression was used to assess the relationship of PAF and LA systolic strain apical four-chamber (A4C) on matched pairs of case and control.|Odds Ratio (OR)|0.99|STANDARD_ERROR_OF_MEAN|0.013||0.39|TWO_SIDED|95.0|0.96|1.01|||Conditional logistic regression|N=214 (107 cases and 107 controls)||||1.01|0.96|0.39
92205332|NCT02576587|184310324|OTHER|Conditional logistic regression was used to assess the relationship of PAF and LA systolic strain apical two-chamber (A2C) on matched pairs of case and control.|Odds Ratio (OR)|0.99|STANDARD_ERROR_OF_MEAN|0.013||0.49|TWO_SIDED|95.0|0.97|1.02|||Conditional logistic regression|N=212 (106 cases and 106 controls)||||1.02|0.97|0.49
92205333|NCT02576587|184310325|OTHER||median of change|3.4||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test was used to compare pre- and post- treatment outcomes.|||Inter-Quartile Range of the change (post minus pre) is (-7.0, 13.7).|||0.16
92205334|NCT02576587|184310326|OTHER||median of change|1.8||||0.088|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test was used to compare pre- and post- treatment outcomes.|Inter-quartile range of the change (post minus pre) is (-2.0, 6.0).|||||0.088
92205335|NCT02576587|184310327|OTHER||median of change|-3.7||||0.006|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test was used to compare pre- and post- treatment outcomes.|Inter-quartile range of the change (post minus pre) is (-8.0, -0.57).|||||0.006
92205336|NCT02576587|184310328|OTHER||median of change|-0.7||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test was used to compare pre- and post- treatment outcomes.|Inter-quartile range of the change (post minus pre) is (-6.2, 10.7).|||||0.59
92205337|NCT02576587|184310329|OTHER||mean of change|0.62|STANDARD_DEVIATION|4.2||0.65|TWO_SIDED||||||t-test, 2 sided|Paired t test was used to compare pre- and post- treatment outcomes.||||||0.65
92205338|NCT02576587|184310330|OTHER||mean of change|-1.7|STANDARD_DEVIATION|12.2||0.65|TWO_SIDED||||||t-test, 2 sided|Paired t test was used to compare pre- and post- treatment outcomes.||||||0.65
92205339|NCT01056718|184310415|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of treatment. Each subject served as his/her own control.||||<0.05
92205340|NCT01056718|184310416|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
92205341|NCT01056718|184310417|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
92205342|NCT01056718|184310418|SUPERIORITY_OR_OTHER||||||=|0.078|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.078
92205343|NCT01056718|184310419|SUPERIORITY_OR_OTHER||||||=|0.186|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.186
92205344|NCT01056718|184310420|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
92205345|NCT01056718|184310421|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
92205346|NCT01056718|184310422|SUPERIORITY_OR_OTHER||||||=|0.06|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.06
92205347|NCT01056718|184310423|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
92205348|NCT01056718|184310424|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
92205349|NCT01056718|184310425|SUPERIORITY_OR_OTHER||||||=|0.85|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.85
92205350|NCT01056718|184310426|SUPERIORITY_OR_OTHER||||||=|0.4|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.40
92205351|NCT01056718|184310427|SUPERIORITY_OR_OTHER||||||=|0.64|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.64
92205352|NCT01056718|184310428|SUPERIORITY_OR_OTHER||||||=|0.49|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.49
92205353|NCT01056718|184310429|SUPERIORITY_OR_OTHER||||||=|0.47|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.47
92205354|NCT01056718|184310430|SUPERIORITY_OR_OTHER||||||=|0.55|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.55
92205355|NCT01056718|184310431|SUPERIORITY_OR_OTHER||||||=|0.64|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.64
92205356|NCT01056718|184310432|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
92205357|NCT01056718|184310433|SUPERIORITY_OR_OTHER||||||=|0.526|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.526
92205358|NCT01056718|184310434|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
92205359|NCT01056718|184310435|SUPERIORITY_OR_OTHER||||||=|0.925|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.925
92205360|NCT01056718|184310436|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
92327304|NCT02100670|184559830|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.06||||0.7003|TWO_SIDED|95.0|0.79|1.43||P-value from chi-square test of survival analysis|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to cooling sensation. The 95% confidence intervals of cox proportional hazard ratio.|||1.43|0.79|0.7003
92205361|NCT01056718|184310437|SUPERIORITY_OR_OTHER||||||=|0.458|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.458
92327305|NCT02100670|184559830|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.01||||0.9565|TWO_SIDED|95.0|0.75|1.35||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to cooling sensation. The 95% confidence intervals of cox proportional hazard ratio.|||1.35|0.75|0.9565
92205362|NCT01056718|184310438|SUPERIORITY_OR_OTHER||||||=|0.561|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.561
92205363|NCT01056718|184310439|SUPERIORITY_OR_OTHER||||||=|0.734|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.734
92205364|NCT01056718|184310440|SUPERIORITY_OR_OTHER||||||=|0.129|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.129
92205365|NCT00738894|184310449|SUPERIORITY|This is the first of two primary outcomes for this study. Assumptions for power calculations: expected event free for medical management 92% at 24 months; expected event free for device closure 96.4% at 24 months (55% risk reduction); 664 subjects randomly assigned 2:1 to device closure or medical management provides 80% power with 15% attrition (over 5 years) and 1-sided alpha = 0.024 to allow for interim analysis (interim analysis later rescinded from plan).|Hazard Ratio (HR)|0.23||||0.001|TWO_SIDED|95.0|0.09|0.62||1-sided p-value was adjusted for multiplicity with 2nd primary outcome using Dubey and Armitage-Parmer (D/AP) procedure.|Log Rank||Hazard ratio (test/control) obtained from Cox proportional hazards model with treatment arm as sole explanatory variable, the exponentiated coefficient of which provided the hazard ratio. Unadjusted for multiplicity.|"Test null hypothesis of equal or lower recurrent stroke-free survivorship for device closure compared to medical management.~H0: Sd(t) ≤ Sm(t) for all t, versus H1: Sd(t) \> Sm(t) for all t, where Sd(t) and Sm(t) are true Kaplan-Meier product-limit survivor functions for the device closure and medical management arms and t is time from randomization to event or censoring.~Event-free subjects were censored at time of last follow-up. Significance threshold (1-sided alpha) = 0.025."||0.62|0.09|0.001
92205366|NCT00738894|184310450|SUPERIORITY|This is the second of two primary outcomes for this study. Assumptions for power calculations: expected proportion of brain infarct is 3-7 times the clinical stroke rate; expected brain infarct proportion for medical management 14.5% (2.9% clinical stroke x 5); expected brain infarct for device closure 6.5% (55% risk reduction); 597 subjects (10% attrition from 664) provides 73% power with 1-sided alpha = 0.0125 (based conservatively on a Bonferroni adjustment of alpha/2).|Risk Difference (RD)|0.056||||0.024|TWO_SIDED|95.0|0.003|0.108||1-sided p-value was adjusted for multiplicity with 1st primary outcome using Dubey and Armitage-Parmer (D/AP) procedure.|z-test, 1-sided||Unadjusted for multiplicity.|"Test null hypothesis of equal or higher proportion with brain infarct for device closure compared to medical management.~H0: Pm - Pd ≤ 0, versus H1: Pm - Pd \> 0, where Pd and Pm are true proportions of subjects with brain infarct for the device closure and medical management arms.~Significance threshold (1-sided alpha) = 0.025."||0.108|0.003|0.024
92205367|NCT02656329|184310454|NON_INFERIORITY|Non-inferiority of AdreView™ group over SoC group was demonstrated if upper bound of the 95% confidence interval (CI) for the hazard ratio (HR) (AdreView™ group / SoC) was equal to 1.20.|Hazard Ratio (HR)|1.047||||0.8459|TWO_SIDED|95.0|0.295|3.719||Threshold for significance at 0.025 level.|Log Rank||AdreView™ vs. Standard of Care|Analysis was performed using the Cox proportional hazards model stratified by country, with method of treatment guidance (SoC vs AdreView™ group) as the only covariate.||3.719|0.295|0.8459
92205368|NCT00719329|184310476|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.75|||||TWO_SIDED|95.0|0.7|0.81|||Binomial Regression, Log Link|General Estimating Equations (GEE) to account for clustered allocation|Prevalence Rate Ratio - Comparing Single CHX Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.81|0.70|
92205369|NCT00719329|184310476|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.71|||||TWO_SIDED|95.0|0.66|0.77|||Binomial Regression, Log Link|General Estimating Equations (GEE) to account for clustered allocation|Prevalence Rate Ratio - Comparing Multiple CHX Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.77|0.66|
92205370|NCT00719329|184310477|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.78|||||TWO_SIDED|95.0|0.74|0.82|||Binomial Regression, Log Link|Generalized Estimating Equations to account for clustered allocation|Prevalence Ratio Ratio - Comparing Single Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.82|0.74|
92205371|NCT00719329|184310477|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.61|||||TWO_SIDED|95.0|0.57|0.65|||Binomial Regression, Log Link|Generalized Estimating Equations to account for clustered allocation|Prevalence Rate Ratio - Comparing Multiple Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.65|0.57|
92205372|NCT00719329|184310478|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.92|||||TWO_SIDED|95.0|0.89|0.96|||Binomial Regression, Log Link|General Estimating Equations to adjust for clustered allocation|Prevalence Rate Ratio - Comparing Single Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.96|0.89|
92205373|NCT00719329|184310478|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.57|||||TWO_SIDED|95.0|0.53|0.63|||Binomial Regression, Log Link|General Estimating Equations to account for clustered allocation|Prevalence Ratio Ratio - Comparing Multiple Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.63|0.53|
92205374|NCT02186600|184310479|OTHER|Hierarchical linear modeling for intent-to-treat analysis to analyze time X group interactions, adjusted for baseline total body lean mass and height.||||||0.7|||||||hierarchical linear modeling|controlled for total lean mass and height||||||0.7
92205375|NCT02186600|184310480|OTHER|hierarchical linear modeling||||||0.01|||||||hierarchical linear modeling|||||||0.01
92205376|NCT02186600|184310481|OTHER|Hierarchical linear modeling|||||<|0.007|||||||hierarchical linear modeling|||||||<0.007
92205377|NCT03026075|184310482|SUPERIORITY||||||<|0.01|||||||McNemar|||"The primary objective of the study is to evaluate the effectiveness of MCS in cleansing a poorly prepared colon.~A sample size of 47 patients is required as per a McNemar test to determine that the paired discordant proportions are significantly different under the followings assumptions:~Probability of Type I Error (α) = 0.05, Power (1 - β) = 0.8 Proportion switching from + to - = 0, Proportion switching from - to + = 0.6 Potential of dropout 10% (i.e. 4 cases)"||||<0.01
92205378|NCT04927247|184310501|OTHER||Difference in percentage|7.9||||0.6302|TWO_SIDED|95.0|-15.8|31.7|||Exact Cochran-Mantel-Haenszel test|||||31.7|-15.8|0.6302
92205379|NCT04927247|184310502|OTHER||Hazard Ratio (HR)|0.97||||0.9382|TWO_SIDED|95.0|0.43|2.16|||Stratified log-rank test|||||2.16|0.43|0.9382
92205380|NCT04927247|184310503|OTHER||Difference in percentage|-16.8||||0.1143|TWO_SIDED|95.0|-34.4|0.8|||Exact Cochran-Mantel-Haenszel test|||||0.8|-34.4|0.1143
92205381|NCT04927247|184310504|OTHER||Rate ratio|1.09||||0.7549|TWO_SIDED|95.0|0.63|1.89|||Negative binomial model|||||1.89|0.63|0.7549
92205382|NCT02001064|184310538|SUPERIORITY||Odds Ratio (OR)|2.3||||0.32|TWO_SIDED||||||t-test, 1 sided|||||||0.32
92205383|NCT02001064|184310539|SUPERIORITY|||||||0.073||||||Cohen's d (ranks) = -.049|Wilcoxon (Mann-Whitney)|||||||0.073
92205384|NCT02001064|184310540|SUPERIORITY|||||||0.24||||||Cohen's d=0.31|Wilcoxon (Mann-Whitney)|||||||0.24
92205385|NCT00432666|184310548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.97|STANDARD_ERROR_OF_MEAN|1.49|<|0.001|TWO_SIDED|95.0|1.9|8.3|||Regression, Logistic|||The null hypothesis was equality of the chance (OR = 1) for a clinically relevant treatment effect between incobotulinumtoxinA (Xeomin) and placebo at Week 4 for wrist flexors. Responders were defined as subjects with an improvement of at least 1 point in the Ashworth score compared with Baseline. The dependent variable was the response to treatment, the independent variables were treatment, Ashworth score at the Baseline Visit, pre-treated patient status, gender, age, BMI, and pooled sites.||8.30|1.90|<0.001
92205386|NCT03541174|184310639|SUPERIORITY||LS Mean difference to placebo|-3.79||||0.0042|TWO_SIDED|97.5|-6.76|-0.82||Mixed effects model for Repeated Measures: Change from baseline in SiSBP = baseline SiSBP + treatment + visit + treatment x visit + baseline x visit.|Mixed Models Analysis|||||-0.82|-6.76|0.0042
92205387|NCT03541174|184310639|SUPERIORITY||LS Mean difference to placebo|-3.73||||0.0046|TWO_SIDED|97.5|-6.67|-0.78||Mixed effects model for Repeated Measures: Change from baseline in SiSBP = baseline SiSBP + treatment + visit + treatment x visit + baseline x visit.|Mixed Models Analysis|||||-0.78|-6.67|0.0046
92205388|NCT03541174|184310640|SUPERIORITY||LS mean difference to placebo.|-5.82|||<|0.0001|TWO_SIDED|95.0|-7.94|-3.71||Mixed effects model for Repeated Measures: Change from DB-WD baseline in SiSBP = DB-WD baseline SiSBP + stratum (randomized treatment in DB part) + treatment + visit + treatment x visit + DB-WD baseline x visit.|Mixed Models Analysis|||||-3.71|-7.94|<0.0001
92205389|NCT03541174|184310641|OTHER||LS Mean difference to placebo|-3.94|||<|0.0001|TWO_SIDED|95.0|-5.57|-2.31||Mixed effects model for Repeated Measures: Change from baseline in SiDBP = baseline SiDBP + treatment + visit + treatment x visit + baseline x visit.|Mixed Models Analysis|||||-2.31|-5.57|<0.0001
92205390|NCT03541174|184310641|OTHER||LS Mean difference to placebo|-4.47|||<|0.0001|TWO_SIDED|95.0|-6.09|-2.85||Mixed effects model for Repeated Measures: Change from baseline in SiDBP = baseline SiDBP + treatment + visit + treatment x visit + baseline x visit.|Mixed Models Analysis|||||-2.85|-6.09|<0.0001
92205391|NCT03541174|184310642|OTHER||LS Mean difference to placebo|-4.18|||<|0.0001|TWO_SIDED|95.0|-6.25|-2.12|||ANCOVA|||24-hour mean systolic (SBP)||-2.12|-6.25|<0.0001
92205392|NCT03541174|184310642|OTHER||LS Mean difference to placebo|-5.9|||<|0.0001|TWO_SIDED|95.0|-7.94|-3.85|||ANCOVA|||24-hour mean systolic (SBP)||-3.85|-7.94|<0.0001
92205393|NCT03541174|184310642|OTHER||LS Mean difference to placebo|-4.32|||<|0.0001|TWO_SIDED|95.0|-5.66|-2.98|||ANCOVA|||24-hour mean diastolic (DBP)||-2.98|-5.66|<0.0001
92205394|NCT03541174|184310642|OTHER||LS Mean|-5.81|||<|0.0001|TWO_SIDED|95.0|-7.14|-4.49|||ANCOVA|||24-hour mean diastolic (DBP)||-4.49|-7.14|<0.0001
92205395|NCT03541174|184310643|OTHER||LS Mean difference to placebo|-5.19|||<|0.0001|TWO_SIDED|95.0|-6.62|-3.76||Mixed effects model for Repeated Measures: Change from DB-WD baseline in SiDBP = Double-blind withdrawal baseline SiDBP + stratum (randomized treatment in DB part) + treatment + visit + treatment x visit + Double-blind withdrawal baseline x visit.|Mixed Models Analysis|||||-3.76|-6.62|<0.0001
92205396|NCT03541174|184310644|OTHER||LS Mean difference to placebo|-6.53|||<|0.0001|TWO_SIDED|95.0|-8.5|-4.56|||ANCOVA|||24-hour mean systolic (SBP)||-4.56|-8.50|<0.0001
92205397|NCT03541174|184310644|OTHER||LSM Mean difference to placebo|-6.75|||<|0.0001|TWO_SIDED|95.0|-7.98|-5.52|||ANCOVA|||24-hour mean diastolic (DBP)||-5.52|-7.98|<0.0001
92205398|NCT00605215|184310645|OTHER||Risk Ratio (RR)|0.823|STANDARD_ERROR_OF_MEAN|0.09||0.0746|TWO_SIDED|95.0|0.664|1.02||Threshold for significance at 0.05 level.|Negative Binomial Regression|||Analysis was performed using baseline-adjusted negative binomial regression, where a participant's number of relapses during the double-blind, placebo-controlled phase served as the response variable and an offset based on the log of participant's exposure in years was employed to adjust for variability of treatment exposure. The model included baseline EDSS score, log of (prior 2-year number of relapses+1) and CGR as covariates.||1.020|0.664|0.0746
92268679|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.7||||||For Tetanus the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 (IU/mL) threshold was calculated||2.7|-1.7|
92268680|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-2.3||||||95.0|-7.6|3.0||||||For Polio Type 1 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||3.0|-7.6|
92268681|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-4.3||||||95.0|-11.4|2.6||||||For Polio Type 2 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||2.6|-11.4|
92268682|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.3||||||95.0|-5.0|4.3||||||For Polio Type 3 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||4.3|-5.0|
92268683|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.5||||||95.0|-3.6|3.5||||||For Polio Type 1 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||3.5|-3.6|
92205399|NCT00605215|184310645|OTHER||Risk Ratio (RR)|0.741|STANDARD_ERROR_OF_MEAN|0.082||0.0067|TWO_SIDED|95.0|0.596|0.92|||Negative Binomial Regression|||Analysis was performed using baseline-adjusted negative binomial regression, where a participant's number of relapses during the double-blind, placebo-controlled phase served as the response variable and an offset based on the log of participant's exposure in years was employed to adjust for variability of treatment exposure. The model included baseline EDSS score, log of (prior 2-year number of relapses+1) and CGR as covariates.||0.920|0.596|0.0067
92205400|NCT00275262|184310661|SUPERIORITY_OR_OTHER|||||||0.125|||||||ANOVA|The statistical method used for a 1-way ANOVA between treatment groups.||The final on treatment values were included in the analysis.||||0.125
92205401|NCT00275262|184310662|SUPERIORITY_OR_OTHER|||||||0.299|||||||ANOVA|The statistical method used for a 1-way ANOVA between treatment groups.||The final on treatment values were included in the analysis.||||0.299
92205402|NCT00705679|184310712|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.37|TWO_SIDED|95.0|0.61|1.21||The two-sided test a priori threshold for statistical significance is 0.05 against an alternative of 0% effectiveness for estimated effectiveness levels between 33.3% and 50.0%.|Regression, Cox|The Cox proportional-hazards model was stratified by site.|A ratio less than 1 indicates a lower rate of HIV infection in the active arm compared to the placebo arm. A ratio more than 1 indicates a higher rate of HIV infection in the active arm compared to the placebo arm.|The null hypothesis is that the active product will be no more than 25% effective. The trial was designed so that 94 events per pairwise comparison are needed to detect 55% effectiveness while ruling out a lower effectiveness of 25% with 90% power and a false-positive error rate of 0.0025.||1.21|0.61|0.37
92205403|NCT00705679|184310715|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.49||||0.07|TWO_SIDED|95.0|0.97|2.29||The two-sided test a priori threshold for statistical significance is 0.05 against an alternative of 0% effectiveness for estimated effectiveness levels between 33.3% and 50.0%.|Regression, Cox|The Cox proportional-hazards model was stratified by site.|A ratio less than 1 indicates a lower rate of HIV infection in the active arm compared to the placebo arm. A ratio more than 1 indicates a higher rate of HIV infection in the active arm compared to the placebo arm.|The null hypothesis is that the active product will be no more than 25% effective. The trial was designed so that 94 events per pairwise comparison are needed to detect 55% effectiveness while ruling out a lower effectiveness of 25% with 90% power and a false-positive error rate of 0.0025.||2.29|0.97|0.07
92205404|NCT00705679|184310718|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.81|TWO_SIDED|95.0|0.73|1.49||The two-sided test a priori threshold for statistical significance is 0.05 against an alternative of 0% effectiveness for estimated effectiveness levels between 33.3% and 50.0%.|Regression, Cox|The Cox proportional-hazards model was stratified by site.|A ratio less than 1 indicates a lower rate of HIV infection in the active arm compared to the placebo arm. A ratio more than 1 indicates a higher rate of HIV infection in the active arm compared to the placebo arm.|The null hypothesis is that the active product will be no more than 25% effective. The trial was designed so that 94 events per pairwise comparison are needed to detect 55% effectiveness while ruling out a lower effectiveness of 25% with 90% power and a false-positive error rate of 0.0025.||1.49|0.73|0.81
92205405|NCT00705679|184310719|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED||||||Fisher Exact|Two-sided Fisher's Exact Test.||||||0.004
92205406|NCT03527173|184310720|NON_INFERIORITY|VE in reduction of shigellosis is demonstrated if lower limit (LL) of 90% CI of VE estimated with Miettinen-Nurminen (M-N) method is above 0. This estimated CI was complemented with Barnard test. The LL of the 90% CI for VE calculated with M-N method is above 0 if the p-value of the one-sided Barnard test is below 5%.|Vaccine efficacy rate|-9.4||||0.4266|TWO_SIDED|90.0|-96.7|33.7|||1-sided Barnard Unconditional Exact Test|||To demonstrate the efficacy of two vaccinations with 25 µg of S. sonnei vaccine in healthy adults compared to placebo in preventing shigellosis, fulfilling the protocol primary case definition, after challenge with S. sonnei 53G strain. Vaccine efficacy (VE) rate was assessed as 1-Risk Ratio(RR) with RR = ratio of proportion of subjects with shigellosis in the vaccinated group on the proportion of subjects with shigellosis in the placebo group.||33.7|-96.7|0.4266
92205407|NCT01248780|184310739|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92327306|NCT02100670|184559830|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.07||||0.6216|TWO_SIDED|95.0|0.82|1.4||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to cooling sensation. The 95% confidence intervals of cox proportional hazard ratio.|||1.40|0.82|0.6216
92205408|NCT01248780|184310740|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92205409|NCT01248780|184310741|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92205410|NCT01248780|184310742|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92205411|NCT03809429|184310756|OTHER||Difference|1.31||||0.0185|TWO_SIDED|95.0|0.22|2.4|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||||2.40|0.22|0.0185
92205412|NCT03809429|184310759|OTHER||Difference|1.14||||0.0281|TWO_SIDED|95.0|0.12|2.15|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||\>=10 mm at end of stimulation||2.15|0.12|0.0281
92205413|NCT03809429|184310759|OTHER||Difference|0.99||||0.0258|TWO_SIDED|95.0|0.12|1.86|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||\>=12 mm at end of stimulation||1.86|0.12|0.0258
92205414|NCT03809429|184310759|OTHER||Difference|0.58||||0.0672|TWO_SIDED|95.0|-0.04|1.2|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||\>=15 mm at end of stimulation||1.20|-0.04|0.0672
92205415|NCT03809429|184310759|OTHER||Difference|0.21||||0.339|TWO_SIDED|95.0|-0.22|0.63|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||\>=17 mm at end of stimulation||0.63|-0.22|0.3390
92205416|NCT03809429|184310761|OTHER||Difference|1.11||||0.0962|TWO_SIDED|95.0|-0.2|2.41|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||||2.41|-0.20|0.0962
92205417|NCT03809429|184310763|OTHER||Difference|0.51||||0.1894|TWO_SIDED|95.0|-0.25|1.27|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||Number of embryos||1.27|-0.25|0.1894
92205418|NCT03809429|184310763|OTHER||Difference|-0.03||||0.9361|TWO_SIDED|95.0|-0.68|0.63|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||Number of Good-quality embryos||0.63|-0.68|0.9361
92205419|NCT03809429|184310764|OTHER||Difference|0.37||||0.2025|TWO_SIDED|95.0|-0.2|0.94|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||Total number of blastocysts||0.94|-0.20|0.2025
92205420|NCT03809429|184310764|OTHER||Difference|0.12||||0.5946|TWO_SIDED|95.0|-0.31|0.54|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||Number of good-quality blastocysts||0.54|-0.31|0.5946
92205421|NCT03809429|184310770|OTHER||Difference|16.94|||<|0.0001|TWO_SIDED|95.0|12.13|21.74|||ANOVA|ANOVA model with treatment, age strata, and AMH group as factors.||||21.74|12.13|<0.0001
92205422|NCT03809429|184310771|OTHER||Difference|1.56|||<|0.0001|TWO_SIDED|95.0|1.19|1.92|||ANOVA|ANOVA model with treatment, age strata, and AMH group as factors.||||1.92|1.19|<0.0001
92205423|NCT03809429|184310772|OTHER||Difference|6.99||||0.1579|TWO_SIDED|95.0|-2.71|16.7|||Regression, Logistic|Logistic regression model with treatment, age strata, and AMH group as factors.||||16.70|-2.71|0.1579
92327307|NCT02100670|184559834|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|2.43||||0.0408|TWO_SIDED|95.0|1.04|5.7||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to complete pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||5.70|1.04|0.0408
92205424|NCT03809429|184310774|OTHER||Difference|7.66||||0.1134|TWO_SIDED|95.0|-1.82|17.14|||Regression, Logistic|Logistic regression model with treatment, age strata, and AMH group as factors.||||17.14|-1.82|0.1134
92205425|NCT03809429|184310775|OTHER||Difference|8.81||||0.0642|TWO_SIDED|95.0|-0.52|18.14|||Regression, Logistic|Logistic regression model with treatment, age strata, and AMH group as factors.||||18.14|-0.52|0.0642
92205426|NCT03809429|184310776|OTHER||Difference|7.74||||0.1002|TWO_SIDED|95.0|-1.49|16.97|||Regression, Logistic|Logistic regression model with treatment, age strata, and AMH group as factors.||||16.97|-1.49|0.1002
92205427|NCT02245737|184310802|SUPERIORITY||LS Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.77||0.232|TWO_SIDED|95.0|-2.447|0.594|||Mixed Models Analysis|||||0.594|-2.447|0.232
92205428|NCT02245737|184310802|SUPERIORITY||LS Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.78||0.599|TWO_SIDED|95.0|-1.124|1.947|||Mixed Models Analysis|||||1.947|-1.124|0.599
92205429|NCT02245737|184310803|SUPERIORITY||LS Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.83||0.971|TWO_SIDED|95.0|-1.609|1.669|||Mixed Models Analysis|||||1.669|-1.609|0.971
92205430|NCT02245737|184310803|SUPERIORITY||LS Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.85||0.923|TWO_SIDED|95.0|-1.58|1.743|||Mixed Models Analysis|||||1.743|-1.580|0.923
92205431|NCT02245737|184310804|SUPERIORITY||LS Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.53||0.796|TWO_SIDED|95.0|-1.172|0.899|||Mixed Models Analysis|||||0.899|-1.172|0.796
92205432|NCT02245737|184310804|SUPERIORITY||LS Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.53||0.252|TWO_SIDED|95.0|-0.437|1.66|||Mixed Models Analysis|||||1.660|-0.437|0.252
92205433|NCT02245737|184310805|SUPERIORITY||LS Mean Difference (Final Values)|1.11|STANDARD_ERROR_OF_MEAN|1.4||0.428|TWO_SIDED|95.0|-1.637|3.852|||Mixed Models Analysis|||||3.852|-1.637|0.428
92205434|NCT02245737|184310805|SUPERIORITY||LS Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|1.42||0.926|TWO_SIDED|95.0|-2.918|2.655|||Mixed Models Analysis|||||2.655|-2.918|0.926
92205435|NCT02245737|184310806|SUPERIORITY||LS Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.24||0.533|TWO_SIDED|95.0|-0.322|0.622|||Mixed Models Analysis|||||0.622|-0.322|0.533
92205436|NCT02245737|184310806|SUPERIORITY||LS Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.24||0.537|TWO_SIDED|95.0|-0.328|0.63|||Mixed Models Analysis|||||0.630|-0.328|0.537
92205437|NCT02245737|184310808|SUPERIORITY||LS Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|1.13||0.116|TWO_SIDED|95.0|-0.441|3.986|||Mixed Models Analysis|||||3.986|-0.441|0.116
92205438|NCT02245737|184310808|SUPERIORITY||LS Mean Difference (Final Values)|1.45|STANDARD_ERROR_OF_MEAN|1.15||0.208|TWO_SIDED|95.0|-0.808|3.704|||Mixed Models Analysis|||||3.704|-0.808|0.208
92205439|NCT02245737|184310809|SUPERIORITY||LS Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.36||0.379|TWO_SIDED|95.0|-0.391|1.027|||Mixed Models Analysis|||||1.027|-0.391|0.379
92205440|NCT02245737|184310809|SUPERIORITY||LS Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.37||0.992|TWO_SIDED|95.0|-0.714|0.721|||Mixed Models Analysis|||||0.721|-0.714|0.992
92205441|NCT02245737|184310810|SUPERIORITY||LS Mean Difference (Final Values)|-51.27|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-56.963|-45.578|||ANCOVA|||||-45.578|-56.963|<0.001
92205442|NCT02245737|184310810|SUPERIORITY||LS Mean Difference (Final Values)|-65.48|STANDARD_ERROR_OF_MEAN|2.77|<|0.001|TWO_SIDED|95.0|-70.947|-60.022|||ANCOVA|||||-60.022|-70.947|<0.001
92205443|NCT02245737|184310811|SUPERIORITY||LS Mean Difference (Final Values)|-57.99|STANDARD_ERROR_OF_MEAN|2.47|<|0.001|TWO_SIDED|95.0|-62.865|-53.108|||ANCOVA|||||-53.108|-62.865|<0.001
92205444|NCT02245737|184310811|SUPERIORITY||LS Mean Difference (Final Values)|-73.25|STANDARD_ERROR_OF_MEAN|2.37|<|0.001|TWO_SIDED|95.0|-77.926|-68.575|||ANCOVA|||||-68.575|-77.926|<0.001
92205445|NCT02245737|184310812|SUPERIORITY||LS Mean Difference (Final Values)|-19.87|STANDARD_ERROR_OF_MEAN|11.33||0.081|TWO_SIDED|95.0|-42.21|2.464|||ANCOVA|||||2.464|-42.210|0.081
92205446|NCT02245737|184310812|SUPERIORITY||LS Mean Difference (Final Values)|-15.31|STANDARD_ERROR_OF_MEAN|10.78||0.157|TWO_SIDED|95.0|-36.555|5.938|||ANCOVA|||||5.938|-36.555|0.157
92205447|NCT02245737|184310813|SUPERIORITY||LS Mean Difference (Final Values)|-2.62|STANDARD_ERROR_OF_MEAN|1.33||0.05|TWO_SIDED|95.0|-5.243|-0.002|||ANCOVA|||||-0.002|-5.243|0.050
92205448|NCT02245737|184310813|SUPERIORITY||LS Mean Difference (Final Values)|-2.12|STANDARD_ERROR_OF_MEAN|1.27||0.095|TWO_SIDED|95.0|-4.618|0.373|||ANCOVA|||||0.373|-4.618|0.095
92205449|NCT02245737|184310814|SUPERIORITY||LS Mean Difference (Final Values)|-13.68|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-18.785|-8.574|||ANCOVA|||||-8.574|-18.785|<0.001
92327308|NCT02100670|184559834|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.31||||0.4507|TWO_SIDED|95.0|0.65|2.65||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to complete pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||2.65|0.65|0.4507
92205450|NCT02245737|184310814|SUPERIORITY||LS Mean Difference (Final Values)|-17.66|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|-22.887|-12.428|||ANCOVA|||||-12.428|-22.887|<0.001
92205451|NCT02245737|184310815|SUPERIORITY||LS Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.426|TWO_SIDED|95.0|-0.033|0.014|||ANCOVA|||||0.014|-0.033|0.426
92205452|NCT02245737|184310815|SUPERIORITY||LS Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.66|TWO_SIDED|95.0|-0.029|0.018|||ANCOVA|||||0.018|-0.029|0.660
92205453|NCT02245737|184310816|SUPERIORITY||LS Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.0||0.21|TWO_SIDED|95.0|-0.015|0.003|||ANCOVA|||||0.003|-0.015|0.210
92205454|NCT02245737|184310816|SUPERIORITY||LS Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.568|TWO_SIDED|95.0|-0.013|0.007|||ANCOVA|||||0.007|-0.013|0.568
92327309|NCT02100670|184559834|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.38||||0.315|TWO_SIDED|95.0|0.73|2.61||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to complete pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||2.61|0.73|0.3150
92205455|NCT02245737|184310817|SUPERIORITY||LS Mean Difference (Final Values)|-2.34|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|-3.258|-1.413|||ANCOVA|||||-1.413|-3.258|<0.001
92205456|NCT02245737|184310817|SUPERIORITY||LS Mean Difference (Final Values)|-3.18|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|-4.118|-2.247|||ANCOVA|||||-2.247|-4.118|<0.001
92205457|NCT02929329|184310841|SUPERIORITY|"The overall type I error was 0.05 for 2-sided testing across primary and secondary outcomes.~Control for multiple comparisons was achieved using the following testing algorithm: if the primary outcome met the P-value threshold of 0.05, the alpha error would be divided unequally between cardiovascular death (96% of the overall alpha error, or 0.048) and change from baseline to week 24 in the Kansas City Cardiomyopathy Questionnaire total symptom score (4% of the overall alpha error, or 0.002)."|Hazard Ratio (HR)|0.92||||0.0252|TWO_SIDED|95.0|0.86|0.99|||Regression, Cox|Stratified by randomization setting and region, including terms for baseline estimated glomerular filtration rate (eGFR) and treatment group.|Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the treatment group and baseline eGFR as covariates.|||0.99|0.86|0.0252
92205458|NCT02929329|184310841|SUPERIORITY|||||||0.0211|||||||Stratified log-rank test|Log-rank test stratified by randomization setting and region.||||||0.0211
92205459|NCT02929329|184310841|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.86|0.99|||||Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the treatment group and baseline eGFR as covariates.|Competing risk subdistribution hazard ratio and associated 95% confidence intervals for treatment were computed. Deaths not included in the endpoint were considered as the competing risk.||0.99|0.86|
92205460|NCT02929329|184310842|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.8555|TWO_SIDED|95.0|0.92|1.11||If significance for the primary outcome was determined, cardiovascular death was tested against an alpha of 0.048.|Regression, Cox|Stratified by randomization setting and region, including terms for baseline eGFR and treatment group.|Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the treatment group and baseline eGFR as covariates.|||1.11|0.92|0.8555
92205461|NCT02929329|184310842|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.92|1.11|||||Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the treatment group and baseline eGFR as covariates.|Competing risk subdistribution hazard ratio and associated 95% confidence intervals for treatment were computed. Deaths not included in the endpoint were considered as the competing risk.||1.11|0.92|
92205462|NCT02929329|184310843|OTHER||Least Squares (LS) Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|95.0|-1.4|0.48|||||Treatment difference = Omecamtiv mecarbil - Placebo|||0.48|-1.40|
92205463|NCT02929329|184310843|OTHER||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|0.54|4.46|||||Treatment difference = Omecamtiv mecarbil - Placebo|||4.46|0.54|
92205464|NCT02929329|184310843|SUPERIORITY|If significance for the primary outcome was determined, change from baseline in the KCCQ total symptom score was tested against an alpha of 0.002.||||||0.0278|||||||Omnibus F-test|||||||0.0278
92205465|NCT02929329|184310843|OTHER||Pooled treatment difference|0.75|||||TWO_SIDED|95.0|-2.55|4.51|||||Overall pooled estimate of treatment difference (Omecamtiv mecarbil - Placebo) using random effects meta-analysis approach.|||4.51|-2.55|
92327310|NCT00224406|184559860|SUPERIORITY||Mean Difference (Final Values)|5.022||||0.8541|ONE_SIDED|95.0||50.26|||t-test, 1 sided|||Repeated Measurements Analysis of PaO2/FiO2 ratio corrected for the altitude at 0 and 24hours after ICU admission using a one-sided test excluding missing data. Herein analysis at ICU Admission (Time 0).||50.26||0.8541
92205466|NCT02929329|184310843|SUPERIORITY||LS Mean Difference|-0.71|||||TWO_SIDED|95.0|-1.62|0.2|||||Treatment difference = Omecamtiv mecarbil - Placebo|As a sensitivity for missing data due to death, joint longitudinal and survival models were fit using KCCQ TSS observed values with random subject slopes and intercepts for the longitudinal models with terms for baseline eGFR, region, and treatment by slope. The survival models were fit for all-cause death with baseline eGFR and treatment in the proportional hazard part of the models, KCCQ TSS modeled values as the shared parameterization, stratified by region with Weibull baseline functions.||0.20|-1.62|
92205467|NCT02929329|184310843|SUPERIORITY||LS mean difference|2.31|||||TWO_SIDED|95.0|0.8|3.82|||||Treatment difference = Omecamtiv mecarbil - Placebo|As a sensitivity for missing data due to death, joint longitudinal and survival models were fit using KCCQ TSS observed values with random subject slopes and intercepts for the longitudinal models with terms for baseline eGFR, region, and treatment by slope. The survival models were fit for all-cause death with baseline eGFR and treatment in the proportional hazard part of the models, KCCQ TSS modeled values as the shared parameterization, stratified by region with Weibull baseline functions.||3.82|0.80|
92205468|NCT02929329|184310844|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.1902|TWO_SIDED|95.0|0.87|1.03||If statistical significance was achieved for both the time to CV death and change from baseline in the KCCQ TSS, time to first heart failure hospitalization was to be tested at the full alpha.|Regression, Cox|Stratified by randomization setting and region, including terms for baseline eGFR and treatment group.|Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the trial group and the baseline eGFR as covariates.|||1.03|0.87|0.1902
92205469|NCT02929329|184310844|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.88|1.04|||||Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the trial group and the baseline eGFR as covariates.|Competing risk subdistribution hazard ratio and associated 95% confidence intervals for treatment were computed. Deaths not included in the endpoint are considered as the competing risk.||1.04|0.88|
92205470|NCT02929329|184310845|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9633|TWO_SIDED|95.0|0.92|1.09||If time to first heart failure hospitalization was statistically significant, time to all-cause death was to be tested with the same alpha as time to first heart failure hospitalization.|Regression, Cox||Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the trial group and the baseline eGFR as covariates.|||1.09|0.92|0.9633
92205471|NCT01639560|184310894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.7|||<|0.001|TWO_SIDED|95.0|2.5|18.1|||Regression, Logistic|||||18.1|2.5|<0.001
92205472|NCT01639560|184310895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.33||||0.001|TWO_SIDED|95.0|2.2|24.0|||Regression, Logistic|||||24.0|2.2|0.001
92205473|NCT01639560|184310896|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.047|TWO_SIDED|95.0|1.0|6.3|||Regression, Logistic|||||6.3|1.0|0.047
92205474|NCT01639560|184310897|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0||||0.009|TWO_SIDED|95.0|1.5|16.5|||Regression, Logistic|||||16.5|1.5|0.009
92327311|NCT00224406|184559860|SUPERIORITY||Mean Difference (Final Values)|10.426||||0.6996|ONE_SIDED|95.0||55.17|||t-test, 1 sided|||Repeated Measurements Analysis of PaO2/FiO2 ratio corrected for the altitude at 0 and 24hours after ICU admission using a one-sided test excluding missing data. Herein analysis at 24 Hours Post ICU Admission.||55.17||0.6996
92205475|NCT00774930|184310898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0165|TWO_SIDED||||||ANCOVA|This analysis does not include any imputation for the early roll over subjects||||||0.0165
92205476|NCT00774930|184310899|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2544|||||||ANCOVA|ANCOVA included treatment group and 2 stratification variables at randomisation as factors and average frequency of diarrhoea per day during Screening||||||0.2544
92205477|NCT03292432|184310965|SUPERIORITY||Risk Difference (RD)|-3.5||||0.8|TWO_SIDED|95.0|-21.8|15.2|||Fisher Exact||Risk difference reflects percentage of participants achieving HIV-1 RNA \< 50 copies/mL in TERA arm minus SOC arm|||15.2|-21.8|0.80
92205478|NCT03292432|184310966|SUPERIORITY||Risk Difference (RD)|-0.7|||>|0.99|TWO_SIDED|95.0|-20.9|19.6|||Fisher Exact||Risk difference reflects percentage of participants achieving HIV-1 RNA \< 200 copies/ml in TERA arm minus SOC arm|||19.6|-20.9|>0.99
92205479|NCT03292432|184310967|SUPERIORITY||Risk Difference (RD)|-13.1||||0.24|TWO_SIDED|95.0|-32.1|7.2|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 24 in TERA arm minus SOC arm|Comparison of percentages at Week 24||7.2|-32.1|0.24
92205480|NCT03292432|184310967|SUPERIORITY||Risk Difference (RD)|3.8||||0.76|TWO_SIDED|95.0|-16.0|22.6|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 36 in TERA arm minus SOC arm|Comparison of percentages at Week 36||22.6|-16.0|0.76
92205481|NCT03292432|184310967|SUPERIORITY||Risk Difference (RD)|3.6|||>|0.99|TWO_SIDED|95.0|-21.8|27.4|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48 in TERA arm minus SOC arm|Comparison of percentages at Week 48||27.4|-21.8|>0.99
92205482|NCT03292432|184310968|SUPERIORITY||Risk Difference (RD)|-13.0||||0.26|TWO_SIDED|95.0|-32.7|7.3|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 200 copies/mL at Week 24 in TERA arm minus SOC arm|Comparison of percentages at Week 24||7.3|-32.7|0.26
92205483|NCT03292432|184310968|SUPERIORITY||Risk Difference (RD)|11.5||||0.42|TWO_SIDED|95.0|-11.2|32.8|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 200 copies/mL at Week 36 in TERA arm minus SOC arm|Comparison of percentages at Week 36||32.8|-11.2|0.42
92205484|NCT03292432|184310968|SUPERIORITY||Risk Difference (RD)|-4.4||||0.77|TWO_SIDED|95.0|-29.5|20.7|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 200 copies/mL at Week 48 in TERA arm minus SOC arm|Comparison of percentages at Week 48||20.7|-29.5|0.77
92327312|NCT00224406|184559861|SUPERIORITY||Mean Difference (Final Values)|4.377||||0.8654|ONE_SIDED|95.0||47.15|||t-test, 1 sided|||ICU Admission (Time 0)||47.15||0.8654
92205485|NCT03292432|184310969|SUPERIORITY||Risk Difference (RD)|5.8||||0.67|TWO_SIDED|95.0|-14.6|25.3|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 200 copies/mL at Week 12 and maintained to Week 48 in TERA arm minus SOC arm|||25.3|-14.6|0.67
92205486|NCT03292432|184310970|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentages of doses taken from Weeks 0 -12||||<0.001
92205487|NCT03292432|184310970|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentage of doses taken from Weeks \>12 to 24||||<0.001
92327313|NCT00224406|184559861|SUPERIORITY||Median Difference (Final Values)|13.386||||0.6789|ONE_SIDED|95.0||66.91|||t-test, 1 sided|||24 Hours Post ICU Admission||66.91||0.6789
92327314|NCT00224406|184559861|SUPERIORITY||Mean Difference (Final Values)|-19.968||||0.6345|ONE_SIDED|95.0||49.56|||t-test, 1 sided|||48 Hours Post ICU Admission||49.56||0.6345
92205488|NCT03292432|184310970|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentage of doses taken from Weeks \>24 to 36||||0.06
92205489|NCT03292432|184310970|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentage of doses taken from Weeks \>36 to 48||||0.50
92205490|NCT03292432|184310971|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentage of doses taken on time from Weeks 0 - 12||||<0.001
92205491|NCT03292432|184310971|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentage of doses taken on time from Weeks \>12 - 24||||<0.001
92205492|NCT03292432|184310971|SUPERIORITY|||||||0.05||||||p-value equal to a priori threshold for statistical significance|Wilcoxon (Mann-Whitney)|||Comparison of percentages of doses taken on time from Weeks \>24 - 36||||0.05
92205493|NCT03292432|184310971|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||Comparison of doses taken on time from Weeks \>36 - 48||||0.49
92205494|NCT03292432|184310972|SUPERIORITY||Risk Ratio (RR)|2.51|||<|0.001|TWO_SIDED|95.0|1.9|3.33|||Chi-squared|Pearson Chi-square test from generalized linear model with Poisson link|Risk ratio for SOC arm relative to TERA arm|Comparison of incidence rates from Weeks 0 - 12||3.33|1.90|<0.001
92327315|NCT00224406|184559861|SUPERIORITY||Mean Difference (Final Values)|0.908||||0.9858|ONE_SIDED|95.0||85.49|||t-test, 1 sided|||72 Hours Post ICU Admission||85.49||0.9858
92205495|NCT03292432|184310972|SUPERIORITY||Risk Ratio (RR)|1.56|||<|0.001|TWO_SIDED|95.0|1.29|1.89|||Chi-squared|Pearson Chi-square test from generalized linear model with Poisson link|Risk ratio for SOC arm relative to TERA arm|Comparison of incidence rates from Weeks \>12 - 24||1.89|1.29|<0.001
92205496|NCT03292432|184310972|SUPERIORITY||Risk Ratio (RR)|1.23||||0.02|TWO_SIDED|95.0|1.03|1.47|||Chi-squared|Pearson Chi-square test from generalized linear model with Poisson link|P-value from Pearson Chi-square test from generalized linear model with Poisson link|Comparison of incidence rates from Weeks \>24 - 36||1.47|1.03|0.020
92205497|NCT03292432|184310972|SUPERIORITY||Risk Ratio (RR)|1.08||||0.39|TWO_SIDED|95.0|0.9|1.3|||Chi-squared|Pearson Chi-square test from generalized linear model with Poisson link|Risk ratio for SOC arm relative to TERA arm|Comparison of incidence rates from Weeks \>36 - 48||1.30|0.90|0.39
92205498|NCT03292432|184310973|SUPERIORITY||Risk Difference (RD)|2.3|||>|0.99|TWO_SIDED|95.0|-16.4|21.1|||Fisher Exact||Risk difference reflects percentage of participants achieving HIV-1 RNA \< 200 copies/mL in TERA arm minus SOC arm|||21.1|-16.4|>0.99
92205499|NCT03292432|184310974|SUPERIORITY||Risk Difference (RD)|4.7||||0.71|TWO_SIDED|95.0|-9.0|19.4|||Fisher Exact||Risk difference reflects percentage of participants achieving sustained virologic control in TERA arm minus SOC arm|||19.4|-9.0|0.71
92205500|NCT00911937|184310976|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.003|TWO_SIDED|95.0|-0.37|-0.08||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Analysis of covariance (ANCOVA) model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.08|-0.37|0.0030
92327316|NCT00224406|184559862|SUPERIORITY||Odds Ratio (OR)|2.867||||0.7985|TWO_SIDED|95.0|0.727|11.302|||Cochran-Mantel-Haenszel||Odds ratio is Repertaxin:Placebo ratio of PGD scores 0-2:PGD score 3 odds|Analysis of PGD score was performed separately at time 0, and at 24, 48, 72 hours after ICU admission. Herein analysis at ICU Admission (Time 0). One patient of placebo group is excluded from analysis of PGD score because the cause of graft dysfunction is Cardiogenic pulmonary edema.||11.302|0.727|0.7985
92205501|NCT00911937|184310977|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.0772|TWO_SIDED|95.0|-0.27|0.01||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||0.01|-0.27|0.0772
92205502|NCT00911937|184310978|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0001
92205503|NCT00911937|184310980|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.0827|TWO_SIDED|95.0|-0.25|0.01||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||0.01|-0.25|0.0827
92205504|NCT00911937|184310980|SUPERIORITY_OR_OTHER||Least Squares mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.07||0.0112|TWO_SIDED|95.0|-0.33|-0.04||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.04|-0.33|0.0112
92205505|NCT00911937|184310981|SUPERIORITY_OR_OTHER|||||||0.0023|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0023
92327317|NCT00224406|184559862|SUPERIORITY||Odds Ratio (OR)|0.837||||0.5606|TWO_SIDED|95.0|0.226|3.092|||Cochran-Mantel-Haenszel||Odds ratio is Repertaxin:Placebo ratio of PGD scores 0-2:PGD score 3 odds|Analysis of PGD score was performed separately at time 0, and at 24, 48, 72 hours after ICU admission. Herein analysis at 24h post-ICU admission. One patient of placebo group is excluded from analysis of PGD score because the cause of graft dysfunction is Cardiogenic pulmonary edema.||3.092|0.226|0.5606
92205506|NCT00911937|184310983|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.15||0.0026|TWO_SIDED|95.0|-0.74|-0.16||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.16|-0.74|0.0026
92205507|NCT00911937|184310983|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.17||0.0014|TWO_SIDED|95.0|-0.9|-0.22||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.22|-0.90|0.0014
92205508|NCT00911937|184310984|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0016
92205509|NCT00911937|184310984|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0004
92205510|NCT00911937|184310986|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.22||0.0072|TWO_SIDED|95.0|-1.03|-0.16||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.16|-1.03|0.0072
92205511|NCT00911937|184310986|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.24||0.0009|TWO_SIDED|95.0|-1.25|-0.32||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.32|-1.25|0.0009
92205512|NCT00911937|184310987|SUPERIORITY_OR_OTHER|||||||0.0041|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0041
92205513|NCT00911937|184310987|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||<0.0001
92205514|NCT00911937|184310989|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.17||0.3954|TWO_SIDED|95.0|-0.47|0.19||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||0.19|-0.47|0.3954
92205515|NCT00911937|184310989|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.15||0.2166|TWO_SIDED|95.0|-0.48|0.11||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||0.11|-0.48|0.2166
92205516|NCT00911937|184310992|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.24||0.1018|TWO_SIDED|95.0|-0.85|0.08||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||0.08|-0.85|0.1018
92205517|NCT00911937|184310992|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.24||0.0027|TWO_SIDED|95.0|-1.2|-0.25||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.25|-1.20|0.0027
92205518|NCT00911937|184310994|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.56|STANDARD_ERROR_OF_MEAN|0.63||0.0131|TWO_SIDED|95.0|-2.79|-0.33||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.33|-2.79|0.0131
92205519|NCT00911937|184310994|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.43|STANDARD_ERROR_OF_MEAN|0.69||0.0004|TWO_SIDED|95.0|-3.78|-1.08||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-1.08|-3.78|0.0004
92205520|NCT00911937|184310996|SUPERIORITY_OR_OTHER||Least squares mean difference|1.32|STANDARD_ERROR_OF_MEAN|7.2||0.8547|TWO_SIDED|95.0|-12.82|15.46||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||15.46|-12.82|0.8547
92205521|NCT00911937|184310998|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.85|STANDARD_ERROR_OF_MEAN|4.22||0.8396|TWO_SIDED|95.0|-9.14|7.44||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||7.44|-9.14|0.8396
92205522|NCT00911937|184311000|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.37|STANDARD_ERROR_OF_MEAN|1.26||0.0006|TWO_SIDED|95.0|-6.84|-1.89||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-1.89|-6.84|0.0006
92205523|NCT00911937|184311002|SUPERIORITY_OR_OTHER||Least squares mean difference|3.42|STANDARD_ERROR_OF_MEAN|1.34||0.011|TWO_SIDED|95.0|0.79|6.05||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: Concern domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||6.05|0.79|0.0110
92205524|NCT00911937|184311002|SUPERIORITY_OR_OTHER||Least squares mean difference|3.14|STANDARD_ERROR_OF_MEAN|1.35||0.02|TWO_SIDED|95.0|0.5|5.79||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: Coping domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||5.79|0.50|0.0200
92205525|NCT00911937|184311002|SUPERIORITY_OR_OTHER||Least squares mean difference|3.48|STANDARD_ERROR_OF_MEAN|1.51||0.0218|TWO_SIDED|95.0|0.51|6.45||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: Sleep domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||6.45|0.51|0.0218
92205526|NCT00911937|184311002|SUPERIORITY_OR_OTHER||Least squares mean difference|1.86|STANDARD_ERROR_OF_MEAN|0.93||0.0458|TWO_SIDED|95.0|0.03|3.68||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: Social interaction domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||3.68|0.03|0.0458
92205527|NCT00911937|184311002|SUPERIORITY_OR_OTHER||Least squares mean difference|3.02|STANDARD_ERROR_OF_MEAN|1.17||0.01|TWO_SIDED|95.0|0.72|5.32||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: Total- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||5.32|0.72|0.0100
92205528|NCT01498679|184311003|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|51.0|||<|0.001|TWO_SIDED|95.0|42.2|59.7|||ANCOVA|||||59.7|42.2|<0.001
92205529|NCT03097484|184311033|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
92205530|NCT03097484|184311034|SUPERIORITY|||||||0.05||||||0.05 is the calculated p-value (not the threshold for statistical significance)|t-test, 2 sided|||||||0.05
92205531|NCT00633880|184311052|SUPERIORITY_OR_OTHER|||||||0.509||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors. As the primary endpoint was not positive, statistical analysis was not performed on secondary endpoints.|Wilcoxon (Mann-Whitney)|||||||0.509
92205532|NCT00633880|184311057|SUPERIORITY_OR_OTHER|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||||||0.026
92205533|NCT00878826|184311115|SUPERIORITY_OR_OTHER|||||||0.4|||||||Kruskal-Wallis|||at 14-18 weeks gestational age||||0.4
92205534|NCT00878826|184311115|SUPERIORITY_OR_OTHER|||||||0.9|||||||Kruskal-Wallis|||at 24-28 weeks gestational age||||0.9
92205535|NCT00878826|184311115|SUPERIORITY_OR_OTHER|||||||0.3|||||||Kruskal-Wallis|||at 32-34 weeks gestational age||||0.3
92205536|NCT01468181|184311121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77|||<|0.001|TWO_SIDED|95.0|-1.87|-1.67|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HbA1c at 26 Weeks||-1.67|-1.87|<0.001
92205537|NCT01468181|184311121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.65|||<|0.001|TWO_SIDED|95.0|-1.75|-1.55|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HbA1c at 52 Weeks||-1.55|-1.75|<0.001
92205538|NCT01468181|184311123|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-43.9|||<|0.001|TWO_SIDED|95.0|-47.8|-40.0|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||FBG at 26 Weeks||-40.0|-47.8|<0.001
92205539|NCT01468181|184311123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.6|||<|0.001|TWO_SIDED|95.0|-46.4|-38.7|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||FBG at 52 Weeks||-38.7|-46.4|<0.001
92205540|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.42|||<|0.001|TWO_SIDED|95.0|-46.55|-38.29|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-morning meal at 26 Weeks||-38.29|-46.55|<0.001
92205541|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.6|||<|0.001|TWO_SIDED|95.0|-46.44|-38.76|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-morning meal at 52 Weeks||-38.76|-46.44|<0.001
92205542|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-68.48|||<|0.001|TWO_SIDED|95.0|-74.18|-62.79|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-morning meal at 26 Weeks||-62.79|-74.18|<0.001
92205543|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.08|||<|0.001|TWO_SIDED|95.0|-72.12|-60.04|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-morning meal at 52 Weeks||-60.04|-72.12|<0.001
92205544|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.21|||<|0.001|TWO_SIDED|95.0|-53.32|-43.09|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-midday meal at 26 Weeks||-43.09|-53.32|<0.001
92205545|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.51|||<|0.001|TWO_SIDED|95.0|-52.77|-42.24|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-midday meal at 52 Weeks||-42.24|-52.77|<0.001
92205546|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-67.06|||<|0.001|TWO_SIDED|95.0|-73.02|-61.11|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-midday meal at 26 Weeks||-61.11|-73.02|<0.001
92205547|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-63.17|||<|0.001|TWO_SIDED|95.0|-69.16|-57.18|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-midday meal at 52 Weeks||-57.18|-69.16|<0.001
92205548|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.0|||<|0.001|TWO_SIDED|95.0|-49.67|-38.34|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-evening meal at 26 Weeks||-38.34|-49.67|<0.001
92205549|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.88|||<|0.001|TWO_SIDED|95.0|-49.55|-38.21|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-evening meal at 52 Weeks||-38.21|-49.55|<0.001
92205550|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-62.91|||<|0.001|TWO_SIDED|95.0|-69.32|-56.5|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-evening meal at 26 Weeks||-56.50|-69.32|<0.001
92205551|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.84|||<|0.001|TWO_SIDED|95.0|-66.95|-54.74|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-evening meal at 52 Weeks||-54.74|-66.95|<0.001
92205552|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-61.15|||<|0.001|TWO_SIDED|95.0|-66.93|-55.37|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Bedtime meal at 26 Weeks||-55.37|-66.93|<0.001
92205553|NCT01468181|184311124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.16|||<|0.001|TWO_SIDED|95.0|-66.07|-54.25|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Bedtime meal at 52 Weeks||-54.25|-66.07|<0.001
92205554|NCT01468181|184311125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|||<|0.277|TWO_SIDED|95.0|-0.4|0.12|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Body weight at 26 Weeks||0.12|-0.40|<0.277
92205555|NCT01468181|184311125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.382|TWO_SIDED|95.0|-0.42|0.16|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Body weight at 52 Weeks||0.16|-0.42|0.382
92205556|NCT01468181|184311126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.59|||<|0.001|TWO_SIDED|95.0|26.0|31.18|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HOMA2-B% at 26 Weeks||31.18|26.00|<0.001
92205557|NCT01468181|184311126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.57|||<|0.001|TWO_SIDED|95.0|24.73|30.41|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HOMA2-B% at 52 Weeks||30.41|24.73|<0.001
92205558|NCT01468181|184311126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.57||||0.194|TWO_SIDED|95.0|-6.46|1.32|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HOMA2-S% at 26 Weeks||1.32|-6.46|0.194
92205559|NCT01468181|184311126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.4|TWO_SIDED|65.0|-5.68|2.27|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HOMA2-S% at 52 Weeks||2.27|-5.68|0.400
92205560|NCT00513305|184311129|SUPERIORITY_OR_OTHER|||||||0.425|TWO_SIDED|95.0||||The p-value is from the Pearson chi-square test for testing the equality of two binomial proportions, assuming normal approximation of the binomial proportions.|Chi-squared|There were no adjustments for covariates. Since the primary endpoint was prespecified, no adjustment for multiplicity of endpoints was introduced||The hypothesis of equal complete remission rates between the two treatment groups was tested using a 2-sided, normal approximation to the difference in binomial proportions test with two-sided alpha equal to 0.05.||||0.425
92205561|NCT00513305|184311130|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.027||||0.829|TWO_SIDED|95.0|0.535|1.973|||Log Rank|||||1.973|0.535|0.829
92205562|NCT00513305|184311131|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.31||||0.527|TWO_SIDED|95.0|0.16|33.343|||Log Rank||Estimate based on Cox Proportional Hazards Model adjusting for age, Eastern Cooperative Oncology Group (ECOG) status, white blood count and presence of antecedent hematologic disorder.|||33.343|0.160|0.527
92205563|NCT00513305|184311134|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.027||||0.8289|TWO_SIDED|95.0|0.535|1.973|||Log Rank||Estimate based on Cox Proportional Hazards Model adjusting for age, Eastern Cooperative Oncology Group (ECOG) status, white blood count and presence of antecedent hematologic disorder.|||1.973|0.535|0.8289
92205564|NCT01011153|184311146|NON_INFERIORITY_OR_EQUIVALENCE|Sample sizes computed based on data from smaller studies provided 90% power for the comparison of sensitivity. Under the alternative hypothesis that the biopsy sensitivity of MelaFind would be 0.10 greater than the average biopsy/referral sensitivity of physicians (combined or separate), the probability that a 95% CI lies entirely above zero will be at least 90% when the standard error of the estimated difference is at most 0.0308.|Mean Difference (Final Values)|0.25|STANDARD_DEVIATION|0.03|<|0.0001|TWO_SIDED|95.0|0.18|0.32|||ANOVA|||Using True Positives/All Positives, sensitivity values were calculated for MelaFind as well as the average of the 110 dermatologists.||0.32|0.18|<0.0001
92205565|NCT01011153|184311147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_DEVIATION|0.04|<|0.0001|TWO_SIDED|95.0|0.19|0.34|||ANOVA|||Sensitivity||0.34|0.19|<0.0001
92205566|NCT01011153|184311147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_DEVIATION|0.04|<|0.0001|TWO_SIDED|95.0|0.16|0.31|||ANOVA|||Sensitivity||0.31|0.16|<0.0001
92205567|NCT01011153|184311147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_DEVIATION|0.03|<|0.0001|TWO_SIDED|95.0|0.19|0.33|||ANOVA|||Sensitivity||0.33|0.19|<0.0001
92205568|NCT01011153|184311147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|STANDARD_DEVIATION|0.05|<|0.0001|TWO_SIDED|95.0|-0.46|-0.25|||ANOVA|||Specificity||-0.25|-0.46|<0.0001
92205569|NCT01011153|184311147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_DEVIATION|0.05|<|0.0001|TWO_SIDED|95.0|-0.53|-0.31|||ANOVA|||Specificity||-0.31|-0.53|<0.0001
92205570|NCT01011153|184311147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_DEVIATION|0.05|<|0.0001|TWO_SIDED|95.0|-0.51|-0.3|||ANOVA|||Specificity||-0.30|-0.51|<0.0001
92205571|NCT01011153|184311148|SUPERIORITY_OR_OTHER||Kappa|0.313|STANDARD_ERROR_OF_MEAN|0.003||||0.0||||No comparison is being made.|ANOVA||There is no threshold level-this is a measurement of variability among responses provided by the participants.|||||
92205572|NCT01011153|184311148|SUPERIORITY_OR_OTHER||Kappa|0.276|STANDARD_ERROR_OF_MEAN|0.002||||0.0||||No comparison is being made|ANOVA||There is no threshold level-this is a measurement of variability among responses provided by the participants.|||||
92205573|NCT01011153|184311148|SUPERIORITY_OR_OTHER||Kappa|0.2|STANDARD_ERROR_OF_MEAN|0.003||||0.0||||No comparison is being made|ANOVA||There is no threshold level-this is a measurement of variability among responses provided by the participants.|||||
92205574|NCT01011153|184311148|SUPERIORITY_OR_OTHER||Kappa|0.256|STANDARD_ERROR_OF_MEAN|0.001||||0.0||||N/A - No comparison is being made|ANOVA||There is no threshold level-this is a measurement of variability among responses provided by the participants.|||||
92205575|NCT03014479|184311150|SUPERIORITY||Differences of Least Square Means|2.418||||0.2305|TWO_SIDED|95.0|-1.546|6.382|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||6.382|-1.546|0.2305
92205576|NCT03014479|184311151|SUPERIORITY||Differences of Least Square Means|1.938||||0.4536|TWO_SIDED|95.0|-3.15|7.027|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||7.027|-3.150|0.4536
92205577|NCT03014479|184311152|SUPERIORITY||Differences of Least Square Means|4.16||||0.0896|TWO_SIDED|95.0|-0.649|8.968|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||8.968|-0.649|0.0896
92205578|NCT03014479|184311153|SUPERIORITY||Differences of Least Square Means|-0.563||||0.8506|TWO_SIDED|95.0|-6.448|5.323|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||5.323|-6.448|0.8506
92205579|NCT03014479|184311154|SUPERIORITY||Differences of Least Square Means|2.696||||0.3533|TWO_SIDED|95.0|-3.018|8.41|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||8.410|-3.018|0.3533
92205580|NCT03014479|184311156|SUPERIORITY||Differences of Least Square Means|0.613||||0.5451|TWO_SIDED|95.0|-1.38|2.605|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||2.605|-1.380|0.5451
92205581|NCT01081132|184311181|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.026|||<|0.001|TWO_SIDED|95.0|-8.865|-3.187|||Mixed Models Repeated Measures Analysis|||||-3.187|-8.865|<0.001
92205582|NCT01081132|184311182|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Cochran-Mantel-Haenszel|||||||0.010
92205583|NCT01081132|184311183|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.115||||0.104|TWO_SIDED|95.0|-0.254|0.024|||Mixed Models Repeated Measures Analysis|||||0.024|-0.254|0.104
92205584|NCT01081132|184311184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.057||||0.408|TWO_SIDED|95.0|-0.192|0.078|||Mixed Models Repeated Measures Analysis|||||0.078|-0.192|0.408
92205585|NCT01081132|184311185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.083||||0.176|TWO_SIDED|95.0|-0.203|0.037|||Mixed Models Repeated Measures Analysis|||||0.037|-0.203|0.176
92205586|NCT01081132|184311186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05||||0.253|TWO_SIDED|95.0|-0.136|-0.036|||Mixed Models Repeated Measures Analysis|||||-0.036|-0.136|0.253
92205587|NCT01081132|184311187|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.004||||0.912|TWO_SIDED|95.0|-0.061|0.068|||Mixed Models Repeated Measures Analysis|||||0.068|-0.061|0.912
92205588|NCT01081132|184311188|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.029||||0.606|TWO_SIDED|95.0|-0.139|0.081|||Mixed Models Repeated Measures Analysis|||||0.081|-0.139|0.606
92205589|NCT01081132|184311189|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.102||||0.228|TWO_SIDED|95.0|-0.064|0.268|||Mixed Models Repeated Measures Analysis|||||0.268|-0.064|0.228
92205590|NCT01081132|184311190|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.047||||0.41|TWO_SIDED|95.0|-0.159|0.065|||Mixed Models Repeated Measures Analysis|||||0.065|-0.159|0.410
92205591|NCT01081132|184311191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.208||||0.082|TWO_SIDED|95.0|-0.443|0.026|||Mixed Models Repeated Measures Analysis|||||0.026|-0.443|0.082
92205592|NCT01081132|184311192|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92205593|NCT01081132|184311193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.3||||0.134|TWO_SIDED|95.0|-5.3|0.7|||Mixed Models Repeated Measures Analysis|||Global Executive Composite||0.7|-5.3|0.134
92205594|NCT01081132|184311193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.579|TWO_SIDED|95.0|-4.0|2.3|||Mixed Models Repeated Measures Analysis|||Behavioral Regulation Index||2.3|-4.0|0.579
92205595|NCT01081132|184311193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.7||||0.072|TWO_SIDED|95.0|-5.6|0.2|||Mixed Models Repeated Measures Analysis|||Metacognition Index||0.2|-5.6|0.072
92205596|NCT01081132|184311194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.465|TWO_SIDED|95.0|-1.8|0.8|||Mixed Models Repeated Measures Analysis|||||0.8|-1.8|0.465
92205597|NCT03973931|184311198|NON_INFERIORITY|Generalized Estimating Equation (GEE) model with an identity link and independence with unequal variances for the covariance structure of the 12 observations|||||<|0.05|||||||GEE|To account for multiple treatment comparisons significance levels of 0.05/3||||||<0.05
92205598|NCT03973931|184311199|NON_INFERIORITY|Analysis of the longitudinal data (12 observations per patient) and estimated absolute differences in PDC between treatment group and usual care was analyzed using Generalized Estimating Equation (GEE) model with an identity link and independence with unequal variances for the covariance structure was used.|||||<|0.05||||||To account for multiple treatment comparisons significance levels of 0.05/3, and if any test was significant, a significance level of (R/3)\*(0.05/3) using the Holm method was used for the 3 pairwise comparisons, R=number of significant stage 1 tests.|GEE|||||||<0.05
92205599|NCT00896051|184311205|SUPERIORITY_OR_OTHER||Least Squares (LS) Means Ratio|0.82|||||TWO_SIDED|90.0|0.55|1.22|||Linear mixed effects model|A linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: minimum plasma concentration (Cmin)||1.22|0.55|
92205600|NCT00896051|184311205|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Ratio|0.96|||||TWO_SIDED|90.0|0.8|1.16|||Linear mixed effects model|A linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: maximum plasma concentration (Cmax)||1.16|0.80|
92205601|NCT00896051|184311206|SUPERIORITY_OR_OTHER||Least Squares (LS) Means Ratio|0.96|||||TWO_SIDED|90.0|0.76|1.22|||Linear mixed effects model|linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: area under the plasma concentration-time curve from time of intake to 24 hours after dosing (AUC24hr)||1.22|0.76|
92205602|NCT00896051|184311207|SUPERIORITY_OR_OTHER||Least Squares (LS) Means Ratio|0.91|||||TWO_SIDED|90.0|0.63|1.33|||Linear mixed effects model|A linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: Minimum plasma concentration (Cmin)||1.33|0.63|
92205603|NCT00896051|184311207|SUPERIORITY_OR_OTHER||Least Squares (LS) Means Ratio|1.05|||||TWO_SIDED|90.0|0.86|1.27|||Linear mixed effects model|A linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: maximum plasma concentration (Cmax)||1.27|0.86|
92205604|NCT00896051|184311208|SUPERIORITY_OR_OTHER||Least Squares (LS) Means Ratio|0.99|||||TWO_SIDED|90.0|0.81|1.21|||Llinear mixed effects model|A linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: area under the plasma concentration-time curve from time of intake to 24 hours after dosing (AUC24hr)||1.21|0.81|
92205605|NCT00210470|184311228|EQUIVALENCE|The correlation of each of the above variables at biopsy/Day 1, surgery/Day 21, and change with percent change in the longest diameter (LD) of the primary tumor was calculated using Spearman rank correlations (183 correlations). Due to outliers in the distribution of percent change in the longest diameter, it was felt that the Spearman rank correlations would be more appropriate than Pearson correlations.|||||<|0.1|||||||Spearman Rank|||||||<0.10
92205606|NCT00007345|184311267|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||An exact Cochran-Armitage trend test was used to compare the distributions. In view of the large number of tests performed, we only refer to those with P-values \<0.01 as statistically significant, with those for which 0.01 \<P\< 0.05 considered trends.|Cochran-Armitage trend test|||||||<0.01
92205607|NCT04433585|184311272|SUPERIORITY||Odds Ratio (OR)|1.46||||0.309|TWO_SIDED|95.0|0.7|3.04|||Regression, Logistic|||||3.04|0.70|0.309
92205608|NCT04433585|184311272|SUPERIORITY||Odds Ratio (OR)|0.97||||0.944|TWO_SIDED|95.0|0.47|2.03|||Regression, Logistic|||||2.03|0.47|0.944
92205609|NCT04433585|184311272|SUPERIORITY||Odds Ratio (OR)|0.84||||0.649|TWO_SIDED|95.0|0.4|1.78|||Regression, Logistic|||||1.78|0.40|0.649
92205610|NCT04433585|184311273|SUPERIORITY||Odds Ratio (OR)|1.89||||0.131|TWO_SIDED|95.0|0.83|4.3|||Regression, Logistic|||||4.30|0.83|0.131
92205611|NCT04433585|184311273|SUPERIORITY||Odds Ratio (OR)|1.09||||0.844|TWO_SIDED|95.0|0.47|2.5|||Regression, Logistic|||||2.50|0.47|0.844
92205612|NCT04433585|184311273|SUPERIORITY||Odds Ratio (OR)|0.57||||0.218|TWO_SIDED|95.0|0.24|1.39|||Regression, Logistic|||||1.39|0.24|0.218
92205613|NCT04433585|184311274|SUPERIORITY||Odds Ratio (OR)|0.97||||0.944|TWO_SIDED|95.0|0.47|2.03|||Regression, Logistic|||||2.03|0.47|0.944
92205614|NCT04433585|184311274|SUPERIORITY||Odds Ratio (OR)|1.46||||0.309|TWO_SIDED|95.0|0.7|3.04|||Regression, Logistic|||||3.04|0.70|0.309
92205615|NCT04433585|184311274|SUPERIORITY||Odds Ratio (OR)|0.84||||0.649|TWO_SIDED|95.0|0.4|1.78|||Regression, Logistic|||||1.78|0.40|0.649
92205616|NCT04433585|184311275|SUPERIORITY||Odds Ratio (OR)|1.91||||0.203|TWO_SIDED|95.0|0.71|5.2|||Regression, Logistic|||||5.20|0.71|0.203
92205617|NCT04433585|184311275|SUPERIORITY||Odds Ratio (OR)|1.1||||0.865|TWO_SIDED|95.0|0.38|3.16|||Regression, Logistic|||||3.16|0.38|0.865
92205618|NCT04433585|184311275|SUPERIORITY||Odds Ratio (OR)|1.07||||0.896|TWO_SIDED|95.0|0.38|3.05|||Regression, Logistic|||||3.05|0.38|0.896
92205619|NCT02015455|184311300|SUPERIORITY||Percent Difference in Median|-0.7||||0.54|TWO_SIDED|95.0|-2.9|1.5|||Mixed Models Analysis|Adjusted for site, clinic size, age, sex, image modality, comorbidity, and site time trends. Random effects for clinic and provider.|Percent difference in median of the intervention group with respect to the control group.|||1.5|-2.9|0.54
92205620|NCT02015455|184311301|SUPERIORITY||Odds Ratio (OR)|0.95||||0.04|TWO_SIDED|95.0|0.91|1.0||A p-value \<0.05 was considered significant.|Mixed Models Analysis|Adjusted for site, clinic size, age, sex, image modality, comorbidity, prior opioid use, site time trends. Random effects for clinic and provider.|Odds ratio is for the intervention group with respect to the control group.|||1.00|0.91|0.04
92205621|NCT02015455|184311302|SUPERIORITY||Odds Ratio (OR)|0.95||||0.02|TWO_SIDED|95.0|0.9|0.99||The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|Adjusted for site, clinic size, age, sex, image modality, comorbidity, prior opioid use, site time trends. Random effects for clinic and provider.|Odds ratio is for the intervention group with respect to the control group.|||0.99|0.90|0.02
92205622|NCT02015455|184311303|SUPERIORITY||Odds Ratio (OR)|0.95||||0.02|TWO_SIDED|95.0|0.91|0.99||The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|Adjusted for site, clinic size, age, sex, image modality, comorbidity, prior opioid use, site time trends. Random effects for clinic and provider.|Odds ratio is for the intervention group with respect to the control group.|||0.99|0.91|0.02
92205623|NCT02015455|184311307|SUPERIORITY||Odds Ratio (OR)|0.99||||0.74|TWO_SIDED|95.0|0.91|1.07||Statistical significance defined as P\<0.05|Mixed Models Analysis|Adjusted for site, clinic size, age, sex, image modality, comorbidity, site time trends. Random effects for clinic and provider.|Odds ratio is for the intervention group with respect to the control group.|||1.07|0.91|0.74
92205624|NCT00741390|184311369|SUPERIORITY_OR_OTHER||Percentage|99.59||||||95.0|98.09|99.59||||||||99.59|98.09|
92205625|NCT00741390|184311369|SUPERIORITY_OR_OTHER||Percentage|100.0||||||95.0|98.79|100.0||||||||100|98.79|
92205626|NCT00741390|184311369|SUPERIORITY_OR_OTHER||Percentage|100.0||||||95.0|97.61|100.0||||||||100|97.61|
92205627|NCT00741390|184311369|SUPERIORITY_OR_OTHER||Percentage|100.0||||||95.0|95.36|100.0||||||||100|95.36|
92205628|NCT00741390|184311369|SUPERIORITY_OR_OTHER||Percentage|100.0||||||95.0|95.13|100.0||||||||100|95.13|
92205629|NCT00741390|184311370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.84|||<|0.001||95.0|6.8|10.84|||ANOVA|A general linear model with subject as a random effect and order within a pair as a fixed effect was fit to each study group.||||10.84|6.80|<0.001
92205630|NCT00741390|184311370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.55||||0.003||95.0|3.63|8.55|||ANOVA|A general linear model with subject as a random effect and order within a pair as a fixed effect was fit to each study group.||||8.55|3.63|0.003
92327318|NCT00224406|184559862|SUPERIORITY||Odds Ratio (OR)|1.716||||0.8786|TWO_SIDED|95.0|0.531|5.552|||Cochran-Mantel-Haenszel||Odds ratio is Repertaxin:Placebo ratio of PGD scores 0-2:PGD score 3 odds|Analysis of PGD score was performed separately at time 0, and at 24, 48, 72 hours after ICU admission. Herein analysis at 48h post-ICU admission. One patient of placebo group is excluded from analysis of PGD score because the cause of graft dysfunction is Cardiogenic pulmonary edema.||5.552|0.531|0.8786
92205631|NCT00741390|184311370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23||||0.46||95.0|-3.57|0.23|||ANOVA|A general linear model with subject as a random effect and order within a pair as a fixed effect was fit to each study group.||||0.23|-3.57|0.460
92205632|NCT00741390|184311371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.9||||0.017||95.0|1.14|4.9|||ANOVA|A general linear model with subject as a random effect and order within a pair as a fixed effect was fit to each study group.||||4.90|1.14|0.017
92205633|NCT00741390|184311372|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|One proportion two-sided test; p=50%||Analysis consisted of a one proportion test for the 1st device in the lancing pair being preferred, out of the total number of times that a preference was stated. Note: lancing pairs in which no preference was stated or where data were missing were excluded from analysis. The null hypothesis for the one proportion test was that the 1st device in the lancing pair was preferred 50% of the times.||||0.001
92205634|NCT00741390|184311372|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Fisher Exact|One proportion two-sided test; p=50%||Analysis consisted of a one proportion test for the 1st device in the lancing pair being preferred, out of the total number of times that a preference was stated. Note: lancing pairs in which no preference was stated or where data were missing were excluded from analysis. The null hypothesis for the one proportion test was that the 1st device in the lancing pair was preferred 50% of the times.||||0.002
92205635|NCT00741390|184311372|SUPERIORITY_OR_OTHER|||||||0.761||95.0|||||Fisher Exact|One proportion two-sided test; p=50%||Analysis consisted of a one proportion test for the 1st device in the lancing pair being preferred, out of the total number of times that a preference was stated. Note: lancing pairs in which no preference was stated or where data were missing were excluded from analysis. The null hypothesis for the one proportion test was that the 1st device in the lancing pair was preferred 50% of the times.||||0.761
92205636|NCT00741390|184311372|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Fisher Exact|One proportion two-sided test; p=50%||Analysis consisted of a one proportion test for the 1st device in the lancing pair being preferred, out of the total number of times that a preference was stated. Note: lancing pairs in which no preference was stated or where data were missing were excluded from analysis. The null hypothesis for the one proportion test was that the 1st device in the lancing pair was preferred 50% of the times.||||0.004
92205637|NCT00620282|184311375|SUPERIORITY_OR_OTHER||Least squares mean|7.43||||0.0549||95.0|-0.164|15.025||2-sided significance level of 5%.|ANCOVA|||Change in Ach-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||15.025|-0.164|0.0549
92205638|NCT00620282|184311375|SUPERIORITY_OR_OTHER||Least squares mean|2.08||||0.5681||95.0|-5.215|9.375||2-sided significance level of 5%.|ANCOVA|||Change in Ach-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||9.375|-5.215|0.5681
92205639|NCT00620282|184311375|SUPERIORITY_OR_OTHER||Least squares mean|5.35||||0.1668||95.0|-2.323|13.024||2-sided significance level of 5%.|ANCOVA|||Change in Ach-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||13.024|-2.323|0.1668
92205640|NCT00620282|184311376|SUPERIORITY_OR_OTHER||Least squares mean|4.499||||0.2648||95.0|-3.535|12.534||2-sided significance level of 5%.|ANCOVA|||Change in SNP-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||12.534|-3.535|0.2648
92205641|NCT00620282|184311376|SUPERIORITY_OR_OTHER||Least squares mean|0.709||||0.8518||95.0|-6.904|8.322||2-sided significance level of 5%.|ANCOVA|||Change in SNP-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||8.322|-6.904|0.8518
92205642|NCT00620282|184311376|SUPERIORITY_OR_OTHER||Least squares mean|3.79||||0.3435||95.0|-4.194|11.774||2-sided significance level of 5%.|ANCOVA|||Change in SNP-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||11.774|-4.194|0.3435
92205643|NCT00620282|184311377|SUPERIORITY_OR_OTHER||Least squares mean|-0.536||||0.0023||95.0|-0.868|-0.203||2-sided significance level of 5%.|ANCOVA|||Change in HbA1c from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HbA1c as a covariate.||-0.203|-0.868|0.0023
92205644|NCT00620282|184311377|SUPERIORITY_OR_OTHER||Least squares mean|-0.077||||0.6207||95.0|-0.391|0.236||2-sided significance level of 5%.|ANCOVA|||Change in HbA1c from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HbA1c as a covariate.||0.236|-0.391|0.6207
92205645|NCT00620282|184311377|SUPERIORITY_OR_OTHER||Least squares mean|-0.458||||0.0098||95.0|-0.8|-0.116||2-sided significance level of 5%.|ANCOVA|||Change in HbA1c from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HbA1c as a covariate.||-0.116|-0.8|0.0098
92205646|NCT00620282|184311378|SUPERIORITY_OR_OTHER||Least squares mean|-35.605||||||95.0|-46.797|-24.413||2-sided significance level of 5%.|ANCOVA|||Change in FPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FPG as a covariate.||-24.413|-46.797|
92205647|NCT00620282|184311378|SUPERIORITY_OR_OTHER||Least squares mean|-9.653||||0.0677||95.0|-20.041|0.736||2-sided significance level of 5%.|ANCOVA|||Change in FPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FPG as a covariate.||0.736|-20.041|0.0677
92205648|NCT00620282|184311378|SUPERIORITY_OR_OTHER||Least squares mean|-25.952||||||95.0|-37.429|-14.475||2-sided significance level of 5%.|ANCOVA|||Change in FPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FPG as a covariate.||-14.475|-37.429|
92205649|NCT00620282|184311379|SUPERIORITY_OR_OTHER||Least squares mean|-11.871||||0.4121||95.0|-40.943|17.201||2-sided significance level of 5%.|ANCOVA|||Change in PPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline PPG as a covariate.||17.201|-40.943|0.4121
92205650|NCT00620282|184311379|SUPERIORITY_OR_OTHER||Least squares mean|3.815||||0.7622||95.0|-21.618|29.247||2-sided significance level of 5%|ANCOVA|||Change in PPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline PPG as a covariate.||29.247|-21.618|0.7622
92205651|NCT00620282|184311379|SUPERIORITY_OR_OTHER||Least squares mean|-15.686||||0.2651||95.0|-43.838|12.466||2-sided significance level of 5%.|ANCOVA|||Change in PPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline PPG as a covariate.||12.466|-43.838|0.2651
92205652|NCT00620282|184311380|SUPERIORITY_OR_OTHER||Least squares mean|-1.528||||0.0268||95.0|-2.873|-0.184||2-sided significance level of 5%.|ANCOVA|||Change in body weight from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline body weight as a covariate.||-0.184|-2.873|0.0268
92205653|NCT00620282|184311380|SUPERIORITY_OR_OTHER||Least squares mean|-2.859||||||95.0|-4.139|-1.579||2-sided significance level of 5%.|ANCOVA|||Change in body weight from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline body weight as a covariate.||-1.579|-4.139|
92205654|NCT00620282|184311380|SUPERIORITY_OR_OTHER||Least squares mean|1.331||||0.0486||95.0|0.009|2.653||2-sided significance level of 5%.|ANCOVA|||Change in body weight from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline body weight as a covariate.||2.653|0.0090|0.0486
92205655|NCT00620282|184311381|SUPERIORITY_OR_OTHER||Least squares mean|-2.237||||0.7736||95.0|-17.829|13.354||2-sided significance level of 5%.|ANCOVA|||Change in TC from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TC as a covariate.||13.354|-17.829|0.7736
92205656|NCT00620282|184311381|SUPERIORITY_OR_OTHER||Least squares mean|1.912||||0.7993||95.0|-13.168|16.991||2-sided significance level of 5%.|ANCOVA|||Change in TC from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TC as a covariate.||16.991|-13.168|0.7993
92205657|NCT00620282|184311381|SUPERIORITY_OR_OTHER||Least squares mean|-4.149||||0.5903||95.0|-19.582|11.284||2-sided significance level of 5%.|ANCOVA|||Change in TC from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TC as a covariate.||11.284|-19.582|0.5903
92205658|NCT00620282|184311382|SUPERIORITY_OR_OTHER||Least squares mean|3.702||||0.5583||95.0|-8.96|16.365||2-sided significance level of 5%.|ANCOVA|||Change in LDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline LDL-C as a covariate.||16.365|-8.96|0.5583
92205659|NCT00620282|184311382|SUPERIORITY_OR_OTHER||Least squares mean|2.773||||0.6517||95.0|-9.537|15.082||2-sided significance level of 5%.|ANCOVA|||Change in LDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline LDL-C as a covariate.||15.082|-9.537|0.6517
92205660|NCT00620282|184311382|SUPERIORITY_OR_OTHER||Least squares mean|0.929||||0.8822||95.0|-11.646|13.505||2-sided significance level of 5%.|ANCOVA|||Change in LDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline LDL-C as a covariate.||13.505|-11.646|0.8822
92205661|NCT00620282|184311383|SUPERIORITY_OR_OTHER||Least squares mean|-0.169||||0.9131||95.0|-3.273|2.935||2-sided significance level of 5%.|ANCOVA|||Change in HDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HDL-C as a covariate.||2.935|-3.273|0.9131
92205662|NCT00620282|184311383|SUPERIORITY_OR_OTHER||Least squares mean|-0.723||||0.6362||95.0|-3.785|2.339||2-sided significance level of 5%.|ANCOVA|||Change in HDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HDL-C as a covariate.||2.339|-3.785|0.6362
92205663|NCT00620282|184311383|SUPERIORITY_OR_OTHER||Least squares mean|0.554||||0.7283||95.0|-2.643|3.751||2-sided significance level of 5%.|ANCOVA|||Change in HDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HDL-C as a covariate.||3.751|-2.643|0.7283
92205664|NCT00620282|184311384|SUPERIORITY_OR_OTHER||Least squares mean|-36.709||||0.0694||95.0|-76.467|3.048||2-sided significance level of 5%.|ANCOVA|||Change in TG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TG as a covariate.||3.048|-76.467|0.0694
92205665|NCT00620282|184311384|SUPERIORITY_OR_OTHER||Least squares mean|-3.786||||0.844||95.0|-42.373|34.801||2-sided significance level of 5%.|ANCOVA|||Change in TG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TG as a covariate.||34.801|-42.373|0.844
92205666|NCT00620282|184311384|SUPERIORITY_OR_OTHER||Least squares mean|-32.923||||0.0994||95.0|-72.353|6.507||2-sided significance level of 5%.|ANCOVA|||Change in TG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TG as a covariate.||6.507|-72.353|0.0994
92205667|NCT00620282|184311385|SUPERIORITY_OR_OTHER||Least squares mean|-0.42||||0.2282||95.0|-1.118|0.278||2-sided significance level of 5%.|ANCOVA|||Change in TNF-alpha from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TNF-alpha as a covariate.||0.278|-1.118|0.2282
92205668|NCT00620282|184311385|SUPERIORITY_OR_OTHER||Least squares mean|-0.018||||0.9569||95.0|-0.697|0.661||2-sided significance level of 5%.|ANCOVA|||Change in TNF-alpha from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TNF-alpha as a covariate.||0.661|-0.697|0.9569
92205669|NCT00620282|184311385|SUPERIORITY_OR_OTHER||Least squares mean|-0.402||||0.2465||95.0|-1.097|0.293||2-sided significance level of 5%.|ANCOVA|||Change in TNF-alpha from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TNF-alpha as a covariate.||0.293|-1.097|0.2465
92205670|NCT02217475|184311389|SUPERIORITY||Odds Ratio (OR)|0.816||||0.5194|TWO_SIDED|95.0|0.439|1.516|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||1.516|0.439|0.5194
92205671|NCT02217475|184311390|SUPERIORITY||Odds Ratio (OR)|1.934||||0.0388|TWO_SIDED|95.0|1.035|3.614|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||3.614|1.035|0.0388
92205672|NCT02217475|184311391|SUPERIORITY||Odds Ratio (OR)|1.249||||0.592|TWO_SIDED|95.0|0.553|2.821|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||2.821|0.553|0.5920
92205673|NCT02217475|184311392|SUPERIORITY||Odds Ratio (OR)|1.396||||0.4941|TWO_SIDED|95.0|0.537|3.628|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||3.628|0.537|0.4941
92205674|NCT02217475|184311393|SUPERIORITY||Odds Ratio (OR)|1.142||||0.8434|TWO_SIDED|95.0|0.305|4.277|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||4.277|0.305|0.8434
92205675|NCT02217475|184311394|SUPERIORITY||Odds Ratio (OR)|2.201||||0.0234|TWO_SIDED|95.0|1.113|4.352|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||4.352|1.113|0.0234
92205676|NCT02217475|184311395|SUPERIORITY||Odds Ratio (OR)|1.154||||0.7474|TWO_SIDED|95.0|0.484|2.752|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||2.752|0.484|0.7474
92205677|NCT01131182|184311487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||95.0||||Assessed for relative risk using prior therapy (monotherapy or combination therapy) as a stratification factor.|Cochran-Mantel-Haenszel|||||||0.0005
92205678|NCT05086276|184311497|SUPERIORITY||Odds Ratio (OR)|1.4||||0.525|TWO_SIDED|95.0|0.51|3.73||P value for statistical significance is \<0.05|Chi-squared|||||3.73|0.51|0.525
92205679|NCT05086276|184311497|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.525|TWO_SIDED|95.0|-7.52|14.71||P value for statistical significance is \<0.05|Chi-squared|||||14.71|-7.52|0.525
92205680|NCT05086276|184311498|SUPERIORITY||Least squares mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.491||0.973|TWO_SIDED|95.0|-0.954|0.987||P value for statistical significance is \<0.05|Mixed Models Analysis|||||0.987|-0.954|0.973
92205681|NCT05086276|184311500|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.16|TWO_SIDED|95.0|-0.06|0.34||P value for statistical significance is \<0.05|ANCOVA|||||0.34|-0.06|0.160
92205682|NCT05086276|184311501|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.027|TWO_SIDED|95.0|0.03|0.41||P value for statistical significance is \<0.05|ANCOVA|||||0.41|0.03|0.027
92205683|NCT00777088|184311502|NON_INFERIORITY|The cumulative rate of ipsilateral stroke or neurologic death is not ≥ 20% at 180-day clinical follow-up and the cumulative rate of ipsilateral stroke or neurovascular death is not ≥ 25% at 5-year clinical follow-up|||||<|0.001|||||||Bayesian|||||||<.001
92205684|NCT00777088|184311503|NON_INFERIORITY_OR_EQUIVALENCE|The rate of complete IA occlusion without major parent artery stenosis exceeds 50% with a posterior probability \>0.975.|||||<|0.001|||||||Bayesian|||||||<0.001
92205685|NCT00350103|184311511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|||=|0.041|TWO_SIDED|95.0|-0.88|-0.02|||ANCOVA||Estimated value is the difference of Least Square Means.|Last Observation Carried Forward (LOCF) procedure was applied for missing daily diary entries between start of trial medication and Visit 8 or last intake of trial medication in the case of discontinuation during the Titration or Maintenance Phase.||-0.02|-0.88|=0.0410
92205686|NCT00350103|184311511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|||=|0.2902|TWO_SIDED|95.0|-0.65|0.2|||ANCOVA||Estimated value is the difference of Least Square Means.|Last Observation Carried Forward (LOCF) procedure was applied for missing daily diary entries between start of trial medication and Visit 8 or last intake of trial medication in the case of discontinuation during the Titration or Maintenance Phase.||0.20|-0.65|=0.2902
92205687|NCT04828837|184311567|SUPERIORITY|The intervention effect was evaluated using the generalized estimating equation (GEE) statistical method. Two-tailed tests were conducted, and p-values less than .05 were considered statistically significant.|Mean Difference (Final Values)|0.39|||<|0.05|TWO_SIDED|95.0||||We used Mann-Whitney U test for independent samples, and Fisher's exact tests when more than 20% of cells have expected frequencies \<5 or less than 10 observations to examine the homogeneity between groups based on demographic characteristics.|Wilcoxon (Mann-Whitney)|||Descriptive statistics, including count, percentage, mean, and standard deviation, were used to summarize the data.||||<0.05
92205688|NCT04828837|184311568|SUPERIORITY|The intervention effect was evaluated using the generalized estimating equation (GEE) statistical method. Two-tailed tests were conducted, and p-values less than .05 were considered statistically significant.|||||<|0.05||||||We used Mann-Whitney U test for independent samples, and Fisher's exact tests when more than 20% of cells have expected frequencies \<5 or less than 10 observations to examine the homogeneity between groups based on demographic characteristics.|The generalized estimating equation (GEE|||Descriptive statistics, including count, percentage, mean, and standard deviation, were used to summarize the data.||||<0.05
92205689|NCT04828837|184311569|SUPERIORITY|The intervention effect was evaluated using the generalized estimating equation (GEE) statistical method. Two-tailed tests were conducted, and p-values less than .05 were considered statistically significant.|||||<|0.05||||||We used Mann-Whitney U test for independent samples, and Fisher's exact tests when more than 20% of cells have expected frequencies \<5 or less than 10 observations to examine the homogeneity between groups based on demographic characteristics.|The generalized estimating equation (GEE|||Descriptive statistics, including count, percentage, mean, and standard deviation, were used to summarize the data.||||<0.05
92205690|NCT04828837|184311570|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
92205691|NCT01397422|184311571|SUPERIORITY||Least Squares Mean Difference|-11.3||||0.0051|TWO_SIDED|95.0|-19.1|-3.5|||ANCOVA|Change from baseline is a dependent variable, treatment group is a factor, and the baseline value is a covariate.||20 subjects per treatment arm provided 80% power using a 2-sided 2-sample test at 5% significance. The null hypothesis for the primary endpoint was that the response of the ADS-5102 340 mg group was equal to that of the placebo group.||-3.5|-19.1|0.0051
92205692|NCT01397422|184311571|SUPERIORITY||Least Squares Mean Difference|-10.0||||0.0131|TWO_SIDED|95.0|-17.8|-2.2|||ANCOVA|||||-2.2|-17.8|0.0131
92205693|NCT01397422|184311571|SUPERIORITY||Least Squares Mean Difference|-5.6||||0.1595|TWO_SIDED|95.0|-13.4|2.2|||ANCOVA|||||2.2|-13.4|0.1595
92205694|NCT01397422|184311572|SUPERIORITY||Least Squares Mean Difference|-0.3||||0.4314|TWO_SIDED|95.0|-1.1|0.5|||ANCOVA|||||0.5|-1.1|0.4314
92327319|NCT00224406|184559862|SUPERIORITY||Odds Ratio (OR)|1.337||||0.8499|TWO_SIDED|95.0|0.352|5.072|||Cochran-Mantel-Haenszel||Odds ratio is Repertaxin:Placebo ratio of PGD scores 0-2:PGD score 3 odds|Analysis of PGD score was performed separately at time 0, and at 24, 48, 72 hours after ICU admission. Herein analysis at 72h post-ICU admission. One patient of placebo group is excluded from analysis of PGD score because the cause of graft dysfunction is Cardiogenic pulmonary edema.||5.072|0.352|0.8499
92327320|NCT00224406|184559863|SUPERIORITY|at 24 hrs from mechanical ventilation|difference in event probability|0.0091||||0.7076|TWO_SIDED|95.0|-0.1867|0.2049|||Log Rank|||||0.2049|-0.1867|0.7076
92327321|NCT00224406|184559863|SUPERIORITY||difference in event probability|-0.0316||||0.7076|TWO_SIDED|95.0|-0.2092|0.146|||Log Rank|||at 48 hrs from mechanical ventilation||0.1460|-0.2092|0.7076
92327322|NCT00224406|184559863|SUPERIORITY||difference in event probability|-0.0661||||0.7076|TWO_SIDED|95.0|-0.2314|0.0993|||Log Rank|||at 72 hrs from mechanical ventilation||0.0993|-0.2314|0.7076
92327323|NCT00224406|184559864|SUPERIORITY||Difference in event probability|-0.0364||||0.9632|TWO_SIDED|95.0|-0.0858|0.0131|||Log Rank|||Analysis at 24 hours||0.0131|-0.0858|0.9632
92327324|NCT00224406|184559864|SUPERIORITY||Difference in event probability|0.0352||||0.9632|TWO_SIDED|95.0|-0.1458|0.2162|||Log Rank|||Analysis at 48 h||0.2162|-0.1458|0.9632
92327325|NCT00224406|184559864|SUPERIORITY||Difference in event probability|-0.0179||||0.9632|TWO_SIDED|95.0|-0.2143|0.1785|||Log Rank|||analysis at 72 h||0.1785|-0.2143|0.9632
92327326|NCT00224406|184559869|SUPERIORITY||Difference in event probability|-0.0566||||0.0111|TWO_SIDED|95.0|-0.1188|0.0056|||Log Rank|||Herein analysis up to month 3 was reported.||0.0056|-0.1188|0.0111
92327327|NCT00224406|184559869|SUPERIORITY||Difference in event probability|-0.0943||||0.0111|TWO_SIDED|95.0|-0.173|-0.0156|||Log Rank|||Herein analysis up to month 6 was reported.||-0.0156|-0.1730|0.0111
92327328|NCT00224406|184559869|SUPERIORITY||Difference in event probability|-0.1132||||0.0111|TWO_SIDED|95.0|-0.1985|-0.0279|||Log Rank|||Herein analysis up to month 9 was reported.||-0.0279|-0.1985|0.0111
92327329|NCT00224406|184559869|SUPERIORITY||Slope|-0.1334||||0.0111|TWO_SIDED|95.0|-0.2254|-0.0413|||Log Rank|||Herein analysis up to month 12 was reported.||-0.0413|-0.2254|0.0111
92327330|NCT01010009|184559872|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Data was analysed by omnibus ANOVA with a priori planned comparisons utilizing the mean squares error term from this ANOVA.||||>0.05
92205695|NCT01397422|184311572|SUPERIORITY||Least Squares Mean Difference|0.3||||0.5223|TWO_SIDED|95.0|-0.5|1.0|||ANCOVA|||||1.0|-0.5|0.5223
92205696|NCT01397422|184311572|SUPERIORITY||Least Squares Mean Difference|0.2||||0.6298|TWO_SIDED|95.0|-0.6|1.0|||ANCOVA|Change from baseline is a dependent variable, treatment group is a factor, baseline value is a covariate||||1.0|-0.6|0.6298
92205697|NCT01397422|184311573|SUPERIORITY||Least Squares Mean Difference|-5.2||||0.0038|TWO_SIDED|95.0|-8.7|-1.7|||ANCOVA|||||-1.7|-8.7|0.0038
92205698|NCT01397422|184311573|SUPERIORITY||Least Squares Mean Difference|-6.4||||0.0004|TWO_SIDED|95.0|-9.8|-2.9|||ANCOVA|||||-2.9|-9.8|0.0004
92205699|NCT01397422|184311573|SUPERIORITY||Least Squares Mean Difference|-2.5||||0.1469|TWO_SIDED|95.0|-6.0|0.9|||ANCOVA|Change from baseline is a dependent variable, treatment group is a factor, and the baseline value is a covariate.||||0.9|-6.0|0.1469
92205700|NCT01397422|184311574|SUPERIORITY||Least Squares Mean Difference|3.0||||0.0078|TWO_SIDED|95.0|0.8|5.2|||ANCOVA|||||5.2|0.8|0.0078
92327331|NCT01010009|184559872|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||Data was analysed by omnibus ANOVA with a priori planned comparisons utilizing the mean squares error term from this ANOVA.||||<0.05
92205701|NCT01397422|184311574|SUPERIORITY||Least Squares Mean Difference|2.7||||0.0179|TWO_SIDED|95.0|0.5|5.0|||ANCOVA|||||5.0|0.5|0.0179
92205702|NCT01397422|184311574|SUPERIORITY||Least Squares Mean Difference|3.3||||0.004|TWO_SIDED|95.0|1.1|5.5|||ANCOVA|Change from baseline is a dependent variable, treatment group is a factor, and the baseline value is a covariate||||5.5|1.1|0.0040
92205703|NCT01397422|184311575|SUPERIORITY||Least Squares Mean Difference|-2.2||||0.6355|TWO_SIDED|95.0|-11.2|6.9|||ANCOVA|||||6.9|-11.2|0.6355
92205704|NCT01397422|184311575|SUPERIORITY||Least Squares Mean Difference|1.7||||0.7053|TWO_SIDED|95.0|-7.2|10.6|||ANCOVA|||||10.6|-7.2|0.7053
92205705|NCT01397422|184311575|SUPERIORITY||Least Squares Mean Difference|1.2||||0.7862|TWO_SIDED|95.0|-7.7|10.1|||ANCOVA|Change from baseline is a dependent variable, treatment group is a factor, and the baseline value is a covariate||||10.1|-7.7|0.7862
92205706|NCT01397422|184311576|SUPERIORITY|||||||0.0036|||||||Cochran-Mantel-Haenszel|||||||0.0036
92205707|NCT01397422|184311576|SUPERIORITY|||||||0.2158|||||||Cochran-Mantel-Haenszel|||||||0.2158
92205708|NCT01397422|184311576|SUPERIORITY|||||||0.1042|||||||Cochran-Mantel-Haenszel|Equally spaced scores||||||0.1042
92205709|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_DEVIATION|0.157||0.083||||||Significance was set at p \<0.05.|t-test, 2 sided||Mean difference between the pre-dose (baseline) and post-dose values calculated as post-dose minus pre-dose (post minus pre).|Glu/Cr posterior insula||||0.083
92205710|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.436||95.0||||Significance was set at p \<0.05.|t-test, 2 sided|||Glu/Cr posterior insula||||0.436
92327332|NCT01010009|184559873|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Performance on each cognitive task was assessed via omnibus ANOVA with a priori planned comparisons.||||>0.05
92327333|NCT01010009|184559873|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Performance on each cognitive task was assessed via omnibus ANOVA with a priori planned comparisons.||||>0.05
92327334|NCT01010009|184559874|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||An omnibus ANOVA was carried out with a priori planned comparisons using the mean squares error term from this ANOVA.||||<0.05
92327335|NCT01010009|184559874|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||An omnibus ANOVA was carried out with a priori planned comparisons using the mean squares error term from this ANOVA.||||<0.05
92327336|NCT05070468|184559937|SUPERIORITY|||||||0.618|||||||Wilcoxon (Mann-Whitney)|||||||0.618
92327337|NCT05070468|184559938|SUPERIORITY|||||||0.483|||||||Wilcoxon (Mann-Whitney)|||||||0.483
92205711|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.306||95.0|||||t-test, 2 sided|Significance was set at p \<0.05.||Gln/Cr posterior insula||||0.306
92205712|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.809||95.0|||||t-test, 2 sided|Significance was set at p \<0.05.||Gln/Cr posterior insula||||0.809
92205713|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.116|STANDARD_DEVIATION|0.177||0.016|||||||t-test, 2 sided|Significance was set at p \<0.05.|Mean difference between the pre-dose (baseline) and post-dose values calculated as post-dose minus pre-dose (post minus pre).|Glx/Cr posterior insula||||0.016
92205714|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.029|STANDARD_DEVIATION|0.308||0.708||||||Significance was set at p \<0.05.|t-test, 2 sided||Mean difference between the pre-dose (baseline) and post-dose values calculated as post-dose minus pre-dose (post minus pre).|Glx/Cr posterior insula||||0.708
92205715|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.809||95.0||||Significance was set at p \<0.050.|t-test, 2 sided|||Glu/Cr anterior insula||||0.809
92205716|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.154||95.0||||Significance was set at p \<0.05.|t-test, 2 sided|||Glu/Cr anterior insula||||0.154
92205717|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96||95.0|||||t-test, 2 sided|Significance was set at p \<0.05.||Gln/Cr anterior insula||||0.960
92205718|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.937||95.0|||||t-test, 2 sided|Significance was set at p \<0.05.||Gln/Cr anterior insula||||0.937
92205719|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.897||95.0||||Significance was set at p \<0.05.|t-test, 2 sided|||Glx/Cr anterior insula||||0.897
92205720|NCT00760474|184311578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.309||95.0||||Significance was set at p \<0.05.|t-test, 2 sided|||Glx/Cr anterior insula||||0.309
92205721|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.032||||0.6347|TWO_SIDED|95.0|-0.1081|0.1714||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||Anterior Cingulate||0.1714|-0.1081|0.6347
92205722|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.079||||0.5181|TWO_SIDED|95.0|-0.3356|0.1771||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||BA22||0.1771|-0.3356|0.5181
92205723|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.072||||0.2987|TWO_SIDED|95.0|-0.2161|0.0714||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||BA40||0.0714|-0.2161|0.2987
92205724|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.029||||0.5151|TWO_SIDED|95.0|-0.064|0.1219||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_anIns||0.1219|-0.0640|0.5151
92205725|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.081||||0.2369|TWO_SIDED|95.0|-0.2228|0.0599||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Amygdala||0.0599|-0.2228|0.2369
92205726|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.077||||0.0758|TWO_SIDED|95.0|-0.1642|0.0092||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Cerebellum||0.0092|-0.1642|0.0758
92327338|NCT05070468|184559939|SUPERIORITY|||||||0.571|||||||Wilcoxon (Mann-Whitney)|||||||0.571
92205727|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.025||||0.4609|TWO_SIDED|95.0|-0.0947|0.0452||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_DLPFC||0.0452|-0.0947|0.4609
92205728|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.111||||0.3813|TWO_SIDED|95.0|-0.3745|0.1524||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Mid Insula||0.1524|-0.3745|0.3813
92205729|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.02||||0.72|TWO_SIDED|95.0|-0.0964|0.1361||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Mid Temporal Pole||0.1361|-0.0964|0.7200
92205730|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.168||||0.2099|TWO_SIDED|95.0|-0.1065|0.4434||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Orbito Front||0.4434|-0.1065|0.2099
92205731|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.003||||0.9551|TWO_SIDED|95.0|-0.1047|0.0992||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||PAG||0.0992|-0.1047|0.9551
92205732|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.0||||0.994|TWO_SIDED|95.0|-0.0855|0.0848||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||Posterior Insula||0.0848|-0.0855|0.9940
92205733|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.049||||0.4291|TWO_SIDED|95.0|-0.1792|0.0806||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Posterior Cingulate||0.0806|-0.1792|0.4291
92205734|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.027||||0.467|TWO_SIDED|95.0|-0.0496|0.1028||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Precuneus||0.1028|-0.0496|0.4670
92205735|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.044||||0.4443|TWO_SIDED|95.0|-0.0752|0.1624||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Putamen||0.1624|-0.0752|0.4443
92205736|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.127||||0.2823|TWO_SIDED|95.0|-0.3704|0.1165||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_S2||0.1165|-0.3704|0.2823
92205737|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.105||||0.1369|TWO_SIDED|95.0|-0.2481|0.0378||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_DLPFC||0.0378|-0.2481|0.1369
92327339|NCT01349322|184559949|NON_INFERIORITY|Non-inferiority is defined as a hazard ratio upper limit of 2.12.|Hazard Ratio (HR)|1.32||||0.039|TWO_SIDED|90.0|0.84|2.05|||Regression, Cox||Cause-specific hazard ratio; reference level = Arm 1.|"Assuming Arm 1 5-year IBR of 1.59%, for hypothesized upper bound hazard ratio (HR) of 2.12 (Arm 2 5-year IBR of 3.33%), 46 IBR events provide \>80% power to conclude non-inferiority with one-sided significance level = 0.05. Null hypothesis: HR ≥ 2.12 (inferior). Alternative hypothesis: HR \< 2.12 (non-inferior). See Limitations and Caveats section."||2.05|0.84|0.039
92205738|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.078||||0.2376|TWO_SIDED|95.0|-0.0573|0.2127||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_anIns||0.2127|-0.0573|0.2376
92205739|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.153||||0.0968|TWO_SIDED|95.0|-0.3365|0.0313||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Amygdala||0.0313|-0.3365|0.0968
92205740|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.023||||0.572|TWO_SIDED|95.0|-0.061|0.1062||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_BA23\_base||0.1062|-0.0610|0.5720
92205741|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.027||||0.5822|TWO_SIDED|95.0|-0.1303|0.0761||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_IPL\_base||0.0761|-0.1303|0.5822
92205742|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.044||||0.6851|TWO_SIDED|95.0|-0.2697|0.1824||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Insula\_base||0.1824|-0.2697|0.6851
92205743|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.013||||0.8656|TWO_SIDED|95.0|-0.1699|0.1446||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Mid Insula||0.1446|-0.1699|0.8656
92205744|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.094||||0.1562|TWO_SIDED|95.0|-0.2296|0.0407||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Mid Front\_DLPFC||0.0407|-0.2296|0.1562
92205745|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.012||||0.7752|TWO_SIDED|95.0|-0.0991|0.0754||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Mid Temporal Pole||0.0754|-0.0991|0.7752
92205746|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.01||||0.9182|TWO_SIDED|95.0|-0.1912|0.2109||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Orbito Front||0.2109|-0.1912|0.9182
92205747|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.022||||0.6544|TWO_SIDED|95.0|-0.0829|0.1278||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_PAG||0.1278|-0.0829|0.6544
92205748|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.087||||0.0813|TWO_SIDED|95.0|-0.0123|0.1863||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_pIns||0.1863|-0.0123|0.0813
92205749|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.052||||0.4605|TWO_SIDED|95.0|-0.0956|0.2004||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_pIns||0.2004|-0.0956|0.4605
92205750|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.081||||0.3136|TWO_SIDED|95.0|-0.2484|0.0856||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Posterior Cingulate||0.0856|-0.2484|0.3136
92205751|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.0||||0.9929|TWO_SIDED|95.0|-0.0885|0.0893||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Precuneus||0.0893|-0.0885|0.9929
92205752|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.002||||0.949|TWO_SIDED|95.0|-0.0815|0.0767||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Precuneus\_base||0.0767|-0.0815|0.9490
92205753|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.065||||0.5668|TWO_SIDED|95.0|-0.3019|0.1722||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||Superior Temporal||0.1722|-0.3019|0.5668
92205754|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.0||||0.9958|TWO_SIDED|95.0|-0.1398|0.1391||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Premotor||0.1391|-0.1398|0.9958
92205755|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.057||||0.3379|TWO_SIDED|95.0|-0.0659|0.1795||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Putamen||0.1795|-0.0659|0.3379
92205756|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.085||||0.2186|TWO_SIDED|95.0|-0.2262|0.0565||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_S1||0.0565|-0.2262|0.2186
92205757|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.008||||0.8191|TWO_SIDED|95.0|-0.0843|0.0678||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Thalamus||0.0678|-0.0843|0.8191
92205758|NCT00760474|184311579|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.012||||0.7647|TWO_SIDED|95.0|-0.0698|0.093||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||Precuneus||0.0930|-0.0698|0.7647
92205759|NCT04664400|184311604|OTHER|Paired t test, testing whether the within participant difference is larger than 0.||||||0.043|||||||t-test, 1 sided|||||||0.043
92205760|NCT04664400|184311605|OTHER|Paired t test, testing whether the within participant difference is larger than 0.||||||0.036|||||||t-test, 1 sided|||||||0.036
92205761|NCT04664400|184311606|OTHER|Paired t test, testing whether the within participant difference is larger than 0.||||||0.012|||||||t-test, 1 sided|||||||0.012
92205762|NCT04664400|184311607|OTHER|Paired t test, testing whether the within participant difference is larger than 0.||||||0.835|||||||t-test, 1 sided|||||||0.835
92205763|NCT02489968|184311620|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.97|-0.67|||REML based MMRM|Model including baseline HbA1c, treatment, baseline renal function, prior use of antidiabetic drug, visit, and visit by treatment interaction.|Adjusted mean difference: Change in HbA1c in (empagliflozin 10 mg + linagliptin 5 mg) - change in HbA1c in (empagliflozin 10 mg + placebo)|||-0.67|-0.97|<0.0001
92205764|NCT02489968|184311620|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.73|-0.45|||REML based MMRM|Model including baseline HbA1c, treatment, baseline renal function, prior use of antidiabetic drug, visit, and visit by treatment interaction.|Adjusted mean difference: Change in HbA1c in (empagliflozin 25 mg + linagliptin 5 mg) - change in HbA1c in (empagliflozin 25 mg + placebo)|||-0.45|-0.73|<0.0001
92205765|NCT01982448|184311631|SUPERIORITY||Odds Ratio (OR)|2.22|||||TWO_SIDED|95.0|0.39|23.68|||||Association between HRD status and pathologic response was measured by the odds ratio (OR).|In the Cisplatin treated patients, the relationship between HRD status and pathologic response was conducted by arm using a univariate logistic regression model and a likelihood ratio test with a one-sided type I error of alpha 0.05. Assuming 12.5% unevaluable, prevalence of HR deficiency 60%, 70 evaluable patients per in a given arm, there is \~80% power to detect a response rate of 52% in HR-deficient patients vs a 16% in HR non-deficient patients, corresponding to the Odds Ratio 5.7.||23.68|0.39|
92268684|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.5||||||95.0|-3.1|3.0||||||For Polio Type 2 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||3.0|-3.1|
92268685|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.8||||||95.0|-3.1|1.9||||||For Polio Type 3 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||1.9|-3.1|
92268686|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.9||||||95.0|-3.2|5.0||||||For Hib (PRP) the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.15 (μg/mL) threshold was calculated||5.0|-3.2|
92205766|NCT01982448|184311631|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.19|4.95||||||In the Paclitaxel treated patients, the relationship between HRD status and pathologic response was conducted by arm using a univariate logistic regression model and a likelihood ratio test with a one-sided type I error of alpha 0.05. Assuming 12.5% unevaluable, prevalence of HR deficiency 60%, 70 evaluable patients per in a given arm, there is \~80% power to detect a response rate of 37% in HR-deficient patients vs a 16% in HR non-deficient patients, corresponding to the Odds Ratio 0.62.||4.95|0.19|
92205767|NCT01982448|184311632|SUPERIORITY||Odds Ratio (OR)|2.32|||||TWO_SIDED|95.0|0.23|118.07||||||||118.07|0.23|
92205768|NCT01982448|184311632|SUPERIORITY||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.09|4.14||||||||4.14|0.09|
92205769|NCT02233543|184311667|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.2419|TWO_SIDED|95.0|-1.21|0.32|||Mixed Models Analysis|||||0.32|-1.21|0.2419
92205770|NCT02233543|184311668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.79||||0.2016|TWO_SIDED|95.0|-4.51|20.08|||Mixed Models Analysis|||||20.08|-4.51|0.2016
92205771|NCT01302067|184311669|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.91|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.16|-0.66||Primary comparison was 8 mg VS. 4 mg (closed-testing method). Treatment effect of 8 mg VS. placebo was tested 1st. Treatment difference of 8 mg VS. 4 mg was tested if a statistically significant difference between 8 mg and placebo was shown.|ANCOVA|Using a closed testing procedure, no adjustments of α-level was needed at each stage of testing. Each was done at the 0.05 significance level.|Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Comparisons were done with 2-sided test at 5% significance level. Null hypothesis: mean change from BL in the number of UUI episodes per 24 hours in the 8mg group was same as 4mg group at Week 12. ANCOVA was used to compare 8mg and 4mg arms for numeric change from BL - Week 12. This included terms for treatment, country, centered BL value and centered BL by treatment interaction, in which centered BL (BL - mean BL) was used to ensure that treatment effect was estimated at mean covariate value.||-0.66|-1.16|<0.0001
92205772|NCT01302067|184311669|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.11||0.0109|TWO_SIDED|95.0|-0.48|-0.06||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Treatment comparisons were performed with a two-sided test at the 5% significance level.||-0.06|-0.48|0.0109
92205773|NCT01302067|184311669|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.89|-0.39||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Treatment comparisons were performed with a two-sided test at the 5% significance level.||-0.39|-0.89|<0.0001
92205774|NCT01302067|184311670|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.13|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.48|-0.79||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.79|-1.48|<0.0001
92205775|NCT01302067|184311670|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.14||0.0082|TWO_SIDED|95.0|-0.67|-0.1||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.10|-0.67|0.0082
92205776|NCT01302067|184311670|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.75|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.1|-0.41||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.41|-1.10|<0.0001
92327340|NCT01349322|184559950|SUPERIORITY|||||||0.96||||||Two-sided significance level = 0.05|Log Rank|||||||0.96
92205777|NCT01302067|184311671|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.76|-1.03||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-1.03|-1.76|<0.0001
92205778|NCT01302067|184311671|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.15||0.0006|TWO_SIDED|95.0|-0.83|-0.23||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.23|-0.83|0.0006
92205779|NCT01302067|184311671|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.23|-0.51||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.51|-1.23|<0.0001
92205780|NCT01302067|184311672|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92205781|NCT01302067|184311672|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0040
92205782|NCT01302067|184311672|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92327341|NCT01349322|184559951|SUPERIORITY|||||||0.14||||||Two-sided significance level = 0.05.|Log Rank|||||||0.14
92327342|NCT01349322|184559952|SUPERIORITY|||||||0.34||||||Two-sided significance level = 0.05|Log Rank|||||||0.34
92205783|NCT01302067|184311673|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92205784|NCT01302067|184311673|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92205785|NCT01302067|184311673|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92205786|NCT01302067|184311674|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.02|-0.5||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||-0.50|-1.02|<0.0001
92205787|NCT01302067|184311674|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0662|TWO_SIDED|95.0|-0.41|0.01||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||0.01|-0.41|0.0662
92205788|NCT01302067|184311674|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.82|-0.3||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||-0.30|-0.82|<0.0001
92205789|NCT01302067|184311675|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92205790|NCT01302067|184311675|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92205791|NCT01302067|184311676|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92205792|NCT01302067|184311676|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0006
92205793|NCT01302067|184311676|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0001
92205794|NCT01302067|184311677|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.55|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-2.04|-1.06||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-1.06|-2.04|<0.0001
92205795|NCT01302067|184311677|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.21||0.0121|TWO_SIDED|95.0|-0.92|-0.11||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.11|-0.92|0.0121
92205796|NCT01302067|184311677|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.04|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.52|-0.55||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.55|-1.52|<0.0001
92205797|NCT01302067|184311678|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.02|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.55|-1.49||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-1.49|-2.55|<0.0001
92205798|NCT01302067|184311678|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.78|STANDARD_ERROR_OF_MEAN|0.22||0.0005|TWO_SIDED|95.0|-1.22|-0.34||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.34|-1.22|0.0005
92205799|NCT01302067|184311678|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.24|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-1.77|-0.71||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.71|-1.77|<0.0001
92205800|NCT01302067|184311679|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92205801|NCT01302067|184311679|SUPERIORITY_OR_OTHER|||||||0.0348|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0348
92205802|NCT01302067|184311679|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0003
92205803|NCT01302067|184311680|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92205804|NCT01302067|184311680|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0002
92205805|NCT01302067|184311680|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
92205806|NCT01302067|184311681|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||<0.0001
92205807|NCT01302067|184311681|SUPERIORITY_OR_OTHER|||||||0.0057|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||0.0057
92205808|NCT01302067|184311681|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||0.0008
92205809|NCT01302067|184311682|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||0.0007
92205810|NCT01302067|184311682|SUPERIORITY_OR_OTHER|||||||0.0091|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||0.0091
92205811|NCT01302067|184311682|SUPERIORITY_OR_OTHER|||||||0.3901|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||0.3901
92205812|NCT01302067|184311683|SUPERIORITY_OR_OTHER||Least squares mean difference|-12.47|STANDARD_ERROR_OF_MEAN|1.54|<|0.0001|TWO_SIDED|95.0|-15.49|-9.45||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Change at Week 12- ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction was used to calculate p-value.||-9.45|-15.49|<0.0001
92205813|NCT01302067|184311683|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.69|STANDARD_ERROR_OF_MEAN|1.26||0.0002|TWO_SIDED|95.0|-7.15|-2.22||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Change at Week 12- ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction was used to calculate p-value.||-2.22|-7.15|0.0002
92205814|NCT01302067|184311683|SUPERIORITY_OR_OTHER||Least squares mean difference|-7.78|STANDARD_ERROR_OF_MEAN|1.53|<|0.0001|TWO_SIDED|95.0|-10.78|-4.78||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Change at Week 12- ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction was used to calculate p-value.||-4.78|-10.78|<0.0001
92205815|NCT01302067|184311684|SUPERIORITY_OR_OTHER||Least squares mean difference|10.46|STANDARD_ERROR_OF_MEAN|1.67|<|0.0001|TWO_SIDED|95.0|7.2|13.73||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||13.73|7.20|<0.0001
92205816|NCT01302067|184311684|SUPERIORITY_OR_OTHER||Least squares mean difference|4.68|STANDARD_ERROR_OF_MEAN|1.36||0.0006|TWO_SIDED|95.0|2.01|7.36||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||7.36|2.01|0.0006
92205817|NCT01302067|184311684|SUPERIORITY_OR_OTHER||Least squares mean difference|5.78|STANDARD_ERROR_OF_MEAN|1.66||0.0005|TWO_SIDED|95.0|2.53|9.03||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||9.03|2.53|0.0005
92205818|NCT01302067|184311685|SUPERIORITY_OR_OTHER||Least squares mean difference|10.91|STANDARD_ERROR_OF_MEAN|1.62|<|0.0001|TWO_SIDED|95.0|7.73|14.09||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||14.09|7.73|<0.0001
92205819|NCT01302067|184311685|SUPERIORITY_OR_OTHER||Least squares mean difference|4.36|STANDARD_ERROR_OF_MEAN|1.33||0.001|TWO_SIDED|95.0|1.76|6.96||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||6.96|1.76|0.0010
92205820|NCT01302067|184311685|SUPERIORITY_OR_OTHER||Least squares mean difference|6.55|STANDARD_ERROR_OF_MEAN|1.61|<|0.0001|TWO_SIDED|95.0|3.39|9.72||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||9.72|3.39|<0.0001
92205821|NCT01302067|184311686|SUPERIORITY_OR_OTHER||Least squares mean difference|7.46|STANDARD_ERROR_OF_MEAN|1.56|<|0.0001|TWO_SIDED|95.0|4.4|10.51||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||10.51|4.40|<0.0001
92205822|NCT01302067|184311686|SUPERIORITY_OR_OTHER||Least squares mean difference|3.74|STANDARD_ERROR_OF_MEAN|1.27||0.0034|TWO_SIDED|95.0|1.24|6.23||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||6.23|1.24|0.0034
92205823|NCT01302067|184311686|SUPERIORITY_OR_OTHER||Least squares mean difference|3.72|STANDARD_ERROR_OF_MEAN|1.55||0.0164|TWO_SIDED|95.0|0.68|6.76||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||6.76|0.68|0.0164
92205824|NCT01302067|184311687|SUPERIORITY_OR_OTHER||Least squares mean difference|7.5|STANDARD_ERROR_OF_MEAN|1.26|<|0.0001|TWO_SIDED|95.0|5.03|9.97||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||9.97|5.03|<0.0001
92205825|NCT01302067|184311687|SUPERIORITY_OR_OTHER||Least squares mean difference|3.68|STANDARD_ERROR_OF_MEAN|1.03||0.0004|TWO_SIDED|95.0|1.65|5.7||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||5.70|1.65|0.0004
92205826|NCT01302067|184311687|SUPERIORITY_OR_OTHER||Least squares mean difference|3.82|STANDARD_ERROR_OF_MEAN|1.25||0.0023|TWO_SIDED|95.0|1.36|6.28||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||6.28|1.36|0.0023
92205827|NCT01302067|184311688|SUPERIORITY_OR_OTHER||Least squares mean difference|9.37|STANDARD_ERROR_OF_MEAN|1.43|<|0.0001|TWO_SIDED|95.0|6.56|12.18||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||12.18|6.56|<0.0001
92205828|NCT01302067|184311688|SUPERIORITY_OR_OTHER||Least squares mean difference|4.23|STANDARD_ERROR_OF_MEAN|1.17||0.0003|TWO_SIDED|95.0|1.93|6.53||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||6.53|1.93|0.0003
92327343|NCT01349322|184559954|NON_INFERIORITY|Null hypothesis (H0) of inferiority: the mean change in cosmetic subscale score in Arm 2 will be at least 0.4 standard deviations worse than in Arm 1. If H0 is rejected, then non-inferiority can be concluded.|Mean Difference (Final Values)|0.026|STANDARD_DEVIATION|0.62|<|0.0001|TWO_SIDED|95.0|-0.08|0.13||One-side significance level = 0.025|t-test, 1 sided|||||0.13|-0.08|<0.0001
92327344|NCT02063178|184559976|SUPERIORITY||Mean Difference (Final Values)|2.1|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This randomized clinical trial was designed to have 90% power to detect a 4% weight loss percent difference at 12 months between the two study arms.||||<0.001
92327345|NCT02063178|184559977|OTHER|Correlation|||||<|0.0001|||||||Correlation|||The association between weight change percent and attendance was described using Spearman rank correlation.||||<0.0001
92327346|NCT02063178|184559978|OTHER||||||<|0.0001|||||||Correlation|||||||<0.0001
92327347|NCT02063178|184559979|OTHER||||||<|0.0001|||||||Correlation|||||||<0.0001
92205829|NCT01302067|184311688|SUPERIORITY_OR_OTHER||Least squares mean difference|5.14|STANDARD_ERROR_OF_MEAN|1.43||0.0003|TWO_SIDED|95.0|2.34|7.94||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||7.94|2.34|0.0003
92205830|NCT01302067|184311689|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||0.0016
92205831|NCT01302067|184311689|SUPERIORITY_OR_OTHER|||||||0.8121|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||0.8121
92205832|NCT01302067|184311689|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||0.0015
92205833|NCT01302067|184311690|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||<0.0001
92205834|NCT01302067|184311690|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||0.0006
92205835|NCT01302067|184311690|SUPERIORITY_OR_OTHER|||||||0.0027|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||0.0027
92205836|NCT00715962|184311693|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Fisher Exact|Fisher's exact test used as the rate of falling was low.||||||<.05
92205837|NCT00715962|184311694|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||||||<.05
92327348|NCT01928797|184560043|SUPERIORITY|||||||0.37|||||||Chi-squared|||||||0.37
92205838|NCT00266227|184311696|SUPERIORITY_OR_OTHER|||||||0.0195|||||||Cochran-Mantel-Haenszel|||||||0.0195
92205839|NCT00266227|184311698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||||95.0|-0.7|-0.1|||ANOVA|Adjusted mean for Arm A (Rituxan) is -1.9 and adjusted mean for Arm B (Placebo) is -1.5.||Assessed using an analysis of variance (ANOVA) model, with retreatment group, baseline DAS28-ESR score, baseline RF status, and ≥20% improvement in both SJC and TJC at Week 24 from baseline (yes/no) as explanatory terms in the model.||-0.1|-0.7|
92205840|NCT02704754|184311745|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<.05
92205841|NCT03730480|184311758|OTHER|count of number of results within 15% of reference analyzer||||||||||||||||count of number of responses|The number of results that are within 15% of reference analyzer is reported.|||
92205842|NCT02716818|184311781|SUPERIORITY||Mean Difference (Final Values)|-0.069|||=|0.5521|TWO_SIDED|95.0|-0.299|0.161|||ANCOVA|||The primary efficacy variable was the natural logarithm of the mean of the 24-hour SDS profile for the natural logarithm of 17-OHP. The SDS profile was calculated as the SDS of log transformed 17-OHP concentration unsigned. The mean of the 24-hour SDS profile for each visit was the arithmetic mean of all the SDSs, with the first and last (13th) weighted one half relative to the intermediate SDSs.||0.161|-0.299|=0.5521
92205843|NCT02716818|184311782|SUPERIORITY||Mean Difference (Final Values)|0.047|||=|0.7405|TWO_SIDED|95.0|-0.234|0.329|||ANCOVA|||Change from Baseline to 24 Weeks in A4 Using an ANCOVA Model - The analysis conducted for the primary endpoint variable analysis of 17-OHP was repeated for A4.||0.329|-0.234|=0.7405
92205844|NCT02716818|184311783|SUPERIORITY||Mean Difference (Final Values)|-0.037|||=|0.8186|TWO_SIDED|95.0|-0.354|0.281|||ANCOVA|||||0.281|-0.354|=0.8186
92205845|NCT02716818|184311783|SUPERIORITY||Mean Difference (Final Values)|-0.135|||=|0.4655|TWO_SIDED|95.0|-0.508|0.237|||ANCOVA|||||0.237|-0.508|=0.4655
92205846|NCT02716818|184311783|SUPERIORITY||Mean Difference (Final Values)|0.065|||=|0.9081|TWO_SIDED|95.0|-1.32|1.451|||ANCOVA|||||1.451|-1.32|=0.9081
92205847|NCT02716818|184311783|SUPERIORITY||Median Difference (Final Values)|0.092|||=|0.6729|TWO_SIDED|95.0|-0.343|0.527|||ANCOVA|||||0.527|-0.343|=0.6729
92205848|NCT02716818|184311783|SUPERIORITY||Mean Difference (Final Values)|0.116|||=|0.5322|TWO_SIDED|95.0|-0.257|0.489|||ANCOVA|||||0.489|-0.257|=0.5322
92205849|NCT02716818|184311783|SUPERIORITY||Mean Difference (Final Values)|-0.568|||=|0.2885|TWO_SIDED|95.0|-1.799|0.662|||ANCOVA|||||0.662|-1.799|=0.2885
92205850|NCT02716818|184311784|SUPERIORITY||Odds Ratio (OR)|0.99|||=|0.9877|TWO_SIDED|95.0|0.45|2.19|||Regression, Logistic|||||2.19|0.45|=0.9877
92205851|NCT02716818|184311784|SUPERIORITY||Odds Ratio (OR)|0.93|||=|0.8498|TWO_SIDED|95.0|0.43|2.02|||Regression, Logistic|||||2.02|0.43|=0.8498
92205852|NCT02716818|184311785|SUPERIORITY||Mean Difference (Final Values)|-0.96|||=|0.156|TWO_SIDED|95.0|-2.294|0.374|||ANCOVA|||German subjects have been excluded from this analysis group as DEXA scans are not performed at German sites.||0.374|-2.294|=0.156
92205853|NCT02716818|184311785|SUPERIORITY||Median Difference (Final Values)|0.425|||=|0.3392|TWO_SIDED|95.0|-0.455|1.305|||ANCOVA|||German subjects have been excluded from this analysis group as DEXA scans are not performed at German sites.||1.305|-0.455|=0.3392
92205854|NCT02716818|184311786|SUPERIORITY||Median Difference (Final Values)|0.009|||=|0.2614|TWO_SIDED|95.0|-0.007|0.025|||ANCOVA|||||0.025|-0.007|=0.2614
92205855|NCT02480153|184311787|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval (CIs) calculated by the score statistic method were used for the inference of the equivalence for ACR20 at Week 12. Therapeutic equivalence could be established if the 2-sided 95% CI fell within (-14%, 14%). Non-responder imputation was applied. Comparisons between treatments were computed as PF-06410293 versus Adalimumab-EU.|Week 12 ACR20 response rate difference|-2.98|||||TWO_SIDED|95.0|-10.38|4.44||||||||4.44|-10.38|
92327349|NCT01928797|184560044|SUPERIORITY|||||||0.33|||||||Chi-squared|||||||0.33
92327350|NCT03436199|184560046|SUPERIORITY||Risk Difference (RD)|0.064||||0.0811|TWO_SIDED|95.0|-0.008|0.136|||Farrington-Manning score test|The Miettinen-Nurminen method was used to obtain the 95% confidence intervals.||||0.136|-0.008|0.0811
92327351|NCT03436199|184560046|SUPERIORITY||Risk Difference (RD)|0.098||||0.0104|TWO_SIDED|95.0|0.023|0.174|||Farrington-Manning score test|The Miettinen-Nurminen method was used to obtain the 95% confidence intervals.||||0.174|0.023|0.0104
92327352|NCT03436199|184560047|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.048||0.0162|TWO_SIDED|95.0|0.02|0.21|||Mixed Models Analysis|Mixed models analysis with repeated measures||||0.21|0.02|0.0162
92205856|NCT02480153|184311787|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval (CIs) calculated by the score statistic method were used for the inference of the equivalence for ACR20 at Week 12. Therapeutic equivalence could be established if 2-sided 90% CI fell within (-12%, 15%). Non-responder imputation was applied. Comparisons between treatments were computed as PF-06410293 versus Adalimumab-EU.|Week 12 ACR20 response rate difference|-2.98|||||TWO_SIDED|90.0|-9.25|3.28||||||||3.28|-9.25|
92205857|NCT00107120|184311853|SUPERIORITY_OR_OTHER||Least Square Means Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.458||0.022||95.0|-6.2|-0.5||Two-sided at 5% level of significance p \< 0.05 considered significant|ANCOVA|The model included study center and treatment as factors and baseline core as covariate|Differences are Escitalopram-Placebo|The null hypothesis is that there is no difference in the Change from Baseline to Week 8 in CDRS-R total score between treatment groups. The power calculation was based on the change from baseline to Week 8 in CDRS-R total score (LOCF approach). Assuming an effect size (treatment group difference relative to standard deviation) of 0.325, a sample size of approximately 150 patients per treatment group was used to provide at least 80% power at a significance level of 0.05 using a two-sided test.||-0.5|-6.2|0.022
92205858|NCT00107120|184311854|SUPERIORITY_OR_OTHER||Least Square Means Difference|-0.344|STANDARD_ERROR_OF_MEAN|0.1128||0.008||95.0|-0.595|0.092||Two-sided at 5% level of significance|ANCOVA|The model included treatment and center as factors and baseline CGI-Severity score as covariate.|Differences are Escitalopram-Placebo|Missing values were imputed using the LOCF approach.||0.092|-0.595|0.008
92205859|NCT00107120|184311855|SUPERIORITY_OR_OTHER||Least Square Means Difference|2.169|STANDARD_ERROR_OF_MEAN|1.324||0.103||95.0|-0.439|4.777||Two-sided at 5% level of significance|ANCOVA||Differences are Escitalopram-Placebo|ANCOVA on the Change from Baseline to Week 8 in CGAS score. The model included treatment and center as factors and baseline score as covariate. Missing values were imputed using the LOCF approach.||4.777|-0.439|0.103
92205860|NCT03241225|184311865|SUPERIORITY||Mean Difference (Final Values)|3.59||||0.16|TWO_SIDED|95.0|-1.43|8.61|||t-test, 2 sided||Mean change in EM/PROTECT group not significantly different from mean change in EM/MH group, at week 12.|Week 12||8.61|-1.43|0.16
92205861|NCT03241225|184311866|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.79|TWO_SIDED|95.0|-1.37|1.05|||t-test, 2 sided|||Domain #1, Week 12||1.05|-1.37|0.79
92205862|NCT03241225|184311866|SUPERIORITY||Mean Difference (Final Values)|1.38||||0.19|TWO_SIDED|95.0|-0.7|3.46|||t-test, 2 sided|||Domain #2, Week 12||3.46|-0.70|0.19
92205863|NCT03241225|184311866|SUPERIORITY||Mean Difference (Final Values)|-4.53||||0.37|TWO_SIDED|95.0|-14.99|5.93|||t-test, 2 sided|||Domain #3, Week 12||5.93|-14.99|0.37
92205864|NCT03241225|184311866|SUPERIORITY||Mean Difference (Final Values)|-5.24||||0.026|TWO_SIDED|95.0|-9.75|-0.73|||t-test, 2 sided|||Domain #4, Week 12||-0.73|-9.75|0.026
92205865|NCT03241225|184311866|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.66|TWO_SIDED|95.0|-3.51|2.27|||t-test, 2 sided|||Domain #5, Week 12||2.27|-3.51|0.66
92205866|NCT03241225|184311867|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.14|TWO_SIDED|95.0|-0.26|1.66|||t-test, 2 sided|||Domain #1, Week 12||1.66|-0.26|0.14
92205867|NCT03241225|184311867|SUPERIORITY||Mean Difference (Final Values)|0.78||||0.047|TWO_SIDED|95.0|0.011|1.55||Domain #2|t-test, 2 sided|||Domain #2, Week 12||1.55|0.011|0.047
92205868|NCT03241225|184311867|SUPERIORITY||Mean Difference (Final Values)|0.65||||0.18|TWO_SIDED|95.0|-0.34|1.64|||t-test, 2 sided|||Domain #3, Week 12||1.64|-0.34|0.18
92205869|NCT00852540|184311868|SUPERIORITY_OR_OTHER||percentage of participants|56.9|||||TWO_SIDED|95.0|45.5|68.4|||||The estimated value is the percentage of participants achieving clinical response. Confidence intervals are not adjusted for multiplicity.|||68.4|45.5|
92205870|NCT00852540|184311868|SUPERIORITY_OR_OTHER||Percentage of participants|84.2|||||TWO_SIDED|95.0|72.6|95.8|||||The estimated value is the percentage of participants achieving clinical response. Confidence intervals are not adjusted for multiplicity.|||95.8|72.6|
92205871|NCT00704379|184311883|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.6|||<|0.05|TWO_SIDED|95.0|1.1|16.2|||Log Rank|||||16.2|1.1|<0.05
92205872|NCT03699085|184311911|EQUIVALENCE|A p value of \< 0.05 suggests the groups are different.||||||0.38||||||A p value of \< 0.05 suggests the groups are different.|Wilcoxon (Mann-Whitney)|||Wilcoxon rank-sum test is used, which ranks the values in each group, sums the ranks and determines the probability that they are the same. The probability p-value is reported.||||0.38
92205873|NCT03699085|184311912|SUPERIORITY|Adjusted mixed effects regression models were used to determine whether patients in the intervention and control group manifested different patterns of change in days of heroin use in the past 30 days in terms of incidence-rate ratio. We applied a negative binomial distribution to help account for overdispersion of outcome data.|Incidence rate ratio|1.29||||0.68|TWO_SIDED|95.0|0.38|4.37||A p value of \< 0.05 suggests the groups are different.|Regression, Cox||A number greater than 1.0 indicates a higher incidence rate of heroin use in past 30 days for intervention group compared to control group|Comparison of control and intervention populations based on substance use measured utilizing a time-line follow back (TLFB) calendar administered by the research assistant to for past 30-day heroin use. This is a covariate-adjusted mixed effects regression model at TLFB timepoint of 6 months. A number greater than 1.0 indicates a higher incidence of heroin use in the past 30 days at the 6 month timepoint for intervention group compared to control group.||4.37|0.38|0.68
92205874|NCT00158860|184311914|SUPERIORITY||Kaplan-Meier estimates|27.3|||<|0.001|TWO_SIDED|95.0|16.0|38.6|||Log Rank|||||38.6|16.0|<0.001
92205875|NCT00158860|184311914|SUPERIORITY||Hazard Ratio (HR)|0.401|||<|0.001|TWO_SIDED|95.0|0.282|0.57|||Log Rank|||||0.570|0.282|<0.001
92205876|NCT00158860|184311915|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon rank sum test|||||||<0.001
92205877|NCT00371683|184311946|NON_INFERIORITY_OR_EQUIVALENCE|Two criteria were to be met to demonstrate non-inferiority: the upper bound of the 95% confidence interval (CI) for the Relative Risk should be \< 1.25, and the upper bound of the 95% CI for the risk difference should be \< 5.6%.|Risk Ratio (RR)|1.02||||0.0635|TWO_SIDED|95.0|0.78|1.32||If p-value is less than 0.025, it is statistically significant.|t-test, 1 sided|||||1.32|0.78|0.0635
92205878|NCT00371683|184311946|NON_INFERIORITY_OR_EQUIVALENCE|Two criteria were to be met to demonstrate non-inferiority: the upper bound of the 95% CI for the relative risk should be \< 1.25, and the upper bound of the 95% CI for the risk difference should be \< 5.6%.|Risk Difference (RD)|0.11|||<|0.0001|TWO_SIDED|95.0|-2.22|2.44||If p-value is less than 0.025, it is statistically significant.|t-test, 1 sided|||||2.44|-2.22|<0.0001
92205879|NCT00371683|184311947|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.25|||||TWO_SIDED|95.0|0.7|2.23|||||If the upper bound of the two-sided 95% CI for the Relative Risk was \< 1 then superiority for the key secondary efficacy endpoint was demonstrated.|||2.23|0.70|
92205880|NCT00371683|184311947|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.36|||||TWO_SIDED|95.0|-0.68|1.4||||||||1.40|-0.68|
92205881|NCT00371683|184311947|SUPERIORITY_OR_OTHER|||||||0.7779|TWO_SIDED||||||t-test, 1 sided|||||||0.7779
92205882|NCT00371683|184311948|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.04|||||TWO_SIDED|95.0|0.8|1.35||||||||1.35|0.80|
92205883|NCT00371683|184311948|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.28|||||TWO_SIDED|95.0|-2.04|2.59||||||||2.59|-2.04|
92205884|NCT00371683|184311948|SUPERIORITY_OR_OTHER|||||||0.7754|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.7754
92205885|NCT00371683|184311949|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.41|||||TWO_SIDED|95.0|0.77|2.6||||||||2.60|0.77|
92205886|NCT00371683|184311949|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.53|||||TWO_SIDED|95.0|-0.47|1.52||||||||1.52|-0.47|
92205887|NCT00371683|184311949|SUPERIORITY_OR_OTHER|||||||0.2626|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.2626
92205888|NCT00371683|184311950|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.63|1.87||||||||1.87|0.63|
92205889|NCT00371683|184311950|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.11|||||TWO_SIDED|95.0|-0.99|1.21||||||||1.21|-0.99|
92205890|NCT00371683|184311950|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.7700
92205891|NCT00371683|184311951|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.19|||||TWO_SIDED|95.0|0.68|2.11||||||||2.11|0.68|
92205892|NCT00371683|184311951|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.28|||||TWO_SIDED|95.0|-0.78|1.33||||||||1.33|-0.78|
92205893|NCT00371683|184311951|SUPERIORITY_OR_OTHER|||||||0.5443|TWO_SIDED||||||test of equality|For descriptive purposes only, p-values were presented for the test of equality of event rates||||||0.5443
92205894|NCT00371683|184311952|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.2|4.93||||||||4.93|0.20|
92205895|NCT00371683|184311952|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-0.3|0.3||||||||0.30|-0.30|
92205896|NCT00371683|184311952|SUPERIORITY_OR_OTHER|||||||0.9975|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.9975
92205897|NCT00371683|184311953|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.13|||||TWO_SIDED|95.0|-0.05|0.3||||||||0.30|-0.05|
92205898|NCT00371683|184311953|SUPERIORITY_OR_OTHER|||||||0.1578|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.1578
92205899|NCT00371683|184311954|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.25|||||TWO_SIDED|95.0|0.65|2.4||||||||2.40|0.65|
92205900|NCT00371683|184311954|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.25|||||TWO_SIDED|95.0|-0.47|0.98||||||||0.98|-0.47|
92205901|NCT00371683|184311955|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.46|||||TWO_SIDED|95.0|0.72|2.95||||||||2.95|0.72|
92205902|NCT00371683|184311955|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.38|||||TWO_SIDED|95.0|-0.3|1.06||||||||1.06|-0.30|
92205903|NCT00371683|184311955|SUPERIORITY_OR_OTHER|||||||0.2873|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.2873
92205904|NCT00371683|184311956|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.74|1.2||||||||1.20|0.74|
92205905|NCT00371683|184311956|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.83|||||TWO_SIDED|95.0|-3.3|1.63||||||||1.63|-3.30|
92205906|NCT00371683|184311956|SUPERIORITY_OR_OTHER|||||||0.6145|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.6145
92205907|NCT00371683|184311959|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.25|||||TWO_SIDED|95.0|-0.55|0.05||||||Adjusted difference of event rates of MI/Stroke. Type of surgery was taken into consideration as a stratification factor.||0.05|-0.55|
92205908|NCT00371683|184311959|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.19|||||TWO_SIDED|95.0|-0.46|0.09||||||Adjusted difference of event rates of MI. Type of surgery was taken into consideration as a stratification factor.||0.09|-0.46|
92205909|NCT00371683|184311959|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.13|||||TWO_SIDED|95.0|-0.3|0.05||||||Adjusted difference of event rates of Stroke. Type of surgery was taken into consideration as a stratification factor.||0.05|-0.30|
92205910|NCT00371683|184311959|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.13|||||TWO_SIDED|95.0|-0.3|0.05||||||Adjusted difference of event rates of thrombocytopenia. Type of surgery was taken into consideration as a stratification factor.||0.05|-0.30|
92205911|NCT00371683|184311960|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.81|||||TWO_SIDED|95.0|-1.49|-0.14||||||Adjusted difference of event rates of Major Bleeding. Type of surgery was taken into consideration as a stratification factor.||-0.14|-1.49|
92205912|NCT00371683|184311960|SUPERIORITY_OR_OTHER|||||||0.0533|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||Major Bleeding Endpoint||||0.0533
92205913|NCT00371683|184311960|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.77|||||TWO_SIDED|95.0|-1.87|0.33||||||Adjusted difference of event rates of Clinically Relevant Non-Major Bleeding. Type of surgery was taken into consideration as a stratification factor.||0.33|-1.87|
92205914|NCT00371683|184311960|SUPERIORITY_OR_OTHER|||||||0.1709|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||Clinically relevant Non-Major Bleeding endpoint||||0.1709
92205915|NCT00371683|184311960|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.46|||||TWO_SIDED|95.0|-2.75|-0.17||||||Adjusted difference of event rates of Major or Clinically Relevant Non-Major Bleeding. Type of surgery was taken into consideration as a stratification factor.||-0.17|-2.75|
92205916|NCT00371683|184311960|SUPERIORITY_OR_OTHER|||||||0.0338|TWO_SIDED||||||test of equality|For descriptive purposes only, p-values were presented for the test of equality of event rates||Major or Clinically Relevant Non-Major Bleeding endpoint.||||0.0338
92205917|NCT00371683|184311960|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.52|||||TWO_SIDED|95.0|-3.18|0.13||||||Adjusted difference of event rates of Any Bleeding. Type of surgery was taken into consideration as a stratification factor.||0.13|-3.18|
92205918|NCT00371683|184311960|SUPERIORITY_OR_OTHER|||||||0.0816|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||Any Bleeding Endpoint.||||0.0816
92205919|NCT01237587|184311970|SUPERIORITY||LS mean change difference|-0.65|STANDARD_ERROR_OF_MEAN|0.33||0.052|TWO_SIDED|95.0|-1.3|0.0|||Repeated Measures|||||0.00|-1.30|0.052
92205920|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.36||0.059|TWO_SIDED|95.0|-1.4|0.03|||Mixed Models Analysis|||Worst Pain||0.03|-1.40|.059
92205921|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.319||0.059|TWO_SIDED|95.0|-1.24|0.02|||Mixed Models Analysis|||Least Pain||0.02|-1.24|0.059
92205922|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.365||0.165|TWO_SIDED|95.0|-1.23|0.21|||Mixed Models Analysis|||Pain Right Now||0.21|-1.23|.165
92205923|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.344||0.005|TWO_SIDED|95.0|-1.65|-0.3|||Mixed Models Analysis|||General Activity||-0.30|-1.65|0.005
92205924|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.356||0.128|TWO_SIDED|95.0|-1.25|0.16|||Mixed Models Analysis|||Mood||0.16|-1.25|.128
92205925|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.352||0.56|TWO_SIDED|95.0|-0.9|0.49|||Mixed Models Analysis|||Walking ability||0.49|-0.90|.560
92205926|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.371||0.448|TWO_SIDED|95.0|-1.01|0.45|||Mixed Models Analysis|||Normal Work||0.45|-1.01|0.448
92205927|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.312||0.011|TWO_SIDED|95.0|-1.42|-0.19|||Mixed Models Analysis|||Relations With Other||-0.19|-1.42|.011
92205928|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.454||0.443|TWO_SIDED|95.0|-1.25|0.55|||Mixed Models Analysis|||Sleep||0.55|-1.25|.443
92205929|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.338||0.39|TWO_SIDED|95.0|-0.96|0.38|||Mixed Models Analysis|||Enjoyment of Life||0.38|-0.96|.390
92205930|NCT01237587|184311971|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.424||0.16|TWO_SIDED|95.0|-1.44|0.24|||Mixed Models Analysis|||School Work||0.24|-1.44|.160
92205931|NCT01237587|184311973|SUPERIORITY|||||||0.051|||||||Fisher Exact|||||||.051
92205932|NCT01237587|184311974|SUPERIORITY|||||||0.038|||||||Fisher Exact|||||||.038
92205933|NCT01237587|184311975|SUPERIORITY||Mean Difference (Final Values)|1.62||||0.669|TWO_SIDED|95.0|-9.1|5.86|||ANCOVA|||Average Pain Score||5.86|-9.10|.669
92205934|NCT01237587|184311975|SUPERIORITY||Mean Difference (Final Values)|-5.9||||0.169|TWO_SIDED|95.0|-14.32|2.53|||ANCOVA|||Worst Pain Score||2.53|-14.32|.169
92205935|NCT01237587|184311975|SUPERIORITY||Mean Difference (Final Values)|-1.79||||0.647|TWO_SIDED|95.0|-9.53|5.94|||ANCOVA|||Pain Score Right Now||5.94|-9.53|.647
92205936|NCT01237587|184311976|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.146|TWO_SIDED|95.0|-0.52|0.08|||ANCOVA|||||0.08|-0.52|.146
92205937|NCT01237587|184311977|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.927|TWO_SIDED|95.0|-0.23|0.21|||ANCOVA|||||0.21|-0.23|.927
92205938|NCT01237587|184311978|SUPERIORITY||Mean Difference (Final Values)|1.03||||0.431|TWO_SIDED|95.0|-1.54|3.59|||ANCOVA|||||3.59|-1.54|.431
92205939|NCT01237587|184311979|SUPERIORITY||Mean Difference (Final Values)|0.92||||0.529|TWO_SIDED|95.0|-1.95|3.79|||ANCOVA|||||3.79|-1.95|.529
92205940|NCT01237587|184311980|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.335|TWO_SIDED|95.0|-2.52|0.86|||ANCOVA|||||0.86|-2.52|.335
92205941|NCT01237587|184311981|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.955|TWO_SIDED|95.0|-1.59|1.68|||ANCOVA|||Physical Symptoms Score||1.68|-1.59|.955
92205942|NCT01237587|184311981|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.381|TWO_SIDED|95.0|-1.82|0.7|||ANCOVA|||Harm Avoidance||0.70|-1.82|.381
92205943|NCT01237587|184311981|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.486|TWO_SIDED|95.0|-1.66|0.79|||ANCOVA|||Social Anxiety||0.79|-1.66|.486
92205944|NCT01237587|184311981|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.7|TWO_SIDED|95.0|-1.17|0.79|||ANCOVA|||Separation/Panic||0.79|-1.17|.700
92205945|NCT01237587|184311981|SUPERIORITY||Mean Difference (Final Values)|-1.21||||0.54|TWO_SIDED|95.0|-5.12|2.69|||ANCOVA|||Total Score||2.69|-5.12|.540
92205946|NCT01139580|184311996|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92205947|NCT01139580|184311999|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
92205948|NCT01285609|184312002|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.907||||0.2517|TWO_SIDED|95.0|0.767|1.072|||Log Rank|p-value based on an unstratified 2-sided log rank test|Hazard of Ipilimumab over Hazard of Placebo with 2-sided 95% confidence intervals are based on an unstratified Cox proportional hazards model with treatment as the single covariate|Hazard ratio = Ipilimumab with Paclitaxel/Carboplatin over Placebo with Paclitaxel/Carboplatin||1.072|0.767|0.2517
92205949|NCT01285609|184312003|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.917||||0.2421|TWO_SIDED|95.0|0.792|1.061||p-value based on stratified 2-sided log-rank test|Log Rank||Hazard of Ipilimumab over Placebo with 2-sided 95% confidence intervals based on a stratified Cox proportional hazards model with several stratification factors and treatment as the single covariate|Hazard ratio = Ipilimumab with Paclitaxel/Carboplatin over Placebo with Paclitaxel/Carboplatin||1.061|0.792|0.2421
92205950|NCT01285609|184312004|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.869||||0.0678|TWO_SIDED|95.0|0.749|1.009|||Log Rank|p-value based on an unstratified 2-sided log rank test|Hazard of Ipilimumab over Hazard of Placebo with 2-sided 95% confidence intervals are based on an unstratified Cox proportional hazards model with treatment as the single covariate|Hazard ratio = Ipilimumab with Paclitaxel/Carboplatin over Placebo with Paclitaxel/Carboplatin||1.009|0.749|0.0678
92205951|NCT01142115|184312005|NON_INFERIORITY_OR_EQUIVALENCE|The estimated difference VAS(Monza) minus VAS(SpeediCath)(i.e. the upper confidence limit) shall be less than 1cm to demonstrate non-inferiority.|Mean Difference (Final Values)|1.052||||0.0018|TWO_SIDED|95.0|0.412|1.692|||Mixed Models Analysis|||||1.692|0.412|0.0018
92205952|NCT01142115|184312006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.805|||<|0.0001|TWO_SIDED|95.0|2.604|12.939|||Regression, Logistic|||||12.939|2.604|<0.0001
92205953|NCT01142115|184312007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.822||||0.616|TWO_SIDED|95.0|0.382|1.767|||Proportional odds regression model|||||1.767|0.382|0.6160
92205954|NCT01142115|184312008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.117||||0.8014|TWO_SIDED|95.0|0.472|2.646|||Proportional odds regression model|||||2.646|0.472|0.8014
92205955|NCT01142115|184312009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.503||||0.3085|TWO_SIDED|95.0|0.314|39.106|||Regression, Logistic|||||39.106|0.314|0.3085
92205956|NCT01142115|184312010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.398||||0.4324|TWO_SIDED|95.0|0.606|3.225|||Proportional odds regression model|||||3.225|0.606|0.4324
92205957|NCT03208036|184312011|SUPERIORITY||||||=|0.69|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .69
92205958|NCT03208036|184312011|SUPERIORITY||||||=|0.74|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .74
92205959|NCT03208036|184312012|SUPERIORITY||||||=|0.62|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .62
92205960|NCT03208036|184312012|SUPERIORITY||||||=|0.24|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .24
92205961|NCT03208036|184312013|SUPERIORITY||||||=|0.47|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .47
92205962|NCT03208036|184312013|SUPERIORITY||||||=|0.09|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .09
92205963|NCT03208036|184312013|SUPERIORITY||||||=|0.02|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .02
92205964|NCT03208036|184312013|SUPERIORITY||||||=|0.48|||||||t-test, 2 sided|||Within group change assessed between baseline and the 5.5 month assessment.||||= .48
92205965|NCT03208036|184312013|SUPERIORITY||||||=|0.66|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .66
92205966|NCT03208036|184312013|SUPERIORITY||||||=|0.46|||||||t-test, 2 sided|||Within group change assessed between baseline and 5.5 month assessment.||||= .46
92205967|NCT03208036|184312014|SUPERIORITY||||||=|0.68|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .68
92205968|NCT03208036|184312014|SUPERIORITY||||||=|0.45|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .45
92205969|NCT03208036|184312015|SUPERIORITY||||||=|0.81|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .81
92205970|NCT03208036|184312015|SUPERIORITY||||||=|0.31|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .31
92205971|NCT03208036|184312016|SUPERIORITY||||||=|0.79|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .79
92205972|NCT03208036|184312016|SUPERIORITY||||||=|0.5|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .50
92205973|NCT03208036|184312017|SUPERIORITY||||||=|0.47|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .47
92205974|NCT03208036|184312017|SUPERIORITY||||||=|0.09|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .09
92205975|NCT03208036|184312017|SUPERIORITY||||||=|0.02|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .02
92205976|NCT03208036|184312017|SUPERIORITY||||||=|0.48|||||||t-test, 2 sided|||Within group change assessed between baseline and the 5.5 month assessment.||||= .48
92205977|NCT03208036|184312017|SUPERIORITY||||||=|0.66|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .66
92205978|NCT03208036|184312017|SUPERIORITY||||||=|0.46|||||||t-test, 2 sided|||Within group change assessed between baseline and the 5.5 month assessment.||||= .46
92205979|NCT03208036|184312018|SUPERIORITY||||||=|0.99|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .99
92205980|NCT03208036|184312018|SUPERIORITY||||||=|0.84|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .84
92205981|NCT03208036|184312019|SUPERIORITY||||||=|0.25|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .25
92205982|NCT03208036|184312019|SUPERIORITY||||||=|0.08|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .08
92205983|NCT03208036|184312019|SUPERIORITY||||||=|0.14|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .14
92205984|NCT03208036|184312019|SUPERIORITY||||||=|0.02|||||||t-test, 2 sided|||Within group change assessed between baseline and 5.5-month assessment.||||= .02
92205985|NCT03208036|184312019|SUPERIORITY||||||=|0.24|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .24
92205986|NCT03208036|184312019|SUPERIORITY||||||=|0.93|||||||t-test, 2 sided|||Within group change assessed between baseline and 5.5-month assessment.||||= .93
92205987|NCT03208036|184312020|SUPERIORITY||||||=|0.98|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .98
92205988|NCT03208036|184312020|SUPERIORITY||||||=|0.08|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .08
92205989|NCT03208036|184312020|SUPERIORITY||||||=|0.08|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .08
92205990|NCT03208036|184312020|SUPERIORITY||||||=|0.06|||||||t-test, 2 sided|||Within group change assessed between baseline and 5.5-month assessment.||||= .06
92205991|NCT03208036|184312020|SUPERIORITY||||||=|0.28|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .28
92205992|NCT03208036|184312020|SUPERIORITY||||||=|0.23|||||||t-test, 2 sided|||Within group change assessed between baseline and 5.5-month assessment.||||= .23
92205993|NCT02559895|184312036|SUPERIORITY||Mean Difference (Final Values)|-1.11|STANDARD_DEVIATION|3.4||0.0001|TWO_SIDED|95.0|-1.68|-0.54|||ANCOVA|||||-0.54|-1.68|0.0001
92205994|NCT02559895|184312036|SUPERIORITY||Mean Difference (Final Values)|-0.69|STANDARD_DEVIATION|3.4||0.0182|TWO_SIDED|95.0|-1.25|-0.12|||ANCOVA|||||-0.12|-1.25|0.0182
92205995|NCT02559895|184312036|SUPERIORITY||Mean Difference (Final Values)|-0.82|STANDARD_DEVIATION|3.4||0.0046|TWO_SIDED|95.0|-1.39|-0.25|||ANCOVA|||||-0.25|-1.39|0.0046
92205996|NCT02559895|184312037|SUPERIORITY||Mean Difference (Final Values)|13.5||||0.0007|TWO_SIDED|95.0|5.8|21.2|||Cochran-Mantel-Haenszel|||||21.2|5.8|0.0007
92205997|NCT02559895|184312037|SUPERIORITY||Mean Difference (Final Values)|6.0||||0.1126|TWO_SIDED|95.0|-1.4|13.3|||Cochran-Mantel-Haenszel|||||13.3|-1.4|0.1126
92205998|NCT02559895|184312037|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.0272|TWO_SIDED|95.0|1.0|15.9|||Cochran-Mantel-Haenszel|||||15.9|1.0|0.0272
92205999|NCT02559895|184312038|SUPERIORITY||Mean Difference (Final Values)|11.3||||0.0066|TWO_SIDED|95.0|3.2|19.3|||Cochran-Mantel-Haenszel|||||19.3|3.2|0.0066
92206000|NCT02559895|184312038|SUPERIORITY||Mean Difference (Final Values)|10.5||||0.0112|TWO_SIDED|95.0|2.4|18.6|||Cochran-Mantel-Haenszel|||||18.6|2.4|0.0112
92206001|NCT02559895|184312038|SUPERIORITY||Mean Difference (Final Values)|9.8||||0.017|TWO_SIDED|95.0|1.8|17.8|||Cochran-Mantel-Haenszel|||||17.8|1.8|0.0170
92206002|NCT02559895|184312039|SUPERIORITY||Mean Difference (Final Values)|18.9||||0.0001|TWO_SIDED|95.0|9.8|28.0|||Cochran-Mantel-Haenszel|||||28.0|9.8|0.0001
92206003|NCT02559895|184312039|SUPERIORITY||Mean Difference (Final Values)|12.4||||0.0085|TWO_SIDED|95.0|3.2|21.5|||Cochran-Mantel-Haenszel|||||21.5|3.2|0.0085
92206004|NCT02559895|184312039|SUPERIORITY||Mean Difference (Final Values)|12.8||||0.0064|TWO_SIDED|95.0|3.7|22.0|||Cochran-Mantel-Haenszel|||||22.0|3.7|0.0064
92206005|NCT02559895|184312040|SUPERIORITY|||||||0.0159|||||||Cochran-Mantel-Haenszel|||||||0.0159
92206006|NCT02559895|184312040|SUPERIORITY|||||||0.0312|||||||Cochran-Mantel-Haenszel|||||||0.0312
92206007|NCT02559895|184312040|SUPERIORITY|||||||0.1539|||||||Cochran-Mantel-Haenszel|||||||0.1539
92206008|NCT03762200|184312064|OTHER|Confidence Interval|percentage of sucesses|87.4|||||TWO_SIDED|95.0|79.4|93.1||||||||93.1|79.4|
92206009|NCT03762200|184312065|OTHER|Confidence Interval|Percentage of Successes|77.7|||||TWO_SIDED|95.0|68.4|85.3||||||||85.3|68.4|
92206010|NCT03762200|184312066|OTHER|Confidence Interval|Percentage of Successes|92.2|||||TWO_SIDED|95.0|85.3|96.6||||||||96.6|85.3|
92206011|NCT01846494|184312096|OTHER|||||||0.6173|||||||Log Rank|||||||0.6173
92206012|NCT01865747|184312107|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.45|0.74|||Log Rank|The Log-Rank Test was stratified by the Memorial Sloan-Kettering Cancer Center (MSKCC) group and number of prior VEGFR TKIs.||||0.74|0.45|<0.0001
92206013|NCT01865747|184312108|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0003|TWO_SIDED|95.0|0.53|0.83|||Log Rank|The Log-Rank test was stratified by the Memorial Sloan-Kettering Cancer Center (MSKCC) risk group and number of prior VEGFR TKIs.||||0.83|0.53|0.0003
92206014|NCT01865747|184312109|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92206015|NCT00611975|184312125|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.8|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.8
92206016|NCT00611975|184312125|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.4|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||>0.4
92206017|NCT00611975|184312126|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.6|||||||Mixed Models Analysis|||Asex questionnaires were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for ASEX scores were re-assigned to phase based on time to onset of next menstrual period. Follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-2 days before NMP).||||>0.6
92206018|NCT00611975|184312126|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.6|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on ASEX scores||||>0.6
92206019|NCT00611975|184312127|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||<.01
92206020|NCT00611975|184312127|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||<0.01
92206021|NCT00611975|184312128|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.4|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.4
92206022|NCT00611975|184312128|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||<.0001
92206023|NCT00611975|184312129|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.7|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.7
92206024|NCT00611975|184312129|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||<.0001
92327353|NCT03436199|184560047|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0142|TWO_SIDED|95.0|0.02|0.22|||Mixed Models Analysis|Mixed models analysis with repeated measures||||0.22|0.02|0.0142
92206025|NCT00611975|184312130|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.9|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.9
92206026|NCT00611975|184312130|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||<.0001
92206027|NCT00611975|184312131|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.9|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.9
92206028|NCT00611975|184312131|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.9|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||>0.9
92206029|NCT00611975|184312132|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.1|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.1
92206030|NCT00611975|184312132|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.7|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||>0.7
92206031|NCT00435591|184312163|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.23|||||TWO_SIDED|95.0|-0.37|0.83||||||"Aggregated data were used to determine differences between groups. Statistical analysis is relevant to the aggregated data of all rows except the no assessment row."||0.83|-0.37|
92206032|NCT02074553|184312179|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|100.5|||||TWO_SIDED|90.0|93.14|108.44|||||The reported values are percentages of geometric least square mean ratio.|Analysis of variance (ANOVA) (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% confidence interval (CI).||108.44|93.14|
92206033|NCT02074553|184312179|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|97.82|||||TWO_SIDED|90.0|90.71|105.48|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||105.48|90.71|
92206034|NCT02074553|184312179|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|86.66|||||TWO_SIDED|90.0|80.32|93.5|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||93.5|80.32|
92206035|NCT02074553|184312179|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|88.62|||||TWO_SIDED|90.0|85.15|92.24|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||92.24|85.15|
92206036|NCT02074553|184312179|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|80.17|||||TWO_SIDED|90.0|77.08|83.39|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||83.39|77.08|
92206037|NCT02074553|184312179|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|79.95|||||TWO_SIDED|90.0|76.84|83.19|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||83.19|76.84|
92206038|NCT02074553|184312180|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|99.12|||||TWO_SIDED|90.0|91.83|106.99|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||106.99|91.83|
92206039|NCT02074553|184312180|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|93.79|||||TWO_SIDED|90.0|86.94|101.17|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||101.17|86.94|
92206040|NCT02074553|184312180|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|80.32|||||TWO_SIDED|90.0|74.41|86.7|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||86.7|74.41|
92206041|NCT02074553|184312180|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|87.42|||||TWO_SIDED|90.0|83.92|91.07|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||91.07|83.92|
92206042|NCT02074553|184312180|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|78.87|||||TWO_SIDED|90.0|75.76|82.11|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||82.11|75.76|
92206043|NCT02074553|184312180|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|78.66|||||TWO_SIDED|90.0|75.53|81.92|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||81.92|75.53|
92206044|NCT02074553|184312181|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|90.34|||||TWO_SIDED|90.0|82.33|99.12|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||99.12|82.33|
92206045|NCT02074553|184312181|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|66.28|||||TWO_SIDED|90.0|60.45|72.68|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||72.68|60.45|
92206046|NCT02074553|184312181|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|41.04|||||TWO_SIDED|90.0|37.4|45.03|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||45.03|37.40|
92206047|NCT02074553|184312181|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|86.3|||||TWO_SIDED|90.0|81.77|91.09|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||91.09|81.77|
92206048|NCT02074553|184312181|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|77.0|||||TWO_SIDED|90.0|73.01|81.2|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||81.20|73.01|
92206049|NCT02074553|184312181|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|75.65|||||TWO_SIDED|90.0|71.71|79.82|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||79.82|71.71|
92206050|NCT02074553|184312183|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|91.67|||||TWO_SIDED|90.0|82.34|102.05|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||102.05|82.34|
92206051|NCT02074553|184312183|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|67.24|||||TWO_SIDED|90.0|60.44|74.79|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||74.79|60.44|
92206052|NCT02074553|184312183|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|34.32|||||TWO_SIDED|90.0|30.83|38.21|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||38.21|30.83|
92206053|NCT02074553|184312183|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|95.15|||||TWO_SIDED|90.0|89.1|101.62|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||101.62|89.10|
92206054|NCT02074553|184312183|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|73.26|||||TWO_SIDED|90.0|68.67|78.16|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||78.16|68.67|
92206055|NCT02074553|184312183|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|67.76|||||TWO_SIDED|90.0|63.48|72.33|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||72.33|63.48|
92206056|NCT02074553|184312185|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|95.77|||||TWO_SIDED|90.0|87.54|104.79|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||104.79|87.54|
92206057|NCT02074553|184312185|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|78.69|||||TWO_SIDED|90.0|71.97|86.04|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||86.04|71.97|
92206058|NCT02074553|184312185|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|53.91|||||TWO_SIDED|90.0|49.27|58.98|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||58.98|49.27|
92206059|NCT02074553|184312185|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|90.16|||||TWO_SIDED|90.0|86.14|94.37|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||94.37|86.14|
92206060|NCT02074553|184312185|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|73.76|||||TWO_SIDED|90.0|70.52|77.15|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||77.15|70.52|
92206061|NCT02074553|184312185|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|70.94|||||TWO_SIDED|90.0|67.8|74.22|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||74.22|67.80|
92206062|NCT02074553|184312186|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|93.05|||||TWO_SIDED|90.0|84.24|102.78|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||102.78|84.24|
92327354|NCT03436199|184560048|SUPERIORITY||Mean Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.538||0.1424|TWO_SIDED|95.0|-1.85|0.27|||Mixed Models Analysis|Mixed models analysis with repeated measures||||0.27|-1.85|0.1424
92327355|NCT03436199|184560048|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.56||0.9467|TWO_SIDED|95.0|-1.14|1.06|||Mixed Models Analysis|Mixed models analysis with repeated measures||||1.06|-1.14|0.9467
92327356|NCT03436199|184560049|SUPERIORITY||Mean Difference (Net)|4.143|STANDARD_ERROR_OF_MEAN|1.7389||0.0176|TWO_SIDED|95.0|0.726|7.56|||Mixed Models Analysis|Mixed models analysis with repeated measures||||7.560|0.726|0.0176
92327357|NCT03436199|184560049|SUPERIORITY||Mean Difference (Net)|3.529|STANDARD_ERROR_OF_MEAN|1.8196||0.053|TWO_SIDED|95.0|-0.046|7.104|||Mixed Models Analysis|Mixed models analysis with repeated measures||||7.104|-0.046|0.0530
92327358|NCT01432275|184560074|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Binomial test|Comparison to 27 participants that preferred their usual method to FreeStyle InsuLinx. Twelve(12) participants did not have a preference.||||||<0.0001
92327359|NCT00475878|184560108|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64|STANDARD_ERROR_OF_MEAN|0.22||0.19|TWO_SIDED|95.0|0.33|1.24|||Chi-squared|||||1.24|.33|.19
92327360|NCT00475878|184560109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|2.16||0.18|TWO_SIDED|95.0|-2.79|5.84|||t-test, 2 sided|||||5.84|-2.79|.18
92327361|NCT01225289|184560110|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
92327362|NCT01438814|184560115|NON_INFERIORITY_OR_EQUIVALENCE|One-sided test relative to 0.35|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.13|0.12|||ANCOVA|||||0.12|-0.13|<0.0001
92327363|NCT01438814|184560115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.8924||95.0|-0.13|0.12|||ANCOVA|||||0.12|-0.13|0.8924
92327364|NCT01438814|184560116|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8201||95.0|0.672|1.37|||Regression, Logistic|Model includes treatment and continuous baseline HbA1c||||1.370|0.672|0.8201
92206063|NCT02074553|184312186|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|74.35|||||TWO_SIDED|90.0|67.37|82.06|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||82.06|67.37|
92206064|NCT02074553|184312186|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|43.94|||||TWO_SIDED|90.0|39.78|48.53|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||48.53|39.78|
92206065|NCT02074553|184312186|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|90.21|||||TWO_SIDED|90.0|86.12|94.49|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||94.49|86.12|
92206066|NCT02074553|184312186|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|72.72|||||TWO_SIDED|90.0|69.48|76.12|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||76.12|69.48|
92206067|NCT02074553|184312186|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|69.34|||||TWO_SIDED|90.0|66.23|72.61|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||72.61|66.23|
92206068|NCT02074553|184312189|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|98.79|||||TWO_SIDED|90.0|91.25|106.95|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||106.95|91.25|
92206069|NCT02074553|184312189|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|91.58|||||TWO_SIDED|90.0|84.65|99.08|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||99.08|84.65|
92206070|NCT02074553|184312189|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|73.41|||||TWO_SIDED|90.0|67.81|79.47|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||79.47|67.81|
92206071|NCT02074553|184312189|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|88.81|||||TWO_SIDED|90.0|85.62|92.13|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||92.13|85.62|
92206072|NCT02074553|184312189|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|77.74|||||TWO_SIDED|90.0|74.99|80.6|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||80.60|74.99|
92206073|NCT02074553|184312189|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|76.65|||||TWO_SIDED|90.0|73.92|79.49|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||79.49|73.92|
92206074|NCT02074553|184312190|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|89.41|||||TWO_SIDED|90.0|81.7|97.84|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||97.84|81.7|
92206075|NCT02074553|184312190|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|66.84|||||TWO_SIDED|90.0|61.12|73.1|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||73.1|61.12|
92206076|NCT02074553|184312190|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|42.32|||||TWO_SIDED|90.0|38.68|46.32|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||46.32|38.68|
92206077|NCT02074553|184312190|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|88.76|||||TWO_SIDED|90.0|84.21|93.56|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||93.56|84.21|
92206078|NCT02074553|184312190|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|75.82|||||TWO_SIDED|90.0|71.99|79.86|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||79.86|71.99|
92206079|NCT02074553|184312190|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|73.26|||||TWO_SIDED|90.0|69.53|77.19|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||77.19|69.53|
92206080|NCT02074553|184312191|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|97.23|||||TWO_SIDED|90.0|89.85|105.21|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||105.21|89.85|
92206081|NCT02074553|184312191|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|87.16|||||TWO_SIDED|90.0|80.59|94.26|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||94.26|80.59|
92206082|NCT02074553|184312191|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|67.86|||||TWO_SIDED|90.0|62.71|73.43|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||73.43|62.71|
92206083|NCT02074553|184312191|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|88.28|||||TWO_SIDED|90.0|85.06|91.63|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||91.63|85.06|
92206084|NCT02074553|184312191|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|76.79|||||TWO_SIDED|90.0|74.03|79.65|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||79.65|74.03|
92206085|NCT02074553|184312191|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|75.43|||||TWO_SIDED|90.0|72.7|78.27|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||78.27|72.70|
92206086|NCT02342743|184312200|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92206087|NCT02342743|184312201|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92206088|NCT02342743|184312202|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92327365|NCT01438814|184560117|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.022||||0.9397|TWO_SIDED|95.0|0.582|1.796|||Regression, Logistic|Model includes treatment and baseline HbA1c.||||1.796|0.582|0.9397
92206089|NCT02342743|184312203|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92327366|NCT01438814|184560118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|2.1||0.3352||95.0|-2.1|6.1|||ANCOVA|||||6.1|-2.1|0.3352
92327367|NCT01438814|184560119|SUPERIORITY_OR_OTHER|||||||0.0308|||||||Fisher Exact|Fishers exact p-value presented due to small cell counts||||||0.0308
92327368|NCT01438814|184560120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.3||0.0545||95.0|0.0|1.0|||ANCOVA|||||1.0|-0.0|0.0545
92327369|NCT01438814|184560121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.997||||0.9886||95.0|0.689|1.445|||Regression, Logistic|||||1.445|0.689|0.9886
92327370|NCT01438814|184560122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.797||||0.2108||95.0|0.558|1.137|||Regression, Logistic|||||1.137|0.558|0.2108
92327371|NCT01438814|184560123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.999||||0.9972||95.0|0.712|1.402|||Regression, Logistic|||||1.402|0.712|0.9972
92206090|NCT02342743|184312204|SUPERIORITY|||||||0.012||||||Threshold for statistical significance set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.012
92206091|NCT02342743|184312205|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92206092|NCT02342743|184312207|SUPERIORITY|||||||0.03||||||Threshold for statistical significance set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.030
92206093|NCT00686725|184312211|SUPERIORITY_OR_OTHER|||||||0.183||95.0|||||Log Rank|||||||0.183
92206094|NCT00686725|184312212|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||Log Rank|||||||0.35
92206095|NCT00686725|184312215|SUPERIORITY_OR_OTHER|||||||0.648||95.0|||||Log Rank|||||||0.648
92206096|NCT00686725|184312216|SUPERIORITY_OR_OTHER|||||||0.915||95.0|||||Log Rank|||||||0.915
92206097|NCT00092495|184312235|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (girls - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206098|NCT00092495|184312235|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (boys - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206099|NCT00092495|184312236|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (girls/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206100|NCT00092495|184312236|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (boys/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206101|NCT00092495|184312237|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206102|NCT00092495|184312237|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206103|NCT00092495|184312237|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206104|NCT00092495|184312238|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206105|NCT00092495|184312238|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92327372|NCT01438814|184560124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.832||||0.2816||95.0|0.594|1.163|||Regression, Logistic|||||1.163|0.594|0.2816
92327373|NCT01438814|184560125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|0.19||0.0011||95.0|0.25|0.98|||ANCOVA|||||0.98|0.25|0.0011
92206106|NCT00092495|184312238|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92327374|NCT01438814|184560126|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.951||||0.7682||95.0|0.681|1.328|||Regression, Logistic|||||1.328|0.681|0.7682
92206107|NCT00092495|184312239|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (girls - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206108|NCT00092495|184312239|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (boys - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206109|NCT00092495|184312240|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (girls/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group||||||<0.001
92206110|NCT00092495|184312240|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (boys/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group||||||<0.001
92206111|NCT00092495|184312241|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206112|NCT00092495|184312241|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206113|NCT00092495|184312241|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206114|NCT00092495|184312242|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206115|NCT00092495|184312242|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group||||||<0.001
92206116|NCT00092495|184312242|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92327375|NCT03887429|184560137|SUPERIORITY||||||=|0.009|||||||t-test, 1 sided|||It was hypothesized that treatment with SXC-2023 would reduce impulsivity as measured by SSRT in chronic cigarette smokers abstaining from nicotine for 5 days.||||=.009
92327376|NCT03887429|184560138|SUPERIORITY||||||=|0.015|||||||t-test, 1 sided|||It was hypothesized that 5 days of nicotine abstinence in chronic cigarette smokers would result in increased risk taking behavior as measured using DAVT in subjects receiving placebo as treatment.||||=.015
92206117|NCT00092495|184312243|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (girls - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206118|NCT00092495|184312243|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (boys - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206119|NCT00092495|184312244|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (girls/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206120|NCT00092495|184312244|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (boys/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206121|NCT00092495|184312245|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.01||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.01
92206122|NCT00092495|184312245|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206123|NCT00092495|184312245|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206124|NCT00092495|184312246|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206125|NCT00092495|184312246|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206126|NCT00092495|184312246|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206127|NCT00092495|184312247|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (girls - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206128|NCT00092495|184312247|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (boys - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206129|NCT00092495|184312248|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (girls/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206130|NCT00092495|184312248|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (boys/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206131|NCT00092495|184312249|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206132|NCT00092495|184312249|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206133|NCT00092495|184312249|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
92206134|NCT00092495|184312250|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206135|NCT00092495|184312250|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206136|NCT00092495|184312250|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
92206137|NCT01346475|184312308|SUPERIORITY_OR_OTHER||Incident Risk Ratio|0.54|||<|0.001|TWO_SIDED|95.0|0.44|0.66|||Incident risk ratio|The model is adjusted for period effects.||This study had 80% power to detect a 50% reduction in HSV genital shedding rates for high-dose valacyclovir compared to standard dose valacyclovir.||0.66|0.44|<0.001
92206138|NCT00618618|184312315|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.005|TWO_SIDED|95.0|-1.0|-0.2|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||-0.2|-1.0|0.005
92206139|NCT00618618|184312315|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9||||0.001|TWO_SIDED|95.0|-1.4|-0.4|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||-0.4|-1.4|0.001
92206140|NCT00618618|184312315|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.069|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||0.0|-0.8|0.069
92327377|NCT03887429|184560138|SUPERIORITY||||||>|0.1|||||||t-test, 1 sided|||It was hypothesized that 5 days of nicotine abstinence in chronic cigarette smokers would not result in increased risk taking behavior as measured using DAVT in subjects treated with SXC-2023.||||>.1
92206141|NCT00618618|184312316|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8||||0.005|TWO_SIDED|95.0|0.6|3.0|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||3.0|0.6|0.005
92206142|NCT00618618|184312316|SUPERIORITY_OR_OTHER||LS Mean Difference|2.5||||0.001|TWO_SIDED|95.0|1.0|4.0|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||4.0|1.0|0.001
92206143|NCT00618618|184312316|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0||||0.122|TWO_SIDED|95.0|-0.3|2.2|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||2.2|-0.3|0.122
92206144|NCT00618618|184312317|SUPERIORITY_OR_OTHER||Difference from Placebo|38.3||||0.008|TWO_SIDED|95.0|11.0|65.7|||Fisher Exact|||||65.7|11.0|0.008
92206145|NCT00618618|184312317|SUPERIORITY_OR_OTHER||Difference from Placebo|32.9||||0.172|TWO_SIDED|95.0|1.0|64.8|||Fisher Exact|||||64.8|1.0|0.172
92206146|NCT00618618|184312317|SUPERIORITY_OR_OTHER||Difference from Placebo|22.9||||0.252|TWO_SIDED|95.0|-8.4|54.2|||Fisher Exact|||||54.2|-8.4|0.252
92206147|NCT00618618|184312318|SUPERIORITY_OR_OTHER||Difference from Placebo|46.1||||0.011|TWO_SIDED|95.0|16.3|75.9|||Fisher Exact|||||75.9|16.3|0.011
92206148|NCT00618618|184312318|SUPERIORITY_OR_OTHER||Difference from Placebo|54.3||||0.013|TWO_SIDED|95.0|23.0|85.5|||Fisher Exact|||||85.5|23.0|0.013
92206149|NCT00618618|184312318|SUPERIORITY_OR_OTHER||Difference from Placebo|24.3||||0.296|TWO_SIDED|95.0|-8.7|57.3|||Fisher Exact|||||57.3|-8.7|0.296
92206150|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.46|TWO_SIDED|95.0|-0.5|0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.2|-0.5|0.460
92206151|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.906|TWO_SIDED|95.0|-0.5|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.4|-0.5|0.906
92206152|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.404|TWO_SIDED|95.0|-0.6|0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.2|-0.6|0.404
92206153|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.791|TWO_SIDED|95.0|-0.5|0.3|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.3|-0.5|0.791
92206154|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.41|TWO_SIDED|95.0|-0.3|0.6|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.6|-0.3|0.410
92206155|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.733|TWO_SIDED|95.0|-0.3|0.5|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.5|-0.3|0.733
92206156|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.542|TWO_SIDED|95.0|-0.3|0.5|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.5|-0.3|0.542
92206157|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.882|TWO_SIDED|95.0|-0.4|0.5|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.5|-0.4|0.882
92206158|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.934|TWO_SIDED|95.0|-0.4|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.4|-0.4|0.934
92206159|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.838|TWO_SIDED|95.0|-0.4|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.4|-0.4|0.838
92206160|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.777|TWO_SIDED|95.0|-0.5|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.4|-0.5|0.777
92206161|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.795|TWO_SIDED|95.0|-0.4|0.5|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.5|-0.4|0.795
92206162|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS mean Difference|0.0||||0.852|TWO_SIDED|95.0|-0.4|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.4|-0.4|0.852
92206163|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.444|TWO_SIDED|95.0|-0.6|0.3|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.3|-0.6|0.444
92206164|NCT00618618|184312319|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.724|TWO_SIDED|95.0|-0.3|0.5|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.5|-0.3|0.724
92206165|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.934|TWO_SIDED|95.0|-0.4|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.4|-0.4|0.934
92206166|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.286|TWO_SIDED|95.0|-0.7|0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.2|-0.7|0.286
92206167|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.19|TWO_SIDED|95.0|-0.1|0.7|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.7|-0.1|0.190
92206168|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.402|TWO_SIDED|95.0|-0.5|0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.2|-0.5|0.402
92206169|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.29|TWO_SIDED|95.0|-0.7|0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.2|-0.7|0.290
92206170|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.863|TWO_SIDED|95.0|-0.4|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.4|-0.4|0.863
92206171|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.128|TWO_SIDED|95.0|-0.7|0.1|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.1|-0.7|0.128
92206172|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.018|TWO_SIDED|95.0|-0.9|-0.1|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||-0.1|-0.9|0.018
92206173|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.489|TWO_SIDED|95.0|-0.5|0.3|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.3|-0.5|0.489
92206174|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.007|TWO_SIDED|95.0|-0.9|-0.1|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||-0.1|-0.9|0.007
92206175|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-1.3|-0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||-0.4|-1.3|<0.001
92206176|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.122|TWO_SIDED|95.0|-0.7|0.1|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.1|-0.7|0.122
92206177|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.005|TWO_SIDED|95.0|-0.9|-0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||-0.2|-0.9|0.005
92206178|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-1.2|-0.3|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||-0.3|-1.2|<0.001
92206179|NCT00618618|184312320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.007|TWO_SIDED|95.0|-1.0|-0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||-0.2|-1.0|0.007
92206180|NCT00618618|184312322|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9||||0.573|TWO_SIDED|95.0|-8.6|4.8|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||4.8|-8.6|0.573
92206181|NCT00618618|184312322|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8||||0.653|TWO_SIDED|95.0|-6.3|9.9|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||9.9|-6.3|0.653
92206182|NCT00618618|184312322|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4||||0.688|TWO_SIDED|95.0|-5.4|8.1|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||8.1|-5.4|0.688
92206183|NCT01236365|184312333|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Change in LDL-C between Atorvastatin and Placebo|Mixed Models Analysis|||||||<0.0001
92206184|NCT01236365|184312334|SUPERIORITY_OR_OTHER|||||||0.913|TWO_SIDED|||||Change in hsCRP (6months minus 0months) between Atorvastatin and Placebo|Wilcoxon (Mann-Whitney)|||||||0.913
92206185|NCT01236365|184312337|OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.09
92206186|NCT00955253|184312338|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||between the placebo and guanfacine conditions||||0.013
92206187|NCT00558259|184312340|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.08|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.02|0.25|||Regression, Cox|||Dabigatran vs placebo||0.25|0.02|<0.0001
92206188|NCT00558259|184312341|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.08|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.03|0.27|||Regression, Cox|||Dabigatran vs placebo||0.27|0.03|<0.0001
92206189|NCT00558259|184312342|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||< 0.0001
92206190|NCT00558259|184312342|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.3|||||TWO_SIDED|95.0|0.04|1.06|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing DVT in Dabigatran group.|||1.06|0.04|
92206191|NCT00558259|184312342|SUPERIORITY_OR_OTHER||Percentage of participants with events|3.5|||||TWO_SIDED|95.0|2.21|5.17|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing DVT in placebo group.|||5.17|2.21|
92206192|NCT00558259|184312343|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Fisher Exact|||Dabigatran vs. Placebo||||0.0004
92206193|NCT00558259|184312343|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.1|||||TWO_SIDED|95.0|0.0|0.82|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing PE in Dabigatran group.|||0.82|0.00|
92206194|NCT00558259|184312343|SUPERIORITY_OR_OTHER||Percentage of participants with events|2.1|||||TWO_SIDED|95.0|1.16|3.52|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing PE in placebo group.|||3.52|1.16|
92206195|NCT00558259|184312344|SUPERIORITY_OR_OTHER|||||||0.2428|||||||Fisher Exact|||Dabigatran vs. Placebo||||0.2428
92206196|NCT00558259|184312344|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.0|||||TWO_SIDED|95.0|0.0|0.54|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants with unexplained death in Dabigatran group.|||0.54|0.00|
92206197|NCT00558259|184312344|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.3|||||TWO_SIDED|95.0|0.04|1.09|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants with unexplained death in placebo group.|||1.09|0.04|
92206198|NCT00558259|184312345|SUPERIORITY_OR_OTHER|||||||0.4998||||||As the Cox model did not converge due to too few events, hazard ratios are not estimable.|Fisher Exact|||Dabigatran vs. Placebo - Analysis of time to first occurrence of an MBE during the treatment period - FAS - as treated.||||0.4998
92206199|NCT00558259|184312345|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.3|||||TWO_SIDED|95.0|0.04|1.05|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing MBE in Dabigatran group.|||1.05|0.04|
92206200|NCT00558259|184312345|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.0|||||TWO_SIDED|95.0|0.0|0.56|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing MBE in placebo group.|||0.56|0.00|
92206201|NCT00558259|184312345|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.92|STANDARD_ERROR_OF_MEAN|0.97||0.0013|TWO_SIDED|95.0|1.52|5.6|||Regression, Cox|||Dabigatran vs. Placebo- Analysis of time to first occurrence of a MBE or CRBE during the treatment period - FAS - as treated.||5.60|1.52|0.0013
92206202|NCT00558259|184312345|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.82|STANDARD_ERROR_OF_MEAN|0.36||0.0027|TWO_SIDED|95.0|1.23|2.68|||Regression, Cox|||Dabigatran vs. Placebo- Analysis of time to first occurrence of any bleeding event during the treatment period - FAS - as treated||2.68|1.23|0.0027
92206203|NCT00560560|184312420|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||The final analysis was intended to be a binomial test (death prior to 6 months, yes or no). However, 2 participants in the 30/kg mg group were censored prior to 6 months, so the six month Kaplan and Meier estimates were used for each group instead.|Test of probability of 6 month survival|p-Value \>0.05 applies to each group (20 mg/kg and 30 mg/kg). Greenwood's formula was used for standard deviation.||The hypotheses for each group were H0:p=0.45 vs H1:p\>0.45. There was one interim analysis for futility for each group based on the method of Case and Morgan. The futility boundary was not crossed for 20/kg mg group, but was crossed for the 30/kg mg group. It was recommended to investigators that participants be discontinued from treatment with 30 mg/kg of figitumumab.||||>0.05
92206204|NCT00006011|184312428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.69|1.17||||||"Primary outcome is measured as a treatment hazard ratio stratified by stage and assuming proportional hazards.~Recurrence-free survival hazard ratio: Arm 2 is relative to Arm 1."||1.17|0.69|
92206205|NCT02029872|184312469|OTHER|The study was powered for enrollment of 100 subjects with MRSA colonization at baseline. Despite substantial screening, we were unable to enroll enough subjects to meet the necessary sample size.||||||||||||||||Due to low enrollment in the intervention, statistical analysis was not possible.|The study was powered for enrollment of 100 subjects with MRSA colonization at baseline. Despite substantial screening, we were unable to enroll enough subjects to meet the necessary sample size.|||
92206206|NCT02318992|184312480|OTHER|||||||0.157|||||||Chi-squared, Corrected|||||||0.157
92206207|NCT02318992|184312481|OTHER|||||||0.041|||||||Chi-squared, Corrected|||||||0.041
92206208|NCT01781078|184312492|NON_INFERIORITY|The difference in the success rate between the 2 randomized groups was compared to 10% using a one-sided Farrington-Manning score test for non-inferiority at a significance level of 0.05.|difference|-0.3|||<|0.0001|ONE_SIDED|95.0||3.9|||Farrington-Manning score test|||||3.9||<0.0001
92206209|NCT01781078|184312493|NON_INFERIORITY|The difference in the success rate between the 2 randomized groups was compared to 10% using a one-sided Farrington-Manning score test for non-inferiority at a significance level of 0.05.|difference|-0.1||||0.0006|ONE_SIDED|95.0||5.0|||Farrington-Manning score test|||||5.0||0.0006
92206210|NCT01781078|184312493|NON_INFERIORITY|The difference in the success rate between the 2 randomized groups was compared to 10% using a one-sided Farrington-Manning score test for non-inferiority at a significance level of 0.05.|difference|0.0||||0.0002|ONE_SIDED|95.0||4.7|||Farrington-Manning score test|||||4.7||0.0002
92206211|NCT02217501|184312496|SUPERIORITY|||||||0.6595||||||Alpha of 0.05|Cochran-Mantel-Haenszel|||||||0.6595
92206212|NCT03748992|184312509|OTHER|Since no hypothesis testing was planned, no power analysis was required||||||||||||Non Applicable||Non Applicable||This was a single arm trial. there is no comparator group.|The overall response rates were calculated, and exact binomial confidence intervals was constructed.|||
92206213|NCT03748992|184312511|OTHER|Since no hypothesis testing was planned, no power analysis was required||||||||||||||||This was a single arm trial. there is no comparator group.|The overall response rates were calculated, and exact binomial confidence intervals was constructed.|||
92206214|NCT03924765|184312517|OTHER|A one-way repeated measures analysis of variance (ANOVA) was performed on different exoskeleton assistance strategies (including the baseline of not wearing the exoskeleton) on the subject's overground self-selected walking speed by setting an alpha value to 0.05.||||||5e-06|||||||ANOVA|||Primary Outcome Measure - Arm/Group 1||||0.000005
92206215|NCT03924765|184312518|OTHER|A one-way repeated measures analysis of variance (ANOVA) was performed on different exoskeleton assistance strategies (including the baseline of not wearing the exoskeleton) on the subject's step length asymmetry by setting an alpha value to 0.05.||||||0.131|||||||ANOVA|||Secondary Outcome Measure - Arm/Group 1||||0.131
92206216|NCT05453201|184312561|OTHER|||||||0.06|||||||paired t-test|||This analysis uses the functional disability subscale from pre- to post-intervention.||||.06
92206217|NCT05453201|184312561|OTHER|||||||0.004|||||||paired t-test|||This analysis uses the symptom severity subscale from pre- to post-intervention.||||.004
92206218|NCT05453201|184312561|OTHER|||||||0.1|||||||paired t-test|||This analysis uses the perceived overall health now subscale (1 item) from pre- to post-intervention.||||.10
92206219|NCT05453201|184312562|OTHER|||||||0.46|||||||paired t-test|||This analysis uses domain 1 from pre- to post-intervention.||||.46
92206220|NCT05453201|184312562|OTHER|||||||0.2|||||||paired t-test|||This analysis uses domain 2 from pre- to post-intervention.||||.20
92206221|NCT05453201|184312562|OTHER|||||||0.42|||||||paired t-test|||This analysis uses domain 3 from pre- to post-intervention.||||.42
92206222|NCT05453201|184312562|OTHER|||||||0.84|||||||paired t-test|||This analysis uses domain 4 from pre- to post-intervention.||||.84
92206223|NCT05453201|184312562|OTHER|||||||0.25|||||||paired t-test|||This analysis uses domain 5 (part 1) from pre- to post-intervention.||||.25
92206224|NCT05453201|184312562|OTHER|||||||0.26|||||||paired t-test|||This analysis uses domain 6 from pre- to post-intervention.||||.26
92206225|NCT05453201|184312563|OTHER|||||||0.89|||||||Wilcoxon test|||This analysis uses the SBQ-R total score from pre- to post-intervention.||||.89
92206226|NCT05453201|184312564|OTHER|||||||0.8|||||||paired t-test|||This analysis uses the MOCS (part A) from pre- to post-intervention.||||.80
92206227|NCT05453201|184312565|OTHER|||||||0.92|||||||paired t-test|||This analysis uses the FSCQ score (all items) from pre- to post-intervention.||||.92
92206228|NCT05453201|184312565|OTHER|||||||0.9|||||||Wilcoxon test (paired)|||This analysis uses the FSCQ similarity subscale from pre- to post-intervention.||||.90
92206229|NCT05453201|184312565|OTHER|||||||0.74|||||||paired t-test|||This analysis uses the FSCQ vividness subscale from pre- to post-intervention.||||.74
92206230|NCT05453201|184312565|OTHER|||||||0.44|||||||paired t-test|||This analysis uses the FSCQ positivity subscale from pre- to post-intervention.||||.44
92206231|NCT05453201|184312566|OTHER|||||||0.003|||||||paired t-test|||This analysis uses the PHQ-9 from pre- to post-intervention.||||.003
92206232|NCT05453201|184312567|OTHER|||||||0.01|||||||paired t-test|||This analysis uses the GAD-7 from pre- to post-intervention.||||.01
92206233|NCT05453201|184312568|OTHER|||||||0.04|||||||paired t-test|||This analysis uses the QOLS from pre- to post-intervention.||||.04
92206234|NCT05453201|184312569|OTHER|"The AIM measures an intervention's acceptability. Therefore, the goal is not change over time, the goal is to assess, descriptively, post-intervention acceptability. Because we assessed this measure at baseline (with expectations of the future treatment), we provide a paired t-test with the AIM at pre- and post-intervention."||||||0.24|||||||Paired t-test|||||||.24
92206235|NCT05453201|184312569|OTHER|"The IAM measures an intervention's appropriateness. Therefore, the goal is not change over time, the goal is to assess, descriptively, post-intervention appropriateness. Because we assessed this measure at baseline (with expectations of the future treatment), we provide a paired t-test with the IAM at pre- and post-intervention."||||||0.82|||||||Paired t-test|||||||.82
92206236|NCT05453201|184312569|OTHER|||||||0.38|||||||Paired t-test|||"The FIM measures an intervention's feasibility. Therefore, the goal is not change over time, the goal is to assess, descriptively, post-intervention feasibility. Because we assessed this measure at baseline (with expectations of the future treatment), we provide a paired t-test with the FIM at pre- and post-intervention."||||.38
92206237|NCT04688320|184312599|NON_INFERIORITY|The margin of the non-inferiority was established as a difference in the primary efficacy endpoints between compared groups|Odds Ratio (OR)|0.75|||<|0.05|TWO_SIDED|95.0|0.11|4.52|||Welch's t-test|||||4.52|0.11|<0.05
92206238|NCT00383110|184312618|SUPERIORITY_OR_OTHER|||||||0.648|||||||ANOVA|||||||0.648
92206239|NCT00383110|184312619|SUPERIORITY_OR_OTHER|||||||0.14|||||||ANOVA|||||||0.14
92206240|NCT00383110|184312620|SUPERIORITY_OR_OTHER|||||||0.675|||||||ANOVA|||||||0.675
92206241|NCT00383110|184312621|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANOVA|||||||0.03
92206242|NCT00383110|184312622|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92206243|NCT00383110|184312623|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
92206244|NCT00153062|184312664|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin of 1.075|Hazard Ratio (HR)|1.01||||0.783|TWO_SIDED|95.0|0.92|1.11|||Cox Proportional Hazard model|Cox proportional hazards model with age, baseline diabetes status, baseline ACE-I use, and baseline modified Rankin score as covariates||ASA+ER-DP vs clopidogrel||1.11|0.92|0.7830
92206245|NCT00153062|184312665|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.8292|TWO_SIDED|95.0|0.92|1.07|||Cox Proportional Hazard model|Cox proportional hazards model with age, baseline diabetes status, baseline ACE-I use, and baseline modified Rankin score as covariates||ASA+ER-DP vs Clopidogrel||1.07|0.92|0.8292
92206246|NCT00153062|184312666|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.1073|TWO_SIDED|95.0|0.87|1.01|||Cox Proportional Hazard model|Cox proportional hazards model with age, baseline diabetes status, baseline ACE-I use, and baseline modified Rankin score as covariates.||Telmisartan vs Placebo||1.01|0.87|0.1073
92206247|NCT00153062|184312667|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.1007|TWO_SIDED|95.0|0.65|1.04|||Cox Proportional Hazard model|Cox proportional hazards model with age, baseline ACE-I use, and baseline modified Rankin score as covariates||Telmisartan vs Placebo||1.04|0.65|0.1007
92206248|NCT00153062|184312668|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.2312|TWO_SIDED|95.0|0.86|1.04|||Cox Proportional Hazard model|Cox proportional hazards model with age, baseline diabetes status, baseline ACE-I use, and baseline Modified Rankin score as covariates||Telmisartan vs placebo||1.04|0.86|0.2312
92206249|NCT03310268|184312675|OTHER||Difference of Least Square mean|0.19|STANDARD_ERROR_OF_MEAN|0.094||0.0476|TWO_SIDED|95.0|0.002|0.374|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.374|0.002|0.0476
92206250|NCT03310268|184312675|OTHER||Difference of Least Square mean|-0.02|STANDARD_ERROR_OF_MEAN|0.093||0.8411|TWO_SIDED|95.0|-0.202|0.164|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.164|-0.202|0.8411
92206251|NCT03310268|184312675|OTHER||Difference of Least Square mean|0.21|STANDARD_ERROR_OF_MEAN|0.094||0.0298|TWO_SIDED|95.0|0.02|0.393|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.393|0.020|0.0298
92206252|NCT03310268|184312676|OTHER||Difference of Least Square mean|-7.2|STANDARD_ERROR_OF_MEAN|4.649||0.1232|TWO_SIDED|95.0|-16.376|1.975|||ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||1.975|-16.376|0.1232
92206253|NCT03310268|184312676|OTHER||Difference of Least Square mean|-4.04|STANDARD_ERROR_OF_MEAN|4.588||0.3793|TWO_SIDED|95.0|-13.099|5.011|||ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||5.011|-13.099|0.3793
92206254|NCT03310268|184312676|OTHER||Difference of Least Square mean|-3.16|STANDARD_ERROR_OF_MEAN|4.648||0.4979|TWO_SIDED|95.0|-12.33|6.017|||ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||6.017|-12.330|0.4979
92206255|NCT04797650|184312677|SUPERIORITY||Risk Difference (RD)|0.31|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.25|0.37||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.37|0.25|<0.0001
92206256|NCT04797650|184312677|SUPERIORITY||Risk Difference (RD)|0.36|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|0.27|0.45||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.45|0.27|<0.0001
92206257|NCT04797650|184312678|SUPERIORITY||Risk Difference (RD)|0.38|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.31|0.46||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.46|0.31|<0.0001
92206258|NCT04797650|184312678|SUPERIORITY||Risk Difference (RD)|0.36|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|0.26|0.45||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.45|0.26|<0.0001
92206259|NCT04797650|184312678|SUPERIORITY||Risk Difference (RD)|0.37|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.3|0.45||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.45|0.30|<0.0001
92206260|NCT04797650|184312678|SUPERIORITY||Risk Difference (RD)|0.4|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|0.31|0.5||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.50|0.31|<0.0001
92206261|NCT04797650|184312678|SUPERIORITY||Risk Difference (RD)|0.39|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.32|0.46||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.46|0.32|<0.0001
92206262|NCT04797650|184312678|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001|TWO_SIDED|95.0|0.41|0.59||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.59|0.41|<0.0001
92206263|NCT04797650|184312678|SUPERIORITY||Risk Difference (RD)|0.45|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|0.38|0.52||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.52|0.38|<0.0001
92206264|NCT04797650|184312678|SUPERIORITY||Risk Difference (RD)|0.49|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001|TWO_SIDED|95.0|0.4|0.58||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.58|0.40|<0.0001
92206265|NCT04797650|184312679|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.004||0.3175|TWO_SIDED|95.0|0.0|0.01||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 4||0.01|-0.00|0.3175
92206266|NCT04797650|184312679|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.013||0.102|TWO_SIDED|95.0|0.0|0.05||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 8||0.05|-0.00|0.1020
92206267|NCT04797650|184312679|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.016||0.3103|TWO_SIDED|95.0|-0.01|0.05||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 8||0.05|-0.01|0.3103
92206268|NCT04797650|184312679|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|0.06|0.14||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.14|0.06|<0.0001
92206269|NCT04797650|184312679|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.06|0.17||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.17|0.06|<0.0001
92206270|NCT04797650|184312679|SUPERIORITY||Risk Difference (RD)|0.19|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.14|0.24||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.24|0.14|<0.0001
92206271|NCT04797650|184312679|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.13|0.27||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.27|0.13|<0.0001
92206272|NCT04797650|184312679|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.18|0.29||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo|Mantel Haenszel|||Week 20||0.29|0.18|<0.0001
92206273|NCT04797650|184312679|SUPERIORITY||Risk Difference (RD)|0.27|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.19|0.35||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.35|0.19|<0.0001
92206274|NCT04797650|184312680|SUPERIORITY||Least Square (LS) Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.97||0.0039|TWO_SIDED|95.0|-4.7|-0.9||P-value was calculated by mixed model repeated measures (MMRM) analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 4||-0.9|-4.7|0.0039
92206275|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.12||0.0027|TWO_SIDED|95.0|-5.6|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 4||-1.2|-5.6|0.0027
92206276|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|2.15|<|0.0001|TWO_SIDED|95.0|-13.6|-5.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 8||-5.1|-13.6|<0.0001
92327378|NCT01162122|184560145|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H1N1 strain)|1.12|||||TWO_SIDED|95.0|1.0|1.24||||||||1.24|1|
92327379|NCT01162122|184560145|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H1N1 strain)|1.05|||||TWO_SIDED|95.0|0.95|1.17||||||||1.17|0.95|
92206277|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-14.2|STANDARD_ERROR_OF_MEAN|2.47|<|0.0001|TWO_SIDED|95.0|-19.0|-9.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 8||-9.3|-19|<0.0001
92206278|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-23.0|STANDARD_ERROR_OF_MEAN|2.92|<|0.0001|TWO_SIDED|95.0|-28.8|-17.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-17.3|-28.8|<0.0001
92206279|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-29.3|STANDARD_ERROR_OF_MEAN|3.36|<|0.0001|TWO_SIDED|95.0|-35.9|-22.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-22.7|-35.9|< 0.0001
92206280|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-34.8|STANDARD_ERROR_OF_MEAN|3.37|<|0.0001|TWO_SIDED|95.0|-41.4|-28.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-28.2|-41.4|< 0.0001
92206281|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-40.2|STANDARD_ERROR_OF_MEAN|3.86|<|0.0001|TWO_SIDED|95.0|-47.8|-32.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-32.6|-47.8|< 0.0001
92206282|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-38.7|STANDARD_ERROR_OF_MEAN|3.63|<|0.0001|TWO_SIDED|95.0|-45.9|-31.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-31.6|-45.9|< 0.0001
92206283|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-46.6|STANDARD_ERROR_OF_MEAN|4.17|<|0.0001|TWO_SIDED|95.0|-54.8|-38.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-38.4|-54.8|< 0.0001
92206284|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-45.9|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-53.4|-38.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-38.5|-53.4|< 0.0001
92206285|NCT04797650|184312680|SUPERIORITY||LS Mean Difference|-52.8|STANDARD_ERROR_OF_MEAN|4.36|<|0.0001|TWO_SIDED|95.0|-61.4|-44.2|||MMRM|||Week 24||-44.2|-61.4|< 0.0001
92327380|NCT01162122|184560145|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H1N1 strain)|0.94|||||TWO_SIDED|95.0|0.85|1.05||||||||1.05|0.85|
92327381|NCT01162122|184560145|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H3N2 strain)|1.01|||||TWO_SIDED|95.0|0.92|1.11||||||||1.11|0.92|
92206286|NCT04797650|184312681|SUPERIORITY||||||<|0.0001||||||P-value was calculated by cochran mantel haenszel (CMH) test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||< 0.0001
92206287|NCT04797650|184312681|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||< 0.0001
92206288|NCT04797650|184312681|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||< 0.0001
92206289|NCT04797650|184312681|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||< 0.0001
92327382|NCT01162122|184560145|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H3N2 strain)|0.99|||||TWO_SIDED|95.0|0.9|1.08||||||||1.08|0.9|
92206290|NCT04797650|184312681|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo|Cochran-Mantel-Haenszel|||Week 20||||< 0.0001
92206291|NCT04797650|184312681|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||< 0.0001
92206292|NCT04797650|184312681|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||< 0.0001
92206293|NCT04797650|184312681|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||< 0.0001
92206294|NCT04797650|184312682|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||< 0.0001
92206295|NCT04797650|184312682|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||< 0.0001
92206296|NCT04797650|184312682|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||< 0.0001
92206297|NCT04797650|184312682|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||< 0.0001
92206298|NCT04797650|184312682|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||< 0.0001
92206299|NCT04797650|184312682|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||< 0.0001
92206300|NCT04797650|184312682|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||< 0.0001
92206301|NCT04797650|184312682|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||< 0.0001
92206302|NCT04797650|184312683|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-1|-1.5|< 0.0001
92206303|NCT04797650|184312683|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.7|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-1.1|-1.7|< 0.0001
92206304|NCT04797650|184312683|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.9|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.3|-1.9|< 0.0001
92206305|NCT04797650|184312683|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.2|-1.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.5|-2.2|< 0.0001
92206306|NCT04797650|184312683|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.0|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.3|-2|< 0.0001
92206307|NCT04797650|184312683|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-2.5|-1.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.7|-2.5|< 0.0001
92206308|NCT04797650|184312683|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-2.5|-1.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.8|-2.5|< 0.0001
92327383|NCT01162122|184560145|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H3N2 strain)|0.98|||||TWO_SIDED|95.0|0.89|1.07||||||||1.07|0.89|
92327384|NCT01162122|184560145|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (B strain)|1.0|||||TWO_SIDED|95.0|0.91|1.1||||||||1.1|0.91|
92327385|NCT01162122|184560145|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (B strain)|0.96|||||TWO_SIDED|95.0|0.87|1.05||||||||1.05|0.87|
92206309|NCT04797650|184312683|SUPERIORITY||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-2.8|-2.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-2|-2.8|< 0.0001
92206310|NCT04797650|184312684|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.8|-1.0||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-1|-1.8|< 0.0001
92206311|NCT04797650|184312684|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-2.0|-1.1||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-1.1|-2|< 0.0001
92206312|NCT04797650|184312684|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-2.0|-1.2||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.2|-2|< 0.0001
92206313|NCT04797650|184312684|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-2.3|-1.4||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.4|-2.3|< 0.0001
92206314|NCT04797650|184312684|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-2.2|-1.3||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.3|-2.2|< 0.0001
92327386|NCT01162122|184560145|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (B strain)|0.96|||||TWO_SIDED|95.0|0.87|1.05||||||||1.05|0.87|
92327387|NCT01162122|184560146|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (H1N1 strain)|1.4|||||TWO_SIDED|95.0|1.32|1.49||||||||1.49|1.32|
92206315|NCT04797650|184312684|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-2.4|-1.5||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.5|-2.4|< 0.0001
92206316|NCT04797650|184312684|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-2.5|-1.7||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.7|-2.5|< 0.0001
92206317|NCT04797650|184312684|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-2.8|-1.8||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.8|-2.8|< 0.0001
92206318|NCT04797650|184312685|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.05|0.12||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 12||0.12|0.05|< 0.0001
92206319|NCT04797650|184312685|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.06|0.17||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 12||0.17|0.06|< 0.0001
92206320|NCT04797650|184312685|SUPERIORITY||Risk Difference (RD)|0.33|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.27|0.38||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 24||0.38|0.27|< 0.0001
92206321|NCT04797650|184312685|SUPERIORITY||Risk Difference (RD)|0.37|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|0.28|0.45||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 24||0.45|0.28|< 0.0001
92206322|NCT04797650|184312685|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.009||0.0409|TWO_SIDED|95.0|0.0|0.03||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 12||0.03|0.00|0.0409
92206323|NCT04797650|184312685|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.019||0.012|TWO_SIDED|95.0|0.01|0.09||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 12||0.09|0.01|0.012
92206324|NCT04797650|184312685|SUPERIORITY||Risk Difference (RD)|0.21|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.16|0.26||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 24||0.26|0.16|< 0.0001
92206325|NCT04797650|184312685|SUPERIORITY||Risk Difference (RD)|0.24|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.16|0.31||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 24||0.31|0.16|< 0.0001
92206326|NCT04797650|184312686|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|0.7|1.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.4|0.7|< 0.0001
92206327|NCT04797650|184312686|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|0.7|1.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.5|0.7|< 0.0001
92206328|NCT04797650|184312686|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|1.1|1.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||1.8|1.1|< 0.0001
92206329|NCT04797650|184312686|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|1.3|2.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.2|1.3|< 0.0001
92206330|NCT04797650|184312687|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|0.7|1.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.5|0.7|< 0.0001
92206331|NCT04797650|184312687|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|0.7|1.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.6|0.7|< 0.0001
92206332|NCT04797650|184312687|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|1.0|2.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2|1|< 0.0001
92206333|NCT04797650|184312687|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|1.0|2.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.1|1|< 0.0001
92206334|NCT04797650|184312688|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-0.9|-1.4|< 0.0001
92206335|NCT04797650|184312688|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-0.9|-1.5|< 0.0001
92206336|NCT04797650|184312688|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-1.1|-1.6|< 0.0001
92206337|NCT04797650|184312688|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.8|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-1.2|-1.8|< 0.0001
92206338|NCT04797650|184312688|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-1.1|-1.6|< 0.0001
92206339|NCT04797650|184312688|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-2.0|-1.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-1.4|-2|< 0.0001
92206340|NCT04797650|184312688|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.8|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-1.3|-1.8|< 0.0001
92206341|NCT04797650|184312688|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-2.1|-1.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-1.4|-2.1|< 0.0001
92206342|NCT04797650|184312689|SUPERIORITY||Risk Difference (RD)|0.34|STANDARD_ERROR_OF_MEAN|0.046|<|0.0001|TWO_SIDED|95.0|0.25|0.43||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.43|0.25|< 0.0001
92206343|NCT04797650|184312689|SUPERIORITY||Risk Difference (RD)|0.43|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|0.33|0.54||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.54|0.33|< 0.0001
92206344|NCT04797650|184312689|SUPERIORITY||Risk Difference (RD)|0.43|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001|TWO_SIDED|95.0|0.35|0.51||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.51|0.35|< 0.0001
92206345|NCT04797650|184312689|SUPERIORITY||Risk Difference (RD)|0.47|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|0.37|0.57||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.57|0.37|< 0.0001
92206346|NCT04797650|184312689|SUPERIORITY||Risk Difference (RD)|0.42|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.34|0.5||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.5|0.34|< 0.0001
92206347|NCT04797650|184312689|SUPERIORITY||Risk Difference (RD)|0.54|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|0.44|0.63||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.63|0.44|< 0.0001
92268687|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-4.5||||||95.0|-13.2|4.4||||||For Hib (PRP) the difference in percentages between the two groups (13vPnC - 7vPnC) at 1.0 (μg/mL) threshold was calculated||4.4|-13.2|
92327388|NCT01162122|184560146|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (H3N2 strain)|1.61|||||TWO_SIDED|95.0|1.52|1.7||||||||1.7|1.52|
92327389|NCT01162122|184560146|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (B strain)|1.15|||||TWO_SIDED|95.0|1.08|1.21||||||||1.21|1.08|
92206348|NCT04797650|184312689|SUPERIORITY||Risk Difference (RD)|0.44|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.36|0.52||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.52|0.36|< 0.0001
92206349|NCT04797650|184312689|SUPERIORITY||Risk Difference (RD)|0.52|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|0.42|0.62||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.62|0.42|< 0.0001
92206350|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 12||-0.8|-1.2|< 0.0001
92206351|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 12||-0.8|-1.4|< 0.0001
92206352|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 16||-0.9|-1.3|< 0.0001
92206353|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 16||-1.1|-1.6|< 0.0001
92206354|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 20||-1|-1.5|< 0.0001
92206355|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.9|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 20||-1.3|-1.9|< 0.0001
92206356|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 24||-1.1|-1.6|< 0.0001
92206357|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.8|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 24||-1.2|-1.8|< 0.0001
92268688|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.8||||||For Hib (PRP) the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.15 (μg/mL) threshold was calculated||2.8|-1.7|
92206358|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 12||-0.7|-1.1|< 0.0001
92206359|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 12||-0.8|-1.3|< 0.0001
92206360|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 16||-0.7|-1.2|< 0.0001
92206361|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 16||-0.9|-1.4|< 0.0001
92206362|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 20||-0.9|-1.3|< 0.0001
92206363|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 20||-1.1|-1.6|< 0.0001
92206364|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 24||-1.0|-1.5|< 0.0001
92206365|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.8|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 24||-1.2|-1.8|< 0.0001
92327390|NCT01162122|184560147|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%.|Group difference (H1N1 strain)|9.2|||||TWO_SIDED|95.0|7.1|11.3||||||||11.3|7.1|
92206366|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 12||-0.8|-1.3|< 0.0001
92206367|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 12||-0.8|-1.4|< 0.0001
92206368|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 16||-0.8|-1.3|< 0.0001
92206369|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 16||-1|-1.6|< 0.0001
92206370|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 20||-1.0|-1.5|< 0.0001
92206371|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.7|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 20||-1.1|-1.7|< 0.0001
92206372|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 24||-1.0|-1.5|< 0.0001
92206373|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.8|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 24||-1.2|-1.8|< 0.0001
92206374|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 12||-0.7|-1.1|< 0.0001
92206375|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 12||-0.7|-1.2|< 0.0001
92206376|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 16||-0.7|-1.2|< 0.0001
92206377|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 16||-0.8|-1.3|< 0.0001
92206378|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 20||-0.8|-1.3|< 0.0001
92206379|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 20||-1.0|-1.5|< 0.0001
92206380|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 24||-0.9|-1.4|< 0.0001
92206381|NCT04797650|184312690|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 24||-1.1|-1.6|< 0.0001
92206382|NCT04797650|184312691|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.29||0.1206|TWO_SIDED|95.0|-0.1|1.0||P-value was calculated by analysis of covariance (ANCOVA) analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Anxiety||1.0|-0.1|0.1206
92327391|NCT01162122|184560147|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%.|Group difference (H3N2 strain)|12.7|||||TWO_SIDED|95.0|10.5|14.9||||||||14.9|10.5|
92327392|NCT01162122|184560147|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%.|Group difference (B strain)|5.2|||||TWO_SIDED|95.0|3.0|7.4||||||||7.4|3.0|
92327393|NCT01162122|184560148|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|1.37|||||TWO_SIDED|95.0|1.29|1.46||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.46|1.29|
92327394|NCT01162122|184560148|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|1.6|||||TWO_SIDED|95.0|1.51|1.68||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.68|1.51|
92327395|NCT01162122|184560148|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|1.14|||||TWO_SIDED|95.0|1.08|1.2||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.2|1.08|
92327396|NCT01162122|184560149|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|8.9|||||TWO_SIDED|95.0|6.9|10.9||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||10.9|6.9|
92206383|NCT04797650|184312691|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.34||0.5367|TWO_SIDED|95.0|-0.5|0.9||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Anxiety||0.9|-0.5|0.5367
92206384|NCT04797650|184312691|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.29||0.0064|TWO_SIDED|95.0|0.2|1.3||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Depression||1.3|0.2|0.0064
92206385|NCT04797650|184312691|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.33||0.0011|TWO_SIDED|95.0|0.4|1.7||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Depression||1.7|0.4|0.0011
92206386|NCT04797650|184312692|SUPERIORITY||Risk Difference (RD)|0.24|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.19|0.3||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.3|0.19|< 0.0001
92206387|NCT04797650|184312692|SUPERIORITY||Risk Difference (RD)|0.25|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|0.18|0.33||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.33|0.18|< 0.0001
92206388|NCT02937454|184312709|OTHER||Annualised event rate ratio (RR)|0.79||||0.059|TWO_SIDED|95.0|0.62|1.01|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||Full Analysis Set (FAS)||1.01|0.62|0.059
92206389|NCT02937454|184312709|OTHER||Annualised event rate ratio (RR)|0.75||||0.024|TWO_SIDED|95.0|0.59|0.96|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||Covid-19 Sensitivity Analysis||0.96|0.59|0.024
92206390|NCT02937454|184312710|OTHER||Annualised event rate ratio (RR)|0.8||||0.05|TWO_SIDED|95.0|0.64|1.0|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||Full Analysis Set (FAS)||1.0|0.64|0.050
92206391|NCT02937454|184312710|OTHER||Annualised event rate ratio (RR)|0.77||||0.024|TWO_SIDED|95.0|0.62|0.97|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||COVID-19 sensitivity analyses||0.97|0.62|0.024
92206392|NCT02937454|184312711|OTHER||Annualised event rate ratio (RR)|0.74||||0.013|TWO_SIDED|95.0|0.58|0.94|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||Full Analysis Set (FAS)||0.94|0.58|0.013
92206393|NCT02937454|184312711|OTHER||Annualised event rate ratio (RR)|0.7||||0.005|TWO_SIDED|95.0|0.55|0.9|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||COVID-19 sensitivity analyses||0.90|0.55|0.005
92206394|NCT02937454|184312712|OTHER||Hazard Ratio (HR)|0.96||||0.809|TWO_SIDED|95.0|0.7|1.32|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline.||Full Analysis Set (FAS)||1.32|0.70|0.809
92206395|NCT02937454|184312712|OTHER||Hazard Ratio (HR)|0.94||||0.687|TWO_SIDED|95.0|0.68|1.29|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline||Covid-19 Sensitivity Analysis||1.29|0.68|0.687
92206396|NCT02937454|184312713|OTHER||Hazard Ratio (HR)|0.8||||0.03|TWO_SIDED|95.0|0.66|0.98|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline||Full Analysis Set (FAS)||0.98|0.66|0.030
92206397|NCT02937454|184312713|OTHER||Hazard Ratio (HR)|0.79||||0.023|TWO_SIDED|95.0|0.65|0.97|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline||Covid-19 Sensitivity Analysis||0.97|0.65|0.023
92206398|NCT02937454|184312714|OTHER||Annualised event rate ratio (RR)|0.67||||0.035|TWO_SIDED|95.0|0.47|0.97|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||Full Analysis Set (FAS)||0.97|0.47|0.035
92206399|NCT02937454|184312714|OTHER||Annualised event rate ratio (RR)|0.61||||0.009|TWO_SIDED|95.0|0.42|0.88|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country||Covid-19 Sensitivity Analysis||0.88|0.42|0.009
92206400|NCT02937454|184312715|OTHER||Hazard Ratio (HR)|0.73||||0.006|TWO_SIDED|95.0|0.59|0.92|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline.||Full Analysis Set (FAS)||0.92|0.59|0.006
92206401|NCT02937454|184312716|OTHER||Hazard Ratio (HR)|0.77||||0.009|TWO_SIDED|95.0|0.63|0.94|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline.||Full Analysis Set (FAS)||0.94|0.63|0.009
92206402|NCT02937454|184312717|OTHER||Hazard Ratio (HR)|0.99||||0.944|TWO_SIDED|95.0|0.75|1.31|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline||Full Analysis Set (FAS)||1.31|0.75|0.944
92206403|NCT02937454|184312718|OTHER||Odds Ratio (OR)|1.14||||0.196|TWO_SIDED|95.0|0.93|1.39|||Generalised Estimating Equations (GEE)|The following variables are included in the GEE model: treatment, visit, baseline NYHA class, sex, age, HF aetiology, HF duration, and country||Full Analysis Set (FAS)||1.39|0.93|0.196
92206404|NCT02937454|184312719|OTHER|||||||0.208|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 6||||0.208
92327397|NCT01162122|184560149|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|12.7|||||TWO_SIDED|95.0|10.6|14.8||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||14.8|10.6|
92206405|NCT02937454|184312719|OTHER|||||||0.408|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 24||||0.408
92206406|NCT02937454|184312719|OTHER|||||||0.999|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 52||||0.999
92206407|NCT02937454|184312720|OTHER|||||||0.227|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 2||||0.227
92206408|NCT02937454|184312720|OTHER|||||||0.018|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 4||||0.018
92206409|NCT02937454|184312720|OTHER|||||||0.005|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 6||||0.005
92206410|NCT02937454|184312720|OTHER|||||||0.006|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 12||||0.006
92206411|NCT02937454|184312720|OTHER|||||||0.028|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 24||||0.028
92206412|NCT02937454|184312720|OTHER|||||||0.136|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 36||||0.136
92206413|NCT02937454|184312720|OTHER|||||||0.329|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 52||||0.329
92206414|NCT04601870|184312728|SUPERIORITY||Odds Ratio (OR)|1.5||||0.4137|TWO_SIDED|95.0|0.566|3.973|||Chi-squared|Chi squared equals 0.668 with 1 degrees of freedom|Odds ratio for completing counseling in $50 arm vs. $0 arm|||3.973|.566|0.4137
92206415|NCT04601870|184312728|SUPERIORITY||Odds Ratio (OR)|1.5||||0.4137|TWO_SIDED|95.0|0.566|3.973|||Chi-squared|Chi squared equals 0.668 with 1 degrees of freedom|Odds ratio for completing counseling in $100 arm vs. $0 arm|||3.973|.566|0.4137
92206416|NCT04601870|184312728|SUPERIORITY||Odds Ratio (OR)|1.5||||0.3383|TWO_SIDED|95.0|0.653|3.446|||Chi-squared|Chi squared equals 0.917 with 1 degrees of freedom|Odds ratio for completing counseling in $50 or $100 arm vs. $0 arm|$0 vs. $50 or $100||3.446|.653|.3383
92206417|NCT04601870|184312729|SUPERIORITY||Odds Ratio (OR)|2.333||||0.265|TWO_SIDED|95.0|0.51|10.6751|||Chi-squared|Chi squared equals 1.243 with 1 degrees of freedom|Odds ratio for achieving confirmed abstinence at 6 months post-tqd in $50 arm vs. $0 arm|||10.6751|.5100|.2650
92206418|NCT04601870|184312729|SUPERIORITY||Odds Ratio (OR)|0.8333||||0.8472|TWO_SIDED|95.0|0.1301|5.3369|||Chi-squared|Chi squared equals 0.037 with 1 degrees of freedom|Odds ratio for achieving confirmed abstinence at 6 months post-tqd in $100 arm vs. $0 arm|||5.3369|.1301|.8472
92206419|NCT04601870|184312729|SUPERIORITY||Odds Ratio (OR)|1.541||||0.5478|TWO_SIDED|95.0|0.3731|6.364|||Chi-squared|Chi squared equals 0.361 with 1 degrees of freedom|Odds ratio for achieving confirmed abstinence at 6 months post-tqd in $50 or $100 arms vs. $0 arm|$0 vs. $50 or $100||6.3640|.3731|.5478
92206420|NCT04601870|184312729|SUPERIORITY||Odds Ratio (OR)|0.3571||||0.2276|TWO_SIDED|95.0|0.06355|2.007|||Chi-squared|Chi squared equals 1.456 with 1 degrees of freedom|Odds ratio for achieving confirmed abstinence at 6 months post-tqd in $100 arm vs. $50 arm|||2.0070|.06355|.2276
92206421|NCT01534689|184312736|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92206422|NCT01534689|184312737|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||results at 12 weeks compared to baseline||||<0.0001
92327398|NCT01162122|184560149|SUPERIORITY_OR_OTHER||Group difference (B strain)|5.1|||||TWO_SIDED|95.0|2.9|7.2||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||7.2|2.9|
92206423|NCT01160289|184312746|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||The p-value was 1-sided and adjusted for multiple comparisons. The level of significance was 1-sided of 0.04.|ANCOVA|Treatment group (tx grp), baseline IIEF EF domain score, baseline testosterone level, tx grp\*baseline IIEF, tx grp\*testosterone level interactions.||Only the treatment effects of 1 mg LY2452473 and 5 mg tadalafil versus 5 mg tadalafil and the treatment effects of 5 mg LY2452473 and 5 mg tadalafil versus 5 mg tadalafil were analyzed.||||0.5
92206424|NCT01160289|184312746|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||The p-value was 1-sided and adjusted for multiple comparisons. The level of significance was 1-sided of 0.04.|ANCOVA|The model included tx grp, baseline IIEF EF domain score, baseline testosterone level, tx grp\*baseline IIEF, tx grp\*testosterone level interactions.||Only the treatment effects of the treatment effects of 5 mg LY2452473 and 5 mg tadalafil versus 5 mg tadalafil and 1 mg LY2452473 and 5 mg tadalafil versus 5 mg tadalafil were analyzed.||||0.498
92206425|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|1.178|STANDARD_ERROR_OF_MEAN|3.312||0.722||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q1; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.722
92206426|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-1.552|STANDARD_ERROR_OF_MEAN|3.253||0.634||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q1; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.634
92206427|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-4.674|STANDARD_ERROR_OF_MEAN|3.218||0.147||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q1; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.147
92206428|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-7.404|STANDARD_ERROR_OF_MEAN|3.157||0.02||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q1; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.020
92206429|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|1.33|STANDARD_ERROR_OF_MEAN|4.658||0.775||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q2; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.775
92206430|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|1.844|STANDARD_ERROR_OF_MEAN|4.573||0.687||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q2; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.687
92327399|NCT01162122|184560153|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (H1N1 strain)|1.38|||||TWO_SIDED|95.0|1.25|1.52||||||||1.52|1.25|
92327400|NCT01162122|184560153|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (H3N2 strain)|1.57|||||TWO_SIDED|95.0|1.44|1.72||||||||1.72|1.44|
92327401|NCT01162122|184560153|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (B strain)|1.12|||||TWO_SIDED|95.0|1.03|1.21||||||||1.21|1.03|
92327402|NCT01162122|184560154|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%|Group difference (H1N1 strain)|11.1|||||TWO_SIDED|95.0|7.5|14.6||||||||14.6|7.5|
92327403|NCT01162122|184560154|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%|Group difference (H3N2 strain)|13.5|||||TWO_SIDED|95.0|9.8|17.2||||||||17.2|9.8|
92327404|NCT01162122|184560154|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%|Group difference (B strain)|5.0|||||TWO_SIDED|95.0|1.4|8.5||||||||8.5|1.4|
92206431|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-7.092|STANDARD_ERROR_OF_MEAN|4.535||0.119||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q2; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.119
92206432|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-6.578|STANDARD_ERROR_OF_MEAN|4.45||0.14||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q2; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.140
92206433|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|6.703|STANDARD_ERROR_OF_MEAN|5.302||0.207||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q3; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.207
92206434|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|9.159|STANDARD_ERROR_OF_MEAN|5.206||0.079||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q3; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.079
92206435|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-5.349|STANDARD_ERROR_OF_MEAN|5.165||0.301||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q3; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.301
92206436|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-2.893|STANDARD_ERROR_OF_MEAN|5.067||0.568||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q3; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.568
92206437|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|4.079|STANDARD_ERROR_OF_MEAN|5.566||0.464||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q4; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.464
92206438|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|5.054|STANDARD_ERROR_OF_MEAN|5.463||0.356||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q4; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.356
92206439|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-11.266|STANDARD_ERROR_OF_MEAN|5.418||0.038||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q4; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.038
92206440|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-10.292|STANDARD_ERROR_OF_MEAN|5.312||0.054||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q4; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.054
92206441|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|4.202|STANDARD_ERROR_OF_MEAN|5.603||0.454||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q5; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.454
92206442|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|5.796|STANDARD_ERROR_OF_MEAN|5.499||0.293||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q5; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.293
92206443|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-8.808|STANDARD_ERROR_OF_MEAN|5.457||0.107||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q5; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.107
92206444|NCT01160289|184312747|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-7.214|STANDARD_ERROR_OF_MEAN|5.349||0.178||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q5; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.178
92206445|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.079|STANDARD_ERROR_OF_MEAN|0.472||0.867||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF IS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.867
92206446|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.039|STANDARD_ERROR_OF_MEAN|0.458||0.931||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF IS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.931
92206447|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.652|STANDARD_ERROR_OF_MEAN|0.46||0.158||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF IS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.158
92206448|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.612|STANDARD_ERROR_OF_MEAN|0.447||0.172||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF IS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.172
92206449|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.223|STANDARD_ERROR_OF_MEAN|0.401||0.579||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OF domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.579
92206450|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.616|STANDARD_ERROR_OF_MEAN|0.39||0.115||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OF domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.115
92206451|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.168|STANDARD_ERROR_OF_MEAN|0.392||0.668||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OF domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.668
92206452|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.561|STANDARD_ERROR_OF_MEAN|0.38||0.141||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OF domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.141
92206453|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.088|STANDARD_ERROR_OF_MEAN|0.258||0.734||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF SD domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.734
92206454|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.179|STANDARD_ERROR_OF_MEAN|0.251||0.477||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF SD domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.477
92206455|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.3|STANDARD_ERROR_OF_MEAN|0.252||0.235||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF SD domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.235
92206456|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.391|STANDARD_ERROR_OF_MEAN|0.245||0.111||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF SD domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.111
92206457|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.349|STANDARD_ERROR_OF_MEAN|0.343||0.31||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.310
92206458|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.568|STANDARD_ERROR_OF_MEAN|0.334||0.09||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.090
92206459|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.729|STANDARD_ERROR_OF_MEAN|0.335||0.03||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.030
92206460|NCT01160289|184312748|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.948|STANDARD_ERROR_OF_MEAN|0.326||0.004||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.004
92206461|NCT01160289|184312750|SUPERIORITY_OR_OTHER|||||||0.656||||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level \<340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.656
92206462|NCT01160289|184312750|SUPERIORITY_OR_OTHER|||||||0.46||||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level \<340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.460
92206463|NCT01160289|184312750|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level \<340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.198
92206464|NCT01160289|184312750|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level ≥340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.009
92206465|NCT01160289|184312750|SUPERIORITY_OR_OTHER|||||||0.671||||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level ≥340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.671
92206466|NCT01160289|184312750|SUPERIORITY_OR_OTHER|||||||0.259||||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level ≥340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.259
92327405|NCT01162122|184560155|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|1.32|||||TWO_SIDED|95.0|1.2|1.45||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.45|1.2|
92327406|NCT01162122|184560155|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|1.54|||||TWO_SIDED|95.0|1.42|1.68||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.68|1.42|
92327407|NCT01162122|184560155|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|1.11|||||TWO_SIDED|95.0|1.03|1.21||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.21|1.03|
92327408|NCT01162122|184560159|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|9.9|||||TWO_SIDED|95.0|6.4|13.3||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||13.3|6.4|
92206467|NCT01160289|184312750|SUPERIORITY_OR_OTHER|||||||0.441||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level ≥340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.441
92206468|NCT01160289|184312750|SUPERIORITY_OR_OTHER|||||||0.433||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level ≥340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.433
92206469|NCT01160289|184312751|SUPERIORITY_OR_OTHER||LS mean of treatment difference|0.13||||0.423||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.423
92206470|NCT01160289|184312751|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.12||||0.443||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.443
92206471|NCT01160289|184312751|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.084||||0.599||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.599
92206472|NCT01160289|184312751|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.334||||0.029||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.029
92206473|NCT01160289|184312752|SUPERIORITY_OR_OTHER||LS Mean of treatment difference|-0.152||||0.148||95.0||||The p-value is for the change from baseline to Week 12 in total cholesterol; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.148
92206474|NCT01160289|184312752|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.216||||0.033||95.0||||The p-value is for the change from baseline to Week 12 in total cholesterol; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.033
92206475|NCT01160289|184312752|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.124||||0.224||95.0||||The p-value is for the change from baseline to Week 12 in total cholesterol; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.224
92206476|NCT01160289|184312752|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.189||||0.056||95.0||||The p-value is for the change from baseline to Week 12 in total cholesterol; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.056
92206477|NCT01160289|184312752|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.211||||0.031||95.0||||The p-value is for the change from baseline to Week 12 in triglycerides; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.031
92206478|NCT01160289|184312752|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.227||||0.017||95.0||||The p-value is for the change from baseline to Week 12 in triglycerides; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.017
92206479|NCT01160289|184312752|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.016||||0.866||95.0||||The p-value is for the change from baseline to Week 12 in triglycerides; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.866
92206480|NCT01160289|184312752|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.032||||0.726||95.0||||The p-value is for the change from baseline to Week 12 in triglycerides; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.726
92206481|NCT01160289|184312753|SUPERIORITY_OR_OTHER||LS Mean of treatment difference|-9.014|||<|0.001||95.0||||The p-value is for the percent change from baseline to Week 12 in HDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||<0.001
92206482|NCT01160289|184312753|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-18.547|||<|0.001||95.0||||The p-value is for the percent change from baseline to Week 12 in HDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||<0.001
92206483|NCT01160289|184312753|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-9.216|||<|0.001||95.0||||The p-value is for the percent change from baseline to Week 12 in HDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||<0.001
92206484|NCT01160289|184312753|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-18.75|||<|0.001||95.0||||The p-value is for the percent change from baseline to Week 12 in HDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||<0.001
92206485|NCT01160289|184312753|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.977||||0.776||95.0||||The p-value is for the percent change from baseline to Week 12 in LDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.776
92206486|NCT01160289|184312753|SUPERIORITY_OR_OTHER||LS mean of treatment difference|0.78||||0.814||95.0||||The p-value is for the percent change from baseline to Week 12 in LDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.814
92206487|NCT01160289|184312753|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-1.629||||0.627||95.0||||The p-value is for the percent change from baseline to Week 12 in LDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.627
92206488|NCT01160289|184312753|SUPERIORITY_OR_OTHER||LS mean of treatment difference|0.128||||0.968||95.0||||The p-value is for the percent change from baseline to Week 12 in LDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.968
92206489|NCT01160289|184312754|SUPERIORITY_OR_OTHER||LS Mean of treatment difference|-0.006||||0.984||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.984
92206490|NCT01160289|184312754|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.465||||0.076||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.076
92206491|NCT01160289|184312754|SUPERIORITY_OR_OTHER||LS mean of treatment difference|0.387||||0.142||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.142
92206492|NCT01160289|184312754|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.072||||0.776||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.776
92206493|NCT01160289|184312755|SUPERIORITY_OR_OTHER||LS Mean of treatment difference|5.031||||0.103||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.103
92206494|NCT01160289|184312755|SUPERIORITY_OR_OTHER||LS mean treatment difference|-3.225||||0.277||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.277
92206495|NCT01160289|184312755|SUPERIORITY_OR_OTHER||LS mean of treatment difference|7.056||||0.019||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.019
92206496|NCT01160289|184312755|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-1.201||||0.676||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.676
92206497|NCT01156792|184312764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026|||=|0.268|TWO_SIDED|95.0|-0.02|0.07|||Mixed Models Analysis|||||0.07|-0.02|=0.268
92206498|NCT01156792|184312764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|||=|0.08|TWO_SIDED|95.0|0.0|0.09|||Mixed Models Analysis|||||0.09|-0.00|=0.080
92206499|NCT01156792|184312764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|||=|0.017|TWO_SIDED|95.0|0.01|0.1|||Mixed Models Analysis|||||0.10|0.01|=0.017
92206500|NCT01156792|184312764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.074|||=|0.002|TWO_SIDED|95.0|0.03|0.12|||Mixed Models Analysis|||||0.12|0.03|=0.002
92206501|NCT01156792|184312765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.946|||=|0.751|TWO_SIDED|95.0|-4.91|6.81|||Mixed Models Analysis|||||6.81|-4.91|=0.751
92206502|NCT01156792|184312765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.771|||=|0.049|TWO_SIDED|95.0|0.03|11.51|||Mixed Models Analysis|||||11.51|0.03|=0.049
92206503|NCT01156792|184312765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.983|||=|0.123|TWO_SIDED|95.0|-1.35|11.32|||Mixed Models Analysis|||||11.32|-1.35|=0.123
92206504|NCT01156792|184312765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.14|||<|0.001|TWO_SIDED|95.0|5.93|18.35|||Mixed Models Analysis|||||18.35|5.93|<0.001
92206505|NCT01156792|184312766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.651|||=|0.563|TWO_SIDED|95.0|-3.97|7.27|||Mixed Models Analysis|||||7.27|-3.97|=0.563
92206506|NCT01156792|184312766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|||=|0.072|TWO_SIDED|95.0|-0.47|10.67|||Mixed Models Analysis|||||10.67|-0.47|=0.072
92206507|NCT01156792|184312766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.822|||=|0.126|TWO_SIDED|95.0|-1.37|11.02|||Mixed Models Analysis|||||11.02|-1.37|=0.126
92206508|NCT01156792|184312766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.292|||=|0.001|TWO_SIDED|95.0|4.21|16.38|||Mixed Models Analysis|||||16.38|4.21|=0.001
92206509|NCT01156792|184312767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.154|||||TWO_SIDED|95.0|-9.36|1.06||||||||1.06|-9.36|
92206510|NCT01156792|184312767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.364|||||TWO_SIDED|95.0|-6.22|5.5||||||||5.50|-6.22|
92206511|NCT01156792|184312768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|||=|0.957|TWO_SIDED|95.0|-0.18|0.17|||Mixed Models Analysis|||||0.17|-0.18|=0.957
92206512|NCT01156792|184312768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.108|||=|0.213|TWO_SIDED|95.0|-0.28|0.06|||Mixed Models Analysis|||||0.06|-0.28|=0.213
92206513|NCT01156792|184312768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.038|||=|0.647|TWO_SIDED|95.0|-0.2|0.12|||Mixed Models Analysis|||||0.12|-0.20|=0.647
92206514|NCT01156792|184312768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.011|||=|0.894|TWO_SIDED|95.0|-0.17|0.15|||Mixed Models Analysis|||||0.15|-0.17|=0.894
92206515|NCT01156792|184312769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025|||=|0.811|TWO_SIDED|95.0|-0.23|0.18|||Mixed Models Analysis|||||0.18|-0.23|=0.811
92206516|NCT01156792|184312769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.133|||=|0.2|TWO_SIDED|95.0|-0.34|0.07|||Mixed Models Analysis|||||0.07|-0.34|=0.200
92206517|NCT01156792|184312769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.076|||=|0.415|TWO_SIDED|95.0|-0.26|0.11|||Mixed Models Analysis|||||0.11|-0.26|=0.415
92206518|NCT01156792|184312769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.084|||=|0.358|TWO_SIDED|95.0|-0.26|0.1|||Mixed Models Analysis|||||0.10|-0.26|=0.358
92206519|NCT01156792|184312770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.666|||=|0.285|TWO_SIDED|95.0|-2.24|7.57|||Mixed Models Analysis|||||7.57|-2.24|=0.285
92206520|NCT01156792|184312770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3|||=|0.035|TWO_SIDED|95.0|0.38|10.22|||Mixed Models Analysis|||||10.22|0.38|=0.035
92206521|NCT01156792|184312770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.036|||=|0.09|TWO_SIDED|95.0|-0.63|8.7|||Mixed Models Analysis|||||8.70|-0.63|=0.090
92206522|NCT01156792|184312770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.602|||=|0.047|TWO_SIDED|95.0|0.06|9.14|||Mixed Models Analysis|||||9.14|0.06|=0.047
92206523|NCT01156792|184312771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.014|||=|0.668|TWO_SIDED|95.0|-3.64|5.67|||Mixed Models Analysis|||||5.67|-3.64|=0.668
92206524|NCT01156792|184312771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.349|||=|0.156|TWO_SIDED|95.0|-1.29|7.98|||Mixed Models Analysis|||||7.98|-1.29|=0.156
92206525|NCT01156792|184312771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.496|||=|0.822|TWO_SIDED|95.0|-3.83|4.82|||Mixed Models Analysis|||||4.82|-3.83|=0.822
92206526|NCT01156792|184312771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|||=|0.555|TWO_SIDED|95.0|-2.94|5.46|||Mixed Models Analysis|||||5.46|-2.94|=0.555
92206527|NCT01156792|184312772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.992|||=|0.367|TWO_SIDED|95.0|-2.35|6.33|||Mixed Models Analysis|||||6.33|-2.35|=0.367
92206528|NCT01156792|184312772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.147|||=|0.332|TWO_SIDED|95.0|-2.2|6.49|||Mixed Models Analysis|||||6.49|-2.20|=0.332
92206529|NCT01156792|184312772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.331|||=|0.277|TWO_SIDED|95.0|-1.88|6.55|||Mixed Models Analysis|||||6.55|-1.88|=0.277
92206530|NCT01156792|184312772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.521|||=|0.467|TWO_SIDED|95.0|-2.59|5.63|||Mixed Models Analysis|||||5.63|-2.59|=0.467
92206531|NCT01156792|184312773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.575|||=|0.789|TWO_SIDED|95.0|-3.65|4.8|||Mixed Models Analysis|||||4.80|-3.65|=0.789
92206532|NCT01156792|184312773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.669|||=|0.087|TWO_SIDED|95.0|-0.54|7.87|||Mixed Models Analysis|||||7.87|-0.54|=0.087
92206533|NCT01156792|184312773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||=|0.923|TWO_SIDED|95.0|-3.84|4.24|||Mixed Models Analysis|||||4.24|-3.84|=0.923
92206534|NCT01156792|184312773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.137|||=|0.571|TWO_SIDED|95.0|-5.08|2.81|||Mixed Models Analysis|||||2.81|-5.08|=0.571
92206535|NCT01156792|184312774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.014|||=|0.668|TWO_SIDED|95.0|-3.64|5.67|||Mixed Models Analysis|||||5.67|-3.64|=0.668
92206536|NCT01156792|184312774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.349|||=|0.156|TWO_SIDED|95.0|-1.29|7.98|||Mixed Models Analysis|||||7.98|-1.29|=0.156
92206537|NCT01156792|184312774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.496|||=|0.822|TWO_SIDED|95.0|-3.83|4.82|||Mixed Models Analysis|||||4.82|-3.83|=0.822
92206538|NCT01156792|184312774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|||=|0.555|TWO_SIDED|95.0|-2.94|5.46|||Mixed Models Analysis|||||5.46|-2.94|=0.555
92206539|NCT01156792|184312775|SUPERIORITY_OR_OTHER||||||=|0.408||95.0|||||Fisher Exact|||||||=0.408
92206540|NCT01156792|184312775|SUPERIORITY_OR_OTHER||||||=|0.138||95.0|||||Fisher Exact|||||||=0.138
92206541|NCT01156792|184312775|SUPERIORITY_OR_OTHER||||||=|0.797||95.0|||||Fisher Exact|||||||=0.797
92206542|NCT01156792|184312775|SUPERIORITY_OR_OTHER||||||=|0.408||95.0|||||Fisher Exact|||||||=0.408
92206543|NCT00768079|184312776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.312|||||||Fisher Exact|||Non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.312
92327409|NCT01162122|184560159|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|13.0|||||TWO_SIDED|95.0|9.5|16.6||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||16.6|9.5|
92206544|NCT00768079|184312776|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
92206545|NCT00768079|184312776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.312|||||||Fisher Exact|||Adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.312
92206546|NCT00768079|184312776|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
92206547|NCT00768079|184312778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.343|||||||Fisher Exact|||Week 4, non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.343
92206548|NCT00768079|184312778|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Week 4, non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
92206549|NCT00768079|184312778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.343|||||||Fisher Exact|||Week 4, adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.343
92206550|NCT00768079|184312778|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Week 4, adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
92206551|NCT00768079|184312778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.474|||||||Fisher Exact|||Week 24, non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.474
92206552|NCT00768079|184312778|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Week 24, non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
92206553|NCT00768079|184312778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.474|||||||Fisher Exact|||Week 24, adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.474
92206554|NCT00768079|184312778|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Week 24, adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
92206555|NCT02585232|184312837|SUPERIORITY|||||||0.483|||||||ANCOVA|Caregiver education, cognitive status of the person with dementia, and baseline caregiver burden scores were included in the model as covariates.||||||.483
92206556|NCT02585232|184312838|SUPERIORITY|||||||0.169|||||||ANCOVA|Caregiver education, cognitive status of the person with dementia, and baseline Dyadic Adjustment Scale scores were included as covariates.||Only caregivers that were currently or previously in a romantic relationship (e.g., spouses, partners) with the person with dementia reported on the Dyadic Adjustment Scale (i.e., N = 20, n = 9 in CC group and n = 11 in CC+C group).||||0.169
92206557|NCT02585232|184312839|SUPERIORITY|||||||0.763|||||||ANCOVA|Baseline quality of life scores, education, and cognitive status were included as covariates in the model.||||||0.763
92206558|NCT02585232|184312840|SUPERIORITY|||||||0.78|||||||ANCOVA|Baseline depression scores, cognitive status scores (i.e., MoCA), and education were included in the model as covariates.||||||0.780
92206559|NCT00682890|184312880|SUPERIORITY_OR_OTHER|||||||0.63|||||||ANOVA|||P value on change at 3 months for placebo group||||0.63
92206560|NCT00682890|184312880|SUPERIORITY_OR_OTHER|||||||0.42|||||||ANOVA|||||||0.42
92206561|NCT00682890|184312881|SUPERIORITY_OR_OTHER|||||||0.51|||||||ANOVA|||||||0.51
92206562|NCT00682890|184312881|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANOVA|||||||0.03
92206563|NCT03028220|184312886|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92206564|NCT03028220|184312887|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92206565|NCT03028220|184312888|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92206566|NCT03028220|184312889|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92206567|NCT03028220|184312890|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
92206568|NCT03028220|184312891|OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.820
92206569|NCT03028220|184312892|OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.820
92206570|NCT03028220|184312893|OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.570
92206571|NCT03028220|184312894|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
92206572|NCT03028220|184312895|OTHER|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.910
92206573|NCT03028220|184312896|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.460
92206574|NCT03028220|184312897|OTHER|||||||0.191|||||||Wilcoxon (Mann-Whitney)|||||||0.191
92206575|NCT00141219|184312898|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.115||||0.289||95.0|0.785|1.583||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Cochran-Mantel-Haenszel|P-value in above table was from Cochran-Mantel-Haenszel test comparing Pregabalin and Placebo adjusted for center.|RR estimates relative responder rate between Pregabalin and Placebo (the ratio of the former responder rate to the latter). Estimated RR was center-adjusted ie, assumed common RR in all centers, then a weighted average of center specific RRs computed|Null hypothesis of no treatment difference in each of the centers.||1.583|0.785|0.289
92206576|NCT00141219|184312899|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.644||||0.041||95.0|0.915|2.954||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Cochran-Mantel-Haenszel|P-value in above table was from Cochran-Mantel-Haenszel test comparing Pregabalin and Placebo adjusted for center.|RR estimates relative responder rate between Pregabalin and Placebo (the ratio of the former responder rate to the latter). Estimated RR was center-adjusted ie, assumed common RR in all centers, then a weighted average of center specific RRs computed|Null hypothesis of no treatment difference in each of the centers.||2.954|0.915|0.041
92206577|NCT00141219|184312900|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.252||0.049||95.0|-1.0|0.0||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from the general linear model with treatment and center fitted as factors and the baseline value as a covariate.||Null hypotheses stated there was no difference in pregabalin and placebo in the primary endpoint versus the alternative that there was. The target sample size was 234 subjects (156 and 78 respectively pregabalin vs placebo using a 2:1 ratio). The calculations assumed a 2-sided comparison at 0.05 alpha, 80% power and 3% dropout. Also, a treatment difference of 1 point and a standard deviation for endpoint mean pain scores of 2.5 were assumed based on previous studies.||-0.00|-1.00|0.049
92206578|NCT00141219|184312900|SUPERIORITY_OR_OTHER_LEGACY|||||||0.729||95.0||||Interaction p-value based on adding interaction term to the main model.|General Linear Model|"In supportive model 1, a treatment by center independent variable added to the main model."||This was a supportive analysis of the primary endpoint to determine if the main results were generalizable across centers.||||0.729
92206579|NCT00141219|184312900|SUPERIORITY_OR_OTHER_LEGACY|||||||0.979||95.0||||Interaction p-value based on adding interaction term to the main model.|General Linear Model|"In supportive model 2, a treatment by baseline mean pain independent variable added to the main model."||This was a supportive analysis of the primary endpoint to determine if the main results were generalizable across different baseline values.||||0.979
92206580|NCT00141219|184312901|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.267||0.077||95.0|-1.0|0.05||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center fitted as factors and the baseline value as a covariate.||"Endpoint Mean Pain Score~Pregabalin minus Placebo"||0.05|-1.00|0.077
92206581|NCT00141219|184312902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.186||0.042||95.0|-0.75|-0.01||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center, and treatment by week interaction as factors and baseline value as a covariate.||"Mean Pain Score Weeks 1 to 8~Overall Comparison (8-week average)~Pregabalin minus Placebo"||-0.01|-0.75|0.042
92206582|NCT00141219|184312902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.21||0.071||95.0|-0.79|0.03||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 1 Mean Pain Score~Pregabalin minus Placebo"||0.03|-0.79|0.071
92206583|NCT00141219|184312902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.212||0.149||95.0|-0.72|0.11||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 2 Mean Pain Score~Pregabalin minus Placebo"||0.11|-0.72|0.149
92206584|NCT00141219|184312902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.213||0.057||95.0|-0.82|0.01||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 3 Mean Pain Score~Pregabalin minus Placebo"||0.01|-0.82|0.057
92206585|NCT00141219|184312902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.215||0.044||95.0|-0.85|-0.01||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 4 Mean Pain Score~Pregabalin minus Placebo"||-0.01|-0.85|0.044
92206586|NCT00141219|184312902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.216||0.051||95.0|-0.85|0.0||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 5 Mean Pain Score~Pregabalin minus Placebo"||0.00|-0.85|0.051
92206587|NCT00141219|184312902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.216||0.178||95.0|-0.72|0.13||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 6 Mean Pain Score~Pregabalin minus Placebo"||0.13|-0.72|0.178
92206588|NCT00141219|184312902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.218||0.104||95.0|-0.78|0.07||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 7 Mean Pain Score~Pregabalin minus Placebo"||0.07|-0.78|0.104
92206589|NCT00141219|184312902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.218||0.039||95.0|-0.88|-0.02||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 8 Mean Pain Score~Pregabalin minus Placebo"||-0.02|-0.88|0.039
92206590|NCT00141219|184312903|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.186||0.044||95.0|-0.74|-0.01||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Duration Adjusted Average Change (DAAC)~Pregabalin minus Placebo"||-0.01|-0.74|0.044
92206591|NCT00141219|184312904|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.272||0.018||95.0|-1.19|-0.11||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Endpoint Sleep Interference Score~Pregabalin minus Placebo"||-0.11|-1.19|0.018
92206592|NCT00141219|184312905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.226||0.024||95.0|-0.96|-0.07||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Weeks 1 to 8 Mean Sleep Score~Overall Comparison (8-week average)~Pregabalin minus Placebo"||-0.07|-0.96|0.024
92206593|NCT00141219|184312905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.245||0.12||95.0|-0.86|0.1||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 1 Sleep Interference Score~Pregabalin minus Placebo"||0.10|-0.86|0.120
92206594|NCT00141219|184312905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.246||0.041||95.0|-0.99|-0.02||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 2 Sleep Interference Score~Pregabalin minus Placebo"||-0.02|-0.99|0.041
92206595|NCT00141219|184312905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.248||0.017||95.0|-1.07|-0.1||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 3 Sleep Interference Score~Pregabalin minus Placebo"||-0.10|-1.07|0.017
92268689|NCT00366678|184439304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.2||||||95.0|-3.1|4.5||||||For Hib (PRP) the difference in percentages between the two groups (13vPnC - 7vPnC) at 1.0 (μg/mL) threshold was calculated||4.5|-3.1|
92206596|NCT00141219|184312905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.249||0.033||95.0|-1.02|-0.04||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 4 Sleep Interference Score~Pregabalin minus Placebo"||-0.04|-1.02|0.033
92206597|NCT00141219|184312905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.25||0.078||95.0|-0.93|0.05||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 5 Sleep Interference Score~Pregabalin minus Placebo"||0.05|-0.93|0.078
92206598|NCT00141219|184312905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.25||0.038||95.0|-1.01|-0.03||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 6 Sleep Interference Score~Pregabalin minus Placebo"||-0.03|-1.01|0.038
92206599|NCT00141219|184312905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.252||0.037||95.0|-1.02|-0.03||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 7 Sleep Interference Score~Pregabalin minus Placebo"||-0.03|-1.02|0.037
92206600|NCT00141219|184312905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.252||0.015||95.0|-1.11|-0.12||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 8 Sleep Interference Score~Pregabalin minus Placebo"||-0.12|-1.11|0.015
92206601|NCT00141219|184312906|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.62|STANDARD_ERROR_OF_MEAN|2.639||0.034||95.0|-10.82|-0.42||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Sleep Disturbance~Pregabalin minus Placebo"||-0.42|-10.82|0.034
92206602|NCT00141219|184312907|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.05|STANDARD_ERROR_OF_MEAN|3.309||0.128||95.0|-1.47|11.58||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Snoring Score~Pregabalin minus Placebo"||11.58|-1.47|0.128
92206603|NCT00141219|184312908|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.09|STANDARD_ERROR_OF_MEAN|1.887||0.103||95.0|-6.81|0.63||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Awaken Short of Breath or Headache~Pregabalin minus Placebo"||0.63|-6.81|0.103
92206604|NCT00141219|184312909|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.182||0.018||95.0|0.08|0.8||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Sleep Quantity~Pregabalin minus Placebo"||0.80|0.08|0.018
92206605|NCT00141219|184312910|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.23|STANDARD_ERROR_OF_MEAN|0.37||0.504||95.0|0.67|2.24||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Regression, Logistic|OR estimated from model with Optimal sleep status (Yes/No) as response variable, and treatment, baseline Optimal sleep status as explanatory variables|"The OR estimates ratio of Odds of optimal sleep between Pregabalin and Placebo (ie, the former to the latter). Odds of optimal sleep in treatment group is ratio of Probability of having optimal sleep vs Probability of Not having optimal sleep"|"Week 8 Optimal Sleep~Optimal Sleep is a binary outcome derived from Sleep Quantity (SQ): the response is YES (or 1) if SQ = 7 or 8 hours per night.~Odds ratio measured the odds of optimal sleep in pregabalin to that in placebo.~Standard Error of the Mean equals Standard Error of the Odds Ratio (OR)."||2.24|0.67|.504
92206606|NCT00141219|184312911|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|3.796||0.571||95.0|-5.33|9.63||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Sleep Adequacy~Pregabalin minus Placebo"||9.63|-5.33|0.571
92206607|NCT00141219|184312912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.71|STANDARD_ERROR_OF_MEAN|2.349||0.046||95.0|0.08|9.34||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Somnolence~Pregabalin minus Placebo"||9.34|0.08|0.046
92206608|NCT00141219|184312913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.12|STANDARD_ERROR_OF_MEAN|2.044||0.3||95.0|-6.15|1.91||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Overall Sleep Problem~Pregabalin minus Placebo"||1.91|-6.15|0.300
92206609|NCT00141219|184312914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.026|STANDARD_ERROR_OF_MEAN|0.0325||0.429||95.0|-0.038|0.09||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Endpoint Utility Score~Pregabalin minus Placebo"||0.090|-0.038|0.429
92206610|NCT00141219|184312915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|2.375||0.142||95.0|-1.18|8.18||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Endpoint VAS Score~Pregabalin minus Placebo"||8.18|-1.18|0.142
92268690|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-1.7|2.9||||||For serotype 4 the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.9|-1.7|
92206611|NCT00141219|184312916|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.409||0.038||95.0|-1.66|-0.05||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Endpoint Anxiety Score~Pregabalin minus Placebo"||-0.05|-1.66|0.038
92206612|NCT00141219|184312917|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.438||0.664||95.0|-1.05|0.67||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Endpoint Depression Score~Pregabalin minus Placebo"||0.67|-1.05|0.664
92206613|NCT00141219|184312918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.473||95.0||||All statistical testing was 2-sided and was conducted at the 5% level of significance. p-value is from comparing Pregabalin versus Placebo.|Cochran-Mantel-Haenszel|"To apply CMH, each category is given a numerical score; the method of modified rdit used to assign numeric scores."||Cochran-Mantel-Haenszel (CMH) test on the null hypothesis of no treatment difference in all centers. CMH test comparing Pregabalin to Placebo adjusted for center.||||0.473
92206614|NCT00141219|184312919|SUPERIORITY_OR_OTHER_LEGACY|||||||0.119||95.0||||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Cochran-Mantel-Haenszel|"To apply CMH, each category is given a numerical score; the method of modified rdit used to assign numeric scores."||Cochran-Mantel-Haenszel (CMH) test on the null hypothesis of no treatment difference in all centers. CMH test comparing Pregabalin to Placebo adjusted for center.||||0.119
92206615|NCT01856868|184312969|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0434|||||||t-test, 2 sided|||||||0.0434
92206616|NCT01856868|184312970|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0185|||||||t-test, 2 sided|||||||0.0185
92206617|NCT01856868|184312971|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0434|||||||t-test, 2 sided|||||||0.0434
92206618|NCT01856868|184312972|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0078|||||||t-test, 2 sided|||||||0.0078
92206619|NCT01856868|184312973|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0025|||||||t-test, 2 sided|||||||0.0025
92327410|NCT01162122|184560159|SUPERIORITY_OR_OTHER||Group difference (B strain)|4.9|||||TWO_SIDED|95.0|1.5|8.3||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||8.3|1.5|
92206620|NCT01856868|184312974|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0082|||||||t-test, 2 sided|||||||0.0082
92206621|NCT01856868|184312975|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.031|||||||t-test, 2 sided|||||||0.031
92206622|NCT01856868|184312976|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0238|||||||Wilcoxon (Mann-Whitney)|||||||0.0238
92206623|NCT01856868|184312977|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0321|||||||t-test, 2 sided|||||||0.0321
92206624|NCT01856868|184312978|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0182|||||||t-test, 2 sided|||||||0.0182
92206625|NCT01856868|184312979|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0371|||||||t-test, 2 sided|||||||0.0371
92206626|NCT01856868|184312980|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0257|||||||t-test, 2 sided|||||||0.0257
92206627|NCT01856868|184312983|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a mixed model regression analysis, including fixed effects for height and weight using patient identity as source of random variation. As a pilot study, these measures were not subject to a formal power analysis but will be used in future sample size calculations.|Mean Difference (Net)|-1.82|STANDARD_ERROR_OF_MEAN|2.51||0.47|TWO_SIDED||||||Mixed Models Analysis|||||||0.47
92206628|NCT01856868|184312984|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a mixed model regression analysis, including fixed effects for height, weight and knee extension strength using patient identity as source of random variation. As a pilot study, these measures were not subject to a formal power analysis but will be used in future sample size calculations.|Mean Difference (Net)|11.2|STANDARD_ERROR_OF_MEAN|16.6||0.5|TWO_SIDED||||||Mixed Models Analysis|||||||0.50
92327411|NCT01162122|184560160|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was \>0.67.|GMT Ratio (H3N2/Brisbane-overall)|1.45|||||TWO_SIDED|95.0|1.29|1.63||||||||1.63|1.29|
92206629|NCT01856868|184312986|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a mixed model regression analysis, including fixed effects for height, weight and knee extension strength using patient identity as source of random variation. As a pilot study, these measures were not subject to a formal power analysis but will be used in future sample size calculations.|Mean Difference (Net)|5.33|STANDARD_ERROR_OF_MEAN|3.79||0.159|TWO_SIDED||||||Mixed Models Analysis|||||||0.159
92206630|NCT00662818|184312994|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.329|TWO_SIDED|95.0|0.62|4.25|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||4.25|0.62|0.329
92327412|NCT01162122|184560160|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was \>0.67.|GMT Ratio (H3N2/Wisconsin-overall)|1.36|||||TWO_SIDED|95.0|1.23|1.5||||||||1.5|1.23|
92206631|NCT00662818|184312995|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.42|TWO_SIDED|95.0|0.59|3.5|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||3.50|0.59|0.420
92206632|NCT00662818|184312999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.648|TWO_SIDED|95.0|0.52|2.85|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||2.85|0.52|0.648
92206633|NCT00662818|184313000|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.647|TWO_SIDED|95.0|0.31|2.07|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||2.07|0.31|0.647
92206634|NCT00662818|184313001|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.201|TWO_SIDED|95.0|0.73|4.6|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||4.60|0.73|0.201
92206635|NCT00662818|184313002|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.579|TWO_SIDED|95.0|0.47|3.85|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||3.85|0.47|0.579
92206636|NCT02842151|184313048|EQUIVALENCE|Difference in A-Constant is manifest refraction minus autorefraction. The criteria for equivalence (based on paired difference t-test) was established if the bounds of the 90% two-sided confidence interval (CI) on the difference was contained within the equivalence range (-0.15, 0.15).|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|0.346|||TWO_SIDED|90.0|-0.03|0.13||||||To demonstrate equivalency at Site 1, A-constant with manifest refraction was compared to A-constant with autorefraction.||0.13|-0.03|
92206637|NCT02842151|184313048|EQUIVALENCE|Difference in A-Constant is manifest refraction minus autorefraction. The criteria for equivalence (based on paired difference t-test) was established if the bounds of the 90% two-sided confidence interval (CI) on the difference was contained within the equivalence range (-0.15, 0.15).|Mean Difference (Net)|-0.07|STANDARD_DEVIATION|0.595|||TWO_SIDED|90.0|-0.21|0.07||||||To demonstrate equivalency at Site 2, A-constant with manifest refraction was compared to A-constant with autorefraction.||0.07|-0.21|
92206638|NCT02842151|184313048|EQUIVALENCE|Difference in A-Constant is manifest refraction minus autorefraction. The criteria for equivalence (based on paired difference t-test) was established if the bounds of the 90% two-sided confidence interval (CI) on the difference was contained within the equivalence range (-0.15, 0.15).|Mean Difference (Net)|-0.13|STANDARD_DEVIATION|0.34|||TWO_SIDED|90.0|-0.22|-0.04||||||To demonstrate equivalency at Site 3, A-constant with manifest refraction was compared to A-constant with autorefraction.||-0.04|-0.22|
92206639|NCT03691909|184313063|OTHER|||||||0.743|||||||Wilcoxon-signed rank test|Effect Size: 0.09||||||0.743
92206640|NCT03691909|184313064|OTHER|||||||0.714|||||||Wilcoxon-signed rank test|Effect Size: 0.10||||||0.714
92206641|NCT03691909|184313065|OTHER|||||||0.183|||||||Wilcoxon-signed rank test|Effect Size: 0.37||||||0.183
92206642|NCT03691909|184313066|OTHER|||||||0.775|||||||Wilcoxon-signed rank test|Effect Size: 0.05||||||0.775
92206643|NCT03691909|184313067|OTHER|||||||0.0008|||||||Wilcoxon-signed rank test|Effect Size: 0.93||Tender Joint Count||||0.0008
92206644|NCT03691909|184313067|OTHER|||||||0.003|||||||Wilcoxon-signed rank test|Effect Size: 0.83||Swollen Joint Count||||0.003
92206645|NCT05121246|184313068|EQUIVALENCE|CI 90% of least squares geometric means must be entirely contained within the range \[80%-125%\].||||||||||||||||PK parameters will be determined using a non-compartmental analysis method. Bioequivalence between MB05 and EU-Synagis®, between MB05 and US-Synagis® and between EU-Synagis® and US-Synagis® will be established by analysis of variance for the PK parameters AUC0-inf, and Cmax.|PK parameters for each participant will be listed and summarised by treatment using descriptive statistics.|||
92206646|NCT05121246|184313069|EQUIVALENCE|CI 90% of least squares geometric means must be entirely contained within the range \[80%-125%\].||||||||||||||||PK parameters will be determined using a non-compartmental analysis method. Bioequivalence between MB05 and EU-Synagis®, between MB05 and US-Synagis® and between EU-Synagis® and US-Synagis® will be established by analysis of variance for the PK parameters AUC0-inf, and Cmax.|PK parameters for each participant will be listed and summarised by treatment using descriptive statistics.|||
92206647|NCT05038163|184313078|SUPERIORITY||Treatment Effect|-0.51|||<|0.001|TWO_SIDED|95.0|-0.63|-0.39|||Regression, Linear|||||-0.39|-0.63|<0.001
92206648|NCT05038163|184313078|SUPERIORITY||Treatment Effect|-0.45|||<|0.001|TWO_SIDED|95.0|-0.57|-0.33|||Regression, Linear|||||-0.33|-0.57|<0.001
92206649|NCT05038163|184313078|SUPERIORITY||Treatment Effect|-0.34|||<|0.001|TWO_SIDED|95.0|-0.44|-0.24|||Regression, Linear|||||-0.24|-0.44|<0.001
92206650|NCT05038163|184313079|SUPERIORITY||Treatment Effect|-0.33||||0.003|TWO_SIDED|95.0|-0.55|-0.11|||Regression, Linear|||||-0.11|-0.55|0.003
92206651|NCT05038163|184313079|SUPERIORITY||Treatment Effect|-0.61|||<|0.001|TWO_SIDED|95.0|-0.87|-0.35|||Regression, Linear|||||-0.35|-0.87|<0.001
92206652|NCT05038163|184313079|SUPERIORITY||Treatment Effect|-0.25|||<|0.001|TWO_SIDED|95.0|-0.48|-0.17|||Regression, Linear|||||-0.17|-0.48|<0.001
92206653|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.5|||<|0.001|TWO_SIDED|95.0|-0.67|-0.32|||Regression, Linear||Unit: $ per 12-pack|Gender subgroup: Female or other||-0.32|-0.67|<0.001
92206654|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.53|||<|0.001|TWO_SIDED|95.0|-0.7|-0.36|||Regression, Linear||Unit: $ per 12-pack|Gender subgroup: Male||-0.36|-0.70|<0.001
92206655|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.41|||<|0.001|TWO_SIDED|95.0|-0.57|-0.25|||Regression, Linear||Unit: $ per 12-pack|Gender subgroup: Female or other||-0.25|-0.57|<0.001
92206656|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.48|||<|0.001|TWO_SIDED|95.0|-0.65|-0.32|||Regression, Linear||Unit: $ per 12-pack|Gender subgroup: Male||-0.32|-0.65|<0.001
92206657|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.28|||<|0.001|TWO_SIDED|95.0|-0.42|-0.14|||Regression, Linear||Unit: $ per 12-pack|Gender subgroup: Female or other||-0.14|-0.42|<0.001
92206658|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.57|||<|0.001|TWO_SIDED|95.0|-0.57|-0.27|||Regression, Linear|||Gender subgroup: Male|Unit: $ per 12-pack|-0.27|-0.57|<0.001
92327413|NCT01162122|184560160|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was ≥0.67.|GMT Ratio (B strain-overall)|1.09|||||TWO_SIDED|95.0|0.98|1.21||||||||1.21|0.98|
92206659|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-2.23|||<|0.001|TWO_SIDED|95.0|-3.34|-1.12|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: American Indian or Alaska Native||-1.12|-3.34|<0.001
92206660|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.69|||<|0.001|TWO_SIDED|95.0|-1.15|-0.23|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Asian||-0.23|-1.15|<0.001
92206661|NCT05038163|184313080|SUPERIORITY||Treatment Effect|0.8|||<|0.001|TWO_SIDED|95.0|0.8|0.8|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Native Hawaiian or Pacific Islander||0.80|0.80|<0.001
92206662|NCT05038163|184313080|SUPERIORITY||Treatment Effect|0.45|||<|0.001|TWO_SIDED|95.0|-0.24|1.14|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Black or African American||1.14|-0.24|<0.001
92206663|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.5|||<|0.001|TWO_SIDED|95.0|-0.63|-0.37|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: White||-0.37|-0.63|<0.001
92206664|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.96|||<|0.001|TWO_SIDED|95.0|-1.67|-0.25|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: More Than One Race||-0.25|-1.67|<0.001
92206665|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.38|||<|0.001|TWO_SIDED|95.0|-1.16|0.4|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Unknown or Not Reported||0.40|-1.16|<0.001
92206666|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.44|||<|0.001|TWO_SIDED|95.0|-1.07|0.19|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: American Indian or Alaska Native||0.19|-1.07|<0.001
92206667|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.54|||<|0.001|TWO_SIDED|95.0|-0.91|-0.17|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Asian||-0.17|-0.91|<0.001
92206668|NCT05038163|184313080|SUPERIORITY||Treatment Effect|0.0|||<|0.001|TWO_SIDED|95.0|0.0|0.0|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Native Hawaiian or Pacific Islander||0.00|0.00|<0.001
92206669|NCT05038163|184313080|SUPERIORITY||Treatment Effect|0.16|||<|0.001|TWO_SIDED|95.0|-0.36|0.68|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Black or African American||0.68|-0.36|<0.001
92206670|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.44|||<|0.001|TWO_SIDED|95.0|-0.57|-0.31|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: white||-0.31|-0.57|<0.001
92206671|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-1.18|||<|0.001|TWO_SIDED|95.0|-2.04|-0.32|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: More Than One Race||-0.32|-2.04|<0.001
92206672|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.38|||<|0.001|TWO_SIDED|95.0|-0.9|0.14|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Unknown or Not Reported||0.14|-0.90|<0.001
92206673|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.79|||<|0.001|TWO_SIDED|95.0|-1.54|-0.04|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: American Indian or Alaska Native||-0.04|-1.54|<0.001
92206674|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.51|||<|0.001|TWO_SIDED|95.0|-0.9|-0.12|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Asian||-0.12|-0.90|<0.001
92206675|NCT05038163|184313080|SUPERIORITY||Treatment Effect|0.8|||<|0.001|TWO_SIDED|95.0|0.8|0.8|||Regression, Logistic||Unit: $ per 12-pack|Race subgroup: Native Hawaiian or Pacific Islander||0.80|0.80|<0.001
92206676|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.04|||<|0.001|TWO_SIDED|95.0|-0.79|0.71|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Black or African American||0.71|-0.79|<0.001
92206677|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.33|||<|0.001|TWO_SIDED|95.0|-0.44|-0.22|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: White||-0.22|-0.44|<0.001
92206678|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.41|||<|0.001|TWO_SIDED|95.0|-0.76|-0.06|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: More Than One Race||-0.06|-0.76|<0.001
92327414|NCT01162122|184560160|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was \>0.67.|GMT Ratio(H3N2/Brisbane-high risk group)|1.35||||||95.0|1.13|1.61||||||||1.61|1.13|
92327415|NCT01162122|184560160|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was \>0.67.|GMT Ratio(H3N2/Wisconsin-high risk group|1.29|||||TWO_SIDED|95.0|1.1|1.5||||||||1.5|1.1|
92327416|NCT01162122|184560160|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was \>0.67.|GMT Ratio (B strain-high risk group)|1.11|||||TWO_SIDED|95.0|0.95|1.3||||||||1.3|0.95|
92327417|NCT01162122|184560161|SUPERIORITY_OR_OTHER||GMT ratio (H3N2/Brisbane-overall)|1.49|||||TWO_SIDED|95.0|1.33|1.67||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.67|1.33|
92327418|NCT01162122|184560161|SUPERIORITY_OR_OTHER||GMT ratio(H3N2/Wisconsin-overall)|1.38|||||TWO_SIDED|95.0|1.25|1.52||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.52|1.25|
92206679|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.27|||<|0.001|TWO_SIDED|95.0|-0.85|0.31|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Unknown or Not Reported||0.31|-0.85|<0.001
92206680|NCT05038163|184313080|SUPERIORITY||Treatment Effect|0.23|||<|0.001|TWO_SIDED|95.0|-0.45|0.91|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Hispanic||0.91|-0.45|<0.001
92206681|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.52|||<|0.001|TWO_SIDED|95.0|-0.65|-0.39|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Not Hispanic||-0.39|-0.65|<0.001
92206682|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.93|||<|0.001|TWO_SIDED|95.0|-1.48|-0.38|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Other or Prefer Not to Say||-0.38|-1.48|<0.001
92206683|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.16|||<|0.001|TWO_SIDED|95.0|-0.7|0.38|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Hispanic||0.38|-0.70|<0.001
92206684|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.45|||<|0.001|TWO_SIDED|95.0|-0.57|-0.33|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Not Hispanic||-0.33|-0.57|<0.001
92206685|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.79|||<|0.001|TWO_SIDED|95.0|-1.42|-0.16|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Other or Prefer Not to Say||-0.16|-1.42|<0.001
92206686|NCT05038163|184313080|SUPERIORITY||Treatment Effect|0.01||||0.98|TWO_SIDED|95.0|-0.4|0.41|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Hispanic||0.41|-0.40|0.980
92206687|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.36|||<|0.001|TWO_SIDED|95.0|-0.47|-0.25|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Not Hispanic||-0.25|-0.47|<0.001
92206688|NCT05038163|184313080|SUPERIORITY||Treatment Effect|-0.39|||<|0.001|TWO_SIDED|95.0|-1.03|0.25|||Regression, Linear||Unit: $ per 12-pack|Ethnicity Subgroup: Other or Prefer Not to Say||0.25|-1.03|<0.001
92206689|NCT00604825|184313123|SUPERIORITY||Adjusted Mean Difference|0.75||||0.215|TWO_SIDED|95.0|-0.44|1.93||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. GSK232802 25 mg||1.93|-0.44|0.215
92206690|NCT00604825|184313123|SUPERIORITY||Adjusted Mean Difference|1.21||||0.041|TWO_SIDED|95.0|0.05|2.37||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. GSK232802 75 mg||2.37|0.05|0.041
92206691|NCT00604825|184313123|SUPERIORITY||Adjusted Mean Difference|-2.06|||<|0.001|TWO_SIDED|95.0|-3.2|-0.92||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. Premarin 0.3 mg||-0.92|-3.20|<0.001
92206692|NCT00604825|184313124|SUPERIORITY||Adjusted Mean Difference|0.15||||0.202|TWO_SIDED|95.0|-0.08|0.38||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. GSK232802 25 mg||0.38|-0.08|0.202
92206693|NCT00604825|184313124|SUPERIORITY||Adjusted Mean Difference|0.31||||0.008|TWO_SIDED|95.0|0.08|0.54||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. GSK232802 75 mg||0.54|0.08|0.008
92206694|NCT00604825|184313124|SUPERIORITY||Adjusted Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.75|-0.3||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. Premarin 0.3 mg||-0.30|-0.75|<0.001
92206695|NCT03465904|184313167|SUPERIORITY|Our power analysis indicated that a minimum of 239 patients per group was needed to provide 90% power to detect a 13.4% difference in the primary outcome, pain freedom at 2 h. Accounting for an estimated attrition rate of 20%, we aimed to enroll 299 patients per group.|||||<|0.05||||||All analyses were performed using SPSS, version 26.0 with two-sided levels of statistical significance established at p \< 0.05|Chi-squared|A Chi-square test of independent proportions was used to compare primary and secondary efficacy outcomes between groups.||Identical statistical analyses were performed for the intent-to-treat (ITT) and the per protocol (PP) populations. The ITT population consisted of all randomized patients, who received any duration of sham or verum treatment and returned completed study materials. The PP population consisted of patients who strictly met inclusion criteria and completed at least 60 min of treatment.||||<0.05
92206696|NCT05593445|184313168|SUPERIORITY||Odds Ratio (OR)|0.83||||0.737|TWO_SIDED|95.0|0.29|2.41|||Chi-squared|||||2.41|0.29|0.737
92206697|NCT05593445|184313168|SUPERIORITY||response rate difference|-4.3|STANDARD_ERROR_OF_MEAN|12.73|||TWO_SIDED|95.0|-29.2|20.7|||||The 95% confidence interval for the response rate difference was constructed from approximately normal distribution.|||20.7|-29.2|
92206698|NCT05593445|184313169|SUPERIORITY||least squares mean difference|-2.76|STANDARD_ERROR_OF_MEAN|1.14||0.0188|TWO_SIDED|95.0|-5.05|-0.47|||Mixed Model Repeated Measures (MMRM)|||||-0.47|-5.05|0.0188
92206699|NCT05593445|184313170|SUPERIORITY||least squares mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.72||0.4674|TWO_SIDED|95.0|-1.96|0.91|||MMRM|||||0.91|-1.96|0.4674
92206700|NCT05593445|184313171|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.9072|TWO_SIDED|95.0|0.503|1.869|||Log Rank||Cox regression model was conducted to compare the difference in hazard rate.|||1.869|0.503|0.9072
92206701|NCT00910689|184313241|SUPERIORITY_OR_OTHER||||||<|0.01||||||Post tests consisted of 6 pair wise contrasts: The first 3 contrasts compared each of the 3 additive treatments (Trial Arms 2, 3, 4) to OAT + PL (Trial arm 1); 3 additional contrasts compared the 3 additive treatments to one another.|Mixed Models Analysis|A Bonferoni procedure was used to control the family-wise type I error for the 6 post test contrasts at .05. Adjusted p =.0083.||Omnibus Test: A mixed model with fixed effects for treatment,natural time(defined as natural log of months) and treatment-by-time interaction was used to obtain maximum likelihood estimates of missing values and to evaluate treatment effects(using the PROC MIXED procedure in SAS statistical software,version 9;www.sas.com). A significant treatment by time interaction(p \< .05, 2-tailed) was followed by post-tests (see below). Details of significant post tests are reported as separate analyses.||||< .01
92206702|NCT00910689|184313241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|STANDARD_DEVIATION|0.57|<|0.001||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206703|NCT00910689|184313241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|0.68|>|0.25|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||> .25
92206704|NCT00910689|184313241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.59|>|0.98|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||> .98
92206705|NCT00910689|184313241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|STANDARD_DEVIATION|0.69|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206706|NCT00910689|184313241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_DEVIATION|0.61|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 120.||Post-test contrast. Mean difference in change.||||<.001
92206707|NCT00910689|184313241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|0.72|>|0.29|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>.29
92206708|NCT00910689|184313242|SUPERIORITY_OR_OTHER||||||<|0.03|TWO_SIDED|95.0||||6 pair wise contrasts were conducted: The first 3 contrasts compared each of the 3 additive treatments to OAT + PL. The 3 additional contrasts compared the 3 additive treatments to one another.|Mixed Models Analysis|A Bonferoni procedure was used to control the family wise type I error for the 6 post test contrasts at .05. Adjusted p =.0083.||Omnibus test:A mixed model with fixed effects for treatment, time (defined as the natural log of months), and the treatment-by-time interaction was used to obtain maximum likelihood estimates of missing values and to evaluate treatment effects (PROC MIXED, SAS 9).When the treatment by time interaction was significant (p \< .05, 2-tailed)post-tests were conducted (see below).Details of significant post tests are reported as separate analyses.||||< .03
92327419|NCT01162122|184560161|SUPERIORITY_OR_OTHER||GMT ratio (B strain-overall)|1.09|||||TWO_SIDED|95.0|0.99|1.21||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.21|0.99|
92327420|NCT01162122|184560161|SUPERIORITY_OR_OTHER||GMT ratio (H3N2/Brisbane-high risk)|1.36|||||TWO_SIDED|95.0|1.15|1.61||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.61|1.15|
92327421|NCT01162122|184560161|SUPERIORITY_OR_OTHER||GMT ratio(H3N2/Wisconsin-high risk)|1.28|||||TWO_SIDED|95.0|1.1|1.48||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.48|1.1|
92327422|NCT01162122|184560161|SUPERIORITY_OR_OTHER||GMT ratio (B strain-high risk)|1.13|||||TWO_SIDED|95.0|0.97|1.31||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.31|0.97|
92206709|NCT00910689|184313242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_DEVIATION|1.03|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206710|NCT00910689|184313242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|STANDARD_DEVIATION|1.12|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206711|NCT00910689|184313242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.1|STANDARD_DEVIATION|1.26|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206712|NCT00910689|184313242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|1.2|>|0.02|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||> .02
92206713|NCT00910689|184313242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|1.35|>|0.79||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||>.79
92206714|NCT00910689|184313242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_DEVIATION|1.43|>|0.02||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|||Post-test contrast. Mean difference in change.||||>.02
92327423|NCT01162122|184560162|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 heterologous strains was ≥-10%.|Group difference (H3N2/Brisbane-overall)|11.3|||||TWO_SIDED|95.0|6.7|15.9||||||||15.9|6.7|
92206715|NCT00910689|184313243|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED|95.0||||Post tests consisted of 6 pair wise contrasts: The first 3 contrasts compared each of the 3 additive treatments (Trial Arms 2, 3, 4) to OAT + PL (Trial arm 1); three additional contrasts compared the 3 additive treatments to one another.|Mixed Models Analysis|A Bonferoni procedure controlled the familywise type I error for the 6 contrasts at .05. Adjusted p=.0083.||Omnibus test:A mixed model with fixed effects for treatment, time (defined as the natural log of months), and the treatment-by-time interaction and pretreatment Migraine Specific Quality of Life scores as covariate was used to obtain maximum likelihood estimates of missing values and to evaluate treatment effects (using the PROC MIXED procedure in SAS statistical software, version 9; www. sas.com).A significant treatment by time interaction (p \< .05, 2-tailed) was followed by post-tests||||<.005
92206716|NCT00910689|184313243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|STANDARD_DEVIATION|2.18|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||< .001
92206717|NCT00910689|184313243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.0|STANDARD_DEVIATION|2.41|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206718|NCT00910689|184313243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4|STANDARD_DEVIATION|1.67|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||< .001
92206719|NCT00910689|184313243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.9|STANDARD_DEVIATION|2.03|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 120.||Post-test contrast. Mean difference in change.||||<.001
92206720|NCT00910689|184313243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.5|STANDARD_DEVIATION|1.83|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206721|NCT00910689|184313243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|2.38|>|0.87||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>.87
92206722|NCT00910689|184313244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_DEVIATION|0.77|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||<.001
92206723|NCT00910689|184313244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.79|>|0.83|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||> .83
92206724|NCT00910689|184313244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|0.67|>|0.05|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||> .05
92206725|NCT00910689|184313244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|STANDARD_DEVIATION|0.86|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Significant post-test contrast. Mean difference in change.||||< .001
92206726|NCT00910689|184313244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_DEVIATION|0.95|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 120.||Post-test contrast. Mean difference in change.||||<.001
92327424|NCT01162122|184560162|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 heterologous strains was ≥-10%.|Group difference(H3N2/Wisconsin-overall)|11.9|||||TWO_SIDED|95.0|7.3|16.6||||||||16.6|7.3|
92206727|NCT00910689|184313244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|0.89|>|0.2|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||> .20
92206728|NCT00910689|184313245|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2|STANDARD_DEVIATION|1.7|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||<.001
92206729|NCT00910689|184313245|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6|STANDARD_DEVIATION|1.96|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 120.||Post-test contrast. Mean difference in change.||||<.001
92327425|NCT01162122|184560162|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%.|Slope|4.0|||||TWO_SIDED|95.0|-0.4|8.4||||||||8.4|-0.4|
92206730|NCT00910689|184313245|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_DEVIATION|1.69|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206731|NCT00910689|184313245|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_DEVIATION|1.69|>|0.04||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>.04
92206732|NCT00910689|184313245|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.34|>|0.33||95.0||||Bonerfoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||>0.33
92206733|NCT00910689|184313245|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.68|>|0.21||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>0.21
92206734|NCT00910689|184313246|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.4|STANDARD_DEVIATION|3.0|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206735|NCT00910689|184313246|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.7|STANDARD_DEVIATION|3.29|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206736|NCT00910689|184313246|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.6|STANDARD_DEVIATION|2.99|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
92206737|NCT00910689|184313246|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_DEVIATION|2.85|>|0.56||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>0.56
92206738|NCT00910689|184313246|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_DEVIATION|2.45|>|0.08||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||>0.08
92206739|NCT00910689|184313246|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|STANDARD_DEVIATION|2.83|>|0.03||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>0.03
92206740|NCT00189488|184313257|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference (%)|-17.9||||0.034|TWO_SIDED|95.0|-33.4|-2.4|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|The difference between treatment groups in the percentage of participants with Grade 2 to 4 acute GVHD, adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||-2.4|-33.4|0.034
92206741|NCT00189488|184313258|SUPERIORITY_OR_OTHER||Adjusted Difference (%)|0.5||||0.929|TWO_SIDED|95.0|-11.0|12.1|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|The difference between treatment groups in the percentage of participants with severe GVHD, adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||12.1|-11.0|0.929
92206742|NCT00189488|184313259|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference (%)|-6.5||||0.352|TWO_SIDED|95.0|-19.4|6.4|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|The difference between treatment groups in the percentage of participants with Day 11 Methotrexate GVHD, adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||6.4|-19.4|0.352
92206743|NCT00189488|184313260|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference (%)|-2.6||||0.675|TWO_SIDED|95.0|-14.2|9.0|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|Difference between treatment groups in the percentage of participants with severe oral mucositis, adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|"Participants with Unknown incidence are treated as Yes when constructing the differences, 95% confidence intervals and p-value."||9.0|-14.2|0.675
92206744|NCT00189488|184313261|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.5||||0.953|TWO_SIDED|95.0|-1.5|2.5|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||2.5|-1.5|0.953
92268691|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.9||||||95.0|-0.9|4.9||||||For serotype 4 the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||4.9|-0.9|
92268692|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|-0.9||||||95.0|-4.9|2.1||||||For serotype 4 the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.1|-4.9|
92268693|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.4||||||95.0|-1.8|3.8||||||For serotype 6B the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||3.8|-1.8|
92268694|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|1.4||||||95.0|-1.1|5.9||||||For serotype 6B the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||5.9|-1.1|
92268695|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|-1.1||||||95.0|-5.8|2.7||||||For serotype 6B the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.7|-5.8|
92268696|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-1.7|2.9||||||For serotype 9V the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.9|-1.7|
92268697|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-1.8|3.3||||||For serotype 9V the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||3.3|-1.8|
92206745|NCT00189488|184313262|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference (%)|2.0||||0.797|TWO_SIDED|95.0|-12.5|16.5|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|Difference between treatment groups in the percentage of participants with opioid analgesic use, adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||16.5|-12.5|0.797
92206746|NCT00189488|184313263|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-5.5||||0.186|TWO_SIDED|95.0|-12.7|1.8|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||1.8|-12.7|0.186
92206747|NCT00189488|184313264|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-4.1||||0.219|TWO_SIDED|5.0|-12.2|4.0|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||4.0|-12.2|0.219
92206748|NCT02349425|184313266|SUPERIORITY||Estimated percent change|-41.222||||0.0055|TWO_SIDED|95.0|-59.294|-15.127|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-15.127|-59.294|0.0055
92206749|NCT02349425|184313266|SUPERIORITY||Estimated percent change|-51.973||||0.0008|TWO_SIDED|95.0|-68.23|-27.397|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-27.397|-68.230|0.0008
92206750|NCT02349425|184313266|SUPERIORITY||Estimated percent change|-46.853||||0.0075|TWO_SIDED|95.0|-66.291|-16.206|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-16.206|-66.291|0.0075
92206751|NCT02349425|184313266|SUPERIORITY||Estimated percent change|-57.067||||0.0009|TWO_SIDED|95.0|-73.375|-30.771|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-30.771|-73.375|0.0009
92206752|NCT02349425|184313267|SUPERIORITY||Estimated percent change|-14.691||||0.2542|TWO_SIDED|95.0|-35.307|12.493|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||12.493|-35.307|0.2542
92206753|NCT02349425|184313267|SUPERIORITY||Estimated percent change|-25.165||||0.0267|TWO_SIDED|95.0|-42.014|-3.421|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-3.4210|-42.014|0.0267
92206754|NCT02349425|184313267|SUPERIORITY||Estimated percent change|-37.146||||0.0198|TWO_SIDED|95.0|-57.345|-7.3821|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-7.3821|-57.345|0.0198
92206755|NCT02349425|184313267|SUPERIORITY||Estimated percent change|-55.92||||0.0006|TWO_SIDED|95.0|-71.923|-30.797|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-30.797|-71.923|0.0006
92206756|NCT02349425|184313272|SUPERIORITY||Mean Difference (Final Values)|-19.0||||0.003|TWO_SIDED|95.0|-31.2|-6.8|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-6.8|-31.2|0.003
92206757|NCT02349425|184313272|SUPERIORITY||Mean Difference (Final Values)|-24.4|||<|0.001|TWO_SIDED|95.0|-36.7|-12.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-12.1|-36.7|<0.001
92206758|NCT02349425|184313272|SUPERIORITY||Mean Difference (Final Values)|-29.3||||0.005|TWO_SIDED|95.0|-49.0|-9.5|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model.||||-9.5|-49.0|0.005
92206759|NCT02349425|184313272|SUPERIORITY||Mean Difference (Final Values)|-29.6|||<|0.001|TWO_SIDED|95.0|-44.6|-14.7|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-14.7|-44.6|<0.001
92206760|NCT02349425|184313273|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.332|TWO_SIDED|95.0|-21.0|7.2|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||7.2|-21.0|0.332
92206761|NCT02349425|184313273|SUPERIORITY||Mean Difference (Final Values)|-13.5||||0.008|TWO_SIDED|95.0|-23.3|-3.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-3.6|-23.3|0.008
92206762|NCT02349425|184313273|SUPERIORITY||Mean Difference (Final Values)|-30.2|||<|0.001|TWO_SIDED|95.0|-44.7|-15.7|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-15.7|-44.7|<0.001
92206763|NCT02349425|184313273|SUPERIORITY||Mean Difference (Final Values)|-26.7||||0.001|TWO_SIDED|95.0|-42.3|-11.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-11.0|-42.3|0.001
92206764|NCT02349425|184313274|SUPERIORITY||Mean Difference (Final Values)|-15.2|||<|0.001|TWO_SIDED|95.0|-23.5|-6.8|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-6.8|-23.5|<0.001
92206765|NCT02349425|184313274|SUPERIORITY||Mean Difference (Final Values)|-16.7|||<|0.001|TWO_SIDED|95.0|-26.1|-7.4|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-7.4|-26.1|<0.001
92206766|NCT02349425|184313274|SUPERIORITY||Mean Difference (Final Values)|-19.5||||0.002|TWO_SIDED|95.0|-31.1|-7.8|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-7.8|-31.1|0.002
92206767|NCT02349425|184313274|SUPERIORITY||Mean Difference (Final Values)|-20.5|||<|0.001|TWO_SIDED|95.0|-31.8|-9.3|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-9.3|-31.8|<0.001
92206768|NCT02349425|184313275|SUPERIORITY||Mean Difference (Final Values)|-4.1||||0.315|TWO_SIDED|95.0|-12.3|4.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||4.0|-12.3|0.315
92206769|NCT02349425|184313275|SUPERIORITY||Mean Difference (Final Values)|-7.2||||0.03|TWO_SIDED|95.0|-13.7|-0.7|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.7|-13.7|0.030
92206770|NCT02349425|184313275|SUPERIORITY||Mean Difference (Final Values)|-18.2|||<|0.001|TWO_SIDED|95.0|-27.4|-9.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-9.1|-27.4|<0.001
92206771|NCT02349425|184313275|SUPERIORITY||Mean Difference (Final Values)|-17.6|||<|0.001|TWO_SIDED|95.0|-26.3|-9.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-9.0|-26.3|<0.001
92206772|NCT02349425|184313276|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.169|TWO_SIDED|95.0|-8.6|1.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||1.6|-8.6|0.169
92206773|NCT02349425|184313276|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.341|TWO_SIDED|95.0|-7.5|2.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||2.6|-7.5|0.341
92206774|NCT02349425|184313276|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.311|TWO_SIDED|95.0|-5.8|1.9|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||1.9|-5.8|0.311
92206775|NCT02349425|184313276|SUPERIORITY||Mean Difference (Final Values)|-3.7||||0.128|TWO_SIDED|95.0|-8.6|1.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||1.1|-8.6|0.128
92206776|NCT02349425|184313277|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.613|TWO_SIDED|95.0|-3.5|5.9|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||5.9|-3.5|0.613
92206777|NCT02349425|184313277|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.743|TWO_SIDED|95.0|-4.3|3.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||3.1|-4.3|.743
92206778|NCT02349425|184313277|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.589|TWO_SIDED|95.0|-4.1|2.3|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||2.3|-4.1|0.589
92327426|NCT01162122|184560162|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 heterologous strains was ≥-10%.|Group difference(H3N2/Brisbane-high risk|12.3|||||TWO_SIDED|95.0|4.8|19.9||||||||19.9|4.8|
92327427|NCT01162122|184560162|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%.|Group difference(H3N2Wisconsin-high risk|12.6|||||TWO_SIDED|95.0|5.0|20.2||||||||20.2|5.0|
92327428|NCT01162122|184560162|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 heterologous strains was ≥-10%.|Group difference (B strain-high risk)|4.8|||||TWO_SIDED|95.0|-2.1|11.8||||||||11.8|-2.1|
92206779|NCT02349425|184313277|SUPERIORITY||Mean Difference (Final Values)|-5.1||||0.205|TWO_SIDED|95.0|-13.2|2.9|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||2.9|-13.2|0.205
92206780|NCT02349425|184313278|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.0811|TWO_SIDED|95.0|-1.4|0.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||0.1|-1.4|0.0811
92206781|NCT02349425|184313278|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.0097|TWO_SIDED|95.0|-2.2|-0.3|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.3|-2.2|0.0097
92206782|NCT02349425|184313278|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.0025|TWO_SIDED|95.0|-2.6|-0.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.6|-2.6|0.0025
92206783|NCT02349425|184313278|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.005|TWO_SIDED|95.0|-2.8|-0.5|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.5|-2.8|0.0050
92206784|NCT02349425|184313279|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.0506|TWO_SIDED|95.0|-1.4|0.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||0.0|-1.4|0.0506
92206785|NCT02349425|184313279|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.0447|TWO_SIDED|95.0|-1.7|0.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.0|-1.7|0.0447
92206786|NCT02349425|184313279|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.0026|TWO_SIDED|95.0|-2.2|-0.5|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.5|-2.2|0.0026
92206787|NCT02349425|184313279|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.0405|TWO_SIDED|95.0|-2.2|0.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.0|-2.2|0.0405
92206788|NCT02349425|184313280|SUPERIORITY||Mean Difference (Final Values)|3.84|||<|0.001|TWO_SIDED|95.0|1.88|5.8|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||5.80|1.88|<0.001
92206789|NCT02349425|184313280|SUPERIORITY||Mean Difference (Final Values)|3.52|||<|0.001|TWO_SIDED|95.0|1.66|5.38|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||5.38|1.66|<0.001
92206790|NCT02349425|184313281|SUPERIORITY||Mean Difference (Final Values)|-10.6||||0.096|TWO_SIDED|95.0|-23.2|1.9|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||1.9|-23.2|0.096
92206791|NCT02349425|184313281|SUPERIORITY||Mean Difference (Final Values)|-20.0||||0.005|TWO_SIDED|95.0|-33.6|-6.3|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-6.3|-33.6|0.005
92206792|NCT02349425|184313281|SUPERIORITY||Mean Difference (Final Values)|-26.1|||<|0.001|TWO_SIDED|95.0|-40.7|-11.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-11.6|-40.7|<0.001
92206793|NCT02349425|184313281|SUPERIORITY||Mean Difference (Final Values)|-33.8|||<|0.001|TWO_SIDED|95.0|-48.4|-19.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-19.1|-48.4|<0.001
92206794|NCT02349425|184313282|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.311|TWO_SIDED|95.0|-19.1|6.2|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||6.2|-19.1|0.311
92206795|NCT02349425|184313282|SUPERIORITY||Mean Difference (Final Values)|-7.4||||0.232|TWO_SIDED|95.0|-19.7|4.9|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||4.9|-19.7|0.232
92206796|NCT02349425|184313282|SUPERIORITY||Mean Difference (Final Values)|-15.6||||0.012|TWO_SIDED|95.0|-27.6|-3.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-3.6|-27.6|0.012
92206797|NCT02349425|184313282|SUPERIORITY||Mean Difference (Final Values)|-15.4||||0.043|TWO_SIDED|95.0|-30.4|-0.5|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.5|-30.4|0.043
92206798|NCT00645801|184313302|SUPERIORITY|||||||0.05||||||A 2-sided 2 sample t test was used to compare the overall cleanliness score between the 2 treatment groups.|t-test, 2 sided|||Based on the assumption that 70% of patients using PEG plus placebo (group 2) will have good results, by allocating 100 cases in each group, we will have 84% power to detect a difference of 18% or more in the effectiveness of PEG plus lubiprostone combination (group 1) (eg, 70% in group 2 vs. 88% in group 1) at the alpha level of significancelevel of significance.||||0.05
92206799|NCT00645801|184313303|SUPERIORITY||||||<|0.05|||||||2 sided Cochran-Armitage trend test|||||||<0.05
92206800|NCT00645801|184313304|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
92206801|NCT00759915|184313305|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|109.98||||||90.0|100.1|120.8|||ANOVA|log-transformation||||120.8|100.1|
92206802|NCT00759915|184313307|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|100.91||||||90.0|96.96|105.0|||ANOVA|log-transformation||||105.0|96.96|
92206803|NCT00759915|184313308|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|96.5||||||90.0|92.3|100.97|||ANOVA|log-transformation||||100.97|92.3|
92206804|NCT00932113|184313317|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
92206805|NCT01190514|184313324|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for AUC48 fell wholly within (80%, 125%).|ratio (%) of adjusted geometric means|95.56|||||TWO_SIDED|90.0|86.94|105.04|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"DVS SR 25 mg\*2 fasted (test); DVS SR 50 mg fasted (reference).~Natural log transformed AUC48: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||105.04|86.94|
92206806|NCT01190514|184313324|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for AUC48 fell wholly within (80%, 125%).|ratio (%) of adjusted geometric means|101.31|||||TWO_SIDED|90.0|97.17|105.64|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"DVS SR 25 mg\*2 fed (test); DVS SR 50 mg fed (reference).~Natural log transformed AUC48: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||105.64|97.17|
92206807|NCT01190514|184313324|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for AUC48 fell wholly within (80%, 125%).|ratio (%) of adjusted geometric means|108.76|||||TWO_SIDED|90.0|101.1|117.01|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Food effect DVS SR 50 mg fed (test) versus DVS SR 50 mg fasted (reference).~Natural log transformed AUC48: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||117.01|101.10|
92206808|NCT01190514|184313326|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for Cmax fell wholly within (80%, 125%).|Ratio (%) of adjusted geometric means|95.1|||||TWO_SIDED|90.0|89.37|101.2|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"DVS SR 25 mg\*2 fasted (test); DVS SR 50 mg fasted (reference).~Natural log transformed Cmax: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||101.20|89.37|
92206809|NCT01190514|184313326|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for Cmax fell wholly within (80%, 125%).|Ratio (%) of adjusted geometric means|101.3|||||TWO_SIDED|90.0|94.66|108.4|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"DVS SR 25 mg\*2 fed (test); DVS SR 50 mg fed (reference).~Natural log transformed Cmax: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||108.40|94.66|
92206810|NCT01190514|184313326|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for Cmax fell wholly within (80%, 125%).|ratio (%) of adjusted geometric means|115.54|||||TWO_SIDED|90.0|108.59|122.94|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Food effect DVS SR 50 mg fed (test) versus DVS SR 50 mg fasted (reference).~Natural log transformed Cmax: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||122.94|108.59|
92206811|NCT01143038|184313335|SUPERIORITY_OR_OTHER_LEGACY||Mean|9.2|||||TWO_SIDED|95.0|8.3|10.1|||||Based on the t-distribution|||10.1|8.3|
92206812|NCT01143038|184313335|SUPERIORITY_OR_OTHER_LEGACY||Bootstrap mean|9.1|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|8.3|10.0|||||Estimates are based on bootstrap method with 1000 samples with replacement.|Bootstrap analysis||10.0|8.3|
92206813|NCT00706433|184313352|SUPERIORITY_OR_OTHER|||||||0.768||95.0|||||ANCOVA|Rank ANCOVA with baseline total inflammatory lesion counts serving as the covariate.||Null hypothesis: equal median changes from baseline in total inflammatory lesion counts among the treatments||||0.7680
92206814|NCT00706433|184313353|SUPERIORITY_OR_OTHER|||||||0.7975||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Null hypothesis: equal success rates.||||0.7975
92206815|NCT00706433|184313354|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||ANOVA|Rank transformed data.||Null hypothesis: equal median percent changes from baseline in total inflammatory lesion counts among the treatments||||>0.10
92206816|NCT00706433|184313355|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||ANOVA|Rank transformed data.||Null hypothesis: equal median percent changes from baseline in total inflammatory lesion counts among the treatments||||>0.10
92206817|NCT00706433|184313357|SUPERIORITY_OR_OTHER|||||||0.1103||95.0|||||ANCOVA|Rank ANCOVA with baseline total inflammatory lesion counts serving as the covariate.||Null hypothesis: equal median changes from baseline in total inflammatory lesion counts among the treatments||||0.1103
92327429|NCT01162122|184560163|SUPERIORITY_OR_OTHER||Group difference (H3N2/Brisbane-overall)|12.5|||||TWO_SIDED|95.0|8.1|16.9||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||16.9|8.1|
92206818|NCT00706433|184313358|SUPERIORITY_OR_OTHER|||||||0.7228||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Null hypothesis: equal success rates.||||0.7228
92206819|NCT00706433|184313359|SUPERIORITY_OR_OTHER|||||||0.3416||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates||||0.3416
92206820|NCT00706433|184313360|SUPERIORITY_OR_OTHER|||||||0.5759||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5759
92206821|NCT00706433|184313361|SUPERIORITY_OR_OTHER|||||||0.4754||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4754
92206822|NCT00706433|184313362|SUPERIORITY_OR_OTHER|||||||0.4096||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4096
92206823|NCT00706433|184313363|SUPERIORITY_OR_OTHER|||||||0.5812||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5812
92206824|NCT00706433|184313364|SUPERIORITY_OR_OTHER|||||||0.8679||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.8679
92206825|NCT00706433|184313365|SUPERIORITY_OR_OTHER|||||||0.3666||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3666
92206826|NCT00706433|184313366|SUPERIORITY_OR_OTHER|||||||0.308||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3080
92327430|NCT01162122|184560163|SUPERIORITY_OR_OTHER||Group difference(H3N2/Wisconsin-overall)|12.6|||||TWO_SIDED|95.0|8.1|17.1||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||17.1|8.1|
92327431|NCT01162122|184560163|SUPERIORITY_OR_OTHER||Group difference (B strain-overall)|4.6|||||TWO_SIDED|95.0|0.4|8.8||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||8.8|0.4|
92327432|NCT01162122|184560163|SUPERIORITY_OR_OTHER||Group difference(H3N2/Brisbane-high risk|12.4|||||TWO_SIDED|95.0|5.2|19.6||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||19.6|5.2|
92206827|NCT00706433|184313367|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206828|NCT00706433|184313368|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206829|NCT00706433|184313369|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206830|NCT00706433|184313370|SUPERIORITY_OR_OTHER|||||||0.3916||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3916
92206831|NCT00706433|184313371|SUPERIORITY_OR_OTHER|||||||0.8387||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.8387
92206832|NCT00706433|184313372|SUPERIORITY_OR_OTHER|||||||0.1489||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1489
92206833|NCT00706433|184313373|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||<0.0001
92206834|NCT00706433|184313373|SUPERIORITY_OR_OTHER|||||||0.4143||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4143
92206835|NCT00706433|184313373|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0005
92206836|NCT00706433|184313373|SUPERIORITY_OR_OTHER|||||||0.0003||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0003
92206837|NCT00706433|184313373|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||<0.0001
92206838|NCT00706433|184313373|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||<0.0001
92206839|NCT00706433|184313373|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.9700
92206840|NCT00706433|184313374|SUPERIORITY_OR_OTHER|||||||0.2544||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2544
92206841|NCT00706433|184313375|SUPERIORITY_OR_OTHER|||||||0.4321||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4321
92206842|NCT00706433|184313376|SUPERIORITY_OR_OTHER|||||||0.0317||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0317
92206843|NCT00706433|184313376|SUPERIORITY_OR_OTHER|||||||0.5818||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5818
92206844|NCT00706433|184313376|SUPERIORITY_OR_OTHER|||||||0.0395||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0395
92206845|NCT00706433|184313376|SUPERIORITY_OR_OTHER|||||||0.7426||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.7426
92206846|NCT00706433|184313376|SUPERIORITY_OR_OTHER|||||||0.0029||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0029
92206847|NCT00706433|184313376|SUPERIORITY_OR_OTHER|||||||0.2142||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2142
92206848|NCT00706433|184313376|SUPERIORITY_OR_OTHER|||||||0.0781||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0781
92206849|NCT00706433|184313377|SUPERIORITY_OR_OTHER|||||||0.9886||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.9886
92206850|NCT00706433|184313378|SUPERIORITY_OR_OTHER|||||||0.6907||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.6907
92206851|NCT00706433|184313379|SUPERIORITY_OR_OTHER|||||||0.0047||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0047
92206852|NCT00706433|184313379|SUPERIORITY_OR_OTHER|||||||0.6116||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.6116
92206853|NCT00706433|184313379|SUPERIORITY_OR_OTHER|||||||0.0209||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0209
92327433|NCT01162122|184560163|SUPERIORITY_OR_OTHER||Group difference(H3N2/Wisconsin-highrisk|13.0|||||TWO_SIDED|95.0|5.8|20.3||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||20.3|5.8|
92206854|NCT00706433|184313379|SUPERIORITY_OR_OTHER|||||||0.0513||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0513
92206855|NCT00706433|184313379|SUPERIORITY_OR_OTHER|||||||0.0019||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0019
92206856|NCT00706433|184313379|SUPERIORITY_OR_OTHER|||||||0.0089||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0089
92206857|NCT00706433|184313379|SUPERIORITY_OR_OTHER|||||||0.526||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5260
92206858|NCT00706433|184313380|SUPERIORITY_OR_OTHER|||||||0.782||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.7820
92206859|NCT00706433|184313381|SUPERIORITY_OR_OTHER|||||||0.4965||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4965
92206860|NCT00706433|184313382|SUPERIORITY_OR_OTHER|||||||0.0728||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0728
92206861|NCT00706433|184313383|SUPERIORITY_OR_OTHER|||||||0.548||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5480
92206862|NCT00706433|184313384|SUPERIORITY_OR_OTHER|||||||0.0301||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0301
92206863|NCT00706433|184313384|SUPERIORITY_OR_OTHER|||||||0.0564||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0564
92206864|NCT00706433|184313384|SUPERIORITY_OR_OTHER|||||||0.447||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4470
92206865|NCT00706433|184313384|SUPERIORITY_OR_OTHER|||||||0.2804||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2804
92206866|NCT00706433|184313384|SUPERIORITY_OR_OTHER|||||||0.1835||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1835
92206867|NCT00706433|184313384|SUPERIORITY_OR_OTHER|||||||0.0103||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0103
92206868|NCT00706433|184313384|SUPERIORITY_OR_OTHER|||||||0.1319||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1319
92206869|NCT00706433|184313385|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206870|NCT00706433|184313386|SUPERIORITY_OR_OTHER|||||||0.4378||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4378
92206871|NCT00706433|184313387|SUPERIORITY_OR_OTHER|||||||0.343||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3430
92206872|NCT00706433|184313388|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206873|NCT00706433|184313389|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206874|NCT00706433|184313390|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206875|NCT00706433|184313391|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206876|NCT00706433|184313392|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206877|NCT00706433|184313393|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206878|NCT00706433|184313394|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206879|NCT00706433|184313395|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206880|NCT00706433|184313396|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206881|NCT00706433|184313397|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206882|NCT00706433|184313398|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206883|NCT00706433|184313399|SUPERIORITY_OR_OTHER|||||||0.0165||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0165
92206884|NCT00706433|184313399|SUPERIORITY_OR_OTHER|||||||0.2252||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2252
92206885|NCT00706433|184313399|SUPERIORITY_OR_OTHER|||||||0.0179||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0179
92206886|NCT00706433|184313399|SUPERIORITY_OR_OTHER|||||||0.0233||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0233
92206887|NCT00706433|184313399|SUPERIORITY_OR_OTHER|||||||0.1573||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1573
92206888|NCT00706433|184313399|SUPERIORITY_OR_OTHER|||||||0.2039||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2039
92206889|NCT00706433|184313399|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206890|NCT00706433|184313400|SUPERIORITY_OR_OTHER|||||||0.1594||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1594
92206891|NCT00706433|184313401|SUPERIORITY_OR_OTHER|||||||0.5838||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5838
92206892|NCT00706433|184313402|SUPERIORITY_OR_OTHER|||||||0.0064||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0064
92206893|NCT00706433|184313402|SUPERIORITY_OR_OTHER|||||||0.0939||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0939
92206894|NCT00706433|184313402|SUPERIORITY_OR_OTHER|||||||0.3173||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3173
92206895|NCT00706433|184313402|SUPERIORITY_OR_OTHER|||||||0.2207||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2207
92206896|NCT00706433|184313402|SUPERIORITY_OR_OTHER|||||||0.0183||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0183
92206897|NCT00706433|184313402|SUPERIORITY_OR_OTHER|||||||0.0254||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0254
92206898|NCT00706433|184313402|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206899|NCT00706433|184313403|SUPERIORITY_OR_OTHER|||||||0.4753||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4753
92206900|NCT00706433|184313404|SUPERIORITY_OR_OTHER|||||||0.1728||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1728
92206901|NCT00706433|184313405|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0002
92206902|NCT00706433|184313405|SUPERIORITY_OR_OTHER|||||||0.5313||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5313
92206903|NCT00706433|184313405|SUPERIORITY_OR_OTHER|||||||0.0045||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0045
92206904|NCT00706433|184313405|SUPERIORITY_OR_OTHER|||||||0.0045||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0045
92206905|NCT00706433|184313405|SUPERIORITY_OR_OTHER|||||||0.0012||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0012
92206906|NCT00706433|184313405|SUPERIORITY_OR_OTHER|||||||0.0015||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0015
92206907|NCT00706433|184313405|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206908|NCT00706433|184313406|SUPERIORITY_OR_OTHER|||||||0.0892||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0892
92206909|NCT00706433|184313407|SUPERIORITY_OR_OTHER|||||||0.4575||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4575
92206910|NCT00706433|184313408|SUPERIORITY_OR_OTHER|||||||0.8848||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.8848
92327434|NCT01162122|184560163|SUPERIORITY_OR_OTHER||Group difference (B strain-high risk)|5.1|||||TWO_SIDED|95.0|-1.6|11.8||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||11.8|-1.6|
92327435|NCT05127304|184560173|OTHER|||||||0.639|||||||Weighted clustered linear regression|||Ambulatory visits||||0.639
92206911|NCT00706433|184313409|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0008
92206912|NCT00706433|184313409|SUPERIORITY_OR_OTHER|||||||0.4091||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4091
92206913|NCT00706433|184313409|SUPERIORITY_OR_OTHER|||||||0.0176||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0176
92206914|NCT00706433|184313409|SUPERIORITY_OR_OTHER|||||||0.0245||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0245
92206915|NCT00706433|184313409|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0020
92206916|NCT00706433|184313409|SUPERIORITY_OR_OTHER|||||||0.0022||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0022
92206917|NCT00706433|184313409|SUPERIORITY_OR_OTHER|||||||0.9372||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.9372
92206918|NCT00706433|184313410|SUPERIORITY_OR_OTHER|||||||0.239||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2390
92206919|NCT00706433|184313411|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206920|NCT00706433|184313412|SUPERIORITY_OR_OTHER|||||||0.0463||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0463
92206921|NCT00706433|184313412|SUPERIORITY_OR_OTHER|||||||0.1261||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1261
92206922|NCT00706433|184313412|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206923|NCT00706433|184313412|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206924|NCT00706433|184313412|SUPERIORITY_OR_OTHER|||||||0.0947||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0947
92206925|NCT00706433|184313412|SUPERIORITY_OR_OTHER|||||||0.0886||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0886
92206926|NCT00706433|184313412|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206927|NCT00706433|184313413|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||<0.0001
92206928|NCT00706433|184313413|SUPERIORITY_OR_OTHER|||||||0.0255||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0255
92206929|NCT00706433|184313413|SUPERIORITY_OR_OTHER|||||||0.0576||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0576
92206930|NCT00706433|184313413|SUPERIORITY_OR_OTHER|||||||0.0686||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0686
92206931|NCT00706433|184313413|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0004
92206932|NCT00706433|184313413|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0005
92206933|NCT00706433|184313413|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92327436|NCT05127304|184560173|OTHER|||||||0.535|||||||Weighted clustered linear regression|||Office visits||||0.535
92327437|NCT05127304|184560173|OTHER|||||||0.337|||||||Weighted clustered linear regression|||Outpatient visits||||0.337
92327438|NCT05127304|184560173|OTHER|||||||0.058|||||||Weighted clustered linear regression|||Emergency room visits||||0.058
92206934|NCT00706433|184313414|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0006
92206935|NCT00706433|184313414|SUPERIORITY_OR_OTHER|||||||0.0245||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0245
92206936|NCT00706433|184313414|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206937|NCT00706433|184313414|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206938|NCT00706433|184313414|SUPERIORITY_OR_OTHER|||||||0.0097||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0097
92206939|NCT00706433|184313414|SUPERIORITY_OR_OTHER|||||||0.0146||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0146
92206940|NCT00706433|184313414|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206941|NCT00706433|184313415|SUPERIORITY_OR_OTHER|||||||0.4235||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4235
92206942|NCT00706433|184313416|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206943|NCT00706433|184313417|SUPERIORITY_OR_OTHER|||||||0.0865||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0865
92206944|NCT00706433|184313418|SUPERIORITY_OR_OTHER|||||||0.623||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.6230
92206945|NCT00706433|184313419|SUPERIORITY_OR_OTHER|||||||0.0963||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0963
92206946|NCT00706433|184313420|SUPERIORITY_OR_OTHER|||||||0.4814||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4814
92206947|NCT00706433|184313421|SUPERIORITY_OR_OTHER|||||||0.7153||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.7153
92206948|NCT00706433|184313422|SUPERIORITY_OR_OTHER|||||||0.3832||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3832
92206949|NCT00706433|184313423|SUPERIORITY_OR_OTHER|||||||0.2908||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2908
92206950|NCT00706433|184313424|SUPERIORITY_OR_OTHER|||||||0.8096||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.8096
92206951|NCT00706433|184313425|SUPERIORITY_OR_OTHER|||||||0.308||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3080
92206952|NCT00706433|184313426|SUPERIORITY_OR_OTHER|||||||0.3208||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3208
92206953|NCT00706433|184313427|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206954|NCT00706433|184313428|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
92206955|NCT04101318|184313431|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.625|TWO_SIDED|95.0|-0.38|0.62||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.62|-0.38|0.625
92206956|NCT04101318|184313432|SUPERIORITY||Odds Ratio (OR)|1.737||||0.036|TWO_SIDED|95.0|1.038|2.908||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Proportional odds ratio model|Ordinal regression model for itching evaluated on a 5 point scale. Product and period are fixed effects and subject is a random effect.|Odds ratio, marginal= Arm1/Arm2|Null hypothesis: There is no difference between the two arms.||2.908|1.038|0.036
92327439|NCT05127304|184560173|OTHER|||||||0.192|||||||Weighted clustered linear regression|||Inpatient visits||||0.192
92327440|NCT05127304|184560173|OTHER|||||||0.176|||||||Weighted clustered linear regression|||Other medical visits||||0.176
92206957|NCT04101318|184313433|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.202|TWO_SIDED|95.0|-0.9|0.2||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|The mode had following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.20|-0.90|0.202
92206958|NCT04101318|184313434|SUPERIORITY||Odds Ratio (OR)|1.369||||0.267|TWO_SIDED|95.0|0.781|2.401||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Proportional odds ratio model|Ordinal regression model for pain evaluated on a 5 point scale. Product and period are fixed effects and subject is a random effect.|Odds ratio, marginal= Arm1/Arm2|Null hypothesis: There is no difference between the two arms.||2.401|0.781|0.267
92206959|NCT04101318|184313435|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.545|TWO_SIDED|95.0|-0.57|0.3||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.30|-0.57|0.545
92206960|NCT04101318|184313436|SUPERIORITY||Odds Ratio (OR)|1.316||||0.293|TWO_SIDED|95.0|0.783|2.211||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Proportional odds ratio model|Ordinal regression model for burning evaluated on a 5 point scale. Product and period are fixed effects and subject is a random effect.|Odds ratio, marginal= Arm1/Arm2|Null hypothesis: There is no difference between the two arms.||2.211|0.783|0.293
92206961|NCT04101318|184313437|SUPERIORITY||Odds Ratio (OR)|0.82||||0.375|TWO_SIDED|95.0|0.53|1.27||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|generalized linear mixed repeated model with fixed effects|Odds ratio, marginal= Arm1/Arm2|There is no difference between the two arms.||1.27|0.53|0.375
92327441|NCT05127304|184560174|OTHER|||||||0.313|||||||Weighted clustered linear regression|||||||0.313
92327442|NCT05127304|184560175|OTHER|||||||0.021|||||||Weighted clustered linear regression|||||||0.021
92327443|NCT05127304|184560176|OTHER|||||||0.022|||||||Weighted clustered linear regression|||Ambulatory visits||||0.022
92327444|NCT05127304|184560176|OTHER|||||||0.124|||||||Weighted clustered linear regression|||Office visits||||0.124
92327445|NCT05127304|184560176|OTHER|||||||0.043|||||||Weighted clustered linear regression|||Outpatient visits||||0.043
92327446|NCT05127304|184560176|OTHER|||||||0.99|||||||Weighted clustered linear regression|||Emergency room visits||||0.990
92327447|NCT05127304|184560176|OTHER|||||||0.039|||||||Weighted clustered linear regression|||Inpatient visits||||0.039
92327448|NCT05127304|184560176|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Other medical visits||||<0.001
92206962|NCT04101318|184313438|SUPERIORITY||Odds Ratio (OR)|0.83||||0.482|TWO_SIDED|95.0|0.49|1.4||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|generalized linear mixed repeated model with fixed effects|Odds ratio, marginal= Arm1/Arm2|Null hypothesis: There is no difference between the two arms.||1.40|0.49|0.482
92206963|NCT04101318|184313439|SUPERIORITY||Odds Ratio (OR)|0.7||||0.151|TWO_SIDED|95.0|0.43|1.14||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|generalized linear mixed repeated model with fixed effects||Null hypothesis: There is no difference between the two arms.|Odds ratio, marginal= Arm1/Arm2|1.14|0.43|0.151
92206964|NCT04101318|184313440|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.725|TWO_SIDED|95.0|-0.39|0.56||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.56|-0.39|0.725
92206965|NCT04101318|184313441|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.721|TWO_SIDED|95.0|-0.39|0.56||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.56|-0.39|0.721
92206966|NCT04101318|184313442|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.753|TWO_SIDED|95.0|-0.38|0.28||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.28|-0.38|0.753
92206967|NCT04101318|184313443|SUPERIORITY||Mean Difference (Final Values)|1.37||||0.331|TWO_SIDED|95.0|-1.43|4.18||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||4.18|-1.43|0.331
92206968|NCT04101318|184313444|SUPERIORITY||Mean Difference (Final Values)|11.68||||0.239|TWO_SIDED|95.0|-7.98|31.34||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||31.34|-7.98|0.239
92206969|NCT04101318|184313445|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.322|TWO_SIDED|95.0|-0.91|0.31||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject was a random effect.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.31|-0.91|0.322
92206970|NCT04101318|184313446|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.343|TWO_SIDED|95.0|-0.44|0.15||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject was a random effect.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.15|-0.44|0.343
92206971|NCT04101318|184313447|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.387|TWO_SIDED|95.0|-0.53|0.21||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject was a random effect.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.21|-0.53|0.387
92206972|NCT04101318|184313448|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.899|TWO_SIDED|95.0|-0.18|0.16||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject was a random effect.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.16|-0.18|0.899
92206973|NCT00717067|184313449|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|129.17||||||90.0|92.16|181.04|||ANOVA|||Ratio (%) test (mild) / reference (normal). AUClast was calculated using the log-linear trapezoidal method.||181.04|92.16|
92206974|NCT00717067|184313449|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|88.31||||||90.0|61.97|125.83|||ANOVA|||Ratio (%) test (moderate) / reference (normal). AUClast was calculated using the log-linear trapezoidal method.||125.83|61.97|
92206975|NCT00717067|184313449|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|322.23||||||90.0|171.97|603.78|||ANOVA|||Ratio (%) test (severe) / reference (normal). AUClast was calculated using the log-linear trapezoidal method.||603.78|171.97|
92206976|NCT00717067|184313450|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|151.99||||||90.0|109.53|210.92|||ANOVA|||Ratio (%) test (mild) / reference (normal).||210.92|109.53|
92327449|NCT05127304|184560177|OTHER|||||||0.163|||||||Weighted clustered linear regression|||||||0.163
92206977|NCT00717067|184313450|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|115.95||||||90.0|82.23|163.5|||ANOVA|||Ratio (%) test (moderate) / reference (normal).||163.50|82.23|
92206978|NCT00717067|184313451|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|121.01||||||90.0|83.15|176.13|||ANOVA|||Ratio (%) test (mild) / reference (normal).||176.13|83.15|
92206979|NCT00717067|184313451|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|70.9||||||90.0|47.83|105.1|||ANOVA|||Ratio (%) test (moderate) / reference (normal).||105.10|47.83|
92206980|NCT00717067|184313451|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|238.73||||||90.0|106.83|533.48|||ANOVA|||Ratio (%) test (severe) / reference (normal).||533.48|106.83|
92206981|NCT00717067|184313453|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|323.91||||||90.0|174.32|601.88|||ANOVA|||Ratio (%) test (severe) / reference (normal).||601.88|174.32|
92327450|NCT05127304|184560178|OTHER|||||||0.037|||||||Weighted clustered linear regression|||||||0.037
92206982|NCT00522873|184313481|SUPERIORITY_OR_OTHER||proportion|0.0|||||TWO_SIDED|95.0|0.0|0.0119|||||The number of women who had a biopsy classified as 'hyperplasia or worse' was divided by the number of women with an evaluable biopsy (i.e. classified as 'normal' after 1 year of treatment or as 'hyperplasia or worse' at any time during the study).|Exact 95% confidence interval for proportion of participants with hyperplasia or worse at EoS||0.0119|0.0000|
92206983|NCT00522873|184313482|SUPERIORITY_OR_OTHER||proportion|0.687|||||TWO_SIDED|95.0|0.637|0.734||||||exact 95% confidence intervall (Clopper-Pearson) for proportion of participants with amenorrhea||0.734|0.637|
92206984|NCT00522873|184313482|SUPERIORITY_OR_OTHER||proportion|0.593|||||TWO_SIDED|95.0|0.496|0.684||||||exact 95% confidence intervall (Clopper-Pearson) for proportion of participants with amenorrhea||0.684|0.496|
92206985|NCT00522873|184313483|SUPERIORITY_OR_OTHER||proportion|0.789|||||TWO_SIDED|95.0|0.743|0.83||||||exact 95% confidence intervall (Clopper-Pearson) for proportion of participants with amenorrhea||0.830|0.743|
92206986|NCT00522873|184313483|SUPERIORITY_OR_OTHER||proportion|0.84|||||TWO_SIDED|95.0|0.756|0.904||||||exact 95% confidence intervall (Clopper-Pearson) for proportion of participants with amenorrhea||0.904|0.756|
92206987|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.296||95.0|||||ANOVA|||Region of Interest is left anterior insula.||||0.2960
92206988|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.345||95.0|||||ANOVA|||Region of interest is left anterior insula.||||0.3450
92206989|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.1192||95.0|||||ANOVA|||Region of interest is left anterior putamen.||||0.1192
92206990|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.6639||95.0|||||ANOVA|||Region of interest is left anterior putamen.||||0.6639
92206991|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.8295||95.0|||||ANOVA|||Region of interest is left dorsal anterior cingulate cortex.||||0.8295
92206992|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.0078||95.0|||||ANOVA|||Region of interest is left dorsal anterior cingulate cortex.||||0.0078
92206993|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.7153||95.0|||||ANOVA|||Region of interest is left dorsolateral pre-frontal cortex.||||0.7153
92327451|NCT05127304|184560179|OTHER|||||||0.017|||||||Weighted clustered linear regression|||Ambulatory visits||||0.017
92327452|NCT05127304|184560179|OTHER|||||||0.098|||||||Weighted clustered linear regression|||Office visits||||0.098
92206994|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.8511||95.0|||||ANOVA|||Region of interest is left dorsolateral pre-frontal cortex||||0.8511
92206995|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.4228||95.0|||||ANOVA|||Region of interest is left parietal cortex||||0.4228
92206996|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.0611||95.0|||||ANOVA|||Region of interest is left parietal cortex||||0.0611
92206997|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.9879||95.0|||||ANOVA|||Region of interest is left premotor cortex||||0.9879
92206998|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.2065||95.0|||||ANOVA|||Region of interest is left premotor cortex||||0.2065
92206999|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.1837||95.0|||||ANOVA|||Region of interest is left substantia nigra/ventral tegmental area||||0.1837
92207000|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.8195||95.0|||||ANOVA|||Region of interest is left substantia nigra/ventral tegmental area||||0.8195
92207001|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.642||95.0|||||ANOVA|||Region of interest is left thalamus||||0.6420
92207002|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.7475||95.0|||||ANOVA|||Region of interest is left thalamus||||0.7475
92207003|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.9049||95.0|||||ANOVA|||Region of interest is left visual cortex||||0.9049
92207004|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.183||95.0|||||ANOVA|||Region of interest is left visual cortex||||0.1830
92207005|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.5318||95.0|||||ANOVA|||Region of interest is right anterior insula||||0.5318
92207006|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.9588||95.0|||||ANOVA|||Region of interest is right anterior insula||||0.9588
92207007|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.7551||95.0|||||ANOVA|||Region of interest is right dorsal anterior cingulate cortex||||0.7551
92207008|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.7895||95.0|||||ANOVA|||Region of interest is right dorsal anterior cingulate cortex||||0.7895
92207009|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.9494||95.0|||||ANOVA|||Region of interest is right dorsolateral pre-frontal cortex||||0.9494
92207010|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.4482||95.0|||||ANOVA|||Region of interest is right dorsolateral pre-frontal cortex||||0.4482
92207011|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.9343||95.0|||||ANOVA|||Region of interest is right parietal cortex||||0.9343
92207012|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.7711||95.0|||||ANOVA|||Region of interest is right parietal cortex||||0.7711
92207013|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.4755||95.0|||||ANOVA|||Region of interest is right premotor cortex||||0.4755
92207014|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.3982||95.0|||||ANOVA|||Region of interest is right premotor cortex||||0.3982
92207015|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.4622||95.0|||||ANOVA|||Region of interest is right thalamus||||0.4622
92207016|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.4604||95.0|||||ANOVA|||Region of interest is right thalamus||||0.4604
92207017|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.2485||95.0|||||ANOVA|||Region of interest is right visual cortex||||0.2485
92207018|NCT00657020|184313484|SUPERIORITY_OR_OTHER|||||||0.1931||95.0|||||ANOVA|||Region of interest is right visual cortex||||0.1931
92207019|NCT00657020|184313485|SUPERIORITY_OR_OTHER|||||||0.4535||95.0|||||ANOVA|||Null hypothesis considered the response time of treatments in comparison to be equal.||||0.4535
92207020|NCT00657020|184313485|SUPERIORITY_OR_OTHER|||||||0.1811||95.0|||||ANOVA|||Null hypothesis considered the response time of treatments in comparison to be equal.||||0.1811
92207021|NCT00657020|184313486|SUPERIORITY_OR_OTHER|||||||0.6261||95.0|||||ANOVA|||Null hypothesis considered treatments in comparison to be equal.||||0.6261
92207022|NCT00657020|184313486|SUPERIORITY_OR_OTHER|||||||0.0106||95.0|||||ANOVA|||Null hypothesis considered treatments in comparison to be equal.||||0.0106
92207023|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.5544||95.0|||||ANOVA|||Region of interest is left parietal cortex.||||0.5544
92327453|NCT05127304|184560179|OTHER|||||||0.036|||||||Weighted clustered linear regression|||Outpatient visits||||0.036
92327454|NCT05127304|184560179|OTHER|||||||0.894|||||||Weighted clustered linear regression|||Emergency room visits||||0.894
92327455|NCT05127304|184560179|OTHER|||||||0.036|||||||Weighted clustered linear regression|||Inpatient visits||||0.036
92207024|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.6716||95.0|||||ANOVA|||Region of interest is left parietal cortex.||||0.6716
92207025|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.7511||95.0|||||ANOVA|||Region of interest is left superior occipital cortex.||||0.7511
92207026|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.7959||95.0|||||ANOVA|||Region of interest is left superior occipital cortex.||||0.7959
92207027|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.6418||95.0|||||ANOVA|||Region of interest is left visual cortex.||||0.6418
92207028|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.2205||95.0|||||ANOVA|||Region of interest is left visual cortex.||||0.2205
92207029|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.5135||95.0|||||ANOVA|||Region of interest is right parietal cortex.||||0.5135
92207030|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.9781||95.0|||||ANOVA|||Region of interest is right parietal cortex.||||0.9781
92207031|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.3755||95.0|||||ANOVA|||Region of interest is right premotor cortex.||||0.3755
92207032|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.2612||95.0|||||ANOVA|||Region of interest is right premotor cortex.||||0.2612
92207033|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.8486||95.0|||||ANOVA|||Region of interest is right superior occipital cortex.||||0.8486
92207034|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.8318||95.0|||||ANOVA|||Region of interest is right superior occipital cortex.||||0.8318
92207035|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.7554||95.0|||||ANOVA|||Region of interest is right visual cortex.||||0.7554
92327456|NCT05127304|184560179|OTHER|||||||0.001|||||||Weighted clustered linear regression|||Other medical visits||||0.001
92207036|NCT00657020|184313487|SUPERIORITY_OR_OTHER|||||||0.5421||95.0|||||ANOVA|||Region of interest is right visual cortex.||||0.5421
92207037|NCT00657020|184313488|SUPERIORITY_OR_OTHER|||||||0.1963||95.0|||||ANOVA|||Null hypothesis considered response time of treatments in comparison to be equal.||||0.1963
92207038|NCT00657020|184313488|SUPERIORITY_OR_OTHER|||||||0.0959||95.0|||||ANOVA|||Null hypothesis considered response time of treatments in comparison to be equal.||||0.0959
92207039|NCT00657020|184313489|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||ANOVA|||Null hypothesis considered treatments in comparison to be equal.||||0.5400
92207040|NCT00657020|184313489|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||Null hypothesis considered the treatments in comparison to be equal.||||0.1800
92207041|NCT01183234|184313490|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Point estimates and 90% confidence intervals for the ratio of the treatment regimen means were provided by back-transformation on to the linear scale and were assessed against the currently accepted bioequivalence criteria for log-transformed data (0.80, 1.25).|Ratio of geometric LS means|0.953|||||TWO_SIDED|90.0|0.915|0.993|||Mixed Models Analysis|||||0.993|0.915|
92207042|NCT01183234|184313491|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Point estimates and 90% confidence intervals for the ratio of the treatment regimen means were provided by back-transformation on to the linear scale and were assessed against the currently accepted bioequivalence criteria for log-transformed data (0.80, 1.25).|Ratio of geometric LS means|0.988|||||TWO_SIDED|90.0|0.931|1.05|||Mixed Models Analysis|||||1.05|0.931|
92207043|NCT01183234|184313492|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|-0.15|0.492|||Wilcoxon (Hodges-Lehmann)|||||0.492|-0.150|
92207044|NCT00822172|184313508|SUPERIORITY|||||||0.076|||||||two-sample equal-variances t-test|||||||0.076
92207045|NCT00822172|184313509|SUPERIORITY|||||||0.048|||||||two-sample equal-variances t-test|||||||0.048
92207046|NCT00822172|184313510|SUPERIORITY|||||||0.65|||||||two-sample equal-variances t-test|||||||0.650
92207047|NCT00370331|184313517|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.2|||<|0.001||99.0|3.59|18.73|||Repeated measures model for binary data|Repeated measures model for binary data using Generalized Estimating Equations (GEE)||||18.73|3.59|<0.001
92207048|NCT02313233|184313545|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
92207049|NCT02313233|184313546|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
92207050|NCT02313233|184313549|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
92207051|NCT02313233|184313550|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
92207052|NCT03618823|184313558|EQUIVALENCE|All pain scores were included due to the sample size. Alpha =.05 Power = .80 Desired effect size of 0.30 Size of n=145 in each group was determined, however this was not reached for sufficient power.||||||0.912|||||||Mixed Models Analysis|Two-way mixed-model analysis of variance||There will be no difference in pain scores between opioid and non-opioid groups from before medication to after while controlling for total duration of mediation use (duration mean=10.11 days).||||.912
92207053|NCT03618823|184313559|SUPERIORITY||Odds Ratio (OR)|1.311||||0.63|TWO_SIDED|95.0|0.494|3.478|||Fisher Exact|||There will be no difference in ED (Emergency Department) or urgent care visits between opioid and non-opioid pain control groups.||3.478|.494|.630
92207054|NCT05383508|184313572|OTHER||Geometric LS Mean Ratio (%)|17.05|||||TWO_SIDED|95.0|10.69|27.19||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the Cmax ratio of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||27.19|10.69|
92207055|NCT05383508|184313572|OTHER||Geometric LS Mean Ratio (%)|19.47|||||TWO_SIDED|95.0|11.89|31.87||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the Cmax ratio of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||31.87|11.89|
92207056|NCT05383508|184313573|OTHER||Median Difference (Net)|3.0|||||TWO_SIDED|95.0|0.0|11.0||95% confidence intervals are provided for this analysis.|Wilcoxon signed rank test||Hodges-Lehmann estimator of location shift and Moses 95% CI|The objective of this study was to determine the Tmax difference of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||11.00|0.00|
92327457|NCT05127304|184560180|OTHER|||||||0.162|||||||Weighted clustered linear regression|||||||0.162
92327458|NCT05127304|184560181|OTHER|||||||0.037|||||||Weighted clustered linear regression|||||||0.037
92207057|NCT05383508|184313573|OTHER||Mean Difference (Net)|2.0|||||TWO_SIDED|95.0|0.0|4.0||95% confidence intervals are provided for this analysis.|Wilcoxon signed rank test||Hodges-Lehmann estimator of location shift and Moses 95% CI|The objective of this study was to determine the Tmax difference of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||4.00|0.00|
92207058|NCT05383508|184313574|OTHER||Geometric LS Mean Ratio (%)|28.29|||||TWO_SIDED|95.0|16.0|50.04||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the AUC0-infinity ratio of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||50.04|16.00|
92207059|NCT05383508|184313574|OTHER||Geometric LS Mean Ratio (%)|26.16|||||TWO_SIDED|95.0|12.74|53.69||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the AUC0-infinity ratio of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||53.69|12.74|
92207060|NCT05383508|184313575|OTHER||Geometric LS Mean Ratio (%)|10.84|||||TWO_SIDED|95.0|5.57|21.1||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the maximum ratio of background-corrected concentration over time of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||21.10|5.57|
92207061|NCT05383508|184313575|OTHER||Geometric LS Mean Ratio (%)|16.83|||||TWO_SIDED|95.0|9.93|28.53||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the maximum ratio of background-corrected concentration over time of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||28.53|9.93|
92207062|NCT02224690|184313598|SUPERIORITY||Median Difference (Final Values)|-17.21||||0.0135|TWO_SIDED|95.0|-30.32|-4.09|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-4.09|-30.32|0.0135
92207063|NCT02224690|184313599|SUPERIORITY||Odds Ratio (OR)|2.57||||0.0043|TWO_SIDED|95.0|1.33|4.97|||Cochran-Mantel-Haenszel|Calculated using a Cochran-Mantel-Haenszel test stratified by age group (2-5, 6-11, 12-17 and 18-55 years)||||4.97|1.33|0.0043
92207064|NCT02224690|184313600|SUPERIORITY||Mean Difference (Final Values)|-21.13||||0.0005|TWO_SIDED|95.0|-33.26|-9.37|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-9.37|-33.26|0.0005
92207065|NCT02224690|184313601|SUPERIORITY||Odds Ratio (OR)|2.54||||0.0012|TWO_SIDED|95.0|1.45|4.47|||Regression, Logistic|Ordinal logistic regression model with treatment group as a fixed factor.|Odds of participants recording a lower score (improvement) on a continuous scale|||4.47|1.45|0.0012
92207066|NCT01506609|184313604|SUPERIORITY||Hazard Ratio (HR)|0.789||||0.227|TWO_SIDED|95.0|0.536|1.162|||Log Rank|||||1.162|0.536|0.227
92207067|NCT01506609|184313604|SUPERIORITY||Hazard Ratio (HR)|1.858||||0.001|TWO_SIDED|95.0|1.278|2.702|||Log Rank|||||2.702|1.278|0.001
92207068|NCT01506609|184313605|SUPERIORITY||Hazard Ratio (HR)|0.848||||0.368|TWO_SIDED|95.0|0.59|1.218|||Log Rank|||||1.218|0.590|0.368
92327459|NCT05127304|184560182|OTHER|||||||0.065|||||||Weighted clustered linear regression|||Ambulatory visits||||0.065
92207069|NCT01506609|184313605|SUPERIORITY||Hazard Ratio (HR)|1.512||||0.017|TWO_SIDED|95.0|1.074|2.127|||Log Rank|||||2.127|1.074|0.017
92207070|NCT01506609|184313606|SUPERIORITY|||||||0.434||||||P-value is from Cochran-Mantel-Haenszel test stratified by estrogen receptor/progesterone receptor status and prior cytotoxic therapy use.|Cochran-Mantel-Haenszel|||||||0.434
92207071|NCT01506609|184313606|SUPERIORITY|||||||0.019||||||P-value is from Cochran-Mantel-Haenszel test stratified by estrogen receptor/progesterone receptor status and prior cytotoxic therapy use.|Cochran-Mantel-Haenszel|||||||0.019
92207072|NCT01506609|184313607|SUPERIORITY|||||||0.027||||||P-value is from Cochran-Mantel-Haenszel test stratified by estrogen receptor/progesterone receptor status and prior cytotoxic therapy use.|Cochran-Mantel-Haenszel|||||||0.027
92207073|NCT01506609|184313607|SUPERIORITY||||||<|0.001||||||P-value is from Cochran-Mantel-Haenszel test stratified by estrogen receptor/progesterone receptor status and prior cytotoxic therapy use.|Cochran-Mantel-Haenszel|||||||< 0.001
92207074|NCT01506609|184313608|SUPERIORITY||Least Squares (LS) Mean of Difference|-2.302|STANDARD_ERROR_OF_MEAN|2.476||0.354|TWO_SIDED|95.0|-7.2|2.6||ANCOVA with treatment arm and baseline value as covariate.|ANCOVA|||||2.60|-7.20|0.354
92207075|NCT03954392|184313652|OTHER||||||<|0.05|||||||ANCOVA|Only one statistical test was conducted, therefore no adjustments for multiple comparisons was needed.||Statistical analysis will compare the post-intervention scores on the primary outcome (Faux Pas Recognition Test scores), controlling for pre-intervention scores.||||< 0.05
92207076|NCT03954392|184313653|OTHER||||||<|0.05|||||||ANCOVA|||||||< 0.05
92207077|NCT00935818|184313667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.03|TWO_SIDED|95.0|1.05|2.12|||Regression, Logistic|||Logistic regression with covariate included for study site.||2.12|1.05|0.03
92207078|NCT00935818|184313668|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.03|TWO_SIDED|95.0|1.04|2.22|||Regression, Logistic|||Logistic Regression - adjusting for study site||2.22|1.04|0.03
92207079|NCT00935818|184313669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||< 0.001
92327460|NCT05127304|184560182|OTHER|||||||0.102|||||||Weighted clustered linear regression|||Office visits||||0.102
92327461|NCT05127304|184560182|OTHER|||||||0.1|||||||Weighted clustered linear regression|||Outpatient visits||||0.100
92327462|NCT05127304|184560182|OTHER|||||||0.189|||||||Weighted clustered linear regression|||Emergency room visits||||0.189
92327463|NCT05127304|184560182|OTHER|||||||0.024|||||||Weighted clustered linear regression|||Inpatient visits||||0.024
92207080|NCT00935818|184313670|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.09|TWO_SIDED|95.0|0.95|1.93|||Regression, Logistic|||Logistic regression adjusted for study site||1.93|0.95|0.09
92207081|NCT00935818|184313671|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.14|TWO_SIDED|95.0|0.91|1.91|||Regression, Logistic|||Logistic Regression adjusting for study site||1.91|0.91|0.14
92207082|NCT00935818|184313672|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.11|TWO_SIDED|95.0|0.93|2.07|||Regression, Logistic|||Logistic Regression - adjusting for study site||2.07|0.93|0.11
92207083|NCT00935818|184313673|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.08|TWO_SIDED|95.0|0.96|2.05|||Regression, Logistic|||Logistic Regression - adjusting for site||2.05|0.96|0.08
92207084|NCT05559476|184313686|NON_INFERIORITY|The non-inferiority is demonstrated if the Upper Limit (UL) of the 2-sided 95% Confidence Interval (CI) of the GMT ratio (Control group divided by Co-Ad group) for RSVPreF3 OA vaccine is less than or equal (\<=)1.5.|GMT Ratio|1.18|||||TWO_SIDED|95.0|1.03|1.35|||||The comparison is done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when co-administered with the FLU vaccine compared to the RSVPreF3 OA vaccine administered alone, in terms of RSV-A neutralizing antibody titers, at 1 month after the RSVPreF3 OA vaccine dose (Day 31 for the Co-Ad Group and Day 61 for the Control Group).||1.35|1.03|
92207085|NCT05559476|184313687|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|0.99|||||TWO_SIDED|95.0|0.85|1.16|||||The comparison was done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu A/Darwin/6/2021 H3N2 influenza strain, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.16|0.85|
92207086|NCT05559476|184313687|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.8|1.09|||||The comparison was done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu A/Victoria/2570/2019 H1N1 influenza strain, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.09|0.80|
92207087|NCT05559476|184313687|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.88|1.03|||||The comparison was done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu B/Austria/1359417/2021 influenza strain, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.03|0.88|
92207088|NCT05559476|184313687|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.84|1.02|||||The comparison was done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu B/Phuket/3073/2013 Yamagata influenza strain, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.02|0.84|
92207089|NCT05559476|184313688|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the GMT ratio (Control group divided by Co-Ad group) for RSVPreF3 OA vaccine is \<=1.5.|GMT Ratio|1.01|||||TWO_SIDED|95.0|0.89|1.15|||||The comparison was done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when co-administered with the FLU vaccine compared to the RSVPreF3 OA vaccine administered alone, in terms of RSV-B neutralizing antibody titers, at 1 month after the RSVPreF3 OA vaccine dose (Day 31 for the Co-Ad Group and Day 61 for the Control Group).||1.15|0.89|
92207090|NCT05559476|184313689|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|-1.71|||||TWO_SIDED|95.0|-8.15|4.74||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu A/Darwin/6/2021 H3N2 strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||4.74|-8.15|
92207091|NCT05559476|184313689|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|-4.11|||||TWO_SIDED|95.0|-10.67|2.48||||||To evaluate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu A/Victoria/2570/2019 H1N1 strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||2.48|-10.67|
92268698|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-3.3|3.0||||||For serotype 9V the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||3.0|-3.3|
92327464|NCT05127304|184560182|OTHER|||||||0.767|||||||Weighted clustered linear regression|||Other medical visits||||0.767
92327465|NCT05127304|184560183|OTHER|||||||0.357|||||||Weighted clustered linear regression|||||||0.357
92207092|NCT05559476|184313689|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|-8.56|||||TWO_SIDED|95.0|-14.75|-2.29||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu B/Austria/1359417/2021 Victoria at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||-2.29|-14.75|
92207093|NCT05559476|184313689|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|-5.89|||||TWO_SIDED|95.0|-12.28|0.56||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu B/Phuket/3073/2013 Yamagata strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||0.56|-12.28|
92207094|NCT00925353|184313700|SUPERIORITY_OR_OTHER||Actual lab results shown|1.0|||<|0.05||95.0|||||non-compartmental pharmacokinetic|The planned analysis was to estimate pharmacokinetic parameters. There were too few detectable values to be able to perform this analysis.||Null Hypothesis: Application of 4% lidocaine gel on the breasts and chest wall of healthy women occluded for one hour does not result in systemically toxic plasma concentrations of lidocaine or its principal metabolite, monoethylglycinexyliidie (MEGX), electrocardiogram changes, or adverse events.||||<0.05
92207095|NCT00545051|184313783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.25|||<|0.001|TWO_SIDED|95.0|2.09|4.41|||ANCOVA|||||4.41|2.09|<0.001
92207096|NCT00545051|184313784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22|||<|0.001|TWO_SIDED|95.0|1.22|3.23|||ANCOVA|||||3.23|1.22|<0.001
92207097|NCT00545051|184313785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55||||0.122|TWO_SIDED|95.0|-0.15|1.25|||ANCOVA|||Month 6||1.25|-0.15|0.122
92207098|NCT00545051|184313785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81|||<|0.001|TWO_SIDED|95.0|0.96|2.66|||ANCOVA|||Month 12||2.66|0.96|<0.001
92207099|NCT00545051|184313786|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||sCTX at Month 1||||<0.001
92207100|NCT00545051|184313786|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||sCTX at Month 6||||<0.001
92207101|NCT00545051|184313786|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||sCTX at Month 12||||<0.001
92207102|NCT00545051|184313786|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||P1NP at Month 1||||<0.001
92207103|NCT00545051|184313786|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||P1NP at Month 6||||<0.001
92207104|NCT00545051|184313786|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||P1NP at Month 12||||<0.001
92207105|NCT00545051|184313786|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||TRACP at Month 1||||<0.001
92207106|NCT00545051|184313786|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||TRACP at Month 6||||<0.001
92207107|NCT00545051|184313786|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||TRACP at Month 12||||<0.001
92207108|NCT01375114|184313788|OTHER|||||||0.67|||||||Chi-squared|||||||0.67
92207109|NCT01375114|184313789|OTHER|||||||0.71|||||||Chi-squared|||||||0.71
92207110|NCT01375114|184313790|OTHER|||||||0.34|||||||Chi-squared|||||||0.34
92207111|NCT01375114|184313791|OTHER|||||||0.36|||||||Chi-squared|||||||0.36
92207112|NCT01375114|184313792|OTHER|||||||0.56|||||||Chi-squared|||||||0.56
92207113|NCT04193436|184313793|OTHER||Ratio (%) of Adjusted Means|92.89|||||TWO_SIDED|90.0|68.15|126.6||||||The effect of the hepatic impairment on PK parameter AUCinf were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way analysis of variance (ANOVA) model based on natural log transformed data.||126.60|68.15|
92207114|NCT04193436|184313793|OTHER||Ratio (%) of Adjusted Means|134.4|||||TWO_SIDED|90.0|98.61|183.17||||||The effect of the hepatic impairment on PK parameter AUCinf were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||183.17|98.61|
92207115|NCT04193436|184313793|OTHER||Ratio (%) of Adjusted Means|139.33|||||TWO_SIDED|90.0|100.69|192.78||||||The effect of the hepatic impairment on PK parameter AUCinf were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||192.78|100.69|
92207116|NCT04193436|184313794|OTHER||Ratio (%) of Adjusted Means|87.2|||||TWO_SIDED|90.0|63.61|119.53||||||The effect of the hepatic impairment on PK parameter Cmax were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||119.53|63.61|
92207117|NCT04193436|184313794|OTHER||Ratio (%) of Adjusted Means|102.24|||||TWO_SIDED|90.0|74.59|140.15||||||The effect of the hepatic impairment on PK parameter Cmax were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||140.15|74.59|
92207118|NCT04193436|184313794|OTHER||Ratio (%) of Adjusted Means|83.78|||||TWO_SIDED|90.0|60.18|116.62||||||The effect of the hepatic impairment on PK parameter Cmax were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||116.62|60.18|
92207119|NCT04193436|184313795|OTHER||Ratio (%) of Adjusted Means|121.81|||||TWO_SIDED|90.0|88.69|167.31||||||The effect of the hepatic impairment on PK parameter AUCinf,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||167.31|88.69|
92207120|NCT04193436|184313795|OTHER||Ratio (%) of Adjusted Means|178.5|||||TWO_SIDED|90.0|129.96|245.18||||||The effect of the hepatic impairment on PK parameter AUCinf,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||245.18|129.96|
92207121|NCT04193436|184313795|OTHER||Ratio (%) of Adjusted Means|195.73|||||TWO_SIDED|90.0|140.31|273.03||||||The effect of the hepatic impairment on PK parameter AUCinf,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||273.03|140.31|
92207122|NCT04193436|184313796|OTHER||Ratio (%) of Adjusted Means|114.45|||||TWO_SIDED|90.0|88.13|148.63||||||The effect of the hepatic impairment on PK parameter Cmax,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||148.63|88.13|
92207123|NCT04193436|184313796|OTHER||Ratio (%) of Adjusted Means|136.04|||||TWO_SIDED|90.0|104.75|176.67||||||The effect of the hepatic impairment on PK parameter Cmax,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||176.67|104.75|
92207124|NCT04193436|184313796|OTHER||Ratio (%) of Adjusted Means|117.87|||||TWO_SIDED|90.0|89.61|155.03||||||The effect of the hepatic impairment on PK parameter Cmax,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||155.03|89.61|
92207125|NCT01749904|184313801|NON_INFERIORITY|The 2 treatments were compared for each time point by visit. LS mean of each treatment group, the difference in the LS mean, and the 2-sided 95% CI for the difference were obtained. Noninferiority could be claimed if the upper limit of the CIs \<1.5 mmHg at all time points of each visit and \<1.00 mmHg for at least 5 out of the 9 time points. If noninferiority was determined, superiority at each time point could be claimed if the upper limit of the 95% CI\<0 mmHg at all time points of each visit.|||||<|0.01||||||The ANCOVA results for the comparison of LS means of mean IOP between treatment groups demonstrated noninferiority of BOL-303259-X to timolol and also superiority of BOL-303259-X to timolol|ANCOVA|||||||<0.01
92207126|NCT01749904|184313802|OTHER|||||||0.005|||||||Chi-squared|||||||0.005
92207127|NCT01749904|184313803|OTHER|||||||0.001|||||||Chi-squared|||||||0.001
92207128|NCT01749904|184313804|OTHER||||||||||||||||||No statistical analysis was performed on these proportions.|||
92207129|NCT01859988|184313830|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-55.7|STANDARD_ERROR_OF_MEAN|6.74|<|0.0001|TWO_SIDED|95.0|-68.9|-42.4||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|LS mean and standard error were obtained using analysis of covariance (ANCOVA) model with treatment and randomization strata (moderate vs severe;Japan vs rest of world) and relevant baseline values as covariates. Multiplicity was controlled using hierarchical testing procedure:highest dose vs. placebo was tested first. Comparison order was 300 mg qw,300 mg q2w,200 mg q2w,300 mg q4w \& 100 mg q4w, vs placebo respectively. Testing continues only if previous comparison was statistically significant.||-42.4|-68.9|<0.0001
92207130|NCT01859988|184313830|SUPERIORITY_OR_OTHER||LS mean difference|-50.1|STANDARD_ERROR_OF_MEAN|6.67|<|0.0001|TWO_SIDED|95.0|-63.3|-37.0||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-37.0|-63.3|<0.0001
92207131|NCT01859988|184313830|SUPERIORITY_OR_OTHER||LS mean difference|-47.4|STANDARD_ERROR_OF_MEAN|6.76|<|0.0001|TWO_SIDED|95.0|-60.6|-34.1||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 200 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-34.1|-60.6|<0.0001
92207132|NCT01859988|184313830|SUPERIORITY_OR_OTHER||LS mean difference|-45.4|STANDARD_ERROR_OF_MEAN|6.66|<|0.0001|TWO_SIDED|95.0|-58.5|-32.3||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q4w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-32.3|-58.5|<0.0001
92207133|NCT01859988|184313830|SUPERIORITY_OR_OTHER||LS mean difference|-26.8|STANDARD_ERROR_OF_MEAN|6.65|<|0.0001|TWO_SIDED|95.0|-39.8|-13.7||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 100 mg q4w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13.7|-39.8|<0.0001
92207134|NCT00652327|184313844|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0026|||||||Wilcoxon rank sum test|||||||.0026
92207135|NCT00577473|184313863|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0455||||0.4411|TWO_SIDED|95.0|-7.01|16.11||4.8 g/day compared to 2.4 g/day|Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||16.11|-7.01|0.4411
92207136|NCT00577473|184313864|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0331||||0.5677|TWO_SIDED|95.0|-14.67|8.04|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||8.04|-14.67|0.5677
92207137|NCT00577473|184313865|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0445||||0.473|TWO_SIDED|95.0|-16.6|7.7|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||7.7|-16.6|0.4730
92268699|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|-0.4||||||95.0|-2.5|2.4||||||For serotype 14 the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.4|-2.5|
92268700|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.5||||||95.0|-1.8|4.4||||||For serotype 14 the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||4.4|-1.8|
92327466|NCT05127304|184560184|OTHER|||||||0.002|||||||Weighted clustered linear regression|||Ambulatory visits||||0.002
92207138|NCT00577473|184313866|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0339||||0.5761|TWO_SIDED|95.0|-8.48|15.26|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||15.26|-8.48|0.5761
92207139|NCT00577473|184313867|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0766||||0.215|TWO_SIDED|95.0|-4.41|19.74|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||19.74|-4.41|0.2150
92207140|NCT00577473|184313868|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0351||||0.5569|TWO_SIDED|95.0|-8.18|15.2|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||15.20|-8.18|0.5569
92207141|NCT00577473|184313869|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1091||||0.0769|TWO_SIDED|95.0|-1.1|22.91|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||22.91|-1.10|0.0769
92207142|NCT00577473|184313870|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1139||||0.0551|TWO_SIDED|95.0|-0.13|22.92|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||22.92|-0.13|0.0551
92207143|NCT00577473|184313871|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0738||||0.2306|TWO_SIDED|95.0|-4.66|19.43|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||19.43|-4.66|0.2306
92207144|NCT00577473|184313872|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0652||||0.2931|TWO_SIDED|95.0|-5.6|18.64|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||18.64|-5.60|0.2931
92207145|NCT00577473|184313873|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0051||||0.9349|TWO_SIDED|95.0|-11.67|12.69|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||12.69|-11.67|0.9349
92207146|NCT00577473|184313874|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.065||||0.2583|TWO_SIDED|95.0|-4.72|17.73|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||17.73|-4.72|0.2583
92207147|NCT02595073|184313875|SUPERIORITY|||||||0.3353|||||||z-test, 2-tailed|||||||0.3353
92207148|NCT02595073|184313876|SUPERIORITY|||||||0.619|||||||ANCOVA|||||||0.6190
92207149|NCT02884908|184313889|SUPERIORITY|Based on randomization to treatment condition, the model assumed no differences at baseline (any difference was assumed due to random sampling error).||||||0.8|||||||Mixed Models Analysis|||||||0.80
92207150|NCT02884908|184313890|SUPERIORITY|Based on randomization to treatment condition, the model assumed no differences at baseline (any difference was assumed due to random sampling error).||||||0.9|||||||Mixed Models Analysis|||||||0.90
92207151|NCT02884908|184313891|SUPERIORITY|Based on randomization to treatment condition, the model assumed no differences at baseline (any difference was assumed due to random sampling error).||||||0.38|||||||Mixed Models Analysis|||||||0.38
92207152|NCT01642251|184313969|SUPERIORITY||Hazard Ratio (HR)|0.34|||<|0.001|TWO_SIDED|80.0|0.22|0.51||one-sided p value|Regression, Cox|adjusted for ECOG performance status, abnormal protein in the Cox proportional hazard model||The significance test reported here was for treatment arms comparison in patients within the male/abnormal LDH stratum||0.51|0.22|<0.001
92207153|NCT01642251|184313969|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.18|TWO_SIDED|80.0|0.6|1.09||one-sided p value|Regression, Cox|adjusted for ECOG performance status, abnormal protein in the Cox proportional hazard model||The significance test reported here was for treatment arms comparison in patients not in the male/abnormal LDH stratum.||1.09|0.60|0.18
92207154|NCT01642251|184313969|SUPERIORITY|||||||0.028||||||p value for the interaction by treatment and stratification factor|Regression, Cox|||If there was a significant treatment-by-stratification factor interaction, the results would be reported separately for each stratum. Significance was defined as the p value was less than 0.05.||||0.028
92327467|NCT05127304|184560184|OTHER|||||||0.42|||||||Weighted clustered linear regression|||Office visits||||0.420
92327468|NCT05127304|184560184|OTHER|||||||0.002|||||||Weighted clustered linear regression|||Outpatient visits||||0.002
92327469|NCT05127304|184560184|OTHER|||||||0.304|||||||Weighted clustered linear regression|||Emergency room visits||||0.304
92207155|NCT01642251|184313970|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.17|TWO_SIDED|80.0|0.64|1.07|||Regression, Cox|stratified on the stratification factors used for randomization||||1.07|0.64|0.17
92207156|NCT01642251|184313972|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
92207157|NCT03988920|184313981|SUPERIORITY||Odds Ratio (OR)|0.9||||0.7439|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.7439
92207158|NCT02632526|184313994|SUPERIORITY_OR_OTHER||Slope|1.24|STANDARD_ERROR_OF_MEAN|0.0433|||TWO_SIDED|90.0|1.17|1.31||||||||1.31|1.17|
92207159|NCT02632526|184313994|SUPERIORITY_OR_OTHER||Slope|0.322|STANDARD_ERROR_OF_MEAN|0.182|||TWO_SIDED|90.0|-0.0124|0.656||||||||0.656|-0.0124|
92207160|NCT02632526|184313995|SUPERIORITY_OR_OTHER||Slope|1.22|STANDARD_ERROR_OF_MEAN|0.0813|||TWO_SIDED|90.0|1.08|1.36||||||Day 1||1.36|1.08|
92207161|NCT02632526|184313997|SUPERIORITY_OR_OTHER||Slope|1.23|STANDARD_ERROR_OF_MEAN|0.0851|||TWO_SIDED|90.0|1.08|1.38||||||Day 10||1.38|1.08|
92207162|NCT02632526|184313998|SUPERIORITY_OR_OTHER||Slope|1.55|STANDARD_ERROR_OF_MEAN|0.0692|||TWO_SIDED|90.0|1.43|1.66||||||||1.66|1.43|
92207163|NCT02632526|184313998|SUPERIORITY_OR_OTHER||Slope|0.35|STANDARD_ERROR_OF_MEAN|0.176|||TWO_SIDED|90.0|0.0315|0.669||||||||0.669|0.0315|
92207164|NCT02632526|184313999|SUPERIORITY_OR_OTHER||Slope|1.48|STANDARD_ERROR_OF_MEAN|0.0839|||TWO_SIDED|90.0|1.34|1.63||||||For Day 1||1.63|1.34|
92327470|NCT05127304|184560184|OTHER|||||||0.326|||||||Weighted clustered linear regression|||Inpatient visits||||0.326
92207165|NCT02632526|184313999|SUPERIORITY_OR_OTHER||Slope|1.43|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|90.0|1.25|1.6||||||Day 10||1.60|1.25|
92207166|NCT02632526|184314012|SUPERIORITY_OR_OTHER||Ratio|28.13|||||TWO_SIDED|90.0|20.98|37.73||||||Cmax||37.73|20.98|
92207167|NCT02632526|184314013|SUPERIORITY_OR_OTHER||Ratio|64.58|||||TWO_SIDED|90.0|54.34|76.74||||||AUC(0-τ)||76.74|54.34|
92207168|NCT01942590|184314063|OTHER|||||||0.0512|||||||t-test, 1 sided|||||||0.0512
92207169|NCT01942590|184314063|OTHER|||||||0.434|||||||t-test, 1 sided|||||||0.434
92207170|NCT01942590|184314064|OTHER|||||||0.0816||||||Paired t test comparing each subject's performance at Week 52 to Baseline|t-test, 1 sided|||||||0.0816
92207171|NCT01942590|184314064|OTHER|||||||0.3318||||||Paired t test comparing each subject's performance at Week 52 to Baseline|t-test, 1 sided|||||||0.3318
92327471|NCT05127304|184560184|OTHER|||||||0.007|||||||Weighted clustered linear regression|||Other medical visits||||0.007
92327472|NCT05127304|184560185|OTHER|||||||0.52|||||||Weighted clustered linear regression|||||||0.520
92327473|NCT05127304|184560186|OTHER|||||||0.037|||||||Weighted clustered linear regression|||||||0.037
92327474|NCT05127304|184560187|OTHER|||||||0.06|||||||Weighted clustered linear regression|||Medical costs||||0.060
92207172|NCT01942590|184314065|OTHER|||||||0.2074|||||||t-test, 1 sided|||||||0.2074
92207173|NCT01942590|184314065|OTHER|||||||0.332|||||||t-test, 1 sided|||||||0.332
92207174|NCT01942590|184314066|OTHER|||||||0.233||||||Paired t test comparing each subject's performance at Week 52 to Baseline|t-test, 1 sided|||||||0.233
92207175|NCT01942590|184314066|OTHER|||||||0.142||||||Paired t test comparing each subject's performance at Week 52 to Baseline|t-test, 1 sided|||||||0.142
92207176|NCT01942590|184314067|OTHER|||||||0.019|||||||t-test, 1 sided|||||||0.019
92207177|NCT01942590|184314067|OTHER|||||||0.366|||||||t-test, 1 sided|||||||0.366
92207178|NCT01942590|184314068|OTHER|||||||0.161|||||||t-test, 1 sided|||||||0.161
92207179|NCT01942590|184314068|OTHER|||||||0.43|||||||t-test, 1 sided|||||||0.43
92207180|NCT01942590|184314069|OTHER|||||||0.01|||||||t-test, 1 sided|||Baseline, week 18||||0.01
92207181|NCT01942590|184314069|OTHER|||||||0.004|||||||t-test, 1 sided|||Baseline, week 52||||0.004
92207182|NCT01942590|184314069|OTHER|||||||0.154|||||||t-test, 1 sided|||Baseline, week 18||||0.154
92207183|NCT01942590|184314069|OTHER|||||||0.211|||||||t-test, 1 sided|||Baseline, Week 52||||0.211
92207184|NCT01942590|184314070|OTHER|||||||0.006|||||||t-test, 1 sided|||Baseline, Week 18||||0.006
92207185|NCT01942590|184314070|OTHER|||||||0.007|||||||t-test, 1 sided|||Baseline, Week 52||||0.007
92207186|NCT01942590|184314070|OTHER|||||||0.297|||||||t-test, 1 sided|||Baseline, Week 18||||0.297
92207187|NCT01942590|184314070|OTHER|||||||0.196|||||||t-test, 1 sided|||Baseline, Week 52||||0.196
92207188|NCT01942590|184314071|OTHER|||||||0.3639|||||||t-test, 1 sided|||Baseline Week 18||||0.3639
92207189|NCT01942590|184314071|OTHER|||||||0.0371|||||||t-test, 1 sided|||Baseline, Week 52||||0.0371
92207190|NCT01942590|184314072|OTHER|||||||0.268|||||||t-test, 1 sided|||Baseline, Week 18||||0.268
92207191|NCT01942590|184314072|OTHER|||||||0.0036|||||||t-test, 1 sided|||Baseline, Week 52||||0.0036
92207192|NCT01942590|184314072|OTHER|||||||0.286|||||||t-test, 1 sided|||Baseline, Week 18||||0.286
92207193|NCT01942590|184314072|OTHER|||||||0.279|||||||t-test, 1 sided|||Baseline, Week 52||||0.279
92207194|NCT01942590|184314073|OTHER|||||||0.479|||||||t-test, 1 sided|||Baseline, Week 18||||0.479
92207195|NCT01942590|184314073|OTHER|||||||0.059|||||||t-test, 1 sided|||Baseline, Week 52||||0.059
92207196|NCT01942590|184314073|OTHER|||||||0.152|||||||t-test, 1 sided|||Baseline, Week 18||||0.152
92207197|NCT01942590|184314073|OTHER|||||||0.118|||||||t-test, 1 sided|||Baseline, Week 52||||0.118
92207198|NCT01226095|184314251|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
92207199|NCT00857272|184314261|NON_INFERIORITY_OR_EQUIVALENCE|Fifteen percent has been established as an acceptable non-inferiority margin for evaluation of investigational bowel preparations in previous studies of FDA approved preparations (e.g. NuLytely, MoviPrep).|Difference in success rates|-2.5||||0.005|TWO_SIDED|95.0|-11.9|6.8|||Chi-squared|||"The primary endpoint of preparation success was tested using a non-inferiority test based upon the difference D=P1-P2,~Null Hypothesis H0: P1-P2\<=D0 versus Alternative Hypothesis H1: P1-P2=D1\>D0,~Where P1 is the % of patients with successful preps in the HalfLytely 5mg group and P2 is the % of patients with successful preps in the HalfLytely 10mg group and D0 is the acceptable margin of equivalence equal to an absolute margin of 15%."||6.8|-11.9|0.005
92327475|NCT05127304|184560187|OTHER|||||||0.177|||||||Weighted clustered linear regression|||Ambulatory costs||||0.177
92327476|NCT05127304|184560187|OTHER|||||||0.834|||||||Weighted clustered linear regression|||Office visits costs||||0.834
92327477|NCT05127304|184560187|OTHER|||||||0.121|||||||Weighted clustered linear regression|||Outpatient visits costs||||0.121
92327478|NCT05127304|184560187|OTHER|||||||0.159|||||||Weighted clustered linear regression|||Emergency room visits costs||||0.159
92327479|NCT05127304|184560187|OTHER|||||||0.289|||||||Weighted clustered linear regression|||Inpatient stay costs||||0.289
92207200|NCT03283072|184314276|SUPERIORITY|||||||0.592|||||||ANCOVA|Within, within repeated measures ANCOVA (gender as co-variate).||||||0.592
92207201|NCT03283072|184314277|SUPERIORITY|||||||0.721|||||||ANCOVA|Within, within repeated measures ANCOVA (gender as co-variate).||||||0.721
92207202|NCT03283072|184314278|SUPERIORITY|||||||0.553|||||||ANCOVA|Within, within repeated measures ANVOA (gender as covariate)||||||0.553
92207203|NCT02552368|184314295|SUPERIORITY|||||||0.002|||||||Paired t-Test|||||||0.002
92207204|NCT02552368|184314296|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Signed-Rank Test for Performance COPM between Baseline and 12 weeks||||0.022
92207205|NCT02552368|184314296|SUPERIORITY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||Signed-Rank Test for Satisfaction COPM between Baseline and 12 weeks||||0.031
92207206|NCT00911768|184314297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.416|<|0.05||95.0|-0.647|1.008|||t-test, 2 sided|||||1.008|-0.647|<0.05
92207207|NCT00911768|184314298|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority analysis was conducted. We just compared the difference of stimulated salivary rates between both groups at 8 weeks, because there were no definition of the effective margin.|Mean Difference (Final Values)|-0.346|STANDARD_ERROR_OF_MEAN|0.116|<|0.05||95.0|-0.576|-0.115|||t-test, 2 sided|||||-0.115|-0.576|<0.05
92207208|NCT00911768|184314299|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority analysis was conducted. We just compared the difference of unstimulated salivary rates between both groups at 8 weeks, because there were no definition of the effective margin.|Mean Difference (Final Values)|-0.086|STANDARD_ERROR_OF_MEAN|0.035|<|0.05||95.0|-0.155|-0.017|||t-test, 2 sided|||||-0.017|-0.155|<0.05
92207209|NCT00998335|184314344|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||ANOVA|||Baseline versus 3 months||||0.03
92327480|NCT05127304|184560187|OTHER|||||||0.055|||||||Weighted clustered linear regression|||Other medical costs||||0.055
92327481|NCT05127304|184560187|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Pharmacy costs||||<0.001
92327482|NCT05127304|184560187|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Total (medical + pharmacy) costs||||<0.001
92207210|NCT01586910|184314359|NON_INFERIORITY|Non-inferiority margin was 0.07. Posterior threshold for non-inferiority was 0.971|Posterior Median of the Difference|-1.4|||||TWO_SIDED|||||The posterior probability of non-inferiority is \> 0.9999. The posterior probability is the probability of the event rate by updating the prior probability distribution with observed data using Bayes' Theorem.|Bayesian||95% Bayesian credible interval for the difference (TAVR-SAVR) was (-5.2%, 2.3%). The 95% credible interval is the 2.5th and 97.5th percentiles of the posterior distribution.|Primary Hypothesis: TAVR with the Medtronic TAVR is non-inferior to SAVR for all-cause mortality or disabling stroke rate during a fixed follow-up of 24 months.||||
92207211|NCT00252733|184314392|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.821||||0.0508|TWO_SIDED|95.0|0.673|1.001|||Log Rank|Generalized||||1.001|0.673|0.0508
92207212|NCT05398237|184314462|OTHER|A self-contained, subject-level permutation test for changes of all analytes in a pathway, assuming all analyte levels increasing after SSL exposure.||||||0.0122||||||Change in pathway from baseline to 1 hour post-SSL. Threshold for p-value of each test is 0.05/4=0.0125 based on Bonferroni adjustment for four tests, with two time points and two pathways (TLR4 and TOPK/PRPK).|Permutation test|The self-contained, subject-level permutation test comparing the pre- and post-SSL levels of all analytes in the pathway.||This is a single-arm study||||0.0122
92207213|NCT05398237|184314462|OTHER|A self-contained, subject-level permutation test for changes of all analytes in a pathway, assuming all analyte levels increasing after SSL exposure.||||||0.009||||||Change in pathway from baseline to 24 hours post-SSL. Threshold for p-value of each test is 0.05/4=0.0125 based on Bonferroni adjustment for four tests, with two time points and two pathways (TLR4 and TOPK/PRPK)|Permutation test|The self-contained, subject-level permutation test comparing the pre- and post-SSL levels of all analytes in the pathway.||This is a single-arm study.||||0.009
92207214|NCT05398237|184314463|OTHER|A self-contained, subject-level permutation test for changes of all analytes in a pathway, assuming all analyte levels increasing after SSL exposure.||||||0.0063||||||Change in pathway from baseline to 1 hour post-SSL. Threshold for p-value of each test is 0.05/4=0.0125 based on Bonferroni adjustment for four tests, with two time points and two pathways (TLR4 and TOPK/PRPK)|Permutation test|The self-contained, subject-level permutation test comparing the pre- and post-SSL levels of all analytes in the pathway.||This is a single-arm study||||0.0063
92207215|NCT05398237|184314463|OTHER|A self-contained, subject-level permutation test for changes of all analytes in a pathway, assuming all analyte levels increasing after SSL exposure.||||||0.0056||||||Change in pathway from baseline to 24 hours post-SSL. Threshold for p-value of each test is 0.05/4=0.0125 based on Bonferroni adjustment for four tests, with two time points and two pathways (TLR4 and TOPK/PRPK)|Permutation test|The self-contained, subject-level permutation test comparing the pre- and post-SSL levels of all analytes in the pathway.||This is a single-arm study.||||0.0056
92207216|NCT01383499|184314514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.023||0.0002|TWO_SIDED|95.0|0.042|0.132||First step of closed testing procedure, where the active treatments are compared to placebo. If this statistical test significant at the 0.05 alpha level then proceed to comparison of the next lower dose to placebo.|Mixed model repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as random effect.||Tio R5 minus Placebo||0.132|0.042|0.0002
92207217|NCT01383499|184314514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.059|0.149||Second step of closed testing procedure. If this statistical test significant at the 0.05 alpha level then proceed to comparison of the next lower dose to placebo.|Mixed model repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as random effect.||Tio R2.5 minus Placebo||0.149|0.059|<.0001
92207218|NCT01383499|184314514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.023||0.0011|TWO_SIDED|95.0|0.03|0.12|||Mixed model repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R1.25 minus Placebo||0.120|0.030|0.0011
92327483|NCT05127304|184560188|OTHER|||||||0.066|||||||Weighted clustered linear regression|||Medical costs||||0.066
92327484|NCT05127304|184560188|OTHER|||||||0.193|||||||Weighted clustered linear regression|||Ambulatory costs||||0.193
92327485|NCT05127304|184560188|OTHER|||||||0.117|||||||Weighted clustered linear regression|||Office visits costs||||0.117
92327486|NCT05127304|184560188|OTHER|||||||0.25|||||||Weighted clustered linear regression|||Outpatient visits costs||||0.250
92207219|NCT01383499|184314514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.023|||TWO_SIDED|95.0|-0.034|0.057|||Mixed model repeated measures (MMRM)|||Tio R5 minus Tio R1.25||0.057|-0.034|
92207220|NCT01383499|184314514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.017|STANDARD_ERROR_OF_MEAN|0.023|||TWO_SIDED|95.0|-0.063|0.028|||Mixed model repeated measures (MMRM)|||Tio R5 minus Tio R2.5||0.028|-0.063|
92207221|NCT01383499|184314514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029|STANDARD_ERROR_OF_MEAN|0.023|||TWO_SIDED|95.0|-0.016|0.074|||Mixed models repeated measures (MMRM)|||Tio R2.5 minus Tio R1.25||0.074|-0.016|
92207222|NCT00477334|184314541|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.26||||0.4161|TWO_SIDED|95.0|-0.4|0.98|||Hodges-Lehman Shift Model||Difference in time to healing= time to healing for Famciclovir-time to healing for Placebo. Hodges-Lehman shift model is used to estimate the difference in treatment effect. P-value is from the Wilcoxon rank-sum test.|Participants who discontinued from the study before healing of non-aborted lesions was confirmed and participants who completed the study 21 days since treatment initiation without non-aborted lesion stages and without a final assessment on aborted lesion status are imputed according to the distribution of the time to healing among the subjects in the placebo group whose time to healing is greater than or equal to the observed discontinuation time. (Censor time)||0.98|-0.40|0.4161
92207223|NCT00477334|184314541|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.01||||0.9372|TWO_SIDED|95.0|0.74|1.39|||Kaplan-Meier & Cox Regression||"Hazard ratio in time to healing=hazard rate of Famciclovir/hazard rate of Placebo.~Based on Cox proportional hazards model with treatment, pooled center and gender as explanatory variables."|Participants who discontinued from the study before healing of non-aborted lesions was confirmed and participants who completed the study after 21 days since treatment initiation without non-aborted lesion stages and without a final assessment on aborted lesion status were censored at the time of the last clinical lesion observation.||1.39|0.74|0.9372
92207224|NCT00952120|184314562|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Regression, Logistic|robust standard errors were used to account for the multiple observations per patient||||||0.80
92207225|NCT04745026|184314564|SUPERIORITY||Least square mean difference|3.37|STANDARD_ERROR_OF_MEAN|1.931|=|0.085|TWO_SIDED|95.0|-0.48|7.21||Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).|Mixed models for repeated measures|||Irritability (Week 12)||7.21|-0.48|=0.085
92207226|NCT04745026|184314564|SUPERIORITY||Least square mean difference|1.14|STANDARD_ERROR_OF_MEAN|1.16|=|0.3107|TWO_SIDED|95.0|-1.08|3.36|||Mixed models for repeated measures|Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).||Social Withdrawal Week 12)||3.36|-1.08|=0.3107
92207227|NCT04745026|184314564|SUPERIORITY||Least square mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.695|=|0.9513|TWO_SIDED|95.0|-1.34|1.42|||Mixed models for repeated measures|Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).||Stereotypic Behavior (Week 12)||1.42|-1.34|=0.9513
92207228|NCT04745026|184314564|SUPERIORITY||Least square mean difference|2.01|STANDARD_ERROR_OF_MEAN|1.943|=|0.305|TWO_SIDED|95.0|-1.86|5.88|||Mixed models repeated measures|Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).||Hyperactivity/Noncompliance (Week 12)||5.88|-1.86|=0.305
92207229|NCT04745026|184314564|SUPERIORITY||Least square mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.517|=|0.4754|TWO_SIDED|95.0|-1.4|0.66|||Mixed models repeated measures|Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).||Inappropriate Speech (Week 12)||0.66|-1.4|=0.4754
92207230|NCT04745026|184314565|SUPERIORITY||Least square mean difference|0.45|STANDARD_ERROR_OF_MEAN|2.36|=|0.8506|TWO_SIDED|95.0|-4.26|5.15|||Mixed models for repeated measures|Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).||Week 12||5.15|-4.26|=0.8506
92207231|NCT04745026|184314566|SUPERIORITY||Odds Ratio (OR)|1.22|||=|0.7087|TWO_SIDED|95.0|0.43|3.51|||Regression, Logistic|Includes treatment arm, randomization variables and baseline score (CGI-S) covariates. Responders achieved a score of 1 or 2 at post-baseline visits.||Responders with 'Very Much Improved' or 'Much Improved' response at week 12||3.51|0.43|=0.7087
92207232|NCT04745026|184314567|SUPERIORITY||||||=|0.6108|||||||Cochran-Mantel-Haenszel|||Week 12||||=0.6108
92207233|NCT02926898|184314578|SUPERIORITY||Percent difference|-54.0|||<|0.001|TWO_SIDED|95.0|-67.2|-35.6||Analysis of covariance (ANCOVA) model with treatment group (ZX008 or placebo) and age group (\< 6 years, ≥ 6 years) as factors, and with log baseline frequency as a covariate, and log CSF as the outcome variable.|ANCOVA|||||-35.6|-67.2|<0.001
92207234|NCT02926898|184314579|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|A logistic regression model using a categorical response variable as a function of Treatment group, Baseline seizure frequency, and age group.||||||<0.001
92207235|NCT02926898|184314580|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92207236|NCT00116337|184314591|OTHER|Statistical analyses was performed using a repeated measures analysis of variance and Paired t test. A p value of \< 0.05 was taken as indicating statistical significance.|||||<|0.05|||||||ANOVA|Statistical analyses will be performed using a repeated measures analysis of variance and Paired t test.||Each patient was served as their own control; comparisons was made at various points in the study. Clinical parameters was assessed before the study and also at several end points following the Reconditioning Phase.||||<0.05
92207237|NCT00116337|184314593|OTHER||||||<|0.05|||||||nonparametric analog (Freidman Test)|||The data prior to implantation were compared with data obtained after implantation of the cough system using a nonparametric analog (Freidman Test) to the standard repeated measures analysis of variance. Statistical significance was assumed at P\<0.05. This alpha level was chosen as a correlation for inflated type I error rates because of multiple comparisons. Results are reported as means ± SEs.||||<0.05
92207238|NCT01415531|184314595|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.3|||<|0.0001|TWO_SIDED|95.0|-7.7|-4.8|||ANCOVA|||||-4.8|-7.7|<0.0001
92268701|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|-0.9||||||95.0|-4.9|2.1||||||For serotype 14 the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.1|-4.9|
92327487|NCT05127304|184560188|OTHER|||||||0.431|||||||Weighted clustered linear regression|||Emergency room visits costs||||0.431
92207239|NCT00122460|184314597|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.797||||0.036|TWO_SIDED|95.0|0.644|0.986|||Stratified Log Rank|||"The primary analysis tested the equality of OS between treatment groups applying a 2-sided stratified log-rank test (α=5%), taking into account the strata used for randomization (previous chemotherapy (CTX) \[no vs. yes\] and Karnofsky Performance Status (KPS) \[\<80 vs. ≥80\]).~Median overall survival was estimated using the Kaplan-Meier method. The Hazard Ratio (HR) of cetuximab + CTX over CTX alone was calculated using the Cox proportional hazards model stratified by randomization strata."||0.986|0.644|0.036
92207240|NCT00122460|184314598|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.538|||<|0.0001|TWO_SIDED|95.0|0.431|0.672|||Stratified Log Rank|||"To test the equality of PFS between treatment groups, a two-sided stratified log-rank test (α=5%)was used, taking into account strata used for randomization (previous CTX \[yes/no\] and KPS \[\<80 vs. ≥80\]).~Median PFS time was estimated using the Kaplan-Meier method. The HR of cetuximab + CTX over CTX alone was calculated using the Cox proportional hazards model stratified by randomization strata."||0.672|0.431|<0.0001
92207241|NCT00122460|184314599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.326||||0.0001|TWO_SIDED|95.0|1.504|3.6|||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel (CMH) test was performed using the randomization strata previous CTX (no vs. yes) and KPS (\<80 vs. ≥80). Treatment group comparisons were performed two-sided with α=5%.||3.600|1.504|0.0001
92207242|NCT00122460|184314600|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.881|||<|0.0001|TWO_SIDED|95.0|1.87|4.441|||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel (CMH) test was performed using the randomization strata previous CTX (no vs. yes) and KPS (\<80 vs. ≥80). Treatment group comparisons were performed two-sided with α=5%.||4.441|1.870|<0.0001
92207243|NCT00122460|184314601|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.593|||<|0.0001|TWO_SIDED|95.0|0.484|0.727|||Stratified Log Rank|||"Treatment groups were compared applying a two-sided stratified log-rank test (α=5%), taking into account strata used for randomization (previous CTX \[yes/no\] and KPS \[\<80 vs. ≥80\]).~Median time to treatment failure was estimated using the Kaplan-Meier method. The HR of cetuximab + CTX over CTX alone was calculated using the Cox proportional hazards model stratified by randomization strata."||0.727|0.484|<0.0001
92207244|NCT00122460|184314602|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.762||||0.21|TWO_SIDED|95.0|0.497|1.168|||Stratified Log Rank|||"To test the equality of duration of response between treatment groups, the two-sided stratified log-rank test (α=5%) was used taking strata used for randomization into account (previous CTX \[no vs. yes\] and KPS \[\<80 vs. ≥80\]).~Median duration of response was estimated using the Kaplan-Meier method. The HR of cetuximab + CTX over CTX alone was calculated using the Cox proportional hazards model stratified by randomization strata."||1.168|0.497|0.21
92207245|NCT02054741|184314632|SUPERIORITY||Risk Ratio (RR)|0.74||||0.0001|TWO_SIDED|95.0|0.64|0.86|||Mixed Models Analysis|Generalized Linear Mixed Model||||0.86|0.64|0.0001
92207246|NCT02054741|184314633|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.39|TWO_SIDED|95.0|0.85|1.5|||Regression, Cox|||||1.50|0.85|0.39
92207247|NCT02054741|184314634|SUPERIORITY||Risk Ratio (RR)|1.38||||0.015|TWO_SIDED|95.0|1.06|1.78|||Mixed Models Analysis|Generalized Linear Mixed Model||||1.78|1.06|0.015
92207248|NCT02344004|184314658|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||The proportion of participants achieving culture conversion by Month 6 was analyzed using the Cochran-Mantel-Haenszel test, stratified by smoking status and prior multi-drug regimen. The treatment comparison was tested at two-sided significance level of 0.05. The null hypothesis assumed that culture conversion by Month 6 is independent of treatment, and the alternative hypothesis assumed that culture conversion by Month 6 is associated with treatment.|The final analysis of the primary endpoint, the number of participants achieving culture conversion at by Month 6, was performed after the last participants completed Month 6 and his/her Month 6 sputum culture result was available.|||<0.0001
92207249|NCT02344004|184314659|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92207250|NCT02344004|184314660|SUPERIORITY|||||||0.7804|||||||Mixed Model Repeated Measures (MMRM)|||This was analyzed using a mixed model repeated measures (MMRM) analysis of change from Baseline at Months 4\&6. MMRM included treatment, month, treatment-by-month interaction, combination of smoking status \& prior MDR (4 levels: Yes/Yes, Yes/No, No/Yes, and No/No) as fixed factors, baseline 6MWD as a covariate \& baseline 6MWD-by-month interaction. An unstructured covariance matrix was used for the MMRM.|"* Baseline is defined as the last non-missing value prior to first dose of study drug.~* Statistics were obtained from an mixed-effects model repeated measures (MMRM) model with pattern-mixture modeling of missing values due to dropout, which included treatment, month, the treatment-by-month interaction, and the combination of smoking status and prior multidrug regimen as fixed factors, the baseline 6MWT distance as a covariate and baseline 6MWT distance-by-month interaction. MMRM included postbaseline data through Month 6.~* For baseline, n is the number of participants with a baseline score and at least 1 postbaseline score. For Month 6, n is the number of participants with a baseline score and a postbaseline score at the summarized visit."|||0.7804
92327488|NCT05127304|184560188|OTHER|||||||0.129|||||||Weighted clustered linear regression|||Inpatient stay costs||||0.129
92268702|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.4||||||95.0|-1.8|3.8||||||For serotype 18C the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||3.8|-1.8|
92268703|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|1.3||||||95.0|-1.1|5.7||||||For serotype 18C the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||5.7|-1.1|
92268704|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|-1.0||||||95.0|-5.5|2.8||||||For serotype 18C the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.8|-5.5|
92268705|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.2||||||95.0|-3.1|4.7||||||For serotype 19F the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||4.7|-3.1|
92268706|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.5||||||95.0|-2.9|5.4||||||For serotype 19F the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||5.4|-2.9|
92268707|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|-0.3||||||95.0|-5.5|4.4||||||For serotype 19F the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||4.4|-5.5|
92207251|NCT02344004|184314661|SUPERIORITY||Cox Proportional Hazard|3.92|||<|0.0001|TWO_SIDED|95.0|2.01|7.63|||Regression, Cox|||Kaplan Meier estimates for the distribution of time to culture conversion were constructed for treatment arms. The treatment comparison was made using the stratified log rank test for the ITT population. The estimated median time to culture conversion for each treatment arm was not estimable. The time to culture conversion was analyzed using Cox regression model to estimate hazards ratio.||7.63|2.01|<0.0001
92207252|NCT00138671|184314684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||||90.0|-0.17|0.36||||||Week 6||0.36|-0.17|
92207253|NCT00138671|184314684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||||90.0|-0.27|0.26||||||Week 12||0.26|-0.27|
92207254|NCT00138671|184314684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||||90.0|-0.29|0.26||||||Week 26||0.26|-0.29|
92207255|NCT00138671|184314684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||||90.0|-0.36|0.2||||||Week 39||0.20|-0.36|
92207256|NCT00138671|184314684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||||90.0|-0.23|0.35||||||Week 52||0.35|-0.23|
92207257|NCT00138671|184314684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||||90.0|-0.29|0.31||||||Week 52 LOCF||0.31|-0.29|
92207258|NCT00138671|184314685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.475||||||90.0|-23.47|14.518||||||Week 6||14.518|-23.47|
92207259|NCT00138671|184314685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.91||||||90.0|-30.04|8.232||||||Week 12||8.232|-30.04|
92207260|NCT00138671|184314685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.84||||||90.0|-42.51|-3.166||||||Week 26||-3.166|-42.51|
92207261|NCT00138671|184314685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.222||||||90.0|-28.52|12.075||||||Week 39||12.075|-28.52|
92207262|NCT00138671|184314685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.329||||||90.0|-29.27|12.616||||||Week 52||12.616|-29.27|
92207263|NCT00138671|184314685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.406||||||90.0|-13.7|16.514||||||Week 52 LOCF||16.514|-13.70|
92327489|NCT05127304|184560188|OTHER|||||||0.236|||||||Weighted clustered linear regression|||Other medical costs||||0.236
92327490|NCT05127304|184560188|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Pharmacy costs||||<0.001
92207264|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.884||||||90.0|-0.317|2.084||||||Week 1||2.084|-0.317|
92207265|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||||90.0|-0.728|1.668||||||Week 2||1.668|-0.728|
92207266|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.382||||||90.0|-0.815|1.579||||||Week 3||1.579|-0.815|
92327491|NCT05127304|184560188|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Total (medical + pharmacy) costs||||<0.001
92207267|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.405||||||90.0|-0.793|1.602||||||Week 4||1.602|-0.793|
92207268|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.562||||||90.0|-0.642|1.766||||||Week 6||1.766|-0.642|
92207269|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.416||||||90.0|-0.809|1.641||||||Week 9||1.641|-0.809|
92207270|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.019||||||90.0|-1.416|1.454||||||Week 11||1.454|-1.416|
92207271|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091||||||90.0|-1.127|1.308||||||Week 12||1.308|-1.127|
92207272|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.309||||||90.0|-1.551|0.934||||||Week 18||0.934|-1.551|
92207273|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.869||||||90.0|-2.123|0.384||||||Week 26||0.384|-2.123|
92207274|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.664||||||90.0|-2.968|-0.36||||||Week 39||-0.360|-2.968|
92207275|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.116||||||90.0|-3.829|-0.403||||||Week 50||-0.403|-3.829|
92207276|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.801||||||90.0|-3.204|-0.397||||||Week 51||-0.397|-3.204|
92207277|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.026||||||90.0|-3.384|-0.668||||||Week 52||-0.668|-3.384|
92207278|NCT00138671|184314686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.451||||||90.0|-3.003|0.101||||||Week 52 LOCF||0.101|-3.003|
92207279|NCT02084056|184314709|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|103.68|STANDARD_ERROR_OF_MEAN|1.018|<|0.0001|TWO_SIDED|90.0|100.703|106.747|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||106.747|100.703|<0.0001
92207280|NCT02084056|184314709|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|101.63|STANDARD_ERROR_OF_MEAN|1.047||0.0003|TWO_SIDED|90.0|93.721|110.202|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||110.202|93.721|0.0003
92207281|NCT02084056|184314710|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|114.58|STANDARD_ERROR_OF_MEAN|1.038||0.0113|TWO_SIDED|90.0|107.687|121.908|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||121.908|107.687|0.0113
92207282|NCT02084056|184314710|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|98.28|STANDARD_ERROR_OF_MEAN|1.075||0.0064|TWO_SIDED|90.0|86.543|111.609|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||111.609|86.543|0.0064
92327492|NCT05127304|184560189|OTHER|||||||0.057|||||||Weighted clustered linear regression|||Medical costs||||0.057
92327493|NCT05127304|184560189|OTHER|||||||0.182|||||||Weighted clustered linear regression|||Ambulatory costs||||0.182
92327494|NCT05127304|184560189|OTHER|||||||0.083|||||||Weighted clustered linear regression|||Office visits costs||||0.083
92327495|NCT05127304|184560189|OTHER|||||||0.245|||||||Weighted clustered linear regression|||Outpatient visits costs||||0.245
92207283|NCT02084056|184314711|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|96.45|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|91.23|101.97|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||101.97|91.23|<0.0001
92207284|NCT02084056|184314711|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|97.75|STANDARD_ERROR_OF_MEAN|1.04||0.0002|TWO_SIDED|90.0|90.47|105.63|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||105.63|90.47|0.0002
92207285|NCT02084056|184314712|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|97.96|STANDARD_ERROR_OF_MEAN|1.038|<|0.0001|TWO_SIDED|90.0|92.046|104.257|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||104.257|92.046|<0.0001
92207286|NCT02084056|184314712|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|105.85|STANDARD_ERROR_OF_MEAN|1.053||0.003|TWO_SIDED|90.0|96.705|115.861|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||115.861|96.705|0.0030
92207287|NCT02084056|184314713|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|103.48|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|98.426|108.79|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||108.790|98.426|<0.0001
92207288|NCT02084056|184314713|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|101.35|STANDARD_ERROR_OF_MEAN|1.062||0.0019|TWO_SIDED|90.0|91.13|112.708|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||112.708|91.130|0.0019
92207289|NCT02084056|184314714|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|95.49|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|89.73|101.62|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||101.62|89.73|<0.0001
92207290|NCT02084056|184314714|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|98.19|STANDARD_ERROR_OF_MEAN|1.05||0.0002|TWO_SIDED|90.0|90.73|106.27|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||106.27|90.73|0.0002
92207291|NCT00395460|184314719|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was performed by means of a Confidence Interval (CI) approach: noninferiority of Gadavist was assumed if the one-sided 95% CI for pGadavist-pMagnevist was lying entirely to the right of the value -delta, where p is the estimated change in CNR and with pre-defined non-inferiority margin delta of 15% (=6.52 or 15% of 43.467).|Mean Difference (Final Values)|6.939|STANDARD_DEVIATION|38.83|||ONE_SIDED|95.0|-3.897||||non-inferiority||||||-3.897|
92207292|NCT02943226|184314731|SUPERIORITY|||||||0.4487|||||||two sample t-test|||||||0.4487
92207293|NCT02943226|184314732|SUPERIORITY|||||||0.0112|||||||Wilcoxon (Mann-Whitney)|||||||0.0112
92207294|NCT02943226|184314733|SUPERIORITY|||||||0.0784|||||||two sample t-test|||||||0.0784
92207295|NCT00298090|184314738|SUPERIORITY_OR_OTHER||Other|0.0||||0.55|TWO_SIDED|95.0|-0.8|1.48|||repeated measures model||A repeated measures model was used to assess whether the one-minute average StO2 values differed systematically between pre and post arterial line placement.|||1.48|-0.80|0.55
92327496|NCT05127304|184560189|OTHER|||||||0.386|||||||Weighted clustered linear regression|||Emergency room visits costs||||0.386
92327497|NCT05127304|184560189|OTHER|||||||0.115|||||||Weighted clustered linear regression|||Inpatient stay costs||||0.115
92327498|NCT05127304|184560189|OTHER|||||||0.237|||||||Weighted clustered linear regression|||Other medical costs||||0.237
92327499|NCT05127304|184560189|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Pharmacy costs||||<0.001
92327500|NCT05127304|184560189|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Total (medical + pharmacy) costs||||<0.001
92327501|NCT05127304|184560190|OTHER|||||||0.189|||||||Weighted clustered linear regression|||Medical costs||||0.189
92327502|NCT05127304|184560190|OTHER|||||||0.314|||||||Weighted clustered linear regression|||Ambulatory costs||||0.314
92327503|NCT05127304|184560190|OTHER|||||||0.203|||||||Weighted clustered linear regression|||Office visits costs||||0.203
92327504|NCT05127304|184560190|OTHER|||||||0.379|||||||Weighted clustered linear regression|||Outpatient visits costs||||0.379
92327505|NCT05127304|184560190|OTHER|||||||0.815|||||||Weighted clustered linear regression|||Emergency room visits costs||||0.815
92327506|NCT05127304|184560190|OTHER|||||||0.205|||||||Weighted clustered linear regression|||Inpatient stay costs||||0.205
92327507|NCT05127304|184560190|OTHER|||||||0.556|||||||Weighted clustered linear regression|||Other medical costs||||0.556
92327508|NCT05127304|184560190|OTHER|||||||0.189|||||||Weighted clustered linear regression|||Total (medical + pharmacy) costs||||0.189
92327509|NCT05127304|184560191|OTHER|||||||0.483|||||||Weighted clustered linear regression|||Medical costs||||0.483
92327510|NCT05127304|184560191|OTHER|||||||0.002|||||||Weighted clustered linear regression|||Ambulatory costs||||0.002
92207296|NCT01708213|184314741|SUPERIORITY_OR_OTHER||Parametric Testing|0.05|||<|0.05|TWO_SIDED||||||Parametric testing|||||||<0.05
92207297|NCT00324116|184314765|SUPERIORITY_OR_OTHER||percent responders|85.0||||||95.0|76.0|95.0|||||Proportion of responders estimated by Kaplan-Meier analysis. Proportion of responders along with 95% CI calculated directly from estimate of survival distribution function. Percentage denominator = total number of subjects without missing data.|||95|76|
92207298|NCT00324116|184314766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.29||||||95.0|-6.83|-1.75|||||95% CI for the change in mean value obtained from one sample t-test.|6 weeks||-1.75|-6.83|
92207299|NCT00324116|184314766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.86||||||95.0|-9.06|-2.67|||||95% CI for the change in mean value obtained from one sample t-test.|12 weeks||-2.67|-9.06|
92207300|NCT00324116|184314766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.12||||||95.0|-16.28|-5.96|||||95% CI for the change in mean value obtained from one sample t-test.|54 weeks||-5.96|-16.28|
92207301|NCT00324116|184314767|SUPERIORITY_OR_OTHER||percentage of subjects|5.0||||||95.0|1.61|11.32|||||Proportion of subjects gaining vision was estimated on an observed case basis. Percentage denominator = total number of subjects in the FAS. 95% confidence intervals were calculated from Fleiss quadratic equations|||11.32|1.61|
92207302|NCT00324116|184314768|SUPERIORITY_OR_OTHER||percentage of subjects|22.5||||||95.0|14.22|32.11|||||Proportion of subjects maintaining vision was estimated on an observed case basis. Percentage denominator = total number of subjects in the FAS. 95% confidence intervals were calculated from Fleiss quadratic equations.|||32.11|14.22|
92207303|NCT00324116|184314769|SUPERIORITY_OR_OTHER||percentage of subjects|13.75||||||95.0|7.39|22.24|||||Proportion of subjects with severe visual loss was estimated on an observed case basis. Percentage denominator = total number of subjects in the FAS. 95% confidence intervals were calculated from Fleiss quadratic equations.|||22.24|7.39|
92207304|NCT00324116|184314770|SUPERIORITY_OR_OTHER||percentage of subjects|25.97||||||95.0|16.28|34.81|||||Proportion of subjects progressing to \<=20/200 was estimated on an observed case basis. Percentage denominator = total number of subjects in the FAS. 95% confidence intervals were calculated from Fleiss quadratic equations.|||34.81|16.28|
92207305|NCT01451827|184314801|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.98||||0.0127|TWO_SIDED|95.0|0.96|1.0|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo.||1.00|0.96|0.0127
92207306|NCT01451827|184314801|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.97||||0.0108|TWO_SIDED|95.0|0.95|0.99|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo.||0.99|0.95|0.0108
92207307|NCT01451827|184314801|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.98||||0.0155|TWO_SIDED|95.0|0.96|1.0|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo.||1.00|0.96|0.0155
92207308|NCT01451827|184314801|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.99||||0.2417|TWO_SIDED|95.0|0.97|1.01|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo.||1.01|0.97|0.2417
92207309|NCT01451827|184314802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65||||0.0002|TWO_SIDED|95.0|0.31|0.99|||ANCOVA|||Urinary Frequency||0.99|0.31|0.0002
92207310|NCT01451827|184314802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|||<|0.0001|TWO_SIDED|95.0|0.4|1.08|||ANCOVA|||Urinary Frequency||1.08|0.40|< 0.0001
92207311|NCT01451827|184314802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|||<|0.0001|TWO_SIDED|95.0|0.58|1.25|||ANCOVA|||Urinary Frequency||1.25|0.58|< 0.0001
92207312|NCT01451827|184314802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.0004|TWO_SIDED|95.0|0.3|1.01|||ANCOVA|||Urinary Urgency||1.01|0.30|0.0004
92207313|NCT01451827|184314802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65||||0.0004|TWO_SIDED|95.0|0.29|1.01|||ANCOVA|||Urinary Urgency||1.01|0.29|0.0004
92207314|NCT01451827|184314802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|||<|0.0001|TWO_SIDED|95.0|0.63|1.34|||ANCOVA|||Urinary Urgency||1.34|0.63|< 0.0001
92207315|NCT01451827|184314802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86||||0.0002|TWO_SIDED|95.0|0.42|1.3|||ANCOVA|||Nocturia||1.30|0.42|0.0002
92207316|NCT01451827|184314802|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.07|||<|0.0001|TWO_SIDED|95.0|0.63|1.51|||ANCOVA|||Nocturia||1.51|0.63|< 0.0001
92207317|NCT01451827|184314802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|||<|0.0001|TWO_SIDED|95.0|0.8|1.66|||ANCOVA|||Nocturia||1.66|0.80|< 0.0001
92207318|NCT01451827|184314803|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.97||||0.0209|TWO_SIDED|95.0|0.94|0.99|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo.||0.99|0.94|0.0209
92207319|NCT01451827|184314803|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.96||||0.0287|TWO_SIDED|95.0|0.93|1.0|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo||1.00|0.93|0.0287
92207320|NCT01451827|184314803|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.96||||0.0298|TWO_SIDED|95.0|0.93|1.0|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo||1.00|0.93|0.0298
92268708|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.4||||||95.0|-1.8|3.9||||||For serotype 23F the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||3.9|-1.8|
92207321|NCT01451827|184314803|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.98||||0.2306|TWO_SIDED|95.0|0.94|1.01|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo||1.01|0.94|0.2306
92207322|NCT03406078|184314915|SUPERIORITY||Cumulative Odds Ratio|1.28||||0.434|TWO_SIDED|95.0|0.69|2.35|||Proportional odds model|Response variable: categorised % reduction from baseline in final OCS dose. Covariates in the model: treatment, region and daily OCS dose at baseline.||||2.35|0.69|0.434
92207323|NCT00467350|184314935|SUPERIORITY_OR_OTHER_LEGACY|"Similar to previous studies, the main outcome measure was the change in the child's main symptom. Changes were determined by the question Has your child's main symptom improved, stayed the same or gotten worse? The main symptom was defined as the chief complaint identified during the triage process. For analysis, responses were dichotomized into 2 groups: improved/better versus worse/same."|||||||||||||||||A χ2 test was used to examine the difference in probabilities of experiencing an outcome between treatment arms and differences were expressed by Mantel-Haenszel common OR estimate with 95% confidence interval (CI).|||
92207324|NCT03538301|184314937|SUPERIORITY||Slope|-0.004153||||0.049|TWO_SIDED|95.0|-0.008284|-0.000021|||random coefficient model|||Slope in FVC (L/week) in the 45 mg cohort versus placebo||-0.000021|-0.008284|0.049
92207325|NCT03538301|184314937|SUPERIORITY||Slope|-0.002112||||0.316|TWO_SIDED|95.0|-0.00626|0.002036|||random coefficient model|||Slope in FVC (L/week) in the 90 mg cohort versus placebo||0.002036|-0.006260|0.316
92207326|NCT03538301|184314938|SUPERIORITY||Slope|-0.091238||||0.098|TWO_SIDED|95.0|-0.199456|0.016979|||random coefficient model|||||0.016979|-0.199456|0.098
92207327|NCT03538301|184314938|SUPERIORITY||Slope|-0.039596||||0.473|TWO_SIDED|95.0|-0.148248|0.069056|||random coefficient model|||||0.069056|-0.148248|0.473
92207328|NCT03538301|184314939|SUPERIORITY||Mean Difference (Final Values)|-0.0997||||0.049|TWO_SIDED|95.0|-0.1988|-0.0005|||random coefficient model|||Change from Baseline to Week 24 in FVC (L) in the 45 mg cohort versus placebo||-0.0005|-0.1988|0.049
92207329|NCT03538301|184314939|SUPERIORITY||Mean Difference (Final Values)|-0.0507||||0.316|TWO_SIDED|95.0|-0.1502|0.0489|||random coefficient model|||Change from Baseline to Week 24 in FVC (L) in the 90 mg cohort versus placebo||0.0489|-0.1502|0.316
92207330|NCT03538301|184314940|SUPERIORITY||Median Difference (Final Values)|-3.16||||0.668|TWO_SIDED|95.0|-17.59|11.28|||random coefficient model|||||11.28|-17.59|0.668
92207331|NCT03538301|184314940|SUPERIORITY||Median Difference (Final Values)|-1.72||||0.821|TWO_SIDED|95.0|-16.57|13.13|||random coefficient model|||||13.13|-16.57|0.821
92207332|NCT03538301|184314941|SUPERIORITY||Median Difference (Final Values)|-2.1897||||0.098|TWO_SIDED|95.0|-4.7869|0.4075|||random coefficient model|||Change from baseline to Week 24 in ppFVC||0.4075|-4.7869|0.098
92207333|NCT03538301|184314941|SUPERIORITY||Median Difference (Final Values)|-0.9503||||0.473|TWO_SIDED|95.0|-3.5579|1.6573|||random coefficient model|||Change from Baseline to Week 24 in ppFVC||1.6573|-3.5579|0.473
92207334|NCT03538301|184314942|SUPERIORITY||Median Difference (Final Values)|-2.53||||0.7|TWO_SIDED|95.0|-15.4|10.34|||random coefficient model|||||10.34|-15.40|0.700
92207335|NCT03538301|184314942|SUPERIORITY||Median Difference (Final Values)|-1.12||||0.867|TWO_SIDED|95.0|-14.31|12.07|||random coefficient model|||||12.07|-14.31|0.867
92207336|NCT03538301|184314945|SUPERIORITY||Mean Difference (Final Values)|0.146||||0.708|TWO_SIDED|95.0|-0.6226|0.9147|||random coefficient|||Change from Baseline to Week 24 in DLCO Corrected for Hemoglobin (mL/min/mmHg) in the 45 mg cohort versus placebo||0.9147|-0.6226|0.708
92207337|NCT03538301|184314945|SUPERIORITY||Mean Difference (Final Values)|0.7038||||0.074|TWO_SIDED|95.0|-0.0695|1.4771|||random coefficient|||Change from Baseline to Week 24 in DLCO Corrected for Hemoglobin (mL/min/mmHg) in the 90 mg cohort versus placebo||1.4771|-0.0695|0.074
92207338|NCT03538301|184314945|SUPERIORITY||Mean Difference (Final Values)|0.114||||0.765|TWO_SIDED|95.0|-0.6362|0.8641|||random coefficient model|||Change from Baseline to Week 24 in DLCO Not Corrected for Hemoglobin (mL/min/mmHg) in the 45 mg cohort versus placebo||0.8641|-0.6362|0.765
92207339|NCT03538301|184314945|SUPERIORITY||Mean Difference (Final Values)|0.556||||0.148|TWO_SIDED|95.0|-0.1986|1.3107|||random coefficient model|||Change from Baseline to Week 24 in DLCO Not Corrected for Hemoglobin (mL/min/mmHg) in the 90 mg cohort versus placebo||1.3107|-0.1986|0.148
92207340|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|-0.48||||0.765|TWO_SIDED|95.0|-3.68|2.71|||random coefficient model|||Change from Baseline to Week 24 in QLF Score (% of whole lung field volume) in the 45 mg cohort versus placebo||2.71|-3.68|0.765
92207341|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.37|TWO_SIDED|95.0|-1.68|4.47|||random coefficient model|||Change from Baseline to Week 24 in QLF Score (% of whole lung field volume) in the 90 mg cohort versus placebo||4.47|-1.68|0.370
92207342|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.499|TWO_SIDED|95.0|-0.7|0.34|||random coefficient model|||Change from Baseline to Week 24 in Ground Glass Opacity (% of whole lung field volume) in the 45 mg cohort versus placebo||0.34|-0.70|0.499
92207343|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.901|TWO_SIDED|95.0|-0.47|0.54|||random coefficient model|||Change from Baseline to Week 24 in Ground Glass Opacity (% of whole lung field volume) in the 90 mg cohort versus placebo||0.54|-0.47|0.901
92207344|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.676|TWO_SIDED|95.0|-2.25|3.46|||random coefficient model|||Change from Baseline to Week 24 in Reticulation (% of whole lung field volume) in the 45 mg cohort versus placebo||3.46|-2.25|0.676
92207345|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|1.64||||0.242|TWO_SIDED|95.0|-1.13|4.42|||random coefficient model|||Change from Baseline to Week 24 in Reticulation (% of whole lung field volume) in the 90 mg cohort versus placebo||4.42|-1.13|0.242
92207346|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|-1.21||||0.14|TWO_SIDED|95.0|-2.82|0.4|||random coefficient model|||Change from Baseline to Week 24 in Honeycombing (% of whole lung field volume) in the 45 mg cohort versus placebo||0.40|-2.82|0.140
92207347|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|-0.98||||0.211|TWO_SIDED|95.0|-2.53|0.56|||random coefficient model|||Change from Baseline to Week 24 in Honeycombing (% of whole lung field volume) in the 90 mg cohort versus placebo||0.56|-2.53|0.211
92207348|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.568|TWO_SIDED|95.0|-2.16|3.91|||random coefficient model|||Change from Baseline to Week 24 in Normal Lung (% of whole lung field volume) in the 45 mg cohort versus placebo||3.91|-2.16|0.568
92207349|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.573|TWO_SIDED|95.0|-3.76|2.09|||random coefficient model|||Change from Baseline to Week 24 in Normal Lung (% of whole lung field volume) in the 90 mg cohort versus placebo||2.09|-3.76|0.573
92207350|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|-3.58||||0.012|TWO_SIDED|95.0|-6.35|-0.81|||random coefficient model|||Change from Baseline to Week 24 in Emphysema (% of whole lung field volume) in the 45 mg cohort versus placebo||-0.81|-6.35|0.012
92207351|NCT03538301|184314946|SUPERIORITY||Mean Difference (Final Values)|-2.16||||0.112|TWO_SIDED|95.0|-4.82|0.51|||random coefficient model|||Change from Baseline to Week 24 in Emphysema (% of whole lung field volume) in the 90 mg cohort versus placebo||0.51|-4.82|0.112
92207352|NCT03538301|184314947|SUPERIORITY|||||||0.256|||||||Wilcoxon (Mann-Whitney)|||||||0.256
92207353|NCT03538301|184314947|SUPERIORITY|||||||0.241|||||||Wilcoxon (Mann-Whitney)|||||||0.241
92207354|NCT03538301|184314948|SUPERIORITY||Hazard Ratio (HR)|0.649||||0.517|TWO_SIDED|95.0|0.189|2.225|||Log Rank|||Time to First IPF Exacerbation or Death (weeks) in the 45 mg cohort versus placebo||2.225|0.189|0.517
92207355|NCT03538301|184314948|SUPERIORITY||Hazard Ratio (HR)|0.678||||0.506|TWO_SIDED|95.0|0.198|2.324|||Log Rank|||Time to First IPF Exacerbation or Death (weeks) in the 90 mg cohort versus placebo||2.324|0.198|0.506
92207356|NCT03538301|184314948|SUPERIORITY||Proportion Difference (Final Values)|-9.3||||0.313|TWO_SIDED|95.0|-25.2|5.5|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of First IPF Exacerbation (%) in the 45 mg cohort versus placebo||5.5|-25.2|0.313
92207357|NCT03538301|184314948|SUPERIORITY|The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Proportion Difference (Final Values)|-6.7||||0.376|TWO_SIDED|95.0|-22.6|9.2|||Chi-squared|||Rate of First IPF Exacerbation (%) in the 90 mg cohort versus placebo||9.2|-22.6|0.376
92207358|NCT03538301|184314949|SUPERIORITY||Proportion Difference (Final Values)|-4.6||||0.713|TWO_SIDED|95.0|-19.2|9.6|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Hospitalization for Respiratory Ailments (%) in the 45 mg cohort versus placebo||9.6|-19.2|0.713
92207359|NCT03538301|184314949|SUPERIORITY||Proportion Difference (Final Values)|-4.4||||0.713|TWO_SIDED|95.0|-19.2|10.7|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Hospitalization for Respiratory Ailments (%) in the 90 mg cohort versus placebo||10.7|-19.2|0.713
92207360|NCT03538301|184314950|SUPERIORITY|||||||0.937|||||||Log Rank|||Overall Survival (weeks) in the 45 mg cohort versus placebo||||0.937
92207361|NCT03538301|184314950|SUPERIORITY|||||||0.414|||||||Log Rank|||Overall Survival (weeks) in the 90 mg cohort versus placebo||||0.414
92207362|NCT03538301|184314950|SUPERIORITY||Proportion Difference (Final Values)|0.1|||>|0.999|TWO_SIDED|95.0|-10.4|10.9|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Mortality (%) in the 45 mg cohort versus placebo||10.9|-10.4|>0.999
92207363|NCT03538301|184314950|SUPERIORITY||Proportion Difference (Final Values)|-2.4|||>|0.999|TWO_SIDED|95.0|-13.1|6.8|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Mortality (%) in the 90 mg cohort versus placebo||6.8|-13.1|>0.999
92207364|NCT03538301|184314951|SUPERIORITY||Proportion Difference (Final Values)|-4.8||||0.494|TWO_SIDED|95.0|-16.6|4.6|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Deterioration of IPF Resulting in Lung Transplantation (%) in the 45 mg cohort versus placebo||4.6|-16.6|0.494
92207365|NCT03538301|184314951|SUPERIORITY||Proportion Difference (Final Values)|-4.8||||0.494|TWO_SIDED|95.0|-16.2|4.5|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Deterioration of IPF Resulting in Lung Transplantation (%) in the 90 mg cohort versus placebo||4.5|-16.2|0.494
92207366|NCT03616977|184314952|EQUIVALENCE|Bioequivalence will be concluded if the 2-sided 90% Confidence Interval is completely contained within the interval (0.80, 1.25).|Ratio of geometric least squares means|1.01|||||TWO_SIDED|90.0|0.961|1.06||||||||1.06|0.961|
92207367|NCT00515853|184314955|SUPERIORITY|||||||0.54|||||||Regression, Linear|||CCI final||||0.54
92207368|NCT03798691|184314959|SUPERIORITY|||||||0.16|||||||Mann-Whitney U test|||one month after series completion of two dose series||||0.16
92207369|NCT04548544|184314966|OTHER|||||||0.38|||||||ANOVA|||timepoint × group interaction|timepoint × group interaction F = 0.77, p = 0.38|||0.38
92207370|NCT01874431|184314991|OTHER||Least square mean ratio|0.926||||0.1973|TWO_SIDED|90.0|0.799|1.074|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an analysis of covariance (ANCOVA) with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a last-observation carried-forward (LOCF) method for missing observations.||1.074|0.799|0.1973
92207371|NCT01874431|184314991|OTHER||Least square mean ratio|0.949||||0.2808|TWO_SIDED|90.0|0.818|1.101|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||1.101|0.818|0.2808
92207372|NCT01874431|184314991|OTHER||Least square mean ratio|0.878||||0.0723|TWO_SIDED|90.0|0.758|1.017|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||1.017|0.758|0.0723
92207373|NCT01874431|184314991|OTHER||Least square mean ratio|0.787||||0.0039|TWO_SIDED|90.0|0.68|0.912|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||0.912|0.68|0.0039
92207374|NCT01874431|184314991|OTHER||Least square mean ratio|0.755||||0.0009|TWO_SIDED|90.0|0.651|0.875|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||0.875|0.651|0.0009
92207375|NCT01874431|184314991|OTHER||Least square mean ratio|0.671|||<|0.0001|TWO_SIDED|90.0|0.584|0.772|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||0.772|0.584|< 0.0001
92207376|NCT01874431|184314991|OTHER||Least square mean ratio|0.624|||<|0.0001|TWO_SIDED|90.0|0.542|0.718|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||0.718|0.542|< 0.0001
92207377|NCT01874431|184314992|OTHER||Least squares mean difference|0.107||||0.0428|TWO_SIDED|95.0|0.003|0.21|||t-test, 2 sided|||||0.21|0.003|0.0428
92207378|NCT01874431|184314992|OTHER||Least squares mean difference|0.121||||0.0223|TWO_SIDED|95.0|0.017|0.225|||t-test, 2 sided|||||0.225|0.017|0.0223
92207379|NCT01874431|184314992|OTHER||Least squares mean difference|0.2||||0.0002|TWO_SIDED|95.0|0.096|0.305|||t-test, 2 sided|||||0.305|0.096|0.0002
92207380|NCT01874431|184314992|OTHER||Least squares mean difference|0.125||||0.0181|TWO_SIDED|95.0|0.021|0.229|||t-test, 2 sided|||||0.229|0.021|0.0181
92207381|NCT01874431|184314992|OTHER||Least squares mean difference|0.166||||0.0019|TWO_SIDED|95.0|0.061|0.27|||t-test, 2 sided|||||0.27|0.061|0.0019
92207382|NCT01874431|184314992|OTHER||Least squares mean difference|0.236|||<|0.0001|TWO_SIDED|95.0|0.137|0.334|||t-test, 2 sided|||||0.334|0.137|< 0.0001
92207383|NCT01874431|184314992|OTHER||Least squares mean difference|0.186||||0.0002|TWO_SIDED|95.0|0.088|0.284|||t-test, 2 sided|||||0.284|0.088|0.0002
92207384|NCT01874431|184314993|OTHER||Least squares mean difference|-0.786||||0.5454|TWO_SIDED|95.0|-3.337|1.765|||t-test, 2 sided|||||1.765|-3.337|0.5454
92207385|NCT01874431|184314993|OTHER||Least squares mean difference|-1.61||||0.2186|TWO_SIDED|95.0|-4.177|0.957|||t-test, 2 sided|||||0.957|-4.177|0.2186
92207386|NCT01874431|184314993|OTHER||Least squares mean difference|-0.918||||0.4859|TWO_SIDED|95.0|-3.503|1.667|||t-test, 2 sided|||||1.667|-3.503|0.4859
92207387|NCT01874431|184314993|OTHER||Least squares mean difference|-1.8||||0.1677|TWO_SIDED|95.0|-4.358|0.759|||t-test, 2 sided|||||0.759|-4.358|0.1677
92207388|NCT01874431|184314993|OTHER||Least squares mean difference|-2.613||||0.0462|TWO_SIDED|95.0|-5.183|-0.044|||t-test, 2 sided|||||-0.044|-5.183|0.0462
92207389|NCT01874431|184314993|OTHER||Least squares mean difference|-2.228||||0.0705|TWO_SIDED|95.0|-4.643|0.187|||t-test, 2 sided|||||0.187|-4.643|0.0705
92207390|NCT01874431|184314993|OTHER||Least squares mean difference|-2.446||||0.048|TWO_SIDED|95.0|-4.869|-0.022|||t-test, 2 sided|||||-0.022|-4.869|0.048
92207391|NCT01874431|184314994|OTHER||Least square mean difference|-2.863||||0.0757|TWO_SIDED|95.0|-6.022|0.297|||t-test, 2 sided|||||0.297|-6.022|0.0757
92207392|NCT01874431|184314994|OTHER||Least square mean difference|-0.643||||0.6941|TWO_SIDED|95.0|-3.851|2.565|||t-test, 2 sided|||||2.565|-3.851|0.6941
92207393|NCT01874431|184314994|OTHER||Least square mean difference|-1.976||||0.2228|TWO_SIDED|95.0|-5.155|1.203|||t-test, 2 sided|||||1.203|-5.155|0.2228
92207394|NCT01874431|184314994|OTHER||Least square mean difference|-1.932||||0.2313|TWO_SIDED|95.0|-5.098|1.234|||t-test, 2 sided|||||1.234|-5.098|0.2313
92207395|NCT01874431|184314994|OTHER||Least square mean difference|-3.342||||0.0386|TWO_SIDED|95.0|-6.509|-0.176|||t-test, 2 sided|||||-0.176|-6.509|0.0386
92207396|NCT01874431|184314994|OTHER||Least square mean difference|-0.634||||0.677|TWO_SIDED|95.0|-3.624|2.355|||t-test, 2 sided|||||2.355|-3.624|0.677
92207397|NCT01874431|184314994|OTHER||Least square mean difference|-0.688||||0.6536|TWO_SIDED|95.0|-3.699|2.322|||t-test, 2 sided|||||2.322|-3.699|0.6536
92207398|NCT01874431|184314995|OTHER||Least square mean difference|-3.044||||0.0816|TWO_SIDED|95.0|-6.471|0.383|||t-test, 2 sided|||||0.383|-6.471|0.0816
92207399|NCT01874431|184314995|OTHER||Least square mean difference|-0.537||||0.7625|TWO_SIDED|95.0|-4.027|2.953|||t-test, 2 sided|||||2.953|-4.027|0.7625
92207400|NCT01874431|184314995|OTHER||Least square mean difference|-1.301|||=|0.4603|TWO_SIDED|95.0|-4.759|2.157|||t-test, 2 sided|||||2.157|-4.759|= 0.4603
92207401|NCT01874431|184314995|OTHER||Least square mean difference|-1.574||||0.3678|TWO_SIDED|95.0|-5.004|1.855|||t-test, 2 sided|||||1.855|-5.004|0.3678
92207402|NCT01874431|184314995|OTHER||Least square mean difference|-1.727||||0.3279|TWO_SIDED|95.0|-5.191|1.736|||t-test, 2 sided|||||1.736|-5.191|0.3279
92207403|NCT01874431|184314995|OTHER||Least square mean difference|-1.682||||0.3102|TWO_SIDED|95.0|-4.935|1.57|||t-test, 2 sided|||||1.57|-4.935|0.3102
92207404|NCT01874431|184314995|OTHER||Least square mean difference|-2.511||||0.1317|TWO_SIDED|95.0|-5.778|0.755|||t-test, 2 sided|||||0.755|-5.778|0.1317
92207405|NCT02469389|184315016|SUPERIORITY|Based on randomization to treatment condition, the model assumed no differences at BL (any difference was assumed due to random sampling error).||||||0.295|||||||Mixed Models Analysis|Post-hoc mixed effects model analyses of all outcomes were performed adjusting for BL CAINS MAP score.||Analyses of the primary and secondary outcomes utilized a linear mixed effects model accounting for random therapy group effects and included all available data at baseline (BL), post-treatment (PT; 12-week), and follow-up (FU; 24-week) timepoints (TPs). Error terms across TPs were assumed correlated with unstructured correlation matrix. To test time specific hypotheses, terms in the mean model included separate indicators for PT \& FU \& interaction terms between these indicators and conditions.||||0.295
92207406|NCT02469389|184315017|SUPERIORITY|||||||0.182|||||||Mixed Models Analysis|||||||0.182
92207407|NCT02469389|184315018|SUPERIORITY|||||||0.114|||||||Mixed Models Analysis|||||||0.114
92207408|NCT02469389|184315019|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|||||||0.220
92207409|NCT02469389|184315020|SUPERIORITY|||||||0.018|||||||Mixed Models Analysis|||||||0.018
92207410|NCT02469389|184315021|SUPERIORITY|||||||0.903|||||||Mixed Models Analysis|||||||0.903
92207411|NCT02469389|184315022|SUPERIORITY|||||||0.535|||||||Mixed Models Analysis|||||||0.535
92207412|NCT02469389|184315023|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.010
92207413|NCT02469389|184315024|SUPERIORITY|||||||0.692|||||||Mixed Models Analysis|||||||0.692
92207414|NCT02469389|184315025|SUPERIORITY|||||||0.498|||||||Mixed Models Analysis|||||||0.498
92207415|NCT02469389|184315026|SUPERIORITY|||||||0.079|||||||Mixed Models Analysis|||||||0.079
92207416|NCT02469389|184315027|SUPERIORITY|||||||0.539|||||||Mixed Models Analysis|||||||0.539
92207417|NCT01079663|184315035|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.1629|TWO_SIDED|95.0|-1.19|0.2|||Mixed Models Analysis|||||0.20|-1.19|0.1629
92207418|NCT01079663|184315036|SUPERIORITY||Mean Difference (Final Values)|-0.76||||0.0347|TWO_SIDED|95.0|-1.46|-0.06|||Mixed Models Analysis|||||-0.06|-1.46|0.0347
92207419|NCT01014143|184315046|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
92207420|NCT03536143|184315109|SUPERIORITY|||||||0.0216|||||||Log Rank|||||||0.0216
92207421|NCT03536143|184315110|SUPERIORITY|||||||0.0009|||||||Log Rank|||||||0.0009
92207422|NCT01878214|184315111|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Chi-squared|||||||0.76
92207423|NCT01878214|184315112|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||Regression, Logistic|||||||0.79
92207424|NCT01878214|184315113|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||Regression, Logistic|||Smoking frequency||||0.63
92207425|NCT01878214|184315113|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Regression, Logistic|||Smoking quantity||||0.30
92207426|NCT01878214|184315114|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Regression, Logistic|||||||0.28
92207427|NCT01878214|184315115|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Regression, Logistic|||Motivation to quit||||0.09
92207428|NCT01878214|184315115|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Regression, Logistic|||Thinking about quitting||||0.04
92207429|NCT03038438|184315116|OTHER|Single arm study with a hypothesis test comparing to performance goal|Proportion|88.0|||<|0.0001|ONE_SIDED|97.5|82.5||||Fisher Exact|||"The primary effectiveness endpoint, primary patency at 12 months, was tested against a PG of 75%. The null and alternative hypotheses tested appear below:~H0: π ≤ PG vs. HA: π \> PG where π is the primary patency rate at 12 months in the study population and PG is the performance goal of 75%. The primary effectiveness objective will be met if the lower limit of the 97.5% one-sided confidence interval is above 75%."|||82.5|<0.0001
92207430|NCT03038438|184315117|OTHER|Single-arm study with a hypothesis test comparing to performance goal|Proportion|2.0|||<|0.0001|ONE_SIDED|97.5||5.0|||Fisher Exact|||"The primary safety endpoint, major adverse events at 30 days post-procedure, was tested against a performance goal of 12.5%. The null and alternative hypotheses tested appear below:~H0: P ≥ PG vs. HA: P \< PG where P is the primary safety endpoint at 30 days in the study population and PG is the performance goal.~The primary safety objective will be met if the upper limit of the 97.5% one-sided confidence interval is below 12.5%."||5.0||<0.0001
92207431|NCT00871780|184315172|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Wilcoxon signed rank test|||Baseline, Week 24||||0.0003
92207432|NCT00871780|184315172|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Wilcoxon signed rank test|||Baseline, Week 48||||0.0002
92207433|NCT00871780|184315173|SUPERIORITY_OR_OTHER|||||||0.0148|||||||Wilcoxon signed rank test|||Baseline, Week 24||||0.0148
92207434|NCT00871780|184315173|SUPERIORITY_OR_OTHER|||||||0.0119|||||||Wilcoxon signed rank test|||Baseline, Week 48||||0.0119
92207435|NCT00871780|184315174|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon signed rank test|||Baseline, Week 24||||<0.0001
92207436|NCT00871780|184315174|SUPERIORITY_OR_OTHER|||||||0.0157|TWO_SIDED||||||Wilcoxon signed rank test|||Baseline, Week 48||||0.0157
92207437|NCT00871780|184315175|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon signed rank test|||Baseline, Week 24||||<0.0001
92207438|NCT00871780|184315175|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon signed rank test|||Baseline, Week 48||||<0.0001
92207439|NCT00871780|184315176|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Baseline||||<0.0001
92207440|NCT00871780|184315176|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 24||||<0.0001
92207441|NCT00871780|184315176|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 48||||<0.0001
92207442|NCT00871780|184315177|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Baseline||||<0.0001
92207443|NCT00871780|184315177|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 24||||<0.0001
92207444|NCT00871780|184315177|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 48||||<0.0001
92207445|NCT00871780|184315178|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Baseline||||<0.0001
92207446|NCT00871780|184315178|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 24||||<0.0001
92207447|NCT00871780|184315178|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 48||||<0.0001
92207448|NCT00871780|184315179|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Baseline||||<0.0001
92207449|NCT00871780|184315179|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 24||||<0.0001
92207450|NCT00871780|184315179|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 48||||<0.0001
92207451|NCT00871780|184315180|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Baseline||||<0.0001
92207452|NCT00871780|184315180|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 24||||<0.0001
92207453|NCT00871780|184315180|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 48||||<0.0001
92207454|NCT00871780|184315181|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Baseline||||<0.0001
92207455|NCT00871780|184315181|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 24||||<0.0001
92207456|NCT00871780|184315181|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 48||||<0.0001
92207457|NCT00871780|184315182|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Baseline||||<0.0001
92207458|NCT00871780|184315182|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 24||||0.0016
92207459|NCT00871780|184315182|SUPERIORITY_OR_OTHER|||||||0.0866|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 48||||0.0866
92207460|NCT00871780|184315183|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Baseline||||<0.0001
92207461|NCT00871780|184315183|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 24||||<0.0001
92207462|NCT00871780|184315183|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 48||||<0.0001
92207463|NCT03406260|184315198|NON_INFERIORITY|A p-value \< 0.05 indicates lasmiditan can be declared noninferior to placebo with noninferiority margin of 10 mmHg, i.e. the difference lasmiditan mean minus placebo mean is less than 10 mmHg.|LS Mean Difference (Final Vaules)|-1.63|||<|0.0001|TWO_SIDED|95.0|-1000.0|1.81|||Linear Mixed Effects Model|||||1.81|-1000|<0.0001
92207464|NCT03406260|184315198|NON_INFERIORITY|A p-value \< 0.05 indicates lasmiditan can be declared noninferior to placebo with noninferiority margin of 10 mmHg, i.e. the difference lasmiditan mean minus placebo mean is less than 10 mmHg.|LS Mean Difference (Final Vaules)|-1.35|||<|0.0001|TWO_SIDED|95.0|-1000.0|2.06|||Linear Mixed Effects Model|||||2.06|-1000|<0.0001
92207465|NCT00523640|184315289|SUPERIORITY_OR_OTHER||Proportion responding|0.24|||||TWO_SIDED|95.0|0.1|0.44||||||||0.44|0.10|
92207466|NCT06377488|184315292|SUPERIORITY||least-square mean estimate|-0.085|STANDARD_ERROR_OF_MEAN|0.0139|||TWO_SIDED|95.0|-0.115|-0.056|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Visual Acuity scores at distance was estimated using 95% confidence intervals (CI) constructed for the least-square mean (LSM).|It was calculated using a 1-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 9, 6 and 29 subjects were required to test the primary hypotheses for distance, intermediate and near, respectively.||-0.056|-0.115|
92207467|NCT06377488|184315292|SUPERIORITY||least-square mean estimate|-0.023|STANDARD_ERROR_OF_MEAN|0.0131|||TWO_SIDED|95.0|-0.05|0.005|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Visual Acuity scores at intermediate was estimated using 95% confidence intervals (CI) constructed for the least-square mean (LSM).|It was calculated using a 1-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 9, 6 and 29 subjects were required to test the primary hypotheses for distance, intermediate and near, respectively.||0.005|-0.050|
92207468|NCT06377488|184315292|SUPERIORITY||least-square mean estimate|0.083|STANDARD_ERROR_OF_MEAN|0.0152|||TWO_SIDED|95.0|0.051|0.116|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Visual Acuity scores at near was estimated using 95% confidence intervals (CI) constructed for the least-square mean (LSM).|It was calculated using a 1-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 9, 6 and 29 subjects were required to test the primary hypotheses for distance, intermediate and near, respectively.||0.116|0.051|
92207469|NCT06377488|184315293|SUPERIORITY||Mean Population Estimate|62.1|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|56.7|67.5|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for myopes only using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a 1-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 23 and 29 subjects were required to test for superiority for CLUE vision scores for hyperopes and myopes, respectively.||67.5|56.7|
92207470|NCT06377488|184315293|SUPERIORITY||Mean Population Estimate|57.8|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|51.7|64.0|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for hyperopes only using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a 1-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 23 and 29 subjects were required to test for superiority for CLUE vision scores for hyperopes and myopes, respectively.||64.0|51.7|
92207471|NCT06377488|184315294|SUPERIORITY||Central Posterior Mean Estimate|0.943|STANDARD_DEVIATION|0.0155|||TWO_SIDED|95.0|0.908|0.968|||Bayesian beta-binomial model|Bayesian beta-binomial model with correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.902 and an intraclass correlation of 0.70, that 140 subjects were required to test for superiority to achieve a minimum statistical power of 96% with 95% central posterior credible interval.||0.968|0.908|
92207472|NCT06377488|184315295|SUPERIORITY||Central Posterior Mean Estimate|0.988|STANDARD_DEVIATION|0.0058|||TWO_SIDED|95.0|0.974|0.997|||Bayesian beta-binomial model|Bayesian beta-binomial model with correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.99 and an intraclass correlation of 0.70, that 140 subjects were required to test for superiority to achieve a minimum statistical power of 96% with 95% central posterior credible interval.||0.997|0.974|
92207473|NCT06377488|184315296|SUPERIORITY||Central Posterior Mean Estimate|0.006|STANDARD_DEVIATION|0.0047|||TWO_SIDED|95.0|0.0|0.017|||Bayesian beta-binomial model|Bayesian beta-binomial model with correlated binary data||It was calculated that 140 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible.||0.017|0.000|
92207474|NCT06377488|184315297|SUPERIORITY||Central Posterior Mean Estimate|0.003|STANDARD_DEVIATION|0.0029|||TWO_SIDED|95.0|0.0|0.011|||Bayesian beta-binomial model|Bayesian beta-binomial model with correlated binary data||It was calculated that 140 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible.||0.011|0.000|
92207475|NCT06377488|184315298|SUPERIORITY||Least-square mean estimate|57.8|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|51.7|64.0|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|This is the analysis for hyperopes only. Mean estimates were conducted using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 42 and 55 subjects were required to test for superiority for CLUE vision scores for hyperopes and myopes, respectively.||64.0|51.7|
92207476|NCT06377488|184315298|SUPERIORITY||Least-square mean estimate|62.1|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|56.7|67.5|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|This is the analysis for myopes only. Mean estimates were conducted using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 42 and 55 subjects were required to test for superiority for CLUE vision scores for hyperopes and myopes, respectively.||67.5|56.7|
92268709|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|0.5||||||95.0|-1.9|4.4||||||For serotype 23F the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||4.4|-1.9|
92327511|NCT05127304|184560191|OTHER|||||||0.123|||||||Weighted clustered linear regression|||Office visits costs||||0.123
92207477|NCT06377488|184315299|SUPERIORITY||Mean Population Estimate|64.7|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|58.6|70.8|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for hyperopes using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 23 and 46 subjects were required to test for superiority for CLUE comfort scores for hyperopes and myopes, respectively.||70.8|58.6|
92207478|NCT06377488|184315299|SUPERIORITY||Mean Population Estimate|64.2|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|95.0|59.0|69.5|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for myopes using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 23 and 46 subjects were required to test for superiority for CLUE comfort scores for hyperopes and myopes, respectively.||69.5|59.0|
92207479|NCT06377488|184315300|SUPERIORITY||Mean Population Estimate|67.9|STANDARD_ERROR_OF_MEAN|2.79|||TWO_SIDED|95.0|62.2|73.5|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for hyperopes using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 15 and 26 subjects were required to test for superiority for CLUE handling scores for hyperopes and myopes, respectively.||73.5|62.2|
92207480|NCT06377488|184315300|SUPERIORITY||Mean Population Estimate|67.0|STANDARD_ERROR_OF_MEAN|2.32|||TWO_SIDED|95.0|62.2|71.8|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for myopes using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 15 and 26 subjects were required to test for superiority for CLUE handling scores for hyperopes and myopes, respectively.||71.8|62.2|
92207481|NCT06377488|184315301|SUPERIORITY||Central Posterior Mean Estimate|0.966|STANDARD_DEVIATION|0.0135|||TWO_SIDED|95.0|0.933|0.988|||Bayesian beta-binomial model|Bayesian beta-binomial model with correlated binary data.||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.99 and an intraclass correlation of 0.70 with 5000 replicating trials, that 140 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible.||0.988|0.933|
92207482|NCT02065687|184315320|EQUIVALENCE|The null hypothesis is that there is no relationship between BMI and metformin treatment (i.e. the parameter associated with the interaction term of BMI \* treatment is equal to 0).|Cox Proportional Hazard|-0.01787|STANDARD_ERROR_OF_MEAN|0.27472||0.9482|TWO_SIDED||||||Regression, Cox|||The interaction between BMI and metformin treatment will be examined with an interaction term in a Cox proportional hazards model. Historical data indicate that approximately 50% of people are obese (BMI\>=30). For the purposes of examining the relationship, we will classify patients into two levels (high versus low) at the median BMI, which will increase the likelihood of detecting an interaction between metformin treatment and obesity.||||0.9482
92207483|NCT04494256|184315344|SUPERIORITY||Least square (LS) mean difference|-0.1|STANDARD_ERROR_OF_MEAN|7.84|=|0.9924|TWO_SIDED|95.0|-15.47|15.32||ANCOVA model included: treatment as a fixed effect and adjusted for the following covariates: baseline disease duration since symptom onset, baseline percent predicted SVC, baseline plasma NfL, and use of riluzole or edaravone.|ANCOVA|||||15.32|-15.47|=0.9924
92207484|NCT04494256|184315345|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|2.01|=|0.9203|TWO_SIDED|95.0|-4.14|3.74||ANCOVA model included: treatment as a fixed effect and adjusted for the following covariates: baseline disease duration since symptom onset, baseline percent predicted SVC, baseline plasma NfL, and use of riluzole or edaravone.|ANCOVA|||||3.74|-4.14|=0.9203
92207485|NCT04494256|184315346|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12|=|0.1069|TWO_SIDED|95.0|-0.41|0.04||ANCOVA model included: treatment as a fixed effect and adjusted for the following covariates: baseline disease duration since symptom onset, baseline percent predicted SVC, baseline plasma NfL, and use of riluzole or edaravone.|ANCOVA|||||0.04|-0.41|=0.1069
92207486|NCT04494256|184315347|SUPERIORITY||Hazard Ratio (HR)|4.29|||=|0.1003|TWO_SIDED|95.0|0.433|42.587|||Log Rank|Log rank test stratified by median baseline plasma NfL||||42.587|0.433|=0.1003
92207487|NCT04494256|184315348|SUPERIORITY||||||=|0.1143|||||||Kaplan-Meier product limit method|||||||=0.1143
92207488|NCT02483585|184315353|SUPERIORITY|A sequential testing procedure, specifically, the hierarchical gate-keeping procedures and Hochberg method, was used to maintain the 2-sided study-wise type I error at 0.05 between the primary and efficacy secondary endpoints.|LS Mean Difference|-1.04|||<|0.001|TWO_SIDED|95.0|-1.61|-0.47|||Generalized Linear Mixed Model|||The primary endpoint was analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and prior/current treatment with migraine prophylactic medication), scheduled visit, and the interaction of treatment group with scheduled visit.||-0.47|-1.61|< 0.001
92207489|NCT02483585|184315354|SUPERIORITY||Odds Ratio (OR)|1.59||||0.01|TWO_SIDED|95.0|1.12|2.27|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel (CMH) test after the missing data were imputed as nonresponse, stratified by stratification factors (region and prior/current treatment with migraine prophylactic medication).||2.27|1.12|0.010
92207490|NCT02483585|184315355|SUPERIORITY||LS Mean Difference|-0.59||||0.002|TWO_SIDED|95.0|-0.96|-0.21|||Generalized Linear Mixed Model|||Analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and prior/current treatment with migraine prophylactic medication), scheduled visit, and the interaction of treatment group with scheduled visit.||-0.21|-0.96|0.002
92207491|NCT02483585|184315356|SUPERIORITY||Odds Ratio (OR)|1.22||||0.26|TWO_SIDED|95.0|0.87|1.71|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel (CMH) test after the missing data were imputed as nonresponse, stratified by stratification factors (region and prior/current treatment with migraine prophylactic medication).||1.71|0.87|0.26
92207492|NCT02483585|184315357|SUPERIORITY||Odds Ratio (OR)|1.33||||0.13|TWO_SIDED|95.0|0.92|1.9|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel (CMH) test after the missing data were imputed as nonresponse, stratified by stratification factors (region and prior/current treatment with migraine prophylactic medication).||1.90|0.92|0.13
92207493|NCT00825916|184315368|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.078
92207494|NCT00825916|184315368|SUPERIORITY_OR_OTHER|||||||0.086||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.086
92207495|NCT00825916|184315368|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.92
92207496|NCT00825916|184315368|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.49
92207497|NCT00825916|184315369|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.74
92207498|NCT00825916|184315369|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.59
92327512|NCT05127304|184560191|OTHER|||||||0.003|||||||Weighted clustered linear regression|||Outpatient visits costs||||0.003
92327513|NCT05127304|184560191|OTHER|||||||0.17|||||||Weighted clustered linear regression|||Emergency room visits costs||||0.170
92207499|NCT00825916|184315369|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.69
92207500|NCT00825916|184315369|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||1.00
92207501|NCT00825916|184315370|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.34
92207502|NCT00825916|184315370|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.98
92207503|NCT00825916|184315370|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.15
92207504|NCT00825916|184315370|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.83
92207505|NCT00825916|184315370|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.95
92207506|NCT00825916|184315370|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.59
92327514|NCT05127304|184560191|OTHER|||||||0.582|||||||Weighted clustered linear regression|||Inpatient stay costs||||0.582
92327515|NCT05127304|184560191|OTHER|||||||0.887|||||||Weighted clustered linear regression|||Other medical costs||||0.887
92327516|NCT05127304|184560191|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Pharmacy costs||||<0.001
92327517|NCT05127304|184560191|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Total (medical + pharmacy) costs||||<0.001
92207507|NCT00825916|184315370|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.76
92207508|NCT00825916|184315370|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.63
92327518|NCT05127304|184560192|OTHER|||||||0.205|||||||Weighted clustered linear regression|||Any COPD exacerbation||||0.205
92207509|NCT00825916|184315370|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.92
92207510|NCT00825916|184315370|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.69
92207511|NCT00825916|184315371|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED|95.0|||||Wilcoxon (signed rank)|For this early phase study, no adjustment was used.||||||0.95
92207512|NCT00825916|184315371|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.76
92207513|NCT00825916|184315371|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.60
92207514|NCT00825916|184315371|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.44
92207515|NCT00825916|184315371|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.85
92207516|NCT00825916|184315371|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.83
92207517|NCT01778023|184315372|SUPERIORITY_OR_OTHER||Treatment Difference|5.15|||<|0.0001|TWO_SIDED|95.0|4.09|6.21|||ANOVA|The HV after 6 months of treatment was analysed using an ANCOVA method with group and sex as fixed effects, and age as a covariate.||Let D be a mean difference of the primary endpoint between group A and group B. Null hypothesis H0: D = 0 vs. alternative H1: D ≠ 0 will be statistically tested by an ANOVA model.||6.21|4.09|<0.0001
92207518|NCT01090427|184315425|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
92207519|NCT01090427|184315425|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
92207520|NCT01090427|184315426|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
92207521|NCT01090427|184315426|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
92207522|NCT01090427|184315427|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] will be used as factors in the model.||||||0.003
92207523|NCT01090427|184315427|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] will be used as factors in the model.||||||<0.001
92207524|NCT01090427|184315428|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
92327519|NCT05127304|184560192|OTHER|||||||0.454|||||||Weighted clustered linear regression|||Severe COPD exacerbation||||0.454
92327520|NCT05127304|184560193|OTHER|||||||0.06|||||||Rao-Scott test|||||||0.060
92327521|NCT00191282|184560224|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.866||95.0|||||Log Rank|||To achieve 80% power, 490 pts need to experience primary combined CV outcome to detect diff. between treatments, assuming: \>=18.5% reduction in incidence of outcomes, 18 mo. pt recruitment, 18 mo. pt follow-up, 10% annual drop-out rate, 2-yr outcome incidence rate of \>=40% (pts in least efficacious treatment), and nominal 2-sided signif. of 0.045.||||0.866
92207525|NCT01090427|184315428|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
92207526|NCT01090427|184315429|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PGA of 0||||<0.001
92207527|NCT01090427|184315429|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PGA of 0||||<0.001
92207528|NCT01090427|184315429|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PGA of 0, 1, or 2||||<0.001
92207529|NCT01090427|184315429|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PGA of 0, 1, or 2||||<0.001
92207530|NCT01090427|184315430|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PASI 50 responders||||<0.001
92207531|NCT01090427|184315430|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PASI 50 responders||||<0.001
92268710|NCT00366678|184439305|SUPERIORITY_OR_OTHER||Difference|-0.1||||||95.0|-4.1|3.7||||||For serotype 23F the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||3.7|-4.1|
92207532|NCT01090427|184315430|SUPERIORITY_OR_OTHER|||||||0.014|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||Participants with PASI score of 0||||0.014
92207533|NCT01090427|184315430|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||Participants with PASI score of 0||||<0.001
92207534|NCT01090427|184315431|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Total Scale Score||||0.003
92207535|NCT01090427|184315431|SUPERIORITY_OR_OTHER|||||||0.028|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Total Scale Score||||0.028
92207536|NCT01090427|184315431|SUPERIORITY_OR_OTHER|||||||0.005|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Psychosocial health summary score||||0.005
92207537|NCT01090427|184315431|SUPERIORITY_OR_OTHER|||||||0.063|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Psychosocial health summary score||||0.063
92207538|NCT01090427|184315431|SUPERIORITY_OR_OTHER|||||||0.007|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Physical health summary score||||0.007
92207539|NCT01090427|184315431|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Physical health summary score||||0.020
92207540|NCT01090427|184315432|SUPERIORITY_OR_OTHER|||||||0.027|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||0.027
92207541|NCT01090427|184315432|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
92207542|NCT02891837|184315547|OTHER|||||||0.493|||||||Wilcoxon (Mann-Whitney)|||||||0.4930
92207543|NCT02891837|184315549|OTHER|||||||0.1924|||||||Wilcoxon (Mann-Whitney)|||||||0.1924
92207544|NCT02891837|184315550|OTHER|||||||0.8678|||||||Wilcoxon (Mann-Whitney)|||||||0.8678
92207545|NCT02891837|184315557|OTHER|||||||0.6422|||||||Wilcoxon (Mann-Whitney)|||||||0.6422
92207546|NCT02891837|184315558|OTHER|||||||0.7572|||||||Wilcoxon (Mann-Whitney)|||||||0.7572
92207547|NCT02891837|184315560|OTHER|||||||0.3681|||||||Wilcoxon (Mann-Whitney)|||||||0.3681
92207548|NCT02891837|184315564|OTHER|"Sample size calculated with nQuery 7.0. Assumed standard deviation = 50 h, \& mean values of 44 h (placebo) \& 14 h (L-citrulline group), estimated effect size = 0.600, yielding a sample size N=92/group (two-sided Wilcoxon-rank-sum test with 0.01 significance level and 90% power). Assumptions for standard deviation \& mean based on Study CIT-002-01 results.~To allow for subjects being enrolled but not assigned to the full analysis set (FAS), an overall N=95 subjects per group were to be enrolled."|Location shift|219.0||||0.156|TWO_SIDED|95.0|-88.0|626.0||The threshold for statistical significance was p = 0.05|Wilcoxon (Mann-Whitney)||Treatment difference = L-citrulline - placebo For the mean and median values, that the estimated values are given in minutes \[min\]|H0: Composite endpoint in L-citrulline group = placebo group H1: Composite endpoint in L-citrulline group ≠ placebo group H0 tested using Wilcoxon-rank-sum test. Significance level = 1% (2-sided).||626.0|-88.0|0.1560
92207549|NCT02891837|184315564|OTHER||Location shift|813.1||||0.1627|TWO_SIDED|95.0|-335.5|1961.6||The threshold for statistical significance was 0.05.|t-test, 2 sided|The results of the T-test should be interpreted with caution since the endpoint is not normally distributed.|Treatment difference = L-citrulline - placebo. For the mean and median values, the estimated values are given in minutes|Post hoc analyses were done for US patients on mechanical ventilation for \<=48 hours. For all post hoc analyses a significance level of 5% was applied.||1961.6|-335.5|0.1627
92327522|NCT00191282|184560225|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.715||95.0|||||Log Rank|||||||0.715
92327523|NCT00191282|184560226|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.914||95.0|||||Log Rank|||||||0.914
92268711|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.87||||||95.0|0.73|1.03||||||For serotype 4 after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.03|0.73|
92268712|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.83||||||95.0|0.67|1.03||||||For serotype 4 after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.03|0.67|
92327524|NCT00191282|184560227|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.706||95.0|||||Log Rank|||||||0.706
92327525|NCT00191282|184560228|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.982||95.0|||||Log Rank|||||||0.982
92327526|NCT00191282|184560229|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.816||95.0|||||Log Rank|||||||0.816
92207550|NCT02891837|184315572|OTHER|||||||0.0326||||||The threshold for statistical significance was 0.05.|ANOVA|||"Values at 48 hours post-surgery start for all US patients on ventilation for ≤48 hours are presented.~Treatment group, baseline values and site were included as fixed factors, site\*treatment as interaction terms in this ANOVA. The normality assumption of residuals is critical for all considered timepoints. Please interpret results with caution."||||0.0326
92207551|NCT02891837|184315572|OTHER|||||||0.0026||||||The threshold for statistical significance was 0.05.|ANOVA|||"Values at 48 hours post-surgery start for ALL patients on ventilation for ≤48 hours are presented.~Treatment group, baseline values and site were included as fixed factors, site\*treatment as interaction terms in this ANOVA. The normality assumption of residuals is critical for all considered timepoints. Please interpret results with caution."||||0.0026
92207552|NCT00943111|184315589|NON_INFERIORITY_OR_EQUIVALENCE|The sample size for study was based on expected stability rates of 95% for the Imiglucerase group and 85% for the Eliglustat group, power of 85%, a one-sided significance level of 0.025, a non-inferiority margin of 25%, and a 20% non-evaluable/drop-out rate. Eliglustat was declared non-inferior to Imiglucerase if the lower-bound of the 95% confidence interval for the difference was within the non-inferiority margin of 25%.|Difference in Percentage Stable|-8.8|||||TWO_SIDED|95.0|-17.6|4.2||||||||4.2|-17.6|
92207553|NCT05326815|184315650|OTHER|Spearman Correlation.|||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92207554|NCT00728910|184315651|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED||||||Mixed Models Analysis|||Null hypothesis was that the sequential addition of a fibrate and niacin to baseline atorvastatin therapy would not have any effect on apo-AI catabolism.||||>0.5
92207555|NCT00728910|184315652|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis was that sequential addition of fibrate and niacin to baseline atorvastatin therapy would have no effect on apo-A1 production rates||||>0.5
92327527|NCT00191282|184560230|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.948||95.0|||||Log Rank|||||||0.948
92327528|NCT00191282|184560231|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.581||95.0|||||Log Rank|||||||0.581
92327529|NCT00191282|184560232|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.647||95.0|||||Log Rank|||||||0.647
92327530|NCT00191282|184560233|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.525||95.0|||||Log Rank|||||||0.525
92207556|NCT00728910|184315653|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Mixed Models Analysis|||Null hypothesis was that sequential addition of fibrate and niacin to baseline atorvastatin therapy would have no effect on post-prandial triglyceride levels following an oral fat load||||<0.0005
92207557|NCT00728910|184315653|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0005
92207558|NCT04155203|184315654|EQUIVALENCE|The primary efficacy endpoint was the proportion of subjects in each treatment group with clinical cure, defined as a SIRS score of 0 for all signs and symptoms at Visit 4/Follow-up (7 days after the end of treatment).|equivalence ratio|0.97|||||TWO_SIDED|90.0|-8.19|2.7||||||||2.70|-8.19|
92207559|NCT02502097|184315827|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-2.5||||0.5096|TWO_SIDED|95.0|-10.1|5.1|||Mixed Models Analysis||LS mean difference Day 7|||5.1|-10.1|0.5096
92207560|NCT02502097|184315827|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-0.8||||0.8983|TWO_SIDED|95.0|-13.4|11.8|||Mixed Models Analysis||LS mean difference Day 14|||11.8|-13.4|0.8983
92207561|NCT02502097|184315831|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-3.7||||0.5005|TWO_SIDED|95.0|-14.6|7.2|||Mixed Models Analysis||LS means difference Day 7|||7.2|-14.6|0.5005
92207562|NCT02502097|184315831|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-1.8||||0.8382|TWO_SIDED|95.0|-19.8|16.1|||Mixed Models Analysis||LS means difference Day 14|||16.1|-19.8|0.8382
92207563|NCT02502097|184315832|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-1.3||||0.8008|TWO_SIDED|95.0|-11.9|9.2|||Mixed Models Analysis||LS means difference Day 7|||9.2|-11.9|0.8008
92207564|NCT02502097|184315832|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|0.2||||0.9805|TWO_SIDED|95.0|-17.6|18.0|||Mixed Models Analysis||LS means difference Day 14|||18.0|-17.6|0.9805
92327531|NCT00191282|184560234|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.8||95.0|||||Log Rank|||||||0.800
92327532|NCT00191282|184560235|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.662||95.0|||||Log Rank|||||||0.662
92327533|NCT00191282|184560236|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.863||95.0|||||Log Rank|||||||0.863
92207565|NCT02502097|184315835|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-2.4||||0.3279|TWO_SIDED|95.0|-7.1|2.4|||Mixed Models Analysis||LS means difference Day 7|||2.4|-7.1|0.3279
92327534|NCT00191282|184560237|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.471||95.0|||||Log Rank|||||||0.471
92327535|NCT00191282|184560238|SUPERIORITY_OR_OTHER|||||||0.7168||95.0|||||Chi-squared|||||||0.7168
92327536|NCT00191282|184560240|SUPERIORITY_OR_OTHER|||||||0.086||95.0|||||Chi-squared|||||||0.0860
92327537|NCT00191282|184560242|SUPERIORITY_OR_OTHER|||||||0.1424||95.0|||||Chi-squared|||||||0.1424
92327538|NCT00191282|184560245|SUPERIORITY_OR_OTHER|||||||0.1957||95.0|||||Chi-squared|||||||0.1957
92327539|NCT00191282|184560247|SUPERIORITY_OR_OTHER|||||||0.2434||95.0|||||Chi-squared|||||||0.2434
92207566|NCT02502097|184315835|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|1.5||||0.7772|TWO_SIDED|95.0|-9.2|12.3|||Mixed Models Analysis||LS means difference Day 14|||12.3|-9.2|0.7772
92207567|NCT02502097|184315836|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-3.2||||0.3493|TWO_SIDED|95.0|-10.1|3.6|||Mixed Models Analysis||LS means difference Day 7|||3.6|-10.1|0.3493
92207568|NCT02502097|184315836|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|1.0||||0.8952|TWO_SIDED|95.0|-14.3|16.3|||Mixed Models Analysis||LS means difference Day 14|||16.3|-14.3|0.8952
92207569|NCT02502097|184315837|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-1.5||||0.6597|TWO_SIDED|95.0|-8.1|5.2|||Mixed Models Analysis||LS means difference Day 7|||5.2|-8.1|0.6597
92207570|NCT02502097|184315837|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|2.1||||0.788|TWO_SIDED|95.0|-13.1|17.2|||Mixed Models Analysis||LS means difference Day 14|||17.2|-13.1|0.7880
92207571|NCT02502097|184315841|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-2.5||||0.1856|TWO_SIDED|95.0|-6.3|1.3|||Mixed Models Analysis||LS mean difference Day 7|||1.3|-6.3|0.1856
92207572|NCT02502097|184315841|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|2.7||||0.5658|TWO_SIDED|95.0|-6.6|12.1|||Mixed Models Analysis||LS mean difference Day 14|||12.1|-6.6|0.5658
92207573|NCT02502097|184315842|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-8.0||||0.0847|TWO_SIDED|95.0|-17.2|1.1|||Mixed Models Analysis||LS mean difference Day 7|||1.1|-17.2|0.0847
92207574|NCT02502097|184315842|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-5.8||||0.3083|TWO_SIDED|95.0|-17.0|5.4|||Mixed Models Analysis||LS mean difference Day 14|||5.4|-17.0|0.3083
92207575|NCT02502097|184315843|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-2.0||||0.229|TWO_SIDED|95.0|-5.3|1.3|||Mixed Models Analysis||LS mean difference Day 7|||1.3|-5.3|0.2290
92207576|NCT02502097|184315843|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|0.0||||0.9794|TWO_SIDED|95.0|-3.5|3.4|||Mixed Models Analysis||LS mean difference Day 14|||3.4|-3.5|0.9794
92207577|NCT02502097|184315844|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-1.0||||0.0009|TWO_SIDED|95.0|-1.5|-0.4|||Mixed Models Analysis||LS mean difference Week 1|||-0.4|-1.5|0.0009
92207578|NCT02502097|184315844|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-1.0||||0.005|TWO_SIDED|95.0|-1.7|-0.3|||Mixed Models Analysis||LS mean difference Week 2|||-0.3|-1.7|0.0050
92207579|NCT02502097|184315845|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-2.8||||0.2938|TWO_SIDED|95.0|-8.2|2.5|||Mixed Models Analysis||LS mean difference Day 7|||2.5|-8.2|0.2938
92207580|NCT02502097|184315845|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-4.0||||0.1319|TWO_SIDED|95.0|-9.2|1.2|||Mixed Models Analysis||LS mean difference Day 14|||1.2|-9.2|0.1319
92207581|NCT02502097|184315846|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.2175|TWO_SIDED|95.0|-1.5|0.4|||Mixed Models Analysis||LS mean difference Day 7|||0.4|-1.5|0.2175
92207582|NCT02502097|184315846|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.5312|TWO_SIDED|95.0|-1.4|0.7|||Mixed Models Analysis||LS mean difference Day 14|||0.7|-1.4|0.5312
92207583|NCT02874924|184315888|EQUIVALENCE|Pilot study, therefore, no power calculation available.|Mean Difference (Net)|-1.81||||0.56|TWO_SIDED|95.0|-8.48|4.86|||t-test, 2 sided|||Null hypothesis||4.86|-8.48|0.56
92207584|NCT03405792|184315899|OTHER|||||||||||||||||We will use one-sample log-rank test to compare PFS between the triple combination arm relative to the historical control arm.|We took a look at median survival time and CI of our population and we compared it to the median PFS and CI of the historical control descriptively. There is no yielded P value.|||
92207585|NCT03405792|184315900|OTHER||||||||||||||||||Every participant (26/26; 100%) experienced an adverse event.|||
92207586|NCT02257567|184315908|SUPERIORITY||Difference in Response Rates|5.82||||0.5353|TWO_SIDED|95.0|-14.53|25.38|||Cochran-Mantel-Haenszel|||||25.38|-14.53|0.5353
92207587|NCT02257567|184315908|SUPERIORITY||Difference in Response Rates (4.89|25.0||||0.0128|TWO_SIDED|95.0|4.89|42.63|||Cochran-Mantel-Haenszel|||||42.63|4.89|0.0128
92207588|NCT02257567|184315917|SUPERIORITY||Difference in Response Rates|0.69||||0.8817|TWO_SIDED|95.0|-19.68|20.86|||Cochran-Mantel-Haenszel|||||20.86|-19.68|0.8817
92207589|NCT02257567|184315917|SUPERIORITY||Difference in Response Rates|27.5||||0.0061|TWO_SIDED|95.0|7.66|44.74|||Cochran-Mantel-Haenszel|||||44.74|7.66|0.0061
92207590|NCT02257567|184315919|SUPERIORITY||Difference in Response Rates|-1.0||||0.9523|TWO_SIDED|95.0|-18.66|16.46|||Cochran-Mantel-Haenszel|||||16.46|-18.66|0.9523
92207591|NCT02257567|184315919|SUPERIORITY||Difference in Response Rates|30.0||||0.0036|TWO_SIDED|95.0|9.48|47.37|||Cochran-Mantel-Haenszel|||||47.37|9.48|0.0036
92207592|NCT02257567|184315920|SUPERIORITY||Difference in Response Rates|3.75||||0.6574|TWO_SIDED|95.0|-15.14|22.11|||Cochran-Mantel-Haenszel|||||22.11|-15.14|0.6574
92207593|NCT02257567|184315920|SUPERIORITY||Difference in Response Rates|25.0||||0.0128|TWO_SIDED|95.0|4.89|42.63|||Cochran-Mantel-Haenszel|||||42.63|4.89|0.0128
92207594|NCT02257567|184315923|SUPERIORITY||Difference in Response Rates|3.88||||0.6225|TWO_SIDED|95.0|-14.49|21.72|||Cochran-Mantel-Haenszel|||||21.72|-14.49|0.6225
92207595|NCT02257567|184315923|SUPERIORITY||Difference in Response Rates|30.0||||0.0032|TWO_SIDED|95.0|9.94|47.12|||Cochran-Mantel-Haenszel|||||47.12|9.94|0.0032
92207596|NCT02257567|184315924|SUPERIORITY||Difference in Response Rates|-6.13||||0.4835|TWO_SIDED|95.0|-24.14|12.12|||Cochran-Mantel-Haenszel|||||12.12|-24.14|0.4835
92207597|NCT02257567|184315924|SUPERIORITY||Difference in Response Rates|25.0||||0.0096|TWO_SIDED|95.0|5.39|42.33|||Cochran-Mantel-Haenszel|||||42.33|5.39|0.0096
92207598|NCT02257567|184315925|SUPERIORITY||Difference in Response Rates|-0.5||||0.939|TWO_SIDED|95.0|-15.07|13.71|||Cochran-Mantel-Haenszel|||||13.71|-15.07|0.9390
92207599|NCT02257567|184315925|SUPERIORITY||Difference in Response Rates|37.5||||0.0006|TWO_SIDED|95.0|15.64|54.71|||Cochran-Mantel-Haenszel|||||54.71|15.64|0.0006
92207600|NCT02257567|184315926|SUPERIORITY||Difference in Response Rates|37.5||||0.0005|TWO_SIDED|95.0|15.82|54.62|||Cochran-Mantel-Haenszel|||||54.62|15.82|0.0005
92207601|NCT02257567|184315927|SUPERIORITY||Hazard Ratio (HR)|0.42||||0.0245|TWO_SIDED|95.0|0.19|0.91|||Log Rank|||||0.91|0.19|0.0245
92327540|NCT00191282|184560249|SUPERIORITY_OR_OTHER|||||||0.2617||95.0|||||Chi-squared|||||||0.2617
92207602|NCT02257567|184315928|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.2451|TWO_SIDED|95.0|0.25|1.43|||Log Rank|||||1.43|0.25|0.2451
92207603|NCT02257567|184315929|SUPERIORITY||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.2|0.56|||Log Rank|||||0.56|0.20|<.0001
92207604|NCT02257567|184315930|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.0003|TWO_SIDED|95.0|0.23|0.66|||Log Rank|||||0.66|0.23|0.0003
92207605|NCT00946101|184315981|NON_INFERIORITY_OR_EQUIVALENCE|For the calculation of the power to rule out a 10% increase of fever rate in vaccine recipients with 300 evaluable subjects (240 vaccine and 60 placebo recipients), it is assumed that the true fever rate in the monovalent vaccine group is 3.0% to 8.0%,and the true fever rate in placebo group is 0% to 3% lower than the fever rate in the vaccine group.|rate difference|0.0|||||TWO_SIDED|95.0|-6.4|3.1|||score|||The rate of subjects with fever between the two treatment groups was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo). The upper limit of the two-sided 95% confidence intervals was evaluated against the pre-specified equivalence criterion of 10% which corresponds to the following hypotheses: H0 (null): rate difference ≥ 10%, HA (alternative): rate difference \< 10%||3.1|-6.4|
92207606|NCT00946101|184315982|SUPERIORITY_OR_OTHER||rate difference|1.5|||||TWO_SIDED|95.0|-12.8|9.8|||score|||The number of subjects who experienced a post-dose seroresponse was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||9.8|-12.8|
92207607|NCT00946101|184315983|SUPERIORITY_OR_OTHER||rate difference|4.9|||||TWO_SIDED|95.0|-9.6|13.8|||score|||The number of subjects who experienced a post-dose seroresponse was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||13.8|-9.6|
92207608|NCT00946101|184315984|SUPERIORITY_OR_OTHER||rate difference|17.5|||||TWO_SIDED|95.0|5.5|27.1|||score|||The number of subjects who experienced a post-dose seroresponse was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||27.1|5.5|
92207609|NCT00946101|184315985|SUPERIORITY_OR_OTHER||rate difference|5.1|||||TWO_SIDED|95.0|-8.4|17.6|||score|||Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compated following each dose. Exact two-sided 95% confidence intervals (Chan and Zhang, 1999) on the rate difference (Vaccine minus Placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.||17.6|-8.4|
92207610|NCT00946101|184315988|SUPERIORITY_OR_OTHER||rate difference|13.3|||||TWO_SIDED|95.0|-0.4|25.7|||score|||Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% confidence intervals (Chan and Zhang, 1999) on the rate difference (Vaccine minus Placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.||25.7|-0.4|
92207611|NCT00946101|184315991|SUPERIORITY_OR_OTHER||rate difference|-6.3|||||TWO_SIDED|95.0|-19.7|6.1|||score|||Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% confidence intervals (Chan and Zhang, 1999) on the rate difference (Vaccine minus Placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.||6.1|-19.7|
92207612|NCT00946101|184315994|SUPERIORITY_OR_OTHER||rate difference|-6.4|||||TWO_SIDED|95.0|-20.3|7.1|||score|||Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% confidence intervals (Chan and Zhang, 1999) on the rate difference (Vaccine minus Placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.||7.1|-20.3|
92268713|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|1.04||||||95.0|0.86|1.26||||||For serotype 4 after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.26|0.86|
92207613|NCT00946101|184316003|SUPERIORITY_OR_OTHER||rate difference|7.0|||||TWO_SIDED|95.0|-6.1|14.7|||score|||The number of subjects who achieved a post Dose 1 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||14.7|-6.1|
92207614|NCT00946101|184316004|SUPERIORITY_OR_OTHER||rate difference|7.2|||||TWO_SIDED|95.0|-5.8|15.1|||score|||The number of subjects who achieved a post Dose 1 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||15.1|-5.8|
92207615|NCT00946101|184316005|SUPERIORITY_OR_OTHER||rate difference|16.7|||||TWO_SIDED|95.0|5.9|25.2|||score|||The number of subjects who achieved a post Dose 2 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||25.2|5.9|
92207616|NCT00495586|184316009|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence.|Mean Difference (Final Values)|14.2|STANDARD_DEVIATION|9.5|<|0.05|TWO_SIDED|95.0|3.7|24.3|||Chi-squared|||For the comparison of the efficacy of antibiotic versus placebo, we accepted a null hypothesis if the cure rate in the intervention group was the same or ±7% as that observed in the placebo arm. Based on previous studies, the expected rate of cure among patients assigned to antibiotic therapy was 90%. For an alpha of 0.05 and a beta of 0.2 and accepting possible losses of 15%, we calculated that the sample size is 677 patients in total.||24.3|3.7|<0.05
92207617|NCT02527343|184316016|SUPERIORITY||Difference in Least Square Mean|-66.83||||0.0009|TWO_SIDED|95.0|-104.17|-29.48|||ANCOVA|||||-29.48|-104.17|0.0009
92207618|NCT02527343|184316017|SUPERIORITY||Difference in Least Square Mean|-25.69||||0.0736|TWO_SIDED|95.0|-54.03|2.65|||ANCOVA|||Month 6||2.65|-54.03|0.0736
92207619|NCT02527343|184316017|SUPERIORITY||Difference in Least Square Mean|-53.33||||0.0039|TWO_SIDED|95.0|-87.71|-18.95|||ANCOVA|||Month 12||-18.95|-87.71|0.0039
92207620|NCT02527343|184316019|SUPERIORITY||Difference in Least Square Mean|0.3||||0.4108|TWO_SIDED|95.0|-0.43|1.03|||ANCOVA|||Month 3||1.03|-0.43|0.4108
92207621|NCT02527343|184316019|SUPERIORITY||Difference in Least Square Mean|0.19||||0.7308|TWO_SIDED|95.0|-0.95|1.34|||ANCOVA|||Month 6||1.34|-0.95|0.7308
92207622|NCT02527343|184316019|SUPERIORITY||Difference in Least Square Mean|-0.2||||0.7511|TWO_SIDED|95.0|-1.45|1.06|||ANCOVA|||Month 9||1.06|-1.45|0.7511
92207623|NCT02527343|184316019|SUPERIORITY||Difference in Least Square Mean|-0.19||||0.7659|TWO_SIDED|95.0|-1.52|1.13|||ANCOVA|||Month 12||1.13|-1.52|0.7659
92207624|NCT04426851|184316032|OTHER||Ratio of the geometric means (%)|45.9|||||TWO_SIDED|90.0|41.4|50.9|||||"Ratio was calculated as: BI 1358894 100 mg tablet fasted/BI 1358894 (C-14) 100 ug i.v.~Intra-individual geometric coefficient of variation (gCV)=14.3."|The Analysis of variance (ANOVA) model included effects accounting for the following sources of variation: 'subjects' and 'formulation'. The effect 'subjects' was considered as random, whereas 'formulation' was considered as fixed.||50.9|41.4|
92207625|NCT04426851|184316033|OTHER||Ratio of the geometric means (%)|141.4|||||TWO_SIDED|90.0|129.3|154.6|||||Ratio was calculated as: BI 1358894 100 mg oral suspension fed/BI 1358894 100 mg oral suspension fasted. Intra -individual geometric coefficient of variation (gCV)=10.9.|The ANOVA model included effects accounting for the following sources of variation: 'sequence or block', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||154.6|129.3|
92207626|NCT04426851|184316035|OTHER||Ratio of the geometric means (%)|65.3|||||TWO_SIDED|90.0|54.6|78.0|||||Ratio was calculated as: BI 1358894 100 mg oral suspension fed/BI 1358894 100 mg oral suspension fasted. Intra - individual geometric coefficient of variation (gCV)=22.5.|The ANOVA model included effects accounting for the following sources of variation: 'sequence or block', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||78.0|54.6|
92207627|NCT04426851|184316036|OTHER||Ratio of the geometric means (%)|148.4|||||TWO_SIDED|90.0|138.1|159.5|||||Ratio was calculated as: BI 1358894 100 mg oral suspension fed/BI 1358894 100 mg oral suspension fasted. Intra - individual geometric coefficient of variation (gCV) =8.7.|The ANOVA model included effects accounting for the following sources of variation: 'sequence or block', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||159.5|138.1|
92207628|NCT02081417|184316052|NON_INFERIORITY|Based on the PCL-C if the interventions fell within 2.5 points of each other|Mean Difference (Net)|0.18||||0.01|TWO_SIDED|95.0|-3.4|3.8|||Mixed Models Analysis|||||3.8|-3.4|0.01
92207629|NCT01288521|184316058|SUPERIORITY|The null hypothesis is that the tacrolimus biovailability alone is equal to the tacrolimus bioavailability when given with ketoconazole.||||||0.006|||||||Regression, Linear|The bioavailability with Tac alone vs. Tac +keto was compared using linear model adjusting for sex and creatinine clearance.||The bioavailability of Tac alone vs. Tac +keto was compared using a general linear model including sex and creatinine clearance as covariates.||||0.006
92207630|NCT03086213|184316067|NON_INFERIORITY|the definition of non-inferiority analysis is that the new method is no less effective than standard interventions.|Mean Difference (Final Values)|10.0|STANDARD_DEVIATION|0.025||0.025|TWO_SIDED|95.0|5.0|95.0||whether or not the p-value is adjusted for multiple comparisons and the a priori threshold for statistical significance|t-test, 2 sided|degrees of freedom|Paravertebral nerve block arm represents the numerator and intercostal block represents the denominator for relative risk|null hypothesis||95|5|0.025
92207631|NCT03086213|184316068|SUPERIORITY|During the calculation of sample size,a sample size of 24 patients per group was calculated as being required to ensure 90% power of detecting the difference-if any-as statistically significant at the 5% level|||||<|0.05||||||the p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance.|t-test, 2 sided|degrees of freedom is defined as sample size subtraction one.||null hypothesis||||<0.05
92207632|NCT03086213|184316071|SUPERIORITY|During the calculation of sample size,a sample size of 24 patients per group was calculated as being required to ensure 90% power of detecting the difference-if any-as statistically significant at the 5% level||||||0.05|||||||t-test, 2 sided|Degree of freedom is defined as sample size subtraction one.||null hypothesis||||0.05
92207633|NCT01502631|184316073|SUPERIORITY||Least Squares (LS) Mean|5.61|STANDARD_ERROR_OF_MEAN|4.497||0.2182|TWO_SIDED|90.0|-1.93|13.14|||Mixed Model Repeated Measures (MMRM)|||Difference (SUN13837 - Placebo) at Week 2||13.14|-1.93|0.2182
92207634|NCT01502631|184316073|SUPERIORITY||Least Squares (LS) Mean|6.87|STANDARD_ERROR_OF_MEAN|5.583||0.226|TWO_SIDED|90.0|-2.54|16.27|||Mixed Model Repeated Measures (MMRM)|||Difference (SUN13837 - Placebo) at Week 4||16.27|-2.54|0.2260
92207635|NCT01502631|184316073|SUPERIORITY||Least Squares (LS) Mean|3.03|STANDARD_ERROR_OF_MEAN|6.023||0.6184|TWO_SIDED|90.0|-7.15|13.21|||Mixed Model Repeated Measures (MMRM)|||Difference (SUN13837 - Placebo) at Week 8||13.21|-7.15|0.6184
92207636|NCT01502631|184316073|SUPERIORITY||Least Squares (LS) Mean|4.54|STANDARD_ERROR_OF_MEAN|6.524||0.4912|TWO_SIDED|90.0|-6.48|15.56|||Mixed Model Repeated Measures (MMRM)|||Difference (SUN13837 - Placebo) at Week 16||15.56|-6.48|0.4912
92207637|NCT01445301|184316113|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.0|||<|0.001|TWO_SIDED|95.0|-15.0|-7.0|||ANCOVA|||||-7.0|-15.0|<0.001
92207638|NCT01445301|184316113|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-8.2|||<|0.001|TWO_SIDED|95.0|-12.9|-3.6|||ANCOVA|||||-3.6|-12.9|<0.001
92207639|NCT01445301|184316115|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-3.0|||<|0.001|TWO_SIDED|95.0|-4.4|-1.5|||ANCOVA|||WEEK 1||-1.5|-4.4|<0.001
92207640|NCT01445301|184316115|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-1.8||||0.113|TWO_SIDED|95.0|-4.0|0.4|||ANCOVA|||WEEK 2||0.4|-4.0|0.113
92207641|NCT01445301|184316115|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-2.0||||0.084|TWO_SIDED|95.0|-4.2|0.3|||ANCOVA|||WEEK 4||0.3|-4.2|0.084
92207642|NCT01445301|184316115|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-2.7||||0.026|TWO_SIDED|95.0|-5.1|-0.3|||ANCOVA|||WEEK 8||-0.3|-5.1|0.026
92207643|NCT01445301|184316115|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-2.6||||0.03|TWO_SIDED|95.0|-5.0|-0.3|||ANCOVA|||WEEK 12||-0.3|-5.0|0.030
92207644|NCT01445301|184316115|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-3.4||||0.028|TWO_SIDED|95.0|-6.5|-0.4|||ANCOVA|||WEEK 1||-0.4|-6.5|0.028
92207645|NCT01445301|184316115|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-5.4||||0.004|TWO_SIDED|95.0|-9.1|-1.7|||ANCOVA|||WEEK 2||-1.7|-9.1|0.004
92207646|NCT01445301|184316115|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Odds Ratio (OR)|-5.8||||0.003|TWO_SIDED|95.0|-9.6|-1.9|||ANCOVA|||WEEK 4||-1.9|-9.6|0.003
92207647|NCT01445301|184316115|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-5.5||||0.006|TWO_SIDED|95.0|-9.4|-1.6|||ANCOVA|||WEEK 8||-1.6|-9.4|0.006
92207648|NCT01445301|184316115|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-5.6||||0.005|TWO_SIDED|95.0|-9.5|-1.7|||ANCOVA|||WEEK 12||-1.7|-9.5|0.005
92207649|NCT01445301|184316115|SUPERIORITY||Mean Difference (Net)|-2.5|||<|0.001|TWO_SIDED|95.0|-3.9|-1.1|||ANCOVA|||WEEK 1||-1.1|-3.9|<0.001
92207650|NCT01445301|184316115|SUPERIORITY||Mean Difference (Net)|-3.2|||<|0.001|TWO_SIDED|95.0|-4.7|-1.6|||ANCOVA|||WEEK 2||-1.6|-4.7|<0.001
92207651|NCT01445301|184316115|SUPERIORITY||Mean Difference (Net)|-2.5||||0.002|TWO_SIDED|95.0|-4.1|-0.9|||ANCOVA|||WEEK 4||-0.9|-4.1|0.002
92207652|NCT01445301|184316115|SUPERIORITY||Mean Difference (Net)|-2.7||||0.003|TWO_SIDED|95.0|-4.5|-0.9|||ANCOVA|||WEEK 8||-0.9|-4.5|0.003
92207653|NCT01445301|184316115|SUPERIORITY||Mean Difference (Net)|-2.8||||0.002|TWO_SIDED|95.0|-4.6|-1.0|||ANCOVA|||WEEK 12||-1.0|-4.6|0.002
92207654|NCT01445301|184316115|SUPERIORITY||Mean Difference (Net)|-6.0|||<|0.001|TWO_SIDED|95.0|-8.8|-3.2|||ANCOVA|||WEEK 1||-3.2|-8.8|<0.001
92207655|NCT01445301|184316115|SUPERIORITY||Mean Difference (Net)|-8.1|||<|0.001|TWO_SIDED|95.0|-11.4|-4.7|||ANCOVA|||WEEK 2||-4.7|-11.4|<0.001
92207656|NCT01445301|184316115|SUPERIORITY||Mean Difference (Net)|-9.7|||<|0.001|TWO_SIDED|95.0|-13.1|-6.2|||ANCOVA|||WEEK 4||-6.2|-13.1|<0.001
92207657|NCT01445301|184316115|SUPERIORITY||Mean Difference (Net)|-8.6|||<|0.001|TWO_SIDED|95.0|-12.1|-5.1|||ANCOVA|||WEEK 8||-5.1|-12.1|<0.001
92207658|NCT01445301|184316115|SUPERIORITY||Mean Difference (Net)|-8.2|||<|0.001|TWO_SIDED|95.0|-11.6|-4.8|||ANCOVA|||WEEK 12||-4.8|-11.6|<0.001
92207659|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-7.71|||<|0.001|TWO_SIDED|95.0|-11.3|-4.12|||ANCOVA|||Total Lesion Counts, WEEK 1||-4.12|-11.30|<0.001
92207660|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-8.51|||<|0.001|TWO_SIDED|95.0|-13.24|-3.77|||ANCOVA|||Total Lesion Counts, WEEK 2||-3.77|-13.24|<0.001
92207661|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-8.89|||<|0.001|TWO_SIDED|95.0|-13.37|-4.41|||ANCOVA|||Total Lesion Counts, WEEK 4||-4.41|-13.37|<0.001
92207662|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-9.12|||<|0.001|TWO_SIDED|95.0|-13.82|-4.43|||ANCOVA|||Total Lesion Counts, WEEK 8||-4.43|-13.82|<0.001
92207663|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-9.43|||<|0.001|TWO_SIDED|95.0|-14.11|-4.75|||ANCOVA|||Total Lesion Counts, WEEK 12||-4.75|-14.11|<0.001
92207664|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-10.54|||<|0.001|TWO_SIDED|95.0|-15.12|-5.97|||ANCOVA|||Inflammatory Lesion Counts, WEEK 1||-5.97|-15.12|<0.001
92207665|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-7.21||||0.011|TWO_SIDED|95.0|-12.73|-1.69|||ANCOVA|||Inflammatory Lesion Counts, WEEK 2||-1.69|-12.73|0.011
92207666|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-7.64||||0.005|TWO_SIDED|95.0|-12.93|-2.35|||ANCOVA|||Inflammatory Lesion Counts, WEEK 4||-2.35|-12.93|0.005
92207667|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-8.73||||0.002|TWO_SIDED|95.0|-14.2|-3.26|||ANCOVA|||Inflammatory Lesion Counts, WEEK 8||-3.26|-14.20|0.002
92207668|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-8.2||||0.002|TWO_SIDED|95.0|-13.34|-3.06|||ANCOVA|||Inflammatory Lesion Counts, WEEK 12||-3.06|-13.34|0.002
92207669|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-5.8||||0.011|TWO_SIDED|95.0|-10.29|-1.32|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 1||-1.32|-10.29|0.011
92207670|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-8.3||||0.005|TWO_SIDED|95.0|-14.1|-2.5|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 2||-2.50|-14.10|0.005
92207671|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-9.27|||<|0.001|TWO_SIDED|95.0|-14.72|-3.83|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 4||-3.83|-14.72|<0.001
92207672|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-8.84||||0.002|TWO_SIDED|95.0|-14.28|-3.39|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 8||-3.39|-14.28|0.002
92207673|NCT01445301|184316116|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-9.68|||<|0.001|TWO_SIDED|95.0|-15.06|-4.3|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 12||-4.30|-15.06|<0.001
92207674|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-8.9|||<|0.001|TWO_SIDED|95.0|-12.32|-5.48|||ANCOVA|||Total Lesion Counts, WEEK 1||-5.48|-12.32|<0.001
92207675|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-11.17|||<|0.001|TWO_SIDED|95.0|-15.18|-7.16|||ANCOVA|||Total Lesion Counts, WEEK 2||-7.16|-15.18|<0.001
92207676|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-12.12|||<|0.001|TWO_SIDED|95.0|-15.9|-8.35|||ANCOVA|||Total Lesion Counts, WEEK 4||-8.35|-15.90|<0.001
92207677|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-11.33|||<|0.001|TWO_SIDED|95.0|-15.37|-7.3|||ANCOVA|||Total Lesion Counts, WEEK 8||-7.30|-15.37|<0.001
92207678|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-11.18|||<|0.001|TWO_SIDED|95.0|-15.11|-7.25|||ANCOVA|||Total Lesion Counts, WEEK 12||-7.25|-15.11|<0.001
92207679|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-8.32|||<|0.001|TWO_SIDED|95.0|-12.76|-3.88|||ANCOVA|||Inflammatory Lesion Counts, WEEK 1||-3.88|-12.76|<0.001
92207680|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-9.57|||<|0.001|TWO_SIDED|95.0|-13.83|-5.3|||ANCOVA|||Inflammatory Lesion Counts, WEEK 2||-5.30|-13.83|<0.001
92207681|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-7.83|||<|0.001|TWO_SIDED|95.0|-12.03|-3.62|||ANCOVA|||Inflammatory Lesion Counts, WEEK 4||-3.62|-12.03|<0.001
92207682|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-8.08|||<|0.001|TWO_SIDED|95.0|-12.63|-3.53|||ANCOVA|||Inflammatory Lesion Counts, WEEK 8||-3.53|-12.63|<0.001
92207683|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-8.56|||<|0.001|TWO_SIDED|95.0|-12.71|-4.41|||ANCOVA|||Inflammatory Lesion Counts, WEEK 12||-4.41|-12.71|<0.001
92207684|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-9.11|||<|0.001|TWO_SIDED|95.0|-13.53|-4.68|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 1||-4.68|-13.53|<0.001
92207685|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-11.05|||<|0.001|TWO_SIDED|95.0|-16.3|-5.8|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 2||-5.80|-16.30|<0.001
92207686|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-14.17|||<|0.001|TWO_SIDED|95.0|-18.97|-9.37|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 4||-9.37|-18.97|<0.001
92207687|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-13.04|||<|0.001|TWO_SIDED|95.0|-17.83|-8.25|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 8||-8.25|-17.83|<0.001
92207688|NCT01445301|184316116|SUPERIORITY||Mean Difference (Net)|-12.37|||<|0.001|TWO_SIDED|95.0|-17.05|-7.68|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 12||-7.68|-17.05|<0.001
92207689|NCT01445301|184316117|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92207690|NCT01445301|184316117|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
92207691|NCT01445301|184316118|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 twice daily and CLDM twice daily at Week 1||||0.470
92207692|NCT01445301|184316118|SUPERIORITY_OR_OTHER|||||||0.844||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 twice daily and CLDM twice daily at Week 2||||0.844
92207693|NCT01445301|184316118|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 twice daily and CLDM twice daily at Week 4||||0.022
92207694|NCT01445301|184316118|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 twice daily and CLDM twice daily at Week 8||||<0.001
92207695|NCT01445301|184316118|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 twice daily and CLDM twice daily at Week 12||||<0.001
92207696|NCT01445301|184316118|SUPERIORITY_OR_OTHER|||||||0.572||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 once daily and CLDM twice daily at Week 1||||0.572
92207697|NCT01445301|184316118|SUPERIORITY_OR_OTHER|||||||0.335||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 once daily and CLDM twice daily at Week 2||||0.335
92207698|NCT01445301|184316118|SUPERIORITY_OR_OTHER|||||||0.187||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 once daily and CLDM twice daily at Week 4||||0.187
92207699|NCT01445301|184316118|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 once daily and CLDM twice daily at Week 8||||<0.001
92207700|NCT01445301|184316118|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 once daily and CLDM twice daily at Week 12||||0.006
92207701|NCT01445301|184316119|SUPERIORITY_OR_OTHER|||||||0.002|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 twice daily and CLDM twice daily at Week 1||||0.002
92207702|NCT01445301|184316119|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 twice daily and CLDM twice daily at Week 2||||<0.001
92207703|NCT01445301|184316119|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 twice daily and CLDM twice daily at Week 4||||<0.001
92207704|NCT01445301|184316119|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 twice daily and CLDM twice daily at Week 8||||<0.001
92207705|NCT01445301|184316119|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 twice daily and CLDM twice daily at Week 12||||<0.001
92207706|NCT01445301|184316119|SUPERIORITY_OR_OTHER|||||||0.48|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 once daily and CLDM twice daily at Week 1||||0.480
92207707|NCT01445301|184316119|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 once daily and CLDM twice daily at Week 2||||<0.001
92207708|NCT01445301|184316119|SUPERIORITY_OR_OTHER|||||||0.009|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 once daily and CLDM twice daily at Week 4||||0.009
92207709|NCT01445301|184316119|SUPERIORITY_OR_OTHER|||||||0.008|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 once daily and CLDM twice daily at Week 8||||0.008
92207710|NCT01445301|184316119|SUPERIORITY_OR_OTHER|||||||0.065|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 once daily and CLDM twice daily at Week 12||||0.065
92207711|NCT00190749|184316138|SUPERIORITY_OR_OTHER|||||||0.226||95.0||||P-value for change to last observation|t-test, 2 sided|||||||0.226
92207712|NCT00190749|184316138|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value is change to last observation|t-test, 2 sided|||||||0.030
92207713|NCT00190749|184316138|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||P-value for change to last observation.|ANCOVA|||||||0.204
92207714|NCT00190749|184316139|SUPERIORITY_OR_OTHER|||||||0.184||95.0|||||Pearson's correlation coefficient|||||||0.184
92207715|NCT00190749|184316139|SUPERIORITY_OR_OTHER|||||||0.295||95.0|||||Pearson's correlation coefficient|||||||0.295
92207716|NCT00190749|184316140|SUPERIORITY_OR_OTHER|||||||0.256||95.0|||||Pearson's correlation coefficient|||||||0.256
92207717|NCT00190749|184316140|SUPERIORITY_OR_OTHER|||||||0.277||95.0|||||Pearson's correlation coefficient|||||||0.277
92207718|NCT00190749|184316141|SUPERIORITY_OR_OTHER|||||||0.766||95.0|||||Pearson's correlation coefficient|||||||0.766
92207719|NCT00190749|184316141|SUPERIORITY_OR_OTHER|||||||0.622||95.0|||||Pearson's correlation coefficient|||||||0.622
92207720|NCT00190749|184316142|SUPERIORITY_OR_OTHER|||||||0.829||95.0|||||Pearson's correlation coefficient|||||||0.829
92207721|NCT00190749|184316142|SUPERIORITY_OR_OTHER|||||||0.714||95.0|||||Pearson's correlation coefficient|||||||0.714
92207722|NCT00190749|184316143|SUPERIORITY_OR_OTHER|||||||0.672||95.0|||||Pearson's correlation coefficient|||||||0.672
92207723|NCT00190749|184316143|SUPERIORITY_OR_OTHER|||||||0.191||95.0|||||Pearson's correlation coefficient|||||||0.191
92207724|NCT00190749|184316144|SUPERIORITY_OR_OTHER|||||||0.994||95.0|||||Pearson's correlation coefficient|||||||0.994
92207725|NCT00190749|184316144|SUPERIORITY_OR_OTHER|||||||0.456||95.0|||||Pearson's correlation coefficient|||||||0.456
92207726|NCT00190749|184316145|SUPERIORITY_OR_OTHER|||||||0.454||95.0|||||Pearson's correlation coefficient|||||||0.454
92207727|NCT00190749|184316145|SUPERIORITY_OR_OTHER|||||||0.974||95.0|||||Pearson's correlation coefficient|||||||0.974
92207728|NCT00190749|184316146|SUPERIORITY_OR_OTHER|||||||0.249||95.0|||||Pearson's correlation coefficient|||||||0.249
92207729|NCT00190749|184316146|SUPERIORITY_OR_OTHER|||||||0.163||95.0|||||Pearson's correlation coefficient|||||||0.163
92207730|NCT00190749|184316147|SUPERIORITY_OR_OTHER|||||||0.201||95.0|||||Pearson's correlation coefficient|||||||0.201
92207731|NCT00190749|184316147|SUPERIORITY_OR_OTHER|||||||0.168||95.0|||||Pearson's correlation coefficient|||||||0.168
92207732|NCT00190749|184316148|SUPERIORITY_OR_OTHER|||||||0.793||95.0|||||Pearson's correlation coefficient|||||||0.793
92207733|NCT00190749|184316148|SUPERIORITY_OR_OTHER|||||||0.777||95.0|||||Pearson's correlation coefficient|||||||0.777
92207734|NCT00190749|184316149|SUPERIORITY_OR_OTHER|||||||0.815||95.0|||||Pearson's correlation coefficient|||||||0.815
92207735|NCT00190749|184316149|SUPERIORITY_OR_OTHER|||||||0.675||95.0|||||Pearson's correlation coefficient|||||||0.675
92207736|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.393||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 1||||0.393
92207737|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 1||||0.033
92207738|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.392||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 2||||0.392
92207739|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.129||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 2||||0.129
92207740|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.956||95.0|||||Pearson's correlation coefficient|||Change in Eating Bahavior Item 3||||0.956
92207741|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.846||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 3||||0.846
92207742|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.675||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 4||||0.675
92207743|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.306||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 4||||0.306
92207744|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.468||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 5||||0.468
92207745|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.739||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 5||||0.739
92207746|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.404||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 6||||0.404
92207747|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.711||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 6||||0.711
92207748|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.281||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 7||||0.281
92207749|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.805||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 7||||0.805
92207750|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.844||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 8||||0.844
92207751|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.359||95.0|||||Pearson's correlation coefficient|||Change in Eating Bahavior Item 8||||0.359
92207752|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.642||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 9||||0.642
92207753|NCT00190749|184316150|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 9||||0.043
92207754|NCT00190749|184316151|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on Least Squares Mean (LSMean) change||||||<.001
92207755|NCT00190749|184316151|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.019
92327541|NCT00710684|184560282|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.279|TWO_SIDED|95.0|-1.9|0.5|||mixed model for repeated measures (MMRM)|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15mg versus placebo at Week 24||0.5|-1.9|0.279
92327542|NCT00710684|184560282|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.012|TWO_SIDED|95.0|-2.7|-0.3|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35mg versus placebo at Week 24||-0.3|-2.7|0.012
92207756|NCT00190749|184316151|SUPERIORITY_OR_OTHER|||||||0.065||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change =Baseline Treatment Pooled Investigator||||||0.065
92207757|NCT00190749|184316152|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|With group p-values are from t-tests on LSMean change||||||<.001
92207758|NCT00190749|184316152|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.013
92207759|NCT00190749|184316152|SUPERIORITY_OR_OTHER|||||||0.076||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change = Baseline Treatment Pooled Investigator||||||0.076
92207760|NCT00190749|184316153|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.007
92207761|NCT00190749|184316153|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.266
92207762|NCT00190749|184316153|SUPERIORITY_OR_OTHER|||||||0.239||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change = Baseline Treatment Pooled Investigator||||||0.239
92207763|NCT00190749|184316154|SUPERIORITY_OR_OTHER|||||||0.274||95.0|||||t-test, 2 sided|Within group p-vales are from t-tests on LSMean change||||||0.274
92207764|NCT00190749|184316154|SUPERIORITY_OR_OTHER|||||||0.105||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change.||||||0.105
92207765|NCT00190749|184316154|SUPERIORITY_OR_OTHER|||||||0.609||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change= Baseline Treatment Pooled Investigator||||||0.609
92207766|NCT00190749|184316155|SUPERIORITY_OR_OTHER|||||||0.406||95.0|||||t-test, 2 sided|With group p-values are from t-tests on LSMean change||||||0.406
92207767|NCT00190749|184316155|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.011
92207768|NCT00190749|184316155|SUPERIORITY_OR_OTHER|||||||0.076||95.0|||||ANCOVA|Overall group p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.076
92207769|NCT00190749|184316156|SUPERIORITY_OR_OTHER|||||||0.456||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.456
92207770|NCT00190749|184316156|SUPERIORITY_OR_OTHER|||||||0.712||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.712
92207771|NCT00190749|184316156|SUPERIORITY_OR_OTHER|||||||0.689||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change= Baseline Treatment Pooled Investigator||||||0.689
92207772|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.111||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean||Total Score||||0.111
92207773|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.159||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean changes||Total Score||||0.159
92207774|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.951||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change =Baseline Treatment Pooled Investigator||Total Score||||0.951
92207775|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Positive Subscale||||0.012
92207776|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|With group p-values are from t-tests on LSMean||Positive subscale||||0.002
92207777|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.467||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change =Baseline Treatment Pooled Investigator||Positive subscale||||0.467
92207778|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.365||95.0|||||t-test, 2 sided|With group p-values are from t-tests on LSMean change||Negative subscale||||0.365
92207779|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.846||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Negative subscale||||0.846
92207780|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.559||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Negative subscale||||0.559
92207781|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Anxiety-Depression subscale||||0.150
92207782|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.612||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Anxiety-Depression subscale||||0.612
92207783|NCT00190749|184316157|SUPERIORITY_OR_OTHER|||||||0.475||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Anxiety-Depression subscale||||0.475
92207784|NCT00190749|184316158|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Within group p-values are from t-tests on LSMean change|t-test, 2 sided|||||||.012
92207785|NCT00190749|184316158|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.010
92207786|NCT00190749|184316158|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of square ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.760
92207787|NCT00190749|184316159|SUPERIORITY_OR_OTHER|||||||0.943||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.943
92207788|NCT00190749|184316159|SUPERIORITY_OR_OTHER|||||||0.763||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.763
92207789|NCT00190749|184316159|SUPERIORITY_OR_OTHER|||||||0.832||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.832
92207790|NCT00190749|184316160|SUPERIORITY_OR_OTHER|||||||0.623||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.623
92207791|NCT00190749|184316160|SUPERIORITY_OR_OTHER|||||||0.853||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.853
92207792|NCT00190749|184316160|SUPERIORITY_OR_OTHER|||||||0.591||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.591
92207793|NCT00190749|184316161|SUPERIORITY_OR_OTHER|||||||0.302||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.302
92207794|NCT00190749|184316161|SUPERIORITY_OR_OTHER|||||||0.922||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.922
92207795|NCT00190749|184316161|SUPERIORITY_OR_OTHER|||||||0.479||95.0|||||ANCOVA|Overall group p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.479
92207796|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 1||||0.004
92207797|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 1||||0.001
92207798|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.549||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares, ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 1||||0.549
92207799|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 2||||0.011
92207800|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 2||||0.009
92207801|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.793||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 2||||0.793
92207802|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 3||||0.045
92207803|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 3||||0.027
92207804|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.699||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 3||||0.699
92207805|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 4||||0.002
92207806|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||ITem 4||||0.019
92207807|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.733||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 4||||0.733
92207808|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 5||||0.034
92207809|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.235||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 5||||0.235
92207810|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.532||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 5||||0.532
92207811|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.242||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 6||||0.242
92207812|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.186||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 6||||0.186
92207813|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.799||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 6||||0.799
92207814|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.097||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 7||||0.097
92207815|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.214||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 7||||0.214
92207816|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.827||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 7||||0.827
92207817|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.151||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 8||||0.151
92207818|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.071||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 8||||0.071
92207819|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.629||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 8||||0.629
92207820|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 9||||0.036
92207821|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.112||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 9||||0.112
92207822|NCT00190749|184316162|SUPERIORITY_OR_OTHER|||||||0.806||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 9||||0.806
92207823|NCT00190749|184316163|SUPERIORITY_OR_OTHER|||||||0.156||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.156
92207824|NCT00190749|184316163|SUPERIORITY_OR_OTHER|||||||0.829||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.829
92207825|NCT00190749|184316163|SUPERIORITY_OR_OTHER|||||||0.352||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.352
92207826|NCT00190749|184316164|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.740
92207827|NCT00190749|184316164|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||t-test, 2 sided|Within group p-values are frm t-tests on LSMean change||||||0.760
92207828|NCT00190749|184316164|SUPERIORITY_OR_OTHER|||||||0.997||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.997
92207829|NCT00190749|184316165|SUPERIORITY_OR_OTHER|||||||0.176||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.176
92207830|NCT00190749|184316165|SUPERIORITY_OR_OTHER|||||||0.237||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.237
92207831|NCT00190749|184316165|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.996
92207832|NCT00190749|184316166|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.027
92207833|NCT00190749|184316166|SUPERIORITY_OR_OTHER|||||||0.545||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.545
92207834|NCT00190749|184316166|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.024
92207835|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||HDL particles, total||||0.009
92207836|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.959||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||HDL particles, total||||0.959
92207837|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline TReatment Pooled Investigator|ANCOVA|||HDL particles, total||||0.038
92207838|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||IDL||||0.013
92207839|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.928||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||IDL||||0.928
92207840|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||IDL||||0.049
92207841|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Medium small LDL||||0.009
92207842|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.662||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Medium small LDL||||0.662
92207843|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Medium small LDL||||0.12
92207844|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.099||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Small LDL||||0.099
92207845|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.304||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Small LDL||||0.304
92207846|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Small LDL||||0.024
92207847|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.176||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Very small LDL||||0.176
92207848|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.246||95.0|||||t-test, 2 sided|Withn group p-values are from t-tests on LSMean change||Very small LDL||||0.246
92207849|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator|ANCOVA|||Very small LDL||||0.033
92207850|NCT00190749|184316167|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||VLDL mean particle size||||<0.001
92207851|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||VLDL mean particle size||||0.047
92207852|NCT00190749|184316167|SUPERIORITY_OR_OTHER|||||||0.221||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||VLDL mean particle size||||0.221
92207853|NCT04493502|184316169|SUPERIORITY||Mean Difference (Final Values)|17.1||||0.189|TWO_SIDED|95.0|-7.3|41.4|||Regression, Logistic|||||41.4|-7.3|0.189
92207854|NCT04493502|184316170|SUPERIORITY||Mean Difference (Final Values)|-4.67||||0.024|TWO_SIDED|95.0|-8.69|-0.64|||ANCOVA|||||-0.64|-8.69|0.024
92207855|NCT04493502|184316171|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.949|TWO_SIDED|95.0|-1.44|1.53|||ANCOVA|||||1.53|-1.44|0.949
92207856|NCT02891408|184316172|OTHER||Geometric least-square mean (GLSM) ratio|181.0|||||TWO_SIDED|90.0|98.0|332.0||||||AUClast of Firsocostat||332|98|
92207857|NCT02891408|184316172|OTHER||GLSM ratio|881.0|||||TWO_SIDED|90.0|488.0|1589.0||||||AUClast of Firsocostat||1589|488|
92207858|NCT02891408|184316172|OTHER||GLSM ratio|3081.0|||||TWO_SIDED|90.0|2446.0|3881.0||||||AUClast of Firsocostat||3881|2446|
92207859|NCT02891408|184316172|OTHER||GLSM ratio|430.0|||||TWO_SIDED|90.0|185.0|998.0||||||AUClast of GS-834773||998|185|
92207860|NCT02891408|184316172|OTHER||GLSM ratio|4417.0|||||TWO_SIDED|90.0|1867.0|10449.0||||||AUClast of GS-834773||10449|1867|
92207861|NCT02891408|184316172|OTHER||GLSM ratio|14676.0|||||TWO_SIDED|90.0|7932.0|27153.0||||||AUClast of GS-834773||27153|7932|
92207862|NCT02891408|184316172|OTHER||GLSM ratio|122.0|||||TWO_SIDED|90.0|86.0|173.0||||||AUClast of Fenofibric Acid||173|86|
92207863|NCT02891408|184316173|OTHER||GLSM ratio|183.0|||||TWO_SIDED|90.0|100.0|337.0||||||AUCinf of Firsocostat||337|100|
92207864|NCT02891408|184316173|OTHER||GLSM ratio|869.0|||||TWO_SIDED|90.0|482.0|1568.0||||||AUCinf of Firsocostat||1568|482|
92207865|NCT02891408|184316173|OTHER||GLSM ratio|2976.0|||||TWO_SIDED|90.0|2389.0|3708.0||||||AUCinf of Firsocostat||3708|2389|
92207866|NCT02891408|184316173|OTHER||GLSM ratio|399.0|||||TWO_SIDED|90.0|179.0|892.0||||||AUCinf of GS-834773||892|179|
92207867|NCT02891408|184316173|OTHER||GLSM ratio|3843.0|||||TWO_SIDED|90.0|1641.0|9000.0||||||AUCinf of GS-834773||9000|1641|
92207868|NCT02891408|184316173|OTHER||GLSM ratio|10712.0|||||TWO_SIDED|90.0|6525.0|17585.0||||||AUCinf of GS-834773||17585|6525|
92207869|NCT02891408|184316173|OTHER||GLSM ratio|125.0|||||TWO_SIDED|90.0|89.0|174.0||||||AUCinf of Fenofibric Acid||174|89|
92207870|NCT02891408|184316174|OTHER||GLSM ratio|169.0|||||TWO_SIDED|90.0|87.0|326.0||||||Cmax of Firsocostat||326|87|
92327543|NCT00710684|184560283|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.711|TWO_SIDED|95.0|-0.4|0.3|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 24||0.3|-0.4|0.711
92327544|NCT00710684|184560283|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.462|TWO_SIDED|95.0|-0.5|0.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 24||0.2|-0.5|0.462
92207871|NCT02891408|184316174|OTHER||GLSM ratio|905.0|||||TWO_SIDED|90.0|537.0|1526.0||||||Cmax of Firsocostat||1526|537|
92207872|NCT02891408|184316174|OTHER||GLSM ratio|2719.0|||||TWO_SIDED|90.0|1994.0|3708.0||||||Cmax of Firsocostat||3708|1994|
92207873|NCT02891408|184316174|OTHER||GLSM ratio|391.0|||||TWO_SIDED|90.0|163.0|942.0||||||Cmax of GS-834773||942|163|
92207874|NCT02891408|184316174|OTHER||GLSM ratio|4470.0|||||TWO_SIDED|90.0|2170.0|9207.0||||||Cmax of GS-834773||9207|2170|
92207875|NCT02891408|184316174|OTHER||GLSM ratio|9278.0|||||TWO_SIDED|90.0|4945.0|17407.0||||||Cmax of GS-834773||17407|4945|
92207876|NCT02891408|184316174|OTHER||GLSM ratio|109.0|||||TWO_SIDED|90.0|81.0|146.0||||||Cmax of Fenofibric Acid||146|81|
92207877|NCT00709852|184316185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|STANDARD_DEVIATION|0.61|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
92207878|NCT00709852|184316185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67|STANDARD_DEVIATION|0.66|<|0.0001||||||for border delineation|paired t-test|||||||< 0.0001
92207879|NCT00709852|184316185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62|STANDARD_DEVIATION|0.47|<|0.0001||||||for internal morphology|paired t-test|||||||< 0.0001
92207880|NCT00709852|184316186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59|STANDARD_DEVIATION|0.77|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207881|NCT00709852|184316186|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.72|STANDARD_DEVIATION|0.78|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207882|NCT00709852|184316186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|STANDARD_DEVIATION|0.61|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207883|NCT00709852|184316187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06|STANDARD_DEVIATION|0.51|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207884|NCT00709852|184316187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|STANDARD_DEVIATION|0.5|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207885|NCT00709852|184316187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_DEVIATION|0.52|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207886|NCT00709852|184316188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29|STANDARD_DEVIATION|0.56|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207887|NCT00709852|184316188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|0.53|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207888|NCT00709852|184316188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61|STANDARD_DEVIATION|0.42|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207889|NCT00709852|184316189|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.39|STANDARD_DEVIATION|5.51|||TWO_SIDED|95.0|-0.199|0.984|||confidence interval for paired means|lower limit of interval is compared to noninferiority margin||BR 1||0.984|-0.199|
92207890|NCT00709852|184316189|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|-0.44|STANDARD_DEVIATION|12.38|||TWO_SIDED|95.0|-1.772|0.885|||confidence interval for paired means|lower limit of confidence interval (CI) is compared to noninferiority margin||BR 2||0.885|-1.772|
92207891|NCT00709852|184316189|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.56|STANDARD_DEVIATION|4.07|||TWO_SIDED|95.0|0.125|1.0|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||BR 3||1.000|0.125|
92207892|NCT00709852|184316189|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.17|STANDARD_DEVIATION|5.68|||TWO_SIDED|95.0|-0.439|0.78|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||AR||0.780|-0.439|
92207893|NCT00709852|184316190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.62|STANDARD_DEVIATION|0.3|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207894|NCT00709852|184316190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81|STANDARD_DEVIATION|0.37|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207895|NCT00709852|184316190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_DEVIATION|0.38|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207896|NCT00709852|184316191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.13|STANDARD_DEVIATION|0.62|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207897|NCT00709852|184316191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|STANDARD_DEVIATION|0.46|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207898|NCT00709852|184316191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|STANDARD_DEVIATION|0.39|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207899|NCT00709852|184316192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.36|STANDARD_DEVIATION|0.33|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207900|NCT00709852|184316192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|0.33|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207901|NCT00709852|184316192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|STANDARD_DEVIATION|0.32|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207902|NCT00709852|184316193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|STANDARD_DEVIATION|0.3|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92327545|NCT00710684|184560284|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4||||0.174|TWO_SIDED|95.0|-5.8|1.1|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 24||1.1|-5.8|0.174
92327546|NCT00710684|184560284|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.776|TWO_SIDED|95.0|-3.6|2.7|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 24||2.7|-3.6|0.776
92207903|NCT00709852|184316193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72|STANDARD_DEVIATION|0.23|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207904|NCT00709852|184316193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.76|STANDARD_DEVIATION|0.22|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207905|NCT00709852|184316194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83|STANDARD_DEVIATION|1.16|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207906|NCT00709852|184316194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|STANDARD_DEVIATION|1.26|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207907|NCT00709852|184316194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_DEVIATION|0.82|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207908|NCT00709852|184316195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89|STANDARD_DEVIATION|1.29|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207909|NCT00709852|184316195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.54|STANDARD_DEVIATION|1.44|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207910|NCT00709852|184316195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48|STANDARD_DEVIATION|1.11|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207911|NCT00709852|184316196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|STANDARD_DEVIATION|0.95|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207912|NCT00709852|184316196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_DEVIATION|0.97|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207913|NCT00709852|184316196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39|STANDARD_DEVIATION|0.96|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207914|NCT00709852|184316197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.78|STANDARD_DEVIATION|1.06|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207915|NCT00709852|184316197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_DEVIATION|1.07|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207916|NCT00709852|184316197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42|STANDARD_DEVIATION|0.83|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207917|NCT00709852|184316198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24|STANDARD_DEVIATION|0.53|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
92207918|NCT00709852|184316198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|STANDARD_DEVIATION|0.48|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207919|NCT00709852|184316198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_DEVIATION|0.41|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207920|NCT00709852|184316199|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|6.44|||TWO_SIDED|95.0|-0.532|0.851|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||||0.851|-0.532|
92207921|NCT00709852|184316200|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.33||||95.0|0.0004|0.078|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for contrast enhancement||0.078|0.0004|
92207922|NCT00709852|184316200|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.41||||95.0|-0.009|0.082|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for border delineation||0.082|-0.009|
92207923|NCT00709852|184316200|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|0.29||||95.0|-0.006|0.059|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for internal morphology||0.059|-0.006|
92207924|NCT00709852|184316201|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.01|STANDARD_DEVIATION|5.7||||95.0|-0.601|0.622|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||||0.622|-0.601|
92207925|NCT00709852|184316202|SUPERIORITY_OR_OTHER||Difference in percentages|8.3|||||||||||||for BR1|||||
92207926|NCT00709852|184316202|SUPERIORITY_OR_OTHER||Difference in percentages|-0.9|||||||||||||for BR2|||||
92207927|NCT00709852|184316202|SUPERIORITY_OR_OTHER||Difference in percentages|15.8|||||||||||||for BR3|||||
92207928|NCT00709852|184316202|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|8.9|||||TWO_SIDED|95.0|-0.5|18.4|||CI for paired percentages|confidence interval is given for AR; lower limit is compared to the noninferiority margin||||18.4|-0.5|
92207929|NCT00709852|184316203|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|3.6||||||95.0|-5.9|13.1|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||13.1|-5.9|
92207930|NCT00709852|184316204|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|8.3||||||95.0|-0.9|17.6|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||17.6|-0.9|
92207931|NCT00709852|184316205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_DEVIATION|0.78|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207932|NCT00709852|184316205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61|STANDARD_DEVIATION|0.61|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207933|NCT00709852|184316206|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.29|STANDARD_DEVIATION|3.21||||95.0|-0.053|0.636|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||||0.636|-0.053|
92207934|NCT00709852|184316207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_DEVIATION|0.64|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207935|NCT00709852|184316207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64|STANDARD_DEVIATION|0.5|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207936|NCT00709852|184316208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_DEVIATION|1.26|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207937|NCT00709852|184316208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|STANDARD_DEVIATION|0.97|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207938|NCT00709852|184316209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71|STANDARD_DEVIATION|0.76|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207939|NCT00709852|184316209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_DEVIATION|0.63|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207940|NCT00709852|184316210|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.28|STANDARD_DEVIATION|3.39||||95.0|-0.087|0.641|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||||0.641|-0.087|
92207941|NCT00709852|184316211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.78|STANDARD_DEVIATION|0.61|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207942|NCT00709852|184316211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63|STANDARD_DEVIATION|0.49|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207943|NCT00709852|184316212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65|STANDARD_DEVIATION|1.27|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
92207944|NCT00709852|184316212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51|STANDARD_DEVIATION|1.01|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
92207945|NCT00709852|184316213|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.06||||||95.0|0.03|0.096|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for contrast enhancement||0.096|0.030|
92207946|NCT00709852|184316213|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.04||||||95.0|0.003|0.071|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for border delineation||0.071|0.003|
92207947|NCT00709852|184316213|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.03||||||95.0|0.003|0.055|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for internal morphology||0.055|0.003|
92207948|NCT00709852|184316214|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.01|STANDARD_DEVIATION|0.59||||95.0|-0.049|0.078|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||||0.078|-0.049|
92207949|NCT00709852|184316215|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.03||||||95.0|-0.009|0.065|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for contrast enhancement||0.065|-0.009|
92207950|NCT00709852|184316215|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|-0.01||||||95.0|-0.04|0.02|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for border delineation||0.020|-0.040|
92207951|NCT00709852|184316215|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.01||||||95.0|-0.015|0.035|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for internal morphology||0.035|-0.015|
92207952|NCT00709852|184316216|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.1||||||95.0|0.042|0.153|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for contrast enhancement||0.153|0.042|
92207953|NCT00709852|184316216|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.1||||||95.0|0.03|0.161|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for border delineation||0.161|0.030|
92207954|NCT00709852|184316216|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.05||||||95.0|0.006|0.098|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for internal morphology||0.098|0.006|
92207955|NCT00709852|184316217|SUPERIORITY_OR_OTHER||Difference|6.2||||0.0082|||||||McNemar|||||||0.0082
92207956|NCT00709852|184316218|SUPERIORITY_OR_OTHER||Difference|9.9|||<|0.0001|||||||McNemar|||||||< 0.0001
92207957|NCT00709852|184316219|SUPERIORITY_OR_OTHER||Difference|6.8||||0.0039|||||||McNemar|||||||0.0039
92207958|NCT00709852|184316220|SUPERIORITY_OR_OTHER||Difference|9.2|||<|0.0001|||||||McNemar|||||||< 0.0001
92207959|NCT00709852|184316221|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|-0.4||||||95.0|-3.8|2.9|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||2.9|-3.8|
92207960|NCT00709852|184316222|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.7||||||95.0|-0.3|1.6|||CI for paired percentages|lower limit of interval is compared to noninferiority margin||||1.6|-0.3|
92207961|NCT00709852|184316223|SUPERIORITY_OR_OTHER||Difference|10.5||||0.0002|||||||McNemar|||||||0.0002
92207962|NCT00709852|184316224|SUPERIORITY_OR_OTHER||Difference|13.6|||<|0.0001|||||||McNemar|||||||< 0.0001
92207963|NCT00709852|184316225|SUPERIORITY_OR_OTHER||Difference|0.0||||1|||||||McNemar|||||||1.0000
92207964|NCT00709852|184316226|SUPERIORITY_OR_OTHER||Difference|10.5||||0.0002|||||||McNemar|||||||0.0002
92207965|NCT00709852|184316227|SUPERIORITY_OR_OTHER||Difference|13.1||||0.0001|||||||McNemar|||||||0.0001
92207966|NCT00709852|184316228|SUPERIORITY_OR_OTHER||Difference|1.6||||0.763|||||||McNemar|||||||0.7630
92207967|NCT00709852|184316229|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.0||||||95.0|-3.1|3.1|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||3.1|-3.1|
92207968|NCT00709852|184316230|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.5||||||95.0|-2.7|3.6|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||3.6|-2.7|
92207969|NCT00709852|184316231|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|-1.6||||||95.0|-10.1|6.9|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||6.9|-10.1|
92207970|NCT00709852|184316232|SUPERIORITY_OR_OTHER||Difference|6.5||||0.0006|||||||McNemar|||||||0.0006
92207971|NCT00709852|184316233|SUPERIORITY_OR_OTHER||Difference|19.4||||0.0004|||||||McNemar|||||||0.0004
92207972|NCT00709852|184316234|SUPERIORITY_OR_OTHER||Difference|0.5||||0.6547|||||||McNemar|||||||0.6547
92207973|NCT00709852|184316235|SUPERIORITY_OR_OTHER||Difference|7.9|||<|0.0001|||||||McNemar|||||||< 0.0001
92327547|NCT00710684|184560285|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.631|TWO_SIDED|95.0|-1.2|0.7|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 12||0.7|-1.2|0.631
92207974|NCT00709852|184316236|SUPERIORITY_OR_OTHER||Difference|21.5|||<|0.0001|||||||McNemar|||||||< 0.0001
92207975|NCT00709852|184316237|SUPERIORITY_OR_OTHER||Difference|1.5||||0.0833|||||||McNemar|||||||0.0833
92207976|NCT00709852|184316238|SUPERIORITY_OR_OTHER||Difference|4.5||||0.0236|||||||McNemar|||||||0.0236
92207977|NCT00709852|184316239|SUPERIORITY_OR_OTHER||Difference|12.9||||0.0186|||||||McNemar|||||||0.0186
92207978|NCT00709852|184316240|SUPERIORITY_OR_OTHER||Difference|0.5||||0.7055|||||||McNemar|||||||0.7055
92207979|NCT00709852|184316241|SUPERIORITY_OR_OTHER||Difference|7.2|||<|0.0001|||||||McNemar|||||||< 0.0001
92207980|NCT00709852|184316242|SUPERIORITY_OR_OTHER||Difference|20.4|||<|0.0001|||||||McNemar|||||||< 0.0001
92207981|NCT00709852|184316243|SUPERIORITY_OR_OTHER||Difference|1.0||||0.1573|||||||McNemar|||||||0.1573
92207982|NCT00709852|184316244|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|2.1||||||95.0|0.2|3.9|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||3.9|0.2|
92207983|NCT00709852|184316245|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|6.5||||||95.0|1.5|11.4|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||11.4|1.5|
92207984|NCT00709852|184316246|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.0||||||95.0|-1.4|1.4|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||1.4|-1.4|
92207985|NCT00709852|184316247|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.7||||||95.0|-0.3|1.6|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||1.6|-0.3|
92207986|NCT00709852|184316248|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|1.1||||||95.0|-1.0|3.2|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||3.2|-1.0|
92207987|NCT00709852|184316249|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.5||||||95.0|-0.5|1.5|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||1.5|-0.5|
92207988|NCT00709852|184316250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57|STANDARD_DEVIATION|0.56|<|0.0001|||||||paired t test|||||||< 0.0001
92327548|NCT00710684|184560285|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.006|TWO_SIDED|95.0|-2.2|-0.4|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 12||-0.4|-2.2|0.006
92327549|NCT00710684|184560285|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.947|TWO_SIDED|95.0|-1.3|1.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 36||1.2|-1.3|0.947
92207989|NCT00709852|184316251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57|STANDARD_DEVIATION|0.58|<|0.0001|||||||paired t test|||||||< 0.0001
92207990|NCT00709852|184316252|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.48||||||||||||||||
92207991|NCT00709852|184316253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.76|STANDARD_DEVIATION|0.93|<|0.0001|||||||paired t test|||||||< 0.0001
92207992|NCT00709852|184316254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73|STANDARD_DEVIATION|0.89|<|0.0001|||||||paired t test|||||||< 0.0001
92207993|NCT00709852|184316255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.39||||||||||||||||
92207994|NCT00709852|184316256|SUPERIORITY_OR_OTHER||||||<|0.0001||||||for all three readers|t-test, 2 sided|||||||< 0.0001
92207995|NCT00709852|184316258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|1.06||||||||||||||||
92207996|NCT00709852|184316259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_DEVIATION|26.6||||||||||||||||
92207997|NCT05249829|184316266|NON_INFERIORITY|Non-inferiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>0.667.|Geometric Mean Ratio|1.73|||||TWO_SIDED|99.0|1.493|2.005||||||Geometric Mean Ratio = GMCmRNA-1273.529/GMCmRNA-1273 against the B.1.1.529 strain at Day 29 after study vaccine administration.||2.005|1.493|
92207998|NCT05249829|184316267|NON_INFERIORITY|Non-inferiority was demonstrated if the lower bound of the 96% CI of the Geometric Mean Ratio was \>0.667.|Geometric Mean Ratio|1.763|||||TWO_SIDED|96.0|1.546|2.01||||||Geometric Mean Ratio = GMCmRNA-1273.529/GMCmRNA-1273 against the B.1.1.529 strain at Day 85 after study vaccine administration.||2.010|1.546|
92207999|NCT05249829|184316268|OTHER|Non-inferiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>0.667. Superiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>1.|Geometric Mean Ratio|1.535|||||TWO_SIDED|99.0|1.409|1.672||||||Geometric Mean Ratio = GMCmRNA-1273.214/GMCmRNA-1273 against the B.1.1.529 strain at Day 29 after study vaccine administration.||1.672|1.409|
92208000|NCT05249829|184316269|OTHER|Non-inferiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>0.667. Superiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>1.|Geometric Mean Ratio|1.713|||||TWO_SIDED|96.0|1.583|1.853||||||Geometric Mean Ratio = GMCmRNA-1273.214/GMCmRNA-1273 against the B.1.1.529 strain at Day 85 after study vaccine administration.||1.853|1.583|
92208001|NCT05249829|184316270|NON_INFERIORITY|Non-inferiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>0.667.|Geometric Mean Ratio|1.048|||||TWO_SIDED|99.0|0.958|1.147||||||Geometric Mean Ratio = GMCmRNA-1273.214/GMCmRNA-1273 against the ancestral strain at Day 29 after study vaccine administration. Reported statistical analysis based upon the number of participants with non-missing data at baseline and the corresponding timepoint (N=1818).||1.147|0.958|
92208002|NCT05249829|184316271|OTHER|Non-inferiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>0.667.|Geometric Mean Ratio|1.104|||||TWO_SIDED|96.0|1.032|1.18||||||Geometric Mean Ratio = GMCmRNA-1273.214/GMCmRNA-1273 against the ancestral strain at Day 85 after study vaccine administration. Reported statistical analysis based upon the number of participants with non-missing data at baseline and the corresponding timepoint (N=1418).||1.180|1.032|
92208003|NCT05249829|184316278|SUPERIORITY|Superiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>1.|Geometric Mean Ratio|1.73|||||TWO_SIDED|99.0|1.493|2.005||||||Geometric Mean Ratio = GMCmRNA-1273.529/GMCmRNA-1273 against the B.1.1.529 strain at Day 29 after study vaccine administration.||2.005|1.493|
92208004|NCT05249829|184316278|SUPERIORITY|Superiority was demonstrated if the lower bound of the 96% CI of the Geometric Mean Ratio was \>1.|Geometric Mean Ratio|1.763|||||TWO_SIDED|96.0|1.546|2.01||||||Geometric Mean Ratio = GMCmRNA-1273.529/GMCmRNA-1273 against the B.1.1.529 strain at Day 85 after study vaccine administration. Reported statistical analysis based upon the number of participants with non-missing data at baseline and the corresponding timepoint (N=460).||2.010|1.546|
92208005|NCT00825825|184316345|SUPERIORITY_OR_OTHER|||||||0.000704||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the escitalopram and citalopram medication periods.||||0.000704
92208006|NCT00825825|184316346|SUPERIORITY_OR_OTHER|||||||1.62e-05||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the escitalopram and citalopram medication periods.||||0.0000162
92208007|NCT00825825|184316347|SUPERIORITY_OR_OTHER|||||||9.36e-06||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the citalopram and placebo medication periods.||||0.00000936
92208008|NCT00825825|184316348|SUPERIORITY_OR_OTHER|||||||0.0279||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the citalopram and placebo medication periods.||||0.0279
92208009|NCT00825825|184316349|SUPERIORITY_OR_OTHER|||||||0.00124||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the escitalopram and placebo medication periods.||||0.00124
92208010|NCT00825825|184316350|SUPERIORITY_OR_OTHER|||||||6.33e-05||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the placebo and citalopram medication periods.||||0.0000633
92208011|NCT00825825|184316351|SUPERIORITY_OR_OTHER|||||||0.0241||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the escitalopram and citalopram medication periods.||||0.0241
92208012|NCT00882687|184316352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3235|||||||Wilcoxon rank-sum test|||||||0.3235
92208013|NCT00882687|184316352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9144|||||||Wilcoxon rank-sum test|||||||0.9144
92208014|NCT00882687|184316352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3324|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.3324
92208015|NCT00882687|184316353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5846|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.5846
92208016|NCT00882687|184316353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1493|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.1493
92208017|NCT00882687|184316353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0404|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.0404
92208018|NCT00882687|184316354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0578|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.0578
92208019|NCT00882687|184316354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8988|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.8988
92208020|NCT00882687|184316354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4709|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.4709
92208021|NCT00882687|184316355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1773|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.1773
92208022|NCT00882687|184316355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4222|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.4222
92208023|NCT00882687|184316355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4326|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.4326
92208024|NCT02649946|184316361|SUPERIORITY|TLPP evaluated at 6 months post-index procedure to assess if TLPP of COVERA is superior to that of PTA alone, by direct comparison.|||||<|0.001||||||Test successful if the one-side p-value is less than 0.025 and the result is in favor of the COVERA Vascular Covered Stent.|Chi-squared|||"Hypothesis: The (survival) rate in subjects treated with the COVERA Vascular Covered Stent (following PTA) with respect to TLPP through 6 months is greater than that in subjects treated with PTA alone in the treatment of stenoses in the upper extremity venous outflow of subjects dializing with an AV fistula.~Sample size calculation: 238 randomized subjects \[214 evaluable\] will give 92% power with one-sided type 1 error = 0.025."||||<0.001
92268714|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.93||||||95.0|0.77|1.13||||||For serotype 6B after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.13|0.77|
92268715|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|1.07||||||95.0|0.82|1.4||||||For serotype 6B after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.40|0.82|
92268716|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.87||||||95.0|0.69|1.1||||||For serotype 6B after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.10|0.69|
92268717|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.8||||||95.0|0.68|0.94||||||For serotype 9V after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||0.94|0.68|
92268718|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.71||||||95.0|0.59|0.85||||||For serotype 9V after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||0.85|0.59|
92268719|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|1.13||||||95.0|0.95|1.33||||||For serotype 9V after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.33|0.95|
92268720|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.88||||||95.0|0.73|1.06||||||For serotype 14 after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.06|0.73|
92208025|NCT02649946|184316362|NON_INFERIORITY|Non-inferiority Farrington and Manning Exact Test is used to test the primary safety hypothesis. The test is successful if the one-sided p-value is less than 0.025.||||||0.0022|||||||Farrington and Manning|Non-inferiority test with non-inferiority margin of 10%.||"Hypothesis: The safety rate in subjects treated with the COVERA Vascular Covered Stent (following PTA) is non-inferior to the safety rate in subjects treated with PTA alone through 30 days in the treatment of stenotic lesions.~Sample size: 238 randomized subjects \[226 evaluable\] will give 85% power with one-sided type 1 error = 0.025."||||0.0022
92208026|NCT04619251|184316385|OTHER|Since the main focus is on estimation and not testing, a formal hypothesis test and associated acceptance range is not specified.|Geometric Least Squares Mean ratio (%)|337.6|||||TWO_SIDED|90.0|302.8|376.4|||||Geometric Least Squares Mean ratio was estimated by the ratios of the geometric means (T/R). Intra-individual geometric coefficient variation (gCV %) =15.9|The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: subject and treatment. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. These quantities were then back-transformed to the original scale.||376.4|302.8|
92208027|NCT04619251|184316386|OTHER|Since the main focus is on estimation and not testing, a formal hypothesis test and associated acceptance range is not specified.|Geometric Least Squares Mean ratio (%)|184.4|||||TWO_SIDED|90.0|156.0|218.0|||||Geometric Least Squares Mean ratio was estimated by the ratios of the geometric means (T/R). Intra-individual geometric coefficient variation (gCV %) =26.4|The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: subject and treatment. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. These quantities were then back-transformed to the original scale.||218.0|156.0|
92208028|NCT04619251|184316387|OTHER|Since the main focus is on estimation and not testing, a formal hypothesis test and associated acceptance range is not specified.|Geometric Least Squares Mean ratio (%)|356.8|||||TWO_SIDED|90.0|315.7|403.2|||||Geometric Least Squares Mean ratio was estimated by the ratios of the geometric means (T/R). Intra-individual geometric coefficient variation (gCV %) =18.4|The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: subject and treatment. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. These quantities were then back-transformed to the original scale.||403.2|315.7|
92208029|NCT05172050|184316423|SUPERIORITY|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Odds Ratio (OR)|9.99||||0.0109|TWO_SIDED|95.0|1.781||Upper limit is not estimable (NE) due to the low number of events||Regression, Logistic||||||1.781|0.0109
92208030|NCT05172050|184316423|SUPERIORITY|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Odds Ratio (OR)|5.414||||0.0673|TWO_SIDED|95.0|0.858||The upper limit is not estimable (NE), due to the low number of events||Regression, Logistic||||||0.858|0.0673
92208031|NCT05172050|184316423|SUPERIORITY||Odds Ratio (OR)|12.186||||0.0061|TWO_SIDED|95.0|2.147||The upper limit was not estimable due to the low number of events|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Regression, Logistic|||This sensitivity analysis is conducted on the per protocol (PP) population: n=18 in the Raloxifene 60 mg arm; n=17 in the Raloxifene 120 mg arm; and n=17 in the Placebo arm.|||2.147|0.0061
92327550|NCT00710684|184560285|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.057|TWO_SIDED|95.0|-2.5|0.0|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 36||0.0|-2.5|0.057
92208032|NCT05172050|184316423|SUPERIORITY||Odds Ratio (OR)|5.936||||0.0567|TWO_SIDED|95.0|0.938||The upper limit was not estimable due to the low number of events|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Regression, Logistic|||This sensitivity analysis is conducted on the per protocol (PP) population: n=18 in the Raloxifene 60 mg arm; n=17 in the Raloxifene 120 mg arm; and n=17 in the Placebo arm|||0.938|0.0567
92208033|NCT05172050|184316424|SUPERIORITY|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects|Odds Ratio (OR)|1.663||||0.7121|TWO_SIDED|95.0|0.337|9.053|||Regression, Logistic|||||9.053|0.337|0.7121
92208034|NCT05172050|184316424|SUPERIORITY|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects|Odds Ratio (OR)|0.963|||>|0.999|TWO_SIDED|95.0|0.185|4.977|||Regression, Logistic|||||4.977|0.185|>0.999
92327551|NCT00710684|184560285|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.925|TWO_SIDED|95.0|-1.6|1.5|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 48||1.5|-1.6|0.925
92208035|NCT05172050|184316424|SUPERIORITY||Odds Ratio (OR)|2.34||||0.5378|TWO_SIDED|95.0|0.35|20.153||Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Regression, Logistic|||This sensitivity analysis is conducted on the per protocol (PP) population: n=18 in the Raloxifene 60 mg arm; n=17 in the Raloxifene 120 mg arm; and n=17 in the Placebo arm||20.153|0.350|0.5378
92208036|NCT05172050|184316424|SUPERIORITY||Odds Ratio (OR)|1.209|||>|0.999|TWO_SIDED|95.0|0.185|8.589||Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Regression, Logistic|||This sensitivity analysis is conducted on the per protocol (PP) population: n=18 in the Raloxifene 60 mg arm; n=17 in the Raloxifene 120 mg arm; and n=17 in the Placebo arm||8.589|0.185|>0.999
92208037|NCT05172050|184316425|SUPERIORITY||Odds Ratio (OR)|1.114|||>|0.999|TWO_SIDED|95.0|0.219|5.708|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.||at Day 14||5.708|0.219|>0.999
92208038|NCT05172050|184316425|SUPERIORITY||Odds Ratio (OR)|3.202||||0.2553|TWO_SIDED|95.0|0.541|22.116|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.||At day 14||22.116|0.541|0.2553
92208039|NCT05172050|184316425|SUPERIORITY||Odds Ratio (OR)|2.16||||0.6189|TWO_SIDED|95.0|0.294|18.532|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.||at Day 28||18.532|0.294|0.6189
92208040|NCT05172050|184316425|SUPERIORITY||Odds Ratio (OR)|7.22||||0.1662|TWO_SIDED|95.0|0.586|413.499|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.||at Day 28||413.499|0.586|0.1662
92208041|NCT05172050|184316426|SUPERIORITY||Odds Ratio (OR)|0.972|||>|0.999|TWO_SIDED|95.0|0.193|4.906|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects||at Day 7||4.906|0.193|>0.999
92208042|NCT05172050|184316426|SUPERIORITY||Odds Ratio (OR)|1.156|||>|0.999|TWO_SIDED|95.0|0.2|6.822|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects||at Day 7||6.822|0.200|>0.999
92208043|NCT05172050|184316426|SUPERIORITY||Odds Ratio (OR)|1.066|||>|0.999|TWO_SIDED|95.0|0.208|5.478|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects||at Day 28||5.478|0.208|>0.999
92208044|NCT05172050|184316426|SUPERIORITY||Odds Ratio (OR)|2.068||||0.5465|TWO_SIDED|95.0|0.369|12.58|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects||at Day 28||12.580|0.369|0.5465
92208045|NCT05172050|184316429|SUPERIORITY|||||||0.3899||||||P-Value comparing % among treatment groups Raloxifene 60mg versus Placebo using Fisher's Exact test.|Fisher Exact|||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 7 R60 vs Placebo||||0.3899
92208046|NCT05172050|184316429|SUPERIORITY|||||||0.4075||||||P-Value comparing % among treatment groups Raloxifene 120 mg versus Placebo using Fisher's Exact test.|Fisher Exact|||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 7 R120 vs placebo||||0.4075
92327552|NCT00710684|184560285|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.024|TWO_SIDED|95.0|-3.1|-0.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 48||-0.2|-3.1|0.024
92208047|NCT05172050|184316429|SUPERIORITY|||||||0.3899||||||P-Value comparing % among treatment groups Raloxifene 60mg versus Placebo using Fisher's Exact test.|Fisher Exact|||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 14 R60 vs placebo||||0.3899
92208048|NCT05172050|184316429|SUPERIORITY|||||||0.4075|||||||Fisher Exact|P-Value comparing % among treatment groups Raloxifene 120mg versus Placebo using Fisher's Exact test.||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 14 R120 vs placebo||||0.4075
92208049|NCT05172050|184316429|SUPERIORITY|||||||0.6846||||||P-Value comparing % among treatment groups Raloxifene 60mg versus Placebo using Fisher's Exact test.|Fisher Exact|||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 28 R60 vs placebo||||0.6846
92208050|NCT05172050|184316429|SUPERIORITY|||||||0.6614||||||P-Value comparing % among treatment groups Raloxifene 120mg versus Placebo using Fisher's Exact test.|Fisher Exact|||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 28 R120 vs placebo||||0.6614
92208051|NCT05172050|184316431|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||Log Rank|||||1.00|1.00|
92208052|NCT05172050|184316431|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|1.0|1.0||p value= not estimable|Log Rank|||||1.00|1.00|
92208053|NCT02909764|184316434|OTHER|||||||0.3|||||||ANOVA|||||||0.30
92208054|NCT02909764|184316435|OTHER|Yates's chi-square analyses were used to determine which of the two cereals children in each group preferred at baseline and after the 8-week exposure period, and whether the number of children who shifted preference from the regular cereal at baseline to the low salt cereal after the exposure period differed between groups.|||||<|0.05|||||||Chi-squared|||Yates's chi-square analyses were used to determine which of the two cereals children in each group preferred at baseline and after the 8-week exposure period, and whether the number of children who shifted preference from the regular cereal at baseline to the low salt cereal after the exposure period differed between groups.||||<0.05
92208055|NCT02909764|184316436|OTHER|||||||0.32|||||||ANOVA|||||||0.32
92208056|NCT02909764|184316437|OTHER|||||||0.77|||||||ANOVA|||||||0.77
92208057|NCT02909764|184316438|OTHER|General estimating equations (GEE)|||||<|0.05|||||||GEE|||Generalized estimating equations (GEE) were conducted on the amount of cereal in grams ingested during 28 days home-exposure period. The GEE approach accounts for the repeated measurements of outcomes over time for each child and examines whether the slopes of the lines created differ between the treatment groups.||||<0.05
92208058|NCT02909764|184316439|OTHER|T-tests were conducted to determine whether differences in baseline blood pressure between groups|||||>|0.4|||||||t-test, 2 sided|||T-tests were conducted to determine whether differences in baseline blood pressure between the two groups.||||>0.40
92327553|NCT00710684|184560286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.387|TWO_SIDED|95.0|-0.4|0.1|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 12||0.1|-0.4|0.387
92208059|NCT04617275|184316449|SUPERIORITY||Mean Difference (Final Values)|2.31||||0.5863|TWO_SIDED|90.0|-15.23|19.85||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||19.85|-15.23|0.5863
92208060|NCT04617275|184316449|SUPERIORITY||Mean Difference (Final Values)|-17.41||||0.0494|TWO_SIDED|90.0|-34.75|-0.06||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.06|-34.75|0.0494
92208061|NCT04617275|184316449|SUPERIORITY||Mean Difference (Final Values)|-30.85||||0.0019|TWO_SIDED|90.0|-48.09|-13.61||1-Sided|Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-13.61|-48.09|0.0019
92208062|NCT04617275|184316449|SUPERIORITY||Mean Difference (Final Values)|-33.66||||0.0009|TWO_SIDED|90.0|-51.0|-16.32||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-16.32|-51.00|0.0009
92208063|NCT04617275|184316449|SUPERIORITY||Mean Difference (Final Values)|-19.52||||0.0343|TWO_SIDED|90.0|-37.12|-1.92||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.92|-37.12|0.0343
92208064|NCT04617275|184316450|SUPERIORITY||Mean Difference (Final Values)|-3.33||||0.3804|TWO_SIDED|90.0|-21.41|14.76||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||14.76|-21.41|0.3804
92208065|NCT04617275|184316450|SUPERIORITY||Mean Difference (Final Values)|-19.65||||0.0348|TWO_SIDED|90.0|-37.44|-1.87||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.87|-37.44|0.0348
92327554|NCT00710684|184560286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.018|TWO_SIDED|95.0|-0.5|-0.1|||MMRM|||SB-742457 35 mg versus placebo at Week 12||-0.1|-0.5|0.018
92208066|NCT04617275|184316450|SUPERIORITY||Mean Difference (Final Values)|-32.8||||0.0014|TWO_SIDED|90.0|-50.54|-15.05||1-Sided|Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-15.05|-50.54|0.0014
92208067|NCT04617275|184316450|SUPERIORITY||Mean Difference (Final Values)|-35.85||||0.0007|TWO_SIDED|90.0|-53.9|-17.81||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-17.81|-53.90|0.0007
92208068|NCT04617275|184316450|SUPERIORITY||Mean Difference (Final Values)|-28.49||||0.0052|TWO_SIDED|90.0|-46.6|-10.37||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-10.37|-46.60|0.0052
92208069|NCT04617275|184316451|SUPERIORITY||Mean Difference (Final Values)|-25.58||||0.025|TWO_SIDED|90.0|-46.97|-4.18||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-4.18|-46.97|0.0250
92208070|NCT04617275|184316451|SUPERIORITY||Mean Difference (Final Values)|-32.95||||0.0053|TWO_SIDED|90.0|-53.95|-11.95||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-11.95|-53.95|0.0053
92208071|NCT04617275|184316451|SUPERIORITY||Mean Difference (Final Values)|-40.07||||0.0012|TWO_SIDED|90.0|-61.41|-18.73|||Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-18.73|-61.41|0.0012
92208072|NCT04617275|184316451|SUPERIORITY||Mean Difference (Final Values)|-45.47||||0.0003|TWO_SIDED|90.0|-66.85|-24.1||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-24.10|-66.85|0.0003
92208073|NCT04617275|184316451|SUPERIORITY||Mean Difference (Final Values)|-33.63||||0.0055|TWO_SIDED|90.0|-55.19|-12.08||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-12.08|-55.19|0.0055
92208074|NCT04617275|184316452|SUPERIORITY||Mean Difference (Final Values)|-27.79||||0.0127|TWO_SIDED|90.0|-48.12|-7.47||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-7.47|-48.12|0.0127
92208075|NCT04617275|184316452|SUPERIORITY||Mean Difference (Final Values)|-25.67||||0.0171|TWO_SIDED|90.0|-45.51|-5.83||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-5.83|-45.51|0.0171
92208076|NCT04617275|184316452|SUPERIORITY||Mean Difference (Final Values)|-46.94||||0.0001|TWO_SIDED|90.0|-67.16|-26.72||1-Sided|Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-26.72|-67.16|0.0001
92208077|NCT04617275|184316452|SUPERIORITY||Mean Difference (Final Values)|-33.79||||0.0037|TWO_SIDED|90.0|-54.32|-13.27||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-13.27|-54.32|0.0037
92208078|NCT04617275|184316452|SUPERIORITY||Mean Difference (Final Values)|-42.13||||0.0005|TWO_SIDED|90.0|-62.85|-21.4||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-21.40|-62.85|0.0005
92327555|NCT00710684|184560286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.439|TWO_SIDED|95.0|-0.3|0.6|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 36||0.6|-0.3|0.439
92327556|NCT00710684|184560286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.336|TWO_SIDED|95.0|-0.6|0.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 36||0.2|-0.6|0.336
92208079|NCT04617275|184316453|SUPERIORITY||Mean Difference (Final Values)|-12.85||||0.1678|TWO_SIDED|90.0|-34.9|9.21||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||9.21|-34.90|0.1678
92208080|NCT04617275|184316453|SUPERIORITY||Mean Difference (Final Values)|-14.82||||0.1223|TWO_SIDED|90.0|-35.85|6.21||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||6.21|-35.85|0.1223
92208081|NCT04617275|184316453|SUPERIORITY||Mean Difference (Final Values)|-33.97||||0.0054|TWO_SIDED|90.0|-55.66|-12.28||1-Sided|Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-12.28|-55.66|0.0054
92208082|NCT04617275|184316453|SUPERIORITY||Mean Difference (Final Values)|1.31||||0.5398|TWO_SIDED|90.0|-20.38|22.99||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||22.99|-20.38|0.5398
92208083|NCT04617275|184316453|SUPERIORITY||Mean Difference (Final Values)|-14.42||||0.1409|TWO_SIDED|90.0|-36.56|7.72||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||7.72|-36.56|0.1409
92208084|NCT04617275|184316454|SUPERIORITY||Mean Difference (Final Values)|-28.65||||0.0236|TWO_SIDED|90.0|-52.31|-4.99||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-4.99|-52.31|0.0236
92208085|NCT04617275|184316454|SUPERIORITY||Mean Difference (Final Values)|-27.32||||0.0226|TWO_SIDED|90.0|-49.67|-4.97||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-4.97|-49.67|0.0226
92208086|NCT04617275|184316454|SUPERIORITY||Mean Difference (Final Values)|-40.85||||0.0022|TWO_SIDED|90.0|-64.11|-17.59||1-Sided|Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-17.59|-64.11|0.0022
92208087|NCT04617275|184316454|SUPERIORITY||Mean Difference (Final Values)|-10.25||||0.2335|TWO_SIDED|90.0|-33.59|13.08||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||13.08|-33.59|0.2335
92208088|NCT04617275|184316454|SUPERIORITY||Mean Difference (Final Values)|-24.38||||0.0494|TWO_SIDED|90.0|-48.69|-0.08||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.08|-48.69|0.0494
92208089|NCT04617275|184316455|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.2485|TWO_SIDED|90.0|-0.31|0.13||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.13|-0.31|0.2485
92208090|NCT04617275|184316455|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.0252|TWO_SIDED|90.0|-0.48|-0.04||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.04|-0.48|0.0252
92208091|NCT04617275|184316455|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.0053|TWO_SIDED|90.0|-0.56|-0.12||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.12|-0.56|0.0053
92208092|NCT04617275|184316455|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.009|TWO_SIDED|90.0|-0.54|-0.1||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.10|-0.54|0.0090
92208093|NCT04617275|184316455|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.1066|TWO_SIDED|90.0|-0.39|0.05||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.05|-0.39|0.1066
92208094|NCT04617275|184316456|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.274|TWO_SIDED|90.0|-0.4|0.19||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.19|-0.40|0.2740
92208095|NCT04617275|184316456|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.0196|TWO_SIDED|90.0|-0.66|-0.08||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.08|-0.66|0.0196
92208096|NCT04617275|184316456|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.0006|TWO_SIDED|90.0|-0.88|-0.3|||Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.30|-0.88|0.0006
92208097|NCT04617275|184316456|SUPERIORITY||Mean Difference (Final Values)|-0.53||||0.0019|TWO_SIDED|90.0|-0.82|-0.23||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.23|-0.82|0.0019
92208098|NCT04617275|184316456|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.0243|TWO_SIDED|90.0|-0.66|-0.06||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.06|-0.66|0.0243
92208099|NCT04617275|184316457|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.1587|TWO_SIDED|90.0|-0.62|0.15||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.15|-0.62|0.1587
92208100|NCT04617275|184316457|SUPERIORITY||Mean Difference (Final Values)|-0.66||||0.0027|TWO_SIDED|90.0|-1.04|-0.27||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.27|-1.04|0.0027
92208101|NCT04617275|184316457|SUPERIORITY||Mean Difference (Final Values)|-0.85||||0.0002|TWO_SIDED|90.0|-1.24|-0.47||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.47|-1.24|0.0002
92208102|NCT04617275|184316457|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.0016|TWO_SIDED|90.0|-1.1|-0.32||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.32|-1.10|0.0016
92208103|NCT04617275|184316457|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.0027|TWO_SIDED|90.0|-1.07|-0.28||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.28|-1.07|0.0027
92208104|NCT04617275|184316458|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.0472|TWO_SIDED|90.0|-0.86|-0.01||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.01|-0.86|0.0472
92208105|NCT04617275|184316458|SUPERIORITY||Mean Difference (Final Values)|-0.87||||0.0004|TWO_SIDED|90.0|-1.29|-0.45||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.45|-1.29|0.0004
92208106|NCT04617275|184316458|SUPERIORITY||Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|90.0|-1.53|-0.68||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.68|-1.53|<0.0001
92208107|NCT04617275|184316458|SUPERIORITY||Mean Difference (Final Values)|-0.93||||0.0003|TWO_SIDED|90.0|-1.36|-0.5||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.50|-1.36|0.0003
92208108|NCT04617275|184316458|SUPERIORITY||Mean Difference (Final Values)|-0.91||||0.0004|TWO_SIDED|90.0|-1.34|-0.47||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.47|-1.34|0.0004
92208109|NCT04617275|184316459|SUPERIORITY||Mean Difference (Final Values)|-0.69||||0.0116|TWO_SIDED|90.0|-1.18|-0.19||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.19|-1.18|0.0116
92208110|NCT04617275|184316459|SUPERIORITY||Mean Difference (Final Values)|-0.94||||0.0008|TWO_SIDED|90.0|-1.43|-0.46|||Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.46|-1.43|0.0008
92208111|NCT04617275|184316459|SUPERIORITY||Mean Difference (Final Values)|-1.16|||<|0.0001|TWO_SIDED|90.0|-1.66|-0.67||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.67|-1.66|<0.0001
92208112|NCT04617275|184316459|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.0017|TWO_SIDED|90.0|-1.4|-0.4||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.40|-1.40|0.0017
92208113|NCT04617275|184316459|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.0004|TWO_SIDED|90.0|-1.55|-0.55||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.55|-1.55|0.0004
92208114|NCT04617275|184316460|SUPERIORITY||Mean Difference (Final Values)|-0.76||||0.0132|TWO_SIDED|90.0|-1.32|-0.2||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.20|-1.32|0.0132
92208115|NCT04617275|184316460|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.0014|TWO_SIDED|90.0|-1.55|-0.46||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.46|-1.55|0.0014
92208116|NCT04617275|184316460|SUPERIORITY||Mean Difference (Final Values)|-1.25||||0.0002|TWO_SIDED|90.0|-1.8|-0.69||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.69|-1.80|0.0002
92208117|NCT04617275|184316460|SUPERIORITY||Mean Difference (Final Values)|-0.73||||0.0174|TWO_SIDED|90.0|-1.29|-0.16|||Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.16|-1.29|0.0174
92208118|NCT04617275|184316460|SUPERIORITY||Mean Difference (Final Values)|-1.25||||0.0002|TWO_SIDED|90.0|-1.82|-0.69||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.69|-1.82|0.0002
92208119|NCT04617275|184316461|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.2843|TWO_SIDED|90.0|-1.02|0.5||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.50|-1.02|0.2843
92208120|NCT04617275|184316461|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.431|TWO_SIDED|90.0|-0.84|0.68||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.68|-0.84|0.4310
92208121|NCT04617275|184316461|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.2402|TWO_SIDED|90.0|-1.07|0.43||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.43|-1.07|0.2402
92208122|NCT04617275|184316461|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.1397|TWO_SIDED|90.0|-1.24|0.26||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.26|-1.24|0.1397
92208123|NCT04617275|184316461|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.4393|TWO_SIDED|90.0|-0.85|0.71||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.71|-0.85|0.4393
92208124|NCT04617275|184316462|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.1491|TWO_SIDED|90.0|-2.0|0.45||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.45|-2.00|0.1491
92208125|NCT04617275|184316462|SUPERIORITY||Median Difference (Final Values)|0.12||||0.5664|TWO_SIDED|90.0|-1.09|1.34||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||1.34|-1.09|0.5664
92208126|NCT04617275|184316462|SUPERIORITY||Median Difference (Final Values)|-1.12||||0.0632|TWO_SIDED|90.0|-2.33|0.09||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.09|-2.33|0.0632
92208127|NCT04617275|184316462|SUPERIORITY||Median Difference (Final Values)|-1.01||||0.0847|TWO_SIDED|90.0|-2.23|0.2||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.20|-2.23|0.0847
92208128|NCT04617275|184316462|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.5264|TWO_SIDED|90.0|-1.2|1.3||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||1.30|-1.20|0.5264
92327557|NCT00710684|184560286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.19|TWO_SIDED|95.0|-0.2|0.8|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 48||0.8|-0.2|0.190
92327558|NCT00710684|184560286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.787|TWO_SIDED|95.0|-0.5|0.4|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 48||0.4|-0.5|0.787
92208129|NCT04617275|184316463|SUPERIORITY||Mean Difference (Final Values)|-1.48||||0.0395|TWO_SIDED|90.0|-2.86|-0.1||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.10|-2.86|0.0395
92208130|NCT04617275|184316463|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.3726|TWO_SIDED|90.0|-1.63|1.1||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||1.10|-1.63|0.3726
92327559|NCT00710684|184560287|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.337|TWO_SIDED|95.0|-4.0|1.4|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 12||1.4|-4.0|0.337
92208131|NCT04617275|184316463|SUPERIORITY||Mean Difference (Final Values)|-2.36||||0.0028|TWO_SIDED|90.0|-3.74|-0.98||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.98|-3.74|0.0028
92208132|NCT04617275|184316463|SUPERIORITY||Mean Difference (Final Values)|-1.85||||0.0139|TWO_SIDED|90.0|-3.23|-0.47||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.47|-3.23|0.0139
92208133|NCT04617275|184316463|SUPERIORITY||Mean Difference (Final Values)|-0.78||||0.1815|TWO_SIDED|90.0|-2.19|0.64||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.64|-2.19|0.1815
92208134|NCT04617275|184316464|SUPERIORITY||Mean Difference (Final Values)|-2.16||||0.0112|TWO_SIDED|90.0|-3.71|-0.61||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.61|-3.71|0.0112
92208135|NCT04617275|184316464|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.2161|TWO_SIDED|90.0|-2.24|0.8||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.80|-2.24|0.2161
92208136|NCT04617275|184316464|SUPERIORITY||Mean Difference (Final Values)|-3.47||||0.0002|TWO_SIDED|90.0|-5.02|-1.92||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.92|-5.02|0.0002
92208137|NCT04617275|184316464|SUPERIORITY||Mean Difference (Final Values)|-2.05||||0.0147|TWO_SIDED|90.0|-3.59|-0.51||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.51|-3.59|0.0147
92208138|NCT04617275|184316464|SUPERIORITY||Mean Difference (Final Values)|-2.97||||0.0013|TWO_SIDED|90.0|-4.56|-1.37||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.37|-4.56|0.0013
92208139|NCT04617275|184316465|SUPERIORITY||Mean Difference (Final Values)|-2.46||||0.0111|TWO_SIDED|90.0|-4.22|-0.7||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.70|-4.22|0.0111
92208140|NCT04617275|184316465|SUPERIORITY||Mean Difference (Final Values)|-1.03||||0.16|TWO_SIDED|90.0|-2.75|0.68||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.68|-2.75|0.1600
92208141|NCT04617275|184316465|SUPERIORITY||Mean Difference (Final Values)|-4.27|||<|0.0001|TWO_SIDED|90.0|-6.03|-2.52||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-2.52|-6.03|<0.0001
92208142|NCT04617275|184316465|SUPERIORITY||Mean Difference (Final Values)|-2.68||||0.0061|TWO_SIDED|90.0|-4.42|-0.94||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.94|-4.42|0.0061
92208143|NCT04617275|184316465|SUPERIORITY||Mean Difference (Final Values)|-3.71||||0.0005|TWO_SIDED|90.0|-5.52|-1.89||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.89|-5.52|0.0005
92208144|NCT04617275|184316466|SUPERIORITY||Mean Difference (Final Values)|-3.21||||0.0047|TWO_SIDED|90.0|-5.22|-1.2||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.20|-5.22|0.0047
92208145|NCT04617275|184316466|SUPERIORITY||Mean Difference (Final Values)|-1.51||||0.1003|TWO_SIDED|90.0|-3.45|0.44||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.44|-3.45|0.1003
92208146|NCT04617275|184316466|SUPERIORITY||Mean Difference (Final Values)|-4.95|||<|0.0001|TWO_SIDED|90.0|-6.96|-2.95||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-2.95|-6.96|<0.0001
92208147|NCT04617275|184316466|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.0197|TWO_SIDED|90.0|-4.49|-0.51||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.51|-4.49|0.0197
92208148|NCT04617275|184316466|SUPERIORITY||Mean Difference (Final Values)|-4.94|||<|0.0001|TWO_SIDED|90.0|-7.03|-2.85||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-2.85|-7.03|<0.0001
92208149|NCT04617275|184316467|SUPERIORITY||Mean Difference (Final Values)|-0.96||||0.0836|TWO_SIDED|90.0|-2.12|0.19||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.19|-2.12|0.0836
92208150|NCT04617275|184316468|SUPERIORITY||Mean Difference (Final Values)|-1.59||||0.0386|TWO_SIDED|90.0|-3.07|-0.12||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.12|-3.07|0.0386
92208151|NCT04617275|184316469|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.1566|TWO_SIDED|90.0|-3.99|1.0||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||1.00|-3.99|0.1566
92208152|NCT04617275|184316470|SUPERIORITY||Mean Difference (Final Values)|-2.62||||0.0916|TWO_SIDED|90.0|-5.91|0.67||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.67|-5.91|0.0916
92208153|NCT04617275|184316471|SUPERIORITY||Mean Difference (Final Values)|-3.07||||0.059|TWO_SIDED|90.0|-6.31|0.17||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.17|-6.31|0.0590
92208154|NCT04617275|184316472|SUPERIORITY||Mean Difference (Final Values)|-3.74||||0.0826|TWO_SIDED|90.0|-8.23|0.75||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.75|-8.23|0.0826
92208155|NCT04227704|184316484|SUPERIORITY|||||||0.09|||||||ANOVA|||||||0.09
92208156|NCT04227704|184316485|SUPERIORITY|||||||0.08|||||||ANOVA|||||||0.08
92208157|NCT04227704|184316492|SUPERIORITY|||||||0.44|||||||ANOVA|||||||0.44
92208158|NCT00192647|184316493|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.2893|TWO_SIDED|95.0|0.88|1.52|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by viral load and country||||1.52|0.88|0.2893
92208159|NCT00192647|184316494|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.91|1.63||||||||1.63|0.91|
92208160|NCT00192647|184316495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68|||||TWO_SIDED|95.0|1.24|2.27||||||Week 4||2.27|1.24|
92208161|NCT00192647|184316495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64|||||TWO_SIDED|95.0|1.24|2.17||||||Week 8||2.17|1.24|
92208162|NCT00192647|184316495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88|||||TWO_SIDED|95.0|1.4|2.53||||||Week 12||2.53|1.40|
92327560|NCT00710684|184560287|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.596|TWO_SIDED|95.0|-1.7|3.0|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 12||3.0|-1.7|0.596
92208163|NCT00192647|184316495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46|||||TWO_SIDED|95.0|1.08|1.98||||||Week 24||1.98|1.08|
92208164|NCT01765192|184316503|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.039||0.013|TWO_SIDED|95.0|0.0219|0.1795|||ANCOVA|||The primary endpoint was analyzed using an analysis of covariance model adapted for the crossover design. The following fixed factors and covariates were included in the model: Treatment, sequence, period, and baseline FEV1 measurement of the respective treatment period. The reported analysis results are for the 2 crossover treatment periods combined.||0.1795|0.0219|0.013
92208165|NCT01765192|184316504|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.04||0.129|TWO_SIDED|95.0|-0.0185|0.1422||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline pre-bronchodilator FVC measurement as the covariate.|ANCOVA|||||0.1422|-0.0185|0.129
92208166|NCT01765192|184316505|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.056||0.032|TWO_SIDED|95.0|0.0113|0.2364||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline pre-bronchodilator FEF measurement as the covariate.|ANCOVA|||||0.2364|0.0113|0.032
92208167|NCT01765192|184316506|SUPERIORITY_OR_OTHER||LS Mean Difference|7.21|STANDARD_ERROR_OF_MEAN|15.105||0.635||95.0|-23.0531|37.466||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline pre-bronchodilator PEF measurement as the covariate.|ANCOVA|||||37.4660|-23.0531|0.635
92208168|NCT01765192|184316507|SUPERIORITY_OR_OTHER||LS Mean Difference|13.62|STANDARD_ERROR_OF_MEAN|5.206||0.011|TWO_SIDED|95.0|3.1896|24.0553||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline pre-bronchodilator PEF measurement as the covariate.|ANCOVA|||||24.0553|3.1896|0.011
92208169|NCT01765192|184316508|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.089||0.025|TWO_SIDED|95.0|-0.385|-0.0271||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline Daytime Asthma Symptom Score as the covariate.|ANCOVA|||||-0.0271|-0.3850|0.025
92208170|NCT01765192|184316509|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.075||0.217|TWO_SIDED|95.0|-0.2426|0.0563||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline Nighttime Asthma Symptoms measurement as the covariate.|ANCOVA|||||0.0563|-0.2426|0.217
92208171|NCT01016977|184316516|SUPERIORITY_OR_OTHER|||||||0.9597||95.0||||Week 1|ANCOVA|||||||0.9597
92208172|NCT01016977|184316516|SUPERIORITY_OR_OTHER|||||||0.5538||95.0||||Week 2|ANCOVA|||||||0.5538
92208173|NCT01016977|184316516|SUPERIORITY_OR_OTHER|||||||0.6315||95.0||||Week 4|ANCOVA|||||||0.6315
92208174|NCT01016977|184316516|SUPERIORITY_OR_OTHER|||||||0.5655||95.0||||Week 8|ANCOVA|||||||0.5655
92208175|NCT01016977|184316516|SUPERIORITY_OR_OTHER|||||||0.7917||95.0||||Week 12|ANCOVA|||||||0.7917
92208176|NCT01016977|184316517|SUPERIORITY_OR_OTHER|||||||0.5961||95.0||||Week 1|ANCOVA|||||||0.5961
92208177|NCT01016977|184316517|SUPERIORITY_OR_OTHER|||||||0.2293||95.0||||Week 2|ANCOVA|||||||0.2293
92208178|NCT01016977|184316517|SUPERIORITY_OR_OTHER|||||||0.9852||95.0||||Week 4|ANCOVA|||||||0.9852
92208179|NCT01016977|184316517|SUPERIORITY_OR_OTHER|||||||0.5538||95.0||||Week 8|ANCOVA|||||||0.5538
92208180|NCT01016977|184316517|SUPERIORITY_OR_OTHER|||||||0.654||95.0||||Week 12|ANCOVA|||||||0.6540
92208181|NCT01016977|184316518|SUPERIORITY_OR_OTHER|||||||0.8545||95.0||||Week 1|ANCOVA|||||||0.8545
92208182|NCT01016977|184316518|SUPERIORITY_OR_OTHER|||||||0.2895||95.0||||Week 2|ANCOVA|||||||0.2895
92208183|NCT01016977|184316518|SUPERIORITY_OR_OTHER|||||||0.8234||95.0||||Week 4|ANCOVA|||||||0.8234
92208184|NCT01016977|184316518|SUPERIORITY_OR_OTHER|||||||0.3644||95.0||||Week 8|ANCOVA|||||||0.3644
92208185|NCT01016977|184316518|SUPERIORITY_OR_OTHER|||||||0.654||95.0||||Week 12|ANCOVA|||||||0.6540
92208186|NCT01016977|184316519|SUPERIORITY_OR_OTHER|||||||0.7546||95.0||||Week 1|ANCOVA|||||||0.7546
92208187|NCT01016977|184316519|SUPERIORITY_OR_OTHER|||||||0.7705||95.0||||Week 2|ANCOVA|||||||0.7705
92208188|NCT01016977|184316519|SUPERIORITY_OR_OTHER|||||||0.0259||95.0||||Week 4|ANCOVA|||||||0.0259
92208189|NCT01016977|184316519|SUPERIORITY_OR_OTHER|||||||0.9252||95.0||||Week 8|ANCOVA|||||||0.9252
92208190|NCT01016977|184316519|SUPERIORITY_OR_OTHER|||||||0.2927||95.0||||Week 12|ANCOVA|||||||0.2927
92208191|NCT01016977|184316520|SUPERIORITY_OR_OTHER|||||||0.401||95.0||||Week 1|ANCOVA|||||||0.4010
92208192|NCT01016977|184316520|SUPERIORITY_OR_OTHER|||||||0.0963||95.0||||Week 2|ANCOVA|||||||0.0963
92208193|NCT01016977|184316520|SUPERIORITY_OR_OTHER|||||||0.9291||95.0||||Week 4|ANCOVA|||||||0.9291
92208194|NCT01016977|184316520|SUPERIORITY_OR_OTHER|||||||0.5523||95.0||||Week 8|ANCOVA|||||||0.5523
92208195|NCT01016977|184316520|SUPERIORITY_OR_OTHER|||||||0.2556||95.0||||Week 12|ANCOVA|||||||0.2556
92208196|NCT01016977|184316521|SUPERIORITY_OR_OTHER|||||||0.4037||95.0||||Week 1|ANCOVA|||||||0.4037
92208197|NCT01016977|184316521|SUPERIORITY_OR_OTHER|||||||0.8662||95.0||||Week 2|ANCOVA|||||||0.8662
92208198|NCT01016977|184316521|SUPERIORITY_OR_OTHER|||||||0.5951||95.0||||Week 4|ANCOVA|||||||0.5951
92208199|NCT01016977|184316521|SUPERIORITY_OR_OTHER|||||||0.2349||95.0||||Week 8|ANCOVA|||||||0.2349
92208200|NCT01016977|184316521|SUPERIORITY_OR_OTHER|||||||0.3461||95.0||||Week 12|ANCOVA|||||||0.3461
92208201|NCT01016977|184316522|SUPERIORITY_OR_OTHER|||||||0.725||95.0||||Week 1|ANCOVA|||||||0.7250
92208202|NCT01016977|184316522|SUPERIORITY_OR_OTHER|||||||0.9743||95.0||||Week 2|ANCOVA|||||||0.9743
92208203|NCT01016977|184316522|SUPERIORITY_OR_OTHER|||||||0.9816||95.0||||Week 4|ANCOVA|||||||0.9816
92208204|NCT01016977|184316522|SUPERIORITY_OR_OTHER|||||||0.8809||95.0||||Week 8|ANCOVA|||||||0.8809
92208205|NCT01016977|184316522|SUPERIORITY_OR_OTHER|||||||0.1679||95.0||||Week 12|ANCOVA|||||||0.1679
92208206|NCT03486457|184316620|SUPERIORITY||Difference in percentage of participants|32.35|STANDARD_ERROR_OF_MEAN|5.05|<|0.0001|TWO_SIDED|95.0|22.45|42.25|||Normal approximation|||The normal approximation to the difference in binomial proportions was used to test the difference between tofacitinib 5 mg BID and placebo and to generate 95% CI and p-value for the difference in response rates.||42.25|22.45|<0.0001
92208207|NCT03486457|184316621|SUPERIORITY||Difference in percentage of participants|15.44|STANDARD_ERROR_OF_MEAN|4.79||0.0013|TWO_SIDED|95.0|6.05|24.83|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||24.83|6.05|0.0013
92208208|NCT03486457|184316621|SUPERIORITY||Difference in percentage of participants|30.15|STANDARD_ERROR_OF_MEAN|5.41|<|0.0001|TWO_SIDED|95.0|19.53|40.76|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||40.76|19.53|<0.0001
92208209|NCT03486457|184316621|SUPERIORITY||Difference in percentage of participants|51.47|STANDARD_ERROR_OF_MEAN|5.56|<|0.0001|TWO_SIDED|95.0|40.57|62.37|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||62.37|40.57|<0.0001
92208210|NCT03486457|184316621|SUPERIORITY||Difference in percentage of participants|36.76|STANDARD_ERROR_OF_MEAN|6.81|<|0.0001|TWO_SIDED|95.0|23.41|50.12|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||50.12|23.41|<0.0001
92208211|NCT03486457|184316621|SUPERIORITY||Difference in percentage of participants|24.26|STANDARD_ERROR_OF_MEAN|7.21||0.0008|TWO_SIDED|95.0|10.14|38.39|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||38.39|10.14|0.0008
92327561|NCT00710684|184560287|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.634|TWO_SIDED|95.0|-4.4|2.7|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 36||2.7|-4.4|0.634
92327562|NCT00710684|184560287|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.1||||0.238|TWO_SIDED|95.0|-1.4|5.6|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 36||5.6|-1.4|0.238
92208212|NCT03486457|184316621|SUPERIORITY||Difference in percentage of participants|13.97|STANDARD_ERROR_OF_MEAN|7.08||0.0486|TWO_SIDED|95.0|0.09|27.85|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||27.85|0.09|0.0486
92208213|NCT03486457|184316622|SUPERIORITY||Difference in percentage of participants|1.1|STANDARD_ERROR_OF_MEAN|1.53||0.473|TWO_SIDED|95.0|-1.9|4.1|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||4.10|-1.90|0.4730
92208214|NCT03486457|184316622|SUPERIORITY||Difference in percentage of participants|1.83|STANDARD_ERROR_OF_MEAN|1.69||0.2792|TWO_SIDED|95.0|-1.48|5.14|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||5.14|-1.48|0.2792
92208215|NCT03486457|184316622|SUPERIORITY||Difference in percentage of participants|7.35|STANDARD_ERROR_OF_MEAN|2.84||0.0095|TWO_SIDED|95.0|1.79|12.91|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||12.91|1.79|0.0095
92208216|NCT03486457|184316622|SUPERIORITY||Difference in percentage of participants|13.24|STANDARD_ERROR_OF_MEAN|3.37|<|0.0001|TWO_SIDED|95.0|6.63|19.84|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||19.84|6.63|<0.0001
92208217|NCT03486457|184316622|SUPERIORITY||Difference in percentage of participants|13.24|STANDARD_ERROR_OF_MEAN|4.69||0.0048|TWO_SIDED|95.0|4.03|22.44|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||22.44|4.03|0.0048
92208218|NCT03486457|184316622|SUPERIORITY||Difference in percentage of participants|13.24|STANDARD_ERROR_OF_MEAN|6.6||0.0449|TWO_SIDED|95.0|0.3|26.17|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||26.17|0.30|0.0449
92208219|NCT03486457|184316623|SUPERIORITY||Difference in percentage of participants|2.94|STANDARD_ERROR_OF_MEAN|2.29||0.1985|TWO_SIDED|95.0|-1.54|7.42|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||7.42|-1.54|0.1985
92208220|NCT03486457|184316623|SUPERIORITY||Difference in percentage of participants|8.09|STANDARD_ERROR_OF_MEAN|2.91||0.0055|TWO_SIDED|95.0|2.38|13.8|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||13.80|2.38|0.0055
92208221|NCT03486457|184316623|SUPERIORITY||Difference in percentage of participants|27.21|STANDARD_ERROR_OF_MEAN|4.44|<|0.0001|TWO_SIDED|95.0|18.51|35.9|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||35.90|18.51|<0.0001
92208222|NCT03486457|184316623|SUPERIORITY||Difference in percentage of participants|22.06|STANDARD_ERROR_OF_MEAN|6.37||0.0005|TWO_SIDED|95.0|9.58|34.54|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||34.54|9.58|0.0005
92208223|NCT03486457|184316623|SUPERIORITY||Difference in percentage of participants|18.38|STANDARD_ERROR_OF_MEAN|7.24||0.0111|TWO_SIDED|95.0|4.2|32.57|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||32.57|4.20|0.0111
92208224|NCT03486457|184316624|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.044||0.0097|TWO_SIDED|95.0|-0.2|-0.03|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.03|-0.20|0.0097
92208225|NCT03486457|184316624|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.045||0.0043|TWO_SIDED|95.0|-0.22|-0.04|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.04|-0.22|0.0043
92208226|NCT03486457|184316624|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001|TWO_SIDED|95.0|-0.3|-0.11|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.11|-0.30|<0.0001
92208227|NCT03486457|184316624|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001|TWO_SIDED|95.0|-0.32|-0.11|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.11|-0.32|<0.0001
92208228|NCT03486457|184316624|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.046||0.0535|TWO_SIDED|95.0|-0.18|0.0|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.00|-0.18|0.0535
92208229|NCT03486457|184316624|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.044||0.094|TWO_SIDED|95.0|-0.16|0.01|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.01|-0.16|0.0940
92208230|NCT03486457|184316625|SUPERIORITY||Difference in percentage of participants|13.07|STANDARD_ERROR_OF_MEAN|8.56||0.127|TWO_SIDED|95.0|-3.72|29.85|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||29.85|-3.72|0.1270
92208231|NCT03486457|184316625|SUPERIORITY||Difference in percentage of participants|4.02|STANDARD_ERROR_OF_MEAN|9.23||0.6634|TWO_SIDED|95.0|-14.07|22.1|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||22.10|-14.07|0.6634
92208232|NCT03486457|184316625|SUPERIORITY||Difference in percentage of participants|21.78|STANDARD_ERROR_OF_MEAN|9.46||0.0214|TWO_SIDED|95.0|3.23|40.33|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||40.33|3.23|0.0214
92208233|NCT03486457|184316625|SUPERIORITY||Difference in percentage of participants|24.03|STANDARD_ERROR_OF_MEAN|9.46||0.011|TWO_SIDED|95.0|5.5|42.57|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||42.57|5.50|0.0110
92208234|NCT03486457|184316625|SUPERIORITY||Difference in percentage of participants|12.57|STANDARD_ERROR_OF_MEAN|9.58||0.1896|TWO_SIDED|95.0|-6.21|31.36|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||31.36|-6.21|0.1896
92208235|NCT03486457|184316625|SUPERIORITY||Difference in percentage of participants|6.83|STANDARD_ERROR_OF_MEAN|8.97||0.4466|TWO_SIDED|95.0|-10.75|24.41|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||24.41|-10.75|0.4466
92208236|NCT03486457|184316626|SUPERIORITY||Difference in percentage of participants|13.07|STANDARD_ERROR_OF_MEAN|8.56||0.127|TWO_SIDED|95.0|-3.72|29.85|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||29.85|-3.72|0.1270
92208237|NCT03486457|184316626|SUPERIORITY||Difference in percentage of participants|4.02|STANDARD_ERROR_OF_MEAN|9.23||0.6634|TWO_SIDED|95.0|-14.07|22.1|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||22.10|-14.07|0.6634
92208238|NCT03486457|184316626|SUPERIORITY||Difference in percentage of participants|21.78|STANDARD_ERROR_OF_MEAN|9.46||0.0214|TWO_SIDED|95.0|3.23|40.33|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||40.33|3.23|0.0214
92208239|NCT03486457|184316626|SUPERIORITY||Difference in percentage of participants|24.03|STANDARD_ERROR_OF_MEAN|9.46||0.011|TWO_SIDED|95.0|5.5|42.57|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||42.57|5.50|0.0110
92208240|NCT03486457|184316626|SUPERIORITY||Difference in percentage of participants|12.57|STANDARD_ERROR_OF_MEAN|9.58||0.1896|TWO_SIDED|95.0|-6.21|31.36|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||31.36|-6.21|0.1896
92208241|NCT03486457|184316626|SUPERIORITY||Difference in percentage of participants|6.83|STANDARD_ERROR_OF_MEAN|8.97||0.4466|TWO_SIDED|95.0|-10.75|24.41|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||24.41|-10.75|0.4466
92208242|NCT03486457|184316627|SUPERIORITY||LS mean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.633|<|0.0001|TWO_SIDED|95.0|-3.95|-1.45|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.45|-3.95|<0.0001
92208243|NCT03486457|184316627|SUPERIORITY||LS mean difference|-3.79|STANDARD_ERROR_OF_MEAN|0.711|<|0.0001|TWO_SIDED|95.0|-5.2|-2.39|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-2.39|-5.20|<0.0001
92208244|NCT03486457|184316627|SUPERIORITY||LS mean difference|-4.89|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001|TWO_SIDED|95.0|-6.39|-3.39|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-3.39|-6.39|<0.0001
92208245|NCT03486457|184316627|SUPERIORITY||LS mean difference|-5.85|STANDARD_ERROR_OF_MEAN|0.852|<|0.0001|TWO_SIDED|95.0|-7.53|-4.17|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-4.17|-7.53|<0.0001
92208246|NCT03486457|184316627|SUPERIORITY||LS mean difference|-3.2|STANDARD_ERROR_OF_MEAN|0.583|<|0.0001|TWO_SIDED|95.0|-4.35|-2.04|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-2.04|-4.35|<0.0001
92208247|NCT03486457|184316627|SUPERIORITY||LS mean difference|-2.59|STANDARD_ERROR_OF_MEAN|0.668||0.0002|TWO_SIDED|95.0|-3.91|-1.27|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.27|-3.91|0.0002
92208248|NCT03486457|184316628|SUPERIORITY||LS mean difference|-3.4|STANDARD_ERROR_OF_MEAN|1.012||0.001|TWO_SIDED|95.0|-5.4|-1.4|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.40|-5.40|0.0010
92208249|NCT03486457|184316628|SUPERIORITY||LS mean difference|-5.03|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|95.0|-7.05|-3.01|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-3.01|-7.05|<0.0001
92208250|NCT03486457|184316628|SUPERIORITY||LS mean difference|-5.68|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|95.0|-7.7|-3.66|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-3.66|-7.70|<0.0001
92208251|NCT03486457|184316628|SUPERIORITY||LS mean difference|-7.01|STANDARD_ERROR_OF_MEAN|1.111|<|0.0001|TWO_SIDED|95.0|-9.2|-4.82|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-4.82|-9.20|<0.0001
92208252|NCT03486457|184316628|SUPERIORITY||LS mean difference|-3.95|STANDARD_ERROR_OF_MEAN|1.073||0.0003|TWO_SIDED|95.0|-6.07|-1.83|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.83|-6.07|0.0003
92208253|NCT03486457|184316628|SUPERIORITY||LS mean difference|-2.39|STANDARD_ERROR_OF_MEAN|1.108||0.0323|TWO_SIDED|95.0|-4.58|-0.2|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.20|-4.58|0.0323
92208254|NCT03486457|184316629|SUPERIORITY||LS mean difference|-6.57|STANDARD_ERROR_OF_MEAN|2.481||0.0087|TWO_SIDED|95.0|-11.46|-1.68|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.68|-11.46|0.0087
92208255|NCT03486457|184316629|SUPERIORITY||LS mean difference|-11.7|STANDARD_ERROR_OF_MEAN|2.487|<|0.0001|TWO_SIDED|95.0|-16.6|-6.79|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-6.79|-16.60|<0.0001
92208256|NCT03486457|184316629|SUPERIORITY||LS mean difference|-16.14|STANDARD_ERROR_OF_MEAN|2.796|<|0.0001|TWO_SIDED|95.0|-21.66|-10.63|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-10.63|-21.66|<0.0001
92208257|NCT03486457|184316629|SUPERIORITY||LS mean difference|-21.87|STANDARD_ERROR_OF_MEAN|3.027|<|0.0001|TWO_SIDED|95.0|-27.84|-15.9|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-15.90|-27.84|<0.0001
92208258|NCT03486457|184316629|SUPERIORITY||LS mean difference|-6.94|STANDARD_ERROR_OF_MEAN|2.865||0.0163|TWO_SIDED|95.0|-12.6|-1.29|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.29|-12.60|0.0163
92208259|NCT03486457|184316629|SUPERIORITY||LS mean difference|-3.1|STANDARD_ERROR_OF_MEAN|2.967||0.2977|TWO_SIDED|95.0|-8.95|2.76|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.76|-8.95|0.2977
92208260|NCT03486457|184316630|SUPERIORITY||LS mean difference|-6.15|STANDARD_ERROR_OF_MEAN|2.646||0.0211|TWO_SIDED|95.0|-11.37|-0.93|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.93|-11.37|0.0211
92208261|NCT03486457|184316630|SUPERIORITY||LS mean difference|-13.08|STANDARD_ERROR_OF_MEAN|2.79|<|0.0001|TWO_SIDED|95.0|-18.59|-7.58|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-7.58|-18.59|<0.0001
92208262|NCT03486457|184316630|SUPERIORITY||LS mean difference|-13.16|STANDARD_ERROR_OF_MEAN|2.928|<|0.0001|TWO_SIDED|95.0|-18.93|-7.38|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-7.38|-18.93|<0.0001
92208263|NCT03486457|184316630|SUPERIORITY||LS mean difference|-18.77|STANDARD_ERROR_OF_MEAN|3.187|<|0.0001|TWO_SIDED|95.0|-25.06|-12.49|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-12.49|-25.06|<0.0001
92208264|NCT03486457|184316630|SUPERIORITY||LS mean difference|-7.01|STANDARD_ERROR_OF_MEAN|2.827||0.014|TWO_SIDED|95.0|-12.59|-1.43|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.43|-12.59|0.0140
92208265|NCT03486457|184316630|SUPERIORITY||LS mean difference|-5.14|STANDARD_ERROR_OF_MEAN|2.931||0.0811|TWO_SIDED|95.0|-10.93|0.64|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.64|-10.93|0.0811
92208266|NCT03486457|184316631|SUPERIORITY||LS mean difference|-9.64|STANDARD_ERROR_OF_MEAN|1.939|<|0.0001|TWO_SIDED|95.0|-13.46|-5.81|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.81|-13.46|<0.0001
92208267|NCT03486457|184316631|SUPERIORITY||LS mean difference|-9.52|STANDARD_ERROR_OF_MEAN|2.305|<|0.0001|TWO_SIDED|95.0|-14.07|-4.98|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-4.98|-14.07|<0.0001
92208268|NCT03486457|184316631|SUPERIORITY||LS mean difference|-16.97|STANDARD_ERROR_OF_MEAN|2.472|<|0.0001|TWO_SIDED|95.0|-21.85|-12.1|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-12.10|-21.85|<0.0001
92208269|NCT03486457|184316631|SUPERIORITY||LS mean difference|-18.42|STANDARD_ERROR_OF_MEAN|2.506|<|0.0001|TWO_SIDED|95.0|-23.36|-13.48|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-13.48|-23.36|<0.0001
92208270|NCT03486457|184316631|SUPERIORITY||LS mean difference|-7.22|STANDARD_ERROR_OF_MEAN|2.453||0.0037|TWO_SIDED|95.0|-12.06|-2.38|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-2.38|-12.06|0.0037
92208271|NCT03486457|184316631|SUPERIORITY||LS mean difference|-7.66|STANDARD_ERROR_OF_MEAN|2.267||0.0009|TWO_SIDED|95.0|-12.13|-3.18|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-3.18|-12.13|0.0009
92208272|NCT03486457|184316632|SUPERIORITY||LS mean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.108|<|0.0001|TWO_SIDED|95.0|-9.39|-5.02|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.02|-9.39|<0.0001
92208273|NCT03486457|184316632|SUPERIORITY||LS mean difference|-7.87|STANDARD_ERROR_OF_MEAN|1.171|<|0.0001|TWO_SIDED|95.0|-10.18|-5.56|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.56|-10.18|<0.0001
92208274|NCT03486457|184316632|SUPERIORITY||LS mean difference|-7.41|STANDARD_ERROR_OF_MEAN|1.182|<|0.0001|TWO_SIDED|95.0|-9.74|-5.08|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.08|-9.74|<0.0001
92208275|NCT03486457|184316632|SUPERIORITY||LS mean difference|-7.8|STANDARD_ERROR_OF_MEAN|1.221|<|0.0001|TWO_SIDED|95.0|-10.21|-5.39|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.39|-10.21|<0.0001
92208276|NCT03486457|184316632|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.615||0.6264|TWO_SIDED|95.0|-0.91|1.51|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||1.51|-0.91|0.6264
92208277|NCT03486457|184316632|SUPERIORITY||LS mean difference|-1.29|STANDARD_ERROR_OF_MEAN|0.778||0.1008|TWO_SIDED|95.0|-2.82|0.25|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.25|-2.82|0.1008
92208278|NCT03486457|184316633|SUPERIORITY||Difference in percentage of participants|0.44|STANDARD_ERROR_OF_MEAN|1.77||0.8032|TWO_SIDED|95.0|-3.02|3.9|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||3.90|-3.02|0.8032
92208279|NCT03486457|184316633|SUPERIORITY||Difference in percentage of participants|7.47|STANDARD_ERROR_OF_MEAN|3.44||0.0298|TWO_SIDED|95.0|0.73|14.21|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||14.21|0.73|0.0298
92208280|NCT03486457|184316633|SUPERIORITY||Difference in percentage of participants|-11.19|STANDARD_ERROR_OF_MEAN|6.48||0.084|TWO_SIDED|95.0|-23.88|1.5|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||1.50|-23.88|0.0840
92208281|NCT03486457|184316634|SUPERIORITY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.111||0.002|TWO_SIDED|95.0|-0.57|-0.13|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.13|-0.57|0.0020
92208282|NCT03486457|184316634|SUPERIORITY||LS mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.87|-0.32|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.32|-0.87|<0.0001
92208283|NCT03486457|184316634|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.156||0.9678|TWO_SIDED|95.0|-0.3|0.31|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.31|-0.30|0.9678
92208284|NCT03486457|184316635|SUPERIORITY||Difference in percentage of participants|14.96|STANDARD_ERROR_OF_MEAN|5.78||0.0097|TWO_SIDED|95.0|3.63|26.3|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||26.30|3.63|0.0097
92208285|NCT03486457|184316635|SUPERIORITY||Difference in percentage of participants|24.89|STANDARD_ERROR_OF_MEAN|8.2||0.0024|TWO_SIDED|95.0|8.81|40.97|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||40.97|8.81|0.0024
92208286|NCT03486457|184316635|SUPERIORITY||Difference in percentage of participants|-17.93|STANDARD_ERROR_OF_MEAN|11.03||0.1042|TWO_SIDED|95.0|-39.55|3.7|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||3.70|-39.55|0.1042
92208287|NCT03486457|184316636|SUPERIORITY||LS mean difference|-25.89|STANDARD_ERROR_OF_MEAN|7.858||0.0014|TWO_SIDED|95.0|-41.49|-10.29|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-10.29|-41.49|0.0014
92208288|NCT03486457|184316636|SUPERIORITY||LS mean difference|-34.91|STANDARD_ERROR_OF_MEAN|8.948||0.0002|TWO_SIDED|95.0|-52.69|-17.13|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-17.13|-52.69|0.0002
92208289|NCT03486457|184316636|SUPERIORITY||LS mean difference|5.31|STANDARD_ERROR_OF_MEAN|10.663||0.62|TWO_SIDED|95.0|-15.9|26.51|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||26.51|-15.90|0.6200
92208290|NCT03486457|184316637|SUPERIORITY||LS mean difference|-39.65|STANDARD_ERROR_OF_MEAN|10.862||0.0004|TWO_SIDED|95.0|-61.21|-18.08|||Mixed Models Analysis|||Month 1, Erythema: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-18.08|-61.21|0.0004
92208291|NCT03486457|184316637|SUPERIORITY||LS mean difference|-25.18|STANDARD_ERROR_OF_MEAN|8.453||0.0037|TWO_SIDED|95.0|-41.97|-8.4|||Mixed Models Analysis|||Month 1, Induration: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-8.40|-41.97|0.0037
92327563|NCT00710684|184560287|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1||||0.292|TWO_SIDED|95.0|-6.0|1.8|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 48||1.8|-6.0|0.292
92208292|NCT03486457|184316637|SUPERIORITY||LS mean difference|-21.3|STANDARD_ERROR_OF_MEAN|10.423||0.0438|TWO_SIDED|95.0|-42.0|-0.61|||Mixed Models Analysis|||Month 1, Scaling: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.61|-42.00|0.0438
92208293|NCT03486457|184316637|SUPERIORITY||LS mean difference|-49.11|STANDARD_ERROR_OF_MEAN|10.529|<|0.0001|TWO_SIDED|95.0|-70.03|-28.19|||Mixed Models Analysis|||Month 3, Erythema: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-28.19|-70.03|<0.0001
92208294|NCT03486457|184316637|SUPERIORITY||LS mean difference|-29.71|STANDARD_ERROR_OF_MEAN|9.47||0.0023|TWO_SIDED|95.0|-48.52|-10.89|||Mixed Models Analysis|||Month 3, Induration: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-10.89|-48.52|0.0023
92208295|NCT03486457|184316637|SUPERIORITY||LS mean difference|-36.78|STANDARD_ERROR_OF_MEAN|10.72||0.0009|TWO_SIDED|95.0|-58.08|-15.49|||Mixed Models Analysis|||Month 3, Scaling: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-15.49|-58.08|0.0009
92208296|NCT03486457|184316637|SUPERIORITY||LS mean difference|7.03|STANDARD_ERROR_OF_MEAN|10.495||0.5048|TWO_SIDED|95.0|-13.84|27.9|||Mixed Models Analysis|||Month 6, Erythema: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||27.90|-13.84|0.5048
92208297|NCT03486457|184316637|SUPERIORITY||LS mean difference|9.16|STANDARD_ERROR_OF_MEAN|12.273||0.4575|TWO_SIDED|95.0|-15.24|33.57|||Mixed Models Analysis|||Month 6, Induration: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||33.57|-15.24|0.4575
92208298|NCT03486457|184316637|SUPERIORITY||LS mean difference|0.69|STANDARD_ERROR_OF_MEAN|11.539||0.9523|TWO_SIDED|95.0|-22.26|23.65|||Mixed Models Analysis|||Month 6, Scaling: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||23.65|-22.26|0.9523
92327564|NCT00710684|184560287|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.6||||0.161|TWO_SIDED|95.0|-1.0|6.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 48||6.2|-1.0|0.161
92208299|NCT03486457|184316638|SUPERIORITY||LS mean difference|-28.69|STANDARD_ERROR_OF_MEAN|8.386||0.0008|TWO_SIDED|95.0|-45.24|-12.15|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-12.15|-45.24|0.0008
92208300|NCT03486457|184316638|SUPERIORITY||LS mean difference|-46.47|STANDARD_ERROR_OF_MEAN|10.632|<|0.0001|TWO_SIDED|95.0|-67.45|-25.49|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-25.49|-67.45|<0.0001
92208301|NCT03486457|184316638|SUPERIORITY||LS mean difference|-26.76|STANDARD_ERROR_OF_MEAN|10.778||0.0141|TWO_SIDED|95.0|-48.05|-5.47|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.47|-48.05|0.0141
92208302|NCT03486457|184316639|SUPERIORITY||LS mean difference|-10.75|STANDARD_ERROR_OF_MEAN|2.399|<|0.0001|TWO_SIDED|95.0|-15.48|-6.02|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-6.02|-15.48|<0.0001
92208303|NCT03486457|184316639|SUPERIORITY||LS mean difference|-19.45|STANDARD_ERROR_OF_MEAN|2.575|<|0.0001|TWO_SIDED|95.0|-24.52|-14.37|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-14.37|-24.52|<0.0001
92208304|NCT03486457|184316639|SUPERIORITY||LS mean difference|-6.7|STANDARD_ERROR_OF_MEAN|2.289||0.0039|TWO_SIDED|95.0|-11.22|-2.18|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-2.18|-11.22|0.0039
92208305|NCT03486457|184316640|SUPERIORITY||Difference in percentage of participants|14.19|STANDARD_ERROR_OF_MEAN|5.89||0.016|TWO_SIDED|95.0|2.64|25.73|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||25.73|2.64|0.0160
92208306|NCT03486457|184316640|SUPERIORITY||Difference in percentage of participants|25.65|STANDARD_ERROR_OF_MEAN|8.06||0.0015|TWO_SIDED|95.0|9.86|41.44|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||41.44|9.86|0.0015
92208307|NCT03486457|184316640|SUPERIORITY||Difference in percentage of participants|23.05|STANDARD_ERROR_OF_MEAN|9.16||0.0118|TWO_SIDED|95.0|5.11|41.0|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||41.00|5.11|0.0118
92208308|NCT03486457|184316641|SUPERIORITY||LS mean difference|-3.09|STANDARD_ERROR_OF_MEAN|1.259||0.0156|TWO_SIDED|95.0|-5.58|-0.6|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.60|-5.58|0.0156
92208309|NCT03486457|184316641|SUPERIORITY||LS mean difference|-4.06|STANDARD_ERROR_OF_MEAN|0.989|<|0.0001|TWO_SIDED|95.0|-6.02|-2.1|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-2.10|-6.02|<0.0001
92208310|NCT03486457|184316641|SUPERIORITY||LS mean difference|-0.97|STANDARD_ERROR_OF_MEAN|0.346||0.0061|TWO_SIDED|95.0|-1.65|-0.28|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.28|-1.65|0.0061
92208311|NCT03486457|184316642|SUPERIORITY||Difference in percentage of participants|13.03|STANDARD_ERROR_OF_MEAN|10.01||0.193|TWO_SIDED|95.0|-6.59|32.64|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||32.64|-6.59|0.1930
92208312|NCT03486457|184316642|SUPERIORITY||Difference in percentage of participants|24.3|STANDARD_ERROR_OF_MEAN|10.11||0.0162|TWO_SIDED|95.0|4.48|44.11|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||44.11|4.48|0.0162
92208313|NCT03486457|184316642|SUPERIORITY||Difference in percentage of participants|4.07|STANDARD_ERROR_OF_MEAN|10.83||0.7068|TWO_SIDED|95.0|-17.15|25.3|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||25.30|-17.15|0.7068
92208314|NCT03486457|184316643|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.271||0.2811|TWO_SIDED|95.0|-0.83|0.25|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.25|-0.83|0.2811
92208315|NCT03486457|184316643|SUPERIORITY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.295||0.214|TWO_SIDED|95.0|-0.96|0.22|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.22|-0.96|0.2140
92208316|NCT03486457|184316643|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.239||0.2817|TWO_SIDED|95.0|-0.74|0.22|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.22|-0.74|0.2817
92208317|NCT03486457|184316644|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.182||0.9407|TWO_SIDED|95.0|-0.37|0.35|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.35|-0.37|0.9407
92208318|NCT03486457|184316644|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.293||0.4295|TWO_SIDED|95.0|-0.81|0.35|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.35|-0.81|0.4295
92208319|NCT03486457|184316644|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.314||0.2946|TWO_SIDED|95.0|-0.95|0.29|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.29|-0.95|0.2946
92208320|NCT03486457|184316645|SUPERIORITY||Difference in percentage of participants|21.32|STANDARD_ERROR_OF_MEAN|5.62||0.0001|TWO_SIDED|95.0|10.32|32.33|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||32.33|10.32|0.0001
92208321|NCT03486457|184316645|SUPERIORITY||Difference in percentage of participants|36.03|STANDARD_ERROR_OF_MEAN|6.49|<|0.0001|TWO_SIDED|95.0|23.31|48.75|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||48.75|23.31|<0.0001
92208322|NCT03486457|184316645|SUPERIORITY||Difference in percentage of participants|52.21|STANDARD_ERROR_OF_MEAN|5.79|<|0.0001|TWO_SIDED|95.0|40.86|63.55|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||63.55|40.86|<0.0001
92208323|NCT03486457|184316645|SUPERIORITY||Difference in percentage of participants|39.71|STANDARD_ERROR_OF_MEAN|6.8|<|0.0001|TWO_SIDED|95.0|26.38|53.03|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||53.03|26.38|<0.0001
92208324|NCT03486457|184316645|SUPERIORITY||Difference in percentage of participants|18.38|STANDARD_ERROR_OF_MEAN|7.23||0.011|TWO_SIDED|95.0|4.22|32.55|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||32.55|4.22|0.0110
92208325|NCT03486457|184316645|SUPERIORITY||Difference in percentage of participants|16.18|STANDARD_ERROR_OF_MEAN|6.8||0.0173|TWO_SIDED|95.0|2.85|29.5|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||29.50|2.85|0.0173
92208326|NCT03486457|184316646|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.79|-0.47|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.47|-0.79|<0.0001
92208327|NCT03486457|184316646|SUPERIORITY||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.095|<|0.0001|TWO_SIDED|95.0|-0.99|-0.62|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.62|-0.99|<0.0001
92327565|NCT00710684|184560288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.396|TWO_SIDED|95.0|-0.8|2.1|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 12||2.1|-0.8|0.396
92327566|NCT00710684|184560288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.7||||0.019|TWO_SIDED|95.0|0.3|3.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 12||3.2|0.3|0.019
92327567|NCT00710684|184560288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4||||0.11|TWO_SIDED|95.0|-0.3|3.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 24||3.2|-0.3|0.110
92327568|NCT00710684|184560288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0||||0.024|TWO_SIDED|95.0|0.3|3.7|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 24||3.7|0.3|0.024
92208328|NCT03486457|184316646|SUPERIORITY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.105|<|0.0001|TWO_SIDED|95.0|-1.08|-0.66|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.66|-1.08|<0.0001
92208329|NCT03486457|184316646|SUPERIORITY||LS mean difference|-1.04|STANDARD_ERROR_OF_MEAN|0.122|<|0.0001|TWO_SIDED|95.0|-1.28|-0.8|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.80|-1.28|<0.0001
92208330|NCT03486457|184316646|SUPERIORITY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.129||0.0009|TWO_SIDED|95.0|-0.69|-0.18|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.18|-0.69|0.0009
92208331|NCT03486457|184316646|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.145||0.1202|TWO_SIDED|95.0|-0.51|0.06|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.06|-0.51|0.1202
92208332|NCT03486457|184316647|SUPERIORITY||LS mean difference|3.72|STANDARD_ERROR_OF_MEAN|0.998||0.0003|TWO_SIDED|95.0|1.76|5.69|||Mixed Models Analysis|||Month 1, Physical Functioning Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.69|1.76|0.0003
92208333|NCT03486457|184316647|SUPERIORITY||LS mean difference|3.18|STANDARD_ERROR_OF_MEAN|1.102||0.0043|TWO_SIDED|95.0|1.01|5.35|||Mixed Models Analysis|||Month 1, Role - Physical Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.35|1.01|0.0043
92208334|NCT03486457|184316647|SUPERIORITY||LS mean difference|3.12|STANDARD_ERROR_OF_MEAN|0.861||0.0004|TWO_SIDED|95.0|1.42|4.82|||Mixed Models Analysis|||Month 1, Bodily Pain Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.82|1.42|0.0004
92327569|NCT00710684|184560288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.944|TWO_SIDED|95.0|-2.1|2.0|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo ate Week 36||2.0|-2.1|0.944
92327570|NCT00710684|184560288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9||||0.037|TWO_SIDED|95.0|0.1|3.8|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 36||3.8|0.1|0.037
92208335|NCT03486457|184316647|SUPERIORITY||LS mean difference|3.54|STANDARD_ERROR_OF_MEAN|0.938||0.0002|TWO_SIDED|95.0|1.69|5.39|||Mixed Models Analysis|||Month 1, General Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.39|1.69|0.0002
92208336|NCT03486457|184316647|SUPERIORITY||LS mean difference|3.04|STANDARD_ERROR_OF_MEAN|1.203||0.0123|TWO_SIDED|95.0|0.67|5.41|||Mixed Models Analysis|||Month 1, Vitality Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.41|0.67|0.0123
92208337|NCT03486457|184316647|SUPERIORITY||LS mean difference|2.58|STANDARD_ERROR_OF_MEAN|1.115||0.0216|TWO_SIDED|95.0|0.38|4.78|||Mixed Models Analysis|||Month 1, Social Function Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.78|0.38|0.0216
92208338|NCT03486457|184316647|SUPERIORITY||LS mean difference|2.04|STANDARD_ERROR_OF_MEAN|1.336||0.129|TWO_SIDED|95.0|-0.6|4.67|||Mixed Models Analysis|||Month 1, Role - Emotional Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.67|-0.60|0.1290
92208339|NCT03486457|184316647|SUPERIORITY||LS mean difference|1.91|STANDARD_ERROR_OF_MEAN|1.172||0.1043|TWO_SIDED|95.0|-0.4|4.22|||Mixed Models Analysis|||Month 1, Mental Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.22|-0.40|0.1043
92208340|NCT03486457|184316647|SUPERIORITY||LS mean difference|3.77|STANDARD_ERROR_OF_MEAN|0.763|<|0.0001|TWO_SIDED|95.0|2.26|5.27|||Mixed Models Analysis|||Month 1, Physical Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.27|2.26|<0.0001
92208341|NCT03486457|184316647|SUPERIORITY||LS mean difference|1.78|STANDARD_ERROR_OF_MEAN|1.178||0.1318|TWO_SIDED|95.0|-0.54|4.1|||Mixed Models Analysis|||Month 1, Mental Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.10|-0.54|0.1318
92208342|NCT03486457|184316647|SUPERIORITY||LS mean difference|2.53|STANDARD_ERROR_OF_MEAN|1.225||0.0402|TWO_SIDED|95.0|0.11|4.95|||Mixed Models Analysis|||Month 3, Physical Functioning Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.95|0.11|0.0402
92208343|NCT03486457|184316647|SUPERIORITY||LS mean difference|4.41|STANDARD_ERROR_OF_MEAN|1.227||0.0004|TWO_SIDED|95.0|1.99|6.83|||Mixed Models Analysis|||Month 3, Role - Physical Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||6.83|1.99|0.0004
92208344|NCT03486457|184316647|SUPERIORITY||LS mean difference|5.29|STANDARD_ERROR_OF_MEAN|1.069|<|0.0001|TWO_SIDED|95.0|3.18|7.4|||Mixed Models Analysis|||Month 3, Bodily Pain Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||7.40|3.18|<0.0001
92208345|NCT03486457|184316647|SUPERIORITY||LS mean difference|5.28|STANDARD_ERROR_OF_MEAN|1.261|<|0.0001|TWO_SIDED|95.0|2.79|7.76|||Mixed Models Analysis|||Month 3, General Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||7.76|2.79|<0.0001
92208346|NCT03486457|184316647|SUPERIORITY||LS mean difference|2.1|STANDARD_ERROR_OF_MEAN|1.366||0.1254|TWO_SIDED|95.0|-0.59|4.8|||Mixed Models Analysis|||Month 3, Vitality Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.80|-0.59|0.1254
92208347|NCT03486457|184316647|SUPERIORITY||LS mean difference|4.34|STANDARD_ERROR_OF_MEAN|1.186||0.0003|TWO_SIDED|95.0|2.0|6.68|||Mixed Models Analysis|||Month 3, Social Function Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||6.68|2.00|0.0003
92208348|NCT03486457|184316647|SUPERIORITY||LS mean difference|3.43|STANDARD_ERROR_OF_MEAN|1.384||0.014|TWO_SIDED|95.0|0.7|6.16|||Mixed Models Analysis|||Month 3, Role - Emotional Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||6.16|0.70|0.0140
92208349|NCT03486457|184316647|SUPERIORITY||LS mean difference|3.47|STANDARD_ERROR_OF_MEAN|1.268||0.0067|TWO_SIDED|95.0|0.97|5.98|||Mixed Models Analysis|||Month 3, Mental Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.98|0.97|0.0067
92208350|NCT03486457|184316647|SUPERIORITY||LS mean difference|4.17|STANDARD_ERROR_OF_MEAN|0.986|<|0.0001|TWO_SIDED|95.0|2.23|6.12|||Mixed Models Analysis|||Month 3, Physical Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||6.12|2.23|<0.0001
92208351|NCT03486457|184316647|SUPERIORITY||LS mean difference|3.27|STANDARD_ERROR_OF_MEAN|1.248||0.0094|TWO_SIDED|95.0|0.81|5.73|||Mixed Models Analysis|||Month 3, Mental Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.73|0.81|0.0094
92208352|NCT03486457|184316647|SUPERIORITY||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|1.049||0.7098|TWO_SIDED|95.0|-1.68|2.46|||Mixed Models Analysis|||Month 6, Physical Functioning Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.46|-1.68|0.7098
92208353|NCT03486457|184316647|SUPERIORITY||LS mean difference|1.04|STANDARD_ERROR_OF_MEAN|1.234||0.4019|TWO_SIDED|95.0|-1.4|3.47|||Mixed Models Analysis|||Month 6, Role - Physical Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||3.47|-1.40|0.4019
92208354|NCT03486457|184316647|SUPERIORITY||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|1.186||0.7537|TWO_SIDED|95.0|-1.97|2.71|||Mixed Models Analysis|||Month 6, Bodily Pain Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.71|-1.97|0.7537
92208355|NCT03486457|184316647|SUPERIORITY||LS mean difference|1.22|STANDARD_ERROR_OF_MEAN|1.33||0.3595|TWO_SIDED|95.0|-1.4|3.85|||Mixed Models Analysis|||Month 6, General Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||3.85|-1.40|0.3595
92208356|NCT03486457|184316647|SUPERIORITY||LS mean difference|1.99|STANDARD_ERROR_OF_MEAN|1.52||0.1919|TWO_SIDED|95.0|-1.01|4.99|||Mixed Models Analysis|||Month 6, Vitality Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.99|-1.01|0.1919
92208357|NCT03486457|184316647|SUPERIORITY||LS mean difference|0.28|STANDARD_ERROR_OF_MEAN|1.209||0.8163|TWO_SIDED|95.0|-2.1|2.67|||Mixed Models Analysis|||Month 6, Social Function Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.67|-2.10|0.8163
92208358|NCT03486457|184316647|SUPERIORITY||LS mean difference|2.23|STANDARD_ERROR_OF_MEAN|1.368||0.1048|TWO_SIDED|95.0|-0.47|4.93|||Mixed Models Analysis|||Month 6, Role - Emotional Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.93|-0.47|0.1048
92208359|NCT03486457|184316647|SUPERIORITY||LS mean difference|0.71|STANDARD_ERROR_OF_MEAN|1.392||0.6118|TWO_SIDED|95.0|-2.04|3.45|||Mixed Models Analysis|||Month 6, Mental Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||3.45|-2.04|0.6118
92208360|NCT03486457|184316647|SUPERIORITY||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|1.014||0.6996|TWO_SIDED|95.0|-1.61|2.39|||Mixed Models Analysis|||Month 6, Physical Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.39|-1.61|0.6996
92208361|NCT03486457|184316647|SUPERIORITY||LS mean difference|1.78|STANDARD_ERROR_OF_MEAN|1.424||0.2122|TWO_SIDED|95.0|-1.03|4.59|||Mixed Models Analysis|||Month 6, Mental Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.59|-1.03|0.2122
92208362|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.067||0.0722|TWO_SIDED|95.0|-0.25|0.01|||Mixed Models Analysis|||Month 1, Mobility: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.01|-0.25|0.0722
92208363|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.055||0.0035|TWO_SIDED|95.0|-0.27|-0.05|||Mixed Models Analysis|||Month 1, Self-Care: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.05|-0.27|0.0035
92208364|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.069||0.0475|TWO_SIDED|95.0|-0.27|0.0|||Mixed Models Analysis|||Month 1, Usual Activities: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.00|-0.27|0.0475
92208365|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.066||0.0537|TWO_SIDED|95.0|-0.26|0.0|||Mixed Models Analysis|||Month 1, Pain/Discomfort: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.00|-0.26|0.0537
92327571|NCT00710684|184560288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5||||0.705|TWO_SIDED|95.0|-1.9|2.9|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 48||2.9|-1.9|0.705
92327572|NCT00710684|184560288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9||||0.088|TWO_SIDED|95.0|-0.3|4.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 48||4.2|-0.3|0.088
92327573|NCT00710684|184560289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.962|TWO_SIDED|95.0|-0.6|0.6|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 24||0.6|-0.6|0.962
92208366|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.062||0.1977|TWO_SIDED|95.0|-0.2|0.04|||Mixed Models Analysis|||Month 1, Anxiety/Depression: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.04|-0.20|0.1977
92208367|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.064||0.0001|TWO_SIDED|95.0|-0.38|-0.13|||Mixed Models Analysis|||Month 3, Mobility: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.13|-0.38|0.0001
92208368|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.057||0.0018|TWO_SIDED|95.0|-0.29|-0.07|||Mixed Models Analysis|||Month 3, Self-Care: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.07|-0.29|0.0018
92208369|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.47|-0.19|||Mixed Models Analysis|||Month 3, Usual Activities: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.19|-0.47|<0.0001
92208370|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.073||0.0002|TWO_SIDED|95.0|-0.42|-0.14|||Mixed Models Analysis|||Month 3, Pain/Discomfort: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.14|-0.42|0.0002
92208371|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.063||0.0835|TWO_SIDED|95.0|-0.23|0.01|||Mixed Models Analysis|||Month 3, Anxiety/Depression: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.01|-0.23|0.0835
92208372|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.056||0.0825|TWO_SIDED|95.0|-0.21|0.01|||Mixed Models Analysis|||Month 6, Mobility: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.01|-0.21|0.0825
92208373|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.049||0.5616|TWO_SIDED|95.0|-0.13|0.07|||Mixed Models Analysis|||Month 6, Self-Care: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.07|-0.13|0.5616
92208374|NCT03486457|184316648|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.065||0.0748|TWO_SIDED|95.0|-0.24|0.01|||Mixed Models Analysis|||Month 6, Usual Activities: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.01|-0.24|0.0748
92208375|NCT03486457|184316648|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.08||0.9477|TWO_SIDED|95.0|-0.15|0.16|||Mixed Models Analysis|||Month 6, Pain/Discomfort: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.16|-0.15|0.9477
92208376|NCT03486457|184316648|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.067||0.3829|TWO_SIDED|95.0|-0.07|0.19|||Mixed Models Analysis|||Month 6, Anxiety/Depression: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.19|-0.07|0.3829
92208377|NCT03486457|184316649|SUPERIORITY||LS mean difference|6.01|STANDARD_ERROR_OF_MEAN|2.084||0.0044|TWO_SIDED|95.0|1.9|10.12|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||10.12|1.90|0.0044
92208378|NCT03486457|184316649|SUPERIORITY||LS mean difference|10.8|STANDARD_ERROR_OF_MEAN|2.578|<|0.0001|TWO_SIDED|95.0|5.71|15.88|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||15.88|5.71|<0.0001
92208379|NCT03486457|184316649|SUPERIORITY||LS mean difference|0.92|STANDARD_ERROR_OF_MEAN|2.442||0.7062|TWO_SIDED|95.0|-3.9|5.74|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.74|-3.90|0.7062
92208380|NCT03486457|184316650|SUPERIORITY||LS mean difference|0.86|STANDARD_ERROR_OF_MEAN|2.404||0.7228|TWO_SIDED|95.0|-3.92|5.63|||Mixed Models Analysis|||Month 3, Work Time Missed: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.63|-3.92|0.7228
92208381|NCT03486457|184316650|SUPERIORITY||LS mean difference|-6.34|STANDARD_ERROR_OF_MEAN|4.561||0.1682|TWO_SIDED|95.0|-15.39|2.72|||Mixed Models Analysis|||Month 3, Impairment While Working: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.72|-15.39|0.1682
92208382|NCT03486457|184316650|SUPERIORITY||LS mean difference|-6.21|STANDARD_ERROR_OF_MEAN|4.707||0.19|TWO_SIDED|95.0|-15.56|3.13|||Mixed Models Analysis|||Month 3, Overall Work Impairment: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||3.13|-15.56|0.1900
92208383|NCT03486457|184316650|SUPERIORITY||LS mean difference|-1.08|STANDARD_ERROR_OF_MEAN|2.581||0.6757|TWO_SIDED|95.0|-6.22|4.05|||Mixed Models Analysis|||Month 6, Work Time Missed: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.05|-6.22|0.6757
92208384|NCT03486457|184316650|SUPERIORITY||LS mean difference|-2.38|STANDARD_ERROR_OF_MEAN|4.905||0.6285|TWO_SIDED|95.0|-12.13|7.37|||Mixed Models Analysis|||Month 6, Impairment While Working: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||7.37|-12.13|0.6285
92208385|NCT03486457|184316650|SUPERIORITY||LS mean difference|-2.63|STANDARD_ERROR_OF_MEAN|5.333||0.6228|TWO_SIDED|95.0|-13.23|7.97|||Mixed Models Analysis|||Month 6, Overall Work Impairment: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||7.97|-13.23|0.6228
92208386|NCT03486457|184316651|SUPERIORITY||LS mean difference|-12.81|STANDARD_ERROR_OF_MEAN|3.089|<|0.0001|TWO_SIDED|95.0|-18.9|-6.72|||Mixed Models Analysis|||Month 3, Activity Impairment: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-6.72|-18.90|<0.0001
92208387|NCT03486457|184316651|SUPERIORITY||LS mean difference|1.06|STANDARD_ERROR_OF_MEAN|3.157||0.7384|TWO_SIDED|95.0|-5.17|7.28|||Mixed Models Analysis|||Month 6, Activity Impairment: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||7.28|-5.17|0.7384
92208388|NCT00372229|184316652|SUPERIORITY_OR_OTHER_LEGACY||Difference|-28.5|STANDARD_ERROR_OF_MEAN|5.45|||TWO_SIDED|96.0|-39.7|-17.3||||||||-17.3|-39.7|
92208389|NCT00372229|184316653|SUPERIORITY_OR_OTHER_LEGACY||Difference|-11.3|STANDARD_ERROR_OF_MEAN|3.83|||TWO_SIDED|96.0|-19.2|-3.4||||||||-3.4|-19.2|
92208390|NCT00372229|184316654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2509|STANDARD_ERROR_OF_MEAN|0.1838||0.1739|TWO_SIDED|99.0|-0.2271|0.7289|||F-test|||||0.7289|-0.2271|0.1739
92208391|NCT00372229|184316687|OTHER|Descriptive analysis|Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|8.71|||TWO_SIDED|95.0|-20.2|13.9||||||||13.9|-20.2|
92208392|NCT00372229|184316688|OTHER|Descriptive analysis|Mean Difference (Final Values)|12.1|STANDARD_ERROR_OF_MEAN|6.21|||TWO_SIDED|95.0|-0.1|24.2||||||||24.2|-0.1|
92208393|NCT04055090|184316701|OTHER||Least Square Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.438||0.046|TWO_SIDED|95.0|-1.76|-0.02|||Mixed Models Analysis|Mixed-effects Model for Repeated Measures (MMRM) with treatment, visit, treatment-by-visit, and use of gabapentin/pregabalin as main fixed effects|Mixed-effects Model for Repeated Measures with treatment, visit, treatment-by-visit, and use of gabapentin/pregabalin as main fixed effects. The Baseline average 24-hour pain score was included as a covariate.|||-0.02|-1.76|0.0460
92208394|NCT04055090|184316703|OTHER|||||||0.219|||||||Cochran-Mantel-Haenszel|||||||0.2190
92208395|NCT04055090|184316704|OTHER||Least-Squares Mean Difference|-1.48||||0.0155|TWO_SIDED|95.0|-2.67|-0.29|||Mixed Models Analysis||Mixed-effects Model for Repeated Measures (MMRM) with treatment, visit, treatment-by-visit, and use of gabapentin/pregabalin as main fixed effects. Baseline average 24-hour pain score is included as a covariate.|||-0.29|-2.67|0.0155
92208396|NCT05478499|184316711|SUPERIORITY||Odds Ratio (OR)|6.2|||<|0.0001|TWO_SIDED|95.0|2.5|15.3|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel|Full Analysis Set||15.3|2.5|<0.0001
92208397|NCT05478499|184316711|SUPERIORITY||Odds Ratio (OR)|7.0|||<|0.0001|TWO_SIDED|95.0|2.7|18.4|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel|Patient sub-population (s-PGA ≥ 3)||18.4|2.7|<0.0001
92208398|NCT05478499|184316712|SUPERIORITY||Odds Ratio (OR)|40.2|||<|0.0001||95.0|4.6|352.0|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel|Full Analysis Set||352.0|4.6|<0.0001
92208399|NCT05478499|184316712|SUPERIORITY||Odds Ratio (OR)|37.3|||<|0.0001|TWO_SIDED|95.0|4.4|317.6|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel|Patient sub-population (s-PGA ≥ 3)||317.6|4.4|<0.0001
92208400|NCT05478499|184316713|SUPERIORITY||Adjusted mean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001||95.0|-3.3|-1.6|||analysis of covariance model||analysis of covariance model|Full Analysis Set||-1.6|-3.3|<0.0001
92208401|NCT05478499|184316713|SUPERIORITY||Adjusted mean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-3.3|-1.5|||analysis of covariance model||analysis of covariance model|Patient sub-population (s-PGA ≥ 3)||-1.5|-3.3|<0.0001
92208402|NCT05478499|184316714|SUPERIORITY||Odds Ratio (OR)|23.9|||<|0.0001|TWO_SIDED|95.0|5.4|105.6|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel|||105.6|5.4|<0.0001
92208403|NCT02319525|184316737|SUPERIORITY_OR_OTHER|||||||0.005|||||||t-test, 2 sided|||||||0.005
92208404|NCT02319525|184316738|SUPERIORITY_OR_OTHER|||||||0.08||||||We compared informed choice vs. no informed choice made between the decision aid and the pamphlet groups.|Chi-squared|||||||0.08
92208405|NCT02319525|184316739|SUPERIORITY_OR_OTHER|||||||0.252|||||||Chi-squared|||We compared concordance between preferred and actual roles vs. no concordance between roles between decision aid and pamphlet.||||0.252
92208406|NCT02319525|184316740|SUPERIORITY_OR_OTHER|||||||0.504|||||||t-test, 2 sided|||||||0.504
92208407|NCT02319525|184316741|SUPERIORITY_OR_OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
92208408|NCT02319525|184316742|SUPERIORITY_OR_OTHER|||||||0.006|||||||Chi-squared|||"statistical analysis comparing the decision-aid vs. pamphlet for patient rating of acceptability of information and presentation related to the Impact of lupus nephritis"||||0.006
92208409|NCT02319525|184316742|SUPERIORITY_OR_OTHER|||||||0.006|||||||Chi-squared|||"statistical analysis comparing the decision-aid vs. pamphlet for patient rating of acceptability of information and presentation related to the Risk factors"||||0.006
92208410|NCT02319525|184316742|SUPERIORITY_OR_OTHER|||||||0.003|||||||Chi-squared|||"statistical analysis comparing the decision-aid vs. pamphlet for patient rating of acceptability of information and presentation related to the medication options"||||0.003
92208411|NCT02319525|184316742|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||"statistical analysis comparing the decision-aid vs. pamphlet for patient rating of acceptability of information and presentation related to the evidence about medications"||||<0.001
92208412|NCT02319525|184316742|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||"statistical analysis comparing the decision-aid vs. pamphlet for patient rating of acceptability of information and presentation related to the study about other patients"||||<0.001
92208413|NCT02319525|184316743|SUPERIORITY_OR_OTHER|||||||0.006|||||||Chi-squared|||The test of significance compared all the rows, i.e., all response options for the statement.||||0.006
92208414|NCT02842827|184316780|OTHER|||||||0.3868|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.3868
92208415|NCT02842827|184316781|OTHER|||||||0.7744|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.7744
92208416|NCT02842827|184316782|OTHER|||||||0.508|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.5080
92208417|NCT02842827|184316783|OTHER|||||||0.6109|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.6109
92208418|NCT02842827|184316784|OTHER|||||||0.1151|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.1151
92208419|NCT02842827|184316785|OTHER|||||||0.0791|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.0791
92208420|NCT01815138|184316787|OTHER||Odds Ratio (OR)|0.05|||<|0.05|TWO_SIDED||||||Fisher Exact|||||||<0.05
92208421|NCT01815138|184316788|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
92208422|NCT01588496|184316891|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-29.78|STANDARD_ERROR_OF_MEAN|5.54|<|0.001|TWO_SIDED|95.0|-40.94|-18.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-18.62|-40.94|<0.001
92208423|NCT01588496|184316892|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-23.14|STANDARD_ERROR_OF_MEAN|5.81|<|0.001|TWO_SIDED|95.0|-34.83|-11.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-11.45|-34.83|<0.001
92208424|NCT01588496|184316893|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-22.89|STANDARD_ERROR_OF_MEAN|5.38|<|0.001|TWO_SIDED|95.0|-33.72|-12.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-12.05|-33.72|<0.001
92208425|NCT01588496|184316894|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-11.83|STANDARD_ERROR_OF_MEAN|6.77||0.088|TWO_SIDED|95.0|-25.48|1.82||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||1.82|-25.48|0.088
92208426|NCT01588496|184316895|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-11.27|STANDARD_ERROR_OF_MEAN|5.86||0.088|TWO_SIDED|95.0|-23.11|0.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||0.56|-23.11|0.088
92208427|NCT01588496|184316896|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-30.93|STANDARD_ERROR_OF_MEAN|6.42|<|0.001|TWO_SIDED|95.0|-43.86|-18.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|LDL-C lowering was analyzed by comparing evolocumab and placebo. Statistical analysis was 2-sided with a significance level of 0.05.||-18.00|-43.86|<0.001
92208428|NCT03143166|184316897|OTHER||Adjusted gMean ratio Test/Reference (%)|28.85|STANDARD_ERROR_OF_MEAN|86.7|||TWO_SIDED|90.0|21.346|38.996|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||38.996|21.346|
92208429|NCT03143166|184316898|OTHER||Adjusted gMean ratio Test/Reference (%)|26.37|STANDARD_ERROR_OF_MEAN|76.6|||TWO_SIDED|90.0|20.066|34.665|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||34.665|20.066|
92208430|NCT03143166|184316899|OTHER||Adjusted gMean ratio Test/Reference (%)|28.02|STANDARD_ERROR_OF_MEAN|83.4|||TWO_SIDED|90.0|20.914|37.537|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||37.537|20.914|
92208431|NCT03143166|184316900|OTHER||Adjusted gMean ratio Test/Reference (%)|27.56|STANDARD_ERROR_OF_MEAN|75.6|||TWO_SIDED|90.0|21.023|36.118|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||36.118|21.023|
92208432|NCT03143166|184316901|OTHER||Adjusted gMean ratio Test/Reference (%)|30.59|STANDARD_ERROR_OF_MEAN|76.8|||TWO_SIDED|90.0|23.26|40.234|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||40.234|23.260|
92208433|NCT03143166|184316902|OTHER||Adjusted gMean ratio Test/Reference (%)|30.61|STANDARD_ERROR_OF_MEAN|74.9|||TWO_SIDED|90.0|23.404|40.037|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||40.037|23.404|
92208434|NCT00803751|184316906|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Fisher Exact|||||||0.17
92208435|NCT00803751|184316907|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Fisher Exact|||||||0.45
92208436|NCT00803751|184316908|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||t-test, 2 sided|||||||0.36
92208437|NCT00803751|184316909|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||||||0.002
92208438|NCT00803751|184316910|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92208439|NCT00803751|184316911|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||t-test, 2 sided|||||||0.0004
92208440|NCT03102645|184316912|SUPERIORITY||Mean Difference (Final Values)|6.5||||0.07|TWO_SIDED|95.0|-0.5|13.5|||t-test, 2 sided|CROS. DF=14.||CROS test||13.5|-0.5|0.07
92208441|NCT03102645|184316913|SUPERIORITY||Mean Difference (Final Values)|15.2||||0.03|TWO_SIDED|95.0|2.0|28.2|||t-test, 2 sided|CROS test||CROS test||28.2|2.0|0.03
92208442|NCT01413087|184316914|SUPERIORITY|||||||0.483|||||||Log Rank|P value by log-rank test for the difference between treatment groups||||||0.483
92208443|NCT01413087|184316915|SUPERIORITY|||||||0.992|||||||Log Rank|P value by log-rank test for the difference between treatment groups||||||0.992
92208444|NCT05026710|184316934|SUPERIORITY|||||||0.26|||||||Regression, Linear|||||||0.26
92208445|NCT05026710|184316935|SUPERIORITY|||||||0.57|||||||Regression, Linear|||||||0.57
92208446|NCT05026710|184316936|SUPERIORITY|||||||0.58|||||||Regression, Linear|||||||0.58
92208447|NCT05026710|184316937|SUPERIORITY|||||||0.72|||||||Regression, Linear|||||||0.72
92208448|NCT05026710|184316938|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.50
92208449|NCT05026710|184316939|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|Linear mixed effects; covariates: days since URS, study arm, days\*arm, baseline LURN, stone location; random intercept with unstructured covariance||||||0.80
92208450|NCT05026710|184316940|SUPERIORITY|||||||0.25|||||||WinRatio, unmatched unstratified|WinRatio using unmatched method.||||||0.25
92208451|NCT05026710|184316941|SUPERIORITY|||||||0.44|||||||Chi-squared|||||||0.44
92208452|NCT05026710|184316942|SUPERIORITY|||||||0.85|||||||Chi-squared|||||||0.85
92208453|NCT01323972|184316943|OTHER||GMT ratio|1.32|||||TWO_SIDED|95.0|1.06|1.65|||||Consistency was demonstrated if one month post Dose 3, the 2-sided 95% confidence interval (CI) of the geometric mean titer (GMT) ratio between all pairs of lots were within \[0.5, 2\].|Demonstration of the lot-to-lot consistency between GSK 257049-Lot 1 and GSK 257049-Lot 2 in terms of anti-Circumsporozoite (anti-CS) immunogenicity.||1.65|1.06|
92208454|NCT01323972|184316943|OTHER||GMT ratio|1.06|||||TWO_SIDED|95.0|0.85|1.32|||||Consistency was demonstrated if one month post Dose 3, the 2-sided 95% confidence interval (CI) of the geometric mean titer (GMT) ratio between all pairs of lots were within \[0.5, 2\].|Demonstration of the lot-to-lot consistency between GSK 257049-Lot 1 and GSK 257049-Lot 3 in terms of anti-Circumsporozoite (anti-CS) immunogenicity.||1.32|0.85|
92208455|NCT01323972|184316943|OTHER||GMT ratio|0.8||||||95.0|0.64|1.0|||||Consistency was demonstrated if one month post Dose 3, the 2-sided 95% confidence interval (CI) of the geometric mean titer (GMT) ratio between all pairs of lots were within \[0.5, 2\].|Demonstration of the lot-to-lot consistency between GSK 257049-Lot 2 and GSK 257049-Lot 3 in terms of anti-Circumsporozoite (anti-CS) immunogenicity.||1|0.64|
92208456|NCT01323972|184316943|NON_INFERIORITY|Non-inferiority was demonstrated if one month post Dose 3, the upper limit (UL) of the 2-sided 95% CI of the GMT ratio of the pilot scale lot (Control Group) over the pooled commercial scale lots (Pooled Log Group) was below 2.|GMT ratio|0.95||||||95.0|0.79|1.15||||||Demonstration of non-inferiority of the commercial scale lots of GSK 257049 to the pilot scale lot in terms of anti-Circumsporozoite (anti-CS) immunogenicity.||1.15|0.79|
92208457|NCT03218397|184316968|SUPERIORITY||Difference in means|5.6||||0.013|TWO_SIDED|95.0|1.2|10.0||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first antibiotic modification (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||10|1.2|0.013
92208458|NCT03218397|184316969|SUPERIORITY|||||||0.265||||||alpha = 0.05|Fisher Exact|||||||0.265
92208459|NCT03218397|184316970|SUPERIORITY|||||||0.093||||||alpha = 0.05|t-test, 2 sided|T-test for the difference in mean length of stay (days) between treatment arms among subjects alive at 30 days.||||||0.093
92208460|NCT03218397|184316971|SUPERIORITY|||||||0.014||||||alpha = 0.05|Fisher Exact|||||||0.014
92208461|NCT03218397|184316972|SUPERIORITY||Difference in means|7.5||||0.009|TWO_SIDED|95.0|1.9|13.1||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first antibiotic escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||13.1|1.9|0.009
92208462|NCT03218397|184316973|SUPERIORITY||Difference in means|6.5||||0.022|TWO_SIDED|95.0|0.9|12.0||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first gram-negative antibiotic escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||12.0|0.9|0.022
92208463|NCT03218397|184316974|SUPERIORITY||Difference in means|0.7||||0.46|TWO_SIDED|95.0|-1.2|2.7||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first gram-positive antibiotic escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||2.7|-1.2|0.46
92208464|NCT03218397|184316975|SUPERIORITY||Difference in means|4.6||||0.074|TWO_SIDED|95.0|-0.4|9.6||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first antibiotic de-escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||9.6|-0.4|0.074
92208465|NCT03218397|184316976|SUPERIORITY||Difference in means|6.5||||0.008|TWO_SIDED|95.0|1.7|11.2||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first gram-negative antibiotic de-escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||11.2|1.7|0.008
92208466|NCT03218397|184316977|SUPERIORITY||Difference in means|-1.9||||0.37|TWO_SIDED|95.0|-5.9|2.2||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first gram-positive antibiotic de-escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||2.2|-5.9|0.37
92208467|NCT01049217|184316997|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.191||0.709|TWO_SIDED|95.0|-0.3|0.45|||ANCOVA|||Analysis of covariance (ANCOVA) model was used with terms of treatment, pooled site, dideoxynucleoside analogue (D-drug) anti-retroviral agent (ART) use and baseline score.||0.45|-0.30|0.7090
92208468|NCT01049217|184316998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5049|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Overall p-value was derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled site and D-drug ART use using modified ridit scores.||||0.5049
92208469|NCT01049217|184316999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4271|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Overall p-value was derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled site and D-drug ART use using modified ridit scores.||||0.4271
92208470|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.095||0.2084|TWO_SIDED|95.0|-0.31|0.07|||ANCOVA|||Change at Week 1: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.07|-0.31|0.2084
92208471|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.126||0.1516|TWO_SIDED|95.0|-0.43|0.07|||ANCOVA|||Change at Week 2: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.07|-0.43|0.1516
92208472|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.142||0.0468|TWO_SIDED|95.0|-0.56|0.0|||ANCOVA|||Change at Week 3: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||-0.00|-0.56|0.0468
92208473|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.177||0.1224|TWO_SIDED|95.0|-0.62|0.07|||ANCOVA|||Change at Week 4: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.07|-0.62|0.1224
92208474|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.184||0.0373|TWO_SIDED|95.0|-0.75|-0.02|||ANCOVA|||Change at Week 5: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||-0.02|-0.75|0.0373
92208475|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.199||0.166|TWO_SIDED|95.0|-0.67|0.12|||ANCOVA|||Change at Week 6: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.12|-0.67|0.1660
92208476|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.214||0.3246|TWO_SIDED|95.0|-0.63|0.21|||ANCOVA|||Change at Week 7: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.21|-0.63|0.3246
92208477|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.219||0.4879|TWO_SIDED|95.0|-0.58|0.28|||ANCOVA|||Change at Week 8: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.28|-0.58|0.4879
92208478|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.223||0.2669|TWO_SIDED|95.0|-0.69|0.19|||ANCOVA|||Change at Week 9: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.19|-0.69|0.2669
92208479|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.219||0.5452|TWO_SIDED|95.0|-0.56|0.3|||ANCOVA|||Change at Week 10: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.30|-0.56|0.5452
92208480|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.229||0.5469|TWO_SIDED|95.0|-0.59|0.31|||ANCOVA|||Change at Week 11: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.31|-0.59|0.5469
92208481|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.24||0.7843|TWO_SIDED|95.0|-0.54|0.41|||ANCOVA|||Change at Week 12: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.41|-0.54|0.7843
92208482|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.24||0.9008|TWO_SIDED|95.0|-0.5|0.44|||ANCOVA|||Change at Week 13: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.44|-0.50|0.9008
92208483|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.24||0.9064|TWO_SIDED|95.0|-0.45|0.5|||ANCOVA|||Change at Week 14: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.50|-0.45|0.9064
92208484|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.243||0.7205|TWO_SIDED|95.0|-0.57|0.39|||ANCOVA|||Change at Week 15: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.39|-0.57|0.7205
92208485|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.259||0.4334|TWO_SIDED|95.0|-0.71|0.31|||ANCOVA|||Change at Week 16: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.31|-0.71|0.4334
92208486|NCT01049217|184317000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.199||0.8402|TWO_SIDED|95.0|-0.43|0.35|||ANCOVA|||Change at Endpoint: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.35|-0.43|0.8402
92208487|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.085||0.3098|TWO_SIDED|95.0|-0.25|0.08|||ANCOVA|||Change at Week 1: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.08|-0.25|0.3098
92208488|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.118||0.2429|TWO_SIDED|95.0|-0.37|0.09|||ANCOVA|||Change at Week 2: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.09|-0.37|0.2429
92208489|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.137||0.0504|TWO_SIDED|95.0|-0.54|0.0|||ANCOVA|||Change at Week 3: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.00|-0.54|0.0504
92208490|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.164||0.1141|TWO_SIDED|95.0|-0.58|0.06|||ANCOVA|||Change at Week 4: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.06|-0.58|0.1141
92208491|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.173||0.0667|TWO_SIDED|95.0|-0.66|0.02|||ANCOVA|||Change at Week 5: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.02|-0.66|0.0667
92208492|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.189||0.2104|TWO_SIDED|95.0|-0.61|0.13|||ANCOVA|||Change at Week 6: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.13|-0.61|0.2104
92208493|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.197||0.483|TWO_SIDED|95.0|-0.53|0.25|||ANCOVA|||Change at Week 7: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.25|-0.53|0.4830
92208494|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.203||0.5757|TWO_SIDED|95.0|-0.51|0.29|||ANCOVA|||Change at Week 8: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.29|-0.51|0.5757
92208495|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.208||0.3231|TWO_SIDED|95.0|-0.62|0.2|||ANCOVA|||Change at Week 9: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.20|-0.62|0.3231
92208496|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.212||0.3143|TWO_SIDED|95.0|-0.63|0.2|||ANCOVA|||Change at Week 10: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.20|-0.63|0.3143
92208497|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.222||0.63|TWO_SIDED|95.0|-0.54|0.33|||ANCOVA|||Change at Week 11: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.33|-0.54|0.6300
92208498|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.227||0.5752|TWO_SIDED|95.0|-0.57|0.32|||ANCOVA|||Change at Week 12: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.32|-0.57|0.5752
92208499|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.219||0.8905|TWO_SIDED|95.0|-0.46|0.4|||ANCOVA|||Change at Week 13: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.40|-0.46|0.8905
92208500|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.228||0.9991|TWO_SIDED|95.0|-0.45|0.45|||ANCOVA|||Change at Week 14: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.45|-0.45|0.9991
92208501|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.228||0.8927|TWO_SIDED|95.0|-0.48|0.42|||ANCOVA|||Change at Week 15: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.42|-0.48|0.8927
92208502|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.245||0.8067|TWO_SIDED|95.0|-0.54|0.42|||ANCOVA|||Change at Week 16: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.42|-0.54|0.8067
92208503|NCT01049217|184317001|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.19||0.9009|TWO_SIDED|95.0|-0.35|0.4|||ANCOVA|||Change at Endpoint: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.40|-0.35|0.9009
92208504|NCT01049217|184317002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.177||0.0948|TWO_SIDED|95.0|-0.64|0.05|||ANCOVA|||Change at Week 4, PSI: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.05|-0.64|0.0948
92208505|NCT01049217|184317002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.203||0.4167|TWO_SIDED|95.0|-0.57|0.23|||ANCOVA|||Change at Week 8, PSI: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.23|-0.57|0.4167
92208506|NCT01049217|184317002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.226||0.8179|TWO_SIDED|95.0|-0.39|0.5|||ANCOVA|||Change at Week 12, PSI: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.50|-0.39|0.8179
92208507|NCT01049217|184317002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.209||0.6913|TWO_SIDED|95.0|-0.33|0.5|||ANCOVA|||Change at Week 16, PSI: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.50|-0.33|0.6913
92208508|NCT01049217|184317002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.203||0.9475|TWO_SIDED|95.0|-0.39|0.41|||ANCOVA|||Change at Endpoint, PSI: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.41|-0.39|0.9475
92208509|NCT01049217|184317002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.204||0.7412|TWO_SIDED|95.0|-0.47|0.33|||ANCOVA|||Change at Week 4, PII: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.33|-0.47|0.7412
92208510|NCT01049217|184317002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.213||0.9715|TWO_SIDED|95.0|-0.41|0.43|||ANCOVA|||Change at Week 8, PII: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.43|-0.41|0.9715
92208511|NCT01049217|184317002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.218||0.8163|TWO_SIDED|95.0|-0.38|0.48|||ANCOVA|||Change at Week 12, PII: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.48|-0.38|0.8163
92208512|NCT01049217|184317002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.204||0.3682|TWO_SIDED|95.0|-0.22|0.58|||ANCOVA|||Change at Week 16, PII: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.58|-0.22|0.3682
92208513|NCT01049217|184317002|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.199||0.3511|TWO_SIDED|95.0|-0.21|0.58|||ANCOVA|||Change at Endpoint, PII: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.58|-0.21|0.3511
92208514|NCT01049217|184317003|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.9686|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Burning: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.9686
92208515|NCT01049217|184317003|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.23||0.4476|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Change at Endpoint, Squeezing: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.3|-0.6|0.4476
92208516|NCT01049217|184317003|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.563|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Change at Endpoint, Pressure: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.3|-0.6|0.5630
92208517|NCT01049217|184317003|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.9937|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Electric Shocks: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.9937
92208518|NCT01049217|184317003|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.8718|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Stabbing: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.8718
92208519|NCT01049217|184317003|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.8241|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||Change at Endpoint, Light Touching: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.4|-0.5|0.8241
92208520|NCT01049217|184317003|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.3164|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Change at Endpoint, Pressure of Area: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.2|-0.7|0.3164
92208521|NCT01049217|184317003|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.8996|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Cold of Area: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.8996
92208522|NCT01049217|184317003|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.9676|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Pins and Needles: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.9676
92327574|NCT00710684|184560289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.134|TWO_SIDED|95.0|-0.1|1.0|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 24||1.0|-0.1|0.134
92327575|NCT00710684|184560289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.782|TWO_SIDED|95.0|-1.0|0.7|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 48||0.7|-1.0|0.782
92208523|NCT01049217|184317003|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.9091|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Tingling: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.9091
92208524|NCT01049217|184317004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.73|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Duration of Spontaneous Pain: Overall p-value was derived from CMH test adjusted for pooled site and D-drug ART use using modified ridit scores.||||0.7300
92208525|NCT01049217|184317004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0559|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Number of Pain Attacks: Overall p-value was derived from CMH test adjusted for pooled site and D-drug ART use using modified ridit scores.||||0.0559
92208526|NCT01049217|184317005|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.025||0.9686|TWO_SIDED|95.0|-0.05|0.05|||ANCOVA|||Change at Endpoint, Burning Pain: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.05|-0.05|0.9686
92208527|NCT01049217|184317005|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.022||0.4711|TWO_SIDED|95.0|-0.06|0.03|||ANCOVA|||Change at Endpoint, Pressing Pain: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.03|-0.06|0.4711
92208528|NCT01049217|184317005|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.023||0.9215|TWO_SIDED|95.0|-0.04|0.05|||ANCOVA|||Change at Endpoint, Paroxysmal Pain: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.05|-0.04|0.9215
92208529|NCT01049217|184317005|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.021||0.6042|TWO_SIDED|95.0|-0.05|0.03|||ANCOVA|||Change at Endpoint, Evoked Pain: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.03|-0.05|0.6042
92208530|NCT01049217|184317005|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.024||0.9394|TWO_SIDED|95.0|-0.05|0.04|||ANCOVA|||Change at Endpoint, P/D: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.04|-0.05|0.9394
92208531|NCT01049217|184317005|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.7801|TWO_SIDED|95.0|-0.04|0.03|||ANCOVA|||Change at Endpoint, Total Score: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.03|-0.04|0.7801
92208532|NCT01049217|184317006|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.44|STANDARD_ERROR_OF_MEAN|6.58||0.6012|TWO_SIDED||||||ANCOVA|||Endpoint TST: ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.||||0.6012
92208533|NCT01049217|184317006|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.66|STANDARD_ERROR_OF_MEAN|1.89||0.0534|TWO_SIDED||||||ANCOVA|||Endpoint MIS: ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.||||0.0534
92208534|NCT01049217|184317007|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.62||0.0966|TWO_SIDED||||||ANCOVA|||ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.||||0.0966
92208535|NCT01049217|184317008|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.97|STANDARD_ERROR_OF_MEAN|0.51||0.0611|TWO_SIDED||||||ANCOVA|||ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.||||0.0611
92208536|NCT01049217|184317009|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-8436.0|STANDARD_ERROR_OF_MEAN|6855.2||0.2195|TWO_SIDED||||||ANCOVA|||ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.||||0.2195
92208537|NCT01049217|184317010|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.|LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.66||0.8241|TWO_SIDED||||||ANCOVA|||||||0.8241
92208538|NCT01049217|184317011|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|2.052||0.8528|TWO_SIDED|95.0|-4.42|3.66|||ANCOVA|||Change at Endpoint, Sleep Disturbance: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||3.66|-4.42|0.8528
92208539|NCT01049217|184317011|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.88|STANDARD_ERROR_OF_MEAN|3.179||0.365|TWO_SIDED|95.0|-3.37|9.14|||ANCOVA|||Change at Endpoint, Snoring: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||9.14|-3.37|0.3650
92208540|NCT01049217|184317011|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.89|STANDARD_ERROR_OF_MEAN|2.525||0.7237|TWO_SIDED|95.0|-4.07|5.86|||ANCOVA|||Change at Endpoint, SOB: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||5.86|-4.07|0.7237
92208541|NCT01049217|184317011|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.165||0.2783|TWO_SIDED|95.0|-0.5|0.15|||ANCOVA|||Change at Endpoint, Quantity: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.15|-0.50|0.2783
92208542|NCT01049217|184317011|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.02|STANDARD_ERROR_OF_MEAN|2.611||0.2475|TWO_SIDED|95.0|-2.11|8.16|||ANCOVA|||Change at Endpoint, Adequacy: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||8.16|-2.11|0.2475
92208543|NCT01049217|184317011|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.16|STANDARD_ERROR_OF_MEAN|1.933||0.5492|TWO_SIDED|95.0|-2.64|4.96|||ANCOVA|||Change at Endpoint, Somnolence: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||4.96|-2.64|0.5492
92208544|NCT01049217|184317011|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|1.614||0.9113|TWO_SIDED|95.0|-3.0|3.36|||ANCOVA|||Change at Endpoint, Sleep Problems Index: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||3.36|-3.00|0.9113
92208545|NCT01049217|184317012|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7399|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Endpoint: Overall p-value was derived from CMH test adjusted for pooled site and D-drug ART use using modified ridit scores.||||0.7399
92208546|NCT01049217|184317013|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.386||0.8258|TWO_SIDED|95.0|-0.67|0.84|||ANCOVA|||Change at Endpoint, HADS-A: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.84|-0.67|0.8258
92208547|NCT01049217|184317013|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.65|STANDARD_ERROR_OF_MEAN|0.372||0.084|TWO_SIDED|95.0|-0.09|1.38|||ANCOVA|||Change at Endpoint, HADS-D: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||1.38|-0.09|0.0840
92208548|NCT01049217|184317014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|2.393||0.6114|TWO_SIDED|95.0|-3.49|5.92|||ANCOVA|||Change at Endpoint, Ph Fn: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||5.92|-3.49|0.6114
92208549|NCT01049217|184317014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.57|STANDARD_ERROR_OF_MEAN|2.522||0.8209|TWO_SIDED|95.0|-4.39|5.53|||ANCOVA|||Change at Endpoint, R-P: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||5.53|-4.39|0.8209
92208550|NCT01049217|184317014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|2.335||0.9737|TWO_SIDED|95.0|-4.52|4.67|||ANCOVA|||Change at Endpoint, BP: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||4.67|-4.52|0.9737
92208551|NCT01049217|184317014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.76|STANDARD_ERROR_OF_MEAN|1.937||0.6966|TWO_SIDED|95.0|-3.05|4.57|||ANCOVA|||Change at Endpoint, GH: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||4.57|-3.05|0.6966
92208552|NCT01049217|184317014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.807||0.8569|TWO_SIDED|95.0|-1.44|1.73|||ANCOVA|||Change at Endpoint, Ph C: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||1.73|-1.44|0.8569
92208553|NCT01049217|184317014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|1.847||0.4734|TWO_SIDED|95.0|-4.96|2.31|||ANCOVA|||Change at Endpoint, Vit: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||2.31|-4.96|0.4734
92208554|NCT01049217|184317014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.97|STANDARD_ERROR_OF_MEAN|2.159||0.3625|TWO_SIDED|95.0|-6.22|2.28|||ANCOVA|||Change at Endpoint, So Fn: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||2.28|-6.22|0.3625
92208555|NCT01049217|184317014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.79|STANDARD_ERROR_OF_MEAN|2.543||0.2736|TWO_SIDED|95.0|-2.21|7.79|||ANCOVA|||Change at Endpoint, R-E: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||7.79|-2.21|0.2736
92208556|NCT01049217|184317014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|1.811||0.8199|TWO_SIDED|95.0|-3.98|3.15|||ANCOVA|||Change at Endpoint, MnH: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||3.15|-3.98|0.8199
92208557|NCT01049217|184317014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.967||0.9361|TWO_SIDED|95.0|-1.82|1.98|||ANCOVA|||Change at Endpoint, Mn C: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||1.98|-1.82|0.9361
92208558|NCT00589121|184317035|SUPERIORITY_OR_OTHER|The fixed rate of 37% comes from the published National Cancer Institute of Canada trial SR2 (CAN-NCIC-SR2: Phase III Randomized Study of Pre- vs Postoperative Radiotherapy in Curable Extremity Soft Tissue Sarcoma) receiving preoperative radiation therapy without image-guided radiation therapy (IGRT).||||||0.0005|||||||Fisher Exact|||Initially designed to test for a 20% absolute improvement from 37% (fixed rate) to 17% using Fisher's exact test, requiring 41 patients per cohort (51 with 20% ineligibility) with 5% type I error and 90% statistical power. During accrual, the sample size for cohort B was increased to 66 (83 with 20% ineligibility) to test for a 15% improvement with 5% type I error and 85% power.||||0.0005
92208559|NCT02495792|184317053|OTHER||Risk Ratio (RR)|5.98|||||TWO_SIDED|95.0|1.6|21.7||||||||21.7|1.6|
92208560|NCT03519971|184317054|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.247|TWO_SIDED|95.0|0.647|1.123|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).||The hazard ratio (HR) and confidence intervals (CIs) were calculated using a stratified Cox proportional hazards model, adjusting for age \[\< 65 versus (vs.) \>= 65 years\] and stage (IIIA vs. IIIB/C), with treatment as the only covariate and ties handled by Efron approach.||1.123|0.647|0.247
92208561|NCT03519971|184317055|SUPERIORITY||Difference in percentages|0.2||||0.976|TWO_SIDED|99.5|-15.2|16.3|||Cochran-Mantel-Haenszel|The analysis was performed using a Cochran-Mantel-Haenszel (CMH) test, stratified by age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).|The CIs for difference in percentages were estimated using Miettinen and Nurminen's method.|||16.3|-15.2|0.976
92208562|NCT03519971|184317056|SUPERIORITY|The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C), with treatment as the only covariate and ties handled by Efron approach.|Hazard Ratio (HR)|1.03||||0.823|TWO_SIDED|95.0|0.778|1.386|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).||||1.386|0.778|0.823
92208563|NCT03519971|184317057|SUPERIORITY|For the comparison between treatments, the Kaplan-Meier estimator of survival at 24 months for each treatment was used to obtain the HR and the test is based on the method described in Klein 2007. To account for the stratification factors, the estimates and test statistics in each strata were combined by weighting inversely proportionately according to each within stratum variance.|Hazard Ratio (HR)|1.04||||0.847|TWO_SIDED|95.0|0.716|1.502|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).||||1.502|0.716|0.847
92208564|NCT03519971|184317058|SUPERIORITY|The analysis was performed using a CMH test, stratified by age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).|Difference in percentages|0.0|||||TWO_SIDED|95.0|-4.8|3.0|||||The CIs for difference in percentages was calculated using Miettinen and Nurminen's method.|||3.0|-4.8|
92208565|NCT03519971|184317061|SUPERIORITY|The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C), with treatment as the only covariate and ties handled by Efron approach.|Hazard Ratio (HR)|0.95||||0.79|TWO_SIDED|95.0|0.649|1.413|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).||||1.413|0.649|0.790
92208566|NCT03519971|184317062|SUPERIORITY|The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C), with treatment as the only covariate and ties handled by Efron approach.|Hazard Ratio (HR)|0.81||||0.132|TWO_SIDED|95.0|0.614|1.071|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).||||1.071|0.614|0.132
92208567|NCT02545933|184317070|SUPERIORITY||least square mean difference|27.0||||0.011|TWO_SIDED|95.0|19.0|34.0|||ANOVA||DAPT group vs DAPT plus vorapaxar group|We hypothesized that adjunctive vorapaxar would result in a significant reduction of CAT-induced platelet aggregation. Assuming a 10% absolute reduction in CAT-induced maximal platelet aggregation with a common standard deviation of 13%, 37 patients per group with valid primary endpoint data were required to detect a significant difference with a 90% power and 2-sided alpha=0.05.||34|19|0.011
92327576|NCT00710684|184560289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.268|TWO_SIDED|95.0|-0.3|1.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 48||1.2|-0.3|0.268
92208568|NCT05180500|184317078|OTHER|||||||0.7|||||||Fisher Exact|||||||.70
92208569|NCT05180500|184317079|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Concentrations that were below the lower limit of quantification (\<15 ng/mL) were set to 7.5 ng/mL for analyses.||||<.001
92208570|NCT05180500|184317082|OTHER|||||||0.28|||||||Fisher Exact|||||||0.28
92208571|NCT05180500|184317083|OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.60
92208572|NCT05180500|184317084|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Concentrations that were below the lower limit of quantification (\<15 ng/mL) were set to 7.5 ng/mL for analyses.||||<.001
92208573|NCT05180500|184317085|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Concentrations that were below the lower limit of quantification (\<15 ng/mL) were set to 7.5 ng/mL for analyses.||||<.001
92208574|NCT05180500|184317086|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Concentrations that were below the lower limit of quantification (\<15 ng/mL) were set to 7.5 ng/mL for analyses.||||<.001
92208575|NCT05180500|184317087|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92208576|NCT01775124|184317105|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6|||||TWO_SIDED|95.0|-2.95|-0.2|||ANOVA|||Descriptive, no hypothesis||-0.2|-2.95|
92208577|NCT02317432|184317121|SUPERIORITY||Slope|-0.12|||<|0.01|TWO_SIDED|||||Threshold for statistical significance was p\<0.05|Mixed Models Analysis|||||||<0.01
92208578|NCT02317432|184317122|SUPERIORITY||Slope|0.6||||0.03|TWO_SIDED|||||Threshold for statistical significance was p\<0.05|Mixed Models Analysis|||||||0.03
92208579|NCT02317432|184317123|SUPERIORITY||Slope|6.0||||0.02|TWO_SIDED|||||Threshold for statistical significance was p\<0.05|Mixed Models Analysis|||||||0.02
92208580|NCT02317432|184317124|SUPERIORITY||Slope|-1.24||||0.15|TWO_SIDED|||||Threshold for statistical significance was p\<0.05|Mixed Models Analysis|||||||0.15
92208581|NCT02317432|184317125|SUPERIORITY||Slope|-0.49||||0.35|TWO_SIDED|||||Threshold for statistical significance was p\<0.05|Mixed Models Analysis|||||||0.35
92208582|NCT00346268|184317140|SUPERIORITY_OR_OTHER||least square (LS) mean difference (net)|-7.58|STANDARD_ERROR_OF_MEAN|3.55||0.035|TWO_SIDED|95.0|-14.63|-0.53||Adjusted for treatment group and center|ANOVA|||||-0.53|-14.63|0.035
92208583|NCT00346268|184317141|SUPERIORITY_OR_OTHER||least square (LS) mean difference (net)|-15.16|STANDARD_ERROR_OF_MEAN|5.2||0.004|TWO_SIDED|95.0|-25.47|-4.85||Adjusted for treatment group and center|ANOVA|||||-4.85|-25.47|0.004
92208584|NCT00346268|184317142|SUPERIORITY_OR_OTHER|||||||0.257||95.0|||||Log Rank|Stratified by center||||||0.257
92208585|NCT00346268|184317143|SUPERIORITY_OR_OTHER||LS mean difference (net)|-0.07|STANDARD_ERROR_OF_MEAN|0.3||0.81|TWO_SIDED|95.0|-0.68|0.53||Adjusted for treatment group and center|ANCOVA|Covariates:Total RBCUs and RBCUs substituted during surgery, baseline hemoglobin, swab and lavage weights, intraoperative blood loss fluid volume||||0.53|-0.68|0.810
92208586|NCT00346268|184317145|SUPERIORITY_OR_OTHER||Least squares mean difference (net)|0.17|STANDARD_ERROR_OF_MEAN|0.09||0.07|TWO_SIDED|95.0|-0.01|0.35|||ANOVA|||The difference in pain at rest prior to administration and pain at rest post administration compared between treatments at 48 hours post surgery.||0.35|-0.01|0.070
92208587|NCT00346268|184317145|SUPERIORITY_OR_OTHER||LS Mean Difference (net)|0.16|STANDARD_ERROR_OF_MEAN|0.09||0.074|TWO_SIDED|95.0|-0.02|0.33|||ANOVA|||The difference in pain at movement prior to administration and pain at movement post administration compared between treatments at 48 hours post surgery.||0.33|-0.02|0.074
92208588|NCT00346268|184317146|SUPERIORITY_OR_OTHER||LS mean difference (net)|-0.71|STANDARD_ERROR_OF_MEAN|0.23||0.002|TWO_SIDED|95.0|-1.16|-0.26||Adjusted for treatment group and center|ANOVA|||24 hours post surgery||-0.26|-1.16|0.002
92208589|NCT00346268|184317146|SUPERIORITY_OR_OTHER||LS mean difference (net)|-0.73|STANDARD_ERROR_OF_MEAN|0.25||0.004|TWO_SIDED|95.0|-1.22|-0.23||Adjusted for treatment group and center|ANOVA|||48 hours post surgery||-0.23|-1.22|0.004
92208590|NCT00346268|184317147|SUPERIORITY_OR_OTHER||LS mean difference (net)|-1.16|STANDARD_ERROR_OF_MEAN|0.3||0.001|TWO_SIDED|95.0|-1.77|-0.56||Adjusted for treatment group and center|ANOVA|||24 hours post surgery||-0.56|-1.77|0.001
92208591|NCT00346268|184317147|SUPERIORITY_OR_OTHER||LS mean difference (net)|-0.83|STANDARD_ERROR_OF_MEAN|0.3||0.006|TWO_SIDED|95.0|-1.41|-0.24||Adjusted for treatment group and center|ANOVA|||48 hours post surgery||-0.24|-1.41|0.006
92208592|NCT04487834|184317161|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
92208593|NCT04487834|184317162|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
92208594|NCT04487834|184317163|SUPERIORITY|||||||0.4852|||||||Fisher Exact|||||||0.4852
92208595|NCT02831387|184317169|SUPERIORITY||Mean Difference (Net)|-1.88||||0.749|TWO_SIDED|95.0|-13.696|9.936|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline to Day 29 in the Subject Reported Dry Eye Questionnaire||9.936|-13.696|0.749
92208596|NCT02831387|184317170|SUPERIORITY||Mean Difference (Net)|-6.6||||0.267|TWO_SIDED|95.0|-18.4|5.3|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline (Visit 2) to Day 29 in Frequency Scores||5.3|-18.4|0.267
92208597|NCT02831387|184317171|SUPERIORITY||Mean Difference (Net)|3.9||||0.495|TWO_SIDED|95.0|-7.6|15.4|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline (Visit 2) to Day 29 in Severity Scores||15.4|-7.6|0.495
92208598|NCT02831387|184317172|SUPERIORITY||Mean Difference (Net)|0.6||||0.316|TWO_SIDED|95.0|-0.6|1.9|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline to Day 29 in Fluorescein Staining of the Cornea||1.9|-0.6|0.316
92208599|NCT02831387|184317173|SUPERIORITY||Mean Difference (Net)|-0.2||||0.823|TWO_SIDED|95.0|-1.9|1.5|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline to Day 29 in Lissamine Green Staining of the Conjunctiva||1.5|-1.9|0.823
92208600|NCT02831387|184317174|SUPERIORITY||Odds Ratio (OR)|1.923|||||TWO_SIDED|95.0|0.515|7.184||||||Statistical Analysis 1 for the Number of participants with at least 20% improvement in symptoms from baseline to Day 29||7.184|0.515|
92208601|NCT02831387|184317175|SUPERIORITY||Mean Difference (Net)|1.666||||0.723|TWO_SIDED|95.0|-7.759|11.092|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline (Visit 2) to Day 15 (Visit 3) in the Subject-reported Dry Eye Symptom Score||11.092|-7.759|0.723
92208602|NCT01828073|184317178|OTHER||Clopper-Pearson Confidence Interval (CI)|31.82|||||TWO_SIDED|90.0|16.0|51.5|||||With the small sample size, the CI estimate tend to be wide.|Point and 90% CI estimates of percentage of full term infants meeting the composite safety endpoint (grade 3/4 adverse event, adverse birth outcome, death)||51.50|16.00|
92208603|NCT01828073|184317178|OTHER||Clopper-Pearson Confidence Interval (CI)|50.0|||||TWO_SIDED|90.0|29.1|70.9|||||With the small sample size, the CI estimate tend to be wide.|Point and 90% CI estimates of percentage of full term infants meeting the composite safety endpoint (grade 3/4 adverse event, death)||70.90|29.10|
92208604|NCT01828073|184317182|OTHER|||||||0.747||||||The study was not powered to do the comparison. This was an exploratory analysis.|Wilcoxon (Mann-Whitney)|||To investigate the relationship between neonatal RAL elimination and UGT1A1 genotype in full term infants.||||0.747
92208605|NCT01828073|184317182|OTHER|||||||0.341||||||The study was not powered to do the comparison. This was an exploratory analysis.|Wilcoxon (Mann-Whitney)|||To investigate the relationship between neonatal RAL elimination and UGT1A1 genotype in LBW infants.||||0.341
92208606|NCT04234425|184317184|OTHER|paired t test|Mean Difference (Final Values)|2.702|STANDARD_DEVIATION|5.36||0.017|TWO_SIDED||||||t-test, 2 sided|||||||.017
92208607|NCT04234425|184317185|OTHER|paired t test|Mean Difference (Final Values)|4.2|STANDARD_DEVIATION|7.06||0.08|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.08
92208608|NCT04234425|184317186|OTHER|paired t test|Mean Difference (Final Values)|20.47|STANDARD_DEVIATION|7.33||0.026|TWO_SIDED||||||t-test, 2 sided|||||||.026
92208609|NCT02079610|184317187|SUPERIORITY||Mean Difference (Final Values)|10.0|STANDARD_DEVIATION|3.93|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
92208610|NCT02079610|184317188|SUPERIORITY||Mean Difference (Final Values)|8.2|STANDARD_DEVIATION|5.2||0.03|TWO_SIDED||||||Mixed Models Analysis|||||||0.03
92208611|NCT02079610|184317189|SUPERIORITY||Mean Difference (Final Values)|6.8|STANDARD_DEVIATION|3.5||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
92208612|NCT00118755|184317200|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.3883|TWO_SIDED|95.0|0.67|1.17|||Log Rank|||||1.17|0.67|0.3883
92208613|NCT00118755|184317201|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.2458|TWO_SIDED|95.0|0.64|1.12|||Log Rank|||||1.12|0.64|0.2458
92208614|NCT00118755|184317202|SUPERIORITY_OR_OTHER||Difference in Response Rate|9.8||||||95.0|0.9|18.7|||||95% Wald asymptotic CI using normal approximation (continuity corrected)|||18.7|0.9|
92208615|NCT00118755|184317203|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.6294||95.0|0.66|1.97|||Log Rank|||||1.97|0.66|0.6294
92208616|NCT01981473|184317234|SUPERIORITY_OR_OTHER||||||<|0.0001||||||As there was only one primary endpoint, no adjustment was made for multiple comparisons.|Fisher Exact|Logistic regression was to be used but the model was not fit as there were no antibodies in the etanercept group. Fisher's exact test was used.||This sample was to provide \>95% power to detect a difference of 12% in the proportion of participants positive for antidrug antibodies between the group of participants treated with a soluble receptor TNF inhibitor (etanercept) and the group of participants treated with mAB TNF inhibitors (adalimumab and infliximab) (5% vs 17%, respectively), using a Chi square test with continuity correction, an alpha of 0.05, and attrition rate of 15%.||||<0.0001
92208617|NCT01052103|184317253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.0|STANDARD_ERROR_OF_MEAN|1.6||0.732||95.0||||One-sided p-value.|Type 3 Tests|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.732
92208618|NCT01052103|184317254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|2.2|STANDARD_ERROR_OF_MEAN|2.1||0.846||95.0||||One-sided p-value.|Type 3 Tests|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.846
92208619|NCT01052103|184317255|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.201||95.0||||One-sided p-value.|Type 3 Tests|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.201
92208620|NCT01052103|184317256|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.4|STANDARD_ERROR_OF_MEAN|1.3||0.136||95.0||||One-sided p-value.|Type 3 Tests|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.136
92208621|NCT01052103|184317257|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.5|STANDARD_ERROR_OF_MEAN|2.4||0.739||95.0||||One-sided p-value.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.739
92208622|NCT01052103|184317258|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.19||95.0|||||Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.190
92208623|NCT01052103|184317259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.702||95.0|||||Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.702
92208624|NCT01052103|184317260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.851||95.0|||||Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.851
92208625|NCT01052103|184317264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.0||||0.999|TWO_SIDED|95.0|-4.3|4.3||P-value is for standing systolic BP.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||4.3|-4.3|0.999
92208626|NCT01052103|184317264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|3.8||||0.009|TWO_SIDED|95.0|1.0|6.7||P-value is for standing diastolic BP.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||6.7|1.0|0.009
92208627|NCT01052103|184317265|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.5||||0.818|TWO_SIDED|95.0|-5.0|3.9|||Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||3.9|-5.0|0.818
92208628|NCT01052103|184317266|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.44||||0.571|TWO_SIDED|95.0|-1.98|1.1|||Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||1.10|-1.98|0.571
92208629|NCT01052103|184317271|SUPERIORITY_OR_OTHER_LEGACY|||||||0.682||95.0||||P-value is for treatment-emergent suicidal ideation.|Fisher Exact|||||||0.682
92327577|NCT00514904|184560299|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] greater than or equal to (≥) -10%.|Difference in percentage|14.77|||||TWO_SIDED|95.0|10.26|20.23||||||||20.23|10.26|
92327578|NCT00514904|184560299|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|24.47|||||TWO_SIDED|95.0|17.52|31.87||||||||31.87|17.52|
92327579|NCT00514904|184560299|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|6.35|||||TWO_SIDED|95.0|2.68|11.08|||Difference in percentage|||||11.08|2.68|
92208630|NCT01052103|184317272|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.0|STANDARD_ERROR_OF_MEAN|1.7||0.727||95.0||||One-sided p-value.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.727
92208631|NCT01052103|184317276|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-1.7|STANDARD_ERROR_OF_MEAN|3.4||0.305||95.0||||One-sided p-value.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.305
92208632|NCT01052103|184317277|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.5|STANDARD_ERROR_OF_MEAN|2.5||0.42||95.0||||One-sided p-value.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.420
92208633|NCT00666679|184317291|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.05||||0.033||95.0|0.0|0.09|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|Least-Squares Means for average change from baseline are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|||0.09|0.00|0.033
92208634|NCT00666679|184317292|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|-0.15||||0.005||95.0|-0.26|-0.05|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|Least-Squares Means for average change from baseline are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|||-0.05|-0.26|0.005
92208635|NCT00666679|184317293|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|-0.09||||0.015||95.0|-0.17|-0.02|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|Least-Squares Means for average change from baseline are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|||-0.02|-0.17|0.015
92208636|NCT00666679|184317294|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|-0.6||||0.073||95.0|-1.26|0.06|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|Least-Squares Means for average change from baseline are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|||0.06|-1.26|0.073
92208637|NCT00666679|184317295|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|6.08||||0.004||95.0|1.94|10.23|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction and period.|Least-Squares Means for average percentage of days are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction and period.|||10.23|1.94|0.004
92208638|NCT00666679|184317296|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|-5.43|||<=|0.001||95.0|-8.67|-2.19|||ANCOVA|Model with terms for patient, treatment and period.|Least-Squares Means for percentage of days are derived from ANCOVA model with terms for patient, treatment and period.|||-2.19|-8.67|<=0.001
92327580|NCT00514904|184560299|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|23.92|||||TWO_SIDED|95.0|18.02|30.3||||||||30.3|18.02|
92208639|NCT00666679|184317297|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|-0.07||||0.013||95.0|-0.12|-0.01|||Mixed Models Analysis|Model with fixed effects for treatment, period and baseline covariate.|Least-Squares Means for change from baseline are derived from mixed model with terms for treatment, period and baseline covariate.|||-0.01|-0.12|0.013
92208640|NCT00666679|184317298|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.08||||0.002||95.0|0.03|0.13|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|Least-Squares Means for average change from baseline are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|||0.13|0.03|0.002
92208641|NCT00552240|184317316|NON_INFERIORITY_OR_EQUIVALENCE|A point estimate of -6.5% or higher for the diff. in the prop. of responders (NVP - ATV/r) was to be considered consistent with a successful ArTEN study. In the worst case for both studies, if the 2 studies were to be pooled, the non-inferiority margin of -12% would then be outside the 95% confidence interval (CI).|Difference in proportion of responders|-0.041||||0.7142||95.0|-0.183|0.101|||Cochran-Mantel-Haenszel|Controlling for screening viral load and CD4+ categories||With 75 evaluable patients per treatment group, this study had 80% power to observe a difference no lower than -6.5% assuming the true proportions of responders are both 65%.||0.101|-0.183|0.7142
92208642|NCT00552240|184317317|NON_INFERIORITY_OR_EQUIVALENCE|Same as for the primary analysis|Difference in proportion of responders|-0.027||||0.6479||95.0|-0.167|0.113|||Cochran-Mantel-Haenszel|Controlling for screening viral load and CD4+ categories||||0.113|-0.167|0.6479
92208643|NCT00552240|184317318|NON_INFERIORITY_OR_EQUIVALENCE|Same as for primary analysis|Difference in proportion of responders|0.084||||0.1477||95.0|-0.03|0.197|||Cochran-Mantel-Haenszel|Controlling for screening viral load and CD4+ categories||||0.197|-0.030|0.1477
92327581|NCT00514904|184560300|NON_INFERIORITY|Criterion for assessment: upper limit of the two-sided standardized asymptotic 95% confidence interval (CI) for the ratio between Nimenrix Group and Mencevax ACWY Group being lower than or equal to the pre-defined clinical limit ratio of 3.0 in the percentage of subjects with any grade 3 general symptoms.|Risk Ratio (RR)|3.34||||0.2202|TWO_SIDED|95.0|0.56|20.25|||Chi-squared|||||20.25|0.56|0.2202
92208644|NCT00552240|184317319|NON_INFERIORITY_OR_EQUIVALENCE|Same as for primary analysis|Difference in proportion of responders|-0.067||||0.3703||95.0|-0.215|0.08|||Cochran-Mantel-Haenszel|Controlling for screening viral load and CD4+ categories||||0.080|-0.215|0.3703
92208645|NCT00552240|184317320|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.666||||0.0314||95.0|0.46|0.964|||Regression, Cox|Controlling for screening viral load and CD4+ categories.||Hazard ratio Atazanavir plus ritonavir / Nevirapine. Values \< 1 indicate faster response in nevirapine.||0.964|0.460|0.0314
92208646|NCT00552240|184317321|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.628||||0.0172||95.0|0.428|0.921|||Regression, Cox|Controlling for screening viral load and CD4+ categories||"Responders only~Hazard ratio Atazanavir plus ritonavir / Nevirapine. Values \< 1 indicate faster response in nevirapine."||0.921|0.428|0.0172
92208647|NCT00552240|184317349|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.8||||0.7315||95.0|-8.4|11.9|||ANCOVA|Controlling for screening viral load and CD4+ categories||||11.9|-8.4|0.7315
92208648|NCT00552240|184317350|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-10.6||||0.3625||95.0|-33.4|12.3|||ANCOVA|Controlling for screening viral load and CD4+ categories||||12.3|-33.4|0.3625
92208649|NCT00552240|184317351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8||||0.0164||95.0|0.9|8.8|||ANCOVA|Controlling for screening viral load and CD4+ categories||||8.8|0.9|0.0164
92208650|NCT00552240|184317352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.9257||95.0|-8.4|9.3|||ANCOVA|Controlling for screening viral load and CD4+ categories||||9.3|-8.4|0.9257
92208651|NCT00552240|184317353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.0375||95.0|-0.64|-0.02|||ANCOVA|Controlling for screening viral load and CD4+ categories||||-0.02|-0.64|0.0375
92208652|NCT00552240|184317354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.4645||95.0|-1.02|0.47|||ANCOVA|Controlling for screening viral load and CD4+ categories||||0.47|-1.02|0.4645
92208653|NCT02679573|184317364|NON_INFERIORITY|Used on a normal approximation approach (Miettinen and Nurminen's Likelihood Score Test), 860 subjects in the ITT population provided a 90% power to assess non-inferiority of delafloxacin vs. moxifloxacin based on the following assumptions: (1) a rate of ECR for moxifloxacin therapy and delafloxacin of 77% and 74%, respectively; (2) 1 sided type I error (α) of 0.025; and (3) a non-inferiority margin of 12.5%.|Difference in responder rates|-0.2|||||TWO_SIDED|95.0|-4.4|4.1|||||Difference = Difference in responder rates (Delafloxacin treatment group minus Moxifloxacin treatment group). Confidence intervals are calculated using Miettinen and Nurminen method without stratification.|"The null (H0) and alternative (Ha) hypotheses to be tested to establish the noninferiority of delafloxacin were:~H0: Pd - Pm ≤ -0.125 Ha: Pd - Pm \> -0.125 where Pd and Pm are the probabilities of the ECR for delafloxacin and moxifloxacin, respectively.~The treatment difference (delafloxacin - moxifloxacin) were presented, and the Miettinen-Nurminen test, without stratification, was used for the 2 sided 95% CI on the difference in response rate."||4.1|-4.4|
92208654|NCT02679573|184317365|NON_INFERIORITY|Used on a normal approximation approach (Miettinen and Nurminen's Likelihood Score Test), 860 subjects in the ITT population provided a 90% power to assess non-inferiority of delafloxacin vs. moxifloxacin based on the following assumptions: (1) a rate of ECR for moxifloxacin therapy and delafloxacin of 77% and 74%, respectively; (2) 1 sided type I error (α) of 0.025; and (3) a non-inferiority margin of 12.5%.|Difference in responder rates|9.7|||||TWO_SIDED|95.0|3.0|16.3||||||"The null (H0) and alternative (Ha) hypotheses to be tested to establish the noninferiority of delafloxacin were:~H0: Pd - Pm ≤ -0.125 Ha: Pd - Pm \> -0.125~where Pd and Pm are the probabilities of the ECR for delafloxacin and moxifloxacin, respectively.~The treatment difference (delafloxacin - moxifloxacin) was presented, and the Miettinen-Nurminen test without stratification was used for the 2 sided 95% CI on the difference in response rate."||16.3|3.0|
92208655|NCT02679573|184317366|NON_INFERIORITY|Used on a normal approximation approach (Miettinen and Nurminen's Likelihood Score Test), 860 subjects in the ITT population provided a 90% power to assess non-inferiority of delafloxacin vs. moxifloxacin based on the following assumptions: (1) a rate of ECR for moxifloxacin therapy and delafloxacin of 77% and 74%, respectively; (2) 1 sided type I error (α) of 0.025; and (3) a non-inferiority margin of 12.5%.|Difference in responder rates|0.8|||||TWO_SIDED|95.0|-3.3|4.8||||||"The null (H0) and alternative (Ha) hypotheses to be tested to establish the noninferiority of delafloxacin were:~H0: Pd - Pm ≤ -0.125 Ha: Pd - Pm \> -0.125~where Pd and Pm are the probabilities of the ECR for delafloxacin and moxifloxacin, respectively.~The treatment difference (delafloxacin - moxifloxacin) was presented, and the Miettinen-Nurminen test without stratification was used for the 2 sided 95% CI on the difference in response rate."||4.8|-3.3|
92208656|NCT02679573|184317367|NON_INFERIORITY|Used on a normal approximation approach (Miettinen and Nurminen's Likelihood Score Test), 860 subjects in the ITT population provided a 90% power to assess non-inferiority of delafloxacin vs. moxifloxacin based on the following assumptions: (1) a rate of ECR for moxifloxacin therapy and delafloxacin of 77% and 74%, respectively; (2) 1 sided type I error (α) of 0.025; and (3) a non-inferiority margin of 12.5%.|Difference in responder rates|0.8|||||TWO_SIDED|95.0|-3.0|4.6||||||"The null (H0) and alternative (Ha) hypotheses to be tested to establish the noninferiority of delafloxacin were:~H0: Pd - Pm ≤ -0.125 Ha: Pd - Pm \> -0.125~where Pd and Pm are the probabilities of the ECR for delafloxacin and moxifloxacin, respectively.~The treatment difference (delafloxacin - moxifloxacin) was presented, and the Miettinen-Nurminen test without stratification was used for the 2 sided 95% CI on the difference in response rate."||4.6|-3.0|
92208657|NCT02679573|184317368|NON_INFERIORITY|Used on a normal approximation approach (Miettinen and Nurminen's Likelihood Score Test), 860 subjects in the ITT population provided a 90% power to assess non-inferiority of delafloxacin vs. moxifloxacin based on the following assumptions: (1) a rate of ECR for moxifloxacin therapy and delafloxacin of 77% and 74%, respectively; (2) 1 sided type I error (α) of 0.025; and (3) a non-inferiority margin of 12.5%.|Difference in responder rates|0.5|||||TWO_SIDED|95.0|-4.8|5.9||||||"The null (H0) and alternative (Ha) hypotheses to be tested to establish the noninferiority of delafloxacin were:~H0: Pd - Pm ≤ -0.125 Ha: Pd - Pm \> -0.125~where Pd and Pm are the probabilities of the ECR for delafloxacin and moxifloxacin, respectively.~The treatment difference (delafloxacin - moxifloxacin) was presented, and the Miettinen-Nurminen test without stratification was used for the 2 sided 95% CI on the difference in response rate."||5.9|-4.8|
92208658|NCT02679573|184317369|OTHER|||||||0.5951||||||The log-rank test was used to compare the time to all-cause mortality between the 2 treatment groups.|Log Rank|||||||0.5951
92208659|NCT02476279|184317370|NON_INFERIORITY|To declare noninferiority, the upper bound of the two-sided 95% CI for the risk difference in post-ERCP pancreatitis (indomethacin alone minus indomethacin plus stent) needed to be less than 5% in both the intention-to-treat and per protocol analysis populations.|Risk Difference (RD)|0.036|||||TWO_SIDED|95.0|0.006|0.066|||||These numbers are in the intention-to-treat analysis population. Risk difference in post-ERCP pancreatitis (PEP) is calculated as risk of PEP in indomethacin alone arm minus risk of PEP in indomethacin plus stent arm.|||0.066|0.006|
92208660|NCT02476279|184317370|NON_INFERIORITY|To declare noninferiority, the upper bound of the two-sided 95% CI for the risk difference in post-ERCP pancreatitis (indomethacin alone minus indomethacin plus stent) needed to be less than 5% in both the intention-to-treat and per protocol analysis populations.|Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.003|0.06|||||These numbers are in the per protocol analysis population. Risk difference in post-ERCP pancreatitis (PEP) is calculated as risk of PEP in indomethacin alone arm minus risk of PEP in indomethacin plus stent arm.|||0.060|-0.003|
92208661|NCT02476279|184317371|OTHER||Risk Difference (RD)|0.021|||||TWO_SIDED|95.0|-0.002|0.043|||||These numbers are in the intention-to-treat analysis population. Risk difference is calculated as risk of moderate-severe PEP in indomethacin alone arm minus risk of moderate-severe PEP in indomethacin plus stent arm.|||0.043|-0.002|
92208662|NCT02476279|184317371|OTHER||Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.004|0.044|||||These numbers are in the per protocol analysis population. Risk difference is calculated as risk of moderate-severe PEP in indomethacin alone arm minus risk of moderate-severe PEP in indomethacin plus stent arm.|||0.044|-0.004|
92208663|NCT00912301|184317381|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Dunnett's test|pairwise comparison low dose NaCDC against placebo||||||0.031
92208664|NCT00912301|184317381|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Dunnett's test|pairwise comparison high dose NaCDC against placebo||||||0.010
92208665|NCT01616056|184317404|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92208666|NCT01616056|184317406|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
92208667|NCT01616056|184317408|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92327582|NCT00084318|184560314|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.05|TWO_SIDED|95.0|0.54|1.06|||Log Rank|Historical control data (RTOG-9501/NCT00002670): n=202, two-year disease-free survival rate of 54.8% (47.9% to 61.7%).||Using the method of Dixon and Simon, 104 analyzable patients per arm were needed to detect a ≥ 33 reduction in the hazard rate for disease-free survival compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) with 80% power and one-sided log-rank test at the 0.05 level. Two-year rates were estimated by the Kaplan-Meier method. \[RTOG = Radiation Therapy Oncology Group\]||1.06|0.54|0.05
92208668|NCT01616056|184317411|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92208669|NCT03339570|184317413|SUPERIORITY||Mean Difference (Final Values)|18.3|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||Student's t test was used if they were variables adjusted to a normal distribution, or the Mann-Whitney U test if they were non-normal variables.||||<0.01
92208670|NCT01831856|184317477|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.5749|TWO_SIDED|95.0|0.71|1.85|||Log Rank|||The primary criterion, time to first Atrial Fibrillation (AF) recurrence or atrial flutter emergence, was described using survival curves according to the Kaplan-Meier method, reporting the first and third quartiles (Q1, Q3), median, and 95% confidence interval. The time to first AF recurrence or atrial flutter emergence was compared between treatment groups using the Log rank test. Hazard ratios and 95% confidence intervals were estimated with the Cox regression model.||1.85|0.71|0.5749
92208671|NCT02996565|184317518|SUPERIORITY||Mean Difference (Net)|-0.76||||0.45|TWO_SIDED|95.0|-2.84|1.33||The threshold for statistical significance was p = 0.05.|planned contrast|The planned contrast compares model-predicted change in SBP from index to 365 days in Telehealth Care vs. Best Practice Clinic-Based Care.|adjusted for baseline SBP, baseline DBP, baseline age, sex, Asian race|||1.33|-2.84|0.45
92208672|NCT02996565|184317519|SUPERIORITY|Random coefficients model predicted all EHR-documented DBPs from treatment group, days elapsed from index to each DBP (time) and treatment group by time with random clinic and patient intercepts.|Mean Difference (Net)|0.28||||0.64|TWO_SIDED|95.0|-0.95|1.51||The threshold for statistical significance was p\<0.05|planned contrast|The planned contrast compares the model-predicted change in DBP from index to 365 days in Telehealth care vs. index to 365 days in clinic based care.|adjusted for baseline SBP, baseline DBP, baseline age, sex, Asian race|||1.51|-0.95|0.64
92208673|NCT02996565|184317520|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.53|||<|0.001|TWO_SIDED|95.0|1.27|1.85||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood pf reporting high satisfaction at 6 months relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.85|1.27|<0.001
92208674|NCT02996565|184317521|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.25||||0.03|TWO_SIDED|95.0|1.02|1.52||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood pf reporting high satisfaction at 6 months relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.52|1.02|0.03
92208675|NCT02996565|184317522|SUPERIORITY|Random coefficients model predicted the likelihood that smoking was current 12 months by treatment group with random clinic intercept.|Risk Ratio (RR)|1.01||||0.73|TWO_SIDED|95.0|0.95|1.07||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The risk ratio compares the likelihood of current smoking at 12 months in Telehealth care vs. clinic based care|unadjusted|||1.07|0.95|0.73
92208676|NCT02996565|184317523|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.17||||0.08|TWO_SIDED|95.0|0.98|1.4||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.4|.98|0.08
92208677|NCT02996565|184317524|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.11||||0.18|TWO_SIDED|95.0|0.95|1.29||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.29|0.95|0.18
92208678|NCT02996565|184317525|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.98||||0.77|TWO_SIDED|95.0|0.87|1.11||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.11|0.87|0.77
92208679|NCT02996565|184317526|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.93||||0.32|TWO_SIDED|95.0|0.8|1.08||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.08|0.80|0.32
92208680|NCT02996565|184317527|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.95||||0.62|TWO_SIDED|95.0|0.76|1.19||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.19|0.76|0.62
92208681|NCT02996565|184317528|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.99||||0.87|TWO_SIDED|95.0|0.91|1.08||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.08|0.91|0.87
92208682|NCT02996565|184317529|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.95||||0.51|TWO_SIDED|95.0|0.82|1.11||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the activity is helpful at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.11|0.82|0.51
92208683|NCT02996565|184317530|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.09||||0.41|TWO_SIDED|95.0|0.87|1.37||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the activity is helpful at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.37|0.87|0.41
92208684|NCT02996565|184317531|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.9||||0.18|TWO_SIDED|95.0|0.77|1.06||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the activity was helpful at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.06|0.77|0.18
92208685|NCT02996565|184317532|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.92||||0.31|TWO_SIDED|95.0|0.78|1.09||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the activity is helpful at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.09|0.78|0.31
92208686|NCT02996565|184317533|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.04||||0.56|TWO_SIDED|95.0|0.89|1.22||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the activity is helpful at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.22|0.89|0.56
92208687|NCT02996565|184317534|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.84||||0.08|TWO_SIDED|95.0|0.68|1.03||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.03|0.68|0.08
92208688|NCT02996565|184317535|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.9||||0.32|TWO_SIDED|95.0|0.73|1.11||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.11|.73|0.32
92208689|NCT02996565|184317536|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.14||||0.09|TWO_SIDED|95.0|0.98|1.33||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.33|0.98|0.09
92208690|NCT02996565|184317537|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.98||||0.77|TWO_SIDED|95.0|0.83|1.16||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.16|0.83|0.77
92208691|NCT02996565|184317538|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.21||||0.09|TWO_SIDED|95.0|0.97|1.5||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.5|.97|0.09
92208692|NCT02996565|184317539|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.64||||0.02|TWO_SIDED|95.0|0.45|0.92||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||0.92|0.45|0.02
92208693|NCT02996565|184317540|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.7||||0.006|TWO_SIDED|95.0|0.55|0.89||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||.89|.55|0.006
92208694|NCT02996565|184317541|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.78||||0.06|TWO_SIDED|95.0|0.6|1.01||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.01|0.60|0.06
92208695|NCT02996565|184317542|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.02||||0.65|TWO_SIDED|95.0|0.94|1.1||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting very/extremely confident at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.10|0.94|0.65
92208696|NCT02996565|184317543|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.02||||0.83|TWO_SIDED|95.0|0.83|1.25||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting very/extremely confident at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.25|0.83|0.83
92208697|NCT02996565|184317544|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.04||||0.41|TWO_SIDED|95.0|0.95|1.13||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting very/extremely confident at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.13|0.95|0.41
92208698|NCT02996565|184317545|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.04||||0.4|TWO_SIDED|95.0|0.94|1.16||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting very/extremely confident at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.16|0.94|0.40
92208699|NCT02996565|184317546|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.01||||0.74|TWO_SIDED|95.0|0.95|1.07||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting very/extremely confident at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.07|0.95|0.74
92208700|NCT02996565|184317547|SUPERIORITY|Random coefficients model predicted the likelihood that a new statin was current at 12 months by treatment group with random clinic intercept.|Risk Ratio (RR)|1.05||||0.71|TWO_SIDED|95.0|0.81|1.37||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The risk ratio compares the likelihood of a new statin medication that is current at 12 months in Telehealth care vs. clinic based care|adjusted for baseline SBP , baseline DBP, baseline age, sex, Asian race|||1.37|0.81|0.71
92208701|NCT01602562|184317550|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|16.11|||||The estimated value reflects the percentage of participants with an HSV infection.|||16.11|0.00|
92208702|NCT01602562|184317550|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|17.65|||||The estimated value reflects the percentage of participants with an HSV infection.|||17.65|0.00|
92208703|NCT04964414|184317569|SUPERIORITY|||||||0.6|||||||Paired t-test|||||||0.6
92327583|NCT00084318|184560314|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.01|TWO_SIDED|95.0|0.5|0.96|||Log Rank|Historical control data (RTOG-9501/NCT00002670): n=202, two-year disease-free survival rate of 54.8% (47.9% to 61.7%).||Using the method of Dixon and Simon, 104 analyzable patients per arm were needed to detect a ≥ 33 reduction in the hazard rate for disease-free survival compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) with 80% power and one-sided log-rank test at the 0.05 level. Two-year rates were estimated by the Kaplan-Meier method.||0.96|0.50|0.01
92208704|NCT04964414|184317570|SUPERIORITY|||||||0.6|||||||Wilcoxon signed-rank|||||||0.6
92208705|NCT04964414|184317571|SUPERIORITY|||||||0.09|||||||Paired t-test|||||||0.09
92208706|NCT04964414|184317576|SUPERIORITY|||||||0.2|||||||Paired t-test|||||||0.2
92208707|NCT04964414|184317577|SUPERIORITY|||||||0.2|||||||Paired t-test|||||||0.2
92208708|NCT00116753|184317610|SUPERIORITY_OR_OTHER||Percentage of partcipants|78.3|||||TWO_SIDED|96.5|69.0|86.0|||||Estimated value is the percentage of participants with all testosterone values from Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||86|69|
92208709|NCT00116753|184317610|SUPERIORITY_OR_OTHER||Percentage of participants|79.5|||||TWO_SIDED|96.5|71.0|87.0|||||Estimated value is the percentage of participants with all testosterone values from Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||87|71|
92208710|NCT00116753|184317610|SUPERIORITY_OR_OTHER||Percentage of participants|85.3|||||TWO_SIDED|96.5|77.0|91.0|||||Estimated value is the percentage of participants with all testosterone values from Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||91|77|
92208711|NCT00116753|184317610|SUPERIORITY_OR_OTHER|||||||0.3022||95.0|||||Mantel Haenszel|||||||0.3022
92208712|NCT00116753|184317610|SUPERIORITY_OR_OTHER|||||||0.7797||95.0|||||Mantel Haenszel|||||||0.7797
92327584|NCT00084318|184560315|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.04|TWO_SIDED|95.0|0.5|1.03|||Log Rank|Historical control data (RTOG-9501/NCT00002670): n=202, two-year survival rate of 64.7% (58.1% to 71.3%).|Reference arm = historical control|Two-year rates were estimated by the Kaplan-Meier method. RTOG 0234 results were compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) by 1-sided log-rank test. Hazard ratios were estimated by Cox model. \[RTOG = Radiation Therapy Oncology Group\]||1.03|0.5|0.04
92208713|NCT00116753|184317610|SUPERIORITY_OR_OTHER|||||||0.1557||95.0|||||Mantel Haenszel|||||||0.1557
92208714|NCT00116753|184317610|SUPERIORITY_OR_OTHER|||||||0.2208||95.0|||||Mantel Haenszel|||||||0.2208
92208715|NCT00116753|184317611|SUPERIORITY_OR_OTHER||Percentage of participants|80.7|||||TWO_SIDED|96.5|72.0|88.0|||||Estimated value is the percentage of participants with all testosterone values from after Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||88|72|
92208716|NCT00116753|184317611|SUPERIORITY_OR_OTHER||Percentage of participants|80.2|||||TWO_SIDED|96.5|72.0|87.0|||||Estimated value is the percentage of participants with all testosterone values from Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||87|72|
92208717|NCT00116753|184317611|SUPERIORITY_OR_OTHER||Percentage of participants|86.0|||||TWO_SIDED|96.5|78.0|92.0|||||Estimated value is the percentage of participants with all testosterone values from Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||92|78|
92208718|NCT00116753|184317611|SUPERIORITY_OR_OTHER|||||||0.383||95.0|||||Mantel Haenszel|||||||0.3830
92208719|NCT00116753|184317611|SUPERIORITY_OR_OTHER|||||||0.9587||95.0|||||Mantel Haenszel|||||||0.9587
92208720|NCT00116753|184317611|SUPERIORITY_OR_OTHER|||||||0.2579||95.0|||||Mantel Haenszel|||||||0.2579
92208721|NCT00116753|184317611|SUPERIORITY_OR_OTHER|||||||0.2072||95.0|||||Mantel Haenszel|||||||0.2072
92208722|NCT00116753|184317612|SUPERIORITY_OR_OTHER||Percentage of participants|97.3|||||TWO_SIDED|95.0|93.0|99.0|||||Estimated value is the percentage of participants with testosterone \<=0.5 ng/mL at Day 28. Measure dispersion is the 95% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||99|93|
92208723|NCT00116753|184317612|SUPERIORITY_OR_OTHER||Percentage of participants|97.9|||||TWO_SIDED|95.0|94.0|100.0|||||Estimated value is the percentage of participants with testosterone \<=0.5 ng/mL at Day 28. Measure dispersion is the 95% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||100|94|
92208724|NCT00116753|184317612|SUPERIORITY_OR_OTHER||Percentage of participants|97.9|||||TWO_SIDED|95.0|94.0|100.0|||||Estimated value is the percentage of participants with testosterone \<=0.5 ng/mL at Day 28. Measure dispersion is the 95% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||100|94|
92208725|NCT01200589|184317615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.89|1.49||||||||1.49|0.89|
92208726|NCT00986973|184317625|SUPERIORITY_OR_OTHER||||||>|0.05|ONE_SIDED||||||t-test, 2 sided|||||||>0.05
92208727|NCT00986973|184317626|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||Friedman test|Non-parametric test was used to examine neuropsychological outcomes||||||0.82
92208728|NCT00986973|184317627|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Friedman test|Non-parametric test was used to examine neuropsychological outcomes||||||0.46
92208729|NCT00986973|184317628|SUPERIORITY_OR_OTHER|||||||0.071|TWO_SIDED||||||Friedman test|Non-parametric test was used to examine neuropsychological outcomes||||||0.071
92208730|NCT00986973|184317629|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Friedman test|Non-parametric test was used to examine neuropsychological outcomes||||||0.25
92208731|NCT00986973|184317630|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Friedman test|Non-parametric test was used to examine neuropsychological outcomes||||||0.050
92208732|NCT00986973|184317631|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.34
92268721|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.72||||||95.0|0.58|0.9||||||For serotype 14 after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||0.90|0.58|
92268722|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|1.22||||||95.0|1.0|1.49||||||For serotype 14 after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.49|1.00|
92268723|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.82||||||95.0|0.69|0.97||||||For serotype 18C after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||0.97|0.69|
92208733|NCT00598273|184317632|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 97.5% confidence interval for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.099|||TWO_SIDED|97.5|-0.19|0.26|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study was determined based on a two-group evaluation of non-inferiority in means with a non-inferiority margin (Δ) of -1.0 g/dL (one-sided significance level of 0.0125, or, comparably, a two-sided significance level of 0.025). A sample size of 450 (150 per treatment group) provided power greater than 99% for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a pooled standard deviation of 1.5 g/dL.||0.26|-0.19|
92208734|NCT00598273|184317632|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 97.5% confidence interval for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.098|||TWO_SIDED|97.5|0.04|0.48|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study was determined based on a two-group evaluation of non-inferiority in means with a non-inferiority margin (Δ) of -1.0 g/dL (one-sided significance level of 0.0125, or, comparably, a two-sided significance level of 0.025). A sample size of 450 (150 per treatment group) provided power greater than 99% for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a pooled standard deviation of 1.5 g/dL.||0.48|0.04|
92208735|NCT00598273|184317633|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.25|||||TWO_SIDED|95.0|0.51|3.1|||Cochran-Mantel-Haenszel|||||3.10|0.51|
92208736|NCT00598273|184317633|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.48|||||TWO_SIDED|95.0|0.62|3.56|||Cochran-Mantel-Haenszel|||||3.56|0.62|
92208737|NCT00598273|184317634|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.94|1.05|||Cochran-Mantel-Haenszel|||||1.05|0.94|
92208738|NCT00598273|184317634|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.95|1.06|||Cochran-Mantel-Haenszel|||||1.06|0.95|
92208739|NCT03386110|184317649|SUPERIORITY||Risk Ratio, log|1.19||||0.08|TWO_SIDED|95.0|-0.15|2.54|||Mixed Models Analysis|Model testing whether condition predicted illicit drug use at 3-months||Multi-level models tested whether treatment condition predicted outcome at 3-month follow-up, and controlled for the nesting of participants within couples.||2.54|-0.15|0.08
92208740|NCT03386110|184317649|SUPERIORITY||Risk Ratio, log|0.7||||0.25|TWO_SIDED|95.0|-0.49|1.89|||Mixed Models Analysis|Model testing whether condition predicted illicit drug use at 6-months||Multi-level models tested whether treatment condition predicted outcome at 6-months, and controlled for the nesting of participants within couples.||1.89|-0.49|0.25
92208741|NCT03386110|184317649|SUPERIORITY||Risk Ratio, log|1.79||||0.007|TWO_SIDED|95.0|0.49|3.09|||Mixed Models Analysis|Three-way interaction model testing whether baseline use (actor and partner) moderated the effect of condition on illicit drug use at 3-months||"Moderation analysis in 3-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment at 3-months was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||3.09|0.49|0.007
92208742|NCT03386110|184317649|SUPERIORITY||Risk Ratio, log|-0.36||||0.71|TWO_SIDED|95.0|-2.26|1.53|||Mixed Models Analysis|Three-way interaction model testing whether baseline use (actor and partner) moderated the effect of condition on illicit drug use at 6-months||"Moderation analysis in 6-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment at 6-months was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||1.53|-2.26|0.71
92208743|NCT03386110|184317650|SUPERIORITY||Risk Ratio, log|0.36||||0.36|TWO_SIDED|95.0|-0.65|1.37|||Mixed Models Analysis|Model testing whether condition predicted CAS events at 3-months||Multi-level models tested whether treatment condition predicted outcome at 3-months, and controlled for the nesting of participants within couples.||1.37|-0.65|0.36
92208744|NCT03386110|184317650|SUPERIORITY||Risk Ratio, log|-0.18||||0.63|TWO_SIDED|95.0|-1.15|0.78|||Mixed Models Analysis|Model testing whether condition predicted CAS events at 6-months||Multi-level models tested whether treatment condition predicted outcome at 6-months, and controlled for the nesting of participants within couples.||0.78|-1.15|0.63
92208745|NCT03386110|184317650|SUPERIORITY||Risk Ratio, log|-0.54||||0.42|TWO_SIDED|95.0|-1.85|0.77|||Mixed Models Analysis|Three-way interaction model testing whether baseline rates of CAS (actor and partner) moderated the effect of condition on CAS events at 3-months||"Moderation analysis in 3-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment at 3-months was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||0.77|-1.85|0.42
92208746|NCT03386110|184317650|SUPERIORITY||Risk Ratio, log|-1.7||||0.02|TWO_SIDED|95.0|-3.14|-0.27|||Mixed Models Analysis|Three-way interaction model testing whether baseline rates of CAS (actor and partner) moderated the effect of condition on CAS events at 6-months||"Moderation analysis in 6-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment at 6-months was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||-0.27|-3.14|0.02
92208747|NCT03386110|184317651|SUPERIORITY||Risk Ratio, log|0.48||||0.15|TWO_SIDED|95.0|-0.18|1.44|||Mixed Models Analysis|Model testing whether condition predicted marijuana use at 3-months||Multi-level models tested whether treatment condition predicted outcome at 3-months, and controlled for the nesting of participants within couples.||1.44|-0.18|0.15
92208748|NCT03386110|184317651|SUPERIORITY||Risk Ratio, log|0.24||||0.5|TWO_SIDED|95.0|-0.44|0.92|||Mixed Models Analysis|Model testing whether condition predicted marijuana use at 6-months||Multi-level models tested whether treatment condition predicted outcome at 6-months, and controlled for the nesting of participants within couples.||0.92|-0.44|0.50
92208749|NCT03386110|184317651|SUPERIORITY||Risk Ratio, log|-0.02||||0.91|TWO_SIDED|95.0|-0.34|0.31|||Mixed Models Analysis|Three-way interaction model testing whether baseline use moderated the effect of condition on marijuana use at 3-months||"Moderation analysis in 3-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||0.31|-0.34|0.910
92208750|NCT03386110|184317651|SUPERIORITY||Risk Ratio, log|0.34||||0.11|TWO_SIDED|95.0|-0.07|0.75|||Mixed Models Analysis|||"Moderation analysis in 6-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||0.75|-0.07|0.11
92208751|NCT00409773|184317659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-16.5|-9.8||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-9.8|-16.5|<0.001
92208752|NCT00409773|184317659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.2|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-13.6|-6.9||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-6.9|-13.6|<0.001
92208753|NCT00409773|184317659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-11.3|-4.6||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-4.6|-11.3|<0.001
92208754|NCT00409773|184317660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-9.6|-4.8|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-4.8|-9.6|<0.001
92208755|NCT00409773|184317660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-7.8|-2.9|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.9|-7.8|<0.001
92208756|NCT00409773|184317660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.4|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-6.8|-2.0|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.0|-6.8|<0.001
92208757|NCT00409773|184317661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.69||95.0|-5.4|3.3|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||3.3|-5.4|0.690
92327585|NCT00084318|184560315|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56||||0.001|TWO_SIDED|95.0|0.39|0.82|||Log Rank|Historical control data (RTOG-9501/NCT00002670): n=202, two-year survival rate of 64.7% (58.1% to 71.3%).|Reference arm = historical control|Two-year rates were estimated by the Kaplan-Meier method. RTOG 0234 results were compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) by 1-sided log-rank test. Hazard ratios were estimated by Cox model.||0.82|0.39|0.001
92208758|NCT00409773|184317661|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|2.8||||0.2||95.0|-1.6|7.1|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||7.1|-1.6|0.200
92208759|NCT00409773|184317661|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.4||||0.48||95.0|-4.7|3.9|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||3.9|-4.7|0.480
92208760|NCT00409773|184317662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.4|STANDARD_ERROR_OF_MEAN|1.3||0.013||95.0|0.7|6.0|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||6.0|0.7|0.013
92208761|NCT00409773|184317662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.3||0.378||95.0|-1.5|3.8|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||3.8|-1.5|0.378
92208762|NCT00409773|184317662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|1.3||0.003||95.0|1.3|6.6|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||6.6|1.3|0.003
92208763|NCT00409773|184317663|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.3|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-13.3|-7.3|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-7.3|-13.3|<0.001
92208764|NCT00409773|184317663|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-10.2|-4.3|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-4.3|-10.2|<0.001
92208765|NCT00409773|184317663|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-9.9|-3.9|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-3.9|-9.9|<0.001
92208766|NCT00409773|184317664|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.6||0.809||95.0|-5.7|4.5|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||4.5|-5.7|0.809
92208767|NCT00409773|184317664|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|2.6||0.217||95.0|-1.9|8.4|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||8.4|-1.9|0.217
92208768|NCT00409773|184317664|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|2.6||0.796||95.0|-5.8|4.4|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||4.4|-5.8|0.796
92208769|NCT00409773|184317665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.4|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-12.1|-6.6|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-6.6|-12.1|<0.001
92208770|NCT00409773|184317665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-8.1|-2.6|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.6|-8.1|<0.001
92208771|NCT00409773|184317665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-8.0|-2.5|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.5|-8.0|<0.001
92208772|NCT00409773|184317666|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|1.2||0.042||95.0|0.1|4.8|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||4.8|0.1|0.042
92208773|NCT00409773|184317666|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-0.2|4.5|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||4.5|-0.2|<0.001
92208774|NCT00409773|184317666|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-7.0|4.0|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||4.0|-7.0|<0.001
92208775|NCT00409773|184317667|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-11.6|-6.0|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-6.0|-11.6|<0.001
92208776|NCT00409773|184317667|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-8.2|-2.5|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.5|-8.2|<0.001
92208777|NCT00409773|184317667|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-8.7|-3.1|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-3.1|-8.7|<0.001
92208778|NCT00409773|184317668|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.0|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-17.6|-10.5|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-10.5|-17.6|<0.001
92208779|NCT00409773|184317668|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.7|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-13.2|-6.1|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-6.1|-13.2|<0.001
92208780|NCT00409773|184317668|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.5|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-12.0|-4.9|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-4.9|-12.0|<0.001
92208781|NCT00409773|184317669|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-14.0|-8.0|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-8.0|-14.0|<0.001
92208782|NCT00409773|184317669|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-9.4|-3.3|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-3.3|-9.4|<0.001
92208783|NCT00409773|184317669|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-8.7|-2.7|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.7|-8.7|<0.001
92208784|NCT00409773|184317670|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.5|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-15.0|-8.1|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-8.1|-15.0|<0.001
92208785|NCT00409773|184317670|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-10.4|-3.6|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-3.6|-10.4|<0.001
92208786|NCT00409773|184317670|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.7|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-11.2|-4.3|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-4.3|-11.2|<0.001
92208787|NCT00409773|184317673|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-2.9||||0.42||95.0|-11.0|5.0|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||5.0|-11.0|0.420
92208788|NCT00409773|184317673|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.9||||0.555||95.0|-9.5|7.2|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||7.2|-9.5|0.555
92208789|NCT00409773|184317673|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|2.3||||0.41||95.0|-5.1|9.6|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||9.6|-5.1|0.410
92208790|NCT01919814|184317682|SUPERIORITY||||||>|0.05||||||Threshold P-Value was 0.05|t-test, 2 sided|||||||>0.05
92208791|NCT02164383|184317685|SUPERIORITY||Mean Difference (Final Values)|1.82||||0.85|TWO_SIDED||||||ANOVA||ANOVA results: F(1,28)=.04, p=.85, partial eta-squared (as a measure of effect size) = .001|||||.85
92208792|NCT03057977|184317705|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.75|||<|0.0001|TWO_SIDED|95.04|0.65|0.86|||Regression, Cox||Comparison vs. Placebo \[T/P\]|"Model with terms for age, baseline eGFR (CKD-EPK)cr, region, baseline diabetes status, sex, baseline LVEF, and treatment.~alpha = 0.0496 (resulting from interim analysis) eGFR (CKP-EPI)cr: Glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement LVEF: Left ventricular ejection fraction."||0.86|0.65|<0.0001
92208793|NCT03057977|184317706|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.7||||0.0003|TWO_SIDED|95.04|0.58|0.85|||Joint frailty model||HR vs placebo of recurrent HFF|"Model accounts for dependence between recurrent HHF and cardiovascular death, with terms for age, baseline eGFR (CKD-EPK)cr, region, baseline diabetes status, sex, baseline LVEF, and treatment.~eGFR (CKP-EPI)cr: Glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement LVEF: Left ventricular ejection fraction."||0.85|0.58|0.0003
92268724|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.86||||||95.0|0.69|1.08||||||For serotype 18C after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.08|0.69|
92268725|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.95||||||95.0|0.78|1.15||||||For serotype 18C after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.15|0.78|
92208794|NCT03057977|184317707|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Treatment by time interaction|1.733|||<|0.0001|TWO_SIDED|99.9|0.669|2.796|||Random intercept random coef. model||Empa vs Placebo slope \[/year\]|"Random coefficient model allowing for random intercept and random slope per patient, with the same factors used for the primary endpoint (age, baseline eGFR (CKD-EPK)cr, region, baseline diabetes status, sex, baseline LVEF, and treatment) and additional factors time, treatment-by-time interaction, and baseline eGFR (CKD-EPI)cr-by-time interaction. Only on-treatment data from treated patients were used.~alpha=0.001"||2.796|0.669|<0.0001
92208795|NCT03057977|184317708|OTHER||Hazard Ratio (HR)|0.5||||0.0019|TWO_SIDED|95.0|0.32|0.77|||Regression, Cox|Cox regression model with terms for age, baseline eGFR (CKD-EPK)cr, region, baseline diabetes status, sex, baseline LVEF, and treatment.|Comparison vs. Placebo|||0.77|0.32|0.0019
92208796|NCT03057977|184317709|OTHER||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.59|0.81|||Regression, Cox|Cox regression model with terms for age, baseline eGFR (CKD-EPK)cr, region, baseline diabetes status, sex, baseline LVEF, and treatment.|Comparison vs Placebo|||0.81|0.59|<0.0001
92208797|NCT03057977|184317710|OTHER||Hazard Ratio (HR)|0.92||||0.4133|TWO_SIDED|95.0|0.75|1.12|||Regression, Cox|Model with terms for age, baseline eGFR (CKD-EPI), region, baseline diabetes status, sex, baseline LVEF and treatment.|Comparison vs. Placebo|||1.12|0.75|0.4133
92208798|NCT03057977|184317711|OTHER||Hazard Ratio (HR)|0.92||||0.3536|TWO_SIDED|95.0|0.77|1.1|||Regression, Cox|Cox regression model with terms for age, baseline eGFR (CKD-EPI), region, baseline diabetes status, sex, baseline LVEF and treatment.|Comparison vs. placebo|||1.10|0.77|0.3536
92208799|NCT03057977|184317712|OTHER||Hazard Ratio (HR)|0.86||||0.3576|TWO_SIDED|95.0|0.62|1.19|||Regression, Cox|Cox regression model with terms for age, baseline eGFR (CDK-EPI), region, sex, baseline LVEF and treatment.|Comparison vs. placebo|||1.19|0.62|0.3576
92208800|NCT03057977|184317713|OTHER||Difference of adjusted means|2.06|STANDARD_ERROR_OF_MEAN|0.97||0.034|TWO_SIDED|95.0|0.16|3.96|||Mixed Model|Mixed model for repeated measures (MMRM)|Comparison vs. placebo|Mixed model with age, baseline eGFR (CKD-EPI) as linear covariate(s) and region, baseline diabetes status, sex, baseline LVEF, week reachable, treatment by visit interaction, baseline KCCQ - Clinical Summary Score by Visit interaction as fixed effects. An unstructured covariance structure has been used.||3.96|0.16|0.0340
92208801|NCT03057977|184317714|OTHER||Hazard Ratio (HR)|0.85||||0.0065|TWO_SIDED|95.0|0.75|0.95|||Joint frailty model||Comparison vs. placebo|Joint frailty model with terms for age, baseline eGFR (CDK-EPI), region, sex, baseline diabetes status and baseline LVEF. Model accounts for dependence between recurrent all-cause hospitalizations and all-cause mortality.||0.95|0.75|0.0065
92208802|NCT01350336|184317720|NON_INFERIORITY|An upper 95% confidence limit of the difference between Year 2 compared to the first 12-month proportion is less than 20% will demonstrate that the proportions are not substantially worse during each of the subsequent evaluation periods.|Difference of proportions|-0.038|||||TWO_SIDED|95.0|-0.1251|0.0497||||||Comparison of Years 1 and 2||0.0497|-0.1251|
92327586|NCT00084318|184560319|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.66|TWO_SIDED|95.0|0.63|1.76|||Gray's test|Historical control data (RTOG-9501/NCT00002670): n=202, two-year failure rate of 19.9% (12.2% to 27.5%)|Reference arm = historical control|Two-year failure rates were estimated by the cumulative incidence method. RTOG 0234 results were compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) by 1-sided Gray's test. Hazard ratios were estimated by Cox model. \[RTOG = Radiation Therapy Oncology Group\]||1.76|0.63|0.66
92327587|NCT00084318|184560319|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.86|TWO_SIDED|95.0|0.72|1.87|||Gray's test|Historical control data (RTOG-9501/NCT00002670): n=202, two-year failure rate of 19.9% (12.2% to 27.5%)|Reference arm = historical control|Two-year failure rates were estimated by the cumulative incidence method. RTOG 0234 results were compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) by 1-sided Gray's test. Hazard ratios were estimated by Cox model.||1.87|0.72|0.86
92208803|NCT01350336|184317720|NON_INFERIORITY|An upper 95% confidence limit of the difference between Year 3 compared to the first 12-month proportion is less than 20% will demonstrate that the proportions are not substantially worse during each of the subsequent evaluation periods.|Difference of proportions|-0.0325|||||TWO_SIDED|95.0|-0.1197|0.0565||||||Comparison of Years 1 and 3||0.0565|-0.1197|
92208804|NCT01350336|184317720|NON_INFERIORITY|An upper 95% confidence limit of the difference between Year 4 compared to the first 12-month proportion is less than 20% will demonstrate that the proportions are not substantially worse during each of the subsequent evaluation periods.|Difference of proportions|-0.0566|||||TWO_SIDED|95.0|-0.1444|0.0329||||||Comparison of Years 1 and 4||0.0329|-0.1444|
92208805|NCT01350336|184317720|NON_INFERIORITY|An upper 95% confidence limit of the difference between Year 5 compared to the first 12-month proportion is less than 20% will demonstrate that the proportions are not substantially worse during each of the subsequent evaluation periods.|Difference of proportions|-0.0765|||||TWO_SIDED|95.0|-0.1661|0.013||||||Comparison of Years 1 and 5||0.0130|-0.1661|
92208806|NCT02795429|184317737|SUPERIORITY||Odds Ratio (OR)|0.561|||||||||||Bayesian Logistic Regression Model||Posterior probability that the odds ratio (ORRspartalizumab +capmatinib to ORRspartalizumab) was ≥ 1|||||
92208807|NCT03907410|184317806|SUPERIORITY||Mean Difference (Final Values)|15.0|||||TWO_SIDED|95.0|2.0|28.0||||||Multivariate comparison of Experiment phase adherence (Months 1-3) comparing Arm 1 (Full Intervention arm) to Arm 3 (Active control). Arm 3 is used as the reference. This randomized controlled trial was powered for Arm 1 vs. Arm 3 comparisons, hence the Arm 1 vs. Arm 3 outcome data for adherence to the inhaled corticosteroid regime. The study did not have sufficient power for Arm 2 comparisons.||28|2|
92327588|NCT02921750|184560322|NON_INFERIORITY|In this non-inferiority study the primary efficacy analysis included constructing a two sided 95% confidence interval, using Fisher's non-parametric permutation test, for between-treatment differences (Exufiber - Aquacel Extra) in the mean percentage area change from baseline to 6 weeks. This means that if the lower limit of this confidence interval was found to be greater than 12%, non-inferiority will be established.|Mean Difference (Final Values)|-29.4||||0.093|TWO_SIDED|95.0|-63.5|3.2|||Fisher Exact|||||3.2|-63.5|0.093
92208808|NCT03907410|184317806|SUPERIORITY||Mean Difference (Final Values)|-6.0|||||TWO_SIDED|95.0|-20.0|7.0||||||Multivariate comparison of Observation phase adherence (Months 4-6) comparing Arm 1 (Full Intervention arm) to Arm 3 (Active control). Arm 3 is used as the reference. This randomized controlled trial was powered for Arm 1 vs. Arm 3 comparisons, hence the Arm 1 vs. Arm 3 outcome data for adherence to the inhaled corticosteroid regime. The study did not have sufficient power for Arm 2 comparisons.||7|-20|
92208809|NCT04776148|184317811|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by presence of liver metastasis (Yes/No).|Hazard Ratio (HR)|0.69||||0.0003|TWO_SIDED|95.0|0.56|0.85||One-sided p-value based on log-rank test stratified by presence of liver metastasis|Log Rank|||||0.85|0.56|0.0003
92208810|NCT04776148|184317812|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.15||||0.7421|TWO_SIDED|85.0|0.75|1.77||One-sided p-value based on log-rank test.|Log Rank|||||1.77|0.75|0.7421
92208811|NCT04776148|184317813|OTHER||Difference in Percentage vs. SOC|8.7|||<|0.0001|TWO_SIDED|95.0|4.7|13.5|||Chi-squared||Based on Miettinen \& Nurminen method stratified by presence of liver metastasis|||13.5|4.7|<0.0001
92208812|NCT04776148|184317814|OTHER||Difference in Percentage vs. SOC|3.3||||0.2456|TWO_SIDED|95.0|-7.7|14.3|||Chi-squared||Based on Miettinen \& Nurminen method.|||14.3|-7.7|0.2456
92208813|NCT04776148|184317821|OTHER||Difference in least squares means|2.71||||0.1553|TWO_SIDED|95.0|-1.03|6.46||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction and stratification factor presence of liver metastasis (Yes/No).|cLDA model|||||6.46|-1.03|0.1553
92208814|NCT04776148|184317822|OTHER||Difference in LS means|1.16||||0.4967|TWO_SIDED|95.0|-2.19|4.51||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction and stratification factor presence of liver metastasis (Yes/No).|cLDA model|||||4.51|-2.19|0.4967
92208815|NCT04776148|184317823|OTHER||Difference in LS means|3.36||||0.2271|TWO_SIDED|95.0|-2.1|8.82||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction and stratification factor presence of liver metastasis (Yes/No).|cLDA model|||||8.82|-2.10|0.2271
92208816|NCT04776148|184317824|OTHER||Difference in LS means|-5.46||||0.0264|TWO_SIDED|95.0|-10.27|-0.65||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction and stratification factor presence of liver metastasis (Yes/No).|cLDA model|||||-0.65|-10.27|0.0264
92208817|NCT04776148|184317825|OTHER||Hazard Ratio (HR)|0.91||||0.4338|TWO_SIDED|95.0|0.73|1.14|||Regression, Cox|Two-sided p-value based on log-rank test stratified by presence of liver metastasis (Yes/No).||||1.14|0.73|0.4338
92208818|NCT04776148|184317826|OTHER||Hazard Ratio (HR)|1.1||||0.4316|TWO_SIDED|95.0|0.87|1.38||Two-sided p-value based on log-rank test stratified by presence of liver metastasis (Yes/No).|Regression, Cox|||||1.38|0.87|0.4316
92208819|NCT04776148|184317827|OTHER||Hazard Ratio (HR)|1.06||||0.5587|TWO_SIDED|95.0|0.85|1.32|||Regression, Cox|Two-sided p-value based on log-rank test stratified by presence of liver metastasis (Yes/No).||||1.32|0.85|0.5587
92208820|NCT04776148|184317828|OTHER||Hazard Ratio (HR)|0.95||||0.6794|TWO_SIDED|95.0|0.73|1.23||Two-sided p-value based on log-rank test stratified by presence of liver metastasis (Yes/No).|Regression, Cox|||||1.23|0.73|0.6794
92208821|NCT04776148|184317829|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0379|TWO_SIDED|95.0|0.68|1.02|||Log Rank|One-sided p-value based on log-rank test stratified by presence of liver metastasis (Yes/No).|HR=Lenvatinib + pembrolizumab vs. SOC treatment|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by presence of liver metastasis (Yes/No).||1.02|0.68|0.0379
92208822|NCT04776148|184317830|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.3574|TWO_SIDED|95.0|0.6|1.42|||Log Rank|One-sided p-value based on log-rank test.|HR=Lenvatinib + pembrolizumab vs. SOC treatment|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.||1.42|0.60|0.3574
92208823|NCT00757588|184317833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.089|<|0.0001|TWO_SIDED|95.0|-0.59|-0.24||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment + metformin use|||-0.24|-0.59|<0.0001
92208824|NCT00757588|184317834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3829.8|STANDARD_ERROR_OF_MEAN|1165.99||0.0011|TWO_SIDED|95.0|-6122.4|-1537.1||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment + metformin use|||-1537.1|-6122.4|0.0011
92208825|NCT00757588|184317835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.0|STANDARD_ERROR_OF_MEAN|7.24||0.0016|TWO_SIDED|95.0|-37.2|-8.7||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment + metformin use|||-8.7|-37.2|0.0016
92208826|NCT00757588|184317836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.02|STANDARD_ERROR_OF_MEAN|4.732||0.3958|TWO_SIDED|95.0|-13.32|5.28||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment + metformin use|||5.28|-13.32|0.3958
92208827|NCT00757588|184317838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|95.0|-5.6|-1.1||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment + metformin use|||-1.1|-5.6|
92208828|NCT00701220|184317857|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||ANOVA|||The data were analyzed using analysis of variance for repeated measures with two groups. The repeated measure was the proportion of circulating blood cells that were positive for aldehyde dehydrogenase using the commercially available Aldofluor assay. The two groups were those with ischemic and non-ischemic cardiomyopathy. This analysis permitted both intergroup and intragroup analysis of the change in aldehyde dehydrogenase positive cells.||||<0.05
92208829|NCT02700945|184317858|SUPERIORITY|The 12-month Kaplan-Meier estimate will be reported for each arm. The hazard ratio estimate for the treatment effect with its 95% confidence interval will be reported.|Hazard Ratio (HR)|7.4|||<|0.001|TWO_SIDED|95.0|2.6|21.3||A priori threshold is .05|Log Rank||A hazard ratio of \> 1 indicates that continuous monitoring arm is superior to control arm in detecting AF.|H0: h(t) = hT(t) for t ≤ 12 months HA: hC(t) ≠ hT(t) for t ≤ 12 months where hT(t) and hC(t) are the hazard functions of first detected and adjudicated AF at time t for subjects with and without the Reveal LINQ diagnostics for AF, respectively. Hazard functions and survival functions are transformations of each other.||21.3|2.6|<0.001
92208830|NCT04018092|184317860|SUPERIORITY|||||||0.573||||||Only 2 values, thus not necessary to adjust.|Regression, Linear|The independent variable = intervention (active, sham); Covariates=baseline scores, site (Florida, Arizona), age (yrs), sex (m,f), and education (yrs)||linear regression was used to analyze pre-post intervention changes in the active vs sham group. Covariates in regression were baseline cognitive performance, site (University of Florida, University of Arizona), age (yrs), sex (F, M) and education (years)||||0.573
92208831|NCT04018092|184317861|SUPERIORITY|||||||0.043||||||Default Mode Network Analysis: Regression was performed using permutation tests with 5000 iterations for significance and to address multiple comparisons.|Regression, Linear|Covariates: Baseline network segregation values, Age, Sex, Education years, study site Baseline white matter hyperintensity volume. DOF = (1, 135)||||||0.043
92208832|NCT04018092|184317861|SUPERIORITY|||||||0.285||||||Frontoparietal Control Network Analysis: Regression was performed using permutation tests with 5000 iterations for significance and to address multiple comparisons.|Regression, Linear|Covariates: Baseline network segregation values, age, sex, education years, study site and baseline white matter hyperintensity volume. DOF = (1, 135)||||||0.285
92208833|NCT01205152|184317864|OTHER|||||||0.002||||||Two-sided with p-value threshold \<0.05 for statistical significance.|Wilcoxon signed-rank test|||Change is relative to Baseline in Study ENB-002-08 (NCT00744042). The RGI-C score represents evaluation of skeletal X-rays at each post-treatment study timepoint compared with pre-treatment X-rays from Study ENB-002-08 using an ordinal scale. Therefore, an RGI-C score is not applicable for radiographs obtained at Baseline.||||0.0020
92208834|NCT00069108|184317870|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin (1.30) was compared with the upper limit of the 95% confidence interval (CI) of the hazard ratio (HR, XELOX vs FOLFOX-4) in the population|Hazard Ratio (HR)|1.03||||0.00584|TWO_SIDED|95.0|0.87|1.24|||Chi-squared||The pre-specified non-inferiority margin (1.30) was compared with the upper limit of the 95% confidence interval (CI) of the hazard ratio (HR, XELOX vs FOLFOX-4) in the population|||1.24|0.87|0.00584
92208835|NCT00069108|184317871|NON_INFERIORITY_OR_EQUIVALENCE|While the study was not designed to demonstrate non-inferiority in PFS based on IRC assessments the pre-specified margin (1.30) was compared with the upper limit of the 95% confidence interval (CI) of the hazard ratio (HR, XELOX vs FOLFOX-4) in the population.|Hazard Ratio (HR)|0.93||||0.00223|TWO_SIDED|95.0|0.74|1.17|||Chi-squared||The pre-specified non-inferiority margin (1.30) was compared with the upper limit of the 95% confidence interval (CI) of the hazard ratio (HR, XELOX vs FOLFOX-4) in the population|||1.17|0.74|0.00223
92208836|NCT00069108|184317872|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.91|1.37||||||||1.37|0.91|
92208837|NCT00069108|184317873|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.95|1.47||||||||1.47|0.95|
92208838|NCT00069108|184317874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.4028|TWO_SIDED|95.0|0.79|1.77||p-value is for difference between response rates.|Chi-squared|||||1.77|0.79|0.4028
92208839|NCT00069108|184317875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.2911|TWO_SIDED|95.0|0.81|2.01||p-value is for difference between response rates.|Chi-squared|||||2.01|0.81|0.2911
92208840|NCT00069108|184317876|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin (1.30) was compared with the upper limit of the 95% CI of the hazard ratio (HR, XELOX vs FOLFOX-4) in the population.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.87|1.23||||||||1.23|0.87|
92208841|NCT00069108|184317878|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.79|1.68||||||||1.68|0.79|
92208842|NCT00069108|184317879|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.81|1.12||||||||1.12|0.81|
92208843|NCT02783768|184317881|OTHER|Testing for difference in the outcome measure according to the exposure (which was not a treatment) in a randomized crossover setting.|Mean Difference (Net)|13.98||||0.012|TWO_SIDED|95.0|4.012|23.94|||Mixed Models Analysis||Measurements were included for participants with at least one valid MRI measurement.|"Within-person effects of e-cigarette exposure on pulmonary microvascular blood flow (PMBF) was assessed via mixed models accounting for order effects.~Null hypothesis: e-cigarette exposure is NOT associated with a change in PMBF.~Alternative hypothesis: e-cigarette exposure IS associated with a change in PMBF.~Power calculation: not applicable since this was a pilot/feasibility study."||23.94|4.012|0.012
92208844|NCT03881553|184317924|OTHER|Non-parametric Friedmans||||||0.081||||||χ2 =5.03|Friedman's|||||||0.081
92208845|NCT03881553|184317924|OTHER|Post hoc: Wilcoxon||||||0.05||||||ON1 compared to OFF1|Wilcoxon (Mann-Whitney)|||||||0.05
92208846|NCT03881553|184317924|OTHER|Post Hoc Wilcoxon||||||0.021||||||ON1 compared to OFF2|Wilcoxon (Mann-Whitney)|||||||0.021
92208847|NCT01718353|184317929|OTHER|||||||0.02|||||||ANOVA|||%ARNL change from baseline at Cycle 1 Day 8 in participants with ≥50% decrease in PSA at Cycle 4 was compared with that of participants who did not have ≥50% decrease in PSA at Cycle 4||||0.02
92208848|NCT01718353|184317937|OTHER|||||||0.0927|||||||ANOVA|||MTB change from baseline at Cycle 1 Day 8 in participants with ≥30% decrease in PSA at Cycle 4 was compared with that of participants who did not have ≥30% decrease in PSA at Cycle 4||||0.0927
92208849|NCT01959516|184317938|SUPERIORITY_OR_OTHER|||||||0.025|||||||Mixed Models Analysis|||||||0.0250
92208850|NCT01959516|184317939|SUPERIORITY_OR_OTHER|||||||0.1439|||||||Mixed Models Analysis|||||||0.1439
92268726|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|1.26||||||95.0|1.0|1.59||||||For serotype 19F after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.59|1.00|
92268727|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.91||||||95.0|0.68|1.2||||||For serotype 19F after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.20|0.68|
92208851|NCT01191268|184317953|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% Confidence Interval (CI) of 1.5 mg LY2189265 versus Insulin Glargine was below 0.4%, 1.5 mg LY2189265 was declared non-inferior to Insulin Glargine.|LS Mean Difference|-0.22|||<|0.001|TWO_SIDED|95.0|-0.38|-0.07||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||The study was designed to enroll 837 randomized participants (279 per treatment arm) with 90% power to detect non-inferiority of 1.5 mg LY2189265 versus Insulin Glargine on HbA1c change from baseline at the 26-week primary endpoint with a margin of 0.4%, a standard deviation of 1.3%, and a 1-sided alpha of 0.025 assuming no true difference between treatments. This corresponds to 248 participants per arm, with an assumed drop-out rate of 11%.||-0.07|-0.38|<0.001
92208852|NCT01191268|184317953|NON_INFERIORITY_OR_EQUIVALENCE|If the 1-sided adjusted p-value was below 0.025, then 0.75 mg LY2189265 was declared non-inferior to Insulin Glargine.|LS Mean Difference|-0.17|||<|0.001|TWO_SIDED|95.0|-0.33|-0.02||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||||-0.02|-0.33|<0.001
92208853|NCT01191268|184317953|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22||||0.005|TWO_SIDED|95.0|-0.38|-0.07||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||Superiority analysis.||-0.07|-0.38|0.005
92208854|NCT01191268|184317953|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17||||0.015|TWO_SIDED|95.0|-0.33|-0.02||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||Superiority analysis.||-0.02|-0.33|0.015
92208855|NCT01191268|184317954|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% Confidence Interval (CI) of 1.5 mg LY2189265 versus Insulin Glargine was below 0.4%, 1.5 mg LY2189265 was declared non-inferior to Insulin Glargine.|LS Mean Difference|-0.25|||<|0.001|TWO_SIDED|95.0|-0.42|-0.07||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||||-0.07|-0.42|<0.001
92208856|NCT01191268|184317954|NON_INFERIORITY_OR_EQUIVALENCE|If the 1-sided adjusted p-value was below 0.025, then 0.75 mg LY2189265 was declared non-inferior to Insulin Glargine.|LS Mean Difference|-0.19|||<|0.001|TWO_SIDED|95.0|-0.37|-0.02||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||||-0.02|-0.37|<0.001
92208857|NCT01191268|184317954|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25||||0.005|TWO_SIDED|95.0|-0.42|-0.07||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||Superiority analysis.||-0.07|-0.42|0.005
92208858|NCT01191268|184317954|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.014|TWO_SIDED|95.0|-0.37|-0.02||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||Superiority analysis.||-0.02|-0.37|0.014
92208859|NCT01191268|184317955|SUPERIORITY_OR_OTHER|||||||0.014||||||Treatment comparison for HbA1c less than 7.0% at 26 weeks.|Regression, Logistic|||||||0.014
92208860|NCT01191268|184317955|SUPERIORITY_OR_OTHER|||||||0.01||||||Treatment comparison for HbA1c less than 7.0% at 26 weeks.|Regression, Logistic|||||||0.010
92208861|NCT01191268|184317955|SUPERIORITY_OR_OTHER|||||||0.027||||||Treatment comparison for HbA1c less than or equal to 6.5% at 26 weeks.|Regression, Logistic|||||||0.027
92208862|NCT01191268|184317955|SUPERIORITY_OR_OTHER|||||||0.384||||||Treatment comparison for HbA1c less than or equal to 6.5% at 26 weeks.|Regression, Logistic|||||||0.384
92208863|NCT01191268|184317955|SUPERIORITY_OR_OTHER||||||<|0.05||||||Treatment comparison for HbA1c less than 7% at 52 weeks.|Regression, Logistic|||||||<0.05
92208864|NCT01191268|184317955|SUPERIORITY_OR_OTHER|||||||0.25||||||Treatment comparison for HbA1c less than 7% at 52 weeks.|Regression, Logistic|||||||0.250
92327589|NCT04676412|184560334|OTHER|Percent difference and 95% CI were calculated using Miettinen and Nurminen method with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 status (1-49% versus ≥50%).|Difference in percentage|-8.4||||0.79262|TWO_SIDED|95.0|-27.4|11.9|||Stratified Miettinen and Nurminen|One-sided p-value for testing. H0: difference in percentage =0 versus H1: difference in percentage \> 0||||11.9|-27.4|0.79262
92208865|NCT01191268|184317955|SUPERIORITY_OR_OTHER|||||||0.272||||||Treatment comparison for HbA1c less than or equal to 6.5% at 52 weeks.|Regression, Logistic|||||||0.272
92208866|NCT01191268|184317955|SUPERIORITY_OR_OTHER|||||||0.623||||||Treatment comparison for HbA1c less than or equal to 6.5% at 52 weeks.|Regression, Logistic|||||||0.623
92208867|NCT01191268|184317956|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 26 weeks.|Regression, Logistic|||||||<0.001
92208868|NCT01191268|184317956|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 26 weeks.|Regression, Logistic|||||||<0.001
92208869|NCT01191268|184317956|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 52 weeks.|Regression, Logistic|||||||<0.001
92208870|NCT01191268|184317956|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 52 weeks.|Regression, Logistic|||||||<0.001
92208871|NCT01191268|184317957|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.628|TWO_SIDED|95.0|-0.35|0.21||Treatment comparison of Daily Mean values at 26 weeks.|Mixed Models Analysis|||||0.21|-0.35|0.628
92208872|NCT01191268|184317957|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.368|TWO_SIDED|95.0|-0.15|0.41||Treatment comparison of Daily Mean values at 26 weeks.|Mixed Models Analysis|||||0.41|-0.15|0.368
92208873|NCT01191268|184317957|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.37|TWO_SIDED|95.0|-0.16|0.42||Treatment comparison of Daily Mean values at 52 weeks.|Mixed Models Analysis|||||0.42|-0.16|0.370
92208874|NCT01191268|184317957|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.879|TWO_SIDED|95.0|-0.26|0.3||Treatment comparison of Daily Mean values at 52 weeks.|Mixed Models Analysis|||||0.30|-0.26|0.879
92208875|NCT01191268|184317958|SUPERIORITY_OR_OTHER||LS Mean Difference|1.31|||<|0.001|TWO_SIDED|95.0|0.83|1.79||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||1.79|0.83|<0.001
92208876|NCT01191268|184317958|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8|||<|0.001|TWO_SIDED|95.0|1.32|2.28||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||2.28|1.32|<0.001
92208877|NCT01191268|184317958|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|||<|0.001|TWO_SIDED|95.0|0.55|1.64||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||1.64|0.55|<0.001
92208878|NCT01191268|184317958|SUPERIORITY_OR_OTHER||LS Mean Difference|1.42|||<|0.001|TWO_SIDED|95.0|0.88|1.96||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||1.96|0.88|<0.001
92208879|NCT01191268|184317960|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2|||<|0.001|TWO_SIDED|95.0|-3.81|-2.59||Treatment comparison at 26 weeks.|ANCOVA|||||-2.59|-3.81|<0.001
92208880|NCT01191268|184317960|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.15|||<|0.001|TWO_SIDED|95.0|-2.76|-1.54||Treatment comparison at 26 weeks.|ANCOVA|||||-1.54|-2.76|<0.001
92208881|NCT01191268|184317960|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.23|||<|0.001|TWO_SIDED|95.0|-3.99|-2.48||Treatment comparison at 52 weeks.|ANCOVA|||||-2.48|-3.99|<0.001
92208882|NCT01191268|184317960|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.03|||<|0.001|TWO_SIDED|95.0|-2.78|-1.27||Treatment comparison at 52 weeks.|ANCOVA|||||-1.27|-2.78|<0.001
92208883|NCT01191268|184317962|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.2|||<|0.001|TWO_SIDED|95.0|-1.44|-0.96||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||-0.96|-1.44|<0.001
92208884|NCT01191268|184317962|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.79|||<|0.001|TWO_SIDED|95.0|-1.03|-0.55||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||-0.55|-1.03|<0.001
92208885|NCT01191268|184317962|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.24|||<|0.001|TWO_SIDED|95.0|-1.55|-0.94||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||-0.94|-1.55|<0.001
92208886|NCT01191268|184317962|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.76|||<|0.001|TWO_SIDED|95.0|-1.06|-0.46||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||-0.46|-1.06|<0.001
92208887|NCT01313689|184317989|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.2677|TWO_SIDED|95.0|0.5|1.24|||Log Rank|P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum|||1.24|0.50|0.2677
92208888|NCT01313689|184317989|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54||||0.0837|TWO_SIDED|95.0|0.19|1.53|||Log Rank|P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum|||1.53|0.19|0.0837
92208889|NCT01313689|184317990|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56||||0.003|TWO_SIDED|95.0|0.35|0.87|||Log Rank|P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum.|||0.87|0.35|0.0030
92208890|NCT01313689|184317990|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49||||0.0262|TWO_SIDED|95.0|0.21|1.17|||Log Rank|P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum|||1.17|0.21|0.0262
92208891|NCT01313689|184317991|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.942||||0.0223|TWO_SIDED|95.0|1.166|7.424|||Regression, Logistic|conditional logistic regression with interval and pooled stratum||||7.424|1.166|0.0223
92208892|NCT01313689|184317991|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|999.999||||0.9985|TWO_SIDED|95.0|0.001|999.999|||Regression, Logistic|conditional logistic regression with interval and pooled stratum||||999.999|0.001|0.9985
92208893|NCT01313689|184317992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.366||||0.4159|TWO_SIDED|95.0|0.644|2.899||Odds ratios and p-value are based on conditional logistic regression with interval and pooled stratum included in the Strata statement|Regression, Logistic|||||2.899|0.644|0.4159
92208894|NCT01313689|184317992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.225||||0.8866|TWO_SIDED|95.0|0.076|19.862||Odds ratios and p-value are based on conditional logistic regression with interval and pooled stratum in the strata statement|Regression, Logistic|||||19.862|0.076|0.8866
92208895|NCT01313689|184317993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.1732|TWO_SIDED|95.0|0.48|1.17|||Log Rank|P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum|||1.17|0.48|0.1732
92208896|NCT01313689|184317993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.8128|TWO_SIDED|95.0|0.46|2.68||P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Log Rank||Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum|||2.68|0.46|0.8128
92208897|NCT01337115|184318045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.44|STANDARD_ERROR_OF_MEAN|8.4||0.001|TWO_SIDED|95.0|11.55|45.34|||t-test, 2 sided|||Difference between mean VAS pain scores. Power 80%. Null hypothesis states there is no difference between pains scores in both groups||45.34|11.55|0.001
92208898|NCT01337115|184318046|SUPERIORITY_OR_OTHER|||||||0.537||||||The null hypothesis is that there is no difference in patient satisfaction distribution by the three categories used (Bad; Reasonable; Good/Very Good) between groups.|Fisher's exact test|Fisher's Exact test allows to test for the significance of the distribution in the results table with three categories.||||||0.537
92208899|NCT01337115|184318047|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|16.92|STANDARD_ERROR_OF_MEAN|5.67||0.006|TWO_SIDED|95.0|5.52|28.33|||t-test, 2 sided|||Null hypothesis states that there is no difference between groups. Power 80%||28.33|5.52|0.006
92208900|NCT01337115|184318048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.55|STANDARD_ERROR_OF_MEAN|7.14||0.723|TWO_SIDED|95.0|-16.93|11.83|||t-test, 2 sided|||Null hypothesis states there is no difference between both groups. Power 80% to detect 15% difference in means||11.83|-16.93|0.723
92208901|NCT02697292|184318049|SUPERIORITY||Odds Ratio (OR)|10.5||||0.044|TWO_SIDED|95.0|1.1|98.9|||t-test, 1 sided|||||98.9|1.1|0.044
92208902|NCT02697292|184318050|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.100
92208903|NCT03426267|184318051|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92208904|NCT03426267|184318052|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
92208905|NCT01043393|184318110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.779|||||TWO_SIDED|95.0|0.055|11.126||||||||11.126|0.055|
92208906|NCT01551212|184318169|SUPERIORITY||Mean Difference (Final Values)|4.09||||0.097|TWO_SIDED|95.0|-0.74|8.91|||ANCOVA|factors: treatment, center, HCV-Class (positive, negative) and lab MELD (≤ 30 vs \> 30) covariate: baseline value||||8.91|-0.74|0.097
92208907|NCT01551212|184318170|SUPERIORITY||Mean Difference (Final Values)|7.99||||0.0085|TWO_SIDED|95.0|2.06|13.92|||ANCOVA|factors: treatment, center, HCV-Class (positive, negative) and lab MELD (≤ 30 vs \> 30) covariate: baseline value||||13.92|2.06|0.0085
92208908|NCT01551212|184318171|SUPERIORITY|||||||0.699|||||||Fisher Exact|||||||0.699
92208909|NCT00705523|184318176|SUPERIORITY_OR_OTHER|||||||0.1|||||||Regression, Logistic|beta=-0.67, exp(beta)=0.51, chi-squared(1) = 0.2.71||Self-reported drinking results, as gathered by the TLFB, were compared by the generalized estimating equations (GEE) (Diggle et al., 1994), using Poisson models for counts of drinking and heavy drinking days, and logistic regression models for absence/presence binary indicators of drinking. In the GEE model, the pre-treatment of the response was included as a covariate, together with the treatment group indicator, and a linear time effect.||||0.10
92208910|NCT02673515|184318203|OTHER|||||||0.797|||||||t-test, 2 sided|||Comparison of changes from baseline to 4 weeks between groups was tested with student´s t-test or Mann Whitney-U-Test||||0.797
92208911|NCT01370590|184318216|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Ezetimibe/atorvastatin 10 mg/20 mg combination tablet was considered equivalent to co-administration of ezetimibe 10 mg and atorvastatin 20 mg, if the two-sided 97.5% expanded confidence intervals of the treatment difference in least squares means for percent change in LDL-C from baseline after 6 weeks of treatment (combination minus co-administration) was contained within -4% and 4% (equivalence margins).|Difference in Least-square Means|-0.2|||||TWO_SIDED|97.5|-1.7|3.3|||ANCOVA|||It was anticipated that 85% of the enrolled participants would be evaluable to achieve 95% power in order to establish equivalence between the Ezetimibe/Atorvastatin Fixed Dose Combination and the co-administration of Ezetimibe and Atorvastatin with respect to percent change from baseline in LDL-C after 6 weeks of treatment using two one-sided tests each at 2.5% α-level, assuming the underlying true treatment difference is ±1.4% and that the standard deviation of the difference is 12.8%.||3.3|-1.7|
92208912|NCT01370590|184318217|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-square means|0.3|||||TWO_SIDED|97.5|-0.8|1.4|||ANCOVA|||||1.4|-0.8|
92208913|NCT01370590|184318218|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares mean|0.8|||||TWO_SIDED|97.5|-0.6|2.2|||ANCOVA|||||2.2|-0.6|
92208914|NCT01370590|184318219|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|0.0|||||TWO_SIDED|97.5|-1.3|1.4|||ANCOVA|||||1.4|-1.3|
92208915|NCT01370590|184318220|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|0.7|||||TWO_SIDED|97.5|-0.6|1.9|||ANCOVA|||||1.9|-0.6|
92208916|NCT01370590|184318221|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|1.6|||||TWO_SIDED|97.5|-3.2|6.3|||Constrained Longitudinal Data Analysis|||Analyses were based on log-transformed data.||6.3|-3.2|
92208917|NCT03992846|184318228|OTHER|The criterion for defining a subject as a responder over the last 28 days of randomized treatment up to Month 3 was a reduction of 1.10 or greater from baseline pain for Dysmenorrhea (DYS).|Odds Ratio (OR)|2.56|||<|0.001|TWO_SIDED|97.5|1.46|4.49|||Bonferroni-corrected p-value|||||4.49|1.46|<0.001
92208918|NCT03992846|184318228|OTHER|The criterion for defining a subject as a responder over the last 28 days of randomized treatment up to Month 3 was a reduction of 1.10 or greater from baseline pain for Dysmenorrhea (DYS).|Odds Ratio (OR)|8.8|||<|0.001|TWO_SIDED|97.5|4.86|15.91|||Bonferroni-corrected p-value|||||15.91|4.86|<0.001
92208919|NCT03992846|184318229|OTHER|The criterion for defining a subject as a responder over the last 28 days of randomized treatment up to Month 3 was a reduction of 0.80 or greater from baseline pain for Non-Menstrual Pelvic Pain (NMPP).|Odds Ratio (OR)|1.43||||0.279|TWO_SIDED|97.5|0.83|2.45|||Bonferroni-corrected p-value|||||2.45|0.83|0.279
92208920|NCT03992846|184318229|OTHER|The criterion for defining a subject as a responder over the last 28 days of randomized treatment up to Month 3 was a reduction of 0.80 or greater from baseline pain for Non-Menstrual Pelvic Pain (NMPP).|Odds Ratio (OR)|2.01||||0.007|TWO_SIDED|97.5|1.18|3.42|||Bonferroni-corrected p-value|||||3.42|1.18|0.007
92208921|NCT01440374|184318237|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.202||||0.0315|TWO_SIDED|95.0|0.047|0.868|||Generalized Linear Mixed Models|||||0.868|0.047|0.0315
92208922|NCT00876928|184318283|SUPERIORITY_OR_OTHER||Percent of patients developing diabetes|10.0||||0.61|TWO_SIDED|95.0|8.0|12.0||A chi square test was used for the number of participants developing diabetes and a 2-way repeated measures ANOVA for the disposition index|Chi-squared||Primary outcome compared the number of participants developing diabetes after receiving vitamin D or placebo for one year. Secondary outcome compared changes in 2-way repeated measures ANOVA; therefore,no confidence intervals/dispersion parameters|Null hypothesis is that there is no effect of vitamin D on the development of diabetes in people with pre-diabetes and hypovitaminosis D. There were no published data when this trial was started on the effect of vitamin D in pre-diabetes making a power calculation difficult.||12|8|0.61
92208923|NCT00876928|184318284|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||ANOVA|||The null hypothesis is that there would be no difference in the changes in the Disposition Index between the 2 groups over the year.||||0.39
92208924|NCT03645057|184318294|SUPERIORITY|||||||0.433|||||||Wilcoxon rank sum test|||||||0.433
92208925|NCT03645057|184318295|SUPERIORITY|||||||0.836|||||||Wilcoxon rank sum test|||||||0.836
92208926|NCT03645057|184318296|SUPERIORITY|||||||0.073|||||||Wilcoxon rank sum test|||||||0.073
92208927|NCT03645057|184318297|SUPERIORITY|||||||0.989|||||||Wilcoxon rank sum test|||||||0.989
92208928|NCT03645057|184318298|SUPERIORITY|||||||0.565|||||||Wilcoxon rank sum test|||||||0.565
92208929|NCT03645057|184318299|SUPERIORITY|||||||0.479|||||||Wilcoxon rank sum test|||||||0.479
92208930|NCT03645057|184318300|SUPERIORITY|||||||0.577|||||||Wilcoxon rank sum test|||||||0.577
92208931|NCT03645057|184318301|SUPERIORITY|||||||0.439|||||||Wilcoxon (Mann-Whitney)|||||||0.439
92208932|NCT03645057|184318302|SUPERIORITY|||||||0.242|||||||Wilcoxon rank sum test|||||||0.242
92208933|NCT01171807|184318323|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
92208934|NCT02563522|184318345|OTHER||Mean Difference (Final Values)|18.7||||0.3455|TWO_SIDED|95.0|-12.37|45.81|||Fisher Exact|No imputation was performed for subjects with missing response data||The statistical hypotheses were H0: Pt = Pc versus Ha: Pt ≠ Pc, where Pt and Pc are the proportions of subjects with a confirmed target would closure by the 4-month follow-up for Active (Engensis) and Control (Placebo) groups, respectively. The hypothesis testing was a two-sided alpha of 0.05||45.81|-12.37|0.3455
92208935|NCT04874415|184318347|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-6.2|5.3|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||5.3|-6.2|
92208936|NCT04874415|184318347|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-2.4|||||TWO_SIDED|95.0|-9.4|4.6|||||Fixed step count is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||4.6|-9.4|
92208937|NCT04874415|184318347|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-11.0|3.1|||||Loss framed incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||3.1|-11|
92208938|NCT04874415|184318347|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|4.4|||||TWO_SIDED|95.0|-1.0|9.8|||||Daily step count goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||9.8|-1.0|
92208939|NCT04874415|184318348|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-686.0|||||TWO_SIDED|95.0|-2997.0|1626.0|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||1626|-2997|
92208940|NCT04874415|184318348|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-2340.0|||||TWO_SIDED|95.0|-4794.0|115.0|||||Fixed step count goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||115|-4794|
92208941|NCT04874415|184318348|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-1293.0|||||TWO_SIDED|95.0|-3477.0|890.0|||||||Loss framed incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|890|-3477|
92208942|NCT04874415|184318348|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-135.0|||||TWO_SIDED|95.0|-2424.0|2153.0|||||Daily step count goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||2153|-2424|
92208943|NCT04874415|184318349|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.006|||||TWO_SIDED|95.0|-0.05|0.04|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.04|-0.05|
92208944|NCT04874415|184318349|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.07|0.02|||||Fixed step count goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.02|-0.07|
92208945|NCT04874415|184318349|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.02|0.06|||||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|0.06|-0.02|
92208946|NCT04874415|184318349|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.0006|||||TWO_SIDED|95.0|-0.04|0.04|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.04|-0.04|
92208947|NCT04874415|184318350|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|-0.006|||||TWO_SIDED|95.0|-10.3|10.3|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||10.3|-10.3|
92208948|NCT04874415|184318350|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|0.00001|||||TWO_SIDED|95.0|-0.03|0.03|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.03|-0.03|
92208949|NCT04874415|184318350|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-12.7|12.7|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||12.7|-12.7|
92208950|NCT04874415|184318350|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|-0.00002|||||TWO_SIDED|95.0|-0.03|0.03|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.03|-0.03|
92208951|NCT04874415|184318351|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.00003|||||TWO_SIDED|95.0|-2311.0|2311.0|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||2311|-2311|
92208952|NCT04874415|184318351|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.0000004|||||TWO_SIDED|95.0|-27.9|27.9|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||27.9|-27.9|
92208953|NCT04874415|184318351|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.005|||||TWO_SIDED|95.0|-6.9|6.8|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||6.8|-6.9|
92208954|NCT04874415|184318351|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-126.0|125.0|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||125|-126|
92208955|NCT04874415|184318352|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.003|||||TWO_SIDED|95.0|-3.9|3.9|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||3.9|-3.9|
92208956|NCT04874415|184318352|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.002|||||TWO_SIDED|95.0|-2.6|2.6|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||2.6|-2.6|
92208957|NCT04874415|184318352|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.00001|||||TWO_SIDED|95.0|-0.02|0.02|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.02|-0.02|
92208958|NCT04874415|184318352|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-22.8|22.8|||||Daily Step Count goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||22.8|-22.8|
92208959|NCT04874415|184318353|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-38.3|38.2|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||38.2|-38.3|
92208960|NCT04874415|184318353|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.0001|||||TWO_SIDED|95.0|-0.3|0.3|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.3|-0.3|
92208961|NCT04874415|184318353|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.0006|||||TWO_SIDED|95.0|-0.8|0.8|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.8|-0.8|
92208962|NCT04874415|184318353|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.0001|||||TWO_SIDED|95.0|-0.4|0.4|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.4|-0.4|
92208963|NCT04874415|184318354|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-31.4|31.5|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||31.5|-31.4|
92208964|NCT04874415|184318354|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.09|||||TWO_SIDED|95.0|-44.3|44.5|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||44.5|-44.3|
92208965|NCT04874415|184318354|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|5.7|||||TWO_SIDED|95.0|-2.7|14.2|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||14.2|-2.7|
92208966|NCT04874415|184318354|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-5.4|||||TWO_SIDED|95.0|-13.3|2.4|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||2.4|-13.3|
92208967|NCT04874415|184318355|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.002|||||TWO_SIDED|95.0|-3.1|3.1|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||3.1|-3.1|
92268728|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|1.39||||||95.0|1.08|1.79||||||For serotype 19F after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.79|1.08|
92268729|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.81||||||95.0|0.67|1.0||||||For serotype 23F after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.00|0.67|
92268730|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.85||||||95.0|0.67|1.07||||||For serotype 23F after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.07|0.67|
92208968|NCT04874415|184318355|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.0003|||||TWO_SIDED|95.0|-2.3|2.3|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||2.3|-2.3|
92208969|NCT04874415|184318355|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.003|||||TWO_SIDED|95.0|-3.4|3.4|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||3.4|-3.4|
92208970|NCT04874415|184318355|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.0005|||||TWO_SIDED|95.0|-0.5|0.5|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.5|-0.5|
92208971|NCT04874415|184318356|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|0.00000001|||||TWO_SIDED|95.0|-0.00002|0.00002|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.00002|-0.00002|
92208972|NCT04874415|184318356|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|-0.00002|||||TWO_SIDED|95.0|-0.03|0.03|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.03|-0.03|
92208973|NCT04874415|184318356|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).)|Mean Difference (Final Values)|0.00002|||||TWO_SIDED|95.0|-0.03|0.03|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.03|-0.03|
92208974|NCT04874415|184318356|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|-0.000003|||||TWO_SIDED|95.0|-0.004|0.004|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.004|-0.004|
92208975|NCT01037244|184318368|SUPERIORITY_OR_OTHER||Difference in Least Square (LS) Means|5.04|||<|0.0001|TWO_SIDED|95.0|3.36|6.73|||ANCOVA|Baseline Domain Score and pooled sites as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||6.73|3.36|<0.0001
92208976|NCT01037244|184318368|SUPERIORITY_OR_OTHER||Difference in LS Means|7.18|||<|0.0001|TWO_SIDED|95.0|5.49|8.86|||ANCOVA|Baseline domain score and pooled sites as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||8.86|5.49|<0.0001
92208977|NCT01037244|184318368|SUPERIORITY_OR_OTHER||Difference in LS Means|7.95|||<|0.0001|TWO_SIDED|95.0|6.27|9.63|||ANCOVA|Baseline domain score and pooled sites as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||9.63|6.27|<0.0001
92208978|NCT01037244|184318369|SUPERIORITY_OR_OTHER||Difference in LS Means|18.6|||<|0.0001|TWO_SIDED|95.0|11.72|25.48|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||25.48|11.72|<0.0001
92208979|NCT01037244|184318369|SUPERIORITY_OR_OTHER||Difference in LS Means|29.02|||<|0.0001|TWO_SIDED|95.0|22.13|35.9|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||35.90|22.13|<0.0001
92208980|NCT01037244|184318369|SUPERIORITY_OR_OTHER||Difference in LS Means|31.51|||<|0.0001|TWO_SIDED|95.0|24.68|38.34|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||38.34|24.68|<0.0001
92268731|NCT00366678|184439306|SUPERIORITY_OR_OTHER||Ratio|0.96||||||95.0|0.78|1.19||||||For serotype 23F after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.19|0.78|
92208981|NCT01037244|184318370|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Armitage test|||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||||<0.0001
92208982|NCT01037244|184318370|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||||<0.0001
92208983|NCT01037244|184318370|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||||<0.0001
92208984|NCT01037244|184318370|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||||<0.0001
92208985|NCT01037244|184318371|SUPERIORITY_OR_OTHER||Difference in LS Means|0.44|||<|0.0001|TWO_SIDED|95.0|0.3|0.59|||ANCOVA|p-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||0.59|0.30|<0.0001
92208986|NCT01037244|184318371|SUPERIORITY_OR_OTHER||Difference in LS Means|0.68|||<|0.0001|TWO_SIDED|95.0|0.54|0.83|||ANCOVA|p-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||0.83|0.54|<0.0001
92208987|NCT01037244|184318371|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8|||<|0.0001|TWO_SIDED|95.0|0.66|0.95|||ANCOVA|p-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||0.95|0.66|<0.0001
92208988|NCT01037244|184318372|SUPERIORITY_OR_OTHER||Difference in LS Means|16.67|||<|0.0001|TWO_SIDED|95.0|11.23|22.11|||ANOVA|p-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||22.11|11.23|<0.0001
92208989|NCT01037244|184318372|SUPERIORITY_OR_OTHER||Difference in LS Means|22.57|||<|0.0001|TWO_SIDED|95.0|17.11|28.03|||ANOVA|p-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||28.03|17.11|<0.0001
92208990|NCT01037244|184318372|SUPERIORITY_OR_OTHER||Difference in LS Means|28.39|||<|0.0001|TWO_SIDED|95.0|22.98|33.79|||ANOVA|p-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||33.79|22.98|<0.0001
92208991|NCT01037244|184318373|SUPERIORITY_OR_OTHER||Difference in LS Means|1.89|||<|0.0001|TWO_SIDED|95.0|1.17|2.61|||ANCOVA|P-values were obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.61|1.17|<0.0001
92268732|NCT00366678|184439309|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.77||||||95.0|0.66|0.9||||||For Diphtheria the GMC ratio was calculated||0.90|0.66|
92208992|NCT01037244|184318373|SUPERIORITY_OR_OTHER||Difference in LS Means|2.27|||<|0.0001|TWO_SIDED|95.0|1.54|2.99|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.99|1.54|<0.0001
92208993|NCT01037244|184318373|SUPERIORITY_OR_OTHER||Difference in LS Means|3.02|||<|0.0001|TWO_SIDED|95.0|2.3|3.73|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||3.73|2.30|<0.0001
92208994|NCT01037244|184318374|SUPERIORITY_OR_OTHER||Difference in LS Means|1.42|||<|0.0001|TWO_SIDED|95.0|0.81|2.03|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.03|0.81|<0.0001
92208995|NCT01037244|184318374|SUPERIORITY_OR_OTHER||Difference in LS Means|1.65|||<|0.0001|TWO_SIDED|95.0|1.04|2.26|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.26|1.04|<0.0001
92208996|NCT01037244|184318374|SUPERIORITY_OR_OTHER||Difference in LS Means|1.98|||<|0.0001|TWO_SIDED|95.0|1.37|2.59|||ANCOVA|P-values are obtained from ANCOVA model with baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.59|1.37|<0.0001
92208997|NCT01037244|184318375|SUPERIORITY_OR_OTHER||Difference in LS Means|0.57||||0.0019|TWO_SIDED|95.0|0.21|0.93|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||0.93|0.21|0.0019
92208998|NCT01037244|184318375|SUPERIORITY_OR_OTHER||Difference in LS Means|0.74|||<|0.0001|TWO_SIDED|95.0|0.38|1.1|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||1.10|0.38|<0.0001
92208999|NCT01037244|184318375|SUPERIORITY_OR_OTHER||Difference in LS Means|0.85|||<|0.0001|TWO_SIDED|95.0|0.49|1.21|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||1.21|0.49|<0.0001
92209000|NCT01037244|184318376|SUPERIORITY_OR_OTHER||Difference in LS Means|1.66|||<|0.0001|TWO_SIDED|95.0|1.13|2.19|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.19|1.13|<0.0001
92209001|NCT01037244|184318376|SUPERIORITY_OR_OTHER||Difference in LS Means|1.76|||<|0.0001|TWO_SIDED|95.0|1.23|2.29|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.29|1.23|<0.0001
92268733|NCT00366678|184439309|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.94||||||95.0|0.82|1.08||||||For Tetanus the GMC ratio was calculated||1.08|0.82|
92209002|NCT01037244|184318376|SUPERIORITY_OR_OTHER||Difference in LS Means|2.56|||<|0.0001|TWO_SIDED|95.0|2.03|3.09|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||3.09|2.03|<0.0001
92209003|NCT01037244|184318377|SUPERIORITY_OR_OTHER||Difference in LS Means|12.34|||<|0.0001|TWO_SIDED|95.0|7.29|17.4|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||17.40|7.29|<0.0001
92209004|NCT01037244|184318377|SUPERIORITY_OR_OTHER||Difference in LS Means|19.29|||<|0.0001|TWO_SIDED|95.0|14.23|24.36|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||24.36|14.23|<0.0001
92209005|NCT01037244|184318377|SUPERIORITY_OR_OTHER||Difference in LS Means|19.16|||<|0.0001|TWO_SIDED|95.0|14.14|24.18|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled sites as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||24.18|14.14|<0.0001
92209006|NCT01037244|184318378|SUPERIORITY_OR_OTHER||Difference in LS Means|18.07|||<|0.0001|TWO_SIDED|95.0|10.7|25.43|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||25.43|10.70|<0.0001
92209007|NCT01037244|184318378|SUPERIORITY_OR_OTHER||Difference in LS Means|23.53|||<|0.0001|TWO_SIDED|95.0|16.12|30.94|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||30.94|16.12|<0.0001
92209008|NCT01037244|184318378|SUPERIORITY_OR_OTHER||Difference in LS Means|36.25|||<|0.0001|TWO_SIDED|95.0|28.92|43.59|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||43.59|28.92|<0.0001
92209009|NCT01037244|184318379|SUPERIORITY_OR_OTHER||Difference in LS Means|18.2|||<|0.0001|TWO_SIDED|95.0|10.79|25.6|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||25.60|10.79|<0.0001
92209010|NCT01037244|184318379|SUPERIORITY_OR_OTHER||Difference in LS Means|25.25|||<|0.0001|TWO_SIDED|95.0|17.82|32.69|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||32.69|17.82|<0.0001
92268734|NCT00366678|184439309|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.8||||||95.0|0.67|0.97||||||For Diphtheria the GMC ratio was calculated||0.97|0.67|
92268735|NCT00366678|184439309|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.86||||||95.0|0.69|1.08||||||For Tetanus the GMC ratio was calculated||1.08|0.69|
92209011|NCT01037244|184318379|SUPERIORITY_OR_OTHER||Difference in LS Means|36.99|||<|0.0001|TWO_SIDED|95.0|29.63|44.36|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||44.36|29.63|<0.0001
92209012|NCT01037244|184318380|SUPERIORITY_OR_OTHER||Difference in LS Means|19.98|||<|0.0001|TWO_SIDED|95.0|12.69|27.26|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||27.26|12.69|<0.0001
92209013|NCT01037244|184318380|SUPERIORITY_OR_OTHER||Difference in LS Means|27.58|||<|0.0001|TWO_SIDED|95.0|20.29|34.88|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||34.88|20.29|<0.0001
92209014|NCT01037244|184318380|SUPERIORITY_OR_OTHER||Difference in LS Means|37.8|||<|0.0001|TWO_SIDED|95.0|30.57|45.03|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||45.03|30.57|<0.0001
92209015|NCT00690820|184318381|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92209016|NCT00690820|184318382|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92209017|NCT00690820|184318383|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92209018|NCT00690820|184318384|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92209019|NCT00690820|184318385|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
92209020|NCT00690820|184318386|SUPERIORITY_OR_OTHER|||||||0.671||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||0.671
92209021|NCT00690820|184318387|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||0.003
92209022|NCT00690820|184318388|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||0.023
92209023|NCT04147650|184318418|SUPERIORITY||Odds Ratio (OR)|2.18||||0.1352|TWO_SIDED|95.0|0.62|7.62|||Regression, Logistic|||0.05 % VOS versus vehicle||7.62|0.62|0.1352
92209024|NCT04147650|184318418|SUPERIORITY||Odds Ratio (OR)|1.78||||0.2823|TWO_SIDED|95.0|0.49|6.45|||Regression, Logistic|||0.10% VOS versus vehicle||6.45|0.49|0.2823
92327590|NCT04676412|184560337|OTHER|Difference in LS means and 95% CI were calculated using the Constrained longitudinal data analysis (cLDA) model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1) and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in Least Square (LS) Means|-0.25||||0.9519|TWO_SIDED|95.0|-8.59|8.09|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG and baseline PDL-1.||||8.09|-8.59|0.9519
92209025|NCT04147650|184318418|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0889|TWO_SIDED|95.0|0.7|8.3|||Regression, Logistic|||0.20% VOS versus vehicle||8.30|0.70|0.0889
92209026|NCT04147650|184318419|SUPERIORITY||Least square mean difference|-2.6||||0.3604|TWO_SIDED|95.0|-9.6|4.3|||ANCOVA|||0.05% VOS versus vehicle||4.3|-9.6|0.3604
92209027|NCT04147650|184318419|SUPERIORITY||Least square mean difference|-2.6||||0.3737|TWO_SIDED|95.0|-9.6|4.4|||ANCOVA|||0.10% VOS versus vehicle||4.4|-9.6|0.3737
92209028|NCT04147650|184318419|SUPERIORITY||Least square mean difference|1.8||||0.5307|TWO_SIDED|95.0|-5.1|8.6|||ANCOVA|||0.20% VOS versus vehicle||8.6|-5.1|0.5307
92209029|NCT01178671|184318458|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||Mixed Models Analysis|||||||0.17
92209030|NCT01178671|184318459|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||t-test, 2 sided|||||||0.82
92209031|NCT01178671|184318460|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||t-test, 2 sided|||||||.14
92209032|NCT01178671|184318461|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||.50
92209033|NCT01178671|184318462|SUPERIORITY_OR_OTHER|||||||0.023|TWO_SIDED||||||Mixed Models Analysis|||||||0.023
92209034|NCT01178671|184318463|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.31|TWO_SIDED||||||Mixed Models Analysis|||||||0.31
92209035|NCT01178671|184318464|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.7||||0.042|TWO_SIDED|95.0|1.1|19.9|||Mixed Models Analysis|||||19.9|1.1|0.042
92209036|NCT01178671|184318465|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Chi-squared|||||||0.14
92209037|NCT01178671|184318466|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Mixed Models Analysis|||||||0.21
92209038|NCT01178671|184318467|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||Mixed Models Analysis|||||||0.65
92209039|NCT01078675|184318480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.88|STANDARD_DEVIATION|18.222|<|0.001|TWO_SIDED|-42.88|-45.44|-40.32||P-value\<0.001 at Month 24. No adjustment for multiple comparisons is made for individual age group.|ANCOVA|P-value is two-sided and based on ANCOVA using age group as the fixed factor, and study centre and the baseline value as covariates.||||-40.32|-45.44|<0.001
92209040|NCT00968227|184318537|SUPERIORITY|Paired t-test||||||0.001|||||||t-test, 2 sided|||||||0.001
92209041|NCT02481947|184318572|NON_INFERIORITY|Non-inferiority margin = 12.6% (pre-specified)||||||0.016||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|||||||0.016
92209042|NCT02751320|184318573|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09||||0.7603|TWO_SIDED|95.0|-8.11|5.94||From ANCOVA: Participant (random), treatment \& period (fixed), subject-level baseline SMH, period-level baseline SMH, subject-level pre-treatment acid challenge SMH and period-level pre-treatment acid challenge SMH (covariates).|ANCOVA||Difference is first named treatment minus second named treatment such that positive difference favors the first named treatment.|||5.94|-8.11|0.7603
92209043|NCT02751320|184318573|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3||||0.3555|TWO_SIDED|95.0|-10.34|3.74||From ANCOVA: Participant (random), treatment \& period (fixed), subject-level baseline SMH, period-level baseline SMH, subject-level pre-treatment acid challenge SMH and period-level pre-treatment acid challenge SMH (covariates).|ANCOVA||Difference is first named treatment minus second named treatment such that positive difference favors the first named treatment.|||3.74|-10.34|0.3555
92209044|NCT02751320|184318573|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.21||||0.5335|TWO_SIDED|95.0|-4.81|9.23||ANCOVA: Participant (random), treatment \& period (fixed), Participant-level baseline SMH, period-level baseline SMH, Participant-level pre-treatment acid challenge SMH and period-level pre-treatment acid challenge SMH (covariates)|ANCOVA||Difference is first named treatment minus second named treatment such that positive difference favors the first named treatment.|||9.23|-4.81|0.5335
92209045|NCT02751320|184318573|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.96|||<|0.0001|TWO_SIDED|95.0|16.02|29.9||From ANCOVA: Participant (random), treatment \& period (fixed), Participant -level baseline SMH, period-level baseline SMH, Participant -level pre-treatment acidchallenge SMH and period-level pre-treatment acid challenge SMH (covariates) .|ANCOVA||Difference is first named treatment minus second named treatment such that positive difference favors the first named treatment.|Treatment comparison corresponding to qualifying criteria for the analysis||29.90|16.02|<.0001
92209046|NCT01886378|184318586|SUPERIORITY||Least squares (LS) mean|423.594||||0.1518|TWO_SIDED|95.0|-155.66|1002.85||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% confidence interval (CI), and p-values are based on the GEE model.|||1002.85|-155.66|0.1518
92209047|NCT01886378|184318587|SUPERIORITY||LS mean|-0.011||||0.3964|TWO_SIDED|95.0|-0.04|0.01||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||0.01|-0.04|0.3964
92209048|NCT01886378|184318588|SUPERIORITY||LS mean|4.671||||0.0777|TWO_SIDED|95.0|-0.52|9.86||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||9.86|-0.52|0.0777
92327591|NCT04676412|184560338|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1) and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS Means|8.81||||0.0628|TWO_SIDED|95.0|-0.49|18.11|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG and baseline PDL-1.||||18.11|-0.49|0.0628
92209049|NCT01886378|184318589|SUPERIORITY||LS mean|181.37||||0.083|TWO_SIDED|95.0|-23.7|386.45||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||386.45|-23.70|0.0830
92209050|NCT01886378|184318590|SUPERIORITY||LS mean|-0.185||||0.032|TWO_SIDED|95.0|-0.35|-0.02||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||-0.02|-0.35|0.0320
92327592|NCT04676412|184560339|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1) and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS Means|3.59||||0.3298|TWO_SIDED|95.0|-3.7|10.87|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG and baseline PDL-1.||||10.87|-3.70|0.3298
92209051|NCT01886378|184318591|SUPERIORITY||LS mean|12.44||||0.085|TWO_SIDED|95.0|-1.72|26.6||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||26.60|-1.72|0.0850
92209052|NCT01886378|184318592|SUPERIORITY||LS mean|2.16||||0.3754|TWO_SIDED|95.0|-2.62|6.94||The LS Mean, standard error (SE), 95% CI, and 2-sided p-value are from the GEE model.|GEE model|||||6.94|-2.62|0.3754
92209053|NCT01886378|184318593|SUPERIORITY||LS mean|0.816||||0.7564|TWO_SIDED|95.0|-4.34|5.97||The LS Mean, SE, 95% CI, and 2-sided p-value are from the GEE model.|GEE model|||||5.97|-4.34|0.7564
92209054|NCT01886378|184318594|SUPERIORITY||LS mean|8.88|||<|0.0001|TWO_SIDED|95.0|5.67|12.08||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model|||||12.08|5.67|<0.0001
92209055|NCT01886378|184318595|SUPERIORITY||LS mean|9.7||||0.0152|TWO_SIDED|95.0|1.87|17.54||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||17.54|1.87|0.0152
92209056|NCT03513588|184318612|OTHER||Least Squares Mean Difference|-24.34|||<|0.001|TWO_SIDED|80.0|-31.28|-16.7|||ANCOVA|||||-16.70|-31.28|<0.001
92209057|NCT03513588|184318612|OTHER||Least Squares Mean Difference|-33.91|||<|0.001|TWO_SIDED|80.0|-39.78|-27.47|||ANCOVA|||||-27.47|-39.78|<0.001
92209058|NCT01270971|184318623|SUPERIORITY_OR_OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
92209059|NCT01270971|184318624|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92209060|NCT01270971|184318625|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92209061|NCT01270971|184318626|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92209062|NCT02411357|184318662|SUPERIORITY||||||<|0.001|||||||Cochran-Armitage Chi-square trend test|||||||<.001
92209063|NCT02858349|184318707|SUPERIORITY||Mean Difference (Net)|0.13||||0.0042|TWO_SIDED|95.0|0.05|0.21|||Mixed Models Analysis|||||0.21|0.05|0.0042
92209064|NCT04217590|184318719|SUPERIORITY||Odds Ratio (OR)|5.1|||<|0.001|TWO_SIDED|95.0|1.9|15.12|||Fisher Exact||The CI for OR is calculated as an exact CI. An OR \> 1 favours SZC.|||15.12|1.90|<0.001
92209065|NCT04217590|184318720|SUPERIORITY||Odds Ratio (OR)|6.41|||<|0.001|TWO_SIDED|95.0|2.64|15.55|||Regression, Logistic|The OR, 95% CI and p-value are obtained from a pooled logistic regression model after multiple imputation (MI) of missing pre-dialysis S-K values.|An OR \> 1 favours SZC.|||15.55|2.64|<0.001
92209066|NCT04217590|184318721|SUPERIORITY||Odds Ratio (OR)|6.41|||<|0.001|TWO_SIDED|95.0|2.71|15.12|||Regression, Logistic|The OR, 95% CI and p-value are obtained from a pooled logistic regression model after multiple imputation (MI) of missing pre-dialysis S-K values.|An OR \> 1 favours SZC.|||15.12|2.71|<0.001
92209067|NCT04217590|184318722|SUPERIORITY||Odds Ratio (OR)|4.41|||<|0.001|TWO_SIDED|95.0|2.53|7.67|||Generalised linear mixed model (GLMM)|The p-value was obtained from a test of equality of odds ratios.|The OR was obtained from GLMM model with random intercept and logit link. Treatment, visit, visit by treatment interaction and baseline were specified as fixed effects. An OR \> 1 favours SZC.|||7.67|2.53|<0.001
92209068|NCT04217590|184318723|SUPERIORITY||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|0.77|1.64|||||Endpoint analysed with Generalised linear mixed model. The CI for the mean difference was calculated by bootstrapping. A mean difference \> 0 favours SZC.|||1.64|0.77|
92327593|NCT04676412|184560340|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1) and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS Means|-0.28||||0.9594|TWO_SIDED|95.0|-11.32|10.75|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG and baseline PDL-1.||||10.75|-11.32|0.9594
92327594|NCT04676412|184560341|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1) and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS Means|-5.53||||0.162|TWO_SIDED|95.0|-13.37|2.31|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG and baseline PDL-1.||||2.31|-13.37|0.1620
92327595|NCT04676412|184560342|OTHER|HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.03||||0.9419|TWO_SIDED|95.0|0.47|2.26|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||2.26|0.47|0.9419
92209069|NCT04217590|184318724|SUPERIORITY||Odds Ratio (OR)|5.82|||<|0.001|TWO_SIDED|95.0|3.15|10.73|||Generalised linear mixed model (GLMM)|The p-value was obtained from a test of equality of odds ratios.|The OR was obtained from GLMM model with random intercept and logit link. Treatment, visit, visit by treatment interaction and baseline were specified as fixed effects. An OR \> 1 favours SZC.|||10.73|3.15|<0.001
92209070|NCT00704405|184318737|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|53.6|||<|0.001|TWO_SIDED|95.0|34.5|69.1|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 19.0%) that achieved SVR24 and stratifies by prior treatment response.|||69.1|34.5|<0.001
92209071|NCT00704405|184318737|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|64.4|||<|0.001|TWO_SIDED|95.0|45.2|78.3|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 19.0%) that achieved SVR24 and stratifies by prior treatment response.|||78.3|45.2|<0.001
92209072|NCT00704405|184318737|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|59.0|||<|0.001|TWO_SIDED|95.0|40.2|73.4|||Miettinen and Nurminen||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 19.0%) that achieved SVR24 and stratifies by prior treatment response.|||73.4|40.2|<0.001
92209073|NCT00704405|184318740|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|47.3|||<|0.001|TWO_SIDED|95.0|29.2|63.2|||Miettinen and Nurminen||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 19.0%) that achieved SVR24 and stratifies by prior treatment response.|||63.2|29.2|<0.001
92209074|NCT00704405|184318741|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|82.6|||||TWO_SIDED|95.0|69.5|90.2|||||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 9.5%) that achieved cEVR and stratifies by prior treatment response.|||90.2|69.5|
92209075|NCT00704405|184318741|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|76.1|||||TWO_SIDED|95.0|60.1|86.7|||||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 9.5%) that achieved cEVR and stratifies by prior treatment response.|||86.7|60.1|
92209076|NCT00704405|184318742|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|35.8|||||TWO_SIDED|95.0|15.5|53.4|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of PBO patients (36.6%) with undetectable HCV RNA at Week 48 and stratifies by prior treatment response.|||53.4|15.5|
92209077|NCT01395888|184318743|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.259||||0.484|TWO_SIDED|95.0|-0.468|0.986|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)||||0.986|-0.468|0.484
92209078|NCT02641496|184318768|OTHER|ANOVA||||||0.027||||||Significance threshold p\<0.05; one-tailed|ANOVA|||Treatment 1 to Treatment 4 (approximately first 30 days of treatment)||||0.027
92209079|NCT02641496|184318768|OTHER|ANOVA||||||0.919||||||Significance threshold p\<0.05; one-tailed|ANOVA|||Last 30 Days of 1 Year Study||||0.919
92209080|NCT02641496|184318769|OTHER|||||||0.696||||||Significance threshold p\<0.05; one-tailed|ANOVA|||||||0.696
92209081|NCT02641496|184318770|OTHER|||||||0.593||||||Significance threshold p\<0.05; two-tailed|ANOVA|||||||0.593
92209082|NCT02641496|184318771|OTHER|||||||0.925||||||Significance threshold p\<0.05; one-tailed|ANOVA|||||||0.925
92209083|NCT02112838|184318785|SUPERIORITY||Mean Difference (Final Values)|19.9||||0.97|TWO_SIDED|95.0|-910.6|950.5|||ANCOVA|||||950.5|-910.6|0.97
92209084|NCT02112838|184318785|SUPERIORITY||Mean Difference (Final Values)|-399.7||||0.4|TWO_SIDED|95.0|-1320.8|521.3|||ANCOVA|||||521.3|-1320.8|0.40
92268736|NCT00366678|184439310|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.91||||||95.0|0.73|1.14||||||For Hib (PRP) the GMC ratio was calculated||1.14|0.73|
92268737|NCT00366678|184439310|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.04||||||95.0|0.82|1.32||||||For Hib (PRP) the GMC ratio was calculated||1.32|0.82|
92268738|NCT00366678|184439311|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.88||||||95.0|0.71|1.09||||||For Polio Type 1 the GMC ratio was calculated||1.09|0.71|
92268739|NCT00366678|184439311|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.82||||||95.0|0.66|1.03||||||For Polio Type 2 the GMC ratio was calculated||1.03|0.66|
92268740|NCT00366678|184439311|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.78||||||95.0|0.59|1.02||||||For Polio Type 3 the GMC ratio was calculated||1.02|0.59|
92268741|NCT00366678|184439311|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.01||||||95.0|0.72|1.41||||||For Polio Type 1 the GMC ratio was calculated||1.41|0.72|
92268742|NCT00366678|184439311|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.98||||||95.0|0.72|1.34||||||For Polio Type 2 the GMC ratio was calculated||1.34|0.72|
92268743|NCT00366678|184439311|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.84||||||95.0|0.6|1.17||||||For Polio Type 3 the GMC ratio was calculated||1.17|0.60|
92268744|NCT00366678|184439312|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.87||||||95.0|0.78|0.98||||||For Pertussis - FHA the GMC ratio was calculated||0.98|0.78|
92268745|NCT00366678|184439312|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.92||||||95.0|0.84|1.02||||||For Pertussis - PT the GMC ratio was calculated||1.02|0.84|
92268746|NCT00366678|184439312|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.85||||||95.0|0.72|1.0||||||For Pertussis - FHA the GMC ratio was calculated||1.00|0.72|
92268747|NCT00366678|184439312|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.99||||||95.0|0.86|1.14||||||For Pertussis - PT the GMC ratio was calculated||1.14|0.86|
92268748|NCT00388674|184439322|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.3553|TWO_SIDED|95.03|0.8|1.084|||Cox proportional hazards model||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.084|0.800|0.3553
92268749|NCT00388674|184439323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.0676|TWO_SIDED|95.03|0.713|1.012|||Cox proportional hazards model||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.012|0.713|0.0676
92268750|NCT00388674|184439324|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.1182|TWO_SIDED|95.03|0.769|1.03|||Cox proportional hazards model||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.030|0.769|0.1182
92268751|NCT00388674|184439325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.817|1.478|||||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.478|0.817|
92268752|NCT00388674|184439326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.727|1.032|||||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.032|0.727|
92268753|NCT00388674|184439327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.608|1.365|||||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.365|0.608|
92268754|NCT01598740|184439330|SUPERIORITY_OR_OTHER|||||||0.0662||95.0|||||ANCOVA|||One-way analysis of covariance (ANCOVA) common slopes model for a 2-period crossover design.||||0.0662
92268755|NCT01598740|184439331|SUPERIORITY_OR_OTHER|||||||0.1899||95.0|||||ANCOVA|||One-way analysis of covariance (ANCOVA) common slopes model for a 2-period crossover design.||||0.1899
92268756|NCT01965431|184439333|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is the maximum acceptable extent of statistical and clinical noninferiority of an experimental treatment. Non-inferiority margin for this trial is 10ms.|Mean Difference (Net)|7.9|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|90.0|5.37|10.43|||||Maximum mean difference to placebo is estimated. Adjusted means are based on a mixed model for repeated measures with 'global' \& 'period-global baseline' covariates. Toeplitz covariance model used for modelling the random and repeated effect.|||10.43|5.37|
92268757|NCT01965431|184439334|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.7|STANDARD_ERROR_OF_MEAN|2.02|||TWO_SIDED|90.0|9.32|16.08|||||Maximum mean difference to placebo is estimated. Adjusted means are based on a mixed model for repeated measures with 'global' \& 'period-global baseline' covariates. Toeplitz covariance model used for modelling the random and repeated effect.|No formal hypothesis testing was done.||16.08|9.32|
92268758|NCT01965431|184439335|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|90.0|-1.38|1.73|||||Maximum mean difference to placebo is estimated. Adjusted means are based on a mixed model for repeated measures with 'global' \& 'period-global baseline' covariates. Toeplitz covariance model used for modelling the random and repeated effect.|No formal hypothesis testing was done.||1.73|-1.38|
92268759|NCT01965431|184439336|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.42|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|90.0|-5.98|-2.87|||||Minimum mean difference to placebo is estimated. Adjusted means are based on a mixed model for repeated measures with 'global' \& 'period-global baseline' covariates. Toeplitz covariance model used for modelling the random and repeated effect.|No formal hypothesis testing was done.||-2.87|-5.98|
92268760|NCT00943826|184439371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.55|0.74||Stratified by Region and Recursive partitioning analysis (RPA) Class|Log Rank||Stratified by Region and RPA Class.|||0.74|0.55|<0.0001
92268761|NCT00943826|184439372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.0987|TWO_SIDED|95.0|0.76|1.02|||Log Rank|Stratified by Region and RPA Class|Stratified by Region and RPA Class.|||1.02|0.76|0.0987
92268762|NCT00943826|184439373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.53|0.71||Stratified by Region and RPA Class.|Log Rank||Stratified by Region and RPA Class.|||0.71|0.53|<0.0001
92268763|NCT04764669|184439378|SUPERIORITY|Primary comparisons were: DLB without amyloid copathology versus DLB with amyloid copathology|Least squares mean difference|-20.022|||||TWO_SIDED|95.0|-77.635|37.591||||||||37.591|-77.635|
92268764|NCT04764669|184439378|SUPERIORITY|Primary comparisons were: PDD without amyloid copathology versus PDD with amyloid copathology.|Least squares mean difference|-175.65|||||TWO_SIDED|95.0|-287.407|-63.893||||||||-63.893|-287.407|
92268765|NCT00256217|184439386|OTHER||Mean Difference (Final Values)|4.9||||0.004|TWO_SIDED|95.0|1.8|8.0|||Wilcoxon (Mann-Whitney)|||||8.0|1.8|0.004
92268766|NCT00256217|184439387|OTHER||Mean Difference (Final Values)|0.3||||0.016|TWO_SIDED|95.0|0.1|0.49|||Wilcoxon (Mann-Whitney)|||||0.49|0.10|0.016
92268767|NCT00877799|184439391|SUPERIORITY_OR_OTHER|||||||0.057|||||||t-test, 2 sided|||||||0.057
92327596|NCT04676412|184560343|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.01||||0.9789|TWO_SIDED|95.0|0.43|2.38|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||2.38|0.43|0.9789
92327597|NCT04676412|184560344|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.08||||0.8856|TWO_SIDED|95.0|0.36|3.28|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||3.28|0.36|0.8856
92268768|NCT00877799|184439392|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92327598|NCT04676412|184560345|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.55||||0.3264|TWO_SIDED|95.0|0.64|3.75|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||3.75|0.64|0.3264
92268769|NCT00877799|184439393|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
92268770|NCT01785472|184439402|NON_INFERIORITY_OR_EQUIVALENCE|The statistical test was made at a one-sided significance level of 0.025.|least Square Means net difference|-2.33|STANDARD_ERROR_OF_MEAN|0.85|<|0.001||95.0|-4.0|-0.66|||ANCOVA|||||-0.66|-4.00|<0.001
92268771|NCT01803464|184439419|OTHER||Cohen's d|0.59|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox plus low-magnitude vibration group minus the % change of the cerebral palsy control group was the numerator. The pooled Standard Deviation (SD) of the % change for the 2 groups was the denominator.|||||
92268772|NCT01803464|184439419|OTHER||Cohen's d|0.13|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
92268773|NCT01803464|184439419|OTHER||Cohen's d|0.51|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the typically developing control group group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
92268774|NCT01803464|184439420|OTHER||Cohen's d|0.45|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox plus low-magnitude vibration group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator|||||
92268775|NCT01803464|184439420|OTHER||Cohen's d|0.57|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
92268776|NCT01803464|184439420|OTHER||Cohen's d|0.13|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the typically developing group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator|||||
92268777|NCT01803464|184439421|OTHER||Cohen's d|1.2|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox plus low-magnitude vibration group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
92268778|NCT01803464|184439421|OTHER||Cohen's d|0.33|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
92268779|NCT01803464|184439421|OTHER||Cohen's d|0.33|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the typically developing control group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
92268780|NCT02424851|184439422|OTHER|||||||0.006|||||||Fisher Exact|||||||0.006
92268781|NCT02424851|184439423|OTHER|||||||0.02|||||||Fisher Exact|||||||0.02
92268782|NCT02424851|184439424|OTHER||||||=|0.48|||||||Fisher Exact|||Statistical analysis of SAEs.||||=0.48
92268783|NCT02424851|184439424|OTHER||||||=|0.25|||||||Fisher Exact|||Statistical analysis of AEs||||=0.25
92268784|NCT02424851|184439425|OTHER||||||=|0.31|||||||Log Rank|||||||= 0.31
92268785|NCT02424851|184439426|OTHER||||||=|0.45|||||||Fisher Exact|||||||=0.45
92268786|NCT02424851|184439427|OTHER|||||||0.33|||||||t-test, 1 sided|||||||0.33
92327599|NCT04676412|184560346|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.31||||0.4068|TWO_SIDED|95.0|0.7|2.46|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||2.46|0.70|0.4068
92268787|NCT01125358|184439431|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-2.02|||||TWO_SIDED|90.0|-3.37|0.0|||Multiple Comparisons with The Best (MCB)|LS mean difference = LS mean of 10 mg LY2140023 - LS mean of 80 mg LY2140023.||||0.00|-3.37|
92268788|NCT01125358|184439431|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-1.05|||||TWO_SIDED|90.0|-2.42|0.32|||Multiple Comparison with The Best (MCB)|LS mean difference = LS mean of 160 mg LY2140023 - LS mean of 80 mg LY2140023.||||0.32|-2.42|
92268789|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-9.84|STANDARD_ERROR_OF_MEAN|7.96||0.222|TWO_SIDED|95.0|-25.8|6.12||P-value is for PANSS Total Score.|MMRM|||||6.12|-25.80|0.222
92268790|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-11.91|STANDARD_ERROR_OF_MEAN|7.22||0.105|TWO_SIDED|95.0|-26.42|2.6||P-value is for PANSS Total Score.|MMRM|||||2.60|-26.42|0.105
92268791|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-7.96|STANDARD_ERROR_OF_MEAN|7.73||0.308|TWO_SIDED|95.0|-23.46|7.55||P-value is for PANSS Total Score.|MMRM|||||7.55|-23.46|0.308
92268792|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-1.6|STANDARD_ERROR_OF_MEAN|2.06||0.441|TWO_SIDED|95.0|-5.74|2.54||P-value is for PANSS Positive Subscore.|MMRM|||||2.54|-5.74|0.441
92268793|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-4.22|STANDARD_ERROR_OF_MEAN|1.88||0.03||95.0|-8.01|-0.44||P-value is for PANSS Positive Subscore.|MMRM|||||-0.44|-8.01|0.030
92268794|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-1.98|STANDARD_ERROR_OF_MEAN|1.98||0.323|TWO_SIDED|95.0|-5.96|2.01||P-value is for PANSS Positive Subscore.|MMRM|||||2.01|-5.96|0.323
92268795|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-2.46|STANDARD_ERROR_OF_MEAN|2.28||0.285|TWO_SIDED|95.0|-7.05|2.12||P-value is for PANSS Negative Subscore.|MMRM|||||2.12|-7.05|0.285
92268796|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-2.92|STANDARD_ERROR_OF_MEAN|2.07||0.166|TWO_SIDED|95.0|-7.1|1.26||P-value is for PANSS Negative Subscore.|MMRM|||||1.26|-7.10|0.166
92268797|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-2.37|STANDARD_ERROR_OF_MEAN|2.2||0.286|TWO_SIDED|95.0|-6.79|2.05||P-value is for PANSS Negative Subscore.|MMRM|||||2.05|-6.79|0.286
92268798|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-5.67|STANDARD_ERROR_OF_MEAN|4.14||0.177|TWO_SIDED|95.0|-13.96|2.63||P-value is for PANSS General Psychopathology Subscore.|MMRM|||||2.63|-13.96|0.177
92268799|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-5.1|STANDARD_ERROR_OF_MEAN|3.74||0.178|TWO_SIDED|95.0|-12.6|2.4||P-value is for PANSS General Psychopathology Subscore.|MMRM|||||2.40|-12.60|0.178
92268800|NCT01125358|184439432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-3.61|STANDARD_ERROR_OF_MEAN|4.05||0.377|TWO_SIDED|95.0|-11.72|4.51||P-value is for PANSS General Psychopathology Subscore.|MMRM|||||4.51|-11.72|0.377
92268801|NCT01125358|184439433|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.87|STANDARD_ERROR_OF_MEAN|0.48||0.077|TWO_SIDED|95.0|-0.1|1.83|||MMRM|||||1.83|-0.10|0.077
92268802|NCT01125358|184439433|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.24|STANDARD_ERROR_OF_MEAN|0.44||0.592|TWO_SIDED|95.0|-1.12|0.65|||MMRM|||||0.65|-1.12|0.592
92268803|NCT01125358|184439433|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.39|STANDARD_ERROR_OF_MEAN|0.46||0.395|TWO_SIDED|95.0|-0.53|1.32|||MMRM|||||1.32|-0.53|0.395
92268804|NCT01125358|184439434|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|4.64|STANDARD_ERROR_OF_MEAN|4.49||0.306|TWO_SIDED|95.0|-4.37|13.65|||MMRM|||||13.65|-4.37|0.306
92268805|NCT01125358|184439434|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.82|STANDARD_ERROR_OF_MEAN|4.26||0.849|TWO_SIDED|95.0|-7.74|9.38|||MMRM|||||9.38|-7.74|0.849
92268806|NCT01125358|184439434|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-5.09|STANDARD_ERROR_OF_MEAN|4.46||0.259||95.0|-14.05|3.86|||MMRM|||||3.86|-14.05|0.259
92268807|NCT01125358|184439436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.354||95.0|||||Fisher Exact|||||||0.354
92268808|NCT01125358|184439436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.181||95.0|||||Fisher Exact|||||||0.181
92268809|NCT01125358|184439436|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999||95.0|||||Fisher Exact|||||||>0.999
92268810|NCT04007406|184439451|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0||||The threshold value for statistical significance was p\<0.05|Mixed Models Analysis|||||||<0.0001
92268811|NCT04007406|184439452|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0||||The threshold for significance was p \<0.05|Mixed Models Analysis|||||||<0.0001
92268812|NCT04007406|184439453|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0||||The threshold for significance was p \<0.05|Mixed Models Analysis|||||||<0.0001
92268813|NCT04007406|184439454|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0||||The threshold for significance was p \<0.05|Mixed Models Analysis|||||||<0.0001
92268814|NCT04007406|184439455|SUPERIORITY||||||<|0.0001||||||The statistical threshold was p\<0.05|Mixed Models Analysis|||||||<0.0001
92268815|NCT03159611|184439456|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
92268816|NCT03159611|184439457|SUPERIORITY|||||||0.005|||||||Cochran-Mantel-Haenszel|||||||0.005
92268817|NCT03159611|184439458|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.50
92268818|NCT03159611|184439459|SUPERIORITY|||||||0.2|||||||Cochran-Mantel-Haenszel|||||||0.20
92268819|NCT03159611|184439460|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
92268820|NCT02587117|184439461|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|95.0|||||Mann Whitney test|||||||0.004
92268821|NCT02587117|184439462|SUPERIORITY_OR_OTHER|||||||0.224|TWO_SIDED|95.0|||||Mann Whitney test|||||||0.224
92268822|NCT01875731|184439477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.09||||0.01|TWO_SIDED|95.0|1.57|16.8|||Chi-squared|||||16.8|1.57|0.01
92268823|NCT01875731|184439478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.71|TWO_SIDED|95.0|0.1|4.09|||Chi-squared|||||4.09|0.1|0.71
92268824|NCT06212544|184439479|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92268825|NCT00684645|184439512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.395|||<|0.0001|TWO_SIDED|95.0|0.257|0.609|||Cox proportional hazard|||Time to PFS was analyzed using survival analysis methodology. Model was fitted with sunitinib-induced hypertension included as a time-dependent covariate (presence versus absence of hypertension).||0.609|0.257|<0.0001
92268826|NCT00684645|184439513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.361||||0.0221|TWO_SIDED|95.0|0.151|0.864|||Cox proportional hazard|||Time to OS was analyzed using survival analysis methodology. Model was fitted with sunitinib-induced hypertension included as a time-dependent covariate (presence versus absence of hypertension).||0.864|0.151|0.0221
92268827|NCT02513095|184439520|SUPERIORITY||Odds Ratio (OR)|6.0||||0.396|TWO_SIDED|95.0|0.6|76.8|||Chi-squared, Corrected|||||76.8|0.6|0.396
92268828|NCT00391092|184439549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0775|TWO_SIDED|95.0|0.65|1.02|||Log Rank (unstratified)|||||1.02|0.65|0.0775
92268829|NCT00391092|184439550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9543|TWO_SIDED|95.0|0.74|1.38|||Log Rank|||||1.38|0.74|0.9543
92268830|NCT00391092|184439551|SUPERIORITY_OR_OTHER||Difference in Response rates|4.43||||0.3492|TWO_SIDED|95.0|-5.2|14.0|||Chi-squared||95% CI for the difference in response rates using Hauck-Anderson method.|||14.0|-5.2|0.3492
92268831|NCT00391092|184439552|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.56|0.98||||||||0.98|0.56|
92268832|NCT00391092|184439553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.5392|TWO_SIDED|95.0|0.76|1.15|||Log Rank|||||1.15|0.76|0.5392
92268833|NCT00467038|184439556|SUPERIORITY_OR_OTHER||||||<|0.004|TWO_SIDED||||||t-test, 1 sided|\<0.004 p value was common for all time points.||||||<0.004
92268834|NCT00467038|184439557|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Fisher's LSD post-hoc, trend level|||||||0.08
92268835|NCT02545868|184439567|SUPERIORITY||normal distribution approximation|-30.7|||||TWO_SIDED|95.0|-50.5|-10.8||||||Difference in positive response, Group A minus Group B||-10.8|-50.5|
92268836|NCT02545868|184439568|SUPERIORITY||normal distribution approximation|-36.4|||||TWO_SIDED|95.0|-56.0|-16.7||||||Difference in positive response, Group A minus Group B||-16.7|-56.0|
92268837|NCT02545868|184439569|SUPERIORITY||normal distribution approximation|-47.0|||||TWO_SIDED|95.0|-63.2|-30.7||||||Difference in positive response, Group A minus Group B||-30.7|-63.2|
92268838|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-50.7|||||TWO_SIDED|95.0|-62.7|-38.8||||||Serotype 1||-38.8|-62.7|
92268839|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-43.3|||||TWO_SIDED|95.0|-56.5|-30.1||||||Serotype 2||-30.1|-56.5|
92268840|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-48.0|||||TWO_SIDED|95.0|-65.2|-30.9||||||Serotype 3||-30.9|-65.2|
92268841|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-62.8|||||TWO_SIDED|95.0|-77.2|-48.4||||||Serotype 4||-48.4|-77.2|
92268842|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-53.8|||||TWO_SIDED|95.0|-68.0|-39.7||||||Serotype 5||-39.7|-68.0|
92268843|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-37.5|||||TWO_SIDED|95.0|-54.4|-20.7||||||Serotype 6B||-20.7|-54.4|
92268844|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-58.3|||||TWO_SIDED|95.0|-73.1|-43.6||||||Serotype 7F||-43.6|-73.1|
92268845|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-32.9|||||TWO_SIDED|95.0|-45.7|-20.1||||||Serotype 8||-20.1|-45.7|
92268846|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-46.4|||||TWO_SIDED|95.0|-62.5|-30.4||||||Serotype 9N||-30.4|-62.5|
92268847|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-40.4|||||TWO_SIDED|95.0|-55.7|-25.1||||||Serotype 9V||-25.1|-55.7|
92268848|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-62.8|||||TWO_SIDED|95.0|-77.2|-48.4||||||Serotype 10A||-48.4|-77.2|
92268849|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-52.5|||||TWO_SIDED|95.0|-69.4|-35.6||||||Serotype 11A||-35.6|-69.4|
92268850|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-55.6|||||TWO_SIDED|95.0|-72.8|-38.3||||||Serotype 12F||-38.3|-72.8|
92268851|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-25.5|||||TWO_SIDED|95.0|-41.4|-9.7||||||Serotype 14||-9.7|-41.4|
92268852|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-47.9|||||TWO_SIDED|95.0|-63.9|-32.0||||||Serotype 15B||-32.0|-63.9|
92268853|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-56.9|||||TWO_SIDED|95.0|-72.4|-41.4||||||Serotype 17F||-41.4|-72.4|
92268854|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-52.4|||||TWO_SIDED|95.0|-67.4|-37.3||||||Serotype 18C||-37.3|-67.4|
92268855|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-46.4|||||TWO_SIDED|95.0|-62.5|-30.4||||||Serotype 19A||-30.4|-62.5|
92268856|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-52.5|||||TWO_SIDED|95.0|-68.8|-36.1||||||Serotype 19F||-36.1|-68.8|
92268857|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-61.5|||||TWO_SIDED|95.0|-77.5|-45.4||||||Serotype 20||-45.4|-77.5|
92268858|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-56.8|||||TWO_SIDED|95.0|-71.7|-42.0||||||Serotype 22F||-42.0|-71.7|
92268859|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-33.2|||||TWO_SIDED|95.0|-51.7|-14.6||||||Serotype 23F||-14.6|-51.7|
92268860|NCT02545868|184439573|SUPERIORITY||Normal Distribution Approximation|-47.8|||||TWO_SIDED|95.0|-62.2|-33.5||||||Serotype 33F||-33.5|-62.2|
92268861|NCT02545868|184439574|SUPERIORITY||Normal Distribution Approximation|-13.4|||||TWO_SIDED|95.0|-21.6|-5.3||||||||-5.3|-21.6|
92268862|NCT02545868|184439575|SUPERIORITY||Normal Distribution Approximation|-59.7|||||TWO_SIDED|95.0|-72.6|-46.8||||||||-46.8|-72.6|
92268863|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-45.2|||||TWO_SIDED|95.0|-62.7|-27.6||||||Serotype 1- Difference in positive response, Group A1 minus Group B||-27.6|-62.7|
92268864|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-42.2|||||TWO_SIDED|95.0|-60.6|-23.8||||||Serotype 2- Difference in positive response, Group A1 minus Group B||-23.8|-60.6|
92268865|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-49.8|||||TWO_SIDED|95.0|-70.4|-29.2||||||Serotype 3- Difference in positive response, Group A1 minus Group B||-29.2|-70.4|
92268866|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-56.0|||||TWO_SIDED|95.0|-75.7|-36.3||||||Serotype 4- Difference in positive response, Group A1 minus Group B||-36.3|-75.7|
92268867|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-58.3|||||TWO_SIDED|95.0|-76.4|-40.3||||||Serotype 5- Difference in positive response, Group A1 minus Group B||-40.3|-76.4|
92268868|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-34.0|||||TWO_SIDED|95.0|-55.7|-12.2||||||Serotype 6B- Difference in positive response, Group A1 minus Group B||-12.2|-55.7|
92268869|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-42.5|||||TWO_SIDED|95.0|-61.8|-23.2||||||Serotype 7F- Difference in positive response, Group A1 minus Group B||-23.2|-61.8|
92268870|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-42.2|||||TWO_SIDED|95.0|-60.6|-23.8||||||Serotype 8- Difference in positive response, Group A1 minus Group B||-23.8|-60.6|
92268871|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-37.2|||||TWO_SIDED|95.0|-58.9|-15.5||||||Serotype 9N- Difference in positive response, Group A1 minus Group B||-15.5|-58.9|
92268872|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-36.6|||||TWO_SIDED|95.0|-57.3|-16.0||||||Serotype 9V- Difference in positive response, Group A1 minus Group B||-16.0|-57.3|
92268873|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-62.1|||||TWO_SIDED|95.0|-80.8|-43.5||||||Serotype 10A- Difference in positive response, Group A1 minus Group B||-43.5|-80.8|
92268874|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-50.1|||||TWO_SIDED|95.0|-71.0|-29.2||||||Serotype 11A- Difference in positive response, Group A1 minus Group B||-29.2|-71.0|
92268875|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-56.8|||||TWO_SIDED|95.0|-76.9|-36.8||||||Serotype 12F- Difference in positive response, Group A1 minus Group B||-36.8|-76.9|
92327600|NCT04676412|184560347|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|7.81||||0.002|TWO_SIDED|95.0|1.71|35.62|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||35.62|1.71|0.0020
92268876|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-20.8|||||TWO_SIDED|95.0|-41.4|-0.2||||||Serotype 14- Difference in positive response, Group A1 minus Group B||-0.2|-41.4|
92268877|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-52.8|||||TWO_SIDED|95.0|-72.8|-32.7||||||Serotype 15B- Difference in positive response, Group A1 minus Group B||-32.7|-72.8|
92268878|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-46.3|||||TWO_SIDED|95.0|-66.8|-25.8||||||Serotype 17F- Difference in positive response, Group A1 minus Group B||-25.8|-66.8|
92268879|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-42.5|||||TWO_SIDED|95.0|-61.8|-23.2||||||Serotype 18C- Difference in positive response, Group A1 minus Group B||-23.2|-61.8|
92268880|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-30.2|||||TWO_SIDED|95.0|-50.6|-9.7||||||Serotype 19A- Difference in positive response, Group A1 minus Group B||-9.7|-50.6|
92268881|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-46.3|||||TWO_SIDED|95.0|-66.8|-25.8||||||Serotype 19F- Difference in positive response, Group A1 minus Group B||-25.8|-66.8|
92268882|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-59.5|||||TWO_SIDED|95.0|-79.0|-40.0||||||Serotype 20- Difference in positive response, Group A1 minus Group B||-40.0|-79.0|
92268883|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-52.5|||||TWO_SIDED|95.0|-72.1|-32.8||||||Serotype 22F- Difference in positive response, Group A1 minus Group B||-32.8|-72.1|
92268884|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-28.1|||||TWO_SIDED|95.0|-50.7|-5.4||||||Serotype 23F- Difference in positive response, Group A1 minus Group B||-5.4|-50.7|
92268885|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-49.0|||||TWO_SIDED|95.0|-68.2|-29.7||||||Serotype 33F- Difference in positive response, Group A1 minus Group B||-29.7|-68.2|
92268886|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-61.8|||||TWO_SIDED|95.0|-78.1|-45.4||||||Serotype 1- Difference in positive response, Group A2 minus Group B||-45.4|-78.1|
92268887|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-52.9|||||TWO_SIDED|95.0|-70.6|-35.3||||||Serotype 2- Difference in positive response, Group A2 minus Group B||-35.3|-70.6|
92268888|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-55.9|||||TWO_SIDED|95.0|-75.3|-36.5||||||Serotype 3- Difference in positive response, Group A2 minus Group B||-36.5|-75.3|
92268889|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-64.7|||||TWO_SIDED|95.0|-82.6|-46.8||||||Serotype 4- Difference in positive response, Group A2 minus Group B||-46.8|-82.6|
92268890|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-52.9|||||TWO_SIDED|95.0|-70.6|-35.3||||||Serotype 5- Difference in positive response, Group A2 minus Group B||-35.3|-70.6|
92268891|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-38.2|||||TWO_SIDED|95.0|-59.3|-17.2||||||Serotype 6B- Difference in positive response, Group A2 minus Group B||-17.2|-59.3|
92268892|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-58.8|||||TWO_SIDED|95.0|-76.7|-40.9||||||Serotype 7F- Difference in positive response, Group A2 minus Group B||-40.9|-76.7|
92268893|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-29.4|||||TWO_SIDED|95.0|-46.1|-12.7||||||Serotype 8- Difference in positive response, Group A2 minus Group B||-12.7|-46.1|
92268894|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-35.3|||||TWO_SIDED|95.0|-56.4|-14.2||||||Serotype 9N- Difference in positive response, Group A2 minus Group B||-14.2|-56.4|
92268895|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-38.2|||||TWO_SIDED|95.0|-58.2|-18.2||||||Serotype 9V- Difference in positive response, Group A2 minus Group B||-18.2|-58.2|
92268896|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-61.8|||||TWO_SIDED|95.0|-79.8|-43.7||||||Serotype 10A- Difference in positive response, Group A2 minus Group B||-43.7|-79.8|
92268897|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-38.2|||||TWO_SIDED|95.0|-59.3|-17.2||||||Serotype 11A- Difference in positive response, Group A2 minus Group B||-17.2|-59.3|
92268898|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-58.8|||||TWO_SIDED|95.0|-78.0|-39.6||||||Serotype 12F- Difference in positive response, Group A2 minus Group B||-39.6|-78.0|
92268899|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-17.6|||||TWO_SIDED|95.0|-37.4|2.1||||||Serotype 14- Difference in positive response, Group A2 minus Group B||2.1|-37.4|
92268900|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-50.0|||||TWO_SIDED|95.0|-69.6|-30.4||||||Serotype 15B- Difference in positive response, Group A2 minus Group B||-30.4|-69.6|
92268901|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-44.1|||||TWO_SIDED|95.0|-64.0|-24.2||||||Serotype 17F- Difference in positive response, Group A2 minus Group B||-24.2|-64.0|
92268902|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-61.8|||||TWO_SIDED|95.0|-79.4|-44.2||||||Serotype 18C- Difference in positive response, Group A2 minus Group B||-44.2|-79.4|
92268903|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-52.9|||||TWO_SIDED|95.0|-72.3|-33.6||||||Serotype 19A- Difference in positive response, Group A2 minus Group B||-33.6|-72.3|
92268904|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-58.8|||||TWO_SIDED|95.0|-77.6|-40.1||||||Serotype 19F- Difference in positive response, Group A2 minus Group B||-40.1|-77.6|
92268905|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-70.6|||||TWO_SIDED|95.0|-87.4|-53.8||||||Serotype 20- Difference in positive response, Group A2 minus Group B||-53.8|-87.4|
92268906|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-67.6|||||TWO_SIDED|95.0|-84.8|-50.5||||||Serotype 22F- Difference in positive response, Group A2 minus Group B||-50.5|-84.8|
92268907|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-47.1|||||TWO_SIDED|95.0|-68.0|-26.1||||||Serotype 23F- Difference in positive response, Group A2 minus Group B||-26.1|-68.0|
92268908|NCT02545868|184439577|SUPERIORITY||Normal Distribution Approximation|-50.0|||||TWO_SIDED|95.0|-68.5|-31.5||||||Serotype 33F- Difference in positive response, Group A2 minus Group B||-31.5|-68.5|
92268909|NCT02545868|184439579|SUPERIORITY||Normal Distribution Approximation|-25.5|||||TWO_SIDED|95.0|-41.6|-9.5||||||Strain = H1N1CA09 (Group A2 minus Group B)||-9.5|-41.6|
92268910|NCT02545868|184439579|SUPERIORITY||Normal Distribution Approximation|-14.0|||||TWO_SIDED|95.0|-35.2|7.3||||||Strain = BPHU13 (Group A2 minus Group B)||7.3|-35.2|
92327601|NCT04676412|184560348|OTHER|Hazard ratio (HR) and 95% confidence interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.18||||0.71084|TWO_SIDED|95.0|0.61|2.25|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of enrolling site and baseline PD-L1 status.||||2.25|0.61|0.71084
92268911|NCT02545868|184439579|SUPERIORITY||Normal Distribution Approximation|-25.9|||||TWO_SIDED|95.0|-45.5|-6.4||||||Strain = H3N2SW13 (Group A2 minus Group B)||-6.4|-45.5|
92268912|NCT02545868|184439579|SUPERIORITY||Normal Distribution Approximation|-19.4|||||TWO_SIDED|95.0|-50.7|11.8||||||Strain = BBRIS08 (Group A2 minus Group B)||11.8|-50.7|
92268913|NCT02545868|184439579|SUPERIORITY||Normal Distribution Approximation|-3.3|||||TWO_SIDED|95.0|-49.4|42.7||||||Strain = AHK4801 (Group A2 minus Group B)||42.7|-49.4|
92268914|NCT02545868|184439580|SUPERIORITY||Normal Distribution Approximation|-41.8|||||TWO_SIDED|95.0|-61.9|-21.7||||||Strain = H1N1CA09 (Group A2 minus Group B)||-21.7|-61.9|
92268915|NCT02545868|184439580|SUPERIORITY||Normal Distribution Approximation|-37.6|||||TWO_SIDED|95.0|-59.7|-15.5||||||Strain = BPHU13 (Group A2 minus Group B)||-15.5|-59.7|
92268916|NCT02545868|184439580|SUPERIORITY||Normal Distribution Approximation|-59.5|||||TWO_SIDED|95.0|-78.2|-40.7||||||Strain = H3N2SW13 (Group A2 minus Group B)||-40.7|-78.2|
92268917|NCT02545868|184439580|SUPERIORITY||Normal Distribution Approximation|-45.6|||||TWO_SIDED|95.0|-76.0|-15.1||||||Strain = BBRIS08 (Group A2 minus Group B)||-15.1|-76.0|
92268918|NCT02545868|184439580|SUPERIORITY||Normal Distribution Approximation|-3.3|||||TWO_SIDED|95.0|-49.4|42.7||||||Strain = AHK4801 (Group A2 minus Group B)||42.7|-49.4|
92268919|NCT02545868|184439581|SUPERIORITY||Normal Distribution Approximation|-61.3|||||TWO_SIDED|95.0|-80.2|-42.3||||||Strain = H1N1CA09 - Difference in at least 4-fold response, Group A2 minus Group B||-42.3|-80.2|
92268920|NCT02545868|184439581|SUPERIORITY||Normal Distribution Approximation|-54.8|||||TWO_SIDED|95.0|-75.3|-34.4||||||Strain = BPHU13 - Difference in at least 4-fold response, Group A2 minus Group B||-34.4|-75.3|
92268921|NCT02545868|184439581|SUPERIORITY||Normal Distribution Approximation|-82.3|||||TWO_SIDED|95.0|-97.1|-67.5||||||Strain = H3N2SW13 - Difference in at least 4-fold response, Group A2 minus Group B||-67.5|-97.1|
92268922|NCT02545868|184439581|SUPERIORITY||Normal Distribution Approximation|-36.7|||||TWO_SIDED|95.0|-67.2|-6.1||||||Strain = BBRIS08 - Difference in at least 4-fold response, Group A2 minus Group B||-6.1|-67.2|
92268923|NCT02545868|184439581|SUPERIORITY||Normal Distribution Approximation|-6.7|||||TWO_SIDED|95.0|-63.8|50.5||||||Strain = AHK4801 - Difference in at least 4-fold response, Group A2 minus Group B||50.5|-63.8|
92268924|NCT02545868|184439582|SUPERIORITY||Normal Distribution Approximation|-61.3|||||TWO_SIDED|95.0|-80.2|-42.3||||||Strain = H1N1CA09 (Group A2 minus Group B) \[FDA\]||-42.3|-80.2|
92268925|NCT02545868|184439582|SUPERIORITY||Normal Distribution Approximation|-46.0|||||TWO_SIDED|95.0|-88.0|-4.0||||||Strain = H1N1CA09 (Group A2 minus Group B) \[Protocol\]||-4.0|-88.0|
92268926|NCT02545868|184439582|SUPERIORITY||Normal Distribution Approximation|-57.9|||||TWO_SIDED|95.0|-77.7|-38.1||||||Strain = BPHU13 (Group A2 minus Group B) \[FDA\]||-38.1|-77.7|
92268927|NCT02545868|184439582|SUPERIORITY||Normal Distribution Approximation|-55.6|||||TWO_SIDED|95.0|-88.0|-23.1||||||Strain = BPHU13 (Group A2 minus Group B) \[Protocol\]||-23.1|-88.0|
92268928|NCT02545868|184439582|SUPERIORITY||Normal Distribution Approximation|-78.5|||||TWO_SIDED|95.0|-94.8|-62.2||||||Strain = H3N2SW13 (Group A2 minus Group B) \[FDA\]||-62.2|-94.8|
92268929|NCT02545868|184439582|SUPERIORITY||Normal Distribution Approximation|-57.8|||||TWO_SIDED|95.0|-100.0|-13.4||||||Strain = H3N2SW13 (Group A2 minus Group B) \[Protocol\]||-13.4|-100.0|
92268930|NCT02545868|184439582|SUPERIORITY||Normal Distribution Approximation|-36.7|||||TWO_SIDED|95.0|-67.2|-6.1||||||Strain = BBRIS08 (Group A2 minus Group B) \[FDA\]||-6.1|-67.2|
92268931|NCT02545868|184439582|SUPERIORITY||Normal Distribution Approximation|-25.0|||||TWO_SIDED|95.0|-67.4|17.4||||||Strain = BBRIS08 (Group A2 minus Group B) \[Protocol\]||17.4|-67.4|
92268932|NCT02545868|184439582|SUPERIORITY||Normal Distribution Approximation|-6.7|||||TWO_SIDED|95.0|-63.8|50.5||||||Strain = AHK4801 (Group A2 minus Group B) \[FDA\]||50.5|-63.8|
92268933|NCT01777191|184439608|SUPERIORITY_OR_OTHER_LEGACY|||||||0.248|TWO_SIDED||||||Fisher Exact|||||||0.248
92268934|NCT01932801|184439611|SUPERIORITY|||||||0.461||||||Denotes exact fit for the omnibus model|Chi-squared|Complete omnibus model stats: χ2(18, N=308) = 17.93, CFI = 1.00, RMSEA \< .001, SRMR = .07||"We used piecewise growth modeling to test various treatment arm effects on this outcome. Because there is currently no appropriate way to report on piecewise growth models in clinicaltrials.gov reporting tables, we are reporting the omnibus model statistics on this page called analysis 1 and select parameters representing certain treatment arm effects on subsequent analysis pages. However, we note these do not constitute separate analyses, but various parameters within a single SEM model."||||.461
92268935|NCT01932801|184439611|SUPERIORITY||Slope|-0.48||||0.01|TWO_SIDED|95.0|-0.79|-0.18||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period|z score for parameters||Linear effects of HaRT-A+XR-NTX compared to services-as usual control (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-.18|-.79|.01
92268936|NCT01932801|184439611|SUPERIORITY||Slope|-0.41||||0.01|TWO_SIDED|95.0|-0.67|-0.15|||z||Linear effects of HaRT-A+XR-NTX compared to services-as usual control (one of three dummy-coded variables) during treatment period|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-.15|-.67|.01
92268937|NCT01932801|184439611|SUPERIORITY||Slope|-0.23||||0.19|TWO_SIDED|95.0|-0.52|0.06|||z||Linear effects of HaRT-A+XR-NTX compared to services-as usual control (one of three dummy-coded variables) during treatment period|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||.06|-.52|.19
92268938|NCT01932801|184439612|SUPERIORITY|||||||0.347||||||Denotes exact fit for the omnibus model|Chi-squared|complete omnibus model statistics: χ2(20, N=308) = 21.89, CFI = 1.00, RMSEA = .02, SRMR = .03||"We used piecewise growth modeling to test various treatment arm effects on this outcome. Because there is currently no appropriate way to report on piecewise growth models in clinicaltrials.gov reporting tables, we are reporting the omnibus model statistics on this page called analysis 1 and select parameters representing certain treatment arm effects on subsequent analysis pages. However, we note these do not constitute separate analyses, but various parameters within a single SEM model."||||.347
92268939|NCT01932801|184439612|SUPERIORITY||Slope|-2.22||||0.002|TWO_SIDED|95.0|-3.39|-1.06||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-1.06|-3.39|.002
92268940|NCT01932801|184439612|SUPERIORITY||Slope|-0.82||||0.208|TWO_SIDED|95.0|-1.89|0.25||Linear effects of HaRT-A+placebo compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A+placebo compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||.25|-1.89|.208
92268941|NCT01932801|184439612|SUPERIORITY||Slope|-1.58||||0.025|TWO_SIDED|95.0|-2.73|-0.42||Linear effects of HaRT-A only compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A only compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-.42|-2.73|.025
92268942|NCT01932801|184439613|SUPERIORITY|||||||0.028||||||"p value reflects omnibus model close fit"|Chi-squared|χ2(13, N=308) = 24.34, CFI = .98, RMSEA = .05, SRMR = .03||"We used piecewise growth modeling to test various treatment arm effects on this outcome. Because there is currently no appropriate way to report on piecewise growth models in clinicaltrials.gov reporting tables, we are reporting the omnibus model statistics on this page called analysis 1 and select parameters representing certain treatment arm effects on subsequent analysis pages. However, we note these do not constitute separate analyses, but various parameters within a single SEM model."||||.028
92268943|NCT01932801|184439613|SUPERIORITY||Slope|-4.42||||0.047|TWO_SIDED|95.0|-8.09|-0.76||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-.76|-8.09|.047
92268944|NCT01932801|184439613|SUPERIORITY||Slope|-5.95||||0.009|TWO_SIDED|95.0|-9.72|-2.19||Linear effects of HaRT-A+placebo compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A+placebo compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-2.19|-9.72|.009
92268945|NCT01932801|184439613|SUPERIORITY||Slope|-4.12||||0.072|TWO_SIDED|95.0|-7.88|-0.36||Linear effects of HaRT-A only compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A only compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-.36|-7.88|.072
92268946|NCT01932801|184439614|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.24||0.6|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the XR-NTX vs control group effects on alcohol frequency.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.6
92268947|NCT01932801|184439614|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.18||0.83|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the XR-NTX vs control group effects on alcohol frequency.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.83
92268948|NCT01932801|184439614|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.17||0.89|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the HaRT-A vs control group effects on alcohol frequency.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.89
92268949|NCT01932801|184439614|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.65|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the XR-NTX vs control group effects on alcohol quantity.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.65
92268950|NCT01932801|184439614|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.003|STANDARD_ERROR_OF_MEAN|0.02||0.87|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the placebo vs control group effects on alcohol quantity.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.87
92268951|NCT01932801|184439614|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.002|STANDARD_ERROR_OF_MEAN|0.02||0.91|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the HaRT-A vs control group effects on alcohol quantity.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.91
92268952|NCT01932801|184439614|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|0.24|STANDARD_ERROR_OF_MEAN|0.38||0.54|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all 4 treatment arms; however, this specific contrast is for the XR-NTX vs control group effects on alcohol related harm.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.54
92327602|NCT04676412|184560349|OTHER||Hazard Ratio (HR)|1.53||||0.8197|TWO_SIDED|95.0|0.61|3.87|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of enrolling site and baseline PD-L1 status.||HR and 95% CIs were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 status (1-49% versus ≥50%).||3.87|0.61|0.81970
92268953|NCT01932801|184439614|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|0.06|STANDARD_ERROR_OF_MEAN|0.32||0.84|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all 4 treatment arms; however, this specific contrast is for the placebo vs control effects on alcohol-related harm.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.84
92268954|NCT01932801|184439614|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|0.06|STANDARD_ERROR_OF_MEAN|0.29||0.84|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all 4 treatment arms; however, this specific contrast is for the HaRT-A vs control group effects on alcohol related harm|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.84
92268955|NCT01932801|184439615|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.41|STANDARD_ERROR_OF_MEAN|0.9||0.65|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails two treatment arms: XR-NTX vs placebo effects on alcohol frequency and alcohol craving (PACS).|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of the craving (PACS) slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.65
92268956|NCT01932801|184439615|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.04||0.46|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails 2 treatment arms: XR-NTX vs placebo effects on craving and alcohol quantity.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of the alcohol craving (PACS) slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.46
92268957|NCT01932801|184439615|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.57|STANDARD_ERROR_OF_MEAN|0.75||0.45|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails two treatment arms: XR-NTX vs placebo effects on craving and alcohol-related harm|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of alcohol craving (PACS) slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.45
92268958|NCT01932801|184439616|SUPERIORITY|||||||0.95||||||Denotes exact fit for the omnibus model|Chi-squared|Complete omnibus model : χ2(12, N=308) = .75, CFI = 1.00, RMSEA \< .001, SRMR = .008||"We used piecewise growth modeling to test various treatment arm effects on this outcome. Because there is currently no appropriate way to report on piecewise growth models in clinicaltrials.gov reporting tables, we are reporting the omnibus model statistics on this page called analysis 1 and select parameters representing certain treatment arm effects on subsequent analysis pages. However, we note these do not constitute separate analyses, but various parameters within a single SEM model."||||.95
92268959|NCT01932801|184439616|SUPERIORITY||Slope|-0.04||||0.75|TWO_SIDED|95.0|-0.24|0.16||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period (one of three dummy-coded variables)|Chi-squared|||"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model."||.16|-.24|.75
92268960|NCT01932801|184439616|SUPERIORITY||Slope|-0.15||||0.2|TWO_SIDED|95.0|-0.34|0.04|||Chi-squared|Linear effects of HaRT-A+placebo compared to services-as usual control during treatment period (one of three dummy-coded variables)||"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model."||.04|-.34|.20
92327603|NCT03315455|184560379|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.016|0.084||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm A vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.084|0.016|<0.0001
92327604|NCT03315455|184560379|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.015|0.082||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm B vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.082|0.015|<0.0001
92268961|NCT01932801|184439616|SUPERIORITY||Slope|0.1||||0.39|TWO_SIDED|95.0|-0.09|0.29|||Chi-squared|Linear effects of HaRT-A compared to services-as usual control during treatment period (one of three dummy-coded variables)||"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model."||.29|-.09|.39
92327605|NCT03315455|184560382|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.026|0.084||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm A vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.084|0.026|<0.0001
92327606|NCT03315455|184560382|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.028|0.092||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm B vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.092|0.028|<0.0001
92268962|NCT01932801|184439617|SUPERIORITY||incident rate ratio|0.98|||>|0.84|TWO_SIDED|95.0|0.83|1.16|||z|||We conducted a generalized estimating equations analysis (negative binomial distribution, log link) to test whether number of adverse events reported increased from baseline to the follow-ups differentially across placebo and XR-NTX groups||1.16|.83|>.84
92268963|NCT00568776|184439637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.71|TWO_SIDED|95.0|-0.14|0.21|||Mixed Models Analysis|||||0.21|-0.14|0.71
92268964|NCT00568776|184439638|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.56|STANDARD_ERROR_OF_MEAN|1.9||0.18|TWO_SIDED|95.0|-6.33|1.22|||Mixed Models Analysis|||||1.22|-6.33|0.18
92268965|NCT00568776|184439639|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.11||0.17|TWO_SIDED|95.0|-0.06|0.36|||Mixed Models Analysis|||||0.36|-0.06|0.17
92268966|NCT00568776|184439640|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.39|STANDARD_ERROR_OF_MEAN|2.03||0.49|TWO_SIDED|95.0|-5.41|2.62|||Mixed Models Analysis|||||2.62|-5.41|0.49
92268967|NCT00568776|184439641|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|2.2||0.77|TWO_SIDED|95.0|-3.73|5.03|||Mixed Models Analysis|||||5.03|-3.73|0.77
92268968|NCT00568776|184439642|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.47||0.54|TWO_SIDED|95.0|-0.63|1.21|||Mixed Models Analysis|||||1.21|-0.63|0.54
92268969|NCT00568776|184439643|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.02|STANDARD_ERROR_OF_MEAN|2.24||0.65|TWO_SIDED|95.0|-3.43|5.46|||Mixed Models Analysis|||||5.46|-3.43|0.65
92268970|NCT01563029|184439663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.0|||<|0.001|TWO_SIDED|95.0|9.6|22.4|||ANCOVA|Gate-keeper analysis||||22.4|9.6|<0.001
92268971|NCT01563029|184439663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|||<|0.001|TWO_SIDED|95.0|5.1|19.8|||ANCOVA||Inference for FF 100 μg versus (vs) placebo and FF 50 ug versus placebo was dependent upon statistical significance (SS) having first been achieved for the average of the higher two doses of FF (FF 100 ug and 50 ug ) versus placebo comparison.|||19.8|5.1|<0.001
92268972|NCT01563029|184439663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.5|||<|0.001|TWO_SIDED|95.0|12.1|26.9|||ANCOVA||Inference for FF 100 µg versus (vs) placebo and FF 50 ug versus placebo was dependent upon statistical significance (SS) having first been achieved for the average of the higher two doses of FF (FF 100 ug and 50 ug ) versus placebo comparsion.|||26.9|12.1|<0.001
92268973|NCT01563029|184439663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.6|||<|0.001|TWO_SIDED|95.0|11.3|26.0|||ANCOVA||Inference for FF 25 ug versus placebo was dependent upon statistical significance (SS) having first been achieved for both the FF 100 ug versus placebo comparison and the FF 50 ug versus placebocomparison.|||26.0|11.3|<0.001
92268974|NCT01563029|184439663|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|14.0|||<|0.001|TWO_SIDED|95.0|6.7|21.4|||ANCOVA|||||21.4|6.7|<0.001
92268975|NCT01563029|184439664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|||<|0.001|TWO_SIDED|95.0|0.051|0.201|||ANCOVA|||||0.201|0.051|<0.001
92268976|NCT01563029|184439664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022||||0.551|TWO_SIDED|95.0|-0.05|0.094|||ANCOVA|||||0.094|-0.050|0.551
92268977|NCT01563029|184439664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033||||0.379|TWO_SIDED|95.0|-0.041|0.108|||ANCOVA|||||0.108|-0.041|0.379
92268978|NCT01563029|184439664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064||||0.089|TWO_SIDED|95.0|-0.01|0.137|||ANCOVA|||||0.137|-0.010|0.089
92268979|NCT01563029|184439665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4||||0.05|TWO_SIDED|95.0|0.0|16.9|||ANCOVA|||||16.9|0.0|0.050
92268980|NCT01563029|184439665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.8||||0.023|TWO_SIDED|95.0|1.3|18.2|||ANCOVA|||||18.2|1.3|0.023
92268981|NCT01563029|184439665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.2||||0.004|TWO_SIDED|95.0|3.8|20.5|||ANCOVA|||||20.5|3.8|0.004
92268982|NCT01563029|184439665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2||||0.143|TWO_SIDED|95.0|-2.1|14.6|||ANCOVA|||||14.6|-2.1|0.143
92268983|NCT01563029|184439666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.2||||0.005|TWO_SIDED|95.0|3.4|19.0|||ANCOVA|||||19.0|3.4|0.005
92268984|NCT01563029|184439666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.4|||<|0.001|TWO_SIDED|95.0|5.7|21.1|||ANCOVA|||||21.1|5.7|<0.001
92268985|NCT01563029|184439666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4|||<|0.033|TWO_SIDED|95.0|0.7|16.1|||ANCOVA|||||16.1|0.7|<0.033
92268986|NCT01563029|184439666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.0||||0.042|TWO_SIDED|95.0|0.3|15.7|||ANCOVA|||||15.7|0.3|0.042
92268987|NCT01563029|184439667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.2||||0.037|TWO_SIDED|95.0|0.7|21.7|||ANCOVA|||||21.7|0.7|0.037
92268988|NCT01563029|184439667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.1||||0.014|TWO_SIDED|95.0|2.6|23.6|||ANCOVA|||||23.6|2.6|0.014
92268989|NCT01563029|184439667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9||||0.266|TWO_SIDED|95.0|-4.5|16.3|||ANCOVA|||||16.3|-4.5|0.266
92268990|NCT01563029|184439667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2||||0.242|TWO_SIDED|95.0|-4.2|16.6|||ANCOVA|||||16.6|-4.2|0.242
92268991|NCT01563029|184439668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.6|||<|0.001|TWO_SIDED|95.0|10.0|31.3|||ANCOVA|||||31.3|10.0|<0.001
92268992|NCT01563029|184439668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.9||||0.001|TWO_SIDED|95.0|7.2|28.6|||ANCOVA|||||28.6|7.2|0.001
92268993|NCT01563029|184439668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.5||||0.033|TWO_SIDED|95.0|0.9|22.1|||ANCOVA|||||22.1|0.9|0.033
92268994|NCT01563029|184439668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.7||||0.002|TWO_SIDED|95.0|6.0|27.3|||ANCOVA|||||27.3|6.0|0.002
92268995|NCT01563029|184439669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.619|TWO_SIDED|95.0|-6.1|10.2|||ANCOVA|||||10.2|-6.1|0.619
92268996|NCT01563029|184439669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8||||0.161||95.0|-2.3|13.9|||ANCOVA|||||13.9|-2.3|0.161
92268997|NCT01563029|184439669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9||||0.34|TWO_SIDED|95.0|-4.1|12.0|||ANCOVA|||||12.0|-4.1|0.340
92268998|NCT01563029|184439669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.459|TWO_SIDED|95.0|-5.0|11.1|||ANCOVA|||||11.1|-5.0|0.459
92268999|NCT01563029|184439670|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92269000|NCT01563029|184439670|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Fisher Exact|||||||0.006
92269001|NCT01563029|184439670|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||||||0.003
92269002|NCT01563029|184439670|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92269003|NCT02780115|184439674|SUPERIORITY||LS Mean Diff|1.96||||0.1663|TWO_SIDED|95.0|-0.83|4.74|||ANCOVA|||||4.74|-0.83|0.1663
92269004|NCT02780115|184439674|SUPERIORITY||LS Mean Diff|4.77||||0.0009|TWO_SIDED|95.0|1.98|7.56|||ANCOVA|||||7.56|1.98|0.0009
92269005|NCT02780115|184439674|SUPERIORITY||LS Mean Diff|4.54||||0.0014|TWO_SIDED|95.0|1.79|7.29|||ANCOVA|||||7.29|1.79|0.0014
92269006|NCT02780115|184439674|SUPERIORITY||LS Mean Diff|4.81||||0.0008|TWO_SIDED|95.0|2.03|7.58|||ANCOVA|||||7.58|2.03|0.0008
92269007|NCT02723786|184439717|OTHER||||||||||||||||||The proportion of participants with DGF was 0.57, highest Posterior Density (HPD) 95% Credible interval (CI) (0.25,0.90). The posterior probability for the proportion of participants with DGF \<30% was 0.07 (HPD 95% CI \[0.00,1.00\]). The posterior probability for the proportion of participants with DGF \<50% was 0.34 (HPD 95% CI \[0.00,1.00\]).|||
92269008|NCT00127192|184439741|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-3.6|||<|0.001||95.0|-4.3|-3.0||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-3.0|-4.3|<0.001
92269009|NCT00127192|184439741|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-3.2|||<|0.001||95.0|-3.9|-2.6||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-2.6|-3.9|<0.001
92269010|NCT00127192|184439741|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-3.3|||<|0.001||95.0|-3.9|-2.7||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-2.7|-3.9|<0.001
92269011|NCT00127192|184439741|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-2.6|||<|0.001||95.0|-3.2|-2.0||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-2.0|-3.2|<0.001
92269012|NCT00127192|184439742|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Tukeys linear trend test based on ANCOVA|Linear contrast including all groups was tested using ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline||||||<0.001
92269013|NCT00127192|184439742|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-1.04|||<|0.001||95.0|-1.21|-0.86||No multiplicity adjustment was done between trend test of primary analysis and pairwise comparisons, but the multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-0.86|-1.21|<0.001
92269014|NCT00127192|184439742|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-0.96|||<|0.001||95.0|-1.14|-0.79||No multiplicity adjustment was done between trend test of primary analysis and pairwise comparisons, the multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-0.79|-1.14|<0.001
92269015|NCT00127192|184439742|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-0.99|||<|0.001||95.0|-1.16|-0.82||No multiplicity adjustment was done between trend test of primary analysis and pairwise comparisons, the multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-0.82|-1.16|<0.001
92269016|NCT00127192|184439742|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-0.69|||<|0.001||95.0|-0.85|-0.52||No multiplicity adjustment was done between trend test of primary analysis and pairwise comparisons, the multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-0.52|-0.85|<0.001
92269017|NCT00127192|184439743|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-23.2|||<|0.001||95.0|-29.8|-16.6||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-16.6|-29.8|<0.001
92269018|NCT00127192|184439743|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-20.8|||<|0.001||95.0|-27.4|-14.3||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-14.3|-27.4|<0.001
92269019|NCT00127192|184439743|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-17.7|||<|0.001||95.0|-24.2|-11.2||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-11.2|-24.2|<0.001
92269020|NCT00127192|184439743|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-15.9|||<|0.001||95.0|-22.3|-9.6||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-9.6|-22.3|<0.001
92269021|NCT00703261|184439744|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||cLDA|||Constrained longitudinal data analysis (cLDA)||||0.006
92269022|NCT00703261|184439744|SUPERIORITY_OR_OTHER|||||||0.277||95.0|||||cLDA|||||||0.277
92269023|NCT00703261|184439744|SUPERIORITY_OR_OTHER||Percent Reduction|4.5||||0.088|TWO_SIDED|90.0|-1.0|9.6|||cLDA|||||9.6|-1.0|0.088
92269024|NCT00703261|184439745|SUPERIORITY_OR_OTHER|||||||0.195||95.0|||||cLDA|||||||0.195
92269025|NCT03170271|184439746|SUPERIORITY|The null hypothesis was that the exacerbation rate of benralizumab was equal to the exacerbation rate of placebo.|Rate ratio|0.51|||<|0.0001|TWO_SIDED|95.0|0.39|0.65|||Negative binomial|||Comparison of annual exacerbation rates for benralizumab vs placebo (rate ratio). Treatment group, region, number of exacerbations in previous year and maintenance OCS use at baseline were included in the negative binomial model as covariates. The log of each patient's corresponding follow-up time was used as an offset variable in the model to adjust for patients having different follow-up times during which events occurred.||0.65|0.39|<0.0001
92269026|NCT03170271|184439747|SUPERIORITY||LS Mean difference|-8.11|||<|0.0001|TWO_SIDED|95.0|-11.41|-4.82|||Repeated measures analysis||Model: Change from baseline in SGRQ total score = Treatment + baseline SGRQ total score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SGRQ total score at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a mixed-effect model for repeated measures (MMRM) analysis.||-4.82|-11.41|<0.0001
92269027|NCT03170271|184439748|SUPERIORITY||LS Mean difference|0.16|||<|0.0001|TWO_SIDED|95.0|0.09|0.23|||Repeated measures analysis||Model: Change from baseline in pre-BD FEV1 = Treatment + baseline pre-BD FEV1 + region + number of exacerbations in previous year + maintenance OCS use at baseline + gender + age + visit + treatment by visit.|Change from baseline in pre-BD FEV1 at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||0.23|0.09|<0.0001
92269028|NCT03170271|184439749|SUPERIORITY||LS Mean difference|-0.46|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.27|||Repeated measures analysis||Model: Change from baseline in ACQ-6 score = Treatment + baseline ACQ-6 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in ACQ-6 score at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||-0.27|-0.65|<0.0001
92269029|NCT03170271|184439750|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.67|||Regression, Cox||A hazard ratio \< 1 favours benralizumab to be associated with a longer time from randomization to the first exacerbation than placebo.|Comparison of time to first asthma exacerbation for benralizumab vs placebo. Treatment group, region, number of exacerbations in previous year and maintenance OCS use at baseline were included in the Cox proportional hazard model as covariates.||0.67|0.40|<0.0001
92269030|NCT03170271|184439751|SUPERIORITY||LS Mean difference|20.11||||0.0031|TWO_SIDED|95.0|6.79|33.44|||Repeated measures analysis||Model: Change from baseline in PEF = Treatment + baseline PEF + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from run-in baseline in morning PEF at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||33.44|6.79|0.0031
92269031|NCT03170271|184439751|SUPERIORITY||LS Mean Difference|23.09||||0.0008|TWO_SIDED|95.0|9.62|36.55|||Repeated measures analysis||Model: Change from baseline in PEF = Treatment + baseline PEF + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from run-in baseline in evening PEF at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||36.55|9.62|0.0008
92269032|NCT03170271|184439752|SUPERIORITY||LS Mean difference|5.35||||0.0077|TWO_SIDED|95.0|1.42|9.28|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for physical functioning at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||9.28|1.42|0.0077
92269033|NCT03170271|184439752|SUPERIORITY||LS Mean Difference|6.8||||0.0022|TWO_SIDED|95.0|2.45|11.14|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for role limitations due to physical health at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||11.14|2.45|0.0022
92269034|NCT03170271|184439752|SUPERIORITY||LS Mean Difference|3.07||||0.1741|TWO_SIDED|95.0|-1.36|7.5|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for bodily pain at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||7.50|-1.36|0.1741
92269035|NCT03170271|184439752|SUPERIORITY||LS Mean Difference|5.62||||0.0009|TWO_SIDED|95.0|2.32|8.92|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for general health perceptions at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||8.92|2.32|0.0009
92269036|NCT03170271|184439752|SUPERIORITY||LS Mean Difference|5.51||||0.0025|TWO_SIDED|95.0|1.95|9.08|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for vitality at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||9.08|1.95|0.0025
92269037|NCT03170271|184439752|SUPERIORITY||LS Mean Difference|3.12||||0.1583|TWO_SIDED|95.0|-1.22|7.46|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for social functioning at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||7.46|-1.22|0.1583
92269038|NCT03170271|184439752|SUPERIORITY||LS Mean Difference|2.44||||0.2103|TWO_SIDED|95.0|-1.38|6.27|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for role limitations due to emotional problems at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||6.27|-1.38|0.2103
92269039|NCT03170271|184439752|SUPERIORITY||LS Mean Difference|1.68||||0.2581|TWO_SIDED|95.0|-1.23|4.59|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for mental health at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||4.59|-1.23|0.2581
92269040|NCT03170271|184439752|SUPERIORITY||LS Mean Difference|2.32||||0.0022|TWO_SIDED|95.0|0.84|3.81|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 physical health component summary score at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||3.81|0.84|0.0022
92269041|NCT03170271|184439752|SUPERIORITY||LS Mean Difference|0.87||||0.2751|TWO_SIDED|95.0|-0.7|2.44|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 mental health component summary score at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||2.44|-0.70|0.2751
92269042|NCT03170271|184439753|SUPERIORITY||Odds Ratio (OR)|1.55||||0.0233|TWO_SIDED|95.0|1.06|2.25|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + baseline score + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a responder classified as type 'Improvement' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||2.25|1.06|0.0233
92269043|NCT03170271|184439753|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0401|TWO_SIDED|95.0|1.02|2.16|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + baseline score + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a responder classified as type 'Important Improvement' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||2.16|1.02|0.0401
92269044|NCT03170271|184439754|SUPERIORITY||Odds Ratio (OR)|2.05|||<|0.0001|TWO_SIDED|95.0|1.47|2.86|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a CGI-C responder classified as type 'Much improved' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||2.86|1.47|<0.0001
92269045|NCT03170271|184439754|SUPERIORITY||Odds Ratio (OR)|3.45||||0.0003|TWO_SIDED|95.0|1.77|6.7|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a CGI-C responder classified as type 'Very much improved' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||6.70|1.77|0.0003
92269046|NCT03170271|184439754|SUPERIORITY||Odds Ratio (OR)|2.06|||<|0.0001|TWO_SIDED|95.0|1.48|2.87|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a PGI-C responder classified as type 'Much improved' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||2.87|1.48|<0.0001
92269047|NCT03170271|184439754|SUPERIORITY||Odds Ratio (OR)|3.02|||<|0.0001|TWO_SIDED|95.0|2.02|4.51|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a PGI-C responder classified as type 'Very much improved' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||4.51|2.02|<0.0001
92269048|NCT03170271|184439755|SUPERIORITY||LS Mean difference|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.62|-0.68|||Repeated measures analysis||Model: Change from baseline in average PSIA score (top 3 ranked) =Treatment + baseline average PSIA score (top 3 ranked) + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in PSIA severity score for the average of top 3 ranked symptoms/impairments at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||-0.68|-1.62|<0.0001
92269049|NCT03170271|184439755|SUPERIORITY||LS Mean difference|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.64|-0.66|||Repeated measures analysis||Model: Change from baseline in PSIA score (top ranked) =Treatment + baseline PSIA score (top ranked) + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in PSIA severity score of top ranked symptom/impairment at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||-0.66|-1.64|<0.0001
92269050|NCT03170271|184439756|SUPERIORITY||LS Mean difference|-8.91||||0.0204|TWO_SIDED|95.0|-16.42|-1.4|||Repeated measures analysis||Model: Change from baseline in SNOT-22 total score = Treatment + baseline SNOT-22 total score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SNOT-22 total score at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||-1.40|-16.42|0.0204
92269051|NCT02701049|184439773|OTHER|Among 109,994 patients who entered the ED during Mode 1, 19,742 had SOGI collected (18%). Among 88,143 patients who entered the ED during Mode 2, 3,630 had SOGI collected (4%).||||||||||||||||Historical controls included all patients entering participating EDs as identified by the Electronic Health Record.|Results were compared to historical control population from an electronic health record database, no other data were collected for these participants.|||
92269052|NCT01612780|184439791|SUPERIORITY||||||<|0.0001||||||Values of p \<0.05 were deemed statistically significant.|t-test, 2 sided|||Study sample size was established to test the hypothesis that the mean SNOT-20 score is reduced by at least 0.8 points from baseline to 1 year post procedure. Using this delta, a 1-sided alpha of 0.25, and 90% power, a sample size of 19 participants was adequate to test the hypothesis.||||<0.0001
92269053|NCT03466060|184439794|SUPERIORITY||Posterior mean difference|-2.1|STANDARD_DEVIATION|2.23|||TWO_SIDED|95.0|-6.4|2.3||95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|bayesian multivariate hierarachical||Posterior mean difference was calculated as Test-Control.|1-Minute Follow-up Analysis||2.3|-6.4|
92269054|NCT03466060|184439794|SUPERIORITY||Posertior Mean Difference|-2.5|STANDARD_DEVIATION|2.16|||TWO_SIDED|95.0|-6.8|1.7||95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|Bayesian Multivariate Hierarchical Model||Posterior mean difference was calculated as Test-Control.|5-minute Follow-up Analysis||1.7|-6.8|
92269055|NCT03466060|184439794|SUPERIORITY||Posterior Mean Difference|-2.7|STANDARD_DEVIATION|2.1|||TWO_SIDED|95.0|-6.9|1.5||95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|Bayesian multivariate hierarchical model||Posterior mean difference was calculated as Test-Control.|45-Minute Follolw-up Analysis||1.5|-6.9|
92269056|NCT03466060|184439794|SUPERIORITY||Posterior Mean Difference|-2.5|STANDARD_DEVIATION|2.01|||TWO_SIDED|95.0|-6.5|1.4|||Bayesian Multivariate Heirarchical Model||Posterior mean difference was calculated as Test-Control.|2-Hour Follow-up Analysis||1.4|-6.5|
92269057|NCT03466060|184439794|SUPERIORITY||Posterior Mean Difference|-1.1|STANDARD_DEVIATION|2.28|||TWO_SIDED|95.0|-5.8|3.1|||Bayesian Multivariate Heirarchical Model||Posterior mean difference was calculated as Test-Control.|1-Minute Follow-up Analysis||3.1|-5.8|
92269058|NCT03466060|184439794|SUPERIORITY|95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|Posterior Mean Difference|-0.7|STANDARD_DEVIATION|2.2|||TWO_SIDED|95.0|-5.0|3.6|||Bayesian Multivariate Heirarchical Model||Posterior mean difference was calculated as Test-Control.|5-Minute Follow-up Analysis||3.6|-5.0|
92269059|NCT03466060|184439794|NON_INFERIORITY|95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|Posterior Mean Difference|-2.0|STANDARD_DEVIATION|2.16|||TWO_SIDED|95.0|-6.4|2.3|||Bayesian Multivariate Hierarchical Model||Posterior mean difference was calculated as Test-Control.|45-Minute Follow-up Analysis||2.3|-6.4|
92269060|NCT03466060|184439794|SUPERIORITY||Posterior Mean Difference|-1.5|STANDARD_DEVIATION|2.1|||TWO_SIDED|95.0|-5.8|2.5||95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|Bayesian Mutlivariate Hiearachical Model||Posterior mean difference was calculated as Test-Control.|2-Hour Follow-up Analysis||2.5|-5.8|
92269061|NCT01610284|184439823|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.78|||<|0.001|TWO_SIDED|95.0|0.67|0.89|||Log Rank|||FAS-Full population||0.89|0.67|<0.001
92269062|NCT01610284|184439823|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.8||||0.003|TWO_SIDED|95.0|0.68|0.94|||Log Rank|||FAS-Main cohort||0.94|0.68|0.003
92269063|NCT01610284|184439823|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.76||||0.015|TWO_SIDED|95.0|0.6|0.97|||Log Rank|||FAS-PI3K pathway activated||0.97|0.60|0.015
92269064|NCT01610284|184439823|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.67|1.03||||||FAS-PI3K pathway non-activated||1.03|0.67|
92269065|NCT01610284|184439823|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.52|0.94||||||FAS-PI3K pathway unknown||0.94|0.52|
92269066|NCT01610284|184439824|OTHER|Comparison of overall survival (OS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.87||||0.045|TWO_SIDED|95.0|0.74|1.02|||Log Rank|||FAS-Full population||1.02|0.74|0.045
92269067|NCT01610284|184439824|OTHER|Comparison of overall survival (OS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.91||||0.144|TWO_SIDED|95.0|0.75|1.09|||Log Rank|||FAS-Main cohort||1.09|0.75|0.144
92269068|NCT01610284|184439824|OTHER|Comparison of overall survival (OS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.61|1.08||||||FAS-PI3K pathway activated||1.08|0.61|
92269069|NCT01610284|184439824|OTHER|Comparison of overall survival (OS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.77|1.24||||||FAS-PI3K pathway non-activated||1.24|0.77|
92269070|NCT01610284|184439824|OTHER|Comparison of overall survival (OS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.52|1.06||||||FAS-PI3K pathway unknown||1.06|0.52|
92269071|NCT01856257|184439835|SUPERIORITY||Mean Difference (Final Values)|3.512||||0.544|TWO_SIDED|95.0|-7.999|15.024|||Mixed Models Analysis||The p-value, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from weeks 4, 12, 28, 36, and 52 to compare Group 2 to Group 1.|||15.024|-7.999|0.544
92269072|NCT01856257|184439835|SUPERIORITY||Mean Difference (Final Values)|4.82||||0.531|TWO_SIDED|95.0|-10.481|20.121|||Mixed Models Analysis||P-value estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from weeks 4, 12, 28, 36, and 52 to compare Group 3 to Group 1.|||20.121|-10.481|0.531
92269073|NCT02115373|184439868|OTHER||Median|2.07|||||TWO_SIDED|90.0|1.446|7.195|||||TTP in months was calculated for Phase 1b: Tepotinib 300 mg and Phase 1b: Tepotinib 500 mg combined.|||7.195|1.446|
92269074|NCT02115373|184439868|OTHER||Median|3.98|||||TWO_SIDED|90.0|2.858|4.238|||||TTP in months was calculated for Phase 2: Tepotinib 500 mg.|||4.238|2.858|
92269075|NCT02115373|184439869|OTHER||Median|1.51|||||TWO_SIDED|90.0|1.413|3.68|||||PFS time in months was calculated for Phase 1b: Tepotinib 300 mg and Phase 1b: Tepotinib 500 mg combined.|||3.680|1.413|
92269076|NCT02115373|184439869|OTHER||Median|3.22|||||TWO_SIDED|90.0|0.03|16.53|||||PFS time in months was calculated for Phase 2: Tepotinib 500 mg.|||16.53|0.03|
92269077|NCT02115373|184439870|OTHER||Median|1.48|||||TWO_SIDED|90.0|1.413|3.844|||||PFS time in months was calculated for Phase 1b: Tepotinib 300 mg and Phase 1b: Tepotinib 500 mg combined.|||3.844|1.413|
92269078|NCT02115373|184439870|OTHER||Median|3.35|||||TWO_SIDED|90.0|2.76|4.172|||||PFS time in months was was calculated for Phase 2: Tepotinib 500 mg.|||4.172|2.760|
92269079|NCT02115373|184439872|OTHER||Median|7.2|||||TWO_SIDED|90.0|3.68|10.119|||||Overall Survival time in months was calculated for Phase 1b: Tepotinib 300 mg and Phase 1b: Tepotinib 500 mg combined.|||10.119|3.680|
92269080|NCT02115373|184439872|OTHER||Median|5.55|||||TWO_SIDED|90.0|5.092|8.181|||||Overall Survival time in months was calculated for Phase 2: Tepotinib 500 mg.|||8.181|5.092|
92269081|NCT01984229|184439923|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|118.0|||||TWO_SIDED|90.0|102.0|137.0|||||The reported values are percentages of geometric least square mean ratio.|Analysis of variance (ANOVA) was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and confidence intervals (CIs).||137|102|
92269082|NCT01984229|184439924|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|177.0|||||TWO_SIDED|90.0|159.0|198.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and CIs.||198|159|
92269083|NCT01984229|184439925|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|175.0|||||TWO_SIDED|90.0|157.0|195.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and CIs.||195|157|
92269084|NCT01984229|184439929|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|28.7|||||TWO_SIDED|90.0|23.1|35.5|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and CIs.||35.5|23.1|
92269085|NCT01984229|184439930|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|66.2|||||TWO_SIDED|90.0|56.7|77.4|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and CIs.||77.4|56.7|
92269086|NCT01984229|184439931|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|75.1|||||TWO_SIDED|90.0|64.4|87.7|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and CIs.||87.7|64.4|
92269087|NCT02072174|184439942|SUPERIORITY|||||||0.0242|||||||Kruskal-Wallis|||||||0.0242
92269088|NCT02072174|184439943|SUPERIORITY|||||||0.0026|||||||Cochran-Mantel-Haenszel|||patient diary data||||0.0026
92269089|NCT02072174|184439943|SUPERIORITY|||||||0.0127|||||||Cochran-Mantel-Haenszel|||doctor's examination data||||0.0127
92269090|NCT02072174|184439944|SUPERIORITY|||||||0.0394||||||"The p-value associated with treatment factor of variable on day 2, 3, 4 and 5 between Anaferon for Children and Placebo. Model includes treatment, visit, treatment\*visit interaction, Day 1 covariate. Treatment\*visit interaction p-value is 0.3220."|Mixed Models Analysis|||||||0.0394
92269091|NCT02072174|184439944|SUPERIORITY|||||||0.322||||||"The p-value associated with treatment\*visit interaction factor of variable on day 2, 3, 4 and 5 between Anaferon for Children and Placebo. Model includes treatment, visit, treatment\*visit interaction, Day 1 covariate."|Mixed Models Analysis|||||||0.3220
92269092|NCT02072174|184439945|SUPERIORITY|||||||0.0043|||||||Cochran-Mantel-Haenszel|||||||0.0043
92269093|NCT02072174|184439946|SUPERIORITY|||||||0.0104||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 2 (patient diary data)||||0.0104
92269094|NCT02072174|184439946|SUPERIORITY|||||||0.0041||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 3 (patient diary data)||||0.0041
92269095|NCT02072174|184439946|SUPERIORITY|||||||0.0484||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 4 (patient diary data)||||0.0484
92269096|NCT02072174|184439946|SUPERIORITY|||||||0.0603||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 5 (patient diary data)||||0.0603
92269097|NCT02072174|184439946|SUPERIORITY|||||||0.0056||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 3 (doctor's examination)||||0.0056
92269098|NCT02072174|184439946|SUPERIORITY|||||||0.0994||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 5 (doctor's examination)||||0.0994
92269099|NCT02072174|184439947|SUPERIORITY|||||||0.0084|||||||Kruskal-Wallis|||Days 1-7 (patient diary data)||||0.0084
92269100|NCT02072174|184439947|SUPERIORITY|||||||0.0233|||||||Kruskal-Wallis|||Days 1, 3, 5 and 7 (doctor's examination)||||0.0233
92269101|NCT02072174|184439948|SUPERIORITY|||||||0.0721|||||||Mixed Models Analysis|||||||0.0721
92269102|NCT02072174|184439949|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
92269103|NCT02072174|184439950|SUPERIORITY|||||||0.3383|||||||Fisher Exact|||||||0.3383
92269104|NCT05674721|184439951|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per Food and Drug Administration (FDA) requirements if the 90 percent (%) confidence intervals (CIs) for the ratio of the geometric means of Cmax were between 80% and 125%.|Ratio of Geometric Least Square Mean|95.13|||||TWO_SIDED|90.0|88.31|102.47||||||||102.47|88.31|
92269105|NCT05674721|184439952|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per FDA if the 90% CIs for the ratio of the geometric means of Cmax were between 80% and 125%.|Ratio of Geometric Least Square Mean|102.51|||||TWO_SIDED|90.0|93.54|112.35||||||||112.35|93.54|
92269106|NCT05674721|184439953|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per FDA if the 90% CIs for the ratio of the geometric means of AUC0-t were between 80% and 125%.|Ratio of Geometric Least Square Mean|99.15|||||TWO_SIDED|90.0|96.76|101.61||||||||101.61|96.76|
92269107|NCT05674721|184439954|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per FDA if the 90% CIs for the ratio of the geometric means of AUC0-t were between 80% and 125%.|Ratio of Geometric Least Square Mean|102.62|||||TWO_SIDED|90.0|98.15|107.3||||||||107.30|98.15|
92269108|NCT05674721|184439955|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per FDA if the 90% CIs for the ratio of the geometric means of AUC0-inf were between 80% and 125%.|Ratio of Geometric Least Square Mean|99.2|||||TWO_SIDED|90.0|96.82|101.63||||||||101.63|96.82|
92269109|NCT05674721|184439956|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per FDA if the 90% CIs for the ratio of the geometric means of AUC0-inf were between 80% and 125%.|Ratio of Geometric Least Square Mean|102.73|||||TWO_SIDED|90.0|98.31|107.34||||||||107.34|98.31|
92269110|NCT04466956|184439981|OTHER|Statistical analysis was by intention-to-treat including all randomised participants, using Stata-12 software. Continuous data were summarised as mean and standard deviation, and categorical data as counts and percentages. Between group differences were reported with 95% confidence intervals, and p-values, using t-test to compare normally distributed data and chi-squared tests to compare categorical data.|||||<|0.01|TWO_SIDED|95.0||||Between group differences were reported with 95% confidence intervals, and p-values, using t-test to compare normally distributed data and chi-squared tests to compare categorical data.|t-test, 1 sided|||Mean worst pain scores were 5.98 and 6.88 in the standard care and VR groups respectively, with difference in means -0.9 (95% CI -2.1 - 0.28), p value 0.13. Mean anxiety scores at the end of the procedure were 3.94 and 4.4 in the standard care and VR groups respectively, with difference in means -0.46 (95% CI -2.1, 1.1), p value 0.57.||||<0.01
92269111|NCT00091507|184439982|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.28|TWO_SIDED|95.0|0.66|1.13|||Regression, Logistic|||||1.13|0.66|0.28
92269112|NCT00091507|184439983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.08|TWO_SIDED|95.0|0.3|1.07|||Regression, Logistic|||||1.07|0.30|0.08
92269113|NCT00091507|184439984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.24|TWO_SIDED|95.0|0.43|1.23|||Regression, Logistic|||||1.23|0.43|0.24
92269114|NCT00091507|184439985|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.27|TWO_SIDED|95.0|0.4|1.29|||Regression, Logistic|||||1.29|0.40|0.27
92269115|NCT00091507|184439986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48||||0.01|TWO_SIDED|95.0|0.27|0.85|||Regression, Logistic|||||0.85|0.27|0.01
92269116|NCT00203931|184439989|SUPERIORITY_OR_OTHER|||||||0.11|||||||Log Rank|||||||0.11
92269117|NCT00203931|184439990|SUPERIORITY_OR_OTHER|||||||0.91|||||||Wilcoxon-Gehan test|||||||0.91
92269118|NCT00203931|184439991|SUPERIORITY_OR_OTHER|||||||0.24|||||||Fisher Exact|||||||0.24
92269119|NCT00203931|184439992|SUPERIORITY_OR_OTHER|||||||0.046|||||||Wilcoxon-Gehan test|||||||0.046
92269120|NCT00203931|184439993|SUPERIORITY_OR_OTHER|||||||0.029|||||||Log Rank|||||||0.029
92269121|NCT03506425|184439994|OTHER|||||||0.32|||||||t-test, 2 sided|||||||0.32
92269122|NCT03506425|184439995|OTHER|||||||0.08|||||||ANOVA|||||||0.08
92269123|NCT03506425|184439996|OTHER|||||||0.83|||||||ANOVA|||||||0.83
92269124|NCT03930615|184439997|SUPERIORITY||Treatment Difference|-16.1||||0.0005|TWO_SIDED|95.0|-25.8|-6.5||A one-sided p-value ≤0.0249 was used for declaring statistical significance|Mantel Haenszel|Stratum adjusted|Letermovir minus placebo|It was hypothesized that LET is superior to placebo in the prevention of clinically significant CMV infection.|95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|-6.5|-25.8|0.0005
92269125|NCT03930615|184439998|OTHER||Difference in Percentage|-4.4|||||TWO_SIDED|95.0|-11.8|4.7|||||Letermovir minus Placebo||Miettinen \& Nurminen method|4.7|-11.8|
92269126|NCT03930615|184439999|OTHER||Difference in Percentage|3.5|||||TWO_SIDED|95.0|-2.7|8.6|||||Letermovir minus Placebo||Miettinen \& Nurminen method|8.6|-2.7|
92269127|NCT03930615|184440000|SUPERIORITY||Treatment Difference|-5.7||||0.1591|TWO_SIDED|95.0|-16.8|5.4|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|5.4|-16.8|0.1591
92269128|NCT03930615|184440001|SUPERIORITY||Treatment Difference|-5.7||||0.1591|TWO_SIDED|95.0|-16.8|5.4|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|5.4|-16.8|0.1591
92269129|NCT03930615|184440004|SUPERIORITY||Treatment difference|-14.1||||0.0012|TWO_SIDED|95.0|-23.3|-5.0|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|-5.0|-23.3|0.0012
92269130|NCT03930615|184440005|SUPERIORITY||Treatment Difference|-5.7||||0.1494|TWO_SIDED|95.0|-16.5|5.1|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|5.1|-16.5|0.1494
92269131|NCT03930615|184440006|SUPERIORITY||Treatment difference|0.7||||0.6244|TWO_SIDED|95.0|-3.8|5.3|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|5.3|-3.8|0.6244
92269132|NCT03930615|184440007|SUPERIORITY||Treatment Difference|0.3||||0.5264|TWO_SIDED|95.0|-7.9|8.4|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|8.4|-7.9|0.5264
92269133|NCT02864953|184440020|SUPERIORITY||Odds Ratio (OR)|1.17|||=|0.415|TWO_SIDED|95.0|0.8|1.71||P-value was analyzed by ordinal logistic regression adjusting for covariates: region, and IRT stratification factors including rtPA usage (yes/no), thrombectomy usage (yes/no), use of ASPECTS for screening (yes/no), baseline NIHSS (\<=20 vs. \>20).|Regression, Logistic|||||1.71|0.80|=0.4150
92269134|NCT02864953|184440022|SUPERIORITY||Odds Ratio (OR)|1.07|||=|0.7413|TWO_SIDED|95.0|0.72|1.6||A logistic regression model was used to estimate an odds ratio (and 95% CI) of improvement on the mRS dichotomized as 0-4 vs. 5-6 at Day 90.|Regression, Logistic|||||1.60|0.72|=0.7413
92269135|NCT02864953|184440023|SUPERIORITY||Mean Difference (Final Values)|0.82|||=|0.1242|TWO_SIDED|95.0|-0.23|1.87||Analysis of Variance (ANOVA) was used to compare the two study arms to assess the treatment effects on midline shift.|ANOVA|||||1.87|-0.23|=0.1242
92269136|NCT00981019|184440025|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||"Study was exploratory, thus no hypotheses had been formalized beforehand.~To analyze repeated measures outcomes (e.g., effect of the four different statistic scenarios on doctors' recommendation of screening, their judgment of screening's effectiveness, etc.), we used the McNemar chi-square test and the Wilcoxon signed-rank test.~To test for order effects (scenarios were randomly presented)Pearson's chi-square test and the Mann-Whitney U test were used."||||<0.05
92269137|NCT00865306|184440032|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||||||<.05
92269138|NCT00865306|184440033|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Chi-squared|||||||<.01
92327607|NCT03315455|184560385|SUPERIORITY||ABR Ratio|0.02|||<|0.0001|TWO_SIDED|95.0|0.006|0.053||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm A vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.053|0.006|<0.0001
92269139|NCT01461369|184440126|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-11.68|STANDARD_ERROR_OF_MEAN|3.806||0.0024|TWO_SIDED|95.0|-19.17|-4.19|||Mixed Models Analysis|||||-4.19|-19.17|0.0024
92269140|NCT01461369|184440126|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-6.58|STANDARD_ERROR_OF_MEAN|3.739||0.0795|TWO_SIDED|95.0|-13.94|0.78|||Mixed Models Analysis|||||0.78|-13.94|0.0795
92269141|NCT01461369|184440127|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-15.82|STANDARD_ERROR_OF_MEAN|3.552|<|0.0001|TWO_SIDED|95.0|-22.82|-8.83|||Mixed Models Analysis|||||-8.83|-22.82|<0.0001
92269142|NCT01461369|184440127|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.8|STANDARD_ERROR_OF_MEAN|3.481||0.0052|TWO_SIDED|95.0|-16.66|-2.95|||Mixed Models Analysis|||||-2.95|-16.66|0.0052
92269143|NCT01461369|184440128|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-12.43|STANDARD_ERROR_OF_MEAN|3.776||0.0011|TWO_SIDED|95.0|-19.87|-4.99|||Mixed Models Analysis|||||-4.99|-19.87|0.0011
92269144|NCT01461369|184440128|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.56|STANDARD_ERROR_OF_MEAN|3.707||0.1349|TWO_SIDED|95.0|-12.86|1.74|||Mixed Models Analysis|||||1.74|-12.86|0.1349
92269145|NCT01461369|184440129|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-13.24|STANDARD_ERROR_OF_MEAN|3.377||0.0001|TWO_SIDED|95.0|-19.89|-6.59|||ANCOVA|||||-6.59|-19.89|0.0001
92269146|NCT01461369|184440129|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-7.48|STANDARD_ERROR_OF_MEAN|3.313||0.0248|TWO_SIDED|95.0|-14.0|-0.96|||ANCOVA|||||-0.96|-14.00|0.0248
92269147|NCT01461369|184440130|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-12.63|STANDARD_ERROR_OF_MEAN|3.396||0.0002|TWO_SIDED|95.0|-19.32|-5.94|||ANCOVA|||||-5.94|-19.32|0.0002
92269148|NCT01461369|184440130|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-7.03|STANDARD_ERROR_OF_MEAN|3.339||0.0363|TWO_SIDED|95.0|-13.6|-0.45|||ANCOVA|||||-0.45|-13.60|0.0363
92269149|NCT01461369|184440131|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.38|STANDARD_ERROR_OF_MEAN|3.441||0.0028|TWO_SIDED|95.0|-17.16|-3.6|||ANCOVA|||||-3.60|-17.16|0.0028
92269150|NCT01461369|184440131|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.46|STANDARD_ERROR_OF_MEAN|3.385||0.1081|TWO_SIDED|95.0|-12.13|1.21|||ANCOVA|||||1.21|-12.13|0.1081
92269151|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|6.116|||<|0.0001|TWO_SIDED|95.0|5.976|6.255|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)"||6.255|5.976|<.0001
92269152|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|6.073|||<|0.0001|TWO_SIDED|95.0|5.963|6.183|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)"||6.183|5.963|<.0001
92269153|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|5.736|||<|0.0001|TWO_SIDED|95.0|5.605|5.868|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)"||5.868|5.605|<.0001
92269154|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|5.792|||<|0.0001|TWO_SIDED|95.0|5.687|5.897|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)"||5.897|5.687|<.0001
92269155|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|5.835|||<|0.0001|TWO_SIDED|95.0|5.701|5.969|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)"||5.969|5.701|<.0001
92269156|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|5.799|||<|0.0001|TWO_SIDED|95.0|5.694|5.904|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)"||5.904|5.694|<.0001
92269157|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|4.881|||<|0.0001|TWO_SIDED|95.0|4.713|5.048|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)"||5.048|4.713|<.0001
92269158|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|4.844|||<|0.0001|TWO_SIDED|95.0|4.711|4.977|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)"||4.977|4.711|<.0001
92269159|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|5.185|||<|0.0001|TWO_SIDED|95.0|5.021|5.35|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)"||5.350|5.021|<.0001
92327608|NCT03315455|184560385|SUPERIORITY||ABR Ratio|0.02|||<|0.0001|TWO_SIDED|95.0|0.007|0.059||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm B vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.059|0.007|<0.0001
92269160|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|4.933|||<|0.0001|TWO_SIDED|95.0|4.801|5.066|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)"||5.066|4.801|<.0001
92269161|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|5.014|||<|0.0001|TWO_SIDED|95.0|4.852|5.175|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)"||5.175|4.852|<.0001
92269162|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|4.892|||<|0.0001|TWO_SIDED|95.0|4.763|5.02|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)"||5.020|4.763|<.0001
92269163|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)"|Mean Difference (Net)|-0.379||||0.0013|TWO_SIDED|95.0|-0.646|-0.112|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)"||-0.112|-0.646|0.0013
92269164|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)"|Mean Difference (Net)|-0.281||||0.0034|TWO_SIDED|95.0|-0.496|-0.065|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)"||-0.065|-0.496|0.0034
92269165|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)"|Mean Difference (Net)|-0.281||||0.0354|TWO_SIDED|95.0|-0.549|-0.012|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)"||-0.012|-0.549|0.0354
92269166|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)"|Mean Difference (Net)|-0.274||||0.0044|TWO_SIDED|95.0|-0.489|-0.059|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)"||-0.059|-0.489|0.0044
92269167|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)"|Mean Difference (Net)|-1.235|||<|0.0001|TWO_SIDED|95.0|-1.539|-0.93|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)"||-0.930|-1.539|<.0001
92269168|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)"|Mean Difference (Net)|-1.229|||<|0.0001|TWO_SIDED|95.0|-1.475|-0.983|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)"||-0.983|-1.475|<.0001
92327609|NCT03315455|184560388|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.017|0.102||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm A vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.102|0.017|<0.0001
92269169|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)"|Mean Difference (Net)|-0.93|||<|0.0001|TWO_SIDED|95.0|-1.23|-0.63|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)"||-0.630|-1.230|<.0001
92269170|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)"|Mean Difference (Net)|-1.14|||<|0.0001|TWO_SIDED|95.0|-1.383|-0.896|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)"||-0.896|-1.383|<.0001
92269171|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)"|Mean Difference (Net)|0.723|||<|0.0001|TWO_SIDED|95.0|0.436|1.009|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)"||1.009|0.436|<.0001
92269172|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)"|Mean Difference (Net)|0.901|||<|0.0001|TWO_SIDED|95.0|0.667|1.134|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)"||1.134|0.667|<.0001
92269173|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)"|Mean Difference (Net)|0.821|||<|0.0001|TWO_SIDED|95.0|0.533|1.109|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)"||1.109|0.533|<.0001
92269174|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)"|Mean Difference (Net)|0.907|||<|0.0001|TWO_SIDED|95.0|0.675|1.14|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)"||1.140|.675|<.0001
92269175|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)"|Mean Difference (Net)|-0.133||||0.8291|TWO_SIDED|95.0|-0.453|0.188|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)"||0.188|-0.453|.8291
92269176|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)"|Mean Difference (Net)|-0.048||||0.9997|TWO_SIDED|95.0|-0.308|0.213|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)"||0.213|-0.308|0.9997
92269177|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)"|Mean Difference (Net)|0.172||||0.5755|TWO_SIDED|95.0|-0.145|0.488|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)"||0.488|-0.145|0.5755
92327610|NCT03315455|184560388|SUPERIORITY||ABR Ratio|0.03|||<|0.0001|TWO_SIDED|95.0|0.013|0.084||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm B vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.084|0.013|<0.0001
92269178|NCT03692078|184440150|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)"|Mean Difference (Net)|0.042||||0.9999|TWO_SIDED|95.0|-0.217|0.301|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)"||0.301|-0.217|0.9999
92269179|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|2.629|||<|0.0001|TWO_SIDED|95.0|2.317|2.94|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)"||2.940|2.317|<.0001
92269180|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|2.632|||<|0.0001|TWO_SIDED|95.0|2.321|2.943|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)"||2.943|2.321|<.0001
92269181|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|2.006|||<|0.0001|TWO_SIDED|95.0|1.714|2.298|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)"||2.298|1.714|<.0001
92269182|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|2.143|||<|0.0001|TWO_SIDED|95.0|1.847|2.44|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)"||2.440|1.847|<.0001
92269183|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|1.987|||<|0.0001|TWO_SIDED|95.0|1.69|2.284|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)"||2.284|1.690|<.0001
92269184|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|2.261|||<|0.0001|TWO_SIDED|95.0|1.964|2.559|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)"||2.559|1.964|<.0001
92269185|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|-0.263||||0.1658|TWO_SIDED|95.0|-0.635|0.109|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)"||0.109|-0.635|0.1658
92269186|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|-0.659||||0.0007|TWO_SIDED|95.0|-1.036|-0.282|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)"||-0.282|-1.036|0.0007
92327611|NCT03315455|184560391|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.016|0.163||Not controlled for Type I error|Stratified Wald test||The ABR ratio was calculated as Arm A vs. Arm C.|||0.163|0.016|<0.0001
92327612|NCT03315455|184560391|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.011|0.122||Not controlled for Type I error|ABR Ratio||The ABR ratio was calculated as Arm B vs. Arm C.|||0.122|0.011|<0.0001
92269187|NCT03692078|184440152|NON_INFERIORITY|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|-0.302||||0.1055|TWO_SIDED|95.0|-0.667|0.064|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)"||0.064|-0.667|0.1055
92269188|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|-0.243||||0.204|TWO_SIDED|95.0|-0.617|0.132|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)"||0.132|-0.617|0.2040
92269189|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|-0.244||||0.1829|TWO_SIDED|95.0|-0.603|0.116|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)"||0.116|-0.603|0.1829
92269190|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|-0.248||||0.1801|TWO_SIDED|95.0|-0.612|0.115|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)"||0.115|-0.612|0.1801
92269191|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.622||||0.0391|TWO_SIDED|95.0|-1.225|-0.019|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.019|-1.225|0.0391
92269192|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.489||||0.1864|TWO_SIDED|95.0|-1.096|0.119|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.119|-1.096|0.1864
92269193|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.642||||0.031|TWO_SIDED|95.0|-1.246|-0.037|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.037|-1.246|0.0310
92269194|NCT03692078|184440152|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)"|Mean Difference (Net)|-0.642||||0.031|TWO_SIDED|95.0|-1.246|-0.037|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)"||-0.037|-1.246|0.0310
92269195|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.891|||<|0.0001|TWO_SIDED|95.0|-3.58|-2.202|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.202|-3.580|<.0001
92327613|NCT03315455|184560396|SUPERIORITY||Difference in Adjusted Means|14.68||||0.0515|TWO_SIDED|95.0|-0.1|29.46||Type I error controlled|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm A.|||29.46|-0.10|0.0515
92269196|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-3.291|||<|0.0001|TWO_SIDED|95.0|-3.985|-2.597|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.597|-3.985|<.0001
92269197|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.93|||<|0.0001|TWO_SIDED|95.0|-3.605|-2.255|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.255|-3.605|<.0001
92269198|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-2.875|||<|0.0001|TWO_SIDED|95.0|-3.559|-2.19|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.190|-3.559|<.0001
92269199|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.25|||<|0.0001|TWO_SIDED|95.0|1.604|2.896|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||2.896|1.604|<.0001
92269200|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.391|||<|0.0001|TWO_SIDED|95.0|1.737|3.046|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||3.046|1.737|<.0001
92269201|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.231|||<|0.0001|TWO_SIDED|95.0|1.582|2.879|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||2.879|1.582|<.0001
92269202|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.509|||<|0.0001|TWO_SIDED|95.0|1.857|3.162|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||3.162|1.857|<.0001
92269203|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.019||||1|TWO_SIDED|95.0|-0.743|0.705|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.705|-0.743|1.0000
92327614|NCT03315455|184560396|SUPERIORITY||Difference in Adjusted Means|18.33||||0.0204|TWO_SIDED|95.0|2.97|33.68||Type I error controlled|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm B.|||33.68|2.97|0.0204
92327615|NCT03315455|184560398|SUPERIORITY||Difference in Adjusted Means|6.06||||0.3281|TWO_SIDED|95.0|-6.27|18.4||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm A.|||18.40|-6.27|0.3281
92327616|NCT03315455|184560398|SUPERIORITY||Difference in Adjusted Means|14.01||||0.0297|TWO_SIDED|95.0|1.44|26.59||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm B.|||26.59|1.44|0.0297
92269204|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.411||||0.5639|TWO_SIDED|95.0|-1.142|0.32|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.320|-1.142|0.5639
92269205|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.058||||1|TWO_SIDED|95.0|-0.771|0.656|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.656|-0.771|1.0000
92269206|NCT03692078|184440152|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.006||||1|TWO_SIDED|95.0|-0.721|0.732|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.732|-0.721|1.0000
92269207|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.691|||<|0.0001|TWO_SIDED|95.0|2.519|2.863|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||2.863|2.519|<.0001
92269208|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.718|||<|0.0001|TWO_SIDED|95.0|2.546|2.89|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||2.890|2.546|<.0001
92269209|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.415|||<|0.0001|TWO_SIDED|95.0|2.252|2.577|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||2.577|2.252|<.0001
92269210|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.44|||<|0.0001|TWO_SIDED|95.0|2.276|2.603|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||2.603|2.276|<.0001
92269211|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.583|||<|0.0001|TWO_SIDED|95.0|2.417|2.748|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||2.748|2.417|<.0001
92327617|NCT03315455|184560401|SUPERIORITY||Difference in Adjusted Means|-3.46||||0.6165|TWO_SIDED|95.0|-17.23|10.31||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm A.|||10.31|-17.23|0.6165
92327618|NCT03315455|184560401|SUPERIORITY||Difference in Adjusted Means|-7.58||||0.2797|TWO_SIDED|95.0|-21.48|6.33||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm B.|||6.33|-21.48|0.2797
92327619|NCT03315455|184560403|SUPERIORITY||Difference in Adjusted Means|-0.05||||0.489|TWO_SIDED|95.0|-0.18|0.09||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm A.|||0.09|-0.18|0.4890
92269212|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.591|||<|0.0001|TWO_SIDED|95.0|2.426|2.757|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||2.757|2.426|<.0001
92269213|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.107|||<|0.0001|TWO_SIDED|95.0|0.901|1.314|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||1.314|0.901|<.0001
92269214|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.017|||<|0.0001|TWO_SIDED|95.0|0.81|1.225|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||1.225|0.810|<.0001
92269215|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.828|||<|0.0001|TWO_SIDED|95.0|1.624|2.031|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||2.031|1.624|<.0001
92269216|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.782|||<|0.0001|TWO_SIDED|95.0|1.577|1.988|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||1.988|1.577|<.0001
92269217|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-0.55|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.35|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||-0.350|-0.750|<.0001
92269218|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.051|-0.65|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||-0.650|-1.051|<.0001
92269219|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.276||||0.1608|TWO_SIDED|95.0|-0.609|0.057|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.057|-0.609|0.1608
92269220|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.278||||0.1575|TWO_SIDED|95.0|-0.613|0.056|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.056|-0.613|0.1575
92327620|NCT03315455|184560403|SUPERIORITY||Difference in Adjusted Means|-0.08||||0.2454|TWO_SIDED|95.0|-0.22|0.06||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm B.|||0.06|-0.22|0.2454
92269221|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.108||||0.9728|TWO_SIDED|95.0|-0.442|0.226|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.226|-0.442|0.9728
92269222|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.127||||0.9262|TWO_SIDED|95.0|-0.461|0.208|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.208|-0.461|0.9262
92269223|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.584|||<|0.0001|TWO_SIDED|95.0|-1.963|-1.204|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.204|-1.963|<.0001
92269224|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.701|||<|0.0001|TWO_SIDED|95.0|-2.081|-1.32|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.320|-2.081|<.0001
92269225|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.863|||<|0.0001|TWO_SIDED|95.0|-1.237|-0.489|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.489|-1.237|<.0001
92269226|NCT03692078|184440154|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.936|||<|0.0001|TWO_SIDED|95.0|-1.312|-0.56|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.560|-1.312|<.0001
92269227|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.47|||<|0.0001|TWO_SIDED|95.0|3.31|3.63|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||3.630|3.310|<.0001
92269228|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.508|||<|0.0001|TWO_SIDED|95.0|3.348|3.668|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||3.668|3.348|<.0001
92269229|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.891|||<|0.0001|TWO_SIDED|95.0|2.741|3.042|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||3.042|2.741|<.0001
92269230|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.873|||<|0.0001|TWO_SIDED|95.0|2.719|3.027|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||3.027|2.719|<.0001
92269231|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.928|||<|0.0001|TWO_SIDED|95.0|2.775|3.082|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||3.082|2.775|<.0001
92269232|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.896|||<|0.0001|TWO_SIDED|95.0|2.742|3.049|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||3.049|2.742|<.0001
92269233|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.864|||<|0.0001|TWO_SIDED|95.0|0.672|1.055|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||1.055|0.672|<.0001
92269234|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.786|||<|0.0001|TWO_SIDED|95.0|0.592|0.981|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||0.981|0.592|<.0001
92269235|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.641|||<|0.0001|TWO_SIDED|95.0|0.452|0.829|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||0.829|0.452|<.0001
92269236|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.485|||<|0.0001|TWO_SIDED|95.0|0.29|0.68|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||0.680|0.290|<.0001
92269237|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.747|||<|0.0001|TWO_SIDED|95.0|0.562|0.932|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||0.932|0.562|<.0001
92269238|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.833|||<|0.0001|TWO_SIDED|95.0|0.645|1.021|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||1.021|0.645|<.0001
92269239|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.579|||<|0.0001|TWO_SIDED|95.0|-0.889|-0.268|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.268|-0.889|<.0001
92269240|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.635|||<|0.0001|TWO_SIDED|95.0|-0.949|-0.321|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.321|-0.949|<.0001
92269241|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.542|||<|0.0001|TWO_SIDED|95.0|-0.853|-0.231|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.231|-0.853|<.0001
92269242|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.613|||<|0.0001|TWO_SIDED|95.0|-0.924|-0.301|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.301|-0.924|<.0001
92269243|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.606|||<|0.0001|TWO_SIDED|95.0|-2.959|-2.253|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.253|-2.959|<.0001
92269244|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-2.722|||<|0.0001|TWO_SIDED|95.0|-3.078|-2.366|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.366|-3.078|<.0001
92269245|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.829|||<|0.0001|TWO_SIDED|95.0|-3.177|-2.481|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.481|-3.177|<.0001
92269246|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-3.024|||<|0.0001|TWO_SIDED|95.0|-3.378|-2.669|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.669|-3.378|<.0001
92327621|NCT04765722|184560422|SUPERIORITY||% change relative to placebo|18.0||||0.99|TWO_SIDED|95.0|-46.4|160.1||The model included treatment group, week, the interaction between treatment group and week, and baseline log-transformed 24-hour cough frequency as fixed effects.|Generalized estimating equations|Hypothesis tests were two-sided, a p\<0.05 indicated statistical significance. We made no adjustments for multiple comparisons across outcomes.||The primary outcome was the change from baseline in log-transformed 24-hour cough frequency (coughs/hour) at week 14.||160.1|-46.4|0.99
92269247|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.144|||<|0.0001|TWO_SIDED|95.0|1.811|2.478|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||2.478|1.811|<.0001
92269248|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.04|||<|0.0001|TWO_SIDED|95.0|1.701|2.379|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||2.379|1.701|<.0001
92269249|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.181|||<|0.0001|TWO_SIDED|95.0|1.846|2.516|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||2.516|1.846|<.0001
92269250|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.063|||<|0.0001|TWO_SIDED|95.0|1.725|2.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||2.400|1.725|<.0001
92269251|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.117||||0.9705|TWO_SIDED|95.0|-0.256|0.49|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.490|-0.256|0.9705
92269252|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.047||||1|TWO_SIDED|95.0|-0.425|0.332|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.332|-0.425|1.0000
92269253|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.106||||0.9835|TWO_SIDED|95.0|-0.475|0.263|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.263|-0.475|0.9835
92269254|NCT03692078|184440156|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.348||||0.0854|TWO_SIDED|95.0|-0.725|0.029|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.029|-0.725|0.0854
92269255|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.028|||<|0.0001|TWO_SIDED|95.0|2.901|3.154|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||3.154|2.901|<.0001
92269256|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.034|||<|0.0001|TWO_SIDED|95.0|2.927|3.141|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||3.141|2.927|<.0001
92269257|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.603|||<|0.0001|TWO_SIDED|95.0|2.483|2.722|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||2.722|2.483|<.0001
92269258|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.567|||<|0.0001|TWO_SIDED|95.0|2.465|2.67|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||2.670|2.465|<.0001
92269259|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.716|||<|0.0001|TWO_SIDED|95.0|2.595|2.838|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||2.838|2.595|<.0001
92269260|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.643|||<|0.0001|TWO_SIDED|95.0|2.541|2.746|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||2.746|2.541|<.0001
92269261|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.235|||<|0.0001|TWO_SIDED|95.0|1.083|1.386|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||1.386|1.083|<.0001
92269262|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.174|||<|0.0001|TWO_SIDED|95.0|1.045|1.304|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||1.304|1.045|<.0001
92269263|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.219|||<|0.0001|TWO_SIDED|95.0|1.07|1.368|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||1.368|1.070|<.0001
92327622|NCT02407132|184560438|SUPERIORITY|||||||0.038||||||The p-value above reflects results of between-arms analysis of mean change in HbA1c from baseline to immediate post-intervention. 6 months between-arms p-value = 0.139; 12 months between-arms p-value = 0.013. Analyses do not include imputed values.|Linear mixed effects regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||The outcome variable for these analyses is Change in mean HbA1c from baseline to immediate post-intervention, 6 months post-intervention, and 12 months post-intervention.||||0.038
92269264|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.176|||<|0.0001|TWO_SIDED|95.0|1.046|1.306|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||1.306|1.046|<.0001
92269265|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.176|||<|0.0001|TWO_SIDED|95.0|1.029|1.322|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||1.322|1.029|<.0001
92269266|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.174|||<|0.0001|TWO_SIDED|95.0|1.049|1.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||1.300|1.049|<.0001
92269267|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.425|||<|0.0001|TWO_SIDED|95.0|-0.669|-0.181|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.181|-0.669|<.0001
92269268|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.467|||<|0.0001|TWO_SIDED|95.0|-0.677|-0.256|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.256|-0.677|<.0001
92269269|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.311||||0.0052|TWO_SIDED|95.0|-0.556|-0.066|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.066|-0.556|0.0052
92269270|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.391|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.182|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.182|-0.600|<.0001
92269271|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.793|||<|0.0001|TWO_SIDED|95.0|-2.07|-1.516|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.516|-2.070|<.0001
92269272|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.859|||<|0.0001|TWO_SIDED|95.0|-2.098|-1.621|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.621|-2.098|<.0001
92269273|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.809|||<|0.0001|TWO_SIDED|95.0|-2.082|-1.535|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.535|-2.082|<.0001
92269274|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.858|||<|0.0001|TWO_SIDED|95.0|-2.096|-1.621|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.621|-2.096|<.0001
92269275|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.427|||<|0.0001|TWO_SIDED|95.0|1.166|1.688|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.688|1.166|<.0001
92269276|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|1.393|||<|0.0001|TWO_SIDED|95.0|1.166|1.62|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.620|1.166|<.0001
92269277|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.541|||<|0.0001|TWO_SIDED|95.0|1.278|1.803|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.803|1.278|<.0001
92269278|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|1.469|||<|0.0001|TWO_SIDED|95.0|1.243|1.695|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.695|1.243|<.0001
92269279|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.059||||0.9987|TWO_SIDED|95.0|-0.233|0.351|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.351|-0.233|0.9987
92269280|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-0.253|0.254|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.254|-0.253|1.0000
92269281|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.043||||0.9999|TWO_SIDED|95.0|-0.246|0.332|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.332|-0.246|0.9999
92269282|NCT03692078|184440158|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.002||||1|TWO_SIDED|95.0|-0.251|0.254|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.254|-0.251|1.0000
92269283|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.407|||<|0.0001|TWO_SIDED|95.0|2.283|2.531|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||2.531|2.283|<.0001
92269284|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.398|||<|0.0001|TWO_SIDED|95.0|2.253|2.543|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||2.543|2.253|<.0001
92269285|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.303|||<|0.0001|TWO_SIDED|95.0|2.187|2.42|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||2.420|2.187|<.0001
92269286|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.25|||<|0.0001|TWO_SIDED|95.0|2.112|2.389|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||2.389|2.112|<.0001
92269287|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.285|||<|0.0001|TWO_SIDED|95.0|2.166|2.404|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||2.404|2.166|<.0001
92269288|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.272|||<|0.0001|TWO_SIDED|95.0|2.133|2.412|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||2.412|2.133|<.0001
92269289|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.992|||<|0.0001|TWO_SIDED|95.0|1.844|2.14|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||2.140|1.844|<.0001
92269290|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.894|||<|0.0001|TWO_SIDED|95.0|1.719|2.069|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||2.069|1.719|<.0001
92269291|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.102|||<|0.0001|TWO_SIDED|95.0|1.955|2.248|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||2.248|1.955|<.0001
92269292|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.075|||<|0.0001|TWO_SIDED|95.0|1.9|2.25|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||2.250|1.900|<.0001
92269293|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.89|||<|0.0001|TWO_SIDED|95.0|1.746|2.033|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||2.033|1.746|<.0001
92269294|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.944|||<|0.0001|TWO_SIDED|95.0|1.775|2.114|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||2.114|1.775|<.0001
92269295|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.104||||0.8674|TWO_SIDED|95.0|-0.345|0.137|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.137|-0.345|0.8674
92269296|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.148||||0.6519|TWO_SIDED|95.0|-0.429|0.133|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.133|-0.429|0.6519
92269297|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.122||||0.7301|TWO_SIDED|95.0|-0.363|0.119|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.119|-0.363|0.7301
92269298|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.126||||0.8076|TWO_SIDED|95.0|-0.405|0.154|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.154|-0.405|0.8076
92327623|NCT02407132|184560439|SUPERIORITY|||||||0.234||||||The p-value above reflects results of between-arms analysis of change in mean BMI from baseline to immediate post-intervention. 6 months between-arms p-value = 0.552; 12 months between-arms p-value = 0.447. Analyses do not include imputed values.|Linear mixed effects regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||The outcome variable for these analyses is Change in mean BMI from baseline to immediate post-intervention, 6 months post-intervention, and 12 months post-intervention.||||0.234
92269299|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.415||||0.0004|TWO_SIDED|95.0|-0.689|-0.142|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.142|-0.689|0.0004
92269300|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.504||||0.0002|TWO_SIDED|95.0|-0.822|-0.185|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.185|-0.822|0.0002
92269301|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.306||||0.0183|TWO_SIDED|95.0|-0.578|-0.034|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.034|-0.578|0.0183
92269302|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.323||||0.0443|TWO_SIDED|95.0|-0.641|-0.005|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.005|-0.641|0.0443
92269303|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.414||||0.0002|TWO_SIDED|95.0|0.155|0.672|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||0.672|0.155|0.0002
92269304|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.306||||0.0454|TWO_SIDED|95.0|0.004|0.608|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||0.608|0.004|0.0454
92269305|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.396||||0.0004|TWO_SIDED|95.0|0.136|0.655|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||0.655|0.136|0.0004
92269306|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.328||||0.0261|TWO_SIDED|95.0|0.026|0.63|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||0.630|0.026|0.0261
92327624|NCT02407132|184560440|SUPERIORITY|||||||0.019||||||The p-value above reflects results of between-arms analysis of change in mean total chol from baseline to immediate post-intervention. 6 months between-arms p-value=0.598; 12 months between-arms p-value=0.073. Analyses do not include imputed values.|Linear mixed effects regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||The outcome variable for these analyses is Change in mean Total Cholesterol (mg/dL) from baseline to immediate post-intervention, 6 months post-intervention, and 12 months post-intervention.||||0.019
92269307|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.102||||0.9455|TWO_SIDED|95.0|-0.187|0.392|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.392|-0.187|0.9455
92269308|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.05||||0.9999|TWO_SIDED|95.0|-0.387|0.287|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.287|-0.387|0.9999
92269309|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.212||||0.2633|TWO_SIDED|95.0|-0.074|0.498|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.498|-0.074|0.2633
92269310|NCT03692078|184440160|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.13||||0.8769|TWO_SIDED|95.0|-0.205|0.465|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.465|-0.205|0.8769
92269311|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|5.417|||<|0.0001|TWO_SIDED|95.0|5.315|5.52|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (PP Population)||5.520|5.315|<.0001
92269312|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|5.436|||<|0.0001|TWO_SIDED|95.0|5.324|5.548|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (PP Population)||5.548|5.324|<.0001
92269313|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|4.957|||<|0.0001|TWO_SIDED|95.0|4.86|5.053|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (PP Population)||5.053|4.860|<.0001
92269314|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|4.974|||<|0.0001|TWO_SIDED|95.0|4.867|5.081|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (PP Population)||5.081|4.867|<.0001
92269315|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|4.984|||<|0.0001|TWO_SIDED|95.0|4.886|5.082|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (PP Population)||5.082|4.886|<.0001
92269316|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|4.975|||<|0.0001|TWO_SIDED|95.0|4.868|5.082|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (PP Population)||5.082|4.868|<.0001
92269317|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|3.49|||<|0.0001|TWO_SIDED|95.0|3.367|3.612|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (PP Population)||3.612|3.367|<.0001
92269318|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|3.347|||<|0.0001|TWO_SIDED|95.0|3.212|3.483|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (PP Population)||3.483|3.212|<.0001
92269319|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|3.539|||<|0.0001|TWO_SIDED|95.0|3.418|3.66|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (PP Population)||3.660|3.418|<.0001
92269320|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|3.419|||<|0.0001|TWO_SIDED|95.0|3.284|3.554|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (PP Population)||3.554|3.284|<.0001
92269321|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|3.492|||<|0.0001|TWO_SIDED|95.0|3.373|3.611|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (PP Population)||3.611|3.373|<.0001
92269322|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|3.437|||<|0.0001|TWO_SIDED|95.0|3.306|3.568|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (PP Population)||3.568|3.306|<.0001
92269323|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (PP Population)|Mean Difference (Net)|-0.461|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.262|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (PP Population)||-0.262|-0.660|<.0001
92269324|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (PP Population)|Mean Difference (Net)|-0.462|||<|0.0001|TWO_SIDED|95.0|-0.679|-0.244|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (PP Population)||-0.244|-0.679|<.0001
92269325|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (PP Population)|Mean Difference (Net)|-0.433|||<|0.0001|TWO_SIDED|95.0|-0.633|-0.233|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (PP Population)||-0.233|-0.633|<.0001
92269326|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (PP Population)|Mean Difference (Net)|-0.461|||<|0.0001|TWO_SIDED|95.0|-0.678|-0.244|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (PP Population)||-0.244|-0.678|<.0001
92269327|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (PP Population)|Mean Difference (Net)|-1.928|||<|0.0001|TWO_SIDED|95.0|-2.154|-1.701|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (PP Population)||-1.701|-2.154|<.0001
92269328|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (PP Population)|Mean Difference (Net)|-2.089|||<|0.0001|TWO_SIDED|95.0|-2.336|-1.842|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (PP Population)||-1.842|-2.336|<.0001
92269329|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (PP Population)|Mean Difference (Net)|-1.879|||<|0.0001|TWO_SIDED|95.0|-2.102|-1.656|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (PP Population)||-1.656|-2.102|<.0001
92269330|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (PP Population)|Mean Difference (Net)|-2.017|||<|0.0001|TWO_SIDED|95.0|-2.262|-1.772|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (PP Population)||-1.772|-2.262|<.0001
92269331|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (PP Population)|Mean Difference (Net)|1.465|||<|0.0001|TWO_SIDED|95.0|1.25|1.679|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (PP Population)||1.679|1.250|<.0001
92269332|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (PP Population)|Mean Difference (Net)|1.537|||<|0.0001|TWO_SIDED|95.0|1.303|1.772|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (PP Population)||1.772|1.303|<.0001
92269333|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (PP Population)|Mean Difference (Net)|1.492|||<|0.0001|TWO_SIDED|95.0|1.277|1.707|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (PP Population)||1.707|1.277|<.0001
92269334|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (PP Population)|Mean Difference (Net)|1.538|||<|0.0001|TWO_SIDED|95.0|1.304|1.772|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (PP Population)||1.772|1.304|<.0001
92269335|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (PP Population)|Mean Difference (Net)|-0.003||||1|TWO_SIDED|95.0|-0.242|0.237|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (PP Population)||0.237|-0.242|1.0000
92269336|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (PP Population)|Mean Difference (Net)|-0.09||||0.9399|TWO_SIDED|95.0|-0.351|0.172|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (PP Population)||0.172|-0.351|0.9399
92269337|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (PP Population)|Mean Difference (Net)|0.047||||0.9993|TWO_SIDED|95.0|-0.19|0.283|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (PP Population)||0.283|-0.190|0.9993
92269338|NCT03692078|184440162|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (PP Population)|Mean Difference (Net)|-0.018||||1|TWO_SIDED|95.0|-0.278|0.242|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (PP Population)||0.242|-0.278|1.0000
92269339|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.805|||<|0.0001|TWO_SIDED|95.0|1.639|1.971|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||1.971|1.639|<.0001
92269340|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.788|||<|0.0001|TWO_SIDED|95.0|1.622|1.954|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||1.954|1.622|<.0001
92269341|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.29|||<|0.0001|TWO_SIDED|95.0|1.145|1.462|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||1.462|1.145|<.0001
92327625|NCT02407132|184560441|SUPERIORITY|||||||0.186||||||The p-value above reflects results of between-arms analysis of mean change in HDL from baseline to immediate post-intervention. 6 months between-arms p-value=0.009; 12 months between-arms p-value=0.201. Analyses do not include imputed values.|Linear mixed effects regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||The outcome variable for these analyses is Change in mean HDL (mg/dL) from baseline to immediate post-intervention, 6 months post-intervention, and 12 months post-intervention.||||0.186
92327626|NCT02407132|184560442|SUPERIORITY|||||||0.04||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed effects logistic regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.040
92269342|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.304|||<|0.0001|TWO_SIDED|95.0|1.134|1.447|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||1.447|1.134|<.0001
92269343|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.353|||<|0.0001|TWO_SIDED|95.0|1.194|1.513|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||1.513|1.194|<.0001
92269344|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.313|||<|0.0001|TWO_SIDED|95.0|1.153|1.472|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||1.472|1.153|<.0001
92269345|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-0.956|||<|0.0001|TWO_SIDED|95.0|-1.155|-0.756|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||-0.756|-1.155|<.0001
92269346|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.114|||<|0.0001|TWO_SIDED|95.0|-1.315|-0.913|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||-0.913|-1.315|<.0001
92269347|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-0.999|||<|0.0001|TWO_SIDED|95.0|-1.195|-0.803|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||-0.803|-1.195|<.0001
92269348|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.164|||<|0.0001|TWO_SIDED|95.0|-1.364|-0.964|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||-0.964|-1.364|<.0001
92327627|NCT02407132|184560443|SUPERIORITY|||||||0.312||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed Effects Logistic Regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.312
92327628|NCT02407132|184560444|SUPERIORITY|||||||0.622||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed effects logistic regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.622
92327629|NCT02407132|184560445|SUPERIORITY|||||||0.957||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed effects logistic regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.957
92269349|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-0.775|||<|0.0001|TWO_SIDED|95.0|-0.969|-0.582|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||-0.582|-0.969|<.0001
92269350|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-0.795|||<|0.0001|TWO_SIDED|95.0|-0.99|-0.6|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||-0.600|-0.990|<.0001
92269351|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.514||||0.0002|TWO_SIDED|95.0|-0.836|-0.193|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.193|-0.836|0.0002
92269352|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.484||||0.0005|TWO_SIDED|95.0|-0.808|-0.16|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.160|-0.808|0.0005
92269353|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.452||||0.0014|TWO_SIDED|95.0|-0.775|-0.128|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.128|-0.775|0.0014
92269354|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.475||||0.0007|TWO_SIDED|95.0|-0.799|-0.152|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.152|-0.799|0.0007
92269355|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.76|||<|0.0001|TWO_SIDED|95.0|-3.127|-2.394|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.394|-3.127|<.0001
92269356|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-2.902|||<|0.0001|TWO_SIDED|95.0|-3.271|-2.533|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.533|-3.271|<.0001
92269357|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.804|||<|0.0001|TWO_SIDED|95.0|-3.165|-2.443|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.443|-3.165|<.0001
92269358|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-2.952|||<|0.0001|TWO_SIDED|95.0|-3.317|-2.587|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.587|-3.317|<.0001
92269359|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.066|||<|0.0001|TWO_SIDED|95.0|1.719|2.413|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||2.413|1.719|<.0001
92269360|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.099|||<|0.0001|TWO_SIDED|95.0|1.748|2.449|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||2.449|1.748|<.0001
92269361|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.129|||<|0.0001|TWO_SIDED|95.0|1.779|2.478|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||2.478|1.779|<.0001
92269362|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.107|||<|0.0001|TWO_SIDED|95.0|1.756|2.459|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||2.459|1.756|<.0001
92269363|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.18||||0.7678|TWO_SIDED|95.0|-0.569|0.209|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.209|-0.569|0.7678
92269364|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.319||||0.1691|TWO_SIDED|95.0|-0.711|0.073|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.073|-0.711|0.1691
92269365|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.224||||0.5178|TWO_SIDED|95.0|-0.606|0.158|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.158|-0.606|0.5178
92269366|NCT03692078|184440164|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.369||||0.0699|TWO_SIDED|95.0|-0.757|0.018|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.018|-0.757|0.0699
92269367|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|6.177|||<|0.0001|TWO_SIDED|95.0|6.062|6.292|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||6.292|6.062|<.0001
92269368|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|6.197|||<|0.0001|TWO_SIDED|95.0|6.082|6.312|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||6.312|6.082|<.0001
92269369|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.798|||<|0.0001|TWO_SIDED|95.0|5.69|5.906|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||5.906|5.690|<.0001
92269370|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.82|||<|0.0001|TWO_SIDED|95.0|5.71|5.93|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||5.930|5.710|<.0001
92269371|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.863|||<|0.0001|TWO_SIDED|95.0|5.753|5.974|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||5.974|5.753|<.0001
92269372|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.816|||<|0.0001|TWO_SIDED|95.0|5.706|5.927|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||5.927|5.706|<.0001
92269373|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.947|||<|0.0001|TWO_SIDED|95.0|4.809|5.084|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||5.084|4.809|<.0001
92269374|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.913|||<|0.0001|TWO_SIDED|95.0|4.774|5.052|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||5.052|4.774|<.0001
92269375|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.862|||<|0.0001|TWO_SIDED|95.0|4.727|4.998|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||4.998|4.727|<.0001
92269376|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.938|||<|0.0001|TWO_SIDED|95.0|4.799|5.076|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||5.076|4.799|<.0001
92269377|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.826|||<|0.0001|TWO_SIDED|95.0|4.693|4.959|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||4.959|4.693|<.0001
92269378|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.902|||<|0.0001|TWO_SIDED|95.0|4.767|5.037|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||5.037|4.767|<.0001
92269379|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.379|||<|0.0001|TWO_SIDED|95.0|-0.602|-0.156|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.156|-0.602|<.0001
92269380|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.376|||<|0.0001|TWO_SIDED|95.0|-0.601|-0.152|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.152|-0.601|<.0001
92269381|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.314||||0.0014|TWO_SIDED|95.0|-0.537|-0.09|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.090|-0.537|0.0014
92269382|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.381|||<|0.0001|TWO_SIDED|95.0|-0.604|-0.157|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.157|-0.604|<.0001
92269383|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.23|||<|0.0001|TWO_SIDED|95.0|-1.484|-0.977|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.977|-1.484|<.0001
92269384|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.284|||<|0.0001|TWO_SIDED|95.0|-1.539|-1.029|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.029|-1.539|<.0001
92269385|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.315|||<|0.0001|TWO_SIDED|95.0|-1.564|-1.065|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.065|-1.564|<.0001
92269386|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.259|||<|0.0001|TWO_SIDED|95.0|-1.512|-1.006|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.006|-1.512|<.0001
92269387|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.972|||<|0.0001|TWO_SIDED|95.0|0.732|1.211|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.211|0.732|<.0001
92269388|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.918|||<|0.0001|TWO_SIDED|95.0|0.676|1.161|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.161|0.676|<.0001
92269389|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.037|||<|0.0001|TWO_SIDED|95.0|0.797|1.278|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.278|0.797|<.0001
92269390|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.914|||<|0.0001|TWO_SIDED|95.0|0.672|1.156|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.156|0.672|<.0001
92269391|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.121||||0.7939|TWO_SIDED|95.0|-0.147|0.388|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.388|-0.147|0.7939
92269392|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.011||||1|TWO_SIDED|95.0|-0.26|0.281|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.281|-0.260|1.0000
92269393|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.036||||1|TWO_SIDED|95.0|-0.228|0.301|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.301|-0.228|1.0000
92269394|NCT03692078|184440166|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.036||||1|TWO_SIDED|95.0|-0.233|0.305|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.305|-0.233|1.0000
92269395|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|7.367|||<|0.0001|TWO_SIDED|95.0|7.25|7.485|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||7.485|7.250|<.0001
92269396|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|7.368|||<|0.0001|TWO_SIDED|95.0|7.251|7.485|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||7.485|7.251|<.0001
92269397|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|6.883|||<|0.0001|TWO_SIDED|95.0|6.773|6.994|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||6.994|6.773|<.0001
92269398|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|6.892|||<|0.0001|TWO_SIDED|95.0|6.78|7.004|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||7.004|6.780|<.0001
92269399|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|6.942|||<|0.0001|TWO_SIDED|95.0|6.829|7.054|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||7.054|6.829|<.0001
92269400|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|6.896|||<|0.0001|TWO_SIDED|95.0|6.784|7.008|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||7.008|6.784|<.0001
92269401|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.879|||<|0.0001|TWO_SIDED|95.0|5.739|6.019|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||6.019|5.739|<.0001
92269402|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.804|||<|0.0001|TWO_SIDED|95.0|5.662|5.946|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||5.946|5.662|<.0001
92269403|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.916|||<|0.0001|TWO_SIDED|95.0|5.778|6.054|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||6.054|5.778|<.0001
92269404|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.917|||<|0.0001|TWO_SIDED|95.0|5.775|6.058|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||6.058|5.775|<.0001
92269405|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|6.017|||<|0.0001|TWO_SIDED|95.0|5.881|6.153|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||6.153|5.881|<.0001
92269406|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|6.012|||<|0.0001|TWO_SIDED|95.0|5.874|6.149|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||6.149|5.874|<.0001
92269407|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.484|||<|0.0001|TWO_SIDED|95.0|-0.711|-0.257|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.257|-0.711|<.0001
92269408|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.476|||<|0.0001|TWO_SIDED|95.0|-0.705|-0.248|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.248|-0.705|<.0001
92269409|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.426|||<|0.0001|TWO_SIDED|95.0|-0.654|-0.198|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.198|-0.654|<.0001
92269410|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.472|||<|0.0001|TWO_SIDED|95.0|-0.701|-0.244|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.244|-0.701|<.0001
92269411|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.489|||<|0.0001|TWO_SIDED|95.0|-1.747|-1.23|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.230|-1.747|<.0001
92269412|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Final Values)|-1.564|||<|0.0001|TWO_SIDED|95.0|-1.825|-1.304|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.304|-1.825|<.0001
92269413|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.451|||<|0.0001|TWO_SIDED|95.0|-1.706|-1.197|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.197|-1.706|<.0001
92269414|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.452|||<|0.0001|TWO_SIDED|95.0|-1.71|-1.193|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.193|-1.710|<.0001
92269415|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.866|||<|0.0001|TWO_SIDED|95.0|0.622|1.11|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.110|0.622|<.0001
92269416|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.88|||<|0.0001|TWO_SIDED|95.0|0.633|1.128|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.128|0.633|<.0001
92269417|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.924|||<|0.0001|TWO_SIDED|95.0|0.68|1.169|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.169|0.680|<.0001
92269418|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.884|||<|0.0001|TWO_SIDED|95.0|0.638|1.131|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.131|0.638|<.0001
92269419|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.138||||0.68|TWO_SIDED|95.0|-0.411|0.134|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.134|-0.411|0.6800
92269420|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.208||||0.2371|TWO_SIDED|95.0|-0.483|0.068|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.068|-0.483|0.2371
92269421|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.101||||0.9133|TWO_SIDED|95.0|-0.371|0.169|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.169|-0.371|0.9133
92269422|NCT03692078|184440168|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.095||||0.9432|TWO_SIDED|95.0|-0.37|0.18|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.180|-0.370|0.9432
92269423|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.513|||<|0.0001|TWO_SIDED|95.0|4.383|4.643|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||4.643|4.383|<.0001
92269424|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.491|||<|0.0001|TWO_SIDED|95.0|4.371|4.61|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||4.610|4.371|<.0001
92269425|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.15|||<|0.0001|TWO_SIDED|95.0|4.027|4.272|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||4.272|4.027|<.0001
92269426|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.128|||<|0.0001|TWO_SIDED|95.0|4.014|4.242|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||4.242|4.014|<.0001
92269427|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.176|||<|0.0001|TWO_SIDED|95.0|4.051|4.301|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||4.301|4.051|<.0001
92269428|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.139|||<|0.0001|TWO_SIDED|95.0|4.024|4.254|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||4.254|4.024|<.0001
92269429|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.997|||<|0.0001|TWO_SIDED|95.0|2.842|3.153|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||3.153|2.842|<.0001
92269430|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.994|||<|0.0001|TWO_SIDED|95.0|2.849|3.138|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||3.138|2.849|<.0001
92269431|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.317|||<|0.0001|TWO_SIDED|95.0|3.164|3.47|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||3.470|3.164|<.0001
92269432|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.342|||<|0.0001|TWO_SIDED|95.0|3.199|3.486|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||3.486|3.199|<.0001
92269433|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.036|||<|0.0001|TWO_SIDED|95.0|2.886|3.187|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||3.187|2.886|<.0001
92269434|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.159|||<|0.0001|TWO_SIDED|95.0|3.019|3.299|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||3.299|3.019|<.0001
92269435|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.363||||0.0008|TWO_SIDED|95.0|-0.613|-0.113|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.113|-0.613|0.0008
92269436|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.362||||0.0003|TWO_SIDED|95.0|-0.595|-0.129|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.129|-0.595|0.0003
92269437|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.337||||0.0026|TWO_SIDED|95.0|-0.588|-0.085|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.085|-0.588|0.0026
92269438|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.351||||0.0004|TWO_SIDED|95.0|-0.584|-0.118|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.118|-0.584|0.0004
92269439|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.515|||<|0.0001|TWO_SIDED|95.0|-1.8|-1.23|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.230|-1.800|<.0001
92269440|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.497|||<|0.0001|TWO_SIDED|95.0|-1.762|-1.231|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.231|-1.762|<.0001
92269441|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.196|||<|0.0001|TWO_SIDED|95.0|-1.477|-0.915|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.915|-1.477|<.0001
92269442|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.148|||<|0.0001|TWO_SIDED|95.0|-1.41|-0.886|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.886|-1.410|<.0001
92269443|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.113|||<|0.0001|TWO_SIDED|95.0|0.844|1.382|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.382|0.844|<.0001
92269444|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.969|||<|0.0001|TWO_SIDED|95.0|0.717|1.221|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.221|0.717|<.0001
92269445|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.139|||<|0.0001|TWO_SIDED|95.0|0.869|1.41|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.410|0.869|<.0001
92269446|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.98|||<|0.0001|TWO_SIDED|95.0|0.728|1.231|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.231|0.728|<.0001
92269447|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.039||||1|TWO_SIDED|95.0|-0.34|0.262|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.262|-0.340|1.0000
92269448|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.166||||0.5184|TWO_SIDED|95.0|-0.447|0.115|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.115|-0.447|0.5184
92269449|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.28||||0.0743|TWO_SIDED|95.0|-0.017|0.578|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.578|-0.017|0.0743
92269450|NCT03692078|184440170|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.183||||0.3889|TWO_SIDED|95.0|-0.095|0.462|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.462|-0.095|0.3889
92269451|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.264|||<|0.0001|TWO_SIDED|95.0|5.155|5.373|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||5.373|5.155|<.0001
92269452|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.204|||<|0.0001|TWO_SIDED|95.0|5.106|5.302|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||5.302|5.106|<.0001
92269453|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.005|||<|0.0001|TWO_SIDED|95.0|4.902|5.108|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||5.108|4.902|<.0001
92269454|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.958|||<|0.0001|TWO_SIDED|95.0|4.864|5.051|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||5.051|4.864|<.0001
92269455|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.114|||<|0.0001|TWO_SIDED|95.0|5.009|5.219|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||5.219|5.009|<.0001
92269456|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.052|||<|0.0001|TWO_SIDED|95.0|4.958|5.146|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||5.146|4.958|<.0001
92269457|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.539|||<|0.0001|TWO_SIDED|95.0|4.407|4.671|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||4.671|4.407|<.0001
92269458|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.415|||<|0.0001|TWO_SIDED|95.0|4.295|4.534|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||4.534|4.295|<.0001
92269459|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.431|||<|0.0001|TWO_SIDED|95.0|4.302|4.56|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||4.560|4.302|<.0001
92269460|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.361|||<|0.0001|TWO_SIDED|95.0|4.243|4.48|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||4.480|4.243|<.0001
92269461|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.486|||<|0.0001|TWO_SIDED|95.0|4.359|4.612|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||4.612|4.359|<.0001
92269462|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.588|||<|0.0001|TWO_SIDED|95.0|4.473|4.703|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||4.703|4.473|<.0001
92269463|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.259||||0.0073|TWO_SIDED|95.0|-0.469|-0.049|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.049|-0.469|0.0073
92269464|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.246||||0.0041|TWO_SIDED|95.0|-0.438|-0.055|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.055|-0.438|0.0041
92269465|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.15||||0.308|TWO_SIDED|95.0|-0.361|0.061|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.061|-0.361|0.3080
92269466|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.152||||0.1982|TWO_SIDED|95.0|-0.343|0.039|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.039|-0.343|0.1982
92269467|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.725|||<|0.0001|TWO_SIDED|95.0|-0.965|-0.486|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.486|-0.965|<.0001
92269468|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.79|||<|0.0001|TWO_SIDED|95.0|-1.008|-0.571|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.571|-1.008|<.0001
92269469|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.833|||<|0.0001|TWO_SIDED|95.0|-1.069|-0.597|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.597|-1.069|<.0001
92269470|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.843|||<|0.0001|TWO_SIDED|95.0|-1.059|-0.627|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.627|-1.059|<.0001
92269471|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.52|||<|0.0001|TWO_SIDED|95.0|0.294|0.745|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||0.745|0.294|<.0001
92269472|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.37|||<|0.0001|TWO_SIDED|95.0|0.163|0.577|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||0.577|0.163|<.0001
92269473|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.628|||<|0.0001|TWO_SIDED|95.0|0.402|0.855|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||0.855|0.402|<.0001
92269474|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.464|||<|0.0001|TWO_SIDED|95.0|0.257|0.67|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||0.670|0.257|<.0001
92269475|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.053||||0.9984|TWO_SIDED|95.0|-0.2|0.306|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.306|-0.200|0.9984
92269476|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.173||||0.2491|TWO_SIDED|95.0|-0.405|0.058|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.058|-0.405|0.2491
92269477|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.054||||0.9977|TWO_SIDED|95.0|-0.304|0.195|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.195|-0.304|0.9977
92269478|NCT03692078|184440172|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.227||||0.0554|TWO_SIDED|95.0|-0.456|0.003|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.003|-0.456|0.0554
92269479|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.294|||<|0.0001|TWO_SIDED|95.0|3.208|3.379|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||3.379|3.208|<.0001
92269480|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.262|||<|0.0001|TWO_SIDED|95.0|3.176|3.348|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||3.348|3.176|<.0001
92269481|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.12|||<|0.0001|TWO_SIDED|95.0|3.039|3.202|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||3.202|3.039|<.0001
92269482|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.099|||<|0.0001|TWO_SIDED|95.0|3.017|3.181|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||3.181|3.017|<.0001
92269483|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.182|||<|0.0001|TWO_SIDED|95.0|3.1|3.264|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||3.264|3.100|<.0001
92269484|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.149|||<|0.0001|TWO_SIDED|95.0|3.066|3.231|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||3.231|3.066|<.0001
92269485|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.777|||<|0.0001|TWO_SIDED|95.0|2.673|2.881|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||2.881|2.673|<.0001
92269486|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.651|||<|0.0001|TWO_SIDED|95.0|2.546|2.756|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||2.756|2.546|<.0001
92269487|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.72|||<|0.0001|TWO_SIDED|95.0|2.618|2.823|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||2.823|2.618|<.0001
92269488|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.649|||<|0.0001|TWO_SIDED|95.0|2.544|2.753|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||2.753|2.544|<.0001
92269489|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.751|||<|0.0001|TWO_SIDED|95.0|2.651|2.851|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||2.851|2.651|<.0001
92269490|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.819|||<|0.0001|TWO_SIDED|95.0|2.718|2.919|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||2.919|2.718|<.0001
92269491|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.173||||0.0377|TWO_SIDED|95.0|-0.34|-0.006|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.006|-0.340|0.0377
92269492|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.163||||0.0643|TWO_SIDED|95.0|-0.331|0.006|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.006|-0.331|0.0643
92269493|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.112||||0.3875|TWO_SIDED|95.0|-0.279|0.056|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.056|-0.279|0.3875
92269494|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.113||||0.3725|TWO_SIDED|95.0|-0.28|0.054|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.054|-0.280|0.3725
92269495|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.516|||<|0.0001|TWO_SIDED|95.0|-0.706|-0.327|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.327|-0.706|<.0001
92269496|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.611|||<|0.0001|TWO_SIDED|95.0|-0.802|-0.42|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.420|-0.802|<.0001
92269497|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.573|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.386|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.386|-0.760|<.0001
92269498|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.613|||<|0.0001|TWO_SIDED|95.0|-0.803|-0.423|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.423|-0.803|<.0001
92269499|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.369|||<|0.0001|TWO_SIDED|95.0|0.19|0.548|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||0.548|0.190|<.0001
92269500|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.28||||0.0003|TWO_SIDED|95.0|0.099|0.462|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||0.462|0.099|0.0003
92269501|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.431|||<|0.0001|TWO_SIDED|95.0|0.251|0.611|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||0.611|0.251|<.0001
92269502|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.33|||<|0.0001|TWO_SIDED|95.0|0.149|0.511|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||0.511|0.149|<.0001
92269503|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.026||||1|TWO_SIDED|95.0|-0.176|0.228|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.228|-0.176|1.0000
92269504|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.168||||0.1589|TWO_SIDED|95.0|-0.371|0.036|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.036|-0.371|0.1589
92269505|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.031||||0.9999|TWO_SIDED|95.0|-0.23|0.168|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.168|-0.230|0.9999
92269506|NCT03692078|184440174|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.17||||0.1453|TWO_SIDED|95.0|-0.372|0.032|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.032|-0.372|0.1453
92269507|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.085|||<|0.0001|TWO_SIDED|95.0|0.788|1.382|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||1.382|0.788|<.0001
92269508|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.104|||<|0.0001|TWO_SIDED|95.0|0.807|1.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||1.400|0.807|<.0001
92269509|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.606|||<|0.0001|TWO_SIDED|95.0|0.326|0.886|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||0.886|0.326|<.0001
92269510|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.476||||0.0011|TWO_SIDED|95.0|0.192|0.76|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||0.760|0.192|0.0011
92269511|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.505||||0.0006|TWO_SIDED|95.0|0.219|0.79|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||0.790|0.219|0.0006
92269512|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.775|||<|0.0001|TWO_SIDED|95.0|0.49|1.06|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||1.060|0.490|<.0001
92269513|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-2.116|||<|0.0001|TWO_SIDED|95.0|-2.472|-1.761|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||-1.761|-2.472|<.0001
92269514|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-2.016|||<|0.0001|TWO_SIDED|95.0|-2.376|-1.656|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||-1.656|-2.376|<.0001
92269515|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.605|||<|0.0001|TWO_SIDED|95.0|-1.958|-1.253|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||-1.253|-1.958|<.0001
92269516|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.642|||<|0.0001|TWO_SIDED|95.0|-2.003|-1.282|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||-1.282|-2.003|<.0001
92269517|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.578|||<|0.0001|TWO_SIDED|95.0|-1.922|-1.234|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||-1.234|-1.922|<.0001
92269518|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.726|||<|0.0001|TWO_SIDED|95.0|-2.074|-1.378|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||-1.378|-2.074|<.0001
92269519|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.479||||0.1579|TWO_SIDED|95.0|-1.054|0.097|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.097|-1.054|0.1579
92269520|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.628||||0.026|TWO_SIDED|95.0|-1.207|-0.048|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.048|-1.207|0.0260
92269521|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.58||||0.0483|TWO_SIDED|95.0|-1.158|-0.003|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.003|-1.158|0.0483
92269522|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.329||||0.5842|TWO_SIDED|95.0|-0.906|0.249|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.249|-0.906|0.5842
92269523|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-3.201|||<|0.0001|TWO_SIDED|95.0|-3.856|-2.546|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.546|-3.856|<.0001
92269524|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-3.119|||<|0.0001|TWO_SIDED|95.0|-3.779|-2.46|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.460|-3.779|<.0001
92269525|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.69|||<|0.0001|TWO_SIDED|95.0|-3.338|-2.043|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.043|-3.338|<.0001
92269526|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-2.746|||<|0.0001|TWO_SIDED|95.0|-3.402|-2.09|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.090|-3.402|<.0001
92269527|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.184|||<|0.0001|TWO_SIDED|95.0|1.565|2.803|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||2.803|1.565|<.0001
92269528|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.202|||<|0.0001|TWO_SIDED|95.0|1.576|2.828|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||2.828|1.576|<.0001
92269529|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.083|||<|0.0001|TWO_SIDED|95.0|1.461|2.704|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||2.704|1.461|<.0001
92269530|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.501|||<|0.0001|TWO_SIDED|95.0|1.876|3.126|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||3.126|1.876|<.0001
92269531|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.538||||0.2085|TWO_SIDED|95.0|-1.231|0.154|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.154|-1.231|0.2085
92269532|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.289||||0.8557|TWO_SIDED|95.0|-0.988|0.41|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.410|-0.988|0.8557
92269533|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.027||||1|TWO_SIDED|95.0|-0.713|0.658|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.658|-0.713|1.0000
92269534|NCT03692078|184440176|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.084||||1|TWO_SIDED|95.0|-0.612|0.78|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.780|-0.612|1.0000
92269535|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.081|||<|0.0001|TWO_SIDED|95.0|0.679|1.484|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||1.484|0.679|<.0001
92269536|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.309|||<|0.0001|TWO_SIDED|95.0|0.902|1.716|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||1.716|0.902|<.0001
92269537|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.996|||<|0.0001|TWO_SIDED|95.0|0.615|1.377|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||1.377|0.615|<.0001
92269538|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.728||||0.0003|TWO_SIDED|95.0|0.339|1.116|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||1.116|0.339|0.0003
92269539|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.987|||<|0.0001|TWO_SIDED|95.0|0.593|1.381|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||1.381|0.593|<.0001
92269540|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.865|||<|0.0001|TWO_SIDED|95.0|0.475|1.254|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||1.254|0.475|<.0001
92269541|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.436||||0.0768|TWO_SIDED|95.0|-0.047|0.92|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||0.920|-0.047|0.0768
92269542|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.091||||0.7155|TWO_SIDED|95.0|-0.4|0.583|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||0.583|-0.400|0.7155
92269543|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.237||||0.3282|TWO_SIDED|95.0|-0.239|0.713|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||0.713|-0.239|0.3282
92269544|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-0.23||||0.3578|TWO_SIDED|95.0|-0.722|0.262|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||0.262|-0.722|0.3578
92269545|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.338||||0.1638|TWO_SIDED|95.0|-0.138|0.814|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||0.814|-0.138|0.1638
92327630|NCT02407132|184560446|SUPERIORITY|||||||0.147||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed effects logistic regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.147
92327631|NCT02407132|184560447|SUPERIORITY|||||||0.326||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed effects logistic regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.326
92269546|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-0.05||||0.8384|TWO_SIDED|95.0|-0.533|0.433|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||0.433|-0.533|0.8384
92269547|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.086||||1|TWO_SIDED|95.0|-0.869|0.698|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.698|-0.869|1.0000
92269548|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.581||||0.2808|TWO_SIDED|95.0|-1.377|0.214|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.214|-1.377|0.2808
92269549|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.095||||1|TWO_SIDED|95.0|-0.887|0.698|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.698|-0.887|1.0000
92269550|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.444||||0.6018|TWO_SIDED|95.0|-1.237|0.349|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.349|-1.237|0.6018
92269551|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.645||||0.2935|TWO_SIDED|95.0|-1.536|0.246|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||0.246|-1.536|0.2935
92327632|NCT01458951|184560451|SUPERIORITY_OR_OTHER||Percentage difference|13.0||||0.0005|TWO_SIDED|95.0|8.1|17.9|||CMH Chi-square Test|||P-value based on Cochran-Mantel Haenszel (CMH) chi-square test stratified by prior treatment with anti-tumor necrosis factor (TNF), steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using non-responder imputation (NRI).||17.9|8.1|0.0005
92327633|NCT01458951|184560452|SUPERIORITY_OR_OTHER||Percentage difference|16.8||||0.0002|TWO_SIDED|95.0|9.5|24.1|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||24.1|9.5|0.0002
92327634|NCT01458951|184560453|SUPERIORITY_OR_OTHER||Percentage difference|26.4|||<|0.0001|TWO_SIDED|95.0|16.8|36.0|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||36.0|16.8|<0.0001
92327635|NCT01458951|184560454|SUPERIORITY_OR_OTHER||Percentage difference|5.2||||0.0425|TWO_SIDED|95.0|1.8|8.6|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||8.6|1.8|0.0425
92327636|NCT01458951|184560455|SUPERIORITY_OR_OTHER||Difference in percentage|13.2||||0.0004|TWO_SIDED|95.0|8.3|18.1|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference in its percentage and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||18.1|8.3|0.0004
92327637|NCT01458951|184560456|SUPERIORITY_OR_OTHER||Percentage difference|8.0||||0.009|TWO_SIDED|95.0|3.9|12.2|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||12.2|3.9|0.0090
92269552|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.218||||0.0023|TWO_SIDED|95.0|-2.12|-0.315|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.315|-2.120|0.0023
92269553|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.844||||0.0669|TWO_SIDED|95.0|-1.723|0.035|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||0.035|-1.723|0.0669
92269554|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.539|||<|0.0001|TWO_SIDED|95.0|-2.438|-0.64|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.640|-2.438|<.0001
92269555|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.658||||0.212|TWO_SIDED|95.0|-0.192|1.509|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.509|-0.192|0.2120
92269556|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.778||||0.0993|TWO_SIDED|95.0|-0.087|1.642|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.642|-0.087|0.0993
92269557|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.649||||0.2347|TWO_SIDED|95.0|-0.211|1.509|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.509|-0.211|0.2347
92327638|NCT01458951|184560457|SUPERIORITY_OR_OTHER||Percentage difference|3.3||||0.1408|TWO_SIDED|95.0|0.1|6.6|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||6.6|0.1|0.1408
92327639|NCT01458951|184560459|SUPERIORITY_OR_OTHER||Least square mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.4|-0.6|||Mixed Models Analysis|||At Week 2: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and subjects as a random effect.||-0.6|-1.4|<0.0001
92327640|NCT01458951|184560459|SUPERIORITY_OR_OTHER||Least square mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.6|-0.7|||Mixed Models Analysis|||At Week 4: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and subjects as a random effect.||-0.7|-1.6|<0.0001
92327641|NCT01458951|184560459|SUPERIORITY_OR_OTHER||Least square mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.7|-0.9|||Mixed Models Analysis|||At Week 8: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and subjects as a random effect.||-0.9|-1.7|<0.0001
92327642|NCT01458951|184560460|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.2|-1.0|||ANCOVA|||The change from baseline at Week 8 was analyzed using an analysis of covariance (ANCOVA) model with treatment group, prior treatment with anti-TNF, steroid use at baseline and geographic region as factors and baseline as a covariate based on the observed-case data.||-1.0|-2.2|<0.0001
92327643|NCT00585013|184560461|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||This p value applies to all time points for all variables.|Wilcoxon (Mann-Whitney)|||||||>0.05
92327644|NCT00585013|184560462|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||This applies for measurements at preoperative and 0 h time points.|Wilcoxon (Mann-Whitney)|||||||>0.05
92269558|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.915||||0.032|TWO_SIDED|95.0|0.052|1.778|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.778|0.052|0.0320
92269559|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.099||||1|TWO_SIDED|95.0|-0.849|1.047|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||1.047|-0.849|1.0000
92269560|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.141||||0.9999|TWO_SIDED|95.0|-0.82|1.103|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||1.103|-0.820|0.9999
92269561|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.101||||1|TWO_SIDED|95.0|-1.038|0.837|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.837|-1.038|1.0000
92269562|NCT03692078|184440178|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.18||||0.9995|TWO_SIDED|95.0|-1.139|0.779|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.779|-1.139|0.9995
92269563|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.12|||<|0.0001|TWO_SIDED|95.0|2.964|3.276|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||3.276|2.964|<.0001
92269564|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.141|||<|0.0001|TWO_SIDED|95.0|2.953|3.328|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||3.328|2.953|<.0001
92269565|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.658|||<|0.0001|TWO_SIDED|95.0|2.511|2.806|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||2.806|2.511|<.0001
92269566|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.638|||<|0.0001|TWO_SIDED|95.0|2.458|2.817|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||2.817|2.458|<.0001
92327645|NCT00585013|184560462|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||This applies to measurements at time points 12 h, 24 h, and 48 h.|Wilcoxon (Mann-Whitney)|||||||<0.05
92269567|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.754|||<|0.0001|TWO_SIDED|95.0|2.604|2.903|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||2.903|2.604|<.0001
92269568|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.652|||<|0.0001|TWO_SIDED|95.0|2.471|2.832|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||2.832|2.471|<.0001
92269569|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.703|||<|0.0001|TWO_SIDED|95.0|1.517|1.889|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||1.889|1.517|<.0001
92269570|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.637|||<|0.0001|TWO_SIDED|95.0|1.41|1.865|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||1.865|1.410|<.0001
92269571|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.656|||<|0.0001|TWO_SIDED|95.0|1.472|1.839|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||1.839|1.472|<.0001
92269572|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.485|||<|0.0001|TWO_SIDED|95.0|1.259|1.711|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||1.711|1.259|<.0001
92269573|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.713|||<|0.0001|TWO_SIDED|95.0|1.532|1.895|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||1.895|1.532|<.0001
92269574|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.617|||<|0.0001|TWO_SIDED|95.0|1.397|1.837|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||1.837|1.397|<.0001
92269575|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.462||||0.0003|TWO_SIDED|95.0|-0.766|-0.158|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.158|-0.766|0.0003
92327646|NCT00585013|184560463|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||This applies to measurements at preoperative, 0 h, and 48 h time points.|Wilcoxon (Mann-Whitney)|||||||>0.05
92269576|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.503||||0.0018|TWO_SIDED|95.0|-0.867|-0.139|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.139|-0.867|0.0018
92269577|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.366||||0.0089|TWO_SIDED|95.0|-0.67|-0.062|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.062|-0.670|0.0089
92269578|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.489||||0.0025|TWO_SIDED|95.0|-0.851|-0.126|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.126|-0.851|0.0025
92269579|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.417|||<|0.0001|TWO_SIDED|95.0|-1.762|-1.072|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.072|-1.762|<.0001
92269580|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.504|||<|0.0001|TWO_SIDED|95.0|-1.916|-1.091|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.091|-1.916|<.0001
92269581|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.464|||<|0.0001|TWO_SIDED|95.0|-1.804|-1.125|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.125|-1.804|<.0001
92269582|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.656|||<|0.0001|TWO_SIDED|95.0|-2.065|-1.247|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.247|-2.065|<.0001
92269583|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.945|||<|0.0001|TWO_SIDED|95.0|0.617|1.273|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.273|0.617|<.0001
92269584|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|1.021|||<|0.0001|TWO_SIDED|95.0|0.628|1.413|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.413|0.628|<.0001
92327647|NCT00585013|184560463|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||This applies to time points at 12 h and 24 h.|Wilcoxon (Mann-Whitney)|||||||<0.05
92269585|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.041|||<|0.0001|TWO_SIDED|95.0|0.712|1.369|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.369|0.712|<.0001
92269586|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|1.035|||<|0.0001|TWO_SIDED|95.0|0.644|1.426|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.426|0.644|<.0001
92269587|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.01||||1|TWO_SIDED|95.0|-0.376|0.355|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.355|-0.376|1.0000
92269588|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.02||||1|TWO_SIDED|95.0|-0.417|0.457|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.457|-0.417|1.0000
92269589|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.058||||0.9999|TWO_SIDED|95.0|-0.418|0.303|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.303|-0.418|0.9999
92269590|NCT03692078|184440180|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.132||||0.9669|TWO_SIDED|95.0|-0.566|0.301|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.301|-0.566|0.9669
92269591|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.442|||<|0.0001|TWO_SIDED|95.0|-1.604|-1.279|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||-1.279|-1.604|<.0001
92269592|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.413|||<|0.0001|TWO_SIDED|95.0|-1.576|-1.251|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||-1.251|-1.576|<.0001
92269593|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.754|||<|0.0001|TWO_SIDED|95.0|-1.907|-1.6|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||-1.600|-1.907|<.0001
92327648|NCT00585013|184560464|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Applies to all time points.|Wilcoxon (Mann-Whitney)|||||||>0.05
92327649|NCT01846221|184560466|OTHER|||||||0.38|||||||ANOVA|||||||0.38
92269594|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.816|||<|0.0001|TWO_SIDED|95.0|-1.972|-1.659|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||-1.659|-1.972|<.0001
92269595|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.654|||<|0.0001|TWO_SIDED|95.0|-1.81|-1.498|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||-1.498|-1.810|<.0001
92269596|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.829|||<|0.0001|TWO_SIDED|95.0|-1.986|-1.673|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||-1.673|-1.986|<.0001
92269597|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-2.184|||<|0.0001|TWO_SIDED|95.0|-2.379|-1.989|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||-1.989|-2.379|<.0001
92269598|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-2.27|||<|0.0001|TWO_SIDED|95.0|-2.468|-2.071|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||-2.071|-2.468|<.0001
92269599|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-2.413|||<|0.0001|TWO_SIDED|95.0|-2.607|-2.219|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||-2.219|-2.607|<.0001
92269600|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-2.349|||<|0.0001|TWO_SIDED|95.0|-2.549|-2.149|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||-2.149|-2.549|<.0001
92269601|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-2.227|||<|0.0001|TWO_SIDED|95.0|-2.416|-2.038|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||-2.038|-2.416|<.0001
92327650|NCT03309696|184560474|EQUIVALENCE|A p value of \<.0.05 is taken as evidence of nonequivalence.|Mean Difference (Net)|-0.59||||0.055|TWO_SIDED|||||The p value is not adjusted because it was a planned contrast.|Mixed Models Analysis||Active tDCS - sham tDCS.|Examines the effect of tDCS preconditioning on P100 amplitudes. The effect size for this comparison was .33 (Cohen's).||||.055
92327651|NCT03309696|184560474|EQUIVALENCE|A p value of \<.05 is taken as evidence of nonequivalence.|Mean Difference (Net)|0.36||||0.0418|TWO_SIDED|||||This p value is not adjusted for multiple comparisons because it was a planned contrast.|Mixed Models Analysis||Sham tDCS - Sham tDCS and Active rTMS|Examines the effect of rTMS on the P100 amplitude. The calculated effect size is .35 (Cohen's).||||0.0418
92269602|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-2.154|||<|0.0001|TWO_SIDED|95.0|-2.345|-1.962|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||-1.962|-2.345|<.0001
92269603|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.312||||0.0552|TWO_SIDED|95.0|-0.628|0.004|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.004|-0.628|0.0552
92269604|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.402||||0.0055|TWO_SIDED|95.0|-0.722|-0.083|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.083|-0.722|0.0055
92269605|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.212||||0.3834|TWO_SIDED|95.0|-0.53|0.105|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.105|-0.530|0.3834
92269606|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.416||||0.0033|TWO_SIDED|95.0|-0.734|-0.099|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.099|-0.734|0.0033
92269607|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.743|||<|0.0001|TWO_SIDED|95.0|-1.103|-0.382|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.382|-1.103|<.0001
92269608|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.857|||<|0.0001|TWO_SIDED|95.0|-1.22|-0.493|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.493|-1.220|<.0001
92269609|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.971|||<|0.0001|TWO_SIDED|95.0|-1.327|-0.616|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.616|-1.327|<.0001
92269610|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.936|||<|0.0001|TWO_SIDED|95.0|-1.298|-0.574|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.574|-1.298|<.0001
92269611|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.473||||0.0016|TWO_SIDED|95.0|0.133|0.813|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||0.813|0.133|0.0016
92269612|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.338||||0.0582|TWO_SIDED|95.0|-0.007|0.683|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||0.683|-0.007|0.0582
92269613|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.573|||<|0.0001|TWO_SIDED|95.0|0.232|0.914|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||0.914|0.232|<.0001
92269614|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.324||||0.0745|TWO_SIDED|95.0|-0.02|0.668|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||0.668|-0.020|0.0745
92269615|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.043||||1|TWO_SIDED|95.0|-0.337|0.422|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.422|-0.337|1.0000
92269616|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.116||||0.9759|TWO_SIDED|95.0|-0.501|0.268|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.268|-0.501|0.9759
92269617|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.186||||0.7128|TWO_SIDED|95.0|-0.565|0.192|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.192|-0.565|0.7128
92269618|NCT03692078|184440182|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.195||||0.6816|TWO_SIDED|95.0|-0.582|0.192|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.192|-0.582|0.6816
92269619|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-0.948|||<|0.0001|TWO_SIDED|95.0|-1.146|-0.75|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||-0.750|-1.146|<.0001
92269620|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.019|||<|0.0001|TWO_SIDED|95.0|-1.242|-0.796|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||-0.796|-1.242|<.0001
92269621|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.172|||<|0.0001|TWO_SIDED|95.0|-1.358|-0.986|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||-0.986|-1.358|<.0001
92269622|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.196|||<|0.0001|TWO_SIDED|95.0|-1.409|-0.983|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||-0.983|-1.409|<.0001
92269623|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.049|||<|0.0001|TWO_SIDED|95.0|-1.239|-0.859|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||-0.859|-1.239|<.0001
92269624|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.414|-0.986|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||-0.986|-1.414|<.0001
92269625|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.337|||<|0.0001|TWO_SIDED|95.0|-1.574|-1.099|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||-1.099|-1.574|<.0001
92269626|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.345|||<|0.0001|TWO_SIDED|95.0|-1.616|-1.075|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||-1.075|-1.616|<.0001
92269627|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.452|||<|0.0001|TWO_SIDED|95.0|-1.685|-1.219|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||-1.219|-1.685|<.0001
92269628|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.339|||<|0.0001|TWO_SIDED|95.0|-1.608|-1.071|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||-1.071|-1.608|<.0001
92269629|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.348|||<|0.0001|TWO_SIDED|95.0|-1.577|-1.118|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||-1.118|-1.577|<.0001
92269630|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.227|||<|0.0001|TWO_SIDED|95.0|-1.488|-0.966|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||-0.966|-1.488|<.0001
92269631|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.224||||0.5646|TWO_SIDED|95.0|-0.607|0.16|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.160|-0.607|0.5646
92269632|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.177||||0.8765|TWO_SIDED|95.0|-0.609|0.254|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.254|-0.609|0.8765
92269633|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.101||||0.9954|TWO_SIDED|95.0|-0.488|0.287|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.287|-0.488|0.9954
92269634|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.181||||0.8665|TWO_SIDED|95.0|-0.613|0.252|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.252|-0.613|0.8665
92269635|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.389||||0.1165|TWO_SIDED|95.0|-0.829|0.052|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||0.052|-0.829|0.1165
92269636|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.326||||0.3896|TWO_SIDED|95.0|-0.821|0.168|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||0.168|-0.821|0.3896
92327652|NCT03309696|184560474|EQUIVALENCE|A p value less than 0.05 is taken as evidence of nonequivalence.|Mean Difference (Net)|-0.19||||0.4|TWO_SIDED|||||The p value is not adjusted as this was a planned contrast.|Mixed Models Analysis||Effect of tDCS preconditioning on active rTMS: active tDCS preconditioning of active rTMS - sham tDCS preconditioning of active rTMS.|Examines the additive effect of tDCS preconditioning on the P100 amplitude after rTMS. The effect size for this comparison was 0.14.||||0.40
92327653|NCT03309696|184560474|EQUIVALENCE|A p value less than 0.05 is taken as evidence of nonequivalence.|Mean Difference (Net)|-0.48||||0.086|TWO_SIDED|||||The p value was not adjusted for this planned contrast.|Mixed Models Analysis||Active tDCS and Active rTMS - Sham tDCS and Sham rTMS.|Examines the combined effect of tDCS and rTMS on the P100 amplitude. The effect size for this comparison was .29 (Cohen's).||||.086
92327654|NCT02304380|184560485|OTHER||Difference in differences|-0.0064|||||TWO_SIDED|95.0|-0.0469|0.034|||||Linear model difference in incidences.|||0.0340|-0.0469|
92327655|NCT02304380|184560486|OTHER||Difference in Differences|0.0506|||||TWO_SIDED|95.0|0.029|0.0722|||||Linear model difference in incidences.|||0.0722|0.0290|
92269637|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.504||||0.0122|TWO_SIDED|95.0|-0.934|-0.074|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.074|-0.934|0.0122
92269638|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.32||||0.3938|TWO_SIDED|95.0|-0.807|0.167|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||0.167|-0.807|0.3938
92269639|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.176||||0.8501|TWO_SIDED|95.0|-0.237|0.589|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||0.589|-0.237|0.8501
92269640|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.031||||1|TWO_SIDED|95.0|-0.435|0.496|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||0.496|-0.435|1.0000
92269641|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.299||||0.2928|TWO_SIDED|95.0|-0.117|0.715|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||0.715|-0.117|0.2928
92269642|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.027||||1|TWO_SIDED|95.0|-0.439|0.493|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||0.493|-0.439|1.0000
92269643|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.011||||1|TWO_SIDED|95.0|-0.453|0.475|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.475|-0.453|1.0000
92269644|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.118||||0.9966|TWO_SIDED|95.0|-0.64|0.403|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.403|-0.640|0.9966
92269645|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.104||||0.9976|TWO_SIDED|95.0|-0.56|0.352|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.352|-0.560|0.9976
92327656|NCT02304380|184560487|OTHER||Difference in Differences|-0.0005|||||TWO_SIDED|95.0|-0.0109|0.0099|||||Linear model difference in incidences.|||0.0099|-0.0109|
92327657|NCT02304380|184560488|OTHER||Difference in differences|-0.0207|||||TWO_SIDED|95.0|-0.0318|0.0096||||||||0.0096|-0.0318|
92327658|NCT02304380|184560489|OTHER||Difference in differences|0.0163|||||TWO_SIDED|95.0|0.0036|0.0289|||||Linear model difference in incidences.|||0.0289|0.0036|
92269646|NCT03692078|184440184|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.112||||0.9976|TWO_SIDED|95.0|-0.628|0.404|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.404|-0.628|0.9976
92269647|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|180.0|||<|0.0001|TWO_SIDED|95.0|164.9|195.2|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||195.2|164.9|<.0001
92269648|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|181.1|||<|0.0001|TWO_SIDED|95.0|165.9|196.2|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||196.2|165.9|<.0001
92269649|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|132.3|||<|0.0001|TWO_SIDED|95.0|117.2|147.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||147.5|117.2|<.0001
92269650|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|137.3|||<|0.0001|TWO_SIDED|95.0|122.1|152.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||152.5|122.1|<.0001
92269651|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|136.8|||<|0.0001|TWO_SIDED|95.0|122.0|151.7|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||151.7|122.0|<.0001
92269652|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|150.8|||<|0.0001|TWO_SIDED|95.0|136.0|165.7|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||165.7|136.0|<.0001
92269653|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|43.2|||<|0.0001|TWO_SIDED|95.0|25.1|61.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||61.4|25.1|<.0001
92269654|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|61.7|||<|0.0001|TWO_SIDED|95.0|43.2|80.1|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||80.1|43.2|<.0001
92327659|NCT02304380|184560490|OTHER||Difference in differences|0.0046|||||TWO_SIDED|95.0|-0.002|0.0111|||||||Linear model difference in incidences.|0.0111|-0.0020|
92269655|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|36.9|||<|0.0001|TWO_SIDED|95.0|18.6|55.1|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||55.1|18.6|<.0001
92269656|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|35.5||||0.0002|TWO_SIDED|95.0|16.7|54.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||54.3|16.7|0.0002
92269657|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|38.8|||<|0.0001|TWO_SIDED|95.0|19.9|57.6|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||57.6|19.9|<.0001
92269658|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|44.9|||<|0.0001|TWO_SIDED|95.0|26.0|63.8|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||63.8|26.0|<.0001
92269659|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-47.7||||0.0002|TWO_SIDED|95.0|-78.0|-17.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-17.4|-78.0|0.0002
92269660|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-43.8||||0.0009|TWO_SIDED|95.0|-74.1|-13.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-13.4|-74.1|0.0009
92269661|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-43.2||||0.0009|TWO_SIDED|95.0|-73.2|-13.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-13.3|-73.2|0.0009
92269662|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-30.2||||0.0466|TWO_SIDED|95.0|-60.2|-0.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.3|-60.2|0.0466
92327660|NCT02304380|184560491|OTHER||Difference in differences|0.0151|||||TWO_SIDED|95.0|-0.0129|0.0431|||||Linear model difference in incidences.|||0.0431|-0.0129|
92327661|NCT02304380|184560492|OTHER||Difference in Differences|-0.0066|||||TWO_SIDED|95.0|-0.0328|0.0197|||||Linear model difference in incidences.|||0.0197|-0.0328|
92327662|NCT02304380|184560493|OTHER||Difference in Differences|-0.0105|||||TWO_SIDED|95.0|-0.0374|0.0163|||||Linear model difference in incidences.|||0.0163|-0.0374|
92327663|NCT02304380|184560494|OTHER||Difference in Differences|0.0006|||||TWO_SIDED|95.0|-0.0031|0.0044|||||Linear model difference in incidences.|||0.0044|-0.0031|
92327664|NCT02304380|184560495|OTHER||Difference in Differences|-0.0293|||||TWO_SIDED|95.0|-0.1025|0.044||||Linear model difference in incidences.||||0.0440|-0.1025|
92327665|NCT02304380|184560496|OTHER||Difference in Differences|-0.0579|||||TWO_SIDED|95.0|-0.1492|0.0116|||||Linear model difference in incidences.|||0.0116|-0.1492|
92269663|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-136.8|||<|0.0001|TWO_SIDED|95.0|-170.4|-103.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-103.3|-170.4|<.0001
92269664|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-119.4|||<|0.0001|TWO_SIDED|95.0|-153.3|-85.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-85.5|-153.3|<.0001
92269665|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-143.2|||<|0.0001|TWO_SIDED|95.0|-176.6|-109.7|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-109.7|-176.6|<.0001
92269666|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-145.6|||<|0.0001|TWO_SIDED|95.0|-179.7|-111.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-111.4|-179.7|<.0001
92269667|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|93.6|||<|0.0001|TWO_SIDED|95.0|60.0|127.2|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||127.2|60.0|<.0001
92269668|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|92.4|||<|0.0001|TWO_SIDED|95.0|58.8|126.1|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||126.1|58.8|<.0001
92269669|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|98.1|||<|0.0001|TWO_SIDED|95.0|64.6|131.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||131.5|64.6|<.0001
92269670|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|106.0|||<|0.0001|TWO_SIDED|95.0|72.5|139.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||139.4|72.5|<.0001
92269671|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|4.5||||1|TWO_SIDED|95.0|-32.0|40.9|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||40.9|-32.0|1.0000
92269672|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|16.8||||0.7714|TWO_SIDED|95.0|-20.0|53.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||53.5|-20.0|0.7714
92269673|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-1.9||||1|TWO_SIDED|95.0|-38.3|34.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||34.5|-38.3|1.0000
92269674|NCT03692078|184440186|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-9.4||||0.9926|TWO_SIDED|95.0|-46.4|27.6|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||27.6|-46.4|0.9926
92269675|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 1 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.872|||<|0.0001|TWO_SIDED|95.0|1.81|1.935|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 1 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||1.935|1.810|<.0001
92269676|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 1 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.913|||<|0.0001|TWO_SIDED|95.0|1.851|1.976|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 1 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||1.976|1.851|<.0001
92269677|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.467|||<|0.0001|TWO_SIDED|95.0|1.408|1.525|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||1.525|1.408|<.0001
92269678|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.493|||<|0.0001|TWO_SIDED|95.0|1.434|1.551|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||1.551|1.434|<.0001
92269679|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.55|||<|0.0001|TWO_SIDED|95.0|1.49|1.609|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||1.609|1.490|<.0001
92327666|NCT02304380|184560497|OTHER||Difference in differences|0.0072|||||TWO_SIDED|95.0|0.001|0.0134|||||Linear model difference in incidences.|||0.0134|0.0010|
92327667|NCT02304380|184560498|OTHER||Difference in Differences|0.0058|||||TWO_SIDED|95.0|0.0009|0.0107||||||||0.0107|0.0009|
92327668|NCT02304380|184560499|OTHER||Difference in Differences|0.0054|||||TWO_SIDED|95.0|0.0001|0.0106|||||Linear model difference in incidences.|||0.0106|0.0001|
92327669|NCT02304380|184560500|OTHER||Difference in Differences|-0.0039|||||TWO_SIDED|95.0|-0.0096|0.0017|||||Linear model difference in incidences.|||0.0017|-0.0096|
92327670|NCT02304380|184560501|OTHER||Difference in Differences|-0.011|||||TWO_SIDED|95.0|-0.0178|-0.0043|||||Linear model difference in incidences.|||-0.0043|-0.0178|
92327671|NCT02304380|184560502|OTHER||Difference in Differences|0.0026|||||TWO_SIDED|95.0|-0.0036|0.0086|||||Linear model difference in incidences.|||0.0086|-0.0036|
92327672|NCT02304380|184560503|OTHER||Difference in differences|0.0197|||||TWO_SIDED|95.0|0.011|0.0284|||||Linear model difference in incidences.|||0.0284|0.0110|
92269680|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.594|||<|0.0001|TWO_SIDED|95.0|1.533|1.654|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||1.654|1.533|<.0001
92269681|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.557|||<|0.0001|TWO_SIDED|95.0|0.482|0.631|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||0.631|0.482|<.0001
92269682|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.589|||<|0.0001|TWO_SIDED|95.0|0.514|0.665|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||0.665|0.514|<.0001
92269683|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.533|||<|0.0001|TWO_SIDED|95.0|0.461|0.605|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||0.605|0.461|<.0001
92269684|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.588|||<|0.0001|TWO_SIDED|95.0|0.514|0.662|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||0.662|0.514|<.0001
92269685|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 6 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.58|||<|0.0001|TWO_SIDED|95.0|0.508|0.652|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 6 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||0.652|0.508|<.0001
92269686|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 6 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.58|||<|0.0001|TWO_SIDED|95.0|0.507|0.653|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 6 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||0.653|0.507|<.0001
92269687|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.406|||<|0.0001|TWO_SIDED|95.0|-0.526|-0.285|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.285|-0.526|<.0001
92269688|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.421|||<|0.0001|TWO_SIDED|95.0|-0.541|-0.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.300|-0.541|<.0001
92327673|NCT00328094|184560507|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.29||||0.23|TWO_SIDED|95.0|0.85|1.97|||Chi-squared|||||1.97|0.85|0.23
92327674|NCT00577005|184560509|SUPERIORITY_OR_OTHER||Slope|-0.05425|STANDARD_ERROR_OF_MEAN|0.03211||0.09|TWO_SIDED|||||p-value \<0.05 considered statistically significant|Mixed Models Analysis|We modeled the the change in thrice weekly cocaine urines using a mixed-effect ordinal regression approach with MIXOR.|Group x time interaction: Z=-1.68950 p = 0.09112|||||0.09
92269689|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.323|||<|0.0001|TWO_SIDED|95.0|-0.444|-0.201|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.201|-0.444|<.0001
92269690|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.442|-0.198|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.198|-0.442|<.0001
92269691|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.315|||<|0.0001|TWO_SIDED|95.0|-1.453|-1.178|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.178|-1.453|<.0001
92269692|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.324|||<|0.0001|TWO_SIDED|95.0|-1.463|-1.186|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.186|-1.463|<.0001
92269693|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.339|||<|0.0001|TWO_SIDED|95.0|-1.473|-1.205|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.205|-1.473|<.0001
92269694|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.325|||<|0.0001|TWO_SIDED|95.0|-1.461|-1.19|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.190|-1.461|<.0001
92269695|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.887|||<|0.0001|TWO_SIDED|95.0|0.757|1.016|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.016|0.757|<.0001
92269696|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.912|||<|0.0001|TWO_SIDED|95.0|0.782|1.043|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.043|0.782|<.0001
92269697|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.97|||<|0.0001|TWO_SIDED|95.0|0.839|1.1|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.100|0.839|<.0001
92327675|NCT00577005|184560510|SUPERIORITY_OR_OTHER||Slope|0.0257|STANDARD_ERROR_OF_MEAN|0.04369||0.55|TWO_SIDED|||||p-value \<0.05 considered statistically significant|Mixed Models Analysis|We modeled the the change in thrice weekly opioid urines using a mixed-effect ordinal regression approach with MIXOR.|Group x time interaction: Z= 0.58823 p = 0.55638|||||0.55
92269698|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|1.013|||<|0.0001|TWO_SIDED|95.0|0.882|1.145|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.145|0.882|<.0001
92269699|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.023||||0.9999|TWO_SIDED|95.0|-0.168|0.122|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.122|-0.168|0.9999
92269700|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.009||||1|TWO_SIDED|95.0|-0.138|0.155|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.155|-0.138|1.0000
92269701|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.047||||0.9577|TWO_SIDED|95.0|-0.189|0.095|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.095|-0.189|0.9577
92269702|NCT03692078|184440188|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.008||||1|TWO_SIDED|95.0|-0.136|0.152|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.152|-0.136|1.0000
92269703|NCT01339858|184440198|SUPERIORITY|||||||0.32|||||||ANOVA|||||||0.32
92269704|NCT02861534|184440215|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.269|TWO_SIDED|95.0|0.81|1.06|||Cox proportional hazard model|||||1.06|0.81|0.269
92269705|NCT02861534|184440216|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.048|TWO_SIDED|95.0|0.81|1.0|||Cox proportional hazard model|||||1.00|0.81|0.048
92269706|NCT02861534|184440217|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.019|TWO_SIDED|95.0|0.82|0.98|||Cox proportional hazard model|||||0.98|0.82|0.019
92269707|NCT02861534|184440218|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.023|TWO_SIDED|95.0|0.84|0.99|||Andersen-Gill model|||||0.99|0.84|0.023
92269708|NCT02861534|184440219|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.021|TWO_SIDED|95.0|0.83|0.98|||Cox proportional hazard model|||||0.98|0.83|0.021
92269709|NCT02861534|184440220|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.377|TWO_SIDED|95.0|0.84|1.07|||Cox proportional hazard model|||||1.07|0.84|0.377
92269710|NCT02861534|184440223|OTHER||Difference in Percentage|1.2||||0.121|TWO_SIDED|95.0|-0.3|2.8|||Miettinen & Nurminen method|||||2.8|-0.3|0.121
92269711|NCT02861534|184440224|OTHER||Difference in Percentage|0.6||||0.303|TWO_SIDED|95.0|-0.5|1.6|||Miettinen & Nurminen method|||||1.6|-0.5|0.303
92269712|NCT00769132|184440245|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two treatments are comparable if the geometric mean ratio is contained within the interval \[0.50-2.00\].|Geometric least-squares mean ratio|1.12||||||90.0|0.9|1.38||||||The endpoint is the urine levels of 11-dTxB2 on Day 7 following a 7 day course of daily dosing in the overall 24 hour collection interval. The point estimate and 90% confidence intervals (CIs) were calculated for the geometric mean ratio (GMR) \[Treatment A/B\] of the urine levels of 11-dTxB2 on Day 7.||1.38|0.9|
92269713|NCT00769132|184440245|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.87||||||90.0|0.71|1.07||||||||1.07|0.71|
92327676|NCT00577005|184560511|SUPERIORITY_OR_OTHER|||||||0.67||||||p-value \<0.05 considered statistically significant|Log Rank|Chi-Square 0.175. df = 1, p=0.676||||||0.67
92269714|NCT00769132|184440245|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.8||||||90.0|0.65|0.98||||||||0.98|0.65|
92269715|NCT00769132|184440245|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.89||||||90.0|0.72|1.09||||||||1.09|0.72|
92269716|NCT00769132|184440245|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.91||||||90.0|0.74|1.12||||||||1.12|0.74|
92269717|NCT00769132|184440245|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|1.02||||||90.0|0.83|1.25||||||||1.25|0.83|
92269718|NCT00769132|184440246|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|1.04||||||90.0|0.92|1.17||||||||1.17|0.92|
92269719|NCT00769132|184440246|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.9||||||90.0|0.8|1.01||||||||1.01|0.8|
92269720|NCT00769132|184440246|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.56||||||90.0|0.49|0.63||||||||0.63|0.49|
92269721|NCT00769132|184440246|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.58||||||90.0|0.51|0.65||||||||0.65|0.51|
92269722|NCT00769132|184440246|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.62||||||90.0|0.55|0.7||||||||0.7|0.55|
92269723|NCT00769132|184440246|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.64||||||90.0|0.57|0.72||||||||0.72|0.57|
92269724|NCT01211873|184440247|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92269725|NCT01211873|184440248|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92269726|NCT01211873|184440248|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92269727|NCT01211873|184440249|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92269728|NCT01211873|184440249|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
92269729|NCT00442338|184440263|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.01||||0.871|TWO_SIDED|95.0|-0.07|0.08|||ANCOVA|The model included a factor for treatment and used the baseline FEV1 as a covariate.||Treatment difference in change from Baseline in FEV1 within the first 60 minutes after study drug administration was assessed as the difference in the least square (LS) means of time weighted average change FEV1 (0-60 min) using an Analysis of Covariance (ANCOVA) model.||0.08|-0.07|0.871
92269730|NCT00442338|184440263|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.01||||0.794|TWO_SIDED|95.0|-0.08|0.06|||ANCOVA|The model included a factor for treatment and used the baseline FEV1 as a covariate.||Treatment difference in change from Baseline in FEV1 within the first 60 minutes after study drug administration was assessed as the difference in the LS means of time weighted average change FEV1 (0-60 min) using an ANCOVA model.||0.06|-0.08|0.794
92269731|NCT00442338|184440263|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.02||||0.675|TWO_SIDED|95.0|-0.06|0.09|||ANCOVA|The model included a factor for treatment and used the baseline FEV1 as a covariate.||Treatment difference in change from Baseline in FEV1 within the first 60 minutes after study drug administration was assessed as the difference in the LS means of time weighted average change FEV1 (0-60 min) using an ANCOVA model.||0.09|-0.06|0.675
92269732|NCT01393626|184440283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.86||||0.3249|TWO_SIDED|95.0|-7.64|21.36|||Cochran-Mantel-Haenszel|||Tofacitinib-Placebo||21.36|-7.64|0.3249
92269733|NCT01393626|184440283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.36||||0.3916|TWO_SIDED|95.0|-8.09|20.8|||Cochran-Mantel-Haenszel|||Tofacitinib-Placebo||20.80|-8.09|0.3916
92269734|NCT02426125|184440303|SUPERIORITY||Hazard Ratio (HR)|0.757||||0.0118|TWO_SIDED|95.0|0.607|0.943||Stratified|Log Rank||Stratified|||0.943|0.607|0.0118
92269735|NCT02426125|184440304|SUPERIORITY||Hazard Ratio (HR)|0.887||||0.2461|TWO_SIDED|95.0|0.724|1.086||Stratified|Log Rank||Stratified|||1.086|0.724|0.2461
92269736|NCT02426125|184440307|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.189|TWO_SIDED|95.0|0.473|1.158|||Log Rank|||||1.158|0.473|0.189
92269737|NCT02426125|184440308|SUPERIORITY||Hazard Ratio (HR)|0.879||||0.357|TWO_SIDED|95.0|0.663|1.167||Stratified|Log Rank||Stratified|Global health status/QoL||1.167|0.663|0.357
92269738|NCT00077766|184440316|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with 90% power assuming that the true difference between the RO0503821 group and darbepoetin was not larger than 0.3 g/dL.|Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.1162|<|0.0001|TWO_SIDED|95.0|-0.049|0.408||The p-value for the non-inferiority test was derived using ANCOVA.|ANCOVA, CI for difference between groups|Degrees of Freedom : 246|Difference between groups based on the adjusted means derived from the ANCOVA model.|RO0503821 group was compared to darbepoetin alfa group, using analysis of covariance (ANCOVA) with the independent variable as treatment group and Hb at baseline and geographical region as covariates. The test for non-inferiority was based on the lower limit of 2-sided 95% confidence interval (CI) for difference in adjusted mean between 2 groups. If this lower limit was \> or = to -0.75 g/dL, the RO0503821 group was regarded as clinically non-inferior to darbepoetin alfa group, with 90% power.||0.408|-0.049|< 0.0001
92269739|NCT00118209|184440367|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.6519|TWO_SIDED|95.0|0.68|1.27|||Log Rank|||||1.27|0.68|0.6519
92269740|NCT00118209|184440368|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
92269741|NCT00118209|184440369|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.6414|TWO_SIDED|95.0|0.75|1.59|||Log Rank|||||1.59|0.75|0.6414
92269742|NCT01418365|184440371|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean ratio|0.979|||||TWO_SIDED|90.0|0.961|0.998|||ANOVA|||||0.998|0.961|
92269743|NCT01418365|184440372|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean Ratio|0.993|||||TWO_SIDED|90.0|0.951|1.04|||ANOVA|||||1.04|0.951|
92269744|NCT03226366|184440373|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.29|TWO_SIDED|95.0|-20.4|6.1|||Regression, Linear||Change in emergency department door-to-antibiotic time (minutes) based on adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable regression to estimate the change in emergency department (ED) door-to-antibiotic time after versus before intervention implementation at the intervention site adjusted for the change observed over the same time period at the control sites and for subject's age, sex, Elixhauser Comorbidity Score, initial systolic blood pressure, initial Glasgow Coma Scale score \<14. initial temperature, ED triage acuity score, and ED arrival via ambulance.||6.1|-20.4|0.29
92269745|NCT03226366|184440374|SUPERIORITY||Odds Ratio (OR)|0.81||||0.72|TWO_SIDED|95.0|0.25|2.61|||Regression, Logistic||Odds ratio for hospital mortality after versus before intervention implementation based on adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable regression to estimate the change in odds of hospital mortality after versus before implementation at the intervention site with adjustment for observed change in outcome over the same time period at the control sites as well as for subject's age, sex, Elixhauser Comorbidity Score, initial systolic blood pressure, an initial Glasgow Coma Scale score \<14. initial temperature, ED triage acuity score, and arrival to the ED via ambulance.||2.61|0.25|0.72
92269746|NCT03226366|184440375|SUPERIORITY||Mean Difference (Final Values)|-9.5||||0.26|TWO_SIDED|95.0|-25.9|7.0|||Regression, Linear||Change in emergency department length of stay (minutes) after versus before intervention implementation based on adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable regression to estimate the change in emergency department length of stay after versus before implementation at the intervention site with adjustment for the change observed over the same time period at the control sites as well as for subject's age, sex, Elixhauser Comorbidity Score, initial systolic blood pressure, an initial Glasgow Coma Scale score \<14. initial temperature, ED triage acuity score, and arrival to the ED via ambulance.||7.0|-25.9|0.26
92269747|NCT03226366|184440376|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.55|TWO_SIDED|95.0|-3.3|1.8|||Regression, Linear||Estimated change in emergency department door-to-physician evaluation time (minutes) after versus before intervention implementation based on adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable regression to estimate the change in emergency department (ED) door-to-physician evaluation time after versus before implementation at the intervention site adjusted for the change observed over the same time period at the control sites and for subject's age, sex, Elixhauser Comorbidity Score, initial systolic blood pressure, initial Glasgow Coma Scale score \<14. initial temperature, ED triage acuity score, and ED arrival via ambulance.||1.8|-3.3|0.55
92269748|NCT02181075|184440389|SUPERIORITY|||||||0.024||||||Not adjusted for multiple comparisons. A priori threshold \< 0.05|t-test, 2 sided|95% confidence interval (CI)||A paired t-test was used for Part I (Arm 1) only. Analysis only applies to Part I (Arm 1) because only this study arm has matched Post-LTLD (i.e. post-drug alone) and Post-LTLD+FUS biopsy samples obtained from the same liver tumours before and after targeted drug delivery. In Part II of the study design in which drug delivery occurred completely non-invasively, no Post-LTLD tissue sample is obtained and only a single tumour biopsy is obtained following drug delivery (Post-LTLD+FUS).||||0.024
92269749|NCT02180659|184440395|NON_INFERIORITY|"For the primary efficacy variable, a test of non-inferiority of Probuphine (active) versus SL BPN (control) responders was conducted. A non-inferiority margin of 20% was employed to define noninferiority.~A Confidence Interval (CI) for the difference in proportions was calculated, and non-inferiority was established if the lower bound of the 95% CI for the difference of proportions (Probuphine - SL BPN) was greater than -0.20."|Difference in Response Rate|0.088|||<|0.001|TWO_SIDED|95.0|0.009|0.167|||Chi-squared|||||0.167|0.009|<.001
92269750|NCT02180659|184440396|SUPERIORITY|At month 6 comparing those subject with no illicit drug use.||||||0.306|||||||Chi-squared|||||||0.306
92269751|NCT02180659|184440397|SUPERIORITY|||||||0.037|||||||Log Rank|||||||.037
92269752|NCT02180659|184440399|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.832|TWO_SIDED||||||ANOVA|||Comparing change in baseline to week 24 between the two groups.||||0.832
92269753|NCT02180659|184440400|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.922|TWO_SIDED||||||ANOVA|||||||0.922
92269754|NCT02180659|184440401|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.425|TWO_SIDED||||||ANOVA|||||||0.425
92269755|NCT02180659|184440402|SUPERIORITY||Median Difference (Final Values)|-1.3||||0.505|TWO_SIDED||||||ANOVA|||Comparing change in baseline to week 24 between the two groups.||||0.505
92269756|NCT04150107|184440403|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|Least mean squares||||<|0.9223|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.9223
92269757|NCT04150107|184440404|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|||||<|0.8871|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.8871
92269758|NCT04150107|184440405|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|||||<|0.9641|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.9641
92269759|NCT04150107|184440406|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|||||<|0.7922|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.7922
92269760|NCT04150107|184440407|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|||||<|0.9898|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.9898
92269761|NCT04150107|184440408|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|||||<|0.5165|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.5165
92327677|NCT00577005|184560512|SUPERIORITY_OR_OTHER||Slope|-0.1557||||0.11|TWO_SIDED|||||Significant p-value \< 0.05|Mixed Models Analysis||Interaction of time x group: Z = -1.5671, p = 0.11708|||||0.11
92327678|NCT02539134|184560533|SUPERIORITY_OR_OTHER||Slope|1.06||||0.757|TWO_SIDED|90.0|0.741|1.374|||Power model|||Day 1: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 1 was assessed using the power model. For Day 1, the criteria for dose proportionality was the 90 percent (%) confidence interval (CI) for the slope within (0.875, 1.125) for the dose range of 100 mg to 600 mg.||1.374|0.741|0.757
92269762|NCT00440193|184440413|NON_INFERIORITY_OR_EQUIVALENCE|Assuming equal efficacy, a total of 88 events was calculated to give a power of 90% to prove that rivaroxaban is at least as effective as the comparator, considering a non-inferiority upper CI margin for the hazard ratio of 2.0 (two-sided α=0.05). A mean incidence for the primary efficacy outcome of 3% was expected and at least 1465 participants per group were determined to be necessary. This number was to be adjusted based on the observed overall incidence of symptomatic recurrent VTE.|Hazard Ratio (HR)|0.68|STANDARD_ERROR_OF_MEAN|0.2179|<|0.0001||95.0|0.44|1.04|||Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline|The standard error of the log hazard ratio was estimated.|The rivaroxaban to comparator hazard ratio was computed with a 95% CI (confidence interval) (two-sided testing). Based on this model, rivaroxaban would be considered at least as effective as the comparator if the upper limit of the CI was less than 2.0.||1.04|0.44|< 0.0001
92269763|NCT00440193|184440414|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|STANDARD_ERROR_OF_MEAN|0.1616||0.044||95.0|0.53|0.99||Nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||0.99|0.53|0.044
92269764|NCT00440193|184440415|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67|STANDARD_ERROR_OF_MEAN|0.1828||0.027||95.0|0.47|0.95||Nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||0.95|0.47|0.027
92269765|NCT00440193|184440417|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97|STANDARD_ERROR_OF_MEAN|0.1204||0.77||95.0|0.76|1.22||Nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||1.22|0.76|0.77
92269766|NCT03409328|184440478|OTHER||F|38.44|||<|0.001|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||||||<.001
92269767|NCT03409328|184440479|OTHER||F|6.69||||0.013|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||||||.013
92269768|NCT03409328|184440480|OTHER||F|5.07||||0.029|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||||||.029
92269769|NCT03409328|184440481|OTHER||F|0.38||||0.542|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||||||.542
92269770|NCT03409328|184440482|OTHER||F|3.12||||0.084|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||The outcome for this analysis is internalized stigma.||||.084
92269771|NCT03409328|184440482|OTHER||F|0.67||||0.417|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||The outcome for this analysis is identity affirmation.||||.417
92269772|NCT00518011|184440485|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.842||||0.3644|TWO_SIDED|95.0|0.483|7.027|||Log Rank|||||7.027|0.483|0.3644
92269773|NCT00518011|184440489|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.278||||0.7165|TWO_SIDED|95.0|0.339|4.824|||Log Rank|||||4.824|0.339|0.7165
92269774|NCT00090259|184440511|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.899||||0.027|TWO_SIDED|95.0|0.818|0.988|||Regression, Cox|Model terms: treatment, region and β-blocker use at randomization|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on Losartan 150 mg compared to Losartan 50 mg|||0.988|0.818|0.027
92269775|NCT00090259|184440512|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.924||||0.068|TWO_SIDED|95.0|0.848|1.006|||Regression, Cox|Model terms: treatment, region and β-blocker use at randomization|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on Losartan 150 mg compared to Losartan 50 mg|||1.006|0.848|0.068
92269776|NCT00090259|184440513|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.936||||0.235|TWO_SIDED|95.0|0.84|1.044|||Regression, Cox|Model terms: treatment, region and β-blocker use at randomization|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on Losartan 150 mg compared to Losartan 50 mg|||1.044|0.840|0.235
92269777|NCT00090259|184440514|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.865||||0.025|TWO_SIDED|95.0|0.762|0.982|||Regression, Cox|Model terms: treatment, region and β-blocker use at randomization|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on Losartan 150 mg compared to Losartan 50 mg|||0.982|0.762|0.025
92269778|NCT00090259|184440515|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.892||||0.023|TWO_SIDED|95.0|0.808|0.984|||Regression, Cox|Model terms: treatment, region and β-blocker use at randomization|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on Losartan 150 mg compared to Losartan 50 mg|||0.984|0.808|0.023
92269779|NCT03701516|184440518|NON_INFERIORITY|Non-inferiority will be established if the lower bound of the credible interval of the mean difference between Test and Control is greater than -5.|Posterior Mean Difference|-0.38|STANDARD_DEVIATION|1.781|||TWO_SIDED|98.0|-4.53|3.85|||Bayesian repeated measurement model|Results were reported as regression coefficient mean estimates with credible intervals (CrI)|Mean difference was calculated as Test - Control|||3.85|-4.53|
92269780|NCT03701516|184440519|NON_INFERIORITY|Non-inferiority will be established if the lower bound of the credible interval of the mean difference between Test and Control is greater than -5.|Posterior Mean Difference|-2.34|STANDARD_DEVIATION|1.263|||TWO_SIDED|98.0|-5.36|0.61|||Bayesian repeated measurement model|Results were reported as regression coefficient mean estimates with credible intervals (CrI)|Mean difference was calculated as Test - Control|||0.61|-5.36|
92269781|NCT03701516|184440520|NON_INFERIORITY|Non-inferiority will be established if the lower bound of the credible interval of the mean difference between Test and Control is greater than -1.|Posterior Mean Difference|-0.06|STANDARD_DEVIATION|0.083|||TWO_SIDED|95.0|-0.22|0.1|||Bayesian repeated measurement model|Results were reported as regression coefficient mean estimates with credible intervals (CrI)|Mean difference was calculated as Test - Control|||0.10|-0.22|
92269782|NCT03701516|184440521|NON_INFERIORITY|Non-inferiority will be established if the upper bound of the credible interval of the mean difference between Test and Control is less than 0.05.|Posterior Mean Difference|0.001|STANDARD_DEVIATION|0.0028|||TWO_SIDED|95.0|-0.005|0.006|||Bayesian repeated measurement random-eff|Results were reported as regression coefficient mean estimates with credible intervals (CrI)|Mean difference was calculated as Test - Control|||0.006|-0.005|
92269783|NCT03701516|184440522|NON_INFERIORITY|Non-inferiority will be established if the upper bound of the credible interval of the mean difference between Test and Control is less than 0.05.|Posterior Mean Difference|-0.003|STANDARD_DEVIATION|0.0029|||TWO_SIDED|95.0|-0.009|0.002|||Bayesian repeated measurement model|Results were reported as regression coefficient mean estimates with credible intervals (CrI)|Mean difference was calculated as Test - Control|||0.002|-0.009|
92269784|NCT00956813|184440565|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||||||0.29
92269785|NCT00956813|184440567|SUPERIORITY_OR_OTHER|||||||0.93|||||||Kruskal-Wallis|||||||0.93
92269786|NCT00956813|184440568|SUPERIORITY_OR_OTHER|||||||0.19|||||||Kruskal-Wallis|||Testing the change in score from baseline to treatment completion for vasomotor-related questions in the MENQOL form.||||0.19
92269787|NCT00956813|184440568|SUPERIORITY_OR_OTHER|||||||0.78|||||||Kruskal-Wallis|||Testing the change in score from baseline to treatment completion for Psychosocial-related questions in the MENQOL form.||||0.78
92269788|NCT00956813|184440568|SUPERIORITY_OR_OTHER|||||||0.238|||||||Kruskal-Wallis|||Testing the change in score from baseline to treatment completion for Physical-related questions in the MENQOL form.||||0.238
92269789|NCT00956813|184440568|SUPERIORITY_OR_OTHER|||||||0.497|||||||Kruskal-Wallis|||Testing the change in score from baseline to treatment completion for Sexually-related questions in the MENQOL form.||||0.497
92269790|NCT00956813|184440569|SUPERIORITY_OR_OTHER|||||||0.089|||||||Kruskal-Wallis|||||||0.089
92269791|NCT03083639|184440577|EQUIVALENCE|The bioequivalence between esomeprazole capsules (Regimen A) and esomeprazole tablets (Regimen B) was assessed for the natural logarithms of AUC∞ using analysis of variance (ANOVA) models. The models included regimen, period, and sequence as fixed effects and participant nested within sequence as a random effect. Within ANOVA framework, point estimates and their 90 percent (%) confidence intervals (CIs) for the ratio of AUC central values between esomeprazole capsules and tablets are presented.|Point estimate|1.018|||||TWO_SIDED|90.0|0.969|1.07||||||||1.070|0.969|
92269792|NCT03083639|184440578|EQUIVALENCE|The bioequivalence between esomeprazole capsules (Regimen A) and esomeprazole tablets (Regimen B) was assessed for the natural logarithms of AUCt using ANOVA models. The models included regimen, period, and sequence as fixed effects and participant nested within sequence as a random effect. Within ANOVA framework, point estimates and their 90% CIs for the ratio of AUC central values between esomeprazole capsules and tablets are presented.|Point estimate|0.993|||||TWO_SIDED|90.0|0.939|1.05||||||||1.050|0.939|
92269793|NCT03083639|184440579|EQUIVALENCE|The bioequivalence between esomeprazole capsules (Regimen A) and esomeprazole tablets (Regimen B) was assessed for the natural logarithms of Cmax using ANOVA models. The models included regimen, period, and sequence as fixed effects and participant nested within sequence as a random effect. Within ANOVA framework, point estimates and their 90% CIs for the ratio of Cmax central values between esomeprazole capsules and tablets are presented.|Point estimate|0.942|||||TWO_SIDED|90.0|0.88|1.009||||||||1.009|0.880|
92269794|NCT03611751|184440590|SUPERIORITY||Odds Ratio (OR)|10.55|||<|0.0001|TWO_SIDED|95.0|6.54|17.0|||Cochran-Mantel-Haenszel|||||17.00|6.54|<0.0001
92269795|NCT03611751|184440591|SUPERIORITY||Odds Ratio (OR)|10.49|||<|0.0001|TWO_SIDED|95.0|6.65|16.55|||Cochran-Mantel-Haenszel|||||16.55|6.65|<0.0001
92269796|NCT03611751|184440592|SUPERIORITY||Odds Ratio (OR)|11.42|||<|0.0001|TWO_SIDED|95.0|5.45|23.93|||Cochran-Mantel-Haenszel|||||23.93|5.45|<0.0001
92269797|NCT03611751|184440592|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0046|TWO_SIDED|95.0|1.18|2.56|||Cochran-Mantel-Haenszel|||||2.56|1.18|0.0046
92269798|NCT03611751|184440593|SUPERIORITY||Odds Ratio (OR)|9.21|||<|0.001|TWO_SIDED|95.0|2.89|29.4|||Cochran-Mantel-Haenszel|||||29.40|2.89|<0.001
92269799|NCT03611751|184440593|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0051|TWO_SIDED|95.0|1.3|5.0|||Cochran-Mantel-Haenszel|||||5.00|1.30|0.0051
92269800|NCT03611751|184440594|SUPERIORITY||Odds Ratio (OR)|14.44|||<|0.0001|TWO_SIDED|95.0|4.62|45.11|||Cochran-Mantel-Haenszel|||||45.11|4.62|<0.0001
92269801|NCT03611751|184440594|SUPERIORITY||Odds Ratio (OR)|2.85||||0.0002|TWO_SIDED|95.0|1.61|5.03|||Cochran-Mantel-Haenszel|||||5.03|1.61|0.0002
92269802|NCT03611751|184440595|SUPERIORITY||Mean Difference (Net)|-23.6|STANDARD_ERROR_OF_MEAN|1.67|<|0.0001|TWO_SIDED|95.0|-26.9|-20.3|||ANCOVA|||||-20.3|-26.9|<0.0001
92269803|NCT03611751|184440595|SUPERIORITY||Mean Difference (Net)|-7.2|STANDARD_ERROR_OF_MEAN|1.68|<|0.0001|TWO_SIDED|95.0|-10.5|-3.9|||ANCOVA|||||-3.9|-10.5|<0.0001
92269804|NCT03611751|184440596|SUPERIORITY||Odds Ratio (OR)|6.4||||0.0005|TWO_SIDED|95.0|1.94|21.15|||Cochran-Mantel-Haenszel|||||21.15|1.94|0.0005
92269805|NCT03611751|184440596|SUPERIORITY||Odds Ratio (OR)|1.82||||0.0928|TWO_SIDED|95.0|0.89|3.71|||Cochran-Mantel-Haenszel|||||3.71|0.89|0.0928
92269806|NCT03611751|184440597|SUPERIORITY||Odds Ratio (OR)|6.85|||<|0.0001|TWO_SIDED|95.0|4.34|10.81|||Cochran-Mantel-Haenszel|||||10.81|4.34|<0.0001
92269807|NCT03611751|184440597|SUPERIORITY||Odds Ratio (OR)|2.63|||<|0.0001|TWO_SIDED|95.0|1.77|3.91|||Cochran-Mantel-Haenszel|||||3.91|1.77|<0.0001
92269808|NCT03611751|184440598|SUPERIORITY||Odds Ratio (OR)|5.38|||<|0.0001|TWO_SIDED|95.0|3.42|8.47|||Cochran-Mantel-Haenszel|||||8.47|3.42|<0.0001
92269809|NCT03611751|184440599|SUPERIORITY||Odds Ratio (OR)|3.21||||0.0621|TWO_SIDED|95.0|0.88|11.79|||Cochran-Mantel-Haenszel|||||11.79|0.88|0.0621
92269810|NCT03611751|184440600|SUPERIORITY||Odds Ratio (OR)|0.64||||0.6692|TWO_SIDED|95.0|0.06|7.46|||Cochran-Mantel-Haenszel|||||7.46|0.06|0.6692
92269811|NCT03611751|184440600|SUPERIORITY||Odds Ratio (OR)|0.32||||0.3793|TWO_SIDED|95.0|0.02|5.56|||Cochran-Mantel-Haenszel|||||5.56|0.02|0.3793
92269812|NCT03611751|184440601|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0004|TWO_SIDED|95.0|1.29|2.41|||Cochran-Mantel-Haenszel|||||2.41|1.29|0.0004
92269813|NCT03611751|184440602|SUPERIORITY||Odds Ratio (OR)|2.01|||<|0.0001|TWO_SIDED|95.0|1.45|2.78|||Cochran-Mantel-Haenszel|||||2.78|1.45|<0.0001
92269814|NCT03611751|184440603|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
92269815|NCT03611751|184440604|SUPERIORITY||Odds Ratio (OR)|2.47|||<|0.0001|TWO_SIDED|95.0|1.78|3.43|||Cochran-Mantel-Haenszel|||||3.43|1.78|<0.0001
92269816|NCT03611751|184440605|SUPERIORITY||Odds Ratio (OR)|2.44|||<|0.0001|TWO_SIDED|95.0|1.78|3.36|||Cochran-Mantel-Haenszel|||||3.36|1.78|<0.0001
92269817|NCT03611751|184440606|SUPERIORITY||Odds Ratio (OR)|2.07||||0.0001|TWO_SIDED|95.0|1.43|3.01|||Cochran-Mantel-Haenszel|||||3.01|1.43|0.0001
92269818|NCT01371006|184440618|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|105.61|STANDARD_DEVIATION|22.0|||TWO_SIDED|90.0|90.81|122.82|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (50 mg Efavirenz+240 mg Faldaprevir : 50 mg Efavirenz) of Efavirenz||122.82|90.81|
92269819|NCT01371006|184440619|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|116.12|STANDARD_DEVIATION|18.8|||TWO_SIDED|90.0|101.87|132.35|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (50 mg Efavirenz+240 mg Faldaprevir : 50 mg Efavirenz) of Efavirenz||132.35|101.87|
92269820|NCT01371006|184440620|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|71.83|STANDARD_DEVIATION|23.6|||TWO_SIDED|90.0|61.46|83.95|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (7.5 mg Midazolam+240 mg Faldaprevir+600 mg Efavirenz : 7.5 mg Midazolam+240 mg Faldaprevir) of Faldaprevir||83.95|61.46|
92269821|NCT01371006|184440621|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|64.97|STANDARD_DEVIATION|30.2|||TWO_SIDED|90.0|53.32|79.16|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (7.5 mg Midazolam+240 mg Faldaprevir+600 mg Efavirenz : 7.5 mg Midazolam+240 mg Faldaprevir) of Faldaprevir||79.16|53.32|
92269822|NCT01371006|184440622|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|54.31|STANDARD_DEVIATION|44.2|||TWO_SIDED|90.0|40.47|72.88|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (7.5 mg Midazolam+240 mg Faldaprevir+600 mg Efavirenz : 7.5 mg Midazolam+240 mg Faldaprevir) of Faldaprevir||72.88|40.47|
92269823|NCT03256526|184440635|SUPERIORITY||LS mean difference|11.45||||0.1654|TWO_SIDED|90.0|-2.19|25.09|||ANCOVA|||||25.09|-2.19|0.1654
92269824|NCT03256526|184440635|SUPERIORITY||LS mean difference|-18.73||||0.0395|TWO_SIDED|90.0|-33.55|-3.9|||ANCOVA|||||-3.90|-33.55|0.0395
92269825|NCT01186744|184440643|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Log Rank|||||||0.0008
92269826|NCT01186744|184440643|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
92269827|NCT01186744|184440644|SUPERIORITY_OR_OTHER|||||||0.0027|TWO_SIDED||||||Log Rank|||||||0.0027
92269828|NCT01186744|184440644|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
92269829|NCT03515837|184440783|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0122|TWO_SIDED|95.0|0.65|0.97|||Log Rank|One-sided p-value based on log-rank test stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|||0.97|0.65|0.0122
92269830|NCT03515837|184440784|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0362|TWO_SIDED|95.0|0.69|1.02|||Log Rank|One-sided p-value based on log-rank test stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|||1.02|0.69|0.0362
92269831|NCT03515837|184440785|SUPERIORITY||Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|-6.0|9.9|||||Based on Miettinen \& Nurminen method stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|||9.9|-6.0|
92269832|NCT03515837|184440787|OTHER||Difference in LS Means|1.59|||||TWO_SIDED|95.0|-1.93|5.1|||||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors PD-L1 expression, treatment history, and geographic region of the enrolling site as covariates.|||5.10|-1.93|
92269833|NCT03515837|184440788|OTHER||Hazard Ratio (HR)|0.93||||||95.0|0.68|1.27|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|||1.27|0.68|
92269834|NCT01856686|184440796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56593|||||||ANCOVA|||Between-Group Comparison||||0.56593
92269835|NCT01856686|184440796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44929|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.44929
92269836|NCT01856686|184440796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81844|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.81844
92269837|NCT01856686|184440797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71152|||||||ANCOVA|||Between-Group Comparison||||0.71152
92269838|NCT01856686|184440797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27795|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.27795
92269839|NCT01856686|184440797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47616|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.47616
92269840|NCT01856686|184440798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.10036|||||||ANCOVA|||Between-Group Comparison||||0.10036
92269841|NCT01856686|184440798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0082|||||||Paired t-test|||Within-group changes||||0.00820
92269842|NCT01856686|184440798|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||1.00000
92269843|NCT01856686|184440799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92193|||||||ANCOVA|||Between-Group Comparison||||0.92193
92269844|NCT01856686|184440799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.50704|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.50704
92269845|NCT01856686|184440799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42314|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.42314
92269846|NCT01856686|184440800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08946|||||||ANCOVA|||Between-Group Comparison||||0.08946
92269847|NCT01856686|184440800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27795|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.27795
92269848|NCT01856686|184440800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0109|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.01090
92269849|NCT01856686|184440801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.73209|||||||ANCOVA|||Between-Group Comparison||||0.73209
92269850|NCT01856686|184440801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07965|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.07965
92269851|NCT01856686|184440801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61613|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.61613
92269852|NCT01856686|184440802|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33027|||||||ANCOVA|||Between-Group Comparison||||0.33027
92269853|NCT01856686|184440802|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00013|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00013
92269854|NCT01856686|184440802|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28019|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.28019
92269855|NCT01856686|184440803|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94449|||||||ANCOVA|||Between-Group Comparison||||0.94449
92269856|NCT01856686|184440803|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94574|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.94574
92269857|NCT01856686|184440803|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85428|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.85428
92269858|NCT01856686|184440804|SUPERIORITY_OR_OTHER_LEGACY|||||||0.83929|||||||ANCOVA|||Between-Group Comparison||||0.83929
92269859|NCT01856686|184440804|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97213|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.97213
92269860|NCT01856686|184440804|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58323|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.58323
92269861|NCT01856686|184440805|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05158|||||||ANCOVA|||Between-Group Comparison||||0.05158
92269862|NCT01856686|184440805|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94574|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.94574
92269863|NCT01856686|184440805|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09331|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.09331
92269864|NCT01856686|184440806|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17383|||||||ANCOVA|||Between-Group Comparison||||0.17383
92269865|NCT01856686|184440806|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00092|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00092
92269866|NCT01856686|184440806|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15544|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.15544
92269867|NCT01856686|184440807|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39707|||||||ANCOVA|||Between-Group Comparison||||0.39707
92269868|NCT01856686|184440807|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27945|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.27945
92269869|NCT01856686|184440807|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19739|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.19739
92269870|NCT01856686|184440808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.50964|||||||ANCOVA|||Between-Group Comparison||||0.50964
92269871|NCT01856686|184440808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0071|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00710
92269872|NCT01856686|184440808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00595|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00595
92269873|NCT01856686|184440809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48336|||||||ANCOVA|||Between-Group Comparison||||0.48336
92269874|NCT01856686|184440809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08739|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.08739
92269875|NCT01856686|184440809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37046|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.37046
92269876|NCT01856686|184440811|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45013|||||||ANCOVA|||Between-Group Comparison||||0.45013
92269877|NCT01856686|184440811|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17374|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.17374
92269878|NCT01856686|184440811|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07548|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.07548
92269879|NCT01856686|184440812|SUPERIORITY_OR_OTHER_LEGACY|||||||0.23226|||||||ANCOVA|||Between-Group Comparison||||0.23226
92269880|NCT01856686|184440812|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08812|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.08812
92269881|NCT01856686|184440812|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00776|||||||Pairedt-test|||Within-group comparisons between the baseline and 3 month data||||0.00776
92269882|NCT01856686|184440813|SUPERIORITY_OR_OTHER_LEGACY|||||||0.90843|||||||ANCOVA|||Between-Group Comparison||||0.90843
92269883|NCT01856686|184440813|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00413|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00413
92269884|NCT01856686|184440813|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00775|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00775
92269885|NCT02367729|184440826|SUPERIORITY||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|0.3947||0.003|TWO_SIDED|95.0|1.37|2.93|||Wilcoxon (Mann-Whitney)|||||2.93|1.37|0.003
92269886|NCT00759174|184440832|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.15||||0.033|TWO_SIDED|95.0|1.06|4.34|||Conditional logistic regression|||Conditional logistic regression was stratified by participant.||4.34|1.06|0.033
92269887|NCT00759174|184440833|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.36||||0.003|TWO_SIDED|95.0|1.33|4.19|||Conditional logistic regression|||Conditional logistic regression was stratified by participant.||4.19|1.33|0.003
92269888|NCT00759174|184440834|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.61|||<|0.001|TWO_SIDED|95.0|1.7|7.69|||Conditional logistic regression|||Conditional logistic regression was stratified by participant.||7.69|1.70|<0.001
92327679|NCT02539134|184560533|SUPERIORITY_OR_OTHER||Slope|1.37||||0.042|TWO_SIDED|90.0|1.078|1.664|||Power model|||Day 14: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 14 was assessed using the power model. For Day 14, the criteria for dose proportionality was the 90% CI for the slope within (0.839, 1.161) for the dose range of 100 mg to 400 mg.||1.664|1.078|0.042
92269889|NCT01890109|184440835|SUPERIORITY||Least Square Geometric Mean Ratio|1.1||||0.723|TWO_SIDED|95.0|0.66|1.83|||Repeated Measures Analysis of Covariance|||Repeated measures analysis of covariance was performed on the log transformed ratio to baseline of the number of daily moderate to severe hot flashes. Independent variables included treatment, week, and the treatment-by-week interaction; subject served as a random effect; and the log transformed baseline number of daily moderate to severe hot flashes was used as a covariate.||1.83|0.66|0.723
92269890|NCT01890109|184440836|SUPERIORITY||Least Square Geometric Mean Ratio|1.14||||0.551|TWO_SIDED|95.0|0.74|1.74|||Repeated Measures Analysis of Covariance|||Repeated measures analysis of covariance was performed on the log transformed ratio to baseline of the daily hot flash severity score. Independent variables included treatment, week, and the treatment-by-week interaction; subject served as a random effect; and the log transformed baseline daily hot flash severity score was used as a covariate.||1.74|0.74|0.551
92269891|NCT00996632|184440916|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||null hypothesis is that drainage volumes are not different||||<0.05
92269892|NCT00996632|184440917|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Wilcoxon (Mann-Whitney)|||null hypothesis is that Stay in Hospital Days are not different||||0.05
92269893|NCT03359473|184440970|OTHER||Mean Difference (Net)|4.53|||||TWO_SIDED|90.0|-1.3|10.36|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||10.36|-1.30|
92269894|NCT03359473|184440970|OTHER||Mean Difference (Net)|7.8|||||TWO_SIDED|90.0|0.83|14.76|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||14.76|0.83|
92269895|NCT03359473|184440971|OTHER||Mean Difference (Net)|16.71|||||TWO_SIDED|90.0|9.86|23.56|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||23.56|9.86|
92269896|NCT03359473|184440971|OTHER||Mean Difference (Net)|5.35|||||TWO_SIDED|90.0|-4.09|14.78|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||14.78|-4.09|
92269897|NCT03359473|184440972|OTHER||Mean Difference (Net)|5.17|||||TWO_SIDED|90.0|-4.67|15.01|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||15.01|-4.67|
92269898|NCT03359473|184440972|OTHER||Mean Difference (Net)|7.02|||||TWO_SIDED|90.0|0.46|13.58|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||13.58|0.46|
92269899|NCT03359473|184440973|OTHER||Mean Difference (Net)|5.9|||||TWO_SIDED|90.0|-1.4|13.2|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||13.2|-1.4|
92269900|NCT03359473|184440973|OTHER||Mean Difference (Net)|13.5|||||TWO_SIDED|90.0|1.6|25.5|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||25.5|1.6|
92269901|NCT03359473|184440974|OTHER||Mean Difference (Net)|20.7|||||TWO_SIDED|90.0|10.1|31.2|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||31.2|10.1|
92269902|NCT03359473|184440974|OTHER||Mean Difference (Net)|7.3|||||TWO_SIDED|90.0|-11.1|25.8|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||25.8|-11.1|
92269903|NCT03359473|184440975|OTHER||Mean Difference (Net)|8.0|||||TWO_SIDED|90.0|-2.5|18.4|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||18.4|-2.5|
92269904|NCT03359473|184440975|OTHER||Mean Difference (Net)|11.8|||||TWO_SIDED|90.0|-0.5|24.0|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||24.0|-0.5|
92269905|NCT03359473|184440976|OTHER||Mean Difference (Net)|0.882|||||TWO_SIDED|90.0|0.643|1.121|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||1.121|0.643|
92269906|NCT03359473|184440976|OTHER||Mean Difference (Net)|0.291|||||TWO_SIDED|90.0|-0.156|0.738|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||0.738|-0.156|
92269907|NCT03359473|184440977|OTHER||Mean Difference (Net)|0.982|||||TWO_SIDED|90.0|0.629|1.334|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||1.334|0.629|
92269908|NCT03359473|184440977|OTHER||Mean Difference (Net)|1.127|||||TWO_SIDED|90.0|0.682|1.571|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||1.571|0.682|
92269909|NCT03359473|184440978|OTHER||Mean Difference (Net)|1.38|||||TWO_SIDED|90.0|0.964|1.795|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||1.795|0.964|
92269910|NCT03359473|184440978|OTHER||Mean Difference (Net)|1.124|||||TWO_SIDED|90.0|0.594|1.654|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||1.654|0.594|
92269911|NCT03359473|184440979|OTHER||Mean Difference (Net)|1.167|||||TWO_SIDED|90.0|0.677|1.658|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||1.658|0.677|
92269912|NCT03359473|184440979|OTHER||Mean Difference (Net)|0.923|||||TWO_SIDED|90.0|0.222|1.623|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||1.623|0.222|
92269913|NCT03359473|184440980|OTHER||Mean Difference (Net)|2.085|||||TWO_SIDED|90.0|1.493|2.678|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||2.678|1.493|
92269914|NCT03359473|184440980|OTHER||Mean Difference (Net)|1.7|||||TWO_SIDED|90.0|0.801|2.6|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||2.600|0.801|
92269915|NCT03359473|184440981|OTHER||Mean Difference (Net)|2.108|||||TWO_SIDED|90.0|1.271|2.945|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||2.945|1.271|
92269916|NCT03359473|184440981|OTHER||Mean Difference (Net)|2.113|||||TWO_SIDED|90.0|0.949|3.277|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||3.277|0.949|
92269917|NCT03359473|184440982|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|90.0|-0.6|0.6|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.6|-0.6|
92269918|NCT03359473|184440982|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|90.0|-0.4|0.5|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.5|-0.4|
92269919|NCT03359473|184440983|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|90.0|-0.6|0.6|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.6|-0.6|
92269920|NCT03359473|184440983|OTHER||Mean Difference (Net)|0.3|||||TWO_SIDED|90.0|-0.2|0.9|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.9|-0.2|
92269921|NCT03359473|184440984|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|90.0|-0.4|0.9|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.9|-0.4|
92269922|NCT03359473|184440984|OTHER||Mean Difference (Net)|0.1|||||TWO_SIDED|90.0|-0.5|0.6|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.6|-0.5|
92269923|NCT03359473|184440985|OTHER||Mean Difference (Net)|-0.553|||||TWO_SIDED|90.0|-2.082|0.977|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||0.977|-2.082|
92269924|NCT03359473|184440985|OTHER||Mean Difference (Net)|-0.073|||||TWO_SIDED|90.0|-0.977|0.832|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||0.832|-0.977|
92269925|NCT03359473|184440986|OTHER||Mean Difference (Net)|-0.816|||||TWO_SIDED|90.0|-2.252|0.619|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||0.619|-2.252|
92269926|NCT03359473|184440986|OTHER||Mean Difference (Net)|0.163|||||TWO_SIDED|90.0|-1.096|1.422|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||1.422|-1.096|
92269927|NCT03359473|184440987|OTHER||Mean Difference (Net)|-0.96|||||TWO_SIDED|90.0|-2.668|0.748|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||0.748|-2.668|
92269928|NCT03359473|184440987|OTHER||Mean Difference (Net)|-1.937|||||TWO_SIDED|90.0|-5.208|1.333|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||1.333|-5.208|
92269929|NCT03359473|184440988|OTHER||Mean Difference (Net)|-0.04|||||TWO_SIDED|90.0|-0.314|0.233|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.233|-0.314|
92269930|NCT03359473|184440988|OTHER||Mean Difference (Net)|0.058|||||TWO_SIDED|90.0|-0.209|0.324|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.324|-0.209|
92269931|NCT03359473|184440989|OTHER||Mean Difference (Net)|-0.287|||||TWO_SIDED|90.0|-0.65|0.077|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.077|-0.650|
92269932|NCT03359473|184440989|OTHER||Mean Difference (Net)|-0.191|||||TWO_SIDED|90.0|-0.534|0.152|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.152|-0.534|
92269933|NCT03359473|184440990|OTHER||Mean Difference (Net)|-0.012|||||TWO_SIDED|90.0|-0.555|0.532|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.532|-0.555|
92269934|NCT03359473|184440990|OTHER||Mean Difference (Net)|-0.231|||||TWO_SIDED|90.0|-0.541|0.08|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.080|-0.541|
92269935|NCT03359473|184440991|OTHER||Difference in Least Square Means|11.1|||||TWO_SIDED|90.0|-57.1|79.2|||||Analysis was performed by ANCOVA model with Baseline CWR duration as the covariate adjusting for the treatment.|||79.2|-57.1|
92269936|NCT03359473|184440991|OTHER||Difference in Least Square Means|-149.3|||||TWO_SIDED|90.0|-280.6|-18.1|||||Analysis was performed by ANCOVA model with Baseline CWR duration as the covariate adjusting for the treatment.|||-18.1|-280.6|
92269937|NCT03359473|184440992|OTHER||Difference in Least Square Means|-6.7|||||TWO_SIDED|90.0|-42.7|29.2|||||Analysis was performed by ANCOVA model with Baseline peak performance as the covariate adjusting for the treatment.|||29.2|-42.7|
92269938|NCT03359473|184440992|OTHER||Difference in Least Square Means|-34.8|||||TWO_SIDED|90.0|-72.0|2.4|||||Analysis was performed by ANCOVA model with Baseline peak performance as the covariate adjusting for the treatment.|||2.4|-72.0|
92269939|NCT03359473|184440993|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|90.0|-2.6|1.9|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline CAT score, with Day as the repeated factor.|||1.9|-2.6|
92269940|NCT03359473|184440993|OTHER||Mean Difference (Net)|-0.7|||||TWO_SIDED|90.0|-3.4|2.1|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline CAT score, with Day as the repeated factor.|||2.1|-3.4|
92269941|NCT03359473|184440994|OTHER||Mean Difference (Net)|-0.9|||||TWO_SIDED|90.0|-2.9|1.1|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline CAT score, with Day as the repeated factor.|||1.1|-2.9|
92269942|NCT03359473|184440994|OTHER||Mean Difference (Net)|2.2|||||TWO_SIDED|90.0|0.0|4.5|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline CAT score, with Day as the repeated factor.|||4.5|0.0|
92269943|NCT03359473|184440995|OTHER||Mean Difference (Net)|-4.7|||||TWO_SIDED|90.0|-8.9|-0.6|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline difficulty scores, with Day as the repeated factor.|||-0.6|-8.9|
92269944|NCT03359473|184440995|OTHER||Mean Difference (Net)|-2.1|||||TWO_SIDED|90.0|-7.2|3.1|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline difficulty scores, with Day as the repeated factor.|||3.1|-7.2|
92269945|NCT03359473|184440996|OTHER||Mean Difference (Net)|-4.9|||||TWO_SIDED|90.0|-9.5|-0.4|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline difficulty scores, with Day as the repeated factor.|||-0.4|-9.5|
92269946|NCT03359473|184440996|OTHER||Mean Difference (Net)|-4.1|||||TWO_SIDED|90.0|-10.3|2.2|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline difficulty scores, with Day as the repeated factor.|||2.2|-10.3|
92269947|NCT03359473|184440997|OTHER||Mean Difference (Net)|-3.1|||||TWO_SIDED|90.0|-5.9|-0.3|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline amount scores, with Day as the repeated factor.|||-0.3|-5.9|
92269948|NCT03359473|184440997|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|90.0|-4.6|4.2|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline amount scores, with Day as the repeated factor.|||4.2|-4.6|
92269949|NCT03359473|184440998|OTHER||Mean Difference (Net)|4.0|||||TWO_SIDED|90.0|-0.8|8.8|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline amount scores, with Day as the repeated factor.|||8.8|-0.8|
92269950|NCT03359473|184440998|OTHER||Mean Difference (Net)|3.5|||||TWO_SIDED|90.0|-2.3|9.4|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline amount scores, with Day as the repeated factor.|||9.4|-2.3|
92269951|NCT03359473|184440999|OTHER||Mean Difference (Net)|-4.2|||||TWO_SIDED|90.0|-6.5|-1.9|||||Analysis was performed by mixed model repeated measures including the covariates; treatment, Day, treatment\*Day and corresponding Baseline total scores, with Day as the repeated factor.|||-1.9|-6.5|
92269952|NCT03359473|184440999|OTHER||Mean Difference (Net)|-1.5|||||TWO_SIDED|90.0|-4.1|1.1|||||Analysis was performed by mixed model repeated measures including the covariates; treatment, Day, treatment\*Day and corresponding Baseline total scores, with Day as the repeated factor.|||1.1|-4.1|
92269953|NCT03359473|184441000|OTHER||Mean Difference (Net)|-1.0|||||TWO_SIDED|90.0|-3.8|1.8|||||Analysis was performed by mixed model repeated measures including the covariates; treatment, Day, treatment\*Day and corresponding Baseline total scores, with Day as the repeated factor.|||1.8|-3.8|
92269954|NCT03359473|184441000|OTHER||Mean Difference (Net)|-0.7|||||TWO_SIDED|90.0|-4.6|3.2|||||Analysis was performed by mixed model repeated measures including the covariates; treatment, Day, treatment\*Day and corresponding Baseline total scores, with Day as the repeated factor.|||3.2|-4.6|
92269955|NCT03359473|184441005|OTHER||Difference in Least Square Means|3.0|||||TWO_SIDED|90.0|-1.4|7.4|||||Analysis was performed by ANCOVA model with Baseline total score as the covariate adjusting for the treatment.|||7.4|-1.4|
92269956|NCT03359473|184441005|OTHER||Difference in Least Square Means|2.1|||||TWO_SIDED|90.0|-2.3|6.5|||||Analysis was performed by ANCOVA model with Baseline total score as the covariate adjusting for the treatment.|||6.5|-2.3|
92269957|NCT03359473|184441006|OTHER||Difference in Least Square Means|2.6|||||TWO_SIDED|90.0|-5.0|10.1|||||Analysis was performed by ANCOVA model with Baseline symptoms score as the covariate adjusting for the treatment.|||10.1|-5.0|
92269958|NCT03359473|184441006|OTHER||Difference in Least Square Means|-0.5|||||TWO_SIDED|90.0|-8.4|7.5|||||Analysis was performed by ANCOVA model with Baseline symptoms score as the covariate adjusting for the treatment.|||7.5|-8.4|
92269959|NCT03359473|184441007|OTHER||Difference in Least Square Means|2.0|||||TWO_SIDED|90.0|-3.2|7.1|||||Analysis was performed by ANCOVA model with Baseline activity score as the covariate adjusting for the treatment.|||7.1|-3.2|
92269960|NCT03359473|184441007|OTHER||Difference in Least Square Means|0.5|||||TWO_SIDED|90.0|-5.6|6.5|||||Analysis was performed by ANCOVA model with Baseline activity score as the covariate adjusting for the treatment.|||6.5|-5.6|
92269961|NCT03359473|184441008|OTHER||Difference in Least Square Means|3.4|||||TWO_SIDED|90.0|-1.7|8.6|||||Analysis was performed by ANCOVA model with Baseline impact score as the covariate adjusting for the treatment.|||8.6|-1.7|
92269962|NCT03359473|184441008|OTHER||Difference in Least Square Means|3.5|||||TWO_SIDED|90.0|-0.7|7.7|||||Analysis was performed by ANCOVA model with Baseline impact score as the covariate adjusting for the treatment.|||7.7|-0.7|
92269963|NCT04101721|184441020|NON_INFERIORITY|Non-inferiority margin is 5%|Adjusted difference|1.81|||||TWO_SIDED|95.1|-15.71|19.33||||||Difference with confidence interval (CI) is calculated using Mantel-Haenszel weighting scheme adjusted by baseline ROP status.||19.33|-15.71|
92269964|NCT04101721|184441021|SUPERIORITY||Adjusted difference|-3.66|||||TWO_SIDED|95.1|-19.86|12.54||||||Difference with confidence interval (CI) is calculated using Mantel-Haenszel weighting scheme adjusted by baseline ROP status.||12.54|-19.86|
92269965|NCT04101721|184441022|SUPERIORITY||Adjusted difference|10.1|||||TWO_SIDED|95.1|-9.83|30.02||||||Difference with confidence interval (CI) is calculated using Mantel-Haenszel weighting scheme adjusted by baseline ROP status||30.02|-9.83|
92269966|NCT01215955|184441025|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|||||TWO_SIDED|95.0|-0.15|0.22|||||No imputation was performed. Participants without a 24-week value were handled by the statistical model.|||0.22|-0.15|
92269967|NCT01215955|184441025|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|||||TWO_SIDED|95.0|-0.12|0.24|||||No imputation was performed. Participants without a 24-week value were handled by the statistical model.|||0.24|-0.12|
92269968|NCT01215955|184441026|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.128|TWO_SIDED|95.0|0.52|1.09||P-value is for HbA1c ≤7.0% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||1.09|0.520|0.128
92269969|NCT01215955|184441026|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.625|TWO_SIDED|95.0|0.58|1.39||P-value is for HbA1c ≤6.5% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||1.39|0.580|0.625
92269970|NCT01215955|184441026|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.162|TWO_SIDED|95.0|0.53|1.11||P-value is for HbA1c ≤7.0% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||1.11|0.53|0.162
92269971|NCT01215955|184441026|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.723|TWO_SIDED|95.0|0.61|1.4||P-value is for HbA1c ≤6.5% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Linear|||||1.40|0.61|0.723
92269972|NCT01215955|184441027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.701|TWO_SIDED|95.0|0.52|2.67||P-value is for HbA1c ≤7.0% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||2.67|0.520|0.701
92269973|NCT01215955|184441027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.249|TWO_SIDED|95.0|0.71|3.7||P-value is for HbA1c ≤6.5% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||3.70|0.710|0.249
92269974|NCT01215955|184441027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||0.015|TWO_SIDED|95.0|0.13|0.8||P-value is for HbA1c ≤7% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|Included treatment and effects for baseline stratification variables: Baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use.||||0.80|0.13|0.015
92269975|NCT01215955|184441027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.078|TWO_SIDED|95.0|0.17|1.1||P-value is for HbA1c ≤6.5% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||1.10|0.17|0.078
92269976|NCT01215955|184441028|SUPERIORITY_OR_OTHER||LS Mean Differences|0.81||||0.014|TWO_SIDED|95.0|0.17|1.46||No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||1.46|0.17|0.014
92269977|NCT01215955|184441028|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.5||||0.108|TWO_SIDED|95.0|-1.12|0.11||No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||0.11|-1.12|0.108
92269978|NCT01215955|184441029|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.182|TWO_SIDED|95.0|0.57|1.11||Comparison is calculated as Q3D versus Q1D.|Regression, Cox|Cox Regression model with effects for treatment and baseline stratification variables (HbA1c, country, sulfonylurea/meglitinide use) was used.||||1.11|0.57|0.182
92269979|NCT01215955|184441029|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.46|TWO_SIDED|95.0|0.65|1.22||Comparison is calculated as Q3D versus Q1D.|Regression, Cox|Cox Regression model with effects for treatment and baseline stratification variables (HbA1c, country, sulfonylurea/meglitinide use) was used.||||1.22|0.65|0.460
92269980|NCT01215955|184441030|SUPERIORITY_OR_OTHER||LS Mean Differences|0.29|||||TWO_SIDED|95.0|-0.19|0.77|||||No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|||0.77|-0.19|
92269981|NCT01215955|184441030|SUPERIORITY_OR_OTHER||LS Mean Differences|0.81|||||TWO_SIDED|95.0|0.3|1.31|||||No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|||1.31|0.30|
92269982|NCT01215955|184441031|SUPERIORITY_OR_OTHER||LS Mean Differences|0.59||||0.242|TWO_SIDED|95.0|-0.4|1.58||Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis||No imputation was performed. Participants without a 24-week value were handled by the statistical model.|||1.58|-0.40|0.242
92269983|NCT01215955|184441031|SUPERIORITY_OR_OTHER||LS Mean Differences|1.13||||0.082|TWO_SIDED|95.0|-0.15|2.41||Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis||No imputation was performed. Participants without 24-week values were handled by the statistical model.|||2.41|-0.15|0.082
92269984|NCT01215955|184441032|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.15||||0.723|TWO_SIDED|95.0|-0.95|0.66||Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis||No imputation was performed. Participants without a 24-week value were handled by the statistical model|||0.66|-0.95|0.723
92269985|NCT01215955|184441032|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.28||||0.495|TWO_SIDED|95.0|-1.08|0.52||Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis||No imputation was performed. Participants without a 24-week value were handled by the statistical model|||0.52|-1.08|0.495
92269986|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|3.32||||0.245|TWO_SIDED|95.0|-2.28|8.93||P-value is for Morning Pre-meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||8.93|-2.28|0.245
92269987|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.71||||0.842|TWO_SIDED|95.0|-7.71|6.29||P-value is for Morning 2-HR PP. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||6.29|-7.71|0.842
92269988|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|1.42||||0.626||95.0|-4.32|7.16||P-value is for Midday Pre-Meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||7.16|-4.32|0.626
92269989|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.48||||0.358|TWO_SIDED|95.0|-10.91|3.95||P-value is for Midday 2-Hr PP. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||3.95|-10.91|0.358
92269990|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|3.38||||0.322|TWO_SIDED|95.0|-3.32|10.07||P-value is for Evening Pre-meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||10.07|-3.32|0.322
92269991|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.25||||0.617|TWO_SIDED|95.0|-11.08|6.58||P-value is for Bed Time. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||6.58|-11.08|0.617
92269992|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|2.37||||0.519|TWO_SIDED|95.0|-4.86|9.6||P-value is for 0300 hours. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||9.60|-4.86|0.519
92269993|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1||||0.415|TWO_SIDED|95.0|-2.96|7.15||P-value is for Morning Pre-meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||7.15|-2.96|0.415
92269994|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|4.38||||0.198|TWO_SIDED|95.0|-2.3|11.06||P-value is for Morning 2-hr PP. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||11.06|-2.30|0.198
92269995|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|6.22||||0.045|TWO_SIDED|95.0|0.14|12.29||P-value is for Midday Pre-Meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||12.29|0.14|0.045
92269996|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|3.07||||0.426|TWO_SIDED|95.0|-4.5|10.64||P-value is for Midday 2-hr PP. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||10.64|-4.50|0.426
92269997|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|5.66||||0.14|TWO_SIDED|95.0|-1.86|13.17||P-value is for Evening Pre-Meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||13.17|-1.86|0.140
92269998|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|11.18||||0.02|TWO_SIDED|95.0|1.74|20.63||P-value is for Bed Time. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||20.63|1.74|0.020
92269999|NCT01215955|184441033|SUPERIORITY_OR_OTHER||LS Mean Difference|9.01||||0.037|TWO_SIDED|95.0|0.53|17.49||P-value is for 0300 hours. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||17.49|0.53|0.037
92270000|NCT01215955|184441034|SUPERIORITY_OR_OTHER||LS Mean Difference|1.15||||0.543|TWO_SIDED|95.0|-2.55|4.84||P-value is for basal insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||4.84|-2.55|0.543
92270001|NCT01215955|184441034|SUPERIORITY_OR_OTHER||LS Mean Difference|6.72||||0.095|TWO_SIDED|95.0|-1.17|14.6||P-value is for bolus insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||14.60|-1.17|0.095
92270002|NCT01215955|184441034|SUPERIORITY_OR_OTHER||LS Mean Difference|8.86||||0.059|TWO_SIDED|95.0|-0.35|18.06||P-value is for total insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||18.06|-0.35|0.059
92270003|NCT01215955|184441034|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09||||0.497|TWO_SIDED|95.0|-2.05|4.23||P-value is for basal insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||4.23|-2.05|0.497
92270004|NCT01215955|184441034|SUPERIORITY_OR_OTHER||LS Mean Difference|5.37||||0.156|TWO_SIDED|95.0|-2.06|12.79||P-value is for bolus insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||12.79|-2.06|0.156
92270005|NCT01215955|184441034|SUPERIORITY_OR_OTHER||LS Mean Difference|6.05||||0.222|TWO_SIDED|95.0|-3.67|15.76||P-value of for total insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||15.76|-3.67|0.222
92270006|NCT01215955|184441035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.442|TWO_SIDED|95.0|-0.02|0.05||P-value is for basal insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|LS Mean Difference|||||0.05|-0.02|0.442
92270007|NCT01215955|184441035|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07||||0.037|TWO_SIDED|95.0|0.0|0.14||P-value is for bolus insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||0.14|0.00|0.037
92270008|NCT01215955|184441035|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|||<|0.001|TWO_SIDED|95.0|0.05|0.16||P-value is for total insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||0.16|0.05|<0.001
92270009|NCT01215955|184441035|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.275|TWO_SIDED|95.0|-0.01|0.05||P-value is for basal insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|LS Mean Difference|||||0.05|-0.01|0.275
92270010|NCT01215955|184441035|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.194|TWO_SIDED|95.0|-0.02|0.08||P-value is for bolus insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||0.08|-0.02|0.194
92270011|NCT01215955|184441035|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.245|TWO_SIDED|95.0|-0.04|0.15||P-value is for total insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||0.15|-0.04|0.245
92270012|NCT01215955|184441036|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.435
92270013|NCT01215955|184441036|SUPERIORITY_OR_OTHER|||||||0.351||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.351
92270014|NCT01215955|184441037|SUPERIORITY_OR_OTHER|||||||0.802||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.802
92270015|NCT01215955|184441037|SUPERIORITY_OR_OTHER|||||||0.205||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.205
92270016|NCT01215955|184441038|SUPERIORITY_OR_OTHER||Q3D vs Q1D Ratio of Negative Binomial|1.06||||0.586|TWO_SIDED|95.0|0.86|1.3||Comparison is calculated as Q3D versus Q1D.|Negative Binomial Regression|||||1.30|0.86|0.586
92270017|NCT01215955|184441038|SUPERIORITY_OR_OTHER||Q3D vs Q1D Ratio Negative Binomial|1.05||||0.689|TWO_SIDED|95.0|0.84|1.3||Comparison is calculated as Q3D versus Q1D.|Negative Binomial|||||1.30|0.84|0.689
92270018|NCT01215955|184441039|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.258
92270019|NCT01215955|184441039|SUPERIORITY_OR_OTHER|||||||0.856||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.856
92270020|NCT02643394|184441069|SUPERIORITY|||||||0.252|TWO_SIDED|80.0|||||Wilcoxon (Mann-Whitney)|||||||0.252
92270021|NCT02643394|184441070|SUPERIORITY|||||||0.402|||||||Wilcoxon (Mann-Whitney)|||||||0.402
92270022|NCT04193033|184441085|SUPERIORITY|||||||0.001|||||||Linear Growth Curve Model|||||||0.001
92270023|NCT04193033|184441086|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
92270024|NCT04193033|184441087|SUPERIORITY|||||||0.66|||||||ANOVA|||||||0.66
92270025|NCT04193033|184441089|SUPERIORITY|||||||0.49|||||||Linear Growth Curve Model|Time was included as a fixed effect and both time and intercept were included as random effects.||||||.49
92270026|NCT04193033|184441091|SUPERIORITY|||||||0.06||||||Paired t-test, alpha = .05.|t-test, 2 sided|||||||0.06
92270027|NCT01154673|184441102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.056|TWO_SIDED|95.0|-0.006|0.4||"The estimated difference in mean change from baseline to 48 weeks was calculated as the log DNA copies/106 CD4+ T cells in Intensive HAART minus the log DNA copies/106 CD4+ T cells in Placebo Arm"|Regression, Linear||"The estimated difference in mean change from baseline to 48 weeks was calculated as the log DNA copies/106 CD4+ T cells in Intensive HAART minus the log DNA copies/106 CD4+ T cells in Placebo Arm"|||0.4|-.006|0.056
92270028|NCT00903409|184441116|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The difference between Non-switchers and Switchers in the percent change in non-HDL-C level from the end of the OM6 double-blind study (average of Weeks 6 and 8 for the statistical analysis) to 4 months of OM6X open-label treatment (Month 4).|Kruskal-Wallis|||||||<0.001
92270029|NCT03539952|184441135|NON_INFERIORITY|The primary efficacy analysis utilized the serum NCC values from all study visits that were analyzed using a restricted maximum likelihood based general linear model for correlated data. The correlation due to repeated measures was modeled by specifying the variance covariance matrix. Considering a comparison of means in both treatment arms (D-penicillamine minus TETA 4HCl) at the 1-sided 2.5% level of Type 1 error, a non-inferiority margin of 50 μg/L was used.|Mean Difference (Final Values)|-9.2|STANDARD_ERROR_OF_MEAN|7.49|||TWO_SIDED|||||||||The primary endpoint was the assessment of the non-inferiority of TETA 4HCl in relation to D-penicillamine. The non-inferiority assessment was made on the basis of the mean serum NCC level at Week 36.||||
92270030|NCT01977482|184441143|SUPERIORITY_OR_OTHER||E0 (g/dL)|-0.664|||||TWO_SIDED|95.0|-0.96|-0.387|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||-0.387|-0.960|
92270031|NCT01977482|184441143|SUPERIORITY_OR_OTHER||ED50 (milligrams[mg])|33.531|||||TWO_SIDED|95.0|15.566|48.948|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||48.948|15.566|
92270032|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Emax (g/dL)|5.234||||||95.0|2.691|7.94|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||7.940|2.691|
92270033|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Gamma|1.145|||||TWO_SIDED|95.0|0.748|1.738|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||1.738|0.748|
92270034|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Var|1.012|||||TWO_SIDED|95.0|0.84|1.234|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||1.234|0.840|
92270035|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Alpha|-0.206|||||TWO_SIDED|95.0|-0.397|-0.014|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||-0.014|-0.397|
92270036|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Minimally Effective Dose (MED) (mg)|0.418|||||TWO_SIDED|95.0|0.0|2.342|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||2.342|0.000|
92270037|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Dose that achieves a change of -0.25g/dL|2.423|||||TWO_SIDED|95.0|0.0|4.15|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||4.150|0.000|
92270038|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Target Dose (TD) (mg)|4.406|||||TWO_SIDED|95.0|2.544|5.995|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||5.995|2.544|
92270039|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Dose that achieves a change of 0.25 g/dL|6.43|||||TWO_SIDED|95.0|4.698|8.01|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||8.010|4.698|
92270040|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Dose that achieves a change of 0.5 g/dL|8.542|||||TWO_SIDED|95.0|6.931|10.523|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||10.523|6.931|
92270041|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Dose that achieves a change of 0.75 g/dL|10.8|||||TWO_SIDED|95.0|9.024|14.004|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||14.004|9.024|
92270042|NCT01977482|184441143|SUPERIORITY_OR_OTHER||Dose that achieves a change of 1 g/dL|13.248|||||TWO_SIDED|95.0|10.891|18.916|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||18.916|10.891|
92270043|NCT02547779|184441161|SUPERIORITY||Odds Ratio (OR)|0.95|||<|0.05|TWO_SIDED||||||Regression, Logistic|||||||<0.05
92270044|NCT02547779|184441162|SUPERIORITY||Odds Ratio (OR)|0.98|||<|0.05|TWO_SIDED||||||Regression, Logistic|||||||<0.05
92327680|NCT02539134|184560534|SUPERIORITY_OR_OTHER||Slope|1.2||||0.191|TWO_SIDED|90.0|0.946|1.45|||Power model|||Day 1: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 1 was assessed using the power model. For Day 1, the criteria for dose proportionality was the 90% CI for the slope within (0.875, 1.125) for the dose range of 100 mg to 600 mg.||1.450|0.946|0.191
92270045|NCT02957682|184441186|NON_INFERIORITY|Upper confidence interval (CI) limit was compared to the noninferiority margin, which was 0.2%, and noninferiority was declared if the upper CI limit was below the noninferiority margin.|Least Square (LS) Mean Difference|-0.02||||0.6055|TWO_SIDED|95.0|-0.094|0.055||P-value was taken from mixed-effect model with repeated measures (MMRM) analysis.|Mixed-effect Model Repeated Measures||Model: fixed categorical effects of treatment group, randomization strata as per IVRS, time point, treatment-by-time point, strata-by-time point, continuous fixed covariates of baseline SWMS raw score value, baseline value by time-point interaction.|Change at Week 96||0.055|-0.094|0.6055
92270046|NCT02953262|184441199|SUPERIORITY|||||||0.057||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.057
92270047|NCT02953262|184441199|SUPERIORITY|||||||0.753||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.753
92270048|NCT02953262|184441199|SUPERIORITY|||||||0.613||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.613
92270049|NCT02953262|184441200|SUPERIORITY|||||||0.308||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.308
92270050|NCT02953262|184441200|SUPERIORITY|||||||0.154||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.154
92270051|NCT02953262|184441200|SUPERIORITY|||||||0.025||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.025
92270052|NCT02953262|184441201|SUPERIORITY|||||||0.102||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.102
92270053|NCT02953262|184441201|SUPERIORITY|||||||0.023||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.023
92270054|NCT02953262|184441201|SUPERIORITY|||||||0.439||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.439
92270055|NCT02953262|184441202|SUPERIORITY|||||||0.982||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.982
92270056|NCT02953262|184441202|SUPERIORITY|||||||0.559||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.559
92270057|NCT02953262|184441202|SUPERIORITY|||||||0.032||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.032
92270058|NCT00203892|184441212|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.028
92270059|NCT00203892|184441213|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||||||>0.99
92270060|NCT02964910|184441219|NON_INFERIORITY|The criteria of the immunogenicity non-inferiority between CHB group and healthy adults group were: the lower limit of 95% CI of the seroconversion rate difference was not less than -10%.|the seroconversion rate difference(%)|-2.08|||||TWO_SIDED|95.0|-5.23|0.22||||||||0.22|-5.23|
92270061|NCT02964910|184441220|NON_INFERIORITY|The criteria of the immunogenicity non-inferiority between CHB group and healthy adults group were: the lower limit of 95%CI of the GMC ratio was not lower than 0.5.|GMC ratio|0.69|||||TWO_SIDED|95.0|0.55|0.85||||||||0.85|0.55|
92270062|NCT02964910|184441224|OTHER|The differences in incidence rate of ADR\\AE between the two groups were compared.||||||0.778|||||||Chi-squared|||||||0.778
92270063|NCT02964910|184441225|OTHER|The differences in incidence rate of ADR\\AE between the two groups were compared.||||||0.728|||||||Chi-squared|||||||0.728
92270064|NCT02964910|184441226|OTHER|The differences in incidence rate of ADR\\AE between the two groups were compared.||||||0.949|||||||Chi-squared|||||||0.949
92270065|NCT02964910|184441227|OTHER|The differences in incidence rate of ADR\\AE between the two groups were compared.||||||0.614|||||||Chi-squared|||||||0.614
92270066|NCT02964910|184441228|OTHER|The differences in incidence rate of ADR\\AE between the two groups were compared.||||||0.956|||||||Chi-squared|||||||0.956
92270067|NCT03829462|184441229|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.5334|TWO_SIDED|95.0|0.7|1.98||The threshold for statistical significance was p=0.05|Log Rank|||To show an increase of median overall survival from 7 to 15 months (30% to 57% rates, respectively), with a HR=0.47 and a power of 80% and alpha=5%, 55 events are required for the 78 patients to be randomized considering 15% additional patients for lost to follow-up.||1.98|0.7|0.5334
92270068|NCT03829462|184441229|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.8894|TWO_SIDED|95.0|0.59|1.82|||Chi-squared|||||1.82|0.59|0.8894
92270069|NCT03829462|184441230|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.1104|TWO_SIDED|95.0|0.4|1.11|||Log Rank|The threshold for statistical significance was p=0.05||||1.11|0.4|0.1104
92270070|NCT03829462|184441230|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.1165|TWO_SIDED|95.0|0.4|1.11|||Chi-squared|||||1.11|0.4|0.1165
92270071|NCT03829462|184441231|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.2425|TWO_SIDED|95.0|0.26|1.42||The threshold for statistical significance was p=0.05|Log Rank|||||1.42|0.26|0.2425
92270072|NCT03829462|184441231|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.2519|TWO_SIDED|95.0|0.26|1.42|||Chi-squared|||||1.42|0.26|0.2519
92270073|NCT03829462|184441232|SUPERIORITY||Percent difference|46.5||||0.001|TWO_SIDED||||||Fisher Exact|||||||0.001
92270074|NCT03829462|184441233|SUPERIORITY||Percent difference|7.4||||0.001|TWO_SIDED||||||Fisher Exact|||||||0.001
92270075|NCT03000075|184441255|OTHER|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant psoriatic arthritis (PsA) at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.|Adjusted percentage difference|73.6|||<|0.001|TWO_SIDED|95.0|62.2|85.0||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% confidence interval (CI) for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||85.0|62.2|< 0.001
92270076|NCT03000075|184441255|OTHER|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.|Adjusted percentage difference|72.4|||<|0.001|TWO_SIDED|95.0|60.6|84.1||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||84.1|60.6|< 0.001
92270077|NCT03000075|184441257|OTHER||Adjusted percentage difference|75.0|||<|0.001|TWO_SIDED|95.0|63.8|86.2||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||86.2|63.8|< 0.001
92270078|NCT03000075|184441257|OTHER||Adjusted percentage difference|82.4|||<|0.001|TWO_SIDED|95.0|72.2|92.6||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||92.6|72.2|< 0.001
92270079|NCT03000075|184441259|OTHER||Adjusted percentage difference|80.3|||<|0.001|TWO_SIDED|95.0|70.1|90.4||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||90.4|70.1|< 0.001
92270080|NCT03000075|184441259|OTHER||Adjusted percentage difference|86.0|||<|0.001|TWO_SIDED|95.0|76.8|95.1||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||95.1|76.8|< 0.001
92270081|NCT03000075|184441261|OTHER||Adjusted percentage difference|22.6|||<|0.001|TWO_SIDED|95.0|11.8|33.4||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||33.4|11.8|< 0.001
92270082|NCT03000075|184441261|OTHER||Adjusted percentage difference|32.5|||<|0.001|TWO_SIDED|95.0|20.0|45.0||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||45.0|20.0|< 0.001
92270083|NCT03000075|184441263|OTHER||Adjusted percentage difference|39.2||||0.131|TWO_SIDED|95.0|-11.6|90.1||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||90.1|-11.6|0.131
92270084|NCT03000075|184441263|OTHER|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.|Adjusted percentage difference|31.3||||0.269|TWO_SIDED|95.0|-24.2|86.7||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||86.7|-24.2|0.269
92270085|NCT00111007|184441265|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.906||||0.492|TWO_SIDED|95.0|0.627|1.31|||log rank test|||||1.310|0.627|0.492
92270086|NCT00111007|184441266|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.996||||0.979|TWO_SIDED|95.0|0.744|1.333|||log rank test|||||1.333|0.744|0.979
92270087|NCT00111007|184441267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.863||||0.331|TWO_SIDED|95.0|0.641|1.162|||log rank test|||||1.162|0.641|0.331
92270088|NCT00111007|184441268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.398||||0.146|TWO_SIDED|95.0|0.11|1.437|||log rank test|||||1.437|0.110|0.146
92270089|NCT00111007|184441269|SUPERIORITY_OR_OTHER|||||||0.389||95.0|||||Fisher Exact|||||||0.389
92270090|NCT03332212|184441278|OTHER||Mean Difference (Final Values)|-0.247|STANDARD_ERROR_OF_MEAN|0.164||0.1418|TWO_SIDED|95.0|-0.582|0.087|||ANOVA|||ANOVA on the PCr/ATP ratio absolute change using treatment (empagliflozin vs. placebo), history of diabetes (yes vs, no) and history of atrial fibrillation (yes vs no) as between subjects factor.||0.087|-0.582|0.1418
92270091|NCT03332212|184441278|OTHER||Mean Difference (Final Values)|-0.159|STANDARD_ERROR_OF_MEAN|0.213||0.465|TWO_SIDED|95.0|-0.604|0.286|||ANOVA|||ANOVA on the PCr/ATP ratio absolute change using treatment (empagliflozin vs. placebo), history of diabetes (yes vs, no) and history of atrial fibrillation (yes vs no) as between subjects factor.||0.286|-0.604|0.4650
92270092|NCT00929864|184441308|NON_INFERIORITY_OR_EQUIVALENCE|Analysis tested for non-inferiority. Abatacept will be considered non-inferior to adalimumab if the upper limit of the 95% two-sided CI of difference in ACR20 response rates between the adalimumab arm and the abatacept arm is smaller than or equal to 12%. Estimate and 95% confidence interval (CI) for difference based on minimum risk weights method with randomization stratification of screening Disease Activity Score-28 (DAS28) c-reactive protein (CRP).|Difference from adalimumab at Day 365|1.8|||||TWO_SIDED|95.0|-5.6|9.2|||minimum risk weights method|adjusted for randomization stratification of screening Disease Activity Score-28 (DAS28) c-reactive protein (CRP).||The null and alternative hypotheses are H0: T - C\<= δ vs. Ha:T - C \> δ, where T is the treatment effect of abatacept, C is the effect of active control (adalimumab),and δ is non-inferiority margin. Abatacept is defined as δ non-inferior to adalimumab when H0 is rejected. More specifically, if the lower bound of the 95% two-sided confidence interval for C-T is greater than δ,, then that Abatacept is δ non-inferior to adalimumab can be claimed.||9.2|-5.6|
92270093|NCT00929864|184441309|SUPERIORITY_OR_OTHER||Difference in proportions|-5.37||||0.006|TWO_SIDED|95.0|-9.13|-1.62|||Chi-squared|||Analysis is p-value of difference in proportions. n=number of participants with event, N=number of participants at risk. Proportion = n/N. In order to maintain the overall type I error rate of 0.05 for testing both the primary non-inferiority hypothesis and the key secondary local injection site reaction (LISR) hypothesis, the LISR hypothesis was tested at the 5% significance level only after the primary non-inferiority hypothesis is established at the 5% level.||-1.62|-9.13|0.006
92270094|NCT00929864|184441310|SUPERIORITY_OR_OTHER||Difference from adalimumab|-4.13|||||TWO_SIDED|95.0|-6.55|-1.72||||||Analysis of incidence rate at 24 months. Point estimate and 95% CI. Poisson distribution was used to construct the 95% CIs.||-1.72|-6.55|
92270095|NCT00929864|184441311|SUPERIORITY_OR_OTHER||Difference from adalimumab at Day 365|-1.3|||||TWO_SIDED|95.0|-6.5|3.9|||minimum risk weights method|Adjusted for randomization stratification of screening Disease Activity Score-28 (DAS28) c-reactive protein (CRP).||This analysis is for Day 365.||3.9|-6.5|
92270096|NCT00929864|184441311|SUPERIORITY_OR_OTHER||Difference from adalimumab at Day 729|0.9|||||TWO_SIDED|95.0|-5.5|7.3|||minimum risk weights method|Adjusted for randomization stratification of screening Disease Activity Score-28 (DAS28) c-reactive protein (CRP).||This analysis is for Day 729.||7.3|-5.5|
92270097|NCT00929864|184441312|SUPERIORITY_OR_OTHER||Difference from adalimumab|0.8|||||TWO_SIDED|95.0|-4.51|6.11||||||Analysis for incidence rate of SAE at 12 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||6.11|-4.51|
92270098|NCT00929864|184441312|SUPERIORITY_OR_OTHER||Difference from adalimumab|-0.67|||||TWO_SIDED|95.0|-3.27|1.94||||||Analysis for incidence rate of Serious Infections and Infestations at 12 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||1.94|-3.27|
92270099|NCT00929864|184441312|SUPERIORITY_OR_OTHER||Difference from adalimumab|0.0|||||TWO_SIDED|95.0|-0.92|0.91||||||Analysis for incidence rate of Opportunistic Infections at 12 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||0.91|-0.92|
92270100|NCT00929864|184441312|SUPERIORITY_OR_OTHER||Difference from adalimumab|-5.32|||||TWO_SIDED|95.0|-12.06|1.41||||||Analysis for incidence rate of discontinuation for any cause at 12 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||1.41|-12.06|
92270101|NCT00929864|184441313|SUPERIORITY_OR_OTHER||Difference from adalimumab|-1.91|||||TWO_SIDED|95.0|-5.43|1.61||||||Analysis for incidence rate of SAE at 24 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||1.61|-5.43|
92270102|NCT00929864|184441313|SUPERIORITY_OR_OTHER||Difference from adalimumab|-1.24|||||TWO_SIDED|95.0|-3.12|0.63||||||Analysis for incidence rate of Serious infections and infestations Adverse Events at 24 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||0.63|-3.12|
92270103|NCT00929864|184441313|SUPERIORITY_OR_OTHER||Difference from adalimumab|-0.52|||||TWO_SIDED|95.0|-1.39|0.36|||minimum risk weights method|||Analysis for incidence rate of opportunistic infections at 24 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||0.36|-1.39|
92270104|NCT00929864|184441313|SUPERIORITY_OR_OTHER||Difference from adalimumab|-3.1|||||TWO_SIDED|95.0|-7.13|0.92||||||Analysis for incidence rate of discontinuations (all cause) at 24 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||0.92|-7.13|
92270105|NCT00929864|184441314|SUPERIORITY_OR_OTHER||Difference from adalimumab|-8.1|||||TWO_SIDED|95.0|-13.9|-2.2||||||Analysis for ANA at Day 365. Point estimate and 95% CI for treatment difference.||-2.2|-13.9|
92270106|NCT00929864|184441314|SUPERIORITY_OR_OTHER||Difference from adalimumab|-8.4|||||TWO_SIDED|95.0|-15.3|-1.5||||||Analysis for ANA at Day 729. Point estimate and 95% CI for treatment difference||-1.5|-15.3|
92270107|NCT00929864|184441314|SUPERIORITY_OR_OTHER||Difference from adalimumab|-9.6|||||TWO_SIDED|95.0|-13.4|-5.7||||||Analysis for dsDNA at Day 365. Point estimate and 95% CI for treatment difference.||-5.7|-13.4|
92270108|NCT00929864|184441314|SUPERIORITY_OR_OTHER||Difference from adalimumab|-12.2|||||TWO_SIDED|95.0|-16.9|-7.6||||||Analysis for dsDNA at Day 729. Point estimate and 95% CI for treatment difference.||-7.6|-16.9|
92270109|NCT03728257|184441315|SUPERIORITY|Change in average steps per day between baseline and 3 months was compared between the two groups.||||||0.8793||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.8793
92270110|NCT03728257|184441316|SUPERIORITY|Change in average steps per day between baseline and 6 months was compared between the two groups.||||||0.9597||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.9597
92270111|NCT03728257|184441317|SUPERIORITY|Change in Berg balance between baseline and 3 months was compared between the two groups.||||||0.3||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.30
92270112|NCT03728257|184441318|SUPERIORITY|Change in Berg balance between baseline and 3 months was compared between the two groups.||||||0.81||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.81
92270113|NCT03728257|184441319|SUPERIORITY|Change in 30 Second Sit-to-Stand Test between baseline and 3 months was compared between the two groups.||||||0.2262||||||a priori threshold for statistical significance is p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.2262
92270114|NCT03728257|184441320|SUPERIORITY|Change in 30 Second Sit-to-Stand Test between baseline and 6 months was compared between the two groups.||||||0.59||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.59
92270115|NCT03728257|184441321|SUPERIORITY|Change in SGRQ between baseline and 3 months was compared between the two groups.||||||0.26||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.26
92270116|NCT03728257|184441322|SUPERIORITY|Change in SGRQ between baseline and 6 months was compared between the two groups.||||||0.78||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.78
92270117|NCT03728257|184441323|SUPERIORITY|Change in MVPA between baseline and 3 months was compared between the two groups.||||||0.7073||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.7073
92270118|NCT03728257|184441324|SUPERIORITY|Change in MVPA between baseline and 6 months was compared between the two groups.||||||0.313||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.313
92270119|NCT03728257|184441325|SUPERIORITY|Change in count of participants with the same or improved stage of hypertension between baseline and 6 months.||||||0.91||||||a priori threshold for statistical significance p \< 0.05|Chi-squared|||||||0.91
92270120|NCT03728257|184441326|SUPERIORITY|Change in count of participants with the same or improved stage of hypertension between baseline and 6 months.||||||0.72||||||a priori threshold of statistical significance p \< 0.05|Chi-squared|||||||0.72
92270121|NCT03940742|184441327|OTHER||Ratio of geometric least squares mean|1.08|||||TWO_SIDED|90.0|0.879|1.32||||||||1.32|0.879|
92327681|NCT02539134|184560534|SUPERIORITY_OR_OTHER||Slope|1.37||||0.036|TWO_SIDED|90.0|1.089|1.657|||Power model|||Day 14: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 14 was assessed using the power model. For Day 14, the criteria for dose proportionality was the 90% CI for the slope within (0.839, 1.161) for the dose range of 100 mg to 400 mg.||1.657|1.089|0.036
92270122|NCT03940742|184441327|OTHER||Ratio of geometric least squares mean|0.96|||||TWO_SIDED|90.0|0.79|1.17||||||||1.17|0.790|
92270123|NCT03940742|184441327|OTHER||Ratio of geometric least squares mean|0.852|||||TWO_SIDED|90.0|0.699|1.04||||||||1.04|0.699|
92270124|NCT03940742|184441328|OTHER||Ratio of geometric least squares mean|0.916|||||TWO_SIDED|90.0|0.726|1.16||||||||1.16|0.726|
92270125|NCT03940742|184441328|OTHER||Ratio of geometric least squares mean|1.0|||||TWO_SIDED|90.0|0.802|1.25||||||||1.25|0.802|
92327682|NCT02539134|184560535|SUPERIORITY_OR_OTHER||Slope|1.19||||0.288|TWO_SIDED|90.0|0.89|1.489|||Power model|||Day 1: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 1 was assessed using the power model. For Day 1, the criteria for dose proportionality was the 90% CI for the slope within (0.875, 1.125) for the dose range of 100 mg to 600 mg.||1.489|0.890|0.288
92270126|NCT03940742|184441328|OTHER||Ratio of geometric least squares mean|0.972|||||TWO_SIDED|90.0|0.784|1.21||||||||1.21|0.784|
92270127|NCT03428217|184441336|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6528|TWO_SIDED|95.0|0.74|1.21|||Log Rank|||Stratified Analysis 1: Stratified by prior programmed cell death protein 1/programmed cell death protein ligand 1 (PD-1/PDL1) inhibitor therapy (yes vs no) and International Metastatic Renal Cell Carcinoma Database (IMDC) prognostic risk group (favorable vs intermediate vs poor).||1.21|0.74|0.6528
92270128|NCT03428217|184441336|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8193|TWO_SIDED|95.0|0.76|1.24|||Log Rank|||Stratified Analysis 2: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate/poor\].||1.24|0.76|0.8193
92270129|NCT03428217|184441336|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8345|TWO_SIDED|95.0|0.76|1.25|||Log Rank|||Stratified Analysis 3: Stratified by the number of prior anti-angio cancer therapy \[0 vs. \>=1\].||1.25|0.76|0.8345
92270130|NCT03428217|184441336|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9479|TWO_SIDED|95.0|0.78|1.27|||Log Rank|||Unstratified Analysis||1.27|0.78|0.9479
92270131|NCT03428217|184441337|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.3867|TWO_SIDED|95.0|0.83|1.6|||Log Rank|||Stratified Analysis 1: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate vs. poor\].||1.6|0.83|0.3867
92270132|NCT03428217|184441337|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.3367|TWO_SIDED|95.0|0.85|1.62|||Log Rank|||Stratified Analysis 2: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate/poor\].||1.62|0.85|0.3367
92270133|NCT03428217|184441337|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.2416|TWO_SIDED|95.0|0.88|1.69|||Log Rank|||Stratified Analysis 3: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate/poor\].||1.69|0.88|0.2416
92270134|NCT03428217|184441337|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.3043|TWO_SIDED|95.0|0.86|1.64|||Log Rank|||Unstratified Analysis||1.64|0.86|0.3043
92270135|NCT03428217|184441338|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9692|TWO_SIDED|95.0|0.79|1.25|||Log Rank|||Stratified Analysis 1: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate vs. poor\].||1.25|0.79|0.9692
92270136|NCT03428217|184441338|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9235|TWO_SIDED|95.0|0.8|1.27|||Log Rank|||Stratified Analysis 2: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate/poor\].||1.27|0.8|0.9235
92327683|NCT02539134|184560536|SUPERIORITY_OR_OTHER||Slope|1.36||||0.039|TWO_SIDED|90.0|1.08|1.642|||Power model|||Day 14: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 14 was assessed using the power model. For Day 14, the criteria for dose proportionality was the 90% CI for the slope within (0.839, 1.161) for the dose range of 100 mg to 400 mg.||1.642|1.080|0.039
92327684|NCT02453282|184560544|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.036|TWO_SIDED|97.54|0.564|1.019||The 2-sided p-value was calculated using a stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.019|0.564|0.036
92270137|NCT03428217|184441338|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9549|TWO_SIDED|95.0|0.8|1.26|||Log Rank|||Stratified Analysis 3: Stratified by the number of prior anti-angio cancer therapy \[0 vs. \>=1\].||1.26|0.8|0.9549
92270138|NCT03428217|184441338|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8193|TWO_SIDED|95.0|0.82|1.29|||Log Rank|||Unstratified Analysis||1.29|0.82|0.8193
92270139|NCT03252015|184441455|SUPERIORITY||Mean Difference (Final Values)|-0.182|||||TWO_SIDED|95.0|-0.412|0.049||||||Day 7||0.049|-0.412|
92270140|NCT03252015|184441455|SUPERIORITY||Mean Difference (Final Values)|0.071|||||TWO_SIDED|95.0|-0.081|0.224||||||Day 7||0.224|-0.081|
92270141|NCT03252015|184441455|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Day 21||0.000|0.000|
92270142|NCT03252015|184441455|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Day 21||0.000|0.000|
92270143|NCT03252015|184441456|SUPERIORITY||Mean Difference (Final Values)|-0.145|||||TWO_SIDED|95.0|-0.34|0.05||||||Day 7||0.050|-0.340|
92270144|NCT03252015|184441456|SUPERIORITY||Mean Difference (Final Values)|0.071|||||TWO_SIDED|95.0|-0.081|0.224||||||||0.224|-0.081|
92270145|NCT03252015|184441456|SUPERIORITY||Mean Difference (Final Values)|0.071|||||TWO_SIDED|95.0|-0.151|0.294||||||Day 21||0.294|-0.151|
92270146|NCT03252015|184441456|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Day 21||0.000|0.000|
92270147|NCT01516684|184441484|OTHER|||||||0.036|||||||T-test and chi-square|||Raw mean total dose administered and raw percentage of times additional propofol was administered will be presented by sedation group treating each event (sedation with lumbar puncture) as the unit. T-test and chi-square tests will be performed as appropriate for the outcome. GEE methods will be used when analyzing the percentage of times additional propofol was administered. Mixed model regression methods will be used when analyzing the total dose administered.||||0.036
92270148|NCT01516684|184441486|OTHER|Marginal mixed model (GEE type)||||||0.094|||||||Mixed Models Analysis|||||||0.094
92270149|NCT01516684|184441487|OTHER|||||||0.382|||||||Chi-squared|||||||0.382
92270150|NCT01516684|184441488|OTHER|Marginal mixed model (GEE type)||||||0.426|||||||Mixed Models Analysis|||||||0.426
92270151|NCT02262507|184441496|OTHER||||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
92270152|NCT00975000|184441574|SUPERIORITY_OR_OTHER||Chi-Square test statistic|66.437|||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by baseline corrected total serum calcium level (≤ 11.2 mg/dL and \> 11.2 mg/dL)||The primary endpoint was tested at a significance level of 0.05.||||<0.001
92270153|NCT00975000|184441574|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|91.41|||||TWO_SIDED|95.0|18.76|445.41|||||Odds ratio of Cinacalcet/Placebo|||445.41|18.76|
92270154|NCT00975000|184441574|SUPERIORITY_OR_OTHER||Difference|75.44|||||TWO_SIDED|95.0|63.83|87.05|||||Difference = Cinacalcet-Placebo|||87.05|63.83|
92270155|NCT00975000|184441575|SUPERIORITY_OR_OTHER||Difference|1.41||||0.266|TWO_SIDED|95.0|-1.1|3.93|||ANCOVA|Analysis of covariance (ANCOVA) with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the percent change in BMD between the 2 treatment groups (cinacalcet - placebo)|||3.93|-1.10|0.266
92270156|NCT00975000|184441576|SUPERIORITY_OR_OTHER||Difference|0.45|||<|0.001|TWO_SIDED|95.0|0.26|0.64|||ANCOVA|Analysis of covariance (ANCOVA) with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the absolute change in mean serum phosphorus between the 2 treatment groups (cinacalcet - placebo)|||0.64|0.26|<0.001
92270157|NCT00975000|184441577|SUPERIORITY_OR_OTHER||Difference|-0.4||||0.842|TWO_SIDED|95.0|-4.37|3.57|||ANCOVA|ANCOVA with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the absolute change in mean eGFR between the 2 treatment groups (cinacalcet - placebo)|||3.57|-4.37|0.842
92270158|NCT00975000|184441578|SUPERIORITY_OR_OTHER||Difference|-1.39|||<|0.001|TWO_SIDED|95.0|-1.62|-1.16|||ANCOVA|ANCOVA with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the absolute change in corrected total calcium between the 2 treatment groups (cinacalcet - placebo)|||-1.16|-1.62|<0.001
92270159|NCT00975000|184441579|SUPERIORITY_OR_OTHER||Difference|-117.21||||0.002|TWO_SIDED|95.0|-189.88|-44.55|||ANCOVA|ANCOVA with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the absolute change in iPTH between the 2 treatment groups (cinacalcet - placebo)|||-44.55|-189.88|0.002
92270160|NCT00975000|184441580|SUPERIORITY_OR_OTHER||Difference|-1.42||||0.846|TWO_SIDED|95.0|-15.91|13.06|||ANCOVA|ANCOVA with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the absolute change in urine phosphorus between the 2 treatment groups (cinacalcet - placebo)|||13.06|-15.91|0.846
92270161|NCT00526227|184441598|OTHER|An exact one-sided 97% upper confidence bound or a p-value will be calculated based on the observed percentage of subjects with an USADE within the first month post-implant. This rate will be considered acceptable if the one-sided 97% upper confidence bound is less than 10% or, equivalently, if the p-value is less than 0.0304.|Percentage|7.7|||||ONE_SIDED|97.0|||||||The CI was calculated based on 44 patients at interim analysis: 0 USADE were reported within 1-month post implant, ie 0% of subjects experienced a USADE. The one-sided 97% exact binomial upper confidence bound was 7.7% which is lower than 10%.|"H 0 (null hypothesis): P ≥ 10%; H A (alternative hypothesis): P \< 10%, where P is the percentage of subjects experiencing a USADE through the 1-month post implant.~An upper limit of the confidence interval of the percentage subjects with USADE not greater than or equal to 10% at the 1-month follow-up visit provides a reasonably-sized clinical study with sufficient power to detect USADEs."||||
92270162|NCT05257109|184441613|OTHER|Mixed effects models with water concentration as the within subject factor and irritation as outcome. Outcome analyses will be intent-to-treat and using mixed-effects models. If model assumptions will appear to be violated, we will transform the data or fit more flexible generalized linear or nonparametric mixed models. A significant main effect of condition will be considered supportive of our hypothesis. Formal power analyses were not conducted for this pilot study.|Median Difference (Final Values)|0.67||||0.0014|TWO_SIDED|||||Significant p-value set at \<0.05|Mixed Models Analysis|||||||0.0014
92270163|NCT05257109|184441614|OTHER|Mixed effects models with water concentration as the within subject factor and LHS as outcome. Outcome analyses will be intent-to-treat and using mixed-effects models. If model assumptions will appear to be violated, we will transform the data or fit more flexible generalized linear or nonparametric mixed models. A significant main effect of condition will be considered supportive of our hypothesis. Formal power analyses were not conducted for this pilot study.|Mean Difference (Final Values)|1.55|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
92270164|NCT05257109|184441615|OTHER|Mixed effects models with water concentration as the within subject factor and DEQ as outcome. Outcome analyses will be intent-to-treat and using mixed-effects models. If model assumptions will appear to be violated, we will transform the data or fit more flexible generalized linear or nonparametric mixed models. A significant main effect of condition will be considered supportive of our hypothesis. Formal power analyses were not conducted for this pilot study.|Mean Difference (Final Values)|3.28|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
92270165|NCT00858234|184441618|OTHER|Accumulation Ratio (Day 11 AUC0-24hr/Day 1 AUC0-24hr)|Accumulation ratio|1.08|||||TWO_SIDED|90.0|0.8|1.45|||||Back-transformed least squares mean difference and 90% confidence interval from mixed effects model performed on natural log-transformed values.|||1.45|0.80|
92270166|NCT02253654|184441669|SUPERIORITY_OR_OTHER||Treatment difference|0.39|STANDARD_ERROR_OF_MEAN|3.53||0.46|ONE_SIDED|97.5|-6.58||||t-test, 1 sided|||The difference between treatment groups for the percent of hemoglobin measurements within 10.0 to 11.0 g/dL during the evaluation period was tested using a 1-sided t-test with a significance level of 0.025.|||-6.58|0.46
92270167|NCT02458365|184441689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.75|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.75|.51|<.0001
92270168|NCT02458365|184441689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.45|0.68|||Regression, Linear|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.68|.45|<.0001
92270169|NCT02458365|184441690|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||<|0.001|TWO_SIDED|95.0|0.57|0.84|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.84|.57|<.001
92270170|NCT02458365|184441690|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.5|0.75|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.75|.50|<.0001
92270171|NCT02458365|184441691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.43|0.67|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.67|.43|<.0001
92270172|NCT02458365|184441691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.36|0.56|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.56|.36|<.0001
92270173|NCT02458365|184441692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.41|0.62|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.62|.41|<.0001
92270174|NCT02458365|184441692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.35|0.54|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.54|.35|<.0001
92270175|NCT02458365|184441693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.001|TWO_SIDED|95.0|0.38|0.78|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.78|.38|.001
92270176|NCT02458365|184441693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.013|TWO_SIDED|95.0|0.4|0.9|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.90|.40|.013
92270177|NCT02458365|184441694|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53|||<|0.001|TWO_SIDED|95.0|0.37|0.76|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.76|.37|<.001
92270178|NCT02458365|184441694|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.54||||0.004|TWO_SIDED|95.0|0.35|0.82|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.82|.35|.004
92270179|NCT02458365|184441695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.002|TWO_SIDED|95.0|0.35|0.78|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.78|.35|.002
92270180|NCT02458365|184441695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.005|TWO_SIDED|95.0|0.31|0.81|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.81|.31|.005
92270181|NCT02458365|184441696|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.29|0.64|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.64|.29|<.0001
92270182|NCT02458365|184441696|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.003|TWO_SIDED|95.0|0.29|0.77|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.77|.29|.003
92270183|NCT01052038|184441715|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|||||||<0.001
92270184|NCT01052038|184441715|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0|||<|0.001|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|0|<0.001
92270185|NCT01052038|184441715|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0|||<|0.001|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|0|<0.001
92270186|NCT01052038|184441716|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|Dunn's post hoc-test corrected for 12 comparisons.||||||<0.001
92270187|NCT01052038|184441716|SUPERIORITY_OR_OTHER||Median Difference (Net)|22.0||||0.005|TWO_SIDED|95.0|14.0|29.0|||Wilcoxon (Mann-Whitney)|||||29|14|0.005
92270188|NCT01052038|184441716|SUPERIORITY_OR_OTHER||Median Difference (Net)|14.0||||0.004|TWO_SIDED|95.0|7.0|22.0|||Wilcoxon (Mann-Whitney)|||||22|7|0.004
92270189|NCT01052038|184441717|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared, Corrected|||||||0.004
92270190|NCT01052038|184441718|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Kruskal-Wallis|Post hoc test using Dunn's test corrected for 12 comparisons||||||0.01
92270191|NCT01052038|184441718|SUPERIORITY_OR_OTHER||Median Difference (Net)|10.0||||0.003||95.0|0.0|20.0|||Wilcoxon (Mann-Whitney)|||||20|0|0.003
92270192|NCT01052038|184441719|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Chi-squared, Corrected|||||||0.04
92270193|NCT03349437|184441720|SUPERIORITY|||||||0.02||||||This p-value is in reference to the total Modified 6MWT Distance|Wilcoxon Signed Rank|||||||0.02
92270194|NCT00602641|184441768|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Presuming the control over the experimental arm (MPT-T/mPR-R), the inferiority of mPR-R was defined as a PFS treatment hazard ratio (HR) of less than or equal to 0.82 corresponding to median PFS on the mPR-R arm of 20.5 months (mos) vs. 25 mos on the MPT-T arm. With 304 patients and 221 PFS events, there was 86% power to detect non-inferiority of mPR-R at a 1-sided 0.05 significance level assuming a superiority alternative of HR=1.2 corresponding to median PFS on the mPR-R arm of 30 mos.|Hazard Ratio (HR)|0.84|||||TWO_SIDED|90.0|0.67|1.045|||||Analysis based on stratified cox regression by ISS stage (I-II vs. III) and age (\< 65y vs. ≥ 65y). The fact that the lower-bound was less than 0.82 and the upper bound was above 1.0 indicates that results were inconclusive for the primary objective.|Since mPR-R was expected to be considerably less toxic and to confer slightly longer PFS, a non-inferiority design with superiority alternative was used.||1.045|0.67|
92270195|NCT00602641|184441769|SUPERIORITY_OR_OTHER_LEGACY|||||||0.476|TWO_SIDED||||||Log Rank|Analysis was based on stratified cox regression by ISS stage (I-II vs. III) and age (\< 65y vs. ≥ 65y).||||||0.476
92270196|NCT00602641|184441770|SUPERIORITY_OR_OTHER_LEGACY|||||||0.204|TWO_SIDED||||||Fisher Exact|||||||0.204
92270197|NCT00602641|184441771|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.007
92270198|NCT03901339|184441772|OTHER||Hazard Ratio (HR)|0.653||||0.0001|TWO_SIDED|95.0|0.526|0.812||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||0.812|0.526|0.0001
92270199|NCT03901339|184441773|OTHER||Hazard Ratio (HR)|0.788||||0.0133|TWO_SIDED|95.0|0.652|0.952||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis, and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||0.952|0.652|0.0133
92270200|NCT03901339|184441774|OTHER||Odds Ratio (OR)|1.662||||0.0268|TWO_SIDED|95.0|1.058|2.609|||Cochran-Mantel-Haenszel|||ORR by BICR Assessment||2.609|1.058|0.0268
92270201|NCT03901339|184441774|OTHER||Odds Ratio (OR)|1.989||||0.0098|TWO_SIDED|95.0|1.174|3.369|||Cochran-Mantel-Haenszel|||ORR by LIR Assessment||3.369|1.174|0.0098
92270202|NCT03901339|184441776|OTHER||Odds Ratio (OR)|1.796||||0.0025|TWO_SIDED|95.0|1.227|2.628|||Cochran-Mantel-Haenszel|||CBR by BICR Assessment||2.628|1.227|0.0025
92270203|NCT03901339|184441776|OTHER||Odds Ratio (OR)|1.834||||0.0024|TWO_SIDED|95.0|1.237|2.717|||Cochran-Mantel-Haenszel|||CBR by LIR Assessment||2.717|1.237|0.0024
92270204|NCT03901339|184441777|OTHER||Hazard Ratio (HR)|0.728||||0.001|TWO_SIDED|95.0|0.602|0.881||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis, and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||0.881|0.602|0.0010
92270205|NCT03901339|184441778|OTHER||Hazard Ratio (HR)|0.751||||0.0059|TWO_SIDED|95.0|0.612|0.922||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis, and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||0.922|0.612|0.0059
92270206|NCT03901339|184441779|OTHER||Hazard Ratio (HR)|0.918||||0.4151|TWO_SIDED|95.0|0.748|1.126||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis, and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||1.126|0.748|0.4151
92270207|NCT03901339|184441780|OTHER||Hazard Ratio (HR)|0.732||||0.0021|TWO_SIDED|95.0|0.598|0.894||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis, and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||0.894|0.598|0.0021
92270208|NCT01294709|184441799|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-6.9|||||TWO_SIDED|90.0|-17.66|3.86|||mixed effects model|mixed effects model with MK-0974 pooled over doses||Telcagepant minus Placebo Treatment Difference||3.86|-17.66|
92270209|NCT01294709|184441800|SUPERIORITY_OR_OTHER||Difference in Least squares meand|-0.056|||||TWO_SIDED|90.0|-0.19|0.076|||mixed effects model|mixed effects model with MK-0974 pooled over doses||Telcagepant minus Placebo Treatment Difference||0.076|-0.19|
92270210|NCT01294709|184441801|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-7.14|||||TWO_SIDED|90.0|-22.03|7.74|||mixed effects model|mixed effects model with MK-0974 pooled over doses||Telcagepant minus Placebo Treatment Difference||7.74|-22.03|
92270211|NCT00110084|184441830|SUPERIORITY_OR_OTHER||Proportion of confirmed responses (%)|50.0|||||TWO_SIDED|95.0|36.0|64.0|||||95% Confidence intervals were calculated for the true confirmed response rate using properties of the binomial distribution.|Proportion of confirmed responses was estimated by the number of patients who achieved a confirmed response divided by the total number of assessable patients.||64|36|
92270212|NCT02446496|184441834|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Point estimate percent|95.91|||||TWO_SIDED|90.0|85.67|107.37||||||||107.37|85.67|
92270213|NCT02446496|184441835|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Point estimate percent|102.31|||||TWO_SIDED|90.0|90.46|115.7|||||Comparison of AUC (0-t) between Treatment A and Treatment B|||115.70|90.46|
92270214|NCT02446496|184441835|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Point estimate percent|103.13|||||TWO_SIDED|90.0|91.19|116.62|||||Comparison of AUC(0-infinity) between Treatment A and Treatment B|||116.62|91.19|
92270215|NCT02446496|184441836|SUPERIORITY_OR_OTHER|||||||0.267||95.0|||||Wilcoxon's Signed-Rank Test|Comparison of T-max between Treatment A and Treatment B.||||||0.2670
92270216|NCT04854707|184441838|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92270217|NCT04854707|184441838|OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
92270218|NCT04854707|184441839|OTHER||Mean Difference (Final Values)|0.017||||0.314|TWO_SIDED|95.0|-0.0161|0.0501|||Chi-squared|z-value = 1||95% Confidence intervals (CIs) of point estimates were calculated using the exact binominal distribution (Clopper-Pearson method) for proportions||0.0501|-0.0161|0.314
92270219|NCT04854707|184441839|OTHER||Mean Difference (Final Values)|0.0207||||0.482|TWO_SIDED|95.0|-0.0369|0.0782|||Chi-squared|||95% Confidence intervals (CIs) of point estimates were calculated using the exact binominal distribution (Clopper-Pearson method) for proportions||0.0782|-0.0369|0.482
92270220|NCT04854707|184441840|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92270221|NCT04854707|184441840|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92270222|NCT04854707|184441841|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92270223|NCT04854707|184441842|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92270224|NCT04854707|184441842|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92270225|NCT05302414|184441866|SUPERIORITY||Median Difference (Final Values)|12.75|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For the pretest at week 0.||||<0.05
92270226|NCT05302414|184441866|SUPERIORITY||Median Difference (Final Values)|2.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||0.05
92270227|NCT05302414|184441866|SUPERIORITY||Median Difference (Final Values)|6.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For follow-up test at the 16 weeks.||||0.05
92270228|NCT05302414|184441867|SUPERIORITY||Median Difference (Final Values)|1.0|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For pretest at the 0 week||||<0.05
92270229|NCT05302414|184441867|SUPERIORITY||Median Difference (Final Values)|0.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||0.05
92270230|NCT05302414|184441867|SUPERIORITY||Median Difference (Final Values)|0.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For follow-up test at the 16 weeks.||||0.05
92270231|NCT05302414|184441868|SUPERIORITY||Median Difference (Final Values)|40.0|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For the pretest at week 0.||||<0.05
92270232|NCT05302414|184441868|SUPERIORITY||Median Difference (Final Values)|45.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||0.05
92270233|NCT05302414|184441868|SUPERIORITY||Median Difference (Final Values)|43.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For follow-up test at the 16 weeks.||||0.05
92270234|NCT05302414|184441869|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For the pretest at week 0.||||<0.05
92270235|NCT05302414|184441869|SUPERIORITY||Median Difference (Final Values)|0.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||0.05
92270236|NCT05302414|184441869|SUPERIORITY||Median Difference (Final Values)|2.5||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For follow-up test at the 16 weeks.||||0.05
92270237|NCT05302414|184441870|SUPERIORITY||Median Difference (Final Values)|6.75|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For the pretest at week 0.||||<0.05
92270238|NCT05302414|184441870|SUPERIORITY||Median Difference (Final Values)|0.25||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||0.05
92270239|NCT05302414|184441870|SUPERIORITY||Median Difference (Final Values)|0.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For follow-up test at the 16 weeks.||||0.05
92270240|NCT05302414|184441871|SUPERIORITY||Median Difference (Final Values)|22.0|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||<0.05
92270241|NCT00742859|184441872|OTHER||Hazard Ratio (HR)|0.14||||0.035|TWO_SIDED|95.0|0.017|1.14|||Log Rank|||Betrixaban 40mg compared to Warfarin||1.14|0.017|0.035
92270242|NCT00742859|184441872|OTHER||Hazard Ratio (HR)|0.711||||0.546|TWO_SIDED|95.0|0.225|2.24|||Log Rank|||Betrixaban 60mg compared to Warfarin||2.24|0.225|0.546
92270243|NCT00742859|184441872|OTHER||Hazard Ratio (HR)|0.755||||0.712|TWO_SIDED|95.0|0.239|2.39|||Log Rank|||Betrixaban 80mg compared to Warfarin||2.39|0.239|0.712
92270244|NCT00742859|184441873|OTHER||Hazard Ratio (HR)|0.508||||0.011|TWO_SIDED|95.0|0.301|0.856|||Log Rank|||Betrixaban 40mg compared to Warfarin||0.856|0.301|0.011
92270245|NCT00742859|184441873|OTHER||Hazard Ratio (HR)|0.767||||0.308|TWO_SIDED|95.0|0.481|1.22|||Log Rank|||Betrixaban 60mg compared to Warfarin||1.22|0.481|0.308
92270246|NCT00742859|184441873|OTHER||Hazard Ratio (HR)|0.551||||0.022|TWO_SIDED|95.0|0.332|0.914|||Log Rank|||Betrixaban 80mg compared to Warfarin||0.914|0.332|0.022
92270247|NCT00956709|184441878|SUPERIORITY_OR_OTHER|||||||0.56||||||Two patients in each group had incomplete block before sugery.|Wilcoxon (Mann-Whitney)|||||||0.56
92270248|NCT00956709|184441880|SUPERIORITY_OR_OTHER|||||||0.3354|||||||Wilcoxon (Mann-Whitney)|||||||0.3354
92270249|NCT00956709|184441881|SUPERIORITY_OR_OTHER|||||||0.0445|||||||Wilcoxon (Mann-Whitney)|||||||0.0445
92270250|NCT03706209|184441897|SUPERIORITY||Odds Ratio (OR)|4.12||||0.161|TWO_SIDED|95.0|0.47|35.97|||Cochran-Mantel-Haenszel|||||35.97|0.47|0.161
92270251|NCT03706209|184441897|SUPERIORITY||Odds Ratio (OR)|5.52||||0.111|TWO_SIDED|95.0|0.55|55.43|||Cochran-Mantel-Haenszel|||||55.43|0.55|0.111
92270252|NCT03706209|184441898|SUPERIORITY||Odds Ratio (OR)|1.73||||0.222|TWO_SIDED|95.0|0.71|4.25|||Cochran-Mantel-Haenszel|||||4.25|0.71|0.222
92270253|NCT03706209|184441898|SUPERIORITY||Odds Ratio (OR)|1.91||||0.182|TWO_SIDED|95.0|0.75|4.91|||Cochran-Mantel-Haenszel|||||4.91|0.75|0.182
92270254|NCT03706209|184441899|SUPERIORITY||Odds Ratio (OR)|2.91||||0.294|TWO_SIDED|95.0|0.33|25.39|||Cochran-Mantel-Haenszel|||||25.39|0.33|0.294
92270255|NCT03706209|184441899|SUPERIORITY||Odds Ratio (OR)|4.06||||0.291|TWO_SIDED|95.0|0.31|53.14|||Cochran-Mantel-Haenszel|||||53.14|0.31|0.291
92270256|NCT03706209|184441900|SUPERIORITY||Odds Ratio (OR)|1.31||||0.617|TWO_SIDED|95.0|0.45|3.77|||Cochran-Mantel-Haenszel|||||3.77|0.45|0.617
92270257|NCT03706209|184441900|SUPERIORITY||Odds Ratio (OR)|1.73||||0.319|TWO_SIDED|95.0|0.6|5.0|||Cochran-Mantel-Haenszel|||||5|0.6|0.319
92270258|NCT03706209|184441901|SUPERIORITY||Odds Ratio (OR)|1.5||||0.47|TWO_SIDED|95.0|0.5|4.52|||Cochran-Mantel-Haenszel|||||4.52|0.5|0.47
92270259|NCT03706209|184441901|SUPERIORITY||Odds Ratio (OR)|2.44||||0.136|TWO_SIDED|95.0|0.76|7.82|||Cochran-Mantel-Haenszel|||||7.82|0.76|0.136
92270260|NCT03706209|184441902|SUPERIORITY||least square means|0.2|STANDARD_ERROR_OF_MEAN|1.4||0.894|TWO_SIDED|95.0|-2.6|3.0|||ANCOVA|||||3|-2.6|0.894
92270261|NCT03706209|184441902|SUPERIORITY||least square means|-1.1|STANDARD_ERROR_OF_MEAN|1.4||0.456|TWO_SIDED|95.0|-3.8|1.7|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||1.7|-3.8|0.456
92270262|NCT03706209|184441904|SUPERIORITY|||||||0.572|||||||Log Rank|Kaplan-Meier estimate of the median time (day) to reach the PASI 75 criterion was not computed since data were too sparse.||||||0.572
92270263|NCT03706209|184441904|SUPERIORITY|||||||0.4494|||||||Log Rank|Kaplan-Meier estimate of the median time (day) to reach the PASI 75 criterion was not computed since data were too sparse.||||||0.4494
92270264|NCT03706209|184441905|SUPERIORITY|||||||0.7922|||||||Log Rank|Kaplan-Meier estimate of the median time (day) to reach the PASI 50 criterion was not computed since data were too sparse.||||||0.7922
92270265|NCT03706209|184441905|SUPERIORITY|||||||0.1425|||||||Log Rank|Kaplan-Meier estimate of the median time (day) to reach the PASI 50 criterion was not computed since data were too sparse.||||||0.1425
92270266|NCT03706209|184441906|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.992|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.992
92270267|NCT03706209|184441906|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.143|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.143
92270268|NCT03706209|184441909|SUPERIORITY|||||||0.178|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.178
92270269|NCT03706209|184441909|SUPERIORITY||Odds Ratio (OR)|0.63||||0.718|TWO_SIDED|95.0|0.05|7.48|||Cochran-Mantel-Haenszel|||||7.48|0.05|0.718
92270270|NCT03706209|184441910|SUPERIORITY||Odds Ratio (OR)|2.4||||0.474|TWO_SIDED|95.0|0.21|28.05|||Cochran-Mantel-Haenszel|||||28.05|0.21|0.474
92270271|NCT03706209|184441910|SUPERIORITY||Odds Ratio (OR)|1.25||||0.867|TWO_SIDED|95.0|0.08|19.05|||Cochran-Mantel-Haenszel|||||19.05|0.08|0.867
92270272|NCT03706209|184441911|SUPERIORITY||Odds Ratio (OR)|2.2||||0.375|TWO_SIDED|95.0|0.38|12.84|||Cochran-Mantel-Haenszel|||||12.84|0.38|0.375
92270273|NCT03706209|184441911|SUPERIORITY||Odds Ratio (OR)|4.24||||0.116|TWO_SIDED|95.0|0.66|27.08|||Cochran-Mantel-Haenszel|||||27.08|0.66|0.116
92270274|NCT03706209|184441912|SUPERIORITY||Odds Ratio (OR)|0.41||||0.287|TWO_SIDED|95.0|0.08|2.27|||Cochran-Mantel-Haenszel|||||2.27|0.08|0.287
92270275|NCT03706209|184441912|SUPERIORITY||Odds Ratio (OR)|1.85||||0.332|TWO_SIDED|95.0|0.53|6.4|||Cochran-Mantel-Haenszel|||||6.4|0.53|0.332
92270276|NCT03706209|184441913|SUPERIORITY||Odds Ratio (OR)|0.81||||0.719|TWO_SIDED|95.0|0.25|2.63|||Cochran-Mantel-Haenszel|||||2.63|0.25|0.719
92270277|NCT03706209|184441913|SUPERIORITY||Odds Ratio (OR)|1.72||||0.357|TWO_SIDED|95.0|0.55|5.32|||Cochran-Mantel-Haenszel|||||5.32|0.55|0.357
92270278|NCT03706209|184441914|SUPERIORITY||Odds Ratio (OR)|1.75||||0.355|TWO_SIDED|95.0|0.53|5.72|||Cochran-Mantel-Haenszel|||||5.72|0.53|0.355
92270279|NCT03706209|184441914|SUPERIORITY||Odds Ratio (OR)|2.22||||0.198|TWO_SIDED|95.0|0.67|7.37|||Cochran-Mantel-Haenszel|||||7.37|0.67|0.198
92270280|NCT03706209|184441915|SUPERIORITY||least square means|0.3|STANDARD_ERROR_OF_MEAN|1.0||0.757|TWO_SIDED|95.0|-1.7|2.3|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||2.3|-1.7|0.757
92270281|NCT03706209|184441915|SUPERIORITY||least square means|-1.1|STANDARD_ERROR_OF_MEAN|1.0||0.267|TWO_SIDED|95.0|-3.1|0.9|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||0.9|-3.1|0.267
92270282|NCT03706209|184441916|SUPERIORITY||least square means|1.0|STANDARD_ERROR_OF_MEAN|1.2||0.412|TWO_SIDED|95.0|-1.4|3.4|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||3.4|-1.4|0.412
92270283|NCT03706209|184441916|SUPERIORITY||least square means|-1.0|STANDARD_ERROR_OF_MEAN|1.2||0.401|TWO_SIDED|95.0|-3.5|1.4|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||1.4|-3.5|0.401
92270284|NCT03706209|184441917|SUPERIORITY||least square means|0.4|STANDARD_ERROR_OF_MEAN|1.7||0.801|TWO_SIDED|95.0|-3.0|3.9|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||3.9|-3|0.801
92270285|NCT03706209|184441917|SUPERIORITY||least square means|0.1|STANDARD_ERROR_OF_MEAN|1.7||0.957|TWO_SIDED|95.0|-3.4|3.3|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||3.3|-3.4|0.957
92270286|NCT03706209|184441921|SUPERIORITY||Odds Ratio (OR)|1.45||||0.45|TWO_SIDED|95.0|0.55|3.8|||Cochran-Mantel-Haenszel|||||3.8|0.55|0.45
92270287|NCT03706209|184441921|SUPERIORITY||Odds Ratio (OR)|1.97||||0.186|TWO_SIDED|95.0|0.74|5.26|||Cochran-Mantel-Haenszel|||||5.26|0.74|0.186
92270288|NCT03706209|184441922|SUPERIORITY||Odds Ratio (OR)|0.94||||0.884|TWO_SIDED|95.0|0.41|2.18|||Cochran-Mantel-Haenszel|||||2.18|0.41|0.884
92270289|NCT03706209|184441922|SUPERIORITY||Odds Ratio (OR)|1.49||||0.384|TWO_SIDED|95.0|0.61|3.64|||Cochran-Mantel-Haenszel|||||3.64|0.61|0.384
92270290|NCT03706209|184441923|SUPERIORITY||Odds Ratio (OR)|1.64||||0.311|TWO_SIDED|95.0|0.63|4.26|||Cochran-Mantel-Haenszel|||||4.26|0.63|0.311
92270291|NCT03706209|184441923|SUPERIORITY||Odds Ratio (OR)|1.21||||0.699|TWO_SIDED|95.0|0.47|3.17|||Cochran-Mantel-Haenszel|||||3.17|0.47|0.699
92270292|NCT03706209|184441924|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.671|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.671
92270293|NCT03706209|184441924|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.183|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.183
92270294|NCT03706209|184441925|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.542|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.542
92270295|NCT03706209|184441925|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.328|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.328
92270296|NCT03706209|184441926|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.921|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.921
92270297|NCT03706209|184441926|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.488|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.488
92270298|NCT03706209|184441937|SUPERIORITY|||||||0.1193|||||||Fisher Exact|||||||0.1193
92270299|NCT03706209|184441937|SUPERIORITY|||||||0.0054|||||||Fisher Exact|||||||0.0054
92270300|NCT03706209|184441938|SUPERIORITY|||||||0.2439|||||||Fisher Exact|||||||0.2439
92270301|NCT03706209|184441938|SUPERIORITY|||||||0.2461|||||||Fisher Exact|||||||0.2461
92270302|NCT03706209|184441939|SUPERIORITY|||||||0.4395|||||||Fisher Exact|||||||0.4395
92270303|NCT03706209|184441939|SUPERIORITY|||||||0.0593|||||||Fisher Exact|||||||0.0593
92270304|NCT03706209|184441941|SUPERIORITY|||||||0.0507|||||||Fisher Exact|||||||0.0507
92270305|NCT03706209|184441941|SUPERIORITY|||||||0.0005|||||||Fisher Exact|||||||0.0005
92270306|NCT03706209|184441942|SUPERIORITY|||||||0.0504|||||||Fisher Exact|||||||0.0504
92270307|NCT03706209|184441942|SUPERIORITY|||||||0.0013|||||||Fisher Exact|||||||0.0013
92270308|NCT03706209|184441943|SUPERIORITY|||||||0.098|||||||Fisher Exact|||||||0.098
92270309|NCT03706209|184441943|SUPERIORITY|||||||0.0032|||||||Fisher Exact|||||||0.0032
92270310|NCT00038467|184441957|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||3e-05|TWO_SIDED|95.0|0.58|0.82|||Log Rank|||||0.82|0.58|0.00003
92270311|NCT00038467|184441958|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.913||||0.15737|TWO_SIDED|95.0|0.806|1.036|||Log Rank|||||1.036|0.806|0.15737
92270312|NCT00038467|184441960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.43|||<|0.0001|TWO_SIDED|95.0|1.63|3.23|||t-test, 2 sided|||6 months on-treatment (lumbar spine): p-value was estimated using 2-sided t-test.||3.23|1.63|<0.0001
92270313|NCT00038467|184441960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.18||||0.0002|TWO_SIDED|95.0|0.57|1.79|||t-test, 2 sided|||6 months on-treatment (total hip): p-value was estimated using 2-sided t-test.||1.79|0.57|0.0002
92270314|NCT00038467|184441960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.79|||<|0.0001|TWO_SIDED|95.0|1.77|3.81|||t-test, 2 sided|||12 months on-treatment (lumbar spine): p-value was estimated using 2-sided t-test.||3.81|1.77|<0.0001
92270315|NCT00038467|184441960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.79|||<|0.0001|TWO_SIDED|95.0|1.12|2.46|||t-test, 2 sided|||12 months on-treatment (total hip): p-value was estimated using 2-sided t-test.||2.46|1.12|<0.0001
92270316|NCT00038467|184441960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.22|||<|0.0001|TWO_SIDED|95.0|2.1|4.35|||t-test, 2 sided|||24 months on-treatment (lumbar spine): p-value was estimated using 2-sided t-test.||4.35|2.10|<0.0001
92270317|NCT00038467|184441960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|||<|0.0001|TWO_SIDED|95.0|1.1|2.69|||t-test, 2 sided|||24 months on-treatment (total hip): p-value was estimated using 2-sided t-test.||2.69|1.10|<0.0001
92270318|NCT00038467|184441969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.5|TWO_SIDED|95.0|-1.76|0.86|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.86|-1.76|0.500
92270319|NCT00038467|184441969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.009|TWO_SIDED|95.0|-3.67|-0.52|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||-0.52|-3.67|0.009
92270320|NCT00038467|184441969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35||||0.079|TWO_SIDED|95.0|-2.86|0.16|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.16|-2.86|0.079
92270321|NCT00038467|184441969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.729|TWO_SIDED|95.0|-1.24|1.77|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||1.77|-1.24|0.729
92270322|NCT00038467|184441969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84||||0.302|TWO_SIDED|95.0|-2.43|0.75|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.75|-2.43|0.302
92270323|NCT00038467|184441969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.187|TWO_SIDED|95.0|-2.76|0.54|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.54|-2.76|0.187
92270324|NCT00038467|184441970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.26|TWO_SIDED|95.0|-1.8|0.49|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.49|-1.80|0.260
92270325|NCT00038467|184441970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.209|TWO_SIDED|95.0|-2.02|0.44|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.44|-2.02|0.209
92270326|NCT00038467|184441970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.698|TWO_SIDED|95.0|-1.38|0.92|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.92|-1.38|0.698
92270327|NCT00038467|184441970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83||||0.192|TWO_SIDED|95.0|-0.42|2.09|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||2.09|-0.42|0.192
92270328|NCT00038467|184441970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.813|TWO_SIDED|95.0|-1.46|1.15|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||1.15|-1.46|0.813
92270329|NCT00038467|184441970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.537|TWO_SIDED|95.0|-0.91|1.75|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||1.75|-0.91|0.537
92270330|NCT00038467|184441971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.727|TWO_SIDED|95.0|-3.46|2.42|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||2.42|-3.46|0.727
92270331|NCT00038467|184441971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.08||||0.047|TWO_SIDED|95.0|-6.12|-0.05|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||-0.05|-6.12|0.047
92270332|NCT00038467|184441971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.553|TWO_SIDED|95.0|-3.88|2.08|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||2.08|-3.88|0.553
92270333|NCT00038467|184441971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91||||0.563|TWO_SIDED|95.0|-2.17|3.99|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||3.99|-2.17|0.563
92270334|NCT00038467|184441971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.643|TWO_SIDED|95.0|-3.83|2.36|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||2.36|-3.83|0.643
92270335|NCT00038467|184441971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.91||||0.126|TWO_SIDED|95.0|-6.63|0.82|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.82|-6.63|0.126
92270336|NCT00038467|184441972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.265|TWO_SIDED|95.0|-0.83|0.23|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.23|-0.83|0.265
92270337|NCT00038467|184441972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.0002|TWO_SIDED|95.0|-1.84|-0.57|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||-0.57|-1.84|0.0002
92270338|NCT00038467|184441972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.132|TWO_SIDED|95.0|-1.0|0.13|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.13|-1.00|0.132
92270339|NCT00038467|184441972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.635|TWO_SIDED|95.0|-0.7|0.43|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||0.43|-0.70|0.635
92270340|NCT00038467|184441972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.449|TWO_SIDED|95.0|-0.75|0.33|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.33|-0.75|0.449
92270341|NCT00038467|184441972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.454|TWO_SIDED|95.0|-0.81|0.36|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.36|-0.81|0.454
92270342|NCT00038467|184441973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.712|TWO_SIDED|95.0|-0.53|0.335|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.335|-0.53|0.712
92270343|NCT00038467|184441973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.899|TWO_SIDED|95.0|-0.65|0.356|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.356|-0.65|0.899
92270344|NCT00038467|184441973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.882|TWO_SIDED|95.0|-0.76|0.359|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.359|-0.76|0.882
92270345|NCT00038467|184441973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.604|TWO_SIDED|95.0|-0.54|0.37|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.37|-0.54|0.604
92270346|NCT00038467|184441973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.562|TWO_SIDED|95.0|-1.16|0.454|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.454|-1.16|0.562
92270347|NCT00038467|184441974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.892|TWO_SIDED|95.0|-0.2|0.18|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.18|-0.20|0.892
92270348|NCT00038467|184441974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.881|TWO_SIDED|95.0|-0.21|0.24|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.24|-0.21|0.881
92270349|NCT00038467|184441974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.883|TWO_SIDED|95.0|-0.18|0.21|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.21|-0.18|0.883
92327685|NCT02453282|184560544|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.202|TWO_SIDED|98.77|0.611|1.173||The 2-sided p-value was calculated using a stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.173|0.611|0.202
92270350|NCT00038467|184441974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.604|TWO_SIDED|95.0|-0.16|0.27|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||0.27|-0.16|0.604
92270351|NCT00038467|184441974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.118|TWO_SIDED|95.0|-0.05|0.41|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.41|-0.05|0.118
92270352|NCT00038467|184441974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.307|TWO_SIDED|95.0|-0.11|0.34|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.34|-0.11|0.307
92270353|NCT00038467|184441975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.792|TWO_SIDED|95.0|-0.42|0.56|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.56|-0.42|0.792
92270354|NCT00038467|184441975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.405|TWO_SIDED|95.0|-0.76|0.31|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.31|-0.76|0.405
92270355|NCT00038467|184441975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.484|TWO_SIDED|95.0|-0.75|0.36|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.36|-0.75|0.484
92270356|NCT00038467|184441975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.229|TWO_SIDED|95.0|-0.19|0.8|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||0.80|-0.19|0.229
92270357|NCT00038467|184441975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.381|TWO_SIDED|95.0|-0.84|0.32|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.32|-0.84|0.381
92270358|NCT00038467|184441975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.405|TWO_SIDED|95.0|-0.82|0.33|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.33|-0.82|0.405
92270359|NCT00038467|184441976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.648|TWO_SIDED|95.0|-0.77|0.48|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.48|-0.77|0.648
92270360|NCT00038467|184441976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.366|TWO_SIDED|95.0|-1.08|0.4|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.40|-1.08|0.366
92270361|NCT00038467|184441976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.062|TWO_SIDED|95.0|-1.33|0.03|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.03|-1.33|0.062
92270362|NCT00038467|184441976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.545|TWO_SIDED|95.0|-0.53|1.0|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||1.00|-0.53|0.545
92270363|NCT00038467|184441976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.932|TWO_SIDED|95.0|-0.77|0.7|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.70|-0.77|0.932
92270364|NCT00038467|184441976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.244|TWO_SIDED|95.0|-1.24|0.32|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.32|-1.24|0.244
92270365|NCT00038467|184441977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.876|TWO_SIDED|95.0|-0.62|0.73|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.73|-0.62|0.876
92270366|NCT00038467|184441977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.195|TWO_SIDED|95.0|-1.25|0.26|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.26|-1.25|0.195
92270367|NCT00038467|184441977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.63|TWO_SIDED|95.0|-0.92|0.55|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.55|-0.92|0.630
92270368|NCT00038467|184441977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.53|TWO_SIDED|95.0|-0.5|0.98|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||0.98|-0.50|0.530
92270369|NCT00038467|184441977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.147|TWO_SIDED|95.0|-1.43|0.21|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.21|-1.43|0.147
92327686|NCT02453282|184560545|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.705|TWO_SIDED|99.5|0.722|1.534||The analysis was performed using stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.534|0.722|0.705
92270370|NCT00038467|184441977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.389|TWO_SIDED|95.0|-1.18|0.46|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.46|-1.18|0.389
92270371|NCT00038467|184441979|SUPERIORITY_OR_OTHER|||||||0.0174|TWO_SIDED||||||Chi-squared|||6 months: p-value for percentage of participants with an endometrial thickness of \>=5 mm was analyzed using Chi-squared test.||||0.0174
92270372|NCT00038467|184441979|SUPERIORITY_OR_OTHER|||||||0.0059|TWO_SIDED||||||Chi-squared|||12 months: p-value for percentage of participants with an endometrial thickness of \>=5 mm was analyzed using Chi-squared test.||||0.0059
92270373|NCT00038467|184441979|SUPERIORITY_OR_OTHER|||||||0.0037|TWO_SIDED||||||Chi-squared|||24 months: p-value for percentage of participants with an endometrial thickness of \>=5 mm was analyzed using Chi-squared test.||||0.0037
92270374|NCT00038467|184441979|SUPERIORITY_OR_OTHER|||||||0.8084|TWO_SIDED||||||Chi-squared|||12 months post-treatment: p-value for percentage of participants with an endometrial thickness of \>=5 mm was analyzed using Chi-squared test.||||0.8084
92270375|NCT00038467|184441979|SUPERIORITY_OR_OTHER|||||||0.6449|TWO_SIDED||||||Chi-squared|||24 months post-treatment: p-value for percentage of participants with an endometrial thickness of \>=5 mm was analyzed using Chi-squared test.||||0.6449
92270376|NCT03972709|184441985|SUPERIORITY||Difference in Adjusted Means|0.29|STANDARD_ERROR_OF_MEAN|0.188||0.1206||95.0|-0.08|0.66|||MMRM|||||0.66|-0.08|0.1206
92270377|NCT03972709|184441985|SUPERIORITY||Difference in Adjusted Means|0.12|STANDARD_ERROR_OF_MEAN|0.231||0.6127||95.0|-0.34|0.57|||MMRM|||||0.57|-0.34|0.6127
92270378|NCT03972709|184441992|SUPERIORITY||Difference in Adjusted Means|-0.39|STANDARD_ERROR_OF_MEAN|1.901||0.8388|TWO_SIDED|95.0|-4.14|3.36|||MMRM|||||3.36|-4.14|0.8388
92270379|NCT03972709|184441992|SUPERIORITY||Difference in Adjusted Means|-0.48|STANDARD_ERROR_OF_MEAN|2.384||0.8412|TWO_SIDED|95.0|-5.18|4.23|||MMRM|||||4.23|-5.18|0.8412
92270380|NCT03972709|184441993|SUPERIORITY||Difference in Adjusted Means|0.83|STANDARD_ERROR_OF_MEAN|2.052||0.6865|TWO_SIDED|95.0|-3.22|4.88|||MMRM|||||4.88|-3.22|0.6865
92270381|NCT03972709|184441993|SUPERIORITY||Difference in Adjusted Means|0.2|STANDARD_ERROR_OF_MEAN|2.5||0.9355||95.0|-4.73|5.13|||MMRM|||||5.13|-4.73|0.9355
92270382|NCT01523301|184441994|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.12|||=|0.1286|TWO_SIDED|95.0|-2.56|0.33||The null hypothesis was assessed with a 2-sided test and not rejected at p≤0.05.|ANCOVA|||The change from Baseline to the end of the Maintenance period in the score of the HAM-D of rotigotine-treated subjects has been compared with those subjects on placebo in the EES. The null hypothesis (H0) was that there was no difference in the change of the HAM-D score between the active treatment and the placebo group. The alternative hypothesis (H1) was that there was a difference in the change of HAM-D score between the rotigotine and the placebo arm.||0.33|-2.56|=0.1286
92270383|NCT00728988|184442006|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.9237|TWO_SIDED|95.0|-7.3|9.3|||Chi-squared, Corrected||95% confidence interval for the true difference in the incidence of MACE between the two treatment groups. Difference of incidence = usual care minus atorvastatin.|Total MACE: treatment difference. Null hypothesis = no difference between the incidence rates in the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||9.3|-7.3|0.9237
92270384|NCT00728988|184442006|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-10.7|10.7|||Fisher Exact||Confidence limits were calculated by the exact unconditional inference. Difference of incidence = usual care minus atorvastatin.|Death: treatment difference. Null hypothesis = no difference between the incidence rates in two groups. Fisher's exact test was applied because the expected frequency of events was less than 5.||10.7|-10.7|1.0000
92270385|NCT00728988|184442006|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.9158|TWO_SIDED|95.0|-7.2|9.2|||Chi-squared, Corrected||Difference of incidence = usual care minus atorvastatin.|Myocardial Infarction: treatment difference. Null hypothesis = no difference between the incidence rates in the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||9.2|-7.2|0.9158
92270386|NCT00728988|184442006|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.93||||0.8|TWO_SIDED|95.0|0.5104|1.6846|||Regression, Logistic|||Unadjusted odds ratio and 95% confidence interval calculated by including treatment group as the only covariate in the logistic regression model. Reference group = usual care.||1.6846|0.5104|0.80
92270387|NCT00728988|184442006|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.96||||0.9|TWO_SIDED|95.0|0.4887|1.8836|||Regression, Logistic|||Adjusted odds ratio: model includes treatment group and potential confounding covariates age, gender, country, non-ST elevation myocardial infarction, LVEF \<=40, and use of beta-blockers, ACE-inhibitors, angiotension receptor blockers, calcium channel antagonists, and diuretics. Reference group = usual care.||1.8836|0.4887|0.90
92270388|NCT00728988|184442006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8494|TWO_SIDED||||||Log Rank|Survival analysis: Kaplan-Meier log rank test.||MACE-free survival up to Day 30. A censoring variable with a value of 1 denoted that the subject had the event and 0 indicated that the subject was censored. A log-rank test was applied to investigate any differences on the survival distribution function between two treatment groups.||||0.8494
92270389|NCT00728988|184442007|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||1|TWO_SIDED|95.0|-5.6|6.3|||Chi-squared, Corrected||Difference of incidence = atorvastatin minus usual care.|Treatment difference (%). Null hypothesis = no difference between the incidence rates in the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||6.3|-5.6|1.0000
92270390|NCT00728988|184442008|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.7896|TWO_SIDED|95.0|-9.7|6.5|||Chi-squared, Corrected||Difference of incidence = atorvastatin minus usual care .|Treatment difference (%). Null hypothesis = no difference between the incidence rates in the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||6.5|-9.7|0.7896
92270391|NCT00728988|184442009|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.4||||0.631|TWO_SIDED|95.0|-10.1|5.4|||Chi-squared, Corrected|||8 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||5.4|-10.1|0.631
92270392|NCT00728988|184442009|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3||||0.518|TWO_SIDED|95.0|-12.1|5.5|||Chi-squared, Corrected|||24 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||5.5|-12.1|0.518
92270393|NCT00728988|184442009|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3||||0.236|TWO_SIDED|95.0|-9.6|12.0|||Fisher Exact|||30 days post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. Fisher's exact test was applied because the expected frequency of biomarker elevation was less than 5.||12.0|-9.6|0.236
92270394|NCT00728988|184442010|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.9||||0.425|TWO_SIDED|95.0|-6.2|15.9|||Chi-squared, Corrected|||8 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||15.9|-6.2|0.425
92270395|NCT00728988|184442010|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.3||||0.392|TWO_SIDED|95.0|-6.1|16.7|||Chi-squared, Corrected|||24 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||16.7|-6.1|0.392
92270396|NCT00728988|184442010|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||1|TWO_SIDED|95.0|-10.7|10.9|||Fisher Exact|||30 days post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. Fisher's exact test was applied because the expected frequency of biomarker elevation was less than 5.||10.9|-10.7|1.000
92270397|NCT00728988|184442011|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.7||||0.529|TWO_SIDED|95.0|-9.6|4.3|||Chi-squared, Corrected|||8 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||4.3|-9.6|0.529
92270398|NCT00728988|184442011|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.827|TWO_SIDED|95.0|-5.8|3.6|||Chi-squared, Corrected|||24 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||3.6|-5.8|0.827
92270399|NCT00728988|184442011|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.616|TWO_SIDED|95.0|-10.3|11.5|||Fisher Exact|||30 days post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. Fisher's exact test was applied because the expected frequency of biomarker elevation was less than 5.||11.5|-10.3|0.616
92270400|NCT00728988|184442012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.53||||0.7554|TWO_SIDED|95.0|-215.87|156.81|||ANOVA|||8 hours post-PCI: difference (% change).||156.81|-215.87|0.7554
92270401|NCT00728988|184442012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|50.58||||0.7436|TWO_SIDED|95.0|-253.42|354.58|||ANOVA|||24 hours post-PCI: difference (% change).||354.58|-253.42|0.7436
92327687|NCT02453282|184560546|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.523|TWO_SIDED|95.0|0.836|1.421||The 2-sided p-value was calculated using a stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.421|0.836|0.523
92270402|NCT00728988|184442012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-58.22||||0.4741|TWO_SIDED|95.0|-218.12|101.68|||ANOVA|||30 days post-PCI: difference (% change).||101.68|-218.12|0.4741
92270403|NCT00116207|184442013|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED|||||p values were computed using a general linear model (ANOVA) adjusted at baseline for age, sex, HbA1c.|ANOVA|||BASELINE||||0.32
92270404|NCT00116207|184442013|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED|||||p values were computed using a general linear model (ANOVA) adjusted at baseline for age, sex, HbA1c.|ANOVA|||24-MONTH||||0.045
92270405|NCT00116207|184442014|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED|||||p values were computed using a general linear model (ANOVA) adjusted at baseline for age, sex, HbA1c.|ANOVA|||BASELINE||||0.52
92270406|NCT00116207|184442014|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED|||||p values were computed using a general linear model (ANOVA) adjusted at baseline for age, sex, HbA1c.|ANOVA|||24 MONTH||||0.82
92270407|NCT00116207|184442015|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|||||p values were computed using a general linear model adjusted at baseline for age, sex, HbA1c.|ANOVA|||24 MONTH||||0.24
92270408|NCT00116207|184442016|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|||||p values were computed using a general linear model (ANOVA) adjusted at baseline for age, sex, HbA1c.|ANOVA|||24 MONTH||||0.83
92270409|NCT00345969|184442100|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
92270410|NCT00345969|184442101|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||ANOVA|||||||0.55
92270411|NCT00345969|184442102|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||ANOVA|||||||0.23
92270412|NCT00345969|184442103|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||ANOVA|||||||0.43
92270413|NCT00345969|184442104|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||ANOVA|||||||0.33
92270414|NCT00345969|184442105|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED||||||ANOVA|||||||0.93
92270415|NCT00345969|184442106|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||ANOVA|||||||0.24
92270416|NCT00345969|184442107|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||ANOVA|||||||0.49
92270417|NCT00345969|184442108|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||ANOVA|||||||0.19
92270418|NCT00345969|184442109|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||ANOVA|||||||0.71
92270419|NCT00345969|184442110|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||ANOVA|||||||0.44
92270420|NCT00345969|184442111|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||ANOVA|||||||0.89
92270421|NCT00345969|184442112|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||ANOVA|||||||0.13
92270422|NCT00609115|184442113|SUPERIORITY||Effect size|0.65||||0.01|TWO_SIDED|97.5|||||ANCOVA|||||||0.010
92270423|NCT00609115|184442113|SUPERIORITY||Effect|0.71||||0.003|TWO_SIDED|95.0|||||ANCOVA|||||||0.003
92270424|NCT00609115|184442114|SUPERIORITY||Effect Size|0.0||||1|TWO_SIDED|95.0||||The reported p-value was calculated.|ANCOVA|||||||1.00
92270425|NCT00609115|184442114|SUPERIORITY||Effect Size|-0.29||||0.06|TWO_SIDED|95.0|||||ANCOVA|||||||0.06
92270426|NCT00609115|184442115|SUPERIORITY||Effect Size|0.33||||0.17|TWO_SIDED|95.0|||||ANCOVA|||||||0.17
92270427|NCT00609115|184442115|SUPERIORITY||Effect Size|0.4||||0.17|TWO_SIDED|95.0|||||ANCOVA|||||||0.17
92270428|NCT00609115|184442116|SUPERIORITY||Effect Size|0.05||||0.83|TWO_SIDED|95.0|||||ANCOVA|||||||0.83
92270429|NCT00609115|184442116|SUPERIORITY||Effect Size|-0.27||||0.83|TWO_SIDED|95.0|||||ANCOVA|||||||0.83
92270430|NCT00609115|184442117|SUPERIORITY||Effect Size|0.25||||0.28|TWO_SIDED|95.0|||||ANCOVA|||||||0.28
92270431|NCT00609115|184442117|SUPERIORITY||Effect Size|0.38||||0.09|TWO_SIDED|95.0|||||ANCOVA|||||||0.09
92270432|NCT00609115|184442118|SUPERIORITY||Effect Size|0.23||||0.18|TWO_SIDED|95.0|||||ANCOVA|||||||0.18
92270433|NCT00609115|184442118|SUPERIORITY||Effect Size|0.37||||0.1|TWO_SIDED|95.0|||||ANCOVA|||||||0.10
92270434|NCT00609115|184442119|SUPERIORITY||Effect Size|0.18||||0.45|TWO_SIDED|95.0|||||ANCOVA|||||||0.45
92270435|NCT00609115|184442119|SUPERIORITY||Effect Size|0.71||||0.003|TWO_SIDED|95.0|||||ANCOVA|||||||0.003
92270436|NCT00609115|184442120|SUPERIORITY||Effect Size|-0.17||||0.47|TWO_SIDED|95.0|||||ANCOVA|||||||0.47
92270437|NCT00609115|184442120|SUPERIORITY||Effect Size|0.77||||0.015|TWO_SIDED|95.0|||||ANCOVA|||||||0.015
92270438|NCT00609115|184442121|SUPERIORITY||Effect Size|0.48||||0.05|TWO_SIDED|95.0|||||ANCOVA|||||||0.05
92270439|NCT00609115|184442121|SUPERIORITY||Effect Size|0.56||||0.002|TWO_SIDED|95.0|||||ANCOVA|||||||0.002
92270440|NCT00609115|184442122|SUPERIORITY||Effect Size|0.26||||0.27|TWO_SIDED|95.0|||||ANCOVA|||||||0.27
92270441|NCT00609115|184442122|SUPERIORITY||Effect Size|0.45||||0.045|TWO_SIDED|95.0|||||ANCOVA|||||||0.045
92270442|NCT00902486|184442123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.0619|TWO_SIDED|95.0|0.77|6.15|||Cochran-Armitage trend test||LOGISTIC regression model for odds ratio estimates : LOGIT(Response 0/1) = Treatment + Biologics|The prespecified primary analysis for ACR 20 was the Cochran-Armitage trend test looking for a dose-response relationship. The treatment effect was also assessed using a logistic regression model including background therapy (more than 8 weeks of biologics or not) and treatment.||6.15|0.77|0.0619
92270443|NCT00902486|184442123|OTHER|||||||0.1978|||||||Fisher Exact|||Sensitivity analysis for pairwise comparisons of 4 mg QD versus placebo.||||0.1978
92270444|NCT00902486|184442123|OTHER|||||||0.0437|||||||Fisher Exact|||Sensitivity analysis for pairwise comparisons of 7 mg QD versus placebo.||||0.0437
92270445|NCT00902486|184442123|OTHER|||||||0.1236|||||||Fisher Exact|||Sensitivity analysis for pairwise comparisons of 10 mg QD versus placebo.||||0.1236
92270446|NCT00584831|184442184|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|0.16||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270447|NCT00584831|184442184|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hyposthesis is that visual acuity is the same for all lens types.||||0.02
92270448|NCT00584831|184442184|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.2||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270449|NCT00584831|184442184|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270450|NCT00584831|184442184|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270451|NCT00584831|184442184|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270452|NCT00584831|184442185|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.16||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270453|NCT00584831|184442185|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270454|NCT00584831|184442185|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270455|NCT00584831|184442185|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.19||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270456|NCT00584831|184442185|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.2||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270457|NCT00584831|184442185|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270458|NCT00584831|184442186|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|0.13||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270459|NCT00584831|184442186|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.15||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270460|NCT00584831|184442186|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270461|NCT00584831|184442186|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.15||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270462|NCT00584831|184442186|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270463|NCT00584831|184442186|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270464|NCT00584831|184442187|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270465|NCT00584831|184442187|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.19||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270466|NCT00584831|184442187|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.2||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270467|NCT00584831|184442187|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.15||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270468|NCT00584831|184442187|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270469|NCT00584831|184442187|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
92270470|NCT01211613|184442188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|STANDARD_DEVIATION|14.0||0.009|TWO_SIDED|95.0||||The p value above relates to the comparison of differences in baseline/4-week Oswestry change scores between manual and mechanical manipulation methods (primary hypothesis). A priori threshold for statistical significance was set at p \< 0.05.|Regression, Linear|Linear regression model was adjusted for these covariates: baseline Oswestry score, age, and treatment expectancy.||||||0.009
92270471|NCT01211613|184442189|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||The p value above relates to the comparison of differences in baseline/4-week Numeric pain change scores between manual and mechanical manipulation methods (secondary hypothesis). A priori threshold for statistical significance was set at p \< 0.05.|Regression, Linear|Linear regression model was adjusted for these covariates: baseline Numeric pain score, age, and treatment expectancy.||||||0.002
92270472|NCT03853213|184442190|SUPERIORITY||Mean difference (in change score)|2.54||||0.698|TWO_SIDED|95.0|-11.62|16.71|||t-test, 2 sided|The p-value is adjusted using the Satterthwaite correction due to unequal variances between the two groups.|A higher value of the estimation parameter of mean difference in change score indicates a greater reduction in the measure for the intervention group relative to the attention control group.|||16.71|-11.62|0.698
92270473|NCT03853213|184442191|SUPERIORITY||Mean Difference (Final Values)|-3.88||||0.123|TWO_SIDED|95.0|-9.0|1.24|||t-test, 2 sided||A lower value of the estimation parameter of mean difference indicates lower extent of medication nonadherence for the intervention relative to the control group.|Note that the measure of extent of medication nonadherence used the older 5-item version of the scale rather than the newer 3-item version of the scale because the IRB modification to change the measure took effect after the majority of participants who provided data for Visit 2 had completed the measure.||1.24|-9.00|0.123
92270474|NCT03853213|184442192|SUPERIORITY||Mean difference (in change score)|66.29||||0.965|TWO_SIDED|95.0|-3081.7|3214.3|||t-test, 2 sided|||||3214.3|-3081.7|0.965
92270475|NCT03853213|184442193|SUPERIORITY||Mean difference (in change score)|-6.17||||0.29|TWO_SIDED|95.0|-18.15|5.81|||t-test, 2 sided||A higher value of the estimation parameter of mean difference in change score indicates a greater increase in context sensitivity for the intervention group relative to the attention control group.|||5.81|-18.15|0.290
92270476|NCT03853213|184442194|SUPERIORITY||Mean difference (in change score)|-5.07||||0.434|TWO_SIDED|95.0|-18.51|8.38|||t-test, 2 sided||A higher value of the estimation parameter of mean difference in change score indicates a greater increase in future time perspective for the intervention group relative to the attention control group.|||8.38|-18.51|0.434
92270477|NCT03853213|184442195|SUPERIORITY||Mean Difference (Final Values)|17.05||||0.293|TWO_SIDED|95.0|-19.07|53.17|||t-test, 2 sided||A higher value of the estimation parameter of mean difference indicates a lower extent of objectively measured medication adherence for the intervention relative to the control group.|||53.17|-19.07|0.293
92270478|NCT02576054|184442221|NON_INFERIORITY|The statistical criterion for success requires that the lower bound of two-sided 95% confidence interval (CI) of GMT ratio between boys enrolled in V501-200 and men enrolled in the Phase III study V501-122 be greater than 0.5% for each HPV type|GMT Ratio|1.25|||<|0.001|TWO_SIDED|95.0|1.0|1.57|||ANOVA|Log-transformed data using an analysis of variance model with a term for age-group|GMT Ratio= GMT PN200 divided by GMT PN122|Anti-HPV 6||1.57|1.00|<0.001
92270479|NCT02576054|184442221|NON_INFERIORITY|The statistical criterion for success requires that the lower bound of two-sided 95% confidence interval (CI) of GMT ratio between boys enrolled in V501-200 and men enrolled in the Phase III study V501-122 be greater than 0.5% for each HPV type|GMT Ratio|2.3|||<|0.001|TWO_SIDED|95.0|1.89|2.78|||ANOVA|Log-transformed data using an analysis of variance model with a term for age-group|GMT Ratio = GMT PN200 divided by GMT PN122|Anti-HPV 11||2.78|1.89|<0.001
92270480|NCT02576054|184442221|NON_INFERIORITY|The statistical criterion for success requires that the lower bound of two-sided 95% CI of GMT ratio between boys enrolled in V501-200 and men enrolled in the Phase III study V501-122 be greater than 0.5% for each HPV type|GMT Ratio|1.69|||<|0.001|TWO_SIDED|95.0|1.35|2.11|||ANOVA|Log-transformed data using an analysis of variance model with a term for age-group|GMT Ratio= GMT PN200 divided by GMT PN122|Anti-HPV 16||2.11|1.35|<0.001
92270481|NCT02576054|184442221|NON_INFERIORITY|The statistical criterion for success requires that the lower bound of two-sided 95% CI of GMT ratio between boys enrolled in V501-200 and men enrolled in the Phase III study V501-122 be greater than 0.5% for each HPV type|GMT Ratio|3.05|||<|0.001|TWO_SIDED|95.0|2.33|3.99|||ANOVA|Log-transformed data using an analysis of variance model with a term for age-group|GMT Ratio= GMT PN200 divided by GMT PN122|Anti-HPV 18||3.99|2.33|<0.001
92270482|NCT00149669|184442226|SUPERIORITY||Odds Ratio (OR)|8.67|||<|0.01|TWO_SIDED|95.0|4.24|17.73|||General Estimating Equation (GEE)|||||17.73|4.24|<0.01
92270483|NCT00149669|184442227|SUPERIORITY||Odds Ratio (OR)|0.91||||0.82|TWO_SIDED|95.0|0.43|1.95|||General Estimating Equation (GEE)|||||1.95|.43|0.82
92270484|NCT00149669|184442228|SUPERIORITY||Odds Ratio (OR)|0.61|||=|0.19|TWO_SIDED|95.0|0.29|1.26|||General Estimating Equation (GEE)|||||1.26|0.29|=0.19
92270485|NCT00468312|184442257|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) extracted sources of variation due to treatment, variable specific baseline, and site.||||||<0.001
92270486|NCT00468312|184442258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) extracted sources of variation due to treatment, variable specific baseline, and site.||||||0.026
92270487|NCT00468312|184442259|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) extracted sources of variation due to treatment, variable specific baseline, and site.||||||<0.001
92270488|NCT00468312|184442260|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) extracted sources of variation due to treatment, variable specific baseline, and site.||||||<0.001
92270489|NCT00468312|184442261|SUPERIORITY_OR_OTHER_LEGACY|||||||0.269||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) extracted sources of variation due to treatment, variable specific baseline, and site.||||||0.269
92270490|NCT01818414|184442310|SUPERIORITY_OR_OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
92270491|NCT01818414|184442311|SUPERIORITY_OR_OTHER|||||||0.052|||||||t-test, 2 sided|||||||0.052
92270492|NCT00450177|184442324|OTHER|||||||0.03|||||||Chi-squared|||||||0.03
92270493|NCT01227954|184442363|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||To detect a minimum relative 50% improvement leading to an absolute 15% mean relative decline (MRD) in HVLT-R DR, 51 analyzable patients were required to ensure 80% statistical power with 0.05 alpha. Assuming a death rate of 40% before 4 months (based on trial NCT00003563) and a 10% nonevaluable rate, the target sample size was 102. The target MRD was determined from NCT00003563 which demonstrated 30% MRD in HVLT-R DR score from baseline to 4 months, with a standard deviation of 41%.||||<0.001
92327688|NCT02453282|184560547|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.194|TWO_SIDED|95.0|0.725|1.067||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.067|0.725|0.194
92327689|NCT02453282|184560547|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.952|TWO_SIDED|95.0|0.834|1.213||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.213|0.834|0.952
92270494|NCT01227954|184442366|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with FACT-Br total score (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and recursive partitioning analysis class (RPA) (I vs. II). Explanatory variables are reported separately and only if in the final model (p\< 0.10, except time forced in the model.). Intercept is reported here.||||<0.0001
92270495|NCT01227954|184442366|SUPERIORITY|||||||0.1961|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with FACT-Br total score (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Time is reported here.||||0.1961
92270496|NCT01227954|184442366|SUPERIORITY|||||||0.0715|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with FACT-Br total score (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Primary site (lung) is reported here.||||0.0715
92270497|NCT01227954|184442366|SUPERIORITY|||||||0.0554|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model with FACT-Br total score (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Neurologic status (no symptoms) is reported here.||||0.0554
92270498|NCT01227954|184442367|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with ADL (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Intercept is reported here.||||<0.0001
92270499|NCT01227954|184442367|SUPERIORITY|||||||0.1579|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with ADL (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Time is reported here.||||0.1579
92327690|NCT02453282|184560547|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.218|TWO_SIDED|95.0|0.931|1.371||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.371|0.931|0.218
92270500|NCT01227954|184442367|SUPERIORITY|||||||0.0559|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with ADL (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Neurologic function status (some symptoms) is reported here.||||0.0559
92270501|NCT01227954|184442367|SUPERIORITY|||||||0.0749|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with ADL (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Age (\>= 60) is reported here.||||0.0749
92270502|NCT04256759|184442417|SUPERIORITY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||Week 12||||0.018
92270503|NCT04256759|184442417|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||Week 18||||0.021
92270504|NCT04256759|184442418|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
92270505|NCT04256759|184442419|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
92270506|NCT03901352|184442430|SUPERIORITY||Difference of LSM vs placebo|-0.71|STANDARD_ERROR_OF_MEAN|0.187||0.0001|TWO_SIDED|95.0|-1.08|-0.34|||ANCOVA||"The multiple imputation (MI) was based on a nonfuture dependence model using the pattern mixture model (PMM) approach with shifting parameters under the missing not at random (MNAR0 mechanism for the missing weekly ADPS."|||-0.34|-1.08|0.0001
92270507|NCT02742818|184442493|OTHER|||||||0.19|||||||Generalized Estimation Equations (GEE)|Model assuming Gaussian distribution and AR-1 correlation structure, considering repeated measures in time.|||Through inference, changes in body temperature and proportional occurrence of hypothermia during surgery were evaluated using general models of estimating equations (GEE, Liang e Zeger, 1986). Binominal and normal distributions were taken into account, respectively, and assumptions for errors normalities were verified using residual plot graphs and fitted values. The significance of other associated factors and probable outcomes were verified, including gender, age, surgery type and total surgery duration, in minutes. Since analyses were longitudinal, AR-1 working correlation matrix was created.|||0.190
92270508|NCT02742818|184442494|OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.820
92270509|NCT02742818|184442495|OTHER|||||||0.529|||||||Chi-squared|||||||0.529
92327691|NCT02453282|184560548|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.602|TWO_SIDED|95.0|0.812|1.128||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.128|0.812|0.602
92327692|NCT02453282|184560548|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.43|TWO_SIDED|95.0|0.794|1.103||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.103|0.794|0.430
92327693|NCT02453282|184560548|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.802|TWO_SIDED|95.0|0.828|1.157||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.157|0.828|0.802
92270510|NCT02742818|184442496|OTHER|||||||0.999|||||||Chi-squared|||||||0.999
92270511|NCT02742818|184442497|OTHER|||||||0.462|||||||Wilcoxon (Mann-Whitney)|||||||0.462
92270512|NCT03193190|184442540|SUPERIORITY||Difference in ORR|18.06|||||TWO_SIDED|95.0|-25.6|61.71||||||||61.71|-25.60|
92270513|NCT03193190|184442540|SUPERIORITY||Difference in ORR|10.5|||||TWO_SIDED|95.0|-18.85|39.85||||||||39.85|-18.85|
92270514|NCT03193190|184442540|SUPERIORITY||Difference in ORR|-10.83|||||TWO_SIDED|95.0|-43.7|22.03||||||||22.03|-43.70|
92270515|NCT03193190|184442540|SUPERIORITY||Difference in Overall Response Rates|-5.79|||||TWO_SIDED|95.0|-30.58|18.99||||||||18.99|-30.58|
92270516|NCT03193190|184442540|SUPERIORITY||Difference in ORR|-7.5|||||TWO_SIDED|95.0|-34.19|19.19||||||||19.19|-34.19|
92270517|NCT03193190|184442540|SUPERIORITY||Difference in ORR|-8.7|||||TWO_SIDED|95.0|-25.96|8.57||||||||8.57|-25.96|
92270518|NCT03193190|184442540|SUPERIORITY||Difference in Overall Response Rates|-8.7|||||TWO_SIDED|95.0|-25.96|8.57||||||||8.57|-25.96|
92270519|NCT03193190|184442540|SUPERIORITY||Difference in ORR|-2.64|||||TWO_SIDED|95.0|-18.44|13.17||||||||13.17|-18.44|
92270520|NCT03193190|184442540|SUPERIORITY||Difference in ORR|-8.7|||||TWO_SIDED|95.0|-25.72|8.33||||||||8.33|-25.72|
92270521|NCT03193190|184442540|SUPERIORITY||Difference in ORR|-1.55|||||TWO_SIDED|95.0|-25.04|21.93||||||||21.93|-25.04|
92270522|NCT03193190|184442542|SUPERIORITY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.48|2.64||||||||2.64|0.48|
92270523|NCT03193190|184442542|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.66|2.08||||||||2.08|0.66|
92270524|NCT03193190|184442542|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.29|1.23||||||||1.23|0.29|
92270525|NCT03193190|184442542|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.67|1.89||||||||1.89|0.67|
92270526|NCT03193190|184442542|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.61|1.87||||||||1.87|0.61|
92270527|NCT03193190|184442542|SUPERIORITY||Hazard Ratio (HR)|2.13|||||TWO_SIDED|95.0|0.96|4.75||||||||4.75|0.96|
92270528|NCT03193190|184442542|SUPERIORITY||Hazard Ratio (HR)|3.63|||||TWO_SIDED|95.0|1.54|8.57||||||||8.57|1.54|
92270529|NCT03193190|184442542|SUPERIORITY||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.68|1.92||||||||1.92|0.68|
92270530|NCT03193190|184442542|SUPERIORITY||Hazard Ratio (HR)|1.48|||||TWO_SIDED|95.0|0.72|3.05||||||||3.05|0.72|
92270531|NCT03193190|184442542|SUPERIORITY||Hazard Ratio (HR)|1.74|||||TWO_SIDED|95.0|0.84|3.06||||||||3.06|0.84|
92270532|NCT03193190|184442543|SUPERIORITY||Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.59|3.0||||||||3.00|0.59|
92270533|NCT03193190|184442543|SUPERIORITY||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.71|2.29||||||||2.29|0.71|
92270534|NCT03193190|184442543|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.45|1.74||||||||1.74|0.45|
92270535|NCT03193190|184442543|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.58|1.68||||||||1.68|0.58|
92270536|NCT03193190|184442543|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.59|1.84||||||||1.84|0.59|
92270537|NCT03193190|184442543|SUPERIORITY||Hazard Ratio (HR)|2.04|||||TWO_SIDED|95.0|0.87|4.77||||||||4.77|0.87|
92270538|NCT03193190|184442543|SUPERIORITY||Hazard Ratio (HR)|1.32|||||TWO_SIDED|95.0|0.6|2.94||||||||2.94|0.60|
92270539|NCT03193190|184442543|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.48|1.6||||||||1.60|0.48|
92270540|NCT03193190|184442543|SUPERIORITY||Hazard Ratio (HR)|1.51|||||TWO_SIDED|95.0|0.68|3.36||||||||3.36|0.68|
92270541|NCT03193190|184442543|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.44|2.02||||||||2.02|0.44|
92270542|NCT03193190|184442544|SUPERIORITY||Difference in Event Free Rate|-31.51|||||TWO_SIDED|95.0|-66.07|3.04||||||||3.04|-66.07|
92270543|NCT03193190|184442544|SUPERIORITY||Difference in Event Free Rate|-3.59|||||TWO_SIDED|95.0|-22.55|15.37||||||||15.37|-22.55|
92270544|NCT03193190|184442544|SUPERIORITY||Difference in Event Free Rate|-7.07|||||TWO_SIDED|95.0|-30.52|16.38||||||||16.38|-30.52|
92270545|NCT03193190|184442544|SUPERIORITY||Difference in Event Free Rate|-14.52|||||TWO_SIDED|95.0|-32.72|3.68||||||||3.68|-32.72|
92270546|NCT03193190|184442544|SUPERIORITY||Difference in Event Free Rate|-0.4|||||TWO_SIDED|95.0|-17.38|16.57||||||||16.57|-17.38|
92270547|NCT03193190|184442544|SUPERIORITY||Difference in Event Free Rate|-50.98|||||TWO_SIDED|95.0|-83.51|-18.46||||||||-18.46|-83.51|
92270548|NCT03193190|184442544|SUPERIORITY||Difference in Event Free Rate|-36.8|||||TWO_SIDED|95.0|-70.43|-3.18||||||||-3.18|-70.43|
92270549|NCT03193190|184442544|SUPERIORITY||Difference in Event Free Rate|-26.79|||||TWO_SIDED|95.0|-49.39|-4.2||||||||-4.20|-49.39|
92270550|NCT03193190|184442544|SUPERIORITY||Difference in Event Free Rate|-35.43|||||TWO_SIDED|95.0|-67.44|-3.42||||||||-3.42|-67.44|
92270551|NCT03193190|184442544|SUPERIORITY||Difference in Event Free Rate|-28.76|||||TWO_SIDED|95.0|-60.94|3.42||||||||3.42|-60.94|
92270552|NCT03193190|184442545|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.24|3.51||||||||3.51|0.24|
92270553|NCT03193190|184442545|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.23|1.6||||||||1.60|0.23|
92270554|NCT03193190|184442545|SUPERIORITY||Hazard Ratio (HR)|1.56|||||TWO_SIDED|95.0|0.44|5.47||||||||5.47|0.44|
92270555|NCT03193190|184442545|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.35|2.44||||||||2.44|0.35|
92270556|NCT03193190|184442545|SUPERIORITY||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.24|1.93||||||||1.93|0.24|
92270557|NCT05004181|184442569|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the GMR was greater than 0.67.|Geometric mean ratio|13.12|||||TWO_SIDED|95.0|11.14|15.45|||||GMRs and 2-sided 95% CIs were based on the analysis of logarithmically transformed neutralizing titers using a linear regression model with terms of age, sex, and group.|||15.45|11.14|
92270558|NCT05004181|184442570|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the difference of percentages was greater than -10%.|Difference in Percentages|-4.55|||||TWO_SIDED|95.0|-10.04|0.83|||||Adjusted difference in percentages were estimated using minimum risk weights and stratified by sex and age group.|||0.83|-10.04|
92270559|NCT05004181|184442572|OTHER||Difference in Percentages|36.73|||||TWO_SIDED|95.0|19.21|51.17|||||Adjusted difference was estimated using the minimum risk weights and stratified by sex and age group.|||51.17|19.21|
92270560|NCT01607398|184442654|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-8.05||||0.5146|TWO_SIDED|95.0|-20.5|7.6|||Wilcoxon (Mann-Whitney)|The analysis was done using the Van Elteren extension to the Wilcoxon rank sum test.|From Van-Elteren extension to the Wilcoxon Rank Sum test, adjusted for smoking status strata and Hodges-Lehmann estimator of the 95% CI, not stratified and unadjusted for multiplicity.|||7.600|-20.500|0.5146
92270561|NCT02239692|184442674|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed by examining whether the upper limit of the 95% confidence interval is less than the specified non-inferiority margin of 1.5 points.|Adjusted estimated mean difference|-3.93|||<|0.0001|TWO_SIDED|95.0|-4.99|-2.87||p-value corresponds to a two-sided test of superiority.|ANCOVA|ANCOVA with treatment, country and time of colonoscopy (AM/PM) as factors.|Treatment difference in mean total Ottawa Scale score was calculated as PICOPREP tailored dosing schedule minus PICOPREP day-before dosing schedule.|Null hypothesis was no treatment difference between the two dosing schedules.||-2.87|-4.99|<0.0001
92270562|NCT02239692|184442675|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed by examining whether the upper limit of the 95% confidence interval is less than the specified non-inferiority margin of 1.5 points.|Adjusted estimated mean difference|-4.38|||<|0.0001|TWO_SIDED|95.0|-5.34|-3.41||p-value corresponds to a two-sided test of superiority.|ANCOVA|ANCOVA with treatment, country and time of colonoscopy (AM/PM) as factors.|Treatment difference in mean total Ottawa Scale score was calculated as PICOPREP tailored dosing schedule minus PICOPREP day-before dosing schedule.|Null hypothesis was no treatment difference between the two dosing schedules.||-3.41|-5.34|<0.0001
92270563|NCT02239692|184442676|SUPERIORITY_OR_OTHER||Adjusted estimated odds ratio|9.18|||<|0.0001|TWO_SIDED|95.0|4.36|19.32||p-value corresponds to a two-sided test of superiority.|Regression, Logistic|Logistic regression with the failure/success status as dependent variable, and treatment, country and timing of colonoscopy as factors.|The estimated odds ratio compares the odds of being a responder in the PICOPREP tailored dosing schedule vs. the PICOPREP day-before dosing schedule.|Null hypothesis was no treatment difference between the two dosing schedules.||19.32|4.36|<0.0001
92327694|NCT02453282|184560549|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.324|TWO_SIDED|95.0|0.667|1.143||The analysis was performed using stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.143|0.667|0.324
92270564|NCT01901146|184442683|EQUIVALENCE|The clinical equivalence between ABP 980 and trastuzumab was first evaluated by comparing the 2-sided 90% CI of the risk difference of pCR between ABP 980 and trastuzumab with a fixed margin of (-13%, 13%).|Risk Difference (RD)|7.3||||0.0508|TWO_SIDED|90.0|1.2|13.4|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||The clinical equivalence between ABP 980 and trastuzumab was first evaluated by comparing the 2-sided 90% confidence interval (CI) of the Risk Difference (RD; ABP 980 - Trastuzumab) of pCR between ABP 980 and trastuzumab with a fixed margin of (-13%, 13%), estimated using a generalized linear model adjusted for stratification factors tumor (T)-stage, nodal status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||13.4|1.2|0.0508
92270565|NCT01901146|184442683|EQUIVALENCE|If the test of equivalence on the RD of pCR was successful, then equivalence was tested on the risk ratio of pCR at a 2-sided significance level of 0.05 by comparing the 2-sided 90% CI of the RR of pCR between ABP 980 and trastuzumab estimated using a generalized linear model adjusted for stratification factors, with the margin of (0.7586, 1/0.7586). If the test of equivalence on the RD was not successful, the RR of pCR and 90% CI were considered to be descriptive.|Risk Ratio (RR)|1.1877||||0.043|TWO_SIDED|90.0|1.0327|1.366|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||If the test of equivalence on the RD of pCR was successful, then equivalence was tested on the Risk Ratio (RR; ABP 980 / Trastuzumab) of pCR at a 2-sided significance level of 0.05 by comparing the 2-sided 90% CI of the RR of pCR between ABP 980 and trastuzumab, estimated using a generalized linear model adjusted for stratification factors: tumor (T)-stage, nodal status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||1.3660|1.0327|0.0430
92270566|NCT01901146|184442684|OTHER|Analyses of secondary endpoints were prespecified to be considered descriptive only.|Risk Difference (RD)|6.0||||0.1086|TWO_SIDED|90.0|-0.2|12.2|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||The analysis of risk difference (ABP 980 - Trastuzumab) estimated using a generalized linear model adjusted for the randomization stratification factors T-stage, node status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||12.2|-0.2|0.1086
92270567|NCT01901146|184442684|OTHER|Analyses of secondary endpoints were prespecified to be considered descriptive only.|Risk Ratio (RR)|1.1463||||0.0807|TWO_SIDED|90.0|1.008|1.3035|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||The analysis of risk ratio (ABP 980 / Trastuzumab) estimated using a generalized linear model adjusted for the randomization stratification factors T-stage, node status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||1.3035|1.0080|0.0807
92270568|NCT01901146|184442685|OTHER|Analyses of secondary endpoints were prespecified to be considered descriptive only.|Risk Difference (RD)|8.0||||0.0253|TWO_SIDED|90.0|2.1|13.9|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||The analysis of risk difference (ABP 980 - Trastuzumab) estimated using a generalized linear model adjusted for the randomization stratification factors T-stage, node status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||13.9|2.1|0.0253
92270569|NCT01901146|184442685|OTHER|Analyses of secondary endpoints were prespecified to be considered descriptive only.|Risk Ratio (RR)|1.2746||||0.0245|TWO_SIDED|90.0|1.0673|1.5222|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||The analysis of risk ratio (ABP 980 / Trastuzumab) estimated using a generalized linear model adjusted for the randomization stratification factors T-stage, node status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||1.5222|1.0673|0.0245
92270570|NCT02675426|184442686|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|28.1|||<|0.001|TWO_SIDED|95.0|19.1|37.0||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||37.0|19.1|<0.001
92270571|NCT02675426|184442686|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|30.5|||<|0.001|TWO_SIDED|95.0|21.6|39.4||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||39.4|21.6|<0.001
92270572|NCT02675426|184442687|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|31.2|||<|0.001|TWO_SIDED|95.0|23.0|39.5||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||39.5|23.0|<0.001
92270573|NCT02675426|184442687|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|30.8|||<|0.001|TWO_SIDED|95.0|22.5|39.0||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||39.0|22.5|<0.001
92327695|NCT02453282|184560549|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.207|TWO_SIDED|95.0|0.911|1.541||The analysis was performed using stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.541|0.911|0.207
92270574|NCT02675426|184442688|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Least Squares (LS) Mean Difference|-1.18|||<|0.001|TWO_SIDED|95.0|-1.42|-0.94||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|Analysis of covariance (ANCOVA) model with treatment, prior bDMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.94|-1.42|<0.001
92270575|NCT02675426|184442688|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-1.32|||<|0.001|TWO_SIDED|95.0|-1.56|-1.08||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior bDMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-1.08|-1.56|<0.001
92270576|NCT02675426|184442689|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.43|-0.24||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior bDMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.24|-0.43|<0.001
92270577|NCT02675426|184442689|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-0.28|||<|0.001|TWO_SIDED|95.0|-0.38|-0.18||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior bDMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.18|-0.38|<0.001
92270578|NCT02675426|184442690|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|4.55|||<|0.001|TWO_SIDED|95.0|3.13|5.98||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.98|3.13|<0.001
92270579|NCT02675426|184442690|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|4.98|||<|0.001|TWO_SIDED|95.0|3.54|6.42||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.42|3.54|<0.001
92270580|NCT02675426|184442691|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|20.8|||<|0.001|TWO_SIDED|95.0|13.6|28.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||28.1|13.6|<0.001
92270581|NCT02675426|184442691|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|18.4|||<|0.001|TWO_SIDED|95.0|11.2|25.5||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||25.5|11.2|<0.001
92327696|NCT02453282|184560550|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.383|TWO_SIDED|95.0|0.894|1.339||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.339|0.894|0.383
92270582|NCT02675426|184442692|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|21.3|||<|0.001|TWO_SIDED|95.0|13.0|29.5||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||29.5|13.0|<0.001
92270583|NCT02675426|184442692|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|23.0|||<|0.001|TWO_SIDED|95.0|14.7|31.3||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||31.3|14.7|<0.001
92270584|NCT02675426|184442693|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-51.01|||<|0.001|TWO_SIDED|95.0|-78.14|-23.87||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-23.87|-78.14|<0.001
92270585|NCT02675426|184442693|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-50.86|||<|0.001|TWO_SIDED|95.0|-78.19|-23.53||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-23.53|-78.19|<0.001
92270586|NCT02675426|184442694|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|4.95|||<|0.001|TWO_SIDED|95.0|3.31|6.6||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.60|3.31|<0.001
92270587|NCT02675426|184442694|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|4.78|||<|0.001|TWO_SIDED|95.0|3.12|6.44||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.44|3.12|<0.001
92270588|NCT02675426|184442695|SUPERIORITY||Response Rate Difference|23.1|||<|0.001|TWO_SIDED|95.0|15.1|31.0||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||31.0|15.1|<0.001
92270589|NCT02675426|184442695|SUPERIORITY||Response Rate Difference|28.4|||<|0.001|TWO_SIDED|95.0|20.4|36.5||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||36.5|20.4|<0.001
92270590|NCT02675426|184442696|SUPERIORITY||Response Rate Difference|14.9|||<|0.001|TWO_SIDED|95.0|8.7|21.1||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||21.1|8.7|<0.001
92270591|NCT02675426|184442696|SUPERIORITY||Response Rate Difference|20.6|||<|0.001|TWO_SIDED|95.0|14.0|27.2||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||27.2|14.0|<0.001
92327697|NCT02453282|184560550|SUPERIORITY||Hazard Ratio (HR)|1.38||||0.001|TWO_SIDED|95.0|1.136|1.678||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.678|1.136|0.001
92327698|NCT02453282|184560550|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.138|TWO_SIDED|95.0|0.954|1.403||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.403|0.954|0.138
92270592|NCT02675426|184442697|SUPERIORITY||Response Rate Difference|13.6|||<|0.001|TWO_SIDED|95.0|7.0|20.2||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||20.2|7.0|<0.001
92270593|NCT02675426|184442697|SUPERIORITY||Response Rate Difference|19.7|||<|0.001|TWO_SIDED|95.0|12.7|26.7||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use|Response Rate Difference = Upadacitinib - Placebo|||26.7|12.7|<0.001
92270594|NCT00080288|184442712|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|||<|0.0001||95.0|1.67|3.69|||ANCOVA|||Assumption: both primary treatment comparisons would be with a 2 sided test at an alpha level of 0.05.||3.69|1.67|<0.0001
92270595|NCT00080288|184442713|SUPERIORITY_OR_OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|The p value for each treatment group is for the comparison of that treatment group to the placebo treatment group. Adjusted for country.||Assumption: both primary treatment comparisons would be with a 2 sided test at an alpha level of 0.05.||||0.0010
92270596|NCT00069160|184442716|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||||||>.05
92270597|NCT01875991|184442765|SUPERIORITY_OR_OTHER|||||||0.501|||||||Van Elteren test|P-value for 'All subjects' from Van Elteren test adjusting for strata (RA or PsO)||||||0.501
92270598|NCT04971226|184442782|SUPERIORITY||Risk Difference (RD)|18.88|||<|0.001|TWO_SIDED|95.0|9.59|28.17|||Mantel Haenszel||The Estimate Value is a percentage.||The Confidence Interval are percentages.|28.17|9.59|<0.001
92270599|NCT04971226|184442814|SUPERIORITY||Risk Difference (RD)|29.55|||<|0.001|TWO_SIDED|95.0|16.91|42.18|||Mantel Haenszel||The Estimate Value is a percentage.||The Confidence Interval are percentages.|42.18|16.91|<0.001
92270600|NCT03889197|184442848|SUPERIORITY|||||||0.162|||||||Kruskal-Wallis|||||||0.162
92270601|NCT03889197|184442849|SUPERIORITY|||||||0.242|||||||Kruskal-Wallis|||||||0.242
92270602|NCT03889197|184442850|SUPERIORITY|||||||0.956|||||||Kruskal-Wallis|||||||0.956
92270603|NCT03889197|184442851|SUPERIORITY|||||||0.132|||||||Kruskal-Wallis|||||||0.132
92270604|NCT03889197|184442852|SUPERIORITY|||||||0.445|||||||Kruskal-Wallis|||||||0.445
92270605|NCT03889197|184442853|SUPERIORITY|||||||0.746|||||||Kruskal-Wallis|||||||0.746
92270606|NCT03889197|184442854|SUPERIORITY|||||||0.979|||||||Kruskal-Wallis|||||||0.979
92270607|NCT03889197|184442855|SUPERIORITY|||||||0.289|||||||Chi-squared|||||||0.289
92270608|NCT03889197|184442856|SUPERIORITY|||||||0.94|||||||Kruskal-Wallis|||||||0.940
92270609|NCT03889197|184442857|SUPERIORITY|||||||0.126|||||||Chi-squared|||||||0.126
92270610|NCT03889197|184442858|SUPERIORITY|||||||0.738|||||||Fisher Exact|||||||0.738
92270611|NCT03889197|184442859|SUPERIORITY|||||||0.676|||||||Fisher Exact|||||||0.676
92270612|NCT03889197|184442860|SUPERIORITY|||||||0.996|||||||Kruskal-Wallis|||||||0.996
92327699|NCT02453282|184560551|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.015|TWO_SIDED|95.0|1.043|1.475||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.475|1.043|0.015
92270613|NCT03889197|184442861|SUPERIORITY|||||||0.095|||||||Kruskal-Wallis|||||||0.095
92270614|NCT03131817|184442940|OTHER|||||||0.007|||||||Mixed Models Analysis|||||||0.007
92270615|NCT03131817|184442941|OTHER|||||||0.018|||||||Mixed Models Analysis|||||||0.018
92270616|NCT03131817|184442942|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||"This statistical analysis corresponds to the first outcome row, Reward magnitude effect (higher reward, higher acceptance). The generalized linear mixed model examined the effect of reward magnitude on the probability of accepting offers."||||<0.0001
92270617|NCT03131817|184442942|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||"This statistical analysis corresponds to the second outcome row, Effort cost effect (higher effort, lower acceptance). The generalized linear mixed model examined the effect of effort cost on the probability of accepting offers."||||<0.0001
92270618|NCT05734014|184442991|OTHER||||||||||||||||||Qualitative Analysis of arts-based reflections. Thematic analysis and count of whether the participant drew or mentioned Crow stories related to relationality.|||
92270619|NCT00379821|184443004|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0413|STANDARD_ERROR_OF_MEAN|0.1746||0.8097|TWO_SIDED|95.0|0.7497|1.4463||The a priori threshold for statistical significance is 0.05/3.|Poisson regression|No adjustments|The denominator for the risk ratio is the CQ Monotherapy arm.|Number of clinical malaria episodes per PYAR was compared using Poisson regression assuming null hypothesis that the number of malaria episodes are the same in both groups.||1.4463|0.7497|0.8097
92270620|NCT00379821|184443004|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1623|STANDARD_ERROR_OF_MEAN|0.1973||0.3767|TWO_SIDED|95.0|0.8333|1.6211||The a priori threshold for statistical significance is 0.05/3.|Poisson regression|No adjustments.|The denominator for the risk ratio is the CQ Monotherapy arm.|Number of clinical malaria episodes per PYAR was compared using Poisson regression assuming null hypothesis that the number of malaria episodes are the same in both groups.||1.6211|0.8333|0.3767
92270621|NCT00379821|184443004|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0707|STANDARD_ERROR_OF_MEAN|0.1795||0.6277|TWO_SIDED|95.0|0.7708|1.4872||The a priori threshold for statistical significance is 0.05/3.|Poisson regression|No adjustments.|The denominator for the risk ratio is the CQ Monotherapy arm.|Number of clinical malaria episodes per PYAR was compared using Poisson regression assuming null hypothesis that the number of malaria episodes are the same in both groups.||1.4872|0.7708|0.6277
92270622|NCT00379821|184443038|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96|STANDARD_ERROR_OF_MEAN|0.17||0.79|TWO_SIDED|95.0|0.68|1.34||Not adjusted, 0.05|Regression, Cox|There are no adjustments.|The reference category is those who did not travel.|||1.34|0.68|0.79
92270623|NCT00633217|184443042|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 95% confidence interval for the mean difference in 2-hour post-dose FEV1 change from baseline fell above -75 mL, then HFA MDI could be deemed non-inferior to DISKUS treatment response.||||||0.021||95.0|||||ANCOVA|||||||0.021
92270624|NCT05838755|184443045|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Posterior Mean Difference|-0.65|||||TWO_SIDED|95.0|-1.47|0.18|||||Posterior mean difference with 95% credible interval is reported using Bayesian mixed model repeated measures analysis.|||0.18|-1.47|
92270625|NCT05838755|184443045|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Posterior Mean Difference|-0.22|||||TWO_SIDED|95.0|-1.04|0.61|||||Posterior mean difference with 95% credible interval is reported using Bayesian mixed model repeated measures analysis.|||0.61|-1.04|
92270626|NCT02044094|184443076|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|3.656|STANDARD_ERROR_OF_MEAN|1.85|||TWO_SIDED|95.0|-0.032|7.344|||||Hydromorphone - Placebo|"Week 1~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||7.344|-0.032|
92270627|NCT02044094|184443076|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|6.927|STANDARD_ERROR_OF_MEAN|1.848|||TWO_SIDED|95.0|3.243|10.612|||||Hydromorphone - Placebo|Week 1 Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05.||10.612|3.243|
92270628|NCT02044094|184443076|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|0.586|STANDARD_ERROR_OF_MEAN|1.283|||TWO_SIDED|95.0|-1.977|3.149|||||Hydromorphone - Placebo|"Week 2~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||3.149|-1.977|
92270629|NCT02044094|184443076|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|2.899|STANDARD_ERROR_OF_MEAN|1.285|||TWO_SIDED|95.0|0.333|5.465|||||Hydromorphone - Placebo|"Week 2~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||5.465|0.333|
92270630|NCT02044094|184443076|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|0.863|STANDARD_ERROR_OF_MEAN|1.959|||TWO_SIDED|95.0|-3.053|4.778|||||Hydromorphone - Placebo|"Week 3~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||4.778|-3.053|
92270631|NCT02044094|184443076|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|4.926|STANDARD_ERROR_OF_MEAN|1.956|||TWO_SIDED|95.0|1.016|8.837|||||Hydromorphone - Placebo|"Week 3~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||8.837|1.016|
92270632|NCT02044094|184443076|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|3.316|STANDARD_ERROR_OF_MEAN|2.367|||TWO_SIDED|95.0|-1.425|8.025|||||Hydromorphone - Placebo|"Week 4~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||8.025|-1.425|
92270633|NCT02044094|184443076|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|6.677|STANDARD_ERROR_OF_MEAN|2.367|||TWO_SIDED|95.0|1.936|11.418|||||Hydromorphone - Placebo|"Week 4~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||11.418|1.936|
92270634|NCT01238172|184443097|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.76|TWO_SIDED|95.0|0.75|1.24|||Log Rank|||||1.24|0.75|0.76
92270635|NCT01238172|184443098|SUPERIORITY||Hazard Ratio (HR)|1.41||||0.71|TWO_SIDED|95.0|0.23|8.41|||Log Rank|||||8.41|0.23|0.71
92270636|NCT01238172|184443099|SUPERIORITY|||||||0.995|||||||Wilcoxon (Mann-Whitney)|||||||0.995
92327700|NCT02453282|184560551|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.01|TWO_SIDED|95.0|1.054|1.485||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.485|1.054|0.010
92270637|NCT01238172|184443100|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|Two-sided||||||<0.001
92270638|NCT01020773|184443117|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
92270639|NCT03302299|184443120|SUPERIORITY||Odds Ratio (OR)|1.59|||<|0.01|TWO_SIDED|95.0|0.94|2.71||global p-value for 3-category alcohol use variable in a multivariable generalized estimating equation logistic regression model of sub-optimal INH adherence.|Regression, Logistic||OR for participants with moderate alcohol use in the prior 3 months, compared to those with no alcohol use in the prior 3 months.|||2.71|0.94|<0.01
92270640|NCT03302299|184443120|SUPERIORITY||Odds Ratio (OR)|2.78|||<|0.01|TWO_SIDED|95.0|1.62|4.76||global p-value for 3-category alcohol use variable in a multivariable generalized estimating equation logistic regression model of sub-optimal INH adherence.|Regression, Logistic||OR is for participants with unhealthy alcohol use in the prior 3 months, compared to those with no alcohol use in the prior 3 months.|||4.76|1.62|<0.01
92270641|NCT01788163|184443166|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|81.1237||||0.0001||||||Histology: Adenocarcinoma vs Non-adenocarcinoma|Regression stepwise|10% significance level for entry criteria||||||0.0001
92270642|NCT01788163|184443166|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.973||||0.0001||||||Histology: Adenocarcinoma vs Non-adenocarcinoma|Regression stepwise|10% significance level for model entry||||||0.0001
92270643|NCT01788163|184443166|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|7.1526||||0.0075||||||Gender: Male vs. Female|Regression Stepwise|10% significance level for entry criteria||||||0.0075
92270644|NCT01788163|184443166|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.409||||0.0075||||||Gender: Male vs. Female|Regression Stepwise|10% Significance Level for model entry||||||0.0075
92270645|NCT01788163|184443166|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|51.8456||||0.0001||||||Smoking Status: Never-smoker vs. Ever-smoker|Regression Stepwise|10% significance level for entry criteria||||||0.0001
92270646|NCT01788163|184443166|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.515||||0.0001||||||Smoking Status: Never-smoker vs. Ever-smoker|Regression Stepwise|10% Significance Level for model entry||||||0.0001
92270647|NCT01788163|184443166|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|98.1065||||0.0001||||||Region: Asia Pacific vs. Russia|Regression Stepwise|10% Significance Level for entry criteria||||||0.0001
92270648|NCT01788163|184443166|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.929||||0.0001||||||Region: Asia Pacific vs. Russia|Regression Stepwise|10% Significance Level for model entry||||||0.0001
92270649|NCT01788163|184443166|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|2.8589||||0.0909||||||Number of organs with metastasis|Regression Stepwise|10% significance level for entry criteria||||||0.0909
92270650|NCT01788163|184443166|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.086||||0.0909||||||Number of organs with metastasis|Regression Stepwise|10% significance level for model entry||||||0.0909
92270651|NCT01788163|184443169|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|11.106||||0.0009||||||Age: \<=65 vs. \>65|Regression Stepwise|10% Significance Level for entry criteria||||||0.0009
92270652|NCT01788163|184443169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.561||||0.0009||||||Age: \<=65 vs. \>65|Regression Stepwise|10% Significance Level for model entry||||||0.0009
92270653|NCT01788163|184443169|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|34.1075||||0.0001||||||Number of Organs with Metastisis|Regression Stepwise|10% Significance Level for entry criteria||||||0.0001
92270654|NCT01788163|184443169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.386||||0.0001||||||Number of Organs with Metastisis|Regression Stepwise|10% significance level for model entry||||||0.0001
92270655|NCT01788163|184443169|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|14.0806||||0.0002||||||Histology: Adenocarcinoma vs. Non-adenocarcinoma|Regression Stepwise|10% Significance Level for entry criteria||||||0.0002
92270656|NCT01788163|184443169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.955||||0.0002||||||Histology: Adenocarcinoma vs. Non-adenocarcinoma|Regression Stepwise|10% Significance Level for model entry||||||0.0002
92270657|NCT01788163|184443169|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|33.8574||||0.0001||||||Smoking Status: Never-smoker vs. Ever-smoker|Regression Stepwise|10% Significance Level for entry criteria||||||0.0001
92270658|NCT01788163|184443169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.077||||0.0001||||||Smoking Status: Never-smoker vs. Ever-smoker|Regression Stepwise|10% Significance Level for model entry||||||0.0001
92270659|NCT01788163|184443169|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|21.2537||||0.0001||||||Region: Asia Pacific vs. Russia|Regression Stepwise|10% Significance Level for entry criteria||||||0.0001
92270660|NCT01788163|184443169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.084||||0.0001||||||Region: Asia Pacific vs. Russia|Regression Stepwise|10% Significance Level for model entry||||||0.0001
92270661|NCT03610646|184443174|EQUIVALENCE|An equivalence margin of \[-3, 3\] letters was used to demonstrate equivalence for the difference of mean change in BCVA, from baseline to Week 8.|Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|90.0|-1.16|1.24||||||||1.24|-1.16|
92270662|NCT04318535|184443194|EQUIVALENCE|Bioequivalence was to be determined if the 90% confidence interval of the geometric least square mean ratio of Cmax falls within the 0.80-1.25 range.|Ratio of geometric least square mean|1.157|||||TWO_SIDED|90.0|1.103|1.213|||||T1 versus R was the primary interest of comparison for this outcome measure.|||1.213|1.103|
92270663|NCT04318535|184443195|EQUIVALENCE|Bioequivalence was to be determined if the 90% confidence interval of the geometric least square mean ratio of AUC(0-t) falls within the 0.80-1.25 range.|Ratio of geometric least square mean|1.032|||||TWO_SIDED|90.0|0.974|1.094|||||T1 versus R was the primary interest of comparison for this outcome measure.|||1.094|0.974|
92270664|NCT04318535|184443196|EQUIVALENCE|Bioequivalence was to be determined if the 90% confidence interval of the geometric least square mean ratio of AUC(0-inf) falls within the 0.80-1.25 range.|Ratio of geometric least square mean|1.03|||||TWO_SIDED|90.0|0.971|1.093|||||T1 versus R was the primary interest of comparison for this outcome measure.|||1.093|0.971|
92270665|NCT02007369|184443226|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.21||||0.033|TWO_SIDED|95.0|0.05|0.89|||Regression, Logistic|||||0.89|0.05|0.033
92270666|NCT02007369|184443226|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.934|TWO_SIDED|95.0|0.36|3.01|||Regression, Logistic|||||3.01|0.36|0.934
92270667|NCT02007369|184443227|SUPERIORITY_OR_OTHER|||||||0.002|||||||Fisher Exact|||||||0.002
92270668|NCT02007369|184443227|SUPERIORITY_OR_OTHER|||||||0.199|||||||Fisher Exact|||||||0.199
92270669|NCT02007369|184443228|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.285|TWO_SIDED|95.0|0.25|1.5|||Regression, Logistic|||||1.50|0.25|0.285
92270670|NCT02007369|184443228|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.597|TWO_SIDED|95.0|0.31|1.97|||Regression, Logistic|||||1.97|0.31|0.597
92270671|NCT02007369|184443229|SUPERIORITY_OR_OTHER|||||||0.023|||||||Fisher Exact|||||||0.023
92270672|NCT02007369|184443229|SUPERIORITY_OR_OTHER|||||||0.527|||||||Fisher Exact|||||||0.527
92270673|NCT00297492|184443230|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||Statistical significance was determined by a two-sided p value less than 0.05.|Chi-squared|Degrees of freedom = 2||"Null hypothesis: prolonged abstinence from smoking is the same for the three groups at 6 month follow-up~Sample size was based on an assumption of 6 month abstinence of 25% in the gradual group, 15% in the abrupt group, and 10% in the minimal group. Sample sizes of 300, 300, and 150 for gradual, abrupt, and minimal provides 97% to detect a difference between the groups, with 2-sided alpha = 0.05."||||0.30
92270674|NCT00297492|184443230|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59|||||TWO_SIDED|95.0|0.28|1.22|||||The reported odds ratio represents the odds of 6 month prolonged abstinence in the gradual reduction group divided by the odds of 6 month prolonged abstinence in the abrupt cessation group.|||1.22|0.28|
92270675|NCT00883740|184443306|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.15|||<|0.0001|TWO_SIDED|95.0|-26.69|-11.61||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||-11.61|-26.69|<0.0001
92270676|NCT00883740|184443307|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.54|||<|0.0001|TWO_SIDED|95.0|-23.29|-11.8||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||-11.80|-23.29|<0.0001
92270677|NCT00883740|184443308|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.81||||0.3841|TWO_SIDED|95.0|-5.92|2.3||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||2.30|-5.92|0.3841
92270678|NCT00883740|184443309|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.54|||<|0.0001|TWO_SIDED|95.0|17.48|33.61||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||33.61|17.48|<0.0001
92270679|NCT00883740|184443310|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.42|||<|0.0001|TWO_SIDED|95.0|3.74|7.11||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||7.11|3.74|<0.0001
92270680|NCT00883740|184443311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.41||||0.0135|TWO_SIDED|95.0|-4.31|-0.51||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||-0.51|-4.31|0.0135
92270681|NCT00883740|184443312|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.53||||0.0008|TWO_SIDED|95.0|-2.41|-0.66||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||-0.66|-2.41|0.0008
92270682|NCT00883740|184443313|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.18||||0.0447|TWO_SIDED|95.0|-14.18|-0.17||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||-0.17|-14.18|0.0447
92270683|NCT00883740|184443314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.34||||0.3613|TWO_SIDED|95.0|-1.07|0.39||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 1||0.39|-1.07|0.3613
92270684|NCT00883740|184443314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0686|TWO_SIDED|95.0|-2.29|0.09||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 2||0.09|-2.29|0.0686
92270685|NCT00883740|184443314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.44||||0.0009|TWO_SIDED|95.0|-3.85|-1.03||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 3||-1.03|-3.85|0.0009
92270686|NCT00883740|184443314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.52||||0.0002|TWO_SIDED|95.0|-5.33|-1.71||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 4||-1.71|-5.33|0.0002
92270687|NCT00883740|184443314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.01||||0.0065|TWO_SIDED|95.0|-5.16|-0.86||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 5||-0.86|-5.16|0.0065
92270688|NCT00883740|184443314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.89||||0.0024|TWO_SIDED|95.0|-6.36|-1.41||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 6||-1.41|-6.36|0.0024
92270689|NCT00883740|184443314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.59||||0.0366|TWO_SIDED|95.0|-5.01|-0.16||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 7||-0.16|-5.01|0.0366
92270690|NCT00883740|184443314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.85||||0.0593|TWO_SIDED|95.0|-5.82|0.11||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 8||0.11|-5.82|0.0593
92270691|NCT00883740|184443315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.25||||0.1106|TWO_SIDED|95.0|-2.79|0.29||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Quarter 1||0.29|-2.79|0.1106
92270692|NCT00883740|184443315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.0|||<|0.0001|TWO_SIDED|95.0|-8.49|-3.51||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Quarter 2||-3.51|-8.49|<0.0001
92270693|NCT00883740|184443315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.83||||0.0004|TWO_SIDED|95.0|-10.53|-3.13||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Quarter 3||-3.13|-10.53|0.0004
92270694|NCT00883740|184443315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.44||||0.0199|TWO_SIDED|95.0|-10.0|-0.88||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Quarter 4||-0.88|-10.00|0.0199
92270695|NCT00883740|184443316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.14||||0.0024|TWO_SIDED|95.0|0.78|3.5||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||3.50|0.78|0.0024
92270696|NCT00883740|184443317|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.13||||0.0591|TWO_SIDED|95.0|-16.59|0.32||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 5||0.32|-16.59|0.0591
92270697|NCT00883740|184443317|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.81|||<|0.0001|TWO_SIDED|95.0|-27.43|-10.2||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 11||-10.20|-27.43|<0.0001
92270698|NCT00883740|184443318|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.47||||0.1101|TWO_SIDED|95.0|-12.2|1.26||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 5||1.26|-12.20|0.1101
92270699|NCT00883740|184443318|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.39||||0.0002|TWO_SIDED|95.0|-20.36|-6.42||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 11||-6.42|-20.36|0.0002
92270700|NCT00883740|184443319|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.91|||<|0.0001|TWO_SIDED|95.0|0.58|1.24||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 1||1.24|0.58|<0.0001
92270701|NCT00883740|184443319|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.14|||<|0.0001|TWO_SIDED|95.0|0.76|1.53||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 2||1.53|0.76|<0.0001
92270702|NCT00883740|184443319|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.87|||<|0.0001|TWO_SIDED|95.0|0.46|1.28||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 3||1.28|0.46|<0.0001
92270703|NCT00883740|184443319|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.89|||<|0.0001|TWO_SIDED|95.0|0.51|1.26||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 4||1.26|0.51|<0.0001
92270704|NCT00883740|184443320|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.66||||0.0001|TWO_SIDED|95.0|-11.44|-3.89||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 1||-3.89|-11.44|0.0001
92270705|NCT00883740|184443320|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.67||||0.0077|TWO_SIDED|95.0|-13.27|-2.07||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 2||-2.07|-13.27|0.0077
92270706|NCT00883740|184443320|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.68||||0.2196|TWO_SIDED|95.0|-14.81|3.44||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 3||3.44|-14.81|0.2196
92270707|NCT00883740|184443320|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.18||||0.0081|TWO_SIDED|95.0|-10.73|-1.64||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 4||-1.64|-10.73|0.0081
92270708|NCT00883740|184443321|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|||<|0.0001|TWO_SIDED|95.0|-1.02|-0.37||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 1||-0.37|-1.02|<0.0001
92270709|NCT00883740|184443321|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71||||0.0001|TWO_SIDED|95.0|-1.06|-0.36||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 2||-0.36|-1.06|0.0001
92270710|NCT00883740|184443321|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59||||0.0014|TWO_SIDED|95.0|-0.95|-0.24||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 3||-0.24|-0.95|0.0014
92327701|NCT02453282|184560551|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.984|TWO_SIDED|95.0|0.845|1.179||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.179|0.845|0.984
92327702|NCT02453282|184560552|SUPERIORITY||Odds Ratio (OR)|0.91||||0.698|TWO_SIDED|95.0|0.582|1.437||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.437|0.582|0.698
92270711|NCT00883740|184443321|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.52||||0.0084|TWO_SIDED|95.0|-0.9|-0.14||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 4||-0.14|-0.90|0.0084
92270712|NCT00883740|184443322|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.27|||<|0.0001|TWO_SIDED|95.0|-27.02|-9.52||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 1||-9.52|-27.02|<0.0001
92270713|NCT00883740|184443322|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.06||||0.0002|TWO_SIDED|95.0|-24.24|-7.87||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 2||-7.87|-24.24|0.0002
92270714|NCT00883740|184443322|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.23||||0.0085|TWO_SIDED|95.0|-23.01|-3.46||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 3||-3.46|-23.01|0.0085
92327703|NCT02453282|184560552|SUPERIORITY||Odds Ratio (OR)|0.87||||0.534|TWO_SIDED|95.0|0.549|1.363||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.363|0.549|0.534
92270715|NCT00883740|184443322|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.25||||0.0102|TWO_SIDED|95.0|-18.01|-2.48||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 4||-2.48|-18.01|0.0102
92270716|NCT00883740|184443323|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|24.82|||<|0.0001|TWO_SIDED|95.0|13.25|36.4||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 1||36.40|13.25|<0.0001
92270717|NCT00883740|184443323|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.4|||<|0.0001|TWO_SIDED|95.0|18.59|40.21||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 2||40.21|18.59|<0.0001
92270718|NCT00883740|184443323|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|26.79|||<|0.0001|TWO_SIDED|95.0|15.37|38.21||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 3||38.21|15.37|<0.0001
92270719|NCT00883740|184443323|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.44|||<|0.0001|TWO_SIDED|95.0|15.03|35.86||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 4||35.86|15.03|<0.0001
92270720|NCT00396981|184443342|NON_INFERIORITY_OR_EQUIVALENCE|This study used a non-inferiority design to demonstrate that the Matrix Coil is non-inferior to the GDC Coil, with a clinically acceptable non-inferiority margin set at 10%. Non-inferiority was used to establish the baseline estimate, which future superiority studies could be conducted. Non-inferiority was shown with a one-sided 95% CI of the difference less than the pre-specified 10% margin||||||0.76|||||||Log Rank|||Intent-to-Treat, All Subjects (N=626) GDC (N=315) Matrix (N=311) All Subjects (N=626) Subjects Who Met Primary Endpoint 35 (11.1%) 34 (10.9%) 69 (11.0%)||||0.76
92270721|NCT02494583|184443349|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.03918|TWO_SIDED|95.0|0.7|1.02||One-sided p-value based on log-rank test with stratification.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|PFS in CPS ≥1 participants of the pembro combo arm was compared to PFS in CPS ≥1 participants of the SOC arm to address the first primary hypothesis (superiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and fluoropyrimidine treatment.||1.02|0.70|0.03918
92270722|NCT02494583|184443350|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.04611|TWO_SIDED|95.0|0.7|1.03||One-sided p-value based on log-rank test with stratification.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|OS in CPS ≥1 participants of the pembro combo arm was compared to OS in CPS ≥1 participants of the SOC arm to address the second primary hypothesis (superiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and Fluoropyrimidine treatment.||1.03|0.70|0.04611
92270723|NCT02494583|184443351|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.15804|TWO_SIDED|95.0|0.62|1.17||One-sided p-value based on log-rank test with stratification.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|OS in CPS ≥10 participants of the pembro combo arm was compared to OS in CPS ≥10 participants of the SOC arm to address the third primary hypothesis (superiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and Fluoropyrimidine treatment.||1.17|0.62|0.15804
92327704|NCT02453282|184560552|SUPERIORITY||Odds Ratio (OR)|0.95||||0.82|TWO_SIDED|95.0|0.601|1.496||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.496|0.601|0.820
92270724|NCT02494583|184443352|NON_INFERIORITY|Pre-specified non-inferiority margin: if the upper bound of the confidence interval (based on the alpha level allocated to the analysis) for the hazard ratio (\[HR\], pembro mono arm vs SOC) is \< 1.2, the pembro mono arm could be considered as non-inferior to the SOC arm in terms of OS.|Hazard Ratio (HR)|0.91|||||TWO_SIDED|99.2|0.69|1.18|||||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|OS in CPS ≥1 participants of the pembro mono arm was compared to OS in CPS ≥1 participants of the SOC arm to address the fourth primary hypothesis (non-inferiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and Fluoropyrimidine treatment.||1.18|0.69|
92327705|NCT02453282|184560553|SUPERIORITY||Odds Ratio (OR)|0.69||||0.05|TWO_SIDED|95.0|0.48|1.0||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.000|0.480|0.050
92327706|NCT02453282|184560553|SUPERIORITY||Odds Ratio (OR)|0.67||||0.029|TWO_SIDED|95.0|0.464|0.959||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||0.959|0.464|0.029
92270725|NCT02494583|184443352|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.16205|TWO_SIDED|95.0|0.74|1.1||One-sided p-value based on log-rank test with stratification.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|OS in CPS ≥1 participants of the pembro mono arm was compared to OS in CPS ≥1 participants of the SOC arm to address the fifth primary hypothesis (superiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and Fluoropyrimidine treatment.||1.10|0.74|0.16205
92270726|NCT02494583|184443353|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.01491|TWO_SIDED|95.0|0.49|0.97||One-sided p-value based on log-rank test with stratification.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|OS in CPS ≥10 participants of the pembro mono arm was compared to OS in CPS ≥10 participants of the SOC arm to address the sixth primary hypothesis (superiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and Fluoropyrimidine treatment.||0.97|0.49|0.01491
92270727|NCT02494583|184443354|OTHER||Difference in ORR Percentage|11.5||||0.00447|TWO_SIDED|95.0|2.9|20.0||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|ORR in CPS ≥1 participants of the pembro combo arm was compared to ORR in CPS ≥1 participants of the SOC arm based on Miettinen \& Nurminen method stratified by geographic region, disease status, and Fluoropyrimidine treatment.||20.0|2.9|0.00447
92270728|NCT02494583|184443356|OTHER||Difference in ORR Percentage|-22.3|||>|0.99999|TWO_SIDED|95.0|-29.6|-14.9||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|ORR in CPS ≥1 participants of the pembro mono arm was compared to ORR in CPS ≥1 participants of the SOC arm based on Miettinen \& Nurminen method stratified by geographic region, disease status, and Fluoropyrimidine treatment.||-14.9|-29.6|>0.99999
92270729|NCT02494583|184443358|OTHER||Hazard Ratio (HR)|1.64||||1|TWO_SIDED|95.0|1.36|1.98||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|PFS in CPS ≥1 participants of the pembro mono arm was compared to PFS in CPS ≥1 participants of the SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and fluoropyrimidine treatment.||1.98|1.36|1.00000
92270730|NCT02494583|184443359|OTHER||Difference in LS Means|-0.16||||0.948|TWO_SIDED|95.0|-5.01|4.69||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|cLDA||Stratified analyses could be based on collapsing strata with insufficient number of participants or events; strata were pooled in some cases based on clinical judgement and actual counts.|Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro mono arm and the SOC arm. Comparison based on constrained longitudinal data analysis (cLDA) model with GHS/QoL score as response variable and treatment by visit interaction and stratification factors (geographic region, disease status, and fluoropyrimidine treatment) as covariates.||4.69|-5.01|0.948
92270731|NCT02494583|184443360|OTHER||Difference in LS Means|1.98||||0.368|TWO_SIDED|95.0|-2.34|6.31||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|cLDA||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro combo arm and the SOC arm. Comparison based on cLDA model with GHS/QoL score as response variable and treatment by visit interaction and stratification factors (geographic region, disease status, and fluoropyrimidine treatment) as covariates.||6.31|-2.34|0.368
92270732|NCT02494583|184443361|OTHER||Difference in LS Means|2.35||||0.308|TWO_SIDED|95.0|-2.18|6.89||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|cLDA||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|Change from baseline to Week 18 in EORTC-QLQ-STO22 Pain symptom subscale score was compared between all participants of the pembro mono arm and the SOC arm. Comparison based on cLDA model with GHS/QoL score as response variable and treatment by visit interaction and stratification factors (geographic region, disease status, and fluoropyrimidine treatment) as covariates.||6.89|-2.18|0.308
92270733|NCT02494583|184443362|OTHER||Difference in LS Means|-6.56||||0.001|TWO_SIDED|95.0|-10.55|-2.58||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|cLDA||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|Change from baseline to Week 18 in EORTC-QLQ-STO22 Pain symptom subscale score was compared between all participants of the pembro combo arm and the SOC arm. Comparison based on cLDA model with GHS/QoL score as response variable and treatment by visit interaction and stratification factors (geographic region, disease status, and fluoropyrimidine treatment) as covariates.||-2.58|-10.55|0.001
92327707|NCT02453282|184560553|SUPERIORITY||Odds Ratio (OR)|0.97||||0.887|TWO_SIDED|95.0|0.661|1.43||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.430|0.661|0.887
92270734|NCT02617446|184443411|SUPERIORITY||Mean Difference (Final Values)|-3.0||||0.029|TWO_SIDED|95.0|-5.68|-0.32||Alpha set at 0.05.|ANOVA|Treatment term included in the model||Null hypothesis: No difference in E/Ea ratio between istaroxime and placebo||-0.32|-5.68|0.029
92270735|NCT02617446|184443411|SUPERIORITY||Mean Difference (Final Values)|-2.08||||0.009|TWO_SIDED|95.0|-3.61|-0.55||Alpha set at 0.05.|ANOVA|Treatment term included in the model||Null hypothesis: No difference in E/Ea ratio between istaroxime and placebo||-0.55|-3.61|0.009
92270736|NCT02617446|184443412|SUPERIORITY||Mean Difference (Final Values)|1.7632||||0.089|TWO_SIDED|95.0|-0.2751|3.8014||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term included in the model||Null hypothesis: No difference in LVEF % between istaroxime and placebo participants.||3.8014|-0.2751|0.089
92270737|NCT02617446|184443412|SUPERIORITY||Mean Difference (Final Values)|0.9848||||0.423|TWO_SIDED|95.0|-1.4668|3.4365||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term included in the model||Null hypothesis: No difference in LVEF % between istaroxime and placebo participants.||3.4365|-1.4668|0.423
92270738|NCT02617446|184443413|SUPERIORITY||Mean Difference (Final Values)|3.684||||0.034|TWO_SIDED|95.0|0.285|7.083||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model.||Null hypothesis: No difference in SVI between istaroxime and placebo participants.||7.083|0.285|0.034
92270739|NCT02617446|184443413|SUPERIORITY||Mean Difference (Final Values)|2.31||||0.09|TWO_SIDED|95.0|-0.373|4.992||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model||Null hypothesis: No difference in E to A ratio between istaroxime and placebo participants.||4.992|-0.373|0.090
92270740|NCT02617446|184443414|SUPERIORITY||Mean Difference (Final Values)|-0.777||||0.042|TWO_SIDED|95.0|-1.522|-0.032||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is included in the model||Null hypothesis: No difference in E to A ratio between istaroxime and placebo participants.||-0.032|-1.522|0.042
92270741|NCT02617446|184443414|SUPERIORITY||Mean Difference (Final Values)|-0.829||||0.029|TWO_SIDED|95.0|-1.568|-0.091||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model||Null hypothesis: No difference in E to A ratio between istaroxime and placebo participants.||-0.091|-1.568|0.029
92270742|NCT02617446|184443415|SUPERIORITY||Mean Difference (Final Values)|-5.368||||0.11|TWO_SIDED|95.0|-11.999|1.262||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model||Null hypothesis: No difference in LVESV between istaroxime and placebo participants.||1.262|-11.999|0.110
92270743|NCT02617446|184443415|SUPERIORITY||Mean Difference (Final Values)|0.439||||0.931|TWO_SIDED|95.0|-9.735|10.614||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model||Null hypothesis: No difference in LVEDV between istaroxime and placebo participants.||10.614|-9.735|0.931
92270744|NCT02617446|184443416|SUPERIORITY||Mean Difference (Final Values)|-1.657||||0.589|TWO_SIDED|95.0|-7.777|4.461||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term in the model||Null hypothesis: No difference in E to A ratio between istaroxime and placebo participants.||4.461|-7.777|0.589
92270745|NCT02617446|184443416|SUPERIORITY||Mean Difference (Final Values)|3.944||||0.424|TWO_SIDED|95.0|-5.886|13.774||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model.||Null hypothesis: No difference in E to A ratio between istaroxime and placebo participants.||13.774|-5.886|0.424
92270746|NCT02617446|184443417|SUPERIORITY|Linear mixed model with treatment, center, timepoint, gender, baseline cTnT value, atrial fibrillation, and treatment\*timepoint interaction included in the model.|Mean Difference (Final Values)|-0.041||||0.987|TWO_SIDED|95.0|-5.216|5.133||Unadjusted alpha of 0.05 is the threshold for statistical significance.|Mixed Models Analysis|Kenward-Roger adjustment used for the degrees of freedom.||Null hypothesis: no difference between treatment groups||5.133|-5.216|0.987
92270747|NCT02617446|184443417|SUPERIORITY|Linear mixed model with treatment, center, timepoint, gender, baseline cTnT value, atrial fibrillation, and treatment\*timepoint interaction included in the model.|Mean Difference (Final Values)|3.015||||0.251|TWO_SIDED|95.0|-2.168|8.198||Unadjusted alpha of 0.05 is the threshold for statistical significance.|Mixed Models Analysis|Kenward-Roger adjustment used for the degrees of freedom.||Null hypothesis: no difference between treatment groups.||8.198|-2.168|0.251
92270748|NCT00644228|184443469|SUPERIORITY||Hazard Ratio (HR)|0.712||||0.0018|TWO_SIDED|96.0|0.56|0.906||The p-value is from a one-sided, stratified log-rank test. Stratification factors include those factors by which patients were randomized: intent to transplant (yes vs no) and ISS Stage (I vs II vs III).|Log Rank||The hazard ratio compares Bortezomib/Lenalidomide/Dexamethasone against Lenalidomide/Dexamethasone.|With four years of patient accrual and two and a half years of follow-up, 220 patients per arm yields 87% power to detect an increase of PFS of 50%, from a median of 3 years to 4.5 years, which corresponds to a hazard ratio of 1.5. These calculations are based on a one-sided stratified log-rank test at level 0.025 with two interim analyses. The final analysis will be carried out at the 0.02 significance level to allow for two interim analyses at the 0.0025 significance level.||0.906|0.560|0.0018
92270749|NCT00644228|184443470|SUPERIORITY||Hazard Ratio (HR)|0.709||||0.025|TWO_SIDED|95.0|0.524|0.959||The p-value is based on a two-sided, stratified log rank test. Stratification factors include those factors by which patients were randomized: intent to transplant (yes vs no) and ISS Stage (I vs II vs III).|Log Rank||The hazard ratio compares Bortezomib/Lenalidomide/Dexamethasone against Lenalidomide/Dexamethasone.|Overall survival will be compared between the two treatment arms using a stratified log-rank test.||0.959|0.524|0.0250
92270750|NCT00644228|184443471|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||||||The p-value is based on a stratified Cochran-Mantel-Haenszel test. Stratification factors include those factors by which patients were randomized: intent to transplant (yes vs no) and ISS Stage (I vs II vs III).|Cochran-Mantel-Haenszel|||||||0.20
92270751|NCT00417859|184443518|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||FB group was designated the control group. We determined a sample size based in clinical criteria. Using an α of 0.05 and β of 0.8, the required sample size was calculated to be 24 patients in each group to achieve a power of 80%. Descriptive analysis was completed on demographic information and clinical and radiological outcomes. Nonparametric tests (Wilcoxon's signed ranks or rank sum tests) were used for comparison of scores. The chi-squared test was used for dichotomous variables.||||0.05
92270752|NCT01500434|184443584|NON_INFERIORITY_OR_EQUIVALENCE|Study had 85% statistical power to demonstrate that the 12-month rate for TLF (accounting for an expected 1-year attrition rate of 5%) is less than the performance goal, assuming a 1-year TLF rate of 9.0%.|Target Lesion Failure Rate|3.2|||<|0.0001|ONE_SIDED|95.0||7.96|||One-group exact binomial test|||A one-group exact binomial test was used to test the hypothesis that the primary endpoint rate in the PROMUS Element cohort is less than the predefined performance goal of 19.4%.||7.96||<0.0001
92270753|NCT03353415|184443722|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92270754|NCT03353415|184443723|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92270755|NCT03353415|184443724|OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
92270756|NCT03353415|184443725|OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||0.45
92270757|NCT03353415|184443726|OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.35
92270758|NCT03353415|184443727|OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
92270759|NCT03353415|184443728|OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
92270760|NCT03353415|184443729|OTHER|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
92270761|NCT03353415|184443730|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92327708|NCT02453282|184560554|SUPERIORITY||Odds Ratio (OR)|0.65||||0.012|TWO_SIDED|95.0|0.462|0.908||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab Monotherapy Vs SoC Chemotherapy||0.908|0.462|0.012
92327709|NCT02453282|184560554|SUPERIORITY||Odds Ratio (OR)|0.76||||0.093|TWO_SIDED|95.0|0.543|1.048||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non-squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.048|0.543|0.093
92270762|NCT03353415|184443731|OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
92270763|NCT03353415|184443732|OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
92270764|NCT03353415|184443733|OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
92270765|NCT03353415|184443734|OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
92270766|NCT03353415|184443735|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92270767|NCT03353415|184443736|OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
92270768|NCT03353415|184443737|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92270769|NCT03353415|184443738|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92270770|NCT03353415|184443739|OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
92270771|NCT03353415|184443740|OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
92270772|NCT03353415|184443741|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
92270773|NCT03353415|184443742|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92270774|NCT03205163|184443748|OTHER||GMR|1.35||||0.032|TWO_SIDED|95.0|1.04|1.77|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an analysis of variance (ANOVA) model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and geometric mean ratio (GMR) were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||1.77|1.04|0.032
92270775|NCT03205163|184443749|OTHER||GMR|1.17|||<|0.001|TWO_SIDED|95.0|1.09|1.25|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||1.25|1.09|<0.001
92270776|NCT03205163|184443750|OTHER||GMR|4.13|||<|0.001|TWO_SIDED|95.0|2.94|5.79|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||5.79|2.94|<0.001
92270777|NCT03205163|184443751|OTHER||GMR|3.24|||<|0.001|TWO_SIDED|95.0|2.76|3.79|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||3.79|2.76|<0.001
92270778|NCT03205163|184443752|OTHER||GMR|0.143|||<|0.001|TWO_SIDED|95.0|0.118|0.172|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||0.172|0.118|<0.001
92270779|NCT03205163|184443753|OTHER||GMR|0.153|||<|0.001|TWO_SIDED|95.0|0.138|0.17|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||0.170|0.138|<0.001
92270780|NCT03205163|184443754|OTHER||GMR|0.622||||0.003|TWO_SIDED|95.0|0.492|0.786|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||0.786|0.492|0.003
92270781|NCT03205163|184443755|OTHER||GMR|0.599|||<|0.001|TWO_SIDED|95.0|0.525|0.684|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||0.684|0.525|<0.001
92270782|NCT03205163|184443756|OTHER||GMR|7.0|||<|0.001|TWO_SIDED|95.0|5.78|8.48|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||8.48|5.78|<0.001
92270783|NCT03205163|184443757|OTHER||GMR|6.54|||<|0.001|TWO_SIDED|95.0|5.89|7.27|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||7.27|5.89|<0.001
92270784|NCT03205163|184443758|OTHER||GMR|4.54|||<|0.001|TWO_SIDED|95.0|3.64|5.66|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||5.66|3.64|<0.001
92270785|NCT03205163|184443759|OTHER||GMR|4.32|||<|0.001|TWO_SIDED|95.0|3.96|4.72|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||4.72|3.96|<0.001
92270786|NCT03205163|184443760|OTHER||GMR|1.36||||0.063|TWO_SIDED|95.0|0.978|1.89|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||1.89|0.978|0.063
92270787|NCT03205163|184443761|OTHER||GMR|1.18|||<|0.001|TWO_SIDED|95.0|1.1|1.26|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||1.26|1.10|<0.001
92270788|NCT03205163|184443762|OTHER||GMR|4.57|||<|0.001|TWO_SIDED|95.0|4.0|5.23|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||5.23|4.00|<0.001
92270789|NCT03205163|184443763|OTHER||GMR|4.46|||<|0.001|TWO_SIDED|95.0|4.16|4.79|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||4.79|4.16|<0.001
92270790|NCT04647253|184443778|SUPERIORITY||Rate difference between treatment groups|-10.8||||0.0025|TWO_SIDED|95.0|-18.4|-3.3||a priori threshold for statistical significance was 0.025|z-test with unpooled variance|||||-3.3|-18.4|0.0025
92270791|NCT01209234|184443779|SUPERIORITY||Cox Proportional Hazard|0.7|STANDARD_ERROR_OF_MEAN|0.024||0.026|TWO_SIDED|95.0|0.52|0.96|||Regression, Cox||This is the estimated standard error of the log hazard ratio|||0.96|0.52|0.026
92327710|NCT02453282|184560554|SUPERIORITY||Odds Ratio (OR)|1.16||||0.406|TWO_SIDED|95.0|0.818|1.647||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non-squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.647|0.818|0.406
92327711|NCT02453282|184560561|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.03|TWO_SIDED|95.0|0.597|0.975||The 2-sided p-value was calculated using a stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||0.975|0.597|0.030
92327712|NCT02453282|184560561|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.045|TWO_SIDED|95.0|0.606|0.994||The 2-sided p-value was calculated using a stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||0.994|0.606|0.045
92270792|NCT01209234|184443780|SUPERIORITY||Cox Proportional Hazard|0.84|STANDARD_ERROR_OF_MEAN|0.009||0.061|TWO_SIDED|95.0|0.7|1.01||Not adjusted for multiple comparisons|Regression, Cox||CDC-defined all-cause infection secondary outcome This is the estimated standard error of the log hazard ratio|||1.01|0.70|0.061
92270793|NCT01209234|184443780|SUPERIORITY||Cox Proportional Hazard|0.83|STANDARD_ERROR_OF_MEAN|0.008||0.035|TWO_SIDED|95.0|0.7|0.99||Not adjusted for multiple comparisons|Regression, Cox||Clinical criteria for all-cause infection This is the estimated standard error of the log hazard ratio|||0.99|0.70|0.035
92270794|NCT04502862|184443785|OTHER||Least square mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.107||0.512|TWO_SIDED|95.0|-0.28|0.14||A hierarchical testing procedure was used to control type I error and handle primary and first 2 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|MMRM|||The MMRM model included study intervention, age, body mass index (BMI), region (Eastern Europe, rest of world \[ROW\]), inhaled corticosteroids \[ICS\] dose level at baseline (ICS dose level medium, ICS dose level high), visit (up to Week 12), study intervention-by-visit interaction, baseline asthma control questionnaire (ACQ-5), baseline sleep disturbance score and baseline-by-visit interaction as covariates.||0.14|-0.28|0.512
92327713|NCT02453282|184560562|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.255|TWO_SIDED|95.0|0.746|1.08||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.080|0.746|0.255
92270795|NCT04502862|184443786|OTHER||Least square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.11||0.967|TWO_SIDED|95.0|-0.21|0.22||A hierarchical testing procedure was used to control type I error and handle primary and first 2 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|MMRM|||The MMRM model included study intervention, age, BMI, region (Eastern Europe, ROW), ICS dose level at baseline (ICS dose level medium, ICS dose level high), visit (up to Week 12), study intervention-by-visit interaction, baseline ACQ-5, baseline number of nocturnal awakenings and baseline-by-visit interaction as covariates.||0.22|-0.21|0.967
92270796|NCT04502862|184443787|OTHER||Least square mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.865||0.422|TWO_SIDED|95.0|-2.4|1.01||A hierarchical testing procedure was used to control type I error and handle primary and first 2 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05|MMRM|||The MMRM model included study intervention, age, BMI, region (Eastern Europe, ROW), ICS dose level at baseline (ICS dose level medium, ICS dose level high), visit (up to Week 12), study intervention-by-visit interaction, baseline ACQ-5, baseline PROMIS total score and baseline-by-visit interaction as covariates.||1.01|-2.40|0.422
92270797|NCT03229941|184443797|SUPERIORITY||Odds Ratio (OR)|0.89||||0.515|TWO_SIDED|95.0|0.62|1.27|||Chi-squared||Liberal vs. restrictive arm comparison.|||1.27|0.62|0.515
92270798|NCT03229941|184443798|SUPERIORITY||Odds Ratio (OR)|1.09||||0.587|TWO_SIDED|99.0|0.73|1.61|||Chi-squared||Liberal vs. Restrictive arm comparison|||1.61|0.73|0.587
92270799|NCT03229941|184443799|SUPERIORITY||Odds Ratio (OR)|0.57||||0.007|TWO_SIDED|99.0|0.33|0.98|||Chi-squared||Liberal vs. Restrictive arm comparison|||0.98|0.33|0.007
92270800|NCT03229941|184443800|SUPERIORITY||Odds Ratio (OR)|0.93||||0.634|TWO_SIDED|99.0|0.63|1.38|||Chi-squared||Liberal vs. Restrictive arm comparison|||1.38|0.63|0.634
92270801|NCT03229941|184443801|SUPERIORITY||Odds Ratio (OR)|0.75||||0.212|TWO_SIDED|99.0|0.41|1.37|||Chi-squared||Liberal vs. Restrictive arm comparison|||1.37|0.41|0.212
92270802|NCT03229941|184443802|SUPERIORITY|||||||0.786|||||||Wilcoxon (Mann-Whitney)|||||||0.786
92270803|NCT02038959|184443804|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANCOVA|||||||>0.05
92270804|NCT02038959|184443809|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
92270805|NCT00819091|184443836|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001||95.0|-0.7|-0.24|||ANCOVA|ANCOVA model includes treatment and number of prior oral anti-diabetic drug as fixed classification effects and baseline HbA1c as a linear covariate||Linagliptin 5.0 mg versus placebo||-0.24|-0.70|< 0.0001
92327714|NCT02453282|184560562|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.534|TWO_SIDED|95.0|0.787|1.132||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.132|0.787|0.534
92270806|NCT00819091|184443837|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|5.5||0.2406||95.0|-17.2|4.3|||ANCOVA|ANCOVA model includes treatment and number of prior oral anti-diabetic drug as fixed classification effects and baseline HbA1c as a linear covariate||Linagliptin 5.0 mg versus placebo||4.3|-17.2|0.2406
92270807|NCT00819091|184443838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.466||||0.0065||95.0|1.684|24.825|||Regression, Logistic|||Linagliptin 5.0 mg versus placebo||24.825|1.684|0.0065
92270808|NCT00819091|184443839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.653||||0.2431||95.0|0.515|13.652|||Regression, Logistic|||Linagliptin 5.0 mg versus placebo||13.652|0.515|0.2431
92270809|NCT00819091|184443840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.125||||0.0001||95.0|2.747|9.562|||Regression, Logistic|||Linagliptin 5.0 mg versus placebo||9.562|2.747|0.0001
92270810|NCT00819091|184443841|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.41|||<|0.0001||95.0|-0.585|-0.23|||Mixed Models Analysis|MMRM with treatment, number oral anti-diabetic drugs, week within patients, week-treatment interaction and baseline HbA1c as a linear covariate.||Linagliptin 5.0 mg versus placebo||-0.230|-0.585|<0.0001
92270811|NCT00819091|184443842|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.5|||<|0.0001||95.0|-0.72|-0.276|||Mixed Models Analysis|MMRM with treatment, number oral anti-diabetic drugs, week within patients, week-treatment interaction and baseline HbA1c as a linear covariate.||Linagliptin 5.0 mg versus placebo||-0.276|-0.720|<0.0001
92270812|NCT00819091|184443843|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47||||0.0002||95.0|-0.716|-0.226|||Mixed Models Analysis|MMRM with treatment, number oral anti-diabetic drugs, week within patients, week-treatment interaction and baseline HbA1c as a linear covariate.||Linagliptin 5.0 mg versus placebo||-0.226|-0.716|0.0002
92270813|NCT00819091|184443844|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|4.6||0.197||95.0|-14.9|3.1|||ANCOVA|ANCOVA model includes treatment and number of prior oral anti-diabetic drug as fixed classification effects and baseline HbA1c as a linear covariate||Linagliptin 5.0 mg versus placebo||3.1|-14.9|0.197
92270814|NCT00819091|184443845|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-14.5|STANDARD_ERROR_OF_MEAN|5.6||0.0105||95.0|-25.5|-3.4|||ANCOVA|ANCOVA model includes treatment and number of prior oral anti-diabetic drug as fixed classification effects and baseline HbA1c as a linear covariate||Linagliptin 5.0 mg versus placebo||-3.4|-25.5|0.0105
92270815|NCT04071366|184443850|SUPERIORITY||Difference in CRS rate|-0.39||||0.003|TWO_SIDED|95.0|-0.6463|-0.1363|||One-sided Z-test|||||-0.1363|-0.6463|0.0030
92270816|NCT04071366|184443850|OTHER||Difference in CRS rate|-0.37|||||TWO_SIDED|95.0|-0.6073|-0.1231||||||||-0.1231|-0.6073|
92270817|NCT04071366|184443850|OTHER||Difference in CRS rate|0.03|||||TWO_SIDED|95.0|-0.1778|0.2299||||||||0.2299|-0.1778|
92270818|NCT01336608|184443873|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.01||||0.969|TWO_SIDED|95.0|-0.71|0.74|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)||||0.74|-0.71|0.969
92270819|NCT01336608|184443873|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.22||||0.568|TWO_SIDED|95.0|-0.53|0.96|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)||||0.96|-0.53|0.568
92270820|NCT01336608|184443873|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.2||||0.566|TWO_SIDED|95.0|-0.49|0.89|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)||||0.89|-0.49|0.566
92270821|NCT01336608|184443874|SUPERIORITY_OR_OTHER||Least squares mean difference|0.082||||0.007|TWO_SIDED|95.0|0.023|0.141||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.141|0.023|0.007
92270822|NCT01336608|184443874|SUPERIORITY_OR_OTHER||Least squares mean difference|0.155|||<|0.001|TWO_SIDED|95.0|0.095|0.215||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.215|0.095|<0.001
92270823|NCT01336608|184443874|SUPERIORITY_OR_OTHER||Least squares mean difference|0.074||||0.012|TWO_SIDED|95.0|0.016|0.131||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.131|0.016|0.012
92270824|NCT01336608|184443875|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.72|-0.22||Nominal p-value|ANCOVA|||||-0.22|-0.72|<0.001
92270825|NCT01336608|184443875|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.5|||<|0.001|TWO_SIDED|95.0|-0.76|-0.24||Nominal p-value|ANCOVA|||||-0.24|-0.76|<0.001
92270826|NCT01336608|184443875|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.03||||0.803|TWO_SIDED|95.0|-0.29|0.22|||ANCOVA|||||0.22|-0.29|0.803
92270827|NCT02437890|184443890|SUPERIORITY||||||=|0.526||||||Threshold for statistical significance: p = 0.05|Multiple Contrast Test|||"A multiple contrast test was used to establish evidence of a drug effect by testing for a statistically significant dose-response signal for clinical endpoint and patient population investigated in the study. Candidate dose-response models were selected amongst the following types of parametric models: linear model, Emax model, logistic model, a 1st Beta model, and a 2nd Beta model.~Model tested: linear model"||||= 0.526
92270828|NCT02437890|184443890|SUPERIORITY||||||=|0.504||||||Threshold for statistical significance: p = 0.05|Multiple Contrast Test|||"A multiple contrast test was used to establish evidence of a drug effect by testing for a statistically significant dose-response signal for clinical endpoint and patient population investigated in the study. Candidate dose-response models were selected amongst the following types of parametric models: linear model, Emax model, logistic model, a 1st Beta model, and a 2nd Beta model.~Model tested: Emax model"||||= 0.504
92270829|NCT02437890|184443890|SUPERIORITY||||||=|0.548||||||Threshold for statistical significance: p = 0.05|Multiple Contrast Test|||"A multiple contrast test was used to establish evidence of a drug effect by testing for a statistically significant dose-response signal for clinical endpoint and patient population investigated in the study. Candidate dose-response models were selected amongst the following types of parametric models: linear model, Emax model, logistic model, a 1st Beta model, and a 2nd Beta model.~Model tested: logistic model"||||= 0.548
92270830|NCT02437890|184443890|SUPERIORITY||||||=|0.985||||||Threshold for statistical significance: p = 0.05|Multiple Contrast Test|||"A multiple contrast test was used to establish evidence of a drug effect by testing for a statistically significant dose-response signal for clinical endpoint and patient population investigated in the study. Candidate dose-response models were selected amongst the following types of parametric models: linear model, Emax model, logistic model, a 1st Beta model, and a 2nd Beta model.~Model tested: 1st Beta model"||||= 0.985
92270831|NCT02437890|184443890|SUPERIORITY||||||=|0.524||||||Threshold for statistical significance: p = 0.05|Multiple Contrast Test|||"A multiple contrast test was used to establish evidence of a drug effect by testing for a statistically significant dose-response signal for clinical endpoint and patient population investigated in the study. Candidate dose-response models were selected amongst the following types of parametric models: linear model, Emax model, logistic model, a 1st Beta model, and a 2nd Beta model.~Model tested: 2nd Beta model"||||= 0.524
92270832|NCT01190098|184443965|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: there is a non-inferiority region of 4 points.||||||0.027|||||||t-test, 1 sided|||||||0.027
92270833|NCT01190098|184443966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.7||||0.23|TWO_SIDED||||||t-test, 2 sided|||||||0.23
92270834|NCT01190098|184443967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.84|TWO_SIDED||||||t-test, 2 sided|||||||0.84
92270835|NCT01190098|184443968|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.37|TWO_SIDED||||||t-test, 2 sided|||||||0.37
92270836|NCT01190098|184443969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.8||||0.33|TWO_SIDED||||||t-test, 2 sided|||||||0.33
92270837|NCT01190098|184443970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.92|TWO_SIDED||||||t-test, 2 sided|||||||0.92
92270838|NCT01190098|184443971|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.69|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.69
92270839|NCT01190098|184443972|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.95|TWO_SIDED||||||t-test, 2 sided|||||||0.95
92270840|NCT04604496|184443995|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|133.17|||||TWO_SIDED|90.0|81.97|216.37||||||Test: the mild hepatic impairment group; Reference: the without hepatic impairment group||216.37|81.97|
92270841|NCT04604496|184443995|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|219.98|||||TWO_SIDED|90.0|135.39|357.41||||||Test: the moderate hepatic impairment Group; Reference: the without hepatic impairment group||357.41|135.39|
92270842|NCT04604496|184443995|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|334.21|||||TWO_SIDED|90.0|205.7|543.0||||||Test: the severe hepatic impairment group; Reference: the without hepatic impairment group||543.00|205.70|
92270843|NCT04604496|184443996|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|122.7|||||TWO_SIDED|90.0|61.33|245.49||||||Test: the mild hepatic impairment group; Reference: the without hepatic impairment group||245.49|61.33|
92270844|NCT04604496|184443996|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|282.73|||||TWO_SIDED|90.0|141.32|565.66||||||Test: the moderate hepatic impairment Group; Reference: the without hepatic impairment group||565.66|141.32|
92270845|NCT04604496|184443996|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|640.78|||||TWO_SIDED|90.0|320.27|1282.0||||||Test: the severe hepatic impairment group; Reference: the without hepatic impairment group||1282.00|320.27|
92270846|NCT04604496|184443997|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|122.89|||||TWO_SIDED|90.0|61.51|245.51||||||Test: the mild hepatic impairment group; Reference: the without hepatic impairment group||245.51|61.51|
92270847|NCT04604496|184443997|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|283.88|||||TWO_SIDED|90.0|142.1|567.13||||||Test: the moderate hepatic impairment Group; Reference: the without hepatic impairment group||567.13|142.10|
92270848|NCT04604496|184443997|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|636.32|||||TWO_SIDED|90.0|318.51|1271.24||||||Test: the severe hepatic impairment group; Reference: the without hepatic impairment group||1271.24|318.51|
92270849|NCT04604496|184443998|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|85.19|||||TWO_SIDED|90.0|63.6|114.1||||||Test: the mild hepatic impairment group; Reference: the without hepatic impairment group||114.10|63.60|
92270850|NCT04604496|184443998|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|96.37|||||TWO_SIDED|90.0|71.95|129.07||||||Test: the moderate hepatic impairment Group; Reference: the without hepatic impairment group||129.07|71.95|
92270851|NCT04604496|184443998|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|135.2|||||TWO_SIDED|90.0|100.94|181.1||||||Test: the severe hepatic impairment group; Reference: the without hepatic impairment group||181.10|100.94|
92270852|NCT02609178|184444044|NON_INFERIORITY_OR_EQUIVALENCE|Using G\*power 3.1.7, setting α at 0.05, (1- β) at 0.8, the number of the subjects enrolled could reach the actual power as 0.8.||||||0.003||||||Alpha value was set at 0.05.|ANOVA|||||||0.003
92270853|NCT02609178|184444044|NON_INFERIORITY_OR_EQUIVALENCE|stated above in statistical analysis 1||||||0.366||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.366
92270854|NCT02609178|184444044|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.002||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.002
92270855|NCT02609178|184444044|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.054||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.054
92270856|NCT02609178|184444045|NON_INFERIORITY_OR_EQUIVALENCE|Using G\*power 3.1.7, setting α at 0.05, (1- β) at 0.8, the number of the subjects enrolled could reach the actual power as 0.8.||||||0.006||||||alpha value was set at 0.05|Kruskal-Wallis|||||||0.006
92270857|NCT02609178|184444045|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistic analysis 1.||||||0.739||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.739
92270858|NCT02609178|184444045|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.03||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.03
92270859|NCT02609178|184444045|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.009||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.009
92270860|NCT02609178|184444046|NON_INFERIORITY_OR_EQUIVALENCE|Using G\*power 3.1.7, setting α at 0.05, (1- β) at 0.8, the number of the subjects enrolled could reach the actual power as 0.8.||||||0.001||||||alpha value was set at 0.05|Kruskal-Wallis|||||||0.001
92270861|NCT02609178|184444046|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.579||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.579
92270862|NCT02609178|184444046|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.001||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.001
92270863|NCT02609178|184444046|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.002||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.002
92270864|NCT02609178|184444047|NON_INFERIORITY_OR_EQUIVALENCE|Using G\*power 3.1.7, setting α at 0.05, (1- β) at 0.8, the number of the subjects enrolled could reach the actual power as 0.8.||||||0.007||||||alpha value was set at 0.05|ANOVA|||||||0.007
92270865|NCT02609178|184444047|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.308||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.308
92270866|NCT02609178|184444047|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.005||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.005
92270867|NCT02609178|184444047|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.141||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.141
92270868|NCT03583931|184444049|SUPERIORITY|||||||0.61|||||||ANOVA|||||||0.61
92270869|NCT03583931|184444050|SUPERIORITY|||||||0.84|||||||ANOVA|||||||0.84
92270870|NCT03583931|184444055|SUPERIORITY|||||||0.48|||||||ANOVA|||||||0.48
92270871|NCT03583931|184444056|SUPERIORITY|||||||0.25|||||||ANOVA|||||||0.25
92270872|NCT03583931|184444057|SUPERIORITY|||||||0.45|||||||ANOVA|||||||0.45
92270873|NCT03583931|184444058|SUPERIORITY|||||||0.87|||||||ANOVA|||||||0.87
92270874|NCT05016765|184444075|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|paired t-test||||||<0.001
92270875|NCT05016765|184444075|OTHER|Pearson correlation test|Pearson's R|0.21||||0.33|TWO_SIDED|95.0|-0.22|0.56|||Regression, Linear|Pearson's R||Correlation of this Outcome measure (change in tic frequency with stimulation during this study) with the change in tic frequency (measured as the number of 10-second tic-free intervals) during active, rhythmic stimulation in the randomized, controlled trial of MNS that all participants had previously completed.||0.56|-0.22|0.33
92270876|NCT05016765|184444076|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Paired Samples Wilcoxon Test||||||<0.001
92270877|NCT05016765|184444076|OTHER|Pearson's R|Pearson's R|0.36||||0.08|TWO_SIDED|95.0|-0.05|0.66|||Regression, Linear|Pearson's R||Correlation of this Outcome measure (change in tic intensity during this study) with change in tic intensity during active, rhythmic stimulation during the randomized, controlled trial that all participants had previously completed.||0.66|-0.05|0.08
92270878|NCT05016765|184444081|OTHER|Traditional comparative||||||0.84|||||||Paired Sample t-Test, 2-Sided|||||||0.84
92270879|NCT00068770|184444083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|STANDARD_DEVIATION|1.0||0.82|TWO_SIDED|95.0|1.5|5.5||not adjusted|t-test, 2 sided|||two independent group comparisons||5.5|1.5|0.82
92270880|NCT00068770|184444084|NON_INFERIORITY_OR_EQUIVALENCE|equivalence analysis|Hazard Ratio (HR)|2.7|STANDARD_DEVIATION|1.8||0.11|TWO_SIDED|95.0|1.1|6.3|||Log Rank|||||6.3|1.1|0.11
92270881|NCT02328404|184444101|SUPERIORITY_OR_OTHER|||||||0.001|||||||Chi-squared|Fisher Exact test was used||The participants in the treatment and placebo groups will be classified into two categories of prognosis (improved and not improved) and will be analyzed using Chi-square test, if Chi-square is higher than 3.84 (df=1) it will be statistically significant (p-value\</= 0.05)||||0.001
92270882|NCT02328404|184444102|SUPERIORITY_OR_OTHER||||||<|0||||||A P-value \< 0.05 would be considered statistically significant.|t-test, 2 sided|||Both arms where evaluated at which paired t-test for the mean difference in the two arm was calculated . where the serum 25-OH Vit D3 was measured at 0 day time and after the end of the study. after that a paired t-test where applied for the difference for the 25-OH VitD3 levels between the two time points||||<0.000
92270883|NCT02328404|184444103|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||t-test, 2 sided|||||||0.67
92270884|NCT02328404|184444104|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|||||||0.51
92270885|NCT02328404|184444105|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||t-test, 2 sided|||||||0.08
92270886|NCT02328404|184444106|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
92270887|NCT02328404|184444107|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Chi-squared|||||||0.001
92270888|NCT02328404|184444108|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||t-test, 2 sided|||||||0.89
92270889|NCT02328404|184444109|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.60
92327715|NCT02453282|184560563|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.663|TWO_SIDED|95.0|0.824|1.131||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.131|0.824|0.663
92327716|NCT02453282|184560563|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.103|TWO_SIDED|95.0|0.746|1.027||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.027|0.746|0.103
92270890|NCT02328404|184444110|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
92270891|NCT02328404|184444111|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||t-test, 2 sided|||||||0.35
92270892|NCT02328404|184444112|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
92270893|NCT02328404|184444113|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|||||||0.25
92270894|NCT02328404|184444114|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
92270895|NCT02328404|184444115|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.02
92270896|NCT00285012|184444121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.4|||<|0.0001||95.0|4.99|14.14||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Primary endpoint was based on a CO confirmed 4-week CQR (weeks 4 through 12 inclusive). Intent was to evaluate the alternative hypothesis that varenicline is superior to placebo for smoking cessation after 12 weeks of treatment in subjects with mild to moderate COPD.||14.14|4.99|<0.0001
92270897|NCT00285012|184444122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.88|||<|0.0001||95.0|2.75|8.65||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline versus (vs) placebo at Week 24||8.65|2.75|<0.0001
92270898|NCT00285012|184444122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.04|||<|0.0001||95.0|2.13|7.67||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 52||7.67|2.13|<0.0001
92270899|NCT00285012|184444123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.17|||<|0.0001||95.0|2.96|9.02||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 24||9.02|2.96|<0.0001
92270900|NCT00285012|184444123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.92|||<|0.0001||95.0|2.18|7.07||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 52||7.07|2.18|<0.0001
92270901|NCT00285012|184444124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.99|||<|0.0001||95.0|4.39|11.11||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 12||11.11|4.39|<0.0001
92270902|NCT00285012|184444124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.85|||<|0.0001||95.0|1.79|4.54|||Regression, Logistic|p-value obtained from a logistic regression model including the main effects of treatment and pooled center|odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 24||4.54|1.79|<0.0001
92270903|NCT00285012|184444124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.0008||95.0|1.37|3.48||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 52||3.48|1.37|0.0008
92270904|NCT00285012|184444125|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.45||||0.0002||95.0|1.52|3.95||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 52||3.95|1.52|0.0002
92270905|NCT00285012|184444126|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANCOVA|p-value based on ANCOVA model with treatment and center as factors and baseline value as covariate.||Varenicline vs placebo at Week 12 \[LOCF\] pre-bronchodilator||||0.140
92270906|NCT00285012|184444126|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANCOVA|p-value based on ANCOVA model with treatment and center as factors and baseline value as covariate.||Varenicline vs placebo at Week 12 \[LOCF\] post-bronchodilator||||0.007
92270907|NCT00285012|184444126|SUPERIORITY_OR_OTHER|||||||0.684||95.0|||||ANCOVA|p-value based on ANCOVA model with treatment and center as factors and baseline value as covariate.||Varenicline vs placebo at Week 52 \[LOCF\] pre-bronchodilator||||0.684
92270908|NCT00285012|184444126|SUPERIORITY_OR_OTHER|||||||0.901||95.0|||||ANCOVA|p-value based on ANCOVA model with treatment and center as factors and baseline value as covariate.||Varenicline vs placebo at Week 52 \[LOCF\] post-bronchodilator||||0.901
92270909|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 12 Mental State||||0.078
92270910|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.109||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 24 Mental State||||0.109
92270911|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.281||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 52 Mental State||||0.281
92270912|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.581||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 12 Functional State||||0.581
92270913|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 24 Functional State||||0.290
92270914|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 52 Functional State||||0.063
92327717|NCT00985426|184560573|NON_INFERIORITY|Non-inferiority is achieved if the lower limit of the two-sided 95% CI was greater than -10%.|SPR Difference (%)|8.0|||||TWO_SIDED|95.0|1.7|14.3|||||SPR difference = SPR for HEPLISAV-B minus SPR for Engerix-B.|Two-sided 95% confidence intervals (CIs) of the difference in seroprotection rates (SPR) between the HEPLISAV-B group and the Engerix-B group at 28 weeks was computed using the Newcombe score method with continuity correction.||14.3|1.7|
92327718|NCT00985426|184560573|SUPERIORITY|Superiority is achieved if the lower limit of the two-sided 95% CI was greater than 0%.|SPR Difference (%)|8.0|||||TWO_SIDED|95.0|1.7|14.3||||||Two-sided 95% CIs of the difference in SPR between the HEPLISAV-B group and the Engerix-B group at 28 weeks was computed using the Newcombe score method with continuity correction.||14.3|1.7|
92270915|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 12 Respiratory Symptoms||||0.002
92270916|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.081||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 24 Respiratory Symptoms||||0.081
92270917|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 52 Respiratory Symptoms||||0.016
92270918|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 12 Total Score||||0.033
92270919|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 24 Total Score||||0.078
92270920|NCT00285012|184444127|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 52 Total Score||||0.023
92270921|NCT05631093|184444158|NON_INFERIORITY|Doravirine/Islatravir (DOR/ISL) - Baseline Antiretroviral Therapy (ART). Non-inferiority was concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI was less than 4 percentage points.|Estimated difference|-3.58|||<|0.001|TWO_SIDED|95.0|-7.81|-0.77|||Miettinen and Nurminen|The Miettinen and Nurminen method was stratified by corrected baseline ART regimen with Cochran-Mantel-Haenszel (CMH) weights.||||-0.77|-7.81|<0.001
92270922|NCT05631093|184444159|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated difference|-4.3|||||TWO_SIDED|95.0|-10.7|2.8|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||2.8|-10.7|
92270923|NCT05631093|184444160|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated difference|-1.6||||||95.0|-4.9|0.2|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||0.2|-4.9|
92270924|NCT05631093|184444161|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated difference|-0.08||||||95.0|-3.49|4.21|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||4.21|-3.49|
92270925|NCT05631093|184444162|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated difference|3.75||||||95.0|-0.31|8.89|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||8.89|-0.31|
92270926|NCT05631093|184444169|OTHER|Difference in mean change from baseline versus Baseline Antiretroviral Therapy (ART)|Estimated difference|-15.43||||||95.0|-46.32|15.47|||||Difference in percentage versus (vs) Baseline ART was based on a cDLA model.|||15.47|-46.32|
92270927|NCT05631093|184444175|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|-2.21||||0.834|TWO_SIDED|95.0|-24.91|20.49|||ANCOVA||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|PI-containing regimens (including PI- + InSTI-containing regimens)||20.49|-24.91|0.8340
92270928|NCT05631093|184444175|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|3.44||||0.425|TWO_SIDED|95.0|-5.08|11.97|||ANCOVA||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|non-PI- and non-InSTI-containing regimens||11.97|-5.08|0.4250
92270929|NCT05631093|184444175|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|3.72||||0.1618||95.0|-1.5|8.95|||ANCOVA||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|InSTI-containing regimens (non-PI-containing regimens)||8.95|-1.50|0.1618
92270930|NCT05631093|184444176|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|-7.02|||||TWO_SIDED|95.0|-29.8|15.77|||||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|PI-containing regimens (including PI- + InSTI-containing regimens)||15.77|-29.80|
92270931|NCT05631093|184444176|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|3.99||||||95.0|-5.22|13.21|||||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|non-PI- and non-InSTI-containing regimens||13.21|-5.22|
92270932|NCT05631093|184444176|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|1.02|||||TWO_SIDED|95.0|-6.83|8.87|||||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|InSTI-containing regimens (non-PI-containing regimens)||8.87|-6.83|
92270933|NCT02873195|184444185|SUPERIORITY||Hazard Ratio (HR)|0.725||||0.051|TWO_SIDED|95.0|0.491|1.07|||Log Rank|||||1.07|0.491|0.051
92270934|NCT02873195|184444186|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.4|TWO_SIDED|95.0|0.56|1.56|||Log Rank|||||1.56|0.56|0.40
92270935|NCT02873195|184444187|SUPERIORITY|||||||0.4876|||||||Fisher Exact|||||||0.4876
92270936|NCT04223193|184444296|SUPERIORITY||LS Mean of Difference|-9.1|STANDARD_ERROR_OF_MEAN|1.31|<|0.0001|TWO_SIDED|95.0|-11.7|-6.5||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-6.5|-11.7|<0.0001
92270937|NCT04223193|184444297|SUPERIORITY||LS Mean of Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.44||0.0007|TWO_SIDED|95.0|-2.4|-0.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-0.6|-2.4|0.0007
92270938|NCT04223193|184444298|SUPERIORITY||Odds Ratio (OR)|3.942|||<|0.0001|TWO_SIDED|95.0|2.209|7.037|||Mixed Models Analysis|||||7.037|2.209|<0.0001
92270939|NCT04223193|184444299|SUPERIORITY||LS Mean of Difference|-9.1|STANDARD_ERROR_OF_MEAN|1.31|<|0.0001|TWO_SIDED|95.0|-11.7|-6.5||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-6.5|-11.7|<0.0001
92270940|NCT04223193|184444300|SUPERIORITY||LS Mean of Difference|-8.3|STANDARD_ERROR_OF_MEAN|1.52|<|0.0001|TWO_SIDED|95.0|-11.3|-5.3||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-5.3|-11.3|<0.0001
92270941|NCT04223193|184444301|SUPERIORITY||LS Mean of Difference|0.7|STANDARD_ERROR_OF_MEAN|0.42||0.0766|TWO_SIDED|95.0|-0.1|1.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part I: Week 26||1.6|-0.1|0.0766
92270942|NCT04223193|184444301|SUPERIORITY||LS Mean of Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.44||0.0007|TWO_SIDED|95.0|-2.4|-0.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part II: Week 26||-0.6|-2.4|0.0007
92270943|NCT04223193|184444301|SUPERIORITY||LS Mean of Difference|-7.6|STANDARD_ERROR_OF_MEAN|1.05|<|0.0001|TWO_SIDED|95.0|-9.7|-5.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part III: Week 26||-5.6|-9.7|<0.0001
92270944|NCT04223193|184444302|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.5|-0.2||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Wek 26||-0.2|-0.5|<0.0001
92270945|NCT04223193|184444303|SUPERIORITY||LS Mean of Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.3|-0.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.7|-1.3|<0.0001
92270946|NCT04223193|184444304|SUPERIORITY||LS Mean of Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.3|-0.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.7|-1.3|<0.0001
92270947|NCT04223193|184444305|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.32||0.9795|TWO_SIDED|95.0|-0.6|0.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||0.6|-0.6|0.9795
92270948|NCT04223193|184444306|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.45||0.8916|TWO_SIDED|95.0|-0.9|0.8||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||0.8|-0.9|0.8916
92270949|NCT03594175|184444309|SUPERIORITY||Mean difference of proportions, Wald|29.51||||0.003|TWO_SIDED|95.0|10.76|48.26|||2-sample Z test for proportions|||CUSA-081 vs Placebo Dwell Time Up To 90 Min -- FAS||48.26|10.76|0.003
92270950|NCT03594175|184444310|NON_INFERIORITY|Non-inferiority was assessed based on the constructed 95% confidence interval (CI) for the difference in the rate of treatment success between CUSA-081 vs alteplase, with non-inferiority considered as demonstrated if the lower limit of the 95% CI for the difference in rate of success is greater than -10%.|Mean difference of proportions, Wald|-10.31||||0.03|TWO_SIDED|95.0|-19.38|-1.24|||2-sample Z test for proportions|||||-1.24|-19.38|0.030
92270951|NCT03594175|184444311|SUPERIORITY||Mean difference of proportions, Wald|24.13||||0.017|TWO_SIDED|95.0|5.84|42.41|||2-sample Z test for proportions|||||42.41|5.84|0.017
92270952|NCT03594175|184444312|SUPERIORITY||Mean difference of proportions, Wald|41.08|||<|0.001|TWO_SIDED|95.0|21.94|60.21|||2-sample Z test for proportions|||||60.21|21.94|<0.001
92270953|NCT03594175|184444313|SUPERIORITY||Mean difference of proportions, Wald|-10.96||||0.019|TWO_SIDED|95.0|-19.89|-2.04|||2-sample Z test for proportions|||||-2.04|-19.89|0.019
92270954|NCT03594175|184444314|SUPERIORITY||Probability Re-Occlusion Free at Day 30|0.948|||||TWO_SIDED|95.0|0.126|7.121||||||Time to first re-occlusion.||7.121|0.126|
92270955|NCT03594175|184444314|OTHER||Cox Proportional Hazard|0.654|||||TWO_SIDED|95.0|0.337|1.27||||||Time to first re-occlusion.||1.270|0.337|
92270956|NCT03594175|184444314|OTHER||Cox Proportional Hazard|1.448|||||TWO_SIDED|95.0|0.193|10.848||||||Time to first re-occlusion.||10.848|0.193|
92270957|NCT03732677|184444317|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0005|TWO_SIDED|95.0|1.227|2.084|||Regression, Logistic|Strata adjusted odds ratio by the logistic regression method adjusting for stratification factors: renal function , tumor stage and PDL1 status .||||2.084|1.227|0.0005
92270958|NCT03732677|184444318|SUPERIORITY||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.877|0.554|824.0||Stratified by renal function(adequate vs borderline),tumor stage(T2N0 vs \>T2N0), PDL1 status(high vs low/negative)|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for renal function (adequate vs borderline), tumor stage (T2N0 vs \>T2N0) and PDL1 status (high vs low/negative)||95% CI for hazard ratio: 0.558 - 0.817|0824|0.554|<0.0001
92327719|NCT00985426|184560578|SUPERIORITY|Superiority is achieved if the lower limit of the two-sided 95% CI was greater than 0%.|SPR Difference (%)|12.9|||||TWO_SIDED|95.0|4.4|21.2||||||Two-sided 95% CIs of the difference in SPRs between the HEPLISAV group and the Engerix-B group at 28 weeks was computed using the Newcombe score method with continuity correction.||21.2|4.4|
92270959|NCT03732677|184444319|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0021|TWO_SIDED|95.0|0.62|0.9|||Chi-squared|P-value is based on a chi-squared test with one degree of freedom.|The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for renal function (adequate vs borderline), tumor stage (T2N0 vs \>T2N0) and PDL1 status (high vs low/negative)|||0.90|0.62|0.0021
92270960|NCT03732677|184444320|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0265|TWO_SIDED|95.0|1.047|2.095|||Regression, Logistic|Stratified by renal function(adequate vs borderline),tumor stage(T2N0 vs \>T2N0), PDL1 status(high vs low/negative)|Strata adjusted odds ratio by the logistic regression method. Stratified by adjusting for renal function (adequate vs borderline), tumor stage (T2N0 vs \>T2N0) and PDL1 status (high vs low/negative).|||2.095|1.047|0.0265
92270961|NCT03732677|184444321|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0106|TWO_SIDED|98.457|0.563|0.985|||Log Rank|Stratified by renal function (adequate vs borderline),tumor stage(T2N0vs \>T2N0), PDL1 status(high vs low/negative)|||95% CI: 0.594 to 0.934|0.985|0.563|0.0106
92270962|NCT03732677|184444322|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0002|TWO_SIDED|95.0|0.541|0.826|||Log Rank|Stratified by renal function(adequate vs borderline),tumor stage(T2N0 vs \>T2N0), PDL1 status(high vs low/negative)|The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for renal function (adequate vs borderline), tumor stage (T2N0 vs \>T2N0) and PDL1 status (high vs low/negative)|||0.826|0.541|0.0002
92270963|NCT03732677|184444323|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0081|TWO_SIDED|95.0|0.516|0.907|||Log Rank|Stratified by renal function(adequate vs borderline),tumor stage(T2N0 vs \>T2N0), PDL1 status(high vs low/negative)|The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for renal function (adequate vs borderline), tumor stage (T2N0 vs \>T2N0) and PDL1 status (high vs low/negative)|||0.907|0.516|0.0081
92270964|NCT00545441|184444397|NON_INFERIORITY_OR_EQUIVALENCE|Alpha = 0.05 and power = 0.8, a non-inferiority margin of 10%.||||||0.59|TWO_SIDED||||||Fisher Exact|||||||0.59
92270965|NCT00606801|184444419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.006
92270966|NCT00606801|184444420|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.04
92327720|NCT02327013|184560596|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|1.8||0.9723|TWO_SIDED|95.0|-3.6|3.5|||weighed z-score|Equally weighed LS z-score, combining results from stagewise MMRM, was compared to standard normal distribution.||The mean difference between treatment groups was estimated based on LS means for the treatment-by-visit interaction in stagewise MMRM analyses. In each stage, the REML-based MMRM model included site ID (stage 1 only), visit, treatment (placebo, vortioxetine 10mg, vortioxetine 20mg), baseline (for the stage) AISRS total score, treatment-by-visit interaction, and baseline (stage) AISRS total score-by-visit interaction, with an unstructured covariance structure to model the within-patient errors.||3.5|-3.6|0.9723
92270967|NCT00606801|184444421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.02
92270968|NCT00606801|184444422|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.03
92270969|NCT00606801|184444423|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.5
92270970|NCT00606801|184444424|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.7
92270971|NCT00606801|184444425|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.3
92270972|NCT00606801|184444426|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.3
92270973|NCT00606801|184444427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.3
92270974|NCT00606801|184444428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.9
92270975|NCT00606801|184444429|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.8
92270976|NCT00606801|184444430|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.5
92270977|NCT00606801|184444431|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.01
92270978|NCT00606801|184444432|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.60
92270979|NCT00606801|184444433|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.50
92270980|NCT01143272|184444436|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.94|TWO_SIDED|95.0|0.55|1.9|||Regression, Cox|||||1.90|0.55|0.94
92270981|NCT01143272|184444436|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher Exact|||||||0.25
92270982|NCT01143272|184444436|SUPERIORITY_OR_OTHER|||||||0.87|||||||Log Rank|||||||0.87
92270983|NCT01143272|184444438|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.8|TWO_SIDED|95.0|0.49|1.73|||Regression, Cox|||||1.73|0.49|0.80
92270984|NCT01143272|184444438|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.93|TWO_SIDED|95.0|0.53|2.03||adjusting for age, sex, CRP, leukocyte count, duration of antibiotic treatment, and administration of antibiotics|Regression, Cox|||||2.03|0.53|0.93
92270985|NCT01143272|184444439|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.6|TWO_SIDED|95.0|0.96|1.08||Association between initial leukocyte count and incidence of AAD|Regression, Logistic|||||1.08|0.96|0.6
92270986|NCT01143272|184444439|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.653|TWO_SIDED|95.0|1.0|1.01||Association between the initial C-reactive protein and incidence of AAD|Regression, Logistic|||||1.01|1.00|0.653
92270987|NCT00545181|184444466|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||Chi-squared, Corrected|||||||0.75
92270988|NCT02533505|184444467|SUPERIORITY||Mean Difference (Final Values)|10.114||||0.007|TWO_SIDED|95.0|2.943|17.286||All p-values ≤ 0.05 after rounding will be considered statistically significant.|Mixed Models Analysis|||||17.286|2.943|0.007
92270989|NCT02533505|184444468|SUPERIORITY||Mean Difference (Final Values)|0.087||||0.111|TWO_SIDED|95.0|-0.021|0.196|||Mixed Models Analysis|||||0.196|-0.021|0.111
92270990|NCT02533505|184444469|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.609|TWO_SIDED|95.0|-1.018|1.719|||Mixed Models Analysis|||ΔHR||1.719|-1.018|0.609
92270991|NCT02533505|184444470|SUPERIORITY||Mean Difference (Final Values)|0.191|||<|0.001|TWO_SIDED|95.0|0.15|0.233|||Mixed Models Analysis|||ΔFEV1||0.233|0.150|<0.001
92270992|NCT02533505|184444470|SUPERIORITY||Mean Difference (Final Values)|0.312|||<|0.001|TWO_SIDED|95.0|0.236|0.388|||Mixed Models Analysis|||ΔFVC||0.388|0.236|<0.001
92270993|NCT02533505|184444470|SUPERIORITY||Mean Difference (Final Values)|0.28|||<|0.001|TWO_SIDED|95.0|0.218|0.342|||Mixed Models Analysis|||ΔIC||0.342|0.218|<0.001
92270994|NCT02533505|184444471|SUPERIORITY||Mean Difference (Final Values)|23.315||||0.021|TWO_SIDED|95.0|3.723|42.907|||Mixed Models Analysis|||ΔVT/Ti||42.907|3.723|0.021
92327721|NCT02327013|184560596|SUPERIORITY|The mean difference between treatment groups was estimated based on LS means for the treatment-by-visit interaction in stagewise MMRM analyses. In each stage, the REML-based MMRM model included site ID (stage 1 only), visit, treatment (placebo, vortioxetine 10mg, vortioxetine 20mg), baseline (for the stage) AISRS total score, treatment-by-visit interaction, and baseline (stage) AISRS total score-by-visit interaction, with an unstructured covariance structure to model the within-patient errors.|Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|1.9||0.601|TWO_SIDED|95.0|-2.8|4.8|||weighed z-score|Equally weighed LS z-score, combining results from stagewise MMRM, was compared to standard normal distribution.||||4.8|-2.8|0.6010
92270995|NCT02533505|184444472|SUPERIORITY||Mean Difference (Final Values)|-0.204||||0.106|TWO_SIDED|95.0|-0.454|0.045|||Mixed Models Analysis|||||0.045|-0.454|0.106
92270996|NCT02533505|184444473|SUPERIORITY||Mean Difference (Final Values)|10.245||||0.011|TWO_SIDED|95.0|2.469|18.021|||Mixed Models Analysis|||ΔVCO2||18.021|2.469|0.011
92270997|NCT02533505|184444474|SUPERIORITY||Mean Difference (Final Values)|0.242||||0.333|TWO_SIDED|95.0|-0.255|0.738|||Mixed Models Analysis|||ΔSaO2||0.738|-0.255|0.333
92270998|NCT02533505|184444475|SUPERIORITY||Mean Difference (Final Values)|0.237||||0.484|TWO_SIDED|95.0|-0.439|0.913|||Mixed Models Analysis|||ΔRR||0.913|-0.439|0.484
92270999|NCT02533505|184444476|SUPERIORITY||Mean Difference (Final Values)|0.016||||0.113|TWO_SIDED|95.0|-0.004|0.036|||Mixed Models Analysis|||ΔTi/Ttot||0.036|-0.004|0.113
92271000|NCT02533505|184444477|SUPERIORITY||Mean Difference (Final Values)|57.624|||<|0.001|TWO_SIDED|95.0|29.701|85.546|||Mixed Models Analysis|||ΔVt||85.546|29.701|<0.001
92271001|NCT02533505|184444478|SUPERIORITY||Mean Difference (Final Values)|862.157|||<|0.001|TWO_SIDED|95.0|439.817|1284.496|||Mixed Models Analysis|||ΔVe||1284.496|439.817|<0.001
92271002|NCT02533505|184444479|SUPERIORITY||Mean Difference (Final Values)|0.019||||0.007|TWO_SIDED|95.0|0.005|0.033|||Mixed Models Analysis|||ΔFEV1/FVC||0.033|0.005|0.007
92271003|NCT02320838|184444488|OTHER||||||<|0.001||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||<0.001
92271004|NCT02320838|184444489|OTHER|||||||0.04||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.04
92271005|NCT02320838|184444490|OTHER|||||||0.9||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.9
92271006|NCT02320838|184444491|OTHER|||||||0.001||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.001
92271007|NCT02320838|184444492|OTHER|||||||0.003||||||A priori threshold for statistical significance. p\<0.05|t-test, 2 sided|||||||0.003
92271008|NCT02320838|184444493|OTHER|||||||0.023||||||A priori threshold for statistical significance. p\<0.05|Chi-squared|||||||0.023
92271009|NCT02320838|184444494|OTHER|||||||0.003||||||A priori threshold for statistical significance. p\<0,05|t-test, 2 sided|||||||0.003
92271010|NCT02320838|184444495|OTHER|||||||0.8||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.8
92271011|NCT02320838|184444496|OTHER|||||||0.02||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.02
92271012|NCT02320838|184444497|OTHER|||||||0.4||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.4
92271013|NCT02320838|184444498|OTHER|||||||0.8|||||||ANOVA|||||||0.8
92271014|NCT02320838|184444499|OTHER|||||||1||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||1.0
92271015|NCT02320838|184444500|OTHER|||||||0.4||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.4
92271016|NCT02320838|184444501|OTHER|||||||0.1||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.1
92271017|NCT02320838|184444502|OTHER|||||||0.9||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.9
92271018|NCT02320838|184444503|OTHER|||||||0.9||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.9
92271019|NCT02320838|184444504|OTHER|||||||0.5||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.5
92271020|NCT02320838|184444505|OTHER|||||||0.6||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.6
92271021|NCT02320838|184444506|OTHER|||||||0.1||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.1
92271022|NCT02320838|184444507|OTHER|||||||0.2||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.2
92271023|NCT02320838|184444508|OTHER|||||||1||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||1.0
92271024|NCT03231709|184444513|OTHER|||||||0.0141|||||||Mainland-Gart Test|||||||0.0141
92327722|NCT02380859|184560639|SUPERIORITY|||||||0.005|||||||ANOVA|||Group (real, sham) x Time (pre, 1d post) x Stepping Direction (forward, backward) ANOVA||||0.005
92271025|NCT04840901|184444539|EQUIVALENCE|PK parameters were powered to test equivalence with a power of 90% that the 90% confidence interval (CI) of the geometric mean ratio fall within 0.8 to 1.25 equivalence margin.|Ratio of Geometric LS Mean|1.09|||||TWO_SIDED|90.0|1.03|1.16|||ANCOVA|||||1.16|1.03|
92271026|NCT04840901|184444540|EQUIVALENCE|PK parameters were powered to test equivalence with a power of 90% that the 90% confidence interval (CI) of the geometric mean ratio fall within 0.8 to 1.25 equivalence margin.|Ratio of Geometric LS Mean|1.07|||||TWO_SIDED|90.0|1.02|1.14|||ANCOVA|||||1.14|1.02|
92271027|NCT04840901|184444541|EQUIVALENCE|PK parameters were powered to test equivalence with a power of 90% that the 90% confidence interval (CI) of the geometric mean ratio fall within 0.8 to 1.25 equivalence margin.|Ratio of Geometric LS Mean|1.09|||||TWO_SIDED|90.0|1.03|1.14|||ANCOVA|||||1.14|1.03|
92271028|NCT04075292|184444547|SUPERIORITY||Hazard Ratio (HR)|0.08|||<|0.0001|TWO_SIDED|95.0|0.03|0.18|||Log Rank|The analysis was performed using the unstratified log-rank test.|HR was calculated using an unstratified Cox model with treatment as the only covariate. The CI for HR was calculated using the profile likelihood method.|||0.18|0.03|<0.0001
92271029|NCT01988493|184444560|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|0.46||||0.0087|TWO_SIDED|90.0|0.28|0.76|||Log Rank|||||0.76|0.28|0.0087
92271030|NCT01988493|184444561|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|0.53||||0.0229||90.0|0.33|0.84|||Log Rank|||||0.84|0.33|0.0229
92271031|NCT01988493|184444562|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|0.71||||0.2333||90.0|0.45|1.14|||Log Rank|||||1.14|0.45|0.2333
92271032|NCT01988493|184444563|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|0.45||||0.0059||90.0|0.28|0.73|||Log Rank|||||0.73|0.28|0.0059
92271033|NCT01988493|184444576|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|1.04||||0.8915||90.0|0.62|1.77|||Log Rank|||||1.77|0.62|0.8915
92271034|NCT01988493|184444577|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.||||||0.0438|||||||Cochran-Mantel-Haenszel|||||||0.0438
92271035|NCT01988493|184444579|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|0.59||||0.0496|TWO_SIDED|90.0|0.38|0.92|||Log Rank|||||0.92|0.38|0.0496
92271036|NCT01988493|184444580|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.||||||0.0527|||||||Cochran-Mantel-Haenszel|||||||0.0527
92327723|NCT04076059|184560657|SUPERIORITY||Cox Proportional Hazard|0.13|||<|0.0001|TWO_SIDED|95.0|0.076|0.222|||Log Rank||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|||0.222|0.076|<0.0001
92271037|NCT00535301|184444582|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.24|STANDARD_DEVIATION|2.0||0.005|TWO_SIDED|95.0|0.1|0.6|||Chi-squared|||Sample size was calculated based on previously-published anatomic success rates of standard anterior colporrhaphy (50%) and polypropylene mesh-reinforced anterior vaginal repair (85%) (1-10). Assuming a 2-sided hypothesis test with 5% type I error and 80% power, 33 patients in each group would be required to detect an absolute difference of 35% or more in recurrent stage II prolapse. Assuming a 15% drop-out rate, we sought to enroll 76 patients into the clinical trial.||0.6|0.1|0.005
92271038|NCT00535301|184444583|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5
92271039|NCT00535301|184444584|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
92271040|NCT05144477|184444600|OTHER|Proportion of referrals who provided consent and enrolled into the study was calculated.|Proportion|0.64|||||TWO_SIDED|95.0|0.425|0.82||||||||0.820|0.425|
92271041|NCT05144477|184444601|OTHER|Proportion of enrolled participants who remained in the study at 30 days after the end of hospital care was calculated.|Proportion|0.875|||||TWO_SIDED|95.0|0.617|0.985||||||||0.985|0.617|
92271042|NCT05144477|184444602|OTHER|Proportion of participants randomized to the FAID Fear Diary Intervention who wrote in the diary at least twice per week up until the end of hospital care was calculated.|Proportion|0.636|||||TWO_SIDED|95.0|0.308|0.891||||||||0.891|0.308|
92271043|NCT05144477|184444603|OTHER|Proportion of enrolled participants who provided complete data for at least 90% of all study assessments was calculated.|Proportion|0.875|||||TWO_SIDED|95.0|0.617|0.985||||||||0.985|0.617|
92271044|NCT05144477|184444604|OTHER|Proportion of intervention participants who agreed that the ICU diary was acceptable for reducing fear about their loved one's heart was calculated.|Proportion|0.8|||||TWO_SIDED|95.0|0.444|0.975||||||||0.975|0.444|
92271045|NCT05144477|184444605|OTHER|Proportion of intervention participants who agreed that the ICU diary was feasible for reducing fear about their loved one's heart was calculated.|Proportion|0.9|||||TWO_SIDED|95.0|0.555|0.998||||||||0.998|0.555|
92271046|NCT05144477|184444606|OTHER|Proportion of intervention participants who agreed that the ICU diary was appropriate for reducing fear about their loved one's heart was calculated.|Proportion|0.7|||||TWO_SIDED|95.0|0.348|0.933||||||||0.933|0.348|
92271047|NCT05144477|184444607|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.63|TWO_SIDED|95.0|-0.83|1.32|||t-test, 2 sided|||Outcome analysis at the end of hospital care.||1.32|-0.83|.63
92271048|NCT05144477|184444607|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.86|TWO_SIDED|95.0|-0.92|1.08|||t-test, 2 sided|||Outcome analysis for 30 days after the end of hospital care.||1.08|-0.92|.86
92327724|NCT04076059|184560658|SUPERIORITY||Cox Proportional Hazard|0.33|||<|0.0001|TWO_SIDED|95.0|0.196|0.556|||Log Rank|Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.||||0.556|0.196|<0.0001
92327725|NCT04076059|184560659|SUPERIORITY||Cox Proportional Hazard|0.789||||0.7279|TWO_SIDED|95.0|0.208|2.998|||Log Rank|Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.||||2.998|0.208|0.7279
92271049|NCT05144477|184444608|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.86|TWO_SIDED|95.0|-1.43|1.21|||t-test, 2 sided|||Outcome analysis for the end of hospital care.||1.21|-1.43|.86
92271050|NCT05144477|184444608|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.75|TWO_SIDED|95.0|-1.1|1.58|||t-test, 2 sided|||Outcome analysis for 30 days after the end of hospital care.||1.58|-1.10|.75
92271051|NCT05144477|184444609|SUPERIORITY||Mean Difference (Final Values)|-8.7||||0.22|TWO_SIDED|95.0|-23.26|5.86|||t-test, 2 sided|||||5.86|-23.26|.22
92271052|NCT05144477|184444609|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)||||χ2(1) = 1.29|||.26
92271053|NCT05144477|184444609|SUPERIORITY|||||||1|||||||Fisher Exact|||A Fisher's Exact Test was conducted to compare the number of participants with a positive screen for PTSD symptoms (score \>=33) to those who did not have a positive screen for PTSD symptoms (score \< 33).||||1.00
92271054|NCT00639158|184444610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The treatment group comparisons for both primary efficacy variables must have demonstrated superiority of ABT-335 + atorvastatin + ezetimibe to declare this arm successful. Thus, no adjustments were made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||A sample size of 212 per arm provided 90% power and \> 99% power with a 2-sided alpha = 0.05 level to detect differences between treatment arms of 6% and 17% in the percent change in HDL-C and TG, respectively, assuming an SD of 19% and 30%, respectively. This sample size provided an overall power of approximately 90% for the 2 primary comparisons. If a loss to follow-up rate of 8% was assumed, the sample size needed to be increased to 230 per arm to maintain the above power.||||< 0.001
92271055|NCT00639158|184444611|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|Corresponding baseline lipid value as the covariate and with effect for treatment group.||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||0.004
92271056|NCT00639158|184444612|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The treatment group comparisons for both primary efficacy variables must have demonstrated superiority of ABT-335 + atorvastatin + ezetimibe to declare this arm successful. Thus, no adjustments were made for multiple comparisons.|ANCOVA|Corresponding baseline lipid value as the covariate and with effect for treatment group.||A sample size of 212 per arm provided 90% power and \> 99% power with a 2-sided alpha = 0.05 level to detect differences between treatment arms of 6% and 17% in the percent change in HDL-C and TG, respectively, assuming an SD of 19% and 30%, respectively. This sample size provided an overall power of approximately 90% for the 2 primary comparisons. If a loss to follow-up rate of 8% was assumed, the sample size needed to be increased to 230 per arm to maintain the above power.||||< 0.001
92271057|NCT00639158|184444613|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Corresponding baseline lipid value as the covariate and with effect for treatment group.||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||< 0.001
92271058|NCT00639158|184444614|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Corresponding lipid value as the covariate and with effect for treatment group.||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||< 0.001
92271059|NCT00639158|184444615|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Corresponding baseline lipid value as the covariate and with effect for treatment group.||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||< 0.001
92271060|NCT00639158|184444616|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Corresponding baseline lipid value as the covariate and with effect for treatment group.||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||< 0.001
92271061|NCT00639158|184444617|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|Rank-sum test||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||< 0.001
92271062|NCT01787188|184444626|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.84|STANDARD_ERROR_OF_MEAN|3.097||0.0005|TWO_SIDED|95.0|-16.93|-4.75|||Mixed Models Analysis|||||-4.75|-16.93|0.0005
92271063|NCT01787188|184444626|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-8.74|STANDARD_ERROR_OF_MEAN|3.154||0.0059|TWO_SIDED|95.0|-14.94|-2.53|||Mixed Models Analysis|||||-2.53|-14.94|0.0059
92271064|NCT01787188|184444627|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.61|STANDARD_ERROR_OF_MEAN|2.641||0.0003|TWO_SIDED|95.0|-14.8|-4.42|||Mixed Models Analysis|||||-4.42|-14.80|0.0003
92271065|NCT01787188|184444627|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-3.9|STANDARD_ERROR_OF_MEAN|2.696||0.1486|TWO_SIDED|95.0|-9.2|1.4|||Mixed Models Analysis|||||1.40|-9.20|0.1486
92271066|NCT01787188|184444628|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.33|STANDARD_ERROR_OF_MEAN|2.865||0.0004|TWO_SIDED|95.0|-15.97|-4.7|||Mixed Models Analysis|||||-4.70|-15.97|0.0004
92271067|NCT01787188|184444628|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.84|STANDARD_ERROR_OF_MEAN|2.917||0.0008|TWO_SIDED|95.0|-15.58|-4.1|||Mixed Models Analysis|||||-4.10|-15.58|0.0008
92271068|NCT01787188|184444629|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.44|STANDARD_ERROR_OF_MEAN|2.521|<|0.0001|TWO_SIDED|95.0|-15.4|-5.48|||ANCOVA|||||-5.48|-15.40|<0.0001
92271069|NCT01787188|184444629|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-7.82|STANDARD_ERROR_OF_MEAN|2.561||0.0024|TWO_SIDED|95.0|-12.85|-2.78|||ANCOVA|||||-2.78|-12.85|0.0024
92271070|NCT01787188|184444630|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.34|STANDARD_ERROR_OF_MEAN|2.623|<|0.0001|TWO_SIDED|95.0|-15.49|-5.18|||Mixed Models Analysis|||||-5.18|-15.49|<0.0001
92271071|NCT01787188|184444630|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-4.39|STANDARD_ERROR_OF_MEAN|2.662||0.0997|TWO_SIDED|95.0|-9.63|0.84|||Mixed Models Analysis|||||0.84|-9.63|0.0997
92271072|NCT01787188|184444631|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.83|STANDARD_ERROR_OF_MEAN|2.905||0.0008|TWO_SIDED|95.0|-15.54|-4.11|||Mixed Models Analysis|||||-4.11|-15.54|0.0008
92271073|NCT01787188|184444631|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.42|STANDARD_ERROR_OF_MEAN|2.951||0.0015|TWO_SIDED|95.0|-15.22|-3.62|||Mixed Models Analysis|||||-3.62|-15.22|0.0015
92271074|NCT01787188|184444632|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.13|STANDARD_ERROR_OF_MEAN|3.147||0.0014|TWO_SIDED|95.0|-16.32|-3.94|||Mixed Models Analysis|||||-3.94|-16.32|0.0014
92271075|NCT01787188|184444632|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.98|STANDARD_ERROR_OF_MEAN|3.198||0.0019|TWO_SIDED|95.0|-16.27|-3.69|||Mixed Models Analysis|||||-3.69|-16.27|0.0019
92271076|NCT01787188|184444633|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.47|STANDARD_ERROR_OF_MEAN|2.593|<|0.0001|TWO_SIDED|95.0|-15.57|-5.37|||ANCOVA|||||-5.37|-15.57|<0.0001
92271077|NCT01787188|184444633|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-8.16|STANDARD_ERROR_OF_MEAN|2.627||0.002|TWO_SIDED|95.0|-13.33|-2.99|||ANCOVA|||||-2.99|-13.33|0.0020
92271078|NCT01787188|184444634|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.45|STANDARD_ERROR_OF_MEAN|2.686||0.0001|TWO_SIDED|95.0|-15.73|-5.17|||Mixed Models Analysis|||||-5.17|-15.73|0.0001
92271079|NCT01787188|184444634|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-4.41|STANDARD_ERROR_OF_MEAN|2.725||0.1065|TWO_SIDED|95.0|-9.77|0.95|||Mixed Models Analysis|||||0.95|-9.77|0.1065
92271080|NCT01787188|184444635|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.68|STANDARD_ERROR_OF_MEAN|2.961||0.0012|TWO_SIDED|95.0|-15.5|-3.85|||Mixed Models Analysis|||||-3.85|-15.50|0.0012
92271081|NCT01787188|184444635|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.65|STANDARD_ERROR_OF_MEAN|3.006||0.0014|TWO_SIDED|95.0|-15.56|-3.74|||Mixed Models Analysis|||||-3.74|-15.56|0.0014
92271082|NCT01787188|184444636|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.26|STANDARD_ERROR_OF_MEAN|3.194||0.0014|TWO_SIDED|95.0|-16.54|-3.97|||Mixed Models Analysis|||||-3.97|-16.54|0.0014
92271083|NCT01787188|184444636|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.45|STANDARD_ERROR_OF_MEAN|3.24||0.0014|TWO_SIDED|95.0|-16.82|-4.08|||Mixed Models Analysis|||||-4.08|-16.82|0.0014
92271084|NCT01787188|184444637|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.52|STANDARD_ERROR_OF_MEAN|2.646|<|0.0001|TWO_SIDED|95.0|-15.72|-5.31|||ANCOVA|||||-5.31|-15.72|<0.0001
92271085|NCT01787188|184444637|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-8.44|STANDARD_ERROR_OF_MEAN|2.68||0.0018|TWO_SIDED|95.0|-13.71|-3.17|||ANCOVA|||||-3.17|-13.71|0.0018
92271086|NCT01787188|184444638|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.98|STANDARD_ERROR_OF_MEAN|2.831||0.0001|TWO_SIDED|95.0|-16.55|-5.41|||Mixed Models Analysis|||||-5.41|-16.55|0.0001
92271087|NCT01787188|184444638|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-6.02|STANDARD_ERROR_OF_MEAN|2.89||0.0379|TWO_SIDED|95.0|-11.71|-0.34|||Mixed Models Analysis|||||-0.34|-11.71|0.0379
92271088|NCT01787188|184444639|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-12.22|STANDARD_ERROR_OF_MEAN|3.152||0.0001|TWO_SIDED|95.0|-18.42|-6.02|||Mixed Models Analysis|||||-6.02|-18.42|0.0001
92271089|NCT01787188|184444639|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.1|STANDARD_ERROR_OF_MEAN|3.21||0.0049|TWO_SIDED|95.0|-15.41|-2.78|||Mixed Models Analysis|||||-2.78|-15.41|0.0049
92271090|NCT01787188|184444640|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.94|STANDARD_ERROR_OF_MEAN|3.359||0.0012|TWO_SIDED|95.0|-17.55|-4.33|||Mixed Models Analysis|||||-4.33|-17.55|0.0012
92271091|NCT01787188|184444640|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.36|STANDARD_ERROR_OF_MEAN|3.422||0.0066|TWO_SIDED|95.0|-16.09|-2.63|||Mixed Models Analysis|||||-2.63|-16.09|0.0066
92271092|NCT01787188|184444641|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-11.67|STANDARD_ERROR_OF_MEAN|2.751|<|0.0001|TWO_SIDED|95.0|-17.08|-6.26|||ANCOVA|||||-6.26|-17.08|<0.0001
92271093|NCT01787188|184444641|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-8.24|STANDARD_ERROR_OF_MEAN|2.795||0.0034|TWO_SIDED|95.0|-13.74|-2.74|||ANCOVA|||||-2.74|-13.74|0.0034
92271094|NCT00854607|184444642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.166|TWO_SIDED|90.0|-0.2|0.77||One-Sided P-value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.77|-0.20|0.166
92271095|NCT00854607|184444643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.269|TWO_SIDED|90.0|-0.65|0.3||One-Sided P-value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.30|-0.65|0.269
92271096|NCT00854607|184444644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.101|TWO_SIDED|90.0|-0.06|0.44||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.44|-0.06|0.101
92271097|NCT00854607|184444645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.457|TWO_SIDED|90.0|-0.42|0.47||One-Sided P-Value|t-test, 1 sided|||Mean Difference Between Non-Responders and Responders||0.47|-0.42|0.457
92271098|NCT00854607|184444646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.168|TWO_SIDED|90.0|-0.87|0.23||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.23|-0.87|0.168
92271099|NCT00854607|184444647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.127|TWO_SIDED|90.0|-0.09|0.46||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.46|-0.09|0.127
92271100|NCT00854607|184444648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.054|TWO_SIDED|90.0|-0.01|0.96||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.96|-0.01|0.054
92271101|NCT00854607|184444649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.285|TWO_SIDED|90.0|-0.41|0.83||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.83|-0.41|0.285
92271102|NCT00854607|184444650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.159|TWO_SIDED|90.0|-0.27|1.08||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||1.08|-0.27|0.159
92271103|NCT00854607|184444651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.071|TWO_SIDED|90.0|-0.02|0.32||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.32|-0.02|0.071
92271104|NCT00854607|184444652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.078|TWO_SIDED|90.0|-0.03|0.38||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.38|-0.03|0.078
92271105|NCT00854607|184444653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.109|TWO_SIDED|90.0|-0.13|0.91||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.91|-0.13|0.109
92271106|NCT00854607|184444654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65||||0.03|TWO_SIDED|90.0|0.09|1.22||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||1.22|0.09|0.030
92271107|NCT00854607|184444655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.293|TWO_SIDED|90.0|-0.63|0.32||One-Sided P-value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.32|-0.63|0.293
92271108|NCT00854607|184444656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.213|TWO_SIDED|90.0|-0.83|0.29||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.29|-0.83|0.213
92271109|NCT01783483|184444659|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Comparison of mean CT scan scores.||||<0.0001
92271110|NCT01783483|184444660|SUPERIORITY_OR_OTHER|||||||0.0007|||||||t-test, 2 sided|||||||0.0007
92271111|NCT01783483|184444661|SUPERIORITY_OR_OTHER|||||||0.0539|||||||t-test, 2 sided|||At Rest||||0.0539
92271112|NCT01783483|184444661|SUPERIORITY_OR_OTHER|||||||0.0015|||||||t-test, 2 sided|||After Forced Coughing||||0.0015
92271113|NCT01783483|184444662|SUPERIORITY_OR_OTHER|||||||0.2125|||||||t-test, 2 sided|||At Rest||||0.2125
92271114|NCT01783483|184444662|SUPERIORITY_OR_OTHER|||||||0.0014|||||||t-test, 2 sided|||After Forced Coughing||||0.0014
92271115|NCT01783483|184444663|SUPERIORITY_OR_OTHER|||||||0.0049|||||||t-test, 2 sided|||At Rest||||0.0049
92271116|NCT01783483|184444663|SUPERIORITY_OR_OTHER|||||||0.0183|||||||t-test, 2 sided|||After Forced Coughing||||0.0183
92271117|NCT01783483|184444664|SUPERIORITY_OR_OTHER|||||||0.6653|||||||t-test, 2 sided|||At Rest||||0.6653
92271118|NCT01783483|184444664|SUPERIORITY_OR_OTHER|||||||0.2295|||||||t-test, 2 sided|||After Forced Coughing||||0.2295
92271119|NCT01783483|184444666|SUPERIORITY_OR_OTHER|||||||0.37|||||||t-test, 2 sided|||Index (Day 0 to Hospital Discharge)||||0.370
92271120|NCT01783483|184444667|SUPERIORITY_OR_OTHER|||||||0.778|||||||t-test, 2 sided|||From Hospital Discharge to 3-week||||0.778
92271121|NCT01783483|184444668|SUPERIORITY_OR_OTHER|||||||0.055|||||||t-test, 2 sided|||From 3-week to 6-week post-op||||0.055
92271122|NCT01783483|184444670|SUPERIORITY_OR_OTHER|||||||0.113|||||||t-test, 2 sided|||From 3 month to 6-month post op||||0.113
92271123|NCT02268045|184444671|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The RR, with the corresponding 95% CI, was calculated for each treatment arm and compared using Fisher's exact test at a one-sided 0.025 type I error rate. A non-inferiority margin of 13% was assumed with ≥ 80% power to detect treatment differences. Non-inferiority was concluded if the one-sided 95% CI was above the -13% margin set for the study.|Percentage difference|0.7|||||ONE_SIDED|95.0|-13.0||||||For the ITT population||||-13|
92271124|NCT02268045|184444671|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The RR, with the corresponding 95% CI, was calculated for each treatment arm and compared using Fisher's exact test at a one-sided 0.025 type I error rate. A non-inferiority margin of 13% was assumed with ≥ 80% power to detect treatment differences. Non-inferiority was concluded if the one-sided 95% CI was above the -13% margin set for the study.|percentage difference|3.0|||||ONE_SIDED|95.0|-13.0||||||For the PP population||||-13|
92271125|NCT02268045|184444672|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio RTXM83 to Mabthera|99.2|||||TWO_SIDED|90.0|93.6|105.0|||||For the ratio: RTXM83 represents the numerator and Mabthera the denominator|||105|93.6|
92271126|NCT02268045|184444673|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio RTXM83 to Mabthera|103.0|||||TWO_SIDED|90.0|98.5|107.0|||||For the ratio: RTXM83 represents the numerator and Mabthera the denominator|||107|98.5|
92271127|NCT02268045|184444674|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio RTXM83 to Mabthera|99.6|||||TWO_SIDED|90.0|93.9|105.0|||||For the ratio: RTXM83 represents the numerator and Mabthera the denominator|||105|93.9|
92271128|NCT02268045|184444675|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio RTXM83 to Mabthera|104.0|||||TWO_SIDED|90.0|99.5|109.0|||||For the ratio: RTXM83 represents the numerator and Mabthera the denominator|||109|99.5|
92271129|NCT02268045|184444679|OTHER|||||||0.457|||||||Log Rank|||||||0.4570
92271130|NCT01766310|184444680|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.68|STANDARD_DEVIATION|1.3||0.05|TWO_SIDED|95.0|-0.09|1.44|||t-test, 2 sided|||||1.44|-0.09|0.05
92271131|NCT02125734|184444715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.081||||0.0017|TWO_SIDED|95.0|0.031|0.13|||ANCOVA|||||0.130|0.031|0.0017
92271132|NCT01556490|184444721|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.4552|TWO_SIDED|95.0|0.89|1.31|||Log Rank|||||1.31|0.89|0.4552
92271133|NCT01556490|184444722|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0626|TWO_SIDED|95.0|0.61|1.01|||Log Rank|||||1.01|0.61|0.0626
92271134|NCT01556490|184444723|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0227|TWO_SIDED|95.0|0.59|0.96|||Log Rank|||||.96|.59|0.0227
92271135|NCT01556490|184444724|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0043|TWO_SIDED|95.0|0.52|0.89|||Log Rank|||||.89|.52|0.0043
92271136|NCT01556490|184444725|SUPERIORITY||Mean Difference (Final Values)|15.5||||0.0001|TWO_SIDED|95.0|8.6|22.3|||2 sided calculated using continuity|2 sided calculated using continuity adjusted Wald Approach||||22.3|8.6|0.0001
92271137|NCT01652872|184444733|OTHER||Treatment Difference|-0.27|||||TWO_SIDED|95.0|-6.39|5.85|||||Difference is fixed dose - titration.|||5.85|-6.39|
92271138|NCT01652872|184444733|OTHER||Risk Ratio (RR)|0.998|||||TWO_SIDED|95.0|0.776|1.285|||Cochran-Mantel-Haenszel|Stratified by RBC transfusion received within 12 months prior to randomization (yes/no) and site practice setting (nephrology/non-nephrology).|A risk ratio \< 1.0 indicates a lower event rate for the fixed dose group relative to Hb-based titration group.|||1.285|0.776|
92327726|NCT04076059|184560660|SUPERIORITY||Cox Proportional Hazard|0.172|||<|0.0001|TWO_SIDED|95.0|0.107|0.276|||Log Rank|Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.||||0.276|0.107|<0.0001
92271139|NCT01652872|184444734|OTHER|Stratified by RBC transfusion received within 12 months prior to randomization (yes/no) and site practice setting (nephrology/non-nephrology) and accounting for participant exposure time.|Least Squares Mean (LSM) Ratio|1.28|||||TWO_SIDED|95.0|0.81|2.05|||Negative binomial regression model||Least Squares Mean (LSM) ratio is fixed dose relative to titration.|||2.05|0.81|
92271140|NCT01652872|184444735|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.76|1.35|||Cox Proportional Hazard Model|Stratified by RBC transfusion received within 12 months prior to randomization (yes/no) and site practice setting (nephrology/non-nephrology).|Hazard ratio is fixed dose relative to titration.|||1.35|0.76|
92271141|NCT01652872|184444736|OTHER||Median of the difference|-0.34|||||TWO_SIDED|95.0|-0.46|-0.22|||Hodges-Lehmann estimate||Difference is fixed dose - titration.||The 2-sided 95% confidence intervals were obtained using a non-parametric Wilcoxon rank-sum statistic.|-0.22|-0.46|
92271142|NCT01652872|184444737|OTHER||Median of the difference|-22.1|||||TWO_SIDED|95.0|-26.1|-18.1|||Hodges-Lehmann estimate||Difference is fixed dose - titration.||The 2-sided 95% confidence intervals were obtained using a non-parametric Wilcoxon rank-sum statistic.|-18.1|-26.1|
92271143|NCT03985293|184444771|SUPERIORITY||Difference in LS Mean|-0.47||||0.0071|TWO_SIDED|90.0|-0.76|-0.18|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.18|-0.76|0.0071
92271144|NCT03985293|184444771|SUPERIORITY||Difference in LS Mean|-0.9|||<|0.0001|TWO_SIDED|90.0|-1.18|-0.62|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.62|-1.18|<.0001
92271145|NCT03985293|184444771|SUPERIORITY||Difference in LS Mean|-1.01|||<|0.0001|TWO_SIDED|90.0|-1.3|-0.73|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.73|-1.30|<.0001
92271146|NCT03985293|184444771|SUPERIORITY||Difference in LS Mean|-0.94|||<|0.0001|TWO_SIDED|90.0|-1.24|-0.65|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.65|-1.24|<.0001
92271147|NCT03985293|184444771|SUPERIORITY||Difference in LS Mean|-1.16|||<|0.0001|TWO_SIDED|90.0|-1.47|-0.86|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.86|-1.47|<.0001
92271148|NCT03985293|184444772|SUPERIORITY||Odds Ratio (OR)|5.11|||||TWO_SIDED|90.0|1.84|14.18|||Regression, Logistic||The Odds ratio model included multiple imputation. PF-06882961 = Test Placebo = Reference|||14.18|1.84|
92271149|NCT03985293|184444772|SUPERIORITY||Odds Ratio (OR)|16.85|||||TWO_SIDED|90.0|6.18|45.93|||Regression, Logistic||The Odds ratio model included multiple imputation. PF-06882961 = Test Placebo = Reference|||45.93|6.18|
92271150|NCT03985293|184444772|SUPERIORITY||Odds Ratio (OR)|18.79|||||TWO_SIDED|90.0|7.03|50.21|||Regression, Logistic||The Odds ratio model included multiple imputation. PF-06882961 = Test Placebo = Reference|||50.21|7.03|
92271151|NCT03985293|184444772|SUPERIORITY||Odds Ratio (OR)|23.97|||||TWO_SIDED|90.0|8.66|66.39|||Regression, Logistic||The Odds ratio model included multiple imputation. PF-06882961 = Test Placebo = Reference|||66.39|8.66|
92271152|NCT03985293|184444772|SUPERIORITY||Odds Ratio (OR)|24.46|||||TWO_SIDED|90.0|8.72|68.57|||Regression, Logistic||The Odds ratio model included multiple imputation. PF-06882961 = Test Placebo = Reference|||68.57|8.72|
92271153|NCT03985293|184444773|SUPERIORITY||Difference in LS Mean|-0.09||||0.1578|TWO_SIDED|90.0|-0.19|0.01|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.01|-0.19|0.1578
92271154|NCT03985293|184444773|SUPERIORITY||Difference in LS Mean|-0.22||||0.0003|TWO_SIDED|90.0|-0.32|-0.12|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.12|-0.32|0.0003
92271155|NCT03985293|184444773|SUPERIORITY||Difference in LS Mean|-0.2||||0.0013|TWO_SIDED|90.0|-0.3|-0.1|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.10|-0.30|0.0013
92271156|NCT03985293|184444773|SUPERIORITY||Difference in LS Mean|-0.24||||0.0001|TWO_SIDED|90.0|-0.34|-0.14|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.14|-0.34|0.0001
92271157|NCT03985293|184444773|SUPERIORITY||Difference in LS Mean|-0.26|||<|0.0001|TWO_SIDED|90.0|-0.36|-0.16|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.16|-0.36|<.0001
92271158|NCT03985293|184444774|SUPERIORITY||Difference in LS Mean|-0.3||||0.0013|TWO_SIDED|90.0|-0.46|-0.15|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.15|-0.46|0.0013
92271159|NCT03985293|184444774|SUPERIORITY||Difference in LS Mean|-0.43|||<|0.0001|TWO_SIDED|90.0|-0.58|-0.28|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.28|-0.58|<.0001
92271160|NCT03985293|184444774|SUPERIORITY||Difference in LS Mean|-0.55|||<|0.0001|TWO_SIDED|90.0|-0.7|-0.4|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.40|-0.70|<.0001
92271161|NCT03985293|184444774|SUPERIORITY||Difference in LS Mean|-0.5|||<|0.0001|TWO_SIDED|90.0|-0.66|-0.35|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.35|-0.66|<.0001
92271162|NCT03985293|184444774|SUPERIORITY||Difference in LS Mean|-0.56|||<|0.0001|TWO_SIDED|90.0|-0.71|-0.41|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.41|-0.71|<.0001
92271163|NCT03985293|184444775|SUPERIORITY||Difference in LS Mean|-0.4||||0.0004|TWO_SIDED|90.0|-0.59|-0.22|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.22|-0.59|0.0004
92271164|NCT03985293|184444775|SUPERIORITY||Difference in LS Mean|-0.64|||<|0.0001|TWO_SIDED|90.0|-0.81|-0.46|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.46|-0.81|<.0001
92271165|NCT03985293|184444775|SUPERIORITY||Difference in LS Mean|-0.77|||<|0.0001|TWO_SIDED|90.0|-0.95|-0.59|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.59|-0.95|<.0001
92271166|NCT03985293|184444775|SUPERIORITY||Difference in LS Mean|-0.72|||<|0.0001|TWO_SIDED|90.0|-0.91|-0.53|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.53|-0.91|<.0001
92271167|NCT03985293|184444775|SUPERIORITY||Difference in LS Mean|-0.77|||<|0.0001|TWO_SIDED|90.0|-0.95|-0.59|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.59|-0.95|<.0001
92271168|NCT03985293|184444776|SUPERIORITY||Difference in LS Mean|-0.37||||0.0054|TWO_SIDED|90.0|-0.59|-0.15|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.15|-0.59|0.0054
92271169|NCT03985293|184444776|SUPERIORITY||Difference in LS Mean|-0.65|||<|0.0001|TWO_SIDED|90.0|-0.86|-0.44|||Mixed Models Analysis||PF-06882961 = Test Placebo = Reference|||-0.44|-0.86|<.0001
92271170|NCT03985293|184444776|SUPERIORITY||Difference in LS Mean|-0.84|||<|0.0001|TWO_SIDED|90.0|-1.06|-0.63|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.63|-1.06|<.0001
92271171|NCT03985293|184444776|SUPERIORITY||Difference in LS Mean|-0.8|||<|0.0001|TWO_SIDED|90.0|-1.02|-0.57|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.57|-1.02|<.0001
92271172|NCT03985293|184444776|SUPERIORITY||Difference in LS Mean|-0.89|||<|0.0001|TWO_SIDED|90.0|-1.11|-0.67|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.67|-1.11|<.0001
92271173|NCT03985293|184444777|SUPERIORITY||Difference in LS Mean|-0.44||||0.0061|TWO_SIDED|90.0|-0.71|-0.18|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.18|-0.71|0.0061
92271174|NCT03985293|184444777|SUPERIORITY||Difference in LS Mean|-0.79|||<|0.0001|TWO_SIDED|90.0|-1.05|-0.54|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.54|-1.05|<.0001
92271175|NCT03985293|184444777|SUPERIORITY||Difference in LS Mean|-0.98|||<|0.0001|TWO_SIDED|90.0|-1.24|-0.72|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.72|-1.24|<.0001
92271176|NCT03985293|184444777|SUPERIORITY||Difference in LS Mean|-0.83|||<|0.0001|TWO_SIDED|90.0|-1.1|-0.56|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.56|-1.10|<.0001
92271177|NCT03985293|184444777|SUPERIORITY||Difference in LS Mean|-1.03|||<|0.0001|TWO_SIDED|90.0|-1.3|-0.75|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.75|-1.30|<.0001
92271178|NCT03985293|184444778|SUPERIORITY||Difference in LS Mean|-17.13||||0.0014|TWO_SIDED|90.0|-25.94|-8.33|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-8.33|-25.94|0.0014
92271179|NCT03985293|184444778|SUPERIORITY||Difference in LS Mean|-16.38||||0.0021|TWO_SIDED|90.0|-25.08|-7.67|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|Difference in LS Mean|||-7.67|-25.08|0.0021
92271180|NCT03985293|184444778|SUPERIORITY||Difference in LS Mean|-22.2|||<|0.0001|TWO_SIDED|90.0|-30.88|-13.53|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-13.53|-30.88|<.0001
92271181|NCT03985293|184444778|SUPERIORITY||Difference in LS Mean|-18.59||||0.0006|TWO_SIDED|90.0|-27.43|-9.76|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-9.76|-27.43|0.0006
92271182|NCT03985293|184444778|SUPERIORITY||Difference in LS Mean|-25.33|||<|0.0001|TWO_SIDED|90.0|-34.0|-16.67|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-16.67|-34.00|<.0001
92271183|NCT03985293|184444779|SUPERIORITY||Difference in LS Mean|-11.79||||0.0468|TWO_SIDED|90.0|-21.55|-2.04|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-2.04|-21.55|0.0468
92271184|NCT03985293|184444779|SUPERIORITY||Difference in LS Mean|-18.68||||0.0012|TWO_SIDED|90.0|-28.12|-9.25|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-9.25|-28.12|0.0012
92271185|NCT03985293|184444779|SUPERIORITY||Difference in LS Mean|-27.44|||<|0.0001|TWO_SIDED|90.0|-37.03|-17.85|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-17.85|-37.03|<.0001
92271186|NCT03985293|184444779|SUPERIORITY||Difference in LS Mean|-27.36|||<|0.0001|TWO_SIDED|90.0|-37.22|-17.51|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-17.51|-37.22|<.0001
92271187|NCT03985293|184444779|SUPERIORITY||Difference in LS Mean|-28.09|||<|0.0001|TWO_SIDED|90.0|-37.72|-18.45|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-18.45|-37.72|<.0001
92271188|NCT03985293|184444780|SUPERIORITY||Difference in LS Mean|-15.9||||0.0091|TWO_SIDED|90.0|-25.9|-5.9|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-5.90|-25.90|0.0091
92271189|NCT03985293|184444780|SUPERIORITY||Difference in LS Mean|-25.53|||<|0.0001|TWO_SIDED|90.0|-35.18|-15.89|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-15.89|-35.18|<.0001
92271190|NCT03985293|184444780|SUPERIORITY||Difference in LS Mean|-30.01|||<|0.0001|TWO_SIDED|90.0|-39.8|-20.21|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-20.21|-39.80|<.0001
92271191|NCT03985293|184444780|SUPERIORITY||Difference in LS Mean|-27.48|||<|0.0001|TWO_SIDED|90.0|-37.63|-17.33|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-17.33|-37.63|<.0001
92271192|NCT03985293|184444780|SUPERIORITY||Difference in LS Mean|-31.77|||<|0.0001|TWO_SIDED|90.0|-41.77|-21.78|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-21.78|-41.77|<.0001
92271193|NCT03985293|184444781|SUPERIORITY||Difference in LS Mean|-3.63||||0.5449|TWO_SIDED|90.0|-13.51|6.25|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||6.25|-13.51|0.5449
92271194|NCT03985293|184444781|SUPERIORITY||Difference in LS Mean|-17.12||||0.0031|TWO_SIDED|90.0|-26.62|-7.63|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-7.63|-26.62|0.0031
92271195|NCT03985293|184444781|SUPERIORITY||Difference in LS Mean|-20.64||||0.0005|TWO_SIDED|90.0|-30.31|-10.96|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-10.96|-30.31|0.0005
92271196|NCT03985293|184444781|SUPERIORITY||Difference in LS Mean|-24.12|||<|0.0001|TWO_SIDED|90.0|-34.2|-14.04|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-14.04|-34.20|<.0001
92271197|NCT03985293|184444781|SUPERIORITY||Difference in LS Mean|-25.21|||<|0.0001|TWO_SIDED|90.0|-35.44|-14.97|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-14.97|-35.44|<.0001
92271198|NCT03985293|184444782|SUPERIORITY||Difference in LS Mean|-7.7||||0.294|TWO_SIDED|90.0|-19.78|4.38|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||4.38|-19.78|0.2940
92271199|NCT03985293|184444782|SUPERIORITY||Difference in LS Mean|-23.77||||0.0008|TWO_SIDED|90.0|-35.37|-12.17|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-12.17|-35.37|0.0008
92271200|NCT03985293|184444782|SUPERIORITY||Difference in LS Mean|-33.23|||<|0.0001|TWO_SIDED|90.0|-45.05|-21.4|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-21.40|-45.05|<.0001
92271201|NCT03985293|184444782|SUPERIORITY||Difference in LS Mean|-31.66|||<|0.0001|TWO_SIDED|90.0|-44.14|-19.19|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-19.19|-44.14|<.0001
92271202|NCT03985293|184444782|SUPERIORITY||Difference in LS Mean|-33.59|||<|0.0001|TWO_SIDED|90.0|-46.67|-20.51|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-20.51|-46.67|<.0001
92271203|NCT03985293|184444783|SUPERIORITY||Difference in LS Mean|-14.12||||0.0464|TWO_SIDED|90.0|-25.77|-2.47|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-2.47|-25.77|0.0464
92271204|NCT03985293|184444783|SUPERIORITY||Difference in LS Mean|-25.84||||0.0002|TWO_SIDED|90.0|-37.05|-14.62|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-14.62|-37.05|0.0002
92271205|NCT03985293|184444783|SUPERIORITY||Difference in LS Mean|-31.78|||<|0.0001|TWO_SIDED|90.0|-43.2|-20.35|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-20.35|-43.20|<.0001
92271206|NCT03985293|184444783|SUPERIORITY||Difference in LS Mean|-27.02||||0.0002|TWO_SIDED|90.0|-39.03|-15.01|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-15.01|-39.03|0.0002
92271207|NCT03985293|184444783|SUPERIORITY||Difference in LS Mean|-33.24|||<|0.0001|TWO_SIDED|90.0|-45.63|-20.84|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-20.84|-45.63|<.0001
92271208|NCT03985293|184444784|SUPERIORITY||Difference in LS Mean|0.06||||0.8011|TWO_SIDED|90.0|-0.33|0.44|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.44|-0.33|0.8011
92271209|NCT03985293|184444784|SUPERIORITY||Difference in LS Mean|0.02||||0.9149|TWO_SIDED|90.0|-0.35|0.4|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.40|-0.35|0.9149
92271210|NCT03985293|184444784|SUPERIORITY||Difference in LS Mean|-0.08||||0.7216|TWO_SIDED|90.0|-0.46|0.3|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.30|-0.46|0.7216
92271211|NCT03985293|184444784|SUPERIORITY||Difference in LS Mean|-0.42||||0.0758|TWO_SIDED|90.0|-0.8|-0.03|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.03|-0.80|0.0758
92271212|NCT03985293|184444784|SUPERIORITY||Difference in LS Mean|-0.4||||0.086|TWO_SIDED|90.0|-0.77|-0.02|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.02|-0.77|0.0860
92271213|NCT03985293|184444785|SUPERIORITY||Difference in LS Mean|-0.08||||0.7898|TWO_SIDED|90.0|-0.59|0.42|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.42|-0.59|0.7898
92271214|NCT03985293|184444785|SUPERIORITY||Difference in LS Mean|0.16||||0.5829|TWO_SIDED|90.0|-0.33|0.66|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.66|-0.33|0.5829
92271215|NCT03985293|184444785|SUPERIORITY||Difference in LS Mean|-0.52||||0.0827|TWO_SIDED|90.0|-1.02|-0.03|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.03|-1.02|0.0827
92271216|NCT03985293|184444785|SUPERIORITY||Difference in LS Mean|-0.8||||0.0101|TWO_SIDED|90.0|-1.31|-0.29|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.29|-1.31|0.0101
92271217|NCT03985293|184444785|SUPERIORITY||Difference in LS Mean|-1.09||||0.0004|TWO_SIDED|90.0|-1.59|-0.59|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.59|-1.59|0.0004
92271218|NCT03985293|184444786|SUPERIORITY||Difference in LS Mean|-0.1||||0.7985|TWO_SIDED|90.0|-0.75|0.55|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.55|-0.75|0.7985
92327727|NCT04076059|184560661|SUPERIORITY|||||||0.0036|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by volume of disease and previous docetaxel use during screening period. Parameter estimate: Difference in percentage||||||0.0036
92271219|NCT03985293|184444786|SUPERIORITY||Difference in LS Mean|-0.23||||0.5484|TWO_SIDED|90.0|-0.86|0.4|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.40|-0.86|0.5484
92271220|NCT03985293|184444786|SUPERIORITY||Difference in LS Mean|-0.75||||0.0541|TWO_SIDED|90.0|-1.38|-0.11|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.11|-1.38|0.0541
92271221|NCT03985293|184444786|SUPERIORITY||Difference in LS Mean|-1.6|||<|0.0001|TWO_SIDED|90.0|-2.26|-0.95|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.95|-2.26|<.0001
92271222|NCT03985293|184444786|SUPERIORITY||Difference in LS Mean|-2.25|||<|0.0001|TWO_SIDED|90.0|-2.9|-1.6|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-1.60|-2.90|<.0001
92271223|NCT03985293|184444787|SUPERIORITY||Difference in LS Mean|0.31||||0.4692|TWO_SIDED|90.0|-0.4|1.03|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||1.03|-0.40|0.4692
92271224|NCT03985293|184444787|SUPERIORITY||Difference in LS Mean|0.09||||0.8274|TWO_SIDED|90.0|-0.6|0.78|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.78|-0.60|0.8274
92271225|NCT03985293|184444787|SUPERIORITY||Difference in LS Mean|-0.72||||0.0887|TWO_SIDED|90.0|-1.42|-0.02|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.02|-1.42|0.0887
92271226|NCT03985293|184444787|SUPERIORITY||Difference in LS Mean|-1.61||||0.0003|TWO_SIDED|90.0|-2.33|-0.88|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.88|-2.33|0.0003
92271227|NCT03985293|184444787|SUPERIORITY||Difference in LS Mean|-2.95|||<|0.0001|TWO_SIDED|90.0|-3.67|-2.22|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-2.22|-3.67|<.0001
92271228|NCT03985293|184444788|SUPERIORITY||Difference in LS Mean|0.15||||0.7758|TWO_SIDED|90.0|-0.7|0.99|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.99|-0.70|0.7758
92271229|NCT03985293|184444788|SUPERIORITY||Difference in LS Mean|0.23||||0.6367|TWO_SIDED|90.0|-0.58|1.05|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||1.05|-0.58|0.6367
92327728|NCT04076059|184560662|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by volume of disease and previous docetaxel use during screening period. Parameter estimate: Difference in percentage||||||<0.0001
92271230|NCT03985293|184444788|SUPERIORITY||Difference in LS Mean|-0.81||||0.1082|TWO_SIDED|90.0|-1.63|0.02|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.02|-1.63|0.1082
92271231|NCT03985293|184444788|SUPERIORITY||Difference in LS Mean|-2.28|||<|0.0001|TWO_SIDED|90.0|-3.14|-1.42|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-1.42|-3.14|<.0001
92271232|NCT03985293|184444788|SUPERIORITY||Difference in LS Mean|-3.57|||<|0.0001|TWO_SIDED|90.0|-4.44|-2.7|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-2.70|-4.44|<.0001
92271233|NCT03985293|184444789|SUPERIORITY||Difference in LS Mean|0.45||||0.4325|TWO_SIDED|90.0|-0.5|1.41|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||1.41|-0.50|0.4325
92271234|NCT03985293|184444789|SUPERIORITY||Difference in LS Mean|0.38||||0.4978|TWO_SIDED|90.0|-0.54|1.3|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||1.30|-0.54|0.4978
92271235|NCT03985293|184444789|SUPERIORITY||Difference in LS Mean|-0.73||||0.197|TWO_SIDED|90.0|-1.66|0.2|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.20|-1.66|0.1970
92271236|NCT03985293|184444789|SUPERIORITY||Difference in LS Mean|-2.04||||0.0006|TWO_SIDED|90.0|-3.01|-1.07|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-1.07|-3.01|0.0006
92271237|NCT03985293|184444789|SUPERIORITY||Difference in LS Mean|-4.17|||<|0.0001|TWO_SIDED|90.0|-5.15|-3.18|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-3.18|-5.15|<.0001
92271238|NCT02913261|184444837|SUPERIORITY||Odds Ratio (OR)|2.64|||<|0.0001|TWO_SIDED|95.0|1.65|4.22|||Stratified Cochran-Mantel-Haenszel|||||4.22|1.65|<.0001
92271239|NCT02913261|184444838|SUPERIORITY||Odds Ratio (OR)|2.38||||0.0005|TWO_SIDED|95.0|1.43|3.94|||Stratified Cochran-Mantel-Haenszel|||||3.94|1.43|0.0005
92271240|NCT02913261|184444839|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0029|TWO_SIDED|95.0|1.24|3.17|||Stratified Cochran-Mantel-Haenszel|||||3.17|1.24|0.0029
92271241|NCT02913261|184444851|SUPERIORITY||Odds Ratio (OR)|3.07|||<|0.0001|TWO_SIDED|95.0|1.8|5.25|||Stratified Cochran-Mantel-Haenszel|||||5.25|1.80|<.0001
92271242|NCT01236053|184444864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.0002|TWO_SIDED|95.0|1.07|1.24|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)"|||1.24|1.07|0.0002
92271243|NCT01236053|184444864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.0976|TWO_SIDED|95.0|0.99|1.15|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.15|0.99|0.0976
92327729|NCT04076059|184560663|SUPERIORITY||Cox Proportional Hazard|0.797||||0.5899|TWO_SIDED|95.0|0.35|1.819|||Log Rank|Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.||||1.819|0.350|0.5899
92271244|NCT01236053|184444864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29|||<|0.0001|TWO_SIDED|95.0|1.23|1.36|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)"|||1.36|1.23|<0.0001
92271245|NCT01236053|184444864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19|||<|0.0001|TWO_SIDED|95.0|1.13|1.26|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.26|1.13|<0.0001
92271246|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.1468|TWO_SIDED|95.0|0.97|1.23|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.23|0.97|0.1468
92271247|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.8545|TWO_SIDED|95.0|0.9|1.14|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.14|0.90|0.8545
92271248|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37|||<|0.0001|TWO_SIDED|95.0|1.27|1.48|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.48|1.27|<0.0001
92271249|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27|||<|0.0001|TWO_SIDED|95.0|1.18|1.37|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.37|1.18|<0.0001
92271250|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.0033|TWO_SIDED|95.0|1.07|1.43|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.43|1.07|0.0033
92271251|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.0474|TWO_SIDED|95.0|1.0|1.33|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.33|1.00|0.0474
92271252|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29|||<|0.0001|TWO_SIDED|95.0|1.16|1.43|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.43|1.16|<0.0001
92271253|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.0008|TWO_SIDED|95.0|1.08|1.32|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.32|1.08|0.0008
92271254|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.019|TWO_SIDED|95.0|1.03|1.33|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.33|1.03|0.0190
92271255|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.3366|TWO_SIDED|95.0|0.94|1.21|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.21|0.94|0.3366
92327730|NCT04076059|184560664|SUPERIORITY||Difference in Percentage|53.5|||<|0.0001|TWO_SIDED|95.0|40.1|66.9|||Cochran-Mantel-Haenszel|Stratified by volume of disease and previous docetaxel use during screening period. Parameter estimate: Difference in percentage||||66.9|40.1|<0.0001
92271256|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.0001|TWO_SIDED|95.0|1.09|1.31|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.31|1.09|0.0001
92271257|NCT01236053|184444865|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.0464|TWO_SIDED|95.0|1.0|1.2|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.20|1.00|0.0464
92271258|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.1194|TWO_SIDED|95.0|0.97|1.26|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.26|0.97|0.1194
92271259|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.7004|TWO_SIDED|95.0|0.9|1.17|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.17|0.90|0.7004
92271260|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37|||<|0.0001|TWO_SIDED|95.0|1.26|1.49|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.49|1.26|<0.0001
92271261|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26|||<|0.0001|TWO_SIDED|95.0|1.16|1.38|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.38|1.16|<0.0001
92271262|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.0134|TWO_SIDED|95.0|1.03|1.34|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.34|1.03|0.0134
92271263|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.1592|TWO_SIDED|95.0|0.96|1.25|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.25|0.96|0.1592
92271264|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35|||<|0.0001|TWO_SIDED|95.0|1.24|1.47|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.47|1.24|<0.0001
92271265|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25|||<|0.0001|TWO_SIDED|95.0|1.14|1.36|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.36|1.14|<0.0001
92271266|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.0131|TWO_SIDED|95.0|1.03|1.33|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.33|1.03|0.0131
92271267|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.2731|TWO_SIDED|95.0|0.95|1.22|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.22|0.95|0.2731
92271268|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.0012|TWO_SIDED|95.0|1.06|1.28|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.28|1.06|0.0012
92327731|NCT04076059|184560665|SUPERIORITY||Difference in Percentage|-5.2||||0.8312|TWO_SIDED|95.0|-25.4|14.9|||Cochran-Mantel-Haenszel|Stratified by volume of disease and previous docetaxel use during screening period. Parameter estimate: Difference in percentage||||14.9|-25.4|0.8312
92271269|NCT01236053|184444866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.1477|TWO_SIDED|95.0|0.98|1.17|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.17|0.98|0.1477
92271270|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.0369|TWO_SIDED|95.0|1.01|1.41|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag)."|||1.41|1.01|0.0369
92271271|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.3132|TWO_SIDED|95.0|0.92|1.29|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.29|0.92|0.3132
92271272|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.0762|TWO_SIDED|95.0|0.99|1.26|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag)."|||1.26|0.99|0.0762
92271273|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.7243|TWO_SIDED|95.0|0.91|1.15|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.15|0.91|0.7243
92271274|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.0775|TWO_SIDED|95.0|0.97|1.65|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag)."|||1.65|0.97|0.0775
92271275|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.2649|TWO_SIDED|95.0|0.89|1.52|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.52|0.89|0.2649
92327732|NCT04186806|184560666|NON_INFERIORITY|Non-inferiority margin was 1.5 cm|Mean Difference (Final Values)|-0.3426|||||TWO_SIDED|95.0|-1.2601|0.5749||The conclusion of the non-inferiority test is based on the 95% confidence interval and not on a p value. A p value was not computed.|Mixed Models Analysis||Non-inferiority testing was carried out using 95% confidence intervals.|||0.5749|-1.2601|
92327733|NCT01661933|184560725|SUPERIORITY_OR_OTHER|||||||0.693|TWO_SIDED||||||t-test, 2 sided|||||||0.693
92327734|NCT01661933|184560726|SUPERIORITY_OR_OTHER||||||=|0.837|TWO_SIDED||||||t-test, 2 sided|||||||=0.837
92327735|NCT01661933|184560727|SUPERIORITY_OR_OTHER||||||=|0.99|ONE_SIDED||||||Binomial distribution|||The null hypothesis was that irrespective of hookworm infection, GC-1g would result in a 2-point or more deterioration in the Marsh score. A binomial (yes=deterioration or no=no deterioration) distribution was applied to pre- and post-GC-1g paired biopsies.||||=0.99
92327736|NCT01661933|184560728|SUPERIORITY_OR_OTHER||||||=|0.005|TWO_SIDED||||||Mixed effects model.|||||||=0.005
92271276|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.0257|TWO_SIDED|95.0|1.02|1.43|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag)."|||1.43|1.02|0.0257
92271277|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.254|TWO_SIDED|95.0|0.93|1.3|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.30|0.93|0.2540
92271278|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.5141|TWO_SIDED|95.0|0.76|1.75|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag)."|||1.75|0.76|0.5141
92271279|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8208|TWO_SIDED|95.0|0.69|1.6|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.60|0.69|0.8208
92271280|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.0562|TWO_SIDED|95.0|0.99|1.62|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag)."|||1.62|0.99|0.0562
92271281|NCT01236053|184444867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.2596|TWO_SIDED|95.0|0.9|1.47|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.47|0.90|0.2596
92327737|NCT02720744|184560747|SUPERIORITY||Mean Difference (Net)|6.13|||<|0.001|TWO_SIDED|95.0|3.52|8.75||Each outcome measure for the 9.0 g, 7.5 g, and 6.0 g doses were tested at the 2-sided α level of 0.05.|Mixed Models Analysis|P-values were estimated using an MMRM with change from baseline (or its log transformation).|Difference from placebo was defined by the FT218 mean value minus placebo value.|||8.75|3.52|<0.001
92327738|NCT02720744|184560748|SUPERIORITY||Odds Ratio (OR)|5.56|||<|0.001|TWO_SIDED|95.0|2.76|11.23||Each outcome measure for the 9.0 g, 7.5 g, and 6.0 g doses were tested at the 2-sided α level of 0.05.|GLIMMIX model|P-values estimated with categorized CGI-Improvement response (very much or much improved versus other category) at the specific visit.||||11.23|2.76|<0.001
92327739|NCT02720744|184560749|SUPERIORITY||Mean Difference (Net)|-6.65|||<|0.001|TWO_SIDED|95.0|-9.32|-3.98||Each outcome measure for the 9.0 g, 7.5 g, and 6.0 g doses were tested at the 2-sided α level of 0.05.|Mixed Models Analysis|P-values were estimated using an MMRM with change from baseline to the end of the respective treatment period.||||-3.98|-9.32|<0.001
92271282|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.0709|TWO_SIDED|95.0|0.99|1.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.28|0.99|0.0709
92271283|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.4996|TWO_SIDED|95.0|0.92|1.19|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.19|0.92|0.4996
92271284|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34|||<|0.0001|TWO_SIDED|95.0|1.23|1.45|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.45|1.23|<0.0001
92271285|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24|||<|0.0001|TWO_SIDED|95.0|1.14|1.35|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.35|1.14|<0.0001
92271286|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.0062|TWO_SIDED|95.0|1.05|1.36|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.36|1.05|0.0062
92271287|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.1144|TWO_SIDED|95.0|0.98|1.26|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.26|0.98|0.1144
92271288|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42|||<|0.0001|TWO_SIDED|95.0|1.3|1.55|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.55|1.30|<0.0001
92271289|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31|||<|0.0001|TWO_SIDED|95.0|1.2|1.43|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.43|1.20|<0.0001
92271290|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.0469|TWO_SIDED|95.0|1.0|1.29|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.29|1.00|0.0469
92271291|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.5169|TWO_SIDED|95.0|0.92|1.19|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.19|0.92|0.5169
92271292|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.0103|TWO_SIDED|95.0|1.03|1.24|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.24|1.03|0.0103
92327740|NCT02122770|184560757|SUPERIORITY||Geometric LS Mean Ratio|98.75|||||TWO_SIDED|90.0|82.6|118.05||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric least square (LS) means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||118.05|82.60|
92327741|NCT02122770|184560758|SUPERIORITY||Geometric LS Mean Ratio|110.21|||||TWO_SIDED|90.0|102.34|118.69||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||118.69|102.34|
92327742|NCT02122770|184560759|SUPERIORITY||Geometric LS Mean Ratio|110.66|||||TWO_SIDED|90.0|102.53|119.43||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||119.43|102.53|
92271293|NCT01236053|184444868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.4182|TWO_SIDED|95.0|0.95|1.14|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.14|0.95|0.4182
92271294|NCT01236053|184444869|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.65||||0.3597|TWO_SIDED|95.0|0.26|1.62|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||1.62|0.26|0.3597
92271295|NCT01236053|184444869|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.54||||0.1845|TWO_SIDED|95.0|0.21|1.34|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.34|0.21|0.1845
92271296|NCT01236053|184444869|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9142|TWO_SIDED|95.0|0.58|1.84|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||1.84|0.58|0.9142
92271297|NCT01236053|184444869|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.6524|TWO_SIDED|95.0|0.49|1.57|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.57|0.49|0.6524
92271298|NCT01236053|184444870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.2875|TWO_SIDED|95.0|0.17|1.7|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.70|0.17|0.2875
92271299|NCT01236053|184444870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.2042|TWO_SIDED|95.0|0.15|1.51|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.51|0.15|0.2042
92271300|NCT01236053|184444870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.4733|TWO_SIDED|95.0|0.38|8.06|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||8.06|0.38|0.4733
92271301|NCT01236053|184444870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.7867|TWO_SIDED|95.0|0.26|5.85|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||5.85|0.26|0.7867
92271302|NCT01236053|184444870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.53||||0.0049|TWO_SIDED|95.0|1.47|8.5|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||8.50|1.47|0.0049
92271303|NCT01236053|184444870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.87||||0.0218|TWO_SIDED|95.0|1.17|7.08|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||7.08|1.17|0.0218
92271304|NCT01236053|184444870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.849|TWO_SIDED|95.0|0.27|2.92|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.92|0.27|0.8490
92271305|NCT01236053|184444870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.6263|TWO_SIDED|95.0|0.22|2.46|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||2.46|0.22|0.6263
92271306|NCT01236053|184444870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.4122|TWO_SIDED|95.0|0.19|1.97|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.97|0.19|0.4122
92271307|NCT01236053|184444870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.2642|TWO_SIDED|95.0|0.16|1.66|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.66|0.16|0.2642
92271308|NCT01236053|184444871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.7891|TWO_SIDED|95.0|0.31|2.43|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.43|0.31|0.7891
92271309|NCT01236053|184444871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.6216|TWO_SIDED|95.0|0.27|2.17|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||2.17|0.27|0.6216
92271310|NCT01236053|184444871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.6893|TWO_SIDED|95.0|0.31|5.96|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||5.96|0.31|0.6893
92271311|NCT01236053|184444871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.9273|TWO_SIDED|95.0|0.24|4.84|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||4.84|0.24|0.9273
92271312|NCT01236053|184444871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.598|TWO_SIDED|95.0|0.47|3.78|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.78|0.47|0.5980
92271313|NCT01236053|184444871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.8572|TWO_SIDED|95.0|0.38|3.18|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||3.18|0.38|0.8572
92271314|NCT01236053|184444871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.7807|TWO_SIDED|95.0|0.26|2.77|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.77|0.26|0.7807
92271315|NCT01236053|184444871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.5579|TWO_SIDED|95.0|0.21|2.32|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||2.32|0.21|0.5579
92271316|NCT01236053|184444871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.9932|TWO_SIDED|95.0|0.4|2.53|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.53|0.40|0.9932
92271317|NCT01236053|184444871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.6901|TWO_SIDED|95.0|0.32|2.11|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||2.11|0.32|0.6901
92271318|NCT01236053|184444873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62||||0.431|TWO_SIDED|95.0|0.19|2.01|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.01|0.19|0.4310
92271319|NCT01236053|184444873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.3226|TWO_SIDED|95.0|0.17|1.79|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.79|0.17|0.3226
92271320|NCT01236053|184444873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.6206|TWO_SIDED|95.0|0.4|4.59|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||4.59|0.40|0.6206
92271321|NCT01236053|184444873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.8557|TWO_SIDED|95.0|0.33|3.84|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||3.84|0.33|0.8557
92271322|NCT01236053|184444873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.1498|TWO_SIDED|95.0|0.79|4.62|||Unadjusted Odds Ratio||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||4.62|0.79|0.1498
92271323|NCT01236053|184444873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.2645|TWO_SIDED|95.0|0.68|4.07|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||4.07|0.68|0.2645
92271324|NCT01236053|184444873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.5728|TWO_SIDED|95.0|0.16|2.79|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.79|0.16|0.5728
92271325|NCT01236053|184444873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.3727|TWO_SIDED|95.0|0.12|2.21|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||2.21|0.12|0.3727
92271326|NCT01236053|184444873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.7743|TWO_SIDED|95.0|0.31|2.4|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.40|0.31|0.7743
92271327|NCT01236053|184444873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.4775|TWO_SIDED|95.0|0.24|1.94|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.94|0.24|0.4775
92271328|NCT01236053|184444874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.33||||0.0032|TWO_SIDED|95.0|1.95|27.56|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||27.56|1.95|0.0032
92271329|NCT01236053|184444874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.39||||0.1251|TWO_SIDED|95.0|0.71|16.17|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||16.17|0.71|0.1251
92271330|NCT01236053|184444874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.22||||0.0261|TWO_SIDED|95.0|1.15|9.01|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||9.01|1.15|0.0261
92271331|NCT01236053|184444874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16||||0.209|TWO_SIDED|95.0|0.65|7.17|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||7.17|0.65|0.2090
92271332|NCT01236053|184444875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.0||||0.0144|TWO_SIDED|95.0|1.81|220.5|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||220.5|1.81|0.0144
92271333|NCT01236053|184444875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.47||||0.0158|TWO_SIDED|95.0|1.78|258.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||258.8|1.78|0.0158
92271334|NCT01236053|184444875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.86||||0.0524|TWO_SIDED|95.0|0.99|15.14|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||15.14|0.99|0.0524
92271335|NCT01236053|184444875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.21||||0.0269|TWO_SIDED|95.0|1.21|22.51|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||22.51|1.21|0.0269
92271336|NCT01236053|184444875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0||||0.1888|TWO_SIDED|95.0|0.45|55.14|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||55.14|0.45|0.1888
92271337|NCT01236053|184444875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.999|TWO_SIDED|95.0|0.03|32.21|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||32.21|0.03|0.9990
92271338|NCT01236053|184444875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.75||||0.2885|TWO_SIDED|95.0|0.33|43.08|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||43.08|0.33|0.2885
92271339|NCT01236053|184444875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.9608|TWO_SIDED|95.0|0.06|13.87|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||13.87|0.06|0.9608
92271340|NCT01236053|184444875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.33||||0.0944|TWO_SIDED|95.0|0.78|24.07|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||24.07|0.78|0.0944
92271341|NCT01236053|184444875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.9253|TWO_SIDED|95.0|0.1|7.82|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||7.82|0.10|0.9253
92271342|NCT01236053|184444876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.0||||0.0144|TWO_SIDED|95.0|1.81|220.5|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||220.5|1.81|0.0144
92271343|NCT01236053|184444876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.47||||0.0158|TWO_SIDED|95.0|1.78|258.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||258.8|1.78|0.0158
92271344|NCT01236053|184444876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.0||||0.0141|TWO_SIDED|95.0|1.43|25.11|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||25.11|1.43|0.0141
92271345|NCT01236053|184444876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.56||||0.0063|TWO_SIDED|95.0|1.83|40.02|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||40.02|1.83|0.0063
92271346|NCT01236053|184444876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0||||0.1888|TWO_SIDED|95.0|0.45|55.14|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||55.14|0.45|0.1888
92271347|NCT01236053|184444876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.999|TWO_SIDED|95.0|0.03|32.21|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||32.21|0.03|0.9990
92327743|NCT02122770|184560760|SUPERIORITY||Geometric LS Mean Ratio|113.05|||||TWO_SIDED|90.0|85.35|149.74||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||149.74|85.35|
92271348|NCT01236053|184444876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.75||||0.2885|TWO_SIDED|95.0|0.33|43.08|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||43.08|0.33|0.2885
92271349|NCT01236053|184444876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.9608|TWO_SIDED|95.0|0.06|13.87|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||13.87|0.06|0.9608
92271350|NCT01236053|184444876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.33||||0.0944|TWO_SIDED|95.0|0.78|24.07|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||24.07|0.78|0.0944
92271351|NCT01236053|184444876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.9381||95.0|0.11|7.97|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||7.97|0.11|0.9381
92271352|NCT01236053|184444878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.0||||0.0144|TWO_SIDED|95.0|1.81|220.5|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||220.5|1.81|0.0144
92271353|NCT01236053|184444878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.55||||0.0157|TWO_SIDED|95.0|1.78|260.2|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||260.2|1.78|0.0157
92271354|NCT01236053|184444878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.86||||0.0524|TWO_SIDED|95.0|0.99|15.14|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||15.14|0.99|0.0524
92271355|NCT01236053|184444878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8||||0.0333|TWO_SIDED|95.0|1.13|20.31|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||20.31|1.13|0.0333
92271356|NCT01236053|184444878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.34||||0.2966|TWO_SIDED|95.0|0.35|32.06|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||32.06|0.35|0.2966
92271357|NCT01236053|184444878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62||||0.751|TWO_SIDED|95.0|0.03|12.31|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||12.31|0.03|0.7510
92271358|NCT01236053|184444878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.71||||0.1868|TWO_SIDED|95.0|0.4|113.4|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||113.4|0.40|0.1868
92271359|NCT01236053|184444878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.7558|TWO_SIDED|95.0|0.07|40.61|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||40.61|0.07|0.7558
92271360|NCT01236053|184444878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.33||||0.0944|TWO_SIDED|95.0|0.78|24.07|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||24.07|0.78|0.0944
92271361|NCT01236053|184444878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.9244|TWO_SIDED|95.0|0.1|7.81|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||7.81|0.10|0.9244
92271362|NCT01236053|184444879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.0963|TWO_SIDED|95.0|0.96|1.7|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||1.70|0.96|0.0963
92271363|NCT01236053|184444879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.671|TWO_SIDED|95.0|0.69|1.27|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.27|0.69|0.6710
92271364|NCT01236053|184444879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84|||<|0.0001|TWO_SIDED|95.0|1.54|2.2|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||2.20|1.54|<0.0001
92271365|NCT01236053|184444879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5|||<|0.0001|TWO_SIDED|95.0|1.24|1.81|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.81|1.24|<0.0001
92271366|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.1184|TWO_SIDED|95.0|0.92|2.18|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||2.18|0.92|0.1184
92271367|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.8016|TWO_SIDED|95.0|0.59|1.5|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.50|0.59|0.8016
92271368|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.27|||<|0.0001|TWO_SIDED|95.0|1.77|2.91|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.91|1.77|<0.0001
92271369|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.97|||<|0.0001|TWO_SIDED|95.0|1.51|2.58|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.58|1.51|<0.0001
92271370|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.6105|TWO_SIDED|95.0|0.65|2.08|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.08|0.65|0.6105
92271371|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.6797|TWO_SIDED|95.0|0.62|2.09|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.09|0.62|0.6797
92327744|NCT02122770|184560760|SUPERIORITY||Geometric LS Mean Ratio|159.55|||||TWO_SIDED|90.0|89.97|282.96||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference||282.96|89.97|
92271372|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.0103|TWO_SIDED|95.0|1.12|2.39|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.39|1.12|0.0103
92271373|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.1629|TWO_SIDED|95.0|0.89|2.0|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.00|0.89|0.1629
92271374|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.4713|TWO_SIDED|95.0|0.73|1.97|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.97|0.73|0.4713
92271375|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.4505|TWO_SIDED|95.0|0.49|1.38|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.38|0.49|0.4505
92271376|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.0284|TWO_SIDED|95.0|1.04|2.01|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.01|1.04|0.0284
92271377|NCT01236053|184444880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.6262|TWO_SIDED|95.0|0.77|1.54|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.54|0.77|0.6262
92271378|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.0798|TWO_SIDED|95.0|0.95|2.41|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||2.41|0.95|0.0798
92271379|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8357|TWO_SIDED|95.0|0.64|1.73|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.73|0.64|0.8357
92271380|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.29|||<|0.0001|TWO_SIDED|95.0|1.75|3.01|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||3.01|1.75|<0.0001
92271381|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05|||<|0.0001|TWO_SIDED|95.0|1.53|2.76|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.76|1.53|<0.0001
92271382|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.7794|TWO_SIDED|95.0|0.63|1.85|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.85|0.63|0.7794
92271383|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.8075|TWO_SIDED|95.0|0.52|1.66|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.66|0.52|0.8075
92271384|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.0001|TWO_SIDED|95.0|1.35|2.52|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.52|1.35|0.0001
92271385|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.0161|TWO_SIDED|95.0|1.08|2.12|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.12|1.08|0.0161
92327745|NCT02122770|184560760|SUPERIORITY||Geometric LS Mean Ratio|77.26|||||TWO_SIDED|90.0|55.19|108.17||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||108.17|55.19|
92271386|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.3972|TWO_SIDED|95.0|0.76|2.0|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.00|0.76|0.3972
92271387|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.495|TWO_SIDED|95.0|0.5|1.39|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.39|0.50|0.4950
92271388|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.0601|TWO_SIDED|95.0|0.99|1.94|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.94|0.99|0.0601
92271389|NCT01236053|184444881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.9286|TWO_SIDED|95.0|0.71|1.45|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.45|0.71|0.9286
92271390|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.5394|TWO_SIDED|95.0|0.63|2.39|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag)."|||2.39|0.63|0.5394
92271391|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.507|TWO_SIDED|95.0|0.39|1.58|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.58|0.39|0.5070
92271392|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.5426|TWO_SIDED|95.0|0.73|1.83|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag)."|||1.83|0.73|0.5426
92271393|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.515|TWO_SIDED|95.0|0.52|1.38|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.38|0.52|0.5150
92271394|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.435|TWO_SIDED|95.0|0.53|4.42|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag)."|||4.42|0.53|0.4350
92271395|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.8276|TWO_SIDED|95.0|0.37|3.43|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||3.43|0.37|0.8276
92327746|NCT02122770|184560761|SUPERIORITY||Geometric LS Mean Ratio|121.57|||||TWO_SIDED|90.0|110.92|133.24||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||133.24|110.92|
92271396|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.4022|TWO_SIDED|95.0|0.69|2.5|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag)."|||2.50|0.69|0.4022
92271397|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.8681|TWO_SIDED|95.0|0.48|1.86|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.86|0.48|0.8681
92271398|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.6326|TWO_SIDED|95.0|0.2|13.86|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag)."|||13.86|0.20|0.6326
92271399|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87||||0.577|TWO_SIDED|95.0|0.21|16.86|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||16.86|0.21|0.5770
92271400|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.8087|TWO_SIDED|95.0|0.4|3.21|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag)."|||3.21|0.40|0.8087
92271401|NCT01236053|184444882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.8497|TWO_SIDED|95.0|0.31|2.64|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.64|0.31|0.8497
92271402|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.1528|TWO_SIDED|95.0|0.88|2.24|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||2.24|0.88|0.1528
92271403|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.9625|TWO_SIDED|95.0|0.62|1.65|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.65|0.62|0.9625
92271404|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96|||<|0.0001|TWO_SIDED|95.0|1.48|2.59|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.59|1.48|<0.0001
92271405|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.0006|TWO_SIDED|95.0|1.25|2.29|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.29|1.25|0.0006
92271406|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.3515|TWO_SIDED|95.0|0.76|2.16|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.16|0.76|0.3515
92271407|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9069|TWO_SIDED|95.0|0.59|1.82|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.82|0.59|0.9069
92271408|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|||<|0.0001|TWO_SIDED|95.0|1.78|3.21|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.21|1.78|<0.0001
92271409|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04|||<|0.0001|TWO_SIDED|95.0|1.48|2.81|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.81|1.48|<0.0001
92271410|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.5948|TWO_SIDED|95.0|0.7|1.88|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.88|0.70|0.5948
92271411|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.3984|TWO_SIDED|95.0|0.47|1.35|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.35|0.47|0.3984
92271412|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.1872|TWO_SIDED|95.0|0.89|1.79|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.79|0.89|0.1872
92271413|NCT01236053|184444883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.6772|TWO_SIDED|95.0|0.64|1.34|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.34|0.64|0.6772
92271414|NCT01236053|184444884|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.4933|TWO_SIDED|95.0|0.07|3.72|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||3.72|0.07|0.4933
92271415|NCT01236053|184444884|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.4147|TWO_SIDED|95.0|0.06|3.27|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||3.27|0.06|0.4147
92271416|NCT01236053|184444885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.8257|TWO_SIDED|95.0|0.15|10.38|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||10.38|0.15|0.8257
92271417|NCT01236053|184444885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.9467|TWO_SIDED|95.0|0.13|9.02|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||9.02|0.13|0.9467
92271418|NCT01236053|184444885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.9859|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||0.00|0.00|0.9859
92327747|NCT02122770|184560761|SUPERIORITY||Geometric LS Mean Ratio|130.16|||||TWO_SIDED|90.0|106.99|158.35||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference||158.35|106.99|
92271419|NCT01236053|184444885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.9857|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||0.00|0.00|0.9857
92271420|NCT01236053|184444885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.986|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||0.00|0.00|0.9860
92271421|NCT01236053|184444885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.9858|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||0.00|0.00|0.9858
92271422|NCT01236053|184444885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.9798|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||0.00|0.00|0.9798
92271423|NCT01236053|184444885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.9796|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||0.00|0.00|0.9796
92271424|NCT01236053|184444886|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.6252|TWO_SIDED|95.0|0.2|14.84|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||14.84|0.20|0.6252
92271425|NCT01236053|184444886|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.7208|TWO_SIDED|95.0|0.17|13.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||13.28|0.17|0.7208
92271426|NCT01236053|184444888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.9141|TWO_SIDED|95.0|0.14|9.03|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||9.03|0.14|0.9141
92271427|NCT01236053|184444888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.9613|TWO_SIDED|95.0|0.12|7.78|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||7.78|0.12|0.9613
92271428|NCT01236053|184444889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.0323|TWO_SIDED|95.0|1.02|1.57|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||1.57|1.02|0.0323
92271429|NCT01236053|184444889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.0682|TWO_SIDED|95.0|0.99|1.52|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.52|0.99|0.0682
92271430|NCT01236053|184444889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.0326|TWO_SIDED|95.0|1.01|1.4|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||1.40|1.01|0.0326
92271431|NCT01236053|184444889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.0699|TWO_SIDED|95.0|0.99|1.36|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.36|0.99|0.0699
92271432|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.2893|TWO_SIDED|95.0|0.86|1.69|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.69|0.86|0.2893
92271433|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.4301|TWO_SIDED|95.0|0.82|1.61|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.61|0.82|0.4301
92271434|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.0806|TWO_SIDED|95.0|0.97|1.58|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.58|0.97|0.0806
92271435|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.1226|TWO_SIDED|95.0|0.95|1.55|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.55|0.95|0.1226
92271436|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.3502|TWO_SIDED|95.0|0.8|1.89|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.89|0.80|0.3502
92271437|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.4654|TWO_SIDED|95.0|0.76|1.81|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.81|0.76|0.4654
92271438|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.3987|TWO_SIDED|95.0|0.59|1.23|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.23|0.59|0.3987
92271439|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.3349|TWO_SIDED|95.0|0.58|1.2|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.20|0.58|0.3349
92271440|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.0827|TWO_SIDED|95.0|0.96|1.98|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.98|0.96|0.0827
92271441|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.0932|TWO_SIDED|95.0|0.95|1.96|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.96|0.95|0.0932
92271442|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.013|TWO_SIDED|95.0|1.07|1.8|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.80|1.07|0.0130
92271443|NCT01236053|184444890|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.0241|TWO_SIDED|95.0|1.04|1.75|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.75|1.04|0.0241
92271444|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.5043|TWO_SIDED|95.0|0.77|1.68|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.68|0.77|0.5043
92271445|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.7129|TWO_SIDED|95.0|0.73|1.59|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.59|0.73|0.7129
92271446|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.2055|TWO_SIDED|95.0|0.91|1.57|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.57|0.91|0.2055
92271447|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.3005|TWO_SIDED|95.0|0.88|1.52|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.52|0.88|0.3005
92271448|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.2849|TWO_SIDED|95.0|0.84|1.77|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.77|0.84|0.2849
92271449|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.365|TWO_SIDED|95.0|0.82|1.72|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.72|0.82|0.3650
92271450|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.7559|TWO_SIDED|95.0|0.78|1.4|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.40|0.78|0.7559
92271451|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.852|TWO_SIDED|95.0|0.77|1.37|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.37|0.77|0.8520
92271452|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.0459|TWO_SIDED|95.0|1.01|2.06|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.06|1.01|0.0459
92271453|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.0542|TWO_SIDED|95.0|0.99|2.04|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||2.04|0.99|0.0542
92271454|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.0312|TWO_SIDED|95.0|1.03|1.74|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.74|1.03|0.0312
92271455|NCT01236053|184444891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.0508|TWO_SIDED|95.0|1.0|1.7|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.70|1.00|0.0508
92271456|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.0892|TWO_SIDED|95.0|0.94|2.42|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag)."|||2.42|0.94|0.0892
92271457|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.1043|TWO_SIDED|95.0|0.92|2.39|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||2.39|0.92|0.1043
92271458|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.0101|TWO_SIDED|95.0|1.1|2.06|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag)."|||2.06|1.10|0.0101
92271459|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.0186|TWO_SIDED|95.0|1.07|2.0|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||2.00|1.07|0.0186
92271460|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.69||||0.1458|TWO_SIDED|95.0|0.83|3.43|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag)."|||3.43|0.83|0.1458
92271461|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.1859|TWO_SIDED|95.0|0.79|3.29|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||3.29|0.79|0.1859
92271462|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.0122|TWO_SIDED|95.0|1.13|2.72|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag)."|||2.72|1.13|0.0122
92327748|NCT02122770|184560761|SUPERIORITY||Geometric LS Mean Ratio|101.36|||||TWO_SIDED|90.0|90.72|113.23||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||113.23|90.72|
92327749|NCT02122770|184560762|SUPERIORITY||Geometric LS Mean Ratio|122.95|||||TWO_SIDED|90.0|112.13|134.82||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||134.82|112.13|
92327750|NCT02122770|184560762|SUPERIORITY||Geometric LS Mean Ratio|130.16|||||TWO_SIDED|90.0|106.99|158.35||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference||158.35|106.99|
92271463|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||0.0162|TWO_SIDED|95.0|1.1|2.67|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||2.67|1.10|0.0162
92271464|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.7573|TWO_SIDED|95.0|0.19|3.36|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag)."|||3.36|0.19|0.7573
92271465|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.7088|TWO_SIDED|95.0|0.18|3.21|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||3.21|0.18|0.7088
92271466|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.0787|TWO_SIDED|95.0|0.93|3.64|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag)."|||3.64|0.93|0.0787
92271467|NCT01236053|184444892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.0873|TWO_SIDED|95.0|0.92|3.58|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||3.58|0.92|0.0873
92271468|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.4233|TWO_SIDED|95.0|0.8|1.7|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.70|0.80|0.4233
92271469|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.5908|TWO_SIDED|95.0|0.76|1.62|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.62|0.76|0.5908
92271470|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.054|TWO_SIDED|95.0|1.0|1.67|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.67|1.00|0.0540
92327751|NCT02122770|184560762|SUPERIORITY||Geometric LS Mean Ratio|100.89|||||TWO_SIDED|90.0|91.14|111.68||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||111.68|91.14|
92327752|NCT00001656|184560806|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANCOVA|Covariate is baseline score||Analysis of covariance with baseline score as covariate||||.04
92327753|NCT00001656|184560807|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||ANCOVA|Covariate is baseline score||Analysis of covariance with baseline score as covariate||||0.21
92327754|NCT00001656|184560808|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANCOVA|||Analysis of covariance with baseline score as covariate||||0.35
92327755|NCT00001656|184560809|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||ANCOVA|Covariate is baseline score||Analysis of covariance with baseline score as covariate||||0.19
92271471|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.0939|TWO_SIDED|95.0|0.96|1.62|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.62|0.96|0.0939
92271472|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.214|TWO_SIDED|95.0|0.87|1.87|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.87|0.87|0.2140
92271473|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.294|TWO_SIDED|95.0|0.84|1.8|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.80|0.84|0.2940
92271474|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.8352|TWO_SIDED|95.0|0.71|1.32|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.32|0.71|0.8352
92271475|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.7809|TWO_SIDED|95.0|0.7|1.31|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.31|0.70|0.7809
92271476|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.0921|TWO_SIDED|95.0|0.95|1.94|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.94|0.95|0.0921
92271477|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.1091|TWO_SIDED|95.0|0.94|1.92|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.92|0.94|0.1091
92271478|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.0564|TWO_SIDED|95.0|0.99|1.68|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.68|0.99|0.0564
92271479|NCT01236053|184444893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.0939|TWO_SIDED|95.0|0.96|1.63|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.63|0.96|0.0939
92271480|NCT01236053|184444894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.58||||0.3082|TWO_SIDED|95.0|0.31|41.71|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||41.71|0.31|0.3082
92271481|NCT01236053|184444894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.3999|TWO_SIDED|95.0|0.24|34.69|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||34.69|0.24|0.3999
92271482|NCT01236053|184444894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.7509|TWO_SIDED|95.0|0.16|12.52|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||12.52|0.16|0.7509
92327756|NCT00001656|184560810|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||ANCOVA|Covariate is baseline score||Analysis of covariance with baseline score as covariate||||0.59
92271483|NCT01236053|184444894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.6303|TWO_SIDED|95.0|0.18|17.07|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||17.07|0.18|0.6303
92271484|NCT01236053|184444895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||108.8|0.37|0.2038
92271485|NCT01236053|184444895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.63||||0.2866|TWO_SIDED|95.0|0.28|77.51|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||77.51|0.28|0.2866
92271486|NCT01236053|184444895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||108.8|0.37|0.2038
92271487|NCT01236053|184444895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.4||||0.1118|TWO_SIDED|95.0|0.5|839.0|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||839.0|0.50|0.1118
92271488|NCT01236053|184444896|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||108.8|0.37|0.2038
92271489|NCT01236053|184444896|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.63||||0.2866|TWO_SIDED|95.0|0.28|77.51|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||77.51|0.28|0.2866
92271490|NCT01236053|184444896|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||108.8|0.37|0.2038
92271491|NCT01236053|184444896|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.4||||0.1118|TWO_SIDED|95.0|0.5|839.0|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||839.0|0.50|0.1118
92327757|NCT00001656|184560811|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||ANCOVA|||Analysis of covariance with baseline score as covariate||||0.72
92327758|NCT00001656|184560812|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||ANCOVA|Covariate is baseline score||Analysis of covariance with baseline score as covariate||||0.27
92327759|NCT00001656|184560813|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANCOVA|Covariate is baseline score||||||0.11
92327760|NCT00001656|184560814|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||t-test, 2 sided|||||||0.96
92271492|NCT01236053|184444898|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||108.8|0.37|0.2038
92271493|NCT01236053|184444898|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.63||||0.2866|TWO_SIDED|95.0|0.28|77.51|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||77.51|0.28|0.2866
92271494|NCT01236053|184444898|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||108.8|0.37|0.2038
92271495|NCT01236053|184444898|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.4||||0.1118|TWO_SIDED|95.0|0.5|839.0|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||839.0|0.5|0.1118
92271496|NCT01236053|184444899|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.9614|TWO_SIDED|95.0|0.58|1.69|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||1.69|0.58|0.9614
92271497|NCT01236053|184444899|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.5179|TWO_SIDED|95.0|0.49|1.44|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.44|0.49|0.5179
92271498|NCT01236053|184444899|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.8856|TWO_SIDED|95.0|0.71|1.48|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||1.48|0.71|0.8856
92271499|NCT01236053|184444899|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.5078|TWO_SIDED|95.0|0.61|1.28|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.28|0.61|0.5078
92271500|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.6888|TWO_SIDED|95.0|0.36|1.95|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.95|0.36|0.6888
92271501|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.5024|TWO_SIDED|95.0|0.32|1.75|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.75|0.32|0.5024
92271502|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.6164|TWO_SIDED|95.0|0.49|1.53|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.53|0.49|0.6164
92271503|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.4002|TWO_SIDED|95.0|0.44|1.39|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.39|0.44|0.4002
92327761|NCT00001656|184560815|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||t-test, 2 sided|||||||0.76
92271504|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.7329|TWO_SIDED|95.0|0.25|2.66|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.66|0.25|0.7329
92271505|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.5731|TWO_SIDED|95.0|0.22|2.33|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.33|0.22|0.5731
92271506|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.3762|TWO_SIDED|95.0|0.69|2.63|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.63|0.69|0.3762
92271507|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.582|TWO_SIDED|95.0|0.62|2.36|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.36|0.62|0.5820
92271508|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.4782|TWO_SIDED|95.0|0.58|3.23|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||3.23|0.58|0.4782
92271509|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.8998|TWO_SIDED|95.0|0.44|2.52|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.52|0.44|0.8998
92271510|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9308|TWO_SIDED|95.0|0.53|1.99|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.99|0.53|0.9308
92271511|NCT01236053|184444900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.5125|TWO_SIDED|95.0|0.41|1.56|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.56|0.41|0.5125
92271512|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.8655|TWO_SIDED|95.0|0.37|2.33|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||2.33|0.37|0.8655
92271513|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.6482|TWO_SIDED|95.0|0.32|2.05|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.05|0.32|0.6482
92271514|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.9003|TWO_SIDED|95.0|0.53|1.76|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.76|0.53|0.9003
92271515|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.6|TWO_SIDED|95.0|0.46|1.56|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.56|0.46|0.6000
92327762|NCT00001656|184560817|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.73
92271516|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.567|TWO_SIDED|95.0|0.27|2.06|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.06|0.27|0.5670
92271517|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.4353|TWO_SIDED|95.0|0.24|1.85|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.85|0.24|0.4353
92271518|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.8922|TWO_SIDED|95.0|0.56|1.95|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.95|0.56|0.8922
92271519|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.8591|TWO_SIDED|95.0|0.5|1.77|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.77|0.50|0.8591
92271520|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.4779|TWO_SIDED|95.0|0.58|3.23|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||3.23|0.58|0.4779
92271521|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.8994|TWO_SIDED|95.0|0.44|2.52|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.52|0.44|0.8994
92271522|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.78|TWO_SIDED|95.0|0.57|2.12|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.12|0.57|0.7800
92271523|NCT01236053|184444901|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.6577|TWO_SIDED|95.0|0.44|1.67|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.67|0.44|0.6577
92271524|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.8111|TWO_SIDED|95.0|0.48|2.59|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||2.59|0.48|0.8111
92271525|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.9104|TWO_SIDED|95.0|0.45|2.46|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.46|0.45|0.9104
92271526|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.5592|TWO_SIDED|95.0|0.68|2.07|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.07|0.68|0.5592
92271527|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.8521|TWO_SIDED|95.0|0.6|1.85|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.85|0.60|0.8521
92271528|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.5529|TWO_SIDED|95.0|0.26|2.04|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.04|0.26|0.5529
92271529|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.6||||0.3275|TWO_SIDED|95.0|0.21|1.68|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.68|0.21|0.3275
92271530|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.73|TWO_SIDED|95.0|0.46|1.72|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.72|0.46|0.7300
92271531|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.4831|TWO_SIDED|95.0|0.41|1.53|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.53|0.41|0.4831
92271532|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.7693|TWO_SIDED|95.0|0.45|2.92|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.92|0.45|0.7693
92271533|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.8189|TWO_SIDED|95.0|0.35|2.3|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.30|0.35|0.8189
92271534|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.98|TWO_SIDED|95.0|0.5|1.98|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.98|0.50|0.9800
92271535|NCT01236053|184444903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.4944|TWO_SIDED|95.0|0.39|1.58|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.58|0.39|0.4944
92271536|NCT01236053|184444904|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.0||||0.0144|TWO_SIDED|95.0|1.81|220.5|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||220.5|1.81|0.0144
92271537|NCT01236053|184444904|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.79||||0.0743|TWO_SIDED|95.0|0.79|147.0|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||147.0|0.79|0.0743
92271538|NCT01236053|184444905|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|10.0||||0.1035|TWO_SIDED|95.0|0.63|159.9|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||159.9|0.63|0.1035
92271539|NCT01236053|184444905|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.3799|TWO_SIDED|95.0|0.18|95.82|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||95.82|0.18|0.3799
92271540|NCT01236053|184444906|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.0||||0.1035|TWO_SIDED|95.0|0.63|159.9|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||159.9|0.63|0.1035
92271541|NCT01236053|184444906|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.3799|TWO_SIDED|95.0|0.18|95.82|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||95.82|0.18|0.3799
92271542|NCT01236053|184444908|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.0||||0.1035|TWO_SIDED|95.0|0.63|159.9|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||159.9|0.63|0.1035
92271543|NCT01236053|184444908|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.3799|TWO_SIDED|95.0|0.18|95.82|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||95.82|0.18|0.3799
92271544|NCT01236053|184444909|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01||||0.0066|TWO_SIDED|95.0|1.21|3.32|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||3.32|1.21|0.0066
92271545|NCT01236053|184444909|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0494|TWO_SIDED|95.0|1.0|2.82|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.82|1.00|0.0494
92271546|NCT01236053|184444909|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93||||0.0006|TWO_SIDED|95.0|1.33|2.82|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||2.82|1.33|0.0006
92271547|NCT01236053|184444909|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63||||0.0138|TWO_SIDED|95.0|1.11|2.41|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.41|1.11|0.0138
92271548|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.29||||0.0006|TWO_SIDED|95.0|1.66|6.53|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||6.53|1.66|0.0006
92271549|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.01||||0.002|TWO_SIDED|95.0|1.5|6.05|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||6.05|1.50|0.0020
92327763|NCT00767039|184560820|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||Tested null hypothesis. T-test and Generalized Linear Model was used to assess respiratory support parameters (mean airway pressure and percent fraction of inspiratory oxygen x mean airway pressure).|t-test, 2 sided|||Respiratory support were compared using a t-test for individual time points and Generalized Linear Model to account for correlations among repeated measures. Patient who survive \>/= 3 days were included in the analysis.||||< 0.05
92271550|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.49||||0.0013|TWO_SIDED|95.0|1.43|4.34|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.34|1.43|0.0013
92271551|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16||||0.008|TWO_SIDED|95.0|1.22|3.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.80|1.22|0.0080
92271552|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.8165|TWO_SIDED|95.0|0.2|3.61|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||3.61|0.20|0.8165
92271553|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.6624|TWO_SIDED|95.0|0.17|3.12|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.12|0.17|0.6624
92271554|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.6316|TWO_SIDED|95.0|0.45|3.68|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.68|0.45|0.6316
92271555|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.906|TWO_SIDED|95.0|0.35|3.22|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.22|0.35|0.9060
92271556|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.3731|TWO_SIDED|95.0|0.61|3.74|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||3.74|0.61|0.3731
92271557|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.8266|TWO_SIDED|95.0|0.43|2.87|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.87|0.43|0.8266
92271558|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.0712|TWO_SIDED|95.0|0.95|3.13|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||3.13|0.95|0.0712
92271559|NCT01236053|184444910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.2674|TWO_SIDED|95.0|0.77|2.6|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.60|0.77|0.2674
92271560|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.61||||0.0005|TWO_SIDED|95.0|1.75|7.46|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||7.46|1.75|0.0005
92271561|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.25||||0.0019|TWO_SIDED|95.0|1.55|6.83|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||6.83|1.55|0.0019
92271562|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51||||0.0024|TWO_SIDED|95.0|1.39|4.55|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.55|1.39|0.0024
92271563|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.18||||0.0115|TWO_SIDED|95.0|1.19|4.0|||Wilcoxon (Mann-Whitney)||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||4.00|1.19|0.0115
92271564|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.6281|TWO_SIDED|95.0|0.17|2.96|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.96|0.17|0.6281
92327764|NCT00767039|184560821|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.43|||<|0.05|TWO_SIDED|95.0|0.19|0.95|||Mantel Haenszel|||||0.95|0.19|<0.05
92271565|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.5103|TWO_SIDED|95.0|0.14|2.62|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.62|0.14|0.5103
92271566|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.15||||0.7733|TWO_SIDED|95.0|0.45|2.9|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.90|0.45|0.7733
92271567|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.837|TWO_SIDED|95.0|0.43|2.81|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.81|0.43|0.8370
92271568|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.198|TWO_SIDED|95.0|0.75|4.1|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||4.10|0.75|0.1980
92271569|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.5391|TWO_SIDED|95.0|0.54|3.21|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.21|0.54|0.5391
92271570|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.97||||0.0224|TWO_SIDED|95.0|1.1|3.53|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||3.53|1.10|0.0224
92327765|NCT00767039|184560822|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Tested null hypothesis. T-test and Generalized Linear Model was used to assess respiratory support parameters (mean airway pressure and percent fraction of inspiratory oxygen x mean airway pressure).||||<0.05
92327766|NCT00767039|184560823|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49|||<|0.05|TWO_SIDED|95.0|0.25|0.96|||Mantel Haenszel|||||0.96|0.25|<0.05
92271571|NCT01236053|184444911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.1815|TWO_SIDED|95.0|0.82|2.77|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.77|0.82|0.1815
92271572|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.0248|TWO_SIDED|95.0|1.12|5.09|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||5.09|1.12|0.0248
92271573|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16||||0.052|TWO_SIDED|95.0|0.99|4.7|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||4.70|0.99|0.0520
92271574|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.33||||0.0046|TWO_SIDED|95.0|1.3|4.2|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.20|1.30|0.0046
92271575|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05||||0.0193|TWO_SIDED|95.0|1.12|3.72|||Wilcoxon (Mann-Whitney)||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.72|1.12|0.0193
92271576|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.75||||0.0309|TWO_SIDED|95.0|1.1|6.88|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||6.88|1.10|0.0309
92271577|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.11||||0.1285|TWO_SIDED|95.0|0.81|5.51|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||5.51|0.81|0.1285
92271578|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.1257|TWO_SIDED|95.0|0.85|3.83|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.83|0.85|0.1257
92271579|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.2944|TWO_SIDED|95.0|0.7|3.31|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.31|0.70|0.2944
92271580|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.7032|TWO_SIDED|95.0|0.45|3.21|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||3.21|0.45|0.7032
92271581|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.9922|TWO_SIDED|95.0|0.37|2.69|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.69|0.37|0.9922
92271582|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.1227|TWO_SIDED|95.0|0.87|3.16|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||3.16|0.87|0.1227
92271583|NCT01236053|184444913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.3809|TWO_SIDED|95.0|0.69|2.61|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.61|0.69|0.3809
92271584|NCT01236053|184444914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.1757|TWO_SIDED|95.0|0.8|3.34|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||3.34|0.80|0.1757
92271585|NCT01236053|184444914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.4405|TWO_SIDED|95.0|0.64|2.75|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||2.75|0.64|0.4405
92327767|NCT00767039|184560824|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.38|||<|0.01|TWO_SIDED|95.0|1.29|4.38|||Mantel Haenszel|||||4.38|1.29|<0.01
92327768|NCT00767039|184560825|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||||||>0.05
92327769|NCT00767039|184560826|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Tested null hypothesis. T-test and Generalized Linear Model was used to assess respiratory support parameters (mean airway pressure and percent fraction of inspiratory oxygen x mean airway pressure).||||<0.05
92271586|NCT01236053|184444914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.442|TWO_SIDED|95.0|0.71|2.16|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||2.16|0.71|0.4420
92271587|NCT01236053|184444914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.9034|TWO_SIDED|95.0|0.59|1.82|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||1.82|0.59|0.9034
92271588|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.2395|TWO_SIDED|95.0|0.65|5.6|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||5.60|0.65|0.2395
92271589|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.3764|TWO_SIDED|95.0|0.55|4.93|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||4.93|0.55|0.3764
92271590|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.7599|TWO_SIDED|95.0|0.48|2.71|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.71|0.48|0.7599
92271591|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9502|TWO_SIDED|95.0|0.43|2.46|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||2.46|0.43|0.9502
92271592|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.7164|TWO_SIDED|95.0|0.3|5.75|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||5.75|0.30|0.7164
92271593|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.9345|TWO_SIDED|95.0|0.24|4.73|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||4.73|0.24|0.9345
92271594|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.8833|TWO_SIDED|95.0|0.28|3.02|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.02|0.28|0.8833
92271595|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.6178|TWO_SIDED|95.0|0.22|2.46|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||2.46|0.22|0.6178
92271596|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.4556|TWO_SIDED|95.0|0.46|5.53|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||5.53|0.46|0.4556
92271597|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.7478|TWO_SIDED|95.0|0.35|4.29|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||4.29|0.35|0.7478
92271598|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.235|TWO_SIDED|95.0|0.71|4.13|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||4.13|0.71|0.2350
92271599|NCT01236053|184444915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.5428|TWO_SIDED|95.0|0.54|3.24|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.24|0.54|0.5428
92271600|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.3123|TWO_SIDED|95.0|0.55|6.59|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||6.59|0.55|0.3123
92271601|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.3951|TWO_SIDED|95.0|0.49|6.15|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||6.15|0.49|0.3951
92271602|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.4388|TWO_SIDED|95.0|0.56|3.75|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||3.75|0.56|0.4388
92271603|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.5535|TWO_SIDED|95.0|0.51|3.47|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.47|0.51|0.5535
92271604|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.6332|TWO_SIDED|95.0|0.4|4.48|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||4.48|0.40|0.6332
92271605|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.8743|TWO_SIDED|95.0|0.32|3.75|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.75|0.32|0.8743
92271606|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.6132|TWO_SIDED|95.0|0.27|2.15|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.15|0.27|0.6132
92271607|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.63||||0.3821|TWO_SIDED|95.0|0.22|1.78|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||1.78|0.22|0.3821
92271608|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.3591|TWO_SIDED|95.0|0.51|6.28|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||6.28|0.51|0.3591
92271609|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.6899|TWO_SIDED|95.0|0.37|4.58|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||4.58|0.37|0.6899
92271610|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78||||0.2031|TWO_SIDED|95.0|0.73|4.3|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||4.30|0.73|0.2031
92271611|NCT01236053|184444916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.4932|TWO_SIDED|95.0|0.56|3.37|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.37|0.56|0.4932
92271612|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.64||||0.0843|TWO_SIDED|95.0|0.88|7.96|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||7.96|0.88|0.0843
92271613|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.71||||0.081|TWO_SIDED|95.0|0.88|8.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||8.28|0.88|0.0810
92271614|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43||||0.4583|TWO_SIDED|95.0|0.55|3.7|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||3.70|0.55|0.4583
92271615|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43||||0.4622|TWO_SIDED|95.0|0.55|3.73|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.73|0.55|0.4622
92271616|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.5512|TWO_SIDED|95.0|0.43|4.95|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||4.95|0.43|0.5512
92271617|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.9277|TWO_SIDED|95.0|0.31|3.67|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.67|0.31|0.9277
92271618|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.6402|TWO_SIDED|95.0|0.51|2.95|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.95|0.51|0.6402
92271619|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.9256|TWO_SIDED|95.0|0.4|2.32|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||2.32|0.40|0.9256
92271620|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.9514|TWO_SIDED|95.0|0.24|4.5|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||4.50|0.24|0.9514
92271621|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.7543|TWO_SIDED|95.0|0.18|3.44|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.44|0.18|0.7543
92271622|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.8781|TWO_SIDED|95.0|0.38|3.07|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||3.07|0.38|0.8781
92271623|NCT01236053|184444918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.7429|TWO_SIDED|95.0|0.29|2.4|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||2.40|0.29|0.7429
92271624|NCT02304302|184444921|SUPERIORITY||Mean Difference (Net)|0.34||||0.61|TWO_SIDED|95.0|-0.98|1.67|||Mixed Models Analysis|||||1.67|-0.98|0.61
92271625|NCT02304302|184444922|SUPERIORITY||Mean Difference (Net)|-0.32||||0.57|TWO_SIDED|95.0|-1.43|0.8|||Mixed Models Analysis|||||0.80|-1.43|0.57
92271626|NCT02304302|184444923|SUPERIORITY||Median Difference (Net)|-0.04||||0.91|TWO_SIDED|95.0|-0.74|0.66|||Mixed Models Analysis|||||0.66|-0.74|0.91
92271627|NCT02304302|184444924|SUPERIORITY||Median Difference (Final Values)|-0.5||||0.48|TWO_SIDED|95.0|-1.91|0.91|||Mixed Models Analysis|||||0.91|-1.91|0.48
92271628|NCT02304302|184444925|SUPERIORITY||Mean Difference (Net)|-1.31||||0.5|TWO_SIDED|95.0|-5.14|2.53|||Mixed Models Analysis|||||2.53|-5.14|0.50
92271629|NCT02304302|184444926|SUPERIORITY||Mean Difference (Net)|-0.1||||0.62|TWO_SIDED|95.0|-0.52|0.32|||Mixed Models Analysis|||||0.32|-0.52|0.62
92271630|NCT02304302|184444927|SUPERIORITY||Mean Difference (Net)|2.94||||0.84|TWO_SIDED|95.0|-25.32|31.2|||Mixed Models Analysis|||||31.20|-25.32|0.84
92271631|NCT02304302|184444928|SUPERIORITY||Mean Difference (Net)|-3.04||||0.24|TWO_SIDED|95.0|||||ANOVA|||QTc interval duration was the independent variable, treatment and time were the categorical factors.||||0.24
92271632|NCT02304302|184444929|SUPERIORITY||Mean Difference (Net)|1.91||||0.28|TWO_SIDED|95.0|-1.57|5.39|||Mixed Models Analysis|||||5.39|-1.57|0.28
92271633|NCT02304302|184444930|SUPERIORITY||Mean Difference (Net)|0.4||||0.51|TWO_SIDED|95.0|-0.8|1.61|||Mixed Models Analysis|||||1.61|-0.80|0.51
92271634|NCT02304302|184444931|SUPERIORITY||Mean Difference (Net)|1.17||||0.63|TWO_SIDED|95.0|-3.6|5.94|||Mixed Models Analysis|||||5.94|-3.6|0.63
92271635|NCT02304302|184444932|SUPERIORITY||Mean Difference (Net)|-3.65||||0.17|TWO_SIDED|95.0|-8.91|1.61|||Mixed Models Analysis|||||1.61|-8.91|0.17
92271636|NCT03078192|184444958|OTHER|Detecting pre-capillary PH was tested with a cohort of 32 patients. True PH status was based on RHC. A diagnosis of PH was established from mPAP \>20mmHg, while pre-capillary PH required PCWP ≤ 15mmHg and PVR ≥ 3 Woods Units, and post capillary PH required PCWP \> 15mmH and PVR \< 3 Woods Units \[21\]. Patients with both high PVR and PCWP \> 15mmHg were classified as combined pre- and post-capillary PH (CpcPH). Subjects with CpcPH were treated as positive for both pre- and post-capillary PH.|positive predictive value|0.86|||||TWO_SIDED|||||Positive predictive value for Precapillary Pulmonary Hypertension: 86%|calculation of PPV|||||||
92271637|NCT01311505|184444959|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|98.9|||||TWO_SIDED|90.0|92.98|105.2||||||20 participants (10 per sequence) provided at least 98% power that 90% confidence interval (CI) for ratio of test to reference for AUC(0-t) of rifampicin lie within acceptance region of 80%-125%. Intra-participant coefficient of variation (CV) estimate of approximately 13.48% for AUC(0-t) was used for this power calculation. Natural log transformed AUC(0-t) was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as random effect.||105.20|92.98|
92271638|NCT01311505|184444960|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|98.24|||||TWO_SIDED|90.0|87.77|109.97||||||20 participants (10 per sequence) provided at least 94% power that 90% CI for ratio of test to reference for Cmax of rifampicin lie within acceptance region of 80%-125%. Intra-participant CV estimate of approximately 16.43% for Cmax was used for this power calculation. Natural log transformed Cmax was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as random effect.||109.97|87.77|
92271639|NCT01311505|184444962|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|100.25|||||TWO_SIDED|90.0|94.44|106.41||||||Natural log transformed AUC(0-∞) of rifampicin was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||106.41|94.44|
92327770|NCT00767039|184560827|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Tested null hypothesis. T-test and Generalized Linear Model was used to assess respiratory support parameters (mean airway pressure and percent fraction of inspiratory oxygen x mean airway pressure).||||<0.05
92327771|NCT00767039|184560828|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.01
92327772|NCT00767039|184560829|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.44|||>|0.05|TWO_SIDED|95.0|0.71|2.89|||Mantel Haenszel|||||2.89|0.71|>0.05
92327773|NCT00767039|184560830|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.48|||>|0.05|TWO_SIDED|90.0|0.84|2.63|||Mantel Haenszel|||||2.63|0.84|>0.05
92327774|NCT02505334|184560831|SUPERIORITY|Superiority of liraglutide 1.8 mg/day vs. liraglutide 0.9 mg/day was to be considered confirmed if the 95% confidence interval for the treatment difference (liraglutide 1.8 mg/day minus liraglutide 0.9 mg/day) for change from baseline in HbA1c (% of HbA1c) was entirely below 0%, equivalent to a one-sided test with significance level of 2.5%.|Treatment difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.55|-0.24|||ANCOVA|||Missing data was imputed using the LOCF method. The change from baseline in the response after 26 weeks of treatment was analysed using an ANCOVA model with treatment as a fixed effect and baseline response as a covariate.||-0.24|-0.55|<0.0001
92327775|NCT01313494|184560913|SUPERIORITY_OR_OTHER||LSM Difference|0.071|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.046|0.095|||Repeated measures ANCOVA|Independent variables: treatment, baseline value of pre-bronchodilator FEV1, time and a treatment-by-time interaction.||The primary endpoint was tested in a confirmatory manner with a 2-sided significance level of 5%.||0.095|0.046|<0.0001
92327776|NCT04068688|184560999|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92327777|NCT04068688|184560999|OTHER|||||||0.914|||||||Wilcoxon (Mann-Whitney)|||||||0.914
92327778|NCT04068688|184561000|OTHER|||||||0.655|||||||Wilcoxon (Mann-Whitney)|||||||0.655
92327779|NCT04068688|184561000|OTHER|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||||||0.564
92327780|NCT04068688|184561001|OTHER|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
92327781|NCT04068688|184561001|OTHER|||||||0.705|||||||Wilcoxon (Mann-Whitney)|||||||0.705
92327782|NCT04068688|184561002|OTHER|||||||0.096|||||||Wilcoxon (Mann-Whitney)|||||||0.096
92327783|NCT04068688|184561002|OTHER|||||||0.732|||||||Wilcoxon (Mann-Whitney)|||||||0.732
92327784|NCT04068688|184561003|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92327785|NCT04068688|184561003|OTHER|||||||0.705|||||||Wilcoxon (Mann-Whitney)|||||||0.705
92327786|NCT04068688|184561004|OTHER|||||||0.442|||||||Wilcoxon (Mann-Whitney)|||||||0.442
92327787|NCT04068688|184561004|OTHER|||||||0.458|||||||Wilcoxon (Mann-Whitney)|||||||0.458
92327788|NCT04068688|184561005|OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.35
92327789|NCT04068688|184561005|OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92327790|NCT04068688|184561009|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
92327791|NCT04068688|184561010|OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||||||0.084
92327792|NCT04068688|184561011|OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
92327793|NCT04068688|184561011|OTHER|||||||0.171|||||||Wilcoxon (Mann-Whitney)|||||||0.171
92327794|NCT04068688|184561012|OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
92327795|NCT04068688|184561012|OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||0.049
92327796|NCT04068688|184561016|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92327797|NCT04068688|184561016|OTHER|||||||0.139|||||||Wilcoxon (Mann-Whitney)|||||||0.139
92327798|NCT04679051|184561021|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||Two-tailed paired t-tests were used to compare variables between time in bed conditions.||||0.36
92327799|NCT04679051|184561022|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||Paired t-test comparing the two time in bed protocols.||||0.51
92327800|NCT04679051|184561023|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Paired t-test comparing peak forearm blood flow between sleep protocols.||||0.03
92327801|NCT04679051|184561024|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Paired t-test used to compare carotid-femoral pulse wave velocity (index of arterial stiffness) between sleep protocols.||||0.29
92327802|NCT04679051|184561025|SUPERIORITY||||||<|0.001||||||Null hypothesis is that there was no difference in change of spatial ability following one day of aerobic exercise. The ANOVA test was performed with a significance level of 0.05 (two-sided).|ANOVA|||A two-way repeated measures ANOVA was used to evaluate the main effect of exercise (before vs. after exercise) on Manikin throughput scores.||||<0.001
92327803|NCT04679051|184561026|SUPERIORITY|||||||0.04||||||Null hypothesis is that there was no difference in the change of executive function following one day of aerobic exercise. The ANOVA test was performed with a significance level of 0.05 (two-sided).|ANOVA|||A two-way repeated measures ANOVA was used to evaluate the main effect of exercise (before vs. after exercise) on the number of correct answers during a Stroop color-word test.||||0.04
92327804|NCT04679051|184561027|SUPERIORITY|||||||0.02||||||Null hypothesis is that there was no difference in change of spatial ability following one day of aerobic exercise. The ANOVA test was performed with a significance level of 0.05 (two-sided).|ANOVA|||A two-way repeated measures ANOVA was used to evaluate the main effect of exercise (before vs. after exercise) on throughput scores from a Switching task.||||0.02
92327805|NCT00550862|184561052|OTHER||||||<|0.0001||||||Initial Phase 2 study: no a priori estimate of treatment effect available. Effect size estimated.|Wilcoxon (Mann-Whitney)|Hierarchical model applied and pairwise comparisons of the 10mg treatment group versus the placebo group, then 25 mg and 50 mg were performed.||All tests: Descriptive methods were used with nominal p values provided and 95% confidence intervals.||||<0.0001
92327806|NCT00550862|184561052|OTHER||||||<|0.0001||||||Initial Phase 2 study: no a priori estimate of treatment effect available. Effect size estimated.|Wilcoxon (Mann-Whitney)|Hierarchical model applied and pairwise comparisons of the 10mg treatment group versus the placebo group, then 25 mg and 50 mg were performed.||All tests: Descriptive methods were used with nominal p values provided and 95% confidence intervals.||||<0.0001
92327807|NCT00550862|184561052|OTHER||||||<|0.0001||||||Initial Phase 2 study: no a priori estimate of treatment effect available. Effect size estimated.|Wilcoxon (Mann-Whitney)|Hierarchical model applied and pairwise comparisons of the 10mg treatment group versus the placebo group, then 25 mg and 50 mg were performed.||All tests: Descriptive methods were used with nominal p values provided and 95% confidence intervals||||<0.0001
92327808|NCT00550862|184561053|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
92327809|NCT00550862|184561054|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0005||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0005
92327810|NCT02248974|184561090|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||The model uses a general linear mixed model with fixed effects for baseline Knowledge Scale score, time (discrete), arm, and a time-arm interaction term. The matrix of correlated residual terms assumes an unstructured format.||||0.01
92327811|NCT02248974|184561091|SUPERIORITY|||||||0.47|||||||Mixed Models Analysis|||The model uses a general linear mixed model with fixed effects for baseline KS score, time (discrete), arm, and a time-arm interaction term. The matrix of correlated residual terms assumes an unstructured format.||||0.47
92327812|NCT02248974|184561092|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Used Wilcoxon 2-sample test to see if DA group had significantly better (i.e. lower) Decisional Conflict Scores than no-DA (Control) group.||||0.12
92327813|NCT02248974|184561093|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Used Wilcoxon 2-sample test to see if DA group had significantly better (i.e. lower) Decisional Conflict Scores than no-DA (Control) group.||||0.79
92327814|NCT02248974|184561094|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||||||0.99
92327815|NCT02248974|184561095|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||0.94
92327816|NCT02248974|184561096|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
92327817|NCT02248974|184561097|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
92327818|NCT02248974|184561098|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
92327819|NCT02248974|184561099|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
92327820|NCT02248974|184561100|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92327821|NCT02248974|184561102|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
92327822|NCT02248974|184561103|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
92327823|NCT02248974|184561107|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
92327824|NCT02248974|184561108|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
92327825|NCT02248974|184561109|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||0.45
92327826|NCT02248974|184561110|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
92327827|NCT02248974|184561111|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
92327828|NCT02248974|184561112|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
92327829|NCT02248974|184561114|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
92327830|NCT02248974|184561115|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
92327831|NCT02248974|184561116|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
92327832|NCT02248974|184561123|SUPERIORITY|||||||0.98|||||||Fisher Exact|||||||0.98
92327833|NCT02248974|184561124|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.20
92327834|NCT01935700|184561145|NON_INFERIORITY|Non-inferiority was defined as no statistically significant difference (P value \> 0.05) in median survival between the colchicine group and the sorafenib treated group.||||||0.4593|||||||Mann-Whitney U test|||||||0.4593
92327835|NCT01935700|184561145|NON_INFERIORITY|Non-inferiority was defined as no statistically significant difference (P value \> 0.05) in survival between the colchicine group and the sorafenib treated group.||||||0.329|||||||Log Rank|||||||0.3290
92327836|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.0552||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of pneumonia between two groups||||0.0552
92327837|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.0184||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of biliary tract obstruction between two groups||||0.0184
92327838|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.0931||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of cholangitis between two groups||||0.0931
92327839|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.0506||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of peritonitis between two groups||||0.0506
92327840|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of sepsis between two groups||||1
92327841|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.5374||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of diarrhea between two groups||||0.5374
92327842|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.14||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of anorexia between two groups||||0.14
92327843|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.4584||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of abdominal pain between two groups||||0.4584
92327844|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of skin rash between two groups||||1
92327845|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of palmar-plantar erythrodysesthesia syndrome between two groups||||1
92327846|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of hypertension between two groups||||1
92327847|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.5958||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of hemorrhage between two groups||||0.5958
92327848|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.14||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of hypoglycemia between two groups||||0.14
92327849|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of hyperglycemia between two groups||||1
92327850|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of hypocalcemia between two groups||||1
92327851|NCT01935700|184561146|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of pleural effusion between two groups||||1
92327852|NCT00231283|184561147|SUPERIORITY_OR_OTHER||Percentage of participants|97.0|STANDARD_ERROR_OF_MEAN|1.71||||95.0|91.5|99.4|||Qualitative Comparison|Reported in qualitative/semi-quantitative comparitive fashion due to study design.||||99.4|91.5|
92327853|NCT00231283|184561148|SUPERIORITY_OR_OTHER||Percentage of participants|3.0||||||95.0|0.6|8.6|||No formal statistical testing|||||8.6|0.6|
92327854|NCT00231283|184561149|SUPERIORITY_OR_OTHER||Percentage of participants|3.0||||||95.0|0.6|8.5|||Descriptive statistics|||||8.5|0.6|
92327855|NCT00231283|184561150|SUPERIORITY_OR_OTHER||Percentage of participants|10.4||||||95.0|5.1|18.3|||Descriptive statistics|||||18.3|5.1|
92327856|NCT03280225|184561151|OTHER||Odds Ratio (OR)|1.43||||0.302|TWO_SIDED|95.0|0.73|2.82|||Regression, Logistic||Odds ratios were estimated using GEE to control for clustering within VAMCs. Fixed effects included a time-dependent variable (pre-post) as well an independent variable of time to account for improvement due to secular trends.|Odds Ratio of eligible Veterans being assigned a coordinator during the 6 month period following implementation compared to eligible Veterans being assigned a coordinator in the 6 month period prior to implementation.||2.82|0.73|.302
92327857|NCT03280225|184561152|OTHER||Odds Ratio (OR)|1.29||||0.226|TWO_SIDED|95.0|0.86|1.93|||Regression, Logistic||Odds ratios were estimated using GEE to control for clustering within VAMCs. Fixed effects included a time-dependent variable (pre-post) as well an independent variable of time to account for improvement due to secular trends.|Odds Ratio of eligible Veterans being assigned a provider during the 6 month period following implementation compared to eligible Veterans being assigned a provider in the 6 month period prior to implementation.||1.93|0.86|0.226
92327858|NCT03280225|184561153|OTHER||Odds Ratio (OR)|1.23||||0.199|TWO_SIDED|95.0|0.9|1.7|||Regression, Logistic||Odds ratios were estimated using GEE to control for clustering within VAMCs. Fixed effects included a time-dependent variable (pre-post) as well an independent variable of time to account for improvement due to secular trends.|Odds Ratio of eligible Veterans receiving a care evaluation during the 6 month period following implementation compared to eligible Veterans receiving a care evaluation in the 6 month period prior to implementation.||1.70|0.90|0.199
92327859|NCT03280225|184561154|OTHER||Odds Ratio (OR)|1.38||||0.011|TWO_SIDED|95.0|1.08|1.76|||Regression, Logistic||Odds ratios were estimated using GEE to control for clustering within VAMCs. Fixed effects included a time-dependent variable (pre-post) as well an independent variable of time to account for improvement due to secular trends.|Odds Ratio of eligible Veterans where outreach was attempted during the 6 month period following implementation compared to eligible Veterans where outreach was attempted in the 6 month period prior to implementation.||1.76|1.08|0.011
92327860|NCT03280225|184561155|SUPERIORITY|||||||0.018|||||||ANOVA|F (4, 158) = 3.08||Program Needs||||.018
92327861|NCT03280225|184561155|SUPERIORITY|||||||0.136|||||||ANOVA|F (4, 158) = 1.78||Training Needs||||.136
92327862|NCT03280225|184561155|SUPERIORITY|Pressure for Change||||||0.812|||||||ANOVA|F (4, 158) = 0.39||||||.812
92327863|NCT03280225|184561155|SUPERIORITY|Staffing||||||0.358|||||||ANOVA|F (4, 158) = 1.10||||||.358
92327864|NCT03280225|184561155|SUPERIORITY|Mission||||||0.748|||||||ANOVA|F (4, 158) = 0.48||||||.748
92327865|NCT03280225|184561155|SUPERIORITY|||||||0.748|||||||ANOVA|F (4, 158) = 0.48||Cohesion||||.748
92327866|NCT03280225|184561155|SUPERIORITY|||||||0.005|||||||ANOVA|F (4, 158) = 3.88||Autonomy||||.005
92327867|NCT03280225|184561155|SUPERIORITY|||||||0.224|||||||ANOVA|F (4, 158) = 1.44||Communication||||.224
92327868|NCT03280225|184561155|SUPERIORITY|||||||0.043|||||||ANOVA|F (4, 158) = 2.52||Stress||||.043
92327869|NCT03280225|184561155|SUPERIORITY|||||||0.096|||||||ANOVA|F (4, 158) = 2.01||Change||||.096
92327870|NCT01273155|184561159|OTHER|Belinostat|Kendall's Tau|0.096||||0.327|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.327
92327871|NCT01273155|184561159|OTHER|Belinostat glucuronide|Kendall's Tau|-0.178||||0.063|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.063
92327872|NCT01273155|184561159|OTHER|Methyl belinostat|Kendall's Tau|0.382|||<|0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||<0.001
92327873|NCT01273155|184561159|OTHER|M21|Kendall's Tau|0.253||||0.009|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.009
92327874|NCT01273155|184561159|OTHER|M24|Kendall's Tau|-0.278||||0.004|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.004
92327875|NCT01273155|184561159|OTHER|M26|Kendall's Tau|0.098||||0.312|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.312
92327876|NCT01273155|184561160|OTHER|Belinostat|Kendall's Tau|0.215||||0.025|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.025
92327877|NCT01273155|184561160|OTHER|Methyl belinostat|Kendall's Tau|0.426|||<|0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||<0.001
92327878|NCT01273155|184561160|OTHER|M21|Kendall's Tau|0.337|||<|0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||<0.001
92327879|NCT01273155|184561160|OTHER|M24|Kendall's Tau|-0.061||||0.524|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.524
92327880|NCT01273155|184561160|OTHER|M26|Kendall's Tau|0.246||||0.01|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.010
92327881|NCT01273155|184561161|OTHER||Kendall's Tau|0.057||||0.548|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.548
92327882|NCT01273155|184561162|OTHER|Belinostat|Kendall's Tau|0.091||||0.34|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.340
92327883|NCT01273155|184561162|OTHER|Belinostat glucuronide|Kendall's Tau|-0.216||||0.023|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.023
92327884|NCT01273155|184561162|OTHER|Methyl belinostat|Kendall's Tau|0.268||||0.005|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.005
92327885|NCT01273155|184561162|OTHER|M21|Kendall's Tau|0.242||||0.011|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.011
92327886|NCT01273155|184561162|OTHER|M24|Kendall's Tau|-0.114||||0.231|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.231
92327887|NCT01273155|184561162|OTHER|M26|Kendall's Tau|0.22||||0.021|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.021
92327888|NCT01273155|184561163|OTHER||Kendall's Tau|-0.216||||0.023|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.023
92327889|NCT01273155|184561164|OTHER||Kendall's Tau|0.06||||0.531|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.531
92327890|NCT01273155|184561165|OTHER|Belinostat glucuronide/belinostat|Kendall's Tau|-0.224||||0.023|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.023
92327891|NCT01273155|184561165|OTHER|Methyl belinostat/belinostat|Kendall's Tau|0.295||||0.011|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.011
92327892|NCT01273155|184561165|OTHER|M21/belinostat|Kendall's Tau|0.335||||0.004|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.004
92327893|NCT01273155|184561165|OTHER|M24/belinostat|Kendall's Tau|-0.24||||0.037|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.037
92327894|NCT01273155|184561165|OTHER|M26/belinostat|Kendall's Tau|0.127||||0.275|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.275
92327895|NCT01273155|184561165|OTHER|M24/M26|Kendall's Tau|-0.308||||0.002|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.002
92327896|NCT01273155|184561165|OTHER|M26/M21|Kendall's Tau|-0.159||||0.095|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.095
92327897|NCT01273155|184561166|OTHER|Belinostat glucuronide/belinostat|Kendall's Tau|-0.055||||0.568|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.568
92327898|NCT01273155|184561166|OTHER|Methyl belinostat/belinostat|Kendall's Tau|0.38|||<|0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||<0.001
92327899|NCT01273155|184561166|OTHER|M21/belinostat|Kendall's Tau|0.315||||0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.001
92327900|NCT01273155|184561166|OTHER|M24/belinostat|Kendall's Tau|-0.205||||0.037|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.037
92327901|NCT01273155|184561166|OTHER|M26/belinostat|Kendall's Tau|0.218||||0.033|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.033
92327902|NCT01273155|184561166|OTHER|M24/M26|Kendall's Tau|-0.309||||0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.001
92327903|NCT01273155|184561166|OTHER|M26/M21|Kendall's Tau|-0.205||||0.032|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.032
92327904|NCT02419612|184561169|SUPERIORITY||Least Squares (LS) Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.57|-0.18|||Mixed Models Analysis|Adjusted for for treatment, baseline HbA1c, visit, treatment-by-visit interaction, and baseline HbA1c-by-visit interaction.||||-0.18|-0.57|<0.001
92327905|NCT02419612|184561170|SUPERIORITY||LS Mean Difference|-4.06|STANDARD_ERROR_OF_MEAN|0.397|<|0.001|TWO_SIDED|95.0|-4.84|-3.28|||Mixed Models Analysis|Adjusted for for treatment, baseline body weight, visit, treatment-by-visit interaction, and baseline body weight-by-visit interaction.||||-3.28|-4.84|<0.001
92327906|NCT02419612|184561171|SUPERIORITY||Odds Ratio (OR)|1.5||||0.044||95.0|1.01|2.29|||Regression, Logistic|Adjusted for baseline HbA1c value||||2.29|1.01|0.044
92327907|NCT02419612|184561172|SUPERIORITY||LS Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|1.35||0.007|TWO_SIDED|95.0|-6.3|-1.0|||Mixed Models Analysis|Adjusted for treatment, baseline SBP, visit, treatment-by-visit interaction, and baseline SBP-by-visit interaction||||-1.0|-6.3|0.007
92327908|NCT02419612|184561173|SUPERIORITY||Hazard Ratio (HR)|0.15||||0.002|TWO_SIDED|95.0|0.04|0.5||This endpoint did not meet the required number of events (n=10) in each treatment arm, hence was excluded from sequential testing.|Regression, Cox Proportional Hazards|||Time to treatment intensification was analyzed using a Cox proportional hazards model.||0.50|0.04|0.002
92327909|NCT02419612|184561174|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.39|0.68|||Regression, Cox Proportional Hazards|||Time to treatment intensification was analyzed using a Cox proportional hazards model.||0.68|0.39|<0.001
92327910|NCT02419612|184561175|SUPERIORITY||Odds Ratio (OR)|2.1|STANDARD_ERROR_OF_MEAN|0.54||0.006|TWO_SIDED|95.0|1.23|3.42|||Regression, Logistic|Adjusted for baseline HbA1c value.||||3.42|1.23|0.006
92327911|NCT02419612|184561176|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.39|0.68|||Regression, Cox Proportional Hazards|||||0.68|0.39|<0.001
92327912|NCT00078949|184561177|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The literature has suggested that the ORR is approximately 50% for this patient population treated with DHAP. The treatment difference is defined as the response rate for the DHAP arm minus that of GDP arm. We would consider GDP to be non-inferior to DHAP if we are 95% sure that the true difference is less than 10%. In order to rule out that the 10% difference with 80% power, we need to accrue a total of 630 eligible patients. The actual sample size for this final analysis is 619 patients.|Risk Difference (RD)|-1.2||||0.005|TWO_SIDED|95.0|-9.0|6.7||p-value for non-inferiority|Cochran-Mantel-Haenszel|||||6.7|-9.0|0.005
92327913|NCT00078949|184561178|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-2.1||||0.55||95.0|-10.0|5.8|||Cochran-Mantel-Haenszel|||||5.8|-10.0|0.55
92327914|NCT00078949|184561179|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.17|TWO_SIDED|95.0|0.52|1.12|||Log Rank|||It was estimated that 240 patients will be eligible for the maintenance question, and randomized with a 1:1 ratio to either rituximab or observation. It is expected that the 2-year event-free survival will be 50% on the observation arm. In order to detect a 15% difference in the 2-year event-free survival with an 80% power using a two-sided 5% level test, 142 events are required to detect an HR of 0.622.||1.12|0.52|0.17
92327915|NCT00396877|184561181|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|11.1||||0.434|TWO_SIDED|95.0|-19.2|33.6||The a-priori threshold for statistical significance was \< 0.035 reflecting the adjustment for interim analyses. No other adjustment for multiplicity was made.|Log Rank|A two-sided log-rank test was used.|The Relative Risk Reduction (Clopidogrel versus placebo) and its corresponding 95% confidence interval were estimated using Cox's proportional hazards model.|"Due to the limited knowledge in this population, 3 interim analyses were performed at approximatively 40%, 60%, 80% and 100% of of the maximum number of 172 required primary efficacy events to evaluate the effect of Clopidogrel on the primary endpoint with the potential to end the trial in case of a clear efficacy advantage for Clopidogrel.~The study was designed with 80% power and an overall type I error rate of 5%."||33.6|-19.2|0.4340
92327916|NCT02584959|184561184|OTHER||Difference in LS means|-2.32|||<|0.0001|TWO_SIDED|95.0|-2.895|-1.744|||Mixed Models Analysis|||The LS means, 95% CIs, and p-values were based on a mixed effect linear model with period, sequence ,use of prophylactic therapy with C1 INH at randomization, and treatment as fixed effects and subject nested within sequence as a random effect.||-1.744|-2.895|<0.0001
92327917|NCT02584959|184561186|OTHER||Difference in LS means|-2.323|||<|0.0001|TWO_SIDED|95.0|-2.969|-1.677|||Mixed Models Analysis|||The LS means, 95% CIs, and p-values were based on a mixed effect linear model with period, sequence ,use of prophylactic therapy with C1 INH at randomization, and treatment as fixed effects and subject nested within sequence as a random effect.||-1.677|-2.969|<0.0001
92327918|NCT02584959|184561189|OTHER||Difference in LS means|-4.881|||<|0.0001|TWO_SIDED|95.0|-6.113|-3.649|||Mixed Models Analysis|||The LS means, 95% CIs, and p-values were based on a mixed effect linear model with period, sequence ,use of prophylactic therapy with C1 INH at randomization, and treatment as fixed effects and subject nested within sequence as a random effect.||-3.649|-6.113|<0.0001
92327919|NCT02584959|184561190|OTHER||Difference in LS means|5.435|||<|0.0001|TWO_SIDED|95.0|3.981|6.889|||Mixed Models Analysis|||||6.889|3.981|<0.0001
92327920|NCT02584959|184561191|OTHER||Difference in LS means|-2.175|||<|0.0001|TWO_SIDED|95.0|-2.75|-1.599|||Mixed Models Analysis|||||-1.599|-2.750|<0.0001
92327921|NCT02584959|184561206|OTHER||Difference in LS means|-31.735||||0.0001|TWO_SIDED|95.0|-42.696|-20.773|||Mixed Models Analysis|||The Least Square means, 95% confidence intervals and p-values are based on mixed effect linear model with period, sequence, use of prophylactic therapy with C1 INH at randomization and treatment as fixed effects and subject nested within sequence as a random effect.||-20.773|-42.696|0.0001
92327922|NCT00926536|184561222|SUPERIORITY_OR_OTHER||Mean Difference (Net)|71.6|||<|0.001|TWO_SIDED|||||Decrease in DAP in C-arm CT +DSA group when compared to DSA only|Mixed Models Analysis|||||||<.001
92327923|NCT00926536|184561223|SUPERIORITY_OR_OTHER||Mean Difference (Net)|158.3||||0.017|TWO_SIDED|||||Decrease in CD in C-arm CT +DSA group when compared to DSA only|Mixed Models Analysis|||||||0.017
92327924|NCT00435487|184561224|NON_INFERIORITY_OR_EQUIVALENCE|The test of non-inferiority was based on whether the upper limit of the two-sided 95% confidence interval for the treatment group difference was less than or equal to 10%, the non-inferiority margin specified in the protocol.|Difference in proportion|-2.6||||||95.0|-8.59|3.4|||upper limit of 95% CI <= 10%||95% confidence interval (CI) is for difference in proportion using normal approximation to binomial. Non-inferiority was concluded if the upper boundary of the 95% CI for the Dalteparin - Unfractioned Heparin difference was less than or equal to 10%.|Death after receiving 48 hours of study medication (Event date - First dose date) and on or before day 30 from baseline. Difference in proportion (Dalteparin-UFH)(%).||3.40|-8.59|
92327925|NCT00435487|184561224|NON_INFERIORITY_OR_EQUIVALENCE|The test of non-inferiority was based on whether the upper limit of the two-sided 95% confidence interval for the treatment group difference was less than or equal to 10%, the non-inferiority margin specified in the protocol.|Difference in proportion|1.25||||||95.0|-3.02|5.52|||upper limit of 95% CI <= 10%||95% CI is for difference in proportion using normal approximation to binomial. Non-inferiority was concluded if the upper boundary of the 95% CI for the Dalteparin - Unfractioned Heparin difference was less than or equal to 10%.|Non-fatal Myocardial Infarction after receiving 48 hours of study medication (Event date - First dose date) and on or before day 30 from baseline. Difference in proportion (Dalteparin-UFH)(%).||5.52|-3.02|
92327926|NCT00435487|184561224|NON_INFERIORITY_OR_EQUIVALENCE|The test of non-inferiority was based on whether the upper limit of the two-sided 95% confidence interval for the treatment group difference was less than or equal to 10%, the non-inferiority margin specified in the protocol.|Difference in proportion|-1.35||||||95.0|-8.62|5.93|||upper limit of 95% CI <= 10%||95% CI is for difference in proportion using normal approximation to binomial. Non-inferiority was concluded if the upper boundary of the 95% CI for the Dalteparin - Unfractioned Heparin difference was less than or equal to 10%.|Death or Non-fatal Myocardial Infarction after receiving 48 hours of study medication (Event date - First dose date) and on or before day 30 from baseline. Difference in proportion (Dalteparin-UFH)(%).||5.93|-8.62|
92327927|NCT00435487|184561225|SUPERIORITY_OR_OTHER||Difference in proportion|1.27||||1||95.0|-1.2|3.73|||Chi-squared||95% CI is for difference in proportion using normal approximation to binomial.|Difference in proportion (Dalteparin-UFH)(%).||3.73|-1.20|1.0000
92327928|NCT00435487|184561226|SUPERIORITY_OR_OTHER||Difference in proportion|-0.05||||1||95.0|-6.05|5.95|||Chi-squared||95% CI is for difference in proportion using normal approximation to binomial.|Difference in proportion (Dalteparin-UFH)(%).||5.95|-6.05|1.0000
92327929|NCT00435487|184561227|SUPERIORITY_OR_OTHER||Difference in proportion|-0.05||||1||95.0|-6.05|5.95|||Chi-squared||95% CI is for difference in proportion using normal approximation to binomial.|Difference in proportion (Dalteparin-UFH)(%).||5.95|-6.05|1.0000
92327930|NCT03301844|184561235|SUPERIORITY|||||||0.071|||||||Chi-squared||||"Patient preference for one of the two treatments at Visit 3 was presented overall in terms of number and percentage of patients preferring the standard or the study treatment.~Patient preference was compared between the standard and the study treatment with a Chi-Square test for equal proportion."|||0.071
92327931|NCT03301844|184561236|OTHER|||||||0.7353|||||||Chi-squared||||"The incidence of all the treatment-emergent systemic Adverse Events recorded in the eCRF was presented overall at patient level; the incidence of all the treatment-emergent ocular Adverse Events recorded in eCRF was presented by treatment group at eye level.~Incidence of treatment-emergent ocular Adverse Events was compared between treatment groups by means of a Chi-square test."|||0.7353
92327932|NCT01267201|184561244|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|92.11|||||TWO_SIDED|90.0|88.23|96.15||||||Natural log transformed AUC (0 - ∞) of methylprednisolone was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||96.15|88.23|
92327933|NCT01267201|184561244|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|90.22|||||TWO_SIDED|90.0|86.49|94.11||||||Natural log transformed AUC (0 - ∞) of methylprednisolone was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||94.11|86.49|
92327934|NCT01267201|184561245|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|94.76|||||TWO_SIDED|90.0|88.06|101.98||||||Natural log transformed Cmax of methylprednisolone was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||101.98|88.06|
92327935|NCT01267201|184561245|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|83.89|||||TWO_SIDED|90.0|78.06|90.17||||||Natural log transformed Cmax of methylprednisolone was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||90.17|78.06|
92327936|NCT00501059|184561248|SUPERIORITY_OR_OTHER|||||||0.597|||||||Log Rank|||Primary efficacy analysis of time to the composite endpoint was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant and the primary objective of the study will have been met if the 2-sided P value is ≤0.05.||||0.597
92327937|NCT00501059|184561249|SUPERIORITY_OR_OTHER|||||||0.6125|||||||Log Rank|||Statistics for time to the composite endpoint was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.6125
92327938|NCT00501059|184561250|SUPERIORITY_OR_OTHER|||||||0.4505|||||||Log Rank|||Statistics for time to non-fatal MI was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.4505
92327939|NCT00501059|184561250|SUPERIORITY_OR_OTHER|||||||0.229|||||||Log Rank|||Statistics for time to total MI was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.229
92327940|NCT00501059|184561250|SUPERIORITY_OR_OTHER|||||||0.3947|||||||Log Rank|||Statistics for time to total non-fatal stroke was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.3947
92327941|NCT00501059|184561250|SUPERIORITY_OR_OTHER|||||||0.5125|||||||Log Rank|||Statistics for time to total stroke was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.5125
92327942|NCT00501059|184561251|SUPERIORITY_OR_OTHER|||||||0.9544|||||||Log Rank|||Analysis of time to all-cause mortality was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.9544
92327943|NCT00501059|184561251|SUPERIORITY_OR_OTHER|||||||0.4422|||||||Log Rank|||Analysis of time to the first occurrence of all cancers excluding non-melanoma skin cancer was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.4422
92327944|NCT00501059|184561251|SUPERIORITY_OR_OTHER|||||||0.611|||||||Log Rank|||Analysis of time to the first occurence colon cancer was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.611
92327945|NCT00501059|184561252|OTHER||Cox Proportional Hazard|0.99||||0.9459|TWO_SIDED|95.0|0.8|1.24|||Log Rank|||Analysis of incidence of all-cause mortality was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.24|0.80|0.9459
92327946|NCT00501059|184561253|OTHER||Cox Proportional Hazard|0.85||||0.2325|TWO_SIDED|95.0|0.64|1.11|||Log Rank|||Analysis of incidence of MI was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.11|0.64|0.2325
92327947|NCT00501059|184561253|OTHER||Cox Proportional Hazard|1.12||||0.5072||95.0|0.8|1.55|||Log Rank|||Analysis of incidence of stroke was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.55|0.80|0.5072
92327948|NCT00501059|184561253|OTHER||Cox Proportional Hazard|0.97||||0.901||95.0|0.62|1.52|||Log Rank|||Analysis of incidence of cardiovascular death was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.52|0.62|0.9010
92327949|NCT00501059|184561253|OTHER||Cox Proportional Hazard|1.0||||0.9979|TWO_SIDED|95.0|0.54|1.86|||Log Rank|||Analysis of incidence of UA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.86|0.54|0.9979
92327950|NCT00501059|184561253|OTHER||Cox Proportional Hazard|0.93||||0.7455|TWO_SIDED|95.0|0.61|1.42|||Log Rank|||Analysis of incidence of TIA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.42|0.61|0.7455
92327951|NCT00501059|184561255|OTHER||Cox Proportional Hazard|0.96||||0.6038|TWO_SIDED|95.0|0.81|1.13|||Log Rank|||Analysis of incidence of composite outcome of MI, stroke, CV death, UA or TIA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.13|0.81|0.6038
92327952|NCT00501059|184561255|OTHER||Cox Proportional Hazard|0.95||||0.619|TWO_SIDED|95.0|0.79|1.15|||Log Rank|||Analysis of incidence of composite outcome of MI, stroke or CV death was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.15|0.79|0.6190
92327953|NCT00501059|184561255|OTHER||Cox Proportional Hazard|0.9||||0.4562|TWO_SIDED|95.0|0.67|1.2|||Log Rank|||Analysis of incidence of non-fatal MI was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.20|0.67|0.4562
92327954|NCT00501059|184561256|OTHER||Cox Proportional Hazard|0.81||||0.0756|TWO_SIDED|95.0|0.64|1.02|||Log Rank|||Analysis of incidence of composite outcome of MI, stroke, CV death, UA or TIA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.02|0.64|0.0756
92327955|NCT00501059|184561256|OTHER||Cox Proportional Hazard|0.79||||0.0661|TWO_SIDED|95.0|0.61|1.02|||Log Rank|||Analysis of incidence of composite outcome of MI, stroke or CV death was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.02|0.61|0.0661
92327956|NCT00501059|184561256|OTHER||Cox Proportional Hazard|0.53||||0.0014|TWO_SIDED|95.0|0.36|0.79|||Log Rank|||Analysis of incidence of MI was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||0.79|0.36|0.0014
92327957|NCT00501059|184561256|OTHER||Cox Proportional Hazard|0.55||||0.0056|TWO_SIDED|95.0|0.36|0.84|||Log Rank|||Analysis of incidence of non-fatal MI was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||0.84|0.36|0.0056
92327958|NCT00501059|184561256|OTHER||Cox Proportional Hazard|1.12||||0.6291||95.0|0.71|1.75|||Log Rank|||Analysis of incidence of stroke was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.75|0.71|0.6291
92327959|NCT00501059|184561256|OTHER||Cox Proportional Hazard|1.03||||0.9161|TWO_SIDED|95.0|0.6|1.77|||Log Rank|||Analysis of incidence of CV death was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.77|0.60|0.9161
92327960|NCT00501059|184561256|OTHER||Cox Proportional Hazard|0.75||||0.538||95.0|0.3|1.87|||Log Rank|||Analysis of incidence of UA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.87|0.30|0.5380
92327961|NCT00501059|184561256|OTHER||Cox Proportional Hazard|1.03||||0.9181|TWO_SIDED|95.0|0.55|1.95|||Log Rank|||Analysis of incidence of TIA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.95|0.55|0.9181
92327962|NCT00501059|184561256|OTHER||Cox Proportional Hazard|1.1||||0.4796|TWO_SIDED|95.0|0.84|1.45|||Log Rank|||Analysis of incidence of all-cause mortality was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.45|0.84|0.4796
92327963|NCT00483704|184561257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.54|||<|0.001|TWO_SIDED|95.0|1.8|3.58|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.58|1.80|<0.001
92327964|NCT00483704|184561257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.001|TWO_SIDED|95.0|2.15|4.27|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.27|2.15|<0.001
92327965|NCT00483704|184561258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.001|TWO_SIDED|95.0|2.35|3.9|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.90|2.35|<0.001
92327966|NCT00483704|184561258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8|||<|0.001|TWO_SIDED|95.0|2.17|3.61|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.61|2.17|<0.001
92327967|NCT00483704|184561259|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.85|||<|0.001|TWO_SIDED|95.0|2.05|7.23|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||7.23|2.05|<0.001
92327968|NCT00483704|184561259|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.18|||<|0.001|TWO_SIDED|95.0|3.36|11.39|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||11.39|3.36|<0.001
92327969|NCT00483704|184561260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.62|||<|0.001|TWO_SIDED|95.0|1.96|3.51|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.51|1.96|<0.001
92327970|NCT00483704|184561260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.23|||<|0.001|TWO_SIDED|95.0|2.41|4.34|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.34|2.41|<0.001
92327971|NCT00483704|184561261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65|||<|0.001|TWO_SIDED|95.0|1.3|2.11|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.11|1.30|<0.001
92327972|NCT00483704|184561261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67|||<|0.001|TWO_SIDED|95.0|1.31|2.14|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.14|1.31|<0.001
92327973|NCT00483704|184561262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74|||<|0.001|TWO_SIDED|95.0|1.36|2.22|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.22|1.36|<0.001
92327974|NCT00483704|184561262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61|||<|0.001|TWO_SIDED|95.0|1.26|2.06|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.06|1.26|<0.001
92327975|NCT00483704|184561263|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67|||<|0.001|TWO_SIDED|95.0|1.28|2.17|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.17|1.28|<0.001
92327976|NCT00483704|184561263|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57|||<|0.001|TWO_SIDED|95.0|1.21|2.04|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.04|1.21|<0.001
92327977|NCT00483704|184561266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.69|||<|0.001|TWO_SIDED|95.0|1.78|4.07|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.07|1.78|<0.001
92327978|NCT00483704|184561266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.45|||<|0.001|TWO_SIDED|95.0|2.3|5.19|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||5.19|2.30|<0.001
92327979|NCT00483704|184561267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.001|TWO_SIDED|95.0|1.56|3.69|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.69|1.56|<0.001
92327980|NCT00483704|184561267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.37|||<|0.001|TWO_SIDED|95.0|2.22|5.12|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||5.12|2.22|<0.001
92327981|NCT00483704|184561268|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36|||<|0.001|TWO_SIDED|95.0|1.65|3.38|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.38|1.65|<0.001
92327982|NCT00483704|184561268|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.81|||<|0.001|TWO_SIDED|95.0|1.97|4.01|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.01|1.97|<0.001
92327983|NCT00483704|184561269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.32|||<|0.001|TWO_SIDED|95.0|1.52|3.54|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.54|1.52|<0.001
92327984|NCT00483704|184561269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.02|||<|0.001|TWO_SIDED|95.0|2.0|4.56|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.56|2.00|<0.001
92327985|NCT04250298|184561270|OTHER|||||||0.031|||||||t-test, 2 sided|||||||0.031
92327986|NCT04250298|184561271|OTHER|||||||0.267|||||||t-test, 2 sided|||||||0.267
92327987|NCT04250298|184561272|OTHER|||||||0.228|||||||t-test, 2 sided|||||||0.228
92327988|NCT04250298|184561273|OTHER|||||||0.267|||||||t-test, 2 sided|||||||0.267
92327989|NCT04250298|184561274|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
92327990|NCT04250298|184561275|OTHER|||||||0.318|||||||Fisher Exact|||||||0.318
92327991|NCT04250298|184561276|OTHER|||||||0.348|||||||Fisher Exact|||||||0.348
92327992|NCT04250298|184561277|OTHER|||||||0.548|||||||Wilcoxon (Mann-Whitney)|||||||0.548
92327993|NCT04250298|184561278|OTHER|||||||0.401|||||||Wilcoxon (Mann-Whitney)|||||||0.401
92327994|NCT04250298|184561279|OTHER|||||||0.506|||||||Wilcoxon (Mann-Whitney)|||||||0.506
92327995|NCT04250298|184561280|OTHER|||||||0.506|||||||Wilcoxon (Mann-Whitney)|||||||0.506
92327996|NCT04250298|184561286|OTHER|Mann-Whitney U test, Fisher Exact, Chi-Squared, Kolmogorv-Smirnow||||||0.919|||||||Wilcoxon (Mann-Whitney)|||"sub-population 1 vs. sub-population 2: Parametric and nonparametric univariate tests: t-test for independent samples, Mann-Whitney-U test, Fisher's exact test, chi-square homogeneity test; normal distribution check by Kolmogorov-Smirnov test with Lilliefors -significance correction, type I error = 10%).~Estimate the true effect size:~Two-sided 95% confidence intervals (depending on the nature of the data sets: parametric, non-parametric or Clopper-Pearson) are calculated for all parameters."||||0.919
92327997|NCT04250298|184561288|OTHER|||||||0.033|||||||t-test, 2 sided|||||||0.033
92327998|NCT04250298|184561289|OTHER|||||||0.585|||||||t-test, 2 sided|||||||0.585
92327999|NCT04250298|184561290|OTHER|||||||0.676|||||||t-test, 2 sided|||||||0.676
92328000|NCT04250298|184561291|OTHER|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
92328001|NCT04250298|184561296|OTHER|||||||0.031|||||||t-test, 2 sided|||||||0.031
92328002|NCT04250298|184561297|OTHER|||||||0.862|||||||t-test, 2 sided|||||||0.862
92328003|NCT04250298|184561298|OTHER|||||||0.25|||||||Fisher Exact|||||||0.250
92328004|NCT04250298|184561299|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92328005|NCT04250298|184561300|OTHER|||||||0.001|||||||Fisher Exact|||||||0.001
92328006|NCT04250298|184561301|OTHER|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||||||0.055
92328007|NCT04250298|184561302|OTHER|||||||0.111|||||||Wilcoxon (Mann-Whitney)|||||||0.111
92328008|NCT04250298|184561303|OTHER|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.100
92328009|NCT04250298|184561306|OTHER|||||||0.111|||||||Wilcoxon (Mann-Whitney)|||||||0.111
92328010|NCT04250298|184561307|OTHER|||||||0.213|||||||Wilcoxon (Mann-Whitney)|||||||0.213
92328011|NCT00725101|184561348|SUPERIORITY_OR_OTHER|||||||0.0074||95.0||||P-value for age over 65.|Regression, Logistic|||||||0.0074
92328012|NCT00725101|184561348|SUPERIORITY_OR_OTHER|||||||0.0028||95.0||||P-value for female physicians.|Regression, Logistic|||||||0.0028
92328013|NCT00725101|184561348|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Rheumatology versus PCP.|Regression, Logistic|||||||<0.0001
92328014|NCT00725101|184561348|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for other specialty versus PCP.|Regression, Logistic|||||||<0.0001
92328015|NCT00725101|184561348|SUPERIORITY_OR_OTHER|||||||0.0064||95.0||||P-value for use of opioids.|Regression, Logistic|||||||0.0064
92328016|NCT00725101|184561348|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for use of NSAIDs.|Regression, Logistic|||||||<0.0001
92328017|NCT00725101|184561348|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for number of medications participants were taking.|Regression, Logistic|||||||<0.0001
92328018|NCT00725101|184561349|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||P-value for GAD-7 score.|Regression, Logistic|||||||0.026
92328019|NCT00725101|184561349|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value for pregabalin use.|Regression, Logistic|||||||0.021
92328020|NCT00725101|184561349|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value for NSAID use.|Regression, Logistic|||||||0.050
92328021|NCT02537431|184561375|OTHER||Mean|-54.18|||<|0.0001|TWO_SIDED|95.0|-68.64|-39.72||The null hypothesis of no mean percent change from baseline is tested using t-test.|t-test|||||-39.72|-68.64|< 0.0001
92328022|NCT02537431|184561376|OTHER||||||<|0.0001||||||The p-value is for testing the proportion of participants achieving the mean serum phosphorus levels above the LLN (2.5 mg/dL \[0.81 mmol/L\]) against 0% from the binomial test.|binomial test|||||||<0.0001
92328023|NCT02537431|184561377|OTHER||Mean|-32.21|||<|0.0001|TWO_SIDED|95.0|-40.25|-24.17||The null hypothesis of no mean percent change from baseline is tested using t-test.|t-test|||||-24.17|-40.25|<0.0001
92328024|NCT02537431|184561378|OTHER||Mean|-26.0||||0.0002|TWO_SIDED|95.0|-36.08|-15.91||The null hypothesis of no mean percent change from baseline is tested using t-test.|t-test|||||-15.91|-36.08|0.0002
92328025|NCT02537431|184561379|OTHER||Mean|-52.24||||0.0199|TWO_SIDED|95.0|-94.08|-10.41||The null hypothesis of no mean percent change from baseline is tested using t-test.|t-test|||||-10.41|-94.08|0.0199
92328026|NCT02537431|184561391|OTHER||Least Squares Mean (GEE)|107.75|||||TWO_SIDED|95.0|76.46|139.03|||||From the generalized estimation equation (GEE) model which includes change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 1||139.03|76.46|
92328027|NCT02537431|184561391|OTHER||LS Mean|48.41|||||TWO_SIDED|95.0|33.91|62.91|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 2||62.91|33.91|
92328028|NCT02537431|184561391|OTHER||LS Mean|13.58|||||TWO_SIDED|95.0|6.85|20.31|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 4||20.31|6.85|
92328029|NCT02537431|184561391|OTHER||LS Mean|-1.34|||||TWO_SIDED|95.0|-8.43|5.75|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 20||5.75|-8.43|
92328030|NCT02537431|184561391|OTHER||LS Mean|31.75|||||TWO_SIDED|95.0|21.49|42.0|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 21||42.00|21.49|
92328031|NCT02537431|184561391|OTHER||LS Mean|11.5|||||TWO_SIDED|95.0|3.54|19.46|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 22||19.46|3.54|
92328032|NCT02537431|184561391|OTHER||LS Mean|-3.04|||||TWO_SIDED|95.0|-12.62|6.55|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 24||6.55|-12.62|
92328033|NCT02537431|184561391|OTHER||LS Mean|-1.72||||0.6821|TWO_SIDED|95.0|-9.93|6.5|||GEE model||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 48||6.50|-9.93|0.6821
92328034|NCT02537431|184561391|OTHER||LS mean|-5.73|||||TWO_SIDED|95.0|-12.38|0.92|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 60||0.92|-12.38|
92328035|NCT02537431|184561391|OTHER||LS mean|3.36|||||TWO_SIDED|95.0|-4.45|11.18|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 70||11.18|-4.45|
92328036|NCT02537431|184561391|OTHER||LS mean|-5.55|||||TWO_SIDED|95.0|-11.22|0.13|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 72||0.13|-11.22|
92328037|NCT02537431|184561391|OTHER||LS mean|-5.55|||||TWO_SIDED|95.0|-11.35|0.26|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 84||0.26|-11.35|
92328038|NCT02537431|184561391|OTHER||LS mean|9.63|||||TWO_SIDED|95.0|1.33|17.94|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 94||17.94|1.33|
92328039|NCT02537431|184561391|OTHER||LS mean|-6.09|||||TWO_SIDED|95.0|-10.8|-1.38||||||Week 96||-1.38|-10.80|
92328040|NCT02537431|184561391|OTHER||LS mean|0.02|||||TWO_SIDED|95.0|-9.22|9.26|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 108||9.26|-9.22|
92328041|NCT02537431|184561391|OTHER||LS mean|1.45|||||TWO_SIDED|95.0|-6.77|9.68|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 120||9.68|-6.77|
92328042|NCT02537431|184561391|OTHER||LS mean|-1.69|||||TWO_SIDED|95.0|-5.6|2.21|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 132||2.21|-5.60|
92328043|NCT02537431|184561392|OTHER||LS Mean|0.1|||||TWO_SIDED|95.0|-0.15|0.35|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 12||0.35|-0.15|
92328044|NCT02537431|184561392|OTHER||LS Mean|-0.04|||||TWO_SIDED|95.0|-0.19|0.11|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 24||0.11|-0.19|
92328045|NCT02537431|184561392|OTHER||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.12|0.11|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 36||0.11|-0.12|
92328046|NCT02537431|184561392|OTHER||LS Mean|-0.04||||0.6021|TWO_SIDED|95.0|-0.19|0.11|||GEE model||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 48||0.11|-0.19|0.6021
92328047|NCT02537431|184561392|OTHER||LS mean|0.0|||||TWO_SIDED|95.0|-0.19|0.19|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 72||0.19|-0.19|
92328048|NCT02537431|184561392|OTHER||LS mean|-0.13|||||TWO_SIDED|95.0|-0.29|0.03|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 96||0.03|-0.29|
92328049|NCT02537431|184561392|OTHER||LS mean|-0.07|||||TWO_SIDED|95.0|-0.41|0.26|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|EOS II||0.26|-0.41|
92328050|NCT02537431|184561393|OTHER||LS Mean|1.76|||||TWO_SIDED|95.0|1.49|2.03|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 2||2.03|1.49|
92328051|NCT02537431|184561393|OTHER||LS Mean|0.78|||||TWO_SIDED|95.0|0.59|0.97|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 4||0.97|0.59|
92328052|NCT02537431|184561393|OTHER||LS Mean|0.58|||||TWO_SIDED|95.0|0.34|0.82|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 12||0.82|0.34|
92328053|NCT02537431|184561393|OTHER||LS Mean|0.87|||||TWO_SIDED|95.0|0.74|0.99|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 22||0.99|0.74|
92328054|NCT02537431|184561393|OTHER||LS Mean|0.44|||||TWO_SIDED|95.0|0.24|0.64|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 24||0.64|0.24|
92328055|NCT02537431|184561393|OTHER||LS Mean|0.2||||0.043|TWO_SIDED|95.0|0.01|0.38|||GEE model||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 48||0.38|0.01|0.0430
92328056|NCT02537431|184561393|OTHER||LS mean|0.3|||||TWO_SIDED|95.0|-0.04|0.64|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 60||0.64|-0.04|
92328057|NCT02537431|184561393|OTHER||LS mean|0.28|||||TWO_SIDED|95.0|0.03|0.52|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 72||0.52|0.03|
92328058|NCT02537431|184561393|OTHER||LS mean|0.39|||||TWO_SIDED|95.0|0.13|0.66|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 84||0.66|0.13|
92328059|NCT02537431|184561393|OTHER||LS mean|0.29|||||TWO_SIDED|95.0|0.1|0.48|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 96||0.48|0.10|
92328060|NCT02537431|184561393|OTHER||LS mean|0.21|||||TWO_SIDED|95.0|0.08|0.34|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|EOSII||0.34|0.08|
92328061|NCT02537431|184561394|OTHER||LS Mean|0.07|||||TWO_SIDED|95.0|0.06|0.08|||||From the GEE model, which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 2||0.08|0.06|
92328062|NCT02537431|184561394|OTHER||LS Mean|0.03|||||TWO_SIDED|95.0|0.01|0.06|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 4||0.06|0.01|
92328063|NCT02537431|184561394|OTHER||LS Mean|0.01|||||TWO_SIDED|95.0|-0.01|0.04|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 12||0.04|-0.01|
92328064|NCT02537431|184561394|OTHER||LS Mean|0.04|||||TWO_SIDED|95.0|0.02|0.05|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 22||0.05|0.02|
92328065|NCT02537431|184561394|OTHER||LS Mean|0.01|||||TWO_SIDED|95.0|-0.02|0.04||||||Week 24||0.04|-0.02|
92328066|NCT02537431|184561394|OTHER||LS Mean|0.0||||0.8377|TWO_SIDED|95.0|-0.05|0.04|||GEE model||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 48||0.04|-0.05|0.8377
92328067|NCT02537431|184561394|OTHER||LS mean|0.03|||||TWO_SIDED|95.0|0.0|0.06|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 60||0.06|-0.00|
92328068|NCT02537431|184561394|OTHER||LS mean|-0.02|||||TWO_SIDED|95.0|-0.09|0.05|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 72||0.05|-0.09|
92328069|NCT02537431|184561394|OTHER||LS mean|0.02|||||TWO_SIDED|95.0|-0.01|0.06|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 84||0.06|-0.01|
92328070|NCT02537431|184561394|OTHER||LS mean|0.02|||||TWO_SIDED|95.0|-0.01|0.05|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 96||0.05|-0.01|
92328071|NCT02537431|184561394|OTHER||LS mean|0.01|||||TWO_SIDED|95.0|-0.01|0.03|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|EOSII||0.03|-0.01|
92328072|NCT02537431|184561395|OTHER||LS Mean|99.18|||||TWO_SIDED|95.0|76.83|121.53|||||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 12||121.53|76.83|
92328073|NCT02537431|184561395|OTHER||LS Mean|104.33|||||TWO_SIDED|95.0|82.47|126.19|||||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 24||126.19|82.47|
92328074|NCT02537431|184561395|OTHER||LS Mean|52.49|||<|0.0001|TWO_SIDED|95.0|29.84|75.13|||GEE model||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 48||75.13|29.84|< 0.0001
92328075|NCT02537431|184561395|OTHER||LS mean|37.29|||||TWO_SIDED|95.0|13.19|61.38|||||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 72||61.38|13.19|
92328076|NCT02537431|184561395|OTHER||LS mean|29.29|||||TWO_SIDED|95.0|3.18|55.4|||||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 96||55.40|3.18|
92328077|NCT02537431|184561395|OTHER||LS mean|2.14|||||TWO_SIDED|95.0|-17.67|21.94|||||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|EOSII||21.94|-17.67|
92328078|NCT02537431|184561396|OTHER||LS Mean|133.08|||||TWO_SIDED|95.0|106.26|159.89|||||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 12||159.89|106.26|
92328079|NCT02537431|184561396|OTHER||LS Mean|137.8|||||TWO_SIDED|95.0|106.95|168.65|||||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 24||168.65|106.95|
92328080|NCT02537431|184561396|OTHER||LS Mean|76.86|||<|0.0001|TWO_SIDED|95.0|49.2|104.53|||GEE model||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 48||104.53|49.20|< 0.0001
92328081|NCT02537431|184561396|OTHER||LS mean|50.46|||||TWO_SIDED|95.0|23.69|77.23|||||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 72||77.23|23.69|
92328082|NCT02537431|184561396|OTHER||LS mean|41.36|||||TWO_SIDED|95.0|18.69|64.03|||||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 96||64.03|18.69|
92328083|NCT02537431|184561396|OTHER||LS mean|26.2|||||TWO_SIDED|95.0|6.76|45.64|||||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|EOSII||45.64|6.76|
92328084|NCT02537431|184561397|OTHER||LS Mean|464.84|||||TWO_SIDED|95.0|343.92|585.77|||||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 12||585.77|343.92|
92328085|NCT02537431|184561397|OTHER||LS Mean|404.13|||||TWO_SIDED|95.0|294.47|513.78|||||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 24||513.78|294.47|
92328086|NCT02537431|184561397|OTHER||LS Mean|175.13|||<|0.0001|TWO_SIDED|95.0|88.85|261.41|||GEE model||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 48||261.41|88.85|< 0.0001
92328087|NCT02537431|184561397|OTHER||LS mean|143.11|||||TWO_SIDED|95.0|-38.2|324.41|||||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 72||324.41|-38.20|
92328088|NCT02537431|184561397|OTHER||LS mean|76.8|||||TWO_SIDED|95.0|-35.62|189.22|||||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 96||189.22|-35.62|
92328089|NCT02537431|184561397|OTHER||LS mean|-41.32|||||TWO_SIDED|95.0|-204.28|121.64|||||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|EOSII||121.64|-204.28|
92328090|NCT02537431|184561398|OTHER||LS Mean|89.68|||||TWO_SIDED|95.0|63.58|115.78|||||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 12||115.78|63.58|
92328091|NCT02537431|184561398|OTHER||LS Mean|70.17|||||TWO_SIDED|95.0|49.9|90.44|||||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 24||90.44|49.90|
92328092|NCT02537431|184561398|OTHER||LS Mean|35.86|||<|0.0001|TWO_SIDED|95.0|21.37|50.36|||GEE model||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 48||50.36|21.37|< 0.0001
92328093|NCT02537431|184561398|OTHER||LS mean|34.0|||||TWO_SIDED|95.0|6.53|61.47|||||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 72||61.47|6.53|
92328094|NCT02537431|184561398|OTHER||LS mean|25.86|||||TWO_SIDED|95.0|9.27|42.44|||||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 96||42.44|9.27|
92328095|NCT02537431|184561398|OTHER||LS mean|17.88|||||TWO_SIDED|95.0|-0.32|36.07|||||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|EOSII||36.07|-0.32|
92328096|NCT02537431|184561399|OTHER||LS Mean|10.93|||||TWO_SIDED|95.0|3.98|17.89|||||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 12||17.89|3.98|
92328097|NCT02537431|184561399|OTHER||LS Mean|5.82|||||TWO_SIDED|95.0|-0.02|11.66|||||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 24||11.66|-0.02|
92328098|NCT02537431|184561399|OTHER||LS Mean|4.5||||0.2592|TWO_SIDED|95.0|-3.32|12.32|||GEE model||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 48||12.32|-3.32|0.2592
92328099|NCT02537431|184561399|OTHER||LS mean|3.13|||||TWO_SIDED|95.0|-1.64|7.9|||||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 72||7.90|-1.64|
92328100|NCT02537431|184561399|OTHER||LS mean|1.14|||||TWO_SIDED|95.0|-2.84|5.11|||||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 96||5.11|-2.84|
92328101|NCT02537431|184561399|OTHER||LS mean|-5.8|||||TWO_SIDED|95.0|-12.46|0.85|||||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|EOSII||0.85|-12.46|
92328102|NCT02537431|184561400|OTHER||LS Mean|52.54|||||TWO_SIDED|95.0|21.18|83.9|||||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 12||83.90|21.18|
92328103|NCT02537431|184561400|OTHER||LS Mean|31.37|||||TWO_SIDED|95.0|8.23|54.51|||||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 24||54.51|8.23|
92328104|NCT02537431|184561400|OTHER||l|24.35||||0.1672|TWO_SIDED|95.0|-10.2|58.9|||GEE model||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 48||58.90|-10.20|0.1672
92328105|NCT02537431|184561400|OTHER||LS mean|15.13|||||TWO_SIDED|95.0|-11.19|41.46|||||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 72||41.46|-11.19|
92328106|NCT02537431|184561400|OTHER||LS mean|6.92|||||TWO_SIDED|95.0|-13.44|27.28|||||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 96||27.28|-13.44|
92328107|NCT02537431|184561400|OTHER||LS mean|-27.3|||||TWO_SIDED|95.0|-52.33|-2.28|||||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|EOSII||-2.28|-52.33|
92328108|NCT06350461|184561425|NON_INFERIORITY|The non-inferiority margin is -3.|Median Difference (Final Values)|-0.324|||<|0.0001|TWO_SIDED|95.0|-1.3|0.6||One-sided test for non-inferiority|ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|The non-inferiority test was a priori designed to be conducted on the per-protocol (PP) population.||0.6|-1.3|<0.0001
92328109|NCT06350461|184561426|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.733|TWO_SIDED|95.0|-0.4|0.4|||ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue|||0.4|-0.4|0.733
92328110|NCT06350461|184561427|SUPERIORITY||Mean Difference (Final Values)|-1.52||||0.226|TWO_SIDED|95.0|-4.1|0.9|||ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|||0.9|-4.1|0.226
92328111|NCT06350461|184561428|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.857|TWO_SIDED|95.0|-1.8|2.1|||ANOVA|Adjusted for four dichotomous randomization strata|Direction of the difference is Discontinue - Continue|||2.1|-1.8|0.857
92328112|NCT06350461|184561429|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.16|TWO_SIDED|95.0|-0.25|1.54|||t-test, 2 sided||Direction of the difference is Discontinue - Continue|||1.54|-0.25|0.16
92328113|NCT06350461|184561430|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.56|TWO_SIDED|95.0|-1.04|0.57|||t-test, 2 sided||Direction of the difference is Discontinue - Continue|||0.57|-1.04|0.56
92328114|NCT06350461|184561431|SUPERIORITY||Difference in % Participants|1.1||||0.653|TWO_SIDED|95.0|-3.7|6.1|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants initiating acute antibiotics is the same in the Discontinue and Continue arms||6.1|-3.7|0.653
92328115|NCT06350461|184561432|SUPERIORITY||Difference in % Participants|0.5||||0.622|TWO_SIDED|95.0|-2.0|3.4|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants with at least one hospitalization is the same in Discontinue and Continue arms.||3.4|-2.0|0.622
92328116|NCT06350461|184561433|SUPERIORITY||Difference in % Participants|-1.1||||0.623|TWO_SIDED|95.0|-4.1|1.6|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants with at least one protocol-defined pulmonary exacerbation is the same in Discontinue and Continue arms.||1.6|-4.1|0.623
92328117|NCT06350461|184561434|SUPERIORITY||Difference in % Participants|11.7||||0.0165|TWO_SIDED|95.0|2.4|20.7|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants with at least one AE is the same in Discontinue and Continue arms.||20.7|2.4|0.0165
92328118|NCT06350461|184561435|SUPERIORITY||Rate Ratio|1.29||||0.0958|TWO_SIDED|95.0|0.96|1.74|||Poisson Regression|||Rate ratio, confidence interval, and p-value calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks in the HS-discontinue and HS-continue arms are 1135.7 and 1163.9 weeks, respectively. Ratio is Discontinue / Continue.||1.74|0.96|0.0958
92328119|NCT06350461|184561436|SUPERIORITY||Difference in % Participants|2.17||||0.1215|TWO_SIDED|95.0|-0.7|5.7|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants changing assigned regimen is the same in Discontinue and Continue arms.||5.7|-0.7|0.1215
92328120|NCT01037127|184561450|SUPERIORITY_OR_OTHER||percentage of participants|25.0|||||TWO_SIDED|95.0|14.1|37.8|||||The estimated value reflects the percentage of particpants with CR and PR.|||37.8|14.1|
92328121|NCT01037127|184561451|SUPERIORITY_OR_OTHER||percentage of participants|17.0|||||TWO_SIDED|95.0|2.1|48.4|||||The estimated value reflects the percentage of particpants with CR and PR.|||48.4|2.1|
92328122|NCT01037127|184561451|SUPERIORITY_OR_OTHER||percentage of participants|27.0|||||TWO_SIDED|95.0|14.6|41.9|||||The estimated value reflects the percentage of particpants with CR and PR.|||41.9|14.6|
92328123|NCT01037127|184561451|SUPERIORITY_OR_OTHER||percentage of participants|26.0|||||TWO_SIDED|95.0|14.3|41.4|||||The estimated value reflects the percentage of particpants with CR and PR.|||41.4|14.3|
92328124|NCT01037127|184561451|SUPERIORITY_OR_OTHER||percentage of participants|28.0|||||TWO_SIDED|95.0|14.2|45.2|||||The estimated value reflects the percentage of particpants with CR and PR.|||45.2|14.2|
92328125|NCT01037127|184561452|SUPERIORITY_OR_OTHER||percentage of participants|20.0||||||95.0|7.7|38.6|||||The estimated value reflects the percentage of particpants with CR and PR.|||38.6|7.7|
92328126|NCT02584998|184561462|OTHER||||||<|0.001|||||||Chi-squared|||In our power and sample size analysis, we assumed 15% screening rate in usual care, 25% with invitation, and 40% with mailed-FIT. A sample size of 500 (250/arm) will give 80% power for UC vs. screening invitation-reminder, and 152/arm will give a power of 80% for the screening invitation-reminder vs. mailed-FIT. Accounting for the possibility that up to 20% of participants could be ineligible post-randomization, we concluded that we should enroll 783 patients, 261 per arm, for this trial.||||<0.001
92328127|NCT04216589|184561516|OTHER|This was a single arm trial.|Mean Difference (Net)|-4.24|STANDARD_DEVIATION|4.05|<|0.001|TWO_SIDED|95.0|-5.41|-3.06|||Regression, Linear|||The study was powered to detect an absolute IHTG change of -5% assuming a null change of 0%, a standard deviation of absolute IHTG change of 9%, and 37 evaluable participants.||-3.06|-5.41|<0.001
92328128|NCT04216589|184561517|OTHER|This was a single arm trial.|Mean Difference (Net)|-31.33|STANDARD_DEVIATION|26.5|<|0.001|TWO_SIDED|95.0|-39.04|-23.62||No adjustment for multiple comparisons|Regression, Linear|||||-23.62|-39.04|<0.001
92328129|NCT04216589|184561521|OTHER|This was a single arm trial.|Mean Difference (Net)|-2.77|STANDARD_DEVIATION|2.05|<|0.001|TWO_SIDED|95.0|-3.36|-2.17||Not adjusted for multiple comparisons.|Regression, Linear|||||-2.17|-3.36|<0.001
92328130|NCT04216589|184561522|OTHER|This was a single arm trial.|Mean Difference (Net)|-2.15|STANDARD_DEVIATION|1.38|<|0.001|TWO_SIDED|95.0|-2.55|-1.75||Not adjusted for multiple comparisons|Regression, Linear|||||-1.75|-2.55|<0.001
92328131|NCT04216589|184561523|OTHER|This was a single arm trial.|Mean Difference (Net)|-7.8|STANDARD_DEVIATION|5.77|<|0.001|TWO_SIDED|95.0|-9.48|-6.13||Not adjusted for multiple comparisons|Regression, Linear|||||-6.13|-9.48|<0.001
92328132|NCT04216589|184561524|OTHER|This was a single arm trial.|Mean Difference (Net)|-6.16|STANDARD_DEVIATION|3.96|<|0.001|TWO_SIDED|95.0|-7.3|-5.03||Not adjusted for multiple comparisons|Regression, Linear|||||-5.03|-7.30|<0.001
92328133|NCT04216589|184561525|OTHER|This was a single arm trial.|Mean Difference (Net)|-6.66|STANDARD_DEVIATION|6.47|<|0.001|TWO_SIDED|95.0|-8.54|-4.78||Not adjusted for multiple comparisons|Regression, Linear|||||-4.78|-8.54|<0.001
92328134|NCT04216589|184561526|OTHER|This was a single arm trial.|Mean Difference (Net)|-5.53|STANDARD_DEVIATION|5.3|<|0.001|TWO_SIDED|95.0|-7.07|-3.99||Not adjusted for multiple comparisons|Regression, Linear|||||-3.99|-7.07|<0.001
92328135|NCT04216589|184561527|OTHER|This was a single arm trial.|Mean Difference (Net)|-1.46|STANDARD_DEVIATION|5.82||0.092|TWO_SIDED|95.0|-3.17|0.25||Not adjusted for multiple comparisons|Regression, Linear|||||0.25|-3.17|0.092
92328136|NCT04216589|184561529|OTHER|This was a single arm trial.|Mean Difference (Net)|-0.25|STANDARD_DEVIATION|0.259|<|0.001|TWO_SIDED|95.0|-0.32|-0.17||Not adjusted for multiple comparisons|Regression, Linear|||||-0.17|-0.32|< 0.001
92328137|NCT04216589|184561530|OTHER|This was a single arm trial.|Mean Difference (Net)|-9.9|STANDARD_DEVIATION|16.6|<|0.001|TWO_SIDED|95.0|-14.7|-5.09||Not adjusted for multiple comparisons|Regression, Linear|||||-5.09|-14.70|<0.001
92328138|NCT04216589|184561531|OTHER|This was a single arm trial.|Mean Difference (Net)|-8.87|STANDARD_DEVIATION|11.5|<|0.001|TWO_SIDED|95.0|-12.26|-5.48||Not adjusted for multiple comparisons|Regression, Linear|||||-5.48|-12.26|<0.001
92328139|NCT04216589|184561532|OTHER|This was a single arm trial.|Mean Difference (Net)|-3.98|STANDARD_DEVIATION|23.1||0.25|TWO_SIDED|95.0|-10.84|2.89||Not adjusted for multiple comparisons|Regression, Linear|||||2.89|-10.84|0.25
92328140|NCT04216589|184561533|OTHER|This was a single arm trial.|Mean Difference (Net)|-11.93|STANDARD_DEVIATION|26.4||0.004|TWO_SIDED|95.0|-19.79|-4.08||Not adjusted for multiple comparisons|Regression, Linear|||||-4.08|-19.79|0.004
92328141|NCT04216589|184561534|OTHER|This was a single arm trial.|Mean Difference (Net)|-1.04|STANDARD_DEVIATION|20.5||0.73|TWO_SIDED|95.0|-7.14|5.05||Not adjusted for multiple comparisons|Regression, Linear|||||5.05|-7.14|0.73
92328142|NCT04216589|184561535|OTHER|This was a single arm trial.|Mean Difference (Net)|-6.91|STANDARD_DEVIATION|23.1||0.051|TWO_SIDED|95.0|-13.85|0.03||Not adjusted for multiple comparisons|Regression, Linear|||||0.03|-13.85|0.051
92328143|NCT04216589|184561536|OTHER|This was a single arm trial.|Mean Difference (Net)|2.04|STANDARD_DEVIATION|6.96||0.053|TWO_SIDED|95.0|-0.02|4.11||Not adjusted for multiple comparisons|Regression, Linear|||||4.11|-0.02|0.053
92328144|NCT04216589|184561537|OTHER|This was a single arm trial.|Mean Difference (Net)|-0.78|STANDARD_DEVIATION|6.66||0.43|TWO_SIDED|95.0|-2.76|1.2||Not adjusted for multiple comparisons|Regression, Linear|||||1.20|-2.76|0.43
92328145|NCT04216589|184561538|OTHER|This was a single arm trial.|Mean Difference (Net)|-26.78|STANDARD_DEVIATION|64.8||0.007|TWO_SIDED|95.0|-46.04|-7.53||Not adjusted for multiple comparisons|Regression, Linear|||||-7.53|-46.04|0.007
92328146|NCT04216589|184561539|OTHER|This was a single arm trial.|Mean Difference (Net)|-18.65|STANDARD_DEVIATION|49.3||0.014|TWO_SIDED|95.0|-33.29|-4.01||Not adjusted for multiple comparisons|Regression, Linear|||||-4.01|-33.29|0.014
92328147|NCT04216589|184561540|OTHER|This was a single arm trial.|Risk Ratio (RR)|0.72||||0.016|TWO_SIDED|95.0|0.55|0.94||Not adjusted for multiple comparisons.|GEE model for repeated binary outcomes|The GEE model used a log link and an unstructured correlation.|The risk ratio is comparing the estimated risk at Week 12 (0.55; 95% CI: 0.43, 0.72) to estimated risk at Baseline (0.77; 95% CI: 0.67, 0.90).|Comparison between Baseline and Week 12.||0.94|0.55|0.016
92328148|NCT04216589|184561540|OTHER|This was a single arm trial.|Risk Ratio (RR)|0.75||||0.033|TWO_SIDED|95.0|0.58|0.98||Not adjusted for multiple comparisons.|GEE model for repeated binary outcomes|The GEE model used a log link and an unstructured correlation.|The risk ratio is comparing the estimated risk at Week 24 (0.58; 95% CI: 0.46, 0.74) to estimated risk at Baseline (0.77; 95% CI: 0.67, 0.90).|Comparison between Baseline and Week 24.||0.98|0.58|0.033
92328149|NCT01254851|184561543|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|0.39||||0.7|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.70
92328150|NCT02326298|184561544|SUPERIORITY||Odds Ratio (OR)|28.962|||<|0.0001|TWO_SIDED|97.5|6.968|120.371||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose versus (vs) PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||120.371|6.968|<0.0001
92328151|NCT02326298|184561544|SUPERIORITY||Odds Ratio (OR)|45.66|||<|0.0001|TWO_SIDED|97.5|10.657|195.634||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||195.634|10.657|<0.0001
92328152|NCT02326298|184561544|SUPERIORITY||Estimated difference in responder rate|60.0|||||TWO_SIDED|95.0|47.92|72.17|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||72.17|47.92|
92328153|NCT02326298|184561544|SUPERIORITY||Estimated difference in responder rate|69.3|||||TWO_SIDED|95.0|57.65|80.99|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||80.99|57.65|
92328154|NCT02326298|184561545|SUPERIORITY||Odds Ratio (OR)|20.116|||<|0.0001|TWO_SIDED|97.5|3.699|109.399||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||109.399|3.699|<0.0001
92328155|NCT02326298|184561545|SUPERIORITY||Odds Ratio (OR)|31.143|||<|0.0001|TWO_SIDED|97.5|5.687|170.548||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||170.548|5.687|<0.0001
92328156|NCT02326298|184561545|SUPERIORITY||Estimated difference in responder rate|42.8|||||TWO_SIDED|95.0|30.7|54.86|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||54.86|30.70|
92328157|NCT02326298|184561545|SUPERIORITY||Estimated difference in responder rate|53.6|||||TWO_SIDED|95.0|41.33|65.94|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||65.94|41.33|
92328158|NCT02326298|184561546|SUPERIORITY||Odds Ratio (OR)|36.668|||<|0.0001|TWO_SIDED|97.5|5.717|235.193||The p-value for this analysis as used in the fixed sequence testing procedure was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment,region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||235.193|5.717|<0.0001
92328159|NCT02326298|184561546|SUPERIORITY||Odds Ratio (OR)|50.606|||<|0.0001|TWO_SIDED|97.5|7.88|324.988||The p-value for this analysis as used in the fixed sequence testing procedure was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||324.988|7.880|<0.0001
92328160|NCT02326298|184561546|SUPERIORITY||Estimated difference in responder rate|35.4|||||TWO_SIDED|95.0|20.85|49.87|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||49.87|20.85|
92328161|NCT02326298|184561546|SUPERIORITY||Estimated difference in responder rate|43.1|||||TWO_SIDED|95.0|27.56|58.71|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||58.71|27.56|
92328162|NCT02326298|184561547|SUPERIORITY||Adjusted Mean Treatment Differences|-6.0|||<|0.0001|TWO_SIDED|97.5|-8.18|-3.81||P-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group, region, prior biologic exposure as factors; Baseline DLQI score as a covariate.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||-3.81|-8.18|<0.0001
92328163|NCT02326298|184561547|SUPERIORITY||Ajusted Mean Treatment Differences|-6.84|||<|0.0001|TWO_SIDED|97.5|-9.05|-4.62||P-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group, region, prior biologic exposure as factors; Baseline DLQI score as a covariate.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||-4.62|-9.05|<0.0001
92328164|NCT02889835|184561595|SUPERIORITY|||||||0.686|||||||Log Rank|||Kaplan-Meier analysis was performed to assess survival over 36 months. Test of survival distributions for the three arms were calculated using Log Rank (Mantel-Cox). Sample size is based on guidelines of the American Dental Association for obtaining approval as an amalgam replacement for posterior restorations - minimum of 40 restorations in a minimum of 20 subjects at 18 months. Sample size is based by taking subject attrition into account over the 36 month clinical evaluation.||||0.686
92328165|NCT02889835|184561596|SUPERIORITY|||||||0.701|||||||Kruskal-Wallis|||||||0.701
92328166|NCT02889835|184561597|SUPERIORITY|||||||0.812|||||||Kruskal-Wallis|||||||0.812
92328167|NCT02889835|184561598|SUPERIORITY|||||||0.104|||||||Kruskal-Wallis|||||||0.104
92328168|NCT02889835|184561599|SUPERIORITY|||||||0.44|||||||Kruskal-Wallis|||||||0.440
92328169|NCT02889835|184561600|SUPERIORITY|||||||0.676|||||||Kruskal-Wallis|||||||0.676
92328170|NCT02889835|184561601|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||||||1.000
92328171|NCT02889835|184561602|SUPERIORITY|||||||0.764|||||||Kruskal-Wallis|||||||0.764
92328172|NCT02889835|184561603|SUPERIORITY|||||||0.323|||||||Kruskal-Wallis|||||||0.323
92328173|NCT02889835|184561604|SUPERIORITY|||||||0.714|||||||Kruskal-Wallis|||||||0.714
92328174|NCT02889835|184561605|SUPERIORITY|||||||0.846|||||||Kruskal-Wallis|||||||0.846
92328175|NCT02889835|184561606|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||||||1.000
92328176|NCT02889835|184561607|SUPERIORITY|||||||0.424|||||||Kruskal-Wallis|||||||0.424
92328177|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.1|||<|0.001|TWO_SIDED|95.0|-3.3|3.0|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 1||3.0|-3.3|< 0.001
92328178|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|24.2|||<|0.001|TWO_SIDED|95.0|18.7|30.0|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar|Type 3||30.0|18.7|< 0.001
92328179|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|3.0|||<|0.001|TWO_SIDED|95.0|0.0|6.4|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 4||6.4|0.0|< 0.001
92328180|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.5|||<|0.001|TWO_SIDED|95.0|-3.9|2.8|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 5||2.8|-3.9|< 0.001
92328181|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-5.6|||<|0.001|TWO_SIDED|95.0|-10.0|-1.6|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 6A||-1.6|-10.0|< 0.001
92328182|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.8|||<|0.001|TWO_SIDED|95.0|-5.7|4.0|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 6B||4.0|-5.7|< 0.001
92328183|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.7|||<|0.001|TWO_SIDED|95.0|-1.1|2.7|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 7F||2.7|-1.1|< 0.001
92328184|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|1.3|||<|0.001|TWO_SIDED|95.0|-1.9|4.6|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 9V||4.6|-1.9|< 0.001
92328185|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|2.0|||<|0.001|TWO_SIDED|95.0|-0.2|4.7|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 14||4.7|-0.2|< 0.001
92328186|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|1.2|||<|0.001|TWO_SIDED|95.0|-2.1|4.7|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 18C||4.7|-2.1|< 0.001
92328187|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.3|||<|0.001|TWO_SIDED|95.0|-1.9|2.6|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 19A||2.6|-1.9|< 0.001
92328188|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.3|||<|0.001|TWO_SIDED|95.0|-1.0|1.9|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 19F||1.9|-1.0|< 0.001
92328189|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|1.8|||<|0.001|TWO_SIDED|95.0|-2.9|6.5|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 23F||6.5|-2.9|< 0.001
92328190|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.9|||<|0.001|TWO_SIDED|95.0|-2.0|3.9|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 1||3.9|-2.0|< 0.001
92328191|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|22.3|||<|0.001|TWO_SIDED|95.0|16.5|28.3|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 3||28.3|16.5|< 0.001
92328192|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|1.9|||<|0.001|TWO_SIDED|95.0|-1.4|5.4|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 4||5.4|-1.4|< 0.001
92328193|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.6|||<|0.001|TWO_SIDED|95.0|-4.1|2.7|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 5||2.7|-4.1|< 0.001
92328194|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.6|||<|0.001|TWO_SIDED|95.0|-4.2|2.8|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 6A||2.8|-4.2|< 0.001
92328195|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.9|||<|0.001|TWO_SIDED|95.0|-3.7|5.6|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 6B||5.6|-3.7|< 0.001
92328196|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.3|||<|0.001|TWO_SIDED|95.0|-1.7|2.4|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 7F||2.4|-1.7|< 0.001
92328197|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|2.0|||<|0.001|TWO_SIDED|95.0|-1.1|5.2|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 9V||5.2|-1.1|< 0.001
92328198|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.2|||<|0.001|TWO_SIDED|95.0|-2.8|3.1|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 14||3.1|-2.8|< 0.001
92328199|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|2.6|||<|0.001|TWO_SIDED|95.0|-0.3|5.9|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 18C||5.9|-0.3|< 0.001
92328200|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.1|||<|0.001|TWO_SIDED|95.0|-2.5|2.2|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 19A||2.2|-2.5|< 0.001
92328201|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.8|||<|0.001|TWO_SIDED|95.0|-2.9|0.9|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 19F||0.9|-2.9|< 0.001
92328202|NCT02987972|184561620|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|4.2|||<|0.001|TWO_SIDED|95.0|-0.1|8.7|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 23F||8.7|-0.1|< 0.001
92328203|NCT02987972|184561621|OTHER||GMC Ratio|0.72|||||TWO_SIDED|95.0|0.64|0.81|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on analysis of variance (ANOVA) model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.81|0.64|
92328204|NCT02987972|184561621|OTHER||GMC Ratio|1.98|||||TWO_SIDED|95.0|1.75|2.23|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||2.23|1.75|
92328205|NCT02987972|184561621|OTHER||GMC Ratio|1.04|||||TWO_SIDED|95.0|0.92|1.16|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||1.16|0.92|
92328206|NCT02987972|184561621|OTHER||GMC Ratio|0.78|||||TWO_SIDED|95.0|0.68|0.89|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.89|0.68|
92328207|NCT02987972|184561621|OTHER||GMC Ratio|0.54|||||TWO_SIDED|95.0|0.47|0.63|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.63|0.47|
92328208|NCT02987972|184561621|OTHER||GMC Ratio|1.03|||||TWO_SIDED|95.0|0.84|1.26|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||1.26|0.84|
92328209|NCT02987972|184561621|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.73|0.92|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.92|0.73|
92328210|NCT02987972|184561621|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.77|1.0|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||1.00|0.77|
92328211|NCT02987972|184561621|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.75|1.03|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||1.03|0.75|
92328212|NCT02987972|184561621|OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.66|0.84|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 18C||0.84|0.66|
92328213|NCT02987972|184561621|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.73|0.92|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||0.92|0.73|
92328214|NCT02987972|184561621|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.79|0.98|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on analysis of variance (ANOVA) model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||0.98|0.79|
92328215|NCT02987972|184561621|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.13|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||1.13|0.84|
92328216|NCT02987972|184561621|OTHER||GMC Ratio|92.05|||||TWO_SIDED|95.0|80.84|104.81|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 22F||104.81|80.84|
92328217|NCT02987972|184561621|OTHER||GMC Ratio|34.41|||||TWO_SIDED|95.0|28.5|41.54|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||41.54|28.50|
92328218|NCT02987972|184561621|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.74|0.94|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.94|0.74|
92328219|NCT02987972|184561621|OTHER||GMC Ratio|1.93|||||TWO_SIDED|95.0|1.71|2.18|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||2.18|1.71|
92328220|NCT02987972|184561621|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.9|1.14|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||1.14|0.90|
92328221|NCT02987972|184561621|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.72|0.94|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.94|0.72|
92328222|NCT02987972|184561621|OTHER||GMC Ratio|0.57|||||TWO_SIDED|95.0|0.49|0.66|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.66|0.49|
92328223|NCT02987972|184561621|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.1|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||1.10|0.74|
92328224|NCT02987972|184561621|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.72|0.91|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.91|0.72|
92328225|NCT02987972|184561621|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.94|1.22|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||1.22|0.94|
92328226|NCT02987972|184561621|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.71|0.97|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||0.97|0.71|
92328227|NCT02987972|184561621|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.88|1.12|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 18C||1.12|0.88|
92328228|NCT02987972|184561621|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.73|0.92|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||0.92|0.73|
92328229|NCT02987972|184561621|OTHER||GMC Ratio|0.91|||||TWO_SIDED|95.0|0.81|1.01|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||1.01|0.81|
92328230|NCT02987972|184561621|OTHER||GMC Ratio|1.18|||||TWO_SIDED|95.0|1.01|1.37|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||1.37|1.01|
92328231|NCT02987972|184561621|OTHER||GMC Ratio|80.09|||||TWO_SIDED|95.0|70.3|91.24|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 22F||91.24|70.30|
92328232|NCT02987972|184561621|OTHER||GMC Ratio|32.92|||||TWO_SIDED|95.0|27.25|39.78|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||39.78|27.25|
92328233|NCT02987972|184561622|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-3.1|3.2||||||Difference in percentages calculated as V114 Lot 1 minus Prevnar 13™. Confidence intervals based on Miettinen and Nurminen method.||3.2|-3.1|
92328234|NCT02987972|184561622|OTHER||Difference in Percentages|2.0|||||TWO_SIDED|95.0|-0.7|5.0||||||Difference in percentages calculated as V114 Lot 2 minus Prevnar 13™. Confidence intervals based on Miettinen and Nurminen method.||5.0|-0.7|
92328235|NCT02987972|184561623|OTHER||Difference in Percentages|0.3|||||TWO_SIDED|95.0|-0.8|1.6||||||Difference in percentages calculated as V114 Lot 1 minus Prevnar 13™. Confidence intervals based on Miettinen and Nurminen method.||1.6|-0.8|
92328236|NCT02987972|184561623|OTHER||Difference in Percentages|0.3|||||TWO_SIDED|95.0|-0.8|1.6||||||Difference in percentages calculated as V114 Lot 2 minus Prevnar 13™. Confidence intervals based on Miettinen and Nurminen method.||1.6|-0.8|
92328237|NCT02987972|184561624|OTHER||Difference in Percentages|6.3|||||TWO_SIDED|95.0|-0.3|12.8|||||Difference in percentages calculated as V114 Lot 1 minus Prevnar 13™.|||12.8|-0.3|
92328238|NCT02987972|184561624|OTHER||Difference in Percentages|6.3|||||TWO_SIDED|95.0|-0.2|12.9|||||Difference in percentages calculated as V114 Lot 2 minus Prevnar 13™.|||12.9|-0.2|
92328239|NCT02987972|184561625|OTHER||Difference in Percentages|0.7||||0.772|TWO_SIDED|95.0|-3.9|5.2|||Miettinen and Nurminen||Difference in percentages calculated as V114 Lot 1 minus Prevnar 13™.|||5.2|-3.9|0.772
92328240|NCT02987972|184561625|OTHER||Difference in Percentages|2.6||||0.235|TWO_SIDED|95.0|-1.7|7.0|||Miettinen and Nurminen||Difference in percentages calculated as V114 Lot 2 minus Prevnar 13™.|||7.0|-1.7|0.235
92328241|NCT02987972|184561626|OTHER||GMC Ratio|0.69|||||TWO_SIDED|95.0|0.62|0.76|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.76|0.62|
92328242|NCT02987972|184561626|OTHER||GMC Ratio|2.0|||||TWO_SIDED|95.0|1.75|2.28|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||2.28|1.75|
92328243|NCT02987972|184561626|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.86|1.07|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||1.07|0.86|
92328244|NCT02987972|184561626|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.78|0.96|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.96|0.78|
92328245|NCT02987972|184561626|OTHER||GMC Ratio|0.57|||||TWO_SIDED|95.0|0.5|0.65|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.65|0.50|
92328246|NCT02987972|184561626|OTHER||GMC Ratio|1.21|||||TWO_SIDED|95.0|1.06|1.39|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||1.39|1.06|
92328247|NCT02987972|184561626|OTHER||GMC Ratio|0.74|||||TWO_SIDED|95.0|0.67|0.82|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.82|0.67|
92328248|NCT02987972|184561626|OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.74|0.95|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||0.95|0.74|
92328249|NCT02987972|184561626|OTHER||GMC Ratio|0.66|||||TWO_SIDED|95.0|0.58|0.76|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||0.76|0.58|
92328250|NCT02987972|184561626|OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.72|0.9||||||Type 18C|IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|0.90|0.72|
92328251|NCT02987972|184561626|OTHER||GMC Ratio|0.79|||||TWO_SIDED|95.0|0.69|0.91|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||0.91|0.69|
92328252|NCT02987972|184561626|OTHER||GMC Ratio|0.74|||||TWO_SIDED|95.0|0.65|0.85|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||0.85|0.65|
92328253|NCT02987972|184561626|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.79|1.07|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||1.07|0.79|
92328254|NCT02987972|184561626|OTHER||GMC Ratio|27.82|||||TWO_SIDED|95.0|24.64|31.4|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|type 22F||31.40|24.64|
92328255|NCT02987972|184561626|OTHER||GMC Ratio|25.57|||||TWO_SIDED|95.0|22.61|28.92|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||28.92|22.61|
92328256|NCT02987972|184561626|OTHER||GMC ratio|0.77|||||TWO_SIDED|95.0|0.69|0.85|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.85|0.69|
92328257|NCT02987972|184561626|OTHER||GMC Ratio|2.1|||||TWO_SIDED|95.0|1.84|2.39|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||2.39|1.84|
92328258|NCT02987972|184561626|OTHER||GMC Ratio|0.94|||||TWO_SIDED|95.0|0.85|1.05|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||1.05|0.85|
92328259|NCT02987972|184561626|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.77|0.95|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.95|0.77|
92328260|NCT02987972|184561626|OTHER||GMC Ratio|0.65|||||TWO_SIDED|95.0|0.57|0.74|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.74|0.57|
92328261|NCT02987972|184561626|OTHER||GMC Ratio|1.12|||||TWO_SIDED|95.0|0.97|1.28|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||1.28|0.97|
92328262|NCT02987972|184561626|OTHER||GMC Ratio|0.78|||||TWO_SIDED|95.0|0.7|0.86|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.86|0.70|
92328263|NCT02987972|184561626|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.76|0.97|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||0.97|0.76|
92328264|NCT02987972|184561626|OTHER||GMC Ratio|0.61|||||TWO_SIDED|95.0|0.53|0.7|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||0.70|0.53|
92328265|NCT02987972|184561626|OTHER||GMC Ratio|1.2|||||TWO_SIDED|95.0|1.07|1.34|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 18C||1.34|1.07|
92328266|NCT02987972|184561626|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.71|0.94|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||0.94|0.71|
92328267|NCT02987972|184561626|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.73|0.94|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||0.94|0.73|
92328268|NCT02987972|184561626|OTHER||GMC Ratio|1.16|||||TWO_SIDED|95.0|0.99|1.35|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||1.35|0.99|
92328269|NCT02987972|184561626|OTHER||GMC Ratio|26.3|||||TWO_SIDED|95.0|23.31|29.68|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 22F||29.68|23.31|
92328270|NCT02987972|184561626|OTHER||GMC Ratio|24.1|||||TWO_SIDED|95.0|21.32|27.25|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||27.25|21.32|
92328271|NCT02987972|184561627|OTHER||GMC Ratio|0.71|||||TWO_SIDED|95.0|0.62|0.81|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.81|0.62|
92328272|NCT02987972|184561627|OTHER||GMC Ratio|1.44|||||TWO_SIDED|95.0|1.27|1.63|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||1.63|1.27|
92328273|NCT02987972|184561627|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.76|1.02|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||1.02|0.76|
92328274|NCT02987972|184561627|OTHER||GMC Ratio|0.73|||||TWO_SIDED|95.0|0.63|0.84|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.84|0.63|
92328275|NCT02987972|184561627|OTHER||GMC Ratio|0.72|||||TWO_SIDED|95.0|0.62|0.82|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.82|0.62|
92328276|NCT02987972|184561627|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.93|1.22|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||1.22|0.93|
92328277|NCT02987972|184561627|OTHER||GMC Ratio|0.67|||||TWO_SIDED|95.0|0.59|0.77|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.77|0.59|
92328278|NCT02987972|184561627|OTHER||GMC Ratio|0.69|||||TWO_SIDED|95.0|0.6|0.79|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||0.79|0.60|
92328279|NCT02987972|184561627|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.76|1.02|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||1.02|0.76|
92328280|NCT02987972|184561627|OTHER||GMC Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.08|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 18C||1.08|0.81|
92328281|NCT02987972|184561627|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.78|1.01|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||1.01|0.78|
92328282|NCT02987972|184561627|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.1|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||1.10|0.85|
92328283|NCT02987972|184561627|OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.64|0.87|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||0.87|0.64|
92328284|NCT02987972|184561627|OTHER||GMC Ratio|149.69|||||TWO_SIDED|95.0|130.23|172.06|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 22F||172.06|130.23|
92328285|NCT02987972|184561627|OTHER||GMC Ratio|90.35|||||TWO_SIDED|95.0|79.93|102.12|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||102.12|79.93|
92328286|NCT02987972|184561627|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.71|0.93|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.93|0.71|
92328287|NCT02987972|184561627|OTHER||GMC Ratio|1.48|||||TWO_SIDED|95.0|1.31|1.68|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||1.68|1.31|
92328288|NCT02987972|184561627|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.7|0.94|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||0.94|0.70|
92328289|NCT02987972|184561627|OTHER||GMC Ratio|0.69|||||TWO_SIDED|95.0|0.6|0.79|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.79|0.60|
92328290|NCT02987972|184561627|OTHER||GMC Ratio|0.66|||||TWO_SIDED|95.0|0.58|0.76|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.76|0.58|
92328291|NCT02987972|184561627|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.72|0.95|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||0.95|0.72|
92328292|NCT02987972|184561627|OTHER||GMC Ratio|0.71|||||TWO_SIDED|95.0|0.62|0.81|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.81|0.62|
92328293|NCT02987972|184561627|OTHER||GMC Ratio|0.77|||||TWO_SIDED|95.0|0.67|0.88|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||0.88|0.67|
92328294|NCT02987972|184561627|OTHER||GMC Ratio|0.85|||||TWO_SIDED|95.0|0.73|0.98|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||0.98|0.73|
92328295|NCT02987972|184561627|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.93|1.24|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 18C||1.24|0.93|
92328296|NCT02987972|184561627|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.72|0.93|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||0.93|0.72|
92328297|NCT02987972|184561627|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.79|1.03|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||1.03|0.79|
92328298|NCT02987972|184561627|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.79|1.08|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||1.08|0.79|
92328299|NCT02987972|184561627|OTHER||GMC Ratio|131.23|||||TWO_SIDED|95.0|114.05|151.0|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 22F||151.00|114.05|
92328300|NCT02987972|184561627|OTHER||GMC Ratio|78.99|||||TWO_SIDED|95.0|69.82|89.36|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||89.36|69.82|
92328301|NCT01726036|184561629|SUPERIORITY_OR_OTHER|||||||0.457|||||||Wilcoxon (Mann-Whitney)|||||||0.457
92328302|NCT01047332|184561630|OTHER|||||||0.53|||||||Log Rank|||||||0.530
92328303|NCT01047332|184561631|OTHER|||||||0.997|||||||Log Rank|||||||0.997
92328304|NCT03521817|184561634|OTHER||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.14|<|0.231|TWO_SIDED||||||t-test, 2 sided|||||||<0.231
92328305|NCT00778102|184561668|SUPERIORITY_OR_OTHER||Difference in Resection Rate|12.3||||0.2707|TWO_SIDED|95.0|-11.0|35.5|||Chi-squared||Confidence interval calculated for difference based on Hauck-Anderson method.|Difference between groups in the collective percentage of participants with R0, R1, or R2.||35.5|-11.0|0.2707
92328306|NCT00778102|184561671|SUPERIORITY_OR_OTHER||Difference in Response Rate|-4.8||||0.7817|TWO_SIDED|95.0|-43.0|33.5|||Chi-squared||Confidence interval calculated for difference based on Hauck-Anderson method.|Difference between groups in the collective percentage of participants with complete or major histopathological response.||33.5|-43.0|0.7817
92328307|NCT00778102|184561678|SUPERIORITY_OR_OTHER||Difference in Response Rate (CR or PR)|18.9||||0.0612|TWO_SIDED|95.0|-2.1|40.0|||Chi-squared||Confidence interval calculated for difference based on Hauck-Anderson method.|Difference between groups in the collective percentage of participants with confirmed best overall response of CR or PR.||40.0|-2.1|0.0612
92328308|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.527||||0.0211|TWO_SIDED|95.0|0.306|0.908|||Regression, Logistic|||The statistical analysis is presented for Gamma-Glutamyl Transferase (Gamma-GT) in log10 international units per liter (IU/L) at BL. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week \[Wk\]12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.908|0.306|0.0211
92328309|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.078|||<|0.0001|TWO_SIDED|95.0|1.065|1.092|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.092|1.065|<0.0001
92328310|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.0053|TWO_SIDED|95.0|1.061|1.403|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, during the first 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.403|1.061|0.0053
92328311|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.464||||0.0079|TWO_SIDED|95.0|0.264|0.818|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.818|0.264|0.0079
92328312|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.737||||0.1808|TWO_SIDED|95.0|0.471|1.153|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.153|0.471|0.1808
92328313|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.082|||<|0.0001|TWO_SIDED|95.0|1.069|1.095|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.095|1.069|<0.0001
92328314|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.676||||0.0005|TWO_SIDED|95.0|0.542|0.844|||Regression, Logistic|||The statistical analysis is presented for Weight per 10 kilogram (kg). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.844|0.542|0.0005
92328315|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.573||||0.0041|TWO_SIDED|95.0|0.392|0.838|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.838|0.392|0.0041
92328316|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.094|||<|0.0001|TWO_SIDED|95.0|1.048|1.142|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.142|1.048|<0.0001
92328317|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.945||||0.0031|TWO_SIDED|95.0|2.013|31.359|||Regression, Logistic|||The statistical analysis is presented for cumulative PEG-IFN alfa-2a dose per 1000 ug, first 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||31.359|2.013|0.0031
92328318|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.0012|TWO_SIDED|95.0|0.844|0.959|||Regression, Logistic|||The statistical analysis is presented for body mass index (BMI) in kilogram per square meter (kg/m\^2). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.959|0.844|0.0012
92328319|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.619||||0.0085|TWO_SIDED|95.0|0.433|0.885|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.885|0.433|0.0085
92328320|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13|||<|0.0001|TWO_SIDED|95.0|1.087|1.174|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.174|1.087|<0.0001
92328321|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.784||||0.0341|TWO_SIDED|95.0|0.626|0.982|||Regression, Logistic|||The statistical analysis is presented for Weight per 10 kg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.982|0.626|0.0341
92328322|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.575||||0.0443|TWO_SIDED|95.0|0.335|0.986|||Regression, Logistic|||The statistical analysis is presented for aspartate aminotransferase (AST) ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.986|0.335|0.0443
92328323|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1|||<|0.0001|TWO_SIDED|95.0|1.057|1.144|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.144|1.057|<0.0001
92328324|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|22.867||||0.0039|TWO_SIDED|95.0|2.73|191.56|||Regression, Logistic|||The statistical analysis is presented for cumulative PEG-IFN alfa-2a dose per 1000 ug, during the first 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||191.56|2.730|0.0039
92328325|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.0244|TWO_SIDED|95.0|0.628|0.968|||Regression, Logistic|||The statistical analysis is presented for Weight per 10 kg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a||0.968|0.628|0.0244
92328326|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.128|||<|0.0001|TWO_SIDED|95.0|1.086|1.172|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.172|1.086|<0.0001
92328327|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.547||||0.0453|TWO_SIDED|95.0|0.303|0.987|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.987|0.303|0.0453
92328328|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.133||||0.0184|TWO_SIDED|95.0|0.025|0.712|||Regression, Logistic|||The statistical analysis is presented for Gamma-GT in log10 (IU/L) at BL. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.712|0.025|0.0184
92328329|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.103|||<|0.0001|TWO_SIDED|95.0|1.072|1.134|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in Weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||1.134|1.072|<0.0001
92328330|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.543||||0.0019|TWO_SIDED|95.0|0.37|0.798|||Regression, Logistic|||The statistical analysis is presented for weight per 10 kg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.798|0.370|0.0019
92328331|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.359||||0.0017|TWO_SIDED|95.0|0.189|0.679|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.679|0.189|0.0017
92328332|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08|||<|0.0001|TWO_SIDED|95.0|1.047|1.114|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||1.114|1.047|<0.0001
92328333|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.093||||0.0042|TWO_SIDED|95.0|1.029|1.162|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||1.162|1.029|0.0042
92328334|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.535||||0.0168|TWO_SIDED|95.0|0.32|0.893|||Regression, Logistic|||The statistical analysis is presented for Gamma-GT in log10 (IU/L) at BL. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.893|0.320|0.0168
92328335|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.501||||0.0128|TWO_SIDED|95.0|0.291|0.864|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.864|0.291|0.0128
92328336|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.853||||0.4634|TWO_SIDED|95.0|0.558|1.305|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.305|0.558|0.4634
92328337|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|19.655|||<|0.0001|TWO_SIDED|95.0|9.725|39.722|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (Rapid Virological Response \[RVR\] vs No RVR/EVR \[Early Virological Response\]). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||39.722|9.725|<0.0001
92328338|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.569|||<|0.0001|TWO_SIDED|95.0|4.408|16.658|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR \[Complete Early Virological Response\] vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||16.658|4.408|<0.0001
92328339|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.519||||0.0089|TWO_SIDED|95.0|1.26|5.034|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR \[Partial Early Virological Response\] vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||5.034|1.260|0.0089
92328340|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.908||||0.0037|TWO_SIDED|95.0|0.851|0.969|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.969|0.851|0.0037
92328341|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.553||||0.002|TWO_SIDED|95.0|0.379|0.805|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.805|0.379|0.0020
92328342|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.537||||0.0003|TWO_SIDED|95.0|3.654|74.849|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a||74.849|3.654|0.0003
92328343|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.386||||0.0733|TWO_SIDED|95.0|0.87|22.114|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||22.114|0.870|0.0733
92328344|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.352||||0.3478|TWO_SIDED|95.0|0.394|14.031|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||14.031|0.394|0.3478
92328345|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.729||||0.0264|TWO_SIDED|95.0|0.552|0.964|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.964|0.552|0.0264
92328346|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.658||||0.0096|TWO_SIDED|95.0|1.586|27.946|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||27.946|1.586|0.0096
92328347|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.734||||0.0421|TWO_SIDED|95.0|1.057|21.203|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||21.203|1.057|0.0421
92328348|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.602||||0.6004|TWO_SIDED|95.0|0.09|4.014|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.014|0.090|0.6004
92328349|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.715||||0.0418|TWO_SIDED|95.0|0.517|0.988|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.988|0.517|0.0418
92328350|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.198||||0.0279|TWO_SIDED|95.0|0.047|0.839|||Regression, Logistic|||The statistical analysis is presented for Gamma-GT in log10 (IU/L) at BL. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.839|0.047|0.0279
92328351|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|40.88|||<|0.0001|TWO_SIDED|95.0|7.474|223.61|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||223.61|7.474|<0.0001
92328352|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|42.395|||<|0.0001|TWO_SIDED|95.0|8.724|206.02|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||206.02|8.724|<0.0001
92328353|NCT01066793|184561715|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.247||||0.0087|TWO_SIDED|95.0|1.704|39.908|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||39.908|1.704|0.0087
92328354|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.957||||0.0002|TWO_SIDED|95.0|1.383|2.77|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.770|1.383|0.0002
92328355|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.337||||0.0007|TWO_SIDED|95.0|1.661|6.705|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.705|1.661|0.0007
92328356|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.305||||0.3611|TWO_SIDED|95.0|0.737|2.312|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.312|0.737|0.3611
92328357|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.943|||<|0.0001|TWO_SIDED|95.0|0.929|0.958|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.958|0.929|<0.0001
92328358|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.743||||0.002|TWO_SIDED|95.0|0.615|0.897|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, during the first 12 weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.897|0.615|0.0020
92328359|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.864||||0.0004|TWO_SIDED|95.0|1.322|2.628|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.628|1.322|0.0004
92328360|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.124||||0.0386|TWO_SIDED|95.0|1.04|4.338|||Regression, Logistic|||The statistical analysis is presented for mode of infection (other vs injection drug U). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.338|1.040|0.0386
92328361|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.398||||0.0004|TWO_SIDED|95.0|1.722|6.706|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.706|1.722|0.0004
92328362|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.372||||0.2769|TWO_SIDED|95.0|0.776|2.428|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.428|0.776|0.2769
92328363|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.945|||<|0.0001|TWO_SIDED|95.0|0.931|0.96|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.960|0.931|<0.0001
92328364|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.163||||0.0001|TWO_SIDED|95.0|1.078|1.256|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.256|1.078|0.0001
92328365|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.788||||0.0213|TWO_SIDED|95.0|1.091|2.932|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.932|1.091|0.0213
92328366|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.903||||0.0002|TWO_SIDED|95.0|0.856|0.953|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.953|0.856|0.0002
92328367|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.723||||0.0306|TWO_SIDED|95.0|0.538|0.97|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, first 12 weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.970|0.538|0.0306
92328368|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.145||||0.0005|TWO_SIDED|95.0|1.061|1.236|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.236|1.061|0.0005
92328369|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.907||||0.0122|TWO_SIDED|95.0|1.151|3.158|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.158|1.151|0.0122
92328370|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.175||||0.0956|TWO_SIDED|95.0|0.872|5.424|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||5.424|0.872|0.0956
92328371|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.267||||0.0846|TWO_SIDED|95.0|0.06|1.197|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.197|0.060|0.0846
92328372|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.897|||<|0.0001|TWO_SIDED|95.0|0.852|0.945|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.945|0.852|<0.0001
92328373|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.996||||0.0033|TWO_SIDED|95.0|1.259|3.165|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.165|1.259|0.0033
92328374|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.0095|TWO_SIDED|95.0|1.035|1.277|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.277|1.035|0.0095
92328375|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.155||||0.0031|TWO_SIDED|95.0|0.045|0.533|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.533|0.045|0.0031
92328376|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.364||||0.0645|TWO_SIDED|95.0|0.125|1.063|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.063|0.125|0.0645
92328377|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.895||||0.0001|TWO_SIDED|95.0|0.846|0.948|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.948|0.846|0.0001
92328378|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.996||||0.0033|TWO_SIDED|95.0|1.259|3.165|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.165|1.259|0.0033
92328379|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.0095|TWO_SIDED|95.0|1.035|1.277|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.277|1.035|0.0095
92328380|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.155||||0.0031|TWO_SIDED|95.0|0.045|0.533|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.533|0.045|0.0031
92328381|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.364||||0.0645|TWO_SIDED|95.0|0.125|1.063|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.063|0.125|0.0645
92328382|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.895||||0.0001|TWO_SIDED|95.0|0.846|0.948|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.948|0.846|0.0001
92328383|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.266||||0.0182|TWO_SIDED|95.0|1.041|1.541|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.541|1.041|0.0182
92328384|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.0092|TWO_SIDED|95.0|1.122|2.254|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.254|1.122|0.0092
92328385|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.974||||0.002|TWO_SIDED|95.0|1.488|5.942|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||5.942|1.488|0.0020
92328386|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.142||||0.6524|TWO_SIDED|95.0|0.641|2.035|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.035|0.641|0.6524
92328387|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.108|||<|0.0001|TWO_SIDED|95.0|0.037|0.311|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.311|0.037|<0.0001
92328388|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.389||||0.0429|TWO_SIDED|95.0|0.156|0.97|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.970|0.156|0.0429
92328389|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.549|TWO_SIDED|95.0|0.523|3.38|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.380|0.523|0.5490
92328390|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.136||||0.0008|TWO_SIDED|95.0|1.054|1.224|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.224|1.054|0.0008
92328391|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.855||||0.014|TWO_SIDED|95.0|1.133|3.037|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.037|1.133|0.0140
92328392|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.126||||0.0575|TWO_SIDED|95.0|0.015|1.068|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.068|0.015|0.0575
92328393|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.7128|TWO_SIDED|95.0|0.072|6.025|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.025|0.072|0.7128
92328394|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.505||||0.596|TWO_SIDED|95.0|0.04|6.318|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.318|0.040|0.5960
92328395|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.051||||0.0033|TWO_SIDED|95.0|1.27|3.311|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.311|1.270|0.0033
92328396|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.113||||0.0452|TWO_SIDED|95.0|1.002|1.236|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.236|1.002|0.0452
92328397|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.154||||0.004|TWO_SIDED|95.0|0.043|0.551|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.551|0.043|0.0040
92328398|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.393||||0.0833|TWO_SIDED|95.0|0.137|1.131|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a||1.131|0.137|0.0833
92328399|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.141||||0.1439|TWO_SIDED|95.0|0.01|1.951|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.951|0.010|0.1439
92328400|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.35||||0.4457|TWO_SIDED|95.0|0.024|5.194|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||5.194|0.024|0.4457
92328401|NCT01066793|184561729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.142||||0.6258|TWO_SIDED|95.0|0.1|45.801|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||45.801|0.100|0.6258
92328402|NCT04643964|184561733|SUPERIORITY|||||||0.54|||||||ANCOVA|||In this model, the condition included the following levels: entrée, sampler, and control. No covariates were included.||||.54
92328403|NCT04643964|184561734|SUPERIORITY|||||||0.92|||||||ANCOVA|||In this model, the condition included the following levels: entrée, sampler, and control. There was one covariate in this model: QIDS at Time 1.||||.92
92328404|NCT04643964|184561735|SUPERIORITY|||||||0.37|||||||ANCOVA|||In this model, the condition included the following levels: entrée, sampler, and control. There were three covariates in this model: QIDS at Time 1, gender, and COVID interference.||||.37
92328405|NCT04643964|184561736|SUPERIORITY|||||||0.87|||||||ANCOVA|||In this model, the condition included the following levels: entrée, sampler, and control. There was one covariate in this model: QIDS at Time 1.||||.87
92328406|NCT02607280|184561743|OTHER||LS mean change from baseline at Week 14|-1.79|||||TWO_SIDED|95.0|-2.45|-1.14||||||||-1.14|-2.45|
92328407|NCT02607280|184561743|OTHER||LS mean change from baseline at Week 14|-2.07|||||TWO_SIDED|95.0|-3.77|-0.36||||||||-0.36|-3.77|
92328408|NCT02368210|184561744|SUPERIORITY||||||<|0.001||||||"Treatment groups were compared with respect to the proportions of subjects with treatment success at Day 15 using the Cochran-Mantel-Haenszel (CMH) test stratified by analysis center."|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||||||<0.001
92328409|NCT02368210|184561745|SUPERIORITY||||||<|0.001||||||The pre-specified threshold for statistical significance was ≤0.05. The reported P-Value applies to the clinical sign of psoriasis: Scaling.|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema and plaque elevation).||||<0.001
92328410|NCT02368210|184561745|SUPERIORITY||||||<|0.001||||||The pre-specified threshold for statistical significance was ≤0.05. The reported P-Value applies to the clinical sign of psoriasis: erythema.|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema and plaque elevation).||||<0.001
92328411|NCT02368210|184561745|SUPERIORITY||||||<|0.001||||||The pre-specified threshold for statistical significance was ≤0.05. The reported P-Value applies to the clinical sign of psoriasis: Plaque Elevation.|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema and plaque elevation).||||<0.001
92328412|NCT00766467|184561758|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3
92328413|NCT00551161|184561787|SUPERIORITY_OR_OTHER||||||<|0.05||||||Due to the exploratory nature of these analyses, no adjustment for multiple testing was made. Although it would have been preferable to carry out an omnibus analysis, due to the small sample size, the descriptive approach described above was used.|Wilcoxon (Mann-Whitney)|||The Wilcoxon signed-rank test was used to examine whether the change between t0 and t1 differed from the change between t1 and t2 \[(t2 - t1) - (t1 - t0)\] for each of the metabolites and ratios, in order to examine whether the rate of change differed while on monotherapy as compared with combination therapy.||||<0.05
92328414|NCT00772005|184561818|SUPERIORITY_OR_OTHER|||||||0.8514||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8514
92328415|NCT00772005|184561818|SUPERIORITY_OR_OTHER|||||||0.6995||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6995
92328416|NCT00772005|184561818|SUPERIORITY_OR_OTHER|||||||0.9766||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9766
92328417|NCT00772005|184561819|SUPERIORITY_OR_OTHER|||||||0.7596||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7596
92328418|NCT00772005|184561819|SUPERIORITY_OR_OTHER|||||||0.562||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5620
92328419|NCT00772005|184561819|SUPERIORITY_OR_OTHER|||||||0.6688||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6688
92328420|NCT00772005|184561820|SUPERIORITY_OR_OTHER|||||||0.1894||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1894
92328421|NCT00772005|184561820|SUPERIORITY_OR_OTHER|||||||0.4582||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4582
92328422|NCT00772005|184561820|SUPERIORITY_OR_OTHER|||||||0.0327||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0327
92328423|NCT00772005|184561821|SUPERIORITY_OR_OTHER|||||||0.3275||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3275
92328424|NCT00772005|184561821|SUPERIORITY_OR_OTHER|||||||0.2597||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2597
92328425|NCT00772005|184561821|SUPERIORITY_OR_OTHER|||||||0.0039||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0039
92328426|NCT00772005|184561822|SUPERIORITY_OR_OTHER|||||||0.0713||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0713
92328427|NCT00772005|184561822|SUPERIORITY_OR_OTHER|||||||0.0431||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0431
92328428|NCT00772005|184561822|SUPERIORITY_OR_OTHER|||||||0.0063||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0063
92328429|NCT00772005|184561823|SUPERIORITY_OR_OTHER|||||||0.0619||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0619
92328430|NCT00772005|184561823|SUPERIORITY_OR_OTHER|||||||0.1137||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1137
92328431|NCT00772005|184561823|SUPERIORITY_OR_OTHER|||||||0.0598||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0598
92328432|NCT00772005|184561824|SUPERIORITY_OR_OTHER|||||||0.7093||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7093
92328433|NCT00772005|184561824|SUPERIORITY_OR_OTHER|||||||0.5129||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5129
92328434|NCT00772005|184561824|SUPERIORITY_OR_OTHER|||||||0.1097||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1097
92328435|NCT00772005|184561825|SUPERIORITY_OR_OTHER|||||||0.4291||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4291
92328436|NCT00772005|184561825|SUPERIORITY_OR_OTHER|||||||0.3195||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3195
92328437|NCT00772005|184561825|SUPERIORITY_OR_OTHER|||||||0.1591||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1591
92328438|NCT00772005|184561826|SUPERIORITY_OR_OTHER|||||||0.7768||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7768
92328439|NCT00772005|184561826|SUPERIORITY_OR_OTHER|||||||0.4014||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4014
92328440|NCT00772005|184561826|SUPERIORITY_OR_OTHER|||||||0.4016||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4016
92328441|NCT00772005|184561827|SUPERIORITY_OR_OTHER|||||||0.5612||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5612
92328442|NCT00772005|184561827|SUPERIORITY_OR_OTHER|||||||0.9704||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9704
92328443|NCT00772005|184561827|SUPERIORITY_OR_OTHER|||||||0.2424||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2424
92328444|NCT00772005|184561828|SUPERIORITY_OR_OTHER|||||||0.8847||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8847
92328445|NCT00772005|184561828|SUPERIORITY_OR_OTHER|||||||0.2958||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2958
92328446|NCT00772005|184561828|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2660
92328447|NCT00772005|184561829|SUPERIORITY_OR_OTHER|||||||0.0524||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0524
92328448|NCT00772005|184561829|SUPERIORITY_OR_OTHER|||||||0.0328||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0328
92328449|NCT00772005|184561829|SUPERIORITY_OR_OTHER|||||||0.0084||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0084
92328450|NCT00772005|184561830|SUPERIORITY_OR_OTHER|||||||0.3651||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3651
92328451|NCT00772005|184561830|SUPERIORITY_OR_OTHER|||||||0.0096||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0096
92328452|NCT00772005|184561830|SUPERIORITY_OR_OTHER|||||||0.0327||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0327
92328453|NCT00772005|184561831|SUPERIORITY_OR_OTHER|||||||0.2091||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2091
92328454|NCT00772005|184561831|SUPERIORITY_OR_OTHER|||||||0.0706||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0706
92328455|NCT00772005|184561831|SUPERIORITY_OR_OTHER|||||||0.3052||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3052
92328456|NCT00772005|184561832|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9960
92328457|NCT00772005|184561832|SUPERIORITY_OR_OTHER|||||||0.3604||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3604
92328458|NCT00772005|184561832|SUPERIORITY_OR_OTHER|||||||0.9528||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9528
92328459|NCT00772005|184561833|SUPERIORITY_OR_OTHER|||||||0.9797||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9797
92328460|NCT00772005|184561833|SUPERIORITY_OR_OTHER|||||||0.6173||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6173
92328461|NCT00772005|184561833|SUPERIORITY_OR_OTHER|||||||0.5415||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5415
92328462|NCT00772005|184561834|SUPERIORITY_OR_OTHER|||||||0.3547||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3547
92328463|NCT00772005|184561834|SUPERIORITY_OR_OTHER|||||||0.6642||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6642
92328464|NCT00772005|184561834|SUPERIORITY_OR_OTHER|||||||0.7395||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7395
92328465|NCT00772005|184561835|SUPERIORITY_OR_OTHER|||||||0.8124||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8124
92328466|NCT00772005|184561835|SUPERIORITY_OR_OTHER|||||||0.8961||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8961
92328467|NCT00772005|184561835|SUPERIORITY_OR_OTHER|||||||0.4999||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4999
92328468|NCT00772005|184561845|SUPERIORITY_OR_OTHER|||||||0.454||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4540
92328469|NCT00772005|184561845|SUPERIORITY_OR_OTHER|||||||0.358||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3580
92328470|NCT00772005|184561845|SUPERIORITY_OR_OTHER|||||||0.6271||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6271
92328471|NCT00772005|184561846|SUPERIORITY_OR_OTHER|||||||0.1459||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1459
92328472|NCT00772005|184561846|SUPERIORITY_OR_OTHER|||||||0.6004||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6004
92328473|NCT00772005|184561846|SUPERIORITY_OR_OTHER|||||||0.0192||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0192
92328474|NCT00772005|184561847|SUPERIORITY_OR_OTHER|||||||0.8455||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8455
92328475|NCT00772005|184561847|SUPERIORITY_OR_OTHER|||||||0.8715||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8715
92328476|NCT00772005|184561847|SUPERIORITY_OR_OTHER|||||||0.0309||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0309
92328477|NCT00772005|184561848|SUPERIORITY_OR_OTHER|||||||0.2664||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2664
92328478|NCT00772005|184561848|SUPERIORITY_OR_OTHER|||||||0.3528||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3528
92328479|NCT00772005|184561848|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0380
92328480|NCT00772005|184561849|SUPERIORITY_OR_OTHER|||||||0.3316||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3316
92328481|NCT00772005|184561849|SUPERIORITY_OR_OTHER|||||||0.349||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3490
92328482|NCT00772005|184561849|SUPERIORITY_OR_OTHER|||||||0.0926||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0926
92328483|NCT00772005|184561850|SUPERIORITY_OR_OTHER|||||||0.8835||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8835
92328484|NCT00772005|184561850|SUPERIORITY_OR_OTHER|||||||0.9748||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9748
92328485|NCT00772005|184561850|SUPERIORITY_OR_OTHER|||||||0.0883||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0883
92328486|NCT00772005|184561851|SUPERIORITY_OR_OTHER|||||||0.6948||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6948
92328487|NCT00772005|184561851|SUPERIORITY_OR_OTHER|||||||0.3345||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3345
92328488|NCT00772005|184561851|SUPERIORITY_OR_OTHER|||||||0.2447||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2447
92328489|NCT00772005|184561852|SUPERIORITY_OR_OTHER|||||||0.6115||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6115
92328490|NCT00772005|184561852|SUPERIORITY_OR_OTHER|||||||0.2233||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2233
92328491|NCT00772005|184561852|SUPERIORITY_OR_OTHER|||||||0.2343||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2343
92328492|NCT00772005|184561853|SUPERIORITY_OR_OTHER|||||||0.8228||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8228
92328493|NCT00772005|184561853|SUPERIORITY_OR_OTHER|||||||0.9373||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9373
92328494|NCT00772005|184561853|SUPERIORITY_OR_OTHER|||||||0.319||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3190
92328495|NCT00772005|184561854|SUPERIORITY_OR_OTHER|||||||0.9769||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9769
92328496|NCT00772005|184561854|SUPERIORITY_OR_OTHER|||||||0.8374||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8374
92328497|NCT00772005|184561854|SUPERIORITY_OR_OTHER|||||||0.7061||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7061
92328498|NCT00772005|184561855|SUPERIORITY_OR_OTHER|||||||0.9577||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9577
92328499|NCT00772005|184561855|SUPERIORITY_OR_OTHER|||||||0.5106||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5106
92328500|NCT00772005|184561855|SUPERIORITY_OR_OTHER|||||||0.2655||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2655
92328501|NCT00772005|184561856|SUPERIORITY_OR_OTHER|||||||0.3825||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3825
92328502|NCT00772005|184561856|SUPERIORITY_OR_OTHER|||||||0.2003||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2003
92328503|NCT00772005|184561856|SUPERIORITY_OR_OTHER|||||||0.0625||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0625
92328504|NCT00772005|184561857|SUPERIORITY_OR_OTHER|||||||0.2981||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2981
92328505|NCT00772005|184561857|SUPERIORITY_OR_OTHER|||||||0.0104||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0104
92328506|NCT00772005|184561857|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0150
92328507|NCT00772005|184561858|SUPERIORITY_OR_OTHER|||||||0.4608||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4608
92328508|NCT00772005|184561858|SUPERIORITY_OR_OTHER|||||||0.0807||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0807
92328509|NCT00772005|184561858|SUPERIORITY_OR_OTHER|||||||0.2959||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2959
92328510|NCT00772005|184561859|SUPERIORITY_OR_OTHER|||||||0.6759||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6759
92328511|NCT00772005|184561859|SUPERIORITY_OR_OTHER|||||||0.2418||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2418
92328512|NCT00772005|184561859|SUPERIORITY_OR_OTHER|||||||0.9808||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9808
92328513|NCT00772005|184561860|SUPERIORITY_OR_OTHER|||||||0.7599||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7599
92328514|NCT00772005|184561860|SUPERIORITY_OR_OTHER|||||||0.4543||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4543
92328515|NCT00772005|184561860|SUPERIORITY_OR_OTHER|||||||0.604||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6040
92328516|NCT00772005|184561861|SUPERIORITY_OR_OTHER|||||||0.2476||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2476
92328517|NCT00772005|184561861|SUPERIORITY_OR_OTHER|||||||0.949||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9490
92328518|NCT00772005|184561861|SUPERIORITY_OR_OTHER|||||||0.9035||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9035
92328519|NCT00772005|184561862|SUPERIORITY_OR_OTHER|||||||0.9472||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9472
92328520|NCT00772005|184561862|SUPERIORITY_OR_OTHER|||||||0.8335||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8335
92328521|NCT00772005|184561862|SUPERIORITY_OR_OTHER|||||||0.5674||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5674
92328522|NCT00772005|184561863|SUPERIORITY_OR_OTHER|||||||0.3536||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3536
92328523|NCT00772005|184561863|SUPERIORITY_OR_OTHER|||||||0.194||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1940
92328524|NCT00772005|184561863|SUPERIORITY_OR_OTHER|||||||0.2129||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2129
92328525|NCT00772005|184561864|SUPERIORITY_OR_OTHER|||||||0.584||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5840
92328526|NCT00772005|184561864|SUPERIORITY_OR_OTHER|||||||0.6028||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6028
92328527|NCT00772005|184561864|SUPERIORITY_OR_OTHER|||||||0.1426||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1426
92328528|NCT00772005|184561865|SUPERIORITY_OR_OTHER|||||||0.5989||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5989
92328529|NCT00772005|184561865|SUPERIORITY_OR_OTHER|||||||0.7411||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7411
92328530|NCT00772005|184561865|SUPERIORITY_OR_OTHER|||||||0.1566||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1566
92328531|NCT00772005|184561866|SUPERIORITY_OR_OTHER|||||||0.261||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2610
92328532|NCT00772005|184561866|SUPERIORITY_OR_OTHER|||||||0.4457||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4457
92328533|NCT00772005|184561866|SUPERIORITY_OR_OTHER|||||||0.1342||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1342
92328534|NCT00772005|184561867|SUPERIORITY_OR_OTHER|||||||0.0974||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0974
92328535|NCT00772005|184561867|SUPERIORITY_OR_OTHER|||||||0.664||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6640
92328536|NCT00772005|184561867|SUPERIORITY_OR_OTHER|||||||0.1507||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1507
92328537|NCT00772005|184561868|SUPERIORITY_OR_OTHER|||||||0.7649||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7649
92328538|NCT00772005|184561868|SUPERIORITY_OR_OTHER|||||||0.4866||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4866
92328539|NCT00772005|184561868|SUPERIORITY_OR_OTHER|||||||0.5002||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5002
92328540|NCT00772005|184561869|SUPERIORITY_OR_OTHER|||||||0.2076||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2076
92328541|NCT00772005|184561869|SUPERIORITY_OR_OTHER|||||||0.9355||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9355
92328542|NCT00772005|184561869|SUPERIORITY_OR_OTHER|||||||0.189||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1890
92328543|NCT00772005|184561870|SUPERIORITY_OR_OTHER|||||||0.632||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6320
92328544|NCT00772005|184561870|SUPERIORITY_OR_OTHER|||||||0.8777||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8777
92328545|NCT00772005|184561870|SUPERIORITY_OR_OTHER|||||||0.4378||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4378
92328546|NCT00772005|184561871|SUPERIORITY_OR_OTHER|||||||0.5544||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5544
92328547|NCT00772005|184561871|SUPERIORITY_OR_OTHER|||||||0.4446||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4446
92328548|NCT00772005|184561871|SUPERIORITY_OR_OTHER|||||||0.4483||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4483
92328549|NCT00772005|184561872|SUPERIORITY_OR_OTHER|||||||0.1914||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1914
92328550|NCT00772005|184561872|SUPERIORITY_OR_OTHER|||||||0.2543||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2543
92328551|NCT00772005|184561872|SUPERIORITY_OR_OTHER|||||||0.9748||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9748
92328552|NCT00772005|184561873|SUPERIORITY_OR_OTHER|||||||0.5312||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5312
92328553|NCT00772005|184561873|SUPERIORITY_OR_OTHER|||||||0.7522||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7522
92328554|NCT00772005|184561873|SUPERIORITY_OR_OTHER|||||||0.3183||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3183
92328555|NCT00772005|184561874|SUPERIORITY_OR_OTHER|||||||0.5879||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5879
92328556|NCT00772005|184561874|SUPERIORITY_OR_OTHER|||||||0.891||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8910
92328557|NCT00772005|184561874|SUPERIORITY_OR_OTHER|||||||0.1795||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1795
92328558|NCT00772005|184561875|SUPERIORITY_OR_OTHER|||||||0.6378||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6378
92328559|NCT00772005|184561875|SUPERIORITY_OR_OTHER|||||||0.8679||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8679
92328560|NCT00772005|184561875|SUPERIORITY_OR_OTHER|||||||0.5489||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5489
92328561|NCT00772005|184561876|SUPERIORITY_OR_OTHER|||||||0.9337||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9337
92328562|NCT00772005|184561876|SUPERIORITY_OR_OTHER|||||||0.9428||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9428
92328563|NCT00772005|184561876|SUPERIORITY_OR_OTHER|||||||0.5895||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5895
92328564|NCT00772005|184561877|SUPERIORITY_OR_OTHER|||||||0.8695||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8695
92328565|NCT00772005|184561877|SUPERIORITY_OR_OTHER|||||||0.6637||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6637
92328566|NCT00772005|184561877|SUPERIORITY_OR_OTHER|||||||0.3152||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3152
92328567|NCT00772005|184561878|SUPERIORITY_OR_OTHER|||||||0.7472||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7472
92328568|NCT00772005|184561878|SUPERIORITY_OR_OTHER|||||||0.4503||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4503
92328569|NCT00772005|184561878|SUPERIORITY_OR_OTHER|||||||0.3127||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3127
92328570|NCT00772005|184561879|SUPERIORITY_OR_OTHER|||||||0.9193||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9193
92328571|NCT00772005|184561879|SUPERIORITY_OR_OTHER|||||||0.4814||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4814
92328572|NCT00772005|184561879|SUPERIORITY_OR_OTHER|||||||0.6097||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6097
92328573|NCT00772005|184561880|SUPERIORITY_OR_OTHER|||||||0.8594||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8594
92328574|NCT00772005|184561880|SUPERIORITY_OR_OTHER|||||||0.6157||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6157
92328575|NCT00772005|184561880|SUPERIORITY_OR_OTHER|||||||0.4846||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4846
92328576|NCT00772005|184561881|SUPERIORITY_OR_OTHER|||||||0.6076||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6076
92328577|NCT00772005|184561881|SUPERIORITY_OR_OTHER|||||||0.5827||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5827
92328578|NCT00772005|184561881|SUPERIORITY_OR_OTHER|||||||0.7865||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7865
92328579|NCT00772005|184561882|SUPERIORITY_OR_OTHER|||||||0.3045||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3045
92328580|NCT00772005|184561882|SUPERIORITY_OR_OTHER|||||||0.0617||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0617
92328581|NCT00772005|184561882|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0580
92328582|NCT00772005|184561883|SUPERIORITY_OR_OTHER|||||||0.0194||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0194
92328583|NCT00772005|184561883|SUPERIORITY_OR_OTHER|||||||0.227||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2270
92328584|NCT00772005|184561883|SUPERIORITY_OR_OTHER|||||||0.1181||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1181
92328585|NCT00772005|184561884|SUPERIORITY_OR_OTHER|||||||0.1348||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1348
92328586|NCT00772005|184561884|SUPERIORITY_OR_OTHER|||||||0.0419||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0419
92328587|NCT00772005|184561884|SUPERIORITY_OR_OTHER|||||||0.0146||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0146
92328588|NCT00772005|184561885|SUPERIORITY_OR_OTHER|||||||0.1292||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1292
92328589|NCT00772005|184561885|SUPERIORITY_OR_OTHER|||||||0.3773||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3773
92328590|NCT00772005|184561885|SUPERIORITY_OR_OTHER|||||||0.1348||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1348
92328591|NCT00772005|184561886|SUPERIORITY_OR_OTHER|||||||0.9642||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9642
92328592|NCT00772005|184561886|SUPERIORITY_OR_OTHER|||||||0.7814||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7814
92328593|NCT00772005|184561886|SUPERIORITY_OR_OTHER|||||||0.1455||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1455
92328594|NCT00772005|184561887|SUPERIORITY_OR_OTHER|||||||0.5722||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5722
92328595|NCT00772005|184561887|SUPERIORITY_OR_OTHER|||||||0.1352||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1352
92328596|NCT00772005|184561887|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0630
92328597|NCT00772005|184561888|SUPERIORITY_OR_OTHER|||||||0.4607||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4607
92328598|NCT00772005|184561888|SUPERIORITY_OR_OTHER|||||||0.2538||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2538
92328599|NCT00772005|184561888|SUPERIORITY_OR_OTHER|||||||0.3406||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3406
92328600|NCT00772005|184561889|SUPERIORITY_OR_OTHER|||||||0.8116||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8116
92328601|NCT00772005|184561889|SUPERIORITY_OR_OTHER|||||||0.687||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6870
92328602|NCT00772005|184561889|SUPERIORITY_OR_OTHER|||||||0.8112||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8112
92328603|NCT00772005|184561890|SUPERIORITY_OR_OTHER|||||||0.9786||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9786
92328604|NCT00772005|184561890|SUPERIORITY_OR_OTHER|||||||0.5879||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5879
92328605|NCT00772005|184561890|SUPERIORITY_OR_OTHER|||||||0.3973||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3973
92328606|NCT00772005|184561891|SUPERIORITY_OR_OTHER|||||||0.403||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4030
92328607|NCT00772005|184561891|SUPERIORITY_OR_OTHER|||||||0.3777||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3777
92328608|NCT00772005|184561891|SUPERIORITY_OR_OTHER|||||||0.6493||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6493
92328609|NCT00772005|184561892|SUPERIORITY_OR_OTHER|||||||0.9871||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9871
92328610|NCT00772005|184561892|SUPERIORITY_OR_OTHER|||||||0.5859||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5859
92328611|NCT00772005|184561892|SUPERIORITY_OR_OTHER|||||||0.0328||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0328
92328612|NCT00772005|184561893|SUPERIORITY_OR_OTHER|||||||0.2318||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2318
92328613|NCT00772005|184561893|SUPERIORITY_OR_OTHER|||||||0.6211||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6211
92328614|NCT00772005|184561893|SUPERIORITY_OR_OTHER|||||||0.3125||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3125
92328615|NCT00772005|184561894|SUPERIORITY_OR_OTHER|||||||0.2425||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2425
92328616|NCT00772005|184561894|SUPERIORITY_OR_OTHER|||||||0.6597||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6597
92328617|NCT00772005|184561894|SUPERIORITY_OR_OTHER|||||||0.4753||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4753
92328618|NCT00772005|184561895|SUPERIORITY_OR_OTHER|||||||0.1715||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1715
92328619|NCT00772005|184561895|SUPERIORITY_OR_OTHER|||||||0.3056||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3056
92328620|NCT00772005|184561895|SUPERIORITY_OR_OTHER|||||||0.0083||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0083
92328621|NCT00772005|184561896|SUPERIORITY_OR_OTHER|||||||0.2681||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2681
92328622|NCT00772005|184561896|SUPERIORITY_OR_OTHER|||||||0.1475||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1475
92328623|NCT00772005|184561896|SUPERIORITY_OR_OTHER|||||||0.0647||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0647
92328624|NCT00772005|184561897|SUPERIORITY_OR_OTHER|||||||0.167||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1670
92328625|NCT00772005|184561897|SUPERIORITY_OR_OTHER|||||||0.1737||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1737
92328626|NCT00772005|184561897|SUPERIORITY_OR_OTHER|||||||0.372||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3720
92328627|NCT00772005|184561898|SUPERIORITY_OR_OTHER|||||||0.3547||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3547
92328628|NCT00772005|184561898|SUPERIORITY_OR_OTHER|||||||0.6043||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6043
92328629|NCT00772005|184561898|SUPERIORITY_OR_OTHER|||||||0.0463||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0463
92328630|NCT00772005|184561899|SUPERIORITY_OR_OTHER|||||||0.9258||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9258
92328631|NCT00772005|184561899|SUPERIORITY_OR_OTHER|||||||0.9116||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9116
92328632|NCT00772005|184561899|SUPERIORITY_OR_OTHER|||||||0.4848||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4848
92328633|NCT00772005|184561900|SUPERIORITY_OR_OTHER|||||||0.7612||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7612
92328634|NCT00772005|184561900|SUPERIORITY_OR_OTHER|||||||0.5761||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5761
92328635|NCT00772005|184561900|SUPERIORITY_OR_OTHER|||||||0.1576||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1576
92328636|NCT00772005|184561901|SUPERIORITY_OR_OTHER|||||||0.9565||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9565
92328637|NCT00772005|184561901|SUPERIORITY_OR_OTHER|||||||0.9178||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9178
92328638|NCT00772005|184561901|SUPERIORITY_OR_OTHER|||||||0.1491||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1491
92328639|NCT00772005|184561902|SUPERIORITY_OR_OTHER|||||||0.7056||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7056
92328640|NCT00772005|184561902|SUPERIORITY_OR_OTHER|||||||0.5179||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5179
92328641|NCT00772005|184561902|SUPERIORITY_OR_OTHER|||||||0.4585||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4585
92328642|NCT00772005|184561903|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0690
92328643|NCT00772005|184561903|SUPERIORITY_OR_OTHER|||||||0.5324||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5324
92328644|NCT00772005|184561903|SUPERIORITY_OR_OTHER|||||||0.0946||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0946
92328645|NCT00772005|184561904|SUPERIORITY_OR_OTHER|||||||0.1878||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1878
92328646|NCT00772005|184561904|SUPERIORITY_OR_OTHER|||||||0.4294||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4294
92328647|NCT00772005|184561904|SUPERIORITY_OR_OTHER|||||||0.6504||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6504
92328648|NCT00772005|184561905|SUPERIORITY_OR_OTHER|||||||0.4022||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4022
92328649|NCT00772005|184561905|SUPERIORITY_OR_OTHER|||||||0.6246||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6246
92328650|NCT00772005|184561905|SUPERIORITY_OR_OTHER|||||||0.8655||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8655
92328651|NCT00772005|184561906|SUPERIORITY_OR_OTHER|||||||0.5676||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5676
92328652|NCT00772005|184561906|SUPERIORITY_OR_OTHER|||||||0.5239||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5239
92328653|NCT00772005|184561906|SUPERIORITY_OR_OTHER|||||||0.4092||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4092
92328654|NCT00772005|184561907|SUPERIORITY_OR_OTHER|||||||0.5195||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5195
92328655|NCT00772005|184561907|SUPERIORITY_OR_OTHER|||||||0.1732||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1732
92328656|NCT00772005|184561907|SUPERIORITY_OR_OTHER|||||||0.7455||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7455
92328657|NCT00772005|184561908|SUPERIORITY_OR_OTHER|||||||0.6885||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6885
92328658|NCT00772005|184561908|SUPERIORITY_OR_OTHER|||||||0.5443||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5443
92328659|NCT00772005|184561908|SUPERIORITY_OR_OTHER|||||||0.9343||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9343
92328660|NCT00772005|184561909|SUPERIORITY_OR_OTHER|||||||0.9093||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9093
92328661|NCT00772005|184561909|SUPERIORITY_OR_OTHER|||||||0.4701||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4701
92328662|NCT00772005|184561909|SUPERIORITY_OR_OTHER|||||||0.9764||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9764
92328663|NCT00772005|184561910|SUPERIORITY_OR_OTHER|||||||0.8115||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8115
92328664|NCT00772005|184561910|SUPERIORITY_OR_OTHER|||||||0.5378||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5378
92328665|NCT00772005|184561910|SUPERIORITY_OR_OTHER|||||||0.9144||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9144
92328666|NCT00772005|184561911|SUPERIORITY_OR_OTHER|||||||0.9812||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9812
92328667|NCT00772005|184561911|SUPERIORITY_OR_OTHER|||||||0.5464||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5464
92328668|NCT00772005|184561911|SUPERIORITY_OR_OTHER|||||||0.8811||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8811
92328669|NCT00772005|184561912|SUPERIORITY_OR_OTHER|||||||0.6487||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6487
92328670|NCT00772005|184561912|SUPERIORITY_OR_OTHER|||||||0.4204||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4204
92328671|NCT00772005|184561912|SUPERIORITY_OR_OTHER|||||||0.6955||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6955
92328672|NCT00772005|184561913|SUPERIORITY_OR_OTHER|||||||0.6042||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6042
92328673|NCT00772005|184561913|SUPERIORITY_OR_OTHER|||||||0.9783||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9783
92328674|NCT00772005|184561913|SUPERIORITY_OR_OTHER|||||||0.9739||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9739
92328675|NCT00772005|184561914|SUPERIORITY_OR_OTHER|||||||0.3466||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3466
92328676|NCT00772005|184561914|SUPERIORITY_OR_OTHER|||||||0.8469||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8469
92328677|NCT00772005|184561914|SUPERIORITY_OR_OTHER|||||||0.5439||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5439
92328678|NCT00772005|184561915|SUPERIORITY_OR_OTHER|||||||0.6059||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6059
92328679|NCT00772005|184561915|SUPERIORITY_OR_OTHER|||||||0.7474||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7474
92328680|NCT00772005|184561915|SUPERIORITY_OR_OTHER|||||||0.4424||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4424
92328681|NCT00772005|184561916|SUPERIORITY_OR_OTHER|||||||0.4874||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4874
92328682|NCT00772005|184561916|SUPERIORITY_OR_OTHER|||||||0.8243||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8243
92328683|NCT00772005|184561916|SUPERIORITY_OR_OTHER|||||||0.9562||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9562
92328684|NCT00772005|184561917|SUPERIORITY_OR_OTHER|||||||0.3686||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3686
92328685|NCT00772005|184561917|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0270
92328686|NCT00772005|184561917|SUPERIORITY_OR_OTHER|||||||0.7322||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7322
92328687|NCT00772005|184561918|SUPERIORITY_OR_OTHER|||||||0.4646||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4646
92328688|NCT00772005|184561918|SUPERIORITY_OR_OTHER|||||||0.8783||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8783
92328689|NCT00772005|184561918|SUPERIORITY_OR_OTHER|||||||0.4213||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4213
92328690|NCT00772005|184561919|SUPERIORITY_OR_OTHER|||||||0.6597||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6597
92328691|NCT00772005|184561919|SUPERIORITY_OR_OTHER|||||||0.0262||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0262
92328692|NCT00772005|184561919|SUPERIORITY_OR_OTHER|||||||0.6652||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6652
92328693|NCT00772005|184561920|SUPERIORITY_OR_OTHER|||||||0.3355||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3355
92328694|NCT00772005|184561920|SUPERIORITY_OR_OTHER|||||||0.0953||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0953
92328695|NCT00772005|184561920|SUPERIORITY_OR_OTHER|||||||0.9235||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9235
92328696|NCT00772005|184561921|SUPERIORITY_OR_OTHER|||||||0.4164||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4164
92328697|NCT00772005|184561921|SUPERIORITY_OR_OTHER|||||||0.3003||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3003
92328698|NCT00772005|184561921|SUPERIORITY_OR_OTHER|||||||0.6907||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6907
92328699|NCT00772005|184561922|SUPERIORITY_OR_OTHER|||||||0.2518||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2518
92328700|NCT00772005|184561922|SUPERIORITY_OR_OTHER|||||||0.0739||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0739
92328701|NCT00772005|184561922|SUPERIORITY_OR_OTHER|||||||0.5644||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5644
92328702|NCT00772005|184561923|SUPERIORITY_OR_OTHER|||||||0.4305||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4305
92328703|NCT00772005|184561923|SUPERIORITY_OR_OTHER|||||||0.8299||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8299
92328704|NCT00772005|184561923|SUPERIORITY_OR_OTHER|||||||0.7283||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7283
92328705|NCT00772005|184561924|SUPERIORITY_OR_OTHER|||||||0.761||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7610
92328706|NCT00772005|184561924|SUPERIORITY_OR_OTHER|||||||0.6091||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6091
92328707|NCT00772005|184561924|SUPERIORITY_OR_OTHER|||||||0.3368||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3368
92328708|NCT00772005|184561925|SUPERIORITY_OR_OTHER|||||||0.8457||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8457
92328709|NCT00772005|184561925|SUPERIORITY_OR_OTHER|||||||0.4531||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4531
92328710|NCT00772005|184561925|SUPERIORITY_OR_OTHER|||||||0.6867||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6867
92328711|NCT00772005|184561926|SUPERIORITY_OR_OTHER|||||||0.9705||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9705
92328712|NCT00772005|184561926|SUPERIORITY_OR_OTHER|||||||0.0021||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0021
92328713|NCT00772005|184561926|SUPERIORITY_OR_OTHER|||||||0.5013||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5013
92328714|NCT00772005|184561927|SUPERIORITY_OR_OTHER|||||||0.733||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7330
92328715|NCT00772005|184561927|SUPERIORITY_OR_OTHER|||||||0.0068||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0068
92328716|NCT00772005|184561927|SUPERIORITY_OR_OTHER|||||||0.104||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1040
92328717|NCT00772005|184561928|SUPERIORITY_OR_OTHER|||||||0.822||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8220
92328718|NCT00772005|184561928|SUPERIORITY_OR_OTHER|||||||0.0144||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0144
92328719|NCT00772005|184561928|SUPERIORITY_OR_OTHER|||||||0.9464||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9464
92328720|NCT01256385|184561990|SUPERIORITY_OR_OTHER|||||||0.73|||||||Log Rank|||||||0.73
92328721|NCT01256385|184561991|SUPERIORITY_OR_OTHER|||||||0.87|||||||Log Rank|||||||0.87
92328722|NCT01256385|184561992|SUPERIORITY_OR_OTHER|||||||0.2|||||||Fisher Exact|||||||0.20
92328723|NCT01256385|184561993|SUPERIORITY|||||||0.006|||||||Chi-squared|||PFS at 4 months in Arm A was compared with a 4-month historical control rate of 21.4%, using a one-sided test at the 0.05 significant level. The historical data appear in two publications, an ASCO abstract: Abidoye, ASCO Annual Meeting 2006: 5568, and de Souza, Davis, et al, Clin Cancer Res 2012; 18(8):2336-2343 (see Figure 1).||||0.006
92328724|NCT01256385|184561993|SUPERIORITY|||||||0.037||||||1-sided.|Chi-squared|||PFS at 4 months in Arm B was compared with a 4-month historical control rate of 21.4%, using a one-sided test at the 0.05 significant level. The historical data appear in two publications, an ASCO abstract: Abidoye, ASCO Annual Meeting 2006: 5568, and de Souza, Davis, et al, Clin Cancer Res 2012; 18(8):2336-2343 (see Figure 1).||||0.037
92328725|NCT01256385|184561994|SUPERIORITY_OR_OTHER|||||||0.59|||||||Fisher Exact|||||||0.59
92328726|NCT02273908|184562010|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.949|||<|0.001|TWO_SIDED|95.0|-1.459|-0.439|||Mixed Models Analysis|||||-0.439|-1.459|<0.001
92328727|NCT02273908|184562011|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.259|||<|0.001|TWO_SIDED|95.0|-3.131|-1.387|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 8.||-1.387|-3.131|<0.001
92328728|NCT02273908|184562011|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.887|||<|0.001|TWO_SIDED|95.0|-2.704|-1.071|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 4.||-1.071|-2.704|<0.001
92328729|NCT02273908|184562012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.3018|||<|0.001|TWO_SIDED|95.0|1.4903|5.1133|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 8.||5.1133|1.4903|<0.001
92328730|NCT02273908|184562012|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|2.729||||0.004|TWO_SIDED|95.0|0.9047|4.5533|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 4.||4.5533|0.9047|0.004
92328731|NCT02273908|184562013|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.83|||<|0.001|TWO_SIDED|95.0|-1.301|-0.359|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 8.||-0.359|-1.301|<0.001
92328732|NCT02273908|184562013|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.674||||0.004|TWO_SIDED|95.0|-1.125|-0.223|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 4.||-0.223|-1.125|0.004
92328733|NCT02273908|184562014|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0204||||0.175|TWO_SIDED|95.0|-0.0091|0.0499|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 8.||0.0499|-0.0091|0.175
92328734|NCT02273908|184562014|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0329||||0.017|TWO_SIDED|95.0|0.0058|0.06|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 4.||0.0600|0.0058|0.017
92328735|NCT02273908|184562015|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.697||||0.026|TWO_SIDED|95.0|0.552|8.842|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 8.||8.842|0.552|0.026
92328736|NCT02273908|184562015|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.292||||0.477|TWO_SIDED|95.0|-2.282|4.866|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 4.||4.866|-2.282|0.477
92328737|NCT02273908|184562016|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Modified Chi-squared|||||||<0.001
92328738|NCT02273908|184562017|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Modified Chi-squared|||||||<0.001
92328739|NCT04908475|184562060|SUPERIORITY||Adjusted Difference|50.7|||<|0.001|TWO_SIDED|95.0|41.3|60.1||Adjusted for strata (baseline body weight \[≤ 100 kg, \> 100 kg\] and prior exposure to any systemic and/or biologic treatment for psoriasis \[0, ≥ 1\]) for the comparison of 2 treatment groups.|Cochran-Mantel-Haenszel|||||60.1|41.3|< 0.001
92328740|NCT04908475|184562061|SUPERIORITY||Adjusted Difference|56.8|||<|0.001|TWO_SIDED|95.0|47.7|66.0||Adjusted for strata (baseline body weight \[≤ 100 kg, \> 100 kg\] and prior exposure to any systemic and/or biologic treatment for psoriasis \[0, ≥ 1\]) for the comparison of 2 treatment groups.|Cochran-Mantel-Haenszel|||||66.0|47.7|< 0.001
92328741|NCT04908475|184562062|SUPERIORITY||Difference|69.7|||<|0.001|TWO_SIDED|95.0|59.5|80.0|||Chi-squared|||||80.0|59.5|< 0.001
92328742|NCT04908475|184562063|SUPERIORITY||Adjusted Difference|65.9|||<|0.001|TWO_SIDED|95.0|57.6|73.9||Adjusted for strata (baseline body weight \[≤ 100 kg, \> 100 kg\] and prior exposure to any systemic and/or biologic treatment for psoriasis \[0, ≥ 1\] for the comparison of 2 treatment groups.|Cochran-Mantel-Haenszel|||||73.9|57.6|< 0.001
92328743|NCT04908475|184562064|SUPERIORITY||Difference|71.6|||<|0.001|TWO_SIDED|95.0|60.9|82.3|||Chi-squared|||||82.3|60.9|< 0.001
92328744|NCT04908475|184562065|SUPERIORITY||Difference|69.4|||<|0.001|TWO_SIDED|95.0|58.6|80.2|||Chi-squared|||||80.2|58.6|< 0.001
92328745|NCT02124759|184562068|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|Paired T-test||Null hypothesis is that high fat diet will have no effect on M value, the measure of insulin sensitivity for each intervention as assessed by clamp.||||>0.05
92328746|NCT05727306|184562105|SUPERIORITY||Odds Ratio (OR)|1.35|||||TWO_SIDED|95.0|1.25|1.46|||||Calculated as the odds of having a depressive episode in participants diagnosed of Alopecia Areata vs. participants without Alopecia Areata. Odds Ratio adjusted for sociodemographic, clinical characteristics and major comorbidities.|||1.46|1.25|
92328747|NCT05727306|184562106|SUPERIORITY||Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|1.32|1.58|||||Calculated as the odds of having recurrent depressive disorder in participants diagnosed of Alopecia Areata vs. participants without Alopecia Areata. Odds Ratio adjusted for sociodemographic, clinical characteristics and major comorbidities.|||1.58|1.32|
92328748|NCT05727306|184562107|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|1.3|1.51|||||Calculated as the odds of having anxiety in participants diagnosed of Alopecia Areata vs. participants without Alopecia Areata. Odds Ratio adjusted for sociodemographic, clinical characteristics and major comorbidities.|||1.51|1.30|
92328749|NCT05727306|184562108|OTHER||Incidence rate ratio (IRR)|1.42|||||TWO_SIDED|95.0|1.37|1.46|||||Calculated as the incidence rate of attending primary care in participants diagnosed of Alopecia Areata vs. participants without Alopecia Areata. Incidence rate ratio adjusted for sociodemographic, clinical characteristics and major comorbidities.|||1.46|1.37|
92328750|NCT05727306|184562109|OTHER||Hazard Ratio (HR)|8.26|||||TWO_SIDED|95.0|7.55|9.04|||||Calculated using Cox Proportional Hazard model.Reflects a comparison of incidence rates between participants diagnosed with Alopecia Areata (AA) and those without AA. Adjusted for sociodemographic,clinical characteristics and major comorbidities.|||9.04|7.55|
92328751|NCT05727306|184562110|OTHER||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|1.17|1.57|||||Calculated using Cox Proportional Hazard model.Reflects a comparison of incidence rates between participants diagnosed with Alopecia Areata (AA) and those without AA. Adjusted for sociodemographic,clinical characteristics and major comorbidities.|||1.57|1.17|
92328752|NCT05727306|184562111|OTHER||Hazard Ratio (HR)|1.46|||||TWO_SIDED|95.0|1.14|1.87|||||Calculated using Cox Proportional Hazard model.Reflects a comparison of incidence rates between participants diagnosed with Alopecia Areata (AA) and those without AA. Adjusted for sociodemographic,clinical characteristics and major comorbidities.|||1.87|1.14|
92328753|NCT05727306|184562112|OTHER||Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|1.38|1.61|||||Calculated using Cox Proportional Hazard model.Reflects a comparison of incidence rates between participants diagnosed with Alopecia Areata (AA) and those without AA. Adjusted for sociodemographic,clinical characteristics and major comorbidities.|||1.61|1.38|
92328754|NCT00819780|184562134|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.871||||0.3531|TWO_SIDED|95.0|0.651|1.166|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||1.166|0.651|0.3531
92328755|NCT00819780|184562135|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.723||||0.1386|TWO_SIDED|95.0|0.47|1.111|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||1.111|0.470|0.1386
92328756|NCT00819780|184562136|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.19||||0.5497|TWO_SIDED|95.0|0.72|1.95|||Stratified exact test|Stratified by prior adjuvant oxaliplatin therapy|The odds ratio is defined as the odds of having an objective response in the panitumumab plus mFOLFOX6 arm relative to the odds in the bevacizumab plus mFOLFOX6 arm.|||1.95|0.72|0.5497
92328757|NCT00819780|184562138|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.874||||0.3861|TWO_SIDED|95.0|0.645|1.185|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||1.185|0.645|0.3861
92328758|NCT00819780|184562141|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.651||||0.0286|TWO_SIDED|95.0|0.444|0.956|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||0.956|0.444|0.0286
92328759|NCT00819780|184562142|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.579||||0.0083|TWO_SIDED|95.0|0.386|0.869|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||0.869|0.386|0.0083
92328760|NCT00819780|184562143|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.606||||0.0934|TWO_SIDED|95.0|0.337|1.088|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant Oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||1.088|0.337|0.0934
92328761|NCT00819780|184562144|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.465||||0.0235|TWO_SIDED|95.0|0.239|0.902|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||0.902|0.239|0.0235
92328762|NCT00819780|184562145|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.08||||0.9426|TWO_SIDED|95.0|0.55|2.12|||Stratified exact test|Stratified by prior exposure to oxaliplatin|The odds ratio is defined as the odds of having an objective response in the panitumumab plus mFOLFOX6 arm relative to the odds in the bevacizumab plus mFOLFOX6 arm.|||2.12|0.55|0.9426
92328763|NCT00819780|184562146|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||1|TWO_SIDED|95.0|0.52|2.15|||Stratified exact test|Stratified by prior exposure to oxaliplatin|The odds ratio is defined as the odds of having an objective response in the panitumumab plus mFOLFOX6 arm relative to the odds in the bevacizumab plus mFOLFOX6 arm.|||2.15|0.52|1.0000
92328764|NCT02847182|184562241|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.83|TWO_SIDED|95.0|-1.58|3.86|||t-test, 2 sided|||Null hypothesis: The mean of the 6-month change in VABS-II Socialization Subscale Standard Score is the same for the Cord Blood and Placebo groups.||3.86|-1.58|0.83
92328765|NCT00962091|184562274|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.9|||||TWO_SIDED|90.0|1.52|2.37|||||The CIs are calculated for the difference in the LS means of the ln-transformed Day 1 Cmax values (difference=OS-PIC). Antilogs of the confidence limits for the difference are taken to construct the CIs for the ratio of the geometric means.|||2.37|1.52|
92328766|NCT00962091|184562275|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.38|||||TWO_SIDED|90.0|1.08|1.78|||||The CIs are calculated for the difference in the LS means of the ln-transformed Day 1 AUClast values (difference=OS-PIC). Antilogs of the confidence limits for the difference are taken to construct the CIs for the ratio of the geometric means.|||1.78|1.08|
92328767|NCT00962091|184562281|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.84|||||TWO_SIDED|90.0|0.66|1.06|||||The CIs are calculated for the difference in the LS means of the ln-transformed Day 1 Cmax values (difference=Fed-Fasted). Antilogs of the confidence limits for the difference are taken to construct the CIs for the ratio of the geometric means.|||1.06|0.66|
92328768|NCT00962091|184562282|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.04|||||TWO_SIDED|90.0|0.8|1.34|||||The CIs are calculated for the difference in the LS means of the ln-transformed Day 1 AUClast values (difference=Fed-Fasted). Antilogs of the confidence limits for the difference are taken to construct the CIs for the ratio of the geometric means.|||1.34|0.80|
92328769|NCT00962091|184562283|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.94|||||TWO_SIDED|90.0|0.68|1.32|||||The CIs are calculated for the difference in the LS means of the ln-transformed Day 1 AUC values (difference=Fed-Fasted). Antilogs of the confidence limits for the difference are taken to construct the CIs for the ratio of the geometric means.|||1.32|0.68|
92328770|NCT04231396|184562299|SUPERIORITY||Mean Difference (Final Values)|0.1456||||0.037|TWO_SIDED|95.0|0.012|0.279|||t-test, 1 sided|||The SNR Loss scores computed the means per client and week (1-12), with a smoothing method: isotonic regression (isoreg, via R). The slopes (lsfit, via R) calculated of the smoothed means separately per client, per 7-9 weeks (early training weeks), and per 10-12 weeks (final training weeks). This created slope differences, per client.||.279|.012|.037
92328771|NCT02172040|184562307|NON_INFERIORITY|Non-inferiority margin definition: lower limit of the 95% confidence interval (CI) for amlodipine + celecoxib arm did not cross the 50% value for the amlodipine arm.|||||=|0.001|||||||t-test, 1 sided|||A serial gatekeeping strategy was used for the primary efficacy endpoint analysis. The primary comparison was a two-sample t-test to test the one-sided hypothesis that treatment with amlodipine + celecoxib was non-inferior to half of the effect achieved with amlodipine.||||= 0.001
92328772|NCT02172040|184562307|SUPERIORITY||||||=|0.491|||||||t-test, 1 sided|||A serial gatekeeping strategy was used for the primary efficacy endpoint analysis. The secondary comparison was a two-sample t-test to test the one-sided hypothesis that treatment with placebo was superior to treatment with celecoxib. This was only to be performed if statistical significance was achieved for the primary comparison.||||= 0.491
92328773|NCT02172040|184562308|OTHER||||||=|0.166|||||||Chi-squared|||||||= 0.166
92328774|NCT02172040|184562309|SUPERIORITY|||||||0.177|||||||t-test, 1 sided|||||||0.177
92328775|NCT02172040|184562309|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328776|NCT02172040|184562309|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328777|NCT02172040|184562309|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328778|NCT02172040|184562309|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328779|NCT02172040|184562309|SUPERIORITY||||||=|0.719|||||||t-test, 1 sided|||||||= 0.719
92328780|NCT02172040|184562310|SUPERIORITY||||||=|0.069|||||||t-test, 1 sided|||||||= 0.069
92328781|NCT02172040|184562310|SUPERIORITY||||||=|0.001|||||||t-test, 1 sided|||||||= 0.001
92328782|NCT02172040|184562310|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328783|NCT02172040|184562310|SUPERIORITY||||||=|0.097|||||||t-test, 1 sided|||||||= 0.097
92328784|NCT02172040|184562310|SUPERIORITY||||||=|0.064|||||||t-test, 1 sided|||||||= 0.064
92328785|NCT02172040|184562310|SUPERIORITY||||||=|0.924|||||||t-test, 1 sided|||||||= 0.924
92328786|NCT02172040|184562311|SUPERIORITY||||||=|0.038|||||||t-test, 1 sided|||||||= 0.038
92328787|NCT02172040|184562311|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328788|NCT02172040|184562311|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328789|NCT02172040|184562311|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328790|NCT02172040|184562311|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328791|NCT02172040|184562311|SUPERIORITY||||||=|0.562|||||||t-test, 1 sided|||||||= 0.562
92328792|NCT02172040|184562312|SUPERIORITY||||||=|0.104|||||||t-test, 1 sided|||||||= 0.104
92328793|NCT02172040|184562312|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328794|NCT02172040|184562312|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328795|NCT02172040|184562312|SUPERIORITY||||||=|0.002|||||||t-test, 1 sided|||||||= 0.002
92328796|NCT02172040|184562312|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328797|NCT02172040|184562312|SUPERIORITY||||||=|0.419|||||||t-test, 1 sided|||||||= 0.419
92328798|NCT02172040|184562313|SUPERIORITY||||||=|0.028|||||||t-test, 1 sided|||||||= 0.028
92328799|NCT02172040|184562313|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328800|NCT02172040|184562313|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328801|NCT02172040|184562313|SUPERIORITY||||||=|0.051|||||||t-test, 1 sided|||||||= 0.051
92328802|NCT02172040|184562313|SUPERIORITY||||||=|0.074|||||||t-test, 1 sided|||||||= 0.074
92328803|NCT02172040|184562313|SUPERIORITY||||||=|0.878|||||||t-test, 1 sided|||||||= 0.878
92328804|NCT02172040|184562314|OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328805|NCT02172040|184562315|OTHER||||||=|0.977|||||||t-test, 1 sided|||||||= 0.977
92328806|NCT02172040|184562316|OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328807|NCT02172040|184562317|OTHER||||||=|0.527|||||||t-test, 1 sided|||||||= 0.527
92328808|NCT02172040|184562318|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328809|NCT02172040|184562318|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328810|NCT02172040|184562318|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
92328811|NCT02172040|184562318|SUPERIORITY||||||=|0.001|||||||t-test, 1 sided|||||||= 0.001
92328812|NCT04908202|184562327|SUPERIORITY||Odds Ratio (OR)|2.29|||<|0.0001|TWO_SIDED|95.0|1.67|3.13|||Cochran-Mantel-Haenszel|||||3.13|1.67|<0.0001
92328813|NCT04908202|184562328|SUPERIORITY||ADJUSTED MEAN DIFFERENCE|-0.5051|||<|0.0001|TWO_SIDED|95.0|-0.6709|-0.3392|||ANCOVA|||||-0.3392|-0.6709|<0.0001
92328814|NCT04908202|184562329|SUPERIORITY||ADJUSTED MEAN DIFFERENCE|-0.1688|||<|0.0001|TWO_SIDED|95.0|-0.2442|-0.0933|||ANCOVA|||||-0.0933|-0.2442|<0.0001
92328815|NCT04908202|184562330|SUPERIORITY||Odds Ratio (OR)|14.08|||<|0.0001|TWO_SIDED|95.0|7.19|27.59|||Cochran-Mantel-Haenszel|||||27.59|7.19|<0.0001
92328816|NCT04908202|184562331|SUPERIORITY||ADJUSTED MEAN DIFFERENCE|6.631|||<|0.0001|TWO_SIDED|95.0|3.481|9.781|||ANCOVA|||||9.781|3.481|<0.0001
92328817|NCT04908202|184562332|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5699|TWO_SIDED|95.0|0.74|1.75|||Cochran-Mantel-Haenszel|||||1.75|0.74|0.5699
92328818|NCT04908202|184562333|SUPERIORITY||Odds Ratio (OR)|2.08||||0.0012|TWO_SIDED|95.0|1.33|3.26|||Cochran-Mantel-Haenszel|||||3.26|1.33|0.0012
92328819|NCT04908202|184562334|SUPERIORITY||ADJUSTED MEAN DIFFERENCE|2.6|||<|0.0001|TWO_SIDED|95.0|1.4|3.9|||ANCOVA|||||3.9|1.4|<0.0001
92328820|NCT04908202|184562335|SUPERIORITY||Odds Ratio (OR)|1.8||||0.027|TWO_SIDED|95.0|1.07|3.03|||Cochran-Mantel-Haenszel|||||3.03|1.07|0.0270
92328821|NCT04908202|184562336|SUPERIORITY||ADJUSTED MEAN DIFFERENCE|0.1596||||0.7194|TWO_SIDED|95.0|-0.7114|1.0306|||ANCOVA|||||1.0306|-0.7114|0.7194
92328822|NCT01313221|184562436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.16|STANDARD_ERROR_OF_MEAN|9.99|||TWO_SIDED|95.0|-3.5|35.82|||||Adjusted for treatment in a mixed model|||35.82|-3.50|
92328823|NCT01313221|184562437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.23|STANDARD_ERROR_OF_MEAN|8.31|||TWO_SIDED|95.0|-5.13|27.6||||||Difference in change from Week 12 to Week 16||27.60|-5.13|
92328824|NCT01313221|184562437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.56|STANDARD_ERROR_OF_MEAN|9.53|||TWO_SIDED|95.0|-2.21|35.32||||||Difference in change from Week 12 to Week 20||35.32|-2.21|
92328825|NCT03246061|184562459|SUPERIORITY||||||<|0.001||||||Interim Analysis p-value for significance of \<0.025 for an overall alpha of 0.05|ANCOVA|||Estimates and p-value from an ANCOVA with a factor of treatment group and a covariate of baseline ODI score. Values have been adjusted for multiple imputation. Note: 3 month visit is computed as post-treatment for the RF Ablation Arm, and post-randomization for the Control Arm.||||<0.001
92328826|NCT03246061|184562460|SUPERIORITY||||||<|0.001||||||Estimates and p-value from ANCOVA with a factor of treatment group and a covariate of baseline VAS score.|ANCOVA|||||||<0.001
92328827|NCT01716520|184562499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|||<|0.001|TWO_SIDED|95.0|0.085|0.157||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to UMEC=responders to UMEC or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 milliliters (mL) at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.157|0.085|<0.001
92328828|NCT01716520|184562499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|||<|0.001|TWO_SIDED|95.0|0.1|0.171||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to UMEC=responders to UMEC or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.171|0.100|<0.001
92328829|NCT01716520|184562499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|||<|0.001|TWO_SIDED|95.0|0.11|0.174||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to VI=responders to VI or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.174|0.110|<0.001
92328830|NCT01716520|184562499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|||<|0.001|TWO_SIDED|95.0|0.067|0.13||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to VI=responders to VI or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.130|0.067|<0.001
92328831|NCT01716520|184562499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052||||0.047|TWO_SIDED|95.0|0.001|0.104||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to Neither=responders to neither UMEC nor VI, as defined by a participant with at least one FEV1 assessment over 0-6 hours post-dose on Day 1 but no increase from Baseline of \>=12% and 200 mL at any assessment(s).|||0.104|0.001|0.047
92328832|NCT01716520|184562499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073||||0.006|TWO_SIDED|95.0|0.021|0.124||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to Neither=responders to neither UMEC nor VI, as defined by a participant with at least one FEV1 assessment over 0-6 hours post-dose on Day 1 but no increase from Baseline of \>=12% and 200 mL at any assessment(s).|||0.124|0.021|0.006
92328833|NCT03030118|184562517|SUPERIORITY|||||||0.72|||||||Regression, Logistic|||For the primary outcome (SLICC classification criteria count \[SLICC score\]), measured every 12 weeks over a 96-week period, we used an ordinal logistic regression model to compare the estimated slopes over time for the intervention (HCQ) and placebo groups. The model accounted for the ordinal and non-decreasing properties of the SLICC score. Our null hypothesis was that the intervention slope equaled the placebo slope, with a corresponding hypothesis that the slopes were not equal.||||0.72
92328834|NCT03030118|184562518|SUPERIORITY|||||||0.81|||||||Regression, Cox|||Progression to SLE was defined as the number of subjects in whom a SLICC score of 4 was recorded, up to 96 weeks.||||0.81
92328835|NCT03030118|184562519|SUPERIORITY|||||||0.74|||||||Regression, Logistic|||"For the SLEDAI score, we combined responses to model the following groups:~* Score of 0 or 1~* Score of 2 or 3~* Score of 4, 6, or 8"||||0.74
92328836|NCT03030118|184562520|SUPERIORITY|||||||0.77|||||||Regression, Logistic|Ordinal logistic regression||"For analysis, we combined responses ≥3 to model the following groups:~* Score of 0~* Score of 1~* Score of 2~* Score of 3 or higher"||||0.77
92328837|NCT03030118|184562521|SUPERIORITY|||||||0.386|||||||t-test, 2 sided|Paired t-test||||||0.386
92328838|NCT03030118|184562522|SUPERIORITY|||||||0.497|||||||t-test, 2 sided|Paired t-test||||||0.497
92328839|NCT03030118|184562523|SUPERIORITY|||||||0.99|||||||Regression, Logistic|Ordinal logistic regression||||||0.99
92328840|NCT03030118|184562524|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
92328841|NCT03030118|184562525|NON_INFERIORITY|Outcome with hydroxychloroquine is hypothesized to be not inferior to outcome with placebo.|||||>|0.5|||||||Fisher Exact|||||||>0.5
92328842|NCT03030118|184562526|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92328843|NCT03030118|184562527|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92328844|NCT02052596|184562543|NON_INFERIORITY|Criteria for non-inferiority: At one month after the last vaccine dose (Month 3 or Month 5), the upper limit (UL) of the 95% confidence interval (CI) for the anti-gE antibodies GMC ratio between the Control Group and the GSK1437173A Group had to be below (\<) 1.5,|Adjusted GMC ratio|1.11|||||TWO_SIDED|95.0|1.02|1.21||||Adjustment for baseline concentration and age - pooled variance.||Demonstration of non-inferiority of the humoral immune response to two doses of the GSK1437173A vaccine when Boostrix vaccine was co-administered with the first GSK1437173A vaccine dose compared to two doses of GSK1437173A vaccine (administered separately from Boostrix vaccine), one month after the last vaccine dose.||1.21|1.02|
92328845|NCT02052596|184562544|NON_INFERIORITY|Criteria for non-inferiority: At one month after the first vaccine dose (Month 1), the upper limit (UL) of the 95% confidence interval for the GMC ratio for anti-PT antibodies of the Control Group over the GSK1437173A Group had to be \< 1.5.|Adjusted GMC ratio|1.17|||||TWO_SIDED|95.0|1.0|1.36||||Ancova model: adjustment for baseline concentration - pooled variance.||Demonstration of non-inferiority of the humoral immune response to Boostrix vaccine when co-administered with GSK1437173A vaccine at first vaccination dose compared to Boostrix vaccine (administered separately from GSK1437173A) for pertussis toxoid (PT), one month after the vaccine dose.||1.36|1.00|
92328846|NCT02052596|184562544|NON_INFERIORITY|Criteria for non-inferiority: At one month after the first vaccine dose (Month 1), the upper limit (UL) of the 95% confidence interval for the GMC ratio for anti-FHA antibodies of the Control Group over the GSK1437173A Group had to be \< 1.5.|Adjusted GMC ratio|1.24|||||TWO_SIDED|95.0|1.07|1.44||||Adjustment for baseline concentration - pooled variance.||Demonstration of non-inferiority of the humoral immune response to Boostrix vaccine when co-administered with GSK1437173A vaccine at first vaccination dose compared to Boostrix vaccine (administered separately from GSK1437173A) for filamentous hemagglutinin (FHA) antigen, one month after the vaccine dose.||1.44|1.07|
92328847|NCT02052596|184562544|NON_INFERIORITY|Criteria for non-inferiority: At one month after the first vaccine dose (Month 1), the upper limit (UL) of the 95% confidence interval for the GMC ratio for anti-PRN antibodies of the Control Group over the GSK1437173A Group had to be \< 1.5.|Adjusted GMC ratio|1.27|||||TWO_SIDED|95.0|1.02|1.58||||Adjustment for baseline concentration - pooled variance.||Demonstration of non-inferiority of the humoral immune response to Boostrix vaccine when co-administered with GSK1437173A vaccine at first vaccination dose compared to Boostrix vaccine (administered separately from GSK1437173A) for pertactin (PRN) antigen, one month after the vaccine dose.||1.58|1.02|
92328848|NCT02052596|184562545|NON_INFERIORITY|Criteria for non-inferiority: At one month after the first vaccine dose (Month 1), the upper limit (UL) of the 95% confidence interval (CI) for the difference in the percentages of subjects with anti-diphtheria (anti-D) concentrations ≥ 1.0 IU/mL of the Control Group minus the GSK1437173A Group had to be \< 10%.|Difference in seropositivity rate|-0.1|||||TWO_SIDED|95.0|-3.03|2.85||||||Demonstration of non-inferiority of the humoral immune response to Boostrix vaccine when co-administered with GSK1437173A vaccine at first vaccination dose compared to Boostrix vaccine (administered separately from GSK1437173A) for diphteria (D) antigen, one month after the vaccine dose.||2.85|-3.03|
92328849|NCT02052596|184562545|NON_INFERIORITY|Criteria for non-inferiority: At one month after the first vaccine dose (Month 1), the upper limit (UL) of the 95% confidence interval (CI) for the difference in the percentages of subjects with anti-tetanus (anti-T) concentrations ≥ 1.0 IU/mL of the Control Group minus the GSK1437173A Group had to be \< 10%.|Difference in seropositivity rate|0.01|||||TWO_SIDED|95.0|-1.18|1.27||||||Demonstration of non-inferiority of the humoral immune response to Boostrix vaccine when co-administered with GSK1437173A vaccine at first vaccination dose compared to Boostrix vaccine (administered separately from GSK1437173A) for tetanus (T) antigen, one month after the vaccine dose.||1.27|-1.18|
92328850|NCT00454818|184562569|SUPERIORITY_OR_OTHER|||||||0.078||||||The a priori threshold for statistical significance was P \< 0.2. There were no adjustments for multiple comparisons.|t-test, 2 sided|||||||0.078
92328851|NCT00454818|184562569|SUPERIORITY_OR_OTHER|||||||0.515||||||The a priori threshold for statistical significance was P \< 0.2. There were no adjustments for multiple comparisons.|t-test, 2 sided|||||||0.515
92328852|NCT00454818|184562569|SUPERIORITY_OR_OTHER|||||||0.098||||||The a priori threshold for statistical significance was P \< 0.2. There were no adjustments for multiple comparisons.|t-test, 2 sided|||||||0.098
92328853|NCT00676572|184562596|SUPERIORITY||||||<|0.05||||||calculated p values|t-test, 2 sided|||||||<0.05
92328854|NCT04526574|184562637|NON_INFERIORITY|Noninferiority (NI) for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|Geometric Mean Ratio (GMR)|0.74|||||TWO_SIDED|95.0|0.65|0.84||||||Serotype 1: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of least square (LS) means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.84|0.65|
92328855|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.82|||||TWO_SIDED|95.0|0.75|0.9||||||Serotype 3: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.90|0.75|
92328856|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.89|||||TWO_SIDED|95.0|0.77|1.02||||||Serotype 4: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||1.02|0.77|
92328857|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.88|||||TWO_SIDED|95.0|0.79|0.98||||||Serotype 5: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.98|0.79|
92328858|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.76|||||TWO_SIDED|95.0|0.65|0.88||||||Serotype 6A: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.88|0.65|
92328859|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.81|||||TWO_SIDED|95.0|0.71|0.94||||||Serotype 6B: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.94|0.71|
92328860|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.9|||||TWO_SIDED|95.0|0.83|0.99||||||Serotype 7F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.99|0.83|
92328861|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.8|||||TWO_SIDED|95.0|0.7|0.93||||||Serotype 8: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.93|0.70|
92328862|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.94|||||TWO_SIDED|95.0|0.82|1.07||||||Serotype 9V: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||1.07|0.82|
92328863|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.83|||||TWO_SIDED|95.0|0.71|0.96||||||Serotype 10A: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.96|0.71|
92328864|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.71|||||TWO_SIDED|95.0|0.6|0.84||||||Serotype 11A: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.84|0.60|
92328865|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.82|||||TWO_SIDED|95.0|0.69|0.97||||||Serotype 12F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.97|0.69|
92328866|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.86|||||TWO_SIDED|95.0|0.76|0.96||||||Serotype 14: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.96|0.76|
92328867|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.7|||||TWO_SIDED|95.0|0.57|0.86||||||Serotype 15B: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.86|0.57|
92328868|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.9|||||TWO_SIDED|95.0|0.77|1.04||||||Serotype 18C: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||1.04|0.77|
92328869|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.88|||||TWO_SIDED|95.0|0.78|0.98||||||Serotype 19A: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.98|0.78|
92328870|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.89|||||TWO_SIDED|95.0|0.78|1.01||||||Serotype 19F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||1.01|0.78|
92328871|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.75|||||TWO_SIDED|95.0|0.62|0.9||||||Serotype 22F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.90|0.62|
92328872|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.78|||||TWO_SIDED|95.0|0.66|0.92||||||Serotype 23F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.92|0.66|
92328873|NCT04526574|184562637|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.72|||||TWO_SIDED|95.0|0.62|0.83||||||Serotype 33F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.83|0.62|
92328874|NCT04526574|184562638|NON_INFERIORITY|NI was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.67 (1.5-fold criterion).|GMR|1.07|||||TWO_SIDED|95.0|0.97|1.17||||||A/H1N1: GMRs (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 2-sided CIs were calculated by exponentiating the difference of LS means for the HAI titers and the corresponding CIs based on the regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed HAI titers, and prior pneumococcal vaccination status.||1.17|0.97|
92328875|NCT04526574|184562638|NON_INFERIORITY|NI was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.67 (1.5-fold criterion).|GMR|0.98|||||TWO_SIDED|95.0|0.89|1.08||||||A/H3N2: GMRs (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 2-sided CIs were calculated by exponentiating the difference of LS means for the HAI titers and the corresponding CIs based on the regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed HAI titers, and prior pneumococcal vaccination status.||1.08|0.89|
92328876|NCT04526574|184562638|NON_INFERIORITY|NI was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.67 (1.5-fold criterion).|GMR|1.0|||||TWO_SIDED|95.0|0.93|1.08||||||B/Victoria: GMRs (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 2-sided CIs were calculated by exponentiating the difference of LS means for the HAI titers and the corresponding CIs based on the regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed HAI titers, and prior pneumococcal vaccination status.||1.08|0.93|
92328877|NCT04526574|184562638|NON_INFERIORITY|NI was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.67 (1.5-fold criterion).|GMR|0.95|||||TWO_SIDED|95.0|0.87|1.03||||||B/Phuket: GMRs (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 2-sided CIs were calculated by exponentiating the difference of LS means for the HAI titers and the corresponding CIs based on the regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed HAI titers, and prior pneumococcal vaccination status.||1.03|0.87|
92328878|NCT01032070|184562642|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||95.0||||P-value is not adjusted for multiple comparisons.|Fisher Exact|||The study was not powered for this comparison due to small sample size.||||0.2200
92328879|NCT01541839|184562664|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|327.0|STANDARD_DEVIATION|70.0|<|0.0001|TWO_SIDED|95.0|||||t-test, 1 sided||The mean time for closure with septal stapler was 35 +/-22 seconds versus 7 minutes +/- 1 minute 10 seconds for suture closure. The mean net difference between groups was 327 seconds, or 6 minutes 27 seconds.|The operative time required for closure and NOSE questionnaire scores were analyzed with unpaired and paired t-tests respectively. Chi-squared testing was used for post-operative complication rates. The mean closure time for septoplasty was estimated to be 10 minutes +/- 4 minutes. It was assumed that the septal stapler would take 5 minutes +/- 4 minutes. Assuming a one-sided test, an alpha of 0.05 and a power of 0.8, a total of 16 patients were needed.||||<0.0001
92328880|NCT02332239|184562665|SUPERIORITY||Mean Difference (Final Values)|-7.48|STANDARD_ERROR_OF_MEAN|4.11||0.07|TWO_SIDED||||||Mixed effects longitudinal regression||d=0.37|BDI Score where baseline \>=20: 8 week||||0.07
92328881|NCT02332239|184562666|SUPERIORITY||Median Difference (Final Values)|-7.29|STANDARD_ERROR_OF_MEAN|2.62||0.01|TWO_SIDED||||||quantile regression models|Controlled for baseline and gender|d=0.46|CTS Score where baseline \>=4: 8 week||||0.01
92328882|NCT02332239|184562669|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||||||0.33
92328883|NCT00006305|184562685|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.005||||0.97|TWO_SIDED|95.0|-0.031|0.02||A separate test with alpha=0.05 was conducted for each treatment comparison of the main effects in the 2x2 factorial design.|Log Rank||Risk difference of all-cause mortality for Revascularization compared with Medical therapy|||0.020|-0.031|0.97
92328884|NCT00006305|184562685|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.003||||0.89|TWO_SIDED|95.0|-0.029|0.022||A separate test with alpha=0.05 was conducted for each treatment comparison of the main effects in the 2x2 factorial design.|Log Rank||Risk difference of all-cause mortality for Insulin Sensitizing glycemic control strategy compared with Insulin Providing glycemic control strategy|||0.022|-0.029|0.89
92328885|NCT00006305|184562686|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.013||||0.7|TWO_SIDED|95.0|-0.049|0.022||A separate test with alpha=0.05 was conducted for each treatment comparison of the main effects in the 2x2 factorial design.|Log Rank||Risk difference of Death/MI/Stroke for Revascularization compared with Medical Therapy|||0.022|-0.049|0.70
92328886|NCT00006305|184562686|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.024||||0.13||95.0|-0.06|0.012||A separate test with alpha=0.05 was conducted for each treatment comparison of the main effects in the 2x2 factorial design.|Log Rank||Risk difference of Death/MI/Stroke for Insulin Sensitizing glycemic control strategy compared with Insulin Providing glycemic control strategy|||0.012|-0.060|0.13
92328887|NCT00662558|184562687|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Differences in treatment proportions and the 95% confidence interval (CI) around the difference were estimated by calculating the risk difference between the treatment arms using a generalized linear model with treatment and center as factors. A lower 95% CI for the risk difference greater than -0.10 would demonstrate that celecoxib 200 mg BID is not inferior to tramadol hydrochloride 50 mg QID.|Risk Difference (RD)|0.091||||||95.0|0.0255|0.1565||||||||0.1565|0.0255|
92328888|NCT00662558|184562687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0|||||Cochran-Mantel-Haenszel|||If celecoxib 200 mg BID was found to be non-inferior to tramadol hydrochloride 50 mg QID then the second step was to test the superiority of celecoxib 200 mg BID over tramadol hydrochloride 50 mg QID using a two-sided test of proportions. Differences in proportions were tested using the General Association Test of the Cochran-Mantel-Haenszel (CMH) procedure stratified by center.||||0.008
92328889|NCT00662558|184562688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.234||95.0|-0.53|0.13|||ANCOVA||The mean difference reported is the least squares (LS) mean difference.|The change from Baseline was compared between the two treatment groups using analysis of covariance (ANCOVA), with treatment and center as factors, and Baseline value as a covariate.||0.13|-0.53|0.234
92328890|NCT00662558|184562689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|1.76||0.595||95.0|-4.39|2.52|||ANCOVA||The mean difference reported is the LS mean difference.|The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||2.52|-4.39|0.595
92328891|NCT00662558|184562690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.829||95.0|||||Cochran-Mantel-Haenszel|||CMH tests using row mean score and adjusted for center was used to compare the two treatment groups.||||0.829
92328892|NCT00662558|184562691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47||95.0|||||Cochran-Mantel-Haenszel|||CMH tests using row mean score and adjusted for center was used to compare the two treatment groups.||||0.470
92328893|NCT00662558|184562692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.32||0.339||95.0|-0.95|0.33|||ANCOVA||The mean difference reported is the LS mean difference.|The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.33|-0.95|0.339
92328894|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.16||0.741||95.0|-0.36|0.25|||ANCOVA||The mean difference reported is the LS mean difference.|How Much Pain Now. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.25|-0.36|0.741
92328895|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.17||0.796||95.0|-0.38|0.29|||ANCOVA||The mean difference reported is the LS mean difference.|Worst Pain in Past 24 Hours. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.29|-0.38|0.796
92328896|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.16||0.492||95.0|-0.41|0.2|||ANCOVA||The mean difference reported is the LS mean difference.|Average Pain in Past 24 Hours. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.20|-0.41|0.492
92328897|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.16||0.893||95.0|-0.28|0.33|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With General Activity. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.33|-0.28|0.893
92328898|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.16||0.618||95.0|-0.4|0.24|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Mood. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.24|-0.40|0.618
92328899|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.16||0.44||95.0|-0.19|0.43|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Walking Activity. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.43|-0.19|0.440
92328900|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.14||0.806||95.0|-0.25|0.32|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Relations With Others. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.32|-0.25|0.806
92328901|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.17||0.739||95.0|-0.38|0.27|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Sleep. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.27|-0.38|0.739
92328902|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.992||95.0|-0.32|0.33|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Normal Work. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.33|-0.32|0.992
92328903|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.16||0.793||95.0|-0.28|0.36|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Enjoyment of Life. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.36|-0.28|0.793
92328904|NCT00662558|184562693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.973||95.0|-0.27|0.28|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interference Subscale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.28|-0.27|0.973
92328905|NCT00662558|184562694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|1.51||0.392||95.0|-4.26|1.67|||ANCOVA||The mean difference reported is the LS mean difference.|Sleep Disturbance. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.67|-4.26|0.392
92328906|NCT00662558|184562694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|1.67||0.691||95.0|-3.94|2.61|||ANCOVA||The mean difference reported is the LS mean difference.|Snoring. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||2.61|-3.94|0.691
92328907|NCT00662558|184562694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|1.45||0.549||95.0|-3.7|1.97|||ANCOVA||The mean difference reported is the LS mean difference.|Awaken Shortness of Breath or Headache. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.97|-3.70|0.549
92328908|NCT00662558|184562694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.23||0.336||95.0|-0.67|0.23|||ANCOVA||The mean difference reported is the LS mean difference.|Quantity of Sleep. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.23|-0.67|0.336
92328909|NCT00662558|184562694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|1.69||0.37||95.0|-4.83|1.8|||ANCOVA||The mean difference reported is the LS mean difference.|Sleep Adequacy. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.80|-4.83|0.370
92328910|NCT00662558|184562694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|1.34||0.341||95.0|-3.9|1.35|||ANCOVA||The mean difference reported is the LS mean difference.|Somnolence. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.35|-3.90|0.341
92328911|NCT00662558|184562694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|1.15||0.604||95.0|-2.85|1.66|||ANCOVA||The mean difference reported is the LS mean difference.|Sleep Problem Index I. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.66|-2.85|0.604
92328912|NCT00662558|184562694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|1.14||0.547||95.0|-2.92|1.55|||ANCOVA||The mean difference reported is the LS mean difference.|Sleep Problem Index II. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.55|-2.92|0.547
92328913|NCT00662558|184562695|SUPERIORITY_OR_OTHER_LEGACY|||||||0.196||95.0|||||Cochran-Mantel-Haenszel|||Optimal sleep was analyzed using CMH general association test.||||0.196
92328914|NCT00662558|184562696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.19|STANDARD_ERROR_OF_MEAN|1.91||0.252||95.0|-1.56|5.94|||ANCOVA||The mean difference reported is the LS mean difference.|Time Scale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||5.94|-1.56|0.252
92328915|NCT00662558|184562696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|1.88||0.798||95.0|-3.21|4.17|||ANCOVA||The mean difference reported is the LS mean difference.|Physical Scale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||4.17|-3.21|0.798
92328916|NCT00662558|184562696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|1.92||0.7||95.0|-3.03|4.51|||ANCOVA||The mean difference reported is the LS mean difference.|Output Scale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||4.51|-3.03|0.700
92328917|NCT00662558|184562696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|1.72||0.902||95.0|-3.16|3.59|||ANCOVA||The mean difference reported is the LS mean difference.|Mental-Interpersonal Scale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||3.59|-3.16|0.902
92328918|NCT00662558|184562696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.46||0.581||95.0|-0.65|1.16|||ANCOVA||The mean difference reported is the LS mean difference.|Index Scale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.16|-0.65|0.581
92328919|NCT00662558|184562697|SUPERIORITY_OR_OTHER_LEGACY|||||||0.614||95.0|||||Cochran-Mantel-Haenszel|||P-value reported is the overall p-value for Week 1.||||0.614
92328920|NCT00662558|184562697|SUPERIORITY_OR_OTHER_LEGACY|||||||0.786||95.0|||||Cochran-Mantel-Haenszel|||P-value reported is the overall p-value for Week 3.||||0.786
92328921|NCT00662558|184562697|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0|||||Cochran-Mantel-Haenszel|||P-value reported is the overall p-value for Week 6/ET.||||0.044
92328922|NCT00662558|184562698|SUPERIORITY_OR_OTHER_LEGACY|||||||0.87||95.0|||||Cochran-Mantel-Haenszel|||CMH tests using row mean score and adjusted for center was used to compare the two treatment groups.||||0.870
92328923|NCT00662558|184562699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.545||95.0|||||Cochran-Mantel-Haenszel|||CMH tests using row mean score and adjusted for center was used to compare the two treatment groups.||||0.545
92328924|NCT00662558|184562700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.218||95.0|||||Cochran-Mantel-Haenszel|||CMH test adjusted for center was used to compare the two treatment groups.||||0.218
92328925|NCT01075399|184562705|SUPERIORITY_OR_OTHER||Pearson's Correlation Coefficient|0.883|||<|0.001|TWO_SIDED|90.0|0.802|0.929||Significance of probability for no association between the first and second pre-treatment uptake.|Pearson's correlation|||"Primary Tumor SUV max:~The reproducibility of \[F-18\]HX4 uptake in primary tumors was assessed by comparing SUV max of the 1st and 2nd \[F18\]HX4 PET/CT scan.~Estimated power for a range of coefficients of variation (CVs) postulated for the paired differences in SUV values, and for establishing reproducibility within ±20% or ±25%."||0.929|0.802|<0.001
92328926|NCT01075399|184562705|SUPERIORITY_OR_OTHER||Pearson's Correlation Coefficient|0.887|||<|0.001|TWO_SIDED|90.0|0.792|0.925||Significance of probability for no association between the first and second pre-treatment uptake.|Pearson's correlation|||"Primary Tumor SUV mean:~The reproducibility of \[F-18\]HX4 uptake in primary tumors was assessed by comparing SUV mean of the 1st and 2nd \[F18\]HX4 PET/CT scan.~Estimated power for a range of coefficients of variation (CVs) postulated for the paired differences in SUV values, and for establishing reproducibility within ±20% or ±25%."||0.925|0.792|<0.001
92328927|NCT01075399|184562705|SUPERIORITY_OR_OTHER||Pearson's Correlation Coefficient|0.945|||<|0.001|TWO_SIDED|90.0|0.904|0.967||Significance of probability for no association between the first and second pre-treatment uptake.|Pearson's correlation|||"Primary Tumor to background SUV ratio:~The reproducibility of \[F-18\]HX4 uptake in primary tumors was assessed by comparing tumor to background SUV ratio (T/B) of the 1st and 2nd \[F18\]HX4 PET/CT scan.~Estimated power for a range of coefficients of variation (CVs) postulated for the paired differences in T/B values, and for establishing reproducibility within ±20% or ±25%."||0.967|0.904|<0.001
92328928|NCT01393132|184562707|SUPERIORITY_OR_OTHER|||||||0.0108|TWO_SIDED||||||t-test, 2 sided|||Comparison of fluorescein staining score between the placebo and Thymosin beta 4 groups||||0.0108
92328929|NCT01393132|184562708|SUPERIORITY_OR_OTHER|||||||0.0141|TWO_SIDED||||||t-test, 2 sided|||Comparison of Ocular Discomfort Index score between the placebo and Thymosin beta 4 groups||||0.0141
92328930|NCT01393132|184562709|SUPERIORITY_OR_OTHER|||||||0.0162|TWO_SIDED||||||t-test, 2 sided|||Comparison of Tear Film Break up Time between the placebo and Thymosin beta 4 groups.||||0.0162
92328931|NCT00334802|184562714|SUPERIORITY_OR_OTHER|||||||0.169||95.0||||P-value for Dose Level 1 Responders (Complete Response + Partial Response)|t-test, 2 sided|||||||0.169
92328932|NCT00334802|184562714|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Dose Level 2 Responders (Complete Response + Partial Response)|t-test, 2 sided|||||||0.001
92328933|NCT01886781|184562758|NON_INFERIORITY_OR_EQUIVALENCE|To determine an effect size of 0.64 with 80% power, a sample size of 27 for each group (D-IBS, C-IBS and controls), with a type 1 error of 5% using a two sided test was sufficient. Sample size based on expected behaviour of primary outcome measure. The minimally clinically important difference based on the primary outcome measure with the instrument used was 50 points.|||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||An intention-to -treat (ITT) analysis was performed on all patients who underwent randomization (n = 81). The results of the ITT analysis are presented. Changes in Severity Score was examined using the mixed model for analysis of variance to account for missing data. This model used group (treatment vs control) \& time as factors.||||<0.05
92328934|NCT00987402|184562760|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||generalized estimating equation|||Power calculations assumed a 2-sided alpha error of 0.05 and a power of 80%. We performed power calculations using a statistical model for a cluster-randomized trial with 8, 10 or 12 clusters including 6 operating rooms each, with different levels of reduction (10%, 30%, 50%) in surgical site infection rates in the active intervention period. By reaching a sample size of 3133 patients, the study was powered to detect a 30% reduction effect in SSI rates, from 10% to 7%.||||<0.05
92328935|NCT03000530|184562815|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001|TWO_SIDED|95.0|-10.2|-3.9|||Mixed Effect Model for Repeated Measures|The Mixed Effect Model for Repeated Measures (MMRM) included the change from baseline in HAM-D total score at each visit as the dependent variables.||||-3.9|-10.2|< 0.0001
92328936|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.99||0.0223|TWO_SIDED|95.0|-4.3|-0.3|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 2||-0.3|-4.3|0.0223
92328937|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.18||0.001|TWO_SIDED|95.0|-6.4|-1.7|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 3||-1.7|-6.4|0.0010
92328938|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|1.27||0.0233|TWO_SIDED|95.0|-5.5|-0.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 4||-0.4|-5.5|0.0233
92328939|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|1.37||0.0066|TWO_SIDED|95.0|-6.6|-1.1|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 5||-1.1|-6.6|0.0066
92328940|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.4||0.0019|TWO_SIDED|95.0|-7.3|-1.7|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 6||-1.7|-7.3|0.0019
92328941|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.53||0.0043|TWO_SIDED|95.0|-7.6|-1.5|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 7||-1.5|-7.6|0.0043
92328942|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.54||0.0318|TWO_SIDED|95.0|-6.4|-0.3|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 8||-0.3|-6.4|0.0318
92328943|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001|TWO_SIDED|95.0|-10.2|-3.9|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 15||-3.9|-10.2|< 0.0001
92328944|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|1.76||0.0064|TWO_SIDED|95.0|-8.4|-1.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 21||-1.4|-8.4|0.0064
92328945|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.77||0.0243|TWO_SIDED|95.0|-7.6|-0.5|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 28||-0.5|-7.6|0.0243
92328946|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.86||0.2285|TWO_SIDED|95.0|-6.0|1.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 35||1.4|-6.0|0.2285
92328947|NCT03000530|184562882|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.86||0.212|TWO_SIDED|95.0|-6.0|1.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 42||1.4|-6.0|0.2120
92328948|NCT03000530|184562883|SUPERIORITY||Odds Ratio (OR)|4.4||||0.0884|TWO_SIDED|95.0|0.8|24.1|||Generalized Estimating Equation|Statistics are from a generalized estimating equation (GEE) method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 2||24.1|0.8|0.0884
92328949|NCT03000530|184562883|SUPERIORITY||Odds Ratio (OR)|2.4||||0.0732|TWO_SIDED|95.0|0.9|6.4|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 8||6.4|0.9|0.0732
92328950|NCT03000530|184562883|SUPERIORITY||Odds Ratio (OR)|9.6||||0.0002|TWO_SIDED|95.0|2.9|31.6|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 15||31.6|2.9|0.0002
92328951|NCT03000530|184562883|SUPERIORITY||Odds Ratio (OR)|6.7||||0.0006|TWO_SIDED|95.0|2.3|19.7|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 21||19.7|2.3|0.0006
92328952|NCT03000530|184562883|SUPERIORITY||Odds Ratio (OR)|3.1||||0.0379|TWO_SIDED|95.0|1.1|8.9|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 28||8.9|1.1|0.0379
92328953|NCT03000530|184562883|SUPERIORITY||Odds Ratio (OR)|3.0||||0.0468|TWO_SIDED|95.0|1.0|9.0|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 35||9.0|1.0|0.0468
92328954|NCT03000530|184562883|SUPERIORITY||Odds Ratio (OR)|1.9||||0.2208|TWO_SIDED|95.0|0.7|5.6|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 42||5.6|0.7|0.2208
92328955|NCT03000530|184562884|SUPERIORITY||Odds Ratio (OR)|1.5||||0.43|TWO_SIDED|95.0|0.6|3.7|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 8||3.7|0.6|0.4300
92328956|NCT03000530|184562884|SUPERIORITY||Odds Ratio (OR)|5.3||||0.0005|TWO_SIDED|95.0|2.1|13.3|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 15||13.3|2.1|0.0005
92328957|NCT03000530|184562884|SUPERIORITY||Odds Ratio (OR)|3.1||||0.0172|TWO_SIDED|95.0|1.2|8.0|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 21||8.0|1.2|0.0172
92328958|NCT03000530|184562884|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0221|TWO_SIDED|95.0|1.2|7.3|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 28||7.3|1.2|0.0221
92328959|NCT03000530|184562884|SUPERIORITY||Odds Ratio (OR)|1.4||||0.4139|TWO_SIDED|95.0|0.6|3.5|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 35||3.5|0.6|0.4139
92328960|NCT03000530|184562884|SUPERIORITY||Odds Ratio (OR)|1.7||||0.2332|TWO_SIDED|95.0|0.7|4.3|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 42||4.3|0.7|0.2332
92328961|NCT03000530|184562885|SUPERIORITY||Least Squares Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.38||0.0836|TWO_SIDED|95.0|-5.1|0.3|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 2||0.3|-5.1|0.0836
92328962|NCT03000530|184562885|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|2.32||0.0864|TWO_SIDED|95.0|-8.6|0.6|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 8||0.6|-8.6|0.0864
92328963|NCT03000530|184562885|SUPERIORITY||Least Squares Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|2.38||0.0021|TWO_SIDED|95.0|-12.3|-2.8|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 15||-2.8|-12.3|0.0021
92328964|NCT03000530|184562885|SUPERIORITY||Least Squares Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|2.69||0.0157|TWO_SIDED|95.0|-12.0|-1.3|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 21||-1.3|-12.0|0.0157
92328965|NCT03000530|184562885|SUPERIORITY||Least Squares Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|2.69||0.0533|TWO_SIDED|95.0|-10.6|0.1|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 28||0.1|-10.6|0.0533
92328966|NCT03000530|184562885|SUPERIORITY||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|2.87||0.2878|TWO_SIDED|95.0|-8.8|2.6|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 35||2.6|-8.8|0.2878
92328967|NCT03000530|184562885|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.7||0.4664|TWO_SIDED|95.0|-7.4|3.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 42||3.4|-7.4|0.4664
92328968|NCT03000530|184562888|SUPERIORITY||Least Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.87||0.0391|TWO_SIDED|95.0|-3.6|-0.1|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 2||-0.1|-3.6|0.0391
92328969|NCT03000530|184562888|SUPERIORITY||Least Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.29||0.0516|TWO_SIDED|95.0|-5.1|0.0|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 8||0.0|-5.1|0.0516
92328970|NCT03000530|184562888|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|1.32||0.0008|TWO_SIDED|95.0|-7.3|-2.0|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 15||-2.0|-7.3|0.0008
92328971|NCT03000530|184562888|SUPERIORITY||Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.54||0.0282|TWO_SIDED|95.0|-6.5|-0.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 21||-0.4|-6.5|0.0282
92328972|NCT03000530|184562888|SUPERIORITY||Least Squares Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|1.56||0.1686|TWO_SIDED|95.0|-5.3|0.9|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 28||0.9|-5.3|0.1686
92328973|NCT03000530|184562888|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.75||0.2488|TWO_SIDED|95.0|-5.5|1.5|||Mixed Effect Model for Repeated Measures|||Day 35||1.5|-5.5|0.2488
92328974|NCT03000530|184562888|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.76||0.2037|TWO_SIDED|95.0|-5.7|1.2|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 42||1.2|-5.7|0.2037
92328975|NCT03000530|184562889|SUPERIORITY||Odds Ratio (OR)|5.5||||0.0048|TWO_SIDED|95.0|1.7|17.9|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 8||17.9|1.7|0.0048
92328976|NCT03000530|184562889|SUPERIORITY||Odds Ratio (OR)|8.6||||0.0007|TWO_SIDED|95.0|2.5|29.5|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 15||29.5|2.5|0.0007
92328977|NCT03000530|184562889|SUPERIORITY||Odds Ratio (OR)|4.4||||0.0113|TWO_SIDED|95.0|1.4|13.6|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 21||13.6|1.4|0.0113
92328978|NCT03000530|184562889|SUPERIORITY||Odds Ratio (OR)|3.9||||0.0227|TWO_SIDED|95.0|1.2|12.8|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 28||12.8|1.2|0.0227
92328979|NCT03000530|184562889|SUPERIORITY||Odds Ratio (OR)|2.3||||0.1516|TWO_SIDED|95.0|0.7|7.2|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 35||7.2|0.7|0.1516
92328980|NCT03000530|184562889|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0793|TWO_SIDED|95.0|0.9|8.3|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 42||8.3|0.9|0.0793
92328981|NCT01430624|184562897|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|||||6 month follow-up comparison|ANOVA|df 2, 109||||||.24
92328982|NCT01430624|184562898|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED|||||6 month follow-up comparison|ANOVA|df = 2, 111||||||.89
92328983|NCT01430624|184562899|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||6 week comparison|ANOVA|df = 2, 150||||||.01
92328984|NCT01430624|184562899|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||3 month comparison|ANOVA|||||||.48
92328985|NCT01430624|184562899|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|||||6 month comparison|ANOVA|||||||.17
92328986|NCT01430624|184562900|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED|||||6 week comparison|Chi-squared|df = 2, 154||||||.37
92328987|NCT01430624|184562900|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|||||3 month comparison|Chi-squared|df = 2, 135||||||.15
92328988|NCT01430624|184562900|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED|||||6 month comparison|Chi-squared|df = 2, 121||||||.87
92328989|NCT01430624|184562901|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED|||||6 week comparison|ANOVA|df = 2, 150||||||.63
92328990|NCT01430624|184562901|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED|||||3 month comparison|ANOVA|df = 2, 132||||||.25
92328991|NCT01430624|184562901|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|||||6 month comparison|ANOVA|df = 2, 118||||||.59
92328992|NCT01430624|184562902|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|||||6 week comparison|ANOVA|df = 2, 151||||||.83
92328993|NCT01430624|184562902|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED|||||3 month comparison|ANOVA|df = 2, 132||||||.29
92328994|NCT01430624|184562902|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED|||||6 month comparison|ANOVA|df = 2, 118||||||.13
92328995|NCT01430624|184562903|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||6 week comparison|ANOVA|df = 2, 151||||||.012
92328996|NCT01430624|184562903|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED|||||3 month comparison|ANOVA|df = 2, 132||||||.31
92328997|NCT01430624|184562903|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED|||||6 month comparison|ANOVA|df = 2,116||||||.35
92328998|NCT01430624|184562904|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|||||6 week comparison|ANOVA|df = 2, 141||||||.15
92328999|NCT01430624|184562904|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||3 month comparison|ANOVA|df = 2, 127||||||.67
92329000|NCT01430624|184562904|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED|||||6 month comparison|ANOVA|df = 2, 110||||||.40
92329001|NCT01672294|184562920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5376|||<|0.511|TWO_SIDED|95.0|-1.0776|2.1528||Between Outlook Intervention and Attention Control caregivers at 5 weeks|Mixed Models Analysis|||Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||2.1528|-1.0776|<0.511
92329002|NCT01672294|184562920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4275||||0.6348|TWO_SIDED|95.0|-1.3505|2.2055||Between Outlook Intervention and Attention Control caregivers at 8 weeks|Mixed Models Analysis|||Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||2.2055|-1.3505|0.6348
92329003|NCT01672294|184562921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6836||||0.5225|TWO_SIDED|95.0|-1.4278|2.795|||Mixed Models Analysis|||Comparison at 5 weeks Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||2.7950|-1.4278|0.5225
92329004|NCT01672294|184562921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2764||||0.1972|TWO_SIDED|95.0|-0.6728|3.2257|||Mixed Models Analysis|||Comparison at 8 weeks. Note-missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||3.2257|-0.6728|0.1972
92329005|NCT01672294|184562922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9358|||<|0.3332|TWO_SIDED|95.0|-0.9726|2.8443|||Mixed Models Analysis|||Between Outlook Intervention caregivers and active control caregivers at 5 weeks Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||2.8443|-0.9726|<0.3332
92329006|NCT01672294|184562922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6929||||0.3842|TWO_SIDED|95.0|-0.8783|2.2642||Note-missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks|Mixed Models Analysis|||Between Outlook Intervention caregivers and active control caregivers at 8 weeks Note - Missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks||2.2642|-0.8783|0.3842
92329007|NCT01672294|184562923|SUPERIORITY_OR_OTHER||expected change in difference in logs|0.0593||||0.8748|TWO_SIDED|95.0|-0.6784|0.797|||Standard negative binomial with offset||The expected change in the difference of the logs of expected Days in VA inpatient care or ED.|||0.797|-0.6784|0.8748
92329008|NCT01672294|184562924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01777||||0.7687|TWO_SIDED|95.0|-0.1372|0.1017||Between Caregiver Outlook - Caregiver and Relaxation Meditation - Caregiver at 5 weeks|Mixed Models Analysis|||"Between Outlook Intervention caregivers and active control caregivers at 5 weeks.~Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks."||0.1017|-0.1372|0.7687
92329009|NCT01672294|184562924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.00087||||0.9863|TWO_SIDED|95.0|-0.1003|0.09861||Between Caregiver Outlook - Caregiver and Relaxation Meditation - Caregiver at 8 weeks|Mixed Models Analysis|||Between Outlook Intervention caregivers and active control caregivers at 8 weeks Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||0.09861|-0.1003|0.9863
92329010|NCT01672294|184562925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01166||||0.9221|TWO_SIDED|95.0|-0.2475|0.2241|||Mixed Models Analysis|||At 5 weeks - Completion subscale||0.2241|-0.2475|0.9221
92329011|NCT01672294|184562925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1154||||0.3249|TWO_SIDED|95.0|-0.3466|0.1158||Between Caregiver Outlook - Caregiver and Relaxation Meditation - Caregiver at 8 weeks|Mixed Models Analysis|||Comparison at 8 week time point Note- Missing first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 week.||0.1158|-0.3466|0.3249
92329012|NCT03379792|184562928|OTHER|||||||0.24|||||||t-test, 2 sided|||||||0.24
92329013|NCT03379792|184562928|OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.22
92329014|NCT03379792|184562928|OTHER|||||||1|||||||t-test, 2 sided|||||||1.0
92329015|NCT00306787|184562929|NON_INFERIORITY_OR_EQUIVALENCE|The estimated power for non-inferiority test (90%) was based on the non-inferiority margin of 1.0 day.|Median Difference (Final Values)|0.16|||||TWO_SIDED|95.0|-0.15|0.6|||Hodges-Lehman|||Difference in time to healing= time to healing for famciclovir- time to healing for valacyclovir.||0.60|-0.15|
92329016|NCT00336323|184562935|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness at the 3 week visit between the laser only treatment group to the 1.25 mg injection at baseline and at 6 weeks treatment group||||0.009
92329017|NCT00336323|184562935|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness at the 3 week visit between the laser only treatment group to the 2.5mg injection at baseline and 6 weeks treatment group||||<0.001
92329018|NCT00336323|184562935|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||Adjusted for baseline values|Least squares regression|||Comparison of the reduction in central subfield thickening in the 1.25mg injection at baseline and at 6 weeks treatment group with the 2.5mg injection at baseline and 6 weeks treatment group at the 3 week visit||||0.66
92329019|NCT00336323|184562935|SUPERIORITY_OR_OTHER|||||||0.49||95.0||||Adjusted for baseline values|Least squares regression|||Comparison of the reduction in central subfield thickening in the 1.25mg injection at baseline and at 6 weeks treatment group with the 2.5mg injection at baseline and 6 weeks treatment group at the 6 week visit||||0.49
92329020|NCT00336323|184562935|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||Adjusted for baseline values|Least squares regression|||Comparison of the reduction in central subfield thickening in the 1.25mg injection at baseline and at 6 weeks treatment group with the 2.5mg injection at baseline and 6 weeks treatment group at the 9 week visit||||0.45
92329021|NCT00336323|184562935|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of the reduction in central subfield thickening in the 1.25mg injection at baseline and at 6 weeks treatment group with the 2.5mg injection at baseline and 6 weeks treatment group at the 12 week visit||||0.90
92329022|NCT00336323|184562936|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of improvement in visual acuity between the 1.25mg injection at baseline and at 6 weeks treatment group and the 2.5mg injection at baseline and 6 weeks treatment group at the 3 week visit||||0.42
92329023|NCT00336323|184562936|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of improvement in visual acuity between the 1.25mg injection at baseline and at 6 weeks treatment group and the 2.5mg injection at baseline and 6 weeks treatment group at the 6 week visit||||0.67
92329024|NCT00336323|184562936|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of improvement in visual acuity between the 1.25mg injection at baseline and at 6 weeks treatment group and the 2.5mg injection at baseline and 6 weeks treatment group at the 9 week visit||||0.48
92329025|NCT00336323|184562936|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||Least squares regression|||Comparison of improvement in visual acuity between the 1.25mg injection at baseline and at 6 weeks treatment group and the 2.5mg injection at baseline and 6 weeks treatment group at the 12 week visit||||0.82
92329026|NCT00336323|184562936|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of improvement in visual acuity through the 12 week visit between the laser only treatment group and the 1.25mg injection at baseline and at 6 weeks treatment group||||0.01
92329027|NCT00336323|184562936|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of improvement in visual acuity through the 12 week visit between the laser only treatment group and the 2.5mg injection at baseline and at 6 weeks treatment group||||0.003
92329028|NCT00336323|184562939|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had baseline central subfield thickness of \<400 microns compared to those that had baseline central subfield thickness of ≥400 microns. Eyes included all of those from the pooled Bevacizumab group.||||<0.0001
92329029|NCT00336323|184562940|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Least squares regression|Adjusted for baseline score||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had baseline visual acuity letter score that was \<65 letters compared to those that had baseline visual acuity letter score that was ≥65 letters. Eyes included all of those from the pooled Bevacizumab group.||||0.31
92329030|NCT00336323|184562941|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||Least squares regression|||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between those that were ≤66 years old compared to those that were \>66 years old at baseline. Eyes included all of those from the pooled Bevacizumab group.||||0.44
92329031|NCT00336323|184562942|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Least squares regression|||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between females and males. Eyes included all of those from the pooled Bevacizumab group.||||0.55
92329032|NCT00336323|184562943|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had no history of treatment for diabetic macular edema compared to those that had history or treatment for diabetic macular edema. Eyes included all of those from the pooled Bevacizumab group.||||0.16
92329033|NCT00336323|184562944|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Least squares regression|||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had baseline retinopathy severity that was \<severe nonproliferative diabetic retinopathy (NPDR) compared to those that had baseline retinopathy severity that was proliferative diabetic retinopathy or severe NPDR. Eyes included all of those from the pooled Bevacizumab group.||||0.53
92329034|NCT00336323|184562945|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had baseline clinical diabetic macular edema characterized as typical/predominantly focal, neither predominantly focal or diffuse, or typical/predominantly diffuse. Eyes included all of those from the pooled Bevacizumab group.||||0.93
92329035|NCT00336323|184562946|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had baseline subretinal fluid that was definite/questionable compared to eyes that had no evidence of subretinal fluid at baseline. Eyes included all of those from the pooled Bevacizumab group.||||0.52
92329036|NCT00336323|184562947|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that had baseline central subfield thickness of \<400 microns compared to eyes that had baseline central subfield thickness of ≥400 microns. Eyes included all of those from the pooled Bevacizumab group.||||0.22
92329037|NCT00336323|184562948|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that had a baseline visual acuity letter score of \<65 letters compared to eyes that had baseline visual acuity letter score of ≥65 letters. Eyes included all of those from the pooled Bevacizumab group.||||0.006
92329038|NCT00336323|184562949|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that were ≤66 years old at baseline compared to eyes that were \>66 years old at baseline. Eyes included all of those from the pooled Bevacizumab group.||||0.23
92329039|NCT00336323|184562950|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between females and males. Eyes included all of those from the pooled Bevacizumab group.||||0.37
92329040|NCT00336323|184562951|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that did not have a prior history of treatment for diabetic macular edema compared to eyes that did have a prior history of treatment for diabetic macular edema. Eyes included all of those from the pooled Bevacizumab group.||||0.04
92329041|NCT00336323|184562952|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that had a baseline retinopathy severity of \<severe nonproliferative diabetic retinopathy (NPDR) compared to eyes that had baseline retinopathy severity of proliferative diabetic retinopathy or severe NPDR. Eyes included all of those from the pooled Bevacizumab group.||||0.38
92329042|NCT00336323|184562953|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that had a baseline clinical diabetic macular edema (DME) characterization of typical/predominantly focal compared to neither predominantly focal or diffuse characterization at baseline and compared to typical/predominantly diffuse characterization at baseline. Eyes included all of those from the pooled Bevacizumab group.||||0.45
92329043|NCT00336323|184562954|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that had a baseline subretinal fluid presence that was definite/questionable compared to eyes that there was no evidence of subretinal fluid at baseline. Eyes included all of those from the pooled Bevacizumab group.||||0.06
92329044|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3375||||||P-value is for Physical Well-Being Cycle 1.|ANCOVA|P-value of treatment effect from an Analysis of Covariance (ANCOVA) for change from baseline. Covariates include: treatment and baseline value.||||||0.3375
92329045|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.516||||||P-value is for Physical Well-Being Cycle 2.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.516
92329046|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.786||||||P-value is for Physical Well-Being Cycle 3.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.786
92329047|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1496||||||P-value is for Physical Well-Being Cycle 4.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.1496
92329048|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8428||||||P-value is for Physical Well-Being Cycle 5.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8428
92329049|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7345||||||P-value is for Physical Well-Being Cycle 6.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7345
92329050|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8928||||||P-value is for Physical Well-Being Cycle 7.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8928
92329051|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7343||||||P-value is for Physical Well-Being Cycle 8.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7343
92329052|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8798||||||P-value is for Social/Family Well-Being Cycle 1.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8798
92329053|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6837||||||P-value is for Social/Family Well-Being Cycle 2.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.6837
92329054|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7226||||||P-value is for Social/Family Well-Being Cycle 3.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7226
92329055|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.641||||||P-value is for Social/Family Well-Being Cycle 4.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.641
92329056|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.478||||||P-value is for Social/Family Well-Being Cycle 5.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.478
92329057|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9367||||||P-value is for Social/Family Well-Being Cycle 6.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.9367
92329058|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5108||||||P-value is for Social/Family Well-Being Cycle 7.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.5108
92329059|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8976||||||P-value is for Social/Family Well-Being Cycle 8.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8976
92329060|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8193||||||P-value is for Emotional Well-Being Cycle 1.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8193
92329061|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1695||||||P-value is for Emotional Well-Being Cycle 2.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.1695
92329062|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4021||||||P-value is for Emotional Well-Being Cycle 3.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.4021
92329063|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3603||||||P-value is for Emotional Well-Being Cycle 4.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.3603
92329064|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5169||||||P-value is for Emotional Well-Being Cycle 5.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.5169
92329065|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1642||||||P-value is for Emotional Well-Being Cycle 6.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.1642
92329066|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6354||||||P-value is for Emotional Well-Being Cycle 7.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.6354
92329067|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3517||||||P-value is for Emotional Well-Being Cycle 8.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.3517
92329068|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7605||||||P-value is for Functional Well-Being Cycle 1.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7605
92329069|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3747||||||P-value is for Functional Well-Being Cycle 2.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.3747
92329070|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8379||||||P-value is for Functional Well-Being Cycle 3.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8379
92329071|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1179||||||P-value is for Functional Well-Being Cycle 4.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.1179
92329072|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7412||||||P-value is for Functional Well-Being Cycle 5.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7412
92329073|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3773||||||P-value is for Functional Well-Being Cycle 6.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.3773
92329074|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7402||||||P-value is for Functional Well-Being Cycle 7.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7402
92329075|NCT00586508|184563005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2671||||||P-value is for Functional Well-Being Cycle 8.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.2671
92329076|NCT03301740|184563016|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.2||||0.5|TWO_SIDED|95.0|0.8|1.7||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in intradialytic hypotension between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||1.7|0.8|0.5
92329077|NCT03301740|184563017|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Beta coefficient|-2.8||||0.2|TWO_SIDED|95.0|-6.9|1.4||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in troponin T change between UF profiling and conventional HD. Repeated measure linear regression was performed, giving each subject a random intercept term. The coefficient is the difference in the outcome between UF profiling and conventional HD.||1.4|-6.9|0.2
92329078|NCT03301740|184563018|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.5||||0.1|TWO_SIDED|95.0|0.2|1.3||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in troponin T rise between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||1.3|0.2|0.1
92329079|NCT03301740|184563019|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Mean Difference (Final Values)|-0.8||||0.2|TWO_SIDED|95.0|-2.0|0.5||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in left ventricular GLS change between UF profiling and conventional HD. Wilcoxon (Mann-Whitney) tests were performed assessing the difference of the endpoint between the 2 treatment groups.||0.5|-2.0|0.2
92329080|NCT03301740|184563020|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Beta coefficient|-0.2||||0.9|TWO_SIDED|95.0|-2.0|1.7||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in nadir systolic BP between UF profiling and conventional HD. Repeated measure linear regression was performed, giving each subject a random intercept term. The coefficient is the difference in the outcome between UF profiling and conventional HD.||1.7|-2.0|0.9
92329081|NCT03301740|184563021|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.0||||0.8|TWO_SIDED|95.0|0.7|1.3||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in failed target weight achievement between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||1.3|0.7|0.8
92329082|NCT03301740|184563022|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.0||||0.9|TWO_SIDED|95.0|0.4|2.1||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important cramping between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||2.1|0.4|0.9
92329083|NCT03301740|184563023|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.7||||0.5|TWO_SIDED|95.0|0.2|2.2||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important nausea/upset stomach between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||2.2|0.2|0.5
92329084|NCT03301740|184563024|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.1|16.0|||Mixed Models Analysis|||Null hypothesis = no difference in clinically important Vomiting/throwing up score between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||16.0|0.1|1.0
92329085|NCT03301740|184563025|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.2||||0.04|TWO_SIDED|95.0|0.1|0.9||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important dizziness/lightheadedness between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||0.9|0.1|0.04
92329086|NCT03301740|184563026|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|3.1||||0.3|TWO_SIDED|95.0|0.3|32.4||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important racing heart/heart palpitations between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||32.4|0.3|0.3
92329087|NCT03301740|184563027|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.2|6.0||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important chest pain between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||6.0|0.2|1.0
92329088|NCT03301740|184563028|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.3||||0.7|TWO_SIDED|95.0|0.3|6.5||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important shortness of breath between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||6.5|0.3|0.7
92329089|NCT03301740|184563029|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.6||||0.2|TWO_SIDED|95.0|0.3|1.2||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important thirst/dry mouth between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||1.2|0.3|0.2
92329090|NCT03301740|184563030|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.9||||0.8|TWO_SIDED|95.0|0.4|2.3||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important headache between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||2.3|0.4|0.8
92329091|NCT03301740|184563031|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|2.8||||0.02|TWO_SIDED|95.0|1.2|6.6||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important itching between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||6.6|1.2|0.02
92329092|NCT03301740|184563032|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.2||||0.7|TWO_SIDED|95.0|0.5|2.6||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important restless legs/difficulty keeping legs still between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||2.6|0.5|0.7
92329093|NCT03301740|184563033|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.6||||0.5|TWO_SIDED|95.0|0.2|2.4||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important tingling/feeling of pins and needles between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||2.4|0.2|0.5
92329094|NCT03191864|184563053|SUPERIORITY|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
92329095|NCT03191864|184563053|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92329096|NCT03191864|184563053|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92329097|NCT03191864|184563053|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
92329098|NCT03191864|184563055|OTHER||Mean Difference (Final Values)|-1.28||||0.02|TWO_SIDED|90.0|-2.29|-0.26|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparisons of each APT-1011 dose group to Placebo at Week 12 are from an ANCOVA model||-0.26|-2.29|0.020
92329099|NCT03191864|184563055|OTHER||Mean Difference (Final Values)|-2.08|||<|0.001|TWO_SIDED|90.0|-3.07|-1.1|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparisons of each APT-1011 dose group to Placebo at Week 12 are from an ANCOVA model||-1.10|-3.07|<0.001
92329100|NCT03191864|184563055|OTHER||Mean Difference (Final Values)|-2.25|||<|0.001|TWO_SIDED|90.0|-3.23|-1.26|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparisons of each APT-1011 dose group to Placebo at Week 12 are from an ANCOVA model||-1.26|-3.23|<0.001
92329101|NCT03191864|184563055|OTHER||Mean Difference (Final Values)|-1.59||||0.005|TWO_SIDED|90.0|-2.59|-0.59|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparisons of each APT-1011 dose group to Placebo at Week 12 are from an ANCOVA model||-0.59|-2.59|0.005
92329102|NCT03191864|184563057|OTHER||Mean Difference (Final Values)|-1.19||||0.067|TWO_SIDED|90.0|-2.49|0.12|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparison of each APT-1011 dose group to placebo at Week 12 are from an ANCOVA model.||0.12|-2.49|0.067
92329103|NCT03191864|184563057|OTHER||Mean Difference (Final Values)|0.34||||0.672|TWO_SIDED|90.0|-0.91|1.59|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparison of each APT-1011 dose group to placebo at Week 12 are from an ANCOVA model.||1.59|-0.91|0.672
92329104|NCT03191864|184563057|OTHER||Mean Difference (Final Values)|-1.28||||0.048|TWO_SIDED|90.0|-2.55|-0.01|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparison of each APT-1011 dose group to placebo at Week 12 are from an ANCOVA model.||-0.01|-2.55|0.048
92329105|NCT03191864|184563057|OTHER||Mean Difference (Final Values)|0.31||||0.653|TWO_SIDED|90.0|-0.98|1.59|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparison of each APT-1011 dose group to placebo at Week 12 are from an ANCOVA model.||1.59|-0.98|0.653
92329106|NCT03191864|184563059|SUPERIORITY||Mean Difference (Final Values)|-8.81||||0.079|TWO_SIDED|90.0|-19.06|1.45|||ANCOVA|||EEsAI Total Score Change from Baseline Week 12||1.45|-19.06|0.079
92329107|NCT03191864|184563059|SUPERIORITY||Mean Difference (Final Values)|-5.18||||0.195|TWO_SIDED|90.0|-15.14|4.78|||ANCOVA|||EEsAI Total Score Change from Baseline Week 12||4.78|-15.14|0.195
92329108|NCT03191864|184563059|SUPERIORITY||Mean Difference (Final Values)|-12.56||||0.02|TWO_SIDED|90.0|-22.55|-2.58|||ANCOVA|||EEsAI Total Score Change from Baseline Week 12||-2.58|-22.55|0.020
92329109|NCT03191864|184563059|SUPERIORITY||Mean Difference (Final Values)|-10.61||||0.043|TWO_SIDED|90.0|-20.74|-0.48|||ANCOVA|||EEsAI Total Score Change from Baseline Week 12||-0.48|-20.74|0.043
92329110|NCT03191864|184563060|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.459|TWO_SIDED|90.0|-3.49|3.08|||ANCOVA|||VDQ Score Change from Baseline Week 12||3.08|-3.49|0.459
92329111|NCT03191864|184563060|SUPERIORITY||Mean Difference (Final Values)|0.58||||0.617|TWO_SIDED|90.0|-2.65|3.8|||ANCOVA|||VDQ Score Change from Baseline Week 12||3.80|-2.65|0.617
92329112|NCT03191864|184563060|SUPERIORITY||Mean Difference (Final Values)|-1.87||||0.167|TWO_SIDED|90.0|-5.07|1.33|||ANCOVA|||VDQ Score Change from Baseline Week 12||1.33|-5.07|0.167
92329113|NCT03191864|184563060|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.373|TWO_SIDED|90.0|-3.88|2.61|||ANCOVA|||VDQ Score Change from Baseline Week 12||2.61|-3.88|0.373
92329114|NCT03191864|184563060|SUPERIORITY||Mean Difference (Final Values)|-1.66||||0.203|TWO_SIDED|90.0|-4.96|1.64|||ANCOVA|||AMS Score Change from Baseline Week 12||1.64|-4.96|0.203
92329115|NCT03191864|184563060|SUPERIORITY||Mean Difference (Final Values)|-4.33||||0.014|TWO_SIDED|90.0|-7.54|-1.13|||ANCOVA|||AMS Score Change from Baseline Week 12||-1.13|-7.54|0.014
92329116|NCT03191864|184563060|SUPERIORITY||Mean Difference (Final Values)|-3.02||||0.061|TWO_SIDED|90.0|-6.23|0.2|||ANCOVA|||AMS Score Change from Baseline Week 12||0.20|-6.23|0.061
92329117|NCT03191864|184563060|SUPERIORITY||Mean Difference (Final Values)|-2.57||||0.097|TWO_SIDED|90.0|-5.83|0.69|||ANCOVA|||AMS Score Change from Baseline Week 12||0.69|-5.83|0.097
92329118|NCT02086682|184563074|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
92329119|NCT02044874|184563075|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.02||||0.0027|TWO_SIDED|95.0|1.47|6.22|||Regression, Logistic|||||6.22|1.47|0.0027
92329120|NCT02044874|184563075|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.2427|TWO_SIDED|95.0|0.73|3.51|||Regression, Logistic|||||3.51|0.73|0.2427
92329121|NCT02044874|184563075|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89||||0.0477|TWO_SIDED|95.0|1.01|3.56|||Regression, Logistic|||||3.56|1.01|0.0477
92329122|NCT02044874|184563076|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84||||0.0784|TWO_SIDED|95.0|0.89|9.08|||Regression, Logistic|||||9.08|0.89|0.0784
92329123|NCT02044874|184563076|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78||||0.365|TWO_SIDED|95.0|0.51|6.17|||Regression, Logistic|||||6.17|0.51|0.3650
92329124|NCT02044874|184563076|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.3438|TWO_SIDED|95.0|0.61|4.21|||Regression, Logistic|||||4.21|0.61|0.3438
92329125|NCT02044874|184563077|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||0.0379|TWO_SIDED|95.0|1.04|3.55|||Regression, Logistic|||||3.55|1.04|0.0379
92329126|NCT02044874|184563077|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.8628|TWO_SIDED|95.0|0.54|2.09|||Regression, Logistic|||||2.09|0.54|0.8628
92329127|NCT02044874|184563077|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.0556|TWO_SIDED|95.0|0.99|3.31|||Regression, Logistic|||||3.31|0.99|0.0556
92329128|NCT02044874|184563078|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||0.0219|TWO_SIDED|95.0|1.1|3.35|||Regression, Logistic|||||3.35|1.10|0.0219
92329129|NCT02044874|184563078|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.545|TWO_SIDED|95.0|0.66|2.18|||Regression, Logistic|||||2.18|0.66|0.5450
92329130|NCT02044874|184563078|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.0868|TWO_SIDED|95.0|0.93|2.72|||Regression, Logistic|||||2.72|0.93|0.0868
92329131|NCT02044874|184563079|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.97||||0.0004|TWO_SIDED|95.0|-1.51|-0.43|||Mixed-effects repeated measures|||||-0.43|-1.51|0.0004
92329132|NCT02044874|184563079|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.34||||0.2268|TWO_SIDED|95.0|-0.89|0.21|||mixed effects repeated measures|||||0.21|-0.89|0.2268
92329133|NCT02044874|184563079|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.63||||0.0217|TWO_SIDED|95.0|-1.17|-0.09|||mixed effects repeated measures|||||-0.09|-1.17|0.0217
92329134|NCT00415597|184563081|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Null hypothesis: Percent change from baseline = 0||||<0.0001
92329135|NCT00415597|184563082|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Null hypothesis: Percent change from baseline = 0||||<0.0001
92329136|NCT03976323|184563083|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.8721|TWO_SIDED|95.0|0.92|1.36||One-sided p-value based on log-rank test stratified by Eastern Cooperative Oncology Group (ECOG) at pre-randomization visit, response at randomization and baseline PD-L1 status.|Log Rank||Based on Cox regression model with Efron's method of tie handling and with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|||1.36|0.92|0.8721
92329137|NCT03976323|184563084|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.6649|TWO_SIDED|95.0|0.87|1.25||One-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|Log Rank||Based on Cox regression model with Efron's method of tie handling and with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|||1.25|0.87|0.6649
92329138|NCT03976323|184563087|SUPERIORITY||Difference in Least Squares (LS) Means|-1.9||||0.2533|TWO_SIDED|95.0|-5.16|1.36||Two-sided p-value based on t test.|t-test, 2 sided||Based on constrained longitudinal data analysis model (cLDA) model with PRO scores as response variable with covariates for treatment by time interaction, stratification factors, response at randomization and baseline PD-L1 expression as covariates.|||1.36|-5.16|0.2533
92329139|NCT03976323|184563088|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8125|TWO_SIDED|95.0|0.76|1.24||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.24|0.76|0.8125
92329140|NCT03976323|184563089|SUPERIORITY||Difference in LS Means|-0.16||||0.9364|TWO_SIDED|95.0|-4.02|3.71||Two-sided p-value based on t test.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||3.71|-4.02|0.9364
92329141|NCT03976323|184563090|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.3782|TWO_SIDED|95.0|0.66|1.17||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.17|0.66|0.3782
92329142|NCT03976323|184563091|SUPERIORITY||Difference in LS Means|-0.35||||0.8285|TWO_SIDED|95.0|-3.54|2.83||Two-sided p-value based on t test.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||2.83|-3.54|0.8285
92329143|NCT03976323|184563092|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.6272|TWO_SIDED|95.0|0.78|1.51||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.51|0.78|0.6272
92329144|NCT03976323|184563093|SUPERIORITY||Difference in LS Means|-1.51||||0.4422|TWO_SIDED|95.0|-5.38|2.35||Two-sided p-value based on t test.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||2.35|-5.38|0.4422
92329145|NCT03976323|184563094|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9156|TWO_SIDED|95.0|0.74|1.31||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.31|0.74|0.9156
92329146|NCT03976323|184563095|SUPERIORITY||Difference in LS Means|-0.01||||0.9962|TWO_SIDED|95.0|-2.94|2.93||Two-sided p-value based on t test.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||2.93|-2.94|0.9962
92329147|NCT03976323|184563096|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.5517|TWO_SIDED|95.0|0.83|1.4||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.40|0.83|0.5517
92329148|NCT02913105|184563098|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (Body Mass Index (BMI) group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.97||||0.7489|TWO_SIDED|90.0|0.83|1.13|||ANCOVA|An unstructured variance-covariance structure was used.||||1.13|0.83|0.7489
92329149|NCT02913105|184563098|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.72||||0.0005|TWO_SIDED|90.0|0.62|0.84|||ANCOVA|An unstructured variance-covariance structure was used.||||0.84|0.62|0.0005
92329150|NCT02913105|184563098|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.74||||0.0005|TWO_SIDED|90.0|0.65|0.85|||ANCOVA|An unstructured variance-covariance structure was used.||||0.85|0.65|0.0005
92329151|NCT02913105|184563103|OTHER|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|0.95||||0.5354|TWO_SIDED|90.0|0.83|1.09|||ANCOVA|||||1.09|0.83|0.5354
92329152|NCT02913105|184563103|SUPERIORITY|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|0.68|||<|0.0001|TWO_SIDED|90.0|0.59|0.78|||ANCOVA|||||0.78|0.59|<.0001
92329153|NCT02913105|184563103|SUPERIORITY|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|0.71|||<|0.0001|TWO_SIDED|90.0|0.63|0.8|||ANCOVA|||||0.80|0.63|<.0001
92329154|NCT02913105|184563104|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.079|STANDARD_ERROR_OF_MEAN|0.389||0.8402|TWO_SIDED|90.0|-0.724|0.567|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.567|-0.724|0.8402
92329155|NCT02913105|184563104|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.144|STANDARD_ERROR_OF_MEAN|0.472||0.7607|TWO_SIDED|90.0|-0.927|0.639|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||0.639|-0.927|0.7607
92329156|NCT02913105|184563104|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.228|STANDARD_ERROR_OF_MEAN|0.487||0.6406|TWO_SIDED|90.0|-1.037|0.581|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||0.581|-1.037|0.6406
92329157|NCT02913105|184563104|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.158|STANDARD_ERROR_OF_MEAN|0.685||0.8185|TWO_SIDED|90.0|-1.294|0.979|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||0.979|-1.294|0.8185
92329158|NCT02913105|184563104|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.214|STANDARD_ERROR_OF_MEAN|0.766||0.7804|TWO_SIDED|90.0|-1.485|1.057|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||1.057|-1.485|0.7804
92329159|NCT02913105|184563104|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.598|STANDARD_ERROR_OF_MEAN|0.402||0.1403|TWO_SIDED|90.0|-1.265|0.07|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.070|-1.265|0.1403
92329160|NCT02913105|184563104|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.49||0.0603|TWO_SIDED|90.0|-1.743|-0.117|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||-0.117|-1.743|0.0603
92329161|NCT02913105|184563104|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-1.344|STANDARD_ERROR_OF_MEAN|0.505||0.009|TWO_SIDED|90.0|-2.182|-0.506|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||-0.506|-2.182|0.0090
92329162|NCT02913105|184563104|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-1.787|STANDARD_ERROR_OF_MEAN|0.71||0.0134|TWO_SIDED|90.0|-2.965|-0.609|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||-0.609|-2.965|0.0134
92329163|NCT02913105|184563104|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-2.123|STANDARD_ERROR_OF_MEAN|0.793||0.0087|TWO_SIDED|90.0|-3.439|-0.807|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||-0.807|-3.439|0.0087
92329164|NCT02913105|184563104|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.519|STANDARD_ERROR_OF_MEAN|0.368||0.1609|TWO_SIDED|90.0|-1.13|0.091|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.091|-1.130|0.1609
92329165|NCT02913105|184563104|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.786|STANDARD_ERROR_OF_MEAN|0.444||0.0797|TWO_SIDED|90.0|-1.524|-0.049|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||-0.049|-1.524|0.0797
92329166|NCT02913105|184563104|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-1.116|STANDARD_ERROR_OF_MEAN|0.455||0.0159|TWO_SIDED|90.0|-1.872|-0.36|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||-0.360|-1.872|0.0159
92329167|NCT02913105|184563104|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-1.63|STANDARD_ERROR_OF_MEAN|0.635||0.0118|TWO_SIDED|90.0|-2.684|-0.575|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||-0.575|-2.684|0.0118
92329168|NCT02913105|184563104|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-1.909|STANDARD_ERROR_OF_MEAN|0.7||0.0076|TWO_SIDED|90.0|-3.072|-0.746|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||-0.746|-3.072|0.0076
92329169|NCT02913105|184563105|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.137||0.8127|TWO_SIDED|90.0|-0.26|0.195|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.195|-0.260|0.8127
92329170|NCT02913105|184563105|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.166||0.8901|TWO_SIDED|90.0|-0.298|0.252|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||0.252|-0.298|0.8901
92329171|NCT02913105|184563105|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.088|STANDARD_ERROR_OF_MEAN|0.177||0.6209|TWO_SIDED|90.0|-0.381|0.205|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||0.205|-0.381|0.6209
92329172|NCT02913105|184563105|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.048|STANDARD_ERROR_OF_MEAN|0.238||0.8398|TWO_SIDED|90.0|-0.444|0.347|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||0.347|-0.444|0.8398
92329173|NCT02913105|184563105|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.073|STANDARD_ERROR_OF_MEAN|0.266||0.7839|TWO_SIDED|90.0|-0.515|0.369|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||0.369|-0.515|0.7839
92329174|NCT02913105|184563105|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.241|STANDARD_ERROR_OF_MEAN|0.141||0.0911|TWO_SIDED|90.0|-0.476|-0.006|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||-0.006|-0.476|0.0911
92329175|NCT02913105|184563105|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.338|STANDARD_ERROR_OF_MEAN|0.172||0.052|TWO_SIDED|90.0|-0.623|-0.053|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||-0.053|-0.623|0.0520
92329176|NCT02913105|184563105|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.183||0.0085|TWO_SIDED|90.0|-0.793|-0.187|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||-0.187|-0.793|0.0085
92329177|NCT02913105|184563105|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.657|STANDARD_ERROR_OF_MEAN|0.247||0.0091|TWO_SIDED|90.0|-1.067|-0.247|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||-0.247|-1.067|0.0091
92329178|NCT02913105|184563105|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.759|STANDARD_ERROR_OF_MEAN|0.275||0.007|TWO_SIDED|90.0|-1.216|-0.302|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||-0.302|-1.216|0.0070
92329179|NCT02913105|184563105|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.208|STANDARD_ERROR_OF_MEAN|0.129||0.1092|TWO_SIDED|90.0|-0.423|0.006|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.006|-0.423|0.1092
92329180|NCT02913105|184563105|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.315|STANDARD_ERROR_OF_MEAN|0.156||0.0457|TWO_SIDED|90.0|-0.574|-0.056|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||-0.056|-0.574|0.0457
92329181|NCT02913105|184563105|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.402|STANDARD_ERROR_OF_MEAN|0.165||0.0162|TWO_SIDED|90.0|-0.676|-0.129|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||-0.129|-0.676|0.0162
92329182|NCT02913105|184563105|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.608|STANDARD_ERROR_OF_MEAN|0.221||0.007|TWO_SIDED|90.0|-0.975|-0.242|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||-0.242|-0.975|0.0070
92329183|NCT02913105|184563105|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.686|STANDARD_ERROR_OF_MEAN|0.244||0.006|TWO_SIDED|90.0|-1.091|-0.281|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||-0.281|-1.091|0.0060
92329184|NCT02913105|184563106|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.009||0.9927|TWO_SIDED|90.0|-0.015|0.014|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.014|-0.015|0.9927
92329185|NCT02913105|184563106|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.013||0.2794|TWO_SIDED|90.0|-0.007|0.035|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||0.035|-0.007|0.2794
92329186|NCT02913105|184563106|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.007||0.9032|TWO_SIDED|90.0|-0.012|0.013|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||0.013|-0.012|0.9032
92329187|NCT02913105|184563106|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.009|STANDARD_ERROR_OF_MEAN|0.011||0.4163|TWO_SIDED|90.0|-0.009|0.027|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||0.027|-0.009|0.4163
92329188|NCT02913105|184563106|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.011||0.7001|TWO_SIDED|90.0|-0.022|0.014|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||0.014|-0.022|0.7001
92329189|NCT02913105|184563106|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.009||0.5367|TWO_SIDED|90.0|-0.009|0.021|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.021|-0.009|0.5367
92329190|NCT02913105|184563106|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.013||0.5496|TWO_SIDED|90.0|-0.014|0.03|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||0.030|-0.014|0.5496
92329191|NCT02913105|184563106|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.008||0.6844|TWO_SIDED|90.0|-0.01|0.016|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||0.016|-0.010|0.6844
92329192|NCT02913105|184563106|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.011||0.5695|TWO_SIDED|90.0|-0.025|0.012|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||0.012|-0.025|0.5695
92329193|NCT02913105|184563106|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.011||0.8015|TWO_SIDED|90.0|-0.021|0.016|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||0.016|-0.021|0.8015
92329194|NCT02913105|184563106|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.008||0.4923|TWO_SIDED|90.0|-0.008|0.02|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.020|-0.008|0.4923
92329195|NCT02913105|184563106|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.012||0.62|TWO_SIDED|90.0|-0.025|0.014|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||0.014|-0.025|0.6200
92329196|NCT02913105|184563106|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.007||0.7423|TWO_SIDED|90.0|-0.009|0.014|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||0.014|-0.009|0.7423
92329197|NCT02913105|184563106|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.016|STANDARD_ERROR_OF_MEAN|0.01||0.1272|TWO_SIDED|90.0|-0.032|0.001|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||0.001|-0.032|0.1272
92329198|NCT02913105|184563106|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.01||0.8883|TWO_SIDED|90.0|-0.015|0.017|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||0.017|-0.015|0.8883
92329199|NCT02913105|184563107|OTHER|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|1.01||||0.9514|TWO_SIDED|90.0|0.84|1.21|||ANCOVA|||||1.21|0.84|0.9514
92329200|NCT02913105|184563107|SUPERIORITY|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|0.93||||0.5168|TWO_SIDED|90.0|0.78|1.12|||ANCOVA|||||1.12|0.78|0.5168
92329201|NCT02913105|184563107|SUPERIORITY|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|0.93||||0.374|TWO_SIDED|90.0|0.8|1.07|||ANCOVA|||||1.07|0.80|0.3740
92329202|NCT02913105|184563108|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9453|TWO_SIDED|90.0|0.97|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||1.02|0.97|0.9453
92329203|NCT02913105|184563108|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.4344|TWO_SIDED|90.0|0.96|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||1.01|0.96|0.4344
92329204|NCT02913105|184563108|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.639|TWO_SIDED|90.0|0.97|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||1.02|0.97|0.6390
92329205|NCT02913105|184563108|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.6329|TWO_SIDED|90.0|0.97|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||1.02|0.97|0.6329
92329206|NCT02913105|184563108|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.664|TWO_SIDED|90.0|0.97|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||1.02|0.97|0.6640
92329207|NCT02913105|184563108|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.7517|TWO_SIDED|90.0|0.98|1.03|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||1.03|0.98|0.7517
92329208|NCT02913105|184563109|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.739|TWO_SIDED|90.0|0.77|1.19|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 42||1.19|0.77|0.7390
92329209|NCT02913105|184563109|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.88||||0.3086|TWO_SIDED|90.0|0.72|1.08|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 84||1.08|0.72|0.3086
92329210|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.86||||0.288|TWO_SIDED|90.0|0.69|1.08|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 42||1.08|0.69|0.2880
92329211|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.4446|TWO_SIDED|90.0|0.73|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 84||1.12|0.73|0.4446
92329212|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.9||||0.4127|TWO_SIDED|90.0|0.73|1.11|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 42||1.11|0.73|0.4127
92329213|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.8074|TWO_SIDED|90.0|0.85|1.25|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 84||1.25|0.85|0.8074
92329214|NCT02913105|184563109|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.6935|TWO_SIDED|90.0|0.88|1.08|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 42||1.08|0.88|0.6935
92329215|NCT02913105|184563109|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.9145|TWO_SIDED|90.0|0.9|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 84||1.09|0.90|0.9145
92329216|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.9131|TWO_SIDED|90.0|0.91|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 42||1.12|0.91|0.9131
92329217|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9988|TWO_SIDED|90.0|0.91|1.1|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 84||1.10|0.91|0.9988
92329218|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.5873|TWO_SIDED|90.0|0.94|1.13|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 42||1.13|0.94|0.5873
92329219|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.905|TWO_SIDED|90.0|0.92|1.1|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 84||1.10|0.92|0.9050
92329220|NCT02913105|184563109|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.05||||0.1458|TWO_SIDED|90.0|0.99|1.11|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 42||1.11|0.99|0.1458
92329221|NCT02913105|184563109|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.05||||0.2048|TWO_SIDED|90.0|0.98|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 84||1.12|0.98|0.2048
92329222|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.06||||0.1051|TWO_SIDED|90.0|1.0|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 42||1.12|1.00|0.1051
92329223|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.08||||0.0717|TWO_SIDED|90.0|1.01|1.15|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 84||1.15|1.01|0.0717
92329224|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.8083|TWO_SIDED|90.0|0.96|1.06|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 42||1.06|0.96|0.8083
92329225|NCT02913105|184563109|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.02||||0.5361|TWO_SIDED|90.0|0.96|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 84||1.09|0.96|0.5361
92329226|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.0858|TWO_SIDED|90.0|0.92|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 7||1.00|0.92|0.0858
92329227|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.93||||0.0096|TWO_SIDED|90.0|0.88|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 14||0.97|0.88|0.0096
92329228|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.93||||0.0284|TWO_SIDED|90.0|0.88|0.98|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 28||0.98|0.88|0.0284
92329229|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.133|TWO_SIDED|90.0|0.89|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 42||1.01|0.89|0.1330
92329230|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.2032|TWO_SIDED|90.0|0.89|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 56||1.01|0.89|0.2032
92329231|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.1141|TWO_SIDED|90.0|0.87|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 84||1.00|0.87|0.1141
92329232|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.1342|TWO_SIDED|90.0|0.88|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 112 (EOS)||1.01|0.88|0.1342
92329233|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.0771|TWO_SIDED|90.0|0.92|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 7||1.00|0.92|0.0771
92329234|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.151|TWO_SIDED|90.0|0.91|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 14||1.01|0.91|0.1510
92329235|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.0744|TWO_SIDED|90.0|0.89|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 28||1.00|0.89|0.0744
92329236|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.8365|TWO_SIDED|90.0|0.93|1.06|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 42||1.06|0.93|0.8365
92329237|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.6091|TWO_SIDED|90.0|0.92|1.05|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 56||1.05|0.92|0.6091
92329238|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.3621|TWO_SIDED|90.0|0.9|1.03|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 84||1.03|0.90|0.3621
92329239|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.97||||0.5031|TWO_SIDED|90.0|0.91|1.04|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 112 (EOS)||1.04|0.91|0.5031
92329240|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9244|TWO_SIDED|90.0|0.96|1.04|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 7||1.04|0.96|0.9244
92329241|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.236|TWO_SIDED|90.0|0.99|1.08|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 14||1.08|0.99|0.2360
92329242|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.699|TWO_SIDED|90.0|0.96|1.07|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 28||1.07|0.96|0.6990
92329243|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.05||||0.159|TWO_SIDED|90.0|0.99|1.11|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 42||1.11|0.99|0.1590
92329244|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.4256|TWO_SIDED|90.0|0.97|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 56||1.09|0.97|0.4256
92329245|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.4901|TWO_SIDED|90.0|0.96|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 84||1.09|0.96|0.4901
92329246|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.3648|TWO_SIDED|90.0|0.97|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 112 (EOS)||1.09|0.97|0.3648
92329247|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.8891|TWO_SIDED|90.0|0.91|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 7||1.12|0.91|0.8891
92329248|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.4817|TWO_SIDED|90.0|0.85|1.07|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 14||1.07|0.85|0.4817
92329249|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.6022|TWO_SIDED|90.0|0.84|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 28||1.09|0.84|0.6022
92329250|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.447|TWO_SIDED|90.0|0.83|1.07|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 42||1.07|0.83|0.4470
92329251|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.4342|TWO_SIDED|90.0|0.83|1.07|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 56||1.07|0.83|0.4342
92329252|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.85||||0.0891|TWO_SIDED|90.0|0.73|0.99|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 84||0.99|0.73|0.0891
92329253|NCT02913105|184563110|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.89||||0.226|TWO_SIDED|90.0|0.77|1.04|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 112 (EOS)||1.04|0.77|0.2260
92329254|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.87||||0.0324|TWO_SIDED|90.0|0.78|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 7||0.97|0.78|0.0324
92329255|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.85||||0.0291|TWO_SIDED|90.0|0.76|0.96|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 14||0.96|0.76|0.0291
92329256|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.5755|TWO_SIDED|90.0|0.84|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 28||1.09|0.84|0.5755
92329257|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.92||||0.307|TWO_SIDED|90.0|0.8|1.05|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 42||1.05|0.80|0.3070
92329258|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.7752|TWO_SIDED|90.0|0.86|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 56||1.12|0.86|0.7752
92329259|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.88||||0.1803|TWO_SIDED|90.0|0.75|1.03|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 84||1.03|0.75|0.1803
92329260|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.89||||0.2414|TWO_SIDED|90.0|0.76|1.05|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 112 (EOS)||1.05|0.76|0.2414
92329261|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.86||||0.0179|TWO_SIDED|90.0|0.77|0.95|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 7||0.95|0.77|0.0179
92329262|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.9||||0.1125|TWO_SIDED|90.0|0.8|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 14||1.00|0.80|0.1125
92329263|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9572|TWO_SIDED|90.0|0.88|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 28||1.12|0.88|0.9572
92329264|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.7372|TWO_SIDED|90.0|0.87|1.1|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 42||1.10|0.87|0.7372
92329265|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.04||||0.6015|TWO_SIDED|90.0|0.92|1.17|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 56||1.17|0.92|0.6015
92329266|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.7261|TWO_SIDED|90.0|0.89|1.19|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 84||1.19|0.89|0.7261
92329267|NCT02913105|184563110|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9892|TWO_SIDED|90.0|0.87|1.15|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 112 (EOS)||1.15|0.87|0.9892
92329268|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.0005|TWO_SIDED|90.0|0.87|0.95|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 7||0.95|0.87|0.0005
92329269|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.89||||0.0005|TWO_SIDED|90.0|0.84|0.94|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 14||0.94|0.84|0.0005
92329270|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.0062|TWO_SIDED|90.0|0.86|0.96|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 28||0.96|0.86|0.0062
92329271|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.1214|TWO_SIDED|90.0|0.89|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 42||1.00|0.89|0.1214
92329272|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.9||||0.0043|TWO_SIDED|90.0|0.84|0.95|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 56||0.95|0.84|0.0043
92329273|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.2615|TWO_SIDED|90.0|0.89|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 84||1.02|0.89|0.2615
92329274|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.1331|TWO_SIDED|90.0|0.88|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 112 (EOS)||1.01|0.88|0.1331
92329275|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.85|||<|0.0001|TWO_SIDED|90.0|0.81|0.89|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 7||0.89|0.81|<.0001
92329276|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.88||||0.0001|TWO_SIDED|90.0|0.83|0.93|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 14||0.93|0.83|0.0001
92329277|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.83|||<|0.0001|TWO_SIDED|90.0|0.79|0.88|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 28||0.88|0.79|<.0001
92329278|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.86||||0.0002|TWO_SIDED|90.0|0.81|0.92|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 42||0.92|0.81|0.0002
92329279|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.82|||<|0.0001|TWO_SIDED|90.0|0.77|0.88|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 56||0.88|0.77|<.0001
92329280|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.84||||0.0002|TWO_SIDED|90.0|0.78|0.9|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 84||0.90|0.78|0.0002
92329281|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.228|TWO_SIDED|90.0|0.89|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 112 (EOS)||1.02|0.89|0.2280
92329282|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.93||||0.009|TWO_SIDED|90.0|0.89|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 7||0.97|0.89|0.0090
92329283|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.6237|TWO_SIDED|90.0|0.93|1.04|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 14||1.04|0.93|0.6237
92329284|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.008|TWO_SIDED|90.0|0.87|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 28||0.97|0.87|0.0080
92329285|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.0105|TWO_SIDED|90.0|0.86|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 42||0.97|0.86|0.0105
92329286|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.92||||0.0217|TWO_SIDED|90.0|0.86|0.98|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 56||0.98|0.86|0.0217
92329287|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.88||||0.0031|TWO_SIDED|90.0|0.82|0.94|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 84||0.94|0.82|0.0031
92329288|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.774|TWO_SIDED|90.0|0.95|1.07|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 112 (EOS)||1.07|0.95|0.7740
92329289|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.1783|TWO_SIDED|90.0|0.89|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 7||1.01|0.89|0.1783
92329290|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.0219|TWO_SIDED|90.0|0.84|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 14||0.97|0.84|0.0219
92329291|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.92||||0.0719|TWO_SIDED|90.0|0.85|0.99|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 28||0.99|0.85|0.0719
92329292|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.93||||0.2199|TWO_SIDED|90.0|0.85|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 42||1.02|0.85|0.2199
92329293|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.4928|TWO_SIDED|90.0|0.87|1.06|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 56||1.06|0.87|0.4928
92329294|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.3419|TWO_SIDED|90.0|0.85|1.05|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 84||1.05|0.85|0.3419
92329295|NCT02913105|184563111|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.7281|TWO_SIDED|90.0|0.88|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 112 (EOS)||1.09|0.88|0.7281
92329296|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.04||||0.318|TWO_SIDED|90.0|0.97|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 7||1.12|0.97|0.3180
92329297|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.02||||0.6576|TWO_SIDED|90.0|0.95|1.1|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 14||1.10|0.95|0.6576
92329298|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.97||||0.6035|TWO_SIDED|90.0|0.9|1.06|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 28||1.06|0.90|0.6035
92329299|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.06||||0.3261|TWO_SIDED|90.0|0.96|1.17|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 42||1.17|0.96|0.3261
92329300|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.04||||0.5246|TWO_SIDED|90.0|0.94|1.15|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 56||1.15|0.94|0.5246
92329301|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.02||||0.7519|TWO_SIDED|90.0|0.92|1.14|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 84||1.14|0.92|0.7519
92329302|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9577|TWO_SIDED|90.0|0.89|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 112 (EOS)||1.12|0.89|0.9577
92329303|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.1||||0.016|TWO_SIDED|90.0|1.03|1.18|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 7||1.18|1.03|0.0160
92329304|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.13||||0.0052|TWO_SIDED|90.0|1.05|1.21|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 14||1.21|1.05|0.0052
92329305|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.06||||0.1822|TWO_SIDED|90.0|0.99|1.15|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 28||1.15|0.99|0.1822
92329306|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.14||||0.0159|TWO_SIDED|90.0|1.04|1.24|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 42||1.24|1.04|0.0159
92329307|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.08||||0.1524|TWO_SIDED|90.0|0.99|1.19|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 56||1.19|0.99|0.1524
92329308|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.08||||0.1749|TWO_SIDED|90.0|0.98|1.2|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 84||1.20|0.98|0.1749
92329309|NCT02913105|184563111|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.02||||0.7503|TWO_SIDED|90.0|0.92|1.13|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 112 (EOS)||1.13|0.92|0.7503
92329310|NCT02913105|184563112|OTHER|Change from baseline was analyzed using an ANCOVA model which included effects for treatment, baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|7.01|STANDARD_ERROR_OF_MEAN|5.52||0.2073|TWO_SIDED|90.0|-2.161|16.178|||ANCOVA|||||16.178|-2.161|0.2073
92329311|NCT02913105|184563112|SUPERIORITY|Change from baseline was analyzed using an ANCOVA model which included effects for treatment, baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|7.23|STANDARD_ERROR_OF_MEAN|5.62||0.2014|TWO_SIDED|90.0|-2.106|16.563|||ANCOVA|||||16.563|-2.106|0.2014
92329312|NCT02913105|184563112|SUPERIORITY|Change from baseline was analyzed using an ANCOVA model which included effects for treatment, baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|4.93||0.9645|TWO_SIDED|90.0|-7.974|8.414|||ANCOVA|||||8.414|-7.974|0.9645
92329313|NCT01663857|184563156|SUPERIORITY|||||||0.4|||||||Log Rank|||||||0.4
92329314|NCT01663857|184563158|SUPERIORITY|||||||0.4686|||||||Log Rank|||||||0.4686
92329315|NCT03334422|184563187|SUPERIORITY||Odds Ratio (OR)|2.58||||0.026|TWO_SIDED|95.0|1.12|5.92|||Regression, Logistic|||||5.92|1.12|0.026
92329316|NCT03334422|184563187|SUPERIORITY||Odds Ratio (OR)|3.64||||0.001|TWO_SIDED|95.0|1.64|8.05|||Regression, Logistic|||||8.05|1.64|0.001
92329317|NCT03334422|184563188|SUPERIORITY||Odds Ratio (OR)|2.13||||0.085|TWO_SIDED|95.0|0.9|5.02|||Regression, Logistic|||||5.02|0.90|0.085
92329318|NCT03334422|184563189|SUPERIORITY||Odds Ratio (OR)|2.35||||0.024|TWO_SIDED|95.0|1.12|4.93|||Regression, Logistic|||||4.93|1.12|0.024
92329319|NCT03334422|184563189|SUPERIORITY||Odds Ratio (OR)|3.49|||<|0.001|TWO_SIDED|95.0|1.73|7.04|||Regression, Logistic|||||7.04|1.73|<0.001
92329320|NCT03334422|184563189|SUPERIORITY||Odds Ratio (OR)|4.41|||<|0.001|TWO_SIDED|95.0|2.22|8.76|||Regression, Logistic|||||8.76|2.22|<0.001
92329321|NCT03334422|184563190|SUPERIORITY||Odds Ratio (OR)|2.8||||0.053|TWO_SIDED|95.0|0.99|7.97|||Regression, Logistic|||||7.97|0.99|0.053
92329322|NCT03334422|184563190|SUPERIORITY||Odds Ratio (OR)|3.87||||0.007|TWO_SIDED|95.0|1.44|10.41|||Regression, Logistic|||||10.41|1.44|0.007
92329323|NCT03334422|184563190|SUPERIORITY||Odds Ratio (OR)|6.2|||<|0.001|TWO_SIDED|95.0|2.42|15.91|||Regression, Logistic|||||15.91|2.42|<0.001
92329324|NCT03334422|184563191|SUPERIORITY||Mean Difference (Net)|-12.76|STANDARD_ERROR_OF_MEAN|6.81||0.062|TWO_SIDED|95.0|-26.19|0.66|||Mixed Models Analysis|||||0.66|-26.19|0.062
92329325|NCT03334422|184563191|SUPERIORITY||Mean Difference (Net)|-25.89|STANDARD_ERROR_OF_MEAN|6.54|<|0.001|TWO_SIDED|95.0|-38.78|-12.99|||Mixed Models Analysis|||||-12.99|-38.78|<0.001
92329326|NCT03334422|184563191|SUPERIORITY||Mean Difference (Net)|-25.97|STANDARD_ERROR_OF_MEAN|6.24|<|0.001|TWO_SIDED|95.0|-38.29|-13.65|||Mixed Models Analysis|||||-13.65|-38.29|<0.001
92329327|NCT03334422|184563192|SUPERIORITY||Odds Ratio (OR)|2.9||||0.086|TWO_SIDED|95.0|0.86|9.76|||Regression, Logistic|||||9.76|0.86|0.086
92329328|NCT03334422|184563192|SUPERIORITY||Odds Ratio (OR)|4.95||||0.006|TWO_SIDED|95.0|1.58|15.49|||Regression, Logistic|||||15.49|1.58|0.006
92329329|NCT03334422|184563192|SUPERIORITY||Odds Ratio (OR)|7.4|||<|0.001|TWO_SIDED|95.0|2.51|21.83|||Regression, Logistic|||||21.83|2.51|<0.001
92329330|NCT03334422|184563193|SUPERIORITY||Odds Ratio (OR)|1.41||||0.505|TWO_SIDED|95.0|0.51|3.87|||Regression, Logistic|||||3.87|0.51|0.505
92329331|NCT03334422|184563193|SUPERIORITY||Odds Ratio (OR)|3.64||||0.002|TWO_SIDED|95.0|1.6|8.27|||Regression, Logistic|||||8.27|1.60|0.002
92329332|NCT03334422|184563193|SUPERIORITY||Odds Ratio (OR)|4.91|||<|0.001|TWO_SIDED|95.0|2.22|10.86|||Regression, Logistic|||||10.86|2.22|<0.001
92329333|NCT03334422|184563194|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.15||0.074|TWO_SIDED|95.0|-0.57|0.03|||Mixed Models Analysis|||||0.03|-0.57|0.074
92329334|NCT03334422|184563194|SUPERIORITY||Mean Difference (Net)|-0.38|STANDARD_ERROR_OF_MEAN|0.15||0.011|TWO_SIDED|95.0|-0.68|-0.09|||Mixed Models Analysis|||||-0.09|-0.68|0.011
92329335|NCT03334422|184563194|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.84|-0.26|||Mixed Models Analysis|||||-0.26|-0.84|<0.001
92329336|NCT03334422|184563195|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.41||0.58|TWO_SIDED|95.0|-1.05|0.59|||Mixed Models Analysis|||||0.59|-1.05|0.580
92329337|NCT03334422|184563195|SUPERIORITY||Mean Difference (Net)|-1.75|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.54|-0.96|||Mixed Models Analysis|||||-0.96|-2.54|<0.001
92329338|NCT03334422|184563195|SUPERIORITY||Mean Difference (Net)|-1.62|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-2.37|-0.87|||Mixed Models Analysis|||||-0.87|-2.37|<0.001
92329339|NCT03334422|184563196|SUPERIORITY||Odds Ratio (OR)|1.67||||0.094|TWO_SIDED|95.0|0.92|3.04|||Regression, Logistic|||||3.04|0.92|0.094
92329340|NCT03334422|184563196|SUPERIORITY||Odds Ratio (OR)|2.91|||<|0.001|TWO_SIDED|95.0|1.65|5.11|||Regression, Logistic|||||5.11|1.65|<0.001
92329341|NCT03334422|184563196|SUPERIORITY||Odds Ratio (OR)|3.15|||<|0.001|TWO_SIDED|95.0|1.8|5.51|||Regression, Logistic|||||5.51|1.80|<0.001
92329342|NCT03334422|184563197|SUPERIORITY||Odds Ratio (OR)|1.57||||0.528|TWO_SIDED|95.0|0.39|6.31|||Regression, Logistic|||||6.31|0.39|0.528
92329343|NCT03334422|184563197|SUPERIORITY||Odds Ratio (OR)|2.56||||0.142|TWO_SIDED|95.0|0.73|8.95|||Regression, Logistic|||||8.95|0.73|0.142
92329344|NCT03334422|184563197|SUPERIORITY||Odds Ratio (OR)|2.68||||0.123|TWO_SIDED|95.0|0.77|9.37|||Regression, Logistic|||||9.37|0.77|0.123
92329345|NCT03334422|184563198|SUPERIORITY||LSMean Difference|-6.88|STANDARD_ERROR_OF_MEAN|3.63||0.059|TWO_SIDED|95.0|-14.03|0.28|||Mixed Models Analysis|||||0.28|-14.03|0.059
92329346|NCT03334422|184563198|SUPERIORITY||LSMean Difference|-14.48|STANDARD_ERROR_OF_MEAN|3.47|<|0.001|TWO_SIDED|95.0|-21.32|-7.63|||Mixed Models Analysis|||||-7.63|-21.32|<0.001
92329347|NCT03334422|184563198|SUPERIORITY||LSMean Difference|-14.15|STANDARD_ERROR_OF_MEAN|3.32|<|0.001|TWO_SIDED|95.0|-20.69|-7.61|||Mixed Models Analysis|||||-7.61|-20.69|<0.001
92329348|NCT03334422|184563199|SUPERIORITY||Odds Ratio (OR)|2.55||||0.193|TWO_SIDED|95.0|0.62|10.45|||Regression, Logistic|||||10.45|0.62|0.193
92329349|NCT03334422|184563199|SUPERIORITY||Odds Ratio (OR)|4.1||||0.042|TWO_SIDED|95.0|1.05|16.03|||Mixed Models Analysis|||||16.03|1.05|0.042
92329350|NCT03334422|184563199|SUPERIORITY||Odds Ratio (OR)|3.89||||0.044|TWO_SIDED|95.0|1.04|14.57|||Regression, Logistic|||||14.57|1.04|0.044
92329351|NCT03334422|184563200|SUPERIORITY||LSMean Difference|-6.16|STANDARD_ERROR_OF_MEAN|3.23||0.058|TWO_SIDED|95.0|-12.53|0.21|||Mixed Models Analysis|||||0.21|-12.53|0.058
92329352|NCT03334422|184563200|SUPERIORITY||LSMean Difference|-9.3|STANDARD_ERROR_OF_MEAN|3.1||0.003|TWO_SIDED|95.0|-15.42|-3.18|||Mixed Models Analysis|||||-3.18|-15.42|0.003
92329353|NCT03334422|184563200|SUPERIORITY||LSMean Difference|-11.16|STANDARD_ERROR_OF_MEAN|2.98|<|0.001|TWO_SIDED|95.0|-17.03|-5.3|||Mixed Models Analysis|||||-5.30|-17.03|<0.001
92329354|NCT03334422|184563201|SUPERIORITY|||||||0.189|||||||Fisher Exact|||||||0.189
92329355|NCT03334422|184563201|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
92329356|NCT03334422|184563201|SUPERIORITY|||||||0.383|||||||Fisher Exact|||||||0.383
92329357|NCT03334422|184563202|SUPERIORITY||LSMean Difference|-14.8|STANDARD_ERROR_OF_MEAN|8.46||0.081|TWO_SIDED|95.0|-31.45|1.85|||Mixed Models Analysis|||||1.85|-31.45|0.081
92329358|NCT03334422|184563202|SUPERIORITY||LSMean Difference|-30.66|STANDARD_ERROR_OF_MEAN|8.11|<|0.001|TWO_SIDED|95.0|-46.62|-14.7|||Mixed Models Analysis|||||-14.70|-46.62|<0.001
92329359|NCT03334422|184563202|SUPERIORITY||LSMean Difference|-30.28|STANDARD_ERROR_OF_MEAN|7.63|<|0.001|TWO_SIDED|95.0|-45.29|-15.27|||Mixed Models Analysis|||||-15.27|-45.29|<0.001
92329360|NCT03334422|184563203|SUPERIORITY||LSMean Difference|-2.36|STANDARD_ERROR_OF_MEAN|1.32||0.075|TWO_SIDED|95.0|-4.97|0.24|||Mixed Models Analysis|||||0.24|-4.97|0.075
92329361|NCT03334422|184563203|SUPERIORITY||LSMean Difference|-5.58|STANDARD_ERROR_OF_MEAN|1.27|<|0.001|TWO_SIDED|95.0|-8.07|-3.08|||Mixed Models Analysis|||||-3.08|-8.07|<0.001
92329362|NCT03334422|184563203|SUPERIORITY||LSMean Difference|-6.07|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|-8.47|-3.68|||Mixed Models Analysis|||||-3.68|-8.47|<0.001
92329363|NCT03334422|184563204|SUPERIORITY||LSMean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.17||0.13|TWO_SIDED|95.0|-0.61|0.08|||Mixed Models Analysis|||||0.08|-0.61|0.130
92329364|NCT03334422|184563204|SUPERIORITY||LSMean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-0.94|-0.28|||Mixed Models Analysis|||||-0.28|-0.94|<0.001
92329365|NCT03334422|184563204|SUPERIORITY||LSMean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.0|-0.38|||Mixed Models Analysis|||||-0.38|-1.00|<0.001
92329366|NCT03334422|184563205|SUPERIORITY||LSMean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.51||0.067|TWO_SIDED|95.0|-1.95|0.07|||Mixed Models Analysis|||HADS Anxiety.||0.07|-1.95|0.067
92329367|NCT03334422|184563205|SUPERIORITY||LSMean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.49||0.06|TWO_SIDED|95.0|-1.89|0.04|||Mixed Models Analysis|||HADS Anxiety.||0.04|-1.89|0.060
92329368|NCT03334422|184563205|SUPERIORITY||LSMean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.47||0.006|TWO_SIDED|95.0|-2.23|-0.38|||Mixed Models Analysis|||HADS Anxiety.||-0.38|-2.23|0.006
92329369|NCT03334422|184563205|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.51||0.321|TWO_SIDED|95.0|-1.5|0.49|||Mixed Models Analysis|||HADS Depression.||0.49|-1.50|0.321
92329370|NCT03334422|184563205|SUPERIORITY||LSMean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.49||0.143|TWO_SIDED|95.0|-1.67|0.24|||Mixed Models Analysis|||HADS Depression.||0.24|-1.67|0.143
92329371|NCT03334422|184563205|SUPERIORITY||LSMean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.47||0.012|TWO_SIDED|95.0|-2.11|-0.26|||Mixed Models Analysis|||HADS Depression.||-0.26|-2.11|0.012
92329372|NCT03334422|184563206|SUPERIORITY||LSMean Difference|-1.76|STANDARD_ERROR_OF_MEAN|0.97||0.071|TWO_SIDED|95.0|-3.67|0.15|||Mixed Models Analysis|||||0.15|-3.67|0.071
92329373|NCT03334422|184563206|SUPERIORITY||LSMean Difference|-4.09|STANDARD_ERROR_OF_MEAN|0.93|<|0.001|TWO_SIDED|95.0|-5.92|-2.26|||Mixed Models Analysis|||||-2.26|-5.92|<0.001
92329374|NCT03334422|184563206|SUPERIORITY||LSMean Difference|-4.22|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.98|-2.45|||Mixed Models Analysis|||||-2.45|-5.98|<0.001
92329375|NCT03334422|184563207|SUPERIORITY||LSMean Difference|-0.91|STANDARD_ERROR_OF_MEAN|5.17||0.861|TWO_SIDED|95.0|-11.16|9.34|||Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||9.34|-11.16|0.861
92329376|NCT03334422|184563207|SUPERIORITY||LSMean Difference|1.01|STANDARD_ERROR_OF_MEAN|5.03||0.841|TWO_SIDED|95.0|-8.94|10.97||Absenteeism|Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||10.97|-8.94|0.841
92329377|NCT03334422|184563207|SUPERIORITY||LSMean Difference|5.16|STANDARD_ERROR_OF_MEAN|4.6||0.264|TWO_SIDED|95.0|-3.95|14.26|||Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||14.26|-3.95|0.264
92329378|NCT03334422|184563207|SUPERIORITY||LSMean Difference|-3.12|STANDARD_ERROR_OF_MEAN|5.63||0.58|TWO_SIDED|95.0|-14.26|8.02|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||8.02|-14.26|0.580
92329379|NCT03334422|184563207|SUPERIORITY||LSMean Difference|-13.56|STANDARD_ERROR_OF_MEAN|5.5||0.015|TWO_SIDED|95.0|-24.45|-2.86|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||-2.86|-24.45|0.015
92329380|NCT03334422|184563207|SUPERIORITY||LSMean Difference|-13.13|STANDARD_ERROR_OF_MEAN|5.08||0.011|TWO_SIDED|95.0|-23.2|-3.06|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||-3.06|-23.20|0.011
92329381|NCT03334422|184563207|SUPERIORITY||LSMean Difference|-1.81|STANDARD_ERROR_OF_MEAN|6.71||0.788|TWO_SIDED|95.0|-15.12|11.49|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||11.49|-15.12|0.788
92329382|NCT03334422|184563207|SUPERIORITY||LSMean Difference|-9.48|STANDARD_ERROR_OF_MEAN|6.57||0.152|TWO_SIDED|95.0|-22.51|3.55|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||3.55|-22.51|0.152
92329383|NCT03334422|184563207|SUPERIORITY|Overall Work Impairment|LSMean Difference|-9.13|STANDARD_ERROR_OF_MEAN|6.07||0.135|TWO_SIDED|95.0|-21.17|2.9|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||2.90|-21.17|0.135
92329384|NCT03334422|184563207|SUPERIORITY||LSMean Difference|-2.26|STANDARD_ERROR_OF_MEAN|4.25||0.595|TWO_SIDED|95.0|-10.65|6.12|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||6.12|-10.65|0.595
92329385|NCT03334422|184563207|SUPERIORITY||LSMean Difference|-14.3|STANDARD_ERROR_OF_MEAN|4.12|<|0.001|TWO_SIDED|95.0|-22.43|-6.17|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||-6.17|-22.43|<0.001
92329386|NCT03334422|184563207|SUPERIORITY||LSMean Difference|-14.47|STANDARD_ERROR_OF_MEAN|3.88|<|0.001|TWO_SIDED|95.0|-22.11|-6.83|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||-6.83|-22.11|<0.001
92329387|NCT03334422|184563208|SUPERIORITY||LSMean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.295|TWO_SIDED|95.0|-0.02|0.07|||Mixed Models Analysis|||Health State Index Score (US Algorithm)||0.07|-0.02|0.295
92329388|NCT03334422|184563208|SUPERIORITY||LSMean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.02||0.001|TWO_SIDED|95.0|0.03|0.12|||Mixed Models Analysis|||Health State Index Score (US Algorithm)||0.12|0.03|0.001
92329389|NCT03334422|184563208|SUPERIORITY||LSMean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|0.03|0.12|||Mixed Models Analysis|||Health State Index Score (US Algorithm)||0.12|0.03|<0.001
92329390|NCT03334422|184563208|SUPERIORITY||LSMean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.334|TWO_SIDED|95.0|-0.03|0.1|||Mixed Models Analysis|||Health State Index Score (UK Algorithm)||0.10|-0.03|0.334
92329391|NCT03334422|184563208|SUPERIORITY||LSMean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.03||0.001|TWO_SIDED|95.0|0.04|0.17|||Mixed Models Analysis|||Health State Index Score (UK Algorithm)||0.17|0.04|0.001
92329392|NCT03334422|184563208|SUPERIORITY||LSMean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|0.05|0.17|||Mixed Models Analysis|||Health State Index Score (UK Algorithm)||0.17|0.05|<0.001
92329393|NCT03334422|184563209|SUPERIORITY||LSMean Difference|0.4|STANDARD_ERROR_OF_MEAN|3.47||0.907|TWO_SIDED|95.0|-6.44|7.25|||Mixed Models Analysis|||EQ-5D-5L VAS Score||7.25|-6.44|0.907
92329394|NCT03334422|184563209|SUPERIORITY||LSMean Difference|8.19|STANDARD_ERROR_OF_MEAN|3.33||0.015|TWO_SIDED|95.0|1.63|14.76|||Mixed Models Analysis|||EQ-5D-5L VAS Score||14.76|1.63|0.015
92329395|NCT03334422|184563209|SUPERIORITY||LSMean Difference|8.82|STANDARD_ERROR_OF_MEAN|3.14||0.006|TWO_SIDED|95.0|2.62|15.01|||Mixed Models Analysis|||EQ-5D-5L VAS Score||15.01|2.62|0.006
92329396|NCT03334422|184563210|SUPERIORITY||Odds Ratio (OR)|0.93||||0.905|TWO_SIDED|95.0|0.3|2.93|||Regression, Logistic|||||2.93|0.30|0.905
92329397|NCT03334422|184563210|SUPERIORITY||Odds Ratio (OR)|2.37||||0.064|TWO_SIDED|95.0|0.95|5.92|||Regression, Logistic|||||5.92|0.95|0.064
92329398|NCT03334422|184563210|SUPERIORITY||Odds Ratio (OR)|5.14|||<|0.001|TWO_SIDED|95.0|2.25|11.74|||Regression, Logistic|||||11.74|2.25|<0.001
92329399|NCT03282591|184563239|SUPERIORITY||Mean Difference (Final Values)|31.4||||0.9942|ONE_SIDED|95.0||56.9|||Mixed Models Analysis|||||56.9||0.9942
92329400|NCT02635009|184563288|SUPERIORITY|||||||0.28|||||||Fisher Exact|one-sided significance level = 0.05||Proportion of participants with deterioration in HVLT-R delayed recall score at six months: Null hypothesis = No difference between the arms; Alternative hypothesis = Arm 2 will have less deterioration than Arm 1. Ninety-eight evaluable participants per arm at six months provides 80% statistical power to detect a 14.5% absolute difference between the arms in proportion of participants with deterioration at six months using a one-sided Fisher's exact test.||||0.28
92329401|NCT02635009|184563289|NON_INFERIORITY|Null hypothesis: Proportion of participants with relapse on Arm 2 - Arm 1 \> 20%; Alternative hypothesis: Proportion of participants with relapse on Arm 2 - Arm 1 = 4.5%. Using a non-inferiority margin of 20% and an assumed difference in proportions of 4.5% under the alternative, a 2-sample test of difference in proportions with a 1-sided alpha of 0.1 requires 164 patients to achieve 85% statistical power. (Statistically significant p-value indicates non-inferiority.)||||||0.003|||||||Test of binomial proportions|||||||0.0030
92329402|NCT02635009|184563290|SUPERIORITY|||||||0.0598|||||||Gray's test|||||||0.0598
92329403|NCT02635009|184563291|SUPERIORITY|||||||0.78|||||||Chi-squared|||3 months||||0.78
92329404|NCT02635009|184563291|SUPERIORITY|||||||0.63|||||||Chi-squared|||6 months||||0.63
92329405|NCT02635009|184563291|SUPERIORITY|||||||0.84|||||||Chi-squared|||12 months||||0.84
92329406|NCT02635009|184563293|SUPERIORITY|||||||0.56|||||||Chi-squared|||3 months||||0.56
92329407|NCT02635009|184563293|SUPERIORITY|||||||0.75|||||||Chi-squared|||12 months||||0.75
92329408|NCT02635009|184563295|SUPERIORITY|||||||0.81|||||||Chi-squared|||3 months||||0.81
92329409|NCT02635009|184563295|SUPERIORITY|||||||0.93|||||||Chi-squared|||6 months||||0.93
92329410|NCT02635009|184563295|SUPERIORITY|||||||0.35|||||||Chi-squared|||12 months||||0.35
92329411|NCT02635009|184563297|SUPERIORITY|||||||0.54|||||||Chi-squared|||3 months||||0.54
92329412|NCT02635009|184563297|SUPERIORITY|||||||0.43|||||||Chi-squared|||6 months||||0.43
92329413|NCT02635009|184563297|SUPERIORITY|||||||0.25|||||||Chi-squared|||12 months||||0.25
92329414|NCT02635009|184563299|SUPERIORITY|||||||0.71|||||||Chi-squared|||3 months||||0.71
92329415|NCT02635009|184563299|SUPERIORITY|||||||0.079|||||||Chi-squared|||6 months||||0.079
92329416|NCT02635009|184563299|SUPERIORITY|||||||0.85|||||||Chi-squared|||12 months||||0.85
92329417|NCT02635009|184563301|SUPERIORITY|||||||0.043|||||||Chi-squared|||3 months||||0.043
92329418|NCT02635009|184563301|SUPERIORITY|||||||0.017|||||||Fisher Exact|||6 months||||0.017
92329419|NCT02635009|184563301|SUPERIORITY|||||||0.057|||||||Chi-squared|||12-month||||0.057
92329420|NCT02635009|184563304|SUPERIORITY|||||||0.1|||||||Chi-squared|||3 months||||0.10
92329421|NCT02635009|184563304|SUPERIORITY|||||||0.33|||||||Chi-squared|||6 months||||0.33
92329422|NCT02635009|184563304|SUPERIORITY|||||||0.29|||||||Chi-squared|||12 months||||0.29
92329423|NCT02635009|184563306|SUPERIORITY|||||||0.0021|||||||Chi-squared|||3 months||||0.0021
92329424|NCT02635009|184563306|SUPERIORITY|||||||0.007|||||||Chi-squared|||6 months||||0.0070
92329425|NCT02635009|184563306|SUPERIORITY|||||||0.35|||||||Chi-squared|||12 months||||0.35
92329426|NCT02635009|184563308|SUPERIORITY|||||||0.55|||||||Chi-squared|||3 months||||0.55
92329427|NCT02635009|184563308|SUPERIORITY|||||||0.062|||||||Chi-squared|||6 months||||0.062
92329428|NCT02635009|184563308|SUPERIORITY|||||||0.32|||||||Chi-squared|||12 months||||0.32
92329429|NCT02635009|184563310|SUPERIORITY|||||||0.7|||||||Chi-squared|||3 months||||0.70
92329430|NCT02635009|184563310|SUPERIORITY|||||||0.52|||||||Chi-squared|||6 months||||0.52
92329431|NCT02635009|184563310|SUPERIORITY|||||||0.73|||||||Chi-squared|||12 months||||0.73
92329432|NCT02635009|184563312|SUPERIORITY|||||||0.28|||||||Chi-squared|||3 months||||0.28
92329433|NCT02635009|184563312|SUPERIORITY|||||||0.094|||||||Chi-squared|||6 months||||0.094
92329434|NCT02635009|184563312|SUPERIORITY|||||||0.61|||||||Chi-squared|||||||0.61
92329435|NCT02635009|184563314|SUPERIORITY|||||||0.16|||||||Chi-squared|||3 months.||||0.16
92329436|NCT02635009|184563314|SUPERIORITY|||||||0.017|||||||Chi-squared|||6 months. Assuming 50% of patients experience deterioration at 6 months, based on a prior study (RTOG-0212), a sample size of 198 participants per arm provides 94% power to detect a 50% relative reduction (50% on Arm 1 vs. 25% on Arm 2) in decline at 6 months using Fisher's exact test with a two-sided alpha=0.05.||||0.017
92329437|NCT02635009|184563314|SUPERIORITY|||||||0.56|||||||Chi-squared|||12-month||||0.56
92329438|NCT02635009|184563316|SUPERIORITY|||||||0.44|||||||Chi-squared|||||||0.44
92329439|NCT02635009|184563316|SUPERIORITY|||||||0.45|||||||Chi-squared|||||||0.45
92329440|NCT02635009|184563316|SUPERIORITY|||||||0.25|||||||Chi-squared|||||||0.25
92329441|NCT02635009|184563318|SUPERIORITY|||||||0.35|||||||Chi-squared|||3 months||||0.35
92329442|NCT02635009|184563318|SUPERIORITY|||||||0.99|||||||Chi-squared|||6 months||||0.99
92329443|NCT02635009|184563318|SUPERIORITY|||||||0.94|||||||Chi-squared|||12 months||||0.94
92329444|NCT02635009|184563322|SUPERIORITY|||||||0.79||||||Two-side significance level = 0.05|Log Rank|||||||0.79
92329445|NCT02635009|184563323|SUPERIORITY|||||||0.93|||||||Gray's test|||||||0.93
92329446|NCT04105010|184563344|SUPERIORITY||||||<|0.0001|||||||Binomial test against a null|||||||<0.0001
92329447|NCT01211483|184563359|SUPERIORITY||Hazard Ratio (HR)|0.978|||||TWO_SIDED|95.0|0.674|1.42||||||||1.420|0.674|
92329448|NCT01211483|184563359|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.523|1.131||||||||1.131|0.523|
92329449|NCT01211483|184563360|SUPERIORITY||Hazard Ratio (HR)|0.369||||0.0185|TWO_SIDED|95.0|0.161|0.846|||Cox proportional hazard|||||0.846|0.161|0.0185
92329450|NCT01211483|184563360|SUPERIORITY||Hazard Ratio (HR)|0.288||||0.0034|TWO_SIDED|95.0|0.125|0.663|||Cox proportional hazard|||||0.663|0.125|0.0034
92329451|NCT01211483|184563361|SUPERIORITY||Hazard Ratio (HR)|1.006||||0.9879|TWO_SIDED|95.0|0.458|2.212|||Cox proportional hazard|||||2.212|0.458|0.9879
92329452|NCT01211483|184563361|SUPERIORITY||Hazard Ratio (HR)|1.222||||0.6276|TWO_SIDED|95.0|0.544|2.746|||Cox proportional hazard|||||2.746|0.544|0.6276
92329453|NCT01593254|184563440|SUPERIORITY|||||||0.005|||||||Cochran-Mantel-Haenszel|||||||0.005
92329454|NCT00561470|184563458|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.817||||0.0032|TWO_SIDED|95.34|0.713|0.937||Stratified Log-Rank test p-value. Stratified on ECOG Performance Status and prior Bevacizumab according to IVRS using the Cox Proportional Hazard Model. Significance threshold was set to 0.0466 using the O'Brien-Fleming alpha spending function.|Stratified Log-Rank test||Stratified on ECOG Performance Status (0 vs 1 vs 2) and prior Bevacizumab (yes vs no) according to IVRS using the Cox Proportional Hazard Model. Significance threshold was set to 0.0466 using the O'Brien-Fleming alpha spending function.|||0.937|0.713|0.0032
92329455|NCT00561470|184563459|SUPERIORITY_OR_OTHER||Stratified Hazard ratio|0.758||||7e-05|TWO_SIDED|99.99|0.578|0.995||Stratified on ECOG Performance Status (0 vs 1 vs 2) and prior Bevacizumab (yes vs no) according to IVRS|Stratified Log-Rank test||Stratified on ECOG Performance Status (0 vs 1 vs 2) and prior Bevacizumab (yes vs no) according to IVRS using the Cox Proportional Hazard Model.|||0.995|0.578|0.00007
92329456|NCT00561470|184563460|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Stratified Cochran-Mantel-Haenszel|Stratified on ECOG Performance Status (0 vs 1 vs 2) and Prior Bevacizumab (yes vs no) according to IVRS.||||||0.0001
92329457|NCT01592292|184563471|SUPERIORITY_OR_OTHER|||||||0.3037||||||Change in DAS28 at Month 6 was performed using analysis of covariance (ANCOVA) model with baseline DAS28 score and rheumatoid factor (RF) status as covariate values.|ANCOVA|||||||0.3037
92329458|NCT01592292|184563472|SUPERIORITY_OR_OTHER|||||||0.0951||||||Change in DAS28 at Month 6 was performed using ANCOVA model with baseline DAS28 score and rheumatoid factor status as covariate values.|ANCOVA|||||||0.0951
92329459|NCT01592292|184563473|SUPERIORITY_OR_OTHER|||||||0.239||||||Change in DAS28 at Month 12 was performed using ANCOVA model with baseline DAS28 score and rheumatoid factor status as covariate values.|ANCOVA|||||||0.2390
92329460|NCT01592292|184563474|SUPERIORITY_OR_OTHER|||||||0.3212||||||Change in TJC at Month 6 was performed using ANCOVA model with baseline TJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.3212
92329461|NCT01592292|184563474|SUPERIORITY_OR_OTHER|||||||0.7097||||||Change in TJC at Month 12 was performed using ANCOVA model with baseline TJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.7097
92329462|NCT01592292|184563475|SUPERIORITY_OR_OTHER|||||||0.2444||||||Change in TJC at Month 6 was performed using ANCOVA with baseline TJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.2444
92329463|NCT01592292|184563475|SUPERIORITY_OR_OTHER|||||||0.3903||||||Change in TJC at Month 12 was performed using ANCOVA model with baseline TJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.3903
92329464|NCT01592292|184563476|SUPERIORITY_OR_OTHER|||||||0.5306||||||Change in SJC at Month 6 was performed using ANCOVA model with baseline SJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.5306
92329465|NCT01592292|184563476|SUPERIORITY_OR_OTHER|||||||0.2542||||||Change in SJC at Month 12 was performed using ANCOVA model with baseline SJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.2542
92329466|NCT01592292|184563477|SUPERIORITY_OR_OTHER|||||||0.2549||||||Change in SJC at Month 6 was performed using ANCOVA model with baseline SJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.2549
92329467|NCT01592292|184563477|SUPERIORITY_OR_OTHER|||||||0.7644||||||Change in SJC at Month 12 was performed using ANCOVA model with baseline SJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.7644
92329468|NCT01592292|184563478|SUPERIORITY_OR_OTHER|||||||0.8987||||||Change in ESR at Month 6 was performed using ANCOVA model with baseline ESR and rheumatoid factor status as covariate values.|ANCOVA|||||||0.8987
92329469|NCT01592292|184563478|SUPERIORITY_OR_OTHER|||||||0.5808||||||Change in ESR at Month 12 was performed using ANCOVA model with baseline ESR and rheumatoid factor status as covariate values.|ANCOVA|||||||0.5808
92329470|NCT01592292|184563479|SUPERIORITY_OR_OTHER|||||||0.2282||||||Change in ESR at Month 6 was performed using ANCOVA model with baseline ESR and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.2282
92329471|NCT01592292|184563479|SUPERIORITY_OR_OTHER|||||||0.5849||||||Change in ESR at Month 12 was performed using ANCOVA model with baseline ESR and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.5849
92329472|NCT01592292|184563480|SUPERIORITY_OR_OTHER|||||||0.49||||||Change in CRP at Month 6 was performed using ANCOVA model with baseline CRP and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.4900
92329473|NCT01592292|184563480|SUPERIORITY_OR_OTHER|||||||0.1826||||||Change in CRP at Month 12 was performed using ANCOVA model with baseline CRP and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.1826
92329474|NCT01592292|184563481|SUPERIORITY_OR_OTHER|||||||0.1894||||||Change in CRP at Month 6 was performed using ANCOVA model with baseline CRP and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.1894
92329475|NCT01592292|184563481|SUPERIORITY_OR_OTHER|||||||0.1805||||||Change in CRP at Month 12 was performed using ANCOVA model with baseline CRP and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.1805
92329476|NCT01592292|184563482|SUPERIORITY_OR_OTHER|||||||0.0568||||||Change in HAQ-DI at Month 6 was performed using ANCOVA model with baseline rheumatoid factor status as covariate value.|ANCOVA|||||||0.0568
92329477|NCT01592292|184563483|SUPERIORITY_OR_OTHER|||||||0.1167||||||Change in HAQ-DI at Month 6 was performed using ANCOVA model with baseline rheumatoid factor status as covariate value.|ANCOVA|||||||0.1167
92329478|NCT02923245|184563493|OTHER||Mean Difference (Final Values)|49.7|||||TWO_SIDED|95.0|23.4|77.2|||||These confidence intervals correspond to the bootstrap analysis|||77.2|23.4|
92329479|NCT02923245|184563494|OTHER||Difference in percentages|15.3||||0.006|TWO_SIDED|95.0|5.3|25.0|||Test of proportions|||||25.0|5.3|0.006
92329480|NCT01712334|184563509|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of the mean percent predicted FEV1 at the end of the eRapid treatment to the mean percent predicted FEV1 at the end of the LC Plus jet nebulizer treatment. The two nebulizers were considered equivalent if the 90% CI was within 80%-125%.|Ratio (Fieller's theorem)|100.9|||||TWO_SIDED|90.0|99.5|102.3||||||||102.3|99.5|
92329481|NCT00232596|184563511|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-parametric rank analysis of covariance adjusted for baseline 28-seizure frequency and stratified by baseline seizure frequency category and region|Non-parametric rank ANCOVA|||||||<0.001
92329482|NCT00232596|184563512|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
92329483|NCT01650545|184563568|SUPERIORITY|||||||0.03|||||||Log Rank|||||||0.03
92329484|NCT02294461|184563597|SUPERIORITY_OR_OTHER_LEGACY||Unstratified Cox Proportional Hazards|0.38|||<|0.0001|TWO_SIDED|95.0|0.27|0.52|||Hazard Ratio|||P-value is based on an unstratified log-rank test. Hazard ratio calculated using unstratified Cox Proportional Hazards model with treatment as the only covariate for enzalutamide group versus placebo group.||0.52|0.27|<0.0001
92329485|NCT02294461|184563598|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7||||0.0208|TWO_SIDED|95.0|0.51|0.95||P-value is based on an unstratified log-rank test.|Unstratified log-rank test|||Participants who were not known to have had died at the analysis date were censored at date last known alive. Hazard ratio calculated using unstratified Cox Proportional Hazards model with treatment as the only covariate for enzalutamide group versus placebo group.||0.95|0.51|0.0208
92329486|NCT02294461|184563599|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.31|||<|0.0001||95.0|0.2|0.46||P-value is based on an unstratified log-rank test.|Unstratified log-rank test|||Participants who were not known to have had an rPFS event were censored at the date of the last assessment showing no objective evidence of rPFS prior to scan modality change, new antineoplastic treatment, initiation of radiation therapy for prostate cancer, skeletal-related event (SRE) and 2 or more consecutive missed tumor assessments. Hazard ratio calculated using unstratified Cox Proportional Hazards model with treatment as the only covariate for enzalutamide.||0.46|0.20|<0.0001
92329487|NCT02294461|184563600|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56||||0.2501|TWO_SIDED|95.0|0.21|1.52||P-value was based on an unstratified log-rank test.|Unstratified log-rank test|||Participants who did not have an SRE were censored at the date of the last assessment indicating no evidence of SRE. Hazard ratio calculated using unstratified Cox Proportional Hazards model with treatment as the only covariate for enzalutamide group versus placebo group.||1.52|0.21|0.2501
92329488|NCT02294461|184563601|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.28||||0.002||95.0|0.12|0.66||P-value is based on an unstratified log-rank test.|Unstratified log-rank test|||Participants who did not start cytotoxic chemotherapy were censored at the date of the last assessment indicating no evidence of cytotoxic chemotherapy usage. Hazard ratio calculated using unstratified Cox Proportional Hazards model with treatment as the only covariate for enzalutamide group versus placebo group.||0.66|0.12|0.0020
92329489|NCT02294461|184563602|SUPERIORITY_OR_OTHER_LEGACY||Difference of response rate|55.8|||<|0.0001|TWO_SIDED|95.0|47.4|64.2||P-value is based on unstratified Cochran-Mantel-Haenszel mean score test.|Unstratified Cochran-Mantel-Haenszel %|||||64.2|47.4|<0.0001
92329490|NCT02294461|184563603|SUPERIORITY_OR_OTHER_LEGACY||Difference in objective response rate|26.0|||<|0.0001|TWO_SIDED|95.0|14.7|37.4||P-value is based on unstratified Cochran-Mantel-Haenszel mean score test.|Unstratified Cochran-Mantel-Haenszel|||When deriving the response category, it was based on the target, non-target and new lesions without confirming CR, PR, and Progressive disease (PD). Participants with no post baseline assessment were included in the category of Nonevaluable (NE). The best overall soft tissue objective response was defined as PR or CR based on the investigator assessments of target, non-target and new lesions while on the study treatment.||37.4|14.7|<0.0001
92329491|NCT00869557|184563758|NON_INFERIORITY_OR_EQUIVALENCE|"A total sample size of 75 participants randomized in a 2:1 ratio had 26% power to evaluate noninferiority with respect to the response rate of HIV-1 RNA \< 50 copies/mL at Week 24 if a response rate of 84% for both treatment groups and a noninferiority margin of 0.12 were assumed.~A total of 71 participants were enrolled in the study (4 fewer than planned)."|Difference in the response rates (%)|2.8|||||TWO_SIDED|95.0|-14.5|20.1|||||The 95% confidence interval was computed using normal approximation stratified by baseline HIV-1 RNA stratum (≤ 100,000 or \> 100,000 copies/mL).|The null hypothesis was that the response rate (proportion of participants with HIV-1 RNA \< 50 copies/mL at Week 24) in the Stribild group was at least 12% worse than the response rate in Atripla group; the alternative hypothesis was that the response rate in the Stribild group was less than 12% worse than that in the Atripla group.||20.1|-14.5|
92329492|NCT01472939|184563764|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.06||||0.128|TWO_SIDED|95.0|-1.743|13.862|||Mixed Models Repeated Measures Analysis|||||13.862|-1.743|0.128
92329493|NCT01472939|184563764|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.42||||0.062|TWO_SIDED|95.0|-0.378|15.212|||Mixed Models Repeated Measures Analysis|||||15.212|-0.378|0.062
92329494|NCT01472939|184563764|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.83||||0.65|TWO_SIDED|95.0|-6.1|9.765|||Mixed Models Repeated Measures Analysis|||||9.765|-6.100|0.650
92329495|NCT01472939|184563765|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.75||||0.102|TWO_SIDED|95.0|-1.344|14.85|||Mixed Models Repeated Measures Analysis|||||14.850|-1.344|0.102
92329496|NCT01472939|184563765|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.92||||0.031|TWO_SIDED|95.0|0.814|17.021|||Mixed Models Repeated Measures Analysis|||||17.021|0.814|0.031
92329497|NCT01472939|184563765|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.71||||0.175|TWO_SIDED|95.0|-2.54|13.957|||Mixed Models Repeated Measures Analysis|||||13.957|-2.540|0.175
92329498|NCT01472939|184563766|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.47||||0.064|TWO_SIDED|95.0|-5.087|0.141|||Mixed Models Repeated Measures Analysis|||||0.141|-5.087|0.064
92329499|NCT01472939|184563766|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2||||0.017|TWO_SIDED|95.0|-5.818|-0.573|||Mixed Models Repeated Measures Analysis|||||-0.573|-5.818|0.017
92329500|NCT01472939|184563766|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.15||||0.114|TWO_SIDED|95.0|-4.813|0.519|||Mixed Models Repeated Measures Analysis|||||0.519|-4.813|0.114
92329501|NCT01492101|184563781|OTHER|Two-sided log-rank test, stratified by geographic region, prior use of eribulin, and receptor status.|Hazard Ratio, log|0.872|||=|0.0835|TWO_SIDED|95.0|0.747|1.019|||Log Rank|||||1.019|0.747|= 0.0835
92329502|NCT01492101|184563782|SUPERIORITY||Hazard Ratio (HR)|0.926|||=|0.3017|TWO_SIDED|95.0|0.798|1.075|||Log Rank|||||1.075|0.798|= 0.3017
92329503|NCT01492101|184563787|EQUIVALENCE|\[2\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.8||||0.635|TWO_SIDED|95.0|-2.65|4.33|||F-test|||Global health status/QoL: change from baseline to last assessment (Week 56)||4.33|-2.65|0.635
92329504|NCT01492101|184563787|EQUIVALENCE|\[3\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|2.1||||0.1656|TWO_SIDED|95.0|-0.88|5.14|||F-test|||||5.14|-0.88|0.1656
92329505|NCT01492101|184563787|EQUIVALENCE|\[4\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Median Difference (Final Values)|0.5||||0.8356|TWO_SIDED|95.0|-3.9|4.82|||F-test|||||4.82|-3.9|0.8356
92329506|NCT01492101|184563787|EQUIVALENCE|\[5\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.5||||0.7727|TWO_SIDED|95.0|-2.88|3.88|||F-test|||||3.88|-2.88|0.7727
92329507|NCT01492101|184563787|EQUIVALENCE|\[6\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.5||||0.7446|TWO_SIDED|95.0|-2.56|3.59|||F-test|||||3.59|-2.56|0.7446
92329508|NCT01492101|184563787|EQUIVALENCE|\[7\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.2||||0.9169|TWO_SIDED|95.0|-4.0|4.45|||F-test|||||4.45|-4.0|0.9169
92329509|NCT01492101|184563787|EQUIVALENCE|\[8\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.1||||0.9731|TWO_SIDED|95.0|-3.66|3.79|||F-test|||||3.79|-3.66|0.9731
92329510|NCT01492101|184563787|EQUIVALENCE|\[9\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|7.3|||<|0.0001|TWO_SIDED|95.0|3.88|10.67|||F-test|||||10.67|3.88|<0.0001
92329511|NCT01492101|184563787|EQUIVALENCE|\[10\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-2.8||||0.1252|TWO_SIDED|95.0|-7.59|0.93|||F-test|||||0.93|-7.59|0.1252
92329512|NCT01492101|184563787|EQUIVALENCE|\[11\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-2.8||||0.1717|TWO_SIDED|95.0|-6.83|1.22|||F-test|||||1.22|-6.83|0.1717
92329513|NCT01492101|184563787|EQUIVALENCE|\[12\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-1.4||||0.5513|TWO_SIDED|95.0|-5.95|3.18|||F-test|||||3.18|-5.95|0.5513
92329514|NCT01492101|184563787|EQUIVALENCE|\[13\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|8.6||||0.0009|TWO_SIDED|95.0|3.57|13.72|||F-test|||||13.72|3.57|0.0009
92329515|NCT01492101|184563787|EQUIVALENCE|\[14\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-2.8||||0.2337|TWO_SIDED|95.0|-7.35|1.8|||F-test|||||1.8|-7.35|0.2337
92329516|NCT01492101|184563787|EQUIVALENCE|\[15\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|10.3|||<|0.0001|TWO_SIDED|95.0|6.6|13.98|||F-test|||||13.98|6.6|<0.0001
92329517|NCT01492101|184563787|EQUIVALENCE|\[16\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|95.0|-3.74|3.69|||F-test|||||3.69|-3.74|0.99
92329518|NCT01492101|184563789|EQUIVALENCE|\[17\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.9||||0.5833|TWO_SIDED|95.0|-2.42|4.29|||F-test|||||4.29|-2.42|0.5833
92329519|NCT01492101|184563789|EQUIVALENCE|\[18\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|1.3||||0.3098|TWO_SIDED|95.0|-1.24|3.9|||F-test|||||3.9|-1.24|0.3098
92329520|NCT01492101|184563789|EQUIVALENCE|\[19\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|1.1||||0.6264|TWO_SIDED|95.0|-3.39|5.63|||F-test|||||5.63|-3.39|0.6264
92329521|NCT01492101|184563789|EQUIVALENCE|\[20\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-4.6||||0.0003|TWO_SIDED|95.0|-7.11|-2.1|||F-test|||||-2.1|-7.11|0.0003
92329522|NCT01492101|184563789|EQUIVALENCE|\[21\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-1.4||||0.2473|TWO_SIDED|95.0|-3.84|0.99|||F-test|||||0.99|-3.84|0.2473
92329523|NCT01492101|184563789|EQUIVALENCE|\[22\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-2.9||||0.0333|TWO_SIDED|95.0|-5.54|-0.23|||F-test|||||-0.23|-5.54|0.0333
92329524|NCT01492101|184563789|EQUIVALENCE|\[23\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-4.5||||0.2575|TWO_SIDED|95.0|-12.2|3.28|||F-test|||||3.28|-12.2|0.2575
92329525|NCT01492101|184563789|EQUIVALENCE|\[24\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|5.6||||0.1072|TWO_SIDED|95.0|-1.22|12.34|||F-test|||||12.34|-1.22|0.1072
92329526|NCT01004432|184563794|SUPERIORITY_OR_OTHER||Percentage achive ACR 20 response|34.9|||<|0.0001|TWO_SIDED|95.0|30.4|39.4||One sided test adjusting for conducting one interim analysis|Chi-squared|||null hypothesis: proportion \<=0.2||39.4|30.4|<0.0001
92329527|NCT01149421|184563810|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|-2.79|||<|0.001|TWO_SIDED|97.3|-4.58|-1.0||P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||-1.00|-4.58|<0.001
92329528|NCT01149421|184563810|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|-1.07|||<|0.001|TWO_SIDED|97.3|-2.83|0.68||P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||0.68|-2.83|<0.001
92329529|NCT01149421|184563810|SUPERIORITY_OR_OTHER||||||<|0.001||||||Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||<0.001
92329530|NCT01149421|184563810|SUPERIORITY_OR_OTHER|||||||0.149||||||Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.149
92329531|NCT01149421|184563811|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|-2.66|||<|0.001|TWO_SIDED|97.3|-4.53|-0.79||P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||-0.79|-4.53|<0.001
92329532|NCT01149421|184563811|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|-1.71|||<|0.001|TWO_SIDED|97.3|-3.54|0.12||P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||0.12|-3.54|<0.001
92329533|NCT01149421|184563811|SUPERIORITY_OR_OTHER|||||||0.002||||||Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.002
92329534|NCT01149421|184563811|SUPERIORITY_OR_OTHER|||||||0.36||||||Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.36
92329535|NCT01149421|184563812|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|0.32|||<|0.001|TWO_SIDED|97.3|-0.8|1.43||Treatment comparison at 16 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||1.43|-0.80|<0.001
92329536|NCT01149421|184563812|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|0.42|||<|0.001|TWO_SIDED|97.3|-0.67|1.52||Treatment comparison at 16 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||1.52|-0.67|<0.001
92329537|NCT01149421|184563812|SUPERIORITY_OR_OTHER|||||||0.87||||||Treatment comparison at 16 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.870
92329538|NCT01149421|184563812|SUPERIORITY_OR_OTHER|||||||0.915||||||Treatment comparison at 16 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.915
92329539|NCT01149421|184563812|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|0.5|||<|0.001|TWO_SIDED|97.3|-0.68|1.68||Treatment comparison at 26 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||1.68|-0.68|<0.001
92329540|NCT01149421|184563812|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|0.16|||<|0.001|TWO_SIDED|97.3|-1.0|1.31||Treatment comparison at 26 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||1.31|-1.00|<0.001
92329541|NCT01149421|184563812|SUPERIORITY_OR_OTHER|||||||0.929||||||Treatment comparison at 26 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.929
92329542|NCT01149421|184563812|SUPERIORITY_OR_OTHER|||||||0.776||||||Treatment comparison at 26 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.776
92329543|NCT01149421|184563813|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|2.84||||0.556|TWO_SIDED|97.3|1.52|4.16||Treatment comparison at 16 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||4.16|1.52|0.556
92329544|NCT01149421|184563813|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|1.62||||0.018|TWO_SIDED|97.3|0.32|2.92||Treatment comparison at 16 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||2.92|0.32|0.018
92329545|NCT01149421|184563813|SUPERIORITY_OR_OTHER|||||||1||||||Treatment comparison at 16 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||1.00
92329546|NCT01149421|184563813|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|3.5||||0.904|TWO_SIDED|97.3|2.1|4.91||Treatment comparison at 26 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||4.91|2.10|0.904
92329547|NCT01149421|184563813|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|1.26||||0.005|TWO_SIDED|97.3|-0.13|2.64||Treatment comparison at 26 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||2.64|-0.13|0.005
92329548|NCT01149421|184563813|SUPERIORITY_OR_OTHER|||||||0.996||||||Treatment comparison at 26 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.996
92329549|NCT01149421|184563814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.05|||<|0.001|TWO_SIDED|95.0|-4.0|-2.09||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||-2.09|-4.00|<0.001
92329550|NCT01149421|184563814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58||||0.001|TWO_SIDED|95.0|-2.51|-0.64||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||-0.64|-2.51|0.001
92329551|NCT01149421|184563814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|||<|0.001|TWO_SIDED|95.0|-4.1|-2.09||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||-2.09|-4.10|<0.001
92329552|NCT01149421|184563814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99|||<|0.001|TWO_SIDED|95.0|-2.98|-1.0||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||-1.00|-2.98|<0.001
92329553|NCT01149421|184563815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.218|TWO_SIDED|95.0|-1.84|0.42||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||0.42|-1.84|0.218
92329554|NCT01149421|184563815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.931|TWO_SIDED|95.0|-1.16|1.06||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||1.06|-1.16|0.931
92329555|NCT01149421|184563815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.315|TWO_SIDED|95.0|-1.72|0.55||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||0.55|-1.72|0.315
92329556|NCT01149421|184563815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.465|TWO_SIDED|95.0|-1.54|0.7||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||0.70|-1.54|0.465
92329557|NCT01149421|184563816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.33|||<|0.001|TWO_SIDED|95.0|-5.04|-1.61||Treatment comparison of mean daytime systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||-1.61|-5.04|<0.001
92329558|NCT01149421|184563816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.23||||0.153|TWO_SIDED|95.0|-2.91|0.46||Treatment comparison of mean daytime systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||0.46|-2.91|0.153
92329559|NCT01149421|184563816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.87||||0.002|TWO_SIDED|95.0|-4.66|-1.09||Treatment comparison of mean daytime systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||-1.09|-4.66|0.002
92329560|NCT01149421|184563816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.82||||0.042|TWO_SIDED|95.0|-3.57|-0.07||Treatment comparison of mean daytime systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||-0.07|-3.57|0.042
92329561|NCT01149421|184563816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.221|TWO_SIDED|95.0|-3.23|0.75||Treatment comparison of mean nighttime systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||0.75|-3.23|0.221
92329562|NCT01149421|184563816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.884|TWO_SIDED|95.0|-2.1|1.81||Treatment comparison of mean nighttime systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||1.81|-2.10|0.884
92329563|NCT01149421|184563816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35||||0.19|TWO_SIDED|95.0|-4.31|-0.39||Treatment comparison of mean nighttime systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||-0.39|-4.31|0.19
92329564|NCT01149421|184563816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38||||0.159|TWO_SIDED|95.0|-3.31|0.54||Treatment comparison of mean nighttime systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||0.54|-3.31|0.159
92329565|NCT01149421|184563816|SUPERIORITY_OR_OTHER|||||||0.122||||||Treatment comparison of mean clinic systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||||0.122
92329566|NCT01149421|184563816|SUPERIORITY_OR_OTHER|||||||0.601||||||Treatment comparison of mean clinic systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||||0.601
92329567|NCT01149421|184563816|SUPERIORITY_OR_OTHER|||||||0.012||||||Treatment comparison of mean clinic systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||||0.012
92329568|NCT01149421|184563816|SUPERIORITY_OR_OTHER|||||||0.274||||||Treatment comparison of mean clinic systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||||0.274
92329569|NCT01149421|184563817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.717|TWO_SIDED|95.0|-0.91|1.32||Treatment comparison of mean daytime diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||1.32|-0.91|0.717
92329570|NCT01149421|184563817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.427|TWO_SIDED|95.0|-0.65|1.54||Treatment comparison of mean daytime diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||1.54|-0.65|0.427
92329571|NCT01149421|184563817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.3|TWO_SIDED|95.0|-0.53|1.73||Treatment comparison of mean daytime diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||1.73|-0.53|0.300
92329572|NCT01149421|184563817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.788|TWO_SIDED|95.0|-0.96|1.26||Treatment comparison of mean daytime diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||1.26|-0.96|0.788
92329573|NCT01149421|184563817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08||||0.098|TWO_SIDED|95.0|-0.2|2.37||Treatment comparison of mean nighttime diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||2.37|-0.20|0.098
92329574|NCT01149421|184563817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82||||0.203|TWO_SIDED|95.0|-0.44|2.08||Treatment comparison of mean nighttime diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||2.08|-0.44|0.203
92329575|NCT01149421|184563817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.493|TWO_SIDED|95.0|-0.88|1.82||Treatment comparison of mean nighttime diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||1.82|-0.88|0.493
92329576|NCT01149421|184563817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.692|TWO_SIDED|95.0|-1.06|1.6||Treatment comparison of mean nighttime diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||1.60|-1.06|0.692
92329577|NCT01149421|184563817|SUPERIORITY_OR_OTHER|||||||0.99||||||Treatment comparison of mean clinic diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||||0.990
92329578|NCT01149421|184563817|SUPERIORITY_OR_OTHER|||||||0.173||||||Treatment comparison of mean clinic diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||||0.173
92329579|NCT01149421|184563817|SUPERIORITY_OR_OTHER|||||||0.972||||||Treatment comparison of mean clinic diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||||0.972
92329580|NCT01149421|184563817|SUPERIORITY_OR_OTHER|||||||0.904||||||Treatment comparison of mean clinic diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||||0.904
92329581|NCT01149421|184563818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.49|||<|0.001|TWO_SIDED|95.0|1.17|3.8||Treatment comparison of mean daytime heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||3.80|1.17|<0.001
92329582|NCT01149421|184563818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.15||||0.08|TWO_SIDED|95.0|-0.14|2.45||Treatment comparison of mean daytime heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||2.45|-0.14|0.080
92329583|NCT01149421|184563818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.57|||<|0.001|TWO_SIDED|95.0|2.23|4.91||Treatment comparison of mean daytime heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||4.91|2.23|<0.001
92329584|NCT01149421|184563818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92||||0.168|TWO_SIDED|95.0|-0.39|2.24||Treatment comparison of mean daytime heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||2.24|-0.39|0.168
92329585|NCT01149421|184563818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95|||<|0.001|TWO_SIDED|95.0|2.62|5.28||Treatment comparison of mean nighttime heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||5.28|2.62|<0.001
92329586|NCT01149421|184563818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.78|||<|0.001|TWO_SIDED|95.0|1.47|4.09||Treatment comparison of mean nighttime heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||4.09|1.47|<0.001
92329587|NCT01149421|184563818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.98|||<|0.001|TWO_SIDED|95.0|2.49|5.47||Treatment comparison of mean nighttime heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||5.47|2.49|<0.001
92329588|NCT01149421|184563818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.24||||0.003|TWO_SIDED|95.0|0.78|3.7||Treatment comparison of mean nighttime heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||3.70|0.78|0.003
92329589|NCT01149421|184563818|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of mean clinic heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||||<0.001
92329590|NCT01149421|184563818|SUPERIORITY_OR_OTHER|||||||0.014||||||Treatment comparison of mean clinic heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||||0.014
92329591|NCT01149421|184563818|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of mean clinic heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||||<0.001
92329592|NCT01149421|184563818|SUPERIORITY_OR_OTHER|||||||0.005||||||Treatment comparison of mean clinic heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||||0.005
92329593|NCT01149421|184563819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47|||<|0.001|TWO_SIDED|95.0|-4.5|-2.43||Treatment comparison of mean daytime pulse pressure (PP) at 16 weeks.|Mixed Models Analysis|||||-2.43|-4.50|<0.001
92329594|NCT01149421|184563819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77|||<|0.001|TWO_SIDED|95.0|-2.79|-0.75||Treatment comparison of mean daytime pulse pressure (PP) at 16 weeks.|Mixed Models Analysis|||||-0.75|-2.79|<0.001
92329595|NCT01149421|184563819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4|||<|0.001|TWO_SIDED|95.0|-4.52|-2.28||Treatment comparison of mean daytime pulse pressure (PP) at 26 weeks.|Mixed Models Analysis|||||-2.28|-4.52|<0.001
92329596|NCT01149421|184563819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13|||<|0.001|TWO_SIDED|95.0|-3.23|-1.03||Treatment comparison of mean daytime pulse pressure (PP) at 26 weeks.|Mixed Models Analysis|||||-1.03|-3.23|<0.001
92329597|NCT01149421|184563819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.25|||<|0.001|TWO_SIDED|95.0|-3.43|-1.07||Treatment comparison of mean nighttime pulse pressure (PP) at 16 weeks.|Mixed Models Analysis|||||-1.07|-3.43|<0.001
92329598|NCT01149421|184563819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93||||0.113|TWO_SIDED|95.0|-2.09|0.22||Treatment comparison of mean nighttime pulse pressure (PP) at 16 weeks.|Mixed Models Analysis|||||0.22|-2.09|0.113
92329599|NCT01149421|184563819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74|||<|0.001|TWO_SIDED|95.0|-3.86|-1.62||Treatment comparison of mean nighttime pulse pressure (PP) at 26 weeks.|Mixed Models Analysis|||||-1.62|-3.86|<0.001
92329600|NCT01149421|184563819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.61||||0.004|TWO_SIDED|95.0|-2.72|-0.51||Treatment comparison of mean nighttime pulse pressure (PP) at 26 weeks.|Mixed Models Analysis|||||-0.51|-2.72|0.004
92329601|NCT01149421|184563820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97||||0.128|TWO_SIDED|95.0|-2.22|0.28||Treatment comparison of mean daytime mean arterial pressure (MAP) at 16 weeks.|Mixed Models Analysis|||||0.28|-2.22|0.128
92329602|NCT01149421|184563820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.883|TWO_SIDED|95.0|-1.32|1.13||Treatment comparison of mean daytime mean arterial pressure (MAP) at 16 weeks.|Mixed Models Analysis|||||1.13|-1.32|0.883
92329603|NCT01149421|184563820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.39|TWO_SIDED|95.0|-1.84|0.72||Treatment comparison of mean daytime mean arterial pressure (MAP) at 26 weeks.|Mixed Models Analysis|||||0.72|-1.84|0.390
92329604|NCT01149421|184563820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.463|TWO_SIDED|95.0|-1.72|0.79||Treatment comparison of mean daytime mean arterial pressure (MAP) at 26 weeks.|Mixed Models Analysis|||||0.79|-1.72|0.463
92329605|NCT01149421|184563820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.671|TWO_SIDED|95.0|-1.13|1.76||Treatment comparison of mean nighttime mean arterial pressure (MAP) at 16 weeks.|Mixed Models Analysis|||||1.76|-1.13|0.671
92329606|NCT01149421|184563820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.471|TWO_SIDED|95.0|-0.9|1.95||Treatment comparison of mean nighttime mean arterial pressure (MAP) at 16 weeks.|Mixed Models Analysis|||||1.95|-0.90|0.471
92329607|NCT01149421|184563820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.543|TWO_SIDED|95.0|-1.95|1.03||Treatment comparison of mean nighttime mean arterial pressure (MAP) at 26 weeks.|Mixed Models Analysis|||||1.03|-1.95|0.543
92329608|NCT01149421|184563820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.728|TWO_SIDED|95.0|-1.72|1.2||Treatment comparison of mean nighttime mean arterial pressure (MAP) at 26 weeks.|Mixed Models Analysis|||||1.20|-1.72|0.728
92329609|NCT01149421|184563833|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||||<0.001
92329610|NCT01149421|184563833|SUPERIORITY_OR_OTHER|||||||0.005||||||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||||0.005
92329611|NCT01149421|184563833|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||<0.001
92329612|NCT01149421|184563833|SUPERIORITY_OR_OTHER|||||||0.012||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||0.012
92329613|NCT04108988|184563839|SUPERIORITY|||||||0.248|||||||Chi-squared|||P value at 4 months||||0.248
92329614|NCT04108988|184563839|SUPERIORITY|||||||0.022|||||||Chi-squared|||P value at 1 month||||0.022
92329615|NCT04108988|184563839|SUPERIORITY|||||||0.193|||||||Chi-squared|||P value at baseline||||0.193
92329616|NCT04108988|184563840|SUPERIORITY|||||||0.246|||||||Chi-squared|||P value at 4 months||||0.246
92329617|NCT04108988|184563840|SUPERIORITY|||||||0.467|||||||Chi-squared|||P value at 1 month||||0.467
92329618|NCT04108988|184563840|SUPERIORITY|||||||0.55|||||||Chi-squared|||P value at baseline||||0.550
92329619|NCT04108988|184563841|SUPERIORITY|||||||0.596|||||||Chi-squared|||P value at month 4||||0.596
92329620|NCT04108988|184563841|SUPERIORITY|||||||0.974|||||||Chi-squared|||P value at 1 month||||0.974
92329621|NCT04108988|184563841|SUPERIORITY|||||||0.651|||||||Chi-squared|||P value at baseline.||||0.651
92329622|NCT04108988|184563842|SUPERIORITY|||||||0.089|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.089
92329623|NCT04108988|184563843|SUPERIORITY|||||||0.095|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.095
92329624|NCT04108988|184563844|SUPERIORITY|||||||0.136|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.136
92329625|NCT04108988|184563845|SUPERIORITY|||||||0.133|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.133
92329626|NCT04108988|184563846|SUPERIORITY|||||||0.21|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.210
92329627|NCT04108988|184563847|SUPERIORITY|||||||0.392|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.392
92329628|NCT04108988|184563848|SUPERIORITY|||||||0.411|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.411
92329629|NCT04108988|184563849|SUPERIORITY|||||||0.294|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.294
92329630|NCT04108988|184563850|SUPERIORITY|||||||0.031|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.031
92329631|NCT04108988|184563851|SUPERIORITY|||||||0.262|||||||ANOVA|Test for the interaction between treatment and time||Test of interaction with treatment and time.||||0.262
92329632|NCT04108988|184563852|SUPERIORITY|||||||0.116|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.116
92329633|NCT04108988|184563853|SUPERIORITY|||||||0.016|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.016
92329634|NCT04108988|184563854|SUPERIORITY|||||||0.667|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.667
92329635|NCT04108988|184563855|SUPERIORITY|||||||0.09|||||||Chi-squared|||P value at month 4||||0.09
92329636|NCT04108988|184563855|SUPERIORITY|||||||0.72|||||||Chi-squared|||P value 1 month||||0.72
92329637|NCT04108988|184563855|SUPERIORITY|||||||0.97|||||||Chi-squared|||P value at baseline||||0.97
92329638|NCT04108988|184563856|SUPERIORITY|||||||0.53|||||||Chi-squared|||P value at month 4||||0.53
92329639|NCT04108988|184563856|SUPERIORITY|||||||0.303|||||||Chi-squared|||P value at month 1||||0.303
92329640|NCT04108988|184563856|SUPERIORITY|||||||0.042|||||||Chi-squared|||P value at baseline.||||0.042
92329641|NCT04108988|184563857|SUPERIORITY|||||||0.246|||||||Chi-squared|||P value at month 4.||||0.246
92329642|NCT04108988|184563857|SUPERIORITY|||||||0.467|||||||Chi-squared|||P value at month 1.||||0.467
92329643|NCT04108988|184563857|SUPERIORITY|||||||0.55|||||||Chi-squared|||P value at baseline.||||0.55
92329644|NCT04108988|184563858|SUPERIORITY|||||||0.987|||||||Chi-squared|||P value at month 4.||||0.987
92329645|NCT04108988|184563858|SUPERIORITY|||||||0.898|||||||Chi-squared|||P value at month 1.||||0.898
92329646|NCT04108988|184563858|SUPERIORITY|||||||0.238|||||||Chi-squared|||P value at baseline.||||0.238
92329647|NCT04108988|184563859|SUPERIORITY|||||||0.148|||||||Chi-squared|||P value at month 4.||||0.148
92329648|NCT04108988|184563859|SUPERIORITY|||||||0.557|||||||Chi-squared|||P value at month 1.||||0.557
92329649|NCT04108988|184563860|SUPERIORITY|||||||0.653|||||||Chi-squared|||||||0.653
92329650|NCT04108988|184563861|SUPERIORITY|||||||0.977|||||||Chi-squared|||||||0.977
92329651|NCT04108988|184563862|SUPERIORITY|||||||0.735|||||||t-test, 2 sided|||P value at month 4.||||0.735
92329652|NCT04108988|184563862|SUPERIORITY|||||||0.159|||||||t-test, 2 sided|||P value at month 1.||||0.159
92329653|NCT04108988|184563863|SUPERIORITY|||||||3.19|||||||t-test, 2 sided|||P value at month 4.||||3.19
92329654|NCT04108988|184563863|SUPERIORITY|||||||0.487|||||||t-test, 2 sided|||P value at month 1.||||0.487
92329655|NCT04108988|184563863|SUPERIORITY|||||||0.165|||||||t-test, 2 sided|||P value at baseline.||||0.165
92329656|NCT04108988|184563864|SUPERIORITY|||||||0.473|||||||t-test, 2 sided|||P value at month 4.||||0.473
92329657|NCT04108988|184563864|SUPERIORITY|||||||0.316|||||||t-test, 2 sided|||P value at month 1.||||0.316
92329658|NCT04108988|184563864|SUPERIORITY|||||||0.345|||||||t-test, 2 sided|||P value at baseline.||||0.345
92329659|NCT04108988|184563865|SUPERIORITY|||||||0.141|||||||t-test, 2 sided|||P value at month 4.||||0.141
92329660|NCT04108988|184563865|SUPERIORITY|||||||0.314|||||||t-test, 2 sided|||P value at month 1.||||0.314
92329661|NCT04108988|184563865|SUPERIORITY|||||||0.444|||||||t-test, 2 sided|||P value at baseline.||||0.444
92329662|NCT04007107|184564049|OTHER|Comparison|Estimated treatment difference|30.7|||<|0.0001|TWO_SIDED|95.0|26.6|34.8|||ANOVA|||The intensity of pain was analysed by a fixed analysis of variance model with VAS score as the dependent variable, and product, injection side (right side, left side), injection number (first injection, second injection), and participant as fixed effects.||34.8|26.6|<0.0001
92329663|NCT00426660|184564073|SUPERIORITY_OR_OTHER||75th percentile (median)|169.0|||||TWO_SIDED|95.0|135.0|178.0||||||||178.0|135.0|
92329664|NCT00426660|184564073|SUPERIORITY_OR_OTHER||50th percentile (median)|86.5|||||TWO_SIDED|95.0|82.0|92.0||||||||92.0|82.0|
92329665|NCT00426660|184564073|SUPERIORITY_OR_OTHER||25th percentile (median)|58.0|||||TWO_SIDED|95.0|57.0|62.0||||||||62.0|57.0|
92329666|NCT00980174|184564078|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.8|||<|0.0001|TWO_SIDED|95.0|4.0|5.6|||ANCOVA|Adjusted by level of baseline bone mineral density T-score|Denosumab - Placebo|||5.6|4.0|<0.0001
92329667|NCT00980174|184564079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|||<|0.0001|TWO_SIDED|95.0|1.5|2.6||p-value is adjusted for multiple comparisons by Hochberg method|ANCOVA|Adjusted by level of baseline bone mineral density T-score|Denosumab - Placebo|||2.6|1.5|<0.0001
92329668|NCT00980174|184564080|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2|||<|0.0001|TWO_SIDED|95.0|1.3|3.0||p-value is adjusted for multiple comparisons by Hochberg method|ANCOVA|Adjusted by level of baseline bone mineral density T-score|Denosumab - Placebo|||3.0|1.3|<0.0001
92329669|NCT00980174|184564081|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3|||<|0.0001|TWO_SIDED|95.0|1.4|3.2||p-value is adjusted for multiple comparisons by Hochberg method|ANCOVA|Adjusted by level of baseline bone mineral density T-score|Denosumab - Placebo|||3.2|1.4|<0.0001
92329670|NCT00980174|184564082|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.9||||0.0144|TWO_SIDED|95.0|0.2|1.6||p-value is adjusted for multiple comparisons by Hochberg method|ANCOVA|Adjusted by level of baseline bone mineral density T-score|Denosumab - Placebo|||1.6|0.2|0.0144
92329671|NCT00980174|184564083|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value is adjusted for multiple comparisons by Hochberg method|Van Elteren Rank Test|Adjusted by level of baseline bone mineral density T-score||||||<0.0001
92329672|NCT03114657|184564084|SUPERIORITY||Least Squares Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.633|||TWO_SIDED|95.0|0.0|2.6||||||||2.60|0.00|
92329673|NCT03114657|184564085|SUPERIORITY||Least Squares Mean Difference|1.74|STANDARD_ERROR_OF_MEAN|2.028|||TWO_SIDED|95.0|-2.4|5.89||||||||5.89|-2.40|
92329674|NCT03114657|184564086|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|2.124|||TWO_SIDED|95.0|-4.03|4.68||||||||4.68|-4.03|
92329675|NCT03114657|184564087|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|95.0|-0.2|0.39||||||||0.39|-0.20|
92329676|NCT03114657|184564088|SUPERIORITY||Least Squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.985|||TWO_SIDED|95.0|-2.42|1.6||||||||1.60|-2.42|
92329677|NCT03114657|184564089|SUPERIORITY||Least Squares Mean Difference|-2.52|STANDARD_ERROR_OF_MEAN|3.052|||TWO_SIDED|95.0|-8.74|3.7||||||||3.70|-8.74|
92329678|NCT03114657|184564090|SUPERIORITY||Least Squares Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|2.501|||TWO_SIDED|95.0|-6.29|3.92||||||||3.92|-6.29|
92329679|NCT03114657|184564091|SUPERIORITY||Least Squares Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|1.42|||TWO_SIDED|95.0|-2.25|3.51||||||||3.51|-2.25|
92329680|NCT03114657|184564093|SUPERIORITY||Least Squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.502|||TWO_SIDED|95.0|-1.75|0.23||||||||0.23|-1.75|
92329681|NCT03114657|184564094|SUPERIORITY||Least Squares Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|1.383|||TWO_SIDED|95.0|-3.3|2.39||||||||2.39|-3.30|
92329682|NCT03114657|184564095|SUPERIORITY||Least Squares Mean Difference|6.55|STANDARD_ERROR_OF_MEAN|5.527|||TWO_SIDED|95.0|-4.35|17.44||||||||17.44|-4.35|
92329683|NCT03114657|184564096|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|5.831|||TWO_SIDED|95.0|-12.31|11.71||||||||11.71|-12.31|
92329684|NCT03114657|184564097|SUPERIORITY||Least Squares Mean Difference|-3.38|STANDARD_ERROR_OF_MEAN|3.94|||TWO_SIDED|95.0|-11.5|4.73||||||||4.73|-11.50|
92329685|NCT03114657|184564103|SUPERIORITY||Least Squares Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.622|||TWO_SIDED|95.0|-2.01|0.89||||||||0.89|-2.01|
92329686|NCT03114657|184564104|SUPERIORITY||Least Squares Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.668|||TWO_SIDED|95.0|-1.7|4.9||||||||4.90|-1.70|
92329687|NCT03114657|184564105|SUPERIORITY||Least Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.373|||TWO_SIDED|95.0|-1.13|0.41||||||||0.41|-1.13|
92329688|NCT01546038|184564108|OTHER||Hazard Ratio (HR)|0.569||||0.002|TWO_SIDED|80.0|0.441|0.734||1-sided p-value from the log-rank test stratified by prognosis stratum according to Interactive Voice Response System (IVRS).|Log Rank||Based on the Cox proportional hazards model stratified by prognosis stratum according to IVRS.|||0.734|0.441|0.0020
92329689|NCT01546038|184564112|OTHER||Odds Ratio (OR)|4.2755||||0.0112|TWO_SIDED|80.0|1.3057|13.9994|||Cochran-Mantel-Haenszel||Based on the Cox proportional hazards model stratified by prognosis stratum according to IVRS.|||13.9994|1.3057|0.0112
92329690|NCT04245202|184564176|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92329691|NCT04245202|184564177|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
92329692|NCT04245202|184564178|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
92329693|NCT04245202|184564179|OTHER||Mean Difference (Net)|-12.29|STANDARD_DEVIATION|5.72|<|0.001|TWO_SIDED|95.0|-23.53|-1.05||The p-Value of the interaction between time and groups was given. In all analyses, p values \<0·05 were considered being statistically significant.|Mixed Models Analysis||Treatment difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|||-1.05|-23.53|<0.001
92329694|NCT04245202|184564180|OTHER||Mean Difference (Net)|-12.66|STANDARD_DEVIATION|4.77|<|0.001|TWO_SIDED|95.0|-22.05|-3.28|||Mixed Models Analysis||Treatment difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|The p-Value of the interaction between time and groups was given. In all analyses, p values \<0·05 were considered being statistically significant.||-3.28|-22.05|<0.001
92329695|NCT04245202|184564181|OTHER||Mean Difference (Net)|-3.91|STANDARD_DEVIATION|2.43|<|0.001|TWO_SIDED|95.0|-8.68|0.86||The p-Value of the interaction between time and groups was given. In all analysis, p values \<0.05 were considered being statistically significant.|Mixed Models Analysis||Treatment difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|||0.86|-8.68|<0.001
92329696|NCT04245202|184564182|OTHER||Mean Difference (Net)|-2.41|STANDARD_DEVIATION|2.14||0.003|TWO_SIDED|95.0|-6.62|1.78|||Mixed Models Analysis||Treatment difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|The p-Value of the interaction between time and groups was given. In all analysis, p values \<0.05 were considered being statistically significant.||1.78|-6.62|0.003
92329697|NCT04245202|184564183|OTHER||Relative treatment effect difference|-0.07||||0.002|TWO_SIDED|||||The p-Value of the interaction between time and groups was given. In all analysis, p values \<0.05 were considered being statistically significant.|Brunner-Langer Method||Relative Treatment Effect Difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|||||0.002
92329698|NCT04245202|184564184|OTHER||Relative treatment effect difference|-0.08||||0.001|TWO_SIDED|95.0||||The p-Value of the interaction between time and groups was given. In all analysis, p values \<0.05 were considered being statistically significant.|Brunner-Langer Method||Relative Treatment Effect Difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|||||0.001
92329699|NCT04245202|184564186|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
92329700|NCT04245202|184564187|OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
92329701|NCT04245202|184564188|OTHER|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||||||0.99
92329702|NCT04245202|184564189|OTHER|||||||0.02|||||||Fisher Exact|||||||0.02
92329703|NCT04245202|184564190|OTHER|||||||0.02|||||||Fisher Exact|||||||0.02
92329704|NCT04245202|184564191|OTHER|||||||0.08|||||||Fisher Exact|||||||0.08
92329705|NCT02470403|184564192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-5.7|||<|0.001|TWO_SIDED|80.0|-6.52|-4.87|||Mixed Models Analysis|||"This analysis included all subjects. The following criteria were assessed:~1. upper confidence limit of the 80% CI for treatment difference (LIK066 - placebo) was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%."||-4.87|-6.52|<0.001
92329706|NCT02470403|184564192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.85|||<|0.001|TWO_SIDED|80.0|-7.96|-5.73|||Mixed Models Analysis|||"This analysis included dysglycemic subjects. The following criteria were assessed:~1. upper confidence limit of 80% CI for treatment difference was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%."||-5.73|-7.96|<0.001
92329707|NCT02470403|184564192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.55|||<|0.001|TWO_SIDED|80.0|-5.76|-3.34|||Mixed Models Analysis|||"This analysis included normoglycemic subjects. The following criteria were assessed:~1. upper confidence limit of 80% CI for treatment difference was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%."||-3.34|-5.76|<0.001
92329708|NCT02470403|184564194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.83|||<|0.001|TWO_SIDED|80.0|-2.16|-1.51|||Mixed Models Analysis|||"This analysis on all subjects. The following criteria were assessed:~1. upper confidence limit of 80% CI for treatment difference was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%."||-1.51|-2.16|<0.001
92329709|NCT02470403|184564194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.39|||<|0.001|TWO_SIDED|80.0|-2.94|-1.84|||Mixed Models Analysis|||"This analysis on all subjects. The following criteria were assessed:~1. upper confidence limit of 80% CI for treatment difference was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%."||-1.84|-2.94|<0.001
92329710|NCT02470403|184564194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.38|||<|0.001|TWO_SIDED|80.0|-2.93|-1.83|||Mixed Models Analysis|||"This analysis on all subjects. The following criteria were assessed:~1. upper confidence limit of 80% CI for treatment difference was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%"||-1.83|-2.93|<0.001
92329711|NCT02631070|184564209|SUPERIORITY||Common Risk Difference on Response Rate|24.56|||<|0.0001|TWO_SIDED|95.0|14.48|34.64|||Cochran-Mantel-Haenszel|||||34.64|14.48|<0.0001
92329712|NCT02631070|184564209|SUPERIORITY||Odds Ratio (OR)|5.065|||<|0.0001|TWO_SIDED|95.0|2.278|11.259|||Cochran-Mantel-Haenszel|||||11.259|2.278|<0.0001
92329713|NCT02631070|184564210|SUPERIORITY||Common Risk Difference on Response Rate|20.0||||0.0002|TWO_SIDED|95.0|10.92|29.08|||Cochran-Mantel-Haenszel|||||29.08|10.92|0.0002
92329714|NCT02631070|184564210|SUPERIORITY||Odds Ratio (OR)|5.071||||0.0002|TWO_SIDED|95.0|2.002|12.844|||Cochran-Mantel-Haenszel|||||12.844|2.002|0.0002
92329715|NCT02631070|184564211|SUPERIORITY||Common Risk Difference on Response Rate|21.37||||0.0003|TWO_SIDED|95.0|11.23|31.51|||Cochran-Mantel-Haenszel|||||31.51|11.23|0.0003
92329716|NCT02631070|184564211|SUPERIORITY||Odds Ratio (OR)|4.045||||0.0003|TWO_SIDED|95.0|1.827|8.956|||Cochran-Mantel-Haenszel|||||8.956|1.827|0.0003
92329717|NCT02631070|184564212|SUPERIORITY||Common Risk Difference on Response Rate|29.55|||<|0.0001|TWO_SIDED|95.0|18.73|40.36|||Cochran-Mantel-Haenszel|||||40.36|18.73|<0.0001
92329718|NCT02631070|184564212|SUPERIORITY||Odds Ratio (OR)|5.306|||<|0.0001|TWO_SIDED|95.0|2.526|11.146|||Cochran-Mantel-Haenszel|||||11.146|2.526|<0.0001
92329719|NCT02631070|184564214|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Week 1 -24||||<0.0001
92329720|NCT02631070|184564214|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Week 1 - 48||||<0.0001
92329721|NCT02631070|184564215|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Week 1 Through Week 24||||<0.0001
92329722|NCT02631070|184564215|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Week 1 Through Week 48||||<0.0001
92329723|NCT02631070|184564216|SUPERIORITY||Hazard Ratio (HR)|0.446||||0.0445|TWO_SIDED|95.0|0.196|1.013|||Log Rank||HR is from the Cox proportional hazards model|||1.013|0.196|0.0445
92329724|NCT02631070|184564217|SUPERIORITY||Hazard Ratio (HR)|0.784||||0.5121|TWO_SIDED|95.0|0.362|1.699|||Log Rank||HR is from the Cox proportional hazards model|||1.699|0.362|0.5121
92329725|NCT02631070|184564219|SUPERIORITY|||||||0.2382|||||||Cochran-Mantel-Haenszel|||Week 1 -24||||0.2382
92329726|NCT02631070|184564219|SUPERIORITY|||||||0.5127|||||||Cochran-Mantel-Haenszel|||Week 1 - 48||||0.5127
92329727|NCT02631070|184564220|SUPERIORITY|||||||0.5479|||||||Cochran-Mantel-Haenszel|||Week 1 -24||||0.5479
92329728|NCT02631070|184564220|SUPERIORITY|||||||0.298|||||||Cochran-Mantel-Haenszel|||Week 1 - 48||||0.2980
92329729|NCT02631070|184564221|SUPERIORITY||LS Mean Difference|-229.1|STANDARD_ERROR_OF_MEAN|74.43||0.0024|TWO_SIDED|95.0|-375.8|-82.4|||ANCOVA|||Week 9 Through 24||-82.4|-375.8|0.0024
92329730|NCT02631070|184564221|SUPERIORITY||LS Mean Difference|-319.5|STANDARD_ERROR_OF_MEAN|144.57||0.0294|TWO_SIDED|95.0|-606.3|-32.7|||ANCOVA|||Week 33 Through 48||-32.7|-606.3|0.0294
92329731|NCT02631070|184564222|SUPERIORITY||LS Mean Difference|-41.0|STANDARD_ERROR_OF_MEAN|40.18||0.3087|TWO_SIDED|95.0|-120.3|38.2|||ANCOVA|||Weeks 9 Through 24||38.2|-120.3|0.3087
92329732|NCT02631070|184564222|SUPERIORITY||LS Mean Difference|-24.9|STANDARD_ERROR_OF_MEAN|93.42||0.7903|TWO_SIDED|95.0|-210.7|160.8|||ANCOVA|||Weeks 33 Through 48||160.8|-210.7|0.7903
92329733|NCT02631070|184564227|SUPERIORITY||Hazard Ratio (HR)|0.986||||0.958|TWO_SIDED|95.0|0.595|1.636|||Log Rank||HR is from the Cox proportional hazards model|||1.636|0.595|0.9580
92329734|NCT01153620|184564237|SUPERIORITY_OR_OTHER||||||=|0.006||95.0|||||Wilcoxon (Mann-Whitney)|||||||=0.006
92329735|NCT03878875|184564284|SUPERIORITY|Multiple linear regressions analysed the effect of conditioning (group) on each outcome at the second time point - session 2 (after noise exposure), controlling for session 1 outcome (before noise exposure), event exposure, age, and gender. It was hypothesised those with high recent noise exposure, Group 1 (noise unit \> 0.323), would experience less temporary hearing damage than irregular attendees, Group 0.|F(5, 26)|116.044|||<|0.0005|TWO_SIDED||||||Regression, Linear|Group coefficient = -2.153.||||||< 0.0005
92329736|NCT03878875|184564285|SUPERIORITY|Multiple linear regressions analysed the effect of conditioning (group) on each outcome at the second time point - session 2 (after noise exposure), controlling for session 1 outcome (before noise exposure), event exposure, age, and gender. It was hypothesised those with high recent noise exposure, Group 1 (noise unit \> 0.323), would experience less temporary hearing damage than irregular attendees, Group 0.|F(5, 26)|12.839|||<|0.0005|TWO_SIDED||||||Regression, Linear|Group coefficient = 1.602.||||||< 0.0005
92329737|NCT03878875|184564286|SUPERIORITY|Multiple linear regressions analysed the effect of conditioning (group) on each outcome at the second time point - session 2 (after noise exposure), controlling for session 1 outcome (before noise exposure), event exposure, age, and gender. It was hypothesised those with high recent noise exposure, Group 1 (noise unit \> 0.323), would experience less temporary hearing damage than irregular attendees, Group 0.|F(5, 26)|8.391|||<|0.0005|TWO_SIDED||||||Regression, Linear|Group coefficient was 1.059.||||||< 0.0005
92329738|NCT03878875|184564287|SUPERIORITY|Multiple linear regressions analysed the effect of conditioning (group) on each outcome at the second time point - session 2 (after noise exposure), controlling for session 1 outcome (before noise exposure), event exposure, age, and gender. It was hypothesised those with high recent noise exposure, Group 1 (noise unit \> 0.323), would experience less temporary hearing damage than irregular attendees, Group 0.|F(5, 26)|6.416|||<|0.001|TWO_SIDED||||||Regression, Linear|Group coefficient was 0.635.||||||< 0.001
92329739|NCT03878875|184564288|SUPERIORITY|Multiple linear regressions analysed the effect of conditioning (group) on each outcome at the second time point - session 2 (after noise exposure), controlling for session 1 outcome (before noise exposure), event exposure, age, and gender. It was hypothesised those with high recent noise exposure, Group 1 (noise unit \> 0.323), would experience less temporary hearing damage than irregular attendees, Group 0.|F(5, 26)|5.805|||<|0.001|TWO_SIDED||||||Regression, Linear|Group coefficient was -0.383.||||||< 0.001
92329740|NCT03878875|184564289|SUPERIORITY|A binary logistic regression was employed to assess the effect of conditioning on tinnitus change (i.e. increasing or not) at session 2, adjusting for tinnitus reported at session 1, age, gender, and event exposure.|Odds Ratio (OR)|1.4|STANDARD_ERROR_OF_MEAN|0.14|<|0.005|TWO_SIDED|95.0|1.071|1.85|||Regression, Logistic|||||1.85|1.071|< 0.005
92329741|NCT01832818|184564299|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
92329742|NCT01832818|184564300|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||< 0.05
92329743|NCT00568334|184564308|NON_INFERIORITY|The lower limit (LL) of the 95% confidence interval (CI) for the GMT ratio (derived from IFA) between Group Varilrix HSA-Free and (divided by) Group Varilrix is equal to or above (≥) the pre-defined clinical limit of 0.5.|GMT Ratio|1.12|||||TWO_SIDED|95.0|0.86|1.46|||ANOVA|||Non-inferiority of Varilrix™ HSA-Free vaccine as compared to Varilrix™ vaccine in terms of geometric mean titers (GMTs) of varicella zoster virus (VZV) antibodies 43-57 days after the first vaccine dose.||1.46|0.86|
92329744|NCT00568334|184564309|NON_INFERIORITY|The lower limit (LL) of the 95% confidence interval (CI) for the GMC ratio (derived from ELISA) between Group Varilrix HSA-Free and (divided by) Group Varilrix is equal to or above (≥) the pre-defined clinical limit of 0.67.|GMC Ratio|1.12|||||TWO_SIDED|95.0|0.93|1.33|||ANOVA|||Non-inferiority of Varilrix™ HSA-Free vaccine as compared to Varilrix™ vaccine in terms of geometric mean concentrations (GMCs) of varicella zoster virus (VZV) antibodies 43-57 days after the first vaccine dose.||1.33|0.93|
92329745|NCT01606202|184564324|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.08||||0.708|TWO_SIDED|95.0|-0.51|0.35|||ANCOVA|||The change in the pain Numerical Rating Scale score from baseline to End of Treatment was compared between treatment groups using analysis of covariance (ANCOVA). The model included treatment and centre as factors and baseline Numerical Rating Scale pain mean score as a covariate.||0.35|-0.51|0.708
92329746|NCT01606202|184564325|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.57||||0.852|TWO_SIDED|95.0|-6.62|5.48|||ANCOVA|||The change from baseline to End of Treatment in the percentage of days on which escape medication was used was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and percentage of days on which escape medication was used as a covariate.||5.48|-6.62|0.852
92329747|NCT01606202|184564326|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.05||||0.86|TWO_SIDED|95.0|-0.54|0.65|||ANCOVA|||The change from baseline to End of Treatment in the Spasm severity Numerical Rating Scale score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the Spasm severity Numerical Rating Scale score as a covariate.||0.65|-0.54|0.860
92329748|NCT01606202|184564327|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.64||||0.873|TWO_SIDED|95.0|-8.56|7.27|||ANCOVA|||The change from baseline to End of Treatment in the percentage of days on which spasm was experienced was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the Spasm percentage of days on which spasm was experienced as a covariate.||7.27|-8.56|0.873
92329749|NCT01606202|184564328|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.07||||0.83|TWO_SIDED|95.0|-0.61|0.75|||ANCOVA|||The change from baseline to End of Treatment in the spasticity severity Numerical Rating Scale score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the baseline spasticity severity Numerical Rating Scale score as a covariate.||0.75|-0.61|0.830
92329750|NCT01606202|184564329|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.4||||0.86|TWO_SIDED|95.0|-4.08|4.88|||ANCOVA|||The change from baseline to End of Treatment in the percentage of days on which spasticity was experienced was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the percentage of days on which spasticity was experienced as a covariate.||4.88|-4.08|0.860
92329751|NCT01606202|184564330|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.14||||0.142|TWO_SIDED|95.0|-0.33|0.05|||ANCOVA|||The change from baseline to End of Treatment in the Modified Ashworth scale score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the Modified Ashworth scale score as a covariate.||0.05|-0.33|0.142
92329752|NCT01606202|184564331|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.11||||0.824|TWO_SIDED|95.0|-1.13|0.9|||ANCOVA|||The change from baseline in the mean Short Orientation Memory Concentration score, was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Short Orientation Memory Concentration test score as a covariate.||0.90|-1.13|0.824
92329753|NCT01606202|184564332|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.04||||0.847|TWO_SIDED|95.0|-0.49|0.4|||ANCOVA|||The change from baseline to End of Treatment in the Spitzer Quality of Life Index score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the Spitzer Quality of Life Index score as a covariate.||0.40|-0.49|0.847
92329754|NCT01606202|184564333|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.29||||0.287|TWO_SIDED|95.0|-3.74|1.16|||ANCOVA|||The change from baseline to End of Treatment in the Caregiver Strain Index score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the baseline Caregiver Strain Index score as a covariate.||1.16|-3.74|0.287
92329755|NCT01606202|184564334|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|33.86|||<|0.001|TWO_SIDED|95.0|17.07|50.64|||Fisher Exact|||The proportion of subjects who considered their condition 'Very Much Improved', 'Much Improved' or 'Minimally Improved' was compared between treatment groups using Fisher's Exact Test.||50.64|17.07|<0.001
92329756|NCT01606202|184564335|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.93||||0.032|TWO_SIDED|95.0|-3.69|-0.16|||ANCOVA|||The change from baseline to End of Treatment in the Brief Pain Inventory score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Brief Pain Inventory score as a covariate.||-0.16|-3.69|0.032
92329757|NCT00625404|184564338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.59|1.52||||||Hazard ratio (HR) for HIV infection based on proportional hazards model, stratified on site. Study was designed to have 90% power to reject the null hypothesis that the HR for infection is \> 0.3||1.52|0.59|
92329758|NCT00625404|184564339|SUPERIORITY_OR_OTHER|||||||0.45|||||||Log Rank|||Log-rank test for difference in rate of grade 2 or higher creatinine, based on time to first event.||||0.45
92329759|NCT00625404|184564341|SUPERIORITY_OR_OTHER|||||||0.59|||||||Log Rank|||Log-rank test for difference in rates between groups||||0.59
92329760|NCT00625404|184564342|SUPERIORITY_OR_OTHER|||||||0.79|||||||Log Rank|||Log-rank test for difference in rates between groups||||0.79
92329761|NCT00625404|184564343|SUPERIORITY_OR_OTHER|||||||0.62|||||||Log Rank|||Log-rank test for difference in rates between groups||||0.62
92329762|NCT00625404|184564344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.89|||||||t-test, 2 sided|||t-test for difference on viral loads||||0.89
92329763|NCT00625404|184564345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.1||||0.82|||||||t-test, 2 sided|||t-test for difference in mean CD-4 counts||||0.82
92329764|NCT00625404|184564349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.73|||||||t-test, 2 sided|||t-test for difference in change in number of sexual partners over time||||0.73
92329765|NCT00337779|184564356|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0732|STANDARD_ERROR_OF_MEAN|0.1013||0.4859|TWO_SIDED|95.0|0.8799|1.309|||Regression, Poisson||980 subjects randomized into two arms provide approximately 90% power to detect significant difference between groups of 30% or more in rate of confirmed relapses.|||1.3090|0.8799|0.4859
92329766|NCT03313310|184564377|OTHER|A one-sample non-parametric test for change between baseline and 8-month follow-up was conducted.||||||0.98||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.98
92329767|NCT03313310|184564377|OTHER|A one-sample non-parametric test for change between baseline and 3-month follow-up was conducted.||||||0.05||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.05
92329768|NCT03313310|184564378|OTHER|A one-sample non-parametric test for change between baseline and 8-month follow-up was conducted.||||||0.39||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.39
92329769|NCT03313310|184564378|OTHER|A one-sample non-parametric test for change between baseline and 3-month follow-up was conducted.||||||0.76||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.76
92329770|NCT03313310|184564379|OTHER|A one-sample non-parametric test for change between baseline and 8-month follow-up was conducted.|||||<|0.001||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||<0.001
92329771|NCT03313310|184564379|OTHER|A one-sample non-parametric test for change between baseline and 3-month follow-up was conducted.||||||0.02||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.02
92329772|NCT03313310|184564380|OTHER|A one-sample non-parametric test for change between baseline and 8-month follow-up was conducted.||||||0.51||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.51
92329773|NCT03313310|184564380|OTHER|A one-sample non-parametric test for change between baseline and 3-month follow-up was conducted.||||||0.17||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.17
92329774|NCT03313310|184564381|OTHER||||||||||||||||||A one-sample McNemar's test for change between baseline and 8-month follow-up was planned. The a priori threshold for statistical significance was set at 0.10. However, McNemar's test statistic could not be calculated due to small cell counts.|||
92329775|NCT03313310|184564381|OTHER||||||||||||||||||A one-sample McNemar's test for change between baseline and 3-month follow-up was planned. The a priori threshold for statistical significance was set at 0.10. However, McNemar's test statistic could not be calculated due to small cell counts.|||
92329776|NCT03313310|184564382|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
92329777|NCT03313310|184564382|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||0.5||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.50
92329778|NCT03313310|184564383|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||0.63||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.63
92329779|NCT03313310|184564383|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
92329780|NCT03313310|184564384|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
92329781|NCT03313310|184564384|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||0.25||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.25
92329782|NCT03313310|184564385|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
92329783|NCT03313310|184564385|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
92329784|NCT03313310|184564386|OTHER||||||||||||||||||A one-sample McNemar's test for change between baseline and 8-month follow-up was planned. The a priori threshold for statistical significance was set at 0.10. However, McNemar's test statistic could not be calculated due to small cell counts.|||
92329785|NCT03313310|184564386|OTHER||||||||||||||||||A one-sample McNemar's test for change between baseline and 3-month follow-up was planned. The a priori threshold for statistical significance was set at 0.10. However, McNemar's test statistic could not be calculated due to small cell counts.|||
92329786|NCT03313310|184564388|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
92329787|NCT03313310|184564388|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
92329788|NCT03313310|184564389|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
92329789|NCT03313310|184564389|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||0.75||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.75
92329790|NCT03313310|184564390|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||0.55||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.55
92329791|NCT03313310|184564390|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
92329792|NCT03313310|184564391|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||0.45||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.45
92329793|NCT03313310|184564391|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||0.07||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.07
92329794|NCT03019003|184564392|OTHER||||||<|0.036|||||||t-test, 2 sided|||||||<0.036
92329795|NCT00793624|184564458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.11|0.193|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.193|0.110|<0.0001
92329796|NCT00793624|184564458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.124|0.206|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.206|0.124|<0.0001
92329797|NCT00793624|184564458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.136|0.218|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.218|0.136|<0.0001
92329798|NCT00793624|184564459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|STANDARD_ERROR_OF_MEAN|0.021||0.0002||95.0|0.037|0.118|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.118|0.037|0.0002
92329799|NCT00793624|184564459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.044|0.125|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.125|0.044|<0.0001
92329800|NCT00793624|184564459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.021||0.0088||95.0|0.014|0.095|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.095|0.014|0.0088
92329801|NCT00793624|184564460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_ERROR_OF_MEAN|0.343||0.5843||95.0|-0.485|0.86|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.860|-0.485|0.5843
92329802|NCT00793624|184564460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.345||0.9494||95.0|-0.656|0.699|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.699|-0.656|0.9494
92329803|NCT00793624|184564460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.288|STANDARD_ERROR_OF_MEAN|0.346||0.5099||95.0|-0.908|0.451|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.451|-0.908|0.5099
92329804|NCT00793624|184564461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.442|STANDARD_ERROR_OF_MEAN|1.401||0.0816||95.0|-5.19|0.307|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.307|-5.190|0.0816
92329805|NCT00793624|184564461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.394|STANDARD_ERROR_OF_MEAN|1.4||0.0155||95.0|-6.141|-0.648|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.648|-6.141|0.0155
92329806|NCT00793624|184564461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.952|STANDARD_ERROR_OF_MEAN|1.396||0.4954||95.0|-3.691|1.787|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.787|-3.691|0.4954
92329807|NCT00793624|184564462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.785|STANDARD_ERROR_OF_MEAN|1.387||0.045||95.0|-5.507|-0.063|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.063|-5.507|0.0450
92329808|NCT00793624|184564462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.144|STANDARD_ERROR_OF_MEAN|1.386||0.0002||95.0|-7.864|-2.425|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||-2.425|-7.864|0.0002
92329809|NCT00793624|184564462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.754|STANDARD_ERROR_OF_MEAN|1.386||0.2061||95.0|-4.474|0.966|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.966|-4.474|0.2061
92329810|NCT00793624|184564463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.871|STANDARD_ERROR_OF_MEAN|1.419||0.1878||95.0|-4.655|0.914|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.914|-4.655|0.1878
92329811|NCT00793624|184564463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.565|STANDARD_ERROR_OF_MEAN|1.427||0.0126||95.0|-6.364|-0.767|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.767|-6.364|0.0126
92329812|NCT00793624|184564463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|1.426||0.9913||95.0|-2.782|2.814|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||2.814|-2.782|0.9913
92329813|NCT00793624|184564464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.846|STANDARD_ERROR_OF_MEAN|0.972||0.0034||95.0|-4.751|-0.94|||Mixed Models Analysis||Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo||-0.940|-4.751|0.0034
92329814|NCT00793624|184564464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.434|STANDARD_ERROR_OF_MEAN|0.973||0.0004||95.0|-5.343|-1.525|||Mixed Models Analysis||Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo||-1.525|-5.343|0.0004
92329815|NCT00793624|184564464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.248|STANDARD_ERROR_OF_MEAN|0.976||0.2009||95.0|-3.161|0.665|||Mixed Models Analysis||Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 10 mcg qd minus Placebo||0.665|-3.161|0.2009
92329816|NCT00793624|184564465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.146|0.226|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.226|0.146|<0.0001
92329817|NCT00793624|184564465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.126|0.206|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.206|0.126|<0.0001
92329818|NCT00793624|184564465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.166|0.246|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.246|0.166|<0.0001
92329819|NCT00793624|184564466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.136|0.217|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.217|0.136|<0.0001
92329820|NCT00793624|184564466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.119|0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.200|0.119|<0.0001
92329821|NCT00793624|184564466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.152|0.233|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.233|0.152|<0.0001
92329822|NCT00793624|184564467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.137|0.219|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.219|0.137|<0.0001
92329823|NCT00793624|184564467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.129|0.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.211|0.129|<0.0001
92329824|NCT00793624|184564467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.144|0.226|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.226|0.144|<0.0001
92329825|NCT00793624|184564468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.103|0.186|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.186|0.103|<0.0001
92329826|NCT00793624|184564468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.146|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.105|0.188|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.188|0.105|<0.0001
92329827|NCT00793624|184564468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.13|0.214|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.214|0.130|<0.0001
92329828|NCT00793624|184564469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.048|0.126|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.126|0.048|<0.0001
92329829|NCT00793624|184564469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.04|0.118|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.118|0.040|<0.0001
92329830|NCT00793624|184564469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.04|0.119|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.119|0.040|<0.0001
92329831|NCT00793624|184564470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.047|0.125|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.125|0.047|<0.0001
92329832|NCT00793624|184564470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|STANDARD_ERROR_OF_MEAN|0.02||0.0001||95.0|0.038|0.117|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.117|0.038|0.0001
92329833|NCT00793624|184564470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.039|0.119|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.119|0.039|<0.0001
92329834|NCT00793624|184564471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.043|0.123|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.123|0.043|<0.0001
92329835|NCT00793624|184564471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.02||0.0002||95.0|0.035|0.114|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.114|0.035|0.0002
92329836|NCT00793624|184564471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.02||0.0037||95.0|0.019|0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.100|0.019|0.0037
92329837|NCT00793624|184564472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.02||0.0016||95.0|0.025|0.105|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.105|0.025|0.0016
92329838|NCT00793624|184564472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.02||0.0276||95.0|0.005|0.085|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.085|0.005|0.0276
92329839|NCT00793624|184564472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.021||0.0426||95.0|0.001|0.082|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.082|0.001|0.0426
92329840|NCT00793624|184564473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.021||0.0237||95.0|0.006|0.087|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.087|0.006|0.0237
92329841|NCT00793624|184564473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.049|STANDARD_ERROR_OF_MEAN|0.021||0.0175||95.0|0.009|0.09|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.090|0.009|0.0175
92329842|NCT00793624|184564473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.021||0.0339||95.0|0.003|0.085|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.085|0.003|0.0339
92329843|NCT00793624|184564474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.021||0.0537||95.0|-0.001|0.081|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.081|-0.001|0.0537
92329844|NCT00793624|184564474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_ERROR_OF_MEAN|0.021||0.0808||95.0|-0.004|0.078|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.078|-0.004|0.0808
92329845|NCT00793624|184564474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.021||0.2579||95.0|-0.017|0.065|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.065|-0.017|0.2579
92329846|NCT00793624|184564475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.021||0.0011||95.0|0.027|0.109|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.109|0.027|0.0011
92329847|NCT00793624|184564475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.021||0.0069||95.0|0.018|0.101|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.101|0.018|0.0069
92329848|NCT00793624|184564475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.04|0.119|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.119|0.040|<0.0001
92329849|NCT00793624|184564476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.135|0.22|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.220|0.135|<0.0001
92329850|NCT00793624|184564476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.108|0.193|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.193|0.108|<0.0001
92329851|NCT00793624|184564476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.148|0.233|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.233|0.148|<0.0001
92329852|NCT00793624|184564477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.124|0.209|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.209|0.124|<0.0001
92329853|NCT00793624|184564477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.109|0.195|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.195|0.109|<0.0001
92329854|NCT00793624|184564477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.139|0.226|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.226|0.139|<0.0001
92329855|NCT00793624|184564478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.122|0.208|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.208|0.122|<0.0001
92329856|NCT00793624|184564478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.116|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.203|0.116|<0.0001
92329857|NCT00793624|184564478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.13|0.218|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.218|0.130|<0.0001
92329858|NCT00793624|184564479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.104|0.191|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.191|0.104|<0.0001
92329859|NCT00793624|184564479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.112|0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.200|0.112|<0.0001
92329860|NCT00793624|184564479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.123|0.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.211|0.123|<0.0001
92329861|NCT00793624|184564480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.095|0.183|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.183|0.095|<0.0001
92329862|NCT00793624|184564480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.095|0.184|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.184|0.095|<0.0001
92329863|NCT00793624|184564480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.117|0.206|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.206|0.117|<0.0001
92329864|NCT00793624|184564481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.149|0.297|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.297|0.149|<0.0001
92329865|NCT00793624|184564481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.161|0.309|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.309|0.161|<0.0001
92329866|NCT00793624|184564481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.307|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.233|0.381|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.381|0.233|<0.0001
92329867|NCT00793624|184564482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.236|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.161|0.31|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.310|0.161|<0.0001
92329868|NCT00793624|184564482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.249|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.175|0.324|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.324|0.175|<0.0001
92329869|NCT00793624|184564482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.235|0.384|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.384|0.235|<0.0001
92329870|NCT00793624|184564483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.135|0.285|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.285|0.135|<0.0001
92329871|NCT00793624|184564483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.254|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.179|0.329|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.329|0.179|<0.0001
92329872|NCT00793624|184564483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.276|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.201|0.352|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.352|0.201|<0.0001
92329873|NCT00793624|184564484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.107|0.258|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.258|0.107|<0.0001
92329874|NCT00793624|184564484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.139|0.291|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.291|0.139|<0.0001
92329875|NCT00793624|184564484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.242|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.166|0.318|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.318|0.166|<0.0001
92329876|NCT00793624|184564485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.103|0.256|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.256|0.103|<0.0001
92329877|NCT00793624|184564485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.126|0.28|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.280|0.126|<0.0001
92329878|NCT00793624|184564485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.243|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.166|0.32|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.320|0.166|<0.0001
92329879|NCT00793624|184564486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.039||0.0781||95.0|-0.008|0.143|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.143|-0.008|0.0781
92329880|NCT00793624|184564486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.039||0.0455||95.0|0.002|0.153|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.153|0.002|0.0455
92329881|NCT00793624|184564486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.039||0.029||95.0|0.009|0.16|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.160|0.009|0.0290
92329882|NCT00793624|184564487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.039||0.0043||95.0|0.035|0.186|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.186|0.035|0.0043
92329883|NCT00793624|184564487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.039||0.0007||95.0|0.055|0.207|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.207|0.055|0.0007
92329884|NCT00793624|184564487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.039||0.0005||95.0|0.06|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.212|0.060|0.0005
92329885|NCT00793624|184564488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.039||0.0136||95.0|0.02|0.173|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.173|0.020|0.0136
92329886|NCT00793624|184564488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105|STANDARD_ERROR_OF_MEAN|0.039||0.0076||95.0|0.028|0.182|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.182|0.028|0.0076
92329887|NCT00793624|184564488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.039||0.0294||95.0|0.009|0.163|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.163|0.009|0.0294
92329888|NCT00793624|184564489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.039||0.8674||95.0|-0.071|0.084|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.084|-0.071|0.8674
92329889|NCT00793624|184564489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018|STANDARD_ERROR_OF_MEAN|0.04||0.6487||95.0|-0.06|0.096|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.096|-0.060|0.6487
92329890|NCT00793624|184564489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.04||0.9267||95.0|-0.074|0.081|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.081|-0.074|0.9267
92329891|NCT00793624|184564490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.04||0.1603||95.0|-0.022|0.134|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.134|-0.022|0.1603
92329892|NCT00793624|184564490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.04||0.0399||95.0|0.004|0.16|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.160|0.004|0.0399
92329893|NCT00793624|184564490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.019|STANDARD_ERROR_OF_MEAN|0.04||0.6328||95.0|-0.059|0.098|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.098|-0.059|0.6328
92329894|NCT00793624|184564491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.04||0.127||95.0|-0.017|0.139|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.139|-0.017|0.1270
92329895|NCT00793624|184564491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064|STANDARD_ERROR_OF_MEAN|0.04||0.1076||95.0|-0.014|0.143|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.143|-0.014|0.1076
92329896|NCT00793624|184564491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.04||0.1492||95.0|-0.021|0.137|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.137|-0.021|0.1492
92329897|NCT00793624|184564492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.04||0.0385||95.0|0.004|0.162|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.162|0.004|0.0385
92329898|NCT00793624|184564492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.04||0.142||95.0|-0.02|0.138|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.138|-0.020|0.1420
92329899|NCT00793624|184564492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.04||0.0965||95.0|-0.012|0.147|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.147|-0.012|0.0965
92329900|NCT00793624|184564493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.04||0.1394||95.0|-0.019|0.138|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.138|-0.019|0.1394
92329901|NCT00793624|184564493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.04||0.1532||95.0|-0.022|0.137|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.137|-0.022|0.1532
92329902|NCT00793624|184564493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.041||0.5511||95.0|-0.055|0.104|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.104|-0.055|0.5511
92329903|NCT00793624|184564494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.108|0.264|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.264|0.108|<0.0001
92329904|NCT00793624|184564494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.128|0.284|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.284|0.128|<0.0001
92329905|NCT00793624|184564494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.283|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.205|0.361|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.361|0.205|<0.0001
92329906|NCT00793624|184564495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.131|0.288|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.288|0.131|<0.0001
92329907|NCT00793624|184564495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.231|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.153|0.31|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.310|0.153|<0.0001
92329908|NCT00793624|184564495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.187|0.344|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.344|0.187|<0.0001
92329909|NCT00793624|184564496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.108|0.267|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.267|0.108|<0.0001
92329910|NCT00793624|184564496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.159|0.318|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.318|0.159|<0.0001
92329911|NCT00793624|184564496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.256|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.177|0.336|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.336|0.177|<0.0001
92329912|NCT00793624|184564497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.092|0.253|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.253|0.092|<0.0001
92329913|NCT00793624|184564497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.127|0.288|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.288|0.127|<0.0001
92329914|NCT00793624|184564497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.217|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.137|0.298|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.298|0.137|<0.0001
92329915|NCT00793624|184564498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.041||0.0003||95.0|0.07|0.231|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.231|0.070|0.0003
92329916|NCT00793624|184564498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.096|0.259|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.259|0.096|<0.0001
92329917|NCT00793624|184564498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001||95.0|0.141|0.304|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.304|0.141|<0.0001
92329918|NCT00793624|184564499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.067|STANDARD_ERROR_OF_MEAN|4.639||0.0012|TWO_SIDED|95.0|5.962|24.173|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean morning PEFR||24.173|5.962|0.0012
92329919|NCT00793624|184564499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.999|STANDARD_ERROR_OF_MEAN|4.611||0.0012||95.0|5.949|24.049|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean morning PEFR||24.049|5.949|0.0012
92329920|NCT00793624|184564499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.642|STANDARD_ERROR_OF_MEAN|4.601||0.0001|TWO_SIDED|95.0|8.61|26.673|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean morning PEFR||26.673|8.610|0.0001
92329921|NCT00793624|184564499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.721|STANDARD_ERROR_OF_MEAN|4.606||0.0001|TWO_SIDED|95.0|8.68|26.762|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean evening PEFR||26.762|8.680|0.0001
92329922|NCT00793624|184564499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.471|STANDARD_ERROR_OF_MEAN|4.579|<|0.0001|TWO_SIDED|95.0|9.484|27.458|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean evening PEFR||27.458|9.484|<0.0001
92329923|NCT00793624|184564499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.873|STANDARD_ERROR_OF_MEAN|4.548|<|0.0001|TWO_SIDED|95.0|8.947|26.799|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean evening PEFR||26.799|8.947|<0.0001
92329924|NCT00793624|184564500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.403|STANDARD_ERROR_OF_MEAN|0.133||0.0026|TWO_SIDED|95.0|-0.665|-0.141|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||-0.141|-0.665|0.0026
92329925|NCT00793624|184564500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.327|STANDARD_ERROR_OF_MEAN|0.133||0.0141|TWO_SIDED|95.0|-0.587|-0.066|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||-0.066|-0.587|0.0141
92329926|NCT00793624|184564500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.147|STANDARD_ERROR_OF_MEAN|0.132||0.2677|TWO_SIDED|95.0|-0.406|0.113|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||0.113|-0.406|0.2677
92329927|NCT00793624|184564500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.602|STANDARD_ERROR_OF_MEAN|0.171||0.0005|TWO_SIDED|95.0|-0.939|-0.266|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||-0.266|-0.939|0.0005
92329928|NCT00793624|184564500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.17||0.0007|TWO_SIDED|95.0|-0.914|-0.247|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||-0.247|-0.914|0.0007
92329929|NCT00793624|184564500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.169||0.0391|TWO_SIDED|95.0|-0.683|-0.018|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||-0.018|-0.683|0.0391
92329930|NCT00793624|184564500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.991|STANDARD_ERROR_OF_MEAN|0.269||0.0002|TWO_SIDED|95.0|-1.518|-0.464|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||-0.464|-1.518|0.0002
92329931|NCT00793624|184564500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.902|STANDARD_ERROR_OF_MEAN|0.267||0.0008|TWO_SIDED|95.0|-1.426|-0.378|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||-0.378|-1.426|0.0008
92329932|NCT00793624|184564500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.473|STANDARD_ERROR_OF_MEAN|0.266||0.0758|TWO_SIDED|95.0|-0.994|0.049|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||0.049|-0.994|0.0758
92329933|NCT00793624|184564501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0003||95.0|-0.6|-0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.2|-0.6|0.0003
92329934|NCT00793624|184564501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0073||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.1|-0.5|0.0073
92329935|NCT00793624|184564501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0017||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||-0.1|-0.5|0.0017
92329936|NCT00793624|184564502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0021||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.1|-0.5|0.0021
92329937|NCT00793624|184564502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.6|-0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.2|-0.6|<0.0001
92329938|NCT00793624|184564502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0121||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||-0.1|-0.5|0.0121
92329939|NCT00793624|184564503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.032||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.0|-0.4|0.0320
92329940|NCT00793624|184564503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0447||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.0|-0.4|0.0447
92329941|NCT00793624|184564503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1332||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||0.0|-0.4|0.1332
92329942|NCT00793624|184564504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4105||95.0|-0.3|0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||0.1|-0.3|0.4105
92329943|NCT00793624|184564504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0584||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||0.0|-0.4|0.0584
92329944|NCT00793624|184564504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1006||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||0.0|-0.4|0.1006
92329945|NCT00793624|184564505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.571|STANDARD_ERROR_OF_MEAN|0.335||0.0882||95.0|-0.085|1.227|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.227|-0.085|0.0882
92329946|NCT00793624|184564505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.664|STANDARD_ERROR_OF_MEAN|0.336||0.0484||95.0|0.005|1.324|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.324|0.005|0.0484
92329947|NCT00793624|184564505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.758|STANDARD_ERROR_OF_MEAN|0.338||0.0252||95.0|0.094|1.421|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.421|0.094|0.0252
92329948|NCT00793624|184564506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.381|STANDARD_ERROR_OF_MEAN|0.34||0.2625||95.0|-0.285|1.047|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.047|-0.285|0.2625
92329949|NCT00793624|184564506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.543|STANDARD_ERROR_OF_MEAN|0.341||0.1109||95.0|-0.125|1.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.211|-0.125|0.1109
92329950|NCT00793624|184564506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.394|STANDARD_ERROR_OF_MEAN|0.343||0.2507||95.0|-0.278|1.066|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.066|-0.278|0.2507
92329951|NCT00793624|184564507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.342||0.4895||95.0|-0.439|0.902|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.902|-0.439|0.4895
92329952|NCT00793624|184564507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.434|STANDARD_ERROR_OF_MEAN|0.344||0.2073||95.0|-0.24|1.107|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.107|-0.240|0.2073
92329953|NCT00793624|184564507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.345||0.9462||95.0|-0.653|0.7|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.700|-0.653|0.9462
92329954|NCT00793624|184564508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.345||0.6309||95.0|-0.511|0.842|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.842|-0.511|0.6309
92329955|NCT00793624|184564508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.034|STANDARD_ERROR_OF_MEAN|0.348||0.9227||95.0|-0.717|0.649|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.649|-0.717|0.9227
92329956|NCT00793624|184564508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.234|STANDARD_ERROR_OF_MEAN|0.349||0.503||95.0|-0.451|0.919|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.919|-0.451|0.5030
92329957|NCT00793624|184564509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.112|STANDARD_ERROR_OF_MEAN|0.347||0.7459||95.0|-0.793|0.568|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.568|-0.793|0.7459
92329958|NCT00793624|184564509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.065|STANDARD_ERROR_OF_MEAN|0.351||0.8534||95.0|-0.753|0.623|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.623|-0.753|0.8534
92329959|NCT00793624|184564509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.377|STANDARD_ERROR_OF_MEAN|0.352||0.5099||95.0|-1.068|0.314|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.314|-1.068|0.5099
92329960|NCT00793624|184564510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095|STANDARD_ERROR_OF_MEAN|0.348||0.785||95.0|-0.587|0.777|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.777|-0.587|0.7850
92329961|NCT00793624|184564510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.383|STANDARD_ERROR_OF_MEAN|0.352||0.2755||95.0|-0.306|1.073|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.073|-0.306|0.2755
92329962|NCT00793624|184564510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.353||0.7618||95.0|-0.584|0.798|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.798|-0.584|0.7618
92329963|NCT00793624|184564511|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.162|STANDARD_ERROR_OF_MEAN|0.19||0.3424||95.0|0.843|1.603|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.603|0.843|0.3424
92329964|NCT00793624|184564511|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.186|STANDARD_ERROR_OF_MEAN|0.195||0.3023||95.0|0.859|1.636|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.636|0.859|0.3023
92329965|NCT00793624|184564511|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.854|STANDARD_ERROR_OF_MEAN|0.15||0.3589||95.0|0.605|1.205|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||1.205|0.605|0.3589
92329966|NCT00793624|184564512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.818|STANDARD_ERROR_OF_MEAN|0.841||0.191||95.0|0.734|4.503|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||4.503|0.734|0.1910
92329967|NCT00793624|184564512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.743|STANDARD_ERROR_OF_MEAN|0.817||0.2274||95.0|0.695|4.369|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||4.369|0.695|0.2274
92329968|NCT00793624|184564512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.346|STANDARD_ERROR_OF_MEAN|0.664||0.5538||95.0|0.512|3.538|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||3.538|0.512|0.5538
92329969|NCT00793624|184564513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.101|STANDARD_ERROR_OF_MEAN|0.195||0.5577||95.0|0.778|1.557|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.557|0.778|0.5577
92329970|NCT00793624|184564513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.017|STANDARD_ERROR_OF_MEAN|0.184||0.9423||95.0|0.714|1.448|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.448|0.714|0.9423
92329971|NCT00793624|184564513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.735|STANDARD_ERROR_OF_MEAN|0.143||0.1097||95.0|0.502|1.076|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||1.076|0.502|0.1097
92329972|NCT00793624|184564514|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.2521|STANDARD_ERROR_OF_MEAN|0.2064||0.1729||95.0|0.906|1.7304|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.7304|0.9060|0.1729
92329973|NCT00793624|184564514|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.222|STANDARD_ERROR_OF_MEAN|0.2039||0.2297||95.0|0.8808|1.6954|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.6954|0.8808|0.2297
92329974|NCT00793624|184564514|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.8968|STANDARD_ERROR_OF_MEAN|0.1575||0.5354||95.0|0.6353|1.2659|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||1.2659|0.6353|0.5354
92329975|NCT00793624|184564515|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.8821|STANDARD_ERROR_OF_MEAN|1.0358||0.2508||95.0|0.6391|5.543|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||5.5430|0.6391|0.2508
92329976|NCT00793624|184564515|SUPERIORITY_OR_OTHER||Incidence rate ratio|2.3877|STANDARD_ERROR_OF_MEAN|1.3119||0.1135||95.0|0.8122|7.0194|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||7.0194|0.8122|0.1135
92329977|NCT00793624|184564515|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0289|STANDARD_ERROR_OF_MEAN|0.6013||0.9611||95.0|0.3268|3.2395|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||3.2395|0.3268|0.9611
92329978|NCT00793624|184564516|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.1621|STANDARD_ERROR_OF_MEAN|0.2075||0.4002||95.0|0.8187|1.6497|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.6497|0.8187|0.4002
92329979|NCT00793624|184564516|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0733|STANDARD_ERROR_OF_MEAN|0.1957||0.6983||95.0|0.7503|1.5352|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.5352|0.7503|0.6983
92329980|NCT00793624|184564516|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.781|STANDARD_ERROR_OF_MEAN|0.1516||0.2033||95.0|0.5336|1.1433|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||1.1433|0.5336|0.2033
92329981|NCT00793624|184564519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.509|STANDARD_ERROR_OF_MEAN|0.23||0.027||95.0|0.058|0.96|||pattern mixture model|See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Olo 5mcg minus placebo||0.960|0.058|0.0270
92329982|NCT00793624|184564519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.525|STANDARD_ERROR_OF_MEAN|0.226||0.0203||95.0|0.082|0.967||See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|pattern mixture model||"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Olo 10 mcg minus placebo||0.967|0.082|0.0203
92329983|NCT00793624|184564519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.355|STANDARD_ERROR_OF_MEAN|0.226||0.1166||95.0|-0.088|0.799|||pattern mixture model|See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Form 12mcg minus placebo||0.799|-0.088|0.1166
92329984|NCT02227368|184564546|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.3441|TWO_SIDED|95.0|-0.4|0.1|||t-test, 2 sided||Difference is Ticagrelor - Aspirin. LOCF was used for missing data imputation.|||0.1|-0.4|0.3441
92329985|NCT02227368|184564547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.6186|TWO_SIDED|95.0|-0.4|0.6|||t-test, 2 sided||Difference is Ticagrelor - Aspirin. LOCF was used for missing data imputation.|||0.6|-0.4|0.6186
92329986|NCT03046056|184564552|SUPERIORITY||Risk Difference in Proportions|8.3|||||TWO_SIDED|90.0|-16.5|32.1||||||||32.1|-16.5|
92329987|NCT03046056|184564552|SUPERIORITY||Risk Difference in Proportions|8.3|||||TWO_SIDED|90.0|-15.9|32.0||||||||32.0|-15.9|
92329988|NCT03046056|184564553|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.81|||TWO_SIDED|90.0|-5.3|0.7||||||Difference in least squared means (Diff in LSM), and its 90% confidence interval (CI) were from analysis of covariance (ANCOVA) model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||0.7|-5.3|
92329989|NCT03046056|184564553|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.72|||TWO_SIDED|90.0|-2.7|3.1||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||3.1|-2.7|
92329990|NCT03046056|184564554|SUPERIORITY||Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|90.0|-3.9|0.7||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||0.7|-3.9|
92329991|NCT03046056|184564554|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-3.2|1.2||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||1.2|-3.2|
92329992|NCT03046056|184564555|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.24|||TWO_SIDED|90.0|-2.2|2.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||2.0|-2.2|
92329993|NCT03046056|184564555|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|-1.9|2.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||2.0|-1.9|
92329994|NCT03046056|184564556|SUPERIORITY||Risk Difference in Proportions|-1.7|||||TWO_SIDED|90.0|-28.6|25.5||||||||25.5|-28.6|
92329995|NCT03046056|184564556|SUPERIORITY||Risk Difference in Proportions|0.4|||||TWO_SIDED|90.0|-24.5|26.2||||||||26.2|-24.5|
92329996|NCT03046056|184564557|SUPERIORITY||Risk Difference in Proportions|-6.7|||||TWO_SIDED|90.0|-47.3|37.0||||||||37.0|-47.3|
92329997|NCT03046056|184564557|SUPERIORITY||Risk Difference in Proportions|-16.7|||||TWO_SIDED|90.0|-58.2|30.0||||||||30.0|-58.2|
92329998|NCT03046056|184564558|SUPERIORITY||Risk Difference in Proportions|33.3|||||TWO_SIDED|90.0|-32.4|86.5||||||||86.5|-32.4|
92329999|NCT03046056|184564559|SUPERIORITY||Risk Difference in Proportions|-2.3|||||TWO_SIDED|90.0|-28.6|24.3||||||||24.3|-28.6|
92330000|NCT03046056|184564559|SUPERIORITY||Risk Difference in Proportions|-15.0|||||TWO_SIDED|90.0|-39.4|11.3||||||||11.3|-39.4|
92330001|NCT03046056|184564560|SUPERIORITY||Risk Difference in Proportions|3.3|||||TWO_SIDED|90.0|-38.9|45.7||||||||45.7|-38.9|
92330002|NCT03046056|184564560|SUPERIORITY||Risk Difference in Proportions|-4.2|||||TWO_SIDED|90.0|-47.5|40.8||||||||40.8|-47.5|
92330003|NCT03046056|184564561|SUPERIORITY||Risk Difference in Proportions|50.0|||||TWO_SIDED|90.0|-16.8|89.5||||||||89.5|-16.8|
92330004|NCT03046056|184564561|SUPERIORITY||Risk Difference in Proportions|12.5|||||TWO_SIDED|90.0|-46.1|63.3||||||||63.3|-46.1|
92330005|NCT03046056|184564562|SUPERIORITY||Risk Difference in Proportions|8.0|||||TWO_SIDED|90.0|-17.2|32.6||||||||32.6|-17.2|
92330006|NCT03046056|184564562|SUPERIORITY||Risk Difference in Proportions|6.3|||||TWO_SIDED|90.0|-18.1|30.2||||||||30.2|-18.1|
92330007|NCT03046056|184564563|SUPERIORITY||Risk Difference in Proportions|3.3|||||TWO_SIDED|90.0|-22.1|28.1||||||||28.1|-22.1|
92330008|NCT03046056|184564563|SUPERIORITY||Risk Difference in Proportions|-4.2|||||TWO_SIDED|90.0|-28.1|20.3||||||||20.3|-28.1|
92330009|NCT03046056|184564564|SUPERIORITY||Risk Difference in Proportions|17.1|||||TWO_SIDED|90.0|-7.6|40.4||||||||40.4|-7.6|
92330010|NCT03046056|184564564|SUPERIORITY||Risk Difference in Proportions|2.8|||||TWO_SIDED|90.0|-21.2|26.5||||||||26.5|-21.2|
92330011|NCT03046056|184564565|SUPERIORITY||Least Squares Mean Difference|-48.0|STANDARD_ERROR_OF_MEAN|28.1|||TWO_SIDED|90.0|-95.0|-1.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||-1|-95|
92330012|NCT03046056|184564565|SUPERIORITY||Least Squares Mean Difference|-31.0|STANDARD_ERROR_OF_MEAN|27.4|||TWO_SIDED|90.0|-76.0|15.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||15|-76|
92330013|NCT03046056|184564566|SUPERIORITY||Least Squares Mean Difference|-20.0|STANDARD_ERROR_OF_MEAN|28.7|||TWO_SIDED|90.0|-68.0|28.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||28|-68|
92330014|NCT03046056|184564566|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|28.0|||TWO_SIDED|90.0|-52.0|42.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||42|-52|
92330015|NCT01172808|184564576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.236|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.181|0.291|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.291|0.181|<0.0001
92330016|NCT01172808|184564576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.142|0.253|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre , week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.253|0.142|<0.0001
92330017|NCT01172808|184564577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.126|0.244|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.244|0.126|<0.0001
92330018|NCT01172808|184564577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.092|0.211|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction.||0.211|0.092|<0.0001
92330019|NCT01172808|184564578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.114|0.233|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.233|0.114|<0.0001
92330020|NCT01172808|184564578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.031||0.0008|TWO_SIDED|95.0|0.042|0.162|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model. Spatial power used as covariance structure. The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||0.162|0.042|0.0008
92330021|NCT01172808|184564579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.032||0.0001|TWO_SIDED|95.0|0.062|0.189|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.189|0.062|0.0001
92330022|NCT01172808|184564579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.076|STANDARD_ERROR_OF_MEAN|0.033||0.02|TWO_SIDED|95.0|0.012|0.14|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.140|0.012|0.0200
92330023|NCT01172808|184564580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.224|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.171|0.278|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.278|0.171|<0.0001
92330024|NCT01172808|184564580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.195|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.141|0.249|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.249|0.141|<0.0001
92330025|NCT01172808|184564581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.1|0.215|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.215|0.100|<0.0001
92330026|NCT01172808|184564581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.029||0.0003|TWO_SIDED|95.0|0.049|0.164|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.164|0.049|0.0003
92330027|NCT01172808|184564582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.907|STANDARD_ERROR_OF_MEAN|4.994|<|0.0001|TWO_SIDED|95.0|28.113|47.7|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||47.700|28.113|<0.0001
92330028|NCT01172808|184564582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.677|STANDARD_ERROR_OF_MEAN|5.023|<|0.0001|TWO_SIDED|95.0|23.825|43.529|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||43.529|23.825|<0.0001
92330029|NCT01172808|184564583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.066||0.2717|TWO_SIDED|95.0|-0.057|0.203|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.203|-0.057|0.2717
92330030|NCT01172808|184564583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.067||0.2956|TWO_SIDED|95.0|-0.061|0.201|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.201|-0.061|0.2956
92330031|NCT01172808|184564584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.202|STANDARD_ERROR_OF_MEAN|0.059||0.0007|TWO_SIDED|95.0|-0.318|-0.085|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||-0.085|-0.318|0.0007
92330032|NCT01172808|184564584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.133|STANDARD_ERROR_OF_MEAN|0.06||0.0262|TWO_SIDED|95.0|-0.25|-0.016|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||-0.016|-0.250|0.0262
92330033|NCT01172808|184564585|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.0377|TWO_SIDED|95.0|1.02|2.11||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R2.5 / Placebo|||2.11|1.02|0.0377
92330034|NCT01172808|184564585|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76||||0.0022|TWO_SIDED|95.0|1.22|2.54||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|||2.54|1.22|0.0022
92330035|NCT01172808|184564586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.591|STANDARD_ERROR_OF_MEAN|4.52|<|0.0001|TWO_SIDED|95.0|21.726|39.455|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||39.455|21.726|<0.0001
92330036|NCT01172808|184564586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.66|STANDARD_ERROR_OF_MEAN|4.533|<|0.0001|TWO_SIDED|95.0|14.772|32.549|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||32.549|14.772|<0.0001
92330037|NCT01172808|184564587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.16|STANDARD_ERROR_OF_MEAN|4.447|<|0.0001|TWO_SIDED|95.0|19.44|36.88|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||36.880|19.440|<0.0001
92330038|NCT01172808|184564587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.37|STANDARD_ERROR_OF_MEAN|4.462|<|0.0001|TWO_SIDED|95.0|15.619|33.12|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||33.120|15.619|<0.0001
92330039|NCT01172808|184564588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.558|STANDARD_ERROR_OF_MEAN|0.603||0.355|TWO_SIDED|95.0|-1.74|0.624|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.624|-1.740|0.3550
92330040|NCT01172808|184564588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.58|STANDARD_ERROR_OF_MEAN|0.608||0.0094|TWO_SIDED|95.0|0.388|2.771|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||2.771|0.388|0.0094
92330041|NCT01172808|184564589|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.03||0.0069|TWO_SIDED|95.0|0.022|0.139|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.139|0.022|0.0069
92330042|NCT01172808|184564589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.03||0.081|TWO_SIDED|95.0|-0.006|0.111|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.111|-0.006|0.0810
92330043|NCT01172808|184564590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.031||0.0363|TWO_SIDED|95.0|0.004|0.126|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.126|0.004|0.0363
92330044|NCT01172808|184564590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|STANDARD_ERROR_OF_MEAN|0.031||0.2077|TWO_SIDED|95.0|-0.022|0.1|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.100|-0.022|0.2077
92330045|NCT01172808|184564591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.162|STANDARD_ERROR_OF_MEAN|0.14||0.2447|TWO_SIDED|95.0|-0.436|0.111|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.111|-0.436|0.2447
92330046|NCT01172808|184564591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.14||0.3046|TWO_SIDED|95.0|-0.131|0.419|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.419|-0.131|0.3046
92330047|NCT01172808|184564592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.029||0.1178|TWO_SIDED|95.0|-0.011|0.102|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.102|-0.011|0.1178
92330048|NCT01172808|184564592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.029||0.888|TWO_SIDED|95.0|-0.061|0.053|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.053|-0.061|0.8880
92330049|NCT01172808|184564593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.0308|TWO_SIDED|95.0|1.03|1.72||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R2.5 / Placebo|||1.72|1.03|0.0308
92330050|NCT01172808|184564593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.0348|TWO_SIDED|95.0|1.02|1.71||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|||1.71|1.02|0.0348
92330051|NCT03539484|184564601|OTHER|A Bayesian approach is used to estimate the maximum tolerated dose (MTD).|Posterior probability at dose 1.8 mg|10.6|||||TWO_SIDED|95.0|2.1|26.5||There is no p-value derived; logistic regression is used to estimate the probability of DLT.|Regression, Logistic|||||26.5|2.10|
92330052|NCT02173379|184564634|NON_INFERIORITY|One-sided p-value by using Farrington-Manning non-inferiority test statistic with non-inferiority margin of 2.9%, to be compared with a one-sided significance level of 0.025.||||||0.0244|ONE_SIDED|97.5|||||Farrington-Manning|||"The hypothesis test is designed to show non-inferiority of Absorb BVS to XIENCE for the primary endpoint with a one-sided alpha of 0.025. The null (H0) and alternative (HA) hypotheses are:~H0: TLFAbsorb - TLFXIENCE ≥ ∆TLF HA: TLFAbsorb - TLFXIENCE \< ∆TLF."||||0.0244
92330053|NCT02173379|184564635|NON_INFERIORITY|One-sided p-value by using Farrington-Manning non-inferiority test statistic with non-inferiority margin of 4.8%, to be compared with a one-sided significance level of 0.025.||||||0.0006|||||||Farrington-Manning|||||||0.0006
92330054|NCT00981058|184564828|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.842||||0.012|TWO_SIDED|95.0|0.736|0.962|||Log Rank|||||0.962|0.736|0.0120
92330055|NCT00981058|184564829|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.851||||0.0201|TWO_SIDED|95.0|0.743|0.975|||Log Rank|||||0.975|0.743|0.0201
92330056|NCT00981058|184564830|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.3997|TWO_SIDED|95.0|0.86|1.45|||Cochran-Mantel-Haenszel|||||1.45|0.86|0.3997
92330057|NCT00981058|184564831|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.844||||0.0061|TWO_SIDED|95.0|0.747|0.953|||Log Rank|||||0.953|0.747|0.0061
92330058|NCT02667587|184564837|SUPERIORITY||Cox Proportional Hazard|1.06|||||TWO_SIDED|95.0|0.9|1.25||||||||1.25|0.90|
92330059|NCT02667587|184564838|SUPERIORITY||Cox Proportional Hazard|1.12||||0.3402|TWO_SIDED|96.39|0.87|1.43|||Log Rank|||All Randomized No Baseline Corticosteroids Participants||1.43|0.87|0.3402
92330060|NCT02667587|184564838|SUPERIORITY||Cox Proportional Hazard|1.1|||||TWO_SIDED|95.0|0.91|1.33||||||All Randomized Participants||1.33|0.91|
92330061|NCT02667587|184564842|SUPERIORITY||Cox Proportional Hazard|1.18|||||TWO_SIDED|95.0|0.99|1.4||||||||1.40|0.99|
92330062|NCT02667587|184564843|SUPERIORITY||Cox Proportional Hazard|1.06|||||TWO_SIDED|95.0|0.89|1.26|||Log Rank|||||1.26|0.89|
92330063|NCT02542293|184564844|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0808|TWO_SIDED|95.0|0.485|1.045||The 2-sided p-value was calculated using an unstratified log-rank test.|Log Rank||The HR and confidence interval (CI) were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"Global: Durvalumab + Tremelimumab versus (Vs) Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.045|0.485|0.0808
92330064|NCT02542293|184564845|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.322|1.109|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.109|0.322|
92330065|NCT02542293|184564846|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.629|1.201|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥16 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.201|0.629|
92330066|NCT02542293|184564846|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.726|1.213|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.213|0.726|
92330067|NCT02542293|184564846|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.786|1.464|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 negative analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.464|0.786|
92330068|NCT02542293|184564846|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.835|1.302|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB \<20 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.302|0.835|
92330069|NCT02542293|184564846|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.758|1.353|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB non-evaluable analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.353|0.758|
92330070|NCT02542293|184564846|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.309|1.008|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥14 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.008|0.309|
92330071|NCT02542293|184564846|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.56|1.35|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.350|0.560|
92330072|NCT02542293|184564846|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.614|1.251|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥10 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.251|0.614|
92330073|NCT02542293|184564846|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.564|1.08|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥8 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.080|0.564|
92330074|NCT02542293|184564847|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.871|1.186|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (≥25% Vs \<25%), smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by Efron approach.|"FAS:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.186|0.871|
92330075|NCT02542293|184564847|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.48|1.018|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>= 25% Vs \< 25 and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"FAS:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.018|0.480|
92330076|NCT02542293|184564847|SUPERIORITY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.654|1.078|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥25% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.078|0.654|
92330077|NCT02542293|184564847|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.289|1.065|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥ 25% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.065|0.289|
92330078|NCT02542293|184564847|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.587|1.081|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥50% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.081|0.587|
92330079|NCT02542293|184564847|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.222|0.955|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥50% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||0.955|0.222|
92330080|NCT02542293|184564848|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.514|1.146|||||The HR and CI interval were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥20 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.146|0.514|
92330081|NCT02542293|184564848|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.623|1.189|||||The HR and CI interval were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥16 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.189|0.623|
92330082|NCT02542293|184564848|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.714|1.193|||||The HR and CI interval were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.193|0.714|
92330083|NCT02542293|184564848|SUPERIORITY||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.258|0.818|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥14 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||0.818|0.258|
92330084|NCT02542293|184564848|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.524|1.228|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.228|0.524|
92330085|NCT02542293|184564848|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.585|1.177|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥10 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.177|0.585|
92330086|NCT02542293|184564848|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.534|1.017|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥8 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.017|0.534|
92330087|NCT02542293|184564849|SUPERIORITY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.81|1.517|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.517|0.810|
92330088|NCT02542293|184564849|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.592|2.141|||||The HR and CI interval were calculated using an stratified Cox proportional hazards model, adjusting histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||2.141|0.592|
92330089|NCT02542293|184564849|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.924|1.253|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (≥25% Vs \<25%), smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by Efron approach.|"FAS:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.253|0.924|
92330090|NCT02542293|184564849|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.655|1.362|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (≥ 25% Vs \< 25%) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"FAS:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.362|0.655|
92330091|NCT02542293|184564849|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.621|1.024|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥25% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.024|0.621|
92330092|NCT02542293|184564849|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.389|1.317|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥ 25% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.317|0.389|
92330093|NCT02542293|184564849|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.542|1.01|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥50% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.010|0.542|
92330094|NCT02542293|184564849|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.335|1.251|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥50% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.251|0.335|
92330095|NCT02542293|184564850|SUPERIORITY||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.236|1.03||||||"bTMB ≥20 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.030|0.236|
92330096|NCT02542293|184564850|SUPERIORITY||Odds Ratio (OR)|0.53|||||TWO_SIDED|95.0|0.288|0.968||||||"bTMB ≥16 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||0.968|0.288|
92330097|NCT02542293|184564850|SUPERIORITY||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.336|0.908||||||"bTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||0.908|0.336|
92330098|NCT02542293|184564850|SUPERIORITY||Odds Ratio (OR)|1.96|||||TWO_SIDED|95.0|0.752|5.234||||||"tTMB ≥14 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||5.234|0.752|
92330099|NCT02542293|184564850|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.482|2.214||||||"tTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||2.214|0.482|
92330100|NCT02542293|184564850|SUPERIORITY||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.43|1.548||||||"tTMB ≥10 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.548|0.430|
92330101|NCT02542293|184564850|SUPERIORITY||Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.456|1.486||||||"tTMB ≥8 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.486|0.456|
92330102|NCT02542293|184564851|SUPERIORITY||Odds Ratio (OR)|0.47|||||TWO_SIDED|95.0|0.245|0.869|||||The analysis was performed using logistic regression, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"PD-L1-negative analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||0.869|0.245|
92330103|NCT02542293|184564851|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Odds Ratio (OR)|0.42|||||TWO_SIDED|95.0|0.124|1.337|||Binomial exact test|||"PD-L1-negative analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.337|0.124|
92330104|NCT02542293|184564851|SUPERIORITY||Odds Ratio (OR)|0.48|||||TWO_SIDED|95.0|0.356|0.647|||||The analysis was performed using logistic regression adjusting for PD-L1 status (≥25% Vs \<25%), smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"FAS:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||0.647|0.356|
92330105|NCT02542293|184564851|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.45|1.66|||||The analysis was performed using logistic regression, adjusting for PD-L1 status (\>= 25% Vs \< 25%), smoking status (never smoker Va ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"FAS:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.660|0.450|
92330106|NCT02542293|184564851|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.443|1.079|||||The analysis was performed using logistic regression, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"PD-L1 TC ≥25% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.079|0.443|
92330107|NCT02542293|184564851|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Odds Ratio (OR)|1.78|||||TWO_SIDED|95.0|0.658|4.919|||||The analysis was performed using logistic regression, adjusting for PD-L1 status (\>= 25% Vs \< 25%), smoking status (never smoker Va ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"PD-L1 TC ≥ 25% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||4.919|0.658|
92330108|NCT02542293|184564851|SUPERIORITY||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.449|1.291|||||The analysis was performed using logistic regression, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"PD-L1 TC ≥50% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.291|0.449|
92330109|NCT02542293|184564851|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|0.585|5.27|||||The analysis was performed using logistic regression, adjusting for PD-L1 status (\>= 25% Vs \< 25%), smoking status (never smoker Va ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"PD-L1 TC ≥50% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||5.270|0.585|
92330110|NCT02542293|184564852|SUPERIORITY||Hazard Ratio (HR)|0.25|||||TWO_SIDED|95.0|0.113|0.532|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥20 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.532|0.113|
92330111|NCT02542293|184564852|SUPERIORITY||Hazard Ratio (HR)|0.36|||||TWO_SIDED|95.0|0.196|0.639|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥16 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.639|0.196|
92330112|NCT02542293|184564852|SUPERIORITY||Hazard Ratio (HR)|0.38|||||TWO_SIDED|95.0|0.233|0.611|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.611|0.233|
92330113|NCT02542293|184564853|SUPERIORITY||Hazard Ratio (HR)|0.41|||||TWO_SIDED|95.0|0.199|0.787|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.787|0.199|
92330114|NCT02542293|184564853|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.183|2.86|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||2.860|0.183|
92330115|NCT02542293|184564853|SUPERIORITY||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.324|0.588|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"FAS:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.588|0.324|
92330116|NCT02542293|184564853|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.39|||||TWO_SIDED|95.0|0.193|0.761|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>= 25% Vs \< 25%) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"FAS:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.761|0.193|
92330117|NCT02542293|184564856|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.494|1.058|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥20 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.058|0.494|
92330118|NCT02542293|184564856|SUPERIORITY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.607|1.151|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥16 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.151|0.607|
92330119|NCT02542293|184564856|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.689|1.146|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.146|0.689|
92330120|NCT02542293|184564857|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.748|1.388|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.388|0.748|
92330121|NCT02542293|184564857|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.36|1.219|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.219|0.360|
92330122|NCT02542293|184564857|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.845|1.147|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>= 25% Vs \< 25%), smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by Efron approach.|"FAS:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.147|0.845|
92330123|NCT02542293|184564857|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.492|1.03|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"FAS:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.030|0.492|
92330124|NCT00310466|184564864|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||ANOVA|||||||0.87
92330125|NCT00310466|184564865|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||||||0.04
92330126|NCT00310466|184564867|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||ANOVA|||||||0.55
92330127|NCT01636947|184564875|SUPERIORITY_OR_OTHER|||||||0.191|||||||Pearson's chi-square test|||||||0.191
92330128|NCT01636947|184564876|SUPERIORITY_OR_OTHER|||||||0.458|||||||Pearson's chi-square test|||Overall Stage p-value||||0.458
92330129|NCT02696434|184564917|SUPERIORITY||Odds Ratio (OR)|0.68||||0.407|TWO_SIDED|95.0|0.28|1.68|||Regression, Logistic|||||1.68|0.28|0.407
92330130|NCT00316914|184564930|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||A priori threshold for the p-value is 0.05 and there was no adjustment for multiple comparisons.|Chi-squared|||Comparison in Percentage of Patients With Oxaliplatin-induced Grade 2+ Chronic Neuropathic Adverse Event between Arms||||0.038
92330131|NCT00316914|184564931|SUPERIORITY_OR_OTHER|||||||0.0503||95.0|||||Log Rank|||Comparison of time to Onset of Grade 2+ Chronic Neurotoxicity between Arms||||0.0503
92330132|NCT00316914|184564932|SUPERIORITY_OR_OTHER|||||||0.4048||95.0|||||Log Rank|||Comparison of Time to Onset of Grade 3+ Chronic Neurotoxicity between Arms||||0.4048
92330133|NCT00316914|184564933|SUPERIORITY_OR_OTHER|||||||0.6556||95.0|||||Log Rank|||Comparison of Average Duration of Chronic Neuropathic Toxicity between Arms||||0.6556
92330134|NCT00316914|184564934|SUPERIORITY_OR_OTHER|||||||0.3238||95.0|||||Chi-squared|||Comparison of Percentage of patients discontinuing therapy for chronic neurotoxicity between Arms||||0.3238
92330135|NCT00316914|184564937|SUPERIORITY_OR_OTHER|||||||0.7498||95.0|||||Chi-squared|||Comparison of Percentage of Patients With Acute Neuropathic Adverse Event between Arms||||0.7498
92330136|NCT00316914|184564940|SUPERIORITY_OR_OTHER|||||||0.234||95.0|||||Kruskal-Wallis|||Comparison of Fatigue NOW between two arms||||0.2340
92330137|NCT00316914|184564940|SUPERIORITY_OR_OTHER|||||||0.201||95.0|||||Kruskal-Wallis|||Comparison of Fatigue USUAL between two arms||||0.2010
92330138|NCT00316914|184564940|SUPERIORITY_OR_OTHER|||||||0.9364||95.0|||||Kruskal-Wallis|||Comparison of Fatigue WORST between two arms||||0.9364
92330139|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.9364||95.0|||||Kruskal-Wallis|||Fatigue WORST||||0.9364
92330140|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.6275||95.0|||||Kruskal-Wallis|||Walking||||0.6275
92330141|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.6988||95.0|||||Kruskal-Wallis|||Buttoning Shirt or Tying Laces||||0.6988
92330142|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.5124||95.0|||||Kruskal-Wallis|||Diarrhea||||0.5124
92330143|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.3103||95.0|||||Kruskal-Wallis|||Constipation||||0.3103
92330144|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.8601||95.0|||||Kruskal-Wallis|||Abdominal Cramping||||0.8601
92330145|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.2439||95.0|||||Kruskal-Wallis|||Bowel Problems with Normal Activity||||0.2439
92330146|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.9283||95.0|||||Kruskal-Wallis|||Shortness of Breath (Week 2 - Baseline)||||0.9283
92330147|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.4715||95.0|||||Kruskal-Wallis|||Swallowing (Week 2 - Baseline)||||0.4715
92330148|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.5105||95.0|||||Kruskal-Wallis|||Numbness in Fingers, Toes (Week 2 - Baseline)||||0.5105
92330149|NCT00316914|184564941|SUPERIORITY_OR_OTHER|||||||0.2181||95.0|||||Kruskal-Wallis|||Tingling in Fingers, Toes (Week 2 - Baseline)||||0.2181
92330150|NCT00355706|184564948|SUPERIORITY_OR_OTHER_LEGACY|||||||0.964||95.0|||||ANOVA|||||||0.964
92330151|NCT00355706|184564949|SUPERIORITY_OR_OTHER_LEGACY|||||||0.892||95.0|||||ANOVA|||||||0.892
92330152|NCT00355706|184564950|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56||95.0|||||ANOVA|||||||0.560
92330153|NCT00424021|184564957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.5|STANDARD_DEVIATION|46.93|||TWO_SIDED|95.0|-8.3|17.3||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||17.3|-8.3|
92330154|NCT00424021|184564958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.3|STANDARD_DEVIATION|73.16|||TWO_SIDED|95.0|-30.3|9.7||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||9.7|-30.3|
92330155|NCT00424021|184564959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7|STANDARD_DEVIATION|83.08|||TWO_SIDED|95.0|-27.4|18.0||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||18.0|-27.4|
92330156|NCT00424021|184564960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.9|STANDARD_DEVIATION|77.04|||TWO_SIDED|95.0|-34.9|7.1||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||7.1|-34.9|
92330157|NCT00424021|184564962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21|STANDARD_DEVIATION|1.323|||TWO_SIDED|95.0|-0.15|0.57||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||0.57|-0.15|
92330158|NCT00424021|184564963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|STANDARD_DEVIATION|1.659|||TWO_SIDED|95.0|0.01|0.92||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||0.92|0.01|
92330159|NCT00424021|184564964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|1.888|||TWO_SIDED|95.0|-0.02|1.02||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||1.02|-0.02|
92330160|NCT00424021|184564965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|STANDARD_DEVIATION|1.721|||TWO_SIDED|95.0|-0.01|0.93||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||0.93|-0.01|
92330161|NCT00424021|184564972|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|19.41|||TWO_SIDED|95.0|-5.9|4.7||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||4.7|-5.9|
92330162|NCT00424021|184564973|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.4|STANDARD_DEVIATION|25.79|||TWO_SIDED|95.0|-14.4|-0.3||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||-0.3|-14.4|
92330163|NCT00424021|184564974|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.1|STANDARD_DEVIATION|25.31|||TWO_SIDED|95.0|-12.0|1.8||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||1.8|-12.0|
92330164|NCT00424021|184564975|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9|STANDARD_DEVIATION|23.69|||TWO_SIDED|95.0|-8.4|4.6||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||4.6|-8.4|
92330165|NCT02028169|184565106|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330166|NCT02028169|184565107|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330167|NCT02028169|184565108|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline Vs. Month 9||||< 0.001
92330168|NCT02028169|184565109|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330169|NCT02028169|184565110|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
92330170|NCT02028169|184565110|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
92330171|NCT02028169|184565110|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330172|NCT02028169|184565113|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
92330173|NCT02028169|184565113|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
92330174|NCT02028169|184565113|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330175|NCT02028169|184565114|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
92330176|NCT02028169|184565114|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
92330177|NCT02028169|184565114|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330178|NCT02028169|184565115|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330179|NCT02028169|184565116|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
92330180|NCT02028169|184565116|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
92330181|NCT02028169|184565116|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330182|NCT02028169|184565118|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330183|NCT02028169|184565120|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
92330184|NCT02028169|184565120|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
92330185|NCT02028169|184565120|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330186|NCT02028169|184565121|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
92330187|NCT02028169|184565121|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
92330188|NCT02028169|184565121|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330189|NCT02028169|184565122|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
92330190|NCT02028169|184565122|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
92330191|NCT02028169|184565122|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330192|NCT02028169|184565123|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
92330193|NCT02028169|184565123|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
92330194|NCT02028169|184565123|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330195|NCT02028169|184565124|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
92330196|NCT02028169|184565124|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
92330197|NCT02028169|184565124|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
92330198|NCT02240069|184565149|SUPERIORITY||Mean Difference (Net)|-0.11||||0.1|TWO_SIDED|95.0|-0.24|0.02|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FEV1 for Education group relative to Placebo group||0.02|-0.24|0.10
92330199|NCT02240069|184565149|SUPERIORITY||Mean Difference (Net)|0.01||||0.9|TWO_SIDED|95.0|-0.11|0.13|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FEV1 for Filtration group relative to Placebo group||0.13|-0.11|0.90
92330200|NCT02240069|184565150|SUPERIORITY||Mean Difference (Net)|-0.09||||0.28|TWO_SIDED|95.0|-0.24|0.07|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FVC for Education group relative to Placebo group||0.07|-0.24|0.28
92330201|NCT02240069|184565150|SUPERIORITY||Mean Difference (Net)|0.01||||0.89|TWO_SIDED|95.0|-0.14|0.16|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FVC for Filter group relative to Placebo group||0.16|-0.14|0.89
92330202|NCT02240069|184565151|SUPERIORITY||Mean Difference (Net)|-0.02||||0.06|TWO_SIDED|95.0|-0.05|0.0|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FEV1/FVC for Education group relative to Placebo group||0.00|-0.05|0.06
92330203|NCT02240069|184565151|SUPERIORITY||Mean Difference (Net)|0.0||||0.71|TWO_SIDED|95.0|-0.03|0.02|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FEV1/FVC for Filter group relative to Placebo group||0.02|-0.03|0.71
92330204|NCT02240069|184565152|SUPERIORITY||Mean Difference (Net)|-3.46||||0.39|TWO_SIDED|95.0|-11.45|4.54|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in systolic blood pressure for Education group relative to Placebo group||4.54|-11.45|0.39
92330205|NCT02240069|184565152|SUPERIORITY||Mean Difference (Net)|0.25||||0.95|TWO_SIDED|95.0|-7.73|8.24|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in systolic blood pressure for Filter group relative to Placebo group||8.24|-7.73|0.95
92330206|NCT02240069|184565153|SUPERIORITY||Mean Difference (Net)|-1.0||||0.65|TWO_SIDED|95.0|-5.42|3.42|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in diastolic blood pressure for Education group relative to Placebo group||3.42|-5.42|0.65
92330207|NCT02240069|184565153|SUPERIORITY||Mean Difference (Net)|-0.58||||0.79|TWO_SIDED|95.0|-4.97|3.81|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in diastolic blood pressure for Filter group relative to Placebo group||3.81|-4.97|0.79
92330208|NCT02240069|184565154|SUPERIORITY||Mean Difference (Net)|-2.9||||0.88|TWO_SIDED|95.0|-33.6|42.0|||Mixed Models Analysis|Linear mixed models adjusted for pre-intervention PM2.5. The model includes a nested random term to account for repeated measures.||Pre- to post-intervention change in indoor PM2.5 concentration for Education group relative to Placebo group||42.0|-33.6|0.88
92330209|NCT02240069|184565154|SUPERIORITY||Mean Difference (Net)|-50.5|||<|0.001|TWO_SIDED|95.0|-66.1|-27.8|||Mixed Models Analysis|Linear mixed models adjusted for pre-intervention PM2.5. The model includes a nested random term to account for repeated measures.||Pre- to post-intervention change in indoor PM2.5 concentration for Filter group relative to Placebo group||-27.8|-66.1|<0.001
92330210|NCT02407054|184565171|SUPERIORITY||Hazard Ratio (HR)|0.5871|||||TWO_SIDED|95.0|0.3967|0.869||||||||0.8690|0.3967|
92330211|NCT02407054|184565172|SUPERIORITY||Hazard Ratio (HR)|0.6515|||||TWO_SIDED|95.0|0.4123|1.0294||||||||1.0294|0.4123|
92330212|NCT04114656|184565235|OTHER||Posterior Ratio to placebo|0.993|||||TWO_SIDED|95.0|0.968|1.02|||||Treatment comparison ratio of GSK3858279 and placebo using posterior median ratio and 95% credible interval is presented. Analysis was performed using Bayesian Mixed Repeated measures Analysis of Covariance (ANCOVA) model.|||1.020|0.968|
92330213|NCT04114656|184565236|OTHER||Posterior ratio to placebo|1.0|||||TWO_SIDED|95.0|0.89|1.12|||||Treatment comparison ratio of GSK3858279 and placebo using posterior median ratio and 95% credible interval is presented. Analysis was performed using Bayesian Mixed Repeated measures Analysis of Covariance (ANCOVA) model.|||1.12|0.89|
92330214|NCT04114656|184565237|OTHER||Posterior ratio to placebo|0.98|||||TWO_SIDED|95.0|0.91|1.05|||||Treatment comparison ratio of GSK3858279 and placebo using posterior median ratio and 95% credible interval is presented. Analysis was performed using Bayesian Mixed Repeated measures Analysis of Covariance (ANCOVA) model.|||1.05|0.91|
92330215|NCT00703326|184565238|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.077|TWO_SIDED|95.0|0.75|1.01|||Stratified Log Rank (SLR)|SLR used Interactive Web Response System (IWRS) factors: prior taxane therapy, visceral metastasis, hormone receptor status and geographical regions.|HR with 95% confidence interval (CI) was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors.|||1.01|0.75|0.077
92330216|NCT00703326|184565239|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.95||||0.487|TWO_SIDED|95.0|0.81|1.1||The gate-keeping strategy used to control overall type 1 error 0.05 (2-sided) or 0.025 (1-sided) to analyze progression-free survival (PFS) and OS. At final PFS analysis only if primary PFS test was significant would analysis of OS be inferential.|Stratified Log Rank (SLR)|SLR used Interactive Web Response System (IWRS) factors: prior taxane therapy, visceral metastasis, hormone receptor status and geographical regions.|HR with 95% confidence interval (CI) was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors.|||1.10|0.81|0.487
92330217|NCT00703326|184565240|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.033|TWO_SIDED|95.0|0.73|0.99|||Stratified Log Rank (SLR)|SLR used Interactive Web Response System (IWRS) factors: prior taxane therapy, visceral metastasis, hormone receptor status and geographical regions.|HR with 95% confidence interval (CI) was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors.|||0.99|0.73|0.033
92330218|NCT00703326|184565241|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.33||||0.027|TWO_SIDED|95.0|1.03|1.71|||Stratified Cochran-Mantel-Haenszel(SCMH)|SCMH used Interactive Web Response System (IWRS) factors: prior taxane therapy, visceral metastasis, hormone receptor status and geographical regions.|Stratified odds ratio was calculated considering the IWRS stratification factors.|||1.71|1.03|0.027
92330219|NCT00703326|184565242|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.15|TWO_SIDED|95.0|0.67|1.06|||Stratified Log Rank (SLR)|SLR used Interactive Web Response System (IWRS) factors: prior taxane therapy, visceral metastasis, hormone receptor status and geographical regions.|HR with 95% confidence interval (CI) was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors.|||1.06|0.67|0.150
92330220|NCT00703326|184565243|SUPERIORITY_OR_OTHER_LEGACY|||||||0.539||||||P-value is for end of therapy. Analysis of covariance (ANCOVA) adjusted for baseline score was used to compare the 2 treatment arms.|ANCOVA|||||||0.539
92330221|NCT03052920|184565270|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<=0.05|t-test, 2 sided|t(35) = 11.29||Mean difference in percent correct for CNC words at 6 months post-implant and pre-implant is reported.||||<0.001
92330222|NCT03052920|184565271|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<=0.05|t-test, 2 sided|t(35) = 16.947||Mean difference in Soundfield thresholds (averaged across the frequency range in dB HL) at 6 months post-implant and pre-implant is reported.||||<0.001
92330223|NCT03052920|184565272|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was \<= 0.05|t-test, 2 sided|t(35) = 2.14||Mean difference in degrees RMS error at 6 months post-implant and pre-implant is reported.||||<0.05
92330224|NCT03052920|184565273|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(35) = 4.02||Mean difference in percentage of understanding (words correct) at 6 months post-implant and pre-implant is reported.||||<0.001
92330225|NCT03052920|184565274|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(35) = 2.58||Mean difference in AzBio sentence scores in noise at 6 months post-implant and pre-implant is reported.||||<0.05
92330226|NCT03052920|184565275|SUPERIORITY||||||<|0.01||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(35) = 3.16||Mean difference in dB SNR for BKB-SIN sentences with noise to the better ear at 6-months post-implant and pre-implant is reported.||||<0.01
92330227|NCT03052920|184565276|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(35) = 10.42||Mean difference in AzBio sentence scores at 60 dB SPL for the poor ear alone at 6 months post-implant and pre-implant is reported.||||<0.001
92330228|NCT03052920|184565277|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(38) = 7.15||Mean difference in HHIE reported scores at 6-months post-implant and pre-implant is reported.||||<0.001
92330229|NCT03052920|184565278|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(38) = 4.34||Mean difference in HUI3 ratings at 6 months post-implant and pre-implant is reported.||||<0.001
92330230|NCT03052920|184565279|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(38) = 7.71||Mean difference in ratings for the SSQ total score at 6 months post-implant and pre-implant is reported.||||<0.001
92330231|NCT03052920|184565280|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(38) = 7.90||Mean difference in SSQ ratings at 12 months post-implant and pre-implant is reported.||||<0.001
92330232|NCT03052920|184565281|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(38) = 2.31||Mean difference in SADL scores at 6 months post-implant and pre-implant are reported.||||<0.05
92330233|NCT03052920|184565282|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(25) = 7.27||Mean difference in the CPHI scores at 6 months post-implant and pre-implant are reported.||||<0.001
92330234|NCT03052920|184565283|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(25) = 7.65||Mean difference in HII-SOP scores at 6 months post-implant and pre-implant is reported.||||<0.001
92330235|NCT03052920|184565284|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(35) = 2.34||Mean difference in the dB SNR scores for BKB-SIN sentences at 6 months post-implant minus pre-implant is reported.||||<0.05
92330236|NCT04591015|184565362|SUPERIORITY|||||||0.0626|||||||Fisher Exact|||||||0.0626
92330237|NCT04591015|184565363|SUPERIORITY|||||||0.0496|||||||t-test, 2 sided|||Only includes participants who completed a 90-day lab||||0.0496
92330238|NCT04591015|184565364|SUPERIORITY|||||||0.0651|||||||t-test, 2 sided|||Only includes participants who completed a 180-day lab||||0.0651
92330239|NCT04591015|184565365|SUPERIORITY|||||||0.8739|||||||Fisher Exact|||||||0.8739
92330240|NCT04591015|184565366|SUPERIORITY|||||||0.4702|||||||t-test, 2 sided|||||||0.4702
92330241|NCT04591015|184565367|SUPERIORITY|||||||0.1258|||||||t-test, 2 sided|||||||0.1258
92330242|NCT04591015|184565368|SUPERIORITY|||||||0.8635|||||||t-test, 2 sided|||||||0.8635
92330243|NCT04591015|184565369|SUPERIORITY|||||||0.0471|||||||t-test, 2 sided|||||||0.0471
92330244|NCT04591015|184565370|SUPERIORITY|||||||0.0218|||||||t-test, 2 sided|||||||0.0218
92330245|NCT04591015|184565371|SUPERIORITY|||||||0.509|||||||t-test, 2 sided|||||||0.5090
92330246|NCT04591015|184565372|SUPERIORITY|||||||0.4034|||||||t-test, 2 sided|||||||0.4034
92330247|NCT04591015|184565373|SUPERIORITY|||||||0.0175|||||||t-test, 2 sided|||||||0.0175
92330248|NCT04591015|184565374|SUPERIORITY|||||||0.4435|||||||Fisher Exact|||||||0.4435
92330249|NCT04591015|184565375|SUPERIORITY|||||||0.7417|||||||Fisher Exact|||||||0.7417
92330250|NCT04591015|184565376|SUPERIORITY|||||||0.5779|||||||t-test, 2 sided|||||||0.5779
92330251|NCT04591015|184565377|SUPERIORITY|||||||0.0493|||||||t-test, 2 sided|||||||0.0493
92330252|NCT04591015|184565378|SUPERIORITY|||||||0.0773|||||||t-test, 2 sided|||||||0.0773
92330253|NCT04591015|184565379|SUPERIORITY|||||||0.0921|||||||t-test, 2 sided|||||||0.0921
92330254|NCT04591015|184565380|SUPERIORITY|||||||0.2404|||||||t-test, 2 sided|||||||0.2404
92330255|NCT04591015|184565381|SUPERIORITY|||||||0.8955|||||||t-test, 2 sided|||||||0.8955
92330256|NCT02509078|184565382|SUPERIORITY||Risk Difference (RD)|-0.3||||0.93|TWO_SIDED|95.0|-6.4|5.9|||Wald test for the difference of two prop||Estimated value is a percentage|||5.9|-6.4|0.93
92330257|NCT04997265|184565425|OTHER|Given the small sample size, simple descriptive were used. Between-group differences were performed using a Fisher exact test.|||||<|0.05|||||||Fisher Exact|||||||<0.05
92330258|NCT02290925|184565452|OTHER|general linear model (GLM) with repeated measures|Mean Difference (Net)|0.25|||||TWO_SIDED||||||||Box's M tests was used. Mauchly's test was used to verify that the error covariance matrix of the orthonormalized-transformed dependent variables is proportional to an identity matrix.||"We used intention to treat analysis. Since the missing data were more than 5%, we examined the dataset to determine whether it shows missing completely at random (MCAR) not missing at random (NMAR) or data missing at random (MAR). A sensitivity analysis was done to determine whether multiple imputations are required. It included complete case analysis, best-worst case and worst best case scenario with group mean±1SD."|||
92330259|NCT01973335|184565456|SUPERIORITY||Mean Difference (Final Values)|30.0||||0.515|TWO_SIDED|95.0|-63.0|123.0||Not adjusted for multiple comparisons|t-test, 2 sided|||2x2 factorial design: both acetazolamide groups together are compared with both high-dose loop diuretic groups together||123|-63|0.515
92330260|NCT01973335|184565457|SUPERIORITY||Risk Difference (RD)|-0.2||||0.27|TWO_SIDED|||||Not adjusted for multiple comparisons|Fisher Exact|||2x2 factorial design: analysis according to spironolactone use||||0.270
92330261|NCT00388297|184565481|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate|0.0||||0.71|TWO_SIDED|95.0|-3.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|-3|0.71
92330262|NCT00388297|184565481|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate|-1.0||||0.3|TWO_SIDED|95.0|-4.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-4|0.30
92330263|NCT00388297|184565482|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
92330264|NCT00388297|184565482|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
92330265|NCT00388297|184565483|SUPERIORITY_OR_OTHER|||||||0.81|||||||Chi-squared|||Analysis for \< 34 weeks||||0.81
92330266|NCT00388297|184565483|SUPERIORITY_OR_OTHER|||||||0.47|||||||Chi-squared|||Analysis for \<34 weeks||||0.47
92330267|NCT00388297|184565483|SUPERIORITY_OR_OTHER|||||||0.44|||||||Chi-squared|||Analysis for \<37 weeks||||0.44
92330268|NCT00388297|184565483|SUPERIORITY_OR_OTHER|||||||0.11|||||||Chi-squared|||Analysis for \< 37 weeks||||0.11
92330269|NCT00388297|184565483|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.31|TWO_SIDED|95.0|0.0|3.0|||Chi-squared|||Bayley-III Motor (24 months)||3|0|0.31
92330270|NCT00388297|184565483|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.3|TWO_SIDED|95.0|0.0|3.0|||Chi-squared|||Bayley-II Language (24 months)||3|0|0.30
92330271|NCT00388297|184565483|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.89|TWO_SIDED|95.0|0.0|0.0|||Chi-squared|||Bayley-III Cognitive (12 months)||0|0|0.89
92330272|NCT00388297|184565483|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.54|TWO_SIDED|95.0|0.0|3.0|||Chi-squared|||Bayley-III Motor (12 months)||3|0|0.54
92330273|NCT00388297|184565483|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.92|TWO_SIDED|95.0|-3.0|3.0|||Chi-squared|||Bayley-III Language (12 months)||3|-3|0.92
92330274|NCT00388297|184565483|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.7|TWO_SIDED|95.0|0.0|0.0|||Chi-squared|||Bayley-III Cognitive (24 months)||0|0|0.70
92330275|NCT00388297|184565483|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.2|TWO_SIDED|95.0|-3.0|0.0|||Chi-squared|||Bayley-III Motor (24 months)||0|-3|0.20
92330276|NCT00388297|184565483|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.71|TWO_SIDED|95.0|-3.0|2.0|||Chi-squared|||Bayley-II Language (24 months)||2|-3|0.71
92330277|NCT00388297|184565484|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.89|TWO_SIDED|95.0|-3.0|2.0|||Chi-squared|||||2|-3|0.89
92330278|NCT00388297|184565484|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-1.0||||0.48|TWO_SIDED|95.0|-3.0|2.0|||Chi-squared|||||2|-3|0.48
92330279|NCT00388297|184565485|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.9|TWO_SIDED|95.0|-2.0|3.0|||Chi-squared|||||3|-2|0.90
92330280|NCT00388297|184565485|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-1.0||||0.64|TWO_SIDED|95.0|-3.0|2.0|||Chi-squared|||||2|-3|0.64
92330281|NCT00388297|184565486|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.6|TWO_SIDED|95.0|-5.0|7.0|||Chi-squared|||Analysis for recall of digits forward||7|-5|0.60
92330282|NCT00388297|184565486|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.22|TWO_SIDED|95.0|-8.0|0.0|||Chi-squared|||Analysis for recall of digits forward||0|-8|0.22
92330283|NCT00388297|184565486|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.52|TWO_SIDED|95.0|-6.0|0.0|||Chi-squared|||Analysis for Recognition of Pictures||0|-6|0.52
92330284|NCT00388297|184565486|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.91|TWO_SIDED|95.0|-4.0|0.0|||Chi-squared|||Analysis for Recognition of Pictures||0|-4|0.91
92330285|NCT00388297|184565487|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.63|TWO_SIDED|95.0|0.0|0.0|||Chi-squared|||Bayley II Cognitive (12 months)||0|0|0.63
92330286|NCT00388297|184565487|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.83|TWO_SIDED|95.0|0.0|3.0|||Chi-squared|||Bayley II Motor (12 mo)||3|0|0.83
92330287|NCT00388297|184565487|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.48|TWO_SIDED|95.0|0.0|3.0|||Chi-squared|||Bayley-III Language (12 months)||3|0|0.48
92330288|NCT00388297|184565487|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.59|TWO_SIDED|95.0|0.0|0.0|||Chi-squared|||Bayley-III Cognitive (24 months)||0|0|0.59
92330289|NCT00388297|184565488|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.99|TWO_SIDED|95.0|-2.0|2.0|||Chi-squared|||CBCL at 36 months||2|-2|0.99
92330290|NCT00388297|184565488|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.96|TWO_SIDED|95.0|-2.0|2.0|||Chi-squared|||CBCL at 60 months||2|-2|0.96
92330291|NCT00388297|184565488|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.65|TWO_SIDED|95.0|-2.0|2.0|||Chi-squared|||CBCL at 36 months||2|-2|0.65
92330292|NCT00388297|184565488|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-1.0||||0.44|TWO_SIDED|95.0|-3.0|1.0|||Chi-squared|||CBCL at 60 months||1|-3|0.44
92330293|NCT00388297|184565489|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.37|TWO_SIDED|95.0|-1.0|2.0|||Chi-squared|||||2|-1|0.37
92330294|NCT00388297|184565489|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.98|TWO_SIDED|95.0|-2.0|2.0|||Chi-squared|||||2|-2|0.98
92330295|NCT00388297|184565490|SUPERIORITY_OR_OTHER|||||||0.12|||||||Chi-squared|||||||0.12
92330296|NCT00388297|184565490|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.00
92330297|NCT00388297|184565491|SUPERIORITY_OR_OTHER|||||||0.69|||||||Chi-squared|||||||0.69
92330298|NCT00388297|184565491|SUPERIORITY_OR_OTHER|||||||0.51|||||||Chi-squared|||||||0.51
92330299|NCT00388297|184565492|SUPERIORITY_OR_OTHER|||||||0.76|||||||Chi-squared|||||||0.76
92330300|NCT00388297|184565492|SUPERIORITY_OR_OTHER|||||||0.64|||||||Chi-squared|||||||0.64
92330301|NCT00388297|184565493|SUPERIORITY_OR_OTHER|||||||0.66|||||||Chi-squared|||||||0.66
92330302|NCT00388297|184565493|SUPERIORITY_OR_OTHER|||||||0.62|||||||Chi-squared|||||||0.62
92330303|NCT00388297|184565494|SUPERIORITY_OR_OTHER|||||||0.24|||||||Chi-squared|||||||0.24
92330304|NCT00388297|184565494|SUPERIORITY_OR_OTHER|||||||0.55|||||||Chi-squared|||||||0.55
92330305|NCT00388297|184565495|SUPERIORITY_OR_OTHER|||||||0.36|||||||Chi-squared|||||||0.36
92330306|NCT00388297|184565495|SUPERIORITY_OR_OTHER|||||||0.28|||||||Chi-squared|||||||0.28
92330307|NCT00388297|184565496|SUPERIORITY_OR_OTHER|||||||0.5|||||||Chi-squared|||||||0.50
92330308|NCT00388297|184565496|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.00
92330309|NCT00388297|184565497|SUPERIORITY_OR_OTHER|||||||0.76|||||||Chi-squared|||Apgar at 1 min \< 4||||0.76
92330310|NCT00388297|184565497|SUPERIORITY_OR_OTHER|||||||0.76|||||||Chi-squared|||Apgar \> 4 at 1 minute||||0.76
92330311|NCT00388297|184565497|SUPERIORITY_OR_OTHER|||||||0.69|||||||Chi-squared|||Apgar \< 7 at 5 minutes||||0.69
92330312|NCT00388297|184565497|SUPERIORITY_OR_OTHER|||||||0.45|||||||Chi-squared|||Apgar \< 7 at 5 minutes||||0.45
92330313|NCT00388297|184565498|SUPERIORITY_OR_OTHER|||||||0.24|||||||Chi-squared|||||||0.24
92330314|NCT00388297|184565498|SUPERIORITY_OR_OTHER|||||||0.97|||||||Chi-squared|||||||0.97
92330315|NCT00388297|184565499|SUPERIORITY_OR_OTHER|||||||0.45|||||||Chi-squared|||||||0.45
92330316|NCT00388297|184565499|SUPERIORITY_OR_OTHER|||||||0.68|||||||Chi-squared|||||||0.68
92330317|NCT00388297|184565500|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
92330318|NCT00388297|184565500|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
92330319|NCT00388297|184565501|SUPERIORITY_OR_OTHER|||||||0.45|||||||Chi-squared|||||||0.45
92330320|NCT00388297|184565501|SUPERIORITY_OR_OTHER|||||||0.75|||||||Chi-squared|||||||0.75
92330321|NCT00388297|184565502|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
92330322|NCT00388297|184565503|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
92330323|NCT00388297|184565503|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||||||0.50
92330324|NCT00388297|184565504|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||||||0.50
92330325|NCT00388297|184565504|SUPERIORITY_OR_OTHER|||||||0.49|||||||Fisher Exact|||||||0.49
92330326|NCT00388297|184565505|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|||||||0.99
92330327|NCT00388297|184565505|SUPERIORITY_OR_OTHER|||||||0.85|||||||Chi-squared|||||||0.85
92330328|NCT00388297|184565506|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
92330329|NCT00388297|184565506|SUPERIORITY_OR_OTHER|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
92330330|NCT02284568|184565527|SUPERIORITY||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.1293||0.903|TWO_SIDED|95.0|-0.239|0.2705||significance at 0.05.|Repeated Measures ANCOVA|||The statistical model was a repeated measures analysis of covariance with treatment group, week, treatment group by week interaction, normalized brain volume at baseline, natural logarithm of T2 lesion volume at baseline, and country as fixed effects.||0.2705|-0.2390|0.903
92330331|NCT02284568|184565529|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.426|TWO_SIDED|95.0|0.48|1.37||significance at 0.05. p-value was from a log-rank test, and estimate and confidence limits were from a Cox model with treatment group as fixed effect, due to the violation of the proportionality assumption.|Log Rank||Laquinimod 0.6 mg vs placebo|The statistical model was a Cox proportional hazards regression model with treatment group, categorical EDSS at baseline (≤4.5 or \>4.5), age at baseline, natural logarithm of T2 lesion volume at baseline, and country as fixed effects.||1.37|0.48|0.426
92330332|NCT02284568|184565530|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.867|TWO_SIDED|95.0|0.68|1.59||significance at 0.05.|Regression, Cox||Laquinimod 0.6 mg vs placebo|The statistical model was a Cox proportional hazards regression model with treatment group, categorical EDSS at baseline (≤4.5 or \>4.5), age at baseline, natural logarithm of T2 lesion volume at baseline, and country as fixed effects.||1.59|0.68|0.867
92330333|NCT02284568|184565531|SUPERIORITY||Mean Difference (Final Values)|-0.325|STANDARD_ERROR_OF_MEAN|0.2679||0.248|TWO_SIDED|95.0|-0.85|0.2||significance at 0.05. The p-value for ranked change from baseline values was from a repeated measures analysis of covariance with trt group, week, treatment group by week interaction, rank of T25FW score at baseline, and country as fixed effects.|Repeated Measures ANCOVA||Laquinimod 0.6 mg vs. placebo treatment effect|placebo n=121 Laquinimod 0.6 mg n=108 The estimate of parameter, standard error, and 95% confidence intervals for change from baseline was from a Mann-Whitney-Wilcoxon Test using Hodges-Lehmann estimates.||0.2000|-0.8500|0.248
92330334|NCT02284568|184565532|SUPERIORITY||Risk Ratio (RR)|0.4|STANDARD_ERROR_OF_MEAN|0.11||0.001|TWO_SIDED|95.0|0.26|0.69||significance at 0.05|negative binomial regression model||Laquinimod 0.6 mg vs. placebo risk ratio|This analysis was performed using baseline adjusted negative binomial regression model (SAS® PROC GENMOD) in which 1 contrast for comparing laquinimod 0.6 mg to placebo was constructed. In addition to the treatment group, the natural logarithm of T2 lesion volume at baseline, age at baseline and country/geographical region (CGR) were used as covariates.||0.69|0.26|0.001
92330335|NCT00460265|184565534|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.873||||0.1403||95.0|0.729|1.046|||Log Rank|Stratified by IVRS randomization factors (ECOG(0:1),previously treated w/ CT/RT(yes:no),primary tumor site(oropharynx/larynx:oral cavity/hypopharynx))|Hazard ratio from Cox proportional hazards model stratified by IVRS randomization factors; hazard ratio presented as panitumumab plus chemotherapy:chemotherapy alone.|||1.046|0.729|0.1403
92330336|NCT00460265|184565535|SUPERIORITY_OR_OTHER||Difference in percentages|10.98||||||95.0|3.13|18.68||||||||18.68|3.13|
92330337|NCT00460265|184565535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.69||||||95.0|1.15|2.44||||||||2.44|1.15|
92330338|NCT00460265|184565539|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||||95.0|0.659|0.922|||||Cox proportional hazards model stratified by IVRS randomization factors|||0.922|0.659|
92330339|NCT01642485|184565558|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 1 sided|||The effect of insulin, C-peptide and glucose on QTcF was investigated using linear mixed effect concentration-response models with the double difference of QTcF (difference to time matched placebo of the change from average baseline) as dependent variable and up to two of the variables change from time matched placebo in insulin, C-peptide and glucose as covariates.||||0.05
92330340|NCT01642485|184565559|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 1 sided|||The relevant confirmatory null hypotheses could all be rejected on the 5% level (one sided), i.e. a difference in QTcF between continental breakfast and placebo; between FDA breakfast and placebo could be ascertained.||||0.05
92330341|NCT01642485|184565559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9|||||TWO_SIDED|90.0|-10.4|-5.5||||||||-5.5|-10.4|
92330342|NCT01642485|184565559|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-6.8|||||TWO_SIDED|90.0|-9.3|-4.3||||||||-4.3|-9.3|
92330343|NCT00956631|184565578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2|||<|0.0001|TWO_SIDED|95.0|2.29|4.13|||t-test, 2 sided|||The mean change from baseline was assessed for VAS using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used throughout. A hypothetical average improvement of zero was used.||4.13|2.29|<0.0001
92330344|NCT00956631|184565579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.58|||<|0.0001|TWO_SIDED|95.0|12.33|22.83|||t-test, 2 sided|||The mean change from baseline was assessed for ODI using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used. A hypothetical average improvement of zero was used.||22.83|12.33|<0.0001
92330345|NCT00236899|184565606|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.345||95.0|0.87|1.5|||Regression, Cox|||||1.50|0.87|0.345
92330346|NCT00236899|184565607|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.885|TWO_SIDED|95.0|0.69|1.37|||Regression, Cox|||||1.37|0.69|0.885
92330347|NCT00236899|184565608|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.976|TWO_SIDED|95.0|0.71|1.42|||Regression, Cox|||||1.42|0.71|0.976
92330348|NCT00236899|184565609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.442||||0.0028|TWO_SIDED|95.0|0.259|0.754|||Regression, Logistic|||||0.754|0.259|0.0028
92330349|NCT00236899|184565610|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.15|TWO_SIDED|95.0|0.93|1.62|||Regression, Cox|||||1.62|0.93|0.150
92330350|NCT00236899|184565611|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.818||||0.4567|TWO_SIDED|95.0|0.482|1.389|||Regression, Logistic|||||1.389|0.482|0.4567
92330351|NCT00236899|184565613|SUPERIORITY_OR_OTHER|||||||0.142||95.0||||This is the p-value for Treatment Schedule (Docetaxel and Gemcitabine 3 Weekly + Paclitaxel and Gemcitabine 3 Weekly) and Treatment Drug (Docetaxel and Gemcitabine Weekly + Paclitaxel and Gemcitabine Weekly).|Fisher Exact|||||||0.142
92330352|NCT00236899|184565613|SUPERIORITY_OR_OTHER|||||||0.47||95.0||||This is the p-value for Treatment Drug (Docetaxel and Gemcitabine 3 Weekly + Docetaxel and Gemcitabine Weekly vs Paclitaxel and Gemcitabine 3 Weekly + Paclitaxel and Gemcitabine Weekly).|Fisher Exact|||||||0.470
92330353|NCT00236899|184565614|SUPERIORITY_OR_OTHER|||||||0.293||95.0||||This is the p-value for Treatment Schedule (Docetaxel and Gemcitabine 3 Weekly + Paclitaxel and Gemcitabine 3 Weekly) and Treatment Drug (Docetaxel and Gemcitabine Weekly + Paclitaxel and Gemcitabine Weekly).|Fisher Exact|||||||0.293
92330354|NCT00236899|184565614|SUPERIORITY_OR_OTHER|||||||0.476||95.0||||This is the p-value for Treatment Drug (Docetaxel and Gemcitabine 3 Weekly + Docetaxel and Gemcitabine Weekly vs Paclitaxel and Gemcitabine 3 Weekly + Paclitaxel and Gemcitabine Weekly).|Fisher Exact|||||||0.476
92330355|NCT01447927|184565664|SUPERIORITY_OR_OTHER|||||||0.7981|||||||Wilcoxon Rank-Rum Test (1-sided)|||The null hypothesis was that the percent change in mean pS6K1 values (from pre to post) was the same or increased for the metformin arm as compared to placebo. Assuming equal standard deviations (i.e. 50%) across the metformin and placebo groups, 30 participants per arm yielded 84% power to detect at least a 35% decrease in the metformin arm as compared to placebo, using a 1-sided t-test with a significant level of 0.05.||||0.7981
92330356|NCT01760447|184565706|SUPERIORITY||Least Squares Mean Difference|-0.49|||=|0.018|TWO_SIDED|95.0|-0.9|-0.09|||Mixed Models Analysis|||"The Least Squares (LS) Mean for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||-0.09|-0.90|= 0.018
92330357|NCT01760447|184565707|OTHER||Difference in Percentage|-1.3|||||TWO_SIDED|95.0|-13.9|11.3|||||The Miettinen and Nurminen methodology was used to calculate the difference and 95% confidence interval.|"The percentage of participants who experienced ≥1 adverse event for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||11.3|-13.9|
92330358|NCT01760447|184565708|OTHER||Difference in Percentage|-0.5|||||TWO_SIDED|95.0|-6.2|5.0|||||The Miettinen and Nurminen methodology was used to calculate the difference and 95% confidence interval.|"The percentage of participants who discontinued study drug due to experiencing an adverse event for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||5.0|-6.2|
92330359|NCT01760447|184565709|OTHER||Difference in Percentage|2.9|||||TWO_SIDED|95.0|-8.9|14.4|||||The Miettinen and Nurminen methodology was used to calculate the difference and 95% confidence interval.|"The percentage of participants who experienced ≥1 adverse event for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||14.4|-8.9|
92330360|NCT01760447|184565710|OTHER||Difference in Percentage|-2.1|||||TWO_SIDED|95.0|-10.1|5.8|||||The Miettinen and Nurminen methodology was used to calculate the difference and 95% confidence interval.|"The percentage of participants who discontinued study drug due to experiencing an adverse event for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||5.8|-10.1|
92330361|NCT01760447|184565712|SUPERIORITY||Least Squares Mean Difference|-10.8|||=|0.159|TWO_SIDED|95.0|-25.9|4.3|||Mixed Models Analysis|||"The Least Squares (LS) Mean for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||4.3|-25.9|= 0.159
92330362|NCT01760447|184565714|SUPERIORITY||Difference in Percentage|16.0||||0.017|TWO_SIDED|95.0|2.9|28.9|||Miettinen and Nurminen|||"The percentage of participants with A1C at the A1C goal (\<7.0%) in the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled. For estimating the treatment difference, when the A1C result for a participant at Week 20 was not available, a multiple imputation method was used to impute whether the participant had met the goal."||28.9|2.9|0.017
92330363|NCT01760447|184565715|SUPERIORITY||Difference in Percentage|12.2||||0.049|TWO_SIDED|95.0|0.0|24.8|||Miettinen and Nurminen|||"The percentage of participants with A1C at the A1C goal (\<6.5%) in the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled. For estimating the treatment difference, when the A1C result for a participant at Week 20 was not available, a multiple imputation method was used to impute whether the participant had met the goal."||24.8|0.0|0.049
92330364|NCT01760447|184565718|SUPERIORITY||Kaplan-Meier Difference in Percentage|-13.2||||0.002|TWO_SIDED|95.0|-21.1|-5.3|||Log-Rank Test|||"The percentage of participants initiating glycemic rescue therapy in the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||-5.3|-21.1|0.002
92330365|NCT01937884|184565795|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
92330366|NCT01937884|184565796|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
92330367|NCT01937884|184565797|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|Student's t-test on log-transformed change in IFABP.||||||0.27
92330368|NCT01937884|184565798|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|Student's t-test on log-transformed citrulline concentration on study day 5, by treatment group||||||0.04
92330369|NCT01937884|184565799|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|Student's t-test on log-transformed percent change of claudin 3||||||0.43
92330370|NCT01937884|184565800|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
92330371|NCT01937884|184565801|SUPERIORITY|||||||0.43|||||||Chi-squared|||||||0.43
92330372|NCT01937884|184565802|SUPERIORITY|||||||0.06|||||||Chi-squared|||||||0.06
92330373|NCT03706469|184565803|EQUIVALENCE|Bioequivalence in the AUClast will be concluded if the 90 percent (%) confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of Geometric Mean Ratio (GMR)|83.6|||||TWO_SIDED|90.0|74.5|93.8||||||||93.80|74.50|
92330374|NCT03706469|184565803|EQUIVALENCE|Bioequivalence in the AUClast will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|102.22|||||TWO_SIDED|90.0|91.1|114.7||||||||114.70|91.10|
92330375|NCT03706469|184565803|EQUIVALENCE|Bioequivalence in the AUClast will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|172.73|||||TWO_SIDED|90.0|152.55|195.58||||||||195.58|152.55|
92330376|NCT03706469|184565804|EQUIVALENCE|Bioequivalence in the AUC∞ will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|84.29|||||TWO_SIDED|90.0|73.92|96.11||||||||96.11|73.92|
92330377|NCT03706469|184565804|EQUIVALENCE|Bioequivalence in the AUC∞ will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|99.61|||||TWO_SIDED|90.0|88.88|111.63||||||||111.63|88.88|
92330378|NCT03706469|184565804|EQUIVALENCE|Bioequivalence in the AUC∞ will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|172.7|||||TWO_SIDED|90.0|149.07|200.09||||||||200.09|149.07|
92330379|NCT03706469|184565805|EQUIVALENCE|Bioequivalence in the Cmax will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|79.14|||||TWO_SIDED|90.0|67.36|92.99||||||||92.99|67.36|
92330380|NCT03706469|184565805|EQUIVALENCE|Bioequivalence in the Cmax will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|99.8|||||TWO_SIDED|90.0|84.94|117.27||||||||117.27|84.94|
92330381|NCT03706469|184565805|EQUIVALENCE|Bioequivalence in the Cmax will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|173.3|||||TWO_SIDED|90.0|150.05|200.16||||||||200.16|150.05|
92330382|NCT00904839|184565820|SUPERIORITY_OR_OTHER||Difference|-8.1|||||TWO_SIDED|95.0|-27.8|11.5|||Kaplan-Meier||Difference in Kaplan-Meier Progression-free Survival Rates at 9 Months using Peto´s variance estimate.|||11.5|-27.8|
92330383|NCT00904839|184565825|SUPERIORITY_OR_OTHER||Difference|-5.0|||||TWO_SIDED|95.0|-15.3|5.2|||Kaplan-Meier||confidence interval includes 0, meaning that the null hypothesis (no difference between the 2 groups) cannot be rejected (i.e. pvalue \> 0.05). The pvalue was not computed. Difference in Kaplan-Meier Resection Rates using Peto´s variance estimate.|||5.2|-15.3|
92330384|NCT00553358|184565841|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants with pCR|-4.85||||0.3416|TWO_SIDED|97.5|-17.6|8.16|||Binomial|Binomial p-value for Trastuzumab 2 mg/kg versus Lapatinib 1500 mg|Estimation Comments: Estimated value is the difference in the percentage of participants with pCR: Arm1 (Lapatinib 1500 mg) minus Arm2 (Trastuzumab 2 mg/kg).|||8.16|-17.6|0.3416
92330385|NCT00553358|184565841|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants with pCR|21.79||||0.0001|TWO_SIDED|97.5|9.08|34.23|||Binomial|Binomial p-value for Trastuzumab 2 mg/kg versus Lapatinib 1000/750 mg + Trastuzumab 2 mg/kg|Estimation Comments: Estimated value is the difference in the percentage of participants with pCR: Arm3 (Lapatinib 1000/750 mg + Trastuzumab 2 mg/kg) minus Arm2 (Trastuzumab 2 mg/kg)|||34.23|9.08|0.0001
92330386|NCT00553358|184565849|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.878||||0.548|TWO_SIDED|95.0|0.57|1.34||The two-sided stratified log-rank test was implemented as the score test from the Cox model.|Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate hazard ratios and corresponding confidence intervals for the pairwise comparisons of individual treatment arms with the trastuzumab alone arm.|||1.34|0.57|0.548
92330387|NCT00553358|184565849|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.005||||0.981|TWO_SIDED|95.0|0.66|1.52||The two-sided stratified log-rank test was implemented as the score test from the Cox model.|Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate hazard ratios and corresponding confidence intervals for the pairwise comparisons of individual treatment arms with the trastuzumab alone arm.|||1.52|0.66|0.981
92330388|NCT00553358|184565851|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.788||||0.379|TWO_SIDED|95.0|0.46|1.34||The two-sided stratified log-rank test was implemented as the score test from the Cox model.|Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate hazard ratios and corresponding confidence intervals for the pairwise comparisons of individual treatment arms with the trastuzumab alone arm.|||1.34|0.46|0.379
92330389|NCT00553358|184565851|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.962||||0.88|TWO_SIDED|95.0|0.58|1.6||The two-sided stratified log-rank test was implemented as the score test from the Cox model.|Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate hazard ratios and corresponding confidence intervals for the pairwise comparisons of individual treatment arms with the trastuzumab alone arm.|||1.60|0.58|0.880
92330390|NCT00553358|184565852|SUPERIORITY||Hazard Ratio (HR)|0.481||||0.00079|TWO_SIDED|95.0|0.31|0.73|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Overall - All subjects in the EFS landmark analysis||0.73|0.31|0.00079
92330391|NCT00553358|184565852|SUPERIORITY||Hazard Ratio (HR)|0.35||||0.004|TWO_SIDED|95.0|0.16|0.71|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the EFS landmark analysis in the lapatinib + trastuzumab arm||0.71|0.16|0.004
92330392|NCT00553358|184565852|SUPERIORITY||Hazard Ratio (HR)|0.532||||0.134|TWO_SIDED|95.0|0.21|1.16|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the EFS landmark analysis in the lapatinib arm||1.16|0.21|0.134
92330393|NCT00553358|184565852|SUPERIORITY||Hazard Ratio (HR)|0.601||||0.163|TWO_SIDED|95.0|0.28|1.2|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the EFS landmark analysis in the trastuzumab arm||1.20|0.28|0.163
92330394|NCT00553358|184565854|SUPERIORITY||Hazard Ratio (HR)|0.366||||0.00041|TWO_SIDED|95.0|0.2|0.63|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Overall - All subjects in the OS landmark analysis||0.63|0.20|0.00041
92330395|NCT00553358|184565854|SUPERIORITY||Hazard Ratio (HR)|0.223||||0.002|TWO_SIDED|95.0|0.07|0.58|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the OS landmark analysis in the lapatinib + trastuzumab arm||0.58|0.07|0.002
92330396|NCT00553358|184565854|SUPERIORITY||Hazard Ratio (HR)|0.433||||0.125|TWO_SIDED|95.0|0.12|1.17|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the OS landmark analysis in the lapatinib arm||1.17|0.12|0.125
92330397|NCT00553358|184565854|SUPERIORITY||Hazard Ratio (HR)|0.414||||0.058|TWO_SIDED|95.0|0.15|1.0|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the OS landmark analysis in the trastuzumab arm||1.00|0.15|0.058
92330398|NCT03003000|184565871|SUPERIORITY||Mean Difference (Final Values)|0.156||||0.3446|TWO_SIDED|95.0|-0.168|0.48||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Mixed effect Model Repeated Measurement||Adjusted mean change from baseline ibuprofen and caffeine - Adjusted mean change from baseline placebo. A positive result favors the treatment with ibuprofen and caffeine|Superiority of ibuprofen and caffeine versus ibuprofen as well as ibuprofen and caffeine versus placebo had to be shown to reject the overall null hypothesis that there is no difference in change in POMWP between baseline and Day 2 (morning, 2 h after drug intake) between patients treated with ibuprofen/caffeine and patients treated with placebo.|Mixed effect model for repeated measures analysis (MMRM) includes fixed, categorical effects of treatment, country, worst procedure site, time and interaction terms for treatment-by-time, treatment-by-stratum-by-time, treatment-by-stratum and stratum-by-time interaction, as well as the continuous fixed covariates of baseline POMwp and baseline-by-time interaction, using unstructured covariance matrix.|0.480|-0.168|0.3446
92330399|NCT03003000|184565871|SUPERIORITY||Mean Difference (Final Values)|-0.129||||0.3358|TWO_SIDED|95.0|-0.392|0.134||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Mixed effect Model Repeat Measurement||Adjusted mean change from baseline ibuprofen and caffeine - Adjusted mean change from baseline ibuprofen. A positive result favors the treatment with ibuprofen and caffeine|Superiority of ibuprofen and caffeine versus ibuprofen as well as ibuprofen and caffeine versus placebo had to be shown to reject the overall null hypothesis that there is no difference in change in POMWP between baseline and Day 2 (morning, 2 h after drug intake) between patients treated with ibuprofen/caffeine and patients treated with ibuprofen.|Mixed effect model for repeated measures analysis (MMRM) includes fixed, categorical effects of treatment, country, worst procedure site, time and interaction terms for treatment-by-time, treatment-by-stratum-by-time, treatment-by-stratum and stratum-by-time interaction, as well as the continuous fixed covariates of baseline POMwp and baseline-by-time interaction, using unstructured covariance matrix|0.134|-0.392|0.3358
92330400|NCT03003000|184565872|SUPERIORITY||Mean Difference (Final Values)|-0.288||||0.0474|TWO_SIDED|95.0|-0.572|-0.003||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|ANCOVA|ANCOVA included treatment, country, and worst procedure site as fixed effects and baseline POMwp as a continuous covariate.|Adjusted mean ibuprofen and caffeine - Adjusted mean placebo. A negative result favors ibuprofen and caffeine|||-0.003|-0.572|0.0474
92330401|NCT03003000|184565872|SUPERIORITY||Mean Difference (Final Values)|0.051||||0.6658|TWO_SIDED|95.0|-0.18|0.282||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|ANCOVA|The ANCOVA included treatment, country, and worst procedure site as fixed effects and baseline POMwp as a continuous covariate.|Adjusted mean ibuprofen and caffeine - Adjusted mean ibuprofen. A negative result favors ibuprofen and caffeine.|||0.282|-0.180|0.6658
92330402|NCT03003000|184565873|SUPERIORITY||Mean Difference (Final Values)|-0.399||||0.0091|TWO_SIDED|95.0|-0.698|-0.1||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|ANCOVA|The ANCOVA included treatment, country, and worst procedure site as fixed effects and baseline POMwp as a continuous covariate.|Adjusted mean ibuprofen and caffeine - Adjusted mean placebo. A negative result favors ibuprofen and caffeine|||-0.100|-0.698|0.0091
92330403|NCT03003000|184565873|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.6387|TWO_SIDED|95.0|-0.185|0.302||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|ANCOVA|The ANCOVA included treatment, country, and worst procedure site as fixed effects and baseline POMwp as a continuous covariate.|Adjusted mean ibuprofen and caffeine - Adjusted mean ibuprofen. A negative result favors ibuprofen and caffeine|||0.302|-0.185|0.6387
92330404|NCT03003000|184565874|SUPERIORITY||Mean Difference (Final Values)|0.559||||0.4398|TWO_SIDED|95.0|-0.861|1.979||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Mixed effect model for repeated measures||Adjusted mean change ibuprofen and caffeine - Adjusted mean change placebo. A negative result favors ibuprofen and caffeine.|Mixed effect model for repeated measures (MMRM) includes fixed, categorical effects of treatment, country, worst procedure site, time and interaction terms for treatment-by-time as well as the continuous fixed covariates of baseline pressure algometry and baseline-by-time interaction, using unstructured covariance matrix.||1.979|-0.861|0.4398
92330405|NCT03003000|184565874|SUPERIORITY||Mean Difference (Final Values)|0.156||||0.7911|TWO_SIDED|95.0|-1.002|1.314||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Mixed effect Model Repeat Measurement||Adjusted mean change ibuprofen and caffeine - Adjusted mean change ibuprofen. A negative result favors ibuprofen and caffeine.|MMRM includes fixed, categorical effects of treatment, country, worst procedure site, time and interaction terms for treatment-by-time as well as the continuous fixed covariates of baseline pressure algometry and baseline-by-time interaction, using unstructured covariance matrix.||1.314|-1.002|0.7911
92330406|NCT03003000|184565875|SUPERIORITY||Odds Ratio (OR)|1.777||||0.0045|TWO_SIDED|95.0|1.195|2.642||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Regression, Logistic|An ordinal logistic regression model adjusting for country and worst procedure site.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator|||2.642|1.195|0.0045
92330407|NCT03003000|184565875|SUPERIORITY||Odds Ratio (OR)|1.008||||0.9603|TWO_SIDED|95.0|0.732|1.389||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Regression, Logistic|An ordinal logistic regression model adjusting for country and worst procedure site.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator|||1.389|0.732|0.9603
92330408|NCT03003000|184565876|SUPERIORITY||Odds Ratio (OR)|1.028||||0.9022|TWO_SIDED|95.0|0.663|1.592||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|likelihood-ratio test|The likelihood-ratio test was used to test treatment differences for patients with a decrease of ≥30%.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator.||Results are based on the Logistic regression. Logistic regression model was adjusted for the categorical covariates country and worst procedure site.|1.592|0.663|0.9022
92330409|NCT03003000|184565876|SUPERIORITY||Odds Ratio (OR)|0.834||||0.3129|TWO_SIDED|95.0|0.586|1.187||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|likelihood-ratio test|The likelihood-ratio test was used to test treatment differences for patients with a decrease of ≥30%.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator.||Results are based on the Logistic regression. Logistic regression model was adjusted for the categorical covariates country and worst procedure site.|1.187|0.586|0.3129
92330410|NCT03003000|184565876|SUPERIORITY||Odds Ratio (OR)|1.354||||0.3301|TWO_SIDED|95.0|0.736|2.494||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|likelihood-ratio test|The likelihood-ratio test was used to test treatment differences for patients with a decrease of ≥50%.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator||Results are based on the Logistic regression. Logistic regression model was adjusted for the categorical covariates country and worst procedure site.|2.494|0.736|0.3301
92330411|NCT03003000|184565876|SUPERIORITY||Odds Ratio (OR)|0.68||||0.0864|TWO_SIDED|95.0|0.437|1.057||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|likelihood-ratio test|The likelihood-ratio test was used to test treatment differences for patients with a decrease of ≥50%.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator||Results are based on the Logistic regression. Logistic regression model was adjusted for the categorical covariates country and worst procedure site.|1.057|0.437|0.0864
92330412|NCT03003000|184565877|SUPERIORITY|||||||0.9384||||||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Log Rank|p-value based on a stratified log-rank test||||||0.9384
92330413|NCT03003000|184565877|SUPERIORITY|||||||0.3534||||||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Log Rank|p-value based on a stratified log-rank test||||||0.3534
92330414|NCT02191046|184565907|NON_INFERIORITY_OR_EQUIVALENCE|power of study = 90%|Mean Difference (Final Values)|4.38|STANDARD_DEVIATION|2.89|<|0.05|TWO_SIDED|95.0|3.41|5.37|||t-test, 2 sided|||compare the mean 5S-score between before and after treatment in syringe group||5.37|3.41|<0.05
92330415|NCT02191046|184565907|NON_INFERIORITY_OR_EQUIVALENCE|power of study = 90%|Mean Difference (Net)|0.93|STANDARD_DEVIATION|0.42|<|0.05|TWO_SIDED|95.0|0.094|1.76|||t-test, 2 sided|||compare the mean 5S-score between 2 groups at 2 weeks after treatment||1.76|0.094|<0.05
92330416|NCT02191046|184565907|NON_INFERIORITY_OR_EQUIVALENCE|power of study = 90%|Mean Difference (Net)|-0.47|STANDARD_DEVIATION|0.17|<|0.05|TWO_SIDED|95.0|-0.82|-0.12|||t-test, 2 sided|||satisfaction score between two groups at 2 weeks after treatment||-0.12|-0.82|<0.05
92330417|NCT02191046|184565907|NON_INFERIORITY_OR_EQUIVALENCE|power fo study = 90%|Mean Difference (Final Values)|5.66|STANDARD_DEVIATION|3.16|<|0.05|TWO_SIDED|95.0|4.62|6.69|||t-test, 2 sided|||compare the mean 5s-score between before and after treatment in squeezable bottle group||6.69|4.62|<0.05
92330418|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-0.8|||||TWO_SIDED|97.5|-3.4|1.2||||||Serotype 1: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||1.2|-3.4|
92330419|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-0.8|||||TWO_SIDED|97.5|-3.7|1.6||||||Serotype 3: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||1.6|-3.7|
92330420|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|0.0|||||TWO_SIDED|97.5|-2.3|2.4||||||Serotype 4: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.4|-2.3|
92330421|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-1.2|||||TWO_SIDED|97.5|-5.4|2.8||||||Serotype 5: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.8|-5.4|
92330422|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-1.2|||||TWO_SIDED|97.5|-5.3|2.6||||||Serotype 6A: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.6|-5.3|
92330423|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|0.0|||||TWO_SIDED|97.5|-4.7|4.7||||||Serotype 6B: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||4.7|-4.7|
92330424|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-0.4|||||TWO_SIDED|97.5|-2.7|1.6||||||Serotype 7F: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||1.6|-2.7|
92330425|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-0.4|||||TWO_SIDED|97.5|-3.8|2.8||||||Serotype 9V: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.8|-3.8|
92330426|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-0.8|||||TWO_SIDED|97.5|-4.3|2.5||||||Serotype 14: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.5|-4.3|
92330427|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|1.2|||||TWO_SIDED|97.5|-1.6|4.5||||||Serotype 18C: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||4.5|-1.6|
92330428|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|0.8|||||TWO_SIDED|97.5|-1.6|3.6||||||Serotype 19A: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||3.6|-1.6|
92330429|NCT01964716|184565909|SUPERIORITY_OR_OTHER||percentage difference|-0.4|||||TWO_SIDED|97.5|-4.4|3.5||||||Serotype 19F: Exact 2-sided confidence interval (based on Chan \& Zhang) for the difference in proportions, 13vPnC multidose vial (MDV) - 13vPnC single-dose syringe (SDS), expressed as a percentage was analyzed.||3.5|-4.4|
92330430|NCT01964716|184565909|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|0.0|||||TWO_SIDED|97.5|-4.3|4.4||||||Serotype 23F: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||4.4|-4.3|
92330431|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.03|||||TWO_SIDED|97.5|0.87|1.22||||||Serotype 1: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.22|0.87|
92330432|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|0.79|||||TWO_SIDED|97.5|0.71|0.9||||||Serotype 3: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||0.90|0.71|
92330433|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.0|||||TWO_SIDED|97.5|0.86|1.18||||||Serotype 4: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.18|0.86|
92330434|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.01|||||TWO_SIDED|97.5|0.85|1.19||||||Serotype 5: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.19|0.85|
92330435|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.03|||||TWO_SIDED|97.5|0.86|1.22||||||Serotype 6A: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.22|0.86|
92330436|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.06|||||TWO_SIDED|97.5|0.82|1.36||||||Serotype 6B: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.36|0.82|
92330437|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|0.94|||||TWO_SIDED|97.5|0.82|1.08||||||Serotype 7F: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.08|0.82|
92330438|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.03|||||TWO_SIDED|97.5|0.87|1.21||||||Serotype 9V: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.21|0.87|
92330439|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|0.96|||||TWO_SIDED|97.5|0.75|1.24||||||Serotype 14: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.24|0.75|
92330440|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.28|||||TWO_SIDED|97.5|1.09|1.49||||||Serotype 18C: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.49|1.09|
92330441|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.01|||||TWO_SIDED|97.5|0.82|1.24||||||Serotype 19A: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.24|0.82|
92330442|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.04|||||TWO_SIDED|97.5|0.85|1.26||||||Serotype 19F: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.26|0.85|
92330443|NCT01964716|184565910|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.2|||||TWO_SIDED|97.5|0.98|1.48||||||Serotype 23F: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.48|0.98|
92330444|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|-7.7|||||TWO_SIDED|95.0|-17.2|1.9||||||Serotype 1: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||1.9|-17.2|
92330445|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|-1.2|||||TWO_SIDED|95.0|-4.4|1.1||||||Serotype 3: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||1.1|-4.4|
92330446|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|0.0|||||TWO_SIDED|95.0|-2.3|2.3||||||Serotype 4: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.3|-2.3|
92330447|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|-2.4|||||TWO_SIDED|95.0|-10.6|5.7||||||Serotype 5: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||5.7|-10.6|
92330448|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|0.0|||||TWO_SIDED|95.0|-2.9|2.8||||||Serotype 6A: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.8|-2.9|
92330449|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|0.0|||||TWO_SIDED|95.0|-4.5|4.6||||||Serotype 6B: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||4.6|-4.5|
92330450|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|0.0|||||TWO_SIDED|95.0|-2.3|2.3||||||Serotype 7F: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.3|-2.3|
92330451|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|4.7|||||TWO_SIDED|95.0|-4.5|14.1||||||Serotype 9V: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||14.1|-4.5|
92330452|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|-7.8|||||TWO_SIDED|95.0|-15.8|0.0||||||Serotype 14: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||-0.0|-15.8|
92330453|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|0.0|||||TWO_SIDED|95.0|-2.9|2.9||||||Serotype 18C: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.9|-2.9|
92330454|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|-1.9|||||TWO_SIDED|95.0|-6.6|2.4||||||Serotype 19A: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.4|-6.6|
92330455|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|-0.7|||||TWO_SIDED|95.0|-6.3|4.9||||||Serotype 19F: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||4.9|-6.3|
92330456|NCT01964716|184565919|SUPERIORITY_OR_OTHER||percent difference|-1.3|||||TWO_SIDED|95.0|-5.8|3.0||||||Serotype 23F: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||3.0|-5.8|
92330457|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.7|1.2||||||Serotype 1: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.20|0.70|
92330458|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.69|0.93||||||Serotype 3: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||0.93|0.69|
92330459|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.89|1.39||||||Serotype 4: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.39|0.89|
92330460|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.8|1.22||||||Serotype 5: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.22|0.80|
92330461|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.7|1.06||||||Serotype 6A: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.06|0.70|
92330462|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.74|1.33||||||Serotype 6B: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.33|0.74|
92330463|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.7|1.0||||||Serotype 7F: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.00|0.70|
92330464|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.79|1.27||||||Serotype 9V: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.27|0.79|
92330465|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.48|1.08||||||Serotype 14: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.08|0.48|
92330466|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|1.7|||||TWO_SIDED|95.0|1.38|2.19||||||Serotype 18C: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||2.19|1.38|
92330467|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.16||||||Serotype 19A: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.16|0.74|
92330468|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.71|1.18||||||Serotype 19F: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.18|0.71|
92330469|NCT01964716|184565920|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.67|1.25||||||Serotype 23F: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.25|0.67|
92330470|NCT01432561|184565972|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||High-fat/calorie compared to fasted condition||||.04
92330471|NCT01432561|184565972|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANOVA|||High-protein compared to fasted condition||||.005
92330472|NCT01432561|184565973|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||High-fat/calorie compared to fasted condition||||.16
92330473|NCT01432561|184565973|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANOVA|||High-protein compared to fasted condition||||.036
92330474|NCT01432561|184565974|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Non-parametric Hodges-Lehmann method|||Fed high-fat/calorie compared to fasted condition.||||.30
92330475|NCT01432561|184565974|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Non-parametric Hodges-Lehmann method|||High-protein compared to fasted condition||||.05
92330476|NCT01260584|184565987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.7|STANDARD_ERROR_OF_MEAN|4.11||0.0624|TWO_SIDED|95.0|-0.4|15.8|||Mixed Models Analysis|||For the sample size calculations for the co-primary endpoints, no Type 1 error rate was adjusted and both co-primary endpoints will be tested at the 0.05 level.||15.8|-0.4|0.0624
92330477|NCT01260584|184565987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.8|STANDARD_ERROR_OF_MEAN|3.35|<|0.0001|TWO_SIDED|95.0|25.1|38.4|||Mixed Models Analysis|||||38.4|25.1|<0.0001
92330478|NCT01260584|184565987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|4.08||0.244|TWO_SIDED|95.0|-3.3|12.8|||Mixed Models Analysis|||||12.8|-3.3|0.2440
92330479|NCT01260584|184565987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.7|STANDARD_ERROR_OF_MEAN|3.17|<|0.0001|TWO_SIDED|95.0|28.4|41.0|||Mixed Models Analysis|||||41.0|28.4|<0.0001
92330480|NCT01260584|184565987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.0|STANDARD_ERROR_OF_MEAN|4.14|<|0.0001|TWO_SIDED|95.0|18.8|35.2|||Mixed Models Analysis|||||35.2|18.8|<0.0001
92330481|NCT01260584|184565988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.2|STANDARD_ERROR_OF_MEAN|12.65||0.0048|TWO_SIDED|95.0|-61.1|-11.2|||Mixed Models Analysis|||||-11.2|-61.1|0.0048
92330482|NCT01260584|184565988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-93.8|STANDARD_ERROR_OF_MEAN|11.54|<|0.0001|TWO_SIDED|95.0|-116.7|-71.0|||Mixed Models Analysis|||||-71.0|-116.7|<0.0001
92330483|NCT01260584|184565988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.2|STANDARD_ERROR_OF_MEAN|12.53||0.0924|TWO_SIDED|95.0|-45.9|3.5|||Mixed Models Analysis|||||3.5|-45.9|0.0924
92330484|NCT01260584|184565988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-108.8|STANDARD_ERROR_OF_MEAN|10.85|<|0.0001|TWO_SIDED|95.0|-130.3|-87.3|||Mixed Models Analysis|||||-87.3|-130.3|<0.0001
92330485|NCT01260584|184565988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-72.6|STANDARD_ERROR_OF_MEAN|12.73|<|0.0001|TWO_SIDED|95.0|-97.8|-47.5|||Mixed Models Analysis|||||-47.5|-97.8|<0.0001
92330486|NCT01260584|184565989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6|STANDARD_ERROR_OF_MEAN|3.72||0.0423|TWO_SIDED|95.0|-15.0|-0.3|||Mixed Models Analysis|||||-0.3|-15.0|0.0423
92330487|NCT01260584|184565989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7|STANDARD_ERROR_OF_MEAN|3.19|<|0.0001|TWO_SIDED|95.0|-29.0|-16.4|||Mixed Models Analysis|||||-16.4|-29.0|<0.0001
92330488|NCT01260584|184565989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.8|STANDARD_ERROR_OF_MEAN|3.7||0.1184|TWO_SIDED|95.0|-13.1|1.5|||Mixed Models Analysis|||||1.5|-13.1|0.1184
92330489|NCT01260584|184565989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.5|STANDARD_ERROR_OF_MEAN|3.02|<|0.0001|TWO_SIDED|95.0|-30.5|-18.5|||Mixed Models Analysis|||||-18.5|-30.5|<0.0001
92330490|NCT01260584|184565989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.9|STANDARD_ERROR_OF_MEAN|3.76|<|0.0001|TWO_SIDED|95.0|-24.3|-9.5|||Mixed Models Analysis|||||-9.5|-24.3|<0.0001
92330491|NCT01260584|184565990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.1331|TWO_SIDED|95.0|0.8|5.32|||Regression, Logistic|||||5.32|0.80|0.1331
92330492|NCT01260584|184565990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.99||||0.5813|TWO_SIDED|95.0|0.17|23.65|||Regression, Logistic|||||23.65|0.17|0.5813
92330493|NCT01260584|184565990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.54||||0.0127|TWO_SIDED|95.0|1.85|148.23|||Regression, Logistic|||||148.23|1.85|0.0127
92330494|NCT01260584|184565990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.11||||0.0013|TWO_SIDED|95.0|3.13|93.65|||Regression, Logistic|||||93.65|3.13|0.0013
92330495|NCT01260584|184565991|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.5684|TWO_SIDED|95.0|0.49|3.67|||Regression, Logistic|||||3.67|0.49|0.5684
92330496|NCT01260584|184565991|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.7||||0.0447|TWO_SIDED|95.0|1.05|42.92|||Regression, Logistic|||||42.92|1.05|0.0447
92330497|NCT01260584|184565991|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|58.64||||0.0003|TWO_SIDED|95.0|6.8|505.58|||Regression, Logistic|||||505.58|6.80|0.0003
92330498|NCT01260584|184565991|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.71||||0.0006|TWO_SIDED|95.0|2.95|46.52|||Regression, Logistic|||||46.52|2.95|0.0006
92330499|NCT01260584|184565992|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|110.7|||||TWO_SIDED|90.0|93.7|130.8|||Mixed Models Analysis|||Prasugrel active metabolite R-138727||130.8|93.7|
92330500|NCT01260584|184565992|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|118.4|||||TWO_SIDED|90.0|99.8|140.4|||Mixed Models Analysis|||active metabolite R-130964||140.4|99.8|
92330501|NCT01260584|184565993|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|117.9|||||TWO_SIDED|90.0|94.4|147.3|||Mixed Models Analysis||Estimation was based on the ratio of Geom. means between groups. Non-smoker is the denominator.|Prasugrel active metabolite R-138727||147.3|94.4|
92330502|NCT01260584|184565993|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|123.8|||||TWO_SIDED|90.0|98.6|155.4|||Mixed Models Analysis||Estimation was based on the ratio of Geom. means between groups. Non-smoker is the denominator.|Clopidogrel active metabolite R-130964||155.4|98.6|
92330503|NCT03434249|184565994|OTHER|||||||0.0001|||||||Chi-squared|||"According to the results of a previous trial that looked at a probiotic's effect on infants with CI, it was estimated that when the sample size in each group is 33, the study has 80% power to detect an absolute difference of 35% in the treatment success rate (15% in the Placebo group and 50% in the treatment group) with a 0,05 alpha level.~The number of infants that was included in the study was 80, with an expected maximum dropout rate of 20%."||||0.0001
92330504|NCT03434249|184565995|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92330505|NCT03434249|184565997|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
92330506|NCT04877535|184566068|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.524|TWO_SIDED|95.0|-0.24|0.12|||t-test, 2 sided|||||0.12|-0.24|0.524
92330507|NCT04877535|184566068|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.403|TWO_SIDED|95.0|-0.4|0.16|||t-test, 2 sided|||||0.16|-0.4|0.403
92330508|NCT04877535|184566069|SUPERIORITY||Odds Ratio (OR)|1.05||||1|TWO_SIDED|95.0|0.47|2.38|||Fisher Exact|||||2.38|0.47|1.00
92330509|NCT04877535|184566070|SUPERIORITY||Odds Ratio (OR)|4.3|||<|0.001|TWO_SIDED|95.0|1.81|11.13|||Fisher Exact|||||11.13|1.81|<0.001
92330510|NCT04877535|184566070|SUPERIORITY||Odds Ratio (OR)|1.08||||1|TWO_SIDED|95.0|0.23|4.19|||Fisher Exact|||||4.19|0.23|1.00
92330511|NCT04877535|184566071|SUPERIORITY||Odds Ratio (OR)|7.1|||<|0.001|TWO_SIDED|95.0|1.94|39.25|||Fisher Exact|||||39.25|1.94|<0.001
92330512|NCT04877535|184566071|SUPERIORITY||Odds Ratio (OR)|1.63||||0.63|TWO_SIDED|95.0|0.13|14.86|||Fisher Exact|||||14.86|0.13|0.630
92330513|NCT01969084|184566073|SUPERIORITY_OR_OTHER||||||>|0.05||||||A p-value of \< 0.05 was considered statistically significant|Wilcoxon (Mann-Whitney)|||Data were expressed as the median (25th:75th percentiles) for non-normally distributed data. The mean±sd for the groups was not analyzed as per the statistical plan.||||>0.05
92330514|NCT04907227|184566090|OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.32|2.46|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||2.46|0.32|
92330515|NCT04907227|184566091|OTHER||Hazard Ratio (HR)|1.59|||||TWO_SIDED|95.0|0.68|3.67|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||3.67|0.68|
92330516|NCT04907227|184566092|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.45|1.5|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.50|0.45|
92330517|NCT04907227|184566094|OTHER||Percent Difference|4.3|||||TWO_SIDED|95.0|-24.1|31.2|||||Based on Miettinen \& Nurminen method.|||31.2|-24.1|
92330518|NCT04907227|184566096|OTHER||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.17|1.99|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.99|0.17|
92330519|NCT04907227|184566097|OTHER||Hazard Ratio (HR)|1.64|||||TWO_SIDED|95.0|0.15|18.24|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||18.24|0.15|
92330520|NCT04907227|184566098|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.41|1.46|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.46|0.41|
92330521|NCT04907227|184566099|OTHER||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.43|3.17|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||3.17|0.43|
92330522|NCT00824382|184566102|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.091|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.051|0.131|||ANCOVA|||Olodaterol 2mcg - Placebo||0.131|0.051|<0.0001
92330523|NCT00824382|184566102|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.132|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.091|0.172|||ANCOVA|||Olodaterol 5mcg - Placebo||0.172|0.091|<0.0001
92330524|NCT00824382|184566102|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.132|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.092|0.172|||ANCOVA|||Olodaterol 10mcg - Placebo||0.172|0.092|<0.0001
92330525|NCT00824382|184566103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.021||0.0002||95.0|0.039|0.124|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.124|0.039|0.0002
92330526|NCT00824382|184566103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.098|0.184|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.184|0.098|<0.0001
92330527|NCT00824382|184566103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.115|0.199|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.199|0.115|<0.0001
92330528|NCT00824382|184566104|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.138|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.095|0.182|||ANCOVA|||Olodaterol 2mcg - Placebo||0.182|0.095|<0.0001
92330529|NCT00824382|184566104|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.197|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.154|0.241|||ANCOVA|||Olodaterol 5mcg - Placebo||0.241|0.154|<0.0001
92330530|NCT00824382|184566104|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.193|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.15|0.236|||ANCOVA|||Olodaterol 10mcg - Placebo||0.236|0.150|<0.0001
92330531|NCT00824382|184566105|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.146|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.101|0.191|||ANCOVA|||Olodaterol 2mcg - Placebo||0.191|0.101|<0.0001
92330532|NCT00824382|184566105|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.202|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.157|0.247|||ANCOVA|||Olodaterol 5mcg - Placebo||0.247|0.157|<0.0001
92330533|NCT00824382|184566105|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.196|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.151|0.24|||ANCOVA|||Olodaterol 10mcg - Placebo||0.240|0.151|<0.0001
92330534|NCT00824382|184566106|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.191|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001||95.0|0.107|0.275|||ANCOVA|||Olodaterol 2mcg - Placebo||0.275|0.107|<0.0001
92330535|NCT00824382|184566106|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.191|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001||95.0|0.106|0.276|||ANCOVA|||Olodaterol 5mcg - Placebo||0.276|0.106|<0.0001
92330536|NCT00824382|184566106|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.187|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001||95.0|0.103|0.27|||ANCOVA|||Olodaterol 10mcg - Placebo||0.270|0.103|<0.0001
92330537|NCT00824382|184566107|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.253|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001||95.0|0.16|0.345|||ANCOVA|||Olodaterol 2mcg - Placebo||0.345|0.160|<0.0001
92330538|NCT00824382|184566107|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.25|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001||95.0|0.156|0.343|||ANCOVA|||Olodaterol 5mcg - Placebo||0.343|0.156|<0.0001
92330539|NCT00824382|184566107|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.233|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001||95.0|0.141|0.325|||ANCOVA|||Olodaterol 10mcg - Placebo||0.325|0.141|<0.0001
92330540|NCT00824382|184566108|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.253|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.155|0.351|||ANCOVA|||Olodaterol 2mcg - Placebo||0.351|0.155|<0.0001
92330541|NCT00824382|184566108|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.242|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.142|0.341|||ANCOVA|||Olodaterol 5mcg - Placebo||0.341|0.142|<0.0001
92330542|NCT00824382|184566108|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.226|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.129|0.324|||ANCOVA|||Olodaterol 10mcg - Placebo||0.324|0.129|<0.0001
92330543|NCT00824382|184566109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.039||0.0045||95.0|0.035|0.188|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.188|0.035|0.0045
92330544|NCT00824382|184566109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.216|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.14|0.293|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.293|0.140|<0.0001
92330545|NCT00824382|184566109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.217|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.142|0.292|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.292|0.142|<0.0001
92330546|NCT00824382|184566110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.039||0.0348||95.0|0.006|0.159|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.159|0.006|0.0348
92330547|NCT00824382|184566110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.1|0.252|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.252|0.100|<0.0001
92330548|NCT00824382|184566110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.115|0.265|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.265|0.115|<0.0001
92330549|NCT00824382|184566111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.256|STANDARD_ERROR_OF_MEAN|5.476|<|0.0001||95.0|16.477|38.036|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||38.036|16.477|<0.0001
92330550|NCT00824382|184566111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.383|STANDARD_ERROR_OF_MEAN|5.574|<|0.0001||95.0|18.41|40.357|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||40.357|18.410|<0.0001
92330551|NCT00824382|184566111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.678|STANDARD_ERROR_OF_MEAN|5.431|<|0.0001||95.0|25.987|47.369|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||47.369|25.987|<0.0001
92330552|NCT00824382|184566112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.052|STANDARD_ERROR_OF_MEAN|5.534|<|0.0001||95.0|18.159|39.946|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||39.946|18.159|<0.0001
92330553|NCT00824382|184566112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.955|STANDARD_ERROR_OF_MEAN|5.635|<|0.0001||95.0|19.861|42.049|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||42.049|19.861|<0.0001
92330554|NCT00824382|184566112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.191|STANDARD_ERROR_OF_MEAN|5.489|<|0.0001||95.0|26.386|47.996|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||47.996|26.386|<0.0001
92330555|NCT00824382|184566113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.191|STANDARD_ERROR_OF_MEAN|0.149||0.2016||95.0|-0.485|0.103|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.103|-0.485|0.2016
92330556|NCT00824382|184566113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.454|STANDARD_ERROR_OF_MEAN|0.151||0.0029||95.0|-0.752|-0.156|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||-0.156|-0.752|0.0029
92330557|NCT00824382|184566113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.387|STANDARD_ERROR_OF_MEAN|0.148||0.0095||95.0|-0.678|-0.095|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||-0.095|-0.678|0.0095
92330558|NCT01362244|184566121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0|||||Fisher Exact|||Statistical data is presented for NR||||0.003
92330559|NCT01362244|184566121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016||95.0|||||Fisher Exact|||Statistical data is presented for LOCF||||0.016
92330560|NCT01362244|184566122|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.74||||0.71|TWO_SIDED|95.0|0.15|3.64|||Regression, Logistic||Week 1|||3.64|0.15|0.710
92330561|NCT01362244|184566122|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4||||0.674|TWO_SIDED|95.0|0.29|6.87|||Regression, Logistic||Week 2|||6.87|0.29|0.674
92330562|NCT01362244|184566122|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.94||||0.942|TWO_SIDED|95.0|0.2|4.49|||Regression, Logistic||Week 5|||4.49|0.20|0.942
92330563|NCT01362244|184566122|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.9||||0.091|TWO_SIDED|95.0|0.8|18.96|||Regression, Logistic||Week 9|||18.96|0.80|0.091
92330564|NCT01362244|184566122|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|11.66||||0.004|TWO_SIDED|95.0|2.18|62.33|||Regression, Logistic||Week 13|||62.33|2.18|0.004
92330565|NCT01362244|184566122|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.74||||0.224|TWO_SIDED|95.0|0.54|13.9|||Regression, Logistic||Week 17|||13.90|0.54|0.224
92330566|NCT01362244|184566122|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.85||||0.037|TWO_SIDED|95.0|1.11|30.69|||Regression, Logistic||Week 21|||30.69|1.11|0.037
92330567|NCT01362244|184566122|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.22||||0.051|TWO_SIDED|95.0|0.99|27.44|||Regression, Logistic||Week 25|||27.44|0.99|0.051
92330568|NCT01362244|184566139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04||||0.567|TWO_SIDED|95.0|-0.1|0.19|||repeated measures model||Week 2|||0.19|-0.10|0.567
92330569|NCT01362244|184566139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05||||0.495|TWO_SIDED|95.0|-0.1|0.21|||repeated measures model||Week 5|||0.21|-0.10|0.495
92330570|NCT01362244|184566139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09||||0.365|TWO_SIDED|95.0|-0.1|0.28|||repeated measures model||Week 9|||0.28|-0.10|0.365
92330571|NCT01362244|184566139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17||||0.058|TWO_SIDED|95.0|-0.01|0.34|||repeated measures model||Week 13|||0.34|-0.01|0.058
92330572|NCT01362244|184566139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21||||0.056|TWO_SIDED|95.0|-0.01|0.43|||repeated measures model||Week 17|||0.43|-0.01|0.056
92330573|NCT01362244|184566139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23||||0.028|TWO_SIDED|95.0|0.03|0.42|||repeated measures model||Week 21|||0.42|0.03|0.028
92330574|NCT01362244|184566139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16||||0.077|TWO_SIDED|95.0|-0.02|0.34|||repeated measures model||Week 25|||0.34|-0.02|0.077
92330575|NCT01362244|184566140|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06||||0.486|TWO_SIDED|95.0|-0.1|0.22|||repeated measures model||Week 2|||0.22|-0.10|0.486
92330576|NCT01362244|184566140|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07||||0.384|TWO_SIDED|95.0|-0.08|0.22|||repeated measures model||Week 5|||0.22|-0.08|0.384
92330577|NCT01362244|184566140|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06||||0.546|TWO_SIDED|95.0|-0.14|0.26|||repeated measures model||Week 9|||0.26|-0.14|0.546
92330578|NCT01362244|184566140|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.05|TWO_SIDED|95.0|0.0|0.39|||repeated measures model||Week 13|||0.39|0.00|0.050
92330579|NCT01362244|184566140|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22||||0.061|TWO_SIDED|95.0|-0.01|0.45|||repeated measures model||Week 17|||0.45|-0.01|0.061
92330580|NCT01362244|184566140|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28||||0.016|TWO_SIDED|95.0|0.05|0.51|||repeated measures model||Week 21|||0.51|0.05|0.016
92330581|NCT01362244|184566140|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18||||0.094|TWO_SIDED|95.0|-0.03|0.4|||repeated measures model||Week 25|||0.40|-0.03|0.094
92330582|NCT01362244|184566141|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.11||||0.686|TWO_SIDED|95.0|-19.91|30.12|||repeated measures model||Week 2|||30.12|-19.91|0.686
92330583|NCT01362244|184566141|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.55||||0.321|TWO_SIDED|95.0|-14.4|43.5|||repeated measures model||Week 5|||43.50|-14.40|0.321
92330584|NCT01362244|184566141|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.91||||0.622|TWO_SIDED|95.0|-26.79|44.6|||repeated measures model||Week 9|||44.60|-26.79|0.622
92330585|NCT01362244|184566141|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|23.24||||0.178|TWO_SIDED|95.0|-10.75|57.22|||repeated measures model||Week 13|||57.22|-10.75|0.178
92330586|NCT01362244|184566141|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|38.16||||0.052|TWO_SIDED|95.0|-0.33|76.66|||repeated measures model||Week 17|||76.66|-0.33|0.052
92330587|NCT01362244|184566141|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|38.72||||0.042|TWO_SIDED|95.0|1.41|76.02|||repeated measures model||Week 21|||76.02|1.41|0.042
92330588|NCT01362244|184566141|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.13||||0.484|TWO_SIDED|95.0|-25.76|54.02|||repeated measures model||Week 25|||54.02|-25.76|0.484
92330589|NCT01362244|184566143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.16||||0.005|TWO_SIDED|95.0|6.49|35.83|||repeated measures model||Week 2|||35.83|6.49|0.005
92330590|NCT01362244|184566143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.89||||0.029|TWO_SIDED|95.0|1.77|32.01|||repeated measures model||Week 5|||32.01|1.77|0.029
92330591|NCT01362244|184566143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.2||||0.472|TWO_SIDED|95.0|-12.64|27.03|||repeated measures model||Week 9|||27.03|-12.64|0.472
92330592|NCT01362244|184566143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|27.71||||0.009|TWO_SIDED|95.0|7.19|48.23|||repeated measures model||Week 13|||48.23|7.19|0.009
92330593|NCT01362244|184566143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.4||||0.114|TWO_SIDED|95.0|-3.8|34.59|||repeated measures model||Week 17|||34.59|-3.80|0.114
92330594|NCT01362244|184566143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.51||||0.014|TWO_SIDED|95.0|6.06|52.96|||repeated measures model||Week 21|||52.96|6.06|0.014
92330595|NCT01362244|184566143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|26.65||||0.027|TWO_SIDED|95.0|3.1|50.21|||repeated measures model||Week 25|||50.21|3.10|0.027
92330596|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09||||0.79|TWO_SIDED|95.0|-0.61|0.79|||repeated measures model||MNS, Week 2|||0.79|-0.61|0.790
92330597|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.14||||0.008|TWO_SIDED|95.0|0.3|1.97|||repeated measures model||MNS, Week 5|||1.97|0.30|0.008
92330598|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.79||||0.066|TWO_SIDED|95.0|-0.05|1.64|||repeated measures model||MNS, Week 9|||1.64|-0.05|0.066
92330599|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.73||||0.127|TWO_SIDED|95.0|-0.21|1.67|||repeated measures model||MNS, Week 13|||1.67|-0.21|0.127
92330600|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.38||||0.481|TWO_SIDED|95.0|-0.69|1.46|||repeated measures model||MNS, Week 17|||1.46|-0.69|0.481
92330601|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65||||0.308|TWO_SIDED|95.0|-0.61|1.9|||repeated measures model||MNS, Week 21|||1.90|-0.61|0.308
92330602|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71||||0.233|TWO_SIDED|95.0|-0.46|1.88|||repeated measures model||MNS, Week 25|||1.88|-0.46|0.233
92330603|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28||||0.444|TWO_SIDED|95.0|-0.45|1.02|||repeated measures model||WNS, Week 2|||1.02|-0.45|0.444
92330604|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.31||||0.002|TWO_SIDED|95.0|0.5|2.12|||repeated measures model||WNS, Week 5|||2.12|0.50|0.002
92330605|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.68||||0.143|TWO_SIDED|95.0|-0.24|1.6|||repeated measures model||WNS, Week 9|||1.60|-0.24|0.143
92330606|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62||||0.24|TWO_SIDED|95.0|-0.42|1.65|||repeated measures model||WNS, Week 13|||1.65|-0.42|0.240
92330607|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19||||0.75|TWO_SIDED|95.0|-0.98|1.35|||repeated measures model||WNS, Week 17|||1.35|-0.98|0.750
92330608|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.64||||0.324|TWO_SIDED|95.0|-0.64|1.91|||repeated measures model||WNS, Week 21|||1.91|-0.64|0.324
92330609|NCT01362244|184566144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.44||||0.468|TWO_SIDED|95.0|-0.77|1.66|||repeated measures model||WNS, Week 25|||1.66|-0.77|0.468
92330610|NCT01362244|184566145|SUPERIORITY_OR_OTHER_LEGACY||Mixed effects model|-13.2||||0.005|TWO_SIDED|95.0|-22.2|-4.22|||ANCOVA|||||-4.22|-22.2|0.005
92330611|NCT01362244|184566146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.06|0.07||||||||0.07|-0.06|
92330612|NCT01362244|184566147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.68|||||TWO_SIDED|95.0|-1.33|12.68||||||||12.68|-1.33|
92330613|NCT01253174|184566160|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|102.26||||||90.0|96.65|108.2||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Yasmin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 42 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||108.20|96.65|
92330614|NCT01253174|184566161|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|101.13||||||90.0|97.65|104.75||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Yasmin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 42 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||104.75|97.65|
92330615|NCT01253174|184566162|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|98.66||||||90.0|93.37|104.24||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Yasmin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|39 volunteers qualified for statistical analysis of BE whereas all 40 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||104.24|93.37|
92330616|NCT01253174|184566163|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|99.45||||||90.0|96.7|102.28||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Yasmin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|39 volunteers qualified for statistical analysis of BE whereas all 40 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||102.28|96.70|
92330617|NCT01253174|184566164|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|106.19||||||90.0|99.18|113.68||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 41 (EE30/DRSP/L-5-MTHF Ca) and 43 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||113.68|99.18|
92330618|NCT01253174|184566165|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|97.98||||||90.0|94.19|101.93||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 41 (EE30/DRSP/L-5-MTHF Ca) and 43 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||101.93|94.19|
92330619|NCT01253174|184566166|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|104.9||||||90.0|98.83|111.34||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 41 (EE30/DRSP/L-5-MTHF Ca) and 43 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||111.34|98.83|
92330620|NCT01253174|184566167|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|99.63||||||90.0|95.73|103.69||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 41 (EE30/DRSP/L-5-MTHF Ca) and 43 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||103.69|95.73|
92330621|NCT01253174|184566169|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|99.57||||||90.0|97.32|101.87||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Yasmin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|38 volunteers qualified for statistical analysis of BE whereas all 40 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||101.87|97.32|
92330622|NCT02267135|184566172|SUPERIORITY_OR_OTHER_LEGACY||Difference between percentages|51.0|||<|0.001|TWO_SIDED|95.0|37.0|65.0|||Cochran-Mantel-Haenszel|adjusted for body weight (\< 90 kg, ≥ 90 kg)||||65|37|<0.001
92330623|NCT03646305|184566238|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental,control) × 2(Activity: singing,verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, believability of thought were equivalent across time||||<0.001
92330624|NCT03646305|184566238|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure differences in believability of thought from baseline to post-intervention. Null hypothesis: there would be no significant difference in believability of thought from baseline to post-intervention||||<0.001
92330625|NCT03646305|184566238|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure differences from post-intervention to follow-up. Null hypothesis: there would be no significant differences in believability of thought from post-intervention to follow-up.||||<0.001
92330626|NCT03646305|184566238|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal believability scores||||>0.05
92330627|NCT03646305|184566238|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal believability scores||||>0.05
92330628|NCT03646305|184566238|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in believability scores||||>0.05
92330629|NCT03646305|184566238|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions have equivalent believability scores across time.||||>0.05
92330630|NCT03646305|184566238|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on believability scores||||>0.05
92330631|NCT03646305|184566238|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no significant difference between 4 conditions on believability||||>0.05
92330632|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, appraisal of target thought were equivalent across time.||||<0.001
92330633|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||=|0.005|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent across time.||||=0.005
92330634|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||=|0.002|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in negativity from baseline to post-intervention. Null hypothesis: the control conditions would have no significant difference in negativity from baseline to post-intervention||||=0.002
92330635|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in negativity from post-intervention to follow-up. Null hypothesis: the control conditions would have no significant difference in negativity from post-intervention to follow-up.||||<0.001
92330636|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.025|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure differences in negativity from baseline to post-intervention. Null hypothesis: there would be no significant difference in negativity scores from baseline to post-intervention in the experimental conditions||||>0.025
92330637|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.025|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in negativity from post-intervention to follow-up. Null hypothesis: the experimental conditions would have no significant difference in negativity scores from post-intervention to follow-up.||||>0.025
92330638|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal negativity scores||||>0.05
92330639|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal negativity scores||||>0.05
92330640|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in negativity scores||||>0.05
92330641|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on negativity scores||||>0.05
92330642|NCT03646305|184566239|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between four conditions on negativity scores||||>0.05
92330643|NCT03646305|184566240|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at p\< .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, levels of discomfort were equivalent across time.||||<0.001
92330644|NCT03646305|184566240|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in levels of discomfort from baseline to post-intervention. Null hypothesis: there would have no significant differences in discomfort levels from baseline to post-intervention across samples||||<0.001
92330645|NCT03646305|184566240|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in levels of discomfort from post-intervention to follow-up. Null hypothesis: there would be no significant differences in discomfort levels from post-intervention to follow-up across samples||||<0.001
92330646|NCT03646305|184566240|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of discomfort||||>0.05
92330647|NCT03646305|184566240|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal levels of discomfort||||>0.05
92330648|NCT03646305|184566240|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of discomfort||||>0.05
92330649|NCT03646305|184566240|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of discomfort across time||||>0.05
92330650|NCT03646305|184566240|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of discomfort||||>0.05
92330651|NCT03646305|184566240|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no significant difference between 4 conditions on discomfort levels||||>0.05
92330652|NCT03646305|184566241|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, willingness to engage with target thought were equivalent across time||||<0.001
92330653|NCT03646305|184566241|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in willingness to engage with target thought from baseline to post-intervention. Null hypothesis: there would be no difference in willingness scores from baseline to post-intervention||||<0.001
92330654|NCT03646305|184566241|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||=|0.053|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in willingness to engage with target thought from post-intervention to follow-up. Null hypothesis: there would be no significant difference in willingness scores from post-intervention to follow-up.||||=0.053
92330655|NCT03646305|184566241|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal willingness scores||||>0.05
92330656|NCT03646305|184566241|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal willingness to engage with the target thought||||>0.05
92330657|NCT03646305|184566241|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all 4 conditions were equivalent in willingness to engage||||>0.05
92330658|NCT03646305|184566241|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in willingness to engage with the target thought across time.||||>0.05
92330659|NCT03646305|184566241|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on willingness to engage||||>0.05
92330660|NCT03646305|184566241|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between 4 conditions on willingness to engage||||>0.05
92330661|NCT03646305|184566242|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.01|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, avoidance of target thought were equivalent across time||||<0.01
92330662|NCT03646305|184566242|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in avoidance of target thought from baseline to post-intervention. Null hypothesis: there would be no significant differences in avoidance from baseline to post-intervention||||>0.05
92330663|NCT03646305|184566242|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress|||||<|0.05|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in avoidance of target thought from post-intervention to follow-up. Null hypothesis: there would be no significant differences in avoidance from post-intervention to follow-up.||||<0.05
92330664|NCT03646305|184566242|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would show equal avoidance of target thought||||>0.05
92330665|NCT03646305|184566242|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal avoidance of target thought||||>0.05
92330666|NCT03646305|184566242|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all 4 conditions were equivalent in avoidance of target thought||||>0.05
92330667|NCT03646305|184566242|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in avoidance of target thought across time.||||>0.05
92330668|NCT03646305|184566242|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on avoidance of target thought||||>0.05
92330669|NCT03646305|184566242|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between 4 conditions on avoidance of target thought||||>0.05
92330670|NCT03646305|184566243|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, cognitive delusion were equivalent across time||||>0.05
92330671|NCT03646305|184566243|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of cognitive defusion||||>0.05
92330672|NCT03646305|184566243|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal levels of cognitive defusion||||>0.05
92330673|NCT03646305|184566243|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of cognitive defusion||||>0.05
92330674|NCT03646305|184566243|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of cognitive defusion across time.||||>0.05
92330675|NCT03646305|184566243|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance alpha level .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of cognitive defusion||||>0.05
92330676|NCT03646305|184566243|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance alpha level .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between four conditions on levels of cognitive defusion||||>0.05
92330677|NCT03646305|184566244|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, weight dissatisfaction were equivalent across time.||||<0.001
92330678|NCT03646305|184566244|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in weight dissatisfaction from baseline to post-intervention. Null hypothesis: there would be no significant differences in weight dissatisfaction from baseline to post-intervention||||<0.001
92330679|NCT03646305|184566244|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.05|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure differences in weight dissatisfaction from post-intervention to follow-up. Null: there would be no differences in weight dissatisfaction from post-intervention to follow-up||||<0.05
92330680|NCT03646305|184566244|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal weight dissatisfaction||||>0.05
92330681|NCT03646305|184566244|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal weight dissatisfaction scores||||>0.05
92330682|NCT03646305|184566244|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA used to analyze Intervention x Activity interaction. Null: On average, all 4 conditions were equivalent in weight dissatisfaction||||>0.05
92330683|NCT03646305|184566244|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in weight dissatisfaction across time.||||>0.05
92330684|NCT03646305|184566244|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on weight dissatisfaction||||>0.05
92330685|NCT03646305|184566244|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between four conditions on weight dissatisfaction||||>0.05
92330686|NCT03646305|184566245|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, appearance dissatisfaction were equivalent across time.||||<0.001
92330687|NCT03646305|184566245|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in appearance dissatisfaction from baseline to post-intervention. Null hypothesis: the control conditions would have no significant difference in appearance dissatisfaction from baseline to post-intervention||||>0.05
92330688|NCT03646305|184566245|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in appearance dissatisfaction from post-intervention to follow-up. Null hypothesis: the control conditions would have no significant difference in appearance dissatisfaction from post-intervention to follow-up.||||<0.001
92330689|NCT03646305|184566245|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal appearance dissatisfaction||||>0.05
92330690|NCT03646305|184566245|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal appearance dissatisfaction scores||||>0.05
92330691|NCT03646305|184566245|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in appearance dissatisfaction||||>0.05
92330692|NCT03646305|184566245|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in appearance dissatisfaction across time.||||>0.05
92330693|NCT03646305|184566245|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on appearance dissatisfaction||||>0.05
92330694|NCT03646305|184566245|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between four conditions on appearance dissatisfaction||||>0.05
92330695|NCT03646305|184566246|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, body state image satisfaction were equivalent across time||||<0.001
92330696|NCT03646305|184566246|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.05|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure the difference in state body image satisfaction from baseline to post intervention. Null hypothesis: there would be no significant differences in state body image satisfaction from baseline to post intervention.||||<0.05
92330697|NCT03646305|184566246|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure the difference in state body image satisfaction from post intervention to follow-up. Null hypothesis: there would be no significant differences in state body image satisfaction from post-intervention to follow-up.||||<0.001
92330698|NCT03646305|184566246|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal body state image satisfaction||||>0.05
92330699|NCT03646305|184566246|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal state body satisfaction scores||||>0.05
92330700|NCT03646305|184566246|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in state body image satisfaction||||>0.05
92330701|NCT03646305|184566246|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in state body image satisfaction across time.||||>0.05
92330702|NCT03646305|184566246|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance alpha level .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on state body image satisfaction||||>0.05
92330703|NCT03646305|184566246|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance alpha level.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between four conditions on state body image satisfaction||||>0.05
92330704|NCT03646305|184566247|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, state body image satisfaction were equivalent across time.||||<0.001
92330705|NCT03646305|184566247|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure differences in anxious mood from baseline to post-intervention. Null hypothesis: there would be no significant difference in anxious mood from baseline to post-intervention.||||<0.001
92330706|NCT03646305|184566247|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in anxious mood from post-intervention to follow-up. Null hypothesis: there would be no significant difference in anxious mood from post-intervention to follow-up||||>0.05
92330707|NCT03646305|184566247|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of anxiety||||>0.05
92330708|NCT03646305|184566247|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal levels of anxiety||||>0.05
92330709|NCT03646305|184566247|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of anxiety||||>0.05
92330710|NCT03646305|184566247|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of anxiety across time||||>0.05
92330711|NCT03646305|184566247|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of anxiety||||>0.05
92330712|NCT03646305|184566247|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between the four conditions on levels of anxiety||||>0.05
92330713|NCT03646305|184566248|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, levels of depressive mood were equivalent across time.||||<0.001
92330714|NCT03646305|184566248|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in depressive mood from depressive mood from baseline to post-intervention||||<0.001
92330715|NCT03646305|184566248|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in depressive mood from post-intervention to follow-up. Null hypothesis: there would be no significant differences in depressive mood from post-intervention to follow-up.||||>0.05
92330716|NCT03646305|184566248|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of depressive mood||||>0.05
92330717|NCT03646305|184566248|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal levels of depressive mood||||>0.05
92330718|NCT03646305|184566248|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of depressive mood||||>0.05
92330719|NCT03646305|184566248|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of depressive mood across time||||>0.05
92330720|NCT03646305|184566248|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of depressive mood||||>0.05
92330721|NCT03646305|184566248|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between 4 conditions on levels of depressive mood||||>0.05
92330722|NCT03646305|184566249|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, levels of happiness were equivalent across time||||>0.05
92330723|NCT03646305|184566249|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of happiness||||>0.05
92330724|NCT03646305|184566249|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal levels of happiness||||>0.05
92330725|NCT03646305|184566249|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of happiness||||>0.05
92330726|NCT03646305|184566249|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of happiness across time.||||>0.05
92330727|NCT03646305|184566249|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of happiness||||>0.05
92330728|NCT03646305|184566249|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no differences between four conditions on levels of happiness||||>0.05
92330729|NCT03646305|184566250|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, levels of confidence were equivalent across time.||||>0.05
92330730|NCT03646305|184566250|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of confidence||||>0.05
92330731|NCT03646305|184566250|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal levels of confidence||||>0.05
92330732|NCT03646305|184566250|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of confidence||||>0.05
92330733|NCT03646305|184566250|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of confidence across time.||||>0.05
92330734|NCT03646305|184566250|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of happiness||||>0.05
92330735|NCT03646305|184566250|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no differences between four conditions on levels of happiness||||>0.05
92330736|NCT03646305|184566251|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, level of self-esteem were equivalent across time.||||<0.05
92330737|NCT03646305|184566251|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in self-esteem from post-intervention to follow-up. Null hypothesis: there would be no significant differences in self-esteem from post-intervention to follow-up.||||<0.001
92330738|NCT03646305|184566251|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of self-esteem||||>0.05
92330739|NCT03646305|184566251|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal levels of self-esteem||||>0.05
92330740|NCT03646305|184566251|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA used to analyze Intervention x Activity interaction. Null: On average, all four conditions have equivalent levels of self-esteem||||>0.05
92330741|NCT03646305|184566251|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions have equivalent levels of self-esteem across time.||||>0.05
92330742|NCT03646305|184566251|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of self-esteem||||>0.05
92330743|NCT03646305|184566251|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no differences between four conditions on levels of self-esteem||||>0.05
92330744|NCT03646305|184566252|OTHER|Mediation Analysis that examined whether greater homework adherence strengthened the relationship between condition and outcome|||||>|0.05|||||||Mediation Analyses|||All mediation analyses were conducted using the PROCESS SPSS macro version 3.2 (Hayes, 2018). We tested model 4, which includes one outcome variable, one predictor, one mediator, and room for covariates. We examined the meditational effect of homework adherence on the relationship between intervention and each outcome measure. Null: homework adherence does not mediate any relationships between intervention condition and outcome measures.||||>0.05
92330745|NCT03646305|184566252|OTHER|Mediation Analysis that examined whether greater homework adherence strengthened the relationship between condition and outcome|||||>|0.05|||||||Mediation Analyses|||All mediation analyses were conducted using the PROCESS SPSS macro version 3.2 (Hayes, 2018). We tested model 4, which includes one outcome variable, one predictor, one mediator, and room for covariates. We examined the meditational effect of homework adherence on the relationship between activity and each outcome measure. Null: homework adherence does not mediate any relationships between activity condition and outcome measures.||||>0.05
92330746|NCT03646305|184566253|OTHER|Thought-shape fusion was examined as a potential moderator of the relationship between intervention condition and outcome measures.|||||<|0.001||||||No other outcome measure was moderated by thought-shape fusion scores.|Moderation Analyses|||All moderation analyses were conducted using the PROCESS SPSS macro version 3.2 (Hayes, 2018). We tested model 1, which includes one outcome variable, one predictor, and one moderator. Thought-shape fusion was examined as a potential moderator of the relationship between intervention condition and outcome measures. Null: thought-shape fusion does not significantly moderate the relationship between intervention condition and state self-esteem||||<0.001
92330747|NCT01554176|184566254|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.7||||0.679|TWO_SIDED|95.0|-3.8|2.5||cLDA model included terms for treatment, time, the interaction of time by treatment, severity of disease (Hamilton Depression Rating Scale, 17-items \[HAM-D17\] ≤20, \>20) and insomnia severity index (ISI ≤14, \>14).|cLDA|||Number of participants included for calculation of mean ± SD baseline and mean ± SD change from baseline MADRS Total Score is 119. Constrained longitudinal data analysis (cLDA) model uses efficacy Full Analysis Set (FAS) population (number of participants: filorexant 10 mg - 64, placebo - 64; total number of participants in cLDA analysis - 128).||2.5|-3.8|0.679
92330748|NCT01554176|184566255|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.3||||0.82|TWO_SIDED|95.0|-3.2|2.5||cLDA model included terms for treatment, time, the interaction of time by treatment, severity of disease (Hamilton Depression Rating Scale, 17-items \[HAM-D17\] ≤20, \>20) and insomnia severity index (ISI ≤14, \>14).|cLDA|||Pairwise Comparison: Filorexant 10 mg vs. Placebo||2.5|-3.2|0.820
92330749|NCT01554176|184566256|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.3||||0.701|TWO_SIDED|95.0|-1.9|1.3||cLDA model included terms for treatment, time, the interaction of time by treatment, severity of disease (Hamilton Depression Rating Scale, 17-items \[HAM-D17\] ≤20, \>20) and insomnia severity index (ISI ≤14, \>14).|cLDA|||Pairwise Comparison: Filorexant 10 mg vs. Placebo||1.3|-1.9|0.701
92330750|NCT01554176|184566257|SUPERIORITY_OR_OTHER||Estimated Odds Ratio|2.5||||0.0965|TWO_SIDED|95.0|0.8|7.3||Generalized linear mixed effects model included terms for treatment, time, treatment-by-time interaction.|Generalized Linear Mixed Effects Model|||Pairwise Comparison: Filorexant 10 mg vs. Placebo||7.3|0.8|0.0965
92330751|NCT01554176|184566258|SUPERIORITY_OR_OTHER||Difference in percentage incidence|15.6|||||TWO_SIDED|95.0|-0.9|31.4||||Between-group comparison of AE incident rate||Estimated parameter is between-group difference in percentage of participants with an AE = percentage (filorexant 10 mg) - percentage (placebo) for participants with one or more AE.||31.4|-0.9|
92330752|NCT01554176|184566259|SUPERIORITY_OR_OTHER||Difference in percentage incidence|0.0|||||TWO_SIDED|95.0|-7.0|7.0||||Between-group comparison of incidence rate of drug discontinuation due to AE||Estimated parameter is between-group difference in percentage of participants discontinued from study drug due to an AE = percentage (filorexant 10 mg) - percentage (placebo).||7|-7|
92330753|NCT03816644|184566268|SUPERIORITY||Odds Ratio (OR)|3.43|||||TWO_SIDED|95.0|2.32|5.07||||||The estimate of odds ratio, its 95% confidence interval and p-value are obtained from logistic regression models which were used to examine the difference in dementia care outcomes between the intervention and control groups at 90 days post screening visit. Models are adjusted for age, sex, and years of education.||5.07|2.32|
92330754|NCT03816644|184566269|SUPERIORITY||Odds Ratio (OR)|1.133|||||TWO_SIDED|95.0|0.837|1.534||||||The estimate of odds ratio, its 95% confidence interval and p-value are obtained from logistic regression models which were used to examine the difference in participants who were hospitalized or visited an ER 6 months post screening visit.||1.534|0.837|
92330755|NCT03004924|184566322|SUPERIORITY||Difference in response rate|7.7||||0.127|TWO_SIDED|95.0|-1.6|16.9|||Fisher Exact|||||16.9|-1.6|0.127
92330756|NCT03004924|184566323|SUPERIORITY||Difference in response rate|-3.5||||0.5|TWO_SIDED|95.0|-12.8|5.9|||Fisher Exact|||||5.9|-12.8|0.500
92330757|NCT02867202|184566337|OTHER||||||<|0.05|||||||t-test, 2 sided|||Data analysis was performed with SPSS version 22.0, using two-sided test, and a p value \< 0.05 was considered statistically significant.||||<0.05
92330758|NCT03924505|184566338|SUPERIORITY||Incidence Rate Ratio|2.15|||<|0.01|TWO_SIDED|95.0|1.42|2.35||A priori threshold for statistical significance set at p\<0.05|Negative Binomial Regression|We adjusted for baseline rate due to baseline differences.|The incidence rate ratio estimates the effect of facilitation for implementation effectiveness and dissemination of best practice recommendations, as compared to dissemination of best practice recommendations.|||2.35|1.42|<0.01
92330759|NCT03924505|184566339|SUPERIORITY||Incidence Rate Ratio|1.97||||0.01|TWO_SIDED|95.0|1.18|3.3||A priori threshold for statistical signicance is p\<0.05|Negative Binomial Regression||The incidence rate ratio estimates the effect of facilitation for implementation effectiveness and dissemination of best practice recommendations, as compared to dissemination of best practice recommendations.|||3.30|1.18|0.01
92330760|NCT03924505|184566340|OTHER|Testing for differences in means|Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.68|TWO_SIDED|95.0|-0.7|1.0|||t-test, 2 sided|||||1.0|-0.7|0.68
92330761|NCT02943785|184566358|NON_INFERIORITY|The two-sided p-value (Noninferiority) was based on the noninferiority margin of 1.38.|Cox Proportional Hazard|1.05||||0.0141|TWO_SIDED|95.0|0.85|1.31|||Regression, Cox|||||1.31|0.85|0.0141
92330762|NCT02943785|184566359|NON_INFERIORITY|The two-sided p-value (Noninferiority) was based on the noninferiority margin of 1.38.|Cox Proportional Hazard|1.4||||0.9267|TWO_SIDED|95.0|1.03|1.91|||Regression, Cox|||||1.91|1.03|0.9267
92330763|NCT02603107|184566370|NON_INFERIORITY|A sample size of 520 participants (260 participants per treatment group) would provide at least 90% power to establish a non-inferiority margin of 4% in the Week 48 response rate (HIV-1 RNA ≥ 50 copies/mL) between the 2 treatment groups. Sample size was based on the assumptions that both treatment groups have 2% of participants with HIV-1 RNA ≥ 50 copies/mL (based on Gilead Genvoya and Stribild studies) and that the significance level of the test is at a 1-sided 0.025 level.|Difference in Percentages|0.0|||||TWO_SIDED|95.002|-2.5|2.5|||||The difference in percentages and its 95.002% confidence interval (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The null hypothesis was that the percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48 in the B/F/TAF group was at least 4% higher than the rate in the SBR group; the alternative hypothesis was that the percentage of participants with HIV-1 RNA ≥ 50 copies/mL in the B/F/TAF group was less than 4% higher than that in the SBR group.||2.5|-2.5|
92330764|NCT02603107|184566370|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
92330765|NCT02603107|184566371|NON_INFERIORITY|The non-inferiority of B/F/TAF would be established if the lower bound of the 2-sided 95.002% CI of the difference between the treatment groups (B/F/TAF group - SBR group) in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10%.|Difference in Percentages|3.2|||||TWO_SIDED|95.002|-1.6|8.2|||||The difference in percentages and its 95.002% confidence interval (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||8.2|-1.6|
92330766|NCT02603107|184566371|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.20
92330767|NCT02603107|184566372|SUPERIORITY||Difference in Least Squares Means (LSM)|25.0||||0.068|TWO_SIDED|95.0|-2.0|52.0|||ANOVA|||||52|-2|0.068
92330768|NCT01887678|184566398|SUPERIORITY_OR_OTHER||Least Square|-6.37|STANDARD_ERROR_OF_MEAN|3.06||0.0383|TWO_SIDED|95.0|-12.4|-0.35|||ANCOVA||A negative value of the Least Square mean difference indicates a result in favor of Traumeel-Zeel.|||-0.35|-12.40|0.0383
92330769|NCT01887678|184566399|SUPERIORITY_OR_OTHER||Least Squares|-2.15||||0.3715|TWO_SIDED|95.0|-6.89|2.58|||ANCOVA|||Day 8±1||2.58|-6.89|0.3715
92330770|NCT01887678|184566399|SUPERIORITY_OR_OTHER||Least Square|-5.87||||0.0293|TWO_SIDED|95.0|-11.15|-0.6|||ANCOVA|||Day 15±1||-0.60|-11.15|0.0293
92330771|NCT01887678|184566399|SUPERIORITY_OR_OTHER||Least Squares|-5.24||||0.0686|TWO_SIDED|95.0|-10.88|0.4|||ANCOVA|||Day 29±3||0.40|-10.88|0.0686
92330772|NCT01887678|184566399|SUPERIORITY_OR_OTHER||Least Squares|-7.25||||0.015|TWO_SIDED|95.0|-13.08|-1.42|||ANCOVA|||Day 43±3||-1.42|-13.08|0.0150
92330773|NCT01887678|184566399|SUPERIORITY_OR_OTHER||Least Squares|-7.56||||0.0134|TWO_SIDED|95.0|-13.54|-1.58|||ANCOVA|||Day 57±3||-1.58|-13.54|0.0134
92330774|NCT01887678|184566399|SUPERIORITY_OR_OTHER||Least Squares|-7.6||||0.0121|TWO_SIDED|95.0|-13.52|-1.68|||Least Squares|||Day 71±3||-1.68|-13.52|0.0121
92330775|NCT01887678|184566399|SUPERIORITY_OR_OTHER||Least Squares|-6.32||||0.0376|TWO_SIDED|95.0|-12.28|-0.37|||ANCOVA|||Day 85±3||-0.37|-12.28|0.0376
92330776|NCT01887678|184566400|SUPERIORITY_OR_OTHER||Least Squares|-4.76||||0.1373|TWO_SIDED|95.0|-11.05|1.53|||ANCOVA|||||1.53|-11.05|0.1373
92330777|NCT01887678|184566401|SUPERIORITY_OR_OTHER||Least Squares|-4.24||||0.1715|TWO_SIDED|95.0|-10.33|1.85|||ANCOVA|||||1.85|-10.33|0.1715
92330778|NCT01887678|184566402|SUPERIORITY_OR_OTHER||Least Squares|-4.77||||0.1211|TWO_SIDED|95.0|-10.82|1.27|||ANCOVA|||||1.27|-10.82|0.1211
92330779|NCT01887678|184566407|SUPERIORITY_OR_OTHER||Least Squares|-4.97||||0.1128|TWO_SIDED|95.0|-11.12|1.18|||ANCOVA|||Day 8±1||1.18|-11.12|0.1128
92330780|NCT01887678|184566407|SUPERIORITY_OR_OTHER||Least Squares|-10.49||||0.0013|TWO_SIDED|95.0|-16.85|-4.13|||ANCOVA|||Day 15±1||-4.13|-16.85|0.0013
92330781|NCT01887678|184566407|SUPERIORITY_OR_OTHER||Least Squares|-6.89||||0.0472|TWO_SIDED|95.0|-13.69|-0.09|||ANCOVA|||Day 29±3||-0.09|-13.69|0.0472
92330782|NCT01887678|184566407|SUPERIORITY_OR_OTHER||Least Squares|-8.82||||0.0109|TWO_SIDED|95.0|-15.6|-2.05|||ANCOVA|||Day 43±3||-2.05|-15.60|0.0109
92330783|NCT01887678|184566407|SUPERIORITY_OR_OTHER||Least Squares|-8.88||||0.0123|TWO_SIDED|95.0|-15.8|-1.95|||ANCOVA|||Day 57±3||-1.95|-15.80|0.0123
92330784|NCT01887678|184566407|SUPERIORITY_OR_OTHER||Least Squares|-6.88||||0.0425|TWO_SIDED|95.0|-13.52|-0.23|||ANCOVA|||Day 71±3||-0.23|-13.52|0.0425
92330785|NCT01887678|184566407|SUPERIORITY_OR_OTHER||Least Squares|-5.51||||0.1199|TWO_SIDED|95.0|-12.47|1.45|||ANCOVA|||Day 85±3||1.45|-12.47|0.1199
92330786|NCT01887678|184566407|SUPERIORITY_OR_OTHER||Least Squares|-4.96||||0.1575|TWO_SIDED|95.0|-11.86|1.93|||ANCOVA|||Day 119±3||1.93|-11.86|0.1575
92330787|NCT01887678|184566408|SUPERIORITY_OR_OTHER||Least Squares|-0.28||||0.6346|TWO_SIDED|95.0|-1.45|0.89|||ANCOVA|||Day 8±1||0.89|-1.45|0.6346
92330788|NCT01887678|184566408|SUPERIORITY_OR_OTHER||Least Squares|-0.28||||0.6458|TWO_SIDED|95.0|-1.49|0.92|||ANCOVA|||Day 15±1||0.92|-1.49|0.6458
92330789|NCT01887678|184566408|SUPERIORITY_OR_OTHER||Least Squares|-0.18||||0.7581|TWO_SIDED|95.0|-1.35|0.99|||ANCOVA|||Day 29±3||0.99|-1.35|0.7581
92330790|NCT01887678|184566408|SUPERIORITY_OR_OTHER||Least Squares|-0.49||||0.335|TWO_SIDED|95.0|-1.48|0.51|||ANCOVA|||Day 43±3||0.51|-1.48|0.3350
92330791|NCT01887678|184566408|SUPERIORITY_OR_OTHER||Least Squares|-0.4||||0.4419|TWO_SIDED|95.0|-1.44|0.63|||ANCOVA|||Day 57±3||0.63|-1.44|0.4419
92330792|NCT01887678|184566408|SUPERIORITY_OR_OTHER||Least Squares|-0.37||||0.446|TWO_SIDED|95.0|-1.32|0.58|||ANCOVA|||Day 71±3||0.58|-1.32|0.4460
92330793|NCT01887678|184566408|SUPERIORITY_OR_OTHER||Least Squares|0.25||||0.6552|TWO_SIDED|95.0|-0.84|1.33|||ANCOVA|||Day 85±3||1.33|-0.84|0.6552
92330794|NCT01887678|184566408|SUPERIORITY_OR_OTHER||Least Squares|-0.19||||0.7443|TWO_SIDED|95.0|-1.33|0.95|||ANCOVA|||Day 119±3||0.95|-1.33|0.7443
92330795|NCT01887678|184566413|SUPERIORITY_OR_OTHER|||||||0.2164|TWO_SIDED||||||Log Rank|Results of Kaplan-Meier Analysis with p-value from 2-sided log-rank test for equality of survival functions||After first injection of study drug||||0.2164
92330796|NCT01887678|184566413|SUPERIORITY_OR_OTHER|||||||0.1651|TWO_SIDED|||||Results of Kaplan-Meier Analysis with p-value from 2-sided log-rank test for equality of survival functions|Log Rank|||After second injection of study drug||||0.1651
92330797|NCT01887678|184566413|SUPERIORITY_OR_OTHER|||||||0.222|TWO_SIDED||||||Log Rank|Results of Kaplan-Meier Analysis with p-value from 2-sided log-rank test for equality of survival functions||After third injection of study drug||||0.2220
92330798|NCT01887678|184566414|SUPERIORITY_OR_OTHER|||||||0.0264|TWO_SIDED||||||Log Rank|For equality of survival functions||After first injection of study drug||||0.0264
92330799|NCT01887678|184566414|SUPERIORITY_OR_OTHER|||||||0.0346|TWO_SIDED||||||Log Rank|For equality of survival functions||After second injection of study drug||||0.0346
92330800|NCT01887678|184566414|SUPERIORITY_OR_OTHER|||||||0.0172|TWO_SIDED||||||Log Rank|For equality of survival functions||After third injection of study drug||||0.0172
92330801|NCT01370616|184566436|NON_INFERIORITY_OR_EQUIVALENCE|If the 95% confidence interval for the estimated difference between the two groups has a lower bound greater than -15%, then ertapenem sodium will be considered at least as effective as piperacillin/tazobactam sodium.|Estimated Difference|-3.8|||||TWO_SIDED|95.0|-8.3|0.0|||||Ertapenem minus Piperacillin/tazobactam. Based on Miettinen \& Nurminen method stratified by the severity of diabetes foot infection.|||0.0|-8.3|
92330802|NCT01370616|184566437|SUPERIORITY_OR_OTHER||Estimated Difference|-1.7|||||TWO_SIDED|95.0|-5.5|1.8|||||Ertapenem minus Piperacillin/tazobactam. Based on Miettinen \& Nurminen method stratified by the severity of diabetes foot infection.|||1.8|-5.5|
92330803|NCT01370616|184566438|SUPERIORITY_OR_OTHER||Estimated Difference|-2.3|||||TWO_SIDED|95.0|-7.7|2.8|||||Ertapenem minus Piperacillin/tazobactam. Based on Miettinen \& Nurminen method stratified by the severity of diabetes foot infection.|||2.8|-7.7|
92330804|NCT01370616|184566439|SUPERIORITY_OR_OTHER||Estimated Difference|-4.1|||||TWO_SIDED|95.0|-11.9|3.4|||||Ertapenem minus Piperacillin/tazobactam. Based on Miettinen \& Nurminen method stratified by the severity of diabetes foot infection.|||3.4|-11.9|
92330805|NCT01370616|184566440|SUPERIORITY_OR_OTHER||Estimated Difference|-4.3|||||TWO_SIDED|95.0|-12.1|3.3|||||Ertapenem minus Piperacillin/tazobactam. Based on Miettinen \& Nurminen method stratified by the severity of diabetes foot infection.|||3.3|-12.1|
92330806|NCT01370616|184566441|SUPERIORITY_OR_OTHER||Estimated Difference|7.3|||||TWO_SIDED|95.0|-0.9|15.4|||||Ertapenem minus Piperacillin/tazobactam group. Based on Miettinen \& Nurminen method without adjusting strata.|||15.4|-0.9|
92330807|NCT01370616|184566442|SUPERIORITY_OR_OTHER||Estimated Difference|-2.5|||||TWO_SIDED|95.0|-8.5|3.4|||||Ertapenem minus Piperacillin/tazobactam group. Based on Miettinen \& Nurminen method without adjusting strata.|||3.4|-8.5|
92330808|NCT01370616|184566443|SUPERIORITY_OR_OTHER||Estimated Difference|1.8|||||TWO_SIDED|95.0|-2.0|5.8|||||Ertapenem minus Piperacillin/tazobactam group. Based on Miettinen \& Nurminen method without adjusting strata.|||5.8|-2.0|
92330809|NCT01370616|184566444|SUPERIORITY_OR_OTHER||Estimated Difference|-1.8|||||TWO_SIDED|95.0|-5.7|1.9|||||Ertapenem minus Piperacillin/tazobactam group. Based on Miettinen \& Nurminen method without adjusting strata.|||1.9|-5.7|
92330810|NCT00076999|184566456|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.02
92330811|NCT00076999|184566456|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.78
92330812|NCT00076999|184566457|SUPERIORITY_OR_OTHER|||||||0||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.00
92330813|NCT00076999|184566457|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
92330814|NCT00076999|184566458|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.12
92330815|NCT00076999|184566458|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
92330816|NCT00076999|184566459|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.12
92330817|NCT00076999|184566459|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
92330818|NCT00076999|184566460|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.01
92330819|NCT00076999|184566460|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
92330820|NCT00076999|184566461|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.06
92330821|NCT00076999|184566461|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
92330822|NCT00076999|184566462|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.60
92330823|NCT00076999|184566462|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
92330824|NCT00076999|184566463|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.20
92330825|NCT00076999|184566463|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
92330826|NCT00076999|184566464|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.18
92330827|NCT00076999|184566464|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
92330828|NCT00076999|184566466|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.02
92330829|NCT00076999|184566466|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.47
92330830|NCT00076999|184566467|SUPERIORITY_OR_OTHER|||||||0||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.00
92330831|NCT00076999|184566467|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.81
92330832|NCT00076999|184566468|SUPERIORITY_OR_OTHER|||||||0||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.00
92330833|NCT00076999|184566468|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.69
92330834|NCT00076999|184566470|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.64
92330835|NCT00076999|184566470|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.26
92330836|NCT00076999|184566471|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.25
92330837|NCT00076999|184566471|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.70
92330838|NCT00076999|184566472|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.73
92330839|NCT00076999|184566472|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.79
92330840|NCT00076999|184566474|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.38
92330841|NCT00076999|184566474|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.20
92330842|NCT00076999|184566475|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.08
92330843|NCT00076999|184566475|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.36
92330844|NCT00076999|184566476|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.23
92330845|NCT00076999|184566476|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.23
92330846|NCT00803205|184566483|SUPERIORITY|||||||0.3264|||||||ANOVA|||||||0.3264
92330847|NCT00803205|184566484|SUPERIORITY||Mean Difference (Final Values)|2.754|STANDARD_ERROR_OF_MEAN|1.78124||0.1235|TWO_SIDED|95.0|-0.756|6.264||The p-value is the LS-mean for the comparison between active treatment and placebo. The level of significance was 0.04998.|Mixed Models Analysis|||Least squares (LS) mean estimates based on mixed model for repeated measures (Weeks 8, 16, 24, 32, 40 and 48) of relative change in percent-predicted FEV1 as the dependent variable; independent variables including Baseline percent-predicted FEV1, treatment, visit, interactions between treatment and visit and between Baseline percent-predicted FEV1 and visit; and stratification factors of Baseline age, Baseline inhaled antibiotics, and Baseline percent-predicted FEV1.||6.2640|-0.7560|0.1235
92330848|NCT05821296|184566503|OTHER|Change of sum of total lesions at the end of the study from baseline/Day 0 to evaluate the efficacy and clinical performance of Crystal Peel for the treatment of acne.|Mean Difference (Final Values)|-14.58|STANDARD_ERROR_OF_MEAN|1.38|<|0.0001|TWO_SIDED|95.0|-17.31|-11.84|||ANCOVA|||||-11.84|-17.31|<0.0001
92330849|NCT05821296|184566504|OTHER||Mean Difference (Final Values)|1.85|STANDARD_DEVIATION|0.87|||TWO_SIDED|95.0|1.54|2.16||||||||2.16|1.54|
92330850|NCT05821296|184566505|OTHER||Mean Difference (Final Values)|1.82|STANDARD_DEVIATION|1.07|||TWO_SIDED|95.0|1.44|2.2||||||||2.20|1.44|
92330851|NCT05821296|184566506|OTHER||Mean value in local tolerance score|2.21|STANDARD_DEVIATION|0.65|||TWO_SIDED|95.0|1.98|2.44||||||||2.44|1.98|
92330852|NCT05821296|184566507|OTHER|Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.|% of patients with positive answers|79.0|||||TWO_SIDED|95.0|61.0|89.0||||||||89|61|
92330853|NCT05821296|184566507|OTHER||% of patients with positive answers|94.0|||||TWO_SIDED|95.0|80.0|98.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||98|80|
92330854|NCT05821296|184566507|OTHER||% of patients with positive answers|88.0|||||TWO_SIDED|95.0|73.0|95.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||95|73|
92330855|NCT05821296|184566507|OTHER||% of patients with positive answers|85.0|||||TWO_SIDED|95.0|68.0|93.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||93|68|
92330856|NCT05821296|184566507|OTHER||% of patients with positive answers|91.0|||||TWO_SIDED|95.0|77.0|97.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||97|77|
92330857|NCT05821296|184566507|OTHER||% of patients with positive answers|85.0|||||TWO_SIDED|95.0|69.0|93.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||93|69|
92330858|NCT05821296|184566507|OTHER||% of patients with positive answers|78.0|||||TWO_SIDED|95.0|61.0|89.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||89|61|
92330859|NCT05821296|184566507|OTHER||% of patients with positive answers|79.0|||||TWO_SIDED|95.0|62.0|89.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||89|62|
92330860|NCT05821296|184566507|OTHER||% of patients with positive answers|76.0|||||TWO_SIDED|95.0|59.0|87.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||87|59|
92330861|NCT05821296|184566509|OTHER||Mean Difference (Net)|-47.24|STANDARD_DEVIATION|56.61|<|0.0001|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous number of detected pores at day 15 to evaluate the improvement of pores assessed by Colorface device.||||< 0.0001
92330862|NCT05821296|184566509|OTHER||Mean Difference (Final Values)|-30.85|STANDARD_DEVIATION|63.92||0.01|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous number of detected pores at Day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.010
92330863|NCT05821296|184566509|OTHER||Mean Difference (Final Values)|-41.69|STANDARD_DEVIATION|73.69|<|0.004|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous number of detected pores at Day 57 to evaluate the improvement of pores assessed by Colorface device.||||<0.004
92330864|NCT05821296|184566509|OTHER||Mean Difference (Final Values)|-29.13|STANDARD_DEVIATION|61.45||0.013|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous number of detected pores at day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.013
92330865|NCT05821296|184566510|OTHER||Mean Difference (Final Values)|-2832.39|STANDARD_DEVIATION|3217.15|<|0.0001|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous area of detected pores at day 15 to evaluate the improvement of pores assessed by Colorface device.||||< 0.0001
92330866|NCT05821296|184566510|OTHER||Mean Difference (Final Values)|-1754.88|STANDARD_DEVIATION|4220.25||0.025|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous area of detected pores at day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.025
92330867|NCT05821296|184566510|OTHER||Mean Difference (Final Values)|-2763.41|STANDARD_DEVIATION|4965.84||0.004|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous area of detected pores at day 57 to evaluate the improvement of pores assessed by Colorface device.||||0.004
92330868|NCT05821296|184566510|OTHER||Mean Difference (Final Values)|-1742.41|STANDARD_DEVIATION|3974.21||0.021|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous area of detected pores at day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.021
92330869|NCT05821296|184566511|OTHER||Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|1.3|<|0.0001|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous relative area (density) of detected pores at Day 15 to evaluate the improvement of pores assessed by Colorface device.||||<0.0001
92330870|NCT05821296|184566511|OTHER||Mean Difference (Final Values)|-0.68|STANDARD_DEVIATION|1.68||0.029|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous relative area (density) of detected pores at Day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.029
92330871|NCT05821296|184566511|OTHER||Mean Difference (Final Values)|-1.07|STANDARD_DEVIATION|2.01||0.006|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous relative area (density) of detected pores at Day 57 to evaluate the improvement of pores assessed by Colorface device.||||0.006
92330872|NCT05821296|184566511|OTHER||Mean Difference (Net)|-0.65|STANDARD_DEVIATION|1.67||0.037|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous relative area (density) of detected pores at Day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.037
92330873|NCT05821296|184566512|OTHER||Mean Difference (Final Values)|-0.39|STANDARD_DEVIATION|0.58||0.001|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous depth of detected pores at Day 15 to evaluate the improvement of pores assessed by Colorface device.||||0.001
92330874|NCT05821296|184566512|OTHER||Mean Difference (Final Values)|-0.14|STANDARD_DEVIATION|0.71||0.348|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous depth of detected pores at Day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.348
92330875|NCT05821296|184566512|OTHER||Mean Difference (Final Values)|-0.27|STANDARD_DEVIATION|0.75||0.091|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous depth of detected pores at Day 57 to evaluate the improvement of pores assessed by Colorface device.||||0.091
92330876|NCT05821296|184566512|OTHER||Mean Difference (Final Values)|-0.12|STANDARD_DEVIATION|0.65||0.19|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous depth of detected pores at Day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.190
92330877|NCT05821296|184566513|OTHER||Mean Difference (Final Values)|-1.69|STANDARD_DEVIATION|3.55||0.011|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of average area of detected pores at Day 15 to evaluate the improvement of pores assessed by Colorface device.||||0.011
92330878|NCT05821296|184566513|OTHER||Mean Difference (Final Values)|-0.64|STANDARD_DEVIATION|3.28||0.281|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of average area of detected pores at Day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.281
92330879|NCT05821296|184566513|OTHER||Mean Difference (Final Values)|-1.57|STANDARD_DEVIATION|4.46||0.06|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of average area of detected pores at Day 57 to evaluate the improvement of pores assessed by Colorface device.||||0.060
92330880|NCT05821296|184566513|OTHER||Mean Difference (Final Values)|-0.87|STANDARD_DEVIATION|3.8||0.209|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of average area of detected pores at Day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.209
92330881|NCT05821296|184566514|OTHER||Mean Difference (Final Values)|-26495.83|STANDARD_DEVIATION|33223.6|<|0.0001|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous volume of detected pores at Day 15 to evaluate the improvement of pores assessed by Colorface device.||||<0.0001
92330882|NCT05821296|184566514|OTHER||Mean Difference (Final Values)|-14447.02|STANDARD_DEVIATION|44054.48||0.073|TWO_SIDED||||||t-test, 2 sided|||Comparison of change from baseline of conspicuous volume of detected pores at Day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.073
92330883|NCT05821296|184566514|OTHER|If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|Mean Difference (Final Values)|-25315.34|STANDARD_DEVIATION|49884.67||0.008|TWO_SIDED||||||t-test, 2 sided|||Comparison of change from baseline of conspicuous volume of detected pores at Day 57 to evaluate the improvement of pores assessed by Colorface device.||||0.008
92330884|NCT05821296|184566514|OTHER||Mean Difference (Final Values)|-13287.34|STANDARD_DEVIATION|39615.92||0.071|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous volume of detected pores at Day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.071
92330885|NCT05821296|184566515|OTHER||Mean Difference (Final Values)|-7518.25|STANDARD_DEVIATION|13340.45||0.003|TWO_SIDED|||||If the Wilcoxon test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous area of line marks at Day 15 to evaluate the improvement of line marks assessed by Colorface device.||||0.003
92330886|NCT05821296|184566515|OTHER||Mean Difference (Final Values)|-7230.81|STANDARD_DEVIATION|17547.6||0.041|TWO_SIDED|||||If the Wilcoxon test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous area of line marks at Day 36 to evaluate the improvement of line marks assessed by Colorface device.||||0.041
92330887|NCT05821296|184566515|OTHER||Mean Difference (Final Values)|-9086.26|STANDARD_DEVIATION|18306.64||0.007|TWO_SIDED|||||If the Wilcoxon test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous area of line marks at Day 57 to evaluate the improvement of line marks assessed by Colorface device.||||0.007
92330888|NCT05821296|184566515|OTHER||Mean Difference (Final Values)|64.71|STANDARD_DEVIATION|14542.17||0.931|TWO_SIDED|||||If the Wilcoxon test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous area of line marks at Day 78 to evaluate the improvement of line marks assessed by Colorface device.||||0.931
92330889|NCT05821296|184566516|OTHER||Mean Difference (Final Values)|-0.36|STANDARD_DEVIATION|0.66||0.005|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous depth of line marks at Day 15 to evaluate the improvement of line marks assessed by Colorface device.||||0.005
92330890|NCT05821296|184566516|OTHER||Mean Difference (Final Values)|-0.32|STANDARD_DEVIATION|0.8||0.035|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous depth of line marks at Day 36 to evaluate the improvement of line marks assessed by Colorface device.||||0.035
92330891|NCT05821296|184566516|OTHER||Mean Difference (Final Values)|-0.34|STANDARD_DEVIATION|0.86||0.036|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous depth of line marks at Day 57 to evaluate the improvement of line marks assessed by Colorface device.||||0.036
92330892|NCT05821296|184566516|OTHER||Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.77||0.784|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous depth of line marks at Day 78 to evaluate the improvement of line marks assessed by Colorface device.||||0.784
92330893|NCT05821296|184566517|OTHER||Mean Difference (Final Values)|-2249.72|STANDARD_DEVIATION|4466.14||0.011|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.||Comparison of change from baseline of conspicuous length of line marks at Day 15 to evaluate the improvement of line marks assessed by Colorface device.||||0.011
92330894|NCT05821296|184566517|OTHER||Mean Difference (Final Values)|-2315.0|STANDARD_DEVIATION|6197.86||0.074|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous length of line marks at Day 36 to evaluate the improvement of line marks assessed by Colorface device.||||0.074
92330895|NCT05821296|184566517|OTHER||Mean Difference (Final Values)|-2700.55|STANDARD_DEVIATION|5962.3||0.007|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous length of line marks at Day 57 to evaluate the improvement of line marks assessed by Colorface device.||||0.007
92330896|NCT05821296|184566517|OTHER||Mean Difference (Final Values)|430.65|STANDARD_DEVIATION|5021.2||0.779|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous length of line marks at Day 78 to evaluate the improvement of line marks assessed by Colorface device.||||0.779
92330897|NCT05821296|184566518|OTHER||Mean Difference (Final Values)|-75800.75|STANDARD_DEVIATION|142643.92||0.003|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous volume of line marks at Day 15 to evaluate the improvement of line marks assessed by Colorface device.||||0.003
92330898|NCT05821296|184566518|OTHER||Mean Difference (Final Values)|-73517.86|STANDARD_DEVIATION|197224.85||0.054|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous volume of line marks at Day 36 to evaluate the improvement of line marks assessed by Colorface device.||||0.054
92330899|NCT05821296|184566518|OTHER||Mean Difference (Final Values)|-90424.89|STANDARD_DEVIATION|198264.2||0.008|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous volume of line marks at Day 57 to evaluate the improvement of line marks assessed by Colorface device.||||0.008
92330900|NCT05821296|184566518|OTHER||Mean Difference (Final Values)|1314.03||||0.779|TWO_SIDED||||||t-test, 2 sided|||Comparison of change from baseline of conspicuous volume of line marks at Day 78 to evaluate the improvement of line marks assessed by Colorface device.||||0.779
92330901|NCT01217385|184566519|EQUIVALENCE|under the NULL, it is assume that there is no difference between a 40% decrease in TOI, and a less than 40% decrease or an increase in TOI in their ability to predict pCR+|Odds Ratio (OR)|4.667||||0.059|TWO_SIDED|95.0|0.95|23.04||5% alpha threshold for significance.|Regression, Logistic|||"This analysis will look at the ability of the % change in DOSI measured tumor Optical Index (TOI) from baseline to mid-therapy to predict pathologic response using logistic regression.~Pathologic response (dichotomized into responders and non-responders) will be used as the reference standard and %change in TOI ratio (dichotomized at -40%) will be used to estimate pCR (+/-)= alpha + beta1(%change TOI)"||23.04|0.95|0.059
92330902|NCT01217385|184566520|EQUIVALENCE|test for the equivalence of %change in TOI ratio (dichotomized at \<=-40%), between PR+ and PR- groups, with interaction|Slope|0.4463|STANDARD_ERROR_OF_MEAN|1.953||0.8193|TWO_SIDED|||||significance at alpha=0.05|Regression, Logistic|p-value represents the interaction between %TOI (dichotomized at \<=-40%), and PR status|Multivariate logistic regression model using % change in TOI ratio (T/N) (baseline to mid-therapy) dichotomized at -40%, PR status, and the corresponding interaction.|The Null is that the odd ratio is the same in both the PR+ and PR- subjects fro the model including %change in TOI form baseline to mid-therapy (dichotomized at \<=-40%), PR status (+/-) and the interaction between them.||||0.8193
92330903|NCT01217385|184566521|OTHER||Odds Ratio (OR)|16.5||||0.043|TWO_SIDED|95.0|1.09|250.15|||Regression, Logistic|||||250.15|1.09|0.043
92330904|NCT01217385|184566521|OTHER||Odds Ratio (OR)|2.86||||0.406|TWO_SIDED|95.0|0.24|33.9|||Regression, Logistic|||||33.90|0.24|0.406
92330905|NCT02117713|184566567|EQUIVALENCE|Student's t-test used to test if mean change is statistically significant; null hypothesis is that the mean change from baseline is equal to zero.|Mean Difference (Net)|-28.59|STANDARD_DEVIATION|89.456||0.1157|TWO_SIDED|95.0|-64.72|7.54|||Student's t-test||Difference is only calculated in participants who had baseline and week 48 values for n= 26|||7.54|-64.72|0.1157
92330906|NCT02117713|184566568|EQUIVALENCE|Student's t-test used to test if mean change is statistically significant; null hypothesis is that the mean change from baseline is equal to zero.|Mean Difference (Net)|-45.15|STANDARD_DEVIATION|89.934||0.1469|TWO_SIDED|95.0|-109.48|19.19|||Student's t-test||||Difference is only calculated in participants who had baseline and week 216 values for n=10|19.19|-109.48|0.1469
92330907|NCT02117713|184566569|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|-2.353|STANDARD_DEVIATION|0.7124||0.005|TWO_SIDED|95.0|-3.101|-1.606|||Student's t-test||Difference is only calculated in participants who had baseline and week 218 values for n=6|||-1.606|-3.101|0.005
92330908|NCT02117713|184566570|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|56.0|STANDARD_DEVIATION|119.32||0.2607|TWO_SIDED|95.0|-54.4|166.4|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||166.4|-54.4|0.2607
92330909|NCT02117713|184566571|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|-141.6|STANDARD_DEVIATION|216.25||0.134|TWO_SIDED|95.0|-341.6|58.4|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||58.4|-341.6|0.1340
92330910|NCT02117713|184566572|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|47.6|STANDARD_DEVIATION|75.68||0.1474|TWO_SIDED|95.0|-22.4|117.6|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||117.6|-22.4|0.1474
92330911|NCT02117713|184566573|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.58||1|TWO_SIDED|95.0|-0.5|0.5|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||0.5|-0.5|1.00
92330912|NCT02117713|184566574|EQUIVALENCE|Student's t-test used to test if mean change is statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|-1.7|STANDARD_DEVIATION|1.38||0.0167|TWO_SIDED|95.0|-3.0|-0.4|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||-0.4|-3|0.0167
92330913|NCT02117713|184566575|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|10.9|STANDARD_DEVIATION|245.92||0.9108|TWO_SIDED|95.0|-216.6|238.3|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||238.3|-216.6|0.9108
92330914|NCT02117713|184566576|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant(null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|0.1207|STANDARD_DEVIATION|1.882||0.1207|TWO_SIDED|95.0|-3.03|0.45|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||0.45|-3.03|0.1207
92330915|NCT02117713|184566577|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|-0.943|STANDARD_DEVIATION|1.2488||0.0927|TWO_SIDED|95.0|-2.098|0.212|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||0.212|-2.098|0.0927
92330916|NCT00672841|184566578|SUPERIORITY_OR_OTHER||Sensitivity|100.0||||||95.0|||||Sensitivity %||Sensitivity \[1\] = (True positives \[n=6\]/ True positives + False negatives \[n=6\])|Clinical sensitivity of the BDG test was calculated for both study groups combined||||
92330917|NCT00672841|184566578|SUPERIORITY_OR_OTHER||Specificity|50.0||||||95.0|||||% Specificity||Specificity \[0.50\]= True negatives \[n=28\]/ True negatives + False positives \[56\])|Clinical specificity of the BDG test was calculated for the study groups combined||||
92330918|NCT00672841|184566580|SUPERIORITY_OR_OTHER||Percent Sensitivity|100.0||||||95.0|||||Sensitivity||Sensitivity = (true positives \[n=6\]/true positives + false negative \[n=6\])|The clinic sensitivity of the BDG test was calculated for both study groups combined||||
92330919|NCT00672841|184566580|SUPERIORITY_OR_OTHER||Percent Specificity|52.0||||||95.0|||||Specificity||Specificity \[0.52\]= (True negatives \[n=30\]/True negatives + false positives \[n=58\])|The clinical specificity of the BDG test was calculated for both study groups combined||||
92330920|NCT02638259|184566582|EQUIVALENCE|A margin of 0.6 can be statistically and clinically justified based on the results Keystone et al, Arthritis and Rheumatism, p353-363, (2004) and on the EULAR response criteria. The sample size of 155 per group with 90% power is based on the common SD of 1.46 and was calculated using nQuery 7.0.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.097|||TWO_SIDED|95.0|-0.26|0.12||||||Therapeutic equivalence in terms of change from baseline in DAS28-CRP at week 24 will be concluded if the 95% confidence interval for the LS mean difference between GP2015 and Enbrel is contained within the interval \[-0.6; 0.6\]. A mixed-model repeated measures analysis was performed for DAS28-CRP change from baseline including treatment, stratification factors, time, the interaction between time (visits) and treatment all as categorical variables, and baseline DAS28-CRP as a continuous variable.||0.12|-0.26|
92330921|NCT03578146|184566623|SUPERIORITY||Least Squares Means (Difference)|-73.14||||0.0121|TWO_SIDED||||||ANCOVA|||||||0.0121
92330922|NCT03578146|184566623|SUPERIORITY||Least Squares Means (Difference)|-153.99|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330923|NCT03578146|184566623|SUPERIORITY||Least Squares Means (Difference)|-189.57|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330924|NCT03578146|184566623|SUPERIORITY||Least Squares Means (Difference)|-239.3|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330925|NCT03578146|184566623|SUPERIORITY||Least Squares Means (Difference)|-231.12|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330926|NCT03578146|184566624|SUPERIORITY||Least Squares Means (Difference)|52837.94|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330927|NCT03578146|184566624|SUPERIORITY||Least Squares Means (Difference)|110388.3|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330928|NCT03578146|184566624|SUPERIORITY||Least Squares Means (Difference)|163880.7|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330929|NCT03578146|184566624|SUPERIORITY||Least Squares Means (Difference)|263236.5|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330930|NCT03578146|184566624|SUPERIORITY||Least Squares Means (Difference)|270297.2|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330931|NCT03578146|184566625|SUPERIORITY||Least Squares Means (Difference)|-9.91||||0.002|TWO_SIDED||||||ANCOVA|||||||0.002
92330932|NCT03578146|184566625|SUPERIORITY||Least Squares Means (Difference)|-15.06|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330933|NCT03578146|184566625|SUPERIORITY||Least Squares Means (Difference)|-17.53|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330934|NCT03578146|184566625|SUPERIORITY||Least Squares Means (Difference)|-17.05|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330935|NCT03578146|184566625|SUPERIORITY||Least Squares Means (Difference)|-19.33|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
92330936|NCT02503254|184566653|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Reduction|82.82|||<|0.001|TWO_SIDED|95.0|78.79|86.09||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at a two-sided alpha level of 5%.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates.|"Geometric LS Mean Reduction = 100 - (CHTP 1.0 : CC ratio)~Expressed as %"|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for CHTP 1.0 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for CHTP 1.0 and CC, respectively."||86.09|78.79|<.001
92330937|NCT02503254|184566654|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Reduction|63.53|||<|0.001|TWO_SIDED|95.0|59.55|67.12||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at a two-sided alpha level of 5%.|ANCOVA|ANCOVA model on 3-HPMA levels with product, sex, cigarette consumption, and baseline value as covariates.|"Geometric LS Mean Reduction = 100 - (CHTP 1.0 : CC ratio)~Expressed as %"|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for CHTP 1.0 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for CHTP 1.0 and CC, respectively"||67.12|59.55|<0.001
92330938|NCT02503254|184566655|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Reduction|88.14|||<|0.001|TWO_SIDED|95.0|86.46|89.62||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at a two-sided alpha level of 5%.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates|"Geometric LS Mean Reduction = 100 - (CHTP 1.0 : CC ratio)~Expressed as %"|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for CHTP 1.0 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for CHTP 1.0 and CC, respectively."||89.62|86.46|<.001
92330939|NCT02503254|184566656|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|58.83|||<|0.001|TWO_SIDED|95.0|49.3|66.56||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on COHb levels with product, sex, cigarette consumption, and baseline value as covariates.|"Geometric LS Mean Reduction = 100 - (CHTP 1.0 : CC ratio)~Expressed as %"|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for CHTP 1.0 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for CHTP 1.0 and CC respectively."||66.56|49.30|<.001
92330940|NCT02952872|184566657|SUPERIORITY||||||<|0.05|||||||ANOVA|Mixed Design ANOVA||||||<.05
92330941|NCT02952872|184566658|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
92330942|NCT02952872|184566659|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
92330943|NCT02952872|184566660|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
92330944|NCT02069093|184566671|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Incidence rate R|||A test of the incidence rate R was performed with null hypothesis H0: R\>= 0.33 and alternative hypothesis Ha: R\<0.33 with a one-sided significance level of 0.05. If the test statistic was negative (actual incidence rate was \<0.33), the one-sided p-value for the null hypothesis R\>=0.33 was presented. The null hypothesis was rejected if the statistic was negative and the corresponding p-value for the one-sided test was \<0.5.||||<0.001
92330945|NCT00474786|184566689|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.87||||0.1933|TWO_SIDED|95.0|0.71|1.07||Stratified for nephrectomy status, duration of response to sunitinib therapy, tumor histology, and Memorial Sloan Kettering Cancer Center (MSKCC) prognostic group.|Log Rank||Hazard ratio less than (\<) 1 means temsirolimus (TEMSR) is at lower risk.|||1.07|0.71|0.1933
92330946|NCT00474786|184566690|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.87||||0.1888|TWO_SIDED|95.0|0.7|1.07||Stratified for nephrectomy status, duration of response to sunitinib therapy, tumor histology, and Memorial Sloan Kettering Cancer Center (MSKCC) prognostic group.|Log Rank||Hazard ratio less than (\<) 1 means temsirolimus (TEMSR) is at lower risk.|||1.07|0.70|0.1888
92330947|NCT00474786|184566692|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.31||||0.0144|TWO_SIDED|95.0|1.05|1.63||Stratified for nephrectomy status, duration of response to sunitinib therapy, tumor histology, and MSKCC prognostic group.|Log Rank||Hazard ratio \<1 means temsirolimus (TEMSR) is at lower risk.|||1.63|1.05|0.0144
92330948|NCT02892513|184566696|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
92330949|NCT02436031|184566722|OTHER|||||||0.049|||||||Wilcoxon Matched-Pairs Signed-Rank Test|||Active Pcrit||||0.049
92330950|NCT02436031|184566722|OTHER|||||||0.135|||||||Wilcoxon Matched-Pairs Signed-Rank Test|||Passive Pcrit||||0.135
92330951|NCT03053427|184566725|SUPERIORITY||LSM difference|-1.2|STANDARD_ERROR_OF_MEAN|0.7||0.088|TWO_SIDED|95.0|-2.6|0.2|||Mixed Model of Repeated Measurements|||MMRM with compound symmetry as the covariance structure was used. The explanatory variables of the model included treatment group, IRLS score at baseline, age category, estimated creatinine clearance category, time point, and interaction of treatment group and time point.||0.2|-2.6|0.088
92330952|NCT03053427|184566726|SUPERIORITY||LSM difference|-1.1|STANDARD_ERROR_OF_MEAN|0.6||0.051|TWO_SIDED|95.0|-2.2|0.0|||ANCOVA|Time frame: week 1||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||0.0|-2.2|0.051
92330953|NCT03053427|184566726|SUPERIORITY||LSM difference|-1.5|STANDARD_ERROR_OF_MEAN|0.7||0.02|TWO_SIDED|95.0|-2.8|-0.2|||ANCOVA|Time frame: week 2||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||-0.2|-2.8|0.020
92330954|NCT03053427|184566726|SUPERIORITY||LSM difference|-1.5|STANDARD_ERROR_OF_MEAN|0.7||0.028|TWO_SIDED|95.0|-2.9|-0.2|||ANCOVA|Time frame: week 4||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||-0.2|-2.9|0.028
92330955|NCT03053427|184566726|SUPERIORITY||LSM difference|-1.5|STANDARD_ERROR_OF_MEAN|0.7||0.043|TWO_SIDED|95.0|-2.9|0.0|||ANCOVA|Time frame: week 6||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||-0.0|-2.9|0.043
92330956|NCT03053427|184566726|SUPERIORITY||LSM difference|-1.0|STANDARD_ERROR_OF_MEAN|0.7||0.184|TWO_SIDED|95.0|-2.4|0.5|||ANCOVA|Time frame: week 8||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||0.5|-2.4|0.184
92330957|NCT03053427|184566726|SUPERIORITY||LSM difference|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.027|TWO_SIDED|95.0|-3.1|-0.2|||ANCOVA|Time frame: week 10||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||-0.2|-3.1|0.027
92330958|NCT03053427|184566726|SUPERIORITY||LSM difference|-1.4|STANDARD_ERROR_OF_MEAN|0.8||0.087|TWO_SIDED|95.0|-3.0|0.2|||ANCOVA|Time frame: week 12||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||0.2|-3.0|0.087
92330959|NCT03053427|184566726|SUPERIORITY||LSM difference|-0.8|STANDARD_ERROR_OF_MEAN|0.8||0.312|TWO_SIDED|95.0|-2.4|0.8|||ANCOVA|Time frame: EoT||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||0.8|-2.4|0.312
92330960|NCT03053427|184566727|SUPERIORITY||difference|4.2||||0.467|TWO_SIDED|95.0|-6.4|14.8|||Fisher Exact|||||14.8|-6.4|0.467
92330961|NCT03053427|184566728|SUPERIORITY||difference|5.8||||0.3|TWO_SIDED|95.0|-4.8|16.5|||Fisher Exact|||||16.5|-4.8|0.300
92330962|NCT03053427|184566729|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.877|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in PSQI component and global scores from baseline was calculated by visit, using the ANCOVA model with the baseline value as a covariate.||0.5|-0.5|0.877
92330963|NCT03053427|184566730|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.975|TWO_SIDED|95.0|-0.7|0.7|||ANCOVA|||LSM difference (gabapentin enacarbil group minus placebo group) of the changes in total score of Athens insomnia scale from baseline was calculated by visit, using the ANCOVA model with the baseline value as a covariate.||0.7|-0.7|0.975
92330964|NCT03053427|184566731|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.838|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|||LSM difference (gabapentin enacarbil group minus placebo group) of the changes in RLS pain score from baseline was calculated by visit, using the ANCOVA model with the baseline value as a covariate.||0.3|-0.4|0.838
92330965|NCT01801241|184566737|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||0.45
92330966|NCT03240406|184566738|SUPERIORITY||Mean Difference (Net)|-0.06||||0.259|TWO_SIDED|95.0|-0.15|0.04||Test of the between arm difference in the global composite at Burst 2, adjusted for the study arm, baseline (Burst 1) global composite, and the randomization stratification factors (baseline sex, age, and years of education)|ANCOVA|ANCOVA of Burst 2 composite adjusted for arm, Burst 1 composite, sex, age, and education. Missing/invalid data were multiply imputed using MICE|Mean Difference of MHD Arm compared to control|||0.04|-0.15|0.259
92330967|NCT03240406|184566739|SUPERIORITY||Mean Difference (Net)|-0.64||||0.001|TWO_SIDED|95.0|-1.02|-0.27||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||-0.27|-1.02|0.001
92330968|NCT03240406|184566740|SUPERIORITY||Mean Difference (Net)|-0.94|||<|0.001|TWO_SIDED|95.0|-1.34|-0.54||Estimated from ANCOVA model adjusted for baseline value, age, sex, and years of education at baseline.|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education.|Mean Difference of MHD Arm vs Comparison Arm|||-0.54|-1.34|<0.001
92330969|NCT03240406|184566741|SUPERIORITY||Mean Difference (Net)|0.24||||0.904|TWO_SIDED|95.0|-3.63|4.11||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||4.11|-3.63|0.904
92330970|NCT03240406|184566742|SUPERIORITY||Mean Difference (Net)|-0.12||||0.721|TWO_SIDED|95.0|-0.76|0.52||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, and education; tocopherol biomarker values additionally adjusted for Burst 1 and Burst 2 levels of HDL, LDL, and triglycerides|ANCOVA|Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education; Burst 1 and Burst 2 levels of HDL, LDL and triglycerides|Mean Difference of MHD Arm vs Comparison Arm|||0.52|-0.76|0.721
92330971|NCT03240406|184566743|SUPERIORITY||Mean Difference (Net)|0.0||||0.769|TWO_SIDED|95.0|-0.01|0.01||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, and education; carotenoid biomarker values additionally adjusted for Burst 1 and Burst 2 levels of HDL, LDL, and triglycerides|ANCOVA|Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education; Burst 1 and Burst 2 levels of HDL, LDL and triglycerides|Mean Difference of MHD Arm vs Comparison Arm|||0.01|-0.01|0.769
92330972|NCT03240406|184566744|SUPERIORITY||Mean Difference (Net)|-1.37||||0.978|TWO_SIDED|95.0|-100.13|97.4||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||97.4|-100.13|0.978
92330973|NCT03240406|184566745|SUPERIORITY||Mean Difference (Net)|0.15||||0.395|TWO_SIDED|95.0|-0.2|0.51||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|Statistical Analysis results for Monounsaturated Fat||0.51|-0.2|0.395
92330974|NCT03240406|184566745|SUPERIORITY||Mean Difference (Net)|-0.11||||0.019|TWO_SIDED|95.0|-0.21|-0.02||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|Statistical Analysis results for Long Chain Saturated Fat||-0.02|-0.21|0.019
92330975|NCT03240406|184566745|SUPERIORITY||Mean Difference (Net)|0.12||||0.201|TWO_SIDED|95.0|-0.07|0.31||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|Statistical Analysis results for EPA||0.31|-0.07|0.201
92330976|NCT03240406|184566745|SUPERIORITY||Mean Difference (Net)|0.27||||0.039|TWO_SIDED|95.0|0.01|0.53||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|Statistical Analysis results for DHA||0.53|0.01|0.039
92330977|NCT03240406|184566745|SUPERIORITY||Mean Difference (Net)|-0.01||||0.619|TWO_SIDED|95.0|-0.06|0.03||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean difference of MHD Arm vs Comparison Arm|Statistical Analysis results for n3 DPA||0.03|-0.06|0.619
92330978|NCT03240406|184566746|SUPERIORITY||Mean Difference (Net)|0.18||||0.521|TWO_SIDED|95.0|-0.37|0.73||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.73|-0.37|0.521
92330979|NCT03240406|184566747|SUPERIORITY||Mean Difference (Net)|145.0||||0.101|TWO_SIDED|95.0|-27.7|317.6||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||317.6|-27.7|0.101
92330980|NCT03240406|184566748|SUPERIORITY||Mean Difference (Net)|-24.63||||0.645|TWO_SIDED|95.0|-129.16|79.89||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||79.89|-129.16|0.645
92330981|NCT03240406|184566749|SUPERIORITY||Mean Difference (Net)|3.26||||0.245|TWO_SIDED|95.0|-2.23|8.75||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||8.75|-2.23|0.245
92330982|NCT03240406|184566750|SUPERIORITY||Mean Difference (Net)|0.21||||0.032|TWO_SIDED|95.0|0.02|0.4||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.4|0.02|0.032
92330983|NCT03240406|184566751|SUPERIORITY||Mean Difference (Net)|0.17|||<|0.001|TWO_SIDED|95.0|0.08|0.26||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.26|0.08|<0.001
92330984|NCT03240406|184566752|SUPERIORITY||Mean Difference (Net)|-1.36||||0.635|TWO_SIDED|95.0|-6.95|4.24||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||4.24|-6.95|0.635
92330985|NCT03240406|184566753|SUPERIORITY||Mean Difference (Net)|-3.52||||0.019|TWO_SIDED|95.0|-6.44|0.59||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.59|-6.44|0.019
92330986|NCT03240406|184566754|SUPERIORITY||Mean Difference (Net)|-3.13||||0.639|TWO_SIDED|95.0|-16.18|9.92||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||9.92|-16.18|0.639
92330987|NCT03240406|184566755|SUPERIORITY||Mean Difference (Net)|41.71|||<|0.001|TWO_SIDED|95.0|21.47|61.96||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||61.96|21.47|<0.001
92330988|NCT03240406|184566756|SUPERIORITY||Mean Difference (Net)|-15.37||||0.115|TWO_SIDED|95.0|-34.44|3.69||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||3.69|-34.44|0.115
92330989|NCT03240406|184566757|SUPERIORITY||Mean Difference (Net)|0.06||||0.847|TWO_SIDED|95.0|-0.53|0.64||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.64|-0.53|0.847
92330990|NCT03240406|184566758|SUPERIORITY||Mean Difference (Net)|118.57||||0.191|TWO_SIDED|95.0|-58.62|295.76||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||295.76|-58.62|0.191
92330991|NCT03240406|184566759|SUPERIORITY||Mean Difference (Net)|955.19||||0.019|TWO_SIDED|95.0|164.63|1745.74||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||1745.74|164.63|0.019
92330992|NCT03240406|184566760|SUPERIORITY||Mean Difference (Net)|-15.74||||0.493|TWO_SIDED|95.0|-60.66|29.19||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||29.19|-60.66|0.493
92330993|NCT03240406|184566761|SUPERIORITY||Mean Difference (Net)|14.83||||0.18|TWO_SIDED|95.0|-6.78|36.45||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||36.45|-6.78|0.18
92330994|NCT03240406|184566762|SUPERIORITY||Mean Difference (Net)|436.14||||0.379|TWO_SIDED|95.0|-534.05|1406.33||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||1406.33|-534.05|0.379
92330995|NCT03240406|184566763|SUPERIORITY||Mean Difference (Net)|784.06||||0.083|TWO_SIDED|95.0|-99.73|1667.85||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||1667.85|-99.73|0.083
92330996|NCT03240406|184566764|SUPERIORITY||Mean Difference (Net)|1.33||||0.011|TWO_SIDED|95.0|0.32|2.35||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||2.35|0.32|0.011
92330997|NCT03240406|184566765|SUPERIORITY||Mean Difference (Net)|0.07||||0.541|TWO_SIDED|95.0|-0.16|0.31||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.31|-0.16|0.541
92330998|NCT03240406|184566766|SUPERIORITY||Mean Difference (Net)|0.01||||0.273|TWO_SIDED|95.0|-0.01|0.03||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.03|-0.01|0.273
92330999|NCT03240406|184566767|SUPERIORITY||Mean Difference (Net)|0.03||||0.116|TWO_SIDED|95.0|-0.01|0.06||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.06|-0.01|0.116
92331000|NCT03240406|184566768|SUPERIORITY||Mean Difference (Net)|0.0||||0.213|TWO_SIDED|95.0|0.0|0.01||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.01|0|0.213
92331001|NCT03240406|184566769|SUPERIORITY||Mean Difference (Net)|0.05||||0.036|TWO_SIDED|95.0|0.0|0.09||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.09|0|0.036
92331002|NCT03240406|184566770|SUPERIORITY||Mean Difference (Net)|0.17||||0.223|TWO_SIDED|95.0|-0.1|0.43||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.43|-0.1|0.223
92331003|NCT03240406|184566771|SUPERIORITY||Mean Difference (Net)|-0.17||||0.119|TWO_SIDED|95.0|-0.38|0.04||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.04|-0.38|0.119
92331004|NCT03240406|184566772|SUPERIORITY||Mean Difference (Net)|-0.04||||0.841|TWO_SIDED|95.0|-0.41|0.33||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.33|-0.41|0.841
92331005|NCT03240406|184566773|SUPERIORITY||Mean Difference (Net)|0.25||||0.088|TWO_SIDED|95.0|-0.04|0.53||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.53|-0.04|0.088
92331006|NCT03240406|184566774|SUPERIORITY||Mean Difference (Net)|-0.01||||0.893|TWO_SIDED|95.0|-0.13|0.11||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.11|-0.13|0.893
92331007|NCT03240406|184566775|SUPERIORITY||Mean Difference (Net)|-1.43||||0.042|TWO_SIDED|95.0|-2.81|-0.06||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||-0.06|-2.81|0.042
92331008|NCT03240406|184566776|SUPERIORITY||Slope|-16.0||||0.031|TWO_SIDED|95.0|-31.0|-1.5||Linear mixed-effects model adjusted for adjusted for arm, year, weekday, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), and time of day (cubic spline)|Mixed Models Analysis|Adjusted for arm, year, weekday, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), and time of day (cubic spline)|Difference in the slopes of processing speed over years between MHD Arm and Comparison Arm.|||-1.5|-31|0.031
92331009|NCT03240406|184566777|SUPERIORITY||Slope|0.12||||0.55|TWO_SIDED|95.0|-0.27|0.51||Linear mixed-effects model adjusted for arm, year, weekday, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), and time of day (cubic spline)|Mixed Models Analysis|Adjusted for arm, year, weekday, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), and time of day (cubic spline)|Difference in the slopes of error distance over years between MHD Arm vs Comparison Arm|||0.51|-0.27|0.55
92331010|NCT03240406|184566778|SUPERIORITY||Slope|-0.018||||0.846|TWO_SIDED|95.0|-0.09|0.054||Generalized Estimating equation Poisson model adjusted for arm, year, weekday vs weekend, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), time of day (cubic spline)|Generalized Estimating Equation|Adjusted for arm, year, wkday/wknd, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), time of day (cubic spline)|Difference in the slopes of log-transformed error rates over years between the MHD Arm and the Comparison Arm.|||0.054|-0.090|0.846
92331011|NCT02607306|184566779|NON_INFERIORITY|Non-inferiority of IDegLira vs. IDeg was confirmed if the 95% confidence interval for the mean treatment difference lies entirely below 0.3%.|Treatment contrast|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.52||p-value for non-inferiority of IDegLira vs IDeg is presented|ANCOVA|||The change from baseline in response after 52 weeks are analysed using an ANCOVA model with treatment and pre-trial OAD as fixed factors and baseline HbA1c value as covariate.||-0.52|-0.75|<0.0001
92331012|NCT02607306|184566779|SUPERIORITY|Superiority of IDegLira vs. Lira was confirmed if the 95% confidence interval for the mean treatment difference for change from baseline in HbA1c lies entirely below 0.0%.|Treatment contrast|-0.48|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.37||p-value for superiority of IDegLira vs Lira is presented|ANCOVA|||The change from baseline in response after 52 weeks are analysed using an ANCOVA model with treatment and pre-trial OAD as fixed factors and baseline HbA1c value as covariate.||-0.37|-0.60|<0.0001
92331013|NCT02607306|184566780|SUPERIORITY|A hierarchical testing procedure is used to control the overall type I error on a two sided 5% level. If and only if non-inferiority of IDegLira vs. IDeg and superiority of IDegLira vs. Lira are confirmed in the primary analysis (change in HbA1c), the three secondary confirmatory tests are performed for superiority of IDegLira versus IDeg with a fixed sequence (1. change in body weight, 2. number of treatment emergent severe or BG confirmed hypoglycaemic episodes and 3. change in HbA1c).|Treatment contrast|-1.19||||0.0001|TWO_SIDED|95.0|-1.8|-0.59||p-value for superiority of IDegLira vs IDeg is presented|ANCOVA|||The change from baseline in response after 52 weeks were analysed using an ANCOVA method with treatment and pre-trial OAD treatment as fixed factors and baseline body weight as covariate.||-0.59|-1.80|0.0001
92331014|NCT02607306|184566781|SUPERIORITY|A hierarchical testing procedure is used to control the overall type I error on a two sided 5% level. If and only if non-inferiority of IDegLira vs. IDeg and superiority of IDegLira vs. Lira are confirmed in the primary analysis (change in HbA1c), the three secondary confirmatory tests are performed for superiority of IDegLira versus IDeg with a fixed sequence (1. change in body weight, 2. number of treatment emergent severe or BG confirmed hypoglycaemic episodes and 3. change in HbA1c).|Treatment contrast|0.48|||<|0.0001|TWO_SIDED|95.0|0.35|0.68||p-value for superiority of IDegLira vs IDeg is presented|Negative binomial regression|||The number of events is analysed using a negative binomial regression model (log link) with the logarithm of the treatment emergent exposure time (100 years) as offset. The model includes treatment and pre-trial OAD treatment as fixed factors.||0.68|0.35|<0.0001
92331015|NCT02607306|184566782|SUPERIORITY|A hierarchical testing procedure is used to control the overall type I error on a two sided 5% level. If and only if non-inferiority of IDegLira vs. IDeg and superiority of IDegLira vs. Lira are confirmed in the primary analysis (change in HbA1c), the three secondary confirmatory tests are performed for superiority of IDegLira versus IDeg with a fixed sequence (1. change in body weight, 2. number of treatment emergent severe or BG confirmed hypoglycaemic episodes and 3. change in HbA1c).|Treatment contrast|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.52||p-value for superiority of IDegLira vs IDeg is presented|ANCOVA|||The change from baseline in response after 52 weeks are analysed using an ANCOVA model with treatment, pre-trial OAD as fixed factors and corresponding baseline HbA1c value as covariate.||-0.52|-0.75|<0.0001
92331016|NCT01160380|184566845|SUPERIORITY_OR_OTHER|||||||0.289|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment||||0.289
92331017|NCT01160380|184566845|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between Day 1 and Day 28||||<0.001
92331018|NCT01160380|184566845|SUPERIORITY_OR_OTHER||||||<|0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between Day 1 and day 28||||<0.002
92331019|NCT01160380|184566845|SUPERIORITY_OR_OTHER|||||||0.449|TWO_SIDED||||||t-test, 2 sided|||Comparison between Day 28 and Day 56 of treatment for the armodafinil arm||||0.449
92331020|NCT01160380|184566846|SUPERIORITY_OR_OTHER|||||||0.954|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment||||0.954
92331021|NCT01160380|184566846|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Placebo-First arm||||0.007
92331022|NCT01160380|184566846|SUPERIORITY_OR_OTHER|||||||0.369|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Armodafinil arm||||0.369
92331023|NCT01160380|184566846|SUPERIORITY_OR_OTHER|||||||0.973|TWO_SIDED||||||t-test, 2 sided|||Comparison between Day 28 and Day 56 of treatment for the Armodafinil arm||||0.973
92331024|NCT01160380|184566847|SUPERIORITY_OR_OTHER|||||||0.699|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms at day 28||||0.699
92331025|NCT01160380|184566847|SUPERIORITY_OR_OTHER|||||||0.984|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm||||0.984
92331026|NCT01160380|184566847|SUPERIORITY_OR_OTHER|||||||0.239|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Armodafinil arm||||0.239
92331027|NCT01160380|184566847|SUPERIORITY_OR_OTHER|||||||0.089|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. Day 56 of treatment for the Armodafinil arm||||0.089
92331028|NCT01160380|184566848|SUPERIORITY_OR_OTHER|||||||0.636|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment for the Digit Span Test score-Forward test||||0.636
92331029|NCT01160380|184566848|SUPERIORITY_OR_OTHER|||||||0.531|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment for the Digit Span Test score-Backward test||||0.531
92331030|NCT01160380|184566848|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-Digit Span Test score Forward test||||0.037
92331031|NCT01160380|184566848|SUPERIORITY_OR_OTHER|||||||0.656|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-Digit Span Test score Backward test||||0.656
92331032|NCT01160380|184566848|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. day 28 of treatment for the Armodafinil arm-Digit Span Test score-Forward test||||0.028
92331033|NCT01160380|184566848|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. day 28 of treatment for the Armodafinil arm-Digit Span Test score-Backward test||||0.805
92331034|NCT01160380|184566848|SUPERIORITY_OR_OTHER|||||||0.692|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. day 56 of treatment for the Armodafinil arm-Digit Span Test score-Forward test||||0.692
92331035|NCT01160380|184566848|SUPERIORITY_OR_OTHER|||||||0.863|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. day 56 of treatment for the Armodafinil arm-Digit Span Test score-Backward test||||0.863
92331036|NCT01160380|184566849|SUPERIORITY_OR_OTHER|||||||0.559|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for Day 28 of treatment- FACIT-F total||||0.559
92331037|NCT01160380|184566849|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm- FACIT-F total||||<0.001
92331038|NCT01160380|184566849|SUPERIORITY_OR_OTHER|||||||0.192|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Armodafinil arm- FACIT-F total||||0.192
92331039|NCT01160380|184566849|SUPERIORITY_OR_OTHER|||||||0.495|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. Day 56of treatment for the Armodafinil arm- FACIT-F total||||0.495
92331040|NCT01160380|184566850|SUPERIORITY_OR_OTHER|||||||0.945|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment- HADS anxiety||||0.945
92331041|NCT01160380|184566850|SUPERIORITY_OR_OTHER|||||||0.316|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment- HADS depression||||0.316
92331042|NCT01160380|184566850|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-HADS anxiety||||0.005
92331043|NCT01160380|184566850|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-HADS depression||||0.005
92331044|NCT01160380|184566850|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Armodafinil arm-HADS anxiety||||0.001
92331045|NCT01160380|184566850|SUPERIORITY_OR_OTHER|||||||0.315|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-HADS depression||||0.315
92331046|NCT01160380|184566850|SUPERIORITY_OR_OTHER|||||||0.933|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 28 vs. Day 56 of treatment for the Armodafinil arm-HADS anxiety||||0.933
92331047|NCT01160380|184566850|SUPERIORITY_OR_OTHER|||||||0.378|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. Day 56 of treatment for the Armodafinil arm-HADS depression||||0.378
92331048|NCT01160380|184566851|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for Day 28 of treatment -ESS||||0.840
92331049|NCT01160380|184566851|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-ESS||||0.050
92331050|NCT01160380|184566851|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 and Day 28 of treatment for the Armodafinil arm- ESS||||0.051
92331051|NCT01160380|184566851|SUPERIORITY_OR_OTHER|||||||0.635|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. Day 56 of treatment for the Armodafinil arm||||0.635
92331052|NCT01153009|184566875|SUPERIORITY_OR_OTHER||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|1.21||0.224|TWO_SIDED|95.0|-3.86|0.91||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops for this dose and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||All statistical tests were 2-sided with the estimated P-values at the 5% level of significance. To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 15 mg and 20 mg vortioxetine to placebo. Efficacy endpoints were tested for each dose in a sequential order at significance level 0.025; as soon as an endpoint was non-significant at 0.025, the testing procedure stopped for all subsequent endpoints.||0.91|-3.86|0.224
92331053|NCT01153009|184566875|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|1.21||0.023|TWO_SIDED|95.0|-5.12|-0.38||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.025, hierarchical testing continues for this dose.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||-0.38|-5.12|0.023
92331054|NCT01153009|184566875|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|-6.46|-1.69|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||-1.69|-6.46|<0.001
92331055|NCT01153009|184566876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.249||||0.348|TWO_SIDED|95.0|0.786|1.984|||Regression, Logistic|P-value is from logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.984|0.786|0.348
92331056|NCT01153009|184566876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.257||||0.332|TWO_SIDED|95.0|0.792|1.994||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops for this dose and for subsequent endpoints in the sequence a nominal p-value is provided.|Regression, Logistic|P-value is from logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.994|0.792|0.332
92331057|NCT01153009|184566876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.991||||0.004|TWO_SIDED|95.0|1.25|3.171|||Regression, Logistic|P-value is from logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.171|1.250|0.004
92331058|NCT01153009|184566877|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.14||0.4|TWO_SIDED|95.0|-0.39|0.16|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||0.16|-0.39|0.400
92331059|NCT01153009|184566877|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.139||0.177|TWO_SIDED|95.0|-0.46|0.08|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||0.08|-0.46|0.177
92331060|NCT01153009|184566877|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.139||0.014|TWO_SIDED|95.0|-0.61|-0.07|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||-0.07|-0.61|0.014
92331061|NCT01153009|184566878|SUPERIORITY_OR_OTHER||LS Mean Difference|0.93|STANDARD_ERROR_OF_MEAN|2.286||0.684|TWO_SIDED|95.0|-3.58|5.45|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||5.45|-3.58|0.684
92331062|NCT01153009|184566878|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|2.419||0.797|TWO_SIDED|95.0|-5.4|4.15|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||4.15|-5.40|0.797
92331063|NCT01153009|184566878|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.05|STANDARD_ERROR_OF_MEAN|2.278||0.078|TWO_SIDED|95.0|-8.54|0.45|||Mixed model for repeated mesurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||0.45|-8.54|0.078
92331064|NCT01153009|184566879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.053||||0.845|TWO_SIDED|95.0|0.625|1.775|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.775|0.625|0.845
92331065|NCT01153009|184566879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.192||||0.503|TWO_SIDED|95.0|0.713|1.994|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.994|0.713|0.503
92331066|NCT01153009|184566879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.098||||0.728|TWO_SIDED|95.0|0.648|1.86|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.860|0.648|0.728
92331067|NCT01153009|184566880|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|1.111||0.962|TWO_SIDED|95.0|-2.24|2.13|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||2.13|-2.24|0.962
92331068|NCT01153009|184566880|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|1.103||0.427|TWO_SIDED|95.0|-3.05|1.29|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||1.29|-3.05|0.427
92331069|NCT01153009|184566880|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|1.123||0.078|TWO_SIDED|95.0|-4.19|0.22|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||0.22|-4.19|0.078
92331070|NCT03041467|184566907|SUPERIORITY||||||<|0.001|||||||One-sided Z-test|||||||<0.001
92331071|NCT03041467|184566908|NON_INFERIORITY|Non-inferiority p-values for the primary safety endpoint was based on the Farrington-Manning non-inferiority test with a margin of 7.5%.||||||0.002|||||||Farrington-Manning Test|||||||0.002
92331072|NCT03041467|184566909|SUPERIORITY||||||<|0.001||||||There is no planned hypothesis test other than at 6 months time point. P-value listed is at 6 months.|Log Rank|||Kaplan-Meier method was used to estimate access circuit primary patency.||||<0.001
92331073|NCT03041467|184566910|OTHER|There is no planned hypothesis test other than at 6 months time point. P-value listed is at 6 months.|||||<|0.001||||||There is no planned hypothesis test other than at 6 months time point. P-value listed is at 6 months. Survival analysis was performed using Kaplan-Meier method.|Log Rank|||Kaplan-Meier method was used to estimate target lesion primary patency.|Survival analysis was performed using Kaplan-Meier method.|||<0.001
92331074|NCT03041467|184566911|SUPERIORITY||||||<|0.001||||||There is no planned hypothesis test other than at 6 months time point. P-value listed is at 6 months.|Chi-squared|||||||<0.001
92331075|NCT03041467|184566915|SUPERIORITY||||||>|0.999|||||||Chi-squared|||||||>0.999
92331076|NCT03041467|184566916|SUPERIORITY|||||||0.482|||||||Chi-squared|||||||0.482
92331077|NCT03041467|184566917|SUPERIORITY||||||>|0.999|||||||Chi-squared|||||||>0.999
92331078|NCT02330172|184566930|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92331079|NCT02330172|184566931|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
92331080|NCT00135356|184566977|SUPERIORITY_OR_OTHER||Difference in Means|0.03||||0.48||95.0|-0.06|0.12||P-value not adjusted for multiple testing, 2-sided 95% CI|t-test, 2 sided|||LOCF||0.12|-0.06|0.48
92331081|NCT00135356|184566977|SUPERIORITY_OR_OTHER||Difference in Means|0.07||||0.57||95.0|-0.07|12.0||P-value not adjusted for multiple testing. 2-sided 95% CI|t-test, 2 sided|||OC||12.0|-0.07|0.57
92331082|NCT00135356|184566978|SUPERIORITY_OR_OTHER||Difference in Means|0.02||||0.73||95.0|-0.1|0.14||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||LOCF||0.14|-0.10|0.73
92331083|NCT00135356|184566978|SUPERIORITY_OR_OTHER||Difference in Means|-0.01||||0.91||95.0|-0.14|0.13||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||OC||0.13|-0.14|0.91
92331084|NCT00135356|184566979|SUPERIORITY_OR_OTHER||Difference in Mean|5.2||||0.27||95.0|-3.9|15.1||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 48 VAT LOCF||15.1|-3.9|0.27
92331085|NCT00135356|184566979|SUPERIORITY_OR_OTHER||Difference in Mean|1.8||||0.68||95.0|-6.7|11.2||P-value not adjusted for multiple testing, 2-sided 95% CI|t-test, 2 sided|||VAT, Week 96 LOCF||11.2|-6.7|0.68
92331086|NCT00135356|184566979|SUPERIORITY_OR_OTHER||Difference in Means|4.4||||0.14||95.0|-1.4|10.6||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 48 Trunk Fat LOCF||10.6|-1.4|0.14
92331087|NCT00135356|184566979|SUPERIORITY_OR_OTHER||Difference in Means|5.3||||0.14||95.0|-1.7|12.9||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 96 Trunk Fat LOCF||12.9|-1.7|0.14
92331088|NCT00135356|184566980|SUPERIORITY_OR_OTHER||Difference in Means|4.0||||0.16||95.0|-1.6|10.0||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||SAT, Week 48, LOCF||10.0|-1.6|0.16
92331089|NCT00135356|184566980|SUPERIORITY_OR_OTHER||Difference in Mean|6.8||||0.06||95.0|-0.2|14.2||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 96 SAT||14.2|-0.2|0.06
92331090|NCT00135356|184566980|SUPERIORITY_OR_OTHER||Difference in Means|4.6||||0.15||95.0|-1.7|11.4||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 48, Limb Fat||11.4|-1.7|0.15
92331091|NCT00135356|184566980|SUPERIORITY_OR_OTHER||Difference in Means|5.7||||0.17||95.0|-2.3|14.4||P-value not adjusted for multiple testing, 2-sided 95% CI|t-test, 2 sided|||Week 96, Limb Fat||14.4|-2.3|0.17
92331092|NCT00135356|184566981|SUPERIORITY_OR_OTHER||DIfference in Means|3.6||||0.19||95.0|-1.8|9.4||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 48 TAT||9.4|-1.8|0.19
92331093|NCT00135356|184566981|SUPERIORITY_OR_OTHER||DIfference in Means|4.3||||0.16||95.0|-1.7|10.7||P-value not adjusted for multiple testing, 2-sided 95% CI.|Wilcoxon (Mann-Whitney)|||Week 96 TAT||10.7|-1.7|0.16
92331094|NCT00135356|184566981|SUPERIORITY_OR_OTHER||Difference in Means|5.0||||0.0385||95.0|0.3|9.7||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 48 Total Body Fat||9.7|0.3|0.0385
92331095|NCT00135356|184566981|SUPERIORITY_OR_OTHER||Difference in Means|5.9||||0.1||95.0|-1.0|13.2||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 96 Total Body Fat||13.2|-1.0|0.10
92331096|NCT00135356|184566993|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.3|3.72||||||||3.72|0.3|
92331097|NCT01306214|184567003|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|97.5|-0.61|-0.27||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 18 was the first step in each hierarchical sequence.|ANCOVA|ANCOVA Model includes baseline HbA1c as a covariate and baseline eGFR, geographic region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of Empagliflozin 10 mg - Adjusted mean of placebo.|"For the primary endpoint, the testing of the superiority hypothesis versus placebo was:~Hypothesis test:~H0: No difference in change from baseline to Week 18 in HbA1c (%) between Empagliflozin 10 mg and placebo Ha: A difference in change from baseline to Week 18 in HbA1c (%) between Empagliflozin 10 mg and placebo"||-0.27|-0.61|<0.0001
92331098|NCT01306214|184567003|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.69|-0.35||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 18 was the first step in each hierarchical sequence.|ANCOVA|ANCOVA Model includes baseline HbA1c as a covariate and baseline eGFR, geographic region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of Empagliflozin 25 mg - Adjusted mean of placebo|"For the primary endpoint, the testing of the superiority hypothesis versus placebo was:~H0: No difference in change from baseline to Week 18 in HbA1c (%) between Empagliflozin 25 mg and placebo Ha: A difference in change from baseline to Week 18 in HbA1c (%) between Empagliflozin 25 mg and placebo"||-0.35|-0.69|<0.0001
92331099|NCT01306214|184567004|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.83|STANDARD_ERROR_OF_MEAN|3.05||0.004|TWO_SIDED|97.5|-15.69|-1.97||Hierarchical testing adjusted for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in insulin dose at week 52 was the second step in hierarchical sequence.|ANCOVA|Model - Covariates: baseline insulin daily dose,baseline HbA1c Fixed effects: baseline eGFR, region, baseline background medication, treatment|Estimated value = Adjusted mean of empagliflozin 10 mg - Adjusted mean of placebo|"Hypothesis test:~H0: No difference in change from baseline to Week 52 in insulin dose (IU/day) between Empagliflozin 10 mg and placebo Ha: A difference in change from baseline to Week 52 in insulin dose (IU/day) between Empagliflozin 10 mg and placebo"||-1.97|-15.69|0.004
92331100|NCT01306214|184567004|SUPERIORITY_OR_OTHER||Adjusted mean difference|-11.22|STANDARD_ERROR_OF_MEAN|3.05||0.0003|TWO_SIDED|97.5|-18.09|-4.36||Hierarchical testing adjusted for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in insulin dose at week 52 was the second step in hierarchical sequence.|ANCOVA|Model - Covariates: baseline insulin daily dose,baseline HbA1c Fixed effects: baseline eGFR, region, baseline background medication, treatment|Estimated value = Adjusted mean of Empagliflozin 25 mg - Adjusted mean of placebo.|"Hypothesis test:~H0: No difference in change from baseline to Week 52 in insulin dose (IU/day) between Empagliflozin 25 mg and placebo Ha : A difference in change from baseline to Week 52 in insulin dose (IU/day) between Empagliflozin 25 mg and placebo"||-4.36|-18.09|0.0003
92331101|NCT01306214|184567005|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.39|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|97.5|-3.54|-1.24||Hierarchical testing adjusted for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in body weight at week 52 was the third step in hierarchical sequence.|ANCOVA|Model includes baseline weight, baseline HbA1c as covariates and baseline eGFR, region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 10 mg - Adjusted mean of placebo|"Hypothesis test:~H0: No difference in change from baseline to Week 52 in body weight (kg) between Empagliflozin 10 mg and placebo Ha : A difference in change from baseline to Week 52 in body weight (kg) between Empagliflozin 10 mg and placebo"||-1.24|-3.54|<0.0001
92331102|NCT01306214|184567005|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.48|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|97.5|-3.63|-1.33||Hierarchical testing adjusted for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in body weight at week 52 was the third step in hierarchical sequence.|ANCOVA|Model includes baseline weight, baseline HbA1c as covariates and baseline eGFR, region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 25 mg - Adjusted mean of placebo|hypothesis test: H0: No difference in change from baseline to Week 52 in body weight (kg) between Empagliflozin 25 mg and placebo Ha: A difference in change from baseline to Week 52 in body weight (kg) between Empagliflozin 25 mg and placebo||-1.33|-3.63|<0.0001
92331103|NCT01306214|184567006|NON_INFERIORITY_OR_EQUIVALENCE|The non- inferiority margin was 0.3%, one-sided.|Adjusted mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|97.5|-0.62|-0.13||Hierarchical testing adjusted for multiple comparisons within each dose, alpha split between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 52 was the 4th step (non-inferiority) and 5th step (superiority).|ANCOVA|Model includes baseline HbA1c as covariate and baseline eGFR, geographical region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 10 mg - Adjusted mean of placebo|H0: Difference in change from baseline to Week 52 in HbA1c (%) between empagliflozin 10 mg and placebo \>0.3 Ha: Difference in change from baseline to Week 52 in HbA1c (%) between empagliflozin 10 mg and placebo ≤0.3||-0.13|-0.62|<0.0001
92331104|NCT01306214|184567006|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.11||0.0005|TWO_SIDED|97.5|-0.62|-0.13||Hierarchical testing adjusted for multiple comparisons within each dose, alpha split between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 52 was the 4th step (non-inferiority) and 5th step (superiority).|ANCOVA|Model includes baseline HbA1c as covariate and baseline eGFR, geographical region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 10 mg - Adjusted mean of placebo|"Hypothesis test:~H0: No difference in change from baseline to Week 52 in HbA1c (%) between Empagliflozin 10 mg and placebo Ha : A difference in change from baseline to Week 52 in HbA1c (%) between Empagliflozin 10 mg and placebo"||-0.13|-0.62|0.0005
92331105|NCT01306214|184567006|NON_INFERIORITY_OR_EQUIVALENCE|The non- inferiority margin was 0.3%, one-sided.|Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|97.5|-0.7|-0.22||Hierarchical testing adjusted for multiple comparisons within each dose, alpha split between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 52 was the 4th step (non-inferiority) and 5th step (superiority).|ANCOVA|Model includes baseline HbA1c as covariate and baseline eGFR, geographical region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 25 mg - Adjusted mean of placebo|H013: Difference in change from baseline to Week 52 in HbA1c (%) between empagliflozin 25 mg and placebo \>0.3 Ha13: Difference in change from baseline to Week 52 in HbA1c (%) between empagliflozin 25 mg and placebo ≤0.3||-0.22|-0.70|<0.0001
92331106|NCT01306214|184567006|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|97.5|-0.7|-0.22||Hierarchical testing adjusted for multiple comparisons within each dose, alpha split between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 52 was the 4th step (non-inferiority) and 5th step (superiority).|ANCOVA|Model includes baseline HbA1c as covariate and baseline eGFR, geographical region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 25 mg - Adjusted mean of placebo|"Hypothesis test:~H0: No difference in change from baseline to Week 52 in HbA1c (%) between Empagliflozin 25 mg and placebo Ha : A difference in change from baseline to Week 52 in HbA1c (%) between Empagliflozin 25 mg and placebo"||-0.22|-0.70|<0.0001
92331107|NCT02686814|184567022|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|-0.9||||0.7646|TWO_SIDED||||||Wilcoxon signed-rank test|||3-6 Month compared to Baseline||||0.7646
92331108|NCT02686814|184567022|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|3.9||||0.8984|TWO_SIDED||||||Wilcoxon signed-rank test|||1 Year compared to Baseline||||0.8984
92331109|NCT02686814|184567022|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|0.0||||0.8457|TWO_SIDED||||||Wilcoxon signed-rank test|||2 Year compared to Baseline||||0.8457
92331110|NCT02686814|184567022|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|-7.7||||0.1309|TWO_SIDED||||||Wilcoxon signed-rank test|||3 Year compared to Baseline||||0.1309
92331111|NCT02686814|184567022|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|-15.2||||0.5|TWO_SIDED||||||Wilcoxon signed-rank test|||4 Year compared to Baseline||||0.5000
92331112|NCT02686814|184567023|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|1.5||||0.2783|TWO_SIDED||||||Wilcoxon signed-rank test|||3-6 Month compared to Baseline||||0.2783
92331113|NCT02686814|184567023|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|6.4||||0.0674|TWO_SIDED||||||Wilcoxon signed-rank test|||1 Year compared to Baseline||||0.0674
92331114|NCT02686814|184567023|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|6.4||||0.0371|TWO_SIDED||||||Wilcoxon signed-rank test|||2 Year compared to Baseline||||0.0371
92331115|NCT02686814|184567023|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|0.8||||0.6953|TWO_SIDED||||||Wilcoxon signed-rank test|||3 Year compared to Baseline||||0.6953
92331116|NCT02686814|184567023|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|1.0|||>|0.9999|TWO_SIDED||||||Wilcoxon signed-rank test|||4 Year compared to Baseline||||>0.9999
92331117|NCT03743402|184567126|EQUIVALENCE|The null hypothesis was a point null of exactly 0 expected difference in MME/day between arms.|Mean Difference (Final Values)|-2.54||||0.58|TWO_SIDED|95.0|-10.55|5.88|||Regression, Linear||mean difference=(pain self-management)-(usual care)|A priori power calculations indicated 90% power to detect an average 24 MME/day difference between arms.||5.88|-10.55|0.58
92331118|NCT03743402|184567127|EQUIVALENCE|The null hypothesis was a point null of exactly 0 expected difference in PEG score between arms.|Mean Difference (Final Values)|0.01||||0.98|TWO_SIDED|95.0|-0.51|0.52|||Regression, Linear||mean difference = (pain self-management)-(usual care)|A priori power calculations indicated 90% power to detect a 1.2-point average difference in PEG score between arms.||0.52|-0.51|0.98
92331119|NCT03743402|184567128|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in average MME/day between arms.|Mean Difference (Final Values)|1.3||||0.72|TWO_SIDED|95.0|-5.69|8.29|||Regression, Linear||mean difference=(pain self-management)-(usual care)|||8.29|-5.69|0.72
92331120|NCT03743402|184567129|EQUIVALENCE|The null hypothesis is a point null of exactly 0 difference in expected PEG score between arms.|Mean Difference (Final Values)|-0.53||||0.07|TWO_SIDED|95.0|-1.11|0.05|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.05|-1.11|0.07
92331121|NCT03743402|184567130|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PSEQ score between arms.|Mean Difference (Final Values)|2.11||||0.8|TWO_SIDED|95.0|-13.83|18.04|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||18.04|-13.83|0.80
92331122|NCT03743402|184567131|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PSEQ score between arms.|Mean Difference (Final Values)|4.33||||0.02|TWO_SIDED|95.0|0.56|8.09|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||8.09|0.56|0.02
92331123|NCT03743402|184567132|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PHQ-8 score between arms.|Mean Difference (Final Values)|-0.35||||0.75|TWO_SIDED|95.0|-2.53|1.82|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||1.82|-2.53|0.75
92331124|NCT03743402|184567133|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PHQ-8 score between arms.|Mean Difference (Final Values)|-0.5||||0.48|TWO_SIDED|95.0|-1.87|0.87|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.87|-1.87|0.48
92331125|NCT03743402|184567134|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in GAD-7 score between arms.|Mean Difference (Final Values)|-0.25||||0.64|TWO_SIDED|95.0|-1.31|0.81|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.81|-1.31|0.64
92331126|NCT03743402|184567135|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in GAD-7 score between arms.|Mean Difference (Final Values)|0.28||||0.65|TWO_SIDED|95.0|-0.94|1.51|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||1.51|-0.94|0.65
92331127|NCT03743402|184567136|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PGIC score between arms.|Mean Difference (Final Values)|0.61||||0.02|TWO_SIDED|95.0|0.12|1.1|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||1.10|0.12|0.02
92331128|NCT03743402|184567137|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PGIC score between arms.|Mean Difference (Final Values)|1.33|||<|0.01|TWO_SIDED|95.0|0.77|1.88|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||1.88|0.77|<0.01
92331129|NCT03743402|184567138|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in POMI score between arms.|Mean Difference (Final Values)|0.09||||0.42|TWO_SIDED|95.0|-0.13|0.31|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.31|-0.13|0.42
92331130|NCT03743402|184567139|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in POMI score between arms.|Mean Difference (Final Values)|0.13||||0.26|TWO_SIDED|95.0|-0.1|0.36|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.36|-0.10|0.26
92331131|NCT03743402|184567140|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PODS score between arms.|Mean Difference (Final Values)|1.6||||0.54|TWO_SIDED|95.0|-3.47|6.66|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||6.66|-3.47|0.54
92331132|NCT03743402|184567141|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PODS score between arms.|Mean Difference (Final Values)|0.48||||0.59|TWO_SIDED|95.0|-1.26|2.21|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||2.21|-1.26|0.59
92331133|NCT03743402|184567142|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in opioid craving score between arms.|Mean Difference (Final Values)|-0.04||||0.9|TWO_SIDED|95.0|-0.66|0.57|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.57|-0.66|0.90
92331134|NCT03743402|184567143|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PSEQ score between arms.|Mean Difference (Final Values)|-0.35||||0.3|TWO_SIDED|95.0|-1.03|0.32|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.32|-1.03|0.30
92331135|NCT03743402|184567144|EQUIVALENCE|The null hypothesis is a point null of the relative risk of 30% reduction from baseline equal exactly to 1.|Risk Ratio (RR)|2.1||||0.2|TWO_SIDED|95.0|0.68|6.53|||Regression, Poison||relative risk = (pain self-management)/(usual care)|||6.53|0.68|0.20
92331136|NCT03743402|184567145|EQUIVALENCE|The null hypothesis is a point null of the relative risk of 30% reduction from baseline equal exactly to 1.|Risk Ratio (RR)|1.34||||0.53|TWO_SIDED|95.0|0.54|3.32|||Regression, Poison||relative risk = (pain self-management)/(usual care)|||3.32|0.54|0.53
92331137|NCT03411902|184567169|SUPERIORITY|||||||0.048|||||||Mixed Models Analysis|||||||0.048
92331138|NCT03411902|184567170|SUPERIORITY|||||||0.745|||||||Mixed Models Analysis|||||||0.745
92331139|NCT03411902|184567171|SUPERIORITY|||||||0.163|||||||Mixed Models Analysis|||||||0.163
92331140|NCT03411902|184567172|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.013
92331141|NCT03411902|184567173|SUPERIORITY|||||||0.337|||||||Mixed Models Analysis|||Pertaining to Radius 33 BMD||||0.337
92331142|NCT03411902|184567173|SUPERIORITY|||||||0.238|||||||Mixed Models Analysis|||Pertaining to Radius UD BMD||||0.238
92331143|NCT03411902|184567174|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|||||||0.860
92331144|NCT01693185|184567176|SUPERIORITY_OR_OTHER||||||<|0.001||||||We wished to be able to distinguish a difference of 7.5 min,|Wilcoxon (Mann-Whitney)|||Recovery time in patients administered remifentanil alone will be significantly shorter than that in patients administered midazolam-meperidine combination for colonoscopy.||||< 0.001
92331145|NCT00419159|184567187|OTHER||Odds Ratio (OR)|1.8||||0.253|TWO_SIDED|95.0|0.657|4.929|||Unadjusted Logistic Regression|||||4.929|0.657|0.253
92331146|NCT00419159|184567188|OTHER||Odds Ratio (OR)|0.382||||0.07|TWO_SIDED|95.0|0.135|1.083|||Unadjusted Logistic Regression|||||1.083|0.135|0.070
92331147|NCT00419159|184567189|OTHER||Hazard Ratio (HR)|0.814||||0.399|TWO_SIDED|95.0|0.505|1.312|||Unadjusted Logistic Regression|||||1.312|0.505|0.399
92331148|NCT00419159|184567189|OTHER||Hazard Ratio, log|1.001||||0.995|TWO_SIDED|95.0|0.62|1.617|||Unadjusted Logistic Regression|||||1.617|0.620|0.995
92331149|NCT00419159|184567190|OTHER||Hazard Ratio, log|1.203||||0.441|TWO_SIDED|95.0|0.752|1.923|||Unadjusted Logistic Regression|||||1.923|0.752|0.441
92331150|NCT00419159|184567190|OTHER||Hazard Ratio, log|1.547||||0.126|TWO_SIDED|95.0|0.884|2.708|||Unadjusted Logistic Regression|||||2.708|0.884|0.126
92331151|NCT00419159|184567191|OTHER||Odds Ratio (OR)|0.529||||0.238|TWO_SIDED|95.0|0.184|1.523|||Unadjusted Logistic Regression|||||1.523|0.184|0.238
92331152|NCT00419159|184567192|OTHER||Odds Ratio (OR)|1.044||||0.938|TWO_SIDED|95.0|0.352|3.099|||Unadjusted Logistic Regression|||||3.099|0.352|0.938
92331153|NCT00419159|184567193|OTHER||Hazard Ratio (HR)|1.474||||0.145|TWO_SIDED|95.0|0.875|2.484|||Unadjusted Cox Model|||||2.484|0.875|0.145
92331154|NCT00419159|184567193|OTHER||Hazard Ratio, log|1.151||||0.583|TWO_SIDED|95.0|0.696|1.903|||Unadjusted Cox Model|||||1.903|0.696|0.583
92331155|NCT00419159|184567194|OTHER||Hazard Ratio (HR)|0.868||||0.588|TWO_SIDED|95.0|0.521|1.447|||Unadjusted Cox Model|||||1.447|0.521|0.588
92331156|NCT00419159|184567194|OTHER||Hazard Ratio (HR)|0.611||||0.148|TWO_SIDED|95.0|0.314|1.191|||Unadjusted Cox Model|||||1.191|0.314|0.148
92331157|NCT01017601|184567200|OTHER|||||||0.5|||||||Wilcoxon Rank Sum|||||||0.50
92331158|NCT01017601|184567201|OTHER|||||||0.96|||||||Wilcoxon Rank Sum|||||||0.96
92331159|NCT01017601|184567202|OTHER|||||||0.54|||||||Fisher Exact|||||||0.54
92331160|NCT01017601|184567203|OTHER|||||||1|||||||Fisher Exact|||||||1.0
92331161|NCT04964986|184567205|SUPERIORITY|||||||0.041|||||||paired t-test|||||||0.041
92331162|NCT04964986|184567207|SUPERIORITY||||||<|0.001|||||||paired t-test|||Week 24||||<0.001
92331163|NCT04964986|184567207|SUPERIORITY||||||<|0.001|||||||paired t-test|||Week 52||||<0.001
92331164|NCT04964986|184567211|SUPERIORITY|||||||0.002|||||||paired t-test|||Week 24||||0.002
92331165|NCT04964986|184567211|SUPERIORITY||||||<|0.001|||||||paired t-test|||Week 52||||<0.001
92331166|NCT04964986|184567213|SUPERIORITY|||||||0.294|||||||paired t-test|||Fat absorption increase at Week 4||||0.294
92331167|NCT04964986|184567213|SUPERIORITY|||||||0.155|||||||paired t-test|||Fat absorption increase at Week 48||||0.155
92331168|NCT04964986|184567213|SUPERIORITY|||||||0.26|||||||paired t-test|||Carbohydrate absorption at Week 4||||0.260
92331169|NCT04964986|184567213|SUPERIORITY|||||||0.024|||||||paired t-test|||Carbohydrate absorption at Week 48||||0.024
92331170|NCT04964986|184567213|SUPERIORITY|||||||0.096|||||||paired t-test|||Protein absorption at Week 4||||0.096
92331171|NCT04964986|184567213|SUPERIORITY|||||||0.075|||||||paired t-test|||Protein absorption at Week 48||||0.075
92331172|NCT04964986|184567214|SUPERIORITY|||||||0.063|||||||paired t-test|||Week 4||||0.063
92331173|NCT04964986|184567214|SUPERIORITY|||||||0.112|||||||paired t-test|||Week 48||||0.112
92331174|NCT04964986|184567215|SUPERIORITY|||||||0.306|||||||paired t-test|||||||0.306
92331175|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|0.3346||||0.704|TWO_SIDED|95.0|-0.7887|0.8748|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Calcium, Week 4||0.8748|-0.7887|0.704
92331176|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|-0.104||||0.488|TWO_SIDED|95.0|-2.7442|0.8896|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Calcium, Week 48||0.8896|-2.7442|0.488
92331177|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|-0.219||||0.382|TWO_SIDED|95.0|-0.896|0.313|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Magnesium, Week 4||0.313|-0.896|0.382
92331178|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|-1.566||||0.059|TWO_SIDED|95.0|-5.279|-0.165|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Magnesium, Week 48||-0.165|-5.279|0.059
92331179|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|33.116||||0.004|TWO_SIDED|95.0|5.51|51.861|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Sodium, Week 4||51.861|5.510|0.004
92331180|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|20.727||||0.337|TWO_SIDED|95.0|-27.758|55.828|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Sodium, Week 48||55.828|-27.758|0.337
92331181|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|1.618||||0.724|TWO_SIDED|95.0|-11.87|14.931|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Potassium, Week 4||14.931|-11.870|0.724
92331182|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|-9.19||||0.115|TWO_SIDED|95.0|-18.88|3.737|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Potassium, Week 48||3.737|-18.880|0.115
92331183|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|12.297||||0.707|TWO_SIDED|95.0|-39.551|52.617|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Urea, Week 4||52.617|-39.551|0.707
92331184|NCT04964986|184567216|SUPERIORITY||Mean Difference (Final Values)|-91.487||||0.009|TWO_SIDED|95.0|-159.956|-20.068|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Urea, Week 48||-20.068|-159.956|0.009
92331185|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|0.281||||0.572|TWO_SIDED|95.0|-0.649|0.96|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Creatinine, Week 4||0.960|-0.649|0.572
92331186|NCT04964986|184567216|SUPERIORITY||Median Difference (Final Values)|-0.136||||0.981|TWO_SIDED|95.0|-1.06|1.073|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Creatinine, Week 48||1.073|-1.060|0.981
92331187|NCT04964986|184567217|SUPERIORITY|||||||0.066|||||||paired t-test|||Week 24||||0.066
92331188|NCT04964986|184567217|SUPERIORITY|||||||0.015|||||||paired t-test|||Week 52||||0.015
92331189|NCT00497770|184567236|NON_INFERIORITY_OR_EQUIVALENCE|A pre-specified logistic regression was used to assess non-inferiority of DCR in African American participants compared with Caucasian participants. The DCR for African Americans was to be considered non-inferior to the DCR for Caucasians if the upper bound of the confidence interval (CI) of the odds ratio (OR) for African American versus Caucasian was \<1.78 which corresponds to a difference in proportions of approximately 14% assuming the DCR in the reference group to be 50%.|Odds Ratio (OR)|0.821|||||TWO_SIDED|95.0|0.427|1.58||Adjusted:baseline characteristics, income, marital/insurance status, comorbid, time between end of 1st line therapy and start of pemetrexed, prior platinum- or Paclitaxel-containing regimen, number of cycles and best response during 1st line therapy.|Regression, Logistic|||||1.580|0.427|
92331190|NCT01080391|184567254|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.57|0.834||Analysis was stratified by β2 microglobulin levels (\< 2.5 mg/L vs. ≥ 2.5 mg/L), prior bortezomib (no vs. yes), and prior lenalidomide (no vs. yes)|Log Rank|The stopping boundary for this analysis was 0.0127 based on 1-sided significance level (O'Brien-Fleming with Lan-DeMets spending function).||||0.834|0.570|< 0.0001
92331191|NCT01080391|184567255|SUPERIORITY|The stopping boundary for this analysis was 0.0231 based on 1-sided significance level (O'Brien-Fleming with Lan-DeMets spending function).|Hazard Ratio (HR)|0.794||||0.0045|TWO_SIDED|95.0|0.667|0.945|||Log Rank|Analysis was stratified by β2 microglobulin levels (\< 2.5 mg/L vs. ≥ 2.5 mg/L), prior bortezomib (no vs. yes), and prior lenalidomide (no vs. yes).||The final analysis of OS was to be performed after 510 deaths occur. A total of 510 deaths would provide 85% power to detect, with a 1-sided significance level of 0.025, a hazard ratio of 0.765 corresponding to a 23.5% reduction in risk for death for CRd versus Rd (39.2 vs. 30.0 months, respectively).||0.945|0.667|0.0045
92331192|NCT01080391|184567256|SUPERIORITY||Odds Ratio (OR)|3.472|||<|0.0001|TWO_SIDED|95.0|2.411|5.001|||Cochran-Mantel Haenszel chi-square test|Cochran-Mantel Haenszel chi-square test with β2 macroglobulin level, prior bortezomib, and prior lenalidomide as stratification factors.|The odds ratio and 95% CI were estimated using the Mantel-Haenszel method.|||5.001|2.411|< 0.0001
92331193|NCT01080391|184567257|SUPERIORITY||Odds Ratio (OR)|1.897||||0.0044|TWO_SIDED|95.0|1.17|3.08|||Cochran-Mantel Haenszel chi-square test|Cochran-Mantel Haenszel chi-square test with β2 macroglobulin level, prior bortezomib, and prior lenalidomide as stratification factors.|The odds ratio and 95% CI were estimated using the Mantel-Haenszel method.|||3.08|1.17|0.0044
92331194|NCT03725033|184567278|SUPERIORITY|||||||0.0028|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.0028
92331195|NCT03725033|184567279|SUPERIORITY|||||||0.0805|||||||Fisher Exact|||||||0.0805
92331196|NCT03725033|184567280|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.99
92331197|NCT03725033|184567281|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.79
92331198|NCT02638051|184567308|SUPERIORITY_OR_OTHER|||||||0.014|||||||Chi-squared|||"Applies to Objective Response Rate (ORR)"||||0.0140
92331199|NCT02638051|184567309|SUPERIORITY_OR_OTHER|||||||0.0016|||||||Chi-squared|||"Applies to All Adverse Events rate"||||0.0016
92331200|NCT02638051|184567309|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||"Applies to Abdominal pain rate"||||>0.05
92331201|NCT02638051|184567309|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||"Applies to Gastrointestinal reactions"||||>0.05
92331202|NCT02638051|184567309|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||"Applies to Damage of hepatic or renal function"||||>0.05
92331203|NCT02638051|184567309|SUPERIORITY_OR_OTHER|||||||0.0215|||||||Chi-squared|||"Applies to Bone marrow depression"||||0.0215
92331204|NCT02638051|184567310|SUPERIORITY_OR_OTHER|||||||0.0053|||||||Chi-squared|||"Applies to Better QoL"||||0.0053
92331205|NCT02638051|184567310|SUPERIORITY_OR_OTHER|||||||0.0527|||||||Chi-squared|||"Applies to No Change"||||0.0527
92331206|NCT02638051|184567310|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||"Applies to Worse QoL"||||>0.05
92331207|NCT01524783|184567380|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.35|0.67|||Log Rank|||||0.67|0.35|<0.001
92331208|NCT01524783|184567381|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.259|TWO_SIDED|95.0|0.66|1.24|||Log Rank|||||1.24|0.66|0.259
92331209|NCT01524783|184567384|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.073|TWO_SIDED|95.0|0.5|1.1|||Log Rank|||||1.10|0.50|0.073
92331210|NCT01524783|184567387|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.02||||0.539|TWO_SIDED|95.0|0.65|1.61|||Log Rank|||||1.61|0.65|0.539
92331211|NCT01625689|184567393|SUPERIORITY_OR_OTHER||||||>=|0.498|TWO_SIDED|||||No comparison between the LAIV and placebo groups by type of solicited reaction had a p-value below 0.498.|Fisher Exact|||||||>=0.498
92331212|NCT00824434|184567421|SUPERIORITY_OR_OTHER||Mean In-stent Late Loss in WH Lesions|0.17|||<|0.0001|ONE_SIDED|95.0||0.22|||t-test, 1 sided|||The Student t-test was used to compare the outcome to a prespecified performance goal of 0.44 mm based on an historical TAXUS Express workhorse 9-month in-stent late loss (0.41 mm) value plus delta (0.03 mm)||0.22||<0.0001
92331213|NCT00824434|184567422|SUPERIORITY_OR_OTHER||Percent Post-procedure Incomplete Apposi|5.7|||<|0.0001|ONE_SIDED|95.0||11.6|||One-sided exact binomial test|||A one-sided 95% Clopper-Pearson upper confidence bound was derived and tested to determine if the outcome was less than a prespecified performance goal based on historical XIENCE V/PROMUS post-procedure incomplete apposition data from the SPIRIT III study (34.4%).||11.6||<0.0001
92331214|NCT05153148|184567441|SUPERIORITY||Risk Difference (RD)|5.9|||=|0.446|TWO_SIDED|95.0|-9.3|21.1|||Cochran-Mantel-Haenszel||Mantel-Haenszel (MH) risk difference was summarized along with the 2-sided 95% confidence interval (CI) using MH stratum weights and the Sato variance estimator.||Comparisons of ACR20 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional disease-modifying antirheumatic drugs (DMARDs) and region.|21.1|-9.3|=0.446
92331215|NCT05153148|184567441|SUPERIORITY||Risk Difference (RD)|24.1|||=|0.002|TWO_SIDED|95.0|8.6|39.6|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of ACR20 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|39.6|8.6|=0.002
92331216|NCT05153148|184567441|SUPERIORITY||Risk Difference (RD)|24.5|||=|0.002|TWO_SIDED|95.0|9.0|39.9|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of ACR20 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|39.9|9.0|=0.002
92331217|NCT05153148|184567442|SUPERIORITY||Risk Difference (RD)|5.7|||=|0.312|TWO_SIDED|95.0|-5.3|16.6|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of ACR50 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|16.6|-5.3|=0.312
92331218|NCT05153148|184567442|SUPERIORITY||Risk Difference (RD)|17.0|||=|0.005|TWO_SIDED|95.0|5.0|29.1|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of ACR50 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|29.1|5.0|=0.005
92331219|NCT05153148|184567442|SUPERIORITY||Risk Difference (RD)|16.4|||=|0.009|TWO_SIDED|95.0|4.2|28.6|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of ACR50 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|28.6|4.2|=0.009
92331220|NCT05153148|184567443|SUPERIORITY||Risk Difference (RD)|2.9|||=|0.532|TWO_SIDED|95.0|-6.6|12.7|||Fisher Exact||Comparisons of ACR70 responder rates at Week 12 were made independently between each dose group and the placebo group using Fischer's exact Method.|||12.7|-6.6|=0.532
92331221|NCT05153148|184567443|SUPERIORITY||Risk Difference (RD)|9.1|||=|0.101|TWO_SIDED|95.0|-1.0|20.1|||Fisher Exact||Comparisons of ACR70 responder rates at Week 12 were made independently between each dose group and the placebo group using Fischer's exact Method.|||20.1|-1.0|=0.101
92331222|NCT05153148|184567443|SUPERIORITY||Risk Difference (RD)|8.3|||=|0.158|TWO_SIDED|95.0|-1.7|19.4|||Fisher Exact||Comparisons of ACR70 responder rates at Week 12 were made independently between each dose group and the placebo group using Fischer's exact Method.|||19.4|-1.7|=0.158
92331223|NCT05153148|184567444|SUPERIORITY||Treatment Difference|-1.7|||=|0.268|TWO_SIDED|95.0|-4.8|1.3|||Mixed Model Repeated Measure (MMRM)||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|1.3|-4.8|=0.268
92331224|NCT05153148|184567444|SUPERIORITY||Treatment Difference|-3.0|||=|0.051|TWO_SIDED|95.0|-6.1|0.0|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.0|-6.1|=0.051
92331225|NCT05153148|184567444|SUPERIORITY||Treatment Difference|-2.5|||=|0.112|TWO_SIDED|95.0|-5.6|0.6|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.6|-5.6|=0.112
92331226|NCT05153148|184567445|SUPERIORITY||Treatment Difference|-0.9|||=|0.28|TWO_SIDED|95.0|-2.4|0.7|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.7|-2.4|=0.280
92331227|NCT05153148|184567445|SUPERIORITY||Treatment Difference|-1.1|||=|0.177|TWO_SIDED|95.0|-2.6|0.5|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.5|-2.6|=0.177
92331228|NCT05153148|184567445|SUPERIORITY||Treatment Difference|-1.0|||=|0.196|TWO_SIDED|95.0|-2.6|0.5|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.5|-2.6|=0.196
92331229|NCT05153148|184567446|SUPERIORITY||Treatment Difference|-1.9|||=|0.637|TWO_SIDED|95.0|-9.6|5.9|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|5.9|-9.6|=0.637
92331230|NCT05153148|184567446|SUPERIORITY||Treatment Difference|-9.2|||=|0.021|TWO_SIDED|95.0|-17.0|-1.4|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-1.4|-17.0|=0.021
92331231|NCT05153148|184567446|SUPERIORITY||Treatment Difference|-8.7|||=|0.03|TWO_SIDED|95.0|-16.5|-0.9|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-0.9|-16.5|=0.030
92331232|NCT05153148|184567447|SUPERIORITY||Treatment Difference|-0.9|||=|0.812|TWO_SIDED|95.0|-8.4|6.6|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|6.6|-8.4|=0.812
92331233|NCT05153148|184567447|SUPERIORITY||Treatment Difference|-6.7|||=|0.079|TWO_SIDED|95.0|-14.2|0.8|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.8|-14.2|=0.079
92331234|NCT05153148|184567447|SUPERIORITY||Treatment Difference|-6.3|||=|0.102|TWO_SIDED|95.0|-13.9|1.3|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|1.3|-13.9|=0.102
92331235|NCT05153148|184567448|SUPERIORITY||Treatment Difference|-8.9|||=|0.016|TWO_SIDED|95.0|-16.2|-1.7|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-1.7|-16.2|=0.016
92331236|NCT05153148|184567448|SUPERIORITY||Treatment Difference|-10.6|||=|0.004|TWO_SIDED|95.0|-17.8|-3.4|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-3.4|-17.8|=0.004
92331237|NCT05153148|184567448|SUPERIORITY||Treatment Difference|-10.9|||=|0.003|TWO_SIDED|95.0|-18.2|-3.6|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-3.6|-18.2|=0.003
92331238|NCT05153148|184567449|SUPERIORITY||Treatment Difference|-0.07|||=|0.357|TWO_SIDED|95.0|-0.21|0.08|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.08|-0.21|=0.357
92331239|NCT05153148|184567449|SUPERIORITY||Treatment Difference|-0.1|||=|0.195|TWO_SIDED|95.0|-0.24|0.05|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.05|-0.24|=0.195
92331240|NCT05153148|184567449|SUPERIORITY||Treatment Difference|-0.05|||=|0.467|TWO_SIDED|95.0|-0.2|0.09|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.09|-0.20|=0.467
92331241|NCT05153148|184567450|SUPERIORITY||Treatment Difference|1.3|||=|0.031|TWO_SIDED|95.0|0.1|2.4|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|2.4|0.1|=0.031
92331242|NCT05153148|184567450|SUPERIORITY||Treatment Difference|0.1|||=|0.86|TWO_SIDED|95.0|-1.1|1.3|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|1.3|-1.1|=0.860
92331243|NCT05153148|184567450|SUPERIORITY||Treatment Difference|0.2|||=|0.758|TWO_SIDED|95.0|-0.9|1.3|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|1.3|-0.9|=0.758
92331244|NCT05153148|184567451|SUPERIORITY||Treatment Difference|-0.5|||=|0.131|TWO_SIDED|95.0|-1.2|0.2|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.2|-1.2|=0.131
92331245|NCT05153148|184567451|SUPERIORITY||Treatment Difference|-0.7|||=|0.043|TWO_SIDED|95.0|-1.3|0.0|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.0|-1.3|=0.043
92331246|NCT05153148|184567451|SUPERIORITY||Treatment Difference|-0.1|||=|0.687|TWO_SIDED|95.0|-0.8|0.5|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.5|-0.8|=0.687
92331247|NCT05153148|184567452|SUPERIORITY||Risk Difference (RD)|5.6|||=|0.349|TWO_SIDED|95.0|-6.1|17.4|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of MDA responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|17.4|-6.1|=0.349
92331248|NCT05153148|184567452|SUPERIORITY||Risk Difference (RD)|15.5|||=|0.017|TWO_SIDED|95.0|2.8|28.3|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of MDA responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|28.3|2.8|=0.017
92331249|NCT05153148|184567452|SUPERIORITY||Risk Difference (RD)|16.3|||=|0.014|TWO_SIDED|95.0|3.3|29.3|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of MDA responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|29.3|3.3|=0.014
92331250|NCT05153148|184567453|SUPERIORITY||Treatment Difference|-3.73|||=|0.167|TWO_SIDED|95.0|-9.04|1.57|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|1.57|-9.04|=0.167
92331251|NCT05153148|184567453|SUPERIORITY||Treatment Difference|-6.43|||=|0.018|TWO_SIDED|95.0|-11.73|-1.13|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-1.13|-11.73|=0.018
92331252|NCT05153148|184567453|SUPERIORITY||Treatment Difference|-5.23|||=|0.056|TWO_SIDED|95.0|-10.59|0.13|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.13|-10.59|=0.056
92331253|NCT05153148|184567454|SUPERIORITY||Risk Difference (RD)|11.9|||=|0.186|TWO_SIDED|95.0|-5.7|29.4|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PASI-75 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|29.4|-5.7|=0.186
92331254|NCT05153148|184567454|SUPERIORITY||Risk Difference (RD)|14.6|||=|0.101|TWO_SIDED|95.0|-2.8|32.1|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PASI-75 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|32.1|-2.8|=0.101
92331255|NCT05153148|184567454|SUPERIORITY||Risk Difference (RD)|29.0|||=|0.002|TWO_SIDED|95.0|10.5|47.6|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PASI-75 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|47.6|10.5|=0.002
92331256|NCT05153148|184567455|SUPERIORITY||Risk Difference (RD)|4.5|||=|0.54|TWO_SIDED|95.0|-10.0|19.0|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PhGA-PSO responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|19.0|-10.0|=0.540
92331257|NCT05153148|184567455|SUPERIORITY||Risk Difference (RD)|5.2|||=|0.466|TWO_SIDED|95.0|-8.8|19.3|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PhGA-PSO responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|19.3|-8.8|=0.466
92331258|NCT05153148|184567455|SUPERIORITY||Risk Difference (RD)|16.3|||=|0.034|TWO_SIDED|95.0|1.2|31.3|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PhGA-PSO responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|31.3|1.2|=0.034
92331259|NCT04494425|184567462|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.52|0.75|||Log Rank|The analysis was performed using the stratified log-rank test.|HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for prior cyclin-dependent kinase (CDK)4/6 inhibitor use (yes versus no) and HER2 IHC expression (IHC 1+ versus IHC 2+/ISH-) and ties handled by Efron approach.|||0.75|0.52|<0.0001
92331260|NCT02242019|184567500|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92331261|NCT02242019|184567501|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
92331262|NCT05206734|184567519|OTHER||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|1.12|1.46|||||HR was calculated using a Cox Proportional Hazard model adjusted for age,sex,socioeconomic status, ethnicity and common childhood conditions. Reflects a comparison of the incidence rates between participants diagnosed with IBD and those without IBD.|||1.46|1.12|
92331263|NCT05206734|184567520|OTHER||Risk Ratio (RR)|1.82|||||TWO_SIDED|95.0|1.33|2.52|||||RR calculated using negative binomial model adjusted for age,sex,socioeconomic status,ethnicity,IBD type and comorbidities.Reflects a comparison of the incidence rate ratio between IBD participants diagnosed with and without mental health conditions.|||2.52|1.33|
92331264|NCT05206734|184567521|OTHER||Hazard Ratio (HR)|1.63|||||TWO_SIDED|95.0|1.02|2.62|||||HR calculated using Cox regression models adjusted for age,sex,socioeconomic status,ethnicity,IBD type and comorbidities.Reflects a comparison of the incidence rate ratio between IBD participants diagnosed with and without mental health conditions.|||2.62|1.02|
92331265|NCT05206734|184567522|OTHER||Risk Ratio (RR)|2.78|||||TWO_SIDED|95.0|1.76|4.43|||||RR calculated using negative binomial model adjusted for age,sex,socioeconomic status,ethnicity,IBD type and comorbidities.Reflects a comparison of the incidence rate ratio between IBD participants diagnosed with and without mental health conditions.|||4.43|1.76|
92331266|NCT05206734|184567524|OTHER||Risk Ratio (RR)|1.33|||||TWO_SIDED|95.0|1.12|1.58|||||RR calculated using negative binomial model adjusted for age,sex,socioeconomic status,ethnicity,IBD type and comorbidities.Reflects a comparison of the incidence rate ratio between IBD participants diagnosed with and without mental health conditions.|||1.58|1.12|
92331267|NCT05206734|184567525|OTHER||Risk Ratio (RR)|1.87|||||TWO_SIDED|95.0|1.29|2.75|||||RR calculated using negative binomial model adjusted for age,sex,socioeconomic status,ethnicity,IBD type and comorbidities.Reflects a comparison of the incidence rate ratio between IBD participants diagnosed with and without mental health conditions.|||2.75|1.29|
92331268|NCT00762034|184567526|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.94896|TWO_SIDED|95.0|0.86|1.16|||Log Rank|||||1.16|0.86|0.94896
92331269|NCT00762034|184567527|SUPERIORITY_OR_OTHER|||||||0.72997||95.0|||||Fisher Exact|||||||0.72997
92331270|NCT00762034|184567528|SUPERIORITY_OR_OTHER|||||||0.20892|||||||Fisher Exact|||||||0.20892
92331271|NCT00762034|184567529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.01206|TWO_SIDED|95.0|0.71|0.96|||Log Rank|||||0.96|0.71|0.01206
92331272|NCT00762034|184567530|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.006|TWO_SIDED|95.0|0.67|0.94|||Log Rank|||||0.94|0.67|0.006
92331273|NCT00762034|184567535|SUPERIORITY_OR_OTHER|||||||0.667||95.0||||Mixed Model Analysis has treatment, baseline, time point, and treatment by timepoint interaction as fixed effects.|Mixed Models Analysis|||||||0.667
92331274|NCT00762034|184567536|SUPERIORITY_OR_OTHER|||||||0.815||95.0||||p-value for FACT-L Total; Mixed Model Analysis has treatment, baseline, time point, and treatment by timepoint interaction as fixed effects.|Mixed Models Analysis|||||||0.815
92331275|NCT00762034|184567536|SUPERIORITY_OR_OTHER|||||||0.978||95.0||||p-value for FACT-L TOI; Mixed Model Analysis has treatment, baseline, time point, and treatment by timepoint interaction as fixed effects.|Mixed Models Analysis|||||||0.978
92331276|NCT00762034|184567537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for FACT/GOG-Ntx Total; Mixed Model Analysis has treatment, baseline, time point, and treatment by timepoint interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92331277|NCT00762034|184567537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for FACT/GOG-Ntx TOI; Mixed Model Analysis has treatment, baseline, time point, and treatment by timepoint interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
92331278|NCT00762034|184567551|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.338|0.681||p-value was not adjusted for multiple comparisons.|Regression, Cox|||||0.681|0.338|<0.001
92331279|NCT00762034|184567552|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.927||||0.673|TWO_SIDED|95.0|0.654|1.316||p-value is for TS Cytoplasm Positive (H score \> 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.316|0.654|0.673
92331280|NCT00762034|184567552|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.521||||0.287|TWO_SIDED|95.0|0.157|1.729||p-value is for TS Cytoplasm Negative (H score = 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.729|0.157|0.287
92331281|NCT00762034|184567552|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.759||||0.2|TWO_SIDED|95.0|0.498|1.157||p-value is for TS Nucleus Positive (H score \> 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.157|0.498|0.2
92331282|NCT00762034|184567552|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.969||||0.915|TWO_SIDED|95.0|0.54|1.738||p-value is for TS Nucleus Negative (H score = 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.738|0.540|0.915
92331283|NCT00762034|184567553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.891|TWO_SIDED|95.0|0.622|1.511||p-value for FR-α Cytoplasm Positive (H score \> 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.511|0.622|0.891
92331284|NCT00762034|184567553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.592||||0.06|TWO_SIDED|95.0|0.342|1.023||p-value for FR-α Cytoplasm Negative (H score = 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.023|0.342|0.060
92331285|NCT00762034|184567553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.905|TWO_SIDED|95.0|0.49|1.88||p-value for FR-α Membrane Positive (H score \> 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.880|0.490|0.905
92331286|NCT00762034|184567553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.859||||0.455|TWO_SIDED|95.0|0.575|1.281||p-value for FR-α Membrane Negative (H score = 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.281|0.575|0.455
92331287|NCT00734656|184567554|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||t-test, 2 sided|||null hypothesis - dutasteride does not affect blood alcohol following standardized dose of alcohol (0.8 gr/kg)||||0.28
92331288|NCT00734656|184567555|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Mixed Models Analysis|||null hypothesis: dutasteride pre-treatment does not reduce the sedative effect of alcohol||||0.010
92331289|NCT00734656|184567556|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Mixed Models Analysis|||null hypothesis: dutasteride pre-treatment does not reduce the stimulating effect of alcohol||||0.17
92331290|NCT00734656|184567557|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||null hypothesis - A single 4 mg dose of dutasteride does not reduce serum 3a-androstanediol glucuronide levels||||<0.001
92331291|NCT03214679|184567559|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<.001
92331292|NCT01601067|184567564|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||.002
92331293|NCT01601067|184567565|SUPERIORITY|||||||0.91||||||heavy drinking days|Mixed Models Analysis|||||||.91
92331294|NCT02412878|184567590|SUPERIORITY||Odds Ratio (OR)|2.485|||<|0.0001|TWO_SIDED|95.0|1.716|3.598||Progression-free survival, overall response, and overall survival were tested using a fixed sequence hierarchical testing procedure to control the family-wise type I error rate below one-sided 0.025 level.|Cochran-Mantel-Haenszel|One-sided p-value from CMH test stratified by the randomization factors (ISS stage at study entry, refractory to bortezomib treatment, and age).|Odds ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was calculated using the Mantel-Haenszel method stratified by the randomization stratification factors.|||3.598|1.716|< 0.0001
92331295|NCT02412878|184567590|SUPERIORITY||Odds Ratio (OR)|2.466|||<|0.0001|TWO_SIDED|95.0|1.707|3.563|||Fisher Exact||Odds ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was calculated using the Mantel-Haenszel method.|||3.563|1.707|<0.0001
92331296|NCT02412878|184567591|SUPERIORITY||Hazard Ratio (HR)|0.693||||0.0014|TWO_SIDED|95.0|0.544|0.883||Progression-free survival, overall response rate, and overall survival were tested using a fixed sequence hierarchical testing procedure to control the family-wise type I error rate below one-sided 0.025 level.|Log Rank|One-sided stratified log-rank test, stratified by the randomization factors (ISS stage at study entry, refractory to bortezomib treatment, and age).|Hazard ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was estimated using a Cox proportional hazards model stratified by the randomization stratification factors.|To ensure proper control of type I error, analysis of PFS was performed under a group sequential design framework with the stopping boundaries constructed using the Lan-DeMets spending function with an O'Brien-Fleming approach. The inferential comparison between the 2 treatment groups for PFS used the 1-sided log-rank test stratified by the randomization stratification factors. A 1-sided p-value was compared against the prespecified adjusted alpha value of 0.011 to determine significance.||0.883|0.544|0.0014
92331297|NCT02412878|184567591|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0033|TWO_SIDED|95.0|0.567|0.913|||Log Rank|One-sided unstratified log-rank test|Hazard ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was estimated using an unstratified Cox proportional hazards model.|||0.913|0.567|0.0033
92331298|NCT02412878|184567592|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.107|TWO_SIDED|95.0|0.563|1.138||Progression-free survival, overall response, and overall survival were tested using a fixed sequence hierarchical testing procedure to control the family-wise type I error rate below one-sided 0.025 level.|Log Rank|One-sided stratified log-rank test, stratified by the randomization factors (ISS stage at study entry, refractory to bortezomib treatment, and age).|Hazard ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was estimated using a Cox proportional hazards model stratified by the randomization stratification factors.|||1.138|0.563|0.1070
92331299|NCT02412878|184567592|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.1326|TWO_SIDED|95.0|0.578|1.164|||Log Rank|One-sided unstratified log-rank test|Hazard ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was estimated using an unstratified Cox proportional hazards model.|||1.164|0.578|0.1326
92331300|NCT00571103|184567618|SUPERIORITY_OR_OTHER||Mean Slope|-0.985|STANDARD_ERROR_OF_MEAN|0.158||0.05|TWO_SIDED|95.0|-1.0|1.0|||Linear mixed effects|||||1|-1|0.05
92331301|NCT02368886|184567619|SUPERIORITY||Risk Difference (RD)|0.17||||0.0434|TWO_SIDED|95.0|0.0|0.34||1-sided|Fisher Exact|||||0.34|0.00|0.0434
92331302|NCT02368886|184567620|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.1241|TWO_SIDED|95.0|0.47|1.1|||Log Rank|||||1.10|0.47|0.1241
92331303|NCT02368886|184567621|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.3797|TWO_SIDED|95.0|0.57|1.24|||Log Rank|||||1.24|0.57|0.3797
92331304|NCT02368886|184567622|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.4614|TWO_SIDED|95.0|0.55|1.31|||Log Rank|||||1.31|0.55|0.4614
92331305|NCT02368886|184567627|SUPERIORITY|||||||0.7319|||||||Kruskal-Wallis|||||||0.7319
92331306|NCT04278924|184567638|SUPERIORITY||Risk Difference (RD)|43.59|||=|0.056|TWO_SIDED|95.0|0.81|73.35|||Barnard's test||95% confidence interval (CI) of the difference in percentage was calculated using Miettinen-Nurminen method.|||73.35|0.81|=0.056
92331307|NCT04278924|184567638|SUPERIORITY||Risk Difference (RD)|39.42|||=|0.088|TWO_SIDED|95.0|-4.24|71.38|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||71.38|-4.24|=0.088
92331308|NCT04278924|184567638|SUPERIORITY||Risk Difference (RD)|67.83|||=|0.001|TWO_SIDED|95.0|29.21|87.29|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||87.29|29.21|=0.001
92331309|NCT04278924|184567639|SUPERIORITY||Risk Difference (RD)|55.56|||=|0.001|TWO_SIDED|95.0|25.11|81.51|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||81.51|25.11|=0.001
92331310|NCT04278924|184567639|SUPERIORITY||Risk Difference (RD)|50.0|||=|0.004|TWO_SIDED|95.0|19.63|78.95|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||78.95|19.63|=0.004
92331311|NCT04278924|184567639|SUPERIORITY||Risk Difference (RD)|81.82|||<|0.001|TWO_SIDED|95.0|51.24|94.99|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||94.99|51.24|<0.001
92331312|NCT04278924|184567640|SUPERIORITY||Risk Difference (RD)|35.9|||=|0.12|TWO_SIDED|95.0|-7.22|67.75|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||67.75|-7.22|=0.120
92331313|NCT04278924|184567640|SUPERIORITY||Risk Difference (RD)|44.23|||=|0.06|TWO_SIDED|95.0|-0.83|73.77|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||73.77|-0.83|=0.060
92331314|NCT04278924|184567640|SUPERIORITY||Risk Difference (RD)|60.14|||=|0.003|TWO_SIDED|95.0|21.33|82.42|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||82.42|21.33|=0.003
92331315|NCT04278924|184567641|SUPERIORITY||Risk Difference (RD)|40.0|||=|0.187|TWO_SIDED|95.0|-16.28|78.17|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||78.17|-16.28|=0.187
92331316|NCT04278924|184567641|SUPERIORITY||Risk Difference (RD)|25.0|||=|0.315|TWO_SIDED|95.0|-28.85|71.78|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||71.78|-28.85|=0.315
92331317|NCT04278924|184567641|SUPERIORITY||Risk Difference (RD)|100.0|||=|0.004|TWO_SIDED|95.0|35.12|100.0|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||100.00|35.12|=0.004
92331318|NCT04767529|184567642|SUPERIORITY||percent difference|22.6||||0.025|TWO_SIDED|95.0|3.8|41.4||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparison between the EFX 28 mg and placebo group|% difference from placebo (efruxifermin 28 mg - placebo)|Comparison between proportion of participants in efruxifermin 28 mg group who met the primary endpoint vs the placebo group||41.4|3.8|0.025
92331319|NCT04767529|184567642|SUPERIORITY||percent difference|22.5||||0.036|TWO_SIDED|95.0|1.6|43.3||Threshold for significance was p\<0.05|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factors is used for comparison between the EFX 50 mg and placebo group|% difference from placebo (efruxifermin 50 mg - placebo)|Comparison between proportion of participants in efruxifermin 50 mg group who met the primary endpoint vs the placebo group||43.3|1.6|0.036
92331320|NCT04767529|184567643|SUPERIORITY||percent difference|21.8||||0.07|TWO_SIDED|95.0|-1.3|45.0||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 28 mg and placebo group||||45.0|-1.3|0.070
92331321|NCT04767529|184567643|SUPERIORITY||percent difference|51.9|||<|0.001|TWO_SIDED|95.0|31.2|72.7||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 50 mg and placebo group||Week 96||72.7|31.2|<0.001
92331322|NCT04767529|184567644|SUPERIORITY||percent difference|31.9||||0.002|TWO_SIDED|95.0|12.9|50.9||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparison between the efruxifermin 28 mg and placebo group||Week 24||50.9|12.9|0.002
92331323|NCT04767529|184567644|SUPERIORITY||percent difference|61.7|||<|0.001|TWO_SIDED|95.0|44.1|79.4||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 50 mg and placebo groups||Week 24||79.4|44.1|<0.001
92331324|NCT04767529|184567644|SUPERIORITY||percent difference|38.9||||0.002|TWO_SIDED|95.0|17.2|60.7||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between efruxifermin 28 mg and placebo groups||Week 96||60.7|17.2|0.002
92331325|NCT04767529|184567644|SUPERIORITY||percent difference|33.2||||0.006|TWO_SIDED|95.0|10.5|55.8||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 50 mg and placebo group||Week 96||55.8|10.5|0.006
92331326|NCT04767529|184567645|SUPERIORITY||percent difference|20.0||||0.053|TWO_SIDED|95.0|0.4|39.5||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 28 mg and placebo group||Week 24||39.5|0.4|0.053
92331327|NCT04767529|184567645|SUPERIORITY||percent difference|19.9||||0.069|TWO_SIDED|95.0|-1.5|41.2||Threshold for statistical significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 50 mg and placebo groups||Week 24||41.2|-1.5|0.069
92331328|NCT04767529|184567645|SUPERIORITY||percent difference|19.0||||0.123|TWO_SIDED|95.0|-4.8|42.8||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 28 mg and placebo groups||Week 96||42.8|-4.8|0.123
92331329|NCT04767529|184567645|SUPERIORITY||percent difference|49.0|||<|0.001|TWO_SIDED|95.0|27.7|70.2||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 50 mg and placebo groups||Week 96||70.2|27.7|<0.001
92331330|NCT04767529|184567646|SUPERIORITY|Week 24|Mean Difference (Net)|-6.9|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-9.09|-4.71||Threshold for significance set at p\<0.05|Mixed Models Analysis|MMRM: fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction and baseline as covariate for comparison||Percent change from baseline in hepatic fat fraction between the EFX 28 mg and placebo groups||-4.71|-9.09|<0.001
92331331|NCT04767529|184567646|SUPERIORITY|Week 24|Mean Difference (Net)|-9.2|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|-11.47|-7.02||Threshold for significance set at p\<0.05|Mixed Models Analysis|MMRM:fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction and baseline as covariates for comparison||Percent change from baseline in hepatic fat fraction between the EFX 50 mg and placebo groups||-7.02|-11.47|<0.001
92331332|NCT04767529|184567646|SUPERIORITY|Week 96|Mean Difference (Net)|-3.8|STANDARD_ERROR_OF_MEAN|1.31||0.005|TWO_SIDED|95.0|-6.39|-1.18||Threshold for significance set at p\<0.05|Mixed Models Analysis|MMRM:fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction and baseline as covariates for comparison||Percent change from baseline in hepatic fat fraction between the EFX 28 mg and placebo groups||-1.18|-6.39|0.005
92331333|NCT04767529|184567646|SUPERIORITY|Week 96|Mean Difference (Net)|-5.8|STANDARD_ERROR_OF_MEAN|1.29|<|0.001|TWO_SIDED|95.0|-8.38|-3.25||Threshold for significance set at p\<0.05|Mixed Models Analysis|MMRM:fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction and baseline as covariates for comparison||Percent change from baseline in hepatic fat fraction between the EFX 50 mg and placebo groups||-3.25|-8.38|<0.001
92331334|NCT04767529|184567647|SUPERIORITY|Week 24|Mean Difference (Net)|-51.6|STANDARD_ERROR_OF_MEAN|9.86|<|0.001|TWO_SIDED|95.0|-71.17|-32.11|||Mixed Models Analysis|||Treatment comparison of least squares (LS) mean change from baseline (EFX 28 mg - placebo) in triglycerides (mg/dL)||-32.11|-71.17|<0.001
92331335|NCT04767529|184567647|SUPERIORITY|Week 24|Mean Difference (Net)|-55.2|STANDARD_ERROR_OF_MEAN|9.83|<|0.001|TWO_SIDED|95.0|-74.63|-35.71|||Mixed Models Analysis|||Treatment comparison of least squares (LS) mean change from baseline (EFX 50 mg - placebo) in triglycerides (mg/dL)||-35.71|-74.63|<0.001
92331336|NCT04767529|184567647|SUPERIORITY|Week 96|Mean Difference (Net)|-43.0|STANDARD_ERROR_OF_MEAN|11.48|<|0.001|TWO_SIDED|95.0|-65.73|-20.27||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of least squares (LS) mean change from baseline (EFX 28 mg - placebo) in triglycerides (mg/dL)||-20.27|-65.73|<0.001
92331337|NCT04767529|184567647|SUPERIORITY|Week 96|Mean Difference (Net)|-47.8|STANDARD_ERROR_OF_MEAN|11.4|<|0.001|TWO_SIDED|95.0|-70.39|-25.24||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in triglycerides (mg/dL)||-25.24|-70.39|<0.001
92331338|NCT04767529|184567647|SUPERIORITY|Week 24|Mean Difference (Net)|11.0|STANDARD_ERROR_OF_MEAN|1.58|<|0.001|TWO_SIDED|95.0|7.92|14.17|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 28 mg - placebo) in HDL cholesterol (mg/dL)||14.17|7.92|<0.001
92331339|NCT04767529|184567647|SUPERIORITY|Week 24|Mean Difference (Net)|12.5|STANDARD_ERROR_OF_MEAN|1.57|<|0.001|TWO_SIDED|95.0|9.35|15.57|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in HDL cholesterol (mg/dL)||15.57|9.35|<0.001
92331340|NCT04767529|184567647|SUPERIORITY|Week 96|Mean Difference (Net)|6.0|STANDARD_ERROR_OF_MEAN|2.12||0.005|TWO_SIDED|95.0|1.84|10.23||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 28 mg - placebo) in HDL cholesterol (mg/dL)||10.23|1.84|0.005
92331341|NCT04767529|184567647|SUPERIORITY|Week 96|Mean Difference (Net)|9.5|STANDARD_ERROR_OF_MEAN|2.11|<|0.001|TWO_SIDED|95.0|5.3|13.65||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in HDL cholesterol (mg/dL)||13.65|5.30|<0.001
92331342|NCT04767529|184567647|SUPERIORITY|Week 24|Mean Difference (Net)|-14.4|STANDARD_ERROR_OF_MEAN|4.99||0.005|TWO_SIDED|95.0|-24.28|-4.53|||Mixed Models Analysis|||Treatment comparison of change from baseline (EFX 28 mg - placebo) in LDL cholesterol (mg/dL)||-4.53|-24.28|0.005
92331343|NCT04767529|184567647|SUPERIORITY|Week 24|Median Difference (Net)|-13.6|STANDARD_ERROR_OF_MEAN|4.98||0.007|TWO_SIDED|95.0|-23.5|-3.76|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in LDL cholesterol (mg/dL)||-3.76|-23.50|0.007
92331344|NCT04767529|184567647|SUPERIORITY|Week 96|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|7.04||0.99|TWO_SIDED|95.0|-13.86|14.04||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of change from baseline (EFX 28 mg - placebo) in LDL cholesterol (mg/dL)||14.04|-13.86|0.990
92331345|NCT04767529|184567647|SUPERIORITY|Week 96|Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|7.01||0.98|TWO_SIDED|95.0|-14.07|13.71||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in LDL cholesterol (mg/dL)||13.71|-14.07|0.980
92331346|NCT04767529|184567647|SUPERIORITY|Week 24|Mean Difference (Net)|-22.6|STANDARD_ERROR_OF_MEAN|5.52|<|0.001|TWO_SIDED|95.0|-33.58|-11.71|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 28 mg - placebo) in non-HDL cholesterol (mg/dL)||-11.71|-33.58|<0.001
92331347|NCT04767529|184567647|SUPERIORITY|Week 24|Mean Difference (Net)|-22.7|STANDARD_ERROR_OF_MEAN|5.51|<|0.001|TWO_SIDED|95.0|-33.56|-11.74|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 50mg - placebo) in non-HDL cholesterol (mg/dL)||-11.74|-33.56|<0.001
92331348|NCT04767529|184567647|SUPERIORITY|Week 96|Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|7.9||0.443|TWO_SIDED|95.0|-21.72|9.56||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 28 mg - placebo) in non-HDL cholesterol (mg/dL)||9.56|-21.72|0.443
92331349|NCT04767529|184567647|SUPERIORITY|Week 96|Mean Difference (Net)|-8.2|STANDARD_ERROR_OF_MEAN|7.86||0.299|TWO_SIDED|95.0|-23.77|7.36||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in non-HDL cholesterol (mg/dL)||7.36|-23.77|0.299
92331350|NCT04767529|184567656|SUPERIORITY|Week 24|Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|1.18||0.75|TWO_SIDED|95.0|-1.96|2.72||Threshold for significance set at p\<0.05|Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 28 mg - placebo) in body weight (kg)||2.72|-1.96|0.750
92331351|NCT04767529|184567656|SUPERIORITY|Week 24|Mean Difference (Net)|-2.4|STANDARD_ERROR_OF_MEAN|1.18||0.042|TWO_SIDED|95.0|-4.75|-0.09||Threshold for significance set at p\<0.05|Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in body weight (kg)||-0.09|-4.75|0.042
92331352|NCT04767529|184567656|SUPERIORITY|Week 96|Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|2.07||0.564|TWO_SIDED|95.0|-2.9|5.29|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (28 mg EFX - placebo) in body weight (kg)||5.29|-2.90|0.564
92331353|NCT04767529|184567656|SUPERIORITY|Week 96|Mean Difference (Net)|-1.9|STANDARD_ERROR_OF_MEAN|2.06||0.348|TWO_SIDED|95.0|-6.02|2.14|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in body weight (kg)||2.14|-6.02|0.348
92331354|NCT04767529|184567657|SUPERIORITY|Week 24|Mean Difference (Net)|-2.1|STANDARD_ERROR_OF_MEAN|1.24||0.102|TWO_SIDED|95.0|-4.5|0.4|||Mixed Models Analysis|||Treatment comparison of change from baseline (EFX 28 mg - placebo) in Liver Stiffness Measurement (kPa)||0.4|-4.5|0.102
92331355|NCT04767529|184567657|SUPERIORITY|Week 24|Mean Difference (Net)|-3.3|STANDARD_ERROR_OF_MEAN|1.26||0.009|TWO_SIDED|95.0|-5.8|-0.8|||Mixed Models Analysis|||Treatment comparison of change from baseline (EFX 50 mg - placebo) in Liver Stiffness Measurement (kPa)||-0.8|-5.8|0.009
92331356|NCT04767529|184567657|SUPERIORITY|Week 96|Mean Difference (Net)|-3.4|STANDARD_ERROR_OF_MEAN|1.43||0.021|TWO_SIDED|95.0|-6.2|-0.5||Threshold for significance set at P\<0.05|Mixed Models Analysis||LS Means, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX 28 mg and placebo group|Treatment comparison of change from baseline (EFX 28 mg - placebo) in Liver Stiffness Measurement (kPa)||-0.5|-6.2|0.021
92331357|NCT04767529|184567657|SUPERIORITY|Week 96|Mean Difference (Net)|-6.6|STANDARD_ERROR_OF_MEAN|1.43|<|0.001|TWO_SIDED|95.0|-9.4|-3.7|||Mixed Models Analysis||LS Means, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX 50 mg and placebo group|Treatment comparison of change from baseline (EFX 50 mg - placebo) in Liver Stiffness Measurement (kPa)||-3.7|-9.4|<0.001
92331358|NCT04847232|184567658|OTHER|Test of HR = 1|Hazard Ratio (HR)|0.98||||0.867|TWO_SIDED|95.0|0.76|1.26|||Regression, Cox||SZC relative to Placebo|||1.26|0.76|0.867
92331359|NCT04847232|184567659|OTHER|Test of OR = 1|Odds Ratio (OR)|3.36|||<|0.0001|TWO_SIDED|95.0|2.64|4.26|||Regression, Logistic||SZC relative to Placebo|||4.26|2.64|<.0001
92331360|NCT04847232|184567660|OTHER|Test of HR = 1|Hazard Ratio (HR)|1.12||||0.51|TWO_SIDED|95.0|0.8|1.56|||Regression, Cox||SZC relative to Placebo|||1.56|0.80|0.510
92331361|NCT06010732|184567693|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.986|TWO_SIDED|95.0|-5.5|5.4||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Positive Control|Based on previous studies we estimate the standard deviation of the differences between treatments in the crossover model to be 20 for % SMH recovery. With a sample size of 58 subjects completing the study, the study had 80% power to detect a difference between any two treatments of 7.5 for % SMH recovery, assuming two-sided tests each conducted at a 5% significance level.||5.4|-5.5|0.986
92331362|NCT06010732|184567693|SUPERIORITY||Mean Difference (Final Values)|27.2|||<|0.001|TWO_SIDED|95.0|21.7|32.6||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Placebo|Based on previous studies we estimate the standard deviation of the differences between treatments in the crossover model to be 20 for % SMH recovery. With a sample size of 58 subjects completing the study, the study had 80% power to detect a difference between any two treatments of 7.5 for % SMH recovery, assuming two-sided tests each conducted at a 5% significance level.||32.6|21.7|<0.001
92331363|NCT06010732|184567693|SUPERIORITY||Mean Difference (Final Values)|27.2|||<|0.001|TWO_SIDED|95.0|21.7|32.7||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Positive Control-Placebo|Based on previous studies we estimate the standard deviation of the differences between treatments in the crossover model to be 20 for % SMH recovery. With a sample size of 58 subjects completing the study, the study had 80% power to detect a difference between any two treatments of 7.5 for % SMH recovery, assuming two-sided tests each conducted at a 5% significance level.||32.7|21.7|<0.001
92331364|NCT06010732|184567694|SUPERIORITY||Ratio of Means|1.11||||0.23|TWO_SIDED|95.0|0.93|1.32||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Positive Control|analyzed as log(EFU)||1.32|0.93|0.230
92331365|NCT06010732|184567694|SUPERIORITY||Ratio of Means|5.77|||<|0.001|TWO_SIDED|95.0|4.86|6.85||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Placebo|analyzed as log(EFU)||6.85|4.86|<0.001
92331366|NCT06010732|184567694|SUPERIORITY||Ratio of Means|5.2|||<|0.001|TWO_SIDED|95.0|4.37|6.18||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Positive Control/Placebo|analyzed as log(EFU)||6.18|4.37|<0.001
92331367|NCT06010732|184567695|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.272|TWO_SIDED|95.0|-2.5|8.6||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Positive Control|||8.6|-2.5|0.272
92331368|NCT06010732|184567695|SUPERIORITY||Mean Difference (Final Values)|34.8|||<|0.001|TWO_SIDED|95.0|29.3|40.3||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Placebo|||40.3|29.3|<0.001
92331369|NCT06010732|184567695|SUPERIORITY||Mean Difference (Final Values)|31.7|||<|0.001|TWO_SIDED|95.0|26.2|37.3||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Positive Control-Placebo|||37.3|26.2|<0.001
92331370|NCT06010732|184567696|SUPERIORITY||Ratio of Means|1.11||||0.191|TWO_SIDED|95.0|0.93|1.32||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Positive Control|analyzed as log(%CAR+100)||1.32|0.93|0.191
92331371|NCT06010732|184567696|SUPERIORITY||Ratio of Means|0.94||||0.003|TWO_SIDED|95.0|0.91|0.98||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Placebo|analyzed as log(%CAR+100)||0.98|0.91|0.003
92331372|NCT06010732|184567696|SUPERIORITY||Ratio of Means|0.97||||0.092|TWO_SIDED|95.0|0.93|1.01||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Positive Control/Placebo|analyzed as log(%CAR+100)||1.01|0.93|0.092
92331373|NCT06010732|184567697|SUPERIORITY||Ratio of Means|1.01||||0.905|TWO_SIDED|95.0|0.9|1.13||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Positive Control|analyzed as log(∆Z)||1.13|0.90|0.905
92331374|NCT06010732|184567697|SUPERIORITY||Ratio of Means|0.71|||<|0.001|TWO_SIDED|95.0|0.63|0.8||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Placebo|analyzed as log(∆Z)||0.80|0.63|<0.001
92331375|NCT06010732|184567697|SUPERIORITY||Ratio of Means|0.7|||<|0.001|TWO_SIDED|95.0|0.63|0.79||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Positive Control/Placebo|analyzed as log(∆Z)||0.79|0.63|<0.001
92331376|NCT06010732|184567698|SUPERIORITY||Ratio of Means|0.98||||0.721|TWO_SIDED|95.0|0.88|1.09||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Positive Control|analyzed as log(lesion depth)||1.09|0.88|0.721
92331377|NCT06010732|184567698|SUPERIORITY||Ratio of Means|0.75|||<|0.001|TWO_SIDED|95.0|0.68|0.84||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Placebo|analyzed as log(lesion depth)||0.84|0.68|<0.001
92331378|NCT06010732|184567698|SUPERIORITY||Ratio of Means|0.77|||<|0.001|TWO_SIDED|95.0|0.69|0.86||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Positive Control/Placebo|analyzed as log(lesion depth)||0.86|0.69|<0.001
92331379|NCT06010732|184567699|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.647|TWO_SIDED|95.0|-2.95|1.84||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Positive Control|||1.84|-2.95|0.647
92331380|NCT06010732|184567699|SUPERIORITY||Mean Difference (Final Values)|6.35|||<|0.001|TWO_SIDED|95.0|3.95|8.75||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Placebo|||8.75|3.95|<0.001
92331381|NCT06010732|184567699|SUPERIORITY||Mean Difference (Final Values)|6.9|||<|0.001|TWO_SIDED|95.0|4.49|9.31||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Positive Control-Placebo|||9.31|4.49|<0.001
92331382|NCT00253370|184567704|SUPERIORITY_OR_OTHER||proportion of participants|0.409||||0.0012|TWO_SIDED|90.0|0.284|0.544|||one-sample binomial test|||The study was designed to distinguish a response rate of 40% from 20%, the null hypothesis. With the planned sample size of 36 eligible patients, the study has 91% power based on a 0.09 level one-sided test.||0.544|0.284|0.0012
92331383|NCT02636699|184567722|OTHER||Difference in Response Rates (%)|21.7|||<|0.001|TWO_SIDED|95.0|12.4|29.8|||Wald|||Analysis of the difference in response rates between DBV712 250 μg group and Placebo group and 2-sided Newcombe 95% confidence interval (CI). P-value was obtained from a 2-sided 5% test to evaluate the null hypothesis of no difference in response rates between treatment groups using the Wald method. Clinical relevance was evaluated based on the lower bound of the Newcombe 95% CI of the difference in response rates ≥15%.||29.8|12.4|<0.001
92331384|NCT02636699|184567723|OTHER||Difference in Response Rates (%)|19.0||||0.105|TWO_SIDED|95.0|-6.4|38.4|||Wald|||"Screening ED subgroup 1:~Analysis of the difference in response rates between DBV712 250 μg group and Placebo group and 2-sided Newcombe 95% CI. P-value was obtained from a 2-sided 5% test to evaluate the null hypothesis of no difference in response rates between treatment groups using the Wald method. Clinical relevance was evaluated based on the lower bound of the Newcombe 95% CI of the difference in response rates \>0."||38.4|-6.4|0.105
92331385|NCT02636699|184567723|OTHER||Difference in Response Rates (%)|22.3|||<|0.001|TWO_SIDED|95.0|12.1|30.8|||Wald|||"Screening ED subgroup 2:~Analysis of the difference in response rates between DBV712 250 μg group and Placebo group and 2-sided Newcombe 95% CI. P-value was obtained from a 2-sided 5% test to evaluate the null hypothesis of no difference in response rates between treatment groups using the Wald method. Clinical relevance was evaluated based on the lower bound of the Newcombe 95% CI of the difference in response rates \>0."||30.8|12.1|<0.001
92331386|NCT02636699|184567724|OTHER||Difference in Median CRD|297.0|||<|0.001|TWO_SIDED|95.0|130.0|317.0|||Wilcoxon rank-sum test|||The treatment effect was estimated using the Hodges-Lehmann estimate of the difference in median CRDs at Month 12.||317.0|130.0|<0.001
92331387|NCT05079230|184567779|SUPERIORITY||Hazard Ratio (HR)|1.178||||0.3276|TWO_SIDED|95.0|0.848|1.637|||stratified log-rank test|The 2-sided P-value was based on stratified log-rank test, stratified by stratification factors at randomization.|Stratified hazard ratio (HR) and its 95% CI were calculated using the stratified cox proportional hazards model.|||1.637|0.848|0.3276
92331388|NCT05079230|184567780|SUPERIORITY||Stratified Odds Ratio|0.826||||0.3616|TWO_SIDED|95.0|0.545|1.251|||Stratum-adjusted Mantel-Haenszel||Stratified odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for stratification factors.|||1.251|0.545|0.3616
92331389|NCT05079230|184567781|SUPERIORITY||Stratified Odds Ratio|0.856||||0.4679|TWO_SIDED|95.0|0.56|1.307|||Stratum-adjusted Mantel-Haenszel||Stratified odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for stratification factors.|||1.307|0.560|0.4679
92331390|NCT05079230|184567782|SUPERIORITY||Stratified Hazard Ratio|0.946||||0.7903|TWO_SIDED|95.0|0.73|1.225|||Stratified Log Rank||The 2-sided P-value was based on stratified log-rank test, stratified by stratification factors at randomization.|||1.225|0.730|0.7903
92331391|NCT05079230|184567785|SUPERIORITY||Stratified Odds Ratio|1.189||||0.4873|TWO_SIDED|95.0|0.727|1.945|||Stratum-adjusted Mantel Haenszel||Stratified odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for stratification factors.|||1.945|0.727|0.4873
92331392|NCT05079230|184567786|SUPERIORITY||Stratified Odds Ratio|1.154||||0.5842|TWO_SIDED|95.0|0.69|1.932|||Stratum-adjusted Mantel Haenszel||Stratified odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for stratification factors.|||1.932|0.690|0.5842
92331393|NCT05079230|184567787|SUPERIORITY||Stratified Odds Ratio|0.783||||0.3003|TWO_SIDED|95.0|0.492|1.245|||Cochran-Mantel-Haenszel||The 2-sided P-value was based on Cochran-Mantel-Haenszel (CMH) method stratified by the stratification factors at randomization (age, genetic risk group, and geographic region).|||1.245|0.492|0.3003
92331394|NCT05079230|184567788|SUPERIORITY||Stratified Odds Ratio|1.21||||0.579|TWO_SIDED|95.0|0.62|2.36||The 2-sided P-value was based on Cochran-Mantel-Haenszel (CMH) method stratified by the stratification factors at randomization (age, genetic risk group, and geographic region).|Cochran-Mantel-Haenszel|||||2.360|0.620|0.5790
92331395|NCT05079230|184567789|SUPERIORITY||Stratified Hazard Ratio|1.09||||0.5796|TWO_SIDED|95.0|0.799|1.487|||Stratified Log Rank|The 2-sided P-value was based on stratified log-rank test, stratified by stratification factors at randomization.|Stratified hazard ratio (HR) and its 95% CI are calculated using the stratified cox proportional hazards model.|||1.487|0.799|0.5796
92331396|NCT05079230|184567790|SUPERIORITY||Stratified Hazard Ratio|1.271||||0.1026|TWO_SIDED|95.0|0.948|1.704|||Stratified Log Rank|The 2-sided P-value was based on stratified log-rank test, stratified by stratification factors at randomization.|Stratified hazard ratio (HR) and its 95% CI were calculated using the stratified cox proportional hazards model.|||1.704|0.948|0.1026
92331397|NCT01782352|184567813|SUPERIORITY||Hazard Ratio (HR)|1.02|||<|0.05|TWO_SIDED|95.0|0.82|1.27|||Regression, Cox|||||1.27|0.82|<0.05
92331398|NCT01782352|184567813|SUPERIORITY||Hazard Ratio (HR)|0.94|||<|0.05|TWO_SIDED|95.0|0.76|1.17|||Regression, Cox|||||1.17|0.76|<0.05
92331399|NCT01782352|184567814|SUPERIORITY||Hazard Ratio (HR)|1.21|||<|0.05|TWO_SIDED|95.0|0.86|1.7|||Regression, Cox|||||1.70|0.86|<0.05
92331400|NCT01782352|184567814|SUPERIORITY||Hazard Ratio (HR)|0.84|||<|0.05|TWO_SIDED|95.0|0.59|1.17|||Regression, Cox|||||1.17|0.59|<0.05
92331401|NCT01782352|184567815|SUPERIORITY||Hazard Ratio (HR)|1.23|||<|0.05|TWO_SIDED|95.0|0.81|1.84|||Regression, Cox|||||1.84|0.81|<0.05
92331402|NCT01782352|184567815|SUPERIORITY||Hazard Ratio (HR)|0.72|||<|0.05|TWO_SIDED|95.0|0.48|1.09|||Regression, Cox|||||1.09|0.48|<0.05
92331403|NCT01782352|184567816|SUPERIORITY||Hazard Ratio (HR)|1.09|||<|0.05|TWO_SIDED|95.0|0.86|1.37|||Regression, Cox|||||1.37|0.86|<0.05
92331404|NCT01782352|184567816|SUPERIORITY||Hazard Ratio (HR)|0.93|||<|0.05|TWO_SIDED|95.0|0.73|1.17|||Regression, Cox|||||1.17|0.73|<0.05
92331405|NCT01782352|184567817|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.05|TWO_SIDED|95.0|0.33|1.21|||Regression, Cox|||||1.21|0.33|<0.05
92331406|NCT01782352|184567817|SUPERIORITY||Hazard Ratio (HR)|1.05|||<|0.05|TWO_SIDED|95.0|0.56|1.97|||Regression, Cox|||||1.97|0.56|<0.05
92331407|NCT01782352|184567818|SUPERIORITY||Hazard Ratio (HR)|0.93|||<|0.05|TWO_SIDED|95.0|0.69|1.25|||Regression, Cox|||||1.25|0.69|<0.05
92331408|NCT01782352|184567818|SUPERIORITY||Hazard Ratio (HR)|0.9|||<|0.05|TWO_SIDED|95.0|0.67|1.21|||Regression, Cox|||||1.21|0.67|<0.05
92331409|NCT00477607|184567819|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0||||0.89|TWO_SIDED|95.0|0.4|11.4|||Fisher Exact|No adjustments. Right one-sided p-value.||H0: pr(Hearing loss arm 1) = pr(Hearing loss arm 2)||11.4|0.4|0.89
92331410|NCT00477607|184567820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.195|STANDARD_ERROR_OF_MEAN|0.3999||0.63|TWO_SIDED|95.0|-1.03|0.64|||t-test, 2 sided|||H0: mean (MDA arm 1) = mean (MDA Arm 2)||0.64|-1.03|0.63
92331411|NCT00477607|184567821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.2|STANDARD_ERROR_OF_MEAN|32.7||0.15|TWO_SIDED|95.0|-18.1|114.6|||t-test, 2 sided|||H0: mean(max dose arm 1) = mean(max dose arm 2)||114.6|-18.1|0.15
92331412|NCT00432276|184567822|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted at the 1-sided 0.025 significance level. Non-inferiority was demonstrated if the upper confidence limit for the LS mean difference was less than +0.3%.|LS mean difference|-0.47|||||ONE_SIDED|97.5||-0.35|||ANCOVA||Least squares means are from an ANCOVA model with treatment, study schedule, and geographic region as class variables, and baseline metformin dose and baseline HbA1c as covariates.|The analysis was conducted at the 1-sided 0.025 significance level. Non-inferiority was demonstrated if the upper confidence limit for the LS mean difference was less than +0.3%.||-0.35||
92331413|NCT00432276|184567822|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted at the 1-sided 0.025 significance level. Non-inferiority was demonstrated if the upper confidence limit for the LS mean difference was less than +0.3%.|LS mean difference|-0.42|||||ONE_SIDED|97.5||-0.28|||ANCOVA||Least squares means are from an ANCOVA model with treatment, study schedule, and geographic region as class variables, and baseline metformin dose and baseline HbA1c as covariates.|Comparison of Change from Baseline at Week 52. The null hypothesis was that the average change from Baseline in HbA1c at Week 52 for the alogliptin 25 mg addition group is inferior to the average change for the pioglitazone titration group. The alternative hypothesis was that the change from Baseline in HbA1c for the alogliptin 25 mg addition group was non-inferior to the change for the pioglitazone titration group for at Week 52.||-0.28||
92331414|NCT00432276|184567823|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.44|||<|0.001|TWO_SIDED|95.0|-0.57|-0.31||Statistical tests and resulting P-values are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|ANCOVA model with treatment, study schedule, and geographic region as class variables, and baseline metformin dose and baseline HbA1c as covariates.||Comparison of change from Baseline in HbA1c at Week 42.||-0.31|-0.57|<0.001
92331415|NCT00432276|184567831|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.9|||<|0.001|TWO_SIDED|95.0|-16.2|-5.7||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|ANCOVA model with treatment, study schedule and geographic region as class variables, and baseline metformin dose and FPG as covariates.||Comparison of change from Baseline at Week 52.||-5.7|-16.2|<0.001
92331416|NCT00432276|184567832|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|Extended Mantel Haenszel Test|Treatment comparison was performed using nonparametric, covariance-adjusted, extended Mantel-Haenszel test.||Comparison of incidence of marked hyperglycemia through Week 52.||||<0.001
92331417|NCT00432276|184567833|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|Extended Mantel Haenszel Test|Treatment comparison was performed using nonparametric, covariance-adjusted, extended Mantel-Haenszel test.||Comparison of incidence of hyperglycemic rescue through Week 52.||||<0.001
92331418|NCT00432276|184567834|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6||||0.116|TWO_SIDED|95.0|-3.7|0.4||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|ANCOVA model with treatment, study schedule and geographic region as class variables, and baseline metformin dose and proinsulin as covariates.||Comparison of change from Baseline at Week 52.||0.4|-3.7|0.116
92331419|NCT00432276|184567835|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73||||0.276|TWO_SIDED|95.0|-0.58|2.04||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|ANCOVA model with treatment, study schedule and geographic region as class variables, and baseline metformin dose and fasting insulin as covariates.||Comparison of change from Baseline at Week 52.||2.04|-0.58|0.276
92331420|NCT00432276|184567836|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.041|||<|0.001|TWO_SIDED|95.0|-0.063|-0.018||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline proinsulin/insulin ratio as covariates.||Comparison of change from Baseline at Week 52.||-0.018|-0.063|<0.001
92331421|NCT00432276|184567837|SUPERIORITY_OR_OTHER||LS Mean Difference|0.073||||0.23|TWO_SIDED|95.0|-0.047|0.193||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline fasting C-peptide as covariates.||Comparison of change from Baseline at Week 52.||0.193|-0.047|0.230
92331422|NCT00432276|184567838|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.188||||0.567|TWO_SIDED|95.0|-0.83|0.455||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline HOMA insulin resistance as covariates.||Comparison of change from Baseline at Week 52.||0.455|-0.830|0.567
92331423|NCT00432276|184567839|SUPERIORITY_OR_OTHER||LS Mean Difference|12.963|||<|0.001|TWO_SIDED|95.0|5.333|20.592||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline HOMA beta cell function as covariates.||Comparison of change from Baseline at Week 52.||20.592|5.333|<0.001
92331424|NCT00432276|184567840|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.071|TWO_SIDED|95.0|-1.03|0.04||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline body weight as covariates.||Comparison of change from Baseline at Week 52.||0.04|-1.03|0.071
92331425|NCT00432276|184567841|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.2||||0.058|TWO_SIDED|95.0|-8.6|0.1||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline total cholesterol as covariates.||Comparison of change from Baseline at Week 52.||0.1|-8.6|0.058
92331426|NCT00432276|184567842|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.228|TWO_SIDED|95.0|-1.7|0.4||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline HDL cholesterol as covariates.||Comparison of change from Baseline at Week 52.||0.4|-1.7|0.228
92331427|NCT00432276|184567843|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8||||0.132|TWO_SIDED|95.0|-6.5|0.9||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline LDL cholesterol as covariates.||Comparison of change from Baseline at Week 52.||0.9|-6.5|0.132
92331428|NCT00432276|184567844|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.6||||0.08|TWO_SIDED|95.0|-18.3|1.0||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline triglycerides as covariates.||Comparison of change from Baseline at Week 52.||1.0|-18.3|0.080
92331429|NCT00432276|184567845|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0314||||0.059|TWO_SIDED|95.0|-0.064|0.0012||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline free fatty acid as covariates.||Comparison of change from Baseline at Week 52.||0.0012|-0.0640|0.059
92331430|NCT00432276|184567846|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.934|TWO_SIDED|95.0|-2.9|2.6||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline apolipoprotein A1 as covariates.||Comparison of change from Baseline at Week 52.||2.6|-2.9|0.934
92331431|NCT00432276|184567847|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.07|TWO_SIDED|95.0|-1.3|0.1||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline apolipoprotein A2 as covariates.||Comparison of change from Baseline at Week 52.||0.1|-1.3|0.070
92331432|NCT00432276|184567848|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9||||0.064|TWO_SIDED|95.0|-5.9|0.2||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline apolipoprotein B as covariates.||Comparison of change from Baseline at Week 52.||0.2|-5.9|0.064
92331433|NCT00432276|184567849|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.022|TWO_SIDED|95.0|-1.0|-0.1||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline apolipoprotein C-III as covariates.||Comparison of change from Baseline at Week 52.||-0.1|-1.0|0.022
92331434|NCT00432276|184567850|SUPERIORITY_OR_OTHER||LS Mean Difference|1.78||||0.308|TWO_SIDED|95.0|-1.65|5.22||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline PAI-1 as covariates.||Comparison of change from Baseline at Week 52.||5.22|-1.65|0.308
92331435|NCT00432276|184567851|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8209||||0.283|TWO_SIDED|95.0|-2.3209|0.679||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline hsCRP as covariates.||Comparison of change from Baseline at Week 52.||0.6790|-2.3209|0.283
92331436|NCT00432276|184567852|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.92|||<|0.001|TWO_SIDED|95.0|-4.57|-1.27||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline adiponectin as covariates.||Comparison of change from Baseline at Week 52.||-1.27|-4.57|<0.001
92331437|NCT00432276|184567853|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.1||||0.197|TWO_SIDED|95.0|-15.4|3.2||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|||Comparison of change from Baseline at Week 52.||3.2|-15.4|0.197
92331438|NCT00207727|184567896|SUPERIORITY_OR_OTHER|||||||0||95.0||||The p-value was non estimable because the observed trend was in the opposite direction of that stated in the one sided alternative hypothesis|Jonckheere Terpstra|Jonckheere Terpstra nonparametric trend test procedure with 5% level of significance was be used to test for the monotonic trend.||Hypothesis: The null hypothesis of no effect among the treatment groups was tested against the alternative hypothesis that the cumulative number of newly Gd-enhancing T1-weighted lesions on cranial MRIs through Week 23 would decrease monotonically with dose at a significance level of 0.05.||||0.00
92331439|NCT00207727|184567897|SUPERIORITY_OR_OTHER|||||||0.892||95.0|||||2-sided Wilcoxon Mann-Whitney|||||||0.892
92331440|NCT00207727|184567897|SUPERIORITY_OR_OTHER|||||||0.599||95.0|||||2-sided Wilcoxon Mann-Whitney|||||||0.599
92331441|NCT00207727|184567897|SUPERIORITY_OR_OTHER|||||||0.517||95.0|||||2-sided Wilcoxon Mann-Whitney|||||||0.517
92331442|NCT00207727|184567897|SUPERIORITY_OR_OTHER|||||||0.967||95.0|||||2-sided Wilcoxon Mann-Whitney|||Hypothesis: The null hypothesis is no difference between any ustekinumab treatment groups and placebo at a significant level of 0.05 for comparison for each treatment group.||||0.967
92331443|NCT00207727|184567898|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Wilcoxon (Mann-Whitney)|2-sided Wilcoxon Mann-Whitney test (α = 0.05) used for each comparison with placebo||||||0.720
92331444|NCT00207727|184567898|SUPERIORITY_OR_OTHER|||||||0.152||95.0|||||Wilcoxon (Mann-Whitney)|2-sided Wilcoxon Mann-Whitney test (α = 0.05) used for each comparison with placebo||||||0.152
92331445|NCT00207727|184567898|SUPERIORITY_OR_OTHER|||||||0.431||95.0|||||Wilcoxon (Mann-Whitney)|2-sided Wilcoxon Mann-Whitney test (α = 0.05) used for each comparison with placebo||||||0.431
92331446|NCT00207727|184567898|SUPERIORITY_OR_OTHER|||||||0.292||95.0|||||Wilcoxon (Mann-Whitney)|2-sided Wilcoxon Mann-Whitney test (α = 0.05) used for each comparison with placebo||Hypothesis: The null hypothesis is no difference between any ustekinumab treatment groups and placebo at a significant level of 0.05 for comparison for each treatment group with placebo..||||0.292
92331447|NCT03759366|184567899|SUPERIORITY||Least Square Mean|-5.8||||0.0004|TWO_SIDED|95.0|-8.4|-3.13|||Repeated Measures Model||The least square mean change from baseline in QMG total score at Week 26 was calculated.|The observed change in QMG was analyzed with baseline QMG score and visits as covariates.||-3.13|-8.40|0.0004
92331448|NCT03759366|184567913|SUPERIORITY||Least Square Mean|-4.3||||0.0033|TWO_SIDED|95.0|-6.93|-1.65|||Repeated Measures Model||The least square mean change from baseline in QMG total score at Week 52 was calculated.|The observed change in QMG was analyzed with baseline QMG score and visits as covariates.||-1.65|-6.93|0.0033
92331449|NCT01093651|184567939|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for CD4+ T-cell count over time and between the 2 groups did not achieve p\<0.05 (not statistically significant).|Mixed Models Analysis|Study subject was included in these models as a random variable to account for within-participant correlation.||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in CD4+ T-cell count between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||>0.05
92331450|NCT01093651|184567940|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for plasma HIV RNA copy number/mL over time and between the 2 groups did not achieve p\<0.05 (not statistically significant).|Mixed Models Analysis|||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in plasma HIV RNA copy number/mL between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||>0.05
92331451|NCT01093651|184567941|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for serum TNFR2 levels over time and between the 2 groups did not achieve p\<0.05 (not statistically significant).|Mixed Models Analysis|||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in serum TNFR2 levels between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||>0.05
92331452|NCT01093651|184567942|SUPERIORITY_OR_OTHER||||||<|0.0002||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for SDF1-alpha levels over time and between the 2 groups achieved p\<0.0002.|Mixed Models Analysis|||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in serum SDF1α levels between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||<0.0002
92331453|NCT01093651|184567943|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for serum RANTES levels over time and between the 2 groups did not achieve p\<0.05 (not statistically significant).|Mixed Models Analysis|||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in serum RANTES levels between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||>0.05
92331454|NCT01093651|184567944|SUPERIORITY_OR_OTHER||||||<|0.04||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for area under the glucose tolerance curve over time and between the 2 groups achieved p\<0.04.|Mixed Models Analysis|||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in area under the glucose tolerance curves between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||<0.04
92331455|NCT01093651|184567945|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was p\<0.05. The non-paramteric test for adverse event cummulative frequency between the 2 groups did not achieve p\<0.05 (not statistically significant)|Kruskal-Wallis|||Kruskal-Wallis non-parametric test of cell frequencies||||>0.05
92331456|NCT03611582|184567946|SUPERIORITY||Treatment difference|-10.27|||<|0.0001|TWO_SIDED|95.0|-11.97|-8.57|||ANCOVA|||Treatment policy estimand||-8.57|-11.97|<.0001
92331457|NCT03611582|184567946|SUPERIORITY||Treatment difference|-12.67|||<|0.0001|TWO_SIDED|95.0|-14.34|-11.0|||MMRM (mixed model repeated measurement)|||Hypothetical estimand||-11.00|-14.34|<0.0001
92331458|NCT03611582|184567947|SUPERIORITY||Odds Ratio (OR)|6.11|||<|0.0001|TWO_SIDED|95.0|4.04|9.26|||Regression, Logistic|||Treatment policy estimand||9.26|4.04|<0.0001
92331459|NCT03611582|184567947|SUPERIORITY||Odds Ratio (OR)|11.67|||<|0.0001|TWO_SIDED|95.0|7.64|17.81|||MMRM (mixed model repeated measurement)|||Hypothetical estimand||17.81|7.64|<0.0001
92331460|NCT02081014|184568002|SUPERIORITY_OR_OTHER||Point estimate ratio|0.62|STANDARD_ERROR_OF_MEAN|0.07|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331461|NCT02081014|184568002|SUPERIORITY_OR_OTHER||Point estimate ratio|0.35|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331462|NCT02081014|184568002|SUPERIORITY_OR_OTHER||Point estimate ratio|0.57|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331463|NCT02081014|184568003|SUPERIORITY_OR_OTHER||Point estimate ratio|0.74|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331464|NCT02081014|184568003|SUPERIORITY_OR_OTHER||Point estimate ratio|0.44|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331465|NCT02081014|184568003|SUPERIORITY_OR_OTHER||Point estimate ratio|0.59|STANDARD_ERROR_OF_MEAN|0.05|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331466|NCT02081014|184568004|SUPERIORITY_OR_OTHER||Point point ratio|0.68|STANDARD_ERROR_OF_MEAN|0.05|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331467|NCT02081014|184568004|SUPERIORITY_OR_OTHER||Point estimate ratio|0.36|STANDARD_ERROR_OF_MEAN|0.03|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331468|NCT02081014|184568004|SUPERIORITY_OR_OTHER||Point estimate ratio|0.53|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331469|NCT02081014|184568005|SUPERIORITY_OR_OTHER||Point estimate ratio|0.72|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331470|NCT02081014|184568005|SUPERIORITY_OR_OTHER||Point estimate ratio|0.44|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331471|NCT02081014|184568005|SUPERIORITY_OR_OTHER||Point estimate ratio|0.6|STANDARD_ERROR_OF_MEAN|0.03|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331472|NCT02081014|184568006|SUPERIORITY_OR_OTHER||Point esimate ratio|0.98|STANDARD_ERROR_OF_MEAN|0.14|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331473|NCT02081014|184568006|SUPERIORITY_OR_OTHER||Point estimate ratio|0.78|STANDARD_ERROR_OF_MEAN|0.11|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331474|NCT02081014|184568006|SUPERIORITY_OR_OTHER||Point estimate ratio|0.79|STANDARD_ERROR_OF_MEAN|0.11|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331475|NCT02081014|184568007|SUPERIORITY_OR_OTHER||Point estimate ratio|0.75|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331476|NCT02081014|184568007|SUPERIORITY_OR_OTHER||Point estimate ratio|0.73|STANDARD_ERROR_OF_MEAN|0.1|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331477|NCT02081014|184568007|SUPERIORITY_OR_OTHER||Point estimate ratio|0.96|STANDARD_ERROR_OF_MEAN|0.13|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331478|NCT02081014|184568008|SUPERIORITY_OR_OTHER||Point estimate ratio|0.82|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331479|NCT02081014|184568008|SUPERIORITY_OR_OTHER||Point estimate ratio|0.7|STANDARD_ERROR_OF_MEAN|0.05|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331480|NCT02081014|184568008|SUPERIORITY_OR_OTHER||Point estimate ratio|0.85|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331481|NCT02081014|184568009|SUPERIORITY_OR_OTHER||Point estimate ratio|0.96|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331482|NCT02081014|184568009|SUPERIORITY_OR_OTHER||Point estimate ratio|0.83|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
92331483|NCT02081014|184568009|SUPERIORITY_OR_OTHER||Point estimate ratio|0.86|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331484|NCT02081014|184568010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3693.2|STANDARD_ERROR_OF_MEAN|1520.1|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92331485|NCT02081014|184568010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7548.05|STANDARD_ERROR_OF_MEAN|1542.93||0.05|TWO_SIDED||||||Mixed Models Analysis|||||||0.05
92331486|NCT02081014|184568010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3854.86|STANDARD_ERROR_OF_MEAN|1533.95|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92331487|NCT02081014|184568011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-144.9|STANDARD_ERROR_OF_MEAN|741.24|>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>0.05
92331488|NCT02081014|184568011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1665.32|STANDARD_ERROR_OF_MEAN|696.97|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92331489|NCT02081014|184568011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1520.39|STANDARD_ERROR_OF_MEAN|700.92|>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>0.05
92331490|NCT02081014|184568012|SUPERIORITY_OR_OTHER||Point estimate ratio|0.41|STANDARD_ERROR_OF_MEAN|0.32|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331491|NCT02081014|184568012|SUPERIORITY_OR_OTHER||Point estimate ratio|0.43|STANDARD_ERROR_OF_MEAN|0.34|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331492|NCT02081014|184568012|SUPERIORITY_OR_OTHER||Point estimate ratio|1.05|STANDARD_ERROR_OF_MEAN|0.81|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331493|NCT02081014|184568013|SUPERIORITY_OR_OTHER||Point estimate ratio|0.23|STANDARD_ERROR_OF_MEAN|0.29|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331494|NCT02081014|184568013|SUPERIORITY_OR_OTHER||Point estimate ratio|0.73|STANDARD_ERROR_OF_MEAN|0.88|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
92331495|NCT02081014|184568013|SUPERIORITY_OR_OTHER||Point estimate ratio|3.23|STANDARD_ERROR_OF_MEAN|3.84|>|0.05|TWO_SIDED||||||Regression, Linear||Geometric means|||||>0.05
92331496|NCT01026818|184568014|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.675|TWO_SIDED|95.0|0.63|2.06||The Type I error was controlled for multiplicity using a Bonferroni-Hommel procedure. First the largest p-value for the odds ratio to placebo was tested at the 5% level and in case of no rejection the second p-value was tested at the 2.5% level.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||A sample size of 412 randomized participants provided 84% power to detect a 20% difference in the proportions for the 3 treatment groups. The sample size allowed for a 20% withdrawal during the study.||2.06|0.63|0.675
92331497|NCT01026818|184568014|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.704|TWO_SIDED|95.0|0.48|1.65||The Type I error was controlled for multiplicity using a Bonferroni-Hommel procedure. First the largest p-value for the odds ratio to placebo was tested at the 5% level and in case of no rejection the second p-value was tested at the 2.5% level.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||A sample size of 412 randomized participants provided 84% power to detect a 20% difference in the proportions for the 3 treatment groups. The sample size allowed for a 20% withdrawal during the study.||1.65|0.48|0.704
92331498|NCT01026818|184568015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.15||||0.016|TWO_SIDED|95.0|1.16|3.99||P-value is for Month 9.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||||3.99|1.16|0.016
92331499|NCT01026818|184568015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.21|TWO_SIDED|95.0|0.79|2.85||P-value is for Month 9.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||||2.85|0.79|0.210
92331500|NCT01026818|184568015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.273|TWO_SIDED|95.0|0.79|2.28||P-value is for Month 13.5.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||||2.28|0.79|0.273
92331501|NCT01026818|184568015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.259|TWO_SIDED|95.0|0.8|2.29||P-value is for Month 13.5.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||||2.29|0.80|0.259
92331502|NCT01026818|184568016|SUPERIORITY_OR_OTHER||LS Mean Differences|2.8|STANDARD_ERROR_OF_MEAN|1.03||0.007|TWO_SIDED|95.0|0.76|4.83||P-value is for Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.83|0.76|0.007
92331503|NCT01026818|184568016|SUPERIORITY_OR_OTHER||LS Mean differences|1.59|STANDARD_ERROR_OF_MEAN|1.02||0.118|TWO_SIDED|95.0|-0.41|3.6||P-value is for Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||3.60|-0.41|0.118
92331504|NCT01026818|184568016|SUPERIORITY_OR_OTHER||LS Mean Differences|0.26|STANDARD_ERROR_OF_MEAN|1.04||0.802|TWO_SIDED|95.0|-1.79|2.31||P-value is for Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.31|-1.79|0.802
92331505|NCT01026818|184568016|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.22|STANDARD_ERROR_OF_MEAN|1.02||0.83|TWO_SIDED|95.0|-2.23|1.79||P-value is for Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.79|-2.23|0.830
92331506|NCT01026818|184568016|SUPERIORITY_OR_OTHER||LS Mean Differences|1.62|STANDARD_ERROR_OF_MEAN|1.22||0.184|TWO_SIDED|95.0|-0.78|4.03||P-value is for Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.03|-0.78|0.184
92331507|NCT01026818|184568016|SUPERIORITY_OR_OTHER||LS Mean Differences|0.81|STANDARD_ERROR_OF_MEAN|1.2||0.5|TWO_SIDED|95.0|-1.54|3.16||P-value is for Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||3.16|-1.54|0.500
92331508|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.37|STANDARD_ERROR_OF_MEAN|0.39||0.34||95.0|-0.39|1.14||P-value is for orgasmic function - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.14|-0.39|0.340
92331509|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.09|STANDARD_ERROR_OF_MEAN|0.38||0.821|TWO_SIDED|95.0|-0.67|0.84||P-value is for orgasmic function - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.84|-0.67|0.821
92331510|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.46|STANDARD_ERROR_OF_MEAN|0.42||0.268|TWO_SIDED|95.0|-0.36|1.28||P-value is for orgasmic function - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.28|-0.36|0.268
92331511|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.0|STANDARD_ERROR_OF_MEAN|0.41||0.998|TWO_SIDED|95.0|-0.8|0.8||P-value is for orgasmic function - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.80|-0.80|0.998
92331512|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.15|STANDARD_ERROR_OF_MEAN|0.42||0.728|TWO_SIDED|95.0|-0.68|0.97||P-value is for orgasmic function - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.97|-0.68|0.728
92331513|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.52|STANDARD_ERROR_OF_MEAN|0.41||0.203|TWO_SIDED|95.0|-1.33|0.28||P-value is for orgasmic function - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.28|-1.33|0.203
92331514|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.02|STANDARD_ERROR_OF_MEAN|0.24||0.95|TWO_SIDED|95.0|-0.46|0.49||P-value is for sexual desire - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.49|-0.46|0.950
92331515|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.01|STANDARD_ERROR_OF_MEAN|0.24||0.95|TWO_SIDED|95.0|-0.45|0.48||P-value is for sexual desire - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.48|-0.45|0.950
92331516|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.06|STANDARD_ERROR_OF_MEAN|0.23||0.792|TWO_SIDED|95.0|-0.39|0.51||P-value is for sexual desire - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.51|-0.39|0.792
92331517|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.11|STANDARD_ERROR_OF_MEAN|0.23||0.631|TWO_SIDED|95.0|-0.34|0.55||P-value is for sexual desire - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.55|-0.34|0.631
92331518|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.1|STANDARD_ERROR_OF_MEAN|0.24||0.691|TWO_SIDED|95.0|-0.38|0.58||P-value is for sexual desire - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.58|-0.38|0.691
92331519|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.06|STANDARD_ERROR_OF_MEAN|0.24||0.801|TWO_SIDED|95.0|-0.53|0.41||P-value is for sexual desire - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.41|-0.53|0.801
92331520|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.93|STANDARD_ERROR_OF_MEAN|0.5||0.065|TWO_SIDED|95.0|-0.06|1.92||P-value is for intercourse satisfaction - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.92|-0.06|0.065
92331521|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.54|STANDARD_ERROR_OF_MEAN|0.49||0.274|TWO_SIDED|95.0|-0.43|1.51||P-value is for intercourse satisfaction - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.51|-0.43|0.274
92331522|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.48|STANDARD_ERROR_OF_MEAN|0.53||0.359|TWO_SIDED|95.0|-0.55|1.52||P-value is for intercourse satisfaction - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.52|-0.55|0.359
92331523|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.09|STANDARD_ERROR_OF_MEAN|0.52||0.863|TWO_SIDED|95.0|-0.93|1.11||P-value is for intercourse satisfaction - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.11|-0.93|0.863
92331524|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.56|STANDARD_ERROR_OF_MEAN|0.56||0.314|TWO_SIDED|95.0|-0.53|1.66||P-value is for intercourse satisfaction - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.66|-0.53|0.314
92331525|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.06|STANDARD_ERROR_OF_MEAN|0.54||0.91|TWO_SIDED|95.0|-1.13|1.01||P-value is for intercourse satisfaction - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.01|-1.13|0.910
92331526|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.19|STANDARD_ERROR_OF_MEAN|0.3||0.532|TWO_SIDED|95.0|-0.4|0.78||P-value is for overall satisfaction - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.78|-0.40|0.532
92331527|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.15|STANDARD_ERROR_OF_MEAN|0.3||0.62|TWO_SIDED|95.0|-0.43|0.73||P-value is for overall satisfaction - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.73|-0.43|0.620
92331528|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.08|STANDARD_ERROR_OF_MEAN|0.3||0.792|TWO_SIDED|95.0|-0.67|0.51||P-value is for overall satisfaction - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.51|-0.67|0.792
92331529|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.24|STANDARD_ERROR_OF_MEAN|0.29||0.41|TWO_SIDED|95.0|-0.82|0.34||P-value is for overall satisfaction - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.34|-0.82|0.410
92331530|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.02|STANDARD_ERROR_OF_MEAN|0.34||0.955||95.0|-0.68|0.65||P-value is for overall satisfaction - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.65|-0.68|0.955
92331531|NCT01026818|184568017|SUPERIORITY_OR_OTHER||LS Mean Differences|0.05|STANDARD_ERROR_OF_MEAN|0.33||0.868|TWO_SIDED|95.0|-0.59|0.7||P-value is for overall satisfaction - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.70|-0.59|0.868
92331532|NCT01026818|184568018|SUPERIORITY_OR_OTHER||LS Mean Differences|0.33|STANDARD_ERROR_OF_MEAN|0.12||0.005|TWO_SIDED|95.0|0.1|0.56||P-value is for Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.56|0.10|0.005
92331533|NCT01026818|184568018|SUPERIORITY_OR_OTHER||LS Mean Differences|0.23|STANDARD_ERROR_OF_MEAN|0.11||0.041|TWO_SIDED|95.0|0.01|0.45||P-value is for Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.45|0.01|0.041
92331534|NCT01026818|184568018|SUPERIORITY_OR_OTHER||LS Mean Differences|0.28|STANDARD_ERROR_OF_MEAN|0.13||0.035||95.0|0.02|0.54||P-value is for Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.54|0.02|0.035
92331535|NCT01026818|184568018|SUPERIORITY_OR_OTHER||LS Mean Differences|0.13|STANDARD_ERROR_OF_MEAN|0.13||0.316|TWO_SIDED|95.0|-0.12|0.38||P-value is for Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.38|-0.12|0.316
92331536|NCT01026818|184568019|SUPERIORITY_OR_OTHER||LS Mean Differences|1.75|STANDARD_ERROR_OF_MEAN|1.02||0.086|TWO_SIDED|95.0|-0.25|3.76||P-value is for sexual relationship - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||3.76|-0.25|0.086
92331537|NCT01026818|184568019|SUPERIORITY_OR_OTHER||LS Mean Differences|0.47|STANDARD_ERROR_OF_MEAN|1.0||0.637|TWO_SIDED|95.0|-1.5|2.45||P-value is for sexual relationship - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.45|-1.50|0.637
92331538|NCT01026818|184568019|SUPERIORITY_OR_OTHER||LS Mean Differences|0.17|STANDARD_ERROR_OF_MEAN|1.2||0.885|TWO_SIDED|95.0|-2.18|2.53||P-value is for sexual relationship - Month 13.5|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.53|-2.18|0.885
92331539|NCT01026818|184568019|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.04|STANDARD_ERROR_OF_MEAN|1.17||0.972|TWO_SIDED|95.0|-2.34|2.25||P-value is for sexual relationship - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.25|-2.34|0.972
92331540|NCT01026818|184568019|SUPERIORITY_OR_OTHER||LS Mean Differences|0.27|STANDARD_ERROR_OF_MEAN|0.55||0.621|TWO_SIDED|95.0|-0.81|1.36||P-value is for self-esteem - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.36|-0.81|0.621
92331541|NCT01026818|184568019|SUPERIORITY_OR_OTHER||LS Mean Differences|0.29|STANDARD_ERROR_OF_MEAN|0.54||0.598|TWO_SIDED|95.0|-0.78|1.35||P-value is for self-esteem - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.35|-0.78|0.598
92331542|NCT01026818|184568019|SUPERIORITY_OR_OTHER||LS Mean Differences|0.06|STANDARD_ERROR_OF_MEAN|0.59||0.923|TWO_SIDED|95.0|-1.1|1.21||P-value is for self-esteem - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.21|-1.10|0.923
92331543|NCT01026818|184568019|SUPERIORITY_OR_OTHER||LS Mean Differences|0.1|STANDARD_ERROR_OF_MEAN|0.58||0.857|TWO_SIDED|95.0|-1.03|1.24||P-value is for self-esteem - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.24|-1.03|0.857
92331544|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|14.87|STANDARD_ERROR_OF_MEAN|5.57||0.008|TWO_SIDED|95.0|3.92|25.83||P-value is for Q1 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||25.83|3.92|0.008
92331545|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|11.34|STANDARD_ERROR_OF_MEAN|5.45||0.038|TWO_SIDED|95.0|0.63|22.04||P-value is for Q1 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||22.04|0.63|0.038
92331546|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|8.91|STANDARD_ERROR_OF_MEAN|6.15||0.148|TWO_SIDED|95.0|-3.18|21.0||P-value is for Q1 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||21.00|-3.18|0.148
92331547|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|5.37|STANDARD_ERROR_OF_MEAN|6.03||0.373|TWO_SIDED|95.0|-6.48|17.23||P-value is for Q1 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||17.23|-6.48|0.373
92331548|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|10.9|STANDARD_ERROR_OF_MEAN|4.96||0.029|TWO_SIDED|95.0|1.14|20.66||P-value is for Q1 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||20.66|1.14|0.029
92331549|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|4.53|STANDARD_ERROR_OF_MEAN|4.91||0.357|TWO_SIDED|95.0|-5.12|14.17||P-value is for Q1 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||14.17|-5.12|0.357
92331550|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|16.33|STANDARD_ERROR_OF_MEAN|5.42||0.003|TWO_SIDED|95.0|5.68|26.98||P-value is for Q2 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||26.98|5.68|0.003
92331551|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|6.62|STANDARD_ERROR_OF_MEAN|5.3||0.212|TWO_SIDED|95.0|-3.8|17.04||P-value is for Q2 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||17.04|-3.80|0.212
92331552|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|4.55|STANDARD_ERROR_OF_MEAN|6.17||0.461|TWO_SIDED|95.0|-7.58|16.68||P-value is for Q2 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||16.68|-7.58|0.461
92331553|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|-1.26|STANDARD_ERROR_OF_MEAN|6.05||0.835|TWO_SIDED|95.0|-13.16|10.63||P-value is for Q2 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||10.63|-13.16|0.835
92331554|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|13.36|STANDARD_ERROR_OF_MEAN|6.15||0.03|TWO_SIDED|95.0|1.27|25.46||P-value is for Q2 - Month13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||25.46|1.27|0.030
92331555|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|5.96|STANDARD_ERROR_OF_MEAN|6.07||0.326|TWO_SIDED|95.0|-5.97|17.89||P-value is for Q2 - Month13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||17.89|-5.97|0.326
92331556|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|12.06|STANDARD_ERROR_OF_MEAN|5.13||0.019||95.0|1.98|22.15||P-value is for Q3 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||22.15|1.98|0.019
92331557|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|2.48|STANDARD_ERROR_OF_MEAN|5.02||0.621|TWO_SIDED|95.0|-7.38|12.35||P-value is for Q3 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||12.35|-7.38|0.621
92331558|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|0.23|STANDARD_ERROR_OF_MEAN|5.73||0.968||95.0|-11.03|11.49||P-value is for Q3 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||11.49|-11.03|0.968
92331559|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|-5.51|STANDARD_ERROR_OF_MEAN|5.62||0.327|TWO_SIDED|95.0|-16.55|5.54||P-value is for Q3 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||5.54|-16.55|0.327
92331560|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|11.67|STANDARD_ERROR_OF_MEAN|6.32||0.066|TWO_SIDED|95.0|-0.76|24.09||P-value is for Q3 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||24.09|-0.76|0.066
92331561|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|5.09|STANDARD_ERROR_OF_MEAN|6.23||0.415|TWO_SIDED|95.0|-7.17|17.34||P-value is for Q3 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||17.34|-7.17|0.415
92331562|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|11.87|STANDARD_ERROR_OF_MEAN|4.61||0.011|TWO_SIDED|95.0|2.79|20.94||P-value is for Q4 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||20.94|2.79|0.011
92331563|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|3.85|STANDARD_ERROR_OF_MEAN|4.51||0.394|TWO_SIDED|95.0|-5.03|12.72||P-value is for Q4 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||12.72|-5.03|0.394
92331564|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|-1.94|STANDARD_ERROR_OF_MEAN|4.75||0.684|TWO_SIDED|95.0|-11.28|7.41||P-value is for Q4 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||7.41|-11.28|0.684
92331565|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|-7.14|STANDARD_ERROR_OF_MEAN|4.66||0.126|TWO_SIDED|95.0|-16.3|2.02||P-value is for Q4 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.02|-16.30|0.126
92331566|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|11.52|STANDARD_ERROR_OF_MEAN|6.13||0.061|TWO_SIDED|95.0|-0.53|23.57||P-value is for Q4 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||23.57|-0.53|0.061
92331567|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|5.06|STANDARD_ERROR_OF_MEAN|6.05||0.403|TWO_SIDED|95.0|-6.83|16.95||P-value is for Q4 - Month13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||16.95|-6.83|0.403
92331568|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|11.38|STANDARD_ERROR_OF_MEAN|4.58||0.013||95.0|2.38|20.38||P-value is for Q5 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||20.38|2.38|0.013
92331569|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|3.69|STANDARD_ERROR_OF_MEAN|4.47||0.41|TWO_SIDED|95.0|-5.11|12.49||P-value is for Q5 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||12.49|-5.11|0.410
92331570|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|-2.85|STANDARD_ERROR_OF_MEAN|4.61||0.537|TWO_SIDED|95.0|-11.92|6.22||P-value is for Q5 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||6.22|-11.92|0.537
92331571|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|-8.59|STANDARD_ERROR_OF_MEAN|4.52||0.058|TWO_SIDED|95.0|-17.48|0.3||P-value is for Q5 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.30|-17.48|0.058
92331572|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|11.44|STANDARD_ERROR_OF_MEAN|6.09||0.061|TWO_SIDED|95.0|-0.54|23.41||P-value is for Q5 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||23.41|-0.54|0.061
92331573|NCT01026818|184568030|SUPERIORITY_OR_OTHER||LS Mean Differences|5.59|STANDARD_ERROR_OF_MEAN|6.01||0.353|TWO_SIDED|95.0|-6.23|17.4||P-value is for Q5 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||17.40|-6.23|0.353
92331574|NCT01026818|184568031|SUPERIORITY_OR_OTHER||LS Mean Differences|-5.12|STANDARD_ERROR_OF_MEAN|3.66||0.162|TWO_SIDED|95.0|-12.32|2.08|||ANCOVA|ANCOVA model included treatment, baseline, age group, and country.||||2.08|-12.32|0.162
92331575|NCT01026818|184568031|SUPERIORITY_OR_OTHER||LS Mean Differences|-1.88|STANDARD_ERROR_OF_MEAN|3.61||0.603||95.0|-8.99|5.24|||ANCOVA|ANCOVA model included treatment, baseline, age group, and country.||||5.24|-8.99|0.603
92331576|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|3.49|STANDARD_ERROR_OF_MEAN|2.7||0.196|TWO_SIDED|95.0|-1.82|8.8||P-value is for Urinary Incontinence - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||8.80|-1.82|0.196
92331577|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|0.53|STANDARD_ERROR_OF_MEAN|2.65||0.841|TWO_SIDED|95.0|-4.69|5.75||P-value is for Urinary Incontinence - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||5.75|-4.69|0.841
92331578|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|1.98|STANDARD_ERROR_OF_MEAN|2.76||0.474|TWO_SIDED|95.0|-3.45|7.4||P-value is for Urinary Incontinence - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||7.40|-3.45|0.474
92331579|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|0.1|STANDARD_ERROR_OF_MEAN|2.7||0.971|TWO_SIDED|95.0|-5.21|5.41||P-value is for Urinary Incontinence - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||5.41|-5.21|0.971
92331580|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|1.57|STANDARD_ERROR_OF_MEAN|1.32||0.236|TWO_SIDED|95.0|-1.03|4.17||P-value is for Urinary Irritative/Obstructive - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.17|-1.03|0.236
92331581|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|1.02|STANDARD_ERROR_OF_MEAN|1.29||0.429|TWO_SIDED|95.0|-1.52|3.56||P-value is for Urinary Irritative/Obstructive - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||3.56|-1.52|0.429
92331582|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|1.56|STANDARD_ERROR_OF_MEAN|1.36||0.252|TWO_SIDED|95.0|-1.12|4.24||P-value is for Urinary Irritative/Obstructive - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.24|-1.12|0.252
92331583|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|1.52|STANDARD_ERROR_OF_MEAN|1.32||0.251|TWO_SIDED|95.0|-1.08|4.11||P-value is for Urinary Irritative/Obstructive - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.11|-1.08|0.251
92331584|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.54|STANDARD_ERROR_OF_MEAN|1.27||0.671|TWO_SIDED|95.0|-3.03|1.95||P-value is for Bowel - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.95|-3.03|0.671
92331585|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.21|STANDARD_ERROR_OF_MEAN|1.24||0.868|TWO_SIDED|95.0|-2.64|2.23||P-value is for Bowel - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.23|-2.64|0.868
92331586|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|0.1|STANDARD_ERROR_OF_MEAN|1.25||0.938|TWO_SIDED|95.0|-2.37|2.57||P-value is for Bowel - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.57|-2.37|0.938
92331587|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.29|STANDARD_ERROR_OF_MEAN|1.22||0.813|TWO_SIDED|95.0|-2.69|2.12||P-value is for Bowel - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.12|-2.69|0.813
92331588|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|9.55|STANDARD_ERROR_OF_MEAN|3.28||0.004|TWO_SIDED|95.0|3.1|15.99||P-value is for Sexual - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||15.99|3.10|0.004
92331589|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|2.69|STANDARD_ERROR_OF_MEAN|3.21||0.403|TWO_SIDED|95.0|-3.63|9.0||P-value is for Sexual - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||9.00|-3.63|0.403
92331590|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|3.18|STANDARD_ERROR_OF_MEAN|3.82||0.406|TWO_SIDED|95.0|-4.34|10.69||P-value is for Sexual - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||10.69|-4.34|0.406
92331591|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.79|STANDARD_ERROR_OF_MEAN|3.72||0.832|TWO_SIDED|95.0|-8.11|6.53||P-value is for Sexual - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||6.53|-8.11|0.832
92331592|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|1.9|STANDARD_ERROR_OF_MEAN|1.47||0.197|TWO_SIDED|95.0|-0.99|4.79||P-value is for Hormonal - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.79|-0.99|0.197
92331593|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|2.89|STANDARD_ERROR_OF_MEAN|1.44||0.045|TWO_SIDED|95.0|0.06|5.72||P-value is for Hormonal - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||5.72|0.06|0.045
92331594|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.53|STANDARD_ERROR_OF_MEAN|1.34||0.692|TWO_SIDED|95.0|-3.16|2.1||P-value is for Hormonal - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.10|-3.16|0.692
92331595|NCT01026818|184568035|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.09|STANDARD_ERROR_OF_MEAN|1.3||0.943|TWO_SIDED|95.0|-2.65|2.46||P-value is for Hormonal - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.46|-2.65|0.943
92331596|NCT01026818|184568036|SUPERIORITY_OR_OTHER||LS Mean Differences|4.2|STANDARD_ERROR_OF_MEAN|1.89||0.028|TWO_SIDED|95.0|0.47|7.93||P-value is for length.|ANCOVA|ANCOVA model included terms for treatment, baseline, age group and country.||||7.93|0.47|0.028
92331597|NCT01026818|184568036|SUPERIORITY_OR_OTHER||LS Mean Differences|-1.53|STANDARD_ERROR_OF_MEAN|1.87||0.413|TWO_SIDED|95.0|-5.2|2.14||P-value is for length.|ANCOVA|ANCOVA model included terms for treatment, baseline, age group and country.||||2.14|-5.20|0.413
92331598|NCT01026818|184568036|SUPERIORITY_OR_OTHER||LS Mean Differences|2.37|STANDARD_ERROR_OF_MEAN|1.49||0.112|TWO_SIDED|95.0|-0.55|5.3||P-value is for girth.|ANCOVA|ANCOVA model included terms for treatment, baseline, age group and country.||||5.30|-0.55|0.112
92331599|NCT01026818|184568036|SUPERIORITY_OR_OTHER||LS Mean Differences|3.16|STANDARD_ERROR_OF_MEAN|1.46||0.031|TWO_SIDED|95.0|0.29|6.03||P-value is for girth.|ANCOVA|ANCOVA model included terms for treatment, baseline, age group and country.||||6.03|0.29|0.031
92331600|NCT04575584|184568041|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.562|TWO_SIDED|95.0|0.68|1.45|||Log Rank||Based on Cox regression model with Efron's method of tie handling|||1.45|0.68|0.5620
92331601|NCT04575584|184568041|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.3145|TWO_SIDED|95.0|0.78|1.65|||Log Rank||Based on Cox regression model with Efron's method of tie handling|||1.65|0.78|0.3145
92331602|NCT04575584|184568041|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.4894|TWO_SIDED|95.0|0.69|1.47|||Log Rank||Based on Cox regression model with Efron's method of tie handling|||1.47|0.69|0.4894
92331603|NCT04575584|184568044|SUPERIORITY||Mean Difference (Final Values)|4.1||||0.1642|TWO_SIDED|95.0|-2.3|12.1|||Miettinen and Nurminen method||Miettinen and Nurminen method. Unknown Day 29 survival status treated as failure.|||12.1|-2.3|0.1642
92331604|NCT04575584|184568044|SUPERIORITY||Mean Difference (Final Values)|5.5||||0.09|TWO_SIDED|95.0|-1.1|13.9|||Miettinen and Nurminen method||Miettinen and Nurminen method. Unknown Day 29 survival status treated as failure.|||13.9|-1.1|0.0900
92331605|NCT04575584|184568044|SUPERIORITY||Mean Difference (Final Values)|4.2||||0.1594|TWO_SIDED|95.0|-2.3|12.3|||Miettinen and Nurminen method||Miettinen and Nurminen method. Unknown Day 29 survival status treated as failure.|||12.3|-2.3|0.1594
92331606|NCT04575584|184568045|SUPERIORITY||Odds Ratio (OR)|1.31||||0.3623|TWO_SIDED|95.0|0.73|2.35|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. Confidence intervals (CIs) are based on Wald Chi-Square Test.|||2.35|0.73|0.3623
92331607|NCT04575584|184568045|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5714|TWO_SIDED|95.0|0.66|2.12|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.12|0.66|0.5714
92331608|NCT04575584|184568045|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9313|TWO_SIDED|95.0|0.54|1.75|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.75|0.54|0.9313
92331609|NCT04575584|184568046|SUPERIORITY||Odds Ratio (OR)|1.27||||0.4398|TWO_SIDED|95.0|0.7|2.3|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.30|0.70|0.4398
92331610|NCT04575584|184568046|SUPERIORITY||Odds Ratio (OR)|0.86||||0.6277|TWO_SIDED|95.0|0.47|1.57|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.57|0.47|0.6277
92331611|NCT04575584|184568046|SUPERIORITY||Odds Ratio (OR)|0.89||||0.7069|TWO_SIDED|95.0|0.49|1.62|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.62|0.49|0.7069
92331612|NCT04575584|184568047|SUPERIORITY||Odds Ratio (OR)|1.48||||0.2422|TWO_SIDED|95.0|0.77|2.85|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.85|0.77|0.2422
92331613|NCT04575584|184568047|SUPERIORITY||Odds Ratio (OR)|1.27||||0.4789|TWO_SIDED|95.0|0.66|2.44|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.44|0.66|0.4789
92331614|NCT04575584|184568047|SUPERIORITY||Odds Ratio (OR)|0.85||||0.6052|TWO_SIDED|95.0|0.45|1.59|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.59|0.45|0.6052
92331615|NCT04575584|184568048|SUPERIORITY||Odds Ratio (OR)|1.47||||0.2644|TWO_SIDED|95.0|0.75|2.88|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.88|0.75|0.2644
92331616|NCT04575584|184568048|SUPERIORITY||Odds Ratio (OR)|1.55||||0.2184|TWO_SIDED|95.0|0.77|3.14|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.14|0.77|0.2184
92331617|NCT04575584|184568048|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9771|TWO_SIDED|95.0|0.53|1.94|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.94|0.53|0.9771
92331618|NCT04575584|184568049|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9945|TWO_SIDED|95.0|0.46|2.06|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.06|0.46|0.9945
92331619|NCT04575584|184568049|SUPERIORITY||Odds Ratio (OR)|1.5||||0.3227|TWO_SIDED|95.0|0.67|3.37|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.37|0.67|0.3227
92331620|NCT04575584|184568049|SUPERIORITY||Odds Ratio (OR)|0.79||||0.52|TWO_SIDED|95.0|0.39|1.61|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.61|0.39|0.5200
92331621|NCT04575584|184568050|SUPERIORITY||Odds Ratio (OR)|1.25||||0.4472|TWO_SIDED|95.0|0.7|2.25|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.25|0.70|0.4472
92331622|NCT04575584|184568050|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5714|TWO_SIDED|95.0|0.66|2.12|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.12|0.66|0.5714
92331623|NCT04575584|184568050|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9313|TWO_SIDED|95.0|0.54|1.75|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.75|0.54|0.9313
92331624|NCT04575584|184568051|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5222|TWO_SIDED|95.0|0.67|2.21|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.21|0.67|0.5222
92331625|NCT04575584|184568051|SUPERIORITY||Odds Ratio (OR)|0.86||||0.6277|TWO_SIDED|95.0|0.47|1.57|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.57|0.47|0.6277
92331626|NCT04575584|184568051|SUPERIORITY||Odds Ratio (OR)|0.89||||0.7069|TWO_SIDED|95.0|0.49|1.62|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.62|0.49|0.7069
92331627|NCT04575584|184568052|SUPERIORITY||Odds Ratio (OR)|1.46||||0.2627|TWO_SIDED|95.0|0.75|2.8|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.80|0.75|0.2627
92331628|NCT04575584|184568052|SUPERIORITY||Odds Ratio (OR)|1.27||||0.4789|TWO_SIDED|95.0|0.66|2.44|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.44|0.66|0.4789
92331629|NCT04575584|184568052|SUPERIORITY||Odds Ratio (OR)|0.84||||0.5938|TWO_SIDED|95.0|0.45|1.58|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.58|0.45|0.5938
92331630|NCT04575584|184568053|SUPERIORITY||Odds Ratio (OR)|1.47||||0.2644|TWO_SIDED|95.0|0.75|2.88|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.88|0.75|0.2644
92331631|NCT04575584|184568053|SUPERIORITY||Odds Ratio (OR)|1.55||||0.2184|TWO_SIDED|95.0|0.77|3.14|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.14|0.77|0.2184
92331632|NCT04575584|184568053|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9771|TWO_SIDED|95.0|0.53|1.94|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.94|0.53|0.9771
92331633|NCT04575584|184568054|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9445|TWO_SIDED|95.0|0.46|2.06|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.06|0.46|0.9445
92331634|NCT04575584|184568054|SUPERIORITY||Odds Ratio (OR)|1.5||||0.3227|TWO_SIDED|95.0|0.67|3.37|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.37|0.67|0.3227
92331635|NCT04575584|184568054|SUPERIORITY||Odds Ratio (OR)|0.79||||0.52|TWO_SIDED|95.0|0.39|1.61|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.61|0.39|0.5200
92331636|NCT04575584|184568055|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8732|TWO_SIDED|95.0|0.46|2.47|||Wald Chi-Square||Proportional odds model with National Early Warning Score (NEWS) categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.47|0.46|0.8732
92331637|NCT04575584|184568055|SUPERIORITY||Odds Ratio (OR)|0.54||||0.1277|TWO_SIDED|95.0|0.25|1.19|||Wald Chi-square||Proportional odds model with NEWS categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.19|0.25|0.1277
92331638|NCT04575584|184568055|SUPERIORITY||Odds Ratio (OR)|0.73||||0.4326|TWO_SIDED|95.0|0.33|1.61|||Wald Chi-Square||Proportional odds model with NEWS categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.61|0.33|0.4326
92331639|NCT04575584|184568056|SUPERIORITY||Odds Ratio (OR)|1.2||||0.683|TWO_SIDED|95.0|0.5|2.88|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.88|0.50|0.6830
92331640|NCT04575584|184568056|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.42|2.39|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.39|0.42|1.000
92331641|NCT04575584|184568056|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8244|TWO_SIDED|95.0|0.37|2.2|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.20|0.37|0.8244
92331642|NCT04575584|184568057|SUPERIORITY||Odds Ratio (OR)|0.77||||0.5022|TWO_SIDED|95.0|0.36|1.64|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.64|0.36|0.5022
92331643|NCT04575584|184568057|SUPERIORITY||Odds Ratio (OR)|0.78||||0.5204|TWO_SIDED|95.0|0.37|1.64|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.64|0.37|0.5204
92331644|NCT04575584|184568057|SUPERIORITY||Odds Ratio (OR)|0.52||||0.0991|TWO_SIDED|95.0|0.24|1.13|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.13|0.24|0.0991
92331645|NCT04575584|184568058|SUPERIORITY||Odds Ratio (OR)|1.18||||0.6346|TWO_SIDED|95.0|0.6|2.29|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.29|0.60|0.6346
92331646|NCT04575584|184568058|SUPERIORITY||Odds Ratio (OR)|0.9||||0.7596|TWO_SIDED|95.0|0.46|1.75|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.75|0.46|0.7596
92331647|NCT04575584|184568058|SUPERIORITY||Odds Ratio (OR)|0.95||||0.8879|TWO_SIDED|95.0|0.49|1.84|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.84|0.49|0.8879
92331648|NCT04575584|184568059|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6002|TWO_SIDED|95.0|0.55|2.82|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.82|0.55|0.6002
92331649|NCT04575584|184568059|SUPERIORITY||Odds Ratio (OR)|1.37||||0.4733|TWO_SIDED|95.0|0.58|3.21|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.21|0.58|0.4733
92331650|NCT04575584|184568059|SUPERIORITY||Odds Ratio (OR)|0.82||||0.622|TWO_SIDED|95.0|0.38|1.78|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.78|0.38|0.6220
92331651|NCT04575584|184568060|SUPERIORITY||Odds Ratio (OR)|0.86||||0.7871|TWO_SIDED|95.0|0.28|2.6|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.60|0.28|0.7871
92331652|NCT04575584|184568060|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9598|TWO_SIDED|95.0|0.31|3.06|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.06|0.31|0.9598
92331653|NCT04575584|184568060|SUPERIORITY||Odds Ratio (OR)|0.79||||0.667|TWO_SIDED|95.0|0.27|2.31|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.31|0.27|0.6670
92331654|NCT02634801|184568061|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|4.08|||<|0.0001|TWO_SIDED|95.0|2.46|6.77|||Fisher Exact|||||6.77|2.46|<.0001
92331655|NCT02634801|184568061|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.29||||0.0137|TWO_SIDED|95.0|1.06|1.56|||Fisher Exact|||||1.56|1.06|0.0137
92331656|NCT03300050|184568116|OTHER||GMT Ratio|2.73|||<|0.0001|TWO_SIDED|95.0|1.73|4.29|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Adjusted Geometric Mean Titer (GMT) Ratio 28 Days Post-Boost Dose||4.29|1.73|<0.0001
92331657|NCT03300050|184568116|OTHER||GMT Ratio|1.06||||0.9411|TWO_SIDED|95.0|0.68|1.66|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||1.66|0.68|0.9411
92331658|NCT03300050|184568116|OTHER||GMT Ratio|0.39|||<|0.0001|TWO_SIDED|95.0|0.24|0.62|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||0.62|0.24|<0.0001
92331659|NCT03300050|184568117|OTHER||Difference|59.6||||0.0025|TWO_SIDED|95.0|23.59|81.02|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||81.02|23.59|0.0025
92331660|NCT03300050|184568117|OTHER||Difference|17.9||||0.4421|TWO_SIDED|95.0|-16.24|49.0|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||49.00|-16.24|0.4421
92331661|NCT03300050|184568117|OTHER||Difference|-41.8||||0.0461|TWO_SIDED|95.0|-68.75|-4.8|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||-4.80|-68.75|0.0461
92331662|NCT03300050|184568121|OTHER||GMT Ratio|1.71||||0.1665|TWO_SIDED|95.0|0.84|3.48|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgA (Serum) Humoral Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||3.48|0.84|0.1665
92331663|NCT03300050|184568121|OTHER||GMT Ratio|1.1||||0.9377|TWO_SIDED|95.0|0.55|2.2|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgA (Serum) Humoral Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.20|0.55|0.9377
92331664|NCT03300050|184568121|OTHER||GMT Ratio|0.64||||0.3088|TWO_SIDED|95.0|0.31|1.33|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||1.33|0.31|0.3088
92331665|NCT03300050|184568122|OTHER||Difference|16.3||||0.4667|TWO_SIDED|95.0|-19.85|48.88|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||48.88|-19.85|0.4667
92331666|NCT03300050|184568122|OTHER||Difference|-1.8|||>|0.9999|TWO_SIDED|95.0|-34.76|32.17|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||32.17|-34.76|>0.9999
92331667|NCT03300050|184568122|OTHER||Difference|-18.1||||0.4495|TWO_SIDED|95.0|-51.15|19.37|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||19.37|-51.15|0.4495
92331668|NCT03300050|184568126|OTHER||GMT Ratio|1.61||||0.0928|TWO_SIDED|95.0|0.94|2.77|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.77|0.94|0.0928
92331669|NCT03300050|184568126|OTHER||GMT Ratio|1.32||||0.4198|TWO_SIDED|95.0|0.77|2.26|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.26|0.77|0.4198
92331670|NCT03300050|184568126|OTHER||GMT Ratio|0.82||||0.6754|TWO_SIDED|95.0|0.47|1.45|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Adjusted GMT Ratio 28 Days Post-Boost Dose||1.45|0.47|0.6754
92331671|NCT03300050|184568127|OTHER||Difference|19.2||||0.4515|TWO_SIDED|95.0|-17.19|50.49|||Fisher Exact|||Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Seroresponse (\>4-Fold) Rate 28 Days Post-Boost Dose||50.49|-17.19|0.4515
92331672|NCT03300050|184568127|OTHER||Difference|14.3||||0.4837|TWO_SIDED|95.0|-21.22|46.19|||Fisher Exact|||Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Seroresponse (\>4-Fold) Rate 28 Days Post-Boost Dose||46.19|-21.22|0.4837
92331673|NCT03300050|184568127|OTHER||Difference|-4.9|||>|0.9999|TWO_SIDED|95.0|-38.8|30.46|||Fisher Exact|||Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Seroresponse (\>4-Fold) Rate 28 Days Post-Boost Dose||30.46|-38.80|>0.9999
92331674|NCT03300050|184568130|OTHER||Difference|2.93||||0.0031|TWO_SIDED|95.0|1.56|7.49|||Wilcoxon (Mann-Whitney)||Based on log10 AUC, using the Hodges-Lehmann location parameter difference back-transformed to the original scale.|Comparison of Serum cH6/1 - ADCC Activity: AUC at 28 Days Post-Boost||7.49|1.56|0.0031
92331675|NCT03300050|184568130|OTHER||Difference|1.25||||0.2048|TWO_SIDED|95.0|0.73|2.23|||Wilcoxon (Mann-Whitney)||Based on log10 AUC, using the Hodges-Lehmann location parameter difference back-transformed to the original scale.|Comparison of Serum cH6/1 - ADCC Activity: AUC at 28 Days Post-Boost||2.23|0.73|0.2048
92331676|NCT03300050|184568130|OTHER||Difference|0.43||||0.0392|TWO_SIDED|95.0|0.18|1.0|||Wilcoxon (Mann-Whitney)|||Comparison of Serum cH6/1 - ADCC Activity: AUC at 28 Days Post-Boost||1.00|0.18|0.0392
92331677|NCT03300050|184568131|OTHER||Difference|1.16||||0.8243|TWO_SIDED|95.0|0.14|4.95|||Wilcoxon (Mann-Whitney)||Based on the Hodges-Lehmann location parameter difference on the log scale then back-transformed to the original scale.|Comparison of Serum cH6/1 - ADCC Activity: Fold Increase in AUC at 28 Days Post-Boost||4.95|0.14|0.8243
92331678|NCT03300050|184568131|OTHER||Difference|1.74||||0.253|TWO_SIDED|95.0|0.67|6.06|||Wilcoxon (Mann-Whitney)||Based on the Hodges-Lehmann location parameter difference on the log scale then back-transformed to the original scale.|Comparison of Serum cH6/1 - ADCC Activity: Fold Increase in AUC at 28 Days Post-Boost||6.06|0.67|0.2530
92331679|NCT03300050|184568131|OTHER||Difference|1.83||||0.5654|TWO_SIDED|95.0|0.47|39.92|||Wilcoxon (Mann-Whitney)||Based on the Hodges-Lehmann location parameter difference on the log scale then back-transformed to the original scale.|Comparison of Serum cH6/1 - ADCC Activity: Fold Increase in AUC at 28 Days Post-Boost||39.92|0.47|0.5654
92331680|NCT03300050|184568135|OTHER||GMT Ratio|1.21||||0.883|TWO_SIDED|95.0|0.45|3.27|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||3.27|0.45|0.8830
92331681|NCT03300050|184568135|OTHER||GMT Ratio|0.86||||0.9238|TWO_SIDED|95.0|0.33|2.26|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.26|0.33|0.9238
92331682|NCT03300050|184568135|OTHER||GMT Ratio|0.71||||0.6926|TWO_SIDED|95.0|0.26|1.97|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||1.97|0.26|0.6926
92331683|NCT03300050|184568136|OTHER||Difference|11.7||||0.7036|TWO_SIDED|95.0|-25.72|45.82|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||45.82|-25.72|0.7036
92331684|NCT03300050|184568136|OTHER||Difference|-3.8|||>|0.9999|TWO_SIDED|95.0|-37.9|31.31|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||31.31|-37.90|>0.9999
92331685|NCT03300050|184568136|OTHER||Difference|-15.5||||0.6951|TWO_SIDED|95.0|-49.56|22.79|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||22.79|-49.56|0.6951
92331686|NCT03300050|184568140|OTHER||GMT Ratio|0.65||||0.3203|TWO_SIDED|95.0|0.32|1.33|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days post-Boost Dose||1.33|0.32|0.3203
92331687|NCT03300050|184568140|OTHER||GMT Ratio|0.72||||0.5009|TWO_SIDED|95.0|0.35|1.47|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days post-Boost Dose||1.47|0.35|0.5009
92331688|NCT03300050|184568140|OTHER||GMT Ratio|1.1||||0.9542|TWO_SIDED|95.0|0.51|2.37|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days post-Boost Dose||2.37|0.51|0.9542
92331689|NCT03300050|184568141|OTHER||Difference|-1.7|||>|0.9999|TWO_SIDED|95.0|-30.62|23.79|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days post-Boost Dose||23.79|-30.62|>0.9999
92331690|NCT03300050|184568141|OTHER||Difference|6.7|||>|0.9999|TWO_SIDED|95.0|-16.24|30.34|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days post-Boost Dose||30.34|-16.24|>0.9999
92331691|NCT03300050|184568141|OTHER||Difference|8.3||||0.4615|TWO_SIDED|95.0|-19.94|36.04|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days post-Boost Dose||36.04|-19.94|0.4615
92331692|NCT03300050|184568145|OTHER||GMT Ratio|1.2||||0.9164|TWO_SIDED|95.0|0.38|3.8|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||3.80|0.38|0.9164
92331693|NCT03300050|184568145|OTHER||GMT Ratio|0.76||||0.8642|TWO_SIDED|95.0|0.21|2.79|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.79|0.21|0.8642
92331694|NCT03300050|184568145|OTHER||GMT Ratio|0.63||||0.6545|TWO_SIDED|95.0|0.18|2.27|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.27|0.18|0.6545
92331695|NCT03300050|184568146|OTHER||Difference|7.7|||>|0.9999|TWO_SIDED|95.0|-27.1|40.96|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Seroresponse (\>4-Fold) Rate 28 Days Post-Boost Dose||40.96|-27.10|>0.9999
92331696|NCT03300050|184568146|OTHER||Difference|30.8||||0.1045|TWO_SIDED|95.0|-1.76|58.19|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||58.19|-1.76|0.1045
92331697|NCT03300050|184568146|OTHER||Difference|23.1||||0.2292|TWO_SIDED|95.0|-8.62|50.86|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||50.86|-8.62|0.2292
92331698|NCT00424593|184568216|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Model included treatment, non-steriodal anti-inflammatory drug (NSAID) use (Yes/No), investigator, visit, treatment-by-visit interaction, baseline pain severity, and baseline-by-visit interaction.|Repeated Measures Analysis|||||||0.004
92331699|NCT00424593|184568217|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||ANCOVA|||||||0.014
92331700|NCT00424593|184568218|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value is for 13 Week Change from Baseline.|ANCOVA|||||||0.009
92331701|NCT00424593|184568219|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Average Pain Score Change from Baseline.|ANCOVA|||||||0.002
92331702|NCT00424593|184568219|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||P-value for Worst Pain Score Change from Baseline.|ANCOVA|||||||0.014
92331703|NCT00424593|184568219|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value for Night Pain Score Change from Baseline.|ANCOVA|||||||0.007
92331704|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for Worst Pain Score Week 13 Change from Baseline.|ANCOVA|||||||0.011
92331705|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Least Pain Score Week 13 Change from Baseline.|ANCOVA|||||||0.001
92331706|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value for Average Pain Score Week 13 Change from Baseline.|ANCOVA|||||||0.019
92331707|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Pain Right Now Score Week 13 Change from Baseline.|ANCOVA|||||||0.002
92331708|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.068||95.0||||P-value for General Activity Week 13 Change from Baseline.|ANCOVA|||||||0.068
92331709|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for Mood Week 13 Change from Baseline.|ANCOVA|||||||0.009
92331710|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value for Walking Ability Week 13 Change from Baseline.|ANCOVA|||||||0.006
92331711|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||P-value for Normal Work Week 13 Change from Baseline.|ANCOVA|||||||0.024
92331712|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Relations With People Week 13 Change from Baseline.|ANCOVA|||||||0.005
92331713|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value for Sleep Week 13 Change from Baseline.|ANCOVA|||||||0.051
92331714|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Enjoyment of Life Week 13 Change from Baseline.|ANCOVA|||||||0.013
92331715|NCT00424593|184568220|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Average Interference Week 13 Change from Baseline.|ANCOVA|||||||0.005
92331716|NCT00424593|184568221|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value for Week 13 Change from Baseline.|ANCOVA|||||||0.092
92331717|NCT00424593|184568222|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Fisher Exact|||||||0.060
92331718|NCT00424593|184568223|SUPERIORITY_OR_OTHER|||||||0.087||95.0|||||Fisher Exact|||||||0.087
92331719|NCT00424593|184568224|SUPERIORITY_OR_OTHER|||||||0.329||95.0||||P-value for Week 13 Change from Baseline.|ANCOVA|||||||0.329
92331720|NCT00424593|184568225|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value for Mental Component Summary Change from Baseline.|ANCOVA|||||||0.051
92331721|NCT00424593|184568225|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||P-value for Physical Component Summary Change from Baseline.|ANCOVA|||||||0.220
92331722|NCT00424593|184568225|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||P-value for Bodily Pain Change from Baseline.|ANCOVA|||||||0.038
92331723|NCT00424593|184568225|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||P-value for General Health Change from Baseline.|ANCOVA|||||||0.041
92331724|NCT00424593|184568225|SUPERIORITY_OR_OTHER|||||||0.093||95.0||||P-value for Mental Health Change from Baseline.|ANCOVA|||||||0.093
92331725|NCT00424593|184568225|SUPERIORITY_OR_OTHER|||||||0.21||95.0||||P-value for Physical Functioning Change from Baseline.|ANCOVA|||||||0.210
92331726|NCT00424593|184568225|SUPERIORITY_OR_OTHER|||||||0.17||95.0||||P-value for Role-Emotional Change from Baseline.|ANCOVA|||||||0.170
92331727|NCT00424593|184568225|SUPERIORITY_OR_OTHER|||||||0.306||95.0||||P-value for Role-Physical Change from Baseline.|ANCOVA|||||||0.306
92331728|NCT00424593|184568225|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||P-value for Social Functioning Change from Baseline.|ANCOVA|||||||0.053
92331729|NCT00424593|184568225|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||P-value for Vitality Change from Baseline.|ANCOVA|||||||0.040
92331730|NCT00424593|184568226|SUPERIORITY_OR_OTHER|||||||0.117||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.117
92331731|NCT00424593|184568227|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||P-value for Absenteeism Week 13 Change from Baseline.|ANCOVA|||||||0.063
92331732|NCT00424593|184568227|SUPERIORITY_OR_OTHER|||||||0.452||95.0||||P-value for Presenteeism Week 13 Change from Baseline.|ANCOVA|||||||0.452
92331733|NCT00424593|184568227|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||P-value for Work Productivity Loss Week 13 Change from Baseline.|ANCOVA|||||||0.736
92331734|NCT00424593|184568227|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Work Activity Impairment Week 13 Change from Baseline.|ANCOVA|||||||0.002
92331735|NCT00424593|184568228|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||P-value for Week 13 Change from Baseline.|ANCOVA|||||||0.177
92331736|NCT00424593|184568229|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||P-value for Anxiety Subscale Change from Baseline.|ANCOVA|||||||0.122
92331737|NCT00424593|184568229|SUPERIORITY_OR_OTHER|||||||0.262||95.0||||P-value for Depression Subscale Change from Baseline.|ANCOVA|||||||0.262
92331738|NCT00424593|184568230|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||P-value for Change from Baseline.|ANOVA|ANOVA based on rank transformation.||||||0.046
92331739|NCT00424593|184568231|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value for Change from Baseline.|ANOVA|ANOVA based on rank transformation.||||||0.008
92331740|NCT00424593|184568232|SUPERIORITY_OR_OTHER|||||||0.028||95.0||||P-value for Week 13 Change from Baseline.|ANOVA|||||||0.028
92331741|NCT00424593|184568233|SUPERIORITY_OR_OTHER|||||||0.764||95.0||||P-value for SBP Week 13 Change from Baseline.|ANOVA|||||||0.764
92331742|NCT00424593|184568233|SUPERIORITY_OR_OTHER|||||||0.093||95.0||||P-value for DBP Week 13 Change from Baseline.|ANOVA|||||||0.093
92331743|NCT00424593|184568234|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value for Week 13 Change from Baseline.|ANOVA|||||||0.008
92331744|NCT02178358|184568260|SUPERIORITY||Hazard Ratio (HR)|0.776||||0.837|TWO_SIDED|95.0|0.434|1.226|||Bayesian exponential-likelihood model|||||1.226|0.434|0.837
92331745|NCT02178358|184568260|SUPERIORITY||Hazard Ratio (HR)|0.917||||0.704|TWO_SIDED|95.0|0.633|1.266|||Bayesian exponential-likelihood model|||||1.266|0.633|0.704
92331746|NCT00564278|184568336|SUPERIORITY_OR_OTHER_LEGACY||GEE model Beta|17.46||||0.26|TWO_SIDED|95.0|-16.61|51.53||All analyses presented are at 9 months.|t-test, 2 sided|t(193) = -1.14, p=.26||"We also conducted an analysis using a Generalized Estimating Equations model adjusting for a number of covariates.~We will conduct a three-part regression analysis assessing early/middle/late effects of MPT on retention. We will also conduct moderator analyses, as described in the original study grant, to determine whether there are specific patient groups for whom a significant difference in days in treatment is found."||51.53|-16.61|0.26
92331747|NCT00564278|184568337|SUPERIORITY_OR_OTHER_LEGACY||Mixed Model Beta for MADT vs SADT|-0.28|||||TWO_SIDED|95.0|-1.57|1.01||See Method of Estimation below.|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline depressive symptoms and time to assess the effect of MADT vs. SADT on mean depressive symptoms over follow-up.|||1.01|-1.57|
92331748|NCT00564278|184568338|SUPERIORITY_OR_OTHER_LEGACY||Work - Mixed Model Beta for MADT vs SADT|0.22|||||TWO_SIDED|95.0|-0.5|0.95||See under Method of Estimation, below|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline work-related disability score and time to assess the effect of MADT vs. SADT on mean disability score in the work domain over follow-up.|||0.95|-0.50|
92331749|NCT00564278|184568338|SUPERIORITY_OR_OTHER_LEGACY||Social-Mixed Model Beta for MADT vs SADT|0.22|||||TWO_SIDED|95.0|-0.49|0.92||See under Method of Estimation below.|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline social-related disability score and time to assess the effect of MADT vs. SADT on mean disability score in the social domain over follow-up.|||0.92|-0.49|
92331750|NCT00564278|184568338|SUPERIORITY_OR_OTHER_LEGACY||Family-Mixed Model Beta for MADT vs SADT|0.55|||||TWO_SIDED|95.0|-0.08|1.18||See Method of Estimation below.|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline family-related disability score and time to assess the effect of MADT vs. SADT on mean disability score in the family domain over follow-up.|||1.18|-0.08|
92331751|NCT00564278|184568339|SUPERIORITY_OR_OTHER_LEGACY||Mixed Model Beta for MADT vs SADT|0.02|||||TWO_SIDED|95.0|-3.61|3.64||See Method of Estimation, below|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline QOL score and time to assess the effect of MADT vs. SADT on mean percent of quality of life over follow-up.|||3.64|-3.61|
92331752|NCT00564278|184568340|SUPERIORITY_OR_OTHER_LEGACY||Mixed Model Beta for MADT vs SADT|-0.04|||||TWO_SIDED|95.0|-0.74|0.66||See Method of Estimation below.|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline patient satisfaction and time to assess the effect of MADT vs. SADT on mean patient satisfaction over follow-up.|||0.66|-0.74|
92331753|NCT00564278|184568341|SUPERIORITY_OR_OTHER_LEGACY||Mixed Model Beta for MADT vs SADT|9.14|||||TWO_SIDED|95.0|2.71|15.57||See Method of Estimation below.|||A Generalized Linear Mixed Model was used with random intercept for clinician to model the effect of MPT vs. SADT on the mean proportion of fully adherent days over the study period. We used an exchangeable covariance structure.|||15.57|2.71|
92331754|NCT00560703|184568346|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power calculation for this endpoint was driven by the assumptions made for the OSDI analysis||||||0.578||95.0|||||ANCOVA|||||||0.578
92331755|NCT00560703|184568347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.293||95.0|||||ANCOVA|||It was anticipated that the difference between the treatment groups in mean reduction from baseline in OSDI scores will be approximately 7 points. A pooled standard deviation of 9.0 for the mean change from baseline OSDI score is expected. Under those assumptions a total of approximately 63 evaluable patients (42 COL-101 patients and 21 placebo patients) is sufficient to provide 80% power. The planned enrolment should provide enough evaluable patients to meet these assumptions.||||0.293
92331756|NCT02095197|184568348|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||0.23
92331757|NCT02095197|184568349|SUPERIORITY_OR_OTHER|||||||0.47|||||||Chi-squared|||||||0.47
92331758|NCT02095197|184568350|SUPERIORITY_OR_OTHER|||||||0.3|||||||Chi-squared|||||||0.30
92331759|NCT02095197|184568351|SUPERIORITY_OR_OTHER|||||||0.41|||||||Chi-squared|||||||0.41
92331760|NCT03077607|184568362|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant % coefficient of variation (CV) of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|139.92|||||TWO_SIDED|90.0|113.26|172.87||||||Confidence interval (CI): 90 percent (%) CI on geometric least squares (LS) mean ratio (Test/Reference), test is talazoparib in combination with itraconazole and reference is talazoparib alone. Statistical data was calculated by using analysis of variance (ANOVA)||172.87|113.26|
92331761|NCT03077607|184568363|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant %CV of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|150.71|||||TWO_SIDED|90.0|136.47|166.43||||||CI: 90% CI on geometric LS mean ratio (Test/Reference), test is talazoparib in combination with itraconazole and reference is talazoparib alone. Statistical data was calculated by using ANOVA.||166.43|136.47|
92331762|NCT03077607|184568364|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant %CV of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|156.24|||||TWO_SIDED|90.0|137.58|177.42||||||CI: 90% CI on geometric LS mean ratio (Test/Reference), test is talazoparib in combination with itraconazole and reference is talazoparib alone. Statistical data was calculated by using ANOVA.||177.42|137.58|
92331763|NCT03077607|184568365|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant %CV of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|136.62|||||TWO_SIDED|90.0|103.2|180.87||||||CI: 90% CI on geometric LS mean ratio (Test/Reference), test is talazoparib in combination with rifampin and reference is talazoparib alone. Statistical data was calculated by using ANOVA.||180.87|103.20|
92331764|NCT03077607|184568366|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant %CV of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|105.37|||||TWO_SIDED|90.0|98.04|113.24||||||CI: 90% CI on geometric LS mean ratio (Test/Reference), test is talazoparib in Combination with rifampin and reference is talazoparib alone. Statistical data was calculated by using ANOVA.||113.24|98.04|
92331765|NCT03077607|184568367|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant %CV of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|102.04|||||TWO_SIDED|90.0|94.02|110.74||||||CI: 90% CI on geometric LS mean ratio (Test/Reference), test is talazoparib in Combination with rifampin and reference is talazoparib alone. Statistical data was calculated by using ANOVA.||110.74|94.02|
92331766|NCT05600036|184568387|SUPERIORITY|||||||0.0025|||||||Cochran-Mantel-Haenszel|||||||0.0025
92331767|NCT05600036|184568387|SUPERIORITY|||||||0.0001|||||||Cochran-Mantel-Haenszel|||||||0.0001
92331768|NCT05600036|184568387|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92331769|NCT05600036|184568387|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92331770|NCT05600036|184568387|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
92331771|NCT04401202|184568391|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
92331772|NCT04348500|184568455|SUPERIORITY|||||||0.1||||||P-value was not adjusted.|Chi-squared|||The null hypothesis is that there is no difference in the use of clazakizumab as a treatment compared to placebo in reducing or eliminating the incidence of severe adverse events among patients with COVID-19.||||0.10
92331773|NCT04348500|184568461|SUPERIORITY|||||||0.1||||||P-value was not adjusted.|Fisher Exact|||Null hypothesis is that there is no change in the need for mechanical ventilation and/or ECMO at 14 days after the first administered dose in comparison to placebo.||||0.10
92331774|NCT02722746|184568462|SUPERIORITY||percent difference|20.8||||0.165|TWO_SIDED|95.0|-8.9|47.3|||Z-test for proportions|||||47.3|-8.9|0.165
92331775|NCT02722746|184568462|SUPERIORITY||percent difference|14.4||||0.353|TWO_SIDED|95.0|-15.9|42.2|||Z-test for proportions|||||42.2|-15.9|0.353
92331776|NCT02722746|184568463|SUPERIORITY|||||||0.06|||||||Kruskal-Wallis|||For PACU spread||||0.06
92331777|NCT02722746|184568463|SUPERIORITY|||||||0.22|||||||Kruskal-Wallis|||For Pre-op spread||||0.22
92331778|NCT02722746|184568463|SUPERIORITY|||||||0.74|||||||Kruskal-Wallis|||For POD 1||||0.74
92331779|NCT02722746|184568464|SUPERIORITY|||||||0.551|||||||ANOVA|||||||0.551
92331780|NCT02722746|184568465|SUPERIORITY|||||||0.349|||||||Mixed Models Analysis|||||||0.349
92331781|NCT02722746|184568466|SUPERIORITY|||||||0.18|||||||Fisher Exact|||For Pruritis||||0.18
92331782|NCT02722746|184568466|SUPERIORITY|||||||0.44|||||||Fisher Exact|||For Nausea/Vomiting||||0.44
92331783|NCT02722746|184568466|SUPERIORITY|||||||0.74|||||||Fisher Exact|||For Respirartory Depression||||0.74
92331784|NCT02722746|184568470|SUPERIORITY|||||||0.524|||||||ANOVA|||For SBP||||0.524
92331785|NCT02722746|184568470|SUPERIORITY|||||||0.585|||||||ANOVA|||For DBP||||0.585
92331786|NCT02722746|184568470|SUPERIORITY|||||||0.199|||||||ANOVA|||For MAP||||0.199
92331787|NCT02722746|184568471|SUPERIORITY|||||||0.231|||||||Mixed Models Analysis|||||||0.231
92331788|NCT02722746|184568472|SUPERIORITY|||||||0.016|||||||ANOVA|||||||0.016
92331789|NCT02722746|184568473|SUPERIORITY|||||||0.055|||||||ANOVA|||||||0.055
92331790|NCT02722746|184568474|SUPERIORITY|||||||0.567|||||||ANOVA|||||||0.567
92331791|NCT04165135|184568493|OTHER|||||||0.763|||||||Kruskal-Wallis|||Heart zone minutes: Comparison among the age groups was performed by means of a Kruskal-Wallis test.||||0.7630
92331792|NCT04165135|184568493|OTHER|||||||0.0913|||||||Kruskal-Wallis|||Active zone minutes: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0913
92331793|NCT04165135|184568493|OTHER|||||||0.0956|||||||Kruskal-Wallis|||MVPA minutes: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0956
92331794|NCT04165135|184568494|OTHER|||||||0.0649|||||||Kruskal-Wallis|||||||0.0649
92331795|NCT04165135|184568495|OTHER|||||||0.0026|||||||Kruskal-Wallis|||||||0.0026
92331796|NCT04165135|184568496|OTHER|||||||0.9493|||||||Kruskal-Wallis|||Running: Comparison among age groups was performed using Kruskal-Wallis test.||||0.9493
92331797|NCT04165135|184568496|OTHER|||||||0.8305|||||||Kruskal-Wallis|||Swimming: Comparison among age groups was performed using Kruskal-Wallis test.||||0.8305
92331798|NCT04165135|184568496|OTHER|||||||0.8725|||||||Kruskal-Wallis|||Tapis Roulant: Comparison among age groups was performed using Kruskal-Wallis test.||||0.8725
92331799|NCT04165135|184568496|OTHER|||||||0.338|||||||Kruskal-Wallis|||Gym Weights: Comparison among age groups was performed using Kruskal-Wallis test.||||0.3380
92331800|NCT04165135|184568496|OTHER|||||||0.9706|||||||Kruskal-Wallis|||Exercises at Intervals: Comparison among age groups was performed using Kruskal-Wallis test.||||0.9706
92331801|NCT04165135|184568496|OTHER|||||||0.1727|||||||Kruskal-Wallis|||General: Comparison among age groups was performed using Kruskal-Wallis test.||||0.1727
92331802|NCT04165135|184568496|OTHER|||||||0.0099|||||||Kruskal-Wallis|||Walk: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0099
92331803|NCT04165135|184568497|OTHER|||||||0.6151|||||||Kruskal-Wallis|||Running: Comparison among age groups was performed using Kruskal-Wallis test.||||0.6151
92331804|NCT04165135|184568497|OTHER|||||||0.9332|||||||Kruskal-Wallis|||Swimming: Comparison among age groups was performed using Kruskal-Wallis test.||||0.9332
92331805|NCT04165135|184568497|OTHER|||||||0.4726|||||||Kruskal-Wallis|||Tapis Roulant: Comparison among age groups was performed using Kruskal-Wallis test.||||0.4726
92331806|NCT04165135|184568497|OTHER|||||||0.4111|||||||Kruskal-Wallis|||Gym Weights: Comparison among age groups was performed using Kruskal-Wallis test.||||0.4111
92331807|NCT04165135|184568497|OTHER|||||||0.0892|||||||Kruskal-Wallis|||Exercises at Intervals: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0892
92331808|NCT04165135|184568497|OTHER|||||||0.1642|||||||Kruskal-Wallis|||General: Comparison among age groups was performed using Kruskal-Wallis test.||||0.1642
92331809|NCT04165135|184568497|OTHER|||||||0.7256|||||||Kruskal-Wallis|||Walk: Comparison among age groups was performed using Kruskal-Wallis test.||||0.7256
92331810|NCT04165135|184568498|OTHER|||||||0.0745|||||||Kruskal-Wallis|||Running: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0745
92331811|NCT04165135|184568498|OTHER|||||||0.2177|||||||Kruskal-Wallis|||Swimming: Comparison among age groups was performed using Kruskal-Wallis test.||||0.2177
92331812|NCT04165135|184568498|OTHER|||||||0.2121|||||||Kruskal-Wallis|||Tapis Roulant: Comparison among age groups was performed using Kruskal-Wallis test.||||0.2121
92331813|NCT04165135|184568498|OTHER|||||||0.2336|||||||Kruskal-Wallis|||Gym weights: Comparison among age groups was performed using Kruskal-Wallis test.||||0.2336
92331814|NCT04165135|184568498|OTHER|||||||0.419|||||||Kruskal-Wallis|||Exercises at intervals: Comparison among age groups was performed using Kruskal-Wallis test.||||0.4190
92331815|NCT04165135|184568498|OTHER|||||||0.0252|||||||Kruskal-Wallis|||General: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0252
92331816|NCT04165135|184568498|OTHER|||||||0.2143|||||||Kruskal-Wallis|||Walk: Comparison among age groups was performed using Kruskal-Wallis test.||||0.2143
92331817|NCT04165135|184568499|OTHER|||||||0.0085|||||||Kruskal-Wallis|||Running: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0085
92331818|NCT04165135|184568499|OTHER|||||||0.1098|||||||Kruskal-Wallis|||Swimming: Comparison among age groups was performed using Kruskal-Wallis test.||||0.1098
92331819|NCT04165135|184568499|OTHER|||||||0.2703|||||||Kruskal-Wallis|||Tapis Roulant: Comparison among age groups was performed using Kruskal-Wallis test.||||0.2703
92331820|NCT04165135|184568499|OTHER|||||||0.3366|||||||Kruskal-Wallis|||Gym Weights: Comparison among age groups was performed using Kruskal-Wallis test.||||0.3366
92331821|NCT04165135|184568499|OTHER|||||||0.0992|||||||Kruskal-Wallis|||Exercises at Intervals: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0992
92331822|NCT04165135|184568499|OTHER|||||||0.1194|||||||Kruskal-Wallis|||General: Comparison among age groups was performed using Kruskal-Wallis test.||||0.1194
92331823|NCT04165135|184568499|OTHER|||||||0.0549|||||||Kruskal-Wallis|||Walk: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0549
92331824|NCT04165135|184568500|OTHER|||||||0.0088|||||||Chi-squared|||Comparison among age groups was performed using Chi-squared test.||||0.0088
92331825|NCT03714776|184568567|SUPERIORITY||||||<|0.001||||||P-value of analysis of variance (ANOVA) with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||||||<0.001
92331826|NCT03714776|184568568|SUPERIORITY|||||||0.454||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 3||||0.454
92331827|NCT03714776|184568568|SUPERIORITY|||||||0.909||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 8||||0.909
92331828|NCT03714776|184568568|SUPERIORITY|||||||0.132||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 15||||0.132
92331829|NCT03714776|184568568|SUPERIORITY|||||||0.659||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 22||||0.659
92331830|NCT03714776|184568568|SUPERIORITY|||||||0.474||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 29||||0.474
92331831|NCT03714776|184568568|SUPERIORITY|||||||0.483||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 36||||0.483
92331832|NCT03714776|184568569|SUPERIORITY|||||||0.064||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 3||||0.064
92331833|NCT03714776|184568569|SUPERIORITY||||||<|0.001||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 8||||<0.001
92331834|NCT03714776|184568569|SUPERIORITY||||||<|0.001||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 15||||<0.001
92331835|NCT03714776|184568569|SUPERIORITY||||||<|0.001||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 22||||<0.001
92331836|NCT03714776|184568569|SUPERIORITY||||||<|0.001||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 29||||<0.001
92331837|NCT03714776|184568569|SUPERIORITY||||||<|0.001||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 36||||<0.001
92331838|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-49.92|||<|0.001||90.0|-63.84|-35.99|||Mixed Effects Model Analysis|P-value is for Day 43.||||-35.99|-63.84|<0.001
92331839|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.85|||<|0.001||90.0|-48.78|-20.93|||Mixed Effects Model Analysis|P-value is for Day 57.||||-20.93|-48.78|<0.001
92331840|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-47.72|||<|0.001||90.0|-62.1|-33.34|||Mixed Effects Model Analysis|P-value is for Day 43.||||-33.34|-62.10|<0.001
92331841|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-32.26|||<|0.001||90.0|-46.69|-17.82|||Mixed Effects Model Analysis|P-value is for Day 57.||||-17.82|-46.69|<0.001
92331842|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-45.36|||<|0.001||90.0|-60.07|-30.64|||Mixed Effects Model Analysis|P-value is for Day 43.||||-30.64|-60.07|<0.001
92331843|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-32.04|||<|0.001||90.0|-46.76|-17.32|||Mixed Effects Model Analysis|P-value is for Day 57.||||-17.32|-46.76|<0.001
92331844|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.8|||<|0.001||90.0|-61.12|-32.49|||Mixed Effects Model Analysis|P-value is for Day 43.||||-32.49|-61.12|<0.001
92331845|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-44.64|||<|0.001||90.0|-58.95|-30.32|||Mixed Effects Model Analysis|P-value is for Day 57.||||-30.32|-58.95|<0.001
92331846|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.53||||0.44||90.0|-20.51|7.44|||Mixed Effect Model Analysis|P-value is for Day 127||||7.44|-20.51|0.440
92331847|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.1||||0.108||90.0|-28.53|0.33|||Mixed Effect Model Analysis|P-value is for Day 127.||||0.33|-28.53|0.108
92331848|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.41||||0.013||90.0|-37.13|-7.69|||Mixed Effect Model Analysis|P-value is for Day 127.||||-7.69|-37.13|0.013
92331849|NCT01618916|184568577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.93||||0.042||90.0|-32.42|-3.44|||Mixed Effect Model Analysis|P-value is for Day 127.||||-3.44|-32.42|0.042
92331850|NCT04000360|184568585|SUPERIORITY||Difference in slopes.|-3.62|STANDARD_ERROR_OF_MEAN|0.91|<|0.0001|TWO_SIDED|95.0|-5.4|-1.85||This was the sole primary outcome. The test was conducted with a priori p-value threshold of α=0.05, with no multiple comparison adjustment.|Mixed Models Analysis|Test of equality of slopes with time (change in points/year) between aerobic exercise (AE) and usual and customary care (UCC) treatment arms.|Higher MDS-UPDRS III score reflects worse Parkinson's symptoms; increases reflect PD progression. The reported effect is the estimated difference between annual rates of change in scores of AE and UCC patients.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and AR(1) covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX.||-1.85|-5.40|<0.0001
92331851|NCT04000360|184568586|SUPERIORITY|Equality of annual slopes in squared 10 Meter Walk Test Comfortable Pace Velocity for the AE and UCC groups.|Difference in squared velocity slopes|12.07|STANDARD_ERROR_OF_MEAN|4.65||0.043|TWO_SIDED|95.0|3.1|21.32||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other motor domain secondary outcomes: 10 Meter Walk Test fast pace velocity, TUG duration \& turning velocity, Manual Dexterity Test.|Mixed Models Analysis||The reported effect is the difference in annual slope of meters\^2/second, in 100ths of meters\^2/second/year. The confidence interval is not multiple comparison adjusted. Parkinson's progression limits mobility; higher slope reflects less progression.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, test velocity was squared ((meters/second)\^2) for modeling. Study sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||21.32|3.10|0.043
92331852|NCT04000360|184568587|SUPERIORITY|Equality of annual slopes in 10 Meter Walk Test Fast Pace Velocity for the AE and UCC groups.|Difference in slopes|3.16|STANDARD_ERROR_OF_MEAN|2.68||0.48|TWO_SIDED|95.0|-2.1|8.42||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other motor domain secondary outcomes: 10 meter walk test comfortable pace, Timed Up and Go Test duration and turning velocity, Manual Dexterity Test.|Mixed Models Analysis||The reported effect is the difference in annual slopes of the AE and UCC treatment arms, in 100ths of meters/second/year. The confidence interval is not multiple comparison adjusted. Higher slope reflects less Parkinson's disease progression.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and heterogeneous compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX.||8.42|-2.10|0.48
92331853|NCT04000360|184568588|SUPERIORITY|Equality of annual slopes of inverse Timed Up and Go Test duration, i.e., of TUG completions/second, the speed of completing the test.|Difference in slopes|4.04|STANDARD_ERROR_OF_MEAN|1.96||0.16|TWO_SIDED|95.0|0.2|7.89||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other motor domain secondary outcomes: 10 meter walk test comfortable \& fast pace, Timed Up and Go Test turning velocity, and Manual Dexterity Test.|Mixed Models Analysis|Difference between estimated annual slopes in TUG completions/second/year for the AE and UCC groups.|Timed Up and Go test speed is expected to decline with Parkinson's progression. The reported effect is the difference between estimated annual slopes for the AE and UCC groups in 1000ths of a TUG completion/second/year.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, test duration was inverted to TUG completions/second. Sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||7.89|0.20|0.16
92331854|NCT04000360|184568589|SUPERIORITY|Test of equality of average turning velocities.|Difference in slopes.|1.85|STANDARD_ERROR_OF_MEAN|1.54||0.69|TWO_SIDED|95.0|-1.17|4.88||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other motor domain secondary outcomes: 10 meter walk test comfortable \& fast pace, Timed Up and Go Test duration, and Manual Dexterity Test.|Mixed Models Analysis||Timed Up and Go test speed is expected to decline with Parkinson's progression. The reported effect is the difference between estimated annual slopes of average turning velocity for the AE and UCC groups in degrees/second/year.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. Study sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||4.88|-1.17|0.69
92331855|NCT04000360|184568590|SUPERIORITY|Test of equality of slopes of test performance speed (peg transfers/second/year) for AE and UCC groups.|Difference in slopes.|-3.62|STANDARD_ERROR_OF_MEAN|10.23||0.72|TWO_SIDED|95.0|-23.68|16.45||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other motor domain secondary outcomes: Timed Up and Go Test (TUG) duration \& turning velocity and 10 meter walk test comfortable \& fast pace.|Mixed Models Analysis||Manual dexterity expressed as peg transfers/second is expected to decline with Parkinson's progression. The reported effect is the difference between estimated annual slopes for the AE and UCC groups in 1000ths of a peg transfer/second/year.|Linear mixed model for baseline, 6 and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, test duration was transformed for modeling to peg transfers/second (18/seconds). Sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||16.45|-23.68|0.72
92331856|NCT04000360|184568591|SUPERIORITY|Test of equality of slopes of squared match scores (matches\^2/year) between AE and UCC groups.|Difference in slopes.|-96.91|STANDARD_ERROR_OF_MEAN|69.12||0.48|TWO_SIDED|95.0|-232.41|38.6||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other non-motor domain secondary outcomes: Visual Memory Test and Trail Making Test B to A duration ratio.|Mixed Models Analysis||Processing speed is expected to decline with Parkinson's, hence duration of the test to increase. The reported effect is the difference in annual slopes (matches\^2/year) between the AE and UCC treatment arms.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and heterogeneous compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, test duration was squared (matches\^2) for analysis. Study sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||38.60|-232.41|0.48
92331857|NCT04000360|184568592|SUPERIORITY|Test of equality of annual slopes of log(TMT B to TMT A duration ratio) for AE and UCC groups.|Difference in slopes|-3.42|STANDARD_ERROR_OF_MEAN|6.06||1|TWO_SIDED|95.0|-15.31|8.46||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other non-motor domain secondary outcomes: Processing Speed Test and Visual Memory Test.|Mixed Models Analysis||Visual attention and set switching speed decline with Parkinson's, hence duration of Trail Making Test B increases. The reported effect is the difference in annual slopes of (log TMT B/TMT A), i.e., change/year, between AE and UCC treatment arms.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, the ratios were transformed to their natural logarithms for modeling. Study sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||8.46|-15.31|1.00
92331858|NCT04000360|184568593|SUPERIORITY|Test of equality of annual slopes of squared test score.|Difference in slopes|0.16|STANDARD_ERROR_OF_MEAN|1.4||0.91|TWO_SIDED|95.0|-2.58|2.91||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other non-motor domain secondary outcomes: Processing Speed Test and Trail Making Test Ratio.|Mixed Models Analysis||Visual memory declines with Parkinson's, hence the score declines. The reported effect is the difference in annual slopes, i.e., changes in mean score\^2/year, for AE and UCC treatment arms, shown in hundreds. Higher slope indicates slower decline.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, the score was squared for statistical modeling. Sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||2.91|-2.58|0.91
92331859|NCT03292471|184568594|SUPERIORITY|Dependent variable: PNT T-score Fixed Effects: Group Assignment (A = Standard, B= Priming), Time point (Pre-treatment, Post-treatment) Random Effects: Participant (intercept and slope) Priors for slope and intercept were set as t-distributions (PNT raw score converted to T-score scale with m = 50, sd = 10 based on sample estimates from Fergadiotis, Hula, \& Kellough, 2015)|Highest Density Interval of Posterior Di|0.284|||||TWO_SIDED|95.0|-2.07|2.92|||||Direction of comparison: Group A (Standard Protocol) and post-treatment timepoint were set as reference values|Baysian Multivariate Analysis of Variance||2.92|-2.07|
92331860|NCT03292471|184568594|SUPERIORITY|Dependent variable: PNT T-score Fixed Effects: Group Assignment (A = Standard, B= Priming), Time point (Pre-treatment, Follow-up) Random Effects: Participant (intercept and slope) Priors for slope and intercept were set as t-distributions (PNT raw score converted to T-score scale with m = 50, sd = 10 based on sample estimates from Fergadiotis, Hula, \& Kellough, 2015)|Highest Density Interval of Posterior Di|0.02|||||TWO_SIDED|95.0|-2.38|2.46|||||Direction of comparison: Group A (Standard Protocol) and follow-up (2 months post-treatment) timepoint were set as reference values|Baysian Multivariate Analysis of Variance||2.46|-2.38|
92331861|NCT03292471|184568595|SUPERIORITY|Dependent variable: CAT Mean-modality T-score Fixed Effects: Group Assignment (A = Standard, B= Priming), Time point (Entry, Exit) Random Effects: Participant (intercept and slope) Priors for slope and intercept were set as t-distributions|Highest Density Interval of Posterior Di|0.997|||||TWO_SIDED|95.0|-0.0719|2.25|||||Direction of comparison: Group A (Standard Protocol) and post-treatment timepoint were set as reference values|Baysian Multivariate Analysis of Variance||2.25|-0.0719|
92331862|NCT03292471|184568595|SUPERIORITY|Dependent variable: CAT Mean-modality T-score Fixed Effects: Group Assignment (A = Standard, B= Priming), Time-point (Pre-treatment, Post-treatment) Random Effects: Participant (intercept and slope) Priors for slope and intercept were set as t-distributions|Highest Density Interval of Posterior Di|0.443|||||TWO_SIDED|95.0|-0.596|1.58|||||Direction of comparison: Group A (Standard Protocol) and follow-up (2 months post-treatment) timepoint were set as reference values|Baysian Multivariate Analysis of Variance||1.58|-0.596|
92331863|NCT00911586|184568602|OTHER|Part 1 of piecewise linear regression model.|Slope|-4.077|STANDARD_ERROR_OF_MEAN|16.02||0.806|TWO_SIDED||||||Regression, Linear|Part 1 of piecewise linear regression model.|Part 1 of piecewise linear regression model.|||||0.8060
92331864|NCT00911586|184568603|OTHER|Part 2 of piecewise linear regression model.|Slope|4.114|STANDARD_ERROR_OF_MEAN|18.456||0.8286|TWO_SIDED||||||Regression, Linear|Part 2 of piecewise linear regression model.|Part 2 of piecewise linear regression model.|||||0.8286
92331865|NCT00938587|184568608|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.291||0.0141|TWO_SIDED|90.0|-1.21|-0.24|||MMRM|||Day 14: Treatment difference and its corresponding 90 percent (%) confidence interval (CI) was based on least squares (LS) mean difference using mixed-model repeated measure (MMRM) where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and compound symmetry (CS) as covariance structure.||-0.24|-1.21|0.0141
92331866|NCT00938587|184568608|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.26|STANDARD_ERROR_OF_MEAN|0.283|<|0.0001|TWO_SIDED|90.0|-1.73|-0.79|||MMRM|||Day 14: Treatment difference and its corresponding 90 % CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.79|-1.73|<0.0001
92331867|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.865||0.437|TWO_SIDED|90.0|-4.54|1.63|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.63|-4.54|0.4370
92331868|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.5|STANDARD_ERROR_OF_MEAN|1.858||0.1802|TWO_SIDED|90.0|-5.58|0.57|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.57|-5.58|0.1802
92331869|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|1.832||0.6012|TWO_SIDED|90.0|-3.99|2.07|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.07|-3.99|0.6012
92331870|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.01|STANDARD_ERROR_OF_MEAN|1.834||0.2753|TWO_SIDED|90.0|-5.04|1.03|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.03|-5.04|0.2753
92331871|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.49|STANDARD_ERROR_OF_MEAN|1.844||0.7892|TWO_SIDED|90.0|-2.56|3.55|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.55|-2.56|0.7892
92331872|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.72|STANDARD_ERROR_OF_MEAN|1.937||0.3765|TWO_SIDED|90.0|-4.92|1.49|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.49|-4.92|0.3765
92331873|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.59|STANDARD_ERROR_OF_MEAN|1.873||0.0571|TWO_SIDED|90.0|-6.69|-0.49|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.49|-6.69|0.0571
92331874|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.85|STANDARD_ERROR_OF_MEAN|1.896||0.6553|TWO_SIDED|90.0|-3.99|2.29|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.29|-3.99|0.6553
92331875|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.72|STANDARD_ERROR_OF_MEAN|1.847||0.1427|TWO_SIDED|90.0|-5.78|0.33|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.33|-5.78|0.1427
92331876|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.87|STANDARD_ERROR_OF_MEAN|1.873||0.643|TWO_SIDED|90.0|-2.23|3.97|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.97|-2.23|0.6430
92331877|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.04|STANDARD_ERROR_OF_MEAN|1.918||0.5868|TWO_SIDED|90.0|-2.13|4.22|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||4.22|-2.13|0.5868
92331878|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.02|STANDARD_ERROR_OF_MEAN|1.873||0.586|TWO_SIDED|90.0|-4.12|2.08|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.08|-4.12|0.5860
92331879|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.84|STANDARD_ERROR_OF_MEAN|1.879||0.3288|TWO_SIDED|90.0|-1.27|4.95|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||4.95|-1.27|0.3288
92331880|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|1.846||0.9027|TWO_SIDED|90.0|-3.28|2.83|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.83|-3.28|0.9027
92331881|NCT00938587|184568609|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.8|STANDARD_ERROR_OF_MEAN|1.871||0.671|TWO_SIDED|90.0|-2.3|3.89|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.89|-2.30|0.6710
92331882|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|1.123||0.837|TWO_SIDED|90.0|-1.63|2.09|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.09|-1.63|0.8370
92331883|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.96|STANDARD_ERROR_OF_MEAN|1.12||0.0819|TWO_SIDED|90.0|-3.81|-0.11|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.11|-3.81|0.0819
92331884|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|1.106||0.8892|TWO_SIDED|90.0|-1.98|1.67|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.67|-1.98|0.8892
92331885|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.35|STANDARD_ERROR_OF_MEAN|1.106||0.0353|TWO_SIDED|90.0|-4.17|-0.52|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.52|-4.17|0.0353
92331886|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|1.108||0.7283|TWO_SIDED|90.0|-2.22|1.45|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.45|-2.22|0.7283
92331887|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|1.174||0.9083|TWO_SIDED|90.0|-1.81|2.08|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.08|-1.81|0.9083
92331888|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.58|STANDARD_ERROR_OF_MEAN|1.132||0.1641|TWO_SIDED|90.0|-3.45|0.29|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.29|-3.45|0.1641
92331889|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.27|STANDARD_ERROR_OF_MEAN|1.155||0.817|TWO_SIDED|90.0|-1.64|2.18|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.18|-1.64|0.8170
92331890|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.116||0.1958|TWO_SIDED|90.0|-3.29|0.4|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.40|-3.29|0.1958
92331891|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|1.13||0.907|TWO_SIDED|90.0|-1.74|2.0|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.00|-1.74|0.9070
92331892|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.58|STANDARD_ERROR_OF_MEAN|1.16||0.0023|TWO_SIDED|90.0|1.67|5.5|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||5.50|1.67|0.0023
92331893|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.62|STANDARD_ERROR_OF_MEAN|1.132||0.1531|TWO_SIDED|90.0|-0.25|3.49|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.49|-0.25|0.1531
92331894|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.65|STANDARD_ERROR_OF_MEAN|1.141||0.1506|TWO_SIDED|90.0|-0.24|3.53|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.53|-0.24|0.1506
92331895|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|1.116||0.78|TWO_SIDED|90.0|-2.16|1.53|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.53|-2.16|0.7800
92331896|NCT00938587|184568610|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.94|STANDARD_ERROR_OF_MEAN|1.13||0.0883|TWO_SIDED|90.0|-3.8|-0.07|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.07|-3.80|0.0883
92331897|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.47|STANDARD_ERROR_OF_MEAN|4.48||0.0599|TWO_SIDED|90.0|-15.87|-1.07|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-1.07|-15.87|0.0599
92331898|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-13.29|STANDARD_ERROR_OF_MEAN|4.436||0.003|TWO_SIDED|90.0|-20.61|-5.96|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-5.96|-20.61|0.0030
92331899|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-12.63|STANDARD_ERROR_OF_MEAN|4.483||0.0053|TWO_SIDED|90.0|-20.03|-5.22|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-5.22|-20.03|0.0053
92331900|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-17.44|STANDARD_ERROR_OF_MEAN|4.445||0.0001|TWO_SIDED|90.0|-24.78|-10.1|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-10.10|-24.78|0.0001
92331901|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.15|STANDARD_ERROR_OF_MEAN|4.427||0.3492|TWO_SIDED|90.0|-11.46|3.16|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.16|-11.46|0.3492
92331902|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.68|STANDARD_ERROR_OF_MEAN|4.661||0.0389|TWO_SIDED|90.0|-17.38|-1.98|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure||-1.98|-17.38|0.0389
92331903|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-11.1|STANDARD_ERROR_OF_MEAN|4.49||0.0142|TWO_SIDED|90.0|-18.51|-3.68|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-3.68|-18.51|0.0142
92331904|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-13.51|STANDARD_ERROR_OF_MEAN|4.612||0.0037|TWO_SIDED|90.0|-21.13|-5.89|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-5.89|-21.13|0.0037
92331905|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-14.93|STANDARD_ERROR_OF_MEAN|4.447||0.0009|TWO_SIDED|90.0|-22.27|-7.58|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-7.58|-22.27|0.0009
92331906|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.83|STANDARD_ERROR_OF_MEAN|4.484||0.3939|TWO_SIDED|90.0|-11.23|3.57|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.57|-11.23|0.3939
92331907|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|11.54|STANDARD_ERROR_OF_MEAN|4.595||0.0127|TWO_SIDED|90.0|3.95|19.13|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||19.13|3.95|0.0127
92331908|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|4.49||0.9425|TWO_SIDED|90.0|-7.09|7.74|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||7.74|-7.09|0.9425
92331909|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|11.08|STANDARD_ERROR_OF_MEAN|4.544||0.0155|TWO_SIDED|90.0|3.58|18.59|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||18.59|3.58|0.0155
92331910|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|4.447||0.9757|TWO_SIDED|90.0|-7.48|7.21|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||7.21|-7.48|0.9757
92331911|NCT00938587|184568611|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|4.484||0.9184|TWO_SIDED|90.0|-7.86|6.94|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||6.94|-7.86|0.9184
92331912|NCT00938587|184568612|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.135||0.2403|TWO_SIDED|90.0|-0.38|0.06|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.06|-0.38|0.2403
92331913|NCT00938587|184568612|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.134||0.027|TWO_SIDED|90.0|-0.52|-0.08|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.08|-0.52|0.0270
92331914|NCT00938587|184568612|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.133||0.3139|TWO_SIDED|90.0|-0.36|0.09|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.09|-0.36|0.3139
92331915|NCT00938587|184568612|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.134||0.0415|TWO_SIDED|90.0|-0.5|-0.05|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.05|-0.50|0.0415
92331916|NCT00938587|184568612|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.134||0.8585|TWO_SIDED|90.0|-0.2|0.25|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.25|-0.20|0.8585
92331917|NCT00938587|184568612|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.138||0.7284|TWO_SIDED|90.0|-0.28|0.18|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.18|-0.28|0.7284
92331918|NCT00938587|184568612|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.135||0.0171|TWO_SIDED|90.0|-0.55|-0.1|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.10|-0.55|0.0171
92331919|NCT00938587|184568612|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.135||0.2277|TWO_SIDED|90.0|-0.39|0.06|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.06|-0.39|0.2277
92331920|NCT00938587|184568612|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.134||0.0013|TWO_SIDED|90.0|-0.67|-0.22|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.22|-0.67|0.0013
92331921|NCT00938587|184568612|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.135||0.3908|TWO_SIDED|90.0|-0.34|0.11|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.11|-0.34|0.3908
92331922|NCT00938587|184568613|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.66|STANDARD_ERROR_OF_MEAN|7.093||0.6067|TWO_SIDED|90.0|-15.43|8.1|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||8.10|-15.43|0.6067
92331923|NCT00938587|184568613|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.55|STANDARD_ERROR_OF_MEAN|7.101||0.1816|TWO_SIDED|90.0|-21.32|2.23|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.23|-21.32|0.1816
92331924|NCT00938587|184568613|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.84|STANDARD_ERROR_OF_MEAN|7.029||0.6873|TWO_SIDED|90.0|-14.5|8.82|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||8.82|-14.50|0.6873
92331925|NCT00938587|184568613|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.72|STANDARD_ERROR_OF_MEAN|7.052||0.2188|TWO_SIDED|90.0|-20.42|2.98|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.98|-20.42|0.2188
92331926|NCT00938587|184568613|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.83|STANDARD_ERROR_OF_MEAN|7.024||0.9067|TWO_SIDED|90.0|-10.82|12.47|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||12.47|-10.82|0.9067
92331927|NCT00938587|184568613|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.02|STANDARD_ERROR_OF_MEAN|7.254||0.5803|TWO_SIDED|90.0|-16.05|8.0|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||8.00|-16.05|0.5803
92331928|NCT00938587|184568613|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.29|STANDARD_ERROR_OF_MEAN|7.156||0.249|TWO_SIDED|90.0|-20.16|3.57|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.57|-20.16|0.2490
92331929|NCT00938587|184568613|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-11.62|STANDARD_ERROR_OF_MEAN|7.178||0.1081|TWO_SIDED|90.0|-23.52|0.28|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.28|-23.52|0.1081
92331930|NCT00938587|184568613|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-15.89|STANDARD_ERROR_OF_MEAN|7.098||0.0271|TWO_SIDED|90.0|-27.66|-4.12|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-4.12|-27.66|0.0271
92331931|NCT00938587|184568613|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.6|STANDARD_ERROR_OF_MEAN|7.121||0.2881|TWO_SIDED|90.0|-19.41|4.21|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||4.21|-19.41|0.2881
92331932|NCT00938587|184568614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.52|STANDARD_ERROR_OF_MEAN|7.059||0.3579|TWO_SIDED|90.0|-18.23|5.19|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||5.19|-18.23|0.3579
92331933|NCT00938587|184568614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.55|STANDARD_ERROR_OF_MEAN|7.046||0.2274|TWO_SIDED|90.0|-20.24|3.14|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.14|-20.24|0.2274
92331934|NCT00938587|184568614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-10.15|STANDARD_ERROR_OF_MEAN|6.973||0.1482|TWO_SIDED|90.0|-21.72|1.41|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.41|-21.72|0.1482
92331935|NCT00938587|184568614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-12.19|STANDARD_ERROR_OF_MEAN|6.962||0.0828|TWO_SIDED|90.0|-23.74|-0.64|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.64|-23.74|0.0828
92331936|NCT00938587|184568614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.64|STANDARD_ERROR_OF_MEAN|6.953||0.6021|TWO_SIDED|90.0|-15.17|7.9|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||7.90|-15.17|0.6021
92331937|NCT00938587|184568614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.28|STANDARD_ERROR_OF_MEAN|7.213||0.7528|TWO_SIDED|90.0|-14.24|9.68|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||9.68|-14.24|0.7528
92331938|NCT00938587|184568614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.17|STANDARD_ERROR_OF_MEAN|7.1||0.2523|TWO_SIDED|90.0|-19.94|3.6|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.60|-19.94|0.2523
92331939|NCT00938587|184568614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-11.63|STANDARD_ERROR_OF_MEAN|7.118||0.1049|TWO_SIDED|90.0|-23.43|0.17|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.17|-23.43|0.1049
92331940|NCT00938587|184568614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-17.53|STANDARD_ERROR_OF_MEAN|7.006||0.0138|TWO_SIDED|90.0|-29.14|-5.91|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-5.91|-29.14|0.0138
92331941|NCT00938587|184568614|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.36|STANDARD_ERROR_OF_MEAN|7.052||0.1873|TWO_SIDED|90.0|-21.05|2.34|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.34|-21.05|0.1873
92331942|NCT00938587|184568615|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.54|STANDARD_ERROR_OF_MEAN|5.339||0.509|TWO_SIDED|90.0|-12.4|5.32|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||5.32|-12.40|0.5090
92331943|NCT00938587|184568615|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.89|STANDARD_ERROR_OF_MEAN|5.354||0.0998|TWO_SIDED|90.0|-17.78|-0.01|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.01|-17.78|0.0998
92331944|NCT00938587|184568615|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|5.282||0.8866|TWO_SIDED|90.0|-9.52|8.01|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||8.01|-9.52|0.8866
92331945|NCT00938587|184568615|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.11|STANDARD_ERROR_OF_MEAN|5.28||0.2499|TWO_SIDED|90.0|-14.88|2.66|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.66|-14.88|0.2499
92331946|NCT00938587|184568615|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.78|STANDARD_ERROR_OF_MEAN|5.283||0.5995|TWO_SIDED|90.0|-5.99|11.55|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||11.55|-5.99|0.5995
92331947|NCT00938587|184568615|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|5.429||0.9117|TWO_SIDED|90.0|-8.4|9.61|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||9.61|-8.40|0.9117
92331948|NCT00938587|184568615|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.91|STANDARD_ERROR_OF_MEAN|5.381||0.0684|TWO_SIDED|90.0|-18.84|-0.98|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.98|-18.84|0.0684
92331949|NCT00938587|184568615|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.49|STANDARD_ERROR_OF_MEAN|5.366||0.2292|TWO_SIDED|90.0|-15.39|2.42|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.42|-15.39|0.2292
92331950|NCT00938587|184568615|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-17.0|STANDARD_ERROR_OF_MEAN|5.308||0.0018|TWO_SIDED|90.0|-25.81|-8.19|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-8.19|-25.81|0.0018
92331951|NCT00938587|184568615|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.09|STANDARD_ERROR_OF_MEAN|5.337||0.1867|TWO_SIDED|90.0|-15.95|1.76|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.76|-15.95|0.1867
92331952|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|2.708||0.9624|TWO_SIDED|90.0|-4.64|4.38|||ANCOVA|||Physical functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using analysis of covariance (ANCOVA) where treatment as fixed effect, baseline as the covariate.||4.38|-4.64|0.9624
92331953|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|2.65||0.9493|TWO_SIDED|90.0|-4.24|4.58|||ANCOVA|||Physical functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.58|-4.24|0.9493
92331954|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.46|STANDARD_ERROR_OF_MEAN|2.738||0.21|TWO_SIDED|90.0|-1.1|8.02|||ANCOVA|||Physical functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.02|-1.10|0.2100
92331955|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.76|STANDARD_ERROR_OF_MEAN|2.651||0.1602|TWO_SIDED|90.0|-0.66|8.18|||ANCOVA|||Physical functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.18|-0.66|0.1602
92331956|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.59|STANDARD_ERROR_OF_MEAN|2.71||0.1892|TWO_SIDED|90.0|-0.92|8.1|||ANCOVA|||Physical functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.10|-0.92|0.1892
92331957|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.74|STANDARD_ERROR_OF_MEAN|2.781||0.7899|TWO_SIDED|90.0|-3.89|5.38|||ANCOVA|||Role physical at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||5.38|-3.89|0.7899
92331958|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.96|STANDARD_ERROR_OF_MEAN|2.719||0.149|TWO_SIDED|90.0|-0.56|8.49|||ANCOVA|||Role physical at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.49|-0.56|0.1490
92331959|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.36|STANDARD_ERROR_OF_MEAN|2.766||0.6238|TWO_SIDED|90.0|-5.97|3.24|||ANCOVA|||Role physical at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||3.24|-5.97|0.6238
92331960|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.86|STANDARD_ERROR_OF_MEAN|2.699||0.4933|TWO_SIDED|90.0|-2.64|6.35|||ANCOVA|||Role physical at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||6.35|-2.64|0.4933
92331961|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.11|STANDARD_ERROR_OF_MEAN|2.739||0.4445|TWO_SIDED|90.0|-6.67|2.46|||ANCOVA|||Role physical at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||2.46|-6.67|0.4445
92331962|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.51|STANDARD_ERROR_OF_MEAN|2.897||0.2288|TWO_SIDED|90.0|-1.31|8.34|||ANCOVA|||Bodily pain at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.34|-1.31|0.2288
92331963|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.77|STANDARD_ERROR_OF_MEAN|2.844||0.098|TWO_SIDED|90.0|0.03|9.5|||ANCOVA|||Bodily pain at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate||9.50|0.03|0.0980
92331964|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.54|STANDARD_ERROR_OF_MEAN|2.941||0.0637|TWO_SIDED|90.0|0.64|10.43|||ANCOVA|||Bodily pain at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate||10.43|0.64|0.0637
92331965|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.79|STANDARD_ERROR_OF_MEAN|2.831||0.019|TWO_SIDED|90.0|2.07|11.5|||ANCOVA|||Bodily pain at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||11.50|2.07|0.0190
92331966|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.02|STANDARD_ERROR_OF_MEAN|2.903||0.4886|TWO_SIDED|90.0|-2.81|6.86|||ANCOVA|||Bodily pain at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||6.86|-2.81|0.4886
92331967|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|1.879||0.9951|TWO_SIDED|90.0|-3.12|3.14|||ANCOVA|||General health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||3.14|-3.12|0.9951
92331968|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.31|STANDARD_ERROR_OF_MEAN|1.818||0.4721|TWO_SIDED|90.0|-1.71|4.34|||ANCOVA|||General health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.34|-1.71|0.4721
92331969|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.77|STANDARD_ERROR_OF_MEAN|1.879||0.6835|TWO_SIDED|90.0|-3.9|2.36|||ANCOVA|||General health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||2.36|-3.90|0.6835
92331970|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.53|STANDARD_ERROR_OF_MEAN|1.818||0.7701|TWO_SIDED|90.0|-2.49|3.56|||ANCOVA|||General health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||3.56|-2.49|0.7701
92331971|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.78|STANDARD_ERROR_OF_MEAN|1.831||0.671|TWO_SIDED|90.0|-3.83|2.27|||ANCOVA|||General health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||2.27|-3.83|0.6710
92331972|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.02|STANDARD_ERROR_OF_MEAN|2.827||0.2886|TWO_SIDED|90.0|-1.69|7.73|||ANCOVA|||Vitality at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||7.73|-1.69|0.2886
92331973|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.22|STANDARD_ERROR_OF_MEAN|2.784||0.134|TWO_SIDED|90.0|-0.42|8.86|||ANCOVA|||Vitality at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.86|-0.42|0.1340
92331974|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.24|STANDARD_ERROR_OF_MEAN|2.83||0.2563|TWO_SIDED|90.0|-1.48|7.95|||ANCOVA|||Vitality at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||7.95|-1.48|0.2563
92331975|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.43|STANDARD_ERROR_OF_MEAN|2.771||0.1138|TWO_SIDED|90.0|-0.18|9.05|||ANCOVA|||Vitality at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||9.05|-0.18|0.1138
92331976|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.22|STANDARD_ERROR_OF_MEAN|2.793||0.9386|TWO_SIDED|90.0|-4.44|4.87|||ANCOVA|||Vitality at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.87|-4.44|0.9386
92331977|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.4|STANDARD_ERROR_OF_MEAN|2.701||0.8814|TWO_SIDED|90.0|-4.09|4.9|||ANCOVA|||Social functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.90|-4.09|0.8814
92331978|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.98|STANDARD_ERROR_OF_MEAN|2.64||0.1363|TWO_SIDED|90.0|-0.42|8.37|||ANCOVA|||Social functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.37|-0.42|0.1363
92331979|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.73|STANDARD_ERROR_OF_MEAN|2.682||0.7864|TWO_SIDED|90.0|-3.74|5.2|||ANCOVA|||Social functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||5.20|-3.74|0.7864
92331980|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.3|STANDARD_ERROR_OF_MEAN|2.619||0.1048|TWO_SIDED|90.0|-0.06|8.66|||ANCOVA|||Social functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.66|-0.06|0.1048
92331981|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.33|STANDARD_ERROR_OF_MEAN|2.643||0.9024|TWO_SIDED|90.0|-4.08|4.73|||ANCOVA|||Social functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.73|-4.08|0.9024
92331982|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.62|STANDARD_ERROR_OF_MEAN|3.819||0.4954|TWO_SIDED|90.0|-3.74|8.98|||ANCOVA|||Role emotional at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.98|-3.74|0.4954
92331983|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.14|STANDARD_ERROR_OF_MEAN|3.735||0.1729|TWO_SIDED|90.0|-1.08|11.36|||ANCOVA|||Role emotional at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||11.36|-1.08|0.1729
92331984|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.21|STANDARD_ERROR_OF_MEAN|3.82||0.565|TWO_SIDED|90.0|-4.15|8.57|||ANCOVA|||Role emotional at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.57|-4.15|0.5650
92331985|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.73|STANDARD_ERROR_OF_MEAN|3.73||0.2087|TWO_SIDED|90.0|-1.48|10.94|||ANCOVA|||Role emotional at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||10.94|-1.48|0.2087
92331986|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|3.771||0.9139|TWO_SIDED|90.0|-6.69|5.87|||ANCOVA|||Role emotional at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||5.87|-6.69|0.9139
92331987|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.51|STANDARD_ERROR_OF_MEAN|3.371||0.6559|TWO_SIDED|90.0|-4.11|7.12|||ANCOVA|||Mental health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||7.12|-4.11|0.6559
92331988|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.15|STANDARD_ERROR_OF_MEAN|3.315||0.7304|TWO_SIDED|90.0|-4.37|6.67|||ANCOVA|||Mental health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||6.67|-4.37|0.7304
92331989|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.64|STANDARD_ERROR_OF_MEAN|3.369||0.1729|TWO_SIDED|90.0|-0.98|10.25|||ANCOVA|||Mental health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||10.25|-0.98|0.1729
92331990|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.27|STANDARD_ERROR_OF_MEAN|3.335||0.2038|TWO_SIDED|90.0|-1.28|9.83|||ANCOVA|||Mental health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||9.83|-1.28|0.2038
92331991|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.13|STANDARD_ERROR_OF_MEAN|3.328||0.3503|TWO_SIDED|90.0|-2.41|8.67|||ANCOVA|||Mental health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.67|-2.41|0.3503
92331992|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.29|STANDARD_ERROR_OF_MEAN|2.01||0.8875|TWO_SIDED|90.0|-3.06|3.63|||ANCOVA|||Physical component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||3.63|-3.06|0.8875
92331993|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.97|STANDARD_ERROR_OF_MEAN|1.971||0.3203|TWO_SIDED|90.0|-1.31|5.25|||ANCOVA|||Physical component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||5.25|-1.31|0.3203
92331994|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.31|STANDARD_ERROR_OF_MEAN|2.046||0.5232|TWO_SIDED|90.0|-2.09|4.72|||ANCOVA|||Physical component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.72|-2.09|0.5232
92331995|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.0|STANDARD_ERROR_OF_MEAN|1.971||0.1324|TWO_SIDED|90.0|-0.28|6.28|||ANCOVA|||Physical component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||6.28|-0.28|0.1324
92331996|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.03|STANDARD_ERROR_OF_MEAN|2.024||0.6134|TWO_SIDED|90.0|-2.34|4.4|||ANCOVA|||Physical component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.40|-2.34|0.6134
92331997|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.26|STANDARD_ERROR_OF_MEAN|3.387||0.5059|TWO_SIDED|90.0|-3.38|7.91|||ANCOVA|||Mental component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||7.91|-3.38|0.5059
92331998|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.44|STANDARD_ERROR_OF_MEAN|3.329||0.3042|TWO_SIDED|90.0|-2.1|8.99|||ANCOVA|||Mental component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.99|-2.10|0.3042
92331999|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.18|STANDARD_ERROR_OF_MEAN|3.39||0.3519|TWO_SIDED|90.0|-2.47|8.82|||ANCOVA|||Mental component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.82|-2.47|0.3519
92332000|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.36|STANDARD_ERROR_OF_MEAN|3.342||0.1966|TWO_SIDED|90.0|-1.21|9.92|||ANCOVA|||Mental component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||9.92|-1.21|0.1966
92332001|NCT00938587|184568616|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.91|STANDARD_ERROR_OF_MEAN|3.345||0.786|TWO_SIDED|90.0|-4.66|6.48|||ANCOVA|||Mental component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||6.48|-4.66|0.7860
92332002|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.286||0.109|TWO_SIDED|90.0|-0.93|0.01|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.01|-0.93|0.1090
92332003|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.91|STANDARD_ERROR_OF_MEAN|0.282||0.0014|TWO_SIDED|90.0|-1.38|-0.45|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.45|-1.38|0.0014
92332004|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.284||0.0506|TWO_SIDED|90.0|-1.03|-0.09|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.09|-1.03|0.0506
92332005|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.01|STANDARD_ERROR_OF_MEAN|0.28||0.0004|TWO_SIDED|90.0|-1.48|-0.55|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.55|-1.48|0.0004
92332006|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.281||0.7272|TWO_SIDED|90.0|-0.56|0.37|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.37|-0.56|0.7272
92332007|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.296||0.0604|TWO_SIDED|90.0|-1.05|-0.07|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.07|-1.05|0.0604
92332008|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.285||0.0003|TWO_SIDED|90.0|-1.53|-0.59|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.59|-1.53|0.0003
92332009|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.291||0.0377|TWO_SIDED|90.0|-1.09|-0.13|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.13|-1.09|0.0377
92332010|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.11|STANDARD_ERROR_OF_MEAN|0.28||0.0001|TWO_SIDED|90.0|-1.57|-0.65|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.65|-1.57|0.0001
92332011|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.284||0.8612|TWO_SIDED|90.0|-0.52|0.42|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.42|-0.52|0.8612
92332012|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.44|STANDARD_ERROR_OF_MEAN|0.292||0.133|TWO_SIDED|90.0|-0.04|0.93|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.93|-0.04|0.1330
92332013|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.285||0.8542|TWO_SIDED|90.0|-0.52|0.42|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.42|-0.52|0.8542
92332014|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.288||0.2339|TWO_SIDED|90.0|-0.13|0.82|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.82|-0.13|0.2339
92332015|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.5927|TWO_SIDED|90.0|-0.61|0.31|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.31|-0.61|0.5927
92332016|NCT00938587|184568617|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.284||0.7304|TWO_SIDED|90.0|-0.57|0.37|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.37|-0.57|0.7304
92332017|NCT00938587|184568618|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.29||0.0956|TWO_SIDED|90.0|-0.97|-0.01|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.01|-0.97|0.0956
92332018|NCT00938587|184568618|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.93|STANDARD_ERROR_OF_MEAN|0.286||0.0016|TWO_SIDED|90.0|-1.4|-0.45|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.45|-1.40|0.0016
92332019|NCT00938587|184568618|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.65|STANDARD_ERROR_OF_MEAN|0.287||0.0258|TWO_SIDED|90.0|-1.13|-0.17|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.17|-1.13|0.0258
92332020|NCT00938587|184568618|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.09|STANDARD_ERROR_OF_MEAN|0.283||0.0002|TWO_SIDED|90.0|-1.56|-0.62|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.62|-1.56|0.0002
92332021|NCT00938587|184568618|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.284||0.5692||90.0|-0.63|0.31|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.31|-0.63|0.5692
92332022|NCT00938587|184568619|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|14.29||||0.146|TWO_SIDED|90.0|-8.65|35.98|||Barnard exact test|||Day 7||35.98|-8.65|0.1460
92332023|NCT00938587|184568619|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|38.1||||0.0052|TWO_SIDED|90.0|12.25|59.46|||Barnard exact test|||Day 7||59.46|12.25|0.0052
92332024|NCT00938587|184568619|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.3||||0.5094|TWO_SIDED|90.0|-22.0|24.66|||Barnard exact test|||Day 7||24.66|-22.00|0.5094
92332025|NCT00938587|184568619|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|25.11||||0.0551|TWO_SIDED|90.0|-0.69|48.34|||Barnard exact test|||Day 7||48.34|-0.69|0.0551
92332026|NCT00938587|184568619|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-12.99||||0.9999|TWO_SIDED|90.0|-34.09|8.78|||Barnard exact test|||Day 7||8.78|-34.09|0.9999
92332027|NCT00938587|184568619|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|10.56||||0.3027|TWO_SIDED|90.0|-17.18|37.67|||Barnard-Exact test|||Day 14||37.67|-17.18|0.3027
92332028|NCT00938587|184568619|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|21.67||||0.1074|TWO_SIDED|90.0|-6.24|46.16|||Barnard-Exact test|||Day 14||46.16|-6.24|0.1074
92332029|NCT00938587|184568619|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|17.46||||0.234|TWO_SIDED|90.0|-10.08|43.7|||Barnard-Exact test|||Day 14||43.70|-10.08|0.2340
92332030|NCT00938587|184568619|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|28.57||||0.0442|TWO_SIDED|90.0|0.91|53.07|||Barnard-Exact test|||Day 14||53.07|0.91|0.0442
92332031|NCT00938587|184568619|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|6.9||||0.3813|TWO_SIDED|90.0|-19.82|32.92|||Barnard-Exact test|||Day 14||32.92|-19.82|0.3813
92332032|NCT00938587|184568620|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|9.52||||0.1017|TWO_SIDED|90.0|-3.9|27.09|||Barnard exact test|||Day 7||27.09|-3.90|0.1017
92332033|NCT00938587|184568620|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|19.05||||0.0218|TWO_SIDED|90.0|4.49|38.44|||Barnard exact test|||Day 7||38.44|4.49|0.0218
92332034|NCT00938587|184568620|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|9.52||||0.1082|TWO_SIDED|90.0|-3.71|27.06|||Barnard exact test|||Day 7||27.06|-3.71|0.1082
92332035|NCT00938587|184568620|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|19.05||||0.0166|TWO_SIDED|90.0|4.81|38.44|||Barnard exact test|||Day 7||38.44|4.81|0.0166
92332036|NCT00938587|184568620|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.22||||0.4776|TWO_SIDED|90.0|-21.61|25.87|||Barnard exact test|||Day 14||25.87|-21.61|0.4776
92332037|NCT00938587|184568620|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|27.62||||0.0347|TWO_SIDED|90.0|2.53|50.78|||Barnard exact test|||Day 14||50.78|2.53|0.0347
92332038|NCT00938587|184568620|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|7.94||||0.3343|TWO_SIDED|90.0|-13.71|31.59|||Barnard exact test|||Day 14||31.59|-13.71|0.3343
92332039|NCT00938587|184568620|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|33.33||||0.0117|TWO_SIDED|90.0|8.35|55.0|||Barnard exact test|||Day 14||55.00|8.35|0.0117
92332040|NCT00938587|184568620|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.71||||0.372|TWO_SIDED|90.0|-15.86|27.04|||Barnard exact test|||Day 14||27.04|-15.86|0.3720
92332041|NCT00938587|184568621|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.76||||0.263|TWO_SIDED|90.0|-8.61|20.67|||Barnard exact test|||Day 7||20.67|-8.61|0.2630
92332042|NCT00938587|184568621|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.76||||0.263|TWO_SIDED|90.0|-8.61|20.67|||Barnard exact test|||Day 7||20.67|-8.61|0.2630
92332043|NCT00938587|184568621|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.76||||0.2539|TWO_SIDED|90.0|-7.51|20.67|||Barnard exact test|||Day 7||20.67|-7.51|0.2539
92332044|NCT00938587|184568621|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.76||||0.2539|TWO_SIDED|90.0|-7.51|20.67|||Barnard exact test|||Day 7||20.67|-7.51|0.2539
92332045|NCT00938587|184568621|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|14.29||||0.0477|TWO_SIDED|90.0|0.23|32.92|||Barnard exact test|||Day 14||32.92|0.23|0.0477
92332046|NCT00938587|184568621|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|14.29||||0.0442|TWO_SIDED|90.0|0.65|32.92|||Barnard exact test|||Day 14||32.92|0.65|0.0442
92332047|NCT00938587|184568624|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.33||0.5403|TWO_SIDED|90.0|-0.34|0.75|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.75|-0.34|0.5403
92332048|NCT00938587|184568624|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.33||0.8374|TWO_SIDED|90.0|-0.61|0.48|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.48|-0.61|0.8374
92332049|NCT00938587|184568624|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.329||0.4305|TWO_SIDED|90.0|-0.28|0.8|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.80|-0.28|0.4305
92332050|NCT00938587|184568624|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.325||0.9733|TWO_SIDED|90.0|-0.55|0.53|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.53|-0.55|0.9733
92332051|NCT00938587|184568624|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.325||0.8613|TWO_SIDED|90.0|-0.48|0.6|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.60|-0.48|0.8613
92332052|NCT00938587|184568624|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.341||0.5245|TWO_SIDED|90.0|-0.35|0.78|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.78|-0.35|0.5245
92332053|NCT00938587|184568624|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.334||0.8917|TWO_SIDED|90.0|-0.6|0.51|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.51|-0.60|0.8917
92332054|NCT00938587|184568624|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.47|STANDARD_ERROR_OF_MEAN|0.339||0.1695|TWO_SIDED|90.0|-0.09|1.03|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.03|-0.09|0.1695
92332055|NCT00938587|184568624|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.329||0.5339|TWO_SIDED|90.0|-0.34|0.75|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.75|-0.34|0.5339
92332056|NCT00938587|184568624|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.25|STANDARD_ERROR_OF_MEAN|0.332||0.452|TWO_SIDED|90.0|-0.3|0.8|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.80|-0.30|0.4520
92332057|NCT03763058|184568650|SUPERIORITY||Mean Difference (Final Values)|-2.8|STANDARD_DEVIATION|4.19||0.012|TWO_SIDED|95.0|||||Sign test|||||||0.012
92332058|NCT03763058|184568651|SUPERIORITY||Mean Difference (Final Values)|-5.45|STANDARD_DEVIATION|15.52||0.002|TWO_SIDED|95.0|||||Sign test|||||||0.002
92332059|NCT03763058|184568652|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|2.71||0.045|TWO_SIDED|95.0|||||Sign test|||||||0.045
92332060|NCT03763058|184568653|SUPERIORITY||Mean Difference (Final Values)|-3.65|STANDARD_DEVIATION|4.59|<|0.001|TWO_SIDED|95.0|||||Sign test|||||||<0.001
92332061|NCT03763058|184568654|SUPERIORITY||Mean Difference (Final Values)|-4.15|STANDARD_DEVIATION|5.1|<|0.001|TWO_SIDED|95.0|||||Sign test|||Total HAD score||||<0.001
92332062|NCT02759835|184568655|OTHER|||||||0.56|||||||Kaplan-Meier|||||||0.56
92332063|NCT02759835|184568657|OTHER|||||||0.4|||||||Kaplan-Meier|||||||0.40
92332064|NCT00055497|184568681|SUPERIORITY_OR_OTHER|||||||0.142|||||||Log Rank|||||||0.142
92332065|NCT00055497|184568682|SUPERIORITY_OR_OTHER|||||||0.029|||||||Fisher Exact|||||||0.029
92332066|NCT00055497|184568683|SUPERIORITY_OR_OTHER|||||||0.33|||||||Fisher Exact|||Week 24||||0.330
92332067|NCT00055497|184568683|SUPERIORITY_OR_OTHER|||||||0.001|||||||Fisher Exact|||Week 24||||0.001
92332068|NCT00055497|184568683|SUPERIORITY_OR_OTHER|||||||0.508|||||||Fisher Exact|||Week 56||||0.508
92332069|NCT00055497|184568683|SUPERIORITY_OR_OTHER|||||||0.044|||||||Fisher Exact|||Week 56||||0.044
92332070|NCT00055497|184568684|SUPERIORITY_OR_OTHER|||||||0.191|||||||Fisher Exact|||Week 24||||0.191
92332071|NCT00055497|184568684|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||Week 24||||0.003
92332072|NCT00055497|184568684|SUPERIORITY_OR_OTHER|||||||0.508|||||||Fisher Exact|||Week 56||||0.508
92332073|NCT00055497|184568684|SUPERIORITY_OR_OTHER|||||||0.004|||||||Fisher Exact|||Week 56||||0.004
92332074|NCT00055497|184568685|SUPERIORITY_OR_OTHER|||||||0.001|||||||Fisher Exact|||||||0.001
92332075|NCT00048165|184568690|SUPERIORITY_OR_OTHER||percent mean difference|-12.0||||0.007|TWO_SIDED|95.0|-20.9|-3.3|||Cochran-Mantel-Haenszel|||||-3.3|-20.9|0.007
92332076|NCT00048165|184568691|SUPERIORITY_OR_OTHER||percent mean difference|-8.6||||0.063|TWO_SIDED|95.0|-17.7|0.5|||Cochran-Mantel-Haenszel|||||0.5|-17.7|0.063
92332077|NCT00048165|184568694|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Cochran-Mantel-Haenszel|||Comparison of Daclizumab and Placebo for 6 months were presented||||0.0005
92332078|NCT00048165|184568694|SUPERIORITY_OR_OTHER|||||||0.0008|||||||Cochran-Mantel-Haenszel|||Comparison of Daclizumab and Placebo for 12 months were presented||||0.0008
92332079|NCT00678470|184568716|OTHER||Correlation|1.0||||0.0003|TWO_SIDED||||||Fisher Exact||||Using Fisher's non-parametric test of associations, correlations were determined between the patients who were intralesional responders with their response at ‡70% change in PASI score.|||0.0003
92332080|NCT01687283|184568718|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit of the two-sided 95% confidence interval for the treatment difference (FP minus BUD) in the mean change from baseline in daily AM PEF averaged over the 12 week treatment period was greater than -12 L/min.|Mean Difference (Net)|-1.8||||0.733|TWO_SIDED|95.0|-12.19|8.59||Analysis performed using ANCOVA with covariates of baseline, center, sex, age and treatment|ANCOVA||The analysis only included participants who had at least 4 days of non-missing AM PEF data in the baseline week prior to randomization and at least 4 days of non-missing AM PEF data after randomization.|||8.59|-12.19|0.733
92332081|NCT01687283|184568719|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit of the two-sided 95% confidence interval for the treatment difference (FP minus BUD) in the mean change from baseline in daily AM PEF averaged over the 12 week treatment period was greater than -12 L/min.|Mean Difference (Net)|-2.28||||0.674|TWO_SIDED|95.0|-12.95|8.38|||ANCOVA|||||8.38|-12.95|0.674
92332082|NCT01687283|184568720|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.77||||0.579|TWO_SIDED|95.0|-12.57|7.04|||ANCOVA|||||7.04|-12.57|0.579
92332083|NCT01687283|184568721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.62||||0.854|TWO_SIDED|95.0|-6.0|7.24|||ANCOVA|||||7.24|-6.00|0.854
92332084|NCT01687283|184568722|SUPERIORITY_OR_OTHER|||||||0.123|||||||Wilcoxon rank sum test|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in median day-time symptom score||||0.123
92332085|NCT01687283|184568722|SUPERIORITY_OR_OTHER|||||||0.949|||||||Wilcoxon rank sum test.|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in median night-time symptom score||||0.949
92332086|NCT01687283|184568723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.74||||0.204|TWO_SIDED|95.0|-12.07|2.59|||ANCOVA|||||2.59|-12.07|0.204
92332087|NCT01687283|184568724|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Wilcoxon Rank sum|||||||0.170
92332088|NCT01687283|184568725|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.039||||0.337|TWO_SIDED|95.0|-0.118|0.041||Repeated Measures analysis adjusted for baseline, centre, sex, age, visit, treatment, visit by treatment interaction and visit by baseline interaction|ANCOVA|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in Change of clinical lung function measurement FEV1 at Week 2||0.041|-0.118|0.337
92332089|NCT01687283|184568725|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.008||||0.866|TWO_SIDED|95.0|-0.101|0.085||Repeated Measures analysis adjusted for baseline, center, sex, age, visit, treatment, visit by treatment interaction and visit by baseline interaction.|ANCOVA|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in Change of clinical lung function measurement FEV1 at Week 4||0.085|-0.101|0.866
92332090|NCT01687283|184568725|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.025||||0.566|TWO_SIDED|95.0|-0.113|0.062||Repeated Measures analysis adjusted for baseline, center, sex, age, visit, treatment, visit by treatment interaction and visit by baseline interaction|ANCOVA|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in Change of clinical lung function measurement FEV1 at Week 8||0.062|-0.113|0.566
92332091|NCT01687283|184568725|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.017||||0.727|TWO_SIDED|95.0|-0.078|0.112||Repeated Measures analysis adjusted for baseline, center, sex, age, visit, treatment, visit by treatment interaction and visit by baseline interaction.|ANCOVA|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in Change of clinical lung function measurement FEV1 at Week 12||0.112|-0.078|0.727
92332092|NCT02442206|184568729|SUPERIORITY||Mean Difference (Net)|10.27|||<|0.0001|TWO_SIDED|95.0|6.209|14.331|||ANOVA|||||14.331|6.209|<0.0001
92332093|NCT02442206|184568730|SUPERIORITY||Mean Difference (Net)|0.42|||<|0.0001|TWO_SIDED|95.0|0.36|0.49|||ANOVA|||||0.49|0.36|<0.0001
92332094|NCT02442206|184568731|SUPERIORITY||Mean Difference (Net)|0.67|||<|0.0001|TWO_SIDED|95.0|0.55|0.8|||ANOVA|||||0.80|0.55|<0.0001
92332095|NCT02442206|184568732|SUPERIORITY||Mean Difference (Net)|0.446|||<|0.0001|TWO_SIDED|95.0|0.352|0.541|||ANOVA|||||0.541|0.352|<0.0001
92332096|NCT02442206|184568733|SUPERIORITY||Mean Difference (Net)|-0.177||||0.0017|TWO_SIDED|95.0|-0.285|-0.07|||ANOVA|||||-0.070|-0.285|0.0017
92332097|NCT02442206|184568734|SUPERIORITY||Mean Difference (Net)|-0.751|||<|0.0001|TWO_SIDED|95.0|-0.925|-0.577|||ANOVA|||||-0.577|-0.925|<0.0001
92332098|NCT02442206|184568735|SUPERIORITY||Mean Difference (Net)|-1.639|||<|0.0001|TWO_SIDED|95.0|-1.945|-1.332|||ANOVA|||||-1.332|-1.945|<0.0001
92332099|NCT02442206|184568736|SUPERIORITY||Mean Difference (Net)|-0.625|||<|0.0001|TWO_SIDED|95.0|-0.761|-0.489|||ANOVA|||||-0.489|-0.761|<0.0001
92332100|NCT02442206|184568737|SUPERIORITY||Mean Difference (Net)|1.209||||0.142|TWO_SIDED|95.0|-0.419|2.836|||ANOVA|||LV EF||2.836|-0.419|0.1420
92332101|NCT02442206|184568737|SUPERIORITY||Mean Difference (Net)|1.131||||0.1732|TWO_SIDED|95.0|-0.512|2.774|||ANOVA|||RV EF||2.774|-0.512|0.1732
92332102|NCT02442206|184568738|SUPERIORITY||Mean Difference (Net)|2.241||||0.0437|TWO_SIDED|95.0|0.066|4.417|||ANOVA|||LV ESV||4.417|0.066|0.0437
92332103|NCT02442206|184568738|SUPERIORITY||Mean Difference (Net)|2.095||||0.1236|TWO_SIDED|95.0|-0.591|4.782|||ANOVA|||RV ESV||4.782|-0.591|0.1236
92332104|NCT02442206|184568739|SUPERIORITY||Mean Difference (Net)|9.357||||0.0002|TWO_SIDED|95.0|4.649|14.065|||ANOVA|||||14.065|4.649|0.0002
92332105|NCT02442206|184568740|SUPERIORITY||Mean Difference (Net)|0.337||||0.0032|TWO_SIDED|95.0|0.118|0.555|||ANOVA|||LVCO||0.555|0.118|0.0032
92332106|NCT02442206|184568740|SUPERIORITY||Mean Difference (Net)|0.281||||0.0182|TWO_SIDED|95.0|0.05|0.512|||ANOVA|||RVCO||0.512|0.050|0.0182
92332107|NCT00497146|184568741|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Mixed Models Analysis|Mixed model includes treatment, visit, gender, baseline RAAS inhibitor use, country, baseline value, and treatment by visit interaction.||||||0.145
92332108|NCT01031004|184568850|SUPERIORITY_OR_OTHER|||||||0.0466||95.0|||||Fisher Exact|||The hypothesis is that narafilcon B is not statistically different from etafilcon A.||||0.0466
92332109|NCT01031004|184568851|SUPERIORITY_OR_OTHER|||||||0.1069||95.0|||||Fisher Exact|||The hypothesis is that narafilcon B is not statistically different from etafilcon A.||||0.1069
92332110|NCT01031004|184568852|SUPERIORITY_OR_OTHER|||||||0.4605||95.0|||||Chi-squared|||The hypothesis is that narafilcon B is not statistically different from etafilcon A.||||0.4605
92332111|NCT01031004|184568853|SUPERIORITY_OR_OTHER|||||||0.5774||95.0|||||Chi-squared|||The hypothesis is that narafilcon B is not statistically different from etafilcon A.||||0.5774
92332112|NCT01031004|184568854|SUPERIORITY_OR_OTHER|||||||0.6403||95.0|||||t-test, 2 sided|||The hypothesis is that narafilcon B will not be statistically different from etafilcon A.||||0.6403
92332113|NCT01031004|184568855|SUPERIORITY_OR_OTHER|||||||0.7217||95.0|||||t-test, 2 sided|||The hypothesis is that narafilcon B is not statistically different from etafilcon A.||||0.7217
92332114|NCT04727528|184568879|SUPERIORITY||Odds Ratio (OR)|56.2||||0.001|TWO_SIDED|95.0|5.6|563.6|||Wald Chi-Squared test||Logistic regression model included response status (response / non-response) as the dependent variable and randomized treatment as an independent factor.|||563.6|5.6|0.001
92332115|NCT04727528|184568880|SUPERIORITY||Least-squares mean|1.64|STANDARD_ERROR_OF_MEAN|0.81||0.05|TWO_SIDED|95.0|0.0|3.29|||t-test, 2 sided|||Difference between groups||3.29|-0.00|0.050
92332116|NCT04727528|184568881|SUPERIORITY||Odds Ratio (OR)|3.2||||0.153|TWO_SIDED|95.0|0.6|15.8|||Wald Chi-Squared test|||Comparison between groups||15.8|0.6|0.153
92332117|NCT04727528|184568882|SUPERIORITY||Odds Ratio (OR)|57008.6||||0.94|TWO_SIDED|95.0|0.0||The upper limit of the 95% confidence interval = 13124060000000000000000000000||Wald Chi-Squared test|||Comparison between groups|||0.0|0.940
92332118|NCT04727528|184568883|SUPERIORITY||Odds Ratio (OR)|2.2||||0.271|TWO_SIDED|95.0|0.5|8.6|||Wald Chi-Squared test|||Comparison between groups||8.6|0.5|0.271
92332119|NCT04727528|184568884|SUPERIORITY||Odds Ratio (OR)|10.8||||0.039|TWO_SIDED|95.0|1.1|102.8|||Wald Chi-Squared test|||Comparison between groups||102.8|1.1|0.039
92332120|NCT04727528|184568885|SUPERIORITY||Odds Ratio (OR)|57008.6||||0.94|TWO_SIDED|95.0|0.0||The upper limit of the 95% confidence interval = 13124060000000000000000000000||Wald Chi-Squared test|||Comparison between groups|||0.0|0.940
92332121|NCT04656301|184568887|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|degrees of freedom = 1.92||||||<0.001
92332122|NCT01964989|184568899|SUPERIORITY|Relative vaccine efficacy (rVE; ≥6 to \<72 months) rVE = (1-HR) is the relative vaccine efficacy of aQIV and HR is defined as hazard ratio between aQIV and non adjuvanted comparator.|Cox Proportional Hazard|-0.67|||||TWO_SIDED|95.0|-19.81|15.41||||||||15.41|-19.81|
92332123|NCT01964989|184568906|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% confidence interval (CI) on the adjusted ratio of GMTs for HI antibody titer exceeds 1.|GMT ratio|1.91|||||TWO_SIDED|95.0|1.8|2.0||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for A/H1N1, D22/50 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.0|1.8|
92332124|NCT01964989|184568906|OTHER||GMT ratio|1.86|||||TWO_SIDED|95.0|1.7|2.0||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for A/H1N1, D181/209 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.0|1.7|
92332125|NCT01964989|184568906|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the adjusted ratio of GMTs for HI antibody titer exceeds 1.|GMT ratio|1.71|||||TWO_SIDED|95.0|1.6|1.8||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for A/H3N2, D22/50 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||1.8|1.6|
92332126|NCT01964989|184568906|OTHER||GMT ratio|1.57|||||TWO_SIDED|95.0|1.4|1.7||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for A/H3N2, D181/209 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||1.7|1.4|
92332127|NCT01964989|184568906|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the adjusted ratio of GMTs for HI antibody titer exceeds 1.|GMT ratio|2.19|||||TWO_SIDED|95.0|2.0|2.4||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for B/YAM, D22/50 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.4|2.0|
92332128|NCT01964989|184568906|OTHER||GMT ratio|1.86|||||TWO_SIDED|95.0|1.7|2.0||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for B/YAM, D181/209 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.0|1.7|
92332129|NCT01964989|184568906|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the adjusted ratio of GMTs for HI antibody titer exceeds 1.|GMT ratio|2.27|||||TWO_SIDED|95.0|2.0|2.6||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for B/VIC, D22/50 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.6|2.0|
92332130|NCT01964989|184568906|OTHER||GMT ratio|1.8|||||TWO_SIDED|95.0|1.6|2.1||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for B/VIC, D181/209 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.1|1.6|
92332131|NCT01964989|184568908|OTHER||GMT ratio|0.92|||||TWO_SIDED|95.0|0.8|1.0||||||aQIV GMT ratio (High risk/Healthy) for A/H1N1 at D22/50 (Pooled Naïve \& Non-naïve).||1.0|0.8|
92332132|NCT01964989|184568908|OTHER||GMT ratio|1.02|||||TWO_SIDED|95.0|0.9|1.1||||||aQIV GMT ratio (High risk/Healthy) for A/H3N2 at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.9|
92332133|NCT01964989|184568908|OTHER||GMT ratio|0.98|||||TWO_SIDED|95.0|0.8|1.1||||||aQIV GMT ratio (High risk/Healthy) for B/YAM at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.8|
92332134|NCT01964989|184568908|OTHER||GMT ratio|0.92|||||TWO_SIDED|95.0|0.8|1.1||||||aQIV GMT ratio (High risk/Healthy) for B/VIC at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.8|
92332135|NCT01964989|184568908|OTHER||GMT ratio|0.95|||||TWO_SIDED|95.0|0.8|1.1||||||TIV/QIV GMT ratio (High risk/Healthy) for A/H1N1 at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.8|
92332136|NCT01964989|184568908|OTHER||GMT ratio|0.98|||||TWO_SIDED|95.0|0.8|1.1||||||TIV/QIV GMT ratio (High risk/Healthy) for A/H3N2 at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.8|
92332137|NCT01964989|184568908|OTHER||GMT ratio|0.95|||||TWO_SIDED|95.0|0.8|1.1||||||TIV/QIV GMT ratio (High risk/Healthy) for B/YAM at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.8|
92332138|NCT01964989|184568908|OTHER||GMT ratio|0.92|||||TWO_SIDED|95.0|0.7|1.2||||||TIV/QIV GMT ratio (High risk/Healthy) for B/VIC at D22/50 (Pooled Naïve \& Non-naïve).||1.2|0.7|
92332139|NCT01964989|184568910|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the unadjusted difference of percentages of subjects seroconverted for HI antibody exceeds 0%.|Seroconversion difference|8.2|||||TWO_SIDED|95.0|5.0|11.3||||||Seroconversion difference (aQIV - Comparator \[TIV/QIV\]) for A/H1N1.||11.3|5.0|
92332140|NCT01964989|184568910|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the unadjusted difference of percentages of subjects seroconverted for HI antibody exceeds 0%.|Seroconversion difference|5.2|||||TWO_SIDED|95.0|1.9|8.4||||||Seroconversion difference (aQIV - Comparator \[TIV/QIV\]) for A/H3N2.||8.4|1.9|
92332141|NCT01964989|184568910|SUPERIORITY||Seroconversion difference|21.3|||||TWO_SIDED|95.0|18.1|24.5||||||Seroconversion difference (aQIV - Comparator \[TIV/QIV\]) for B/YAM.||24.5|18.1|
92332142|NCT01964989|184568910|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the unadjusted difference of percentages of subjects seroconverted for HI antibody exceeds 0%.|Seroconversion difference|13.6|||||TWO_SIDED|95.0|10.0|17.3||||||Seroconversion difference (aQIV - Comparator \[TIV/QIV\]) for B/VIC.||17.3|10.0|
92332143|NCT01964989|184568911|OTHER||Mean Difference (Final Values)|11.5|||||TWO_SIDED|95.0|9.4|13.7||||||Difference in HI titers ≥ 1:40 (aQIV - Comparator \[TIV/QIV\]) for A/H1N1.||13.7|9.4|
92332144|NCT01964989|184568911|OTHER||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|6.1|9.7||||||Difference in HI titers ≥ 1:40 (aQIV - Comparator \[TIV/QIV\]) for A/H3N2.||9.7|6.1|
92332145|NCT01964989|184568911|OTHER||Mean Difference (Final Values)|21.9|||||TWO_SIDED|95.0|18.1|25.6||||||Difference in HI titers ≥ 1:40 (aQIV - Comparator \[TIV/QIV\]) for B/YAM.||25.6|18.1|
92332146|NCT01964989|184568911|OTHER||Mean Difference (Final Values)|20.9|||||TWO_SIDED|95.0|15.9|25.7||||||Difference in HI titers ≥ 1:40 (aQIV - Comparator \[TIV/QIV\]) for B/VIC.||25.7|15.9|
92332147|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|5.9|9.7||||||Difference in HI titers ≥ 1:110 for A/H1N1 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||9.7|5.9|
92332148|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|9.8|||||TWO_SIDED|95.0|7.8|11.9||||||Difference in HI Titers ≥ 1:151 for A/H1N1 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||11.9|7.8|
92332149|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|16.1|||||TWO_SIDED|95.0|13.5|18.7||||||Difference in HI Titers ≥ 1:215 for A/H1N1 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||18.7|13.5|
92332150|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|23.1|||||TWO_SIDED|95.0|19.8|26.4||||||Difference in HI Titers ≥ 1:330 for A/H1N1 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||26.4|19.8|
92332151|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|24.1|||||TWO_SIDED|95.0|20.6|27.6||||||Difference in HI Titers ≥ 1:629 for A/H1N1 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||27.6|20.6|
92332152|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|5.9|||||TWO_SIDED|95.0|4.5|7.5||||||Difference in HI Titers ≥ 1:110 for A/H3N2 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||7.5|4.5|
92332153|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|6.1|9.6||||||Difference in HI Titers ≥ 1:151 for A/H3N2 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||9.6|6.1|
92332154|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|11.7|||||TWO_SIDED|95.0|9.6|13.9||||||Difference in HI Titers ≥ 1:215 for A/H3N2 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||13.9|9.6|
92332155|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|19.0|||||TWO_SIDED|95.0|16.1|22.0||||||Difference in HI Titers ≥ 1:330 for A/H3N2 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||22.0|16.1|
92332156|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|21.1|||||TWO_SIDED|95.0|17.8|24.3||||||Difference in HI Titers ≥ 1:629 for A/H3N2 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||24.3|17.8|
92332157|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|28.8|||||TWO_SIDED|95.0|25.1|32.3||||||Difference in HI Titers ≥ 1:110 for B/YAM (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||32.3|25.1|
92332158|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|26.3|||||TWO_SIDED|95.0|22.6|29.9||||||Difference in HI Titers ≥ 1:151 for B/YAM (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||29.9|22.6|
92332159|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|21.8|||||TWO_SIDED|95.0|18.3|25.3||||||Difference in HI Titers ≥ 1:215 for B/YAM (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||25.3|18.3|
92332160|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|11.6|||||TWO_SIDED|95.0|8.6|14.5||||||Difference in HI Titers ≥ 1:330 for B/YAM (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||14.5|8.6|
92332161|NCT01964989|184568912|OTHER||Mean Difference (Final Values)|6.8|||||TWO_SIDED|95.0|4.3|9.4||||||Difference in HI Titers ≥ 1:629 for B/YAM (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||9.4|4.3|
92332162|NCT02769312|184568923|OTHER||Effect size (cohen's d)|0.16||||0.46|TWO_SIDED||||||ANCOVA|||||||0.46
92332163|NCT02769312|184568924|SUPERIORITY||Effect size (cohen's d)|0.12||||0.61|TWO_SIDED||||||ANCOVA|||||||0.61
92332164|NCT02769312|184568925|SUPERIORITY||Effect size (cohen's d)|0.39||||0.04|TWO_SIDED||||||ANCOVA|||||||.04
92332165|NCT01579669|184568929|SUPERIORITY_OR_OTHER|||||||0.0269|TWO_SIDED||||||t-test, 2 sided|||Pre-post comparison||||0.0269
92332166|NCT01579669|184568930|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Pre-post intervention comparison||||<0.0001
92332167|NCT01579669|184568931|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||t-test, 2 sided|||Pre-post intervention comparison||||0.016
92332168|NCT00703118|184568969|SUPERIORITY_OR_OTHER||Difference in percentage of response|46.8|||<|0.001|TWO_SIDED|95.0|36.8|56.7||Overall significance level was set at 5% (two-sided). Adjustment of significance level for multiple comparisons was carried out using the Hochberg procedure|Regression, Logistic|Included: treatment, type of prior response (relapser, partial responder, null-responder) and their interaction, and baseline HCV RNA as a covariate|Difference in percentage of response was estimated through the logistic regression model.|Null hypothesis: Assuming a 55% response rate in the groups receiving Treatment T12/PR48, a 29% response rate in the group receiving Treatment Pbo/PR48, a 2-sided continuity corrected Chi-squared test, with an overall significance level of 5% and a 2:2:1 randomization, a sample size of 140 patients receiving Treatment T12/PR48 and 70 patients in receiving Treatment Pbo/PR48 provided a power of approximately 90% to demonstrate a statistically significant difference.||56.7|36.8|<0.001
92332169|NCT00703118|184568969|SUPERIORITY_OR_OTHER||Difference in percentage of response|49.8|||<|0.001|TWO_SIDED|95.0|39.9|59.7||Overall significance level was set at 5% (two-sided). Adjustment of significance level for multiple comparisons was carried out using the Hochberg procedure|Regression, Logistic|Included: treatment, type of prior response (relapser, partial responder, null-responder) and their interaction, and baseline HCV RNA as a covariate|Difference in percentage of response was estimated through the logistic regression model.|Null hypothesis: Assuming a 55% response rate in the groups receiving Treatment T12/PR48 or T12(DS)/PR48, a 29% response rate in the group receiving Treatment Pbo/PR48, a 2-sided continuity corrected Chi-squared test, with an overall significance level of 5% and a 2:2:1 randomization, a sample size of 140 patients receiving Treatment T12(DS)/PR48 and 70 patients in receiving Treatment Pbo/PR48 provided a power of approximately 90% to demonstrate a statistically significant difference.||59.7|39.9|<0.001
92332170|NCT02005627|184568996|SUPERIORITY||||||<|0.05||||||calculated|t-test, 2 sided|||||||<0.05
92332171|NCT02005627|184568999|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
92332172|NCT02005627|184569000|SUPERIORITY|||||||||||||||||Null Hypothesis was no difference between Grazax and Placebo treatment at 12 months. 80% power to detect 30% difference in total nasal symptom score (TNSS) after nasal challenge|Comparison of nasal symptom score at 0-60 mins after nasal challenge after 12 months treatment with Grazax compared to Placebo treatment. Mixed model analysis. 80% power to detect a 30% difference at p\<0.05.|||
92332173|NCT04006509|184569056|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||||||0.985
92332174|NCT04006509|184569057|SUPERIORITY|||||||0.539|||||||Marginal Two-Part Model|||||||0.539
92332175|NCT04006509|184569058|SUPERIORITY|||||||0.959|||||||Wilcoxon (Mann-Whitney)|||||||0.959
92332176|NCT04006509|184569059|SUPERIORITY|||||||0.743|||||||Marginal Two-Part Model|||||||0.743
92332177|NCT04006509|184569060|SUPERIORITY|||||||0.886|||||||Marginalized Two-Part Model|||||||0.886
92332178|NCT04006509|184569061|SUPERIORITY|||||||0.107|||||||Marginalized Two-Part Model|||||||0.107
92332179|NCT04006509|184569062|SUPERIORITY|||||||0.687|||||||Marginalized Two-Part Model|||||||0.687
92332180|NCT04006509|184569063|SUPERIORITY|||||||0.871|||||||Marginalized Two-Part Model|||||||0.871
92332181|NCT04006509|184569064|SUPERIORITY|||||||0.376|||||||Marginalized Two-Part Model|||||||0.376
92332182|NCT04006509|184569065|SUPERIORITY|||||||0.77|||||||Marginalized Two-Part Model|||||||0.770
92332183|NCT04006509|184569066|SUPERIORITY|||||||0.237|||||||Marginalized Two-Part Model|||||||0.237
92332184|NCT00048997|184569073|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.2853|TWO_SIDED|95.0|0.84|1.38||One-sided significance level of 0.025.|Log Rank||Prophylactic cranial irradiation (PCI) is the reference arm for the hazard ratio.|This study was designed to detect a 20% relative improvement in hazard rate: null hypothesis (observation): MST (median survival time) = 23.5 mo.; alternative hypothesis (PCI): MST= 29.4 mo. A one-sided log-rank test at a significance level of 0.025 would have 80% power to detect this difference with a sample size of 1007 patients (527 deaths were required for the final analysis).||1.38|0.84|0.2853
92332185|NCT00048997|184569074|SUPERIORITY|||||||0.01|||||||Z-test, 2-sided|2-sided significance level = 0.05||||||0.01
92332186|NCT00048997|184569075|SUPERIORITY|||||||0.008|||||||Z-test, 2-sided|Significance level = 0.05||||||0.008
92332187|NCT00048997|184569076|SUPERIORITY|||||||0.2|||||||Z-test, 2-sided|Significance level = 0.05||||||0.20
92332188|NCT00048997|184569077|SUPERIORITY|||||||0.14|||||||Z-test, 2-sided|Significance level = 0.05||||||0.14
92332189|NCT00048997|184569078|SUPERIORITY|||||||0.52|||||||Z-test, 2-sided|Significance level = 0.05||||||0.52
92332190|NCT00048997|184569079|SUPERIORITY|||||||0.51|||||||Z-test, 2-sided|Significance level = 0.05||||||0.51
92332191|NCT00048997|184569080|SUPERIORITY|||||||0.11|||||||Other [Z-test, 2-sided]|Significance level = 0.05||||||0.11
92332192|NCT00048997|184569081|SUPERIORITY||Odds Ratio (OR)|2.52||||0.005|TWO_SIDED|95.0|1.32|4.8|||Regression, Logistic|2-sided significance level = 0.05|Reference level = PCI arm|The development of CNS metastases was assessed using logistic regression modeling comparing presence vs. absence of brain metastases at 1 year.||4.80|1.32|0.005
92332193|NCT00002525|184569090|SUPERIORITY_OR_OTHER_LEGACY|||||||0.178||||||one-sided log-rank test p value|Log Rank|||||||0.178
92332194|NCT00002525|184569091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.847||||||two-sided log rank test|Log Rank|||||||0.847
92332195|NCT03304184|184569094|EQUIVALENCE|In this analysis, the null hypothesis was that there was no significant difference in global base changes scores between the two treatment groups (Photac and Biodentine)|Mean Difference (Final Values)|3.0||||0.0001|TWO_SIDED|95.0|||||ANOVA||The estimation values were from an average of all values in each arm.|Power was limited sample size between the groups a superiority analysis was not able to be completed, so an equivalence test was used.||||.0001
92332196|NCT03304184|184569094|EQUIVALENCE|In this analysis, the null hypothesis was that there was no significant difference in global base changes scores between the two treatment groups (Photac and Biodentine) over timepoints|Mean Difference (Final Values)|3.0||||0.0005|TWO_SIDED|95.0|||||ANOVA||The estimation values were from an average of all values in each arm.|Power was limited sample size between the groups a superiority analysis was not able to be completed, so an equivalence test was used.||||.0005
92332197|NCT03304184|184569095|EQUIVALENCE|In this analysis, the null hypothesis was that there was no significant difference in 49 questions on oral health related quality of life scores between the two treatment groups (Photac and Biodentine).|Mean Difference (Final Values)|3.0||||0.091|TWO_SIDED|95.0||||Comparison between two groups for treatment|ANOVA||The estimation values were from an average of all values in each arm.|Power was limited sample size between the groups a superiority analysis was not able to be completed, so an equivalence test was used.||||.0910
92332198|NCT03304184|184569095|EQUIVALENCE|In this analysis, the null hypothesis was that there was no significant difference in 49 questions on oral health related quality of life scores between the two treatment groups (Photac and Biodentine) over time points|Mean Difference (Final Values)|3.0||||0.0262|TWO_SIDED|95.0||||Comparison between the two arms for treatment time points with analysis|ANOVA||The estimation values were from an average of all values in each arm.|Power was limited sample size between the groups a superiority analysis was not able to be completed, so an equivalence test was used.||||.0262
92332199|NCT03304184|184569096|EQUIVALENCE|In this analysis, the null hypothesis was that there was no significant difference in brief pain inventory scores between the two treatment groups (Photac and Biodentine) over different time points.|Mean Difference (Final Values)|3.0||||0.0289|TWO_SIDED|95.0|||||ANOVA||The estimation values were from an average of all values in each arm.|Power was limited sample size between the groups a superiority analysis was not able to be completed, so an equivalence test was used.||||.0289
92332200|NCT01505179|184569097|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||||||0.47
92332201|NCT01505179|184569098|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
92332202|NCT01505179|184569099|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||||||0.74
92332203|NCT01505179|184569100|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||||||0.49
92332204|NCT02051335|184569118|SUPERIORITY_OR_OTHER||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.556||0.573|TWO_SIDED|95.0|-1.4|0.8||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||0.8|-1.4|0.573
92332205|NCT02051335|184569118|SUPERIORITY_OR_OTHER||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.55||0.21|TWO_SIDED|95.0|-1.8|0.4||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||0.4|-1.8|0.210
92332206|NCT02051335|184569118|SUPERIORITY_OR_OTHER||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.547||0.821|TWO_SIDED|95.0|-1.0|1.2||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||1.2|-1.0|0.821
92332207|NCT02051335|184569118|SUPERIORITY_OR_OTHER||LS mean difference|0.44|STANDARD_ERROR_OF_MEAN|0.549||0.426|TWO_SIDED|95.0|-0.7|1.5||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||1.5|-0.7|0.426
92332208|NCT02051335|184569118|SUPERIORITY_OR_OTHER||LS mean difference|0.82|STANDARD_ERROR_OF_MEAN|0.53||0.126|TWO_SIDED|95.0|-0.2|1.9||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||1.9|-0.2|0.126
92332209|NCT02051335|184569119|SUPERIORITY_OR_OTHER||LS mean difference|1.93|STANDARD_ERROR_OF_MEAN|0.992||0.057|TWO_SIDED|95.0|-0.1|3.9||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||3.9|-0.1|0.057
92332210|NCT02051335|184569119|SUPERIORITY_OR_OTHER||LS mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.981||0.394|TWO_SIDED|95.0|-2.8|1.1||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||1.1|-2.8|0.394
92332211|NCT02051335|184569119|SUPERIORITY_OR_OTHER||LS mean difference|2.01|STANDARD_ERROR_OF_MEAN|0.972||0.042|TWO_SIDED|95.0|0.1|4.0||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||4.0|0.1|0.042
92332212|NCT02051335|184569119|SUPERIORITY_OR_OTHER||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.974||0.928|TWO_SIDED|95.0|-1.9|2.0||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||2.0|-1.9|0.928
92332213|NCT02051335|184569119|SUPERIORITY_OR_OTHER||LS mean difference|2.86|STANDARD_ERROR_OF_MEAN|0.943||0.004|TWO_SIDED|95.0|1.0|4.7||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||4.7|1.0|0.004
92332214|NCT01490697|184569140|SUPERIORITY||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-18.0|16.0|||||Placebo plus Placebo - Mifepristone plus d-Cycloserine (DCS)|||16|-18|
92332215|NCT01490697|184569141|SUPERIORITY||Mean Difference (Net)|3.9|||||TWO_SIDED|95.0|-6.9|14.7|||||Placebo plus Placebo - Mifepristone plus d-Cycloserine (DCS)|||14.7|-6.9|
92332216|NCT00090584|184569142|SUPERIORITY_OR_OTHER||Difference in cumulative success rates|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.74|TWO_SIDED|95.0|-0.12|0.12|||Log Rank|||Kaplan Meier Lifetable analysis was used to compute the 8 month cumulative success rates.||0.12|-0.12|0.74
92332217|NCT00090584|184569143|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|2.0||0.34|TWO_SIDED|95.0|-2.0|5.9||Mixed effect repeated measures analysis of variance controlling for study site.|ANOVA|||Test of hypothesis of no difference in change in episodes between the two groups.||5.9|-2.0|0.34
92332218|NCT00090584|184569144|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.08|TWO_SIDED|95.0|-1.7|0.1||Repeated measures ANOVA controlling for clinical site.|ANOVA||Difference (group 1 - group 2) in change from baseline to follow-up in voids per day.|Null hypothesis of no difference between arms in change in number of voids per day from baseline to 10 weeks.||0.1|-1.7|0.08
92332219|NCT00090584|184569145|SUPERIORITY_OR_OTHER||Other|0.0||||0.0006||95.0||||Repeated measures ANOVA|Mixed Models Analysis|Main hypothesis tested by F-test for treatment by time interaction (2 and 509 degrees of freedom). No parameters estimated.||Null hypothesis is that there is no difference between treatment groups in improvement in UDI over time||||0.0006
92332220|NCT00090584|184569146|SUPERIORITY_OR_OTHER||Other|0.0||||0.0005||95.0||||P-value for test of time by treatment group interaction.|Mixed Models Analysis|Adjusted for study site||Repeated measures analysis of difference in symptom bother over time by treatment group.||||0.0005
92332221|NCT00090584|184569147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79||||0.02|TWO_SIDED|95.0|1.09|2.92|||Regression, Logistic|Controlling for clinical site and randomization stratum|Ratio of odds of complete satisfaction in Combination therapy arm to Drug only arm.|Null hypothesis: no difference in satisfaction at 10 weeks||2.92|1.09|0.02
92332222|NCT00090584|184569148|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.03||||0.02|TWO_SIDED|95.0|1.11|3.7|||Regression, Logistic|Controlling for clinical site and randomization stratum|Ratio of odds of complete satisfaction in combination therapy group compared to drug only group.|Null hypothesis: No difference in satisfaction at 8 months post intervention||3.70|1.11|0.02
92332223|NCT00090584|184569149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.55||||0.008|TWO_SIDED|95.0|1.27|5.13||P-value from logistic regression analysis|Regression, Logistic|Controlling for clinical site and randomization stratum||Null hypothesis: No difference in perceived improvement between women in combination therapy group compared to those in drug only group||5.13|1.27|0.008
92332224|NCT00090584|184569150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.17|||<|0.0001|TWO_SIDED|95.0|1.83|5.52|||Regression, Logistic|Controlling for clinical site and randomization stratum||Null hypothesis: No difference in perceived improvement at 8 months between women in combination therapy group compared to those in drug only group.||5.52|1.83|<0.0001
92332225|NCT00379808|184569151|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.22|||||||Wilcoxon sign rank test|||Statistical power was calculated using G\*Power (Dusseldorf, Germany). Based on previously observed effects of statin drugs on hsCRP levels, 22 subjects provided 80% power to detect a moderate effect on hsCRP levels.||||0.22
92332226|NCT00379808|184569152|SUPERIORITY_OR_OTHER||percent difference|3.8||||0.57|||||||Wilcoxon sign rank|||Null hypothesis is that montelukast does not affect HDL. Not powered for this endpoint||||0.57
92332227|NCT00379808|184569153|SUPERIORITY_OR_OTHER||percent difference|7.4||||0.33|||||||wilcoxon sign rank|||The null hypothesis is that montelukast does not affect triglycerides. The study was not powered to this outcome measure.||||0.33
92332228|NCT00379808|184569154|SUPERIORITY_OR_OTHER||percent difference|11.9||||0.12|||||||Wilcoxon|||null hypothesis is that montelukast does not affect MCP-1. Study not powered to the biomarker.||||0.12
92332229|NCT00379808|184569155|SUPERIORITY_OR_OTHER||percent difference|13.3||||0.03|||||||wilcoxon sign rank test|||null hypothesis is that montelukast does not affect IL1ra.||||0.03
92332230|NCT00379808|184569156|SUPERIORITY_OR_OTHER||percent difference|16.5||||0.09|||||||wilcoxon sign rank|||null hypothesis is that montelukast does not affect ENA-78. The study is not powered to this biomarker||||0.09
92332231|NCT01578499|184569157|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|42.2|||<|0.001|TWO_SIDED|95.0|27.5|56.8||P-value was stratified by baseline disease diagnosis (pcALCL and MF).|Cochran-Mantel-Haenszel|||Based on a two-sided Χ² test with a significance level of 0.05, and a 10% dropout rate, a sample size of approximately 124 participants was calculated to provide 90% power to detect a 30% improvement in ORR4 in the brentuximab vedotin group.||56.8|27.5|<0.001
92332232|NCT01578499|184569158|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|15.6||||0.0002|TWO_SIDED|95.0|-2.5|33.0||P-value was stratified by baseline disease diagnosis (pcALCL and MF).|Cochran-Mantel-Haenszel|||||33.0|-2.5|0.0002
92332233|NCT01578499|184569159|OTHER||Hazard Ratio (HR)|0.378|||<|0.001|TWO_SIDED|95.0|0.247|0.577|||Log Rank||||Hazard ratio brentuximab vedotin/ comparator (methotrexate or bexarotene) with the 95% CI from a stratified Cox regression model with treatment as the explanatory variable and baseline disease diagnosis (MF or pcALCL) as stratification factor.|0.577|0.247|<0.001
92332234|NCT01578499|184569160|SUPERIORITY_OR_OTHER_LEGACY||Estimate of difference|-19.0|||<|0.001|TWO_SIDED|95.0|-26.7|-11.4|||ANCOVA|||P-value is calculated using the analysis of covariance (ANCOVA) model controlling for baseline symptom domain score, eastern cooperative oncology group (ECOG) performance status score (=0 and ≥1), and disease diagnosis (pcALCL and MF) between the brentuximab vedotin and comparator (methotrexate or bexarotene) arms.||-11.4|-26.7|<0.001
92332235|NCT00508157|184569172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.28|||||TWO_SIDED|95.0|-19.14|-2.66|||ANCOVA|ANCOVA model: log of on-treatment to baseline ratio = log of baseline value, treatment, previous antipsychotic.|Relative difference of Aripiprazole vs. Control Group in terms of (mean % change from baseline/100)+1.|Null hypothesis: no difference in mean percent change from baseline in fasting non-HDLC between aripiprazole and the control group at Week 16||-2.66|-19.14|
92332236|NCT00508157|184569173|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.54|1.06|||Cochran-Mantel-Haenszel|A relative risk \< 1 favors Aripiprazole over Control Group.||null hypothesis: no difference between Aripiprazole and Control Group||1.06|0.54|
92332237|NCT02134353|184569237|SUPERIORITY||Mean Difference (Net)|54.0||||0.02|TWO_SIDED|95.0|8.0|100.0|||Mixed Models Analysis||Missing data for withdrawals related to safety or efficacy imputed using BOCF (baseline observation carried forward). Data collected at 6, 14 and 26 weeks.|||100|8|0.020
92332238|NCT02134353|184569238|SUPERIORITY||Mean Difference (Net)|40.0||||0.128|TWO_SIDED|95.0|-12.0|92.0||Missing data for withdrawals due to safety/efficacy imputed using BOCF. Data collected at 6,14 and 26 weeks.|Mixed Models Analysis||Missing data for withdrawals related to safety or efficacy imputed using BOCF. Data collected at 6, 14 and 26 weeks.|||92|-12|0.128
92332239|NCT02134353|184569239|SUPERIORITY||Cox Proportional Hazard|1.14||||0.629|TWO_SIDED|95.0|0.671|1.936|||Regression, Cox|||||1.936|0.671|0.629
92332240|NCT02134353|184569240|SUPERIORITY||Rate ratio|0.75||||0.673|TWO_SIDED|95.0|0.198|2.846|||Negative binomial model|||||2.846|0.198|0.673
92332241|NCT02134353|184569241|SUPERIORITY||Rate ratio|1.273||||0.735|TWO_SIDED|95.0|0.315|5.154|||Negative binomial model|||||5.154|0.315|0.735
92332242|NCT02134353|184569242|SUPERIORITY||Rate ratio|1.545||||0.055|TWO_SIDED|95.0|0.99|2.411|||Negative binomial model|||Patients withdrawing early without an exacerbation had rate imputed based on number of exacerbations in 12 months prior to screening.||2.411|0.990|0.055
92332243|NCT02134353|184569242|SUPERIORITY||Rate ratio|1.357||||0.246|TWO_SIDED|95.0|0.81|2.275|||Negative binomial model|||Sensitivity analysis with no imputation of missing data.||2.275|0.810|0.246
92332244|NCT02134353|184569243|SUPERIORITY||Odds Ratio (OR)|1.009||||0.976|TWO_SIDED|95.0|0.555|1.836|||Regression, Logistic|||||1.836|0.555|0.976
92332245|NCT02134353|184569244|SUPERIORITY||Mean Difference (Net)|0.259||||0.083|TWO_SIDED|95.0|-0.034|0.551|||Mixed Models Analysis|Missing values due to withdrawal related to safety/efficacy imputed using BOCF||||0.551|-0.034|0.083
92332246|NCT02134353|184569245|SUPERIORITY||Mean Difference (Net)|0.87||||0.453|TWO_SIDED|95.0|-1.406|3.145|||Mixed Models Analysis||Missing values due to withdrawal related to safety/efficacy imputed using BOCF|||3.145|-1.406|0.453
92332247|NCT02134353|184569246|SUPERIORITY||Mean Difference (Net)|87.0||||0.012|TWO_SIDED|95.0|20.0|155.0|||Mixed Models Analysis||Missing data due to withdrawals for reasons related to safety/efficacy imputed using BOCF|||155|20|0.012
92332248|NCT01953432|184569247|OTHER||Odds Ratio (OR)|0.75|||||TWO_SIDED||||||||Probability of 0.75 that the OR exceeded 1.00 (OR = 1.01, 95% CI = 0.98-1.05)|||||
92332249|NCT01953432|184569247|OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED||||||||Probability of 0.96 that the odds ratio exceeded 1.00 (OR = 1.03, 95% CI = 1.00-1.07)|||||
92332250|NCT01783821|184569251|SUPERIORITY_OR_OTHER|||||||0.02|||||||Type 3 Wald Test|||Overall p-value of the day by treatment interaction from the random effects model using a type 3 Wald test.||||0.02
92332251|NCT01783821|184569252|SUPERIORITY_OR_OTHER|||||||0.01|||||||Fisher Exact|||Comparison between the two arms for the 3 categories.||||0.01
92332252|NCT01783821|184569253|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||||||0.01
92332253|NCT01783821|184569254|SUPERIORITY_OR_OTHER|||||||0.01|||||||Fisher Exact|||||||0.01
92332254|NCT01783821|184569255|SUPERIORITY_OR_OTHER|||||||0.02|||||||Cox Proportional Hazard, Fine/Gray adj.|||||||0.02
92332255|NCT01783821|184569256|SUPERIORITY_OR_OTHER|||||||0.01|||||||Kruskal-Wallis|||||||0.01
92332256|NCT01653327|184569277|SUPERIORITY|||||||0.3198|||||||t-test, 2 sided|||||||0.3198
92332257|NCT01653327|184569278|SUPERIORITY|||||||0.3522|||||||t-test, 2 sided|||||||0.3522
92332258|NCT02440854|184569285|OTHER|||||||0.002|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||0.002
92332259|NCT02440854|184569285|OTHER|||||||0.014|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.014
92332260|NCT02440854|184569285|OTHER|||||||0.246|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.246
92332261|NCT02440854|184569285|OTHER|||||||0.103|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.103
92332262|NCT02440854|184569285|OTHER|||||||0.004|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.004
92332263|NCT02440854|184569285|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
92332264|NCT02440854|184569285|OTHER|||||||0.012|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.012
92332265|NCT02440854|184569285|OTHER|||||||0.024|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.024
92332266|NCT02440854|184569285|OTHER|||||||0.009|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.009
92332267|NCT02440854|184569285|OTHER|||||||0.008|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.008
92332268|NCT02440854|184569286|OTHER|||||||0.027|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||0.027
92332269|NCT02440854|184569286|OTHER|||||||0.03|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.030
92332270|NCT02440854|184569286|OTHER|||||||0.351|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.351
92332271|NCT02440854|184569286|OTHER|||||||0.143|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.143
92332272|NCT02440854|184569286|OTHER|||||||0.163|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.163
92332273|NCT02440854|184569286|OTHER|||||||0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||0.001
92332274|NCT02440854|184569286|OTHER|||||||0.003|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.003
92332275|NCT02440854|184569286|OTHER|||||||0.036|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.036
92332276|NCT02440854|184569286|OTHER|||||||0.043|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.043
92332277|NCT02440854|184569286|OTHER|||||||0.04|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.040
92332278|NCT02440854|184569287|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
92332279|NCT02440854|184569287|OTHER|||||||0.003|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.003
92332280|NCT02440854|184569287|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||<0.001
92332281|NCT02440854|184569287|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||<0.001
92332282|NCT02440854|184569287|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||<0.001
92332283|NCT02440854|184569287|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
92332284|NCT02440854|184569287|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||<0.001
92332285|NCT02440854|184569287|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||<0.001
92332286|NCT02440854|184569287|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||<0.001
92332287|NCT02440854|184569287|OTHER|||||||0.163|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.163
92332288|NCT02440854|184569288|OTHER|||||||0.003|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||0.003
92332289|NCT02440854|184569288|OTHER|||||||0.009|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.009
92332290|NCT02440854|184569288|OTHER|||||||0.012|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.012
92332291|NCT02440854|184569288|OTHER|||||||0.332|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.332
92332292|NCT02440854|184569288|OTHER|||||||0.029|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.029
92332293|NCT02440854|184569288|OTHER|||||||0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||0.001
92332294|NCT02440854|184569288|OTHER|||||||0.177|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.177
92332295|NCT02440854|184569288|OTHER|||||||0.436|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.436
92332296|NCT02440854|184569288|OTHER|||||||0.302|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.302
92332297|NCT02440854|184569288|OTHER|||||||0.291|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.291
92332298|NCT02440854|184569289|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
92332299|NCT02440854|184569289|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||<0.001
92332300|NCT02440854|184569289|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||<0.001
92332301|NCT02440854|184569289|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||<0.001
92332302|NCT02440854|184569289|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||<0.001
92332303|NCT02440854|184569289|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
92332304|NCT02440854|184569289|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||<0.001
92332305|NCT02440854|184569289|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||<0.001
92332306|NCT02440854|184569289|OTHER|||||||0.002|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.002
92332307|NCT02440854|184569289|OTHER|||||||0.025|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.025
92332308|NCT02440854|184569290|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
92332309|NCT02440854|184569290|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||<0.001
92332310|NCT02440854|184569290|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||<0.001
92332311|NCT02440854|184569290|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||<0.001
92332312|NCT02440854|184569290|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||<0.001
92332313|NCT02440854|184569290|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
92332314|NCT02440854|184569290|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||<0.001
92332315|NCT02440854|184569290|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||<0.001
92332316|NCT02440854|184569290|OTHER|||||||0.003|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.003
92332317|NCT02440854|184569290|OTHER|||||||0.025|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.025
92332318|NCT02440854|184569291|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
92332319|NCT02440854|184569291|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||<0.001
92332320|NCT02440854|184569291|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||<0.001
92332321|NCT02440854|184569291|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||<0.001
92332322|NCT02440854|184569291|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||<0.001
92332323|NCT02440854|184569291|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
92332324|NCT02440854|184569291|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||<0.001
92332325|NCT02440854|184569291|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||<0.001
92332326|NCT02440854|184569291|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||<0.001
92332327|NCT02440854|184569291|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||<0.001
92332328|NCT02440854|184569292|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
92332329|NCT02440854|184569292|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||<0.001
92332330|NCT02440854|184569292|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||<0.001
92332331|NCT02440854|184569292|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||<0.001
92332332|NCT02440854|184569292|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||<0.001
92332333|NCT02440854|184569292|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
92332334|NCT02440854|184569292|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||<0.001
92332335|NCT02440854|184569292|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||<0.001
92332336|NCT02440854|184569292|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||<0.001
92332337|NCT02440854|184569292|OTHER|||||||0.002|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.002
92332338|NCT02440854|184569293|OTHER|||||||0.022|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||0.022
92332339|NCT02440854|184569293|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||<0.001
92332340|NCT02440854|184569293|OTHER|||||||0.004|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.004
92332341|NCT02440854|184569293|OTHER|||||||0.032|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.032
92332342|NCT02440854|184569293|OTHER|||||||0.066|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.066
92332343|NCT02440854|184569293|OTHER|||||||0.042|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||0.042
92332344|NCT02440854|184569293|OTHER|||||||0.045|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.045
92332345|NCT02440854|184569293|OTHER|||||||0.014|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.014
92332346|NCT02440854|184569293|OTHER|||||||0.015|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.015
92332347|NCT02440854|184569293|OTHER|||||||0.462|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.462
92332348|NCT02440854|184569294|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
92332349|NCT02440854|184569294|OTHER|||||||0.004|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.004
92332350|NCT02440854|184569294|OTHER|||||||0.008|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.008
92332351|NCT02440854|184569294|OTHER|||||||0.315|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.315
92332352|NCT02440854|184569294|OTHER|||||||0.237|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.237
92332353|NCT02440854|184569294|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
92332354|NCT02440854|184569294|OTHER|||||||0.002|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.002
92332355|NCT02440854|184569294|OTHER|||||||0.004|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.004
92332356|NCT02440854|184569294|OTHER|||||||0.01|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.010
92332357|NCT02440854|184569294|OTHER|||||||0.683|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.683
92332358|NCT02440854|184569295|OTHER|||||||0.062|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||0.062
92332359|NCT02440854|184569295|OTHER|||||||0.062|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.062
92332360|NCT02440854|184569295|OTHER|||||||0.027|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.027
92332361|NCT02440854|184569295|OTHER|||||||0.17|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.170
92332362|NCT02440854|184569295|OTHER|||||||0.271|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.271
92332363|NCT02440854|184569295|OTHER|||||||0.002|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||0.002
92332364|NCT02440854|184569295|OTHER|||||||0.003|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.003
92332365|NCT02440854|184569295|OTHER|||||||0.157|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.157
92332366|NCT02440854|184569295|OTHER|||||||0.064|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.064
92332367|NCT02440854|184569295|OTHER|||||||0.439|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.439
92332368|NCT02440854|184569296|OTHER|||||||0.388|||||||McNemar|||Shift in patient distribution between baseline and Month 2 post-baseline, according to problems/no problems.||||0.388
92332369|NCT02440854|184569296|OTHER|||||||0.006|||||||McNemar|||Shift in patient distribution between baseline and Month 4 post-baseline, according to problems/no problems.||||0.006
92332370|NCT02440854|184569296|OTHER|||||||0.077|||||||McNemar|||Shift in patient distribution between baseline and Month 6 post-baseline, according to problems/no problems.||||0.077
92332371|NCT02440854|184569296|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 8 post-baseline, according to problems/no problems.||||>0.999
92332372|NCT02440854|184569296|OTHER|||||||0.508|||||||McNemar|||Shift in patient distribution between baseline and Month 10 post-baseline, according to problems/no problems.||||0.508
92332373|NCT02440854|184569296|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 12 post-baseline, according to problems/no problems.||||>0.999
92332374|NCT02440854|184569296|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 18 post-baseline, according to problems/no problems.||||>0.999
92332375|NCT02440854|184569296|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 24 post-baseline, according to problems/no problems.||||>0.999
92332376|NCT02440854|184569296|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 30 post-baseline, according to problems/no problems.||||>0.999
92332377|NCT02440854|184569296|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 36 post-baseline, according to problems/no problems.||||>0.999
92332378|NCT02440854|184569297|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 2 post-baseline, according to problems/no problems.||||>0.999
92332379|NCT02440854|184569297|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 4 post-baseline, according to problems/no problems.||||>0.999
92332380|NCT02440854|184569297|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 6 post-baseline, according to problems/no problems.||||>0.999
92332381|NCT02440854|184569297|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 8 post-baseline, according to problems/no problems.||||>0.999
92332382|NCT02440854|184569297|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 10 post-baseline, according to problems/no problems.||||>0.999
92332383|NCT02440854|184569297|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 12 post-baseline, according to problems/no problems.||||>0.999
92332384|NCT02440854|184569297|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 18 post-baseline, according to problems/no problems.||||>0.999
92332385|NCT02440854|184569298|OTHER|||||||0.774|||||||McNemar|||Shift in patient distribution between baseline and Month 2 post-baseline, according to problems/no problems.||||0.774
92332386|NCT02440854|184569298|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 4 post-baseline, according to problems/no problems.||||>0.999
92332387|NCT02440854|184569298|OTHER|||||||0.607|||||||McNemar|||Shift in patient distribution between baseline and Month 6 post-baseline, according to problems/no problems.||||0.607
92332388|NCT02440854|184569298|OTHER|||||||0.774|||||||McNemar|||Shift in patient distribution between baseline and Month 8 post-baseline, according to problems/no problems.||||0.774
92332389|NCT02440854|184569298|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 10 post-baseline, according to problems/no problems.||||>0.999
92332390|NCT02440854|184569298|OTHER|||||||0.453|||||||McNemar|||Shift in patient distribution between baseline and Month 12 post-baseline, according to problems/no problems.||||0.453
92332391|NCT02440854|184569298|OTHER|||||||0.688|||||||McNemar|||Shift in patient distribution between baseline and Month 18 post-baseline, according to problems/no problems.||||0.688
92332392|NCT02440854|184569298|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 24 post-baseline, according to problems/no problems.||||>0.999
92332393|NCT02440854|184569298|OTHER|||||||0.25|||||||McNemar|||Shift in patient distribution between baseline and Month 30 post-baseline, according to problems/no problems.||||0.250
92332394|NCT02440854|184569298|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 36 post-baseline, according to problems/no problems.||||>0.999
92332395|NCT02440854|184569299|OTHER|||||||0.077|||||||McNemar|||Shift in patient distribution between baseline and Month 2 post-baseline, according to problems/no problems.||||0.077
92332396|NCT02440854|184569299|OTHER||||||<|0.001|||||||McNemar|||Shift in patient distribution between baseline and Month 4 post-baseline, according to problems/no problems.||||<0.001
92332397|NCT02440854|184569299|OTHER|||||||0.006|||||||McNemar|||Shift in patient distribution between baseline and Month 6 post-baseline, according to problems/no problems.||||0.006
92332398|NCT02440854|184569299|OTHER|||||||0.344|||||||McNemar|||Shift in patient distribution between baseline and Month 8 post-baseline, according to problems/no problems.||||0.344
92332399|NCT02440854|184569299|OTHER|||||||0.146|||||||McNemar|||Shift in patient distribution between baseline and Month 10 post-baseline, according to problems/no problems.||||0.146
92332400|NCT02440854|184569299|OTHER|||||||0.18|||||||McNemar|||Shift in patient distribution between baseline and Month 12 post-baseline, according to problems/no problems.||||0.180
92332401|NCT02440854|184569299|OTHER|||||||0.289|||||||McNemar|||Shift in patient distribution between baseline and Month 18 post-baseline, according to problems/no problems.||||0.289
92332402|NCT02440854|184569299|OTHER|||||||0.125|||||||McNemar|||Shift in patient distribution between baseline and Month 24 post-baseline, according to problems/no problems.||||0.125
92332403|NCT02440854|184569299|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 30 post-baseline, according to problems/no problems.||||>0.999
92332404|NCT02440854|184569299|OTHER|||||||0.5|||||||McNemar|||Shift in patient distribution between baseline and Month 36 post-baseline, according to problems/no problems.||||0.500
92332405|NCT02440854|184569300|OTHER|||||||0.21|||||||McNemar|||Shift in patient distribution between baseline and Month 2 post-baseline, according to problems/no problems.||||0.210
92332406|NCT02440854|184569300|OTHER|||||||0.263|||||||McNemar|||Shift in patient distribution between baseline and Month 4 post-baseline, according to problems/no problems.||||0.263
92332407|NCT02440854|184569300|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 6 post-baseline, according to problems/no problems.||||>0.999
92332408|NCT02440854|184569300|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 8 post-baseline, according to problems/no problems.||||>0.999
92332409|NCT02440854|184569300|OTHER|||||||0.629|||||||McNemar|||Shift in patient distribution between baseline and Month 10 post-baseline, according to problems/no problems.||||0.629
92332410|NCT02440854|184569300|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 12 post-baseline, according to problems/no problems.||||>0.999
92332411|NCT02440854|184569300|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 18 post-baseline, according to problems/no problems.||||>0.999
92332412|NCT02440854|184569300|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 24 post-baseline, according to problems/no problems.||||>0.999
92332413|NCT02440854|184569300|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 30 post-baseline, according to problems/no problems.||||>0.999
92332414|NCT02440854|184569300|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 36 post-baseline, according to problems/no problems.||||>0.999
92332415|NCT02440854|184569301|OTHER|||||||0.098|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 2-month post-baseline.||||0.098
92332416|NCT02440854|184569301|OTHER|||||||0.359|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 4-month post-baseline.||||0.359
92332417|NCT02440854|184569301|OTHER|||||||0.393|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 6-month post-baseline.||||0.393
92332418|NCT02440854|184569301|OTHER|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 8-month post-baseline.||||0.055
92332419|NCT02440854|184569301|OTHER|||||||0.124|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 10-month post-baseline.||||0.124
92332420|NCT02440854|184569301|OTHER|||||||0.376|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 12-month post-baseline.||||0.376
92332421|NCT02440854|184569301|OTHER|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 18-month post-baseline.||||0.033
92332422|NCT02440854|184569301|OTHER|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 24-month post-baseline.||||0.048
92332423|NCT02440854|184569301|OTHER|||||||0.071|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 30-month post-baseline.||||0.071
92332424|NCT02440854|184569301|OTHER|||||||0.848|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 36-month post-baseline.||||0.848
92332425|NCT02243046|184569314|SUPERIORITY_OR_OTHER|||||||0.091|||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.091
92332426|NCT02243046|184569315|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
92332427|NCT02243046|184569316|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups||||< 0.001
92332428|NCT02243046|184569317|SUPERIORITY_OR_OTHER|||||||0.571|||||||ANOVA|||The null hypothesis states that there is no difference between groups||||0.571
92332429|NCT02243046|184569318|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||The null hypothesis states that there is no difference between groups||||< 0.001
92332430|NCT02243046|184569319|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||The null hypothesis states that there is no difference between groups||||< 0.001
92332431|NCT02669082|184569320|OTHER|||||||0.2955|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.2955
92332432|NCT02669082|184569321|OTHER|||||||0.1358|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.1358
92332433|NCT02669082|184569322|OTHER||Median|||||0.1706|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.1706
92332434|NCT02669082|184569323|OTHER|||||||0.1969|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.1969
92332435|NCT02669082|184569324|OTHER|||||||0.0534|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.0534
92332436|NCT02669082|184569325|OTHER|||||||0.4125|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.4125
92332437|NCT02669082|184569326|OTHER|||||||0.022|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.0220
92332438|NCT02669082|184569327|OTHER|||||||0.042|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.0420
92332439|NCT02669082|184569328|OTHER|||||||0.8166|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.8166
92332440|NCT02301039|184569332|SUPERIORITY|An objective response rate of 25% will be considered clinically meaningful and a response rate less than 10% will be considered lack of efficacy. The treatment will be considered a success if 8 or more of 40 enrolled patients have a PR or better by RECIST 1.1.|Binomial estimate of response rate of PR|17.5|||||TWO_SIDED|95.0|7.3|32.8|||||Clopper-Pearson (Exact) Confidence Interval. Excluded from rate due to no response evaluation: Soft Tissue: 2; Bone: 2; Expansion: 7 patients|An objective response rate of 25% will be considered clinically meaningful and a response rate less than 10% will be considered lack of efficacy. The treatment will be considered a success if 8 or more of 40 enrolled patients have a PR or better by RECIST 1.1.||32.8|7.3|
92332441|NCT02301039|184569332|SUPERIORITY||Binomial estimate of response rate of PR|5.0|||||TWO_SIDED|95.0|1.0|16.9|||||Clopper-Pearson exact confidence interval; Excluded from rate due to no response evaluation: Soft Tissue: 2; Bone: 2; Expansion: 7 patients|An objective response rate of 25% will be considered clinically meaningful and a response rate less than 10% will be considered lack of efficacy. The treatment will be considered a success if 8 or more of 40 enrolled patients have a PR or better by RECIST 1.1.||16.9|1.0|
92332442|NCT02301039|184569332|SUPERIORITY||Binomial estimate of response rate of PR|13.0|||||TWO_SIDED|95.0|5.5|25.3|||||Clopper-Pearson (Exact) Confidence Interval Excluded from rate due to no response evaluation: Soft Tissue: 2; Bone: 2; Expansion: 7 patients|An objective response rate of 25% will be considered clinically meaningful and a response rate less than 10% will be considered lack of efficacy. The treatment will be considered a success if 8 or more of 40 enrolled patients have a PR or better by RECIST 1.1.||25.3|5.5|
92332443|NCT00410072|184569364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.9||||0.0882|TWO_SIDED|95.0|-1.0|14.9|||Cochran-Mantel-Haenszel|||Week 96||14.9|-1.0|0.0882
92332444|NCT00410072|184569365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.5|||||TWO_SIDED|95.0|2.3|24.8|||NC=F|||||24.8|2.3|
92332445|NCT00410072|184569365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|||||TWO_SIDED|95.0|-7.7|12.0|||NC=F|||||12.0|-7.7|
92332446|NCT00410072|184569365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.6||||0.046|TWO_SIDED|95.0|0.2|21.0|||Cochran-Mantel-Haenszel|||||21.0|0.2|0.0460
92332447|NCT00410072|184569365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-12.0|9.5|||NC=F|||||9.5|-12.0|
92332448|NCT00410072|184569366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||||TWO_SIDED|95.0|-1.8|16.0|||NC=F|||Analysis at week 48. The stratified analysis was based on HBeAg strata at randomization.||16.0|-1.8|
92332449|NCT00410072|184569366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||||TWO_SIDED|95.0|-1.1|15.2|||NC=F|||Analysis at week 96. The stratified analysis was based on HBeAg strata at randomization.||15.2|-1.1|
92332450|NCT00410072|184569367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|-1.5|17.1|||NC=F|||Analysis at Week 48. The stratified analysis was based on HBeAg strata at randomization.||17.1|-1.5|
92332451|NCT00410072|184569367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|||||TWO_SIDED|95.0|-0.2|17.3|||NC=F|||Analysis at Week 96. The stratified analysis was based on HBeAg strata at randomization.||17.3|-0.2|
92332452|NCT00410072|184569369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|||||TWO_SIDED|95.0|-18.8|-2.0|||NC+F|||Analysis at Week 48. The stratified analysis is based on HBeAg strata at randomization.||-2.0|-18.8|
92332453|NCT00410072|184569369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|||||TWO_SIDED|95.0|-21.5|-4.1|||NC=F|||Analysis at Week 96. The stratified analysis is based on HBeAg strata at randomization.||-4.1|-21.5|
92332454|NCT00410072|184569370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.8|||||TWO_SIDED|95.0|-15.9|4.2|||NC=F|||Analysis at Week 48||4.2|-15.9|
92332455|NCT00410072|184569370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2|||||TWO_SIDED|95.0|-20.6|2.3|||NC=F|||Analysis at Week 96||2.3|-20.6|
92332456|NCT00410072|184569371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1|||||TWO_SIDED|95.0|-13.8|5.6|||NC=F|||Analysis at Week 48||5.6|-13.8|
92332457|NCT00410072|184569371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|||||TWO_SIDED|95.0|-21.5|-0.1|||NC=F|||Analysis at Week 96||-0.1|-21.5|
92332458|NCT00410072|184569372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|||||TWO_SIDED|95.0|-5.3|1.9|||NC=F|||Analysis at Week 48||1.9|-5.3|
92332459|NCT00410072|184569372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-3.9|6.1|||NC=F|||Analysis at Week 96||6.1|-3.9|
92332460|NCT00410072|184569373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-2.2|2.0|||NC=F|||Analysis at Week 48||2.0|-2.2|
92332461|NCT00410072|184569373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-2.3|4.9|||NC=F|||Analysis at Week 96||4.9|-2.3|
92332462|NCT01421147|184569380|SUPERIORITY_OR_OTHER||LS Mean Difference|0.108||||0.055|TWO_SIDED|95.0|-0.002|0.219|||ANCOVA|||||0.219|-0.002|0.055
92332463|NCT01421147|184569381|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41||||0.205|TWO_SIDED|95.0|-0.23|1.05||P-value is for change at 6 weeks.|ANCOVA|||||1.05|-0.23|0.205
92332464|NCT01421147|184569381|SUPERIORITY_OR_OTHER||LS Mean difference|0.4||||0.32|TWO_SIDED|95.0|-0.4|1.21||P-value is for change at 12 weeks.|ANCOVA|||||1.21|-0.40|0.320
92332465|NCT01421147|184569381|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.373|TWO_SIDED|95.0|-0.46|1.21||P-value is for change at Endpoint, up to 24 weeks.|ANCOVA|||||1.21|-0.46|0.373
92332466|NCT01421147|184569381|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.131|TWO_SIDED|95.0|-0.25|1.86||P-value is for change at Endpoint, up to 52 weeks.|ANCOVA|||||1.86|-0.25|0.131
92332467|NCT01421147|184569382|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.007||||0.86|TWO_SIDED|95.0|-0.087|0.072||P-value is for change at 6 weeks.|ANCOVA|||||0.072|-0.087|0.860
92332468|NCT01421147|184569382|SUPERIORITY_OR_OTHER||LS Mean Difference|0.113||||0.03|TWO_SIDED|95.0|0.011|0.215||P-value is for change at 12 weeks.|ANCOVA|||||0.215|0.011|0.030
92332469|NCT01421147|184569382|SUPERIORITY_OR_OTHER||LS Mean Difference|0.098||||0.08|TWO_SIDED|95.0|-0.012|0.208||P-value is for change at 24 weeks.|ANCOVA|||||0.208|-0.012|0.080
92332470|NCT01421147|184569382|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.314|TWO_SIDED|95.0|-0.057|0.177||P-value is for change at 36 weeks.|ANCOVA|||||0.177|-0.057|0.314
92332471|NCT01421147|184569382|SUPERIORITY_OR_OTHER||LS Mean Difference|0.004||||0.948|TWO_SIDED|95.0|-0.119|0.127||P-value is for change at 52 weeks.|ANCOVA|||||0.127|-0.119|0.948
92332472|NCT01421147|184569382|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.737|TWO_SIDED|95.0|-0.099|0.14||P-value is for change at Endpoint, up to 52 weeks.|ANCOVA|||||0.140|-0.099|0.737
92332473|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.489|TWO_SIDED|95.0|-0.33|0.69||P-value is for Baseline-AM Pre-Meal.|ANCOVA|||||0.69|-0.33|0.489
92332474|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48||||0.066|TWO_SIDED|95.0|-1.0|0.03||P-value is for Baseline-AM 2 hrs PP.|ANCOVA|||||0.03|-1.00|0.066
92332475|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.28||||0.209|TWO_SIDED|95.0|-0.71|0.16||P-value is for Baseline-MD Pre-Meal.|ANCOVA|||||0.16|-0.71|0.209
92332476|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31||||0.232|TWO_SIDED|95.0|-0.2|0.82||P-value is for Baseline-MD 2 hrs PP.|ANCOVA|||||0.82|-0.20|0.232
92332477|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05||||0.856|TWO_SIDED|95.0|-0.49|0.58||P-value is for Baseline-EV Pre-Meal.|ANCOVA|||||0.58|-0.49|0.856
92332478|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11||||0.693|TWO_SIDED|95.0|-0.66|0.44||P-value is for Baseline-Bed Time.|ANCOVA|||||0.44|-0.66|0.693
92332479|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.7|TWO_SIDED|95.0|-0.61|0.41||P-value is for Baseline-0300 hrs.|ANCOVA|||||0.41|-0.61|0.700
92332480|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17||||0.399|TWO_SIDED|95.0|-0.23|0.58||P-value is for Endpoint, up to 24 wk-AM Pre-Meal.|ANCOVA|||||0.58|-0.23|0.399
92332481|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.248|TWO_SIDED|95.0|-0.18|0.68||P-value is for Endpoint, up to 24 wk-AM 2 hrs PP.|ANCOVA|||||0.68|-0.18|0.248
92332482|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.883|TWO_SIDED|95.0|-0.44|0.38||P-value is for Endpoint, up to 24 wk-MD Pre-Meal.|ANCOVA|||||0.38|-0.44|0.883
92332483|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.687|TWO_SIDED|95.0|-0.34|0.52||P-value is for Endpoint, up to 24 wk-MD 2 hrs PP.|ANCOVA|||||0.52|-0.34|0.687
92332484|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.364|TWO_SIDED|95.0|-0.24|0.65||P-value is for Endpoint, up to 24 wk-EV Pre-Meal.|ANCOVA|||||0.65|-0.24|0.364
92332485|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.03|TWO_SIDED|95.0|-0.95|-0.05||P-value is for Endpoint, up to 24 wk- Bed Time.|ANCOVA|||||-0.05|-0.95|0.030
92332486|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45||||0.033|TWO_SIDED|95.0|-0.86|-0.04||P-value is for Endpoint, up to 24 wk-0300 hrs.|ANCOVA|||||-0.04|-0.86|0.033
92332487|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.26||||0.23|TWO_SIDED|95.0|-0.68|0.16||P-value is for Endpoint, up to 52 wk-AM Pre-Meal.|ANCOVA|||||0.16|-0.68|0.230
92332488|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32||||0.148|TWO_SIDED|95.0|-0.76|0.11||P-value is for Endpoint, up to 52 wk-AM 2 hrs PP.|ANCOVA|||||0.11|-0.76|0.148
92332489|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.866|TWO_SIDED|95.0|-0.43|0.36||P-value is for Endpoint, up to 52 wk-MD Pre-Meal.|ANCOVA|||||0.36|-0.43|0.866
92332490|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13||||0.545|TWO_SIDED|95.0|-0.56|0.3||P-value is for Endpoint, up to 52 wk-MD 2 hrs PP.|ANCOVA|||||0.30|-0.56|0.545
92332491|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01||||0.955|TWO_SIDED|95.0|-0.44|0.42||P-value is for Endpoint, up to 52 wk-EV Pre-Meal.|ANCOVA|||||0.42|-0.44|0.955
92332492|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48||||0.031|TWO_SIDED|95.0|-0.92|-0.04||P-value is for Endpoint, up to 52 wk-Bed Time.|ANCOVA|||||-0.04|-0.92|0.031
92332493|NCT01421147|184569383|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21||||0.355|TWO_SIDED|95.0|-0.65|0.23||P-vale is for Endpoint, up to 52 wk-0300 hrs.|ANCOVA|||||0.23|-0.65|0.355
92332494|NCT01421147|184569384|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17||||0.32|TWO_SIDED|95.0|-0.52|0.17||P-value is for Baseline.|ANCOVA|||||0.17|-0.52|0.320
92332495|NCT01421147|184569384|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.781|TWO_SIDED|95.0|-0.33|0.25||P-value is for Endpoint, up to 24 weeks.|ANCOVA|||||0.25|-0.33|0.781
92332496|NCT01421147|184569384|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.26||||0.06|TWO_SIDED|95.0|-0.53|0.01||P-value is for Endpoint, up to 52 weeks.|ANCOVA|||||0.01|-0.53|0.060
92332497|NCT01421147|184569385|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.823|TWO_SIDED|95.0|-0.23|0.29||P-value is for change at 6 weeks.|ANCOVA|||||0.29|-0.23|0.823
92332498|NCT01421147|184569385|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.541|TWO_SIDED|95.0|-0.25|0.47||P-value is for change at 12 weeks.|ANCOVA|||||0.47|-0.25|0.541
92332499|NCT01421147|184569385|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17||||0.435|TWO_SIDED|95.0|-0.25|0.59||P-value is for change at 18 weeks.|ANCOVA|||||0.59|-0.25|0.435
92332500|NCT01421147|184569385|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.32|TWO_SIDED|95.0|-0.23|0.71||P-value is for change at Endpoint, up to 24 weeks.|ANCOVA|||||0.71|-0.23|0.320
92332501|NCT01421147|184569385|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.253|TWO_SIDED|95.0|-0.25|0.93||P-value is for change at Endpoint, up to 52 weeks.|ANCOVA|||||0.93|-0.25|0.253
92332502|NCT01421147|184569386|SUPERIORITY_OR_OTHER||LS Mean Difference|0.64||||0.401|TWO_SIDED|95.0|-0.86|2.15||P-value is for Baseline-Behavior TS.|ANCOVA|||||2.15|-0.86|0.401
92332503|NCT01421147|184569386|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.778|TWO_SIDED|95.0|-1.16|1.55||P-value is for 24 weeks-Behavior TS|ANCOVA|||||1.55|-1.16|0.778
92332504|NCT01421147|184569386|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16||||0.804|TWO_SIDED|95.0|-1.12|1.45||P-value is for Endpoint, up to 52 weeks-Behavior TS.|ANCOVA|||||1.45|-1.12|0.804
92332505|NCT01421147|184569386|SUPERIORITY_OR_OTHER||LS Mean Difference|1.21||||0.304||95.0|-1.1|3.51||P-value is for Baseline-Worry TS.|ANCOVA|||||3.51|-1.10|0.304
92332506|NCT01421147|184569386|SUPERIORITY_OR_OTHER||LS Mean Difference|1.12||||0.323|TWO_SIDED|95.0|-1.1|3.34||P-value is for 24 weeks-Worry TS.|ANCOVA|||||3.34|-1.10|0.323
92332507|NCT01421147|184569386|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.824||95.0|-1.92|2.41||P-value is for Endpoint, up to 52 weeks-Worry TS.|ANCOVA|||||2.41|-1.92|0.824
92332508|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.77||||0.681|TWO_SIDED|95.0|-4.42|2.89||P-value is for IR-Baseline.|ANCOVA|||||2.89|-4.42|0.681
92332509|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56||||0.744|TWO_SIDED|95.0|-2.79|3.9||P-value is for IR-24 weeks.|ANCOVA|||||3.90|-2.79|0.744
92332510|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.94||||0.582|TWO_SIDED|95.0|-4.29|2.41||P-value is for IR-Endpoint, up to 52 weeks.|ANCOVA|||||2.41|-4.29|0.582
92332511|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|0.82||||0.694|TWO_SIDED|95.0|-3.26|4.89||P-value is for LF-Baseline.|ANCOVA|||||4.89|-3.26|0.694
92332512|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|0.84||||0.673|TWO_SIDED|95.0|-3.08|4.77||P-value is for LF-24 weeks.|ANCOVA|||||4.77|-3.08|0.673
92332513|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.91||||0.645|TWO_SIDED|95.0|-4.79|2.97||P-value is for LF-Endpoint, up to 52 weeks.|ANCOVA|||||2.97|-4.79|0.645
92332514|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.961|TWO_SIDED|95.0|-3.62|3.81||P-value is for GC-Baseline.|ANCOVA|||||3.81|-3.62|0.961
92332515|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|1.25||||0.463|TWO_SIDED|95.0|-2.1|4.61||P-value is for GC-24 weeks.|ANCOVA|||||4.61|-2.10|0.463
92332516|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|0.91||||0.609|TWO_SIDED|95.0|-2.59|4.41||P-value is for GC-Endpoint, up to 52 weeks.|ANCOVA|||||4.41|-2.59|0.609
92332517|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.61||||0.708|TWO_SIDED|95.0|-3.81|2.59||P-value is for HC-Baseline.|ANCOVA|||||2.59|-3.81|0.708
92332518|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.03||||0.51|TWO_SIDED|95.0|-4.09|2.03||P-value is for HC-24 weeks.|ANCOVA|||||2.03|-4.09|0.510
92332519|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.26||||0.422|TWO_SIDED|95.0|-4.34|1.82||P-value is for HC-Endpoint, up to 52 weeks.|ANCOVA|||||1.82|-4.34|0.422
92332520|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.53||||0.367|TWO_SIDED|95.0|-4.85|1.8||P-value is for IDD-Baseline.|ANCOVA|||||1.80|-4.85|0.367
92332521|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41||||0.786|TWO_SIDED|95.0|-2.54|3.35||P-value is for IDD-24 weeks.|ANCOVA|||||3.35|-2.54|0.786
92332522|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29||||0.845|TWO_SIDED|95.0|-3.16|2.59||P-value is for IDD-Endpoint, up to 52 weeks.|ANCOVA|||||2.59|-3.16|0.845
92332523|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.59||||0.676|TWO_SIDED|95.0|-3.36|2.18||P-value is for ITSQ Total-Baseline.|ANCOVA|||||2.18|-3.36|0.676
92332524|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.862|TWO_SIDED|95.0|-2.33|2.78||P-value is for ITSQ Total-24 weeks.|ANCOVA|||||2.78|-2.33|0.862
92332525|NCT01421147|184569387|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54||||0.685|TWO_SIDED|95.0|-3.15|2.07||P-value is for ITSQ Total-Endpoint, up to 52 weeks.|ANCOVA|||||2.07|-3.15|0.685
92332526|NCT01421147|184569388|SUPERIORITY_OR_OTHER||LS Mean Difference|0.014||||0.235|TWO_SIDED|95.0|-0.009|0.036||P-value is for Endpoint, up to 24 wk-Basal Insulin.|ANCOVA|||||0.036|-0.009|0.235
92332527|NCT01421147|184569388|SUPERIORITY_OR_OTHER||LS Mean Difference|0.006||||0.726|TWO_SIDED|95.0|-0.026|0.038||P-value is for Endpoint, up to 24 wk-Bolus Insulin.|ANCOVA|||||0.038|-0.026|0.726
92332528|NCT01421147|184569388|SUPERIORITY_OR_OTHER||LS Mean Difference|0.019||||0.377|TWO_SIDED|95.0|-0.023|0.062||P-value is for Endpoint, up to 24 wk-Total Insulin.|ANCOVA|||||0.062|-0.023|0.377
92332529|NCT01421147|184569388|SUPERIORITY_OR_OTHER||LS Mean Difference|0.018||||0.159|TWO_SIDED|95.0|-0.007|0.042||P-value is for Endpoint, up to 52 wk-Basal Insulin.|ANCOVA|||||0.042|-0.007|0.159
92332530|NCT01421147|184569388|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.001||||0.957|TWO_SIDED|95.0|-0.034|0.032||P-value is for Endpoint, up to 52 wk-Bolus Insulin.|ANCOVA|||||0.032|-0.034|0.957
92332531|NCT01421147|184569388|SUPERIORITY_OR_OTHER||LS Mean Difference|0.017||||0.45|TWO_SIDED|95.0|-0.028|0.062||P-value is for Endpoint, up to 52 wk-Total Insulin.|ANCOVA|||||0.062|-0.028|0.450
92332532|NCT01421147|184569389|SUPERIORITY_OR_OTHER||LS Mean Difference|1.724||||0.096|TWO_SIDED|95.0|-0.308|3.755||P-value is for Endpoint, up to 24 wk-Basal Insulin.|ANCOVA|||||3.755|-0.308|0.096
92332533|NCT01421147|184569389|SUPERIORITY_OR_OTHER||LS Mean Difference|1.267||||0.374|TWO_SIDED|95.0|-1.531|4.065||P-value is for Endpoint, up to 24 wk-Bolus Insulin.|ANCOVA|||||4.065|-1.531|0.374
92332534|NCT01421147|184569389|SUPERIORITY_OR_OTHER||LS Mean Difference|2.964||||0.151|TWO_SIDED|95.0|-1.081|7.01||P-value is for Endpoint, up to 24 wk-Total Insulin.|ANCOVA|||||7.010|-1.081|0.151
92332535|NCT01421147|184569389|SUPERIORITY_OR_OTHER||LS Mean Difference|2.059||||0.072|TWO_SIDED|95.0|-0.187|4.305||P-value is for Endpoint, up to 52 wk-Basal Insulin.|ANCOVA|||||4.305|-0.187|0.072
92332536|NCT01421147|184569389|SUPERIORITY_OR_OTHER||LS Mean Difference|0.702||||0.617|TWO_SIDED|95.0|-2.058|3.462||P-value is for Endpoint, up to 52 wk-Bolus Insulin.|ANCOVA|||||3.462|-2.058|0.617
92332537|NCT01421147|184569389|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8||||0.188|TWO_SIDED|95.0|-1.37|6.971||P-value is for Endpoint, up to 52 wk-Total Insulin.|ANCOVA|||||6.971|-1.370|0.188
92332538|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.015||||||P-value is for HbA1c- at Baseline \<7.0 %.|Fisher Exact|||||||0.015
92332539|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.606||||||P-value is for HbA1c- at Baseline ≤6.5%.|Fisher Exact|||||||0.606
92332540|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.012||||||P-value is for HbA1c- at 6 weeks \<7.0%.|Fisher Exact|||||||0.012
92332541|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.053||||||P-value is for HbA1c- at 6 weeks ≤6.5%.|Fisher Exact|||||||0.053
92332542|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.398||||||P-value is for HbA1c- at 12 weeks \<7.0%.|Fisher Exact|||||||0.398
92332543|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.17||||||P-value is for HbA1c- at 12 weeks ≤6.5%.|Fisher Exact|||||||0.170
92332544|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.926||||||P-value is for HbA1c- at 24 weeks \<7.0%.|Fisher Exact|||||||0.926
92332545|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.824||||||P-value is for HbA1c- at 24 weeks ≤6.5%.|Fisher Exact|||||||0.824
92332546|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.385||||||P-value is for HbA1c- at 36 weeks \<7.0%.|Fisher Exact|||||||0.385
92332547|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.408||||||P-value is for HbA1c- at 36 weeks ≤6.5%.|Fisher Exact|||||||0.408
92332548|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.551||||||P-value is for HbA1c- at 52 weeks \<7.0%.|Fisher Exact|||||||0.551
92332549|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.9||||||P-value is for HbA1c- at 52 weeks ≤6.5%.|Fisher Exact|||||||0.900
92332550|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.646||||||P-value is for HbA1c- Endpoint, up to 24 weeks \<7.0%.|Fisher Exact|||||||0.646
92332551|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.661||||||P-value is for HbA1c- Endpoint, up to 24 weeks ≤6.5%.|Fisher Exact|||||||0.661
92332552|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.209||||||P-value is for HbA1c- Endpoint, up to 52 weeks \<7.0%.|Fisher Exact|||||||0.209
92332553|NCT01421147|184569390|SUPERIORITY_OR_OTHER|||||||0.54||||||P-value is for HbA1c- Endpoint, up to 52 weeks ≤6.5%.|Fisher Exact|||||||0.540
92332554|NCT01421147|184569391|SUPERIORITY_OR_OTHER|||||||0.703||||||P-value is for Total Events with BG ≤70 mg/dL,if available-24 wk.|Fisher Exact|||||||0.703
92332555|NCT01421147|184569391|SUPERIORITY_OR_OTHER|||||||0.495||||||P-value is for Total Events with BG ≤70 mg/dL,if available-52-wk.|Fisher Exact|||||||0.495
92332556|NCT01421147|184569391|SUPERIORITY_OR_OTHER|||||||0.174||||||P-value is for Severe Events-24 wk.|Fisher Exact|||||||0.174
92332557|NCT01421147|184569391|SUPERIORITY_OR_OTHER|||||||0.828||||||P-value is for Severe Events-52 wk.|Fisher Exact|||||||0.828
92332558|NCT01421147|184569391|SUPERIORITY_OR_OTHER|||||||0.661||||||P-value is for Nocturnal Events with BG ≤70 mg/dL-24 wk.|Fisher Exact|||||||0.661
92332559|NCT01421147|184569391|SUPERIORITY_OR_OTHER|||||||0.606||||||P-value is for Nocturnal Events with BG ≤70 mg/dL-52 wk.|Fisher Exact|||||||0.606
92332560|NCT01421147|184569392|SUPERIORITY_OR_OTHER|||||||0.717||||||P-value is for Total Events with BG ≤70 mg/dL, if available-24 wk.|Wilcoxon (Mann-Whitney)|||||||0.717
92332561|NCT01421147|184569392|SUPERIORITY_OR_OTHER|||||||0.163||||||P-value is for Severe Events-24 wk.|Wilcoxon (Mann-Whitney)|||||||0.163
92332562|NCT01421147|184569392|SUPERIORITY_OR_OTHER|||||||0.669||||||P-value is for Nocturnal Events with BG ≤70 mg/dL-24 wk.|Wilcoxon (Mann-Whitney)|||||||0.669
92332563|NCT01421147|184569392|SUPERIORITY_OR_OTHER|||||||0.738||||||P-value is for Total Events with BG ≤70 mg/dL, if available-52 wk.|Wilcoxon (Mann-Whitney)|||||||0.738
92332564|NCT01421147|184569392|SUPERIORITY_OR_OTHER|||||||0.826||||||P-value is for Severe Events-52 wk.|Wilcoxon (Mann-Whitney)|||||||0.826
92332565|NCT01421147|184569392|SUPERIORITY_OR_OTHER|||||||0.25||||||P-value is for Nocturnal Events with BG ≤70 mg/dL-52 wk.|Wilcoxon (Mann-Whitney)|||||||0.250
92332566|NCT00904917|184569399|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||t-test, 2 sided|||||||.015
92332567|NCT00904917|184569401|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Regression, Linear|||||||.037
92332568|NCT05025332|184569406|OTHER|||||||0.0039|||||||Wilcoxon Signed rank|null median = 4, not 0||Descriptive statistics were used to summarize the data. For total scores, waterfall plots and histograms/bar charts were created at the EOT visit with plots for all participants.||||.0039
92332569|NCT05025332|184569407|OTHER|||||||0.0234|||||||Wilcoxon Signed rank|null median = 4, not 0||Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants.||||0.0234
92332570|NCT05025332|184569408|OTHER|Change from baseline||||||0.0313|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.0313
92332571|NCT05025332|184569409|OTHER|Change from baseline||||||0.0039|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.0039
92332572|NCT05025332|184569410|OTHER|change from baseline||||||0.1934|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.1934
92332573|NCT05025332|184569411|OTHER|Change from baseline||||||0.748|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.7480
92332574|NCT05025332|184569412|OTHER|Change from baseline||||||0.3203|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.3203
92332575|NCT05025332|184569413|OTHER|change from baseline||||||0.3574|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.3574
92332576|NCT05025332|184569414|OTHER|Change from baseline||||||0.4131|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.4131
92332577|NCT05025332|184569415|OTHER|change from baseline||||||0.9063|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.9063
92332578|NCT05025332|184569416|OTHER|Change from baseline||||||1|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||1.00
92332579|NCT05025332|184569417|OTHER|Change from baseline||||||0.7002|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.7002
92332580|NCT05025332|184569418|OTHER|Change from baseline||||||0.375|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.3750
92332581|NCT05025332|184569419|OTHER|||||||0.7695|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.7695
92332582|NCT05025332|184569420|OTHER|||||||0.2402|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.2402
92332583|NCT02085070|184569426|SUPERIORITY|A response of \> 10% of patients was defined as superior.|% response|29.7|||||TWO_SIDED|95.0|15.9|47.0||||||Each group was assessed individually. The primary goal of this study is to determine the efficacy of MK-3475 in patients with untreated brain metastases from NSCLC. The primary endpoint is the brain metastasis response rate (BMRR). A drug with minimal activity would be expected to have a BMRR of 10%.||47.0|15.9|
92332584|NCT02085070|184569426|SUPERIORITY|A response of \> 10% of patients was defined as superior.|% of patients|26.0|||||TWO_SIDED|95.0|10.0|48.0||||||Each group was assessed individually. The primary goal of this study is to determine the efficacy of MK-3475 in patients with untreated brain metastases from melanoma. The primary endpoint is the brain metastasis response rate (BMRR). A drug with minimal activity would be expected to have a BMRR of 10%.||48.0|10.0|
92332585|NCT02815267|184569435|SUPERIORITY||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|1.06||0.0083|TWO_SIDED|95.0|0.72|4.88|||ANCOVA|||Change from baseline in inflammatory lesion count was analyzed using an analysis of covariance (ANCOVA) model, which included treatment, Baseline inflammatory lesion count and pooled investigational site as a blocking factor.||4.88|0.72|0.0083
92332586|NCT02815267|184569436|SUPERIORITY||Risk Difference (RD)|3.33|STANDARD_ERROR_OF_MEAN|2.48||0.1805|TWO_SIDED|95.0|-1.54|8.19||P-value is for the null hypothesis that the combined risk difference equals 0.|Cochran-Mantel-Haenszel|||||8.19|-1.54|0.1805
92332587|NCT02815267|184569437|SUPERIORITY|Percent change from baseline was analyzed using an ANCOVA model, which included treatment, baseline non-inflammatory lesion counts and pooled investigational site as a blocking factor. For the superiority comparison between FMX101 4% and vehicle.|Mean Difference (Final Values)|12.73|STANDARD_ERROR_OF_MEAN|4.42||0.004|TWO_SIDED|95.0|4.07|21.39|||ANCOVA|||||21.39|4.07|0.0040
92332588|NCT02815267|184569438|SUPERIORITY|Change from baseline in inflammatory lesion count for Week 6 was analyzed using an ANCOVA model, which included treatment, baseline inflammatory lesion counts and pooled investigational site as a blocking factor.|Mean Difference (Final Values)|3.86|STANDARD_ERROR_OF_MEAN|1.03||0.0002|TWO_SIDED|95.0|1.85|5.87|||ANCOVA|||||5.87|1.85|0.0002
92332589|NCT02815267|184569438|SUPERIORITY|Change from baseline in inflammatory lesion count for Week 9 was analyzed using an ANCOVA model, which included treatment, baseline inflammatory lesion counts and pooled investigational site as a blocking factor.|Mean Difference (Final Values)|4.39|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|95.0|2.38|6.4|||ANCOVA|||||6.40|2.38|<.0001
92332590|NCT02815267|184569439|SUPERIORITY|P-value is for null hypothesis that the combined risk difference equals 0. Percentage of participants achieving IGA treatment success at Week 6|Risk Difference (RD)|2.71|STANDARD_ERROR_OF_MEAN|1.32||0.0395|TWO_SIDED|95.0|0.13|5.3|||Cochran-Mantel-Haenszel|||||5.3|0.13|0.0395
92332591|NCT02815267|184569439|SUPERIORITY|P-value is for null hypothesis that the combined risk difference equals 0. Percentage of participants achieving IGA treatment success at Week 9.|Risk Difference (RD)|2.76|STANDARD_ERROR_OF_MEAN|1.55||0.0748|TWO_SIDED|95.0|-0.28|5.8|||Cochran-Mantel-Haenszel|||||5.80|-0.28|0.0748
92332592|NCT00527124|184569466|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.907|STANDARD_ERROR_OF_MEAN|0.2973||0.7428|TWO_SIDED|95.0|0.506|1.624|||Regression, Cox|||||1.624|0.506|0.7428
92332593|NCT00527124|184569466|SUPERIORITY_OR_OTHER|||||||0.7425|TWO_SIDED|95.0|||||Log Rank|||||||0.7425
92332594|NCT02131233|184569485|NON_INFERIORITY_OR_EQUIVALENCE|Reformulated Raltegravir is concluded non-inferior to Raltegravir if the lower bound of the 95% CI for the difference in percent response is above -10 percentage points.|Estimated Difference|0.51|||||TWO_SIDED|95.0|-4.204|5.223|||||Reformulated Raltegravir minus Raltegravir|The 95% Confidence Interval (CI) for the treatment differences in percent response were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA \<=100,000 copies/mL or HIV-1 RNA \>100,000 copies/mL)||5.223|-4.204|
92332595|NCT02131233|184569486|NON_INFERIORITY_OR_EQUIVALENCE|Reformulated Raltegravir is concluded non-inferior to Raltegravir if the lower bound of the 95% CI for the difference in percent response is above -10 percentage points.|Estimated Difference|1.449|||||TWO_SIDED|95.0|-4.41|7.308|||||Reformulated Raltegravir minus Raltegravir|The 95% Confidence Interval (CI) for the treatment differences in percent response were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA \<=100,000 copies/mL or HIV-1 RNA \>100,000 copies/mL)||7.308|-4.410|
92332596|NCT02131233|184569487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|||||TWO_SIDED|95.0|-30.9|26.7|||||Reformulated Raltegravir minus Raltegravir|The 95% CI for mean difference in CD4 change was based on t-distribution.||26.7|-30.9|
92332597|NCT02131233|184569488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-32.8|31.6|||||Reformulated Raltegravir minus Raltegravir|The 95% CI for mean difference in CD4 change was based on t-distribution.||31.6|-32.8|
92332598|NCT01006590|184569550|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.26|TWO_SIDED|95.0|-0.26|0.07|||ANCOVA|With baseline value as covariate and treatment group as factor; comparison of LSmeans for treatment||The null hypothesis H0: µt-µC=0, where μT denotes the mean absolute change in HbA1c from baseline to Week 24 in the group of patients treated with saxagliptin (test medication, T) and μC the mean absolute change in HbA1c from baseline to Week 24 in the group of patients with uptitration of metformin (comparator, C) A sample size of 120 randomized and treated patients per treatment group yielded 80% power under the assumption of a true treatment difference of 0.4% and a standard deviation of 1.1%||0.07|-0.26|0.26
92332599|NCT01006590|184569551|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.8|STANDARD_ERROR_OF_MEAN|5.79||0.3202|TWO_SIDED|95.0|-5.6|17.1|||Regression, Logistic|||||17.1|-5.6|0.3202
92332600|NCT01006590|184569552|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3|STANDARD_ERROR_OF_MEAN|4.58||0.6203|TWO_SIDED|95.0|-6.7|11.3|||Regression, Logistic|||||11.3|-6.7|0.6203
92332601|NCT01006590|184569553|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.23||0.7627|TWO_SIDED|95.0|-0.38|0.52|||ANCOVA|||||0.52|-0.38|0.7627
92332602|NCT01006590|184569554|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|1.19||0.7701|TWO_SIDED|95.0|-2.0|2.7|||ANCOVA|||||2.7|-2.0|0.7701
92332603|NCT01006590|184569555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.39|STANDARD_ERROR_OF_MEAN|4.34||0.5882|TWO_SIDED|95.0|-6.22|10.93|||ANCOVA|||||10.93|-6.22|0.5882
92332604|NCT04942210|184569601|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) was \>-5%|Difference in percentage of participants|0.3|||||TWO_SIDED|95.0|-1.2|3.2|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|||3.2|-1.2|
92332605|NCT02651688|184569632|SUPERIORITY|||||||0.7103|||||||Wilcoxon rank-sum test|||||||0.7103
92332606|NCT02651688|184569632|SUPERIORITY|||||||0.4529|||||||Wilcoxon rank-sum test|||||||0.4529
92332607|NCT02651688|184569633|SUPERIORITY|||||||0.9302|||||||Wilcoxon rank-sum test|||||||0.9302
92332608|NCT02651688|184569633|SUPERIORITY|||||||0.7509|||||||Wilcoxon rank-sum test|||||||0.7509
92332609|NCT02651688|184569634|SUPERIORITY|||||||0.5095|||||||Wilcoxon rank-sum test|||||||0.5095
92332610|NCT02651688|184569634|SUPERIORITY|||||||0.623|||||||Wilcoxon rank-sum test|||||||0.6230
92332611|NCT02651688|184569635|SUPERIORITY|||||||0.296|||||||Wilcoxon rank-sum test|||||||0.2960
92332612|NCT02651688|184569635|SUPERIORITY|||||||0.2723|||||||Wilcoxon rank-sum test|||||||0.2723
92332613|NCT02651688|184569636|SUPERIORITY|||||||0.0034|||||||Wilcoxon rank-sum test|||||||0.0034
92332614|NCT02651688|184569636|SUPERIORITY|||||||0.0027|||||||Wilcoxon rank-sum test|||||||0.0027
92332615|NCT02651688|184569637|SUPERIORITY|||||||0.0146|||||||Wilcoxon rank-sum test|||||||0.0146
92332616|NCT02651688|184569637|SUPERIORITY|||||||0.0018|||||||Wilcoxon rank-sum test|||||||0.0018
92332617|NCT02651688|184569638|SUPERIORITY|||||||0.1524|||||||Wilcoxon rank-sum test|||||||0.1524
92332618|NCT02651688|184569638|SUPERIORITY|||||||0.0227|||||||Wilcoxon rank-sum test|||||||0.0227
92332619|NCT02651688|184569639|SUPERIORITY|||||||0.5873|||||||Wilcoxon rank-sum test|||||||0.5873
92332620|NCT02651688|184569639|SUPERIORITY|||||||0.9509|||||||Wilcoxon rank-sum test|||||||0.9509
92332621|NCT02651688|184569640|SUPERIORITY|||||||0.4341|||||||Wilcoxon rank-sum test|||||||0.4341
92332622|NCT02651688|184569640|SUPERIORITY|||||||1|||||||Wilcoxon rank-sum test|||||||1.0000
92332623|NCT02651688|184569641|SUPERIORITY|||||||0.022|||||||Wilcoxon rank-sum test|||||||0.0220
92332624|NCT02651688|184569641|SUPERIORITY|||||||0.3677|||||||Wilcoxon rank-sum test|||||||0.3677
92332625|NCT02651688|184569642|SUPERIORITY|||||||0.9074|||||||Wilcoxon rank-sum test|||||||0.9074
92332626|NCT02651688|184569642|SUPERIORITY|||||||0.4517|||||||Wilcoxon rank-sum test|||||||0.4517
92332627|NCT02651688|184569643|SUPERIORITY|||||||0.2962|||||||Wilcoxon rank-sum test|||||||0.2962
92332628|NCT02651688|184569643|SUPERIORITY|||||||0.3261|||||||Wilcoxon rank-sum test|||||||0.3261
92332629|NCT02651688|184569644|SUPERIORITY|||||||0.045|||||||Wilcoxon rank-sum test|||||||0.0450
92332630|NCT02651688|184569644|SUPERIORITY|||||||0.2235|||||||Wilcoxon rank-sum test|||||||0.2235
92332631|NCT02651688|184569645|SUPERIORITY|||||||0.826|||||||Wilcoxon rank-sum test|||||||0.8260
92332632|NCT02651688|184569645|SUPERIORITY|||||||0.4183|||||||Wilcoxon rank-sum test|||||||0.4183
92332633|NCT02651688|184569646|SUPERIORITY|||||||0.1144|||||||Wilcoxon rank-sum test|||||||0.1144
92332634|NCT02651688|184569646|SUPERIORITY|||||||0.3263|||||||Wilcoxon rank-sum test|||||||0.3263
92332635|NCT02651688|184569647|SUPERIORITY|||||||0.1546|||||||Wilcoxon rank-sum test|||||||0.1546
92332636|NCT02651688|184569647|SUPERIORITY|||||||0.5732|||||||Wilcoxon rank-sum test|||||||0.5732
92332637|NCT02651688|184569648|SUPERIORITY|||||||0.5581|||||||Wilcoxon rank-sum test|||||||0.5581
92332638|NCT02651688|184569648|SUPERIORITY|||||||0.5833|||||||Wilcoxon rank-sum test|||||||0.5833
92332639|NCT02651688|184569649|SUPERIORITY|||||||0.0168|||||||Wilcoxon rank-sum test|||||||0.0168
92332640|NCT02651688|184569649|SUPERIORITY|||||||0.0364|||||||Wilcoxon rank-sum test|||||||0.0364
92332641|NCT02651688|184569650|SUPERIORITY|||||||0.0992|||||||Wilcoxon rank-sum test|||||||0.0992
92332642|NCT02651688|184569650|SUPERIORITY|||||||0.1333|||||||Wilcoxon rank-sum|||||||0.1333
92332643|NCT02651688|184569651|SUPERIORITY|||||||0.0139|||||||Wilcoxon rank-sum test|||||||0.0139
92332644|NCT02651688|184569651|SUPERIORITY|||||||0.0225|||||||Wilcoxon rank-sum test|||||||0.0225
92332645|NCT00212264|184569653|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||ANOVA|||||||.001
92332646|NCT00212264|184569654|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||t-test, 1 sided|Note that the no-treatment control group completed the study after 2 months and was not included in this analysis of treatment effect durability.||||||.32
92332647|NCT00187278|184569655|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.926||||0.3492|TWO_SIDED|95.0|0.789|1.0088||adjusted p|Regression, Cox|||||1.0088|0.789|0.3492
92332648|NCT00187278|184569656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.878||||0.0882|TWO_SIDED|95.0|0.756|1.02||adjusted p|Regression, Cox|||||1.020|0.756|0.0882
92332649|NCT00187278|184569657|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.8215|TWO_SIDED|95.0|0.74|1.27|||Regression, Cox|||||1.27|0.74|0.8215
92332650|NCT00862459|184569731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59|STANDARD_DEVIATION|1.49||0.003|||||||t-test, 2 sided|||2 sample t-test between the dose groups||||0.003
92332651|NCT00862459|184569731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|1.59||0.844|||||||t-test, 2 sided|||||||0.844
92332652|NCT00862459|184569732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.069|STANDARD_DEVIATION|2.92||||95.0|-0.825|0.69|||confidence interval using t-distribution|||||0.69|-0.825|
92332653|NCT00862459|184569732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_DEVIATION|3.18||||95.0|-0.9|0.79|||confidence interval using t-distribution|||||0.79|-0.90|
92332654|NCT00862459|184569733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_DEVIATION|1.42||||95.0|-1.17|-0.42|||confidence interval using t-distribution|||||-0.42|-1.17|
92332655|NCT00862459|184569733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|1.57||||95.0|-0.44|0.41|||confidence interval using t-distribution|||||0.41|-0.44|
92332656|NCT00862459|184569734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|0.86||||95.0|-0.619|-0.17|||confidence interval using t-distribution|||||-0.17|-0.619|
92332657|NCT00862459|184569734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|1.01||||95.0|-0.25|0.22|||confidence interval using t-distribution|||||0.22|-0.25|
92332658|NCT00862459|184569735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_DEVIATION|0.76||||95.0|-0.58|-0.18|||confidence interval using t-distribution|||||-0.18|-0.58|
92332659|NCT00862459|184569735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|0.76||||95.0|-0.1|0.31|||confidence interval using t-distribution|||||0.31|-0.10|
92332660|NCT00862459|184569736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.54|STANDARD_DEVIATION|76.45||||95.0|-37.11|2.02|||confidence interval using t-distribution|||difference in CNR between doses and confidence interval||2.02|-37.11|
92332661|NCT00862459|184569736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.74|STANDARD_DEVIATION|77.11||||95.0|-15.86|25.35|||confidence interval using t-distribution|||||25.35|-15.86|
92332662|NCT00862459|184569737|SUPERIORITY_OR_OTHER||accuracy difference|1.66|STANDARD_ERROR_OF_MEAN|6.29||0.8||95.0|-10.93|14.24|||Chi-squared|Adjusted for clustering||||14.24|-10.93|0.80
92332663|NCT00862459|184569737|SUPERIORITY_OR_OTHER||difference in accuracies|-10.75|STANDARD_ERROR_OF_MEAN|6.83||0.13||95.0|-24.41|2.9|||Chi-squared|adjusted for clustering||||2.90|-24.41|0.13
92332664|NCT00862459|184569738|SUPERIORITY_OR_OTHER||difference in accuracy|13.43||||0.03||95.0|1.53|25.33|||Chi-squared|adjusted for clustering||||25.33|1.53|0.03
92332665|NCT00862459|184569738|SUPERIORITY_OR_OTHER||difference in accuracies|-13.58||||0.02||95.0|-25.07|-2.09|||Chi-squared|adjusted for clustering||||-2.09|-25.07|0.02
92332666|NCT00862459|184569739|SUPERIORITY_OR_OTHER||difference in accuracy|-6.13||||0.11||95.0|-13.73|1.48|||Chi-squared|adjusted for clustering||||1.48|-13.73|0.11
92332667|NCT00862459|184569739|SUPERIORITY_OR_OTHER||difference in accuracies|2.87||||0.55||95.0|-6.59|12.32|||Chi-squared|adjusted for clustering||||12.32|-6.59|0.55
92332668|NCT00862459|184569740|SUPERIORITY_OR_OTHER||difference in accuracy|24.63||||0.02||95.0|5.39|43.86|||Chi-squared|adjusted for clustering||||43.86|5.39|0.02
92332669|NCT00862459|184569740|SUPERIORITY_OR_OTHER||difference in accuracy|-10.75||||0.13||95.0|-24.41|2.9|||Chi-squared|adjusted for clustering||||2.90|-24.41|0.13
92332670|NCT00862459|184569741|SUPERIORITY_OR_OTHER||difference in accuracy|12.91||||0.07||95.0|-1.44|27.26|||Chi-squared|adjusted for clustering||||27.26|-1.44|0.07
92332671|NCT00862459|184569741|SUPERIORITY_OR_OTHER||difference in accuracy|-18.37||||0.02||95.0|-33.6|-1.35|||Chi-squared|adjusted for clustering||||-1.35|-33.60|0.02
92332672|NCT00862459|184569742|SUPERIORITY_OR_OTHER||difference in accuracy|18.46||||0.02||95.0|3.15|33.77|||Chi-squared|adjusted for clustering||||33.77|3.15|0.02
92332673|NCT00862459|184569742|SUPERIORITY_OR_OTHER||difference in accuracy|-5.29||||0.45||95.0|-18.83|8.24|||Chi-squared|adjusted for clustering||||8.24|-18.83|0.45
92332674|NCT03168919|184569779|OTHER|Comparison||||||||||||||||The baseline and the end of therapy MRI parameters are compared.|Due to very small accrual, the statistical analysis couln't be performed.|||
92332675|NCT01085136|184569784|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.61||||0.003|TWO_SIDED|95.0|0.44|0.85||P-value is calculated from two-sided stratified log-rank test|stratified log-rank test|||Hazard ratio is calculated from Cox proportional hazard model with treatment as the only factor, stratified by gender and maximum duration of erlotinib or gefitinib (\<6 months vs \>=6 months).||0.85|0.44|0.0030
92332676|NCT01085136|184569786|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.7905|TWO_SIDED|95.0|0.76|1.44|||Stratified log-rank test.|P-value is calculated from two-sided stratified log-rank test.||Hazard ratio was calculated from Cox proportional hazard model with treatment as the only factor, stratified by gender and maximum duration of erlotinib or gefitinib (\<6 months vs \>=6 months).||1.44|0.76|0.7905
92332677|NCT01085136|184569788|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.98||||0.0065|TWO_SIDED|95.0|1.357|6.543|||Regression, Logistic|||Odds ratio, 95% Confidence Interval (CI) and p-value (two-sided) from logistic regression stratified for maximum treatment duration of prior erlotinib or gefitinib (\>=6 months vs \<6 months) and gender.||6.543|1.357|0.0065
92332678|NCT02993354|184569855|SUPERIORITY||Relative Rate|0.95||||0.75|TWO_SIDED|95.0|0.69|1.31|||t-test, 2 sided|||||1.31|0.69|0.75
92332679|NCT04459598|184569864|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|55.24|||||TWO_SIDED|90.0|45.24|67.46|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for Quizartinib.||67.46|45.24|
92332680|NCT04459598|184569864|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|32.37|||||TWO_SIDED|90.0|23.79|44.05|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for AC886.||44.05|23.79|
92332681|NCT04459598|184569866|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|11.11|||||TWO_SIDED|90.0|8.47|14.56|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for Quizartinib.||14.56|8.47|
92332682|NCT04459598|184569866|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|3.67|||||TWO_SIDED|90.0|2.47|5.45|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for AC886.||5.45|2.47|
92332683|NCT04459598|184569867|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|10.29|||||TWO_SIDED|90.0|7.73|13.7|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for Quizartinib.||13.70|7.73|
92332684|NCT04459598|184569867|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|3.88|||||TWO_SIDED|90.0|2.62|5.76|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for AC886.||5.76|2.62|
92332685|NCT00136214|184569878|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in basal ganglia Comparison on MR spectroscopy of Cho/Cr at time points 1,2 and 3||||0.08
92332686|NCT00136214|184569878|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in basal ganglia Comparison on MR spectroscopy of Mi/Cr at time points 1,2 and 3||||0.3
92332687|NCT00136214|184569878|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in basal ganglia Comparison on MR spectroscopy of NAA/Cr at time points 1,2 and 3||||0.9
92332688|NCT00136214|184569878|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in frontal cortex. Comparison on MR spectroscopy of Cho/Cr at time points 1,2 and 3||||0.7
92332689|NCT00136214|184569878|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in frontal cortex. Comparison on MR spectroscopy of MI/Cr at time points 1,2 and 3||||0.4
92332690|NCT00136214|184569878|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in frontal cortex. Comparison on MR spectroscopy of NAA/Cr at time points 1,2 and 3||||0.6
92332691|NCT00136214|184569878|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in DLPFC. Comparison on MR spectroscopy of Cho/Cr at time points 1,2 and 3||||0.3
92332692|NCT00136214|184569878|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in DLPFC. Comparison on MR spectroscopy ofMI/Cr at time points 1,2 and 3||||0.3
92332693|NCT00136214|184569878|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in DLPFC. Comparison on MR spectroscopy of NAA/Cr at time points 1,2 and 3||||0.3
92332694|NCT00136214|184569878|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in Basal ganglia. Comparison on MR spectroscopy of Cho/Cr at time points 1 and 2||||0.4
92332695|NCT00136214|184569878|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in Basal ganglia. Comparison on MR spectroscopy of MI/Cr at time points 1 and 2||||0.9
92332696|NCT00136214|184569878|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in Basal ganglia. Comparison on MR spectroscopy of NAA/Cr at time points 1 and 2||||0.6
92332697|NCT00136214|184569878|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in frontal cortex. Comparison on MR spectroscopy of Cho/Cr at time points 1 and 2||||0.7
92332698|NCT00136214|184569878|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in frontal cortex. Comparison on MR spectroscopy of MI/Cr at time points 1 and 2||||0.1
92332699|NCT00136214|184569878|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in frontal cortex. Comparison on MR spectroscopy of NAA/Cr at time points 1 and 2||||0.6
92332700|NCT00136214|184569878|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in DLPFC. Comparison on MR spectroscopy of Cho/Cr at time points 1 and 2||||0.5
92332701|NCT00136214|184569878|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in DLPFC. Comparison on MR spectroscopy of MI/Cr at time points 1 and 2||||0.4
92332702|NCT00136214|184569878|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in DLPFC. Comparison on MR spectroscopy of NAA/Crat time points 1 and 2||||0.9
92332703|NCT00136214|184569879|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Comparison between controls and IFN treated at time point 1 on change between scores for HVLT||||>0.05
92332704|NCT00136214|184569879|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Comparison between controls and IFN treated at time point 1 on change between scores for ROCF||||< 0.05
92332705|NCT00136214|184569879|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Comparison between controls and IFN treated at time point 2 on change between scores for HVLT||||>0.05
92332706|NCT00136214|184569879|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Comparison between controls and IFN treated at time point 2 on change between scores for ROCF||||>0.05
92332707|NCT04985942|184569880|SUPERIORITY||Least Squares Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED|95.0|-6.38|-3.44|||Mixed Effects Model for Repeated Measure|MMRM Analysis Based on Hypothetical Estimand Strategy||||-3.44|-6.38|<0.0001
92332708|NCT04985942|184569881|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.85|-0.48|||Mixed Effects Model for Repeated Measure|MMRM Analysis Based on Hypothetical Estimand Strategy||||-0.48|-0.85|<0.0001
92332709|NCT02757352|184569884|SUPERIORITY||Odds Ratio (OR)|2.36||||0.009|TWO_SIDED|95.0|1.23|4.51|||Regression, Logistic|||||4.51|1.23|0.009
92332710|NCT02757352|184569884|SUPERIORITY||Odds Ratio (OR)|2.78||||0.002|TWO_SIDED|95.0|1.48|5.25|||Regression, Logistic|||||5.25|1.48|0.002
92332711|NCT02757352|184569885|SUPERIORITY||Odds Ratio (OR)|2.82||||0.004|TWO_SIDED|95.0|1.38|5.77|||Regression, Logistic|||||5.77|1.38|0.004
92332712|NCT02757352|184569885|SUPERIORITY||Odds Ratio (OR)|2.85||||0.004|TWO_SIDED|95.0|1.4|5.77|||Regression, Logistic|||||5.77|1.40|0.004
92332713|NCT02757352|184569886|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.136|<|0.001|TWO_SIDED|95.0|-0.81|-0.28|||Mixed Models Analysis|||||-0.28|-0.81|<0.001
92332714|NCT02757352|184569886|SUPERIORITY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.134|<|0.001|TWO_SIDED|95.0|-0.94|-0.41|||Mixed Models Analysis|||||-0.41|-0.94|<0.001
92332715|NCT02757352|184569887|SUPERIORITY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.179|<|0.001|TWO_SIDED|95.0|-0.96|-0.26|||Mixed Models Analysis|||||-0.26|-0.96|<0.001
92332716|NCT02757352|184569887|SUPERIORITY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.178|<|0.001|TWO_SIDED|95.0|-1.05|-0.34|||Mixed Models Analysis|||||-0.34|-1.05|<0.001
92332717|NCT02757352|184569889|SUPERIORITY||LS Mean Difference|2.8509|STANDARD_ERROR_OF_MEAN|1.139||0.013|TWO_SIDED|95.0|0.6092|5.0926|||Mixed Models Analysis|||||5.0926|0.6092|0.013
92332718|NCT02757352|184569889|SUPERIORITY||LS Mean Difference|2.7497|STANDARD_ERROR_OF_MEAN|1.1278||0.015|TWO_SIDED|95.0|0.5299|4.9694|||Mixed Models Analysis|||||4.9694|0.5299|0.015
92332719|NCT02757352|184569890|SUPERIORITY||LS Mean Difference|4.2001|STANDARD_ERROR_OF_MEAN|1.6467||0.012|TWO_SIDED|95.0|0.9525|7.4477|||Mixed Models Analysis|||||7.4477|0.9525|0.012
92332720|NCT02757352|184569890|SUPERIORITY||LS Mean Difference|4.6081|STANDARD_ERROR_OF_MEAN|1.6455||0.006|TWO_SIDED|95.0|1.3629|7.8533|||Mixed Models Analysis|||||7.8533|1.3629|0.006
92332721|NCT02757352|184569891|SUPERIORITY||Odds Ratio (OR)|2.73||||0.008|TWO_SIDED|95.0|1.3|5.76|||Regression, Logistic|||||5.76|1.30|0.008
92332722|NCT02757352|184569891|SUPERIORITY||Odds Ratio (OR)|3.43|||<|0.001|TWO_SIDED|95.0|1.66|7.08|||Regression, Logistic|||||7.08|1.66|<0.001
92332723|NCT02757352|184569892|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.001|TWO_SIDED|95.0|2.02|10.41|||Regression, Logistic|||||10.41|2.02|<0.001
92332724|NCT02757352|184569892|SUPERIORITY||Odds Ratio (OR)|3.99|||<|0.001|TWO_SIDED|95.0|1.76|9.05|||Regression, Logistic|||||9.05|1.76|<0.001
92332725|NCT02757352|184569893|SUPERIORITY||LS Means Square Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.308||0.031|TWO_SIDED|95.0|-1.28|-0.06|||Mixed Models Analysis|||||-0.06|-1.28|0.031
92332726|NCT02757352|184569893|SUPERIORITY||LS Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.305||0.001|TWO_SIDED|95.0|-1.61|-0.41|||Mixed Models Analysis|||||-0.41|-1.61|0.001
92332727|NCT02757352|184569894|SUPERIORITY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.404||0.006|TWO_SIDED|95.0|-1.92|-0.33|||Mixed Models Analysis|||||-0.33|-1.92|0.006
92332728|NCT02757352|184569894|SUPERIORITY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.404||0.002|TWO_SIDED|95.0|-2.08|-0.49|||Mixed Models Analysis|||||-0.49|-2.08|0.002
92332729|NCT02757352|184569895|SUPERIORITY||LS Mean Difference|-3.07|STANDARD_ERROR_OF_MEAN|0.764|<|0.001|TWO_SIDED|95.0|-4.58|-1.57|||ANCOVA|||||-1.57|-4.58|<0.001
92332730|NCT02757352|184569895|SUPERIORITY||LS Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|0.751|<|0.001|TWO_SIDED|95.0|-5.68|-2.72|||ANCOVA|||||-2.72|-5.68|<0.001
92332731|NCT02757352|184569896|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.621||0.849|TWO_SIDED|95.0|-1.35|1.11|||Mixed Models Analysis|||||1.11|-1.35|0.849
92332732|NCT02757352|184569896|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.608||0.648|TWO_SIDED|95.0|-1.48|0.93|||Mixed Models Analysis|||||0.93|-1.48|0.648
92332733|NCT02757352|184569897|SUPERIORITY||LS Mean Difference|-1.06|STANDARD_ERROR_OF_MEAN|0.443||0.018|TWO_SIDED|95.0|-1.93|-0.18|||Mixed Models Analysis|||||-0.18|-1.93|0.018
92332734|NCT02757352|184569897|SUPERIORITY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.442||0.008|TWO_SIDED|95.0|-2.05|-0.31|||Mixed Models Analysis|||||-0.31|-2.05|0.008
92332735|NCT02757352|184569898|SUPERIORITY||Odds Ratio (OR)|5.33||||0.0011|TWO_SIDED|96.0|1.47|19.4|||Regression, Logistic|||||19.40|1.47|0.0011
92332736|NCT02757352|184569898|SUPERIORITY||Odds Ratio (OR)|4.22||||0.031|TWO_SIDED|95.0|1.14|15.66|||Regression, Logistic|||||15.66|1.14|0.031
92332737|NCT02757352|184569899|SUPERIORITY||LS Mean Difference|-3.807|STANDARD_ERROR_OF_MEAN|2.8507||0.183|TWO_SIDED|95.0|-9.418|1.804|||Mixed Models Analysis|||||1.804|-9.418|0.183
92332738|NCT02757352|184569899|SUPERIORITY||LS Mean Difference|-2.743|STANDARD_ERROR_OF_MEAN|2.8202||0.331|TWO_SIDED|95.0|-8.294|2.807|||Mixed Models Analysis|||||2.807|-8.294|0.331
92332739|NCT02757352|184569900|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.148||0.008|TWO_SIDED|95.0|-0.69|-0.1|||Mixed Models Analysis|||||-0.10|-0.69|0.008
92332740|NCT02757352|184569900|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.148||0.038|TWO_SIDED|95.0|-0.6|-0.02|||Mixed Models Analysis|||||-0.02|-0.60|0.038
92332741|NCT02757352|184569901|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.325||0.871|TWO_SIDED|95.0|-0.59|0.7|||Mixed Models Analysis|||||0.70|-0.59|0.871
92332742|NCT02757352|184569901|SUPERIORITY||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.327||0.295|TWO_SIDED|95.0|-0.3|0.99|||Mixed Models Analysis|||||0.99|-0.30|0.295
92332743|NCT02757352|184569902|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.406||0.257|TWO_SIDED|95.0|-1.26|0.34|||Mixed Models Analysis|||||0.34|-1.26|0.257
92332744|NCT02757352|184569902|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.402||0.057|TWO_SIDED|95.0|-1.56|0.02|||Mixed Models Analysis|||||0.02|-1.56|0.057
92332745|NCT02757352|184569903|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.496||0.082|TWO_SIDED|95.0|-1.85|0.11|||Mixed Models Analysis|||||0.11|-1.85|0.082
92332746|NCT02757352|184569903|SUPERIORITY||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.493||0.088|TWO_SIDED|95.0|-1.82|0.13|||Mixed Models Analysis|||||0.13|-1.82|0.088
92332747|NCT02757352|184569904|SUPERIORITY||LS Mean Difference|-1.79|STANDARD_ERROR_OF_MEAN|1.442||0.219|TWO_SIDED|95.0|-4.66|1.09|||Mixed Models Analysis|||TJC||1.09|-4.66|0.219
92332748|NCT02757352|184569904|SUPERIORITY||LS Mean Difference|-3.53|STANDARD_ERROR_OF_MEAN|1.388||0.013|TWO_SIDED|95.0|-6.3|-0.76|||Mixed Models Analysis|||TJC||-0.76|-6.30|0.013
92332749|NCT02757352|184569904|SUPERIORITY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.355||0.009|TWO_SIDED|95.0|-1.68|-0.26|||Mixed Models Analysis|||SJC||-0.26|-1.68|0.009
92332750|NCT02757352|184569904|SUPERIORITY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.348||0.034|TWO_SIDED|95.0|-1.46|-0.06|||Mixed Models Analysis|||SJC||-0.06|-1.46|0.034
92332751|NCT02757352|184569906|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.5||0.325|TWO_SIDED|95.0|-1.5|0.5|||Mixed Models Analysis|||||0.5|-1.5|0.325
92332752|NCT02757352|184569906|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.5||0.206|TWO_SIDED|95.0|-1.6|0.4|||Mixed Models Analysis|||||0.4|-1.6|0.206
92332753|NCT02757352|184569907|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.601||0.33|TWO_SIDED|95.0|-1.77|0.6|||Mixed Models Analysis|||||0.60|-1.77|0.330
92332754|NCT02757352|184569907|SUPERIORITY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.602||0.11|TWO_SIDED|95.0|-2.15|0.22|||Mixed Models Analysis|||||0.22|-2.15|0.110
92332755|NCT02757352|184569908|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.81||0.348|TWO_SIDED|95.0|-2.4|0.8|||Mixed Models Analysis|||||0.8|-2.4|0.348
92332756|NCT02757352|184569908|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.82||0.386|TWO_SIDED|95.0|-2.3|0.9|||Mixed Models Analysis|||||0.9|-2.3|0.386
92332757|NCT02757352|184569909|SUPERIORITY||LS Mean Difference|-13.76|STANDARD_ERROR_OF_MEAN|4.835||0.005|TWO_SIDED|95.0|-23.32|-4.2|||ANCOVA|||Overall Impairment Score||-4.20|-23.32|0.005
92332758|NCT02757352|184569909|SUPERIORITY||LS Mean Difference|-6.29|STANDARD_ERROR_OF_MEAN|4.697||0.183|TWO_SIDED|95.0|-15.58|3.0|||ANCOVA|||Overall Impairment Score||3.00|-15.58|0.183
92332759|NCT02757352|184569909|SUPERIORITY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|3.114||0.06|TWO_SIDED|95.0|-12.05|0.26|||ANCOVA|||Percentage of absenteeism||0.26|-12.05|0.060
92332760|NCT02757352|184569909|SUPERIORITY||LS Mean Difference|-4.15|STANDARD_ERROR_OF_MEAN|3.098||0.182|TWO_SIDED|95.0|-10.27|1.97|||ANCOVA|||Percentage of absenteeism||1.97|-10.27|0.182
92332761|NCT02757352|184569909|SUPERIORITY||LS Mean Difference|-13.61|STANDARD_ERROR_OF_MEAN|4.558||0.003|TWO_SIDED|95.0|-22.62|-4.6|||ANCOVA|||Percentage of presentism||-4.60|-22.62|0.003
92332762|NCT02757352|184569909|SUPERIORITY||LS Mean Difference|-6.21|STANDARD_ERROR_OF_MEAN|4.446||0.164|TWO_SIDED|95.0|-15.0|2.58|||ANCOVA|||Percentage of presentism||2.58|-15.00|0.164
92332763|NCT02757352|184569909|SUPERIORITY||LS Mean Difference|-10.63|STANDARD_ERROR_OF_MEAN|3.669||0.004|TWO_SIDED|95.0|-17.85|-3.41|||LS Mean Difference|||Percentage of Impairment in Activities Performed Outside of Work||-3.41|-17.85|0.004
92332764|NCT02757352|184569909|SUPERIORITY||LS Mean Difference|-9.99|STANDARD_ERROR_OF_MEAN|3.621||0.006|TWO_SIDED|95.0|-17.12|-2.86|||ANCOVA|||Percentage of Impairment in Activities Performed Outside of Work||-2.86|-17.12|0.006
92332765|NCT01212159|184569934|SUPERIORITY_OR_OTHER|||||||0.391|TWO_SIDED|||||Comparison of mean reduction in LDL cholesterol between no monitor (control) and monitor (intervention) groups|t-test, 2 sided|||Paired t-test analysis of 6 month change in LDL cholesterol for no monitor and self monitor groups Independent sample t-test to compare ldl change between groups||||0.391
92332766|NCT02776670|184569974|NON_INFERIORITY|Noninferiority was deemed established if the lower limit of the 95% CI (equivalent to the 1-sided 97.5% CI) for the adjusted estimate of the difference (Systane Balance-Refresh Optive Advanced/Optive Plus) was above the noninferiority margin of -1.0 second.|Mean Difference (Final Values)|0.13|||<|0.0001|TWO_SIDED|95.0|-0.341|0.601||p-value for testing noninferiority of Systane Balance with respect to Refresh Optive Advanced/Refresh Optive Plus is calculated for predefined noninferiority margin of -1.0 second.|Mixed model repeated measures (MMRM)|||||0.601|-0.341|<0.0001
92332767|NCT02776670|184569975|SUPERIORITY||Mean Difference (Final Values)|0.118||||0.31|TWO_SIDED|95.0|-0.349|0.585|||MMRM|||||0.585|-0.349|0.310
92332768|NCT02776670|184569977|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.618|TWO_SIDED|95.0|-6.4|4.7|||MMRM|||||4.7|-6.4|0.618
92332769|NCT05460078|184569980|SUPERIORITY||Odds Ratio (OR)|1.39|||<|0.001|TWO_SIDED|95.0|1.16|1.68|||Mixed Models Analysis|||||1.68|1.16|<0.001
92332770|NCT05460078|184569981|SUPERIORITY||Odds Ratio (OR)|1.39|||<|0.001|TWO_SIDED|95.0|1.18|1.65|||Mixed Models Analysis|||||1.65|1.18|<0.001
92332771|NCT05460078|184569982|SUPERIORITY||Odds Ratio (OR)|1.96|||<|0.001|TWO_SIDED|95.0|1.54|2.48|||Mixed Models Analysis|||||2.48|1.54|<0.001
92332772|NCT05460078|184569983|SUPERIORITY||Odds Ratio (OR)|1.4|||<|0.001|TWO_SIDED|95.0|1.17|1.66|||Mixed Models Analysis|||||1.66|1.17|<0.001
92332773|NCT04677387|184569997|SUPERIORITY||Mean Difference (Final Values)|-0.00325||||0.473|TWO_SIDED||||||Regression, Linear|Linear regression using a Generalized Estimating Equation (GEE) model clustering on pharmacy.||||||0.473
92332774|NCT04677387|184569998|SUPERIORITY|||||||0.007|||||||Regression, Linear|Linear regression with Generalized Estimating Equation (GEE) model.||||||.007
92332775|NCT04677387|184569999|SUPERIORITY|||||||0.002|||||||Regression, Linear|Linear regression with a Generalized Estimating Equation (GEE) model.||||||.002
92332776|NCT04677387|184570000|SUPERIORITY|||||||0.169|||||||Regression, Linear|Linear regression with Generalized Estimating Equation (GEE) model.||||||0.169
92332777|NCT01119846|184570048|SUPERIORITY_OR_OTHER||Slope|0.5782|||||TWO_SIDED|90.0|0.523|0.6335|||||Dose Proportionality for GSK1292263 Using the Power Model.|||0.6335|0.5230|
92332778|NCT01119846|184570050|SUPERIORITY_OR_OTHER||Slope|0.5828|||||TWO_SIDED|90.0|0.5282|0.6375|||||Dose Proportionality for GSK1292263 Using the Power Model for AUC0-24.|||0.6375|0.5282|
92332779|NCT01119846|184570050|SUPERIORITY_OR_OTHER||Slope|0.5808|||||TWO_SIDED|90.0|0.5325|0.6291|||||Dose Proportionality for GSK1292263 Using the Power Model for AUC0-last.|||0.6291|0.5325|
92332780|NCT01119846|184570065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.036|||||TWO_SIDED|95.0|-1.17|1.1||||||||1.10|-1.17|
92332781|NCT01119846|184570065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.225|||||TWO_SIDED|95.0|-0.9|1.35||||||||1.35|-0.90|
92332782|NCT01119846|184570065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.046|||||TWO_SIDED|95.0|-1.1|1.19||||||||1.19|-1.10|
92332783|NCT01119846|184570065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.679|||||TWO_SIDED|95.0|-1.8|0.45||||||||0.45|-1.80|
92332784|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|||||TWO_SIDED|95.0|-1.8|2.33|||||Comparison of AUC(0-24)|||2.33|-1.80|
92332785|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.614|||||TWO_SIDED|95.0|-1.53|2.76|||||Comparison of AUC(0-24)|||2.76|-1.53|
92332786|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.451|||||TWO_SIDED|95.0|-1.64|2.54|||||Comparison of AUC(0-24)|||2.54|-1.64|
92332787|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.469|||||TWO_SIDED|95.0|-1.39|2.33|||||Comparison of AUC(0-24)|||2.33|-1.39|
92332788|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|||||TWO_SIDED|95.0|-2.53|1.95|||||Comparison of AUC(0-13)|||1.95|-2.53|
92332789|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026|||||TWO_SIDED|95.0|-2.35|2.3|||||Comparison of AUC(0-13)|||2.30|-2.35|
92332790|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.163|||||TWO_SIDED|95.0|-2.48|2.15|||||Comparison of AUC(0-13)|||2.15|-2.48|
92332791|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|||||TWO_SIDED|95.0|-1.88|2.21|||||Comparison of AUC(0-13)|||2.21|-1.88|
92332792|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.352|||||TWO_SIDED|95.0|-1.58|0.87|||||Comparison of iAUC(0-13)|||0.87|-1.58|
92332793|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.136|||||TWO_SIDED|95.0|-1.41|1.13|||||Comparison of iAUC(0-13)|||1.13|-1.41|
92332794|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.091|||||TWO_SIDED|95.0|-1.36|1.18|||||Comparison of iAUC(0-13)|||1.18|-1.36|
92332795|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.206|||||TWO_SIDED|95.0|-1.33|0.91|||||Comparison of iAUC(0-13)|||0.91|-1.33|
92332796|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.499|||||TWO_SIDED|95.0|-1.68|0.68|||||Comparison of iAUC(0-24)|||0.68|-1.68|
92332797|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.017|||||TWO_SIDED|95.0|-1.24|1.21|||||Comparison of iAUC(0-24)|||1.21|-1.24|
92332798|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.247|||||TWO_SIDED|95.0|-1.44|0.95|||||Comparison of iAUC(0-24)|||0.95|-1.44|
92332799|NCT01119846|184570066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.661|||||TWO_SIDED|95.0|-1.72|0.4|||||Comparison of iAUC(0-24)|||0.40|-1.72|
92332800|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-49.898|||||TWO_SIDED|95.0|-479.74|379.94|||||Comparison of C-peptide, AUC 0-12|||379.94|-479.74|
92332801|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-61.642|||||TWO_SIDED|95.0|-507.32|384.04|||||Comparison of C-peptide, AUC 0-12|||384.04|-507.32|
92332802|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-85.849|||||TWO_SIDED|95.0|-530.07|358.37|||||Comparison of C-peptide, AUC 0-12|||358.37|-530.07|
92332803|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-101.422|||||TWO_SIDED|95.0|-494.09|291.25|||||Comparison of C-peptide, AUC 0-12|||291.25|-494.09|
92332804|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.239|||||TWO_SIDED|95.0|-340.32|261.85|||||Comparison of C-peptide, iAUC 0-12|||261.85|-340.32|
92332805|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-117.435|||||TWO_SIDED|95.0|-429.61|194.74|||||Comparison of C-peptide, iAUC 0-12|||194.74|-429.61|
92332806|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-121.982|||||TWO_SIDED|95.0|-433.14|189.18|||||Comparison of C-peptide, iAUC 0-12|||189.18|-433.14|
92332807|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-81.016|||||TWO_SIDED|95.0|-356.07|194.03|||||Comparison of C-peptide, iAUC 0-12|||194.03|-356.07|
92332808|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.812|||||TWO_SIDED|95.0|-8.08|13.7|||||Comparison of GIP total, AUC 0-12|||13.70|-8.08|
92332809|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.023|||||TWO_SIDED|95.0|-8.27|14.32|||||Comparison of GIP total, AUC 0-12|||14.32|-8.27|
92332810|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.483|||||TWO_SIDED|95.0|0.23|22.74|||||Comparison of GIP total, AUC 0-12|||22.74|0.23|
92332811|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.093|||||TWO_SIDED|95.0|-17.04|2.86|||||Comparison of GIP total, AUC 0-12|||2.86|-17.04|
92332812|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-7.28|12.28|||||Comparison of GIP total, iAUC 0-12|||12.28|-7.28|
92332813|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.526|||||TWO_SIDED|95.0|-6.61|13.67|||||Comparison of GIP total, iAUC 0-12|||13.67|-6.61|
92332814|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.934|||||TWO_SIDED|95.0|-2.17|18.04|||||Comparison of GIP total, iAUC 0-12|||18.04|-2.17|
92332815|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.055|||||TWO_SIDED|95.0|-15.99|1.88|||||Comparison of GIP total, iAUC 0-12|||1.88|-15.99|
92332816|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.018|||||TWO_SIDED|95.0|-0.79|0.76|||||Comparison of GLP-1 active, AUC 0-12|||0.76|-0.79|
92332817|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|||||TWO_SIDED|95.0|-0.78|0.82|||||Comparison of GLP-1 active, AUC 0-12|||0.82|-0.78|
92332818|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|||||TWO_SIDED|95.0|-0.78|0.85|||||Comparison of GLP-1 active, AUC 0-12|||0.85|-0.78|
92332819|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.454|||||TWO_SIDED|95.0|2.74|4.17|||||Comparison of GLP-1 active, AUC 0-12|||4.17|2.74|
92332820|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|||||TWO_SIDED|95.0|-0.78|0.75|||||Comparison of GLP-1 active, iAUC 0-12|||0.75|-0.78|
92332821|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006|||||TWO_SIDED|95.0|-0.79|0.8|||||Comparison of GLP-1 active, iAUC 0-12|||0.80|-0.79|
92332822|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018|||||TWO_SIDED|95.0|-0.79|0.83|||||Comparison of GLP-1 active, iAUC 0-12|||0.83|-0.79|
92332823|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.399|||||TWO_SIDED|95.0|2.69|4.11|||||Comparison of GLP-1 active, iAUC 0-12|||4.11|2.69|
92332824|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|||||TWO_SIDED|95.0|-2.06|2.17|||||Comparison of GLP-1 total, AUC 0-12|||2.17|-2.06|
92332825|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223|||||TWO_SIDED|95.0|-1.97|2.42|||||Comparison of GLP-1 total, AUC 0-12|||2.42|-1.97|
92332826|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.835|||||TWO_SIDED|95.0|-0.35|4.02|||||Comparison of GLP-1 total, AUC 0-12|||4.02|-0.35|
92332827|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.629|||||TWO_SIDED|95.0|-3.56|0.3|||||Comparison of GLP-1 total, AUC 0-12|||0.30|-3.56|
92332828|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|||||TWO_SIDED|95.0|-1.7|1.86|||||Comparison of GLP-1 total, iAUC 0-12|||1.86|-1.70|
92332829|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.286|||||TWO_SIDED|95.0|-1.56|2.13|||||Comparison of GLP-1 total, iAUC 0-12|||2.13|-1.56|
92332830|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.764|||||TWO_SIDED|95.0|-1.08|2.6|||||Comparison of GLP-1 total, iAUC 0-12|||2.60|-1.08|
92332831|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.336|||||TWO_SIDED|95.0|-2.96|0.29|||||Comparison of GLP-1 total, iAUC 0-12|||0.29|-2.96|
92332832|NCT01119846|184570067|SUPERIORITY||Mean Difference (Final Values)|0.962|||||TWO_SIDED|95.0|-4.26|6.18|||||Comparison of Glucagon, AUC 0-12|||6.18|-4.26|
92332833|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.067|||||TWO_SIDED|95.0|-2.56|8.69|||||Comparison of Glucagon, AUC 0-12|||8.69|-2.56|
92332834|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.517|||||TWO_SIDED|95.0|-2.98|8.01|||||Comparison of Glucagon, AUC 0-12|||8.01|-2.98|
92332835|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.714|||||TWO_SIDED|95.0|-5.56|4.13|||||Comparison of Glucagon, AUC 0-12|||4.13|-5.56|
92332836|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.866|||||TWO_SIDED|95.0|-6.4|0.67|||||Comparison of Glucagon, iAUC 0-12|||0.67|-6.40|
92332837|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.865|||||TWO_SIDED|95.0|-4.68|2.95|||||Comparison of Glucagon, iAUC 0-12|||2.95|-4.68|
92332838|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.436|||||TWO_SIDED|95.0|-4.16|3.29|||||Comparison of Glucagon, iAUC 0-12|||3.29|-4.16|
92332839|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.573|||||TWO_SIDED|95.0|-4.86|1.71|||||Comparison of Glucagon, iAUC 0-12|||1.71|-4.86|
92332840|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.74|||||TWO_SIDED|95.0|-168.38|118.9|||||Comparison of Insulin, AUC 0-13|||118.90|-168.38|
92332841|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.229|||||TWO_SIDED|95.0|-161.16|136.7|||||Comparison of Insulin, AUC 0-13|||136.70|-161.16|
92332842|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.628|||||TWO_SIDED|95.0|-158.07|138.81|||||Comparison of Insulin, AUC 0-13|||138.81|-158.07|
92332843|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.936|||||TWO_SIDED|95.0|-198.15|64.28|||||Comparison of Insulin, AUC 0-13|||64.28|-198.15|
92332844|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.042|||||TWO_SIDED|95.0|-150.57|78.48|||||Comparison of Insulin, iAUC 0-13|||78.48|-150.57|
92332845|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.525|||||TWO_SIDED|95.0|-141.27|96.22|||||Comparison of Insulin, iAUC 0-13|||96.22|-141.27|
92332846|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.0|||||TWO_SIDED|95.0|-140.36|96.36|||||Comparison of Insulin, iAUC 0-13|||96.36|-140.36|
92332847|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.324|||||TWO_SIDED|95.0|-170.95|38.3|||||Comparison of Insulin, iAUC 0-13|||38.30|-170.95|
92332848|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.982|||||TWO_SIDED|95.0|-2.66|14.62|||||Comparison of PYY total, AUC 0-12|||14.62|-2.66|
92332849|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.908|||||TWO_SIDED|95.0|-0.05|17.86|||||Comparison of PYY total, AUC 0-12|||17.86|-0.05|
92332850|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.317|||||TWO_SIDED|95.0|5.39|23.24|||||Comparison of PYY total, AUC 0-12|||23.24|5.39|
92332851|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.44|||||TWO_SIDED|95.0|-13.33|2.45|||||Comparison of PYY total, AUC 0-12|||2.45|-13.33|
92332852|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.999|||||TWO_SIDED|95.0|-1.87|11.87|||||Comparison of PYY total, iAUC 0-12|||11.87|-1.87|
92332853|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.909|||||TWO_SIDED|95.0|-0.22|14.03|||||Comparison of PYY total, iAUC 0-12|||14.03|-0.22|
92332854|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.036|||||TWO_SIDED|95.0|1.93|16.14|||||Comparison of PYY total, iAUC 0-12|||16.14|1.93|
92332855|NCT01119846|184570067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.39|||||TWO_SIDED|95.0|-12.67|-0.11|||||Comparison of PYY total, iAUC 0-12|||-0.11|-12.67|
92332856|NCT01119846|184570068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.564|||||TWO_SIDED|95.0|-2.69|1.56|||||Comparison of AUC 0-3|||1.56|-2.69|
92332857|NCT01119846|184570068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.846|||||TWO_SIDED|95.0|-3.05|1.36|||||Comparison of AUC 0-3|||1.36|-3.05|
92332858|NCT01119846|184570068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.175|||||TWO_SIDED|95.0|-3.37|1.02|||||Comparison of AUC 0-3|||1.02|-3.37|
92332859|NCT01119846|184570068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.617|||||TWO_SIDED|95.0|-2.56|1.33|||||Comparison of AUC 0-3|||1.33|-2.56|
92332860|NCT01119846|184570068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.626|||||TWO_SIDED|95.0|-1.64|0.39|||||Comparison of iAUC 0-3|||0.39|-1.64|
92332861|NCT01119846|184570068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.956|||||TWO_SIDED|95.0|-2.01|0.09|||||Comparison of iAUC 0-3|||0.09|-2.01|
92332862|NCT01119846|184570068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.103|||||TWO_SIDED|95.0|-2.15|-0.06|||||Comparison of iAUC 0-3|||-0.06|-2.15|
92332863|NCT01119846|184570068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99|||||TWO_SIDED|95.0|-1.91|-0.07|||||Comparison of iAUC 0-3|||-0.07|-1.91|
92332864|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|152.962|||||TWO_SIDED|95.0|-200.57|506.49|||||Comparison of C-peptide, AUC 0-2|||506.49|-200.57|
92332865|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|113.866|||||TWO_SIDED|95.0|-252.69|480.42|||||Comparison of C-peptide, AUC 0-2|||480.42|-252.69|
92332866|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|114.474|||||TWO_SIDED|95.0|-250.89|479.83|||||Comparison of C-peptide, AUC 0-2|||479.83|-250.89|
92332867|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|136.638|||||TWO_SIDED|95.0|-186.32|459.6|||||Comparison of C-peptide, AUC 0-2|||459.60|-186.32|
92332868|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|163.622|||||TWO_SIDED|95.0|-127.31|454.55|||||Comparison of C-peptide, iAUC 0-2|||454.55|-127.31|
92332869|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|58.074|||||TWO_SIDED|95.0|-243.57|359.72|||||Comparison of C-peptide, iAUC 0-2|||359.72|-243.57|
92332870|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|78.341|||||TWO_SIDED|95.0|-222.32|379.0|||||Comparison of C-peptide, iAUC 0-2|||379.00|-222.32|
92332871|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|157.044|||||TWO_SIDED|95.0|-108.73|422.82|||||Comparison of C-peptide, iAUC 0-2|||422.82|-108.73|
92332872|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.539|||||TWO_SIDED|95.0|-4.79|17.87|||||Comparison of GIP total, AUC 0-2|||17.87|-4.79|
92332873|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.095|||||TWO_SIDED|95.0|-7.65|15.84|||||Comparison of GIP total, AUC 0-2|||15.84|-7.65|
92332874|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.033|||||TWO_SIDED|95.0|1.33|24.74|||||Comparison of GIP total, AUC 0-2|||24.74|1.33|
92332875|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.824|||||TWO_SIDED|95.0|-13.17|7.52|||||Comparison of GIP total, AUC 0-2|||7.52|-13.17|
92332876|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.227|||||TWO_SIDED|95.0|-3.47|15.93|||||Comparison of GIP total, iAUC 0-2|||15.93|-3.47|
92332877|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.598|||||TWO_SIDED|95.0|-5.46|14.65|||||Comparison of GIP total, iAUC 0-2|||14.65|-5.46|
92332878|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.484|||||TWO_SIDED|95.0|-0.54|19.51|||||Comparison of GIP total, iAUC 0-2|||19.51|-0.54|
92332879|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.786|||||TWO_SIDED|95.0|-11.65|6.08|||||Comparison of GIP total, iAUC 0-2|||6.08|-11.65|
92332880|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066|||||TWO_SIDED|95.0|-0.38|0.52|||||Comparison of GLP-1 active, AUC 0-2|||0.52|-0.38|
92332881|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.256|||||TWO_SIDED|95.0|-0.21|0.72|||||Comparison of GLP-1 active, AUC 0-2|||0.72|-0.21|
92332882|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|||||TWO_SIDED|95.0|-0.42|0.51|||||Comparison of GLP-1 active, AUC 0-2|||0.51|-0.42|
92332883|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.694|||||TWO_SIDED|95.0|2.28|3.11|||||Comparison of GLP-1 active, AUC 0-2|||3.11|2.28|
92332884|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.071|||||TWO_SIDED|95.0|-0.36|0.5|||||Comparison of GLP-1 active, iAUC 0-2|||0.50|-0.36|
92332885|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.243|||||TWO_SIDED|95.0|-0.2|0.69|||||Comparison of GLP-1 active, iAUC 0-2|||0.69|-0.20|
92332886|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|||||TWO_SIDED|95.0|-0.41|0.47|||||Comparison of GLP-1 active, iAUC 0-2|||0.47|-0.41|
92332887|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.643|||||TWO_SIDED|95.0|2.25|3.04|||||Comparison of GLP-1 active, iAUC 0-2|||3.04|2.25|
92332888|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|||||TWO_SIDED|95.0|-1.44|1.55|||||Comparison of GLP-1 total, AUC 0-2|||1.55|-1.44|
92332889|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.268|||||TWO_SIDED|95.0|-1.28|1.82|||||Comparison of GLP-1 total, AUC 0-2|||1.82|-1.28|
92332890|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.894|||||TWO_SIDED|95.0|-0.65|2.44|||||Comparison of GLP-1 total, AUC 0-2|||2.44|-0.65|
92332891|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.483|||||TWO_SIDED|95.0|-2.85|-0.12|||||Comparison of GLP-1 total, AUC 0-2|||-0.12|-2.85|
92332892|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|||||TWO_SIDED|95.0|-1.18|1.34|||||Comparison of GLP-1 total, iAUC 0-2|||1.34|-1.18|
92332893|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.331|||||TWO_SIDED|95.0|-0.97|1.63|||||Comparison of GLP-1 total, iAUC 0-2|||1.63|-0.97|
92332894|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.177|||||TWO_SIDED|95.0|-1.48|1.12|||||Comparison of GLP-1 total, iAUC 0-2|||1.12|-1.48|
92332895|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.19|||||TWO_SIDED|95.0|-2.34|-0.04|||||Comparison of GLP-1 total, iAUC 0-2|||-0.04|-2.34|
92332896|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.235|||||TWO_SIDED|95.0|-1.51|3.98|||||Comparison of Glucagon, AUC 0-2|||3.98|-1.51|
92332897|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.877|||||TWO_SIDED|95.0|0.04|5.71|||||Comparison of Glucagon, AUC 0-2|||5.71|0.04|
92332898|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.473|||||TWO_SIDED|95.0|-1.21|4.16|||||Comparison of Glucagon, AUC 0-2|||4.16|-1.21|
92332899|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.274|||||TWO_SIDED|95.0|-2.2|2.74|||||Comparison of Glucagon, AUC 0-2|||2.74|-2.20|
92332900|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.177|||||TWO_SIDED|95.0|-4.92|0.56|||||Comparison of Glucagon, iAUC 0-2|||0.56|-4.92|
92332901|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.909|||||TWO_SIDED|95.0|-4.74|0.93|||||Comparison of Glucagon, iAUC 0-2|||0.93|-4.74|
92332902|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.053|||||TWO_SIDED|95.0|-3.74|1.63|||||Comparison of Glucagon, iAUC 0-2|||1.63|-3.74|
92332903|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.249|||||TWO_SIDED|95.0|-3.72|1.22|||||Comparison of Glucagon, iAUC 0-2|||1.22|-3.72|
92332904|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.389|||||TWO_SIDED|95.0|-95.82|122.59|||||Comparison of Insulin, AUC 0-3|||122.59|-95.82|
92332905|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.98|||||TWO_SIDED|95.0|-103.25|123.21|||||Comparison of Insulin, AUC 0-3|||123.21|-103.25|
92332906|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.426|||||TWO_SIDED|95.0|-80.43|145.28|||||Comparison of Insulin, AUC 0-3|||145.28|-80.43|
92332907|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.994|||||TWO_SIDED|95.0|-76.77|122.76|||||Comparison of Insulin, AUC 0-3|||122.76|-76.77|
92332908|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.088|||||TWO_SIDED|95.0|-86.79|90.97|||||Comparison of Insulin, iAUC 0-3|||90.97|-86.79|
92332909|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.316|||||TWO_SIDED|95.0|-92.47|91.84|||||Comparison of Insulin, iAUC 0-3|||91.84|-92.47|
92332910|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.053|||||TWO_SIDED|95.0|-71.8|111.91|||||Comparison of Insulin, iAUC 0-3|||111.91|-71.80|
92332911|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.606|||||TWO_SIDED|95.0|-57.59|104.8|||||Comparison of Insulin, iAUC 0-3|||104.80|-57.59|
92332912|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.506|||||TWO_SIDED|95.0|-3.13|10.14|||||Comparison of PYY total, AUC 0-2|||10.14|-3.13|
92332913|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.295|||||TWO_SIDED|95.0|0.41|14.18|||||Comparison of PYY total, AUC 0-2|||14.18|0.41|
92332914|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.006|||||TWO_SIDED|95.0|0.15|13.87|||||Comparison of PYY total, AUC 0-2|||13.87|0.15|
92332915|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.555|||||TWO_SIDED|95.0|-8.62|3.51|||||Comparison of PYY total, AUC 0-2|||3.51|-8.62|
92332916|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.523|||||TWO_SIDED|95.0|-2.13|7.17|||||Comparison of PYY total, iAUC 0-2|||7.17|-2.13|
92332917|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.296|||||TWO_SIDED|95.0|0.47|10.12|||||Comparison of PYY total, iAUC 0-2|||10.12|0.47|
92332918|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.726|||||TWO_SIDED|95.0|-3.08|6.53|||||Comparison of PYY total, iAUC 0-2|||6.53|-3.08|
92332919|NCT01119846|184570069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.506|||||TWO_SIDED|95.0|-7.75|0.74|||||Comparison of PYY total, iAUC 0-2|||0.74|-7.75|
92332920|NCT01119846|184570070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.241|||||TWO_SIDED|95.0|-0.84|1.32||||||||1.32|-0.84|
92332921|NCT01119846|184570070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.523|||||TWO_SIDED|95.0|-0.6|1.64||||||||1.64|-0.60|
92332922|NCT01119846|184570070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.053|||||TWO_SIDED|95.0|-1.17|1.06||||||||1.06|-1.17|
92332923|NCT01119846|184570070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|||||TWO_SIDED|95.0|-0.81|1.16||||||||1.16|-0.81|
92332924|NCT01119846|184570071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.08|0.06|||||Comparison of G/I ratio|||0.06|-0.08|
92332925|NCT01119846|184570071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|||||TWO_SIDED|95.0|-0.07|0.07|||||Comparison of G/I ratio|||0.07|-0.07|
92332926|NCT01119846|184570071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|||||TWO_SIDED|95.0|-0.07|0.07|||||Comparison of G/I ratio|||0.07|-0.07|
92332927|NCT01119846|184570071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.017|||||TWO_SIDED|95.0|-0.04|0.08|||||Comparison of G/I ratio|||0.08|-0.04|
92332928|NCT01119846|184570071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.269|||||TWO_SIDED|95.0|-8.31|12.85|||||Comparison of I/G ratio|||12.85|-8.31|
92332929|NCT01119846|184570071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.959|||||TWO_SIDED|95.0|-8.01|13.93|||||Comparison of I/G ratio|||13.93|-8.01|
92332930|NCT01119846|184570071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.053|||||TWO_SIDED|95.0|-4.88|16.99|||||Comparison of I/G ratio|||16.99|-4.88|
92332931|NCT01119846|184570071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.017|||||TWO_SIDED|95.0|-5.65|13.68|||||Comparison of I/G ratio|||13.68|-5.65|
92332932|NCT01119846|184570072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025|||||TWO_SIDED|95.0|-0.28|0.22|||||Comparison of insulin glucose index|||0.22|-0.28|
92332933|NCT01119846|184570072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|||||TWO_SIDED|95.0|-0.2|0.31|||||Comparison of insulin glucose index|||0.31|-0.20|
92332934|NCT01119846|184570072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.028|||||TWO_SIDED|95.0|-0.29|0.23|||||Comparison of insulin glucose index|||0.23|-0.29|
92332935|NCT01119846|184570072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.041|||||TWO_SIDED|95.0|-0.27|0.19|||||Comparison of insulin glucose index|||0.19|-0.27|
92332936|NCT01119846|184570073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.346|||||TWO_SIDED|95.0|-2.06|1.37||||||||1.37|-2.06|
92332937|NCT01119846|184570073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|||||TWO_SIDED|95.0|-1.82|1.73||||||||1.73|-1.82|
92332938|NCT01119846|184570073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.388|||||TWO_SIDED|95.0|-2.16|1.38||||||||1.38|-2.16|
92332939|NCT01119846|184570073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|||||TWO_SIDED|95.0|-1.43|1.7||||||||1.70|-1.43|
92332940|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.523|||||TWO_SIDED|95.0|-3.04|2.0|||||Comparison of Day 7, 1 Hour|||2.00|-3.04|
92332941|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.569|||||TWO_SIDED|95.0|-3.07|1.94|||||Comparison of Day 7, 1 Hour|||1.94|-3.07|
92332942|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.064|||||TWO_SIDED|95.0|-0.45|4.57|||||Comparison of Day 7, 1 Hour|||4.57|-0.45|
92332943|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.316|||||TWO_SIDED|95.0|-2.19|2.82|||||Comparison of Day 7, 1 Hour|||2.82|-2.19|
92332944|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.484|||||TWO_SIDED|95.0|-3.99|1.02|||||Comparison of Day 7, 1 Hour|||1.02|-3.99|
92332945|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.795|||||TWO_SIDED|95.0|-3.27|1.68|||||Comparison of Day 7, 2 Hours|||1.68|-3.27|
92332946|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.313|||||TWO_SIDED|95.0|-2.78|2.15|||||Comparison of Day 7, 2 Hours|||2.15|-2.78|
92332947|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.441|||||TWO_SIDED|95.0|-0.03|4.91|||||Comparison of Day 7, 2 Hours|||4.91|-0.03|
92332948|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.884|||||TWO_SIDED|95.0|-1.58|3.34|||||Comparison of Day 7, 2 Hours|||3.34|-1.58|
92332949|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.222|||||TWO_SIDED|95.0|-3.69|1.24|||||Comparison of Day 7, 2 Hours|||1.24|-3.69|
92332950|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.017|||||TWO_SIDED|95.0|-2.06|2.03|||||Comparison of Day 7, 4 Hours|||2.03|-2.06|
92332951|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.475|||||TWO_SIDED|95.0|-1.56|2.51|||||Comparison of Day 7, 4 Hours|||2.51|-1.56|
92332952|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.512|||||TWO_SIDED|95.0|-0.53|3.55|||||Comparison of Day 7, 4 Hours|||3.55|-0.53|
92332953|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.233|||||TWO_SIDED|95.0|-0.8|3.26|||||Comparison of Day 7, 4 Hours|||3.26|-0.80|
92332954|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.011|||||TWO_SIDED|95.0|-3.05|1.02|||||Comparison of Day 7, 4 Hours|||1.02|-3.05|
92332955|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.189|||||TWO_SIDED|95.0|-3.05|2.67|||||Comparison of Day 7, 6 Hours|||2.67|-3.05|
92332956|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.456|||||TWO_SIDED|95.0|-2.39|3.3|||||Comparison of Day 7, 6 Hours|||3.30|-2.39|
92332957|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.706|||||TWO_SIDED|95.0|-0.14|5.56|||||Comparison of Day 7, 6 Hours|||5.56|-0.14|
92332958|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.062|||||TWO_SIDED|95.0|-1.78|3.91|||||Comparison of Day 7, 6 Hours|||3.91|-1.78|
92332959|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.708|||||TWO_SIDED|95.0|-5.55|0.14|||||Comparison of Day 7, 6 Hours|||0.14|-5.55|
92332960|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|||||TWO_SIDED|95.0|-2.41|2.7|||||Comparison of Day 7, 10 Hours|||2.70|-2.41|
92332961|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.452|||||TWO_SIDED|95.0|-2.09|2.99|||||Comparison of Day 7, 10 Hours|||2.99|-2.09|
92332962|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.418|||||TWO_SIDED|95.0|-0.13|4.96|||||Comparison of Day 7, 10 Hours|||4.96|-0.13|
92332963|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.063|||||TWO_SIDED|95.0|-1.47|3.6|||||Comparison of Day 7, 10 Hours|||3.60|-1.47|
92332964|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.509|||||TWO_SIDED|95.0|-4.05|1.03|||||Comparison of Day 7, 10 Hours|||1.03|-4.05|
92332965|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-4.2|1.6|||||Comparison of Day 7, 12 Hours|||1.60|-4.20|
92332966|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.325|||||TWO_SIDED|95.0|-4.21|1.56|||||Comparison of Day 7, 12 Hours|||1.56|-4.21|
92332967|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|-1.89|3.89|||||Comparison of Day 7, 12 Hours|||3.89|-1.89|
92332968|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.265|||||TWO_SIDED|95.0|-3.14|2.62|||||Comparison of Day 7, 12 Hours|||2.62|-3.14|
92332969|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.516|||||TWO_SIDED|95.0|-3.4|2.37|||||Comparison of Day 7, 12 Hours|||2.37|-3.40|
92332970|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.515|||||TWO_SIDED|95.0|-2.29|1.26|||||Comparison of Day 14, 24 Hours|||1.26|-2.29|
92332971|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.225|||||TWO_SIDED|95.0|-1.99|1.55|||||Comparison of Day 14, 24 Hours|||1.55|-1.99|
92332972|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.501|||||TWO_SIDED|95.0|-1.28|2.28|||||Comparison of Day 14, 24 Hours|||2.28|-1.28|
92332973|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.168|||||TWO_SIDED|95.0|-1.98|1.65|||||Comparison of Day 14, 24 Hours|||1.65|-1.98|
92332974|NCT01119846|184570074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.043|||||TWO_SIDED|95.0|-2.81|0.73|||||Comparison of Day 14, 24 Hours|||0.73|-2.81|
92332975|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-70.457|||||TWO_SIDED|95.0|-214.72|73.8|||||Day 7, 1 Hour|||73.80|-214.72|
92332976|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-151.722|||||TWO_SIDED|95.0|-295.98|-7.46|||||Day 7, 1 Hour|||-7.46|-295.98|
92332977|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-69.113|||||TWO_SIDED|95.0|-213.48|75.25|||||Day 7, 1 Hour|||75.25|-213.48|
92332978|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-104.468|||||TWO_SIDED|95.0|-248.72|39.78|||||Day 7, 1 Hour|||39.78|-248.72|
92332979|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-118.462|||||TWO_SIDED|95.0|-263.93|27.01|||||Day 7, 1 Hour|||27.01|-263.93|
92332980|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-114.34|||||TWO_SIDED|95.0|-264.78|36.1|||||Day 7, 2 Hours|||36.10|-264.78|
92332981|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-116.462|||||TWO_SIDED|95.0|-266.9|33.98|||||Day 7, 2 Hours|||33.98|-266.90|
92332982|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.201|||||TWO_SIDED|95.0|-154.75|146.35|||||Day 7, 2 Hours|||146.35|-154.75|
92332983|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-48.27|||||TWO_SIDED|95.0|-198.7|102.16|||||Day 7, 2 Hours|||102.16|-198.70|
92332984|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-50.605|||||TWO_SIDED|95.0|-202.31|101.1|||||Day 7, 2 Hours|||101.10|-202.31|
92332985|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.231|||||TWO_SIDED|95.0|-40.84|26.38|||||Day 7, 4 Hours|||26.38|-40.84|
92332986|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.025|||||TWO_SIDED|95.0|-38.63|28.58|||||Day 7, 4 Hours|||28.58|-38.63|
92332987|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.523|||||TWO_SIDED|95.0|-24.11|43.16|||||Day 7, 4 Hours|||43.16|-24.11|
92332988|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.618|||||TWO_SIDED|95.0|-36.22|30.99|||||Day 7, 4 Hours|||30.99|-36.22|
92332989|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.8|||||TWO_SIDED|95.0|-13.09|54.69|||||Day 7, 4 Hours|||54.69|-13.09|
92332990|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-58.864|||||TWO_SIDED|95.0|-156.11|38.38|||||Day 7, 6 Hours|||38.38|-156.11|
92332991|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-77.9|||||TWO_SIDED|95.0|-175.15|19.35|||||Day 7, 6 Hours|||19.35|-175.15|
92332992|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.323|||||TWO_SIDED|95.0|-69.0|125.65|||||Day 7, 6 Hours|||125.65|-69.00|
92332993|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.499|||||TWO_SIDED|95.0|-121.74|72.74|||||Day 7, 6 Hours|||72.74|-121.74|
92332994|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-59.755|||||TWO_SIDED|95.0|-157.82|38.31|||||Day 7, 6 Hours|||38.31|-157.82|
92332995|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.222|||||TWO_SIDED|95.0|-69.85|69.4|||||Day 7, 10 Hours|||69.40|-69.85|
92332996|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.222|||||TWO_SIDED|95.0|-77.28|61.98|||||Day 7, 10 Hours|||61.98|-77.28|
92332997|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.148|||||TWO_SIDED|95.0|-62.55|76.85|||||Day 7, 10 Hours|||76.85|-62.55|
92332998|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.734|||||TWO_SIDED|95.0|-36.89|102.36|||||Day 7, 10 Hours|||102.36|-36.89|
92332999|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.76|||||TWO_SIDED|95.0|-81.01|61.49|||||Day 7, 10 Hours|||61.49|-81.01|
92333000|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.594|||||TWO_SIDED|95.0|-123.36|84.18|||||Day 7, 12 Hours|||84.18|-123.36|
92333001|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.924|||||TWO_SIDED|95.0|-150.69|56.85|||||Day 7, 12 Hours|||56.85|-150.69|
92333002|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.715|||||TWO_SIDED|95.0|-79.16|128.59|||||Day 7, 12 Hours|||128.59|-79.16|
92333003|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.966|||||TWO_SIDED|95.0|-111.73|95.8|||||Day 7, 12 Hours|||95.80|-111.73|
92333004|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.108|||||TWO_SIDED|95.0|-103.08|109.29|||||Day 7, 12 Hours|||109.29|-103.08|
92333005|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.114|||||TWO_SIDED|95.0|-25.12|4.89|||||Day 14, 24 Hours|||4.89|-25.12|
92333006|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.718|||||TWO_SIDED|95.0|-23.71|6.28|||||Day 14, 24 Hours|||6.28|-23.71|
92333007|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.622|||||TWO_SIDED|95.0|-15.63|14.38|||||Day 14, 24 Hours|||14.38|-15.63|
92333008|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.454|||||TWO_SIDED|95.0|-27.78|2.88|||||Day 14, 24 Hours|||2.88|-27.78|
92333009|NCT01119846|184570075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.681|||||TWO_SIDED|95.0|-24.02|6.66|||||Day 14, 24 Hours|||6.66|-24.02|
92333010|NCT02007278|184570096|NON_INFERIORITY_OR_EQUIVALENCE|Power=95%; significance level=5%, characteristic operation curves were used with a non-central F distribution for the calculation of the sample size||||||0.451|||||||Wilcoxon (Mann-Whitney)|||||||0.4510
92333011|NCT03409120|184570113|SUPERIORITY||||||<|0.001|||||||linear mixed effects model|||We tested the equivalence of Burke-Fahn-Marsden scores over time (at baseline and at two time periods following DBS surgery) using a repeated measures ANOVA.||||<0.001
92333012|NCT04424914|184570157|OTHER|||||||0.3006|||||||Chi-squared|p-values for comparison of proportions of CLASS I+II vs CLASS III+IV were based on a Chi-square test.||||||0.3006
92333013|NCT04424914|184570158|OTHER||||||<|0.0001|||||||Wilcoxon rank sum test|||||||<0.0001
92333014|NCT01215435|184570168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval for the mean HbA1c treatment difference was below or equal to 0.4%. This is equivalent to using a one-sided test of size 2.5%.|Estimated treatment difference, Mean|-0.14|||<|0.001||95.0|-0.4|0.13|||Regression, Linear|||H0: D \> 0.4% against H1: D ≤ 0.4% where D is the mean treatment difference for change in HbA1c (pre-breakfast OD minus pre-dinner OD)||0.13|-0.40|<0.001
92333015|NCT01215435|184570169|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-3.14||||0.6215||95.0|-15.65|9.37|||Regression, Linear|||||9.37|-15.65|0.6215
92333016|NCT02195427|184570215|NON_INFERIORITY|"A WSRS change of 1 grade is considered to be clinically significant. A difference of ≤0.5 grade between the two treatment groups (i.e., half of the clinically significant difference) = non-inferiority margin.~The primary efficacy endpoint uses a paired-design and is analyzed by calculating two-sided confidence intervals of the mean difference between TEOSYAL® RHA Global Action and the control device, between the V1 enrollment visit (baseline) and V7 (24 weeks after baseline)."|Mean Difference (Final Values)|-0.03|||||TWO_SIDED|97.5|-0.17|0.11|||||The decision is based on the upper limit of the 2-sided confidence interval for the difference for the change from baseline, between test and comparator treatment. For achieving non-inferiority, the upper confidence limit of a 97.5% CI must be ≤0.5|"Efficacy of TEOSYAL® RHA Global Action versus control is analyzed in a non-inferiority statistical model using the 5-grade Wrinkle Severity Rating Scale (WSRS) as rated by the Blinded Live Evaluator at 24 weeks after baseline.~The primary endpoint is the aesthetic improvement from pre-injection of the NLF at the side of the face treated with TEOSYAL® RHA Ultra Deep compared to the one at the side of the face treated with the control device, as assessed by the BLE at 24 weeks after baseline."||0.11|-0.17|
92333017|NCT02195427|184570215|NON_INFERIORITY|"A WSRS change of 1 grade is considered to be clinically significant. A difference of ≤0.5 grade between the two treatment groups (i.e., half of the clinically significant difference) = non-inferiority margin.~The primary efficacy endpoint uses a paired-design and is analyzed by calculating two-sided confidence intervals of the mean difference between TEOSYAL® RHA Deep Lines and the control device, between the V1 enrollment visit (baseline) and V7 (24 weeks after baseline)."|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|97.5|-0.25|0.06|||||The decision is based on the upper limit of the 2-sided confidence interval for the difference for the change from baseline, between test and comparator treatment. For achieving non-inferiority, the upper confidence limit of a 97.5% CI must be ≤0.5|"Efficacy of TEOSYAL® RHA Deep Lines versus control is analyzed in a non-inferiority statistical model using the 5-grade Wrinkle Severity Rating Scale (WSRS) as rated by the Blinded Live Evaluator at 24 weeks after baseline.~The primary endpoint is the aesthetic improvement from pre-injection of the NLF at the side of the face treated with TEOSYAL® RHA Deep Lines compared to the one at the side of the face treated with the control device, as assessed by the BLE at 24 weeks after baseline"||0.06|-0.25|
92333018|NCT00386425|184570229|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||p-value is for change to Day 7|t-test, 2 sided|||||||0.011
92333019|NCT00386425|184570230|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||p-value is for the moderate Protein C Deficiency (difference in change of pc between alt and standard groups)|t-test, 2 sided|||||||0.047
92333020|NCT00386425|184570230|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||p-value is for the severe Protein C Deficiency (difference in change of pc between alt and standard groups)|t-test, 2 sided|||||||0.063
92333021|NCT00386425|184570231|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||p-value is for Day 28 mortality|Fisher Exact|||||||0.030
92333022|NCT00386425|184570232|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||p-value is for Day 90 mortality|Fisher Exact|||||||0.090
92333023|NCT00386425|184570233|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||p-value is for total SOFA difference between alternative and standard therapy|t-test, 2 sided|||||||0.190
92333024|NCT00386425|184570233|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||p-value is for difference in cardiovascular SOFA between alternative and standard therapy|t-test, 2 sided|||||||0.268
92333025|NCT00386425|184570233|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||p-value is for difference in respiratory SOFA between alternative and standard therapy|t-test, 2 sided|||||||0.082
92333026|NCT00386425|184570233|SUPERIORITY_OR_OTHER|||||||0.367||95.0||||p-value is for difference in renal SOFA between alternative and standard therapy|t-test, 2 sided|||||||0.367
92333027|NCT00386425|184570233|SUPERIORITY_OR_OTHER|||||||0.274||95.0||||p-value is for difference in hematology SOFA between alternative and standard therapy|t-test, 2 sided|||||||0.274
92333028|NCT00386425|184570233|SUPERIORITY_OR_OTHER|||||||0.341||95.0||||p-value is for difference in liver SOFA between alternative and standard therapy|t-test, 2 sided|||||||0.341
92333029|NCT00386425|184570235|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for difference between participants normalizing protein C and not normalizing protein C.|Fisher Exact|||||||<0.0001
92333030|NCT00386425|184570236|SUPERIORITY_OR_OTHER|||||||0.622||95.0||||p-value is for 28-Day Mortality, Dead at Day 28 vs. Alive at Day 28|Pearson's chi-square test|||||||0.622
92333031|NCT00386425|184570236|SUPERIORITY_OR_OTHER|||||||0.815||95.0||||p-value is for Hospital Mortality|Fisher Exact|||||||0.815
92333032|NCT03782974|184570239|SUPERIORITY||Least Square Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.104|<|0.0001|TWO_SIDED|95.0|-0.77|-0.37||The threshold for statistical significance was p=0.05|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||-0.37|-0.77|<0.0001
92333033|NCT03782974|184570240|SUPERIORITY||Risk Difference (RD)|0.27|||<|0.0001|TWO_SIDED|95.0|0.1|0.59||The threshold for statistical significance was p=0.05.|Chi-squared|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||0.59|0.10|<0.0001
92333034|NCT03782974|184570241|SUPERIORITY||Least Square Mean Difference|6.35|||<|0.001|TWO_SIDED|95.0|3.93|8.77||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||8.77|3.93|<0.001
92333035|NCT03782974|184570242|SUPERIORITY||Least Square Mean Difference|4.049|||<|0.05|TWO_SIDED|95.0|1.08|7.01||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||7.01|1.08|<0.05
92333036|NCT03782974|184570243|SUPERIORITY|||||||0.6||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||0.6
92333037|NCT03782974|184570244|SUPERIORITY|||||||0.054||||||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||||0.054
92333038|NCT03782974|184570245|SUPERIORITY|||||||0.13||||||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||||0.13
92333039|NCT03782974|184570246|SUPERIORITY||Least Square Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.102|<|0.0001|TWO_SIDED|95.0|-0.96|-0.56||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||-0.56|-0.96|<0.0001
92333040|NCT03704948|184570247|SUPERIORITY||Mean Difference (Net)|0.82|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
92333041|NCT04607980|184570250|EQUIVALENCE|Clinical equivalence of the primary endpoint was evaluated by comparing the 2-sided 95% confidence interval (CI) of the mean difference of PASI percent improvement from Baseline to Week 12 between ABP 654 versus (vs) ustekinumab with an equivalence margin of (-15, +15).|Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-3.16|3.43||||||Multiple imputation was applied for the point estimate and CI of the mean difference between the 2 groups.||3.43|-3.16|
92333042|NCT04607980|184570251|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the initial randomized groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using analysis of covariance (ANCOVA) model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|1.95|||||TWO_SIDED|95.0|-2.05|5.94||||||"Week 4: Treatment Group A vs Treatment Group B.~LOCF imputation was used."||5.94|-2.05|
92333043|NCT04607980|184570251|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the initial randomized groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-2.97|3.31||||||"Week 16: Treatment Group A vs Treatment Group B.~LOCF imputation was used."||3.31|-2.97|
92333044|NCT04607980|184570251|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the initial randomized groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|1.34|||||TWO_SIDED|95.0|-1.39|4.07||||||"Week 28: Treatment Group A vs Treatment Group B.~LOCF imputation was used."||4.07|-1.39|
92333045|NCT04607980|184570251|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the dose intensification groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|1.26|||||TWO_SIDED|95.0|-5.46|7.98||||||"Week 36: Treatment Group A vs Treatment Group B.~Observed data was used."||7.98|-5.46|
92333046|NCT04607980|184570251|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the dose intensification groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-3.71|||||TWO_SIDED|95.0|-10.71|3.28||||||"Week 44: Treatment Group A vs Treatment Group B.~Observed data was used."||3.28|-10.71|
92333047|NCT04607980|184570251|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the dose intensification groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-8.45|7.13||||||"Week 52: Treatment Group A vs Treatment Group B.~Observed data was used."||7.13|-8.45|
92333048|NCT04607980|184570251|EQUIVALENCE|The differences for the mean percent change from baseline and the corresponding CIs were for ABP 654/ABP 654 minus ustekinumab/ustekinumab. Estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-1.41|||||TWO_SIDED|95.0|-3.42|0.59||||||"Week 40: ABP 654 vs Ustekinumab.~LOCF imputation was used."||0.59|-3.42|
92333049|NCT04607980|184570251|EQUIVALENCE|The differences for the mean percent change from baseline and the corresponding CIs were for ustekinumab/ABP 654 minus ustekinumab/ustekinumab. Estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-0.85|||||TWO_SIDED|95.0|-3.17|1.48||||||"Week 40: Ustekinumab/ABP 654 vs Ustekinumab.~LOCF imputation was used."||1.48|-3.17|
92333050|NCT04607980|184570251|EQUIVALENCE|The differences for the mean percent change from baseline and the corresponding CIs were for ABP 654/ABP 654 minus ustekinumab/ustekinumab. Estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-0.56|||||TWO_SIDED|95.0|-3.29|2.17||||||"Week 52: ABP 654 vs Ustekinumab.~LOCF imputation was used."||2.17|-3.29|
92333051|NCT04607980|184570251|EQUIVALENCE|The differences for the mean percent change from baseline and the corresponding CIs were for ustekinumab/ABP 654 minus ustekinumab/ustekinumab. Estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-2.46|3.86||||||"Week 52: Ustekinumab/ABP 654 vs Ustekinumab.~LOCF imputation was used."||3.86|-2.46|
92333052|NCT04607980|184570252|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|1.2|||||TWO_SIDED|95.0|-4.02|6.42||||||"Week 4: Treatment Group A vs Treatment Group B.~NRI was used."||6.42|-4.02|
92333053|NCT04607980|184570252|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-0.32|||||TWO_SIDED|95.0|-7.87|7.23||||||"Week 12: Treatment Group A vs Treatment Group B.~NRI was used."||7.23|-7.87|
92333054|NCT04607980|184570252|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|0.82|||||TWO_SIDED|95.0|-5.75|7.37||||||"Week 16: Treatment Group A vs Treatment Group B.~NRI was used."||7.37|-5.75|
92333055|NCT04607980|184570252|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|3.75|||||TWO_SIDED|95.0|-2.37|9.84||||||"Week 28: Treatment Group A vs Treatment Group B.~NRI was used."||9.84|-2.37|
92333056|NCT04607980|184570252|EQUIVALENCE|Response difference in dose intensification participants (ABP 654 - ustekinumab) was estimated by the generalized linear model adjusted for the baseline PASI and the stratification factors with an identity link was used to obtain the point estimate and 95% CI for the risk difference of PASI 75 response rate at each scheduled timepoint.|Response difference|-3.19|||||TWO_SIDED|95.0|-28.15|21.76||||||"Week 36: Treatment Group A vs Treatment Group B.~Observed data was used."||21.76|-28.15|
92333057|NCT04607980|184570252|EQUIVALENCE|Response difference (ABP 654/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|1.1|||||TWO_SIDED|95.0|-3.74|7.54||||||"Week 40: ABP 654 vs Ustekinumab.~NRI was used."||7.54|-3.74|
92333058|NCT04607980|184570252|EQUIVALENCE|Response difference (ustekinumab/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|1.85|||||TWO_SIDED|95.0|-4.89|8.39||||||"Week 40: Ustekinumab/ABP 654 vs Ustekinumab.~NRI was used."||8.39|-4.89|
92333059|NCT04607980|184570252|EQUIVALENCE|Response difference (ABP 654/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-2.75|||||TWO_SIDED|95.0|-8.61|4.41||||||"Week 52: ABP 654 vs Ustekinumab.~NRI was used."||4.41|-8.61|
92333060|NCT04607980|184570252|EQUIVALENCE|Response difference (ustekinumab/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|0.14|||||TWO_SIDED|95.0|-7.32|7.43||||||"Week 52: Ustekinumab/ABP 654 vs Ustekinumab.~NRI was used."||7.43|-7.32|
92333061|NCT04607980|184570253|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-0.34|||||TWO_SIDED|95.0|-3.16|3.21||||||"Week 4: Treatment Group A vs Treatment Group B.~NRI was used."||3.21|-3.16|
92333062|NCT04607980|184570253|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|1.58|||||TWO_SIDED|95.0|-5.03|8.18||||||"Week 12: Treatment Group A vs Treatment Group B.~NRI was used."||8.18|-5.03|
92333063|NCT04607980|184570253|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|3.81|||||TWO_SIDED|95.0|-3.62|11.17||||||"Week 16: Treatment Group A vs Treatment Group B.~NRI was used."||11.17|-3.62|
92333064|NCT04607980|184570253|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|3.07|||||TWO_SIDED|95.0|-4.68|10.78||||||"Week 28: Treatment Group A vs Treatment Group B.~NRI was used."||10.78|-4.68|
92333065|NCT04607980|184570253|EQUIVALENCE|Response difference (ABP 654/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-1.93|||||TWO_SIDED|95.0|-12.85|8.89||||||"Week 40: ABP 654 vs Ustekinumab.~NRI was used."||8.89|-12.85|
92333066|NCT04607980|184570253|EQUIVALENCE|Response difference (ustekinumab/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-4.93|||||TWO_SIDED|95.0|-17.39|7.73||||||"Week 40: Ustekinumab/ABP 654 vs Ustekinumab.~NRI was used."||7.73|-17.39|
92333067|NCT04607980|184570253|EQUIVALENCE|Response difference (ABP 654/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|2.55|||||TWO_SIDED|95.0|-8.42|13.3||||||"Week 52: ABP 654 vs Ustekinumab.~NRI was used."||13.30|-8.42|
92333068|NCT04607980|184570253|EQUIVALENCE|Response difference (ustekinumab/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-2.41|||||TWO_SIDED|95.0|-14.91|10.19||||||"Week 52: Ustekinumab/ABP 654 vs Ustekinumab.~NRI was used."||10.19|-14.91|
92333069|NCT04607980|184570254|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|2.55|||||TWO_SIDED|95.0|-5.65|10.71||||||"Week 12: Treatment Group A vs Treatment Group B.~NRI was used."||10.71|-5.65|
92333070|NCT04607980|184570254|EQUIVALENCE|Response difference (ABP 654/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-6.57|||||TWO_SIDED|95.0|-15.41|3.29||||||"Week 52: ABP 654 vs Ustekinumab.~NRI was used."||3.29|-15.41|
92333071|NCT04607980|184570254|EQUIVALENCE|Response difference (ustekinumab/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-7.46|||||TWO_SIDED|95.0|-18.41|3.74||||||"Week 52: ABP 654/Ustekinumab vs Ustekinumab.~NRI was used."||3.74|-18.41|
92333072|NCT04607980|184570255|EQUIVALENCE|Mean difference estimated for treatment group A and treatment group B using ANCOVA model adjusted for baseline BSA value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|0.47|||||TWO_SIDED|95.0|-1.15|2.1||||||"Week 12: Treatment Group A vs Treatment Group B.~LOCF imputation was used."||2.10|-1.15|
92333073|NCT04607980|184570255|EQUIVALENCE|Mean difference estimated in dose intensification participants (treatment group A and treatment group B) using ANCOVA model adjusted for baseline BSA value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|1.39|||||TWO_SIDED|95.0|-0.9|3.67||||||"Week 52: Treatment Group A vs Treatment Group B.~Observed data was used."||3.67|-0.90|
92333074|NCT04607980|184570255|EQUIVALENCE|Mean difference estimated for ABP 654/ ABP 654 and ustekinumab/ ustekinumab using ANCOVA model adjusted for baseline BSA value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-0.13|||||TWO_SIDED|95.0|-0.99|0.74||||||"Week 52: ABP 654 vs Ustekinumab.~LOCF imputation was used."||0.74|-0.99|
92333075|NCT04607980|184570255|EQUIVALENCE|Mean difference estimated for ustekinumab/ABP 654 and ustekinumab/ ustekinumab using ANCOVA model adjusted for baseline BSA value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.9|1.1||||||"Week 52: Ustekinumab/ABP 654 vs Ustekinumab.~LOCF imputation was used."||1.10|-0.90|
92333076|NCT03372382|184570266|EQUIVALENCE|We prespecified an equivalence margin of -10 to 10mm. We would consider non-opioid analgesia to be equivalent to opioid analgesia if the pain score mean difference between the groups and it's 95% confidence interval (CI) were within the prespecified margin. Pain score mean difference or 95% CI boundaries outside this range would be considered a clinically important difference between treatments|Mean Difference (Final Values)|4.8|||||TWO_SIDED|95.0|-2.1|11.9|||||The upper boundary of the CI is out of pre-specified limits.|Sample size calculations were based on VAS pain score at 2-4 weeks, assuming a mean of 10mm and standard deviation (SD) of 20 mm in the opioid group Assuming a two-sided alpha level of 0.05 and 80% power to detect equivalence, a total of 138 participants would be needed. To account for a 25% expected attrition rate and crossover, a total of 170 participants would be needed.||11.9|-2.1|
92333077|NCT01128400|184570268|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
92333078|NCT01128400|184570269|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
92333079|NCT05725824|184570277|SUPERIORITY||||||<|0.05|||||||Repeated Measure Analysis of Variance|||||||<0.05
92333080|NCT05725824|184570278|SUPERIORITY||||||<|0.05|||||||Repeated Measure Analysis of Variance|||||||<0.05
92333081|NCT05725824|184570279|SUPERIORITY||||||<|0.05||||||Arms/Groups were collapsed for RM-ANOVA to compare between various earmold types. A post-hoc paired t-test w/ Bonferroni correction was utilized to compare ear mold material types.|Repeated Measure Analysis of Variance|||||||<0.05
92333082|NCT05725824|184570280|SUPERIORITY||||||<|0.05|||||||Repeated Measure Analysis of Variance|||||||<0.05
92333083|NCT03782571|184570281|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|1.97|||TWO_SIDED|99.1|-4.0|7.4|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 1 - Control|Testing equivalence with respect to microsphere clearance rate.||7.4|-4.0|
92333084|NCT03782571|184570281|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|3.01|||TWO_SIDED|99.1|-4.0|13.4|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 2 - Control|Testing equivalence with respect to microsphere clearance rate.||13.4|-4.0|
92333085|NCT03782571|184570281|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|8.2|STANDARD_ERROR_OF_MEAN|3.78|||TWO_SIDED|99.1|-2.7|19.1|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Control|Testing equivalence with respect to microsphere clearance rate.||19.1|-2.7|
92333086|NCT03782571|184570281|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|6.5|STANDARD_ERROR_OF_MEAN|3.12|||TWO_SIDED|99.1|-2.6|15.5|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Test 1|Testing equivalence with respect to microsphere clearance rate.||15.5|-2.6|
92333087|NCT03782571|184570281|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|1.88|||TWO_SIDED|99.1|-2.0|8.9|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Test 2|Testing equivalence with respect to microsphere clearance rate.||8.9|-2.0|
92333088|NCT03782571|184570281|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|99.1|-4.3|10.3|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 2 - Test 1|Testing equivalence with respect to microsphere clearance rate.||10.3|-4.3|
92333089|NCT03782571|184570282|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|8.4|STANDARD_ERROR_OF_MEAN|3.24|||TWO_SIDED|99.1|-1.0|17.8|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 1 - Control|Testing equivalence with respect to microsphere uptake rate.||17.8|-1.0|
92333090|NCT03782571|184570282|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|4.95|||TWO_SIDED|99.1|-7.8|20.9|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 2 - Control|Testing equivalence with respect to microsphere uptake rate.||20.9|-7.8|
92333091|NCT03782571|184570282|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|6.22|||TWO_SIDED|99.1|-15.1|20.9|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Control|Testing equivalence with respect to microsphere uptake rate.||20.9|-15.1|
92333092|NCT03782571|184570282|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|5.13|||TWO_SIDED|99.1|-20.4|9.4|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Test 1|Testing equivalence with respect to microsphere uptake rate.||9.4|-20.4|
92333093|NCT03782571|184570282|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|99.1|-12.6|5.3|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Test 2|Testing equivalence with respect to microsphere uptake rate.||5.3|-12.6|
92333094|NCT03782571|184570282|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|4.18|||TWO_SIDED|99.1|-13.9|10.3|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 2 - Test 1|Testing equivalence with respect to microsphere uptake rate.||10.3|-13.9|
92333095|NCT01088711|184570295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|90.76|||||TWO_SIDED|90.0|82.7|99.37|||Difference in geometric means (GMs)|||||99.37|82.70|
92333096|NCT01088711|184570297|SUPERIORITY_OR_OTHER||Ratio of geometric least-squares means|1.92|||||TWO_SIDED|90.0|1.55|2.38|||||GMR is ratio of active GLP-1 levels in omarigliptin:placebo groups.|||2.38|1.55|
92333097|NCT01088711|184570298|SUPERIORITY_OR_OTHER||Ratio of geometric least-squares means|0.91|||||TWO_SIDED|90.0|0.72|1.17|||||GMR is ratio of total GLP-1 levels in omarigliptin:placebo groups.|||1.17|0.72|
92333098|NCT01240902|184570300|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier|26.0|STANDARD_ERROR_OF_MEAN|2.0|<|0.0001|TWO_SIDED|95.0|22.3|30.1|||z-test, 1 sided||Kaplan-Meier Event Rate Greenwood Standard Error|TAVR with the Medtronic CoreValve System meets the Performance Goal in the 12 month rate of all-cause mortality or major stroke H0: = πMCS TAVI ≥ 43.0% HA: = πMCS TAVI \< 43.0% In the above expressions πMCS TAVI denotes the rate of all-cause mortality or major stroke during a fixed follow-up of 1 year.||30.1|22.3|<0.0001
92333099|NCT01240902|184570300|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier|39.3|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED||||||||Kaplan-Meier Event Rate Greenwood Standard Error|No performance goal created, only descriptive statistics are provided.||||
92333100|NCT01240902|184570300|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The 12 month all-cause mortality estimated rate was 20% for each group with a noninferiority margin of 7.5 percentage points. Assuming a 1:1 ratio in the treatment assignments, we estimated that a total of 355 patients were required in each group for the study to have power of 80% at a one-sided alpha level of 0.05. Accounting for a 10% loss to follow-up, we calculated that we would need to enroll 790 patients.|||||<|0.0001|TWO_SIDED||||||z-test, 1 sided|||||||<0.0001
92333101|NCT01240902|184570301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1033|TWO_SIDED|||||Hierarchical test item #5, MACCE at 30 days or hospital discharge; whichever was longer. K-M rates TAVR 8.21%, SAVR 10.93%, Difference -2.73%, Standard Error 2.16%, and Upper 95% CI 1.5%.|Kaplan-Meier Point Estimate|Using Greenwood formula||"Powered Secondary Hypothesis: TAVR with the Medtronic CoreValve System was superior to SAVR in binary rate of MACCE at 30 days or hospital discharge, whichever was longer:~H0: πMCS TAVR = πSAVR HA: πMCS TAVR \< πSAVR In the above expression πMCS TAVR and πSAVR denoted rates of MACCE at 30 days or hospital discharge, whichever was longer.~Assumptions:~1:1 treatment allocation ratio One-sided alpha=0.025 SAVR = 20.0% MCS TAVI = 12.1% Power = \>80%"||||0.1033
92333102|NCT01240902|184570305|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.6|STANDARD_DEVIATION|0.9|<|0.0001|TWO_SIDED|||||Hierarchical test item #3, change from baseline to 1 year.|t-test, 2 sided|||Change in NYHA classification from baseline to 1 year from secondary objective #5. The paired t-test will be used to test the null hypothesis that the mean paired difference is zero versus the two-sided alternative that the mean is not zero.||||<0.0001
92333103|NCT01240902|184570305|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin= 0.375. For subjects with NYHA categories at both baseline and 1 year visit, the NYHA classification improvements were calculated as NYHAbaseline - NYHA1year.|||||<|0.0001|TWO_SIDED|||||Hierarchical test item #3, change from baseline to 1 year.|t-test, 1 sided|||"Change in NYHA classification from baseline to 1 year: TAVR vs. SAVR from secondary objective #5. The one-sided two-sample t-test was used to test non-inferiority at a level 0.05 the hypotheses:~H0: µ MCS TAVR ≤ µ SAVR -0.375 HA: µ MCS TAVR \> µ SAVR -0.375 In the above expression µ MCS TAVR and µ SAVR denoted the mean number of classification improvements in NYHA from baseline to 1 year."||||<0.0001
92333104|NCT01240902|184570308|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Hierarchical test item #4|t-test, 2 sided|||Change in Kansas City Cardiomyopathy Questionnaire (KCCQ) score from baseline to 1 year from secondary objective #8. The paired t-test will be used to test the null hypothesis that the mean paired difference is zero versus the two-sided alternative that the mean is not zero.||||<0.0001
92333105|NCT01240902|184570308|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin 5||||||0.0063|TWO_SIDED|||||Hierarchical test item #4|t-test, 1 sided|||"Change in Kansas City Cardiomyopathy Questionnaire (KCCQ) score from baseline to 1 year: TAVR vs. SAVR from secondary objective #8. The one-sided two-sample t-test was used to test non-inferiority at a level 0.05 the hypotheses:~H0: µ MCS TAVR ≤ µ SAVR -5 HA: µ MCS TAVR \> µ SAVR -5 In the above expression µ MCS TAVR and µ SAVR denoted the mean improvements in the KCCQ score from baseline to 1 year."||||0.0063
92333106|NCT01240902|184570308|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Hierarchical test item #6. Item #5 failed, therefore, item #6 also fails. Nominal p- value provided.|t-test, 2 sided|||"Change in SF-12 Physical Summary Scale from baseline to 30 days: TAVR vs. SAVR from secondary objective #8. The two-sided two-sample t-test was used to test at a level 0.05 the hypotheses:~H0: µ MCS TAVR = µ SAVR HA: µ MCS TAVR ≠ µ SAVR In the above expression µ MCS TAVR and µ SAVR denoted the mean improvements in the SF-12 Physical Summary Scale from baseline to 30 days."||||<0.0001
92333107|NCT01240902|184570309|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Hierarchical test item #2|t-test, 2 sided|||"EOA:~Change in effective orifice area from Baseline to 1 year from secondary objective #9. The paired t-test will be used to test the null hypothesis that the mean paired difference is zero versus the two-sided alternative that the mean is not zero."||||<0.0001
92333108|NCT01240902|184570309|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin 0.375|||||<|0.0001|TWO_SIDED|||||Hierarchical test item #2|t-test, 1 sided|||"EOA:~Change in effective orifice area from Baseline to 1 year: TAVR vs.SAVR from secondary objective #9. The one-sided two-sample t-test was used to test non-inferiority at a level 0.05 the hypotheses:~H0: µ MCS TAVR ≤ µ SAVR -0.375 HA: µ MCS TAVR \> µ SAVR -0.375 In the above expression µ MCS TAVR and µ SAVR denoted the mean improvements in effective orifice area from Baseline to 1 year measured in cm2."||||<0.0001
92333109|NCT01240902|184570310|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Hierarchical test item #1|t-test, 2 sided|||"Transvalvular Mean Gradient:~Change in transvalvular mean gradient from baseline to 1 year from secondary objective #9. The paired t-test will be used to test the null hypothesis that the mean paired difference is zero versus the two-sided alternative that the mean is not zero."||||<0.0001
92333110|NCT01240902|184570310|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin 15|||||<|0.0001|TWO_SIDED|||||Hierarchical test item #1|t-test, 1 sided|||"Transvalvular Mean Gradient:~Change in transvalvular mean gradient from baseline to 1 year: TAVR vs.SAVR from secondary objective #9. The one-sided two-sample t-test was used to test non-inferiority at a level of 0.05 the hypotheses: H0: μ MCS TAVR ≤ μ SAVR -15 HA: μ MCS TAVR \> μ SAVR -15 In the above expression μ MCS TAVR and μ SAVR denoted the mean improvements in mean gradient from Baseline to 1 year measured in mmHg."||||<0.0001
92333111|NCT03543176|184570324|OTHER|||||||0.448||||||P-value for low impact of COPD is presented|Fisher Exact|||||||0.448
92333112|NCT03543176|184570324|OTHER|||||||0.033||||||P-value for medium impact of COPD is presented|Fisher Exact|||||||0.033
92333113|NCT03543176|184570324|OTHER|||||||0.172||||||P-value for high impact of COPD is presented|Fisher Exact|||||||0.172
92333114|NCT03543176|184570324|OTHER|||||||0.01||||||P-value for very high impact of COPD is presented|Fisher Exact|||||||0.010
92333115|NCT03543176|184570325|OTHER|||||||0.176||||||P-value for breathlessness reported in COPD assessed using mMRC is presented|Fisher Exact|||||||0.176
92333116|NCT03543176|184570326|OTHER|||||||0.732||||||P-value for Baseline comorbidity burden score was calculated.|t-test, 2 sided|||||||0.732
92333117|NCT03543176|184570327|OTHER|||||||0.013||||||P-value for count of unique medications was calculated.|t-test, 2 sided|||||||0.013
92333118|NCT03543176|184570328|OTHER|||||||0.178||||||P-value for total number of medications dispensing was calculated.|t-test, 2 sided|||||||0.178
92333119|NCT03543176|184570334|OTHER|||||||0.692||||||P-value for count of unique COPD medications was calculated|t-test, 2 sided|||||||0.692
92333120|NCT03543176|184570335|OTHER||||||<|0.001||||||P-value for total number of COPD medications dispensing was calculated|t-test, 2 sided|||||||<0.001
92333121|NCT01267929|184570343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|2.14||0.34|TWO_SIDED|95.0|-2.3|6.5||Statistical analysis was conducted using STATA. Analysis of Covariance (ANCOVA) was used to compare mean score of GMFM at the second month between two groups.|ANCOVA|||A sample size of 30 children, 15 for each group, was needed to obtain 80% power at 0.05 level of significance (two-sided) to test that the successful event rate (increasing GMFM scores at least 30% from baseline at the end of 2 months) in experimental group and control group of 0.3 and 0.8 respectively. The mean changes of GMFM total scores in the experimental group at the second month compared to those in the control group after adjusted for the baseline level.||6.5|-2.3|0.34
92333122|NCT01267929|184570343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|2.7||0.78|TWO_SIDED|95.0|-6.3|4.7||Statistical analysis was conducted using STATA. Analysis of Covariance (ANCOVA) was used to compare mean score of GMFM at the sixth month between two groups.|ANCOVA|||A sample size of 30 children, 15 for each group, was needed to obtain 80% power at 0.05 level of significance (two-sided) to test that the successful event rate (increasing GMFM scores at least 30% from baseline at the end of 2 months) in experimental group and control group of 0.3 and 0.8 respectively. The mean changes of GMFM total scores in the experimental group at the sixth month compared to those in the control group after adjusted for the baseline level.||4.7|-6.3|0.78
92333123|NCT01796301|184570353|SUPERIORITY|A two-step, step-down, fixed-sequential testing procedure was used to test the primary and key secondary efficacy endpoints for the comparison of romosozumab to teriparatide in the order presented for multiplicity adjustment to maintain the overall significance level at 0.05. The Key Secondary Efficacy Endpoints are the first 8 secondary endpoints reported below.|Treatment difference|3.2|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.7|3.8|||Linear mixed effects repeated measures|||The primary analysis to assess the treatment difference (Romosozumab - Teriparatide) employed a linear mixed effects model for repeated measures. The model included main effects for treatment group, visit (categorical), baseline sCTX, baseline hip DXA BMD value, machine type (categorical), and machine type-by-baseline value interaction (to adjust for the effect of machine type on baseline DXA BMD value) as fixed main effects using an unstructured within-subject variance-covariance structure.||3.8|2.7|< 0.0001
92333124|NCT01796301|184570354|SUPERIORITY||Treatment difference|3.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.5|3.7|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||3.7|2.5|< 0.0001
92333125|NCT01796301|184570355|SUPERIORITY||Treatment difference|3.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.8|4.0|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||4.0|2.8|< 0.0001
92333126|NCT01796301|184570356|SUPERIORITY||Treatment difference|3.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.8|4.0|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||4.0|2.8|< 0.0001
92333127|NCT01796301|184570357|SUPERIORITY||Treatment difference|4.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|3.9|5.3|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||5.3|3.9|< 0.0001
92333128|NCT01796301|184570358|SUPERIORITY||Treatment difference|3.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.5|3.6|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||3.6|2.5|< 0.0001
92333129|NCT01796301|184570359|SUPERIORITY||Treatment difference|3.6|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.9|4.2|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||4.2|2.9|< 0.0001
92333130|NCT01796301|184570360|SUPERIORITY||Treatment difference|3.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.4|3.8|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||3.8|2.4|< 0.0001
92333131|NCT01796301|184570361|SUPERIORITY||Treatment difference|3.2|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|2.1|4.3|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||4.3|2.1|< 0.0001
92333132|NCT01796301|184570362|SUPERIORITY||Treatment difference|3.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.6|3.6|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||3.6|2.6|< 0.0001
92333133|NCT01796301|184570363|SUPERIORITY||Treatment difference|3.6|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.9|4.2|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||4.2|2.9|< 0.0001
92333134|NCT01796301|184570364|SUPERIORITY||Treatment difference|3.2|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.5|3.9|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||3.9|2.5|< 0.0001
92333135|NCT01796301|184570365|SUPERIORITY||Treatment difference|3.4|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.6|4.2|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||4.2|2.6|< 0.0001
92333136|NCT01796301|184570366|SUPERIORITY||Treatment difference|3.8|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.9|4.6|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||4.6|2.9|< 0.0001
92333137|NCT01796301|184570367|SUPERIORITY||Treatment difference|4.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|3.4|5.4|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||5.4|3.4|< 0.0001
92333138|NCT01884545|184570379|SUPERIORITY|||||||0.1073|||||||Regression, Linear|||||||0.1073
92333139|NCT01884545|184570379|SUPERIORITY|||||||0.0615|||||||Regression, Linear|||||||0.0615
92333140|NCT01884545|184570380|SUPERIORITY|||||||0.6732|||||||Regression, Linear|||||||0.6732
92333141|NCT01884545|184570380|SUPERIORITY|||||||0.3754|||||||Regression, Linear|||||||0.3754
92333142|NCT01884545|184570381|SUPERIORITY||Odds Ratio (OR)|2.853||||0.0073|TWO_SIDED|95.0|1.326|6.139|||Regression, Logistic|||||6.139|1.326|0.0073
92333143|NCT01884545|184570381|SUPERIORITY||Odds Ratio (OR)|1.045||||0.9068|TWO_SIDED|95.0|0.5|2.183|||Regression, Logistic|||||2.183|0.5|0.9068
92333144|NCT01884545|184570382|SUPERIORITY||Odds Ratio (OR)|1.333||||0.7822|TWO_SIDED|95.0|0.173|10.254|||Regression, Logistic|||||10.254|0.173|0.7822
92333145|NCT01884545|184570382|SUPERIORITY||Odds Ratio (OR)|1.333||||0.7822|TWO_SIDED|95.0|0.173|10.254|||Regression, Logistic|||||10.254|0.173|0.7822
92333146|NCT01884545|184570383|SUPERIORITY|||||||0.7985|||||||Regression, Linear|||||||0.7985
92333147|NCT01884545|184570383|SUPERIORITY|||||||0.1642|||||||Regression, Linear|||||||0.1642
92333148|NCT01884545|184570384|SUPERIORITY|||||||0.8027|||||||Regression, Linear|||||||0.8027
92333149|NCT01884545|184570384|SUPERIORITY|||||||0.7751|||||||Regression, Linear|||||||0.7751
92333150|NCT01884545|184570385|SUPERIORITY|||||||0.5557|||||||Regression, Linear|||||||0.5557
92333151|NCT01884545|184570385|SUPERIORITY|||||||0.7834|||||||Regression, Linear|||||||0.7834
92333152|NCT01884545|184570386|SUPERIORITY|||||||0.1439|||||||Regression, Linear|||||||0.1439
92333153|NCT01884545|184570386|SUPERIORITY|||||||0.2275|||||||Regression, Linear|||||||0.2275
92333154|NCT01884545|184570387|SUPERIORITY|||||||0.7639|||||||Regression, Linear|||||||0.7639
92333155|NCT01884545|184570387|SUPERIORITY|||||||0.9999|||||||Regression, Linear|||||||0.9999
92333156|NCT01884545|184570388|SUPERIORITY|||||||0.4673|||||||Regression, Linear|||||||0.4673
92333157|NCT01884545|184570388|SUPERIORITY|||||||0.2297|||||||Regression, Linear|||||||0.2297
92333158|NCT01884545|184570389|SUPERIORITY|||||||0.2192|||||||Regression, Linear|||||||0.2192
92333159|NCT01884545|184570389|SUPERIORITY|||||||0.9062|||||||Regression, Linear|||||||0.9062
92333160|NCT01884545|184570390|SUPERIORITY|||||||0.1466|||||||Regression, Linear|||||||0.1466
92333161|NCT01884545|184570390|SUPERIORITY|||||||0.207|||||||Regression, Linear|||||||0.2070
92333162|NCT01884545|184570391|SUPERIORITY|||||||0.6289|||||||Regression, Linear|||||||0.6289
92333163|NCT01884545|184570391|SUPERIORITY|||||||0.9631|||||||Regression, Linear|||||||0.9631
92333164|NCT01884545|184570392|SUPERIORITY|||||||0.2313|||||||Regression, Linear|||||||0.2313
92333165|NCT01884545|184570392|SUPERIORITY|||||||0.8029|||||||Regression, Linear|||||||0.8029
92333166|NCT01884545|184570393|SUPERIORITY|||||||0.071|||||||Regression, Linear|||||||0.0710
92333167|NCT01884545|184570393|SUPERIORITY|||||||0.8069|||||||Regression, Linear|||||||0.8069
92333168|NCT01884545|184570394|SUPERIORITY|||||||0.0512|||||||Chi-squared|||||||0.0512
92333169|NCT01884545|184570394|SUPERIORITY|||||||0.4478|||||||Chi-squared|||||||0.4478
92333170|NCT01884545|184570397|SUPERIORITY|||||||0.7923|||||||Regression, Linear|||Perceived Risk for CHD, Consequences subscale||||0.7923
92333171|NCT01884545|184570397|SUPERIORITY|||||||0.0636|||||||Regression, Linear|||Perceived Risk for CHD, Personal control||||0.0636
92333172|NCT01884545|184570397|SUPERIORITY|||||||0.2063|||||||Regression, Linear|||Perceived Risk for CHD, Treatment control||||0.2063
92333173|NCT01884545|184570397|SUPERIORITY|||||||0.2529|||||||Regression, Linear|||Perceived Risk for CHD, Emotional representations||||0.2529
92333174|NCT01884545|184570397|SUPERIORITY|||||||0.1085|||||||Regression, Linear|||Perceived Risk for coronary heart disease (CHD), Consequences subscale||||0.1085
92333175|NCT01884545|184570397|SUPERIORITY|||||||0.337|||||||Regression, Linear|||Perceived Risk for coronary heart disease (CHD), personal control subscale||||0.3370
92333176|NCT01884545|184570397|SUPERIORITY|||||||0.3483|||||||Regression, Linear|||Perceived Risk for coronary heart disease (CHD), treatment control subscale||||0.3483
92333177|NCT01884545|184570397|SUPERIORITY|||||||0.5384|||||||Regression, Linear|||Perceived Risk for coronary heart disease (CHD), emotional representations||||0.5384
92333178|NCT01884545|184570398|SUPERIORITY|||||||0.7447|||||||Regression, Linear|||Perceived Risk for T2D, Consequences subscale||||0.7447
92333179|NCT01884545|184570398|SUPERIORITY|||||||0.6378|||||||Regression, Linear|||Perceived Risk for T2D, Personal control||||0.6378
92333180|NCT01884545|184570398|SUPERIORITY|||||||0.3209|||||||Regression, Linear|||Perceived Risk for T2D, Treatment control||||0.3209
92333181|NCT01884545|184570398|SUPERIORITY|||||||0.0058|||||||Regression, Linear|||Perceived Risk for T2D, Emotional representations||||0.0058
92333182|NCT01884545|184570398|SUPERIORITY|||||||0.3769|||||||Regression, Linear|||Perceived Risk for type 2 diabetes (T2D), Consequences subscale||||0.3769
92333183|NCT01884545|184570398|SUPERIORITY|||||||0.0872|||||||Regression, Linear|||Perceived Risk for type 2 diabetes (T2D), personal control||||0.0872
92333184|NCT01884545|184570398|SUPERIORITY|||||||0.4302|||||||Regression, Linear|||Perceived Risk for type 2 diabetes (T2D), treatment control||||0.4302
92333185|NCT01884545|184570398|SUPERIORITY|||||||0.4133|||||||Regression, Linear|||Perceived Risk for type 2 diabetes (T2D), emotional representations||||0.4133
92333186|NCT01884545|184570399|SUPERIORITY|||||||0.3106|||||||Regression, Linear|||||||0.3106
92333187|NCT01884545|184570399|SUPERIORITY|||||||0.7087|||||||Regression, Linear|||||||0.7087
92333188|NCT01884545|184570400|SUPERIORITY||Odds Ratio (OR)|1.034||||0.9259|TWO_SIDED|95.0|0.511|2.094|||Regression, Logistic|||Stages of Change, Weight reduction||2.094|0.511|0.9259
92333189|NCT01884545|184570400|SUPERIORITY||Odds Ratio (OR)|2.252||||0.0082|TWO_SIDED|95.0|1.234|4.111|||Regression, Logistic|||Stages of Change, Exercise behavior||4.111|1.234|0.0082
92333190|NCT01884545|184570400|SUPERIORITY||Odds Ratio (OR)|0.423||||0.2954|TWO_SIDED|95.0|0.084|2.12|||Regression, Logistic|||Stages of Change, Smoking behavior||2.120|0.084|0.2954
92333191|NCT01884545|184570400|SUPERIORITY||Odds Ratio (OR)|1.216||||0.5669|TWO_SIDED|95.0|0.622|2.376|||Regression, Logistic|||Stages of Change, Healthier eating behavior||2.376|0.622|0.5669
92333192|NCT01884545|184570400|SUPERIORITY||Odds Ratio (OR)|0.622||||0.121|TWO_SIDED|95.0|0.341|1.134|||Regression, Logistic|||Stages of Change, Stress behavior||1.134|0.341|0.1210
92333193|NCT01884545|184570400|SUPERIORITY||Odds Ratio (OR)|0.928||||0.8355|TWO_SIDED|95.0|0.461|1.872|||Regression, Logistic|||Weight reduction||1.872|0.461|0.8355
92333194|NCT01884545|184570400|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0459|TWO_SIDED|95.0|1.011|3.311|||Regression, Logistic|||Exercise behavior||3.311|1.011|0.0459
92333195|NCT01884545|184570400|SUPERIORITY||Odds Ratio (OR)|0.563||||0.465|TWO_SIDED|95.0|0.121|2.629|||Regression, Logistic|||Smoking behavior||2.629|0.121|0.4650
92333196|NCT01884545|184570400|SUPERIORITY||Odds Ratio (OR)|0.93||||0.8303|TWO_SIDED|95.0|0.478|1.808|||Regression, Logistic|||Healthier eating behavior||1.808|0.478|0.8303
92333197|NCT01884545|184570400|SUPERIORITY||Odds Ratio (OR)|1.347||||0.3254|TWO_SIDED|95.0|0.744|2.439|||Regression, Logistic|||Stress behavior||2.439|0.744|0.3254
92333198|NCT01884545|184570401|SUPERIORITY|||||||0.0174|||||||Regression, Linear|||||||0.0174
92333199|NCT01884545|184570401|SUPERIORITY|||||||0.8694|||||||Regression, Linear|||||||0.8694
92333200|NCT01884545|184570402|SUPERIORITY|||||||0.4768|||||||Regression, Linear|||||||0.4768
92333201|NCT01884545|184570402|SUPERIORITY|||||||0.8452|||||||Regression, Linear|||||||0.8452
92333202|NCT01884545|184570403|SUPERIORITY||Odds Ratio (OR)|1.591||||0.5589|TWO_SIDED|95.0|0.335|7.544|||Regression, Logistic|||||7.544|0.335|0.5589
92333203|NCT01410240|184570404|SUPERIORITY_OR_OTHER|||||||0.453|||||||one-sided, two-sample t-test|||||||0.453
92333204|NCT01410240|184570405|SUPERIORITY_OR_OTHER|||||||0.708|||||||one-sided, two-sample t-test|||||||0.708
92333205|NCT01410240|184570406|SUPERIORITY_OR_OTHER|||||||0.527|||||||one-sided, two-sample t-test|||||||0.527
92333206|NCT01410240|184570407|SUPERIORITY_OR_OTHER|||||||0.561|||||||one-sided Wilcoxon rank sum test|||||||0.561
92333207|NCT01410240|184570408|SUPERIORITY_OR_OTHER|||||||0.356|||||||one-sided Wilcoxon rank sum test|||||||0.356
92333208|NCT01410240|184570409|SUPERIORITY_OR_OTHER|||||||0.533|||||||one-sided Wilcoxon rank sum test|||||||0.533
92333209|NCT01410240|184570410|SUPERIORITY_OR_OTHER|||||||0.734|||||||two-sided Wilcoxon rank sum test|||||||0.734
92333210|NCT01410240|184570413|SUPERIORITY_OR_OTHER|||||||0.314|||||||two-sided Wilcoxon rank sum test|||||||0.314
92333211|NCT01410240|184570414|SUPERIORITY_OR_OTHER|||||||0.063|||||||two-sided Wilcoxon rank sum test|||||||0.063
92333212|NCT01410240|184570417|SUPERIORITY_OR_OTHER|||||||0.058|||||||two-sided Wilcoxon rank sum test|||||||0.058
92333213|NCT01410240|184570418|SUPERIORITY_OR_OTHER|||||||0.421|||||||two-sided Wilcoxon rank sum test|||||||0.421
92333214|NCT01410240|184570419|SUPERIORITY_OR_OTHER|||||||0.161|||||||two-sided Wilcoxon rank sum test|||||||0.161
92333215|NCT01410240|184570420|SUPERIORITY_OR_OTHER|||||||0.016|||||||two-sided Wilcoxon rank sum test|||||||0.016
92333216|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.534|||||||two-sided Wilcoxon rank sum test|||Change Day 3: Pain||||0.534
92333217|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.269|||||||two-sided Wilcoxon rank sum test|||Change Day 3: Stiffness||||0.269
92333218|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.693|||||||two-sided Wilcoxon rank sum test|||Change Day 3: Physical Functioning||||0.693
92333219|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.343|||||||two-sided Wilcoxon rank sum test|||Change Day 3: Average Score||||0.343
92333220|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.343|||||||two-sided Wilcoxon rank sum test|||Change Day 3: Total Score||||0.343
92333221|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.978|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Pain||||0.978
92333222|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.709|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Stiffness||||0.709
92333223|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.594|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Physical Functioning||||0.594
92333224|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.501|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Average Score||||0.501
92333225|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.501|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Total Score||||0.501
92333226|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.171|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Pain||||0.171
92333227|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.077|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Stiffness||||0.077
92333228|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.026|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Physical Functioning||||0.026
92333229|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.012|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Average Score||||0.012
92333230|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.012|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Total Score||||0.012
92333231|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.126|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Pain||||0.126
92333232|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.044|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Stiffness||||0.044
92333233|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.153||||||Change Week 6: Physical Functioning|two-sided Wilcoxon rank sum test|||||||0.153
92333234|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.134|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Average Score||||0.134
92333235|NCT01410240|184570422|SUPERIORITY_OR_OTHER|||||||0.134|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Total Score||||0.134
92333236|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.962|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Physical Functioning||||0.962
92333237|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.714|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Role-Physical||||0.714
92333238|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.668|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Bodily Pain||||0.668
92333239|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.556|||||||two-sided Wilcoxon rank sum test|||Change Week 1: General Health||||0.556
92333240|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.705|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Vitality||||0.705
92333241|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.122|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Social Functioning||||0.122
92333242|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.254|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Role-Emotional||||0.254
92333243|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.5|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Mental Health||||0.500
92333244|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.849|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Physical Component Summary||||0.849
92333245|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.959|||||||Wilcoxon (Mann-Whitney)|||Change Week 1: Mental Component Summary||||0.959
92333246|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.574|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Physical Functioning||||0.574
92333247|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.524|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Role-Physical||||0.524
92333248|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.049|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Bodily Pain||||0.049
92333249|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.447|||||||two-sided Wilcoxon rank sum test|||Change Week 2: General Health||||0.447
92333250|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.823|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Vitality||||0.823
92333251|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.661|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Social Functioning||||0.661
92333252|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.086|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Role-Emotional||||0.086
92333253|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.635|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Mental Health||||0.635
92333254|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.481|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Physical Component Summary||||0.481
92333255|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.14|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Mental Component Summary||||0.140
92333256|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.107|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Physical Functioning||||0.107
92333257|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.298|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Role-Physical||||0.298
92333258|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.071|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Bodily Pain||||0.071
92333259|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.94|||||||two-sided Wilcoxon rank sum test|||Change Week 6: General Health||||0.940
92333260|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.293|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Vitality||||0.293
92333261|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.265|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Social Functioning||||0.265
92333262|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.036|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Role-Emotional||||0.036
92333263|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.307|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Mental Health||||0.307
92333264|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.448|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Physical Component Summary||||0.448
92333265|NCT01410240|184570424|SUPERIORITY_OR_OTHER|||||||0.255|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Mental Component Summary||||0.255
92333266|NCT01410240|184570426|SUPERIORITY_OR_OTHER|||||||0.052|||||||two-sided Wilcoxon rank sum test|||||||0.052
92333267|NCT02488018|184570441|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|99.0|||||ANOVA|Degree of freedom for the model (treatment) was 8.||Hypothesis Ho: Honey plant origin does not affects the glycemic index of human subjects. Ha: Honey plant origin affects the glycemic index of human subjects.||||<0.01
92333268|NCT00592592|184570455|OTHER||Cumulative incidence|10.9|||||TWO_SIDED|95.0|5.7|18.0||||||||18.0|5.7|
92333269|NCT00592592|184570457|OTHER||% hypothalamus normal tissue spared|88.0|||<|0.01|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||<0.01
92333270|NCT00592592|184570457|OTHER||% pituitary normal tissue spared|73.0|||<|0.01|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||<0.01
92333271|NCT00592592|184570457|OTHER||% lens (contra) normal tissue spared|100.0|||<|0.01|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||<0.01
92333272|NCT00592592|184570457|OTHER||% maxilla normal tissue spared|42.0||||0.02|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.02
92333273|NCT00592592|184570458|OTHER||Percent Survival, Local Control|80.9|||||TWO_SIDED|95.0|73.0|87.7||||||||87.7|73.0|
92333274|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.055|||||TWO_SIDED|95.0|-0.067|0.178||||||Dengue Virus Serotype 1: Phase III Lot 1 vs Lot 2||0.178|-0.067|
92333275|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.024|||||TWO_SIDED|95.0|-0.102|0.151||||||Dengue Virus Serotype 1: Phase III Lot 2 vs Lot 3||0.151|-0.102|
92333276|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.08|||||TWO_SIDED|95.0|-0.204|0.045||||||Dengue Virus Serotype 1: Phase III Lot 3 vs Lot 1||0.045|-0.204|
92333277|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.174|||||TWO_SIDED|95.0|0.009|0.34||||||Dengue Virus Serotype 2: Phase III Lot 1 vs Lot 2||0.340|0.009|
92333278|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.12|||||TWO_SIDED|95.0|-0.297|0.056||||||Dengue Virus Serotype 2: Phase III Lot 2 vs Lot 3||0.056|-0.297|
92333279|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.054|||||TWO_SIDED|95.0|-0.225|0.117||||||Dengue Virus Serotype 2: Phase III Lot 3 vs Lot 1||0.117|-0.225|
92333280|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.058|||||TWO_SIDED|95.0|-0.068|0.184||||||Dengue Virus Serotype 3: Phase III Lot 1 vs Lot 2||0.184|-0.068|
92333281|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.042|||||TWO_SIDED|95.0|-0.167|0.082||||||Dengue Virus Serotype 3: Phase III Lot 2 vs Lot 3||0.082|-0.167|
92333282|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.016|||||TWO_SIDED|95.0|-0.144|0.113||||||Dengue Virus Serotype 3: Phase III Lot 3 vs Lot 1||0.113|-0.144|
92333283|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.144|||||TWO_SIDED|95.0|-0.006|0.295||||||Dengue Virus Serotype 4: Phase III Lot 1 vs Lot 2||0.295|-0.006|
92333284|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.06|||||TWO_SIDED|95.0|-0.207|0.088||||||Dengue Virus Serotype 4: Phase III Lot 2 vs Lot 3||0.088|-0.207|
92333285|NCT01134263|184570459|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.085|||||TWO_SIDED|95.0|-0.242|0.073||||||Dengue Virus Serotype 4: Phase III Lot 3 vs Lot 1||0.073|-0.242|
92333286|NCT01134263|184570460|EQUIVALENCE|Equivalence between the pooled Phase III and Phase II was demonstrated if, for each serotype the lower limit of the 95%CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.091|||||TWO_SIDED|95.0|-0.009|0.192||||||Dengue Virus Serotype 1||0.192|-0.009|
92333287|NCT01134263|184570460|EQUIVALENCE|Equivalence between the pooled Phase III and Phase II was demonstrated if, for each serotype the lower limit of the 95%CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.334|||||TWO_SIDED|95.0|0.202|0.466||||||Dengue Virus Serotype 2||0.466|0.202|
92333288|NCT01134263|184570460|EQUIVALENCE|Equivalence between the pooled Phase III and Phase II was demonstrated if, for each serotype the lower limit of the 95%CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.076|||||TWO_SIDED|95.0|-0.173|0.021||||||Dengue Virus Serotype 3||0.021|-0.173|
92333289|NCT01134263|184570460|EQUIVALENCE|Equivalence between the pooled Phase III and Phase II was demonstrated if, for each serotype the lower limit of the 95%CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.017|||||TWO_SIDED|95.0|-0.137|0.103||||||Dengue Virus Serotype 4||0.103|-0.137|
92333290|NCT00548249|184570493|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.0||||0.999|TWO_SIDED|95.0|0.3|3.32||p-value not adjusted for multiple comparisons|Log Rank|||Hazard ratio with 95% confidence intervals comparing each SFP treatment group to placebo, and p-value from cox proportional hazards model||3.32|0.30|0.999
92333291|NCT00548249|184570493|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.17||||0.807|TWO_SIDED|95.0|0.33|4.09|||Log Rank|||||4.09|0.33|0.807
92333292|NCT00548249|184570493|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.8||||0.748|TWO_SIDED|95.0|0.21|3.02|||Log Rank|||||3.02|0.21|0.748
92333293|NCT00548249|184570493|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.77||||0.299|TWO_SIDED|95.0|0.6|5.19|||Log Rank|||||5.19|0.60|0.299
92333294|NCT00548249|184570494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.234||95.0||||Threshold for statistical significance p \< 0.05|ANOVA|||Each dose was compared to placebo using an ANOVA model with treatment as the effect.||||0.234
92333295|NCT00548249|184570494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049||95.0||||Threshold for statistical significance p \< 0.05|ANOVA|||Each dose was compared to placebo using an ANOVA model with treatment as the effect||||0.049
92333296|NCT00548249|184570494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.375||95.0||||Threshold for statistical significance p \< 0.05|ANOVA|||Each dose was compared to placebo using an ANOVA model with treatment as the effect||||0.375
92333297|NCT00548249|184570494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.625||95.0||||Threshold for statistical significance p \< 0.05|ANOVA|||Each dose was compared to placebo using an ANOVA model with treatment as the effect||||0.625
92333298|NCT02259699|184570508|SUPERIORITY|||||||0.582|||||||t-test, 2 sided|||Difference between arms at T1||||0.582
92333299|NCT02259699|184570508|SUPERIORITY|||||||0.053|||||||t-test, 2 sided|||Difference between arms at T3||||0.053
92333300|NCT02259699|184570508|SUPERIORITY|||||||0.288|||||||t-test, 2 sided|||Difference between arms at T4||||0.288
92333301|NCT02259699|184570509|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||Difference between arms at T3||||0.087
92333302|NCT02259699|184570509|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|||Difference between arms at T4||||0.910
92333303|NCT02259699|184570510|SUPERIORITY|||||||0.807|||||||t-test, 2 sided|||||||0.807
92333304|NCT02259699|184570511|SUPERIORITY|||||||0.071|||||||t-test, 2 sided|||Difference between arms at T3||||0.071
92333305|NCT02259699|184570511|SUPERIORITY|||||||0.332|||||||t-test, 2 sided|||Difference between arms at T4||||0.332
92333306|NCT02259699|184570512|SUPERIORITY|||||||0.177|||||||t-test, 2 sided|||Difference between arms at T3||||0.177
92333307|NCT02259699|184570512|SUPERIORITY|||||||0.745|||||||t-test, 2 sided|||Difference between arms at T4||||0.745
92333308|NCT04475718|184570531|OTHER|Preliminary Efficacy|||||<|0.001|||||||t-test, 2 sided|||||||<.001
92333309|NCT02670382|184570549|SUPERIORITY||mean values, log transformed|||||0.33|||||||Mixed Models Analysis|||||||0.33
92333310|NCT02670382|184570549|SUPERIORITY||mean difference, log transformed values|||||0.92|||||||Mixed Models Analysis|||||||0.92
92333311|NCT02670382|184570549|SUPERIORITY||mean difference, log transformed values|||||0.44|||||||Mixed Models Analysis|||||||0.44
92333312|NCT02670382|184570550|SUPERIORITY||mean difference, log transformed values|||||0.34|||||||Mixed Models Analysis|||||||0.34
92333313|NCT02670382|184570550|SUPERIORITY||mean difference, log transformed values|||||0.5|||||||Mixed Models Analysis|||||||0.50
92333314|NCT02670382|184570550|SUPERIORITY||mean differences, log transformed values|||||0.83|||||||Mixed Models Analysis|||||||0.83
92333315|NCT02670382|184570551|EQUIVALENCE|primary hypothesis is that EPA will not differ from placebo|mean differences|||||0.1|||||||Mixed Models Analysis|||||||0.10
92333316|NCT02670382|184570551|SUPERIORITY||mean difference|||||0.005|||||||Mixed Models Analysis|||||||0.005
92333317|NCT02670382|184570551|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||||||0.17
92333318|NCT03244618|184570552|SUPERIORITY||Mean Difference (Final Values)|-0.544|||<|0.001|TWO_SIDED|95.0|-0.712|-0.377|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first named toothpaste minus second named toothpaste such that a negative difference favours first named toothpaste.|||-0.377|-0.712|<0.001
92333319|NCT03244618|184570553|SUPERIORITY||Mean Difference (Final Values)|10.8|||<|0.001|TWO_SIDED|95.0|7.5|14.0|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first names toothpaste minus second named toothpaste such that a positive difference favours the first named toothpaste.|||14.0|7.5|<0.001
92333320|NCT03244618|184570554|SUPERIORITY||Mean Difference (Final Values)|-11.0|||<|0.001|TWO_SIDED|95.0|-16.4|-5.5|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first named toothpaste minus second named toothpaste such that a negative difference favours the first named toothpaste.|||-5.5|-16.4|<0.001
92333321|NCT03244618|184570555|SUPERIORITY||Mean Difference (Final Values)|-0.67|||<|0.001|TWO_SIDED|95.0|-0.85|-0.489|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first named toothpaste minus second named toothpaste such that a negative value favours the first named toothpaste.|||-0.489|-0.850|<0.001
92333322|NCT03244618|184570556|SUPERIORITY||Mean Difference (Final Values)|11.9|||<|0.001|TWO_SIDED|95.0|8.6|15.1|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first named toothpaste minus second named toothpaste such that a positive difference favours first named toothpaste|||15.1|8.6|<0.001
92333323|NCT03244618|184570557|SUPERIORITY||Mean Difference (Final Values)|-10.9|||<|0.001|TWO_SIDED|95.0|-16.6|-5.2|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first named toothpaste minus second named toothpaste such that a negative difference favours the first named toothpaste.|||-5.2|-16.6|<0.001
92333324|NCT00435019|184570631|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis for the non-inferiority test was that the mean HbA1c with insulin detemir was greater than or equal to the mean HbA1c with NPH insulin plus 0.4%. A sample size of 344 subjects, in total, with a drop-out rate of 20 percent would yield 274 subjects for evaluation of HbA1c. This would give 85 percent power to detect a difference in means of HbA1c of 0.4 percentage points assuming that the standard deviation was 1.1 using a two-sided t-test with a 0.05 significance level.|Mean Difference (Final Values)|0.12||||||95.0|-0.12|0.36|||ANCOVA|||||0.36|-0.12|
92333325|NCT01907217|184570653|NON_INFERIORITY_OR_EQUIVALENCE|"The prespecified noninferiority margin was no more than a -4 point difference at the end of treatment between the bilateral and unilateral groups.~The predicted difference at the end of treatment was 1.08 (95% confidence interval \[CI\] = -1.67 to 3.84."|Mean Difference (Final Values)|1.08|||<|0.05|TWO_SIDED|95.0|-1.67|3.84||Primary statistical analysis was assessment of difference in HAM-D scores between arms at end-of-treatment, supplemented by 95% CIs and this interval compared with the pre-specified noninferiority threshold (-4 points). The p-value was calculated.|Regression, Linear|A regression model was fitted to end-of-treatment HAM-D measures, with baseline HAM-D scores, trial arm, randomization stratifiers as covariates.|The prespecified noninferiority margin was no more than a -4-point difference at the end of treatment between bitemporal and unilateral groups. The predicted difference at the end of treatment was 1.08 (95% confidence interval \[CI\]=-1.67 to 3.84).|Based on a large bitemporal ECT series, we estimated that 69 patients were required per group to have 80% power to demonstrate, using a one-sided equivalence t test at 5% level, that the mean reduction in the 24-item HAM-D score following high-dose unilateral ECT was no more than 4 points (i.e., equivalent to 3 points on the 17-item HAM-D, deemed to be clinically relevant \[30\]) less than that achieved using bitemporal ECT.||3.84|-1.67|<0.05
92333326|NCT01907217|184570654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.001|TWO_SIDED|95.0|0.51|0.85||As above|generalized linear models with a binomia|||"The AMI-SF at end of treatment was analyzed using generalized linear models with a binomial distribution and logit-link. Post treatment AMI-SF measures provide the number of baseline items recalled after ECT; such number of items recalled variables were therefore modeled as arising from binomial distributions, with maximum number of possible recalls set to the number of items obtained at baseline."||0.85|0.51|0.001
92333327|NCT01907217|184570655|SUPERIORITY||Odds Ratio (OR)|0.59||||0.001|TWO_SIDED|95.0|0.45|0.78|||Regression, Linear|Analyzed using a generalized linear models with a binomial distribution and logit-link.||||0.78|0.45|0.001
92333328|NCT01907217|184570656|SUPERIORITY||Odds Ratio (OR)|0.59||||0.001|TWO_SIDED|95.0|0.45|0.79|||Regression, Linear|generalized linear models with a binomial distribution and logit-link||||0.79|0.45|0.001
92333329|NCT01180049|184570668|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.731|||||TWO_SIDED|80.0|0.52|1.027||||||||1.027|0.520|
92333330|NCT01180049|184570669|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.778|||||TWO_SIDED|80.0|0.568|1.064||||||||1.064|0.568|
92333331|NCT01180049|184570670|SUPERIORITY_OR_OTHER||Difference in arms|6.7|||||TWO_SIDED|80.0|-6.9|20.3||||||Independent assessment- Difference (%) TEMSR 175/75 mg - TEMSR 75 mg (80% CI)||20.3|-6.9|
92333332|NCT01180049|184570671|SUPERIORITY_OR_OTHER||Difference between arms|13.3|||||TWO_SIDED|80.0|-0.4|26.7||||||Investigator's assessment- Difference (%)TEMSR 175/75 mg - TEMSR 75 mg (80% CI)||26.7|-0.4|
92333333|NCT01180049|184570672|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.646|||||TWO_SIDED|80.0|0.453|0.922||||||||0.922|0.453|
92333334|NCT03441685|184570782|OTHER|Accuracy identifying taught verbs in syntactic vs semantic condition (receptive)||||||0.73||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.73
92333335|NCT03441685|184570782|OTHER|Accuracy identifying taught verbs in syntactic vs semantic condition (receptive)||||||0.69||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.69
92333336|NCT03441685|184570782|OTHER|Accuracy identifying taught verbs in syntactic vs semantic condition (receptive)||||||0.79||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.79
92333337|NCT03441685|184570782|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.002||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.002
92333338|NCT03441685|184570782|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.049||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.049
92333339|NCT03441685|184570782|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.016||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.016
92333340|NCT03441685|184570783|OTHER|Accuracy identifying taught verbs in semantic vs combined condition (receptive)||||||0.76||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.76
92333341|NCT03441685|184570783|OTHER|Accuracy identifying taught verbs in semantic vs combined condition (receptive)||||||0.79||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.79
92333342|NCT03441685|184570783|OTHER|Accuracy identifying taught verbs in semantic vs combined condition (receptive)||||||1||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||1.00
92333343|NCT03441685|184570783|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.003||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.003
92333344|NCT03441685|184570783|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.029||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.029
92333345|NCT03441685|184570783|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.027||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.027
92333346|NCT03441685|184570784|OTHER|Accuracy identifying taught verbs in syntactic vs combined condition (receptive)||||||0.72||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.72
92333347|NCT03441685|184570784|OTHER|Accuracy identifying taught verbs in syntactic vs combined condition (receptive)||||||0.46||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.46
92333348|NCT03441685|184570784|OTHER|Accuracy identifying taught verbs in syntactic vs combined condition (receptive)||||||0.89||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.89
92333349|NCT03441685|184570784|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.|||||<|0.001||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||<.001
92333350|NCT03441685|184570784|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.018||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.018
92333351|NCT03441685|184570784|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.027||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.027
92333352|NCT03441685|184570785|OTHER|Accuracy labeling taught verbs in syntactic vs semantic condition (expressive)||||||0.64||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.64
92333353|NCT03441685|184570785|OTHER|Accuracy labeling taught verbs in syntactic vs semantic condition (expressive)||||||0.16||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.16
92333354|NCT03441685|184570785|OTHER|Accuracy labeling taught verbs in syntactic vs semantic condition (expressive)||||||0.18||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.18
92333355|NCT03441685|184570785|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0|||||<|0.001||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||<.001
92333356|NCT03441685|184570785|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.034||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.034
92333357|NCT03441685|184570785|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.063||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.063
92333358|NCT03441685|184570786|OTHER|Accuracy labeling taught verbs in semantic vs combined condition (expressive)||||||0.35||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.35
92333359|NCT03441685|184570786|OTHER|Accuracy labeling taught verbs in semantic vs combined condition (expressive)||||||0.18||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.18
92333360|NCT03441685|184570786|OTHER|Accuracy labeling taught verbs in semantic vs combined condition (expressive)||||||0.58|||||||Wilcoxon Signed Ranks Test|||||||0.58
92333361|NCT03441685|184570786|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.006||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.006
92333362|NCT03441685|184570786|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.02||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.02
92333363|NCT03441685|184570786|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.18||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.18
92333364|NCT03441685|184570787|OTHER|Accuracy labeling taught verbs in syntactic vs combined condition (expressive)||||||0.56||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.56
92333365|NCT03441685|184570787|OTHER|Accuracy labeling taught verbs in syntactic vs combined condition (expressive)||||||0.1||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.10
92333366|NCT03441685|184570787|OTHER|Accuracy labeling taught verbs in syntactic vs combined condition (expressive)||||||0.71||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.71
92333367|NCT03441685|184570787|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0|||||<|0.001||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||<.001
92333368|NCT03441685|184570787|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.024||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.024
92333369|NCT03441685|184570787|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.1||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.10
92333370|NCT03224624|184570801|EQUIVALENCE|Comparing baseline-\>12month SBP change (mean difference) between the two groups.|Mean Difference (Net)|-1.35|STANDARD_ERROR_OF_MEAN|3.8||0.72|TWO_SIDED|||||p\<0.05 considered significant.|t-test, 2 sided||direction of comparison: (self-management change over 12 months) - (usual care change over 12 months) in SBP|t- tests were done to compare group mean differences between self-management and usual care and within groups Mean differences were calculated by subtracting 12-month blood pressure from baseline blood pressure for each participant. t-tests were done to compare mean differences between the two groups.||||0.72
92333371|NCT03224624|184570801|EQUIVALENCE|Comparing baseline-\>12month DBP change (mean difference) between the two groups.|Mean Difference (Net)|-3.75|STANDARD_ERROR_OF_MEAN|2.55||0.15|TWO_SIDED||||||t-test, 2 sided||direction of comparison: (self-management change over 12 months) - (usual care change over 12 months) in DBP|Mean differences were calculated by subtracting 12-month blood pressure from baseline blood pressure for each participant. t-tests were done to compare mean differences between the two groups.||||0.15
92333372|NCT03224624|184570801|EQUIVALENCE|Comparing baseline-\>12month SBP change within self-management group (null hypothesis no change).|Mean Difference (Net)|-6.95||||0.01|TWO_SIDED||||||t-test, 2 sided||(12-month SBP)-(baseline SBP) for self-management group (as given in table)|change in SBP from baseline to 12-months within self-management group.||||0.01
92333373|NCT03224624|184570801|EQUIVALENCE|Comparing baseline-\>12month SBP change within usual care group (null hypothesis no change).|Mean Difference (Net)|-5.59|||<|0.05|TWO_SIDED||||||t-test, 2 sided||(12-month SBP)-(baseline SBP) for usual care group (as given in table)|Comparing baseline-\>12month SBP change within usual care group.||||<0.05
92333374|NCT03224624|184570801|EQUIVALENCE|Comparing baseline-\>12month DBP change within self-management group (null hypothesis no change).|Mean Difference (Net)|-5.51|||<|0.01|TWO_SIDED||||||t-test, 2 sided||(12-month DBP)-(baseline DBP) for self-management group (as given in table)|change in DBP from baseline to 12-months within self-management group.||||<0.01
92333375|NCT03224624|184570801|EQUIVALENCE|change in DBP from baseline to 12-months within usual care group.|Mean Difference (Net)|-1.76||||0.34|TWO_SIDED||||||t-test, 2 sided||(12-month DBP)-(baseline DBP) for usual care group (as given in table)|||||0.34
92333376|NCT01424241|184570804|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|300.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||None available.||||<0.05
92333377|NCT01424241|184570804|SUPERIORITY||Mean Difference (Final Values)|1.6|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<.05
92333378|NCT00482170|184570810|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority test was performed using the 95 percent (%) confidence interval (CI) of the difference of mean participant satisfaction (alpha = 2.5%). Non-inferiority was demonstrated if the lower limit of the 2-sided CI is greater than -1.|Mean Difference (Final Values)|1.32|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|0.87|1.77||Statistical testing, one-sided, was done at 2.5% significance level.|ANOVA|||Analysis of variance (ANOVA) using mixed linear model with participant as random effect, treatment group, visit and the interaction between treatment group and visit as fixed factors and with an unstructured correlation was used for the analysis.||1.77|0.87|<0.001
92333379|NCT00482170|184570811|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority test was performed using the 95% CI of the difference of mean participant satisfaction (alpha = 2.5%). Non-inferiority was demonstrated if the lower limit of the 2-sided CI is greater than -1.|Mean Difference (Final Values)|1.41|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|0.95|1.87||Statistical testing, one-sided, was done at 2.5% significance level.|ANOVA|||ANOVA using a mixed linear model with participant as random effect, treatment group, visit and the interaction between treatment group and visit as fixed factors and with an unstructured correlation was used for the analysis.||1.87|0.95|<0.001
92333380|NCT00482170|184570812|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.12||||0.008|TWO_SIDED|95.0|2.05|126.9||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: Generalized Estimating Equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment group, visit and the interaction between treatment group and visit as fixed factors was used for the analysis.||126.9|2.05|0.008
92333381|NCT00482170|184570812|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.25||||0.002|TWO_SIDED|95.0|2.44|51.83||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: GEE model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment group, visit and the interaction between treatment group and visit as fixed factors was used for the analysis.||51.83|2.44|0.002
92333382|NCT00482170|184570812|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.88||||0.001|TWO_SIDED|95.0|2.26|27.44||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: GEE model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment group, visit and the interaction between treatment group and visit as fixed factors was used for the analysis.||27.44|2.26|0.001
92333383|NCT00482170|184570812|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.73|||<|0.001|TWO_SIDED|95.0|2.59|29.47||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used for the analysis.||29.47|2.59|<0.001
92333384|NCT00482170|184570813|SUPERIORITY_OR_OTHER||Regression coefficient|0.17||||0.045|TWO_SIDED|95.0|0.0|0.34||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 10 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.34|0.00|0.045
92333385|NCT00482170|184570814|SUPERIORITY_OR_OTHER||Regression coefficient|-0.09||||0.707|TWO_SIDED|95.0|-0.58|0.39||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, female and male (reference).||0.39|-0.58|0.707
92333386|NCT00482170|184570815|SUPERIORITY_OR_OTHER||Regression coefficient|-0.38||||0.195|TWO_SIDED|95.0|-0.89|0.14||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, high school or baccalaureate level and reading or writing capacity (reference).||0.14|-0.89|0.195
92333387|NCT00482170|184570815|SUPERIORITY_OR_OTHER||Regression coefficient|-0.55||||0.195|TWO_SIDED|95.0|-1.21|0.11||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, university level and reading or writing capacity (reference).||0.11|-1.21|0.195
92333388|NCT00482170|184570816|SUPERIORITY_OR_OTHER||Regression coefficient|-0.09||||0.493|TWO_SIDED|95.0|-0.36|0.17||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, HAD-A: =\< 4, HAD-A: \> 4 to 7, HAD-A: \> 7 to 10 and HAD-A: \> 10; by 5 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.17|-0.36|0.493
92333389|NCT00482170|184570816|SUPERIORITY_OR_OTHER||Regression coefficient|-0.16||||0.287|TWO_SIDED|95.0|-0.46|0.14||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, HAD-D: =\< 3, HAD-D: \> 3 to 5, HAD-D: \> 5 to 8 and HAD-A: \> 8; by 5 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.14|-0.46|0.287
92333390|NCT00482170|184570817|SUPERIORITY_OR_OTHER||Regression coefficient|0.13||||0.123|TWO_SIDED|95.0|-0.04|0.3||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 10 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.30|-0.04|0.123
92333391|NCT00482170|184570818|SUPERIORITY_OR_OTHER||Regression coefficient|-0.24||||0.359|TWO_SIDED|95.0|-0.76|0.28||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, yes and no (reference).||0.28|-0.76|0.359
92333392|NCT00482170|184570819|SUPERIORITY_OR_OTHER||Regression coefficient|0.02||||0.693|TWO_SIDED|95.0|-0.08|0.12|||Regression, Linear|||Statistical analysis was carried out between all categories, by 5 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.12|-0.08|0.693
92333393|NCT00482170|184570820|SUPERIORITY_OR_OTHER||Regression coefficient|0.22||||0.17|TWO_SIDED|95.0|-0.09|0.53||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 1 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.53|-0.09|0.170
92333394|NCT00482170|184570821|SUPERIORITY_OR_OTHER||Regression coefficient|0.02||||0.211|TWO_SIDED|95.0|-0.01|0.04||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 1 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.04|-0.01|0.211
92333395|NCT00482170|184570822|SUPERIORITY_OR_OTHER||Regression coefficient|0.09||||0.045|TWO_SIDED|95.0|0.0|0.18||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 10 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.18|0.00|0.045
92333396|NCT00482170|184570823|SUPERIORITY_OR_OTHER||Regression coefficient|-0.01||||0.913|TWO_SIDED|95.0|-0.12|0.11||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 10 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.11|-0.12|0.913
92333397|NCT00482170|184570824|SUPERIORITY_OR_OTHER||Regression coefficient|0.0||||0.968|TWO_SIDED|95.0|-0.17|0.17||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 5 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.17|-0.17|0.968
92333398|NCT00482170|184570825|SUPERIORITY_OR_OTHER||Regression coefficient|-0.15||||0.531|TWO_SIDED|95.0|-0.61|0.32||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, current tobacco usage: yes and current tobacco usage: no (reference).||0.32|-0.61|0.531
92333399|NCT00482170|184570825|SUPERIORITY_OR_OTHER||Regression coefficient|0.44||||0.061|TWO_SIDED|95.0|-0.02|0.9||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, current alcohol usage: yes and current alcohol usage: no (reference).||0.90|-0.02|0.061
92333400|NCT00482170|184570826|SUPERIORITY_OR_OTHER||Regression coefficient|-0.73||||0.759|TWO_SIDED|95.0|-5.37|3.92||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, yes and no (reference).||3.92|-5.37|0.759
92333401|NCT00482170|184570827|SUPERIORITY_OR_OTHER||Regression coefficient|0.09||||0.713|TWO_SIDED|95.0|-0.37|0.55||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, yes and no (reference).||0.55|-0.37|0.713
92333402|NCT00482170|184570828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|||<|0.001|TWO_SIDED|95.0|1.63|3.49||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.49|1.63|<0.001
92333403|NCT00482170|184570828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43|||<|0.001|TWO_SIDED|95.0|1.61|3.67||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4:A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.67|1.61|<0.001
92333404|NCT00482170|184570828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.74|||<|0.001|TWO_SIDED|95.0|1.78|4.21||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||4.21|1.78|<0.001
92333405|NCT00482170|184570828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51|||<|0.001|TWO_SIDED|95.0|1.66|3.8||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||3.80|1.66|<0.001
92333406|NCT00482170|184570829|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88||||0.004|TWO_SIDED|95.0|1.22|2.89||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.89|1.22|0.004
92333407|NCT00482170|184570829|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.017|TWO_SIDED|95.0|1.1|2.72||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.72|1.10|0.017
92333408|NCT00482170|184570829|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.34|||<|0.001|TWO_SIDED|95.0|1.47|3.73||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.73|1.47|<0.001
92333409|NCT00482170|184570829|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.001|TWO_SIDED|95.0|1.32|3.21||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||3.21|1.32|0.001
92333410|NCT00482170|184570830|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.025|TWO_SIDED|95.0|1.07|2.64||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.64|1.07|0.025
92333411|NCT00482170|184570830|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.936|TWO_SIDED|95.0|0.63|1.64||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.64|0.63|0.936
92333412|NCT00482170|184570830|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.42|TWO_SIDED|95.0|0.75|1.99||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.99|0.75|0.420
92333413|NCT00482170|184570830|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.625|TWO_SIDED|95.0|0.71|1.79||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.79|0.71|0.625
92333414|NCT00482170|184570831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.21|TWO_SIDED|95.0|0.86|1.94||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.94|0.86|0.210
92333415|NCT00482170|184570831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.227|TWO_SIDED|95.0|0.85|2.03||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.03|0.85|0.227
92333416|NCT00482170|184570831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.22|TWO_SIDED|95.0|0.84|2.08||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.08|0.84|0.220
92333417|NCT00482170|184570831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.249|TWO_SIDED|95.0|0.84|2.0||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||2.00|0.84|0.249
92333418|NCT00482170|184570832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.18|||<|0.001|TWO_SIDED|95.0|1.48|3.21||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.21|1.48|<0.001
92333419|NCT00482170|184570832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.42|||<|0.001|TWO_SIDED|95.0|1.62|3.62||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.62|1.62|<0.001
92333420|NCT00482170|184570832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.35|||<|0.001|TWO_SIDED|95.0|1.58|3.51||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.51|1.58|<0.001
92333421|NCT00482170|184570832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.42|||<|0.001|TWO_SIDED|95.0|1.64|3.59||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||3.59|1.64|<0.001
92333422|NCT00482170|184570833|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.34|||<|0.001|TWO_SIDED|95.0|1.5|3.65||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.65|1.50|<0.001
92333423|NCT00482170|184570833|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96|||<|0.001|TWO_SIDED|95.0|1.83|4.77||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||4.77|1.83|<0.001
92333424|NCT00482170|184570833|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.58|||<|0.001|TWO_SIDED|95.0|1.62|4.12||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||4.12|1.62|<0.001
92333425|NCT00482170|184570833|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.45|||<|0.001|TWO_SIDED|95.0|1.55|3.86||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||3.86|1.55|<0.001
92333426|NCT00482170|184570834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.681|TWO_SIDED|95.0|0.73|1.62||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.62|0.73|0.681
92333427|NCT00482170|184570834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.947|TWO_SIDED|95.0|0.67|1.54||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.54|0.67|0.947
92333428|NCT00482170|184570834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.604|TWO_SIDED|95.0|0.59|1.36||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.36|0.59|0.604
92333429|NCT00482170|184570834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.43|TWO_SIDED|95.0|0.57|1.27||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.27|0.57|0.430
92333430|NCT00482170|184570835|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.072|TWO_SIDED|95.0|0.48|1.03||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.03|0.48|0.072
92333431|NCT00482170|184570835|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.205|TWO_SIDED|95.0|0.86|2.03||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.03|0.86|0.205
92333432|NCT00482170|184570835|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.434|TWO_SIDED|95.0|0.78|1.78||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.78|0.78|0.434
92333433|NCT00482170|184570835|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.857|TWO_SIDED|95.0|0.69|1.55||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.55|0.69|0.857
92333434|NCT00482170|184570836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.837|TWO_SIDED|95.0|0.7|1.56||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.56|0.70|0.837
92333435|NCT00482170|184570836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.172|TWO_SIDED|95.0|0.87|2.15||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.15|0.87|0.172
92333436|NCT00482170|184570836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.096|TWO_SIDED|95.0|0.94|2.24||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.24|0.94|0.096
92333437|NCT00482170|184570836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.164|TWO_SIDED|95.0|0.88|2.08||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||2.08|0.88|0.164
92333438|NCT00482170|184570837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.356|TWO_SIDED|95.0|0.83|1.69||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.69|0.83|0.356
92333439|NCT00482170|184570837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.737|TWO_SIDED|95.0|0.73|1.56||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.56|0.73|0.737
92333440|NCT00482170|184570837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.156|TWO_SIDED|95.0|0.9|1.91||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.91|0.90|0.156
92333441|NCT00482170|184570837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.29|TWO_SIDED|95.0|0.85|1.76||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.76|0.85|0.290
92333442|NCT00482170|184570838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.065|TWO_SIDED|95.0|0.5|1.02||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.02|0.50|0.065
92333443|NCT00482170|184570838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.1|TWO_SIDED|95.0|0.5|1.06||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.06|0.50|0.100
92333444|NCT00482170|184570838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.298|TWO_SIDED|95.0|0.54|1.21||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.21|0.54|0.298
92333445|NCT00482170|184570838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.148|TWO_SIDED|95.0|0.51|1.11||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.11|0.51|0.148
92333446|NCT00482170|184570839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.098|TWO_SIDED|95.0|0.94|2.03||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.03|0.94|0.098
92333447|NCT00482170|184570839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.311|TWO_SIDED|95.0|0.82|1.87||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.87|0.82|0.311
92333448|NCT00482170|184570839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.376|TWO_SIDED|95.0|0.79|1.85||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.85|0.79|0.376
92333449|NCT00482170|184570839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.299|TWO_SIDED|95.0|0.83|1.86||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.86|0.83|0.299
92333450|NCT00482170|184570840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.494|TWO_SIDED|95.0|0.6|1.28||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.28|0.60|0.494
92333451|NCT00482170|184570840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.036|TWO_SIDED|95.0|0.44|0.97||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.97|0.44|0.036
92333452|NCT00482170|184570840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.079|TWO_SIDED|95.0|0.45|1.04||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.04|0.45|0.079
92333453|NCT00482170|184570840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.063|TWO_SIDED|95.0|0.46|1.02||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.02|0.46|0.063
92333454|NCT00482170|184570841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.628|TWO_SIDED|95.0|0.62|1.33||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.33|0.62|0.628
92333455|NCT00482170|184570841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.203|TWO_SIDED|95.0|0.51|1.15||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.15|0.51|0.203
92333456|NCT00482170|184570841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.222|TWO_SIDED|95.0|0.51|1.17||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.17|0.51|0.222
92333457|NCT00482170|184570841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.263|TWO_SIDED|95.0|0.53|1.19||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.19|0.53|0.263
92333458|NCT00482170|184570842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.914|TWO_SIDED|95.0|0.7|1.5||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.50|0.70|0.914
92333459|NCT00482170|184570842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.827|TWO_SIDED|95.0|0.7|1.57||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.57|0.70|0.827
92333460|NCT00482170|184570842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.712|TWO_SIDED|95.0|0.61|1.4||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.40|0.61|0.712
92333461|NCT00482170|184570842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.733|TWO_SIDED|95.0|0.62|1.39||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.39|0.62|0.733
92333462|NCT00482170|184570843|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.09|TWO_SIDED|95.0|0.95|1.95||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.95|0.95|0.090
92333463|NCT00482170|184570843|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.154|TWO_SIDED|95.0|0.9|1.91||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.91|0.90|0.154
92333464|NCT00482170|184570843|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.037|TWO_SIDED|95.0|1.02|2.22||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.22|1.02|0.037
92333465|NCT00482170|184570843|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.028|TWO_SIDED|95.0|1.05|2.24||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||2.24|1.05|0.028
92333466|NCT00482170|184570844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.022|TWO_SIDED|95.0|1.06|2.21||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.21|1.06|0.022
92333467|NCT00482170|184570844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.005|TWO_SIDED|95.0|1.17|2.41||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.41|1.17|0.005
92333468|NCT00482170|184570844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.076|TWO_SIDED|95.0|0.97|2.03||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.03|0.97|0.076
92333469|NCT00482170|184570844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.049|TWO_SIDED|95.0|1.0|2.11||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||2.11|1.00|0.049
92333470|NCT00482170|184570845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93|||<|0.001|TWO_SIDED|95.0|1.32|2.83||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.83|1.32|<0.001
92333471|NCT00482170|184570845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.63|||<|0.001|TWO_SIDED|95.0|1.78|3.87||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.87|1.78|<0.001
92333472|NCT00482170|184570845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13|||<|0.001|TWO_SIDED|95.0|1.42|3.19||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.19|1.42|<0.001
92333473|NCT00482170|184570845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.27|||<|0.001|TWO_SIDED|95.0|1.52|3.39||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||3.39|1.52|<0.001
92333474|NCT00482170|184570846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.057|TWO_SIDED|95.0|0.99|2.11||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.11|0.99|0.057
92333475|NCT00482170|184570846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.151|TWO_SIDED|95.0|0.9|1.96||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.96|0.90|0.151
92333476|NCT00482170|184570846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.024|TWO_SIDED|95.0|1.06|2.44||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.44|1.06|0.024
92333477|NCT00482170|184570846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.025|TWO_SIDED|95.0|1.06|2.39||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||2.39|1.06|0.025
92333478|NCT00482170|184570847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.34|||<|0.001|TWO_SIDED|95.0|0.24|0.49||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.49|0.24|<0.001
92333479|NCT00482170|184570847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.26|||<|0.001|TWO_SIDED|95.0|0.18|0.37||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.37|0.18|<0.001
92333480|NCT00482170|184570847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.31|||<|0.001|TWO_SIDED|95.0|0.21|0.45||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.45|0.21|<0.001
92333481|NCT00482170|184570847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32|||<|0.001|TWO_SIDED|95.0|0.23|0.47||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||0.47|0.23|<0.001
92333482|NCT00482170|184570848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38|||<|0.001|TWO_SIDED|95.0|0.27|0.54||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.54|0.27|<0.001
92333483|NCT00482170|184570848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.31|||<|0.001|TWO_SIDED|95.0|0.21|0.46||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.46|0.21|<0.001
92333484|NCT00482170|184570848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.34|||<|0.001|TWO_SIDED|95.0|0.24|0.5||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.50|0.24|<0.001
92333485|NCT00482170|184570848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.35|||<|0.001|TWO_SIDED|95.0|0.24|0.5||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||0.50|0.24|<0.001
92333486|NCT00482170|184570849|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.33|||<|0.001|TWO_SIDED|95.0|0.24|0.46||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.46|0.24|<0.001
92333487|NCT00482170|184570849|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32|||<|0.001|TWO_SIDED|95.0|0.22|0.46||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.46|0.22|<0.001
92333488|NCT00482170|184570849|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38|||<|0.001|TWO_SIDED|95.0|0.26|0.56||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.56|0.26|<0.001
92333489|NCT00482170|184570849|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41|||<|0.001|TWO_SIDED|95.0|0.28|0.58||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||0.58|0.28|<0.001
92333490|NCT00482170|184570850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.47|TWO_SIDED|95.0|0.6|1.26||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the first injection: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.26|0.60|0.470
92333491|NCT00482170|184570850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.325|TWO_SIDED|95.0|0.57|1.2||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.20|0.57|0.325
92333492|NCT00482170|184570850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.197|TWO_SIDED|95.0|0.55|1.13||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.13|0.55|0.197
92333493|NCT00482170|184570850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.212|TWO_SIDED|95.0|0.56|1.14||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.14|0.56|0.212
92333494|NCT00482170|184570851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.35||0.515|TWO_SIDED|95.0|-0.91|0.46||Statistical testing, 2-sided, was done at 5% significance level.|ANOVA|||Baseline- after the training: Mixed linear model with participant as random effect, treatment group, visit and the interaction between treatment group and visit as fixed factors and with an auto-regressive correlation structure was used to calculate 95% CI.||0.46|-0.91|0.515
92333495|NCT00482170|184570851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.34||0.842|TWO_SIDED|95.0|-0.74|0.6||Statistical testing, 2-sided, was done at 5% significance level.|ANOVA|||Week 4: Mixed linear model with participant as random effect, treatment group, visit and the interaction between treatment group and visit as fixed factors and with an unstructured correlation was used for the analysis.||0.60|-0.74|0.842
92333496|NCT00482170|184570851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.33||0.928|TWO_SIDED|95.0|-0.67|0.61||Statistical testing, 2-sided, was done at 5% significance level.|ANOVA|||Week 12: Mixed linear model with participant as random effect, treatment group, visit and the interaction between treatment group and visit as fixed factors and with an unstructured correlation was used for the analysis.||0.61|-0.67|0.928
92333497|NCT00482170|184570851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.32||0.974|TWO_SIDED|95.0|-0.62|0.64||Statistical testing, 2-sided, was done at 5% significance level.|ANOVA|||Last observation: ANOVA method was used for the analysis.||0.64|-0.62|0.974
92333498|NCT00482170|184570852|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated using ANOVA.||||0.030
92333499|NCT00482170|184570852|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated using ANOVA.||||0.010
92333500|NCT00482170|184570853|SUPERIORITY_OR_OTHER|||||||0.984||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.984
92333501|NCT00482170|184570853|SUPERIORITY_OR_OTHER|||||||0.549||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.549
92333502|NCT00482170|184570854|SUPERIORITY_OR_OTHER|||||||0.158||95.0|||||Fisher Exact|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.158
92333503|NCT00482170|184570854|SUPERIORITY_OR_OTHER|||||||0.808||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.808
92333504|NCT00482170|184570855|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Kruskal-Wallis|||p-value for statistical difference between categories, very satisfied: HAD-A, satisfied: HAD-A and less satisfied: HAD-A, in the etanercept 50 mg auto-injector group was calculated.||||0.029
92333505|NCT00482170|184570855|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Kruskal-Wallis|||p-value for statistical difference between categories, very satisfied: HAD-A, satisfied: HAD-A and less satisfied: HAD-A, in the etanercept 50 mg prefilled syringe group was calculated.||||0.005
92333506|NCT00482170|184570855|SUPERIORITY_OR_OTHER|||||||0.411||95.0|||||Kruskal-Wallis|||p-value for statistical difference between categories, very satisfied: HAD-D, satisfied: HAD-D and less satisfied: HAD-D, in the etanercept 50 mg auto-injector group was calculated.||||0.411
92333507|NCT00482170|184570855|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Kruskal-Wallis|||p-value for statistical difference between categories, very satisfied: HAD-D, satisfied: HAD-D and less satisfied: HAD-D, in the etanercept 50 mg prefilled syringe group was calculated.||||0.005
92333508|NCT00482170|184570856|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.039
92333509|NCT00482170|184570856|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.006
92333510|NCT00482170|184570857|SUPERIORITY_OR_OTHER|||||||0.752||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.752
92333511|NCT00482170|184570857|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.700
92333512|NCT00482170|184570858|SUPERIORITY_OR_OTHER|||||||0.697||95.0|||||Fisher Exact|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.697
92333513|NCT00482170|184570858|SUPERIORITY_OR_OTHER|||||||0.159||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.159
92333514|NCT00482170|184570859|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.004
92333515|NCT00482170|184570859|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.024
92333516|NCT00482170|184570860|SUPERIORITY_OR_OTHER|||||||0.652||95.0|||||Kruskal-Wallis|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.652
92333517|NCT00482170|184570860|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Kruskal-Wallis|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.024
92333518|NCT00482170|184570861|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.560
92333519|NCT00482170|184570861|SUPERIORITY_OR_OTHER|||||||0.474||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.474
92333520|NCT00482170|184570862|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.023
92333521|NCT00482170|184570862|SUPERIORITY_OR_OTHER|||||||0.089||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.089
92333522|NCT00482170|184570863|SUPERIORITY_OR_OTHER|||||||0.494||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.494
92333523|NCT00482170|184570863|SUPERIORITY_OR_OTHER|||||||0.782||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.782
92333524|NCT00482170|184570864|SUPERIORITY_OR_OTHER|||||||0.444||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.444
92333525|NCT00482170|184570864|SUPERIORITY_OR_OTHER|||||||0.947||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.947
92333526|NCT00482170|184570865|SUPERIORITY_OR_OTHER|||||||0.787||95.0|||||Chi-squared|||p-value for statistical difference between categories, very satisfied: tobacco usage- yes, very satisfied: tobacco usage- no, satisfied: tobacco usage- yes, satisfied: tobacco usage- no, less satisfied: tobacco usage- yes and less satisfied: tobacco usage- no, in the etanercept 50 mg auto-injector group was calculated.||||0.787
92333527|NCT00482170|184570865|SUPERIORITY_OR_OTHER|||||||0.379||95.0|||||Chi-squared|||p-value for statistical difference between categories, very satisfied: tobacco usage- yes, very satisfied: tobacco usage- no, satisfied: tobacco usage- yes, satisfied: tobacco usage- no, less satisfied: tobacco usage- yes and less satisfied: tobacco usage- no, in the etanercept 50 mg prefilled syringe group was calculated.||||0.379
92333528|NCT00482170|184570865|SUPERIORITY_OR_OTHER|||||||0.098||95.0|||||Chi-squared|||p-value for statistical difference between categories, very satisfied: alcohol usage- yes, very satisfied: alcohol usage- no, satisfied: alcohol usage- yes, satisfied: alcohol usage- no, less satisfied: alcohol usage- yes and less satisfied: alcohol usage- no, in the etanercept 50 mg auto-injector group was calculated.||||0.098
92333529|NCT00482170|184570865|SUPERIORITY_OR_OTHER|||||||0.166||95.0|||||Chi-squared|||p-value for statistical difference between categories, very satisfied: alcohol usage- yes, very satisfied: alcohol usage- no, satisfied: alcohol usage- yes, satisfied: alcohol usage- no, less satisfied: alcohol usage- yes and less satisfied: alcohol usage- no, in the etanercept 50 mg prefilled syringe group was calculated.||||0.166
92333530|NCT00482170|184570866|SUPERIORITY_OR_OTHER|||||||0.535||95.0|||||Fisher Exact|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.535
92333531|NCT03230838|184570877|OTHER|The Miettinen \& Nurminen method was used.|Percentage Difference|-1.6|||||TWO_SIDED|95.0|-19.7|17.9|||||Ceftolozane/Tazobactam (C/T) minus Meropenem (Mero)|Difference in Percentage (C/T minus Mero)||17.9|-19.7|
92333532|NCT03230838|184570878|OTHER|The Miettinen \& Nurminen method was used.|Percentage Difference|1.0|||||TWO_SIDED|95.0|-9.5|5.5|||||C/T minus Mero|Difference in Percentage (C/T minus Mero)||5.5|-9.5|
92333533|NCT03230838|184570879|OTHER|The Miettinen \& Nurminen method stratified by age group with Cochran- Mantel-Haenszel (CMH) weights was used. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Percentage Difference|-7.3|||||TWO_SIDED|95.0|-17.99|10.05|||||C/T minus Mero|Difference in Percentage (C/T minus Mero)||10.05|-17.99|
92333534|NCT03230838|184570880|OTHER|The Miettinen \& Nurminen method stratified by age group with Cochran- Mantel-Haenszel (CMH) weights was used. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Percentage Difference|-5.6|||||TWO_SIDED|95.0|-14.09|8.88|||||C/T minus Mero|Difference in Percentage (C/T minus Mero)||8.88|-14.09|
92333535|NCT03230838|184570881|OTHER|The Miettinen \& Nurminen method stratified by age group with Cochran- Mantel-Haenszel (CMH) weights was used. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Percentage Difference|-3.0|||||TWO_SIDED|95.0|-17.13|17.4|||||C/T minus Mero|Difference in Percentage (C/T minus Mero)||17.40|-17.13|
92333536|NCT03230838|184570882|OTHER|The Miettinen \& Nurminen method stratified by age group with CMH weights was used. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Percentage Difference|-3.4|||||TWO_SIDED|95.0|-12.67|13.41|||||C/T minus Mero|Difference in Percentage (C/T minus Mero)||13.41|-12.67|
92333537|NCT00497055|184570883|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88||||0.41||95.0|0.66|1.16|||Generalized estimating equation|||||1.16|.66|.41
92333538|NCT00497055|184570884|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.31
92333539|NCT00497055|184570885|SUPERIORITY_OR_OTHER||||||>=|0.99|||||||Fisher Exact|||||||>=0.99
92333540|NCT02697734|184570896|SUPERIORITY||Odds Ratio (OR)|43.4|||<|0.0001|TWO_SIDED|95.0|7.06|343.19|||Cochran-Mantel-Haenszel|||||343.19|7.06|<.0001
92333541|NCT02033200|184570993|SUPERIORITY_OR_OTHER||LS mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.335||0.8216|TWO_SIDED|95.0|-0.592|0.744|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the right eye.||0.744|-0.592|0.8216
92333542|NCT02033200|184570993|SUPERIORITY_OR_OTHER||LS means difference|0.257|STANDARD_ERROR_OF_MEAN|0.258||0.324|TWO_SIDED|95.0|-0.258|0.771|||ANCOVA|||The sample size had adequate power to detect a meaningful difference between treatment groups in the left eye.||0.771|-0.258|0.324
92333543|NCT02033200|184570994|SUPERIORITY_OR_OTHER||LS means difference|0.004|STANDARD_ERROR_OF_MEAN|0.014||0.7864|TWO_SIDED|95.0|-0.024|0.031|||ANCOVA|||The sample size provided enough power to detect any meaningful difference between the two treatment groups in the right eye.||0.031|-0.024|0.7864
92333544|NCT02033200|184570994|SUPERIORITY_OR_OTHER||LS Means difference|-0.022|STANDARD_ERROR_OF_MEAN|0.017||0.1953|TWO_SIDED|95.0|-0.056|0.012|||ANCOVA|||The sample size provided enough power to detect any meaningful difference between the two treatment groups in the left eye.||0.012|-0.056|0.1953
92333545|NCT02033200|184570995|SUPERIORITY_OR_OTHER||LS means difference|-0.16|STANDARD_ERROR_OF_MEAN|0.061||0.0101|TWO_SIDED|95.0|-0.28|-0.039|||ANCOVA|||The sample size provided enough power to detect any meaningful difference between the two treatment groups in the right eye.||-0.039|-0.280|0.0101
92333546|NCT02033200|184570995|SUPERIORITY_OR_OTHER||LS means difference|-0.087|STANDARD_ERROR_OF_MEAN|0.061||0.1583|TWO_SIDED|95.0|-0.209|0.035|||ANCOVA|||The sample size provided enough power to detect any meaningful difference between the two treatment groups in the left eye.||0.035|-0.209|0.1583
92333547|NCT02033200|184570996|SUPERIORITY_OR_OTHER||LS means difference|-0.031|STANDARD_ERROR_OF_MEAN|0.359||0.9324|TWO_SIDED|95.0|-0.746|0.685|||ANCOVA|||The sample size should provide approximately 90% power to detect a 1.6 mmHg difference in the mean change in Intraocular Pressure between the two treatment groups in the right eye.||0.685|-0.746|0.9324
92333548|NCT02033200|184570996|SUPERIORITY_OR_OTHER||LS means difference|0.751|STANDARD_ERROR_OF_MEAN|0.348||0.0343|TWO_SIDED|95.0|0.057|1.44|||ANCOVA|||The sample size should provide approximately 90% power to detect a 1.6 mmHg difference in the mean change in intraocular pressure between the two treatment groups in the left eye.||1.44|0.057|0.0343
92333549|NCT02033200|184570997|SUPERIORITY_OR_OTHER||LS Means difference|0.017|STANDARD_ERROR_OF_MEAN|0.017||0.3139|TWO_SIDED|95.0|-0.017|0.051|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the right eye.||0.051|-0.017|0.3139
92333550|NCT02033200|184570997|SUPERIORITY_OR_OTHER||LS means difference|-0.002|STANDARD_ERROR_OF_MEAN|0.022||0.9334|TWO_SIDED|95.0|-0.045|0.042|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the left eye.||0.042|-0.045|0.9334
92333551|NCT02033200|184570998|SUPERIORITY_OR_OTHER||LS means difference|0.016|STANDARD_ERROR_OF_MEAN|0.055||0.7723|TWO_SIDED|95.0|-0.093|0.125|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the right eye.||0.125|-0.093|0.7723
92333552|NCT02033200|184570998|SUPERIORITY_OR_OTHER||LS means difference|0.007|STANDARD_ERROR_OF_MEAN|0.058||0.9107|TWO_SIDED|95.0|-0.109|0.122|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the left eye.||0.122|-0.109|0.9107
92333553|NCT02033200|184570999|SUPERIORITY_OR_OTHER||LS Means difference|-0.078|STANDARD_ERROR_OF_MEAN|0.278||0.7787|TWO_SIDED|95.0|-0.632|0.475|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the right eye.||0.475|-0.632|0.7787
92333554|NCT02033200|184570999|SUPERIORITY_OR_OTHER||LS means difference|-0.18|STANDARD_ERROR_OF_MEAN|0.344||0.6013|TWO_SIDED|95.0|-0.865|0.504|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the left eye.||0.504|-0.865|0.6013
92333555|NCT02033200|184571000|SUPERIORITY_OR_OTHER||LS means difference|0.091|STANDARD_ERROR_OF_MEAN|0.4||0.8209|TWO_SIDED|95.0|-0.705|0.887|||ANCOVA|||The sample size should provide approximately 90% power to detect a 1.6 mmHg difference in the mean change in IOP between the two treatment groups in the right eye.||0.887|-0.705|0.8209
92333556|NCT02033200|184571000|SUPERIORITY_OR_OTHER||LS means difference|0.227|STANDARD_ERROR_OF_MEAN|0.33||0.4931|TWO_SIDED|95.0|-0.43|0.884|||ANCOVA|||The sample size should provide approximately 90% power to detect a 1.6 mmHg difference in the mean change in IOP between the two treatment groups in the left eye.||0.884|-0.430|0.4931
92333557|NCT04333225|184571001|OTHER|Other: estimating risk reduction|Risk Ratio (RR)|2.0718||||0.0112|TWO_SIDED|95.0|1.15|3.72|||Chi-squared|||||3.72|1.15|0.0112
92333558|NCT04333225|184571002|OTHER|Other: Estimating hazard ratio|Hazard Ratio (HR)|0.35||||0.0105|TWO_SIDED|95.0|0.17|0.75|||Log Rank|||||0.75|0.17|0.0105
92333559|NCT01124370|184571014|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The test was conducted using a 0.05 level of significance.|t-test, 2 sided|||The null hypothesis was that there would be no change in AHI from baseline.||||<.001
92333560|NCT00822328|184571021|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||Bacterial colonies were counted for study group and placebo group on week 0, 1, 2, 3, 4, 5, 6. Significant differences between both experimental groups at the same time were determined with one-way ANOVA (significance level p = 0.05).||||<0.05
92333561|NCT00822328|184571023|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||Bacterial colonies were counted for study group and placebo group on week 0, 1, 2, 3, 4, 5, 6. Significant differences between both experimental groups at the same time were determined with one-way ANOVA (significance level p = 0.05).||||<0.05
92333562|NCT05811026|184571039|SUPERIORITY||Median Difference (Net)|5.0||||0.075|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.075
92333563|NCT05811026|184571040|SUPERIORITY||Median Difference (Net)|0.17||||0.4727|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.4727
92333564|NCT05811026|184571041|SUPERIORITY||Median Difference (Net)|-1.5||||0.7326|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.7326
92333565|NCT05811026|184571042|SUPERIORITY||Median Difference (Net)|0.61||||0.0757|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0757
92333566|NCT05811026|184571043|SUPERIORITY||Median Difference (Net)|37.75||||0.0376|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0376
92333567|NCT05811026|184571044|SUPERIORITY||Median Difference (Final Values)|-0.17||||0.3123|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.3123
92333568|NCT05811026|184571045|SUPERIORITY||Median Difference (Final Values)|1.0||||0.1009|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.1009
92333569|NCT05811026|184571046|SUPERIORITY||Mean Difference (Net)|5.5||||0.0088|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0088
92333570|NCT05811026|184571047|SUPERIORITY||Median Difference (Net)|-0.03||||0.4274|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.4274
92333571|NCT05811026|184571048|SUPERIORITY||Mean Difference (Net)|1.75||||0.6497|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.6497
92333572|NCT05811026|184571049|SUPERIORITY||Median Difference (Net)|0.54||||0.0006|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0006
92333573|NCT05811026|184571050|SUPERIORITY||Median Difference (Net)|34.5||||0.0002|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0002
92333574|NCT05811026|184571051|SUPERIORITY||Median Difference (Final Values)|0.0||||0.6231|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.6231
92333575|NCT05811026|184571052|SUPERIORITY||Median Difference (Final Values)|0.0||||0.3327|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.3327
92333576|NCT05811026|184571053|SUPERIORITY||Median Difference (Net)|7.25||||0.0752|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0752
92333577|NCT05811026|184571054|SUPERIORITY||Median Difference (Net)|-0.94||||0.0982|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0982
92333578|NCT05811026|184571055|SUPERIORITY||Median Difference (Net)|-0.5||||0.8541|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.8541
92333579|NCT05811026|184571056|SUPERIORITY||Median Difference (Net)|0.63||||0.0758|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0758
92333580|NCT05811026|184571057|SUPERIORITY||Median Difference (Net)|41.75||||0.066|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.066
92333581|NCT05811026|184571058|SUPERIORITY||Median Difference (Final Values)|-0.17||||0.6961|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.6961
92333582|NCT05811026|184571059|SUPERIORITY||Median Difference (Final Values)|1.0||||0.0067|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0067
92333583|NCT02870205|184571061|SUPERIORITY||||||<|0.001||||||GSP 301 NS vs GSP 301 placebo NS comparison for rTNSS was tested at 0.05 significance level.|ANCOVA|||||||<0.001
92333584|NCT02870205|184571061|SUPERIORITY|||||||0.028|||||||ANCOVA|||||||0.028
92333585|NCT02870205|184571061|SUPERIORITY|||||||0.019|||||||ANCOVA|||||||0.019
92333586|NCT02870205|184571061|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
92333587|NCT02870205|184571061|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
92333588|NCT01156051|184571092|SUPERIORITY_OR_OTHER|||||||0.005|||||||ANOVA|||Null hypothesis: no difference in total sleep time (TST) from baseline to termination. ANOVA single measure, two-tailed, Type II analysis was completed using SPSS.||||0.005
92333589|NCT01156051|184571093|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Null hypothesis: no difference in ADHD Rating Scales - IV total scores from baseline to termination. ANOVA single measure, two-tailed, Type II analysis was completed using SPSS.||||<0.001
92333590|NCT01156051|184571094|SUPERIORITY_OR_OTHER|||||||0.392|||||||ANOVA|||Null hypothesis: no difference in latency to persistent sleep (LPS) from baseline to termination. ANOVA single measure, two-tailed, Type II analysis was completed using SPSS.||||0.392
92333591|NCT01156051|184571095|SUPERIORITY_OR_OTHER|||||||0.059|||||||ANOVA|||Null hypothesis: no difference in total sleep time (TST) from baseline to termination. ANOVA single measure, two-tailed, Type II analysis was completed using SPSS.||||0.059
92333592|NCT00856843|184571115|SUPERIORITY_OR_OTHER||Difference in success rates|8.8||||0.038|TWO_SIDED|95.0|0.9|16.8|||Chi-squared|||||16.8|0.9|0.038
92333593|NCT00856843|184571116|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||||||0.010
92333594|NCT00856843|184571117|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared|||||||0.020
92333595|NCT00856843|184571118|SUPERIORITY_OR_OTHER|||||||0.644|||||||Chi-squared|||||||0.644
92333596|NCT00856843|184571119|SUPERIORITY_OR_OTHER|||||||0.763|||||||Chi-squared|||||||0.763
92333597|NCT00856843|184571120|SUPERIORITY_OR_OTHER|||||||0.173|||||||Chi-squared|||||||0.173
92333598|NCT00856843|184571121|SUPERIORITY_OR_OTHER|||||||0.004|||||||Chi-squared|||||||0.004
92333599|NCT00856843|184571122|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
92333600|NCT00856843|184571123|SUPERIORITY_OR_OTHER|||||||0.005|||||||Chi-squared|||||||0.005
92333601|NCT00856843|184571124|SUPERIORITY_OR_OTHER|||||||0.013|||||||Chi-squared|||||||0.013
92333602|NCT00856843|184571125|SUPERIORITY_OR_OTHER|||||||0.283|||||||Chi-squared|||||||0.283
92333603|NCT02179749|184571129|SUPERIORITY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.2||0.51|TWO_SIDED||||||ANOVA|||||||0.51
92333604|NCT02179749|184571129|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.04||0.038|TWO_SIDED||||||Mixed Models Analysis|||Latent growth model includes one week on study drug and two weeks after the last dose of study drug. Principal predictors were drug plasma concentration and baseline treatment goal of abstinence or non abstinence. Arms were combined for this analysis.||||0.038
92333605|NCT02179749|184571130|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|36.7||0.5|TWO_SIDED||||||ANOVA|411 and 102 degrees of freedom||||||0.50
92333606|NCT00094536|184571131|SUPERIORITY_OR_OTHER|||||||0.271|||||||1-sided z-test|1-sided z-test with continuity correction (pooled)||||||.271
92333607|NCT02620384|184571132|SUPERIORITY||Mean Difference (Final Values)|2439.511|STANDARD_ERROR_OF_MEAN|646.2707|<|0.0001|TWO_SIDED|95.0|1160.8485|3718.1734|||t-test, 2 sided|||||3718.1734|1160.8485|<0.0001
92333608|NCT02620384|184571133|SUPERIORITY||Mean Difference (Final Values)|-2249.3294|STANDARD_ERROR_OF_MEAN|608.2782|<|0.0001|TWO_SIDED|95.0|-3454.4999|-1044.1589|||t-test, 2 sided|||||-1044.1589|-3454.4999|<0.0001
92333609|NCT02620384|184571134|SUPERIORITY||Mean Difference (Final Values)|-2.717121|STANDARD_ERROR_OF_MEAN|0.586647|<|0.0001|TWO_SIDED|95.0|-3.8637732|-1.54651|||t-test, 2 sided|||||-1.546510|-3.8637732|<0.0001
92333610|NCT02620384|184571135|SUPERIORITY||Mean Difference (Final Values)|-0.6955|STANDARD_ERROR_OF_MEAN|0.2806||0.014|TWO_SIDED|95.0|-1.2506|-0.1403||Represents BORG\_48\_hours|t-test, 2 sided||Method of estimation is for 48 hour measure.|||-.1403|-1.2506|.014
92333611|NCT02620384|184571136|SUPERIORITY||Mean Difference (Final Values)|3.6903|STANDARD_ERROR_OF_MEAN|72.4074||0.959|TWO_SIDED|95.0|-1395694.0|147.1545|||t-test, 2 sided|||||147.1545|-1395694|.959
92333612|NCT02620384|184571137|SUPERIORITY|||||||0.144|||||||Chi-squared|||||||.144
92333613|NCT02620384|184571138|SUPERIORITY|||||||0.171|||||||Chi-squared|||||||.171
92333614|NCT02620384|184571139|SUPERIORITY||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.734||0.885|TWO_SIDED|95.0|-1.346|1.558|||t-test, 2 sided|||||1.558|-1.346|.885
92333615|NCT02620384|184571140|SUPERIORITY|||||||0.804|||||||Chi-squared|||||||.804
92333616|NCT02620384|184571141|SUPERIORITY|||||||0.403|||||||Chi-squared|||||||.403
92333617|NCT02620384|184571142|SUPERIORITY|||||||0.08|||||||Chi-squared|||||||.080
92333618|NCT02620384|184571143|SUPERIORITY|||||||0.559|||||||Chi-squared|||||||.559
92333619|NCT02798354|184571176|SUPERIORITY||Risk Difference (RD)|3.9|||<|0.0001|TWO_SIDED|95.0|2.4|5.3|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, and wave|||5.3|2.4|<0.0001
92333620|NCT02798354|184571177|SUPERIORITY||Risk Difference (RD)|16.0|||<|0.0001|TWO_SIDED|95.0|12.3|20.0|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, and wave|||20|12.3|<0.0001
92333621|NCT02798354|184571178|SUPERIORITY||Risk Difference (RD)|1.1||||0.302|TWO_SIDED|95.0|-1.0|3.1|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, lab test sent, and wave|||3.1|-1.0|0.302
92333622|NCT02798354|184571179|SUPERIORITY||Risk Difference (RD)|26.6|||<|0.0001|TWO_SIDED|95.0|22.4|30.7|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, and wave|||30.7|22.4|<0.0001
92333623|NCT02798354|184571180|SUPERIORITY||Risk Difference (RD)|20.1|||<|0.0001|TWO_SIDED|95.0|16.2|24.1|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, and wave|||24.1|16.2|<0.0001
92333624|NCT02798354|184571181|SUPERIORITY||Risk Difference (RD)|14.0|||<|0.0001|TWO_SIDED|95.0|10.3|17.7|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, and wave|||17.7|10.3|<0.0001
92333625|NCT02798354|184571182|SUPERIORITY||Risk Difference (RD)|0.1||||0.922|TWO_SIDED|95.0|-1.8|1.9|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, lab test sent, and wave|||1.9|-1.8|0.922
92333626|NCT00350779|184571205|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.72|STANDARD_DEVIATION|0.87|<|0.001||95.0|-0.95|-0.49|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-0.49|-0.95|<0.001
92333627|NCT00350779|184571206|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.0|STANDARD_DEVIATION|31.3|<|0.001||95.0|-27.2|-10.9|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-10.9|-27.2|<0.001
92333628|NCT00350779|184571207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-37.9|STANDARD_DEVIATION|43.7|<|0.001||95.0|-50.2|-25.5|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-25.5|-50.2|<0.001
92333629|NCT00350779|184571208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.77|STANDARD_DEVIATION|1.04|<|0.001||95.0|-1.04|-0.5|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-0.50|-1.04|<0.001
92333630|NCT00350779|184571209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.4|STANDARD_DEVIATION|34.6|<|0.001||95.0|-26.4|-8.4|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-8.4|-26.4|<0.001
92333631|NCT00350779|184571210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.1|STANDARD_DEVIATION|51.0|<|0.001||95.0|-48.4|-19.9|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-19.9|-48.4|<0.001
92333632|NCT00528372|184571211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.1522||0.0207||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||0.0207
92333633|NCT00528372|184571211|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.1541||0.0005||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||0.0005
92333634|NCT00528372|184571211|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.1518|<|0.0001||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||<0.0001
92333635|NCT00528372|184571211|SUPERIORITY_OR_OTHER||Difference from placebo|-0.61|STANDARD_ERROR_OF_MEAN|0.1536|||TWO_SIDED|95.0|-0.91|-0.3||||||||-0.30|-0.91|
92333636|NCT00528372|184571211|SUPERIORITY_OR_OTHER||Difference from placebo|-0.56|STANDARD_ERROR_OF_MEAN|0.1527|||TWO_SIDED|95.0|-0.86|-0.26||||||||-0.26|-0.86|
92333637|NCT00528372|184571211|SUPERIORITY_OR_OTHER||Difference from placebo|-0.56|STANDARD_ERROR_OF_MEAN|0.1474|||TWO_SIDED|95.0|-0.85|-0.27||||||||-0.27|-0.85|
92333638|NCT00528372|184571212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1|STANDARD_ERROR_OF_MEAN|5.734||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|||Week 24|||||
92333639|NCT00528372|184571212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9|STANDARD_ERROR_OF_MEAN|5.806||0.0007||||||Statistically significant according to hierarchical testing procedure (p\<0.05)|ANCOVA||Week 24|||||0.0007
92333640|NCT00528372|184571212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.7|STANDARD_ERROR_OF_MEAN|5.626|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05)|ANCOVA||Week 24|||||<0.0001
92333641|NCT00528372|184571212|SUPERIORITY_OR_OTHER||Difference from placebo|-21.5|STANDARD_ERROR_OF_MEAN|5.686|||TWO_SIDED|95.0|-32.6|-10.3||||||||-10.3|-32.6|
92333642|NCT00528372|184571212|SUPERIORITY_OR_OTHER||Difference from placebo|-23.3|STANDARD_ERROR_OF_MEAN|5.711|||TWO_SIDED|95.0|-34.4|-12.0||||||||-12.0|-34.4|
92333643|NCT00528372|184571212|SUPERIORITY_OR_OTHER||Difference from placebo|-25.5|STANDARD_ERROR_OF_MEAN|5.567|||TWO_SIDED|95.0|-36.4|-14.5||||||||-14.5|-36.4|
92333644|NCT00528372|184571214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|0.6307||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.||||||||
92333645|NCT00528372|184571214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.6388||0.3101||||||Tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||||0.3101
92333646|NCT00528372|184571214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.6223||0.1189||||||Tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||||0.1189
92333647|NCT00528372|184571214|SUPERIORITY_OR_OTHER||Difference from placebo|-1.63|STANDARD_ERROR_OF_MEAN|0.6254|||TWO_SIDED|95.0|-2.86|-0.41||||||||-0.41|-2.86|
92333648|NCT00528372|184571214|SUPERIORITY_OR_OTHER||Difference from placebo|-1.36|STANDARD_ERROR_OF_MEAN|0.6279|||TWO_SIDED|95.0|-2.6|-0.13||||||||-0.13|-2.60|
92333649|NCT00528372|184571214|SUPERIORITY_OR_OTHER||Difference from placebo|-0.87|STANDARD_ERROR_OF_MEAN|0.6103|||TWO_SIDED|95.0|-2.06|0.33||||||||0.33|-2.06|
92333650|NCT00528372|184571216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|4.324||||||||||||||||
92333651|NCT00528372|184571216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9|STANDARD_ERROR_OF_MEAN|4.342||||||||||||||||
92333652|NCT00528372|184571216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|4.176||||||||||||||||
92333653|NCT00528372|184571216|SUPERIORITY_OR_OTHER||Difference from placebo|-12.0|STANDARD_ERROR_OF_MEAN|4.223|||TWO_SIDED|95.0|-20.3|-3.7||||||||-3.7|-20.3|
92333654|NCT00528372|184571216|SUPERIORITY_OR_OTHER||Difference from placebo|-16.2|STANDARD_ERROR_OF_MEAN|4.321|||TWO_SIDED|95.0|-24.7|-7.7||||||||-7.7|-24.7|
92333655|NCT00528372|184571216|SUPERIORITY_OR_OTHER||Difference from placebo|-17.9|STANDARD_ERROR_OF_MEAN|4.228|||TWO_SIDED|95.0|-26.2|-9.5||||||||-9.5|-26.2|
92333656|NCT00528372|184571218|SUPERIORITY_OR_OTHER||Percentage difference|9.7||||||||||||||||||
92333657|NCT00528372|184571218|SUPERIORITY_OR_OTHER||Percentage difference|12.6||||||||||||||||||
92333658|NCT00528372|184571218|SUPERIORITY_OR_OTHER||Percentage difference|19.2||||||||||||||||||
92333659|NCT00528372|184571218|SUPERIORITY_OR_OTHER||Percent difference from placebo|19.8|||||TWO_SIDED|95.0|4.9|34.7||||||||34.7|4.9|
92333660|NCT00528372|184571218|SUPERIORITY_OR_OTHER||Percent difference from placebo|12.4|||||TWO_SIDED|95.0|-2.5|27.3||||||||27.3|-2.5|
92333661|NCT00528372|184571218|SUPERIORITY_OR_OTHER||Percent difference from placebo|19.9|||||TWO_SIDED|95.0|5.3|34.5||||||||34.5|5.3|
92333662|NCT00528372|184571219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.6979||||||||||||||||
92333663|NCT00528372|184571219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|0.6828||||||||||||||||
92333664|NCT00528372|184571219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.23|STANDARD_ERROR_OF_MEAN|0.6404||||||||||||||||
92333665|NCT00528372|184571219|SUPERIORITY_OR_OTHER||Difference from placebo|-1.55|STANDARD_ERROR_OF_MEAN|0.7394|||TWO_SIDED|95.0|-3.33|-0.42||||||||-0.42|-3.33|
92333666|NCT00528372|184571219|SUPERIORITY_OR_OTHER||Difference from placebo|-1.27|STANDARD_ERROR_OF_MEAN|0.7257|||TWO_SIDED|95.0|-2.69|0.16||||||||0.16|-2.69|
92333667|NCT00528372|184571219|SUPERIORITY_OR_OTHER||Difference from placebo|-0.87|STANDARD_ERROR_OF_MEAN|0.6103|||TWO_SIDED|95.0|-2.06|0.33||||||||0.33|-2.06|
92333668|NCT00528372|184571220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.175||||||||||||||||
92333669|NCT00528372|184571220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.175||||||||||||||||
92333670|NCT00528372|184571220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.1708||||||||||||||||
92333671|NCT00528372|184571220|SUPERIORITY_OR_OTHER||Difference from placebo|-0.6|STANDARD_ERROR_OF_MEAN|0.1798|||TWO_SIDED|95.0|-0.95|-0.25||||||||-0.25|-0.95|
92333672|NCT00528372|184571220|SUPERIORITY_OR_OTHER||Difference from placebo|-0.55|STANDARD_ERROR_OF_MEAN|0.1741|||TWO_SIDED|95.0|-0.89|-0.21||||||||-0.21|-0.89|
92333673|NCT00528372|184571220|SUPERIORITY_OR_OTHER||Difference from placebo|-0.58|STANDARD_ERROR_OF_MEAN|0.1704|||TWO_SIDED|95.0|-0.92|-0.25||||||||-0.25|-0.92|
92333674|NCT00528372|184571221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.6|STANDARD_ERROR_OF_MEAN|6.526||||||||||||||||
92333675|NCT00528372|184571221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.1|STANDARD_ERROR_OF_MEAN|6.761||||||||||||||||
92333676|NCT00528372|184571221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|6.334||||||||||||||||
92333677|NCT00528372|184571221|SUPERIORITY_OR_OTHER||Percent difference from placebo|18.8|||||TWO_SIDED|95.0|5.5|32.1||||||||32.1|5.5|
92333678|NCT00528372|184571221|SUPERIORITY_OR_OTHER||Percent difference from placebo|11.3|||||TWO_SIDED|95.0|-1.8|24.4||||||||24.4|-1.8|
92333679|NCT00528372|184571221|SUPERIORITY_OR_OTHER||Percent difference from placebo|11.4|||||TWO_SIDED|95.0|-1.0|23.9||||||||23.9|-1.0|
92333680|NCT00528372|184571222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.736||||||||||||||||
92333681|NCT00528372|184571222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.7371||||||||||||||||
92333682|NCT00528372|184571222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.7078||||||||||||||||
92333683|NCT00528372|184571222|SUPERIORITY_OR_OTHER||Difference from placebo|-1.87|STANDARD_ERROR_OF_MEAN|0.7394|||TWO_SIDED|95.0|-3.33|-0.42||||||||-0.42|-3.33|
92333684|NCT00528372|184571222|SUPERIORITY_OR_OTHER||Difference from placebo|-1.27|STANDARD_ERROR_OF_MEAN|0.7257|||TWO_SIDED|95.0|-2.69|0.16||||||||0.16|-2.69|
92333685|NCT00528372|184571222|SUPERIORITY_OR_OTHER||Difference from placebo|-0.97|STANDARD_ERROR_OF_MEAN|0.7135||||95.0|-2.37|0.44||||||||0.44|-2.37|
92333686|NCT01289574|184571233|SUPERIORITY_OR_OTHER|||||||0.1919|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) row mean score statistics, adjusting for investigational site||||||0.1919
92333687|NCT01289574|184571234|SUPERIORITY_OR_OTHER|||||||0.061|||||||Cochran-Mantel-Haenszel|||||||0.0610
92333688|NCT01289574|184571235|SUPERIORITY_OR_OTHER|||||||0.0857|||||||Cochran-Mantel-Haenszel|||||||0.0857
92333689|NCT02526160|184571258|SUPERIORITY||||||<|0.0001||||||From Cochran-Mantel-Haenszel (CMH) testing for association between achieving mean serum phosphorus levels above lower limit of normal (LLN) and treatment group, adjusting for stratification of Brief Pain Inventory (BPI) Average Pain and region.|Cochran-Mantel-Haenszel|||||||< 0.0001
92333690|NCT02526160|184571259|SUPERIORITY||Least squares (LS) mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.275||0.0919|TWO_SIDED|95.0|-1.0|0.08||Prespecified significance level for test after Hochberg adjustment: 0.05|GEE model|||||0.08|-1.00|0.0919
92333691|NCT02526160|184571260|SUPERIORITY||LS mean difference|-8.31|STANDARD_ERROR_OF_MEAN|3.251||0.0106|TWO_SIDED|95.0|-14.68|-1.94||Prespecified significance level for test after Hochberg adjustment: 0.0167|GEE model|||||-1.94|-14.68|0.0106
92333692|NCT02526160|184571261|SUPERIORITY||LS mean difference|-4.9|STANDARD_ERROR_OF_MEAN|2.479||0.0478|TWO_SIDED|95.0|-9.76|-0.05||Prespecified significance level for test after Hochberg adjustment: 0.025|GEE model|||||-0.05|-9.76|0.0478
92333693|NCT04227405|184571292|SUPERIORITY||Slope|0.24|STANDARD_ERROR_OF_MEAN|0.23|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change between pre-test and post-test for the Positive Conflict Management subscale using multilevel modeling||||>.05
92333694|NCT04227405|184571292|SUPERIORITY||Slope|1.59|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change between pre-test and post-test for the Positive Conflict Management subscale using multilevel modeling||||<.001
92333695|NCT04227405|184571292|SUPERIORITY||Slope|1.35|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Positive Conflict Management subscale||||<.001
92333696|NCT04227405|184571292|SUPERIORITY||Slope|0.47|STANDARD_ERROR_OF_MEAN|0.23|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in Negative Conflict Management for the Control Group||||>.05
92333697|NCT04227405|184571292|SUPERIORITY||Slope|-1.48|STANDARD_ERROR_OF_MEAN|0.29|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in the Negative Conflict Management subscale||||<.01
92333698|NCT04227405|184571292|SUPERIORITY||Slope|-1.0|STANDARD_ERROR_OF_MEAN|0.36|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected decrease from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Negative Conflict Management subscale||||<.01
92333699|NCT04227405|184571292|SUPERIORITY||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.14|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes in the Relationship Quality subscale from Pre-test to post-test in the control group||||<.05
92333700|NCT04227405|184571292|SUPERIORITY||Slope|0.86|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Changes in the Relationship Quality Subscale from pretest to posttest in the intervention group|A positive value indicates an increase while a negative value indicates a decrease|||<.001
92333701|NCT04227405|184571292|SUPERIORITY||Slope|0.53|STANDARD_ERROR_OF_MEAN|0.22|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in the Relationship Qualitty subscale|The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|||<.05
92333702|NCT04227405|184571292|SUPERIORITY||Slope|-0.32|STANDARD_ERROR_OF_MEAN|0.11|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Emotional Abuse subscale for the control group||||<.05
92333703|NCT04227405|184571292|SUPERIORITY||Slope|-0.71|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Changes from pre-test to posttest in the Emotional Abuse subscale for the intervention group|A positive value indicates an increase while a negative value indicates a decrease|||<.001
92333704|NCT04227405|184571292|SUPERIORITY||Slope|-0.39|STANDARD_ERROR_OF_MEAN|0.16|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in the Emotional Abuse subscale|The expected decrease from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|||<.05
92333705|NCT04227405|184571292|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Changes from pre-test to posttest in the Relationship Satisfaction subscale for the control group|A positive value indicates an increase while a negative value indicates a decrease|||>.05
92333706|NCT04227405|184571292|SUPERIORITY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Changes from pre-test to posttest in the Relationship satisfaction subscale for the intervention group||||<.001
92333707|NCT04227405|184571292|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Relationship Satisfactionn subscale||||<.001
92333708|NCT04227405|184571292|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Relationship Commitment subscale for the control group||||>.05
92333709|NCT04227405|184571292|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Relationship Commitment subscale for the intervention group||||<.001
92333710|NCT04227405|184571292|SUPERIORITY||Slope|0.27|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Relationship Commitment subscale||||<.001
92333711|NCT04227405|184571292|SUPERIORITY||Slope|-0.7|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Depression subscale for the control group||||<.001
92333712|NCT04227405|184571292|SUPERIORITY||Slope|-0.81|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling|||Changes from pre-test to posttest in the Depression subscale for the control group|A positive value indicates an increase while a negative value indicates a decrease|||<.001
92333713|NCT04227405|184571292|SUPERIORITY||Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.26|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Depression subscale||||>.05
92333714|NCT04227405|184571292|SUPERIORITY||Slope|-0.26|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Anxiety subscale for the control group||||>.05
92333715|NCT04227405|184571292|SUPERIORITY||Slope|-0.41|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Anxiety subscale for the intervention group||||<.001
92333716|NCT04227405|184571292|SUPERIORITY||Slope|-0.15|STANDARD_ERROR_OF_MEAN|0.16|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test and post-test in the intervention group were not significantly different from the change from pre-test and post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Anxiety subscale||||>.05
92333717|NCT04227405|184571292|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in Budgeting subscale for the control group||||<.05
92333718|NCT04227405|184571292|SUPERIORITY||Slope|0.23|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Budgeting subscale for the intervention group||||<.001
92333719|NCT04227405|184571292|SUPERIORITY||Slope|0.12|STANDARD_ERROR_OF_MEAN|0.05|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Budgeting subscale||||<.10
92333720|NCT04227405|184571292|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.05|<|0.1|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Difficulties to Pay Bills subscale for the control group||||<.10
92333721|NCT04227405|184571292|SUPERIORITY||Slope|-0.21|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Difficulties to Pay Bills subscale for the intervention group||||<.001
92333722|NCT04227405|184571292|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in the Difficulties to Pay Bills subscale|Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|||>.05
92333723|NCT04227405|184571292|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.11|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in Time with Partner subscale for the control group||||>.05
92333724|NCT04227405|184571292|SUPERIORITY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.13|<|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in Time with Partner subscale for the intervention group||||<.05
92333725|NCT04227405|184571292|SUPERIORITY||Slope|0.16|STANDARD_ERROR_OF_MEAN|0.17|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to pos-test in the intervention group were not significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Time with Partner subscale||||>.05
92333726|NCT04227405|184571292|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Positive values indicate an increase whereas a negative value indicates a decrease|Change from pre-test to post-test in banking subscale for control group||||>.05
92333727|NCT04227405|184571292|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in banking subscale for the intervention group||||>.05
92333728|NCT04227405|184571292|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in Banking subscale|Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to pos-test in the control group|||>.05
92333729|NCT04227405|184571292|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in parenting stress subscale for the control group||||>.05
92333730|NCT04227405|184571292|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in parenting stress subscale for the intervention group||||>.05
92333731|NCT04227405|184571292|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.11|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Parenting stresss subscale||||>.05
92333732|NCT04227405|184571292|SUPERIORITY||Slope|0.14|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in conflict management satisfaction subscale for the control group||||<.001
92333733|NCT04227405|184571292|SUPERIORITY||Slope|0.32|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in conflict management satisfaction subscale for the intervention group||||<.001
92333734|NCT04227405|184571292|SUPERIORITY||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||The increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Conflict Management Satisfaction subscale||||<.001
92333735|NCT04227405|184571293|SUPERIORITY||Slope|0.18|STANDARD_ERROR_OF_MEAN|0.28|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Positive Conflict Management subscale for the control group||||>.05
92333736|NCT04227405|184571293|SUPERIORITY||Slope|1.53|STANDARD_ERROR_OF_MEAN|0.35|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Positive Conflict Management subscale for the intervention group||||<.001
92333737|NCT04227405|184571293|SUPERIORITY||Slope|1.35|STANDARD_ERROR_OF_MEAN|0.44|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Positive Conflict Management subscale|Difference between the control and the intervention group in the change from Pre-test to Follow-up n the Positive Conflict Management subscale||||<.01
92333738|NCT04227405|184571293|SUPERIORITY||Slope|-0.41|STANDARD_ERROR_OF_MEAN|0.28|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Negative Conflict subscale for the control group||||>.05
92333739|NCT04227405|184571293|SUPERIORITY||Slope|-1.4|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Changes from pre-test to Follow-up in the Negative Conflict Manageement subscale for the intervention group|A positive value indicates an increase while a negative value indicates a decrease|||<.001
92333740|NCT04227405|184571293|SUPERIORITY||Slope|-0.99|STANDARD_ERROR_OF_MEAN|0.44|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected decrease from pre-test to follow-i\[in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up n the Negative Conflict Management subscale||||<.01
92333741|NCT04227405|184571293|SUPERIORITY||Slope|0.41|STANDARD_ERROR_OF_MEAN|0.17|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship Quality subscale for the control group||||>.05
92333742|NCT04227405|184571293|SUPERIORITY||Slope|0.91|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship Quality subscale for the intervention group||||<.001
92333743|NCT04227405|184571293|SUPERIORITY||Slope|0.5|STANDARD_ERROR_OF_MEAN|0.26|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables. Pvalue set at \<.05|Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is not significantly (p \> .05) different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up n the Relationship Quality subscale||||<.10
92333744|NCT04227405|184571293|SUPERIORITY||Slope|-0.31|STANDARD_ERROR_OF_MEAN|0.13|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Emotional Abuse subscale for the control group||||<.10
92333745|NCT04227405|184571293|SUPERIORITY||Slope|-0.71|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Emotional Abuse subscale for the intervention group||||<.001
92333746|NCT04227405|184571293|SUPERIORITY||Slope|-0.41|STANDARD_ERROR_OF_MEAN|0.2|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected decrease from pre-test to follow-up in the intervention group is not significantly (p \> .05) different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Emotional Abuse subscale||||<.10
92333747|NCT04227405|184571293|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship subscale for the control group||||>.05
92333748|NCT04227405|184571293|SUPERIORITY||Slope|0.29|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship Satisfaction subscale for the intervention group||||<.001
92333749|NCT04227405|184571293|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Relationship Satisfaction subscale||||<.001
92333750|NCT04227405|184571293|SUPERIORITY||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship Commitment subscale for the control group||||>.05
92333751|NCT04227405|184571293|SUPERIORITY||Slope|0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship Commitment subscale for the intervention group||||<.001
92333752|NCT04227405|184571293|SUPERIORITY||Slope|0.32|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Relationship Commitment subscale||||<.001
92333753|NCT04227405|184571293|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Positive Conflict Management subscale for the control group||||>.05
92333754|NCT04227405|184571293|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Positive Conflict Management subscale for th eintervention group||||>.05
92333755|NCT04227405|184571293|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.14|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Positive Conflict Management subscale||||>.05
92333756|NCT04227405|184571293|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Negative Conflict Management subscale for the control group||||>.05
92333757|NCT04227405|184571293|SUPERIORITY||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Negative Conflict Management subscale for the intervention group||||>.05
92333758|NCT04227405|184571293|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.14|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Negative Conflict Management subscale||||>.05
92333759|NCT04227405|184571293|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Relationship Quality subscale for the control group||||>.05
92333760|NCT04227405|184571293|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Relationship Quality subscale for the intervention group||||>.05
92333761|NCT04227405|184571293|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Relationship Quality subscale||||>.05
92333762|NCT04227405|184571293|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Emotional Abuse subscale for the control group||||>.05
92333763|NCT04227405|184571293|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||Changes from post-test to Follow-up in the Emotional Abuse subscale for the control group|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Emotional Abuse subscale for the intervention group||||>.05
92333764|NCT04227405|184571293|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Emotional Abuse subscale||||>.05
92333765|NCT04227405|184571293|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.01|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Relationship Satisfaction subscale for the control group||||>.05
92333766|NCT04227405|184571293|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Relationship Satisfaction subscale for the interventionn group||||>.05
92333767|NCT04227405|184571293|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Relationship satisfaction subscale||||>.05
92333768|NCT04227405|184571293|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to Follow-up in the Emotional Abuse subscale for the control group|Changes from post-test to Follow-up in the Relationship Commitment subscale for the control group||||>.05
92333769|NCT04227405|184571293|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Relationship Commitment subscale for the intervention group||||>.05
92333770|NCT04227405|184571293|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.18|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Relationship Commitment subscale||||>.05
92333771|NCT04227405|184571293|SUPERIORITY||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in banking subscale for the control group||||>.05
92333772|NCT04227405|184571293|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in banking subscale for the intervention group||||>.05
92333773|NCT04227405|184571293|SUPERIORITY||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up in Banking subscale||||>.05
92333774|NCT04227405|184571293|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in banking subscale for the control group||||<.001
92333775|NCT04227405|184571293|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in banking subscale for the intervention group||||<.001
92333776|NCT04227405|184571293|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.03|<|0.1|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Difference between the control and the intervention group in the change from post-test to follow-up in Banking subscale|Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|||<.10
92333777|NCT04227405|184571293|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Difficulty to Pay Bills for the control group||||>.05
92333778|NCT04227405|184571293|SUPERIORITY||Slope|-0.19|STANDARD_ERROR_OF_MEAN|0.07|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Difficulties to Pay Bills subscale for the intervention group||||<.05
92333779|NCT04227405|184571293|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.09|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up in Difficulties to pay bills subscale||||>.05
92333780|NCT04227405|184571293|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in Difficulty to Pay Bills subscale for the control group||||>.05
92333781|NCT04227405|184571293|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.03|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in Difficulties to Pay Bills subscale for the intervention group||||>.05
92333782|NCT04227405|184571293|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.03|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up in Difficulty to Pay Bills subscale||||>.05
92333783|NCT04227405|184571293|SUPERIORITY||Slope|-0.69|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|||||No adjustment to p vallue|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in depression subscale for the control group||||<.001
92333784|NCT04227405|184571293|SUPERIORITY||Slope|-0.72|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in depression subscale for the intervention group||||<.001
92333785|NCT04227405|184571293|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.32|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up in Depression subscale||||>.05
92333786|NCT04227405|184571293|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in depression subscale for the control group||||>.05
92333787|NCT04227405|184571293|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in depression subscale for the intervention group||||>.05
92333788|NCT04227405|184571293|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up in depression subscale||||>.05
92333789|NCT04227405|184571293|SUPERIORITY||Slope|-0.29|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Change from pre-test to follow-up in the Anxiety subscale for the control group|A positive value indicates an increase while a negative value indicates a decrease|||<.05
92333790|NCT04227405|184571293|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in the Anxiety subscale for the intervention group||||<.05
92333791|NCT04227405|184571293|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.32|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up in Anxiety subscale||||>.05
92333792|NCT04227405|184571293|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in anxiety subscale for the control group||||>.05
92333793|NCT04227405|184571293|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in anxiety subscale for the control group||||>.05
92333794|NCT04227405|184571293|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up in the Anxiety subscale||||>.05
92333795|NCT04227405|184571293|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.09|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in parenting stress subscale for the control group||||>.05
92333796|NCT04227405|184571293|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in parenting stress subscale for the intervention group||||>.05
92333797|NCT04227405|184571293|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.13|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Difference between the control and the intervention group in the change from pre-test to follow-up in parenting stress subscale|Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|||>.05
92333798|NCT04227405|184571293|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.03|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in banking subscale for the control group||||<.05
92333799|NCT04227405|184571293|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in parenting stress subscale for the control group||||>.05
92333800|NCT04227405|184571293|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up in Parenting Stress subscale||||>.05
92333801|NCT04227405|184571293|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.13|<|0.1|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Time with Partner subscale for the control group||||<.10
92333802|NCT04227405|184571293|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.16|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Time with Parter subscale for the intervention group||||>.05
92333803|NCT04227405|184571293|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.2|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up inn Time with Partner subscale||||>.05
92333804|NCT04227405|184571293|SUPERIORITY||Slope|-0.14|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in Time with Partner subscale for the control group||||<.001
92333805|NCT04227405|184571293|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in Time with Partner subscale for the intervention group||||>.05
92333806|NCT04227405|184571293|SUPERIORITY||Slope|0.2|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Difference between the control and the intervention group in the change from post-test to follow-up in Time with Partner subscale|Changes from post-test to follow-up in the intervention group were significantly different from the change from post-test to follow-up in the control group|||<.001
92333807|NCT04227405|184571293|SUPERIORITY||Slope|0.13|STANDARD_ERROR_OF_MEAN|0.05|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Conflict Management Satisfaction subscale for the control group||||<.05
92333808|NCT04227405|184571293|SUPERIORITY||Slope|0.32|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Conflict Management Satisfaction subscale for the control group||||<.001
92333809|NCT04227405|184571293|SUPERIORITY||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.08|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up in Conflict Management Satisfaction subscale||||<.05
92333810|NCT04227405|184571293|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in Conflict Management Satisfaction subscale for the control group||||>.05
92333811|NCT04227405|184571293|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in conflict management satisfaction subscale for the intervention group||||>.05
92333812|NCT04227405|184571293|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Difference between the control and the intervention group in the change from post-test to follow-up in Conflict Management Satisfaction subscale|Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|||>.05
92333813|NCT04227405|184571293|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.05|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in budgeting subscale for the control group||||<.10
92333814|NCT04227405|184571293|SUPERIORITY||Slope|0.12|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Budgeting subscale for the intervention group||||<.05
92333815|NCT04227405|184571293|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.07|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Difference between the control and the intervention group in the change from pre-test to follow-up in Budgeting subscale|Changes from pre-test to follow-up in the intervention group were significantly different from the change from pre-test to follow-up in the control group|||<.01
92333816|NCT04227405|184571293|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in budgeting subscale for the control group||||<.001
92333817|NCT04227405|184571293|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in budgeting subscale for the intervention group||||<.001
92333818|NCT04227405|184571293|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Difference between the control and the intervention group in the change from pre-test to follow-up in Budgeting subscale|Changes from pre-test to follow-up in the intervention group were significantly different from the change from pre-test to follow-up in the control group|||<.001
92333819|NCT04227405|184571295|SUPERIORITY||Slope|-0.35|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Acceptance subscale for the control group||||<.05
92333820|NCT04227405|184571295|SUPERIORITY||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.14|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Acceptance subscale for the intervention group||||<.05
92333821|NCT04227405|184571295|SUPERIORITY||Slope|0.68|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Acceptance subscale||||<.001
92333822|NCT04227405|184571295|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Active Coping subscale for the control group||||<.05
92333823|NCT04227405|184571295|SUPERIORITY||Slope|0.38|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Active Coping subscale for the intervention group||||<.05
92333824|NCT04227405|184571295|SUPERIORITY||Slope|0.72|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED||||||Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in the Active Coping subscale|The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|||<.001
92333825|NCT04227405|184571295|SUPERIORITY||Slope|-0.32|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Planning subscale for the control group||||<.05
92333826|NCT04227405|184571295|SUPERIORITY||Slope|0.44|STANDARD_ERROR_OF_MEAN|0.15|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Planning subscale for the intervention group||||<.01
92333827|NCT04227405|184571295|SUPERIORITY||Slope|0.76|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Planning subscale||||<.001
92333828|NCT04227405|184571295|SUPERIORITY||Slope|-0.15|STANDARD_ERROR_OF_MEAN|0.12|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Instrumental Support subscale for the control group||||>.05
92333829|NCT04227405|184571295|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.15|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Instrumental Support subscale for the intervention group||||>.05
92333830|NCT04227405|184571295|SUPERIORITY||Slope|0.12|STANDARD_ERROR_OF_MEAN|0.18|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Instrumental Support subscale||||>.05
92333831|NCT04227405|184571296|SUPERIORITY||Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.14|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Acceptance subscale for the control group||||<.10
92333832|NCT04227405|184571296|SUPERIORITY||Slope|0.41|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Acceptance subscale for the intervention group||||<.05
92333833|NCT04227405|184571296|SUPERIORITY||Slope|0.77|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Aceptance subscale||||<.001
92333834|NCT04227405|184571296|SUPERIORITY||Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.15|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Active Coping subscale for the control group||||<.10
92333835|NCT04227405|184571296|SUPERIORITY||Slope|0.4|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Active Coping subscale for the intervention group||||<.05
92333836|NCT04227405|184571296|SUPERIORITY||Slope|0.76|STANDARD_ERROR_OF_MEAN|0.22|<|0.01|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Active Coping subscale||||<.01
92333837|NCT04227405|184571296|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.15|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Planning subscale for the control group||||<.10
92333838|NCT04227405|184571296|SUPERIORITY||Slope|0.59|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Planning subscale for the intervention group||||<.05
92333839|NCT04227405|184571296|SUPERIORITY||Slope|0.94|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Planning subscale||||<.001
92333840|NCT04227405|184571296|SUPERIORITY||Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.15|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Instrumental Support subscale for the control group||||>.05
92333841|NCT04227405|184571296|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.18|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Instrumental Support subscale for the Intervention group||||>.05
92333842|NCT04227405|184571296|SUPERIORITY||Slope|0.13|STANDARD_ERROR_OF_MEAN|0.23|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Instrumental Support subscale||||>.05
92333843|NCT04227405|184571296|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Acceptance subscale for the control group||||>.05
92333844|NCT04227405|184571296|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Acceptance subscale for the intervention group||||>.05
92333845|NCT04227405|184571296|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Positive Conflict Management subscale||||>.05
92333846|NCT04227405|184571296|SUPERIORITY|Changes from post-test to Follow-up in the Active Coping subscale for the control group|Slope|0.02|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|||||>.05
92333847|NCT04227405|184571296|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Active Coping subscale for the intervention group||||>.05
92333848|NCT04227405|184571296|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Active Copinng subscale||||>.05
92333849|NCT04227405|184571296|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Plannning subscale for the control group||||>.05
92333850|NCT04227405|184571296|SUPERIORITY||Slope|-0.15|STANDARD_ERROR_OF_MEAN|0.06|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Planning subscale for the intervention group||||<.10
92333851|NCT04227405|184571296|SUPERIORITY||Slope|-0.17|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Planning subscale||||>.05
92333852|NCT04227405|184571296|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Instrumental Support subscale for the control group||||>.05
92333853|NCT04227405|184571296|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Instrumental Support subscale for the intervention group||||>.05
92333854|NCT04227405|184571296|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Instrumental Support subscale||||>.05
92333855|NCT04227405|184571298|SUPERIORITY||Slope|-0.3|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to Follow-up in the Emotional Abuse subscale for the control group|Changes from pre-test to posttest in the Acceptance subscale for the control group||||<.05
92333856|NCT04227405|184571298|SUPERIORITY||Slope|0.47|STANDARD_ERROR_OF_MEAN|0.16|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Emotional Abuse subscale for the control group||||<.01
92333857|NCT04227405|184571298|SUPERIORITY||Slope|0.77|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Acceptance subscale||||<.001
92333858|NCT04227405|184571298|SUPERIORITY||Slope|-0.17|STANDARD_ERROR_OF_MEAN|0.13|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Active Coping subscale for the control group||||>.05
92333859|NCT04227405|184571298|SUPERIORITY||Slope|0.3|STANDARD_ERROR_OF_MEAN|0.17|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Active Coping subscale for the intervention group||||<.10
92333860|NCT04227405|184571298|SUPERIORITY||Slope|0.47|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Active Coping subscale||||<.05
92333861|NCT04227405|184571298|SUPERIORITY||Slope|-0.38|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Planning subscale for the control group||||<.05
92333862|NCT04227405|184571298|SUPERIORITY||Slope|0.37|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Planning subscale for the Intervention group||||<.05
92333863|NCT04227405|184571298|SUPERIORITY||Slope|0.74|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Planning subscale||||<.001
92333864|NCT04227405|184571298|SUPERIORITY||Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.12|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Instrumental Support subscale for the control group||||>.05
92333865|NCT04227405|184571298|SUPERIORITY||Slope|0.49|STANDARD_ERROR_OF_MEAN|0.16|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Instrumental Support subscale for the intervention group||||<.01
92333866|NCT04227405|184571298|SUPERIORITY||Slope|0.6|STANDARD_ERROR_OF_MEAN|0.19|<|0.01|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Instrumental Support subscale||||<.01
92333867|NCT04227405|184571299|SUPERIORITY||Slope|-0.25|STANDARD_ERROR_OF_MEAN|0.15|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Acceptance subscale for the control group||||>.05
92333868|NCT04227405|184571299|SUPERIORITY||Slope|0.52|STANDARD_ERROR_OF_MEAN|0.19|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Acceptance subscale for the intervention group||||<.01
92333869|NCT04227405|184571299|SUPERIORITY||Slope|0.78|STANDARD_ERROR_OF_MEAN|0.24|<|0.01|TWO_SIDED||||||Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Acceptance subscale|The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|||<.01
92333870|NCT04227405|184571299|SUPERIORITY||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.16|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Active Coping subscale for the control group||||>.05
92333871|NCT04227405|184571299|SUPERIORITY||Slope|0.36|STANDARD_ERROR_OF_MEAN|0.2|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Active Coping subscale for the intervention group||||<.10
92333872|NCT04227405|184571299|SUPERIORITY||Slope|0.4|STANDARD_ERROR_OF_MEAN|0.25|<|0.1|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Active Coping subscale||||<.10
92333873|NCT04227405|184571299|SUPERIORITY||Slope|-0.31|STANDARD_ERROR_OF_MEAN|0.15|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Planning subscale for the control group||||<.10
92333874|NCT04227405|184571299|SUPERIORITY||Slope|0.4|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Planning subscale for the intervention group||||<.05
92333875|NCT04227405|184571299|SUPERIORITY||Slope|0.71|STANDARD_ERROR_OF_MEAN|0.23|<|0.01|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Planning subscale||||<.01
92333876|NCT04227405|184571299|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.16|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Instrumental Support subscale for the control group||||>.05
92333877|NCT04227405|184571299|SUPERIORITY||Slope|0.64|STANDARD_ERROR_OF_MEAN|0.19|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Instrumental Support subscale for the intervention group||||<.01
92333878|NCT04227405|184571299|SUPERIORITY||Slope|0.66|STANDARD_ERROR_OF_MEAN|0.24|<|0.01|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Instrumental Support subscale||||<.01
92333879|NCT04227405|184571299|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Acceptance subscale for the control group||||>.05
92333880|NCT04227405|184571299|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Acceptance subscale for the interventionn group||||>.05
92333881|NCT04227405|184571299|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Acceptance subscale||||>.05
92333882|NCT04227405|184571299|SUPERIORITY||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Active Coping subscale for the control group||||>.05
92333883|NCT04227405|184571299|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Active Coping in the intervention group||||>.05
92333884|NCT04227405|184571299|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Active Coping subscale||||>.05
92333885|NCT04227405|184571299|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Planning subscale for the control group||||>.05
92333886|NCT04227405|184571299|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Planning subscale for the intervention group||||>.05
92333887|NCT04227405|184571299|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in Planning subscale||||>.05
92333888|NCT04227405|184571299|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Instrumental Support subscale for the control group||||>.05
92333889|NCT04227405|184571299|SUPERIORITY||Slope|-0.15|STANDARD_ERROR_OF_MEAN|0.06|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Instrumental Support subscale for the intervention group||||<.10
92333890|NCT04227405|184571299|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Instrumental Supportt subscale||||>.05
92333891|NCT04227405|184571301|SUPERIORITY||Slope|-1.41|STANDARD_ERROR_OF_MEAN|0.49|<|0.05|TWO_SIDED||||||Multilevel modeling|||Changes from pre-test to posttest for the control group|A positive value indicates an increase while a negative value indicates a decrease|||<.05
92333892|NCT04227405|184571301|SUPERIORITY||Slope|2.02|STANDARD_ERROR_OF_MEAN|0.69|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest for the intervention group||||<.01
92333893|NCT04227405|184571301|SUPERIORITY||Slope|-0.62|STANDARD_ERROR_OF_MEAN|0.83|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to post-test t in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test||||>.05
92333894|NCT04227405|184571302|SUPERIORITY||Slope|-1.48|STANDARD_ERROR_OF_MEAN|0.6|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up for the control group||||>.05
92333895|NCT04227405|184571302|SUPERIORITY||Slope|-1.5|STANDARD_ERROR_OF_MEAN|0.82|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up for the intervention group||||<.10
92333896|NCT04227405|184571302|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|1.01|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up||||>.05
92333897|NCT04227405|184571302|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up for the control group||||>.05
92333898|NCT04227405|184571302|SUPERIORITY||Slope|-0.52|STANDARD_ERROR_OF_MEAN|0.23|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up for the control group||||>.05
92333899|NCT04227405|184571302|SUPERIORITY||Slope|-0.6|STANDARD_ERROR_OF_MEAN|0.03|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up||||>.05
92333900|NCT04227405|184571304|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|1.16|>|0.05|TWO_SIDED|||||No adjustment for p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in Difficulties in Emotion Regulation for the control group||||>.05
92333901|NCT04227405|184571304|SUPERIORITY||Slope|-3.07|STANDARD_ERROR_OF_MEAN|1.51|<|0.05|TWO_SIDED|||||No adjustment for p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group||||<.05
92333902|NCT04227405|184571304|SUPERIORITY||Slope|-2.74|STANDARD_ERROR_OF_MEAN|1.85|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test||||>.05
92333903|NCT04227405|184571305|SUPERIORITY||Slope|-0.7|STANDARD_ERROR_OF_MEAN|1.41|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling|||Change from pre-test to follow-up for the control group|A positive value indicates an increase while a negative value indicates a decrease|||>.05
92333904|NCT04227405|184571305|SUPERIORITY||Slope|-2.74|STANDARD_ERROR_OF_MEAN|1.79|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the control group||||>.05
92333905|NCT04227405|184571305|SUPERIORITY||Slope|-2.04|STANDARD_ERROR_OF_MEAN|2.24|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up||||>.05
92333906|NCT04227405|184571305|SUPERIORITY||Slope|0.36|STANDARD_ERROR_OF_MEAN|0.46|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group||||>.05
92333907|NCT04227405|184571305|SUPERIORITY||Slope|-0.33|STANDARD_ERROR_OF_MEAN|0.5|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group||||>.05
92333908|NCT04227405|184571305|SUPERIORITY||Slope|-0.69|STANDARD_ERROR_OF_MEAN|0.68|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up||||>.05
92333909|NCT04227405|184571307|SUPERIORITY||Slope|-0.39|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in psychological agggression subscale for the control group||||<.001
92333910|NCT04227405|184571307|SUPERIORITY||Slope|-0.73|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in psychological aggression subscale for the intervention group||||<.001
92333911|NCT04227405|184571307|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.17|<|0.1|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Psychological Aggression subscale||||<.10
92333912|NCT04227405|184571307|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.09|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Change from pre-test to post-test in physical assault subscale for the control group|A positive value indicates an increase while a negative value indicates a decrease|||>.05
92333913|NCT04227405|184571307|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in the physical assault subscale for the intervention group||||<.001
92333914|NCT04227405|184571307|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.14|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Physical Assault subscale||||<.05
92333915|NCT04227405|184571308|SUPERIORITY||Slope|-0.47|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in the psychological aggression subscale for the control group||||<.001
92333916|NCT04227405|184571308|SUPERIORITY||Slope|-0.77|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in the Psychological Aggression subscale for the intervention group||||<.001
92333917|NCT04227405|184571308|SUPERIORITY||Slope|-0.3|STANDARD_ERROR_OF_MEAN|0.21|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up inn the psychological aggression subscale||||>.05
92333918|NCT04227405|184571308|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.04|<|0.1|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group in the psychological aggression subscale||||<.10
92333919|NCT04227405|184571308|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the intervention group for the psychological aggresssion subscale||||>.05
92333920|NCT04227405|184571308|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up in the psychological aggression subscale||||>.05
92333921|NCT04227405|184571308|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.12|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the control group for the physical assault subscale||||>.05
92333922|NCT04227405|184571308|SUPERIORITY||Slope|-0.4|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the control group for the Physical Assault Subscale||||<.05
92333923|NCT04227405|184571308|SUPERIORITY||Slope|-0.37|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up for the Physical Assault subscale||||<.05
92333924|NCT04227405|184571308|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group for the Physical Assault subscale||||>.05
92333925|NCT04227405|184571308|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the intervention group for the Physical Assault subscale||||>.05
92333926|NCT04227405|184571308|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up||||>.05
92333927|NCT04227405|184571310|SUPERIORITY||Slope|-2.12|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group||||<.001
92333928|NCT04227405|184571310|SUPERIORITY||Slope|-4.46|STANDARD_ERROR_OF_MEAN|0.73|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group||||<.001
92333929|NCT04227405|184571310|SUPERIORITY||Slope|-2.34|STANDARD_ERROR_OF_MEAN|0.89|<|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Time||||<.05
92333930|NCT04227405|184571311|SUPERIORITY||Slope|-1.96|STANDARD_ERROR_OF_MEAN|0.7|<|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the control group||||<.05
92333931|NCT04227405|184571311|SUPERIORITY||Slope|-4.48|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the intervention group||||<.001
92333932|NCT04227405|184571311|SUPERIORITY||Slope|-2.52|STANDARD_ERROR_OF_MEAN|1.1|<|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up||||<.05
92333933|NCT04227405|184571311|SUPERIORITY||Slope|-0.16|STANDARD_ERROR_OF_MEAN|0.24|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group||||>.05
92333934|NCT04227405|184571311|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.26|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group||||>.05
92333935|NCT04227405|184571311|SUPERIORITY||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.35|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up||||>.05
92333936|NCT04227405|184571313|SUPERIORITY||Slope|0.37|STANDARD_ERROR_OF_MEAN|0.24|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group for Supportive Dyadic Coping subscale||||>.05
92333937|NCT04227405|184571313|SUPERIORITY||Slope|0.71|STANDARD_ERROR_OF_MEAN|0.31|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group||||<.05
92333938|NCT04227405|184571313|SUPERIORITY||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.38|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in the Supportive Dyadic Coping subscale|Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|||>.05
92333939|NCT04227405|184571313|SUPERIORITY||Slope|0.23|STANDARD_ERROR_OF_MEAN|0.3|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group for the common dyadic coping subscale||||>.05
92333940|NCT04227405|184571313|SUPERIORITY||Slope|1.21|STANDARD_ERROR_OF_MEAN|0.39|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group in the Common Dyadic Coping subscale||||<.01
92333941|NCT04227405|184571313|SUPERIORITY||Slope|0.97|STANDARD_ERROR_OF_MEAN|0.47|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test for the Common Dyadic Coping Subscale||||<.10
92333942|NCT04227405|184571313|SUPERIORITY||Slope|-0.74|STANDARD_ERROR_OF_MEAN|0.37|<|0.1|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group in the Negative Dyadic Coping Subscale||||<.10
92333943|NCT04227405|184571313|SUPERIORITY||Slope|-1.14|STANDARD_ERROR_OF_MEAN|0.49|<|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group for the Negative Dyadic Coping subscale||||<.05
92333944|NCT04227405|184571313|SUPERIORITY||Slope|-0.39|STANDARD_ERROR_OF_MEAN|0.6|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test inn the Negative Dyadic Coping Scale||||>.05
92333945|NCT04227405|184571314|SUPERIORITY||Slope|0.57|STANDARD_ERROR_OF_MEAN|0.29|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the control group for the Supportive Dyadic Coping Subscale||||>.05
92333946|NCT04227405|184571314|SUPERIORITY||Slope|0.7|STANDARD_ERROR_OF_MEAN|0.37|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the intervention group for the Supportive Dyadic Coping Subscale||||<.05
92333947|NCT04227405|184571314|SUPERIORITY||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.46|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up for the Supportive Dyadic Coping Subscale||||>.05
92333948|NCT04227405|184571316|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.26|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group in the Supportive Dyadic Coping Subcale||||>.05
92333949|NCT04227405|184571316|SUPERIORITY||Slope|1.45|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group in the Supportive Dyadic Coping Scale||||<.001
92333950|NCT04227405|184571316|SUPERIORITY||Slope|1.42|STANDARD_ERROR_OF_MEAN|0.41|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from pre-test to post-test in the intervention group were significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test||||<.01
92333951|NCT04227405|184571316|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.35|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group for the Common Dyadic Coping Subscale||||>.05
92333952|NCT04227405|184571316|SUPERIORITY||Slope|2.12|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group in the Common Dyadic Coping Subscale||||<.001
92333953|NCT04227405|184571316|SUPERIORITY||Slope|1.91|STANDARD_ERROR_OF_MEAN|0.55|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from pre-test to post-test in the intervention group were significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test inn the Common Dyadic Coping subscale||||<.01
92333954|NCT04227405|184571316|SUPERIORITY||Slope|-0.68|STANDARD_ERROR_OF_MEAN|0.42|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group for the Negative Dyadic Coping Scale||||>.05
92333955|NCT04227405|184571316|SUPERIORITY||Slope|-1.02|STANDARD_ERROR_OF_MEAN|0.53|<|0.1|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group for the Negative Dyadic Coping Scale||||<.10
92333956|NCT04227405|184571316|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.65|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test for the Negative Dyadic Coping Subscale||||>.05
92333957|NCT03252145|184571405|OTHER|||||||0.096|||||||t-test, 2 sided|||||||0.096
92333958|NCT03252145|184571406|OTHER|||||||0.206|||||||t-test, 2 sided|||||||0.206
92333959|NCT03252145|184571407|OTHER|||||||0.096|||||||t-test, 2 sided|||||||0.096
92333960|NCT03252145|184571408|OTHER|||||||0.206|||||||t-test, 2 sided|||||||0.206
92333961|NCT03252145|184571409|OTHER|||||||0.552|||||||t-test, 2 sided|||||||0.552
92333962|NCT03252145|184571410|OTHER|||||||0.498|||||||t-test, 2 sided|||||||0.498
92333963|NCT03252145|184571411|OTHER|||||||0.264|||||||t-test, 2 sided|||Affected Arm Only||||0.264
92333964|NCT03252145|184571411|OTHER|||||||0.224|||||||t-test, 2 sided|||Unaffected arm||||0.224
92333965|NCT03252145|184571412|OTHER|||||||0.125|||||||t-test, 2 sided|||Affected arm||||0.125
92333966|NCT03252145|184571412|OTHER|||||||0.241|||||||t-test, 2 sided|||Unaffected arm||||0.241
92333967|NCT03252145|184571413|OTHER|||||||0.261|||||||t-test, 2 sided|||Affected Arm||||0.261
92333968|NCT03252145|184571413|OTHER|||||||0.597|||||||t-test, 2 sided|||Unaffected Arm||||0.597
92333969|NCT03252145|184571414|OTHER|||||||0.596|||||||t-test, 2 sided|||Affected arm||||0.596
92333970|NCT03252145|184571414|OTHER|||||||0.219|||||||t-test, 2 sided|||Unaffected arm||||0.219
92333971|NCT03252145|184571415|OTHER|||||||0.842|||||||t-test, 2 sided|||||||0.842
92333972|NCT03252145|184571416|OTHER|||||||0.772|||||||t-test, 2 sided|||||||0.772
92333973|NCT03252145|184571417|OTHER|||||||0.3|||||||t-test, 2 sided|||||||0.300
92333974|NCT03252145|184571418|OTHER|||||||0.3|||||||t-test, 2 sided|||||||0.300
92333975|NCT03252145|184571419|OTHER|||||||0.679|||||||t-test, 2 sided|||||||0.679
92333976|NCT03252145|184571420|OTHER|||||||0.12|||||||t-test, 2 sided|||||||0.120
92333977|NCT03252145|184571421|OTHER|||||||0.138|||||||t-test, 2 sided|||||||0.138
92333978|NCT03252145|184571422|OTHER|||||||0.096|||||||t-test, 2 sided|||||||0.096
92333979|NCT03252145|184571423|OTHER|||||||0.206|||||||t-test, 2 sided|||||||0.206
92333980|NCT03252145|184571425|OTHER|||||||0.08|||||||t-test, 2 sided|||||||0.080
92333981|NCT03252145|184571426|OTHER|||||||0.068|||||||t-test, 2 sided|||Physical Function Domain||||0.068
92333982|NCT03252145|184571426|OTHER|||||||0.808|||||||t-test, 2 sided|||Anxiety Domain||||0.808
92333983|NCT03252145|184571426|OTHER|||||||0.557|||||||t-test, 2 sided|||Depression Domain||||0.557
92333984|NCT03252145|184571426|OTHER|||||||0.049|||||||t-test, 2 sided|||Fatigue Domain||||0.049
92333985|NCT03252145|184571426|OTHER|||||||0.279|||||||t-test, 2 sided|||Sleep Disturbance Domain||||0.279
92333986|NCT03252145|184571426|OTHER|||||||0.02|||||||t-test, 2 sided|||Roles/Activity Domain||||0.020
92333987|NCT03252145|184571426|OTHER|||||||0.009|||||||t-test, 2 sided|||Pain Interference Domain||||0.009
92333988|NCT03252145|184571427|OTHER|||||||0.038|||||||t-test, 2 sided|||Physical Function Domain||||0.038
92333989|NCT03252145|184571427|OTHER|||||||0.108|||||||t-test, 2 sided|||Anxiety Domain||||0.108
92333990|NCT03252145|184571427|OTHER|||||||0.467|||||||t-test, 2 sided|||Depression Domain||||0.467
92333991|NCT03252145|184571427|OTHER|||||||0.078|||||||t-test, 2 sided|||Fatigue Domain||||0.078
92333992|NCT03252145|184571427|OTHER|||||||0.147|||||||t-test, 2 sided|||Sleep Disturbance Domain||||0.147
92333993|NCT03252145|184571427|OTHER|||||||0.004|||||||t-test, 2 sided|||Roles/Activity Domain||||0.004
92333994|NCT03252145|184571427|OTHER|||||||0.032|||||||t-test, 2 sided|||Pain Interference Domain||||0.032
92333995|NCT03252145|184571428|OTHER|||||||0.938|||||||t-test, 2 sided|||||||0.938
92333996|NCT03252145|184571429|OTHER|||||||0.603|||||||t-test, 2 sided|||||||0.603
92333997|NCT03252145|184571430|OTHER|||||||0.837|||||||t-test, 2 sided|||||||0.837
92333998|NCT03252145|184571431|OTHER|||||||0.511|||||||t-test, 2 sided|||||||0.511
92333999|NCT03252145|184571432|OTHER|||||||0.326|||||||t-test, 2 sided|||||||0.326
92334000|NCT01763827|184571441|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.14|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-61.14|-53.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-53.14|-61.14|<0.001
92334001|NCT01763827|184571441|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.78|STANDARD_ERROR_OF_MEAN|1.87|<|0.001|TWO_SIDED|95.0|-58.46|-51.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-51.10|-58.46|<0.001
92334002|NCT01763827|184571441|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.29|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-43.28|-35.31||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-35.31|-43.28|<0.001
92334003|NCT01763827|184571441|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.55|STANDARD_ERROR_OF_MEAN|1.88|<|0.001|TWO_SIDED|95.0|-41.24|-33.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-33.86|-41.24|<0.001
92334004|NCT01763827|184571442|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.5|STANDARD_ERROR_OF_MEAN|1.76|<|0.001|TWO_SIDED|95.0|-59.95|-53.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-53.04|-59.95|<0.001
92334005|NCT01763827|184571442|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.4|STANDARD_ERROR_OF_MEAN|1.66|<|0.001|TWO_SIDED|95.0|-60.66|-54.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-54.14|-60.66|<0.001
92334006|NCT01763827|184571442|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.41|STANDARD_ERROR_OF_MEAN|1.76|<|0.001|TWO_SIDED|95.0|-42.87|-35.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-35.94|-42.87|<0.001
92334007|NCT01763827|184571442|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.69|STANDARD_ERROR_OF_MEAN|1.66|<|0.001|TWO_SIDED|95.0|-42.97|-36.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-36.42|-42.97|<0.001
92334008|NCT01763827|184571443|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-79.6|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-85.0|-74.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-74.2|-85.0|<0.001
92334009|NCT01763827|184571443|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-81.9|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-87.0|-76.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-76.9|-87.0|<0.001
92334010|NCT01763827|184571443|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.3|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-60.7|-49.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-49.9|-60.7|<0.001
92334011|NCT01763827|184571443|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.1|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-61.1|-51.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-51.0|-61.1|<0.001
92334012|NCT01763827|184571444|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-80.4|STANDARD_ERROR_OF_MEAN|3.1|<|0.001|TWO_SIDED|95.0|-86.4|-74.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-74.3|-86.4|<0.001
92334013|NCT01763827|184571444|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-77.8|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-83.4|-72.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-72.2|-83.4|<0.001
92334014|NCT01763827|184571444|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.0|STANDARD_ERROR_OF_MEAN|3.1|<|0.001|TWO_SIDED|95.0|-61.1|-49.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe was the reference|||-49.0|-61.1|<0.001
92334015|NCT01763827|184571444|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.9|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-58.5|-47.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe was the reference|||-47.3|-58.5|<0.001
92334016|NCT01763827|184571445|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|73.6|||<|0.001|TWO_SIDED|95.0|64.4|80.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||80.2|64.4|<0.001
92334017|NCT01763827|184571445|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|71.3|||<|0.001|TWO_SIDED|95.0|62.2|78.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||78.0|62.2|<0.001
92334018|NCT01763827|184571445|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|72.2|||<|0.001|TWO_SIDED|95.0|62.4|78.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||78.9|62.4|<0.001
92334019|NCT01763827|184571445|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|68.6|||<|0.001|TWO_SIDED|95.0|58.3|75.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||75.5|58.3|<0.001
92334020|NCT01763827|184571446|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|71.5|||<|0.001|TWO_SIDED|95.0|61.2|78.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||78.4|61.2|<0.001
92334021|NCT01763827|184571446|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|65.4|||<|0.001|TWO_SIDED|95.0|55.6|72.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||72.9|55.6|<0.001
92334022|NCT01763827|184571446|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|71.5|||<|0.001|TWO_SIDED|95.0|61.3|78.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||78.4|61.3|<0.001
92334023|NCT01763827|184571446|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|64.0|||<|0.001|TWO_SIDED|95.0|53.5|71.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||71.6|53.5|<0.001
92334024|NCT01763827|184571447|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-48.81|STANDARD_ERROR_OF_MEAN|1.63|<|0.001|TWO_SIDED|95.0|-52.01|-45.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-45.61|-52.01|<0.001
92334025|NCT01763827|184571447|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-53.28|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-56.23|-50.33||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-50.33|-56.23|<0.001
92334026|NCT01763827|184571447|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.58|STANDARD_ERROR_OF_MEAN|1.63|<|0.001|TWO_SIDED|95.0|-38.79|-32.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-32.38|-38.79|<0.001
92334027|NCT01763827|184571447|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.49|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-38.44|-32.53||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-32.53|-38.44|<0.001
92334028|NCT01763827|184571448|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.81|STANDARD_ERROR_OF_MEAN|1.79|<|0.001|TWO_SIDED|95.0|-53.34|-46.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-46.27|-53.34|<0.001
92334029|NCT01763827|184571448|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-51.19|STANDARD_ERROR_OF_MEAN|1.67|<|0.001|TWO_SIDED|95.0|-54.49|-47.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-47.90|-54.49|<0.001
92334030|NCT01763827|184571448|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.23|STANDARD_ERROR_OF_MEAN|1.78|<|0.001|TWO_SIDED|95.0|-38.74|-31.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-31.71|-38.74|<0.001
92334031|NCT01763827|184571448|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.21|STANDARD_ERROR_OF_MEAN|1.68|<|0.001|TWO_SIDED|95.0|-36.51|-29.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-29.90|-36.51|<0.001
92334032|NCT01763827|184571449|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.09|STANDARD_ERROR_OF_MEAN|1.82|<|0.001|TWO_SIDED|95.0|-50.67|-43.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-43.51|-50.67|<0.001
92334033|NCT01763827|184571449|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.93|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-54.27|-47.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-47.59|-54.27|<0.001
92334034|NCT01763827|184571449|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.57|STANDARD_ERROR_OF_MEAN|1.82|<|0.001|TWO_SIDED|95.0|-37.15|-29.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-29.99|-37.15|<0.001
92334035|NCT01763827|184571449|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.64|STANDARD_ERROR_OF_MEAN|1.71|<|0.001|TWO_SIDED|95.0|-37.99|-31.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-31.28|-37.99|<0.001
92334036|NCT01763827|184571450|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.81|STANDARD_ERROR_OF_MEAN|1.91|<|0.001|TWO_SIDED|95.0|-51.56|-44.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-44.05|-51.56|<0.001
92334037|NCT01763827|184571450|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-48.43|STANDARD_ERROR_OF_MEAN|1.85|<|0.001|TWO_SIDED|95.0|-52.07|-44.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-44.79|-52.07|<0.001
92334038|NCT01763827|184571450|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.04|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|-37.78|-30.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-30.30|-37.78|<0.001
92334039|NCT01763827|184571450|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.57|STANDARD_ERROR_OF_MEAN|1.85|<|0.001|TWO_SIDED|95.0|-36.21|-28.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-28.92|-36.21|<0.001
92334040|NCT01763827|184571451|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.93|STANDARD_ERROR_OF_MEAN|1.56|<|0.001|TWO_SIDED|95.0|-42.0|-35.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-35.86|-42.00|<0.001
92334041|NCT01763827|184571451|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.83|STANDARD_ERROR_OF_MEAN|1.81|<|0.001|TWO_SIDED|95.0|-49.39|-42.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-42.27|-49.39|<0.001
92334042|NCT01763827|184571451|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.36|STANDARD_ERROR_OF_MEAN|1.56|<|0.001|TWO_SIDED|95.0|-32.43|-26.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-26.28|-32.43|<0.001
92334043|NCT01763827|184571451|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.51|STANDARD_ERROR_OF_MEAN|1.81|<|0.001|TWO_SIDED|95.0|-31.08|-23.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-23.94|-31.08|<0.001
92334044|NCT01763827|184571452|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.63|STANDARD_ERROR_OF_MEAN|1.69|<|0.001|TWO_SIDED|95.0|-42.97|-36.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-36.30|-42.97|<0.001
92334045|NCT01763827|184571452|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.67|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-48.66|-40.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-40.68|-48.66|<0.001
92334046|NCT01763827|184571452|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.42|STANDARD_ERROR_OF_MEAN|1.68|<|0.001|TWO_SIDED|95.0|-31.73|-25.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-25.10|-31.73|<0.001
92334047|NCT01763827|184571452|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.31|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-29.31|-21.31||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-21.31|-29.31|<0.001
92334048|NCT01763827|184571453|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.12|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-53.12|-45.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-45.12|-53.12|<0.001
92334049|NCT01763827|184571453|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.95|STANDARD_ERROR_OF_MEAN|2.12|<|0.001|TWO_SIDED|95.0|-59.12|-50.78||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-50.78|-59.12|<0.001
92334050|NCT01763827|184571453|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.73|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-38.73|-30.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-30.73|-38.73|<0.001
92334051|NCT01763827|184571453|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.62|STANDARD_ERROR_OF_MEAN|2.13|<|0.001|TWO_SIDED|95.0|-40.81|-32.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-32.42|-40.81|<0.001
92334052|NCT01763827|184571454|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.57|STANDARD_ERROR_OF_MEAN|2.14|<|0.001|TWO_SIDED|95.0|-53.78|-45.36||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-45.36|-53.78|<0.001
92334053|NCT01763827|184571454|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.77|STANDARD_ERROR_OF_MEAN|2.29|<|0.001|TWO_SIDED|95.0|-57.28|-48.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-48.26|-57.28|<0.001
92334054|NCT01763827|184571454|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.76|STANDARD_ERROR_OF_MEAN|2.13|<|0.001|TWO_SIDED|95.0|-39.95|-31.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-31.57|-39.95|<0.001
92334055|NCT01763827|184571454|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.97|STANDARD_ERROR_OF_MEAN|2.29|<|0.001|TWO_SIDED|95.0|-38.48|-29.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-29.45|-38.48|<0.001
92334056|NCT01763827|184571455|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-18.48|||<|0.001|TWO_SIDED|95.0|-25.28|-11.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-11.68|-25.28|<0.001
92334057|NCT01763827|184571455|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-19.24|||<|0.001|TWO_SIDED|95.0|-23.2|-15.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-15.28|-23.20|<0.001
92334058|NCT01763827|184571455|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-18.37|||<|0.001|TWO_SIDED|95.0|-24.39|-12.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-12.35|-24.39|<0.001
92334059|NCT01763827|184571455|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-17.15|||<|0.001|TWO_SIDED|95.0|-23.23|-11.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-11.08|-23.23|<0.001
92334060|NCT01763827|184571456|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-20.41|||<|0.001|TWO_SIDED|95.0|-27.76|-13.06||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-13.06|-27.76|<0.001
92334061|NCT01763827|184571456|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-17.82|||<|0.001|TWO_SIDED|95.0|-24.51|-11.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-11.12|-24.51|<0.001
92334062|NCT01763827|184571456|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-20.41|||<|0.001|TWO_SIDED|95.0|-28.13|-12.69||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-12.69|-28.13|<0.001
92334063|NCT01763827|184571456|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-15.77|||<|0.001|TWO_SIDED|95.0|-24.39|-7.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-7.14|-24.39|<0.001
92334064|NCT01763827|184571457|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-5.27||||0.72|TWO_SIDED|95.0|-13.27|2.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||2.73|-13.27|0.72
92334065|NCT01763827|184571457|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-20.59|||<|0.001|TWO_SIDED|95.0|-30.98|-10.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-10.20|-30.98|<0.001
92334066|NCT01763827|184571457|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-7.71||||0.027|TWO_SIDED|95.0|-16.86|1.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||1.45|-16.86|0.027
92334067|NCT01763827|184571457|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-11.73||||0.044|TWO_SIDED|95.0|-21.19|-2.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-2.27|-21.19|0.044
92334068|NCT01763827|184571458|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-6.23||||0.72|TWO_SIDED|95.0|-16.41|3.95||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||3.95|-16.41|0.72
92334069|NCT01763827|184571458|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-17.65|||<|0.001|TWO_SIDED|95.0|-26.67|-8.63||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm|||-8.63|-26.67|<0.001
92334070|NCT01763827|184571458|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-8.14||||0.027|TWO_SIDED|95.0|-17.54|1.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||1.26|-17.54|0.027
92334071|NCT01763827|184571458|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-13.23||||0.044|TWO_SIDED|95.0|-21.69|-4.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-4.77|-21.69|0.044
92334072|NCT01763827|184571459|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-4.59||||0.072|TWO_SIDED|95.0|-11.3|2.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||2.12|-11.30|0.072
92334073|NCT01763827|184571459|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-20.39|||<|0.001|TWO_SIDED|95.0|-30.11|-10.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-10.68|-30.11|<0.001
92334074|NCT01763827|184571459|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-5.71||||0.082|TWO_SIDED|95.0|-14.13|2.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||2.71|-14.13|0.082
92334075|NCT01763827|184571459|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-12.84||||0.044|TWO_SIDED|95.0|-22.14|-3.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baselie value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-3.54|-22.14|0.044
92334076|NCT01763827|184571460|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-7.94||||0.72|TWO_SIDED|95.0|-18.81|2.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||2.92|-18.81|0.72
92334077|NCT01763827|184571460|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-16.33|||<|0.001|TWO_SIDED|95.0|-25.64|-7.02||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-7.02|-25.64|<0.001
92334078|NCT01763827|184571460|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-8.58||||0.082|TWO_SIDED|95.0|-18.1|0.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||0.94|-18.10|0.082
92334079|NCT01763827|184571460|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-12.72||||0.044|TWO_SIDED|95.0|-20.89|-4.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-4.54|-20.89|0.044
92334080|NCT01763827|184571461|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|5.53||||0.007|TWO_SIDED|95.0|2.23|8.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||8.84|2.23|0.007
92334081|NCT01763827|184571461|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|8.48|||<|0.001|TWO_SIDED|95.0|5.53|11.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||11.43|5.53|<0.001
92334082|NCT01763827|184571461|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|4.81||||0.013|TWO_SIDED|95.0|0.85|8.78||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||8.78|0.85|0.013
92334083|NCT01763827|184571461|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|3.81||||0.044|TWO_SIDED|95.0|-0.77|8.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline visit|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||8.39|-0.77|0.044
92334084|NCT01763827|184571462|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|5.91||||0.007|TWO_SIDED|95.0|1.67|10.16||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||10.16|1.67|0.007
92334085|NCT01763827|184571462|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|9.33|||<|0.001|TWO_SIDED|95.0|5.32|13.34||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||13.34|5.32|<0.001
92334086|NCT01763827|184571462|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|7.56||||0.013|TWO_SIDED|95.0|3.11|12.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||12.00|3.11|0.013
92334087|NCT01763827|184571462|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|5.53||||0.044|TWO_SIDED|95.0|2.22|8.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||8.84|2.22|0.044
92334088|NCT02384538|184571511|OTHER||LS Mean Difference|1.52||||0.386|TWO_SIDED|95.0|-1.944|4.99||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||||4.990|-1.944|0.386
92334089|NCT02384538|184571513|OTHER||LS Mean Difference|2.55||||0.383|TWO_SIDED|95.0|-3.214|8.308||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||Week 16||8.308|-3.214|0.383
92334090|NCT02384538|184571514|OTHER||LS Mean Difference|0.15||||0.719|TWO_SIDED|95.0|-0.677|0.979||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||Week 16||0.979|-0.677|0.719
92334091|NCT02384538|184571515|OTHER||LS Mean Difference|4.25||||0.387|TWO_SIDED|95.0|-5.448|13.945||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||Week 16||13.945|-5.448|0.387
92334092|NCT02384538|184571516|OTHER||LS Mean Difference|0.45||||0.281|TWO_SIDED|95.0|-0.373|1.272||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||Week 16||1.272|-0.373|0.281
92334093|NCT02384538|184571517|OTHER||LS Mean Difference|0.52||||0.212|TWO_SIDED|95.0|-0.3|1.336||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||Week 16||1.336|-0.300|0.212
92334094|NCT02872909|184571518|SUPERIORITY||Mean Difference (Final Values)|1.37|||<|0.05|TWO_SIDED|95.0|0.71|2.54||calculated as \<0.05 for 85% power|t-test, 2 sided|Analysed on log transformed data||Sample size requirement estimation - Preliminary data showed pain scores of 1.25 with ambulatory PDT (n=12) and 5.26 (SD 2.38) for conventional PDT (n=50). Estimated that for 85% power to detect as significant at 5% level a difference in mean pain score in one group of 2cm compared with 4 cm in the other group, assuming two-sided testing, a minimum of 45 subjects needed. We aimed for 50 subjects, with an allocation ratio of 2 (twice as many randomised to ambulatory PDT as conventional PDT)||2.54|0.71|<0.05
92334095|NCT02872909|184571521|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
92334096|NCT02187029|184571528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-52.55|||||TWO_SIDED|90.0|-56.32|-48.78|||Bayesian ANCOVA|||||-48.780|-56.320|
92334097|NCT02187029|184571528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.31|||||TWO_SIDED|90.0|-71.31|-61.54|||Bayesian ANCOVA|||||-61.540|-71.310|
92334098|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||||90.0|-0.55|-0.06|||Mixed Models Analysis|||Day 1, Hour 1||-0.06|-0.55|
92334099|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.95|-0.28|||Mixed Models Analysis|||Day 1, Hour 2||-0.28|-0.95|
92334100|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|-1.52|-1.16|||Mixed Models Analysis|||Day 1, Hour 4||-1.16|-1.52|
92334101|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.86|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-2.38|-1.33|||Mixed Models Analysis|||Day 1, Hour 8||-1.33|-2.38|
92334102|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.83|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-2.18|-1.48|||Mixed Models Analysis|||Day 1, Hour 12||-1.48|-2.18|
92334103|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-2.11|-1.37|||Mixed Models Analysis|||Day 1, Hour 24||-1.37|-2.11|
92334104|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.48|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-2.89|-2.06|||Mixed Models Analysis|||Day 3||-2.06|-2.89|
92334105|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.75|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-3.29|-2.2|||Mixed Models Analysis|||Day 7, pre-dose||-2.20|-3.29|
92334106|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-3.39|-2.21|||Mixed Models Analysis|||Day 7, Hour 1||-2.21|-3.39|
92334107|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.06|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-3.72|-2.41|||Mixed Models Analysis|||Day 7, Hour 2||-2.41|-3.72|
92334108|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|90.0|-4.03|-2.77|||Mixed Models Analysis|||Day7, Hour 4||-2.77|-4.03|
92334109|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-3.82|-2.79|||Mixed Models Analysis|||Day 7, Hour 8||-2.79|-3.82|
92334110|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-3.72|-2.68|||Mixed Models Analysis|||Day 7, Hour 12||-2.68|-3.72|
92334111|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.81|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-3.3|-2.32|||Mixed Models Analysis|||Day 7, Hour 24||-2.32|-3.30|
92334112|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.56|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|90.0|-5.19|-3.92|||Mixed Models Analysis|||Day 11||-3.92|-5.19|
92334113|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.32|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-4.75|-3.88|||Mixed Models Analysis|||Day 14, pre-dose||-3.88|-4.75|
92334114|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.55|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-5.02|-4.08|||Mixed Models Analysis|||Day 14, Hour 1||-4.08|-5.02|
92334115|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.97|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-5.47|-4.47|||Mixed Models Analysis|||Day 14, Hour 2||-4.47|-5.47|
92334116|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.43|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|-5.83|-5.02|||Mixed Models Analysis|||Day 14, Hour 4||-5.02|-5.83|
92334117|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.57|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-6.08|-5.05|||Mixed Models Analysis|||Day 14, Hour 8||-5.05|-6.08|
92334118|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.34|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-5.86|-4.82|||Mixed Models Analysis|||Day 14, Hour 12||-4.82|-5.86|
92334119|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.65|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-5.12|-4.18|||Mixed Models Analysis|||Day 14, Hour 24||-4.18|-5.12|
92334120|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.09|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|-2.97|0.79|||Mixed Models Analysis|||Follow-up, Day 25-29||0.79|-2.97|
92334121|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.92|-0.32|||Mixed Models Analysis|||Day 1, Hour 1||-0.32|-0.92|
92334122|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-1.61|-0.75|||Mixed Models Analysis|||Day 1, Hour 2||-0.75|-1.61|
92334123|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.91|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|90.0|-3.14|-2.69|||Mixed Models Analysis|||Day 1, Hour 4||-2.69|-3.14|
92334124|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|90.0|-4.36|-3.03|||Mixed Models Analysis|||Day 1, Hour 8||-3.03|-4.36|
92334125|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.84|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-4.28|-3.4|||Mixed Models Analysis|||Day 1, Hour 12||-3.40|-4.28|
92334126|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.47|STANDARD_ERROR_OF_MEAN|0.26||||90.0|-3.94|-3.0|||Mixed Models Analysis|||Day 1, Hour 24||-3.00|-3.94|
92334127|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.76|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-5.29|-4.23|||Mixed Models Analysis|||Day 3||-4.23|-5.29|
92334128|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.81|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-6.62|-5.0|||Mixed Models Analysis|||Day 7, pre-dose||-5.00|-6.62|
92334129|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.84|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|90.0|-6.72|-4.95|||Mixed Models Analysis|||Day 7, Hour 1||-4.95|-6.72|
92334130|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.18|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|90.0|-7.17|-5.19|||Mixed Models Analysis|||Day 7, Hour 2||-5.19|-7.17|
92334131|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.51|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-7.46|-5.55|||Mixed Models Analysis|||Day 7, Hour 4||-5.55|-7.46|
92334132|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.29|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|90.0|-7.07|-5.51|||Mixed Models Analysis|||Day 7, Hour 8||-5.51|-7.07|
92334133|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.24|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|90.0|-7.03|-5.44|||Mixed Models Analysis|||Day 7, Hour 12||-5.44|-7.03|
92334134|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.75|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|90.0|-6.5|-4.99|||Mixed Models Analysis|||Day 7, Hour 24||-4.99|-6.50|
92334135|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.62|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-6.59|-4.65|||Mixed Models Analysis|||Day 11||-4.65|-6.59|
92334136|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.76|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-6.42|-5.1|||Mixed Models Analysis|||Day 14, pre-dose||-5.10|-6.42|
92334137|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.96|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|90.0|-6.67|-5.24|||Mixed Models Analysis|||Day 14, Hour 1||-5.24|-6.67|
92334138|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.14|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|90.0|-6.9|-5.38|||Mixed Models Analysis|||Day 14, Hour 2||-5.38|-6.90|
92334139|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.42|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-7.03|-5.81|||Mixed Models Analysis|||Day 14, Hour 4||-5.81|-7.03|
92334140|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.64|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|90.0|-7.41|-5.87|||Mixed Models Analysis|||Day 14, Hour 8||-5.87|-7.41|
92334141|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|90.0|-7.18|-5.63|||Mixed Models Analysis|||Day 14, Hour 12||-5.63|-7.18|
92334142|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.77|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|90.0|-6.47|-5.07|||Mixed Models Analysis|||Day 14, Hour 24||-5.07|-6.47|
92334143|NCT02187029|184571533|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.66|STANDARD_ERROR_OF_MEAN|1.26|||TWO_SIDED|90.0|-4.96|-0.35|||Mixed Models Analysis|||Follow-up, Day 25-29||-0.35|-4.96|
92334144|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0355|STANDARD_ERROR_OF_MEAN|0.0423|||TWO_SIDED|90.0|-0.1103|0.0394|||Mixed Models Analysis|||Day 1, Hour 1||0.0394|-0.1103|
92334145|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0152|STANDARD_ERROR_OF_MEAN|0.0631|||TWO_SIDED|90.0|-0.1269|0.0966|||Mixed Models Analysis|||Day 1, Hour 2||0.0966|-0.1269|
92334146|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0331|STANDARD_ERROR_OF_MEAN|0.0422|||TWO_SIDED|90.0|-0.1078|0.0417|||Mixed Models Analysis|||Day 1, Hour 4||0.0417|-0.1078|
92334147|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0035|STANDARD_ERROR_OF_MEAN|0.0443|||TWO_SIDED|90.0|-0.075|0.082|||Mixed Models Analysis|||Day 1, Hour 8||0.0820|-0.0750|
92334148|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0502|STANDARD_ERROR_OF_MEAN|0.0367|||TWO_SIDED|90.0|-0.1153|0.0149|||Mixed Models Analysis|||Day 1, Hour 12||0.0149|-0.1153|
92334149|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.008|STANDARD_ERROR_OF_MEAN|0.0553|||TWO_SIDED|90.0|-0.1058|0.0899|||Mixed Models Analysis|||Day 1, Hour 24||0.0899|-0.1058|
92334150|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0539|STANDARD_ERROR_OF_MEAN|0.0561|||TWO_SIDED|90.0|-0.1538|0.046|||Mixed Models Analysis|||Day 7, pre-dose||0.0460|-0.1538|
92334151|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0109|STANDARD_ERROR_OF_MEAN|0.0506|||TWO_SIDED|90.0|-0.0793|0.101|||Mixed Models Analysis|||Day 7, Hour 1||0.1010|-0.0793|
92334152|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.033|STANDARD_ERROR_OF_MEAN|0.0496|||TWO_SIDED|90.0|-0.0554|0.1213|||Mixed Models Analysis|||Day 7, Hour 2||0.1213|-0.0554|
92334153|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0086|STANDARD_ERROR_OF_MEAN|0.0459|||TWO_SIDED|90.0|-0.0733|0.0905|||Mixed Models Analysis|||Day 7, Hour 4||0.0905|-0.0733|
92334154|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0244|STANDARD_ERROR_OF_MEAN|0.0349|||TWO_SIDED|90.0|-0.0865|0.0378|||Mixed Models Analysis|||Day 7, Hour 8||0.0378|-0.0865|
92334155|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0526|STANDARD_ERROR_OF_MEAN|0.0251|||TWO_SIDED|90.0|-0.0973|-0.0079|||Mixed Models Analysis|||Day 7, Hour 12||-0.0079|-0.0973|
92334156|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0298|STANDARD_ERROR_OF_MEAN|0.0331|||TWO_SIDED|90.0|-0.0889|0.0292|||Mixed Models Analysis|||Day 7, Hour 24||0.0292|-0.0889|
92334157|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0167|STANDARD_ERROR_OF_MEAN|0.0268|||TWO_SIDED|90.0|-0.0649|0.0315|||Mixed Models Analysis|||Day 14, pre-dose||0.0315|-0.0649|
92334158|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0616|STANDARD_ERROR_OF_MEAN|0.0337|||TWO_SIDED|90.0|0.001|0.1222|||Mixed Models Analysis|||Day 14, Hour 1||0.1222|0.0010|
92334159|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1025|STANDARD_ERROR_OF_MEAN|0.0512|||TWO_SIDED|90.0|0.0104|0.1945|||Mixed Models Analysis|||Day 14, Hour 2||0.1945|0.0104|
92334160|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0062|STANDARD_ERROR_OF_MEAN|0.0495|||TWO_SIDED|90.0|-0.0827|0.0952|||Mixed Models Analysis|||Day 14, Hour 4||0.0952|-0.0827|
92334161|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0124|STANDARD_ERROR_OF_MEAN|0.0443|||TWO_SIDED|90.0|-0.0672|0.0919|||Mixed Models Analysis|||Day 14, Hour 8||0.0919|-0.0672|
92334162|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0186|STANDARD_ERROR_OF_MEAN|0.0408|||TWO_SIDED|90.0|-0.0918|0.0547|||Mixed Models Analysis|||Day 14, Hour 12||0.0547|-0.0918|
92334163|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0413|STANDARD_ERROR_OF_MEAN|0.0433|||TWO_SIDED|90.0|-0.1192|0.0365|||Mixed Models Analysis|||Day 14, Hour 24||0.0365|-0.1192|
92334164|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4011|STANDARD_ERROR_OF_MEAN|0.3916|||TWO_SIDED|90.0|-0.2968|1.099|||Mixed Models Analysis|||Follow-up, Day 25-29||1.0990|-0.2968|
92334165|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1175|STANDARD_ERROR_OF_MEAN|0.0537|||TWO_SIDED|90.0|0.0223|0.2127|||Mixed Models Analysis|||Day 1, Hour 1||0.2127|0.0223|
92334166|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3845|STANDARD_ERROR_OF_MEAN|0.0802|||TWO_SIDED|90.0|0.2424|0.5266|||Mixed Models Analysis|||Day 1, Hour 2||0.5266|0.2424|
92334167|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3812|STANDARD_ERROR_OF_MEAN|0.0536|||TWO_SIDED|90.0|0.2862|0.4762|||Mixed Models Analysis|||Day 1, Hour 4||0.4762|0.2862|
92334168|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2841|STANDARD_ERROR_OF_MEAN|0.0563|||TWO_SIDED|90.0|0.1843|0.3838|||Mixed Models Analysis|||Day 1, Hour 8||0.3838|0.1843|
92334169|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1462|STANDARD_ERROR_OF_MEAN|0.0467|||TWO_SIDED|90.0|0.0635|0.2289|||Mixed Models Analysis|||Day 1, Hour 12||0.2289|0.0635|
92334170|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.168|STANDARD_ERROR_OF_MEAN|0.0702|||TWO_SIDED|90.0|0.0436|0.2924|||Mixed Models Analysis|||Day 1, Hour 24||0.2924|0.0436|
92334171|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1303|STANDARD_ERROR_OF_MEAN|0.083|||TWO_SIDED|90.0|-0.0172|0.2778|||Mixed Models Analysis|||Day 7, pre-dose||0.2778|-0.0172|
92334172|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1953|STANDARD_ERROR_OF_MEAN|0.0747||||90.0|0.0625|0.3281|||Mixed Models Analysis|||Day 7, Hour 1||0.3281|0.0625|
92334173|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5409|STANDARD_ERROR_OF_MEAN|0.0729|||TWO_SIDED|90.0|0.411|0.6707|||Mixed Models Analysis|||Day 7, Hour 2||0.6707|0.4110|
92334174|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5235|STANDARD_ERROR_OF_MEAN|0.0675|||TWO_SIDED|90.0|0.4032|0.6438|||Mixed Models Analysis|||Day 7, Hour 4||0.6438|0.4032|
92334175|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3857|STANDARD_ERROR_OF_MEAN|0.0512|||TWO_SIDED|90.0|0.2944|0.4769|||Mixed Models Analysis|||Day 7, Hour 8||0.4769|0.2944|
92334176|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0216|STANDARD_ERROR_OF_MEAN|0.0368|||TWO_SIDED|90.0|-0.0439|0.0872|||Mixed Models Analysis|||Day 7, Hour 12||0.0872|-0.0439|
92334177|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1708|STANDARD_ERROR_OF_MEAN|0.0486|||TWO_SIDED|90.0|0.0841|0.2574|||Mixed Models Analysis|||Day 7, Hour 24||0.2574|0.0841|
92334178|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.166|STANDARD_ERROR_OF_MEAN|0.0377|||TWO_SIDED|90.0|0.0982|0.2338|||Mixed Models Analysis|||Day 14, pre-dose||0.2338|0.0982|
92334179|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3524|STANDARD_ERROR_OF_MEAN|0.0477|||TWO_SIDED|90.0|0.2667|0.438|||Mixed Models Analysis|||Day 14, Hour 1||0.4380|0.2667|
92334180|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5631|STANDARD_ERROR_OF_MEAN|0.0724|||TWO_SIDED|90.0|0.433|0.6932|||Mixed Models Analysis|||Day 14, Hour 2||0.6932|0.4330|
92334181|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5807|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|0.4549|0.7065|||Mixed Models Analysis|||Day 14, Hour 4||0.7065|0.4549|
92334182|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2814|STANDARD_ERROR_OF_MEAN|0.0627|||TWO_SIDED|90.0|0.1688|0.394|||Mixed Models Analysis|||Day 14, Hour 8||0.3940|0.1688|
92334183|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1982|STANDARD_ERROR_OF_MEAN|0.0577|||TWO_SIDED|90.0|0.0945|0.3019|||Mixed Models Analysis|||Day 14, Hour 12||0.3019|0.0945|
92334184|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1465|STANDARD_ERROR_OF_MEAN|0.0615|||TWO_SIDED|90.0|0.0361|0.2569|||Mixed Models Analysis|||Day 14, Hour 24||0.2569|0.0361|
92334185|NCT02187029|184571539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8565|STANDARD_ERROR_OF_MEAN|0.4796|||TWO_SIDED|90.0|0.0017|1.7112|||Mixed Models Analysis|||Follow-up, Day 25-29||1.7112|0.0017|
92334186|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.348|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|90.0|-0.707|0.01|||Mixed Models Analysis|||Day 1, Hour 1||0.010|-0.707|
92334187|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.179|STANDARD_ERROR_OF_MEAN|0.205|||TWO_SIDED|90.0|-0.533|0.175|||Mixed Models Analysis|||Day 1, Hour 2||0.175|-0.533|
92334188|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.258|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.568|0.052|||Mixed Models Analysis|||Day 1, Hour 4||0.052|-0.568|
92334189|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.046|STANDARD_ERROR_OF_MEAN|0.201||||90.0|-0.39|0.298|||Mixed Models Analysis|||Day 1, Hour 8||0.298|-0.390|
92334190|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.284|STANDARD_ERROR_OF_MEAN|0.168||||90.0|-0.575|0.006|||Mixed Models Analysis|||Day 1, Hour 12||0.006|-0.575|
92334191|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.166|STANDARD_ERROR_OF_MEAN|0.235|||TWO_SIDED|90.0|-0.569|0.237|||Mixed Models Analysis|||Day 1, Hour 24||0.237|-0.569|
92334192|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.263|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.657|0.132|||Mixed Models Analysis|||Day 7, pre-dose||0.132|-0.657|
92334193|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.221|||TWO_SIDED|90.0|-0.46|0.299|||Mixed Models Analysis|||Day 7, Hour 1||0.299|-0.460|
92334194|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.082|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.392|0.228|||Mixed Models Analysis|||Day 7, Hour 2||0.228|-0.392|
92334195|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.083|STANDARD_ERROR_OF_MEAN|0.189|||TWO_SIDED|90.0|-0.408|0.242|||Mixed Models Analysis|||Day 7, Hour 4||0.242|-0.408|
92334196|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.207|STANDARD_ERROR_OF_MEAN|0.174|||TWO_SIDED|90.0|-0.508|0.095|||Mixed Models Analysis|||Day 7, Hour 8||0.095|-0.508|
92334197|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.186|||TWO_SIDED|90.0|-0.451|0.191|||Mixed Models Analysis|||Day 7, Hour 12||0.191|-0.451|
92334198|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.125|STANDARD_ERROR_OF_MEAN|0.186|||TWO_SIDED|90.0|-0.445|0.196|||Mixed Models Analysis|||Day 7, Hour 24||0.196|-0.445|
92334199|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.188|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|90.0|-0.472|0.097|||Mixed Models Analysis|||Day 14, pre-dose||0.097|-0.472|
92334200|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.152|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|90.0|-0.434|0.13|||Mixed Models Analysis|||Day 14, Hour 1||0.130|-0.434|
92334201|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.231|STANDARD_ERROR_OF_MEAN|0.155|||TWO_SIDED|90.0|-0.504|0.043|||Mixed Models Analysis|||Day 14, Hour 2||0.043|-0.504|
92334202|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.405|STANDARD_ERROR_OF_MEAN|0.184|||TWO_SIDED|90.0|-0.722|-0.088|||Mixed Models Analysis|||Day 14, Hour 4||-0.088|-0.722|
92334203|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.249|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.56|0.062|||Mixed Models Analysis|||Day 14, Hour 8||0.062|-0.560|
92334204|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.163|STANDARD_ERROR_OF_MEAN|0.176|||TWO_SIDED|90.0|-0.467|0.141|||Mixed Models Analysis|||Day 14, Hour 12||0.141|-0.467|
92334205|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.317|STANDARD_ERROR_OF_MEAN|0.183|||TWO_SIDED|90.0|-0.633|-0.002|||Mixed Models Analysis|||Day 14, Hour 24||-0.002|-0.633|
92334206|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.094|STANDARD_ERROR_OF_MEAN|0.339|||TWO_SIDED|90.0|-0.683|0.496|||Mixed Models Analysis|||Follow-up, Day 25-29||0.496|-0.683|
92334207|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.266|||TWO_SIDED|90.0|-0.406|0.505|||Mixed Models Analysis|||Day 1, Hour 1||0.505|-0.406|
92334208|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.257|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.193|0.707|||Mixed Models Analysis|||Day 1, Hour 2||0.707|-0.193|
92334209|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.091|STANDARD_ERROR_OF_MEAN|0.229|||TWO_SIDED|90.0|-0.302|0.485|||Mixed Models Analysis|||Day 1, Hour 4||0.485|-0.302|
92334210|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.256|||TWO_SIDED|90.0|-0.107|0.768|||Mixed Models Analysis|||Day 1, Hour 8||0.768|-0.107|
92334211|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.283|STANDARD_ERROR_OF_MEAN|0.214|||TWO_SIDED|90.0|-0.087|0.653|||Mixed Models Analysis|||Day 1, Hour 12||0.653|-0.087|
92334212|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.488|STANDARD_ERROR_OF_MEAN|0.299|||TWO_SIDED|90.0|-0.024|1.0|||Mixed Models Analysis|||Day 1, Hour 24||1.000|-0.024|
92334213|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.206|STANDARD_ERROR_OF_MEAN|0.327|||TWO_SIDED|90.0|-0.356|0.768|||Mixed Models Analysis|||Day 7, pre-dose||0.768|-0.356|
92334214|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.123|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|90.0|-0.41|0.656|||Mixed Models Analysis|||Day 7, Hour 1||0.656|-0.410|
92334215|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.396|STANDARD_ERROR_OF_MEAN|0.246|||TWO_SIDED|90.0|-0.025|0.818|||Mixed Models Analysis|||Day 7, Hour 2||0.818|-0.025|
92334216|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.077|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.523|0.368|||Mixed Models Analysis|||Day 7, Hour 4||0.368|-0.523|
92334217|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.254|STANDARD_ERROR_OF_MEAN|0.237|||TWO_SIDED|90.0|-0.154|0.661|||Mixed Models Analysis|||Day 7, Hour 8||0.661|-0.154|
92334218|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.125|STANDARD_ERROR_OF_MEAN|0.256|||TWO_SIDED|90.0|-0.564|0.315|||Mixed Models Analysis|||Day 7, Hour 12||0.315|-0.564|
92334219|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.458|STANDARD_ERROR_OF_MEAN|0.256|||TWO_SIDED|90.0|0.019|0.897|||Mixed Models Analysis|||Day 7, Hour 24||0.897|0.019|
92334220|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.418|STANDARD_ERROR_OF_MEAN|0.215|||TWO_SIDED|90.0|0.043|0.792|||Mixed Models Analysis|||Day 14, pre-dose||0.792|0.043|
92334221|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.521|STANDARD_ERROR_OF_MEAN|0.213|||TWO_SIDED|90.0|0.15|0.893|||Mixed Models Analysis|||Day 14, Hour 1||0.893|0.150|
92334222|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.204|||TWO_SIDED|90.0|0.172|0.888|||Mixed Models Analysis|||Day 14, Hour 2||0.888|0.172|
92334223|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.357|STANDARD_ERROR_OF_MEAN|0.247|||TWO_SIDED|90.0|-0.069|0.782|||Mixed Models Analysis|||Day 14, Hour 4||0.782|-0.069|
92334224|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.088|STANDARD_ERROR_OF_MEAN|0.242|||TWO_SIDED|90.0|-0.328|0.503|||Mixed Models Analysis|||Day 14, Hour 8||0.503|-0.328|
92334225|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.406|STANDARD_ERROR_OF_MEAN|0.236|||TWO_SIDED|90.0|0.0|0.812|||Mixed Models Analysis|||Day 14, Hour 12||0.812|0.000|
92334226|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|0.377|STANDARD_ERROR_OF_MEAN|0.247|||TWO_SIDED|90.0|-0.047|0.802|||Mixed Models Analysis|||Day 14, Hour 24||0.802|-0.047|
92334227|NCT02187029|184571540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.223|STANDARD_ERROR_OF_MEAN|0.418|||TWO_SIDED|90.0|-0.949|0.502|||Mixed Models Analysis|||Follow-up, Day 25-29||0.502|-0.949|
92334228|NCT02187029|184571541|SUPERIORITY_OR_OTHER||LS Mean Difference|316.89|STANDARD_ERROR_OF_MEAN|166.57|||TWO_SIDED|90.0|21.91|611.88|||Mixed Models Analysis|||Day 1||611.88|21.91|
92334229|NCT02187029|184571541|SUPERIORITY_OR_OTHER||LS Mean Difference|61.97|STANDARD_ERROR_OF_MEAN|88.27|||TWO_SIDED|90.0|-94.87|218.82|||Mixed Models Analysis|||Day 7||218.82|-94.87|
92334230|NCT02187029|184571541|SUPERIORITY_OR_OTHER||LS Mean Difference|107.96|STANDARD_ERROR_OF_MEAN|100.38|||TWO_SIDED|90.0|-71.2|287.11|||Mixed Models Analysis|||Day 14||287.11|-71.20|
92334231|NCT02187029|184571541|SUPERIORITY_OR_OTHER||LS Mean Difference|433.21|STANDARD_ERROR_OF_MEAN|211.71|||TWO_SIDED|90.0|58.3|808.13|||Mixed Models Analysis|||Day 1||808.13|58.30|
92334232|NCT02187029|184571541|SUPERIORITY_OR_OTHER||LS Mean Difference|13.2|STANDARD_ERROR_OF_MEAN|125.47|||TWO_SIDED|90.0|-208.07|234.47|||Mixed Models Analysis|||Day 7||234.47|-208.07|
92334233|NCT02187029|184571541|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.83|STANDARD_ERROR_OF_MEAN|142.95|||TWO_SIDED|90.0|-285.26|225.6|||Mixed Models Analysis|||Day 14||225.60|-285.26|
92334234|NCT02187029|184571542|SUPERIORITY_OR_OTHER||LS Mean Difference|3.44|STANDARD_ERROR_OF_MEAN|1.57|||TWO_SIDED|90.0|0.71|6.17|||Mixed Models Analysis|||Day 1||6.17|0.71|
92334235|NCT02187029|184571542|SUPERIORITY_OR_OTHER||LS Mean Difference|3.67|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|90.0|1.97|5.37|||Mixed Models Analysis|||Day 7||5.37|1.97|
92334236|NCT02187029|184571542|SUPERIORITY_OR_OTHER||LS Mean Difference|8.1|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|6.24|9.96|||Mixed Models Analysis|||Day 14||9.96|6.24|
92334237|NCT02187029|184571542|SUPERIORITY_OR_OTHER||LS Mean Difference|13.12|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|90.0|9.65|16.59|||Mixed Models Analysis|||Day 1||16.59|9.65|
92334238|NCT02187029|184571542|SUPERIORITY_OR_OTHER||LS Mean Difference|27.99|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|25.49|30.49|||Mixed Models Analysis|||Day 7||30.49|25.49|
92334239|NCT02187029|184571542|SUPERIORITY_OR_OTHER||LS Mean Difference|28.77|STANDARD_ERROR_OF_MEAN|1.48|||TWO_SIDED|90.0|26.14|31.41|||Mixed Models Analysis|||Day 14||31.41|26.14|
92334240|NCT02187029|184571543|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|90.0|-1.31|3.1|||Mixed Models Analysis|||Day 1||3.10|-1.31|
92334241|NCT02187029|184571543|SUPERIORITY_OR_OTHER||LS Mean Difference|2.91|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|90.0|0.71|5.11|||Mixed Models Analysis|||Day 7||5.11|0.71|
92334242|NCT02187029|184571543|SUPERIORITY_OR_OTHER||LS Mean Difference|3.59|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|90.0|1.33|5.85|||Mixed Models Analysis|||Day 14||5.85|1.33|
92334243|NCT02187029|184571543|SUPERIORITY_OR_OTHER||LS Mean Difference|1.51|STANDARD_ERROR_OF_MEAN|1.64|||TWO_SIDED|90.0|-1.29|4.31|||Mixed Models Analysis|||Day 1||4.31|-1.29|
92334244|NCT02187029|184571543|SUPERIORITY_OR_OTHER||LS Mean Difference|7.73|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|90.0|4.57|10.89|||Mixed Models Analysis|||Day 7||10.89|4.57|
92334245|NCT02187029|184571543|SUPERIORITY_OR_OTHER||LS Mean Difference|9.07|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|90.0|5.91|12.23|||Mixed Models Analysis|||Day 14||12.23|5.91|
92334246|NCT02187861|184571565|SUPERIORITY_OR_OTHER||Difference in response rates|3.92|||||TWO_SIDED|95.0|-13.38|21.23||||||||21.23|-13.38|
92334247|NCT02187861|184571566|SUPERIORITY_OR_OTHER||Difference in response rates|1.96|||||TWO_SIDED|95.0|-15.89|19.81||||||||19.81|-15.89|
92334248|NCT02187861|184571567|SUPERIORITY_OR_OTHER||Difference in response rates|1.96|||||TWO_SIDED|95.0|-17.07|20.99||||||||20.99|-17.07|
92334249|NCT02187861|184571568|SUPERIORITY_OR_OTHER||Difference in response rates|-7.84|||||TWO_SIDED|95.0|-27.01|11.32||||||||11.32|-27.01|
92334250|NCT02187861|184571569|SUPERIORITY_OR_OTHER||Difference in response rates|13.73|||||TWO_SIDED|95.0|-4.24|31.69||||||At 6-8 weeks after Cycle 6 Day 1||31.69|-4.24|
92334251|NCT02187861|184571569|SUPERIORITY_OR_OTHER||Difference in response rates|3.92|||||TWO_SIDED|95.0|-12.98|20.82||||||At Year 1||20.82|-12.98|
92334252|NCT02187861|184571570|SUPERIORITY_OR_OTHER||Difference in response rates|-15.69|||||TWO_SIDED|95.0|-31.87|0.49||||||At 4-10 weeks after Cycle 6 Day 1||0.49|-31.87|
92334253|NCT02187861|184571570|SUPERIORITY_OR_OTHER||Difference in response rates|-7.84|||||TWO_SIDED|95.0|-22.56|6.87||||||At Year 1||6.87|-22.56|
92334254|NCT02187861|184571576|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.38|1.27|||||HR was calculated using Cox regression.|Stratified Analysis: Strata were disease burden and DOR of prior cancer therapy.||1.27|0.38|
92334255|NCT02187861|184571576|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.43|1.4|||||HR was calculated using Cox regression.|Unstratified Analysis||1.40|0.43|
92334256|NCT02187861|184571578|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.38|1.24|||||HR was calculated using Cox regression.|Stratified Analysis: Strata were disease burden and PFS of prior cancer therapy.||1.24|0.38|
92334257|NCT02187861|184571578|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.43|1.36|||||HR was calculated using Cox regression.|Unstratified Analysis||1.36|0.43|
92334258|NCT02187861|184571580|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.38|1.24|||||HR was calculated using Cox regression.|Stratified Analysis: Strata were disease burden and EFS of prior cancer therapy.||1.24|0.38|
92334259|NCT02187861|184571580|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.43|1.36|||||HR was calculated using Cox regression.|Unstratified Analysis||1.36|0.43|
92334260|NCT02187861|184571582|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.48|||||TWO_SIDED|95.0|0.04|5.37|||||HR was calculated using Cox regression.|Stratified Analysis: Strata were disease burden and OS of prior cancer therapy.||5.37|0.04|
92334261|NCT02187861|184571582|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.05|5.63|||||HR was calculated using Cox regression.|Unstratified Analysis||5.63|0.05|
92334262|NCT01301079|184571600|SUPERIORITY_OR_OTHER|||||||0.113|TWO_SIDED||||||Mann-Whitney|||||||0.113
92334263|NCT01301079|184571601|SUPERIORITY_OR_OTHER|||||||0.946|TWO_SIDED||||||t-test, 2 sided|||||||0.946
92334264|NCT01301079|184571602|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED||||||t-test, 2 sided|||||||0.999
92334265|NCT01301079|184571603|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||t-test, 2 sided|||||||0.019
92334266|NCT01301079|184571604|SUPERIORITY_OR_OTHER|||||||0.652|TWO_SIDED||||||t-test, 2 sided|||||||0.652
92334267|NCT01301079|184571605|SUPERIORITY_OR_OTHER|||||||0.221|TWO_SIDED||||||t-test, 2 sided|||||||0.221
92334268|NCT01301079|184571606|SUPERIORITY_OR_OTHER|||||||0.325|TWO_SIDED||||||t-test, 2 sided|||||||0.325
92334269|NCT01301079|184571607|SUPERIORITY_OR_OTHER|||||||0.386|TWO_SIDED||||||t-test, 2 sided|||||||0.386
92334270|NCT01301079|184571608|SUPERIORITY_OR_OTHER|||||||0.499|TWO_SIDED||||||t-test, 1 sided|||||||0.499
92334271|NCT01301079|184571609|SUPERIORITY_OR_OTHER|||||||0.909|TWO_SIDED||||||t-test, 2 sided|||||||0.909
92334272|NCT01301079|184571610|SUPERIORITY_OR_OTHER|||||||0.737|TWO_SIDED||||||t-test, 2 sided|||||||0.737
92334273|NCT01301079|184571611|SUPERIORITY_OR_OTHER||||||<|0.872|TWO_SIDED||||||t-test, 2 sided|||||||<0.872
92334274|NCT01301079|184571612|SUPERIORITY_OR_OTHER|||||||0.598|TWO_SIDED||||||t-test, 2 sided|||||||0.598
92334275|NCT01301079|184571613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.485|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.485
92334276|NCT01301079|184571614|SUPERIORITY_OR_OTHER|||||||0.744|TWO_SIDED||||||t-test, 2 sided|||||||0.744
92334277|NCT01301079|184571615|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||t-test, 2 sided|||||||0.540
92334278|NCT01301079|184571616|SUPERIORITY_OR_OTHER|||||||0.673|TWO_SIDED||||||t-test, 2 sided|||||||0.673
92334279|NCT01301079|184571617|SUPERIORITY_OR_OTHER|||||||0.586|TWO_SIDED||||||t-test, 2 sided|||||||0.586
92334280|NCT01301079|184571618|SUPERIORITY_OR_OTHER|||||||0.077|TWO_SIDED||||||t-test, 2 sided|||||||0.077
92334281|NCT01301079|184571619|SUPERIORITY_OR_OTHER|||||||0.677|TWO_SIDED||||||t-test, 2 sided|||||||0.677
92334282|NCT01301079|184571620|SUPERIORITY_OR_OTHER|||||||0.545|TWO_SIDED||||||t-test, 2 sided|||||||0.545
92334283|NCT01301079|184571621|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||t-test, 2 sided|||||||0.650
92334284|NCT01301079|184571622|SUPERIORITY_OR_OTHER|||||||0.593|TWO_SIDED||||||t-test, 2 sided|||||||0.593
92334285|NCT01301079|184571623|SUPERIORITY_OR_OTHER|||||||0.313|TWO_SIDED||||||Chi-squared|||||||0.313
92334286|NCT01301079|184571624|SUPERIORITY_OR_OTHER|||||||0.313|TWO_SIDED||||||Chi-squared|||||||0.313
92334287|NCT01301079|184571625|SUPERIORITY_OR_OTHER|||||||0.313|TWO_SIDED||||||Chi-squared|||||||0.313
92334288|NCT01301079|184571626|SUPERIORITY_OR_OTHER|||||||0.611|TWO_SIDED||||||Chi-squared|||||||0.611
92334289|NCT01301079|184571627|SUPERIORITY_OR_OTHER|||||||0.312|TWO_SIDED||||||t-test, 2 sided|||||||0.312
92334290|NCT01301079|184571628|SUPERIORITY_OR_OTHER|||||||0.676|TWO_SIDED||||||t-test, 2 sided|||||||0.676
92334291|NCT01301079|184571629|SUPERIORITY_OR_OTHER|||||||0.938|TWO_SIDED||||||t-test, 2 sided|||||||0.938
92334292|NCT01301079|184571630|SUPERIORITY_OR_OTHER|||||||0.385|TWO_SIDED||||||t-test, 2 sided|||||||0.385
92334293|NCT01301079|184571631|SUPERIORITY_OR_OTHER|||||||0.422|TWO_SIDED||||||t-test, 2 sided|||||||0.422
92334294|NCT01301079|184571632|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.500
92334295|NCT01301079|184571633|SUPERIORITY_OR_OTHER|||||||0.435|TWO_SIDED||||||t-test, 2 sided|||||||0.435
92334296|NCT01301079|184571634|SUPERIORITY_OR_OTHER|||||||0.745|TWO_SIDED||||||t-test, 2 sided|||||||0.745
92334297|NCT01301079|184571635|SUPERIORITY_OR_OTHER|||||||0.557|TWO_SIDED||||||t-test, 2 sided|||||||0.557
92334298|NCT00264290|184571682|OTHER|||||||0.007|||||||Fisher Exact|||||||0.007
92334299|NCT04472494|184571687|SUPERIORITY||Odds Ratio (OR)|1.07||||0.9297|TWO_SIDED|95.0|0.26|4.49|||Cochran-Mantel-Haenszel Chi-Square test|||||4.49|0.26|0.9297
92334300|NCT04472494|184571688|SUPERIORITY||Adjusted mean difference from Placebo|0.64||||0.74|TWO_SIDED|95.0|-0.55|1.82|||Cochran-Mantel-Haenszel|||||1.82|-0.55|0.7400
92334301|NCT04472494|184571689|SUPERIORITY||Estimate of Difference|-0.1||||0.9684|TWO_SIDED|95.0|-20.55|20.34|||Cochran-Mantel-Haenszel Chi-Square test||Estimate of Difference is based on minimum risk weights|||20.34|-20.55|0.9684
92334302|NCT04472494|184571690|SUPERIORITY||Odds Ratio (OR)|0.85||||0.8504|TWO_SIDED|95.0|0.18|3.97|||Cochran-Mantel-Haenszel|||||3.97|0.18|0.8504
92334303|NCT04472494|184571691|SUPERIORITY||Odds Ratio (OR)|2.29||||0.2724|TWO_SIDED|95.0|0.53|9.82|||Cochran-Mantel-Haenszel|||||9.82|0.53|0.2724
92334304|NCT04472494|184571691|SUPERIORITY||Estimate of difference|12.78|||||TWO_SIDED|95.0|-10.61|36.17|||||||Estimate of difference is based on minimum risk weights|36.17|-10.61|
92334305|NCT04472494|184571692|SUPERIORITY||Odds Ratio (OR)|2.03||||0.4734|TWO_SIDED|95.0|0.33|12.64|||Cochran-Mantel-Haenszel|||||12.64|0.33|0.4734
92334306|NCT04472494|184571692|SUPERIORITY||Estimate of difference|5.43|||||TWO_SIDED|95.0|-16.71|27.57|||||Estimate of difference is based on minimum risk weights|||27.57|-16.71|
92334307|NCT01537835|184571707|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|||||p-value is adjusted for multiple comparisons|Kruskal-Wallis|||||||0.17
92334308|NCT01535443|184571731|OTHER|||||||0.374|||||||Traza Pillai|The test was performed with degrees of freedom: 2||||||.374
92334309|NCT03299101|184571773|SUPERIORITY|||||||0.872|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in grip strength across all 4 time points.||||0.872
92334310|NCT03299101|184571773|SUPERIORITY||Mean Difference (Net)|0.57|STANDARD_ERROR_OF_MEAN|0.71||0.423|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in grip strength between baseline and day of surgery.||||0.423
92334311|NCT03299101|184571773|SUPERIORITY||Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|2.12||0.853|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in grip strength between baseline and 90 days postop.||||0.853
92334312|NCT03299101|184571773|SUPERIORITY||Mean Difference (Net)|-1.28|STANDARD_ERROR_OF_MEAN|2.16||0.552|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in grip strength between day of surgery and 90 days postop.||||0.552
92334313|NCT03299101|184571774|SUPERIORITY|||||||0.256||||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in max MIP across all 4 time points.||||0.256
92334314|NCT03299101|184571774|SUPERIORITY||Mean Difference (Net)|4.69|STANDARD_ERROR_OF_MEAN|2.78||0.091|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MIP between baseline and day of surgery.||||0.091
92334315|NCT03299101|184571774|SUPERIORITY||Mean Difference (Net)|6.8|STANDARD_ERROR_OF_MEAN|3.69||0.066|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MIP between baseline and 90 days postop.||||0.066
92334316|NCT03299101|184571774|SUPERIORITY||Mean Difference (Net)|1.86|STANDARD_ERROR_OF_MEAN|3.13||0.552|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MIP between day of surgery and 90 days postop.||||0.552
92334317|NCT03299101|184571775|SUPERIORITY|||||||0.003||||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in mean MIP across all 4 time points.||||0.003
92334318|NCT03299101|184571775|SUPERIORITY||Mean Difference (Net)|7.48|STANDARD_ERROR_OF_MEAN|2.48||0.003|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MIP between baseline and day of surgery.||||0.003
92334319|NCT03299101|184571775|SUPERIORITY||Mean Difference (Net)|10.18|STANDARD_ERROR_OF_MEAN|3.61||0.005|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MIP between baseline and 90 days postop.||||0.005
92334320|NCT03299101|184571775|SUPERIORITY||Mean Difference (Net)|2.31|STANDARD_ERROR_OF_MEAN|2.18||0.29|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MIP between day of surgery and 90 days postop.||||0.290
92334321|NCT03299101|184571776|SUPERIORITY|||||||0.009||||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in maximal inspiratory pressure across all 4 time points.||||0.009
92334322|NCT03299101|184571776|SUPERIORITY||Mean Difference (Net)|12.61|STANDARD_ERROR_OF_MEAN|4.57||0.006|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MEP between baseline and day of surgery.||||0.006
92334323|NCT03299101|184571776|SUPERIORITY||Mean Difference (Net)|12.79|STANDARD_ERROR_OF_MEAN|5.25||0.015|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MEP between baseline and 90 days postop.||||0.015
92334324|NCT03299101|184571776|SUPERIORITY||Mean Difference (Net)|-0.86|STANDARD_ERROR_OF_MEAN|3.42||0.802|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MEP between day of surgery and 90 days postop.||||0.802
92334325|NCT03299101|184571777|SUPERIORITY|||||||0.01||||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in Mean MEP across all 4 time points.||||0.010
92334326|NCT03299101|184571777|SUPERIORITY||Mean Difference (Net)|12.37|STANDARD_ERROR_OF_MEAN|4.35||0.004|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MEP between baseline and day of surgery.||||0.004
92334327|NCT03299101|184571777|SUPERIORITY||Mean Difference (Net)|9.95|STANDARD_ERROR_OF_MEAN|4.9||0.042|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MEP between baseline and 90 days postop.||||0.042
92334328|NCT03299101|184571777|SUPERIORITY||Mean Difference (Net)|-3.77|STANDARD_ERROR_OF_MEAN|3.08||0.221|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MEP between day of surgery and 90 days postop.||||0.221
92334329|NCT03299101|184571778|SUPERIORITY|||||||0.814|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in max SMIP across all 4 time points.||||0.814
92334330|NCT03299101|184571778|SUPERIORITY||Mean Difference (Net)|10.5|STANDARD_ERROR_OF_MEAN|30.91||0.734|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum SMIP between baseline and day of surgery.||||0.734
92334331|NCT03299101|184571778|SUPERIORITY||Mean Difference (Net)|21.07|STANDARD_ERROR_OF_MEAN|22.12||0.341|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum SMIP between baseline and 90 days postop.||||0.341
92334332|NCT03299101|184571778|SUPERIORITY||Mean Difference (Net)|28.55|STANDARD_ERROR_OF_MEAN|37.61||0.448|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum SMIP between day of surgery and 90 days postop.||||0.448
92334333|NCT03299101|184571779|SUPERIORITY|||||||0.419|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in mean SMIP across all 4 time points.||||0.419
92334334|NCT03299101|184571779|SUPERIORITY||Mean Difference (Net)|20.91|STANDARD_ERROR_OF_MEAN|27.03||0.439|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean SMIP between baseline and day of surgery.||||0.439
92334335|NCT03299101|184571779|SUPERIORITY||Mean Difference (Net)|47.67|STANDARD_ERROR_OF_MEAN|26.19||0.069|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean SMIP between baseline and 90 days postop.||||0.069
92334336|NCT03299101|184571779|SUPERIORITY||Mean Difference (Net)|37.11|STANDARD_ERROR_OF_MEAN|37.96||0.328|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean SMIP between day of surgery and 90 days postop.||||0.328
92334337|NCT03299101|184571780|SUPERIORITY|||||||0.196|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in serum prealbumin across all 4 time points.||||0.196
92334338|NCT03299101|184571780|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.19||0.562|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in serum prealbumin between baseline and day of surgery.||||0.562
92334339|NCT03299101|184571780|SUPERIORITY||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.25||0.087|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in serum prealbumin between baseline and 90 days postop.||||0.087
92334340|NCT03299101|184571780|SUPERIORITY||Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|0.23||0.226|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in serum prealbumin between day of surgery and 90 days postop.||||0.226
92334341|NCT03299101|184571781|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in gait speed across all 4 time points.||||0.001
92334342|NCT03299101|184571781|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.04||0.001|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in gait speed between baseline and day of surgery.||||0.001
92334343|NCT03299101|184571781|SUPERIORITY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.05||0.001|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests|Linear mixed models estimated within-person change in gait speed between baseline and 90 days postop.||||0.001
92334344|NCT03299101|184571781|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.874|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in gait speed between day of surgery and 90 days postop.||||0.874
92334345|NCT03299101|184571782|SUPERIORITY|||||||0.854|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in SPPB across all 4 time points.||||0.854
92334346|NCT03299101|184571782|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.32||0.298|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SPPB between baseline and day of surgery.||||0.298
92334347|NCT03299101|184571782|SUPERIORITY||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.31||0.684|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SPPB between baseline and 90 days postop.||||0.684
92334348|NCT03299101|184571782|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.33||0.485|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SPPB between day of surgery and 90 days postop.||||0.485
92334349|NCT03299101|184571783|SUPERIORITY|||||||0.067|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in RAI across all 4 time points.||||0.067
92334350|NCT03299101|184571783|SUPERIORITY||Mean Difference (Net)|2.07|STANDARD_ERROR_OF_MEAN|1.22||0.089|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in RAI between baseline and day of surgery.||||0.089
92334351|NCT03299101|184571783|SUPERIORITY||Mean Difference (Net)|4.37|STANDARD_ERROR_OF_MEAN|1.6||0.006|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in RAI between baseline and 90 days postop.||||0.006
92334352|NCT03299101|184571783|SUPERIORITY||Mean Difference (Net)|1.98|STANDARD_ERROR_OF_MEAN|1.62||0.221|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in RAI between day of surgery and 90 days postop.||||0.221
92334353|NCT03299101|184571784|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in SGA across all 4 time points.||||0.860
92334354|NCT03299101|184571784|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.41|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SGA between baseline and day of surgery.||||0.410
92334355|NCT03299101|184571784|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.17||0.622|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SGA between baseline and 90 days postop.||||0.622
92334356|NCT03299101|184571784|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.15||0.757|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SGA between day of surgery and 90 days postop.||||0.757
92334357|NCT03299101|184571785|SUPERIORITY|||||||0.362|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in 6 Minute Walk Test across all 4 time points.||||0.362
92334358|NCT03299101|184571785|SUPERIORITY||Mean Difference (Net)|25.52|STANDARD_ERROR_OF_MEAN|20.06||0.203|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in 6 Minute Walk Test between baseline and day of surgery.||||.203
92334359|NCT03299101|184571785|SUPERIORITY||Mean Difference (Net)|12.7|STANDARD_ERROR_OF_MEAN|13.77||0.357|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<0.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in 6 Minute Walk Test between baseline and 90 days postop.||||0.357
92334360|NCT03299101|184571785|SUPERIORITY||Mean Difference (Net)|21.48|STANDARD_ERROR_OF_MEAN|15.4||0.163|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<0.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in 6 Minute Walk Test between day of surgery and 90 days postop.||||0.163
92334361|NCT03299101|184571786|SUPERIORITY|||||||0.068|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change across all 4 time points.||||0.068
92334362|NCT03299101|184571786|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.043|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change between baseline and day of surgery.||||0.043
92334363|NCT03299101|184571786|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.092|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change between baseline and 90 days postop.||||0.092
92334364|NCT03299101|184571786|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.292|TWO_SIDED||||||Mixed Models Analysis|The null hypothesis was rejected a priori if p\<.05.|The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MEP between day of surgery and 90 days postop.||||0.292
92334365|NCT03299101|184571787|SUPERIORITY|||||||0.625|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change across both time points.||||0.625
92334366|NCT03585712|184571796|OTHER|Is the overall mean change from baseline different from zero? Or did the infringement of schedule regardless the type of infringement lead to a change in mucus score?||||||0.26||||||P value from model testing intercept (does infringement change mucus score?) P-value from a repeated measures mixed model with the period, intervention, sequence and time (visit) as covariates. P-values ≤0.050 are considered significant|Mixed Models Analysis|||"Mixed model for repeated measures using as response delta to Day41, delta to Day42, delta to Day70 and delta to Day71.~Covariates: period, intervention (missed pill or delayed pill), sequence of intervention (missed pill then delayed pill and vice versa), time and subject.~Subject as random effect + time repeated effect within each combination subject\* period"||||0.26
92334367|NCT03585712|184571797|OTHER||||||>|0.999||||||p values \> 0.050 (Not Statistically significant)|McNemar|McNemar test comparing agreement in the missed and delayed periods||Absence of risk increase||||>0.999
92334368|NCT03585712|184571797|OTHER|||||||0.655||||||p values \> 0.050 (Not Statistically significant)|McNemar|McNemar test comparing agreement in the missed and delayed periods||Transient risk increase||||0.655
92334369|NCT03585712|184571797|OTHER|||||||0.317||||||p values \> 0.050 (Not Statistically significant)|McNemar|McNemar test comparing agreement in the missed and delayed periods||Prolonged risk increase||||0.317
92334370|NCT03585712|184571798|OTHER||||||<|0.001||||||Indicates significance at the 0.05 level (p-value ≤ 0.05)|McNemar|P-value from an exact kappa test comparing agreement of ovarian status vs the reported perfect use period||A stratified McNemar test (stratification on the site, AGREE option in SAS) was used to compare the distribution of ovarian activity classification in the perfect use period to the delayed and missed pill periods (pairwise vs perfect use). The worst (meaning most risk of ovulation) ovarian activity category in the period was used for the analyses.||||<0.001
92334371|NCT03585712|184571798|OTHER||||||<|0.001||||||Indicates significance at the 0.05 level (p-value ≤ 0.05)|McNemar|P-value from an exact kappa test comparing agreement of ovarian status vs the reported perfect use period.||A stratified McNemar test (stratification on the site, AGREE option in SAS) was used to compare the distribution of ovarian activity classification in the perfect use period to the delayed and missed pill periods (pairwise vs perfect use). The worst (meaning most risk of ovulation) ovarian activity category in the period was used for the analyses.||||<0.001
92334372|NCT03585712|184571799|OTHER|||||||0.127|||||||McNemar|P-value from an exact kappa test comparing agreement of cervical mucus score classification vs the reported perfect use period||Stratified McNemar test (stratification on the site, AGREE option in SAS) to compare the distribution of cervical mucus scores in the perfect use period to the delayed and missed pill periods (pairwise vs perfect use).||||0.127
92334373|NCT03585712|184571799|OTHER|||||||0.018||||||\* Indicates significance at the 0.05 level (p-value ≤ 0.05).|McNemar|P-value from an exact kappa test comparing agreement of cervical mucus score classification vs the reported perfect use period.||Stratified McNemar test (stratification on the site, AGREE option in SAS) to compare the distribution of cervical mucus scores in the perfect use period to the delayed and missed pill periods (pairwise vs perfect use).||||0.018
92334374|NCT01900431|184571825|SUPERIORITY||Odds Ratio (OR)|2.1||||0.2354|TWO_SIDED|90.0|0.8|5.6||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using combined estimate for odds ratio obtained by combining the log-transformation of odds ratio from Cochran Mantel-Haenszel (CMH) analyses of the different imputed datasets, using Rubin's formulae, and then by back-transforming the combined estimate. The CMH analyses were adjusted for randomization stratification factor VH level (VH \>= 4 versus VH \<4).||5.6|0.8|0.2354
92334375|NCT01900431|184571826|SUPERIORITY||Least Square (LS) Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.29||0.0127|TWO_SIDED|90.0|-1.223|-0.262||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using mixed effect model with repeated measures (MMRM) with treatment groups, visits and visit-by-treatment groups interaction as fixed categorical effects, as well as, fixed continuous covariate of baseline adjudicated VH.||-0.262|-1.223|0.0127
92334376|NCT01900431|184571827|SUPERIORITY||Odds Ratio (OR)|0.95||||1|TWO_SIDED|90.0|0.11|6.093||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using common odds ratio which came from CMH analysis adjusted for randomization stratification factor VH level (VH \>=4 versus VH \<4).||6.093|0.11|1
92334377|NCT01900431|184571828|SUPERIORITY||LS Mean Difference|5.8|STANDARD_ERROR_OF_MEAN|2.26||0.0153|TWO_SIDED|90.0|1.99|9.67||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using MMRM model with treatment groups, randomization strata of VH level (\<4, \>=4), visits and visit-by-treatment groups interaction as fixed categorical effects, as well as, fixed continuous covariate of baseline BCVA.||9.67|1.99|0.0153
92334378|NCT01900431|184571829|SUPERIORITY||LS Mean Difference|-26.5|STANDARD_ERROR_OF_MEAN|14.2||0.0683|TWO_SIDED|90.0|-50.41|-2.68||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using MMRM model with treatment groups, randomization strata of VH level (\<4, \>=4), visits and visit-by-treatment groups interaction as fixed categorical effects, as well as, fixed continuous covariate of baseline CRT (Automatic measurement from SD-OCT).||-2.68|-50.41|0.0683
92334379|NCT01900431|184571830|SUPERIORITY||LS Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|3.55||0.0825|TWO_SIDED|90.0|-12.374|-0.35||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using MMRM model with treatment groups, randomization strata of VH level (\<4, \>=4), visits and visit-by-treatment groups interaction as fixed categorical effects, as well as, fixed continuous covariate of baseline CRT (Automatic measurement from SD-OCT).||-0.35|-12.374|0.0825
92334380|NCT01900431|184571833|SUPERIORITY||Odds Ratio (OR)|1.07||||1|TWO_SIDED|90.0|0.306|3.845||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using common odds ratio which came from CMH analysis adjusted for randomization stratification factor VH level (VH \>=4 versus VH \<4).||3.845|0.306|1
92334381|NCT00603382|184571861|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.101||||0.095|TWO_SIDED|95.0|-0.018|0.221|||ANCOVA|||||0.221|-0.018|0.095
92334382|NCT00603382|184571861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129||||0.033|TWO_SIDED|95.0|0.011|0.247|||ANCOVA|||||0.247|0.011|0.033
92334383|NCT00603382|184571861|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.204|||<|0.001|TWO_SIDED|95.0|0.089|0.319|||ANCOVA|||||0.319|0.089|<0.001
92334384|NCT00603382|184571861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||<|0.001|TWO_SIDED|95.0|0.111|0.349|||ANCOVA|||||0.349|0.111|<0.001
92334385|NCT00603382|184571861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106||||0.074|TWO_SIDED|95.0|-0.01|0.223|||ANCOVA|||||0.223|-0.010|0.074
92334386|NCT01078298|184571885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.35|||<|0.0001|TWO_SIDED|95.0|2.16|5.21|||Regression, Logistic|||Odds Ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center and cohort.||5.21|2.16|<0.0001
92334387|NCT01078298|184571886|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.53||||0.0001|TWO_SIDED|95.0|1.56|4.1|||Regression, Logistic|||For Week 9 through 24, odds ratio and p-value were calculated from logistic regression model including the main effects of treatment, pooled center and cohort.||4.10|1.56|0.0001
92334388|NCT01078298|184571886|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36||||0.0011|TWO_SIDED|95.0|1.4|3.98|||Regression, Logistic|||For Week 9 through 52, odds ratio and p-value were calculated from logistic regression model including the main effects of treatment, pooled center and cohort.||3.98|1.40|0.0011
92334389|NCT01078298|184571887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.82|||<|0.0001|TWO_SIDED|95.0|2.53|5.78|||Regression, Logistic|||For Week 12, odds ratio and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center and cohort.||5.78|2.53|<0.0001
92334390|NCT01078298|184571887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16||||0.0004|TWO_SIDED|95.0|1.4|3.33|||Regression, Logistic|||For Week 24, odds ratio and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center and cohort.||3.33|1.40|0.0004
92334391|NCT01078298|184571887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98||||0.002|TWO_SIDED|95.0|1.28|3.08|||Regression, Logistic|||For Week 52, odds ratio and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center and cohort.||3.08|1.28|0.0020
92334392|NCT01078298|184571888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.97||||0.0027|TWO_SIDED|95.0|1.26|3.08|||Regression, Logistic|||Odds Ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center and cohort.||3.08|1.26|0.0027
92334393|NCT02379273|184571896|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p = 0.05.|ANOVA|||A Friedman repeated-measures ANOVA on ranks was applied to the unilateral CNC data with follow-up pairwise comparisons based on the Tukey Test.||||<0.001
92334394|NCT02379273|184571896|SUPERIORITY|A Friedman repeated-measures ANOVA on ranks was applied to the bilateral CNC data with follow-up pairwise comparisons based on the Tukey Test.|||||<|0.001||||||The threshold for statistical significance was p = 0.05.|ANOVA|||||||<0.001
92334395|NCT02379273|184571897|SUPERIORITY|A Friedman repeated-measures ANOVA on ranks was applied to the unilateral AzBio data with follow-up pairwise comparisons based on the Tukey Test.|||||<|0.001||||||The threshold for statistical significance was p = 0.05.|ANOVA|||||||<0.001
92334396|NCT02379273|184571897|SUPERIORITY|A Friedman repeated-measures ANOVA on ranks was applied to the bilateral AzBio data with follow-up pairwise comparisons based on the Tukey Test.|||||<|0.001||||||The threshold for statistical significance was p = 0.05.|ANOVA|||||||<0.001
92334397|NCT02379273|184571898|SUPERIORITY|A one-way repeated-measures analysis of variance was applied to the data, with follow-up pairwise comparisons based on the Holm-Sidak method.|||||<|0.001||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||<0.001
92334398|NCT02379273|184571899|SUPERIORITY|A one-way repeated-measures analysis of variance was applied to the data, with follow-up pairwise comparisons based on the Holm-Sidak method.|||||<|0.001|||||||ANOVA|The threshold for statistical significance was p=0.05.||||||<0.001
92334399|NCT02379273|184571900|SUPERIORITY|Pre- and postoperative mean scores were compared based on Friedman repeated-measures analysis of variance with follow-up pairwise comparisons based on the Tukey Test.|||||<|0.001||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||<0.001
92334400|NCT02432144|184571902|SUPERIORITY||LS Mean|-62.28|STANDARD_ERROR_OF_MEAN|4.946|<|0.0001|TWO_SIDED|95.0|-71.98|-52.59||P-values are from generalized estimating equation (GEE) model including baseline value and visit (in this study) as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||Week 0||-52.59|-71.98|< 0.0001
92334401|NCT02432144|184571902|SUPERIORITY||LS Mean|-67.18|STANDARD_ERROR_OF_MEAN|3.224|<|0.0001|TWO_SIDED|95.0|-73.49|-60.86||P-values are from a GEE model including baseline value and visit (in this study) as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||Week 12||-60.86|-73.49|< 0.0001
92334402|NCT02432144|184571902|SUPERIORITY||LS Mean|-64.12|STANDARD_ERROR_OF_MEAN|4.016|<|0.0001|TWO_SIDED|95.0|-71.99|-56.24||P-values are from a GEE model including baseline value and visit (in this study) as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||Week 24||-56.24|-71.99|< 0.0001
92334403|NCT02432144|184571902|SUPERIORITY||LS Mean|-60.8|STANDARD_ERROR_OF_MEAN|5.992|<|0.0001|TWO_SIDED|95.0|-72.54|-49.06||P-values are from a GEE model including baseline value and visit (in this study) as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||Week 36||-49.06|-72.54|< 0.0001
92334404|NCT02432144|184571902|SUPERIORITY||LS Mean|-57.85|||<|0.0001|TWO_SIDED|95.0|-71.87|-43.82||P-values are from a GEE model including baseline value and visit (in this study) as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||Week 48||-43.82|-71.87|< 0.0001
92334405|NCT02371668|184571929|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
92334406|NCT02371668|184571930|SUPERIORITY|||||||0.114|||||||Fisher Exact|||||||0.114
92334407|NCT02371668|184571931|SUPERIORITY|||||||0.4989|||||||Wilcoxon (Mann-Whitney)|||||||0.4989
92334408|NCT02371668|184571932|SUPERIORITY|||||||0.1412|||||||Wilcoxon (Mann-Whitney)|||||||0.1412
92334409|NCT02371668|184571933|SUPERIORITY|||||||0.137|||||||Fisher Exact|||||||0.137
92334410|NCT02371668|184571934|SUPERIORITY|||||||0.2445|||||||Wilcoxon (Mann-Whitney)|||||||0.2445
92334411|NCT02371668|184571935|SUPERIORITY|||||||0.045|||||||Fisher Exact|||||||0.045
92334412|NCT02371668|184571936|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.230
92334413|NCT02371668|184571937|SUPERIORITY|||||||0.646|||||||Fisher Exact|||||||0.646
92334414|NCT00398216|184571938|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Fisher Exact|||||||0.003
92334415|NCT00398216|184571938|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92334416|NCT00398216|184571938|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92334417|NCT00398216|184571938|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
92334418|NCT00398216|184571941|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Fisher Exact|||||||.250
92334419|NCT00398216|184571941|SUPERIORITY_OR_OTHER|||||||0.122|TWO_SIDED||||||Fisher Exact|||||||.122
92334420|NCT00398216|184571941|SUPERIORITY_OR_OTHER|||||||0.124|TWO_SIDED||||||Fisher Exact|||||||.124
92334421|NCT00398216|184571941|SUPERIORITY_OR_OTHER|||||||0.123|TWO_SIDED||||||Fisher Exact|||||||.123
92334422|NCT01048944|184571942|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values are adjusted for multiple comparisons except for specific a priori directional predictions.|Mixed Models Analysis|||Mixed-model repeated measures multivariate analyses of variance assessed Treatment x Day of abstinence (days 3, 24, 45, and 66) based on changes from pre-quit baseline to values of the four post-quit time points (days 3, 24, 45, and 66).||||<0.05
92334423|NCT01133704|184571950|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.719|TWO_SIDED|95.0|0.69|1.7|||Log Rank||Obtained from a Cox proportional hazards model with treatment group as the independent variable, stratified by bisphosphonate use (placebo/sipuleucel-T)|||1.70|0.69|0.719
92334424|NCT01133704|184571951|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.27||||0.331|TWO_SIDED|95.0|0.78|2.07|||Log Rank||Obtained from a Cox proportional hazards model with treatment as the independent variable, and stratified by bisphosphonate use (placebo/sipuleucel-T).|||2.07|0.78|0.331
92334425|NCT02207400|184571952|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-11.612|||<|0.0001|TWO_SIDED|95.0|-13.191|-10.033|||ANCOVA||Difference is Sodium Bicarbonate and Sodium Fluoride Dentifrice minus Sodium Fluoride Dentifrice such that a negative difference favors the first named treatment.|||-10.033|-13.191|<0.0001
92334426|NCT02207400|184571953|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.652|||<|0.0001|TWO_SIDED|95.0|-0.738|-0.566|||ANCOVA||Difference is Sodium Bicarbonate and Sodium Fluoride Dentifrice minus Sodium Fluoride Dentifrice such that a negative difference favors the first named treatment.|||-0.566|-0.738|<0.0001
92334427|NCT02849704|184571959|SUPERIORITY||||||<|0.001||||||a priori threshold for significance: \<0.05|t-test, 2 sided|||||||<0.001
92334428|NCT02849704|184571960|SUPERIORITY||||||>|0.05||||||a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||||>0.05
92334429|NCT02849704|184571961|SUPERIORITY||||||<|0.01||||||a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||||<0.01
92334430|NCT02849704|184571962|SUPERIORITY||||||>|0.05||||||a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||||>0.05
92334431|NCT02849704|184571963|SUPERIORITY||||||<|0.05||||||a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||||<0.05
92334432|NCT02849704|184571964|SUPERIORITY||||||>|0.05||||||a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||||>0.05
92334433|NCT02144077|184572024|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin of -15%|Difference in Percentage|1.6|||<|0.0001|ONE_SIDED|97.5|-6.5||||Farrington and Manning Test|Difference of proportions|||||-6.5|<0.0001
92334434|NCT00368459|184572068|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||For this pilot trial, we did not anticipate power to detect significant, clinically-meaningful between-group differences of the magnitude provided by FDA-approved AD therapies over a 12 month treatment period, but we specified that we would report trends (alpha \<0.1) as a guide to future effectiveness studies.||||>0.1
92334435|NCT00368459|184572069|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
92334436|NCT00368459|184572070|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
92334437|NCT00368459|184572071|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
92334438|NCT00368459|184572072|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
92334439|NCT00368459|184572073|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
92334440|NCT00368459|184572074|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
92334441|NCT00368459|184572075|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Favoring placebo, unadjusted for multiple comparisons|ANCOVA|||||||<0.01
92334442|NCT00368459|184572076|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
92334443|NCT00368459|184572077|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
92334444|NCT02620683|184572078|OTHER||Median Difference (Final Values)|-15.0||||0.006|TWO_SIDED|95.0|-34.6|-5.86|||Wilcoxon (Mann-Whitney)||for a cross over design difference in blood level was calculate buffered lidocaine minus non-buffered lidocaine|The difference between injection type- 95% confidence intervals for the difference between injection types was calculated. For the outcome variable, an assessment of treatment difference by subject, calculated as 1% Buffered minus 2% Non-Buffered, was performed using Wilcoxon signed rank tests (SAS v 9.3). Statistical significance was set as P \< 0.05 for all outcomes.||-5.86|-34.6|0.006
92334445|NCT02620683|184572079|OTHER||Mean Difference (Final Values)|-0.66||||0.096|TWO_SIDED|95.0|-1.46|0.13|||t-test, 2 sided|||The difference between injection type- 95% confidence intervals for the difference between injection types was calculated. For the outcome variable, an assessment of treatment difference by subject, calculated as 1% Buffered minus 2% Non-Buffered, was performed using ProcTTEST (SAS v 9.3). Statistical significance was set as P \< 0.05 for all outcomes.||0.13|-1.46|0.096
92334446|NCT02620683|184572080|OTHER||Median Difference (Final Values)|-1.0||||0.23|TWO_SIDED|95.0|-4.0|1.0|||Wilcoxon (Mann-Whitney)|||The difference between injection type- 95% confidence intervals for the difference between injection types was calculated. For the outcome variable, an assessment of treatment difference by subject, calculated as 1% Buffered minus 2% Non-Buffered, was performed using Wilcoxon signed rank tests (SAS v 9.3). Statistical significance was set as P \< 0.05 for all outcomes.||1|-4|0.23
92334447|NCT04957212|184572082|EQUIVALENCE|We used an equivalence margin of 0.2 for the primary endpoint.|Risk Difference (RD)|-0.04||||0.54|TWO_SIDED|95.0|-0.16|0.09|||Chi-squared|||||0.09|-0.16|0.54
92334448|NCT04957212|184572083|OTHER||Risk Difference (RD)|-0.07||||0.26|TWO_SIDED|95.0|-0.21|0.06|||Chi-squared|||||0.06|-0.21|0.26
92334449|NCT04957212|184572084|OTHER|||||||0.99|||||||Fisher Exact|||||||0.99
92334450|NCT04957212|184572085|OTHER|||||||0.56|||||||Chi-squared|||||||0.56
92334451|NCT02087943|184572111|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-15.01||||0.1308|TWO_SIDED|95.0|-34.52|4.5||Based on an analysis of covariance model with the percentage change from baseline as the response variable and the treatment group and Baseline EASI score stratification (≤ 20, \> 20) as factors.|ANCOVA|||||4.50|-34.52|0.1308
92334452|NCT02087943|184572111|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.6||||0.0347|TWO_SIDED|95.0|-39.7|-1.5||Based on an analysis of covariance model with the percentage change from Baseline as the response variable and the treatment group and Baseline EASI score stratification (≤ 20, \> 20) as factors.|ANCOVA|||||-1.50|-39.70|0.0347
92334453|NCT02087943|184572112|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Proportion|-2.7||||0.4938|TWO_SIDED|95.0|-10.2|4.8||Adjusted treatment differences in proportions using the weighted average of the treatment differences across the stratum of baseline EASI score stratification (≤ 20, \> 20) with, Cochran-Mantel-Haenszel (CMH) weights.|Cochran-Mantel-Haenszel||2-sided 95% Confidence Intervals (CI) is based on a normal approximation to the weighted average.|||4.8|-10.2|0.4938
92334454|NCT02087943|184572112|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Proportion|8.0||||0.1368|TWO_SIDED|95.0|-2.3|18.2||Adjusted treatment differences in proportions using the weighted average of the treatment differences across the stratum of baseline EASI score stratification (≤ 20, \> 20) with, CMH weights.|Cochran-Mantel-Haenszel||2-sided 95% Confidence Intervals (CI) is based on a normal approximation to the weighted average.|||18.2|-2.3|0.1368
92334455|NCT02087943|184572113|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Proportion|-1.5||||0.8589|TWO_SIDED|95.0|-18.0|14.9|||Cochran-Mantel-Haenszel||Adjusted differences in proportions was the weighted average of the treatment differences across the stratum of baseline EASI score stratification (≤ 20, \> 20) with the CMH weights.|||14.9|-18.0|0.8589
92334456|NCT02087943|184572113|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Proportion|9.9||||0.2476|TWO_SIDED|95.0|-6.7|26.6|||Cochran-Mantel-Haenszel||Adjusted differences in proportions was the weighted average of the treatment differences across the stratum of baseline EASI score stratification (≤ 20, \> 20) with the CMH weights.|||26.6|-6.7|0.2476
92334457|NCT02087943|184572114|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.17||||0.5286|TWO_SIDED|95.0|-21.34|10.99|||ANCOVA||Based on an analysis of covariance model with the percentage change from baseline as the response variable, treatment group and baseline EASI stratification (≤ 20, \> 20) as factors, and the baseline average weekly pruritus NRS score as a covariate.|||10.99|-21.34|0.5286
92334458|NCT02087943|184572114|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.17||||0.6092|TWO_SIDED|95.0|-20.22|11.88|||ANCOVA||Based on an analysis of covariance model with the percentage change from baseline as the response variable, treatment group and baseline EASI stratification (≤ 20, \> 20) as factors, and the baseline average weekly pruritus NRS score as a covariate.|||11.88|-20.22|0.6092
92334459|NCT01690299|184572117|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|27.5|||<|0.0001|TWO_SIDED|95.0|14.9|40.1||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||40.1|14.9|< 0.0001
92334460|NCT01690299|184572118|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|35.9|||<|0.0001|TWO_SIDED|95.0|23.3|48.5||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||48.5|23.3|<0.0001
92334461|NCT01690299|184572119|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|18.0||||0.0005|TWO_SIDED|95.0|8.4|27.7||The p-value is from a CMH test stratified by the BMI (Body Mass Index) at screening.|Cochran-Mantel-Haenszel|The p-value is from a CMH test stratified by the BMI at screening.|The Confidence Interval (CI) was weighted using CMH weights according to the number of participants in the two strata.|||27.7|8.4|0.0005
92334462|NCT01690299|184572119|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|25.2|||<|0.0001|TWO_SIDED|95.0|14.8|35.5||The p-value is from a CMH test stratified by the BMI (Body Mass Index) at screening.|Cochran-Mantel-Haenszel|The Confidence Interval (CI) was weighted using CMH weights according to the number of participants in the two strata.||||35.5|14.8|<0.0001
92334463|NCT01690299|184572120|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-31.4|||<|0.0001|TWO_SIDED|95.0|-43.33|-19.46|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||-19.46|-43.33|<0.0001
92334464|NCT01690299|184572120|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-39.85|||<|0.0001|TWO_SIDED|95.0|-51.78|-27.92|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||-27.92|-51.78|<0.0001
92334465|NCT01690299|184572121|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|29.4||||0.0002|TWO_SIDED|95.0|14.9|43.9||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||43.9|14.9|0.0002
92334466|NCT01690299|184572121|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|49.8|||<|0.0001|TWO_SIDED|95.0|36.9|62.7||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||62.7|36.9|<0.0001
92334467|NCT01690299|184572122|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-4.48|||<|0.0001|TWO_SIDED|95.0|-6.82|-2.14|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||-2.14|-6.82|<0.0001
92334468|NCT01690299|184572122|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-3.94||||0.0004|TWO_SIDED|95.0|-6.27|-1.6|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||-1.60|-6.27|0.0004
92334469|NCT01690299|184572123|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|0.93||||0.7112|TWO_SIDED|95.0|-2.05|3.9|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||3.90|-2.05|0.7112
92334470|NCT01690299|184572123|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|2.22||||0.1719|TWO_SIDED|95.0|-0.75|5.19|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||5.19|-0.75|0.1719
92334471|NCT01690299|184572124|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|18.1||||0.0011|TWO_SIDED|95.0|7.6|28.6||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||28.6|7.6|0.0011
92334472|NCT01690299|184572124|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|16.7||||0.0021|TWO_SIDED|95.0|6.5|26.9||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||26.9|6.5|0.0021
92334473|NCT01882803|184572158|OTHER||||||<=|0.0001||||||'\<=' represents '≤'|Exact Binomial Test|The p-value was calculated by 1-sided exact binomial test with the null hypothesis that ORR ≤30%.||ORR was tested against the null (≤30%) by 1-sided exact binomial test at 0.025 level.||||<=0.0001
92334474|NCT03066778|184572171|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.00069|TWO_SIDED|95.0|0.6|0.88|||Log Rank|One-sided p-value based on log-rank test stratified by platinum chemotherapy, ECOG, and LDH|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by platinum chemotherapy, ECOG, and LDH|||0.88|0.60|0.00069
92334475|NCT03066778|184572172|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.01643|TWO_SIDED|95.0|0.64|0.98|||Log Rank|One-sided p-value based on log-rank test stratified by platinum chemotherapy, ECOG, and LDH|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by platinum chemotherapy, ECOG, and LDH|||0.98|0.64|0.01643
92334476|NCT03066778|184572173|SUPERIORITY||Percent Difference|8.9||||0.0227|TWO_SIDED|95.0|0.2|17.4|||Miettinen & Nurminen|One-sided p-value for testing. H0: difference in percent = 0 versus H1: difference in percent \> 0.|Based on Miettinen \& Nurminen method stratified by platinum chemotherapy, ECOG, and LDH. Cisplatin, ECOG 0, LDH ≤ULN and Cisplatin, ECOG 0, LDH \>ULN were combined into one stratum because of small sample size|||17.4|0.2|0.02270
92334477|NCT03066778|184572178|OTHER||Difference in Least Square Means|4.43||||0.04|TWO_SIDED|95.0|0.21|8.66|||Log Rank|||||8.66|0.21|0.040
92334478|NCT03066778|184572181|OTHER||Hazard Ratio (HR)|0.8||||0.208|TWO_SIDED|95.0|0.56|1.14|||Log Rank|Two-sided p-value based on stratified log-rank test|Based on Cox regression model with treatment as a covariate stratified by platinum chemotherapy ECOG, and LDH. Cisplatin, ECOG 0, LDH ≤ULN and Cisplatin, ECOG 0, LDH \>ULN were combined into one stratum because of small sample size|||1.14|0.56|0.208
92334479|NCT00551525|184572183|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significance level 0.05, two-sided test|binomial proportion|||||||<0.001
92334480|NCT00551525|184572186|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.984|||||TWO_SIDED|95.0|0.91|1.063||||||Modeling the association of age with the occurrence of any acute radiotherapy-related adverse event, adjusting for clinical T-stage (pT2 vs. pT3 \[reference level\]), baseline PSA, and Gleason score (\<8 vs. 8-10\[reference level\]).||1.063|0.910|
92334481|NCT00551525|184572186|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.89|1.169||||||Modeling the association of baseline PSA with the occurrence of any acute radiotherapy-related adverse event, adjusting for clinical T-stage (pT2 vs. pT3 \[reference level\]), Gleason score (\<8 vs. 8-10\[reference level\]), and age.||1.169|0.890|
92334482|NCT00551525|184572186|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.307|||||TWO_SIDED|95.0|0.364|4.697||||||Modeling the association of clinical T-stage (pT2 vs. pT3 \[reference level\]) with the occurrence of any acute radiotherapy-related adverse event, adjusting for baseline PSA, Gleason score (\<8 vs. 8-10\[reference level\]), and age.||4.697|0.364|
92334483|NCT00551525|184572186|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.659|||||TWO_SIDED|95.0|0.217|2.006||||||Modeling the association of Gleason score (\<8 vs. 8-10\[reference level\]) with the occurrence of any acute radiotherapy-related adverse event, adjusting for clinical T-stage (pT2 vs. pT3 \[reference level\]), baseline PSA, and age.||2.006|0.217|
92334484|NCT00519584|184572188|SUPERIORITY||Hazard Ratio (HR)|0.17|||<|0.001|TWO_SIDED|95.0|0.08|0.39|||Log Rank||Ropivacaine/dex vs. Ropivacaine/saline|||0.39|0.08|<0.001
92334485|NCT00519584|184572188|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.001|TWO_SIDED|95.0|0.23|0.83|||Log Rank||bupivacaine/dex vs. bupivacaine/Saline|||0.83|0.23|<0.001
92334486|NCT00519584|184572189|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92334487|NCT00519584|184572189|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
92334488|NCT00519584|184572190|SUPERIORITY||||||<|0.001||||||adjusted significance level is 0.025|Wilcoxon (Mann-Whitney)|||||||<0.001
92334489|NCT00519584|184572190|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
92334490|NCT00519584|184572191|SUPERIORITY|||||||0.29||||||adjusted significance level = 0.025|Wilcoxon (Mann-Whitney)|||||||0.29
92334491|NCT00519584|184572191|SUPERIORITY|||||||0.15||||||adjusted significance level = 0.025|Wilcoxon (Mann-Whitney)|||||||0.15
92334492|NCT05259917|184572213|SUPERIORITY||||||<|0.0001|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 300 mg vs Placebo"||||<0.0001
92334493|NCT05259917|184572213|SUPERIORITY|||||||0.0013|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 600 mg vs Placebo"||||0.0013
92334494|NCT05259917|184572214|SUPERIORITY|||||||0.0036|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 300 mg vs Placebo"||||0.0036
92334495|NCT05259917|184572214|SUPERIORITY|||||||0.0032|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 600 mg vs Placebo"||||0.0032
92334496|NCT05259917|184572215|SUPERIORITY|||||||0.0022|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 300 mg vs Placebo"||||0.0022
92334497|NCT05259917|184572215|SUPERIORITY||||||<|0.0001|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 600 mg vs Placebo"||||<0.0001
92334498|NCT03517449|184572243|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|95.0|0.47|0.66|||Log Rank||Regression, Cox method|||0.66|0.47|<0.0001
92334499|NCT03517449|184572244|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.75|||Log Rank||Regression, Cox method|||0.75|0.51|<0.0001
92334500|NCT03517449|184572245|SUPERIORITY||Difference in Percent|17.2|||<|0.0001|TWO_SIDED|95.0|11.5|22.9|||Miettinen & Nurminen method|||||22.9|11.5|<0.0001
92334501|NCT00795769|184572255|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 1 sided|||18% n=9 of the patients vomited compared to the FHCRC historic rate of 28%. p=0.03. PMID: 21372706 reference for historical data at FHCRC.||||0.03
92334502|NCT00795769|184572255|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 1 sided|||Twelve patients (24%) had a greater than two-point increase in MAT score for nausea from baseline by the end of their infusion. That rate compares to the FHCRC historic rate of 58% (p \<0.0001). PMID: 21372706 reference for historical data at FHCRC||||<0.0001
92334503|NCT00073008|184572275|SUPERIORITY_OR_OTHER||Kaplan-Meier estimate|34.5||||||95.0|13.7|55.4|||||Percentage of surviving participants who were progression free 4 months after the date of randomization|||55.4|13.7|
92334504|NCT00073008|184572275|SUPERIORITY_OR_OTHER||Kaplan-Meier estimate|19.7||||||95.0|2.9|36.4|||||Percentage of surviving participants who were progression free 4 months after the date of randomization|||36.4|2.9|
92334505|NCT00073008|184572276|SUPERIORITY_OR_OTHER||Kaplan-Meier estimate|27.1||||||95.0|11.9|42.3|||||Percentage of surviving participants who were progression free 4 months after the date of randomization|||42.3|11.9|
92334506|NCT00073008|184572276|SUPERIORITY_OR_OTHER||Kaplan-Meier estimate|18.3||||||95.0|3.9|32.6|||||Percentage of surviving participants who were progression free 4 months after the date of randomization|||32.6|3.9|
92334507|NCT00808470|184572293|SUPERIORITY_OR_OTHER|||||||0.58|||||||t-test, 2 sided|||15 minutes after exposure||||0.58
92334508|NCT00808470|184572293|SUPERIORITY_OR_OTHER|||||||0.39|||||||t-test, 2 sided|||1 hour and 15 minutes after exposure||||0.39
92334509|NCT00808470|184572293|SUPERIORITY_OR_OTHER|||||||0.51|||||||t-test, 2 sided|||2 Hours 15 minutes after exposure||||.51
92334510|NCT00808470|184572293|SUPERIORITY_OR_OTHER|||||||0.36|||||||t-test, 2 sided|||3 hours, 15 minutes after exposure||||.36
92334511|NCT00808470|184572293|SUPERIORITY_OR_OTHER|||||||0.86|||||||t-test, 2 sided|||1 day after exposure||||.86
92334512|NCT00808470|184572293|SUPERIORITY_OR_OTHER|||||||0.24|||||||t-test, 2 sided|||1 week after exposure||||.24
92334513|NCT01778751|184572300|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.012|TWO_SIDED|95.0|-1.7|-0.2|||Mixed Models Analysis|||Comparison at 3 months||-0.2|-1.7|0.012
92334514|NCT01778751|184572300|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.05|TWO_SIDED|95.0|-2.0|0.0|||Mixed Models Analysis|||Comparison at 6 months||-0.0|-2.0|0.050
92334515|NCT01778751|184572301|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9||||0.303|TWO_SIDED|95.0|-2.7|8.4|||Mixed Models Analysis|||Comparison at 3 months, Scale is 0-100 where a higher score is a better outcome.||8.4|-2.7|0.303
92334516|NCT01778751|184572301|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.7||||0.027|TWO_SIDED|95.0|0.9|14.4|||Mixed Models Analysis|||Comparison at 6 months, Scale is 0-100 where a higher score is a better outcome.||14.4|0.9|0.027
92334517|NCT01778751|184572302|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.83|TWO_SIDED|95.0|0.35|2.34|||Generalized estimating equation (GEE)|||||2.34|0.35|0.830
92334518|NCT01778751|184572302|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.97|TWO_SIDED|95.0|0.33|3.19|||Generalized Estimating Equation (GEE)|||Comparison at 6 months||3.19|0.33|0.970
92334519|NCT01778751|184572303|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.428|TWO_SIDED|95.0|-3.3|1.4|||Mixed Models Analysis|||Comparison at 3 months. Scale is 0-27 where a lower score is a better outcome, values were dichotomized to indicate whether or not the patient was depressed.||1.4|-3.3|0.428
92334520|NCT01778751|184572303|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1||||0.397|TWO_SIDED|95.0|-1.4|3.6|||Mixed Models Analysis|||Comparison at 6 months. Scale is 0-27 where a lower score is a better outcome, values were dichotomized to indicate whether or not the patient was depressed.||3.6|-1.4|0.397
92334521|NCT01945294|184572335|SUPERIORITY_OR_OTHER||Difference in SVR12 percentage|-11.4|||||TWO_SIDED|95.0|-23.2|0.4||||||||0.4|-23.2|
92334522|NCT02774005|184572367|SUPERIORITY||Odds Ratio (OR)|2.286||||0.0021|TWO_SIDED|95.0|1.352|3.884|||Wald Chi-square|||||3.884|1.352|0.0021
92334523|NCT02774005|184572368|SUPERIORITY||Odds Ratio (OR)|1.646||||0.0873|TWO_SIDED|95.0|0.929|2.918|||Waldi-Chi-Square|||||2.918|0.929|0.0873
92334524|NCT02774005|184572369|SUPERIORITY||Odds Ratio (OR)|7.323||||0.0005|TWO_SIDED|95.0|2.339|25.912|||Waldi-Chi-Square|||||25.912|2.339|0.0005
92334525|NCT01402986|184572371|SUPERIORITY_OR_OTHER||Rate Ratio|0.94||||0.709|TWO_SIDED|95.0|0.67|1.31|||Poisson regression|||The 95 percent (%) confidence interval (CI) for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 versus \[vs\] more than \[\>\] 2 but less than or equal to \[=\<\] 6), atopic asthma status (atopic/non-atopic), chronic oral corticosteroid (OCS) use (presence vs absence) and geographical region as the covariates.||1.31|0.67|0.709
92334526|NCT01402986|184572371|SUPERIORITY_OR_OTHER||Rate Ratio|1.02||||0.904|TWO_SIDED|95.0|0.71|1.46|||Poisson regression|||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \> 2 but =\< 6), atopic asthma status (atopic/non-atopic), chronic OCS use (presence vs absence) and geographical region as the covariates.||1.46|0.71|0.904
92334527|NCT01402986|184572388|SUPERIORITY_OR_OTHER||Rate Ratio|0.62||||0.293|TWO_SIDED|95.0|0.26|1.51|||Poisson regression|||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status (atopic/non-atopic), chronic OCS use (presence vs absence) and geographical region as the covariates.||1.51|0.26|0.293
92334528|NCT01402986|184572388|SUPERIORITY_OR_OTHER||Rate Ratio|0.62||||0.27|TWO_SIDED|95.0|0.27|1.44|||Poisson regression|||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status (atopic/non-atopic), chronic OCS use (presence vs absence) and geographical region as the covariates.||1.44|0.27|0.270
92334529|NCT01402986|184572389|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.257|TWO_SIDED|95.0|0.57|1.16|||Regression, Cox|||||1.16|0.57|0.257
92334530|NCT01402986|184572389|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.225|TWO_SIDED|95.0|0.56|1.15|||Regression, Cox|||||1.15|0.56|0.225
92334531|NCT01402986|184572390|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.538|TWO_SIDED|95.0|0.37|1.68|||Regression, Cox|||||1.68|0.37|0.538
92334532|NCT01402986|184572390|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.561|TWO_SIDED|95.0|0.37|1.71|||Regression, Cox|||||1.71|0.37|0.561
92334533|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|0.73||||0.19|TWO_SIDED|95.0|0.46|1.17|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= median||1.17|0.46|0.190
92334534|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|0.95||||0.856|TWO_SIDED|95.0|0.56|1.61|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= median||1.61|0.56|0.856
92334535|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|1.13||||0.602|TWO_SIDED|95.0|0.71|1.81|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< median||1.81|0.71|0.602
92334536|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|0.91||||0.703|TWO_SIDED|95.0|0.55|1.5|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< median||1.50|0.55|0.703
92334537|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|0.86||||0.455|TWO_SIDED|95.0|0.58|1.28|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= 25th Percentile||1.28|0.58|0.455
92334538|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|1.02||||0.929|TWO_SIDED|95.0|0.66|1.57|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= 25th Percentile||1.57|0.66|0.929
92334539|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|1.26||||0.507|TWO_SIDED|95.0|0.63|2.51|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< 25th Percentile||2.51|0.63|0.507
92334540|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|0.91||||0.805|TWO_SIDED|95.0|0.44|1.89|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< 25th Percentile||1.89|0.44|0.805
92334541|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|0.88||||0.716|TWO_SIDED|95.0|0.44|1.75|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= 75th Percentile||1.75|0.44|0.716
92334542|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|1.51||||0.328|TWO_SIDED|95.0|0.66|3.43|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= 75th Percentile||3.43|0.66|0.328
92334543|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|0.95||||0.804|TWO_SIDED|95.0|0.64|1.41|||Poission regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< 75th Percentile||1.41|0.64|0.804
92334544|NCT01402986|184572391|SUPERIORITY_OR_OTHER||Rate Ratio|0.7||||0.088|TWO_SIDED|95.0|0.47|1.05|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< 75th Percentile||1.05|0.47|0.088
92334545|NCT01402986|184572392|SUPERIORITY_OR_OTHER||Rate Ratio|0.8||||0.365|TWO_SIDED|95.0|0.5|1.29|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 high||1.29|0.50|0.365
92334546|NCT01402986|184572392|SUPERIORITY_OR_OTHER||Rate Ratio|0.97||||0.922|TWO_SIDED|95.0|0.56|1.68|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 high||1.68|0.56|0.922
92334547|NCT01402986|184572392|SUPERIORITY_OR_OTHER||Rate Ratio|1.11||||0.685|TWO_SIDED|95.0|0.67|1.84|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 Low||1.84|0.67|0.685
92334548|NCT01402986|184572392|SUPERIORITY_OR_OTHER||Rate Ratio|1.06||||0.813|TWO_SIDED|95.0|0.66|1.7|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 Low||1.70|0.66|0.813
92334549|NCT01402986|184572393|SUPERIORITY_OR_OTHER||Rate Ratio|0.82||||0.335|TWO_SIDED|95.0|0.56|1.22|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=150 cells/mcgL||1.22|0.56|0.335
92334550|NCT01402986|184572393|SUPERIORITY_OR_OTHER||Rate Ratio|0.88||||0.586|TWO_SIDED|95.0|0.54|1.41|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=150 cells/mcgL||1.41|0.54|0.586
92334551|NCT01402986|184572393|SUPERIORITY_OR_OTHER||Rate Ratio|1.36||||0.331|TWO_SIDED|95.0|0.73|2.52|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<150 cells/mcgL||2.52|0.73|0.331
92334552|NCT01402986|184572393|SUPERIORITY_OR_OTHER||Rate Ratio|1.41||||0.311|TWO_SIDED|95.0|0.73|2.71|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<150 cells/mcgL||2.71|0.73|0.311
92334553|NCT01402986|184572393|SUPERIORITY_OR_OTHER||Rate Ratio|0.81||||0.414|TWO_SIDED|95.0|0.48|1.35|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=300 cells/mcgL||1.35|0.48|0.414
92334554|NCT01402986|184572393|SUPERIORITY_OR_OTHER||Rate Ratio|1.26||||0.463|TWO_SIDED|95.0|0.68|2.36|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=300 cells/mcgL||2.36|0.68|0.463
92334555|NCT01402986|184572393|SUPERIORITY_OR_OTHER||Rate Ratio|1.06||||0.793|TWO_SIDED|95.0|0.67|1.68|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<300 cells/mcgL||1.68|0.67|0.793
92334556|NCT01402986|184572393|SUPERIORITY_OR_OTHER||Rate Ratio|0.77||||0.264|TWO_SIDED|95.0|0.49|1.22|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<300 cells/mcgL||1.22|0.49|0.264
92334557|NCT01402986|184572394|SUPERIORITY_OR_OTHER||Rate Ratio|0.66||||0.245|TWO_SIDED|95.0|0.33|1.32|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \>=12%||1.32|0.33|0.245
92334558|NCT01402986|184572394|SUPERIORITY_OR_OTHER||Rate Ratio|0.76||||0.438|TWO_SIDED|95.0|0.37|1.54|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \>=12%||1.54|0.37|0.438
92334559|NCT01402986|184572394|SUPERIORITY_OR_OTHER||Rate Ratio|1.01||||0.947|TWO_SIDED|95.0|0.66|1.57|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \<12%||1.57|0.66|0.947
92334560|NCT01402986|184572394|SUPERIORITY_OR_OTHER||Rate Ratio|0.97||||0.916|TWO_SIDED|95.0|0.59|1.59|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \<12%||1.59|0.59|0.916
92334561|NCT01402986|184572395|SUPERIORITY_OR_OTHER||Rate Ratio|0.91||||0.723|TWO_SIDED|95.0|0.52|1.56|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1% predicted \<=60%||1.56|0.52|0.723
92334562|NCT01402986|184572395|SUPERIORITY_OR_OTHER||Rate Ratio|1.06||||0.852|TWO_SIDED|95.0|0.6|1.86|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1% predicted \<=60%||1.86|0.60|0.852
92334563|NCT01402986|184572395|SUPERIORITY_OR_OTHER||Rate Ratio|0.86||||0.409|TWO_SIDED|95.0|0.6|1.23|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1% predicted \<=80%||1.23|0.60|0.409
92334564|NCT01402986|184572395|SUPERIORITY_OR_OTHER||Rate Ratio|1.07||||0.744|TWO_SIDED|95.0|0.72|1.58|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1% predicted \<=80%||1.58|0.72|0.744
92334565|NCT01402986|184572396|SUPERIORITY_OR_OTHER||Rate Ratio|0.94||||0.802|TWO_SIDED|95.0|0.58|1.52|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|2 asthma exacerbations in the past year||1.52|0.58|0.802
92334566|NCT01402986|184572396|SUPERIORITY_OR_OTHER||Rate Ratio|0.6||||0.05|TWO_SIDED|95.0|0.36|1.0|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|2 asthma exacerbations in the past year||1.00|0.36|0.050
92334567|NCT01402986|184572396|SUPERIORITY_OR_OTHER||Rate Ratio|0.93||||0.792|TWO_SIDED|95.0|0.56|1.56|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|\> 2 but \< 6 asthma exacerbations in the past year||1.56|0.56|0.792
92334568|NCT01402986|184572396|SUPERIORITY_OR_OTHER||Rate Ratio|1.39||||0.231|TWO_SIDED|95.0|0.81|2.38|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|\> 2 but \< 6 asthma exacerbations in the past year||2.38|0.81|0.231
92334569|NCT01402986|184572397|SUPERIORITY_OR_OTHER||Rate Ratio|0.25||||0.046|TWO_SIDED|95.0|0.06|0.98|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline Serum Periostin \>=Median||0.98|0.06|0.046
92334570|NCT01402986|184572397|SUPERIORITY_OR_OTHER||Rate Ratio|0.47||||0.197|TWO_SIDED|95.0|0.15|1.48|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline Serum Periostin \>=Median||1.48|0.15|0.197
92334571|NCT01402986|184572397|SUPERIORITY_OR_OTHER||Rate Ratio|1.18||||0.708|TWO_SIDED|95.0|0.5|2.79|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline Serum Periostin \< Median||2.79|0.50|0.708
92334572|NCT01402986|184572397|SUPERIORITY_OR_OTHER||Rate Ratio|1.31||||0.594|TWO_SIDED|95.0|0.48|3.57|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline Serum Periostin \< Median||3.57|0.48|0.594
92334573|NCT01402986|184572398|SUPERIORITY_OR_OTHER||Rate Ratio|1.03||||0.975|TWO_SIDED|95.0|0.14|7.67|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \>=12%||7.67|0.14|0.975
92334574|NCT01402986|184572398|SUPERIORITY_OR_OTHER||Rate Ratio|1.66||||0.473|TWO_SIDED|95.0|0.41|6.67|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \>=12%||6.67|0.41|0.473
92334575|NCT01402986|184572398|SUPERIORITY_OR_OTHER||Rate Ratio|0.49||||0.099|TWO_SIDED|95.0|0.21|1.14|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \<12%||1.14|0.21|0.099
92334576|NCT01402986|184572398|SUPERIORITY_OR_OTHER||Rate Ratio|0.42||||0.148|TWO_SIDED|95.0|0.13|1.36|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \<12%||1.36|0.13|0.148
92334577|NCT01402986|184572399|SUPERIORITY_OR_OTHER||Rate Ratio|0.82||||0.698|TWO_SIDED|95.0|0.31|2.19|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 high||2.19|0.31|0.698
92334578|NCT01402986|184572399|SUPERIORITY_OR_OTHER||Rate Ratio|0.55||||0.299|TWO_SIDED|95.0|0.18|1.7|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 high||1.70|0.18|0.299
92334579|NCT01402986|184572399|SUPERIORITY_OR_OTHER||Rate Ratio|0.25||||0.105|TWO_SIDED|95.0|0.05|1.34|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 Low||1.34|0.05|0.105
92334580|NCT01402986|184572399|SUPERIORITY_OR_OTHER||Rate Ratio|0.7||||0.576|TWO_SIDED|95.0|0.2|2.47|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 Low||2.47|0.20|0.576
92334581|NCT01402986|184572400|SUPERIORITY_OR_OTHER||Rate Ratio|0.48||||0.133|TWO_SIDED|95.0|0.19|1.25|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=300 cells/mcgL||1.25|0.19|0.133
92334582|NCT01402986|184572400|SUPERIORITY_OR_OTHER||Rate Ratio|0.46||||0.241|TWO_SIDED|95.0|0.13|1.67|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=300 cells/mcgL||1.67|0.13|0.241
92334583|NCT01402986|184572400|SUPERIORITY_OR_OTHER||Rate Ratio|0.59||||0.51|TWO_SIDED|95.0|0.12|2.84|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<300 cells/mcgL||2.84|0.12|0.510
92334584|NCT01402986|184572400|SUPERIORITY_OR_OTHER||Rate Ratio|0.74||||0.661|TWO_SIDED|95.0|0.19|2.85|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<300 cells/mcgL||2.85|0.19|0.661
92334585|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|6.79||||0.057|TWO_SIDED|95.0|-0.21|13.79|||Repeated measure model|||Baseline serum periostin \>= median||13.79|-0.21|0.057
92334586|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.57||||0.874|TWO_SIDED|95.0|-6.54|7.68|||Repeated measure model|||Baseline serum periostin \>= median||7.68|-6.54|0.874
92334587|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|7.37||||0.028|TWO_SIDED|95.0|0.8|13.95|||Repeated measure model|||Baseline serum periostin \< median||13.95|0.80|0.028
92334588|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|1.09||||0.745|TWO_SIDED|95.0|-5.48|7.66|||Repeated measure model|||Baseline serum periostin \< median||7.66|-5.48|0.745
92334589|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|7.12||||0.011|TWO_SIDED|95.0|1.66|12.58|||Repeated measure model|||Baseline serum periostin \>= 25th percentile||12.58|1.66|0.011
92334590|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.48||||0.863|TWO_SIDED|95.0|-5.93|4.97|||Repeated measure model|||Baseline serum periostin \>= 25th percentile||4.97|-5.93|0.863
92334591|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|6.24||||0.221|TWO_SIDED|95.0|-3.8|16.27|||Repeated measure model|||Baseline serum periostin \< 25th percentile||16.27|-3.80|0.221
92334592|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|8.58||||0.108|TWO_SIDED|95.0|-1.91|19.07|||Repeated measure model|||Baseline serum periostin \< 25th percentile||19.07|-1.91|0.108
92334593|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|9.89||||0.09|TWO_SIDED|95.0|-1.57|21.35|||Repeated measure model|||Baseline serum periostin \>= 75th percentile||21.35|-1.57|0.090
92334594|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.7||||0.908|TWO_SIDED|95.0|-11.19|12.59|||Repeated measure model|||Baseline serum periostin \>= 75th percentile||12.59|-11.19|0.908
92334595|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|6.52||||0.013|TWO_SIDED|95.0|1.41|11.64|||Repeated measure model|||Baseline serum periostin \< 75th percentile||11.64|1.41|0.013
92334596|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|1.23||||0.635|TWO_SIDED|95.0|-3.84|6.29|||Repeated measure model|||Baseline serum periostin \< 75th percentile||6.29|-3.84|0.635
92334597|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|8.89||||0.014|TWO_SIDED|95.0|1.84|15.94|||Repeated measure model|||Th2 high||15.94|1.84|0.014
92334598|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|3.91||||0.28|TWO_SIDED|95.0|-3.19|11.02|||Repeated measure model|||Th2 high||11.02|-3.19|0.280
92334599|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|3.22||||0.292|TWO_SIDED|95.0|-2.78|9.22|||Repeated measure model|||Th2 low||9.22|-2.78|0.292
92334600|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|-1.18||||0.691|TWO_SIDED|95.0|-6.99|4.64|||Repeated measure model|||Th2 low||4.64|-6.99|0.691
92334601|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|8.83||||0.004|TWO_SIDED|95.0|2.85|14.81|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 150 cells/μL||14.81|2.85|0.004
92334602|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|4.25||||0.177|TWO_SIDED|95.0|-1.92|10.43|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 150 cells/μL||10.43|-1.92|0.177
92334603|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|6.05||||0.159|TWO_SIDED|95.0|-2.39|14.5|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||14.50|-2.39|0.159
92334604|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.72||||0.857|TWO_SIDED|95.0|-8.63|7.18|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||7.18|-8.63|0.857
92334605|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|13.75||||0.002|TWO_SIDED|95.0|5.28|22.22|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||22.22|5.28|0.002
92334606|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|5.23||||0.243|TWO_SIDED|95.0|-3.56|14.02|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||14.02|-3.56|0.243
92334607|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|4.37||||0.144|TWO_SIDED|95.0|-1.5|10.24|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 300 cells/μL||10.24|-1.50|0.144
92334608|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.72||||0.804|TWO_SIDED|95.0|-5.01|6.46|||Baseline peripheral blood eosinophil cou|||Baseline peripheral blood eosinophil count \< 300 cells/μ||6.46|-5.01|0.804
92334609|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|11.19||||0.029|TWO_SIDED|95.0|1.15|21.23|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||21.23|1.15|0.029
92334610|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.72||||0.887|TWO_SIDED|95.0|-9.19|10.62|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||10.62|-9.19|0.887
92334611|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|7.67||||0.002|TWO_SIDED|95.0|2.76|12.59|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||12.59|2.76|0.002
92334612|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|2.79||||0.268|TWO_SIDED|95.0|-2.15|7.74|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||7.74|-2.15|0.268
92334613|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|7.82||||0.003|TWO_SIDED|95.0|2.64|13.01|||Repeated measure model|||2 asthma exacerbations in the past year||13.01|2.64|0.003
92334614|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|2.42||||0.361|TWO_SIDED|95.0|-2.78|7.62|||Repeated measure model|||2 asthma exacerbations in the past year||7.62|-2.78|0.361
92334615|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|6.34||||0.185|TWO_SIDED|95.0|-3.06|15.75|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||15.75|-3.06|0.185
92334616|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.08||||0.986|TWO_SIDED|95.0|-9.5|9.34|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||9.34|-9.50|0.986
92334617|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.87||||0.912|TWO_SIDED|95.0|-14.7|16.44|||Repeated measure model|||Chronic OCS use||16.44|-14.70|0.912
92334618|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|-1.46||||0.86|TWO_SIDED|95.0|-17.76|14.84|||Repeated measure model|||Chronic OCS use||14.84|-17.76|0.860
92334619|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|7.56||||0.002|TWO_SIDED|95.0|2.76|12.36|||Repeated measure model|||Without chronic OCS use||12.36|2.76|0.002
92334620|NCT01402986|184572401|SUPERIORITY_OR_OTHER||Difference of LS-mean|1.28||||0.601|TWO_SIDED|95.0|-3.51|6.06|||Repeated measure model|||Without chronic OCS use||6.06|-3.51|0.601
92334621|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.24||||0.145|TWO_SIDED|95.0|-0.57|0.08|||Repeated measure model|||Baseline serum periostin \>= median||0.08|-0.57|0.145
92334622|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.05||||0.759|TWO_SIDED|95.0|-0.28|0.38|||Repeated measure model|||Baseline serum periostin \>= median||0.38|-0.28|0.759
92334623|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.01||||0.936|TWO_SIDED|95.0|-0.38|0.35|||Repeated measure model|||Baseline serum periostin \< median||0.35|-0.38|0.936
92334624|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.28||||0.127|TWO_SIDED|95.0|-0.64|0.08|||Repeated measure model|||Baseline serum periostin \< median||0.08|-0.64|0.127
92334625|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.13||||0.343|TWO_SIDED|95.0|-0.41|0.14|||Repeated measure model|||Baseline serum periostin\>= 25th percentile||0.14|-0.41|0.343
92334626|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.01||||0.928|TWO_SIDED|95.0|-0.29|0.27|||Repeated measure model|||Baseline serum periostin\>= 25th percentile||0.27|-0.29|0.928
92334627|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.23||||0.374|TWO_SIDED|95.0|-0.74|0.28|||Repeated measure model|||Baseline serum periostin \< 25th percentile||0.28|-0.74|0.374
92334628|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.29||||0.259|TWO_SIDED|95.0|-0.81|0.22|||Repeated measure model|||Baseline serum periostin \< 25th percentile||0.22|-0.81|0.259
92334629|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.37||||0.127|TWO_SIDED|95.0|-0.84|0.11|||Repeated measure model|||Baseline serum periostin \>= 75th percentile||0.11|-0.84|0.127
92334630|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.07||||0.775|TWO_SIDED|95.0|-0.56|0.42|||Repeated measure model|||Baseline serum periostin \>= 75th percentile||0.42|-0.56|0.775
92334631|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.1||||0.512|TWO_SIDED|95.0|-0.38|0.19|||Repeated measure model|||Baseline serum periostin \< 75th percentile||0.19|-0.38|0.512
92334632|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.12||||0.404|TWO_SIDED|95.0|-0.4|0.16|||Repeated measure model|||Baseline serum periostin \< 75th percentile||0.16|-0.40|0.404
92334633|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.24||||0.181|TWO_SIDED|95.0|-0.59|0.11|||Repeated measure model|||Th2 high||0.11|-0.59|0.181
92334634|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.25||||0.161|TWO_SIDED|95.0|-0.6|0.1|||Repeated measure model|||Th2 high||0.10|-0.60|0.161
92334635|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.11||||0.54|TWO_SIDED|95.0|-0.47|0.25|||Repeated measure model|||Th2 low||0.25|-0.47|0.540
92334636|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.07||||0.674|TWO_SIDED|95.0|-0.42|0.27|||Repeated measure model|||Th2 low||0.27|-0.42|0.674
92334637|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.22||||0.154|TWO_SIDED|95.0|-0.52|0.08|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 150 cells/μL||0.08|-0.52|0.154
92334638|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.17||||0.271|TWO_SIDED|95.0|-0.48|0.13|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 150 cells/μ||0.13|-0.48|0.271
92334639|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.08||||0.725|TWO_SIDED|95.0|-0.51|0.36|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||0.36|-0.51|0.725
92334640|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.12||||0.559|TWO_SIDED|95.0|-0.53|0.28|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||0.28|-0.53|0.559
92334641|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.47||||0.019|TWO_SIDED|95.0|-0.87|-0.08|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||-0.08|-0.87|0.019
92334642|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.2||||0.348|TWO_SIDED|95.0|-0.61|0.21|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||0.21|-0.61|0.348
92334643|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.03||||0.855|TWO_SIDED|95.0|-0.35|0.29|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 300 cells/μL||0.29|-0.35|0.855
92334644|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.2||||0.203|TWO_SIDED|95.0|-0.5|0.11|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 300 cells/μL||0.11|-0.50|0.203
92334645|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.44||||0.055|TWO_SIDED|95.0|-0.89|0.01|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||0.01|-0.89|0.055
92334646|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.37||||0.104|TWO_SIDED|95.0|-0.82|0.08|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||0.08|-0.82|0.104
92334647|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.07||||0.652|TWO_SIDED|95.0|-0.37|0.23|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||0.23|-0.37|0.652
92334648|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.02||||0.905|TWO_SIDED|95.0|-0.28|0.32|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||0.32|-0.28|0.905
92334649|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.19||||0.198|TWO_SIDED|95.0|-0.49|0.1|||Repeated measure model|||2 asthma exacerbations in the past year||0.10|-0.49|0.198
92334650|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.18||||0.226|TWO_SIDED|95.0|-0.47|0.11|||Repeated measure model|||2 asthma exacerbations in the past year||0.11|-0.47|0.226
92334651|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.14||||0.513|TWO_SIDED|95.0|-0.56|0.28|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||0.28|-0.56|0.513
92334652|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.01||||0.974|TWO_SIDED|95.0|-0.43|0.42|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||0.42|-0.43|0.974
92334653|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.37||||0.226|TWO_SIDED|95.0|-0.97|0.23|||Repeated measure model|||Chronic OCS use||0.23|-0.97|0.226
92334654|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.15||||0.613|TWO_SIDED|95.0|-0.44|0.75|||Repeated measure model|||Chronic OCS use||0.75|-0.44|0.613
92334655|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.17||||0.198|TWO_SIDED|95.0|-0.43|0.09|||Repeated measure model|||Without chronic OCS use||0.09|-0.43|0.198
92334656|NCT01402986|184572402|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.19||||0.165|TWO_SIDED|95.0|-0.45|0.08|||Repeated measure model|||Without chronic OCS use||0.08|-0.45|0.165
92334657|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.23||||0.211|TWO_SIDED|95.0|-0.13|0.6|||Repeated measure model|||Baseline serum periostin \>= median||0.60|-0.13|0.211
92334658|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.16||||0.397|TWO_SIDED|95.0|-0.21|0.53|||Repeated measure model|||Baseline serum periostin \>= median||0.53|-0.21|0.397
92334659|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.19||||0.315|TWO_SIDED|95.0|-0.18|0.56|||Repeated Measure Model|||Baseline serum periostin \< median||0.56|-0.18|0.315
92334660|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.26||||0.166|TWO_SIDED|95.0|-0.11|0.63|||Repeated measure model|||Baseline serum periostin \< median||0.63|-0.11|0.166
92334661|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.17||||0.262||95.0|-0.13|0.47|||Repeated measure model|||Baseline serum periostin \>= 25th percentile||0.47|-0.13|0.262
92334662|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.14||||0.379|TWO_SIDED|95.0|-0.17|0.44|||Repeated measure model|||Baseline serum periostin \>= 25th percentile||0.44|-0.17|0.379
92334663|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.25||||0.387|TWO_SIDED|95.0|-0.32|0.81|||Repeated measure model|||Baseline serum periostin \< 25th percentile||0.81|-0.32|0.387
92334664|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.29||||0.303|TWO_SIDED|95.0|-0.26|0.84|||Repeated measure model|||Baseline serum periostin \< 25th percentile||0.84|-0.26|0.303
92334665|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.37||||0.127|TWO_SIDED|95.0|-0.84|0.11|||Repeated measure model|||Baseline serum periostin \>=75th percentile||0.11|-0.84|0.127
92334666|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.07||||0.775|TWO_SIDED|95.0|-0.56|0.42|||Repeated measure model|||Baseline serum periostin \>=75th percentile||0.42|-0.56|0.775
92334667|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.1||||0.512|TWO_SIDED|95.0|-0.38|0.19|||Repeated measure model|||Baseline serum periostin \< 75th percentile||0.19|-0.38|0.512
92334668|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.12||||0.404|TWO_SIDED|95.0|-0.4|0.16|||Repeated measure model|||Baseline serum periostin \< 75th percentile||0.16|-0.40|0.404
92334669|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.31||||0.102|TWO_SIDED|95.0|-0.06|0.69|||Repeated measure model|||Th2 high||0.69|-0.06|0.102
92334670|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.3||||0.116|TWO_SIDED|95.0|-0.08|0.68|||Repeated measure model|||Th2 high||0.68|-0.08|0.116
92334671|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.11||||0.54|TWO_SIDED|95.0|-0.47|0.25|||Repeated measure model|||Th2 low||0.25|-0.47|0.540
92334672|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.07||||0.674|TWO_SIDED|95.0|-0.42|0.27|||Repeated measure model|||Th2 low||0.27|-0.42|0.674
92334673|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.17||||0.295|TWO_SIDED|95.0|-0.15|0.49|||Repeated measure model|||Baseline peripheral blood eosinophil count \>=150 cells/μL||0.49|-0.15|0.295
92334674|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.16||||0.342|TWO_SIDED|95.0|-0.17|0.49|||Repeated measure model|||Baseline peripheral blood eosinophil count \>=150 cells/μL||0.49|-0.17|0.342
92334675|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.18||||0.406|TWO_SIDED|95.0|-0.24|0.6|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||0.60|-0.24|0.406
92334676|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.38||||0.069|TWO_SIDED|95.0|-0.03|0.79|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||0.79|-0.03|0.069
92334677|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.19||||0.371|TWO_SIDED|95.0|-0.23|0.62|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||0.62|-0.23|0.371
92334678|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.07||||0.766|TWO_SIDED|95.0|-0.37|0.51|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||0.51|-0.37|0.766
92334679|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.24||||0.147|TWO_SIDED|95.0|-0.09|0.57|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 300 cells/μL||0.57|-0.09|0.147
92334680|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.35||||0.031|TWO_SIDED|95.0|0.03|0.68|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 300 cells/μL||0.68|0.03|0.031
92334681|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.59||||0.02|TWO_SIDED|95.0|0.1|1.09|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||1.09|0.10|0.020
92334682|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.29||||0.226|TWO_SIDED|95.0|-0.18|0.77|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||0.77|-0.18|0.226
92334683|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.01||||0.964|TWO_SIDED|95.0|-0.31|0.33|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||0.33|-0.31|0.964
92334684|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.1||||0.533|TWO_SIDED|95.0|-0.22|0.42|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||0.42|-0.22|0.533
92334685|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.17||||0.292|TWO_SIDED|95.0|-0.15|0.5|||Repeated measure model|||2 asthma exacerbations in the past year||0.50|-0.15|0.292
92334686|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.27||||0.097|TWO_SIDED|95.0|-0.05|0.59|||Repeated measure model|||2 asthma exacerbations in the past year||0.59|-0.05|0.097
92334687|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.24||||0.26|TWO_SIDED|95.0|-0.18|0.67|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||0.67|-0.18|0.260
92334688|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.1||||0.648|TWO_SIDED|95.0|-0.33|0.53|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||0.53|-0.33|0.648
92334689|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.28||||0.398|TWO_SIDED|95.0|-0.37|0.93|||Repeated measure model|||Chronic OCS use||0.93|-0.37|0.398
92334690|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.32||||0.327|TWO_SIDED|95.0|-0.95|0.32|||Repeated measure model|||Chronic OCS use||0.32|-0.95|0.327
92334691|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.23||||0.105|TWO_SIDED|95.0|-0.05|0.52|||Repeated measure model|||Without chronic OCS use||0.52|-0.05|0.105
92334692|NCT01402986|184572403|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.31||||0.03|TWO_SIDED|95.0|0.03|0.6|||Repeated measure model|||Without chronic OCS use||0.60|0.03|0.030
92334693|NCT01402986|184572404|SUPERIORITY_OR_OTHER||Rate Ratio|0.95||||0.803|TWO_SIDED|95.0|0.62|1.44|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Atopic asthma||1.44|0.62|0.803
92334694|NCT01402986|184572404|SUPERIORITY_OR_OTHER||Rate Ratio|0.83||||0.457|TWO_SIDED|95.0|0.52|1.35|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Atopic asthma||1.35|0.52|0.457
92334695|NCT01402986|184572404|SUPERIORITY_OR_OTHER||Rate Ratio|0.71||||0.25|TWO_SIDED|95.0|0.4|1.27|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Non-atopic asthma||1.27|0.40|0.250
92334696|NCT01402986|184572404|SUPERIORITY_OR_OTHER||Rate Ratio|1.07||||0.794|TWO_SIDED|95.0|0.66|1.74|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Non-atopic asthma||1.74|0.66|0.794
92334697|NCT01402986|184572405|SUPERIORITY_OR_OTHER||Rate Ratio|1.2||||0.614|TWO_SIDED|95.0|0.59|2.46|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|With chronic OCS use||2.46|0.59|0.614
92334698|NCT01402986|184572405|SUPERIORITY_OR_OTHER||Rate Ratio|1.29||||0.506|TWO_SIDED|95.0|0.61|2.74|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|With chronic OCS use||2.74|0.61|0.506
92334699|NCT01402986|184572405|SUPERIORITY_OR_OTHER||Rate Ratio|0.79||||0.243||95.0|0.53|1.18|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Without chronic OCS use||1.18|0.53|0.243
92334700|NCT01402986|184572405|SUPERIORITY_OR_OTHER||Rate Ratio|0.87||||0.531|TWO_SIDED|95.0|0.57|1.34|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Without chronic OCS use||1.34|0.57|0.531
92334701|NCT03749109|184572420|OTHER||Difference in LS mean|1.74||||0.78|TWO_SIDED|95.0|-10.45|13.94|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma||13.94|-10.45|0.78
92334702|NCT03749109|184572420|OTHER||Difference in LS mean|3.35||||0.29|TWO_SIDED|95.0|-2.89|9.59|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE||9.59|-2.89|0.29
92334703|NCT03749109|184572420|OTHER||Difference in LS mean|0.33||||0.95|TWO_SIDED|95.0|-10.33|10.99|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis||10.99|-10.33|0.95
92334704|NCT03749109|184572421|OTHER||Difference in LS mean|-6.99||||0.65|TWO_SIDED|95.0|-36.8|22.82|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma||22.82|-36.80|0.65
92334705|NCT03749109|184572421|OTHER||Difference in LS mean|-1.13||||0.92|TWO_SIDED|95.0|-22.77|20.51|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE||20.51|-22.77|0.92
92334706|NCT03749109|184572421|OTHER||Difference in LS mean|-5.92||||0.74|TWO_SIDED|95.0|-40.94|29.1|||ANCOVA|ANCOVA adjusted for baseline lesion size.||||29.10|-40.94|0.74
92334707|NCT03749109|184572422|OTHER||Odds Ratio (OR)|1.04||||0.95|TWO_SIDED|95.0|0.38|2.82|||Regression, Logistic|||Endometrioma||2.82|0.38|0.95
92334708|NCT03749109|184572422|OTHER||Odds Ratio (OR)|0.55||||0.39|TWO_SIDED|95.0|0.14|2.17|||Regression, Logistic|||Adenomyosis||2.17|0.14|0.39
92334709|NCT03749109|184572423|OTHER||Odds Ratio (OR)|0.7||||0.6|TWO_SIDED|95.0|0.19|2.65|||Regression, Logistic|||Endometrioma||2.65|0.19|0.60
92334710|NCT03749109|184572423|OTHER||Odds Ratio (OR)|0.35||||0.21|TWO_SIDED|95.0|0.07|1.79|||Regression, Logistic|||Adenomyosis||1.79|0.07|0.21
92334711|NCT03749109|184572424|OTHER||Rate Ratio|2.53||||0.13|TWO_SIDED|95.0|0.76|8.39|||Negative-binomial regression|||Endometrioma - Disappearing Lesions||8.39|0.76|0.13
92334712|NCT03749109|184572424|OTHER||Rate Ratio|0.49||||0.56|TWO_SIDED|95.0|0.04|5.41|||Negative-binomial regression|||Adenomyosis - Disappearing Lesions||5.41|0.04|0.56
92334713|NCT03749109|184572425|OTHER||Difference in LS mean|0.23||||0.97|TWO_SIDED|95.0|-12.78|13.23|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma||13.23|-12.78|0.97
92334714|NCT03749109|184572425|OTHER||Difference in LS mean|0.72||||0.74|TWO_SIDED|95.0|-3.63|5.07|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE||5.07|-3.63|0.74
92334715|NCT03749109|184572426|OTHER||Difference in LS mean|10.13||||0.42|TWO_SIDED|95.0|-14.74|35.0|||ANCOVA|ANCOVA adjusted for baseline lesion size.||||35.00|-14.74|0.42
92334716|NCT03749109|184572427|OTHER||Difference in LS mean|1.09||||0.1|TWO_SIDED|95.0|-0.2|2.38|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma||2.38|-0.20|0.10
92334717|NCT03749109|184572427|OTHER||Difference in LS mean|0.28||||0.67|TWO_SIDED|95.0|-1.02|1.58|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE||1.58|-1.02|0.67
92334718|NCT03749109|184572427|OTHER||Difference in LS mean|0.32||||0.64|TWO_SIDED|95.0|-1.06|1.71|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis||1.71|-1.06|0.64
92334719|NCT03749109|184572428|OTHER||Difference in LS mean|0.21||||0.73|TWO_SIDED|95.0|-1.02|1.44|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 1||1.44|-1.02|0.73
92334720|NCT03749109|184572428|OTHER||Difference in LS mean|0.42||||0.54|TWO_SIDED|95.0|-0.97|1.82|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 2||1.82|-0.97|0.54
92334721|NCT03749109|184572428|OTHER||Difference in LS mean|-0.5||||0.46|TWO_SIDED|95.0|-1.86|0.85|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 3||0.85|-1.86|0.46
92334722|NCT03749109|184572428|OTHER||Difference in LS mean|0.53||||0.49|TWO_SIDED|95.0|-0.99|2.05|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 4||2.05|-0.99|0.49
92334723|NCT03749109|184572428|OTHER||Difference in LS mean|-0.01||||0.99|TWO_SIDED|95.0|-1.32|1.3|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 1||1.30|-1.32|0.99
92334724|NCT03749109|184572428|OTHER||Difference in LS mean|0.17||||0.83|TWO_SIDED|95.0|-1.38|1.71|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 2||1.71|-1.38|0.83
92334725|NCT03749109|184572428|OTHER||Difference in LS mean|-0.74||||0.28|TWO_SIDED|95.0|-2.11|0.63|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 3||0.63|-2.11|0.28
92334726|NCT03749109|184572428|OTHER||Difference in LS mean|0.75||||0.26|TWO_SIDED|95.0|-0.57|2.07|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 4||2.07|-0.57|0.26
92334727|NCT03749109|184572428|OTHER||Difference in LS mean|0.91||||0.19|TWO_SIDED|95.0|-0.49|2.31|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 1||2.31|-0.49|0.19
92334728|NCT03749109|184572428|OTHER||Difference in LS mean|0.07||||0.93|TWO_SIDED|95.0|-1.45|1.58|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 2||1.58|-1.45|0.93
92334729|NCT03749109|184572428|OTHER||Difference in LS mean|-0.13||||0.85|TWO_SIDED|95.0|-1.58|1.32|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 3||1.32|-1.58|0.85
92334730|NCT03749109|184572428|OTHER||Difference in LS mean|0.01||||0.99|TWO_SIDED|95.0|-1.68|1.69|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 4||1.69|-1.68|0.99
92334731|NCT03749109|184572429|OTHER||Difference in LS mean|-7.35||||0.75|TWO_SIDED|95.0|-53.97|39.27|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 2||39.27|-53.97|0.75
92334732|NCT03749109|184572429|OTHER||Difference in LS mean|17.31||||0.42|TWO_SIDED|95.0|-25.41|60.04|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 4||60.04|-25.41|0.42
92334733|NCT03749109|184572429|OTHER||Difference in LS mean|-17.66||||0.47|TWO_SIDED|95.0|-66.3|30.98|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 2||30.98|-66.30|0.47
92334734|NCT03749109|184572429|OTHER||Difference in LS mean|25.61||||0.27|TWO_SIDED|95.0|-21.05|72.27|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 4||72.27|-21.05|0.27
92334735|NCT03749109|184572429|OTHER||Difference in LS mean|-20.95||||0.41|TWO_SIDED|95.0|-71.83|29.92|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 2||29.92|-71.83|0.41
92334736|NCT03749109|184572429|OTHER||Difference in LS mean|2.25||||0.93|TWO_SIDED|95.0|-49.57|54.06|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 4||54.06|-49.57|0.93
92334737|NCT03951753|184572497|OTHER||Least Squares Mean Difference|1.08|STANDARD_ERROR_OF_MEAN|0.107|<|0.001|TWO_SIDED|95.0|0.87|1.29|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||1.29|0.87|<0.001
92334738|NCT03951753|184572497|OTHER||Least Squares Mean Difference|1.92|STANDARD_ERROR_OF_MEAN|0.166|<|0.001|TWO_SIDED|95.0|1.59|2.24|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||2.24|1.59|<0.001
92334739|NCT03951753|184572497|OTHER||Least Squares Mean Difference|0.84|STANDARD_ERROR_OF_MEAN|0.192|<|0.001|TWO_SIDED|95.0|0.46|1.21|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||1.21|0.46|<0.001
92334740|NCT03951753|184572498|OTHER||Least Squares Mean Difference|-38.1|||<|0.001|TWO_SIDED|95.0|-45.4|-30.7|||ANCOVA|||||-30.7|-45.4|<0.001
92334741|NCT03951753|184572498|OTHER||Least Squares Mean Difference|-47.1|||<|0.001|TWO_SIDED|95.0|-54.6|-39.5|||ANCOVA|||||-39.5|-54.6|<0.001
92334742|NCT03951753|184572498|OTHER||Least Squares Mean Difference|-9.0||||0.006|TWO_SIDED|95.0|-15.4|-2.6|||ANCOVA|||||-2.6|-15.4|0.006
92334743|NCT03951753|184572499|OTHER||Least Squares Mean Difference|-14696.1|||<|0.001|TWO_SIDED|95.0|-17045.0|-12347.3|||ANCOVA|||||-12347.3|-17045.0|<0.001
92334744|NCT03951753|184572499|OTHER||Least Squares Mean Difference|-17873.2|||<|0.001|TWO_SIDED|95.0|-20239.0|-15507.4|||ANCOVA|||||-15507.4|-20239.0|<0.001
92334745|NCT03951753|184572499|OTHER||Least Squares Mean Difference|-3177.1||||0.002|TWO_SIDED|95.0|-5194.3|-1159.8|||ANCOVA|||||-1159.8|-5194.3|0.002
92334746|NCT03951753|184572500|OTHER||Least Squares Mean Difference|-1.93|||<|0.001|TWO_SIDED|95.0|-2.18|-1.67|||Mixed Models Analysis|||||-1.67|-2.18|<0.001
92334747|NCT03951753|184572500|OTHER||Least Squares Mean Difference|-2.33|||<|0.001|TWO_SIDED|95.0|-2.58|-2.08|||Mixed Models Analysis|||||-2.08|-2.58|<0.001
92334748|NCT03951753|184572500|OTHER||Least Squares Mean Difference|-0.41|||<|0.001|TWO_SIDED|95.0|-0.63|-0.19|||Mixed Models Analysis|||||-0.19|-0.63|<0.001
92334749|NCT03951753|184572501|OTHER||Least Squares Mean Difference|279.14|STANDARD_ERROR_OF_MEAN|17.366|<|0.001|TWO_SIDED|95.0|245.1|313.18|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||313.18|245.10|<0.001
92334750|NCT03951753|184572501|OTHER||Least Squares Mean Difference|381.23|STANDARD_ERROR_OF_MEAN|21.399|<|0.001|TWO_SIDED|95.0|339.29|423.17|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||423.17|339.29|<0.001
92334751|NCT03951753|184572501|OTHER||Least Squares Mean Difference|102.09|STANDARD_ERROR_OF_MEAN|25.635|<|0.001|TWO_SIDED|95.0|51.84|152.33|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||152.33|51.84|<0.001
92334752|NCT03951753|184572502|OTHER||Least Squares Mean Difference|11.3|||<|0.001|TWO_SIDED|95.0|4.9|17.7|||ANCOVA|||||17.7|4.9|<0.001
92334753|NCT03951753|184572502|OTHER||Least Squares Mean Difference|19.8|||<|0.001|TWO_SIDED|95.0|13.4|26.1|||ANCOVA|||||26.1|13.4|<0.001
92334754|NCT03951753|184572502|OTHER||Least Squares Mean Difference|8.5||||0.003|TWO_SIDED|95.0|3.0|14.0|||ANCOVA|||||14.0|3.0|0.003
92334755|NCT03951753|184572503|OTHER||Least Squares Mean Difference|-3.6|||<|0.001|TWO_SIDED|95.0|-5.5|-1.8|||ANCOVA|||||-1.8|-5.5|<0.001
92334756|NCT03951753|184572503|OTHER||Least Squares Mean Difference|-4.5|||<|0.001|TWO_SIDED|95.0|-6.3|-2.6|||ANCOVA|||||-2.6|-6.3|<0.001
92334757|NCT03951753|184572503|OTHER||Least Squares Mean Difference|-0.8||||0.277|TWO_SIDED|95.0|-2.4|0.7|||ANCOVA|||||0.7|-2.4|0.277
92334758|NCT03951753|184572504|OTHER||Slope|-296.1||||0.044|TWO_SIDED|95.0|-584.8|-7.5|||ANCOVA|||||-7.5|-584.8|0.044
92334759|NCT03951753|184572504|OTHER||Least Squares Mean Difference|-637.7|||<|0.001|TWO_SIDED|95.0|-925.2|-350.2|||ANCOVA|||||-350.2|-925.2|<0.001
92334760|NCT03951753|184572504|OTHER||Least Squares Mean Difference|-341.6||||0.006|TWO_SIDED|95.0|-585.2|-97.9|||ANCOVA|||||-97.9|-585.2|0.006
92334761|NCT03951753|184572505|OTHER||Least Squares Mean Difference|-245.5|||<|0.001|TWO_SIDED|95.0|-357.7|-133.3|||Mixed Models Analysis|||||-133.3|-357.7|<0.001
92334762|NCT03951753|184572505|OTHER||Least Squares Mean Difference|-309.8|||<|0.001|TWO_SIDED|95.0|-423.0|-196.6|||Mixed Models Analysis|||||-196.6|-423.0|<0.001
92334763|NCT03951753|184572505|OTHER||Least Squares Mean Difference|-64.3||||0.187|TWO_SIDED|95.0|-160.3|31.7|||Mixed Models Analysis|||||31.7|-160.3|0.187
92334764|NCT04633291|184572506|NON_INFERIORITY|Based on previous studies, the weighted average VAS discomfort level in healthy subjects using SpeediCath®Standard Male was estimated at 2.3 cm, with 50% increase in VAS was considered clinically relevant. The mean difference non-inferiority margin between catheter coatings was therefore set to 1.2 cm, and non-inferiority was demonstrated if the mean difference was not above 1.2 cm.|Mean Difference (Final Values)|0.04||||0.88|TWO_SIDED|95.0|-0.5|0.58||The threshold for statistical significance was set at 0.05|Mixed Models Analysis|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.||At a 85% power level, the sample size needed to demonstrate non-inferiority of the novel coating to the original the coating was 18 subjects (participants). This was based on a standard deviation of 1.6 cm, a within subject correlation of 0.5 cm, and an assumption of same VAS distribution for the investigational device as for the comparator. With an expected drop-out rate of 20%, 22 subjects were included.||0.58|-0.50|0.88
92334765|NCT04633291|184572507|NON_INFERIORITY|Based on previous studies, the weighted average VAS discomfort level in healthy subjects using SpeediCath®Standard male was estimated at 2.3 cm, with 50% increase in VAS was considered clinically relevant. The mean difference non-inferiority margin between catheter coatings was therefore set to 1.2 cm, and non-inferiority was demonstrated if the mean difference was not above 1.2 cm.|Mean Difference (Final Values)|-0.14||||0.62|TWO_SIDED|95.0|-0.72|0.44||The threshold for statistical significance was set at 0.05.|Mixed Models Analysis|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.||At a 85% power level, the sample size needed to demonstrate non-inferiority of the novel coating to the original the coating was 18 subjects (participants). This was based on a standard deviation of 1.6 cm, a within subject correlation of 0.5 cm, and an assumption of same VAS distribution for the investigational device as for the comparator. With an expected drop-out rate of 20%, 22 subjects were included.||0.44|-0.72|0.62
92334766|NCT04633291|184572508|NON_INFERIORITY|Based on previous studies, the weighted average VAS discomfort level in healthy subjects using SpeediCath®Standard male was estimated at 2.3 cm, with 50% increase in VAS was considered clinically relevant. The mean difference non-inferiority margin between catheter coatings was therefore set to 1.2 cm, and non-inferiority was demonstrated if the mean difference was not above 1.2 cm.|Mean Difference (Final Values)|0.11||||0.63|TWO_SIDED|95.0|-0.36|0.57||The threshold for statistical significance was set at 0.05.|Mixed Models Analysis|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.||At a 85% power level, the sample size needed to demonstrate non-inferiority of the novel coating to the original the coating was 18 subjects (participants). This was based on a standard deviation of 1.6 cm, a within subject correlation of 0.5 cm, and an assumption of same VAS distribution for the investigational device as for the comparator. With an expected drop-out rate of 20%, 22 subjects were included.||0.57|-0.36|0.63
92334767|NCT04633291|184572509|NON_INFERIORITY|Based on previous studies, the weighted average VAS discomfort level in healthy subjects using SpeediCath®Standard male was estimated at 2.3 cm, with 50% increase in VAS was considered clinically relevant. The mean difference non-inferiority margin between catheter coatings was therefore set to 1.2 cm, and non-inferiority was demonstrated if the mean difference was not above 1.2 cm.|Mean Difference (Final Values)|-0.15||||0.19|TWO_SIDED|95.0|-0.38|0.08||The threshold for statistical significance was set at 0.05.|Mixed Models Analysis|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.||At a 85% power level, the sample size needed to demonstrate non-inferiority of the novel coating to the original the coating was 18 subjects (participants). This was based on a standard deviation of 1.6 cm, a within subject correlation of 0.5 cm, and an assumption of same VAS distribution for the investigational device as for the comparator. With an expected drop-out rate of 20%, 22 subjects were included.||0.08|-0.38|0.19
92334768|NCT04633291|184572510|SUPERIORITY||Odds Ratio (OR)|1.76||||0.381|TWO_SIDED|95.0|0.47|6.6||The threshold for statistical significance was set at 0.05.|Proportional odds model|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.|OR=1 corresponds to exact equality. OR \>1 means that the investigational device is evaluated easier than the comparator. OR \<1 means that the comparator device is evaluated easier than the investigational device.|Null hypothesis: No difference between the devices.||6.60|0.47|0.381
92334769|NCT04633291|184572511|SUPERIORITY||Odds Ratio (OR)|7.8||||0.541|TWO_SIDED|95.0|-18.4|34.0||The threshold for statistical significance was set at 0.05.|Proportional odds model|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.|"OR=1 corresponds to exact equality. OR \>1 means that the investigational device is evaluated easier than the comparator. OR \<1 means that the comparator device is evaluated easier than the investigational device.~Of note: Log transformed estimates."|Null hypothesis: No difference between the devices.||34.00|-18.40|0.541
92334770|NCT04633291|184572512|SUPERIORITY||Odds Ratio (OR)|7.17||||0.269|TWO_SIDED|95.0|0.19|265.95||The threshold for statistical significance was set at 0.05.|Regression, Logistic|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.|OR=1 corresponds to exact equality. OR \>1 means that the investigational device is in favor compared to the comparator. OR \<1 means that the comparator device is in favor compared to the investigational device.|Null hypothesis: No difference between the devices.||265.95|0.19|0.269
92334771|NCT04633291|184572513|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.02|64.83||The threshold for statistical significance was set at 0.05.|Regression, Logistic|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.|OR=1 corresponds to exact equality. OR \>1 means that the investigational device is in favor compared to the comparator. OR \<1 means that the comparator device is in favor compared to the investigational device.|Null hypothesis: No difference between the devices.||64.83|0.02|1.0
92334772|NCT04633291|184572514|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.08|12.87||The threshold for statistical significance was set at 0.05.|Regression, Logistic|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.|OR=1 corresponds to exact equality. OR \>1 means that the investigational device is in favor compared to the comparator. OR \<1 means that the comparator device is in favor compared to the investigational device.|Null hypothesis: No difference between the devices.||12.87|0.08|1.0
92334773|NCT01483599|184572540|SUPERIORITY_OR_OTHER|||||||0.002|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (less than or equal to (\<=) 90 kilogram (kg), greater than (\>) 90 kg).||||0.002
92334774|NCT01483599|184572540|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334775|NCT01483599|184572540|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334776|NCT01483599|184572540|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334777|NCT01483599|184572540|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334778|NCT01483599|184572540|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334779|NCT01483599|184572541|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334780|NCT01483599|184572541|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334781|NCT01483599|184572541|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334782|NCT01483599|184572541|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334783|NCT01483599|184572541|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334784|NCT01483599|184572541|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
92334785|NCT01483599|184572542|SUPERIORITY_OR_OTHER||Difference in Percentage|-24.0|||||TWO_SIDED|95.0|-44.0|-4.0||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||-4.0|-44.0|
92334786|NCT01483599|184572542|SUPERIORITY_OR_OTHER||Difference in Percentage|2.8|||||TWO_SIDED|95.0|-17.9|23.5||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||23.5|-17.9|
92334787|NCT01483599|184572542|SUPERIORITY_OR_OTHER||Difference in Percentage|20.4|||||TWO_SIDED|95.0|1.5|39.3||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||39.3|1.5|
92334788|NCT01483599|184572542|SUPERIORITY_OR_OTHER||Difference in Percentage|27.7|||||TWO_SIDED|95.0|9.8|45.6||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||45.6|9.8|
92334789|NCT01483599|184572542|SUPERIORITY_OR_OTHER||Difference in Percentage|25.4|||||TWO_SIDED|95.0|7.2|43.6||||||||43.6|7.2|
92334790|NCT01483599|184572543|SUPERIORITY_OR_OTHER||Difference in Percentage|-15.4|||||TWO_SIDED|95.0|-37.7|6.9||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||6.9|-37.7|
92334791|NCT01483599|184572543|SUPERIORITY_OR_OTHER||Difference in Percentage|10.8|||||TWO_SIDED|95.0|-10.7|32.4||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||32.4|-10.7|
92334792|NCT01483599|184572543|SUPERIORITY_OR_OTHER||Difference in Percentage|22.7|||||TWO_SIDED|95.0|1.8|43.6||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||43.6|1.8|
92334793|NCT01483599|184572543|SUPERIORITY_OR_OTHER||Difference in Percentage|28.7|||||TWO_SIDED|95.0|8.5|49.0||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||49.0|8.5|
92334794|NCT01483599|184572543|SUPERIORITY_OR_OTHER||Difference in Percentage|32.9|||||TWO_SIDED|95.0|13.0|52.8||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||52.8|13.0|
92334795|NCT01483599|184572544|SUPERIORITY_OR_OTHER|||||||0.008|||||||ANOVA on the van Der Waerden score|||||||0.008
92334796|NCT01483599|184572544|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on the van Der Waerden score|||||||< 0.001
92334797|NCT01483599|184572544|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on the van Der Waerden score|||||||< 0.001
92334798|NCT01483599|184572544|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on the van Der Waerden score|||||||< 0.001
92334799|NCT01483599|184572544|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on the van Der Waerden score|||||||< 0.001
92334800|NCT01483599|184572544|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on the van Der Waerden score|||||||< 0.001
92334801|NCT00727090|184572575|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence|||||<|0.05|||||||t-test, 2 sided|||Null Hypothesis: Change in serum sodium from baseline is not different between groups||||<0.05
92334802|NCT01037816|184572583|SUPERIORITY|||||||0.137|||||||ANCOVA|||The treatment effect of the FS-67 patch was estimated by computing the difference in LS means of the FS-67 and placebo patches from the ANCOVA model||||0.137
92334803|NCT01037816|184572584|SUPERIORITY|||||||0.044|||||||ANCOVA|||||||0.044
